From 3e1200b925390ebbd8523f4720bd9dc105b7f51c Mon Sep 17 00:00:00 2001 From: Gwanggyu Sun <32276711+ggsun@users.noreply.github.com> Date: Thu, 20 May 2021 23:21:33 -0700 Subject: [PATCH] Update major raw data flat files to latest versions pulled from EcoCyc (#1065) * Add EcoCyc sourced files from 20201124 * Update sequence.fasta to genome version used by EcoCyc * Address errors introduced by new files in building sim_data and parca * Adjust rates and kd calc to adjust for stoich * Add back promoter optimization constraint * Add probability check * Remove 2CS TFs * Adjust equilibrium rates for new rate representation * Add comments to equilibrium.py * Fix building of ValidationData object * Remove ribosomal complexation reaction and metabolites without masses * Remove complexation reactions depleting full RNAPs * Add comments to complexation reactions of RNAPs with sigma factors * Update equilibrium rates to latest numbers in master * Fix validation data object construction with new flat files * Add complexation reaction that depletes 30S subunit to removed reactions * Add a selenocysteine charging reaction to trna_charging_reactions.tsv * Remove redundant reactions from metabolic reactions * Remove selenocysteine charging reaction * Remove PROLINEMULTI-CPLX[c] from list of enzymes in PRO[c] pathway in amino_acid_pathways.tsv * Update list of irregular complexes in causality network * Add manual changes to support production of all metabolites * Clean up existing changes * Refactor functions in relations.py * Add comments to removed complexation reactions * Temporarily remove proteins produced from alternative splicing * Manually set EG10505-MONOMER as the translation product of EG10505_RNA * Check if enzyme is valid protein molecule * Fix KeyError while building validation data * Add back equilibrium reactions that were removed * Fix analysis scripts that use hardcoded molecule IDs * Fix incorrect compartment tags in ValidationData * Update oriC and terC coordiantes in parameters.tsv * Revert adding of max_iters argument in parca solver * Disable TFs that lead to solver issues * Reactivate all transcription factors * Correctly set compartments of 2CS ligands in equilibrium * Remove complexation reactions that consume DCUS-MONOMER * Removed old or unused flat files * Fix single analysis scripts * Fix multigen analysis scripts * Remove obsolete scripts from reconstruction Co-authored-by: tahorst --- .../causality_network/build_network.py | 28 +- .../analysis/cohort/expression_dynamics.py | 4 +- ...oteinFoldChangeVsTranscriptionFrequency.py | 2 +- .../analysis/multigen/functionalUnits.py | 2 +- .../analysis/multigen/functionalUnitsFC.py | 2 +- .../multigen/probProteinExistAndDouble.py | 2 +- .../multigen/proteinAvgCountVsBurstSize.py | 2 +- .../multigen/proteinCountVsFoldChange.py | 2 +- .../multigen/proteinCountsValidation.py | 17 +- .../multigen/proteinExistVsBurstSize.py | 2 +- .../multigen/proteinFoldChangeVsRnaDeg.py | 2 +- .../proteinFoldChangeVsTranscriptionEvents.py | 2 +- .../proteinFoldChangeVsTranslationEff.py | 2 +- .../analysis/multigen/rnaVsProteinPerCell.py | 2 +- .../multigen/subgenerationalTranscription.py | 11 +- .../analysis/single/cell_wall_expression.py | 68 +- .../analysis/single/equilibriumComparison.py | 4 +- .../analysis/single/flagella_expression.py | 123 +- .../single/outer_membrane_expression.py | 113 +- models/ecoli/analysis/single/proteinCounts.py | 2 +- .../single/proteinCountsValidation.py | 21 +- .../single/surface_area_comparison.py | 47 +- .../analysis/single/twoComponentSystem.py | 5 +- .../ecoli/processes/polypeptide_initiation.py | 2 +- models/ecoli/sim/initial_conditions.py | 2 +- .../ecoli/dataclasses/getter_functions.py | 241 +- .../ecoli/dataclasses/process/complexation.py | 42 +- .../ecoli/dataclasses/process/equilibrium.py | 127 +- .../ecoli/dataclasses/process/metabolism.py | 96 +- .../dataclasses/process/transcription.py | 117 +- .../process/transcription_regulation.py | 4 +- .../ecoli/dataclasses/process/translation.py | 43 +- .../process/two_component_system.py | 15 +- reconstruction/ecoli/dataclasses/relation.py | 79 +- reconstruction/ecoli/fit_sim_data_1.py | 50 +- .../ecoli/flat/amino_acid_pathways.tsv | 2 +- reconstruction/ecoli/flat/biomass.tsv | 2 +- .../ecoli/flat/complexation_reactions.tsv | 2130 +- .../flat/complexation_reactions_removed.tsv | 35 +- .../flat/condition/environment_molecules.tsv | 2 +- .../ecoli/flat/condition/media/M9.tsv | 2 +- .../ecoli/flat/condition/media/M9_GLC.tsv | 2 +- .../ecoli/flat/condition/media_recipes.tsv | 2 +- reconstruction/ecoli/flat/endoRNases.tsv | 3 +- .../ecoli/flat/equilibrium_reaction_rates.tsv | 150 + .../ecoli/flat/equilibrium_reactions.tsv | 340 +- .../flat/equilibrium_reactions_removed.tsv | 59 +- reconstruction/ecoli/flat/genes.tsv | 9269 +- .../ecoli/flat/metabolic_reactions.tsv | 6743 +- .../flat/metabolic_reactions_removed.tsv | 5 + .../ecoli/flat/metabolism_kinetics.tsv | 10 +- reconstruction/ecoli/flat/metabolites.tsv | 9517 +- .../ecoli/flat/modified_proteins.tsv | 45 +- reconstruction/ecoli/flat/parameters.tsv | 4 +- .../flat/protein_modification_reactions.tsv | 655 + reconstruction/ecoli/flat/proteins.tsv | 8775 +- .../ecoli/flat/rna_modification_reactions.tsv | 98 - reconstruction/ecoli/flat/rnas.tsv | 9279 +- reconstruction/ecoli/flat/secretions.tsv | 2 +- reconstruction/ecoli/flat/sequence.fasta | 128176 ++++++++------- .../ecoli/flat/trna_charging_reactions.tsv | 87 + ...sv => trna_charging_reactions_removed.tsv} | 0 .../flat/two_component_system_templates.tsv | 4 +- .../ecoli/flat/two_component_systems.tsv | 2 +- .../complexationReactions_large.tsv | 1233 - .../flat/unprocessed/eco_wc_test_fun.json | 47799 ------ .../flat/unprocessed/ecocyc_20_1_gem.json | 95550 ----------- .../unprocessed/ecocyc_compound_formulas.dat | 2527 - .../flat/unprocessed/ecocyc_full_biomass.fba | 355 - .../flat/unprocessed/ecocyc_full_biomass.lp | 20095 --- .../unprocessed/ecocyc_full_biomass.lplog | 5198 - reconstruction/ecoli/knowledge_base_raw.py | 6 +- .../scripts/build_complexation_reactions.py | 223 - .../ecoli/scripts/ecocyc_met_to_flat.py | 302 - .../ecoli/scripts/get_charged_masses.py | 77 - reconstruction/ecoli/scripts/importEquilKd.py | 56 - reconstruction/ecoli/scripts/kb_to_flat.py | 67 - reconstruction/ecoli/scripts/load_save_tsv.py | 12 - reconstruction/ecoli/scripts/massfrac_flat.py | 47 - .../scripts/metabolism_kinetics/kinetics.tsv | 10 +- reconstruction/ecoli/scripts/metweights2.py | 85 - reconstruction/ecoli/scripts/other_weights.py | 546 - .../ecoli/scripts/reaction_enzymes.py | 142 - .../ecoli/scripts/reaction_mass_balance.py | 54 - .../ecoli/scripts/update_proteins_location.py | 90 - reconstruction/ecoli/simulation_data.py | 33 +- validation/ecoli/validation_data.py | 53 +- wholecell/utils/fitting.py | 2 +- wholecell/utils/protein_counts.py | 40 +- 89 files changed, 95470 insertions(+), 255815 deletions(-) create mode 100644 reconstruction/ecoli/flat/equilibrium_reaction_rates.tsv create mode 100644 reconstruction/ecoli/flat/protein_modification_reactions.tsv delete mode 100644 reconstruction/ecoli/flat/rna_modification_reactions.tsv create mode 100644 reconstruction/ecoli/flat/trna_charging_reactions.tsv rename reconstruction/ecoli/flat/{rna_modification_reactions_removed.tsv => trna_charging_reactions_removed.tsv} (100%) delete mode 100644 reconstruction/ecoli/flat/unprocessed/complexationReactions_large.tsv delete mode 100644 reconstruction/ecoli/flat/unprocessed/eco_wc_test_fun.json delete mode 100644 reconstruction/ecoli/flat/unprocessed/ecocyc_20_1_gem.json delete mode 100644 reconstruction/ecoli/flat/unprocessed/ecocyc_compound_formulas.dat delete mode 100644 reconstruction/ecoli/flat/unprocessed/ecocyc_full_biomass.fba delete mode 100644 reconstruction/ecoli/flat/unprocessed/ecocyc_full_biomass.lp delete mode 100644 reconstruction/ecoli/flat/unprocessed/ecocyc_full_biomass.lplog delete mode 100644 reconstruction/ecoli/scripts/build_complexation_reactions.py delete mode 100644 reconstruction/ecoli/scripts/ecocyc_met_to_flat.py delete mode 100644 reconstruction/ecoli/scripts/get_charged_masses.py delete mode 100644 reconstruction/ecoli/scripts/importEquilKd.py delete mode 100755 reconstruction/ecoli/scripts/kb_to_flat.py delete mode 100644 reconstruction/ecoli/scripts/load_save_tsv.py delete mode 100644 reconstruction/ecoli/scripts/massfrac_flat.py delete mode 100644 reconstruction/ecoli/scripts/metweights2.py delete mode 100644 reconstruction/ecoli/scripts/other_weights.py delete mode 100644 reconstruction/ecoli/scripts/reaction_enzymes.py delete mode 100755 reconstruction/ecoli/scripts/reaction_mass_balance.py delete mode 100644 reconstruction/ecoli/scripts/update_proteins_location.py diff --git a/models/ecoli/analysis/causality_network/build_network.py b/models/ecoli/analysis/causality_network/build_network.py index 123fde0b79..0764435faa 100644 --- a/models/ecoli/analysis/causality_network/build_network.py +++ b/models/ecoli/analysis/causality_network/build_network.py @@ -104,15 +104,15 @@ # Equilibrium complexes that are formed from deactivated equilibrium reactions, # but are reactants in a complexation reaction -EQUILIBRIUM_COMPLEXES_IN_COMPLEXATION = ["CPLX0-7620[c]", "CPLX0-7701[c]", - "CPLX0-7677[c]", "MONOMER0-1781[c]", "CPLX0-7702[c]"] +EQUILIBRIUM_COMPLEXES_IN_COMPLEXATION = ["CPLX0-7701[c]", "CPLX0-7677[c]", + "MONOMER0-1781[c]", "CPLX0-7702[c]"] # Metabolites that are used as ligands in equilibrium, but do not participate # in any metabolic reactions -METABOLITES_ONLY_IN_EQUILIBRIUM = ["4FE-4S[c]", "NITRATE[p]"] +METABOLITES_ONLY_IN_EQUILIBRIUM = ["4FE-4S[c]"] # Molecules in 2CS (two component system) reactions that are not proteins -NONPROTEIN_MOLECULES_IN_2CS = ["ATP[c]", "ADP[c]", "WATER[c]", "PI[c]", +NONPROTEIN_MOLECULES_IN_2CS = ["ATP[c]", "ADP[c]", "WATER[c]", "Pi[c]", "PROTON[c]", "PHOSPHO-PHOB[c]"] COMPARTMENTS = { @@ -197,6 +197,7 @@ def _build_network(self): self._add_metabolism_and_metabolites() self._add_equilibrium() self._add_regulation() + self._remove_hanging_edges() # Check for network sanity (optional) if self.check_sanity: @@ -990,6 +991,25 @@ def _find_duplicate_nodes(self): % (len(duplicate_ids), duplicate_ids)) + def _remove_hanging_edges(self): + # type: () -> None + """ + Remove edges that are not connected to existing nodes. + """ + # Get set of all node IDs + node_ids = {node.node_id for node in self.node_list} + disconnected_edge_indexes = [] + + # Find edges whose source and destination nodes are not defined + for index, edge in enumerate(self.edge_list): + if edge.src_id not in node_ids or edge.dst_id not in node_ids: + disconnected_edge_indexes.append(index) + + # Remove these edges + for index in disconnected_edge_indexes[::-1]: + self.edge_list.pop(index) + + def _append_edge(self, type_, src, dst, stoichiometry=""): # type: (str, str, str, Union[None, str, int]) -> None """ diff --git a/models/ecoli/analysis/cohort/expression_dynamics.py b/models/ecoli/analysis/cohort/expression_dynamics.py index 35da38e02a..fcc895310e 100644 --- a/models/ecoli/analysis/cohort/expression_dynamics.py +++ b/models/ecoli/analysis/cohort/expression_dynamics.py @@ -170,8 +170,8 @@ def do_plot(self, seedOutDir, plotOutDir, plotOutFileName, simDataFile, validati counts = ( proteinMonomerCounts[:, protein_idx], proteinMonomerCounts[:, protein_idx_burst], - rnaMonomerCounts[:, sim_data.relation.rna_index_to_monomer_mapping][:, protein_idx], - rnaMonomerCounts[:, sim_data.relation.rna_index_to_monomer_mapping][:, protein_idx_burst] + rnaMonomerCounts[:, sim_data.relation.RNA_to_monomer_mapping][:, protein_idx], + rnaMonomerCounts[:, sim_data.relation.RNA_to_monomer_mapping][:, protein_idx_burst] ) line_color = ( EXP_COLOR, diff --git a/models/ecoli/analysis/cohort/proteinFoldChangeVsTranscriptionFrequency.py b/models/ecoli/analysis/cohort/proteinFoldChangeVsTranscriptionFrequency.py index 40f4b78364..f37c535e2c 100644 --- a/models/ecoli/analysis/cohort/proteinFoldChangeVsTranscriptionFrequency.py +++ b/models/ecoli/analysis/cohort/proteinFoldChangeVsTranscriptionFrequency.py @@ -122,7 +122,7 @@ def do_plot(self, seedOutDir, plotOutDir, plotOutFileName, simDataFile, validati initiationEventsPerRna = rnapData.readColumn("rnaInitEvent").sum(axis = 0) # Map transcription initiation events to monomers - initiationEventsPerMonomer = initiationEventsPerRna[sim_data.relation.rna_index_to_monomer_mapping] + initiationEventsPerMonomer = initiationEventsPerRna[sim_data.relation.RNA_to_monomer_mapping] # Load cell mass cellMassInitial = TableReader(os.path.join(simOutDir, "Mass")).readColumn("cellMass")[0] diff --git a/models/ecoli/analysis/multigen/functionalUnits.py b/models/ecoli/analysis/multigen/functionalUnits.py index 0d8372ca83..a8bab8e09b 100644 --- a/models/ecoli/analysis/multigen/functionalUnits.py +++ b/models/ecoli/analysis/multigen/functionalUnits.py @@ -63,7 +63,7 @@ def do_plot(self, seedOutDir, plotOutDir, plotOutFileName, simDataFile, validati # Load sim data sim_data = cPickle.load(open(simDataFile, "rb")) - rnaIds = sim_data.process.transcription.rna_data["id"][sim_data.relation.rna_index_to_monomer_mapping] # orders rna IDs to match monomer IDs + rnaIds = sim_data.process.transcription.rna_data["id"][sim_data.relation.RNA_to_monomer_mapping] # orders rna IDs to match monomer IDs # Make views for monomers ids_complexation = sim_data.process.complexation.molecule_names diff --git a/models/ecoli/analysis/multigen/functionalUnitsFC.py b/models/ecoli/analysis/multigen/functionalUnitsFC.py index 7fb0fd15c7..0128bc1257 100644 --- a/models/ecoli/analysis/multigen/functionalUnitsFC.py +++ b/models/ecoli/analysis/multigen/functionalUnitsFC.py @@ -51,7 +51,7 @@ def do_plot(self, seedOutDir, plotOutDir, plotOutFileName, simDataFile, validati # Load sim data sim_data = cPickle.load(open(simDataFile, "rb")) - rnaIds = sim_data.process.transcription.rna_data["id"][sim_data.relation.rna_index_to_monomer_mapping] # orders rna IDs to match monomer IDs + rnaIds = sim_data.process.transcription.rna_data["id"][sim_data.relation.RNA_to_monomer_mapping] # orders rna IDs to match monomer IDs rnaIds = rnaIds.tolist() ids_complexation = sim_data.process.complexation.molecule_names # Complexe of proteins, and protein monomers ids_complexation_complexes = sim_data.process.complexation.ids_complexes # Only complexes diff --git a/models/ecoli/analysis/multigen/probProteinExistAndDouble.py b/models/ecoli/analysis/multigen/probProteinExistAndDouble.py index a1291d69a1..33a68ebf15 100644 --- a/models/ecoli/analysis/multigen/probProteinExistAndDouble.py +++ b/models/ecoli/analysis/multigen/probProteinExistAndDouble.py @@ -54,7 +54,7 @@ def do_plot(self, seedOutDir, plotOutDir, plotOutFileName, simDataFile, validati initiationEventsPerRna = rnapData.readColumn("rnaInitEvent").sum(axis = 0) # Map transcription initiation events to monomers - initiationEventsPerMonomer = initiationEventsPerRna[sim_data.relation.rna_index_to_monomer_mapping] + initiationEventsPerMonomer = initiationEventsPerRna[sim_data.relation.RNA_to_monomer_mapping] # Log data monomerExistMultigen[gen_idx,:] = monomerExist diff --git a/models/ecoli/analysis/multigen/proteinAvgCountVsBurstSize.py b/models/ecoli/analysis/multigen/proteinAvgCountVsBurstSize.py index 30a107e964..de16e3fd13 100644 --- a/models/ecoli/analysis/multigen/proteinAvgCountVsBurstSize.py +++ b/models/ecoli/analysis/multigen/proteinAvgCountVsBurstSize.py @@ -53,7 +53,7 @@ def do_plot(self, seedOutDir, plotOutDir, plotOutFileName, simDataFile, validati initiationEventsPerRna = rnapData.readColumn("rnaInitEvent").sum(axis = 0) # Map transcription initiation events to monomers - initiationEventsPerMonomer = initiationEventsPerRna[sim_data.relation.rna_index_to_monomer_mapping] + initiationEventsPerMonomer = initiationEventsPerRna[sim_data.relation.RNA_to_monomer_mapping] # Log data monomerExistMultigen[gen_idx,:] = monomerExist diff --git a/models/ecoli/analysis/multigen/proteinCountVsFoldChange.py b/models/ecoli/analysis/multigen/proteinCountVsFoldChange.py index 46c140a57d..57135707da 100644 --- a/models/ecoli/analysis/multigen/proteinCountVsFoldChange.py +++ b/models/ecoli/analysis/multigen/proteinCountVsFoldChange.py @@ -53,7 +53,7 @@ def do_plot(self, seedOutDir, plotOutDir, plotOutFileName, simDataFile, validati initiationEventsPerRna = rnapData.readColumn("rnaInitEvent").sum(axis = 0) # Map transcription initiation events to monomers - initiationEventsPerMonomer = initiationEventsPerRna[sim_data.relation.rna_index_to_monomer_mapping] + initiationEventsPerMonomer = initiationEventsPerRna[sim_data.relation.RNA_to_monomer_mapping] # Log data monomerExistMultigen[gen_idx,:] = monomerExist diff --git a/models/ecoli/analysis/multigen/proteinCountsValidation.py b/models/ecoli/analysis/multigen/proteinCountsValidation.py index eae9a51dd5..9a072adbd2 100644 --- a/models/ecoli/analysis/multigen/proteinCountsValidation.py +++ b/models/ecoli/analysis/multigen/proteinCountsValidation.py @@ -11,6 +11,7 @@ from six.moves import cPickle from wholecell.io.tablereader import TableReader +from wholecell.utils.protein_counts import get_simulated_validation_counts from models.ecoli.analysis.AnalysisPaths import AnalysisPaths from wholecell.analysis.analysis_tools import exportFigure @@ -22,8 +23,8 @@ def do_plot(self, seedOutDir, plotOutDir, plotOutFileName, simDataFile, validati sim_data = cPickle.load(open(simDataFile, "rb")) validation_data = cPickle.load(open(validationDataFile, "rb")) - ids_translation = sim_data.process.translation.monomer_data["id"].tolist() - schmidt_idx = [ids_translation.index(x) for x in validation_data.protein.schmidt2015Data["monomerId"].tolist()] + monomer_ids = sim_data.process.translation.monomer_data["id"] + schmidt_ids = validation_data.protein.schmidt2015Data["monomerId"] schmidt_counts = validation_data.protein.schmidt2015Data["glucoseCounts"] @@ -41,9 +42,11 @@ def do_plot(self, seedOutDir, plotOutDir, plotOutFileName, simDataFile, validati simOutDir = os.path.join(simDir, "simOut") - monomerCounts = TableReader(os.path.join(simOutDir, "MonomerCounts")) - avgCounts = monomerCounts.readColumn("monomerCounts").mean(axis=0) - sim_schmidt_counts = avgCounts[schmidt_idx] + monomer_counts_reader = TableReader(os.path.join(simOutDir, "MonomerCounts")) + monomer_counts = monomer_counts_reader.readColumn("monomerCounts") + + sim_schmidt_counts, val_schmidt_counts = get_simulated_validation_counts( + schmidt_counts, monomer_counts, schmidt_ids, monomer_ids) sim_schmidt_counts_multigen.append(sim_schmidt_counts) @@ -51,11 +54,11 @@ def do_plot(self, seedOutDir, plotOutDir, plotOutFileName, simDataFile, validati axis = plt.subplot(1,1,1) - axis.plot(np.log10(schmidt_counts + 1), np.log10(sim_schmidt_counts_multigen + 1), 'o', color = "black", markersize = 6, alpha = 0.1, zorder = 1, markeredgewidth = 0.0) + axis.plot(np.log10(val_schmidt_counts + 1), np.log10(sim_schmidt_counts_multigen + 1), 'o', color = "black", markersize = 6, alpha = 0.1, zorder = 1, markeredgewidth = 0.0) # print(pearsonr( np.log10(sim_schmidt_counts_mulitgen + 1), np.log10(schmidtCounts + 1) )[0]) maxLine = np.ceil( - max((np.log10(schmidt_counts + 1)).max(), + max((np.log10(val_schmidt_counts + 1)).max(), (np.log10(sim_schmidt_counts_multigen + 1)).max()) ) plt.plot([0, maxLine], [0, maxLine], '-k') diff --git a/models/ecoli/analysis/multigen/proteinExistVsBurstSize.py b/models/ecoli/analysis/multigen/proteinExistVsBurstSize.py index f7f8ee998e..9606505ec5 100644 --- a/models/ecoli/analysis/multigen/proteinExistVsBurstSize.py +++ b/models/ecoli/analysis/multigen/proteinExistVsBurstSize.py @@ -51,7 +51,7 @@ def do_plot(self, seedOutDir, plotOutDir, plotOutFileName, simDataFile, validati initiationEventsPerRna = rnapData.readColumn("rnaInitEvent").sum(axis = 0) # Map transcription initiation events to monomers - initiationEventsPerMonomer = initiationEventsPerRna[sim_data.relation.rna_index_to_monomer_mapping] + initiationEventsPerMonomer = initiationEventsPerRna[sim_data.relation.RNA_to_monomer_mapping] # Log data monomerExistMultigen[gen_idx,:] = monomerExist diff --git a/models/ecoli/analysis/multigen/proteinFoldChangeVsRnaDeg.py b/models/ecoli/analysis/multigen/proteinFoldChangeVsRnaDeg.py index 73a54af6f9..d6daf40a45 100644 --- a/models/ecoli/analysis/multigen/proteinFoldChangeVsRnaDeg.py +++ b/models/ecoli/analysis/multigen/proteinFoldChangeVsRnaDeg.py @@ -60,7 +60,7 @@ def do_plot(self, seedOutDir, plotOutDir, plotOutFileName, simDataFile, validati # uniqueBurstSizes = np.unique(initiationEventsPerMonomerMultigen) degradationRates = sim_data.process.transcription.rna_data['deg_rate'].asNumber(1 / units.s) - degradationRatesByMonomer = degradationRates[sim_data.relation.rna_index_to_monomer_mapping] + degradationRatesByMonomer = degradationRates[sim_data.relation.RNA_to_monomer_mapping] uniqueDegRate = np.unique(degradationRatesByMonomer) # burstSizeToPlot = np.zeros(0) diff --git a/models/ecoli/analysis/multigen/proteinFoldChangeVsTranscriptionEvents.py b/models/ecoli/analysis/multigen/proteinFoldChangeVsTranscriptionEvents.py index a9e1b50f6e..9bc7158636 100644 --- a/models/ecoli/analysis/multigen/proteinFoldChangeVsTranscriptionEvents.py +++ b/models/ecoli/analysis/multigen/proteinFoldChangeVsTranscriptionEvents.py @@ -47,7 +47,7 @@ def do_plot(self, seedOutDir, plotOutDir, plotOutFileName, simDataFile, validati initiationEventsPerRna = rnapData.readColumn("rnaInitEvent").sum(axis = 0) # Map transcription initiation events to monomers - initiationEventsPerMonomer = initiationEventsPerRna[sim_data.relation.rna_index_to_monomer_mapping] + initiationEventsPerMonomer = initiationEventsPerRna[sim_data.relation.RNA_to_monomer_mapping] # Log data ratioFinalToInitialCount[np.logical_and(ratioFinalToInitialCount == 1., proteinMonomerCounts[0,:] == 0)] = np.nan diff --git a/models/ecoli/analysis/multigen/proteinFoldChangeVsTranslationEff.py b/models/ecoli/analysis/multigen/proteinFoldChangeVsTranslationEff.py index db5e36df6f..7cf4aac344 100644 --- a/models/ecoli/analysis/multigen/proteinFoldChangeVsTranslationEff.py +++ b/models/ecoli/analysis/multigen/proteinFoldChangeVsTranslationEff.py @@ -52,7 +52,7 @@ def do_plot(self, seedOutDir, plotOutDir, plotOutFileName, simDataFile, validati initiationEventsPerRna = rnapData.readColumn("rnaInitEvent").sum(axis = 0) # Map transcription initiation events to monomers - initiationEventsPerMonomer = initiationEventsPerRna[sim_data.relation.rna_index_to_monomer_mapping] + initiationEventsPerMonomer = initiationEventsPerRna[sim_data.relation.RNA_to_monomer_mapping] # Log data monomerExistMultigen[gen_idx,:] = monomerExist diff --git a/models/ecoli/analysis/multigen/rnaVsProteinPerCell.py b/models/ecoli/analysis/multigen/rnaVsProteinPerCell.py index 20bc3989fb..208fb9fad5 100644 --- a/models/ecoli/analysis/multigen/rnaVsProteinPerCell.py +++ b/models/ecoli/analysis/multigen/rnaVsProteinPerCell.py @@ -54,7 +54,7 @@ def do_plot(self, seedOutDir, plotOutDir, plotOutFileName, simDataFile, validati # Load sim data sim_data = cPickle.load(open(simDataFile, "rb")) - rnaIds = sim_data.process.transcription.rna_data["id"][sim_data.relation.rna_index_to_monomer_mapping] # orders rna IDs to match monomer IDs + rnaIds = sim_data.process.transcription.rna_data["id"][sim_data.relation.RNA_to_monomer_mapping] # orders rna IDs to match monomer IDs # Make views for monomers ids_complexation = sim_data.process.complexation.molecule_names diff --git a/models/ecoli/analysis/multigen/subgenerationalTranscription.py b/models/ecoli/analysis/multigen/subgenerationalTranscription.py index 02388e75a3..2bf2e687e3 100644 --- a/models/ecoli/analysis/multigen/subgenerationalTranscription.py +++ b/models/ecoli/analysis/multigen/subgenerationalTranscription.py @@ -241,8 +241,12 @@ def do_plot(self, seedOutDir, plotOutDir, plotOutFileName, simDataFile, validati plotGreen = 0 plotBlue = 0 + mRNA_id_set = set(mRnaIdsOrdered) + essential_genes_rna = validation_data.essential_genes.essential_RNAs for g in essential_genes_rna: + if g not in mRNA_id_set: + continue i = np.where(mRnaIdsOrdered == str(g))[0][0] f = transcribedBoolOrdered[i] @@ -294,8 +298,12 @@ def do_plot(self, seedOutDir, plotOutDir, plotOutFileName, simDataFile, validati unknown = {"r": 0, "g": 0, "b": 0} resistance = {"r": 0, "g": 0, "b": 0} for frameID, function_ in six.viewitems(geneFunctions): - if function_ in ["Unknown function", "Unclear/under-characterized"]: + try: i = np.where([frameID in x for x in mRnaIdsOrdered])[0][0] + # Skip over genes that aren't used in the simulation + except IndexError: + continue + if function_ in ["Unknown function", "Unclear/under-characterized"]: f = transcribedBoolOrdered[i] if f == 0.0: unknown["r"] += 1 @@ -305,7 +313,6 @@ def do_plot(self, seedOutDir, plotOutDir, plotOutFileName, simDataFile, validati unknown["g"] += 1 elif function_ in ["Antibiotic resistance", "Toxin/antitoxin"]: - i = np.where([frameID in x for x in mRnaIdsOrdered])[0][0] f = transcribedBoolOrdered[i] if f == 0.0: resistance["r"] += 1 diff --git a/models/ecoli/analysis/single/cell_wall_expression.py b/models/ecoli/analysis/single/cell_wall_expression.py index 202f636f95..3a3cbca4c1 100644 --- a/models/ecoli/analysis/single/cell_wall_expression.py +++ b/models/ecoli/analysis/single/cell_wall_expression.py @@ -3,8 +3,7 @@ Note: This is not an exhaustive list of all components of cell wall. """ -from __future__ import absolute_import, division, print_function - +import pickle import os from matplotlib import pyplot as plt @@ -20,49 +19,58 @@ CMAP_COLORS = [[shade/255. for shade in color] for color in CMAP_COLORS_255] CMAP_OVER = [0, 1, 0.75] -cell_wall_proteins = { +CELL_WALL_PROTEINS = { # murein - 'CPD-12261[p]': 'murein', - 'CPD-12231[p]':'peptidoglycan dimer', - 'C6[p]':'lipid II', - 'C5[c]': 'lipid I', - 'CPD-9646[c]': 'undecaprenyl phosphate', - 'UNDECAPRENYL-DIPHOSPHATE[c]': 'undecaprenyl diphosphate', + 'CPD-12261': 'murein', + 'CPD-12231':'peptidoglycan dimer', + 'C6':'lipid II', + 'C5': 'lipid I', + 'CPD-9646': 'undecaprenyl phosphate', + 'UNDECAPRENYL-DIPHOSPHATE': 'undecaprenyl diphosphate', # catalyzes lipid II transfer to outer membrane - 'G6561-MONOMER[i]': 'lipid II flippase (MurJ)', - 'EG10344-MONOMER[i]': 'essential cell division protein (FtsW)', + 'G6561-MONOMER': 'lipid II flippase (MurJ)', + 'EG10344-MONOMER': 'essential cell division protein (FtsW)', # catalyzes lipid II formation - 'NACGLCTRANS-MONOMER[c]': 'MurG', + 'NACGLCTRANS-MONOMER': 'MurG', # catalyzes lipid I formation - 'PHOSNACMURPENTATRANS-MONOMER[i]': 'MraY', + 'PHOSNACMURPENTATRANS-MONOMER': 'MraY', # PBP - 'CPLX0-7717[i]': 'PBP1A', # transglycosylase-transpeptidase ~100 - 'CPLX0-3951[i]': 'PBP1B', # transglycosylase-transpeptidase ~100 - 'G7322-MONOMER[i]': 'PBP1C', # transglycosylase - 'EG10606-MONOMER[i]': 'PBP2', # transpeptidase ~20 - 'EG10341-MONOMER[i]': 'PBP3', # transglycosylase-transpeptidase ~50 - 'EG10202-MONOMER[p]': 'PBP4', # DD-endopeptidase, DD-carboxypeptidase ~110 - 'EG10201-MONOMER[i]': 'PBP5', # DD-caroxypeptidase ~1,800 - 'EG10203-MONOMER[i]': 'PBP6', # DD-carbocypeptidase ~600 - 'EG12015-MONOMER[p]': 'PBP7', # DD-endopeptidase + 'CPLX0-7717': 'PBP1A', # transglycosylase-transpeptidase ~100 + 'CPLX0-3951': 'PBP1B', # transglycosylase-transpeptidase ~100 + 'G7322-MONOMER': 'PBP1C', # transglycosylase + 'EG10606-MONOMER': 'PBP2', # transpeptidase ~20 + 'EG10341-MONOMER': 'PBP3', # transglycosylase-transpeptidase ~50 + 'EG10202-MONOMER': 'PBP4', # DD-endopeptidase, DD-carboxypeptidase ~110 + 'EG10201-MONOMER': 'PBP5', # DD-caroxypeptidase ~1,800 + 'EG10203-MONOMER': 'PBP6', # DD-carbocypeptidase ~600 + 'EG12015-MONOMER': 'PBP7', # DD-endopeptidase } class Plot(singleAnalysisPlot.SingleAnalysisPlot): def do_plot(self, simOutDir, plotOutDir, plotOutFileName, simDataFile, validationDataFile, metadata): + with open(simDataFile, 'rb') as f: + sim_data = pickle.load(f) + # Listeners used main_reader = TableReader(os.path.join(simOutDir, 'Main')) # Load data initial_time = main_reader.readAttribute('initialTime') time = main_reader.readColumn('time') - initial_time - (counts,) = read_bulk_molecule_counts(simOutDir, - (cell_wall_proteins.keys(),)) + + existing_molecule_ids = [ + mol_id + sim_data.getter.get_compartment_tag(mol_id) + for mol_id in CELL_WALL_PROTEINS.keys() + if sim_data.getter.is_valid_molecule(mol_id) + ] + (counts,) = read_bulk_molecule_counts( + simOutDir, (existing_molecule_ids,)) counts = counts.astype(float).T row_max = counts.max(axis=1) @@ -73,10 +81,10 @@ def do_plot(self, simOutDir, plotOutDir, plotOutFileName, cmap='RdBu', interpolation='nearest', aspect='auto', - extent=[time[0],time[-1],len(cell_wall_proteins)-0.5,-0.5]) - ax.set_yticks(np.arange(0, len(cell_wall_proteins), 1)) - ax.set_yticklabels([cell_wall_proteins[mol_id] for - mol_id in cell_wall_proteins.keys()], fontsize=8) + extent=[time[0],time[-1],len(existing_molecule_ids)-0.5,-0.5]) + ax.set_yticks(np.arange(0, len(existing_molecule_ids), 1)) + ax.set_yticklabels([CELL_WALL_PROTEINS[mol_id[:-3]] for + mol_id in existing_molecule_ids], fontsize=8) plt.xlabel('time (s)') plt.title('Cell wall major components expression') @@ -85,8 +93,8 @@ def do_plot(self, simOutDir, plotOutDir, plotOutFileName, final_counts.reverse() ax2 = fig.add_subplot(111, sharex=ax, frameon=False) - ax2.set_ylim([-0.5, len(cell_wall_proteins.keys())-0.5]) - ax2.set_yticks(np.arange(0, len(cell_wall_proteins), 1)) + ax2.set_ylim([-0.5, len(existing_molecule_ids)-0.5]) + ax2.set_yticks(np.arange(0, len(existing_molecule_ids), 1)) ax2.set_yticklabels(final_counts, fontsize=8) ax2.tick_params(length=0) ax2.yaxis.tick_right() diff --git a/models/ecoli/analysis/single/equilibriumComparison.py b/models/ecoli/analysis/single/equilibriumComparison.py index 446f66125f..23aa5f57c3 100644 --- a/models/ecoli/analysis/single/equilibriumComparison.py +++ b/models/ecoli/analysis/single/equilibriumComparison.py @@ -48,8 +48,8 @@ def do_plot(self, simOutDir, plotOutDir, plotOutFileName, simDataFile, validatio cellVolume = cellMass / cellDensity fig = plt.figure(figsize = (20, 20)) - rows = 6 - cols = 6 + rows = 8 + cols = 8 num_subentries = 3 for idx in range(stoichMatrix.shape[1]): diff --git a/models/ecoli/analysis/single/flagella_expression.py b/models/ecoli/analysis/single/flagella_expression.py index fc351d1a64..9b2beed642 100644 --- a/models/ecoli/analysis/single/flagella_expression.py +++ b/models/ecoli/analysis/single/flagella_expression.py @@ -5,6 +5,7 @@ from __future__ import absolute_import, division, print_function import os +import pickle from matplotlib import pyplot as plt import numpy as np @@ -19,85 +20,59 @@ CMAP_COLORS = [[shade/255. for shade in color] for color in CMAP_COLORS_255] CMAP_OVER = [0, 1, 0.75] -ordered_flagella_protein_ids = [ - 'G7028-MONOMER[i]', - 'G378-MONOMER[s]', - 'G377-MONOMER[i]', - 'G370-MONOMER[i]', - 'EG11977-MONOMER[s]', - 'EG11976-MONOMER[s]', - 'EG11975-MONOMER[s]', - 'EG11656-MONOMER[s]', - 'EG11224-MONOMER[s]', - 'CPLX0-7451[s]', - 'FLIN-FLAGELLAR-C-RING-SWITCH[s]', - 'FLIM-FLAGELLAR-C-RING-SWITCH[s]', - 'FLIG-FLAGELLAR-SWITCH-PROTEIN[s]', - 'CPLX0-7450[s]', - 'FLGH-FLAGELLAR-L-RING[s]', - 'MOTA-FLAGELLAR-MOTOR-STATOR-PROTEIN[i]', - 'MOTB-FLAGELLAR-MOTOR-STATOR-PROTEIN[i]', - 'FLGB-FLAGELLAR-MOTOR-ROD-PROTEIN[s]', - 'FLGC-FLAGELLAR-MOTOR-ROD-PROTEIN[s]', - 'FLGF-FLAGELLAR-MOTOR-ROD-PROTEIN[s]', - 'FLGG-FLAGELLAR-MOTOR-ROD-PROTEIN[s]', - 'FLGI-FLAGELLAR-P-RING[s]', - 'FLIF-FLAGELLAR-MS-RING[s]', - 'EG11346-MONOMER[s]', - 'EG10322-MONOMER[s]', - 'FLAGELLAR-MOTOR-COMPLEX[s]', - 'G361-MONOMER[s]', - 'EG11967-MONOMER[s]', - 'EG11545-MONOMER[s]', - 'EG10321-MONOMER[s]', - 'EG10841-MONOMER[s]', - 'CPLX0-7452[s]', -] - -flagella_proteins = { - 'G7028-MONOMER[i]': 'FlhB', - 'G378-MONOMER[s]': 'FliJ', - 'G377-MONOMER[i]': 'FliI', - 'G370-MONOMER[i]': 'FlhA', - 'EG11977-MONOMER[s]': 'FliR', - 'EG11976-MONOMER[s]': 'FliQ', - 'EG11975-MONOMER[s]': 'FliP', - 'EG11656-MONOMER[s]': 'FliH', - 'EG11224-MONOMER[s]': 'FliO', - 'CPLX0-7451[s]': 'export apparatus', - 'FLIN-FLAGELLAR-C-RING-SWITCH[s]': 'FliN', - 'FLIM-FLAGELLAR-C-RING-SWITCH[s]': 'FliM', - 'FLIG-FLAGELLAR-SWITCH-PROTEIN[s]': 'FliG', - 'CPLX0-7450[s]': 'motor switch complex', - 'FLGH-FLAGELLAR-L-RING[s]': 'FlgH', - 'MOTA-FLAGELLAR-MOTOR-STATOR-PROTEIN[i]': 'MotA', - 'MOTB-FLAGELLAR-MOTOR-STATOR-PROTEIN[i]': 'MotB', - 'FLGB-FLAGELLAR-MOTOR-ROD-PROTEIN[s]': 'FlgB', - 'FLGC-FLAGELLAR-MOTOR-ROD-PROTEIN[s]': 'FlgC', - 'FLGF-FLAGELLAR-MOTOR-ROD-PROTEIN[s]': 'FlgF', - 'FLGG-FLAGELLAR-MOTOR-ROD-PROTEIN[s]': 'FlgG', - 'FLGI-FLAGELLAR-P-RING[s]': 'FlgI', - 'FLIF-FLAGELLAR-MS-RING[s]': 'FliF', - 'EG11346-MONOMER[s]': 'FliE', - 'EG10322-MONOMER[s]': 'FliL', - 'FLAGELLAR-MOTOR-COMPLEX[s]': 'motor complex', - 'G361-MONOMER[s]': 'FlgE', - 'EG11967-MONOMER[s]': 'FlgK', - 'EG11545-MONOMER[s]': 'FlgL', - 'EG10321-MONOMER[s]': 'FliC', - 'EG10841-MONOMER[s]': 'FliD', - 'CPLX0-7452[s]': 'Flagellum', +FLAGELLA_PROTEINS = { + 'G7028-MONOMER': 'FlhB', + 'G378-MONOMER': 'FliJ', + 'G377-MONOMER': 'FliI', + 'G370-MONOMER': 'FlhA', + 'EG11977-MONOMER': 'FliR', + 'EG11976-MONOMER': 'FliQ', + 'EG11975-MONOMER': 'FliP', + 'EG11656-MONOMER': 'FliH', + 'EG11224-MONOMER': 'FliO', + 'CPLX0-7451': 'export apparatus', + 'FLIN-FLAGELLAR-C-RING-SWITCH': 'FliN', + 'FLIM-FLAGELLAR-C-RING-SWITCH': 'FliM', + 'FLIG-FLAGELLAR-SWITCH-PROTEIN': 'FliG', + 'CPLX0-7450': 'motor switch complex', + 'FLGH-FLAGELLAR-L-RING': 'FlgH', + 'MOTA-FLAGELLAR-MOTOR-STATOR-PROTEIN': 'MotA', + 'MOTB-FLAGELLAR-MOTOR-STATOR-PROTEIN': 'MotB', + 'FLGB-FLAGELLAR-MOTOR-ROD-PROTEIN': 'FlgB', + 'FLGC-FLAGELLAR-MOTOR-ROD-PROTEIN': 'FlgC', + 'FLGF-FLAGELLAR-MOTOR-ROD-PROTEIN': 'FlgF', + 'FLGG-FLAGELLAR-MOTOR-ROD-PROTEIN': 'FlgG', + 'FLGI-FLAGELLAR-P-RING': 'FlgI', + 'FLIF-FLAGELLAR-MS-RING': 'FliF', + 'EG11346-MONOMER': 'FliE', + 'EG10322-MONOMER': 'FliL', + 'FLAGELLAR-MOTOR-COMPLEX': 'motor complex', + 'G361-MONOMER': 'FlgE', + 'EG11967-MONOMER': 'FlgK', + 'EG11545-MONOMER': 'FlgL', + 'EG10321-MONOMER': 'FliC', + 'EG10841-MONOMER': 'FliD', + 'CPLX0-7452': 'Flagellum', } class Plot(singleAnalysisPlot.SingleAnalysisPlot): def do_plot(self, simOutDir, plotOutDir, plotOutFileName, simDataFile, validationDataFile, metadata): + with open(simDataFile, 'rb') as f: + sim_data = pickle.load(f) + # Listeners used main_reader = TableReader(os.path.join(simOutDir, 'Main')) # Load data initial_time = main_reader.readAttribute('initialTime') time = main_reader.readColumn('time') - initial_time - (counts,) = read_bulk_molecule_counts(simOutDir, (ordered_flagella_protein_ids,)) + + existing_molecule_ids = [ + mol_id + sim_data.getter.get_compartment_tag(mol_id) + for mol_id in FLAGELLA_PROTEINS.keys() + if sim_data.getter.is_valid_molecule(mol_id) + ] + (counts,) = read_bulk_molecule_counts(simOutDir, (existing_molecule_ids,)) counts = counts.astype(float).T row_max = counts.max(axis=1) @@ -108,9 +83,9 @@ def do_plot(self, simOutDir, plotOutDir, plotOutFileName, simDataFile, validatio cmap='hot', interpolation='nearest', aspect='auto', - extent=[time[0],time[-1],len(ordered_flagella_protein_ids)-0.5,-0.5]) - ax.set_yticks(np.arange(0, len(flagella_proteins), 1)) - ax.set_yticklabels([flagella_proteins[mol_id] for mol_id in ordered_flagella_protein_ids], fontsize=8) + extent=[time[0],time[-1],len(existing_molecule_ids)-0.5,-0.5]) + ax.set_yticks(np.arange(0, len(existing_molecule_ids), 1)) + ax.set_yticklabels([FLAGELLA_PROTEINS[mol_id[:-3]] for mol_id in existing_molecule_ids], fontsize=8) plt.xlabel('time (s)') # add second axes to display final counts @@ -118,8 +93,8 @@ def do_plot(self, simOutDir, plotOutDir, plotOutFileName, simDataFile, validatio final_counts.reverse() ax2 = fig.add_subplot(111, sharex=ax, frameon=False) - ax2.set_ylim([-0.5, len(ordered_flagella_protein_ids)-0.5]) - ax2.set_yticks(np.arange(0, len(flagella_proteins), 1)) + ax2.set_ylim([-0.5, len(existing_molecule_ids)-0.5]) + ax2.set_yticks(np.arange(0, len(existing_molecule_ids), 1)) ax2.set_yticklabels(final_counts, fontsize=8) ax2.tick_params(length=0) ax2.yaxis.tick_right() diff --git a/models/ecoli/analysis/single/outer_membrane_expression.py b/models/ecoli/analysis/single/outer_membrane_expression.py index 9a07d6f03a..bf5f32bb06 100644 --- a/models/ecoli/analysis/single/outer_membrane_expression.py +++ b/models/ecoli/analysis/single/outer_membrane_expression.py @@ -6,6 +6,7 @@ from __future__ import absolute_import, division, print_function import os +import pickle from matplotlib import pyplot as plt import numpy as np @@ -19,78 +20,86 @@ CMAP_COLORS = [[shade/255. for shade in color] for color in CMAP_COLORS_255] CMAP_OVER = [0, 1, 0.75] -outer_mem_proteins = { +OUTER_MEM_PROTEINS = { # phospholipids - 'CPD-12819[c]': 'phosphatidylathanolamine', - 'CPD-12824[c]' : 'cardiolipin', - 'CPD-8260[c]': 'phosphatidylglycerol', - - 'CPD0-939[c]': 'LPS', + 'CPD-12819': 'phosphatidylathanolamine', + 'CPD-12824' : 'cardiolipin', + 'CPD-8260': 'phosphatidylglycerol', + 'CPD0-939': 'LPS', # outer membrane proteins - 'EG10669-MONOMER[i]': 'ompA', - # 'EG10671-MONOMER[e]': 'ompF', - # 'EG10670-MONOMER[e]': 'ompC', - # 'G6657-MONOMER[o]': 'ompG', - # 'G7814-MONOMER[o]': 'ompL', - # 'G6700-MONOMER[o]': 'ompN', - 'EG10673-MONOMER[o]': 'ompT', - 'EG12117-MONOMER[o]': 'ompX', + 'EG10669-MONOMER': 'ompA', + 'EG10671-MONOMER': 'ompF', + 'EG10670-MONOMER': 'ompC', + 'G6657-MONOMER': 'ompG', + 'G7814-MONOMER': 'ompL', + 'G6700-MONOMER': 'ompN', + 'EG10673-MONOMER': 'ompT', + 'EG12117-MONOMER': 'ompX', # outer membrane porins - # 'CPLX0-7530[e]': 'outer membrane porin E', - 'CPLX0-7533[e]': 'outer membrane porin C', - 'CPLX0-7534[e]': 'outer membrane porin F', - # 'CPLX0-7655[e]': 'maltose outer membrane porin / phage lambda receptor protein', + 'CPLX0-7530': 'outer membrane porin E', + 'CPLX0-7533': 'outer membrane porin C', + 'CPLX0-7534': 'outer membrane porin F', + 'CPLX0-7655': 'maltose outer membrane porin / phage lambda receptor protein', # Tol pal system - # 'CPLX0-2201[s]': 'Tol-Pal system', # spans envelope - # 'EG10684-MONOMER[e]': 'Pal', + 'CPLX0-2201': 'Tol-Pal system', # spans envelope + 'EG10684-MONOMER': 'Pal', # other outer membrane - # 'CPLX0-7944[e]': 'outer membrane phospholipase', - # 'CPLX0-7952[s]': 'ferric coprogen outer membrane transport complex', - # 'CPLX0-7964[e]': 'TolC outer membrane channel', - # 'CPLX0-8009[e]': 'outer membrane protein; export and assembly of type 1 fimbriae', - # 'CPLX0-1924[s]': 'vitamin B12 outer membrane transport complex', - # 'CPLX0-1941[s]': 'ferric enterobactin outer membrane transport complex', - # 'CPLX0-1942[s]': 'ferrichrome outer membrane transport complex', - # 'CPLX0-1943[s]': 'ferric citrate outer membrane transport complex', - 'EG10544-MONOMER[o]': 'murein lipoprotein', + 'CPLX0-7944': 'outer membrane phospholipase', + 'CPLX0-7952': 'ferric coprogen outer membrane transport complex', + 'CPLX0-7964': 'TolC outer membrane channel', + 'CPLX0-8009': 'outer membrane protein; export and assembly of type 1 fimbriae', + 'CPLX0-1924': 'vitamin B12 outer membrane transport complex', + 'CPLX0-1941': 'ferric enterobactin outer membrane transport complex', + 'CPLX0-1942': 'ferrichrome outer membrane transport complex', + 'CPLX0-1943': 'ferric citrate outer membrane transport complex', + 'EG10544-MONOMER': 'murein lipoprotein', # # phospholipid transport - # 'EG11293-MONOMER[o]': 'lolB', - # 'G6465-MONOMER[p]': 'lolA', + 'EG11293-MONOMER': 'lolB', + 'G6465-MONOMER': 'lolA', # LPS biosynthesis - 'EG11424-MONOMER[i]': 'waaL', - 'EG10613-MONOMER[i]': 'msbA', + 'EG11424-MONOMER': 'waaL', + 'EG10613-MONOMER': 'msbA', # LPS transport - 'CPLX0-7704[i]': 'LPS ABC transporter (lipid A-core flippase)', - 'CPLX0-7992[i]': 'LPS transport system', - 'ABC-53-CPLX[i]': 'lptB2-F-G', - 'CPLX0-7628[e]': 'lptE-D', - 'YHBN-MONOMER[e]': 'lptA', - 'YHBG-MONOMER[i]': 'lptB', - 'G7664-MONOMER[i]': 'lptC', - 'EG11569-MONOMER[e]': 'lptD', - 'EG10855-MONOMER[e]': 'lptE', - 'G7888-MONOMER[i]': 'lptF', - 'G7889-MONOMER[i]': 'lptG', + 'CPLX0-7704': 'LPS ABC transporter (lipid A-core flippase)', + 'CPLX0-7992': 'LPS transport system', + 'ABC-53-CPLX': 'lptB2-F-G', + 'CPLX0-7628': 'lptE-D', + 'YHBN-MONOMER': 'lptA', + 'YHBG-MONOMER': 'lptB', + 'G7664-MONOMER': 'lptC', + 'EG11569-MONOMER': 'lptD', + 'EG10855-MONOMER': 'lptE', + 'G7888-MONOMER': 'lptF', + 'G7889-MONOMER': 'lptG', } class Plot(singleAnalysisPlot.SingleAnalysisPlot): def do_plot(self, simOutDir, plotOutDir, plotOutFileName, simDataFile, validationDataFile, metadata): + with open(simDataFile, 'rb') as f: + sim_data = pickle.load(f) + # Listeners used main_reader = TableReader(os.path.join(simOutDir, 'Main')) # Load data initial_time = main_reader.readAttribute('initialTime') time = main_reader.readColumn('time') - initial_time - (counts,) = read_bulk_molecule_counts(simOutDir, - (outer_mem_proteins.keys(),)) + + existing_molecule_ids = [ + mol_id + sim_data.getter.get_compartment_tag(mol_id) + for mol_id in OUTER_MEM_PROTEINS.keys() + if sim_data.getter.is_valid_molecule(mol_id) + ] + (counts,) = read_bulk_molecule_counts( + simOutDir, (existing_molecule_ids,)) counts = counts.astype(float).T row_max = counts.max(axis=1) @@ -101,10 +110,10 @@ def do_plot(self, simOutDir, plotOutDir, plotOutFileName, cmap='RdBu', interpolation='nearest', aspect='auto', - extent=[time[0],time[-1],len(outer_mem_proteins)-0.5,-0.5]) - ax.set_yticks(np.arange(0, len(outer_mem_proteins), 1)) - ax.set_yticklabels([outer_mem_proteins[mol_id] for - mol_id in outer_mem_proteins.keys()], fontsize=8) + extent=[time[0],time[-1],len(existing_molecule_ids)-0.5,-0.5]) + ax.set_yticks(np.arange(0, len(existing_molecule_ids), 1)) + ax.set_yticklabels([OUTER_MEM_PROTEINS[mol_id[:-3]] for + mol_id in existing_molecule_ids], fontsize=8) plt.xlabel('time (s)') plt.title('Outer membrane major components expression') @@ -113,8 +122,8 @@ def do_plot(self, simOutDir, plotOutDir, plotOutFileName, final_counts.reverse() ax2 = fig.add_subplot(111, sharex=ax, frameon=False) - ax2.set_ylim([-0.5, len(outer_mem_proteins)-0.5]) - ax2.set_yticks(np.arange(0, len(outer_mem_proteins), 1)) + ax2.set_ylim([-0.5, len(existing_molecule_ids)-0.5]) + ax2.set_yticks(np.arange(0, len(existing_molecule_ids), 1)) ax2.set_yticklabels(final_counts, fontsize=8) ax2.tick_params(length=0) ax2.yaxis.tick_right() diff --git a/models/ecoli/analysis/single/proteinCounts.py b/models/ecoli/analysis/single/proteinCounts.py index ebdbba5f27..fc7bedec7b 100644 --- a/models/ecoli/analysis/single/proteinCounts.py +++ b/models/ecoli/analysis/single/proteinCounts.py @@ -30,7 +30,7 @@ def do_plot(self, simOutDir, plotOutDir, plotOutFileName, simDataFile, validatio relativeCounts = avgCounts / avgCounts.sum() expectedCountsArbitrary = normalize( - sim_data.process.transcription.rna_expression[sim_data.condition][sim_data.relation.rna_index_to_monomer_mapping] * + sim_data.process.transcription.rna_expression[sim_data.condition][sim_data.relation.RNA_to_monomer_mapping] * sim_data.process.translation.translation_efficiencies_by_monomer / (np.log(2) / sim_data.doubling_time.asNumber(units.s) + sim_data.process.translation.monomer_data['deg_rate'].asNumber(1 / units.s)) ) diff --git a/models/ecoli/analysis/single/proteinCountsValidation.py b/models/ecoli/analysis/single/proteinCountsValidation.py index 4fb34d0a71..e2e8eeee27 100644 --- a/models/ecoli/analysis/single/proteinCountsValidation.py +++ b/models/ecoli/analysis/single/proteinCountsValidation.py @@ -27,24 +27,23 @@ def do_plot(self, simOutDir, plotOutDir, plotOutFileName, simDataFile, sim_monomer_ids = sim_data.process.translation.monomer_data["id"] wisniewski_ids = validation_data.protein.wisniewski2014Data["monomerId"] schmidt_ids = validation_data.protein.schmidt2015Data["monomerId"] + wisniewski_counts = validation_data.protein.wisniewski2014Data["avgCounts"] + schmidt_counts = validation_data.protein.schmidt2015Data["glucoseCounts"] monomer_counts_reader = TableReader(os.path.join(simOutDir, "MonomerCounts")) monomer_counts = monomer_counts_reader.readColumn("monomerCounts") - sim_wisniewski_counts = get_simulated_validation_counts( - monomer_counts, wisniewski_ids, sim_monomer_ids) - sim_schmidt_counts = get_simulated_validation_counts( - monomer_counts, schmidt_ids, sim_monomer_ids) - - wisniewski_counts = validation_data.protein.wisniewski2014Data["avgCounts"] - schmidt_counts = validation_data.protein.schmidt2015Data["glucoseCounts"] + sim_wisniewski_counts, val_wisniewski_counts = get_simulated_validation_counts( + wisniewski_counts, monomer_counts, wisniewski_ids, sim_monomer_ids) + sim_schmidt_counts, val_schmidt_counts = get_simulated_validation_counts( + schmidt_counts, monomer_counts, schmidt_ids, sim_monomer_ids) # noinspection PyTypeChecker fig, ax = plt.subplots(2, sharey=True, figsize=(8.5, 11)) # Wisniewski Counts ax[0].scatter( - np.log10(wisniewski_counts + 1), + np.log10(val_wisniewski_counts + 1), np.log10(sim_wisniewski_counts + 1), c='w', edgecolor='k', alpha=.7 ) @@ -53,13 +52,13 @@ def do_plot(self, simOutDir, plotOutDir, plotOutFileName, simDataFile, "Pearson r: %0.2f" % pearsonr( np.log10(sim_wisniewski_counts + 1), - np.log10(wisniewski_counts + 1) + np.log10(val_wisniewski_counts + 1) )[0] ) # Schmidt Counts ax[1].scatter( - np.log10(schmidt_counts + 1), + np.log10(val_schmidt_counts + 1), np.log10(sim_schmidt_counts + 1), c='w', edgecolor='k', alpha=.7 ) @@ -67,7 +66,7 @@ def do_plot(self, simOutDir, plotOutDir, plotOutFileName, simDataFile, ax[1].set_title( "Pearson r: %0.2f" % pearsonr( - np.log10(sim_schmidt_counts + 1), np.log10(schmidt_counts + 1) + np.log10(sim_schmidt_counts + 1), np.log10(val_schmidt_counts + 1) )[0] ) diff --git a/models/ecoli/analysis/single/surface_area_comparison.py b/models/ecoli/analysis/single/surface_area_comparison.py index d254ed3be7..3e3e9e5974 100644 --- a/models/ecoli/analysis/single/surface_area_comparison.py +++ b/models/ecoli/analysis/single/surface_area_comparison.py @@ -57,20 +57,20 @@ OUTER_MEM_PROTEIN = { # phospholipids - 'CPD-12819[c]': 'phosphatidylethanolamine', - 'CPD-12824[c]' : 'cardiolipin', - 'CPD-8260[c]': 'phosphatidylglycerol', + 'CPD-12819': 'phosphatidylethanolamine', + 'CPD-12824' : 'cardiolipin', + 'CPD-8260': 'phosphatidylglycerol', # LPS - 'CPD0-939[c]': 'LPS', + # 'CPD0-939': 'LPS', # LPS is not included in current ver. of metabolites.tsv # porins and ompA - 'EG10669-MONOMER[i]': 'ompA', - 'CPLX0-7533[e]': 'outer membrane porin C', - 'CPLX0-7534[e]': 'outer membrane porin F', + 'EG10669-MONOMER': 'ompA', + 'CPLX0-7533': 'outer membrane porin C', + 'CPLX0-7534': 'outer membrane porin F', # lipoprotein - 'EG10544-MONOMER[o]': 'murein lipoprotein', + 'EG10544-MONOMER': 'murein lipoprotein', } @@ -81,7 +81,11 @@ def do_plot(self, simOutDir, plotOutDir, plotOutFileName, simDataFile, sim_data = cPickle.load(f) average_timepoint = np.log( sim_data.mass.avg_cell_to_initial_cell_conversion_factor) / np.log(2) - outer_mem_protein_ids = list(OUTER_MEM_PROTEIN.keys()) + existing_outer_mem_protein_ids = [ + mol_id + sim_data.getter.get_compartment_tag(mol_id) + for mol_id in OUTER_MEM_PROTEIN.keys() + if sim_data.getter.is_valid_molecule(mol_id) + ] # Listeners used main_reader = TableReader(os.path.join(simOutDir, 'Main')) @@ -91,7 +95,8 @@ def do_plot(self, simOutDir, plotOutDir, plotOutFileName, simDataFile, volume = mass.readColumn("cellVolume") initial_time = main_reader.readAttribute('initialTime') time = (main_reader.readColumn('time') - initial_time) / 60 - (counts,) = read_bulk_molecule_counts(simOutDir, (outer_mem_protein_ids,)) + (counts,) = read_bulk_molecule_counts( + simOutDir, (existing_outer_mem_protein_ids,)) counts = counts.astype(float).T @@ -105,21 +110,21 @@ def do_plot(self, simOutDir, plotOutDir, plotOutFileName, simDataFile, surface_area_model[i, :] = surface_area_cylinder + surface_area_sphere # calculate SA based off of molecule counts - surface_area_LPS = SURFACE_AREA_PER_MOLECULE['LPS'] * counts[outer_mem_protein_ids.index( - 'CPD0-939[c]')] + # surface_area_LPS = SURFACE_AREA_PER_MOLECULE['LPS'] * counts[ + # existing_outer_mem_protein_ids.index('CPD0-939[c]')] + # TODO (ggsun): Remove hardcoded compartment tags surface_area_porins_and_ompA = SURFACE_AREA_PER_MOLECULE['porins_and_ompA'] * np.sum( - counts[[outer_mem_protein_ids.index('CPLX0-7533[e]'), - outer_mem_protein_ids.index('CPLX0-7534[e]'), - outer_mem_protein_ids.index('EG10669-MONOMER[i]')], :], axis = 0) + counts[[existing_outer_mem_protein_ids.index('CPLX0-7533[o]'), + existing_outer_mem_protein_ids.index('CPLX0-7534[o]'), + existing_outer_mem_protein_ids.index('EG10669-MONOMER[p]')], :], axis = 0) surface_area_phospholipids = SURFACE_AREA_PER_MOLECULE['phospholipids'] * 0.5 * np.sum( - counts[[outer_mem_protein_ids.index('CPD-12819[c]'), - outer_mem_protein_ids.index('CPD-12824[c]'), - outer_mem_protein_ids.index('CPD-8260[c]')], :], axis = 0) + counts[[existing_outer_mem_protein_ids.index('CPD-12819[j]'), + existing_outer_mem_protein_ids.index('CPD-12824[j]'), + existing_outer_mem_protein_ids.index('CPD-8260[j]')], :], axis = 0) surface_area_lipoprotein = SURFACE_AREA_PER_MOLECULE['lipoprotein'] * counts[ - outer_mem_protein_ids.index('EG10544-MONOMER[o]')] + existing_outer_mem_protein_ids.index('EG10544-MONOMER[p]')] - surface_area_outer_leaflet = np.add(surface_area_LPS, - surface_area_porins_and_ompA) + surface_area_outer_leaflet = surface_area_porins_and_ompA surface_area_inner_leaflet = np.add(np.add(surface_area_phospholipids, surface_area_lipoprotein), surface_area_porins_and_ompA) diff --git a/models/ecoli/analysis/single/twoComponentSystem.py b/models/ecoli/analysis/single/twoComponentSystem.py index 959a81f08b..8450c2e754 100644 --- a/models/ecoli/analysis/single/twoComponentSystem.py +++ b/models/ecoli/analysis/single/twoComponentSystem.py @@ -23,11 +23,12 @@ def do_plot(self, simOutDir, plotOutDir, plotOutFileName, simDataFile, validatio sim_data = cPickle.load(open(simDataFile, "rb")) TCS_IDS = [] moleculeTypeOrder = ["HK", "PHOSPHO-HK", "LIGAND", "HK-LIGAND", "PHOSPHO-HK-LIGAND", "RR", "PHOSPHO-RR"] - moleculeTypeLocation = ["[i]", "[i]", "[p]", "[i]", "[i]", "[c]", "[c]"] moleculeTypeColor = ["b", "b", "orange", "g", "g", "r", "r"] for system in sim_data.molecule_groups.twoComponentSystems: for idx, moleculeType in enumerate(moleculeTypeOrder): - TCS_IDS.append(str(system["molecules"][moleculeType]) + moleculeTypeLocation[idx]) + TCS_IDS.append( + str(system["molecules"][moleculeType]) + + sim_data.getter.get_compartment_tag(system["molecules"][moleculeType])) (moleculeCounts,) = read_bulk_molecule_counts(simOutDir, (TCS_IDS,)) diff --git a/models/ecoli/processes/polypeptide_initiation.py b/models/ecoli/processes/polypeptide_initiation.py index 8c281ed078..563a43f507 100755 --- a/models/ecoli/processes/polypeptide_initiation.py +++ b/models/ecoli/processes/polypeptide_initiation.py @@ -37,7 +37,7 @@ def initialize(self, sim, sim_data): self.make_elongation_rates = sim_data.process.translation.make_elongation_rates # Get indexes from proteins to transcription units - self.protein_index_to_TU_index = sim_data.relation.rna_index_to_monomer_mapping + self.protein_index_to_TU_index = sim_data.relation.RNA_to_monomer_mapping # Build matrix to convert transcription unit counts to mRNA counts all_TU_ids = sim_data.process.transcription.rna_data['id'] diff --git a/models/ecoli/sim/initial_conditions.py b/models/ecoli/sim/initial_conditions.py index 3733449749..53855b8ecf 100755 --- a/models/ecoli/sim/initial_conditions.py +++ b/models/ecoli/sim/initial_conditions.py @@ -176,7 +176,7 @@ def initializeProteinMonomers(bulkMolCntr, sim_data, randomState, massCoeff, ppg rnaExpression = sim_data.process.transcription.rna_expression[sim_data.condition] monomerExpression = normalize( - rnaExpression[sim_data.relation.rna_index_to_monomer_mapping] * + rnaExpression[sim_data.relation.RNA_to_monomer_mapping] * sim_data.process.translation.translation_efficiencies_by_monomer / (np.log(2) / sim_data.condition_to_doubling_time[sim_data.condition].asNumber(units.s) + sim_data.process.translation.monomer_data['deg_rate'].asNumber(1 / units.s)) ) diff --git a/reconstruction/ecoli/dataclasses/getter_functions.py b/reconstruction/ecoli/dataclasses/getter_functions.py index 55c92bd4b2..e2ee1f9f3c 100755 --- a/reconstruction/ecoli/dataclasses/getter_functions.py +++ b/reconstruction/ecoli/dataclasses/getter_functions.py @@ -14,6 +14,26 @@ from reconstruction.ecoli.dataclasses.molecule_groups import POLYMERIZED_FRAGMENT_PREFIX from wholecell.utils import units +RNA_TYPE_TO_SUBMASS = { + 'tRNA': 'tRNA', + 'mRNA': 'mRNA', + 'pseudo': 'miscRNA', + 'miscRNA': 'miscRNA', + 'rRNA': 'rRNA', + 'phantom': 'miscRNA', + } + +# Mapping of compartment IDs to abbreviations for compartments undefined in +# flat/compartments.tsv +UNDEFINED_COMPARTMENT_IDS_TO_ABBREVS = { + 'CCO-CW-BAC-NEG': 'o', + 'CCO-CE-BAC': 'm', + 'CCO-BAC-NUCLEOID': 'c', + 'CCO-RIBOSOME': 'c', +} + +class GeneDirectionError(Exception): + pass class UnknownMolecularWeightError(Exception): pass @@ -96,7 +116,7 @@ def get_compartment_tag(self, id_): """ return f'[{self._all_compartments[id_][0]}]' - def check_valid_molecule(self, mol_id): + def is_valid_molecule(self, mol_id): # type: (str) -> bool """ Returns True if the molecule with the given ID is a valid molecule (has @@ -125,31 +145,50 @@ def _build_rna_sequences(self, raw_data): Builds nucleotide sequences of each RNA using the genome sequence and the transcription start sites and lengths of the corresponding gene. """ - # Get index of gene corresponding to each RNA - rna_id_to_gene_index = {gene['rna_id']: i - for i, gene in enumerate(raw_data.genes)} - - # Get RNA lengths from gene data - gene_lengths = [gene['length'] for gene in raw_data.genes] + # Get mapping from rna_id to gene_id + rna_id_to_gene_id = { + gene['rna_id']: gene['id'] for gene in raw_data.genes} - # Get list of coordinates and directions for each gene - coordinate_list = [gene["coordinate"] for gene in raw_data.genes] - direction_list = [gene["direction"] for gene in raw_data.genes] + # Get coordinates and directions of each gene + gene_id_to_left_end_pos = { + gene['id']: gene['left_end_pos'] for gene in raw_data.genes + } + gene_id_to_right_end_pos = { + gene['id']: gene['right_end_pos'] for gene in raw_data.genes + } + gene_id_to_direction = { + gene['id']: gene['direction'] for gene in raw_data.genes + } - # Get RNA sequence from genome sequence + # Get RNA sequences from genome sequence genome_sequence = raw_data.genome_sequence + all_rna_ids = list(set([rna['id'] for rna in raw_data.rnas])) - for rna in raw_data.rnas: - gene_index = rna_id_to_gene_index[rna['id']] - coordinate = coordinate_list[gene_index] - - # Parse genome sequence to get RNA sequence - if direction_list[gene_index] == '+': - seq = genome_sequence[coordinate:coordinate + gene_lengths[gene_index]].transcribe() + for rna_id in all_rna_ids: + # Skip RNAs without associated genes + if rna_id not in rna_id_to_gene_id: + continue else: - seq = genome_sequence[coordinate - gene_lengths[gene_index] + 1:coordinate + 1].reverse_complement().transcribe() + gene_id = rna_id_to_gene_id[rna_id] + left_end_pos = gene_id_to_left_end_pos[gene_id] + right_end_pos = gene_id_to_right_end_pos[gene_id] + + # Skip RNAs without gene end positions + if left_end_pos is None or right_end_pos is None: + continue + else: + # Parse genome sequence to get RNA sequence (Note: + # positions in genes.tsv are given as 1-indexed + # coordinates) + if gene_id_to_direction[gene_id] == '+': + seq = genome_sequence[left_end_pos - 1 : right_end_pos].transcribe() + elif gene_id_to_direction[gene_id] == '-': + seq = genome_sequence[left_end_pos - 1 : right_end_pos].reverse_complement().transcribe() + else: + raise GeneDirectionError( + f'Unidentified gene direction given for {gene_id}') - self._sequences[rna['id']] = seq + self._sequences[rna_id] = seq def _build_protein_sequences(self, raw_data): """ @@ -157,7 +196,9 @@ def _build_protein_sequences(self, raw_data): in raw_data. """ for protein in raw_data.proteins: - self._sequences[protein['id']] = Seq(protein['seq']) + if protein['seq'] is not None: + # Remove internal stop codons + self._sequences[protein['id']] = Seq(protein['seq'].replace('*', '')) def _build_submass_array(self, mw, submass_name): # type: (float, str) -> np.ndarray @@ -178,11 +219,15 @@ def _build_all_masses(self, raw_data, sim_data): """ self._all_submass_arrays = {} + metabolites_with_masses = [ + met for met in raw_data.metabolites if met['mw'] is not None] + + # Water is the only metabolite with a separate submass classification self._all_submass_arrays.update({ met['id']: (self._build_submass_array(met['mw'], 'metabolite') if met['id'] != sim_data.molecule_ids.water[:-3] else self._build_submass_array(met['mw'], 'water')) - for met in raw_data.metabolites + for met in metabolites_with_masses }) # These updates can be dependent on metabolite masses @@ -247,23 +292,36 @@ def _build_rna_masses(self, raw_data, sim_data): Molecular weights are calculated from the RNA sequence and the weights of polymerized NTPs. """ + rnas_with_seqs = [ + rna['id'] for rna in raw_data.rnas if rna['id'] in self._sequences] + # Get RNA nucleotide compositions - rna_seqs = self.get_sequences([rna['id'] for rna in raw_data.rnas]) + rna_seqs = self.get_sequences(rnas_with_seqs) nt_counts = [] for seq in rna_seqs: - nt_counts.append( - [seq.count(letter) for letter in sim_data.ntp_code_to_id_ordered.keys()]) + nt_counts.append([ + seq.count(letter) + for letter in sim_data.ntp_code_to_id_ordered.keys()]) nt_counts = np.array(nt_counts) # Calculate molecular weights ppi_mw = self._all_submass_arrays[sim_data.molecule_ids.ppi[:-3]].sum() polymerized_ntp_mws = np.array([ - self._all_submass_arrays[met_id[:-3]].sum() for met_id in sim_data.molecule_groups.polymerized_ntps + self._all_submass_arrays[met_id[:-3]].sum() + for met_id in sim_data.molecule_groups.polymerized_ntps ]) mws = nt_counts.dot(polymerized_ntp_mws) + ppi_mw # Add end weight - return {rna['id']: self._build_submass_array(mw, rna['type']) for (rna, mw) in zip(raw_data.rnas, mws)} + rna_id_to_type = { + rna['id']: rna['type'] for rna in raw_data.rnas + } + + return { + rna_id: self._build_submass_array( + mw, RNA_TYPE_TO_SUBMASS[rna_id_to_type[rna_id]]) + for (rna_id, mw) in zip(rnas_with_seqs, mws) + } def _build_protein_masses(self, raw_data, sim_data): """ @@ -271,23 +329,31 @@ def _build_protein_masses(self, raw_data, sim_data): the protein IDs. Molecular weights are calculated from the protein sequence and the weights of polymerized amino acids. """ + proteins_with_seqs = [ + protein['id'] for protein in raw_data.proteins + if protein['id'] in self._sequences] + # Get protein amino acid compositions - protein_seqs = self.get_sequences( - [protein['id'] for protein in raw_data.proteins]) + protein_seqs = self.get_sequences(proteins_with_seqs) aa_counts = [] for seq in protein_seqs: - aa_counts.append( - [seq.count(letter) for letter in sim_data.amino_acid_code_to_id_ordered.keys()]) + aa_counts.append([ + seq.count(letter) + for letter in sim_data.amino_acid_code_to_id_ordered.keys()]) aa_counts = np.array(aa_counts) # Calculate molecular weights water_mw = self._all_submass_arrays[sim_data.molecule_ids.water[:-3]].sum() - polymerized_aa_mws = np.array( - [self._all_submass_arrays[met_id[:-3]].sum() for met_id in sim_data.molecule_groups.polymerized_amino_acids] - ) + polymerized_aa_mws = np.array([ + self._all_submass_arrays[met_id[:-3]].sum() + for met_id in sim_data.molecule_groups.polymerized_amino_acids + ]) mws = aa_counts.dot(polymerized_aa_mws) + water_mw # Add end weight - return {protein['id']: self._build_submass_array(mw, 'protein') for (protein, mw) in zip(raw_data.proteins, mws)} + return { + protein_id: self._build_submass_array(mw, 'protein') + for (protein_id, mw) in zip(proteins_with_seqs, mws) + } def _build_full_chromosome_mass(self, raw_data, sim_data): """ @@ -307,13 +373,16 @@ def _build_full_chromosome_mass(self, raw_data, sim_data): # Calculate molecular weight polymerized_dntp_mws = np.array([ - self._all_submass_arrays[met_id[:-3]].sum() for met_id in sim_data.molecule_groups.polymerized_dntps + self._all_submass_arrays[met_id[:-3]].sum() + for met_id in sim_data.molecule_groups.polymerized_dntps ]) mw = float(np.dot( forward_strand_nt_counts + reverse_strand_nt_counts, polymerized_dntp_mws)) - return {sim_data.molecule_ids.full_chromosome[:-3]: self._build_submass_array(mw, 'DNA')} + return { + sim_data.molecule_ids.full_chromosome[:-3]: self._build_submass_array(mw, 'DNA') + } def _build_modified_rna_masses(self, raw_data): """ @@ -328,20 +397,21 @@ def _build_modified_rna_masses(self, raw_data): modified_rna_id for rna in raw_data.rnas for modified_rna_id in rna['modified_forms']} - # Get IDs of modification reactions that should be removed - removed_rna_modification_reaction_ids = { - rxn['id'] for rxn in raw_data.rna_modification_reactions_removed + # Get IDs of charging reactions that should be removed + removed_charging_reaction_ids = { + rxn['id'] for rxn in raw_data.trna_charging_reactions_removed } - # Loop through each modification reaction - for rxn in raw_data.rna_modification_reactions: - if rxn['id'] in removed_rna_modification_reaction_ids: + # Loop through each charging reaction + for rxn in raw_data.trna_charging_reactions: + # Skip removed reactions + if rxn['id'] in removed_charging_reaction_ids: continue - # Find molecule IDs whose masses are unknown + # Find molecule IDs whose masses are still unknown unknown_mol_ids = [ - x['molecule'] for x in rxn['stoichiometry'] - if x['molecule'] not in self._all_submass_arrays] + mol_id for mol_id in rxn['stoichiometry'].keys() + if mol_id not in self._all_submass_arrays] # The only molecule whose mass is unknown should be the modified # RNA molecule if len(unknown_mol_ids) != 1: @@ -356,11 +426,11 @@ def _build_modified_rna_masses(self, raw_data): # Calculate mw of the modified RNA from the stoichiometry mw_sum = np.zeros(self._n_submass_indexes) - for entry in rxn['stoichiometry']: - if entry['molecule'] == modified_rna_id: - modified_rna_coeff = entry['coeff'] + for mol_id, coeff in rxn['stoichiometry'].items(): + if mol_id == modified_rna_id: + modified_rna_coeff = coeff else: - mw_sum += entry['coeff']*self._all_submass_arrays[entry['molecule']] + mw_sum += coeff*self._all_submass_arrays[mol_id] modified_rna_masses[modified_rna_id] = -mw_sum/modified_rna_coeff @@ -396,18 +466,22 @@ def _build_protein_complex_masses(self, raw_data): complex_ids = [] subunit_stoich = {} - for mol in rxn['stoichiometry']: - if mol['coeff'] == 1: - complex_ids.append(mol['molecule']) - elif mol['coeff'] < 0: - subunit_stoich.update({mol['molecule']: -mol['coeff']}) + for mol_id, coeff in rxn['stoichiometry'].items(): + # Assume coefficients given as "null" equate to -1 + if coeff is None: + coeff = -1 + + if coeff == 1: + complex_ids.append(mol_id) + elif coeff < 0: + subunit_stoich.update({mol_id: -coeff}) # Each molecule should either be a complex with the coefficient # 1 or a subunit with a negative coefficient else: raise InvalidProteinComplexError( 'Reaction %s contains an invalid molecule %s with stoichiometric coefficient %.1f.' - % (rxn['id'], mol['molecule'], mol['coeff'])) + % (rxn['id'], mol_id, coeff)) # Each reaction should only produce a single protein complex if len(complex_ids) != 1: @@ -436,7 +510,7 @@ def get_mw(mol_id): # stoichiometry if mol_id not in complex_id_to_stoich: raise InvalidProteinComplexError( - 'Complex %s is not being produced by any copmlexation or equilibrium reaction.' + 'Complex %s is not being produced by any complexation or equilibrium reaction.' % (mol_id, ) ) mw_sum = np.zeros(self._n_submass_indexes) @@ -452,10 +526,18 @@ def get_mw(mol_id): return protein_complex_masses + def _build_compartments(self, raw_data, sim_data): self._all_compartments = {} all_compartments = [comp['abbrev'] for comp in raw_data.compartments] + compartment_ids_to_abbreviations = { + comp['id']: comp['abbrev'] for comp in raw_data.compartments + } + # TODO (ggsun): Add some of these to list of compartments? + compartment_ids_to_abbreviations.update( + UNDEFINED_COMPARTMENT_IDS_TO_ABBREVS) + # RNAs, modified RNAs, and full chromosomes only localize to the # cytosol self._all_compartments.update({ @@ -470,15 +552,39 @@ def _build_compartments(self, raw_data, sim_data): sim_data.molecule_ids.full_chromosome[:-3]: ['c'] }) - # Proteins and modified proteins localize to the single compartment - # specified in raw data for each protein + # Proteins are assumed to localize to a single compartment. If an + # experimentally determined localization exists, the first compartment + # given in the list is used. If an experimentally determined + # localization doesn't exist, the first compartment given in the list + # of computationally determined compartments is used. If no compartment + # information is given, the protein is assumed to localize to the + # cytosol. + for protein in raw_data.proteins: + exp_location = protein['exp_location'] + comp_location = protein['comp_location'] + + if len(exp_location) + len(comp_location) == 0: + compartment = 'CCO-CYTOSOL' + elif len(exp_location) > 0: + compartment = exp_location[0] + else: + compartment = comp_location[0] + + self._all_compartments.update({ + protein['id']: [compartment_ids_to_abbreviations[compartment]] + }) + + # Modified proteins localize to the single compartment specified in raw + # data for each protein self._all_compartments.update({ - protein['id']: [protein['compartment']] for protein - in itertools.chain(raw_data.proteins, raw_data.modified_proteins) + protein['id']: [protein['compartment']] + for protein in raw_data.modified_proteins }) # Metabolites and polymerized subunits can localize to all compartments # being modeled + # TODO (ggsun): Limit metabolite compartments to those that actually + # exist in reaction stoichiometries self._all_compartments.update({ met['id']: all_compartments for met in raw_data.metabolites }) @@ -536,11 +642,14 @@ def _build_protein_complex_compartments(self, raw_data, all_compartments_sorted) complex_id = None subunit_ids = [] - for mol in rxn['stoichiometry']: - if mol['coeff'] == 1: - complex_id = mol['molecule'] - elif mol['coeff'] < 0: - subunit_ids.append(mol['molecule']) + for mol_id, coeff in rxn['stoichiometry'].items(): + if coeff is None: + coeff = -1 + + if coeff == 1: + complex_id = mol_id + elif coeff < 0: + subunit_ids.append(mol_id) complex_id_to_subunit_ids[complex_id] = subunit_ids diff --git a/reconstruction/ecoli/dataclasses/process/complexation.py b/reconstruction/ecoli/dataclasses/process/complexation.py index 545d9b8c28..62c763087a 100755 --- a/reconstruction/ecoli/dataclasses/process/complexation.py +++ b/reconstruction/ecoli/dataclasses/process/complexation.py @@ -41,42 +41,38 @@ def __init__(self, raw_data, sim_data): self.ids_reactions.append(reaction['id']) - for molecule in reaction["stoichiometry"]: - if molecule["type"] == "metabolite": - moleculeName = "{}[{}]".format( - molecule["molecule"].upper(), - molecule["location"] - ) - else: - moleculeName = "{}[{}]".format( - molecule["molecule"], - sim_data.getter.get_compartment(molecule["molecule"])[0] - ) - - if moleculeName not in molecules: - molecules.append(moleculeName) + for mol_id, coeff in reaction["stoichiometry"].items(): + mol_id_with_compartment = "{}[{}]".format( + mol_id, + sim_data.getter.get_compartment(mol_id)[0] + ) + + if mol_id_with_compartment not in molecules: + molecules.append(mol_id_with_compartment) molecule_index = len(molecules) - 1 else: - molecule_index = molecules.index(moleculeName) + molecule_index = molecules.index(mol_id_with_compartment) + + # Assume coefficents given as null are -1 + if coeff is None: + coeff = -1 - coefficient = molecule["coeff"] - assert (coefficient % 1) == 0 + assert (coeff % 1) == 0 stoichMatrixI.append(molecule_index) stoichMatrixJ.append(reaction_index) - stoichMatrixV.append(coefficient) + stoichMatrixV.append(coeff) # Classify molecule into subunit or complex depending on sign # of the stoichiometric coefficient - Note that a molecule can # be both a subunit and a complex - if coefficient < 0: - subunits.append(moleculeName) + if coeff < 0: + subunits.append(mol_id_with_compartment) else: - assert molecule["type"] == "proteincomplex" - complexes.append(moleculeName) + complexes.append(mol_id_with_compartment) # Find molecular mass of the molecule and add to mass matrix - molecularMass = sim_data.getter.get_mass(moleculeName).asNumber(units.g / units.mol) + molecularMass = sim_data.getter.get_mass(mol_id_with_compartment).asNumber(units.g / units.mol) stoichMatrixMass.append(molecularMass) reaction_index += 1 diff --git a/reconstruction/ecoli/dataclasses/process/equilibrium.py b/reconstruction/ecoli/dataclasses/process/equilibrium.py index addf3551a5..ee5f228856 100644 --- a/reconstruction/ecoli/dataclasses/process/equilibrium.py +++ b/reconstruction/ecoli/dataclasses/process/equilibrium.py @@ -42,18 +42,32 @@ def __init__(self, raw_data, sim_data): # Make sure reactions are not duplicated in complexationReactions and # equilibriumReactions - equilibriumReactionIds = set([x["id"] for x in raw_data.equilibrium_reactions]) - complexationReactionIds = set([x["id"] for x in raw_data.complexation_reactions]) - - if equilibriumReactionIds.intersection(complexationReactionIds) != set(): + removed_equilibrium_reaction_ids = { + rxn['id'] for rxn in raw_data.equilibrium_reactions_removed} + removed_complexation_reaction_ids = { + rxn['id'] for rxn in raw_data.complexation_reactions_removed} + + equilibrium_reaction_ids = set( + [x["id"] for x in raw_data.equilibrium_reactions + if x['id'] not in removed_equilibrium_reaction_ids] + ) + complexation_reaction_ids = set( + [x["id"] for x in raw_data.complexation_reactions + if x['id'] not in removed_complexation_reaction_ids] + ) + + if equilibrium_reaction_ids.intersection(complexation_reaction_ids) != set(): raise Exception( "The following reaction ids are specified in equilibriumReactions and complexationReactions: %s" % ( - equilibriumReactionIds.intersection( - complexationReactionIds))) + equilibrium_reaction_ids.intersection( + complexation_reaction_ids))) - # Initialize IDs of reactions that should be removed - removed_reaction_ids = { - rxn['id'] for rxn in raw_data.equilibrium_reactions_removed} + # Get IDs of all metabolites + metabolite_ids = {met['id'] for met in raw_data.metabolites} + + # IDs of 2CS ligands that should be tagged to the periplasm + two_component_system_ligands = [ + l["molecules"]["LIGAND"] for l in raw_data.two_component_systems] # Remove complexes that are currently not simulated FORBIDDEN_MOLECULES = { @@ -65,62 +79,78 @@ def __init__(self, raw_data, sim_data): # TODO (ggsun): check if this list is accurate MOLECULES_THAT_WILL_EXIST_IN_SIMULATION = [ m["Metabolite"] for m in raw_data.metabolite_concentrations] + [ - "LEU", "S-ADENOSYLMETHIONINE", "ARABINOSE", "4FE-4S"] + [ - l["molecules"]["LIGAND"] for l in raw_data.two_component_systems] + "LEU", "S-ADENOSYLMETHIONINE", "ARABINOSE", "4FE-4S"] + two_component_system_ligands for reaction in raw_data.equilibrium_reactions: - for molecule in reaction["stoichiometry"]: - if molecule["molecule"] in FORBIDDEN_MOLECULES or (molecule["type"] == "metabolite" and molecule["molecule"] not in MOLECULES_THAT_WILL_EXIST_IN_SIMULATION): - removed_reaction_ids.add(reaction['id']) + for mol_id in reaction["stoichiometry"].keys(): + if mol_id in FORBIDDEN_MOLECULES or ( + mol_id in metabolite_ids and mol_id not in MOLECULES_THAT_WILL_EXIST_IN_SIMULATION): + removed_equilibrium_reaction_ids.add(reaction['id']) break + # Get forward and reverse rates of each reaction + forward_rates = { + rxn['id']: rxn['forward_rate'] for rxn in raw_data.equilibrium_reaction_rates + } + reverse_rates = { + rxn['id']: rxn['reverse_rate'] for rxn in raw_data.equilibrium_reaction_rates + } + median_forward_rate = np.median(np.array(list(forward_rates.values()))) + median_reverse_rate = np.median(np.array(list(reverse_rates.values()))) + reaction_index = 0 # Build stoichiometry matrix for reaction in raw_data.equilibrium_reactions: - if reaction['id'] in removed_reaction_ids: + if reaction['id'] in removed_equilibrium_reaction_ids: continue - ratesFwd.append(reaction["forward_rate"]) - ratesRev.append(reaction["reverse_rate"]) + ratesFwd.append(forward_rates.get(reaction['id'], median_forward_rate)) + ratesRev.append(reverse_rates.get(reaction['id'], median_reverse_rate)) rxnIds.append(reaction["id"]) - for molecule in reaction["stoichiometry"]: - if molecule["type"] == "metabolite": - moleculeName = "{}[{}]".format( - molecule["molecule"].upper(), - molecule["location"] - ) - self.metabolite_set.add(moleculeName) - + for mol_id, coeff in reaction["stoichiometry"].items(): + if mol_id in metabolite_ids: + if mol_id in two_component_system_ligands: + mol_id_with_compartment = "{}[{}]".format( + mol_id, 'p' # Assume 2CS ligands are in periplasm + ) + else: + mol_id_with_compartment = "{}[{}]".format( + mol_id, 'c' # Assume all other metabolites are in cytosol + ) + self.metabolite_set.add(mol_id_with_compartment) else: - moleculeName = "{}[{}]".format( - molecule["molecule"], - sim_data.getter.get_compartment(molecule["molecule"])[0] + mol_id_with_compartment = "{}[{}]".format( + mol_id, + sim_data.getter.get_compartment(mol_id)[0] ) - if moleculeName not in molecules: - molecules.append(moleculeName) + if mol_id_with_compartment not in molecules: + molecules.append(mol_id_with_compartment) molecule_index = len(molecules) - 1 - else: - molecule_index = molecules.index(moleculeName) + molecule_index = molecules.index(mol_id_with_compartment) - coefficient = molecule["coeff"] + # Assume coefficients given as null are -1 + if coeff is None: + coeff = -1 - assert coefficient % 1 == 0 + # All stoichiometric coefficients must be integers + assert coeff % 1 == 0 - # Store indices for the row and column, and molecule coefficient for building the stoichiometry matrix + # Store indices for the row and column, and molecule + # coefficient for building the stoichiometry matrix stoichMatrixI.append(molecule_index) stoichMatrixJ.append(reaction_index) - stoichMatrixV.append(coefficient) + stoichMatrixV.append(coeff) - if coefficient > 0: - assert molecule["type"] == "proteincomplex" - self.complex_name_to_rxn_idx[moleculeName] = reaction_index + # If coefficient is positive, the molecule is the complex + if coeff > 0: + self.complex_name_to_rxn_idx[mol_id_with_compartment] = reaction_index # Find molecular mass - molecularMass = sim_data.getter.get_mass(moleculeName).asNumber(units.g / units.mol) + molecularMass = sim_data.getter.get_mass(mol_id_with_compartment).asNumber(units.g / units.mol) stoichMatrixMass.append(molecularMass) reaction_index += 1 @@ -288,21 +318,34 @@ def _make_rates(self): negIdxs = np.where(S[:, colIdx] < 0)[0] posIdxs = np.where(S[:, colIdx] > 0)[0] + fwd_stoich = 1. reactantFlux = ratesFwd[colIdx] for negIdx in negIdxs: stoich = -S[negIdx, colIdx] if stoich == 1: reactantFlux *= y[negIdx] else: + if stoich > fwd_stoich: + fwd_stoich = stoich reactantFlux *= y[negIdx]**stoich - productFlux = ratesRev[colIdx] + # Need to scale the rate by the number of dissociation reactions + # which is the highest stoichiometry in the forward direction + if fwd_stoich > 1: + productFlux = ratesRev[colIdx]**fwd_stoich + else: + productFlux = ratesRev[colIdx] for posIdx in posIdxs: stoich = S[posIdx, colIdx] if stoich == 1: productFlux *= y[posIdx] else: - productFlux *= y[posIdx]**stoich + # If this needs to be included, it may affect the rate + # calculation with multiple products so double check before + # implementing. For now, the assumption is that there will + # only be one product and this verifies that assumption. + raise ValueError('Expected a single product (stoichiometry' + f' of 1) for equilibrium reaction {self.rxn_ids[colIdx]}') rates.append(reactantFlux - productFlux) diff --git a/reconstruction/ecoli/dataclasses/process/metabolism.py b/reconstruction/ecoli/dataclasses/process/metabolism.py index 5d6f5afc6b..3483282e90 100755 --- a/reconstruction/ecoli/dataclasses/process/metabolism.py +++ b/reconstruction/ecoli/dataclasses/process/metabolism.py @@ -11,6 +11,7 @@ from __future__ import absolute_import, division, print_function from copy import copy +import itertools import re from typing import Any, cast, Dict, Iterable, List, Optional, Set, Tuple, Union @@ -18,6 +19,7 @@ import sympy as sp from sympy.parsing.sympy_parser import parse_expr +from reconstruction.ecoli.dataclasses.getter_functions import UNDEFINED_COMPARTMENT_IDS_TO_ABBREVS from reconstruction.ecoli.knowledge_base_raw import KnowledgeBaseEcoli # NOTE: Importing SimulationDataEcoli would make a circular reference so use Any. #from reconstruction.ecoli.simulation_data import SimulationDataEcoli @@ -25,7 +27,7 @@ import six from six.moves import range, zip - +# TODO (ggsun): Add these values as raw data files PPI_CONCENTRATION = 0.5e-3 # M, multiple sources ECOLI_PH = 7.2 KINETIC_CONSTRAINT_CONC_UNITS = units.umol / units.L @@ -42,6 +44,10 @@ VERBOSE = False +class InvalidReactionDirectionError(Exception): + pass + + class Metabolism(object): """ Metabolism """ @@ -114,7 +120,7 @@ def _build_biomass(self, raw_data, sim_data): for row in raw_data.metabolite_concentrations: metabolite_id = row['Metabolite'] - if not sim_data.getter.check_valid_molecule(metabolite_id): + if not sim_data.getter.is_valid_molecule(metabolite_id): if VERBOSE: print('Metabolite concentration for unknown molecule: {}' .format(metabolite_id)) @@ -180,7 +186,7 @@ def _build_biomass(self, raw_data, sim_data): metaboliteIDs.append(sim_data.molecule_ids.ppi) metaboliteConcentrations.append(PPI_CONCENTRATION) - metaboliteIDs.append("PI[c]") + metaboliteIDs.append("Pi[c]") metaboliteConcentrations.append(PPI_CONCENTRATION) # include metabolites that are part of biomass @@ -223,6 +229,7 @@ def _build_biomass(self, raw_data, sim_data): raise ValueError('Multiple concentrations for metabolite(s): {}'.format(', '.join(unique_ids[counts > 1]))) # TODO (Travis): only pass raw_data and sim_data and create functions to load absolute and relative concentrations + all_metabolite_ids = {met['id'] for met in raw_data.metabolites} self.concentration_updates = ConcentrationUpdates(dict(zip( metaboliteIDs, METABOLITE_CONCENTRATION_UNITS * np.array(metaboliteConcentrations) @@ -230,6 +237,7 @@ def _build_biomass(self, raw_data, sim_data): relative_changes, raw_data.equilibrium_reactions, sim_data.external_state.exchange_dict, + all_metabolite_ids ) self.conc_dict = self.concentration_updates.concentrations_based_on_nutrients("minimal") self.nutrients_to_internal_conc = {} @@ -323,7 +331,8 @@ def _build_metabolism(self, raw_data, sim_data): # Properties for FBA reconstruction self.reaction_stoich = reaction_stoich - self.maintenance_reaction = {"ATP[c]": -1, "WATER[c]": -1, "ADP[c]": +1, "PI[c]": +1, "PROTON[c]": +1, } + # TODO (ggsun): add this as a raw .tsv file + self.maintenance_reaction = {"ATP[c]": -1, "WATER[c]": -1, "ADP[c]": +1, "Pi[c]": +1, "PROTON[c]": +1, } # Properties for catalysis matrix (to set hard bounds) self.reaction_catalysts = catalysts @@ -830,6 +839,15 @@ def extract_reactions(raw_data, sim_data): enzyme catalysts for each reaction with known catalysts, likely a subset of reactions in stoich """ + compartment_ids_to_abbreviations = { + comp['id']: comp['abbrev'] for comp in raw_data.compartments + } + compartment_ids_to_abbreviations.update( + UNDEFINED_COMPARTMENT_IDS_TO_ABBREVS) + + valid_directions = {'L2R', 'R2L', 'BOTH'} + forward_directions = {'L2R', 'BOTH'} + reverse_directions = {'R2L', 'BOTH'} # Initialize variables to store reaction information reaction_stoich = {} @@ -837,50 +855,75 @@ def extract_reactions(raw_data, sim_data): reaction_catalysts = {} # Get IDs of reactions that should be removed - removed_reaction_ids = { + removed_metabolic_reaction_ids = { rxn['id'] for rxn in cast(Any, raw_data).metabolic_reactions_removed} # Load and parse reaction information from raw_data - for reaction in cast(Any, raw_data).metabolic_reactions: + # TODO (ggsun): Two files will later be merged + for reaction in itertools.chain( + cast(Any, raw_data).metabolic_reactions, + cast(Any, raw_data).protein_modification_reactions): reaction_id = reaction["id"] # Skip removed reactions - if reaction_id in removed_reaction_ids: + if reaction_id in removed_metabolic_reaction_ids: continue stoich = reaction["stoichiometry"] - reversible = reaction["is_reversible"] + direction = reaction["direction"] if len(stoich) <= 1: raise Exception("Invalid biochemical reaction: {}, {}".format(reaction_id, stoich)) - reaction_stoich[reaction_id] = stoich + if direction not in valid_directions: + raise InvalidReactionDirectionError( + f'The direction {direction} given for reaction {reaction_id} is invalid.') + forward = direction in forward_directions + reverse = direction in reverse_directions + + def convert_compartment_tags(met_id): + new_met_id = met_id + + for comp_id, comp_abbrev in compartment_ids_to_abbreviations.items(): + new_met_id = new_met_id.replace( + f'[{comp_id}]', f'[{comp_abbrev}]') + + return new_met_id + + # TODO (ggsun): Add complexes formed by complexing given enzymes catalysts_for_this_rxn = [] for catalyst in reaction["catalyzed_by"]: - try: + if sim_data.getter.is_valid_molecule(catalyst): catalysts_with_loc = catalyst + sim_data.getter.get_compartment_tag(catalyst) catalysts_for_this_rxn.append(catalysts_with_loc) # If we don't have the catalyst in our reconstruction, drop it - except KeyError: + else: if VERBOSE: - print('Skipping catalyst {} for {} since it is not in the model' - .format(catalyst, reaction_id)) - - if len(catalysts_for_this_rxn) > 0: - reaction_catalysts[reaction_id] = catalysts_for_this_rxn + print( + 'Skipping catalyst {} for {} since it is not in the model' + .format(catalyst, reaction_id) + ) + + if forward: + reaction_stoich[reaction_id] = { + convert_compartment_tags(moleculeID): stoichCoeff + for moleculeID, stoichCoeff in stoich.items() + } + if len(catalysts_for_this_rxn) > 0: + reaction_catalysts[reaction_id] = catalysts_for_this_rxn - # Add the reverse reaction - if reversible: + if reverse: reverse_reaction_id = REVERSE_REACTION_ID.format(reaction_id) reaction_stoich[reverse_reaction_id] = { - moleculeID: -stoichCoeff - for moleculeID, stoichCoeff in six.viewitems(reaction_stoich[reaction_id]) + convert_compartment_tags(moleculeID): -stoichCoeff + for moleculeID, stoichCoeff in stoich.items() } + if len(catalysts_for_this_rxn) > 0: + reaction_catalysts[reverse_reaction_id] = list(catalysts_for_this_rxn) + if forward and reverse: reversible_reactions.append(reaction_id) - if len(catalysts_for_this_rxn) > 0: - reaction_catalysts[reverse_reaction_id] = list(reaction_catalysts[reaction_id]) return reaction_stoich, reversible_reactions, reaction_catalysts @@ -1331,6 +1374,7 @@ def _replace_enzyme_reactions(constraints, stoich, rxn_catalysts, reversible_rxn # Split out reactions that are kinetically constrained and that have # more than one enzyme that catalyzes the reaction for (rxn, enzyme), constraint in constraints.items(): + if n_catalysts[rxn] > 1: # Create new reaction name with enzyme appended to the end if rxn.endswith(REVERSE_TAG): @@ -1347,6 +1391,7 @@ def _replace_enzyme_reactions(constraints, stoich, rxn_catalysts, reversible_rxn # Remove enzyme from old reaction and remove old reaction if no # more enzyme catalysts rxn_catalysts[rxn].pop(rxn_catalysts[rxn].index(enzyme)) + if len(rxn_catalysts[rxn]) == 0: stoich.pop(rxn) rxn_catalysts.pop(rxn) @@ -1510,11 +1555,12 @@ def _is_transport_rxn(self, stoich): # Class used to update metabolite concentrations based on the current nutrient conditions class ConcentrationUpdates(object): - def __init__(self, concDict, relative_changes, equilibriumReactions, exchange_data_dict): + def __init__(self, concDict, relative_changes, equilibriumReactions, exchange_data_dict, all_metabolite_ids): self.units = units.getUnit(list(concDict.values())[0]) self.default_concentrations_dict = dict((key, concDict[key].asNumber(self.units)) for key in concDict) self.exchange_fluxes = self._exchange_flux_present(exchange_data_dict) self.relative_changes = relative_changes + self._all_metabolite_ids = all_metabolite_ids # factor of internal amino acid increase if amino acids present in nutrients self.molecule_scale_factors = { @@ -1610,7 +1656,9 @@ def _add_molecule_amounts(self, equilibriumReactions, concDict): if len(reaction["stoichiometry"]) != 3: continue - moleculeName = [x["molecule"] for x in reaction["stoichiometry"] if x["type"] == "metabolite"][0] + moleculeName = [ + mol_id for mol_id in reaction["stoichiometry"].keys() + if mol_id in self._all_metabolite_ids][0] amountToSet = 1e-4 moleculeSetAmounts[moleculeName + "[p]"] = amountToSet * self.units moleculeSetAmounts[moleculeName + "[c]"] = amountToSet * self.units diff --git a/reconstruction/ecoli/dataclasses/process/transcription.py b/reconstruction/ecoli/dataclasses/process/transcription.py index 69ce9c81fe..30a4ccb471 100755 --- a/reconstruction/ecoli/dataclasses/process/transcription.py +++ b/reconstruction/ecoli/dataclasses/process/transcription.py @@ -179,8 +179,13 @@ def _build_rna_data(self, raw_data, sim_data): """ self._basal_rna_fractions = sim_data.mass.get_basal_rna_fractions() + # Filter out RNAs without sequences + all_rnas = [ + rna for rna in raw_data.rnas + if sim_data.getter.is_valid_molecule(rna['id'])] + # Load RNA IDs with compartment tags - rna_ids = [rna['id'] for rna in raw_data.rnas] + rna_ids = [rna['id'] for rna in all_rnas] compartments = sim_data.getter.get_compartments(rna_ids) rna_ids_with_compartments = [ @@ -188,7 +193,7 @@ def _build_rna_data(self, raw_data, sim_data): in zip(rna_ids, compartments)] # Load set of mRNA ids - mRNA_ids = set([rna['id'] for rna in raw_data.rnas if rna['type'] == 'mRNA']) + mRNA_ids = set([rna['id'] for rna in all_rnas if rna['type'] == 'mRNA']) # Load RNA half lives rna_id_to_half_life = {} @@ -207,7 +212,7 @@ def _build_rna_data(self, raw_data, sim_data): # average reported half life of mRNAs half_lives = np.array([ rna_id_to_half_life.get(rna['id'], average_mRNA_half_lives).asNumber(units.s) - for rna in raw_data.rnas]) + for rna in all_rnas]) # Convert to degradation rates rna_deg_rates = np.log(2) / half_lives @@ -221,18 +226,10 @@ def _build_rna_data(self, raw_data, sim_data): x['Gene']: x[sim_data.basal_expression_condition] for x in getattr(raw_data.rna_seq_data, f'rnaseq_{RNA_SEQ_ANALYSIS}_mean')} - for rna in raw_data.rnas: + for rna in all_rnas: gene_id = rna_id_to_gene_id[rna['id']] - # If sequencing data is not found for rRNA or tRNA, initialize - # expression to zero. For other RNA types, raise exception. - if gene_id in seq_data: - expression.append(seq_data[gene_id]) - elif rna['type'] == 'mRNA' or rna['type'] == 'miscRNA': - raise Exception(f'No RNA-seq data found for {rna["id"]}') - elif rna['type'] == 'rRNA' or rna['type'] == 'tRNA': - expression.append(0.) - else: - raise Exception(f'Unknown RNA {rna["id"]}') + # If sequencing data is not found, initialize expression to zero. + expression.append(seq_data.get(gene_id, 0.)) expression = np.array(expression) @@ -248,10 +245,21 @@ def _build_rna_data(self, raw_data, sim_data): # Load gene IDs gene_ids = np.array( - [rna_id_to_gene_id[rna['id']] for rna in raw_data.rnas]) + [rna_id_to_gene_id[rna['id']] for rna in all_rnas]) - # Construct boolean arrays and index arrays for each rRNA type + # Construct boolean arrays for ribosomal protein and RNAP genes n_rnas = len(rna_ids_with_compartments) + is_ribosomal_protein = np.zeros(n_rnas, dtype=np.bool) + is_RNAP = np.zeros(n_rnas, dtype=np.bool) + + for i, rna in enumerate(all_rnas): + for monomer_id in rna['monomer_ids']: + if monomer_id + '[c]' in sim_data.molecule_groups.ribosomal_proteins: + is_ribosomal_protein[i] = True + if monomer_id + '[c]' in sim_data.molecule_groups.RNAP_subunits: + is_RNAP[i] = True + + # Construct boolean arrays and index arrays for each rRNA type is_23S = np.zeros(n_rnas, dtype = np.bool) is_16S = np.zeros(n_rnas, dtype = np.bool) is_5S = np.zeros(n_rnas, dtype = np.bool) @@ -259,7 +267,7 @@ def _build_rna_data(self, raw_data, sim_data): idx_16S = [] idx_5S = [] - for rnaIndex, rna in enumerate(raw_data.rnas): + for rnaIndex, rna in enumerate(all_rnas): if rna["type"] == "rRNA" and rna["id"].startswith("RRL"): is_23S[rnaIndex] = True idx_23S.append(rnaIndex) @@ -276,9 +284,6 @@ def _build_rna_data(self, raw_data, sim_data): idx_16S = np.array(idx_16S) idx_5S = np.array(idx_5S) - # Load IDs of protein monomers - monomer_ids = [rna['monomer_id'] for rna in raw_data.rnas] - # Load RNA sequences and molecular weights from getter functions rna_seqs = sim_data.getter.get_sequences(rna_ids) mws = sim_data.getter.get_masses(rna_ids).asNumber(units.g / units.mol) @@ -299,7 +304,10 @@ def _build_rna_data(self, raw_data, sim_data): for i, gene in enumerate(raw_data.genes)} # Get list of coordinates and directions for each gene - coordinate_list = [gene["coordinate"] for gene in raw_data.genes] + coordinate_list = [ + gene["left_end_pos"] if gene["direction"] == '+' + else gene["right_end_pos"] + for gene in raw_data.genes] direction_list = [gene["direction"] for gene in raw_data.genes] # Get coordinates of oriC and terC @@ -324,12 +332,12 @@ def get_relative_coordinates(coordinates): # Get location of transcription initiation relative to origin replication_coordinate = [ get_relative_coordinates(coordinate_list[rna_id_to_gene_index[rna["id"]]]) - for rna in raw_data.rnas] + for rna in all_rnas] # Get direction of transcription direction = [ (direction_list[rna_id_to_gene_index[rna["id"]]] == "+") - for rna in raw_data.rnas] + for rna in all_rnas] # Set the lengths, nucleotide counts, molecular weights, and sequences # of each type of rRNAs to be identical to those of the first rRNA @@ -381,16 +389,12 @@ def get_relative_coordinates(coordinates): rna_data['length'] = rna_lengths rna_data['counts_ACGU'] = nt_counts rna_data['mw'] = mws - rna_data['is_mRNA'] = [rna["type"] == "mRNA" for rna in raw_data.rnas] - rna_data['is_miscRNA'] = [rna["type"] == "miscRNA" for rna in raw_data.rnas] - rna_data['is_rRNA'] = [rna["type"] == "rRNA" for rna in raw_data.rnas] - rna_data['is_tRNA'] = [rna["type"] == "tRNA" for rna in raw_data.rnas] - rna_data['is_ribosomal_protein'] = [ - "{}[c]".format(x) in sim_data.molecule_groups.ribosomal_proteins - for x in monomer_ids] - rna_data['is_RNAP'] = [ - "{}[c]".format(x) in sim_data.molecule_groups.RNAP_subunits - for x in monomer_ids] + rna_data['is_mRNA'] = [rna["type"] == "mRNA" for rna in all_rnas] + rna_data['is_miscRNA'] = [rna["type"] == "miscRNA" for rna in all_rnas] + rna_data['is_rRNA'] = [rna["type"] == "rRNA" for rna in all_rnas] + rna_data['is_tRNA'] = [rna["type"] == "tRNA" for rna in all_rnas] + rna_data['is_ribosomal_protein'] = is_ribosomal_protein + rna_data['is_RNAP'] = is_RNAP rna_data['is_23S_rRNA'] = is_23S rna_data['is_16S_rRNA'] = is_16S rna_data['is_5S_rRNA'] = is_5S @@ -436,7 +440,7 @@ def _build_transcription(self, raw_data, sim_data): """ # Load sequence data rna_seqs = sim_data.getter.get_sequences( - [rna['id'] for rna in raw_data.rnas]) + [rna_id[:-3] for rna_id in self.rna_data['id']]) rrna_types = ['is_23S_rRNA', 'is_16S_rRNA', 'is_5S_rRNA'] for rrna in rrna_types: @@ -539,35 +543,42 @@ def _build_charged_trna(self, raw_data, sim_data): # Get IDs of charging reactions that should be removed removed_reaction_ids = { - rxn['id'] for rxn in raw_data.rna_modification_reactions_removed} + rxn['id'] for rxn in raw_data.trna_charging_reactions_removed} + + # Get IDs of all metabolites + metabolite_ids = {met['id'] for met in raw_data.metabolites} # Create stoichiometry matrix for charging reactions - for reaction in raw_data.rna_modification_reactions: + for reaction in raw_data.trna_charging_reactions: if reaction['id'] in removed_reaction_ids: continue # Get uncharged tRNA name for the given reaction trna = None - for mol in [molecule['molecule'] + '[' + molecule['location'] + ']' for molecule in reaction['stoichiometry']]: - if mol in trna_names: - trna = mol + for mol_id in reaction['stoichiometry'].keys(): + if f'{mol_id}[c]' in trna_names: + trna = f'{mol_id}[c]' break if trna is None: continue + trna_index = trna_indices[trna] # Get molecule information aa_idx = None - for molecule in reaction['stoichiometry']: - molecule_prefix = molecule['molecule'] - if molecule['type'] == 'metabolite': - molecule_prefix = molecule_prefix.upper() + for mol_id, coeff in reaction['stoichiometry'].items(): - molecule_name = '{}[{}]'.format( - molecule_prefix, - molecule['location'] - ) + if mol_id in metabolite_ids: + molecule_name = "{}[{}]".format( + mol_id, 'c' + # Assume all metabolites are in cytosol + ) + else: + molecule_name = "{}[{}]".format( + mol_id, + sim_data.getter.get_compartment(mol_id)[0] + ) if molecule_name not in molecules: molecules.append(molecule_name) @@ -577,19 +588,21 @@ def _build_charged_trna(self, raw_data, sim_data): aa_idx = aa_indices.get(molecule_name, aa_idx) - coefficient = molecule['coeff'] - - assert coefficient % 1 == 0 + # Assume coefficents given as null are -1 + if coeff is None: + coeff = -1 + assert coeff % 1 == 0 stoich_matrix_i.append(molecule_index) stoich_matrix_j.append(trna_index) - stoich_matrix_v.append(coefficient) + stoich_matrix_v.append(coeff) assert aa_idx is not None # Create mapping for synthetases catalyzing charging for synthetase in reaction['catalyzed_by']: - synthetase = '{}[{}]'.format(synthetase, molecule['location']) + synthetase = '{}[{}]'.format( + synthetase, sim_data.getter.get_compartment(synthetase)[0]) if synthetase not in synthetase_names: synthetase_names.append(synthetase) diff --git a/reconstruction/ecoli/dataclasses/process/transcription_regulation.py b/reconstruction/ecoli/dataclasses/process/transcription_regulation.py index d6195e9851..074335e831 100644 --- a/reconstruction/ecoli/dataclasses/process/transcription_regulation.py +++ b/reconstruction/ecoli/dataclasses/process/transcription_regulation.py @@ -56,7 +56,7 @@ def p_promoter_bound_SKd(self, signal, Kd, power): Computes probability of a one-component transcription factor binding promoter. """ - return float(signal)**power / (float(signal)**power + float(Kd)) + return float(signal)**power / (float(signal)**power + float(Kd)**power) def get_delta_prob_matrix(self, dense=False): delta_prob = scipy.sparse.csr_matrix( @@ -78,7 +78,7 @@ def _build_lookups(self, raw_data): self.abbr_to_rna_id = {} for lookupInfo in raw_data.transcription_factors: - if len(lookupInfo["geneId"]) == 0: + if len(lookupInfo["geneId"]) == 0 or lookupInfo["geneId"] not in geneIdToRnaId: continue self.abbr_to_rna_id[lookupInfo["TF"]] = geneIdToRnaId[lookupInfo["geneId"]] diff --git a/reconstruction/ecoli/dataclasses/process/translation.py b/reconstruction/ecoli/dataclasses/process/translation.py index 45bf0fdadc..0b327a57fd 100755 --- a/reconstruction/ecoli/dataclasses/process/translation.py +++ b/reconstruction/ecoli/dataclasses/process/translation.py @@ -52,8 +52,30 @@ def __setstate__(self, state): self.translation_sequences[i, :len(seq)] = seq def _build_monomer_data(self, raw_data, sim_data): + valid_mRNA_ids = { + rna['id'] for rna in raw_data.rnas + if rna['type'] == 'mRNA' and sim_data.getter.is_valid_molecule(rna['id']) + } + + # Get mappings from monomer IDs to RNA IDs + monomer_id_to_rna_id = { + rna['monomer_ids'][0]: rna['id'] + for rna in raw_data.rnas + if len(rna['monomer_ids']) > 0} + + # Select proteins with valid sequences and mappings to valid mRNAs + all_proteins = [] + for protein in raw_data.proteins: + if sim_data.getter.is_valid_molecule(protein['id']): + try: + rna_id = monomer_id_to_rna_id[protein['id']] + except KeyError: + continue + if rna_id in valid_mRNA_ids: + all_proteins.append(protein) + # Get protein IDs with compartments - protein_ids = [protein['id'] for protein in raw_data.proteins] + protein_ids = [protein['id'] for protein in all_proteins] protein_compartments = sim_data.getter.get_compartments(protein_ids) assert all([len(loc) == 1 for loc in protein_compartments]) protein_ids_with_compartments = [ @@ -62,14 +84,10 @@ def _build_monomer_data(self, raw_data, sim_data): ] n_proteins = len(protein_ids) - # Get mappings from monomer IDs to RNA IDs - monomer_id_to_rna_id = { - rna['monomer_id']: rna['id'] for rna in raw_data.rnas} - # Get RNA IDs with compartments rna_ids = [ monomer_id_to_rna_id[protein['id']] - for protein in raw_data.proteins] + for protein in all_proteins] rna_compartments = sim_data.getter.get_compartments(rna_ids) assert all([len(loc) == 1 for loc in rna_compartments]) rna_ids_with_compartments = [ @@ -106,8 +124,8 @@ def _build_monomer_data(self, raw_data, sim_data): for p in raw_data.protein_half_lives_measured } - deg_rate = np.zeros(len(raw_data.proteins)) - for i, protein in enumerate(raw_data.proteins): + deg_rate = np.zeros(len(all_proteins)) + for i, protein in enumerate(all_proteins): if protein['id'] in measured_deg_rates: deg_rate[i] = measured_deg_rates[protein['id']] elif protein['id'] not in ribosomalProteins: @@ -152,7 +170,7 @@ def _build_monomer_data(self, raw_data, sim_data): def _build_translation(self, raw_data, sim_data): sequences = sim_data.getter.get_sequences( - [protein['id'] for protein in raw_data.proteins]) + [protein_id[:-3] for protein_id in self.monomer_data['id']]) max_len = np.int64( self.monomer_data["length"].asNumber().max() @@ -178,11 +196,14 @@ def _build_translation(self, raw_data, sim_data): self.translation_end_weight = (sim_data.getter.get_masses([sim_data.molecule_ids.water]) / sim_data.constants.n_avogadro).asNumber(units.fg) def _build_translation_efficiency(self, raw_data, sim_data): - monomer_ids = [protein["id"] for protein in raw_data.proteins] + monomer_ids = [ + protein_id[:-3] for protein_id in self.monomer_data['id']] # Get mappings from monomer IDs to gene IDs monomer_id_to_rna_id = { - rna['monomer_id']: rna['id'] for rna in raw_data.rnas} + rna['monomer_ids'][0]: rna['id'] + for rna in raw_data.rnas + if len(rna['monomer_ids']) > 0} rna_id_to_gene_id = { gene['rna_id']: gene['id'] for gene in raw_data.genes} monomer_id_to_gene_id = { diff --git a/reconstruction/ecoli/dataclasses/process/two_component_system.py b/reconstruction/ecoli/dataclasses/process/two_component_system.py index 53e1c73d0d..8352e08fc7 100644 --- a/reconstruction/ecoli/dataclasses/process/two_component_system.py +++ b/reconstruction/ecoli/dataclasses/process/two_component_system.py @@ -177,7 +177,7 @@ def __init__(self, raw_data, sim_data): massBalanceArray = self.mass_balance() # The stoichometric matrix should balance out to numerical zero. - assert np.max([abs(x) for x in massBalanceArray]) < 1e-9 + assert np.max(np.absolute(massBalanceArray)) < 1e-9 # Map active TF to inactive TF self.active_to_inactive_tf = activeToInactiveTF @@ -367,7 +367,7 @@ def _make_derivative_parca(self): dy = self.stoich_matrix().dot(rates) # Metabolism will keep these molecules at steady state - constantMolecules = ["ATP[c]", "ADP[c]", "PI[c]", "WATER[c]", "PROTON[c]"] + constantMolecules = ["ATP[c]", "ADP[c]", "Pi[c]", "WATER[c]", "PROTON[c]"] for molecule in constantMolecules: moleculeIdx = np.where(self.molecule_names == molecule)[0][0] dy[moleculeIdx] = sp.S.Zero @@ -516,7 +516,7 @@ def molecules_to_next_time_step(self, moleculeCounts, cellVolume, return moleculesNeeded, allMoleculesChanges - def molecules_to_ss(self, moleculeCounts, cellVolume, nAvogadro, timeStepSec): + def molecules_to_ss(self, moleculeCounts, cellVolume, nAvogadro, timeStepSec=1e20): """ Calculates the changes in the counts of molecules as the system reaches steady state @@ -533,14 +533,13 @@ def molecules_to_ss(self, moleculeCounts, cellVolume, nAvogadro, timeStepSec): timestep """ # TODO (Gwanggyu): This function should probably get merged with the - # function above. - + # function above. y_init = moleculeCounts / (cellVolume * nAvogadro) y = scipy.integrate.odeint( self.derivatives_parca, y_init, t=[0, timeStepSec], Dfun=self.derivatives_parca_jacobian - ) + ) if np.any(y[-1, :] * (cellVolume * nAvogadro) <= -1): raise Exception( @@ -628,7 +627,7 @@ def _make_dependency_matrix(self): dependencyMatrixV.append(-1) # ATP dependents: ADP, PI, WATER, PROTON) - for ATPdependent in ["ADP[c]", "PI[c]", "WATER[c]", "PROTON[c]"]: + for ATPdependent in ["ADP[c]", "Pi[c]", "WATER[c]", "PROTON[c]"]: dependencyMatrixI.append(int(np.where(self.molecule_names == ATPdependent)[0])) dependencyMatrixJ.append(dependencyMatrixATPJ) if ATPdependent == "WATER[c]": @@ -640,7 +639,7 @@ def _make_dependency_matrix(self): if col == dependencyMatrixATPJ: continue else: - dependencyMatrixI.append(int(np.where(self.molecule_names == "PI[c]")[0])) + dependencyMatrixI.append(int(np.where(self.molecule_names == "Pi[c]")[0])) dependencyMatrixJ.append(col) dependencyMatrixV.append(1) diff --git a/reconstruction/ecoli/dataclasses/relation.py b/reconstruction/ecoli/dataclasses/relation.py index 763ea4f5df..b0e586f668 100755 --- a/reconstruction/ecoli/dataclasses/relation.py +++ b/reconstruction/ecoli/dataclasses/relation.py @@ -11,12 +11,77 @@ class Relation(object): """ Relation """ def __init__(self, raw_data, sim_data): - self._build_rna_index_to_monomer_mapping(raw_data, sim_data) - self._build_monomer_index_to_rna_mapping(raw_data, sim_data) - #self._buildRnaIndexToGeneMapping(raw_data, sim_data) + self._build_RNA_to_monomer_mapping(raw_data, sim_data) + self._build_monomer_to_mRNA_mapping(raw_data, sim_data) - def _build_rna_index_to_monomer_mapping(self, raw_data, sim_data): - self.rna_index_to_monomer_mapping = np.array([np.where(x == sim_data.process.transcription.rna_data["id"])[0][0] for x in sim_data.process.translation.monomer_data['rna_id']]) + def _build_RNA_to_monomer_mapping(self, raw_data, sim_data): + """ + Build a vector that can map vectors that describe a property for RNAs + into a vector that describes the same property for the corresponding + monomers if used as an index array. Assumes that each monomer maps to a + single RNA (A single RNA can map to multiple monomers). - def _build_monomer_index_to_rna_mapping(self, raw_data, sim_data): - self.monomer_index_to_rna_mapping = np.array([np.where(x == sim_data.process.translation.monomer_data['rna_id'])[0][0] for x in sim_data.process.transcription.rna_data["id"] if len(np.where(x == sim_data.process.translation.monomer_data['rna_id'])[0])]) + e.g. + monomer_property = RNA_property[ + sim_data.relation.RNA_to_monomer_mapping] + """ + # Map RNA IDs to indexes given in rna_data (rnas.tsv) + rna_id_to_index = { + rna_id: i for i, rna_id + in enumerate(sim_data.process.transcription.rna_data['id']) + } + + # List the rna_data indexes of RNA IDs in the order of corresponding + # RNAs given in monomer_data (proteins.tsv) + self.RNA_to_monomer_mapping = np.array([ + rna_id_to_index[rna_id] for rna_id + in sim_data.process.translation.monomer_data['rna_id'] + ]) + + def _build_monomer_to_mRNA_mapping(self, raw_data, sim_data): + """ + Builds a sparse matrix that can map vectors that describe a property + for protein monomers into a vector that describes the same property for + the corresponding mRNAs if multiplied to the right of the original + vector. The transformed property must be additive (i.e. if two proteins + map to the same mRNA, the values given for the two proteins are added + to yield a value for the mRNA). + + The full matrix can be returned by using the monomer_to_mRNA_mapping() + method. + """ + # Initialize sparse matrix variables + self._monomer_to_mRNA_mapping_i = [] + self._monomer_to_mRNA_mapping_j = [] + self._monomer_to_mRNA_mapping_v = [] + self._monomer_to_mRNA_mapping_shape = ( + len(sim_data.process.translation.monomer_data), + sim_data.process.transcription.rna_data['is_mRNA'].sum() + ) + + # Build mapping from mRNA ID to mRNA index + mRNA_data = sim_data.process.transcription.rna_data[ + sim_data.process.transcription.rna_data['is_mRNA']] + mRNA_id_to_index = { + mRNA['id']: j for j, mRNA in enumerate(mRNA_data) + } + + # Build sparse matrix + for i, monomer in enumerate(sim_data.process.translation.monomer_data): + self._monomer_to_mRNA_mapping_i.append(i) + self._monomer_to_mRNA_mapping_j.append( + mRNA_id_to_index[monomer['rna_id']]) + self._monomer_to_mRNA_mapping_v.append(1) + + def monomer_to_mRNA_mapping(self): + """ + Returns the full version of the sparse matrix built by + _build_monomer_to_mRNA_mapping(). + + e.g. + mRNA_property = monomer_property.dot( + sim_data.relation.monomer_to_mRNA_mapping()) + """ + out = np.zeros(self._monomer_to_mRNA_mapping_shape, dtype=np.float64) + out[self._monomer_to_mRNA_mapping_i, self._monomer_to_mRNA_mapping_j] = self._monomer_to_mRNA_mapping_v + return out diff --git a/reconstruction/ecoli/fit_sim_data_1.py b/reconstruction/ecoli/fit_sim_data_1.py index a1267f870d..d93a6ffb41 100644 --- a/reconstruction/ecoli/fit_sim_data_1.py +++ b/reconstruction/ecoli/fit_sim_data_1.py @@ -190,6 +190,7 @@ def input_adjustments(sim_data, cell_specs, debug=False, **kwargs): setRNADegRates(sim_data) setProteinDegRates(sim_data) + # TODO (ggsun): Make this part of dataclasses/process/replication.py? # Set C-period setCPeriod(sim_data) @@ -1259,7 +1260,7 @@ def totalCountIdDistributionProtein(sim_data, expression, doubling_time): ids_protein = sim_data.process.translation.monomer_data["id"] total_mass_protein = sim_data.mass.get_component_masses(doubling_time)["proteinMass"] / sim_data.mass.avg_cell_to_initial_cell_conversion_factor individual_masses_protein = sim_data.process.translation.monomer_data["mw"] / sim_data.constants.n_avogadro - distribution_transcripts_by_protein = normalize(expression[sim_data.relation.rna_index_to_monomer_mapping]) + distribution_transcripts_by_protein = normalize(expression[sim_data.relation.RNA_to_monomer_mapping]) translation_efficiencies_by_protein = normalize(sim_data.process.translation.translation_efficiencies_by_monomer) degradationRates = sim_data.process.translation.monomer_data['deg_rate'] @@ -1618,18 +1619,13 @@ def fitExpression(sim_data, bulkContainer, doubling_time, avgCellDryMassInit, Km normalize(view_RNA.counts()) ) - # Update mRNA expression to reflect monomer counts - assert np.all( - sim_data.process.translation.monomer_data['rna_id'][sim_data.relation.monomer_index_to_rna_mapping] == sim_data.process.transcription.rna_data["id"][sim_data.process.transcription.rna_data['is_mRNA']] - ), "Cannot properly map monomer ids to RNA ids" # TODO: move to KB tests - mRnaExpressionView = rnaExpressionContainer.countsView(sim_data.process.transcription.rna_data["id"][sim_data.process.transcription.rna_data['is_mRNA']]) mRnaExpressionFrac = np.sum(mRnaExpressionView.counts()) mRnaExpressionView.countsIs( mRnaExpressionFrac * mRNADistributionFromProtein( normalize(counts_protein), translation_efficienciesByProtein, netLossRate_protein - )[sim_data.relation.monomer_index_to_rna_mapping] + ).dot(sim_data.relation.monomer_to_mRNA_mapping()) ) expression = rnaExpressionContainer.counts() @@ -1830,18 +1826,6 @@ def calculateBulkDistributions(sim_data, expression, concDict, avgCellDryMassIni allMoleculesView.countsIs(0) - # randomState = np.random.RandomState(seed) - - # rnaView.countsIs(randomState.multinomial( - # totalCount_RNA, - # distribution_RNA - # )) - - # proteinView.countsIs(randomState.multinomial( - # totalCount_protein, - # distribution_protein - # )) - rnaView.countsIs(totalCount_RNA * distribution_RNA) proteinView.countsIs(totalCount_protein * distribution_protein) @@ -1890,9 +1874,9 @@ def calculateBulkDistributions(sim_data, expression, concDict, avgCellDryMassIni _, moleculeCountChanges = sim_data.process.two_component_system.molecules_to_ss( twoComponentSystemMoleculesView.counts(), cellVolume.asNumber(units.L), - sim_data.constants.n_avogadro.asNumber(1 / units.mmol), - 1e6, + sim_data.constants.n_avogadro.asNumber(1 / units.mmol) ) + twoComponentSystemMoleculesView.countsInc(moleculeCountChanges) metDiffs = metabolitesView.counts() - metCounts.asNumber().round() @@ -2217,6 +2201,7 @@ def expressionFromConditionAndFoldChange(rnaIds, basalExpression, condPerturbati compartment_key = key + "[c]" if compartment_key in condPerturbations: continue + rnaIdxs.append(np.where(rnaIds == compartment_key)[0][0]) fcs.append(tfFCs[key]) @@ -2885,7 +2870,8 @@ def updateSynthProb(sim_data, cell_specs, kInfo, k): constraint_p = [ 0 <= PROMOTER_SCALING * P, PROMOTER_SCALING * P <= PROMOTER_SCALING, np.diag(D) @ (PROMOTER_SCALING * P) == PROMOTER_SCALING * Drhs, - pdiff @ (PROMOTER_SCALING * P) >= PROMOTER_SCALING * PROMOTER_PDIFF_THRESHOLD] + pdiff @ (PROMOTER_SCALING * P) >= PROMOTER_SCALING * PROMOTER_PDIFF_THRESHOLD, + ] # Solve optimization problem prob_p = Problem(objective_p, constraint_p) @@ -2992,11 +2978,11 @@ def fitLigandConcentrations(sim_data, cell_specs): if 1 - p_active < 1e-9: kdNew = kd # Concentration of metabolite-bound TF is negligible else: - kdNew = (activeSignalConc**metaboliteCoeff) * p_active/(1 - p_active) + kdNew = ((activeSignalConc**metaboliteCoeff) * p_active/(1 - p_active))**(1/metaboliteCoeff) # Reset metabolite concentration with fitted P and kd sim_data.process.metabolism.concentration_updates.molecule_set_amounts[metabolite] = ( - (kdNew*(1 - p_inactive)/p_inactive)**(1./metaboliteCoeff)*(units.mol/units.L)) + (kdNew**metaboliteCoeff*(1 - p_inactive)/p_inactive)**(1./metaboliteCoeff)*(units.mol/units.L)) else: if p_active == 1: @@ -3005,11 +2991,11 @@ def fitLigandConcentrations(sim_data, cell_specs): if p_inactive < 1e-9: kdNew = kd # Concentration of metabolite-bound TF is negligible else: - kdNew = (inactiveSignalConc**metaboliteCoeff) * (1 - p_inactive)/p_inactive + kdNew = ((inactiveSignalConc**metaboliteCoeff) * (1 - p_inactive)/p_inactive)**(1/metaboliteCoeff) # Reset metabolite concentration with fitted P and kd sim_data.process.metabolism.concentration_updates.molecule_set_amounts[metabolite] = ( - (kdNew*p_active/(1 - p_active))**(1./metaboliteCoeff)*(units.mol/units.L)) + (kdNew**metaboliteCoeff*p_active/(1 - p_active))**(1./metaboliteCoeff)*(units.mol/units.L)) # Fit reverse rate in line with fitted kd sim_data.process.equilibrium.set_rev_rate(boundId + "[c]", kdNew * fwdRate) @@ -3111,6 +3097,18 @@ def calculatePromoterBoundProbability(sim_data, cell_specs): else: pPromoterBound[conditionKey][tf] = limited_tf_counts * activeTfConc/(activeTfConc + inactiveTfConc) + # Check for any inconsistencies that could lead to feasbility issues when fitting + for condition in pPromoterBound: + if 'inactive' in condition: + tf = condition.split('__')[0] + active_p = pPromoterBound[f'{tf}__active'][tf] + inactive_p = pPromoterBound[f'{tf}__inactive'][tf] + + if inactive_p >= active_p: + print('Warning: active condition does not have higher binding' + f' probability than inactive condition for {tf}' + f' ({active_p:.3f} vs {inactive_p:.3f}).') + return pPromoterBound diff --git a/reconstruction/ecoli/flat/amino_acid_pathways.tsv b/reconstruction/ecoli/flat/amino_acid_pathways.tsv index a74dd09995..7eb1c3d75d 100644 --- a/reconstruction/ecoli/flat/amino_acid_pathways.tsv +++ b/reconstruction/ecoli/flat/amino_acid_pathways.tsv @@ -11,7 +11,7 @@ Amino acid Enzymes kcat (1/units.s) KI, lower bound (units.mmol/units.L) KI, upp "LYS[c]" ["DIHYDRODIPICSYN-CPLX[c]"] 104 0.21 3.9 "GLT[c]" 24.9 5 [] "DapA" "MET[c]" ["HOMSUCTRAN-CPLX[c]"] 22 0.1 4 [] "MetA" "PHE[c]" ["CHORISMUTPREPHENDEHYDRAT-CPLX[c]"] 32 0.1 0.6 "GLT[c]" 24.9 0.5 [] "PheA" -"PRO[c]" ["PROLINEMULTI-CPLX[c]", "GLUTKIN-CPLX[c]"] 53 0.02 0.15 "GLT[c]" 24.9 4 [] "ProB, upper limit from Perez-Arellano. 2010. https://doi.org/10.1016/j.jmb.2010.10.019" +"PRO[c]" ["GLUTKIN-CPLX[c]"] 53 0.02 0.15 "GLT[c]" 24.9 4 [] "ProB, upper limit from Perez-Arellano. 2010. https://doi.org/10.1016/j.jmb.2010.10.019" "SER[c]" ["PGLYCDEHYDROG-CPLX[c]"] 29 0.005 0.37 ["GLY[c]"] "SerA" "THR[c]" ["ASPKINIHOMOSERDEHYDROGI-CPLX[c]"] 0.097 0.167 [] "ThrA" "TRP[c]" ["ANTHRANSYN-CPLX[c]"] 0.17 0.17 [] "TrpDE" diff --git a/reconstruction/ecoli/flat/biomass.tsv b/reconstruction/ecoli/flat/biomass.tsv index aaa79ea419..b8c02f440d 100644 --- a/reconstruction/ecoli/flat/biomass.tsv +++ b/reconstruction/ecoli/flat/biomass.tsv @@ -57,7 +57,7 @@ "GAM" "ATP[c]" 53.95 "GAM" "WATER[c]" 53.95 "GAM" "ADP[c]" -53.95 -"GAM" "PI[c]" -53.95 +"GAM" "Pi[c]" -53.95 "GAM" "PROTON[c]" -53.95 "lipids" "CPD-8260[c]" 0.023092 "lipids" "CPD-12819[c]" 0.096225 diff --git a/reconstruction/ecoli/flat/complexation_reactions.tsv b/reconstruction/ecoli/flat/complexation_reactions.tsv index 82111f2bdb..7761d7ba5c 100644 --- a/reconstruction/ecoli/flat/complexation_reactions.tsv +++ b/reconstruction/ecoli/flat/complexation_reactions.tsv @@ -1,1026 +1,1104 @@ -# Note: Reactions listed in complexation_reactions_removed.tsv are removed from simulation data. -"id" "stoichiometry" -"1-PFK_RXN" [{"molecule": "1-PFK", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "1-PFK-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"2OXOGLUTARATEDEH-CPLX_RXN" [{"molecule": "2OXOGLUTARATEDEH-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "E1O", "coeff": -1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "E2O", "coeff": -1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "E3-CPLX", "coeff": -1.0, "type": "proteincomplex", "location": "i", "form": "mature"}] -"3-ISOPROPYLMALDEHYDROG-CPLX_RXN" [{"molecule": "3-ISOPROPYLMALDEHYDROG-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "3-ISOPROPYLMALDEHYDROG-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"3-ISOPROPYLMALISOM-CPLX_RXN" [{"molecule": "3-ISOPROPYLMALISOM-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "LEUC-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "LEUD-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"3-METHYL-2-OXOBUT-OHCH3XFER-CPLX_RXN" [{"molecule": "3-METHYL-2-OXOBUT-OHCH3XFER-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "3-CH3-2-OXOBUTANOATE-OH-CH3-XFER-MONOMER", "coeff": -10.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"3-OXOACYL-ACP-SYNTHII-CPLX_RXN" [{"molecule": "3-OXOACYL-ACP-SYNTHII-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "3-OXOACYL-ACP-SYNTHII-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"6PFK-1-CPX_RXN" [{"molecule": "6PFK-1-CPX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "6PFK-1-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"6PFK-2-CPX_RXN" [{"molecule": "6PFK-2-CPX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "6PFK-2-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"6PGLUCONDEHYDROG-CPLX_RXN" [{"molecule": "6PGLUCONDEHYDROG-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "6PGLUCONDEHYDROG-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"7-ALPHA-HYDROXYSTEROID-DEH-CPLX_RXN" [{"molecule": "7-ALPHA-HYDROXYSTEROID-DEH-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "7-ALPHA-HYDROXYSTEROID-DEH-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"7KAPSYN-CPLX_RXN" [{"molecule": "7KAPSYN-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "7KAPSYN-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"ABC-10-CPLX_RXN" [{"molecule": "ABC-10-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "FEPC-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "FEPD-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "FEPG-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "FEPB-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"ABC-11-CPLX_RXN" [{"molecule": "ABC-11-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "FHUC-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "FHUB-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "FHUD-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "p", "form": "mature"}] -"ABC-12-CPLX_RXN" [{"molecule": "ABC-12-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "GLNQ-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "GLNP-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "GLNH-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "p", "form": "mature"}] -"ABC-13-CPLX_RXN" [{"molecule": "ABC-13-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "G6359-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "p", "form": "mature"}, {"molecule": "GLTK-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "GLTJ-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "GLTL-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"ABC-14-CPLX_RXN" [{"molecule": "ABC-14-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "HISP-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "HISM-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "HISQ-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "HISJ-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "p", "form": "mature"}] -"ABC-15-CPLX_RXN" [{"molecule": "ABC-15-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "LIVF-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "LIVG-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "LIVH-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "LIVM-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "LIVJ-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "p", "form": "mature"}] -"ABC-16-CPLX_RXN" [{"molecule": "ABC-16-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "MALK-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "MALF-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "MALG-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "MALE-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"ABC-18-CPLX_RXN" [{"molecule": "ABC-18-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "MGLA-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "MGLC-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "MGLB-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "p", "form": "mature"}] -"ABC-19-CPLX_RXN" [{"molecule": "ABC-19-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "MODC-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "MODB-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "MODA-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "p", "form": "mature"}] -"ABC-2-CPLX_RXN" [{"molecule": "ABC-2-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "ARAG-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "ARAH-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "ARAF-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"ABC-20-CPLX_RXN" [{"molecule": "ABC-20-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "NIKD-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "NIKE-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "NIKB-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "NIKC-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "NIKA-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"ABC-21-CPLX_RXN" [{"molecule": "ABC-21-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "YADG-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "YADH-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"ABC-22-CPLX_RXN" [{"molecule": "ABC-22-CPLX", "coeff": 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{"molecule": "TAUB-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"ABC-7-CPLX_RXN" [{"molecule": "ABC-7-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "CYSA-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "CYSW-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "CYST-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "CYSP-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "p", "form": "mature"}] -"ABC-70-CPLX_RXN" [{"molecule": "ABC-70-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "SBP-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "p", "form": "mature"}, {"molecule": "CYSW-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": 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"location": "c", "form": "mature"}, {"molecule": "SMALLILVN-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"ACETOLACTSYNII-CPLX_RXN" [{"molecule": "ACETOLACTSYNII-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "G8221-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "LARGEILVG-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "SMALLILVM-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"ACETOLACTSYNIII-CPLX_RXN" [{"molecule": "ACETOLACTSYNIII-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "ACETOLACTSYNIII-ICHAIN-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "ACETOLACTSYNIII-HCHAIN-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": 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"ADENPRIBOSYLTRAN-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "ADENPRIBOSYLTRAN-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"ADENYLOSUCCINATE-SYN-DIMER_RXN" [{"molecule": "ADENYLOSUCCINATE-SYN-DIMER", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "ADENYLOSUCCINATE-SYN-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"ADENYLYLSULFKIN-CPLX_RXN" [{"molecule": "ADENYLYLSULFKIN-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "ADENYLYLSULFKIN-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"ADHC-CPLX_RXN" [{"molecule": "ADHC-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "ADHC-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"ADHE-CPLX_RXN" [{"molecule": "ADHE-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "ADHE-MONOMER", "coeff": -40.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"AERGLYC3PDEHYDROG-CPLX_RXN" [{"molecule": "AERGLYC3PDEHYDROG-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "AERGLYC3PDEHYDROG-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"AGMATIN-CPLX_RXN" [{"molecule": "AGMATIN-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "AGMATIN-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"AIRS-CPLX_RXN" [{"molecule": "AIRS-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "AIRS-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"AKBLIG-CPLX_RXN" [{"molecule": "AKBLIG-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "AKBLIG-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"ALAS-CPLX_RXN" [{"molecule": "ALAS-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "ALAS-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"ALD-CPLX_RXN" [{"molecule": "ALD-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "LACTALDDEHYDROG-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"ALKAPHOSPHA-CPLX_RXN" [{"molecule": "ALKAPHOSPHA-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "p", "form": "mature"}, {"molecule": "ALKAPHOSPHA-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "p", "form": "mature"}] -"ALPHA-SUBUNIT-CPLX_RXN" [{"molecule": "ALPHA-SUBUNIT-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "FDNI-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "FDNH-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "FDNG-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "p", "form": "mature"}] -"ALPHAGALACTOSID-CPLX_RXN" [{"molecule": "ALPHAGALACTOSID-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "ALPHAGALACTOSID-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"AMINEOXID-CPLX_RXN" [{"molecule": "AMINEOXID-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "p", "form": "mature"}, {"molecule": "AMINEOXID-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "p", "form": "mature"}] -"AMP-NUCLEOSID-CPLX_RXN" [{"molecule": "AMP-NUCLEOSID-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "AMP-NUCLEOSID-MONOMER", "coeff": -6.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"ANGLYC3PDEHYDROG-CPLX_RXN" [{"molecule": "ANGLYC3PDEHYDROG-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "ANGLYC3PDEHYDROGSUBUNITA-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "ANGLYC3PDEHYDROGSUBUNITB-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "ANGLYC3PDEHYDROGSUBUNITC-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"ANSA-CPLX_RXN" [{"molecule": "ANSA-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "ANSA-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"ANSB-CPLX_RXN" [{"molecule": "ANSB-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "ANSB-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"ANTHRANSYN-CPLX_RXN" [{"molecule": "ANTHRANSYN-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "ANTHRANSYNCOMPI-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "ANTHRANSYNCOMPII-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"APHA-CPLX_RXN" [{"molecule": "APHA-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "p", "form": "mature"}, {"molecule": "APHA-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "p", "form": "mature"}] -"APORNAP-CPLX_RXN" [{"molecule": "APORNAP-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "EG10893-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "RPOC-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "RPOB-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"APP-UBIOX-CPLX_RXN" [{"molecule": "APP-UBIOX-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "APPC-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "APPB-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"ARABISOM-CPLX_RXN" [{"molecule": "ARABISOM-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "ARABISOM-MONOMER", "coeff": -6.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"ARCB-CPLX_RXN" [{"molecule": "ARCB-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "ARCB-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"ARGDECARBOXBIO-CPLX_RXN" [{"molecule": "ARGDECARBOXBIO-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "p", "form": "mature"}, {"molecule": "ARGDECARBOXBIO-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "p", "form": "mature"}] -"ARGDECARBOXDEG-CPLX_RXN" [{"molecule": "ARGDECARBOXDEG-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "ARGDECARBOXDEG-MONOMER", "coeff": -10.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"AROC-CPLX_RXN" [{"molecule": "AROC-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "AROC-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"AROD-CPLX_RXN" [{"molecule": "AROD-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "AROD-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"AROF-CPLX_RXN" [{"molecule": "AROF-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "AROF-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"AROG-CPLX_RXN" [{"molecule": "AROG-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "AROG-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"AROH-CPLX_RXN" [{"molecule": "AROH-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "AROH-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"ASNS-CPLX_RXN" [{"molecule": "ASNS-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "ASNS-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"ASNSYNA-CPLX_RXN" [{"molecule": "ASNSYNA-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "ASNSYNA-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"ASNSYNB-CPLX_RXN" [{"molecule": "ASNSYNB-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "ASNSYNB-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"ASP-SEMIALDEHYDE-DEHYDROGENASE-CPLX_RXN" [{"molecule": "ASP-SEMIALDEHYDE-DEHYDROGENASE-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "ASP-SEMIALDEHYDE-DEHYDROGENASE-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"ASPAMINOTRANS-DIMER_RXN" [{"molecule": "ASPAMINOTRANS-DIMER", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "ASPAMINOTRANS-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"ASPARTASE-CPLX_RXN" [{"molecule": "ASPARTASE-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "ASPARTASE-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"ASPCARBCAT-TRIMER_RXN" [{"molecule": "ASPCARBCAT-TRIMER", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "ASPCARBCAT-MONOMER", "coeff": -3.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"ASPCARBREG-DIMER_RXN" [{"molecule": "ASPCARBREG-DIMER", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "ASPCARBREG-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"ASPCARBTRANS-CPLX_RXN" [{"molecule": "ASPCARBTRANS-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "ASPCARBCAT-TRIMER", "coeff": -2.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "ASPCARBREG-DIMER", "coeff": -3.0, "type": "proteincomplex", "location": "c", "form": "mature"}] -"ASPKINIHOMOSERDEHYDROGI-CPLX_RXN" [{"molecule": "ASPKINIHOMOSERDEHYDROGI-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "ASPKINIHOMOSERDEHYDROGI-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"ASPKINIIHOMOSERDEHYDROGII-CPLX_RXN" [{"molecule": "ASPKINIIHOMOSERDEHYDROGII-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "ASPKINIIHOMOSERDEHYDROGII-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"ASPKINIII-CPLX_RXN" [{"molecule": "ASPKINIII-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "ASPKINIII-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"ASPS-CPLX_RXN" [{"molecule": "ASPS-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "ASPS-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] 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"form": "mature"}, {"molecule": "KDPB-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "EG10515-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"ATPD-CPLX_RXN" [{"molecule": "ATPD-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "ATPD-MONOMER", "coeff": -3.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"ATPE-CPLX_RXN" [{"molecule": "ATPE-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "ATPE-MONOMER", "coeff": -10.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"ATPF-CPLX_RXN" [{"molecule": "ATPF-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "ATPF-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"ATPSYN-CPLX_RXN" [{"molecule": "ATPSYN-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "F-O-CPLX", "coeff": -1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "F-1-CPLX", "coeff": -1.0, "type": "proteincomplex", "location": "i", "form": "mature"}] -"B1-CPLX_RXN" [{"molecule": "B1-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "NRDA-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"B2-CPLX_RXN" [{"molecule": "B2-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "NRDB-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"BADH-CPLX_RXN" [{"molecule": "BADH-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "BADH-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"BETAGALACTOSID-CPLX_RXN" [{"molecule": "BETAGALACTOSID-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "BETAGALACTOSID-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"BIOTIN-CARBOXYL-CPLX_RXN" [{"molecule": "BIOTIN-CARBOXYL-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "BIOTIN-CARBOXYL-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"BIOTIN-SYN-CPLX_RXN" [{"molecule": "BIOTIN-SYN-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "BIOTIN-SYN-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"BRANCHED-CHAINAMINOTRANSFER-CPLX_RXN" [{"molecule": "BRANCHED-CHAINAMINOTRANSFER-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "BRANCHED-CHAINAMINOTRANSFER-MONOMER", "coeff": -6.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CARBODEHYDRAT-CPLX_RXN" [{"molecule": "CARBODEHYDRAT-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "CARBODEHYDRAT-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CARBPSYN-CPLX_RXN" [{"molecule": "CARBPSYN-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "CARBPSYN-LARGE", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "CARBPSYN-SMALL", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CARNDEHYDRA-CPLX_RXN" [{"molecule": "CARNDEHYDRA-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "CARNDEHYDRA-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CFA-CPLX_RXN" [{"molecule": "CFA-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "CFA-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"CHEA-CPLX_RXN" [{"molecule": "CHEA-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "PROTEIN-CHEA", "coeff": -2.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"CHEZ-CPLX_RXN" [{"molecule": "CHEZ-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "s", "form": "mature"}, {"molecule": "CHEZ-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "s", "form": "mature"}] -"CHORISMUTPREPHENDEHYDRAT-CPLX_RXN" [{"molecule": "CHORISMUTPREPHENDEHYDRAT-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "CHORISMUTPREPHENDEHYDRAT-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CHORISMUTPREPHENDEHYDROG-CPLX_RXN" [{"molecule": "CHORISMUTPREPHENDEHYDROG-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "CHORISMUTPREPHENDEHYDROG-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CITLY-CPLX_RXN" [{"molecule": "CITLY-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "ACPSUB-CPLX", "coeff": -1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "CITTRANS-CPLX", "coeff": -1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "CITRYLY-CPLX", "coeff": -1.0, "type": "proteincomplex", "location": "c", "form": "mature"}] -"CITRATE-SI-SYNTHASE_RXN" [{"molecule": "CITRATE-SI-SYNTHASE", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "CITSYN-MONOMER", "coeff": -6.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CITRYLY-CPLX_RXN" [{"molecule": "CITRYLY-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "CITRYLY-MONOMER", "coeff": -6.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CITTRANS-CPLX_RXN" [{"molecule": "CITTRANS-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "CITTRANS-MONOMER", "coeff": -6.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"COADTRI-CPLX_RXN" [{"molecule": "COADTRI-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PANTEPADENYLYLTRAN-MONOMER", "coeff": -6.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"COBU-CPLX_RXN" [{"molecule": "COBU-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "COBU-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CPLX-153_RXN" [{"molecule": "CPLX-153", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "ASCF-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"CPLX-154_RXN" [{"molecule": "CPLX-154", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "BGLF-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"CPLX-155_RXN" [{"molecule": "CPLX-155", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "CELC-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "CELB-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "CELA-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CPLX-156_RXN" [{"molecule": "CPLX-156", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "CMTB-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "CMTA-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"CPLX-157_RXN" [{"molecule": "CPLX-157", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "PTSG-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "CRR-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"CPLX-158_RXN" [{"molecule": "CPLX-158", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "FRUB-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "FRUA-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"CPLX-159_RXN" [{"molecule": "CPLX-159", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "FRVB-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "FRVA-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CPLX-160_RXN" [{"molecule": "CPLX-160", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "FRWC-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "FRWB-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG11912-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG11906-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CPLX-165_RXN" [{"molecule": "CPLX-165", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "MANZ-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "MANY-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "MANX-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"CPLX-166_RXN" [{"molecule": "CPLX-166", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "MTLA-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"CPLX-167_RXN" [{"molecule": "CPLX-167", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "NAGE-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"CPLX-168_RXN" [{"molecule": "CPLX-168", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "TREB-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "CRR-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"CPLX-169_RXN" [{"molecule": "CPLX-169", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "G8210-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "GUTB-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "GUTA-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"CPLX-170_RXN" [{"molecule": "CPLX-170", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "AGAB-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "AGAC-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "AGAD-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"CPLX-171_RXN" [{"molecule": "CPLX-171", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "G6277-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CPLX-3942_RXN" [{"molecule": "CPLX-3942", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "G7712-MONOMER", "coeff": -2.0, "type": 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"G7499-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CPLX0-1862_RXN" [{"molecule": "CPLX0-1862", "coeff": 1.0, "type": "proteincomplex", "location": "s", "form": "mature"}, {"molecule": "CPLX0-1924", "coeff": -1.0, "type": "proteincomplex", "location": "s", "form": "mature"}, {"molecule": "ABC-5-CPLX", "coeff": -1.0, "type": "proteincomplex", "location": "i", "form": "mature"}] -"CPLX0-1863_RXN" [{"molecule": "CPLX0-1863", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "G6379-MONOMER", "coeff": -6.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CPLX0-1881_RXN" [{"molecule": "CPLX0-1881", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "G7877-MONOMER", "coeff": -3.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CPLX0-1923_RXN" [{"molecule": "CPLX0-1923", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": 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"location": "i", "form": "mature"}, {"molecule": "EG11703-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "CPLX0-7964", "coeff": -1.0, "type": "proteincomplex", "location": "e", "form": "mature"}] -"CPLX0-3933_RXN" [{"molecule": "CPLX0-3933", "coeff": 1.0, "type": "proteincomplex", "location": "e", "form": "mature"}, {"molecule": "EG10952-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "e", "form": "mature"}, {"molecule": "EG10658-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "e", "form": "mature"}, {"molecule": "G7352-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "e", "form": "mature"}, {"molecule": "G6093-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "e", "form": "mature"}, {"molecule": "G7320-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "e", "form": "mature"}] -"CPLX0-3934_RXN" [{"molecule": "CPLX0-3934", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "EG10599-MONOMER", "coeff": -14.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG10600-MONOMER", "coeff": -14.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CPLX0-3936_RXN" [{"molecule": "CPLX0-3936", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "H2NEOPTERINALDOL-MONOMER", "coeff": -8.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CPLX0-3937_RXN" [{"molecule": "CPLX0-3937", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "EG10252-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG10253-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CPLX0-3938_RXN" [{"molecule": "CPLX0-3938", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "EG12177-MONOMER", "coeff": -3.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CPLX0-3939_RXN" [{"molecule": "CPLX0-3939", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "G6334-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CPLX0-3941_RXN" [{"molecule": "CPLX0-3941", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "G6717-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CPLX0-3943_RXN" [{"molecule": "CPLX0-3943", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "G6645-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CPLX0-3948_RXN" [{"molecule": "CPLX0-3948", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "EG12600-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] 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"location": "c", "form": "mature"}] -"CPLX0-3953_RXN" [{"molecule": "CPLX0-3953", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "RRSA-RRNA", "coeff": -1.0, "type": "rna", "location": "c", "form": "mature"}, {"molecule": "EG10900-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG10901-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG10902-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG10903-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG10904-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG10905-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG10906-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG10907-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG10908-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG10909-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG10910-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG10911-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG10912-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG10913-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG10914-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG10915-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG10916-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG10917-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG10918-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG10919-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG10920-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG11508-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CPLX0-3954_RXN" [{"molecule": "CPLX0-3954", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "EG12026-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CPLX0-3955_RXN" [{"molecule": "CPLX0-3955", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "EG10873-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CPLX0-3956_RXN" [{"molecule": "CPLX0-3956", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "EG10871-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "CPLX0-3955", "coeff": -2.0, "type": "proteincomplex", "location": "c", "form": "mature"}] -"CPLX0-3957_RXN" [{"molecule": "CPLX0-3957", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "EG10927-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG11094-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CPLX0-3958_RXN" [{"molecule": "CPLX0-3958", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "EG10458-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG10459-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG10460-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CPLX0-3959_RXN" [{"molecule": "CPLX0-3959", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "EG11069-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG11071-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CPLX0-3961_RXN" [{"molecule": "CPLX0-3961", "coeff": 1.0, "type": "proteincomplex", "location": "p", "form": "mature"}, {"molecule": "G7058-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "p", "form": "mature"}] -"CPLX0-3962_RXN" [{"molecule": "CPLX0-3962", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "RRLA-RRNA", "coeff": -1.0, "type": "rna", "location": "c", "form": "mature"}, {"molecule": "RRFA-RRNA", "coeff": -1.0, "type": "rna", "location": "c", "form": "mature"}, {"molecule": "EG10864-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG10865-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG10866-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG10867-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG10868-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG10869-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "CPLX0-3956", "coeff": -1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "EG10870-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG10872-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG10874-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG10875-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG10876-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG10877-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG10878-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG10879-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG10880-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG10881-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG50001-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG10882-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG10883-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG10884-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG10885-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG50002-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG10886-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG10887-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG10888-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG10889-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG10890-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG10891-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG10892-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG11231-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG11232-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CPLX0-3969_RXN" [{"molecule": "CPLX0-3969", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "EG10921-MONOMER", "coeff": -24.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CPLX0-3970_RXN" [{"molecule": "CPLX0-3970", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": 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"location": "c", "form": "mature"}] -"CPLX0-7564_RXN" [{"molecule": "CPLX0-7564", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "EG11081-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CPLX0-7597_RXN" [{"molecule": "CPLX0-7597", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "EG10375-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CPLX0-7608_RXN" [{"molecule": "CPLX0-7608", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "EG10997-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"CPLX0-7609_RXN" [{"molecule": "CPLX0-7609", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "CPLX0-7608", "coeff": -1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "CPLX0-7597", "coeff": -1.0, "type": "proteincomplex", "location": "c", "form": "mature"}] -"CPLX0-7610_RXN" [{"molecule": "CPLX0-7610", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "G7632-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "G7633-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"CPLX0-7613_RXN" [{"molecule": "CPLX0-7613", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "G7286-MONOMER", "coeff": -6.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CPLX0-7614_RXN" [{"molecule": "CPLX0-7614", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "ATPPHOSRIBOSTRANS-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CPLX0-7615_RXN" [{"molecule": "CPLX0-7615", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "KDGALDOL-MONOMER", "coeff": -6.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CPLX0-7616_RXN" [{"molecule": "CPLX0-7616", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "G6278-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CPLX0-7617_RXN" [{"molecule": "CPLX0-7617", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "EG12332-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CPLX0-761_RXN" [{"molecule": "CPLX0-761", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "G7485-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "G7486-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "G7487-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CPLX0-7622_RXN" [{"molecule": "CPLX0-7622", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "LSERINEDEAM3-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CPLX0-7623_RXN" [{"molecule": "CPLX0-7623", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "G6606-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CPLX0-7624_RXN" [{"molecule": "CPLX0-7624", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "EG10955-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "G7629-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CPLX0-7625_RXN" [{"molecule": "CPLX0-7625", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "G7185-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CPLX0-7626_RXN" [{"molecule": "CPLX0-7626", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "EG11160-MONOMER", "coeff": -7.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"CPLX0-7627_RXN" [{"molecule": "CPLX0-7627", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "EG11180-MONOMER", "coeff": -5.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"CPLX0-7628_RXN" [{"molecule": "CPLX0-7628", "coeff": 1.0, "type": "proteincomplex", "location": "e", "form": "mature"}, {"molecule": "EG11569-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "e", "form": "mature"}, {"molecule": "EG10855-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "e", "form": "mature"}] -"CPLX0-7629_RXN" [{"molecule": "CPLX0-7629", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": 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"location": "c", "form": "mature"}] -"CPLX0-7713_RXN" [{"molecule": "CPLX0-7713", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD00297", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CPLX0-7717_RXN" [{"molecule": "CPLX0-7717", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "EG10748-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"CPLX0-7718_RXN" [{"molecule": "CPLX0-7718", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "G7168-MONOMER", "coeff": -6.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CPLX0-7719_RXN" [{"molecule": "CPLX0-7719", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "QUINOLINATE-SYNTHA-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CPLX0-7720_RXN" [{"molecule": 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"location": "c", "form": "mature"}] -"CPLX0-7853_RXN" [{"molecule": "CPLX0-7853", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "EG11835-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CPLX0-7854_RXN" [{"molecule": "CPLX0-7854", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "EG12202-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CPLX0-7870_RXN" [{"molecule": "CPLX0-7870", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "ATOS-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"CPLX0-7877_RXN" [{"molecule": "CPLX0-7877", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PGLUCISOM", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CPLX0-7878_RXN" [{"molecule": "CPLX0-7878", 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"proteincomplex", "location": "c", "form": "mature"}, {"molecule": "EG12132-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CPLX0-7909_RXN" [{"molecule": "CPLX0-7909", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "G7366-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "G7365-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CPLX0-7910_RXN" [{"molecule": "CPLX0-7910", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "EG11413-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG11414-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CPLX0-7912_RXN" [{"molecule": "CPLX0-7912", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "G7288-MONOMER", "coeff": 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"type": "proteinmonomer", "location": "i", "form": "mature"}] -"CPLX0-8005_RXN" [{"molecule": "CPLX0-8005", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "3-OXOACYL-ACP-REDUCT-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CPLX0-8006_RXN" [{"molecule": "CPLX0-8006", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "ENOYL-ACP-REDUCT-NADH-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CPLX0-8008_RXN" [{"molecule": "CPLX0-8008", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "UDPGLCNACEPIM-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CPLX0-8009_RXN" [{"molecule": "CPLX0-8009", "coeff": 1.0, "type": "proteincomplex", "location": "e", "form": "mature"}, {"molecule": "EG10311-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "e", 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"c", "form": "mature"}, {"molecule": "EG11171-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CPLX0-8182_RXN" [{"molecule": "CPLX0-8182", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "EG11757-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "CPLX0-8181", "coeff": -1.0, "type": "proteincomplex", "location": "c", "form": "mature"}] -"CPLX0-8183_RXN" [{"molecule": "CPLX0-8183", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "EG11652-MONOMER", "coeff": -3.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"CPLX0-8184_RXN" [{"molecule": "CPLX0-8184", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "EG11580-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CPLX0-8185_RXN" [{"molecule": "CPLX0-8185", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "EG12391-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CPLX0-8186_RXN" [{"molecule": "CPLX0-8186", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "GALACTITOLPDEHYD-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CPLX0-8187_RXN" [{"molecule": "CPLX0-8187", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "G7682-MONOMER", "coeff": -12.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"CPLX0-8188_RXN" [{"molecule": "CPLX0-8188", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "EG10597-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "EG10596-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CPLX0-8189_RXN" 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"c", "form": "mature"}, {"molecule": "EG10596-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CPLX0-8198_RXN" [{"molecule": "CPLX0-8198", "coeff": 1.0, "type": "proteincomplex", "location": "s", "form": "mature"}, {"molecule": "EG12371-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "s", "form": "mature"}] -"CPLX0-8199_RXN" [{"molecule": "CPLX0-8199", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "G6783-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"CPLX0-8200_RXN" [{"molecule": "CPLX0-8200", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "G7314-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"CPLX0-8201_RXN" [{"molecule": "CPLX0-8201", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "G7394-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CPLX0-8202_RXN" [{"molecule": "CPLX0-8202", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "ALARACEBIOSYN-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CPLX0-821_RXN" [{"molecule": "CPLX0-821", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "G7723-MONOMER", "coeff": -12.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CPLX0-841_RXN" [{"molecule": "CPLX0-841", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "EG10571-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CPLX0-861_RXN" [{"molecule": "CPLX0-861", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "G7055-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CPLX0-881_RXN" 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"form": "mature"}, {"molecule": "EG10778-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"CPLX0-981_RXN" [{"molecule": "CPLX0-981", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "EG12344-MONOMER", "coeff": -6.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CPLXECOLI-7943_RXN" [{"molecule": "CPLXECOLI-7943", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "G7409-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CREC-CPLX_RXN" [{"molecule": "CREC-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "CREC-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"CTPSYN-CPLX_RXN" [{"molecule": "CTPSYN-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "CTPSYN-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CYANLY-CPLX_RXN" [{"molecule": "CYANLY-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "CYANLY-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CYSSYNMULTI-CPLX_RXN" [{"molecule": "CYSSYNMULTI-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "CPLX0-237", "coeff": -1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "ACSERLYA-CPLX", "coeff": -1.0, "type": "proteincomplex", "location": "c", "form": "mature"}] -"CYSTATHIONINE-BETA-LYASE-CPLX_RXN" [{"molecule": "CYSTATHIONINE-BETA-LYASE-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "CYSTATHIONINE-BETA-LYASE-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"CYT-D-UBIOX-CPLX_RXN" [{"molecule": "CYT-D-UBIOX-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "CYDA-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "CYDB-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "MONOMER0-2663", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"CYT-O-UBIOX-CPLX_RXN" [{"molecule": "CYT-O-UBIOX-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "CYOD-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "CYOA-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "CYOB-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "CYOC-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"CYTIDEAM-CPLX_RXN" [{"molecule": "CYTIDEAM-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "CYTIDEAM-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"DALADALALIGB-CPLX_RXN" [{"molecule": "DALADALALIGB-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "DALADALALIGB-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"DALADEHYDROG-CPLX_RXN" [{"molecule": "DALADEHYDROG-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "DALADEHYDROGA-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"DAPASYN-CPLX_RXN" [{"molecule": "DAPASYN-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "DAPASYN-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"DCTP-DEAM-CPLX_RXN" [{"molecule": "DCTP-DEAM-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "DCTP-DEAM-MONOMER", "coeff": -3.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"DCYSDESULF-CPLX_RXN" [{"molecule": "DCYSDESULF-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "DCYSDESULF-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"DEOA-CPLX_RXN" [{"molecule": "DEOA-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "DEOA-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"DEOD-CPLX_RXN" [{"molecule": "DEOD-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "DEOD-MONOMER", "coeff": -6.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"DETHIOBIOTIN-SYN-CPLX_RXN" [{"molecule": "DETHIOBIOTIN-SYN-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "DETHIOBIOTIN-SYN-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"DGTPTRIPHYDRO-CPLX_RXN" [{"molecule": "DGTPTRIPHYDRO-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "DGTPTRIPHYDRO-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"DHHB-METHYLTRANSFER-CPLX_RXN" [{"molecule": "DHHB-METHYLTRANSFER-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "DHHB-METHYLTRANSFER-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"DHPDIOXYGEN-CPLX_RXN" [{"molecule": "DHPDIOXYGEN-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "DHPDIOXYGEN-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"DIACYLGLYKIN-CPLX_RXN" [{"molecule": "DIACYLGLYKIN-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "DIACYLGLYKIN-MONOMER", "coeff": -3.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"DIAMINOPIMDECARB-CPLX_RXN" [{"molecule": "DIAMINOPIMDECARB-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "DIAMINOPIMDECARB-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"DIHYDRODIPICSYN-CPLX_RXN" [{"molecule": "DIHYDRODIPICSYN-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "DIHYDRODIPICSYN-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"DIHYDROOROT-CPLX_RXN" [{"molecule": "DIHYDROOROT-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "DIHYDROOROT-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"DIHYDROPICRED-CPLX_RXN" [{"molecule": "DIHYDROPICRED-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "DIHYDROPICRED-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"DIHYDROPTERIREDUCT-CPLX_RXN" [{"molecule": "DIHYDROPTERIREDUCT-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "DIHYDROPTERIREDUCT-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"DIHYDROXYACIDDEHYDRAT-CPLX_RXN" [{"molecule": "DIHYDROXYACIDDEHYDRAT-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "DIHYDROXYACIDDEHYDRAT-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"DIMESULFREDUCT-CPLX_RXN" [{"molecule": "DIMESULFREDUCT-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "DMSA-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "DMSB-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "DMSC-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"DIOHBUTANONEPSYN-CPLX_RXN" [{"molecule": "DIOHBUTANONEPSYN-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "DIOHBUTANONEPSYN-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"DMBPPRIBOSYLTRANS-CPLX_RXN" [{"molecule": "DMBPPRIBOSYLTRANS-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "DMBPPRIBOSYLTRANS-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"DSBC-CPLX_RXN" [{"molecule": "DSBC-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "p", "form": "mature"}, {"molecule": "DSBC-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "p", "form": "mature"}] -"DSBG-CPLX_RXN" [{"molecule": "DSBG-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "p", "form": "mature"}, {"molecule": "DSBG-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "p", "form": "mature"}] -"DTDPGLUCDEHYDRAT-CPLX_RXN" [{"molecule": "DTDPGLUCDEHYDRAT-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "DTDPGLUCDEHYDRAT-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"DTDPRHAMSYNTHMULTI-CPLX_RXN" [{"molecule": "DTDPRHAMSYNTHMULTI-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "DTDPDEHYDRHAMEPIM-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "DTDPDEHYRHAMREDUCT-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"DUTP-PYROP-CPLX_RXN" [{"molecule": "DUTP-PYROP-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "DUTP-PYROP-MONOMER", "coeff": -3.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"DXPREDISOM-CPLX_RXN" [{"molecule": "DXPREDISOM-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "DXPREDISOM-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"E1O_RXN" [{"molecule": "E1O", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "E1O-MONOMER", "coeff": -12.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"E1P-CPLX_RXN" [{"molecule": "E1P-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "E1P-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"E2O_RXN" [{"molecule": "E2O", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "E2O-MONOMER", "coeff": -24.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"E3-CPLX_RXN" [{"molecule": "E3-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "E3-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"EIISGA_RXN" [{"molecule": "EIISGA", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "YJFU-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "YJFT-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "SGAT-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"EIISGC_RXN" [{"molecule": "EIISGC", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "MONOMER0-2121", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "SGCC-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "SGCA-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"ENOLASE-CPLX_RXN" [{"molecule": "ENOLASE-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "ENOLASE-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"ENTA-CPLX_RXN" [{"molecule": "ENTA-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "ENTA-MONOMER", "coeff": -8.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"ENTE-CPLX_RXN" [{"molecule": "ENTE-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "ENTE-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"ENVZ-CPLX_RXN" [{"molecule": "ENVZ-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "ENVZ-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"ERYTH4PDEHYDROG-CPLX_RXN" [{"molecule": "ERYTH4PDEHYDROG-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "ERYTH4PDEHYDROG-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"ETHAMLY-CPLX_RXN" [{"molecule": "ETHAMLY-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "EUTB-MONOMER", "coeff": -6.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EUTC-MONOMER", "coeff": -6.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"F-1-CPLX_RXN" [{"molecule": "F-1-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "ATPC-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "ATPH-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "ATPA-CPLX", "coeff": -1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "ATPG-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "ATPD-CPLX", "coeff": -1.0, "type": "proteincomplex", "location": "i", "form": "mature"}] -"F-O-CPLX_RXN" [{"molecule": "F-O-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "ATPE-CPLX", "coeff": -1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "ATPF-CPLX", "coeff": -1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "ATPB-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"F16B-CPLX_RXN" [{"molecule": "F16B-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "F16B-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"FABA-CPLX_RXN" [{"molecule": "FABA-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "FABA-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"FABB-CPLX_RXN" [{"molecule": "FABB-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "FABB-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"FABZ-CPLX_RXN" [{"molecule": "FABZ-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "FABZ-MONOMER", "coeff": -6.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"FADA-CPLX_RXN" [{"molecule": "FADA-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "FADA-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"FADB-CPLX_RXN" [{"molecule": "FADB-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "FADB-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"FAO-CPLX_RXN" [{"molecule": "FAO-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "FADB-CPLX", "coeff": -1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "FADA-CPLX", "coeff": -1.0, "type": "proteincomplex", "location": "c", "form": "mature"}] -"FHLMULTI-CPLX_RXN" [{"molecule": "FHLMULTI-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "FORMATEDEHYDROGH-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "HYDROG3-CPLX", "coeff": -1.0, "type": "proteincomplex", "location": "i", "form": "mature"}] -"FLAGELLAR-MOTOR-COMPLEX_RXN" [{"molecule": "FLAGELLAR-MOTOR-COMPLEX", "coeff": 1.0, "type": "proteincomplex", "location": "s", "form": "mature"}, {"molecule": "CPLX0-7450", "coeff": -1.0, "type": "proteincomplex", "location": "s", "form": "mature"}, {"molecule": "FLGH-FLAGELLAR-L-RING", "coeff": -1.0, "type": "proteinmonomer", "location": "s", "form": "mature"}, {"molecule": "MOTA-FLAGELLAR-MOTOR-STATOR-PROTEIN", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "MOTB-FLAGELLAR-MOTOR-STATOR-PROTEIN", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "FLGB-FLAGELLAR-MOTOR-ROD-PROTEIN", "coeff": -1.0, "type": "proteinmonomer", "location": "s", "form": "mature"}, {"molecule": "FLGC-FLAGELLAR-MOTOR-ROD-PROTEIN", "coeff": -1.0, "type": "proteinmonomer", "location": "s", "form": "mature"}, {"molecule": "FLGF-FLAGELLAR-MOTOR-ROD-PROTEIN", "coeff": -1.0, "type": "proteinmonomer", "location": "s", "form": "mature"}, {"molecule": "FLGG-FLAGELLAR-MOTOR-ROD-PROTEIN", "coeff": -1.0, "type": "proteinmonomer", "location": "s", "form": "mature"}, {"molecule": "FLGI-FLAGELLAR-P-RING", "coeff": -1.0, "type": "proteinmonomer", "location": "s", "form": "mature"}, {"molecule": "FLIF-FLAGELLAR-MS-RING", "coeff": -1.0, "type": "proteinmonomer", "location": "s", "form": "mature"}, {"molecule": "EG11346-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "s", "form": "mature"}, {"molecule": "EG10322-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "s", "form": "mature"}] -"FOLD-CPLX_RXN" [{"molecule": "FOLD-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "FOLD-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"FOLE-CPLX_RXN" [{"molecule": "FOLE-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "GTP-CYCLOHYDRO-I-MONOMER", "coeff": -10.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"FOLXTET-CPLX_RXN" [{"molecule": "FOLXTET-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "H2NTPEPIM-MONOMER", "coeff": -8.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] 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-1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "MONOMER0-145", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "HYBC-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"FORMHYDROGI-CPLX_RXN" [{"molecule": "FORMHYDROGI-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "HYAA-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "HYAB-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "HYAC-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"FORMYLTHFDEFORMYL-CPLX_RXN" [{"molecule": "FORMYLTHFDEFORMYL-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "FORMYLTHFDEFORMYL-MONOMER", "coeff": -6.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] 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[{"molecule": "FUMARASE-C", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "FUMC-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"FUMARATE-REDUCTASE_RXN" [{"molecule": "FUMARATE-REDUCTASE", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "FUM-FLAVO", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "FUM-FE-S", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "FUM-MEMB1", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "FUM-MEMB2", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"GABATRANSAM-CPLX_RXN" [{"molecule": "GABATRANSAM-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "GABATRANSAM-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"GALACTOACETYLTRAN-CPLX_RXN" [{"molecule": "GALACTOACETYLTRAN-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "GALACTOACETYLTRAN-MONOMER", "coeff": -3.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"GALACTURIDYLYLTRANS-CPLX_RXN" [{"molecule": "GALACTURIDYLYLTRANS-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "GALACTURIDYLYLTRANS-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"GAPDH-A-CPLX_RXN" [{"molecule": "GAPDH-A-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "GAPDH-A-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"GCVP-CPLX_RXN" [{"molecule": "GCVP-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "GCVP-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"GDHA-CPLX_RXN" [{"molecule": "GDHA-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "GDHA-MONOMER", "coeff": -6.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"GDPMANDEHYDRA-CPLX_RXN" [{"molecule": "GDPMANDEHYDRA-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "GDPMANDEHYDRA-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"GLNG-CPLX_RXN" [{"molecule": "GLNG-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PROTEIN-NRI", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"GLNL-CPLX_RXN" [{"molecule": "GLNL-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "PROTEIN-NRII", "coeff": -2.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"GLUC1PADENYLTRANS-CPLX_RXN" [{"molecule": "GLUC1PADENYLTRANS-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "GLUC1PADENYLTRANS-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"GLUCONOKINII-CPLX_RXN" [{"molecule": "GLUCONOKINII-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "GLUCONOKINII-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"GLUCOSAMINE-6-P-DEAMIN-CPLX_RXN" [{"molecule": "GLUCOSAMINE-6-P-DEAMIN-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "GLUCOSAMINE-6-P-DEAMIN-MONOMER", "coeff": -6.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"GLUCOSE-1-PHOSPHAT-CPLX_RXN" [{"molecule": "GLUCOSE-1-PHOSPHAT-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "p", "form": "mature"}, {"molecule": "GLUCOSE-1-PHOSPHAT-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "p", "form": "mature"}] -"GLUTAMATESYN-CPLX_RXN" [{"molecule": "GLUTAMATESYN-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "GLUTAMATESYN-DIMER", "coeff": -4.0, "type": "proteincomplex", "location": "c", "form": "mature"}] -"GLUTAMATESYN-DIMER_RXN" [{"molecule": "GLUTAMATESYN-DIMER", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "GLUSYNSMALL-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "GLUSYNLARGE-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"GLUTAMIDOTRANS-CPLX_RXN" [{"molecule": "GLUTAMIDOTRANS-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "GLUTAMIDOTRANS-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "CYCLASE-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"GLUTAMINESYN-OLIGOMER_RXN" [{"molecule": "GLUTAMINESYN-OLIGOMER", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "GLUTAMINESYN-MONOMER", "coeff": -12.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"GLUTATHIONE-REDUCT-NADPH-CPLX_RXN" [{"molecule": "GLUTATHIONE-REDUCT-NADPH-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "GLUTATHIONE-REDUCT-NADPH-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"GLUTATHIONE-SYN-CPLX_RXN" [{"molecule": "GLUTATHIONE-SYN-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "GLUTATHIONE-SYN-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"GLUTDECARBOXA-CPLX_RXN" [{"molecule": "GLUTDECARBOXA-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "GLUTDECARBOXA-MONOMER", "coeff": -6.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"GLUTDECARBOXB-CPLX_RXN" [{"molecule": "GLUTDECARBOXB-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "GLUTDECARBOXB-MONOMER", "coeff": -6.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"GLUTKIN-CPLX_RXN" [{"molecule": "GLUTKIN-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "GLUTKIN-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"GLUTSEMIALDEHYDROG-CPLX_RXN" [{"molecule": "GLUTSEMIALDEHYDROG-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "GLUTSEMIALDEHYDROG-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"GLYC3PDEHYDROGBIOSYN-CPLX_RXN" [{"molecule": "GLYC3PDEHYDROGBIOSYN-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "GLYC3PDEHYDROGBIOSYN-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"GLYCDEH-CPLX_RXN" [{"molecule": "GLYCDEH-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "GLYCDEH-MONOMER", "coeff": -8.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"GLYCEROL-KIN-CPLX_RXN" [{"molecule": "GLYCEROL-KIN-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "GLYCEROL-KIN-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"GLYCOPHOSPHORYL-CPLX_RXN" [{"molecule": "GLYCOPHOSPHORYL-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "GLYCOPHOSPHORYL-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"GLYCPDIESTER-PERI-CPLX_RXN" [{"molecule": "GLYCPDIESTER-PERI-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "p", "form": "mature"}, {"molecule": "GLYCPDIESTER-PERI-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "p", "form": "mature"}] -"GLYOCARBOLIG-CPLX_RXN" [{"molecule": "GLYOCARBOLIG-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "GLYOCARBOLIG-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"GLYOHMETRANS-CPLX_RXN" [{"molecule": "GLYOHMETRANS-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "GLYOHMETRANS-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"GLYOXI-CPLX_RXN" [{"molecule": "GLYOXI-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "GLYOXI-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"GLYS-CPLX_RXN" [{"molecule": "GLYS-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "GLYS-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "GLYQ-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"GMP-REDUCT-CPLX_RXN" [{"molecule": "GMP-REDUCT-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "GMP-REDUCT-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"GMP-SYN-CPLX_RXN" [{"molecule": "GMP-SYN-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "GMP-SYN-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"GPT-CPLX_RXN" [{"molecule": "GPT-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "GPT-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"GSAAMINOTRANS-CPLX_RXN" [{"molecule": "GSAAMINOTRANS-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "GSAAMINOTRANS-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"GSP-CPLX_RXN" [{"molecule": "GSP-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "GSP-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"GST-CPLX_RXN" [{"molecule": "GST-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "GST-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"GTP-CYCLOHYDRO-II-CPLX_RXN" [{"molecule": "GTP-CYCLOHYDRO-II-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "GTP-CYCLOHYDRO-II-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"GUANYL-KIN-CPLX_RXN" [{"molecule": "GUANYL-KIN-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "GUANYL-KIN-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"H2PTEROATESYNTH-CPLX_RXN" [{"molecule": "H2PTEROATESYNTH-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "H2PTEROATESYNTH-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"HCAMULTI-CPLX_RXN" [{"molecule": "HCAMULTI-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "HCAC-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "HCAD-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "HCAA2-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "PHENYLPRODIOXY-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"HISS-CPLX_RXN" [{"molecule": "HISS-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "HISS-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"HISTDEHYD-CPLX_RXN" [{"molecule": "HISTDEHYD-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "HISTDEHYD-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"HISTPHOSTRANS-CPLX_RXN" [{"molecule": "HISTPHOSTRANS-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "HISTPHOSTRANS-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"HMP-P-KIN-CPLX_RXN" [{"molecule": "HMP-P-KIN-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "HMP-P-KIN-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"HOLO-ACP-SYNTH-CPLX_RXN" [{"molecule": "HOLO-ACP-SYNTH-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "HOLO-ACP-SYNTH-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"HOMOSERKIN-CPLX_RXN" [{"molecule": "HOMOSERKIN-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "HOMOSERKIN-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"HOMSUCTRAN-CPLX_RXN" [{"molecule": "HOMSUCTRAN-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "HOMSUCTRAN-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"HYDROG3-CPLX_RXN" [{"molecule": "HYDROG3-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "HYCD-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "HYCC-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "HYCF-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "HYCG-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "HYCBSMALL-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "HYCELARGE-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"HYDROPEROXIDI-CPLX_RXN" [{"molecule": "HYDROPEROXIDI-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "HYDROPEROXIDI-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"HYDROPEROXIDII-CPLX_RXN" [{"molecule": "HYDROPEROXIDII-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "HYDROPEROXIDII-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"IMIDHISTID-CPLX_RXN" [{"molecule": "IMIDHISTID-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "IMIDPHOSPHADEHYDHISTIDPHOSPHA-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"IMP-DEHYDROG-CPLX_RXN" [{"molecule": "IMP-DEHYDROG-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "IMP-DEHYDROG-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"ISOCIT-LYASE_RXN" [{"molecule": "ISOCIT-LYASE", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "ISOCIT-LYASE-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"ISOCITHASE-CPLX_RXN" [{"molecule": "ISOCITHASE-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "ISOCITDEH-SUBUNIT", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"KDO-8PPHOSPHAT-CPLX_RXN" [{"molecule": "KDO-8PPHOSPHAT-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "G7663-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"KDO-8PSYNTH-CPLX_RXN" [{"molecule": "KDO-8PSYNTH-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "KDO-8PSYNTH-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"KDPD-CPLX_RXN" [{"molecule": "KDPD-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "KDPD-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"KDPGALDOL-4OH2OXOGLUTARALDOL-CPLX_RXN" [{"molecule": "KDPGALDOL-4OH2OXOGLUTARALDOL-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "KDPGALDOL-4OH2OXOGLUTARALDOL-MONOMER", "coeff": -3.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"L-GLN-FRUCT-6-P-AMINOTRANS-CPLX_RXN" [{"molecule": "L-GLN-FRUCT-6-P-AMINOTRANS-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "L-GLN-FRUCT-6-P-AMINOTRANS-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"LACTALDREDUCT-CPLX_RXN" [{"molecule": "LACTALDREDUCT-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "LACTALDREDUCT-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"LDC2-CPLX_RXN" [{"molecule": "LDC2-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "LDC2-MONOMER", "coeff": -10.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"LTAA-CPLX_RXN" [{"molecule": "LTAA-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "LTAA-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"LTARTDEHYDRA-CPLX_RXN" [{"molecule": "LTARTDEHYDRA-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "TTDA-CPLX", "coeff": -1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "TTDB-CPLX", "coeff": -1.0, "type": "proteincomplex", "location": "c", "form": "mature"}] -"LUMAZINESYN-CPLX_RXN" [{"molecule": "LUMAZINESYN-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "LUMAZINESYN-MONOMER", "coeff": -60.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"LYSDECARBOX-CPLX_RXN" [{"molecule": "LYSDECARBOX-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "LYSDECARBOX-MONOMER", "coeff": -10.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"LYSS-CPLX_RXN" [{"molecule": "LYSS-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "LYSS-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"LYSU-CPLX_RXN" [{"molecule": "LYSU-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "LYSU-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"LYXK-CPLX_RXN" [{"molecule": "LYXK-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "LYXK-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"MALATE-DEHASE_RXN" [{"molecule": "MALATE-DEHASE", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "MALATE-DEHASE-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"MALDEXPHOSPHORYL-CPLX_RXN" [{"molecule": "MALDEXPHOSPHORYL-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "MALDEXPHOSPHORYL-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"MALIC-NAD-CPLX_RXN" [{"molecule": "MALIC-NAD-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "MALIC-NAD-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"MALIC-NADP-CPLX_RXN" [{"molecule": "MALIC-NADP-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "MALIC-NADP-MONOMER", "coeff": -6.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"MALTACETYLTRAN-CPLX_RXN" [{"molecule": "MALTACETYLTRAN-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "MALTACETYLTRAN-MONOMER", "coeff": -3.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"MENE-CPLX_RXN" [{"molecule": "MENE-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "O-SUCCINYLBENZOATE-COA-LIG-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"MENF-CPLX_RXN" [{"molecule": "MENF-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "MENF-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"METG-CPLX_RXN" [{"molecule": "METG-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "METG-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"METHGLYSYN-CPLX_RXN" [{"molecule": "METHGLYSYN-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "METHGLYSYN-MONOMER", "coeff": -6.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"METHYLENETHFREDUCT-CPLX_RXN" [{"molecule": "METHYLENETHFREDUCT-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "METHYLENETHFREDUCT-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"METNIQ-METHIONINE-ABC-CPLX_RXN" [{"molecule": "METNIQ-METHIONINE-ABC-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "ABC-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "METI-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "METQ-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"MUTHLS-CPLX_RXN" [{"molecule": "MUTHLS-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "EG11281-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG10625-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG10624-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"N-ACETYLTRANSFER-CPLX_RXN" [{"molecule": "N-ACETYLTRANSFER-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "N-ACETYLTRANSFER-MONOMER", "coeff": -6.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"NAD-SYNTH-CPLX_RXN" [{"molecule": "NAD-SYNTH-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "NAD-SYNTH-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"NADH-DHI-CPLX_RXN" [{"molecule": "NADH-DHI-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "NUOA-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "NUOH-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "NUOJ-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "NUOK-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "NUOL-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "NUOM-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "NUON-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "CPLX0-3361", "coeff": -1.0, "type": "proteincomplex", "location": "i", "form": "mature"}] -"NAG1P-URIDYLTRANS-CPLX_RXN" [{"molecule": "NAG1P-URIDYLTRANS-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "NAG1P-URIDYLTRANS-MONOMER", "coeff": -3.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"NAG6PDEACET-CPLX_RXN" [{"molecule": "NAG6PDEACET-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "NAG6PDEACET-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"NAP-CPLX_RXN" [{"molecule": "NAP-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "NAPB-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "p", "form": "mature"}, {"molecule": "NAPC-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "CPLX0-3241", "coeff": -1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "NAPA-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "p", "form": "mature"}] -"NARQ-CPLX_RXN" [{"molecule": "NARQ-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "NARQ-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"NARX-CPLX_RXN" [{"molecule": "NARX-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "NARX-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"NIRB-CPLX_RXN" [{"molecule": "NIRB-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "NIRB-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"NITRATREDUCTA-CPLX_RXN" [{"molecule": "NITRATREDUCTA-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "NARG-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "NARH-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "NARI-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"NITRATREDUCTZ-CPLX_RXN" [{"molecule": "NITRATREDUCTZ-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "NARY-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "NARZ-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "NARV-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"NITRITREDUCT-CPLX_RXN" [{"molecule": "NITRITREDUCT-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "NIRD-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "NIRB-CPLX", "coeff": -1.0, "type": "proteincomplex", "location": "c", "form": "mature"}] -"NRDACTMULTI-CPLX_RXN" [{"molecule": "NRDACTMULTI-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "RIBONUCLEOSIDE-TRIP-REDUCT-CPLX", "coeff": -1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "CPLX0-229", "coeff": -1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "FLAVONADPREDUCT-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"NRDE-CPLX_RXN" [{"molecule": "NRDE-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "NRDE-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"NRDF-CPLX_RXN" [{"molecule": "NRDF-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "NRDF-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"NRFMULTI-CPLX_RXN" [{"molecule": "NRFMULTI-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "NRFD-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "NRFC-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "CYTOCHROMEC-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "p", "form": "mature"}, {"molecule": "CYTOCHROMEC552-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "p", "form": "mature"}] -"NUCLEOSIDE-DIP-KIN-CPLX_RXN" [{"molecule": "NUCLEOSIDE-DIP-KIN-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "NUCLEOSIDE-DIP-KIN-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"O-SUCCHOMOSERLYASE-CPLX_RXN" [{"molecule": "O-SUCCHOMOSERLYASE-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "O-SUCCHOMOSERLYASE-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"ORNCARBAMTRANSFERF-CPLX_RXN" [{"molecule": "ORNCARBAMTRANSFERF-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "CHAINF-MONOMER", "coeff": -3.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"ORNCARBAMTRANSFERI-CPLX_RXN" [{"molecule": "ORNCARBAMTRANSFERI-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "CHAINI-MONOMER", "coeff": -3.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"ORNDECARBOX-BIO-CPLX_RXN" [{"molecule": "ORNDECARBOX-BIO-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "ORNDECARBOX-BIO-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"ORNDECARBOXDEG-CPLX_RXN" [{"molecule": "ORNDECARBOXDEG-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "ORNDECARBOXDEG-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"OROPRIBTRANS-CPLX_RXN" [{"molecule": "OROPRIBTRANS-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "OROPRIBTRANS-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"OROTPDECARB-CPLX_RXN" [{"molecule": "OROTPDECARB-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "OROTPDECARB-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"PABASYN-CPLX_RXN" [{"molecule": "PABASYN-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PABASYN-COMPI-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "PABASYN-COMPII-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"PABSYNMULTI-CPLX_RXN" [{"molecule": "PABSYNMULTI-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PABASYN-CPLX", "coeff": -1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "ADCLY-CPLX", "coeff": -1.0, "type": "proteincomplex", "location": "c", "form": "mature"}] -"PANTOATE-BETA-ALANINE-LIG-CPLX_RXN" [{"molecule": "PANTOATE-BETA-ALANINE-LIG-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PANTOATE-BETA-ALANINE-LIG-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"PANTOTHENATE-KIN-CPLX_RXN" [{"molecule": "PANTOTHENATE-KIN-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PANTOTHENATE-KIN-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"PAPSSULFOTRANS-CPLX_RXN" [{"molecule": "PAPSSULFOTRANS-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PAPSSULFOTRANS-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"PC00003_RXN" [{"molecule": "PC00003", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD00242", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"PC00004_RXN" [{"molecule": "PC00004", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD00257", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"PC00005_RXN" [{"molecule": "PC00005", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD00194", "coeff": -6.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"PC00007_RXN" [{"molecule": "PC00007", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD00423", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"PC00010_RXN" [{"molecule": "PC00010", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD00205", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"PC00027_RXN" [{"molecule": "PC00027", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD00347", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "PD00348", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"PC00033_RXN" [{"molecule": "PC00033", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD00219", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"PC00040_RXN" [{"molecule": "PC00040", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD00232", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"PC00061_RXN" [{"molecule": "PC00061", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD00521", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"PC00063_RXN" [{"molecule": "PC00063", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD00338", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "PD02366", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"PC00084_RXN" [{"molecule": "PC00084", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "RCSB-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "PD02233", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"PC00086_RXN" [{"molecule": "PC00086", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD00221", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"PC00103_RXN" [{"molecule": "PC00103", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD01103", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"PDXH-CPLX_RXN" [{"molecule": "PDXH-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PDXH-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"PDXK-CPLX_RXN" [{"molecule": "PDXK-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PDXK-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"PEPCARBOX-CPLX_RXN" [{"molecule": "PEPCARBOX-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PEPCARBOX-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"PEPSYNTH-CPLX_RXN" [{"molecule": "PEPSYNTH-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PEPSYNTH-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"PGLYCDEHYDROG-CPLX_RXN" [{"molecule": "PGLYCDEHYDROG-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PGLYCDEHYDROG-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"PHENDEHYD-CPLX_RXN" [{"molecule": "PHENDEHYD-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PHENDEHYD-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"PHES-CPLX_RXN" [{"molecule": "PHES-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PHES-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "PHET-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"PHOR-CPLX_RXN" [{"molecule": "PHOR-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "PHOR-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"PHOSACETYLTRANS-CPLX_RXN" [{"molecule": "PHOSACETYLTRANS-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PHOSACETYLTRANS-MONOMER", "coeff": -6.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"PHOSGLYCMUTASE_RXN" [{"molecule": "PHOSGLYCMUTASE", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "GPMA-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"PHOSPHASERSYN-CPLX_RXN" [{"molecule": "PHOSPHASERSYN-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "PHOSPHASERSYN-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"PII2-CPLX_RXN" [{"molecule": "PII2-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PROTEIN-PII2", "coeff": -3.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"PIIPROTEIN-CPLX_RXN" [{"molecule": "PIIPROTEIN-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PROTEIN-PII", "coeff": -3.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"PKI-COMPLEX_RXN" [{"molecule": "PKI-COMPLEX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PKI-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"PKII-CPLX_RXN" [{"molecule": "PKII-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PKII-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"PORPHOBILSYNTH-CPLX_RXN" [{"molecule": "PORPHOBILSYNTH-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PORPHOBILSYNTH-MONOMER", "coeff": -8.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"PPK-CPLX_RXN" [{"molecule": "PPK-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "s", "form": "mature"}, {"molecule": "PPK-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "s", "form": "mature"}] -"PPPGPPHYDRO-CPLX_RXN" [{"molecule": "PPPGPPHYDRO-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PPPGPPHYDRO-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"PPX-CPLX_RXN" [{"molecule": "PPX-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "PPX-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"PROLINEMULTI-CPLX_RXN" [{"molecule": "PROLINEMULTI-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "GLUTKIN-CPLX", "coeff": -1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "GLUTSEMIALDEHYDROG-CPLX", "coeff": -1.0, "type": "proteincomplex", "location": "c", "form": "mature"}] -"PROS-CPLX_RXN" [{"molecule": "PROS-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PROS-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"PRPPAMIDOTRANS-CPLX_RXN" [{"molecule": "PRPPAMIDOTRANS-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PRPPAMIDOTRANS-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"PSERTRANSAM-CPLX_RXN" [{"molecule": "PSERTRANSAM-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PSERTRANSAM-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"PURE-CPLX_RXN" [{"molecule": "PURE-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PURE-MONOMER", "coeff": -8.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"PURK-CPLX_RXN" [{"molecule": "PURK-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PURK-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"PUTA-CPLX_RXN" [{"molecule": "PUTA-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PUTA-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"PYRNUTRANSHYDROGEN-CPLX_RXN" [{"molecule": "PYRNUTRANSHYDROGEN-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "PNTB-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "PNTA-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"PYRROLINECARBREDUCT-CPLX_RXN" [{"molecule": "PYRROLINECARBREDUCT-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PYRROLINECARBREDUCT-MONOMER", "coeff": -10.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"PYRUVATEDEH-CPLX_RXN" [{"molecule": "PYRUVATEDEH-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "E1P-CPLX", "coeff": -12.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "E2P-MONOMER", "coeff": -24.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "E3-CPLX", "coeff": -6.0, "type": "proteincomplex", "location": "i", "form": "mature"}] -"PYRUVFORMLY-INACTIVE-CPLX_RXN" [{"molecule": "PYRUVFORMLY-INACTIVE-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PYRUVFORMLY-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"PYRUVOXID-CPLX_RXN" [{"molecule": "PYRUVOXID-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "PYRUVOXID-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"QOR-CPLX_RXN" [{"molecule": "QOR-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "QOR-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"QUINOPRIBOTRANS-CPLX_RXN" [{"molecule": "QUINOPRIBOTRANS-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "QUINOPRIBOTRANS-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"RECBCD_RXN" [{"molecule": "RECBCD", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "EG10826-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG10825-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG10824-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"RECFOR-CPLX_RXN" [{"molecule": "RECFOR-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "EG10828-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG10834-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG10832-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"RHAMNULPALDOL-CPLX_RXN" [{"molecule": "RHAMNULPALDOL-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "RHAMNULPALDOL-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"RIB5PISOMA-CPLX_RXN" [{"molecule": "RIB5PISOMA-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "RIB5PISOMA-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"RIB5PISOMB-CPLX_RXN" [{"molecule": "RIB5PISOMB-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "RIB5PISOMB-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"RIBONUCLEOSIDE-DIP-REDUCTI-CPLX_RXN" [{"molecule": "RIBONUCLEOSIDE-DIP-REDUCTI-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "B1-CPLX", "coeff": -1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "B2-CPLX", "coeff": -1.0, "type": "proteincomplex", "location": "c", "form": "mature"}] -"RIBONUCLEOSIDE-DIP-REDUCTII-CPLX_RXN" [{"molecule": "RIBONUCLEOSIDE-DIP-REDUCTII-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "NRDE-CPLX", "coeff": -1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "NRDF-CPLX", "coeff": -1.0, "type": "proteincomplex", "location": "c", "form": "mature"}] -"RIBONUCLEOSIDE-TRIP-REDUCT-CPLX_RXN" [{"molecule": "RIBONUCLEOSIDE-TRIP-REDUCT-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "RIBONUCLEOSIDE-TRIP-REDUCT-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"RIBULOKIN-CPLX_RXN" [{"molecule": "RIBULOKIN-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "RIBULOKIN-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"RIBULPEPIM-CPLX_RXN" [{"molecule": "RIBULPEPIM-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "RIBULPEPIM-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"RUVABC-CPLX_RXN" [{"molecule": "RUVABC-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "EG10925-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG10924-MONOMER", "coeff": -12.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG10923-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"S-ADENMETSYN-CPLX_RXN" [{"molecule": "S-ADENMETSYN-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "S-ADENMETSYN-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"SAICARSYN-CPLX_RXN" [{"molecule": "SAICARSYN-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "SAICARSYN-MONOMER", "coeff": -3.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"SEC-SECRETION-CPLX_RXN" [{"molecule": "SEC-SECRETION-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "SECD-SECF-YAJC-YIDC-CPLX", "coeff": -1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "SECE-G-Y-CPLX", "coeff": -1.0, "type": "proteincomplex", "location": "i", "form": "mature"}] -"SECD-SECF-YAJC-YIDC-CPLX_RXN" [{"molecule": "SECD-SECF-YAJC-YIDC-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "YIDC", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "EG11096-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "SECF", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "SECD", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"SECE-G-Y-CPLX_RXN" [{"molecule": "SECE-G-Y-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "SECE", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "SECG", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "SECY", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"SERS-CPLX_RXN" [{"molecule": "SERS-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "SERS-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"SIROHEMESYN-CPLX_RXN" [{"molecule": "SIROHEMESYN-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "SIROHEMESYN-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"SORB6PDEHYDROG-CPLX_RXN" [{"molecule": "SORB6PDEHYDROG-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "SORB6PDEHYDROG-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"SPERMACTRAN-CPLX_RXN" [{"molecule": "SPERMACTRAN-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "SPERMACTRAN-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"SPERMIDINESYN-CPLX_RXN" [{"molecule": "SPERMIDINESYN-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "SPERMIDINESYN-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"SRP-CPLX_RXN" [{"molecule": "SRP-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "FFS-RNA", "coeff": -1.0, "type": "rna", "location": "c", "form": "mature"}, {"molecule": "EG10346-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "EG10300-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"SUCC-DEHASE_RXN" [{"molecule": "SUCC-DEHASE", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "SDH-FLAVO", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "SDH-FE-S", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "SDH-MEMB1", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "SDH-MEMB2", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"SUCCCOASYN_RXN" [{"molecule": "SUCCCOASYN", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "SUCCCOASYN-ALPHA", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "SUCCCOASYN-BETA", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"SUCCORNTRANSAM-CPLX_RXN" [{"molecule": "SUCCORNTRANSAM-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "SUCCORNTRANSAM-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"SULFATE-ADENYLYLTRANS-CPLX_RXN" [{"molecule": "SULFATE-ADENYLYLTRANS-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "CYSD-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "CYSN-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"SULFITE-REDUCT-CPLX_RXN" [{"molecule": "SULFITE-REDUCT-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "CPLX0-7841", "coeff": -1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "BETACOMP-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"SUPEROX-DISMUTFE-CPLX_RXN" [{"molecule": "SUPEROX-DISMUTFE-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "SUPEROX-DISMUTFE-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"SUPEROX-DISMUTMN-CPLX_RXN" [{"molecule": "SUPEROX-DISMUTMN-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "SUPEROX-DISMUTMN-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"TAP-CPLX_RXN" [{"molecule": "TAP-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "CHEA-CPLX", "coeff": -1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "CHEW-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "CPLX0-8104", "coeff": -3.0, "type": "proteincomplex", "location": "i", "form": "mature"}] -"TAR-CPLX_RXN" [{"molecule": "TAR-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "CHEA-CPLX", "coeff": -1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "CHEW-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "CPLX0-8102", "coeff": -3.0, "type": "proteincomplex", "location": "i", "form": "mature"}] -"TATABCE-CPLX_RXN" [{"molecule": "TATABCE-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "G7808-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "EG11479-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "EG11305-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "TATA", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"THIOESTERII-CPLX_RXN" [{"molecule": "THIOESTERII-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "THIOESTERII-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"THIOREDOXIN-REDUCT-NADPH-CPLX_RXN" [{"molecule": "THIOREDOXIN-REDUCT-NADPH-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "THIOREDOXIN-REDUCT-NADPH-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"THREDEHYDCAT-CPLX_RXN" [{"molecule": "THREDEHYDCAT-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "THREDEHYDCAT-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"THREDEHYDSYN-CPLX_RXN" [{"molecule": "THREDEHYDSYN-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "THREDEHYDSYN-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"THREODEHYD-CPLX_RXN" [{"molecule": "THREODEHYD-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "THREODEHYD-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"THRS-CPLX_RXN" [{"molecule": "THRS-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "THRS-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"THYMIDYLATESYN-CPLX_RXN" [{"molecule": "THYMIDYLATESYN-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "THYMIDYLATESYN-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"TMAOREDUCTI-CPLX_RXN" [{"molecule": "TMAOREDUCTI-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "EG11815-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "TORA-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "p", "form": "mature"}] -"TORR-CPLX_RXN" [{"molecule": "TORR-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "TORR-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"TORS-CPLX_RXN" [{"molecule": "TORS-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "TORS-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"TPI_RXN" [{"molecule": "TPI", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "TPI-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"TRANS-200-CPLX_RXN" [{"molecule": "TRANS-200-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "s", "form": "mature"}, {"molecule": "CPLX0-7964", "coeff": -1.0, "type": "proteincomplex", "location": "e", "form": "mature"}, {"molecule": "MACB", "coeff": -2.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "MACA", "coeff": -6.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"TRANS-CPLX-201_RXN" [{"molecule": "TRANS-CPLX-201", "coeff": 1.0, "type": "proteincomplex", "location": "s", "form": "mature"}, {"molecule": "EG11703-MONOMER", "coeff": -6.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "CPLX0-7964", "coeff": -1.0, "type": "proteincomplex", "location": "e", "form": "mature"}, {"molecule": "ACRB-MONOMER", "coeff": -3.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"TRANS-CPLX-202_RXN" [{"molecule": "TRANS-CPLX-202", "coeff": 1.0, "type": "proteincomplex", "location": "s", "form": "mature"}, {"molecule": "CPLX0-7964", "coeff": -1.0, "type": "proteincomplex", "location": "e", "form": "mature"}, {"molecule": "B2076-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "B2075-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "MDTA", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"TRANS-CPLX-203_RXN" [{"molecule": "TRANS-CPLX-203", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "EG12283-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "p", "form": "mature"}, {"molecule": "EG12282-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "MONOMER0-422", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"TRANS-CPLX-204_RXN" [{"molecule": "TRANS-CPLX-204", "coeff": 1.0, "type": "proteincomplex", "location": "s", "form": "mature"}, {"molecule": "CPLX0-7964", "coeff": -1.0, "type": "proteincomplex", "location": "e", "form": "mature"}, {"molecule": "EG12240-MONOMER", "coeff": -3.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "YHIV-MONOMER", "coeff": -3.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] -"TRANSALDOLB-CPLX_RXN" [{"molecule": "TRANSALDOLB-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "TRANSALDOLB-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"TRANSKETOI-CPLX_RXN" [{"molecule": "TRANSKETOI-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "TRANSKETOI-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"TRG-CPLX_RXN" [{"molecule": "TRG-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "CHEA-CPLX", "coeff": -1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "CHEW-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "CPLX0-8105", "coeff": -3.0, "type": "proteincomplex", "location": "i", "form": "mature"}] -"TRPS-CPLX_RXN" [{"molecule": "TRPS-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "TRPS-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"TRYPSYN_RXN" [{"molecule": "TRYPSYN", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "TRYPSYN-APROTEIN", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "CPLX0-2401", "coeff": -1.0, "type": "proteincomplex", "location": "c", "form": "mature"}] -"TRYPTOPHAN-CPLX_RXN" [{"molecule": "TRYPTOPHAN-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "TRYPTOPHAN-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"TSR-CPLX_RXN" [{"molecule": "TSR-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "CHEW-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "CHEA-CPLX", "coeff": -1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "CPLX0-8103", "coeff": -3.0, "type": "proteincomplex", "location": "i", "form": "mature"}] -"TTDA-CPLX_RXN" [{"molecule": "TTDA-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "TTDA-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"TTDB-CPLX_RXN" [{"molecule": "TTDB-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "TTDB-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"TYRB-DIMER_RXN" [{"molecule": "TYRB-DIMER", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "TYRB-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"TYRS-CPLX_RXN" [{"molecule": "TYRS-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "TYRS-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"UDHA-CPLX_RXN" [{"molecule": "UDHA-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "UDHA-MONOMER", "coeff": -8.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"UDPGLUCEPIM-CPLX_RXN" [{"molecule": "UDPGLUCEPIM-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "UDPGLUCEPIM-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"UDPNACETYLGLUCOSAMACYLTRANS-CPLX_RXN" [{"molecule": "UDPNACETYLGLUCOSAMACYLTRANS-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "UDPNACETYLGLUCOSAMACYLTRANS-MONOMER", "coeff": -3.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"UMPKI-CPLX_RXN" [{"molecule": "UMPKI-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "UMPKI-MONOMER", "coeff": -6.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"UPPSYN-CPLX_RXN" [{"molecule": "UPPSYN-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "UPPSYN-MONOMER", "coeff": -2.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"URACIL-PRIBOSYLTRANS-CPLX_RXN" [{"molecule": "URACIL-PRIBOSYLTRANS-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "URACIL-PRIBOSYLTRANS-MONOMER", "coeff": -3.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"URPHOS-CPLX_RXN" [{"molecule": "URPHOS-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "URPHOS-MONOMER", "coeff": -6.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"UVRABC-CPLX_RXN" [{"molecule": "UVRABC-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "EG11062-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG11063-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "EG11061-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"XANTHOSINEPHOSPHORY-CPLX_RXN" [{"molecule": "XANTHOSINEPHOSPHORY-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "XANTHOSINEPHOSPHORY-MONOMER", "coeff": -6.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"XYLISOM-CPLX_RXN" [{"molecule": "XYLISOM-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "XYLISOM-MONOMER", "coeff": -4.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] -"YDGEF-CPLX_RXN" [{"molecule": "YDGEF-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "B1600-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "B1599-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}] +"id" "stoichiometry" "common_name" +"1-PFK_RXN" {"1-PFK":1,"1-PFK-MONOMER":-2} null +"2OXOGLUTARATEDEH-CPLX_RXN" {"2OXOGLUTARATEDEH-CPLX":1,"E1O":-1,"E2O":-1,"E3-CPLX":-1} "2-oxoglutarate dehydrogenase complex" +"3-ISOPROPYLMALDEHYDROG-CPLX_RXN" {"3-ISOPROPYLMALDEHYDROG-CPLX":1,"3-ISOPROPYLMALDEHYDROG-MONOMER":-2} null +"3-ISOPROPYLMALISOM-CPLX_RXN" {"3-ISOPROPYLMALISOM-CPLX":1,"LEUC-MONOMER":-1,"LEUD-MONOMER":-1} "3-isopropylmalate dehydratase" +"3-METHYL-2-OXOBUT-OHCH3XFER-CPLX_RXN" {"3-METHYL-2-OXOBUT-OHCH3XFER-CPLX":1,"3-CH3-2-OXOBUTANOATE-OH-CH3-XFER-MONOMER":-10} null +"3-OXOACYL-ACP-SYNTHII-CPLX_RXN" {"3-OXOACYL-ACP-SYNTHII-CPLX":1,"3-OXOACYL-ACP-SYNTHII-MONOMER":-2} "3-oxoacyl-[acyl carrier protein] synthase 2" +"6PFK-1-CPX_RXN" {"6PFK-1-CPX":1,"6PFK-1-MONOMER":-4} "6-phosphofructokinase 1" +"6PFK-2-CPX_RXN" {"6PFK-2-CPX":1,"6PFK-2-MONOMER":-2} "6-phosphofructokinase 2" +"6PGLUCONDEHYDROG-CPLX_RXN" {"6PGLUCONDEHYDROG-CPLX":1,"6PGLUCONDEHYDROG-MONOMER":-2} null +"7-ALPHA-HYDROXYSTEROID-DEH-CPLX_RXN" {"7-ALPHA-HYDROXYSTEROID-DEH-CPLX":1,"7-ALPHA-HYDROXYSTEROID-DEH-MONOMER":-4} null +"7KAPSYN-CPLX_RXN" {"7KAPSYN-CPLX":1,"7KAPSYN-MONOMER":-2} null +"ABC-10-CPLX_RXN" {"ABC-10-CPLX":1,"FEPC-MONOMER":-2,"FEPD-MONOMER":-1,"FEPG-MONOMER":-1,"FEPB-MONOMER":-1} "ferric enterobactin ABC transporter" +"ABC-11-CPLX_RXN" {"ABC-11-CPLX":1,"FHUC-MONOMER":-2,"FHUB-MONOMER":-1,"FHUD-MONOMER":-1} "iron(III) hydroxamate ABC transporter" +"ABC-12-CPLX_RXN" {"ABC-12-CPLX":1,"GLNQ-MONOMER":-2,"GLNP-MONOMER":-2,"GLNH-MONOMER":-1} "L-glutamine ABC transporter" +"ABC-13-CPLX_RXN" {"ABC-13-CPLX":1,"G6359-MONOMER":-1,"GLTK-MONOMER":-1,"GLTJ-MONOMER":-1,"GLTL-MONOMER":-2} "glutamate / aspartate ABC transporter" +"ABC-14-CPLX_RXN" {"ABC-14-CPLX":1,"HISP-MONOMER":-2,"HISM-MONOMER":-1,"HISQ-MONOMER":-1,"HISJ-MONOMER":-1} "histidine ABC transporter" +"ABC-15-CPLX_RXN" {"ABC-15-CPLX":1,"LIVF-MONOMER":-1,"LIVG-MONOMER":-1,"LIVH-MONOMER":-1,"LIVM-MONOMER":-1,"LIVJ-MONOMER":-1} "branched chain amino acid / phenylalanine ABC transporter" +"ABC-16-CPLX_RXN" {"ABC-16-CPLX":1,"MALK-MONOMER":-2,"MALF-MONOMER":-1,"MALG-MONOMER":-1,"MALE-MONOMER":-1} "maltose ABC transporter" +"ABC-18-CPLX_RXN" {"ABC-18-CPLX":1,"MGLA-MONOMER":-1,"MGLC-MONOMER":-2,"MGLB-MONOMER":-1} "D-galactose / methyl-β-D-galactoside ABC transporter" +"ABC-19-CPLX_RXN" {"ABC-19-CPLX":1,"MODC-MONOMER":-1,"MODB-MONOMER":-2,"MODA-MONOMER":-1} "molybdate ABC transporter" +"ABC-2-CPLX_RXN" {"ABC-2-CPLX":1,"ARAG-MONOMER":-2,"ARAH-MONOMER":-2,"ARAF-MONOMER":-1} "arabinose ABC transporter" +"ABC-20-CPLX_RXN" {"ABC-20-CPLX":1,"NIKD-MONOMER":-1,"NIKE-MONOMER":-1,"NIKB-MONOMER":-1,"NIKC-MONOMER":-1,"NIKA-MONOMER":-1} "Ni(2+) ABC transporter" +"ABC-21-CPLX_RXN" {"ABC-21-CPLX":1,"YADG-MONOMER":-1,"YADH-MONOMER":-1} "putative transport complex, ABC superfamily" +"ABC-22-CPLX_RXN" {"ABC-22-CPLX":1,"OPPC-MONOMER":-1,"OPPD-MONOMER":-1,"OPPF-MONOMER":-1,"OPPB-MONOMER":-1,"OPPA-MONOMER":-1} "oligopeptide ABC transporter" +"ABC-23-CPLX_RXN" {"ABC-23-CPLX":1,"PHNC-MONOMER":-2,"PHNE-MONOMER":-2,"PHND-MONOMER":-1} "cryptic phosphonate/phosphate ABC transporter" +"ABC-24-CPLX_RXN" {"ABC-24-CPLX":1,"POTA-MONOMER":-2,"POTB-MONOMER":-1,"POTC-MONOMER":-1,"POTD-MONOMER":-1} "spermidine preferential ABC transporter" +"ABC-25-CPLX_RXN" {"ABC-25-CPLX":1,"POTG-MONOMER":-2,"POTH-MONOMER":-1,"POTI-MONOMER":-1,"POTF-MONOMER":-1} "putrescine ABC transporter" +"ABC-26-CPLX_RXN" {"ABC-26-CPLX":1,"PROV-MONOMER":-2,"PROW-MONOMER":-2,"PROX-MONOMER":-1} "glycine betaine ABC transporter" +"ABC-27-CPLX_RXN" {"ABC-27-CPLX":1,"PSTB-MONOMER":-2,"PSTA-MONOMER":-1,"PSTC-MONOMER":-1,"PSTS-MONOMER":-1} "phosphate ABC transporter" +"ABC-28-CPLX_RXN" {"ABC-28-CPLX":1,"RBSA-MONOMER":-1,"RBSC-MONOMER":-2,"RBSB-MONOMER":-1} "ribose ABC transporter" +"ABC-29-CPLX_RXN" {"ABC-29-CPLX":1,"SAPF-MONOMER":-1,"SAPC-MONOMER":-1,"SAPB-MONOMER":-1,"SAPD-MONOMER":-1} "putrescine ABC exporter" +"ABC-3-CPLX_RXN" {"ABC-3-CPLX":1,"HISQ-MONOMER":-1,"HISP-MONOMER":-2,"HISM-MONOMER":-1,"ARGT-MONOMER":-1} "lysine / arginine / ornithine ABC transporter" +"ABC-304-CPLX_RXN" {"ABC-304-CPLX":1,"LIVK-MONOMER":-1,"LIVM-MONOMER":-1,"LIVH-MONOMER":-1,"LIVG-MONOMER":-1,"LIVF-MONOMER":-1} "leucine / L-phenylalanine ABC transporter" +"ABC-32-CPLX_RXN" {"ABC-32-CPLX":1,"SFUC-MONOMER":-2,"SFUB-MONOMER":-2,"SFUA-MONOMER":-1} "thiamine ABC transporter" +"ABC-33-CPLX_RXN" {"ABC-33-CPLX":1,"XYLG-MONOMER":-1,"XYLH-MONOMER":-2,"XYLF-MONOMER":-1} "xylose ABC transporter" +"ABC-34-CPLX_RXN" {"ABC-34-CPLX":1,"UGPC-MONOMER":-2,"UGPA-MONOMER":-1,"UGPE-MONOMER":-1,"UGPB-MONOMER":-1} "sn-glycerol 3-phosphate / glycerophosphodiester ABC transporter" +"ABC-35-CPLX_RXN" {"ABC-35-CPLX":1,"CCMC-MONOMER":-1,"EG12169-MONOMER":-1,"CCME-MONOMER":-1} "CcmCDE complex" +"ABC-4-CPLX_RXN" {"ABC-4-CPLX":1,"ARTJ-MONOMER":-1,"ARTQ-MONOMER":-1,"ARTM-MONOMER":-1,"ARTP-MONOMER":-2} "L-arginine ABC transporter" +"ABC-40-CPLX_RXN" {"ABC-40-CPLX":1,"YEHZ-MONOMER":null,"YEHY-MONOMER":null,"YEHX-MONOMER":null,"YEHW-MONOMER":null} "glycine betaine ABC transporter, non-osmoregulatory" +"ABC-41-CPLX_RXN" {"ABC-41-CPLX":1,"YEJF-MONOMER":-1,"YEJB-MONOMER":-1,"YEJE-MONOMER":-1,"YEJA-MONOMER":-1} null +"ABC-42-CPLX_RXN" {"ABC-42-CPLX":1,"YJCW-MONOMER":-1,"YJCV-MONOMER":-2,"YJCX-MONOMER":-1} null +"ABC-45-CPLX_RXN" {"ABC-45-CPLX":1,"G7658-MONOMER":-2,"EG12799-MONOMER":-6,"YRBE-MONOMER":-2,"YRBF-MONOMER":-2} "intermembrane phospholipid transport system" +"ABC-46-CPLX_RXN" {"ABC-46-CPLX":1,"YJFF-MONOMER":-1,"YTFR-MONOMER":-1,"YTFT-MONOMER":-1,"YTFQ-MONOMER":-1} "galactofuranose ABC transporter" +"ABC-48-CPLX_RXN" {"ABC-48-CPLX":1,"YNJC-MONOMER":null,"YNJD-MONOMER":null,"G6949-MONOMER":null} "putative transport complex, ABC superfamily" +"ABC-49-CPLX_RXN" {"ABC-49-CPLX":1,"YLIA-MONOMER":-1,"YLIB-MONOMER":-1,"YLID-MONOMER":-1,"YLIC-MONOMER":-1} "glutathione ABC transporter" +"ABC-5-CPLX_RXN" {"ABC-5-CPLX":1,"BTUD-MONOMER":-2,"BTUC-MONOMER":-2,"EG12334-MONOMER":-1} "vitamin B12 ABC transporter" +"ABC-51-CPLX_RXN" {"ABC-51-CPLX":1,"YDCS-MONOMER":-1,"YDCT-MONOMER":-1,"YDCV-MONOMER":-1,"YDCU-MONOMER":-1} "putative transport complex, ABC superfamily" +"ABC-52-CPLX_RXN" {"ABC-52-CPLX":1,"YHDZ-MONOMER":-1,"YHDY-MONOMER":-1,"YHDX-MONOMER":-1,"YHDW-MONOMER":-1} "putative transport complex, ABC superfamily" +"ABC-54-CPLX_RXN" {"ABC-54-CPLX":1,"FTSE-MONOMER":-2,"FTSX-MONOMER":-1} "divisome protein complex FtsEX" +"ABC-55-CPLX_RXN" {"ABC-55-CPLX":1,"YCJP-MONOMER":-1,"YCJO-MONOMER":-1,"YCJN-MONOMER":-1,"YCJV-MONOMER":-1} "putative transport complex, ABC superfamily" +"ABC-56-CPLX_RXN" {"ABC-56-CPLX":1,"G6478-MONOMER":-1,"YCBM-MONOMER":-2,"YCBE-MONOMER":-2} "aliphatic sulfonate ABC transporter" +"ABC-57-CPLX_RXN" {"ABC-57-CPLX":1,"YBHS-MONOMER":-1,"YBHR-MONOMER":-1,"YBHF-MONOMER":-1} "ABC exporter YbhFSR" +"ABC-58-CPLX_RXN" {"ABC-58-CPLX":1,"YNEA-MONOMER":-1,"YDEZ-MONOMER":-1,"YDEY-MONOMER":-1,"YDEX-MONOMER":-2} null +"ABC-59-CPLX_RXN" {"ABC-59-CPLX":1,"YDDR-MONOMER":-1,"YDDQ-MONOMER":-1,"YDDS-MONOMER":-1,"YDDP-MONOMER":-1,"YDDO-MONOMER":-1} "putative D,D-dipeptide ABC transporter" +"ABC-6-CPLX_RXN" {"ABC-6-CPLX":1,"CYDD-MONOMER":-1,"CYDC-MONOMER":-1} "glutathione / L-cysteine ABC exporter CydDC" +"ABC-60-CPLX_RXN" {"ABC-60-CPLX":1,"YPHD-MONOMER":null,"G7342-MONOMER":null,"YPHE-MONOMER":null} "putative transport complex, ABC superfamily" +"ABC-61-CPLX_RXN" {"ABC-61-CPLX":1,"YBBP-MONOMER":-1,"YBBA-MONOMER":-1} "putative transport complex, ABC superfamily" +"ABC-62-CPLX_RXN" {"ABC-62-CPLX":1,"YCFW-MONOMER":-1,"YCFV-MONOMER":-2,"YCFU-MONOMER":-1} "lipoprotein release complex" +"ABC-63-CPLX_RXN" {"ABC-63-CPLX":1,"ZNUC-MONOMER":-2,"ZNUB-MONOMER":-2,"ZNUA-MONOMER":-1} null +"ABC-64-CPLX_RXN" {"ABC-64-CPLX":1,"TAUA-MONOMER":-1,"TAUC-MONOMER":-2,"TAUB-MONOMER":-2} null +"ABC-7-CPLX_RXN" {"ABC-7-CPLX":1,"CYSA-MONOMER":-2,"CYSW-MONOMER":-1,"CYST-MONOMER":-1,"CYSP-MONOMER":-1} "thiosulfate/sulfate ABC transporter" +"ABC-70-CPLX_RXN" {"ABC-70-CPLX":1,"SBP-MONOMER":-1,"CYSW-MONOMER":-1,"CYST-MONOMER":-1,"CYSA-MONOMER":-2} "sulfate/thiosulfate ABC transporter" +"ABC-8-CPLX_RXN" {"ABC-8-CPLX":1,"DPPD-MONOMER":-1,"DPPF-MONOMER":-1,"DPPB-MONOMER":-1,"DPPC-MONOMER":-1,"DPPA-MONOMER":-1} "dipeptide ABC transporter" +"ABC-9-CPLX_RXN" {"ABC-9-CPLX":1,"FECE-MONOMER":-2,"FECC-MONOMER":-1,"FECD-MONOMER":-1,"FECB-MONOMER":-1} "ferric citrate ABC transporter" +"ACETOACETYL-COA-TRANSFER-CPLX_RXN" {"ACETOACETYL-COA-TRANSFER-CPLX":1,"ATOA-CPLX":-1,"ATOD-CPLX":-1} null +"ACETOLACTSYNI-CPLX_RXN" {"ACETOLACTSYNI-CPLX":1,"LARGEILVB-MONOMER":-2,"SMALLILVN-MONOMER":-2} null +"ACETOLACTSYNII-CPLX_RXN" {"ACETOLACTSYNII-CPLX":1,"G8221-MONOMER":null,"SMALLILVM-MONOMER":null} null +"ACETOLACTSYNIII-CPLX_RXN" {"ACETOLACTSYNIII-CPLX":1,"ACETOLACTSYNIII-ICHAIN-MONOMER":-2,"ACETOLACTSYNIII-HCHAIN-MONOMER":-2} null +"ACETYL-COA-ACETYLTRANSFER-CPLX_RXN" {"ACETYL-COA-ACETYLTRANSFER-CPLX":1,"ACETYL-COA-ACETYLTRANSFER-MONOMER":-4} null +"ACETYL-COA-CARBOXYLMULTI-CPLX_RXN" {"ACETYL-COA-CARBOXYLMULTI-CPLX":1,"ACETYL-COA-CARBOXYLTRANSFER-CPLX":-1,"BIOTIN-CARBOXYL-CPLX":-1,"BCCP-CPLX":-1} "acetyl-CoA carboxylase complex" +"ACETYL-COA-CARBOXYLTRANSFER-CPLX_RXN" {"ACETYL-COA-CARBOXYLTRANSFER-CPLX":1,"CARBOXYL-TRANSFERASE-ALPHA-MONOMER":-2,"CARBOXYL-TRANSFERASE-BETA-MONOMER":-2} null +"ACETYLGLUTKIN-CPLX_RXN" {"ACETYLGLUTKIN-CPLX":1,"ACETYLGLUTKIN-MONOMER":-2} "acetylglutamate kinase" +"ACETYLORNDEACET-CPLX_RXN" {"ACETYLORNDEACET-CPLX":1,"ACETYLORNDEACET-MONOMER":-2} null +"ACETYLORNTRANSAM-CPLX_RXN" {"ACETYLORNTRANSAM-CPLX":1,"ACETYLORNTRANSAM-MONOMER":-2} "N-acetylornithine aminotransferase / N-succinyldiaminopimelate aminotransferase" +"ACNEULY-CPLX_RXN" {"ACNEULY-CPLX":1,"ACNEULY-MONOMER":-4} null +"ACSERLYA-CPLX_RXN" {"ACSERLYA-CPLX":1,"ACSERLYA-MONOMER":-2} "cysteine synthase A" +"ACSERLYB-CPLX_RXN" {"ACSERLYB-CPLX":1,"ACSERLYB-MONOMER":-2} "cysteine synthase B" +"ACYLCOASYN-CPLX_RXN" {"ACYLCOASYN-CPLX":1,"ACYLCOASYN-MONOMER":-2} "long-chain-fatty-acid—CoA ligase" +"ADCLY-CPLX_RXN" {"ADCLY-CPLX":1,"ADCLY-MONOMER":-2} null +"ADENPRIBOSYLTRAN-CPLX_RXN" {"ADENPRIBOSYLTRAN-CPLX":1,"ADENPRIBOSYLTRAN-MONOMER":-2} null +"ADENYLOSUCCINATE-SYN-DIMER_RXN" {"ADENYLOSUCCINATE-SYN-DIMER":1,"ADENYLOSUCCINATE-SYN-MONOMER":-2} "adenylosuccinate synthetase" +"ADENYLYLSULFKIN-CPLX_RXN" {"ADENYLYLSULFKIN-CPLX":1,"ADENYLYLSULFKIN-MONOMER":-2} null +"ADHC-CPLX_RXN" {"ADHC-CPLX":1,"ADHC-MONOMER":-2} null +"ADHE-CPLX_RXN" {"ADHE-CPLX":1,"ADHE-MONOMER":-40} "fused acetaldehyde-CoA dehydrogenase and iron-dependent alcohol dehydrogenase" +"AERGLYC3PDEHYDROG-CPLX_RXN" {"AERGLYC3PDEHYDROG-CPLX":1,"AERGLYC3PDEHYDROG-MONOMER":-2} null +"AGMATIN-CPLX_RXN" {"AGMATIN-CPLX":1,"AGMATIN-MONOMER":-2} null +"AIRS-CPLX_RXN" {"AIRS-CPLX":1,"AIRS-MONOMER":-2} null +"AKBLIG-CPLX_RXN" {"AKBLIG-CPLX":1,"AKBLIG-MONOMER":-2} null +"ALAS-CPLX_RXN" {"ALAS-CPLX":1,"ALAS-MONOMER":-2} "alanine—tRNA ligase/DNA-binding transcriptional repressor" +"ALD-CPLX_RXN" {"ALD-CPLX":1,"LACTALDDEHYDROG-MONOMER":-4} "aldehyde dehydrogenase A, NAD-linked" +"ALKAPHOSPHA-CPLX_RXN" {"ALKAPHOSPHA-CPLX":1,"ALKAPHOSPHA-MONOMER":-2} "alkaline phosphatase" +"ALPHA-SUBUNIT-CPLX_RXN" {"ALPHA-SUBUNIT-CPLX":1,"FDNI-MONOMER":-1,"FDNH-MONOMER":-1,"FDNG-MONOMER":-1} "formate dehydrogenase N, subcomplex" +"ALPHAGALACTOSID-CPLX_RXN" {"ALPHAGALACTOSID-CPLX":1,"ALPHAGALACTOSID-MONOMER":-2} null +"AMINEOXID-CPLX_RXN" {"AMINEOXID-CPLX":1,"AMINEOXID-MONOMER":-2} "copper-containing amine oxidase" +"AMP-NUCLEOSID-CPLX_RXN" {"AMP-NUCLEOSID-CPLX":1,"AMP-NUCLEOSID-MONOMER":-6} null +"ANGLYC3PDEHYDROG-CPLX_RXN" {"ANGLYC3PDEHYDROG-CPLX":1,"ANGLYC3PDEHYDROGSUBUNITA-MONOMER":-1,"ANGLYC3PDEHYDROGSUBUNITB-MONOMER":-1,"ANGLYC3PDEHYDROGSUBUNITC-MONOMER":-1} "anaerobic glycerol-3-phosphate dehydrogenase" +"ANSA-CPLX_RXN" {"ANSA-CPLX":1,"ANSA-MONOMER":-4} "L-asparaginase 1" +"ANSB-CPLX_RXN" {"ANSB-CPLX":1,"ANSB-MONOMER":-4} "L-asparaginase 2" +"ANTHRANSYN-CPLX_RXN" {"ANTHRANSYN-CPLX":1,"ANTHRANSYNCOMPI-MONOMER":-2,"ANTHRANSYNCOMPII-MONOMER":-2} null +"APHA-CPLX_RXN" {"APHA-CPLX":1,"APHA-MONOMER":-4} "acid phosphatase / phosphotransferase" +"APORNAP-CPLX_RXN" {"APORNAP-CPLX":1,"EG10893-MONOMER":-2,"RPOC-MONOMER":-1,"RPOB-MONOMER":-1} "RNA polymerase, core enzyme" +"APP-UBIOX-CPLX_RXN" {"APP-UBIOX-CPLX":1,"APPC-MONOMER":-1,"APPB-MONOMER":-1} "cytochrome bd-II ubiquinol oxidase" +"ARABISOM-CPLX_RXN" {"ARABISOM-CPLX":1,"ARABISOM-MONOMER":-6} "L-arabinose isomerase" +"ARGDECARBOXBIO-CPLX_RXN" {"ARGDECARBOXBIO-CPLX":1,"ARGDECARBOXBIO-MONOMER":-4} null +"ARGDECARBOXDEG-CPLX_RXN" {"ARGDECARBOXDEG-CPLX":1,"ARGDECARBOXDEG-MONOMER":-10} null +"AROC-CPLX_RXN" {"AROC-CPLX":1,"AROC-MONOMER":-4} null +"AROD-CPLX_RXN" {"AROD-CPLX":1,"AROD-MONOMER":-2} null +"AROF-CPLX_RXN" {"AROF-CPLX":1,"AROF-MONOMER":-2} null +"AROG-CPLX_RXN" {"AROG-CPLX":1,"AROG-MONOMER":-4} null +"AROH-CPLX_RXN" {"AROH-CPLX":1,"AROH-MONOMER":-2} null +"ASNS-CPLX_RXN" {"ASNS-CPLX":1,"ASNS-MONOMER":-2} null +"ASNSYNA-CPLX_RXN" {"ASNSYNA-CPLX":1,"ASNSYNA-MONOMER":-2} "asparagine synthetase A" +"ASNSYNB-CPLX_RXN" {"ASNSYNB-CPLX":1,"ASNSYNB-MONOMER":-2} "asparagine synthetase B" +"ASP-SEMIALDEHYDE-DEHYDROGENASE-CPLX_RXN" {"ASP-SEMIALDEHYDE-DEHYDROGENASE-CPLX":1,"ASP-SEMIALDEHYDE-DEHYDROGENASE-MONOMER":-2} null +"ASPAMINOTRANS-DIMER_RXN" {"ASPAMINOTRANS-DIMER":1,"ASPAMINOTRANS-MONOMER":-2} "aspartate aminotransferase" +"ASPARTASE-CPLX_RXN" {"ASPARTASE-CPLX":1,"ASPARTASE-MONOMER":-4} null +"ASPCARBCAT-TRIMER_RXN" {"ASPCARBCAT-TRIMER":1,"ASPCARBCAT-MONOMER":-3} "aspartate carbamoyltransferase catalytic subunit" +"ASPCARBREG-DIMER_RXN" {"ASPCARBREG-DIMER":1,"ASPCARBREG-MONOMER":-2} "aspartate carbamoyltransferase, regulatory subunit" +"ASPCARBTRANS-CPLX_RXN" {"ASPCARBTRANS-CPLX":1,"ASPCARBCAT-TRIMER":-2,"ASPCARBREG-DIMER":-3} null +"ASPKINIHOMOSERDEHYDROGI-CPLX_RXN" {"ASPKINIHOMOSERDEHYDROGI-CPLX":1,"ASPKINIHOMOSERDEHYDROGI-MONOMER":-4} "fused aspartate kinase/homoserine dehydrogenase 1" +"ASPKINIIHOMOSERDEHYDROGII-CPLX_RXN" {"ASPKINIIHOMOSERDEHYDROGII-CPLX":1,"ASPKINIIHOMOSERDEHYDROGII-MONOMER":-2} "fused aspartate kinase/homoserine dehydrogenase 2" +"ASPKINIII-CPLX_RXN" {"ASPKINIII-CPLX":1,"ASPKINIII-MONOMER":-2} "aspartate kinase III" +"ASPS-CPLX_RXN" {"ASPS-CPLX":1,"ASPS-MONOMER":-2} null +"ATOA-CPLX_RXN" {"ATOA-CPLX":1,"ATOA-MONOMER":-2} "β complex" +"ATOD-CPLX_RXN" {"ATOD-CPLX":1,"ATOD-MONOMER":-2} "α complex" +"ATPA-CPLX_RXN" {"ATPA-CPLX":1,"ATPA-MONOMER":-3} "ATP synthase F1 complex subunit α" +"ATPASE-1-CPLX_RXN" {"ATPASE-1-CPLX":1,"MONOMER0-12":-1,"EG10513-MONOMER":-1,"KDPB-MONOMER":-1,"EG10515-MONOMER":-1} "K+ transporting P-type ATPase" +"ATPD-CPLX_RXN" {"ATPD-CPLX":1,"ATPD-MONOMER":-3} "ATP synthase F1 complex subunit β" +"ATPE-CPLX_RXN" {"ATPE-CPLX":1,"ATPE-MONOMER":-10} "ATP synthase Fo complex - subunit c" +"ATPF-CPLX_RXN" {"ATPF-CPLX":1,"ATPF-MONOMER":-2} "ATP synthase Fo complex - subunit b" +"ATPSYN-CPLX_RXN" {"ATPSYN-CPLX":1,"F-O-CPLX":-1,"F-1-CPLX":-1} null +"B1-CPLX_RXN" {"B1-CPLX":1,"NRDA-MONOMER":-2} "ribonucleoside-diphosphate reductase 1, α subunit dimer" +"B2-CPLX_RXN" {"B2-CPLX":1,"NRDB-MONOMER":-2} "ribonucleoside-diphosphate reductase 1, β subunit dimer" +"BADH-CPLX_RXN" {"BADH-CPLX":1,"BADH-MONOMER":-4} null +"BCCP-CPLX_RXN" {"BCCP-CPLX":1,"BCCP-BIOTIN":-2} "biotin carboxyl carrier protein (dimer)" +"BETAGALACTOSID-CPLX_RXN" {"BETAGALACTOSID-CPLX":1,"BETAGALACTOSID-MONOMER":-4} "β-galactosidase" +"BIOTIN-CARBOXYL-CPLX_RXN" {"BIOTIN-CARBOXYL-CPLX":1,"BIOTIN-CARBOXYL-MONOMER":-2} null +"BIOTIN-SYN-CPLX_RXN" {"BIOTIN-SYN-CPLX":1,"BIOTIN-SYN-MONOMER":-2} "biotin synthase" +"BRANCHED-CHAINAMINOTRANSFER-CPLX_RXN" {"BRANCHED-CHAINAMINOTRANSFER-CPLX":1,"BRANCHED-CHAINAMINOTRANSFER-MONOMER":-6} "branched-chain-amino-acid aminotransferase" +"CARBODEHYDRAT-CPLX_RXN" {"CARBODEHYDRAT-CPLX":1,"CARBODEHYDRAT-MONOMER":-2} "carbonic anhydrase 1" +"CARBPSYN-CPLX_RXN" {"CARBPSYN-CPLX":1,"CARBPSYN-LARGE":-2,"CARBPSYN-SMALL":-2} null +"CARNDEHYDRA-CPLX_RXN" {"CARNDEHYDRA-CPLX":1,"CARNDEHYDRA-MONOMER":-2} null +"CFA-CPLX_RXN" {"CFA-CPLX":1,"CFA-MONOMER":-2} null +"CHEZ-CPLX_RXN" {"CHEZ-CPLX":1,"CHEZ-MONOMER":-2} "chemotaxis protein CheZ" +"CHORISMUTPREPHENDEHYDRAT-CPLX_RXN" {"CHORISMUTPREPHENDEHYDRAT-CPLX":1,"CHORISMUTPREPHENDEHYDRAT-MONOMER":-2} "fused chorismate mutase/prephenate dehydratase" +"CHORISMUTPREPHENDEHYDROG-CPLX_RXN" {"CHORISMUTPREPHENDEHYDROG-CPLX":1,"CHORISMUTPREPHENDEHYDROG-MONOMER":-2} "fused chorismate mutase/prephenate dehydrogenase" +"CITLY-CPLX_RXN" {"CITLY-CPLX":1,"ACPSUB-CPLX":-1,"CITTRANS-CPLX":-1,"CITRYLY-CPLX":-1} "citrate lyase, inactive" +"CITRATE-SI-SYNTHASE_RXN" {"CITRATE-SI-SYNTHASE":1,"CITSYN-MONOMER":-6} null +"CITRYLY-CPLX_RXN" {"CITRYLY-CPLX":1,"CITRYLY-MONOMER":-6} "citrate lyase, citryl-acyl carrrier protein lyase component" +"CITTRANS-CPLX_RXN" {"CITTRANS-CPLX":1,"CITTRANS-MONOMER":-6} "citrate lyase, citrate-acyl carrier protein transferase component" +"COADTRI-CPLX_RXN" {"COADTRI-CPLX":1,"PANTEPADENYLYLTRAN-MONOMER":-6} null +"COBU-CPLX_RXN" {"COBU-CPLX":1,"COBU-MONOMER":-2} null +"CPLX-153_RXN" {"CPLX-153":1,"ASCF-MONOMER":-2} "β-glucoside specific PTS enzyme II" +"CPLX-154_RXN" {"CPLX-154":1,"BGLF-MONOMER":-2} "β-glucoside specific PTS enzyme II / BglG kinase / BglG phosphatase" +"CPLX-155_RXN" {"CPLX-155":1,"CELC-MONOMER":-1,"CELB-MONOMER":-1,"CELA-MONOMER":-1} "N,N'-diacetylchitobiose-specific PTS enzyme II" +"CPLX-156_RXN" {"CPLX-156":1,"CMTB-MONOMER":-1,"CMTA-MONOMER":-1} "mannitol-specific PTS enzyme II CmtBA" +"CPLX-157_RXN" {"CPLX-157":1,"PTSG-MONOMER":-2,"CRR-MONOMER":-1} "glucose-specific PTS enzyme II" +"CPLX-158_RXN" {"CPLX-158":1,"FRUB-MONOMER":-1,"FRUA-MONOMER":-2} "fructose-specific PTS enzyme II" +"CPLX-159_RXN" {"CPLX-159":1,"FRVB-MONOMER":-1,"FRVA-MONOMER":-1} "putative PTS enzyme II FrvAB" +"CPLX-160_RXN" {"CPLX-160":1,"FRWC-MONOMER":-1,"FRWB-MONOMER":-1,"EG11912-MONOMER":-1,"EG11906-MONOMER":-1} "putative PTS enzyme II FrwCBDPtsA" +"CPLX-165_RXN" {"CPLX-165":1,"MANZ-MONOMER":-3,"MANY-MONOMER":-3,"MANX-MONOMER":-1} "mannose-specific PTS enzyme II" +"CPLX-166_RXN" {"CPLX-166":1,"MTLA-MONOMER":-2} "mannitol-specific PTS enzyme II" +"CPLX-167_RXN" {"CPLX-167":1,"NAGE-MONOMER":-2} "N-acetylglucosamine-specific PTS enzyme II" +"CPLX-168_RXN" {"CPLX-168":1,"TREB-MONOMER":-2,"CRR-MONOMER":-1} "trehalose-specific PTS enzyme II" +"CPLX-169_RXN" {"CPLX-169":1,"G8210-MONOMER":-1,"GUTB-MONOMER":-1,"GUTA-MONOMER":-1} "sorbitol-specific PTS enzyme II" +"CPLX-170_RXN" {"CPLX-170":1,"AGAB-MONOMER":-1,"AGAC-MONOMER":-1,"AGAD-MONOMER":-1} "galactosamine-specific PTS enzyme II (cryptic)" +"CPLX-171_RXN" {"CPLX-171":1,"G6277-MONOMER":-2} null +"CPLX-3942_RXN" {"CPLX-3942":1,"G7712-MONOMER":-2,"G7713-MONOMER":-2,"G7714-MONOMER":-2} "sulfurtransferase complex TusBCD" +"CPLX-3945_RXN" {"CPLX-3945":1,"G6544-MONOMER":-9,"G6543-MONOMER":-9} null +"CPLX-3946_RXN" {"CPLX-3946":1,"EG11072-MONOMER":-1,"EG11098-MONOMER":-4} "exodeoxyribonuclease VII" +"CPLX-64_RXN" {"CPLX-64":1,"G6281-MONOMER":-4} null +"CPLX-722_RXN" {"CPLX-722":1,"APPA-MONOMER":-2} "periplasmic phosphoanhydride phosphatase/multiple inositol-polyphosphate phosphatase" +"CPLX-7524_RXN" {"CPLX-7524":1,"G6285-MONOMER":-2} "allantoate amidohydrolase" +"CPLX-7_RXN" {"CPLX-7":1,"ARSF-MONOMER":-2} "arsenite/antimonite:H+ antiporter" +"CPLX-8331_RXN" {"CPLX-8331":1,"EG11666-MONOMER":-6} "cyclic pyranopterin monophosphate synthase" +"CPLX-8401_RXN" {"CPLX-8401":1,"G7463-MONOMER":-6} "5-dehydro-4-deoxy-D-glucuronate isomerase" +"CPLX-9493_RXN" {"CPLX-9493":1,"CCMB-MONOMER":-1,"CCMA-MONOMER":-2} "CcmAB" +"CPLX-9494_RXN" {"CPLX-9494":1,"EG12052-MONOMER":-1,"EG12054-MONOMER":-1} "holocytochrome c synthase complex" +"CPLX-9495_RXN" {"CPLX-9495":1,"EG12169-MONOMER":-1,"CCMC-MONOMER":-1,"CCMB-MONOMER":-1,"CCMA-MONOMER":-2} "CcmABCD release complex" +"CPLX0-0_RXN" {"CPLX0-0":1,"EG10244-MONOMER":-3} "primosomal protein DnaT" +"CPLX0-1021_RXN" {"CPLX0-1021":1,"G6196-MONOMER":-4} "2-methylisocitrate lyase" +"CPLX0-1101_RXN" {"CPLX0-1101":1,"EG10996-MONOMER":-3} "tRNA-guanine transglycosylase" +"CPLX0-1121_RXN" {"CPLX0-1121":1,"G7845-MONOMER":-2} "23S rRNA 2'-O-ribose G2251 methyltransferase" +"CPLX0-1141_RXN" {"CPLX0-1141":1,"EG10941-MONOMER":-10} "selenocysteine synthase" +"CPLX0-1142_RXN" {"CPLX0-1142":1,"G7237-MONOMER":-2} "formyl-CoA transferase" +"CPLX0-1161_RXN" {"CPLX0-1161":1,"EG11881-MONOMER":-6} "HslU hexamer" +"CPLX0-1162_RXN" {"CPLX0-1162":1,"EG11676-MONOMER":-6} "HslV hexamer" +"CPLX0-1163_RXN" {"CPLX0-1163":1,"CPLX0-1161":-2,"CPLX0-1162":-2} "HslVU protease" +"CPLX0-1221_RXN" {"CPLX0-1221":1,"G7740-MONOMER":-2} "ADP-sugar diphosphatase NudE" +"CPLX0-1241_RXN" {"CPLX0-1241":1,"EG11249-MONOMER":-2} "MazF toxin of the MazF-MazE toxin-antitoxin system that exhibits ribonuclease activity" +"CPLX0-1242_RXN" {"CPLX0-1242":1,"CPLX0-1241":-2,"CPLX0-841":-1} "MazE-MazF antitoxin/toxin complex / DNA-binding transcriptional repressor" +"CPLX0-1261_RXN" {"CPLX0-1261":1,"TRANSKETOII-MONOMER":null} "transketolase 2" +"CPLX0-1262_RXN" {"CPLX0-1262":1,"G7662-MONOMER":-4} "D-arabinose 5-phosphate isomerase KdsD" +"CPLX0-1321_RXN" {"CPLX0-1321":1,"EG10436-MONOMER":-1,"EG10435-MONOMER":-1} "HflK-HflC complex; regulator of FtsH protease" +"CPLX0-1341_RXN" {"CPLX0-1341":1,"G6909-MONOMER":-1,"G6908-MONOMER":-2,"G6907-MONOMER":-1} "SufBC2D Fe-S cluster scaffold complex" +"CPLX0-1401_RXN" {"CPLX0-1401":1,"G7490-MONOMER":-2} null +"CPLX0-1421_RXN" {"CPLX0-1421":1,"EG10113-MONOMER":-24} "bacterioferritin" +"CPLX0-1441_RXN" {"CPLX0-1441":1,"EG10255-MONOMER":-2} "serine protease inhibitor ecotin" +"CPLX0-1461_RXN" {"CPLX0-1461":1,"EG10438-MONOMER":-6} "RNA-binding protein Hfq" +"CPLX0-1521_RXN" {"CPLX0-1521":1,"EG11415-MONOMER":-12} "stationary phase nucleoid component that sequesters iron and protects DNA from damage" +"CPLX0-1541_RXN" {"CPLX0-1541":1,"EG11090-MONOMER":-2} "5'-methylthioadenosine/S-adenosylhomocysteine nucleosidase" +"CPLX0-1601_RXN" {"CPLX0-1601":1,"G6845-MONOMER":-1,"G6846-MONOMER":-1,"G6847-MONOMER":-1,"G6848-MONOMER":-1} "selenate reductase" +"CPLX0-1621_RXN" {"CPLX0-1621":1,"EG11299-MONOMER":-2} "RNase G" +"CPLX0-1642_RXN" {"CPLX0-1642":1,"EG11879-MONOMER":-3} "ribonuclease E inhibitor protein A" +"CPLX0-1668_RXN" {"CPLX0-1668":1,"G7213-MONOMER":null,"G7212-MONOMER":null} "anaerobic fatty acid β-oxidation complex" +"CPLX0-1683_RXN" {"CPLX0-1683":1,"EG11692-MONOMER":-2} "adenine deaminase" +"CPLX0-1721_RXN" {"CPLX0-1721":1,"G6320-MONOMER":-3,"G6322-MONOMER":-6,"G6321-MONOMER":-1,"YBDE-MONOMER":-3} "copper/silver export system" +"CPLX0-1762_RXN" {"CPLX0-1762":1,"G6713-MONOMER":null,"G6709-MONOMER":null,"G6711-MONOMER":null,"G6710-MONOMER":null} "phenylacetyl-CoA 1,2-epoxidase" +"CPLX0-1821_RXN" {"CPLX0-1821":1,"G7842-MONOMER":-2} "oligoribonuclease" +"CPLX0-1841_RXN" {"CPLX0-1841":1,"G7500-MONOMER":null,"G7499-MONOMER":null} "predicted xanthine dehydrogenase" +"CPLX0-1863_RXN" {"CPLX0-1863":1,"G6379-MONOMER":-6} "radiation resistance protein YbgI" +"CPLX0-1881_RXN" {"CPLX0-1881":1,"G7877-MONOMER":-3} "enamine/imine deaminase, redox-regulated chaperone" +"CPLX0-1923_RXN" {"CPLX0-1923":1,"EG11012-MONOMER":null,"EG10271-MONOMER":null,"EG10272-MONOMER":null} "energy transducing Ton complex" +"CPLX0-1924_RXN" {"CPLX0-1924":1,"EG10126-MONOMER":null,"CPLX0-1923":null} "cobalamin outer membrane transport complex" +"CPLX0-1941_RXN" {"CPLX0-1941":1,"CPLX0-1923":null,"EG10293-MONOMER":null} "ferric enterobactin outer membrane transport complex" +"CPLX0-1942_RXN" {"CPLX0-1942":1,"CPLX0-1923":null,"EG10302-MONOMER":null} "ferrichrome outer membrane transport complex" +"CPLX0-1943_RXN" {"CPLX0-1943":1,"EG10286-MONOMER":null,"CPLX0-1923":null} "ferric citrate outer membrane transport complex" +"CPLX0-1962_RXN" {"CPLX0-1962":1,"EG12345-MONOMER":-4} "3-hydroxy acid dehydrogenase YdfG" +"CPLX0-1_RXN" {"CPLX0-1":1,"G7413-MONOMER":-4} "reduced flavorubredoxin" +"CPLX0-201_RXN" {"CPLX0-201":1,"G6428-MONOMER":-10} "fructose-6-phosphate aldolase 1" +"CPLX0-2021_RXN" {"CPLX0-2021":1,"EG10466-MONOMER":null,"EG10467-MONOMER":null} "DNA-binding transcriptional dual regulator HU" +"CPLX0-2061_RXN" {"CPLX0-2061":1,"EG12279-MONOMER":-2} "2,3-diketo-L-gulonate reductase" +"CPLX0-2081_RXN" {"CPLX0-2081":1,"G6627-MONOMER":-2,"MONOMER0-1261":-2,"CPLX0-8206":null} "dihydroxyacetone kinase" +"CPLX0-2121_RXN" {"CPLX0-2121":1,"CPLX0-7964":null,"EG11354-MONOMER":null,"EMRB-MONOMER":null} "multidrug efflux pump EmrAB-TolC" +"CPLX0-2141_RXN" {"CPLX0-2141":1,"CPLX0-7964":-1,"EG10266-MONOMER":-6,"ACRF-MONOMER":-3} "multidrug efflux pump AcrEF-TolC" +"CPLX0-2161_RXN" {"CPLX0-2161":1,"CPLX0-7964":null,"G7233-MONOMER":null,"EMRY-MONOMER":null} "tripartite efflux pump EmrKY-TolC" +"CPLX0-2201_RXN" {"CPLX0-2201":1,"EG10684-MONOMER":null,"EG11007-MONOMER":null,"EG11008-MONOMER":null,"EG11011-MONOMER":null,"EG11010-MONOMER":null} "The Tol-Pal Cell Envelope Complex" +"CPLX0-221_RXN" {"CPLX0-221":1,"APORNAP-CPLX":-1,"PD00440":-1} "RNA polymerase sigma 19" +"CPLX0-222_RXN" {"CPLX0-222":1,"EG11355-MONOMER":-1,"APORNAP-CPLX":-1} "RNA polymerase sigma 28" +"CPLX0-224_RXN" {"CPLX0-224":1,"MONOMER0-146":-2} "NADPH-dependent FMN reductase" +"CPLX0-225_RXN" {"CPLX0-225":1,"MONOMER-162":-4} "FMNH2-dependent alkanesulfonate monooxygenase" +"CPLX0-227_RXN" {"CPLX0-227":1,"MONOMER0-147":-4} "α-ketoglutarate-dependent taurine dioxygenase" +"CPLX0-229_RXN" {"CPLX0-229":1,"RNTRACTIV-MONOMER":-2} "anaerobic ribonucleoside-triphosphate reductase activating protein" +"CPLX0-230_RXN" {"CPLX0-230":1,"ICITDEHASE-KIN-PHOSPHA":-2} null +"CPLX0-231_RXN" {"CPLX0-231":1,"GATC-MONOMER":-2,"GATB-MONOMER":-1,"GATA-MONOMER":-1} "galactitol-specific PTS enzyme II" +"CPLX0-234_RXN" {"CPLX0-234":1,"G7423-MONOMER":-2} null +"CPLX0-235_RXN" {"CPLX0-235":1,"MONOMER-43":-2} null +"CPLX0-2361_RXN" {"CPLX0-2361":1,"EG10238-MONOMER":-1,"EG10243-MONOMER":-1,"EG11505-MONOMER":-1} "DNA polymerase III, core enzyme" +"CPLX0-236_RXN" {"CPLX0-236":1,"G6770-MONOMER":-2} "arylamine N-acetyltransferase" +"CPLX0-237_RXN" {"CPLX0-237":1,"SERINE-O-ACETTRAN-MONOMER":-6} "serine acetyltransferase" +"CPLX0-2381_RXN" {"CPLX0-2381":1,"PPK-CPLX":null,"CPLX0-3461":null,"CPLX0-3541":null,"CPLX0-3521":null,"ENOLASE-CPLX":null} "degradosome" +"CPLX0-238_RXN" {"CPLX0-238":1,"ARGSUCCINSYN-MONOMER":-4} null +"CPLX0-2401_RXN" {"CPLX0-2401":1,"TRYPSYN-BPROTEIN":-2} "tryptophan synthase, β subunit dimer" +"CPLX0-240_RXN" {"CPLX0-240":1,"TAGAALDOL1-MONOMER":-4} "tagatose-1,6-bisphosphate aldolase 1" +"CPLX0-2423_RXN" {"CPLX0-2423":1,"EG10686-MONOMER":-2} "dimer of DNA topoisomerase IV subunit A" +"CPLX0-2424_RXN" {"CPLX0-2424":1,"EG10687-MONOMER":-2,"CPLX0-2423":-1} "DNA topoisomerase IV" +"CPLX0-2425_RXN" {"CPLX0-2425":1,"EG10423-MONOMER":-2,"EG10424-MONOMER":-2} "DNA gyrase" +"CPLX0-242_RXN" {"CPLX0-242":1,"EG10395-MONOMER":-2} "thiosulfate sulfurtransferase GlpE" +"CPLX0-243_RXN" {"CPLX0-243":1,"INORGPYROPHOSPHAT-MONOMER":-6} "inorganic pyrophosphatase" +"CPLX0-2441_RXN" {"CPLX0-2441":1,"EG10845-MONOMER":-6} "transcription termination factor Rho" +"CPLX0-244_RXN" {"CPLX0-244":1,"EG11261-MONOMER":-2} null +"CPLX0-245_RXN" {"CPLX0-245":1,"EG11384-MONOMER":-10,"EG11385-MONOMER":-2} "alkyl hydroperoxide reductase" +"CPLX0-246_RXN" {"CPLX0-246":1,"G6906-MONOMER":-2} "L-cysteine desulfurase" +"CPLX0-248_RXN" {"CPLX0-248":1,"G7325-MONOMER":-2} "cysteine desulfurase IscS" +"CPLX0-2502_RXN" {"CPLX0-2502":1,"EG11597-MONOMER":-2,"EG11598-MONOMER":-2} "molybdopterin synthase" +"CPLX0-250_RXN" {"CPLX0-250":1,"MONOMER0-150":null,"MONOMER0-151":null,"MONOMER0-152":null,"MONOMER0-153":null,"MONOMER0-154":null,"MONOMER0-141":null,"MONOMER0-142":null,"MONOMER0-143":null,"MONOMER0-144":null} "hydrogenase 4" +"CPLX0-251_RXN" {"CPLX0-251":1,"G6198-MONOMER":-2} "2-methylcitrate synthase" +"CPLX0-2521_RXN" {"CPLX0-2521":1,"MONOMER0-1501":-6} "protein MoaB" +"CPLX0-252_RXN" {"CPLX0-252":1,"FABH-MONOMER":-2} "3-oxoacyl-[acyl carrier protein] synthase 3" +"CPLX0-253_RXN" {"CPLX0-253":1,"EG12656-MONOMER":-2} "NADPH:quinone oxidoreductase MdaB" +"CPLX0-2541_RXN" {"CPLX0-2541":1,"MONOMER0-185":-2} "DNA-binding transcriptional dual regulator ModE" +"CPLX0-254_RXN" {"CPLX0-254":1,"G7516-MONOMER":-6} null +"CPLX0-255_RXN" {"CPLX0-255":1,"G7492-MONOMER":-4} null +"CPLX0-2561_RXN" {"CPLX0-2561":1,"CPLX0-7696":null,"CPLX0-7697":null} "bacterial condensin MukBEF" +"CPLX0-2621_RXN" {"CPLX0-2621":1,"MONOMER0-1564":-2} "protein HokC" +"CPLX0-263_RXN" {"CPLX0-263":1,"MONOMER0-2":-2,"MONOMER0-3":-2} "isoaspartyl dipeptidase / asparaginase III" +"CPLX0-2641_RXN" {"CPLX0-2641":1,"EG10461-MONOMER":-2} "chaperone protein HtpG" +"CPLX0-2661_RXN" {"CPLX0-2661":1,"EG10574-MONOMER":-12,"EG10575-MONOMER":-2} "McrBC restriction endonuclease" +"CPLX0-2681_RXN" {"CPLX0-2681":1,"EG10978-MONOMER":-2} "ClpXP protease specificity-enhancing factor" +"CPLX0-2861_RXN" {"CPLX0-2861":1,"EG10116-MONOMER":-2} "transcriptional antiterminator BglG" +"CPLX0-2881_RXN" {"CPLX0-2881":1,"EG10542-MONOMER":-6} "Lon protease" +"CPLX0-2901_RXN" {"CPLX0-2901":1,"MONOMER0-1842":-4,"MONOMER0-1843":-4} "aspartate 1-decarboxylase" +"CPLX0-2921_RXN" {"CPLX0-2921":1,"EG10463-MONOMER":-12} "periplasmic serine endoprotease DegP" +"CPLX0-2941_RXN" {"CPLX0-2941":1,"EG10968-MONOMER":-4} "protease IV, a signal peptide peptidase" +"CPLX0-2982_RXN" {"CPLX0-2982":1,"CPLX0-1321":-6,"EG11506-MONOMER":-6} "FtsH/HflKC protease complex" +"CPLX0-3001_RXN" {"CPLX0-3001":1,"EG10695-MONOMER":-2} "peptidase D" +"CPLX0-301_RXN" {"CPLX0-301":1,"EG11396-MONOMER":-6} null +"CPLX0-3021_RXN" {"CPLX0-3021":1,"G7925-MONOMER":-8} "isoaspartyl dipeptidase" +"CPLX0-303_RXN" {"CPLX0-303":1,"EG11517-MONOMER":-2} "fructose-1,6-bisphosphatase 2" +"CPLX0-3041_RXN" {"CPLX0-3041":1,"EG11549-MONOMER":-2} "peptidase T" +"CPLX0-3061_RXN" {"CPLX0-3061":1,"EG10694-MONOMER":-6} "aminopeptidase A/I and DNA-binding transcriptional repressor" +"CPLX0-3081_RXN" {"CPLX0-3081":1,"EG10697-MONOMER":-4} "Xaa-Pro aminopeptidase" +"CPLX0-3101_RXN" {"CPLX0-3101":1,"EG10158-MONOMER":-14} "ClpP serine protease" +"CPLX0-3102_RXN" {"CPLX0-3102":1,"EG10159-MONOMER":-6} "ClpX ATP-dependent protease specificity component and chaperone" +"CPLX0-3104_RXN" {"CPLX0-3104":1,"CPLX0-3101":-1,"CPLX0-881":-2} "ClpAP" +"CPLX0-3107_RXN" {"CPLX0-3107":1,"CPLX0-3101":-1,"CPLX0-3102":-2} "ClpXP" +"CPLX0-3108_RXN" {"CPLX0-3108":1,"CPLX0-3101":-1,"CPLX0-881":-1,"CPLX0-3102":-1} "ClpAXP" +"CPLX0-3121_RXN" {"CPLX0-3121":1,"EG11723-MONOMER":-2} "chromate reductase" +"CPLX0-3141_RXN" {"CPLX0-3141":1,"EG12657-MONOMER":-2} "putative quinol monooxygenase YgiN" +"CPLX0-3161_RXN" {"CPLX0-3161":1,"MONOMER0-1981":-2} null +"CPLX0-3181_RXN" {"CPLX0-3181":1,"MONOMER0-2001":-2} null +"CPLX0-3201_RXN" {"CPLX0-3201":1,"EG10580-MONOMER":-2} "peptidoglycan DD-endopeptidase/peptidoglycan LD-endopeptidase" +"CPLX0-321_RXN" {"CPLX0-321":1,"PDXJ-MONOMER":-8} null +"CPLX0-3221_RXN" {"CPLX0-3221":1,"YRAO-MONOMER":-4} "DnaA initiator-associating factor for replication initiation" +"CPLX0-322_RXN" {"CPLX0-322":1,"GSK-MONOMER":-2} "inosine/guanosine kinase" +"CPLX0-3241_RXN" {"CPLX0-3241":1,"NAPG-MONOMER":-1,"NAPH-MONOMER":-1} "ubiquinol—[NapC cytochrome c] reductase NapGH" +"CPLX0-3281_RXN" {"CPLX0-3281":1,"EG10857-MONOMER":-2} "RNase III" +"CPLX0-3301_RXN" {"CPLX0-3301":1,"EG11111-MONOMER":-2} "DNA replication inhibitor CspD" +"CPLX0-3361_RXN" {"CPLX0-3361":1,"NUOB-MONOMER":-1,"NUOC-MONOMER":-1,"NUOE-MONOMER":-1,"NUOF-MONOMER":-1,"NUOG-MONOMER":-1,"NUOI-MONOMER":-1} "NADH:quinone oxidoreductase I, peripheral arm" +"CPLX0-3382_RXN" {"CPLX0-3382":1,"G7702-MONOMER":null,"G7703-MONOMER":null,"G7704-MONOMER":null,"G7705-MONOMER":null,"G7706-MONOMER":null,"G7707-MONOMER":null,"G7708-MONOMER":null,"G7709-MONOMER":null,"G7710-MONOMER":null,"G7711-MONOMER":null,"EG12173-MONOMER":null,"EG11359-MONOMER":null} "Type II secretion system" +"CPLX0-3401_RXN" {"CPLX0-3401":1,"EG10308-MONOMER":null,"EG10313-MONOMER":null,"EG10314-MONOMER":null,"EG10315-MONOMER":null} "fimbrial complex" +"CPLX0-341_RXN" {"CPLX0-341":1,"EG10004-MONOMER":-12} "fused 4'-phosphopantothenoylcysteine decarboxylase and phosphopantothenoylcysteine synthetase" +"CPLX0-3461_RXN" {"CPLX0-3461":1,"EG10859-MONOMER":-4} "ribonuclease E" +"CPLX0-3482_RXN" {"CPLX0-3482":1,"ALDDEHYDROGB-MONOMER":-4} "aldehyde dehydrogenase B" +"CPLX0-3501_RXN" {"CPLX0-3501":1,"G7452-MONOMER":-2} "7-cyano-7-deazaguanine reductase" +"CPLX0-3521_RXN" {"CPLX0-3521":1,"EG10743-MONOMER":-3} "polynucleotide phosphorylase" +"CPLX0-3541_RXN" {"CPLX0-3541":1,"EG10844-MONOMER":-2} "ATP-dependent RNA helicase RhlB" +"CPLX0-3561_RXN" {"CPLX0-3561":1,"EG10484-MONOMER":-2} "hydrogenase isozymes nickel incorporation protein HypB" +"CPLX0-3581_RXN" {"CPLX0-3581":1,"EG11852-MONOMER":-2} "D-aminoacyl-tRNA deacylase" +"CPLX0-3601_RXN" {"CPLX0-3601":1,"G7175-MONOMER":-2} "ribonuclease BN" +"CPLX0-3602_RXN" {"CPLX0-3602":1,"EG11547-MONOMER":-2} "RNase T" +"CPLX0-3621_RXN" {"CPLX0-3621":1,"EG10236-MONOMER":-6} "replicative DNA helicase" +"CPLX0-3641_RXN" {"CPLX0-3641":1,"G6755-MONOMER":-4} "γ-aminobutyraldehyde dehydrogenase" +"CPLX0-3661_RXN" {"CPLX0-3661":1,"G7590-MONOMER":-2} "fused heptose 7-phosphate kinase/heptose 1-phosphate adenyltransferase" +"CPLX0-3681_RXN" {"CPLX0-3681":1,"EG10838-MONOMER":-5} null +"CPLX0-3721_RXN" {"CPLX0-3721":1,"EG12633-MONOMER":-2} "ADP-sugar pyrophosphatase" +"CPLX0-3741_RXN" {"CPLX0-3741":1,"GLUTRNAREDUCT-MONOMER":-2} null +"CPLX0-3761_RXN" {"CPLX0-3761":1,"EG10242-MONOMER":-2} "β sliding clamp" +"CPLX0-3781_RXN" {"CPLX0-3781":1,"MONOMER0-1041":-1,"EG12844-MONOMER":-2} "YefM-YoeB antitoxin/toxin complex / DNA-binding transcriptional repressor" +"CPLX0-3801_RXN" {"CPLX0-3801":1,"EG10245-MONOMER":-3,"EG11500-MONOMER":-1,"EG11412-MONOMER":-1} "DNA polymerase III, preinitiation complex" +"CPLX0-3802_RXN" {"CPLX0-3802":1,"EG10245-MONOMER":-2} "DNA polymerase III, τ subunit dimer" +"CPLX0-3803_RXN" {"CPLX0-3803":1,"CPLX0-2361":-3,"CPLX0-3801":-1,"CPLX0-3761":-2,"CPLX0-3802":-1,"CPLX0-7910":-4} "DNA polymerase III, holoenzyme" +"CPLX0-3821_RXN" {"CPLX0-3821":1,"EG10483-MONOMER":null,"EG10484-MONOMER":null} "HypA-HypB heterodimer" +"CPLX0-3841_RXN" {"CPLX0-3841":1,"EG11294-MONOMER":-2} null +"CPLX0-3861_RXN" {"CPLX0-3861":1,"G7724-MONOMER":-8} null +"CPLX0-3881_RXN" {"CPLX0-3881":1,"FCL-MONOMER":-2} null +"CPLX0-3901_RXN" {"CPLX0-3901":1,"EG11685-MONOMER":-6} "α-D-xyloside xylohydrolase" +"CPLX0-3921_RXN" {"CPLX0-3921":1,"G6500-MONOMER":-3} "heat shock protein HspQ" +"CPLX0-3922_RXN" {"CPLX0-3922":1,"CPLX0-3621":null,"CPLX0-0":null,"CPLX0-3":null,"EG10763-MONOMER":null,"EG10765-MONOMER":null,"EG10239-MONOMER":null} "primosome" +"CPLX0-3923_RXN" {"CPLX0-3923":1,"G6895-MONOMER":-2} "putative monooxygenase YdhR" +"CPLX0-3924_RXN" {"CPLX0-3924":1,"G7865-MONOMER":-2} "peptidyl-prolyl cis-trans isomerase FklB" +"CPLX0-3925_RXN" {"CPLX0-3925":1,"EG11056-MONOMER":-1,"EG11057-MONOMER":-2} "DNA polymerase V" +"CPLX0-3927_RXN" {"CPLX0-3927":1,"EG11731-MONOMER":-6} "regulatory ATPase RavA" +"CPLX0-3929_RXN" {"CPLX0-3929":1,"EG10973-MONOMER":-4} "D-arabinose 5-phosphate isomerase GutQ" +"CPLX0-3930_RXN" {"CPLX0-3930":1,"EG10320-MONOMER":-4,"MONOMER0-2488":-2} "FlhDC DNA-binding transcriptional dual regulator" +"CPLX0-3931_RXN" {"CPLX0-3931":1,"EG10837-MONOMER":-2} "ATP-dependent DNA helicase Rep" +"CPLX0-3932_RXN" {"CPLX0-3932":1,"CPLX0-7964":-1,"ACRD-MONOMER":-3,"EG11703-MONOMER":-6} "multidrug efflux pump AcrAD-TolC" +"CPLX0-3933_RXN" {"CPLX0-3933":1,"EG10952-MONOMER":-1,"EG10658-MONOMER":-1,"G7352-MONOMER":-1,"G6093-MONOMER":-1,"G7320-MONOMER":-1} "Outer Membrane Protein Assembly Complex" +"CPLX0-3934_RXN" {"CPLX0-3934":1,"EG10599-MONOMER":-14,"EG10600-MONOMER":-14} "GroEL-GroES chaperonin complex" +"CPLX0-3936_RXN" {"CPLX0-3936":1,"H2NEOPTERINALDOL-MONOMER":-8} "dihydroneopterin aldolase" +"CPLX0-3937_RXN" {"CPLX0-3937":1,"EG10252-MONOMER":-4,"EG10253-MONOMER":-4} "evolved β-D-galactosidase" +"CPLX0-3938_RXN" {"CPLX0-3938":1,"EG12177-MONOMER":-3} "copper binding protein CutA" +"CPLX0-3939_RXN" {"CPLX0-3939":1,"G6334-MONOMER":-2} "universal stress protein G" +"CPLX0-3941_RXN" {"CPLX0-3941":1,"G6717-MONOMER":-4} "phenylacetyl-CoA thioesterase" +"CPLX0-3943_RXN" {"CPLX0-3943":1,"G6645-MONOMER":-2} null +"CPLX0-3948_RXN" {"CPLX0-3948":1,"EG12600-MONOMER":-2} null +"CPLX0-3949_RXN" {"CPLX0-3949":1,"THIG-MONOMER":-6,"THIH-MONOMER":-6} "thiazole synthase" +"CPLX0-3950_RXN" {"CPLX0-3950":1,"EG11023-MONOMER":-2} "tRNA m1G37 methyltransferase" +"CPLX0-3951_RXN" {"CPLX0-3951":1,"EG10605-MONOMER":-2} "peptidoglycan glycosyltransferase / peptidoglycan DD-transpeptidase MrcB" +"CPLX0-3952_RXN" {"CPLX0-3952":1,"RIBOFLAVIN-SYN-MONOMER":-3} null +"CPLX0-3954_RXN" {"CPLX0-3954":1,"EG12026-MONOMER":-4} null +"CPLX0-3955_RXN" {"CPLX0-3955":1,"EG10873-MONOMER":-2} "50S ribosomal subunit protein L7/L12 dimer" +"CPLX0-3956_RXN" {"CPLX0-3956":1,"EG10871-MONOMER":-1,"CPLX0-3955":-2} "50S ribosomal protein complex L8" +"CPLX0-3957_RXN" {"CPLX0-3957":1,"EG10927-MONOMER":-2,"EG11094-MONOMER":-2} "ATP-dependent structure-specific DNA nuclease" +"CPLX0-3958_RXN" {"CPLX0-3958":1,"EG10458-MONOMER":-2,"EG10459-MONOMER":-2,"EG10460-MONOMER":-1} "EcoKI restriction-modification system" +"CPLX0-3959_RXN" {"CPLX0-3959":1,"EG11069-MONOMER":null,"EG11071-MONOMER":null} "Xer site-specific recombination system" +"CPLX0-3961_RXN" {"CPLX0-3961":1,"G7058-MONOMER":-4} "hydroxyisourate hydrolase / transthyretin-related protein" +"CPLX0-3969_RXN" {"CPLX0-3969":1,"EG10921-MONOMER":-24} "ferritin iron-storage complex" +"CPLX0-3970_RXN" {"CPLX0-3970":1,"OPPB-MONOMER":-1,"OPPC-MONOMER":-1,"OPPD-MONOMER":-1,"OPPF-MONOMER":-1,"G6665-MONOMER":-1} "murein tripeptide ABC transporter" +"CPLX0-3971_RXN" {"CPLX0-3971":1,"EG12410-MONOMER":-2} "GDP-mannose hydrolase" +"CPLX0-3976_RXN" {"CPLX0-3976":1,"EG11486-MONOMER":null,"FUC4NACTRANS-MONOMER":null,"EG11295-MONOMER":null} "Enterobacterial Common Antigen Biosynthesis Protein Complex" +"CPLX0-3_RXN" {"CPLX0-3":1,"EG10764-MONOMER":-2} "primosomal replication protein N" +"CPLX0-4_RXN" {"CPLX0-4":1,"G7686-MONOMER":null,"G7685-MONOMER":null} "aromatic carboxylic acid efflux pump" +"CPLX0-661_RXN" {"CPLX0-661":1,"EG11241-MONOMER":-8} "putative hydrolase YcaC" +"CPLX0-682_RXN" {"CPLX0-682":1,"MONOMER0-541":-6} null +"CPLX0-721_RXN" {"CPLX0-721":1,"EG11816-MONOMER":-3} null +"CPLX0-7415_RXN" {"CPLX0-7415":1,"LIPIDADISACCHARIDESYNTH-MONOMER":-2} "lipid A disaccharide synthase" +"CPLX0-7417_RXN" {"CPLX0-7417":1,"G6212-MONOMER":-2} "IS2 insertion element repressor InsA" +"CPLX0-7418_RXN" {"CPLX0-7418":1,"EG10603-MONOMER":-2} "DNA-binding transcriptional repressor MprA" +"CPLX0-7420_RXN" {"CPLX0-7420":1,"G7327-MONOMER":-2} "tRNA Cm32/Um32 methyltransferase" +"CPLX0-7421_RXN" {"CPLX0-7421":1,"EG11888-MONOMER":-2} "tRNA (cytidine/uridine-2'-O)-ribose methyltransferase" +"CPLX0-7422_RXN" {"CPLX0-7422":1,"EG12309-MONOMER":-2} "predicted rRNA methyltransferase" +"CPLX0-7423_RXN" {"CPLX0-7423":1,"EG11254-MONOMER":-2} "23S rRNA m3Ψ1915 methyltransferase" +"CPLX0-7425_RXN" {"CPLX0-7425":1,"CPLX0-7757":-1,"EG10443-MONOMER":-1} "HipAB toxin/antitoxin complex / DNA-binding transcriptional repressor" +"CPLX0-7426_RXN" {"CPLX0-7426":1,"OPPSYN-MONOMER":-2} "all-trans-octaprenyl-diphosphate synthase" +"CPLX0-743_RXN" {"CPLX0-743":1,"DXS-MONOMER":-2} null +"CPLX0-7444_RXN" {"CPLX0-7444":1,"EG11126-MONOMER":-2} "DUF892 domain-containing protein YciF" +"CPLX0-7450_RXN" {"CPLX0-7450":1,"FLIG-FLAGELLAR-SWITCH-PROTEIN":-26,"FLIM-FLAGELLAR-C-RING-SWITCH":-34,"FLIN-FLAGELLAR-C-RING-SWITCH":null} "flagellar motor switch complex" +"CPLX0-7451_RXN" {"CPLX0-7451":1,"G370-MONOMER":null,"G7028-MONOMER":null,"EG11224-MONOMER":null,"EG11975-MONOMER":null,"EG11976-MONOMER":null,"EG11977-MONOMER":null,"EG11656-MONOMER":-12,"G377-MONOMER":-6,"G378-MONOMER":null} "flagellar export apparatus" +"CPLX0-7452_RXN" {"CPLX0-7452":1,"FLAGELLAR-MOTOR-COMPLEX":null,"G361-MONOMER":-120,"EG11967-MONOMER":null,"EG11545-MONOMER":null,"EG10321-MONOMER":null,"EG10841-MONOMER":-5} "flagellum" +"CPLX0-7458_RXN" {"CPLX0-7458":1,"G7545-MONOMER":null,"G7544-MONOMER":null,"MONOMER0-561":null} "glycolate dehydrogenase" +"CPLX0-7462_RXN" {"CPLX0-7462":1,"EG11234-MONOMER":-2} null +"CPLX0-7465_RXN" {"CPLX0-7465":1,"ALARACECAT-MONOMER":-2} "alanine racemase 2" +"CPLX0-7466_RXN" {"CPLX0-7466":1,"XYLULOKIN-MONOMER":-2} "xylulokinase" +"CPLX0-7521_RXN" {"CPLX0-7521":1,"EG12319-MONOMER":-4} "carbonic anhydrase 2" +"CPLX0-7525_RXN" {"CPLX0-7525":1,"MEND-MONOMER":-2} "2-succinyl-5-enolpyruvyl-6-hydroxy-3-cyclohexene-1-carboxylate synthase" +"CPLX0-7529_RXN" {"CPLX0-7529":1,"G7107-MONOMER":-8,"G7105-MONOMER":-4} "polysaccharide export complex" +"CPLX0-7530_RXN" {"CPLX0-7530":1,"MONOMER0-282":-3} "outer membrane porin PhoE" +"CPLX0-7532_RXN" {"CPLX0-7532":1,"AMTB-MONOMER":-3} "ammonium transporter" +"CPLX0-7533_RXN" {"CPLX0-7533":1,"EG10670-MONOMER":-3} "outer membrane porin C" +"CPLX0-7534_RXN" {"CPLX0-7534":1,"EG10671-MONOMER":-3} "outer membrane porin F" +"CPLX0-7535_RXN" {"CPLX0-7535":1,"YJDE-MONOMER":-2} "arginine:agmatine antiporter" +"CPLX0-7536_RXN" {"CPLX0-7536":1,"EG11663-MONOMER":-2} "FKBP-type peptidyl-prolyl cis-trans isomerase SlyD" +"CPLX0-7538_RXN" {"CPLX0-7538":1,"EG12878-MONOMER":-4} "cell division protein ZapA" +"CPLX0-7561_RXN" {"CPLX0-7561":1,"EG12096-MONOMER":null,"EG11250-MONOMER":null} "ChpB-ChpS complex" +"CPLX0-7564_RXN" {"CPLX0-7564":1,"EG11081-MONOMER":-2} "1-hydroxy-2-methyl-2-(E)-butenyl 4-diphosphate reductase" +"CPLX0-7597_RXN" {"CPLX0-7597":1,"EG10375-MONOMER":-2} "5-carboxymethylaminomethyluridine-tRNA synthase subunit MnmG" +"CPLX0-7608_RXN" {"CPLX0-7608":1,"EG10997-MONOMER":-2} "5-carboxymethylaminomethyluridine-tRNA synthase GTPase subunit" +"CPLX0-7609_RXN" {"CPLX0-7609":1,"CPLX0-7608":-1,"CPLX0-7597":-1} null +"CPLX0-7610_RXN" {"CPLX0-7610":1,"G7632-MONOMER":null,"G7633-MONOMER":null} "N-acetyl-D-galactosamine specific PTS (cryptic)" +"CPLX0-7613_RXN" {"CPLX0-7613":1,"G7286-MONOMER":-6} "putative ethanolamine catabolic microcompartment shell protein EutN" +"CPLX0-7614_RXN" {"CPLX0-7614":1,"ATPPHOSRIBOSTRANS-MONOMER":-2} "ATP phosphoribosyltransferase" +"CPLX0-7615_RXN" {"CPLX0-7615":1,"KDGALDOL-MONOMER":-6} null +"CPLX0-7616_RXN" {"CPLX0-7616":1,"G6278-MONOMER":-4} "tartronate semialdehyde reductase 2" +"CPLX0-7617_RXN" {"CPLX0-7617":1,"EG12332-MONOMER":-2} "iron-sulfur cluster insertion protein ErpA" +"CPLX0-761_RXN" {"CPLX0-761":1,"G7485-MONOMER":null,"G7486-MONOMER":null,"G7487-MONOMER":null} "putative xanthine dehydrogenase" +"CPLX0-7622_RXN" {"CPLX0-7622":1,"LSERINEDEAM3-MONOMER":-2} "L-serine deaminase III" +"CPLX0-7623_RXN" {"CPLX0-7623":1,"G6606-MONOMER":-2} "putative two-component system connector protein AriR" +"CPLX0-7624_RXN" {"CPLX0-7624":1,"EG10955-MONOMER":-2,"G7629-MONOMER":-4} "YhaV-PrlF toxin-antitoxin complex" +"CPLX0-7625_RXN" {"CPLX0-7625":1,"G7185-MONOMER":-2} "dCMP phosphohydrolase" +"CPLX0-7626_RXN" {"CPLX0-7626":1,"EG11160-MONOMER":-7} "small conductance mechanosensitive channel MscS" +"CPLX0-7627_RXN" {"CPLX0-7627":1,"EG11180-MONOMER":-5} "large conductance mechanosensitive channel" +"CPLX0-7628_RXN" {"CPLX0-7628":1,"EG11569-MONOMER":-1,"EG10855-MONOMER":-1} "lipopolysaccharide transport system - outer membrane assembly complex" +"CPLX0-7629_RXN" {"CPLX0-7629":1,"NHAA-MONOMER":-2} "Na+:H+ antiporter NhaA" +"CPLX0-7630_RXN" {"CPLX0-7630":1,"THIOESTERI-MONOMER":-4} "multifunctional acyl-CoA thioesterase I and protease I and lysophospholipase L1" +"CPLX0-7631_RXN" {"CPLX0-7631":1,"FUCISOM-MONOMER":-6} "L-fucose isomerase" +"CPLX0-7632_RXN" {"CPLX0-7632":1,"PD01343":-4} "NAD(P)H:quinone oxidoreductase" +"CPLX0-7633_RXN" {"CPLX0-7633":1,"FUCPALDOL-MONOMER":-4} "L-fuculose-phosphate aldolase" +"CPLX0-7641_RXN" {"CPLX0-7641":1,"YIIP-MONOMER":-2} "Zn2+/Fe2+/Cd2+ exporter" +"CPLX0-7642_RXN" {"CPLX0-7642":1,"PROP-MONOMER":-2} "osmolyte:H+ symporter ProP" +"CPLX0-7643_RXN" {"CPLX0-7643":1,"KETOLREDUCTOISOM-MONOMER":-4} "ketol-acid reductoisomerase (NADP+)" +"CPLX0-7645_RXN" {"CPLX0-7645":1,"EG10355-MONOMER":-10} "L-fucose mutarotase" +"CPLX0-7646_RXN" {"CPLX0-7646":1,"EG10817-MONOMER":-10} "D-ribose pyranase" +"CPLX0-7647_RXN" {"CPLX0-7647":1,"RIBOKIN-MONOMER":-2} "ribokinase" +"CPLX0-7648_RXN" {"CPLX0-7648":1,"G7348-MONOMER":-2} "anti-sigma factor stabilizing protein RseB" +"CPLX0-7649_RXN" {"CPLX0-7649":1,"EG11865-MONOMER":-2} "L-rhamnose mutarotase" +"CPLX0-7652_RXN" {"CPLX0-7652":1,"RHAMNISOM-MONOMER":-4} "L-rhamnose isomerase" +"CPLX0-7653_RXN" {"CPLX0-7653":1,"AQPZ-MONOMER":-4} null +"CPLX0-7654_RXN" {"CPLX0-7654":1,"GLPF-MONOMER":-4} "glycerol facilitator" +"CPLX0-7655_RXN" {"CPLX0-7655":1,"EG10528-MONOMER":-3} "maltose outer membrane channel / phage lambda receptor protein" +"CPLX0-7658_RXN" {"CPLX0-7658":1,"G7920-MONOMER":-2} "N-acetylneuraminate mutarotase" +"CPLX0-7659_RXN" {"CPLX0-7659":1,"RIBOFLAVINSYNDEAM-MONOMER":-2} "fused diaminohydroxyphosphoribosylaminopyrimidine deaminase / 5-amino-6-(5-phosphoribosylamino)uracil reductase" +"CPLX0-7660_RXN" {"CPLX0-7660":1,"G6106-MONOMER":-4} null +"CPLX0-7662_RXN" {"CPLX0-7662":1,"BETA-GLUCURONID-MONOMER":-4} null +"CPLX0-7666_RXN" {"CPLX0-7666":1,"G6088-MONOMER":-2} "DNA-binding transcriptional activator CaiF" +"CPLX0-7667_RXN" {"CPLX0-7667":1,"G7564-MONOMER":-2} "NADPH-dependent aldehyde reductase YqhD" +"CPLX0-7668_RXN" {"CPLX0-7668":1,"EG11134-MONOMER":-2} "putative oxidoreductase YdjA" +"CPLX0-7669_RXN" {"CPLX0-7669":1,"EG10490-MONOMER":-2} "DNA-binding transcriptional dual regulator ArgP" +"CPLX0-7672_RXN" {"CPLX0-7672":1,"CPLX0-7701":-2} "MntR-Mn2+ DNA-binding transcriptional dual regulator" +"CPLX0-7674_RXN" {"CPLX0-7674":1,"KCH-MONOMER":-4} "voltage-gated K+ channel" +"CPLX0-7675_RXN" {"CPLX0-7675":1,"G6988-MONOMER":-3} "2Fe-2S cluster-containing protein YeaW" +"CPLX0-7678_RXN" {"CPLX0-7678":1,"CPLX0-7677":-2} "ZntR-Zn2+ DNA-binding transcriptional activator" +"CPLX0-7679_RXN" {"CPLX0-7679":1,"EG11929-MONOMER":-2} "DNA-binding transcriptional repressor Zur" +"CPLX0-7682_RXN" {"CPLX0-7682":1,"G7748-MONOMER":-2} "iron-sulfur cluster carrier protein NfuA" +"CPLX0-7683_RXN" {"CPLX0-7683":1,"EG11845-MONOMER":-6} "sulfoquinovose isomerase" +"CPLX0-7684_RXN" {"CPLX0-7684":1,"G7405-MONOMER":null,"G7406-MONOMER":null} "L-valine exporter" +"CPLX0-7685_RXN" {"CPLX0-7685":1,"HYPOXANPRIBOSYLTRAN-MONOMER":-4} "hypoxanthine phosphoribosyltransferase" +"CPLX0-7686_RXN" {"CPLX0-7686":1,"EG11878-MONOMER":-2} "cell division factor ZapB" +"CPLX0-7687_RXN" {"CPLX0-7687":1,"G6811-MONOMER":-2} "succinate semialdehyde dehydrogenase (NAD(P)+) Sad" +"CPLX0-7688_RXN" {"CPLX0-7688":1,"SUCCSEMIALDDEHYDROG-MONOMER":-4} "succinate-semialdehyde dehydrogenase (NADP+) GabD" +"CPLX0-7691_RXN" {"CPLX0-7691":1,"EG11811-MONOMER":-4} "isovaleryl-CoA dehydrogenase and DNA-binding transcriptional repressor" +"CPLX0-7692_RXN" {"CPLX0-7692":1,"EG10572-MONOMER":-2} "nucleoside triphosphate pyrophosphohydrolase" +"CPLX0-7693_RXN" {"CPLX0-7693":1,"G6731-MONOMER":-2} "FMN dependent NADH:quinone oxidoreductase" +"CPLX0-7694_RXN" {"CPLX0-7694":1,"G6261-MONOMER":-4} "glutaminase 1" +"CPLX0-7695_RXN" {"CPLX0-7695":1,"G6810-MONOMER":-2} "glutaminase 2" +"CPLX0-7696_RXN" {"CPLX0-7696":1,"EG10618-MONOMER":-2} "chromosome partitioning protein MukB" +"CPLX0-7697_RXN" {"CPLX0-7697":1,"EG11252-MONOMER":-4,"CPLX0-7698":-1} "MukEF complex" +"CPLX0-7698_RXN" {"CPLX0-7698":1,"EG12165-MONOMER":-2} "MukF dimer" +"CPLX0-7704_RXN" {"CPLX0-7704":1,"EG10613-MONOMER":-2} "ATP-dependent Lipid A-core flippase" +"CPLX0-7705_RXN" {"CPLX0-7705":1,"PD00196":-2} "DNA-binding transcriptional dual regulator Fis" +"CPLX0-7707_RXN" {"CPLX0-7707":1,"MONOMER0-1781":-4} "NikR-Ni DNA-binding transcriptional repressor" +"CPLX0-7708_RXN" {"CPLX0-7708":1,"CPLX0-7702":-2} "DNA-binding transcriptional dual regulator CueR-Cu+" +"CPLX0-7709_RXN" {"CPLX0-7709":1,"G6644-MONOMER":-12} null +"CPLX0-7710_RXN" {"CPLX0-7710":1,"PD00364":-2} "DNA-binding transcriptional repressor MarR" +"CPLX0-7711_RXN" {"CPLX0-7711":1,"EG10455-MONOMER":-3} "periplasmic chaperone Skp" +"CPLX0-7712_RXN" {"CPLX0-7712":1,"GDPMANMANHYDRO-MONOMER":-2} "GDP-mannose mannosyl hydrolase" +"CPLX0-7713_RXN" {"CPLX0-7713":1,"PD00297":-2} "DNA-binding transcriptional dual regulator DsdC" +"CPLX0-7717_RXN" {"CPLX0-7717":1,"EG10748-MONOMER":-2} "peptidoglycan glycosyltransferase / peptidoglycan DD-transpeptidase MrcA" +"CPLX0-7718_RXN" {"CPLX0-7718":1,"G7168-MONOMER":-6} "UDP-4-amino-4-deoxy-L-arabinose formyltransferase/UDP-glucuronate dehydrogenase" +"CPLX0-7719_RXN" {"CPLX0-7719":1,"QUINOLINATE-SYNTHA-MONOMER":-2} null +"CPLX0-7720_RXN" {"CPLX0-7720":1,"MONOMER0-2682":null,"G7171-MONOMER":null} null +"CPLX0-7721_RXN" {"CPLX0-7721":1,"PHOSPHO-DCUR-MONOMER":-2} "DcuR-Phosphorylated DNA-binding transcriptional activator" +"CPLX0-7722_RXN" {"CPLX0-7722":1,"G7160-MONOMER":-8} null +"CPLX0-7723_RXN" {"CPLX0-7723":1,"G7158-MONOMER":-6} null +"CPLX0-7724_RXN" {"CPLX0-7724":1,"EG10284-MONOMER":-2} "formate dehydrogenase formation protein" +"CPLX0-7725_RXN" {"CPLX0-7725":1,"G7430-MONOMER":-1,"G7429-MONOMER":-2,"G7428-MONOMER":-6,"G7427-MONOMER":-1,"G7426-MONOMER":-1} "CRISPR-associated complex for antiviral defense" +"CPLX0-7726_RXN" {"CPLX0-7726":1,"G6501-MONOMER":-2} "23S rRNA m5C1962 methyltransferase" +"CPLX0-7727_RXN" {"CPLX0-7727":1,"EG12366-MONOMER":-2} "16S rRNA m3U1498 methyltransferase" +"CPLX0-7728_RXN" {"CPLX0-7728":1,"EG10454-MONOMER":-2} "tRNA pseudouridine38-40 synthase" +"CPLX0-7731_RXN" {"CPLX0-7731":1,"G6720-MONOMER":-2} "DNA-binding transcriptional repressor PaaX" +"CPLX0-7732_RXN" {"CPLX0-7732":1,"G7263-MONOMER":-2} "N-acetylmuramic acid 6-phosphate etherase" +"CPLX0-7733_RXN" {"CPLX0-7733":1,"PD00250":-2} "DNA-binding transcriptional dual regulator AsnC" +"CPLX0-7734_RXN" {"CPLX0-7734":1,"EG12235-MONOMER":-2} "DNA-binding transcriptional repressor ArsR" +"CPLX0-7740_RXN" {"CPLX0-7740":1,"PD04028":-2} "DNA-binding transcriptional repressor CytR" +"CPLX0-7741_RXN" {"CPLX0-7741":1,"METHYLMALONYL-COA-MUT-MONOMER":-2} null +"CPLX0-7744_RXN" {"CPLX0-7744":1,"G7858-MONOMER":-2} "3-keto-L-gulonate-6-phosphate decarboxylase UlaD" +"CPLX0-7745_RXN" {"CPLX0-7745":1,"G7262-MONOMER":-4} "DNA-binding transcriptional dual regulator MurR" +"CPLX0-7747_RXN" {"CPLX0-7747":1,"G6660-MONOMER":-2} "lipid hydroperoxide peroxidase" +"CPLX0-7748_RXN" {"CPLX0-7748":1,"PHOSPHO-CPXR":-2} "CpxR-Pasp DNA-binding transcriptional dual regulator" +"CPLX0-7754_RXN" {"CPLX0-7754":1,"PHOSPHO-UHPA":-2} "UhpA-Phosphorylated DNA-binding transcriptional activator" +"CPLX0-7755_RXN" {"CPLX0-7755":1,"EG12172-MONOMER":-2} null +"CPLX0-7756_RXN" {"CPLX0-7756":1,"EG11212-MONOMER":-2} "DNA-binding transcriptional repressor NsrR" +"CPLX0-7757_RXN" {"CPLX0-7757":1,"EG10442-MONOMER":-2} "HipB antitoxin / DNA-binding transcriptional repressor" +"CPLX0-7758_RXN" {"CPLX0-7758":1,"G6550-MONOMER":-2} "2'-O-acetyl-ADP-ribose deacetylase, regulator of RNase III activity" +"CPLX0-7759_RXN" {"CPLX0-7759":1,"PD03938":-2} "DNA-binding transcriptional dual regulator MetR" +"CPLX0-7760_RXN" {"CPLX0-7760":1,"ACONITASE-MONOMER":-2} "aconitate hydratase A" +"CPLX0-7766_RXN" {"CPLX0-7766":1,"EG11105-MONOMER":-4} "proofreading thioesterase in enterobactin biosynthesis" +"CPLX0-7776_RXN" {"CPLX0-7776":1,"EG11245-MONOMER":-2} "fructose 1,6-bisphosphatase YggF" +"CPLX0-7787_RXN" {"CPLX0-7787":1,"G6109-MONOMER":-2,"G6110-MONOMER":-2} "DinJ-YafQ antitoxin/toxin complex / DNA-binding transcriptional repressor" +"CPLX0-7788_RXN" {"CPLX0-7788":1,"G7145-MONOMER":-2,"EG11289-MONOMER":-2} "NAD-dependent dihydropyrimidine dehydrogenase" +"CPLX0-7789_RXN" {"CPLX0-7789":1,"EG12855-MONOMER":-4} "macrodomain Ter protein" +"CPLX0-7791_RXN" {"CPLX0-7791":1,"EG10836-MONOMER":-4,"EG11131-MONOMER":-4} "RelB-RelE antitoxin/toxin complex / DNA-binding transcriptional repressor" +"CPLX0-7794_RXN" {"CPLX0-7794":1,"EG11847-MONOMER":-4} "3-sulfolactaldehyde reductase" +"CPLX0-7795_RXN" {"CPLX0-7795":1,"PHOSPHO-KDPE":-2} "KdpE-Phosphorylated DNA-binding transcriptional activator" +"CPLX0-7796_RXN" {"CPLX0-7796":1,"MONOMER0-157":-2} "MetJ-S-adenosylmethionine DNA-binding transcriptional repressor" +"CPLX0-7797_RXN" {"CPLX0-7797":1,"PD00197":-2} "DNA-binding transcriptional dual regulator FNR" +"CPLX0-7801_RXN" {"CPLX0-7801":1,"G7271-MONOMER":-3} "predicted structural protein, ethanolamine utilization microcompartment" +"CPLX0-7802_RXN" {"CPLX0-7802":1,"EG11643-MONOMER":-2} "diguanylate cyclase DgcZ" +"CPLX0-7805_RXN" {"CPLX0-7805":1,"G6157-MONOMER":-1,"G6156-MONOMER":-1,"G6155-MONOMER":-1} null +"CPLX0-7806_RXN" {"CPLX0-7806":1,"G7194-MONOMER":-2} "disulfide reductase" +"CPLX0-7807_RXN" {"CPLX0-7807":1,"EG11952-MONOMER":null,"YJCQ-MONOMER":null,"EG11954-MONOMER":null} "putative multidrug efflux pump MdtNOP" +"CPLX0-7808_RXN" {"CPLX0-7808":1,"COPROGENOXI-MONOMER":-2} null +"CPLX0-7810_RXN" {"CPLX0-7810":1,"EG11735-MONOMER":-2} "heme-containing peroxidase/deferrochelatase" +"CPLX0-7811_RXN" {"CPLX0-7811":1,"PROTOPORGENOXI-MONOMER":-4} "protoporphyrinogen oxidase" +"CPLX0-7816_RXN" {"CPLX0-7816":1,"EG11100-MONOMER":-2} "putative nucleoid-associated protein YbaB" +"CPLX0-7817_RXN" {"CPLX0-7817":1,"EG12181-MONOMER":-2} "glutaredoxin 4" +"CPLX0-7819_RXN" {"CPLX0-7819":1,"KEFC-MONOMER":-2} null +"CPLX0-7820_RXN" {"CPLX0-7820":1,"G6804-MONOMER":-10} "3-hydroxy-2,4-pentadione 5-phosphate thiolase" +"CPLX0-7822_RXN" {"CPLX0-7822":1,"G7571-MONOMER":-2,"G7572-MONOMER":-2} "MqsA-MqsR antitoxin/toxin complex" +"CPLX0-7823_RXN" {"CPLX0-7823":1,"G6783-MONOMER":null,"G6784-MONOMER":null} "DosC-DosP complex" +"CPLX0-7824_RXN" {"CPLX0-7824":1,"EG11378-MONOMER":-2} "iron-sulfur cluster insertion protein SufA" +"CPLX0-7826_RXN" {"CPLX0-7826":1,"G7530-MONOMER":-2} "dITP/XTP pyrophosphatase" +"CPLX0-7827_RXN" {"CPLX0-7827":1,"G6326-MONOMER":-2} "carboxylate-amine ligase" +"CPLX0-782_RXN" {"CPLX0-782":1,"EG11306-MONOMER":-2} "lipoyl synthase" +"CPLX0-7835_RXN" {"CPLX0-7835":1,"G7287-MONOMER":-6} "putative ethanolamine catabolic microcompartment shell protein EutM" +"CPLX0-7836_RXN" {"CPLX0-7836":1,"G7292-MONOMER":-6} "putative ethanolamine catabolic microcompartment shell protein EutS" +"CPLX0-7837_RXN" {"CPLX0-7837":1,"EG11132-MONOMER":-4} "phosphoenolpyruvate synthetase regulatory protein" +"CPLX0-7838_RXN" {"CPLX0-7838":1,"G7454-MONOMER":-2} "cysteine sulfinate desulfinase" +"CPLX0-7839_RXN" {"CPLX0-7839":1,"G7455-MONOMER":-2} "sulfur acceptor protein CsdE" +"CPLX0-7841_RXN" {"CPLX0-7841":1,"ALPHACOMP-MONOMER":-8} "sulfite reductase, flavoprotein subunit complex" +"CPLX0-7843_RXN" {"CPLX0-7843":1,"FOCA-MONOMER":-5} "formate channel FocA" +"CPLX0-7844_RXN" {"CPLX0-7844":1,"G6669-MONOMER":-2,"G6670-MONOMER":-2} "p-aminobenzoyl-glutamate hydrolase" +"CPLX0-7847_RXN" {"CPLX0-7847":1,"PDXA-MONOMER":-2} null +"CPLX0-7848_RXN" {"CPLX0-7848":1,"G7855-MONOMER":-6} null +"CPLX0-7852_RXN" {"CPLX0-7852":1,"RCSB-MONOMER":-1,"EG11544-MONOMER":-1} "GadE-RcsB DNA-binding transcriptional activator" +"CPLX0-7853_RXN" {"CPLX0-7853":1,"EG11835-MONOMER":-2} "Der GTPase-activating protein YihI" +"CPLX0-7854_RXN" {"CPLX0-7854":1,"EG12202-MONOMER":-2} "DNA-binding transcriptional repressor TreR" +"CPLX0-7870_RXN" {"CPLX0-7870":1,"ATOS-MONOMER":-2} "sensor histidine kinase AtoS" +"CPLX0-7877_RXN" {"CPLX0-7877":1,"PGLUCISOM":-2} null +"CPLX0-7878_RXN" {"CPLX0-7878":1,"G7236-MONOMER":-4} null +"CPLX0-7879_RXN" {"CPLX0-7879":1,"EG10909-MONOMER":-1,"EG10666-MONOMER":-1} "NusB-S10 complex" +"CPLX0-7882_RXN" {"CPLX0-7882":1,"NAPHTHOATE-SYN-MONOMER":-6} null +"CPLX0-7885_RXN" {"CPLX0-7885":1,"MONOMER0-4196":null,"MONOMER0-4195":null} "glutathione hydrolase" +"CPLX0-7887_RXN" {"CPLX0-7887":1,"G7242-MONOMER":-2} "glutamate—pyruvate aminotransferase AlaC" +"CPLX0-7888_RXN" {"CPLX0-7888":1,"G7184-MONOMER":-2} "glutamate—pyruvate aminotransferase AlaA" +"CPLX0-7889_RXN" {"CPLX0-7889":1,"EG11211-MONOMER":-2} "EF-P-lysine lysyltransferase" +"CPLX0-7904_RXN" {"CPLX0-7904":1,"EG12030-MONOMER":-4} "pyrimidine-specific ribonucleoside hydrolase RihB" +"CPLX0-7906_RXN" {"CPLX0-7906":1,"CAIT-MONOMER":-3} null +"CPLX0-7908_RXN" {"CPLX0-7908":1,"EG12132-MONOMER":-4} "iron-sulfur cluster insertion protein IscA" +"CPLX0-7909_RXN" {"CPLX0-7909":1,"G7366-MONOMER":null,"G7365-MONOMER":null} "RnlA-RnlB toxin-antitoxin complex" +"CPLX0-7910_RXN" {"CPLX0-7910":1,"EG11413-MONOMER":-1,"EG11414-MONOMER":-1} "DNA polymerase III, ψ-χ subunit" +"CPLX0-7912_RXN" {"CPLX0-7912":1,"G7288-MONOMER":-2} "phosphate acetyltransferase EutD" +"CPLX0-7913_RXN" {"CPLX0-7913":1,"EG11884-MONOMER":-2} "tellurite methyltransferase" +"CPLX0-7914_RXN" {"CPLX0-7914":1,"G7425-MONOMER":-2} "multifunctional nuclease Cas1" +"CPLX0-7916_RXN" {"CPLX0-7916":1,"G7948-MONOMER":-1,"RCSB-MONOMER":-1} "RcsB-BglJ DNA-binding transcriptional activator" +"CPLX0-7917_RXN" {"CPLX0-7917":1,"G7553-MONOMER":-2} "disulfide reductase / organic hydroperoxide reductase" +"CPLX0-7921_RXN" {"CPLX0-7921":1,"MANX-MONOMER":-2} "mannose-specific PTS enzyme IIAB component" +"CPLX0-7922_RXN" {"CPLX0-7922":1,"EG11191-MONOMER":-2} "nucleoid occlusion factor SlmA" +"CPLX0-7923_RXN" {"CPLX0-7923":1,"G6939-MONOMER":-2} "ATP-independent periplasmic chaperone" +"CPLX0-7927_RXN" {"CPLX0-7927":1,"G6760-MONOMER":-2} "NADPH-dependent curcumin/dihydrocurcumin reductase" +"CPLX0-7928_RXN" {"CPLX0-7928":1,"EG10836-MONOMER":-4} "Qin prophage; antitoxin/DNA-binding transcriptional repressor RelB" +"CPLX0-7929_RXN" {"CPLX0-7929":1,"EG12844-MONOMER":-2} "antitoxin/DNA-binding transcriptional repressor YefM" +"CPLX0-7932_RXN" {"CPLX0-7932":1,"CYTDEAM-MONOMER":-6} "cytosine/isoguanine deaminase" +"CPLX0-7933_RXN" {"CPLX0-7933":1,"G7489-MONOMER":-3} "putative carbamoyltransferase YgeW" +"CPLX0-7934_RXN" {"CPLX0-7934":1,"EG10342-MONOMER":null,"G7424-MONOMER":null,"EG11086-MONOMER":null} "FtsLBQ cell division complex" +"CPLX0-7935_RXN" {"CPLX0-7935":1,"EG10719-MONOMER":-2,"EG10718-MONOMER":-2,"EG10717-MONOMER":-2,"EG10716-MONOMER":-2} "carbon-phosphorus lyase core complex" +"CPLX0-7936_RXN" {"CPLX0-7936":1,"EG10725-MONOMER":-2} null +"CPLX0-7938_RXN" {"CPLX0-7938":1,"PTSI-MONOMER":-2} "PTS enzyme I" +"CPLX0-7939_RXN" {"CPLX0-7939":1,"EG11568-MONOMER":-2} "regulator of KefC-mediated potassium transport and quinone oxidoreductase" +"CPLX0-7940_RXN" {"CPLX0-7940":1,"G6140-MONOMER":-4} "CP4-6 prophage; putative 2-dehydro-3-deoxygluconate aldolase" +"CPLX0-7942_RXN" {"CPLX0-7942":1,"EG10125-MONOMER":-1,"EG12181-MONOMER":-1} "Grx4-BolA complex" +"CPLX0-7944_RXN" {"CPLX0-7944":1,"MONOMER0-341":-2} "outer membrane phospholipase A" +"CPLX0-7945_RXN" {"CPLX0-7945":1,"G6540-MONOMER":-3} "zinc-binding phosphatase YcdX" +"CPLX0-7946_RXN" {"CPLX0-7946":1,"EG10852-MONOMER":-4} "ribosomal protein S6 modification protein" +"CPLX0-7947_RXN" {"CPLX0-7947":1,"SUCCARGDIHYDRO-MONOMER":-2} "N-succinylarginine dihydrolase" +"CPLX0-7950_RXN" {"CPLX0-7950":1,"MHPCHYDROL-MONOMER":-2} "2-hydroxy-6-oxononatrienedioate hydrolase" +"CPLX0-7951_RXN" {"CPLX0-7951":1,"MHPDHYDROL-MONOMER":-5} "2-hydroxypentadienoate hydratase" +"CPLX0-7952_RXN" {"CPLX0-7952":1,"EG10306-MONOMER":-1,"CPLX0-1923":null} "ferric coprogen outer membrane transport complex" +"CPLX0-7955_RXN" {"CPLX0-7955":1,"YJCG-MONOMER":-2} "acetate/glycolate:cation symporter" +"CPLX0-7956_RXN" {"CPLX0-7956":1,"EG11447-MONOMER":-2} "carbon storage regulator" +"CPLX0-7957_RXN" {"CPLX0-7957":1,"EG10943-MONOMER":-2} "selenide, water dikinase" +"CPLX0-7958_RXN" {"CPLX0-7958":1,"PHNL-MONOMER":null,"EG10717-MONOMER":null,"EG10716-MONOMER":null,"EG10718-MONOMER":null} "methylphosphonate degradation complex" +"CPLX0-7959_RXN" {"CPLX0-7959":1,"ASL-MONOMER":-4} "adenylosuccinate lyase" +"CPLX0-7960_RXN" {"CPLX0-7960":1,"HMP-KIN-MONOMER":-2} "protein/nucleic acid deglycase 3" +"CPLX0-7961_RXN" {"CPLX0-7961":1,"YADQ-MONOMER":-2} null +"CPLX0-7962_RXN" {"CPLX0-7962":1,"G6759-MONOMER":-2} "L-amino acid N-acyltransferase" +"CPLX0-7963_RXN" {"CPLX0-7963":1,"EMRE-MONOMER":-2} "multidrug efflux pump EmrE / betaine:H+ antiporter / choline:H+ antiporter" +"CPLX0-7964_RXN" {"CPLX0-7964":1,"EG11009-MONOMER":-3} "outer membrane channel TolC" +"CPLX0-7970_RXN" {"CPLX0-7970":1,"G7924-MONOMER":-2} "HypT-[Met]reduced" +"CPLX0-7973_RXN" {"CPLX0-7973":1,"EG12313-MONOMER":-2} "cell division factor ZapD" +"CPLX0-7974_RXN" {"CPLX0-7974":1,"EG11702-MONOMER":-2} "RNA decapping hydrolase" +"CPLX0-7975_RXN" {"CPLX0-7975":1,"PD04413":-4} "DNA-binding transcriptional repressor/NMN adenylyltransferase NadR" +"CPLX0-7976_RXN" {"CPLX0-7976":1,"G7875-MONOMER":null,"G7874-MONOMER":-1} "translocation and assembly module" +"CPLX0-7977_RXN" {"CPLX0-7977":1,"EG11085-MONOMER":-2} null +"CPLX0-7979_RXN" {"CPLX0-7979":1,"EG10144-MONOMER":-4} "monoacetylchitobiose-6-phosphate hydrolase" +"CPLX0-7981_RXN" {"CPLX0-7981":1,"G6323-MONOMER":-7} "miniconductance mechanosensitive channel YbdG" +"CPLX0-7982_RXN" {"CPLX0-7982":1,"MONOMER0-82":-7} "small conductance mechanosensitive channel YnaI" +"CPLX0-7983_RXN" {"CPLX0-7983":1,"G6417-MONOMER":-7} "moderate conductance mechanosensitive channel YbiO" +"CPLX0-7984_RXN" {"CPLX0-7984":1,"G7616-MONOMER":-2} "glutathionyl-hydroquinone reductase YqjG" +"CPLX0-7985_RXN" {"CPLX0-7985":1,"G7840-MONOMER":-7} "miniconductance mechanosensitive channel MscM" +"CPLX0-7986_RXN" {"CPLX0-7986":1,"EG10486-MONOMER":-1,"EG10485-MONOMER":-1} "HypCD complex involved in hydrogenase maturation" +"CPLX0-7987_RXN" {"CPLX0-7987":1,"G7626-MONOMER":-3} "predicted enamine/imine deaminase" +"CPLX0-7988_RXN" {"CPLX0-7988":1,"G6715-MONOMER":-6,"G6714-MONOMER":-6} "PaaF-PaaG hydratase-isomerase complex" +"CPLX0-7989_RXN" {"CPLX0-7989":1,"G6662-MONOMER":-2} "murein tripeptide amidase A" +"CPLX0-7990_RXN" {"CPLX0-7990":1,"RFFTRANS-MONOMER":-4} "dTDP-4-dehydro-6-deoxy-D-glucose transaminase" +"CPLX0-7992_RXN" {"CPLX0-7992":1,"CPLX0-7628":-1,"G7889-MONOMER":-1,"G7664-MONOMER":-1,"YHBN-MONOMER":-1,"YHBG-MONOMER":-2,"G7888-MONOMER":-1} "lipopolysaccharide transport system" +"CPLX0-7993_RXN" {"CPLX0-7993":1,"G6286-MONOMER":-2} "ureidoglycolate dehydrogenase" +"CPLX0-7994_RXN" {"CPLX0-7994":1,"G6528-MONOMER":-1,"G6529-MONOMER":-1} "poly-N-acetyl-D-glucosamine synthase" +"CPLX0-7997_RXN" {"CPLX0-7997":1,"DIAMINOPIMEPIM-MONOMER":-2} "diaminopimelate epimerase" +"CPLX0-7998_RXN" {"CPLX0-7998":1,"EG12146-MONOMER":-4} "RNase adaptor protein RapZ" +"CPLX0-7_RXN" {"CPLX0-7":1,"MONOMER0-5":-1,"CRR-MONOMER":-1} "N-acetylmuramic acid-specific PTS enzyme II" +"CPLX0-8005_RXN" {"CPLX0-8005":1,"3-OXOACYL-ACP-REDUCT-MONOMER":-4} "3-oxoacyl-[acyl-carrier-protein] reductase FabG" +"CPLX0-8006_RXN" {"CPLX0-8006":1,"ENOYL-ACP-REDUCT-NADH-MONOMER":-4} "enoyl-[acyl-carrier-protein] reductase" +"CPLX0-8008_RXN" {"CPLX0-8008":1,"UDPGLCNACEPIM-MONOMER":-2} null +"CPLX0-8010_RXN" {"CPLX0-8010":1,"G7020-MONOMER":-2} null +"CPLX0-8011_RXN" {"CPLX0-8011":1,"GLCNACPTRANS-MONOMER":-2} null +"CPLX0-8012_RXN" {"CPLX0-8012":1,"DTDPGLUCOSEPP2-MONOMER":-4} null +"CPLX0-8013_RXN" {"CPLX0-8013":1,"UDPMANNACADEHYDROG-MONOMER":-2} null +"CPLX0-8014_RXN" {"CPLX0-8014":1,"UDP-NACMUR-ALA-LIG-MONOMER":-2} "UDP-N-acetylmuramate—L-alanine ligase" +"CPLX0-8015_RXN" {"CPLX0-8015":1,"ADHP-MONOMER":-4} "ethanol dehydrogenase / alcohol dehydrogenase" +"CPLX0-8016_RXN" {"CPLX0-8016":1,"UDPHYDROXYMYRGLUCOSAMNACETYLTRANS-MONO":-3} null +"CPLX0-801_RXN" {"CPLX0-801":1,"EG11398-MONOMER":-2} "periplasmic acid stress chaperone HdeA" +"CPLX0-8031_RXN" {"CPLX0-8031":1,"PDXY-MONOMER":-2} "pyridoxal kinase 2" +"CPLX0-8032_RXN" {"CPLX0-8032":1,"G7234-MONOMER":-2} null +"CPLX0-8033_RXN" {"CPLX0-8033":1,"EG11101-MONOMER":-2} null +"CPLX0-8034_RXN" {"CPLX0-8034":1,"DTDPGLUCOSEPP-MONOMER":-4} null +"CPLX0-8043_RXN" {"CPLX0-8043":1,"G6799-MONOMER":-4} "DNA-binding transcriptional repressor LsrR" +"CPLX0-8044_RXN" {"CPLX0-8044":1,"EG11828-MONOMER":-2} "molybdopterin-guanine dinucleotide biosynthesis adaptor protein" +"CPLX0-8045_RXN" {"CPLX0-8045":1,"EG10153-MONOMER":-2} "molybdopterin molybdotransferase" +"CPLX0-8046_RXN" {"CPLX0-8046":1,"SECB":-4} "protein export chaperone SecB" +"CPLX0-8089_RXN" {"CPLX0-8089":1,"SECA":-2} "protein translocation ATPase" +"CPLX0-8090_RXN" {"CPLX0-8090":1,"G6673-MONOMER":-4} "diguanylate cyclase DgcM" +"CPLX0-8092_RXN" {"CPLX0-8092":1,"EG10564-MONOMER":-2} "negative regulator of MalT activity/cystathionine β-lyase" +"CPLX0-8095_RXN" {"CPLX0-8095":1,"G7365-MONOMER":-2} "CP4-57 prophage; RNase LS, toxin of the RnlAB toxin-antitoxin system" +"CPLX0-8096_RXN" {"CPLX0-8096":1,"G7885-MONOMER":-2} "ribonuclease E inhibitor protein B" +"CPLX0-8097_RXN" {"CPLX0-8097":1,"SBMA-MONOMER":-2} null +"CPLX0-8098_RXN" {"CPLX0-8098":1,"UGD-MONOMER":-2} null +"CPLX0-8102_RXN" {"CPLX0-8102":1,"TAR-MONOMER":-2} "methyl-accepting chemotaxis protein Tar" +"CPLX0-8103_RXN" {"CPLX0-8103":1,"TSR-MONOMER":-2} "methyl-accepting chemotaxis protein - serine-sensing" +"CPLX0-8104_RXN" {"CPLX0-8104":1,"TAP-MONOMER":-2} "methyl-accepting chemotaxis protein - dipeptide-sensing" +"CPLX0-8105_RXN" {"CPLX0-8105":1,"TRG-MONOMER":-2} "methyl-accepting chemotaxis protein Trg - ribose/galactose/glucose-sensing" +"CPLX0-8106_RXN" {"CPLX0-8106":1,"EG11298-MONOMER":-2} "nucleoside triphosphate pyrophosphatase YhdE" +"CPLX0-8107_RXN" {"CPLX0-8107":1,"EG11535-MONOMER":-2} "small heat shock protein IbpB" +"CPLX0-8108_RXN" {"CPLX0-8108":1,"EG11534-MONOMER":-2} "small heat shock protein IbpA" +"CPLX0-8109_RXN" {"CPLX0-8109":1,"EG11236-MONOMER":-2} "DNA-binding transcriptional activator/c-di-GMP phosphodiesterase PdeL" +"CPLX0-8110_RXN" {"CPLX0-8110":1,"G6154-MONOMER":-2} "molybdenum cofactor insertion chaperone PaoD" +"CPLX0-8111_RXN" {"CPLX0-8111":1,"EG11064-MONOMER":-2} "DNA helicase II" +"CPLX0-8112_RXN" {"CPLX0-8112":1,"EG11430-MONOMER":-2} "ribosomal protein-arginine oxygenase" +"CPLX0-8113_RXN" {"CPLX0-8113":1,"EG10735-MONOMER":-2} "phosphate signaling protein PhoU" +"CPLX0-8119_RXN" {"CPLX0-8119":1,"MONOMER0-6":-1,"G7250-MONOMER":-1,"G7246-MONOMER":-1} "putative PTS enzyme II FryBCA" +"CPLX0-8120_RXN" {"CPLX0-8120":1,"ARTI-MONOMER":-1,"ARTM-MONOMER":-1,"ARTQ-MONOMER":-1,"ARTP-MONOMER":-2} "putative ABC transporter ArtPQMI" +"CPLX0-8121_RXN" {"CPLX0-8121":1,"EG11315-MONOMER":-2} "acrylyl-CoA reductase" +"CPLX0-8122_RXN" {"CPLX0-8122":1,"EG12310-MONOMER":-6} "aminopeptidase B" +"CPLX0-8123_RXN" {"CPLX0-8123":1,"G7431-MONOMER":-6} "6-carboxy-5,6,7,8-tetrahydropterin synthase" +"CPLX0-8124_RXN" {"CPLX0-8124":1,"G6675-MONOMER":-2} "tRNA cytosine32 2-sulfurtransferase TtcA" +"CPLX0-8125_RXN" {"CPLX0-8125":1,"EG12259-MONOMER":null,"EG12260-MONOMER":null} "cellulose synthase" +"CPLX0-8127_RXN" {"CPLX0-8127":1,"G6721-MONOMER":-3} null +"CPLX0-8128_RXN" {"CPLX0-8128":1,"G6912-MONOMER":-4} null +"CPLX0-8129_RXN" {"CPLX0-8129":1,"G6303-MONOMER":-2} "DLP12 prophage; DNA base-flipping protein" +"CPLX0-8152_RXN" {"CPLX0-8152":1,"EG12347-MONOMER":-2,"G7037-MONOMER":-2,"G7039-MONOMER":-1} "cystine ABC transporter" +"CPLX0-8154_RXN" {"CPLX0-8154":1,"G7880-MONOMER":-2} "c-di-GMP-binding biofilm dispersal mediator protein" +"CPLX0-8155_RXN" {"CPLX0-8155":1,"G7816-MONOMER":-2} "periplasmic protein CpxP" +"CPLX0-8156_RXN" {"CPLX0-8156":1,"EG10698-MONOMER":-2} null +"CPLX0-8157_RXN" {"CPLX0-8157":1,"EG10680-MONOMER":-2} "osmotically inducible peroxiredoxin OsmC" +"CPLX0-8158_RXN" {"CPLX0-8158":1,"DLACTDEHYDROGNAD-MONOMER":-4} "D-lactate dehydrogenase" +"CPLX0-8159_RXN" {"CPLX0-8159":1,"G7596-MONOMER":-2} "putrescine aminotransferase" +"CPLX0-8160_RXN" {"CPLX0-8160":1,"SUCC-DEHASE":-3} null +"CPLX0-8163_RXN" {"CPLX0-8163":1,"EG11511-MONOMER":-3} null +"CPLX0-8164_RXN" {"CPLX0-8164":1,"EG10154-MONOMER":-2} null +"CPLX0-8165_RXN" {"CPLX0-8165":1,"EG10976-MONOMER":-4} "ssDNA-binding protein" +"CPLX0-8167_RXN" {"CPLX0-8167":1,"FORMHYDROGI-CPLX":-2} "hydrogenase 1, oxygen tolerant hydrogenase" +"CPLX0-8168_RXN" {"CPLX0-8168":1,"PHOQ-MONOMER":-2} "bifunctional sensor histidine kinase PhoQ" +"CPLX0-8173_RXN" {"CPLX0-8173":1,"EG12845-MONOMER":-2} "CRISPR-associated endoribonuclease Cas2" +"CPLX0-8174_RXN" {"CPLX0-8174":1,"CPLX0-8173":-1,"CPLX0-7914":-1} "Cas1-Cas2 complex" +"CPLX0-8175_RXN" {"CPLX0-8175":1,"EG11859-MONOMER":-2} "sulfurtransferase for molybdenum cofactor sulfuration" +"CPLX0-8176_RXN" {"CPLX0-8176":1,"G7456-MONOMER":-2} null +"CPLX0-8177_RXN" {"CPLX0-8177":1,"MONOMER0-1701":-2} "putative phosphatidylethanolamine synthesis regulator GnsA" +"CPLX0-8180_RXN" {"CPLX0-8180":1,"EG10157-MONOMER":-6} "disaggregating chaperone protein ClpB" +"CPLX0-8181_RXN" {"CPLX0-8181":1,"G6991-MONOMER":-1,"EG11171-MONOMER":-1} "N6-L-threonylcarbamoyladenine synthase, TsaB-TsaD dimer subunit" +"CPLX0-8182_RXN" {"CPLX0-8182":1,"EG11757-MONOMER":-1,"CPLX0-8181":null} "N6-L-threonylcarbamoyladenine synthase" +"CPLX0-8183_RXN" {"CPLX0-8183":1,"EG11652-MONOMER":-3} null +"CPLX0-8184_RXN" {"CPLX0-8184":1,"EG11580-MONOMER":-2} "nonspecific DNA-binding protein YbiB" +"CPLX0-8185_RXN" {"CPLX0-8185":1,"EG12391-MONOMER":-2} "PF10636 family protein YdiE" +"CPLX0-8186_RXN" {"CPLX0-8186":1,"GALACTITOLPDEHYD-MONOMER":-2} null +"CPLX0-8187_RXN" {"CPLX0-8187":1,"G7682-MONOMER":-12} "periplasmic serine endoprotease" +"CPLX0-8188_RXN" {"CPLX0-8188":1,"EG10597-MONOMER":-2,"EG10596-MONOMER":-2} "Z-ring inhibitor complex MinCD" +"CPLX0-8189_RXN" {"CPLX0-8189":1,"G7350-MONOMER":-4} null +"CPLX0-8190_RXN" {"CPLX0-8190":1,"G7021-MONOMER":-4} null +"CPLX0-8191_RXN" {"CPLX0-8191":1,"EG10240-MONOMER":-2} "chaperone protein DnaJ" +"CPLX0-8192_RXN" {"CPLX0-8192":1,"EG10416-MONOMER":-2} "nucleotide exchange factor GrpE" +"CPLX0-8196_RXN" {"CPLX0-8196":1,"EG10596-MONOMER":-2} "Z-ring positioning protein MinC" +"CPLX0-8198_RXN" {"CPLX0-8198":1,"EG12371-MONOMER":-2} "lipoprotein NlpI" +"CPLX0-8199_RXN" {"CPLX0-8199":1,"G6783-MONOMER":-2} "oxygen-sensing c-di-GMP phosphodiesterase DosP" +"CPLX0-8200_RXN" {"CPLX0-8200":1,"G7314-MONOMER":-2} "cyclic di-GMP phosphodiesterase PdeF" +"CPLX0-8201_RXN" {"CPLX0-8201":1,"G7394-MONOMER":-4} "glutarate dioxygenase GlaH" +"CPLX0-8202_RXN" {"CPLX0-8202":1,"ALARACEBIOSYN-MONOMER":-2} "alanine racemase 1" +"CPLX0-8204_RXN" {"CPLX0-8204":1,"EG11918-MONOMER":-8} "signaling pathway modulator ZraP" +"CPLX0-8205_RXN" {"CPLX0-8205":1,"GLUC1PURIDYLTRANS-MONOMER":-4} null +"CPLX0-8206_RXN" {"CPLX0-8206":1,"EG12399-MONOMER":-2} "dihydroxyacetone kinase, phosphotransferase component" +"CPLX0-8207_RXN" {"CPLX0-8207":1,"EG11399-MONOMER":-2} "periplasmic acid stress chaperone HdeB" +"CPLX0-8208_RXN" {"CPLX0-8208":1,"EG10917-MONOMER":null,"EG10905-MONOMER":null} "S6:S18 ribosomal subunit complex" +"CPLX0-8211_RXN" {"CPLX0-8211":1,"THZ-KIN-MONOMER":-2} null +"CPLX0-8212_RXN" {"CPLX0-8212":1,"ERYTHRON4PDEHYDROG-MONOMER":-2} null +"CPLX0-8213_RXN" {"CPLX0-8213":1,"G7060-MONOMER":-1,"G7059-MONOMER":-1} "periplasmic protein-L-methionine sulfoxide reducing system" +"CPLX0-8214_RXN" {"CPLX0-8214":1,"G7853-MONOMER":-2} "carboxylesterase" +"CPLX0-8217_RXN" {"CPLX0-8217":1,"G7005-MONOMER":-2} "free methionine-(R)-sulfoxide reductase" +"CPLX0-8218_RXN" {"CPLX0-8218":1,"G6784-MONOMER":-2} "diguanylate cyclase DosC" +"CPLX0-8219_RXN" {"CPLX0-8219":1,"G7398-MONOMER":-2} "thiosulfate sulfurtransferase YgaP" +"CPLX0-821_RXN" {"CPLX0-821":1,"G7723-MONOMER":-12} "fructoselysine 6-phosphate deglycase" +"CPLX0-8223_RXN" {"CPLX0-8223":1,"EG12179-MONOMER":-2} "transcription antiterminator and regulator of RNA stability" +"CPLX0-8227_RXN" {"CPLX0-8227":1,"EG10307-MONOMER":-1,"EG12374-MONOMER":-1} "FicT-FicA complex" +"CPLX0-8229_RXN" {"CPLX0-8229":1,"G7601-MONOMER":-2} "antitoxin/DNA-binding transcriptional repressor HigA" +"CPLX0-8230_RXN" {"CPLX0-8230":1,"CPLX0-8229":-1,"G7602-MONOMER":-2} "HigB-HigA toxin/antitoxin complex and DNA-binding transcriptional repressor" +"CPLX0-8231_RXN" {"CPLX0-8231":1,"G7641-MONOMER":-2} null +"CPLX0-8232_RXN" {"CPLX0-8232":1,"G6989-MONOMER":null,"G6988-MONOMER":null} "carnitine monooxygenase" +"CPLX0-8233_RXN" {"CPLX0-8233":1,"EG12033-MONOMER":-3} null +"CPLX0-8234_RXN" {"CPLX0-8234":1,"G6209-MONOMER":-4} "DNA-binding transcriptional repressor FrmR" +"CPLX0-8237_RXN" {"CPLX0-8237":1,"G6306-MONOMER":-2} "DLP12 prophage; crossover junction endodeoxyribonuclease RusA" +"CPLX0-8238_RXN" {"CPLX0-8238":1,"NRFD-MONOMER":-1,"NRFC-MONOMER":-1} "putative menaquinol-cytochrome c reductase NrfCD" +"CPLX0-8239_RXN" {"CPLX0-8239":1,"G7657-MONOMER":-1,"EG12181-MONOMER":-1} "Grx4-IbaG complex" +"CPLX0-8240_RXN" {"CPLX0-8240":1,"EG11404-MONOMER":-2} "redox-responsive ATPase YchF" +"CPLX0-8244_RXN" {"CPLX0-8244":1,"G6491-MONOMER":-6} "intermembrane transport protein PqiB" +"CPLX0-8245_RXN" {"CPLX0-8245":1,"EG10018-MONOMER":-4} "regulator of CsrB and CsrC decay" +"CPLX0-8247_RXN" {"CPLX0-8247":1,"URAA-MONOMER":-2} null +"CPLX0-8248_RXN" {"CPLX0-8248":1,"G7192-MONOMER":-4} "phosphodiesterase YfcE" +"CPLX0-8249_RXN" {"CPLX0-8249":1,"G6381-MONOMER":null,"G6380-MONOMER":null,"G6382-MONOMER":null} "5-oxoprolinase" +"CPLX0-8251_RXN" {"CPLX0-8251":1,"EG11157-MONOMER":-2} "amino acid racemase YgeA" +"CPLX0-8252_RXN" {"CPLX0-8252":1,"EG10201-MONOMER":-2} "D-alanyl-D-alanine carboxypeptidase DacA" +"CPLX0-8254_RXN" {"CPLX0-8254":1,"EG10203-MONOMER":-2} "D-alanyl-D-alanine carboxypeptidase DacC" +"CPLX0-8255_RXN" {"CPLX0-8255":1,"PTSG-MONOMER":null,"PD01896":null} "Mlc-PtsG" +"CPLX0-8256_RXN" {"CPLX0-8256":1,"EG10466-MONOMER":-2} "HUαα" +"CPLX0-8259_RXN" {"CPLX0-8259":1,"EG11870-MONOMER":-2} "2-amino-6-N-hydroxylaminopurine resistance protein" +"CPLX0-8260_RXN" {"CPLX0-8260":1,"DTMPKI-MONOMER":-2} "dTMP kinase" +"CPLX0-8261_RXN" {"CPLX0-8261":1,"TDK-MONOMER":null} null +"CPLX0-8262_RXN" {"CPLX0-8262":1,"EG12373-MONOMER":-4} "nucleotide 5'-monophosphate nucleosidase" +"CPLX0-8263_RXN" {"CPLX0-8263":1,"SUGE-MONOMER":-2} "guanidinium exporter" +"CPLX0-8269_RXN" {"CPLX0-8269":1,"G7597-MONOMER":-2} "putative tRNA-binding protein YgjH" +"CPLX0-8270_RXN" {"CPLX0-8270":1,"CPXA-MONOMER":-2} "sensor histidine kinase CpxA" +"CPLX0-8271_RXN" {"CPLX0-8271":1,"EG12209-MONOMER":-2} null +"CPLX0-8275_RXN" {"CPLX0-8275":1,"G7345-MONOMER":-2} "histidine kinase GlrK" +"CPLX0-8280_RXN" {"CPLX0-8280":1,"G6358-MONOMER":-4} "pyrimidine-specific ribonucleoside hydrolase RihA" +"CPLX0-8281_RXN" {"CPLX0-8281":1,"G6865-MONOMER":-2} "DUF945 domain-containing protein YdgA" +"CPLX0-8285_RXN" {"CPLX0-8285":1,"OMPR-MONOMER":-2} "OmpR dimer" +"CPLX0-8288_RXN" {"CPLX0-8288":1,"G6318-MONOMER":-2} "sensor histidine kinase CusS" +"CPLX0-8290_RXN" {"CPLX0-8290":1,"G7248-MONOMER":-2} "aminopeptidase YpdF" +"CPLX0-8291_RXN" {"CPLX0-8291":1,"G7531-MONOMER":-2} "heme chaperone HemW" +"CPLX0-8292_RXN" {"CPLX0-8292":1,"GLUCONREDUCT-MONOMER":-2} null +"CPLX0-8299_RXN" {"CPLX0-8299":1,"PRPPSYN-MONOMER":-6} null +"CPLX0-8300_RXN" {"CPLX0-8300":1,"MONOMER0-4521":-2} "PBP1Bγ" +"CPLX0-8301_RXN" {"CPLX0-8301":1,"G7582-MONOMER":null,"EG11474-MONOMER":null,"EG11333-MONOMER":null,"OCTAPRENYL-METHOXYPHENOL-OH-MONOMER":null,"DHHB-METHYLTRANSFER-MONOMER":null,"OCTAPRENYL-METHYL-METHOXY-BENZOQ-OH-MON":null,"2-OCTAPRENYL-METHOXY-BENZOQ-METH-MONOMER":null} "Ubi complex" +"CPLX0-8302_RXN" {"CPLX0-8302":1,"BARA-MONOMER":-2} "sensor histidine kinase BarA" +"CPLX0-8303_RXN" {"CPLX0-8303":1,"G6520-MONOMER":-2} "putative aminoacrylate hydrolase RutD" +"CPLX0-8304_RXN" {"CPLX0-8304":1,"DCUB-MONOMER":-1,"DCUS-MONOMER":-1} "DcuS-DcuB sensor complex" +"CPLX0-8306_RXN" {"CPLX0-8306":1,"DCTA-MONOMER":-1,"DCUS-MONOMER":-1} "DcuS-DctA sensor complex" +"CPLX0-8308_RXN" {"CPLX0-8308":1,"G7653-MONOMER":-1,"G7652-MONOMER":-1} "ubiquinone biosynthesis complex UbiUV" +"CPLX0-8311_RXN" {"CPLX0-8311":1,"MONOMER0-1041":-2} null +"CPLX0-8312_RXN" {"CPLX0-8312":1,"G6494-MONOMER":null,"PD00257":null} "DNA-binding transcriptional repressor CRP-Sxy" +"CPLX0-8314_RXN" {"CPLX0-8314":1,"EVGS-MONOMER":-2} "sensor histidine kinase EvgS" +"CPLX0-8315_RXN" {"CPLX0-8315":1,"EG10574-MONOMER":-6} "McrB hexamer" +"CPLX0-841_RXN" {"CPLX0-841":1,"EG10571-MONOMER":-2} "MazE antitoxin of the MazF-MazE toxin-antitoxin system / DNA-binding transcriptional repressor" +"CPLX0-8535_RXN" {"CPLX0-8535":1,"EG12396-MONOMER":-2} "putative diguanylate cyclase DgcE" +"CPLX0-8536_RXN" {"CPLX0-8536":1,"EG11210-MONOMER":null} "regulator of diguanylate cyclase RdcA" +"CPLX0-8537_RXN" {"CPLX0-8537":1,"GALACTARDEHYDRA-MONOMER":-2} "galactarate dehydratase" +"CPLX0-8538_RXN" {"CPLX0-8538":1,"G6708-MONOMER":-6} null +"CPLX0-8539_RXN" {"CPLX0-8539":1,"G7689-MONOMER":-1,"EG10741-MONOMER":-1} "metalloprotease TldDE" +"CPLX0-8541_RXN" {"CPLX0-8541":1,"G6414-MONOMER":null,"CPLX0-1923":null} "iron-catecholate outer membrane transport complex I" +"CPLX0-8542_RXN" {"CPLX0-8542":1,"G6174-MONOMER":-2} "cupric reductase RclA" +"CPLX0-8544_RXN" {"CPLX0-8544":1,"G7901-MONOMER":-2} "KpLE2 phage-like element; 2,7-anhydro-N-acetylneuraminate hydratase" +"CPLX0-8545_RXN" {"CPLX0-8545":1,"EG10202-MONOMER":-2} "peptidoglycan DD endopeptidase DacB" +"CPLX0-8547_RXN" {"CPLX0-8547":1,"G6960-MONOMER":-4} null +"CPLX0-8548_RXN" {"CPLX0-8548":1,"G6959-MONOMER":-2} null +"CPLX0-8549_RXN" {"CPLX0-8549":1,"EG11436-MONOMER":-2} "NADPH-dependent aldehyde reductase Ahr" +"CPLX0-8550_RXN" {"CPLX0-8550":1,"G6577-MONOMER":-2} "protein-lysine deacetylase/desuccinylase/lipoamidase" +"CPLX0-8551_RXN" {"CPLX0-8551":1,"G7007-MONOMER":-6} "lipophilic envelope spanning tunnel" +"CPLX0-8553_RXN" {"CPLX0-8553":1,"CPLX0-1923":null,"EG10155-MONOMER":-1} "iron-catecholate outer membrane transport complex II" +"CPLX0-8554_RXN" {"CPLX0-8554":1,"G6652-MONOMER":-4} null +"CPLX0-8555_RXN" {"CPLX0-8555":1,"EG12256-MONOMER":-2} "c-di-GMP phosphodiesterase PdeK" +"CPLX0-8556_RXN" {"CPLX0-8556":1,"EG11257-MONOMER":-2} "diguanylate cyclase DgcC" +"CPLX0-8557_RXN" {"CPLX0-8557":1,"EG10215-MONOMER":-2} "ATP-dependent RNA helicase DeaD" +"CPLX0-8558_RXN" {"CPLX0-8558":1,"THIF-MONOMER":-2} "sulfur carrier protein ThiS adenylyltransferase" +"CPLX0-8560_RXN" {"CPLX0-8560":1,"EG12690-MONOMER":-4} "replication-associated recombination protein A" +"CPLX0-8561_RXN" {"CPLX0-8561":1,"G6329-MONOMER":-2} "methionine transaminase" +"CPLX0-8562_RXN" {"CPLX0-8562":1,"G7696-MONOMER":-3} "hexapeptide repeats-containing protein YrdA" +"CPLX0-8563_RXN" {"CPLX0-8563":1,"G6882-MONOMER":-2} "DNA-binding transcriptional dual regulator SlyA" +"CPLX0-8565_RXN" {"CPLX0-8565":1,"EG11825-MONOMER":-2} "PF02567 family protein YddE" +"CPLX0-861_RXN" {"CPLX0-861":1,"G7055-MONOMER":-2} "protein/nucleic acid deglycase 1" +"CPLX0-881_RXN" {"CPLX0-881":1,"EG10156-MONOMER":-6} "ClpA ATP-dependent protease specificity component and chaperone" +"CPLX0-901_RXN" {"CPLX0-901":1,"EG11372-MONOMER":-2} "tRNA adenosine34 deaminase" +"CPLX0-902_RXN" {"CPLX0-902":1,"EG11761-MONOMER":-2} "tautomerase PptA" +"CPLX0-921_RXN" {"CPLX0-921":1,"G6104-MONOMER":-2} "periplasmic chaperone, inhibitor of vertebrate C-type lysozyme" +"CPLX0-981_RXN" {"CPLX0-981":1,"EG12344-MONOMER":-6} "DNA-binding transcriptional dual regulator PspF" +"CPLXECOLI-7943_RXN" {"CPLXECOLI-7943":1,"G7409-MONOMER":-2} null +"CREC-CPLX_RXN" {"CREC-CPLX":1,"CREC-MONOMER":-2} "sensor histidine kinase CreC" +"CTPSYN-CPLX_RXN" {"CTPSYN-CPLX":1,"CTPSYN-MONOMER":-4} "CTP synthetase" +"CYANLY-CPLX_RXN" {"CYANLY-CPLX":1,"CYANLY-MONOMER":-10} "cyanase" +"CYSSYNMULTI-CPLX_RXN" {"CYSSYNMULTI-CPLX":1,"CPLX0-237":-1,"ACSERLYA-CPLX":-1} "cysteine synthase complex" +"CYSTATHIONINE-BETA-LYASE-CPLX_RXN" {"CYSTATHIONINE-BETA-LYASE-CPLX":1,"CYSTATHIONINE-BETA-LYASE-MONOMER":-4} null +"CYT-D-UBIOX-CPLX_RXN" {"CYT-D-UBIOX-CPLX":1,"CYDA-MONOMER":-1,"CYDB-MONOMER":-1,"MONOMER0-2663":-1,"MONOMER0-2822":-1} "cytochrome bd-I ubiquinol oxidase" +"CYT-O-UBIOX-CPLX_RXN" {"CYT-O-UBIOX-CPLX":1,"CYOD-MONOMER":-1,"CYOA-MONOMER":-1,"CYOB-MONOMER":-1,"CYOC-MONOMER":-1} "cytochrome bo3 ubiquinol oxidase" +"CYTIDEAM-CPLX_RXN" {"CYTIDEAM-CPLX":1,"CYTIDEAM-MONOMER":-2} "cytidine/deoxycytidine deaminase" +"DALADALALIGB-CPLX_RXN" {"DALADALALIGB-CPLX":1,"DALADALALIGB-MONOMER":-2} "D-alanine—D-alanine ligase B" +"DALADEHYDROG-CPLX_RXN" {"DALADEHYDROG-CPLX":1,"DALADEHYDROGA-MONOMER":-2} "D-amino acid dehydrogenase" +"DAPASYN-CPLX_RXN" {"DAPASYN-CPLX":1,"DAPASYN-MONOMER":-2} "adenosylmethionine-8-amino-7-oxononanoate aminotransferase" +"DCTP-DEAM-CPLX_RXN" {"DCTP-DEAM-CPLX":1,"DCTP-DEAM-MONOMER":-3} null +"DCYSDESULF-CPLX_RXN" {"DCYSDESULF-CPLX":1,"DCYSDESULF-MONOMER":-2} null +"DEOA-CPLX_RXN" {"DEOA-CPLX":1,"DEOA-MONOMER":-2} null +"DEOD-CPLX_RXN" {"DEOD-CPLX":1,"DEOD-MONOMER":-6} "purine nucleoside phosphorylase" +"DETHIOBIOTIN-SYN-CPLX_RXN" {"DETHIOBIOTIN-SYN-CPLX":1,"DETHIOBIOTIN-SYN-MONOMER":-2} null +"DGTPTRIPHYDRO-CPLX_RXN" {"DGTPTRIPHYDRO-CPLX":1,"DGTPTRIPHYDRO-MONOMER":-6} null +"DHPDIOXYGEN-CPLX_RXN" {"DHPDIOXYGEN-CPLX":1,"DHPDIOXYGEN-MONOMER":-4} "3-carboxyethylcatechol 2,3-dioxygenase" +"DIACYLGLYKIN-CPLX_RXN" {"DIACYLGLYKIN-CPLX":1,"DIACYLGLYKIN-MONOMER":-3} null +"DIAMINOPIMDECARB-CPLX_RXN" {"DIAMINOPIMDECARB-CPLX":1,"DIAMINOPIMDECARB-MONOMER":-2} null +"DIHYDRODIPICSYN-CPLX_RXN" {"DIHYDRODIPICSYN-CPLX":1,"DIHYDRODIPICSYN-MONOMER":-4} "4-hydroxy-tetrahydrodipicolinate synthase" +"DIHYDROOROT-CPLX_RXN" {"DIHYDROOROT-CPLX":1,"DIHYDROOROT-MONOMER":-2} null +"DIHYDROPICRED-CPLX_RXN" {"DIHYDROPICRED-CPLX":1,"DIHYDROPICRED-MONOMER":-4} "4-hydroxy-tetrahydrodipicolinate reductase" +"DIHYDROPTERIREDUCT-CPLX_RXN" {"DIHYDROPTERIREDUCT-CPLX":1,"DIHYDROPTERIREDUCT-MONOMER":-2} "NAD(P)H nitroreductase NfsB" +"DIHYDROXYACIDDEHYDRAT-CPLX_RXN" {"DIHYDROXYACIDDEHYDRAT-CPLX":1,"DIHYDROXYACIDDEHYDRAT-MONOMER":-2} "dihydroxy-acid dehydratase" +"DIMESULFREDUCT-CPLX_RXN" {"DIMESULFREDUCT-CPLX":1,"DMSA-MONOMER":-1,"DMSB-MONOMER":-1,"DMSC-MONOMER":-1} null +"DIOHBUTANONEPSYN-CPLX_RXN" {"DIOHBUTANONEPSYN-CPLX":1,"DIOHBUTANONEPSYN-MONOMER":-2} null +"DMBPPRIBOSYLTRANS-CPLX_RXN" {"DMBPPRIBOSYLTRANS-CPLX":1,"DMBPPRIBOSYLTRANS-MONOMER":-2} null +"DSBC-CPLX_RXN" {"DSBC-CPLX":1,"DSBC-MONOMER":-2} "protein disulfide isomerase DsbC" +"DSBG-CPLX_RXN" {"DSBG-CPLX":1,"DSBG-MONOMER":-2} "protein sulfenic acid reductase and chaperone DsbG" +"DTDPGLUCDEHYDRAT-CPLX_RXN" {"DTDPGLUCDEHYDRAT-CPLX":1,"DTDPGLUCDEHYDRAT-MONOMER":-2} "dTDP-glucose 4,6-dehydratase 1" +"DUTP-PYROP-CPLX_RXN" {"DUTP-PYROP-CPLX":1,"DUTP-PYROP-MONOMER":-3} "dUTP diphosphatase" +"DXPREDISOM-CPLX_RXN" {"DXPREDISOM-CPLX":1,"DXPREDISOM-MONOMER":-2} null +"E1O_RXN" {"E1O":1,"E1O-MONOMER":-12} "2-oxoglutarate decarboxylase, thiamine-requiring" +"E1P-CPLX_RXN" {"E1P-CPLX":1,"E1P-MONOMER":-2} "pyruvate dehydrogenase" +"E2O_RXN" {"E2O":1,"E2O-MONOMER":-24} null +"E3-CPLX_RXN" {"E3-CPLX":1,"E3-MONOMER":-2} "lipoamide dehydrogenase" +"EIISGA_RXN" {"EIISGA":1,"YJFU-MONOMER":-1,"YJFT-MONOMER":-1,"SGAT-MONOMER":-2} "L-ascorbate specific PTS enzyme II" +"EIISGC_RXN" {"EIISGC":1,"MONOMER0-2121":null,"SGCC-MONOMER":null,"SGCA-MONOMER":null} "putative PTS enzyme II SgcBCA" +"ENOLASE-CPLX_RXN" {"ENOLASE-CPLX":1,"ENOLASE-MONOMER":-2} null +"ENTA-CPLX_RXN" {"ENTA-CPLX":1,"ENTA-MONOMER":-4} null +"ENTE-CPLX_RXN" {"ENTE-CPLX":1,"ENTE-MONOMER":-2} "2,3-dihydroxybenzoate-[aryl-carrier protein] ligase" +"ENTMULTI-CPLX_RXN" {"ENTMULTI-CPLX":1,"ENTB-CPLX":-1,"ENTD-MONOMER":-1,"ENTF-PANT":-1,"ENTE-CPLX":-1} null +"ENVZ-CPLX_RXN" {"ENVZ-CPLX":1,"ENVZ-MONOMER":-2} "sensor histidine kinase EnvZ" +"ERYTH4PDEHYDROG-CPLX_RXN" {"ERYTH4PDEHYDROG-CPLX":1,"ERYTH4PDEHYDROG-MONOMER":-4} null +"ETHAMLY-CPLX_RXN" {"ETHAMLY-CPLX":1,"EUTB-MONOMER":-6,"EUTC-MONOMER":-6} null +"F-1-CPLX_RXN" {"F-1-CPLX":1,"ATPC-MONOMER":-1,"ATPH-MONOMER":-1,"ATPA-CPLX":-1,"ATPG-MONOMER":-1,"ATPD-CPLX":-1} "ATP synthase F1 complex" +"F-O-CPLX_RXN" {"F-O-CPLX":1,"ATPE-CPLX":-1,"ATPF-CPLX":-1,"ATPB-MONOMER":-1} "ATP synthase Fo complex" +"F16B-CPLX_RXN" {"F16B-CPLX":1,"F16B-MONOMER":-4} "fructose-1,6-bisphosphatase 1" +"FABA-CPLX_RXN" {"FABA-CPLX":1,"FABA-MONOMER":-2} "β-hydroxyacyl-acyl carrier protein dehydratase/isomerase" +"FABB-CPLX_RXN" {"FABB-CPLX":1,"FABB-MONOMER":-2} "3-oxoacyl-[acyl carrier protein] synthase 1" +"FABZ-CPLX_RXN" {"FABZ-CPLX":1,"FABZ-MONOMER":-6} "3-hydroxy-acyl-[acyl-carrier-protein] dehydratase" +"FAO-CPLX_RXN" {"FAO-CPLX":1,"FADB-MONOMER":-2,"FADA-MONOMER":-2} "aerobic fatty acid oxidation complex" +"FHLMULTI-CPLX_RXN" {"FHLMULTI-CPLX":1,"FORMATEDEHYDROGH-MONOMER":-1,"HYDROG3-CPLX":-1} null +"FLAGELLAR-MOTOR-COMPLEX_RXN" {"FLAGELLAR-MOTOR-COMPLEX":1,"CPLX0-7450":null,"FLGH-FLAGELLAR-L-RING":null,"MOTA-FLAGELLAR-MOTOR-STATOR-PROTEIN":null,"MOTB-FLAGELLAR-MOTOR-STATOR-PROTEIN":null,"FLGB-FLAGELLAR-MOTOR-ROD-PROTEIN":null,"FLGC-FLAGELLAR-MOTOR-ROD-PROTEIN":null,"FLGF-FLAGELLAR-MOTOR-ROD-PROTEIN":null,"FLGG-FLAGELLAR-MOTOR-ROD-PROTEIN":null,"FLGI-FLAGELLAR-P-RING":null,"FLIF-FLAGELLAR-MS-RING":null} "flagellar basal body" +"FOLD-CPLX_RXN" {"FOLD-CPLX":1,"FOLD-MONOMER":-2} "bifunctional methylenetetrahydrofolate dehydrogenase / methenyltetrahydrofolate cyclohydrolase" +"FOLE-CPLX_RXN" {"FOLE-CPLX":1,"GTP-CYCLOHYDRO-I-MONOMER":-10} "GTP cyclohydrolase 1" +"FOLXTET-CPLX_RXN" {"FOLXTET-CPLX":1,"H2NTPEPIM-MONOMER":-8} "dihydroneopterin triphosphate 2'-epimerase" +"FORMATEDEHYDROGN-CPLX_RXN" {"FORMATEDEHYDROGN-CPLX":1,"ALPHA-SUBUNIT-CPLX":-3} null +"FORMATEDEHYDROGO-CPLX_RXN" {"FORMATEDEHYDROGO-CPLX":1,"FDOG-MONOMER":-1,"FDOH-MONOMER":-1,"FDOI-MONOMER":-1} "formate dehydrogenase O" +"FORMHYDROG2-CPLX_RXN" {"FORMHYDROG2-CPLX":1,"HYBA-MONOMER":-1,"EG11800-MONOMER":-1,"MONOMER0-145":-1,"HYBC-MONOMER":-1} "hydrogenase 2" +"FORMHYDROGI-CPLX_RXN" {"FORMHYDROGI-CPLX":1,"HYAA-MONOMER":-2,"HYAB-MONOMER":-2,"HYAC-MONOMER":-1} "hydrogenase 1" +"FORMYLTHFDEFORMYL-CPLX_RXN" {"FORMYLTHFDEFORMYL-CPLX":1,"FORMYLTHFDEFORMYL-MONOMER":-6} null +"FRUCBISALD-CLASSII_RXN" {"FRUCBISALD-CLASSII":1,"FRUCTBISALD-CLASSII-MONOMER":-2} "fructose-bisphosphate aldolase class II" +"FRUCBISALD-CLASSI_RXN" {"FRUCBISALD-CLASSI":1,"FRUCBISALD-CLASSI-MONOMER":-10} "fructose-bisphosphate aldolase class I" +"FUMARASE-A_RXN" {"FUMARASE-A":1,"FUMA-MONOMER":-2} "fumarase A" +"FUMARASE-B_RXN" {"FUMARASE-B":1,"FUMB-MONOMER":-2} "fumarase B" +"FUMARASE-C_RXN" {"FUMARASE-C":1,"FUMC-MONOMER":-4} "fumarase C" +"FUMARATE-REDUCTASE_RXN" {"FUMARATE-REDUCTASE":1,"FUM-FLAVO":-1,"FUM-FE-S":-1,"FUM-MEMB1":-1,"FUM-MEMB2":-1} null +"GABATRANSAM-CPLX_RXN" {"GABATRANSAM-CPLX":1,"GABATRANSAM-MONOMER":-2} "4-aminobutyrate aminotransferase GabT" +"GALACTOACETYLTRAN-CPLX_RXN" {"GALACTOACETYLTRAN-CPLX":1,"GALACTOACETYLTRAN-MONOMER":-3} null +"GALACTURIDYLYLTRANS-CPLX_RXN" {"GALACTURIDYLYLTRANS-CPLX":1,"GALACTURIDYLYLTRANS-MONOMER":-2} "galactose-1-phosphate uridylyltransferase" +"GAPDH-A-CPLX_RXN" {"GAPDH-A-CPLX":1,"GAPDH-A-MONOMER":-4} null +"GCVMULTI-CPLX_RXN" {"GCVMULTI-CPLX":1,"E3-CPLX":-1,"GCVP-CPLX":-1,"LIPOYL-GCVH":-1,"GCVT-MONOMER":-1} "glycine cleavage system" +"GCVP-CPLX_RXN" {"GCVP-CPLX":1,"GCVP-MONOMER":-2} null +"GDHA-CPLX_RXN" {"GDHA-CPLX":1,"GDHA-MONOMER":-6} "glutamate dehydrogenase" +"GDPMANDEHYDRA-CPLX_RXN" {"GDPMANDEHYDRA-CPLX":1,"GDPMANDEHYDRA-MONOMER":-2} null +"GLNG-CPLX_RXN" {"GLNG-CPLX":1,"PROTEIN-NRI":-2} "DNA-binding transcriptional dual regulator NtrC" +"GLNL-CPLX_RXN" {"GLNL-CPLX":1,"PROTEIN-NRII":-2} "protein histidine kinase NtrB" +"GLUC1PADENYLTRANS-CPLX_RXN" {"GLUC1PADENYLTRANS-CPLX":1,"GLUC1PADENYLTRANS-MONOMER":-4} null +"GLUCONOKINII-CPLX_RXN" {"GLUCONOKINII-CPLX":1,"GLUCONOKINII-MONOMER":-2} "D-gluconate kinase, thermostable" +"GLUCOSAMINE-6-P-DEAMIN-CPLX_RXN" {"GLUCOSAMINE-6-P-DEAMIN-CPLX":1,"GLUCOSAMINE-6-P-DEAMIN-MONOMER":-6} null +"GLUCOSE-1-PHOSPHAT-CPLX_RXN" {"GLUCOSE-1-PHOSPHAT-CPLX":1,"GLUCOSE-1-PHOSPHAT-MONOMER":-2} "glucose-1-phosphatase" +"GLUTAMATESYN-CPLX_RXN" {"GLUTAMATESYN-CPLX":1,"GLUTAMATESYN-DIMER":-4} "glutamate synthase" +"GLUTAMATESYN-DIMER_RXN" {"GLUTAMATESYN-DIMER":1,"GLUSYNSMALL-MONOMER":-1,"GLUSYNLARGE-MONOMER":-1} "glutamate synthase" +"GLUTAMIDOTRANS-CPLX_RXN" {"GLUTAMIDOTRANS-CPLX":1,"GLUTAMIDOTRANS-MONOMER":-1,"CYCLASE-MONOMER":-1} null +"GLUTAMINESYN-OLIGOMER_RXN" {"GLUTAMINESYN-OLIGOMER":1,"GLUTAMINESYN-MONOMER":-12} null +"GLUTATHIONE-REDUCT-NADPH-CPLX_RXN" {"GLUTATHIONE-REDUCT-NADPH-CPLX":1,"GLUTATHIONE-REDUCT-NADPH-MONOMER":-2} null +"GLUTATHIONE-SYN-CPLX_RXN" {"GLUTATHIONE-SYN-CPLX":1,"GLUTATHIONE-SYN-MONOMER":-4} null +"GLUTDECARBOXA-CPLX_RXN" {"GLUTDECARBOXA-CPLX":1,"GLUTDECARBOXA-MONOMER":-6} null +"GLUTDECARBOXB-CPLX_RXN" {"GLUTDECARBOXB-CPLX":1,"GLUTDECARBOXB-MONOMER":-6} null +"GLUTKIN-CPLX_RXN" {"GLUTKIN-CPLX":1,"GLUTKIN-MONOMER":-4} "glutamate 5-kinase" +"GLUTSEMIALDEHYDROG-CPLX_RXN" {"GLUTSEMIALDEHYDROG-CPLX":1,"GLUTSEMIALDEHYDROG-MONOMER":-4} null +"GLYC3PDEHYDROGBIOSYN-CPLX_RXN" {"GLYC3PDEHYDROGBIOSYN-CPLX":1,"GLYC3PDEHYDROGBIOSYN-MONOMER":-2} "glycerol-3-phosphate dehydrogenase, biosynthetic" +"GLYCDEH-CPLX_RXN" {"GLYCDEH-CPLX":1,"GLYCDEH-MONOMER":-8} "L-1,2-propanediol dehydrogenase / glycerol dehydrogenase" +"GLYCEROL-KIN-CPLX_RXN" {"GLYCEROL-KIN-CPLX":1,"GLYCEROL-KIN-MONOMER":-4} null +"GLYCOPHOSPHORYL-CPLX_RXN" {"GLYCOPHOSPHORYL-CPLX":1,"GLYCOPHOSPHORYL-MONOMER":-2} null +"GLYCPDIESTER-PERI-CPLX_RXN" {"GLYCPDIESTER-PERI-CPLX":1,"GLYCPDIESTER-PERI-MONOMER":-2} "glycerophosphoryl diester phosphodiesterase, periplasmic" +"GLYOCARBOLIG-CPLX_RXN" {"GLYOCARBOLIG-CPLX":1,"GLYOCARBOLIG-MONOMER":-2} null +"GLYOHMETRANS-CPLX_RXN" {"GLYOHMETRANS-CPLX":1,"GLYOHMETRANS-MONOMER":-2} "serine hydroxymethyltransferase" +"GLYOXI-CPLX_RXN" {"GLYOXI-CPLX":1,"GLYOXI-MONOMER":-2} "glyoxalase I" +"GLYS-CPLX_RXN" {"GLYS-CPLX":1,"GLYS-MONOMER":-2,"GLYQ-MONOMER":-2} "glycine—tRNA ligase" +"GMP-REDUCT-CPLX_RXN" {"GMP-REDUCT-CPLX":1,"GMP-REDUCT-MONOMER":-4} null +"GMP-SYN-CPLX_RXN" {"GMP-SYN-CPLX":1,"GMP-SYN-MONOMER":-2} "GMP synthetase" +"GPT-CPLX_RXN" {"GPT-CPLX":1,"GPT-MONOMER":-4} "xanthine-guanine phosphoribosyltransferase" +"GSAAMINOTRANS-CPLX_RXN" {"GSAAMINOTRANS-CPLX":1,"GSAAMINOTRANS-MONOMER":-2} null +"GSP-CPLX_RXN" {"GSP-CPLX":1,"GSP-MONOMER":-2} "fused glutathionylspermidine amidase / glutathionylspermidine synthetase" +"GST-CPLX_RXN" {"GST-CPLX":1,"GST-MONOMER":-2} "glutathione S-transferase GstA" +"GTP-CYCLOHYDRO-II-CPLX_RXN" {"GTP-CYCLOHYDRO-II-CPLX":1,"GTP-CYCLOHYDRO-II-MONOMER":-2} "GTP cyclohydrolase 2" +"GUANYL-KIN-CPLX_RXN" {"GUANYL-KIN-CPLX":1,"GUANYL-KIN-MONOMER":-2} "guanylate kinase" +"H2PTEROATESYNTH-CPLX_RXN" {"H2PTEROATESYNTH-CPLX":1,"H2PTEROATESYNTH-MONOMER":-2} null +"HCAMULTI-CPLX_RXN" {"HCAMULTI-CPLX":1,"HCAC-MONOMER":null,"HCAD-MONOMER":null,"HCAA2-MONOMER":null,"PHENYLPRODIOXY-MONOMER":null} "putative 3-phenylpropionate/cinnamate dioxygenase" +"HISS-CPLX_RXN" {"HISS-CPLX":1,"HISS-MONOMER":-2} null +"HISTDEHYD-CPLX_RXN" {"HISTDEHYD-CPLX":1,"HISTDEHYD-MONOMER":-2} null +"HISTPHOSTRANS-CPLX_RXN" {"HISTPHOSTRANS-CPLX":1,"HISTPHOSTRANS-MONOMER":-2} "histidinol-phosphate aminotransferase" +"HMP-P-KIN-CPLX_RXN" {"HMP-P-KIN-CPLX":1,"HMP-P-KIN-MONOMER":-4} null +"HOLO-ACP-SYNTH-CPLX_RXN" {"HOLO-ACP-SYNTH-CPLX":1,"HOLO-ACP-SYNTH-MONOMER":-2} null +"HOMOSERKIN-CPLX_RXN" {"HOMOSERKIN-CPLX":1,"HOMOSERKIN-MONOMER":-2} "homoserine kinase" +"HOMSUCTRAN-CPLX_RXN" {"HOMSUCTRAN-CPLX":1,"HOMSUCTRAN-MONOMER":-2} null +"HYDROG3-CPLX_RXN" {"HYDROG3-CPLX":1,"HYCD-MONOMER":null,"HYCC-MONOMER":null,"HYCF-MONOMER":null,"HYCG-MONOMER":null,"HYCBSMALL-MONOMER":null,"HYCELARGE-MONOMER":null} "hydrogenase 3" +"HYDROPEROXIDI-CPLX_RXN" {"HYDROPEROXIDI-CPLX":1,"HYDROPEROXIDI-MONOMER":-4} "catalase/hydroperoxidase HPI" +"HYDROPEROXIDII-CPLX_RXN" {"HYDROPEROXIDII-CPLX":1,"HYDROPEROXIDII-MONOMER":-4} "catalase HPII" +"IMIDHISTID-CPLX_RXN" {"IMIDHISTID-CPLX":1,"IMIDPHOSPHADEHYDHISTIDPHOSPHA-MONOMER":-2} null +"IMP-DEHYDROG-CPLX_RXN" {"IMP-DEHYDROG-CPLX":1,"IMP-DEHYDROG-MONOMER":-4} null +"ISOCIT-LYASE_RXN" {"ISOCIT-LYASE":1,"ISOCIT-LYASE-MONOMER":-4} null +"ISOCITHASE-CPLX_RXN" {"ISOCITHASE-CPLX":1,"ISOCITDEH-SUBUNIT":-2} null +"KDO-8PPHOSPHAT-CPLX_RXN" {"KDO-8PPHOSPHAT-CPLX":1,"G7663-MONOMER":-4} "3-deoxy-D-manno-octulosonate 8-phosphate phosphatase KdsC" +"KDO-8PSYNTH-CPLX_RXN" {"KDO-8PSYNTH-CPLX":1,"KDO-8PSYNTH-MONOMER":-4} "3-deoxy-D-manno-octulosonate 8-phosphate synthase" +"KDPD-CPLX_RXN" {"KDPD-CPLX":1,"KDPD-MONOMER":-2} "sensor histidine kinase KdpD" +"KDPGALDOL-4OH2OXOGLUTARALDOL-CPLX_RXN" {"KDPGALDOL-4OH2OXOGLUTARALDOL-CPLX":1,"KDPGALDOL-4OH2OXOGLUTARALDOL-MONOMER":-3} "KHG/KDPG aldolase" +"L-GLN-FRUCT-6-P-AMINOTRANS-CPLX_RXN" {"L-GLN-FRUCT-6-P-AMINOTRANS-CPLX":1,"L-GLN-FRUCT-6-P-AMINOTRANS-MONOMER":-2} "L-glutamine—D-fructose-6-phosphate aminotransferase" +"LACTALDREDUCT-CPLX_RXN" {"LACTALDREDUCT-CPLX":1,"LACTALDREDUCT-MONOMER":-2} "L-1,2-propanediol oxidoreductase" +"LDC2-CPLX_RXN" {"LDC2-CPLX":1,"LDC2-MONOMER":-10} "lysine decarboxylase 2" +"LTAA-CPLX_RXN" {"LTAA-CPLX":1,"LTAA-MONOMER":-4} "low-specificity L-threonine aldolase" +"LTARTDEHYDRA-CPLX_RXN" {"LTARTDEHYDRA-CPLX":1,"TTDA-MONOMER":-2,"TTDB-MONOMER":-2} null +"LUMAZINESYN-CPLX_RXN" {"LUMAZINESYN-CPLX":1,"LUMAZINESYN-MONOMER":-60} "6,7-dimethyl-8-ribityllumazine synthase" +"LYSDECARBOX-CPLX_RXN" {"LYSDECARBOX-CPLX":1,"LYSDECARBOX-MONOMER":-10} "lysine decarboxylase 1" +"LYSS-CPLX_RXN" {"LYSS-CPLX":1,"LYSS-MONOMER":-2} "lysine—tRNA ligase, constitutive" +"LYSU-CPLX_RXN" {"LYSU-CPLX":1,"LYSU-MONOMER":-2} null +"LYXK-CPLX_RXN" {"LYXK-CPLX":1,"LYXK-MONOMER":-2} "L-xylulose kinase" +"MALATE-DEHASE_RXN" {"MALATE-DEHASE":1,"MALATE-DEHASE-MONOMER":-2} null +"MALDEXPHOSPHORYL-CPLX_RXN" {"MALDEXPHOSPHORYL-CPLX":1,"MALDEXPHOSPHORYL-MONOMER":-2} null +"MALIC-NAD-CPLX_RXN" {"MALIC-NAD-CPLX":1,"MALIC-NAD-MONOMER":-4} "NAD+-dependent malate dehydrogenase" +"MALIC-NADP-CPLX_RXN" {"MALIC-NADP-CPLX":1,"MALIC-NADP-MONOMER":-6} "NADP+-dependent malate dehydrogenase" +"MALTACETYLTRAN-CPLX_RXN" {"MALTACETYLTRAN-CPLX":1,"MALTACETYLTRAN-MONOMER":-3} "maltose O-acetyltransferase" +"MENE-CPLX_RXN" {"MENE-CPLX":1,"O-SUCCINYLBENZOATE-COA-LIG-MONOMER":-4} null +"MENF-CPLX_RXN" {"MENF-CPLX":1,"MENF-MONOMER":-2} "isochorismate synthase MenF" +"METG-CPLX_RXN" {"METG-CPLX":1,"METG-MONOMER":-2} null +"METHGLYSYN-CPLX_RXN" {"METHGLYSYN-CPLX":1,"METHGLYSYN-MONOMER":-6} "methylglyoxal synthase" +"METHYLENETHFREDUCT-CPLX_RXN" {"METHYLENETHFREDUCT-CPLX":1,"METHYLENETHFREDUCT-MONOMER":-4} null +"METNIQ-METHIONINE-ABC-CPLX_RXN" {"METNIQ-METHIONINE-ABC-CPLX":1,"ABC-MONOMER":-2,"METI-MONOMER":-2,"METQ-MONOMER":-1} "L-methionine/D-methionine ABC transporter" +"MUTHLS-CPLX_RXN" {"MUTHLS-CPLX":1,"EG11281-MONOMER":null,"EG10625-MONOMER":-2,"EG10624-MONOMER":null} "MutHLS complex, methyl-directed mismatch repair" +"N-ACETYLTRANSFER-CPLX_RXN" {"N-ACETYLTRANSFER-CPLX":1,"N-ACETYLTRANSFER-MONOMER":-6} "N-acetylglutamate synthase" +"NAD-SYNTH-CPLX_RXN" {"NAD-SYNTH-CPLX":1,"NAD-SYNTH-MONOMER":-2} "NH3-dependent NAD+ synthetase" +"NADH-DHI-CPLX_RXN" {"NADH-DHI-CPLX":1,"NUOA-MONOMER":-1,"NUOH-MONOMER":-1,"NUOJ-MONOMER":-1,"NUOK-MONOMER":-1,"NUOL-MONOMER":-1,"NUOM-MONOMER":-1,"NUON-MONOMER":-1,"CPLX0-3361":-1} "NADH:quinone oxidoreductase I" +"NAG1P-URIDYLTRANS-CPLX_RXN" {"NAG1P-URIDYLTRANS-CPLX":1,"NAG1P-URIDYLTRANS-MONOMER":-3} "fused N-acetylglucosamine-1-phosphate uridyltransferase and glucosamine-1-phosphate acetyltransferase" +"NAG6PDEACET-CPLX_RXN" {"NAG6PDEACET-CPLX":1,"NAG6PDEACET-MONOMER":-4} null +"NAP-CPLX_RXN" {"NAP-CPLX":1,"NAPB-MONOMER":-1,"NAPA-MONOMER":-1} "periplasmic nitrate reductase" +"NARQ-CPLX_RXN" {"NARQ-CPLX":1,"NARQ-MONOMER":-2} "sensory histidine kinase NarQ" +"NARX-CPLX_RXN" {"NARX-CPLX":1,"NARX-MONOMER":-2} "sensory histidine kinase NarX" +"NITRATREDUCTA-CPLX_RXN" {"NITRATREDUCTA-CPLX":1,"NARG-MONOMER":-2,"NARH-MONOMER":-2,"NARI-MONOMER":-2} "nitrate reductase A" +"NITRATREDUCTZ-CPLX_RXN" {"NITRATREDUCTZ-CPLX":1,"NARY-MONOMER":-1,"NARZ-MONOMER":-1,"NARV-MONOMER":-1} "nitrate reductase Z" +"NITRITREDUCT-CPLX_RXN" {"NITRITREDUCT-CPLX":1,"NIRD-MONOMER":null,"NIRB-MONOMER":null} null +"NQOR-CPLX_RXN" {"NQOR-CPLX":1,"NQOR-MONOMER":-2} null +"NRDACTMULTI-CPLX_RXN" {"NRDACTMULTI-CPLX":1,"RIBONUCLEOSIDE-TRIP-REDUCT-CPLX":null,"CPLX0-229":null} "anaerobic nucleoside-triphosphate reductase activating system" +"NRDE-CPLX_RXN" {"NRDE-CPLX":1,"NRDE-MONOMER":-2} "ribonucleoside-diphosphate reductase 2, α subunit dimer" +"NRDF-CPLX_RXN" {"NRDF-CPLX":1,"NRDF-MONOMER":-2} "ribonucleoside-diphosphate reductase 2, β subunit dimer" +"NRFMULTI-CPLX_RXN" {"NRFMULTI-CPLX":1,"CYTOCHROMEC552-MONOMER":-1,"CYTOCHROMEC-MONOMER":-1} "periplasmic nitrite reductase NrfAB" +"NUCLEOSIDE-DIP-KIN-CPLX_RXN" {"NUCLEOSIDE-DIP-KIN-CPLX":1,"NUCLEOSIDE-DIP-KIN-MONOMER":-4} "nucleoside diphosphate kinase" +"O-SUCCHOMOSERLYASE-CPLX_RXN" {"O-SUCCHOMOSERLYASE-CPLX":1,"O-SUCCHOMOSERLYASE-MONOMER":-4} null +"ORNCARBAMTRANSFERF-CPLX_RXN" {"ORNCARBAMTRANSFERF-CPLX":1,"CHAINF-MONOMER":-3} "ornithine carbamoyltransferase" +"ORNCARBAMTRANSFERI-CPLX_RXN" {"ORNCARBAMTRANSFERI-CPLX":1,"CHAINI-MONOMER":-3} "ornithine carbamoyltransferase" +"ORNDECARBOX-BIO-CPLX_RXN" {"ORNDECARBOX-BIO-CPLX":1,"ORNDECARBOX-BIO-MONOMER":-2} "constitutive ornithine decarboxylase" +"ORNDECARBOXDEG-CPLX_RXN" {"ORNDECARBOXDEG-CPLX":1,"ORNDECARBOXDEG-MONOMER":-2} "inducible ornithine decarboxylase" +"OROPRIBTRANS-CPLX_RXN" {"OROPRIBTRANS-CPLX":1,"OROPRIBTRANS-MONOMER":-2} null +"OROTPDECARB-CPLX_RXN" {"OROTPDECARB-CPLX":1,"OROTPDECARB-MONOMER":-2} null +"PABASYN-CPLX_RXN" {"PABASYN-CPLX":1,"PABASYN-COMPI-MONOMER":-1,"PABASYN-COMPII-MONOMER":-1} null +"PANTOATE-BETA-ALANINE-LIG-CPLX_RXN" {"PANTOATE-BETA-ALANINE-LIG-CPLX":1,"PANTOATE-BETA-ALANINE-LIG-MONOMER":-2} null +"PANTOTHENATE-KIN-CPLX_RXN" {"PANTOTHENATE-KIN-CPLX":1,"PANTOTHENATE-KIN-MONOMER":-2} null +"PAPSSULFOTRANS-CPLX_RXN" {"PAPSSULFOTRANS-CPLX":1,"PAPSSULFOTRANS-MONOMER":-2} null +"PC00003_RXN" {"PC00003":1,"PD00242":-2} "DNA-binding transcriptional dual regulator AraC" +"PC00004_RXN" {"PC00004":1,"PD00257":-2} "DNA-binding transcriptional dual regulator CRP" +"PC00005_RXN" {"PC00005":1,"PD00194":-6} "DNA-binding transcriptional dual regulator ArgR" +"PC00007_RXN" {"PC00007":1,"PD00423":-2} "DNA-binding transcriptional repressor TrpR" +"PC00010_RXN" {"PC00010":1,"PD00205":-2} "DNA-binding transcriptional repressor LexA" +"PC00027_RXN" {"PC00027":1,"PD00347":null,"PD00348":null} "DNA-binding transcriptional dual regulator IHF" +"PC00033_RXN" {"PC00033":1,"PD00219":-2} "DNA-binding transcriptional repressor PurR" +"PC00040_RXN" {"PC00040":1,"PD00232":-4} "DNA-binding transcriptional dual regulator CysB" +"PC00061_RXN" {"PC00061":1,"PD00521":-4} "DNA-binding transcriptional dual regulator Cra" +"PC00084_RXN" {"PC00084":1,"RCSB-MONOMER":-1,"PD02233":-1} "RcsAB DNA-binding transcriptional dual regulator" +"PC00086_RXN" {"PC00086":1,"PD00221":-2} "transcriptional activator RhaS" +"PC00103_RXN" {"PC00103":1,"PD01103":-2} "DNA-binding transcriptional repressor MngR" +"PDXH-CPLX_RXN" {"PDXH-CPLX":1,"PDXH-MONOMER":-2} null +"PDXK-CPLX_RXN" {"PDXK-CPLX":1,"PDXK-MONOMER":-2} "pyridoxal kinase I / hydroxymethylpyrimidine kinase" +"PEPCARBOX-CPLX_RXN" {"PEPCARBOX-CPLX":1,"PEPCARBOX-MONOMER":-4} null +"PEPSYNTH-CPLX_RXN" {"PEPSYNTH-CPLX":1,"PEPSYNTH-MONOMER":-2} "phosphoenolpyruvate synthetase" +"PGLYCDEHYDROG-CPLX_RXN" {"PGLYCDEHYDROG-CPLX":1,"PGLYCDEHYDROG-MONOMER":-4} "phosphoglycerate dehydrogenase" +"PHENDEHYD-CPLX_RXN" {"PHENDEHYD-CPLX":1,"PHENDEHYD-MONOMER":-4} null +"PHES-CPLX_RXN" {"PHES-CPLX":1,"PHES-MONOMER":-2,"PHET-MONOMER":-2} "phenylalanine—tRNA ligase" +"PHOR-CPLX_RXN" {"PHOR-CPLX":1,"PHOR-MONOMER":-2} "sensor histidine kinase PhoR" +"PHOSACETYLTRANS-CPLX_RXN" {"PHOSACETYLTRANS-CPLX":1,"PHOSACETYLTRANS-MONOMER":-6} "phosphate acetyltransferase" +"PHOSGLYCMUTASE_RXN" {"PHOSGLYCMUTASE":1,"GPMA-MONOMER":-2} "2,3-bisphosphoglycerate-dependent phosphoglycerate mutase" +"PHOSPHASERDECARB-DIMER_RXN" {"PHOSPHASERDECARB-DIMER":1,"PHOSPHASERDECARB-BETA-MONOMER":-2,"PHOSPHASERDECARB-ALPHA-MONOMER":-2} "phosphatidylserine decarboxylase" +"PII2-CPLX_RXN" {"PII2-CPLX":1,"PROTEIN-PII2":-3} "nitrogen regulatory protein PII-2" +"PIIPROTEIN-CPLX_RXN" {"PIIPROTEIN-CPLX":1,"PROTEIN-PII":-3} "nitrogen regulatory protein PII-1" +"PKI-COMPLEX_RXN" {"PKI-COMPLEX":1,"PKI-MONOMER":-4} "pyruvate kinase I" +"PKII-CPLX_RXN" {"PKII-CPLX":1,"PKII-MONOMER":-4} "pyruvate kinase II" +"PORPHOBILSYNTH-CPLX_RXN" {"PORPHOBILSYNTH-CPLX":1,"PORPHOBILSYNTH-MONOMER":-8} null +"PPK-CPLX_RXN" {"PPK-CPLX":1,"PPK-MONOMER":-2} null +"PPPGPPHYDRO-CPLX_RXN" {"PPPGPPHYDRO-CPLX":1,"PPPGPPHYDRO-MONOMER":-2} null +"PPX-CPLX_RXN" {"PPX-CPLX":1,"PPX-MONOMER":-2} null +"PROS-CPLX_RXN" {"PROS-CPLX":1,"PROS-MONOMER":-2} null +"PRPPAMIDOTRANS-CPLX_RXN" {"PRPPAMIDOTRANS-CPLX":1,"PRPPAMIDOTRANS-MONOMER":-4} null +"PSERTRANSAM-CPLX_RXN" {"PSERTRANSAM-CPLX":1,"PSERTRANSAM-MONOMER":-2} "phosphoserine/phosphohydroxythreonine aminotransferase" +"PURE-CPLX_RXN" {"PURE-CPLX":1,"PURE-MONOMER":-8} "N5-carboxyaminoimidazole ribonucleotide mutase" +"PURK-CPLX_RXN" {"PURK-CPLX":1,"PURK-MONOMER":-2} null +"PUTA-CPLX_RXN" {"PUTA-CPLX":1,"PUTA-MONOMER":-2} "fused DNA-binding transcriptional repressor / proline dehydrogenase / 1-pyrroline-5-carboxylate dehydrogenase PutA" +"PYRNUTRANSHYDROGEN-CPLX_RXN" {"PYRNUTRANSHYDROGEN-CPLX":1,"PNTB-MONOMER":-2,"PNTA-MONOMER":-2} null +"PYRROLINECARBREDUCT-CPLX_RXN" {"PYRROLINECARBREDUCT-CPLX":1,"PYRROLINECARBREDUCT-MONOMER":-10} null +"PYRUVATEDEH-CPLX_RXN" {"PYRUVATEDEH-CPLX":1,"E1P-CPLX":-12,"E2P-MONOMER":-24,"E3-CPLX":-6} null +"PYRUVFORMLY-INACTIVE-CPLX_RXN" {"PYRUVFORMLY-INACTIVE-CPLX":1,"PYRUVFORMLY-MONOMER":-2} "pyruvate formate-lyase (inactive)" +"PYRUVOXID-CPLX_RXN" {"PYRUVOXID-CPLX":1,"PYRUVOXID-MONOMER":-4} "pyruvate oxidase" +"QOR-CPLX_RXN" {"QOR-CPLX":1,"QOR-MONOMER":-2} "putative quinone oxidoreductase 1" +"QUINOPRIBOTRANS-CPLX_RXN" {"QUINOPRIBOTRANS-CPLX":1,"QUINOPRIBOTRANS-MONOMER":-2} "quinolinate phosphoribosyltransferase (decarboxylating)" +"RECBCD_RXN" {"RECBCD":1,"EG10826-MONOMER":-1,"EG10825-MONOMER":-1,"EG10824-MONOMER":-1} "exodeoxyribonuclease V" +"RECFOR-CPLX_RXN" {"RECFOR-CPLX":1,"EG10828-MONOMER":null,"EG10834-MONOMER":null,"EG10832-MONOMER":null} "RecFOR complex" +"RHAMNULPALDOL-CPLX_RXN" {"RHAMNULPALDOL-CPLX":1,"RHAMNULPALDOL-MONOMER":-4} null +"RIB5PISOMA-CPLX_RXN" {"RIB5PISOMA-CPLX":1,"RIB5PISOMA-MONOMER":-2} "ribose-5-phosphate isomerase A" +"RIB5PISOMB-CPLX_RXN" {"RIB5PISOMB-CPLX":1,"RIB5PISOMB-MONOMER":-2} "allose-6-phosphate isomerase / ribose-5-phosphate isomerase B" +"RIBONUCLEOSIDE-DIP-REDUCTI-CPLX_RXN" {"RIBONUCLEOSIDE-DIP-REDUCTI-CPLX":1,"B1-CPLX":-1,"B2-CPLX":-1} "ribonucleoside-diphosphate reductase 1" +"RIBONUCLEOSIDE-DIP-REDUCTII-CPLX_RXN" {"RIBONUCLEOSIDE-DIP-REDUCTII-CPLX":1,"NRDE-CPLX":-1,"NRDF-CPLX":-1} "ribonucleoside-diphosphate reductase 2" +"RIBONUCLEOSIDE-TRIP-REDUCT-CPLX_RXN" {"RIBONUCLEOSIDE-TRIP-REDUCT-CPLX":1,"RIBONUCLEOSIDE-TRIP-REDUCT-MONOMER":-2} "anaerobic ribonucleoside-triphosphate reductase" +"RIBULOKIN-CPLX_RXN" {"RIBULOKIN-CPLX":1,"RIBULOKIN-MONOMER":-2} null +"RIBULPEPIM-CPLX_RXN" {"RIBULPEPIM-CPLX":1,"RIBULPEPIM-MONOMER":-4} "L-ribulose-5-phosphate 4-epimerase AraD" +"RNAP32-CPLX_RXN" {"RNAP32-CPLX":1,"APORNAP-CPLX":-1,"RPOH-MONOMER":-1} "RNA polymerase sigma 32" +"RNAP54-CPLX_RXN" {"RNAP54-CPLX":1,"APORNAP-CPLX":-1,"RPON-MONOMER":-1} "RNA polymerase sigma 54" +"RNAP70-CPLX_RXN" {"RNAP70-CPLX":1,"APORNAP-CPLX":-1,"RPOD-MONOMER":-1} "RNA polymerase sigma 70" +"RNAPE-CPLX_RXN" {"RNAPE-CPLX":1,"APORNAP-CPLX":-1,"RPOE-MONOMER":-1} "RNA polymerase sigma 24" +"RNAPS-CPLX_RXN" {"RNAPS-CPLX":1,"APORNAP-CPLX":-1,"RPOS-MONOMER":-1} "RNA polymerase sigma S" +"RUVABC-CPLX_RXN" {"RUVABC-CPLX":1,"EG10925-MONOMER":-2,"EG10924-MONOMER":-12,"EG10923-MONOMER":-4} "resolvasome" +"S-ADENMETSYN-CPLX_RXN" {"S-ADENMETSYN-CPLX":1,"S-ADENMETSYN-MONOMER":-4} "methionine adenosyltransferase" +"SAICARSYN-CPLX_RXN" {"SAICARSYN-CPLX":1,"SAICARSYN-MONOMER":-3} null +"SAMDECARB-CPLX_RXN" {"SAMDECARB-CPLX":1,"SAMDC-ALPHA-MONOMER":-4,"SAMDC-BETA-MONOMER":-4} null +"SEC-SECRETION-CPLX_RXN" {"SEC-SECRETION-CPLX":1,"SECD-SECF-YAJC-YIDC-CPLX":null,"SECE-G-Y-CPLX":null,"YIDC":null} "Sec Holo-Translocon" +"SECD-SECF-YAJC-YIDC-CPLX_RXN" {"SECD-SECF-YAJC-YIDC-CPLX":1,"SECD":null,"SECF":null,"EG11096-MONOMER":null} "Sec translocon accessory complex" +"SECE-G-Y-CPLX_RXN" {"SECE-G-Y-CPLX":1,"SECE":null,"SECG":null,"SECY":null} "SecYEG translocon" +"SERS-CPLX_RXN" {"SERS-CPLX":1,"SERS-MONOMER":-2} "serine—tRNA ligase" +"SIROHEMESYN-CPLX_RXN" {"SIROHEMESYN-CPLX":1,"SIROHEMESYN-MONOMER":-2} "siroheme synthase" +"SORB6PDEHYDROG-CPLX_RXN" {"SORB6PDEHYDROG-CPLX":1,"SORB6PDEHYDROG-MONOMER":-4} null +"SPERMACTRAN-CPLX_RXN" {"SPERMACTRAN-CPLX":1,"SPERMACTRAN-MONOMER":-4} "spermidine N-acetyltransferase" +"SPERMIDINESYN-CPLX_RXN" {"SPERMIDINESYN-CPLX":1,"SPERMIDINESYN-MONOMER":-2} "spermidine synthase" +"SUCC-DEHASE_RXN" {"SUCC-DEHASE":1,"SDH-FLAVO":-1,"SDH-FE-S":-1,"SDH-MEMB1":-1,"SDH-MEMB2":-1} "succinate:quinone oxidoreductase subcomplex" +"SUCCCOASYN_RXN" {"SUCCCOASYN":1,"SUCCCOASYN-ALPHA":-2,"SUCCCOASYN-BETA":-2} null +"SUCCORNTRANSAM-CPLX_RXN" {"SUCCORNTRANSAM-CPLX":1,"SUCCORNTRANSAM-MONOMER":-2} "succinylornithine transaminase" +"SULFATE-ADENYLYLTRANS-CPLX_RXN" {"SULFATE-ADENYLYLTRANS-CPLX":1,"CYSD-MONOMER":-4,"CYSN-MONOMER":-4} "sulfate adenylyltransferase" +"SULFITE-REDUCT-CPLX_RXN" {"SULFITE-REDUCT-CPLX":1,"CPLX0-7841":-1,"BETACOMP-MONOMER":-4} "assimilatory sulfite reductase (NADPH)" +"SUPEROX-DISMUTFE-CPLX_RXN" {"SUPEROX-DISMUTFE-CPLX":1,"SUPEROX-DISMUTFE-MONOMER":-2} "superoxide dismutase (Fe)" +"SUPEROX-DISMUTMN-CPLX_RXN" {"SUPEROX-DISMUTMN-CPLX":1,"SUPEROX-DISMUTMN-MONOMER":-2} "superoxide dismutase (Mn)" +"TAP-CPLX_RXN" {"TAP-CPLX":1,"CHEA-CPLX":-1,"CHEW-MONOMER":-2,"CPLX0-8104":-6} "chemotaxis signaling complex - dipeptide sensing" +"TAR-CPLX_RXN" {"TAR-CPLX":1,"CHEA-CPLX":-1,"CHEW-MONOMER":-2,"CPLX0-8102":-6} "chemotaxis signaling complex - aspartate sensing" +"TATABCE-CPLX_RXN" {"TATABCE-CPLX":1,"G7808-MONOMER":null,"EG11479-MONOMER":null,"EG11305-MONOMER":null,"TATA":null} "twin arginine protein translocation system" +"THIOESTERII-CPLX_RXN" {"THIOESTERII-CPLX":1,"THIOESTERII-MONOMER":-4} "acyl-CoA thioesterase II" +"THIOREDOXIN-REDUCT-NADPH-CPLX_RXN" {"THIOREDOXIN-REDUCT-NADPH-CPLX":1,"THIOREDOXIN-REDUCT-NADPH-MONOMER":-2} null +"THREDEHYDCAT-CPLX_RXN" {"THREDEHYDCAT-CPLX":1,"THREDEHYDCAT-MONOMER":-4} "catabolic threonine dehydratase" +"THREDEHYDSYN-CPLX_RXN" {"THREDEHYDSYN-CPLX":1,"THREDEHYDSYN-MONOMER":-4} "threonine deaminase" +"THREODEHYD-CPLX_RXN" {"THREODEHYD-CPLX":1,"THREODEHYD-MONOMER":-4} null +"THRS-CPLX_RXN" {"THRS-CPLX":1,"THRS-MONOMER":-2} null +"THYMIDYLATESYN-CPLX_RXN" {"THYMIDYLATESYN-CPLX":1,"THYMIDYLATESYN-MONOMER":-2} null +"TMAOREDUCTI-CPLX_RXN" {"TMAOREDUCTI-CPLX":1,"EG11815-MONOMER":null,"TORA-MONOMER":null} "menaquinol:trimethylamine N-oxide oxidoreductase I" +"TORR-CPLX_RXN" {"TORR-CPLX":1,"TORR-MONOMER":-2} "DNA-binding transcriptional dual regulator TorR" +"TORS-CPLX_RXN" {"TORS-CPLX":1,"TORS-MONOMER":-2} "sensory histidine kinase TorS" +"TPI_RXN" {"TPI":1,"TPI-MONOMER":-2} null +"TRANS-200-CPLX_RXN" {"TRANS-200-CPLX":1,"CPLX0-7964":-1,"MACB":-2,"MACA":-6} "ABC-type tripartite efflux pump" +"TRANS-CPLX-201_RXN" {"TRANS-CPLX-201":1,"CPLX0-7964":-1,"EG11703-MONOMER":-6,"ACRB-MONOMER":-3} "multidrug efflux pump AcrAB-TolC" +"TRANS-CPLX-202_RXN" {"TRANS-CPLX-202":1,"CPLX0-7964":-1,"B2076-MONOMER":-1,"B2075-MONOMER":-2,"MDTA":-1} "multidrug efflux pump MdtABC-TolC" +"TRANS-CPLX-203_RXN" {"TRANS-CPLX-203":1,"EG12283-MONOMER":-1,"EG12282-MONOMER":-1,"MONOMER0-422":-1} null +"TRANS-CPLX-204_RXN" {"TRANS-CPLX-204":1,"CPLX0-7964":-1,"EG12240-MONOMER":-1,"YHIV-MONOMER":-1} "multidrug efflux pump MdtEF-TolC" +"TRANSALDOLB-CPLX_RXN" {"TRANSALDOLB-CPLX":1,"TRANSALDOLB-MONOMER":-2} "transaldolase B" +"TRANSENOYLCOARED-CPLX_RXN" {"TRANSENOYLCOARED-CPLX":1,"TRANSENOYLCOARED-MONOMER":-2} null +"TRANSKETOI-CPLX_RXN" {"TRANSKETOI-CPLX":1,"TRANSKETOI-MONOMER":-2} "transketolase 1" +"TRG-CPLX_RXN" {"TRG-CPLX":1,"CHEA-CPLX":-1,"CHEW-MONOMER":-2,"CPLX0-8105":-6} "chemotaxis signaling complex - ribose/galactose/glucose sensing" +"TRPS-CPLX_RXN" {"TRPS-CPLX":1,"TRPS-MONOMER":-2} null +"TRYPSYN_RXN" {"TRYPSYN":1,"TRYPSYN-APROTEIN":-2,"CPLX0-2401":-1} null +"TRYPTOPHAN-CPLX_RXN" {"TRYPTOPHAN-CPLX":1,"TRYPTOPHAN-MONOMER":-4} null +"TSR-CPLX_RXN" {"TSR-CPLX":1,"CHEW-MONOMER":-2,"CHEA-CPLX":-1,"CPLX0-8103":-6} "chemotaxis signaling complex - serine sensing" +"TYRB-DIMER_RXN" {"TYRB-DIMER":1,"TYRB-MONOMER":-2} "tyrosine aminotransferase" +"TYRS-CPLX_RXN" {"TYRS-CPLX":1,"TYRS-MONOMER":-2} null +"UDHA-CPLX_RXN" {"UDHA-CPLX":1,"UDHA-MONOMER":-8} "soluble pyridine nucleotide transhydrogenase" +"UDPGLUCEPIM-CPLX_RXN" {"UDPGLUCEPIM-CPLX":1,"UDPGLUCEPIM-MONOMER":-2} null +"UDPNACETYLGLUCOSAMACYLTRANS-CPLX_RXN" {"UDPNACETYLGLUCOSAMACYLTRANS-CPLX":1,"UDPNACETYLGLUCOSAMACYLTRANS-MONOMER":-3} "acyl-[acyl-carrier-protein]—UDP-N-acetylglucosamine O-acyltransferase" +"UMPKI-CPLX_RXN" {"UMPKI-CPLX":1,"UMPKI-MONOMER":-6} "UMP kinase" +"UPPSYN-CPLX_RXN" {"UPPSYN-CPLX":1,"UPPSYN-MONOMER":-2} "ditrans,polycis-undecaprenyl-diphosphate synthase [(2E,6E)-farnesyl-diphosphate specific]" +"URACIL-PRIBOSYLTRANS-CPLX_RXN" {"URACIL-PRIBOSYLTRANS-CPLX":1,"URACIL-PRIBOSYLTRANS-MONOMER":-3} null +"URPHOS-CPLX_RXN" {"URPHOS-CPLX":1,"URPHOS-MONOMER":-6} null +"UVRABC-CPLX_RXN" {"UVRABC-CPLX":1,"EG11062-MONOMER":null,"EG11063-MONOMER":null,"EG11061-MONOMER":null} "excision nuclease UvrABC" +"XANTHOSINEPHOSPHORY-CPLX_RXN" {"XANTHOSINEPHOSPHORY-CPLX":1,"XANTHOSINEPHOSPHORY-MONOMER":-6} "xanthosine phosphorylase" +"XYLISOM-CPLX_RXN" {"XYLISOM-CPLX":1,"XYLISOM-MONOMER":-2} null +"YDGEF-CPLX_RXN" {"YDGEF-CPLX":1,"B1600-MONOMER":null,"B1599-MONOMER":null} "multidrug/spermidine efflux pump" +"CPLX0-1041_RXN" {"CPLX0-1041":1,"CSRB-RNA":-1,"EG11447-MONOMER":-18} "CsrA complex with CsrB RNA" +"CPLX0-1382_RXN" {"CPLX0-1382":1,"RNPB-RNA":-1,"EG10862-MONOMER":-1} "RNase P" +"CPLX0-3953_RXN" {"CPLX0-3953":1,"RRSA-RRNA":null,"EG10900-MONOMER":null,"EG10901-MONOMER":null,"EG10902-MONOMER":null,"EG10903-MONOMER":null,"EG10904-MONOMER":null,"EG10905-MONOMER":null,"EG10906-MONOMER":null,"EG10907-MONOMER":null,"EG10908-MONOMER":null,"EG10909-MONOMER":null,"EG10910-MONOMER":null,"EG10911-MONOMER":null,"EG10912-MONOMER":null,"EG10913-MONOMER":null,"EG10914-MONOMER":null,"EG10915-MONOMER":null,"EG10916-MONOMER":null,"EG10917-MONOMER":null,"EG10918-MONOMER":null,"EG10919-MONOMER":null,"EG10920-MONOMER":null,"EG11508-MONOMER":null} "30S ribosomal subunit" +"CPLX0-3962_RXN" {"CPLX0-3962":1,"RRLA-RRNA":null,"RRFA-RRNA":null,"EG10864-MONOMER":null,"EG10865-MONOMER":null,"EG10866-MONOMER":null,"EG10867-MONOMER":null,"EG10868-MONOMER":null,"EG10869-MONOMER":null,"CPLX0-3956":null,"EG10870-MONOMER":null,"EG10872-MONOMER":null,"EG10874-MONOMER":null,"EG10875-MONOMER":null,"EG10876-MONOMER":null,"EG10877-MONOMER":null,"EG10878-MONOMER":null,"EG10879-MONOMER":null,"EG10880-MONOMER":null,"EG10881-MONOMER":null,"EG50001-MONOMER":null,"EG10882-MONOMER":null,"EG10883-MONOMER":null,"EG10884-MONOMER":null,"EG10885-MONOMER":null,"EG50002-MONOMER":null,"EG10886-MONOMER":null,"EG10887-MONOMER":null,"EG10888-MONOMER":null,"EG10889-MONOMER":null,"EG10890-MONOMER":null,"EG10891-MONOMER":null,"EG10892-MONOMER":null,"EG11231-MONOMER":null,"EG11232-MONOMER":null} "50S ribosomal subunit" +"CPLX0-3964_RXN" {"CPLX0-3964":1,"CPLX0-3953":-1,"CPLX0-3962":-1} "ribosome" +"CPLX0-8028_RXN" {"CPLX0-8028":1,"IS061-RNA":null,"CPLX0-7956":null} "CsrA complex with McaS RNA" +"CPLX0-8053_RXN" {"CPLX0-8053":1,"EG10942-MONOMER":null} "SelB-L-selenocysteinyl-tRNAsec" +"CPLX0-8253_RXN" {"CPLX0-8253":1,"CSRC-RNA":-1,"EG11447-MONOMER":-9} "CsrA complex with CsrC RNA" +"SRP-CPLX_RXN" {"SRP-CPLX":1,"EG10300-MONOMER":null,"FFS-RNA":null} "Signal Recognition Particle" +# Reactions below were added to save some 1CS reactions +"CPLX0-7796APO_RXN" {"CPLX0-7796APO": 1, "PD04032": -2} null +# Reactions below were added to save some 2CS reactions +"ARCB-CPLX_RXN" {"ARCB-CPLX": 1, "ARCB-MONOMER": -2} null diff --git a/reconstruction/ecoli/flat/complexation_reactions_removed.tsv b/reconstruction/ecoli/flat/complexation_reactions_removed.tsv index 6585f3e1a5..5846ea5840 100644 --- a/reconstruction/ecoli/flat/complexation_reactions_removed.tsv +++ b/reconstruction/ecoli/flat/complexation_reactions_removed.tsv @@ -1,3 +1,34 @@ "id" "_comments" -"CPLX0-3922_RXN" "Removed to prevent the reaction from depleting DNA helicase (CPLX0-3621[c]), an essential subunit of the replisome" -"CPLX-8029_RXN" "Removed to prevent the reaction from depleting thiazole synthase (CPLX0-3949[c]), an enzyme required for synthesis of thiazole" +"CPLX0-3922_RXN" "Removed to prevent the reaction from depleting DNA helicase (CPLX0-3621), an essential subunit of the replisome" +"CPLX0-3964_RXN" "Full ribosomes are complexed by the PolypeptideElongation process" +"RNAP32-CPLX_RXN" "Sigma factors are not used in the current version of the model" +"RNAP54-CPLX_RXN" "Sigma factors are not used in the current version of the model" +"RNAP70-CPLX_RXN" "Sigma factors are not used in the current version of the model" +"RNAPE-CPLX_RXN" "Sigma factors are not used in the current version of the model" +"RNAPS-CPLX_RXN" "Sigma factors are not used in the current version of the model" +"CPLX0-221_RXN" "Sigma factors are not used in the current version of the model" +"CPLX0-222_RXN" "Sigma factors are not used in the current version of the model" +"CPLX0-8208_RXN" "Removed to prevent the reaction from depleting subunits of the full 30S ribosome" +"BCCP-CPLX_RXN" "Subunit BCCP-BIOTIN missing from model" +"ACETYL-COA-CARBOXYLMULTI-CPLX_RXN" "Subunit BCCP-CPLX needs reaction BCCP-CPLX_RXN, which has been removed" +"CITLY-CPLX_RXN" "Subunit ACPSUB-CPLX missing from model" +"CPLX0-263_RXN" "Subunits MONOMER0-2 and MONOMER0-3 missing from model" +"CPLX0-2901_RXN" "Subunits MONOMER0-1842 and MONOMER0-1843 missing from model" +"CPLX0-7721_RXN" "Subunit PHOSPHO-DCUR-MONOMER missing from model" +"CPLX0-7748_RXN" "Subunit PHOSPHO-CPXR missing from model" +"CPLX0-7754_RXN" "Subunit PHOSPHO-UHPA missing from model" +"CPLX0-7795_RXN" "Subunit PHOSPHO-KDPE missing from model" +"CPLX0-7885_RXN" "Subunits MONOMER0-4195 and MONOMER0-4196 missing from model" +"ENTMULTI-CPLX_RXN" "Subunits ENTB-CPLX and ENTF-PANT are not proteins" +"GCVMULTI-CPLX_RXN" "Subunit LIPOYL-GCVH missing from model" +"NQOR-CPLX_RXN" "Subunit NQOR-MONOMER missing from model" +"PHOSPHASERDECARB-DIMER_RXN" "Subunits PHOSPHASERDECARB-ALPHA-MONOMER and PHOSPHASERDECARB-BETA-MONOMER missing from model" +"SAMDECARB-CPLX_RXN" "Subunits SAMDC-ALPHA-MONOMER and SAMDC-BETA-MONOMER missing from model" +"TAP-CPLX_RXN" "Subunit CHEA-CPLX missing from model" +"TAR-CPLX_RXN" "Subunit CHEA-CPLX missing from model" +"TRANSENOYLCOARED-CPLX_RXN" "Subunit TRANSENOYLCOARED-MONOMER missing from model" +"TRG-CPLX_RXN" "Subunit CHEA-CPLX missing from model" +"TSR-CPLX_RXN" "Subunit CHEA-CPLX missing from model" +"CPLX0-7796_RXN" "Manual fix for 1CS TF CPLX0-7796" +"CPLX0-8304_RXN" "Removed to prevent the consumption of DCUS-MONOMER, a histidine kinase of a 2CS" +"CPLX0-8306_RXN" "Removed to prevent the consumption of DCUS-MONOMER, a histidine kinase of a 2CS" diff --git a/reconstruction/ecoli/flat/condition/environment_molecules.tsv b/reconstruction/ecoli/flat/condition/environment_molecules.tsv index 6e21e5aa47..bd64dc03a7 100644 --- a/reconstruction/ecoli/flat/condition/environment_molecules.tsv +++ b/reconstruction/ecoli/flat/condition/environment_molecules.tsv @@ -8,7 +8,7 @@ "OXYGEN-MOLECULE" "[p]" "None" "AMMONIUM" "[c]" "None" "NA+" "[p]" "None" -"PI" "[p]" "None" +"Pi" "[p]" "None" "K+" "[p]" "None" "SULFATE" "[p]" "None" "FE+2" "[p]" "None" diff --git a/reconstruction/ecoli/flat/condition/media/M9.tsv b/reconstruction/ecoli/flat/condition/media/M9.tsv index 52448a35de..e1918791e1 100644 --- a/reconstruction/ecoli/flat/condition/media/M9.tsv +++ b/reconstruction/ecoli/flat/condition/media/M9.tsv @@ -2,7 +2,7 @@ "molecule id" "concentration (units.mmol / units.L)" # Media recipe from EcoCyc: MIX0-47 "NA+" 103.7 -"PI" 69.454 +"Pi" 69.454 "CL-" 27.25 "K+" 21.883 "AMMONIUM" 18.695 diff --git a/reconstruction/ecoli/flat/condition/media/M9_GLC.tsv b/reconstruction/ecoli/flat/condition/media/M9_GLC.tsv index eb7c735a86..41e8a0f088 100644 --- a/reconstruction/ecoli/flat/condition/media/M9_GLC.tsv +++ b/reconstruction/ecoli/flat/condition/media/M9_GLC.tsv @@ -2,7 +2,7 @@ "molecule id" "concentration (units.mmol / units.L)" # Media recipe from EcoCyc: MIX0-51 "NA+" 103.7 -"PI" 69.454 +"Pi" 69.454 "CL-" 27.25 "GLC" 22.203 "K+" 21.883 diff --git a/reconstruction/ecoli/flat/condition/media_recipes.tsv b/reconstruction/ecoli/flat/condition/media_recipes.tsv index 83a4adcc5c..ad37bdf941 100644 --- a/reconstruction/ecoli/flat/condition/media_recipes.tsv +++ b/reconstruction/ecoli/flat/condition/media_recipes.tsv @@ -10,7 +10,7 @@ "minimal_succinate" "M9" 1.0 "" 0 ["SUC"] [Infinity] [] [] "minimal_minus_calcium" "M9_GLC" 1.0 "" 0 ["CA+2"] [-Infinity] [] [] "minimal_minus_magnesium" "M9_GLC" 1.0 "" 0 ["MG+2"] [-Infinity] [] [] -"minimal_minus_phosphate" "M9_GLC" 1.0 "" 0 ["PI"] [-Infinity] [] [] +"minimal_minus_phosphate" "M9_GLC" 1.0 "" 0 ["Pi"] [-Infinity] [] [] "minimal_plus_arabinose" "M9_GLC" 1.0 "" 0 ["ARABINOSE"] [Infinity] [] [] "minimal_plus_cytidine" "M9_GLC" 1.0 "" 0 ["CYTIDINE"] [Infinity] [] [] "minimal_plus_ferric" "M9_GLC" 1.0 "" 0 ["FE+3"] [Infinity] [] [] diff --git a/reconstruction/ecoli/flat/endoRNases.tsv b/reconstruction/ecoli/flat/endoRNases.tsv index 238d7bd85f..a9fa239af1 100644 --- a/reconstruction/ecoli/flat/endoRNases.tsv +++ b/reconstruction/ecoli/flat/endoRNases.tsv @@ -1,3 +1,4 @@ +# TODO: Remove compartment tags "endoRnase" "kcat (1 / units.s)" "EG10856-MONOMER[p]" 0.1 "EG10857-MONOMER[c]" 0.1 @@ -5,6 +6,6 @@ "EG10860-MONOMER[c]" 0.1 "EG10861-MONOMER[c]" 0.1 "EG10862-MONOMER[c]" 0.1 -"EG11299-MONOMER[c]" 0.1 +"EG11299-MONOMER[m]" 0.1 "G7175-MONOMER[c]" 0.1 "G7365-MONOMER[c]" 0.1 diff --git a/reconstruction/ecoli/flat/equilibrium_reaction_rates.tsv b/reconstruction/ecoli/flat/equilibrium_reaction_rates.tsv new file mode 100644 index 0000000000..254771336f --- /dev/null +++ b/reconstruction/ecoli/flat/equilibrium_reaction_rates.tsv @@ -0,0 +1,150 @@ +"id" "forward_rate" "reverse_rate" "_original_reverse_rate" +"CPLX-123_RXN" 1 9.3E-06 9.3E-06 +"CPLX-124_RXN" 1 1E-06 1E-06 +"CPLX-125_RXN" 1 1.6E-04 0.00016 +"CPLX-127_RXN" 1 2E-07 2E-07 +"CPLX-128_RXN" 1 2E-07 2E-07 +"CPLX-172_RXN" 1 0.0004 0.0004 +"CPLX0-226_RXN" 1 5.2E-05 5.2E-05 +"CPLX0-228_RXN" 1 5.7E-04 1E-06 +"CPLX0-2781_RXN" 1 1E-06 1E-06 +"CPLX0-6_RXN" 1 8E-07 8E-07 +"CPLX0-7541_RXN" 1 1E-06 1E-06 +"CPLX0-7605_RXN" 1 0.0001562 0.0001562 +"CPLX0-7606_RXN" 1 9E-07 9E-07 +"CPLX0-7618_RXN" 1 2.5E-08 2.5E-08 +"CPLX0-7619_RXN" 1 5E-09 5E-09 +"CPLX0-7620_RXN" 1 1.2E-06 1.2E-06 +"CPLX0-7650_RXN" 1 1E-05 1E-05 +"CPLX0-7651_RXN" 1 1E-06 1E-06 +"CPLX0-7670_RXN" 1 0.000536 1E-06 +"CPLX0-7671_RXN" 1 5.7E-04 1E-06 +"CPLX0-7677_RXN" 1 1.15E-15 1.15E-15 +"CPLX0-7680_RXN" 1 1E-15 1E-15 +"CPLX0-7681_RXN" 1 1E-06 1E-06 +"CPLX0-7689_RXN" 1 8E-05 8E-05 +"CPLX0-7701_RXN" 1 0.00010066 0.00010066 +"CPLX0-7702_RXN" 1 2E-21 2E-21 +"CPLX0-7714_RXN" 1 1E-06 1E-06 +"CPLX0-7715_RXN" 1 1E-06 1E-06 +"CPLX0-7716_RXN" 1 1E-06 1E-06 +"CPLX0-7729_RXN" 1 1E-06 1E-06 +"CPLX0-7735_RXN" 1 1E-06 1E-06 +"CPLX0-7736_RXN" 1 6E-05 6E-05 +"CPLX0-7739_RXN" 1 2E-06 2E-06 +"CPLX0-7742_RXN" 1 6.2E-06 6.2E-06 +"CPLX0-7743_RXN" 1 6.2E-06 6.2E-06 +"CPLX0-7746_RXN" 1 1E-06 1E-06 +"CPLX0-7749_RXN" 1 1E-06 1E-06 +"CPLX0-7750_RXN" 1 1E-06 1E-06 +"CPLX0-7751_RXN" 1 1E-06 1E-06 +"CPLX0-7752_RXN" 1 1E-06 1E-06 +"CPLX0-8026_RXN" 1 1E-06 1E-06 +"CPLX0-8027_RXN" 1 1E-06 1E-06 +"CPLX0-8047_RXN" 1 1E-06 1E-06 +"CPLX0-8048_RXN" 1 1E-06 1E-06 +"CPLX0-8051_RXN" 1 2E-05 1.7E-07 +"CPLX0-8054_RXN" 1 1E-06 1E-06 +"CPLX0-8055_RXN" 1 7.15E-06 7.15E-06 +"CPLX0-8056_RXN" 1 1E-05 1E-05 +"CPLX0-8057_RXN" 1 2E-05 2E-05 +"CPLX0-8058_RXN" 1 1E-06 1E-06 +"CPLX0-8060_RXN" 1 1E-06 1E-06 +"CPLX0-8061_RXN" 1 1E-06 1E-06 +"CPLX0-8062_RXN" 1 1E-06 1E-06 +"CPLX0-8069_RXN" 1 1E-06 1E-06 +"CPLX0-8070_RXN" 1 1E-06 1E-06 +"CPLX0-8071-R--ALLANTOIN_RXN" 1 1E-06 1E-06 +"CPLX0-8071-S-ALLANTOIN_RXN" 1 1E-06 1E-06 +"CPLX0-8074_RXN" 1 1E-06 1E-06 +"CPLX0-8076_RXN" 1 1E-06 1E-06 +"CPLX0-8079_RXN" 1 1E-06 1E-06 +"CPLX0-8083_RXN" 1 1E-07 1E-07 +"CPLX0-8085_RXN" 1 1E-06 1E-06 +"CPLX0-8088_RXN" 1 1E-06 1E-06 +"CPLX0-8161_RXN" 1 1E-06 1E-06 +"CPLX0-8162_RXN" 1 1E-06 1E-06 +"MONOMER-2720_RXN" 1 1E-06 1E-06 +"MONOMER-47_RXN" 1 1E-06 1E-06 +"MONOMER-48_RXN" 1 4.5E-11 4.5E-11 +"MONOMER-51-3-KETO-ADIPYL-COA_RXN" 1 1E-06 1E-06 +"MONOMER-51-3-OXOPALMITOYL-COA_RXN" 1 1E-06 1E-06 +"MONOMER-51-ACETOACETYL-COA_RXN" 1 1E-06 1E-06 +"MONOMER-51-BUTYRYL-COA_RXN" 1 1E-06 1E-06 +"MONOMER-51-CPD-10260_RXN" 1 1E-06 1E-06 +"MONOMER-51-CPD-10267_RXN" 1 1E-06 1E-06 +"MONOMER-51-CPD-10284_RXN" 1 1E-06 1E-06 +"MONOMER-51-CPD-15244_RXN" 1 1E-06 1E-06 +"MONOMER-51-CPD-196_RXN" 1 1E-06 1E-06 +"MONOMER-51-CPD-650_RXN" 1 1E-06 1E-06 +"MONOMER-51-CPD-9965_RXN" 1 1E-06 1E-06 +"MONOMER-51-CPD0-1163_RXN" 1 1E-06 1E-06 +"MONOMER-51-CPD0-2105_RXN" 1 1E-06 1E-06 +"MONOMER-51-CPD0-2106_RXN" 1 1E-06 1E-06 +"MONOMER-51-CPD0-2107_RXN" 1 1E-06 1E-06 +"MONOMER-51-CPD0-2123_RXN" 1 1E-06 1E-06 +"MONOMER-51-CPD0-2171_RXN" 1 1E-06 1E-06 +"MONOMER-51-CPD0-2224_RXN" 1 1E-06 1E-06 +"MONOMER-51-CPD0-2232_RXN" 1 1E-06 1E-06 +"MONOMER-51-CPD0-2244_RXN" 1 1E-06 1E-06 +"MONOMER-51-CPD0-2253_RXN" 1 1E-06 1E-06 +"MONOMER-51-HEXANOYL-COA_RXN" 1 1E-06 1E-06 +"MONOMER-51-K-HEXANOYL-COA_RXN" 1 1E-06 1E-06 +"MONOMER-51-LAUROYLCOA-CPD_RXN" 1 1E-06 1E-06 +"MONOMER-51-OH-HEXANOYL-COA_RXN" 1 1E-06 1E-06 +"MONOMER-51-OLEOYL-COA_RXN" 1 1E-06 1E-06 +"MONOMER-51-PALMITYL-COA_RXN" 1 1E-06 1E-06 +"MONOMER-51-PROPIONYL-COA_RXN" 1 1E-06 1E-06 +"MONOMER-51-S-3-HYDROXYBUTANOYL-COA_RXN" 1 1E-06 1E-06 +"MONOMER-51-STEAROYL-COA_RXN" 1 1E-06 1E-06 +"MONOMER-51-TETRADECANOYL-COA_RXN" 1 1E-06 1E-06 +"MONOMER-52_RXN" 1 2.2E-07 2.2E-07 +"MONOMER-53_RXN" 1 0.00016 0.00016 +"MONOMER-54_RXN" 1 2E-05 2E-05 +"MONOMER-55_RXN" 1 1E-06 1E-06 +"MONOMER-56_RXN" 1 1E-06 1E-06 +"MONOMER-57_RXN" 1 1E-06 1E-06 +"MONOMER-58_RXN" 1 0.00075 0.00075 +"MONOMER-59_RXN" 1 1E-06 1E-06 +"MONOMER-60-CPD-10330_RXN" 1 1E-06 1E-06 +"MONOMER-60-CPD-15818_RXN" 1 1E-06 1E-06 +"MONOMER-60-CPD0-1108_RXN" 1 1E-06 1E-06 +"MONOMER-60-CPD0-1110_RXN" 1 1E-06 1E-06 +"MONOMER0-1301_RXN" 1 1E-06 1E-06 +"MONOMER0-1441_RXN" 1 2.7E-05 2.7E-05 +"MONOMER0-155_RXN" 1 0.00019 1E-06 +"CPLX0-7796_RXN" 1 0.014 0.0002 +"MONOMER0-158_RXN" 1 0.0002 0.0002 +"MONOMER0-159_RXN" 1 0.0009 0.0009 +"MONOMER0-160_RXN" 1 2.9E-08 2.9E-08 +"MONOMER0-161_RXN" 1 1E-06 1E-06 +"MONOMER0-162_RXN" 1 1.7E-05 1.7E-05 +"MONOMER0-163_RXN" 1 1.369E-05 0.0037 +"MONOMER0-164_RXN" 1 1E-06 1E-06 +"MONOMER0-165_RXN" 1 3.3E-06 3.3E-06 +"MONOMER0-1781_RXN" 1 1E-09 1E-09 +"MONOMER0-183_RXN" 1 0.005 0.005 +"MONOMER0-2081_RXN" 1 1E-06 1E-06 +"MONOMER0-2101-CPD-12537_RXN" 1 1E-06 1E-06 +"MONOMER0-2162_RXN" 1 1E-06 1E-06 +"MONOMER0-2201_RXN" 1 9.4E-06 9.4E-06 +"MONOMER0-2221_RXN" 1 1E-06 1E-06 +"MONOMER0-2261-CPD-16168_RXN" 1 1E-06 1E-06 +"MONOMER0-2341-CPD0-1122_RXN" 1 1E-06 1E-06 +"MONOMER0-2341-CPD0-1123_RXN" 1 1E-06 1E-06 +"MONOMER0-2421_RXN" 1 1E-06 1E-06 +"MONOMER0-2461_RXN" 1 1E-06 1E-06 +"MONOMER0-2482-CPD-15629_RXN" 1 1E-06 1E-06 +"MONOMER0-46_RXN" 1 1E-06 1E-06 +"MONOMER0-49_RXN" 1 1E-06 1E-06 +"MONOMER0-562_RXN" 1 1E-06 1E-06 +"MONOMER0-941_RXN" 1 1E-06 1E-06 +"PUTA-CPLXBND_RXN" 1 3.9E-04 1E-06 +"FNR-4FE-4S_RXN" 1 1E-06 1E-06 +"ARCB-OXYGEN_RXN" 1 1E-06 1E-06 +"BAES-INDOLE_RXN" 1 1E-06 1E-06 +"BASS-FE+3_RXN" 1 1E-06 1E-06 +"DCUS-SUC_RXN" 1 1E-06 1E-06 +"NARX-NITRATE_RXN" 1 3.5E-05 3.5E-05 +"PHOQ-CA+2_RXN" 1 3.7E-05 3.7E-05 +"PHOR-Pi-CPLX_RXN" 1 1E-08 1E-08 diff --git a/reconstruction/ecoli/flat/equilibrium_reactions.tsv b/reconstruction/ecoli/flat/equilibrium_reactions.tsv index a2e3a0e31c..0ebb8c0965 100644 --- a/reconstruction/ecoli/flat/equilibrium_reactions.tsv +++ b/reconstruction/ecoli/flat/equilibrium_reactions.tsv @@ -1,151 +1,191 @@ # Note: Reactions listed in equilibrium_reactions_removed.tsv are removed from simulation data. -"id" "stoichiometry" "forward_rate" "reverse_rate" "original_reverse_rate" -"CPLX-123_RXN" [{"molecule": "CPLX-123", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PC00033", "coeff": -1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "HYPOXANTHINE", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 9.3E-06 9.3E-06 -"CPLX-124_RXN" [{"molecule": "CPLX-124", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PC00086", "coeff": -1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "RHAMNOSE", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"CPLX-125_RXN" [{"molecule": "CPLX-125", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "TRP", "coeff": -2.0, "type": "metabolite", "location": "c", "form": "mature"}, {"molecule": "PC00007", "coeff": -1.0, "type": "proteincomplex", "location": "c", "form": "mature"}] 1 2.56E-08 0.00016 -"CPLX-127_RXN" [{"molecule": "CPLX-127", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PC00061", "coeff": -1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "FRU1P", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 2E-07 2E-07 -"CPLX-128_RXN" [{"molecule": "CPLX-128", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PC00061", "coeff": -1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "FRUCTOSE-16-DIPHOSPHATE", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 2E-07 2E-07 -"CPLX-172_RXN" [{"molecule": "CPLX-172", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PC00003", "coeff": -1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "ARABINOSE", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 0.0004 0.0004 -"CPLX0-226_RXN" [{"molecule": "CPLX0-226", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PC00004", "coeff": -1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "CAMP", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 5.2E-05 5.2E-05 -"CPLX0-228_RXN" [{"molecule": "CPLX0-228", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PC00005", "coeff": -1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "ARG", "coeff": -6.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 3.43E-20 1E-06 -"CPLX0-2781_RXN" [{"molecule": "CPLX0-2781", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PC00040", "coeff": -1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "ACETYLSERINE", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"CPLX0-6_RXN" [{"molecule": "CPLX0-6", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "CPLX0-2541", "coeff": -1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "CPD-3", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 8E-07 8E-07 -"CPLX0-7541_RXN" [{"molecule": "CPLX0-7541", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "ALAS-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "L-ALPHA-ALANINE", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"CPLX0-7605_RXN" [{"molecule": "CPLX0-7605", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD04099", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "PYRUVATE", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 0.0001562 0.0001562 -"CPLX0-7606_RXN" [{"molecule": "CPLX0-7606", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD04099", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "GLYOX", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 9E-07 9E-07 -"CPLX0-7618_RXN" [{"molecule": "CPLX0-7618", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "G7137-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "NI+2", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 2.5E-08 2.5E-08 -"CPLX0-7619_RXN" [{"molecule": "CPLX0-7619", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "G7137-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "CO+2", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 5E-09 5E-09 -"CPLX0-7620_RXN" [{"molecule": "CPLX0-7620", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD00260", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "FE+2", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1.2E-06 1.2E-06 -"CPLX0-7650_RXN" [{"molecule": "CPLX0-7650", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD00444", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "FUCULOSE-1P", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-05 1E-05 -"CPLX0-7651_RXN" [{"molecule": "CPLX0-7651", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD01352", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "URACIL", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"CPLX0-7670_RXN" [{"molecule": "CPLX0-7670", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "CPLX0-7669", "coeff": -1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "LYS", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 5.36E-04 1E-06 -"CPLX0-7671_RXN" [{"molecule": "CPLX0-7671", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "CPLX0-7669", "coeff": -1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "ARG", "coeff": -2.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 3.25E-07 1E-06 -"CPLX0-7677_RXN" [{"molecule": "CPLX0-7677", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "EG11969-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "ZN+2", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1.15E-15 1.15E-15 -"CPLX0-7680_RXN" [{"molecule": "CPLX0-7680", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "CPLX0-7679", "coeff": -1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "ZN+2", "coeff": -4.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-15 1E-15 -"CPLX0-7681_RXN" [{"molecule": "CPLX0-7681", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "EG11146-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "XANTHOSINE", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"CPLX0-7689_RXN" [{"molecule": "CPLX0-7689", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "EG11962-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "L-LACTATE", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 8E-05 8E-05 -"CPLX0-7701_RXN" [{"molecule": "CPLX0-7701", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "G6420-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "MN+2", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 0.00010066 0.00010066 -"CPLX0-7702_RXN" [{"molecule": "CPLX0-7702", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "G6263-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "CU+", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 2E-21 2E-21 -"CPLX0-7714_RXN" [{"molecule": "CPLX0-7714", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "CPLX0-7713", "coeff": -1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "D-SERINE", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"CPLX0-7715_RXN" [{"molecule": "CPLX0-7715", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD00200", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "2-ACETO-LACTATE", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"CPLX0-7716_RXN" [{"molecule": "CPLX0-7716", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "G6889-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "METHYL-GLYOXAL", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"CPLX0-7729_RXN" [{"molecule": "CPLX0-7729", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "G6720-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "CPD-207", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"CPLX0-7735_RXN" [{"molecule": "CPLX0-7735", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "CPLX0-7733", "coeff": -1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "ASN", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"CPLX0-7736_RXN" [{"molecule": "CPLX0-7736", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "EG12235-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "CPD-763", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 6E-05 6E-05 -"CPLX0-7739_RXN" [{"molecule": "CPLX0-7739", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "EG12235-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "ANTIMONITE", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 2E-06 2E-06 -"CPLX0-7742_RXN" [{"molecule": "CPLX0-7742", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "EG10603-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "CPD-8179", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 6.2E-06 6.2E-06 -"CPLX0-7743_RXN" [{"molecule": "CPLX0-7743", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "EG10603-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "CPD-7970", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 6.2E-06 6.2E-06 -"CPLX0-7746_RXN" [{"molecule": "CPLX0-7746", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "G7262-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "CPD0-881", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"CPLX0-7749_RXN" [{"molecule": "CPLX0-7749", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "G6799-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "DIHYDROXYPENTANEDIONE", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"CPLX0-7750_RXN" [{"molecule": "CPLX0-7750", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "G6799-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "CPD-10551", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"CPLX0-7751_RXN" [{"molecule": "CPLX0-7751", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "EG11212-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "NITRIC-OXIDE", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"CPLX0-7752_RXN" [{"molecule": "CPLX0-7752", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "CPLX0-7759", "coeff": -1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "HOMO-CYS", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"CPLX0-8026_RXN" [{"molecule": "CPLX0-8026", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "5-METHYLTHIOADENOSINE", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}, {"molecule": "PD04032", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"CPLX0-8027_RXN" [{"molecule": "CPLX0-8027", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "ADENINE", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}, {"molecule": "PD04032", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"CPLX0-8047_RXN" [{"molecule": "CPLX0-8047", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "CPLX0-7756", "coeff": -1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "NITRIC-OXIDE", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"CPLX0-8048_RXN" [{"molecule": "CPLX0-8048", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "EG12694-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "TARTRATE", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"CPLX0-8051_RXN" [{"molecule": "CPLX0-8051", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "CPLX0-7740", "coeff": -1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "CYTIDINE", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 2E-05 1.7E-07 -"CPLX0-8054_RXN" [{"molecule": "CPLX0-8054", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "CPLX0-7745", "coeff": -1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "CPD0-881", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"CPLX0-8055_RXN" [{"molecule": "CPLX0-8055", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "EG12116-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "CPD0-1938", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 7.15E-06 7.15E-06 -"CPLX0-8056_RXN" [{"molecule": "CPLX0-8056", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "EG12202-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "TREHALOSE-6P", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-05 1E-05 -"CPLX0-8057_RXN" [{"molecule": "CPLX0-8057", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD03576", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "GLYCEROL", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 2E-05 2E-05 -"CPLX0-8058_RXN" [{"molecule": "CPLX0-8058", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD01352", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "THYMINE", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"CPLX0-8060_RXN" [{"molecule": "CPLX0-8060", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD00339", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "GLY", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"CPLX0-8061_RXN" [{"molecule": "CPLX0-8061", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "EG11320-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "ZN+2", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"CPLX0-8062_RXN" [{"molecule": "CPLX0-8062", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "CPLX0-7666", "coeff": -1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "CARNITINE", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"CPLX0-8069_RXN" [{"molecule": "CPLX0-8069", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "G7594-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "NI+2", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"CPLX0-8070_RXN" [{"molecule": "CPLX0-8070", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "EG10230-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "GUANOSINE-5DP-3DP", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"CPLX0-8071-R--ALLANTOIN_RXN" [{"molecule": "CPLX0-8071-R--ALLANTOIN", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "R--ALLANTOIN", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}, {"molecule": "G6276-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"CPLX0-8071-S-ALLANTOIN_RXN" [{"molecule": "CPLX0-8071-S-ALLANTOIN", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "S-ALLANTOIN", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}, {"molecule": "G6276-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"CPLX0-8074_RXN" [{"molecule": "CPLX0-8074", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "G6569-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "CU+", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"CPLX0-8076_RXN" [{"molecule": "CPLX0-8076", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD00194", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "ARG", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"CPLX0-8079_RXN" [{"molecule": "CPLX0-8079", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "EG10143-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "DIACETYLCHITOBIOSE-6-PHOSPHATE", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"CPLX0-8083_RXN" [{"molecule": "CPLX0-8083", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "CPD-6", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}, {"molecule": "G7326-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] 1 1E-07 1E-07 -"CPLX0-8085_RXN" [{"molecule": "CPLX0-8085", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "EG12431-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "PUTRESCINE", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"CPLX0-8088_RXN" [{"molecule": "CPLX0-8088", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "G6799-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "CPD-10774", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"CPLX0-8161_RXN" [{"molecule": "CPLX0-8161", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "CPLX0-7639", "coeff": -1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "FE+2", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"CPLX0-8162_RXN" [{"molecule": "CPLX0-8162", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "EG12860-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "2-KETO-3-DEOXY-6-P-GLUCONATE", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"MONOMER-2720_RXN" [{"molecule": "MONOMER-2720", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "G7071-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "APS", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"MONOMER-47_RXN" [{"molecule": "MONOMER-47", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD00222", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "RHAMNOSE", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"MONOMER-48_RXN" [{"molecule": "MONOMER-48", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "BIOTINLIG-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "BIO-5-AMP", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 4.5E-11 4.5E-11 -"MONOMER-51-3-KETO-ADIPYL-COA_RXN" [{"molecule": "MONOMER-51-3-KETO-ADIPYL-COA", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD01520", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "3-KETO-ADIPYL-COA", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"MONOMER-51-3-OXOPALMITOYL-COA_RXN" [{"molecule": "MONOMER-51-3-OXOPALMITOYL-COA", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD01520", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "3-OXOPALMITOYL-COA", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"MONOMER-51-ACETOACETYL-COA_RXN" [{"molecule": "MONOMER-51-ACETOACETYL-COA", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD01520", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "ACETOACETYL-COA", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"MONOMER-51-BUTYRYL-COA_RXN" [{"molecule": "MONOMER-51-BUTYRYL-COA", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD01520", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "BUTYRYL-COA", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"MONOMER-51-CPD-10260_RXN" [{"molecule": "MONOMER-51-CPD-10260", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD01520", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "CPD-10260", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"MONOMER-51-CPD-10267_RXN" [{"molecule": "MONOMER-51-CPD-10267", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD01520", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "CPD-10267", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"MONOMER-51-CPD-10284_RXN" [{"molecule": "MONOMER-51-CPD-10284", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD01520", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "CPD-10284", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"MONOMER-51-CPD-15244_RXN" [{"molecule": "MONOMER-51-CPD-15244", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD01520", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "CPD-15244", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"MONOMER-51-CPD-196_RXN" [{"molecule": "MONOMER-51-CPD-196", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD01520", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "CPD-196", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"MONOMER-51-CPD-650_RXN" [{"molecule": "MONOMER-51-CPD-650", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD01520", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "CPD-650", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"MONOMER-51-CPD-9965_RXN" [{"molecule": "MONOMER-51-CPD-9965", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD01520", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "CPD-9965", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"MONOMER-51-CPD0-1163_RXN" [{"molecule": "MONOMER-51-CPD0-1163", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD01520", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "CPD0-1163", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"MONOMER-51-CPD0-2105_RXN" [{"molecule": "MONOMER-51-CPD0-2105", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD01520", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "CPD0-2105", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"MONOMER-51-CPD0-2106_RXN" [{"molecule": "MONOMER-51-CPD0-2106", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD01520", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "CPD0-2106", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"MONOMER-51-CPD0-2107_RXN" [{"molecule": "MONOMER-51-CPD0-2107", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD01520", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "CPD0-2107", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"MONOMER-51-CPD0-2123_RXN" [{"molecule": "MONOMER-51-CPD0-2123", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD01520", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "CPD0-2123", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"MONOMER-51-CPD0-2171_RXN" [{"molecule": "MONOMER-51-CPD0-2171", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD01520", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "CPD0-2171", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"MONOMER-51-CPD0-2224_RXN" [{"molecule": "MONOMER-51-CPD0-2224", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD01520", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "CPD0-2224", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"MONOMER-51-CPD0-2232_RXN" [{"molecule": "MONOMER-51-CPD0-2232", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD01520", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "CPD0-2232", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"MONOMER-51-CPD0-2244_RXN" [{"molecule": "MONOMER-51-CPD0-2244", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD01520", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "CPD0-2244", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"MONOMER-51-CPD0-2253_RXN" [{"molecule": "MONOMER-51-CPD0-2253", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD01520", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "CPD0-2253", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"MONOMER-51-HEXANOYL-COA_RXN" [{"molecule": "MONOMER-51-HEXANOYL-COA", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD01520", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "HEXANOYL-COA", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"MONOMER-51-K-HEXANOYL-COA_RXN" [{"molecule": "MONOMER-51-K-HEXANOYL-COA", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD01520", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "K-HEXANOYL-COA", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"MONOMER-51-LAUROYLCOA-CPD_RXN" [{"molecule": "MONOMER-51-LAUROYLCOA-CPD", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD01520", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "LAUROYLCOA-CPD", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"MONOMER-51-OH-HEXANOYL-COA_RXN" [{"molecule": "MONOMER-51-OH-HEXANOYL-COA", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD01520", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "OH-HEXANOYL-COA", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"MONOMER-51-OLEOYL-COA_RXN" [{"molecule": "MONOMER-51-OLEOYL-COA", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD01520", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "OLEOYL-COA", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"MONOMER-51-PALMITYL-COA_RXN" [{"molecule": "MONOMER-51-PALMITYL-COA", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD01520", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "PALMITYL-COA", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"MONOMER-51-PROPIONYL-COA_RXN" [{"molecule": "MONOMER-51-PROPIONYL-COA", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD01520", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "PROPIONYL-COA", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"MONOMER-51-S-3-HYDROXYBUTANOYL-COA_RXN" [{"molecule": "MONOMER-51-S-3-HYDROXYBUTANOYL-COA", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD01520", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "S-3-HYDROXYBUTANOYL-COA", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"MONOMER-51-STEAROYL-COA_RXN" [{"molecule": "MONOMER-51-STEAROYL-COA", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD01520", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "STEAROYL-COA", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"MONOMER-51-TETRADECANOYL-COA_RXN" [{"molecule": "MONOMER-51-TETRADECANOYL-COA", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD01520", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "TETRADECANOYL-COA", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"MONOMER-52_RXN" [{"molecule": "MONOMER-52", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD03028", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "GALACTOSE", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 2.2E-07 2.2E-07 -"MONOMER-53_RXN" [{"molecule": "MONOMER-53", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD00261", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "GALACTOSE", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 0.00016 0.00016 -"MONOMER-54_RXN" [{"molecule": "MONOMER-54", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD03576", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "GLYCEROL-3P", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 2E-05 2E-05 -"MONOMER-55_RXN" [{"molecule": "MONOMER-55", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD03585", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "GLUCONATE", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"MONOMER-56_RXN" [{"molecule": "MONOMER-56", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD00283", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "SORBITOL", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"MONOMER-57_RXN" [{"molecule": "MONOMER-57", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD04099", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "PHOSPHO-ENOL-PYRUVATE", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"MONOMER-58_RXN" [{"molecule": "MONOMER-58", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD00364", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "CPD-110", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 0.00075 0.00075 -"MONOMER-59_RXN" [{"molecule": "MONOMER-59", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "EG11088-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "PYRUVATE", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"MONOMER-60-CPD-10330_RXN" [{"molecule": "MONOMER-60-CPD-10330", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "CPD-10330", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}, {"molecule": "PD03867", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"MONOMER-60-CPD-15818_RXN" [{"molecule": "MONOMER-60-CPD-15818", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "CPD-15818", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}, {"molecule": "PD03867", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"MONOMER-60-CPD0-1108_RXN" [{"molecule": "MONOMER-60-CPD0-1108", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "CPD0-1108", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}, {"molecule": "PD03867", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"MONOMER-60-CPD0-1110_RXN" [{"molecule": "MONOMER-60-CPD0-1110", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "CPD0-1110", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}, {"molecule": "PD03867", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"MONOMER0-1301_RXN" [{"molecule": "MONOMER0-1301", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "G7891-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "5-DEHYDROGLUCONATE", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"MONOMER0-1441_RXN" [{"molecule": "MONOMER0-1441", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "G6201-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "3-HYDROXYPHENYL-PROPIONATE", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 2.7E-05 2.7E-05 -"MONOMER0-155_RXN" [{"molecule": "MONOMER0-155", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD00353", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "LEU", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 0.00019 1E-06 -"CPLX0-7796_RXN" [{"molecule": "CPLX0-7796", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "CPLX0-7796APO", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "S-ADENOSYLMETHIONINE", "coeff": -2.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 0.0002 0.0002 -"MONOMER0-158_RXN" [{"molecule": "MONOMER0-158", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD00237", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "MALTOTRIOSE", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}, {"molecule": "ATP", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 0.0002 0.0002 -"MONOMER0-159_RXN" [{"molecule": "MONOMER0-159", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD00763", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "ALLOLACTOSE", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 0.0009 0.0009 -"MONOMER0-160_RXN" [{"molecule": "MONOMER0-160", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD03831", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "ATP", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 2.9E-08 2.9E-08 -"MONOMER0-161_RXN" [{"molecule": "MONOMER0-161", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD00208", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "MELIBIOSE", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"MONOMER0-162_RXN" [{"molecule": "MONOMER0-162", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD00413", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "TYR", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1.7E-05 1.7E-05 -"MONOMER0-163_RXN" [{"molecule": "MONOMER0-163", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD00413", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "PHE", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1.369E-05 0.0037 -"MONOMER0-164_RXN" [{"molecule": "MONOMER0-164", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD00291", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "CPD-69", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"MONOMER0-165_RXN" [{"molecule": "MONOMER0-165", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "EG20253-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "XYLOSE", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 3.3E-06 3.3E-06 -"MONOMER0-1781_RXN" [{"molecule": "MONOMER0-1781", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "EG11519-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "NI+2", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-09 1E-09 -"MONOMER0-183_RXN" [{"molecule": "MONOMER0-183", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD02936", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "FORMATE", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 0.005 0.005 -"MONOMER0-2081_RXN" [{"molecule": "MONOMER0-2081", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "G7331-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "3-PHENYLPROPIONATE", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"MONOMER0-2101-CPD-12537_RXN" [{"molecule": "MONOMER0-2101-CPD-12537", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "CPD-12537", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}, {"molecule": "EG20249-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"MONOMER0-2162_RXN" [{"molecule": "MONOMER0-2162", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "G7854-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "L-ASCORBATE-6-PHOSPHATE", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"MONOMER0-2201_RXN" [{"molecule": "MONOMER0-2201", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "G6276-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "GLYOX", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 9.4E-06 9.4E-06 -"MONOMER0-2221_RXN" [{"molecule": "MONOMER0-2221", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "G6274-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "S-ALLANTOIN", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"MONOMER0-2261-CPD-16168_RXN" [{"molecule": "MONOMER0-2261-CPD-16168", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "CPD-16168", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}, {"molecule": "PD00266", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"MONOMER0-2341-CPD0-1122_RXN" [{"molecule": "MONOMER0-2341-CPD0-1122", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "CPD0-1122", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}, {"molecule": "G7678-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"MONOMER0-2341-CPD0-1123_RXN" [{"molecule": "MONOMER0-2341-CPD0-1123", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "CPD0-1123", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}, {"molecule": "G7678-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"MONOMER0-2421_RXN" [{"molecule": "MONOMER0-2421", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "G6195-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "CPD-622", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"MONOMER0-2461_RXN" [{"molecule": "MONOMER0-2461", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD00369", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "MANNITOL", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"MONOMER0-2482-CPD-15629_RXN" [{"molecule": "MONOMER0-2482-CPD-15629", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "CPD-15629", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}, {"molecule": "G7821-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"MONOMER0-46_RXN" [{"molecule": "MONOMER0-46", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD00474", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "NA+", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"MONOMER0-49_RXN" [{"molecule": "MONOMER0-49", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PD00251", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "CHOLINE", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"MONOMER0-562_RXN" [{"molecule": "MONOMER0-562", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "G7546-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "GLYCOLLATE", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"MONOMER0-941_RXN" [{"molecule": "MONOMER0-941", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "EG11149-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "GLY", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"PUTA-CPLXBND_RXN" [{"molecule": "PUTA-CPLXBND", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PUTA-CPLX", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "PRO", "coeff": -2.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1.521E-07 1E-06 -"FNR-4FE-4S_RXN" [{"molecule": "FNR-4FE-4S-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "CPLX0-7797", "coeff": -1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "4FE-4S", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 1 1E-06 1E-06 -"ARCB-OXYGEN_RXN" [{"molecule": "ARCB-OXYGEN-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "ARCB-CPLX", "coeff": -1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "OXYGEN-MOLECULE", "coeff": -1.0, "type": "metabolite", "location": "p", "form": "mature"}] 1 1E-06 1E-06 -"BAES-INDOLE_RXN" [{"molecule": "BAES-INDOLE-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "BAES-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "INDOLE", "coeff": -1.0, "type": "metabolite", "location": "p", "form": "mature"}] 1 1E-06 1E-06 -"BASS-FE+3_RXN" [{"molecule": "BASS-FE+3-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "BASS-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "FE+3", "coeff": -1.0, "type": "metabolite", "location": "p", "form": "mature"}] 1 1E-06 1E-06 -"DCUS-SUC_RXN" [{"molecule": "DCUS-SUC-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "DCUS-MONOMER", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "SUC", "coeff": -1.0, "type": "metabolite", "location": "p", "form": "mature"}] 1 1E-06 1E-06 -"NARX-NITRATE_RXN" [{"molecule": "NARX-NITRATE-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "NARX-CPLX", "coeff": -1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "NITRATE", "coeff": -1.0, "type": "metabolite", "location": "p", "form": "mature"}] 1 3.5E-05 3.5E-05 -"PHOQ-CA+2_RXN" [{"molecule": "PHOQ-CA+2-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "CPLX0-8168", "coeff": -1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "CA+2", "coeff": -1.0, "type": "metabolite", "location": "p", "form": "mature"}] 1 3.7E-05 3.7E-05 -"PHOR-Pi-CPLX_RXN" [{"molecule": "PHOR-Pi-CPLX", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "PHOR-CPLX", "coeff": -1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "PI", "coeff": -1.0, "type": "metabolite", "location": "p", "form": "mature"}] 1 1E-08 1E-08 +"id" "stoichiometry" "common_name" +"CPLX-123_RXN" {"CPLX-123":1,"PC00033":null,"HYPOXANTHINE":null} "PurR-Hypoxanthine DNA-binding transcriptional repressor" +"CPLX-124_CPD0-1112_RXN" {"CPLX-124":1,"CPD0-1112":null,"PC00086":null} "RhaS-L-rhamnose DNA-binding transcriptional activator" +"CPLX-124_RHAMNOSE_RXN" {"CPLX-124":1,"RHAMNOSE":null,"PC00086":null} "RhaS-L-rhamnose DNA-binding transcriptional activator" +"CPLX-125_RXN" {"CPLX-125":1,"TRP":null,"PC00007":null} "TrpR-Tryptophan DNA-binding transcriptional repressor" +"CPLX-127_RXN" {"CPLX-127":1,"PC00061":null,"FRU1P":null} "Cra-fructose-1-phosphate" +"CPLX-172_RXN" {"CPLX-172":1,"PC00003":null,"ARABINOSE":null} "AraC-L-arabinose DNA-binding transcriptional activator" +"CPLX0-226_RXN" {"CPLX0-226":1,"PC00004":null,"CAMP":null} "CRP-cAMP DNA-binding transcriptional dual regulator" +"CPLX0-228_RXN" {"CPLX0-228":1,"PC00005":null,"ARG":null} "ArgR-L-arginine DNA-binding transcriptional dual regulator" +"CPLX0-2781_RXN" {"CPLX0-2781":1,"PC00040":null,"ACETYLSERINE":null} "CysB-O-acetyl-L-serine DNA-binding transcriptional dual regulator" +"CPLX0-6_RXN" {"CPLX0-6":1,"CPLX0-2541":null,"CPD-3":null} "ModE-MoO42- DNA-binding transcriptional dual regulator" +"CPLX0-7541_RXN" {"CPLX0-7541":1,"ALAS-MONOMER":null,"L-ALPHA-ALANINE":null} "AlaS-L-alanine DNA-binding transcriptional repressor" +"CPLX0-7605_RXN" {"CPLX0-7605":1,"PD04099":null,"PYRUVATE":null} "IclR-pyruvate DNA-binding transcriptional repressor" +"CPLX0-7606_RXN" {"CPLX0-7606":1,"PD04099":null,"GLYOX":null} "IclR-glyox" +"CPLX0-7618_RXN" {"CPLX0-7618":1,"G7137-MONOMER":null,"NI+2":null} "RcnR-nickel" +"CPLX0-7619_RXN" {"CPLX0-7619":1,"G7137-MONOMER":null,"CO+2":null} "RcnR-Co2+" +"CPLX0-7639_RXN" {"CPLX0-7639":1,"FE+2":-2,"PD00260":-2} "Fur-Fe2+ DNA-binding transcriptional dual regulator" +"CPLX0-7650_RXN" {"CPLX0-7650":1,"PD00444":null,"FUCULOSE-1P":null} "FucR-L-fuculose-1-phosphate DNA-binding transcriptional activator" +"CPLX0-7651_RXN" {"CPLX0-7651":1,"PD01352":null,"URACIL":null} "RutR-uracil" +"CPLX0-7670_RXN" {"CPLX0-7670":1,"CPLX0-7669":null,"LYS":null} "ArgP-lysine" +"CPLX0-7671_RXN" {"CPLX0-7671":1,"CPLX0-7669":null,"ARG":null} "ArgP-arginine DNA-binding transcriptional dual regulator" +"CPLX0-7677_RXN" {"CPLX0-7677":1,"EG11969-MONOMER":null,"ZN+2":null} "ZntR-Zn2+ transcriptional activator" +"CPLX0-7680_RXN" {"CPLX0-7680":1,"CPLX0-7679":null,"ZN+2":-4} "Zur-Zn2+ DNA-binding transcriptional repressor" +"CPLX0-7681_RXN" {"CPLX0-7681":1,"EG11146-MONOMER":null,"XANTHOSINE":null} "XapR-xanthosine DNA-binding transcriptional activator" +"CPLX0-7689_RXN" {"CPLX0-7689":1,"EG11962-MONOMER":null,"L-LACTATE":null} "DNA-binding transcriptional dual regulator LldR-L-lactate" +"CPLX0-7701_RXN" {"CPLX0-7701":1,"G6420-MONOMER":null,"MN+2":null} "MntR-Mn2+" +"CPLX0-7702_RXN" {"CPLX0-7702":1,"G6263-MONOMER":null,"CU+":null} "CueR-Cu+" +"CPLX0-7714_RXN" {"CPLX0-7714":1,"CPLX0-7713":null,"D-SERINE":null} "DsdC-D-serine DNA-binding transcriptional dual regulator" +"CPLX0-7715_RXN" {"CPLX0-7715":1,"PD00200":null,"2-ACETO-LACTATE":null} "IlvY-2-acetolactate DNA-binding transcriptional dual regulator" +"CPLX0-7716_RXN" {"CPLX0-7716":1,"G6889-MONOMER":null,"METHYL-GLYOXAL":null} "NemR-methylglyoxal" +"CPLX0-7729_RXN" {"CPLX0-7729":1,"G6720-MONOMER":null,"CPD-207":null} "PaaX-phenylacetyl-CoA" +"CPLX0-7735_RXN" {"CPLX0-7735":1,"CPLX0-7733":null,"ASN":null} "AsnC-L-asparagine" +"CPLX0-7736_RXN" {"CPLX0-7736":1,"EG12235-MONOMER":null,"CPD-763":null} "ArsR-arsenite" +"CPLX0-7739_RXN" {"CPLX0-7739":1,"EG12235-MONOMER":null,"ANTIMONITE":null} "ArsR-antimonite" +"CPLX0-7742_RXN" {"CPLX0-7742":1,"EG10603-MONOMER":null,"CPD-8179":null} "MprA-2,4-dinitrophenol" +"CPLX0-7743_RXN" {"CPLX0-7743":1,"EG10603-MONOMER":null,"CPD-7970":null} "MprA-CCCP" +"CPLX0-7746_RXN" {"CPLX0-7746":1,"G7262-MONOMER":null,"CPD0-881":null} "MurR-MurNAc-6-P" +"CPLX0-7749_RXN" {"CPLX0-7749":1,"G6799-MONOMER":null,"DIHYDROXYPENTANEDIONE":null} "LsrR-DHPD" +"CPLX0-7750_RXN" {"CPLX0-7750":1,"G6799-MONOMER":null,"CPD-10551":null} "LsrR-P-DPD" +"CPLX0-7751_RXN" {"CPLX0-7751":1,"EG11212-MONOMER":null,"NITRIC-OXIDE":null} "NsrR-nitric oxide" +"CPLX0-7752_RXN" {"CPLX0-7752":1,"CPLX0-7759":null,"HOMO-CYS":null} "MetR-L-homocysteine" +"CPLX0-7761_RXN" {"CPLX0-7761":1,"CPD-7":-2,"ACONITATEDEHYDRB-MONOMER":-2} "bifunctional aconitate hydratase B and 2-methylisocitrate dehydratase" +"CPLX0-8026_RXN" {"CPLX0-8026":1,"5-METHYLTHIOADENOSINE":null,"PD04032":null} "MetJ-MTA" +"CPLX0-8027_RXN" {"CPLX0-8027":1,"ADENINE":null,"PD04032":null} "MetJ-adenine" +"CPLX0-8048_RXN" {"CPLX0-8048":1,"EG12694-MONOMER":null,"TARTRATE":null} "Dan-L-tartrate DNA-binding transcriptional activator" +"CPLX0-8051_RXN" {"CPLX0-8051":1,"CPLX0-7740":null,"CYTIDINE":null} "CytR-cytidine" +"CPLX0-8055_RXN" {"CPLX0-8055":1,"EG12116-MONOMER":null,"CPD0-1938":null} "AcrR-ethidium" +"CPLX0-8056_TREHALOSE-6P_RXN" {"CPLX0-8056":1,"TREHALOSE-6P":null,"EG12202-MONOMER":null} "TreR-trehalose 6-phosphate" +"CPLX0-8057_RXN" {"CPLX0-8057":1,"PD03576":null,"GLYCEROL":null} "GlpR-glycerol" +"CPLX0-8058_RXN" {"CPLX0-8058":1,"PD01352":null,"THYMINE":null} "RutR-thymine" +"CPLX0-8060_RXN" {"CPLX0-8060":1,"PD00339":null,"GLY":null} "GcvA-gly" +"CPLX0-8061_RXN" {"CPLX0-8061":1,"EG11320-MONOMER":null,"ZN+2":null} "NrdR-Zn2+ DNA-binding transcriptional repressor" +"CPLX0-8062_RXN" {"CPLX0-8062":1,"CPLX0-7666":null,"CARNITINE":null} "CaiF-L-carnitine DNA-binding Transcriptional Activator" +"CPLX0-8069_RXN" {"CPLX0-8069":1,"G7594-MONOMER":null,"NI+2":null} "NfeR-nickel" +"CPLX0-8070_RXN" {"CPLX0-8070":1,"EG10230-MONOMER":null,"GUANOSINE-5DP-3DP":null} "DksA-ppGpp" +"CPLX0-8071_R--ALLANTOIN_RXN" {"CPLX0-8071":1,"R--ALLANTOIN":null,"G6276-MONOMER":null} "AllR-allantoin" +"CPLX0-8071_S-ALLANTOIN_RXN" {"CPLX0-8071":1,"S-ALLANTOIN":null,"G6276-MONOMER":null} "AllR-allantoin" +"CPLX0-8074_RXN" {"CPLX0-8074":1,"G6569-MONOMER":null,"CU+":null} "ComR-Cu(I)" +"CPLX0-8083_RXN" {"CPLX0-8083":1,"CPD-6":null,"G7326-MONOMER":null} "IscR-2Fe-2S DNA-binding transcriptional repressor" +"CPLX0-8085_RXN" {"CPLX0-8085":1,"EG12431-MONOMER":null,"PUTRESCINE":null} "PuuR-putrescine" +"CPLX0-8088_RXN" {"CPLX0-8088":1,"G6799-MONOMER":null,"CPD-10774":null} "LsrR-AI-2" +"CPLX0-8162_RXN" {"CPLX0-8162":1,"EG12860-MONOMER":null,"2-KETO-3-DEOXY-6-P-GLUCONATE":null} "YebK-2-dehydro-3-deoxy-D-gluconate 6-phosphate" +"CPLX0-8209_RXN" {"CPLX0-8209":1,"CPD-14488":null,"EG20249-MONOMER":null,"CPD-12523":null} "UxuR-α-D-galacturonate,α-D-glucuronate" +"CPLX0-8210_RXN" {"CPLX0-8210":1,"PD03270":null,"CPD-12523":null} "ExuR-α-D-galacturonate, α-D-glucuronate-DNA-binding transcriptional repressor" +"CPLX0-8235_RXN" {"CPLX0-8235":1,"CPLX0-8234":null,"FORMALDEHYDE":null} "FrmR-formol" +"CPLX0-8246_RXN" {"CPLX0-8246":1,"PD03270":null,"CPD-14488":null} "ExuR-α-D-glucuronate" +"CPLX0-8257_RXN" {"CPLX0-8257":1,"G6144-MONOMER":null,"D-XYLONATE":null} "XynR-D-xylonate" +"CPLX0-8258_RXN" {"CPLX0-8258":1,"EG10143-MONOMER":null,"CPD0-2501":null} "ChbR-N-monoacetylchitobiose 6'-phosphate" +"CPLX0-8286_CPD-21685_RXN" {"CPLX0-8286":1,"CPD-21685":null,"EG11849-MONOMER":null} "CsqR-6-sulfo-D-quinovose" +"CPLX0-8287_RXN" {"CPLX0-8287":1,"G7790-MONOMER":null,"D-GALACTONATE":null} "DgoR-D-galactonate" +"CPLX0-8293_RXN" {"CPLX0-8293":1,"EG12386-MONOMER":null,"GLUTARATE":null} "GlaR-glutarate" +"CPLX0-8309_RXN" {"CPLX0-8309":1,"G7244-MONOMER":null,"PYRUVATE":null} "PyrR-BTS" +"CPLX0-8543_RXN" {"CPLX0-8543":1,"CPLX0-7708":null,"CU+":null} "CueR-Cu+" +"MONOMER-2720_RXN" {"MONOMER-2720":1,"G7071-MONOMER":null,"APS":null} "Cbl-APS" +"MONOMER-47_CPD0-1112_RXN" {"MONOMER-47":1,"CPD0-1112":null,"PD00222":null} "RhaR-L-rhamnose DNA-binding transcriptional activator" +"MONOMER-47_RHAMNOSE_RXN" {"MONOMER-47":1,"RHAMNOSE":null,"PD00222":null} "RhaR-L-rhamnose DNA-binding transcriptional activator" +"MONOMER-48_RXN" {"MONOMER-48":1,"BIOTINLIG-MONOMER":null,"BIO-5-AMP":null} "BirA-bio-5'-AMP DNA-binding transcriptional repressor / biotin-[acetyl-CoA-carboxylase] ligase" +"MONOMER-51_3-KETO-ADIPYL-COA_RXN" {"MONOMER-51":1,"3-KETO-ADIPYL-COA":null,"PD01520":null} "FadR-acyl-CoA" +"MONOMER-51_3-OXOPALMITOYL-COA_RXN" {"MONOMER-51":1,"3-OXOPALMITOYL-COA":null,"PD01520":null} "FadR-acyl-CoA" +"MONOMER-51_ACETOACETYL-COA_RXN" {"MONOMER-51":1,"ACETOACETYL-COA":null,"PD01520":null} "FadR-acyl-CoA" +"MONOMER-51_BUTYRYL-COA_RXN" {"MONOMER-51":1,"BUTYRYL-COA":null,"PD01520":null} "FadR-acyl-CoA" +"MONOMER-51_CPD-10260_RXN" {"MONOMER-51":1,"CPD-10260":null,"PD01520":null} "FadR-acyl-CoA" +"MONOMER-51_CPD-10267_RXN" {"MONOMER-51":1,"CPD-10267":null,"PD01520":null} "FadR-acyl-CoA" +"MONOMER-51_CPD-10269_RXN" {"MONOMER-51":1,"CPD-10269":null,"PD01520":null} "FadR-acyl-CoA" +"MONOMER-51_CPD-10284_RXN" {"MONOMER-51":1,"CPD-10284":null,"PD01520":null} "FadR-acyl-CoA" +"MONOMER-51_CPD-14916_RXN" {"MONOMER-51":1,"CPD-14916":null,"PD01520":null} "FadR-acyl-CoA" +"MONOMER-51_CPD-14925_RXN" {"MONOMER-51":1,"CPD-14925":null,"PD01520":null} "FadR-acyl-CoA" +"MONOMER-51_CPD-15244_RXN" {"MONOMER-51":1,"CPD-15244":null,"PD01520":null} "FadR-acyl-CoA" +"MONOMER-51_CPD-15436_RXN" {"MONOMER-51":1,"CPD-15436":null,"PD01520":null} "FadR-acyl-CoA" +"MONOMER-51_CPD-18346_RXN" {"MONOMER-51":1,"CPD-18346":null,"PD01520":null} "FadR-acyl-CoA" +"MONOMER-51_CPD-19144_RXN" {"MONOMER-51":1,"CPD-19144":null,"PD01520":null} "FadR-acyl-CoA" +"MONOMER-51_CPD-19147_RXN" {"MONOMER-51":1,"CPD-19147":null,"PD01520":null} "FadR-acyl-CoA" +"MONOMER-51_CPD-19148_RXN" {"MONOMER-51":1,"CPD-19148":null,"PD01520":null} "FadR-acyl-CoA" +"MONOMER-51_CPD-19151_RXN" {"MONOMER-51":1,"CPD-19151":null,"PD01520":null} "FadR-acyl-CoA" +"MONOMER-51_CPD-19153_RXN" {"MONOMER-51":1,"CPD-19153":null,"PD01520":null} "FadR-acyl-CoA" +"MONOMER-51_CPD-19154_RXN" {"MONOMER-51":1,"CPD-19154":null,"PD01520":null} "FadR-acyl-CoA" +"MONOMER-51_CPD-19155_RXN" {"MONOMER-51":1,"CPD-19155":null,"PD01520":null} "FadR-acyl-CoA" +"MONOMER-51_CPD-19157_RXN" {"MONOMER-51":1,"CPD-19157":null,"PD01520":null} "FadR-acyl-CoA" +"MONOMER-51_CPD-19158_RXN" {"MONOMER-51":1,"CPD-19158":null,"PD01520":null} "FadR-acyl-CoA" +"MONOMER-51_CPD-19159_RXN" {"MONOMER-51":1,"CPD-19159":null,"PD01520":null} "FadR-acyl-CoA" +"MONOMER-51_CPD-19160_RXN" {"MONOMER-51":1,"CPD-19160":null,"PD01520":null} "FadR-acyl-CoA" +"MONOMER-51_CPD-19167_RXN" {"MONOMER-51":1,"CPD-19167":null,"PD01520":null} "FadR-acyl-CoA" +"MONOMER-51_CPD-19168_RXN" {"MONOMER-51":1,"CPD-19168":null,"PD01520":null} "FadR-acyl-CoA" +"MONOMER-51_CPD-19169_RXN" {"MONOMER-51":1,"CPD-19169":null,"PD01520":null} "FadR-acyl-CoA" +"MONOMER-51_CPD-19171_RXN" {"MONOMER-51":1,"CPD-19171":null,"PD01520":null} "FadR-acyl-CoA" +"MONOMER-51_CPD-196_RXN" {"MONOMER-51":1,"CPD-196":null,"PD01520":null} "FadR-acyl-CoA" +"MONOMER-51_CPD-22313_RXN" {"MONOMER-51":1,"CPD-22313":null,"PD01520":null} "FadR-acyl-CoA" +"MONOMER-51_CPD-650_RXN" {"MONOMER-51":1,"CPD-650":null,"PD01520":null} "FadR-acyl-CoA" +"MONOMER-51_CPD-7221_RXN" {"MONOMER-51":1,"CPD-7221":null,"PD01520":null} "FadR-acyl-CoA" +"MONOMER-51_CPD-9965_RXN" {"MONOMER-51":1,"CPD-9965":null,"PD01520":null} "FadR-acyl-CoA" +"MONOMER-51_CPD0-1163_RXN" {"MONOMER-51":1,"CPD0-1163":null,"PD01520":null} "FadR-acyl-CoA" +"MONOMER-51_CPD0-2105_RXN" {"MONOMER-51":1,"CPD0-2105":null,"PD01520":null} "FadR-acyl-CoA" +"MONOMER-51_CPD0-2106_RXN" {"MONOMER-51":1,"CPD0-2106":null,"PD01520":null} "FadR-acyl-CoA" +"MONOMER-51_CPD0-2107_RXN" {"MONOMER-51":1,"CPD0-2107":null,"PD01520":null} "FadR-acyl-CoA" +"MONOMER-51_CPD0-2123_RXN" {"MONOMER-51":1,"CPD0-2123":null,"PD01520":null} "FadR-acyl-CoA" +"MONOMER-51_CPD0-2171_RXN" {"MONOMER-51":1,"CPD0-2171":null,"PD01520":null} "FadR-acyl-CoA" +"MONOMER-51_CPD0-2232_RXN" {"MONOMER-51":1,"CPD0-2232":null,"PD01520":null} "FadR-acyl-CoA" +"MONOMER-51_CPD0-2244_RXN" {"MONOMER-51":1,"CPD0-2244":null,"PD01520":null} "FadR-acyl-CoA" +"MONOMER-51_CPD0-2253_RXN" {"MONOMER-51":1,"CPD0-2253":null,"PD01520":null} "FadR-acyl-CoA" +"MONOMER-51_HEXANOYL-COA_RXN" {"MONOMER-51":1,"HEXANOYL-COA":null,"PD01520":null} "FadR-acyl-CoA" +"MONOMER-51_K-HEXANOYL-COA_RXN" {"MONOMER-51":1,"K-HEXANOYL-COA":null,"PD01520":null} "FadR-acyl-CoA" +"MONOMER-51_LAUROYLCOA-CPD_RXN" {"MONOMER-51":1,"LAUROYLCOA-CPD":null,"PD01520":null} "FadR-acyl-CoA" +"MONOMER-51_OH-HEXANOYL-COA_RXN" {"MONOMER-51":1,"OH-HEXANOYL-COA":null,"PD01520":null} "FadR-acyl-CoA" +"MONOMER-51_OLEOYL-COA_RXN" {"MONOMER-51":1,"OLEOYL-COA":null,"PD01520":null} "FadR-acyl-CoA" +"MONOMER-51_PALMITYL-COA_RXN" {"MONOMER-51":1,"PALMITYL-COA":null,"PD01520":null} "FadR-acyl-CoA" +"MONOMER-51_PROPIONYL-COA_RXN" {"MONOMER-51":1,"PROPIONYL-COA":null,"PD01520":null} "FadR-acyl-CoA" +"MONOMER-51_S-3-HYDROXYBUTANOYL-COA_RXN" {"MONOMER-51":1,"S-3-HYDROXYBUTANOYL-COA":null,"PD01520":null} "FadR-acyl-CoA" +"MONOMER-51_STEAROYL-COA_RXN" {"MONOMER-51":1,"STEAROYL-COA":null,"PD01520":null} "FadR-acyl-CoA" +"MONOMER-51_TETRADECANOYL-COA_RXN" {"MONOMER-51":1,"TETRADECANOYL-COA":null,"PD01520":null} "FadR-acyl-CoA" +"MONOMER-52_ALPHA-D-GALACTOSE_RXN" {"MONOMER-52":1,"ALPHA-D-GALACTOSE":null,"PD03028":null} "GalR-galactose" +"MONOMER-52_CPD-15590_RXN" {"MONOMER-52":1,"CPD-15590":null,"PD03028":null} "GalR-galactose" +"MONOMER-52_CPD0-2485_RXN" {"MONOMER-52":1,"CPD0-2485":null,"PD03028":null} "GalR-galactose" +"MONOMER-52_CPD0-2486_RXN" {"MONOMER-52":1,"CPD0-2486":null,"PD03028":null} "GalR-galactose" +"MONOMER-52_GALACTOSE_RXN" {"MONOMER-52":1,"GALACTOSE":null,"PD03028":null} "GalR-galactose" +"MONOMER-53_ALPHA-D-GALACTOSE_RXN" {"MONOMER-53":1,"ALPHA-D-GALACTOSE":null,"PD00261":null} "GalS-galactose" +"MONOMER-53_CPD-15590_RXN" {"MONOMER-53":1,"CPD-15590":null,"PD00261":null} "GalS-galactose" +"MONOMER-53_CPD0-2485_RXN" {"MONOMER-53":1,"CPD0-2485":null,"PD00261":null} "GalS-galactose" +"MONOMER-53_CPD0-2486_RXN" {"MONOMER-53":1,"CPD0-2486":null,"PD00261":null} "GalS-galactose" +"MONOMER-53_GALACTOSE_RXN" {"MONOMER-53":1,"GALACTOSE":null,"PD00261":null} "GalS-galactose" +"MONOMER-54_RXN" {"MONOMER-54":1,"PD03576":null,"GLYCEROL-3P":null} "GlpR-glycerol-3-phosphate" +"MONOMER-55_RXN" {"MONOMER-55":1,"PD03585":null,"GLUCONATE":null} "GntR-gluconate" +"MONOMER-56_RXN" {"MONOMER-56":1,"PD00283":null,"SORBITOL":null} "GutR-sorbitol" +"MONOMER-58_RXN" {"MONOMER-58":1,"PD00364":null,"CPD-110":null} "MarR-salicylate" +"MONOMER-59_RXN" {"MONOMER-59":1,"EG11088-MONOMER":null,"PYRUVATE":null} "PdhR-pyruvate" +"MONOMER-60_CPD-10330_RXN" {"MONOMER-60":1,"CPD-10330":null,"PD03867":null} "RbsR-D-ribose" +"MONOMER-60_CPD-15818_RXN" {"MONOMER-60":1,"CPD-15818":null,"PD03867":null} "RbsR-D-ribose" +"MONOMER-60_CPD-15829_RXN" {"MONOMER-60":1,"CPD-15829":null,"PD03867":null} "RbsR-D-ribose" +"MONOMER-60_CPD0-1108_RXN" {"MONOMER-60":1,"CPD0-1108":null,"PD03867":null} "RbsR-D-ribose" +"MONOMER-60_CPD0-1110_RXN" {"MONOMER-60":1,"CPD0-1110":null,"PD03867":null} "RbsR-D-ribose" +"MONOMER0-1301_RXN" {"MONOMER0-1301":1,"G7891-MONOMER":null,"5-DEHYDROGLUCONATE":null} "IdnR-5-ketogluconate DNA-binding transcriptional dual regulator" +"MONOMER0-1441_RXN" {"MONOMER0-1441":1,"G6201-MONOMER":null,"3-HYDROXYPHENYL-PROPIONATE":null} "MhpR-3HPP DNA-binding transcriptional activator" +"MONOMER0-155_RXN" {"MONOMER0-155":1,"PD00353":null,"LEU":null} "Lrp-Leucine DNA-binding transcriptional dual regulator" +"MONOMER0-157_RXN" {"MONOMER0-157":1,"S-ADENOSYLMETHIONINE":null,"PD04032":null} "MetJ-S-adenosylmethionine" +"MONOMER0-158_RXN" {"MONOMER0-158":1,"PD00237":null,"MALTOTRIOSE":null,"ATP":null} "MalT-Maltotriose-ATP DNA-binding transcriptional activator" +"MONOMER0-159_RXN" {"MONOMER0-159":1,"PD00763":null,"ALLOLACTOSE":null} "LacI-allolactose" +"MONOMER0-160_RXN" {"MONOMER0-160":1,"PD03831":null,"ATP":null} "DnaA-ATP DNA-binding transcriptional dual regulator" +"MONOMER0-161_RXN" {"MONOMER0-161":1,"PD00208":null,"MELIBIOSE":null} "MelR-Melibiose transcriptional activator" +"MONOMER0-162_RXN" {"MONOMER0-162":1,"PD00413":null,"TYR":null} "TyrR-Tyrosine DNA-binding transcriptional repressor" +"MONOMER0-163_RXN" {"MONOMER0-163":1,"PD00413":null,"PHE":null} "TyrR-Phenylalanine DNA-binding transcriptional repressor" +"MONOMER0-164_RXN" {"MONOMER0-164":1,"PD00291":null,"CPD-69":null} "CynR-Cyanate DNA-binding transcriptional dual regulator" +"MONOMER0-165_RXN" {"MONOMER0-165":1,"EG20253-MONOMER":null,"XYLOSE":null} "XylR-Xylose DNA-binding transcriptional dual regulator" +"MONOMER0-1781_RXN" {"MONOMER0-1781":1,"EG11519-MONOMER":null,"NI+2":null} "NikR-Ni transcriptional repressor" +"MONOMER0-183_RXN" {"MONOMER0-183":1,"PD02936":null,"FORMATE":null} "FhlA-Formate DNA-binding transcriptional activator" +"MONOMER0-2081_RXN" {"MONOMER0-2081":1,"G7331-MONOMER":null,"3-PHENYLPROPIONATE":null} "HcaR-HCA DNA-binding transcriptional dual regulator" +"MONOMER0-2101_CPD-12537_RXN" {"MONOMER0-2101":1,"CPD-12537":null,"EG20249-MONOMER":null} "UxuR-fructuronate" +"MONOMER0-2162_RXN" {"MONOMER0-2162":1,"G7854-MONOMER":null,"L-ASCORBATE-6-PHOSPHATE":null} "UlaR-L-ascorbate-6P" +"MONOMER0-2201_RXN" {"MONOMER0-2201":1,"G6276-MONOMER":null,"GLYOX":null} "AllR-glyox" +"MONOMER0-2221_R--ALLANTOIN_RXN" {"MONOMER0-2221":1,"R--ALLANTOIN":null,"G6274-MONOMER":null} "AllS-allantoin DNA-binding transcriptional activator" +"MONOMER0-2221_S-ALLANTOIN_RXN" {"MONOMER0-2221":1,"S-ALLANTOIN":null,"G6274-MONOMER":null} "AllS-allantoin DNA-binding transcriptional activator" +"MONOMER0-2261_CPD-16168_RXN" {"MONOMER0-2261":1,"CPD-16168":null,"PD00266":null} "NagC-NAcGlc-6-P" +"MONOMER0-2341_CPD0-1122_RXN" {"MONOMER0-2341":1,"CPD0-1122":null,"G7678-MONOMER":null} "NanR-NANA" +"MONOMER0-2341_CPD0-1123_RXN" {"MONOMER0-2341":1,"CPD0-1123":null,"G7678-MONOMER":null} "NanR-NANA" +"MONOMER0-2421_RXN" {"MONOMER0-2421":1,"G6195-MONOMER":null,"CPD-622":null} "PrpR-2-methylcitrate DNA-binding transcriptional dual regulator" +"MONOMER0-2482_CPD-15629_RXN" {"MONOMER0-2482":1,"CPD-15629":null,"G7821-MONOMER":null} "AlsR-allose" +"MONOMER0-46_RXN" {"MONOMER0-46":1,"PD00474":null,"NA+":null} "NhaR-Na+ DNA-binding transcriptional activator" +"MONOMER0-49_RXN" {"MONOMER0-49":1,"PD00251":null,"CHOLINE":null} "BetI-choline" +"MONOMER0-562_RXN" {"MONOMER0-562":1,"G7546-MONOMER":null,"GLYCOLLATE":null} "GlcC-Glycolate DNA-binding transcriptional dual regulator" +"MONOMER0-941_RXN" {"MONOMER0-941":1,"EG11149-MONOMER":null,"GLY":null} "GcvR-gly" +# Reactions below were added to save some 1CS reactions +"PUTA-CPLXBND_RXN" {"PUTA-CPLXBND": 1, "PUTA-CPLX": -1, "PRO": -2} +"FNR-4FE-4S_RXN" {"FNR-4FE-4S-CPLX": 1, "CPLX0-7797": -1, "4FE-4S": -1} +"CPLX0-7796_EQUILIBRIUM_RXN" {"CPLX0-7796": 1, "CPLX0-7796APO": -1, "S-ADENOSYLMETHIONINE": -2} +# Reactions below were added to save some 2CS reactions (TODO: have 2CS add these reactions) +"ARCB-OXYGEN_RXN" {"ARCB-OXYGEN-CPLX": 1, "ARCB-CPLX": -1, "OXYGEN-MOLECULE": -1} +"BAES-INDOLE_RXN" {"BAES-INDOLE-CPLX": 1, "BAES-MONOMER": -1, "INDOLE": -1} +"BASS-FE+3_RXN" {"BASS-FE+3-CPLX": 1, "BASS-MONOMER": -1, "FE+3": -1} +"DCUS-SUC_RXN" {"DCUS-SUC-CPLX": 1, "DCUS-MONOMER": -1, "SUC": -1} +"NARX-NITRATE_RXN" {"NARX-NITRATE-CPLX": 1, "NARX-CPLX": -1, "NITRATE": -1} +"PHOQ-CA+2_RXN" {"PHOQ-CA+2-CPLX": 1, "CPLX0-8168": -1, "CA+2": -1} +"PHOR-Pi-CPLX_RXN" {"PHOR-Pi-CPLX": 1, "PHOR-CPLX": -1, "Pi": -1} diff --git a/reconstruction/ecoli/flat/equilibrium_reactions_removed.tsv b/reconstruction/ecoli/flat/equilibrium_reactions_removed.tsv index 3e0493a3bd..33f3fe5662 100644 --- a/reconstruction/ecoli/flat/equilibrium_reactions_removed.tsv +++ b/reconstruction/ecoli/flat/equilibrium_reactions_removed.tsv @@ -1,8 +1,57 @@ "id" "_comments" -"CPLX0-7541_RXN" "CPLX0-7671_RXN" "ArgP-Arg complex. ArgP-Lys binding inhibits expression and is used as the inactive ArgP form." -"CPLX0-8026_RXN" -"CPLX0-8027_RXN" "CPLX0-8076_RXN" "ArgR-Arg complex. Not included in EcoCyc. Prevents formation of 6ArgR-Arg complex which is a TF" -"MONOMER-51-PROPIONYL-COA_RXN" -"MONOMER0-163_RXN" +"MONOMER-51_3-KETO-ADIPYL-COA_RXN" "Multiple reactions produce the same compound (MONOMER-51)" +"MONOMER-51_3-OXOPALMITOYL-COA_RXN" "Multiple reactions produce the same compound (MONOMER-51)" +"MONOMER-51_BUTYRYL-COA_RXN" "Multiple reactions produce the same compound (MONOMER-51)" +"MONOMER-51_CPD-10260_RXN" "Multiple reactions produce the same compound (MONOMER-51)" +"MONOMER-51_CPD-10267_RXN" "Multiple reactions produce the same compound (MONOMER-51)" +"MONOMER-51_CPD-10269_RXN" "Multiple reactions produce the same compound (MONOMER-51)" +"MONOMER-51_CPD-10284_RXN" "Multiple reactions produce the same compound (MONOMER-51)" +"MONOMER-51_CPD-14916_RXN" "Multiple reactions produce the same compound (MONOMER-51)" +"MONOMER-51_CPD-14925_RXN" "Multiple reactions produce the same compound (MONOMER-51)" +"MONOMER-51_CPD-15244_RXN" "Multiple reactions produce the same compound (MONOMER-51)" +"MONOMER-51_CPD-15436_RXN" "Multiple reactions produce the same compound (MONOMER-51)" +"MONOMER-51_CPD-18346_RXN" "Multiple reactions produce the same compound (MONOMER-51)" +"MONOMER-51_CPD-19144_RXN" "Multiple reactions produce the same compound (MONOMER-51)" +"MONOMER-51_CPD-19147_RXN" "Multiple reactions produce the same compound (MONOMER-51)" +"MONOMER-51_CPD-19148_RXN" "Multiple reactions produce the same compound (MONOMER-51)" +"MONOMER-51_CPD-19151_RXN" "Multiple reactions produce the same compound (MONOMER-51)" +"MONOMER-51_CPD-19153_RXN" "Multiple reactions produce the same compound (MONOMER-51)" +"MONOMER-51_CPD-19154_RXN" "Multiple reactions produce the same compound (MONOMER-51)" +"MONOMER-51_CPD-19155_RXN" "Multiple reactions produce the same compound (MONOMER-51)" +"MONOMER-51_CPD-19157_RXN" "Multiple reactions produce the same compound (MONOMER-51)" +"MONOMER-51_CPD-19158_RXN" "Multiple reactions produce the same compound (MONOMER-51)" +"MONOMER-51_CPD-19159_RXN" "Multiple reactions produce the same compound (MONOMER-51)" +"MONOMER-51_CPD-19160_RXN" "Multiple reactions produce the same compound (MONOMER-51)" +"MONOMER-51_CPD-19167_RXN" "Multiple reactions produce the same compound (MONOMER-51)" +"MONOMER-51_CPD-19168_RXN" "Multiple reactions produce the same compound (MONOMER-51)" +"MONOMER-51_CPD-19169_RXN" "Multiple reactions produce the same compound (MONOMER-51)" +"MONOMER-51_CPD-19171_RXN" "Multiple reactions produce the same compound (MONOMER-51)" +"MONOMER-51_CPD-196_RXN" "Multiple reactions produce the same compound (MONOMER-51)" +"MONOMER-51_CPD-22313_RXN" "Multiple reactions produce the same compound (MONOMER-51)" +"MONOMER-51_CPD-650_RXN" "Multiple reactions produce the same compound (MONOMER-51)" +"MONOMER-51_CPD-7221_RXN" "Multiple reactions produce the same compound (MONOMER-51)" +"MONOMER-51_CPD-9965_RXN" "Multiple reactions produce the same compound (MONOMER-51)" +"MONOMER-51_CPD0-1163_RXN" "Multiple reactions produce the same compound (MONOMER-51)" +"MONOMER-51_CPD0-2105_RXN" "Multiple reactions produce the same compound (MONOMER-51)" +"MONOMER-51_CPD0-2106_RXN" "Multiple reactions produce the same compound (MONOMER-51)" +"MONOMER-51_CPD0-2107_RXN" "Multiple reactions produce the same compound (MONOMER-51)" +"MONOMER-51_CPD0-2123_RXN" "Multiple reactions produce the same compound (MONOMER-51)" +"MONOMER-51_CPD0-2171_RXN" "Multiple reactions produce the same compound (MONOMER-51)" +"MONOMER-51_CPD0-2232_RXN" "Multiple reactions produce the same compound (MONOMER-51)" +"MONOMER-51_CPD0-2244_RXN" "Multiple reactions produce the same compound (MONOMER-51)" +"MONOMER-51_CPD0-2253_RXN" "Multiple reactions produce the same compound (MONOMER-51)" +"MONOMER-51_HEXANOYL-COA_RXN" "Multiple reactions produce the same compound (MONOMER-51)" +"MONOMER-51_K-HEXANOYL-COA_RXN" "Multiple reactions produce the same compound (MONOMER-51)" +"MONOMER-51_LAUROYLCOA-CPD_RXN" "Multiple reactions produce the same compound (MONOMER-51)" +"MONOMER-51_OH-HEXANOYL-COA_RXN" "Multiple reactions produce the same compound (MONOMER-51)" +"MONOMER-51_OLEOYL-COA_RXN" "Multiple reactions produce the same compound (MONOMER-51)" +"MONOMER-51_PALMITYL-COA_RXN" "Multiple reactions produce the same compound (MONOMER-51)" +"MONOMER-51_S-3-HYDROXYBUTANOYL-COA_RXN" "Multiple reactions produce the same compound (MONOMER-51)" +"MONOMER-51_STEAROYL-COA_RXN" "Multiple reactions produce the same compound (MONOMER-51)" +"MONOMER-51_TETRADECANOYL-COA_RXN" "Multiple reactions produce the same compound (MONOMER-51)" +"MONOMER-51_PROPIONYL-COA_RXN" "Multiple reactions produce the same compound (MONOMER-51)" +"MONOMER-51-PROPIONYL-COA_RXN" "Multiple reactions produce the same compound (MONOMER-51)" +"CPLX0-8083_RXN" "Molecular weight of CPD-6 unknown" +"MONOMER0-157_RXN" "Manual fix for 1CS TF CPLX0-7796" diff --git a/reconstruction/ecoli/flat/genes.tsv b/reconstruction/ecoli/flat/genes.tsv index 58609407c1..f91f2ef20a 100644 --- a/reconstruction/ecoli/flat/genes.tsv +++ b/reconstruction/ecoli/flat/genes.tsv @@ -1,4559 +1,4710 @@ -"id" "symbol" "coordinate" "direction" "length" "rna_id" -"EG10001" "alr" 4263804 "+" 1080 "EG10001_RNA" -"EG10002" "modB" 795084 "+" 690 "EG10002_RNA" -"EG10003" "cysZ" 2529484 "+" 762 "EG10003_RNA" -"EG10004" "dfp" 3810753 "+" 1221 "EG10004_RNA" -"EG10006" "dcuB" 4346766 "-" 1341 "EG10006_RNA" -"EG10007" "hisM" 2423254 "-" 717 "EG10007_RNA" -"EG10008" "zraS" 4199948 "+" 1398 "EG10008_RNA" -"EG10010" "rhsE" 1525913 "+" 2049 "EG10010_RNA" -"EG10011" "yaaA" 6458 "-" 777 "EG10011_RNA" -"EG10012" "cydC" 928417 "-" 1722 "EG10012_RNA" -"EG10013" "yebA" 1939658 "-" 1323 "EG10013_RNA" -"EG10014" "acrD" 2585616 "+" 3114 "EG10014_RNA" -"EG10015" "rodZ" 2640865 "-" 1014 "EG10015_RNA" -"EG10016" "garL" 3271578 "-" 771 "EG10016_RNA" -"EG10017" "ispB" 3331731 "+" 972 "EG10017_RNA" -"EG10018" "csrD" 3401353 "-" 1941 "EG10018_RNA" -"EG10020" "cpxR" 4103692 "-" 699 "EG10020_RNA" -"EG10021" "yjiA" 4586887 "-" 957 "EG10021_RNA" -"EG10022" "aceA" 4215131 "+" 1305 "EG10022_RNA" -"EG10023" "aceB" 4213500 "+" 1602 "EG10023_RNA" -"EG10024" "aceE" 123016 "+" 2664 "EG10024_RNA" -"EG10025" "aceF" 125694 "+" 1893 "EG10025_RNA" -"EG10026" "aceK" 4216618 "+" 1737 "EG10026_RNA" -"EG10027" "ackA" 2411491 "+" 1203 "EG10027_RNA" -"EG10028" "pflA" 950302 "-" 741 "EG10028_RNA" -"EG10029" "ada" 2308426 "-" 1065 "EG10029_RNA" -"EG10030" "add" 1700256 "+" 1002 "EG10030_RNA" -"EG10031" "adhE" 1297343 "-" 2676 "EG10031_RNA" -"EG10032" "adk" 496398 "+" 645 "EG10032_RNA" -"EG10033" "agp" 1064807 "+" 1242 "EG10033_RNA" -"EG10034" "alaS" 2820032 "-" 2631 "EG10034_RNA" -"EG10035" "aldA" 1486255 "+" 1440 "EG10035_RNA" -"EG10036" "puuC" 1360766 "+" 1488 "EG10036_RNA" -"EG10037" "alkB" 2307362 "-" 651 "EG10037_RNA" -"EG10039" "amn" 2053084 "+" 1455 "EG10039_RNA" -"EG10040" "ampC" 4376966 "-" 1134 "EG10040_RNA" -"EG10041" "ampD" 118732 "+" 552 "EG10041_RNA" -"EG10042" "ampE" 119280 "+" 855 "EG10042_RNA" -"EG10043" "cysQ" 4434777 "+" 741 "EG10043_RNA" -"EG10044" "osmE" 1820279 "-" 339 "EG10044_RNA" -"EG10045" "ansA" 1848883 "+" 1017 "EG10045_RNA" -"EG10046" "ansB" 3098749 "-" 1047 "EG10046_RNA" -"EG10047" "apaG" 51605 "-" 378 "EG10047_RNA" -"EG10048" "apaH" 51221 "-" 843 "EG10048_RNA" -"EG10049" "appA" 1039839 "+" 1299 "EG10049_RNA" -"EG10050" "appY" 582903 "+" 750 "EG10050_RNA" -"EG10051" "apt" 490635 "+" 552 "EG10051_RNA" -"EG10052" "araA" 68336 "-" 1503 "EG10052_RNA" -"EG10053" "araB" 70047 "-" 1701 "EG10053_RNA" -"EG10054" "araC" 70386 "+" 879 "EG10054_RNA" -"EG10055" "araD" 66549 "-" 696 "EG10055_RNA" -"EG10056" "araE" 2980203 "-" 1419 "EG10056_RNA" -"EG10057" "araF" 1984151 "-" 990 "EG10057_RNA" -"EG10058" "araG" 1983092 "-" 1515 "EG10058_RNA" -"EG10059" "araH" 1981566 "-" 990 "EG10059_RNA" -"EG10060" "araJ" 411704 "-" 1185 "EG10060_RNA" -"EG10061" "arcA" 4638328 "-" 717 "EG10061_RNA" -"EG10062" "arcB" 3351046 "-" 2337 "EG10062_RNA" -"EG10063" "argA" 2947263 "+" 1332 "EG10063_RNA" -"EG10064" "argB" 4154038 "+" 774 "EG10064_RNA" -"EG10065" "argC" 4153023 "+" 1005 "EG10065_RNA" -"EG10066" "argD" 3488201 "-" 1221 "EG10066_RNA" -"EG10067" "argF" 289528 "-" 1005 "EG10067_RNA" -"EG10068" "argG" 3316658 "+" 1344 "EG10068_RNA" -"EG10069" "argI" 4476333 "-" 1005 "EG10069_RNA" -"EG10070" "argR" 3382724 "+" 471 "EG10070_RNA" -"EG10071" "argS" 1958085 "+" 1734 "EG10071_RNA" -"EG10072" "argT" 2425812 "-" 783 "EG10072_RNA" -"EG10073" "aroA" 958034 "+" 1284 "EG10073_RNA" -"EG10074" "aroB" 3516507 "-" 1089 "EG10074_RNA" -"EG10075" "aroC" 2445494 "-" 1086 "EG10075_RNA" -"EG10076" "aroD" 1772709 "+" 759 "EG10076_RNA" -"EG10077" "aroE" 3428859 "-" 819 "EG10077_RNA" -"EG10078" "aroF" 2739171 "-" 1071 "EG10078_RNA" -"EG10079" "aroG" 784855 "+" 1053 "EG10079_RNA" -"EG10080" "aroH" 1786458 "+" 1047 "EG10080_RNA" -"EG10081" "aroK" 3517085 "-" 522 "EG10081_RNA" -"EG10082" "aroL" 405628 "+" 525 "EG10082_RNA" -"EG10083" "aroM" 406651 "+" 678 "EG10083_RNA" -"EG10084" "aroP" 121550 "-" 1374 "EG10084_RNA" -"EG10085" "ascB" 2839011 "+" 1425 "EG10085_RNA" -"EG10086" "ascF" 2837545 "+" 1458 "EG10086_RNA" -"EG10087" "ascG" 2837285 "-" 1011 "EG10087_RNA" -"EG10088" "asd" 3572900 "-" 1104 "EG10088_RNA" -"EG10089" "aslA" 3984029 "-" 1656 "EG10089_RNA" -"EG10090" "aslB" 3980980 "+" 1236 "EG10090_RNA" -"EG10091" "asnA" 3925177 "+" 993 "EG10091_RNA" -"EG10092" "asnB" 698399 "-" 1665 "EG10092_RNA" -"EG10093" "asnC" 3925025 "-" 459 "EG10093_RNA" -"EG10094" "asnS" 988207 "-" 1401 "EG10094_RNA" -"EG10095" "aspA" 4366349 "-" 1437 "EG10095_RNA" -"EG10096" "aspC" 984931 "-" 1191 "EG10096_RNA" -"EG10097" "aspS" 1948545 "-" 1773 "EG10097_RNA" -"EG10098" "atpA" 3917879 "-" 1542 "EG10098_RNA" -"EG10099" "atpB" 3920073 "-" 816 "EG10099_RNA" -"EG10100" "atpC" 3913994 "-" 420 "EG10100_RNA" -"EG10101" "atpD" 3915397 "-" 1383 "EG10101_RNA" -"EG10102" "atpE" 3919211 "-" 240 "EG10102_RNA" -"EG10103" "atpF" 3918910 "-" 471 "EG10103_RNA" -"EG10104" "atpG" 3916287 "-" 864 "EG10104_RNA" -"EG10105" "atpH" 3918425 "-" 534 "EG10105_RNA" -"EG10106" "atpI" 3920462 "-" 381 "EG10106_RNA" -"EG10107" "avtA" 3737727 "+" 1254 "EG10107_RNA" -"EG10108" "bcp" 2598499 "+" 471 "EG10108_RNA" -"EG10109" "betA" 326470 "-" 1671 "EG10109_RNA" -"EG10110" "betB" 327956 "-" 1473 "EG10110_RNA" -"EG10111" "betI" 328557 "-" 588 "EG10111_RNA" -"EG10112" "betT" 328686 "+" 2034 "EG10112_RNA" -"EG10113" "bfr" 3464746 "-" 477 "EG10113_RNA" -"EG10114" "bglB" 3901723 "-" 1413 "EG10114_RNA" -"EG10115" "bglF" 3903619 "-" 1878 "EG10115_RNA" -"EG10116" "bglG" 3904589 "-" 837 "EG10116_RNA" -"EG10117" "bioA" 808479 "-" 1290 "EG10117_RNA" -"EG10118" "bioB" 808566 "+" 1041 "EG10118_RNA" -"EG10119" "bioC" 810744 "+" 756 "EG10119_RNA" -"EG10120" "bioD" 811492 "+" 678 "EG10120_RNA" -"EG10121" "bioF" 809603 "+" 1155 "EG10121_RNA" -"EG10122" "bioH" 3542865 "-" 771 "EG10122_RNA" -"EG10123" "birA" 4171104 "+" 966 "EG10123_RNA" -"EG10124" "bisC" 3714416 "-" 2334 "EG10124_RNA" -"EG10125" "bolA" 453695 "+" 318 "EG10125_RNA" -"EG10126" "btuB" 4161661 "+" 1845 "EG10126_RNA" -"EG10127" "btuC" 1793175 "-" 981 "EG10127_RNA" -"EG10128" "btuD" 1791581 "-" 750 "EG10128_RNA" -"EG10129" "btuE" 1792132 "-" 552 "EG10129_RNA" -"EG10130" "btuR" 1326380 "-" 591 "EG10130_RNA" -"EG10131" "cadA" 4356639 "-" 2148 "EG10131_RNA" -"EG10132" "cadB" 4358053 "-" 1335 "EG10132_RNA" -"EG10133" "cadC" 4359956 "-" 1539 "EG10133_RNA" -"EG10134" "carA" 29650 "+" 1149 "EG10134_RNA" -"EG10135" "carB" 30816 "+" 3222 "EG10135_RNA" -"EG10136" "cca" 3199912 "+" 1239 "EG10136_RNA" -"EG10137" "cdd" 2229865 "+" 885 "EG10137_RNA" -"EG10138" "cdh" 4107952 "+" 756 "EG10138_RNA" -"EG10139" "cdsA" 195676 "+" 858 "EG10139_RNA" -"EG10140" "chbB" 1819642 "-" 321 "EG10140_RNA" -"EG10141" "chbC" 1819237 "-" 1359 "EG10141_RNA" -"EG10142" "chbA" 1817828 "-" 351 "EG10142_RNA" -"EG10143" "chbR" 1817470 "-" 843 "EG10143_RNA" -"EG10144" "chbF" 1816523 "-" 1353 "EG10144_RNA" -"EG10145" "creD" 4636200 "+" 1353 "EG10145_RNA" -"EG10146" "cheA" 1973347 "-" 1965 "EG10146_RNA" -"EG10147" "cheB" 1966524 "-" 1050 "EG10147_RNA" -"EG10148" "cheR" 1967387 "-" 861 "EG10148_RNA" -"EG10149" "cheW" 1971362 "-" 504 "EG10149_RNA" -"EG10150" "cheY" 1965460 "-" 390 "EG10150_RNA" -"EG10151" "cheZ" 1965060 "-" 645 "EG10151_RNA" -"EG10152" "modC" 795776 "+" 1059 "EG10152_RNA" -"EG10153" "moeA" 865586 "-" 1236 "EG10153_RNA" -"EG10154" "moeB" 864351 "-" 750 "EG10154_RNA" -"EG10155" "cirA" 2244790 "-" 1992 "EG10155_RNA" -"EG10156" "clpA" 922486 "+" 2277 "EG10156_RNA" -"EG10157" "clpB" 2732194 "-" 2574 "EG10157_RNA" -"EG10158" "clpP" 455900 "+" 624 "EG10158_RNA" -"EG10159" "clpX" 456649 "+" 1275 "EG10159_RNA" -"EG10160" "cpdB" 4434587 "-" 1944 "EG10160_RNA" -"EG10161" "cpsB" 2122543 "-" 1437 "EG10161_RNA" -"EG10162" "cpsG" 2121002 "-" 1371 "EG10162_RNA" -"EG10163" "cpxA" 4102997 "-" 1374 "EG10163_RNA" -"EG10164" "crp" 3484141 "+" 633 "EG10164_RNA" -"EG10165" "crr" 2533855 "+" 510 "EG10165_RNA" -"EG10166" "cspA" 3718071 "+" 213 "EG10166_RNA" -"EG10167" "cstA" 629116 "+" 2106 "EG10167_RNA" -"EG10168" "lnt" 690103 "-" 1539 "EG10168_RNA" -"EG10169" "cvpA" 2428784 "-" 489 "EG10169_RNA" -"EG10170" "cyaA" 3989175 "+" 2547 "EG10170_RNA" -"EG10172" "cybB" 1488925 "+" 531 "EG10172_RNA" -"EG10173" "cydA" 770680 "+" 1569 "EG10173_RNA" -"EG10174" "cydB" 772264 "+" 1140 "EG10174_RNA" -"EG10175" "cynS" 358712 "+" 471 "EG10175_RNA" -"EG10176" "cynT" 358022 "+" 660 "EG10176_RNA" -"EG10177" "cynX" 359215 "+" 1155 "EG10177_RNA" -"EG10178" "cyoA" 450833 "-" 948 "EG10178_RNA" -"EG10179" "cyoB" 449864 "-" 1992 "EG10179_RNA" -"EG10180" "cyoC" 447883 "-" 615 "EG10180_RNA" -"EG10181" "cyoD" 447269 "-" 330 "EG10181_RNA" -"EG10182" "cyoE" 446928 "-" 891 "EG10182_RNA" -"EG10183" "cysA" 2538835 "-" 1098 "EG10183_RNA" -"EG10184" "cysB" 1331878 "+" 975 "EG10184_RNA" -"EG10185" "cysC" 2872013 "-" 606 "EG10185_RNA" -"EG10186" "cysD" 2874350 "-" 909 "EG10186_RNA" -"EG10187" "cysE" 3780584 "-" 822 "EG10187_RNA" -"EG10188" "cysG" 3495849 "+" 1374 "EG10188_RNA" -"EG10189" "cysH" 2886333 "-" 735 "EG10189_RNA" -"EG10190" "cysI" 2888120 "-" 1713 "EG10190_RNA" -"EG10191" "cysJ" 2889919 "-" 1800 "EG10191_RNA" -"EG10192" "cysK" 2530430 "+" 972 "EG10192_RNA" -"EG10193" "cysM" 2537604 "-" 912 "EG10193_RNA" -"EG10194" "cysN" 2873440 "-" 1428 "EG10194_RNA" -"EG10195" "cysP" 2541549 "-" 1017 "EG10195_RNA" -"EG10196" "cysS" 553833 "+" 1386 "EG10196_RNA" -"EG10197" "cysU" 2540533 "-" 834 "EG10197_RNA" -"EG10198" "cysW" 2539700 "-" 876 "EG10198_RNA" -"EG10200" "cytR" 4122478 "-" 1026 "EG10200_RNA" -"EG10201" "dacA" 663185 "-" 1212 "EG10201_RNA" -"EG10202" "dacB" 3326984 "+" 1434 "EG10202_RNA" -"EG10203" "dacC" 879949 "+" 1203 "EG10203_RNA" -"EG10204" "dam" 3513934 "-" 837 "EG10204_RNA" -"EG10205" "dapA" 2597781 "-" 879 "EG10205_RNA" -"EG10206" "dapB" 28373 "+" 822 "EG10206_RNA" -"EG10207" "dapD" 185946 "-" 825 "EG10207_RNA" -"EG10208" "dapE" 2589628 "+" 1128 "EG10208_RNA" -"EG10209" "dapF" 3992784 "+" 825 "EG10209_RNA" -"EG10210" "dbpA" 1407534 "+" 1374 "EG10210_RNA" -"EG10211" "dcm" 2030340 "-" 1419 "EG10211_RNA" -"EG10212" "dcp" 1625403 "-" 2046 "EG10212_RNA" -"EG10213" "ddlA" 400146 "-" 1095 "EG10213_RNA" -"EG10214" "ddlB" 102232 "+" 921 "EG10214_RNA" -"EG10215" "deaD" 3305881 "-" 1890 "EG10215_RNA" -"EG10216" "dedA" 2432762 "-" 660 "EG10216_RNA" -"EG10217" "accD" 2431947 "-" 915 "EG10217_RNA" -"EG10218" "dedD" 2429705 "-" 663 "EG10218_RNA" -"EG10219" "deoA" 4616251 "+" 1323 "EG10219_RNA" -"EG10220" "deoB" 4617625 "+" 1224 "EG10220_RNA" -"EG10221" "deoC" 4615345 "+" 780 "EG10221_RNA" -"EG10222" "deoD" 4618905 "+" 720 "EG10222_RNA" -"EG10223" "deoR" 881956 "-" 759 "EG10223_RNA" -"EG10224" "dgkA" 4254659 "+" 369 "EG10224_RNA" -"EG10225" "dgt" 179236 "+" 1518 "EG10225_RNA" -"EG10226" "dicA" 1645957 "+" 408 "EG10226_RNA" -"EG10227" "dicB" 1647632 "+" 189 "EG10227_RNA" -"EG10228" "dicC" 1645873 "-" 231 "EG10228_RNA" -"EG10229" "flk" 2435971 "+" 996 "EG10229_RNA" -"EG10230" "dksA" 160603 "-" 456 "EG10230_RNA" -"EG10231" "dld" 2220206 "+" 1716 "EG10231_RNA" -"EG10232" "dmsA" 940181 "+" 2445 "EG10232_RNA" -"EG10233" "dmsB" 942636 "+" 618 "EG10233_RNA" -"EG10234" "dmsC" 943255 "+" 864 "EG10234_RNA" -"EG10235" "dnaA" 3881751 "-" 1404 "EG10235_RNA" -"EG10236" "dnaB" 4262336 "+" 1416 "EG10236_RNA" -"EG10237" "dnaC" 4598997 "-" 738 "EG10237_RNA" -"EG10238" "dnaE" 205125 "+" 3483 "EG10238_RNA" -"EG10239" "dnaG" 3209128 "+" 1746 "EG10239_RNA" -"EG10240" "dnaJ" 14167 "+" 1131 "EG10240_RNA" -"EG10241" "dnaK" 12162 "+" 1917 "EG10241_RNA" -"EG10242" "dnaN" 3880343 "-" 1101 "EG10242_RNA" -"EG10243" "dnaQ" 236066 "+" 732 "EG10243_RNA" -"EG10244" "dnaT" 4599539 "-" 540 "EG10244_RNA" -"EG10245" "dnaX" 491315 "+" 1932 "EG10245_RNA" -"EG10246" "mltD" 233954 "-" 1359 "EG10246_RNA" -"EG10247" "acpS" 2699019 "-" 381 "EG10247_RNA" -"EG10248" "dppA" 3705727 "-" 1608 "EG10248_RNA" -"EG10249" "dsdA" 2477223 "+" 1329 "EG10249_RNA" -"EG10250" "dsdX" 2475868 "+" 1338 "EG10250_RNA" -"EG10251" "dut" 3811954 "+" 456 "EG10251_RNA" 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"EG10272_RNA" -"EG10273" "fabA" 1015692 "-" 519 "EG10273_RNA" -"EG10274" "fabB" 2439626 "-" 1221 "EG10274_RNA" -"EG10275" "accB" 3403457 "+" 471 "EG10275_RNA" -"EG10276" "accC" 3403938 "+" 1350 "EG10276_RNA" -"EG10277" "fabH" 1147981 "+" 954 "EG10277_RNA" -"EG10278" "fadA" 4026794 "-" 1164 "EG10278_RNA" -"EG10279" "fadB" 4028993 "-" 2190 "EG10279_RNA" -"EG10280" "fadL" 2459321 "+" 1347 "EG10280_RNA" -"EG10281" "fadR" 1234160 "+" 720 "EG10281_RNA" -"EG10282" "fbaA" 3069265 "-" 1080 "EG10282_RNA" -"EG10283" "fbp" 4453631 "-" 999 "EG10283_RNA" -"EG10284" "fdhE" 4079250 "-" 930 "EG10284_RNA" -"EG10285" "fdhF" 4297388 "-" 2148 "EG10285_RNA" -"EG10286" "fecA" 4514699 "-" 2325 "EG10286_RNA" -"EG10287" "fecB" 4512330 "-" 903 "EG10287_RNA" -"EG10288" "fecC" 4511431 "-" 999 "EG10288_RNA" -"EG10289" "fecD" 4510436 "-" 957 "EG10289_RNA" -"EG10290" "fecE" 4509479 "-" 768 "EG10290_RNA" -"EG10291" "fecI" 4516257 "-" 522 "EG10291_RNA" -"EG10292" "fecR" 4515739 "-" 954 "EG10292_RNA" -"EG10293" "fepA" 611716 "-" 2241 "EG10293_RNA" -"EG10294" "fepB" 623732 "-" 957 "EG10294_RNA" -"EG10295" "fepC" 619421 "-" 816 "EG10295_RNA" -"EG10296" "fepD" 621411 "-" 1005 "EG10296_RNA" -"EG10297" "fepE" 617476 "+" 1134 "EG10297_RNA" -"EG10298" "fepG" 620410 "-" 993 "EG10298_RNA" -"EG10299" "fes" 612037 "+" 1125 "EG10299_RNA" -"EG10300" "ffh" 2745816 "-" 1362 "EG10300_RNA" -"EG10301" "fhlA" 2852359 "+" 2079 "EG10301_RNA" -"EG10302" "fhuA" 167483 "+" 2244 "EG10302_RNA" -"EG10303" "fhuB" 171461 "+" 1983 "EG10303_RNA" -"EG10304" "fhuC" 169777 "+" 798 "EG10304_RNA" -"EG10305" "fhuD" 170574 "+" 891 "EG10305_RNA" -"EG10306" "fhuE" 1160773 "-" 2190 "EG10306_RNA" -"EG10307" "fic" 3489484 "-" 603 "EG10307_RNA" -"EG10308" "fimA" 4541137 "+" 549 "EG10308_RNA" -"EG10309" "fimB" 4538979 "+" 603 "EG10309_RNA" -"EG10310" "fimC" 4542326 "+" 726 "EG10310_RNA" -"EG10311" "fimD" 4543118 "+" 2637 "EG10311_RNA" -"EG10312" "fimE" 4540059 "+" 597 "EG10312_RNA" -"EG10313" "fimF" 4545764 "+" 531 "EG10313_RNA" -"EG10314" "fimG" 4546307 "+" 504 "EG10314_RNA" -"EG10315" "fimH" 4546830 "+" 903 "EG10315_RNA" -"EG10316" "lpxD" 200970 "+" 1026 "EG10316_RNA" -"EG10317" "fis" 3409292 "+" 297 "EG10317_RNA" -"EG10318" "fldA" 710687 "-" 531 "EG10318_RNA" -"EG10319" "flhC" 1975867 "-" 579 "EG10319_RNA" -"EG10320" "flhD" 1976220 "-" 351 "EG10320_RNA" -"EG10321" "fliC" 2001629 "-" 1497 "EG10321_RNA" -"EG10322" "fliL" 2017641 "+" 465 "EG10322_RNA" -"EG10323" "fliM" 2018110 "+" 1005 "EG10323_RNA" -"EG10324" "fliN" 2019111 "+" 414 "EG10324_RNA" -"EG10325" "fnr" 1397549 "-" 753 "EG10325_RNA" -"EG10326" "folA" 49822 "+" 480 "EG10326_RNA" -"EG10327" "folC" 2430963 "-" 1269 "EG10327_RNA" -"EG10328" "folD" 556963 "-" 867 "EG10328_RNA" -"EG10329" "mutM" 3809174 "-" 810 "EG10329_RNA" -"EG10330" "frdA" 4380340 "-" 1809 "EG10330_RNA" -"EG10331" "frdB" 4378539 "-" 735 "EG10331_RNA" -"EG10332" "frdC" 4377794 "-" 396 "EG10332_RNA" -"EG10333" "frdD" 4377388 "-" 360 "EG10333_RNA" -"EG10334" "fre" 4024549 "+" 702 "EG10334_RNA" 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"EG10356_RNA" -"EG10357" "fumB" 4345348 "-" 1647 "EG10357_RNA" -"EG10358" "fumC" 1684611 "-" 1404 "EG10358_RNA" -"EG10359" "fur" 709868 "-" 447 "EG10359_RNA" -"EG10360" "fusA" 3471535 "-" 2115 "EG10360_RNA" -"EG10361" "gabT" 2790756 "+" 1281 "EG10361_RNA" -"EG10362" "galE" 791277 "-" 1017 "EG10362_RNA" -"EG10363" "galK" 789201 "-" 1149 "EG10363_RNA" -"EG10364" "galR" 2974620 "+" 1032 "EG10364_RNA" -"EG10365" "galS" 2239689 "-" 1041 "EG10365_RNA" -"EG10366" "galT" 790251 "-" 1047 "EG10366_RNA" -"EG10367" "gapA" 1860794 "+" 996 "EG10367_RNA" -"EG10368" "epd" 3071712 "-" 1020 "EG10368_RNA" -"EG10369" "gcd" 141224 "-" 2391 "EG10369_RNA" -"EG10370" "ispG" 2639825 "-" 1119 "EG10370_RNA" -"EG10371" "gcvH" 3047570 "-" 390 "EG10371_RNA" -"EG10372" "gdhA" 1840394 "+" 1344 "EG10372_RNA" -"EG10373" "mokC" 16959 "-" 210 "EG10373_RNA" -"EG10374" "ggt" 3584845 "-" 1743 "EG10374_RNA" -"EG10375" "mnmG" 3923655 "-" 1890 "EG10375_RNA" -"EG10376" "rsmG" 3921702 "-" 624 "EG10376_RNA" -"EG10377" "glgA" 3566055 "-" 1434 "EG10377_RNA" -"EG10378" "glgB" 3571524 "-" 2187 "EG10378_RNA" -"EG10379" "glgC" 3567350 "-" 1296 "EG10379_RNA" -"EG10380" "glgP" 3564603 "-" 2448 "EG10380_RNA" -"EG10381" "glgX" 3569341 "-" 1974 "EG10381_RNA" -"EG10382" "glmS" 3911690 "-" 1830 "EG10382_RNA" -"EG10383" "glnA" 4056056 "-" 1410 "EG10383_RNA" -"EG10384" "glnB" 2685429 "-" 339 "EG10384_RNA" -"EG10385" "glnG" 4053300 "-" 1410 "EG10385_RNA" -"EG10386" "glnH" 847226 "-" 747 "EG10386_RNA" -"EG10387" "glnL" 4054361 "-" 1050 "EG10387_RNA" -"EG10388" "glnP" 846341 "-" 660 "EG10388_RNA" -"EG10389" "glnQ" 845685 "-" 723 "EG10389_RNA" -"EG10390" "glnS" 705315 "+" 1665 "EG10390_RNA" -"EG10391" "glpA" 2350668 "+" 1629 "EG10391_RNA" -"EG10392" "glpB" 2352286 "+" 1260 "EG10392_RNA" -"EG10393" "glpC" 2353542 "+" 1191 "EG10393_RNA" -"EG10394" "glpD" 3560035 "+" 1506 "EG10394_RNA" -"EG10395" "glpE" 3559845 "-" 327 "EG10395_RNA" -"EG10396" "glpF" 4116112 "-" 846 "EG10396_RNA" -"EG10397" "glpG" 3559474 "-" 831 "EG10397_RNA" 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1557 "EG10418_RNA" -"EG10419" "gshB" 3089899 "+" 951 "EG10419_RNA" -"EG10420" "guaA" 2630556 "-" 1578 "EG10420_RNA" -"EG10421" "guaB" 2632091 "-" 1467 "EG10421_RNA" -"EG10422" "guaC" 113443 "+" 1044 "EG10422_RNA" -"EG10423" "gyrA" 2337441 "-" 2628 "EG10423_RNA" -"EG10424" "gyrB" 3878141 "-" 2415 "EG10424_RNA" -"EG10425" "hdhA" 1696063 "-" 768 "EG10425_RNA" -"EG10426" "helD" 1023693 "+" 2055 "EG10426_RNA" -"EG10427" "hemA" 1262936 "+" 1257 "EG10427_RNA" -"EG10428" "hemB" 388950 "-" 975 "EG10428_RNA" -"EG10429" "hemC" 3988788 "-" 942 "EG10429_RNA" -"EG10430" "hemD" 3987850 "-" 741 "EG10430_RNA" -"EG10431" "hemH" 497278 "+" 963 "EG10431_RNA" -"EG10432" "hemL" 174881 "-" 1281 "EG10432_RNA" -"EG10433" "hemX" 3987088 "-" 1182 "EG10433_RNA" -"EG10434" "hemY" 3985904 "-" 1197 "EG10434_RNA" -"EG10435" "hflC" 4401322 "+" 1005 "EG10435_RNA" -"EG10436" "hflK" 4400060 "+" 1260 "EG10436_RNA" -"EG10437" "hflX" 4398694 "+" 1281 "EG10437_RNA" -"EG10438" "hfq" 4398310 "+" 309 "EG10438_RNA" -"EG10439" 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2743360 "-" 768 "EG11023_RNA" -"EG11024" "trpA" 1315245 "-" 807 "EG11024_RNA" -"EG11025" "trpB" 1316438 "-" 1194 "EG11025_RNA" -"EG11026" "trpC" 1317808 "-" 1359 "EG11026_RNA" -"EG11027" "trpD" 1319407 "-" 1596 "EG11027_RNA" -"EG11028" "trpE" 1320969 "-" 1563 "EG11028_RNA" -"EG11029" "trpR" 4630782 "+" 327 "EG11029_RNA" -"EG11030" "trpS" 3511659 "-" 1005 "EG11030_RNA" -"EG11031" "trxA" 3963783 "+" 330 "EG11031_RNA" -"EG11032" "trxB" 931272 "-" 966 "EG11032_RNA" -"EG11033" "tsf" 190856 "+" 852 "EG11033_RNA" -"EG11034" "tsr" 4589679 "+" 1656 "EG11034_RNA" -"EG11035" "tsx" 431236 "-" 885 "EG11035_RNA" -"EG11036" "tufA" 3469350 "-" 1185 "EG11036_RNA" -"EG11037" "tufB" 4173966 "+" 1185 "EG11037_RNA" -"EG11038" "tus" 1682282 "+" 930 "EG11038_RNA" -"EG11039" "tyrA" 2738090 "-" 1122 "EG11039_RNA" -"EG11040" "tyrB" 4265136 "+" 1194 "EG11040_RNA" -"EG11041" "tyrP" 1987704 "+" 1212 "EG11041_RNA" -"EG11042" "tyrR" 1384743 "+" 1542 "EG11042_RNA" -"EG11043" "tyrS" 1715245 "-" 1275 "EG11043_RNA" 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2163 "EG11064_RNA" -"EG11065" "uxaB" 1608703 "-" 1452 "EG11065_RNA" -"EG11066" "uxuA" 4549658 "+" 1185 "EG11066_RNA" -"EG11067" "valS" 4481859 "-" 2856 "EG11067_RNA" -"EG11068" "vsr" 2028941 "-" 471 "EG11068_RNA" -"EG11069" "xerC" 3994309 "+" 897 "EG11069_RNA" -"EG11070" "dsbC" 3036843 "-" 711 "EG11070_RNA" -"EG11071" "xerD" 3037764 "-" 897 "EG11071_RNA" -"EG11072" "xseA" 2632253 "+" 1371 "EG11072_RNA" -"EG11073" "xthA" 1830451 "+" 807 "EG11073_RNA" -"EG11074" "xylA" 3728787 "-" 1323 "EG11074_RNA" -"EG11075" "xylB" 3727393 "-" 1455 "EG11075_RNA" -"EG11076" "xylE" 4240276 "-" 1476 "EG11076_RNA" -"EG11078" "nhaR" 18714 "+" 906 "EG11078_RNA" -"EG11079" "ribF" 21406 "+" 942 "EG11079_RNA" -"EG11080" "fkpB" 25825 "+" 450 "EG11080_RNA" -"EG11081" "ispH" 26276 "+" 951 "EG11081_RNA" -"EG11082" "rihC" 27292 "+" 915 "EG11082_RNA" -"EG11083" "hepA" 63263 "-" 2907 "EG11083_RNA" -"EG11084" "mraZ" 89633 "+" 459 "EG11084_RNA" -"EG11085" "rsmH" 90093 "+" 942 "EG11085_RNA" -"EG11086" "ftsL" 91031 "+" 366 "EG11086_RNA" -"EG11087" "secM" 107704 "+" 513 "EG11087_RNA" -"EG11088" "pdhR" 122091 "+" 765 "EG11088_RNA" -"EG11089" "yacC" 136916 "-" 348 "EG11089_RNA" -"EG11090" "mtn" 179152 "-" 699 "EG11090_RNA" -"EG11091" "frsA" 256526 "+" 1245 "EG11091_RNA" -"EG11092" "crl" 257828 "+" 402 "EG11092_RNA" -"EG11093" "yaiA" 406202 "+" 192 "EG11093_RNA" -"EG11094" "sbcD" 416175 "-" 1203 "EG11094_RNA" -"EG11095" "acpH" 424141 "-" 582 "EG11095_RNA" -"EG11096" "yajC" 426510 "+" 333 "EG11096_RNA" -"EG11097" "yajD" 429828 "+" 348 "EG11097_RNA" -"EG11098" "xseB" 440566 "-" 243 "EG11098_RNA" -"EG11099" "ybaA" 475895 "+" 354 "EG11099_RNA" -"EG11100" "ybaB" 493299 "+" 330 "EG11100_RNA" -"EG11101" "aes" 499196 "-" 960 "EG11101_RNA" -"EG11102" "gsk" 499348 "+" 1305 "EG11102_RNA" -"EG11103" "fimZ" 563702 "-" 633 "EG11103_RNA" -"EG11104" "entS" 621522 "+" 1251 "EG11104_RNA" -"EG11105" "entH" 628522 "+" 414 "EG11105_RNA" -"EG11108" "ybgA" 738223 "+" 510 "EG11108_RNA" -"EG11109" "mngR" 765097 "-" 723 "EG11109_RNA" -"EG11110" "ybgC" 773974 "+" 405 "EG11110_RNA" -"EG11111" "cspD" 921812 "-" 225 "EG11111_RNA" -"EG11112" "aat" 926654 "-" 705 "EG11112_RNA" -"EG11113" "yccA" 1030640 "-" 660 "EG11113_RNA" -"EG11116" "yceA" 1116029 "+" 1053 "EG11116_RNA" -"EG11117" "yceB" 1122495 "-" 561 "EG11117_RNA" -"EG11118" "rluC" 1144162 "+" 960 "EG11118_RNA" -"EG11119" "yceD" 1146016 "+" 522 "EG11119_RNA" -"EG11120" "tfaE" 1208341 "-" 603 "EG11120_RNA" -"EG11121" "yciA" 1310269 "-" 399 "EG11121_RNA" -"EG11122" "yciB" 1310913 "-" 540 "EG11122_RNA" -"EG11123" "yciC" 1311686 "-" 744 "EG11123_RNA" -"EG11124" "ompW" 1312043 "+" 639 "EG11124_RNA" -"EG11125" "yciE" 1313247 "-" 507 "EG11125_RNA" -"EG11126" "yciF" 1313793 "-" 501 "EG11126_RNA" -"EG11127" "yciG" 1314058 "-" 180 "EG11127_RNA" -"EG11128" "yciH" 1340681 "+" 327 "EG11128_RNA" -"EG11129" "rem" 1642925 "-" 252 "EG11129_RNA" -"EG11130" "hokD" 1643297 "-" 156 "EG11130_RNA" -"EG11131" "relE" 1643656 "-" 288 "EG11131_RNA" -"EG11132" "ppsR" 1785468 "+" 834 "EG11132_RNA" -"EG11133" "nlpC" 1790754 "-" 465 "EG11133_RNA" -"EG11134" "ydjA" 1846699 "-" 552 "EG11134_RNA" -"EG11135" "pncA" 1849910 "+" 642 "EG11135_RNA" -"EG11136" "yebB" 1944274 "+" 603 "EG11136_RNA" -"EG11137" "yebC" 1946174 "-" 741 "EG11137_RNA" -"EG11138" "nudB" 1946655 "-" 453 "EG11138_RNA" -"EG11139" "yecA" 1989642 "-" 666 "EG11139_RNA" -"EG11140" "uvrY" 1993382 "-" 657 "EG11140_RNA" -"EG11141" "yedA" 2027562 "+" 921 "EG11141_RNA" -"EG11142" "yfaA" 2334665 "-" 1689 "EG11142_RNA" -"EG11143" "ubiG" 2337588 "+" 723 "EG11143_RNA" -"EG11144" "yfcA" 2443581 "-" 810 "EG11144_RNA" -"EG11145" "yfeA" 2515853 "-" 2190 "EG11145_RNA" -"EG11146" "xapR" 2520498 "-" 885 "EG11146_RNA" -"EG11147" "yffB" 2589268 "+" 357 "EG11147_RNA" -"EG11149" "gcvR" 2597927 "+" 573 "EG11149_RNA" -"EG11150" "hyfA" 2599222 "+" 618 "EG11150_RNA" -"EG11151" "raiA" 2735175 "+" 342 "EG11151_RNA" -"EG11152" "yfiB" 2741646 "+" 483 "EG11152_RNA" -"EG11153" "rimM" 2743939 "-" 549 "EG11153_RNA" -"EG11154" "ppdC" 2960785 "-" 324 "EG11154_RNA" -"EG11155" "ygdB" 2961177 "-" 408 "EG11155_RNA" -"EG11156" "ppdB" 2961737 "-" 564 "EG11156_RNA" -"EG11157" "ygeA" 2978656 "-" 693 "EG11157_RNA" -"EG11158" "fau" 3054262 "+" 549 "EG11158_RNA" -"EG11159" "argO" 3066829 "-" 636 "EG11159_RNA" -"EG11160" "mscS" 3067828 "-" 861 "EG11160_RNA" -"EG11161" "yggC" 3072710 "-" 714 "EG11161_RNA" -"EG11162" "yggD" 3073216 "-" 510 "EG11162_RNA" -"EG11163" "ygiA" 3177617 "+" 261 "EG11163_RNA" -"EG11164" "ygiB" 3177861 "+" 576 "EG11164_RNA" -"EG11165" "ygiC" 3178442 "+" 1161 "EG11165_RNA" -"EG11166" "ygiD" 3180455 "-" 816 "EG11166_RNA" -"EG11167" "zupT" 3180571 "+" 774 "EG11167_RNA" -"EG11168" "ttdA" 3204484 "+" 912 "EG11168_RNA" -"EG11169" "ttdB" 3205392 "+" 606 "EG11169_RNA" -"EG11171" "tsaD" 3208564 "-" 1014 "EG11171_RNA" -"EG11172" "tdcD" 3261693 "-" 1221 "EG11172_RNA" -"EG11173" "yhaB" 3265875 "+" 540 "EG11173_RNA" -"EG11174" "yhaC" 3266436 "+" 1188 "EG11174_RNA" -"EG11175" "garK" 3269872 "-" 1227 "EG11175_RNA" 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"EG11197_RNA" -"EG11198" "glmU" 3913222 "-" 1371 "EG11198_RNA" -"EG11199" "mioC" 3924477 "-" 444 "EG11199_RNA" -"EG11201" "yigA" 3993605 "+" 708 "EG11201_RNA" -"EG11202" "yigB" 3995205 "+" 717 "EG11202_RNA" -"EG11203" "yihA" 4048751 "-" 597 "EG11203_RNA" -"EG11204" "murI" 4163450 "+" 858 "EG11204_RNA" -"EG11205" "murB" 4170079 "+" 1029 "EG11205_RNA" -"EG11206" "yjaA" 4211256 "+" 384 "EG11206_RNA" -"EG11207" "yjaB" 4212145 "-" 444 "EG11207_RNA" -"EG11208" "arpA" 4220509 "-" 2187 "EG11208_RNA" -"EG11209" "psiE" 4238347 "+" 411 "EG11209_RNA" -"EG11210" "yjdA" 4325157 "+" 2229 "EG11210_RNA" -"EG11211" "epmA" 4380665 "+" 978 "EG11211_RNA" -"EG11212" "nsrR" 4404212 "+" 426 "EG11212_RNA" -"EG11213" "yzfA" 4446267 "-" 270 "EG11213_RNA" -"EG11214" "yjjA" 4598211 "-" 495 "EG11214_RNA" -"EG11215" "yjjB" 4599972 "-" 327 "EG11215_RNA" -"EG11217" "creA" 4633543 "+" 474 "EG11217_RNA" -"EG11218" "creB" 4634029 "+" 690 "EG11218_RNA" -"EG11219" "ydcA" 1489700 "+" 174 "EG11219_RNA" -"EG11221" "zwf" 1934337 "-" 1476 "EG11221_RNA" -"EG11222" "alkA" 2145563 "-" 849 "EG11222_RNA" -"EG11223" "argH" 4154872 "+" 1374 "EG11223_RNA" -"EG11224" "fliO" 2019527 "+" 366 "EG11224_RNA" -"EG11225" "dcuA" 4364795 "-" 1302 "EG11225_RNA" -"EG11226" "leuA" 83528 "-" 1572 "EG11226_RNA" -"EG11227" "fdnG" 1545424 "+" 3048 "EG11227_RNA" -"EG11228" "fdnH" 1548484 "+" 885 "EG11228_RNA" -"EG11229" "fdnI" 1549361 "+" 654 "EG11229_RNA" -"EG11230" "melR" 4339650 "-" 909 "EG11230_RNA" -"EG11231" "rpmI" 1798022 "-" 198 "EG11231_RNA" -"EG11232" "rpmJ" 3440755 "-" 117 "EG11232_RNA" -"EG11233" "rstB" 1680905 "+" 1302 "EG11233_RNA" -"EG11234" "ydiB" 1771812 "+" 867 "EG11234_RNA" -"EG11235" "rhlE" 830094 "+" 1365 "EG11235_RNA" -"EG11236" "yahA" 331594 "+" 1089 "EG11236_RNA" -"EG11237" "chiA" 3467874 "-" 2694 "EG11237_RNA" -"EG11238" "ybhB" 807131 "-" 477 "EG11238_RNA" -"EG11239" "ybhA" 797653 "-" 819 "EG11239_RNA" -"EG11241" "ycaC" 944779 "-" 627 "EG11241_RNA" -"EG11242" "ycaD" 945093 "+" 1149 "EG11242_RNA" 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"EG11266_RNA" -"EG11267" "yiaB" 3725770 "-" 342 "EG11267_RNA" -"EG11268" "fmt" 3432235 "+" 948 "EG11268_RNA" -"EG11269" "hisL" 2088019 "+" 51 "EG11269_RNA" -"EG11270" "ilvL" 3948344 "+" 99 "EG11270_RNA" -"EG11271" "pheL" 2735620 "+" 48 "EG11271_RNA" -"EG11272" "pheM" 1797293 "-" 45 "EG11272_RNA" -"EG11274" "trpL" 1321105 "-" 45 "EG11274_RNA" -"EG11275" "ivbL" 3851010 "-" 99 "EG11275_RNA" -"EG11276" "tnaC" 3886457 "+" 75 "EG11276_RNA" -"EG11277" "thrL" 189 "+" 66 "EG11277_RNA" -"EG11279" "pyrL" 4470555 "-" 135 "EG11279_RNA" -"EG11280" "leuL" 83707 "-" 87 "EG11280_RNA" -"EG11281" "mutL" 4395434 "+" 1848 "EG11281_RNA" -"EG11282" "hyfB" 2599839 "+" 2019 "EG11282_RNA" -"EG11283" "phnE_1" 4321303 "-" 621 "EG11283_RNA" -"EG11284" "fabZ" 202100 "+" 456 "EG11284_RNA" -"EG11285" "glrR" 2686824 "-" 1335 "EG11285_RNA" -"EG11286" "argE" 4152869 "-" 1152 "EG11286_RNA" -"EG11287" "ygbA" 2854827 "-" 354 "EG11287_RNA" -"EG11288" "mak" 409367 "+" 909 "EG11288_RNA" -"EG11289" "preA" 2233286 "+" 1236 "EG11289_RNA" -"EG11290" "yeiB" 2240988 "-" 1158 "EG11290_RNA" -"EG11291" "loiP" 3079934 "+" 759 "EG11291_RNA" -"EG11292" "yghA" 3147683 "+" 885 "EG11292_RNA" -"EG11293" "lolB" 1262722 "-" 624 "EG11293_RNA" -"EG11294" "ispE" 1262099 "-" 852 "EG11294_RNA" -"EG11295" "wzzE" 3967053 "+" 1047 "EG11295_RNA" -"EG11296" "radA" 4623934 "+" 1383 "EG11296_RNA" -"EG11297" "dsbA" 4041440 "+" 627 "EG11297_RNA" -"EG11298" "yhdE" 3396399 "-" 594 "EG11298_RNA" -"EG11299" "rng" 3395816 "-" 1470 "EG11299_RNA" -"EG11300" "ydfA" 1646531 "+" 156 "EG11300_RNA" -"EG11301" "ydfB" 1646688 "+" 129 "EG11301_RNA" -"EG11302" "rzpQ" 1646846 "+" 219 "EG11302_RNA" -"EG11303" "ydfD" 1647817 "+" 192 "EG11303_RNA" -"EG11304" "ydfE" 1648101 "+" 921 "EG11304_RNA" -"EG11305" "tatE" 658169 "+" 204 "EG11305_RNA" -"EG11306" "lipA" 659438 "-" 966 "EG11306_RNA" -"EG11309" "ydbC" 1472244 "+" 861 "EG11309_RNA" -"EG11310" "ydbD" 1473167 "+" 2307 "EG11310_RNA" -"EG11311" "dusB" 3408301 "+" 966 "EG11311_RNA" -"EG11312" "yicR" 3810581 "-" 669 "EG11312_RNA" -"EG11313" "rhaT" 4098547 "-" 1035 "EG11313_RNA" -"EG11314" "purB" 1191208 "-" 1371 "EG11314_RNA" -"EG11315" "yhdH" 3401505 "+" 975 "EG11315_RNA" -"EG11316" "malS" 3735519 "+" 2031 "EG11316_RNA" -"EG11317" "fabD" 1148950 "+" 930 "EG11317_RNA" -"EG11318" "fabG" 1149892 "+" 735 "EG11318_RNA" -"EG11319" "galU" 1290679 "+" 909 "EG11319_RNA" -"EG11320" "nrdR" 432225 "+" 450 "EG11320_RNA" -"EG11321" "ribD" 432678 "+" 1104 "EG11321_RNA" -"EG11322" "ribE" 433870 "+" 471 "EG11322_RNA" -"EG11323" "ygfB" 3053465 "-" 579 "EG11323_RNA" -"EG11324" "ubiH" 3051539 "-" 1179 "EG11324_RNA" -"EG11325" "acnA" 1333854 "+" 2676 "EG11325_RNA" -"EG11326" "codA" 355394 "+" 1284 "EG11326_RNA" -"EG11327" "codB" 354145 "+" 1260 "EG11327_RNA" -"EG11328" "fdx" 2655104 "-" 336 "EG11328_RNA" -"EG11329" "gabD" 2789294 "+" 1449 "EG11329_RNA" -"EG11330" "gabP" 2792274 "+" 1401 "EG11330_RNA" -"EG11331" "ribA" 1337183 "-" 591 "EG11331_RNA" -"EG11332" "upp" 2618893 "-" 627 "EG11332_RNA" 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"-" 720 "EG11355_RNA" -"EG11356" "fliZ" 1999047 "-" 552 "EG11356_RNA" -"EG11357" "dinG" 832292 "+" 2151 "EG11357_RNA" -"EG11358" "murA" 3334515 "-" 1260 "EG11358_RNA" -"EG11359" "gspO" 3463564 "+" 678 "EG11359_RNA" -"EG11360" "bax" 3735199 "-" 825 "EG11360_RNA" -"EG11361" "asmA" 2139635 "-" 1854 "EG11361_RNA" -"EG11362" "gluQ" 160111 "-" 927 "EG11362_RNA" -"EG11363" "amiB" 4394087 "+" 1338 "EG11363_RNA" -"EG11364" "bglH" 3900242 "-" 1617 "EG11364_RNA" -"EG11366" "rob" 4633332 "-" 870 "EG11366_RNA" -"EG11367" "barA" 2913078 "+" 2757 "EG11367_RNA" -"EG11368" "menB" 2374840 "-" 858 "EG11368_RNA" -"EG11369" "ubiC" 4250528 "+" 498 "EG11369_RNA" -"EG11370" "ubiA" 4251038 "+" 873 "EG11370_RNA" -"EG11371" "pgpC" 2696571 "-" 636 "EG11371_RNA" -"EG11372" "tadA" 2695878 "-" 504 "EG11372_RNA" -"EG11373" "mltF" 2693822 "+" 1557 "EG11373_RNA" -"EG11374" "folK" 157731 "-" 480 "EG11374_RNA" -"EG11375" "folE" 2241673 "-" 669 "EG11375_RNA" -"EG11376" "ftsP" 3160690 "-" 1413 "EG11376_RNA" -"EG11377" "plsC" 3161502 "-" 738 "EG11377_RNA" -"EG11378" "sufA" 1762409 "-" 369 "EG11378_RNA" -"EG11379" "appB" 1038518 "+" 1137 "EG11379_RNA" -"EG11380" "appC" 1036962 "+" 1545 "EG11380_RNA" -"EG11381" "glgS" 3189960 "-" 201 "EG11381_RNA" -"EG11383" "elbB" 3348480 "-" 654 "EG11383_RNA" -"EG11384" "ahpC" 638167 "+" 564 "EG11384_RNA" -"EG11385" "ahpF" 638975 "+" 1566 "EG11385_RNA" -"EG11386" "yjiV" 4572157 "+" 2721 "EG11386_RNA" -"EG11387" "amyA" 2004179 "+" 1488 "EG11387_RNA" -"EG11388" "fliS" 2003326 "+" 411 "EG11388_RNA" -"EG11389" "fliT" 2003736 "+" 366 "EG11389_RNA" -"EG11390" "uspA" 3638133 "+" 435 "EG11390_RNA" -"EG11391" "osmY" 4609418 "+" 606 "EG11391_RNA" -"EG11392" "nhaB" 1233939 "-" 1542 "EG11392_RNA" -"EG11393" "dsbB" 1232252 "-" 531 "EG11393_RNA" -"EG11394" "fabR" 4159089 "+" 705 "EG11394_RNA" -"EG11395" "yijD" 4159793 "+" 360 "EG11395_RNA" -"EG11396" "ubiD" 4023010 "+" 1494 "EG11396_RNA" -"EG11398" "hdeA" 3654762 "-" 333 "EG11398_RNA" -"EG11399" "hdeB" 3654314 "-" 327 "EG11399_RNA" -"EG11400" "yhiD" 3653924 "-" 648 "EG11400_RNA" -"EG11401" "psiF" 402504 "+" 321 "EG11401_RNA" -"EG11402" "treC" 4462731 "-" 1656 "EG11402_RNA" -"EG11403" "ppx" 2623136 "+" 1542 "EG11403_RNA" -"EG11404" "ychF" 1257034 "-" 1092 "EG11404_RNA" -"EG11405" "cydD" 930184 "-" 1767 "EG11405_RNA" -"EG11406" "ribC" 1741265 "-" 642 "EG11406_RNA" -"EG11407" "dadA" 1236793 "+" 1299 "EG11407_RNA" -"EG11408" "dadX" 1238101 "+" 1071 "EG11408_RNA" -"EG11409" "lpxK" 967588 "+" 987 "EG11409_RNA" -"EG11410" "yjgA" 4455887 "-" 552 "EG11410_RNA" -"EG11411" "glnD" 188649 "-" 2673 "EG11411_RNA" -"EG11412" "holA" 670827 "-" 1032 "EG11412_RNA" -"EG11413" "holC" 4482302 "-" 444 "EG11413_RNA" -"EG11414" "holD" 4605825 "+" 414 "EG11414_RNA" -"EG11415" "dps" 848133 "-" 504 "EG11415_RNA" -"EG11417" "nrdD" 4460682 "-" 2139 "EG11417_RNA" -"EG11418" "dcd" 2140238 "-" 582 "EG11418_RNA" -"EG11419" "bcr" 2277781 "-" 1191 "EG11419_RNA" -"EG11421" "cynR" 357913 "-" 900 "EG11421_RNA" -"EG11422" "inaA" 2347493 "-" 651 "EG11422_RNA" -"EG11423" "waaU" 3797334 "-" 1074 "EG11423_RNA" -"EG11424" "waaL" 3794970 "+" 1260 "EG11424_RNA" -"EG11425" "waaY" 3798987 "-" 699 "EG11425_RNA" -"EG11426" "waaZ" 3798218 "-" 852 "EG11426_RNA" -"EG11427" "tktA" 3079656 "-" 1992 "EG11427_RNA" -"EG11428" "sthA" 4158812 "-" 1401 "EG11428_RNA" -"EG11429" "yjaZ" 4187808 "+" 540 "EG11429_RNA" -"EG11430" "ycfD" 1187462 "-" 1122 "EG11430_RNA" -"EG11431" "yfeC" 2516488 "+" 345 "EG11431_RNA" -"EG11432" "yfeD" 2516834 "+" 393 "EG11432_RNA" -"EG11433" "msrA" 4440198 "-" 639 "EG11433_RNA" -"EG11434" "marA" 1617597 "+" 384 "EG11434_RNA" -"EG11435" "marR" 1617143 "+" 435 "EG11435_RNA" -"EG11436" "ahr" 4494231 "-" 1020 "EG11436_RNA" -"EG11437" "plsX" 1146843 "+" 1071 "EG11437_RNA" -"EG11438" "yceF" 1145817 "-" 585 "EG11438_RNA" -"EG11439" "emrB" 2810637 "+" 1539 "EG11439_RNA" -"EG11440" "def" 3431711 "+" 510 "EG11440_RNA" -"EG11441" "prlC" 3643204 "-" 2043 "EG11441_RNA" -"EG11442" "gcvT" 3048688 "-" 1095 "EG11442_RNA" -"EG11443" "rpiA" 3057346 "-" 660 "EG11443_RNA" -"EG11444" "scpA" 3058871 "+" 2145 "EG11444_RNA" -"EG11445" "argK" 3061008 "+" 996 "EG11445_RNA" -"EG11447" "csrA" 2817167 "-" 186 "EG11447_RNA" -"EG11448" "acs" 4285393 "-" 1959 "EG11448_RNA" -"EG11449" "hdfR" 3945989 "-" 840 "EG11449_RNA" -"EG11450" "yifE" 3946108 "+" 339 "EG11450_RNA" -"EG11451" "rffE" 3968155 "+" 1131 "EG11451_RNA" -"EG11452" "rffD" 3969282 "+" 1263 "EG11452_RNA" -"EG11453" "rffG" 3970544 "+" 1068 "EG11453_RNA" -"EG11454" "rffH" 3971630 "+" 882 "EG11454_RNA" -"EG11455" "rffC" 3972618 "+" 546 "EG11455_RNA" -"EG11456" "rffA" 3973168 "+" 1131 "EG11456_RNA" -"EG11457" "wzyE" 3976623 "+" 1353 "EG11457_RNA" -"EG11458" "rffM" 3977978 "+" 741 "EG11458_RNA" -"EG11459" "yifK" 3978909 "+" 1386 "EG11459_RNA" -"EG11460" "narQ" 2583752 "+" 1701 "EG11460_RNA" -"EG11462" "yigE" 3999078 "-" 765 "EG11462_RNA" -"EG11463" "corA" 3999448 "+" 951 "EG11463_RNA" -"EG11464" "yigF" 4000821 "-" 381 "EG11464_RNA" -"EG11465" "yigG" 4001215 "-" 381 "EG11465_RNA" -"EG11466" "rarD" 4002200 "-" 891 "EG11466_RNA" -"EG11467" "yigI" 4002719 "-" 468 "EG11467_RNA" -"EG11468" "rhtC" 4005779 "+" 621 "EG11468_RNA" -"EG11469" "rhtB" 4007081 "-" 621 "EG11469_RNA" -"EG11470" "yigL" 4008222 "+" 801 "EG11470_RNA" -"EG11471" "yigM" 4009098 "+" 900 "EG11471_RNA" -"EG11472" "rmuC" 4015355 "+" 1428 "EG11472_RNA" -"EG11473" "ubiE" 4016877 "+" 756 "EG11473_RNA" -"EG11474" "yigP" 4017646 "+" 606 "EG11474_RNA" -"EG11476" "ubiB" 4018248 "+" 1641 "EG11476_RNA" -"EG11479" "tatC" 4020758 "+" 777 "EG11479_RNA" -"EG11481" "tatD" 4021576 "+" 783 "EG11481_RNA" -"EG11484" "yigZ" 4030514 "+" 615 "EG11484_RNA" -"EG11485" "hemG" 4032630 "+" 546 "EG11485_RNA" -"EG11486" "wzxE" 3974300 "+" 1251 "EG11486_RNA" -"EG11487" "pdxH" 1716030 "-" 657 "EG11487_RNA" -"EG11488" "mliC" 1716418 "-" 330 "EG11488_RNA" -"EG11489" "csgA" 1103669 "+" 456 "EG11489_RNA" -"EG11490" "gadB" 1570068 "-" 1401 "EG11490_RNA" -"EG11491" "dinF" 4255764 "+" 1380 "EG11491_RNA" -"EG11492" "qor" 4262253 "-" 984 "EG11492_RNA" -"EG11493" "pabC" 1152522 "+" 810 "EG11493_RNA" -"EG11494" "yceG" 1153334 "+" 1023 "EG11494_RNA" -"EG11495" "hdeD" 3655017 "+" 573 "EG11495_RNA" -"EG11496" "prfH" 253701 "+" 501 "EG11496_RNA" -"EG11497" "prmA" 3407091 "+" 882 "EG11497_RNA" -"EG11498" "yhdJ" 3409674 "+" 885 "EG11498_RNA" -"EG11499" "yhbE" 3330756 "-" 966 "EG11499_RNA" -"EG11500" "holB" 1154984 "+" 1005 "EG11500_RNA" -"EG11501" "adiA" 4338543 "-" 2268 "EG11501_RNA" -"EG11502" "rcsF" 219994 "-" 405 "EG11502_RNA" -"EG11503" "yaeB" 219593 "-" 708 "EG11503_RNA" -"EG11504" "metQ" 220927 "-" 816 "EG11504_RNA" -"EG11505" "holE" 1923131 "+" 231 "EG11505_RNA" -"EG11506" "ftsH" 3324956 "-" 1935 "EG11506_RNA" -"EG11507" "rlmE" 3325685 "-" 630 "EG11507_RNA" -"EG11508" "sra" 1553986 "-" 138 "EG11508_RNA" -"EG11509" "htgA" 10829 "+" 486 "EG11509_RNA" -"EG11510" "ppk" 2621065 "+" 2067 "EG11510_RNA" -"EG11511" "mog" 9305 "+" 588 "EG11511_RNA" -"EG11512" "yaaH" 10493 "-" 567 "EG11512_RNA" -"EG11514" "gltF" 3359197 "+" 765 "EG11514_RNA" -"EG11515" "yhcA" 3360133 "+" 675 "EG11515_RNA" -"EG11516" "ycgB" 1236463 "-" 1533 "EG11516_RNA" -"EG11517" "glpX" 4113601 "-" 1011 "EG11517_RNA" -"EG11519" "nikR" 3616610 "+" 402 "EG11519_RNA" -"EG11520" "yhhH" 3621421 "+" 384 "EG11520_RNA" -"EG11521" "ybfA" 728356 "+" 207 "EG11521_RNA" -"EG11522" "ybfB" 732998 "+" 327 "EG11522_RNA" -"EG11523" "ybfC" 734872 "+" 570 "EG11523_RNA" -"EG11524" "ybfD" 737314 "+" 762 "EG11524_RNA" -"EG11525" "yhhI" 3622400 "+" 1137 "EG11525_RNA" -"EG11526" "ydcC" 1529839 "+" 1137 "EG11526_RNA" -"EG11527" "narP" 2288521 "+" 648 "EG11527_RNA" -"EG11528" "fabI" 1349062 "-" 789 "EG11528_RNA" -"EG11529" "ftsN" 4121361 "-" 960 "EG11529_RNA" -"EG11530" "fadD" 1887769 "-" 1686 "EG11530_RNA" -"EG11531" "cfa" 1739436 "+" 1149 "EG11531_RNA" -"EG11532" "menC" 2373983 "-" 963 "EG11532_RNA" -"EG11533" "ychH" 1258013 "+" 279 "EG11533_RNA" -"EG11534" "ibpA" 3865444 "-" 414 "EG11534_RNA" -"EG11535" "ibpB" 3864919 "-" 429 "EG11535_RNA" 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"EG11557_RNA" -"EG11558" "caiC" 37823 "-" 1554 "EG11558_RNA" -"EG11559" "caiB" 39114 "-" 1218 "EG11559_RNA" -"EG11560" "caiA" 40385 "-" 1143 "EG11560_RNA" -"EG11561" "caiT" 41930 "-" 1515 "EG11561_RNA" -"EG11562" "fixA" 42402 "+" 771 "EG11562_RNA" -"EG11563" "fixB" 43187 "+" 942 "EG11563_RNA" -"EG11564" "fixC" 44179 "+" 1287 "EG11564_RNA" -"EG11565" "fixX" 45462 "+" 288 "EG11565_RNA" -"EG11566" "yaaU" 45806 "+" 1332 "EG11566_RNA" -"EG11568" "kefF" 47245 "+" 531 "EG11568_RNA" -"EG11569" "lptD" 57108 "-" 2355 "EG11569_RNA" -"EG11570" "djlA" 57363 "+" 816 "EG11570_RNA" -"EG11571" "yabI" 71350 "+" 765 "EG11571_RNA" -"EG11572" "thiQ" 72926 "-" 699 "EG11572_RNA" -"EG11573" "thiP" 74520 "-" 1611 "EG11573_RNA" -"EG11574" "tbpA" 75479 "-" 984 "EG11574_RNA" -"EG11575" "leuD" 79452 "-" 606 "EG11575_RNA" -"EG11576" "leuC" 80863 "-" 1401 "EG11576_RNA" -"EG11577" "leuB" 81957 "-" 1092 "EG11577_RNA" -"EG11578" "greB" 3534833 "+" 477 "EG11578_RNA" -"EG11579" "ybiA" 832172 "-" 483 "EG11579_RNA" 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"EG11604_RNA" -"EG11605" "smg" 3430485 "-" 474 "EG11605_RNA" -"EG11606" "kch" 1308292 "-" 1254 "EG11606_RNA" -"EG11607" "yciI" 1308888 "-" 297 "EG11607_RNA" -"EG11608" "clsA" 1306668 "-" 1461 "EG11608_RNA" -"EG11609" "evgA" 2481776 "+" 615 "EG11609_RNA" -"EG11610" "evgS" 2482395 "+" 3594 "EG11610_RNA" -"EG11611" "ychG_2" 1294238 "-" 591 "EG11611_RNA" -"EG11612" "proP" 4328524 "+" 1503 "EG11612_RNA" -"EG11613" "eptA" 4333612 "-" 1644 "EG11613_RNA" -"EG11614" "basS" 4331294 "-" 1092 "EG11614_RNA" -"EG11615" "basR" 4331972 "-" 669 "EG11615_RNA" -"EG11616" "sugE" 4374897 "+" 318 "EG11616_RNA" -"EG11617" "baeS" 2160899 "+" 1404 "EG11617_RNA" -"EG11618" "baeR" 2162299 "+" 723 "EG11618_RNA" -"EG11619" "mfd" 1173186 "-" 3447 "EG11619_RNA" -"EG11620" "rnb" 1346935 "-" 1935 "EG11620_RNA" -"EG11621" "metN" 222644 "-" 1032 "EG11621_RNA" -"EG11622" "mdlB" 469859 "+" 1782 "EG11622_RNA" -"EG11623" "sdaB" 2927597 "+" 1368 "EG11623_RNA" -"EG11624" "artP" 902956 "-" 729 "EG11624_RNA" -"EG11625" "artI" 902210 "-" 732 "EG11625_RNA" -"EG11626" "artQ" 901472 "-" 717 "EG11626_RNA" -"EG11627" "artM" 900756 "-" 669 "EG11627_RNA" -"EG11628" "artJ" 899797 "-" 732 "EG11628_RNA" -"EG11629" "potF" 893006 "+" 1113 "EG11629_RNA" -"EG11630" "potG" 894213 "+" 1134 "EG11630_RNA" -"EG11631" "potH" 895356 "+" 954 "EG11631_RNA" -"EG11632" "potI" 896306 "+" 846 "EG11632_RNA" -"EG11634" "nohA" 1634390 "-" 570 "EG11634_RNA" -"EG11635" "nohB" 580056 "+" 546 "EG11635_RNA" -"EG11636" "ydeA" 1615051 "+" 1191 "EG11636_RNA" -"EG11637" "marC" 1616931 "-" 666 "EG11637_RNA" -"EG11639" "eamA" 1619160 "-" 900 "EG11639_RNA" -"EG11640" "ydeE" 1619355 "+" 1188 "EG11640_RNA" -"EG11643" "ydeH" 1621873 "-" 891 "EG11643_RNA" -"EG11644" "ydeI" 1622520 "-" 393 "EG11644_RNA" -"EG11645" "ydeJ" 1622796 "+" 519 "EG11645_RNA" -"EG11646" "psuK" 2257317 "-" 942 "EG11646_RNA" -"EG11647" "accA" 208620 "+" 960 "EG11647_RNA" -"EG11648" "dkgB" 229166 "+" 804 "EG11648_RNA" -"EG11649" "yafC" 230880 "-" 915 "EG11649_RNA" -"EG11650" "yafD" 231121 "+" 801 "EG11650_RNA" -"EG11651" "yafE" 231925 "+" 624 "EG11651_RNA" -"EG11652" "degS" 3380221 "+" 1068 "EG11652_RNA" -"EG11653" "cyaY" 3992081 "-" 321 "EG11653_RNA" -"EG11654" "fliG" 2012903 "+" 996 "EG11654_RNA" -"EG11656" "fliH" 2013891 "+" 687 "EG11656_RNA" -"EG11657" "ybbA" 518956 "+" 687 "EG11657_RNA" -"EG11658" "uidB" 1692286 "-" 1374 "EG11658_RNA" -"EG11659" "yedD" 2006113 "-" 414 "EG11659_RNA" -"EG11660" "yedE" 2006300 "+" 1206 "EG11660_RNA" -"EG11661" "yedF" 2007502 "+" 234 "EG11661_RNA" -"EG11662" "yedK" 2007844 "+" 669 "EG11662_RNA" -"EG11663" "slyD" 3476518 "-" 591 "EG11663_RNA" -"EG11664" "slyX" 3475661 "+" 219 "EG11664_RNA" -"EG11665" "bacA" 3202152 "-" 822 "EG11665_RNA" -"EG11666" "moaC" 817792 "+" 486 "EG11666_RNA" -"EG11667" "atoS" 2318064 "+" 1827 "EG11667_RNA" -"EG11668" "atoC" 2319887 "+" 1386 "EG11668_RNA" -"EG11669" "atoD" 2321468 "+" 663 "EG11669_RNA" -"EG11670" "atoA" 2322130 "+" 651 "EG11670_RNA" -"EG11671" "atoE" 2322777 "+" 1323 "EG11671_RNA" 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4268260 "+" 417 "EG11935_RNA" -"EG11936" "yjbR" 4268680 "+" 357 "EG11936_RNA" -"EG11937" "yjcB" 4273063 "-" 282 "EG11937_RNA" -"EG11938" "yjcC" 4273493 "+" 1587 "EG11938_RNA" -"EG11939" "yjcD" 4276501 "+" 1350 "EG11939_RNA" -"EG11940" "yjcE" 4278002 "+" 1650 "EG11940_RNA" -"EG11941" "yjcF" 4281097 "-" 1293 "EG11941_RNA" -"EG11942" "actP" 4282924 "-" 1650 "EG11942_RNA" -"EG11943" "yjcH" 4283235 "-" 315 "EG11943_RNA" -"EG11945" "nrfB" 4287267 "+" 567 "EG11945_RNA" -"EG11946" "nrfC" 4287830 "+" 672 "EG11946_RNA" -"EG11947" "nrfD" 4288498 "+" 957 "EG11947_RNA" -"EG11948" "nrfE" 4289534 "+" 1659 "EG11948_RNA" -"EG11949" "nrfF" 4291185 "+" 384 "EG11949_RNA" -"EG11950" "nrfG" 4291565 "+" 597 "EG11950_RNA" -"EG11951" "yjcO" 4295147 "-" 690 "EG11951_RNA" -"EG11952" "mdtP" 4299052 "-" 1467 "EG11952_RNA" -"EG11953" "mdtO" 4301100 "-" 2052 "EG11953_RNA" -"EG11954" "mdtN" 4302131 "-" 1032 "EG11954_RNA" -"EG11955" "yjcS" 4304619 "-" 1986 "EG11955_RNA" -"EG11956" "alsK" 4305821 "-" 930 "EG11956_RNA" 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"EG12290_RNA" -"EG12291" "yiaW" 3752450 "-" 324 "EG12291_RNA" -"EG12292" "aldB" 3754533 "-" 1539 "EG12292_RNA" -"EG12293" "yiaY" 3755849 "-" 1152 "EG12293_RNA" -"EG12294" "grxC" 3782464 "-" 252 "EG12294_RNA" -"EG12295" "yibN" 3783037 "-" 432 "EG12295_RNA" -"EG12296" "gpmM" 3783282 "+" 1545 "EG12296_RNA" -"EG12297" "envC" 3784860 "+" 1260 "EG12297_RNA" -"EG12298" "yibQ" 3786123 "+" 960 "EG12298_RNA" -"EG12301" "rutR" 1073464 "+" 639 "EG12301_RNA" -"EG12302" "tmk" 1154346 "+" 642 "EG12302_RNA" -"EG12303" "ycfH" 1155999 "+" 798 "EG12303_RNA" -"EG12304" "sapD" 1351651 "-" 993 "EG12304_RNA" -"EG12305" "sapF" 1350657 "-" 807 "EG12305_RNA" -"EG12308" "yfhH" 2696780 "+" 849 "EG12308_RNA" -"EG12309" "yjtD" 4638964 "+" 687 "EG12309_RNA" -"EG12310" "pepB" 2654379 "-" 1284 "EG12310_RNA" -"EG12311" "iscX" 2654757 "-" 201 "EG12311_RNA" -"EG12312" "coaE" 113218 "-" 621 "EG12312_RNA" -"EG12313" "zapD" 112598 "-" 744 "EG12313_RNA" -"EG12314" "yacG" 111845 "-" 198 "EG12314_RNA" -"EG12315" "yacH" 131259 "-" 1854 "EG12315_RNA" -"EG12316" "acnB" 131614 "+" 2598 "EG12316_RNA" -"EG12318" "cueO" 137082 "+" 1551 "EG12318_RNA" -"EG12319" "can" 142669 "-" 663 "EG12319_RNA" -"EG12320" "yadG" 142778 "+" 927 "EG12320_RNA" -"EG12321" "yadH" 143701 "+" 771 "EG12321_RNA" -"EG12322" "yadI" 144576 "+" 441 "EG12322_RNA" -"EG12323" "yfaD" 2354925 "+" 900 "EG12323_RNA" -"EG12325" "yadK" 151598 "-" 597 "EG12325_RNA" -"EG12326" "yadL" 152230 "-" 606 "EG12326_RNA" -"EG12327" "yadM" 152811 "-" 570 "EG12327_RNA" -"EG12328" "yadN" 156882 "-" 585 "EG12328_RNA" -"EG12329" "hrpB" 162104 "+" 2430 "EG12329_RNA" -"EG12330" "ligT" 162030 "-" 531 "EG12330_RNA" -"EG12331" "clcA" 175106 "+" 1422 "EG12331_RNA" -"EG12332" "erpA" 176609 "+" 345 "EG12332_RNA" -"EG12333" "yadS" 177623 "-" 624 "EG12333_RNA" -"EG12334" "btuF" 178461 "-" 801 "EG12334_RNA" -"EG12335" "cdaR" 182462 "+" 1158 "EG12335_RNA" -"EG12336" "yaeH" 184094 "-" 387 "EG12336_RNA" -"EG12337" "yaeI" 185068 "-" 813 "EG12337_RNA" -"EG12338" "yagA" 281206 "-" 1155 "EG12338_RNA" -"EG12339" "yagB" 279958 "-" 351 "EG12339_RNA" -"EG12340" "afuC" 278025 "-" 1047 "EG12340_RNA" -"EG12341" "rseA" 2707425 "-" 651 "EG12341_RNA" -"EG12342" "yjjJ" 4619791 "+" 1332 "EG12342_RNA" -"EG12343" "yjjK" 4628544 "-" 1668 "EG12343_RNA" -"EG12344" "pspF" 1365935 "-" 978 "EG12344_RNA" -"EG12345" "ydfG" 1625540 "+" 747 "EG12345_RNA" -"EG12347" "yecC" 1995837 "-" 753 "EG12347_RNA" -"EG12352" "ppiC" 3957835 "-" 282 "EG12352_RNA" -"EG12354" "arfB" 214832 "+" 423 "EG12354_RNA" -"EG12356" "rtcR" 3556289 "+" 1599 "EG12356_RNA" -"EG12357" "fadK" 1781000 "+" 1701 "EG12357_RNA" -"EG12358" "ssuB" 993266 "-" 768 "EG12358_RNA" -"EG12359" "ybgD" 752017 "-" 567 "EG12359_RNA" -"EG12360" "yfaE" 2346535 "+" 255 "EG12360_RNA" -"EG12361" "kduD" 2981279 "-" 762 "EG12361_RNA" -"EG12362" "menF" 2378664 "-" 1296 "EG12362_RNA" -"EG12363" "ygiL" 3183435 "+" 552 "EG12363_RNA" -"EG12364" "intB" 4494772 "+" 1191 "EG12364_RNA" -"EG12365" "prkB" 3482511 "+" 870 "EG12365_RNA" -"EG12366" "rsmE" 3089155 "+" 732 "EG12366_RNA" -"EG12367" "cusA" 597936 "+" 3144 "EG12367_RNA" -"EG12368" "znuB" 1941437 "+" 786 "EG12368_RNA" -"EG12369" "ydjE" 1852002 "-" 1359 "EG12369_RNA" -"EG12370" "intE" 1200028 "-" 1128 "EG12370_RNA" -"EG12371" "nlpI" 3306945 "-" 885 "EG12371_RNA" -"EG12372" "ygdG" 2928986 "+" 846 "EG12372_RNA" -"EG12373" "ygdH" 2924329 "+" 1365 "EG12373_RNA" -"EG12374" "yhfG" 3489641 "-" 168 "EG12374_RNA" -"EG12375" "ycaI" 963542 "+" 2265 "EG12375_RNA" -"EG12376" "yfeH" 2524967 "+" 999 "EG12376_RNA" -"EG12378" "yecD" 1948855 "+" 567 "EG12378_RNA" -"EG12379" "yecE" 1949418 "+" 819 "EG12379_RNA" -"EG12380" "gntT" 3544580 "+" 1317 "EG12380_RNA" -"EG12381" "nrdF" 2801523 "+" 960 "EG12381_RNA" -"EG12384" "ybcF" 549661 "+" 894 "EG12384_RNA" -"EG12385" "rcsD" 2311509 "+" 2673 "EG12385_RNA" -"EG12386" "csiR" 2793695 "+" 663 "EG12386_RNA" -"EG12387" "lhgO" 2788003 "+" 1269 "EG12387_RNA" -"EG12388" "sfmF" 562552 "+" 516 "EG12388_RNA" -"EG12391" "ydiE" 1787636 "+" 192 "EG12391_RNA" 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"EG12415_RNA" -"EG12416" "gatC" 2172299 "-" 1356 "EG12416_RNA" -"EG12417" "gatD" 2170896 "-" 1041 "EG12417_RNA" -"EG12419" "gatY" 2175225 "-" 855 "EG12419_RNA" -"EG12421" "ybiI" 837678 "-" 267 "EG12421_RNA" -"EG12422" "ybiJ" 837147 "-" 261 "EG12422_RNA" -"EG12423" "tauD" 387018 "+" 852 "EG12423_RNA" -"EG12424" "prmC" 1265316 "+" 834 "EG12424_RNA" -"EG12427" "modA" 794311 "+" 774 "EG12427_RNA" -"EG12428" "rhoL" 3964253 "+" 102 "EG12428_RNA" -"EG12429" "tomB" 479931 "-" 375 "EG12429_RNA" -"EG12431" "puuR" 1359934 "+" 558 "EG12431_RNA" -"EG12432" "ydiF" 1773610 "+" 1596 "EG12432_RNA" -"EG12433" "rluB" 1324875 "+" 876 "EG12433_RNA" -"EG12434" "ygiM" 3199228 "+" 621 "EG12434_RNA" -"EG12436" "rseP" 196545 "+" 1353 "EG12436_RNA" -"EG12437" "menE" 2373024 "-" 1356 "EG12437_RNA" -"EG12438" "menH" 2375613 "-" 759 "EG12438_RNA" -"EG12439" "yjfF" 4451605 "+" 996 "EG12439_RNA" -"EG12440" "mpl" 4453807 "+" 1374 "EG12440_RNA" -"EG12442" "yfjD" 2746795 "+" 1287 "EG12442_RNA" -"EG12443" "yggL" 3100154 "-" 327 "EG12443_RNA" -"EG12444" "ycfJ" 1166821 "+" 540 "EG12444_RNA" -"EG12445" "eamB" 2713444 "+" 588 "EG12445_RNA" -"EG12446" "yfiL" 2739381 "+" 366 "EG12446_RNA" -"EG12448" "ybcH" 587203 "-" 891 "EG12448_RNA" -"EG12449" "prmB" 2446461 "-" 933 "EG12449_RNA" -"EG12450" "norW" 2831933 "+" 1134 "EG12450_RNA" -"EG12454" "ybaK" 506305 "-" 480 "EG12454_RNA" -"EG12455" "lplT" 2971883 "-" 1194 "EG12455_RNA" -"EG12458" "alsB" 4310064 "-" 936 "EG12458_RNA" -"EG12462" "adiC" 4335053 "-" 1338 "EG12462_RNA" -"EG12469" "yjdL" 4354433 "-" 1458 "EG12469_RNA" -"EG12475" "yjeM" 4381861 "+" 1503 "EG12475_RNA" -"EG12494" "ulaB" 4419415 "+" 306 "EG12494_RNA" -"EG12495" "ulaC" 4419730 "+" 465 "EG12495_RNA" -"EG12504" "cycA" 4427886 "+" 1413 "EG12504_RNA" -"EG12517" "ytfQ" 4447984 "+" 957 "EG12517_RNA" -"EG12518" "ytfR" 4449080 "+" 1503 "EG12518_RNA" -"EG12520" "ytfT" 4450596 "+" 1023 "EG12520_RNA" -"EG12522" "garD" 3273303 "+" 1572 "EG12522_RNA" -"EG12525" "mgtA" 4465647 "+" 2697 "EG12525_RNA" -"EG12539" "idnT" 4490547 "-" 1320 "EG12539_RNA" -"EG12544" "yjhB" 4502080 "+" 1218 "EG12544_RNA" -"EG12548" "yjhF" 4520042 "-" 1350 "EG12548_RNA" -"EG12554" "sgcA" 4526002 "-" 432 "EG12554_RNA" -"EG12556" "sgcC" 4528265 "-" 1314 "EG12556_RNA" -"EG12557" "sgcX" 4529673 "-" 1122 "EG12557_RNA" -"EG12563" "gntP" 4549318 "-" 1344 "EG12563_RNA" -"EG12576" "mdtM" 4566541 "-" 1233 "EG12576_RNA" -"EG12587" "yjjL" 4592744 "-" 1362 "EG12587_RNA" -"EG12591" "mdoB" 4597463 "-" 2292 "EG12591_RNA" -"EG12600" "yjjX" 4631767 "-" 513 "EG12600_RNA" -"EG12605" "yacL" 134387 "+" 363 "EG12605_RNA" -"EG12606" "fabF" 1151161 "+" 1242 "EG12606_RNA" -"EG12608" "caiE" 35370 "-" 591 "EG12608_RNA" -"EG12609" "rluA" 60345 "-" 660 "EG12609_RNA" -"EG12610" "yabP" 58473 "+" 651 "EG12610_RNA" -"EG12611" "yabQ" 59120 "+" 159 "EG12611_RNA" -"EG12615" "torR" 1057176 "-" 693 "EG12615_RNA" -"EG12623" "ybaL" 502461 "-" 1677 "EG12623_RNA" -"EG12624" "yiaG" 3717500 "+" 291 "EG12624_RNA" -"EG12625" "dppB" 3703812 "-" 1020 "EG12625_RNA" 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"EG12693_RNA" -"EG12694" "ttdR" 3204277 "-" 933 "EG12694_RNA" -"EG12697" "fldB" 3037876 "+" 522 "EG12697_RNA" -"EG12702" "ycaK" 948890 "+" 591 "EG12702_RNA" -"EG12703" "yccJ" 1066313 "-" 228 "EG12703_RNA" -"EG12704" "yggM" 3097586 "-" 1008 "EG12704_RNA" -"EG12705" "yggN" 3099644 "-" 720 "EG12705_RNA" -"EG12707" "ygbE" 2871358 "-" 324 "EG12707_RNA" -"EG12708" "ybcI" 555775 "-" 522 "EG12708_RNA" -"EG12709" "yedI" 2027389 "-" 918 "EG12709_RNA" -"EG12710" "yedJ" 2031102 "-" 696 "EG12710_RNA" -"EG12712" "luxS" 2812754 "-" 516 "EG12712_RNA" -"EG12713" "yddG" 1545192 "-" 882 "EG12713_RNA" -"EG12715" "dxr" 193520 "+" 1197 "EG12715_RNA" -"EG12717" "mug" 3213494 "-" 507 "EG12717_RNA" -"EG12720" "ygjI" 3224255 "+" 1434 "EG12720_RNA" -"EG12732" "sstT" 3237965 "+" 1245 "EG12732_RNA" -"EG12734" "uxaA" 3241335 "-" 1488 "EG12734_RNA" -"EG12738" "exuT" 3243125 "+" 1419 "EG12738_RNA" -"EG12739" "exuR" 3244673 "+" 777 "EG12739_RNA" -"EG12754" "yhaO" 3255968 "-" 1269 "EG12754_RNA" -"EG12760" "garP" 3272928 "-" 1335 "EG12760_RNA" -"EG12766" "agaA" 3279143 "+" 504 "EG12766_RNA" -"EG12768" "kbaY" 3281164 "+" 861 "EG12768_RNA" -"EG12769" "agaB" 3282191 "+" 477 "EG12769_RNA" -"EG12770" "agaC" 3282706 "+" 804 "EG12770_RNA" -"EG12780" "diaA" 3293830 "+" 591 "EG12780_RNA" -"EG12794" "yhbY" 3325811 "+" 294 "EG12794_RNA" -"EG12799" "mlaD" 3336482 "-" 552 "EG12799_RNA" -"EG12800" "mlaE" 3337269 "-" 783 "EG12800_RNA" -"EG12801" "mlaF" 3338086 "-" 810 "EG12801_RNA" -"EG12802" "yrbG" 3338296 "+" 978 "EG12802_RNA" -"EG12830" "ybaM" 489494 "-" 162 "EG12830_RNA" -"EG12834" "yhdW" 3417170 "+" 918 "EG12834_RNA" -"EG12835" "yhdX" 3418155 "+" 1182 "EG12835_RNA" -"EG12836" "yhdY" 3419346 "+" 1104 "EG12836_RNA" -"EG12837" "yhdZ" 3420457 "+" 759 "EG12837_RNA" -"EG12842" "ybjC" 890135 "+" 288 "EG12842_RNA" -"EG12843" "ybaN" 490105 "+" 378 "EG12843_RNA" -"EG12844" "yefM" 2087736 "-" 252 "EG12844_RNA" -"EG12845" "cas2" 2876874 "-" 285 "EG12845_RNA" -"EG12850" "yfaL" 2342190 "-" 3753 "EG12850_RNA" 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"EG12881_RNA" -"EG12882" "gss" 3136543 "-" 1860 "EG12882_RNA" -"EG12883" "pitB" 3134392 "-" 1500 "EG12883_RNA" -"EG12903" "yheS" 3479310 "+" 1914 "EG12903_RNA" -"EG12908" "frlA" 3497931 "+" 1338 "EG12908_RNA" -"EG12933" "feoC" 3540749 "+" 237 "EG12933_RNA" -"EG12957" "glk" 2507447 "-" 966 "EG12957_RNA" -"EG13139" "tynA" 1449372 "-" 2274 "EG13139_RNA" -"EG13159" "xapB" 2522006 "-" 1257 "EG13159_RNA" -"EG13161" "dsdC" 2475650 "-" 936 "EG13161_RNA" -"EG13174" "yqcE" 2898613 "+" 1278 "EG13174_RNA" -"EG13217" "ybaE" 466535 "-" 1701 "EG13217_RNA" -"EG13235" "mngA" 765206 "+" 1977 "EG13235_RNA" -"EG13236" "mngB" 767200 "+" 2634 "EG13236_RNA" -"EG13238" "cobU" 2063787 "-" 546 "EG13238_RNA" -"EG13270" "aqpZ" 915269 "-" 696 "EG13270_RNA" -"EG13283" "emrY" 2480197 "-" 1539 "EG13283_RNA" -"EG20044" "dctA" 3681469 "-" 1287 "EG20044_RNA" -"EG20049" "dgoA" 3871634 "-" 618 "EG20049_RNA" -"EG20051" "dgoK" 3872496 "-" 879 "EG20051_RNA" -"EG20053" "dgoT" 3869752 "-" 1293 "EG20053_RNA" -"EG20080" "glcB" 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["ampD", "b0110", "ECK0109"] 118733 119284 "+" "EG10041_RNA" +"EG10042" "ampE" ["ampE", "b0111", "ECK0110"] 119281 120135 "+" "EG10042_RNA" +"EG10043" "cysQ" ["cysQ", "amt", "amtA", "b4214", "ECK4210"] 4436755 4437495 "+" "EG10043_RNA" +"EG10044" "osmE" ["osmE", "anr", "b1739", "ECK1737"] 1821918 1822256 "-" "EG10044_RNA" +"EG10045" "ansA" ["ansA", "b1767", "ECK1765"] 1850860 1851876 "+" "EG10045_RNA" +"EG10046" "ansB" ["ansB", "b2957", "ECK2952"] 3099682 3100728 "-" "EG10046_RNA" +"EG10047" "apaG" ["apaG", "b0050", "ECK0051"] 51229 51606 "-" "EG10047_RNA" +"EG10048" "apaH" ["apaH", "cfcB", "b0049", "ECK0050"] 50380 51222 "-" "EG10048_RNA" +"EG10049" "appA" ["appA", "b0980", "ECK0971"] 1040617 1041915 "+" "EG10049_RNA" +"EG10050" "appY" ["appY", "b0564", "ECK0556"] 583681 584430 "+" "EG10050_RNA" +"EG10051" "apt" ["apt", "b0469", "ECK0463"] 491412 491963 "+" "EG10051_RNA" +"EG10052" "araA" ["araA", "b0062", "ECK0063"] 66835 68337 "-" "EG10052_RNA" +"EG10053" "araB" ["araB", "b0063", "ECK0064"] 68348 70048 "-" "EG10053_RNA" +"EG10054" "araC" ["araC", "b0064", "ECK0065"] 70387 71265 "+" "EG10054_RNA" +"EG10055" "araD" ["araD", "b0061", "ECK0062"] 65855 66550 "-" "EG10055_RNA" +"EG10056" "araE" ["araE", "b2841", "ECK2839"] 2980764 2982182 "-" "EG10056_RNA" +"EG10057" "araF" ["araF", "b1901", "ECK1899"] 1985139 1986128 "-" "EG10057_RNA" +"EG10058" "araG" ["araG", "b1900", "ECK1898"] 1983555 1985069 "-" "EG10058_RNA" +"EG10059" "araH" ["araH", "b1898", "b1899", "b4460", "ECK1897"] 1982554 1983540 "-" "EG10059_RNA" +"EG10060" "araJ" ["araJ", "araT", "b0396", "ECK0390"] 411297 412481 "-" "EG10060_RNA" +"EG10061" "arcA" ["arcA", "sfrA", "cpxC", "dye", "fexA", "msp", "seg", "b4401", "ECK4393"] 4639590 4640306 "-" "EG10061_RNA" +"EG10062" "arcB" ["arcB", "b3210", "ECK3200"] 3350689 3353025 "-" "EG10062_RNA" +"EG10063" "argA" ["argA", "Arg2", "Arg1", "b2818", "ECK2814"] 2949242 2950573 "+" "EG10063_RNA" +"EG10064" "argB" ["argB", "b3959", "ECK3950"] 4156013 4156789 "+" "EG10064_RNA" +"EG10065" "argC" ["argC", "Arg2", "b3958", "ECK3949"] 4155001 4156005 "+" "EG10065_RNA" +"EG10066" "argD" ["argD", "Arg1", "dapC", "dtu", "b3359", "ECK3347"] 3488960 3490180 "-" "EG10066_RNA" +"EG10067" "argF" ["argF", "b0273", "ECK0274"] 289301 290305 "-" "EG10067_RNA" +"EG10068" "argG" ["argG", "b3172", "ECK3161"] 3318637 3319980 "+" "EG10068_RNA" +"EG10069" "argI" ["argI", "b4254", "ECK4247"] 4477307 4478311 "-" "EG10069_RNA" +"EG10070" "argR" ["argR", "Rarg", "xerA", "b3237", "ECK3226"] 3384703 3385173 "+" "EG10070_RNA" +"EG10071" "argS" ["argS", "lov", "lov-1", "b1876", "ECK1877"] 1960062 1961795 "+" "EG10071_RNA" +"EG10072" "argT" ["argT", "b2310", "ECK2304"] 2427009 2427791 "-" "EG10072_RNA" +"EG10073" "aroA" ["aroA", "b0908", "ECK0899"] 958812 960095 "+" "EG10073_RNA" +"EG10074" "aroB" ["aroB", "b3389", "ECK3376"] 3517398 3518486 "-" "EG10074_RNA" +"EG10075" "aroC" ["aroC", "b2329", "ECK2323"] 2446388 2447473 "-" "EG10075_RNA" +"EG10076" "aroD" ["aroD", "b1693", "ECK1691"] 1774686 1775444 "+" "EG10076_RNA" +"EG10077" "aroE" ["aroE", "b3281", "ECK3268"] 3430020 3430838 "-" "EG10077_RNA" +"EG10078" "aroF" ["aroF", "b2601", "ECK2598"] 2740080 2741150 "-" "EG10078_RNA" +"EG10079" "aroG" ["aroG", "b0754", "ECK0743"] 785633 786685 "+" "EG10079_RNA" +"EG10080" "aroH" ["aroH", "b1704", "ECK1702"] 1788435 1789481 "+" "EG10080_RNA" +"EG10081" "aroK" ["aroK", "b3390", "ECK3377"] 3518543 3519064 "-" "EG10081_RNA" +"EG10082" "aroL" ["aroL", "b0388", "ECK0383"] 406405 406929 "+" "EG10082_RNA" +"EG10083" "aroM" ["aroM", "b0390", "ECK0385"] 407428 408105 "+" "EG10083_RNA" +"EG10084" "aroP" ["aroP", "aroR", "b0112", "ECK0111"] 120178 121551 "-" "EG10084_RNA" +"EG10085" "ascB" ["ascB", "sac", "b2716", "ECK2711"] 2840990 2842414 "+" "EG10085_RNA" +"EG10086" "ascF" ["ascF", "sac", "b2715", "ECK2710"] 2839524 2840981 "+" "EG10086_RNA" +"EG10087" "ascG" ["ascG", "sac", "b2714", "ECK2709"] 2838254 2839264 "-" "EG10087_RNA" +"EG10088" "asd" ["asd", "dap", "hom", "b3433", "ECK3419"] 3573775 3574878 "-" "EG10088_RNA" +"EG10089" "aslA" ["aslA", "gppB", "atsA", "b3801", "ECK3794"] 3984352 3986007 "-" "EG10089_RNA" +"EG10090" "aslB" ["aslB", "gppB", "atsB", "b3800", "ECK3793"] 3982958 3984193 "+" "EG10090_RNA" +"EG10091" "asnA" ["asnA", "b3744", "ECK3738"] 3927155 3928147 "+" "EG10091_RNA" +"EG10092" "asnB" ["asnB", "b0674", "ECK0662"] 697513 699177 "-" "EG10092_RNA" +"EG10093" "asnC" ["asnC", "b3743", "ECK3737"] 3926545 3927003 "-" "EG10093_RNA" +"EG10094" "asnS" ["asnS", "lcs", "tss", "b0930", "ECK0921"] 987585 988985 "-" "EG10094_RNA" +"EG10095" "aspA" ["aspA", "b4139", "ECK4133"] 4366891 4368327 "-" "EG10095_RNA" +"EG10096" "aspC" ["aspC", "b0928", "ECK0919"] 984519 985709 "-" "EG10096_RNA" +"EG10097" "aspS" ["aspS", "tls", "b1866", "ECK1867"] 1948750 1950522 "-" "EG10097_RNA" +"EG10098" "atpA" ["atpA", "papA", "uncA", "b3734", "ECK3727"] 3918316 3919857 "-" "EG10098_RNA" +"EG10099" "atpB" ["atpB", "papD", "uncB", "b3738", "ECK3731"] 3921236 3922051 "-" "EG10099_RNA" +"EG10100" "atpC" ["atpC", "papG", "uncC", "b3731", "ECK3724"] 3915553 3915972 "-" "EG10100_RNA" +"EG10101" "atpD" ["atpD", "papB", "uncD", "b3732", "ECK3725"] 3915993 3917375 "-" "EG10101_RNA" +"EG10102" "atpE" ["atpE", "papH", "uncE", "b3737", "ECK3730"] 3920950 3921189 "-" "EG10102_RNA" +"EG10103" "atpF" ["atpF", "papF", "uncF", "b3736", "ECK3729"] 3920418 3920888 "-" "EG10103_RNA" +"EG10104" "atpG" ["atpG", "papC", "uncG", "b3733", "ECK3726"] 3917402 3918265 "-" "EG10104_RNA" +"EG10105" "atpH" ["atpH", "papE", "uncH", "b3735", "ECK3728"] 3919870 3920403 "-" "EG10105_RNA" +"EG10106" "atpI" ["atpI", "uncI", "b3739", "ECK3732"] 3922060 3922440 "-" "EG10106_RNA" +"EG10107" "avtA" ["avtA", "b3572", "ECK3561"] 3739705 3740958 "+" "EG10107_RNA" +"EG10108" "bcp" ["bcp", "b2480", "ECK2476"] 2600478 2600948 "+" "EG10108_RNA" +"EG10109" "betA" ["betA", "b0311", "ECK0309"] 325577 327247 "-" "EG10109_RNA" +"EG10110" "betB" ["betB", "b0312", "ECK0310"] 327261 328733 "-" "EG10110_RNA" +"EG10111" "betI" ["betI", "b0313", "ECK0311"] 328747 329334 "-" "EG10111_RNA" +"EG10112" "betT" ["betT", "b0314", "ECK0312"] 329463 331496 "+" "EG10112_RNA" +"EG10113" "bfr" ["bfr", "b3336", "ECK3323"] 3466249 3466725 "-" "EG10113_RNA" +"EG10114" "bglB" ["bglB", "blgA", "b3721", "ECK3714"] 3902289 3903701 "-" "EG10114_RNA" +"EG10115" "bglF" ["bglF", "bglS", "b3722", "ECK3715"] 3903720 3905597 "-" "EG10115_RNA" +"EG10116" "bglG" ["bglG", "bglC", "b3723", "ECK3716"] 3905731 3906567 "-" "EG10116_RNA" +"EG10117" "bioA" ["bioA", "b0774", "ECK0763"] 807968 809257 "-" "EG10117_RNA" +"EG10118" "bioB" ["bioB", "b0775", "ECK0764"] 809344 810384 "+" "EG10118_RNA" +"EG10119" "bioC" ["bioC", "b0777", "ECK0766"] 811522 812277 "+" "EG10119_RNA" +"EG10120" "bioD" ["bioD", "b0778", "ECK0767"] 812270 812947 "+" "EG10120_RNA" +"EG10121" "bioF" ["bioF", "b0776", "ECK0765"] 810381 811535 "+" "EG10121_RNA" +"EG10122" "bioH" ["bioH", "bioB", "b3412", "ECK3399"] 3544074 3544844 "-" "EG10122_RNA" +"EG10123" "birA" ["birA", "bioR", "dhbB", "b3973", "ECK3965"] 4173082 4174047 "+" "EG10123_RNA" +"EG10124" "bisC" ["bisC", "b3551", "ECK3538"] 3714061 3716394 "-" "EG10124_RNA" +"EG10125" "bolA" ["bolA", "b0435", "ECK0429"] 454472 454789 "+" "EG10125_RNA" +"EG10126" "btuB" ["btuB", "bfe", "cer", "b3966", "ECK3958"] 4163639 4165483 "+" "EG10126_RNA" +"EG10127" "btuC" ["btuC", "b1711", "ECK1709"] 1794172 1795152 "-" "EG10127_RNA" +"EG10128" "btuD" ["btuD", "b1709", "ECK1707"] 1792809 1793558 "-" "EG10128_RNA" +"EG10129" "btuE" ["btuE", "b1710", "ECK1708"] 1793558 1794109 "-" "EG10129_RNA" +"EG10130" "btuR" ["btuR", "cobA", "b1270", "ECK1264"] 1327767 1328357 "-" "EG10130_RNA" +"EG10131" "cadA" ["cadA", "ldcI", "b4131", "ECK4125"] 4356470 4358617 "-" "EG10131_RNA" +"EG10132" "cadB" ["cadB", "b4132", "ECK4126"] 4358697 4360031 "-" "EG10132_RNA" +"EG10133" "cadC" ["cadC", "b4133", "ECK4127"] 4360396 4361934 "-" "EG10133_RNA" +"EG10134" "carA" ["carA", "arg", "cap", "pyrA", "b0032", "ECK0033"] 29651 30799 "+" "EG10134_RNA" +"EG10135" "carB" ["carB", "cap", "pyrA", "b0033", "ECK0034"] 30817 34038 "+" "EG10135_RNA" +"EG10136" "cca" ["cca", "b3056", "ECK3046"] 3201891 3203129 "+" "EG10136_RNA" +"EG10137" "cdd" ["cdd", "b2143", "ECK2136"] 2231844 2232728 "+" "EG10137_RNA" +"EG10138" "cdh" ["cdh", "b3918", "ECK3910"] 4109930 4110685 "+" "EG10138_RNA" +"EG10139" "cdsA" ["cdsA", "cds", "b0175", "ECK0174"] 195677 196534 "+" "EG10139_RNA" +"EG10140" "chbB" ["chbB", "celA", "b1738", "ECK1736"] 1821299 1821619 "-" "EG10140_RNA" +"EG10141" "chbC" ["chbC", "celB", "hic", "b1737", "ECK1735"] 1819856 1821214 "-" "EG10141_RNA" +"EG10142" "chbA" ["chbA", "celC", "b1736", "ECK1734"] 1819455 1819805 "-" "EG10142_RNA" +"EG10143" "chbR" ["chbR", "celD", "b1735", "ECK1733"] 1818605 1819447 "-" "EG10143_RNA" +"EG10144" "chbF" ["chbF", "ydjD", "celF", "b1734", "ECK1732"] 1817148 1818500 "-" "EG10144_RNA" +"EG10145" "creD" ["creD", "refII", "cet", "b4400", "ECK4392"] 4638178 4639530 "+" "EG10145_RNA" +"EG10146" "cheA" ["cheA", "b1888", "ECK1889"] 1973360 1975324 "-" "EG10146_RNA" +"EG10147" "cheB" ["cheB", "b1883", "ECK1884"] 1967452 1968501 "-" "EG10147_RNA" +"EG10148" "cheR" ["cheR", "cheX", "b1884", "ECK1885"] 1968504 1969364 "-" "EG10148_RNA" +"EG10149" "cheW" ["cheW", "b1887", "ECK1888"] 1972836 1973339 "-" "EG10149_RNA" +"EG10150" "cheY" ["cheY", "b1882", "ECK1883"] 1967048 1967437 "-" "EG10150_RNA" +"EG10151" "cheZ" ["cheZ", "b1881", "ECK1882"] 1966393 1967037 "-" "EG10151_RNA" +"EG10152" "modC" ["modC", "chlD", "narD", "b0765", "ECK0754"] 796554 797612 "+" "EG10152_RNA" +"EG10153" "moeA" ["moeA", "bisB", "chlE", "narE", "b0827", "ECK0817"] 865129 866364 "-" "EG10153_RNA" +"EG10154" "moeB" ["moeB", "chlN", "b0826", "ECK0816"] 864380 865129 "-" "EG10154_RNA" +"EG10155" "cirA" ["cirA", "cir", "feuA", "b2155", "ECK2148"] 2244778 2246769 "-" "EG10155_RNA" +"EG10156" "clpA" ["clpA", "lopD", "b0882", "ECK0873"] 923264 925540 "+" "EG10156_RNA" +"EG10157" "clpB" ["clpB", "htpM", "b2592", "ECK2590"] 2731600 2734173 "-" "EG10157_RNA" +"EG10158" "clpP" ["clpP", "lopP", "b0437", "ECK0431"] 456677 457300 "+" "EG10158_RNA" +"EG10159" "clpX" ["clpX", "lopC", "b0438", "ECK0432"] 457426 458700 "+" "EG10159_RNA" +"EG10160" "cpdB" ["cpdB", "b4213", "ECK4209"] 4434622 4436565 "-" "EG10160_RNA" +"EG10161" "cpsB" ["cpsB", "rfbM", "manC", "mni", "b2049", "ECK2043"] 2123084 2124520 "-" "EG10161_RNA" +"EG10162" "cpsG" ["cpsG", "rfbK", "manB", "b2048", "ECK2042"] 2121609 2122979 "-" "EG10162_RNA" +"EG10163" "cpxA" ["cpxA", "rssE", "ecfB", "eup", "ssd", "ecf", "b3911", "ECK3904"] 4103602 4104975 "-" "EG10163_RNA" +"EG10164" "crp" ["crp", "cap", "csm", "gurB", "b3357", "ECK3345"] 3486120 3486752 "+" "EG10164_RNA" +"EG10165" "crr" ["crr", "treD", "gsr", "iex", "tgs", "b2417", "ECK2412"] 2535834 2536343 "+" "EG10165_RNA" +"EG10166" "cspA" ["cspA", "b3556", "ECK3543"] 3720049 3720261 "+" "EG10166_RNA" +"EG10167" "cstA" ["cstA", "ybdC", "b0598", "ECK0591"] 629894 631999 "+" "EG10167_RNA" +"EG10168" "lnt" ["lnt", "cutE", "b0657", "ECK0649"] 689343 690881 "-" "EG10168_RNA" +"EG10169" "cvpA" ["cvpA", "dedE", "b2313", "ECK2307"] 2430275 2430763 "-" "EG10169_RNA" +"EG10170" "cyaA" ["cyaA", "cya", "b3806", "ECK3800"] 3991153 3993699 "+" "EG10170_RNA" +"EG10172" "cybB" ["cybB", "b1418", "ECK1410"] 1490902 1491432 "+" "EG10172_RNA" +"EG10173" "cydA" ["cydA", "cyd-1", "b0733", "ECK0721"] 771458 773026 "+" "EG10173_RNA" +"EG10174" "cydB" ["cydB", "cyd-2", "b0734", "ECK0722"] 773042 774181 "+" "EG10174_RNA" +"EG10175" "cynS" ["cynS", "cnt", "cyaN", "b0340", "ECK0337"] 359489 359959 "+" "EG10175_RNA" +"EG10176" "cynT" ["cynT", "b0339", "ECK0336"] 358799 359458 "+" "EG10176_RNA" +"EG10177" "cynX" ["cynX", "b0341", "ECK0338"] 359992 361146 "+" "EG10177_RNA" +"EG10178" "cyoA" ["cyoA", "b0432", "ECK0426"] 450663 451610 "-" "EG10178_RNA" +"EG10179" "cyoB" ["cyoB", "b0431", "ECK0425"] 448650 450641 "-" "EG10179_RNA" +"EG10180" "cyoC" ["cyoC", "b0430", "ECK0424"] 448046 448660 "-" "EG10180_RNA" +"EG10181" "cyoD" ["cyoD", "b0429", "ECK0423"] 447717 448046 "-" "EG10181_RNA" +"EG10182" "cyoE" ["cyoE", "b0428", "ECK0422"] 446815 447705 "-" "EG10182_RNA" +"EG10183" "cysA" ["cysA", "b2422", "ECK2417"] 2539717 2540814 "-" "EG10183_RNA" +"EG10184" "cysB" ["cysB", "b1275", "ECK1269"] 1333855 1334829 "+" "EG10184_RNA" +"EG10185" "cysC" ["cysC", "b2750", "ECK2745"] 2873387 2873992 "-" "EG10185_RNA" +"EG10186" "cysD" ["cysD", "b2752", "ECK2747"] 2875421 2876329 "-" "EG10186_RNA" +"EG10187" "cysE" ["cysE", "b3607", "ECK3597"] 3781741 3782562 "-" "EG10187_RNA" +"EG10188" "cysG" ["cysG", "b3368", "ECK3356"] 3497828 3499201 "+" "EG10188_RNA" +"EG10189" "cysH" ["cysH", "b2762", "ECK2757"] 2887578 2888312 "-" "EG10189_RNA" +"EG10190" "cysI" ["cysI", "b2763", "ECK2758"] 2888387 2890099 "-" "EG10190_RNA" +"EG10191" "cysJ" ["cysJ", "b2764", "ECK2759"] 2890099 2891898 "-" "EG10191_RNA" +"EG10192" "cysK" ["cysK", "ssi5", "b2414", "ECK2409"] 2532409 2533380 "+" "EG10192_RNA" +"EG10193" "cysM" ["cysM", "b2421", "ECK2416"] 2538672 2539583 "-" "EG10193_RNA" +"EG10194" "cysN" ["cysN", "b2751", "ECK2746"] 2873992 2875419 "-" "EG10194_RNA" +"EG10195" "cysP" ["cysP", "b2425", "ECK2420"] 2542512 2543528 "-" "EG10195_RNA" +"EG10196" "cysS" ["cysS", "syc", "b0526", "ECK0519"] 554611 555996 "+" "EG10196_RNA" +"EG10197" "cysU" ["cysU", "cysT", "b2424", "ECK2419"] 2541679 2542512 "-" "EG10197_RNA" +"EG10198" "cysW" ["cysW", "b2423", "ECK2418"] 2540804 2541679 "-" "EG10198_RNA" +"EG10200" "cytR" ["cytR", "b3934", "ECK3926"] 4123431 4124456 "-" "EG10200_RNA" +"EG10201" "dacA" ["dacA", "pfv", "b0632", "ECK0625"] 662752 663963 "-" "EG10201_RNA" +"EG10202" "dacB" ["dacB", "b3182", "ECK3171"] 3328963 3330396 "+" "EG10202_RNA" +"EG10203" "dacC" ["dacC", "b0839", "ECK0829"] 880727 881929 "+" "EG10203_RNA" +"EG10204" "dam" ["dam", "b3387", "ECK3374"] 3515077 3515913 "-" "EG10204_RNA" +"EG10205" "dapA" ["dapA", "b2478", "ECK2474"] 2598882 2599760 "-" "EG10205_RNA" +"EG10206" "dapB" ["dapB", "b0031", "ECK0032"] 28374 29195 "+" "EG10206_RNA" +"EG10207" "dapD" ["dapD", "ssa", "b0166", "ECK0164"] 185123 185947 "-" "EG10207_RNA" +"EG10208" "dapE" ["dapE", "msgB", "b2472", "ECK2467"] 2591607 2592734 "+" "EG10208_RNA" +"EG10209" "dapF" ["dapF", "b3809", "ECK3804"] 3994762 3995586 "+" "EG10209_RNA" +"EG10210" "dbpA" ["dbpA", "rhlC", "b1343", "ECK1340"] 1409511 1410884 "+" "EG10210_RNA" +"EG10211" "dcm" ["dcm", "mec", "b1961", "ECK1959"] 2030899 2032317 "-" "EG10211_RNA" +"EG10212" "dcp" ["dcp", "b1538", "ECK1531"] 1625335 1627380 "-" "EG10212_RNA" +"EG10213" "ddlA" ["ddlA", "b0381", "ECK0376"] 399829 400923 "-" "EG10213_RNA" +"EG10214" "ddlB" ["ddlB", "ddl", "b0092", "ECK0093"] 102233 103153 "+" "EG10214_RNA" +"EG10215" "deaD" ["deaD", "csdA", "mssB", "rhlD", "b3162", "ECK3150"] 3305971 3307860 "-" "EG10215_RNA" +"EG10216" "dedA" ["dedA", "b2317", "ECK2311"] 2434082 2434741 "-" "EG10216_RNA" +"EG10217" "accD" ["accD", "dedB", "usg", "b2316", "ECK2310"] 2433012 2433926 "-" "EG10217_RNA" +"EG10218" "dedD" ["dedD", "b2314", "ECK2308"] 2431022 2431684 "-" "EG10218_RNA" +"EG10219" "deoA" ["deoA", "TP", "tpp", "ttg", "b4382", "ECK4374"] 4618229 4619551 "+" "EG10219_RNA" +"EG10220" "deoB" ["deoB", "tlr", "drm", "thyR", "b4383", "ECK4375"] 4619603 4620826 "+" "EG10220_RNA" +"EG10221" "deoC" ["deoC", "tlr", "dra", "thyR", "b4381", "ECK4373"] 4617323 4618102 "+" "EG10221_RNA" +"EG10222" "deoD" ["deoD", "pup", "b4384", "ECK4376"] 4620883 4621602 "+" "EG10222_RNA" +"EG10223" "deoR" ["deoR", "nucR", "b0840", "ECK0830"] 881976 882734 "-" "EG10223_RNA" +"EG10224" "dgkA" ["dgkA", "b4042", "ECK4034"] 4256637 4257005 "+" "EG10224_RNA" +"EG10225" "dgt" ["dgt", "optA", "b0160", "ECK0159"] 179237 180754 "+" "EG10225_RNA" +"EG10226" "dicA" ["dicA", "ftsT", "b1570", "ECK1564"] 1647934 1648341 "+" "EG10226_RNA" +"EG10227" "dicB" ["dicB", "ftsT", "b1575", "ECK1569"] 1649609 1649797 "+" "EG10227_RNA" +"EG10228" "dicC" ["dicC", "ftsT", "b1569", "ECK1563"] 1647620 1647850 "-" "EG10228_RNA" +"EG10229" "flk" ["flk", "div", "b2321", "ECK2315"] 2437950 2438945 "+" "EG10229_RNA" +"EG10230" "dksA" ["dksA", "msmA", "b0145", "ECK0144"] 160149 160604 "-" "EG10230_RNA" +"EG10231" "dld" ["dld", "ldh", "b2133", "ECK2126"] 2222185 2223900 "+" "EG10231_RNA" +"EG10232" "dmsA" ["dmsA", "b0894", "ECK0885"] 940959 943403 "+" "EG10232_RNA" +"EG10233" "dmsB" ["dmsB", "b0895", "ECK0886"] 943414 944031 "+" "EG10233_RNA" +"EG10234" "dmsC" ["dmsC", "b0896", "ECK0887"] 944033 944896 "+" "EG10234_RNA" +"EG10235" "dnaA" ["dnaA", "b3702", "ECK3694"] 3882326 3883729 "-" "EG10235_RNA" +"EG10236" "dnaB" ["dnaB", "groP", "grpA", "grpD", "b4052", "ECK4044"] 4264314 4265729 "+" "EG10236_RNA" +"EG10237" "dnaC" ["dnaC", "dnaD", "b4361", "ECK4351"] 4600238 4600975 "-" "EG10237_RNA" +"EG10238" "dnaE" ["dnaE", "sdgC", "polC", "b0184", "ECK0183"] 205126 208608 "+" "EG10238_RNA" +"EG10239" "dnaG" ["dnaG", "dnaP", "parB", "sdgA", "b3066", "ECK3056"] 3211107 3212852 "+" "EG10239_RNA" +"EG10240" "dnaJ" ["dnaJ", "groP", "grpC", "b0015", "ECK0015"] 14168 15298 "+" "EG10240_RNA" +"EG10241" "dnaK" ["dnaK", "groPF", "groPC", "seg", "grpF", "grpC", "groPAB", "b0014", "ECK0014"] 12163 14079 "+" "EG10241_RNA" +"EG10242" "dnaN" ["dnaN", "b3701", "ECK3693"] 3881221 3882321 "-" "EG10242_RNA" +"EG10243" "dnaQ" ["dnaQ", "mutD", "b0215", "ECK0215"] 236067 236798 "+" "EG10243_RNA" +"EG10244" "dnaT" ["dnaT", "b4362", "ECK4352"] 4600978 4601517 "-" "EG10244_RNA" +"EG10245" "dnaX" ["dnaX", "dnaZ", "b0470", "ECK0464"] 492092 494023 "+" "EG10245_RNA" +"EG10246" "mltD" ["mltD", "yafG", "dniR", "b0211", "ECK0211"] 232597 233955 "-" "EG10246_RNA" +"EG10247" "acpS" ["acpS", "dpj", "b2563", "ECK2561"] 2700618 2700998 "-" "EG10247_RNA" +"EG10248" "dppA" ["dppA", "alu", "dpp", "fpp", "b3544", "ECK3531"] 3706098 3707705 "-" "EG10248_RNA" +"EG10249" "dsdA" ["dsdA", "b2366", "ECK2362"] 2479202 2480530 "+" "EG10249_RNA" +"EG10250" "dsdX" ["dsdX", "yfdD", "yfdA", "dsdC", "b2365", "ECK2361"] 2477847 2479184 "+" "EG10250_RNA" +"EG10251" "dut" ["dut", "dnaS", "sof", "b3640", "ECK3630"] 3813929 3814387 "+" "EG10251_RNA" +"EG10252" "ebgA" ["ebgA", "b3076", "ECK3066"] 3222633 3225725 "+" "EG10252_RNA" +"EG10253" "ebgC" ["ebgC", "b3077", "ECK3067"] 3225722 3226171 "+" "EG10253_RNA" +"EG10254" "ebgR" ["ebgR", "b3075", "ECK3065"] 3221466 3222449 "+" "EG10254_RNA" +"EG10255" "eco" ["eco", "eti", "b2209", "ECK2201"] 2303905 2304393 "+" "EG10255_RNA" +"EG10256" "eda" ["eda", "hga", "kdgA", "kga", "b1850", "ECK1851"] 1932115 1932756 "-" "EG10256_RNA" +"EG10257" "edd" ["edd", "b1851", "ECK1852"] 1932793 1934604 "-" "EG10257_RNA" +"EG10258" "eno" ["eno", "b2779", "ECK2773"] 2906643 2907941 "-" "EG10258_RNA" +"EG10259" "entA" ["entA", "b0596", "ECK0589"] 628551 629297 "+" "EG10259_RNA" +"EG10260" "entB" ["entB", "entG", "b0595", "ECK0588"] 627694 628551 "+" "EG10260_RNA" +"EG10261" "entC" ["entC", "fepF", "b0593", "ECK0586"] 624885 626060 "+" "EG10261_RNA" +"EG10262" "entD" ["entD", "b0583", "ECK0575"] 609459 610079 "-" "EG10262_RNA" +"EG10263" "entE" ["entE", "b0594", "ECK0587"] 626070 627680 "+" "EG10263_RNA" +"EG10264" "entF" ["entF", "b0586", "ECK0579"] 614157 618038 "+" "EG10264_RNA" +"EG10265" "lpxC" ["lpxC", "asmB", "envA", "b0096", "ECK0097"] 106557 107474 "+" "EG10265_RNA" +"EG10266" "acrE" ["acrE", "envC", "b3265", "ECK3252"] 3413864 3415021 "+" "EG10266_RNA" +"EG10267" "acrF" ["acrF", "envD", "b3266", "ECK3253"] 3415033 3418137 "+" "EG10267_RNA" +"EG10268" "envY" ["envY", "b0566", "ECK0558"] 586147 586908 "-" "EG10268_RNA" +"EG10269" "envZ" ["envZ", "tpo", "perA", "ompB", "b3404", "ECK3391"] 3534516 3535868 "-" "EG10269_RNA" +"EG10270" "era" ["era", "rbaA", "sdgE", "b2566", "ECK2564"] 2702481 2703386 "-" "EG10270_RNA" +"EG10271" "exbB" ["exbB", "b3006", "ECK2999"] 3151250 3151984 "-" "EG10271_RNA" +"EG10272" "exbD" ["exbD", "b3005", "ECK2998"] 3150818 3151243 "-" "EG10272_RNA" +"EG10273" "fabA" ["fabA", "b0954", "ECK0945"] 1015952 1016470 "-" "EG10273_RNA" +"EG10274" "fabB" ["fabB", "fabC", "b2323", "ECK2317"] 2440385 2441605 "-" "EG10274_RNA" +"EG10275" "accB" ["accB", "fabE", "b3255", "ECK3242"] 3405436 3405906 "+" "EG10275_RNA" +"EG10276" "accC" ["accC", "fabG", "b3256", "ECK3243"] 3405917 3407266 "+" "EG10276_RNA" +"EG10277" "fabH" ["fabH", "b1091", "ECK1077"] 1148759 1149712 "+" "EG10277_RNA" +"EG10278" "fadA" ["fadA", "oldA", "b3845", "ECK3837"] 4027609 4028772 "-" "EG10278_RNA" +"EG10279" "fadB" ["fadB", "oldB", "b3846", "ECK3838"] 4028782 4030971 "-" "EG10279_RNA" +"EG10280" "fadL" ["fadL", "ttr", "b2344", "ECK2338"] 2461306 2462646 "+" "EG10280_RNA" +"EG10281" "fadR" ["fadR", "dec", "ole", "oleR", "thdB", "b1187", "ECK1175"] 1234938 1235657 "+" "EG10281_RNA" +"EG10282" "fbaA" ["fbaA", "ald", "fba", "fda", "b2925", "ECK2921"] 3070165 3071244 "-" "EG10282_RNA" +"EG10283" "fbp" ["fbp", "fdp", "b4232", "ECK4227"] 4454611 4455609 "-" "EG10283_RNA" +"EG10284" "fdhE" ["fdhE", "b3891", "ECK3884"] 4080299 4081228 "-" "EG10284_RNA" +"EG10285" "fdhF" ["fdhF", "chlF", "b4079", "ECK4072"] 4297219 4299366 "-" "EG10285_RNA" +"EG10286" "fecA" ["fecA", "b4291", "ECK4281"] 4514353 4516677 "-" "EG10286_RNA" +"EG10287" "fecB" ["fecB", "b4290", "ECK4280"] 4513406 4514308 "-" "EG10287_RNA" +"EG10288" "fecC" ["fecC", "b4289", "ECK4279"] 4512411 4513409 "-" "EG10288_RNA" +"EG10289" "fecD" ["fecD", "b4288", "ECK4278"] 4511458 4512414 "-" "EG10289_RNA" +"EG10290" "fecE" ["fecE", "b4287", "ECK4277"] 4510690 4511457 "-" "EG10290_RNA" +"EG10291" "fecI" ["fecI", "b4293", "ECK4283"] 4517714 4518235 "-" "EG10291_RNA" +"EG10292" "fecR" ["fecR", "b4292", "ECK4282"] 4516764 4517717 "-" "EG10292_RNA" +"EG10293" "fepA" ["fepA", "cbr", "cbt", "fep", "feuB", "b0584", "ECK0576"] 610254 612494 "-" "EG10293_RNA" +"EG10294" "fepB" ["fepB", "b0592", "ECK0585"] 623554 624510 "-" "EG10294_RNA" +"EG10295" "fepC" ["fepC", "b0588", "ECK0581"] 619384 620199 "-" "EG10295_RNA" +"EG10296" "fepD" ["fepD", "b0590", "ECK0583"] 621185 622189 "-" "EG10296_RNA" +"EG10297" "fepE" ["fepE", "b0587", "ECK0580"] 618254 619387 "+" "EG10297_RNA" +"EG10298" "fepG" ["fepG", "b0589", "ECK0582"] 620196 621188 "-" "EG10298_RNA" +"EG10299" "fes" ["fes", "b0585", "ECK0577"] 612737 613939 "+" "EG10299_RNA" +"EG10300" "ffh" ["ffh", "b2610", "ECK2607"] 2746434 2747795 "-" "EG10300_RNA" +"EG10301" "fhlA" ["fhlA", "fhl", "b2731", "ECK2726"] 2854338 2856416 "+" "EG10301_RNA" +"EG10302" "fhuA" ["fhuA", "T1", "T5rec", "tonA", "b0150", "ECK0149"] 167484 169727 "+" "EG10302_RNA" +"EG10303" "fhuB" ["fhuB", "b0153", "ECK0152"] 171462 173444 "+" "EG10303_RNA" +"EG10304" "fhuC" ["fhuC", "b0151", "ECK0150"] 169778 170575 "+" "EG10304_RNA" +"EG10305" "fhuD" ["fhuD", "b0152", "ECK0151"] 170575 171465 "+" "EG10305_RNA" +"EG10306" "fhuE" ["fhuE", "b1102", "ECK1088"] 1159362 1161551 "-" "EG10306_RNA" +"EG10307" "fic" ["fic", "ficT", "b3361", "ECK3349"] 3490861 3491463 "-" "EG10307_RNA" +"EG10308" "fimA" ["fimA", "fimD", "pilA", "b4314", "ECK4305"] 4543115 4543663 "+" "EG10308_RNA" +"EG10309" "fimB" ["fimB", "pil", "b4312", "ECK4303"] 4540957 4541559 "+" "EG10309_RNA" +"EG10310" "fimC" ["fimC", "pilB", "b4316", "ECK4307"] 4544304 4545029 "+" "EG10310_RNA" +"EG10311" "fimD" ["fimD", "fimD_1", "fimD_2", "b4317", "ECK4308"] 4545096 4547732 "+" "EG10311_RNA" +"EG10312" "fimE" ["fimE", "hyp", "pilH", "b4313", "ECK4304"] 4542037 4542633 "+" "EG10312_RNA" +"EG10313" "fimF" ["fimF", "b4318", "ECK4309"] 4547742 4548272 "+" "EG10313_RNA" +"EG10314" "fimG" ["fimG", "b4319", "ECK4310"] 4548285 4548788 "+" "EG10314_RNA" +"EG10315" "fimH" ["fimH", "pilE", "b4320", "ECK4311"] 4548808 4549710 "+" "EG10315_RNA" +"EG10316" "lpxD" ["lpxD", "omsA", "firA", "b0179", "ECK0178"] 200971 201996 "+" "EG10316_RNA" +"EG10317" "fis" ["fis", "nbp", "b3261", "ECK3248"] 3411271 3411567 "+" "EG10317_RNA" +"EG10318" "fldA" ["fldA", "b0684", "ECK0672"] 710935 711465 "-" "EG10318_RNA" +"EG10319" "flhC" ["flhC", "flaI", "b1891", "ECK1892"] 1977266 1977844 "-" "EG10319_RNA" +"EG10320" "flhD" ["flhD", "flbB", "b1892", "ECK1893"] 1977847 1978197 "-" "EG10320_RNA" +"EG10321" "fliC" ["fliC", "H", "flaF", "hag", "b1923", "ECK1922"] 2002110 2003606 "-" "EG10321_RNA" +"EG10322" "fliL" ["fliL", "flaQI", "flaAI", "cheC1", "b1944", "ECK1942"] 2019618 2020082 "+" "EG10322_RNA" +"EG10323" "fliM" ["fliM", "flaQ", "fla", "flaQII", "flaAII", "flaA", "cheC2", "b1945", "ECK1943"] 2020087 2021091 "+" "EG10323_RNA" +"EG10324" "fliN" ["fliN", "motD", "b1946", "ECK1944"] 2021088 2021501 "+" "EG10324_RNA" +"EG10325" "fnr" ["fnr", "nirA", "nirR", "ossA", "oxrA", "b1334", "ECK1330"] 1398774 1399526 "-" "EG10325_RNA" +"EG10326" "folA" ["folA", "tmr", "tmrA", "b0048", "ECK0049"] 49823 50302 "+" "EG10326_RNA" +"EG10327" "folC" ["folC", "dedC", "b2315", "ECK2309"] 2431674 2432942 "-" "EG10327_RNA" +"EG10328" "folD" ["folD", "ads", "b0529", "ECK0522"] 556875 557741 "-" "EG10328_RNA" +"EG10329" "mutM" ["mutM", "fpg", "b3635", "ECK3625"] 3810343 3811152 "-" "EG10329_RNA" +"EG10330" "frdA" ["frdA", "b4154", "ECK4150"] 4380510 4382318 "-" "EG10330_RNA" +"EG10331" "frdB" ["frdB", "b4153", "ECK4149"] 4379783 4380517 "-" "EG10331_RNA" +"EG10332" "frdC" ["frdC", "b4152", "ECK4148"] 4379377 4379772 "-" "EG10332_RNA" +"EG10333" "frdD" ["frdD", "b4151", "ECK4147"] 4379007 4379366 "-" "EG10333_RNA" +"EG10334" "fre" ["fre", "fadI", "flrD", "fsrC", "b3844", "ECK3836"] 4026527 4027228 "+" "EG10334_RNA" +"EG10335" "frr" ["frr", "rrf", "b0172", "ECK0171"] 192872 193429 "+" "EG10335_RNA" +"EG10336" "fruA" ["fruA", "ptsF", "b2167", "ECK2160"] 2259719 2261410 "-" "EG10336_RNA" +"EG10337" "fruK" ["fruK", "fpk", "b2168", "ECK2161"] 2261427 2262365 "-" "EG10337_RNA" +"EG10338" "cra" ["cra", "fruR", "fruC", "shl", "b0080", "ECK0081"] 88028 89032 "+" "EG10338_RNA" +"EG10339" "ftsA" ["ftsA", "divA", "b0094", "ECK0095"] 103982 105244 "+" "EG10339_RNA" +"EG10340" "ftsE" ["ftsE", "b3463", "ECK3447"] 3602079 3602747 "-" "EG10340_RNA" +"EG10341" "ftsI" ["ftsI", "pbpB", "sep", "b0084", "ECK0085"] 91413 93179 "+" "EG10341_RNA" +"EG10342" "ftsQ" ["ftsQ", "b0093", "ECK0094"] 103155 103985 "+" "EG10342_RNA" +"EG10343" "rsmD" ["rsmD", "yhhF", "b3465", "ECK3449"] 3604393 3604989 "+" "EG10343_RNA" +"EG10344" "ftsW" ["ftsW", "b0089", "ECK0090"] 98403 99647 "+" "EG10344_RNA" +"EG10345" "ftsX" ["ftsX", "ftsS", "b3462", "ECK3446"] 3601028 3602086 "-" "EG10345_RNA" +"EG10346" "ftsY" ["ftsY", "b3464", "ECK3448"] 3602750 3604243 "-" "EG10346_RNA" +"EG10347" "ftsZ" ["ftsZ", "sfiB", "sulB", "b0095", "ECK0096"] 105305 106456 "+" "EG10347_RNA" +"EG10348" "fucA" ["fucA", "fucC", "prd", "b2800", "ECK2795"] 2933041 2933688 "-" "EG10348_RNA" +"EG10349" "fucI" ["fucI", "b2802", "ECK2797"] 2935584 2937359 "+" "EG10349_RNA" +"EG10350" "fucK" ["fucK", "b2803", "ECK2798"] 2937468 2938886 "+" "EG10350_RNA" +"EG10351" "fucO" ["fucO", "b2799", "ECK2794"] 2931865 2933013 "-" "EG10351_RNA" +"EG10352" "fucP" ["fucP", "b2801", "ECK2796"] 2934235 2935551 "+" "EG10352_RNA" +"EG10353" "fucR" ["fucR", "b2805", "ECK2800"] 2939368 2940099 "+" "EG10353_RNA" +"EG10355" "fucU" ["fucU", "b2804", "ECK2799"] 2938888 2939310 "+" "EG10355_RNA" +"EG10356" "fumA" ["fumA", "b1612", "ECK1607"] 1686731 1688377 "-" "EG10356_RNA" +"EG10357" "fumB" ["fumB", "b4122", "ECK4115"] 4345680 4347326 "-" "EG10357_RNA" +"EG10358" "fumC" ["fumC", "b1611", "ECK1606"] 1685185 1686588 "-" "EG10358_RNA" +"EG10359" "fur" ["fur", "b0683", "ECK0671"] 710200 710646 "-" "EG10359_RNA" +"EG10360" "fusA" ["fusA", "far", "fus", "b3340", "ECK3327"] 3471400 3473514 "-" "EG10360_RNA" +"EG10361" "gabT" ["gabT", "b2662", "ECK2656"] 2792735 2794015 "+" "EG10361_RNA" +"EG10362" "galE" ["galE", "galD", "b0759", "ECK0748"] 791039 792055 "-" "EG10362_RNA" +"EG10363" "galK" ["galK", "galA", "b0757", "ECK0746"] 788831 789979 "-" "EG10363_RNA" +"EG10364" "galR" ["galR", "Rgal", "b2837", "ECK2835"] 2976599 2977630 "+" "EG10364_RNA" +"EG10365" "galS" ["galS", "mglD", "b2151", "ECK2144"] 2240628 2241668 "-" "EG10365_RNA" +"EG10366" "galT" ["galT", "galB", "b0758", "ECK0747"] 789983 791029 "-" "EG10366_RNA" +"EG10367" "gapA" ["gapA", "gad", "gap1", "b1779", "ECK1777"] 1862771 1863766 "+" "EG10367_RNA" +"EG10368" "epd" ["epd", "gapB", "gap2", "b2927", "ECK2923"] 3072672 3073691 "-" "EG10368_RNA" +"EG10369" "gcd" ["gcd", "b0124", "ECK0123"] 138835 141225 "-" "EG10369_RNA" +"EG10370" "ispG" ["ispG", "gcpE", "b2515", "ECK2511"] 2640686 2641804 "-" "EG10370_RNA" +"EG10371" "gcvH" ["gcvH", "gcv", "b2904", "ECK2899"] 3049160 3049549 "-" "EG10371_RNA" +"EG10372" "gdhA" ["gdhA", "b1761", "ECK1759"] 1842371 1843714 "+" "EG10372_RNA" +"EG10373" "mokC" ["mokC", "gefL", "b0018", "ECK0018"] 16751 16960 "-" "EG10373_RNA" +"EG10374" "ggt" ["ggt", "b3447", "ECK3431"] 3585081 3586823 "-" "EG10374_RNA" +"EG10375" "mnmG" ["mnmG", "gidA", "trmF", "b3741", "ECK3734"] 3923744 3925633 "-" "EG10375_RNA" +"EG10376" "rsmG" ["rsmG", "gidB", "b3740", "ECK3733"] 3923057 3923680 "-" "EG10376_RNA" +"EG10377" "glgA" ["glgA", "b3429", "ECK3415"] 3566600 3568033 "-" "EG10377_RNA" +"EG10378" "glgB" ["glgB", "b3432", "ECK3418"] 3571316 3573502 "-" "EG10378_RNA" +"EG10379" "glgC" ["glgC", "b3430", "ECK3416"] 3568033 3569328 "-" "EG10379_RNA" +"EG10380" "glgP" ["glgP", "glgY", "b3428", "ECK3414"] 3564134 3566581 "-" "EG10380_RNA" +"EG10381" "glgX" ["glgX", "b3431", "ECK3417"] 3569346 3571319 "-" "EG10381_RNA" +"EG10382" "glmS" ["glmS", "b3729", "ECK3722"] 3911839 3913668 "-" "EG10382_RNA" +"EG10383" "glnA" ["glnA", "b3870", "ECK3863"] 4056625 4058034 "-" "EG10383_RNA" +"EG10384" "glnB" ["glnB", "b2553", "ECK2550"] 2687070 2687408 "-" "EG10384_RNA" +"EG10385" "glnG" ["glnG", "glnT", "ntrC", "b3868", "ECK3861"] 4053869 4055278 "-" "EG10385_RNA" +"EG10386" "glnH" ["glnH", "b0811", "ECK0800"] 847258 848004 "-" "EG10386_RNA" +"EG10387" "glnL" ["glnL", "glnR", "ntrB", "b3869", "ECK3862"] 4055290 4056339 "-" "EG10387_RNA" +"EG10388" "glnP" ["glnP", "b0810", "ECK0799"] 846460 847119 "-" "EG10388_RNA" +"EG10389" "glnQ" ["glnQ", "b0809", "ECK0798"] 845741 846463 "-" "EG10389_RNA" +"EG10390" "glnS" ["glnS", "b0680", "ECK0668"] 706093 707757 "+" "EG10390_RNA" +"EG10391" "glpA" ["glpA", "b2241", "ECK2233"] 2352647 2354275 "+" "EG10391_RNA" +"EG10392" "glpB" ["glpB", "psi-51", "b2242", "ECK2234"] 2354265 2355524 "+" "EG10392_RNA" +"EG10393" "glpC" ["glpC", "b2243", "ECK2235"] 2355521 2356711 "+" "EG10393_RNA" +"EG10394" "glpD" ["glpD", "glyD", "b3426", "ECK3412"] 3562013 3563518 "+" "EG10394_RNA" +"EG10395" "glpE" ["glpE", "b3425", "ECK3411"] 3561497 3561823 "-" "EG10395_RNA" +"EG10396" "glpF" ["glpF", "b3927", "ECK3919"] 4117245 4118090 "-" "EG10396_RNA" +"EG10397" "glpG" ["glpG", "b3424", "ECK3410"] 3560622 3561452 "-" "EG10397_RNA" +"EG10398" "glpK" ["glpK", "b3926", "ECK3918"] 4115714 4117222 "-" "EG10398_RNA" +"EG10399" "glpQ" ["glpQ", "b2239", "ECK2231"] 2349935 2351011 "-" "EG10399_RNA" +"EG10400" "glpR" ["glpR", "b3423", "ECK3409"] 3559848 3560605 "-" "EG10400_RNA" +"EG10401" "glpT" ["glpT", "b2240", "ECK2232"] 2351016 2352374 "-" "EG10401_RNA" +"EG10402" "gltA" ["gltA", "gluT", "icdB", "b0720", "ECK0709"] 753185 754468 "-" "EG10402_RNA" +"EG10403" "gltB" ["gltB", "psiQ", "ossB", "aspB", "b3212", "ECK3202"] 3354725 3359185 "+" "EG10403_RNA" +"EG10404" "gltD" ["gltD", "psiQ", "ossB", "aspB", "b3213", "ECK3203"] 3359198 3360616 "+" "EG10404_RNA" +"EG10405" "gltP" ["gltP", "b4077", "ECK4070"] 4294481 4295794 "+" "EG10405_RNA" +"EG10406" "gltS" ["gltS", "gltC", "b3653", "ECK3643"] 3827460 3828665 "-" "EG10406_RNA" +"EG10407" "gltX" ["gltX", "gltM", "gluRS", "b2400", "ECK2394"] 2519257 2520672 "-" "EG10407_RNA" +"EG10408" "glyA" ["glyA", "b2551", "ECK2548"] 2684254 2685507 "-" "EG10408_RNA" +"EG10409" "glyQ" ["glyQ", "cfcA", "glyS(A)", "b3560", "ECK3548"] 3724407 3725318 "-" "EG10409_RNA" +"EG10410" "glyS" ["glyS", "glyS(B)", "gly", "gly-act", "b3559", "ECK3547"] 3722328 3724397 "-" "EG10410_RNA" +"EG10411" "gnd" ["gnd", "b2029", "ECK2024"] 2099862 2101268 "-" "EG10411_RNA" +"EG10412" "gor" ["gor", "gorA", "b3500", "ECK3485"] 3646299 3647651 "+" "EG10412_RNA" +"EG10413" "gpp" ["gpp", "gppA", "b3779", "ECK3771"] 3962745 3964229 "-" "EG10413_RNA" +"EG10414" "gpt" ["gpt", "glyD", "gpp", "gxu", "b0238", "ECK0239"] 255977 256435 "+" "EG10414_RNA" +"EG10415" "greA" ["greA", "b3181", "ECK3170"] 3328239 3328715 "-" "EG10415_RNA" +"EG10416" "grpE" ["grpE", "b2614", "ECK2610"] 2750115 2750708 "-" "EG10416_RNA" +"EG10417" "grxA" ["grxA", "grx", "b0849", "ECK0840"] 890496 890753 "-" "EG10417_RNA" +"EG10418" "gshA" ["gshA", "gsh-I", "b2688", "ECK2683"] 2814883 2816439 "-" "EG10418_RNA" +"EG10419" "gshB" ["gshB", "gsh-II", "b2947", "ECK2942"] 3091878 3092828 "+" "EG10419_RNA" +"EG10420" "guaA" ["guaA", "b2507", "ECK2503"] 2630958 2632535 "-" "EG10420_RNA" +"EG10421" "guaB" ["guaB", "guaR", "b2508", "ECK2504"] 2632604 2634070 "-" "EG10421_RNA" +"EG10422" "guaC" ["guaC", "b0104", "ECK0104"] 113444 114487 "+" "EG10422_RNA" +"EG10423" "gyrA" ["gyrA", "hisW", "nalA", "nfxA", "norA", "parD", "b2231", "ECK2223"] 2336793 2339420 "-" "EG10423_RNA" +"EG10424" "gyrB" ["gyrB", "cou", "hopA", "pcpA", "pcbA", "parA", "nalC", "Cou", "acrB", "himB", "hisU", "b3699", "ECK3691"] 3877705 3880119 "-" "EG10424_RNA" +"EG10425" "hdhA" ["hdhA", "hsd", "hsdH", "b1619", "ECK1614"] 1697273 1698040 "-" "EG10425_RNA" +"EG10426" "helD" ["helD", "srjB", "b0962", "ECK0953"] 1024471 1026525 "+" "EG10426_RNA" +"EG10427" "hemA" ["hemA", "gtrA", "b1210", "ECK1198"] 1263714 1264970 "+" "EG10427_RNA" +"EG10428" "hemB" ["hemB", "ncf", "b0369", "ECK0366"] 388753 389727 "-" "EG10428_RNA" +"EG10429" "hemC" ["hemC", "popE", "b3805", "ECK3799"] 3989825 3990766 "-" "EG10429_RNA" +"EG10430" "hemD" ["hemD", "b3804", "ECK3798"] 3989088 3989828 "-" "EG10430_RNA" +"EG10431" "hemH" ["hemH", "popA", "visA", "b0475", "ECK0469"] 498055 499017 "+" "EG10431_RNA" +"EG10432" "hemL" ["hemL", "gsa", "popC", "b0154", "ECK0153"] 173602 174882 "-" "EG10432_RNA" +"EG10433" "hemX" ["hemX", "b3803", "ECK3797"] 3987885 3989066 "-" "EG10433_RNA" +"EG10434" "hemY" ["hemY", "b3802", "ECK3796"] 3986686 3987882 "-" "EG10434_RNA" +"EG10435" "hflC" ["hflC", "hflA", "b4175", "ECK4171"] 4403300 4404304 "+" "EG10435_RNA" +"EG10436" "hflK" ["hflK", "hslY", "hflA", "b4174", "ECK4170"] 4402038 4403297 "+" "EG10436_RNA" +"EG10437" "hflX" ["hflX", "hslX", "hflA", "b4173", "ECK4169"] 4400672 4401952 "+" "EG10437_RNA" +"EG10438" "hfq" ["hfq", "b4172", "ECK4168"] 4400288 4400596 "+" "EG10438_RNA" +"EG10439" "hha" ["hha", "b0460", "ECK0454"] 480090 480308 "-" "EG10439_RNA" +"EG10440" "ihfA" ["ihfA", "hid", "himA", "b1712", "ECK1710"] 1795253 1795552 "-" "EG10440_RNA" +"EG10441" "ihfB" ["ihfB", "hip", "himD", "b0912", "ECK0903"] 963828 964112 "+" "EG10441_RNA" +"EG10442" "hipB" ["hipB", "b1508", "ECK1501"] 1592176 1592442 "-" "EG10442_RNA" +"EG10443" "hipA" ["hipA", "b1507", "ECK1500"] 1590854 1592176 "-" "EG10443_RNA" +"EG10444" "hisA" ["hisA", "b2024", "ECK2019"] 2095125 2095862 "+" "EG10444_RNA" +"EG10445" "hisB" ["hisB", "b2022", "ECK2017"] 2093468 2094535 "+" "EG10445_RNA" +"EG10446" "hisC" ["hisC", "b2021", "ECK2016"] 2092398 2093468 "+" "EG10446_RNA" +"EG10447" "hisD" ["hisD", "b2020", "ECK2015"] 2091097 2092401 "+" "EG10447_RNA" +"EG10448" "hisF" ["hisF", "b2025", "ECK2020"] 2095844 2096620 "+" "EG10448_RNA" +"EG10449" "hisG" ["hisG", "b2019", "ECK2014"] 2090192 2091091 "+" "EG10449_RNA" +"EG10450" "hisH" ["hisH", "b2023", "ECK2018"] 2094535 2095125 "+" "EG10450_RNA" +"EG10451" "hisI" ["hisI", "hisE", "hisIE", "b2026", "ECK2021"] 2096614 2097225 "+" "EG10451_RNA" +"EG10452" "hisP" ["hisP", "b2306", "ECK2300"] 2423736 2424509 "-" "EG10452_RNA" +"EG10453" "hisS" ["hisS", "b2514", "ECK2510"] 2639301 2640575 "-" "EG10453_RNA" +"EG10454" "truA" ["truA", "asuC", "hisT", "leuK", "b2318", "ECK2312"] 2434824 2435636 "-" "EG10454_RNA" +"EG10455" "skp" ["skp", "ompH", "hlpA", "firA", "b0178", "ECK0177"] 200482 200967 "+" "EG10455_RNA" +"EG10456" "hmp" ["hmp", "fsrB", "hmpA", "b2552", "ECK2549"] 2685835 2687025 "+" "EG10456_RNA" +"EG10457" "hns" ["hns", "B1", "H1", "virR", "topX", "topS", "pilG", "osmZ", "msyA", "irk", "hnsA", "bglY", "cur", "drc", "drdX", "drs", "fimG", "b1237", "ECK1232"] 1292509 1292922 "-" "EG10457_RNA" +"EG10458" "hsdM" ["hsdM", "hsm", "hsp", "b4349", "ECK4339"] 4581459 4583048 "-" "EG10458_RNA" +"EG10459" "hsdR" ["hsdR", "hsp", "hsr", "b4350", "ECK4340"] 4583249 4586761 "-" "EG10459_RNA" +"EG10460" "hsdS" ["hsdS", "hsp", "hss", "rm", "b4348", "ECK4338"] 4580068 4581462 "-" "EG10460_RNA" +"EG10461" "htpG" ["htpG", "b0473", "ECK0467"] 495120 496994 "+" "EG10461_RNA" +"EG10462" "htpX" ["htpX", "b1829", "ECK1828"] 1911695 1912576 "-" "EG10462_RNA" +"EG10463" "degP" ["degP", "htrA", "ptd", "b0161", "ECK0160"] 180884 182308 "+" "EG10463_RNA" +"EG10464" "lpxL" ["lpxL", "htrB", "waaM", "b1054", "ECK1039"] 1115662 1116582 "-" "EG10464_RNA" +"EG10465" "ribB" ["ribB", "luxH", "htrP", "luxH-l", "b3041", "ECK3032"] 3183813 3184466 "-" "EG10465_RNA" +"EG10466" "hupA" ["hupA", "b4000", "ECK3992"] 4200281 4200553 "+" "EG10466_RNA" +"EG10467" "hupB" ["hupB", "dpeA", "dbhB", "hopD", "b0440", "ECK0434"] 461451 461723 "+" "EG10467_RNA" +"EG10468" "hyaA" ["hyaA", "b0972", "ECK0963"] 1032139 1033257 "+" "EG10468_RNA" +"EG10469" "hyaB" ["hyaB", "b0973", "ECK0964"] 1033254 1035047 "+" "EG10469_RNA" +"EG10470" "hyaC" ["hyaC", "cybH", "b0974", "ECK0965"] 1035066 1035773 "+" "EG10470_RNA" +"EG10471" "hyaD" ["hyaD", "b0975", "ECK0966"] 1035770 1036357 "+" "EG10471_RNA" +"EG10472" "hyaE" ["hyaE", "b0976", "ECK0967"] 1036354 1036752 "+" "EG10472_RNA" +"EG10473" "hyaF" ["hyaF", "b0977", "ECK0968"] 1036749 1037606 "+" "EG10473_RNA" +"EG10474" "hycA" ["hycA", "hevA", "b2725", "ECK2720"] 2849974 2850435 "-" "EG10474_RNA" +"EG10475" "hycB" ["hycB", "hevB", "b2724", "ECK2719"] 2849238 2849849 "-" "EG10475_RNA" +"EG10476" "hycC" ["hycC", "hevC", "b2723", "ECK2718"] 2847415 2849241 "-" "EG10476_RNA" +"EG10477" "hycD" ["hycD", "hevD", "b2722", "ECK2717"] 2846489 2847412 "-" "EG10477_RNA" +"EG10478" "hycE" ["hycE", "hevE", "b2721", "ECK2716"] 2844762 2846471 "-" "EG10478_RNA" +"EG10479" "hycF" ["hycF", "hevF", "b2720", "ECK2715"] 2844210 2844752 "-" "EG10479_RNA" +"EG10480" "hycG" ["hycG", "hevG", "b2719", "ECK2714"] 2843443 2844210 "-" "EG10480_RNA" +"EG10481" "hycH" ["hycH", "hevH", "b2718", "ECK2713"] 2843036 2843446 "-" "EG10481_RNA" +"EG10482" "zraR" ["zraR", "hydG", "b4004", "ECK3996"] 4203320 4204645 "+" "EG10482_RNA" +"EG10483" "hypA" ["hypA", "b2726", "ECK2721"] 2850647 2850997 "+" "EG10483_RNA" +"EG10484" "hypB" ["hypB", "hydB", "b2727", "ECK2722"] 2851001 2851873 "+" "EG10484_RNA" +"EG10485" "hypC" ["hypC", "b2728", "ECK2723"] 2851864 2852136 "+" "EG10485_RNA" +"EG10486" "hypD" ["hypD", "hydF", "b2729", "ECK2724"] 2852136 2853257 "+" "EG10486_RNA" +"EG10487" "hypE" ["hypE", "hydB", "b2730", "ECK2725"] 2853254 2854264 "+" "EG10487_RNA" +"EG10488" "iap" ["iap", "b2753", "ECK2748"] 2876581 2877618 "+" "EG10488_RNA" +"EG10489" "icd" ["icd", "icdE", "icdA", "b1136", "ECK1122"] 1195123 1196373 "+" "EG10489_RNA" +"EG10490" "argP" ["argP", "iciA", "b2916", "ECK2912"] 3059753 3060646 "+" "EG10490_RNA" +"EG10491" "iclR" ["iclR", "b4018", "ECK4010"] 4222804 4223628 "-" "EG10491_RNA" +"EG10492" "ileS" ["ileS", "ilvS", "b0026", "ECK0027"] 22391 25207 "+" "EG10492_RNA" +"EG10493" "ilvA" ["ilvA", "ile", "b3772", "ECK3764"] 3955331 3956875 "+" "EG10493_RNA" +"EG10494" "ilvB" ["ilvB", "b3671", "ECK3662"] 3851096 3852784 "-" "EG10494_RNA" +"EG10495" "ilvC" ["ilvC", "b3774", "ECK3766"] 3957970 3959445 "+" "EG10495_RNA" +"EG10496" "ilvD" ["ilvD", "b3771", "ECK3763"] 3953478 3955328 "+" "EG10496_RNA" +"EG10497" "ilvE" ["ilvE", "b3770", "ECK3762"] 3952484 3953413 "+" "EG10497_RNA" +"EG10499" "ilvH" ["ilvH", "brnP", "b0078", "ECK0080"] 87357 87848 "+" "EG10499_RNA" +"EG10500" "ilvI" ["ilvI", "b0077", "ECK0079"] 85630 87354 "+" "EG10500_RNA" +"EG10501" "ilvM" ["ilvM", "b3769", "ECK3761"] 3952201 3952464 "+" "EG10501_RNA" +"EG10502" "ilvN" ["ilvN", "b3670", "ECK3661"] 3850802 3851092 "-" "EG10502_RNA" +"EG10503" "ilvY" ["ilvY", "b3773", "ECK3765"] 3956927 3957820 "-" "EG10503_RNA" +"EG10504" "infA" ["infA", "bypA1", "b0884", "ECK0875"] 926225 926443 "-" "EG10504_RNA" +"EG10505" "infB" ["infB", "ssyG", "b3168", "ECK3157"] 3313342 3316014 "-" "EG10505_RNA" +"EG10506" "infC" ["infC", "fit", "srjA", "b1718", "ECK1716"] 1800096 1800638 "-" "EG10506_RNA" +"EG10507" "intD" ["intD", "int", "b0537", "ECK0530"] 564815 565978 "-" "EG10507_RNA" +"EG10508" "ispA" ["ispA", "b0421", "ECK0415"] 440202 441101 "-" "EG10508_RNA" +"EG10509" "katE" ["katE", "b1732", "ECK1730"] 1813867 1816128 "+" "EG10509_RNA" +"EG10510" "rpoS" ["rpoS", "sigS", "otsX", "abrD", "appR", "csi2", "dpeB", "katF", "nur", "b2741", "ECK2736"] 2866559 2867551 "-" "EG10510_RNA" +"EG10511" "katG" ["katG", "b3942", "ECK3934"] 4133835 4136015 "+" "EG10511_RNA" +"EG10512" "kbl" ["kbl", "b3617", "ECK3607"] 3791355 3792551 "-" "EG10512_RNA" +"EG10513" "kdpA" ["kdpA", "kac", "b0698", "ECK0686"] 727059 728732 "-" "EG10513_RNA" +"EG10514" "kdpB" ["kdpB", "kac", "b0697", "ECK0685"] 724988 727036 "-" "EG10514_RNA" +"EG10515" "kdpC" ["kdpC", "kac", "b0696", "ECK0684"] 724407 724979 "-" "EG10515_RNA" +"EG10516" "kdpD" ["kdpD", "kac", "b0695", "ECK0683"] 721730 724414 "-" "EG10516_RNA" +"EG10517" "kdpE" ["kdpE", "b0694", "ECK0682"] 721056 721733 "-" "EG10517_RNA" +"EG10518" "kdsA" ["kdsA", "b1215", "ECK1203"] 1268165 1269019 "+" "EG10518_RNA" +"EG10519" "kdsB" ["kdsB", "b0918", "ECK0909"] 970852 971598 "+" "EG10519_RNA" +"EG10520" "waaA" ["waaA", "kdtA", "b3633", "ECK3623"] 3808540 3809817 "+" "EG10520_RNA" +"EG10521" "kefC" ["kefC", "trkC", "b0047", "ECK0048"] 47769 49631 "+" "EG10521_RNA" +"EG10522" "kgtP" ["kgtP", "witA", "b2587", "ECK2585"] 2724448 2725746 "-" "EG10522_RNA" +"EG10523" "rsmA" ["rsmA", "ksgA", "b0051", "ECK0052"] 51609 52430 "-" "EG10523_RNA" +"EG10524" "lacA" ["lacA", "b0342", "ECK0339"] 361249 361860 "-" "EG10524_RNA" +"EG10525" "lacI" ["lacI", "b0345", "ECK0342"] 366428 367510 "-" "EG10525_RNA" +"EG10526" "lacY" ["lacY", "b0343", "ECK0340"] 361926 363179 "-" "EG10526_RNA" +"EG10527" "lacZ" ["lacZ", "b0344", "ECK0341"] 363231 366305 "-" "EG10527_RNA" +"EG10528" "lamB" ["lamB", "malL", "malB", "b4036", "ECK4028"] 4247971 4249311 "+" "EG10528_RNA" +"EG10529" "lepA" ["lepA", "b2569", "ECK2567"] 2705325 2707124 "-" "EG10529_RNA" +"EG10530" "lepB" ["lepB", "lep", "b2568", "ECK2566"] 2704335 2705309 "-" "EG10530_RNA" +"EG10531" "leuO" ["leuO", "b0076", "ECK0078"] 84368 85312 "+" "EG10531_RNA" +"EG10532" "leuS" ["leuS", "syl", "b0642", "ECK0635"] 672201 674783 "-" "EG10532_RNA" +"EG10533" "lexA" ["lexA", "exrA", "spr", "tsl", "umuA", "b4043", "ECK4035"] 4257115 4257723 "+" "EG10533_RNA" +"EG10534" "ligA" ["ligA", "dnaL", "lig", "lop", "pdeC", "b2411", "ECK2406"] 2528161 2530176 "-" "EG10534_RNA" +"EG10535" "lit" ["lit", "b1139", "ECK1125"] 1198695 1199588 "+" "EG10535_RNA" +"EG10536" "livF" ["livF", "b3454", "ECK3438"] 3592724 3593437 "-" "EG10536_RNA" +"EG10537" "livG" ["livG", "hrbD", "hrbC", "hrbB", "b3455", "ECK3439"] 3593439 3594206 "-" "EG10537_RNA" +"EG10538" "livH" ["livH", "hrbD", "hrbC", "hrbB", "b3457", "ECK3441"] 3595477 3596403 "-" "EG10538_RNA" +"EG10539" "livJ" ["livJ", "hrbD", "hrbC", "hrbB", "b3460", "ECK3444"] 3598555 3599658 "-" "EG10539_RNA" +"EG10540" "livK" ["livK", "hrbD", "hrbC", "hrbB", "b3458", "ECK3442"] 3596451 3597560 "-" "EG10540_RNA" +"EG10541" "livM" ["livM", "b3456", "ECK3440"] 3594203 3595480 "-" "EG10541_RNA" +"EG10542" "lon" ["lon", "capR", "deg", "dir", "lopA", "muc", "b0439", "ECK0433"] 458888 461242 "+" "EG10542_RNA" +"EG10543" "lpd" ["lpd", "dhl", "lpdA", "b0116", "ECK0115"] 127912 129336 "+" "EG10543_RNA" +"EG10544" "lpp" ["lpp", "mlpA", "b1677", "ECK1673"] 1757421 1757657 "+" "EG10544_RNA" +"EG10545" "lpxA" ["lpxA", "b0181", "ECK0180"] 202560 203348 "+" "EG10545_RNA" +"EG10546" "lpxB" ["lpxB", "pgsB", "b0182", "ECK0181"] 203348 204496 "+" "EG10546_RNA" +"EG10547" "lrp" ["lrp", "rblA", "oppI", "mbf", "lstR", "alsB", "ihb", "livR", "lrs", "lss", "b0889", "ECK0880"] 932595 933089 "+" "EG10547_RNA" +"EG10548" "lspA" ["lspA", "lsp", "b0027", "ECK0028"] 25207 25701 "+" "EG10548_RNA" +"EG10549" "lysA" ["lysA", "b2838", "ECK2836"] 2977637 2978899 "-" "EG10549_RNA" +"EG10550" "lysC" ["lysC", "apk", "b4024", "ECK4016"] 4231884 4233233 "-" "EG10550_RNA" +"EG10551" "lysR" ["lysR", "b2839", "ECK2837"] 2979021 2979956 "+" "EG10551_RNA" +"EG10552" "lysS" ["lysS", "asuD", "herC", "b2890", "ECK2885"] 3033657 3035174 "-" "EG10552_RNA" +"EG10553" "lysU" ["lysU", "b4129", "ECK4123"] 4353200 4354717 "-" "EG10553_RNA" +"EG10554" "malE" ["malE", "b4034", "ECK4026"] 4245229 4246419 "-" "EG10554_RNA" +"EG10555" "malF" ["malF", "b4033", "ECK4025"] 4243531 4245075 "-" "EG10555_RNA" +"EG10556" "malG" ["malG", "b4032", "ECK4024"] 4242626 4243516 "-" "EG10556_RNA" +"EG10557" "malI" ["malI", "b1620", "ECK1615"] 1698152 1699180 "-" "EG10557_RNA" +"EG10558" "malK" ["malK", "malB", "b4035", "ECK4027"] 4246784 4247899 "+" "EG10558_RNA" +"EG10559" "malM" ["malM", "molA", "b4037", "ECK4029"] 4249554 4250474 "+" "EG10559_RNA" +"EG10560" "malP" ["malP", "malA", "blu", "b3417", "ECK3404"] 3550080 3552473 "-" "EG10560_RNA" +"EG10561" "malQ" ["malQ", "malA", "b3416", "ECK3403"] 3547986 3550070 "-" "EG10561_RNA" +"EG10562" "malT" ["malT", "malA", "b3418", "ECK3405"] 3553085 3555790 "+" "EG10562_RNA" +"EG10563" "malX" ["malX", "b1621", "ECK1616"] 1699355 1700947 "+" "EG10563_RNA" +"EG10564" "malY" ["malY", "b1622", "ECK1617"] 1700957 1702129 "+" "EG10564_RNA" +"EG10565" "malZ" ["malZ", "b0403", "ECK0397"] 422518 424332 "+" "EG10565_RNA" +"EG10566" "manA" ["manA", "pmi", "b1613", "ECK1608"] 1688576 1689751 "+" "EG10566_RNA" +"EG10567" "manX" ["manX", "gptB", "mpt", "ptsL", "ptsX", "b1817", "ECK1815"] 1902048 1903019 "+" "EG10567_RNA" +"EG10568" "manY" ["manY", "pel", "ptsP", "ptsX", "b1818", "ECK1816"] 1903082 1903882 "+" "EG10568_RNA" +"EG10569" "manZ" ["manZ", "gptB", "mpt", "ptsM", "ptsX", "b1819", "ECK1817"] 1903895 1904746 "+" "EG10569_RNA" +"EG10570" "map" ["map", "b0168", "ECK0166"] 188712 189506 "-" "EG10570_RNA" +"EG10571" "mazE" ["mazE", "chpAI", "chpR", "b2783", "ECK2777"] 2911091 2911339 "-" "EG10571_RNA" +"EG10572" "mazG" ["mazG", "b2781", "ECK2775"] 2909894 2910685 "-" "EG10572_RNA" +"EG10573" "mcrA" ["mcrA", "rglA", "b1159", "ECK1145"] 1210346 1211179 "+" "EG10573_RNA" +"EG10574" "mcrB" ["mcrB", "rglB", "b4346", "ECK4336"] 4577958 4579337 "-" "EG10574_RNA" +"EG10575" "mcrC" ["mcrC", "b4345", "ECK4335"] 4576912 4577958 "-" "EG10575_RNA" +"EG10576" "mdh" ["mdh", "b3236", "ECK3225"] 3383330 3384268 "-" "EG10576_RNA" +"EG10577" "melA" ["melA", "mel-7", "b4119", "ECK4112"] 4341911 4343266 "+" "EG10577_RNA" +"EG10578" "melB" ["melB", "mel-4", "b4120", "ECK4113"] 4343369 4344790 "+" "EG10578_RNA" +"EG10579" "menD" ["menD", "b2264", "ECK2258"] 2377589 2379259 "-" "EG10579_RNA" +"EG10580" "mepA" ["mepA", "b2328", "ECK2322"] 2445560 2446384 "-" "EG10580_RNA" +"EG10581" "metA" ["metA", "b4013", "ECK4005"] 4214280 4215209 "+" "EG10581_RNA" +"EG10582" "metB" ["metB", "met-1", "b3939", "ECK3931"] 4128672 4129832 "+" "EG10582_RNA" +"EG10583" "metC" ["metC", "b3008", "ECK3000"] 3152236 3153423 "+" "EG10583_RNA" +"EG10584" "metE" ["metE", "metB12", "b3829", "ECK3823"] 4013053 4015314 "+" "EG10584_RNA" +"EG10585" "metF" ["metF", "b3941", "ECK3933"] 4132616 4133506 "+" "EG10585_RNA" +"EG10586" "metG" ["metG", "b2114", "ECK2107"] 2194300 2196333 "+" "EG10586_RNA" +"EG10587" "metH" ["metH", "b4019", "ECK4011"] 4223828 4227511 "+" "EG10587_RNA" +"EG10588" "metJ" ["metJ", "b3938", "ECK3930"] 4128078 4128395 "-" "EG10588_RNA" +"EG10589" "metK" ["metK", "metX", "b2942", "ECK2937"] 3086706 3087860 "+" "EG10589_RNA" +"EG10590" "metL" ["metL", "metM", "b3940", "ECK3932"] 4129835 4132267 "+" "EG10590_RNA" +"EG10591" "metR" ["metR", "b3828", "ECK3822"] 4011863 4012816 "-" "EG10591_RNA" +"EG10592" "mglA" ["mglA", "mglP", "mgl", "b2149", "ECK2142"] 2237769 2239289 "-" "EG10592_RNA" +"EG10593" "mglB" ["mglB", "b2150", "ECK2143"] 2239350 2240348 "-" "EG10593_RNA" +"EG10594" "mglC" ["mglC", "mglP", "b2148", "ECK2141"] 2236743 2237753 "-" "EG10594_RNA" +"EG10595" "miaA" ["miaA", "trpX", "b4171", "ECK4167"] 4399252 4400202 "+" "EG10595_RNA" +"EG10596" "minC" ["minC", "minB", "b1176", "ECK1164"] 1225385 1226080 "-" "EG10596_RNA" +"EG10597" "minD" ["minD", "minB", "b1175", "ECK1163"] 1224549 1225361 "-" "EG10597_RNA" +"EG10598" "minE" ["minE", "minB", "b1174", "ECK1162"] 1224279 1224545 "-" "EG10598_RNA" +"EG10599" "groL" ["groL", "groEL", "mopA", "b4143", "ECK4137"] 4371025 4372671 "+" "EG10599_RNA" +"EG10600" "groS" ["groS", "groES", "mopB", "b4142", "ECK4136"] 4370688 4370981 "+" "EG10600_RNA" +"EG10601" "motA" ["motA", "flaJ", "b1890", "ECK1891"] 1976252 1977139 "-" "EG10601_RNA" +"EG10602" "motB" ["motB", "flaJ", "b1889", "ECK1890"] 1975329 1976255 "-" "EG10602_RNA" +"EG10603" "mprA" ["mprA", "emrR", "b2684", "ECK2678"] 2810770 2811300 "+" "EG10603_RNA" +"EG10604" "mraY" ["mraY", "murX", "b0087", "ECK0088"] 96002 97084 "+" "EG10604_RNA" +"EG10605" "mrcB" ["mrcB", "pbpF", "ponB", "b0149", "ECK0148"] 164730 167264 "+" "EG10605_RNA" +"EG10606" "mrdA" ["mrdA", "pbpA", "b0635", "ECK0628"] 666316 668217 "-" "EG10606_RNA" +"EG10607" "mrdB" ["mrdB", "rodA", "b0634", "ECK0627"] 665201 666313 "-" "EG10607_RNA" +"EG10608" "mreB" ["mreB", "rodY", "envB", "mon", "mreB_1", "b3251", "ECK3239"] 3400044 3401087 "-" "EG10608_RNA" +"EG10609" "mreC" ["mreC", "b3250", "ECK3238"] 3398875 3399978 "-" "EG10609_RNA" +"EG10610" "mreD" ["mreD", "b3249", "ECK3237"] 3398387 3398875 "-" "EG10610_RNA" +"EG10611" "mrp" ["mrp", "b2113", "ECK2106"] 2193059 2194168 "-" "EG10611_RNA" +"EG10612" "mrr" ["mrr", "b4351", "ECK4341"] 4586949 4587863 "+" "EG10612_RNA" +"EG10613" "msbA" ["msbA", "b0914", "ECK0905"] 966621 968369 "+" "EG10613_RNA" +"EG10614" "lpxM" ["lpxM", "mlt", "waaN", "msbB", "b1855", "ECK1856"] 1939222 1940193 "-" "EG10614_RNA" +"EG10615" "mtlA" ["mtlA", "mtlC", "b3599", "ECK3588"] 3772281 3774194 "+" "EG10615_RNA" +"EG10616" "mtlD" ["mtlD", "b3600", "ECK3589"] 3774424 3775572 "+" "EG10616_RNA" +"EG10617" "mtr" ["mtr", "b3161", "ECK3149"] 3304573 3305817 "-" "EG10617_RNA" +"EG10618" "mukB" ["mukB", "b0924", "ECK0915"] 976326 980786 "+" "EG10618_RNA" +"EG10619" "murC" ["murC", "b0091", "ECK0092"] 100765 102240 "+" "EG10619_RNA" +"EG10620" "murD" ["murD", "b0088", "ECK0089"] 97087 98403 "+" "EG10620_RNA" +"EG10621" "murE" ["murE", "b0085", "ECK0086"] 93166 94653 "+" "EG10621_RNA" +"EG10622" "murF" ["murF", "mra", "b0086", "ECK0087"] 94650 96008 "+" "EG10622_RNA" +"EG10623" "murG" ["murG", "b0090", "ECK0091"] 99644 100711 "+" "EG10623_RNA" +"EG10624" "mutH" ["mutH", "mutR", "prv", "b2831", "ECK2827"] 2969662 2970351 "+" "EG10624_RNA" +"EG10625" "mutS" ["mutS", "ant", "plm", "fdv", "b2733", "ECK2728"] 2857093 2859654 "+" "EG10625_RNA" +"EG10626" "mutT" ["mutT", "nudA", "b0099", "ECK0100"] 111044 111433 "+" "EG10626_RNA" +"EG10627" "mutY" ["mutY", "micA", "b2961", "ECK2956"] 3103013 3104065 "+" "EG10627_RNA" +"EG10628" "fpr" ["fpr", "flxR", "mvrA", "b3924", "ECK3916"] 4113726 4114472 "-" "EG10628_RNA" +"EG10629" "emrE" ["emrE", "eb", "mvrC", "b0543", "ECK0534"] 568315 568647 "+" "EG10629_RNA" +"EG10630" "nadA" ["nadA", "nicA", "b0750", "ECK0739"] 782085 783128 "+" "EG10630_RNA" +"EG10631" "nadB" ["nadB", "nic", "nicB", "b2574", "ECK2572"] 2710420 2712042 "+" "EG10631_RNA" +"EG10632" "nagA" ["nagA", "b0677", "ECK0665"] 701603 702751 "-" "EG10632_RNA" +"EG10633" "nagB" ["nagB", "glmD", "b0678", "ECK0666"] 702811 703611 "-" "EG10633_RNA" +"EG10634" "umpH" ["umpH", "nagD", "b0675", "ECK0663"] 699574 700326 "-" "EG10634_RNA" +"EG10635" "nagE" ["nagE", "pstN", "ptsN", "b0679", "ECK0667"] 703944 705890 "+" "EG10635_RNA" +"EG10636" "nagC" ["nagC", "nagR", "b0676", "ECK0664"] 700374 701594 "-" "EG10636_RNA" +"EG10637" "nanA" ["nanA", "npl", "b3225", "ECK3214"] 3372683 3373576 "-" "EG10637_RNA" +"EG10638" "narG" ["narG", "chlC", "narC", "b1224", "ECK1218"] 1279864 1283607 "+" "EG10638_RNA" +"EG10639" "narH" ["narH", "chlC", "b1225", "ECK1219"] 1283604 1285142 "+" "EG10639_RNA" +"EG10640" "narI" ["narI", "chlI", "b1227", "ECK1221"] 1285849 1286526 "+" "EG10640_RNA" +"EG10641" "narJ" ["narJ", "b1226", "ECK1220"] 1285139 1285849 "+" "EG10641_RNA" +"EG10642" "narK" ["narK", "b1223", "ECK1217"] 1277957 1279348 "+" "EG10642_RNA" +"EG10643" "narL" ["narL", "frdR", "narR", "b1221", "ECK1215"] 1275179 1275829 "-" "EG10643_RNA" +"EG10644" "narV" ["narV", "chlZ", "b1465", "ECK1459"] 1535937 1536617 "-" "EG10644_RNA" +"EG10645" "narW" ["narW", "chlZ", "b1466", "ECK1460"] 1536614 1537309 "-" "EG10645_RNA" +"EG10646" "narX" ["narX", "frdR", "narR", "frd1", "b1222", "ECK1216"] 1275822 1277618 "-" "EG10646_RNA" +"EG10647" "narY" ["narY", "chlZ", "b1467", "ECK1461"] 1537309 1538853 "-" "EG10647_RNA" +"EG10648" "narZ" ["narZ", "chlZ", "b1468", "ECK1462"] 1538850 1542590 "-" "EG10648_RNA" +"EG10649" "ndh" ["ndh", "b1109", "ECK1095"] 1166085 1167389 "+" "EG10649_RNA" +"EG10650" "ndk" ["ndk", "b2518", "ECK2514"] 2644433 2644864 "-" "EG10650_RNA" +"EG10651" "nfo" ["nfo", "b2159", "ECK2152"] 2250840 2251697 "+" "EG10651_RNA" +"EG10652" "nhaA" ["nhaA", "ant", "antA", "b0019", "ECK0020"] 17489 18655 "+" "EG10652_RNA" +"EG10653" "nirB" ["nirB", "b3365", "ECK3353"] 3494011 3496554 "+" "EG10653_RNA" +"EG10654" "nirC" ["nirC", "b3367", "ECK3355"] 3497003 3497809 "+" "EG10654_RNA" +"EG10655" "nirD" ["nirD", "b3366", "ECK3354"] 3496551 3496877 "+" "EG10655_RNA" +"EG10656" "sfsB" ["sfsB", "nlp", "sfs7", "b3188", "ECK3177"] 3334909 3335187 "+" "EG10656_RNA" +"EG10657" "nlpA" ["nlpA", "b3661", "ECK3651"] 3839175 3839993 "-" "EG10657_RNA" +"EG10658" "bamC" ["bamC", "dapX", "nlpB", "b2477", "ECK2473"] 2597831 2598865 "-" "EG10658_RNA" +"EG10659" "nmpC" ["nmpC", "phmA", "b0553", "ECK0544"] null null "-" "EG10659_RNA" +"EG10660" "nrdA" ["nrdA", "dnaF", "b2234", "ECK2226"] 2344865 2347150 "+" "EG10660_RNA" +"EG10661" "nrdB" ["nrdB", "ftsB", "b2235", "ECK2227"] 2347384 2348514 "+" "EG10661_RNA" +"EG10662" "nth" ["nth", "b1633", "ECK1629"] 1711523 1712158 "+" "EG10662_RNA" +"EG10663" "nadE" ["nadE", "efg", "ntrL", "b1740", "ECK1738"] 1822458 1823285 "+" "EG10663_RNA" +"EG10664" "nupG" ["nupG", "b2964", "ECK2959"] 3105714 3106970 "+" "EG10664_RNA" +"EG10665" "nusA" ["nusA", "b3169", "ECK3158"] 3316039 3317526 "-" "EG10665_RNA" +"EG10666" "nusB" ["nusB", "groNB", "ssaD", "ssyB", "b0416", "ECK0410"] 435137 435556 "+" "EG10666_RNA" +"EG10667" "nusG" ["nusG", "b3982", "ECK3973"] 4177743 4178288 "+" "EG10667_RNA" +"EG10668" "ogt" ["ogt", "b1335", "ECK1331"] 1399721 1400236 "-" "EG10668_RNA" +"EG10669" "ompA" ["ompA", "con", "tolG", "tut", "b0957", "ECK0948"] 1019013 1020053 "-" "EG10669_RNA" +"EG10670" "ompC" ["ompC", "meoA", "par", "b2215", "ECK2207"] 2311646 2312749 "-" "EG10670_RNA" +"EG10671" "ompF" ["ompF", "nfxB", "tolF", "cmlB", "cry", "b0929", "ECK0920"] 985894 986982 "-" "EG10671_RNA" +"EG10672" "ompR" ["ompR", "cry", "kmt", "ompB", "b3405", "ECK3392"] 3535865 3536584 "-" "EG10672_RNA" +"EG10673" "ompT" ["ompT", "b0565", "ECK0557"] 584680 585633 "-" "EG10673_RNA" +"EG10674" "oppA" ["oppA", "b1243", "ECK1237"] 1301182 1302813 "+" "EG10674_RNA" +"EG10675" "oppB" ["oppB", "b1244", "ECK1238"] 1302899 1303819 "+" "EG10675_RNA" +"EG10676" "oppC" ["oppC", "b1245", "ECK1239"] 1303834 1304742 "+" "EG10676_RNA" +"EG10677" "oppD" ["oppD", "b1246", "ECK1240"] 1304754 1305767 "+" "EG10677_RNA" +"EG10678" "oppF" ["oppF", "b1247", "ECK1241"] 1305764 1306768 "+" "EG10678_RNA" +"EG10679" "osmB" ["osmB", "b1283", "ECK1278"] 1343110 1343328 "-" "EG10679_RNA" +"EG10680" "osmC" ["osmC", "b1482", "ECK1476"] 1556625 1557056 "+" "EG10680_RNA" +"EG10681" "oxyR" ["oxyR", "momR", "mor", "b3961", "ECK3953"] 4158490 4159407 "+" "EG10681_RNA" +"EG10682" "pabA" ["pabA", "b3360", "ECK3348"] 3490266 3490829 "-" "EG10682_RNA" +"EG10683" "pabB" ["pabB", "b1812", "ECK1810"] 1894805 1896166 "+" "EG10683_RNA" +"EG10684" "pal" ["pal", "excC", "b0741", "ECK0730"] 779067 779588 "+" "EG10684_RNA" +"EG10685" "panF" ["panF", "b3258", "ECK3245"] 3407607 3409058 "+" "EG10685_RNA" +"EG10686" "parC" ["parC", "b3019", "ECK3010"] 3163715 3165973 "-" "EG10686_RNA" +"EG10687" "parE" ["parE", "nfxD", "b3030", "ECK3021"] 3173504 3175396 "-" "EG10687_RNA" +"EG10688" "pck" ["pck", "pckA", "b3403", "ECK3390"] 3532818 3534440 "+" "EG10688_RNA" +"EG10689" "pcm" ["pcm", "b2743", "ECK2738"] 2868893 2869519 "-" "EG10689_RNA" +"EG10690" "pcnB" ["pcnB", "b0143", "ECK0142"] 157729 159126 "-" "EG10690_RNA" +"EG10691" "pdxA" ["pdxA", "b0052", "ECK0053"] 52427 53416 "-" "EG10691_RNA" +"EG10693" "pdxJ" ["pdxJ", "b2564", "ECK2562"] 2700998 2701729 "-" "EG10693_RNA" +"EG10694" "pepA" ["pepA", "carP", "xerB", "b4260", "ECK4253"] 4484440 4485951 "-" "EG10694_RNA" +"EG10695" "pepD" ["pepD", "pepH", "b0237", "ECK0238"] 254259 255716 "-" "EG10695_RNA" +"EG10696" "pepN" ["pepN", "b0932", "ECK0923"] 990622 993234 "+" "EG10696_RNA" +"EG10697" "pepP" ["pepP", "b2908", "ECK2903"] 3053515 3054840 "-" "EG10697_RNA" +"EG10698" "pepQ" ["pepQ", "b3847", "ECK3839"] 4031161 4032492 "+" "EG10698_RNA" +"EG10699" "pfkA" ["pfkA", "b3916", "ECK3908"] 4107552 4108514 "+" "EG10699_RNA" +"EG10700" "pfkB" ["pfkB", "b1723", "ECK1721"] 1806370 1807299 "+" "EG10700_RNA" +"EG10701" "pflB" ["pflB", "pfl", "b0903", "ECK0894"] 951272 953554 "-" "EG10701_RNA" +"EG10702" "pgi" ["pgi", "b4025", "ECK4017"] 4233758 4235407 "+" "EG10702_RNA" +"EG10703" "pgk" ["pgk", "b2926", "ECK2922"] 3071459 3072622 "-" "EG10703_RNA" +"EG10704" "pgpA" ["pgpA", "yajN", "b0418", "ECK0412"] 436589 437107 "+" "EG10704_RNA" +"EG10705" "pgpB" ["pgpB", "b1278", "ECK1273"] 1339330 1340094 "+" "EG10705_RNA" +"EG10706" "pgsA" ["pgsA", "b1912", "ECK1911"] 1992269 1992817 "-" "EG10706_RNA" +"EG10707" "pheA" ["pheA", "b2599", "ECK2596"] 2737745 2738905 "+" "EG10707_RNA" +"EG10708" "pheP" ["pheP", "b0576", "ECK0568"] 601959 603335 "+" "EG10708_RNA" +"EG10709" "pheS" ["pheS", "phe-act", "b1714", "ECK1712"] 1797959 1798942 "-" "EG10709_RNA" +"EG10710" "pheT" ["pheT", "b1713", "ECK1711"] 1795557 1797944 "-" "EG10710_RNA" +"EG10711" "yjdM" ["yjdM", "phnA", "b4108", "ECK4101"] 4326399 4326734 "-" "EG10711_RNA" +"EG10712" "yjdN" ["yjdN", "phnB", "b4107", "ECK4100"] 4325298 4325741 "-" "EG10712_RNA" +"EG10713" "phnC" ["phnC", "b4106", "ECK4099"] 4324377 4325165 "-" "EG10713_RNA" +"EG10714" "phnD" ["phnD", "phn", "psiD", "b4105", "ECK4098"] 4323336 4324352 "-" "EG10714_RNA" +"EG10715" "phnF" ["phnF", "b4102", "ECK4095"] 4321697 4322422 "-" "EG10715_RNA" +"EG10716" "phnG" ["phnG", "b4101", "ECK4094"] 4321244 4321696 "-" "EG10716_RNA" +"EG10717" "phnH" ["phnH", "b4100", "ECK4093"] 4320663 4321247 "-" "EG10717_RNA" +"EG10718" "phnI" ["phnI", "b4099", "ECK4092"] 4319599 4320663 "-" "EG10718_RNA" +"EG10719" "phnJ" ["phnJ", "b4098", "ECK4091"] 4318761 4319606 "-" "EG10719_RNA" +"EG10720" "phnK" ["phnK", "b4097", "ECK4090"] 4318006 4318764 "-" "EG10720_RNA" +"EG10721" "phnL" ["phnL", "b4096", "ECK4089"] 4317215 4317895 "-" "EG10721_RNA" +"EG10722" "phnM" ["phnM", "b4095", "ECK4088"] 4316082 4317218 "-" "EG10722_RNA" +"EG10723" "phnN" ["phnN", "b4094", "ECK4087"] 4315525 4316082 "-" "EG10723_RNA" +"EG10724" "phnO" ["phnO", "b4093", "ECK4086"] 4315104 4315538 "-" "EG10724_RNA" +"EG10725" "phnP" ["phnP", "b4092", "ECK4085"] 4314344 4315102 "-" "EG10725_RNA" +"EG10727" "phoA" ["phoA", "psiA", "b0383", "ECK0378"] 401747 403162 "+" "EG10727_RNA" +"EG10728" "phoB" ["phoB", "phoRc", "phoT", "b0399", "ECK0393"] 417142 417831 "+" "EG10728_RNA" +"EG10729" "phoE" ["phoE", "ompE", "b0241", "ECK0242"] 259045 260100 "-" "EG10729_RNA" +"EG10730" "creC" ["creC", "phoM", "b4399", "ECK4391"] 4636696 4638120 "+" "EG10730_RNA" +"EG10731" "phoP" ["phoP", "b1130", "ECK1116"] 1189776 1190447 "-" "EG10731_RNA" +"EG10732" "phoQ" ["phoQ", "b1129", "ECK1115"] 1188316 1189776 "-" "EG10732_RNA" +"EG10733" "phoR" ["phoR", "R1pho", "phoR1", "nmpB", "b0400", "ECK0394"] 417889 419184 "+" "EG10733_RNA" +"EG10734" "pstS" ["pstS", "R2pho", "T", "nmpA", "phoR2a", "phoS", "b3728", "ECK3721"] 3910485 3911525 "-" "EG10734_RNA" +"EG10735" "phoU" ["phoU", "phoT", "pst", "b3724", "ECK3717"] 3906853 3907578 "-" "EG10735_RNA" +"EG10736" "phr" ["phr", "phrB", "b0708", "ECK0697"] 739507 740925 "+" "EG10736_RNA" +"EG10737" "pinE" ["pinE", "pin", "b1158", "ECK1144"] 1209685 1210239 "+" "EG10737_RNA" +"EG10738" "pldA" ["pldA", "b3821", "ECK3815"] 4004862 4005731 "+" "EG10738_RNA" +"EG10739" "pldB" ["pldB", "b3825", "ECK3819"] 4009170 4010192 "+" "EG10739_RNA" +"EG10740" "plsB" ["plsB", "b4041", "ECK4033"] 4254043 4256466 "-" "EG10740_RNA" +"EG10741" "tldE" ["tldE", "mcb", "pmbA", "b4235", "ECK4230"] 4457959 4459311 "+" "EG10741_RNA" +"EG10742" "pncB" ["pncB", "b0931", "ECK0922"] 989154 990356 "-" "EG10742_RNA" +"EG10743" "pnp" ["pnp", "bfl", "b3164", "ECK3152"] 3309033 3311168 "-" "EG10743_RNA" +"EG10744" "pntA" ["pntA", "b1603", "ECK1598"] 1676371 1677903 "-" "EG10744_RNA" +"EG10745" "pntB" ["pntB", "b1602", "ECK1597"] 1674972 1676360 "-" "EG10745_RNA" +"EG10746" "polA" ["polA", "resA", "b3863", "ECK3855"] 4046966 4049752 "+" "EG10746_RNA" +"EG10747" "polB" ["polB", "dinA", "b0060", "ECK0061"] 63429 65780 "-" "EG10747_RNA" +"EG10748" "mrcA" ["mrcA", "ponA", "b3396", "ECK3383"] 3522871 3525423 "+" "EG10748_RNA" +"EG10749" "potA" ["potA", "b1126", "ECK1112"] 1184458 1185594 "-" "EG10749_RNA" +"EG10750" "potB" ["potB", "b1125", "ECK1111"] 1183617 1184444 "-" "EG10750_RNA" +"EG10751" "potC" ["potC", "b1124", "ECK1110"] 1182826 1183620 "-" "EG10751_RNA" +"EG10752" "potD" ["potD", "b1123", "ECK1109"] 1181783 1182829 "-" "EG10752_RNA" +"EG10753" "potE" ["potE", "b0692", "ECK0680"] 716946 718265 "-" "EG10753_RNA" +"EG10754" "poxB" ["poxB", "b0871", "ECK0862"] 909331 911049 "-" "EG10754_RNA" +"EG10755" "ppa" ["ppa", "b4226", "ECK4222"] 4449122 4449652 "-" "EG10755_RNA" +"EG10756" "ppc" ["ppc", "asp", "glu", "b3956", "ECK3947"] 4150447 4153098 "-" "EG10756_RNA" +"EG10757" "ppiA" ["ppiA", "rot", "rotA", "b3363", "ECK3351"] 3491725 3492297 "-" "EG10757_RNA" +"EG10758" "ppiB" ["ppiB", "b0525", "ECK0518"] 553943 554437 "-" "EG10758_RNA" +"EG10759" "ppsA" ["ppsA", "pps", "b1702", "ECK1700"] 1784734 1787112 "-" "EG10759_RNA" +"EG10760" "prc" ["prc", "tsp", "b1830", "ECK1829"] 1912768 1914816 "-" "EG10760_RNA" +"EG10761" "prfA" ["prfA", "ups?", "sueB", "uar", "b1211", "ECK1199"] 1265012 1266094 "+" "EG10761_RNA" +"EG10762" "prfB" ["prfB", "supK", "b2891", "ECK2886"] 3035184 3036282 "-" "EG10762_RNA" +"EG10763" "priA" ["priA", "srgA", "b3935", "ECK3927"] 4124612 4126810 "-" "EG10763_RNA" +"EG10764" "priB" ["priB", "b4201", "ECK4197"] 4425520 4425834 "+" "EG10764_RNA" +"EG10765" "priC" ["priC", "b0467", "ECK0461"] 490285 490812 "-" "EG10765_RNA" +"EG10766" "secY" ["secY", "prlA", "b3300", "ECK3287"] 3442766 3444097 "-" "EG10766_RNA" +"EG10767" "proA" ["proA", "pro(1)", "pro1", "b0243", "ECK0244"] 261503 262756 "+" "EG10767_RNA" +"EG10768" "proB" ["proB", "pro(2)", "pro2", "b0242", "ECK0243"] 260388 261491 "+" "EG10768_RNA" +"EG10769" "proC" ["proC", "pro(3)", "Pro2", "pro3", "b0386", "ECK0381"] 404835 405644 "-" "EG10769_RNA" +"EG10770" "proS" ["proS", "drp", "drpA", "b0194", "ECK0194"] 217057 218775 "-" "EG10770_RNA" +"EG10771" "proV" ["proV", "osrA", "proU", "b2677", "ECK2671"] 2804815 2806017 "+" "EG10771_RNA" +"EG10772" "proW" ["proW", "osrA", "proU", "b2678", "ECK2672"] 2806010 2807074 "+" "EG10772_RNA" +"EG10773" "proX" ["proX", "osrA", "proU", "b2679", "ECK2673"] 2807132 2808124 "+" "EG10773_RNA" +"EG10774" "prs" ["prs", "dnaR", "prsA", "b1207", "ECK1195"] 1260928 1261875 "-" "EG10774_RNA" +"EG10775" "psd" ["psd", "b4160", "ECK4156"] 4389392 4390360 "-" "EG10775_RNA" +"EG10776" "pspA" ["pspA", "cog", "b1304", "ECK1299"] 1368079 1368747 "+" "EG10776_RNA" +"EG10777" "pspB" ["pspB", "b1305", "ECK1300"] 1368801 1369025 "+" "EG10777_RNA" +"EG10778" "pspC" ["pspC", "b1306", "ECK1301"] 1369025 1369384 "+" "EG10778_RNA" +"EG10779" "pspD" ["pspD", "b1307", "ECK1302"] 1369393 1369614 "+" "EG10779_RNA" +"EG10780" "pspE" ["pspE", "b1308", "ECK1303"] 1369689 1370003 "+" "EG10780_RNA" +"EG10781" "pssA" ["pssA", "pss", "b2585", "ECK2583"] 2722727 2724082 "+" "EG10781_RNA" +"EG10782" "pstA" ["pstA", "R2pho", "phoR2", "phoR2b", "phoT", "b3726", "ECK3719"] 3908549 3909439 "-" "EG10782_RNA" +"EG10783" "pstB" ["pstB", "phoT", "b3725", "ECK3718"] 3907593 3908366 "-" "EG10783_RNA" +"EG10784" "pstC" ["pstC", "phoW", "b3727", "ECK3720"] 3909439 3910398 "-" "EG10784_RNA" +"EG10785" "pth" ["pth", "rap", "b1204", "ECK1192"] 1257929 1258513 "-" "EG10785_RNA" +"EG10786" "ptrA" ["ptrA", "ptr", "b2821", "ECK2817"] 2955996 2958884 "-" "EG10786_RNA" +"EG10787" "ptsG" ["ptsG", "umgC", "umg", "tgl", "CR", "car", "cat", "catB2", "glcA", "gptA", "b1101", "ECK1087"] 1157869 1159302 "+" "EG10787_RNA" +"EG10788" "ptsH" ["ptsH", "ctr", "hpr", "b2415", "ECK2410"] 2533764 2534021 "+" "EG10788_RNA" +"EG10789" "ptsI" ["ptsI", "ctr", "b2416", "ECK2411"] 2534066 2535793 "+" "EG10789_RNA" +"EG10790" "purA" ["purA", "adeK", "b4177", "ECK4173"] 4404687 4405985 "+" "EG10790_RNA" +"EG10791" "purC" ["purC", "ade(g)", "ade", "b2476", "ECK2472"] 2596905 2597618 "-" "EG10791_RNA" +"EG10792" "purD" ["purD", "adth(a)", "adth", "b4005", "ECK3997"] 4204642 4205931 "-" "EG10792_RNA" +"EG10793" "purE" ["purE", "ade(f)", "Pur2", "ade3", "ade", "b0523", "ECK0516"] 552591 553100 "-" "EG10793_RNA" +"EG10794" "purF" ["purF", "ade(ub)", "ade", "purC", "b2312", "ECK2306"] 2428721 2430238 "-" "EG10794_RNA" +"EG10795" "purH" ["purH", "b4006", "ECK3998"] 4205943 4207532 "-" "EG10795_RNA" +"EG10796" "purK" ["purK", "purE2", "b0522", "ECK0515"] 551527 552594 "-" "EG10796_RNA" +"EG10797" "purL" ["purL", "purI", "b2557", "ECK2555"] 2691656 2695543 "-" "EG10797_RNA" +"EG10798" "purM" ["purM", "purG", "purI", "b2499", "ECK2495"] 2621197 2622234 "+" "EG10798_RNA" +"EG10799" "purN" ["purN", "ade(c)", "ade", "b2500", "ECK2496"] 2622234 2622872 "+" "EG10799_RNA" +"EG10800" "purR" ["purR", "b1658", "ECK1654"] 1737844 1738869 "+" "EG10800_RNA" +"EG10801" "putA" ["putA", "putC", "poaA", "b1014", "ECK1005"] 1074920 1078882 "-" "EG10801_RNA" +"EG10802" "putP" ["putP", "putC", "b1015", "ECK1006"] 1079305 1080813 "+" "EG10802_RNA" +"EG10803" "pykA" ["pykA", "b1854", "ECK1855"] 1937649 1939091 "+" "EG10803_RNA" +"EG10804" "pykF" ["pykF", "b1676", "ECK1672"] 1755698 1757110 "+" "EG10804_RNA" +"EG10805" "pyrB" ["pyrB", "b4245", "ECK4240"] 4471460 4472395 "-" "EG10805_RNA" +"EG10806" "pyrC" ["pyrC", "b1062", "ECK1047"] 1121561 1122607 "-" "EG10806_RNA" +"EG10807" "pyrD" ["pyrD", "b0945", "ECK0936"] 1004768 1005778 "+" "EG10807_RNA" +"EG10808" "pyrE" ["pyrE", "b3642", "ECK3632"] 3815127 3815768 "-" "EG10808_RNA" +"EG10809" "pyrF" ["pyrF", "b1281", "ECK1276"] 1341921 1342658 "+" "EG10809_RNA" +"EG10810" "pyrG" ["pyrG", "b2780", "ECK2774"] 2908029 2909666 "-" "EG10810_RNA" +"EG10811" "pyrI" ["pyrI", "b4244", "ECK4239"] 4470986 4471447 "-" "EG10811_RNA" +"EG10812" "queA" ["queA", "tsaA", "b0405", "ECK0399"] 425011 426081 "+" "EG10812_RNA" +"EG10813" "racC" ["racC", "sbcA", "b1351", "ECK1348"] 1417488 1417763 "-" "EG10813_RNA" +"EG10814" "rbsA" ["rbsA", "rbsT", "rbsP", "b3749", "ECK3743"] 3933778 3935283 "+" "EG10814_RNA" +"EG10815" "rbsB" ["rbsB", "prlB", "rbsP", "b3751", "ECK3745"] 3936278 3937168 "+" "EG10815_RNA" +"EG10816" "rbsC" ["rbsC", "rbsP", "rbsT", "b3750", "ECK3744"] 3935288 3936253 "+" "EG10816_RNA" +"EG10817" "rbsD" ["rbsD", "rbsP", "b3748", "ECK3742"] 3933351 3933770 "+" "EG10817_RNA" +"EG10818" "rbsK" ["rbsK", "b3752", "ECK3746"] 3937294 3938223 "+" "EG10818_RNA" +"EG10819" "rbsR" ["rbsR", "b3753", "ECK3747"] 3938227 3939219 "+" "EG10819_RNA" +"EG10820" "rcsA" ["rcsA", "cpsR", "b1951", "ECK1949"] 2023968 2024591 "+" "EG10820_RNA" +"EG10821" "rcsB" ["rcsB", "b2217", "ECK2210"] 2316177 2316827 "+" "EG10821_RNA" +"EG10822" "rcsC" ["rcsC", "b2218", "ECK2211"] 2317027 2319876 "-" "EG10822_RNA" +"EG10823" "recA" ["recA", "zab", "umuB", "tif", "lexB", "recH", "rnmB", "srf", "b2699", "ECK2694"] 2822708 2823769 "-" "EG10823_RNA" +"EG10824" "recB" ["recB", "ior", "rorA", "b2820", "ECK2816"] 2952461 2956003 "-" "EG10824_RNA" +"EG10825" "recC" ["recC", "b2822", "ECK2818"] 2959060 2962428 "-" "EG10825_RNA" +"EG10826" "recD" ["recD", "hopE", "b2819", "ECK2815"] 2950635 2952461 "-" "EG10826_RNA" +"EG10827" "recE" ["recE", "rmuB", "rac", "sbcA", "b1350", "ECK1347"] 1414786 1417386 "-" "EG10827_RNA" +"EG10828" "recF" ["recF", "uvrF", "b3700", "ECK3692"] 3880148 3881221 "-" "EG10828_RNA" +"EG10829" "recG" ["recG", "radC", "spoV", "b3652", "ECK3642"] 3825210 3827291 "+" "EG10829_RNA" +"EG10830" "recJ" ["recJ", "b2892", "ECK2887"] 3036373 3038106 "-" "EG10830_RNA" +"EG10831" "recN" ["recN", "radB", "b2616", "ECK2612"] 2751795 2753456 "+" "EG10831_RNA" +"EG10832" "recO" ["recO", "b2565", "ECK2563"] 2701741 2702469 "-" "EG10832_RNA" +"EG10833" "recQ" ["recQ", "b3822", "ECK3816"] 4005864 4007693 "+" "EG10833_RNA" +"EG10834" "recR" ["recR", "b0472", "ECK0466"] 494405 495010 "+" "EG10834_RNA" +"EG10835" "relA" ["relA", "RC", "b2784", "ECK2778"] 2911417 2913651 "-" "EG10835_RNA" +"EG10836" "relB" ["relB", "RC", "b1564", "ECK1558"] 1645633 1645872 "-" "EG10836_RNA" +"EG10837" "rep" ["rep", "dasC", "mbrA", "mmrA", "b3778", "ECK3770"] 3960677 3962698 "+" "EG10837_RNA" +"EG10838" "rfaD" ["rfaD", "waaD", "hldD", "htrM", "nbsB", "b3619", "ECK3609"] 3793987 3794919 "+" "EG10838_RNA" +"EG10839" "rfaH" ["rfaH", "hlyT", "sfrB", "b3842", "ECK3834"] 4024333 4024821 "-" "EG10839_RNA" +"EG10840" "rfe" ["rfe", "wecA", "b3784", "ECK3776"] 3967916 3969019 "+" "EG10840_RNA" +"EG10841" "fliD" ["fliD", "flbC", "rfs", "b1924", "ECK1923"] 2003872 2005278 "+" "EG10841_RNA" +"EG10842" "rhaR" ["rhaR", "rhaC1", "b3906", "ECK3899"] 4098646 4099494 "+" "EG10842_RNA" +"EG10843" "rhaS" ["rhaS", "rhaC2", "b3905", "ECK3898"] 4097736 4098572 "+" "EG10843_RNA" +"EG10844" "rhlB" ["rhlB", "mmrA", "b3780", "ECK3772"] 3964365 3965630 "-" "EG10844_RNA" +"EG10845" "rho" ["rho", "nusD", "sun", "tsu", "rnsC", "nitA", "psu", "psuA", "sbaA", "b3783", "ECK3775"] 3966417 3967676 "+" "EG10845_RNA" +"EG10846" "rhsA" ["rhsA", "b3593", "ECK3582"] 3762183 3766316 "+" "EG10846_RNA" +"EG10847" "rhsB" ["rhsB", "b3482", "ECK3466"] 3619192 3623427 "+" "EG10847_RNA" +"EG10848" "rhsC" ["rhsC", "b0700", "ECK0689"] 729583 733776 "+" "EG10848_RNA" +"EG10849" "rhsD" ["rhsD", "b0497", "ECK0491"] 523261 527541 "+" "EG10849_RNA" +"EG10850" "rimI" ["rimI", "b4373", "ECK4364"] 4608185 4608631 "+" "EG10850_RNA" +"EG10851" "rimJ" ["rimJ", "tcp", "b1066", "ECK1051"] 1125562 1126146 "+" "EG10851_RNA" +"EG10852" "rimK" ["rimK", "nek", "b0852", "ECK0843"] 891967 892869 "+" "EG10852_RNA" +"EG10853" "rimL" ["rimL", "b1427", "ECK1420"] 1498938 1499477 "+" "EG10853_RNA" +"EG10854" "rlpA" ["rlpA", "b0633", "ECK0626"] 664102 665190 "-" "EG10854_RNA" +"EG10855" "lptE" ["lptE", "rlpB", "b0641", "ECK0634"] 671605 672186 "-" "EG10855_RNA" +"EG10856" "rna" ["rna", "rnsA", "b0611", "ECK0604"] 644197 645003 "-" "EG10856_RNA" +"EG10857" "rnc" ["rnc", "ranA", "b2567", "ECK2565"] 2703383 2704063 "-" "EG10857_RNA" +"EG10858" "rnd" ["rnd", "b1804", "ECK1802"] 1886864 1887991 "-" "EG10858_RNA" +"EG10859" "rne" ["rne", "smbB", "ams", "hmp1", "b1084", "ECK1069"] 1141182 1144367 "-" "EG10859_RNA" +"EG10860" "rnhA" ["rnhA", "cer", "sin", "dasF", "herA", "rnh", "sdrA", "b0214", "ECK0214"] 235535 236002 "-" "EG10860_RNA" +"EG10861" "rnhB" ["rnhB", "b0183", "ECK0182"] 204493 205089 "+" "EG10861_RNA" +"EG10862" "rnpA" ["rnpA", "b3704", "ECK3696"] 3884493 3884852 "+" "EG10862_RNA" +"EG10863" "rph" ["rph", "b3643", "ECK3633"] 3815863 3816549 "-" "EG10863_RNA" +"EG10864" "rplA" ["rplA", "rpy", "b3984", "ECK3975"] 4178879 4179583 "+" "EG10864_RNA" +"EG10865" "rplB" ["rplB", "b3317", "ECK3304"] 3450543 3451364 "-" "EG10865_RNA" +"EG10866" "rplC" ["rplC", "b3320", "ECK3307"] 3452297 3452926 "-" "EG10866_RNA" +"EG10867" "rplD" ["rplD", "eryA", "b3319", "ECK3306"] 3451681 3452286 "-" "EG10867_RNA" +"EG10868" "rplE" ["rplE", "b3308", "ECK3295"] 3446899 3447438 "-" "EG10868_RNA" +"EG10869" "rplF" ["rplF", "b3305", "ECK3292"] 3445607 3446140 "-" "EG10869_RNA" +"EG10870" "rplI" ["rplI", "b4203", "ECK4199"] 4426108 4426557 "+" "EG10870_RNA" +"EG10871" "rplJ" ["rplJ", "b3985", "ECK3976"] 4179996 4180493 "+" "EG10871_RNA" +"EG10872" "rplK" ["rplK", "relC", "b3983", "ECK3974"] 4178447 4178875 "+" "EG10872_RNA" +"EG10873" "rplL" ["rplL", "b3986", "ECK3977"] 4180560 4180925 "+" "EG10873_RNA" +"EG10874" "rplM" ["rplM", "b3231", "ECK3220"] 3378223 3378651 "-" "EG10874_RNA" +"EG10875" "rplN" ["rplN", "b3310", "ECK3297"] 3447778 3448149 "-" "EG10875_RNA" +"EG10876" "rplO" ["rplO", "b3301", "ECK3288"] 3444105 3444539 "-" "EG10876_RNA" +"EG10877" "rplP" ["rplP", "b3313", "ECK3300"] 3448759 3449169 "-" "EG10877_RNA" +"EG10878" "rplQ" ["rplQ", "b3294", "ECK3281"] 3439616 3439999 "-" "EG10878_RNA" +"EG10879" "rplR" ["rplR", "b3304", "ECK3291"] 3445244 3445597 "-" "EG10879_RNA" +"EG10880" "rplS" ["rplS", "b2606", "ECK2603"] 2744183 2744530 "-" "EG10880_RNA" +"EG10881" "rplT" ["rplT", "pdzA", "b1716", "ECK1714"] 1799393 1799749 "-" "EG10881_RNA" +"EG10882" "rplV" ["rplV", "eryB", "b3315", "ECK3302"] 3449901 3450233 "-" "EG10882_RNA" +"EG10883" "rplW" ["rplW", "b3318", "ECK3305"] 3451382 3451684 "-" "EG10883_RNA" +"EG10884" "rplX" ["rplX", "b3309", "ECK3296"] 3447453 3447767 "-" "EG10884_RNA" +"EG10885" "rplY" ["rplY", "b2185", "ECK2179"] 2282517 2282801 "+" "EG10885_RNA" +"EG10886" "rpmB" ["rpmB", "b3637", "ECK3627"] 3811438 3811674 "-" "EG10886_RNA" +"EG10887" "rpmC" ["rpmC", "b3312", "ECK3299"] 3448568 3448759 "-" "EG10887_RNA" +"EG10888" "rpmD" ["rpmD", "b3302", "ECK3289"] 3444543 3444722 "-" "EG10888_RNA" +"EG10889" "rpmE" ["rpmE", "b3936", "ECK3928"] 4127013 4127225 "+" "EG10889_RNA" +"EG10890" "rpmF" ["rpmF", "b1089", "ECK1075"] 1147367 1147540 "+" "EG10890_RNA" +"EG10891" "rpmG" ["rpmG", "b3636", "ECK3626"] 3811250 3811417 "-" "EG10891_RNA" +"EG10892" "rpmH" ["rpmH", "rimA", "ssaF", "b3703", "ECK3695"] 3884336 3884476 "+" "EG10892_RNA" +"EG10893" "rpoA" ["rpoA", "pez", "phs", "sez", "b3295", "ECK3282"] 3440040 3441029 "-" "EG10893_RNA" +"EG10894" "rpoB" ["rpoB", "sdgB", "tabD", "stv", "stl", "ftsR", "groN", "nitB", "rif", "ron", "b3987", "ECK3978"] 4181245 4185273 "+" "EG10894_RNA" +"EG10895" "rpoC" ["rpoC", "tabB", "b3988", "ECK3979"] 4185350 4189573 "+" "EG10895_RNA" +"EG10896" "rpoD" ["rpoD", "alt", "b3067", "ECK3057"] 3213047 3214888 "+" "EG10896_RNA" +"EG10897" "rpoH" ["rpoH", "fam", "hin", "htpR", "b3461", "ECK3445"] 3599929 3600783 "-" "EG10897_RNA" +"EG10898" "rpoN" ["rpoN", "glnF", "ntrA", "b3202", "ECK3191"] 3344717 3346150 "+" "EG10898_RNA" +"EG10899" "rpoZ" ["rpoZ", "spoS", "b3649", "ECK3639"] 3822106 3822381 "+" "EG10899_RNA" +"EG10900" "rpsA" ["rpsA", "ssyF", "b0911", "ECK0902"] 961995 963668 "+" "EG10900_RNA" +"EG10901" "rpsB" ["rpsB", "b0169", "ECK0168"] 189874 190599 "+" "EG10901_RNA" +"EG10902" "rpsC" ["rpsC", "b3314", "ECK3301"] 3449182 3449883 "-" "EG10902_RNA" +"EG10903" "rpsD" ["rpsD", "ramA", "sud(2)", "sud2", "b3296", "ECK3283"] 3441055 3441675 "-" "EG10903_RNA" +"EG10904" "rpsE" ["rpsE", "spc", "eps", "spcA", "b3303", "ECK3290"] 3444726 3445229 "-" "EG10904_RNA" +"EG10905" "rpsF" ["rpsF", "sdgH", "b4200", "ECK4196"] 4425118 4425513 "+" "EG10905_RNA" +"EG10906" "rpsG" ["rpsG", "b3341", "ECK3328"] 3473542 3474081 "-" "EG10906_RNA" +"EG10907" "rpsH" ["rpsH", "b3306", "ECK3293"] 3446153 3446545 "-" "EG10907_RNA" +"EG10908" "rpsI" ["rpsI", "b3230", "ECK3219"] 3377815 3378207 "-" "EG10908_RNA" +"EG10909" "rpsJ" ["rpsJ", "nusE", "b3321", "ECK3308"] 3452959 3453270 "-" "EG10909_RNA" +"EG10910" "rpsK" ["rpsK", "b3297", "ECK3284"] 3441709 3442098 "-" "EG10910_RNA" +"EG10911" "rpsL" ["rpsL", "asuB", "strA", "b3342", "ECK3329"] 3474178 3474552 "-" "EG10911_RNA" +"EG10912" "rpsM" ["rpsM", "b3298", "ECK3285"] 3442115 3442471 "-" "EG10912_RNA" +"EG10913" "rpsN" ["rpsN", "b3307", "ECK3294"] 3446579 3446884 "-" "EG10913_RNA" +"EG10914" "rpsO" ["rpsO", "secC", "b3165", "ECK3154"] 3311415 3311684 "-" "EG10914_RNA" +"EG10915" "rpsP" ["rpsP", "b2609", "ECK2606"] 2745937 2746185 "-" "EG10915_RNA" +"EG10916" "rpsQ" ["rpsQ", "neaA", "b3311", "ECK3298"] 3448314 3448568 "-" "EG10916_RNA" +"EG10917" "rpsR" ["rpsR", "b4202", "ECK4198"] 4425839 4426066 "+" "EG10917_RNA" +"EG10918" "rpsS" ["rpsS", "b3316", "ECK3303"] 3450248 3450526 "-" "EG10918_RNA" +"EG10919" "rpsT" ["rpsT", "supS", "sup(s20)", "supS20", "b0023", "ECK0024"] 20815 21078 "-" "EG10919_RNA" +"EG10920" "rpsU" ["rpsU", "b3065", "ECK3055"] 3210781 3210996 "+" "EG10920_RNA" +"EG10921" "ftnA" ["ftnA", "ftn", "gen-165", "rsgA", "b1905", "ECK1904"] 1988716 1989213 "+" "EG10921_RNA" +"EG10922" "coaA" ["coaA", "panK", "rts", "ts-9", "b3974", "ECK3966"] 4174076 4175026 "-" "EG10922_RNA" +"EG10925" "ruvC" ["ruvC", "b1863", "ECK1864"] 1946855 1947376 "-" "EG10925_RNA" +"EG10926" "sbcB" ["sbcB", "exoI", "rmuA", "cpeA", "xonA", "b2011", "ECK2005"] 2082756 2084183 "+" "EG10926_RNA" +"EG10927" "sbcC" ["sbcC", "b0397", "ECK0391"] 412607 415753 "-" "EG10927_RNA" +"EG10928" "sbmA" ["sbmA", "b0377", "ECK0372"] 396639 397859 "+" "EG10928_RNA" +"EG10929" "sbp" ["sbp", "b3917", "ECK3909"] 4108834 4109823 "+" "EG10929_RNA" +"EG10930" "sdaA" ["sdaA", "b1814", "ECK1812"] 1896932 1898296 "+" "EG10930_RNA" +"EG10931" "sdhA" ["sdhA", "dhsA", "b0723", "ECK0712"] 755907 757673 "+" "EG10931_RNA" +"EG10932" "sdhB" ["sdhB", "dhsB", "b0724", "ECK0713"] 757689 758405 "+" "EG10932_RNA" +"EG10933" "sdhC" ["sdhC", "cybL", "cybA", "dhsC", "b0721", "ECK0710"] 755177 755566 "+" "EG10933_RNA" +"EG10934" "sdhD" ["sdhD", "cybS", "dhsD", "b0722", "ECK0711"] 755560 755907 "+" "EG10934_RNA" +"EG10935" "sdiA" ["sdiA", "b1916", "ECK1915"] 1996110 1996832 "-" "EG10935_RNA" +"EG10936" "secA" ["secA", "azi", "pea", "prlD", "b0098", "ECK0099"] 108279 110984 "+" "EG10936_RNA" +"EG10937" "secB" ["secB", "b3609", "ECK3599"] 3783661 3784128 "-" "EG10937_RNA" +"EG10938" "secD" ["secD", "b0408", "ECK0402"] 427647 429494 "+" "EG10938_RNA" +"EG10939" "secE" ["secE", "mbrC", "prlG", "b3981", "ECK3972"] 4177358 4177741 "+" "EG10939_RNA" +"EG10940" "secF" ["secF", "b0409", "ECK0403"] 429505 430476 "+" "EG10940_RNA" +"EG10941" "selA" ["selA", "fdhA", "b3591", "ECK3580"] 3759858 3761249 "-" "EG10941_RNA" +"EG10942" "selB" ["selB", "fdhA", "b3590", "ECK3579"] 3758017 3759861 "-" "EG10942_RNA" +"EG10943" "selD" ["selD", "fdhB", "b1764", "ECK1762"] 1846965 1848008 "-" "EG10943_RNA" +"EG10944" "serA" ["serA", "b2913", "ECK2909"] 3057178 3058410 "-" "EG10944_RNA" +"EG10945" "serB" ["serB", "b4388", "ECK4380"] 4624895 4625863 "+" "EG10945_RNA" +"EG10946" "serC" ["serC", "pdxC", "pdxF", "b0907", "ECK0898"] 957653 958741 "+" "EG10946_RNA" +"EG10947" "serS" ["serS", "b0893", "ECK0884"] 939428 940720 "+" "EG10947_RNA" +"EG10948" "maeA" ["maeA", "sfcA", "b1479", "ECK1473"] 1553972 1555669 "-" "EG10948_RNA" +"EG10949" "sfsA" ["sfsA", "sfs", "sfs1", "b0146", "ECK0145"] 160782 161486 "-" "EG10949_RNA" +"EG10950" "slt" ["slt", "sltY", "b4392", "ECK4384"] 4630733 4632670 "+" "EG10950_RNA" +"EG10951" "ytjB" ["ytjB", "smp", "b4387", "ECK4379"] 4624145 4624789 "-" "EG10951_RNA" +"EG10952" "bamE" ["bamE", "smpA", "smqA", "b2617", "ECK2613"] 2753605 2753946 "+" "EG10952_RNA" +"EG10953" "sodA" ["sodA", "b3908", "ECK3901"] 4100810 4101430 "+" "EG10953_RNA" +"EG10954" "sodB" ["sodB", "b1656", "ECK1652"] 1735378 1735959 "+" "EG10954_RNA" +"EG10955" "prlF" ["prlF", "sohA", "prlFA", "b3129", "ECK3117"] 3277002 3277337 "+" "EG10955_RNA" +"EG10956" "sohB" ["sohB", "b1272", "ECK1266"] 1329332 1330381 "+" "EG10956_RNA" +"EG10957" "soxR" ["soxR", "marC", "b4063", "ECK4055"] 4277469 4277933 "+" "EG10957_RNA" +"EG10958" "soxS" ["soxS", "b4062", "ECK4054"] 4277060 4277383 "-" "EG10958_RNA" +"EG10959" "speA" ["speA", "b2938", "ECK2933"] 3083935 3085911 "-" "EG10959_RNA" +"EG10960" "speB" ["speB", "b2937", "ECK2932"] 3082877 3083797 "-" "EG10960_RNA" +"EG10961" "speC" ["speC", "b2965", "ECK2960"] 3107020 3109155 "-" "EG10961_RNA" +"EG10962" "speD" ["speD", "b0120", "ECK0119"] 134788 135582 "-" "EG10962_RNA" +"EG10963" "speE" ["speE", "b0121", "ECK0120"] 135598 136464 "-" "EG10963_RNA" +"EG10964" "speF" ["speF", "b0693", "ECK0681"] 718262 720460 "-" "EG10964_RNA" +"EG10965" "gmk" ["gmk", "spoR", "b3648", "ECK3638"] 3821428 3822051 "+" "EG10965_RNA" +"EG10966" "spoT" ["spoT", "b3650", "ECK3640"] 3822400 3824508 "+" "EG10966_RNA" +"EG10967" "trmH" ["trmH", "spoU", "b3651", "ECK3641"] 3824515 3825204 "+" "EG10967_RNA" +"EG10968" "sppA" ["sppA", "b1766", "ECK1764"] 1848837 1850693 "+" "EG10968_RNA" +"EG10969" "srlE" ["srlE", "sbl", "gutA", "gutE", "srlA", "srlA-2", "b2703", "ECK2698"] 2826392 2827351 "+" "EG10969_RNA" +"EG10970" "srlB" ["srlB", "gutB", "b2704", "ECK2699"] 2827362 2827733 "+" "EG10970_RNA" +"EG10971" "srlD" ["srlD", "gutD", "b2705", "ECK2700"] 2827737 2828516 "+" "EG10971_RNA" +"EG10972" "gutM" ["gutM", "gut", "srlM", "b2706", "ECK2701"] 2828621 2828980 "+" "EG10972_RNA" +"EG10973" "gutQ" ["gutQ", "srlQ", "b2708", "ECK2703"] 2829813 2830778 "+" "EG10973_RNA" +"EG10974" "srlR" ["srlR", "gutR", "b2707", "ECK2702"] 2829047 2829820 "+" "EG10974_RNA" +"EG10975" "srmB" ["srmB", "rbaB", "rhlA", "b2576", "ECK2574"] 2712896 2714230 "+" "EG10975_RNA" +"EG10976" "ssb" ["ssb", "exrB", "lexC", "b4059", "ECK4051"] 4274125 4274661 "+" "EG10976_RNA" +"EG10977" "sspA" ["sspA", "ssp", "pog", "b3229", "ECK3218"] 3376782 3377420 "-" "EG10977_RNA" +"EG10978" "sspB" ["sspB", "b3228", "ECK3217"] 3376279 3376776 "-" "EG10978_RNA" +"EG10979" "sucA" ["sucA", "lys+met", "b0726", "ECK0714"] 758706 761507 "+" "EG10979_RNA" +"EG10980" "sucB" ["sucB", "b0727", "ECK0715"] 761522 762739 "+" "EG10980_RNA" +"EG10981" "sucC" ["sucC", "b0728", "ECK0716"] 763014 764180 "+" "EG10981_RNA" +"EG10982" "sucD" ["sucD", "b0729", "ECK0717"] 764180 765049 "+" "EG10982_RNA" +"EG10983" "suhB" ["suhB", "ssyA", "b2533", "ECK2530"] 2663442 2664245 "+" "EG10983_RNA" +"EG10984" "sulA" ["sulA", "sfiA", "suf", "b0958", "ECK0949"] 1020410 1020919 "-" "EG10984_RNA" +"EG10985" "surA" ["surA", "b0053", "ECK0054"] 53416 54702 "-" "EG10985_RNA" +"EG10986" "tag" ["tag", "tagA", "b3549", "ECK3536"] 3713092 3713655 "+" "EG10986_RNA" +"EG10987" "tap" ["tap", "b1885", "ECK1886"] 1969383 1970984 "-" "EG10987_RNA" +"EG10988" "tar" ["tar", "cheM", "b1886", "ECK1887"] 1971030 1972691 "-" "EG10988_RNA" +"EG10989" "tdcA" ["tdcA", "b3118", "ECK3107"] 3266127 3267065 "-" "EG10989_RNA" +"EG10990" "tdcB" ["tdcB", "tdc", "b3117", "ECK3106"] 3265039 3266028 "-" "EG10990_RNA" +"EG10991" "tdcC" ["tdcC", "b3116", "ECK3105"] 3263686 3265017 "-" "EG10991_RNA" +"EG10992" "tdcR" ["tdcR", "b3119", "ECK3108"] 3267380 3267598 "+" "EG10992_RNA" +"EG10993" "tdh" ["tdh", "b3616", "ECK3606"] 3790320 3791345 "-" "EG10993_RNA" +"EG10994" "tdk" ["tdk", "b1238", "ECK1233"] 1293527 1294144 "+" "EG10994_RNA" +"EG10995" "tesB" ["tesB", "b0452", "ECK0446"] 474301 475161 "-" "EG10995_RNA" +"EG10996" "tgt" ["tgt", "vacC(S.f.)", "b0406", "ECK0400"] 426137 427264 "+" "EG10996_RNA" +"EG10997" "mnmE" ["mnmE", "trmE", "thdF", "b3706", "ECK3699"] 3886828 3888192 "+" "EG10997_RNA" +"EG10998" "thrA" ["thrA", "thrA2", "Hs", "thrA1", "thrD", "b0002", "ECK0002"] 337 2799 "+" "EG10998_RNA" +"EG10999" "thrB" ["thrB", "b0003", "ECK0003"] 2801 3733 "+" "EG10999_RNA" +"EG11000" "thrC" ["thrC", "b0004", "ECK0004"] 3734 5020 "+" "EG11000_RNA" +"EG11001" "thrS" ["thrS", "b1719", "ECK1717"] 1800642 1802570 "-" "EG11001_RNA" +"EG11002" "thyA" ["thyA", "b2827", "ECK2823"] 2964361 2965155 "-" "EG11002_RNA" +"EG11003" "tig" ["tig", "b0436", "ECK0430"] 455133 456431 "+" "EG11003_RNA" +"EG11004" "ptrB" ["ptrB", "tlp", "b1845", "ECK1846"] 1926779 1928839 "-" "EG11004_RNA" +"EG11005" "tnaA" ["tnaA", "ind", "tnaR", "b3708", "ECK3701"] 3888730 3890145 "+" "EG11005_RNA" +"EG11006" "tnaB" ["tnaB", "tnaP", "trpP", "b3709", "ECK3702"] 3890236 3891483 "+" "EG11006_RNA" +"EG11007" "tolA" ["tolA", "cim", "excC", "lky", "tol-2", "b0739", "ECK0728"] 776342 777607 "+" "EG11007_RNA" +"EG11008" "tolB" ["tolB", "lky", "lkyA", "tol-3", "b0740", "ECK0729"] 777740 779032 "+" "EG11008_RNA" +"EG11009" "tolC" ["tolC", "weeA", "colE1-i", "mtcB", "mukA", "refI", "toc", "b3035", "ECK3026"] 3178115 3179596 "+" "EG11009_RNA" +"EG11010" "tolQ" ["tolQ", "fii", "tolP", "b0737", "ECK0726"] 775153 775845 "+" "EG11010_RNA" +"EG11011" "tolR" ["tolR", "b0738", "ECK0727"] 775849 776277 "+" "EG11011_RNA" +"EG11012" "tonB" ["tonB", "T1rec", "exbA", "b1252", "ECK1246"] 1311089 1311808 "+" "EG11012_RNA" +"EG11013" "topA" ["topA", "supX", "b1274", "ECK1268"] 1331048 1333645 "+" "EG11013_RNA" +"EG11014" "topB" ["topB", "mutR", "b1763", "ECK1761"] 1844999 1846960 "-" "EG11014_RNA" +"EG11015" "tpiA" ["tpiA", "tpi", "b3919", "ECK3911"] 4110740 4111507 "-" "EG11015_RNA" +"EG11016" "tpr" ["tpr", "b1229", "ECK1224"] 1287087 1287176 "-" "EG11016_RNA" +"EG11017" "treA" ["treA", "osmA", "tre", "b1197", "ECK1185"] 1245679 1247376 "-" "EG11017_RNA" +"EG11018" "trg" ["trg", "b1421", "ECK1415"] 1492470 1494110 "+" "EG11018_RNA" +"EG11019" "trkA" ["trkA", "b3290", "ECK3276"] 3436518 3437894 "+" "EG11019_RNA" +"EG11020" "trkG" ["trkG", "b1363", "ECK1362"] 1423782 1425239 "+" "EG11020_RNA" +"EG11021" "trkH" ["trkH", "b3849", "ECK3841"] 4033145 4034596 "+" "EG11021_RNA" +"EG11022" "trmA" ["trmA", "rT", "rumT", "b3965", "ECK3957"] 4162170 4163270 "-" "EG11022_RNA" +"EG11023" "trmD" ["trmD", "b2607", "ECK2604"] 2744572 2745339 "-" "EG11023_RNA" +"EG11024" "trpA" ["trpA", "try", "tryp", "b1260", "ECK1254"] 1316416 1317222 "-" "EG11024_RNA" +"EG11025" "trpB" ["trpB", "b1261", "ECK1255"] 1317222 1318415 "-" "EG11025_RNA" +"EG11026" "trpC" ["trpC", "trpF", "trpCF", "b1262", "ECK1256"] 1318427 1319788 "-" "EG11026_RNA" +"EG11027" "trpD" ["trpD", "trpGD", "b1263", "ECK1257"] 1319789 1321384 "-" "EG11027_RNA" +"EG11028" "trpE" ["trpE", "anth", "tryD", "tryp-4", "b1264", "ECK1258"] 1321384 1322946 "-" "EG11028_RNA" +"EG11029" "trpR" ["trpR", "rtrY", "b4393", "ECK4385"] 4632760 4633086 "+" "EG11029_RNA" +"EG11030" "trpS" ["trpS", "b3384", "ECK3371"] 3512634 3513638 "-" "EG11030_RNA" +"EG11031" "trxA" ["trxA", "dasC", "fipA", "tsnC", "b3781", "ECK3773"] 3965761 3966090 "+" "EG11031_RNA" +"EG11032" "trxB" ["trxB", "trxR", "b0888", "ECK0879"] 931085 932050 "-" "EG11032_RNA" +"EG11033" "tsf" ["tsf", "b0170", "ECK0169"] 190857 191708 "+" "EG11033_RNA" +"EG11034" "tsr" ["tsr", "cheD", "b4355", "ECK4345"] 4591657 4593312 "+" "EG11034_RNA" +"EG11035" "tsx" ["tsx", "T6rec", "nupA", "b0411", "ECK0405"] 431129 432013 "-" "EG11035_RNA" +"EG11036" "tufA" ["tufA", "pulT", "kirT", "b3339", "ECK3326"] 3470145 3471329 "-" "EG11036_RNA" +"EG11037" "tufB" ["tufB", "pulT", "kirT", "b3980", "ECK3971"] 4175944 4177128 "+" "EG11037_RNA" +"EG11038" "tus" ["tus", "tau", "b1610", "ECK1605"] 1684259 1685188 "+" "EG11038_RNA" +"EG11039" "tyrA" ["tyrA", "b2600", "ECK2597"] 2738948 2740069 "-" "EG11039_RNA" +"EG11040" "tyrB" ["tyrB", "b4054", "ECK4046"] 4267114 4268307 "+" "EG11040_RNA" +"EG11041" "tyrP" ["tyrP", "b1907", "ECK1906"] 1989681 1990892 "+" "EG11041_RNA" +"EG11042" "tyrR" ["tyrR", "b1323", "ECK1319"] 1386720 1388261 "+" "EG11042_RNA" +"EG11043" "tyrS" ["tyrS", "b1637", "ECK1633"] 1715948 1717222 "-" "EG11043_RNA" +"EG11044" "ubiX" ["ubiX", "dedF", "b2311", "ECK2305"] 2428057 2428626 "-" "EG11044_RNA" +"EG11045" "udp" ["udp", "b3831", "ECK3825"] 4016431 4017192 "+" "EG11045_RNA" +"EG11046" "ugpA" ["ugpA", "psiB", "psiC", "ugp", "b3452", "ECK3436"] 3590024 3590911 "-" "EG11046_RNA" +"EG11047" "ugpB" ["ugpB", "psiB", "psiC", "b3453", "ECK3437"] 3591009 3592325 "-" "EG11047_RNA" +"EG11048" "ugpC" ["ugpC", "b3450", "ECK3434"] 3588110 3589180 "-" "EG11048_RNA" +"EG11049" "ugpE" ["ugpE", "b3451", "ECK3435"] 3589182 3590027 "-" "EG11049_RNA" +"EG11050" "ugpQ" ["ugpQ", "b3449", "ECK3433"] 3587370 3588113 "-" "EG11050_RNA" +"EG11051" "uhpA" ["uhpA", "b3669", "ECK3660"] 3850136 3850726 "-" "EG11051_RNA" +"EG11052" "uhpB" ["uhpB", "b3668", "ECK3659"] 3848634 3850136 "-" "EG11052_RNA" +"EG11053" "uhpC" ["uhpC", "b3667", "ECK3658"] 3847305 3848624 "-" "EG11053_RNA" +"EG11054" "uhpT" ["uhpT", "b3666", "ECK3657"] 3845776 3847167 "-" "EG11054_RNA" +"EG11055" "uidA" ["uidA", "gurA", "gusA", "b1617", "ECK1612"] 1694260 1696071 "-" "EG11055_RNA" +"EG11056" "umuC" ["umuC", "uvm", "b1184", "ECK1172"] 1231186 1232454 "+" "EG11056_RNA" +"EG11057" "umuD" ["umuD", "b1183", "ECK1171"] 1230767 1231186 "+" "EG11057_RNA" +"EG11058" "ung" ["ung", "b2580", "ECK2578"] 2716754 2717443 "+" "EG11058_RNA" +"EG11059" "usg" ["usg", "usg-1", "b2319", "ECK2313"] 2435636 2436649 "-" "EG11059_RNA" +"EG11060" "ushA" ["ushA", "b0480", "ECK0474"] 504914 506566 "+" "EG11060_RNA" +"EG11061" "uvrA" ["uvrA", "dar", "dinE", "b4058", "ECK4050"] 4271049 4273871 "-" "EG11061_RNA" +"EG11062" "uvrB" ["uvrB", "dar-1", "dar-6", "b0779", "ECK0768"] 813526 815547 "+" "EG11062_RNA" +"EG11063" "uvrC" ["uvrC", "b1913", "ECK1912"] 1992874 1994706 "-" "EG11063_RNA" +"EG11064" "uvrD" ["uvrD", "uvr502", "srjC", "uvrE", "dar-2", "dda", "mutU", "pdeB", "rad", "recL", "b3813", "ECK3808"] 3997983 4000145 "+" "EG11064_RNA" +"EG11065" "uxaB" ["uxaB", "b1521", "ECK1514"] 1609229 1610680 "-" "EG11065_RNA" +"EG11066" "uxuA" ["uxuA", "b4322", "ECK4313"] 4551636 4552820 "+" "EG11066_RNA" +"EG11067" "valS" ["valS", "val-act", "b4258", "ECK4251"] 4480982 4483837 "-" "EG11067_RNA" +"EG11068" "vsr" ["vsr", "b1960", "ECK1958"] 2030448 2030918 "-" "EG11068_RNA" +"EG11069" "xerC" ["xerC", "b3811", "ECK3806"] 3996287 3997183 "+" "EG11069_RNA" +"EG11070" "dsbC" ["dsbC", "xprA", "b2893", "ECK2888"] 3038112 3038822 "-" "EG11070_RNA" +"EG11071" "xerD" ["xerD", "xprB", "b2894", "ECK2889"] 3038847 3039743 "-" "EG11071_RNA" +"EG11072" "xseA" ["xseA", "xse", "b2509", "ECK2505"] 2634232 2635602 "+" "EG11072_RNA" +"EG11073" "xthA" ["xthA", "xth", "b1749", "ECK1747"] 1832428 1833234 "+" "EG11073_RNA" +"EG11074" "xylA" ["xylA", "b3565", "ECK3554"] 3729443 3730765 "-" "EG11074_RNA" +"EG11075" "xylB" ["xylB", "b3564", "ECK3553"] 3727917 3729371 "-" "EG11075_RNA" +"EG11076" "xylE" ["xylE", "b4031", "ECK4023"] 4240779 4242254 "-" "EG11076_RNA" +"EG11078" "nhaR" ["nhaR", "antO", "yaaB", "b0020", "ECK0021"] 18715 19620 "+" "EG11078_RNA" +"EG11079" "ribF" ["ribF", "yaaC", "b0025", "ECK0026"] 21407 22348 "+" "EG11079_RNA" +"EG11080" "fkpB" ["fkpB", "slpA", "yaaD", "b0028", "ECK0029"] 25826 26275 "+" "EG11080_RNA" +"EG11081" "ispH" ["ispH", "yaaE", "lytB", "b0029", "ECK0030"] 26277 27227 "+" "EG11081_RNA" +"EG11082" "rihC" ["rihC", "yaaF", "b0030", "ECK0031"] 27293 28207 "+" "EG11082_RNA" +"EG11083" "rapA" ["rapA", "yabA", "hepA", "b0059", "ECK0060"] 60358 63264 "-" "EG11083_RNA" +"EG11084" "mraZ" ["mraZ", "yabB", "b0081", "ECK0082"] 89634 90092 "+" "EG11084_RNA" +"EG11085" "rsmH" ["rsmH", "yabC", "mraW", "b0082", "ECK0083"] 90094 91035 "+" "EG11085_RNA" +"EG11086" "ftsL" ["ftsL", "mraR", "yabD", "b0083", "ECK0084"] 91032 91397 "+" "EG11086_RNA" +"EG11087" "secM" ["secM", "srrA", "yacA", "b0097", "ECK0098"] 107705 108217 "+" "EG11087_RNA" +"EG11088" "pdhR" ["pdhR", "aceC", "genA", "yacB", "b0113", "ECK0112"] 122092 122856 "+" "EG11088_RNA" +"EG11089" "yacC" ["yacC", "b0122", "ECK0121"] 136570 136917 "-" "EG11089_RNA" +"EG11090" "mtn" ["mtn", "pfs", "yadA", "mtnN", "b0159", "ECK0158"] 178455 179153 "-" "EG11090_RNA" +"EG11091" "frsA" ["frsA", "yafA", "b0239", "ECK0240"] 256527 257771 "+" "EG11091_RNA" +"EG11092" "crl" ["crl", "b0240", "ECK0241"] null null "+" "EG11092_RNA" +"EG11093" "yaiA" ["yaiA", "b0389", "ECK0384"] 406979 407170 "+" "EG11093_RNA" +"EG11094" "sbcD" ["sbcD", "yajA", "b0398", "ECK0392"] 415750 416952 "-" "EG11094_RNA" +"EG11095" "acpH" ["acpH", "yajB", "b0404", "ECK0398"] 424337 424918 "-" "EG11095_RNA" +"EG11096" "yajC" ["yajC", "b0407", "ECK0401"] 427287 427619 "+" "EG11096_RNA" +"EG11097" "yajD" ["yajD", "b0410", "ECK0404"] 430605 430952 "+" "EG11097_RNA" +"EG11098" "xseB" ["xseB", "yajE", "b0422", "ECK0416"] 441101 441343 "-" "EG11098_RNA" +"EG11099" "ybaA" ["ybaA", "b0456", "ECK0450"] 476672 477025 "+" "EG11099_RNA" +"EG11100" "ybaB" ["ybaB", "b0471", "ECK0465"] 494076 494405 "+" "EG11100_RNA" +"EG11101" "aes" ["aes", "ybaC", "b0476", "ECK0470"] 499014 499973 "-" "EG11101_RNA" +"EG11102" "gsk" ["gsk", "b0477", "ECK0471"] 500125 501429 "+" "EG11102_RNA" +"EG11103" "fimZ" ["fimZ", "ybcA", "b0535", "ECK0528"] 563848 564480 "-" "EG11103_RNA" +"EG11104" "entS" ["entS", "ybdA", "b0591", "ECK0584"] 622300 623550 "+" "EG11104_RNA" +"EG11105" "entH" ["entH", "ybdB", "b0597", "ECK0590"] 629300 629713 "+" "EG11105_RNA" +"EG11108" "ybgA" ["ybgA", "tkp", "b0707", "ECK0696"] 739001 739510 "+" "EG11108_RNA" +"EG11109" "mngR" ["mngR", "ybgB", "farR", "b0730", "ECK0718"] 765153 765875 "-" "EG11109_RNA" +"EG11110" "ybgC" ["ybgC", "b0736", "ECK0725"] 774752 775156 "+" "EG11110_RNA" +"EG11111" "cspD" ["cspD", "ybjA", "cspH", "b0880", "ECK0871"] 922366 922590 "-" "EG11111_RNA" +"EG11112" "aat" ["aat", "ycaA", "b0885", "ECK0876"] 926728 927432 "-" "EG11112_RNA" +"EG11113" "yccA" ["yccA", "b0970", "ECK0961"] 1030759 1031418 "-" "EG11113_RNA" +"EG11116" "trhO" ["trhO", "yceA", "b1055", "ECK1040"] 1116807 1117859 "+" "EG11116_RNA" +"EG11117" "yceB" ["yceB", "b1063", "ECK1048"] 1122713 1123273 "-" "EG11117_RNA" +"EG11118" "rluC" ["rluC", "yceC", "b1086", "ECK1071"] 1144940 1145899 "+" "EG11118_RNA" +"EG11119" "yceD" ["yceD", "b1088", "ECK1074"] 1146794 1147315 "+" "EG11119_RNA" +"EG11120" "tfaE" ["tfaE", "ycfA", "b1156", "ECK1142"] 1208517 1209119 "-" "EG11120_RNA" +"EG11121" "yciA" ["yciA", "b1253", "ECK1247"] 1311848 1312246 "-" "EG11121_RNA" +"EG11122" "yciB" ["yciB", "b1254", "ECK1248"] 1312351 1312890 "-" "EG11122_RNA" +"EG11123" "yciC" ["yciC", "b1255", "ECK1249"] 1312920 1313663 "-" "EG11123_RNA" +"EG11124" "ompW" ["ompW", "yciD", "b1256", "ECK1250"] 1314020 1314658 "+" "EG11124_RNA" +"EG11125" "yciE" ["yciE", "b1257", "ECK1251"] 1314718 1315224 "-" "EG11125_RNA" +"EG11126" "yciF" ["yciF", "b1258", "ECK1252"] 1315270 1315770 "-" "EG11126_RNA" +"EG11127" "yciG" ["yciG", "b1259", "ECK1253"] 1315856 1316035 "-" "EG11127_RNA" +"EG11128" "yciH" ["yciH", "b1282", "ECK1277"] 1342658 1342984 "+" "EG11128_RNA" +"EG11129" "rem" ["rem", "b1561", "ECK1555"] 1644651 1644902 "-" "EG11129_RNA" +"EG11130" "hokD" ["hokD", "relF", "b1562", "ECK1556"] 1645119 1645274 "-" "EG11130_RNA" +"EG11131" "relE" ["relE", "b1563", "ECK1557"] 1645346 1645633 "-" "EG11131_RNA" +"EG11132" "ppsR" ["ppsR", "ydiA", "b1703", "ECK1701"] 1787445 1788278 "+" "EG11132_RNA" +"EG11133" "nlpC" ["nlpC", "b1708", "ECK1706"] 1792267 1792731 "-" "EG11133_RNA" +"EG11134" "ydjA" ["ydjA", "b1765", "ECK1763"] 1848125 1848676 "-" "EG11134_RNA" +"EG11135" "pncA" ["pncA", "nam", "ydjB", "b1768", "ECK1766"] 1851887 1852528 "+" "EG11135_RNA" +"EG11136" "yebB" ["yebB", "b1862", "ECK1863"] 1946251 1946853 "+" "EG11136_RNA" +"EG11137" "yebC" ["yebC", "b1864", "ECK1865"] 1947411 1948151 "-" "EG11137_RNA" +"EG11138" "nudB" ["nudB", "yebD", "ntpA", "b1865", "ECK1866"] 1948180 1948632 "-" "EG11138_RNA" +"EG11139" "yecA" ["yecA", "b1908", "ECK1907"] 1990954 1991619 "-" "EG11139_RNA" +"EG11140" "uvrY" ["uvrY", "yecB", "b1914", "ECK1913"] 1994703 1995359 "-" "EG11140_RNA" +"EG11141" "yedA" ["yedA", "b1959", "ECK1957"] 2029539 2030459 "+" "EG11141_RNA" +"EG11142" "yfaA" ["yfaA", "pufY", "b2230", "ECK2222"] 2334956 2336644 "-" "EG11142_RNA" +"EG11143" "ubiG" ["ubiG", "pufX", "yfaB", "b2232", "ECK2224"] 2339567 2340289 "+" "EG11143_RNA" +"EG11144" "yfcA" ["yfcA", "b2327", "ECK2321"] 2444751 2445560 "-" "EG11144_RNA" +"EG11145" "pdeA" ["pdeA", "yfeA", "b2395", "ECK2389"] 2515643 2517832 "-" "EG11145_RNA" +"EG11146" "xapR" ["xapR", "pRndR", "pndR", "yfeB", "b2405", "ECK2399"] 2521593 2522477 "-" "EG11146_RNA" +"EG11147" "yffB" ["yffB", "b2471", "ECK2466"] 2591247 2591603 "+" "EG11147_RNA" +"EG11149" "gcvR" ["gcvR", "yffD", "b2479", "ECK2475"] 2599906 2600478 "+" "EG11149_RNA" +"EG11150" "hyfA" ["hyfA", "yffE", "b2481", "ECK2477"] 2601201 2601818 "+" "EG11150_RNA" +"EG11151" "raiA" ["raiA", "urf1", "yfiA", "pY", "b2597", "ECK2594"] 2737154 2737495 "+" "EG11151_RNA" +"EG11152" "yfiB" ["yfiB", "b2605", "ECK2602"] 2743625 2744107 "+" "EG11152_RNA" +"EG11153" "rimM" ["rimM", "yfjA", "b2608", "ECK2605"] 2745370 2745918 "-" "EG11153_RNA" +"EG11154" "ppdC" ["ppdC", "ygdA", "b2823", "ECK2819"] 2962441 2962764 "-" "EG11154_RNA" +"EG11155" "ygdB" ["ygdB", "b2824", "ECK2820"] 2962749 2963156 "-" "EG11155_RNA" +"EG11156" "ppdB" ["ppdB", "ygdC", "b2825", "ECK2821"] 2963153 2963716 "-" "EG11156_RNA" +"EG11157" "ygeA" ["ygeA", "b2840", "ECK2838"] 2979943 2980635 "-" "EG11157_RNA" +"EG11158" "fau" ["fau", "ygfA", "b2912", "ECK2907"] 3056241 3056789 "+" "EG11158_RNA" +"EG11159" "argO" ["argO", "yggA", "b2923", "ECK2919"] 3068173 3068808 "-" "EG11159_RNA" +"EG11160" "mscS" ["mscS", "yggB", "b2924", "ECK2920"] 3068947 3069807 "-" "EG11160_RNA" +"EG11161" "yggC" ["yggC", "b2928", "ECK2924"] 3073976 3074689 "-" "EG11161_RNA" +"EG11162" "fumE" ["fumE", "yggD", "b2929", "ECK2925"] 3074686 3075195 "-" "EG11162_RNA" +"EG11163" "ygiA" ["ygiA", "b3036", "ECK3027"] 3179596 3179856 "+" "EG11163_RNA" +"EG11164" "ygiB" ["ygiB", "b3037", "ECK3028"] 3179744 3180415 "+" "EG11164_RNA" +"EG11165" "ygiC" ["ygiC", "b3038", "ECK3029"] 3180421 3181581 "+" "EG11165_RNA" +"EG11166" "ygiD" ["ygiD", "b3039", "ECK3030"] 3181619 3182434 "-" "EG11166_RNA" +"EG11167" "zupT" ["zupT", "ygiE", "b3040", "ECK3031"] 3182550 3183323 "+" "EG11167_RNA" +"EG11168" "ttdA" ["ttdA", "ygjA", "b3061", "ECK3051"] 3206463 3207374 "+" "EG11168_RNA" +"EG11169" "ttdB" ["ttdB", "ygjB", "b3062", "ECK3052"] 3207371 3207976 "+" "EG11169_RNA" +"EG11171" "tsaD" ["tsaD", "gcp", "ygjD", "b3064", "ECK3054"] 3209530 3210543 "-" "EG11171_RNA" +"EG11172" "tdcD" ["tdcD", "yhaA", "b3115", "ECK3104"] 3262452 3263660 "-" "EG11172_RNA" +"EG11173" "yhaB" ["yhaB", "b3120", "ECK3109"] 3267854 3268393 "+" "EG11173_RNA" +"EG11174" "yhaC" ["yhaC", "b3121", "ECK3110"] 3268415 3269602 "+" "EG11174_RNA" +"EG11175" "garK" ["garK", "yhaD", "b3124", "ECK3112"] 3270625 3271770 "-" "EG11175_RNA" +"EG11176" "garR" ["garR", "yhaE", "b3125", "ECK3113"] 3271867 3272751 "-" "EG11176_RNA" +"EG11177" "truB" ["truB", "yhbA", "b3166", "ECK3155"] 3311833 3312777 "-" "EG11177_RNA" +"EG11178" "rbfA" ["rbfA", "sdr-43", "yhbB", "b3167", "ECK3156"] 3312777 3313178 "-" "EG11178_RNA" +"EG11179" "rimP" ["rimP", "yhbC", "b3170", "ECK3159"] 3317554 3318006 "-" "EG11179_RNA" +"EG11180" "mscL" ["mscL", "yhdC", "b3291", "ECK3277"] 3438024 3438434 "+" "EG11180_RNA" +"EG11181" "bfd" ["bfd", "yheA", "b3337", "ECK3324"] 3466797 3466991 "-" "EG11181_RNA" +"EG11182" "yhfA" ["yhfA", "b3356", "ECK3344"] 3485414 3485818 "-" "EG11182_RNA" +"EG11183" "damX" ["damX", "yhfB", "b3388", "ECK3375"] 3516020 3517306 "-" "EG11183_RNA" +"EG11184" "yhhA" ["yhhA", "b3448", "ECK3432"] 3586943 3587383 "+" "EG11184_RNA" +"EG11186" "yiaA" ["yiaA", "b3562", "ECK3551"] 3726924 3727361 "-" "EG11186_RNA" +"EG11187" "yibA" ["yibA", "b3594", "ECK3583"] 3766337 3767179 "+" "EG11187_RNA" +"EG11188" "htrL" ["htrL", "yibB", "b3618", "ECK3608"] 3792826 3793683 "-" "EG11188_RNA" +"EG11189" "waaC" ["waaC", "rfa-2", "rfaC", "yibC", "b3621", "ECK3611"] 3795979 3796938 "+" "EG11189_RNA" +"EG11190" "coaD" ["coaD", "yicA", "kdtB", "b3634", "ECK3624"] 3809825 3810304 "+" "EG11190_RNA" +"EG11191" "slmA" ["slmA", "yicB", "ttk", "b3641", "ECK3631"] 3814494 3815090 "+" "EG11191_RNA" +"EG11192" "yicC" ["yicC", "b3644", "ECK3634"] 3816676 3817539 "+" "EG11192_RNA" +"EG11193" "dinD" ["dinD", "pcsA", "yicD", "b3645", "ECK3635"] 3817760 3818584 "+" "EG11193_RNA" +"EG11194" "xanP" ["xanP", "yicE", "b3654", "ECK3644"] 3828945 3830336 "+" "EG11194_RNA" +"EG11195" "yidA" ["yidA", "b3697", "ECK3689"] 3876140 3876952 "-" "EG11195_RNA" +"EG11196" "yidB" ["yidB", "b3698", "ECK3690"] 3877067 3877465 "-" "EG11196_RNA" +"EG11197" "yidC" ["yidC", "b3705", "ECK3698"] 3885076 3886722 "+" "EG11197_RNA" +"EG11198" "glmU" ["glmU", "yieA", "b3730", "ECK3723"] 3913830 3915200 "-" "EG11198_RNA" +"EG11199" "mioC" ["mioC", "yieB", "b3742", "ECK3736"] 3926012 3926455 "-" "EG11199_RNA" +"EG11201" "yigA" ["yigA", "b3810", "ECK3805"] 3995583 3996290 "+" "EG11201_RNA" +"EG11202" "yigB" ["yigB", "b3812", "ECK3807"] 3997183 3997899 "+" "EG11202_RNA" +"EG11203" "yihA" ["yihA", "engB", "b3865", "ECK3857"] 4050133 4050765 "-" "EG11203_RNA" +"EG11204" "murI" ["murI", "yijA", "dga", "glr", "b3967", "ECK3959"] 4165428 4166285 "+" "EG11204_RNA" +"EG11205" "murB" ["murB", "yijB", "b3972", "ECK3964"] 4172057 4173085 "+" "EG11205_RNA" +"EG11206" "yjaA" ["yjaA", "b4011", "ECK4003"] 4213234 4213617 "+" "EG11206_RNA" +"EG11207" "yjaB" ["yjaB", "b4012", "ECK4004"] 4213680 4214123 "-" "EG11207_RNA" +"EG11208" "arpA" ["arpA", "arp", "yjaC", "b4017", "ECK4009"] 4220301 4222487 "-" "EG11208_RNA" +"EG11209" "psiE" ["psiE", "yjbA", "b4030", "ECK4022"] 4240325 4240735 "+" "EG11209_RNA" +"EG11210" "rdcA" ["rdcA", "yjdA", "crfC", "b4109", "ECK4102"] 4327135 4329363 "+" "EG11210_RNA" +"EG11211" "epmA" ["epmA", "genX", "poxA", "yjeA", "b4155", "ECK4151"] 4382643 4383620 "+" "EG11211_RNA" +"EG11212" "nsrR" ["nsrR", "yjeB", "b4178", "ECK4174"] 4406190 4406615 "+" "EG11212_RNA" +"EG11213" "yzfA" ["yzfA", "yjfA", "ileR", "b4223", "ECK4219"] 4447976 4448245 "-" "EG11213_RNA" +"EG11214" "yjjA" ["yjjA", "b4360", "ECK4350"] 4599695 4600189 "-" "EG11214_RNA" +"EG11215" "yjjB" ["yjjB", "b4363", "ECK4353"] 4601624 4602097 "-" "EG11215_RNA" +"EG11217" "creA" ["creA", "yjjD", "b4397", "ECK4389"] 4635521 4635994 "+" "EG11217_RNA" +"EG11218" "creB" ["creB", "yjjE", "ORF2", "b4398", "ECK4390"] 4636007 4636696 "+" "EG11218_RNA" +"EG11219" "ydcA" ["ydcA", "b1419", "ECK1411"] 1491677 1491850 "+" "EG11219_RNA" +"EG11221" "zwf" ["zwf", "b1852", "ECK1853"] 1934839 1936314 "-" "EG11221_RNA" +"EG11222" "alkA" ["alkA", "aidA", "b2068", "ECK2062"] 2146692 2147540 "-" "EG11222_RNA" +"EG11223" "argH" ["argH", "b3960", "ECK3951"] 4156850 4158223 "+" "EG11223_RNA" +"EG11224" "fliO" ["fliO", "flbD", "b1947", "ECK1945"] 2021504 2021869 "+" "EG11224_RNA" +"EG11225" "dcuA" ["dcuA", "genA", "b4138", "ECK4132"] 4365472 4366773 "-" "EG11225_RNA" +"EG11226" "leuA" ["leuA", "b0074", "ECK0076"] 81958 83529 "-" "EG11226_RNA" +"EG11227" "fdnG" ["fdnG", "b1474", "ECK1468"] 1547401 1550448 "+" "EG11227_RNA" +"EG11228" "fdnH" ["fdnH", "b1475", "ECK1469"] 1550461 1551345 "+" "EG11228_RNA" +"EG11229" "fdnI" ["fdnI", "b1476", "ECK1470"] 1551338 1551991 "+" "EG11229_RNA" +"EG11230" "melR" ["melR", "b4118", "ECK4111"] 4340720 4341628 "-" "EG11230_RNA" +"EG11231" "rpmI" ["rpmI", "b1717", "ECK1715"] 1799802 1799999 "-" "EG11231_RNA" +"EG11232" "rpmJ" ["rpmJ", "secX", "b3299", "ECK3286"] 3442618 3442734 "-" "EG11232_RNA" +"EG11233" "rstB" ["rstB", "uspT", "b1609", "ECK1604"] 1682882 1684183 "+" "EG11233_RNA" +"EG11234" "ydiB" ["ydiB", "b1692", "ECK1690"] 1773789 1774655 "+" "EG11234_RNA" +"EG11235" "rhlE" ["rhlE", "b0797", "ECK0786"] 830872 832236 "+" "EG11235_RNA" +"EG11236" "pdeL" ["pdeL", "yahA", "b0315", "ECK0313"] 332371 333459 "+" "EG11236_RNA" +"EG11237" "chiA" ["chiA", "yheB", "b3338", "ECK3325"] 3467160 3469853 "-" "EG11237_RNA" +"EG11238" "ybhB" ["ybhB", "b0773", "ECK0762"] 807433 807909 "-" "EG11238_RNA" +"EG11239" "ybhA" ["ybhA", "b0766", "ECK0755"] 797613 798431 "-" "EG11239_RNA" +"EG11241" "ycaC" ["ycaC", "b0897", "ECK0888"] 944931 945557 "-" "EG11241_RNA" +"EG11242" "ycaD" ["ycaD", "b0898", "ECK0889"] 945871 947019 "+" "EG11242_RNA" +"EG11244" "yggE" ["yggE", "b2922", "ECK2918"] 3067340 3068080 "-" "EG11244_RNA" +"EG11245" "yggF" ["yggF", "yggK", "b2930", "ECK2926"] 3075217 3076182 "-" "EG11245_RNA" +"EG11246" "uspE" ["uspE", "ydaA", "b1333", "ECK1329"] 1397672 1398622 "-" "EG11246_RNA" +"EG11247" "rlmD" ["rlmD", "ygcA", "rumA", "b2785", "ECK2779"] 2913699 2915000 "-" "EG11247_RNA" +"EG11249" "mazF" ["mazF", "chpAK", "chpA", "b2782", "ECK2776"] 2910756 2911091 "-" "EG11249_RNA" +"EG11250" "chpS" ["chpS", "chpBI", "yjfB", "b4224", "ECK4220"] 4448447 4448698 "+" "EG11250_RNA" +"EG11251" "ychA" ["ychA", "sirB1", "b1214", "ECK1202"] 1267320 1268129 "+" "EG11251_RNA" +"EG11252" "mukE" ["mukE", "kicA", "ycbA", "b0923", "ECK0914"] 975622 976326 "+" "EG11252_RNA" +"EG11253" "ldtD" ["ldtD", "ycbB", "b0925", "ECK0916"] 981047 982894 "+" "EG11253_RNA" +"EG11254" "rlmH" ["rlmH", "ybeA", "b0636", "ECK0629"] 668248 668715 "-" "EG11254_RNA" +"EG11255" "rsfS" ["rsfS", "ybeB", "rsfA", "b0637", "ECK0630"] 668719 669036 "-" "EG11255_RNA" +"EG11256" "iraP" ["iraP", "yaiB", "b0382", "ECK0377"] 401386 401646 "+" "EG11256_RNA" +"EG11257" "dgcC" ["dgcC", "yaiC", "adrA", "b0385", "ECK0380"] 403703 404818 "+" "EG11257_RNA" +"EG11258" "focA" ["focA", "ycaE", "b0904", "ECK0895"] 953609 954466 "-" "EG11258_RNA" +"EG11259" "rnr" ["rnr", "vacB", "yjeC", "b4179", "ECK4175"] 4406654 4409095 "+" "EG11259_RNA" +"EG11260" "yifB" ["yifB", "b3765", "ECK3758"] 3948449 3949969 "-" "EG11260_RNA" +"EG11261" "nfsA" ["nfsA", "mda18", "mdaA", "ybjB", "b0851", "ECK0842"] 891184 891906 "+" "EG11261_RNA" +"EG11262" "tsgA" ["tsgA", "yhfH", "gutS", "yhfC", "b3364", "ECK3352"] 3492568 3493749 "+" "EG11262_RNA" +"EG11263" "gspB" ["gspB", "pioO", "pinO", "b3322", "ECK3309"] 3453508 3453927 "-" "EG11263_RNA" +"EG11265" "cmk" ["cmk", "ycaF", "mssA", "ycaG", "b0910", "ECK0901"] 961201 961884 "+" "EG11265_RNA" +"EG11266" "waaH" ["waaH", "yibD", "b3615", "ECK3605"] 3789047 3790081 "-" "EG11266_RNA" +"EG11267" "yiaB" ["yiaB", "b3563", "ECK3552"] 3727407 3727748 "-" "EG11267_RNA" +"EG11268" "fmt" ["fmt", "ftm", "yhdD", "b3288", "ECK3274"] 3434214 3435161 "+" "EG11268_RNA" +"EG11269" "hisL" ["hisL", "b2018", "ECK2013"] 2089996 2090046 "+" "EG11269_RNA" +"EG11270" "ilvL" ["ilvL", "b3766", "ECK3759"] 3950322 3950420 "+" "EG11270_RNA" +"EG11271" "pheL" ["pheL", "pheAE", "b2598", "ECK2595"] 2737599 2737646 "+" "EG11271_RNA" +"EG11272" "pheM" ["pheM", "phtL", "b1715", "ECK1713"] 1799226 1799270 "-" "EG11272_RNA" +"EG11273" "fruL" ["fruL", "b0079"] 87860 87946 "+" "EG11273_RNA" +"EG11274" "trpL" ["trpL", "trpEE", "b1265", "ECK1259"] 1323038 1323082 "-" "EG11274_RNA" +"EG11275" "ivbL" ["ivbL", "b3672", "ECK3663"] 3852890 3852988 "-" "EG11275_RNA" +"EG11276" "tnaC" ["tnaC", "tnaL", "b3707", "ECK3700"] 3888435 3888509 "+" "EG11276_RNA" +"EG11277" "thrL" ["thrL", "b0001", "ECK0001"] 190 255 "+" "EG11277_RNA" +"EG11279" "pyrL" ["pyrL", "pyrE-", "pyrE-LP", "b4246", "ECK4241"] 4472399 4472533 "-" "EG11279_RNA" +"EG11280" "leuL" ["leuL", "leuLP", "leulL", "leulLP", "leuIP", "b0075", "ECK0077"] 83622 83708 "-" "EG11280_RNA" +"EG11281" "mutL" ["mutL", "b4170", "ECK4166"] 4397412 4399259 "+" "EG11281_RNA" +"EG11282" "hyfB" ["hyfB", "yffF", "b2482", "ECK2478"] 2601818 2603836 "+" "EG11282_RNA" +"EG11283" "phnE" ["phnE", "ECK4097", "b4103", "b4104", "b4583", "ECK4096"] 4322443 4323281 "-" "EG11283_RNA" +"EG11284" "fabZ" ["fabZ", "sfhC21", "sabA1", "sefA", "yaeA", "b0180", "ECK0179"] 202101 202556 "+" "EG11284_RNA" +"EG11285" "glrR" ["glrR", "yfhA", "qseF", "b2554", "ECK2551"] 2687469 2688803 "-" "EG11285_RNA" +"EG11286" "argE" ["argE", "b3957", "ECK3948"] 4153696 4154847 "-" "EG11286_RNA" +"EG11287" "ygbA" ["ygbA", "b2732", "ECK2727"] 2856453 2856806 "-" "EG11287_RNA" +"EG11288" "mak" ["mak", "yajF", "b0394", "ECK0389"] 410144 411052 "+" "EG11288_RNA" +"EG11289" "preA" ["preA", "yeiA", "b2147", "ECK2140"] 2235265 2236500 "+" "EG11289_RNA" +"EG11290" "yeiB" ["yeiB", "b2152", "ECK2145"] 2241810 2242967 "-" "EG11290_RNA" +"EG11291" "loiP" ["loiP", "yggG", "b2936", "ECK2931"] 3081913 3082671 "+" "EG11291_RNA" +"EG11292" "yghA" ["yghA", "b3003", "ECK2997"] 3149662 3150546 "+" "EG11292_RNA" +"EG11293" "lolB" ["lolB", "hemM", "ychC", "b1209", "ECK1197"] 1262877 1263500 "-" "EG11293_RNA" +"EG11294" "ispE" ["ispE", "ipk", "ychB", "b1208", "ECK1196"] 1262026 1262877 "-" "EG11294_RNA" +"EG11295" "wzzE" ["wzzE", "wzz", "yifC", "b3785", "ECK3777"] 3969031 3970077 "+" "EG11295_RNA" +"EG11296" "radA" ["radA", "sms", "b4389", "ECK4381"] 4625912 4627294 "+" "EG11296_RNA" +"EG11297" "dsbA" ["dsbA", "dsf", "iarA", "ppfA", "b3860", "ECK3852"] 4043418 4044044 "+" "EG11297_RNA" +"EG11298" "yhdE" ["yhdE", "b3248", "ECK3236"] 3397785 3398378 "-" "EG11298_RNA" +"EG11299" "rng" ["rng", "adhR", "cafA", "yhdF", "b3247", "ECK3235"] 3396326 3397795 "-" "EG11299_RNA" +"EG11300" "ydfA" ["ydfA", "b1571", "ECK1565"] 1648508 1648663 "+" "EG11300_RNA" +"EG11301" "ydfB" ["ydfB", "b1572", "ECK1566"] 1648665 1648793 "+" "EG11301_RNA" +"EG11302" "ydfC" ["ydfC", "b1573", "ECK1567"] 1648823 1649041 "+" "EG11302_RNA" +"EG11303" "ydfD" ["ydfD", "b1576", "ECK1570"] 1649794 1649985 "+" "EG11303_RNA" +"EG11304" "ydfE" ["ydfE", "b1577", "ECK1571"] 1650078 1650998 "+" "EG11304_RNA" +"EG11305" "tatE" ["tatE", "ybeC", "b0627", "ECK0620"] 658947 659150 "+" "EG11305_RNA" +"EG11306" "lipA" ["lipA", "lip", "b0628", "ECK0621"] 659251 660216 "-" "EG11306_RNA" +"EG11309" "pdxI" ["pdxI", "ydbC", "b1406", "ECK1399"] 1474221 1475081 "+" "EG11309_RNA" +"EG11310" "ydbD" ["ydbD", "b1407", "ECK1400"] 1475144 1477450 "+" "EG11310_RNA" +"EG11311" "dusB" ["dusB", "yhdG", "b3260", "ECK3247"] 3410280 3411245 "+" "EG11311_RNA" +"EG11312" "yicR" ["yicR", "radC", "b3638", "ECK3628"] 3811891 3812559 "-" "EG11312_RNA" +"EG11313" "rhaT" ["rhaT", "b3907", "ECK3900"] 4099491 4100525 "-" "EG11313_RNA" +"EG11314" "purB" ["purB", "ade(h)", "ade", "b1131", "ECK1117"] 1190616 1191986 "-" "EG11314_RNA" +"EG11315" "yhdH" ["yhdH", "acuI", "b3253", "ECK3241"] 3403484 3404458 "+" "EG11315_RNA" +"EG11316" "malS" ["malS", "b3571", "ECK3560"] 3737497 3739527 "+" "EG11316_RNA" +"EG11317" "fabD" ["fabD", "tfpA", "b1092", "ECK1078"] 1149728 1150657 "+" "EG11317_RNA" +"EG11318" "fabG" ["fabG", "b1093", "ECK1079"] 1150670 1151404 "+" "EG11318_RNA" +"EG11319" "galU" ["galU", "ychD", "b1236", "ECK1231"] 1291457 1292365 "+" "EG11319_RNA" +"EG11320" "nrdR" ["nrdR", "ybaD", "b0413", "ECK0407"] 433002 433451 "+" "EG11320_RNA" +"EG11321" "ribD" ["ribD", "nusII", "ribG", "ybaE", "b0414", "ECK0408"] 433455 434558 "+" "EG11321_RNA" +"EG11322" "ribE" ["ribE", "nusIII", "ribH", "ybaF", "b0415", "ECK0409"] 434647 435117 "+" "EG11322_RNA" +"EG11323" "ygfB" ["ygfB", "b2909", "ECK2904"] 3054866 3055444 "-" "EG11323_RNA" +"EG11324" "ubiH" ["ubiH", "acd", "visB", "b2907", "ECK2902"] 3052340 3053518 "-" "EG11324_RNA" +"EG11325" "acnA" ["acnA", "acn", "b1276", "ECK1271"] 1335831 1338506 "+" "EG11325_RNA" +"EG11326" "codA" ["codA", "b0337", "ECK0334"] 356171 357454 "+" "EG11326_RNA" +"EG11327" "codB" ["codB", "b0336", "ECK0333"] 354922 356181 "+" "EG11327_RNA" +"EG11328" "fdx" ["fdx", "b2525", "ECK2522"] 2656748 2657083 "-" "EG11328_RNA" +"EG11329" "gabD" ["gabD", "b2661", "ECK2655"] 2791273 2792721 "+" "EG11329_RNA" +"EG11330" "gabP" ["gabP", "b2663", "ECK2657"] 2794253 2795653 "+" "EG11330_RNA" +"EG11331" "ribA" ["ribA", "b1277", "ECK1272"] 1338570 1339160 "-" "EG11331_RNA" +"EG11332" "upp" ["upp", "uraP", "b2498", "ECK2494"] 2620246 2620872 "-" "EG11332_RNA" +"EG11333" "ubiI" ["ubiI", "visC", "b2906", "ECK2901"] 3051115 3052317 "-" "EG11333_RNA" +"EG11334" "ligB" ["ligB", "yicF", "b3647", "ECK3637"] 3819488 3821170 "-" "EG11334_RNA" +"EG11335" "nadR" ["nadR", "nadI", "b4390", "ECK4382"] 4627315 4628547 "+" "EG11335_RNA" +"EG11336" "endA" ["endA", "b2945", "ECK2940"] 3090347 3091054 "+" "EG11336_RNA" +"EG11337" "lysP" ["lysP", "cadR", "b2156", "ECK2149"] 2247063 2248532 "-" "EG11337_RNA" +"EG11338" "msyB" ["msyB", "b1051", "ECK1037"] 1113807 1114181 "-" "EG11338_RNA" +"EG11339" "waaG" ["waaG", "rfaG", "b3631", "ECK3621"] 3805943 3807067 "-" "EG11339_RNA" +"EG11340" "waaP" ["waaP", "rfaP", "b3630", "ECK3620"] 3805153 3805950 "-" "EG11340_RNA" +"EG11341" "waaQ" ["waaQ", "rfaQ", "b3632", "ECK3622"] 3807064 3808098 "-" "EG11341_RNA" +"EG11342" "ychE" ["ychE", "b1242", "ECK1236"] 1298598 1299245 "+" "EG11342_RNA" +"EG11343" "mdtG" ["mdtG", "yceE", "b1053", "ECK1038"] 1114264 1115490 "-" "EG11343_RNA" +"EG11344" "mnmA" ["mnmA", "asuE", "ycfB", "trmU", "b1133", "ECK1119"] 1192667 1193773 "-" "EG11344_RNA" +"EG11345" "hflD" ["hflD", "hslZ", "ycfC", "b1132", "ECK1118"] 1191990 1192631 "-" "EG11345_RNA" +"EG11346" "fliE" ["fliE", "fla", "flaAI", "flaN", "b1937", "ECK1935"] 2012700 2013014 "-" "EG11346_RNA" +"EG11347" "fliF" ["fliF", "flaAII.1", "flaBI", "b1938", "ECK1936"] 2013229 2014887 "+" "EG11347_RNA" +"EG11350" "waaS" ["waaS", "rfaS", "b3629", "ECK3619"] 3804181 3805116 "-" "EG11350_RNA" +"EG11351" "waaB" ["waaB", "lps", "syn", "rfaB", "b3628", "ECK3618"] 3803058 3804137 "-" "EG11351_RNA" +"EG11352" "waaO" ["waaO", "waaI", "rfaI", "b3627", "ECK3617"] 3802039 3803058 "-" "EG11352_RNA" +"EG11353" "waaJ" ["waaJ", "rfaJ", "waaR", "b3626", "ECK3616"] 3800983 3801999 "-" "EG11353_RNA" +"EG11354" "emrA" ["emrA", "b2685", "ECK2679"] 2811427 2812599 "+" "EG11354_RNA" +"EG11355" "fliA" ["fliA", "rpoF", "flaD", "b1922", "ECK1921"] 2001070 2001789 "-" "EG11355_RNA" +"EG11356" "fliZ" ["fliZ", "yedH", "b1921", "ECK1920"] 2000473 2001024 "-" "EG11356_RNA" +"EG11357" "dinG" ["dinG", "rarB", "b0799", "ECK0788"] 833070 835220 "+" "EG11357_RNA" +"EG11358" "murA" ["murA", "mrbA", "murZ", "b3189", "ECK3178"] 3335235 3336494 "-" "EG11358_RNA" +"EG11359" "gspO" ["gspO", "hofD", "hopD", "hopO", "yheC", "b3335", "ECK3322"] 3465543 3466220 "+" "EG11359_RNA" +"EG11360" "bax" ["bax", "b3570", "ECK3559"] 3736353 3737177 "-" "EG11360_RNA" +"EG11361" "asmA" ["asmA", "yegA", "b2064", "ECK2058"] 2139759 2141612 "-" "EG11361_RNA" +"EG11362" "gluQ" ["gluQ", "yadB", "b0144", "ECK0143"] 159186 160112 "-" "EG11362_RNA" +"EG11363" "amiB" ["amiB", "yjeD", "b4169", "ECK4165"] 4396065 4397402 "+" "EG11363_RNA" +"EG11364" "bglH" ["bglH", "yieC", "b3720", "ECK3713"] 3900604 3902220 "-" "EG11364_RNA" +"EG11366" "rob" ["rob", "cbpB", "robA", "b4396", "ECK4388"] 4634441 4635310 "-" "EG11366_RNA" +"EG11367" "barA" ["barA", "airS", "b2786", "ECK2780"] 2915057 2917813 "+" "EG11367_RNA" +"EG11368" "menB" ["menB", "b2262", "ECK2256"] 2375962 2376819 "-" "EG11368_RNA" +"EG11369" "ubiC" ["ubiC", "b4039", "ECK4031"] 4252506 4253003 "+" "EG11369_RNA" +"EG11370" "ubiA" ["ubiA", "cyr", "b4040", "ECK4032"] 4253016 4253888 "+" "EG11370_RNA" +"EG11371" "pgpC" ["pgpC", "yfhB", "b2560", "ECK2558"] 2697915 2698550 "-" "EG11371_RNA" +"EG11372" "tadA" ["tadA", "yfhC", "b2559", "ECK2557"] 2697354 2697857 "-" "EG11372_RNA" +"EG11373" "mltF" ["mltF", "yfhD", "b2558", "ECK2556"] 2695801 2697357 "+" "EG11373_RNA" +"EG11374" "folK" ["folK", "b0142", "ECK0141"] 157253 157732 "-" "EG11374_RNA" +"EG11375" "folE" ["folE", "b2153", "ECK2146"] 2242984 2243652 "-" "EG11375_RNA" +"EG11376" "ftsP" ["ftsP", "sui", "sufI", "b3017", "ECK3008"] 3161257 3162669 "-" "EG11376_RNA" +"EG11377" "plsC" ["plsC", "parF", "b3018", "ECK3009"] 3162744 3163481 "-" "EG11377_RNA" +"EG11378" "sufA" ["sufA", "ydiC", "b1684", "ECK1680"] 1764018 1764386 "-" "EG11378_RNA" +"EG11379" "appB" ["appB", "cbdB", "cyxB", "b0979", "ECK0970"] 1039296 1040432 "+" "EG11379_RNA" +"EG11380" "appC" ["appC", "cbdA", "cyxA", "b0978", "ECK0969"] 1037740 1039284 "+" "EG11380_RNA" +"EG11381" "glgS" ["glgS", "scoR", "b3049", "ECK3038"] 3191739 3191939 "-" "EG11381_RNA" +"EG11383" "elbB" ["elbB", "yzzB", "elb2", "s27a", "yhbL", "b3209", "ECK3198"] 3349806 3350459 "-" "EG11383_RNA" +"EG11384" "ahpC" ["ahpC", "tpx", "ssi8", "b0605", "ECK0599"] 638945 639508 "+" "EG11384_RNA" +"EG11385" "ahpF" ["ahpF", "b0606", "ECK0600"] 639753 641318 "+" "EG11385_RNA" +"EG11386" "yjiV" ["yjiV", "mcrD", "yjiU", "b4343", "b4344", "b4486", "ECK4334"] 4574135 4576855 "+" "EG11386_RNA" +"EG11387" "amyA" ["amyA", "yedC", "b1927", "ECK1926"] 2006156 2007643 "+" "EG11387_RNA" +"EG11388" "fliS" ["fliS", "b1925", "ECK1924"] 2005303 2005713 "+" "EG11388_RNA" +"EG11389" "fliT" ["fliT", "b1926", "ECK1925"] 2005713 2006078 "+" "EG11389_RNA" +"EG11390" "uspA" ["uspA", "b3495", "ECK3480"] 3640111 3640545 "+" "EG11390_RNA" +"EG11391" "osmY" ["osmY", "csi-5", "b4376", "ECK4367"] 4611396 4612001 "+" "EG11391_RNA" +"EG11392" "nhaB" ["nhaB", "b1186", "ECK1174"] 1233176 1234717 "-" "EG11392_RNA" +"EG11393" "dsbB" ["dsbB", "ycgA", "roxB", "dsbX", "iarB", "rosB", "b1185", "ECK1173"] 1232500 1233030 "-" "EG11393_RNA" +"EG11394" "fabR" ["fabR", "yijC", "b3963", "ECK3955"] 4161067 4161771 "+" "EG11394_RNA" +"EG11395" "yijD" ["yijD", "b3964", "ECK3956"] 4161771 4162130 "+" "EG11395_RNA" +"EG11396" "ubiD" ["ubiD", "yigY", "yigC", "b3843", "ECK3835"] 4024988 4026481 "+" "EG11396_RNA" +"EG11398" "hdeA" ["hdeA", "yhiB", "yhhC", "b3510", "ECK3494"] 3656408 3656740 "-" "EG11398_RNA" +"EG11399" "hdeB" ["hdeB", "yhiC", "yhhD", "b3509", "ECK3493"] 3655966 3656292 "-" "EG11399_RNA" +"EG11400" "yhiD" ["yhiD", "yhhE", "b3508", "ECK3492"] 3655255 3655902 "-" "EG11400_RNA" +"EG11401" "psiF" ["psiF", "b0384", "ECK0379"] 403281 403601 "+" "EG11401_RNA" +"EG11402" "treC" ["treC", "treE", "olgH", "b4239", "ECK4234"] 4463054 4464709 "-" "EG11402_RNA" +"EG11403" "ppx" ["ppx", "b2502", "ECK2498"] 2625115 2626656 "+" "EG11403_RNA" +"EG11404" "ychF" ["ychF", "gtp1", "b1203", "ECK1191"] 1256721 1257812 "-" "EG11404_RNA" +"EG11405" "cydD" ["cydD", "htrD", "b0887", "ECK0878"] 929196 930962 "-" "EG11405_RNA" +"EG11406" "ribC" ["ribC", "ribE", "b1662", "ECK1658"] 1742601 1743242 "-" "EG11406_RNA" +"EG11407" "dadA" ["dadA", "dadR", "b1189", "ECK1177"] 1237571 1238869 "+" "EG11407_RNA" +"EG11408" "dadX" ["dadX", "alnA", "alnB", "dadB", "b1190", "ECK1178"] 1238879 1239949 "+" "EG11408_RNA" +"EG11409" "lpxK" ["lpxK", "ycaH", "b0915", "ECK0906"] 968366 969352 "+" "EG11409_RNA" +"EG11410" "yjgA" ["yjgA", "b4234", "ECK4229"] 4457314 4457865 "-" "EG11410_RNA" +"EG11411" "glnD" ["glnD", "glnD5", "b0167", "ECK0165"] 185978 188650 "-" "EG11411_RNA" +"EG11412" "holA" ["holA", "b0640", "ECK0633"] 670574 671605 "-" "EG11412_RNA" +"EG11413" "holC" ["holC", "b4259", "ECK4252"] 4483837 4484280 "-" "EG11413_RNA" +"EG11414" "holD" ["holD", "b4372", "ECK4363"] 4607803 4608216 "+" "EG11414_RNA" +"EG11415" "dps" ["dps", "pexB", "vtm", "b0812", "ECK0801"] 848408 848911 "-" "EG11415_RNA" +"EG11417" "nrdD" ["nrdD", "b4238", "ECK4233"] 4460522 4462660 "-" "EG11417_RNA" +"EG11418" "dcd" ["dcd", "dus", "paxA", "b2065", "ECK2059"] 2141634 2142215 "-" "EG11418_RNA" +"EG11419" "bcr" ["bcr", "bicA", "bicR", "sur", "suxA", "b2182", "ECK2176"] 2278570 2279760 "-" "EG11419_RNA" +"EG11421" "cynR" ["cynR", "b0338", "ECK0335"] 357791 358690 "-" "EG11421_RNA" +"EG11422" "inaA" ["inaA", "yfaG", "b2237", "ECK2229"] 2348822 2349472 "-" "EG11422_RNA" +"EG11423" "waaU" ["waaU", "rfaK", "b3623", "ECK3613"] 3798239 3799312 "-" "EG11423_RNA" +"EG11424" "waaL" ["waaL", "rfaL", "b3622", "ECK3612"] 3796948 3798207 "+" "EG11424_RNA" +"EG11425" "waaY" ["waaY", "rfaY", "b3625", "ECK3615"] 3800267 3800965 "-" "EG11425_RNA" +"EG11426" "waaZ" ["waaZ", "rfaZ", "b3624", "ECK3614"] 3799345 3800196 "-" "EG11426_RNA" +"EG11427" "tktA" ["tktA", "tkt", "b2935", "ECK2930"] 3079644 3081635 "-" "EG11427_RNA" +"EG11428" "sthA" ["sthA", "sth", "udhA", "b3962", "ECK3954"] 4159390 4160790 "-" "EG11428_RNA" +"EG11429" "yjaZ" ["yjaZ", "htrC", "b3989", "ECK3980"] 4189786 4190325 "+" "EG11429_RNA" +"EG11430" "roxA" ["roxA", "ycfD", "b1128", "ECK1114"] 1187119 1188240 "-" "EG11430_RNA" +"EG11431" "yfeC" ["yfeC", "b2398", "ECK2392"] 2518467 2518811 "+" "EG11431_RNA" +"EG11432" "yfeD" ["yfeD", "b2399", "ECK2393"] 2518813 2519205 "+" "EG11432_RNA" +"EG11433" "msrA" ["msrA", "pms", "pmsR", "b4219", "ECK4215"] 4441538 4442176 "-" "EG11433_RNA" +"EG11434" "marA" ["marA", "norB", "inaR", "cfxB", "nfxC", "soxQ", "b1531", "ECK1524"] 1619574 1619957 "+" "EG11434_RNA" +"EG11435" "marR" ["marR", "cfxB", "inaR", "soxQ", "b1530", "ECK1523"] 1619120 1619554 "+" "EG11435_RNA" +"EG11436" "ahr" ["ahr", "yjgB", "b4269", "ECK4262"] 4495190 4496209 "-" "EG11436_RNA" +"EG11437" "plsX" ["plsX", "b1090", "ECK1076"] 1147621 1148691 "+" "EG11437_RNA" +"EG11438" "yceF" ["yceF", "b1087", "ECK1072"] 1146011 1146595 "-" "EG11438_RNA" +"EG11439" "emrB" ["emrB", "b2686", "ECK2680"] 2812616 2814154 "+" "EG11439_RNA" +"EG11440" "def" ["def", "fms", "b3287", "ECK3273"] 3433690 3434199 "+" "EG11440_RNA" +"EG11441" "prlC" ["prlC", "opdA", "b3498", "ECK3483"] 3643140 3645182 "-" "EG11441_RNA" +"EG11442" "gcvT" ["gcvT", "b2905", "ECK2900"] 3049573 3050667 "-" "EG11442_RNA" +"EG11443" "rpiA" ["rpiA", "ygfC", "b2914", "ECK2910"] 3058666 3059325 "-" "EG11443_RNA" +"EG11444" "scpA" ["scpA", "yliK", "sbm", "b2917", "ECK2913"] 3060850 3062994 "+" "EG11444_RNA" +"EG11445" "argK" ["argK", "ygfD", "b2918", "ECK2914"] 3062987 3063982 "+" "EG11445_RNA" +"EG11447" "csrA" ["csrA", "zfiA", "b2696", "ECK2691"] 2818961 2819146 "-" "EG11447_RNA" +"EG11448" "acs" ["acs", "yfaC", "acsA", "b4069", "ECK4062"] 4285413 4287371 "-" "EG11448_RNA" +"EG11449" "hdfR" ["hdfR", "b3762", "yifA", "yifD", "b3763", "b4480", "ECK3756"] 3947128 3947967 "-" "EG11449_RNA" +"EG11450" "maoP" ["maoP", "yifE", "b3764", "ECK3757"] 3948086 3948424 "+" "EG11450_RNA" +"EG11451" "wecB" ["wecB", "yifF", "nfrC", "rffE", "mnaA", "b3786", "ECK3778"] 3970133 3971263 "+" "EG11451_RNA" +"EG11452" "wecC" ["wecC", "rff", "rffD", "mnaB", "b3787", "ECK3779"] 3971260 3972522 "+" "EG11452_RNA" +"EG11453" "rffG" ["rffG", "rff", "b3788", "ECK3780"] 3972522 3973589 "+" "EG11453_RNA" +"EG11454" "rffH" ["rffH", "yifG", "b3789", "ECK3781"] 3973608 3974489 "+" "EG11454_RNA" +"EG11455" "rffC" ["rffC", "rff", "wecD", "yifH", "b3790", "ECK3782"] 3974467 3975141 "+" "EG11455_RNA" +"EG11456" "wecE" ["wecE", "rff", "fcnA", "rffA", "yifI", "b3791", "ECK3783"] 3975146 3976276 "+" "EG11456_RNA" +"EG11457" "wzyE" ["wzyE", "rffT", "b3793", "ECK3786"] 3978601 3979953 "+" "EG11457_RNA" +"EG11458" "rffM" ["rffM", "rff", "wecG", "b3794", "ECK3787"] 3979956 3980696 "+" "EG11458_RNA" +"EG11459" "yifK" ["yifK", "b3795", "ECK3788"] 3980887 3982272 "+" "EG11459_RNA" +"EG11460" "narQ" ["narQ", "b2469", "ECK2464"] 2585731 2587431 "+" "EG11460_RNA" +"EG11462" "yigE" ["yigE", "b3815", "b3814", "b4482", "ECK3809"] 4000292 4001056 "-" "EG11462_RNA" +"EG11463" "corA" ["corA", "b3816", "ECK3810"] 4001426 4002376 "+" "EG11463_RNA" +"EG11464" "yigF" ["yigF", "b3817", "ECK3811"] 4002419 4002799 "-" "EG11464_RNA" +"EG11465" "yigG" ["yigG", "b3818", "ECK3812"] 4002813 4003193 "-" "EG11465_RNA" +"EG11466" "rarD" ["rarD", "yigH", "b3819", "ECK3813"] 4003288 4004178 "-" "EG11466_RNA" +"EG11467" "yigI" ["yigI", "b3820", "ECK3814"] 4004230 4004697 "-" "EG11467_RNA" +"EG11468" "rhtC" ["rhtC", "yigJ", "b3823", "ECK3817"] 4007757 4008377 "+" "EG11468_RNA" +"EG11469" "rhtB" ["rhtB", "yigK", "b3824", "ECK3818"] 4008439 4009059 "-" "EG11469_RNA" +"EG11470" "yigL" ["yigL", "b3826", "ECK3820"] 4010200 4011000 "+" "EG11470_RNA" +"EG11471" "bioP" ["bioP", "yigM", "b3827", "ECK3821"] 4011076 4011975 "+" "EG11471_RNA" +"EG11472" "rmuC" ["rmuC", "yigN", "b3832", "ECK3826"] 4017333 4018760 "+" "EG11472_RNA" +"EG11473" "ubiE" ["ubiE", "yigO", "b3833", "ECK3827"] 4018855 4019610 "+" "EG11473_RNA" +"EG11474" "ubiJ" ["ubiJ", "yigP", "b3834", "ECK3828"] 4019624 4020229 "+" "EG11474_RNA" +"EG11476" "ubiB" ["ubiB", "yigS", "yigQ", "yigR", "aarF", "b3835", "ECK3829"] 4020226 4021866 "+" "EG11476_RNA" +"EG11479" "tatC" ["tatC", "mttB", "yigU", "yigV", "b3839", "ECK3832"] 4022736 4023512 "+" "EG11479_RNA" +"EG11481" "tatD" ["tatD", "b3841", "yigX", "b3840", "mttC", "yigW", "b4483", "ECK3833"] 4023554 4024336 "+" "EG11481_RNA" +"EG11484" "yigZ" ["yigZ", "b3848", "ECK3840"] 4032492 4033106 "+" "EG11484_RNA" +"EG11485" "hemG" ["hemG", "yihB", "b3850", "ECK3842"] 4034608 4035153 "+" "EG11485_RNA" +"EG11486" "wzxE" ["wzxE", "wzx", "yifJ", "b3792", "ECK3784"] 3976278 3977528 "+" "EG11486_RNA" +"EG11487" "pdxH" ["pdxH", "b1638", "ECK1634"] 1717351 1718007 "-" "EG11487_RNA" +"EG11488" "mliC" ["mliC", "ydhA", "b1639", "ECK1635"] 1718066 1718395 "-" "EG11488_RNA" +"EG11489" "csgA" ["csgA", "b1042", "ECK1028"] 1104447 1104902 "+" "EG11489_RNA" +"EG11490" "gadB" ["gadB", "b1493", "ECK1487"] 1570645 1572045 "-" "EG11490_RNA" +"EG11491" "dinF" ["dinF", "b4044", "ECK4036"] 4257742 4259121 "+" "EG11491_RNA" +"EG11492" "qorA" ["qorA", "hzc", "hcz", "qor", "b4051", "ECK4043"] 4263248 4264231 "-" "EG11492_RNA" +"EG11493" "pabC" ["pabC", "b1096", "ECK1082"] 1153300 1154109 "+" "EG11493_RNA" +"EG11494" "mltG" ["mltG", "yceG", "b1097", "ECK1083"] 1154112 1155134 "+" "EG11494_RNA" +"EG11495" "hdeD" ["hdeD", "yhiA", "b3511", "ECK3495"] 3656995 3657567 "+" "EG11495_RNA" +"EG11496" "prfH" ["prfH", "b0236", "ECK0237"] 253702 254202 "+" "EG11496_RNA" +"EG11497" "prmA" ["prmA", "yhdI", "prm-1", "b3259", "ECK3246"] 3409070 3409951 "+" "EG11497_RNA" +"EG11498" "yhdJ" ["yhdJ", "ccrM", "b3262", "ECK3249"] 3411653 3412537 "+" "EG11498_RNA" +"EG11499" "yhbE" ["yhbE", "b3184", "ECK3173"] 3331770 3332735 "-" "EG11499_RNA" +"EG11500" "holB" ["holB", "b1099", "ECK1085"] 1155762 1156766 "+" "EG11500_RNA" +"EG11501" "adiA" ["adiA", "adi", "b4117", "ECK4110"] 4338254 4340521 "-" "EG11501_RNA" +"EG11502" "rcsF" ["rcsF", "b0196", "ECK0196"] 219591 219995 "-" "EG11502_RNA" +"EG11503" "trmO" ["trmO", "tsaA", "yaeB", "b0195", "ECK0195"] 218887 219594 "-" "EG11503_RNA" +"EG11504" "metQ" ["metQ", "metD", "yaeC", "b0197", "ECK0197"] 220113 220928 "-" "EG11504_RNA" +"EG11505" "holE" ["holE", "b1842", "ECK1843"] 1925108 1925338 "+" "EG11505_RNA" +"EG11506" "ftsH" ["ftsH", "std", "hflB", "mrsC", "tolZ", "b3178", "ECK3167"] 3325001 3326935 "-" "EG11506_RNA" +"EG11507" "rlmE" ["rlmE", "ftsJ", "mrsF", "rrmJ", "b3179", "ECK3168"] 3327035 3327664 "-" "EG11507_RNA" +"EG11508" "sra" ["sra", "rpsV", "b1480", "ECK1474"] 1555826 1555963 "-" "EG11508_RNA" +"EG11509" "mbiA" ["mbiA", "htpY", "htgA", "b0012", "ECK0012"] 10830 11315 "+" "EG11509_RNA" +"EG11510" "ppk" ["ppk", "b2501", "ECK2497"] 2623044 2625110 "+" "EG11510_RNA" +"EG11511" "mog" ["mog", "yaaG", "bisD", "chlG", "mogA", "b0009", "ECK0009"] 9306 9893 "+" "EG11511_RNA" +"EG11512" "satP" ["satP", "yaaH", "b0010", "ECK0010"] 9928 10494 "-" "EG11512_RNA" +"EG11514" "gltF" ["gltF", "ossB", "b3214", "ECK3204"] 3361176 3361940 "+" "EG11514_RNA" +"EG11515" "yhcA" ["yhcA", "b3215", "ECK3205"] 3362112 3362786 "+" "EG11515_RNA" +"EG11516" "ycgB" ["ycgB", "b1188", "ECK1176"] 1235709 1237241 "-" "EG11516_RNA" +"EG11517" "glpX" ["glpX", "b3925", "ECK3917"] 4114569 4115579 "-" "EG11517_RNA" +"EG11519" "nikR" ["nikR", "yhhG", "b3481", "ECK3465"] 3618588 3618989 "+" "EG11519_RNA" +"EG11520" "yhhH" ["yhhH", "b3483", "ECK3467"] 3623399 3623782 "+" "EG11520_RNA" +"EG11521" "ybfA" ["ybfA", "b0699", "ECK0688"] 729134 729340 "+" "EG11521_RNA" +"EG11522" "ybfB" ["ybfB", "b0702", "ECK0690"] 733776 734102 "+" "EG11522_RNA" +"EG11523" "ybfC" ["ybfC", "b0704", "ECK0692"] 735650 736219 "+" "EG11523_RNA" +"EG11524" "ybfD" ["ybfD", "b0706", "ECK0695"] 738092 738853 "+" "EG11524_RNA" +"EG11525" "yhhI" ["yhhI", "b3484", "ECK3469"] 3624378 3625514 "+" "EG11525_RNA" +"EG11526" "ydcC" ["ydcC", "b1460", "ECK1454"] 1531816 1532952 "+" "EG11526_RNA" +"EG11527" "narP" ["narP", "b2193", "ECK2185"] 2290500 2291147 "+" "EG11527_RNA" +"EG11528" "fabI" ["fabI", "envM", "gts", "qmeA", "b1288", "ECK1283"] 1350251 1351039 "-" "EG11528_RNA" +"EG11529" "ftsN" ["ftsN", "msgA", "b3933", "ECK3925"] 4122380 4123339 "-" "EG11529_RNA" +"EG11530" "fadD" ["fadD", "oldD", "b1805", "ECK1803"] 1888061 1889746 "-" "EG11530_RNA" +"EG11531" "cfa" ["cfa", "cdfA", "b1661", "ECK1657"] 1741413 1742561 "+" "EG11531_RNA" +"EG11532" "menC" ["menC", "b2261", "ECK2255"] 2375000 2375962 "-" "EG11532_RNA" +"EG11533" "ychH" ["ychH", "b1205", "ECK1193"] 1258791 1259069 "+" "EG11533_RNA" +"EG11534" "ibpA" ["ibpA", "hslT", "htpN", "b3687", "ECK3679"] 3867009 3867422 "-" "EG11534_RNA" +"EG11535" "ibpB" ["ibpB", "hslS", "htpE", "b3686", "ECK3678"] 3866469 3866897 "-" "EG11535_RNA" +"EG11536" "yidE" ["yidE", "yibE", "b3685", "ECK3677"] 3864612 3866273 "-" "EG11536_RNA" +"EG11537" "yceH" ["yceH", "b1067", "ECK1052"] 1126157 1126804 "+" "EG11537_RNA" +"EG11538" "yfiC" ["yfiC", "trmM", "b2575", "ECK2573"] 2712027 2712764 "-" "EG11538_RNA" +"EG11539" "pyrH" ["pyrH", "umk", "smbA", "b0171", "ECK0170"] 191855 192580 "+" "EG11539_RNA" +"EG11540" "wrbA" ["wrbA", "b1004", "ECK0995"] 1067112 1067708 "-" "EG11540_RNA" +"EG11541" "kup" ["kup", "trkD", "b3747", "ECK3741"] 3931316 3933184 "+" "EG11541_RNA" +"EG11542" "tesA" ["tesA", "apeA", "pldC", "b0494", "ECK0488"] 519139 519765 "-" "EG11542_RNA" +"EG11543" "hemE" ["hemE", "b3997", "ECK3989"] 4197716 4198780 "+" "EG11543_RNA" +"EG11544" "gadE" ["gadE", "yhiE", "yhiT", "b3512", "ECK3496"] 3658366 3658893 "+" "EG11544_RNA" +"EG11545" "flgL" ["flgL", "flaT", "b1083", "ECK1068"] 1140033 1140986 "+" "EG11545_RNA" +"EG11546" "nadC" ["nadC", "b0109", "ECK0108"] 117752 118645 "-" "EG11546_RNA" +"EG11547" "rnt" ["rnt", "b1652", "ECK1648"] 1728347 1728994 "+" "EG11547_RNA" +"EG11548" "lhr" ["lhr", "rhlF", "b1653", "ECK1649"] 1729087 1733703 "+" "EG11548_RNA" +"EG11549" "pepT" ["pepT", "b1127", "ECK1113"] 1185844 1187070 "+" "EG11549_RNA" +"EG11551" "hypF" ["hypF", "hydA", "b2712", "ECK2707"] 2835173 2837425 "-" "EG11551_RNA" +"EG11552" "hydN" ["hydN", "b2713", "ECK2708"] 2837578 2838105 "-" "EG11552_RNA" +"EG11553" "glmM" ["glmM", "yhbF", "mrsA", "b3176", "ECK3165"] 3322733 3324070 "-" "EG11553_RNA" +"EG11554" "stpA" ["stpA", "hnsB", "b2669", "ECK2663"] 2798091 2798495 "-" "EG11554_RNA" +"EG11555" "yaaJ" ["yaaJ", "b0007", "ECK0007"] 6529 7959 "-" "EG11555_RNA" +"EG11556" "talB" ["talB", "yaaK", "b0008", "ECK0008"] 8238 9191 "+" "EG11556_RNA" +"EG11557" "caiD" ["caiD", "yaaL", "b0036", "ECK0037"] 35377 36162 "-" "EG11557_RNA" +"EG11558" "caiC" ["caiC", "yaaM", "b0037", "ECK0038"] 36271 37824 "-" "EG11558_RNA" +"EG11559" "caiB" ["caiB", "yaaN", "b0038", "ECK0039"] 37898 39115 "-" "EG11559_RNA" +"EG11560" "caiA" ["caiA", "yaaO", "b0039", "ECK0040"] 39244 40386 "-" "EG11560_RNA" +"EG11561" "caiT" ["caiT", "yaaP", "b0040", "ECK0041"] 40417 41931 "-" "EG11561_RNA" +"EG11562" "fixA" ["fixA", "yaaQ", "b0041", "ECK0042"] 42403 43173 "+" "EG11562_RNA" +"EG11563" "fixB" ["fixB", "yaaR", "b0042", "ECK0043"] 43188 44129 "+" "EG11563_RNA" +"EG11564" "fixC" ["fixC", "yaaS", "b0043", "ECK0044"] 44180 45466 "+" "EG11564_RNA" +"EG11565" "fixX" ["fixX", "yaaT", "b0044", "ECK0045"] 45463 45750 "+" "EG11565_RNA" +"EG11566" "yaaU" ["yaaU", "yabE", "b0045", "ECK0046"] 45807 47138 "+" "EG11566_RNA" +"EG11568" "kefF" ["kefF", "yabF", "b0046", "ECK0047"] 47246 47776 "+" "EG11568_RNA" +"EG11569" "lptD" ["lptD", "yabG", "ostA", "imp", "b0054", "ECK0055"] 54755 57109 "-" "EG11569_RNA" +"EG11570" "djlA" ["djlA", "yabH", "b0055", "ECK0056"] 57364 58179 "+" "EG11570_RNA" +"EG11571" "yabI" ["yabI", "b0065", "ECK0066"] 71351 72115 "+" "EG11571_RNA" +"EG11572" "thiQ" ["thiQ", "sfuC", "yabJ", "b0066", "ECK0067"] 72229 72927 "-" "EG11572_RNA" +"EG11573" "thiP" ["thiP", "sfuB", "yabK", "b0067", "ECK0068"] 72911 74521 "-" "EG11573_RNA" +"EG11574" "thiB" ["thiB", "yabL", "sfuA", "tbpA", "b0068", "ECK0069"] 74497 75480 "-" "EG11574_RNA" +"EG11575" "leuD" ["leuD", "b0071", "ECK0073"] 78848 79453 "-" "EG11575_RNA" +"EG11576" "leuC" ["leuC", "b0072", "ECK0074"] 79464 80864 "-" "EG11576_RNA" +"EG11577" "leuB" ["leuB", "b0073", "ECK0075"] 80867 81958 "-" "EG11577_RNA" +"EG11578" "greB" ["greB", "b3406", "ECK3393"] 3536812 3537288 "+" "EG11578_RNA" +"EG11579" "ybiA" ["ybiA", "b0798", "ECK0787"] 832468 832950 "-" "EG11579_RNA" +"EG11580" "ybiB" ["ybiB", "b0800", "ECK0789"] 835248 836210 "+" "EG11580_RNA" +"EG11581" "hcxB" ["hcxB", "ybiC", "b0801", "ECK0790"] 836351 837436 "+" "EG11581_RNA" +"EG11583" "gcl" ["gcl", "b0507", "ECK0500"] 533916 535697 "+" "EG11583_RNA" +"EG11585" "thiC" ["thiC", "b3994", "ECK3986"] 4194204 4196099 "-" "EG11585_RNA" +"EG11586" "thiE" ["thiE", "thiA", "b3993", "ECK3985"] 4193569 4194204 "-" "EG11586_RNA" +"EG11587" "thiF" ["thiF", "thiA", "b3992", "ECK3984"] 4192821 4193576 "-" "EG11587_RNA" +"EG11589" "thiG" ["thiG", "thiB", "b3991", "ECK3982"] 4191865 4192635 "-" "EG11589_RNA" +"EG11590" "thiH" ["thiH", "thiB", "b3990", "ECK3981"] 4190735 4191868 "-" "EG11590_RNA" +"EG11591" "lipB" ["lipB", "cde", "lip", "b0630", "ECK0623"] 661637 662278 "-" "EG11591_RNA" +"EG11592" "ybeD" ["ybeD", "b0631", "ECK0624"] 662379 662642 "-" "EG11592_RNA" +"EG11594" "ybeF" ["ybeF", "b0629", "ECK0622"] 660425 661378 "-" "EG11594_RNA" +"EG11595" "moaA" ["moaA", "bisA", "chlA", "chlA1", "narA", "b0781", "ECK0770"] 817044 818033 "+" "EG11595_RNA" +"EG11596" "moaB" ["moaB", "chlA2", "b0782", "ECK0771"] 818055 818567 "+" "EG11596_RNA" +"EG11597" "moaD" ["moaD", "chlA4", "chlM", "b0784", "ECK0773"] 819048 819293 "+" "EG11597_RNA" +"EG11598" "moaE" ["moaE", "chlA5", "b0785", "ECK0774"] 819295 819747 "+" "EG11598_RNA" +"EG11599" "marB" ["marB", "b1532", "ECK1525"] 1619989 1620207 "+" "EG11599_RNA" +"EG11600" "sseA" ["sseA", "mstA", "b2521", "ECK2517"] 2652494 2653339 "+" "EG11600_RNA" +"EG11601" "sseB" ["sseB", "b2522", "ECK2519"] 2654157 2654933 "-" "EG11601_RNA" +"EG11602" "glnE" ["glnE", "b3053", "ECK3043"] 3196801 3199641 "-" "EG11602_RNA" +"EG11603" "ygiF" ["ygiF", "b3054", "ECK3044"] 3199664 3200965 "-" "EG11603_RNA" +"EG11604" "smf" ["smf", "b3286", "b3285", "smf1", "smf2", "b4473", "ECK3272"] 3432436 3433560 "-" "EG11604_RNA" +"EG11605" "smg" ["smg", "b3284", "ECK3271"] 3431991 3432464 "-" "EG11605_RNA" +"EG11606" "kch" ["kch", "b1250", "ECK1244"] 1309016 1310269 "-" "EG11606_RNA" +"EG11607" "yciI" ["yciI", "b1251", "ECK1245"] 1310569 1310865 "-" "EG11607_RNA" +"EG11608" "clsA" ["clsA", "yciJ", "nov", "cls", "b1249", "ECK1243"] 1307185 1308645 "-" "EG11608_RNA" +"EG11609" "evgA" ["evgA", "b2369", "ECK2365"] 2483755 2484369 "+" "EG11609_RNA" +"EG11610" "evgS" ["evgS", "b2370", "ECK2366"] 2484374 2487967 "+" "EG11610_RNA" +"EG11612" "proP" ["proP", "b4111", "ECK4104"] 4330502 4332004 "+" "EG11612_RNA" +"EG11613" "eptA" ["eptA", "yjdB", "b4114", "ECK4107"] 4333947 4335590 "-" "EG11613_RNA" +"EG11614" "basS" ["basS", "pmrB", "dgkR", "b4112", "ECK4105"] 4332181 4333272 "-" "EG11614_RNA" +"EG11615" "basR" ["basR", "pmrA", "b4113", "ECK4106"] 4333282 4333950 "-" "EG11615_RNA" +"EG11616" "gdx" ["gdx", "sugE", "b4148", "ECK4144"] 4376875 4377192 "+" "EG11616_RNA" +"EG11617" "baeS" ["baeS", "b2078", "ECK2074"] 2162876 2164279 "+" "EG11617_RNA" +"EG11618" "baeR" ["baeR", "b2079", "ECK2075"] 2164276 2164998 "+" "EG11618_RNA" +"EG11619" "mfd" ["mfd", "b1114", "ECK1100"] 1170518 1173964 "-" "EG11619_RNA" +"EG11620" "rnb" ["rnb", "b1286", "ECK1281"] 1346978 1348912 "-" "EG11620_RNA" +"EG11621" "metN" ["metN", "metD", "abc", "b0199", "ECK0199"] 221614 222645 "-" "EG11621_RNA" +"EG11622" "mdlB" ["mdlB", "mdl", "b0449", "ECK0443"] 470636 472417 "+" "EG11622_RNA" +"EG11623" "sdaB" ["sdaB", "b2797", "ECK2792"] 2929576 2930943 "+" "EG11623_RNA" +"EG11624" "artP" ["artP", "b0864", "ECK0855"] 903006 903734 "-" "EG11624_RNA" +"EG11625" "artI" ["artI", "b0863", "ECK0854"] 902257 902988 "-" "EG11625_RNA" +"EG11626" "artQ" ["artQ", "b0862", "ECK0853"] 901534 902250 "-" "EG11626_RNA" +"EG11627" "artM" ["artM", "b0861", "ECK0852"] 900866 901534 "-" "EG11627_RNA" +"EG11628" "artJ" ["artJ", "b0860", "ECK0851"] 899844 900575 "-" "EG11628_RNA" +"EG11629" "potF" ["potF", "b0854", "ECK0845"] 893784 894896 "+" "EG11629_RNA" +"EG11630" "potG" ["potG", "b0855", "ECK0846"] 894991 896124 "+" "EG11630_RNA" +"EG11631" "potH" ["potH", "b0856", "ECK0847"] 896134 897087 "+" "EG11631_RNA" +"EG11632" "potI" ["potI", "b0857", "ECK0848"] 897084 897929 "+" "EG11632_RNA" +"EG11634" "nohA" ["nohA", "nohQ", "b1548", "ECK1541"] 1635798 1636367 "-" "EG11634_RNA" +"EG11635" "nohD" ["nohD", "nohB", "b0560", "ECK0552"] 580834 581379 "+" "EG11635_RNA" +"EG11636" "ydeA" ["ydeA", "b1528", "ECK1521"] 1617028 1618218 "+" "EG11636_RNA" +"EG11637" "marC" ["marC", "ydeC", "ydeB", "b1529", "ECK1522"] 1618243 1618908 "-" "EG11637_RNA" +"EG11639" "eamA" ["eamA", "ydeD", "b1533", "ECK1526"] 1620238 1621137 "-" "EG11639_RNA" +"EG11640" "ydeE" ["ydeE", "ydeF", "b1534", "ECK1527"] 1621332 1622519 "+" "EG11640_RNA" +"EG11643" "dgcZ" ["dgcZ", "ydeG", "ydeH", "b1535", "ECK1528"] 1622960 1623850 "-" "EG11643_RNA" +"EG11644" "ydeI" ["ydeI", "b1536", "ECK1529"] 1624105 1624497 "-" "EG11644_RNA" +"EG11645" "ydeJ" ["ydeJ", "b1537", "ECK1530"] 1624773 1625291 "+" "EG11645_RNA" +"EG11646" "psuK" ["psuK", "yeiC", "pscK", "b2166", "ECK2159"] 2258355 2259296 "-" "EG11646_RNA" +"EG11647" "accA" ["accA", "b0185", "ECK0184"] 208621 209580 "+" "EG11647_RNA" +"EG11648" "dkgB" ["dkgB", "yafB", "b0207", "ECK0207"] 229167 229970 "+" "EG11648_RNA" +"EG11649" "yafC" ["yafC", "b0208", "ECK0208"] 229967 230881 "-" "EG11649_RNA" +"EG11650" "yafD" ["yafD", "b0209", "ECK0209"] 231122 231922 "+" "EG11650_RNA" +"EG11651" "yafE" ["yafE", "b0210", "ECK0210"] 231926 232549 "+" "EG11651_RNA" +"EG11652" "degS" ["degS", "hhoB", "htrH", "b3235", "ECK3224"] 3382200 3383267 "+" "EG11652_RNA" +"EG11653" "cyaY" ["cyaY", "b3807", "ECK3801"] 3993739 3994059 "-" "EG11653_RNA" +"EG11654" "fliG" ["fliG", "flaAII.2", "flaBII", "b1939", "ECK1937"] 2014880 2015875 "+" "EG11654_RNA" +"EG11656" "fliH" ["fliH", "flaAII.3", "flaBIII", "b1940", "ECK1938"] 2015868 2016554 "+" "EG11656_RNA" +"EG11657" "ybbA" ["ybbA", "b0495", "ECK0489"] 519733 520419 "+" "EG11657_RNA" +"EG11658" "uidB" ["uidB", "gusB", "uidP", "b1616", "ECK1611"] 1692890 1694263 "-" "EG11658_RNA" +"EG11659" "yedD" ["yedD", "b1928", "ECK1927"] 2007677 2008090 "-" "EG11659_RNA" +"EG11660" "yedE" ["yedE", "b1929", "ECK1928"] 2008277 2009482 "+" "EG11660_RNA" +"EG11661" "yedF" ["yedF", "b1930", "ECK1929"] 2009479 2009712 "+" "EG11661_RNA" +"EG11662" "yedK" ["yedK", "yedG", "b1931", "ECK1930"] 2009821 2010489 "+" "EG11662_RNA" +"EG11663" "slyD" ["slyD", "b3349", "ECK3336"] 3477907 3478497 "-" "EG11663_RNA" +"EG11664" "slyX" ["slyX", "b3348", "ECK3335"] 3477640 3477858 "+" "EG11664_RNA" +"EG11665" "bacA" ["bacA", "uppP", "b3057", "ECK3047"] 3203310 3204131 "-" "EG11665_RNA" +"EG11666" "moaC" ["moaC", "chlA3", "b0783", "ECK0772"] 818570 819055 "+" "EG11666_RNA" +"EG11667" "atoS" ["atoS", "b2219", "ECK2212"] 2320043 2321869 "+" "EG11667_RNA" +"EG11668" "atoC" ["atoC", "b2220", "ECK2213"] 2321866 2323251 "+" "EG11668_RNA" +"EG11669" "atoD" ["atoD", "b2221", "ECK2214"] 2323447 2324109 "+" "EG11669_RNA" +"EG11670" "atoA" ["atoA", "b2222", "ECK2215"] 2324109 2324759 "+" "EG11670_RNA" +"EG11671" "atoE" ["atoE", "b2223", "ECK2216"] 2324756 2326078 "+" "EG11671_RNA" +"EG11672" "atoB" ["atoB", "b2224", "ECK2217"] 2326109 2327293 "+" "EG11672_RNA" +"EG11673" "folB" ["folB", "ygiG", "b3058", "ECK3048"] 3204221 3204589 "-" "EG11673_RNA" +"EG11674" "plsY" ["plsY", "ygiH", "b3059", "ECK3049"] 3204694 3205311 "+" "EG11674_RNA" +"EG11675" "panB" ["panB", "b0134", "ECK0133"] 148807 149601 "-" "EG11675_RNA" +"EG11676" "hslV" ["hslV", "yiiC", "clpQ", "htpO", "b3932", "ECK3924"] 4121757 4122287 "-" "EG11676_RNA" +"EG11677" "modF" ["modF", "chlD", "phrA", "b0760", "ECK0749"] 792316 793788 "-" "EG11677_RNA" +"EG11678" "yadC" ["yadC", "b0135", "ECK0134"] 149715 150953 "-" "EG11678_RNA" +"EG11679" "aas" ["aas", "b2836", "ECK2832"] 2973855 2976014 "-" "EG11679_RNA" +"EG11680" "lptB" ["lptB", "yhbG", "b3201", "ECK3190"] 3343944 3344669 "+" "EG11680_RNA" +"EG11681" "hpf" ["hpf", "yhbH", "b3203", "ECK3192"] 3346173 3346460 "+" "EG11681_RNA" +"EG11682" "ptsN" ["ptsN", "yhbI", "rpoP", "b3204", "ECK3193"] 3346578 3347069 "+" "EG11682_RNA" +"EG11683" "yicG" ["yicG", "b3646", "ECK3636"] 3818874 3819491 "+" "EG11683_RNA" +"EG11684" "yicH" ["yicH", "b3655", "ECK3645"] 3830457 3832166 "+" "EG11684_RNA" +"EG11685" "yicI" ["yicI", "b3656", "ECK3646"] 3832219 3834537 "-" "EG11685_RNA" +"EG11686" "yicJ" ["yicJ", "b3657", "ECK3647"] 3834547 3835929 "-" "EG11686_RNA" +"EG11687" "setC" ["setC", "yicK", "b3659", "ECK3649"] 3836953 3838137 "+" "EG11687_RNA" +"EG11688" "yicL" ["yicL", "b3660", "ECK3650"] 3838248 3839171 "+" "EG11688_RNA" +"EG11689" "nepI" ["nepI", "yicM", "b3662", "ECK3653"] 3840549 3841739 "-" "EG11689_RNA" +"EG11690" "yicN" ["yicN", "b3663", "ECK3654"] 3841950 3842402 "-" "EG11690_RNA" +"EG11691" "adeQ" ["adeQ", "yicO", "b3664", "ECK3655"] 3842455 3843789 "-" "EG11691_RNA" +"EG11692" "adeD" ["adeD", "adeC(B.s.)", "adu", "yicP", "ade", "b3665", "ECK3656"] 3843964 3845730 "+" "EG11692_RNA" +"EG11693" "emrD" ["emrD", "yicQ", "b3673", "ECK3664"] 3853922 3855106 "+" "EG11693_RNA" +"EG11694" "yidF" ["yidF", "b3674", "ECK3665"] 3855114 3855611 "-" "EG11694_RNA" +"EG11695" "yidG" ["yidG", "b3675", "ECK3666"] 3855608 3855970 "-" "EG11695_RNA" +"EG11696" "yidH" ["yidH", "b3676", "ECK3667"] 3855960 3856307 "-" "EG11696_RNA" +"EG11697" "yidI" ["yidI", "b3677", "ECK3668"] 3856415 3856864 "+" "EG11697_RNA" +"EG11698" "galM" ["galM", "b0756", "ECK0745"] 787797 788837 "-" "EG11698_RNA" +"EG11699" "gpmA" ["gpmA", "gpm", "b0755", "ECK0744"] 786843 787595 "-" "EG11699_RNA" +"EG11700" "pnuC" ["pnuC", "b0751", "ECK0740"] 783166 783885 "+" "EG11700_RNA" +"EG11701" "udk" ["udk", "b2066", "ECK2060"] 2142307 2142948 "-" "EG11701_RNA" +"EG11702" "nudC" ["nudC", "yjaD", "b3996", "ECK3988"] 4196903 4197676 "+" "EG11702_RNA" +"EG11703" "acrA" ["acrA", "sipB", "Mb", "lir", "mbl", "mtcA", "nbsA", "b0463", "ECK0457"] 484426 485619 "-" "EG11703_RNA" +"EG11704" "acrB" ["acrB", "acrE", "b0462", "ECK0456"] 481254 484403 "-" "EG11704_RNA" +"EG11705" "yidJ" ["yidJ", "b3678", "ECK3669"] 3856911 3858404 "-" "EG11705_RNA" +"EG11706" "yidK" ["yidK", "b3679", "ECK3670"] 3858401 3860116 "-" "EG11706_RNA" +"EG11707" "yidL" ["yidL", "b3680", "ECK3671"] 3860283 3861176 "+" "EG11707_RNA" +"EG11708" "glvG" ["glvG", "yidM", "b3681", "ECK3673"] 3861349 3861987 "-" "EG11708_RNA" +"EG11709" "glvB" ["glvB", "yidN", "yidO", "b3682", "ECK3674"] 3861987 3862472 "-" "EG11709_RNA" +"EG11710" "glvC" ["glvC", "ptiC", "b3683", "ECK3675"] 3862497 3863603 "-" "EG11710_RNA" +"EG11711" "yidP" ["yidP", "b3684", "ECK3676"] 3863899 3864615 "+" "EG11711_RNA" +"EG11712" "yidQ" ["yidQ", "ecfI", "b3688", "ECK3680"] 3867728 3868060 "+" "EG11712_RNA" +"EG11713" "yidR" ["yidR", "b3689", "ECK3681"] 3868062 3869309 "-" "EG11713_RNA" +"EG11714" "cbrA" ["cbrA", "yidS", "b3690", "ECK3682"] 3869377 3870441 "+" "EG11714_RNA" +"EG11719" "yidX" ["yidX", "b3696", "ECK3688"] 3875438 3876094 "+" "EG11719_RNA" +"EG11720" "mdtL" ["mdtL", "yidY", "b3710", "ECK3703"] 3891615 3892790 "+" "EG11720_RNA" +"EG11721" "yidZ" ["yidZ", "b3711", "ECK3704"] 3892765 3893724 "+" "EG11721_RNA" +"EG11722" "yieE" ["yieE", "b3712", "ECK3705"] 3893881 3894630 "+" "EG11722_RNA" +"EG11723" "yieF" ["yieF", "chrR", "b3713", "ECK3706"] 3894652 3895218 "+" "EG11723_RNA" +"EG11724" "adeP" ["adeP", "yieG", "purP", "b3714", "ECK3707"] 3895272 3896609 "-" "EG11724_RNA" +"EG11725" "yieH" ["yieH", "b3715", "ECK3708"] 3896774 3897439 "+" "EG11725_RNA" +"EG11726" "cbrB" ["cbrB", "yieI", "b3716", "ECK3709"] 3897506 3897973 "+" "EG11726_RNA" +"EG11727" "cbrC" ["cbrC", "yieJ", "b3717", "ECK3710"] 3898022 3898609 "+" "EG11727_RNA" +"EG11728" "yieK" ["yieK", "b3718", "ECK3711"] 3898671 3899393 "-" "EG11728_RNA" +"EG11729" "yieL" ["yieL", "b3719", "ECK3712"] 3899408 3900577 "-" "EG11729_RNA" +"EG11730" "viaA" ["viaA", "yieD", "yieD_1", "yieD_2", "yieM", "b3745", "ECK3739"] 3928152 3929603 "-" "EG11730_RNA" +"EG11731" "ravA" ["ravA", "yieN", "b3746", "ECK3740"] 3929597 3931093 "-" "EG11731_RNA" +"EG11732" "hsrA" ["hsrA", "yieO", "b3754", "ECK3748"] 3939185 3940612 "-" "EG11732_RNA" +"EG11733" "yieP" ["yieP", "b3755", "ECK3749"] 3940635 3941327 "-" "EG11733_RNA" +"EG11734" "phoH" ["phoH", "psiH", "b1020", "ECK1010"] 1084992 1086056 "+" "EG11734_RNA" +"EG11735" "efeB" ["efeB", "ycdB", "b1019", "ECK1009"] 1083376 1084647 "+" "EG11735_RNA" +"EG11736" "gmhB" ["gmhB", "yaeD", "b0200", "ECK0200"] 222833 223408 "+" "EG11736_RNA" +"EG11737" "metI" ["metI", "metD", "yaeE", "b0198", "ECK0198"] 220968 221621 "-" "EG11737_RNA" +"EG11738" "rsd" ["rsd", "yjaE", "b3995", "ECK3987"] 4196332 4196808 "-" "EG11738_RNA" +"EG11739" "nfrB" ["nfrB", "b0569", "ECK0561"] 590941 593178 "-" "EG11739_RNA" +"EG11740" "nfrA" ["nfrA", "b0568", "ECK0560"] 587982 590954 "-" "EG11740_RNA" +"EG11741" "envR" ["envR", "acrS", "yhdK", "b3264", "ECK3251"] 3412803 3413465 "-" "EG11741_RNA" +"EG11742" "yddA" ["yddA", "b1496", "ECK1490"] 1577657 1579342 "-" "EG11742_RNA" +"EG11743" "yddB" ["yddB", "b1495", "ECK1489"] 1575247 1577619 "-" "EG11743_RNA" +"EG11744" "pqqL" ["pqqL", "pqqM", "pqqE", "yddC", "b1494", "ECK1488"] 1572407 1575202 "-" "EG11744_RNA" +"EG11746" "panC" ["panC", "b0133", "ECK0132"] 147944 148795 "-" "EG11746_RNA" +"EG11747" "panD" ["panD", "b0131", "ECK0130"] 146314 146694 "-" "EG11747_RNA" +"EG11748" "rpnC" ["rpnC", "yadD", "b0132", "ECK0131"] 146968 147870 "+" "EG11748_RNA" +"EG11749" "yadE" ["yadE", "b0130", "ECK0129"] 145081 146310 "+" "EG11749_RNA" +"EG11750" "rpnA" ["rpnA", "yhgA", "b3411", "ECK3398"] 3543167 3544045 "+" "EG11750_RNA" +"EG11751" "otsA" ["otsA", "b1896", "ECK1895"] 1980188 1981612 "-" "EG11751_RNA" +"EG11752" "otsB" ["otsB", "otsP", "b1897", "ECK1896"] 1981587 1982387 "-" "EG11752_RNA" +"EG11753" "chaA" ["chaA", "b1216", "ECK1210"] 1270749 1271849 "-" "EG11753_RNA" +"EG11754" "setA" ["setA", "yabM", "b0070", "ECK0072"] 77621 78799 "+" "EG11754_RNA" +"EG11757" "tsaE" ["tsaE", "yjeE", "b4168", "ECK4164"] 4395585 4396046 "+" "EG11757_RNA" +"EG11758" "nnr" ["nnr", "yjeF", "b4167", "ECK4163"] 4394066 4395613 "+" "EG11758_RNA" +"EG11759" "yciK" ["yciK", "b1271", "ECK1265"] 1328354 1329112 "-" "EG11759_RNA" +"EG11760" "ydcD" ["ydcD", "b1457", "ECK1451"] 1529922 1530404 "+" "EG11760_RNA" +"EG11761" "pptA" ["pptA", "ydcE", "b1461", "ECK1455"] 1533052 1533285 "+" "EG11761_RNA" +"EG11762" "yibF" ["yibF", "b3592", "ECK3581"] 3761347 3761955 "-" "EG11762_RNA" +"EG11763" "yibG" ["yibG", "b3596", "ECK3585"] 3768177 3768638 "+" "EG11763_RNA" +"EG11764" "yibH" ["yibH", "b3597", "ECK3586"] 3770243 3771379 "-" "EG11764_RNA" +"EG11765" "yibI" ["yibI", "b3598", "ECK3587"] 3771382 3771744 "-" "EG11765_RNA" +"EG11766" "yibJ" ["yibJ", "rhsJ", "b3595", "ECK3584"] 3767221 3767922 "+" "EG11766_RNA" +"EG11767" "yhhJ" ["yhhJ", "b3485", "ECK3470"] 3625679 3626803 "-" "EG11767_RNA" +"EG11768" "selU" ["selU", "ybbB", "mnmH", "b0503", "ECK0496"] 530132 531226 "-" "EG11768_RNA" +"EG11769" "ybbC" ["ybbC", "b0498", "ECK0492"] 527581 527949 "+" "EG11769_RNA" +"EG11770" "ybbD" ["ybbD", "b0500", "b0501", "ECK0494"] 528640 529130 "+" "EG11770_RNA" +"EG11773" "nuoM" ["nuoM", "nuoA", "b2277", "ECK2271"] 2391512 2393041 "-" "EG11773_RNA" +"EG11774" "nuoF" ["nuoF", "b2284", "ECK2278"] 2400218 2401555 "-" "EG11774_RNA" +"EG11775" "ybfE" ["ybfE", "b0685", "ECK0673"] 711605 711898 "-" "EG11775_RNA" +"EG11776" "ybfF" ["ybfF", "b0686", "ECK0674"] 712038 712802 "-" "EG11776_RNA" +"EG11778" "ybfG" ["ybfG", "b0690", "ECK0679", "ybfH", "b0691", "ECK0678"] 715947 716597 "-" "EG11778_RNA" +"EG11779" "trmB" ["trmB", "trmI", "yggH", "b2960", "ECK2955"] 3102133 3102852 "-" "EG11779_RNA" +"EG11780" "yneO" ["yneO", "orfT", "ydeK", "ydeU", "b1509", "b1510", "ECK1502", "b4696", "ECK1503"] 1592665 1598086 "-" "EG11780_RNA" +"EG11781" "nrfA" ["nrfA", "b4070", "ECK4063"] 4287764 4289200 "+" "EG11781_RNA" +"EG11782" "smpB" ["smpB", "smqB", "b2620", "ECK2616"] 2754896 2755378 "+" "EG11782_RNA" +"EG11783" "intA" ["intA", "intX", "slpA", "b2622", "ECK2618"] 2756159 2757400 "+" "EG11783_RNA" +"EG11784" "grcA" ["grcA", "yfiD", "b2579", "ECK2577"] 2716066 2716449 "-" "EG11784_RNA" +"EG11785" "yfiE" ["yfiE", "b2577", "ECK2575"] 2714439 2715320 "-" "EG11785_RNA" +"EG11786" "yfiF" ["yfiF", "b2581", "ECK2579"] 2717491 2718528 "-" "EG11786_RNA" +"EG11787" "gmd" ["gmd", "yefN", "yefA", "b2053", "ECK2047"] 2127193 2128314 "-" "EG11787_RNA" +"EG11788" "fcl" ["fcl", "wcaG", "yefB", "b2052", "ECK2046"] 2126225 2127190 "-" "EG11788_RNA" +"EG11789" "gmm" ["gmm", "nudD", "wcaH", "yefC", "b2051", "ECK2045"] 2125743 2126222 "-" "EG11789_RNA" +"EG11790" "wcaI" ["wcaI", "yefD", "b2050", "ECK2044"] 2124523 2125746 "-" "EG11790_RNA" +"EG11791" "cmtB" ["cmtB", "tolM", "b2934", "ECK2929"] 3078887 3079330 "-" "EG11791_RNA" +"EG11792" "cmtA" ["cmtA", "b2933", "ECK2928"] 3077471 3078859 "-" "EG11792_RNA" +"EG11793" "ygdD" ["ygdD", "b2807", "ECK2802"] 2941236 2941631 "-" "EG11793_RNA" +"EG11794" "rlmM" ["rlmM", "ygdE", "b2806", "ECK2801"] 2940143 2941243 "-" "EG11794_RNA" +"EG11795" "gcvA" ["gcvA", "b2808", "ECK2803"] 2941650 2942567 "-" "EG11795_RNA" +"EG11796" "lplA" ["lplA", "yjjF", "slr", "b4386", "ECK4378"] 4623101 4624117 "-" "EG11796_RNA" +"EG11797" "talA" ["talA", "b2464", "ECK2459"] 2578666 2579616 "+" "EG11797_RNA" +"EG11798" "hofC" ["hofC", "yacD", "hopC", "b0106", "ECK0105"] 114522 115724 "-" "EG11798_RNA" +"EG11799" "hybA" ["hybA", "hydL", "b2996", "ECK2990"] 3144154 3145140 "-" "EG11799_RNA" +"EG11800" "hybB" ["hybB", "b2995", "ECK2989"] 3142986 3144164 "-" "EG11800_RNA" +"EG11801" "hybC" ["hybC", "b2994", "ECK2988"] 3141286 3142989 "-" "EG11801_RNA" +"EG11802" "hybD" ["hybD", "b2993", "ECK2987"] 3140792 3141286 "-" "EG11802_RNA" +"EG11803" "hybE" ["hybE", "b2992", "ECK2986"] 3140311 3140799 "-" "EG11803_RNA" +"EG11804" "hybF" ["hybF", "b2991", "ECK2985"] 3139977 3140318 "-" "EG11804_RNA" +"EG11805" "hybG" ["hybG", "b2990", "ECK2984"] 3139716 3139964 "-" "EG11805_RNA" +"EG11806" "yebE" ["yebE", "b1846", "ECK1847"] 1929048 1929707 "-" "EG11806_RNA" +"EG11807" "yebF" ["yebF", "b1847", "ECK1848"] 1930034 1930390 "-" "EG11807_RNA" +"EG11808" "yebG" ["yebG", "b1848", "ECK1849"] 1930457 1930747 "-" "EG11808_RNA" +"EG11809" "purT" ["purT", "b1849", "ECK1850"] 1930881 1932059 "+" "EG11809_RNA" +"EG11810" "gcvP" ["gcvP", "b2903", "ECK2898"] 3046168 3049041 "-" "EG11810_RNA" +"EG11811" "aidB" ["aidB", "b4187", "ECK4183"] 4414275 4415900 "+" "EG11811_RNA" +"EG11812" "yjfC" ["yjfC", "b4186", "ECK4182"] 4413028 4414191 "+" "EG11812_RNA" +"EG11814" "torA" ["torA", "b0997", "ECK0988"] 1059256 1061802 "+" "EG11814_RNA" +"EG11815" "torC" ["torC", "b0996", "ECK0987"] 1058084 1059256 "+" "EG11815_RNA" +"EG11816" "ispF" ["ispF", "ygbB", "b2746", "ECK2741"] 2871301 2871780 "-" "EG11816_RNA" +"EG11817" "umpG" ["umpG", "ygbC", "surE", "b2744", "ECK2739"] 2869513 2870274 "-" "EG11817_RNA" +"EG11819" "purU" ["purU", "ychI", "tgs", "b1232", "ECK1227"] 1287782 1288624 "-" "EG11819_RNA" +"EG11820" "yceI" ["yceI", "b1056", "ECK1041"] 1117901 1118476 "-" "EG11820_RNA" +"EG11821" "amtB" ["amtB", "ybaG", "b0451", "ECK0445"] 472966 474252 "+" "EG11821_RNA" +"EG11822" "puuB" ["puuB", "ycjA", "ordL", "b1301", "ECK1296"] 1364232 1365512 "+" "EG11822_RNA" +"EG11823" "amiA" ["amiA", "yfeE", "b2435", "ECK2430"] 2552352 2553221 "+" "EG11823_RNA" +"EG11824" "yghB" ["yghB", "b3009", "ECK3001"] 3153563 3154222 "+" "EG11824_RNA" +"EG11825" "yddE" ["yddE", "b1464", "ECK1458"] 1534965 1535858 "-" "EG11825_RNA" +"EG11826" "etk" ["etk", "yccC", "b0981", "ECK0972"] 1042030 1044210 "-" "EG11826_RNA" +"EG11827" "rpiB" ["rpiB", "yjcA", "alsI", "b4090", "ECK4083"] 4313350 4313799 "+" "EG11827_RNA" +"EG11828" "mobB" ["mobB", "yihC", "b3856", "ECK3848"] 4040906 4041433 "-" "EG11828_RNA" +"EG11829" "mobA" ["mobA", "chlB", "mob", "narB", "b3857", "ECK3849"] 4041415 4041999 "-" "EG11829_RNA" +"EG11830" "yihD" ["yihD", "b3858", "ECK3850"] 4042069 4042338 "+" "EG11830_RNA" +"EG11831" "srkA" ["srkA", "orfA", "yihE", "b3859", "ECK3851"] 4042415 4043401 "+" "EG11831_RNA" +"EG11832" "yihF" ["yihF", "b3861", "ECK3853"] 4044199 4045629 "+" "EG11832_RNA" +"EG11833" "yihG" ["yihG", "b3862", "ECK3854"] 4045670 4046602 "-" "EG11833_RNA" +"EG11835" "yihI" ["yihI", "b3866", "ECK3859"] 4051347 4051856 "+" "EG11835_RNA" +"EG11836" "hemN" ["hemN", "yihJ", "b3867", "ECK3860"] 4052045 4053418 "+" "EG11836_RNA" +"EG11837" "bipA" ["bipA", "typA", "yihK", "b3871", "ECK3864"] 4058407 4060230 "+" "EG11837_RNA" +"EG11838" "yihL" ["yihL", "b3872", "ECK3865"] 4060447 4061157 "+" "EG11838_RNA" +"EG11839" "yihM" ["yihM", "b3873", "ECK3866"] 4061165 4062145 "+" "EG11839_RNA" +"EG11840" "yihN" ["yihN", "b3874", "ECK3867"] 4062247 4063512 "+" "EG11840_RNA" +"EG11841" "yihO" ["yihO", "squO", "b3876", "ECK3869"] 4064363 4065766 "-" "EG11841_RNA" +"EG11842" "yihP" ["yihP", "b3877", "ECK3870"] 4065809 4067194 "-" "EG11842_RNA" +"EG11843" "yihQ" ["yihQ", "squQ", "b3878", "ECK3871"] 4067240 4069276 "-" "EG11843_RNA" +"EG11844" "yihR" ["yihR", "squR", "b3879", "ECK3872"] 4069475 4070401 "-" "EG11844_RNA" +"EG11845" "yihS" ["yihS", "squS", "b3880", "ECK3873"] 4070515 4071756 "-" "EG11845_RNA" +"EG11846" "yihT" ["yihT", "squT", "b3881", "ECK3874"] 4071773 4072651 "-" "EG11846_RNA" +"EG11847" "yihU" ["yihU", "squU", "b3882", "ECK3875"] 4072675 4073571 "-" "EG11847_RNA" +"EG11848" "yihV" ["yihV", "squV", "b3883", "ECK3876"] 4073739 4074635 "+" "EG11848_RNA" +"EG11849" "csqR" ["csqR", "yihW", "b3884", "ECK3877"] 4074669 4075454 "+" "EG11849_RNA" +"EG11850" "yihX" ["yihX", "b3885", "ECK3878"] 4075553 4076152 "+" "EG11850_RNA" +"EG11851" "yihY" ["yihY", "rbn", "b3886", "ECK3879"] 4076146 4077018 "+" "EG11851_RNA" +"EG11852" "dtd" ["dtd", "yihZ", "b3887", "ECK3880"] 4077015 4077452 "+" "EG11852_RNA" +"EG11853" "fabY" ["fabY", "yiiD", "b3888", "ECK3881"] 4077449 4078438 "+" "EG11853_RNA" +"EG11854" "yiiE" ["yiiE", "b3889", "ECK3882"] 4079291 4079509 "+" "EG11854_RNA" +"EG11855" "yiiF" ["yiiF", "b3890", "ECK3883"] 4079751 4079969 "+" "EG11855_RNA" +"EG11856" "fdoI" ["fdoI", "b3892", "ECK3885"] 4081225 4081860 "-" "EG11856_RNA" +"EG11857" "fdoH" ["fdoH", "b3893", "ECK3886"] 4081857 4082759 "-" "EG11857_RNA" +"EG11858" "fdoG" ["fdoG", "b3894", "ECK3887"] 4082772 4085822 "-" "EG11858_RNA" +"EG11859" "fdhD" ["fdhD", "b3895", "ECK3888"] 4086016 4086849 "+" "EG11859_RNA" +"EG11860" "yiiG" ["yiiG", "b3896", "ECK3889"] 4087002 4088057 "+" "EG11860_RNA" +"EG11861" "frvR" ["frvR", "yiiH", "b3897", "ECK3890"] 4088107 4089855 "-" "EG11861_RNA" +"EG11862" "frvX" ["frvX", "yiiI", "b3898", "ECK3891"] 4089855 4090925 "-" "EG11862_RNA" +"EG11863" "frvB" ["frvB", "yiiJ", "b3899", "ECK3892"] 4090915 4092366 "-" "EG11863_RNA" +"EG11864" "frvA" ["frvA", "yiiK", "b3900", "ECK3893"] 4092377 4092823 "-" "EG11864_RNA" +"EG11865" "rhaM" ["rhaM", "yiiL", "b3901", "ECK3894"] 4093124 4093438 "-" "EG11865_RNA" +"EG11866" "rhaD" ["rhaD", "b3902", "ECK3895"] 4093448 4094272 "-" "EG11866_RNA" +"EG11867" "rhaA" ["rhaA", "b3903", "ECK3896"] 4094723 4095982 "-" "EG11867_RNA" +"EG11868" "rhaB" ["rhaB", "b3904", "ECK3897"] 4095979 4097448 "-" "EG11868_RNA" +"EG11869" "kdgT" ["kdgT", "b3909", "ECK3902"] 4101690 4102673 "+" "EG11869_RNA" +"EG11870" "yiiM" ["yiiM", "b3910", "ECK3903"] 4102822 4103496 "+" "EG11870_RNA" +"EG11871" "gph" ["gph", "yhfE", "b3385", "ECK3372"] 3513631 3514389 "-" "EG11871_RNA" +"EG11873" "fieF" ["fieF", "yiiP", "b3915", "ECK3907"] 4106469 4107371 "+" "EG11873_RNA" +"EG11874" "yiiQ" ["yiiQ", "b3920", "ECK3912"] 4111615 4112214 "-" "EG11874_RNA" +"EG11875" "yiiR" ["yiiR", "b3921", "ECK3913"] 4112315 4112755 "+" "EG11875_RNA" +"EG11876" "yiiS" ["yiiS", "b3922", "ECK3914"] 4112967 4113266 "+" "EG11876_RNA" +"EG11877" "uspD" ["uspD", "yiiT", "b3923", "ECK3915"] 4113293 4113721 "+" "EG11877_RNA" +"EG11878" "zapB" ["zapB", "yiiU", "b3928", "ECK3920"] 4118515 4118760 "+" "EG11878_RNA" +"EG11879" "rraA" ["rraA", "menG", "yiiV", "b3929", "ECK3921"] 4118845 4119330 "-" "EG11879_RNA" +"EG11880" "menA" ["menA", "yiiW", "b3930", "ECK3922"] 4119423 4120349 "-" "EG11880_RNA" +"EG11881" "hslU" ["hslU", "clpY", "htpI", "b3931", "ECK3923"] 4120416 4121747 "-" "EG11881_RNA" +"EG11882" "yiiX" ["yiiX", "b3937", "ECK3929"] 4127286 4127894 "-" "EG11882_RNA" +"EG11883" "tehA" ["tehA", "b1429", "ECK1422"] 1500573 1501565 "+" "EG11883_RNA" +"EG11884" "tehB" ["tehB", "b1430", "ECK1423"] 1501562 1502155 "+" "EG11884_RNA" +"EG11885" "opgG" ["opgG", "mdoA", "mdoG", "b1048", "ECK1034"] 1109335 1110870 "+" "EG11885_RNA" +"EG11886" "opgH" ["opgH", "mdoA", "mdoH", "b1049", "ECK1035"] 1110863 1113406 "+" "EG11886_RNA" +"EG11887" "trxC" ["trxC", "yfiG", "b2582", "ECK2580"] 2718735 2719154 "+" "EG11887_RNA" +"EG11888" "trmL" ["trmL", "yibK", "b3606", "ECK3596"] 3781215 3781688 "+" "EG11888_RNA" +"EG11889" "dctR" ["dctR", "yhiF", "b3507", "ECK3491"] 3654683 3655213 "+" "EG11889_RNA" +"EG11890" "slp" ["slp", "b3506", "ECK3490"] 3653961 3654527 "+" "EG11890_RNA" +"EG11891" "yeeA" ["yeeA", "b2008", "ECK2002"] 2079533 2080591 "-" "EG11891_RNA" +"EG11892" "sbmC" ["sbmC", "dgi", "gyrI", "yeeB", "b2009", "ECK2003"] 2080789 2081262 "-" "EG11892_RNA" +"EG11893" "dacD" ["dacD", "phsE", "yeeC", "b2010", "ECK2004"] 2081381 2082547 "-" "EG11893_RNA" +"EG11894" "yeeD" ["yeeD", "b2012", "ECK2006"] 2084226 2084453 "-" "EG11894_RNA" +"EG11895" "yeeE" ["yeeE", "b2013", "ECK2007"] 2084467 2085525 "-" "EG11895_RNA" +"EG11896" "plaP" ["plaP", "yeeF", "b2014", "ECK2008"] 2085704 2087062 "-" "EG11896_RNA" +"EG11897" "rpoE" ["rpoE", "sigE", "b2573", "ECK2571"] 2709437 2710012 "-" "EG11897_RNA" +"EG11899" "recT" ["recT", "b1349", "ECK1346"] 1413984 1414793 "-" "EG11899_RNA" +"EG11900" "ralR" ["ralR", "ydaB", "lar", "b1348", "ECK1345"] 1413733 1413927 "-" "EG11900_RNA" +"EG11901" "rcbA" ["rcbA", "ydaC", "b1347", "ECK1344"] 1413531 1413740 "-" "EG11901_RNA" +"EG11902" "yijE" ["yijE", "b3943", "ECK3935"] 4136108 4137013 "+" "EG11902_RNA" +"EG11903" "yijF" ["yijF", "b3944", "ECK3936"] 4137040 4137657 "-" "EG11903_RNA" +"EG11904" "gldA" ["gldA", "b3945", "ECK3937"] 4137932 4139035 "-" "EG11904_RNA" +"EG11905" "fsaB" ["fsaB", "yijG", "talC", "b3946", "ECK3938"] 4139046 4139708 "-" "EG11905_RNA" +"EG11906" "ptsA" ["ptsA", "yijH", "frwA", "pt1A", "b3947", "ECK3939"] 4139720 4142221 "-" "EG11906_RNA" +"EG11908" "frwC" ["frwC", "yijJ", "b3949", "ECK3940"] 4142530 4143609 "+" "EG11908_RNA" +"EG11909" "frwB" ["frwB", "yijK", "b3950", "ECK3941"] 4143624 4143944 "+" "EG11909_RNA" +"EG11910" "pflD" ["pflD", "yijL", "b3951", "ECK3942"] 4143995 4146292 "+" "EG11910_RNA" +"EG11911" "pflC" ["pflC", "yijM", "b3952", "ECK3943"] 4146258 4147136 "+" "EG11911_RNA" +"EG11912" "frwD" ["frwD", "yijN", "b3953", "ECK3944"] 4147138 4147479 "+" "EG11912_RNA" +"EG11913" "yijO" ["yijO", "b3954", "ECK3945"] 4147466 4148317 "-" "EG11913_RNA" +"EG11914" "eptC" ["eptC", "yijP", "b3955", "ECK3946"] 4148532 4150265 "-" "EG11914_RNA" +"EG11915" "nfi" ["nfi", "yjaF", "b3998", "ECK3990"] 4198790 4199461 "+" "EG11915_RNA" +"EG11916" "yjaG" ["yjaG", "b3999", "ECK3991"] 4199504 4200094 "+" "EG11916_RNA" +"EG11917" "yjaH" ["yjaH", "b4001", "ECK3993"] 4200566 4201261 "+" "EG11917_RNA" +"EG11918" "zraP" ["zraP", "yjaI", "zra", "b4002", "ECK3994"] 4201263 4201688 "-" "EG11918_RNA" +"EG11919" "yjbB" ["yjbB", "b4020", "ECK4012"] 4227731 4229362 "+" "EG11919_RNA" +"EG11920" "pepE" ["pepE", "b4021", "ECK4013"] 4229453 4230142 "-" "EG11920_RNA" +"EG11921" "rluF" ["rluF", "yjbC", "b4022", "ECK4014"] 4230354 4231226 "+" "EG11921_RNA" +"EG11922" "yjbD" ["yjbD", "b4023", "ECK4015"] 4231359 4231631 "-" "EG11922_RNA" +"EG11923" "yjbE" ["yjbE", "b4026", "ECK4018"] 4235906 4236148 "+" "EG11923_RNA" +"EG11924" "yjbF" ["yjbF", "b4027", "ECK4019"] 4236262 4236900 "+" "EG11924_RNA" +"EG11925" "yjbG" ["yjbG", "b4028", "ECK4020"] 4236897 4237634 "+" "EG11925_RNA" +"EG11926" "yjbH" ["yjbH", "b4029", "ECK4021"] 4237634 4239730 "+" "EG11926_RNA" +"EG11927" "yjbI" ["yjbI", "b4038", "ECK4030"] 4250703 4252283 "+" "EG11927_RNA" +"EG11928" "yjbJ" ["yjbJ", "b4045", "ECK4037"] 4259237 4259446 "+" "EG11928_RNA" +"EG11929" "zur" ["zur", "yjbK", "znuR", "b4046", "ECK4038"] 4259488 4260003 "-" "EG11929_RNA" +"EG11930" "yjbL" ["yjbL", "b4047", "ECK4039"] 4260321 4260575 "+" "EG11930_RNA" +"EG11931" "yjbM" ["yjbM", "b4048", "ECK4040"] 4260599 4261306 "+" "EG11931_RNA" +"EG11932" "dusA" ["dusA", "yjbN", "b4049", "ECK4041"] 4261669 4262706 "+" "EG11932_RNA" +"EG11933" "pspG" ["pspG", "yjbO", "b4050", "ECK4042"] 4262840 4263082 "+" "EG11933_RNA" +"EG11934" "aphA" ["aphA", "yjbP", "hobH", "b4055", "ECK4047"] 4269414 4270127 "+" "EG11934_RNA" +"EG11935" "yjbQ" ["yjbQ", "b4056", "ECK4048"] 4270238 4270654 "+" "EG11935_RNA" +"EG11936" "yjbR" ["yjbR", "b4057", "ECK4049"] 4270658 4271014 "+" "EG11936_RNA" +"EG11937" "yjcB" ["yjcB", "b4060", "ECK4052"] 4274760 4275041 "-" "EG11937_RNA" +"EG11938" "pdeC" ["pdeC", "yjcC", "b4061", "ECK4053"] 4275471 4277057 "+" "EG11938_RNA" +"EG11939" "ghxP" ["ghxP", "yjcD", "b4064", "ECK4057"] 4278479 4279828 "+" "EG11939_RNA" +"EG11940" "yjcE" ["yjcE", "b4065", "ECK4058"] 4279980 4281629 "+" "EG11940_RNA" +"EG11941" "yjcF" ["yjcF", "b4066", "ECK4059"] 4281783 4283075 "-" "EG11941_RNA" +"EG11942" "actP" ["actP", "yjcG", "b4067", "ECK4060"] 4283253 4284902 "-" "EG11942_RNA" +"EG11943" "yjcH" ["yjcH", "b4068", "ECK4061"] 4284899 4285213 "-" "EG11943_RNA" +"EG11945" "nrfB" ["nrfB", "yjcI", "b4071", "ECK4064"] 4289245 4289811 "+" "EG11945_RNA" +"EG11946" "nrfC" ["nrfC", "yjcJ", "b4072", "ECK4065"] 4289808 4290479 "+" "EG11946_RNA" +"EG11947" "nrfD" ["nrfD", "yjcK", "b4073", "ECK4066"] 4290476 4291432 "+" "EG11947_RNA" +"EG11948" "nrfE" ["nrfE", "yjcL", "b4074", "ECK4067"] 4291512 4293170 "+" "EG11948_RNA" +"EG11949" "nrfF" ["nrfF", "yjcM", "b4075", "ECK4068"] 4293163 4293546 "+" "EG11949_RNA" +"EG11950" "nrfG" ["nrfG", "yjcN", "aidC", "b4076", "ECK4069"] 4293543 4294139 "+" "EG11950_RNA" +"EG11951" "yjcO" ["yjcO", "b4078", "ECK4071"] 4296436 4297125 "-" "EG11951_RNA" +"EG11952" "mdtP" ["mdtP", "yjcP", "sdsP", "b4080", "ECK4073"] 4299564 4301030 "-" "EG11952_RNA" +"EG11953" "mdtO" ["mdtO", "yjcQ", "sdsQ", "b4081", "ECK4074"] 4301027 4303078 "-" "EG11953_RNA" +"EG11954" "mdtN" ["mdtN", "yjcR", "sdsR", "b4082", "ECK4075"] 4303078 4304109 "-" "EG11954_RNA" +"EG11955" "yjcS" ["yjcS", "b4083", "ECK4076"] 4304612 4306597 "-" "EG11955_RNA" +"EG11956" "alsK" ["alsK", "yjcT", "b4084", "ECK4077"] 4306870 4307799 "-" "EG11956_RNA" +"EG11957" "alsE" ["alsE", "yjcU", "b4085", "ECK4078"] 4307783 4308478 "-" "EG11957_RNA" +"EG11958" "alsC" ["alsC", "yjcV", "b4086", "ECK4079"] 4308489 4309469 "-" "EG11958_RNA" +"EG11959" "alsA" ["alsA", "yjcW", "b4087", "ECK4080"] 4309448 4310980 "-" "EG11959_RNA" +"EG11961" "lldP" ["lldP", "lct", "lctP", "b3603", "ECK3593"] 3777399 3779054 "+" "EG11961_RNA" +"EG11962" "lldR" ["lldR", "lct", "lctR", "b3604", "ECK3594"] 3779054 3779830 "+" "EG11962_RNA" +"EG11963" "lldD" ["lldD", "lct", "lctD", "b3605", "ECK3595"] 3779827 3781017 "+" "EG11963_RNA" +"EG11964" "yibL" ["yibL", "b3602", "ECK3592"] 3776665 3777027 "+" "EG11964_RNA" +"EG11965" "mtlR" ["mtlR", "b3601", "ECK3590"] 3775572 3776159 "+" "EG11965_RNA" +"EG11966" "adiY" ["adiY", "b4116", "ECK4109"] 4337168 4337929 "-" "EG11966_RNA" +"EG11967" "flgK" ["flgK", "flaS", "b1082", "ECK1067"] 1138378 1140021 "+" "EG11967_RNA" +"EG11969" "zntR" ["zntR", "yhdM", "b3292", "ECK3279"] 3438705 3439130 "-" "EG11969_RNA" +"EG11970" "yhdN" ["yhdN", "b3293", "ECK3280"] 3439141 3439509 "-" "EG11970_RNA" +"EG11971" "nupC" ["nupC", "cru", "b2393", "ECK2388"] 2513042 2514244 "+" "EG11971_RNA" +"EG11972" "htrE" ["htrE", "b0139", "ECK0138"] 152829 155426 "-" "EG11972_RNA" +"EG11973" "yadV" ["yadV", "ecpD", "b0140", "ECK0139"] 155461 156201 "-" "EG11973_RNA" +"EG11974" "fimI" ["fimI", "b4315", "ECK4306"] 4543728 4544267 "+" "EG11974_RNA" +"EG11975" "fliP" ["fliP", "flaR", "b1948", "ECK1946"] 2021869 2022606 "+" "EG11975_RNA" +"EG11976" "fliQ" ["fliQ", "flaQ", "b1949", "ECK1947"] 2022616 2022885 "+" "EG11976_RNA" +"EG11977" "fliR" ["fliR", "flaP", "b1950", "ECK1948"] 2022893 2023678 "+" "EG11977_RNA" +"EG11978" "rfbA" ["rfbA", "rmlA", "som", "b2039", "ECK2033"] 2110138 2111019 "-" "EG11978_RNA" +"EG11979" "rfbC" ["rfbC", "rfbD", "rmlC", "b2038", "ECK2032"] 2109581 2110138 "-" "EG11979_RNA" +"EG11980" "rfbX" ["rfbX", "wzx", "wzxB", "b2037", "ECK2031"] 2108337 2109584 "-" "EG11980_RNA" +"EG11981" "glf" ["glf", "yefE", "b2036", "ECK2030"] 2107226 2108329 "-" "EG11981_RNA" +"EG11982" "wbbH" ["wbbH", "yefF", "rfc", "b2035", "ECK2029"] 2106060 2107226 "-" "EG11982_RNA" +"EG11983" "wbbI" ["wbbI", "yefG", "b2034", "ECK2028"] 2105065 2106057 "-" "EG11983_RNA" +"EG11984" "wbbJ" ["wbbJ", "yefH", "b2033", "ECK2027"] 2104494 2105084 "-" "EG11984_RNA" +"EG11985" "wbbK" ["wbbK", "yefI", "b2032", "ECK2026"] 2103391 2104509 "-" "EG11985_RNA" +"EG11986" "wbbL" ["wbbL", "yefJ", "b2031", "b4540", "b4571", "ECK2025"] null null "-" "EG11986_RNA" +"EG11987" "yehA" ["yehA", "b2108", "ECK2101"] 2187380 2188414 "-" "EG11987_RNA" +"EG11988" "yehB" ["yehB", "b2109", "ECK2102"] 2188430 2190910 "-" "EG11988_RNA" +"EG11989" "yehC" ["yehC", "b2110", "ECK2103"] 2190926 2191645 "-" "EG11989_RNA" +"EG11990" "yehD" ["yehD", "b2111", "ECK2104"] 2191680 2192222 "-" "EG11990_RNA" +"EG11991" "yehE" ["yehE", "b2112", "ECK2105"] 2192515 2192796 "-" "EG11991_RNA" +"EG11992" "yehF" ["yehF", "molR_1", "sosF", "dinO", "b2115", "ECK2108"] 2196474 2197298 "+" "EG11992_RNA" +"EG11995" "yehI" ["yehI", "b2118", "ECK2109"] 2200279 2203911 "+" "EG11995_RNA" +"EG11998" "yehL" ["yehL", "b2119", "ECK2111"] 2204596 2205684 "+" "EG11998_RNA" +"EG11999" "yehM" ["yehM", "yehO", "yehN", "b2120", "ECK2112"] 2205695 2207974 "+" "EG11999_RNA" +"EG12002" "yehP" ["yehP", "b2121", "ECK2113"] 2207967 2209103 "+" "EG12002_RNA" +"EG12003" "yehQ" ["yehQ", "b2122", "ECK2114"] 2209100 2210944 "+" "EG12003_RNA" +"EG12004" "yehR" ["yehR", "b2123", "ECK2115"] 2211225 2211686 "+" "EG12004_RNA" +"EG12005" "yehS" ["yehS", "b2124", "ECK2116"] 2211726 2212196 "-" "EG12005_RNA" +"EG12006" "btsR" ["btsR", "yehT", "b2125", "ECK2117"] 2212243 2212962 "-" "EG12006_RNA" +"EG12007" "btsS" ["btsS", "yehU", "b2126", "ECK2118"] 2212959 2214644 "-" "EG12007_RNA" +"EG12008" "mlrA" ["mlrA", "yehV", "b2127", "ECK2119"] 2214866 2215597 "+" "EG12008_RNA" +"EG12009" "yehW" ["yehW", "b2128", "ECK2121"] 2215745 2216476 "-" "EG12009_RNA" +"EG12010" "yehX" ["yehX", "b2129", "ECK2122"] 2216481 2217407 "-" "EG12010_RNA" +"EG12011" "yehY" ["yehY", "b2130", "ECK2123"] 2217400 2218557 "-" "EG12011_RNA" +"EG12012" "osmF" ["osmF", "yehZ", "b2131", "ECK2124"] 2218564 2219481 "-" "EG12012_RNA" +"EG12013" "bglX" ["bglX", "glh", "yohA", "b2132", "ECK2125"] 2219692 2221989 "-" "EG12013_RNA" +"EG12015" "pbpG" ["pbpG", "yohB", "b2134", "ECK2127"] 2223938 2224870 "-" "EG12015_RNA" +"EG12016" "yohC" ["yohC", "b2135", "ECK2128"] 2225044 2225631 "-" "EG12016_RNA" +"EG12017" "yohD" ["yohD", "b2136", "ECK2129"] 2225801 2226379 "+" "EG12017_RNA" +"EG12019" "yohF" ["yohF", "yohE", "b2137", "ECK2130"] 2226509 2227270 "-" "EG12019_RNA" +"EG12020" "mdtQ" ["mdtQ", "yohH", "yohG", "b2138", "ECK2132", "b2139", "ECK2131"] 2227323 2228758 "-" "EG12020_RNA" +"EG12022" "dusC" ["dusC", "yohI", "b2140", "ECK2133"] 2229438 2230385 "-" "EG12022_RNA" +"EG12023" "yohJ" ["yohJ", "b2141", "ECK2134"] 2230624 2231022 "+" "EG12023_RNA" +"EG12024" "yohK" ["yohK", "b2142", "ECK2135"] 2231019 2231714 "+" "EG12024_RNA" +"EG12025" "sanA" ["sanA", "sfiXSt", "yeiF", "b2144", "ECK2137"] 2232878 2233597 "+" "EG12025_RNA" +"EG12026" "yeiG" ["yeiG", "b2154", "ECK2147"] 2243910 2244746 "+" "EG12026_RNA" +"EG12027" "yeiH" ["yeiH", "b2158", "ECK2151"] 2249717 2250766 "+" "EG12027_RNA" +"EG12028" "yeiI" ["yeiI", "b2160", "ECK2153"] 2251700 2252788 "+" "EG12028_RNA" +"EG12029" "nupX" ["nupX", "yeiJ", "b2161", "ECK2154"] 2252895 2254145 "-" "EG12029_RNA" +"EG12030" "rihB" ["rihB", "yeiK", "b2162", "ECK2155"] 2254245 2255186 "-" "EG12030_RNA" +"EG12031" "yeiL" ["yeiL", "b2163", "ECK2156"] 2255355 2256014 "+" "EG12031_RNA" +"EG12032" "psuT" ["psuT", "pscT", "yeiM", "b2164", "ECK2157"] 2256085 2257335 "-" "EG12032_RNA" +"EG12033" "psuG" ["psuG", "yeiN", "pscG", "b2165", "ECK2158"] 2257429 2258367 "-" "EG12033_RNA" +"EG12034" "setB" ["setB", "yeiO", "b2170", "ECK2163"] 2263863 2265044 "+" "EG12034_RNA" +"EG12035" "yeiP" ["yeiP", "b2171", "ECK2165"] 2265450 2266022 "+" "EG12035_RNA" +"EG12036" "yeiQ" ["yeiQ", "b2172", "ECK2166"] 2266245 2267711 "+" "EG12036_RNA" +"EG12037" "yejA" ["yejA", "b2177", "ECK2171"] 2272364 2274178 "+" "EG12037_RNA" +"EG12038" "yejB" ["yejB", "b2178", "ECK2172"] 2274179 2275273 "+" "EG12038_RNA" +"EG12040" "yejE" ["yejE", "b2179", "ECK2173"] 2275273 2276298 "+" "EG12040_RNA" +"EG12041" "yejF" ["yejF", "b2180", "ECK2174"] 2276300 2277889 "+" "EG12041_RNA" +"EG12042" "yejG" ["yejG", "b2181", "ECK2175"] 2277893 2278237 "-" "EG12042_RNA" +"EG12043" "yejL" ["yejL", "b2187", "ECK2181"] 2284129 2284356 "+" "EG12043_RNA" +"EG12044" "rsuA" ["rsuA", "yejD", "b2183", "ECK2177"] 2279788 2280483 "-" "EG12044_RNA" +"EG12045" "radD" ["radD", "yejJ", "yejI", "yejH", "b2184", "ECK2178"] 2280632 2282392 "+" "EG12045_RNA" +"EG12048" "yejK" ["yejK", "ndpA", "b2186", "ECK2180"] 2282940 2283947 "-" "EG12048_RNA" +"EG12049" "yejM" ["yejM", "yejN", "pbgA", "b2188", "ECK2182"] 2284376 2286136 "+" "EG12049_RNA" +"EG12051" "yejO" ["yejO", "b2190", "ECK2184"] null null "-" "EG12051_RNA" +"EG12052" "ccmH" ["ccmH", "yejP", "b2194", "ECK2186"] 2291358 2292410 "-" "EG12052_RNA" +"EG12053" "ccmG" ["ccmG", "yejQ", "dsbE", "b2195", "ECK2187"] 2292407 2292964 "-" "EG12053_RNA" +"EG12054" "ccmF" ["ccmF", "yejR", "b2196", "ECK2188"] 2292961 2294904 "-" "EG12054_RNA" +"EG12055" "ccmE" ["ccmE", "yejS", "b2197", "ECK2189"] 2294901 2295380 "-" "EG12055_RNA" +"EG12057" "ccmC" ["ccmC", "yejT", "yejU", "b2199", "ECK2191"] 2295583 2296320 "-" "EG12057_RNA" +"EG12058" "ccmB" ["ccmB", "yejV", "b2200", "ECK2192"] 2296362 2297024 "-" "EG12058_RNA" +"EG12059" "ccmA" ["ccmA", "yejW", "b2201", "ECK2193"] 2297021 2297644 "-" "EG12059_RNA" +"EG12060" "napC" ["napC", "yejX", "b2202", "ECK2194"] 2297657 2298259 "-" "EG12060_RNA" +"EG12061" "napB" ["napB", "yejY", "b2203", "ECK2195"] 2298269 2298718 "-" "EG12061_RNA" +"EG12062" "napH" ["napH", "yejZ", "b2204", "ECK2196"] 2298715 2299578 "-" "EG12062_RNA" +"EG12064" "napG" ["napG", "yojA", "yojB", "b2205", "ECK2197"] 2299565 2300260 "-" "EG12064_RNA" +"EG12067" "napA" ["napA", "yojD", "yojC", "yojE", "b2206", "ECK2198"] 2300267 2302753 "-" "EG12067_RNA" +"EG12068" "napF" ["napF", "yojG", "b2208", "ECK2200"] 2303003 2303497 "-" "EG12068_RNA" +"EG12069" "mqo" ["mqo", "yojH", "b2210", "ECK2202"] 2305108 2306754 "-" "EG12069_RNA" +"EG12070" "yojI" ["yojI", "yojJ", "b2211", "ECK2203"] 2306972 2308615 "-" "EG12070_RNA" +"EG12073" "ftp" ["ftp", "yojK", "yojL", "apbE", "b2214", "ECK2206"] 2310479 2311534 "-" "EG12073_RNA" +"EG12075" "nikA" ["nikA", "hydD", "hydC", "b3476", "ECK3460"] 3613667 3615241 "+" "EG12075_RNA" +"EG12076" "nikB" ["nikB", "hydC", "hydD", "b3477", "ECK3461"] 3615241 3616185 "+" "EG12076_RNA" +"EG12077" "nikC" ["nikC", "hydD", "hydC", "b3478", "ECK3462"] 3616182 3617015 "+" "EG12077_RNA" +"EG12078" "nikD" ["nikD", "hydD", "hydC", "b3479", "ECK3463"] 3617015 3617779 "+" "EG12078_RNA" +"EG12079" "nikE" ["nikE", "hydD", "hydC", "b3480", "ECK3464"] 3617776 3618582 "+" "EG12079_RNA" +"EG12080" "recX" ["recX", "oraA", "b2698", "ECK2693"] 2822139 2822639 "-" "EG12080_RNA" +"EG12081" "ppdA" ["ppdA", "b2826", "ECK2822"] 2963707 2964177 "-" "EG12081_RNA" +"EG12082" "nuoA" ["nuoA", "b2288", "ECK2282"] 2404629 2405072 "-" "EG12082_RNA" +"EG12083" "nuoB" ["nuoB", "b2287", "ECK2281"] 2403951 2404613 "-" "EG12083_RNA" +"EG12084" "nuoC" ["nuoC", "nuoD", "b2286", "ECK2280"] 2402055 2403845 "-" "EG12084_RNA" +"EG12086" "nuoE" ["nuoE", "b2285", "ECK2279"] 2401552 2402052 "-" "EG12086_RNA" +"EG12087" "nuoG" ["nuoG", "b2283", "ECK2277"] 2397439 2400165 "-" "EG12087_RNA" +"EG12088" "nuoH" ["nuoH", "b2282", "ECK2276"] 2396465 2397442 "-" "EG12088_RNA" +"EG12089" "nuoI" ["nuoI", "b2281", "ECK2275"] 2395908 2396450 "-" "EG12089_RNA" +"EG12090" "nuoJ" ["nuoJ", "b2280", "ECK2274"] 2395342 2395896 "-" "EG12090_RNA" +"EG12091" "nuoK" ["nuoK", "b2279", "ECK2273"] 2395043 2395345 "-" "EG12091_RNA" +"EG12092" "nuoL" ["nuoL", "b2278", "ECK2272"] 2393205 2395046 "-" "EG12092_RNA" +"EG12093" "nuoN" ["nuoN", "b2276", "ECK2270"] 2390048 2391505 "-" "EG12093_RNA" +"EG12094" "sgrR" ["sgrR", "yabN", "b0069", "ECK0070"] 75644 77299 "-" "EG12094_RNA" +"EG12095" "secG" ["secG", "prlH", "b3175", "ECK3164"] 3322173 3322505 "-" "EG12095_RNA" +"EG12096" "chpB" ["chpB", "yjfE", "chpBK", "b4225", "ECK4221"] 4448692 4449042 "+" "EG12096_RNA" +"EG12097" "pgeF" ["pgeF", "yfiH", "b2593", "ECK2591"] 2734303 2735034 "-" "EG12097_RNA" +"EG12098" "rluD" ["rluD", "yfiI", "sfhB", "yfil", "b2594", "ECK2592"] 2735031 2736011 "-" "EG12098_RNA" +"EG12099" "efp" ["efp", "b4147", "ECK4141"] 4375699 4376265 "+" "EG12099_RNA" +"EG12100" "tktB" ["tktB", "b2465", "ECK2460"] 2579636 2581639 "+" "EG12100_RNA" +"EG12101" "feoA" ["feoA", "b3408", "ECK3395"] 3540163 3540390 "+" "EG12101_RNA" +"EG12102" "feoB" ["feoB", "b3409", "ECK3396"] 3540407 3542728 "+" "EG12102_RNA" +"EG12104" "yeiR" ["yeiR", "b2173", "ECK2167"] 2267829 2268815 "+" "EG12104_RNA" +"EG12105" "yeiE" ["yeiE", "b2157", "ECK2150"] 2248737 2249618 "-" "EG12105_RNA" +"EG12106" "hofB" ["hofB", "hopB", "b0107", "ECK0106"] 115714 117099 "-" "EG12106_RNA" +"EG12107" "ppdD" ["ppdD", "b0108", "ECK0107"] 117109 117549 "-" "EG12107_RNA" +"EG12108" "norR" ["norR", "ygaA", "b2709", "ECK2704"] 2830775 2832289 "-" "EG12108_RNA" +"EG12110" "ydcF" ["ydcF", "b1414", "ECK1407"] 1487235 1488035 "+" "EG12110_RNA" +"EG12111" "nlpD" ["nlpD", "b2742", "ECK2737"] 2867614 2868753 "-" "EG12111_RNA" +"EG12112" "alpA" ["alpA", "b2624", "ECK2620"] 2758644 2758856 "+" "EG12112_RNA" +"EG12113" "hofQ" ["hofQ", "hopQ", "b3391", "ECK3378"] 3519465 3520703 "-" "EG12113_RNA" +"EG12114" "prfC" ["prfC", "miaD", "tos", "b4375", "ECK4366"] 4609414 4611003 "+" "EG12114_RNA" +"EG12115" "yjjG" ["yjjG", "b4374", "ECK4365"] 4608646 4609323 "+" "EG12115_RNA" +"EG12116" "acrR" ["acrR", "ybaH", "b0464", "ECK0458"] 485761 486408 "+" "EG12116_RNA" +"EG12117" "ompX" ["ompX", "ybiG", "ompP", "b0814", "ECK0803"] 850450 850965 "+" "EG12117_RNA" +"EG12119" "ychJ" ["ychJ", "b1233", "ECK1228"] 1288674 1289132 "-" "EG12119_RNA" +"EG12120" "rssA" ["rssA", "ychK", "b1234", "ECK1229"] 1289245 1290150 "+" "EG12120_RNA" +"EG12121" "rssB" ["rssB", "ychL", "sprE", "hnr", "b1235", "ECK1230"] 1290242 1291255 "+" "EG12121_RNA" +"EG12122" "yggI" ["yggI", "sprT", "b2944", "ECK2939"] 3089755 3090252 "+" "EG12122_RNA" +"EG12123" "lrhA" ["lrhA", "genR", "b2289", "ECK2283"] 2405703 2406641 "-" "EG12123_RNA" +"EG12124" "hisJ" ["hisJ", "b2309", "ECK2303"] 2426006 2426788 "-" "EG12124_RNA" +"EG12125" "hisQ" ["hisQ", "b2308", "ECK2302"] 2425230 2425916 "-" "EG12125_RNA" +"EG12127" "treB" ["treB", "b4240", "ECK4235"] 4464759 4466180 "-" "EG12127_RNA" +"EG12128" "lgt" ["lgt", "umpA", "b2828", "ECK2824"] 2965162 2966037 "-" "EG12128_RNA" +"EG12129" "uraA" ["uraA", "b2497", "ECK2493"] 2618871 2620160 "-" "EG12129_RNA" +"EG12130" "hscA" ["hscA", "hsc", "b2526", "ECK2523"] 2657085 2658935 "-" "EG12130_RNA" +"EG12131" "hscB" ["hscB", "yfhE", "b2527", "ECK2524"] 2658952 2659467 "-" "EG12131_RNA" +"EG12132" "iscA" ["iscA", "yfhF", "b2528", "ECK2525"] 2659563 2659886 "-" "EG12132_RNA" +"EG12133" "ucpA" ["ucpA", "yfeF", "b2426", "ECK2421"] 2543832 2544623 "-" "EG12133_RNA" +"EG12134" "rhtA" ["rhtA", "ybiF", "b0813", "ECK0802"] 849210 850097 "-" "EG12134_RNA" +"EG12136" "mdtD" ["mdtD", "yegB", "iceT", "b2077", "ECK2073"] 2161464 2162879 "+" "EG12136_RNA" +"EG12137" "nlpE" ["nlpE", "cutF", "b0192", "ECK0192"] 215269 215979 "+" "EG12137_RNA" +"EG12138" "yaeF" ["yaeF", "yaeK", "b0193", "ECK0193"] 216179 217003 "-" "EG12138_RNA" +"EG12139" "qseG" ["qseG", "yfhG", "b2555", "ECK2552"] 2688793 2689506 "-" "EG12139_RNA" +"EG12140" "ydhB" ["ydhB", "b1659", "ECK1655"] 1738866 1739798 "-" "EG12140_RNA" +"EG12141" "ydhC" ["ydhC", "b1660", "ECK1656"] 1739911 1741122 "+" "EG12141_RNA" +"EG12142" "sdaC" ["sdaC", "dcrA", "b2796", "ECK2791"] 2928229 2929518 "+" "EG12142_RNA" +"EG12143" "napD" ["napD", "yojF", "b2207", "ECK2199"] 2302750 2303013 "-" "EG12143_RNA" +"EG12144" "pgm" ["pgm", "blu", "b0688", "ECK0676"] 713558 715198 "+" "EG12144_RNA" +"EG12146" "rapZ" ["rapZ", "yhbJ", "b3205", "ECK3194"] 3347115 3347969 "+" "EG12146_RNA" +"EG12147" "npr" ["npr", "yhbK", "ptsO", "rpoR", "b3206", "ECK3195"] 3347966 3348238 "+" "EG12147_RNA" +"EG12148" "galP" ["galP", "Pgal", "b2943", "ECK2938"] 3088284 3089678 "+" "EG12148_RNA" +"EG12150" "cobS" ["cobS", "b1992", "ECK1987"] 2064479 2065222 "-" "EG12150_RNA" +"EG12151" "cobT" ["cobT", "b1991", "ECK1986"] 2063388 2064467 "-" "EG12151_RNA" +"EG12152" "idnK" ["idnK", "gntV", "b4268", "ECK4261"] 4494623 4495186 "+" "EG12152_RNA" +"EG12153" "narU" ["narU", "yddF", "b1469", "ECK1463"] 1542672 1544060 "-" "EG12153_RNA" +"EG12154" "sieB" ["sieB", "b1353", "ECK1351"] 1418671 1419159 "+" "EG12154_RNA" +"EG12155" "kilR" ["kilR", "ydaD", "kil", "b1352", "ECK1350"] 1418008 1418229 "-" "EG12155_RNA" +"EG12158" "rdgC" ["rdgC", "yaiD", "b0393", "ECK0388"] 409108 410019 "-" "EG12158_RNA" +"EG12159" "ppnP" ["ppnP", "yaiE", "b0391", "ECK0386"] 408177 408461 "+" "EG12159_RNA" +"EG12161" "eaeH" ["eaeH", "b0297", "ECK0297"] 314357 315244 "+" "EG12161_RNA" +"EG12162" "gatR" ["gatR", "b2090", "b2087", "b4498", "ECK2083"] null null "-" "EG12162_RNA" +"EG12163" "rsmB" ["rsmB", "yhdB", "rrmB", "fmu", "fmv", "sun", "b3289", "ECK3275"] 3435207 3436496 "+" "EG12163_RNA" +"EG12164" "ytjC" ["ytjC", "gpmB", "b4395", "ECK4387"] 4633797 4634444 "+" "EG12164_RNA" +"EG12165" "mukF" ["mukF", "kicB", "b0922", "ECK0913"] 974319 975641 "+" "EG12165_RNA" +"EG12166" "elyC" ["elyC", "ycbC", "b0920", "ECK0911"] 972622 973401 "-" "EG12166_RNA" +"EG12167" "cmoM" ["cmoM", "ycbD", "smtA", "b0921", "ECK0912"] 973537 974322 "+" "EG12167_RNA" +"EG12168" "brnQ" ["brnQ", "hrbA", "b0401", "ECK0395"] 419591 420910 "+" "EG12168_RNA" +"EG12169" "ccmD" ["ccmD", "yojM", "b2198", "ECK2190"] 2295377 2295586 "-" "EG12169_RNA" +"EG12171" "yjjI" ["yjjI", "yjjH", "b4380", "ECK4372"] 4615515 4617065 "-" "EG12171_RNA" +"EG12172" "hinT" ["hinT", "ycfF", "b1103", "ECK1089"] 1161885 1162244 "+" "EG12172_RNA" +"EG12173" "gspM" ["gspM", "hopZ", "pshM", "b3334", "ECK3321"] 3465082 3465543 "+" "EG12173_RNA" +"EG12176" "yjdC" ["yjdC", "cutA3", "b4135", "ECK4129"] 4362733 4363308 "-" "EG12176_RNA" +"EG12177" "cutA" ["cutA", "cutA1", "b4137", "ECK4131"] 4365018 4365356 "-" "EG12177_RNA" +"EG12178" "dsbD" ["dsbD", "htrI", "cutA2", "cycZ", "dipZ", "b4136", "ECK4130"] 4363345 4365042 "-" "EG12178_RNA" +"EG12179" "cspE" ["cspE", "gicA", "msmC", "b0623", "ECK0616"] 657292 657501 "+" "EG12179_RNA" +"EG12180" "pagP" ["pagP", "ybeG", "crcA", "b0622", "ECK0615"] 656557 657117 "+" "EG12180_RNA" +"EG12181" "grxD" ["grxD", "ydhD", "b1654", "ECK1650"] 1733754 1734101 "-" "EG12181_RNA" +"EG12182" "yajG" ["yajG", "b0434", "ECK0428"] 453589 454167 "-" "EG12182_RNA" +"EG12183" "ampG" ["ampG", "b0433", "ECK0427"] 452070 453545 "-" "EG12183_RNA" +"EG12188" "ptsP" ["ptsP", "ygdO", "ygdF", "b2829", "ECK2825"] 2966188 2968434 "-" "EG12188_RNA" +"EG12189" "hemF" ["hemF", "popB", "sec", "b2436", "ECK2431"] 2553225 2554124 "+" "EG12189_RNA" +"EG12190" "eutR" ["eutR", "yfeG", "b2437", "ECK2432"] 2554130 2555182 "-" "EG12190_RNA" +"EG12191" "glnK" ["glnK", "ybaI", "b0450", "ECK0444"] 472598 472936 "+" "EG12191_RNA" +"EG12192" "nadK" ["nadK", "yfjE", "yfjB", "b2615", "ECK2611"] 2750831 2751709 "+" "EG12192_RNA" +"EG12193" "cbpA" ["cbpA", "b1000", "ECK0991"] 1062855 1063775 "-" "EG12193_RNA" +"EG12194" "cbpM" ["cbpM", "yccD", "b0999", "ECK0990"] 1062550 1062855 "-" "EG12194_RNA" +"EG12195" "torD" ["torD", "b0998", "ECK0989"] 1061799 1062398 "+" "EG12195_RNA" +"EG12196" "yccE" ["yccE", "b1001", "ECK0992"] 1064036 1065292 "+" "EG12196_RNA" +"EG12197" "seqA" ["seqA", "hsm-1", "b0687", "ECK0675"] 712987 713532 "+" "EG12197_RNA" +"EG12198" "chbG" ["chbG", "celG", "ydjC", "b1733", "ECK1731"] 1816386 1817135 "-" "EG12198_RNA" +"EG12200" "yegD" ["yegD", "b2069", "ECK2063"] 2147674 2149026 "+" "EG12200_RNA" +"EG12201" "ygaC" ["ygaC", "b2671", "ECK2665"] 2799650 2799994 "-" "EG12201_RNA" +"EG12202" "treR" ["treR", "b4241", "ECK4236"] 4466299 4467246 "-" "EG12202_RNA" +"EG12203" "cspB" ["cspB", "b1557", "ECK1551"] 1641339 1641554 "-" "EG12203_RNA" +"EG12204" "cspC" ["cspC", "msmB", "b1823", "ECK1821"] 1907226 1907435 "-" "EG12204_RNA" +"EG12205" "cspF" ["cspF", "b1558", "ECK1552"] 1641855 1642067 "+" "EG12205_RNA" +"EG12207" "rlmA" ["rlmA", "rrmA", "yebH", "b1822", "ECK1820"] 1906251 1907060 "-" "EG12207_RNA" +"EG12208" "ybeM" ["ybeM", "ybeH", "b0626", "b0625", "ECK0619", "b4581", "ECK0618"] 658031 658818 "+" "EG12208_RNA" +"EG12209" "crcB" ["crcB", "ybeI", "b0624", "ECK0617"] 657555 657938 "-" "EG12209_RNA" +"EG12210" "waaF" ["waaF", "rfaF", "b3620", "ECK3610"] 3794929 3795975 "+" "EG12210_RNA" +"EG12211" "panZ" ["panZ", "livL", "panM", "yhhK", "b3459", "ECK3443"] 3597984 3598367 "+" "EG12211_RNA" +"EG12212" "yhhL" ["yhhL", "b3466", "ECK3450"] 3604979 3605248 "+" "EG12212_RNA" +"EG12213" "yhhM" ["yhhM", "b3467", "ECK3451"] 3605251 3605610 "-" "EG12213_RNA" +"EG12214" "yhhN" ["yhhN", "b3468", "ECK3452"] 3605751 3606377 "+" "EG12214_RNA" +"EG12215" "zntA" ["zntA", "yhhO", "b3469", "ECK3453"] 3606451 3608649 "+" "EG12215_RNA" +"EG12216" "tusA" ["tusA", "yhhP", "sirA", "b3470", "ECK3454"] 3608751 3608996 "-" "EG12216_RNA" +"EG12217" "yhhQ" ["yhhQ", "b3471", "ECK3455"] 3609217 3609882 "+" "EG12217_RNA" +"EG12219" "yhhS" ["yhhS", "b3473", "ECK3457"] 3610516 3611733 "-" "EG12219_RNA" +"EG12220" "yhhT" ["yhhT", "b3474", "ECK3458"] 3611865 3612914 "+" "EG12220_RNA" +"EG12221" "acpT" ["acpT", "yhhU", "b3475", "ECK3459"] 3612969 3613556 "+" "EG12221_RNA" +"EG12223" "rbbA" ["rbbA", "yhiG", "yhiH", "b3486", "ECK3471"] 3626803 3629538 "-" "EG12223_RNA" +"EG12224" "yhiI" ["yhiI", "b3487", "ECK3472"] 3629535 3630602 "-" "EG12224_RNA" +"EG12225" "yhiJ" ["yhiJ", "b3488", "ECK3473"] 3630968 3632590 "-" "EG12225_RNA" +"EG12227" "yhiL" ["yhiL", "b3490", "b3489", "ECK3474", "yhiK", "b4660", "ECK3475"] 3632852 3634458 "-" "EG12227_RNA" +"EG12228" "yhiM" ["yhiM", "b3491", "ECK3476"] 3634841 3635893 "+" "EG12228_RNA" +"EG12229" "yhiN" ["yhiN", "b3492", "ECK3477"] 3636208 3637410 "-" "EG12229_RNA" +"EG12230" "pitA" ["pitA", "pit", "b3493", "ECK3478"] 3637642 3639141 "+" "EG12230_RNA" +"EG12231" "uspB" ["uspB", "yhiO", "b3494", "ECK3479"] 3639385 3639720 "-" "EG12231_RNA" +"EG12232" "dtpB" ["dtpB", "yhiP", "b3496", "ECK3481"] 3640862 3642331 "+" "EG12232_RNA" +"EG12233" "rsmJ" ["rsmJ", "yhiQ", "b3497", "ECK3482"] 3642380 3643132 "-" "EG12233_RNA" +"EG12234" "rlmJ" ["rlmJ", "yhiR", "b3499", "ECK3484"] 3645385 3646227 "+" "EG12234_RNA" +"EG12235" "arsR" ["arsR", "arsE", "b3501", "ECK3486"] 3648528 3648881 "+" "EG12235_RNA" +"EG12236" "arsB" ["arsB", "arsF", "b3502", "ECK3487"] 3648935 3650224 "+" "EG12236_RNA" +"EG12237" "arsC" ["arsC", "arsG", "b3503", "ECK3488"] 3650237 3650662 "+" "EG12237_RNA" +"EG12238" "yhiS" ["yhiS", "b3504", "ECK3489"] null null "+" "EG12238_RNA" +"EG12240" "mdtE" ["mdtE", "yhiU", "b3513", "ECK3497"] 3659232 3660389 "+" "EG12240_RNA" +"EG12241" "mdtF" ["mdtF", "yhiV", "b3514", "ECK3498"] 3660414 3663527 "+" "EG12241_RNA" +"EG12242" "gadW" ["gadW", "yhiW", "b3515", "ECK3499"] 3663890 3664618 "-" "EG12242_RNA" +"EG12243" "gadX" ["gadX", "yhiX", "b3516", "ECK3501"] 3664986 3665810 "-" "EG12243_RNA" +"EG12244" "ccp" ["ccp", "yhjA", "b3518", "ECK3503"] 3667791 3669188 "-" "EG12244_RNA" +"EG12245" "treF" ["treF", "b3519", "ECK3504"] 3669592 3671241 "+" "EG12245_RNA" +"EG12246" "yhjB" ["yhjB", "b3520", "ECK3505"] 3671292 3671894 "-" "EG12246_RNA" +"EG12247" "rcdB" ["rcdB", "yhjC", "b3521", "ECK3506"] 3672414 3673313 "+" "EG12247_RNA" +"EG12248" "yhjD" ["yhjD", "b3522", "ECK3507"] 3673362 3674375 "+" "EG12248_RNA" +"EG12249" "yhjE" ["yhjE", "b3523", "ECK3508"] 3674786 3676108 "+" "EG12249_RNA" +"EG12251" "yhjG" ["yhjG", "yhjF", "b3524", "ECK3509"] 3676290 3678350 "-" "EG12251_RNA" +"EG12252" "pdeH" ["pdeH", "yhjH", "b3525", "ECK3510"] 3678420 3679187 "-" "EG12252_RNA" +"EG12253" "kdgK" ["kdgK", "yhjI", "b3526", "ECK3511"] 3679419 3680348 "+" "EG12253_RNA" +"EG12254" "yhjJ" ["yhjJ", "b3527", "ECK3512"] 3680444 3681940 "-" "EG12254_RNA" +"EG12256" "pdeK" ["pdeK", "yhjK", "b3529", "ECK3514"] 3683630 3685618 "-" "EG12256_RNA" +"EG12257" "bcsC" ["bcsC", "yhjL", "b3530", "ECK3515"] 3685700 3689173 "-" "EG12257_RNA" +"EG12258" "bcsZ" ["bcsZ", "bcsC", "yhjM", "b3531", "ECK3516"] 3689155 3690261 "-" "EG12258_RNA" +"EG12259" "bcsB" ["bcsB", "yhjN", "b3532", "ECK3517"] 3690268 3692607 "-" "EG12259_RNA" +"EG12260" "bcsA" ["bcsA", "yhjP", "yhjO", "b3533", "ECK3518"] 3692618 3695236 "-" "EG12260_RNA" +"EG12261" "bcsQ" ["bcsQ", "yhjQ", "b3534", "ECK3519"] 3695233 3695985 "-" "EG12261_RNA" +"EG12262" "yhjR" ["yhjR", "bcsR", "b3535", "ECK3520"] 3695997 3696185 "-" "EG12262_RNA" +"EG12263" "bcsE" ["bcsE", "yhjS", "b3536", "ECK3521"] 3696458 3698029 "+" "EG12263_RNA" +"EG12264" "bcsF" ["bcsF", "yhjT", "b3537", "ECK3522"] 3698026 3698217 "+" "EG12264_RNA" +"EG12265" "bcsG" ["bcsG", "yhjU", "b3538", "ECK3523"] 3698214 3699893 "+" "EG12265_RNA" +"EG12266" "yhjV" ["yhjV", "b3539", "ECK3526"] 3700563 3701834 "+" "EG12266_RNA" +"EG12267" "eptB" ["eptB", "yhjW", "b3546", "ECK3533"] 3708784 3710475 "-" "EG12267_RNA" +"EG12268" "yhjX" ["yhjX", "b3547", "ECK3534"] 3710799 3712007 "-" "EG12268_RNA" +"EG12269" "yhjY" ["yhjY", "b3548", "ECK3535"] 3712236 3712934 "-" "EG12269_RNA" +"EG12270" "yiaC" ["yiaC", "b3550", "ECK3537"] 3713652 3714092 "+" "EG12270_RNA" +"EG12271" "yiaD" ["yiaD", "b3552", "ECK3539"] 3716547 3717206 "+" "EG12271_RNA" +"EG12272" "ghrB" ["ghrB", "tkrA", "yiaE", "b3553", "ECK3540"] 3717310 3718284 "+" "EG12272_RNA" +"EG12273" "yiaF" ["yiaF", "b3554", "ECK3541"] 3718334 3719044 "-" "EG12273_RNA" +"EG12274" "wecH" ["wecH", "yiaH", "b3561", "ECK3550"] 3725887 3726882 "+" "EG12274_RNA" +"EG12275" "xylG" ["xylG", "b3567", "ECK3556"] 3732201 3733742 "+" "EG12275_RNA" +"EG12276" "xylH" ["xylH", "b3568", "ECK3557"] 3733720 3734901 "+" "EG12276_RNA" +"EG12277" "ysaA" ["ysaA", "yiaI", "b3573", "ECK3562"] 3741109 3741582 "-" "EG12277_RNA" +"EG12278" "plaR" ["plaR", "yiaJ", "b3574", "ECK3563"] 3741684 3742532 "-" "EG12278_RNA" +"EG12279" "yiaK" ["yiaK", "b3575", "ECK3564"] 3742733 3743731 "+" "EG12279_RNA" +"EG12280" "yiaL" ["yiaL", "b3576", "ECK3565"] 3743743 3744210 "+" "EG12280_RNA" +"EG12281" "yiaM" ["yiaM", "b3577", "ECK3566"] 3744328 3744801 "+" "EG12281_RNA" +"EG12282" "yiaN" ["yiaN", "b3578", "ECK3567"] 3744804 3746081 "+" "EG12282_RNA" +"EG12283" "yiaO" ["yiaO", "b3579", "ECK3568"] 3746094 3747080 "+" "EG12283_RNA" +"EG12284" "lyxK" ["lyxK", "lyx", "xylK", "sgbK", "yiaP", "b3580", "ECK3569"] 3747084 3748580 "+" "EG12284_RNA" +"EG12285" "sgbH" ["sgbH", "yiaQ", "b3581", "ECK3570"] 3748577 3749239 "+" "EG12285_RNA" +"EG12286" "sgbU" ["sgbU", "yiaR", "b3582", "ECK3571"] 3749232 3750092 "+" "EG12286_RNA" +"EG12287" "sgbE" ["sgbE", "yiaS", "b3583", "ECK3572"] 3750086 3750781 "+" "EG12287_RNA" +"EG12288" "yiaT" ["yiaT", "b3584", "ECK3573"] 3751128 3751868 "-" "EG12288_RNA" +"EG12289" "yiaU" ["yiaU", "b3585", "ECK3574"] 3751992 3752966 "+" "EG12289_RNA" +"EG12290" "yiaV" ["yiaV", "b3586", "ECK3575"] 3752963 3754099 "-" "EG12290_RNA" +"EG12291" "yiaW" ["yiaW", "b3587", "ECK3576"] 3754105 3754428 "-" "EG12291_RNA" +"EG12292" "aldB" ["aldB", "yiaX", "b3588", "ECK3577"] 3754973 3756511 "-" "EG12292_RNA" +"EG12293" "yiaY" ["yiaY", "b3589", "ECK3578"] 3756676 3757827 "-" "EG12293_RNA" +"EG12294" "grxC" ["grxC", "yibM", "b3610", "ECK3600"] 3784191 3784442 "-" "EG12294_RNA" +"EG12295" "yibN" ["yibN", "b3611", "ECK3601"] 3784584 3785015 "-" "EG12295_RNA" +"EG12296" "gpmM" ["gpmM", "gpmC", "pgmI", "gpmI", "yibO", "b3612", "ECK3602"] 3785260 3786804 "+" "EG12296_RNA" +"EG12297" "envC" ["envC", "yibP", "slm11", "b3613", "ECK3603"] 3786838 3788097 "+" "EG12297_RNA" +"EG12298" "yibQ" ["yibQ", "b3614", "ECK3604"] 3788101 3789060 "+" "EG12298_RNA" +"EG12301" "rutR" ["rutR", "ycdC", "b1013", "ECK1004"] 1074242 1074880 "+" "EG12301_RNA" +"EG12302" "tmk" ["tmk", "ycfG", "b1098", "ECK1084"] 1155124 1155765 "+" "EG12302_RNA" +"EG12303" "ycfH" ["ycfH", "b1100", "ECK1086"] 1156777 1157574 "+" "EG12303_RNA" +"EG12304" "sapD" ["sapD", "trkE", "b1291", "ECK1286"] 1352636 1353628 "-" "EG12304_RNA" +"EG12305" "sapF" ["sapF", "b1290", "ECK1285"] 1351828 1352634 "-" "EG12305_RNA" +"EG12308" "yfhH" ["yfhH", "b2561", "ECK2559"] 2698759 2699607 "+" "EG12308_RNA" +"EG12309" "yjtD" ["yjtD", "lasT", "b4403", "ECK4395"] 4640942 4641628 "+" "EG12309_RNA" +"EG12310" "pepB" ["pepB", "yfhI", "b2523", "ECK2520"] 2655075 2656358 "-" "EG12310_RNA" +"EG12311" "iscX" ["iscX", "yfhJ", "b2524", "ECK2521"] 2656536 2656736 "-" "EG12311_RNA" +"EG12312" "coaE" ["coaE", "yacE", "b0103", "ECK0103"] 112599 113219 "-" "EG12312_RNA" +"EG12313" "zapD" ["zapD", "yacF", "b0102", "ECK0102"] 111856 112599 "-" "EG12313_RNA" +"EG12314" "yacG" ["yacG", "b0101", "ECK0101"] 111649 111846 "-" "EG12314_RNA" +"EG12315" "yacH" ["yacH", "b0117", "ECK0116"] 129407 131260 "-" "EG12315_RNA" +"EG12316" "acnB" ["acnB", "yacJ", "yacI", "b0118", "ECK0117"] 131615 134212 "+" "EG12316_RNA" +"EG12318" "cueO" ["cueO", "yacK", "b0123", "ECK0122"] 137083 138633 "+" "EG12318_RNA" +"EG12319" "can" ["can", "yadF", "b0126", "ECK0125"] 142008 142670 "-" "EG12319_RNA" +"EG12320" "yadG" ["yadG", "b0127", "ECK0126"] 142779 143705 "+" "EG12320_RNA" +"EG12321" "yadH" ["yadH", "b0128", "ECK0127"] 143702 144472 "+" "EG12321_RNA" +"EG12322" "yadI" ["yadI", "agaX", "b0129", "ECK0128"] 144577 145017 "+" "EG12322_RNA" +"EG12323" "rpnE" ["rpnE", "yfaD", "b2244", "ECK2236"] 2356904 2357803 "+" "EG12323_RNA" +"EG12325" "yadK" ["yadK", "b0136", "ECK0135"] 151003 151599 "-" "EG12325_RNA" +"EG12326" "yadL" ["yadL", "b0137", "ECK0136"] 151626 152231 "-" "EG12326_RNA" +"EG12327" "yadM" ["yadM", "b0138", "ECK0137"] 152243 152812 "-" "EG12327_RNA" +"EG12328" "yadN" ["yadN", "b0141", "ECK0140"] 156299 156883 "-" "EG12328_RNA" +"EG12329" "hrpB" ["hrpB", "yadO", "b0148", "ECK0147"] 162105 164534 "+" "EG12329_RNA" +"EG12330" "thpR" ["thpR", "yadP", "ligT", "b0147", "ECK0146"] 161501 162031 "-" "EG12330_RNA" +"EG12331" "clcA" ["clcA", "eriC", "yadQ", "b0155", "ECK0154"] 175107 176528 "+" "EG12331_RNA" +"EG12332" "erpA" ["erpA", "yadR", "b0156", "ECK0155"] 176610 176954 "+" "EG12332_RNA" +"EG12333" "yadS" ["yadS", "b0157", "ECK0156"] 177001 177624 "-" "EG12333_RNA" +"EG12334" "btuF" ["btuF", "yadT", "b0158", "ECK0157"] 177662 178462 "-" "EG12334_RNA" +"EG12335" "cdaR" ["cdaR", "sdaR", "yaeG", "b0162", "ECK0161"] 182463 183620 "+" "EG12335_RNA" +"EG12336" "yaeH" ["yaeH", "b0163", "ECK0162"] 183709 184095 "-" "EG12336_RNA" +"EG12337" "yaeI" ["yaeI", "b0164", "ECK0163"] 184257 185069 "-" "EG12337_RNA" +"EG12338" "yagA" ["yagA", "b0267", "ECK0268"] 280829 281983 "-" "EG12338_RNA" +"EG12339" "yagB" ["yagB", "b0266", "ECK0267"] 280385 280735 "-" "EG12339_RNA" +"EG12340" "afuC" ["afuC", "fbpC", "yagC", "b0262", "ECK0264"] 277756 278802 "-" "EG12340_RNA" +"EG12341" "rseA" ["rseA", "yfiJ", "mclA", "b2572", "ECK2570"] 2708754 2709404 "-" "EG12341_RNA" +"EG12342" "yjjJ" ["yjjJ", "b4385", "ECK4377"] 4621769 4623100 "+" "EG12342_RNA" +"EG12343" "ettA" ["ettA", "yjjK", "b4391", "ECK4383"] 4628855 4630522 "-" "EG12343_RNA" +"EG12344" "pspF" ["pspF", "ycjB", "b1303", "ECK1298"] 1366935 1367912 "-" "EG12344_RNA" +"EG12345" "ydfG" ["ydfG", "b1539", "ECK1532"] 1627517 1628263 "+" "EG12345_RNA" +"EG12347" "tcyN" ["tcyN", "yecC", "b1917", "ECK1916"] 1997062 1997814 "-" "EG12347_RNA" +"EG12352" "ppiC" ["ppiC", "parvA", "b3775", "ECK3767"] 3959532 3959813 "-" "EG12352_RNA" +"EG12354" "arfB" ["arfB", "yaeJ", "b0191", "ECK0191"] 214833 215255 "+" "EG12354_RNA" +"EG12356" "rtcR" ["rtcR", "yhgB", "b3422", "ECK3408"] 3558268 3559866 "+" "EG12356_RNA" +"EG12357" "fadK" ["fadK", "ydiD", "b1701", "ECK1699"] 1782977 1784677 "+" "EG12357_RNA" +"EG12358" "ssuB" ["ssuB", "ycbE", "b0933", "ECK0924"] 993277 994044 "-" "EG12358_RNA" +"EG12359" "ybgD" ["ybgD", "b0719", "ECK0708"] 752229 752795 "-" "EG12359_RNA" +"EG12360" "yfaE" ["yfaE", "b2236", "ECK2228"] 2348514 2348768 "+" "EG12360_RNA" +"EG12361" "kduD" ["kduD", "yqeD", "ygeC", "b2842", "ECK2840"] 2982497 2983258 "-" "EG12361_RNA" +"EG12362" "menF" ["menF", "yfbA", "b2265", "ECK2259"] 2379348 2380643 "-" "EG12362_RNA" +"EG12363" "ygiL" ["ygiL", "b3043", "ECK3034"] 3185414 3185965 "+" "EG12363_RNA" +"EG12364" "intB" ["intB", "int(P4)", "yjgC", "b4271", "ECK4264"] 4496750 4497940 "+" "EG12364_RNA" +"EG12365" "prkB" ["prkB", "yhfF", "b3355", "ECK3343"] 3484490 3485359 "+" "EG12365_RNA" +"EG12366" "rsmE" ["rsmE", "yggJ", "b2946", "ECK2941"] 3091134 3091865 "+" "EG12366_RNA" +"EG12367" "cusA" ["cusA", "ybdE", "b0575", "ECK0567"] 598714 601857 "+" "EG12367_RNA" +"EG12368" "znuB" ["znuB", "yebI", "b1859", "ECK1860"] 1943414 1944199 "+" "EG12368_RNA" +"EG12369" "ydjE" ["ydjE", "b1769", "ECK1767"] 1852621 1853979 "-" "EG12369_RNA" +"EG12370" "intE" ["intE", "int(Lambda)", "ycfI", "b1140", "ECK1126"] 1199679 1200806 "-" "EG12370_RNA" +"EG12371" "nlpI" ["nlpI", "yhbM", "b3163", "ECK3151"] 3308040 3308924 "-" "EG12371_RNA" +"EG12372" "ygdG" ["ygdG", "xni", "exo", "b2798", "ECK2793"] 2931055 2931810 "+" "EG12372_RNA" +"EG12373" "ppnN" ["ppnN", "ygdH", "b2795", "ECK2790"] 2926308 2927672 "+" "EG12373_RNA" +"EG12374" "yhfG" ["yhfG", "ficA", "b3362", "ECK3350"] 3491453 3491620 "-" "EG12374_RNA" +"EG12375" "ycaI" ["ycaI", "b0913", "ECK0904"] 964320 966584 "+" "EG12375_RNA" +"EG12376" "yfeH" ["yfeH", "b2410", "ECK2404"] 2526946 2527944 "+" "EG12376_RNA" +"EG12378" "yecD" ["yecD", "b1867", "ECK1868"] 1950832 1951398 "+" "EG12378_RNA" +"EG12379" "yecE" ["yecE", "b1868", "ECK1869"] 1951395 1952213 "+" "EG12379_RNA" +"EG12380" "gntT" ["gntT", "gntTalpha", "yhgC", "gntM", "usgA", "b3415", "ECK3402"] 3546559 3547875 "+" "EG12380_RNA" +"EG12381" "nrdF" ["nrdF", "ygaD", "b2676", "ECK2670"] 2803502 2804461 "+" "EG12381_RNA" +"EG12384" "ybcF" ["ybcF", "arcC", "b0521", "ECK0514"] 550439 551332 "+" "EG12384_RNA" +"EG12385" "rcsD" ["rcsD", "yojP", "yojQ", "yojN", "b2216", "ECK2209"] 2313488 2316160 "+" "EG12385_RNA" +"EG12386" "glaR" ["glaR", "ygaE", "gabC", "csiR", "b2664", "ECK2658"] 2795674 2796336 "+" "EG12386_RNA" +"EG12387" "lhgD" ["lhgD", "ygaF", "lhgO", "b2660", "ECK2654"] 2789982 2791250 "+" "EG12387_RNA" +"EG12388" "sfmF" ["sfmF", "ybcG", "b0534", "ECK0527"] 563330 563845 "+" "EG12388_RNA" +"EG12391" "ydiE" ["ydiE", "b1705", "ECK1703"] 1789613 1789804 "+" "EG12391_RNA" +"EG12392" "dauA" ["dauA", "ychM", "b1206", "ECK1194"] 1259124 1260803 "-" "EG12392_RNA" +"EG12393" "ttdT" ["ttdT", "ygjC", "ygjE", "b3063", "ECK3053"] 3208024 3209487 "+" "EG12393_RNA" +"EG12394" "msrB" ["msrB", "yeaA", "b1778", "ECK1776"] 1862016 1862429 "-" "EG12394_RNA" +"EG12395" "ybgE" ["ybgE", "b0735", "ECK0724"] 774309 774602 "+" "EG12395_RNA" +"EG12396" "dgcE" ["dgcE", "yegE", "b2067", "ECK2061"] 2143266 2146583 "+" "EG12396_RNA" +"EG12397" "ycbF" ["ycbF", "b0944", "ECK0935"] 1003947 1004657 "+" "EG12397_RNA" +"EG12399" "dhaM" ["dhaM", "ycgC", "dhaH", "ptsD", "b1198", "ECK1186"] 1247696 1249114 "-" "EG12399_RNA" +"EG12400" "mdtK" ["mdtK", "norE", "norM", "ydhE", "b1663", "ECK1659"] 1743457 1744830 "+" "EG12400_RNA" +"EG12401" "rlmN" ["rlmN", "yfgB", "b2517", "ECK2513"] 2643129 2644283 "-" "EG12401_RNA" +"EG12402" "chaB" ["chaB", "b1217", "ECK1211"] 1272119 1272349 "+" "EG12402_RNA" +"EG12403" "chaC" ["chaC", "b1218", "ECK1212"] 1272507 1273202 "+" "EG12403_RNA" +"EG12404" "ychN" ["ychN", "b1219", "ECK1213"] 1273246 1273599 "-" "EG12404_RNA" +"EG12405" "ychO" ["ychO", "ychP", "b1220", "ECK1214"] 1273784 1275178 "+" "EG12405_RNA" +"EG12406" "cecR" ["cecR", "ybiH", "b0796", "ECK0785"] 829972 830643 "-" "EG12406_RNA" +"EG12407" "iaaA" ["iaaA", "spt", "ybiK", "b0828", "ECK0818"] 866568 867533 "+" "EG12407_RNA" +"EG12409" "aegA" ["aegA", "yffG", "b2468", "ECK2463"] 2583546 2585525 "-" "EG12409_RNA" +"EG12410" "nudK" ["nudK", "yffH", "b2467", "ECK2462"] 2582903 2583478 "-" "EG12410_RNA" +"EG12411" "rfbD" ["rfbD", "rmlD", "b2040", "ECK2034"] 2111077 2111976 "-" "EG12411_RNA" +"EG12412" "rfbB" ["rfbB", "som", "rmlB", "b2041", "ECK2035"] 2111976 2113061 "-" "EG12412_RNA" +"EG12414" "gatA" ["gatA", "b2094", "ECK2087"] 2174597 2175049 "-" "EG12414_RNA" +"EG12415" "gatB" ["gatB", "b2093", "ECK2086"] 2174282 2174566 "-" "EG12415_RNA" +"EG12416" "gatC" ["gatC", "b2092", "ECK2085"] 2172921 2174278 "-" "EG12416_RNA" +"EG12417" "gatD" ["gatD", "b2091", "ECK2084"] 2171833 2172873 "-" "EG12417_RNA" +"EG12419" "gatY" ["gatY", "yegF", "b2096", "ECK2089"] 2176350 2177204 "-" "EG12419_RNA" +"EG12421" "ybiI" ["ybiI", "b0803", "ECK0792"] 838190 838456 "-" "EG12421_RNA" +"EG12422" "ybiJ" ["ybiJ", "b0802", "ECK0791"] 837665 837925 "-" "EG12422_RNA" +"EG12423" "tauD" ["tauD", "ssiD", "yaiG", "b0368", "ECK0365"] 387795 388646 "+" "EG12423_RNA" +"EG12424" "prmC" ["prmC", "hemK", "b1212", "ECK1200"] 1266094 1266927 "+" "EG12424_RNA" +"EG12427" "modA" ["modA", "b0763", "ECK0752"] 795089 795862 "+" "EG12427_RNA" +"EG12428" "rhoL" ["rhoL", "b3782", "ECK3774"] 3966231 3966332 "+" "EG12428_RNA" +"EG12429" "tomB" ["tomB", "ybaJ", "b0461", "ECK0455"] 480334 480708 "-" "EG12429_RNA" +"EG12431" "puuR" ["puuR", "ycjC", "b1299", "ECK1294"] 1361911 1362468 "+" "EG12431_RNA" +"EG12432" "ydiF" ["ydiF", "b1694", "ECK1692"] 1775587 1777182 "+" "EG12432_RNA" +"EG12433" "rluB" ["rluB", "yciL", "b1269", "ECK1263"] 1326852 1327727 "+" "EG12433_RNA" +"EG12434" "ygiM" ["ygiM", "ecfG", "htrG", "b3055", "ECK3045"] 3201207 3201827 "+" "EG12434_RNA" +"EG12436" "rseP" ["rseP", "ecfE", "yaeL", "b0176", "ECK0175"] 196546 197898 "+" "EG12436_RNA" +"EG12437" "menE" ["menE", "b2260", "ECK2254"] 2373648 2375003 "-" "EG12437_RNA" +"EG12438" "menH" ["menH", "yfbB", "b2263", "ECK2257"] 2376834 2377592 "-" "EG12438_RNA" +"EG12439" "yjfF" ["yjfF", "b4231", "ECK4226"] 4453583 4454578 "+" "EG12439_RNA" +"EG12440" "mpl" ["mpl", "tpl", "yjfG", "b4233", "ECK4228"] 4455785 4457158 "+" "EG12440_RNA" +"EG12442" "yfjD" ["yfjD", "b2612", "ypjE", "b2613", "b4461", "ECK2609"] 2748774 2750060 "+" "EG12442_RNA" +"EG12443" "yggL" ["yggL", "b2959", "ECK2954"] 3101807 3102133 "-" "EG12443_RNA" +"EG12444" "ycfJ" ["ycfJ", "b1110", "ECK1096"] 1167599 1168138 "+" "EG12444_RNA" +"EG12445" "eamB" ["eamB", "yfiK", "b2578", "ECK2576"] 2715423 2716010 "+" "EG12445_RNA" +"EG12446" "yfiL" ["yfiL", "b2602", "ECK2599"] 2741360 2741725 "+" "EG12446_RNA" +"EG12448" "ybcH" ["ybcH", "b0567", "ECK0559"] 587091 587981 "-" "EG12448_RNA" +"EG12449" "prmB" ["prmB", "yfcB", "b2330", "ECK2324"] 2447508 2448440 "-" "EG12449_RNA" +"EG12450" "norW" ["norW", "ygaL", "ygbD", "b2711", "ECK2706"] 2833912 2835045 "+" "EG12450_RNA" +"EG12454" "ybaK" ["ybaK", "b0481", "ECK0475"] 506603 507082 "-" "EG12454_RNA" +"EG12455" "lplT" ["lplT", "ygeD", "b2835", "ECK2831"] 2972669 2973862 "-" "EG12455_RNA" +"EG12458" "alsB" ["alsB", "yjcX", "b4088", "ECK4081"] 4311107 4312042 "-" "EG12458_RNA" +"EG12462" "adiC" ["adiC", "yjdD", "yjdE", "b4115", "ECK4108"] 4335694 4337031 "-" "EG12462_RNA" +"EG12469" "dtpC" ["dtpC", "yjdL", "b4130", "ECK4124"] 4354954 4356411 "-" "EG12469_RNA" +"EG12475" "yjeM" ["yjeM", "b4156", "ECK4152"] 4383839 4385341 "+" "EG12475_RNA" +"EG12494" "ulaB" ["ulaB", "yjfT", "sgaB", "b4194", "ECK4190"] 4421393 4421698 "+" "EG12494_RNA" +"EG12495" "ulaC" ["ulaC", "ptxA", "yjfU", "sgaA", "b4195", "ECK4191"] 4421708 4422172 "+" "EG12495_RNA" +"EG12504" "cycA" ["cycA", "ytfD", "dagA", "b4208", "ECK4204"] 4429864 4431276 "+" "EG12504_RNA" +"EG12517" "ytfQ" ["ytfQ", "b4227", "ECK4223"] 4449962 4450918 "+" "EG12517_RNA" +"EG12518" "ytfR" ["ytfR", "ytfS", "b4228", "b4229", "b4485", "ECK4224"] 4451058 4452560 "+" "EG12518_RNA" +"EG12520" "ytfT" ["ytfT", "b4230", "ECK4225"] 4452571 4453596 "+" "EG12520_RNA" +"EG12522" "garD" ["garD", "yhaG", "b3128", "ECK3116"] 3275282 3276853 "+" "EG12522_RNA" +"EG12525" "mgtA" ["mgtA", "atmA", "corB", "mgt", "mtg", "b4242", "ECK4237"] 4467625 4470321 "+" "EG12525_RNA" +"EG12539" "idnT" ["idnT", "gntW", "yjgT", "b4265", "ECK4258"] 4491206 4492525 "-" "EG12539_RNA" +"EG12544" "nanX" ["nanX", "yjhB", "b4279", "ECK4269"] 4504058 4505275 "+" "EG12544_RNA" +"EG12548" "yjhF" ["yjhF", "b4296", "ECK4285"] 4520671 4522020 "-" "EG12548_RNA" +"EG12554" "sgcA" ["sgcA", "yjhL", "b4302", "ECK4291"] 4527549 4527980 "-" "EG12554_RNA" +"EG12556" "sgcC" ["sgcC", "yjhN", "b4304", "ECK4293"] 4528930 4530243 "-" "EG12556_RNA" +"EG12557" "sgcX" ["sgcX", "yjhO", "b4305", "ECK4295"] 4530530 4531651 "-" "EG12557_RNA" +"EG12563" "gntP" ["gntP", "yjiB", "b4321", "ECK4312"] 4549953 4551296 "-" "EG12563_RNA" +"EG12576" "mdtM" ["mdtM", "yjiO", "b4337", "ECK4328"] 4567287 4568519 "-" "EG12576_RNA" +"EG12587" "lgoT" ["lgoT", "yjiZ", "yjjL", "b4356", "ECK4346"] 4593361 4594722 "-" "EG12587_RNA" +"EG12591" "opgB" ["opgB", "yjjO", "mdoB", "b4359", "ECK4349"] 4597150 4599441 "-" "EG12591_RNA" +"EG12600" "yjjX" ["yjjX", "b4394", "ECK4386"] 4633233 4633745 "-" "EG12600_RNA" +"EG12605" "yacL" ["yacL", "b0119", "ECK0118"] 134388 134750 "+" "EG12605_RNA" +"EG12606" "fabF" ["fabF", "vtr", "cvc", "fabJ", "vtrB", "b1095", "ECK1081"] 1151939 1153180 "+" "EG12606_RNA" +"EG12608" "caiE" ["caiE", "b0035", "ECK0036"] 34781 35371 "-" "EG12608_RNA" +"EG12609" "rluA" ["rluA", "yabO", "b0058", "ECK0059"] 59687 60346 "-" "EG12609_RNA" +"EG12610" "yabP" ["yabP", "b4659", "b0056", "ECK0057"] 58474 59124 "+" "EG12610_RNA" +"EG12611" "yabQ" ["yabQ", "b4659", "b0057", "ECK0058"] 59121 59279 "+" "EG12611_RNA" +"EG12615" "torR" ["torR", "b0995", "ECK0986"] 1057262 1057954 "-" "EG12615_RNA" +"EG12623" "ybaL" ["ybaL", "ylaA", "b0478", "ECK0472"] 501562 503238 "-" "EG12623_RNA" +"EG12624" "yiaG" ["yiaG", "b3555", "ECK3542"] 3719478 3719768 "+" "EG12624_RNA" +"EG12625" "dppB" ["dppB", "b3543", "ECK3530"] 3704771 3705790 "-" "EG12625_RNA" +"EG12626" "dppC" ["dppC", "b3542", "ECK3529"] 3703859 3704761 "-" "EG12626_RNA" +"EG12627" "dppD" ["dppD", "b3541", "ECK3528"] 3702865 3703848 "-" "EG12627_RNA" +"EG12628" "dppF" ["dppF", "dppE", "b3540", "ECK3527"] 3701864 3702868 "-" "EG12628_RNA" +"EG12629" "gntK" ["gntK", "b3437", "ECK3422"] 3577065 3577592 "-" "EG12629_RNA" +"EG12630" "gntR" ["gntR", "b3438", "ECK3423"] 3577731 3578726 "-" "EG12630_RNA" +"EG12631" "gntU" ["gntU", "b3435", "b3436", "b4476", "ECK3421"] 3575721 3577061 "-" "EG12631_RNA" +"EG12633" "nudF" ["nudF", "trgB", "aspP", "yqiE", "b3034", "ECK3025"] 3177281 3177910 "-" "EG12633_RNA" +"EG12634" "cas3" ["cas3", "ygcB", "b2761", "ECK2756"] 2884553 2887219 "-" "EG12634_RNA" +"EG12656" "mdaB" ["mdaB", "mda66", "b3028", "ECK3019"] 3172530 3173111 "+" "EG12656_RNA" +"EG12657" "ygiN" ["ygiN", "b3029", "ECK3020"] 3173142 3173456 "+" "EG12657_RNA" +"EG12658" "qseC" ["qseC", "ygiY", "b3026", "ECK3017"] 3170484 3171833 "+" "EG12658_RNA" +"EG12661" "gltJ" ["gltJ", "b0654", "ECK0647"] 685929 686669 "-" "EG12661_RNA" +"EG12662" "gltK" ["gltK", "b0653", "ECK0646"] 685255 685929 "-" "EG12662_RNA" +"EG12663" "gltL" ["gltL", "b0652", "ECK0645"] 684530 685255 "-" "EG12663_RNA" +"EG12666" "lpxH" ["lpxH", "ybbF", "b0524", "ECK0517"] 553218 553940 "-" "EG12666_RNA" +"EG12688" "grxB" ["grxB", "b1064", "ECK1049"] 1123407 1124054 "-" "EG12688_RNA" +"EG12689" "yceK" ["yceK", "b1050", "ECK1036"] 1113579 1113806 "+" "EG12689_RNA" +"EG12690" "rarA" ["rarA", "ycaJ", "mgsA", "b0892", "ECK0883"] 937994 939337 "+" "EG12690_RNA" +"EG12691" "lapB" ["lapB", "yciM", "b1280", "ECK1275"] 1340558 1341727 "+" "EG12691_RNA" +"EG12692" "hcxA" ["hcxA", "ybdH", "b0599", "ECK0593"] 632389 633477 "-" "EG12692_RNA" +"EG12693" "nudL" ["nudL", "yeaB", "b1813", "ECK1811"] 1896170 1896748 "+" "EG12693_RNA" +"EG12694" "ttdR" ["ttdR", "dan", "ygiP", "b3060", "ECK3050"] 3205324 3206256 "-" "EG12694_RNA" +"EG12697" "fldB" ["fldB", "b2895", "ECK2890"] 3039855 3040376 "+" "EG12697_RNA" +"EG12702" "ycaK" ["ycaK", "b0901", "ECK0892"] 949668 950258 "+" "EG12702_RNA" +"EG12703" "yccJ" ["yccJ", "b1003", "ECK0994"] 1066864 1067091 "-" "EG12703_RNA" +"EG12704" "yggM" ["yggM", "b2956", "ECK2951"] 3098558 3099565 "-" "EG12704_RNA" +"EG12705" "yggN" ["yggN", "ecfF", "b2958", "ECK2953"] 3100904 3101623 "-" "EG12705_RNA" +"EG12707" "ygbE" ["ygbE", "b2749", "ECK2744"] 2873014 2873337 "-" "EG12707_RNA" +"EG12708" "ybcI" ["ybcI", "b0527", "ECK0520"] 556032 556553 "-" "EG12708_RNA" +"EG12709" "yedI" ["yedI", "b1958", "ECK1956"] 2028449 2029366 "-" "EG12709_RNA" +"EG12710" "yedJ" ["yedJ", "b1962", "ECK1960"] 2032384 2033079 "-" "EG12710_RNA" +"EG12712" "luxS" ["luxS", "ygaG", "b2687", "ECK2681"] 2814218 2814733 "-" "EG12712_RNA" +"EG12713" "yddG" ["yddG", "b1473", "ECK1467"] 1546288 1547169 "-" "EG12713_RNA" +"EG12715" "dxr" ["dxr", "yaeM", "ispC", "b0173", "ECK0172"] 193521 194717 "+" "EG12715_RNA" +"EG12717" "mug" ["mug", "ygjF", "b3068", "ECK3058"] 3214967 3215473 "-" "EG12717_RNA" +"EG12720" "ygjI" ["ygjI", "b3078", "ECK3068"] 3226234 3227667 "+" "EG12720_RNA" +"EG12732" "sstT" ["sstT", "ygjU", "b3089", "ECK3080"] 3239944 3241188 "+" "EG12732_RNA" +"EG12734" "uxaA" ["uxaA", "ygjW", "b3091", "ECK3082"] 3241827 3243314 "-" "EG12734_RNA" +"EG12738" "exuT" ["exuT", "b3093", "ECK3084"] 3245224 3246522 "+" "EG12738_RNA" +"EG12739" "exuR" ["exuR", "b3094", "ECK3085"] 3246652 3247428 "+" "EG12739_RNA" +"EG12754" "cyuP" ["cyuP", "dlsT", "yhaO", "b3110", "ECK3100"] 3256679 3258010 "-" "EG12754_RNA" +"EG12760" "garP" ["garP", "yhaU", "b3127", "ECK3115"] 3273573 3274907 "-" "EG12760_RNA" +"EG12766" "agaA" ["agaA", "yraA", "b3135", "ECK3123"] 3281122 3281625 "+" "EG12766_RNA" +"EG12768" "kbaY" ["kbaY", "yraC", "kba", "agaY", "b3137", "ECK3125"] 3283143 3284003 "+" "EG12768_RNA" +"EG12769" "agaB" ["agaB", "yraD", "b3138", "ECK3126"] 3284170 3284646 "+" "EG12769_RNA" +"EG12770" "agaC" ["agaC", "yraE", "b3139", "ECK3127"] 3284685 3285488 "+" "EG12770_RNA" +"EG12780" "diaA" ["diaA", "yraO", "b3149", "ECK3137"] 3295809 3296399 "+" "EG12780_RNA" +"EG12794" "yhbY" ["yhbY", "b3180", "ECK3169"] 3327790 3328083 "+" "EG12794_RNA" +"EG12799" "mlaD" ["mlaD", "yrbD", "b3193", "ECK3182"] 3337910 3338461 "-" "EG12799_RNA" +"EG12800" "mlaE" ["mlaE", "yrbE", "b3194", "ECK3183"] 3338466 3339248 "-" "EG12800_RNA" +"EG12801" "mlaF" ["mlaF", "yrbF", "b3195", "ECK3184"] 3339256 3340065 "-" "EG12801_RNA" +"EG12802" "yrbG" ["yrbG", "b3196", "ECK3185"] 3340275 3341252 "+" "EG12802_RNA" +"EG12830" "ybaM" ["ybaM", "b0466", "ECK0460"] 490110 490271 "-" "EG12830_RNA" +"EG12834" "yhdW" ["yhdW", "b3268", "ECK3255"] 3419042 3420066 "+" "EG12834_RNA" +"EG12835" "yhdX" ["yhdX", "b3269", "ECK3256"] 3420134 3421315 "+" "EG12835_RNA" +"EG12836" "yhdY" ["yhdY", "b3270", "ECK3257"] 3421325 3422428 "+" "EG12836_RNA" +"EG12837" "yhdZ" ["yhdZ", "b3271", "ECK3258"] 3422436 3423194 "+" "EG12837_RNA" +"EG12842" "ybjC" ["ybjC", "b0850", "ECK0841"] 890913 891200 "+" "EG12842_RNA" +"EG12843" "ybaN" ["ybaN", "b0468", "ECK0462"] 490882 491259 "+" "EG12843_RNA" +"EG12844" "yefM" ["yefM", "b2017", "ECK2012"] 2089462 2089713 "-" "EG12844_RNA" +"EG12845" "cas2" ["cas2", "ygbF", "b2754", "ECK2749"] 2878569 2878853 "-" "EG12845_RNA" +"EG12850" "yfaL" ["yfaL", "yfaF", "yfaK", "yfaJ", "b2233", "ECK2225"] 2340417 2344169 "-" "EG12850_RNA" +"EG12851" "ybeL" ["ybeL", "b0643", "ECK0636"] 675018 675500 "+" "EG12851_RNA" +"EG12853" "abgT" ["abgT", "ydaH", "b1336", "ECK1332"] 1400247 1401773 "-" "EG12853_RNA" +"EG12854" "cpoB" ["cpoB", "ybgF", "b0742", "ECK0731"] 779598 780389 "+" "EG12854_RNA" +"EG12855" "matP" ["matP", "ycbG", "b0956", "ECK0947"] 1018485 1018937 "+" "EG12855_RNA" +"EG12857" "yfiM" ["yfiM", "b2586", "ECK2584"] 2724128 2724451 "+" "EG12857_RNA" +"EG12859" "opgD" ["opgD", "yzzZ", "ydcG", "mdoD", "b1424", "ECK1418"] 1496856 1498511 "+" "EG12859_RNA" +"EG12860" "yebK" ["yebK", "hexR(P.a.)", "b1853", "ECK1854"] 1936652 1937521 "+" "EG12860_RNA" +"EG12861" "yecF" ["yecF", "b1915", "ECK1914"] 1995818 1996042 "+" "EG12861_RNA" +"EG12865" "ydcH" ["ydcH", "b1426", "ECK1419"] 1498651 1498875 "+" "EG12865_RNA" +"EG12866" "proQ" ["proQ", "yoeC", "yobE", "yebJ", "b1831", "ECK1830"] 1914836 1915534 "-" "EG12866_RNA" +"EG12867" "ampH" ["ampH", "yaiH", "b0376", "ECK0371"] 395130 396287 "-" "EG12867_RNA" +"EG12868" "yciN" ["yciN", "b1273", "ECK1267"] 1330417 1330668 "-" "EG12868_RNA" +"EG12870" "ycjF" ["ycjF", "b1322", "ECK1318"] 1385511 1386572 "+" "EG12870_RNA" +"EG12874" "yajI" ["yajI", "b0412", "ECK0406"] 432312 432851 "-" "EG12874_RNA" +"EG12875" "ybhC" ["ybhC", "b0772", "ECK0761"] 805998 807281 "-" "EG12875_RNA" +"EG12876" "tusE" ["tusE", "yccK", "b0969", "ECK0960"] 1030339 1030668 "-" "EG12876_RNA" +"EG12877" "ycfK" ["ycfK", "stfP", "b1154", "ECK1140"] 1207501 1208130 "+" "EG12877_RNA" +"EG12878" "zapA" ["zapA", "ygfE", "b2910", "ECK2905"] 3055612 3055941 "+" "EG12878_RNA" +"EG12879" "ybcJ" ["ybcJ", "b0528", "ECK0521"] 556661 556873 "-" "EG12879_RNA" +"EG12880" "dgcN" ["dgcN", "yfiN", "b2604", "ECK2601"] 2742383 2743609 "+" "EG12880_RNA" +"EG12881" "yfaH" ["yfaH", "b2238", "ECK2230"] 2349687 2349893 "+" "EG12881_RNA" +"EG12882" "gss" ["gss", "gsp", "b2988", "ECK2982"] 3136663 3138522 "-" "EG12882_RNA" +"EG12883" "pitB" ["pitB", "b2987", "ECK2981"] 3134872 3136371 "-" "EG12883_RNA" +"EG12903" "yheS" ["yheS", "b3352", "ECK3340"] 3481289 3483202 "+" "EG12903_RNA" +"EG12908" "frlA" ["frlA", "yhfM", "b3370", "ECK3358"] 3499910 3501247 "+" "EG12908_RNA" +"EG12933" "feoC" ["feoC", "yhgG", "b3410", "ECK3397"] 3542728 3542964 "+" "EG12933_RNA" +"EG12957" "glk" ["glk", "b2388", "ECK2384"] 2508461 2509426 "-" "EG12957_RNA" +"EG13139" "tynA" ["tynA", "feaA", "maoA", "b1386", "ECK1383"] 1449076 1451349 "-" "EG13139_RNA" +"EG13159" "xapB" ["xapB", "b2406", "ECK2400"] 2522729 2523985 "-" "EG13159_RNA" +"EG13161" "dsdC" ["dsdC", "b2364", "ECK2360"] 2476694 2477629 "-" "EG13161_RNA" +"EG13174" "yqcE" ["yqcE", "yqcF", "b2775", "ECK2769"] 2900592 2901869 "+" "EG13174_RNA" +"EG13217" "ybaE" ["ybaE", "b0445", "ECK0439"] 465612 467312 "-" "EG13217_RNA" +"EG13235" "mngA" ["mngA", "frx", "hrsA", "b0731", "ECK0719"] 765984 767960 "+" "EG13235_RNA" +"EG13236" "mngB" ["mngB", "ybgG", "b0732", "ECK0720"] 767978 770611 "+" "EG13236_RNA" +"EG13238" "cobU" ["cobU", "b1993", "ECK1988"] 2065219 2065764 "-" "EG13238_RNA" +"EG13270" "aqpZ" ["aqpZ", "bniP", "b0875", "ECK0866"] 915352 916047 "-" "EG13270_RNA" +"EG13283" "emrY" ["emrY", "b2367", "ECK2363"] 2480638 2482176 "-" "EG13283_RNA" +"EG20044" "dctA" ["dctA", "b3528", "ECK3513"] 3682161 3683447 "-" "EG20044_RNA" +"EG20049" "dgoA" ["dgoA", "b3692", "yidU", "b4477", "ECK3685"] 3872995 3873612 "-" "EG20049_RNA" +"EG20051" "dgoK" ["dgoK", "yidV", "b3693", "ECK3686"] 3873596 3874474 "-" "EG20051_RNA" +"EG20053" "dgoT" ["dgoT", "yidT", "b3691", "ECK3683"] 3870438 3871730 "-" "EG20053_RNA" +"EG20080" "glcB" ["glcB", "glc", "b2976", "ECK2970"] 3121634 3123805 "-" "EG20080_RNA" +"EG20091" "gpsA" ["gpsA", "b3608", "ECK3598"] 3782642 3783661 "-" "EG20091_RNA" +"EG20098" "hpt" ["hpt", "b0125", "ECK0124"] 141431 141967 "+" "EG20098_RNA" +"EG20110" "kefB" ["kefB", "trkB", "b3350", "ECK3338"] 3478802 3480607 "-" "EG20110_RNA" +"EG20173" "pta" ["pta", "b2297", "ECK2291"] 2414747 2416891 "+" "EG20173_RNA" +"EG20248" "uxuB" ["uxuB", "b4323", "ECK4314"] 4552901 4554361 "+" "EG20248_RNA" +"EG20249" "uxuR" ["uxuR", "b4324", "ECK4315"] 4554576 4555349 "+" "EG20249_RNA" +"EG20252" "xylF" ["xylF", "xylT", "b3566", "ECK3555"] 3731131 3732123 "+" "EG20252_RNA" +"EG20253" "xylR" ["xylR", "b3569", "ECK3558"] 3734979 3736157 "+" "EG20253_RNA" +"EG20257" "nrdE" ["nrdE", "b2675", "ECK2669"] 2801348 2803492 "+" "EG20257_RNA" +"EG30008" "alaT" ["alaT", "talA", "b3853", "ECK3845"] 4037260 4037335 "+" "alaT-tRNA" +"EG30009" "alaU" ["alaU", "talD", "b3276", "ECK3263"] 3426958 3427033 "-" "alaU-tRNA" +"EG30010" "alaV" ["alaV", "b0203", "ECK0203"] 225500 225575 "+" "alaV-tRNA" +"EG30011" "alaW" ["alaW", "alaWalpha", "b2397", "ECK2391"] 2518156 2518231 "-" "alaW-tRNA" +"EG30012" "alaX" ["alaX", "alaWbeta", "b2396", "ECK2390"] 2518041 2518116 "-" "alaX-tRNA" +"EG30013" "argQ" ["argQ", "argVdelta", "b2691", "ECK2686"] 2817784 2817860 "-" "argQ-tRNA" +"EG30014" "argU" ["argU", "dnaY", "pin", "b0536", "ECK0529"] 564723 564799 "+" "argU-tRNA" +"EG30015" "argV" ["argV", "argValpha", "b2694", "ECK2689"] 2818473 2818549 "-" "argV-tRNA" +"EG30016" "argW" ["argW", "b2348", "ECK2342"] 2466309 2466383 "+" "argW-tRNA" +"EG30017" "argX" ["argX", "b3796", "ECK3789"] 3982375 3982451 "+" "argX-tRNA" +"EG30018" "argY" ["argY", "argVbeta", "b2693", "ECK2688"] 2818198 2818274 "-" "argY-tRNA" +"EG30019" "argZ" ["argZ", "argVgamma", "b2692", "ECK2687"] 2818059 2818135 "-" "argZ-tRNA" +"EG30020" "asnT" ["asnT", "b1977", "ECK1973"] 2044549 2044624 "+" "asnT-tRNA" +"EG30021" "asnU" ["asnU", "b1986", "ECK1981"] 2059851 2059926 "+" "asnU-tRNA" +"EG30022" "asnV" ["asnV", "b1989", "ECK1984"] 2062260 2062335 "+" "asnV-tRNA" +"EG30023" "aspT" ["aspT", "tasC", "b3760", "ECK3754"] 3946872 3946948 "+" "aspT-tRNA" +"EG30024" "aspU" ["aspU", "b0206", "ECK0206"] 228928 229004 "+" "aspU-tRNA" +"EG30025" "aspV" ["aspV", "b0216", "ECK0216"] 236931 237007 "+" "aspV-tRNA" +"EG30027" "ffs" ["ffs", "b0455", "ECK0449"] 476448 476561 "+" "FFS-RNA" +"EG30028" "glnU" ["glnU", "glnUalpha", "supB", "trnA", "b0670", "ECK0659"] 696865 696939 "-" "glnU-tRNA" +"EG30029" "glnV" ["glnV", "Su2", "glnValpha", "suII", "supE", "b0665", "ECK0656"] 696542 696616 "-" "glnV-tRNA" +"EG30030" "glnW" ["glnW", "glnU-beta", "glnUbeta", "b0668", "ECK0658"] 696756 696830 "-" "glnW-tRNA" +"EG30031" "glnX" ["glnX", "supE", "glnV-beta", "glnVbeta", "b0664", "ECK0655"] 696430 696504 "-" "glnX-tRNA" +"EG30032" "gltT" ["gltT", "tgtB", "b3969", "ECK3961"] 4168372 4168447 "+" "gltT-tRNA" +"EG30033" "gltU" ["gltU", "tgtC", "b3757", "ECK3751"] 3943435 3943510 "+" "gltU-tRNA" +"EG30034" "gltV" ["gltV", "tgtE", "b4008", "ECK4000"] 4209774 4209849 "+" "gltV-tRNA" +"EG30035" "gltW" ["gltW", "b2590", "ECK2588"] 2729369 2729444 "-" "gltW-tRNA" +"EG30036" "glyT" ["glyT", "sumA", "sup15B", "supA36", "b3978", "ECK3969"] 4175673 4175747 "+" "glyT-tRNA" +"EG30037" "glyU" ["glyU", "supT", "suA36", "sufD", "sumA", "sumB", "b2864", "ECK2860"] 2998984 2999057 "-" "glyU-tRNA" +"EG30038" "glyV" ["glyV", "glyValpha", "ins", "mutA", "suA58", "suA78", "b4163", "ECK4159"] 4392360 4392435 "+" "glyV-tRNA" +"EG30039" "glyW" ["glyW", "ins", "mutC", "suA58", "suA78", "b1911", "ECK1910"] 1992042 1992117 "-" "glyW-tRNA" +"EG30040" "glyX" ["glyX", "glyVbeta", "b4164", "ECK4160"] 4392472 4392547 "+" "glyX-tRNA" +"EG30041" "glyY" ["glyY", "glyVgamma", "b4165", "ECK4161"] 4392583 4392658 "+" "glyY-tRNA" +"EG30042" "hisR" ["hisR", "hisT", "b3797", "ECK3790"] 3982509 3982585 "+" "hisR-tRNA" +"EG30043" "ileT" ["ileT", "tilA", "b3852", "ECK3844"] 4037141 4037217 "+" "ileT-tRNA" +"EG30044" "ileU" ["ileU", "tilD", "b3277", "ECK3264"] 3427076 3427152 "-" "ileU-tRNA" +"EG30045" "ileV" ["ileV", "b0202", "ECK0202"] 225381 225457 "+" "ileV-tRNA" +"EG30046" "ileX" ["ileX", "b3069", "ECK3059"] 3215598 3215673 "+" "ileX-tRNA" +"EG30047" "leuP" ["leuP", "leuV-beta", "leuVbeta", "b4369", "ECK4360"] 4606200 4606286 "-" "leuP-tRNA" +"EG30048" "leuQ" ["leuQ", "leuVgamma", "b4370", "ECK4361"] 4606315 4606401 "-" "leuQ-tRNA" +"EG30049" "leuT" ["leuT", "b3798", "ECK3791"] 3982606 3982692 "+" "leuT-tRNA" +"EG30050" "leuU" ["leuU", "b3174", "ECK3163"] 3322072 3322158 "-" "leuU-tRNA" +"EG30051" "leuV" ["leuV", "leuValpha", "b4368", "ECK4359"] 4606079 4606165 "-" "leuV-tRNA" +"EG30052" "leuW" ["leuW", "feeB", "b0672", "ECK0660"] 696963 697047 "-" "leuW-tRNA" +"EG30053" "leuX" ["leuX", "Su-6", "supP", "b4270", "ECK4263"] 4496405 4496489 "+" "leuX-tRNA" +"EG30054" "leuZ" ["leuZ", "b1909", "ECK1908"] 1991815 1991901 "-" "leuZ-tRNA" +"EG30055" "lysT" ["lysT", "supL", "supG", "sua", "lysTalpha", "Su[beta]", "b0743", "ECK0732"] 780554 780629 "+" "lysT-tRNA" +"EG30056" "lysV" ["lysV", "supN", "b2404", "ECK2398"] 2521253 2521328 "+" "lysV-tRNA" +"EG30057" "lysW" ["lysW", "lysT-beta", "lysTbeta", "su", "b0745", "ECK0734"] 780843 780918 "+" "lysW-tRNA" +"EG30058" "metT" ["metT", "metTalpha", "b0673", "ECK0661"] 697057 697133 "-" "metT-tRNA" +"EG30059" "metU" ["metU", "metT-beta", "metTbeta", "b0666", "ECK0657"] 696664 696740 "-" "metU-tRNA" +"EG30060" "metV" ["metV", "metZbeta", "metX", "metZ-β", "metZb", "b2816", "ECK2812"] 2947607 2947683 "+" "RNA0-306" +"EG30061" "metY" ["metY", "b3171", "ECK3160"] 3318213 3318289 "-" "metY-tRNA" +"EG30062" "metZ" ["metZ", "metZalpha", "b2814", "ECK2810"] 2947387 2947463 "+" "metZ-tRNA" +"EG30063" "micF" ["micF", "stc", "b4439", "ECK2208"] 2313084 2313176 "+" "MICF-RNA" +"EG30064" "pheU" ["pheU", "pheR", "pheW", "b4134", "ECK4128"] 4362551 4362626 "-" "pheU-tRNA" +"EG30065" "pheV" ["pheV", "pheC", "b2967", "ECK2962"] 3110366 3110441 "+" "pheV-tRNA" +"EG30066" "proK" ["proK", "proV", "b3545", "ECK3532"] 3708616 3708692 "-" "proK-tRNA" +"EG30067" "proL" ["proL", "proW", "b2189", "ECK2183"] 2286211 2286287 "+" "proL-tRNA" +"EG30068" "proM" ["proM", "proU", "b3799", "ECK3792"] 3982735 3982811 "+" "proM-tRNA" +"EG30069" "rnpB" ["rnpB", "b3123", "ECK3111"] 3270216 3270592 "-" "RNPB-RNA" +"EG30070" "rrfA" ["rrfA", "b3855", "ECK3847"] 4040517 4040636 "+" "RRFA-RRNA" +"EG30071" "rrfB" ["rrfB", "b3971", "ECK3963"] 4171637 4171756 "+" "RRFB-RRNA" +"EG30072" "rrfC" ["rrfC", "b3759", "ECK3753"] 3946700 3946819 "+" "RRFC-RRNA" +"EG30073" "rrfD" ["rrfD", "b3274", "ECK3261"] 3423668 3423787 "-" "RRFD-RRNA" +"EG30074" "rrfE" ["rrfE", "b4010", "ECK4002"] 4213040 4213159 "+" "RRFE-RRNA" +"EG30075" "rrfG" ["rrfG", "b2588", "ECK2586"] 2726069 2726188 "-" "RRFG-RRNA" +"EG30076" "rrfH" ["rrfH", "b0205", "ECK0205"] 228756 228875 "+" "RRFH-RRNA" +"EG30077" "rrlA" ["rrlA", "b3854", "ECK3846"] 4037519 4040423 "+" "RRLA-RRNA" +"EG30078" "rrlB" ["rrlB", "b3970", "ECK3962"] 4168641 4171544 "+" "RRLB-RRNA" +"EG30079" "rrlC" ["rrlC", "b3758", "ECK3752"] 3943704 3946607 "+" "RRLC-RRNA" +"EG30080" "rrlD" ["rrlD", "b3275", "ECK3262"] 3423880 3426783 "-" "RRLD-RRNA" +"EG30081" "rrlE" ["rrlE", "b4009", "ECK4001"] 4210043 4212946 "+" "RRLE-RRNA" +"EG30082" "rrlG" ["rrlG", "b2589", "ECK2587"] 2726281 2729184 "-" "RRLG-RRNA" +"EG30083" "rrlH" ["rrlH", "b0204", "ECK0204"] 225759 228662 "+" "RRLH-RRNA" +"EG30084" "rrsA" ["rrsA", "b3851", "ECK3843"] 4035531 4037072 "+" "RRSA-RRNA" +"EG30085" "rrsB" ["rrsB", "b3968", "ECK3960"] 4166659 4168200 "+" "RRSB-RRNA" +"EG30086" "rrsC" ["rrsC", "b3756", "ECK3750"] 3941808 3943349 "+" "RRSC-RRNA" +"EG30087" "rrsD" ["rrsD", "b3278", "ECK3265"] 3427221 3428762 "-" "RRSD-RRNA" +"EG30088" "rrsE" ["rrsE", "b4007", "ECK3999"] 4208147 4209688 "+" "RRSE-RRNA" +"EG30089" "rrsG" ["rrsG", "b2591", "ECK2589"] 2729616 2731157 "-" "RRSG-RRNA" +"EG30090" "rrsH" ["rrsH", "b0201", "ECK0201"] 223771 225312 "+" "RRSH-RRNA" +"EG30091" "rrfF" ["rrfF", "rrfDbeta", "rrvD", "b3272", "ECK3259"] 3423423 3423542 "-" "RRFF-RRNA" +"EG30092" "selC" ["selC", "fdhC", "b3658", "ECK3648"] 3836222 3836316 "+" "selC-tRNA" +"EG30093" "serT" ["serT", "divE", "b0971", "ECK0962"] 1031625 1031712 "-" "serT-tRNA" +"EG30094" "serU" ["serU", "supH", "Su-1", "ftsM", "su1", "supD", "b1975", "ECK1971"] 2043468 2043557 "-" "serU-tRNA" +"EG30095" "serV" ["serV", "supD", "b2695", "ECK2690"] 2818553 2818645 "-" "serV-tRNA" +"EG30096" "serW" ["serW", "b0883", "ECK0874"] 925884 925971 "-" "serW-tRNA" +"EG30097" "serX" ["serX", "b1032", "ECK1018"] 1097565 1097652 "-" "serX-tRNA" +"EG30098" "spf" ["spf", "b3864", "ECK3856"] 4049899 4050009 "+" "SPF-RNA" +"EG30099" "ssrS" ["ssrS", "ssr", "b2911", "ECK2906"] 3055983 3056165 "+" "6S-RNA" +"EG30100" "ssrA" ["ssrA", "sipB", "b2621", "ECK2617"] 2755593 2755955 "+" "SSRA-RNA" +"EG30101" "thrT" ["thrT", "b3979", "ECK3970"] 4175754 4175829 "+" "thrT-tRNA" +"EG30102" "thrU" ["thrU", "b3976", "ECK3967"] 4175388 4175463 "+" "thrU-tRNA" +"EG30103" "thrV" ["thrV", "b3273", "ECK3260"] 3423580 3423655 "-" "thrV-tRNA" +"EG30104" "thrW" ["thrW", "b0244", "ECK0245"] 262871 262946 "+" "thrW-tRNA" +"EG30105" "trpT" ["trpT", "su7", "su8", "su9", "supU", "supV", "b3761", "ECK3755"] 3946957 3947032 "+" "trpT-tRNA" +"EG30106" "tyrT" ["tyrT", "tyrTalpha", "supFsupO", "Su-3", "Su-4", "su(c)", "suIII", "supC", "b1231", "ECK1226"] 1287538 1287622 "-" "tyrT-tRNA" +"EG30107" "tyrU" ["tyrU", "sup15B", "supM", "supZ", "b3977", "ECK3968"] 4175472 4175556 "+" "tyrU-tRNA" +"EG30108" "tyrV" ["tyrV", "tyrTbeta", "b1230", "ECK1225"] 1287244 1287328 "-" "tyrV-tRNA" +"EG30109" "valT" ["valT", "valTa", "valTalpha", "b0744", "ECK0733"] 780765 780840 "+" "valT-tRNA" +"EG30110" "valU" ["valU", "valUalpha", "b2401", "ECK2395"] 2520931 2521006 "+" "valU-tRNA" +"EG30111" "valV" ["valV", "b1665", "ECK1661"] 1746435 1746511 "+" "valV-tRNA" +"EG30112" "valW" ["valW", "b1666", "ECK1662"] 1746516 1746592 "+" "valW-tRNA" +"EG30113" "valX" ["valX", "valU-beta", "valUbeta", "b2402", "ECK2396"] 2521051 2521126 "+" "valX-tRNA" +"EG30114" "valY" ["valY", "valUgamma", "b2403", "ECK2397"] 2521173 2521248 "+" "valY-tRNA" +"EG31115" "dicF" ["dicF", "b1574", "ECK1568"] 1649382 1649434 "+" "DICF-RNA" +"EG31116" "oxyS" ["oxyS", "b4458", "ECK3952"] 4158278 4158394 "-" "OXYS-RNA" +"EG31117" "metW" ["metW", "b2815", "ECK2811"] 2947497 2947573 "+" "metW-tRNA" +"EG50001" "rplU" ["rplU", "b3186", "ECK3175"] 3333140 3333451 "-" "EG50001_RNA" +"EG50002" "rpmA" ["rpmA", "rpz", "b3185", "ECK3174"] 3332862 3333119 "-" "EG50002_RNA" +"EG50003" "acpP" ["acpP", "b1094", "ECK1080"] 1151615 1151851 "+" "EG50003_RNA" +"EG50004" "rmf" ["rmf", "res", "rimF", "b0953", "ECK0944"] 1015715 1015882 "+" "EG50004_RNA" +"EG50005" "nfsB" ["nfsB", "ntr", "dprA", "nfnB", "b0578", "ECK0570"] 604771 605424 "-" "EG50005_RNA" +"EG50006" "eutB" ["eutB", "b2441", "ECK2436"] 2557318 2558679 "-" "EG50006_RNA" +"EG50007" "eutC" ["eutC", "b2440", "ECK2435"] 2556410 2557297 "-" "EG50007_RNA" +"EG50008" "cybC" ["cybC", "cytochrome b562", "b4236", "ECK4231"] 4459488 4459855 "+" "EG50008_RNA" +"EG50009" "gadA" ["gadA", "gadS", "b3517", "ECK3502"] 3666180 3667580 "-" "EG50009_RNA" +"EG50010" "frmA" ["frmA", "adhC", "b0356", "ECK0353"] 378462 379571 "-" "EG50010_RNA" +"EG50011" "folP" ["folP", "dhpS", "b3177", "ECK3166"] 3324063 3324911 "-" "EG50011_RNA" +"G0-10201" "istR" ["istR", "psrA19", "istR-1", "istR-2", "b4616", "ECK4425"] 3853118 3853257 "-" "RNA0-281" +"G0-10202" "istR-1" ["istR-1"] 3853118 3853192 "-" "G0-10202_RNA" +"G0-10241" "sgcB" ["sgcB", "b4565", "ECK4294"] 4530255 4530533 "-" "G0-10241_RNA" +"G0-10261" "ymgF" ["ymgF", "b4520", "ECK1156"] 1218983 1219201 "+" "G0-10261_RNA" +"G0-10430" "insA4" ["insA4", "b4516", "ECK0023"] 1049833 1050108 "+" "G0-10430_RNA" +"G0-10431" "yafF" ["yafF", "b4503", "ECK0219"] 239190 239378 "+" "G0-10431_RNA" +"G0-10432" "ykfH" ["ykfH", "b4504", "ECK0248"] 264026 264247 "-" "G0-10432_RNA" +"G0-10433" "insX" ["insX", "ykgN", "ECK0266", "b4505", "ECK4473"] 280114 280362 "-" "G0-10433_RNA" +"G0-10434" "ykgO" ["ykgO", "b4506", "ECK0295"] 312374 312514 "-" "G0-10434_RNA" +"G0-10435" "ylcG" ["ylcG", "b4509", "ECK0542"] 573730 573870 "+" "G0-10435_RNA" +"G0-10436" "rzoD" ["rzoD", "b4510", "ECK0548"] 578327 578509 "+" "G0-10436_RNA" +"G0-10437" "ybdZ" ["ybdZ", "b4511", "ECK0578"] 613942 614160 "+" "G0-10437_RNA" +"G0-10438" "ybdD" ["ybdD", "b4512", "ECK0592"] 632182 632379 "+" "G0-10438_RNA" +"G0-10439" "kdpF" ["kdpF", "b4513", "ECK0687"] 728732 728821 "-" "G0-10439_RNA" +"G0-10440" "ybfQ" ["ybfQ", "b4514", "ECK0693"] 736445 736699 "+" "G0-10440_RNA" +"G0-10441" "cydX" ["cydX", "ybgT", "b4515", "ECK0723"] 774196 774309 "+" "G0-10441_RNA" +"G0-10443" "ymdF" ["ymdF", "b4518", "ECK0996"] 1068081 1068254 "+" "G0-10443_RNA" +"G0-10444" "ycgI" ["ycgI", "ymgH", "b1173", "ECK1160", "b4521", "ECK1161"] 1223564 1223907 "+" "G0-10444_RNA" +"G0-10445" "ymjB" ["ymjB", "b4524", "ECK1314"] 1381789 1381902 "+" "G0-10445_RNA" +"G0-10446" "ymjC" ["ymjC", "b4525", "ECK1323"] 1390680 1390862 "-" "G0-10446_RNA" +"G0-10448" "ydaF" ["ydaF", "b4527", "ECK1352"] 1419156 1419311 "-" "G0-10448_RNA" +"G0-10449" "rzoR" ["rzoR", "b4528", "ECK1361"] 1423400 1423585 "+" "G0-10449_RNA" +"G0-10450" "ydbJ" ["ydbJ", "b4529", "ECK1375"] 1441058 1441324 "+" "G0-10450_RNA" +"G0-10451" "hicA" ["hicA", "yncN", "b4532", "ECK1431"] 1509286 1509462 "+" "G0-10451_RNA" +"G0-10452" "ynfO" ["ynfO", "b4533", "ECK1542"] 1636756 1636989 "+" "G0-10452_RNA" +"G0-10453" "yniD" ["yniD", "b4535", "ECK1719"] 1805165 1805272 "+" "G0-10453_RNA" +"G0-10454" "yobH" ["yobH", "b4536", "ECK1825"] 1908925 1909164 "+" "G0-10454_RNA" +"G0-10455" "yecJ" ["yecJ", "b4537", "ECK1901"] 1987507 1987758 "-" "G0-10455_RNA" +"G0-10456" "yoeF" ["yoeF", "b4538", "ECK2000"] 2078575 2078931 "+" "G0-10456_RNA" +"G0-10458" "yehK" ["yehK", "b4541", "ECK2110"] 2203972 2204289 "+" "G0-10458_RNA" +"G0-10459" "yohO" ["yohO", "b4542", "ECK2120"] 2215657 2215764 "+" "G0-10459_RNA" +"G0-10460" "arnE" ["arnE", "yfbW", "b4544", "ECK2251"] 2372557 2372892 "+" "G0-10460_RNA" +"G0-10461" "ypdJ" ["ypdJ", "b4545", "ECK2358"] 2476094 2476234 "+" "G0-10461_RNA" +"G0-10462" "ypeB" ["ypeB", "b4546", "ECK2405"] 2527941 2528159 "-" "G0-10462_RNA" +"G0-10463" "ypfN" ["ypfN", "b4547", "ECK2468"] 2592762 2592962 "+" "G0-10463_RNA" +"G0-10464" "ypjJ" ["ypjJ", "b4548", "ECK2641"] 2776877 2777077 "+" "G0-10464_RNA" +"G0-10465" "arfA" ["arfA", "yhdL", "b4550", "ECK3278"] 3438431 3438649 "-" "G0-10465_RNA" +"G0-10466" "yheV" ["yheV", "b4551", "ECK3337"] 3478592 3478792 "-" "G0-10466_RNA" +"G0-10467" "ysaB" ["ysaB", "b4553", "ECK3549"] 3725413 3725712 "-" "G0-10467_RNA" +"G0-10468" "yibT" ["yibT", "b4554", "ECK3591"] 3776171 3776380 "-" "G0-10468_RNA" +"G0-10469" "yicS" ["yicS", "b4555", "ECK3652"] 3840215 3840508 "+" "G0-10469_RNA" +"G0-10470" "yidD" ["yidD", "b4557", "ECK3697"] 3884816 3885073 "+" "G0-10470_RNA" +"G0-10471" "yifL" ["yifL", "b4558", "ECK3803"] 3994522 3994725 "+" "G0-10471_RNA" +"G0-10472" "ghoT" ["ghoT", "yjdO", "b4559", "ECK4122"] 4352908 4353081 "+" "G0-10472_RNA" +"G0-10473" "topAI" ["topAI", "yjhX", "b4566", "ECK4298"] 4533796 4534053 "-" "G0-10473_RNA" +"G0-10474" "yjjZ" ["yjjZ", "b4567", "ECK4358"] 4605804 4606040 "+" "G0-10474_RNA" +"G0-10475" "ytjA" ["ytjA", "b4568", "ECK4368"] 4612128 4612289 "+" "G0-10475_RNA" +"G0-10511" "yeiW" ["yeiW", "b4502", "ECK2164"] 2265041 2265295 "-" "G0-10511_RNA" +"G0-10512" "ymiA" ["ymiA", "yciX_1", "b4522", "ECK4433"] 1335148 1335288 "+" "G0-10512_RNA" +"G0-10513" "yciX" ["yciX", "yciX_2", "b4523", "ECK1270"] 1335291 1335458 "+" "G0-10513_RNA" +"G0-10525" "insEF1" ["insEF1"] 315291 316453 "+" "G0-10525_RNA" +"G0-10528" "insEF5" ["insEF5"] 2170236 2171398 "+" "G0-10528_RNA" +"G0-10529" "insEF2" ["insEF2"] 391739 392901 "-" "G0-10529_RNA" +"G0-10530" "insEF3" ["insEF3"] 566842 568004 "+" "G0-10530_RNA" +"G0-10531" "insEF4" ["insEF4"] 1094275 1095437 "-" "G0-10531_RNA" +"G0-10535" "insAB1" ["insAB1"] 19811 20508 "-" "G0-10535_RNA" +"G0-10536" "insAB4" ["insAB4"] 1049833 1050530 "+" "G0-10536_RNA" +"G0-10537" "insAB2" ["insAB2"] 279178 279875 "-" "G0-10537_RNA" +"G0-10538" "insAB3" ["insAB3"] 290649 291346 "-" "G0-10538_RNA" +"G0-10539" "insAB5" ["insAB5"] 1978518 1979215 "-" "G0-10539_RNA" +"G0-10540" "insAB6" ["insAB6"] 3583483 3584180 "+" "G0-10540_RNA" +"G0-10541" "insCD1" ["insCD1"] 381351 382579 "+" "G0-10541_RNA" +"G0-10542" "insCD2" ["insCD2"] 1467921 1469149 "-" "G0-10542_RNA" +"G0-10543" "insCD3" ["insCD3"] 2068952 2070180 "-" "G0-10543_RNA" +"G0-10544" "insCD4" ["insCD4"] 2996372 2997600 "-" "G0-10544_RNA" +"G0-10545" "insCD5" ["insCD5"] 3186187 3187415 "+" "G0-10545_RNA" +"G0-10546" "insCD6" ["insCD6"] 4498272 4499500 "+" "G0-10546_RNA" +"G0-10550" "yahH" ["yahH", "b0322", "ECK0320"] 339769 340089 "+" "G0-10550_RNA" +"G0-10555" "peaD" ["peaD", "ybcD", "b4508", "ECK0532"] 566376 566687 "+" "G0-10555_RNA" +"G0-10556" "icdC" ["icdC", "b4519", "ECK1146"] 1211413 1211577 "+" "G0-10556_RNA" +"G0-10557" "yncK" ["yncK", "insP", "b4531", "b4530", "b4578", "ECK1425"] 1503218 1503649 "-" "G0-10557_RNA" +"G0-10559" "ynfP" ["ynfP", "ydfJ_1", "b4534", "ECK1574"] 1652728 1652838 "-" "G0-10559_RNA" +"G0-10561" "ypaA" ["ypaA", "b4543", "ECK2237"] 2357816 2358001 "+" "G0-10561_RNA" +"G0-10563" "yrhC" ["yrhC", "b4552", "ECK3468"] 3623887 3624132 "+" "G0-10563_RNA" +"G0-10564" "ysdC" ["ysdC", "b4556", "ECK3672"] 3861173 3861349 "-" "G0-10564_RNA" +"G0-10567" "insM" ["insM", "b4561", "ECK4273"] 4508684 4508942 "-" "G0-10567_RNA" +"G0-10569" "insB7" ["insB7", "b4563", "b4564", "b4576", "ECK0022"] 4518721 4519224 "+" "G0-10569_RNA" +"G0-10574" "rseX" ["rseX", "IS096", "b4603", "ECK4412"] 2033649 2033739 "+" "RNA0-327" +"G0-10580" "uof" ["uof", "b4637", "ECK4461"] 710639 710725 "-" "G0-10580_RNA" +"G0-10583" "ykfM" ["ykfM", "b4586", "ECK4397"] 238257 238736 "-" "G0-10583_RNA" +"G0-10584" "ylcH" ["ylcH", "b4588", "ECK4398"] 572368 572469 "+" "G0-10584_RNA" +"G0-10585" "ylcI" ["ylcI", "b4589", "ECK4399"] 580251 580445 "-" "G0-10585_RNA" +"G0-10586" "ybfK" ["ybfK", "b4590", "ECK4400"] 720583 720840 "+" "G0-10586_RNA" +"G0-10587" "ybhU" ["ybhU", "b4591", "ECK4401"] 813114 813251 "-" "G0-10587_RNA" +"G0-10588" "appX" ["appX", "yccB", "cbdX", "b4592", "ECK4402"] 1040445 1040537 "+" "G0-10588_RNA" +"G0-10589" "ymgI" ["ymgI", "b4593", "ECK4403"] 1222990 1223163 "-" "G0-10589_RNA" +"G0-10590" "ymgJ" ["ymgJ", "b4594", "ECK4404"] 1223264 1223449 "+" "G0-10590_RNA" +"G0-10591" "yciZ" ["yciZ", "deoL", "b4596", "ECK4406"] 1344436 1344609 "-" "G0-10591_RNA" +"G0-10592" "rydC" ["rydC", "b4597", "ECK4407"] 1491442 1491506 "-" "RNA0-328" +"G0-10593" "ydgU" ["ydgU", "b4601", "ECK4410"] 1671777 1671860 "+" "G0-10593_RNA" +"G0-10594" "cydH" ["cydH", "ynhF", "b4602", "ECK4411"] 1737456 1737545 "-" "G0-10594_RNA" +"G0-10595" "yojO" ["yojO", "b4604", "ECK4413"] 2303606 2303770 "+" "G0-10595_RNA" +"G0-10596" "ypaB" ["ypaB", "b4605", "ECK4414"] 2344594 2344737 "-" "G0-10596_RNA" +"G0-10597" "ryfB" ["ryfB", "shoB", "b4607", "ECK4416"] 2700059 2700377 "-" "G0-10597_RNA" +"G0-10598" "ohsC" ["ohsC", "ryfC", "b4608", "ECK4417"] 2700520 2700598 "+" "RNA0-330" +"G0-10600" "ryfD" ["ryfD", "b4609", "ECK4418"] 2734153 2734295 "-" "RNA0-331" +"G0-10601" "ygdT" ["ygdT", "b4610", "ECK4419"] 2969330 2969476 "-" "G0-10601_RNA" +"G0-10602" "sibE" ["sibE", "QUAD1e", "rygE", "b4611", "ECK4420"] 3195097 3195240 "-" "RNA0-332" +"G0-10603" "yrhD" ["yrhD", "b4612", "ECK4421"] 3584404 3584559 "+" "G0-10603_RNA" +"G0-10604" "sokA" ["sokA", "b4614", "ECK4423"] 3722076 3722105 "+" "G0-10604_RNA" +"G0-10605" "yibV" ["yibV", "b4615", "ECK4424"] 3769345 3769680 "+" "G0-10605_RNA" +"G0-10606" "yjbT" ["yjbT", "b4620", "ECK4428"] 4239777 4240055 "-" "G0-10606_RNA" +"G0-10607" "yjbS" ["yjbS", "b4621", "ECK4429"] 4268809 4269012 "-" "G0-10607_RNA" +"G0-10608" "ytcA" ["ytcA", "b4622", "ECK4430"] 4304128 4304403 "-" "G0-10608_RNA" +"G0-10609" "ryjB" ["ryjB", "b4624", "ECK4431"] 4527977 4528066 "+" "RNA0-333" +"G0-10610" "symR" ["symR", "ryjC", "b4625", "ECK4432"] 4579835 4579911 "+" "RNA0-334" +"G0-10614" "ykfL" ["ykfL", "b4627", "ECK4445"] 266553 266774 "-" "G0-10614_RNA" +"G0-10615" "ykfK" ["ykfK", "b4628", "ECK4444"] 266776 266967 "-" "G0-10615_RNA" +"G0-10616" "ythA" ["ythA", "b4655", "ECK4434"] 4506448 4506573 "+" "G0-10616_RNA" +"G0-10617" "sgrT" ["sgrT", "b4662", "ECK4477"] 77388 77519 "+" "G0-10617_RNA" +"G0-10624" "insJK" ["insJK"] 3720680 3722049 "+" "G0-10624_RNA" +"G0-10629" "ibsE" ["ibsE", "b4666", "ECK4481"] 3195141 3195200 "+" "G0-10629_RNA" +"G0-10630" "ibsD" ["ibsD", "b4664", "ECK4479"] 3194766 3194825 "+" "G0-10630_RNA" +"G0-10631" "ibsC" ["ibsC", "b4665", "ECK4480"] 3056890 3056949 "-" "G0-10631_RNA" +"G0-10632" "ibsB" ["ibsB", "b4668", "ECK4483"] 2153681 2153737 "-" "G0-10632_RNA" +"G0-10633" "ibsA" ["ibsA", "b4667", "ECK4482"] 2153349 2153408 "-" "G0-10633_RNA" +"G0-10634" "shoB" ["shoB", "yphI", "ryfB", "b4681", "b4687", "ECK4502"] 2700117 2700197 "-" "G0-10634_RNA" +"G0-10641" "ilvX" ["ilvX", "b4669", "ECK4484"] 3950507 3950557 "+" "G0-10641_RNA" +"G0-10642" "yjeV" ["yjeV", "b4670", "ECK4485"] 4392892 4392945 "+" "G0-10642_RNA" +"G0-10643" "yoeI" ["yoeI", "b4678", "ECK4493"] 2087052 2087114 "-" "G0-10643_RNA" +"G0-10644" "yobI" ["yobI", "b4677", "ECK4492"] 1946115 1946180 "-" "G0-10644_RNA" +"G0-10645" "ymjD" ["ymjD", "b4673", "ECK4488"] 1390868 1390933 "-" "G0-10645_RNA" +"G0-10646" "ynbG" ["ynbG", "b4674", "ECK4489"] 1465165 1465230 "-" "G0-10646_RNA" +"G0-10647" "ypdK" ["ypdK", "b4680", "ECK4495"] 2496921 2496992 "+" "G0-10647_RNA" +"G0-10648" "yoaJ" ["yoaJ", "b4675", "ECK4490"] 1878874 1878948 "+" "G0-10648_RNA" +"G0-10649" "yoaK" ["yoaK", "b4676", "ECK4491"] 1878773 1878871 "+" "G0-10649_RNA" +"G0-10650" "yqeL" ["yqeL", "b4683", "ECK4498"] 2989819 2989899 "-" "G0-10650_RNA" +"G0-10651" "yrbN" ["yrbN", "b4685", "ECK4500"] 3307853 3307933 "-" "G0-10651_RNA" +"G0-10652" "yohP" ["yohP", "b4679", "ECK4494"] 2228982 2229065 "+" "G0-10652_RNA" +"G0-10653" "azuC" ["azuC", "b4663", "ECK4478"] 1987873 1987959 "-" "G0-10653_RNA" +"G0-10654" "ykgR" ["ykgR", "b4671", "ECK4486"] 313141 313242 "-" "G0-10654_RNA" +"G0-10655" "yqcG" ["yqcG", "b4682", "ECK4497"] 2905557 2905697 "+" "G0-10655_RNA" +"G0-10656" "yqfG" ["yqfG", "b4684", "ECK4499"] 3032817 3032942 "+" "G0-10656_RNA" +"G0-10657" "yshB" ["yshB", "b4686", "ECK4501"] 4053647 4053757 "-" "G0-10657_RNA" +"G0-10671" "mgrR" ["mgrR", "b4698", "ECK4510"] 1622817 1622914 "-" "RNA0-348" +"G0-10677" "fnrS" ["fnrS", "rydA", "b4699", "ECK4511"] 1409129 1409250 "+" "RNA0-349" +"G0-10682" "ykgQ" ["ykgQ", "b4631", "ECK4454"] 317439 317567 "+" "G0-10682_RNA" +"G0-10689" "mgtL" ["mgtL", "b4702", "ECK4513"] 4467431 4467484 "+" "G0-10689_RNA" +"G0-10694" "arrS" ["arrS", "b4704", "ECK4516"] 3657985 3658054 "-" "RNA0-351" +"G0-10695" "sokX" ["sokX", "b4701", "ECK4514"] 2887353 2887408 "+" "RNA0-357" +"G0-10696" "eyeA" ["eyeA", "b4690", "ECK4506"] 272580 272654 "+" "RNA0-358" +"G0-10697" null [] null null "+" "G0-10697_RNA" +"G0-10698" null [] 1670949 1671136 "-" "G0-10698_RNA" +"G0-10699" "sdsN" ["sdsN", "b4719", "ECK4576"] 1996921 1997057 "+" "RNA0-361" +"G0-10700" null [] 2278258 2278498 "-" "G0-10700_RNA" +"G0-10701" "och5" ["och5"] 3067187 3067344 "+" "RNA0-363" +"G0-10702" null [] 3354064 3354169 "+" "G0-10702_RNA" +"G0-10703" null [] 3367613 3367770 "-" "G0-10703_RNA" +"G0-10704" null [] 4001191 4001334 "+" "G0-10704_RNA" +"G0-10705" null [] 4058171 4058242 "+" "G0-10705_RNA" +"G0-10706" null [] 4441225 4441330 "-" "RNA0-368" +"G0-10707" "pmrR" ["pmrR", "b4703", "ECK4515"] 4332116 4332205 "+" "G0-10707_RNA" +"G0-10715" "mntS" ["mntS", "G0-8881", "b4705", "ECK4517"] 852869 852997 "-" "G0-10715_RNA" +"G0-10716" "iroK" ["iroK", "b4706", "ECK4518"] 2668006 2668071 "-" "G0-10716_RNA" +"G0-10737" "esrE" ["esrE", "b4707", "ECK4519"] 4019978 4020229 "+" "RNA0-372" +"G0-10738" "nc1" ["nc1"] 297137 297304 "-" "RNA0-378" +"G0-10751" "agrA" ["agrA", "b4712", "ECK4569"] 3648063 3648144 "+" "RNA0-379" +"G0-10752" "agrB" ["agrB", "b4713", "ECK4570"] 3648294 3648375 "+" "RNA0-380" +"G0-16600" "ralA" ["ralA", "b4714", "ECK4571"] 1413556 1413734 "+" "RNA0-385" 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"yncP" ["yncP", "b4774", "ECK4631"] 1491876 1491944 "+" "G0-17020_RNA" +"G0-17021" "mgtT" ["mgtT", "b4775", "ECK4632"] 1622741 1622845 "+" "G0-17021_RNA" +"G0-17022" "ynfU" ["ynfU", "b4776", "ECK4633"] 1640805 1640975 "+" "G0-17022_RNA" +"G0-17023" "ydgV" ["ydgV", "b4777", "ECK4634"] 1673608 1673709 "-" "G0-17023_RNA" +"G0-17024" "yecV" ["yecV", "b4778", "ECK4635"] 1961837 1961881 "-" "G0-17024_RNA" +"G0-17025" "yoaM" ["yoaM", "b4779", "ECK4636"] 2347350 2347385 "-" "G0-17025_RNA" +"G0-17026" "yodE" ["yodE", "b4780", "ECK4637"] 2470497 2470643 "-" "G0-17026_RNA" +"G0-17027" "evgL" ["evgL", "b4781", "ECK4638"] 2483729 2483758 "+" "G0-17027_RNA" +"G0-17028" "pssL" ["pssL", "b4782", "ECK4639"] 2722702 2722743 "+" "G0-17028_RNA" +"G0-17029" "yfiS" ["yfiS", "b4783", "ECK4639"] 2725925 2725987 "+" "G0-17029_RNA" +"G0-17030" "yqgG" ["yqgG", "b4784", "ECK4641"] 3086145 3086288 "-" "G0-17030_RNA" +"G0-17031" "yqgH" ["yqgH", "b4785", "ECK4642"] 3109317 3109400 "-" "G0-17031_RNA" +"G0-17032" "yqhJ" ["yqhJ", "b4786", "ECK4643"] 3111266 3111325 "+" "G0-17032_RNA" +"G0-17033" "yqiM" ["yqiM", "b4787", "ECK4644"] 3247668 3247751 "+" "G0-17033_RNA" +"G0-17034" "yhgO" ["yhgO", "b4788", "ECK4645"] 3573660 3573701 "-" "G0-17034_RNA" +"G0-17035" "yhgP" ["yhgP", "b4789", "ECK4646"] 3573679 3573708 "-" "G0-17035_RNA" +"G0-17036" "yhiY" ["yhiY", "b4790", "ECK4647"] 3630665 3630778 "-" "G0-17036_RNA" +"G0-17037" "yriA" ["yriA", "b4791", "ECK4648"] 3640612 3640686 "-" "G0-17037_RNA" +"G0-17038" "yriB" ["yriB", "b4792", "ECK4649"] 3640643 3640696 "-" "G0-17038_RNA" +"G0-17039" "ysaE" ["ysaE", "b4793", "ECK4650"] 3720400 3720471 "+" "G0-17039_RNA" +"G0-17040" "baxL" ["baxL", "b4794", "ECK4651"] 3737177 3737203 "-" "G0-17040_RNA" +"G0-17041" "yibX" ["yibX", "b4795", "ECK4652"] 3797772 3798014 "-" "G0-17041_RNA" +"G0-17042" "yibY" ["yibY", "b4796", "ECK4653"] 3798039 3798149 "-" "G0-17042_RNA" +"G0-17043" "yicU" ["yicU", "b4797", "ECK4654"] 3838642 3838701 "-" "G0-17043_RNA" +"G0-17044" "ysdE" ["ysdE", "b4798", "ECK4655"] 3853766 3853840 "-" "G0-17044_RNA" +"G0-17045" "ysgD" ["ysgD", "b4799", "ECK4656"] 4001218 4001274 "+" "G0-17045_RNA" +"G0-17046" "ytgA" ["ytgA", "b4800", "ECK4657"] 4486105 4486155 "+" "G0-17046_RNA" +"G0-17047" "ykiE" ["ykiE", "b4801", "ECK4658"] 4518372 4518440 "+" "G0-17047_RNA" +"G0-17048" "ythB" ["ythB", "b4802", "ECK4659"] 4536597 4536695 "+" "G0-17048_RNA" +"G0-17074" "speFL" ["speFL", "b4803", "ECK4660"] 720718 720822 "-" "G0-17074_RNA" +"G0-17076" "orzP" ["orzP"] 2204402 2204484 "+" "RNA0-405" +"G0-17077" "rbsZ" ["rbsZ", "b4804", "ECK4661"] 3937045 3937278 "+" "RNA0-406" +"G0-17078" "raiZ" ["raiZ", "b4805", "ECK4662"] 2737381 2737542 "+" "RNA0-407" +"G0-17079" "ipeX" ["ipeX"] 574367 574515 "-" "RNA0-408" +"G0-17082" "malH" ["malH"] 4242531 4242633 "-" "RNA0-410" +"G0-41" "ecnA" ["ecnA", "b4410", "ECK4142"] 4376317 4376442 "+" "G0-41_RNA" +"G0-8601" "glcF" ["glcF", "gox", "yghL", "b2978", "b4467", "ECK2972"] 3124236 3125459 "-" "G0-8601_RNA" 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"PAIR2b", "t59", "rygB", "b4445", "ECK2834"] 2976304 2976385 "-" "RYGB-RNA" +"G0-8883" "sdsR" ["sdsR", "tkpe79", "ryeB", "b4433", "ECK1839"] 1923104 1923207 "-" "RYEB-RNA" +"G0-8884" "sibA" ["sibA", "QUAD1a", "tp11", "ryeC", "b4436", "ECK2068"] 2153311 2153454 "+" "RYEC-RNA" +"G0-8885" "sibB" ["sibB", "QUAD1b", "tpe60", "ryeD", "b4437", "ECK2069"] 2153646 2153781 "+" "RYED-RNA" +"G0-8886" "sibC" ["sibC", "QUAD1c", "t27", "rygC", "b4446", "ECK2908"] 3056851 3056991 "+" "RYGC-RNA" +"G0-8887" "yncL" ["yncL", "b4598", "ECK4408"] 1517099 1517194 "-" "G0-8887_RNA" +"G0-8888" "ypfM" ["ypfM", "b4606", "ECK4415"] 2590807 2590866 "-" "G0-8888_RNA" +"G0-8891" "yciY" ["yciY", "b4595", "ECK4405"] 1308788 1308961 "+" "G0-8891_RNA" +"G0-8892" "mgtS" ["mgtS", "yneM", "b4599", "ECK4409"] 1622646 1622741 "+" "G0-8892_RNA" +"G0-8893" "tpke11" ["tpke11"] 14080 14167 "+" "G0-8893_RNA" +"G0-8894" "tp2" ["tp2"] 122697 122857 "-" "G0-8894_RNA" +"G0-8895" "tff" ["tff", "t44", "b4414", "ECK0167"] 189712 189847 "+" "T44-RNA" +"G0-8896" "C0067" ["C0067"] 238462 238586 "+" "G0-8896_RNA" +"G0-8897" "C0293" ["C0293", "b4806", "ECK4663"] 1196711 1196782 "+" "RNA0-409" +"G0-8898" "C0299" ["C0299"] 1230629 1230707 "+" "G0-8898_RNA" +"G0-8899" "mcaS" ["mcaS", "IS061", "isrA", "b4426", "ECK1336"] 1405658 1405751 "-" "IS061-RNA" +"G0-8900" "ynaL" ["ynaL", "C0343", "b4743", "ECK4600"] 1409308 1409481 "+" "G0-8900_RNA" +"G0-8901" "micC" ["micC", "IS063", "tke8", "b4427", "ECK1373"] 1437121 1437231 "+" "TKE8-RNA" +"G0-8902" "C0362" ["C0362"] 1552001 1552386 "+" "G0-8902_RNA" +"G0-8903" "C0465" ["C0465"] 1972739 1972816 "+" "G0-8903_RNA" +"G0-8904" "isrB" ["isrB", "IS092", "b4434", "ECK1902"] 1987839 1987998 "-" "G0-8904_RNA" +"G0-8905" "isrC" ["isrC", "IS102", "b4435", "ECK1992"] 2071317 2071511 "+" "IS102-RNA" +"G0-8906" "tpke70" ["tpke70"] 2496194 2496629 "-" "G0-8906_RNA" +"G0-8907" "C0614" ["C0614"] 2653452 2653538 "-" "G0-8907_RNA" +"G0-8908" "IS128" ["IS128"] 2653515 2653723 "+" "G0-8908_RNA" +"G0-8910" "glmY" ["glmY", "tke1", "sroF", "b4441", "ECK2554"] 2691157 2691340 "-" "TKE1-RNA" +"G0-8911" "C0664" ["C0664"] 2835055 2835167 "+" "G0-8911_RNA" +"G0-8912" "C0719" ["C0719"] 3121358 3121579 "+" "G0-8912_RNA" +"G0-8913" "sibD" ["sibD", "tp8", "C0730", "IS156", "QUAD1d", "rygD", "b4447", "ECK3041"] 3194721 3194865 "-" "C0730-RNA" +"G0-8914" "gadY" ["gadY", "IS183", "b4452", "ECK3500"] 3664864 3664969 "+" "IS183-RNA" +"G0-9041" "ldrD" ["ldrD", "b4453", "ECK3524"] 3699980 3700087 "-" "G0-9041_RNA" +"G0-9042" "rdlD" ["rdlD", "b4454", "ECK3525"] 3700136 3700199 "+" "RDLD-RNA" +"G0-9081" "ydaE" ["ydaE", "b4526", "ECK1349"] 1417838 1418008 "-" "G0-9081_RNA" +"G0-9121" "yoeB" ["yoeB", "b4539", "ECK2011"] 2089211 2089465 "-" "G0-9121_RNA" +"G0-9281" "alaB" ["alaB"] null null null "G0-9281_RNA" +"G0-9381" "sroA" ["sroA", "tpe79", "b4762", "ECK4619"] 75516 75608 "-" "RNA0-404" +"G0-9382" "chiX" ["chiX", "sroB", "rybC", "micM", "b4585", "ECK4396"] 507204 507287 "+" "RNA0-123" +"G0-9383" "sroC" ["sroC", "HB_314", "b4763", "ECK4620"] 686681 686843 "-" "RNA0-124" +"G0-9384" "sroD" ["sroD", "p24"] 1888017 1888102 "-" "G0-9384_RNA" +"G0-9385" "sroE" ["sroE", "k20", "b4761", "ECK4618"] 2640595 2640686 "-" "RNA0-126" +"G0-9387" "sroG" ["sroG", "HB_456/7"] 3184570 3184718 "-" "G0-9387_RNA" +"G0-9388" "sroH" ["sroH", "b4691", "ECK4505"] 4190327 4190487 "-" "RNA0-128" +"G0-9461" "pdxB" ["pdxB", "usg-2", "b2320", "ECK2314"] 2436715 2437851 "-" "G0-9461_RNA" +"G0-9541" "yjdP" ["yjdP", "b4487", "ECK4084"] 4313868 4314197 "+" "G0-9541_RNA" +"G0-9561" "blr" ["blr", "b4409", "ECK1620"] 1704551 1704676 "+" "G0-9561_RNA" +"G0-9562" "ecnB" ["ecnB", "yjeU", "b4411", "ECK4143"] 4376553 4376699 "+" "G0-9562_RNA" +"G0-9563" "hokC" ["hokC", "gef", "b4412", "ECK0017"] 16751 16903 "-" "G0-9563_RNA" +"G0-9581" "sokC" ["sokC", "sof", "b4413", "ECK0019"] 16952 17006 "+" "RNA0-141" +"G0-9582" "hokE" ["hokE", "ybdY", "b4415", "ECK0574"] 607836 607988 "+" "G0-9582_RNA" +"G0-9602" "ldrA" ["ldrA", "b4419", "ECK1204"] 1269168 1269275 "-" "G0-9602_RNA" +"G0-9603" "rdlA" ["rdlA", "b4420", "ECK1205"] 1269323 1269389 "+" "RNA0-161" +"G0-9605" "ldrB" ["ldrB", "b4421", "ECK1206"] 1269703 1269810 "-" "G0-9605_RNA" +"G0-9606" "rdlB" ["rdlB", "b4422", "ECK1207"] 1269858 1269923 "+" "RNA0-162" +"G0-9607" "ldrC" ["ldrC", "b4423", "ECK1208"] 1270238 1270345 "-" "G0-9607_RNA" +"G0-9608" "rdlC" ["rdlC", "b4424", "ECK1209"] 1270393 1270460 "+" "RNA0-163" +"G0-9609" "rttR" ["rttR", "rtT", "b4425", "ECK1223"] 1287066 1287236 "-" "RNA0-164" +"G0-9610" "hokB" ["hokB", "ydcB", "b4428", "ECK1412"] 1491922 1492071 "-" "G0-9610_RNA" +"G0-9611" "sokB" ["sokB", "b4429", "ECK1414"] 1492119 1492174 "+" "RNA0-165" +"G0-9613" "hokA" ["hokA", "yiaZ", "b4455", "ECK3544"] 3720448 3720600 "-" "G0-9613_RNA" +"G0-9621" "torI" ["torI", "b4501", "ECK2359"] 2476310 2476510 "+" "G0-9621_RNA" +"G0-9662" "gnsA" ["gnsA", "yccL", "sfa", "b4517", "ECK0982"] 1052067 1052240 "+" "G0-9662_RNA" +"G0-9941" "sgrS" ["sgrS", "ryaA", "b4577", "ECK0071"] 77367 77593 "+" "RNA0-241" +"G0-9961" "tisA" ["tisA", "ysdA", "b4617", "ECK4426"] 3853443 3853556 "+" "G0-9961_RNA" +"G0-9962" "tisB" ["tisB", "ysdB", "b4618", "ECK4427"] 3853553 3853642 "+" "G0-9962_RNA" +"G0-9981" "dinQ" ["dinQ", "b4613", "ECK4422"] 3647705 3647788 "-" "G0-9981_RNA" +"G1" "thiS" ["thiS", "thiG1", "b4407", "ECK3983"] 4192637 4192837 "-" "G1_RNA" +"G14" "ackB" ["ackB"] null null null "G14_RNA" +"G198" "yajL" ["yajL", "thiJ", "b0424", "ECK0418"] 443051 443641 "-" "G198_RNA" +"G2000" "sapC" ["sapC", "b1292", "ECK1287"] 1353628 1354518 "-" "G2000_RNA" +"G2001" "sapB" ["sapB", "b1293", "ECK1288"] 1354505 1355470 "-" "G2001_RNA" +"G2002" "sapA" ["sapA", "b1294", "ECK1289"] 1355467 1357110 "-" "G2002_RNA" +"G26" "dgd" ["dgd"] null null null "G26_RNA" +"G357" "flgA" ["flgA", "flaU", "b1072", "ECK1057"] 1130204 1130863 "-" "G357_RNA" +"G358" "flgB" ["flgB", "flbA", "b1073", "ECK1058"] 1131018 1131434 "+" "G358_RNA" +"G359" "flgC" ["flgC", "flaW", "b1074", "ECK1059"] 1131438 1131842 "+" "G359_RNA" +"G36" "fadH" ["fadH", "ygjL", "b3081", "ECK3071"] 3231665 3233683 "+" "G36_RNA" +"G360" "flgD" ["flgD", "flaV", "b1075", "ECK1060"] 1131854 1132549 "+" "G360_RNA" +"G361" "flgE" ["flgE", "flaK", "b1076", "ECK1061"] 1132574 1133782 "+" "G361_RNA" +"G362" "flgF" ["flgF", "flaX", "b1077", "ECK1062"] 1133802 1134557 "+" "G362_RNA" +"G363" "flgG" ["flgG", "flaL", "b1078", "ECK1063"] 1134729 1135511 "+" "G363_RNA" +"G364" "flgH" ["flgH", "flaY", "b1079", "ECK1064"] 1135564 1136262 "+" "G364_RNA" +"G365" "flgI" ["flgI", "flaM", "b1080", "ECK1065"] 1136274 1137371 "+" "G365_RNA" +"G366" "flgJ" ["flgJ", "flaZ", "b1081", "ECK1066"] 1137371 1138312 "+" "G366_RNA" +"G369" "flgM" ["flgM", "b1071", "ECK1056"] 1129835 1130128 "-" "G369_RNA" +"G370" "flhA" ["flhA", "flaH", "b1879", "ECK1880"] 1962972 1965050 "-" "G370_RNA" +"G372" "yaeP" ["yaeP", "b4406", "ECK0189"] 213925 214125 "-" "G372_RNA" +"G377" "fliI" ["fliI", "fla", "flaAIII", "flaC", "b1941", "ECK1939"] 2016554 2017927 "+" "G377_RNA" +"G378" "fliJ" ["fliJ", "flaO", "b1942", "ECK1940"] 2017946 2018389 "+" "G378_RNA" +"G379" "fliK" ["fliK", "flaE", "b1943", "ECK1941"] 2018386 2019513 "+" "G379_RNA" +"G436" "nanT" ["nanT", "b3224", "ECK3213"] 3371084 3372574 "-" "G436_RNA" +"G495" "bglA" ["bglA", "yqfC", "bglD", "b2901", "ECK2896"] 3043662 3045101 "+" "G495_RNA" +"G58" "maa" ["maa", "ylaD", "b0459", "ECK0453"] 479367 479918 "-" "G58_RNA" +"G592" "ldhA" ["ldhA", "htpH", "hslF", "hslI", "b1380", "ECK1377"] 1441854 1442843 "-" "G592_RNA" +"G6081" "yaaX" ["yaaX", "b0005", "ECK0005"] 5234 5530 "+" "G6081_RNA" +"G6082" "yaaW" ["yaaW", "b0011", "ECK0011"] 10643 11356 "-" "G6082_RNA" +"G6083" "insL1" ["insL1", "yi81-1", "b0016", "ECK0016"] 15445 16557 "+" "G6083_RNA" +"G6084" null ["yi82_1", "b0017"] 15869 16177 "-" "G6084_RNA" +"G6085" "insB1" ["insB1", "b0021", "ECK0022"] 19811 20314 "-" "G6085_RNA" +"G6086" "insA1" ["insA1", "b0022", "ECK0023"] 20233 20508 "-" "G6086_RNA" +"G6087" "yaaY" ["yaaY", "b0024", "ECK0025"] 21181 21399 "+" "G6087_RNA" +"G6088" "caiF" ["caiF", "b0034", "ECK0035"] 34300 34695 "+" "G6088_RNA" +"G6089" "b0100" ["b0100", "b0100"] 111564 111698 "-" "G6089_RNA" +"G6090" "b0105" ["b0105", "b0105"] 114407 114514 "-" "G6090_RNA" +"G6091" "b0165" ["b0165", "b0165"] 184987 185118 "-" "G6091_RNA" +"G6092" "uppS" ["uppS", "ispU", "rth", "yaeS", "b0174", "ECK0173"] 194903 195664 "+" "G6092_RNA" +"G6093" "bamA" ["bamA", "yzzY", "yzzN", "ecfK", "yaeT", "b0177", "ECK0176"] 197928 200360 "+" "G6093_RNA" +"G6094" "ldcC" ["ldcC", "ldc", "ldcH", "b0186", "ECK0185"] 209679 211820 "+" "G6094_RNA" +"G6095" "yaeR" ["yaeR", "b0187", "ECK0186"] 211877 212266 "+" "G6095_RNA" +"G6096" "tilS" ["tilS", "yaeN", "mesJ", "b0188", "ECK0187"] 212331 213629 "+" "G6096_RNA" +"G6097" "rof" ["rof", "yaeO", "b0189", "ECK0188"] 213678 213932 "-" "G6097_RNA" +"G6098" "yaeQ" ["yaeQ", "b0190", "ECK0190"] 214291 214836 "+" "G6098_RNA" +"G6099" "gloB" ["gloB", "yafR", "b0212", "ECK0212"] 234027 234782 "-" "G6099_RNA" +"G6100" "yafS" ["yafS", "b0213", "ECK0213"] 234816 235538 "+" "G6100_RNA" +"G6101" "yafT" ["yafT", "b0217", "ECK0217"] 237335 238120 "+" "G6101_RNA" +"G6102" "yafU" ["yafU", "b0218", "ECK0218"] 238746 239084 "-" "G6102_RNA" +"G6103" "yafV" ["yafV", "b0219", "ECK0220"] 239419 240189 "-" "G6103_RNA" +"G6104" "ivy" ["ivy", "ykfE", "b0220", "ECK0221"] 240343 240816 "+" "G6104_RNA" +"G6105" "fadE" ["fadE", "yafH", "b0221", "ECK0222"] 240859 243303 "-" "G6105_RNA" +"G6106" "gmhA" ["gmhA", "yafI", "lpcA", "tfrA", "b0222", "ECK0223"] 243543 244121 "+" "G6106_RNA" +"G6107" "yafJ" ["yafJ", "b0223", "ECK0224"] 244327 245094 "+" "G6107_RNA" +"G6108" "ldtF" ["ldtF", "yafK", "b0224", "ECK0225"] 245065 245805 "-" "G6108_RNA" +"G6109" "yafQ" ["yafQ", "b0225", "ECK0226"] 245961 246239 "-" "G6109_RNA" +"G6110" "dinJ" ["dinJ", "sosA", "b0226", "ECK0227"] 246242 246502 "-" "G6110_RNA" +"G6111" "yafL" ["yafL", "b0227", "ECK0228"] 246712 247461 "+" "G6111_RNA" +"G6112" "rayT" ["rayT", "yafM", "b0228", "ECK0229"] 247637 248134 "+" "G6112_RNA" +"G6113" "lfhA" ["lfhA", "fhiA", "b0229", "ECK0230"] 248358 250070 "-" "G6113_RNA" +"G6114" "lafU" ["lafU", "mbhA", "b0230", "ECK0231"] 250072 250827 "+" "G6114_RNA" +"G6115" "dinB" ["dinB", "dinP", "b0231", "ECK0232"] 250898 251953 "+" "G6115_RNA" +"G6116" "yafN" ["yafN", "b0232", "ECK0233"] 252005 252298 "+" "G6116_RNA" +"G6117" "yafO" ["yafO", "b0233", "ECK0234"] 252301 252699 "+" "G6117_RNA" +"G6118" "yafP" ["yafP", "b0234", "ECK0235"] 252709 253161 "+" "G6118_RNA" +"G6119" "ykfJ" ["ykfJ", "b0235", "ECK0236"] 253467 253733 "+" "G6119_RNA" +"G6120" "ykfI" ["ykfI", "b0245", "ECK0246"] 263328 263669 "-" "G6120_RNA" +"G6121" "yafW" ["yafW", "b0246", "ECK0247"] 263690 264007 "-" "G6121_RNA" +"G6122" "ykfG" ["ykfG", "b0247", "ECK0249"] 264256 264732 "-" "G6122_RNA" +"G6123" "yafX" ["yafX", "b0248", "ECK0250"] 264748 265206 "-" "G6123_RNA" +"G6124" "ykfF" ["ykfF", "b0249", "ECK0251"] 265304 265543 "-" "G6124_RNA" +"G6125" "ykfB" ["ykfB", "b0250", "ECK0252"] 265620 266087 "-" "G6125_RNA" +"G6126" "yafY" ["yafY", "b0251", "ECK0253"] 266110 266553 "-" "G6126_RNA" +"G6127" "yafZ" ["yafZ", "b0252", "ECK0254"] 267184 268005 "-" "G6127_RNA" +"G6128" "ykfA" ["ykfA", "b0253", "ECK0255"] 268097 268960 "-" "G6128_RNA" +"G6129" "perR" ["perR", "b0254", "ECK0256"] 269289 270182 "-" "G6129_RNA" +"G6130" "insN" ["insN", "yi91a", "b0255", "b0257", "b4587", "ECK0257"] null null "+" "G6130_RNA" +"G6131" "insI1" ["insI1", "tra8-1", "b0256", "ECK0258"] 270603 271754 "+" "G6131_RNA" +"G6133" "ykfC" ["ykfC", "b0258", "ECK0260"] 272847 273992 "+" "G6133_RNA" +"G6134" "insH1" ["insH1", "trs5", "trs5-1", "yi52_1", "b0259", "ECK0261"] 274101 275081 "-" "G6134_RNA" +"G6135" "mmuP" ["mmuP", "ykfD", "b0260", "ECK0262"] 275325 276728 "+" "G6135_RNA" +"G6136" "mmuM" ["mmuM", "yagD", "b0261", "ECK0263"] 276715 277647 "+" "G6136_RNA" +"G6137" "afuB" ["afuB", "fbpB", "b0263", "ECK0265"] 278814 279162 "-" "G6137_RNA" +"G6138" "insB2" ["insB2", "b0264", "ECK0022"] 279178 279681 "-" "G6138_RNA" +"G6139" "insA2" ["insA2", "b0265", "ECK0023"] 279600 279875 "-" "G6139_RNA" +"G6140" "yagE" ["yagE", "b0268", "ECK0269"] 282278 283186 "+" "G6140_RNA" +"G6141" "yagF" ["yagF", "b0269", "ECK0270"] 283201 285168 "+" "G6141_RNA" +"G6142" "yagG" ["yagG", "b0270", "ECK0271"] 285395 286777 "+" "G6142_RNA" +"G6143" "yagH" ["yagH", "b0271", "ECK0272"] 286789 288399 "+" "G6143_RNA" +"G6144" "xynR" ["xynR", "yagI", "b0272", "ECK0273"] 288404 289162 "-" "G6144_RNA" +"G6145" "insB3" ["insB3", "b0274", "ECK0022"] 290649 291152 "-" "G6145_RNA" +"G6146" "insA3" ["insA3", "b0275", "ECK0023"] 291071 291346 "-" "G6146_RNA" +"G6147" "yagJ" ["yagJ", "b0276", "ECK0275"] 291500 292231 "+" "G6147_RNA" +"G6148" "yagK" ["yagK", "b0277", "ECK0276"] 292322 292948 "-" "G6148_RNA" +"G6149" "yagL" ["yagL", "b0278", "ECK0277"] 293220 293918 "-" "G6149_RNA" +"G6150" "yagM" ["yagM", "b0279", "ECK0278"] 293945 294799 "-" "G6150_RNA" +"G6151" "yagN" ["yagN", "b0280", "ECK0279"] 295139 295579 "-" "G6151_RNA" +"G6152" "intF" ["intF", "yagO", "b0281", "ECK0280"] 295696 297096 "-" "G6152_RNA" +"G6153" "yagP" ["yagP", "ykgT", "b4695", "b0282", "ECK0281"] 297381 297791 "-" "G6153_RNA" +"G6154" "paoD" ["paoD", "yagQ", "b0283", "ECK0282"] 297770 298726 "-" "G6154_RNA" +"G6155" "paoC" ["paoC", "yagR", "b0284", "ECK0283"] 298736 300934 "-" "G6155_RNA" +"G6156" "paoB" ["paoB", "yagS", "b0285", "ECK0284"] 300931 301887 "-" "G6156_RNA" +"G6157" "paoA" ["paoA", "yagT", "b0286", "ECK0285"] 301884 302573 "-" "G6157_RNA" +"G6158" "yagU" ["yagU", "b0287", "ECK0286"] 302991 303605 "+" "G6158_RNA" +"G6159" "ykgJ" ["ykgJ", "b0288", "ECK0287"] 303853 304182 "-" "G6159_RNA" +"G6160" "ecpE" ["ecpE", "yagV", "matF", "b0289", "ECK0288"] 304495 305205 "-" "G6160_RNA" +"G6161" "ecpD" ["ecpD", "yagW", "matE", "b0290", "ECK0289"] 305174 306817 "-" "G6161_RNA" +"G6162" "ecpC" ["ecpC", "yagX", "matD", "b0291", "ECK0290"] 306807 309332 "-" "G6162_RNA" +"G6163" "ecpB" ["ecpB", "yagY", "matC", "b0292", "ECK0291"] 309358 310026 "-" "G6163_RNA" +"G6164" "ecpA" ["ecpA", "yagZ", "matB", "b0293", "ECK0292"] 310084 310671 "-" "G6164_RNA" +"G6165" "matA" ["matA", "ykgK", "ecpR", "b0294", "ECK0293"] 310746 311336 "-" "G6165_RNA" +"G6166" "ykgL" ["ykgL", "b0295", "ECK0294"] 312112 312339 "+" "G6166_RNA" +"G6167" "ykgM" ["ykgM", "b0296", "ECK0296"] 312514 312777 "-" "G6167_RNA" +"G6168" "insE1" ["insE1", "b0298", "ECK0298"] 315291 315590 "+" "G6168_RNA" +"G6169" "insF1" ["insF1", "tra5-5", "b0299", "ECK0299"] 315587 316453 "+" "G6169_RNA" +"G6170" "ykgA" ["ykgA", "b0300", "ECK0300"] 316450 317136 "-" "G6170_RNA" +"G6171" "rclC" ["rclC", "ykgB", "b0301", "ECK0301"] 317726 318319 "-" "G6171_RNA" +"G6173" "rclB" ["rclB", "ykgI", "b0303", "ECK0302"] 318331 318567 "-" "G6173_RNA" +"G6174" "rclA" ["rclA", "ykgC", "b0304", "ECK0303"] 318676 320001 "-" "G6174_RNA" +"G6175" "rclR" ["rclR", "ykgD", "b0305", "ECK0304"] 320227 321081 "+" "G6175_RNA" +"G6176" "ykgE" ["ykgE", "b0306", "ECK0305"] 321608 322327 "+" "G6176_RNA" +"G6177" "ykgF" ["ykgF", "b0307", "ECK0306"] 322338 323765 "+" "G6177_RNA" +"G6178" "ykgG" ["ykgG", "b0308", "ECK0307"] 323758 324453 "+" "G6178_RNA" +"G6179" "b0309" ["b0309", "b0309"] 324408 324620 "-" "G6179_RNA" +"G6180" "ykgH" ["ykgH", "b0310", "ECK0308"] 324696 325364 "-" "G6180_RNA" +"G6181" "yahB" ["yahB", "b0316", "ECK0314"] 333501 334433 "-" "G6181_RNA" +"G6182" "yahC" ["yahC", "b0317", "ECK0315"] 334525 335022 "-" "G6182_RNA" +"G6183" "yahD" ["yahD", "b0318", "ECK0316"] 335280 335885 "+" "G6183_RNA" +"G6184" "yahE" ["yahE", "b0319", "ECK0317"] 335925 336788 "+" "G6184_RNA" +"G6185" "yahF" ["yahF", "b0320", "ECK0318"] 336778 338325 "+" "G6185_RNA" +"G6186" "yahG" ["yahG", "b0321", "ECK0319"] 338325 339743 "+" "G6186_RNA" +"G6188" "yahI" ["yahI", "b0323", "ECK0321"] 340165 341115 "+" "G6188_RNA" +"G6189" "yahJ" ["yahJ", "b0324", "ECK0322"] 341125 342507 "+" "G6189_RNA" +"G6190" "yahK" ["yahK", "b0325", "ECK0323"] 342884 343933 "+" "G6190_RNA" +"G6191" "yahL" ["yahL", "b0326", "ECK0324"] 344176 344991 "+" "G6191_RNA" +"G6192" "yahM" ["yahM", "b0327", "ECK0325"] 345404 345649 "+" "G6192_RNA" +"G6193" "yahN" ["yahN", "b0328", "ECK0326"] 345666 346337 "-" "G6193_RNA" +"G6194" "yahO" ["yahO", "b0329", "ECK0327"] 346484 346759 "+" "G6194_RNA" +"G6195" "prpR" ["prpR", "yahP", "b0330", "ECK0328"] 346857 348443 "-" "G6195_RNA" +"G6196" "prpB" ["prpB", "yahQ", "b0331", "ECK0329"] 348682 349572 "+" "G6196_RNA" +"G6198" "prpC" ["prpC", "yzzD", "yahS", "b0333", "ECK0330"] 350012 351181 "+" "G6198_RNA" +"G6199" "prpD" ["prpD", "yahT", "acnC", "b0334", "ECK0331"] 351215 352666 "+" "G6199_RNA" +"G6200" "prpE" ["prpE", "yahU", "b0335", "ECK0332"] 352706 354592 "+" "G6200_RNA" +"G6201" "mhpR" ["mhpR", "b0346", "ECK0343"] 367587 368420 "-" "G6201_RNA" +"G6205" "mhpE" ["mhpE", "b0352", "ECK0349"] 373868 374881 "+" "G6205_RNA" +"G6206" "mhpT" ["mhpT", "yaiK", "b0353", "ECK0350"] 375459 376670 "+" "G6206_RNA" +"G6207" "yaiL" ["yaiL", "b0354", "ECK0351"] 376772 377311 "+" "G6207_RNA" +"G6208" "frmB" ["frmB", "yaiM", "b0355", "ECK0352"] 377535 378368 "-" "G6208_RNA" +"G6209" "frmR" ["frmR", "yaiN", "b0357", "ECK0354"] 379606 379881 "-" "G6209_RNA" +"G6210" "yaiO" ["yaiO", "b0358", "ECK0355"] 380069 380842 "-" "G6210_RNA" +"G6212" "insC1" ["insC1", "yi21-1", "b0360", "ECK0357"] 381351 381716 "+" "G6212_RNA" +"G6213" "insD1" ["insD1", "yi22-1", "b0361", "ECK0358"] 381674 382579 "+" "G6213_RNA" +"G6214" "yaiX" ["yaiX", "yaiF", "b0362", "b0359", "ECK0359", "b4579", "ECK0356"] null null "-" "G6214_RNA" +"G6215" "yaiP" ["yaiP", "b0363", "ECK0360"] 382739 383935 "-" "G6215_RNA" +"G6216" "yaiS" ["yaiS", "b0364", "ECK0361"] 384059 384616 "-" "G6216_RNA" +"G6217" "tauA" ["tauA", "yaiR", "ssiA", "b0365", "ECK0362"] 385232 386194 "+" "G6217_RNA" +"G6218" "tauB" ["tauB", "yaiQ", "ssiB", "b0366", "ECK0363"] 386207 386974 "+" "G6218_RNA" +"G6219" "tauC" ["tauC", "yaiJ", "ssiC", "b0367", "ECK0364"] 386971 387798 "+" "G6219_RNA" +"G6221" "ykiB" ["ykiB", "b0370", "ECK0367"] 389897 390115 "-" "G6221_RNA" +"G6222" "yaiT" ["yaiT", "yaiU", "b0371", "b0374", "ECK0369", "b4580", "ECK0368"] null null "+" "G6222_RNA" +"G6223" "insF2" ["insF2", "tra5-1", "b0372", "ECK0299"] 391739 392605 "-" "G6223_RNA" +"G6224" "insE2" ["insE2", "b0373", "ECK0298"] 392602 392901 "-" "G6224_RNA" +"G6226" "iprA" ["iprA", "yaiV", "b0375", "ECK0370"] 394506 395129 "+" "G6226_RNA" +"G6227" "yaiW" ["yaiW", "b0378", "ECK0373"] 397872 398966 "+" "G6227_RNA" +"G6228" "yaiY" ["yaiY", "b0379", "ECK0374"] 399025 399333 "-" "G6228_RNA" +"G6229" "yaiZ" ["yaiZ", "b0380", "ECK0375"] 399593 399805 "+" "G6229_RNA" +"G6230" "yaiI" ["yaiI", "b0387", "ECK0382"] 405764 406222 "+" "G6230_RNA" +"G6231" "ykiA" ["ykiA", "b0392", "ECK0387"] 408609 408950 "+" "G6231_RNA" +"G6233" "proY" ["proY", "yajM", "b0402", "ECK0396"] 420986 422359 "+" "G6233_RNA" +"G6234" "thiL" ["thiL", "thiJ", "b0417", "ECK0411"] 435634 436611 "+" "G6234_RNA" +"G6236" "yajO" ["yajO", "b0419", "ECK0413"] 437161 438135 "-" "G6236_RNA" +"G6237" "dxs" ["dxs", "yajP", "b0420", "ECK0414"] 438315 440177 "-" "G6237_RNA" +"G6238" "thiI" ["thiI", "nuvA", "yajK", "b0423", "ECK0417"] 441549 442997 "+" "G6238_RNA" +"G6239" "panE" ["panE", "apbA", "b0425", "ECK0419"] 443604 444515 "-" "G6239_RNA" +"G6240" "yajQ" ["yajQ", "b0426", "ECK0420"] 444683 445174 "+" "G6240_RNA" +"G6241" "yajR" ["yajR", "b0427", "ECK0421"] 445302 446666 "-" "G6241_RNA" +"G6242" "ppiD" ["ppiD", "ybaU", "b0441", "ECK0435"] 461915 463786 "+" "G6242_RNA" +"G6243" "ybaV" ["ybaV", "comEA", "b0442", "ECK0436"] 463937 464308 "+" "G6243_RNA" +"G6244" "fadM" ["fadM", "ybaW", "tesC", "b0443", "ECK0437"] 464402 464800 "+" "G6244_RNA" +"G6245" "queC" ["queC", "ybaX", "b0444", "ECK0438"] 464852 465547 "-" "G6245_RNA" +"G6246" "cof" ["cof", "b0446", "ECK0440"] 467412 468230 "+" "G6246_RNA" +"G6247" "decR" ["decR", "ybaO", "cyuR", "b0447", "ECK0441"] 468383 468841 "+" "G6247_RNA" +"G6248" "mdlA" ["mdlA", "mdl", "b0448", "ECK0442"] 468871 470643 "+" "G6248_RNA" +"G6250" "ybaY" ["ybaY", "b0453", "ECK0447"] 475379 475951 "+" "G6250_RNA" +"G6251" "ybaZ" ["ybaZ", "atl", "b0454", "ECK0448"] 475982 476371 "-" "G6251_RNA" +"G6252" "pdeB" ["pdeB", "ylaB", "b0457", "ECK0451"] 477067 478617 "-" "G6252_RNA" +"G6253" "ylaC" ["ylaC", "b0458", "ECK0452"] 478781 479251 "-" "G6253_RNA" +"G6255" "mscK" ["mscK", "aefA", "kefA", "b0465", "ECK0459"] 486536 489898 "+" "G6255_RNA" +"G6256" "fsr" ["fsr", "b0479", "ECK0473"] 503476 504696 "-" "G6256_RNA" +"G6258" "ybaP" ["ybaP", "b0482", "ECK0476"] 507286 508080 "-" "G6258_RNA" +"G6259" "ybaQ" ["ybaQ", "b0483", "ECK0477"] 508218 508559 "+" "G6259_RNA" +"G6260" "copA" ["copA", "ybaR", "b0484", "ECK0478"] 508875 511379 "-" "G6260_RNA" +"G6261" "glsA" ["glsA", "ybaS", "b0485", "ECK0479"] 511641 512573 "+" "G6261_RNA" +"G6262" "ybaT" ["ybaT", "b0486", "ECK0480"] 512576 513868 "+" "G6262_RNA" +"G6263" "cueR" ["cueR", "copR", "ybbI", "b0487", "ECK0481"] 513993 514400 "+" "G6263_RNA" +"G6264" "ybbJ" ["ybbJ", "b0488", "ECK0482"] 514401 514859 "-" "G6264_RNA" +"G6265" "qmcA" ["qmcA", "ybbK", "b0489", "ECK0483"] 514856 515773 "-" "G6265_RNA" +"G6266" "fetA" ["fetA", "ybbL", "b0490", "ECK0484"] 515919 516596 "+" "G6266_RNA" +"G6267" "fetB" ["fetB", "ybbM", "b0491", "ECK0485"] 516583 517362 "+" "G6267_RNA" +"G6268" "cnoX" ["cnoX", "ybbN", "b0492", "ECK0486"] 517425 518279 "-" "G6268_RNA" +"G6269" "ybbO" ["ybbO", "b0493", "ECK0487"] 518340 519149 "-" "G6269_RNA" +"G6270" "ybbP" ["ybbP", "b0496", "ECK0490"] 520416 522830 "+" "G6270_RNA" +"G6271" "ylbH" ["ylbH", "rhsH", "b0499", "ECK0493"] 527949 528659 "+" "G6271_RNA" +"G6273" "ylbG" ["ylbG", "b0502", "ECK0495"] 529645 530016 "-" "G6273_RNA" +"G6274" "allS" ["allS", "ybbS", "glxA1", "b0504", "ECK0497"] 531295 532221 "-" "G6274_RNA" +"G6275" "allA" ["allA", "glxA2", "ybbT", "b0505", "ECK0498"] 532451 532933 "+" "G6275_RNA" +"G6276" "allR" ["allR", "glxA3", "ybbU", "b0506", "ECK0499"] 533011 533826 "+" "G6276_RNA" +"G6277" "hyi" ["hyi", "ybbG", "gip", "b0508", "ECK0501"] 535710 536486 "+" "G6277_RNA" +"G6278" "glxR" ["glxR", "glxB1", "ybbQ", "b0509", "ECK0502"] 536586 537464 "+" "G6278_RNA" +"G6280" "ybbW" ["ybbW", "allP", "glxB2", "b0511", "ECK0504"] 537633 539087 "+" "G6280_RNA" +"G6281" "allB" ["allB", "glxB3", "ybbX", "b0512", "ECK0505"] 539147 540508 "+" "G6281_RNA" +"G6282" "ybbY" ["ybbY", "glxB4", "b0513", "ECK0506"] 540565 541866 "+" "G6282_RNA" +"G6283" "glxK" ["glxK", "glxB5", "ybbZ", "b0514", "ECK0507"] 541888 543033 "+" "G6283_RNA" +"G6284" "allE" ["allE", "glxB6", "ylbA", "ughY", "b0515", "ECK0508"] 543261 544046 "-" "G6284_RNA" +"G6285" "allC" ["allC", "glxB7", "ylbB", "b0516", "ECK0509"] 544057 545292 "-" "G6285_RNA" +"G6286" "allD" ["allD", "glxB8", "ylbC", "b0517", "ECK0510"] 545314 546363 "-" "G6286_RNA" +"G6287" "fdrA" ["fdrA", "ylbD", "b0518", "ECK0511"] 546680 548347 "+" "G6287_RNA" +"G6288" "ylbE" ["ylbE", "b0519", "G0-10554", "b4507", "b4572", "ECK0512"] 548357 549616 "+" "G6288_RNA" +"G6289" "ylbF" ["ylbF", "b0520", "ECK0513"] 549627 550442 "+" "G6289_RNA" +"G6290" "sfmA" ["sfmA", "b0530", "ECK0523"] 558212 558754 "+" "G6290_RNA" +"G6291" "sfmC" ["sfmC", "b0531", "ECK0524"] 558974 559666 "+" "G6291_RNA" +"G6292" "sfmD" ["sfmD", "b0532", "ECK0525"] 559697 562300 "+" "G6292_RNA" +"G6293" "sfmH" ["sfmH", "b0533", "ECK0526"] 562336 563319 "+" "G6293_RNA" +"G6294" null ["b0538"] 565972 566532 "+" "G6294_RNA" +"G6295" "exoD" ["exoD", "ybcC", "b0539", "ECK0531"] 566098 566361 "-" "G6295_RNA" +"G6296" "insE3" ["insE3", "b0540", "ECK0298"] 566842 567141 "+" "G6296_RNA" +"G6297" "insF3" ["insF3", "tra5-2", "b0541", "ECK0299"] 567138 568004 "+" "G6297_RNA" +"G6298" "renD" ["renD", "ybcE", "b0542", "ECK0533"] null null "+" "G6298_RNA" +"G6300" "ybcK" ["ybcK", "b0544", "ECK0535"] 568902 570428 "+" "G6300_RNA" +"G6301" "ybcL" ["ybcL", "b0545", "ECK0536"] 570893 571444 "+" "G6301_RNA" +"G6302" "ybcM" ["ybcM", "b0546", "ECK0537"] 571454 572251 "+" "G6302_RNA" +"G6303" "ybcN" ["ybcN", "b0547", "ECK0538"] 572466 572921 "+" "G6303_RNA" +"G6304" "ninE" ["ninE", "b0548", "ECK0539"] 572921 573091 "+" "G6304_RNA" +"G6305" "ybcO" ["ybcO", "b0549", "ECK0540"] 573084 573374 "+" "G6305_RNA" +"G6306" "rusA" ["rusA", "ybcP", "rus", "b0550", "ECK0541"] 573371 573733 "+" "G6306_RNA" +"G6307" "quuD" ["quuD", "ybcQ", "b0551", "ECK0543"] 573956 574339 "+" "G6307_RNA" +"G6308" "insH2" ["insH2", "trs5-2", "yi52_2", "b0552", "ECK0261"] 574737 575717 "-" "G6308_RNA" +"G6309" "essD" ["essD", "vlyS", "ybcR", "b0554", "ECK0545"] 577398 577613 "+" "G6309_RNA" +"G6310" "rrrD" ["rrrD", "lycV", "ybcS", "b0555", "ECK0546"] 577613 578110 "+" "G6310_RNA" +"G6311" "rzpD" ["rzpD", "ybcT", "b0556", "ECK0547"] 578107 578568 "+" "G6311_RNA" +"G6312" "borD" ["borD", "iss", "vboR", "bor", "ybcU", "b0557", "ECK0549"] 578600 578893 "-" "G6312_RNA" +"G6313" "ybcV" ["ybcV", "b0558", "ECK0550"] 579184 579594 "-" "G6313_RNA" +"G6314" "ybcW" ["ybcW", "b0559", "ECK0551"] 579880 580086 "+" "G6314_RNA" +"G6315" "tfaD" ["tfaD", "ybcX", "b0561", "ECK0553"] 581534 582097 "+" "G6315_RNA" +"G6316" "ybcY" ["ybcY", "b0562", "ECK0554"] 582152 582806 "-" "G6316_RNA" +"G6317" "tfaX" ["tfaX", "ylcE", "b0563", "ECK0555"] 582875 583060 "+" "G6317_RNA" +"G6318" "cusS" ["cusS", "ybcZ", "b0570", "ECK0562"] 593328 594770 "-" "G6318_RNA" +"G6319" "cusR" ["cusR", "ylcA", "b0571", "ECK0563"] 594760 595443 "-" "G6319_RNA" +"G6320" "cusC" ["cusC", "ibeB", "ylcB", "b0572", "ECK0564"] 595600 596973 "+" "G6320_RNA" +"G6321" "cusF" ["cusF", "cusX", "ylcC", "b0573", "ECK0565"] 597131 597463 "+" "G6321_RNA" +"G6322" "cusB" ["cusB", "ylcD", "b0574", "ECK0566"] 597479 598702 "+" "G6322_RNA" +"G6323" "ybdG" ["ybdG", "b0577", "ECK0569"] 603416 604663 "-" "G6323_RNA" +"G6324" "ybdF" ["ybdF", "b0579", "ECK0571"] 605518 605886 "-" "G6324_RNA" +"G6325" "ybdJ" ["ybdJ", "b0580", "ECK0572"] 605951 606199 "-" "G6325_RNA" +"G6326" "ybdK" ["ybdK", "b0581", "ECK0573"] 606265 607383 "-" "G6326_RNA" +"G6327" "insL2" ["insL2", "yi81-2", "b0582", "ECK0016"] 608065 609177 "+" "G6327_RNA" +"G6329" "ybdL" ["ybdL", "b0600", "ECK0594"] 633586 634746 "+" "G6329_RNA" +"G6330" "ybdM" ["ybdM", "b0601", "ECK0595"] 634747 635376 "-" "G6330_RNA" +"G6331" "ybdN" ["ybdN", "b0602", "ECK0596"] 635349 636569 "-" "G6331_RNA" +"G6332" "ybdO" ["ybdO", "b0603", "ECK0597"] 636716 637618 "-" "G6332_RNA" +"G6333" "dsbG" ["dsbG", "ybdP", "b0604", "ECK0598"] 637827 638573 "-" "G6333_RNA" +"G6334" "uspG" ["uspG", "UP12", "yzzU", "ybdQ", "b0607", "ECK0601"] 641439 641867 "-" "G6334_RNA" +"G6335" "ybdR" ["ybdR", "b0608", "ECK0602"] 642088 643326 "+" "G6335_RNA" +"G6336" null ["b0609"] 643407 643868 "+" "G6336_RNA" +"G6337" "rnk" ["rnk", "b0610", "ECK0603"] 643557 643967 "-" "G6337_RNA" +"G6338" "citT" ["citT", "ybdS", "b0612", "ECK0605"] 645117 646580 "-" "G6338_RNA" +"G6339" "citG" ["citG", "ybdT", "b0613", "ECK0606"] 646631 647509 "-" "G6339_RNA" +"G6340" "citX" ["citX", "ybdU", "b0614", "ECK0607"] 647484 648035 "-" "G6340_RNA" +"G6341" "citF" ["citF", "ybdV", "b0615", "ECK0608"] 648039 649571 "-" "G6341_RNA" +"G6342" "citE" ["citE", "ybdW", "b0616", "ECK0609"] 649582 650490 "-" "G6342_RNA" +"G6343" "citD" ["citD", "ybdX", "b0617", "ECK0610"] 650487 650783 "-" "G6343_RNA" +"G6344" "citC" ["citC", "ybeO", "b0618", "ECK0611"] 650798 651856 "-" "G6344_RNA" +"G6345" "dpiB" ["dpiB", "ybeP", "mpdB", "citA", "b0619", "ECK0612"] 652235 653893 "+" "G6345_RNA" +"G6346" "dpiA" ["dpiA", "citB", "criR", "mpdA", "b0620", "ECK0613"] 653862 654542 "+" "G6346_RNA" +"G6347" "dcuC" ["dcuC", "b0621", "ECK0614"] 654583 655968 "-" "G6347_RNA" +"G6349" "cobC" ["cobC", "phpB", "b0638", "ECK0631"] 669296 669907 "-" "G6349_RNA" +"G6350" "nadD" ["nadD", "ybeN", "fusB", "b0639", "ECK0632"] 669931 670572 "-" "G6350_RNA" +"G6351" "ybeQ" ["ybeQ", "b0644", "ECK0637"] 675570 676547 "-" "G6351_RNA" +"G6352" "ybeR" ["ybeR", "b0645", "ECK0638"] 676711 677418 "+" "G6352_RNA" +"G6353" "djlB" ["djlB", "ybeS", "b0646", "ECK0639"] 677415 678842 "+" "G6353_RNA" +"G6354" "ybeT" ["ybeT", "b0647", "ECK0640"] 678852 679406 "-" "G6354_RNA" +"G6355" "ybeU" ["ybeU", "b0648", "ECK0641"] 679508 680215 "+" "G6355_RNA" +"G6356" "djlC" ["djlC", "hscD", "ybeV", "hsc56", "b0649", "ECK0642"] 680212 681663 "+" "G6356_RNA" +"G6357" "hscC" ["hscC", "ybeW", "b0650", "ECK0643"] 681723 683393 "-" "G6357_RNA" +"G6358" "rihA" ["rihA", "ybeK", "b0651", "ECK0644"] 683477 684412 "-" "G6358_RNA" +"G6359" "gltI" ["gltI", "yzzK", "ybeJ", "b0655", "ECK0648"] 686839 687747 "-" "G6359_RNA" +"G6360" "insH3" ["insH3", "trs5-3", "yi52_3", "b0656", "ECK0261"] 687997 688977 "-" "G6360_RNA" +"G6361" "ybeX" ["ybeX", "b0658", "ECK0650"] 690906 691784 "-" "G6361_RNA" +"G6362" "ybeY" ["ybeY", "b0659", "ECK0651"] 691874 692341 "-" "G6362_RNA" +"G6363" "ybeZ" ["ybeZ", "phoL", "b0660", "ECK0652"] 692338 693378 "-" "G6363_RNA" +"G6364" "miaB" ["miaB", "yleA", "b0661", "ECK0653"] 693531 694955 "-" "G6364_RNA" +"G6365" "ubiF" ["ubiF", "yleB", "b0662", "ECK0654"] 695101 696276 "+" "G6365_RNA" +"G6370" "chiP" ["chiP", "ybfM", "b0681", "ECK0669"] 708334 709740 "+" "G6370_RNA" +"G6371" "chiQ" ["chiQ", "ybfN", "b0682", "ECK0670"] 709790 710116 "+" "G6371_RNA" +"G6374" "ybfP" ["ybfP", "b0689", "ECK0677"] 715412 715906 "+" "G6374_RNA" +"G6376" "ybfO" ["ybfO", "b0703", "ECK0691"] 734220 735653 "+" "G6376_RNA" +"G6377" "ybfL" ["ybfL", "b0705", "ECK0694"] 736900 737961 "+" "G6377_RNA" +"G6378" "dtpD" ["dtpD", "ybgH", "b0709", "ECK0698"] 741075 742556 "-" "G6378_RNA" +"G6379" "ybgI" ["ybgI", "b0710", "ECK0699"] 742827 743570 "+" "G6379_RNA" +"G6380" "pxpB" ["pxpB", "ybgJ", "b0711", "ECK0700"] 743593 744249 "+" "G6380_RNA" +"G6381" "pxpC" ["pxpC", "ybgK", "b0712", "ECK0701"] 744243 745175 "+" "G6381_RNA" +"G6382" "pxpA" ["pxpA", "ybgL", "b0713", "ECK0702"] 745165 745899 "+" "G6382_RNA" +"G6383" "nei" ["nei", "b0714", "ECK0703"] 745935 746726 "+" "G6383_RNA" +"G6384" "abrB" ["abrB", "ybgN", "b0715", "ECK0704"] 746723 747769 "-" "G6384_RNA" +"G6385" "ybgO" ["ybgO", "b0716", "ECK0705"] 747921 748982 "-" "G6385_RNA" +"G6386" "ybgP" ["ybgP", "b0717", "ECK0706"] 748979 749707 "-" "G6386_RNA" +"G6387" "ybgQ" ["ybgQ", "b0718", "ECK0707"] 749722 752169 "-" "G6387_RNA" +"G6388" "b0725" ["b0725", "b0725"] 758464 758724 "+" "G6388_RNA" +"G6389" "valZ" ["valZ", "valTb", "valTbeta", "b0746", "ECK0735"] 781068 781143 "+" "RNA0-300" +"G6390" "lysY" ["lysY", "lysTg", "lysTgamma", "b0747", "ECK0736"] 781147 781222 "+" "RNA0-301" +"G6391" "lysZ" ["lysZ", "b0748", "ECK0737"] 781369 781444 "+" "RNA0-302" +"G6392" "lysQ" ["lysQ", "b0749", "ECK0738"] 781577 781652 "+" "RNA0-303" +"G6393" "zitB" ["zitB", "ybgR", "b0752", "ECK0741"] 783882 784823 "-" "G6393_RNA" +"G6394" "ybgS" ["ybgS", "b0753", "ECK0742"] 784937 785317 "-" "G6394_RNA" +"G6395" "modE" ["modE", "chlD", "modR", "b0761", "ECK0750"] 793856 794644 "-" "G6395_RNA" +"G6396" "acrZ" ["acrZ", "ybhT", "b0762", "ECK0751"] 794773 794922 "+" "G6396_RNA" +"G6397" "pgl" ["pgl", "ybhE", "b0767", "ECK0756"] 798586 799581 "+" "G6397_RNA" +"G6398" "ybhD" ["ybhD", "b0768", "ECK0757"] 799622 800575 "-" "G6398_RNA" +"G6399" "ybhH" ["ybhH", "b0769", "ECK0758"] 800759 801811 "+" "G6399_RNA" +"G6400" "ybhI" ["ybhI", "b0770", "ECK0759"] 801887 803320 "+" "G6400_RNA" +"G6401" "ybhJ" ["ybhJ", "b0771", "ECK0760"] 803503 805764 "+" "G6401_RNA" +"G6402" "ybhK" ["ybhK", "b0780", "ECK0769"] 815739 816647 "-" "G6402_RNA" +"G6403" "ybhL" ["ybhL", "b0786", "ECK0775"] 819884 820588 "+" "G6403_RNA" +"G6404" "ybhM" ["ybhM", "b0787", "ECK0776"] 820793 821506 "+" "G6404_RNA" +"G6405" "ybhN" ["ybhN", "b0788", "ECK0777"] 821542 822498 "-" "G6405_RNA" +"G6406" "clsB" ["clsB", "ybhO", "b0789", "ECK0778"] 822498 823739 "-" "G6406_RNA" +"G6407" "ybhP" ["ybhP", "b0790", "ECK0779"] 823736 824497 "-" "G6407_RNA" +"G6408" "ybhQ" ["ybhQ", "b0791", "ECK0780"] 824630 825040 "+" "G6408_RNA" +"G6409" "ybhR" ["ybhR", "b0792", "ECK0781"] 825002 826108 "-" "G6409_RNA" +"G6410" "ybhS" ["ybhS", "b0793", "ECK0782"] 826119 827252 "-" "G6410_RNA" +"G6411" "ybhF" ["ybhF", "b0794", "ECK0783"] 827245 828981 "-" "G6411_RNA" +"G6412" "ybhG" ["ybhG", "b0795", "ECK0784"] 828974 829972 "-" "G6412_RNA" +"G6413" "ybiX" ["ybiX", "b0804", "ECK0793"] 838530 839207 "-" "G6413_RNA" +"G6414" "fiu" ["fiu", "ybiL", "b0805", "ECK0794"] 839249 841531 "-" "G6414_RNA" +"G6415" "mcbA" ["mcbA", "ybiM", "b0806", "ECK0795"] 841796 842056 "-" "G6415_RNA" +"G6416" "rlmF" ["rlmF", "ybiN", "b0807", "ECK0796"] 842332 843258 "+" "G6416_RNA" +"G6417" "ybiO" ["ybiO", "b0808", "ECK0797"] 843255 845480 "-" "G6417_RNA" +"G6418" "opgE" ["opgE", "ybiP", "b0815", "ECK0804"] 851014 852597 "-" "G6418_RNA" +"G6419" "yliL" ["yliL", "b0816", "ECK0805"] 852671 852940 "+" "G6419_RNA" +"G6420" "mntR" ["mntR", "ybiQ", "b0817", "ECK0807"] 853183 853650 "+" "G6420_RNA" +"G6421" "ybiR" ["ybiR", "b0818", "ECK0808"] 853647 854765 "+" "G6421_RNA" +"G6422" "ldtB" ["ldtB", "ybiS", "b0819", "ECK0809"] 854824 855744 "-" "G6422_RNA" +"G6423" "ybiT" ["ybiT", "b0820", "ECK0810"] 855963 857555 "+" "G6423_RNA" +"G6424" "ybiU" ["ybiU", "b0821", "ECK0811"] 857796 859061 "-" "G6424_RNA" +"G6425" "ybiV" ["ybiV", "supH", "b0822", "ECK0812"] 859213 860028 "-" "G6425_RNA" +"G6426" "ybiW" ["ybiW", "pflF", "b0823", "ECK0813"] 860174 862606 "-" "G6426_RNA" +"G6427" "ybiY" ["ybiY", "pflE", "b0824", "ECK0814"] 862612 863511 "-" "G6427_RNA" +"G6428" "fsaA" ["fsaA", "ybiZ", "fsa", "mipB", "b0825", "ECK0815"] 863642 864304 "+" "G6428_RNA" +"G6429" "gsiA" ["gsiA", "yliA", "b0829", "ECK0819"] 867520 869391 "+" "G6429_RNA" +"G6430" "gsiB" ["gsiB", "yliB", "b0830", "ECK0820"] 869411 870949 "+" "G6430_RNA" +"G6431" "gsiC" ["gsiC", "yliC", "b0831", "ECK0821"] 870967 871887 "+" "G6431_RNA" +"G6432" "gsiD" ["gsiD", "yliD", "b0832", "ECK0822"] 871890 872801 "+" "G6432_RNA" +"G6433" "pdeI" ["pdeI", "yliE", "b0833", "ECK0823"] 872979 875327 "+" "G6433_RNA" +"G6434" "dgcI" ["dgcI", "yliF", "b0834", "ECK0824"] 875335 876663 "+" "G6434_RNA" +"G6435" "rimO" ["rimO", "yliG", "b0835", "ECK0825"] 876710 878035 "-" "G6435_RNA" +"G6436" "bssR" ["bssR", "yliH", "b0836", "ECK0826"] 878248 878631 "+" "G6436_RNA" +"G6437" "yliI" ["yliI", "b0837", "ECK0827"] 878742 879857 "+" "G6437_RNA" +"G6438" "gstB" ["gstB", "yliJ", "b0838", "ECK0828"] 879854 880480 "-" "G6438_RNA" +"G6439" "ybjG" ["ybjG", "b0841", "ECK0831"] 882792 883388 "-" "G6439_RNA" +"G6440" "mdfA" ["mdfA", "cmlA", "cmr", "b0842", "ECK0832"] 883673 884905 "+" "G6440_RNA" +"G6441" "ybjH" ["ybjH", "b0843", "ECK0833"] 884946 885230 "-" "G6441_RNA" +"G6442" "ybjI" ["ybjI", "b0844", "ECK0834"] 885316 886131 "-" "G6442_RNA" +"G6443" "ybjJ" ["ybjJ", "b0845", "ECK0835"] 886131 887339 "-" "G6443_RNA" +"G6444" "rcdA" ["rcdA", "ybjK", "b0846", "ECK0836"] 887423 887959 "+" "G6444_RNA" +"G6445" "ybjL" ["ybjL", "b0847", "ECK0838"] 888134 889819 "-" "G6445_RNA" +"G6446" "ybjM" ["ybjM", "b0848", "ECK0839"] 890089 890466 "+" "G6446_RNA" +"G6447" "ybjN" ["ybjN", "b0853", "ECK0844"] 892957 893433 "+" "G6447_RNA" +"G6448" "ybjO" ["ybjO", "b0858", "ECK0849"] 897989 898477 "+" "G6448_RNA" +"G6449" "rlmC" ["rlmC", "ybjF", "rumB", "b0859", "ECK0850"] 898518 899645 "+" "G6449_RNA" +"G6450" "ybjP" ["ybjP", "b0865", "ECK0856"] 903952 904467 "-" "G6450_RNA" +"G6451" "ybjQ" ["ybjQ", "b0866", "ECK0857"] 904593 904916 "+" "G6451_RNA" +"G6452" "amiD" ["amiD", "ybjR", "b0867", "ECK0858"] 904913 905743 "+" "G6452_RNA" +"G6453" "ybjS" ["ybjS", "b0868", "ECK0859"] 905740 906753 "-" "G6453_RNA" +"G6454" "ybjT" ["ybjT", "b0869", "ECK0860"] 906852 908282 "-" "G6454_RNA" +"G6455" "ltaE" ["ltaE", "ltaA", "ybjU", "b0870", "ECK0861"] 908293 909294 "-" "G6455_RNA" +"G6456" "hcr" ["hcr", "ybjV", "b0872", "ECK0863"] 911182 912150 "-" "G6456_RNA" +"G6457" "hcp" ["hcp", "priS", "ybjW", "b0873", "ECK0864"] 912162 913814 "-" "G6457_RNA" +"G6458" "lysO" ["lysO", "ybjE", "b0874", "ECK0865"] 913958 914857 "-" "G6458_RNA" +"G6459" "ybjD" ["ybjD", "b0876", "ECK0867"] 916473 918131 "+" "G6459_RNA" +"G6460" "ybjX" ["ybjX", "b0877", "ECK0868"] 918128 919120 "-" "G6460_RNA" +"G6461" "macA" ["macA", "ybjY", "b0878", "ECK0869"] 919235 920350 "+" "G6461_RNA" +"G6462" "macB" ["macB", "ybjZ", "b0879", "ECK0870"] 920347 922293 "+" "G6462_RNA" +"G6463" "clpS" ["clpS", "yljA", "b0881", "ECK0872"] 922913 923233 "+" "G6463_RNA" +"G6464" "ftsK" ["ftsK", "dinH", "b0890", "ECK0881"] 933224 937213 "+" "G6464_RNA" +"G6465" "lolA" ["lolA", "yzzV", "lplA", "b0891", "ECK0882"] 937372 937983 "+" "G6465_RNA" +"G6466" "ycaM" ["ycaM", "b0899", "ECK0890"] 947229 948659 "+" "G6466_RNA" +"G6467" "ycaN" ["ycaN", "b0900", "ECK0891"] 948660 949568 "-" "G6467_RNA" +"G6468" "ycaO" ["ycaO", "b0905", "ECK0896"] 954872 956632 "-" "G6468_RNA" +"G6469" "ycaP" ["ycaP", "b0906", "ECK0897"] 956762 957454 "+" "G6469_RNA" +"G6470" "ycaL" ["ycaL", "b0909", "ECK0900"] 960264 961028 "+" "G6470_RNA" +"G6471" "ycaQ" ["ycaQ", "alkZ", "b0916", "ECK0907"] 969389 970621 "+" "G6471_RNA" +"G6472" "ycaR" ["ycaR", "b0917", "ECK0908"] 970673 970855 "+" "G6472_RNA" +"G6473" "ycbJ" ["ycbJ", "b0919", "ECK0910"] 971752 972645 "+" "G6473_RNA" +"G6474" "mepK" ["mepK", "ycbK", "b0926", "ECK0917"] 983075 983623 "+" "G6474_RNA" +"G6475" "gloC" ["gloC", "ycbL", "b0927", "ECK0918"] 983650 984297 "+" "G6475_RNA" +"G6476" "ssuC" ["ssuC", "ycbM", "b0934", "ECK0925"] 994041 994832 "-" "G6476_RNA" +"G6477" "ssuD" ["ssuD", "ssi6", "ycbN", "b0935", "ECK0926"] 994843 995988 "-" "G6477_RNA" +"G6478" "ssuA" ["ssuA", "ycbO", "b0936", "ECK0927"] 995985 996944 "-" "G6478_RNA" +"G6479" "ssuE" ["ssuE", "ssi4", "ycbP", "b0937", "ECK0928"] 996937 997512 "-" "G6479_RNA" +"G6480" "elfA" ["elfA", "ycbQ", "b0938", "ECK0929"] 997868 998407 "+" "G6480_RNA" +"G6481" "elfD" ["elfD", "ycbR", "b0939", "ECK0930"] 998490 999191 "+" "G6481_RNA" +"G6482" "elfC" ["elfC", "ycbS", "b0940", "ECK0931"] 999216 1001816 "+" "G6482_RNA" +"G6483" "elfG" ["elfG", "ycbT", "b0941", "ECK0932"] 1001807 1002877 "+" "G6483_RNA" +"G6484" "ycbU" ["ycbU", "b0942", "ECK0933"] 1002889 1003431 "+" "G6484_RNA" +"G6485" "ycbV" ["ycbV", "b0943", "ECK0934"] 1003439 1003954 "+" "G6485_RNA" +"G6486" "zapC" ["zapC", "ycbW", "b0946", "ECK0937"] 1005952 1006494 "+" "G6486_RNA" +"G6487" "ycbX" ["ycbX", "b0947", "ECK0938"] 1006491 1007600 "-" "G6487_RNA" +"G6488" "rlmL" ["rlmL", "ycbY", "rlmK", "rlmKL", "b0948", "ECK0939"] 1007844 1009952 "+" "G6488_RNA" +"G6489" "uup" ["uup", "ycbI", "ycbH", "b0949", "ECK0940"] 1009964 1011871 "+" "G6489_RNA" +"G6490" "pqiA" ["pqiA", "pqi5", "pqi5A", "b0950", "ECK0941"] 1012001 1013254 "+" "G6490_RNA" +"G6491" "pqiB" ["pqiB", "pqi5", "pqi5B", "b0951", "ECK0942"] 1013259 1014899 "+" "G6491_RNA" +"G6492" "pqiC" ["pqiC", "ymbA", "b0952", "ECK0943"] 1014896 1015459 "+" "G6492_RNA" +"G6493" "ycbZ" ["ycbZ", "b0955", "ECK0946"] 1016539 1018299 "-" "G6493_RNA" +"G6494" "sxy" ["sxy", "yccR", "b0959", "ECK0950"] 1021138 1021767 "+" "G6494_RNA" +"G6495" "yccS" ["yccS", "b0960", "ECK0951"] 1021730 1023883 "-" "G6495_RNA" +"G6496" "yccF" ["yccF", "b0961", "ECK0952"] 1023902 1024348 "-" "G6496_RNA" +"G6497" "mgsA" ["mgsA", "mgs", "yccG", "b0963", "ECK0954"] 1026557 1027015 "-" "G6497_RNA" +"G6498" "yccT" ["yccT", "b0964", "ECK0955"] 1027111 1027773 "-" "G6498_RNA" +"G6499" "yccU" ["yccU", "b0965", "ECK0956"] 1027946 1028359 "+" "G6499_RNA" +"G6500" "hspQ" ["hspQ", "yccV", "b0966", "ECK0957"] 1028404 1028721 "-" "G6500_RNA" +"G6501" "rlmI" ["rlmI", "yccW", "b0967", "ECK0958"] 1028779 1029969 "-" "G6501_RNA" +"G6502" "yccX" ["yccX", "b0968", "ECK0959"] 1030064 1030342 "+" "G6502_RNA" +"G6503" "etp" ["etp", "yccY", "b0982", "ECK0973"] 1044230 1044676 "-" "G6503_RNA" +"G6504" "gfcE" ["gfcE", "yccZ", "b0983", "ECK0974"] 1044664 1045803 "-" "G6504_RNA" +"G6505" "gfcD" ["gfcD", "ymcA", "b0984", "ECK0975"] 1045849 1047945 "-" "G6505_RNA" +"G6506" "gfcC" ["gfcC", "ymcB", "b0985", "ECK0976"] 1047945 1048691 "-" "G6506_RNA" +"G6507" "gfcB" ["gfcB", "ymcC", "b0986", "ECK0977"] 1048688 1049332 "-" "G6507_RNA" +"G6508" "gfcA" ["gfcA", "ymcD", "b0987", "ECK0978"] 1049439 1049744 "-" "G6508_RNA" +"G6509" "insB4" ["insB4", "b0988", "ECK0022"] 1050027 1050530 "+" "G6509_RNA" +"G6510" "cspH" ["cspH", "cspK", "b0989", "ECK0979"] 1050963 1051175 "-" "G6510_RNA" +"G6511" "cspG" ["cspG", "b0990", "ECK0980"] 1051461 1051673 "+" "G6511_RNA" +"G6512" "ymcE" ["ymcE", "b0991", "ECK0981"] 1051847 1052077 "+" "G6512_RNA" +"G6513" "yccM" ["yccM", "b0992", "ECK0983"] 1052289 1053362 "-" "G6513_RNA" +"G6514" "torS" ["torS", "yccI", "b0993", "ECK0984"] 1053434 1056178 "-" "G6514_RNA" +"G6515" "torT" ["torT", "yccH", "b0994", "ECK0985"] 1056261 1057289 "+" "G6515_RNA" +"G6516" "ycdF" ["ycdF", "b1005"] 1067918 1068148 "+" "G6516_RNA" +"G6517" "rutG" ["rutG", "ycdG", "b1006", "ECK0997"] 1068511 1069839 "-" "G6517_RNA" +"G6518" "rutF" ["rutF", "ycdH", "b1007", "ECK0998"] 1069860 1070354 "-" "G6518_RNA" +"G6519" "rutE" ["rutE", "ycdI", "b1008", "ECK0999"] 1070365 1070955 "-" "G6519_RNA" +"G6520" "rutD" ["rutD", "ycdJ", "b1009", "ECK1000"] 1070965 1071765 "-" "G6520_RNA" +"G6521" "rutC" ["rutC", "ycdK", "b1010", "ECK1001"] 1071773 1072159 "-" "G6521_RNA" +"G6522" "rutB" ["rutB", "ycdL", "b1011", "ECK1002"] 1072171 1072863 "-" "G6522_RNA" +"G6523" "rutA" ["rutA", "ycdM", "b1012", "ECK1003"] 1072863 1074011 "-" "G6523_RNA" +"G6525" "efeU" ["efeU", "ycdN", "b1016", "b1017", "b4490", "ECK1007"] 1081356 1082185 "+" "G6525_RNA" +"G6527" "efeO" ["efeO", "ycdO", "b1018", "ECK1008"] 1082243 1083370 "+" "G6527_RNA" +"G6528" "pgaD" ["pgaD", "hmsS", "ycdP", "b1021", "ECK1011"] 1086106 1086519 "-" "G6528_RNA" +"G6529" "pgaC" ["pgaC", "hmsR", "ycdQ", "b1022", "ECK1012"] 1086521 1087846 "-" "G6529_RNA" +"G6530" "pgaB" ["pgaB", "hmsF", "ycdR", "b1023", "ECK1013"] 1087839 1089857 "-" "G6530_RNA" +"G6531" "pgaA" ["pgaA", "hmsH", "ycdS", "b1024", "ECK1014"] 1089866 1092289 "-" "G6531_RNA" +"G6532" "dgcT" ["dgcT", "ycdT", "b1025", "ECK1015"] 1092876 1094234 "+" "G6532_RNA" +"G6533" "insF4" ["insF4", "tra5-3", "b1026", "ECK0299"] 1094275 1095141 "-" "G6533_RNA" +"G6534" "insE4" ["insE4", "b1027", "ECK0298"] 1095138 1095437 "-" "G6534_RNA" +"G6535" "ymdE" ["ymdE", "b1028", "ECK1016"] 1095544 1095846 "+" "G6535_RNA" +"G6536" "ycdU" ["ycdU", "b1029", "ECK1017"] 1095843 1096829 "+" "G6536_RNA" +"G6539" "ghrA" ["ghrA", "ycdW", "b1033", "ECK1019"] 1097886 1098824 "+" "G6539_RNA" +"G6540" "ycdX" ["ycdX", "b1034", "ECK1020"] 1098879 1099616 "+" "G6540_RNA" +"G6541" "ycdY" ["ycdY", "b1035", "ECK1021"] 1099640 1100194 "+" "G6541_RNA" +"G6542" "ycdZ" ["ycdZ", "nupT", "b1036", "ECK1022"] 1100296 1100787 "+" "G6542_RNA" +"G6543" "csgG" ["csgG", "b1037", "ECK1023"] 1100851 1101684 "-" "G6543_RNA" +"G6544" "csgF" ["csgF", "b1038", "ECK1024"] 1101711 1102127 "-" "G6544_RNA" +"G6545" "csgE" ["csgE", "b1039", "ECK1025"] 1102152 1102541 "-" "G6545_RNA" +"G6546" "csgD" ["csgD", "b1040", "ECK1026"] 1102546 1103196 "-" "G6546_RNA" +"G6547" "csgB" ["csgB", "b1041", "ECK1027"] 1103951 1104406 "+" "G6547_RNA" +"G6548" "csgC" ["csgC", "ycdE", "b1043", "ECK1029"] 1104961 1105293 "+" "G6548_RNA" +"G6549" "ymdA" ["ymdA", "b1044", "ECK1030"] 1105414 1105725 "+" "G6549_RNA" +"G6550" "ymdB" ["ymdB", "b1045", "ECK1031"] 1105820 1106353 "+" "G6550_RNA" +"G6551" "clsC" ["clsC", "ymdC", "b1046", "ECK1032"] 1106355 1107776 "+" "G6551_RNA" +"G6552" "opgC" ["opgC", "ymdD", "mdoC", "b1047", "ECK1033"] 1107784 1108941 "-" "G6552_RNA" +"G6553" "b1052" ["b1052", "b1052"] 1114211 1114309 "-" "G6553_RNA" +"G6554" "yceJ" ["yceJ", "b1057", "ECK1042"] 1118480 1119046 "-" "G6554_RNA" +"G6555" "yceO" ["yceO", "b1058", "ECK1043"] 1119307 1119447 "-" "G6555_RNA" +"G6556" "solA" ["solA", "b1059", "ECK1044"] 1119468 1120586 "-" "G6556_RNA" +"G6557" "bssS" ["bssS", "yceP", "b1060", "ECK1045"] 1120701 1120955 "-" "G6557_RNA" +"G6558" "dinI" ["dinI", "b1061", "ECK1046"] 1121242 1121487 "-" "G6558_RNA" +"G6559" "mdtH" ["mdtH", "yceL", "b1065", "ECK1050"] 1124118 1125326 "-" "G6559_RNA" +"G6560" "yceM" ["yceM", "mviM", "b1068", "ECK1053"] 1126806 1127729 "+" "G6560_RNA" +"G6561" "murJ" ["murJ", "mviN", "yceN", "b1069", "ECK1054"] 1127839 1129374 "+" "G6561_RNA" +"G6562" "flgN" ["flgN", "b1070", "ECK1055"] 1129414 1129830 "-" "G6562_RNA" +"G6563" "yceQ" ["yceQ", "b1085", "ECK1070"] 1144502 1144822 "+" "G6563_RNA" +"G6564" "ycfL" ["ycfL", "b1104", "ECK1090"] 1162247 1162624 "+" "G6564_RNA" +"G6565" "lpoB" ["lpoB", "ycfM", "b1105", "ECK1091"] 1162638 1163279 "+" "G6565_RNA" +"G6566" "thiK" ["thiK", "ycfN", "b1106", "ECK1092"] 1163260 1164084 "+" "G6566_RNA" +"G6567" "nagZ" ["nagZ", "ycfO", "b1107", "ECK1093"] 1164095 1165120 "+" "G6567_RNA" +"G6568" "ycfP" ["ycfP", "b1108", "ECK1094"] 1165143 1165685 "+" "G6568_RNA" +"G6569" "comR" ["comR", "ycfQ", "b1111", "ECK1097"] 1168200 1168832 "-" "G6569_RNA" +"G6570" "bhsA" ["bhsA", "ycfR", "comC", "b1112", "ECK1098"] 1169073 1169330 "+" "G6570_RNA" +"G6571" "ldtC" ["ldtC", "ycfS", "b1113", "ECK1099"] 1169412 1170374 "-" "G6571_RNA" +"G6572" "ycfT" ["ycfT", "b1115", "ECK1101"] 1174092 1175165 "-" "G6572_RNA" +"G6573" "lolC" ["lolC", "ycfU", "b1116", "ECK1102"] 1175427 1176626 "+" "G6573_RNA" +"G6574" "lolD" ["lolD", "ycfV", "b1117", "ECK1103"] 1176619 1177320 "+" "G6574_RNA" +"G6575" "lolE" ["lolE", "ycfW", "b1118", "ECK1104"] 1177320 1178564 "+" "G6575_RNA" +"G6576" "nagK" ["nagK", "ycfX", "b1119", "ECK1105"] 1178593 1179504 "+" "G6576_RNA" +"G6577" "cobB" ["cobB", "ycfY", "b1120", "ECK1106"] 1179520 1180359 "+" "G6577_RNA" +"G6578" "ycfZ" ["ycfZ", "b1121", "ECK1107"] 1180479 1181267 "-" "G6578_RNA" +"G6579" "ymfA" ["ymfA", "b1122", "ECK1108"] 1181264 1181725 "-" "G6579_RNA" +"G6580" "nudJ" ["nudJ", "ymfB", "b1134", "ECK1120"] 1193827 1194288 "-" "G6580_RNA" +"G6581" "rluE" ["rluE", "ymfC", "b1135", "ECK1121"] 1194298 1194951 "-" "G6581_RNA" +"G6582" "ymfD" ["ymfD", "b1137", "ECK1123"] 1196867 1197532 "-" "G6582_RNA" +"G6583" "ymfE" ["ymfE", "b1138", "ECK1124"] 1197533 1198237 "-" "G6583_RNA" +"G6585" "xisE" ["xisE", "ymfG", "b1141", "ECK1127"] 1200787 1201032 "-" "G6585_RNA" +"G6586" "ymfH" ["ymfH", "b1142", "ECK1128"] 1201069 1201380 "-" "G6586_RNA" +"G6587" "ymfI" ["ymfI", "b1143", "ECK1129"] 1201497 1201838 "+" "G6587_RNA" +"G6588" "ymfJ" ["ymfJ", "b1144", "ECK1130"] 1201776 1202084 "-" "G6588_RNA" +"G6589" "ymfK" ["ymfK", "cohE", "b1145", "ECK1131"] 1202259 1202933 "-" "G6589_RNA" +"G6590" "ymfT" ["ymfT", "croE", "b1146", "ECK1132"] 1203024 1203224 "+" "G6590_RNA" +"G6591" "ymfL" ["ymfL", "b1147", "ECK1133"] 1203268 1203825 "+" "G6591_RNA" +"G6592" "ymfM" ["ymfM", "b1148", "ECK1134"] 1203822 1204160 "+" "G6592_RNA" +"G6593" "ymfN" ["ymfN", "b1149", "ECK1135"] 1204170 1205537 "+" "G6593_RNA" +"G6594" "ymfR" ["ymfR", "b1150", "ECK1136"] 1205549 1205731 "+" "G6594_RNA" +"G6595" "beeE" ["beeE", "ymfO", "b1151", "ECK1137"] 1205731 1206204 "+" "G6595_RNA" +"G6596" "jayE" ["jayE", "ymfP", "b1152", "ECK1138"] 1206131 1206922 "+" "G6596_RNA" +"G6597" "ymfQ" ["ymfQ", "b1153", "ECK1139"] 1206913 1207497 "+" "G6597_RNA" +"G6598" "tfaP" ["tfaP", "ymfS", "b1155", "ECK1141"] 1208132 1208545 "+" "G6598_RNA" +"G6599" "stfE" ["stfE", "ycfE", "b1157", "ECK1143"] 1209119 1209655 "-" "G6599_RNA" +"G6600" "iraM" ["iraM", "elb1", "ycgW", "elbA", "b1160", "ECK1147"] 1211680 1212003 "-" "G6600_RNA" +"G6601" "ycgX" ["ycgX", "b1161", "ECK1148"] 1212703 1213107 "-" "G6601_RNA" +"G6602" "bluR" ["bluR", "ycgE", "b1162", "ECK1149"] 1213328 1214059 "-" "G6602_RNA" +"G6603" "bluF" ["bluF", "ycgF", "b1163", "ECK1150"] 1214264 1215475 "-" "G6603_RNA" +"G6604" "ycgZ" ["ycgZ", "b1164", "ECK1151"] 1215789 1216025 "+" "G6604_RNA" +"G6605" "ymgA" ["ymgA", "b1165", "ECK1152"] 1216068 1216340 "+" "G6605_RNA" +"G6606" "ariR" ["ariR", "ymgB", "b1166", "ECK1153"] 1216369 1216635 "+" "G6606_RNA" +"G6607" "ymgC" ["ymgC", "b1167", "ECK1154"] 1216748 1216996 "+" "G6607_RNA" +"G6608" "pdeG" ["pdeG", "ycgG", "b1168", "ECK1155"] 1217328 1218851 "+" "G6608_RNA" +"G6609" "ycgH" ["ycgH", "b1169", "b1170", "b4491", "ECK1157"] 1219601 1222248 "+" "G6609_RNA" +"G6611" "ymgD" ["ymgD", "b1171", "ECK1158"] 1222305 1222634 "-" "G6611_RNA" +"G6612" "ymgG" ["ymgG", "b1172", "ECK1159"] 1222644 1222988 "-" "G6612_RNA" +"G6614" "ycgJ" ["ycgJ", "b1177", "ECK1165"] 1226600 1226968 "+" "G6614_RNA" +"G6615" "pliG" ["pliG", "ycgK", "b1178", "ECK1166"] 1227071 1227472 "-" "G6615_RNA" +"G6616" "ycgL" ["ycgL", "b1179", "ECK1167"] 1227681 1228007 "+" "G6616_RNA" +"G6617" "ycgM" ["ycgM", "b1180", "ECK1168"] 1228079 1228738 "+" "G6617_RNA" +"G6618" "ycgN" ["ycgN", "b1181", "ECK1169"] 1228815 1229276 "+" "G6618_RNA" +"G6619" "hlyE" ["hlyE", "ycgD", "clyA", "hpr", "sheA", "b1182", "ECK1170"] 1229483 1230394 "-" "G6619_RNA" +"G6620" "cvrA" ["cvrA", "ycgO", "b1191", "ECK1179"] 1240335 1242071 "-" "G6620_RNA" +"G6621" "ldcA" ["ldcA", "ycgQ", "b1192", "ECK1180"] 1242166 1243080 "-" "G6621_RNA" +"G6622" "emtA" ["emtA", "ycgP", "mltE", "sltZ", "b1193", "ECK1181"] 1243180 1243791 "+" "G6622_RNA" +"G6623" "ycgR" ["ycgR", "b1194", "ECK1182"] 1243793 1244527 "-" "G6623_RNA" +"G6624" "ymgE" ["ymgE", "tag", "b1195", "ECK1183"] 1244728 1244982 "+" "G6624_RNA" +"G6625" "ycgY" ["ycgY", "b1196", "ECK1184"] 1245160 1245600 "+" "G6625_RNA" +"G6626" "dhaL" ["dhaL", "ysgS", "ycgS", "dhaK2", "b1199", "ECK1187"] 1249125 1249757 "-" "G6626_RNA" +"G6627" "dhaK" ["dhaK", "ycgT", "dhaK1", "b1200", "ECK1188"] 1249768 1250838 "-" "G6627_RNA" +"G6628" "dhaR" ["dhaR", "ycgU", "b1201", "ECK1189"] 1251066 1252985 "+" "G6628_RNA" +"G6629" "ycgV" ["ycgV", "b1202", "ECK1190"] 1253085 1255952 "-" "G6629_RNA" +"G6630" "ychQ" ["ychQ", "sirB2", "b1213", "ECK1201"] 1266924 1267316 "+" "G6630_RNA" +"G6631" "ychS" ["ychS", "b1228", "ECK1222"] 1286709 1286984 "+" "G6631_RNA" +"G6632" "insZ" ["insZ", "ychG", "b1240", "b1239", "b4573", "ECK1234"] 1294426 1295322 "-" "G6632_RNA" +"G6633" "yciU" ["yciU", "b1248", "ECK1242"] 1306821 1307150 "-" "G6633_RNA" +"G6634" "yciV" ["yciV", "trpH", "b1266", "ECK1260"] 1323220 1324101 "+" "G6634_RNA" +"G6635" "yciO" ["yciO", "b1267", "ECK1261"] 1324098 1324718 "+" "G6635_RNA" +"G6636" "yciQ" ["yciQ", "yciP", "b1268", "ECK1262"] 1324746 1326641 "+" "G6636_RNA" +"G6637" "lapA" ["lapA", "yciS", "b1279", "ECK1274"] 1340243 1340551 "+" "G6637_RNA" +"G6638" "yciT" ["yciT", "deoT", "b1284", "ECK1279"] 1343597 1344346 "-" "G6638_RNA" +"G6639" "pdeR" ["pdeR", "yciR", "gmr", "b1285", "ECK1280"] 1344757 1346742 "-" "G6639_RNA" +"G6640" "yciW" ["yciW", "b1287", "ECK1282"] 1348980 1350107 "-" "G6640_RNA" +"G6641" "ycjD" ["ycjD", "b1289", "ECK1284"] 1351407 1351760 "-" "G6641_RNA" +"G6642" "ymjA" ["ymjA", "b1295", "ECK1290"] 1357423 1357668 "-" "G6642_RNA" +"G6643" "puuP" ["puuP", "ycjJ", "b1296", "ECK1291"] 1357802 1359187 "-" "G6643_RNA" +"G6644" "puuA" ["puuA", "ycjK", "b1297", "ECK1292"] 1359490 1360908 "-" "G6644_RNA" +"G6645" "puuD" ["puuD", "ycjL", "b1298", "ECK1293"] 1361120 1361884 "+" "G6645_RNA" +"G6646" "puuE" ["puuE", "goaG", "b1302", "ECK1297"] 1365550 1366815 "+" "G6646_RNA" +"G6647" "ycjM" ["ycjM", "ggaP", "b1309", "ECK1304"] 1370216 1371895 "+" "G6647_RNA" +"G6648" "ycjN" ["ycjN", "b1310", "ECK1305"] 1371909 1373201 "+" "G6648_RNA" +"G6649" "ycjO" ["ycjO", "b1311", "ECK1306"] 1373222 1374103 "+" "G6649_RNA" +"G6650" "ycjP" ["ycjP", "b1312", "ECK1307"] 1374090 1374932 "+" "G6650_RNA" +"G6651" "ycjQ" ["ycjQ", "b1313", "ECK1308"] 1374963 1376015 "+" "G6651_RNA" +"G6652" "ycjR" ["ycjR", "dte", "b1314", "ECK1309"] 1376034 1376822 "+" "G6652_RNA" +"G6653" "ycjS" ["ycjS", "b1315", "ECK1310"] 1376832 1377887 "+" "G6653_RNA" +"G6654" "ycjT" ["ycjT", "b1316", "ECK1311"] 1377884 1380151 "+" "G6654_RNA" +"G6655" "ycjU" ["ycjU", "pgmB", "b1317", "ECK1312"] 1380148 1380807 "+" "G6655_RNA" +"G6656" "ycjV" ["ycjV", "b1318", "ECK1313"] 1380821 1381789 "+" "G6656_RNA" +"G6657" "ompG" ["ompG", "b1319", "ECK1315"] 1381947 1382852 "+" "G6657_RNA" +"G6658" "ycjW" ["ycjW", "b1320", "ECK1316"] 1382963 1383961 "-" "G6658_RNA" +"G6659" "ycjX" ["ycjX", "b1321", "ECK1317"] 1384117 1385514 "+" "G6659_RNA" +"G6660" "tpx" ["tpx", "yzzJ", "b1324", "ECK1320"] 1388305 1388811 "-" "G6660_RNA" +"G6661" "ycjG" ["ycjG", "ycjH", "b1325", "ECK1321"] 1388930 1389895 "+" "G6661_RNA" +"G6662" "mpaA" ["mpaA", "ycjI", "b1326", "ECK1322"] 1389870 1390598 "-" "G6662_RNA" +"G6663" "ycjY" ["ycjY", "b1327", "ECK1324"] 1390933 1391853 "-" "G6663_RNA" +"G6664" "pgrR" ["pgrR", "ycjZ", "b1328", "ECK1325"] 1391991 1392890 "+" "G6664_RNA" +"G6665" "mppA" ["mppA", "ynaH", "b1329", "ECK1326"] 1393227 1394840 "+" "G6665_RNA" +"G6666" "ynaI" ["ynaI", "b1330", "ECK1327"] 1394891 1395922 "-" "G6666_RNA" +"G6667" "insH4" ["insH4", "trs5-4", "yi52_4", "b1331", "ECK0261"] 1396112 1397092 "+" "G6667_RNA" +"G6668" "ynaJ" ["ynaJ", "b1332", "ECK1328"] 1397365 1397622 "+" "G6668_RNA" +"G6669" "abgB" ["abgB", "ydaI", "b1337", "ECK1333"] 1401810 1403255 "-" "G6669_RNA" +"G6670" "abgA" ["abgA", "ydaJ", "b1338", "ECK1334"] 1403255 1404565 "-" "G6670_RNA" +"G6671" "abgR" ["abgR", "b1339", "ECK1335"] 1404741 1405649 "+" "G6671_RNA" +"G6672" "smrA" ["smrA", "ydaL", "b1340", "ECK1337"] 1405979 1406542 "+" "G6672_RNA" +"G6673" "dgcM" ["dgcM", "ydaM", "b1341", "ECK1338"] 1406563 1407795 "-" "G6673_RNA" +"G6674" "zntB" ["zntB", "ydaN", "b1342", "ECK1339"] 1408050 1409033 "+" "G6674_RNA" +"G6675" "ttcA" ["ttcA", "ydaO", "b1344", "ECK1341"] 1411013 1411948 "-" "G6675_RNA" +"G6676" "intR" ["intR", "ydaP", "b1345", "ECK1342"] 1412000 1413235 "-" "G6676_RNA" +"G6677" "xisR" ["xisR", "ydaQ", "b1346", "ECK1343"] 1413237 1413452 "-" "G6677_RNA" +"G6678" null ["b1354"] 1419168 1419344 "+" "G6678_RNA" +"G6679" "ydaG" ["ydaG", "gatA", "b1355", "ECK1353"] 1419322 1419456 "-" "G6679_RNA" +"G6680" "racR" ["racR", "rarC", "ydaR", "b1356", "ECK1354"] 1419765 1420241 "-" "G6680_RNA" +"G6681" "ydaS" ["ydaS", "b1357", "ECK1355"] 1420365 1420661 "+" "G6681_RNA" +"G6682" "ydaT" ["ydaT", "b1358", "ECK1356"] 1420684 1421106 "+" "G6682_RNA" +"G6683" "ydaU" ["ydaU", "b1359", "ECK1357"] 1421119 1421976 "+" "G6683_RNA" +"G6684" "ydaV" ["ydaV", "b1360", "ECK1358"] 1421983 1422729 "+" "G6684_RNA" +"G6685" "ydaW" ["ydaW", "b1361", "ECK1359"] 1422752 1423312 "+" "G6685_RNA" +"G6686" "rzpR" ["rzpR", "ydaX", "b1362", "ECK1360"] 1423345 1423644 "+" "G6686_RNA" +"G6687" "b1364" ["b1364", "b1364"] 1425178 1425459 "+" "G6687_RNA" +"G6688" "ynaK" ["ynaK", "b1365", "ECK1363"] 1425377 1425640 "+" "G6688_RNA" +"G6689" "ydaY" ["ydaY", "b1366", "ECK1364"] 1425621 1425980 "+" "G6689_RNA" +"G6690" null ["b1367"] 1426055 1426288 "+" "G6690_RNA" +"G6691" "ynaA" ["ynaA", "tmpR", "b1368", "ECK1365"] 1426454 1427482 "+" "G6691_RNA" +"G6692" "lomR" ["lomR", "b1369", "b1371", "b4570", "ECK1366"] null null "+" "G6692_RNA" +"G6693" "insH5" ["insH5", "yi52_5", "trs5-5", "b1370", "ECK0261"] 1427746 1428726 "-" "G6693_RNA" +"G6695" "stfR" ["stfR", "ynaB", "b1372", "ECK1367"] 1429049 1432411 "+" "G6695_RNA" +"G6696" "tfaR" ["tfaR", "ynaC", "b1373", "ECK1368"] 1432411 1432986 "+" "G6696_RNA" +"G6697" "pinR" ["pinR", "ynaD", "b1374", "ECK1369"] 1433084 1433674 "-" "G6697_RNA" +"G6698" "ynaE" ["ynaE", "b1375", "ECK1370"] 1433991 1434224 "-" "G6698_RNA" +"G6699" "uspF" ["uspF", "yzzL", "ynaF", "UP03", "b1376", "ECK1371"] 1435185 1435619 "-" "G6699_RNA" +"G6700" "ompN" ["ompN", "ynaG", "b1377", "ECK1372"] 1435760 1436893 "-" "G6700_RNA" +"G6701" "ydbK" ["ydbK", "pfo", "b1378", "ECK1374"] 1437260 1440784 "-" "G6701_RNA" +"G6702" "hslJ" ["hslJ", "ydbI", "b1379", "ECK1376"] 1441321 1441743 "-" "G6702_RNA" +"G6703" "ydbH" ["ydbH", "b1381", "ECK1378"] 1443051 1445690 "+" "G6703_RNA" +"G6704" "ynbE" ["ynbE", "b1382", "ECK1379"] 1445687 1445872 "+" "G6704_RNA" +"G6705" "ydbL" ["ydbL", "b1383", "ECK1380"] 1445880 1446206 "+" "G6705_RNA" +"G6706" "feaR" ["feaR", "ydbM", "maoX", "maoB", "b1384", "ECK1381"] 1446378 1447283 "-" "G6706_RNA" +"G6708" "paaZ" ["paaZ", "ydbN", "maoC", "b1387", "ECK1384"] 1451597 1453642 "-" "G6708_RNA" +"G6709" "paaA" ["paaA", "ydbO", "b1388", "ECK1385"] 1453927 1454856 "+" "G6709_RNA" +"G6710" "paaB" ["paaB", "ynbF", "b1389", "ECK1386"] 1454868 1455155 "+" "G6710_RNA" +"G6711" "paaC" ["paaC", "ydbP", "b1390", "ECK1387"] 1455164 1455910 "+" "G6711_RNA" +"G6712" "paaD" ["paaD", "ydbQ", "b1391", "ECK1388"] 1455925 1456422 "+" "G6712_RNA" +"G6713" "paaE" ["paaE", "ydbR", "b1392", "ECK1389"] 1456430 1457500 "+" "G6713_RNA" +"G6714" "paaF" ["paaF", "ydbR", "ydbS", "b1393", "ECK1390"] 1457497 1458264 "+" "G6714_RNA" +"G6715" "paaG" ["paaG", "ydbT", "b1394", "ECK1391"] 1458264 1459052 "+" "G6715_RNA" +"G6716" "paaH" ["paaH", "hbdH", "ydbU", "b1395", "ECK1392"] 1459054 1460481 "+" "G6716_RNA" +"G6717" "paaI" ["paaI", "ydbV", "b1396", "ECK1393"] 1460471 1460893 "+" "G6717_RNA" +"G6718" "paaJ" ["paaJ", "ydbW", "b1397", "ECK1394"] 1460893 1462098 "+" "G6718_RNA" +"G6719" "paaK" ["paaK", "b1398", "ECK1395"] 1462125 1463438 "+" "G6719_RNA" +"G6720" "paaX" ["paaX", "ydbY", "b1399", "ECK1396"] 1463539 1464489 "+" "G6720_RNA" +"G6721" "paaY" ["paaY", "ydbZ", "b1400", "ECK1397"] 1464471 1465061 "+" "G6721_RNA" +"G6722" "ydbA" ["ydbA", "b1401", "b1405", "b4492", "ECK1398"] null null "+" "G6722_RNA" +"G6723" "insD2" ["insD2", "yi22-2", "b1402", "ECK0358"] 1467921 1468826 "-" "G6723_RNA" +"G6724" "insC2" ["insC2", "yi21-2", "b1403", "ECK0357"] 1468784 1469149 "-" "G6724_RNA" +"G6725" "insI2" ["insI2", "tra8-2", "b1404", "ECK0258"] 1469358 1470509 "+" "G6725_RNA" +"G6727" "ynbA" ["ynbA", "b1408", "ECK1401"] 1477621 1478226 "+" "G6727_RNA" +"G6728" "ynbB" ["ynbB", "b1409", "ECK1402"] 1478226 1479122 "+" "G6728_RNA" +"G6729" "ynbC" ["ynbC", "b1410", "ECK1403"] 1479138 1480895 "+" "G6729_RNA" +"G6730" "ynbD" ["ynbD", "b1411", "ECK1404"] 1480909 1482201 "+" "G6730_RNA" +"G6731" "azoR" ["azoR", "acpD", "b1412", "ECK1405"] 1482255 1482860 "-" "G6731_RNA" +"G6732" "hrpA" ["hrpA", "b1413", "ECK1406"] 1483061 1486963 "+" "G6732_RNA" +"G6736" "mokB" ["mokB", "b1420", "ECK1413"] 1491962 1492129 "-" "G6736_RNA" +"G6737" "ydcI" ["ydcI", "b1422", "ECK1416"] 1494148 1495071 "-" "G6737_RNA" +"G6738" "ydcJ" ["ydcJ", "b1423", "ECK1417"] 1495288 1496631 "+" "G6738_RNA" +"G6740" null ["b1425"] 1498432 1498635 "-" "G6740_RNA" +"G6741" "ydcK" ["ydcK", "b1428", "ECK1421"] 1499469 1500449 "-" "G6741_RNA" +"G6742" "ydcL" ["ydcL", "b1431", "ECK1424"] 1502457 1503125 "+" "G6742_RNA" +"G6743" "insQ" ["insQ", "ydcM", "b1432", "ECK1426"] 1503717 1504865 "+" "G6743_RNA" +"G6744" "ydcO" ["ydcO", "b1433", "ECK1427"] 1504905 1506080 "-" "G6744_RNA" +"G6745" "sutR" ["sutR", "ydcN", "b1434", "ECK1428"] 1506172 1506708 "+" "G6745_RNA" +"G6746" "rlhA" ["rlhA", "ydcP", "b1435", "ECK1429"] 1506781 1508742 "+" "G6746_RNA" +"G6747" "yncJ" ["yncJ", "b1436", "ECK1430"] 1508834 1509064 "-" "G6747_RNA" +"G6748" null ["b1437"] 1509250 1509447 "-" "G6748_RNA" +"G6749" "hicB" ["hicB", "ydcQ", "b1438", "ECK1432"] 1509508 1509924 "+" "G6749_RNA" +"G6750" "ydcR" ["ydcR", "b1439", "ECK1433"] 1510003 1511409 "+" "G6750_RNA" +"G6751" "ydcS" ["ydcS", "b1440", "ECK1434"] 1511654 1512799 "+" "G6751_RNA" +"G6752" "ydcT" ["ydcT", "b1441", "ECK1435"] 1512817 1513830 "+" "G6752_RNA" +"G6753" "ydcU" ["ydcU", "b1442", "ECK1436"] 1513831 1514772 "+" "G6753_RNA" +"G6754" "ydcV" ["ydcV", "b1443", "ECK1437"] 1514762 1515556 "+" "G6754_RNA" +"G6755" "patD" ["patD", "prr", "ydcW", "b1444", "ECK1438"] 1515578 1517002 "+" "G6755_RNA" +"G6756" "ortT" ["ortT", "ydcX", "b1445", "ECK1439"] 1517389 1517562 "+" "G6756_RNA" +"G6757" "ydcY" ["ydcY", "b1446", "ECK1440"] 1517648 1517881 "+" "G6757_RNA" +"G6758" "ydcZ" ["ydcZ", "b1447", "ECK1441"] 1517882 1518331 "-" "G6758_RNA" +"G6759" "mnaT" ["mnaT", "yncA", "b1448", "ECK1442"] 1518328 1518846 "-" "G6759_RNA" +"G6760" "curA" ["curA", "yncB", "b1449", "ECK1443"] 1519027 1520064 "+" "G6760_RNA" +"G6761" "mcbR" ["mcbR", "yncC", "b1450", "ECK1444"] 1520262 1520927 "+" "G6761_RNA" +"G6762" "yncD" ["yncD", "b1451", "ECK1445"] 1520963 1523065 "-" "G6762_RNA" +"G6763" "yncE" ["yncE", "b1452", "ECK1446"] 1523307 1524368 "+" "G6763_RNA" +"G6764" "ansP" ["ansP", "yncF", "b1453", "ECK1447"] 1524481 1525980 "-" "G6764_RNA" +"G6765" "yncG" ["yncG", "b1454", "ECK1448"] 1526247 1526864 "+" "G6765_RNA" +"G6766" "yncH" ["yncH", "b1455", "ECK1449"] 1526940 1527152 "+" "G6766_RNA" +"G6767" "yncI" ["yncI", "yncM", "b1458", "ECK1453", "b1459", "ECK1452"] 1530586 1531639 "+" "G6767_RNA" +"G6769" "yddH" ["yddH", "b1462", "ECK1456"] 1533282 1533851 "-" "G6769_RNA" +"G6770" "nhoA" ["nhoA", "yddI", "b1463", "ECK1457"] 1534024 1534869 "+" "G6770_RNA" +"G6771" "yddJ" ["yddJ", "b1470", "ECK1464"] 1544384 1544719 "-" "G6771_RNA" +"G6772" "yddK" ["yddK", "b1471", "ECK1465"] 1544758 1545714 "-" "G6772_RNA" +"G6773" "yddL" ["yddL", "b1472", "ECK1466"] 1545738 1546028 "-" "G6773_RNA" +"G6774" "yddM" ["yddM", "b1477", "ECK1471"] 1552398 1552682 "-" "G6774_RNA" +"G6775" "adhP" ["adhP", "yddN", "b1478", "ECK1472"] 1552828 1553838 "-" "G6775_RNA" +"G6776" "bdm" ["bdm", "yddX", "b1481", "ECK1475"] 1556065 1556280 "-" "G6776_RNA" +"G6777" "ddpF" ["ddpF", "yddO", "b1483", "ECK1477"] 1557112 1558038 "-" "G6777_RNA" +"G6778" "ddpD" ["ddpD", "yddP", "b1484", "ECK1478"] 1558031 1559017 "-" "G6778_RNA" +"G6779" "ddpC" ["ddpC", "yddQ", "b1485", "ECK1479"] 1559014 1559910 "-" "G6779_RNA" +"G6780" "ddpB" ["ddpB", "yddR", "b1486", "ECK1480"] 1559907 1560929 "-" "G6780_RNA" +"G6781" "ddpA" ["ddpA", "yddS", "b1487", "ECK1481"] 1560931 1562481 "-" "G6781_RNA" +"G6782" "ddpX" ["ddpX", "vanX", "yddT", "b1488", "ECK1482"] 1562495 1563076 "-" "G6782_RNA" +"G6783" "dosP" ["dosP", "yddU", "dos", "pdeO", "b1489", "ECK1483"] 1563334 1565733 "-" "G6783_RNA" +"G6784" "dosC" ["dosC", "yddV", "dgcO", "b1490", "ECK1484"] 1565758 1567140 "-" "G6784_RNA" +"G6785" "digH" ["digH", "yddW", "b1491", "ECK1485"] 1567504 1568823 "-" "G6785_RNA" +"G6786" "gadC" ["gadC", "acsA", "xasA", "b1492", "ECK1486"] 1568954 1570489 "-" "G6786_RNA" +"G6787" "ydeM" ["ydeM", "b1497", "ECK1491"] 1579633 1580790 "-" "G6787_RNA" +"G6788" "ydeN" ["ydeN", "b1498", "ECK1492"] 1580842 1582524 "-" "G6788_RNA" +"G6789" "ydeO" ["ydeO", "b1499", "ECK1493"] 1582926 1583687 "-" "G6789_RNA" +"G6790" "safA" ["safA", "yneN", "b1500", "ECK4475"] 1583762 1583959 "-" "G6790_RNA" +"G6791" "ydeP" ["ydeP", "b1501", "ECK1494"] 1584207 1586486 "-" "G6791_RNA" +"G6792" "ydeQ" ["ydeQ", "b1502", "ECK1495"] 1586820 1587734 "-" "G6792_RNA" +"G6793" "ydeR" ["ydeR", "b1503", "ECK1496"] 1587793 1588296 "-" "G6793_RNA" +"G6794" "ydeS" ["ydeS", "b1504", "ECK1497"] 1588309 1588839 "-" "G6794_RNA" +"G6795" "ydeT" ["ydeT", "fmlC", "b1505", "ECK1498"] 1588853 1590001 "-" "G6795_RNA" +"G6796" "yneL" ["yneL", "b1506", "ECK1499"] 1590334 1590536 "-" "G6796_RNA" +"G6798" "lsrK" ["lsrK", "ydeV", "b1511", "ECK1504"] 1598617 1600209 "-" "G6798_RNA" +"G6799" "lsrR" ["lsrR", "ydeW", "b1512", "ECK1505"] 1600288 1601241 "-" "G6799_RNA" +"G6800" "lsrA" ["lsrA", "ego", "ydeX", "b1513", "ECK1506"] 1601490 1603025 "+" "G6800_RNA" +"G6801" "lsrC" ["lsrC", "ydeY", "b1514", "ECK1507"] 1603019 1604047 "+" "G6801_RNA" +"G6802" "lsrD" ["lsrD", "ydeZ", "b1515", "ECK1508"] 1604047 1605039 "+" "G6802_RNA" +"G6803" "lsrB" ["lsrB", "yneA", "b1516", "ECK1509"] 1605051 1606073 "+" "G6803_RNA" +"G6804" "lsrF" ["lsrF", "yneB", "b1517", "ECK1510"] 1606100 1606975 "+" "G6804_RNA" +"G6805" "lsrG" ["lsrG", "yneC", "b1518", "ECK1511"] 1606999 1607289 "+" "G6805_RNA" +"G6806" "tam" ["tam", "yneD", "lsrE", "b1519", "ECK1512"] 1607346 1608104 "+" "G6806_RNA" +"G6807" "yneE" ["yneE", "b1520", "ECK1513"] 1608108 1609022 "-" "G6807_RNA" +"G6808" "dgcF" ["dgcF", "yneF", "b1522", "ECK1515"] 1610907 1611854 "-" "G6808_RNA" +"G6809" "yneG" ["yneG", "b1523", "ECK1516"] 1611966 1612325 "-" "G6809_RNA" +"G6810" "glsB" ["glsB", "yneH", "b1524", "ECK1517"] 1612325 1613251 "-" "G6810_RNA" +"G6811" "sad" ["sad", "yneI", "b1525", "ECK1518"] 1613315 1614703 "-" "G6811_RNA" +"G6812" "yneJ" ["yneJ", "b1526", "ECK1519"] 1614804 1615685 "+" "G6812_RNA" +"G6813" "yneK" ["yneK", "b1527", "ECK1520"] 1615763 1616878 "+" "G6813_RNA" +"G6814" "ydfH" ["ydfH", "b1540", "ECK1533"] 1628352 1629038 "+" "G6814_RNA" +"G6815" "ydfZ" ["ydfZ", "b1541", "ECK1534"] 1629215 1629418 "+" "G6815_RNA" +"G6816" "ydfI" ["ydfI", "b1542", "ECK1535"] 1629453 1630913 "-" "G6816_RNA" +"G6817" "ydfJ" ["ydfJ", "ydfJ_2", "b1543", "ECK1536"] 1631002 1632285 "-" "G6817_RNA" +"G6818" "ydfK" ["ydfK", "b1544", "ECK1537"] 1633072 1633305 "+" "G6818_RNA" +"G6819" "pinQ" ["pinQ", "ydfL", "b1545", "ECK1538"] 1633622 1634212 "+" "G6819_RNA" +"G6820" "tfaQ" ["tfaQ", "ydfM", "b1546", "ECK1539"] 1634310 1634885 "-" "G6820_RNA" +"G6821" "stfQ" ["stfQ", "ydfN", "b1547", "ECK1540"] 1634885 1635847 "-" "G6821_RNA" +"G6822" "ydfO" ["ydfO", "b1549", "ECK1543"] 1637047 1637457 "+" "G6822_RNA" +"G6823" "gnsB" ["gnsB", "ydfY", "b1550", "ECK1544"] 1637609 1637782 "-" "G6823_RNA" +"G6824" "ynfN" ["ynfN", "b1551", "ECK1545"] 1637954 1638109 "-" "G6824_RNA" +"G6825" "cspI" ["cspI", "cspJ", "b1552", "ECK1546"] 1638455 1638667 "-" "G6825_RNA" +"G6826" "rzpQ" ["rzpQ", "ydfP", "b1553", "ECK1547"] 1639030 1639527 "-" "G6826_RNA" +"G6827" "rrrQ" ["rrrQ", "ydfQ", "b1554", "ECK1548"] 1639524 1640057 "-" "G6827_RNA" +"G6828" "ydfR" ["ydfR", "b1555", "ECK1549"] 1640054 1640365 "-" "G6828_RNA" +"G6829" "essQ" ["essQ", "ydfS", "b1556", "ECK1550"] 1640370 1640585 "-" "G6829_RNA" +"G6830" "ydfT" ["ydfT", "quuQ", "b1559", "ECK1553"] 1642489 1643241 "-" "G6830_RNA" +"G6831" "ydfU" ["ydfU", "b1560", "ECK1554"] 1643255 1644304 "-" "G6831_RNA" +"G6832" "ydfV" ["ydfV", "b1565", "ECK1559"] 1645897 1646202 "+" "G6832_RNA" +"G6833" "flxA" ["flxA", "b1566", "ECK1560"] 1646405 1646737 "+" "G6833_RNA" +"G6834" "ydfW" ["ydfW", "intK", "b1567", "ECK1561"] 1647174 1647323 "-" "G6834_RNA" +"G6835" "ydfX" ["ydfX", "b1568", "ECK1562"] 1647346 1647636 "-" "G6835_RNA" +"G6836" "insD7" ["insD7", "insD", "b1578", "ECK1572"] 1650881 1651537 "+" "G6836_RNA" +"G6837" "intQ" ["intQ", "b1579", "ECK1573"] 1651512 1652708 "+" "G6837_RNA" +"G6838" "rspB" ["rspB", "b1580", "ECK1575"] 1652896 1653915 "-" "G6838_RNA" +"G6839" "rspA" ["rspA", "b1581", "ECK1576"] 1653927 1655141 "-" "G6839_RNA" +"G6840" "ynfA" ["ynfA", "b1582", "ECK1577"] 1655347 1655673 "-" "G6840_RNA" +"G6841" "ynfB" ["ynfB", "b1583", "ECK1578"] 1655808 1656149 "+" "G6841_RNA" +"G6842" "speG" ["speG", "b1584", "ECK1579"] 1656184 1656744 "+" "G6842_RNA" +"G6843" "ynfC" ["ynfC", "b1585", "ECK1580"] 1656747 1657457 "-" "G6843_RNA" +"G6844" "ynfD" ["ynfD", "b1586", "ECK1581"] 1657565 1657870 "+" "G6844_RNA" +"G6845" "ynfE" ["ynfE", "b1587", "ECK1582"] 1658069 1660495 "+" "G6845_RNA" +"G6846" "ynfF" ["ynfF", "b1588", "ECK1583"] 1660556 1662979 "+" "G6846_RNA" +"G6847" "ynfG" ["ynfG", "b1589", "ECK1584"] 1662990 1663607 "+" "G6847_RNA" +"G6848" "ynfH" ["ynfH", "b1590", "ECK1585"] 1663609 1664463 "+" "G6848_RNA" +"G6849" "dmsD" ["dmsD", "ynfI", "b1591", "ECK1586"] 1664506 1665120 "+" "G6849_RNA" +"G6850" "clcB" ["clcB", "ynfJ", "mriT", "b1592", "ECK1587"] 1665315 1666571 "+" "G6850_RNA" +"G6851" "ynfK" ["ynfK", "b1593", "ECK1588"] 1666524 1667219 "-" "G6851_RNA" +"G6852" "mlc" ["mlc", "dgsA", "b1594", "ECK1589"] 1667344 1668564 "-" "G6852_RNA" +"G6853" "ynfL" ["ynfL", "b1595", "ECK1590"] 1668699 1669592 "-" "G6853_RNA" +"G6854" "ynfM" ["ynfM", "yzyC", "b1596", "ECK1591"] 1669699 1670952 "+" "G6854_RNA" +"G6855" "asr" ["asr", "b1597", "ECK1592"] 1671376 1671684 "+" "G6855_RNA" +"G6856" "ydgD" ["ydgD", "b1598", "ECK1593"] 1671960 1672781 "+" "G6856_RNA" +"G6857" "mdtI" ["mdtI", "ydgE", "b1599", "ECK1594"] 1672820 1673149 "-" "G6857_RNA" +"G6858" "mdtJ" ["mdtJ", "ydgF", "b1600", "ECK1595"] 1673136 1673501 "-" "G6858_RNA" +"G6859" "tqsA" ["tqsA", "ydgG", "b1601", "ECK1596"] 1673913 1674947 "+" "G6859_RNA" +"G6860" "ydgH" ["ydgH", "b1604", "ECK1599"] 1678427 1679371 "+" "G6860_RNA" +"G6861" "ydgI" ["ydgI", "arcD", "b1605", "ECK1600"] 1679557 1680939 "+" "G6861_RNA" +"G6862" "folM" ["folM", "ydgB", "b1606", "ECK1601"] 1680976 1681698 "+" "G6862_RNA" +"G6863" "ydgC" ["ydgC", "b1607", "ECK1602"] 1681695 1682030 "-" "G6863_RNA" +"G6864" "rstA" ["rstA", "urpT", "b1608", "ECK1603"] 1682159 1682878 "+" "G6864_RNA" +"G6865" "ydgA" ["ydgA", "b1614", "ECK1609"] 1689852 1691360 "+" "G6865_RNA" +"G6866" "uidC" ["uidC", "gusC", "b1615", "ECK1610"] 1691586 1692851 "-" "G6866_RNA" +"G6867" "uidR" ["uidR", "gusR", "b1618", "ECK1613"] 1696462 1697052 "-" "G6867_RNA" +"G6868" "ydgJ" ["ydgJ", "b1624", "ECK1619"] 1703268 1704308 "-" "G6868_RNA" +"G6869" "cnu" ["cnu", "ydgT", "b1625", "ECK1621"] 1704949 1705164 "+" "G6869_RNA" +"G6870" "ydgK" ["ydgK", "rsxP", "b1626", "ECK1622"] 1705250 1705690 "+" "G6870_RNA" +"G6871" "rsxA" ["rsxA", "ydgL", "b1627", "ECK1623"] 1705767 1706348 "+" "G6871_RNA" +"G6872" "rsxB" ["rsxB", "ydgM", "b1628", "ECK1624"] 1706348 1706926 "+" "G6872_RNA" +"G6873" "rsxC" ["rsxC", "ydgN", "b1629", "ECK1625"] 1706919 1709141 "+" "G6873_RNA" +"G6874" "rsxD" ["rsxD", "ydgO", "b1630", "ECK1626"] 1709142 1710200 "+" "G6874_RNA" +"G6875" "rsxG" ["rsxG", "ydgP", "b1631", "ECK1627"] 1710204 1710824 "+" "G6875_RNA" +"G6876" "rsxE" ["rsxE", "ydgQ", "b1632", "ECK1628"] 1710828 1711523 "+" "G6876_RNA" +"G6877" "dtpA" ["dtpA", "ydgR", "tppB", "b1634", "ECK1630"] 1712769 1714271 "+" "G6877_RNA" +"G6878" "gstA" ["gstA", "gst", "b1635", "ECK1631"] 1714377 1714982 "+" "G6878_RNA" +"G6879" "pdxY" ["pdxY", "ydgS", "b1636", "ECK1632"] 1715026 1715889 "-" "G6879_RNA" +"G6880" "anmK" ["anmK", "ydhH", "b1640", "ECK1636"] 1718493 1719602 "-" "G6880_RNA" +"G6881" "slyB" ["slyB", "b1641", "ECK1637"] 1719876 1720343 "+" "G6881_RNA" +"G6882" "slyA" ["slyA", "b1642", "ECK1638"] 1720390 1720824 "-" "G6882_RNA" +"G6883" "ydhI" ["ydhI", "b1643", "ECK1639"] 1721025 1721261 "+" "G6883_RNA" +"G6884" "ydhJ" ["ydhJ", "b1644", "ECK1640"] 1721264 1722121 "+" "G6884_RNA" +"G6885" "ydhK" ["ydhK", "b1645", "ECK1641"] 1722121 1724133 "+" "G6885_RNA" +"G6886" "sodC" ["sodC", "b1646", "ECK1642"] 1724134 1724655 "-" "G6886_RNA" +"G6887" "ydhF" ["ydhF", "b1647", "ECK1643"] 1724736 1725632 "-" "G6887_RNA" +"G6888" "ydhL" ["ydhL", "b1648", "ECK1644"] 1725681 1725920 "-" "G6888_RNA" +"G6889" "nemR" ["nemR", "ydhM", "b1649", "ECK1645"] 1726023 1726622 "+" "G6889_RNA" +"G6890" "nemA" ["nemA", "ydhN", "b1650", "ECK1646"] 1726659 1727756 "+" "G6890_RNA" +"G6891" "gloA" ["gloA", "b1651", "ECK1647"] 1727837 1728244 "+" "G6891_RNA" +"G6892" "mepH" ["mepH", "ydhO", "b1655", "ECK1651"] 1734435 1735250 "+" "G6892_RNA" +"G6893" "ydhP" ["ydhP", "b1657", "ECK1653"] 1736121 1737290 "-" "G6893_RNA" +"G6894" "ydhQ" ["ydhQ", "b1664", "ECK1660"] 1744871 1746127 "-" "G6894_RNA" +"G6895" "ydhR" ["ydhR", "b1667", "ECK1663"] 1746700 1747005 "+" "G6895_RNA" +"G6896" "ydhS" ["ydhS", "b1668", "ECK1664"] 1747131 1748735 "+" "G6896_RNA" +"G6897" "ydhT" ["ydhT", "b1669", "ECK1665"] 1748747 1749559 "-" "G6897_RNA" +"G6898" "ydhU" ["ydhU", "b1670", "ECK1666"] 1749563 1750348 "-" "G6898_RNA" +"G6899" "ydhX" ["ydhX", "b1671", "ECK1667"] 1750345 1751013 "-" "G6899_RNA" +"G6900" "ydhW" ["ydhW", "b1672", "ECK1668"] 1751077 1751724 "-" "G6900_RNA" +"G6901" "ydhV" ["ydhV", "b1673", "ECK1669"] 1751728 1753830 "-" "G6901_RNA" +"G6902" "ydhY" ["ydhY", "b1674", "ECK1670"] 1753851 1754477 "-" "G6902_RNA" +"G6903" "fumD" ["fumD", "ydhZ", "b1675", "ECK1671"] 1754932 1755141 "-" "G6903_RNA" +"G6904" "ldtE" ["ldtE", "ynhG", "b1678", "ECK1674"] 1757721 1758725 "-" "G6904_RNA" +"G6905" "sufE" ["sufE", "ynhA", "b1679", "ECK1675"] 1758874 1759290 "-" "G6905_RNA" +"G6906" "sufS" ["sufS", "csdB", "ynhB", "b1680", "ECK1676"] 1759303 1760523 "-" "G6906_RNA" +"G6907" "sufD" ["sufD", "ynhC", "b1681", "ECK1677"] 1760520 1761791 "-" "G6907_RNA" +"G6908" "sufC" ["sufC", "ynhD", "b1682", "ECK1678"] 1761766 1762512 "-" "G6908_RNA" +"G6909" "sufB" ["sufB", "ynhE", "b1683", "ECK1679"] 1762522 1764009 "-" "G6909_RNA" +"G6911" "ydiH" ["ydiH", "b1685", "ECK1682"] 1764934 1765122 "-" "G6911_RNA" +"G6912" "menI" ["menI", "ydiI", "b1686", "ECK1683"] 1765222 1765632 "-" "G6912_RNA" +"G6913" "ydiJ" ["ydiJ", "b1687", "ECK1684"] 1765629 1768685 "-" "G6913_RNA" +"G6914" "ydiK" ["ydiK", "b1688", "ECK1685"] 1769074 1770186 "+" "G6914_RNA" +"G6915" "ydiL" ["ydiL", "b1689", "ECK1687"] 1770615 1770971 "+" "G6915_RNA" +"G6916" "ydiM" ["ydiM", "b1690", "ECK1688"] 1771071 1772285 "+" "G6916_RNA" +"G6917" "ydiN" ["ydiN", "b1691", "ECK1689"] 1772512 1773777 "+" "G6917_RNA" +"G6918" "ydiO" ["ydiO", "b1695", "ECK1693"] 1777196 1778347 "+" "G6918_RNA" +"G6919" "ydiP" ["ydiP", "b1696", "ECK1694"] 1778390 1779301 "-" "G6919_RNA" +"G6920" "ydiQ" ["ydiQ", "b1697", "ECK1695"] 1779617 1780381 "+" "G6920_RNA" +"G6921" "ydiR" ["ydiR", "b1698", "ECK1696"] 1780401 1781339 "+" "G6921_RNA" +"G6922" "ydiS" ["ydiS", "b1699", "ECK1697"] 1781395 1782684 "+" "G6922_RNA" +"G6923" "ydiT" ["ydiT", "b1700", "ECK1698"] 1782681 1782974 "+" "G6923_RNA" +"G6924" "selO" ["selO", "ydiU", "b1706", "ECK1704"] 1789808 1791244 "-" "G6924_RNA" +"G6925" "rflP" ["rflP", "ydiV", "b1707", "ECK1705"] 1791307 1792020 "-" "G6925_RNA" +"G6926" "arpB" ["arpB", "ydiW", "ydiX", "b1721", "b1720", "b4494", "ECK1718"] 1803094 1804993 "+" "G6926_RNA" +"G6928" "ydiY" ["ydiY", "b1722", "ECK1720"] 1805325 1806083 "-" "G6928_RNA" +"G6929" "ydiZ" ["ydiZ", "b1724", "ECK1722"] 1807400 1807690 "+" "G6929_RNA" +"G6930" "yniA" ["yniA", "b1725", "ECK1723"] 1807796 1808656 "+" "G6930_RNA" +"G6931" "yniB" ["yniB", "b1726", "ECK1724"] 1808697 1809233 "-" "G6931_RNA" +"G6932" "hxpB" ["hxpB", "yniC", "b1727", "ECK1725"] 1809380 1810048 "+" "G6932_RNA" +"G6933" "ydjM" ["ydjM", "b1728", "ECK1726"] 1810211 1810801 "+" "G6933_RNA" +"G6934" "tcyP" ["tcyP", "ydjN", "b1729", "ECK1727"] 1810934 1812325 "+" "G6934_RNA" +"G6935" "ydjO" ["ydjO", "b1730", "ECK1728"] 1812329 1813132 "-" "G6935_RNA" +"G6936" "cedA" ["cedA", "ydjP", "b1731", "ECK1729"] 1813421 1813663 "-" "G6936_RNA" +"G6937" "cho" ["cho", "ydjQ", "b1741", "ECK1739"] 1823515 1824402 "+" "G6937_RNA" +"G6938" "ves" ["ves", "ydjR", "b1742", "ECK1740"] 1824362 1824937 "-" "G6938_RNA" +"G6939" "spy" ["spy", "b1743", "ECK1741"] 1825140 1825625 "-" "G6939_RNA" +"G6940" "astE" ["astE", "ydjS", "b1744", "ECK1742"] 1825955 1826923 "-" "G6940_RNA" +"G6941" "astB" ["astB", "ydjT", "b1745", "ECK1743"] 1826916 1828259 "-" "G6941_RNA" +"G6942" "astD" ["astD", "ydjU", "b1746", "ECK1744"] 1828256 1829734 "-" "G6942_RNA" +"G6943" "astA" ["astA", "ydjV", "b1747", "ECK1745"] 1829731 1830765 "-" "G6943_RNA" +"G6944" "astC" ["astC", "ydjW", "argM", "cstC", "b1748", "ECK1746"] 1830762 1831982 "-" "G6944_RNA" +"G6945" "ydjX" ["ydjX", "b1750", "ECK1748"] 1833401 1834111 "+" "G6945_RNA" +"G6946" "ydjY" ["ydjY", "b1751", "ECK1749"] 1834116 1834793 "+" "G6946_RNA" +"G6947" "ydjZ" ["ydjZ", "b1752", "ECK1750"] 1834808 1835515 "+" "G6947_RNA" +"G6948" "ynjA" ["ynjA", "b1753", "ECK1751"] 1835515 1836063 "+" "G6948_RNA" +"G6949" "ynjB" ["ynjB", "b1754", "ECK1752"] 1836073 1837239 "+" "G6949_RNA" +"G6950" "ynjC" ["ynjC", "b1755", "ECK1753"] 1837212 1838747 "+" "G6950_RNA" +"G6951" "ynjD" ["ynjD", "b1756", "ECK1754"] 1838747 1839400 "+" "G6951_RNA" +"G6952" "ynjE" ["ynjE", "b1757", "ECK1755"] 1839467 1840774 "+" "G6952_RNA" +"G6953" "ynjF" ["ynjF", "b1758", "ECK1756"] 1840783 1841403 "-" "G6953_RNA" +"G6954" "nudG" ["nudG", "ynjG", "orf135", "b1759", "ECK1757"] 1841490 1841897 "+" "G6954_RNA" +"G6955" "ynjH" ["ynjH", "b1760", "ECK1758"] 1841863 1842135 "-" "G6955_RNA" +"G6956" "ynjI" ["ynjI", "b1762", "ECK1760"] 1843831 1844871 "-" "G6956_RNA" +"G6957" "ydjF" ["ydjF", "b1770", "ECK1768"] 1854096 1854854 "-" "G6957_RNA" +"G6958" "ydjG" ["ydjG", "b1771", "ECK1769"] 1854991 1855971 "-" "G6958_RNA" +"G6959" "ydjH" ["ydjH", "b1772", "ECK1770"] 1855981 1856928 "-" "G6959_RNA" +"G6960" "ydjI" ["ydjI", "b1773", "ECK1771"] 1856933 1857769 "-" "G6960_RNA" +"G6961" "ydjJ" ["ydjJ", "b1774", "ECK1772"] 1857790 1858833 "-" "G6961_RNA" +"G6962" "ydjK" ["ydjK", "b1775", "ECK1773"] 1858850 1860229 "-" "G6962_RNA" +"G6963" "ydjL" ["ydjL", "b1776", "ECK1774"] 1860256 1861332 "-" "G6963_RNA" +"G6964" "yeaC" ["yeaC", "b1777", "ECK1775"] 1861702 1861974 "-" "G6964_RNA" +"G6966" "yeaD" ["yeaD", "yzzQ", "b1780", "ECK1778"] 1863850 1864734 "+" "G6966_RNA" +"G6967" "yeaE" ["yeaE", "b1781", "ECK1779"] 1864782 1865636 "-" "G6967_RNA" +"G6968" "mipA" ["mipA", "yeaF", "b1782", "ECK1780"] 1865726 1866472 "-" "G6968_RNA" +"G6969" "yeaG" ["yeaG", "b1783", "ECK1781"] 1866908 1868842 "+" "G6969_RNA" +"G6970" "yeaH" ["yeaH", "b1784", "ECK1782"] 1868955 1870238 "+" "G6970_RNA" +"G6971" "cdgI" ["cdgI", "yeaI", "b1785", "ECK1783"] 1870385 1871860 "+" "G6971_RNA" +"G6972" "dgcJ" ["dgcJ", "yeaJ", "b1786", "ECK1784"] 1872041 1873531 "+" "G6972_RNA" +"G6973" "yeaK" ["yeaK", "b1787", "ECK1785"] 1873574 1874077 "+" "G6973_RNA" +"G6974" "yoaI" ["yoaI", "b1788", "ECK1786"] 1874078 1874182 "-" "G6974_RNA" +"G6975" "yeaL" ["yeaL", "b1789", "ECK1787"] 1874352 1874798 "+" "G6975_RNA" +"G6976" "nimR" ["nimR", "yeaM", "b1790", "ECK1788"] 1874755 1875576 "-" "G6976_RNA" +"G6977" "nimT" ["nimT", "yeaN", "b1791", "ECK1789"] 1875673 1876854 "+" "G6977_RNA" +"G6978" "yeaO" ["yeaO", "b1792", "ECK1790"] 1876909 1877256 "+" "G6978_RNA" +"G6979" "yoaF" ["yoaF", "b1793", "ECK1791"] 1877278 1877532 "-" "G6979_RNA" +"G6980" "dgcP" ["dgcP", "yeaP", "b1794", "ECK1792"] 1877715 1878740 "+" "G6980_RNA" +"G6981" "yeaQ" ["yeaQ", "b1795", "ECK1793"] 1879007 1879255 "-" "G6981_RNA" +"G6982" "yoaG" ["yoaG", "b1796", "ECK1794"] 1879403 1879585 "-" "G6982_RNA" +"G6983" "yeaR" ["yeaR", "b1797", "ECK1795"] 1879589 1879948 "-" "G6983_RNA" +"G6984" "leuE" ["leuE", "yeaS", "b1798", "ECK1796"] 1880121 1880759 "-" "G6984_RNA" +"G6985" "dmlR" ["dmlR", "yeaT", "b1799", "ECK1797"] 1880886 1881809 "-" "G6985_RNA" +"G6986" "dmlA" ["dmlA", "ttuC", "yeaU", "b1800", "ECK1798"] 1881912 1882997 "+" "G6986_RNA" +"G6987" "yeaV" ["yeaV", "b1801", "ECK1799"] 1883188 1884633 "+" "G6987_RNA" +"G6988" "yeaW" ["yeaW", "b1802", "ECK1800"] 1884665 1885789 "+" "G6988_RNA" +"G6989" "yeaX" ["yeaX", "b1803", "ECK1801"] 1885845 1886810 "+" "G6989_RNA" +"G6990" "yeaY" ["yeaY", "b1806", "ECK1804"] 1889951 1890532 "-" "G6990_RNA" +"G6991" "tsaB" ["tsaB", "yeaZ", "b1807", "ECK1805"] 1890572 1891267 "-" "G6991_RNA" +"G6992" "yoaA" ["yoaA", "b1808", "ECK1806"] 1891325 1893235 "-" "G6992_RNA" +"G6993" "yoaB" ["yoaB", "b1809", "ECK1807"] 1893367 1893711 "+" "G6993_RNA" +"G6994" "yoaC" ["yoaC", "b1810", "ECK1808"] 1894133 1894432 "+" "G6994_RNA" +"G6995" "yoaH" ["yoaH", "b1811", "ECK1809"] 1894552 1894731 "-" "G6995_RNA" +"G6996" "pdeD" ["pdeD", "yoaD", "b1815", "ECK1813"] 1898427 1900025 "+" "G6996_RNA" +"G6997" "yoaE" ["yoaE", "borG", "b1816", "ECK1814"] 1900029 1901585 "-" "G6997_RNA" +"G6998" "yobD" ["yobD", "b1820", "ECK1818"] 1904801 1905259 "+" "G6998_RNA" +"G6999" "mntP" ["mntP", "yebN", "b1821", "ECK1819"] 1905688 1906254 "+" "G6999_RNA" +"G7000" "yobF" ["yobF", "b1824", "ECK1822"] 1907448 1907591 "-" "G7000_RNA" +"G7001" "yebO" ["yebO", "b1825", "ECK1823"] 1908261 1908548 "-" "G7001_RNA" +"G7002" "mgrB" ["mgrB", "yobG", "b1826", "ECK1824"] 1908623 1908766 "-" "G7002_RNA" +"G7003" "kdgR" ["kdgR", "yebP", "b1827", "ECK1826"] 1909308 1910099 "-" "G7003_RNA" +"G7004" "yebQ" ["yebQ", "b1828", "ECK1827"] 1910276 1911649 "+" "G7004_RNA" +"G7005" "msrC" ["msrC", "yebR", "b1832", "ECK1831"] 1915631 1916128 "-" "G7005_RNA" +"G7006" "letA" ["letA", "yebS", "b1833", "ECK1832"] 1916258 1917541 "+" "G7006_RNA" +"G7007" "letB" ["letB", "yebT", "b1834", "ECK1833"] 1917510 1920143 "+" "G7007_RNA" +"G7008" "rsmF" ["rsmF", "yebU", "b1835", "ECK1834"] 1920223 1921662 "+" "G7008_RNA" +"G7009" "yebV" ["yebV", "b1836", "ECK1835"] 1921780 1922016 "+" "G7009_RNA" +"G7010" "yebW" ["yebW", "b1837", "ECK1836"] 1922121 1922312 "+" "G7010_RNA" +"G7011" "pphA" ["pphA", "yebX", "prpA", "b1838", "ECK1837"] 1922313 1922969 "-" "G7011_RNA" +"G7012" "yebY" ["yebY", "b1839", "ECK1840"] 1923365 1923706 "-" "G7012_RNA" +"G7013" "yebZ" ["yebZ", "b1840", "ECK1841"] 1923719 1924591 "-" "G7013_RNA" +"G7014" "yobA" ["yobA", "b1841", "ECK1842"] 1924595 1924969 "-" "G7014_RNA" +"G7015" "yobB" ["yobB", "b1843", "ECK1844"] 1925440 1926096 "+" "G7015_RNA" +"G7016" "exoX" ["exoX", "yobC", "b1844", "ECK1845"] 1926120 1926782 "+" "G7016_RNA" +"G7017" "znuA" ["znuA", "yzzP", "yebL", "b1857", "ECK1858"] 1941651 1942583 "-" "G7017_RNA" +"G7018" "znuC" ["znuC", "yebM", "b1858", "ECK1859"] 1942662 1943417 "+" "G7018_RNA" +"G7019" "yecN" ["yecN", "b1869", "ECK1870"] 1952266 1952661 "+" "G7019_RNA" +"G7020" "cmoA" ["cmoA", "yecO", "b1870", "ECK1871"] 1952702 1953445 "+" "G7020_RNA" +"G7021" "cmoB" ["cmoB", "yecP", "b1871", "ECK1872"] 1953442 1954413 "+" "G7021_RNA" +"G7022" "torZ" ["torZ", "bisZ", "b1872", "ECK1873"] 1954578 1957007 "-" "G7022_RNA" +"G7023" "torY" ["torY", "yecK", "b1873", "ECK1874"] 1957032 1958132 "-" "G7023_RNA" +"G7024" "cutC" ["cutC", "b1874", "ECK1875"] 1958520 1959266 "-" "G7024_RNA" +"G7025" "yecM" ["yecM", "yecL", "b1875", "ECK1876"] 1959280 1959846 "-" "G7025_RNA" +"G7026" "yecT" ["yecT", "b1877", "ECK1878"] 1961972 1962460 "+" "G7026_RNA" +"G7027" "flhE" ["flhE", "b1878", "ECK1879"] 1962580 1962972 "-" "G7027_RNA" +"G7028" "flhB" ["flhB", "yecQ", "flaG", "b1880", "ECK1881"] 1965043 1966191 "-" "G7028_RNA" +"G7029" "insB5" ["insB5", "b1893", "ECK0022"] 1978518 1979021 "-" "G7029_RNA" +"G7030" "insA5" ["insA5", "b1894", "ECK0023"] 1978940 1979215 "-" "G7030_RNA" +"G7031" "uspC" ["uspC", "yecG", "b1895", "ECK1894"] 1979753 1980181 "+" "G7031_RNA" +"G7033" "ftnB" ["ftnB", "yecI", "b1902", "ECK1900"] 1986925 1987428 "+" "G7033_RNA" +"G7034" null ["b1903"] 1987444 1987782 "+" "G7034_RNA" +"G7035" "yecR" ["yecR", "b1904", "ECK1903"] 1988222 1988545 "+" "G7035_RNA" +"G7036" "yecH" ["yecH", "b1906", "ECK1905"] 1989251 1989490 "-" "G7036_RNA" +"G7037" "tcyL" ["tcyL", "yecS", "b1918", "ECK1917"] 1997811 1998479 "-" "G7037_RNA" +"G7038" "dcyD" ["dcyD", "yedO", "b1919", "ECK1918"] 1998494 1999480 "-" "G7038_RNA" +"G7039" "tcyJ" ["tcyJ", "yzzR", "ssi7", "fliY", "b1920", "ECK1919"] 1999585 2000385 "-" "G7039_RNA" +"G7040" "yedL" ["yedL", "b1932", "ECK1931"] 2010600 2011079 "+" "G7040_RNA" +"G7043" "yedN" ["yedN", "b1934", "yedM", "b1935", "ECK1933", "b1933", "b4495", "ECK1932"] 2011223 2012351 "-" "G7043_RNA" +"G7044" "intG" ["intG", "b1936", "ECK1934"] 2012502 2012780 "+" "G7044_RNA" +"G7045" "dsrB" ["dsrB", "b1952", "ECK1950"] 2024635 2024823 "-" "G7045_RNA" +"G7046" "yodD" ["yodD", "b1953", "ECK1951"] 2024986 2025213 "+" "G7046_RNA" +"G7047" "dsrA" ["dsrA", "b1954", "ECK1952"] 2025223 2025313 "-" "DSRA-RNA" +"G7048" "yedP" ["yedP", "b1955", "ECK1953"] 2025511 2026326 "+" "G7048_RNA" +"G7049" "dgcQ" ["dgcQ", "yedQ", "b1956", "ECK1954"] 2026323 2028017 "-" "G7049_RNA" +"G7050" "yodC" ["yodC", "b1957", "ECK1955"] 2028188 2028370 "-" "G7050_RNA" +"G7051" "drpB" ["drpB", "yedR", "b1963", "ECK1961"] 2033119 2033421 "-" "G7051_RNA" +"G7052" "yedS" ["yedS", "b1964", "yedT", "b1965", "b1966", "b4496", "ECK1962"] 2034051 2035243 "+" "G7052_RNA" +"G7055" "hchA" ["hchA", "yzzC", "yedU", "b1967", "ECK1963"] 2035835 2036686 "+" "G7055_RNA" +"G7056" "hprS" ["hprS", "yedV", "b1968", "ECK1964"] 2036794 2038152 "-" "G7056_RNA" +"G7057" "hprR" ["hprR", "yedW", "b1969", "ECK1965"] 2038152 2038823 "-" "G7057_RNA" +"G7058" "hiuH" ["hiuH", "yedX", "b1970", "ECK1966"] 2038956 2039369 "+" "G7058_RNA" +"G7059" "msrP" ["msrP", "yedY", "b1971", "ECK1967"] 2039478 2040482 "+" "G7059_RNA" +"G7060" "msrQ" ["msrQ", "yedZ", "b1972", "ECK1968"] 2040483 2041118 "+" "G7060_RNA" +"G7061" "zinT" ["zinT", "yodA", "b1973", "ECK1969"] 2041375 2042025 "+" "G7061_RNA" +"G7062" "yodB" ["yodB", "b1974", "ECK1970"] 2042368 2042898 "+" "G7062_RNA" +"G7063" "mtfA" ["mtfA", "yeeI", "b1976", "ECK1972"] 2043651 2044448 "+" "G7063_RNA" +"G7064" "yeeJ" ["yeeJ", "b1978", "ECK1974"] 2044938 2052014 "+" "G7064_RNA" +"G7066" "yeeL" ["yeeL", "yeeK", "b1980", "b1979", "b4497", "ECK1975"] 2052276 2053328 "-" "G7066_RNA" +"G7067" "shiA" ["shiA", "yeeM", "b1981", "ECK1976"] 2053643 2054959 "+" "G7067_RNA" +"G7068" "yeeN" ["yeeN", "b1983", "ECK1978"] 2056858 2057574 "+" "G7068_RNA" +"G7069" "asnW" ["asnW", "b1984", "ECK1979"] 2058027 2058102 "-" "RNA0-304" +"G7070" "yeeO" ["yeeO", "b1985", "ECK1980"] 2058203 2059846 "-" "G7070_RNA" +"G7071" "cbl" ["cbl", "b1987", "ECK1982"] 2059964 2060914 "-" "G7071_RNA" +"G7072" "nac" ["nac", "b1988", "ECK1983"] 2061016 2061933 "-" "G7072_RNA" +"G7073" "ldtA" ["ldtA", "yzzT", "yeeG", "erfK", "b1990", "ECK1985"] 2062391 2063323 "-" "G7073_RNA" +"G7074" "insH6" ["insH6", "yi52_6", "trs5-6", "b1994", "ECK0261"] 2066305 2067285 "-" "G7074_RNA" +"G7075" "yoeA" ["yoeA", "yoeE", "b1995", "b1998", "ECK1990", "b4582", "ECK1989"] null null "+" "G7075_RNA" +"G7076" "insD3" ["insD3", "yi22-3", "b1996", "ECK0358"] 2068952 2069857 "-" "G7076_RNA" +"G7077" "insC3" ["insC3", "yi21-3", "b1997", "ECK0357"] 2069815 2070180 "-" "G7077_RNA" +"G7079" "yeeP" ["yeeP", "b1999", "ECK1991"] 2070786 2071211 "+" "G7079_RNA" +"G7080" "flu" ["flu", "agn43", "yzzX", "yeeQ", "agn", "b2000", "ECK1993"] 2071539 2074658 "+" "G7080_RNA" +"G7081" "yeeR" ["yeeR", "b2001", "ECK1994"] 2074779 2076311 "+" "G7081_RNA" +"G7082" "yeeS" ["yeeS", "b2002", "ECK1995"] 2076308 2076754 "+" "G7082_RNA" +"G7083" "yeeT" ["yeeT", "b2003", "ECK1996"] 2076817 2077038 "+" "G7083_RNA" +"G7084" "cbeA" ["cbeA", "yeeU", "b2004", "ECK1997"] 2077112 2077480 "+" "G7084_RNA" +"G7085" "cbtA" ["cbtA", "yeeV", "b2005", "ECK1998"] 2077569 2077943 "+" "G7085_RNA" +"G7086" "yeeW" ["yeeW", "b2006", "ECK1999"] 2077940 2078134 "+" "G7086_RNA" +"G7087" "yeeX" ["yeeX", "b2007", "ECK2001"] 2079032 2079361 "-" "G7087_RNA" +"G7088" "yeeY" ["yeeY", "b2015", "ECK2009"] 2087329 2088258 "-" "G7088_RNA" +"G7089" "yeeZ" ["yeeZ", "b2016", "ECK2010"] 2088304 2089128 "-" "G7089_RNA" +"G7090" "wzzB" ["wzzB", "wzz", "rol", "cld", "b2027", "ECK2022"] 2097321 2098301 "-" "G7090_RNA" +"G7091" "ugd" ["ugd", "yefA", "udg", "UDG8", "pmrE", "b2028", "ECK2023"] 2098447 2099613 "-" "G7091_RNA" +"G7092" "insH7" ["insH7", "yi52_7", "trs5-7", "b2030", "ECK0261"] 2101895 2102875 "-" "G7092_RNA" +"G7093" "galF" ["galF", "wcaN", "yefG", "b2042", "ECK2036"] 2113434 2114327 "-" "G7093_RNA" +"G7094" "wcaM" ["wcaM", "yefK", "b2043", "ECK2037"] 2114502 2115896 "-" "G7094_RNA" +"G7095" "wcaL" ["wcaL", "yefL", "b2044", "ECK2038"] 2115907 2117127 "-" "G7095_RNA" +"G7096" "wcaK" ["wcaK", "b2045", "ECK2039"] 2117124 2118404 "-" "G7096_RNA" +"G7097" "wzxC" ["wzxC", "wzx", "b2046", "ECK2040"] 2118680 2120158 "-" "G7097_RNA" +"G7098" "wcaJ" ["wcaJ", "b2047", "ECK2041"] 2120160 2121554 "-" "G7098_RNA" +"G7099" "wcaF" ["wcaF", "b2054", "ECK2048"] 2128340 2128888 "-" "G7099_RNA" +"G7100" "wcaE" ["wcaE", "b2055", "ECK2049"] 2128904 2129650 "-" "G7100_RNA" +"G7101" "wcaD" ["wcaD", "b2056", "ECK2050"] 2129661 2130878 "-" "G7101_RNA" +"G7102" "wcaC" ["wcaC", "b2057", "ECK2051"] 2130853 2132070 "-" "G7102_RNA" +"G7103" "wcaB" ["wcaB", "b2058", "ECK2052"] 2132067 2132555 "-" "G7103_RNA" +"G7104" "wcaA" ["wcaA", "b2059", "ECK2053"] 2132558 2133397 "-" "G7104_RNA" +"G7105" "wzc" ["wzc", "b2060", "ECK2054"] 2133490 2135652 "-" "G7105_RNA" +"G7106" "wzb" ["wzb", "b2061", "ECK2055"] 2135655 2136098 "-" "G7106_RNA" +"G7107" "wza" ["wza", "b2062", "ECK2056"] 2136104 2137243 "-" "G7107_RNA" +"G7108" "yegH" ["yegH", "b2063", "ECK2057"] 2137902 2139485 "+" "G7108_RNA" +"G7109" "yegI" ["yegI", "b2070", "ECK2064"] 2149039 2150985 "-" "G7109_RNA" +"G7110" "yegJ" ["yegJ", "b2071", "ECK2065"] 2151185 2151646 "+" "G7110_RNA" +"G7111" "pphC" ["pphC", "yegK", "b2072", "ECK2066"] 2151711 2152472 "-" "G7111_RNA" +"G7112" "yegL" ["yegL", "b2073", "ECK2067"] 2152469 2153128 "-" "G7112_RNA" +"G7113" "mdtA" ["mdtA", "yegM", "b2074", "ECK2070"] 2154016 2155263 "+" "G7113_RNA" +"G7114" "mdtB" ["mdtB", "yegN", "b2075", "ECK2071"] 2155263 2158385 "+" "G7114_RNA" +"G7115" "mdtC" ["mdtC", "yegO", "b2076", "ECK2072"] 2158386 2161463 "+" "G7115_RNA" +"G7117" "yegP" ["yegP", "b2080", "ECK2076"] 2165189 2165521 "+" "G7117_RNA" +"G7118" "trhP" ["trhP", "yegQ", "b2081", "ECK2077"] 2165668 2167029 "+" "G7118_RNA" +"G7119" "ogrK" ["ogrK", "b2082", "ECK2079"] 2167302 2167520 "-" "G7119_RNA" +"G7120" "yegZ" ["yegZ", "b2083", "ECK2080"] 2167602 2167820 "-" "G7120_RNA" +"G7121" null ["b2084"] 2167735 2168001 "-" "G7121_RNA" +"G7122" "yegR" ["yegR", "b2085", "ECK2081"] 2167989 2168306 "-" "G7122_RNA" +"G7123" "yegS" ["yegS", "b2086", "ECK2082"] 2168712 2169611 "+" "G7123_RNA" +"G7125" "insE5" ["insE5", "b2088", "ECK0298"] 2170236 2170535 "+" "G7125_RNA" +"G7126" "insF5" ["insF5", "tra5-4", "b2089", "ECK0299"] 2170532 2171398 "+" "G7126_RNA" +"G7128" "gatZ" ["gatZ", "b2095", "ECK2088"] 2175059 2176321 "-" "G7128_RNA" +"G7129" "fbaB" ["fbaB", "dhnA", "b2097", "ECK2090"] 2177512 2178564 "-" "G7129_RNA" +"G7130" "yegT" ["yegT", "b2098", "ECK2091"] 2178821 2180098 "+" "G7130_RNA" +"G7131" "yegU" ["yegU", "b2099", "ECK2092"] 2180095 2181099 "+" "G7131_RNA" +"G7132" "yegV" ["yegV", "b2100", "ECK2093"] 2181096 2182061 "+" "G7132_RNA" +"G7133" "yegW" ["yegW", "b2101", "ECK2094"] 2182035 2182781 "-" "G7133_RNA" +"G7134" "yegX" ["yegX", "b2102", "ECK2095"] 2182833 2183651 "-" "G7134_RNA" +"G7135" "thiD" ["thiD", "thiN", "thiA", "thiJ", "b2103", "ECK2096"] 2183716 2184516 "-" "G7135_RNA" +"G7137" "rcnR" ["rcnR", "yohL", "b2105", "ECK2098"] 2185524 2185796 "-" "G7137_RNA" +"G7138" "rcnA" ["rcnA", "yohM", "b2106", "ECK2099"] 2185917 2186741 "+" "G7138_RNA" +"G7139" "rcnB" ["rcnB", "yohN", "b2107", "ECK2100"] 2186960 2187298 "+" "G7139_RNA" +"G7144" "yeiS" ["yeiS", "b2145", "ECK2138"] 2233600 2233839 "+" "G7144_RNA" +"G7145" "preT" ["preT", "yeiT", "b2146", "ECK2139"] 2234033 2235271 "+" "G7145_RNA" +"G7146" "lpxT" ["lpxT", "yeiU", "b2174", "ECK2168"] 2268854 2269567 "+" "G7146_RNA" +"G7147" "mepS" ["mepS", "yeiV", "spr", "b2175", "ECK2169"] 2269979 2270545 "+" "G7147_RNA" +"G7148" "pdeN" ["pdeN", "rtn", "b2176", "ECK2170"] 2270726 2272282 "+" "G7148_RNA" +"G7149" "b2191" ["b2191", "b2191"] 2288905 2289027 "+" "G7149_RNA" +"G7150" "insH8" ["insH8", "trs5-8", "yi52_8", "b2192", "ECK0261"] 2289065 2290045 "-" "G7150_RNA" +"G7152" "yfaP" ["yfaP", "b2225", "ECK2218"] 2327367 2328143 "-" "G7152_RNA" +"G7153" "yfaQ" ["yfaQ", "b2226", "ECK2219"] 2328148 2329797 "-" "G7153_RNA" +"G7155" "yfaS" ["yfaS", "yfaR", "b2228", "b2227", "b4500", "ECK2220"] 2329798 2334402 "-" "G7155_RNA" +"G7156" "yfaT" ["yfaT", "b2229", "ECK2221"] 2334336 2334959 "-" "G7156_RNA" +"G7158" "yfaU" ["yfaU", "b2245", "ECK2238"] 2358042 2358845 "-" "G7158_RNA" +"G7159" "yfaV" ["yfaV", "b2246", "ECK2239"] 2358863 2360152 "-" "G7159_RNA" +"G7160" "rhmD" ["rhmD", "yfaW", "b2247", "ECK2240"] 2360209 2361414 "-" "G7160_RNA" +"G7161" "yfaX" ["yfaX", "b2248", "ECK2241"] 2361429 2362211 "-" "G7161_RNA" +"G7162" "yfaY" ["yfaY", "b2249", "ECK2242"] 2362431 2363633 "-" "G7162_RNA" +"G7163" "yfaZ" ["yfaZ", "b2250", "ECK2243"] 2363733 2364275 "-" "G7163_RNA" +"G7164" "nudI" ["nudI", "yfaO", "b2251", "ECK2244"] 2364554 2364979 "+" "G7164_RNA" +"G7165" "ais" ["ais", "pagH", "pmrG", "b2252", "ECK2245"] 2365018 2365620 "-" "G7165_RNA" +"G7166" "arnB" ["arnB", "pmrH", "yfbE", "b2253", "ECK2246"] 2365910 2367067 "+" "G7166_RNA" +"G7167" "arnC" ["arnC", "pmrF", "yfbF", "b2254", "ECK2247"] 2367071 2368039 "+" "G7167_RNA" +"G7168" "arnA" ["arnA", "SAF", "yfbG", "pmrI", "b2255", "ECK2248"] 2368039 2370021 "+" "G7168_RNA" +"G7169" "arnD" ["arnD", "pmrJ", "yfbH", "b2256", "ECK2249"] 2370018 2370908 "+" "G7169_RNA" +"G7170" "arnT" ["arnT", "yfbI", "pmrK", "b2257", "ECK2250"] 2370908 2372560 "+" "G7170_RNA" +"G7171" "arnF" ["arnF", "yfbJ", "b2258", "ECK2252"] 2372892 2373278 "+" "G7171_RNA" +"G7172" "pmrD" ["pmrD", "b2259", "ECK2253"] 2373272 2373538 "-" "G7172_RNA" +"G7173" "elaB" ["elaB", "yfbD", "b2266", "ECK2260"] 2380722 2381027 "-" "G7173_RNA" +"G7174" "elaA" ["elaA", "yfbC", "b2267", "ECK2261"] 2381082 2381543 "-" "G7174_RNA" +"G7175" "rbn" ["rbn", "zipD", "ecoZ", "rnz", "elaC", "b2268", "ECK2262"] 2381608 2382525 "+" "G7175_RNA" +"G7176" "elaD" ["elaD", "b2269", "ECK2263"] 2382713 2383924 "+" "G7176_RNA" +"G7177" "yfbK" ["yfbK", "b2270", "ECK2264"] 2383995 2385722 "-" "G7177_RNA" +"G7178" "yfbL" ["yfbL", "b2271", "ECK2265"] 2385860 2386831 "+" "G7178_RNA" +"G7179" "yfbM" ["yfbM", "b2272", "ECK2266"] 2386934 2387437 "+" "G7179_RNA" +"G7180" "yfbN" ["yfbN", "b2273", "ECK2267"] 2387710 2388426 "-" "G7180_RNA" +"G7181" "yfbO" ["yfbO", "b2274", "ECK2268"] 2388635 2389057 "+" "G7181_RNA" +"G7182" "yfbP" ["yfbP", "b2275", "ECK2269"] 2389116 2389964 "+" "G7182_RNA" +"G7184" "alaA" ["alaA", "yfbQ", "b2290", "ECK2284"] 2407561 2408778 "+" "G7184_RNA" +"G7185" "yfbR" ["yfbR", "b2291", "ECK2285"] 2408862 2409461 "+" "G7185_RNA" +"G7186" "yfbS" ["yfbS", "b2292", "ECK2286"] 2409520 2411352 "-" "G7186_RNA" +"G7187" "hxpA" ["hxpA", "yfbT", "b2293", "ECK2287"] 2411439 2412089 "-" "G7187_RNA" +"G7188" "yfbU" ["yfbU", "b2294", "ECK2288"] 2412100 2412594 "-" "G7188_RNA" +"G7189" "yfbV" ["yfbV", "b2295", "ECK2289"] 2412677 2413132 "-" "G7189_RNA" +"G7190" "yfcC" ["yfcC", "b2298", "ECK2292"] 2417081 2418601 "+" "G7190_RNA" +"G7191" "yfcD" ["yfcD", "b2299", "ECK2293"] 2418634 2419176 "-" "G7191_RNA" +"G7192" "yfcE" ["yfcE", "b2300", "ECK2294"] 2419234 2419788 "-" "G7192_RNA" +"G7193" "yfcF" ["yfcF", "b2301", "ECK2295"] 2419841 2420485 "-" "G7193_RNA" +"G7194" "yfcG" ["yfcG", "b2302", "ECK2296"] 2420621 2421268 "+" "G7194_RNA" +"G7195" "folX" ["folX", "b2303", "ECK2297"] 2421325 2421687 "+" "G7195_RNA" +"G7196" "yfcH" ["yfcH", "b2304", "ECK2298"] 2421708 2422601 "+" "G7196_RNA" +"G7197" "rpnB" ["rpnB", "yfcI", "b2305", "ECK2299"] 2422649 2423539 "-" "G7197_RNA" +"G7198" "yfcJ" ["yfcJ", "b2322", "ECK2316"] 2438942 2440120 "-" "G7198_RNA" +"G7199" "mnmC" ["mnmC", "yfcK", "trmC", "b2324", "ECK2318"] 2441764 2443770 "+" "G7199_RNA" +"G7200" "yfcL" ["yfcL", "b2325", "ECK2319"] 2443891 2444169 "-" "G7200_RNA" +"G7201" "epmC" ["epmC", "yfcM", "b2326", "ECK2320"] 2444203 2444751 "-" "G7201_RNA" +"G7202" "smrB" ["smrB", "yfcN", "b2331", "ECK2325"] 2448606 2449157 "+" "G7202_RNA" +"G7203" "yfcO" ["yfcO", "b2332", "ECK2326"] 2449228 2450049 "-" "G7203_RNA" +"G7204" "yfcP" ["yfcP", "b2333", "ECK2327"] 2450051 2450590 "-" "G7204_RNA" +"G7205" "yfcQ" ["yfcQ", "b2334", "ECK2328"] 2450587 2451075 "-" "G7205_RNA" +"G7206" "yfcR" ["yfcR", "b2335", "ECK2329"] 2451072 2451584 "-" "G7206_RNA" +"G7207" "yfcS" ["yfcS", "b2336", "ECK2330"] 2451584 2452336 "-" "G7207_RNA" +"G7209" "yfcU" ["yfcU", "ECK2331", "yfcT", "b2338", "b2337", "b4661", "ECK2332"] 2452356 2455001 "-" "G7209_RNA" +"G7210" "yfcV" ["yfcV", "b2339", "ECK2333"] 2455083 2455646 "-" "G7210_RNA" +"G7211" "sixA" ["sixA", "yfcW", "b2340", "ECK2334"] 2456327 2456812 "-" "G7211_RNA" +"G7212" "fadJ" ["fadJ", "yfcX", "b2341", "ECK2335"] 2457015 2459159 "-" "G7212_RNA" +"G7213" "fadI" ["fadI", "yfcY", "b2342", "ECK2336"] 2459159 2460469 "-" "G7213_RNA" +"G7214" "yfcZ" ["yfcZ", "b2343", "ECK2337"] 2460650 2460934 "-" "G7214_RNA" +"G7215" "yfdF" ["yfdF", "b2345", "ECK2339"] 2463012 2464070 "+" "G7215_RNA" +"G7216" "mlaA" ["mlaA", "vacJ", "b2346", "ECK2340"] 2464252 2465007 "-" "G7216_RNA" +"G7217" "yfdC" ["yfdC", "b2347", "ECK2341"] 2465301 2466233 "+" "G7217_RNA" +"G7218" "intS" ["intS", "intC", "yfdB", "b2349", "ECK2343"] 2466545 2467702 "+" "G7218_RNA" +"G7219" "yfdG" ["yfdG", "gtrA", "b2350", "ECK2344"] 2467855 2468217 "+" "G7219_RNA" +"G7220" "yfdH" ["yfdH", "gtrB", "b2351", "ECK2345"] 2468214 2469134 "+" "G7220_RNA" +"G7221" "yfdI" ["yfdI", "gtrS", "gtrIV", "b2352", "ECK2346"] 2469131 2470462 "+" "G7221_RNA" +"G7222" "tfaS" ["tfaS", "yfdJ", "b2353", "ECK2347"] 2470803 2471105 "+" "G7222_RNA" +"G7223" "yfdK" ["yfdK", "b2354", "ECK2348"] 2471077 2471517 "-" "G7223_RNA" +"G7224" "yfdL" ["yfdL", "b2355", "ECK2349"] 2471544 2472062 "-" "G7224_RNA" +"G7225" "yfdM" ["yfdM", "yzyB", "b2356", "ECK2350"] 2472112 2472387 "-" "G7225_RNA" +"G7226" "yfdN" ["yfdN", "yzyA", "b2357", "ECK2351"] 2472387 2472881 "-" "G7226_RNA" +"G7227" "yfdO" ["yfdO", "oweS", "b2358", "ECK2352"] 2472878 2473246 "-" "G7227_RNA" +"G7228" "yfdP" ["yfdP", "b2359", "ECK2353"] 2473604 2473966 "+" "G7228_RNA" +"G7229" "yfdQ" ["yfdQ", "b2360", "ECK2354"] 2474032 2474856 "+" "G7229_RNA" +"G7230" "yfdR" ["yfdR", "b2361", "ECK2355"] 2474984 2475520 "+" "G7230_RNA" +"G7231" "yfdS" ["yfdS", "b2362", "ECK2356"] 2475511 2475873 "+" "G7231_RNA" +"G7232" "yfdT" ["yfdT", "b2363", "ECK2357"] 2475873 2476178 "+" "G7232_RNA" +"G7233" "emrK" ["emrK", "b2368", "ECK2364"] 2482176 2483339 "-" "G7233_RNA" +"G7234" "yfdE" ["yfdE", "b2371", "ECK2367"] 2488023 2489168 "-" "G7234_RNA" +"G7235" "yfdV" ["yfdV", "b2372", "ECK2368"] 2489242 2490186 "-" "G7235_RNA" +"G7236" "oxc" ["oxc", "yfdU", "b2373", "ECK2369"] 2490256 2491950 "-" "G7236_RNA" +"G7237" "frc" ["frc", "yfdW", "b2374", "ECK2370"] 2492004 2493254 "-" "G7237_RNA" +"G7238" "yfdX" ["yfdX", "b2375", "ECK2371"] 2493767 2494402 "-" "G7238_RNA" +"G7239" "ypdI" ["ypdI", "b2376", "ECK2372"] 2494698 2494973 "+" "G7239_RNA" +"G7240" "yfdY" ["yfdY", "b2377", "ECK2373"] 2495050 2495292 "-" "G7240_RNA" +"G7241" "lpxP" ["lpxP", "ddg", "b2378", "ECK2374"] 2495645 2496565 "+" "G7241_RNA" +"G7242" "alaC" ["alaC", "yfdZ", "b2379", "ECK2375"] 2497057 2498295 "-" "G7242_RNA" +"G7243" "pyrS" ["pyrS", "ypdA", "b2380", "ECK2376"] 2498671 2500368 "+" "G7243_RNA" +"G7244" "pyrR" ["pyrR", "ypdB", "b2381", "ECK2377"] 2500383 2501117 "+" "G7244_RNA" +"G7245" "ypdC" ["ypdC", "b2382", "ECK2378"] 2501130 2501987 "+" "G7245_RNA" +"G7246" "fryA" ["fryA", "ypdD", "b2383", "ECK2379"] 2501990 2504485 "-" "G7246_RNA" +"G7247" "ypdE" ["ypdE", "b2384", "ECK2380"] 2504510 2505547 "-" "G7247_RNA" +"G7248" "ypdF" ["ypdF", "b2385", "ECK2381"] 2505547 2506632 "-" "G7248_RNA" +"G7249" "fryC" ["fryC", "ypdG", "b2386", "ECK2382"] 2506647 2507894 "-" "G7249_RNA" +"G7250" "fryB" ["fryB", "ypdH", "b2387", "ECK2383"] 2507916 2508242 "-" "G7250_RNA" +"G7251" "yfeO" ["yfeO", "b2389", "ECK2385"] 2509630 2510886 "+" "G7251_RNA" +"G7252" "ypeC" ["ypeC", "b2390", "ECK2386"] 2511001 2511327 "+" "G7252_RNA" +"G7254" "mntH" ["mntH", "mntA", "yfeP", "b2392", "ECK2387"] 2511468 2512706 "-" "G7254_RNA" +"G7255" "insL3" ["insL3", "yi81-3", "b2394", "ECK0016"] 2514331 2515443 "+" "G7255_RNA" +"G7256" "yfeN" ["yfeN", "b2408", "ECK2402"] 2525127 2525891 "+" "G7256_RNA" +"G7257" "yfeR" ["yfeR", "b2409", "ECK2403"] 2525930 2526856 "-" "G7257_RNA" +"G7258" "zipA" ["zipA", "b2412", "ECK2407"] 2530247 2531233 "-" "G7258_RNA" +"G7259" "pdxK" ["pdxK", "yfeI", "thiJ", "pdxL", "b2418", "ECK2413"] 2536386 2537237 "-" "G7259_RNA" +"G7260" "yfeK" ["yfeK", "b2419", "ECK2414"] 2537342 2537716 "+" "G7260_RNA" +"G7261" "yfeS" ["yfeS", "b2420", "ECK2415"] 2537749 2538483 "+" "G7261_RNA" +"G7262" "murR" ["murR", "yfeT", "b2427", "ECK2422"] 2544752 2545609 "-" "G7262_RNA" +"G7263" "murQ" ["murQ", "yfeU", "b2428", "ECK2423"] 2545773 2546669 "+" "G7263_RNA" +"G7264" "murP" ["murP", "yfeV", "b2429", "ECK2424"] 2546673 2548097 "+" "G7264_RNA" +"G7265" "yfeW" ["yfeW", "b2430", "ECK2425"] 2548102 2549406 "+" "G7265_RNA" +"G7266" "yfeX" ["yfeX", "b2431", "ECK2426"] 2549646 2550545 "-" "G7266_RNA" +"G7267" "yfeY" ["yfeY", "b2432", "ECK2427"] 2550641 2551216 "-" "G7267_RNA" +"G7268" "yfeZ" ["yfeZ", "b2433", "ECK2428"] 2551277 2551726 "-" "G7268_RNA" +"G7269" "ypeA" ["ypeA", "b2434", "ECK2429"] 2551713 2552138 "-" "G7269_RNA" +"G7270" "eutK" ["eutK", "yffI", "b2438", "ECK2433"] 2555228 2555728 "-" "G7270_RNA" +"G7271" "eutL" ["eutL", "yffJ", "b2439", "ECK2434"] 2555741 2556400 "-" "G7271_RNA" +"G7272" "intZ" ["intZ", "b2442", "ECK2437"] 2558858 2560066 "+" "G7272_RNA" +"G7273" "yffL" ["yffL", "b2443", "ECK2438"] 2560257 2560898 "+" "G7273_RNA" +"G7274" "yffM" ["yffM", "b2444", "ECK2439"] 2561368 2561613 "+" "G7274_RNA" +"G7275" "yffN" ["yffN", "b2445", "ECK2440"] 2561625 2561993 "+" "G7275_RNA" +"G7276" "yffO" ["yffO", "b2446", "ECK2441"] 2562111 2562527 "+" "G7276_RNA" +"G7277" "yffP" ["yffP", "b2447", "ECK2442"] 2562524 2563117 "+" "G7277_RNA" +"G7278" "yffQ" ["yffQ", "b2448", "ECK2443"] 2563592 2563969 "+" "G7278_RNA" +"G7279" "yffR" ["yffR", "b2449", "ECK2444"] 2563980 2564372 "+" "G7279_RNA" +"G7280" "yffS" ["yffS", "b2450", "ECK2445"] 2564523 2565332 "+" "G7280_RNA" +"G7281" "eutA" ["eutA", "yffT", "b2451", "ECK2446"] 2565481 2566884 "-" "G7281_RNA" +"G7282" "eutH" ["eutH", "yffU", "b2452", "ECK2447"] 2566881 2568107 "-" "G7282_RNA" +"G7283" "eutG" ["eutG", "yffV", "b2453", "ECK2448"] 2568324 2569511 "-" "G7283_RNA" +"G7284" "eutJ" ["eutJ", "yffW", "b2454", "ECK2449"] 2569501 2570337 "-" "G7284_RNA" +"G7285" "eutE" ["eutE", "yffX", "b2455", "ECK2450"] 2570348 2571751 "-" "G7285_RNA" +"G7286" "eutN" ["eutN", "yffY", "cchB", "b2456", "ECK2451"] 2571763 2572050 "-" "G7286_RNA" +"G7287" "eutM" ["eutM", "yffZ", "cchA", "b2457", "ECK2452"] 2572157 2572450 "-" "G7287_RNA" +"G7288" "eutD" ["eutD", "ypfA", "eutI", "b2458", "ECK2453"] 2572489 2573505 "-" "G7288_RNA" +"G7289" "eutT" ["eutT", "ypfB", "b2459", "ECK2454"] 2573502 2574305 "-" "G7289_RNA" +"G7290" "eutQ" ["eutQ", "ypfC", "b2460", "ECK2455"] 2574302 2575003 "-" "G7290_RNA" +"G7291" "eutP" ["eutP", "ypfD", "b2461", "ECK2456"] 2574978 2575457 "-" "G7291_RNA" +"G7292" "eutS" ["eutS", "ypfE", "b2462", "ECK2457"] 2575470 2575805 "-" "G7292_RNA" +"G7293" "maeB" ["maeB", "ypfF", "b2463", "ECK2458"] 2576098 2578377 "-" "G7293_RNA" +"G7295" "ypfG" ["ypfG", "b2466", "ECK2461"] 2581734 2582777 "-" "G7295_RNA" +"G7296" "ypfH" ["ypfH", "b2473", "ECK2469"] 2593072 2593770 "-" "G7296_RNA" +"G7297" "tmcA" ["tmcA", "ypfI", "b2474", "ECK2470"] 2593844 2595859 "-" "G7297_RNA" +"G7298" "ypfJ" ["ypfJ", "b2475", "ECK2471"] 2595874 2596737 "-" "G7298_RNA" +"G7300" "hyfC" ["hyfC", "b2483", "ECK2479"] 2603847 2604794 "+" "G7300_RNA" +"G7301" "hyfD" ["hyfD", "b2484", "ECK2480"] 2604811 2606250 "+" "G7301_RNA" +"G7302" "hyfE" ["hyfE", "b2485", "ECK2481"] 2606262 2606912 "+" "G7302_RNA" +"G7303" "hyfF" ["hyfF", "b2486", "ECK2482"] 2606917 2608497 "+" "G7303_RNA" +"G7304" "hyfG" ["hyfG", "b2487", "ECK2483"] 2608487 2610154 "+" "G7304_RNA" +"G7305" "hyfH" ["hyfH", "b2488", "ECK2484"] 2610164 2610709 "+" "G7305_RNA" +"G7306" "hyfI" ["hyfI", "b2489", "ECK2485"] 2610706 2611464 "+" "G7306_RNA" +"G7307" "hyfJ" ["hyfJ", "b2490", "ECK2486"] 2611457 2611870 "+" "G7307_RNA" +"G7308" "hyfR" ["hyfR", "b2491", "ECK2487"] 2611900 2613912 "+" "G7308_RNA" +"G7309" "focB" ["focB", "b2492", "ECK2488"] 2613934 2614782 "+" "G7309_RNA" +"G7310" "yfgO" ["yfgO", "perM", "b2493", "ECK2489"] 2614820 2615881 "-" "G7310_RNA" +"G7311" "bepA" ["bepA", "yfgC", "b2494", "ECK2490"] 2616094 2617557 "+" "G7311_RNA" +"G7312" "yfgD" ["yfgD", "b2495", "ECK2491"] 2617578 2617937 "+" "G7312_RNA" +"G7313" "hda" ["hda", "idaB", "yfgE", "b2496", "ECK2492"] 2618075 2618776 "-" "G7313_RNA" +"G7314" "pdeF" ["pdeF", "yfgF", "b2503", "ECK2499"] 2626695 2628938 "-" "G7314_RNA" +"G7315" "yfgG" ["yfgG", "b2504", "ECK2500"] 2629290 2629481 "+" "G7315_RNA" +"G7316" "yfgH" ["yfgH", "b2505", "ECK2501"] 2629792 2630310 "+" "G7316_RNA" +"G7317" "yfgI" ["yfgI", "b2506", "ECK2502"] 2630326 2630865 "+" "G7317_RNA" +"G7318" "yfgJ" ["yfgJ", "b2510", "ECK2506"] 2635599 2635814 "-" "G7318_RNA" +"G7319" "der" ["der", "engA", "yfgK", "b2511", "ECK2507"] 2635884 2637356 "-" "G7319_RNA" +"G7320" "bamB" ["bamB", "yfgL", "b2512", "ECK2508"] 2637474 2638652 "-" "G7320_RNA" +"G7321" "yfgM" ["yfgM", "b2513", "ECK2509"] 2638663 2639283 "-" "G7321_RNA" +"G7322" "pbpC" ["pbpC", "yfgN", "b2519", "ECK2515"] 2645013 2647325 "-" "G7322_RNA" +"G7323" "yfhM" ["yfhM", "b2520", "ECK2516"] 2647326 2652287 "-" "G7323_RNA" +"G7324" "iscU" ["iscU", "yfhN", "nifU", "b2529", "ECK2526"] 2659903 2660289 "-" "G7324_RNA" +"G7325" "iscS" ["iscS", "nuvC", "yzzO", "yfhO", "b2530", "ECK2527"] 2660317 2661531 "-" "G7325_RNA" +"G7326" "iscR" ["iscR", "yfhP", "b2531", "ECK2528"] 2661643 2662131 "-" "G7326_RNA" +"G7327" "trmJ" ["trmJ", "yfhQ", "b2532", "ECK2529"] 2662583 2663323 "-" "G7327_RNA" +"G7328" "yfhR" ["yfhR", "b2534", "ECK2531"] 2664390 2665244 "+" "G7328_RNA" +"G7329" "csiE" ["csiE", "csi-16", "b2535", "ECK2532"] 2665435 2666715 "+" "G7329_RNA" +"G7330" "hcaT" ["hcaT", "yfhS", "b2536", "ECK2533"] 2666707 2667846 "-" "G7330_RNA" +"G7331" "hcaR" ["hcaR", "phdR", "yfhT", "b2537", "ECK2534"] 2668006 2668896 "-" "G7331_RNA" +"G7334" "hcaC" ["hcaC", "yfhW", "hcaa3", "phdB", "b2540", "ECK2537"] 2670908 2671228 "+" "G7334_RNA" +"G7335" "hcaB" ["hcaB", "yfhX", "phdD", "b2541", "ECK2538"] 2671225 2672037 "+" "G7335_RNA" +"G7336" "hcaD" ["hcaD", "hcaa4", "phdA", "yfhY", "b2542", "ECK2539"] 2672047 2673249 "+" "G7336_RNA" +"G7337" "yphA" ["yphA", "b2543", "ECK2540"] 2673346 2673768 "+" "G7337_RNA" +"G7338" "yphB" ["yphB", "b2544", "ECK2541"] 2673816 2674688 "-" "G7338_RNA" +"G7339" "yphC" ["yphC", "b2545", "ECK2542"] 2674700 2675761 "-" "G7339_RNA" +"G7340" "yphD" ["yphD", "b2546", "ECK2543"] 2675827 2676825 "-" "G7340_RNA" +"G7341" "yphE" ["yphE", "b2547", "ECK2544"] 2676850 2678361 "-" "G7341_RNA" +"G7342" "yphF" ["yphF", "b2548", "ECK2545"] 2678384 2679367 "-" "G7342_RNA" +"G7343" "yphG" ["yphG", "b2549", "ECK2546"] 2679464 2682745 "-" "G7343_RNA" +"G7344" "yphH" ["yphH", "b2550", "ECK2547"] 2682863 2684056 "+" "G7344_RNA" +"G7345" "glrK" ["glrK", "yfhZ", "yfhK", "qseE", "b2556", "ECK2553"] 2689671 2691098 "-" "G7345_RNA" +"G7346" "yfhL" ["yfhL", "b2562", "ECK2560"] 2699663 2699923 "+" "G7346_RNA" +"G7347" "rseC" ["rseC", "b2570", "ECK2568"] 2707322 2707801 "-" "G7347_RNA" +"G7348" "rseB" ["rseB", "b2571", "ECK2569"] 2707798 2708754 "-" "G7348_RNA" +"G7349" "tapT" ["tapT", "yfiP", "tuaA", "b2583", "ECK2581"] 2719223 2719921 "+" "G7349_RNA" +"G7350" "patZ" ["patZ", "yfiQ", "pka", "b2584", "ECK2582"] 2719953 2722613 "+" "G7350_RNA" +"G7352" "bamD" ["bamD", "ecfD", "yfiO", "b2595", "ECK2593"] 2736146 2736883 "+" "G7352_RNA" +"G7353" null ["b2596"] 2736913 2737119 "+" "G7353_RNA" +"G7354" "yfiR" ["yfiR", "b2603", "ECK2600"] 2741875 2742393 "+" "G7354_RNA" +"G7355" "ypjD" ["ypjD", "b2611", "ECK2608"] 2747962 2748753 "+" "G7355_RNA" +"G7357" "yfjF" ["yfjF", "ratB", "b2618", "ECK2614"] 2754008 2754298 "-" "G7357_RNA" +"G7358" "ratA" ["ratA", "yfjG", "b2619", "ECK2615"] 2754288 2754764 "-" "G7358_RNA" +"G7359" "yfjH" ["yfjH", "b2623", "ECK2619"] 2757644 2758600 "-" "G7359_RNA" +"G7360" "yfjI" ["yfjI", "b2625", "ECK2621"] 2758985 2760394 "+" "G7360_RNA" +"G7361" "yfjJ" ["yfjJ", "b2626", "ECK2622"] 2760547 2761173 "+" "G7361_RNA" +"G7362" "abpB" ["abpB", "yfjK", "b2627", "ECK2623"] 2761351 2763540 "-" "G7362_RNA" +"G7363" "abpA" ["abpA", "yfjL", "b2628", "ECK2624"] 2763537 2765153 "-" "G7363_RNA" +"G7364" "yfjM" ["yfjM", "b2629", "ECK2625"] 2765513 2765776 "-" "G7364_RNA" +"G7365" "rnlA" ["rnlA", "yfjN", "std", "b2630", "ECK2626"] 2765918 2766991 "+" "G7365_RNA" +"G7366" "rnlB" ["rnlB", "yfjO", "b2631", "ECK2627"] 2766984 2767355 "+" "G7366_RNA" +"G7367" "yfjP" ["yfjP", "b2632", "ECK2628"] 2767710 2768573 "+" "G7367_RNA" +"G7368" "yfjQ" ["yfjQ", "b2633", "ECK2629"] 2768665 2769486 "+" "G7368_RNA" +"G7369" "yfjR" ["yfjR", "b2634", "ECK2630"] 2769703 2770404 "+" "G7369_RNA" +"G7370" "ypjK" ["ypjK", "b2635", "ECK2631"] 2770445 2770681 "+" "G7370_RNA" +"G7371" "yfjS" ["yfjS", "b2636", "ECK2632"] 2770681 2771124 "+" "G7371_RNA" +"G7372" "yfjT" ["yfjT", "b2637", "ECK2633"] 2771148 2771615 "+" "G7372_RNA" +"G7373" "yfjU" ["yfjU", "b2638", "ECK2634"] 2771840 2772154 "-" "G7373_RNA" +"G7376" "yfjV" ["yfjV", "ypjM", "ypjL", "ECK2637", "ECK2636", "b2640", "b2639", "b2641", "ECK2635"] 2772167 2773182 "-" "G7376_RNA" +"G7377" "yfjW" ["yfjW", "b2642", "ECK2638"] 2773318 2775021 "+" "G7377_RNA" +"G7378" "yfjX" ["yfjX", "b2643", "ECK2639"] 2775919 2776377 "+" "G7378_RNA" +"G7379" "yfjY" ["yfjY", "b2644", "ECK2640"] 2776386 2776868 "+" "G7379_RNA" +"G7380" "yfjZ" ["yfjZ", "b2645", "ECK2642"] 2777115 2777432 "+" "G7380_RNA" +"G7381" "ypjF" ["ypjF", "b2646", "ECK2643"] 2777453 2777782 "+" "G7381_RNA" +"G7382" "ypjA" ["ypjA", "b2647", "ECK2644"] 2778146 2782726 "-" "G7382_RNA" +"G7383" "pinH" ["pinH", "ypjG", "b2648", "ECK2645"] 2783065 2783304 "-" "G7383_RNA" +"G7384" "ypjB" ["ypjB", "b2649", "ECK2646"] 2783638 2784429 "-" "G7384_RNA" +"G7385" "ypjC" ["ypjC", "b2650", "ECK2647"] 2784529 2785011 "-" "G7385_RNA" +"G7386" "b2651" ["b2651", "b2651"] 2785221 2785352 "+" "G7386_RNA" +"G7387" "ileY" ["ileY", "b2652", "ECK2648"] 2785762 2785837 "-" "RNA0-305" +"G7388" null ["b2653"] 2785800 2785973 "-" "G7388_RNA" +"G7389" "ygaQ" ["ygaQ", "G7393", "yqaD", "G7392", "G7391", "ygaR", "b2656", "b2655", "yqaC", "b2654", "b2657", "b2658", "b4462", "ECK2649"] 2786397 2788649 "+" "G7389_RNA" +"G7394" "glaH" ["glaH", "csi-12", "ygaT", "csiD", "b2659", "ECK2653"] 2788985 2789962 "+" "G7394_RNA" +"G7395" "kbp" ["kbp", "yzzM", "ygaU", "b2665", "ECK2659"] 2796337 2796786 "-" "G7395_RNA" +"G7396" "yqaE" ["yqaE", "b2666", "ECK2660"] 2796870 2797028 "-" "G7396_RNA" +"G7397" "ygaV" ["ygaV", "b2667", "ECK2661"] 2797211 2797510 "+" "G7397_RNA" +"G7398" "ygaP" ["ygaP", "b2668", "ECK2662"] 2797520 2798044 "+" "G7398_RNA" +"G7399" "alaE" ["alaE", "ygaW", "b2670", "ECK2664"] 2799164 2799613 "+" "G7399_RNA" +"G7400" "ygaM" ["ygaM", "b2672", "ECK2666"] 2800146 2800475 "+" "G7400_RNA" +"G7401" "nrdH" ["nrdH", "ygaN", "b2673", "ECK2667"] 2800723 2800968 "+" "G7401_RNA" +"G7402" "nrdI" ["nrdI", "ygaO", "b2674", "ECK2668"] 2800965 2801375 "+" "G7402_RNA" +"G7403" "ygaY" ["ygaY", "ygaX", "b2680", "ECK2675", "b2681", "ECK2674"] 2808316 2809493 "+" "G7403_RNA" +"G7405" "ygaZ" ["ygaZ", "b2682", "ECK2676"] 2809617 2810354 "+" "G7405_RNA" +"G7406" "ygaH" ["ygaH", "b2683", "ECK2677"] 2810344 2810679 "+" "G7406_RNA" +"G7407" "yqaA" ["yqaA", "b2689", "ECK2684"] 2816512 2816940 "-" "G7407_RNA" +"G7408" "yqaB" ["yqaB", "b2690", "ECK2685"] 2816937 2817503 "-" "G7408_RNA" +"G7409" "pncC" ["pncC", "ygaD", "b2700", "ECK2695"] 2823849 2824346 "-" "G7409_RNA" +"G7410" "mltB" ["mltB", "slt", "b2701", "ECK2696"] 2824491 2825576 "-" "G7410_RNA" +"G7413" "norV" ["norV", "ygaJ", "ygaI", "ygaK", "b2710", "ECK2705"] 2832476 2833915 "+" "G7413_RNA" +"G7414" "hycI" ["hycI", "b2717", "ECK2712"] 2842573 2843043 "-" "G7414_RNA" +"G7415" "pphB" ["pphB", "ygbH", "prpB", "b2734", "ECK2729"] 2859760 2860416 "+" "G7415_RNA" +"G7416" "ygbI" ["ygbI", "b2735", "ECK2730"] 2860467 2861234 "-" "G7416_RNA" +"G7417" "ygbJ" ["ygbJ", "b2736", "ECK2731"] 2861430 2862338 "+" "G7417_RNA" +"G7418" "ygbK" ["ygbK", "b2737", "ECK2732"] 2862335 2863501 "+" "G7418_RNA" +"G7419" "ygbL" ["ygbL", "b2738", "ECK2733"] 2863593 2864231 "+" "G7419_RNA" +"G7420" "ygbM" ["ygbM", "b2739", "ECK2734"] 2864236 2865012 "+" "G7420_RNA" +"G7421" "ygbN" ["ygbN", "b2740", "ECK2735"] 2865101 2866465 "+" "G7421_RNA" +"G7422" "truD" ["truD", "ygbO", "b2745", "ECK2740"] 2870255 2871304 "-" "G7422_RNA" +"G7423" "ispD" ["ispD", "ygbP", "b2747", "ECK2742"] 2871780 2872490 "-" "G7423_RNA" +"G7424" "ftsB" ["ftsB", "ygbQ", "b2748", "ECK2743"] 2872509 2872820 "-" "G7424_RNA" +"G7425" "cas1" ["cas1", "ygbT", "b2755", "ECK2750"] 2878855 2879772 "-" "G7425_RNA" +"G7426" "casE" ["casE", "ygcH", "cse3", "cas6e", "b2756", "ECK2751"] 2879788 2880387 "-" "G7426_RNA" +"G7427" "casD" ["casD", "ygcI", "cas5e", "b2757", "ECK2752"] 2880374 2881048 "-" "G7427_RNA" +"G7428" "casC" ["casC", "ygcJ", "cse4", "cas7", "b2758", "ECK2753"] 2881051 2882142 "-" "G7428_RNA" +"G7429" "casB" ["casB", "ygcK", "cse2", "b2759", "ECK2754"] 2882155 2882637 "-" "G7429_RNA" +"G7430" "casA" ["casA", "ygcL", "cse1", "b2760", "ECK2755"] 2882630 2884138 "-" "G7430_RNA" +"G7431" "queD" ["queD", "ygcM", "sscR", "b2765", "ECK2760"] 2892214 2892579 "+" "G7431_RNA" +"G7432" "ygcN" ["ygcN", "b2766", "ECK2761"] 2892657 2893928 "+" "G7432_RNA" +"G7433" "ygcO" ["ygcO", "b2767", "ECK2762"] 2893919 2894179 "+" "G7433_RNA" +"G7434" "ygcP" ["ygcP", "b2768", "ECK2763"] 2894196 2894771 "+" "G7434_RNA" +"G7435" "ygcQ" ["ygcQ", "b2769", "ECK2764"] 2894919 2895779 "-" "G7435_RNA" +"G7436" "ygcR" ["ygcR", "b2770", "ECK2765"] 2895776 2896555 "-" "G7436_RNA" +"G7437" "ygcS" ["ygcS", "b2771", "ECK2766"] 2896533 2897870 "-" "G7437_RNA" +"G7439" "ygcU" ["ygcU", "ygcT", "b2772", "ygcV", "b2773", "b4463", "ECK2767"] 2897964 2899418 "-" "G7439_RNA" +"G7440" "ygcW" ["ygcW", "b2774", "ECK2768"] 2899488 2900273 "-" "G7440_RNA" +"G7442" "ygcE" ["ygcE", "b2776", "ECK2770"] 2901896 2903374 "+" "G7442_RNA" +"G7443" "queE" ["queE", "ygcF", "b2777", "ECK2771"] 2904747 2905418 "-" "G7443_RNA" +"G7444" "ygcG" ["ygcG", "b2778", "ECK2772"] 2905711 2906583 "+" "G7444_RNA" +"G7445" "gudD" ["gudD", "ygcX", "b2787", "ECK2781"] 2918045 2919385 "-" "G7445_RNA" +"G7446" "gudX" ["gudX", "ygcY", "b2788", "ECK2782"] 2919406 2920746 "-" "G7446_RNA" +"G7447" "gudP" ["gudP", "gudT", "ygcZ", "b2789", "ECK2783"] 2920748 2922100 "-" "G7447_RNA" +"G7448" "yqcA" ["yqcA", "b2790", "ECK2784"] 2922535 2922984 "-" "G7448_RNA" +"G7449" "truC" ["truC", "yqcB", "b2791", "ECK2785"] 2923002 2923784 "-" "G7449_RNA" +"G7450" "yqcC" ["yqcC", "b2792", "ECK2786"] 2923784 2924113 "-" "G7450_RNA" +"G7451" "syd" ["syd", "ydr", "b2793", "ECK2788"] 2924735 2925280 "-" "G7451_RNA" +"G7452" "queF" ["queF", "yqcD", "b2794", "ECK2789"] 2925348 2926196 "+" "G7452_RNA" +"G7453" "ygdI" ["ygdI", "b2809", "ECK2805"] 2942918 2943145 "-" "G7453_RNA" +"G7454" "csdA" ["csdA", "ygdJ", "b2810", "ECK2806"] 2943337 2944542 "+" "G7454_RNA" +"G7455" "csdE" ["csdE", "ygdK", "b2811", "ECK2807"] 2944542 2944985 "+" "G7455_RNA" +"G7456" "tcdA" ["tcdA", "ygdL", "csdL", "b2812", "ECK2808"] 2945036 2945842 "-" "G7456_RNA" +"G7457" "mltA" ["mltA", "ygdM", "mlt", "b2813", "ECK2809"] 2946081 2947178 "-" "G7457_RNA" +"G7458" "amiC" ["amiC", "ygdN", "b2817", "ECK2813"] 2947757 2949010 "-" "G7458_RNA" +"G7459" "rppH" ["rppH", "ygdP", "nudH", "b2830", "ECK2826"] 2968447 2968977 "-" "G7459_RNA" +"G7460" "ygdQ" ["ygdQ", "b2832", "ECK2828"] 2970420 2971133 "+" "G7460_RNA" +"G7461" "ygdR" ["ygdR", "b2833", "ECK2829"] 2971271 2971489 "+" "G7461_RNA" +"G7462" "tas" ["tas", "ygdS", "b2834", "ECK2830"] 2971597 2972637 "+" "G7462_RNA" +"G7463" "kduI" ["kduI", "yqeE", "b2843", "ECK2841"] 2983288 2984124 "-" "G7463_RNA" +"G7464" "yqeF" ["yqeF", "b2844", "ECK2842"] 2984411 2985592 "-" "G7464_RNA" +"G7465" "yqeG" ["yqeG", "b2845", "ECK2843"] 2985847 2987076 "+" "G7465_RNA" +"G7466" "yqeH" ["yqeH", "b2846", "ECK2844"] 2987536 2988168 "+" "G7466_RNA" +"G7467" "yqeI" ["yqeI", "b2847", "ECK2845"] 2988502 2989311 "+" "G7467_RNA" +"G7468" "yqeJ" ["yqeJ", "b2848", "ECK2846"] 2989304 2989786 "+" "G7468_RNA" +"G7469" "yqeK" ["yqeK", "b2849", "ECK2847"] 2989935 2990360 "-" "G7469_RNA" +"G7470" "ygeF" ["ygeF", "b2850", "ECK2848"] 2990554 2991043 "+" "G7470_RNA" +"G7471" "ygeG" ["ygeG", "b2851", "ECK2849"] 2991268 2991759 "+" "G7471_RNA" +"G7472" "ygeH" ["ygeH", "b2852", "ECK2850"] 2992094 2993470 "+" "G7472_RNA" +"G7473" "ygeI" ["ygeI", "b2853", "ECK2851"] 2993638 2993856 "+" "G7473_RNA" +"G7474" "pbl" ["pbl", "ygeJ", "b2854", "ECK2852"] 2993939 2994441 "+" "G7474_RNA" +"G7475" "ygeK" ["ygeK", "b2855", "ECK2853"] 2994460 2994903 "-" "G7475_RNA" +"G7476" "ygeL" ["ygeL", "b2856", "ECK2854"] 2994937 2995092 "-" "G7476_RNA" +"G7478" "ygeN" ["ygeN", "ygeM", "b2857", "ECK2856", "b2858", "ECK2855"] 2995314 2996020 "-" "G7478_RNA" +"G7479" "ygeO" ["ygeO", "b2859", "ECK2857"] 2995962 2996360 "-" "G7479_RNA" +"G7480" "insD4" ["insD4", "yi22-4", "b2860", "ECK0358"] 2996372 2997277 "-" "G7480_RNA" +"G7481" "insC4" ["insC4", "yi21-4", "b2861", "ECK0357"] 2997235 2997600 "-" "G7481_RNA" +"G7482" "ygeP" ["ygeP", "b2862", "ECK2858"] 2997689 2997988 "-" "G7482_RNA" +"G7483" "ygeQ" ["ygeQ", "b2863", "ECK2859"] 2998034 2998828 "-" "G7483_RNA" +"G7484" "ygeR" ["ygeR", "b2865", "ECK2861"] 2999136 2999891 "-" "G7484_RNA" +"G7485" "xdhA" ["xdhA", "ygeS", "b2866", "ECK2862"] 3000345 3002603 "+" "G7485_RNA" +"G7486" "xdhB" ["xdhB", "ygeT", "b2867", "ECK2863"] 3002614 3003492 "+" "G7486_RNA" +"G7487" "xdhC" ["xdhC", "ygeU", "b2868", "ECK2864"] 3003489 3003968 "+" "G7487_RNA" +"G7488" "ygeV" ["ygeV", "b2869", "ECK2865"] 3004008 3005786 "-" "G7488_RNA" +"G7489" "ygeW" ["ygeW", "b2870", "ECK2866"] 3006262 3007452 "+" "G7489_RNA" +"G7490" "ygeX" ["ygeX", "b2871", "ECK2867"] 3007510 3008706 "+" "G7490_RNA" +"G7491" "ygeY" ["ygeY", "b2872", "ECK2868"] 3008764 3009975 "+" "G7491_RNA" +"G7492" "hyuA" ["hyuA", "ygeZ", "b2873", "ECK2869"] 3010028 3011413 "+" "G7492_RNA" +"G7493" "yqeA" ["yqeA", "b2874", "ECK2870"] 3011461 3012393 "+" "G7493_RNA" +"G7494" "yqeB" ["yqeB", "b2875", "ECK2871"] 3012614 3014239 "-" "G7494_RNA" +"G7495" "yqeC" ["yqeC", "b2876", "ECK2872"] 3014287 3015057 "-" "G7495_RNA" +"G7496" "mocA" ["mocA", "ygfJ", "b2877", "ECK2873"] 3015160 3015738 "+" "G7496_RNA" +"G7497" "ygfK" ["ygfK", "b2878", "ECK2874"] 3016060 3019158 "+" "G7497_RNA" +"G7498" "ssnA" ["ssnA", "ygfL", "b2879", "ECK2875"] 3019161 3020489 "+" "G7498_RNA" +"G7499" "ygfM" ["ygfM", "b2880", "ECK2876"] 3020540 3021319 "+" "G7499_RNA" +"G7500" "xdhD" ["xdhD", "ygfN", "b2881", "ECK2877"] 3021316 3024186 "+" "G7500_RNA" +"G7501" "xanQ" ["xanQ", "ygfO", "b2882", "ECK2878"] 3024351 3025751 "+" "G7501_RNA" +"G7502" "guaD" ["guaD", "ygfP", "b2883", "ECK2879"] 3025766 3027085 "+" "G7502_RNA" +"G7503" "ghxQ" ["ghxQ", "b2885", "ygfR", "b2884", "ygfQ", "b4464", "ECK2880"] 3027121 3028488 "+" "G7503_RNA" +"G7505" "ygfS" ["ygfS", "b2886", "ECK2881"] 3028524 3029012 "-" "G7505_RNA" +"G7506" "ygfT" ["ygfT", "b2887", "ECK2882"] 3029012 3030931 "-" "G7506_RNA" +"G7507" "uacT" ["uacT", "ygfU", "b2888", "ECK2883"] 3031367 3032815 "+" "G7507_RNA" +"G7508" "idi" ["idi", "ygfV", "b2889", "ECK2884"] 3033065 3033613 "+" "G7508_RNA" +"G7509" "ygfX" ["ygfX", "cptA", "b2896", "ECK2891"] 3040416 3040823 "-" "G7509_RNA" +"G7510" "sdhE" ["sdhE", "ygfY", "cptB", "b2897", "ECK2892"] 3040804 3041070 "-" "G7510_RNA" +"G7511" "ygfZ" ["ygfZ", "yzzW", "b2898", "ECK2893"] 3041313 3042293 "+" "G7511_RNA" +"G7512" "yqfA" ["yqfA", "b2899", "ECK2894"] 3042489 3043148 "-" "G7512_RNA" +"G7513" "yqfB" ["yqfB", "b2900", "ECK2895"] 3043312 3043623 "-" "G7513_RNA" +"G7514" "ygfF" ["ygfF", "yqfD", "b2902", "ECK2897"] 3045158 3045901 "-" "G7514_RNA" +"G7515" "yqfE" ["yqfE", "b2915", "ECK2911"] 3059381 3059611 "-" "G7515_RNA" +"G7516" "scpB" ["scpB", "ygfG", "b2919", "ECK2915"] 3063993 3064778 "+" "G7516_RNA" +"G7517" "scpC" ["scpC", "ygfH", "b2920", "ECK2916"] 3064802 3066280 "+" "G7517_RNA" +"G7518" "ygfI" ["ygfI", "b2921", "ECK2917"] 3066277 3067173 "-" "G7518_RNA" +"G7520" "yggP" ["yggP", "b2931", "b2932", "b4465", "ECK2927"] 3076179 3077456 "-" "G7520_RNA" +"G7521" "yqgB" ["yqgB", "b2939", "ECK2934"] 3085920 3086051 "-" "G7521_RNA" +"G7522" "yqgC" ["yqgC", "b2940", "ECK2935"] 3086187 3086402 "+" "G7522_RNA" +"G7523" "yqgD" ["yqgD", "b2941", "ECK2936"] 3086399 3086650 "-" "G7523_RNA" +"G7524" "yqgE" ["yqgE", "b2948", "ECK2943"] 3092937 3093500 "+" "G7524_RNA" +"G7525" "yqgF" ["yqgF", "b2949", "ECK2944"] 3093500 3093916 "+" "G7525_RNA" +"G7526" "yggR" ["yggR", "b2950", "ECK2945"] 3094100 3095080 "-" "G7526_RNA" +"G7527" "yggS" ["yggS", "b2951", "ECK2946"] 3095098 3095802 "+" "G7527_RNA" +"G7528" "yggT" ["yggT", "b2952", "ECK2947"] 3095820 3096386 "+" "G7528_RNA" +"G7529" "yggU" ["yggU", "b2953", "ECK2948"] 3096383 3096673 "+" "G7529_RNA" +"G7530" "rdgB" ["rdgB", "yggV", "b2954", "ECK2949"] 3096681 3097274 "+" "G7530_RNA" +"G7531" "hemW" ["hemW", "yggW", "b2955", "ECK2950"] 3097267 3098403 "+" "G7531_RNA" +"G7532" "yggX" ["yggX", "b2962", "ECK2957"] 3104093 3104368 "+" "G7532_RNA" +"G7533" "mltC" ["mltC", "yggZ", "b2963", "ECK2958"] 3104433 3105512 "+" "G7533_RNA" +"G7534" "yqgA" ["yqgA", "b2966", "ECK2961"] 3109553 3110260 "+" "G7534_RNA" +"G7535" "yghD" ["yghD", "ecfC", "b2968", "ECK2963"] 3110590 3111126 "-" "G7535_RNA" +"G7536" "yghE" ["yghE", "ecfB", "b2969", "ECK2964"] 3111128 3111988 "-" "G7536_RNA" +"G7537" "yghF" ["yghF", "ecfA", "b2970", "ECK2965"] 3112054 3113049 "-" "G7537_RNA" +"G7538" "yghG" ["yghG", "b2971", "ECK2966"] 3113067 3113477 "-" "G7538_RNA" +"G7539" "pppA" ["pppA", "yghH", "b2972", "ECK2967"] 3113543 3114352 "-" "G7539_RNA" +"G7541" "yghJ" ["yghJ", "b2974", "b2973", "sslE", "b4466", "ECK2968"] 3114550 3119112 "-" "G7541_RNA" +"G7542" "glcA" ["glcA", "yghK", "b2975", "ECK2969"] 3119597 3121279 "-" "G7542_RNA" +"G7543" "glcG" ["glcG", "yghC", "b2977", "ECK2971"] 3123827 3124231 "-" "G7543_RNA" +"G7544" "glcE" ["glcE", "yghL", "gox", "b2978", "b4468", "ECK2973"] 3125470 3126522 "-" "G7544_RNA" +"G7545" "glcD" ["glcD", "yghM", "gox", "b2979", "ECK2974"] 3126522 3128021 "-" "G7545_RNA" +"G7546" "glcC" ["glcC", "yghN", "b2980", "ECK2975"] 3128272 3129036 "+" "G7546_RNA" +"G7547" "yghO" ["yghO", "b2981", "ECK2976"] 3129043 3130215 "-" "G7547_RNA" +"G7548" "insH9" ["insH9", "trs5-9", "yi52_9", "b2982", "ECK0261"] 3130214 3131194 "+" "G7548_RNA" +"G7549" "yghQ" ["yghQ", "b2983", "ECK2977"] 3131341 3132408 "-" "G7549_RNA" +"G7550" "yghR" ["yghR", "b2984", "ECK2978"] 3132454 3133212 "-" "G7550_RNA" +"G7551" "yghS" ["yghS", "b2985", "ECK2979"] 3133244 3133957 "-" "G7551_RNA" +"G7552" "yghT" ["yghT", "b2986", "ECK2980"] 3134131 3134823 "+" "G7552_RNA" +"G7553" "yghU" ["yghU", "b2989", "ECK2983"] 3138727 3139593 "+" "G7553_RNA" +"G7554" "hybO" ["hybO", "yghV", "b2997", "ECK2991"] 3145143 3146261 "-" "G7554_RNA" +"G7555" "yghW" ["yghW", "b2998", "ECK2992"] 3146450 3146737 "-" "G7555_RNA" +"G7557" "yghX" ["yghX", "b2999", "yghY", "b3000", "ECK2994", "orf_f136", "b4658", "ECK2993"] 3146856 3147691 "-" "G7557_RNA" +"G7558" "gpr" ["gpr", "mgrA", "yghZ", "b3001", "ECK2995"] 3147897 3148937 "+" "G7558_RNA" +"G7559" "yqhA" ["yqhA", "b3002", "ECK2996"] 3148977 3149471 "-" "G7559_RNA" +"G7561" null ["b3004"] 3150722 3150967 "+" "G7561_RNA" +"G7562" null ["b3007"] 3151977 3152132 "-" "G7562_RNA" +"G7563" "yqhC" ["yqhC", "b3010", "ECK3002"] 3154262 3155218 "-" "G7563_RNA" +"G7564" "yqhD" ["yqhD", "b3011", "ECK3003"] 3155355 3156518 "+" "G7564_RNA" +"G7565" "dkgA" ["dkgA", "yqhE", "b3012", "ECK3004"] 3156623 3157450 "+" "G7565_RNA" +"G7566" "yqhG" ["yqhG", "yqhF", "b3013", "ECK3005"] 3157650 3158576 "+" "G7566_RNA" +"G7567" "yqhH" ["yqhH", "b3014", "ECK3006"] 3158627 3158884 "+" "G7567_RNA" +"G7568" "ygiQ" ["ygiQ", "ygiR", "b3016", "b3015", "b4469", "ECK3007"] 3158927 3161146 "-" "G7568_RNA" +"G7570" "ygiS" ["ygiS", "b3020", "ECK3011"] 3166111 3167718 "-" "G7570_RNA" +"G7571" "mqsA" ["mqsA", "ygiT", "b3021", "ECK3012"] 3167851 3168246 "-" "G7571_RNA" +"G7572" "mqsR" ["mqsR", "ygiU", "b3022", "ECK3013"] 3168248 3168544 "-" "G7572_RNA" +"G7573" "ygiV" ["ygiV", "b3023", "ECK3014"] 3168749 3169231 "-" "G7573_RNA" +"G7574" "ygiW" ["ygiW", "visP", "b3024", "ECK3015"] 3169284 3169676 "-" "G7574_RNA" +"G7575" "qseB" ["qseB", "ygiX", "b3025", "ECK3016"] 3169828 3170487 "+" "G7575_RNA" +"G7577" "ygiZ" ["ygiZ", "b3027", "ECK3018"] 3171879 3172211 "-" "G7577_RNA" +"G7578" "yqiA" ["yqiA", "yzzI", "b3031", "ECK3022"] 3175425 3176006 "-" "G7578_RNA" +"G7579" "cpdA" ["cpdA", "icc", "b3032", "ECK3023"] 3176006 3176833 "-" "G7579_RNA" +"G7580" "yqiB" ["yqiB", "yzzH", "b3033", "ECK3024"] 3176858 3177280 "-" "G7580_RNA" +"G7582" "ubiK" ["ubiK", "yqiC", "b3042", "ECK3033"] 3184840 3185130 "+" "G7582_RNA" +"G7583" "insC5" ["insC5", "yi21-5", "b3044", "ECK0357"] 3186187 3186552 "+" "G7583_RNA" +"G7584" "insD5" ["insD5", "yi22-5", "b3045", "ECK0358"] 3186510 3187415 "+" "G7584_RNA" +"G7585" "yqiG" ["yqiG", "b3046", "ECK3035"] null null "+" "G7585_RNA" +"G7586" "yqiH" ["yqiH", "b3047", "ECK3036"] 3189881 3190630 "+" "G7586_RNA" +"G7587" "yqiI" ["yqiI", "b3048", "ECK3037"] 3190632 3191696 "+" "G7587_RNA" +"G7588" "yqiJ" ["yqiJ", "b3050", "ECK3039"] 3192208 3192837 "+" "G7588_RNA" +"G7589" "yqiK" ["yqiK", "b3051", "ECK3040"] 3192864 3194525 "+" "G7589_RNA" +"G7590" "hldE" ["hldE", "yqiF", "rfaE", "gmhC", "waaE", "b3052", "ECK3042"] 3195320 3196753 "-" "G7590_RNA" +"G7593" "nfeF" ["nfeF", "yqjH", "b3070", "ECK3060"] 3215727 3216491 "-" "G7593_RNA" +"G7594" "nfeR" ["nfeR", "yqjI", "b3071", "ECK3061"] 3216779 3217402 "+" "G7594_RNA" +"G7595" "aer" ["aer", "yqjJ", "air", "b3072", "ECK3062"] 3217556 3219076 "-" "G7595_RNA" +"G7596" "patA" ["patA", "oat", "pat", "ygjG", "b3073", "ECK3063"] 3219494 3220873 "+" "G7596_RNA" +"G7597" "ygjH" ["ygjH", "b3074", "ECK3064"] 3220915 3221247 "-" "G7597_RNA" +"G7598" "ygjJ" ["ygjJ", "b3079", "ECK3069"] 3227801 3228871 "+" "G7598_RNA" +"G7599" "ygjK" ["ygjK", "b3080", "ECK3070"] 3228888 3231239 "+" "G7599_RNA" +"G7601" "higA" ["higA", "ygjM", "b3082", "ECK3072"] 3233728 3234144 "-" "G7601_RNA" +"G7602" "higB" ["higB", "ygjN", "b3083", "ECK3073"] 3234141 3234455 "-" "G7602_RNA" +"G7603" "rlmG" ["rlmG", "ygjO", "b3084", "ECK3074"] 3234739 3235875 "-" "G7603_RNA" +"G7604" "ygjP" ["ygjP", "b3085", "ECK3075"] 3235960 3236463 "+" "G7604_RNA" +"G7605" "ygjQ" ["ygjQ", "b3086", "ECK3076"] 3236540 3237232 "+" "G7605_RNA" +"G7606" "ygjR" ["ygjR", "b3087", "ECK3077"] 3237311 3238297 "+" "G7606_RNA" +"G7607" "alx" ["alx", "ygjT", "b3088", "ECK3079"] 3238580 3239545 "+" "G7607_RNA" +"G7608" "ygjV" ["ygjV", "b3090", "ECK3081"] 3241193 3241744 "-" "G7608_RNA" +"G7609" "yqjA" ["yqjA", "ecfL", "b3095", "ECK3086"] 3247773 3248435 "+" "G7609_RNA" +"G7610" "mzrA" ["mzrA", "ecfM", "yqjB", "b3096", "ECK3087"] 3248439 3248822 "+" "G7610_RNA" +"G7611" "yqjC" ["yqjC", "b3097", "ECK3088"] 3248969 3249337 "+" "G7611_RNA" +"G7612" "yqjD" ["yqjD", "b3098", "ECK3089"] 3249375 3249680 "+" "G7612_RNA" +"G7613" "yqjE" ["yqjE", "b3099", "ECK3090"] 3249683 3250087 "+" "G7613_RNA" +"G7614" "yqjK" ["yqjK", "b3100", "ECK3091"] 3250077 3250376 "+" "G7614_RNA" +"G7615" "yqjF" ["yqjF", "b3101", "ECK3092"] 3250562 3250954 "+" "G7615_RNA" +"G7616" "yqjG" ["yqjG", "b3102", "ECK3093"] 3251024 3252010 "+" "G7616_RNA" +"G7617" "yhaH" ["yhaH", "b3103", "ECK3094"] 3252304 3252669 "+" "G7617_RNA" +"G7618" "yhaI" ["yhaI", "b3104", "ECK3095"] 3252911 3253267 "+" "G7618_RNA" +"G7619" "yhaJ" ["yhaJ", "b3105", "ECK3096"] 3253318 3254214 "-" "G7619_RNA" +"G7620" "yhaK" ["yhaK", "b3106", "ECK3097"] 3254319 3255020 "+" "G7620_RNA" +"G7621" "yhaL" ["yhaL", "b3107", "ECK3098"] 3255043 3255207 "+" "G7621_RNA" +"G7622" "cyuA" ["cyuA", "b3109", "yhaN", "b3108", "yhaM", "b4470", "ECK3099"] 3255341 3256651 "-" "G7622_RNA" +"G7624" "tdcG" ["tdcG", "b3111", "yhaQ", "b3112", "tdcGa", "yhaP", "sdhY", "b4471", "ECK3101"] 3258285 3259649 "-" "G7624_RNA" +"G7626" "tdcF" ["tdcF", "yhaR", "b3113", "ECK3102"] 3259721 3260110 "-" "G7626_RNA" +"G7627" "tdcE" ["tdcE", "yhaS", "b3114", "ECK3103"] 3260124 3262418 "-" "G7627_RNA" +"G7629" "yhaV" ["yhaV", "b3130", "ECK3118"] 3277337 3277801 "+" "G7629_RNA" +"G7630" "agaR" ["agaR", "yhaW", "b3131", "ECK3119"] 3277856 3278665 "-" "G7630_RNA" +"G7631" "kbaZ" ["kbaZ", "yhaX", "agaZ", "b3132", "ECK3120"] 3278914 3280194 "+" "G7631_RNA" +"G7632" "agaV" ["agaV", "yhaY", "b3133", "ECK3121"] 3280217 3280690 "+" "G7632_RNA" +"G7633" "agaW" ["agaW", "yhaZ", "b3134", "ECK3122"] 3280701 3281102 "+" "G7633_RNA" +"G7634" "agaS" ["agaS", "yraB", "b3136", "ECK3124"] 3281976 3283130 "+" "G7634_RNA" +"G7635" "agaD" ["agaD", "yraF", "b3140", "ECK3128"] 3285478 3286269 "+" "G7635_RNA" +"G7636" "agaI" ["agaI", "yraG", "b3141", "ECK3129"] 3286270 3287025 "+" "G7636_RNA" +"G7637" "yraH" ["yraH", "b3142", "ECK3130"] 3287426 3288010 "+" "G7637_RNA" +"G7638" "yraI" ["yraI", "b3143", "ECK3131"] 3288090 3288785 "+" "G7638_RNA" +"G7639" "yraJ" ["yraJ", "b3144", "ECK3132"] 3288814 3291330 "+" "G7639_RNA" +"G7640" "yraK" ["yraK", "b3145", "ECK3133"] 3291341 3292432 "+" "G7640_RNA" +"G7641" "rsmI" ["rsmI", "yraL", "b3146", "ECK3134"] 3292475 3293335 "-" "G7641_RNA" +"G7642" "lpoA" ["lpoA", "yraM", "b3147", "ECK3135"] 3293400 3295436 "+" "G7642_RNA" +"G7643" "yraN" ["yraN", "b3148", "ECK3136"] 3295394 3295789 "+" "G7643_RNA" +"G7644" "yraP" ["yraP", "ecfH", "b3150", "ECK3138"] 3296409 3296984 "+" "G7644_RNA" +"G7645" "yraQ" ["yraQ", "b3151", "ECK3139"] 3297098 3298138 "-" "G7645_RNA" +"G7646" "yraR" ["yraR", "b3152", "ECK3140"] 3298211 3298846 "-" "G7646_RNA" +"G7647" "yhbO" ["yhbO", "b3153", "ECK3141"] 3298974 3299492 "+" "G7647_RNA" +"G7648" "yhbP" ["yhbP", "b3154", "ECK3142"] 3299472 3299915 "-" "G7648_RNA" +"G7649" "yhbQ" ["yhbQ", "b3155", "ECK3143"] 3299966 3300268 "+" "G7649_RNA" +"G7650" "yhbS" ["yhbS", "b3156", "ECK3144"] 3300255 3300758 "-" "G7650_RNA" +"G7651" "ubiT" ["ubiT", "yhbT", "b3157", "ECK3145"] 3300752 3301276 "-" "G7651_RNA" +"G7652" "ubiU" ["ubiU", "yhbU", "b3158", "ECK3146"] 3301485 3302480 "+" "G7652_RNA" +"G7653" "ubiV" ["ubiV", "yhbV", "b3159", "ECK3147"] 3302489 3303367 "+" "G7653_RNA" +"G7654" "yhbW" ["yhbW", "b3160", "ECK3148"] 3303448 3304455 "+" "G7654_RNA" +"G7655" "yhbX" ["yhbX", "b3173", "ECK3162"] 3319988 3321613 "-" "G7655_RNA" +"G7656" "obgE" ["obgE", "yhbZ", "cgtA", "obg", "b3183", "ECK3172"] 3330582 3331754 "-" "G7656_RNA" +"G7657" "ibaG" ["ibaG", "yrbA", "b3190", "ECK3179"] 3336549 3336803 "-" "G7657_RNA" +"G7658" "mlaB" ["mlaB", "yrbB", "b3191", "ECK3180"] 3336963 3337256 "-" "G7658_RNA" +"G7659" "mlaC" ["mlaC", "yrbC", "b3192", "ECK3181"] 3337256 3337891 "-" "G7659_RNA" +"G7662" "kdsD" ["kdsD", "yrbH", "b3197", "ECK3186"] 3341266 3342252 "+" "G7662_RNA" +"G7663" "kdsC" ["kdsC", "yrbJ", "yrbI", "b3198", "ECK3187"] 3342273 3342839 "+" "G7663_RNA" +"G7664" "lptC" ["lptC", "yrbK", "b3199", "ECK3188"] 3342836 3343411 "+" "G7664_RNA" +"G7665" "lptA" ["lptA", "yhbN", "b3200", "ECK3189"] 3343380 3343937 "+" "G7665_RNA" +"G7667" "yrbL" ["yrbL", "b3207", "ECK3196"] 3348452 3349084 "+" "G7667_RNA" +"G7668" "mtgA" ["mtgA", "mgt", "yrbM", "b3208", "ECK3197"] 3349081 3349809 "-" "G7668_RNA" +"G7669" "yhcC" ["yhcC", "b3211", "ECK3201"] 3353121 3354050 "-" "G7669_RNA" +"G7670" "yhcD" ["yhcD", "b3216", "ECK3206"] 3362807 3365188 "+" "G7670_RNA" +"G7671" "yhcE" ["yhcE", "b3217", "b4549", "b4569", "ECK3207"] null null "+" "G7671_RNA" +"G7672" "insH10" ["insH10", "trs5-10", "yi52_10", "b3218", "ECK0261"] 3365702 3366682 "-" "G7672_RNA" +"G7673" "yhcF" ["yhcF", "b3219", "ECK3208"] 3366926 3367642 "+" "G7673_RNA" +"G7674" "yhcG" ["yhcG", "b3220", "ECK3209"] 3367827 3368954 "+" "G7674_RNA" +"G7675" "yhcH" ["yhcH", "b3221", "ECK3210"] 3369014 3369478 "-" "G7675_RNA" +"G7676" "nanK" ["nanK", "yhcI", "b3222", "ECK3211"] 3369475 3370350 "-" "G7676_RNA" +"G7677" "nanE" ["nanE", "yhcJ", "b3223", "ECK3212"] 3370347 3371036 "-" "G7677_RNA" +"G7678" "nanR" ["nanR", "yhcK", "b3226", "ECK3215"] 3373698 3374489 "-" "G7678_RNA" +"G7679" "dcuD" ["dcuD", "yhcL", "b3227", "ECK3216"] 3374869 3376236 "+" "G7679_RNA" +"G7680" "zapE" ["zapE", "yhcM", "b3232", "ECK3221"] 3378870 3379997 "-" "G7680_RNA" +"G7681" "yhcB" ["yhcB", "b3233", "ECK3222"] 3380191 3380589 "+" "G7681_RNA" +"G7682" "degQ" ["degQ", "hhoA", "b3234", "ECK3223"] 3380743 3382110 "+" "G7682_RNA" +"G7683" "yhcN" ["yhcN", "b3238", "ECK3227"] 3385538 3385801 "+" "G7683_RNA" +"G7684" "yhcO" ["yhcO", "b3239", "ECK3228"] 3385857 3386129 "-" "G7684_RNA" +"G7685" "aaeB" ["aaeB", "yhcP", "b3240", "ECK3229"] 3386221 3388188 "-" "G7685_RNA" +"G7686" "aaeA" ["aaeA", "yhcQ", "b3241", "ECK3230"] 3388194 3389126 "-" "G7686_RNA" +"G7687" "aaeX" ["aaeX", "yhcR", "b3242", "ECK3231"] 3389134 3389337 "-" "G7687_RNA" +"G7688" "aaeR" ["aaeR", "yhcS", "qseA", "b3243", "ECK3232"] 3389520 3390449 "+" "G7688_RNA" +"G7689" "tldD" ["tldD", "yhdO", "b3244", "ECK3233"] 3390583 3392028 "-" "G7689_RNA" +"G7690" "yhdP" ["yhdP", "b3246", "yhdR", "yhdQ", "b3245", "b4472", "ECK3234"] 3392458 3396258 "-" "G7690_RNA" +"G7692" "b3254" ["b3254", "b3254"] 3404516 3404617 "-" "G7692_RNA" +"G7693" "yhdT" ["yhdT", "b3257", "ECK3244"] 3407375 3407617 "+" "G7693_RNA" +"G7694" "yhdU" ["yhdU", "b3263", "ECK3250"] 3412621 3412800 "+" "G7694_RNA" +"G7695" "yhdV" ["yhdV", "b3267", "ECK3254"] 3418390 3418611 "+" "G7695_RNA" +"G7696" "yrdA" ["yrdA", "b3279", "ECK3266"] 3429236 3429790 "+" "G7696_RNA" +"G7697" "yrdB" ["yrdB", "b3280", "ECK3267"] 3429766 3430023 "-" "G7697_RNA" +"G7698" "tsaC" ["tsaC", "yrdC", "rimN", "b3282", "ECK3269"] 3430843 3431415 "-" "G7698_RNA" +"G7699" "yrdD" ["yrdD", "b3283", "ECK3270"] 3431420 3431962 "-" "G7699_RNA" +"G7701" "gspA" ["gspA", "yheD", "b3323", "ECK3310"] 3453929 3455398 "-" "G7701_RNA" +"G7702" "gspC" ["gspC", "yheE", "b3324", "ECK3311"] 3455578 3456393 "+" "G7702_RNA" +"G7703" "gspD" ["gspD", "yheF", "b3325", "ECK3312"] 3456377 3458329 "+" "G7703_RNA" +"G7704" "gspE" ["gspE", "yheG", "b3326", "ECK3313"] 3458339 3459820 "+" "G7704_RNA" +"G7705" "gspF" ["gspF", "hofF", "hopF", "b3327", "ECK3314"] 3459817 3461013 "+" "G7705_RNA" +"G7706" "gspG" ["gspG", "hofG", "hopG", "b3328", "ECK3315"] 3461023 3461460 "+" "G7706_RNA" +"G7707" "gspH" ["gspH", "hofH", "hopH", "b3329", "ECK3316"] 3461468 3461977 "+" "G7707_RNA" +"G7708" "gspI" ["gspI", "yheH", "b3330", "ECK3317"] 3461974 3462351 "+" "G7708_RNA" +"G7709" "gspJ" ["gspJ", "yheI", "b3331", "ECK3318"] 3462344 3462931 "+" "G7709_RNA" +"G7710" "gspK" ["gspK", "yheJ", "b3332", "ECK3319"] 3462924 3463907 "+" "G7710_RNA" +"G7711" "gspL" ["gspL", "yheK", "b3333", "ECK3320"] 3463922 3465085 "+" "G7711_RNA" +"G7712" "tusB" ["tusB", "yheL", "b3343", "ECK3330"] 3474678 3474965 "-" "G7712_RNA" +"G7713" "tusC" ["tusC", "yheM", "b3344", "ECK3331"] 3474973 3475332 "-" "G7713_RNA" +"G7714" "tusD" ["tusD", "yheN", "b3345", "ECK3332"] 3475332 3475718 "-" "G7714_RNA" +"G7715" "yheO" ["yheO", "b3346", "ECK3333"] 3475718 3476440 "-" "G7715_RNA" +"G7716" "fkpA" ["fkpA", "yzzS", "b3347", "ECK3334"] 3476607 3477419 "-" "G7716_RNA" +"G7717" "kefG" ["kefG", "yheR", "b3351", "ECK3339"] 3480607 3481161 "-" "G7717_RNA" +"G7718" "yheT" ["yheT", "b3353", "ECK3341"] 3483202 3484224 "+" "G7718_RNA" +"G7719" "yheU" ["yheU", "b3354", "ECK3342"] 3484218 3484436 "+" "G7719_RNA" +"G7721" "yhfK" ["yhfK", "b3358", "ECK3346"] 3486791 3488893 "+" "G7721_RNA" +"G7722" "yhfL" ["yhfL", "b3369", "ECK3357"] 3499448 3499615 "+" "G7722_RNA" +"G7723" "frlB" ["frlB", "yhfN", "b3371", "ECK3359"] 3501268 3502290 "+" "G7723_RNA" +"G7724" "frlC" ["frlC", "b3373", "yhfP", "yhfO", "b3372", "b4474", "ECK3360"] 3502340 3503170 "+" "G7724_RNA" +"G7726" "frlD" ["frlD", "yhfQ", "b3374", "ECK3361"] 3503167 3503952 "+" "G7726_RNA" +"G7727" "frlR" ["frlR", "yhfR", "b3375", "ECK3362"] 3504052 3504783 "+" "G7727_RNA" +"G7728" "yhfS" ["yhfS", "b3376", "ECK3363"] 3504935 3506020 "-" "G7728_RNA" +"G7729" "yhfT" ["yhfT", "b3377", "ECK3364"] 3506032 3507336 "-" "G7729_RNA" +"G7730" "yhfU" ["yhfU", "b3378", "ECK3365"] 3507348 3507701 "-" "G7730_RNA" +"G7731" "php" ["php", "yhfV", "b3379", "ECK3366"] 3507712 3508590 "-" "G7731_RNA" +"G7732" "yhfW" ["yhfW", "b3380", "ECK3367"] 3508587 3509813 "-" "G7732_RNA" +"G7733" "yhfX" ["yhfX", "b3381", "ECK3368"] 3509813 3510976 "-" "G7733_RNA" +"G7734" "yhfY" ["yhfY", "b3382", "ECK3369"] 3511060 3511422 "-" "G7734_RNA" +"G7735" "yhfZ" ["yhfZ", "b3383", "ECK3370"] 3511439 3512344 "-" "G7735_RNA" +"G7736" "hofP" ["hofP", "yrfA", "b3392", "ECK3379"] 3520615 3521019 "-" "G7736_RNA" +"G7737" "hofO" ["hofO", "yrfB", "b3393", "ECK3380"] 3521009 3521449 "-" "G7737_RNA" +"G7738" "hofN" ["hofN", "yrfC", "b3394", "ECK3381"] 3521433 3521972 "-" "G7738_RNA" +"G7739" "hofM" ["hofM", "yrfD", "b3395", "ECK3382"] 3521972 3522751 "-" "G7739_RNA" +"G7740" "nudE" ["nudE", "yrfE", "b3397", "ECK3384"] 3525589 3526149 "-" "G7740_RNA" +"G7741" "igaA" ["igaA", "yrfF", "b3398", "ECK3385"] 3526469 3528604 "+" "G7741_RNA" +"G7742" "yrfG" ["yrfG", "b3399", "ECK3386"] 3528669 3529337 "+" "G7742_RNA" +"G7743" "hslR" ["hslR", "hsp15", "yrfH", "b3400", "ECK3387"] 3529348 3529749 "+" "G7743_RNA" +"G7744" "hslO" ["hslO", "yrfI", "b3401", "ECK3388"] 3529774 3530652 "+" "G7744_RNA" +"G7745" "yhgE" ["yhgE", "b3402", "ECK3389"] 3530715 3532439 "-" "G7745_RNA" +"G7746" "yhgF" ["yhgF", "b3407", "ECK3394"] 3537385 3539706 "+" "G7746_RNA" +"G7747" "yhgH" ["yhgH", "gntX", "b3413", "ECK3400"] 3544882 3545565 "+" "G7747_RNA" +"G7748" "nfuA" ["nfuA", "yhgI", "gntY", "b3414", "ECK3401"] 3545624 3546199 "+" "G7748_RNA" +"G7750" "rtcA" ["rtcA", "yhgJ", "yhgK", "b3420", "b3419", "b4475", "ECK3406"] 3555833 3556849 "-" "G7750_RNA" +"G7751" "rtcB" ["rtcB", "yhgL", "b3421", "ECK3407"] 3556853 3558079 "-" "G7751_RNA" +"G7752" "yzgL" ["yzgL", "b3427", "ECK3413"] 3563724 3564005 "-" "G7752_RNA" +"G7753" "yhgN" ["yhgN", "b3434", "ECK3420"] 3575071 3575664 "+" "G7753_RNA" +"G7756" "yhhW" ["yhhW", "b3439", "ECK3424"] 3578950 3579645 "-" "G7756_RNA" +"G7757" "yhhX" ["yhhX", "b3440", "ECK3425"] 3579768 3580805 "-" "G7757_RNA" +"G7758" "yhhY" ["yhhY", "b3441", "ECK3427"] 3581138 3581626 "+" "G7758_RNA" +"G7759" "yhhZ" ["yhhZ", "b3442", "ECK3428"] 3581863 3583041 "+" "G7759_RNA" +"G7760" "yrhA" ["yrhA", "b3443", "ECK3429"] null null "+" "G7760_RNA" +"G7761" "insA6" ["insA6", "b3444", "ECK0023"] 3583483 3583758 "+" "G7761_RNA" +"G7762" "insB6" ["insB6", "b3445", "ECK0022"] 3583677 3584180 "+" "G7762_RNA" +"G7763" "yrhB" ["yrhB", "b3446", "ECK3430"] 3584759 3585043 "+" "G7763_RNA" +"G7767" "dcrB" ["dcrB", "yhhR", "b3472", "ECK3456"] 3609955 3610512 "+" "G7767_RNA" +"G7769" "insH11" ["insH11", "yi52_11", "trs5-11", "b3505", "ECK0261"] 3652182 3653162 "-" "G7769_RNA" +"G7776" "insJ" ["insJ", "yi5A", "b3557", "ECK3545"] 3720680 3721201 "+" "G7776_RNA" +"G7777" "insK" ["insK", "dinS", "yi5B", "t150", "b3558", "ECK3546"] 3721198 3722049 "+" "G7777_RNA" +"G7789" "dgoR" ["dgoR", "yidW", "b3695", "b3694", "b4479", "ECK3687"] 3874471 3875160 "-" "G7789_RNA" +"G7798" "yifN" ["yifN", "ECK3769", "yifO", "b3777", "ECK3768"] 3960012 3960460 "-" "G7798_RNA" +"G7800" "wecF" ["wecF", "yifM", "b4404", "rff", "rffT", "b4405", "b4481", "ECK3785"] 3977525 3978604 "+" "G7800_RNA" +"G7802" "yzcX" ["yzcX", "b3808", "ECK3802"] 3993850 3994335 "+" "G7802_RNA" +"G7804" "ysgA" ["ysgA", "b3830", "ECK3824"] 4015354 4016169 "-" "G7804_RNA" +"G7806" "tatA" ["tatA", "yigT", "mttA1", "b3836", "ECK3830"] 4021945 4022214 "+" "G7806_RNA" +"G7808" "tatB" ["tatB", "ysgB", "mttA2", "b3838", "ECK3831"] 4022218 4022733 "+" "G7808_RNA" +"G7814" "ompL" ["ompL", "yshA", "b3875", "ECK3868"] 4063603 4064295 "-" "G7814_RNA" +"G7816" "cpxP" ["cpxP", "yiiO", "b3913", "b4484", "ECK3906"] 4105820 4106320 "+" "G7816_RNA" +"G7818" null ["b3975"] 4175213 4175368 "-" "G7818_RNA" +"G7821" "alsR" ["alsR", "yjcY", "rpiR", "b4089", "ECK4082"] 4312101 4312991 "-" "G7821_RNA" +"G7823" "rdcB" ["rdcB", "yjcZ", "b4110", "ECK4103"] 4329360 4330238 "+" "G7823_RNA" +"G7825" "yjdF" ["yjdF", "b4121", "ECK4114"] 4344929 4345558 "-" "G7825_RNA" +"G7826" "dcuR" ["dcuR", "yjdG", "b4124", "ECK4117"] 4349315 4350034 "-" "G7826_RNA" +"G7827" "dcuS" ["dcuS", "yjdH", "b4125", "ECK4118"] 4350031 4351662 "-" "G7827_RNA" +"G7828" "yjdI" ["yjdI", "b4126", "ECK4119"] 4351843 4352073 "+" "G7828_RNA" +"G7829" "yjdJ" ["yjdJ", "b4127", "ECK4120"] 4352085 4352357 "+" "G7829_RNA" +"G7830" "ghoS" ["ghoS", "yjdK", "b4128", "ECK4121"] 4352584 4352880 "+" "G7830_RNA" +"G7832" "fxsA" ["fxsA", "yjeG", "b4140", "ECK4134"] 4368664 4369140 "+" "G7832_RNA" +"G7833" "yjeH" ["yjeH", "b4141", "ECK4135"] 4369156 4370412 "-" "G7833_RNA" +"G7834" "yjeI" ["yjeI", "b4144", "ECK4138"] 4372809 4373162 "+" "G7834_RNA" +"G7835" "yjeJ" ["yjeJ", "b4145", "ECK4139"] 4373365 4374234 "-" "G7835_RNA" +"G7836" "epmB" ["epmB", "yjeK", "b4146", "ECK4140"] 4374629 4375657 "-" "G7836_RNA" +"G7837" "blc" ["blc", "yjeL", "b4149", "ECK4145"] 4377189 4377722 "-" "G7837_RNA" +"G7838" "yjeN" ["yjeN", "b4157", "ECK4153"] 4385393 4385707 "+" "G7838_RNA" +"G7839" "yjeO" ["yjeO", "b4158", "ECK4154"] 4385704 4386018 "+" "G7839_RNA" +"G7840" "mscM" ["mscM", "yjeP", "b4159", "ECK4155"] 4386047 4389370 "-" "G7840_RNA" +"G7841" "rsgA" ["rsgA", "yjeQ", "b4161", "ECK4157"] 4390457 4391509 "-" "G7841_RNA" +"G7842" "orn" ["orn", "yjeR", "b4162", "ECK4158"] 4391604 4392149 "+" "G7842_RNA" +"G7843" "queG" ["queG", "yjeS", "b4166", "ECK4162"] 4392928 4394067 "-" "G7843_RNA" +"G7844" "yjeT" ["yjeT", "b4176", "ECK4172"] 4404386 4404583 "+" "G7844_RNA" +"G7845" "rlmB" ["rlmB", "yjfH", "b4180", "ECK4176"] 4409275 4410006 "+" "G7845_RNA" +"G7846" "yjfI" ["yjfI", "b4181", "ECK4177"] 4410133 4410534 "+" "G7846_RNA" +"G7847" "yjfJ" ["yjfJ", "b4182", "ECK4178"] 4410553 4411251 "+" "G7847_RNA" +"G7848" "yjfK" ["yjfK", "b4183", "ECK4179"] 4411302 4411961 "+" "G7848_RNA" +"G7849" "yjfL" ["yjfL", "b4184", "ECK4180"] 4411979 4412377 "+" "G7849_RNA" +"G7850" "yjfM" ["yjfM", "b4185", "ECK4181"] 4412387 4413025 "+" "G7850_RNA" +"G7851" "yjfN" ["yjfN", "b4188", "ECK4184"] 4416017 4416292 "-" "G7851_RNA" +"G7852" "bsmA" ["bsmA", "yjfO", "b4189", "ECK4185"] 4416441 4416770 "-" "G7852_RNA" +"G7853" "yjfP" ["yjfP", "b4190", "ECK4186"] 4416952 4417701 "+" "G7853_RNA" +"G7854" "ulaR" ["ulaR", "yjfQ", "b4191", "ECK4187"] 4417698 4418453 "-" "G7854_RNA" +"G7855" "ulaG" ["ulaG", "yjfR", "b4192", "ECK4188"] 4418561 4419625 "-" "G7855_RNA" +"G7856" "ulaA" ["ulaA", "yjfS", "sgaT", "b4193", "ECK4189"] 4419980 4421377 "+" "G7856_RNA" +"G7858" "ulaD" ["ulaD", "yjfV", "sgaH", "b4196", "ECK4192"] 4422186 4422836 "+" "G7858_RNA" +"G7859" "ulaE" ["ulaE", "sgaU", "yjfW", "b4197", "ECK4193"] 4422846 4423700 "+" "G7859_RNA" +"G7860" "ulaF" ["ulaF", "yjfX", "sgaE", "b4198", "ECK4194"] 4423700 4424386 "+" "G7860_RNA" +"G7861" "yjfY" ["yjfY", "b4199", "ECK4195"] 4424516 4424791 "-" "G7861_RNA" +"G7862" "yjfZ" ["yjfZ", "b4204", "ECK4200"] 4426628 4427422 "-" "G7862_RNA" +"G7863" "ytfA" ["ytfA", "b4205", "ECK4201"] 4427694 4428095 "+" "G7863_RNA" +"G7864" "ytfB" ["ytfB", "b4206", "ECK4202"] 4428079 4428717 "-" "G7864_RNA" +"G7865" "fklB" ["fklB", "ytfC", "b4207", "ECK4203"] 4428935 4429555 "+" "G7865_RNA" +"G7866" "ytfE" ["ytfE", "dnrN", "b4209", "ECK4205"] 4431321 4431983 "-" "G7866_RNA" +"G7867" "ytfF" ["ytfF", "b4210", "ECK4206"] 4432091 4433056 "-" "G7867_RNA" +"G7868" "qorB" ["qorB", "ytfG", "b4211", "ECK4207"] 4433164 4434024 "-" "G7868_RNA" +"G7869" "ytfH" ["ytfH", "b4212", "ECK4208"] 4434113 4434493 "+" "G7869_RNA" +"G7870" "ytfI" ["ytfI", "b4215", "ECK4211"] 4437707 4438645 "+" "G7870_RNA" +"G7871" "ytfJ" ["ytfJ", "ecfJ", "b4216", "ECK4212"] 4438708 4439262 "-" "G7871_RNA" +"G7872" "ytfK" ["ytfK", "b4217", "ECK4213"] 4439587 4439793 "+" "G7872_RNA" +"G7873" "ytfL" ["ytfL", "b4218", "ECK4214"] 4439872 4441215 "-" "G7873_RNA" +"G7874" "tamA" ["tamA", "ytfM", "b4220", "ECK4216"] 4442382 4444115 "+" "G7874_RNA" +"G7875" "tamB" ["tamB", "ytfO", "ytfN", "b4221", "ECK4217"] 4444112 4447891 "+" "G7875_RNA" +"G7876" "ytfP" ["ytfP", "b4222", "ECK4218"] 4447894 4448235 "+" "G7876_RNA" +"G7877" "ridA" ["ridA", "yjgF", "b4243", "ECK4238"] 4470527 4470913 "-" "G7877_RNA" +"G7878" null ["b4247"] 4472513 4472845 "+" "G7878_RNA" +"G7879" "yjgH" ["yjgH", "b4248", "ECK4242"] 4472814 4473209 "-" "G7879_RNA" +"G7880" "bdcA" ["bdcA", "yjgI", "b4249", "ECK4243"] 4473340 4474053 "-" "G7880_RNA" +"G7881" null ["b4250"] 4474227 4474391 "+" "G7881_RNA" +"G7882" "bdcR" ["bdcR", "yjgJ", "b4251", "ECK4244"] 4474124 4474717 "+" "G7882_RNA" +"G7883" "tabA" ["tabA", "yjgK", "b4252", "ECK4245"] 4474862 4475314 "+" "G7883_RNA" +"G7884" "yjgL" ["yjgL", "b4253", "ECK4246"] 4475437 4477251 "+" "G7884_RNA" +"G7885" "rraB" ["rraB", "yjgD", "b4255", "ECK4248"] 4478473 4478889 "+" "G7885_RNA" +"G7886" "yjgM" ["yjgM", "b4256", "ECK4249"] 4479034 4479537 "-" "G7886_RNA" +"G7887" "yjgN" ["yjgN", "b4257", "ECK4250"] 4479730 4480926 "+" "G7887_RNA" +"G7888" "lptF" ["lptF", "yjgP", "b4261", "ECK4254"] 4486218 4487318 "+" "G7888_RNA" +"G7889" "lptG" ["lptG", "yjgQ", "b4262", "ECK4255"] 4487318 4488400 "+" "G7889_RNA" +"G7890" "yjgR" ["yjgR", "b4263", "ECK4256"] 4488561 4490063 "-" "G7890_RNA" +"G7891" "idnR" ["idnR", "gntS?", "gntH", "yjgS", "b4264", "ECK4257"] 4490141 4491139 "-" "G7891_RNA" +"G7892" "idnO" ["idnO", "yjgU", "b4266", "ECK4259"] 4492587 4493351 "-" "G7892_RNA" +"G7893" "idnD" ["idnD", "yjgV", "b4267", "ECK4260"] 4493375 4494406 "-" "G7893_RNA" +"G7894" "insC6" ["insC6", "yi21-6", "b4272", "ECK0357"] 4498272 4498637 "+" "G7894_RNA" +"G7895" "insD6" ["insD6", "yi22-6", "b4273", "ECK0358"] 4498595 4499500 "+" "G7895_RNA" +"G7896" "yjgW" ["yjgW", "b4274", "ECK4265"] 4499599 4499934 "+" "G7896_RNA" +"G7898" "yjgX" ["yjgX", "yjgY", "b4276", "b4275", "b4560", "b4575", "ECK4266"] 4499593 4500791 "-" "G7898_RNA" +"G7899" "yjgZ" ["yjgZ", "b4277", "ECK4267"] 4501260 4501589 "+" "G7899_RNA" +"G7900" "insG" ["insG", "yi41", "b4278", "ECK4268"] 4502103 4503431 "-" "G7900_RNA" +"G7901" "nanY" ["nanY", "yjhC", "b4280", "ECK4270"] 4505287 4506405 "+" "G7901_RNA" +"G7902" "yjhD" ["yjhD", "b4281", "ECK4271"] 4506626 4506856 "-" "G7902_RNA" +"G7903" "yjhE" ["yjhE", "b4282", "ECK4272"] 4506861 4507109 "+" "G7903_RNA" +"G7904" "insO" ["insO", "yi91", "yi91b", "b4283", "ECK0257", "insN2", "insO2", "b4285", "ECK4274", "b4562", "ECK4275", "yjhW", "b4623", "ECK4476"] null null "+" "G7904_RNA" +"G7905" "insI3" ["insI3", "tra8-3", "b4284", "ECK0258"] 4507466 4508617 "-" "G7905_RNA" +"G7907" "yjhV" ["yjhV", "b4286", "ECK4276"] 4509804 4510133 "+" "G7907_RNA" +"G7908" "insA7" ["insA7", "b4294", "ECK0023"] 4518527 4518802 "+" "G7908_RNA" +"G7909" "yjhU" ["yjhU", "b4295", "ECK4284"] 4519338 4520324 "-" "G7909_RNA" +"G7910" "yjhG" ["yjhG", "b4297", "ECK4286"] 4522127 4524094 "-" "G7910_RNA" +"G7911" "yjhH" ["yjhH", "b4298", "ECK4287"] 4524105 4525010 "-" "G7911_RNA" +"G7912" "yjhI" ["yjhI", "b4299", "ECK4288"] 4525015 4525803 "-" "G7912_RNA" +"G7913" "sgcR" ["sgcR", "yjhJ", "b4300", "ECK4289"] 4526106 4526888 "-" "G7913_RNA" +"G7914" "sgcE" ["sgcE", "yjhK", "b4301", "ECK4290"] 4526905 4527537 "-" "G7914_RNA" +"G7915" "sgcQ" ["sgcQ", "yjhM", "b4303", "ECK4292"] 4528111 4528917 "-" "G7915_RNA" +"G7916" "yjhP" ["yjhP", "b4306", "ECK4296"] 4532437 4533183 "-" "G7916_RNA" +"G7917" "yjhQ" ["yjhQ", "b4307", "ECK4297"] 4533239 4533784 "-" "G7917_RNA" +"G7918" "yjhR" ["yjhR", "b4308", "ECK4299"] 4535015 4536031 "+" "G7918_RNA" +"G7919" "nanS" ["nanS", "yjhS", "b4309", "ECK4300"] 4536614 4537594 "-" "G7919_RNA" +"G7920" "nanM" ["nanM", "yjhT", "b4310", "ECK4301"] 4537659 4538765 "-" "G7920_RNA" +"G7921" "nanC" ["nanC", "yjhA", "b4311", "ECK4302"] 4538785 4539501 "-" "G7921_RNA" +"G7922" "yjiC" ["yjiC", "b4325", "ECK4316"] 4555490 4556320 "-" "G7922_RNA" +"G7923" "iraD" ["iraD", "yjiD", "b4326", "ECK4317"] 4556993 4557385 "+" "G7923_RNA" +"G7924" "hypT" ["hypT", "qseD", "yjiE", "b4327", "ECK4318"] 4557378 4558289 "-" "G7924_RNA" +"G7925" "iadA" ["iadA", "yjiF", "b4328", "ECK4319"] 4558354 4559526 "-" "G7925_RNA" +"G7926" "yjiG" ["yjiG", "b4329", "ECK4320"] 4559539 4560000 "-" "G7926_RNA" +"G7927" "yjiH" ["yjiH", "b4330", "ECK4321"] 4559997 4560680 "-" "G7927_RNA" +"G7928" "kptA" ["kptA", "yjiI", "b4331", "ECK4322"] 4560930 4561484 "+" "G7928_RNA" +"G7929" "yjiJ" ["yjiJ", "b4332", "ECK4323"] 4561497 4562675 "-" "G7929_RNA" +"G7930" "yjiK" ["yjiK", "b4333", "ECK4324"] 4562743 4563603 "-" "G7930_RNA" +"G7931" "yjiL" ["yjiL", "b4334", "ECK4325"] 4563922 4564689 "-" "G7931_RNA" +"G7932" "yjiM" ["yjiM", "b4335", "ECK4326"] 4564699 4565850 "-" "G7932_RNA" +"G7933" "yjiN" ["yjiN", "b4336", "ECK4327"] 4565966 4567246 "-" "G7933_RNA" +"G7934" "rpnD" ["rpnD", "yjiP", "b4338", "ECK4330", "yjiQ", "b4339", "b4584", "ECK4329"] 4568998 4569918 "+" "G7934_RNA" +"G7936" "yjiR" ["yjiR", "b4340", "ECK4331"] 4570162 4571574 "-" "G7936_RNA" +"G7937" "yjiS" ["yjiS", "b4341", "ECK4332"] 4571751 4571915 "+" "G7937_RNA" +"G7938" "yjiT" ["yjiT", "b4342", "ECK4333"] 4572414 4573931 "+" "G7938_RNA" +"G7940" "symE" ["symE", "yjiW", "dinL", "sosC", "b4347", "ECK4337"] 4579499 4579840 "-" "G7940_RNA" +"G7941" "yjiX" ["yjiX", "b4353", "ECK4343"] 4588876 4589079 "-" "G7941_RNA" +"G7942" "btsT" ["btsT", "yjiY", "b4354", "ECK4344"] 4589129 4591279 "-" "G7942_RNA" +"G7944" "lgoR" ["lgoR", "yjjM", "b4357", "ECK4347"] 4594937 4595851 "-" "G7944_RNA" +"G7945" "lgoD" ["lgoD", "yjjN", "b4358", "ECK4348"] 4595990 4597012 "+" "G7945_RNA" +"G7946" "yjjP" ["yjjP", "b4364", "ECK4354"] 4602088 4602858 "-" "G7946_RNA" +"G7947" "yjjQ" ["yjjQ", "b4365", "ECK4355"] 4603477 4604202 "+" "G7947_RNA" +"G7948" "bglJ" ["bglJ", "yjjR", "b4366", "ECK4356"] 4604160 4604837 "+" "G7948_RNA" +"G7949" "fhuF" ["fhuF", "yjjS", "b4367", "ECK4357"] 4604875 4605663 "-" "G7949_RNA" +"G7950" "rsmC" ["rsmC", "yjjT", "b4371", "ECK4362"] 4606669 4607700 "-" "G7950_RNA" +"G7951" "yjjU" ["yjjU", "b4377", "ECK4369"] 4612411 4613484 "+" "G7951_RNA" +"G7952" "yjjV" ["yjjV", "b4378", "ECK4370"] 4613481 4614260 "+" "G7952_RNA" +"G7953" "yjjW" ["yjjW", "b4379", "ECK4371"] 4614680 4615543 "-" "G7953_RNA" +"G7954" "yjjY" ["yjjY", "b4402", "ECK4394"] 4640402 4640542 "+" "G7954_RNA" +"G7961" "feaB" ["feaB", "ydbG", "padA", "b1385", "ECK1382"] 1447519 1449018 "+" "G7961_RNA" +"G7990" "fruB" ["fruB", "fpr", "fruF", "b2169", "ECK2162"] 2262365 2263495 "-" "G7990_RNA" +"G7991" "cysT" ["cysT", "b1910", "ECK1909"] 1991914 1991987 "-" "cysT-tRNA" +"G81" "uxaC" ["uxaC", "ygjY", "ygjX", "ygjZ", "b3092", "ECK3083"] 3243329 3244741 "-" "G81_RNA" +"G812" "nrdG" ["nrdG", "yjgE", "b4237", "ECK4232"] 4459900 4460364 "-" "G812_RNA" +"G8202" "yaaI" ["yaaI", "b0013", "ECK0013"] 11382 11786 "-" "G8202_RNA" +"G8203" null ["rhsC", "b0701"] 733370 733591 "+" "G8203_RNA" +"G8205" "gapC" ["gapC", "b1416", "b1417", "b4493", "ECK1409"] 1489713 1490713 "-" "G8205_RNA" +"G8208" "yehH" ["yehH", "molR", "b2116", "yehG", "b2117", "b4499", "ECK2108"] 2197410 2200269 "+" "G8208_RNA" +"G8210" "srlA" ["srlA", "gutA", "sbl", "srlA-1", "b2702", "ECK2697"] 2825832 2826395 "+" "G8210_RNA" +"G8221" "ilvG" ["ilvG", "ilvO", "b3767", "b3768", "b4488", "ECK3760"] 3950560 3952204 "+" "G8221_RNA" +"G85" "xapA" ["xapA", "pndA", "b2407", "ECK2401"] 2524045 2524878 "-" "G85_RNA" +"GB4478" "dgoD" ["dgoD", "b3692", "yidU", "b4478", "ECK3684"] 3871850 3872998 "-" "GB4478_RNA" +"M004" "rpe" ["rpe", "dod", "yhfD", "b3386", "ECK3373"] 3514382 3515059 "-" "M004_RNA" +"M007" "thiM" ["thiM", "b2104", "ECK2097"] 2184513 2185301 "-" "M007_RNA" +"M009" "hcaE" ["hcaE", "yfhU", "digA", "phdC1", "hcaA", "hcaA1", "b2538", "ECK2535"] 2669032 2670393 "+" "M009_RNA" +"M010" "mhpA" ["mhpA", "b0347", "ECK0344"] 368611 370275 "+" "M010_RNA" +"M011" "mhpB" ["mhpB", "b0348", "ECK0345"] 370277 371221 "+" "M011_RNA" +"M012" "mhpC" ["mhpC", "b0349", "ECK0346"] 371239 372105 "+" "M012_RNA" +"M013" "mhpD" ["mhpD", "mhpS", "b0350", "ECK0347"] 372115 372924 "+" "M013_RNA" +"M014" "mhpF" ["mhpF", "b0351", "ECK0348"] 372921 373871 "+" "M014_RNA" +"M015" "hcaF" ["hcaF", "yfhV", "hcaA", "phdC2", "digB", "hcaB", "hcaA2", "b2539", "ECK2536"] 2670390 2670908 "+" "M015_RNA" +"RUVA" "ruvA" ["ruvA", "b1861", "ECK1862"] 1945365 1945976 "-" "RUVA_RNA" +"RUVB" "ruvB" ["ruvB", "b1860", "ECK1861"] 1944346 1945356 "-" "RUVB_RNA" diff --git a/reconstruction/ecoli/flat/metabolic_reactions.tsv b/reconstruction/ecoli/flat/metabolic_reactions.tsv index 44491280a7..b9d4214dbe 100644 --- a/reconstruction/ecoli/flat/metabolic_reactions.tsv +++ b/reconstruction/ecoli/flat/metabolic_reactions.tsv @@ -1,1844 +1,4899 @@ -# Note: Reactions listed in metabolic_reactions_removed.tsv are removed from simulation data. -"id" "stoichiometry" "is_reversible" "catalyzed_by" -"1.1.1.127-RXN" {"NADH[c]": 1, "PROTON[c]": 1, "2-DEHYDRO-3-DEOXY-D-GLUCONATE[c]": -1, "CPD-343[c]": 1, "NAD[c]": -1} true ["KDUD-MONOMER"] -"1.1.1.215-RXN" {"NADPH[c]": -1, "GLUCONATE[c]": 1, "CPD-377[c]": -1, "PROTON[c]": -1, "NADP[c]": 1} false ["CPLX0-235"] -"1.1.1.262-RXN" {"NADH[c]": 1, "PROTON[c]": 1, "2-AMINO-3-OXO-4-PHOSPHONOOXYBUTYRATE[c]": 1, "NAD[c]": -1, "4-PHOSPHONOOXY-THREONINE[c]": -1} false ["CPLX0-7847"] -"1.1.1.264-RXN-L-IDONATE/NAD//5-DEHYDROGLUCONATE/NADH/PROTON.46." {"NADH[c]": -1, "L-IDONATE[c]": 1, "PROTON[c]": -1, "NAD[c]": 1, "5-DEHYDROGLUCONATE[c]": -1} true ["IDONDEHYD-MONOMER"] -"1.1.1.264-RXN-L-IDONATE/NADP//5-DEHYDROGLUCONATE/NADPH/PROTON.48." {"NADPH[c]": 1, "NADP[c]": -1, "L-IDONATE[c]": -1, "PROTON[c]": 1, "5-DEHYDROGLUCONATE[c]": 1} true ["IDONDEHYD-MONOMER"] -"1.1.1.274-RXN" {"NADPH[c]": -1, "NADP[c]": 1, "CPD-377[c]": 1, "25-DIDEHYDRO-D-GLUCONATE[c]": -1, "PROTON[c]": -1} false [] -"1.1.1.283-RXN" {"NADPH[c]": -1, "METHYL-GLYOXAL[c]": -1, "PROTON[c]": -1, "LACTALD[c]": 1, "NADP[c]": 1} false ["METHYLGLYREDUCT-MONOMER"] -"1.1.1.39-RXN" {"NADH[c]": 1, "CARBON-DIOXIDE[c]": 1, "MAL[c]": -1, "PYRUVATE[c]": 1, "NAD[c]": -1} false ["MALIC-NAD-CPLX"] -"1.1.1.83-RXN" {"NADH[c]": 1, "CARBON-DIOXIDE[c]": 1, "PYRUVATE[c]": 1, "CPD-660[c]": -1, "NAD[c]": -1} false ["G6986-MONOMER"] -"1.2.99.7-RXN-ACETALD/FAD/WATER//ACET/FADH2.30." {"ACET[p]": -1, "WATER[p]": 1, "FADH2[p]": -1, "ACETALD[p]": 1, "FAD[p]": 1} true [] -"1.2.99.7-RXN-BENZALDEHYDE/FAD/WATER//BENZOATE/FADH2.39." {"WATER[p]": 1, "BENZALDEHYDE[p]": 1, "FADH2[p]": -1, "BENZOATE[p]": -1, "FAD[p]": 1} true [] -"1.2.99.7-RXN-CPD-371/FAD/WATER//CPD-195/FADH2.33." {"WATER[p]": -1, "FADH2[p]": 1, "FAD[p]": -1, "CPD-195[p]": 1, "CPD-371[p]": -1} true [] -"1.2.99.7-RXN-CPD-665/FAD/WATER//PROPIONATE/FADH2.36." {"PROPIONATE[p]": 1, "WATER[p]": -1, "FADH2[p]": 1, "FAD[p]": -1, "CPD-665[p]": -1} true [] -"1.2.99.7-RXN-CPD-8490/FAD/WATER//CPD-3617/FADH2.35." {"CPD-8490[p]": 1, "WATER[p]": 1, "FADH2[p]": -1, "CPD-3617[p]": -1, "FAD[p]": 1} true [] -"1.2.99.7-RXN-HEXANAL/FAD/WATER//HEXANOATE/FADH2.35." {"WATER[p]": 1, "HEXANOATE[p]": -1, "FAD[p]": 1, "HEXANAL[p]": 1, "FADH2[p]": -1} true [] -"1.2.99.7-RXN-HYDRPHENYLAC-CPD/FAD/WATER//3-HYDROXYPHENYLACETATE/FADH2.57." {"3-HYDROXYPHENYLACETATE[p]": 1, "WATER[p]": -1, "HYDRPHENYLAC-CPD[p]": -1, "FADH2[p]": 1, "FAD[p]": -1} true [] -"1.2.99.7-RXN-METHYL-GLYOXAL/FAD/WATER//PYRUVATE/FADH2.41." {"METHYL-GLYOXAL[p]": -1, "FADH2[p]": 1, "FAD[p]": -1, "PYRUVATE[p]": 1, "WATER[p]": -1} true [] -"1.5.1.20-RXN-5-METHYL-THF/NAD//METHYLENE-THF/NADH/PROTON.44." {"NADH[c]": -1, "PROTON[c]": -1, "5-METHYL-THF[c]": 1, "NAD[c]": 1, "METHYLENE-THF[c]": -1} false ["METHYLENETHFREDUCT-CPLX"] -"1.5.1.20-RXN-CPD-1302/NAD//CPD-12996/NADH/PROTON.36." {"NADH[c]": -1, "CPD-1302[c]": 1, "CPD-12996[c]": -1, "PROTON[c]": -1, "NAD[c]": 1} false ["METHYLENETHFREDUCT-CPLX"] -"1.7.2.3-RXN-TRIMETHYLAMINE/Cytochromes-C-Oxidized/WATER//TRIMENTHLAMINE-N-O/Cytochromes-C-Reduced/PROTON.93." {"Cytochromes-C-Reduced[c]": -2, "PROTON[c]": -3, "TRIMETHYLAMINE[c]": 1, "Cytochromes-C-Oxidized[c]": 2, "WATER[c]": 1, "TRIMENTHLAMINE-N-O[c]": -1} true [] -"1.7.2.3-RXN-TRIMETHYLAMINE/Cytochromes-CL-Ox/WATER//TRIMENTHLAMINE-N-O/Cytochromes-CL-Red/PROTON.85." {"Cytochromes-CL-Red[c]": 2, "Cytochromes-CL-Ox[c]": -2, "PROTON[c]": 3, "TRIMETHYLAMINE[c]": -1, "WATER[c]": -1, "TRIMENTHLAMINE-N-O[c]": 1} true [] -"1.7.2.3-RXN-TRIMETHYLAMINE/Oxidized-cytochromes-c2/WATER//TRIMENTHLAMINE-N-O/Reduced-cytochromes-c2/PROTON.95." {"Reduced-cytochromes-c2[c]": -2, "PROTON[c]": -3, "TRIMETHYLAMINE[c]": 1, "WATER[c]": 1, "Oxidized-cytochromes-c2[c]": 2, "TRIMENTHLAMINE-N-O[c]": -1} true [] -"1.7.2.3-RXN-TRIMETHYLAMINE/Oxidized-cytochromes-c553/WATER//TRIMENTHLAMINE-N-O/Reduced-cytochromes-c553/PROTON.99." {"PROTON[c]": 3, "TRIMETHYLAMINE[c]": -1, "WATER[c]": -1, "Oxidized-cytochromes-c553[c]": -2, "Reduced-cytochromes-c553[c]": 2, "TRIMENTHLAMINE-N-O[c]": 1} true [] -"1.8.1.4-RXN" {"Dihydro-Lipoyl-Proteins[c]": 1, "PROTON[c]": -1, "Lipoyl-Protein-N6-lipoyllysine[c]": -1, "NAD[c]": 1, "NADH[c]": -1} true ["E3-CPLX", "PYRUVATEDEH-CPLX", "2OXOGLUTARATEDEH-CPLX"] -"1.8.4.12-RXN" {"WATER[c]": 1, "Protein-L-methionine-R-S-oxides[c]": -1, "Ox-Thioredoxin[c]": 1, "Red-Thioredoxin[c]": -1, "Protein-L-methionine[c]": 1} true ["EG12394-MONOMER"] -"1.8.4.13-RXN-MET/Ox-Thioredoxin/WATER//CPD-8989/Red-Thioredoxin.51." {"WATER[c]": 1, "Red-Thioredoxin[c]": -1, "Ox-Thioredoxin[c]": 1, "CPD-8989[c]": -1, "MET[c]": 1} false ["EG10124-MONOMER", "EG11433-MONOMER"] -"1.8.4.14-RXN-MET/Ox-Thioredoxin/WATER//CPD-8990/Red-Thioredoxin.51." {"WATER[c]": 1, "Red-Thioredoxin[c]": -1, "Ox-Thioredoxin[c]": 1, "CPD-8990[c]": -1, "MET[c]": 1} false ["EG12394-MONOMER", "G7005-MONOMER"] -"1.8.4.4-RXN" {"CYS[c]": 2, "GLUTATHIONE[c]": -2, "CYSTINE[c]": -1, "OXIDIZED-GLUTATHIONE[c]": 1} true [] -"1.8.4.8-RXN-3-5-ADP/SO3/Ox-Thioredoxin/PROTON//PAPS/Red-Thioredoxin.56." {"Ox-Thioredoxin[c]": 1, "PROTON[c]": 2, "PAPS[c]": -1, "Red-Thioredoxin[c]": -1, "3-5-ADP[c]": 1, "SO3[c]": 1} false ["PAPSSULFOTRANS-CPLX"] -"1TRANSKETO-RXN" {"XYLULOSE-5-PHOSPHATE[c]": 1, "GAP[c]": -1, "RIBOSE-5P[c]": 1, "D-SEDOHEPTULOSE-7-P[c]": -1} true ["CPLX0-1261", "TRANSKETOI-CPLX"] -"2-DEHYDROPANTOATE-REDUCT-RXN" {"NADPH[c]": -1, "NADP[c]": 1, "PROTON[c]": -1, "L-PANTOATE[c]": 1, "2-DEHYDROPANTOATE[c]": -1} false ["CPLX0-7643", "2-DEHYDROPANTOATE-REDUCT-MONOMER"] -"2-ISOPROPYLMALATESYN-RXN" {"PROTON[c]": 1, "2-KETO-ISOVALERATE[c]": -1, "CO-A[c]": 1, "3-CARBOXY-3-HYDROXY-ISOCAPROATE[c]": 1, "WATER[c]": -1, "ACETYL-COA[c]": -1} false ["2-ISOPROPYLMALATESYN-MONOMER"] -"2-METHYLCITRATE-DEHYDRATASE-RXN" {"WATER[c]": 1, "CPD-622[c]": -1, "CPD-1136[c]": 1} false ["G6199-MONOMER"] -"2-METHYLCITRATE-SYNTHASE-RXN" {"OXALACETIC_ACID[c]": -1, "PROTON[c]": 1, "CPD-622[c]": 1, "CO-A[c]": 1, "PROPIONYL-COA[c]": -1, "WATER[c]": -1} false ["CPLX0-251"] -"2-OCTAPRENYL-6-METHOXYPHENOL-HYDROX-RXN" {"OXYGEN-MOLECULE[c]": -1, "OCTAPRENYL-METHOXY-BENZOQUINONE[c]": 1, "NADP[c]": 1, "PROTON[c]": -1, "NADPH[c]": -1, "WATER[c]": 1, "2-OCTAPRENYL-6-METHOXYPHENOL[c]": -1} false ["OCTAPRENYL-METHOXYPHENOL-OH-MONOMER"] -"2-OCTAPRENYL-6-OHPHENOL-METHY-RXN" {"2-OCTAPRENYL-6-HYDROXYPHENOL[c]": -1, "ADENOSYL-HOMO-CYS[c]": 1, "S-ADENOSYLMETHIONINE[c]": -1, "PROTON[c]": 1, "2-OCTAPRENYL-6-METHOXYPHENOL[c]": 1} false ["DHHB-METHYLTRANSFER-CPLX"] -"2-OCTAPRENYL-METHOXY-BENZOQ-METH-RXN" {"PROTON[c]": 1, "OCTAPRENYL-METHYL-METHOXY-BENZQ[c]": 1, "S-ADENOSYLMETHIONINE[c]": -1, "ADENOSYL-HOMO-CYS[c]": 1, "OCTAPRENYL-METHOXY-BENZOQUINONE[c]": -1} false ["2-OCTAPRENYL-METHOXY-BENZOQ-METH-MONOMER"] -"2-OCTAPRENYLPHENOL-HYDROX-RXN" {"OXYGEN-MOLECULE[c]": -1, "NADP[c]": 1, "PROTON[c]": -1, "NADPH[c]": -1, "2-OCTAPRENYLPHENOL[c]": -1, "WATER[c]": 1, "2-OCTAPRENYL-6-HYDROXYPHENOL[c]": 1} false ["EG11333-MONOMER"] -"2-OXOPENT-4-ENOATE-HYDRATASE-RXN" {"WATER[c]": -1, "OXOPENTENOATE[c]": -1, "4-HYDROXY-2-KETOVALERATE[c]": 1} false ["CPLX0-7951"] -"2.3.1.118-RXN" {"CO-A[c]": 1, "ACETYL-COA[c]": -1, "N-Acetoxy-Arylamines[c]": 1, "N-Hydroxy-Arylamines[c]": -1} true ["CPLX0-236"] -"2.3.1.157-RXN" {"CO-A[c]": 1, "GLUCOSAMINE-1P[c]": -1, "ACETYL-COA[c]": -1, "PROTON[c]": 1, "N-ACETYL-D-GLUCOSAMINE-1-P[c]": 1} false ["NAG1P-URIDYLTRANS-CPLX"] -"2.3.1.180-RXN-ACETYL-COA/MALONYL-ACP/PROTON//Acetoacetyl-ACPs/CARBON-DIOXIDE/CO-A.68." {"Acetoacetyl-ACPs[c]": 1, "PROTON[c]": -1, "CO-A[c]": 1, "CARBON-DIOXIDE[c]": 1, "ACETYL-COA[c]": -1, "MALONYL-ACP[c]": -1} false ["CPLX0-252"] -"2.5.1.19-RXN" {"3-ENOLPYRUVYL-SHIKIMATE-5P[c]": 1, "SHIKIMATE-5P[c]": -1, "PHOSPHO-ENOL-PYRUVATE[c]": -1, "PI[c]": 1} true ["AROA-MONOMER"] -"2.5.1.64-RXN" {"CPD-9924[c]": 1, "PROTON[c]": -1, "CARBON-DIOXIDE[c]": 1, "2-KETOGLUTARATE[c]": -1, "ISOCHORISMATE[c]": -1} false ["CPLX0-7525"] -"2.6.1.57-RXN" {"GLT[c]": -1, "Aromatic-Amino-Acids[c]": 1, "Aromatic-Oxoacids[c]": -1, "2-KETOGLUTARATE[c]": 1} true ["TYRB-DIMER"] -"2.6.1.82-RXN" {"WATER[c]": -1, "GLT[c]": -1, "CPD-6124[c]": -1, "PUTRESCINE[c]": 1, "2-KETOGLUTARATE[c]": 1} true ["CPLX0-8159"] -"2.7.1.121-RXN" {"DIHYDROXY-ACETONE-PHOSPHATE[c]": 1, "PYRUVATE[c]": 1, "PHOSPHO-ENOL-PYRUVATE[c]": -1, "DIHYDROXYACETONE[c]": -1} false ["CPLX0-2081"] -"2.7.1.148-RXN" {"2-PHOSPHO-4-CYTIDINE-5-DIPHOSPHO-2-C-MET[c]": 1, "4-CYTIDINE-5-DIPHOSPHO-2-C[c]": -1, "PROTON[c]": 1, "ADP[c]": 1, "ATP[c]": -1} false ["CPLX0-3841"] -"2.7.10.1-RXN" {"Protein-tyrosine-phosphates[c]": 1, "PROTON[c]": 1, "ATP[c]": -1, "ADP[c]": 1, "Protein-Tyrosines[c]": -1} false ["G7105-MONOMER", "CPLX0-7529", "EG11826-MONOMER"] -"2.7.7.1-RXN" {"PROTON[c]": -1, "NICOTINAMIDE_NUCLEOTIDE[c]": -1, "PPI[c]": 1, "NAD[c]": 1, "ATP[c]": -1} false ["CPLX0-7975"] -"2.7.7.13-RXN" {"PPI[c]": 1, "PROTON[c]": -1, "GTP[c]": -1, "GDP-MANNOSE[c]": 1, "MANNOSE-1P[c]": -1} false ["MANNPGUANYLTRANGDP-MONOMER"] -"2.7.7.60-RXN" {"CTP[c]": -1, "PROTON[c]": -1, "4-CYTIDINE-5-DIPHOSPHO-2-C[c]": 1, "2-C-METHYL-D-ERYTHRITOL-4-PHOSPHATE[c]": -1, "PPI[c]": 1} false ["CPLX0-234"] -"2.8.1.6-RXN" {"CH33ADO[c]": 2, "Unsulfurated-Sulfur-Acceptors[c]": 1, "Oxidized-2Fe-2S-Ferredoxins[c]": 2, "DETHIOBIOTIN[c]": -1, "S-ADENOSYLMETHIONINE[c]": -2, "Reduced-2Fe-2S-Ferredoxins[c]": -2, "MET[c]": 2, "BIOTIN[c]": 1, "Sulfurated-Sulfur-Acceptors[c]": -1} false ["BIOTIN-SYN-CPLX"] -"2OXOGLUTARATEDEH-RXN" {"NADH[c]": 1, "NAD[c]": -1, "SUC-COA[c]": 1, "2-KETOGLUTARATE[c]": -1, "CO-A[c]": -1, "CARBON-DIOXIDE[c]": 1} false ["2OXOGLUTARATEDEH-CPLX"] -"2OXOGLUTDECARB-RXN" {"CARBON-DIOXIDE[c]": 1, "Oxo-glutarate-dehydro-suc-DH-lipoyl[c]": 1, "PROTON[c]": -1, "2-KETOGLUTARATE[c]": -1, "Oxo-glutarate-dehydrogenase-lipoyl[c]": -1} false ["E1O", "2OXOGLUTARATEDEH-CPLX"] -"2PGADEHYDRAT-RXN" {"WATER[c]": -1, "2-PG[c]": 1, "PHOSPHO-ENOL-PYRUVATE[c]": -1} true ["ENOLASE-CPLX", "CPLX0-2381"] -"2TRANSKETO-RXN" {"XYLULOSE-5-PHOSPHATE[c]": 1, "GAP[c]": -1, "ERYTHROSE-4P[c]": 1, "FRUCTOSE-6P[c]": -1} true ["TRANSKETOI-CPLX", "CPLX0-1261"] -"3-CH3-2-OXOBUTANOATE-OH-CH3-XFER-RXN-CPD-12996/2-KETO-ISOVALERATE/WATER//2-DEHYDROPANTOATE/CPD-1301.63." {"WATER[c]": -1, "CPD-12996[c]": -1, "2-DEHYDROPANTOATE[c]": 1, "2-KETO-ISOVALERATE[c]": -1, "CPD-1301[c]": 1} true ["3-METHYL-2-OXOBUT-OHCH3XFER-CPLX"] -"3-CH3-2-OXOBUTANOATE-OH-CH3-XFER-RXN-METHYLENE-THF/2-KETO-ISOVALERATE/WATER//2-DEHYDROPANTOATE/THF.62." {"WATER[c]": 1, "METHYLENE-THF[c]": 1, "2-DEHYDROPANTOATE[c]": -1, "2-KETO-ISOVALERATE[c]": 1, "THF[c]": -1} true ["3-METHYL-2-OXOBUT-OHCH3XFER-CPLX"] -"3-DEHYDROQUINATE-DEHYDRATASE-RXN" {"3-DEHYDRO-SHIKIMATE[c]": -1, "WATER[c]": -1, "DEHYDROQUINATE[c]": 1} true ["AROD-CPLX"] -"3-DEHYDROQUINATE-SYNTHASE-RXN" {"3-DEOXY-D-ARABINO-HEPTULOSONATE-7-P[c]": -1, "DEHYDROQUINATE[c]": 1, "PI[c]": 1} false ["AROB-MONOMER"] -"3-HYDROXBUTYRYL-COA-DEHYDRATASE-RXN" {"WATER[c]": 1, "CPD-650[c]": -1, "CROTONYL-COA[c]": 1} true ["G6708-MONOMER"] -"3-HYDROXYDECANOYL-ACP-DEHYDR-RXN-3-Hydroxy-octanoyl-ACPs//2-Octenoyl-ACPs/WATER.47." {"WATER[c]": 1, "2-Octenoyl-ACPs[c]": 1, "3-Hydroxy-octanoyl-ACPs[c]": -1} false ["FABZ-CPLX", "FABA-CPLX"] -"3-HYDROXYDECANOYL-ACP-DEHYDR-RXN-Beta-3-hydroxybutyryl-ACPs//Crotonyl-ACPs/WATER.48." {"WATER[c]": 1, "Beta-3-hydroxybutyryl-ACPs[c]": -1, "Crotonyl-ACPs[c]": 1} false ["FABZ-CPLX", "FABA-CPLX"] -"3-HYDROXYDECANOYL-ACP-DEHYDR-RXN-Beta-hydroxydecanoyl-ACPs//Trans-D2-decenoyl-ACPs/WATER.56." {"WATER[c]": 1, "Trans-D2-decenoyl-ACPs[c]": 1, "Beta-hydroxydecanoyl-ACPs[c]": -1} false ["FABZ-CPLX", "FABA-CPLX"] -"3-HYDROXYDECANOYL-ACP-DEHYDR-RXN-R-3-Hydroxypalmitoyl-ACPs//2-Hexadecenoyl-ACPs/WATER.53." {"WATER[c]": 1, "R-3-Hydroxypalmitoyl-ACPs[c]": -1, "2-Hexadecenoyl-ACPs[c]": 1} false ["FABZ-CPLX", "FABA-CPLX"] -"3-HYDROXYDECANOYL-ACP-DEHYDR-RXN-R-3-hydroxydodecanoyl-ACPs//Dodec-2-enoyl-ACPs/WATER.53." {"WATER[c]": 1, "Dodec-2-enoyl-ACPs[c]": 1, "R-3-hydroxydodecanoyl-ACPs[c]": -1} false ["FABZ-CPLX", "FABA-CPLX"] -"3-HYDROXYDECANOYL-ACP-DEHYDR-RXN-R-3-hydroxyhexanoyl-ACPs//Hex-2-enoyl-ACPs/WATER.49." {"WATER[c]": 1, "Hex-2-enoyl-ACPs[c]": 1, "R-3-hydroxyhexanoyl-ACPs[c]": -1} false ["FABZ-CPLX", "FABA-CPLX"] -"3-HYDROXYDECANOYL-ACP-DEHYDR-RXN-R-3-hydroxymyristoyl-ACPs//Tetradec-2-enoyl-ACPs/WATER.55." {"WATER[c]": 1, "Tetradec-2-enoyl-ACPs[c]": 1, "R-3-hydroxymyristoyl-ACPs[c]": -1} false ["FABZ-CPLX", "FABA-CPLX"] -"3-ISOPROPYLMALDEHYDROG-RXN" {"NADH[c]": 1, "PROTON[c]": 1, "CPD-7100[c]": 1, "NAD[c]": -1, "2-D-THREO-HYDROXY-3-CARBOXY-ISOCAPROATE[c]": -1} true ["G6986-MONOMER", "3-ISOPROPYLMALDEHYDROG-CPLX"] -"3-ISOPROPYLMALISOM-RXN" {"WATER[c]": 1, "3-CARBOXY-3-HYDROXY-ISOCAPROATE[c]": -1, "CPD-9451[c]": 1} true ["3-ISOPROPYLMALISOM-CPLX"] -"3-OCTAPRENYL-4-OHBENZOATE-DECARBOX-RXN" {"3-OCTAPRENYL-4-HYDROXYBENZOATE[c]": -1, "PROTON[c]": -1, "2-OCTAPRENYLPHENOL[c]": 1, "CARBON-DIOXIDE[c]": 1} false ["CPLX0-301"] -"3-OXOACYL-ACP-REDUCT-RXN-3-Hydroxy-octanoyl-ACPs/NADP//3-Oxo-octanoyl-ACPs/NADPH/PROTON.63." {"NADPH[c]": -1, "NADP[c]": 1, "PROTON[c]": -1, "3-Hydroxy-octanoyl-ACPs[c]": 1, "3-Oxo-octanoyl-ACPs[c]": -1} false ["CPLX0-8005"] -"3-OXOACYL-ACP-REDUCT-RXN-Beta-3-hydroxybutyryl-ACPs/NADP//Acetoacetyl-ACPs/NADPH/PROTON.63." {"NADPH[c]": -1, "Beta-3-hydroxybutyryl-ACPs[c]": 1, "PROTON[c]": -1, "Acetoacetyl-ACPs[c]": -1, "NADP[c]": 1} false ["CPLX0-8005"] -"3-OXOACYL-ACP-REDUCT-RXN-Beta-hydroxydecanoyl-ACPs/NADP//3-oxo-decanoyl-ACPs/NADPH/PROTON.65." {"NADPH[c]": -1, "3-oxo-decanoyl-ACPs[c]": -1, "PROTON[c]": -1, "Beta-hydroxydecanoyl-ACPs[c]": 1, "NADP[c]": 1} false ["CPLX0-8005"] -"3-OXOACYL-ACP-REDUCT-RXN-R-3-Hydroxypalmitoyl-ACPs/NADP//3-oxo-palmitoyl-ACPs/NADPH/PROTON.66." {"NADPH[c]": -1, "NADP[c]": 1, "R-3-Hydroxypalmitoyl-ACPs[c]": 1, "3-oxo-palmitoyl-ACPs[c]": -1, "PROTON[c]": -1} false ["CPLX0-8005"] -"3-OXOACYL-ACP-REDUCT-RXN-R-3-hydroxydodecanoyl-ACPs/NADP//3-oxo-dodecanoyl-ACPs/NADPH/PROTON.68." {"3-oxo-dodecanoyl-ACPs[c]": -1, "NADPH[c]": -1, "R-3-hydroxydodecanoyl-ACPs[c]": 1, "PROTON[c]": -1, "NADP[c]": 1} false ["CPLX0-8005"] -"3-OXOACYL-ACP-REDUCT-RXN-R-3-hydroxyhexanoyl-ACPs/NADP//3-oxo-hexanoyl-ACPs/NADPH/PROTON.64." {"NADPH[c]": -1, "3-oxo-hexanoyl-ACPs[c]": -1, "PROTON[c]": -1, "R-3-hydroxyhexanoyl-ACPs[c]": 1, "NADP[c]": 1} false ["CPLX0-8005"] -"3-OXOACYL-ACP-REDUCT-RXN-R-3-hydroxymyristoyl-ACPs/NADP//3-oxo-myristoyl-ACPs/NADPH/PROTON.66." {"NADPH[c]": -1, "NADP[c]": 1, "PROTON[c]": -1, "R-3-hydroxymyristoyl-ACPs[c]": 1, "3-oxo-myristoyl-ACPs[c]": -1} false ["CPLX0-8005"] -"3-OXOACYL-ACP-SYNTH-BASE-RXN-MALONYL-ACP/ACETYL-ACP/PROTON//ACP/Acetoacetyl-ACPs/CARBON-DIOXIDE.67." {"Acetoacetyl-ACPs[c]": 1, "PROTON[c]": -1, "ACETYL-ACP[c]": -1, "MALONYL-ACP[c]": -1, "CARBON-DIOXIDE[c]": 1, "ACP[c]": 1} false ["FABB-CPLX", "3-OXOACYL-ACP-SYNTHII-CPLX"] -"3-OXOACYL-ACP-SYNTH-RXN-MALONYL-ACP/Decanoyl-ACPs/PROTON//ACP/3-oxo-dodecanoyl-ACPs/CARBON-DIOXIDE.75." {"3-oxo-dodecanoyl-ACPs[c]": 1, "PROTON[c]": -1, "Decanoyl-ACPs[c]": -1, "CARBON-DIOXIDE[c]": 1, "MALONYL-ACP[c]": -1, "ACP[c]": 1} false ["3-OXOACYL-ACP-SYNTHII-CPLX", "FABB-CPLX"] -"3-OXOACYL-ACP-SYNTH-RXN-MALONYL-ACP/Dodecanoyl-ACPs/PROTON//ACP/3-oxo-myristoyl-ACPs/CARBON-DIOXIDE.76." {"Dodecanoyl-ACPs[c]": -1, "PROTON[c]": -1, "3-oxo-myristoyl-ACPs[c]": 1, "CARBON-DIOXIDE[c]": 1, "MALONYL-ACP[c]": -1, "ACP[c]": 1} false ["3-OXOACYL-ACP-SYNTHII-CPLX", "FABB-CPLX"] -"3-OXOACYL-ACP-SYNTH-RXN-MALONYL-ACP/Hexanoyl-ACPs/PROTON//ACP/3-Oxo-octanoyl-ACPs/CARBON-DIOXIDE.73." {"PROTON[c]": -1, "ACP[c]": 1, "Hexanoyl-ACPs[c]": -1, "CARBON-DIOXIDE[c]": 1, "3-Oxo-octanoyl-ACPs[c]": 1, "MALONYL-ACP[c]": -1} false ["3-OXOACYL-ACP-SYNTHII-CPLX", "FABB-CPLX"] -"3-OXOACYL-ACP-SYNTH-RXN-MALONYL-ACP/Myristoyl-ACPs/PROTON//ACP/3-oxo-palmitoyl-ACPs/CARBON-DIOXIDE.75." {"PROTON[c]": -1, "Myristoyl-ACPs[c]": -1, "MALONYL-ACP[c]": -1, "CARBON-DIOXIDE[c]": 1, "3-oxo-palmitoyl-ACPs[c]": 1, "ACP[c]": 1} false ["3-OXOACYL-ACP-SYNTHII-CPLX", "FABB-CPLX"] -"3-OXOACYL-ACP-SYNTH-RXN-MALONYL-ACP/Octanoyl-ACPs/PROTON//ACP/3-oxo-decanoyl-ACPs/CARBON-DIOXIDE.73." {"3-oxo-decanoyl-ACPs[c]": 1, "PROTON[c]": -1, "MALONYL-ACP[c]": -1, "CARBON-DIOXIDE[c]": 1, "Octanoyl-ACPs[c]": -1, "ACP[c]": 1} false ["3-OXOACYL-ACP-SYNTHII-CPLX", "FABB-CPLX"] -"3-OXOACYL-ACP-SYNTH-RXN-MALONYL-ACP/POLYMER-INST-Saturated-Fatty-Acyl-ACPs-C0-H0/PROTON//ACP/3-oxo-hexanoyl-ACPs/CARBON-DIOXIDE.104." {"PROTON[c]": -1, "MALONYL-ACP[c]": -1, "3-oxo-hexanoyl-ACPs[c]": 1, "POLYMER-INST-Saturated-Fatty-Acyl-ACPs-C0-H0[c]": -1, "CARBON-DIOXIDE[c]": 1, "ACP[c]": 1} false ["3-OXOACYL-ACP-SYNTHII-CPLX", "FABB-CPLX"] -"3.1.2.21-RXN-Dodecanoyl-ACPs/WATER//ACP/DODECANOATE/PROTON.46." {"WATER[c]": -1, "DODECANOATE[c]": 1, "Dodecanoyl-ACPs[c]": -1, "PROTON[c]": 1, "ACP[c]": 1} false [] -"3.1.3.16-RXN" {"WATER[c]": -1, "PI[c]": 1, "Protein-Ser-or-Thr-phosphate[c]": -1, "Protein-L-serine-or-L-threonine[c]": 1} false ["G7415-MONOMER", "G7011-MONOMER"] -"3.1.3.74-RXN[CCO-CYTOSOL]-PYRIDOXAL_PHOSPHATE/WATER//PYRIDOXAL/Pi.53." {"WATER[c]": -1, "PI[c]": 1, "PYRIDOXAL[c]": 1, "PYRIDOXAL_PHOSPHATE[c]": -1} false ["EG11239-MONOMER", "EG11470-MONOMER", "G6246-MONOMER"] -"3.1.4.14-RXN-ACP-MONOMER/WATER//PANTETHEINE-P/EG50003-MONOMER/PROTON.56." {"WATER[c]": -1, "PANTETHEINE-P[c]": 1, "PROTON[c]": 1, "EG50003-MONOMER[c]": 1, "ACP-MONOMER[c]": -1} false ["EG11095-MONOMER"] -"3.1.4.14-RXN-ACP/WATER//PANTETHEINE-P/apo-ACP/PROTON.40." {"WATER[c]": -1, "PANTETHEINE-P[c]": 1, "apo-ACP[c]": 1, "PROTON[c]": 1, "ACP[c]": -1} false ["EG11095-MONOMER"] -"3.1.4.14-RXN-Holo-AsbD-Proteins/WATER//PANTETHEINE-P/Apo-AsbD-Proteins/PROTON.65." {"WATER[c]": -1, "PANTETHEINE-P[c]": 1, "PROTON[c]": 1, "Apo-AsbD-Proteins[c]": 1, "Holo-AsbD-Proteins[c]": -1} false ["EG11095-MONOMER"] -"3.1.4.14-RXN-Holo-CmaA-peptidyl-carrier-protein/WATER//PANTETHEINE-P/CmaA-peptidyl-carrier-protein/PROTON.93." {"WATER[c]": -1, "PANTETHEINE-P[c]": 1, "Holo-CmaA-peptidyl-carrier-protein[c]": -1, "PROTON[c]": 1, "CmaA-peptidyl-carrier-protein[c]": 1} false ["EG11095-MONOMER"] -"3.1.4.14-RXN-Holo-CmaD-peptidyl-carrier-protein/WATER//PANTETHEINE-P/CmaD-peptidyl-carrier-protein/PROTON.93." {"WATER[c]": -1, "PANTETHEINE-P[c]": 1, "PROTON[c]": 1, "Holo-CmaD-peptidyl-carrier-protein[c]": -1, "CmaD-peptidyl-carrier-protein[c]": 1} false ["EG11095-MONOMER"] -"3.1.4.14-RXN-Holo-EntB/WATER//PANTETHEINE-P/Apo-EntB/PROTON.47." {"WATER[c]": -1, "PANTETHEINE-P[c]": 1, "PROTON[c]": 1, "Holo-EntB[c]": -1, "Apo-EntB[c]": 1} false ["EG11095-MONOMER"] -"3.1.4.14-RXN-PigJ/WATER//PANTETHEINE-P/Apo-PigJ/PROTON.42." {"WATER[c]": -1, "PANTETHEINE-P[c]": 1, "PROTON[c]": 1, "Apo-PigJ[c]": 1, "PigJ[c]": -1} false ["EG11095-MONOMER"] -"3.2.1.17-RXN-C6/WATER//C5/N-ACETYL-D-GLUCOSAMINE.36." {"WATER[c]": -1, "C5[c]": 1, "C6[c]": -1, "N-ACETYL-D-GLUCOSAMINE[c]": 1} false ["G6310-MONOMER"] -"3.4.13.18-RXN-D-ALA-D-ALA/WATER//L-ALPHA-ALANINE.35." {"WATER[c]": -1, "D-ALA-D-ALA[c]": -1, "L-ALPHA-ALANINE[c]": 2} false ["CPLX0-3001"] -"3.4.13.22-RXN" {"WATER[c]": -1, "D-ALA-D-ALA[c]": -1, "D-ALANINE[c]": 2} false ["G6782-MONOMER"] -"3.5.1.88-RXN" {"WATER[c]": -1, "METHIONYL-PEPTIDE[c]": 1, "FORMYL-L-METHIONYL-PEPTIDE[c]": -1, "FORMATE[c]": 1} false ["EG11440-MONOMER"] -"3.6.1.19-RXN-CTP/WATER//CMP/PPI/PROTON.26." {"WATER[c]": -1, "CMP[c]": 1, "PPI[c]": 1, "CTP[c]": -1, "PROTON[c]": 1} false ["CPLX0-7692"] -"3.6.1.19-RXN-DATP/WATER//DAMP/PPI/PROTON.28." {"WATER[c]": -1, "PPI[c]": 1, "DATP[c]": -1, "PROTON[c]": 1, "DAMP[c]": 1} false ["CPLX0-7692"] -"3.6.1.19-RXN-DCTP/WATER//DCMP/PPI/PROTON.28." {"WATER[c]": -1, "PROTON[c]": 1, "DCMP[c]": 1, "PPI[c]": 1, "DCTP[c]": -1} false ["CPLX0-7692"] -"3.6.1.19-RXN-DITP/WATER//DIMP/PPI/PROTON.28." {"WATER[c]": -1, "PPI[c]": 1, "DITP[c]": -1, "PROTON[c]": 1, "DIMP[c]": 1} false ["CPLX0-7692"] -"3.6.1.19-RXN-DUTP/WATER//DUMP/PPI/PROTON.28." {"WATER[c]": -1, "PPI[c]": 1, "PROTON[c]": 1, "DUMP[c]": 1, "DUTP[c]": -1} false ["CPLX0-7692"] -"3.6.1.19-RXN-GTP/WATER//GMP/PPI/PROTON.26." {"WATER[c]": -1, "PPI[c]": 1, "GTP[c]": -1, "PROTON[c]": 1, "GMP[c]": 1} false ["CPLX0-7692"] -"3.6.1.19-RXN-ITP/WATER//IMP/PPI/PROTON.26." {"WATER[c]": -1, "PPI[c]": 1, "PROTON[c]": 1, "ITP[c]": -1, "IMP[c]": 1} false ["CPLX0-7692"] -"3.6.1.19-RXN-TTP/WATER//TMP/PPI/PROTON.26." {"WATER[c]": -1, "PPI[c]": 1, "TMP[c]": 1, "PROTON[c]": 1, "TTP[c]": -1} false ["CPLX0-7692"] -"3.6.1.19-RXN-UTP/WATER//UMP/PPI/PROTON.26." {"WATER[c]": -1, "PROTON[c]": 1, "UTP[c]": -1, "UMP[c]": 1, "PPI[c]": 1} false ["CPLX0-7692"] -"3.6.1.19-RXN-XTP/WATER//XANTHOSINE-5-PHOSPHATE/PPI/PROTON.45." {"WATER[c]": -1, "XTP[c]": -1, "PPI[c]": 1, "PROTON[c]": 1, "XANTHOSINE-5-PHOSPHATE[c]": 1} false ["CPLX0-7692"] -"3.6.1.41-RXN" {"WATER[c]": -1, "PROTON[c]": 2, "ADENOSYL-P4[c]": -1, "ADP[c]": 2} false ["EG10048-MONOMER"] -"3.6.3.39-RXN-CPD-11653/ATP/WATER//CPD-11653/ADP/Pi/PROTON.45." {"PI[c]": 1, "ADP[c]": 1, "CPD-11653[p]": 1, "PROTON[c]": 1, "ATP[c]": -1, "WATER[c]": -1, "CPD-11653[c]": -1} false ["CPLX0-7704"] -"3.6.3.39-RXN-CPD-12284/ATP/WATER//CPD-12284/ADP/Pi/PROTON.45." {"PI[c]": 1, "CPD-12284[p]": 1, "ADP[c]": 1, "PROTON[c]": 1, "ATP[c]": -1, "WATER[c]": -1, "CPD-12284[c]": -1} false ["CPLX0-7704"] -"3.6.3.39-RXN-CPD-17530/ATP/WATER//CPD-17530/ADP/Pi/PROTON.45." {"PI[c]": 1, "ADP[c]": 1, "PROTON[c]": 1, "ATP[c]": -1, "WATER[c]": -1, "CPD-17530[p]": 1, "CPD-17530[c]": -1} false ["CPLX0-7704"] -"3.6.3.39-RXN-CPD0-1048/ATP/WATER//CPD0-1048/ADP/Pi/PROTON.45." {"PI[c]": 1, "ADP[c]": 1, "PROTON[c]": 1, "CPD0-1048[c]": -1, "ATP[c]": -1, "WATER[c]": -1, "CPD0-1048[p]": 1} false ["CPLX0-7704"] -"3.6.3.39-RXN-CPD0-1049/ATP/WATER//CPD0-1049/ADP/Pi/PROTON.45." {"PI[c]": 1, "ADP[c]": 1, "CPD0-1049[c]": -1, "PROTON[c]": 1, "CPD0-1049[p]": 1, "ATP[c]": -1, "WATER[c]": -1} false ["CPLX0-7704"] -"3.6.3.39-RXN-CPD0-1050/ATP/WATER//CPD0-1050/ADP/Pi/PROTON.45." {"PI[c]": 1, "ADP[c]": 1, "PROTON[c]": 1, "CPD0-1050[p]": 1, "ATP[c]": -1, "WATER[c]": -1, "CPD0-1050[c]": -1} false ["CPLX0-7704"] -"3.6.3.39-RXN-CPD0-1051/ATP/WATER//CPD0-1051/ADP/Pi/PROTON.45." {"PI[c]": 1, "ADP[c]": 1, "CPD0-1051[c]": -1, "ATP[c]": -1, "WATER[c]": -1, "PROTON[c]": 1, "CPD0-1051[p]": 1} false ["CPLX0-7704"] -"3.6.3.39-RXN-CPD0-1052/ATP/WATER//CPD0-1052/ADP/Pi/PROTON.45." {"PI[c]": 1, "CPD0-1052[c]": -1, "ADP[c]": 1, "PROTON[c]": 1, "CPD0-1052[p]": 1, "ATP[c]": -1, "WATER[c]": -1} false ["CPLX0-7704"] -"3.6.3.39-RXN-CPD0-1283/ATP/WATER//CPD0-1283/ADP/Pi/PROTON.45." {"PI[c]": 1, "ATP[c]": -1, "ADP[c]": 1, "PROTON[c]": 1, "CPD0-1283[c]": -1, "CPD0-1283[p]": 1, "WATER[c]": -1} false ["CPLX0-7704"] -"3.6.3.39-RXN-CPD0-2238/ATP/WATER//CPD0-2238/ADP/Pi/PROTON.45." {"PI[c]": 1, "CPD0-2238[c]": -1, "ADP[c]": 1, "PROTON[c]": 1, "ATP[c]": -1, "WATER[c]": -1, "CPD0-2238[p]": 1} false ["CPLX0-7704"] -"3.6.3.39-RXN-CPD0-2239/ATP/WATER//CPD0-2239/ADP/Pi/PROTON.45." {"PI[c]": 1, "CPD0-2239[c]": -1, "ADP[c]": 1, "PROTON[c]": 1, "ATP[c]": -1, "WATER[c]": -1, "CPD0-2239[p]": 1} false ["CPLX0-7704"] -"3.6.3.39-RXN-CPD0-2240/ATP/WATER//CPD0-2240/ADP/Pi/PROTON.45." {"PI[c]": 1, "CPD0-2240[p]": 1, "ADP[c]": 1, "PROTON[c]": 1, "CPD0-2240[c]": -1, "ATP[c]": -1, "WATER[c]": -1} false ["CPLX0-7704"] -"3.6.3.39-RXN-CPD0-2257/ATP/WATER//CPD0-2257/ADP/Pi/PROTON.45." {"PI[c]": 1, "CPD0-2257[p]": 1, "ADP[c]": 1, "PROTON[c]": 1, "CPD0-2257[c]": -1, "ATP[c]": -1, "WATER[c]": -1} false ["CPLX0-7704"] -"3.6.3.39-RXN-CPD0-2265/ATP/WATER//CPD0-2265/ADP/Pi/PROTON.45." {"PI[c]": 1, "ADP[c]": 1, "CPD0-2265[c]": -1, "PROTON[c]": 1, "CPD0-2265[p]": 1, "ATP[c]": -1, "WATER[c]": -1} false ["CPLX0-7704"] -"3.6.3.39-RXN-CPD0-929/ATP/WATER//CPD0-929/ADP/Pi/PROTON.43." {"PI[c]": 1, "ADP[c]": 1, "CPD0-929[p]": 1, "PROTON[c]": 1, "ATP[c]": -1, "WATER[c]": -1, "CPD0-929[c]": -1} false ["CPLX0-7704"] -"3.6.3.39-RXN-CPD0-930/ATP/WATER//CPD0-930/ADP/Pi/PROTON.43." {"PI[c]": 1, "ADP[c]": 1, "PROTON[c]": 1, "CPD0-930[p]": 1, "ATP[c]": -1, "WATER[c]": -1, "CPD0-930[c]": -1} false ["CPLX0-7704"] -"3.6.3.39-RXN-CPD0-932/ATP/WATER//CPD0-932/ADP/Pi/PROTON.43." {"PI[c]": 1, "CPD0-932[p]": 1, "ADP[c]": 1, "PROTON[c]": 1, "CPD0-932[c]": -1, "ATP[c]": -1, "WATER[c]": -1} false ["CPLX0-7704"] -"3.6.3.39-RXN-CPD0-933/ATP/WATER//CPD0-933/ADP/Pi/PROTON.43." {"PI[c]": 1, "ADP[c]": 1, "CPD0-933[c]": -1, "PROTON[c]": 1, "CPD0-933[p]": 1, "ATP[c]": -1, "WATER[c]": -1} false ["CPLX0-7704"] -"3.6.3.39-RXN-CPD0-934/ATP/WATER//CPD0-934/ADP/Pi/PROTON.43." {"PI[c]": 1, "ADP[c]": 1, "CPD0-934[p]": 1, "PROTON[c]": 1, "CPD0-934[c]": -1, "ATP[c]": -1, "WATER[c]": -1} false ["CPLX0-7704"] -"3.6.3.39-RXN-CPD0-935/ATP/WATER//CPD0-935/ADP/Pi/PROTON.43." {"PI[c]": 1, "ADP[c]": 1, "CPD0-935[p]": 1, "PROTON[c]": 1, "ATP[c]": -1, "WATER[c]": -1, "CPD0-935[c]": -1} false ["CPLX0-7704"] -"3.6.3.39-RXN-CPD0-936/ATP/WATER//CPD0-936/ADP/Pi/PROTON.43." {"PI[c]": 1, "ADP[c]": 1, "PROTON[c]": 1, "CPD0-936[c]": -1, "ATP[c]": -1, "WATER[c]": -1, "CPD0-936[p]": 1} false ["CPLX0-7704"] -"3.6.3.39-RXN-CPD0-937/ATP/WATER//CPD0-937/ADP/Pi/PROTON.43." {"PI[c]": 1, "CPD0-937[p]": 1, "ADP[c]": 1, "PROTON[c]": 1, "ATP[c]": -1, "WATER[c]": -1, "CPD0-937[c]": -1} false ["CPLX0-7704"] -"3.6.3.39-RXN-CPD0-938/ATP/WATER//CPD0-938/ADP/Pi/PROTON.43." {"PI[c]": 1, "CPD0-938[c]": -1, "ADP[c]": 1, "PROTON[c]": 1, "ATP[c]": -1, "WATER[c]": -1, "CPD0-938[p]": 1} false ["CPLX0-7704"] -"3.6.3.39-RXN-HEPTOSYL-KDO2-LIPID-IVA/ATP/WATER//HEPTOSYL-KDO2-LIPID-IVA/ADP/Pi/PROTON.73." {"PI[c]": 1, "ADP[c]": 1, "PROTON[c]": 1, "HEPTOSYL-KDO2-LIPID-IVA[c]": -1, "ATP[c]": -1, "WATER[c]": -1, "HEPTOSYL-KDO2-LIPID-IVA[p]": 1} false ["CPLX0-7704"] -"3.6.3.39-RXN-KDO-LIPID-IVA/ATP/WATER//KDO-LIPID-IVA/ADP/Pi/PROTON.53." {"PI[c]": 1, "KDO-LIPID-IVA[p]": 1, "ADP[c]": 1, "PROTON[c]": 1, "ATP[c]": -1, "WATER[c]": -1, "KDO-LIPID-IVA[c]": -1} false ["CPLX0-7704"] -"3.6.3.39-RXN-KDO2-LAUROYL-LIPID-IVA/ATP/WATER//KDO2-LAUROYL-LIPID-IVA/ADP/Pi/PROTON.71." {"PI[c]": 1, "ADP[c]": 1, "PROTON[c]": 1, "KDO2-LAUROYL-LIPID-IVA[p]": 1, "KDO2-LAUROYL-LIPID-IVA[c]": -1, "ATP[c]": -1, "WATER[c]": -1} false ["CPLX0-7704"] -"3.6.3.39-RXN-KDO2-LIPID-A/ATP/WATER//KDO2-LIPID-A/ADP/Pi/PROTON.51." {"PI[c]": 1, "ADP[c]": 1, "KDO2-LIPID-A[p]": 1, "PROTON[c]": 1, "KDO2-LIPID-A[c]": -1, "ATP[c]": -1, "WATER[c]": -1} false ["CPLX0-7704"] -"3.6.3.39-RXN-KDO2-LIPID-IVA-COLD/ATP/WATER//KDO2-LIPID-IVA-COLD/ADP/Pi/PROTON.65." {"PI[c]": 1, "ADP[c]": 1, "PROTON[c]": 1, "KDO2-LIPID-IVA-COLD[p]": 1, "KDO2-LIPID-IVA-COLD[c]": -1, "ATP[c]": -1, "WATER[c]": -1} false ["CPLX0-7704"] -"3.6.3.39-RXN-KDO2-LIPID-IVA/ATP/WATER//KDO2-LIPID-IVA/ADP/Pi/PROTON.55." {"PI[c]": 1, "ADP[c]": 1, "KDO2-LIPID-IVA[c]": -1, "PROTON[c]": 1, "ATP[c]": -1, "WATER[c]": -1, "KDO2-LIPID-IVA[p]": 1} false ["CPLX0-7704"] -"3.6.3.39-RXN-KDO2-PALMITOLEOYL-LIPID-IVA/ATP/WATER//KDO2-PALMITOLEOYL-LIPID-IVA/ADP/Pi/PROTON.81." {"PI[c]": 1, "ADP[c]": 1, "KDO2-PALMITOLEOYL-LIPID-IVA[c]": -1, "PROTON[c]": 1, "KDO2-PALMITOLEOYL-LIPID-IVA[p]": 1, "ATP[c]": -1, "WATER[c]": -1} false ["CPLX0-7704"] -"3.6.3.39-RXN-L-ARA4N-MODIFIED-KDO2-LIPID-A/ATP/WATER//L-ARA4N-MODIFIED-KDO2-LIPID-A/ADP/Pi/PROTON.85." {"PI[c]": 1, "L-ARA4N-MODIFIED-KDO2-LIPID-A[c]": -1, "ADP[c]": 1, "PROTON[c]": 1, "ATP[c]": -1, "WATER[c]": -1, "L-ARA4N-MODIFIED-KDO2-LIPID-A[p]": 1} false ["CPLX0-7704"] -"3.6.3.39-RXN-PHOSPHATIDYLETHANOLAMINE-KDO2/ATP/WATER//PHOSPHATIDYLETHANOLAMINE-KDO2/ADP/Pi/PROTON.85." {"PI[c]": 1, "ADP[c]": 1, "PROTON[c]": 1, "PHOSPHATIDYLETHANOLAMINE-KDO2[p]": 1, "PHOSPHATIDYLETHANOLAMINE-KDO2[c]": -1, "ATP[c]": -1, "WATER[c]": -1} false ["CPLX0-7704"] -"325-BISPHOSPHATE-NUCLEOTIDASE-RXN" {"WATER[c]": -1, "PI[c]": 1, "3-5-ADP[c]": -1, "AMP[c]": 1} false ["EG10043-MONOMER"] -"3PGAREARR-RXN" {"2-PG[c]": 1, "G3P[c]": -1} true ["PGMI-MONOMER"] -"4-HYDROXYBUTYRATE-DEHYDROGENASE-RXN" {"4-HYDROXY-BUTYRATE[c]": 1, "SUCC-S-ALD[c]": -1, "PROTON[c]": -1, "NAD[c]": 1, "NADH[c]": -1} true ["CPLX0-7794"] -"4.1.2.28-RXN" {"GLYCOLALDEHYDE[c]": -1, "2-DH-3-DO-D-ARABINONATE[c]": 1, "PYRUVATE[c]": -1} true ["CPLX0-7940", "G7911-MONOMER"] -"4.2.1.58-RXN-Beta-3-hydroxybutyryl-ACPs//Crotonyl-ACPs/WATER.48." {"WATER[c]": 1, "Beta-3-hydroxybutyryl-ACPs[c]": -1, "Crotonyl-ACPs[c]": 1} false ["FABA-CPLX", "FABZ-CPLX"] -"4.2.1.59-RXN-3-Hydroxy-octanoyl-ACPs//2-Octenoyl-ACPs/WATER.47." {"WATER[c]": 1, "2-Octenoyl-ACPs[c]": 1, "3-Hydroxy-octanoyl-ACPs[c]": -1} false ["FABA-CPLX", "FABZ-CPLX"] -"4.2.1.61-RXN-R-3-Hydroxypalmitoyl-ACPs//2-Hexadecenoyl-ACPs/WATER.53." {"WATER[c]": 1, "R-3-Hydroxypalmitoyl-ACPs[c]": -1, "2-Hexadecenoyl-ACPs[c]": 1} false ["FABA-CPLX", "FABZ-CPLX"] -"4.2.1.99-RXN" {"WATER[c]": -1, "CPD-618[c]": 1, "CPD-1136[c]": -1} true ["CPLX0-7761"] -"4.3.1.17-RXN" {"SER[c]": -1, "PYRUVATE[c]": 1, "AMMONIUM[c]": 1} false ["LSERINEDEAM2-MONOMER", "THREDEHYDCAT-CPLX", "LSERINEDEAM1-MONOMER", "CPLX0-7622"] -"4OHBENZOATE-OCTAPRENYLTRANSFER-RXN" {"3-OCTAPRENYL-4-HYDROXYBENZOATE[c]": 1, "OCTAPRENYL-DIPHOSPHATE[c]": -1, "PPI[c]": 1, "4-hydroxybenzoate[c]": -1} false ["4OHBENZOATE-OCTAPRENYLTRANSFER-MONOMER"] -"5-FORMYL-THF-CYCLO-LIGASE-RXN-5-FORMYL-THF/ATP//5-10-METHENYL-THF/ADP/Pi.43." {"ADP[c]": 1, "PI[c]": 1, "5-10-METHENYL-THF[c]": 1, "5-FORMYL-THF[c]": -1, "ATP[c]": -1} false ["EG11158-MONOMER"] -"5-NUCLEOTID-RXN[CCO-CYTOSOL]-AMP/WATER//ADENOSINE/Pi.37." {"WATER[c]": -1, "ADENOSINE[c]": 1, "AMP[c]": -1, "PI[c]": 1} false ["EG11817-MONOMER", "EG12115-MONOMER", "EG10634-MONOMER"] -"5-NUCLEOTID-RXN[CCO-CYTOSOL]-CMP/WATER//CYTIDINE/Pi.36." {"WATER[c]": -1, "CMP[c]": -1, "CYTIDINE[c]": 1, "PI[c]": 1} false ["EG11817-MONOMER", "EG12115-MONOMER", "EG10634-MONOMER"] -"5-NUCLEOTID-RXN[CCO-CYTOSOL]-GMP/WATER//GUANOSINE/Pi.37." {"WATER[c]": -1, "PI[c]": 1, "GUANOSINE[c]": 1, "GMP[c]": -1} false ["EG11817-MONOMER", "EG12115-MONOMER", "EG10634-MONOMER"] -"5-NUCLEOTID-RXN[CCO-CYTOSOL]-IMP/WATER//INOSINE/Pi.35." {"WATER[c]": -1, "PI[c]": 1, "INOSINE[c]": 1, "IMP[c]": -1} false ["EG11817-MONOMER", "EG12115-MONOMER", "EG10634-MONOMER"] -"5-NUCLEOTID-RXN[CCO-CYTOSOL]-UMP/WATER//URIDINE/Pi.35." {"WATER[c]": -1, "URIDINE[c]": 1, "UMP[c]": -1, "PI[c]": 1} false ["EG11817-MONOMER", "EG12115-MONOMER", "EG10634-MONOMER"] -"5-NUCLEOTID-RXN[CCO-CYTOSOL]-XANTHOSINE-5-PHOSPHATE/WATER//XANTHOSINE/Pi.57." {"WATER[c]": -1, "PI[c]": 1, "XANTHOSINE-5-PHOSPHATE[c]": -1, "XANTHOSINE[c]": 1} false ["EG11817-MONOMER", "EG12115-MONOMER", "EG10634-MONOMER"] -"5-NUCLEOTID-RXN[CCO-PERI-BAC]-GMP/WATER//GUANOSINE/Pi.38." {"GMP[p]": -1, "PI[p]": 1, "WATER[p]": -1, "GUANOSINE[p]": 1} false ["USHA-MONOMER", "APHA-CPLX"] -"5-NUCLEOTID-RXN[CCO-PERI-BAC]-IMP/WATER//INOSINE/Pi.36." {"PI[p]": 1, "WATER[p]": -1, "IMP[p]": -1, "INOSINE[p]": 1} false ["USHA-MONOMER", "APHA-CPLX"] -"5.1.3.20-RXN" {"ADP-D-GLYCERO-D-MANNO-HEPTOSE[c]": -1, "ADP-L-GLYCERO-D-MANNO-HEPTOSE[c]": 1} false ["CPLX0-3681"] -"5.3.3.14-RXN-Trans-D2-decenoyl-ACPs//Cis-delta-3-decenoyl-ACPs.50." {"Trans-D2-decenoyl-ACPs[c]": -1, "Cis-delta-3-decenoyl-ACPs[c]": 1} true ["FABA-CPLX"] -"5.4.2.10-RXN-GLUCOSAMINE-1P//CPD-13469.26." {"GLUCOSAMINE-1P[c]": -1, "CPD-13469[c]": 1} true ["PHOSGLUCOSAMINEMUT-MONOMER"] -"6PFRUCTPHOS-RXN" {"PROTON[c]": 1, "FRUCTOSE-16-DIPHOSPHATE[c]": 1, "ATP[c]": -1, "ADP[c]": 1, "FRUCTOSE-6P[c]": -1} false ["6PFK-1-CPX", "6PFK-2-CPX"] -"6PGLUCONOLACT-RXN" {"CPD-2961[c]": 1, "WATER[c]": -1, "PROTON[c]": 1, "D-6-P-GLUCONO-DELTA-LACTONE[c]": -1} false ["6PGLUCONOLACT-MONOMER"] -"7-ALPHA-HYDROXYSTEROID-DEH-RXN" {"CHOLATE[c]": 1, "PROTON[c]": -1, "CHOLANATE2[c]": -1, "NAD[c]": 1, "NADH[c]": -1} true ["7-ALPHA-HYDROXYSTEROID-DEH-CPLX"] -"ABC-12-RXN" {"PI[c]": 1, "GLN[c]": 1, "ADP[c]": 1, "PROTON[c]": 1, "ATP[c]": -1, "WATER[c]": -1, "GLN[p]": -1} false ["ABC-12-CPLX"] -"ABC-13-RXN" {"PI[c]": 1, "ADP[c]": 1, "GLT[c]": 1, "PROTON[c]": 1, "ATP[c]": -1, "WATER[c]": -1, "GLT[p]": -1} false ["ABC-13-CPLX"] -"ABC-14-RXN" {"PI[c]": 1, "ADP[c]": 1, "PROTON[c]": 1, "HIS[c]": 1, "HIS[p]": -1, "ATP[c]": -1, "WATER[c]": -1} false ["ABC-14-CPLX"] -"ABC-15-RXN" {"PI[c]": 1, "ADP[c]": 1, "PROTON[c]": 1, "ILE[c]": 1, "ILE[p]": -1, "ATP[c]": -1, "WATER[c]": -1} false ["ABC-15-CPLX"] -"ABC-2-RXN-ATP/ARABINOSE/WATER//ADP/ARABINOSE/Pi/PROTON.45." {"PI[c]": 1, "ARABINOSE[p]": -1, "ADP[c]": 1, "PROTON[c]": 1, "ATP[c]": -1, "ARABINOSE[c]": 1, "WATER[c]": -1} false ["ABC-2-CPLX"] -"ABC-2-RXN-ATP/CPD-12045/WATER//ADP/CPD-12045/Pi/PROTON.45." {"PI[c]": 1, "ADP[c]": 1, "PROTON[c]": 1, "CPD-12045[p]": -1, "ATP[c]": -1, "WATER[c]": -1, "CPD-12045[c]": 1} false ["ABC-2-CPLX"] -"ABC-2-RXN-ATP/CPD-15699/WATER//ADP/CPD-15699/Pi/PROTON.45." {"PI[c]": 1, "ADP[c]": 1, "PROTON[c]": 1, "CPD-15699[p]": -1, "ATP[c]": -1, "WATER[c]": -1, "CPD-15699[c]": 1} false ["ABC-2-CPLX"] -"ABC-20-RXN" {"PI[c]": 1, "ADP[c]": 1, "PROTON[c]": 1, "NI+2[c]": 1, "NI+2[p]": -1, "ATP[c]": -1, "WATER[c]": -1} false ["MGTA-MONOMER", "ABC-20-CPLX"] -"ABC-23-RXN-ATP/CPD0-1068/WATER//ADP/CPD0-1068/Pi/PROTON.45." {"PI[c]": 1, "ATP[c]": -1, "ADP[c]": 1, "PROTON[c]": 1, "CPD0-1068[p]": -1, "CPD0-1068[c]": 1, "WATER[c]": -1} false ["ABC-23-CPLX"] -"ABC-23-RXN-ATP/CPD0-1075/WATER//ADP/CPD0-1075/Pi/PROTON.45." {"PI[c]": 1, "ADP[c]": 1, "PROTON[c]": 1, "CPD0-1075[c]": 1, "CPD0-1075[p]": -1, "ATP[c]": -1, "WATER[c]": -1} false ["ABC-23-CPLX"] -"ABC-23-RXN-ATP/CPD0-1076/WATER//ADP/CPD0-1076/Pi/PROTON.45." {"PI[c]": 1, "ADP[c]": 1, "PROTON[c]": 1, "CPD0-1076[p]": -1, "ATP[c]": -1, "WATER[c]": -1, "CPD0-1076[c]": 1} false ["ABC-23-CPLX"] -"ABC-24-RXN" {"PI[c]": 1, "ADP[c]": 1, "PROTON[c]": 1, "SPERMIDINE[p]": -1, "ATP[c]": -1, "WATER[c]": -1, "SPERMIDINE[c]": 1} false ["ABC-24-CPLX"] -"ABC-25-RXN" {"PI[c]": 1, "ADP[c]": 1, "PROTON[c]": 1, "PUTRESCINE[p]": -1, "ATP[c]": -1, "WATER[c]": -1, "PUTRESCINE[c]": 1} false ["ABC-24-CPLX", "ABC-25-CPLX"] -"ABC-26-RXN" {"PI[c]": 1, "ADP[c]": 1, "PROTON[c]": 1, "PRO[p]": -1, "PRO[c]": 1, "ATP[c]": -1, "WATER[c]": -1} false ["ABC-26-CPLX"] -"ABC-27-RXN" {"PI[c]": 2, "ADP[c]": 1, "PROTON[c]": 1, "PI[p]": -1, "ATP[c]": -1, "WATER[c]": -1} false ["ABC-27-CPLX"] -"ABC-3-RXN" {"PI[c]": 1, "LYS[p]": -1, "ADP[c]": 1, "LYS[c]": 1, "PROTON[c]": 1, "ATP[c]": -1, "WATER[c]": -1} false ["ABC-3-CPLX"] -"ABC-33-RXN-ATP/BETA-D-XYLOSE/WATER//ADP/BETA-D-XYLOSE/Pi/PROTON.53." {"PI[c]": 1, "BETA-D-XYLOSE[p]": -1, "ADP[c]": 1, "PROTON[c]": 1, "BETA-D-XYLOSE[c]": 1, "ATP[c]": -1, "WATER[c]": -1} false ["ABC-33-CPLX"] -"ABC-33-RXN-ATP/CPD-15377/WATER//ADP/CPD-15377/Pi/PROTON.45." {"PI[c]": 1, "CPD-15377[c]": 1, "ADP[c]": 1, "PROTON[c]": 1, "CPD-15377[p]": -1, "ATP[c]": -1, "WATER[c]": -1} false ["ABC-33-CPLX"] -"ABC-33-RXN-ATP/XYLOSE/WATER//ADP/XYLOSE/Pi/PROTON.39." {"PI[c]": 1, "ADP[c]": 1, "XYLOSE[p]": -1, "PROTON[c]": 1, "XYLOSE[c]": 1, "ATP[c]": -1, "WATER[c]": -1} false ["ABC-33-CPLX"] -"ABC-35-RXN" {"PI[c]": 1, "LEU[c]": 1, "ADP[c]": 1, "PROTON[c]": 1, "ATP[c]": -1, "WATER[c]": -1, "LEU[p]": -1} false ["ABC-15-CPLX", "ABC-304-CPLX"] -"ABC-36-RXN" {"PI[c]": 1, "VAL[c]": 1, "ADP[c]": 1, "PROTON[c]": 1, "ATP[c]": -1, "WATER[c]": -1, "VAL[p]": -1} false ["ABC-15-CPLX"] -"ABC-37-RXN" {"PI[c]": 1, "L-ORNITHINE[c]": 1, "ADP[c]": 1, "PROTON[c]": 1, "L-ORNITHINE[p]": -1, "ATP[c]": -1, "WATER[c]": -1} false ["ABC-3-CPLX"] -"ABC-4-RXN" {"PI[c]": 1, "ADP[c]": 1, "PROTON[c]": 1, "ARG[p]": -1, "ATP[c]": -1, "WATER[c]": -1, "ARG[c]": 1} false ["ABC-4-CPLX", "ABC-3-CPLX"] -"ABC-42-RXN-CPD-15629/ATP/WATER//CPD-15629/ADP/Pi/PROTON.45." {"PI[c]": 1, "CPD-15629[p]": -1, "ADP[c]": 1, "PROTON[c]": 1, "CPD-15629[c]": 1, "ATP[c]": -1, "WATER[c]": -1} false ["ABC-42-CPLX"] -"ABC-56-RXN-ATP/CPD-10246/WATER//CPD-10246/ADP/Pi/PROTON.45." {"PI[c]": 1, "ADP[c]": 1, "CPD-10246[c]": 1, "PROTON[c]": 1, "CPD-10246[p]": -1, "ATP[c]": -1, "WATER[c]": -1} false ["ABC-56-CPLX"] -"ABC-56-RXN-ATP/CPD-10434/WATER//CPD-10434/ADP/Pi/PROTON.45." {"PI[c]": 1, "ADP[c]": 1, "PROTON[c]": 1, "ATP[c]": -1, "WATER[c]": -1, "CPD-10434[p]": -1, "CPD-10434[c]": 1} false ["ABC-56-CPLX"] -"ABC-56-RXN-ATP/CPD-3744/WATER//CPD-3744/ADP/Pi/PROTON.43." {"PI[c]": 1, "CPD-3744[c]": 1, "ADP[c]": 1, "PROTON[c]": 1, "ATP[c]": -1, "WATER[c]": -1, "CPD-3744[p]": -1} false ["ABC-56-CPLX"] -"ABC-56-RXN-ATP/CPD-3745/WATER//CPD-3745/ADP/Pi/PROTON.43." {"CPD-3745[p]": -1, "PI[c]": 1, "ADP[c]": 1, "PROTON[c]": 1, "CPD-3745[c]": 1, "ATP[c]": -1, "WATER[c]": -1} false ["ABC-56-CPLX"] -"ABC-56-RXN-ATP/CPD-3746/WATER//CPD-3746/ADP/Pi/PROTON.43." {"PI[c]": 1, "ADP[c]": 1, "PROTON[c]": 1, "CPD-3746[c]": 1, "CPD-3746[p]": -1, "ATP[c]": -1, "WATER[c]": -1} false ["ABC-56-CPLX"] -"ABC-56-RXN-ATP/CPD0-1958/WATER//CPD0-1958/ADP/Pi/PROTON.45." {"PI[c]": 1, "ADP[c]": 1, "PROTON[c]": 1, "CPD0-1958[p]": -1, "ATP[c]": -1, "WATER[c]": -1, "CPD0-1958[c]": 1} false ["ABC-56-CPLX"] -"ABC-63-RXN" {"PI[c]": 1, "ADP[c]": 1, "PROTON[c]": 1, "ZN+2[p]": -1, "ZN+2[c]": 1, "ATP[c]": -1, "WATER[c]": -1} false ["ABC-63-CPLX"] -"ABC-70-RXN" {"PI[c]": 1, "ADP[c]": 1, "SULFATE[p]": -1, "SULFATE[c]": 1, "ATP[c]": -1, "WATER[c]": -1, "PROTON[c]": 1} false ["ABC-7-CPLX", "ABC-70-CPLX"] -"ABC-8-RXN-ATP/ALA-GLY/WATER//ADP/ALA-GLY/Pi/PROTON.41." {"PI[c]": 1, "ADP[c]": 1, "ALA-GLY[c]": 1, "PROTON[c]": 1, "ALA-GLY[p]": -1, "ATP[c]": -1, "WATER[c]": -1} false ["ABC-8-CPLX", "ABC-22-CPLX", "ABC-41-CPLX"] -"ABC-8-RXN-ATP/CARNOSINE/WATER//ADP/CARNOSINE/Pi/PROTON.45." {"PI[c]": 1, "CARNOSINE[p]": -1, "ADP[c]": 1, "PROTON[c]": 1, "ATP[c]": -1, "CARNOSINE[c]": 1, "WATER[c]": -1} false ["ABC-8-CPLX", "ABC-22-CPLX", "ABC-41-CPLX"] -"ABC-8-RXN-ATP/CPD-10814/WATER//ADP/CPD-10814/Pi/PROTON.45." {"PI[c]": 1, "ADP[c]": 1, "PROTON[c]": 1, "CPD-10814[p]": -1, "ATP[c]": -1, "WATER[c]": -1, "CPD-10814[c]": 1} false ["ABC-8-CPLX", "ABC-22-CPLX", "ABC-41-CPLX"] -"ABC-8-RXN-ATP/CPD-13390/WATER//ADP/CPD-13390/Pi/PROTON.45." {"PI[c]": 1, "CPD-13390[p]": -1, "ADP[c]": 1, "PROTON[c]": 1, "ATP[c]": -1, "CPD-13390[c]": 1, "WATER[c]": -1} false ["ABC-8-CPLX", "ABC-22-CPLX", "ABC-41-CPLX"] -"ABC-8-RXN-ATP/CPD-13393/WATER//ADP/CPD-13393/Pi/PROTON.45." {"PI[c]": 1, "ADP[c]": 1, "PROTON[c]": 1, "CPD-13393[p]": -1, "ATP[c]": -1, "WATER[c]": -1, "CPD-13393[c]": 1} false ["ABC-8-CPLX", "ABC-22-CPLX", "ABC-41-CPLX"] -"ABC-8-RXN-ATP/CPD-13394/WATER//ADP/CPD-13394/Pi/PROTON.45." {"PI[c]": 1, "ADP[c]": 1, "PROTON[c]": 1, "CPD-13394[c]": 1, "ATP[c]": -1, "WATER[c]": -1, "CPD-13394[p]": -1} false ["ABC-8-CPLX", "ABC-22-CPLX", "ABC-41-CPLX"] -"ABC-8-RXN-ATP/CPD-13395/WATER//ADP/CPD-13395/Pi/PROTON.45." {"PI[c]": 1, "CPD-13395[p]": -1, "ADP[c]": 1, "PROTON[c]": 1, "ATP[c]": -1, "WATER[c]": -1, "CPD-13395[c]": 1} false ["ABC-8-CPLX", "ABC-22-CPLX", "ABC-41-CPLX"] -"ABC-8-RXN-ATP/CPD-13397/WATER//ADP/CPD-13397/Pi/PROTON.45." {"PI[c]": 1, "ADP[c]": 1, "PROTON[c]": 1, "CPD-13397[p]": -1, "ATP[c]": -1, "WATER[c]": -1, "CPD-13397[c]": 1} false ["ABC-8-CPLX", "ABC-22-CPLX", "ABC-41-CPLX"] -"ABC-8-RXN-ATP/CPD-13398/WATER//ADP/CPD-13398/Pi/PROTON.45." {"PI[c]": 1, "ADP[c]": 1, "PROTON[c]": 1, "ATP[c]": -1, "WATER[c]": -1, "CPD-13398[p]": -1, "CPD-13398[c]": 1} false ["ABC-8-CPLX", "ABC-22-CPLX", "ABC-41-CPLX"] -"ABC-8-RXN-ATP/CPD-13401/WATER//ADP/CPD-13401/Pi/PROTON.45." {"PI[c]": 1, "CPD-13401[p]": -1, "ADP[c]": 1, "PROTON[c]": 1, "ATP[c]": -1, "WATER[c]": -1, "CPD-13401[c]": 1} false ["ABC-8-CPLX", "ABC-22-CPLX", "ABC-41-CPLX"] -"ABC-8-RXN-ATP/CPD-13403/WATER//ADP/CPD-13403/Pi/PROTON.45." {"PI[c]": 1, "ADP[c]": 1, "PROTON[c]": 1, "CPD-13403[p]": -1, "ATP[c]": -1, "WATER[c]": -1, "CPD-13403[c]": 1} false ["ABC-8-CPLX", "ABC-22-CPLX", "ABC-41-CPLX"] -"ABC-8-RXN-ATP/CPD-13404/WATER//ADP/CPD-13404/Pi/PROTON.45." {"PI[c]": 1, "CPD-13404[p]": -1, "ADP[c]": 1, "PROTON[c]": 1, "ATP[c]": -1, "CPD-13404[c]": 1, "WATER[c]": -1} false ["ABC-8-CPLX", "ABC-22-CPLX", "ABC-41-CPLX"] -"ABC-8-RXN-ATP/CPD-13406/WATER//ADP/CPD-13406/Pi/PROTON.45." {"PI[c]": 1, "ADP[c]": 1, "PROTON[c]": 1, "CPD-13406[p]": -1, "ATP[c]": -1, "WATER[c]": -1, "CPD-13406[c]": 1} false ["ABC-8-CPLX", "ABC-22-CPLX", "ABC-41-CPLX"] -"ABC-8-RXN-ATP/CPD-3569/WATER//ADP/CPD-3569/Pi/PROTON.43." {"CPD-3569[p]": -1, "PI[c]": 1, "ADP[c]": 1, "PROTON[c]": 1, "CPD-3569[c]": 1, "ATP[c]": -1, "WATER[c]": -1} false ["ABC-8-CPLX", "ABC-22-CPLX", "ABC-41-CPLX"] -"ABC-8-RXN-ATP/CPD0-1445/WATER//ADP/CPD0-1445/Pi/PROTON.45." {"PI[c]": 1, "ADP[c]": 1, "PROTON[c]": 1, "ATP[c]": -1, "WATER[c]": -1, "CPD0-1445[p]": -1, "CPD0-1445[c]": 1} false ["ABC-8-CPLX", "ABC-22-CPLX", "ABC-41-CPLX"] -"ABC-8-RXN-ATP/CPD0-1944/WATER//ADP/CPD0-1944/Pi/PROTON.45." {"PI[c]": 1, "ADP[c]": 1, "CPD0-1944[p]": -1, "PROTON[c]": 1, "ATP[c]": -1, "WATER[c]": -1, "CPD0-1944[c]": 1} false ["ABC-8-CPLX", "ABC-22-CPLX", "ABC-41-CPLX"] -"ABC-8-RXN-ATP/CPD0-2190/WATER//ADP/CPD0-2190/Pi/PROTON.45." {"PI[c]": 1, "ADP[c]": 1, "PROTON[c]": 1, "CPD0-2190[p]": -1, "ATP[c]": -1, "WATER[c]": -1, "CPD0-2190[c]": 1} false ["ABC-8-CPLX", "ABC-22-CPLX", "ABC-41-CPLX"] -"ABC-8-RXN-ATP/CYS-GLY/WATER//ADP/CYS-GLY/Pi/PROTON.41." {"PI[c]": 1, "ADP[c]": 1, "PROTON[c]": 1, "CYS-GLY[p]": -1, "ATP[c]": -1, "CYS-GLY[c]": 1, "WATER[c]": -1} false ["ABC-8-CPLX", "ABC-22-CPLX", "ABC-41-CPLX"] -"ABC-8-RXN-ATP/D-ALA-D-ALA/WATER//ADP/D-ALA-D-ALA/Pi/PROTON.49." {"PI[c]": 1, "D-ALA-D-ALA[p]": -1, "ADP[c]": 1, "PROTON[c]": 1, "D-ALA-D-ALA[c]": 1, "ATP[c]": -1, "WATER[c]": -1} false ["ABC-8-CPLX", "ABC-22-CPLX", "ABC-41-CPLX"] -"ABC-8-RXN-ATP/L-GAMMA-GLUTAMYLCYSTEINE/WATER//ADP/L-GAMMA-GLUTAMYLCYSTEINE/Pi/PROTON.75." {"PI[c]": 1, "L-GAMMA-GLUTAMYLCYSTEINE[c]": 1, "ADP[c]": 1, "PROTON[c]": 1, "ATP[c]": -1, "WATER[c]": -1, "L-GAMMA-GLUTAMYLCYSTEINE[p]": -1} false ["ABC-8-CPLX", "ABC-22-CPLX", "ABC-41-CPLX"] -"ACECOATRANS-RXN-BUTYRYL-COA/ACET//BUTYRIC_ACID/ACETYL-COA.42." {"BUTYRIC_ACID[c]": -1, "ACETYL-COA[c]": -1, "BUTYRYL-COA[c]": 1, "ACET[c]": 1} true [] -"ACECOATRANS-RXN-CPD-10267/ACET//CPD-3617/ACETYL-COA.36." {"CPD-3617[c]": 1, "ACETYL-COA[c]": 1, "ACET[c]": -1, "CPD-10267[c]": -1} true [] -"ACECOATRANS-RXN-CPD-196/ACET//CPD-195/ACETYL-COA.33." {"CPD-195[c]": 1, "CPD-196[c]": -1, "ACETYL-COA[c]": 1, "ACET[c]": -1} true [] -"ACECOATRANS-RXN-HEXANOYL-COA/ACET//HEXANOATE/ACETYL-COA.40." {"ACETYL-COA[c]": -1, "HEXANOYL-COA[c]": 1, "HEXANOATE[c]": -1, "ACET[c]": 1} true [] -"ACECOATRANS-RXN-LAUROYLCOA-CPD/ACET//DODECANOATE/ACETYL-COA.44." {"DODECANOATE[c]": -1, "LAUROYLCOA-CPD[c]": 1, "ACETYL-COA[c]": -1, "ACET[c]": 1} true [] -"ACECOATRANS-RXN-PALMITYL-COA/ACET//PALMITATE/ACETYL-COA.40." {"PALMITATE[c]": 1, "ACETYL-COA[c]": 1, "PALMITYL-COA[c]": -1, "ACET[c]": -1} true [] -"ACECOATRANS-RXN-STEAROYL-COA/ACET//STEARIC_ACID/ACETYL-COA.43." {"ACETYL-COA[c]": -1, "STEARIC_ACID[c]": -1, "ACET[c]": 1, "STEAROYL-COA[c]": 1} true [] -"ACECOATRANS-RXN-TETRADECANOYL-COA/ACET//CPD-7836/ACETYL-COA.44." {"ACETYL-COA[c]": 1, "CPD-7836[c]": 1, "TETRADECANOYL-COA[c]": -1, "ACET[c]": -1} true [] -"ACETALD-DEHYDROG-RXN" {"NADH[c]": 1, "NAD[c]": -1, "PROTON[c]": 1, "CO-A[c]": -1, "ACETALD[c]": -1, "ACETYL-COA[c]": 1} true ["MHPF-MONOMER", "ADHE-CPLX"] -"ACETATE--COA-LIGASE-RXN" {"ACET[c]": -1, "AMP[c]": 1, "CO-A[c]": -1, "PPI[c]": 1, "ATP[c]": -1, "ACETYL-COA[c]": 1} false ["ACS-MONOMER"] -"ACETATEKIN-RXN" {"ACETYL-P[c]": -1, "ACET[c]": 1, "ADP[c]": -1, "ATP[c]": 1} true ["GARTRANSFORMYL2-MONOMER", "ACETATEKINA-MONOMER"] -"ACETOACETYL-COA-TRANSFER-RXN" {"ACETYL-COA[c]": -1, "3-KETOBUTYRATE[c]": -1, "ACET[c]": 1, "ACETOACETYL-COA[c]": 1} true ["EG12432-MONOMER", "ACETOACETYL-COA-TRANSFER-CPLX"] -"ACETOLACTREDUCTOISOM-RXN" {"NADPH[c]": -1, "2-ACETO-LACTATE[c]": -1, "PROTON[c]": -1, "CPD-13357[c]": 1, "NADP[c]": 1} true ["CPLX0-7643"] -"ACETOLACTSYN-RXN" {"2-ACETO-LACTATE[c]": 1, "PROTON[c]": -1, "PYRUVATE[c]": -2, "CARBON-DIOXIDE[c]": 1} true ["ACETOLACTSYNIII-CPLX", "ACETOLACTSYNII-CPLX", "ACETOLACTSYNI-CPLX"] -"ACETOOHBUTREDUCTOISOM-RXN" {"NADPH[c]": -1, "1-KETO-2-METHYLVALERATE[c]": 1, "PROTON[c]": -1, "2-ACETO-2-HYDROXY-BUTYRATE[c]": -1, "NADP[c]": 1} false ["CPLX0-7643"] -"ACETOOHBUTSYN-RXN" {"2-OXOBUTANOATE[c]": -1, "PROTON[c]": -1, "PYRUVATE[c]": -1, "CARBON-DIOXIDE[c]": 1, "2-ACETO-2-HYDROXY-BUTYRATE[c]": 1} false ["ACETOLACTSYNII-CPLX", "ACETOLACTSYNI-CPLX", "ACETOLACTSYNIII-CPLX"] -"ACETYL-COA-ACETYLTRANSFER-RXN" {"CO-A[c]": -1, "ACETYL-COA[c]": 2, "ACETOACETYL-COA[c]": -1} true ["ACETYL-COA-ACETYLTRANSFER-CPLX"] -"ACETYL-COA-CARBOXYLTRANSFER-RXN" {"PI[c]": 1, "ADP[c]": 1, "PROTON[c]": 1, "HCO3[c]": -1, "ATP[c]": -1, "MALONYL-COA[c]": 1, "ACETYL-COA[c]": -1} false ["ACETYL-COA-CARBOXYLMULTI-CPLX"] -"ACETYLGLUTKIN-RXN" {"N-ACETYL-GLUTAMYL-P[c]": 1, "ACETYL-GLU[c]": -1, "ADP[c]": 1, "ATP[c]": -1} false ["ACETYLGLUTKIN-CPLX"] -"ACETYLORNDEACET-RXN" {"WATER[c]": -1, "N-ALPHA-ACETYLORNITHINE[c]": -1, "ACET[c]": 1, "L-ORNITHINE[c]": 1} false ["ACETYLORNDEACET-CPLX"] -"ACETYLORNTRANSAM-RXN" {"GLT[c]": -1, "N-ALPHA-ACETYLORNITHINE[c]": 1, "CPD-469[c]": -1, "2-KETOGLUTARATE[c]": 1} false ["GABATRANSAM-CPLX", "SUCCORNTRANSAM-CPLX", "ACETYLORNTRANSAM-CPLX"] -"ACNEULY-RXN" {"N-acetyl-D-mannosamine[c]": -1, "PYRUVATE[c]": -1, "N-ACETYLNEURAMINATE[c]": 1} true ["ACNEULY-CPLX"] -"ACONITATE-DELTA-ISOMERASE-RXN" {"CIS-ACONITATE[c]": 1, "CPD-225[c]": -1} true [] -"ACONITATEDEHYDR-RXN" {"WATER[c]": -1, "CIT[c]": 1, "CIS-ACONITATE[c]": -1} true ["CPLX0-7761", "CPLX0-7760"] -"ACONITATEHYDR-RXN" {"WATER[c]": 1, "CIS-ACONITATE[c]": 1, "THREO-DS-ISO-CITRATE[c]": -1} true ["CPLX0-7761", "CPLX0-7760"] -"ACP-S-ACETYLTRANSFER-RXN-ACP/ACETYL-COA//ACETYL-ACP/CO-A.32." {"CO-A[c]": 1, "ACETYL-COA[c]": -1, "ACETYL-ACP[c]": 1, "ACP[c]": -1} true ["CPLX0-252"] -"ACSERLY-RXN" {"ACETYLSERINE[c]": 1, "PROTON[c]": -1, "CYS[c]": -1, "ACET[c]": -1, "HS[c]": 1} true ["ACSERLYB-CPLX", "ACSERLYA-CPLX"] -"ACYL-COA-HYDROLASE-RXN-ACETOACETYL-COA/WATER//2-OXOBUTANOATE/CO-A/PROTON.50." {"WATER[c]": -1, "CO-A[c]": 1, "PROTON[c]": 1, "2-OXOBUTANOATE[c]": 1, "ACETOACETYL-COA[c]": -1} false ["EG11121-MONOMER"] -"ACYL-COA-HYDROLASE-RXN-BUTYRYL-COA/WATER//BUTYRIC_ACID/CO-A/PROTON.44." {"WATER[c]": -1, "BUTYRIC_ACID[c]": 1, "PROTON[c]": 1, "BUTYRYL-COA[c]": -1, "CO-A[c]": 1} false ["EG11121-MONOMER"] -"ACYL-COA-HYDROLASE-RXN-CPD-10267/WATER//CPD-3617/CO-A/PROTON.38." {"WATER[c]": -1, "CO-A[c]": 1, "PROTON[c]": 1, "CPD-10267[c]": -1, "CPD-3617[c]": 1} false ["EG11121-MONOMER"] -"ACYL-COA-HYDROLASE-RXN-CPD-196/WATER//CPD-195/CO-A/PROTON.35." {"CPD-195[c]": 1, "CPD-196[c]": -1, "PROTON[c]": 1, "WATER[c]": -1, "CO-A[c]": 1} false ["EG11121-MONOMER"] -"ACYL-COA-HYDROLASE-RXN-HEXANOYL-COA/WATER//HEXANOATE/CO-A/PROTON.42." {"WATER[c]": -1, "CO-A[c]": 1, "PROTON[c]": 1, "HEXANOATE[c]": 1, "HEXANOYL-COA[c]": -1} false ["EG11121-MONOMER"] -"ACYL-COA-HYDROLASE-RXN-LAUROYLCOA-CPD/WATER//DODECANOATE/CO-A/PROTON.46." {"WATER[c]": -1, "CO-A[c]": 1, "PROTON[c]": 1, "DODECANOATE[c]": 1, "LAUROYLCOA-CPD[c]": -1} false ["EG11121-MONOMER"] -"ACYL-COA-HYDROLASE-RXN-PALMITYL-COA/WATER//PALMITATE/CO-A/PROTON.42." {"WATER[c]": -1, "PALMITATE[c]": 1, "PROTON[c]": 1, "PALMITYL-COA[c]": -1, "CO-A[c]": 1} false ["EG11121-MONOMER"] -"ACYL-COA-HYDROLASE-RXN-PROPIONYL-COA/WATER//PROPIONATE/CO-A/PROTON.44." {"WATER[c]": -1, "PROPIONATE[c]": 1, "PROTON[c]": 1, "PROPIONYL-COA[c]": -1, "CO-A[c]": 1} false ["EG11121-MONOMER"] -"ACYL-COA-HYDROLASE-RXN-STEAROYL-COA/WATER//STEARIC_ACID/CO-A/PROTON.45." {"WATER[c]": -1, "CO-A[c]": 1, "PROTON[c]": 1, "STEARIC_ACID[c]": 1, "STEAROYL-COA[c]": -1} false ["EG11121-MONOMER"] -"ACYL-COA-HYDROLASE-RXN-TETRADECANOYL-COA/WATER//CPD-7836/CO-A/PROTON.46." {"WATER[c]": -1, "CO-A[c]": 1, "PROTON[c]": 1, "CPD-7836[c]": 1, "TETRADECANOYL-COA[c]": -1} false ["EG11121-MONOMER"] -"ACYLCOADEHYDROG-RXN-BUTYRYL-COA/ETF-Oxidized/PROTON//CROTONYL-COA/ETF-Reduced.58." {"ETF-Oxidized[c]": -1, "PROTON[c]": -1, "BUTYRYL-COA[c]": -1, "CROTONYL-COA[c]": 1, "ETF-Reduced[c]": 1} false ["G6918-MONOMER", "ACYLCOADEHYDROG-MONOMER"] -"ACYLCOADEHYDROG-RXN-CPD-10267/ETF-Oxidized/PROTON//T2-DECENOYL-COA/ETF-Reduced.59." {"PROTON[c]": -1, "ETF-Reduced[c]": 1, "ETF-Oxidized[c]": -1, "T2-DECENOYL-COA[c]": 1, "CPD-10267[c]": -1} false ["G6918-MONOMER", "ACYLCOADEHYDROG-MONOMER"] -"ACYLCOADEHYDROG-RXN-CPD-196/ETF-Oxidized/PROTON//CPD0-2108/ETF-Reduced.51." {"CPD-196[c]": -1, "PROTON[c]": -1, "ETF-Oxidized[c]": -1, "CPD0-2108[c]": 1, "ETF-Reduced[c]": 1} false ["G6918-MONOMER", "ACYLCOADEHYDROG-MONOMER"] -"ACYLCOADEHYDROG-RXN-CPD-9965/ETF-Oxidized/PROTON//POLYMER-INST-TRANS-D2-ENOYL-COA-C16-H32/ETF-Reduced.82." {"PROTON[c]": -1, "CPD-9965[c]": -1, "ETF-Oxidized[c]": -1, "POLYMER-INST-TRANS-D2-ENOYL-COA-C16-H32[c]": 1, "ETF-Reduced[c]": 1} false ["G6918-MONOMER", "ACYLCOADEHYDROG-MONOMER"] -"ACYLCOADEHYDROG-RXN-HEXANOYL-COA/ETF-Oxidized/PROTON//CPD0-2121/ETF-Reduced.56." {"CPD0-2121[c]": 1, "PROTON[c]": -1, "ETF-Oxidized[c]": -1, "HEXANOYL-COA[c]": -1, "ETF-Reduced[c]": 1} false ["G6918-MONOMER", "ACYLCOADEHYDROG-MONOMER"] -"ACYLCOADEHYDROG-RXN-LAUROYLCOA-CPD/ETF-Oxidized/PROTON//CPD-7222/ETF-Reduced.57." {"PROTON[c]": -1, "ETF-Reduced[c]": 1, "ETF-Oxidized[c]": -1, "CPD-7222[c]": 1, "LAUROYLCOA-CPD[c]": -1} false ["G6918-MONOMER", "ACYLCOADEHYDROG-MONOMER"] -"ACYLCOADEHYDROG-RXN-PALMITYL-COA/ETF-Oxidized/PROTON//CPD0-2117/ETF-Reduced.56." {"CPD0-2117[c]": 1, "PROTON[c]": -1, "ETF-Oxidized[c]": -1, "PALMITYL-COA[c]": -1, "ETF-Reduced[c]": 1} false ["G6918-MONOMER", "ACYLCOADEHYDROG-MONOMER"] -"ACYLCOADEHYDROG-RXN-STEAROYL-COA/ETF-Oxidized/PROTON//CPD-10262/ETF-Reduced.56." {"CPD-10262[c]": 1, "ETF-Reduced[c]": 1, "ETF-Oxidized[c]": -1, "PROTON[c]": -1, "STEAROYL-COA[c]": -1} false ["G6918-MONOMER", "ACYLCOADEHYDROG-MONOMER"] -"ACYLCOADEHYDROG-RXN-TETRADECANOYL-COA/ETF-Oxidized/PROTON//POLYMER-INST-TRANS-D2-ENOYL-COA-C10-H20/ETF-Reduced.91." {"POLYMER-INST-TRANS-D2-ENOYL-COA-C10-H20[c]": 1, "TETRADECANOYL-COA[c]": -1, "ETF-Oxidized[c]": -1, "PROTON[c]": -1, "ETF-Reduced[c]": 1} false ["G6918-MONOMER", "ACYLCOADEHYDROG-MONOMER"] -"ACYLCOASYN-RXN-BUTYRIC_ACID/CO-A/ATP//BUTYRYL-COA/PPI/AMP.43." {"AMP[c]": 1, "CO-A[c]": -1, "PPI[c]": 1, "BUTYRIC_ACID[c]": -1, "ATP[c]": -1, "BUTYRYL-COA[c]": 1} false ["EG12357-MONOMER", "ACYLCOASYN-CPLX"] -"ACYLCOASYN-RXN-CPD-195/CO-A/ATP//CPD-196/PPI/AMP.34." {"CPD-195[c]": -1, "CPD-196[c]": 1, "AMP[c]": 1, "CO-A[c]": -1, "PPI[c]": 1, "ATP[c]": -1} false ["EG12357-MONOMER", "ACYLCOASYN-CPLX"] -"ACYLCOASYN-RXN-CPD-3617/CO-A/ATP//CPD-10267/PPI/AMP.37." {"CPD-3617[c]": -1, "CPD-10267[c]": 1, "AMP[c]": 1, "CO-A[c]": -1, "PPI[c]": 1, "ATP[c]": -1} false ["EG12357-MONOMER", "ACYLCOASYN-CPLX"] -"ACYLCOASYN-RXN-CPD-7836/CO-A/ATP//TETRADECANOYL-COA/PPI/AMP.45." {"CPD-7836[c]": -1, "AMP[c]": 1, "CO-A[c]": -1, "PPI[c]": 1, "ATP[c]": -1, "TETRADECANOYL-COA[c]": 1} false ["EG12357-MONOMER", "ACYLCOASYN-CPLX"] -"ACYLCOASYN-RXN-DODECANOATE/CO-A/ATP//LAUROYLCOA-CPD/PPI/AMP.45." {"DODECANOATE[c]": -1, "AMP[c]": 1, "CO-A[c]": -1, "PPI[c]": 1, "ATP[c]": -1, "LAUROYLCOA-CPD[c]": 1} false ["EG12357-MONOMER", "ACYLCOASYN-CPLX"] -"ACYLCOASYN-RXN-HEXANOATE/CO-A/ATP//HEXANOYL-COA/PPI/AMP.41." {"ATP[c]": -1, "HEXANOATE[c]": -1, "AMP[c]": 1, "CO-A[c]": -1, "PPI[c]": 1, "HEXANOYL-COA[c]": 1} false ["EG12357-MONOMER", "ACYLCOASYN-CPLX"] -"ACYLCOASYN-RXN-PALMITATE/CO-A/ATP//PALMITYL-COA/PPI/AMP.41." {"PALMITATE[c]": -1, "PALMITYL-COA[c]": 1, "AMP[c]": 1, "CO-A[c]": -1, "PPI[c]": 1, "ATP[c]": -1} false ["EG12357-MONOMER", "ACYLCOASYN-CPLX"] -"ACYLCOASYN-RXN-POLYMER-INST-CPD66-39-C16-H32/CO-A/ATP//CPD-9965/PPI/AMP.57." {"POLYMER-INST-CPD66-39-C16-H32[c]": -1, "AMP[c]": 1, "CO-A[c]": -1, "PPI[c]": 1, "ATP[c]": -1, "CPD-9965[c]": 1} false ["EG12357-MONOMER", "ACYLCOASYN-CPLX"] -"ACYLCOASYN-RXN-STEARIC_ACID/CO-A/ATP//STEAROYL-COA/PPI/AMP.44." {"STEAROYL-COA[c]": 1, "CO-A[c]": -1, "PPI[c]": 1, "ATP[c]": -1, "STEARIC_ACID[c]": -1, "AMP[c]": 1} false ["EG12357-MONOMER", "ACYLCOASYN-CPLX"] -"ACYLGPEACYLTRANS-RXN" {"ACYL-ACP[c]": -1, "2-ACYL-GPE[c]": -1, "ACP[c]": 1, "L-1-PHOSPHATIDYL-ETHANOLAMINE[c]": 1} true ["AAS-MONOMER"] -"ADCLY-RXN" {"4-AMINO-4-DEOXYCHORISMATE[c]": 1, "PYRUVATE[c]": -1, "PROTON[c]": -1, "P-AMINO-BENZOATE[c]": -1} true ["ADCLY-CPLX", "PABSYNMULTI-CPLX"] -"ADDALT-RXN" {"DEOXYINOSINE[c]": 1, "WATER[c]": -1, "PROTON[c]": -1, "AMMONIUM[c]": 1, "DEOXYADENOSINE[c]": -1} false ["ADENODEAMIN-MONOMER"] -"ADENINE-DEAMINASE-RXN" {"WATER[c]": -1, "ADENINE[c]": -1, "PROTON[c]": -1, "HYPOXANTHINE[c]": 1, "AMMONIUM[c]": 1} false ["CPLX0-1683"] -"ADENODEAMIN-RXN" {"WATER[c]": -1, "ADENOSINE[c]": -1, "PROTON[c]": -1, "INOSINE[c]": 1, "AMMONIUM[c]": 1} false ["ADENODEAMIN-MONOMER"] -"ADENOSINE-NUCLEOSIDASE-RXN" {"WATER[c]": -1, "ADENINE[c]": 1, "CPD0-1108[c]": 1, "ADENOSINE[c]": -1} false ["EG11082-MONOMER"] -"ADENOSYLHOMOCYSTEINE-NUCLEOSIDASE-RXN" {"WATER[c]": -1, "ADENINE[c]": 1, "ADENOSYL-HOMO-CYS[c]": -1, "CPD-564[c]": 1} false ["CPLX0-1541"] -"ADENPHOSPHOR-RXN" {"ADENINE[c]": -1, "RIBOSE-1P[c]": -1, "ADENOSINE[c]": 1, "PI[c]": 1} true ["DEOD-CPLX"] -"ADENPRIBOSYLTRAN-RXN" {"ADENINE[c]": -1, "PPI[c]": 1, "PRPP[c]": -1, "AMP[c]": 1} false ["ADENPRIBOSYLTRAN-CPLX"] -"ADENYL-KIN-RXN" {"ATP[c]": -1, "ADP[c]": 2, "AMP[c]": -1} false ["ADENYL-KIN-MONOMER"] -"ADENYLATECYC-RXN" {"CAMP[c]": 1, "PPI[c]": 1, "ATP[c]": -1} false ["ADENYLATECYC-MONOMER"] -"ADENYLOSUCCINATE-SYNTHASE-RXN" {"PI[c]": 1, "GDP[c]": 1, "PROTON[c]": 2, "ADENYLOSUCC[c]": 1, "GTP[c]": -1, "IMP[c]": -1, "L-ASPARTATE[c]": -1} false ["ADENYLOSUCCINATE-SYN-DIMER"] -"ADENYLYLSULFKIN-RXN" {"PROTON[c]": -1, "APS[c]": 1, "ADP[c]": -1, "PAPS[c]": -1, "ATP[c]": 1} true ["ADENYLYLSULFKIN-CPLX"] -"ADOMET-DMK-METHYLTRANSFER-RXN" {"PROTON[c]": 1, "S-ADENOSYLMETHIONINE[c]": -1, "REDUCED-MENAQUINONE[c]": 1, "ADENOSYL-HOMO-CYS[c]": 1, "CPD-12115[c]": -1} false ["2-OCTAPRENYL-METHOXY-BENZOQ-METH-MONOMER"] -"AGMATIN-RXN" {"WATER[c]": -1, "UREA[c]": 1, "PUTRESCINE[c]": 1, "AGMATHINE[c]": -1} false ["AGMATIN-CPLX"] -"AICARSYN-RXN" {"AICAR[c]": 1, "P-RIBOSYL-4-SUCCCARB-AMINOIMIDAZOLE[c]": -1, "FUM[c]": 1} false ["CPLX0-7959"] -"AICARTRANSFORM-RXN-10-FORMYL-THF/AICAR//THF/PHOSPHORIBOSYL-FORMAMIDO-CARBOXAMIDE.62." {"AICAR[c]": 1, "10-FORMYL-THF[c]": 1, "PHOSPHORIBOSYL-FORMAMIDO-CARBOXAMIDE[c]": -1, "THF[c]": -1} true ["AICARTRANSIMPCYCLO-CPLX"] -"AIRS-RXN" {"PI[c]": 1, "ADP[c]": 1, "PROTON[c]": 1, "5-PHOSPHORIBOSYL-N-FORMYLGLYCINEAMIDINE[c]": -1, "5-PHOSPHORIBOSYL-5-AMINOIMIDAZOLE[c]": 1, "ATP[c]": -1} false ["AIRS-CPLX"] -"AKBLIG-RXN" {"CO-A[c]": 1, "ACETYL-COA[c]": -1, "AMINO-OXOBUT[c]": 1, "GLY[c]": -1} true ["AKBLIG-CPLX"] -"ALANINE--TRNA-LIGASE-RXN-ALA-tRNAs/L-ALPHA-ALANINE/ATP/PROTON//Charged-ALA-tRNAs/AMP/PPI.64." {"ALA-tRNAs[c]": -1, "L-ALPHA-ALANINE[c]": -1, "AMP[c]": 1, "PPI[c]": 1, "ATP[c]": -1, "Charged-ALA-tRNAs[c]": 1} false ["ALAS-CPLX"] -"ALANINE-AMINOTRANSFERASE-RXN" {"GLT[c]": 1, "PYRUVATE[c]": 1, "L-ALPHA-ALANINE[c]": -1, "2-KETOGLUTARATE[c]": -1} true ["CPLX0-7887", "CPLX0-7888", "MONOMER0-1241"] -"ALARACECAT-RXN" {"D-ALANINE[c]": -1, "L-ALPHA-ALANINE[c]": 1} true ["CPLX0-7465", "CPLX0-8202"] -"ALCOHOL-DEHYDROG-GENERIC-RXN-ETOH/NAD//ACETALD/NADH/PROTON.30." {"NADH[c]": 1, "PROTON[c]": 1, "ETOH[c]": -1, "NAD[c]": -1, "ACETALD[c]": 1} true ["CPLX0-8015", "ADHE-CPLX"] -"ALCOHOL-DEHYDROG-GENERIC-RXN-OCTANOL/NAD//CPD-371/NADH/PROTON.33." {"CPD-371[c]": -1, "NADH[c]": -1, "PROTON[c]": -1, "OCTANOL[c]": 1, "NAD[c]": 1} true ["CPLX0-8015", "ADHE-CPLX"] -"ALCOHOL-DEHYDROG-GENERIC-RXN-PROPANOL/NAD//CPD-665/NADH/PROTON.34." {"PROPANOL[c]": 1, "PROTON[c]": -1, "CPD-665[c]": -1, "NAD[c]": 1, "NADH[c]": -1} true ["CPLX0-8015", "ADHE-CPLX"] -"ALCOHOL-DEHYDROG-RXN" {"NADH[c]": 1, "PROTON[c]": 1, "ETOH[c]": -1, "NAD[c]": -1, "ACETALD[c]": 1} true ["ADHE-CPLX", "CPLX0-8015"] -"ALDEHYDE-DEHYDROGENASE-NADP+-RXN-ACETALD/NADP/WATER//ACET/NADPH/PROTON.38." {"NADP[c]": -1, "PROTON[c]": 2, "ACET[c]": 1, "ACETALD[c]": -1, "NADPH[c]": 1, "WATER[c]": -1} false [] -"ALDEHYDE-DEHYDROGENASE-NADP+-RXN-CPD-371/NADP/WATER//CPD-195/NADPH/PROTON.41." {"CPD-371[c]": -1, "NADP[c]": -1, "PROTON[c]": 2, "CPD-195[c]": 1, "WATER[c]": -1, "NADPH[c]": 1} false [] -"ALDEHYDE-DEHYDROGENASE-NADP+-RXN-CPD-665/NADP/WATER//PROPIONATE/NADPH/PROTON.44." {"NADP[c]": -1, "PROTON[c]": 2, "NADPH[c]": 1, "PROPIONATE[c]": 1, "WATER[c]": -1, "CPD-665[c]": -1} false [] -"ALDEHYDE-DEHYDROGENASE-NADP+-RXN-METHYL-GLYOXAL/NADP/WATER//PYRUVATE/NADPH/PROTON.49." {"PYRUVATE[c]": 1, "METHYL-GLYOXAL[c]": -1, "NADP[c]": -1, "PROTON[c]": 2, "WATER[c]": -1, "NADPH[c]": 1} false [] -"ALDOSE-1-EPIMERASE-RXN" {"ALPHA-GLUCOSE[c]": 1, "GLC[c]": -1} true [] -"ALDOSE1EPIM-RXN" {"ALPHA-D-GALACTOSE[c]": 1, "GALACTOSE[c]": -1} true ["ALDOSE1EPIM-MONOMER"] -"ALLANTOATE-DEIMINASE-RXN" {"CPD0-2298[c]": 1, "ALLANTOATE[c]": -1, "PROTON[c]": -2, "AMMONIUM[c]": 1, "WATER[c]": -1, "CARBON-DIOXIDE[c]": 1} false ["CPLX-7524"] -"ALLANTOINASE-RXN" {"WATER[c]": -1, "ALLANTOATE[c]": 1, "PROTON[c]": 1, "S-ALLANTOIN[c]": -1} false ["CPLX-64"] -"ALLOSE-KINASE-RXN" {"PROTON[c]": 1, "D-ALLOSE-6-PHOSPHATE[c]": 1, "D-Allopyranose[c]": -1, "ATP[c]": -1, "ADP[c]": 1} false ["EG11956-MONOMER"] -"ALTRO-OXIDOREDUCT-RXN" {"NADH[c]": 1, "PROTON[c]": 1, "D-TAGATURONATE[c]": 1, "NAD[c]": -1, "D-ALTRONATE[c]": -1} true ["ALTRO-OXIDOREDUCT-MONOMER"] -"ALTRODEHYDRAT-RXN" {"WATER[c]": 1, "2-DEHYDRO-3-DEOXY-D-GLUCONATE[c]": 1, "D-ALTRONATE[c]": -1} false ["ALTRODEHYDRAT-MONOMER"] -"AMINOBUTDEHYDROG-RXN" {"NADH[c]": 1, "4-AMINO-BUTYRATE[c]": 1, "NAD[c]": -1, "4-AMINO-BUTYRALDEHYDE[c]": -1, "PROTON[c]": 2, "WATER[c]": -1} false ["CPLX0-3641"] -"AMP-DEPHOSPHORYLATION-RXN[CCO-CYTOSOL]-AMP/WATER//ADENOSINE/Pi.37." {"WATER[c]": -1, "ADENOSINE[c]": 1, "AMP[c]": -1, "PI[c]": 1} false ["ALKAPHOSPHA-CPLX", "EG10634-MONOMER", "EG12115-MONOMER", "EG11817-MONOMER"] -"AMP-NUCLEOSID-RXN" {"WATER[c]": -1, "ADENINE[c]": 1, "AMP[c]": -1, "CPD-15317[c]": 1} false ["AMP-NUCLEOSID-CPLX"] -"AMPSYN-RXN" {"ADENYLOSUCC[c]": -1, "FUM[c]": 1, "AMP[c]": 1} false ["CPLX0-7959"] -"AMYLOMALT-RXN" {"MALTOTRIOSE[c]": -1, "MALTOTETRAOSE[c]": 1, "Glucopyranose[c]": 1, "MALTOSE[c]": -1} false ["AMYLOMALT-MONOMER"] -"ANTHRANSYN-RXN" {"PYRUVATE[c]": 1, "GLN[c]": -1, "GLT[c]": 1, "PROTON[c]": 1, "ANTHRANILATE[c]": 1, "CHORISMATE[c]": -1} false ["ANTHRANSYN-CPLX"] -"ARABISOM-RXN-ARABINOSE//L-RIBULOSE.22." {"L-RIBULOSE[c]": -1, "ARABINOSE[c]": 1} true ["ARABISOM-CPLX"] -"ARGDECARBOX-RXN[CCO-CYTOSOL]-ARG/PROTON//CARBON-DIOXIDE/AGMATHINE.50." {"ARG[c]": -1, "PROTON[c]": -1, "CARBON-DIOXIDE[c]": 1, "AGMATHINE[c]": 1} false ["ARGDECARBOXDEG-CPLX"] -"ARGININE--TRNA-LIGASE-RXN-ARG-tRNAs/ARG/ATP/PROTON//Charged-ARG-tRNAs/AMP/PPI.52." {"Charged-ARG-tRNAs[c]": 1, "ARG-tRNAs[c]": -1, "AMP[c]": 1, "PPI[c]": 1, "ATP[c]": -1, "ARG[c]": -1} false ["ARGS-MONOMER"] -"ARGININE-N-SUCCINYLTRANSFERASE-RXN" {"SUC-COA[c]": -1, "ARG[c]": -1, "PROTON[c]": 1, "CPD-421[c]": 1, "CO-A[c]": 1} false ["ARGSUCCTRAN-MONOMER"] -"ARGSUCCINLYA-RXN" {"L-ARGININO-SUCCINATE[c]": -1, "ARG[c]": 1, "FUM[c]": 1} true ["ARGSUCCINLYA-MONOMER"] -"ARGSUCCINSYN-RXN" {"PROTON[c]": 1, "L-CITRULLINE[c]": -1, "AMP[c]": 1, "PPI[c]": 1, "ATP[c]": -1, "L-ASPARTATE[c]": -1, "L-ARGININO-SUCCINATE[c]": 1} false ["CPLX0-238"] -"ASNSYNA-RXN" {"PROTON[c]": 1, "AMMONIUM[c]": -1, "AMP[c]": 1, "PPI[c]": 1, "ATP[c]": -1, "L-ASPARTATE[c]": -1, "ASN[c]": 1} false ["ASNSYNA-CPLX", "ASNSYNB-CPLX"] -"ASNSYNB-RXN" {"GLN[c]": -1, "GLT[c]": 1, "PROTON[c]": 1, "AMP[c]": 1, "PPI[c]": 1, "ATP[c]": -1, "L-ASPARTATE[c]": -1, "WATER[c]": -1, "ASN[c]": 1} false ["ASNSYNB-CPLX"] -"ASPAMINOTRANS-RXN" {"OXALACETIC_ACID[c]": 1, "GLT[c]": 1, "2-KETOGLUTARATE[c]": -1, "L-ASPARTATE[c]": -1} true ["ASPAMINOTRANS-DIMER", "TYRB-DIMER"] -"ASPARAGHYD-RXN[CCO-CYTOSOL]-ASN/WATER//L-ASPARTATE/AMMONIUM.45." {"WATER[c]": -1, "ASN[c]": -1, "AMMONIUM[c]": 1, "L-ASPARTATE[c]": 1} false ["ANSA-CPLX", "CPLX0-263"] -"ASPARAGHYD-RXN[CCO-PERI-BAC]-ASN/WATER//L-ASPARTATE/AMMONIUM.46." {"AMMONIUM[p]": 1, "WATER[p]": -1, "ASN[p]": -1, "L-ASPARTATE[p]": 1} false ["ANSB-CPLX"] -"ASPARAGINE--TRNA-LIGASE-RXN-ASN-tRNAs/ASN/ATP/PROTON//Charged-ASN-tRNAs/AMP/PPI.52." {"Charged-ASN-tRNAs[c]": 1, "AMP[c]": 1, "ASN-tRNAs[c]": -1, "PPI[c]": 1, "ATP[c]": -1, "ASN[c]": -1} false ["ASNS-CPLX"] -"ASPARTASE-RXN" {"L-ASPARTATE[c]": -1, "FUM[c]": 1, "AMMONIUM[c]": 1} true ["ASPARTASE-CPLX"] -"ASPARTATE--TRNA-LIGASE-RXN-ASP-tRNAs/L-ASPARTATE/ATP/PROTON//Charged-ASP-tRNAs/AMP/PPI.60." {"Charged-ASP-tRNAs[c]": 1, "AMP[c]": 1, "PPI[c]": 1, "ATP[c]": -1, "L-ASPARTATE[c]": -1, "ASP-tRNAs[c]": -1} false ["ASPS-CPLX"] -"ASPARTATE-SEMIALDEHYDE-DEHYDROGENASE-RXN" {"PI[c]": -1, "NADP[c]": -1, "PROTON[c]": 1, "L-ASPARTATE-SEMIALDEHYDE[c]": -1, "L-BETA-ASPARTYL-P[c]": 1, "NADPH[c]": 1} true ["ASP-SEMIALDEHYDE-DEHYDROGENASE-CPLX"] -"ASPARTATEKIN-RXN" {"L-ASPARTATE[c]": -1, "L-BETA-ASPARTYL-P[c]": 1, "ADP[c]": 1, "ATP[c]": -1} false ["ASPKINIII-CPLX", "ASPKINIIHOMOSERDEHYDROGII-CPLX", "ASPKINIHOMOSERDEHYDROGI-CPLX"] -"ASPCARBTRANS-RXN" {"CARBAMYUL-L-ASPARTATE[c]": 1, "PI[c]": 1, "CARBAMOYL-P[c]": -1, "PROTON[c]": 1, "L-ASPARTATE[c]": -1} false ["ASPCARBTRANS-CPLX"] -"ASPDECARBOX-RXN" {"PROTON[c]": -1, "B-ALANINE[c]": 1, "CARBON-DIOXIDE[c]": 1, "L-ASPARTATE[c]": -1} false ["CPLX0-2901"] -"ATP-PYROPHOSPHATASE-RXN" {"WATER[c]": -1, "PPI[c]": 1, "PROTON[c]": 1, "ATP[c]": -1, "AMP[c]": 1} false ["G6468-MONOMER", "CPLX0-7692"] -"ATPPHOSPHORIBOSYLTRANS-RXN" {"PRPP[c]": 1, "PPI[c]": -1, "PROTON[c]": 1, "ATP[c]": 1, "PHOSPHORIBOSYL-ATP[c]": -1} true ["CPLX0-7614"] -"ATPSYN-RXN[CCO-OUT-CCO-IN]-ATP/PROTON/WATER//ADP/Pi/PROTON.48." {"WATER[c]": -1, "PROTON[c]": -3, "ATP[c]": -1, "PI[c]": 1, "ADP[c]": 1, "PROTON[p]": 4} true ["ATPSYN-CPLX"] -"ATPSYN-RXN[CCO-PM-BAC-NEG]-ATP/PROTON/WATER//ADP/Pi/PROTON.48." {"PI[c]": 1, "ADP[c]": 1, "PROTON[c]": -3, "ATP[c]": -1, "WATER[c]": -1, "PROTON[p]": 4} true ["ATPSYN-CPLX"] -"BADH-RXN" {"NADH[c]": 1, "NAD[c]": -1, "BETAINE[c]": 1, "PROTON[c]": 2, "BETAINE_ALDEHYDE[c]": -1, "WATER[c]": -1} false ["BADH-CPLX"] -"BETA-PHOSPHOGLUCOMUTASE-RXN" {"CPD-448[c]": 1, "GLC-6-P[c]": -1} true ["G6655-MONOMER"] -"BETAGALACTOSID-RXN" {"WATER[c]": -1, "Alpha-lactose[c]": -1, "GLC[c]": 1, "GALACTOSE[c]": 1} false ["BETAGALACTOSID-CPLX"] -"BIOTIN-CARBOXYL-RXN-BCCP-dimers/HCO3/ATP//Carboxybiotin-BCCP/ADP/Pi/PROTON.55." {"PI[c]": 1, "ADP[c]": 1, "PROTON[c]": 1, "Carboxybiotin-BCCP[c]": 1, "HCO3[c]": -1, "BCCP-dimers[c]": -1, "ATP[c]": -1} false ["BIOTIN-CARBOXYL-CPLX"] -"BIOTINLIG-RXN-BCCP-monomers/BIOTIN/ATP//AMP/BCCP-biotin-monomers/PPI/PROTON.62." {"PROTON[c]": 1, "BCCP-biotin-monomers[c]": 1, "AMP[c]": 1, "PPI[c]": 1, "ATP[c]": -1, "BCCP-monomers[c]": -1, "BIOTIN[c]": -1} false ["BIOTINLIG-MONOMER"] -"BRANCHED-CHAINAMINOTRANSFERILEU-RXN" {"GLT[c]": 1, "2-KETO-3-METHYL-VALERATE[c]": 1, "ILE[c]": -1, "2-KETOGLUTARATE[c]": -1} true ["BRANCHED-CHAINAMINOTRANSFER-CPLX"] -"BRANCHED-CHAINAMINOTRANSFERLEU-RXN" {"GLT[c]": -1, "2K-4CH3-PENTANOATE[c]": -1, "LEU[c]": 1, "2-KETOGLUTARATE[c]": 1} true ["TYRB-DIMER", "BRANCHED-CHAINAMINOTRANSFER-CPLX"] -"BRANCHED-CHAINAMINOTRANSFERVAL-RXN" {"GLT[c]": 1, "VAL[c]": -1, "2-KETOGLUTARATE[c]": -1, "2-KETO-ISOVALERATE[c]": 1} true ["BRANCHED-CHAINAMINOTRANSFER-CPLX"] -"CARBAMATE-KINASE-RXN" {"ADP[c]": -1, "PROTON[c]": -2, "AMMONIUM[c]": 1, "ATP[c]": 1, "CARBON-DIOXIDE[c]": 1, "CARBAMOYL-P[c]": -1} false ["EG12384-MONOMER"] -"CARBPSYN-RXN" {"PI[c]": 1, "ADP[c]": 2, "GLN[c]": -1, "GLT[c]": 1, "PROTON[c]": 2, "HCO3[c]": -1, "ATP[c]": -2, "WATER[c]": -1, "CARBAMOYL-P[c]": 1} false ["CARBPSYN-CPLX"] -"CARDIOLIPSYN-RXN-CPD-8260//CPD-12824/GLYCEROL.29." {"CPD-8260[c]": -2, "GLYCEROL[c]": 1, "CPD-12824[c]": 1} false ["G6406-MONOMER", "CARDIOLIPSYN-MONOMER"] -"CATAL-RXN" {"WATER[c]": 2, "OXYGEN-MOLECULE[c]": 1, "HYDROGEN-PEROXIDE[c]": -2} false ["CPLX0-1683", "HYDROPEROXIDI-CPLX", "HYDROPEROXIDII-CPLX"] -"CDPDIGLYPYPHOSPHA-RXN-CPD-12814/WATER//CPD0-1423/CMP/PROTON.38." {"WATER[c]": -1, "CMP[c]": 1, "PROTON[c]": 2, "CPD-12814[c]": -1, "CPD0-1423[c]": 1} false ["CDPDIGLYPYPHOSPHA-MONOMER"] -"CDPDIGLYPYPHOSPHA-RXN-CPD-12815/WATER//CPD0-1422/CMP/PROTON.38." {"WATER[c]": -1, "CMP[c]": 1, "PROTON[c]": 2, "CPD-12815[c]": -1, "CPD0-1422[c]": 1} false ["CDPDIGLYPYPHOSPHA-MONOMER"] -"CDPDIGLYSYN-RXN-CTP/CPD0-1422/PROTON//CPD-12815/PPI.36." {"CTP[c]": -1, "CPD0-1422[c]": -1, "PPI[c]": 1, "CPD-12815[c]": 1, "PROTON[c]": -1} false ["CDPDIGLYSYN-MONOMER"] -"CDPDIGLYSYN-RXN-CTP/CPD0-1423/PROTON//CPD-12814/PPI.36." {"CTP[c]": -1, "PPI[c]": 1, "CPD-12814[c]": 1, "PROTON[c]": -1, "CPD0-1423[c]": -1} false ["CDPDIGLYSYN-MONOMER"] -"CDPKIN-RXN" {"CTP[c]": 1, "CDP[c]": -1, "ATP[c]": -1, "ADP[c]": 1} false ["NUCLEOSIDE-DIP-KIN-CPLX"] -"CHD-RXN" {"Donor-H2[c]": 1, "CHOLINE[c]": -1, "Acceptor[c]": -1, "BETAINE_ALDEHYDE[c]": 1} false ["CHD-MONOMER"] -"CHER-RXN" {"protein-L-glutamate-O4-methyl-ester[c]": 1, "Protein-alpha-L-Glutamates[c]": -1, "ADENOSYL-HOMO-CYS[c]": 1, "S-ADENOSYLMETHIONINE[c]": -1} false ["CHER-MONOMER"] -"CHORISMATE-SYNTHASE-RXN" {"CHORISMATE[c]": 1, "3-ENOLPYRUVYL-SHIKIMATE-5P[c]": -1, "PI[c]": 1} false ["AROC-CPLX"] -"CHORISMATEMUT-RXN" {"PREPHENATE[c]": 1, "CHORISMATE[c]": -1} false ["CHORISMUTPREPHENDEHYDROG-CPLX", "CHORISMUTPREPHENDEHYDRAT-CPLX"] -"CHORPYRLY-RXN" {"CHORISMATE[c]": -1, "PYRUVATE[c]": 1, "4-hydroxybenzoate[c]": 1} false ["CHORPYRLY-MONOMER"] -"CITC-RXN-HOLO-CITRATE-LYASE/ACET/ATP//CITRATE-LYASE/AMP/PPI.51." {"HOLO-CITRATE-LYASE[c]": -1, "CITRATE-LYASE[c]": 1, "ACET[c]": -1, "AMP[c]": 1, "PPI[c]": 1, "ATP[c]": -1} false ["CITC-MONOMER"] -"CITLY-RXN" {"OXALACETIC_ACID[c]": 1, "CIT[c]": -1, "ACET[c]": 1} false ["ACECITLY-CPLX"] -"CITRATE-PRO-3S-LYASE-THIOLESTERASE-RXN-CITRATE-LYASE/WATER//HOLO-CITRATE-LYASE/ACET/PROTON.52." {"WATER[c]": -1, "CITRATE-LYASE[c]": -1, "PROTON[c]": 1, "HOLO-CITRATE-LYASE[c]": 1, "ACET[c]": 1} false [] -"CITRYLY-RXN-Citrate-Lyase-Citryl-Form//OXALACETIC_ACID/CITRATE-LYASE/PROTON.64." {"OXALACETIC_ACID[c]": 1, "PROTON[c]": 1, "Citrate-Lyase-Citryl-Form[c]": -1, "CITRATE-LYASE[c]": 1} false ["ACECITLY-CPLX"] -"CITSYN-RXN" {"OXALACETIC_ACID[c]": -1, "PROTON[c]": 1, "CO-A[c]": 1, "WATER[c]": -1, "CIT[c]": 1, "ACETYL-COA[c]": -1} false ["CPLX0-251", "CITRATE-SI-SYNTHASE"] -"CITTRANS-RXN-CIT/CITRATE-LYASE/PROTON//Citrate-Lyase-Citryl-Form/ACET.57." {"CIT[c]": -1, "PROTON[c]": -1, "Citrate-Lyase-Citryl-Form[c]": 1, "ACET[c]": 1, "CITRATE-LYASE[c]": -1} false ["ACECITLY-CPLX"] -"CPM-KDOSYNTH-RXN" {"CTP[c]": -1, "CMP-KDO[c]": 1, "PPI[c]": 1, "KDO[c]": -1} false ["CPM-KDOSYNTH-MONOMER"] -"CTPSYN-RXN" {"CTP[c]": 1, "PI[c]": 1, "ADP[c]": 1, "GLN[c]": -1, "GLT[c]": 1, "PROTON[c]": 2, "ATP[c]": -1, "WATER[c]": -1, "UTP[c]": -1} false ["CTPSYN-CPLX"] -"CYSTATHIONINE-BETA-LYASE-RXN" {"WATER[c]": -1, "HOMO-CYS[c]": 1, "PYRUVATE[c]": 1, "AMMONIUM[c]": 1, "L-CYSTATHIONINE[c]": -1} false ["CYSTATHIONINE-BETA-LYASE-CPLX", "CPLX0-8092"] -"CYSTEINE--TRNA-LIGASE-RXN-CYS-tRNAs/CYS/ATP/PROTON//Charged-CYS-tRNAs/AMP/PPI.52." {"CYS[c]": -1, "Charged-CYS-tRNAs[c]": 1, "AMP[c]": 1, "PPI[c]": 1, "ATP[c]": -1, "CYS-tRNAs[c]": -1} false ["CYSS-MONOMER"] -"CYTDEAM-RXN" {"URACIL[c]": 1, "WATER[c]": -1, "PROTON[c]": -1, "CYTOSINE[c]": -1, "AMMONIUM[c]": 1} false ["CPLX0-7932"] -"CYTIDEAM-RXN" {"WATER[c]": -1, "DEOXYURIDINE[c]": 1, "PROTON[c]": -1, "DEOXYCYTIDINE[c]": -1, "AMMONIUM[c]": 1} false ["CYTIDEAM-CPLX"] -"CYTIDEAM2-RXN" {"WATER[c]": -1, "URIDINE[c]": 1, "PROTON[c]": -1, "CYTIDINE[c]": -1, "AMMONIUM[c]": 1} false ["CYTIDEAM-CPLX"] -"CYTIDINEKIN-RXN" {"GTP[c]": -1, "CMP[c]": 1, "PROTON[c]": 1, "GDP[c]": 1, "CYTIDINE[c]": -1} false ["UDK-MONOMER"] -"CYTIKIN-RXN" {"CMP[c]": 1, "PROTON[c]": 1, "CYTIDINE[c]": -1, "ADP[c]": 1, "ATP[c]": -1} false ["UDK-MONOMER"] -"D--TARTRATE-DEHYDRATASE-RXN" {"OXALACETIC_ACID[c]": 1, "WATER[c]": 1, "D-TARTRATE[c]": -1} true ["FUMARASE-B"] -"D-PPENTOMUT-RXN" {"DEOXY-RIBOSE-5P[c]": -1, "DEOXY-D-RIBOSE-1-PHOSPHATE[c]": 1} true ["PPENTOMUT-MONOMER"] -"DADPKIN-RXN" {"DATP[c]": 1, "DADP[c]": -1, "ATP[c]": -1, "ADP[c]": 1} false ["NUCLEOSIDE-DIP-KIN-CPLX"] -"DAHPSYN-RXN" {"WATER[c]": -1, "3-DEOXY-D-ARABINO-HEPTULOSONATE-7-P[c]": 1, "ERYTHROSE-4P[c]": -1, "PHOSPHO-ENOL-PYRUVATE[c]": -1, "PI[c]": 1} false ["AROF-CPLX", "AROH-CPLX", "AROG-CPLX"] -"DALADALALIG-RXN" {"PI[c]": 1, "D-ALANINE[c]": -2, "ADP[c]": 1, "PROTON[c]": 1, "D-ALA-D-ALA[c]": 1, "ATP[c]": -1} false ["DALADALALIGB-CPLX", "DALADALALIGA-MONOMER"] -"DALADEHYDROG-RXN-D-ALANINE/CPD-9728/WATER//AMMONIUM/PYRUVATE/REDUCED-MENAQUINONE.64." {"D-ALANINE[c]": -1, "CPD-9728[i]": -1, "AMMONIUM[c]": 1, "WATER[c]": -1, "PYRUVATE[c]": 1, "REDUCED-MENAQUINONE[i]": 1} false ["DALADEHYDROG-CPLX"] -"DALADEHYDROG-RXN-D-ALANINE/UBIQUINONE-8/WATER//AMMONIUM/PYRUVATE/CPD-9956.57." {"D-ALANINE[c]": -1, "PYRUVATE[c]": 1, "CPD-9956[i]": 1, "AMMONIUM[c]": 1, "WATER[c]": -1, "UBIQUINONE-8[i]": -1} false ["DALADEHYDROG-CPLX"] -"DAPASYN-RXN" {"S-ADENOSYL-4-METHYLTHIO-2-OXOBUTANOATE[c]": 1, "8-AMINO-7-OXONONANOATE[c]": -1, "S-ADENOSYLMETHIONINE[c]": -1, "DIAMINONONANOATE[c]": 1} true ["DAPASYN-CPLX"] -"DARAB5PISOM-RXN" {"ARABINOSE-5P[c]": 1, "RIBULOSE-5P[c]": -1} true ["CPLX0-3929", "CPLX0-1262"] -"DARABALDOL-RXN" {"DIHYDROXY-ACETONE-PHOSPHATE[c]": -1, "GLYCOLALDEHYDE[c]": -1, "D-RIBULOSE-1-P[c]": 1} true ["CPLX0-7633"] -"DARABISOM-RXN" {"D-RIBULOSE[c]": -1, "D-arabinopyranose[c]": 1} true ["CPLX0-7631"] -"DARABKIN-RXN" {"PROTON[c]": 1, "D-RIBULOSE[c]": -1, "ATP[c]": -1, "ADP[c]": 1, "D-RIBULOSE-1-P[c]": 1} false ["FUCULOKIN-MONOMER"] -"DCDPKIN-RXN" {"DCDP[c]": -1, "DCTP[c]": 1, "ADP[c]": 1, "ATP[c]": -1} false ["NUCLEOSIDE-DIP-KIN-CPLX"] -"DCTP-DEAM-RXN" {"WATER[c]": -1, "PROTON[c]": -1, "DUTP[c]": 1, "DCTP[c]": -1, "AMMONIUM[c]": 1} false ["DCTP-DEAM-CPLX"] -"DCTP-PYROPHOSPHATASE-RXN" {"WATER[c]": -1, "PROTON[c]": 1, "DCMP[c]": 1, "PPI[c]": 1, "DCTP[c]": -1} false ["G7164-MONOMER", "CPLX0-7692"] -"DCYSDESULF-RXN" {"WATER[c]": -1, "HS[c]": 1, "PYRUVATE[c]": 1, "D-CYSTEINE[c]": -1, "AMMONIUM[c]": 1} false ["DCYSDESULF-CPLX"] -"DEHYDDEOXPHOSGALACT-ALDOL-RXN" {"GAP[c]": -1, "PYRUVATE[c]": -1, "DEHYDRO-DEOXY-GALACTONATE-PHOSPHATE[c]": 1} true ["DEHYDDEOXPHOSGALACT-ALDOL-MONOMER"] -"DEOXYADENPHOSPHOR-RXN" {"ADENINE[c]": 1, "DEOXYADENOSINE[c]": -1, "DEOXY-D-RIBOSE-1-PHOSPHATE[c]": 1, "PI[c]": -1} true ["DEOD-CPLX"] -"DEOXYGLUCONOKIN-RXN" {"PROTON[c]": 1, "2-DEHYDRO-3-DEOXY-D-GLUCONATE[c]": -1, "ATP[c]": -1, "ADP[c]": 1, "2-KETO-3-DEOXY-6-P-GLUCONATE[c]": 1} false ["DEOXYGLUCONOKIN-MONOMER"] -"DEOXYGUANPHOSPHOR-RXN" {"PI[c]": 1, "DEOXY-D-RIBOSE-1-PHOSPHATE[c]": -1, "GUANINE[c]": -1, "DEOXYGUANOSINE[c]": 1} true ["DEOD-CPLX"] -"DEOXYINOPHOSPHOR-RXN" {"DEOXYINOSINE[c]": -1, "PI[c]": -1, "DEOXY-D-RIBOSE-1-PHOSPHATE[c]": 1, "HYPOXANTHINE[c]": 1} true ["DEOD-CPLX"] -"DEOXYRIBOSE-P-ALD-RXN" {"GAP[c]": -1, "DEOXY-RIBOSE-5P[c]": 1, "ACETALD[c]": -1} true ["DEOXYRIBOSE-P-ALD-MONOMER"] -"DEPHOSPHOCOAKIN-RXN" {"CO-A[c]": 1, "DEPHOSPHO-COA[c]": -1, "PROTON[c]": 1, "ATP[c]": -1, "ADP[c]": 1} false ["EG12312-MONOMER"] -"DETHIOBIOTIN-SYN-RXN" {"PI[c]": 1, "ADP[c]": 1, "PROTON[c]": 3, "DETHIOBIOTIN[c]": 1, "ATP[c]": -1, "CARBON-DIOXIDE[c]": -1, "DIAMINONONANOATE[c]": -1} false ["DETHIOBIOTIN-SYN-CPLX"] -"DGDPKIN-RXN" {"DGDP[c]": -1, "ATP[c]": -1, "ADP[c]": 1, "DGTP[c]": 1} false ["NUCLEOSIDE-DIP-KIN-CPLX"] -"DGTPTRIPHYDRO-RXN" {"WATER[c]": -1, "DGTP[c]": -1, "PROTON[c]": 1, "P3I[c]": 1, "DEOXYGUANOSINE[c]": 1} false ["DGTPTRIPHYDRO-CPLX"] -"DHBAMPLIG-RXN" {"PPI[c]": 1, "PROTON[c]": -1, "2-3-DIHYDROXYBENZOATE[c]": -1, "CPD-62[c]": 1, "ATP[c]": -1} false ["ENTE-CPLX", "ENTMULTI-CPLX"] -"DHBDEHYD-RXN" {"NADH[c]": 1, "PROTON[c]": 1, "DIHYDRO-DIOH-BENZOATE[c]": -1, "2-3-DIHYDROXYBENZOATE[c]": 1, "NAD[c]": -1} false ["ENTA-CPLX"] -"DHDOGALDOL-RXN" {"GLYCERALD[c]": 1, "2-DEHYDRO-3-DEOXY-D-GLUCONATE[c]": -1, "PYRUVATE[c]": 1} true ["CPLX0-7940"] -"DHHB-METHYLTRANSFER-RXN" {"ADENOSYL-HOMO-CYS[c]": 1, "S-ADENOSYLMETHIONINE[c]": -1, "CPD-9956[c]": 1, "PROTON[c]": 1, "OCTAPRENYL-METHYL-OH-METHOXY-BENZQ[c]": -1} false ["DHHB-METHYLTRANSFER-CPLX"] -"DIACYLGLYKIN-RXN" {"L-PHOSPHATIDATE[c]": -1, "DIACYLGLYCEROL[c]": 1, "PROTON[c]": -1, "ADP[c]": -1, "ATP[c]": 1} true ["DIACYLGLYKIN-CPLX"] -"DIAMACTRANS-RXN-SPERMINE/ACETYL-COA//N1-ACETYLSPERMINE/CO-A/PROTON.51." {"N1-ACETYLSPERMINE[c]": 1, "CO-A[c]": 1, "PROTON[c]": 1, "ACETYL-COA[c]": -1, "SPERMINE[c]": -1} true ["SPERMACTRAN-CPLX"] -"DIAMINOPIMDECARB-RXN" {"LYS[c]": 1, "PROTON[c]": -1, "CARBON-DIOXIDE[c]": 1, "MESO-DIAMINOPIMELATE[c]": -1} false ["DIAMINOPIMDECARB-CPLX"] -"DIAMINOPIMEPIM-RXN" {"LL-DIAMINOPIMELATE[c]": -1, "MESO-DIAMINOPIMELATE[c]": 1} true ["CPLX0-7997"] -"DIAMTRANSAM-RXN-PUTRESCINE/2-KETOGLUTARATE//4-AMINO-BUTYRALDEHYDE/GLT.54." {"GLT[c]": 1, "PUTRESCINE[c]": -1, "2-KETOGLUTARATE[c]": -1, "4-AMINO-BUTYRALDEHYDE[c]": 1} true ["CPLX0-8159"] -"DIHYDRODIPICSYN-RXN" {"WATER[c]": 1, "CPD-14443[c]": 1, "PROTON[c]": 1, "PYRUVATE[c]": -1, "L-ASPARTATE-SEMIALDEHYDE[c]": -1} false ["DIHYDRODIPICSYN-CPLX"] -"DIHYDROFOLATEREDUCT-RXN-THF/NADP//DIHYDROFOLATE/NADPH/PROTON.37." {"NADPH[c]": -1, "NADP[c]": 1, "PROTON[c]": -1, "DIHYDROFOLATE[c]": -1, "THF[c]": 1} false ["G6862-MONOMER", "DIHYDROFOLATEREDUCT-MONOMER"] -"DIHYDROFOLATESYNTH-RXN" {"PI[c]": 1, "ADP[c]": 1, "GLT[c]": -1, "PROTON[c]": 1, "7-8-DIHYDROPTEROATE[c]": -1, "ATP[c]": -1, "DIHYDROFOLATE[c]": 1} false ["FOLC-MONOMER"] -"DIHYDRONEOPTERIN-MONO-P-DEPHOS-RXN" {"WATER[c]": -1, "DIHYDRO-NEO-PTERIN[c]": 1, "DIHYDRONEOPTERIN-P[c]": -1, "PI[c]": 1} false ["DIHYDRONEOPTERIN-MONO-P-DEPHOS-MONOMER"] -"DIHYDROOROT-RXN" {"CARBAMYUL-L-ASPARTATE[c]": 1, "DI-H-OROTATE[c]": -1, "PROTON[c]": 1, "WATER[c]": -1} true ["DIHYDROOROT-CPLX"] -"DIHYDROOROTATE-DEHYDROGENASE-RXN-DI-H-OROTATE/CPD-9728//OROTATE/REDUCED-MENAQUINONE.51." {"DI-H-OROTATE[c]": -1, "CPD-9728[i]": -1, "REDUCED-MENAQUINONE[i]": 1, "OROTATE[c]": 1} false ["DIHYDROOROTOX-MONOMER"] -"DIHYDROOROTATE-DEHYDROGENASE-RXN-DI-H-OROTATE/UBIQUINONE-8//OROTATE/CPD-9956.44." {"DI-H-OROTATE[c]": -1, "CPD-9956[i]": 1, "UBIQUINONE-8[i]": -1, "OROTATE[c]": 1} false ["DIHYDROOROTOX-MONOMER"] -"DIHYDROURACIL-DEHYDROGENASE-NAD+-RXN" {"URACIL[c]": -1, "NADH[c]": -1, "PROTON[c]": -1, "NAD[c]": 1, "DI-H-URACIL[c]": 1} true ["CPLX0-7788"] -"DIHYDROXYISOVALDEHYDRAT-RXN" {"WATER[c]": 1, "CPD-13357[c]": -1, "2-KETO-ISOVALERATE[c]": 1} false ["DIHYDROXYACIDDEHYDRAT-CPLX"] -"DIHYDROXYMETVALDEHYDRAT-RXN" {"WATER[c]": 1, "1-KETO-2-METHYLVALERATE[c]": -1, "2-KETO-3-METHYL-VALERATE[c]": 1} false ["DIHYDROXYACIDDEHYDRAT-CPLX"] -"DIMESULFREDUCT-RXN-CPD-7670/CPD-9728/WATER//DMSO/REDUCED-MENAQUINONE.50." {"WATER[p]": 1, "CPD-7670[p]": 1, "CPD-9728[i]": 1, "REDUCED-MENAQUINONE[i]": -1, "DMSO[p]": -1} true ["DIMESULFREDUCT-CPLX"] -"DIMETHUROPORDEHYDROG-RXN" {"DIHYDROSIROHYDROCHLORIN[c]": 1, "NADH[c]": -1, "SIROHYDROCHLORIN[c]": -1, "PROTON[c]": -2, "NAD[c]": 1} true ["SIROHEMESYN-CPLX"] -"DIOHBUTANONEPSYN-RXN" {"PROTON[c]": 1, "RIBULOSE-5P[c]": -1, "DIHYDROXY-BUTANONE-P[c]": 1, "FORMATE[c]": 1} false ["DIOHBUTANONEPSYN-CPLX"] -"DLACTDEHYDROGFAD-RXN-D-LACTATE/UBIQUINONE-8//PYRUVATE/CPD-9956.42." {"PYRUVATE[c]": 1, "D-LACTATE[c]": -1, "UBIQUINONE-8[i]": -1, "CPD-9956[i]": 1} false ["DLACTDEHYDROGFAD-MONOMER"] -"DLACTDEHYDROGNAD-RXN" {"NADH[c]": -1, "PROTON[c]": -1, "PYRUVATE[c]": -1, "D-LACTATE[c]": 1, "NAD[c]": 1} false ["CPLX0-8158"] -"DMK-RXN" {"CPD-12115[c]": 1, "OCTAPRENYL-DIPHOSPHATE[c]": -1, "PROTON[c]": -1, "PPI[c]": 1, "CARBON-DIOXIDE[c]": 1, "DIHYDROXYNAPHTHOATE[c]": -1} false ["DMK-MONOMER"] -"DSERDEAM-RXN" {"PYRUVATE[c]": -1, "AMMONIUM[c]": -1, "D-SERINE[c]": 1} true ["DSERDEAM-MONOMER"] -"DTDPDEHYDRHAMEPIM-RXN" {"DTDP-DEOH-DEOXY-GLUCOSE[c]": -1, "DTDP-DEOH-DEOXY-MANNOSE[c]": 1} false ["DTDPDEHYDRHAMEPIM-MONOMER", "DTDPRHAMSYNTHMULTI-CPLX"] -"DTDPDEHYRHAMREDUCT-RXN" {"NADPH[c]": -1, "NADP[c]": 1, "DTDP-DEOH-DEOXY-MANNOSE[c]": -1, "DTDP-RHAMNOSE[c]": 1, "PROTON[c]": -1} false ["DTDPDEHYRHAMREDUCT-MONOMER", "DTDPRHAMSYNTHMULTI-CPLX"] -"DTDPGLUCDEHYDRAT-RXN" {"WATER[c]": 1, "DTDP-DEOH-DEOXY-GLUCOSE[c]": 1, "DTDP-D-GLUCOSE[c]": -1} false ["DTDPGLUCDEHYDRAT2-MONOMER", "DTDPGLUCDEHYDRAT-CPLX"] -"DTDPGLUCOSEPP-RXN" {"PPI[c]": -1, "PROTON[c]": 1, "DTDP-D-GLUCOSE[c]": -1, "GLC-1-P[c]": 1, "TTP[c]": 1} true ["CPLX0-8012", "CPLX0-8034"] -"DTDPKIN-RXN" {"TTP[c]": 1, "TDP[c]": -1, "ADP[c]": 1, "ATP[c]": -1} false ["NUCLEOSIDE-DIP-KIN-CPLX"] -"DTDPRHAMSYNTHMULTI-RXN" {"DTDP-DEOH-DEOXY-GLUCOSE[c]": -1, "PROTON[c]": -1, "DTDP-RHAMNOSE[c]": 1, "NAD[c]": 1, "NADH[c]": -1} true ["DTDPRHAMSYNTHMULTI-CPLX"] -"DTMPKI-RXN" {"TMP[c]": -1, "TDP[c]": 1, "ADP[c]": 1, "ATP[c]": -1} false ["DTMPKI-MONOMER"] -"DUDPKIN-RXN" {"DUTP[c]": 1, "ATP[c]": -1, "ADP[c]": 1, "DUDP[c]": -1} false ["NUCLEOSIDE-DIP-KIN-CPLX"] -"DURIDKI-RXN" {"DEOXYURIDINE[c]": -1, "PROTON[c]": 1, "DUMP[c]": 1, "ADP[c]": 1, "ATP[c]": -1} false ["TDK-MONOMER"] -"DUTP-PYROP-RXN" {"WATER[c]": -1, "PPI[c]": 1, "PROTON[c]": 1, "DUMP[c]": 1, "DUTP[c]": -1} false ["G7164-MONOMER", "DUTP-PYROP-CPLX", "CPLX0-7692"] -"DXPREDISOM-RXN" {"DEOXYXYLULOSE-5P[c]": 1, "NADPH[c]": 1, "PROTON[c]": 1, "2-C-METHYL-D-ERYTHRITOL-4-PHOSPHATE[c]": -1, "NADP[c]": -1} true ["DXPREDISOM-CPLX"] -"DXS-RXN" {"DEOXYXYLULOSE-5P[c]": 1, "GAP[c]": -1, "PROTON[c]": -1, "PYRUVATE[c]": -1, "CARBON-DIOXIDE[c]": 1} false ["CPLX0-743"] -"ENOYL-ACP-REDUCT-NADH-RXN-Decanoyl-ACPs/NAD//Trans-D2-decenoyl-ACPs/NADH/PROTON.54." {"Trans-D2-decenoyl-ACPs[c]": -1, "Decanoyl-ACPs[c]": 1, "PROTON[c]": -1, "NAD[c]": 1, "NADH[c]": -1} false ["CPLX0-8006"] -"ENOYL-ACP-REDUCT-NADH-RXN-Dodecanoyl-ACPs/NAD//Dodec-2-enoyl-ACPs/NADH/PROTON.52." {"Dodec-2-enoyl-ACPs[c]": -1, "NADH[c]": -1, "PROTON[c]": -1, "NAD[c]": 1, "Dodecanoyl-ACPs[c]": 1} false ["CPLX0-8006"] -"ENOYL-ACP-REDUCT-NADH-RXN-Hexanoyl-ACPs/NAD//Hex-2-enoyl-ACPs/NADH/PROTON.48." {"Hex-2-enoyl-ACPs[c]": -1, "NADH[c]": -1, "PROTON[c]": -1, "Hexanoyl-ACPs[c]": 1, "NAD[c]": 1} false ["CPLX0-8006"] -"ENOYL-ACP-REDUCT-NADH-RXN-Myristoyl-ACPs/NAD//Tetradec-2-enoyl-ACPs/NADH/PROTON.54." {"Tetradec-2-enoyl-ACPs[c]": -1, "NADH[c]": -1, "PROTON[c]": -1, "Myristoyl-ACPs[c]": 1, "NAD[c]": 1} false ["CPLX0-8006"] -"ENOYL-ACP-REDUCT-NADH-RXN-Octanoyl-ACPs/NAD//2-Octenoyl-ACPs/NADH/PROTON.47." {"NADH[c]": -1, "PROTON[c]": -1, "Octanoyl-ACPs[c]": 1, "2-Octenoyl-ACPs[c]": -1, "NAD[c]": 1} false ["CPLX0-8006"] -"ENOYL-ACP-REDUCT-NADH-RXN-POLYMER-INST-Saturated-Fatty-Acyl-ACPs-C0-H0/NAD//Crotonyl-ACPs/NADH/PROTON.76." {"POLYMER-INST-Saturated-Fatty-Acyl-ACPs-C0-H0[c]": 1, "PROTON[c]": -1, "Crotonyl-ACPs[c]": -1, "NAD[c]": 1, "NADH[c]": -1} false ["CPLX0-8006"] -"ENOYL-ACP-REDUCT-NADH-RXN-Palmitoyl-ACPs/NAD//2-Hexadecenoyl-ACPs/NADH/PROTON.52." {"NADH[c]": -1, "PROTON[c]": -1, "2-Hexadecenoyl-ACPs[c]": -1, "Palmitoyl-ACPs[c]": 1, "NAD[c]": 1} false ["CPLX0-8006"] -"ENOYL-ACP-REDUCT-NADPH-RXN-Decanoyl-ACPs/NADP//NADPH/Trans-D2-decenoyl-ACPs/PROTON.56." {"NADPH[c]": -1, "Trans-D2-decenoyl-ACPs[c]": -1, "Decanoyl-ACPs[c]": 1, "PROTON[c]": -1, "NADP[c]": 1} false [] -"ENOYL-ACP-REDUCT-NADPH-RXN-Dodecanoyl-ACPs/NADP//NADPH/Dodec-2-enoyl-ACPs/PROTON.54." {"NADPH[c]": -1, "Dodec-2-enoyl-ACPs[c]": -1, "PROTON[c]": -1, "Dodecanoyl-ACPs[c]": 1, "NADP[c]": 1} false [] -"ENOYL-ACP-REDUCT-NADPH-RXN-Hexanoyl-ACPs/NADP//NADPH/Hex-2-enoyl-ACPs/PROTON.50." {"NADPH[c]": -1, "Hex-2-enoyl-ACPs[c]": -1, "PROTON[c]": -1, "Hexanoyl-ACPs[c]": 1, "NADP[c]": 1} false [] -"ENOYL-ACP-REDUCT-NADPH-RXN-Myristoyl-ACPs/NADP//NADPH/Tetradec-2-enoyl-ACPs/PROTON.56." {"NADPH[c]": -1, "Tetradec-2-enoyl-ACPs[c]": -1, "PROTON[c]": -1, "Myristoyl-ACPs[c]": 1, "NADP[c]": 1} false [] -"ENOYL-ACP-REDUCT-NADPH-RXN-Octanoyl-ACPs/NADP//NADPH/2-Octenoyl-ACPs/PROTON.49." {"NADPH[c]": -1, "NADP[c]": 1, "PROTON[c]": -1, "Octanoyl-ACPs[c]": 1, "2-Octenoyl-ACPs[c]": -1} false [] -"ENOYL-ACP-REDUCT-NADPH-RXN-POLYMER-INST-Saturated-Fatty-Acyl-ACPs-C0-H0/NADP//NADPH/Crotonyl-ACPs/PROTON.78." {"NADPH[c]": -1, "POLYMER-INST-Saturated-Fatty-Acyl-ACPs-C0-H0[c]": 1, "PROTON[c]": -1, "Crotonyl-ACPs[c]": -1, "NADP[c]": 1} false [] -"ENOYL-ACP-REDUCT-NADPH-RXN-Palmitoyl-ACPs/NADP//NADPH/2-Hexadecenoyl-ACPs/PROTON.54." {"NADPH[c]": -1, "NADP[c]": 1, "PROTON[c]": -1, "2-Hexadecenoyl-ACPs[c]": -1, "Palmitoyl-ACPs[c]": 1} false [] -"ENOYL-COA-DELTA-ISOM-RXN-CPD-7221//CPD-7222.19." {"CPD-7221[c]": -1, "CPD-7222[c]": 1} true ["FADB-CPLX", "FAO-CPLX", "CPLX0-1666", "CPLX0-1668"] -"ENOYL-COA-DELTA-ISOM-RXN-POLYMER-INST-CIS-DELTA3-ENOYL-COA-C0-H0//CROTONYL-COA.54." {"POLYMER-INST-CIS-DELTA3-ENOYL-COA-C0-H0[c]": 1, "CROTONYL-COA[c]": -1} true ["FADB-CPLX", "FAO-CPLX", "CPLX0-1666", "CPLX0-1668"] -"ENOYL-COA-DELTA-ISOM-RXN-POLYMER-INST-CIS-DELTA3-ENOYL-COA-C10-H20//POLYMER-INST-TRANS-D2-ENOYL-COA-C10-H20.83." {"POLYMER-INST-TRANS-D2-ENOYL-COA-C10-H20[c]": -1, "POLYMER-INST-CIS-DELTA3-ENOYL-COA-C10-H20[c]": 1} true ["FADB-CPLX", "FAO-CPLX", "CPLX0-1666", "CPLX0-1668"] -"ENOYL-COA-DELTA-ISOM-RXN-POLYMER-INST-CIS-DELTA3-ENOYL-COA-C12-H24//CPD0-2117.53." {"POLYMER-INST-CIS-DELTA3-ENOYL-COA-C12-H24[c]": 1, "CPD0-2117[c]": -1} true ["FADB-CPLX", "FAO-CPLX", "CPLX0-1666", "CPLX0-1668"] -"ENOYL-COA-DELTA-ISOM-RXN-POLYMER-INST-CIS-DELTA3-ENOYL-COA-C14-H28//CPD-10262.53." {"CPD-10262[c]": 1, "POLYMER-INST-CIS-DELTA3-ENOYL-COA-C14-H28[c]": -1} true ["FADB-CPLX", "FAO-CPLX", "CPLX0-1666", "CPLX0-1668"] -"ENOYL-COA-DELTA-ISOM-RXN-POLYMER-INST-CIS-DELTA3-ENOYL-COA-C16-H32//POLYMER-INST-TRANS-D2-ENOYL-COA-C16-H32.83." {"POLYMER-INST-CIS-DELTA3-ENOYL-COA-C16-H32[c]": -1, "POLYMER-INST-TRANS-D2-ENOYL-COA-C16-H32[c]": 1} true ["FADB-CPLX", "FAO-CPLX", "CPLX0-1666", "CPLX0-1668"] -"ENOYL-COA-DELTA-ISOM-RXN-POLYMER-INST-CIS-DELTA3-ENOYL-COA-C2-H4//CPD0-2121.51." {"CPD0-2121[c]": -1, "POLYMER-INST-CIS-DELTA3-ENOYL-COA-C2-H4[c]": 1} true ["FADB-CPLX", "FAO-CPLX", "CPLX0-1666", "CPLX0-1668"] -"ENOYL-COA-DELTA-ISOM-RXN-POLYMER-INST-CIS-DELTA3-ENOYL-COA-C4-H8//CPD0-2108.51." {"CPD0-2108[c]": 1, "POLYMER-INST-CIS-DELTA3-ENOYL-COA-C4-H8[c]": -1} true ["FADB-CPLX", "FAO-CPLX", "CPLX0-1666", "CPLX0-1668"] -"ENOYL-COA-DELTA-ISOM-RXN-POLYMER-INST-CIS-DELTA3-ENOYL-COA-C6-H12//T2-DECENOYL-COA.58." {"POLYMER-INST-CIS-DELTA3-ENOYL-COA-C6-H12[c]": -1, "T2-DECENOYL-COA[c]": 1} true ["FADB-CPLX", "FAO-CPLX", "CPLX0-1666", "CPLX0-1668"] -"ENOYL-COA-HYDRAT-RXN-CPD0-2107//CPD-7222/WATER.26." {"WATER[c]": -1, "CPD-7222[c]": -1, "CPD0-2107[c]": 1} false ["FADB-CPLX", "FAO-CPLX", "CPLX0-1666", "CPLX0-1668"] -"ENOYL-COA-HYDRAT-RXN-CPD0-2171//POLYMER-INST-TRANS-D2-ENOYL-COA-C10-H20/WATER.57." {"WATER[c]": -1, "CPD0-2171[c]": 1, "POLYMER-INST-TRANS-D2-ENOYL-COA-C10-H20[c]": -1} false ["FADB-CPLX", "FAO-CPLX", "CPLX0-1666", "CPLX0-1668"] -"ENOYL-COA-HYDRAT-RXN-CPD0-2224//CPD0-2108/WATER.27." {"WATER[c]": -1, "CPD0-2224[c]": 1, "CPD0-2108[c]": -1} false ["FADB-CPLX", "FAO-CPLX", "CPLX0-1666", "CPLX0-1668"] -"ENOYL-COA-HYDRAT-RXN-CPD0-2232//CPD0-2117/WATER.27." {"CPD0-2232[c]": 1, "WATER[c]": -1, "CPD0-2117[c]": -1} false ["FADB-CPLX", "FAO-CPLX", "CPLX0-1666", "CPLX0-1668"] -"ENOYL-COA-HYDRAT-RXN-CPD0-2244//T2-DECENOYL-COA/WATER.33." {"WATER[c]": -1, "CPD0-2244[c]": 1, "T2-DECENOYL-COA[c]": -1} false ["FADB-CPLX", "FAO-CPLX", "CPLX0-1666", "CPLX0-1668"] -"ENOYL-COA-HYDRAT-RXN-CPD0-2253//CPD-10262/WATER.27." {"WATER[c]": -1, "CPD0-2253[c]": 1, "CPD-10262[c]": -1} false ["FADB-CPLX", "FAO-CPLX", "CPLX0-1666", "CPLX0-1668"] -"ENOYL-COA-HYDRAT-RXN-OH-HEXANOYL-COA//CPD0-2121/WATER.33." {"WATER[c]": -1, "CPD0-2121[c]": -1, "OH-HEXANOYL-COA[c]": 1} false ["FADB-CPLX", "FAO-CPLX", "CPLX0-1666", "CPLX0-1668"] -"ENOYL-COA-HYDRAT-RXN-POLYMER-INST-L-3-HYDROXYACYL-COA-C16-H32//POLYMER-INST-TRANS-D2-ENOYL-COA-C16-H32/WATER.88." {"WATER[c]": -1, "POLYMER-INST-TRANS-D2-ENOYL-COA-C16-H32[c]": -1, "POLYMER-INST-L-3-HYDROXYACYL-COA-C16-H32[c]": 1} false ["FADB-CPLX", "FAO-CPLX", "CPLX0-1666", "CPLX0-1668"] -"ENOYL-COA-HYDRAT-RXN-S-3-HYDROXYBUTANOYL-COA//CROTONYL-COA/WATER.44." {"WATER[c]": -1, "S-3-HYDROXYBUTANOYL-COA[c]": 1, "CROTONYL-COA[c]": -1} false ["FADB-CPLX", "FAO-CPLX", "CPLX0-1666", "CPLX0-1668"] -"ENTDB-RXN-Apo-EntB/CO-A//Holo-EntB/3-5-ADP/PROTON.40." {"Apo-EntB[c]": -1, "CO-A[c]": -1, "PROTON[c]": 1, "3-5-ADP[c]": 1, "Holo-EntB[c]": 1} false ["ENTD-MONOMER", "HOLO-ACP-SYNTH-CPLX", "EG12221-MONOMER"] -"ENTF-RXN" {"PPI[c]": 1, "SER[c]": -1, "PROTON[c]": -1, "ATP[c]": -1, "SERYL-AMP[c]": 1} true ["ENTF-PANT", "ENTMULTI-CPLX"] -"ENTG-RXN-DHB-Seryl-EntF//ENTEROBACTIN/Holo-EntF.39." {"DHB-Seryl-EntF[c]": -3, "Holo-EntF[c]": 3, "ENTEROBACTIN[c]": 1} false ["ENTF-PANT", "ENTMULTI-CPLX"] -"ENTMULTI-RXN" {"2-3-DIHYDROXYBENZOATE[c]": -3, "ENTEROBACTIN[c]": 1, "AMP[c]": 6, "PPI[c]": 6, "SER[c]": -3, "ATP[c]": -6, "PROTON[c]": 3} false ["ENTMULTI-CPLX"] -"ERYTH4PDEHYDROG-RXN" {"NADH[c]": 1, "ERYTHROSE-4P[c]": -1, "NAD[c]": -1, "PROTON[c]": 2, "ERYTHRONATE-4P[c]": 1, "WATER[c]": -1} false ["ERYTH4PDEHYDROG-CPLX"] -"ERYTHRON4PDEHYDROG-RXN" {"ERYTHRONATE-4P[c]": -1, "PROTON[c]": 1, "3OH-4P-OH-ALPHA-KETOBUTYRATE[c]": 1, "NAD[c]": -1, "NADH[c]": 1} false ["CPLX0-8212"] -"ETHAMLY-RXN" {"ACETALD[c]": 1, "ETHANOL-AMINE[c]": -1, "AMMONIUM[c]": 1} false ["ETHAMLY-CPLX"] -"F16ALDOLASE-RXN" {"DIHYDROXY-ACETONE-PHOSPHATE[c]": -1, "GAP[c]": -1, "FRUCTOSE-16-DIPHOSPHATE[c]": 1} true ["FRUCBISALD-CLASSI", "FRUCBISALD-CLASSII"] -"F16BDEPHOS-RXN[CCO-CYTOSOL]-FRUCTOSE-16-DIPHOSPHATE/WATER//FRUCTOSE-6P/Pi.59." {"WATER[c]": -1, "PI[c]": 1, "FRUCTOSE-16-DIPHOSPHATE[c]": -1, "FRUCTOSE-6P[c]": 1} false ["F16B-CPLX", "CPLX0-303", "EG11239-MONOMER", "CPLX0-7776"] -"FADSYN-RXN" {"PPI[c]": 1, "FMN[c]": -1, "PROTON[c]": -1, "FAD[c]": 1, "ATP[c]": -1} false ["RIBF-MONOMER"] -"FERREDOXIN--NAD+-REDUCTASE-RXN" {"NADH[c]": -1, "PROTON[c]": 1, "Reduced-2Fe-2S-Ferredoxins[c]": 2, "NAD[c]": 1, "Oxidized-2Fe-2S-Ferredoxins[c]": -2} true [] -"FGAMSYN-RXN" {"PI[c]": 1, "5-P-RIBOSYL-N-FORMYLGLYCINEAMIDE[c]": -1, "GLN[c]": -1, "GLT[c]": 1, "PROTON[c]": 1, "ADP[c]": 1, "5-PHOSPHORIBOSYL-N-FORMYLGLYCINEAMIDINE[c]": 1, "ATP[c]": -1, "WATER[c]": -1} false ["FGAMSYN-MONOMER"] -"FLAVONADPREDUCT-RXN-Oxidized-flavodoxins/NADPH/PROTON//Reduced-flavodoxins/NADP.60." {"NADPH[c]": -1, "NADP[c]": 1, "PROTON[c]": -1, "Oxidized-flavodoxins[c]": -1, "Reduced-flavodoxins[c]": 1} true ["FLAVONADPREDUCT-MONOMER", "NRDACTMULTI-CPLX"] -"FMNREDUCT-RXN-FMNH2/NAD//FMN/NADH/PROTON.27." {"FMNH2[c]": -1, "PROTON[c]": 2, "FMN[c]": 1, "NAD[c]": -1, "NADH[c]": 1} true ["FMNREDUCT-MONOMER"] -"FMNREDUCT-RXN-FMNH2/NADP//FMN/NADPH/PROTON.29." {"NADPH[c]": 1, "FMNH2[c]": -1, "PROTON[c]": 2, "FMN[c]": 1, "NADP[c]": -1} true ["FMNREDUCT-MONOMER"] -"FORMATEDEHYDROG-RXN-FORMATE/CPD-9728/PROTON//CARBON-DIOXIDE/REDUCED-MENAQUINONE/PROTON.67." {"CPD-9728[i]": -1, "PROTON[c]": -2, "CARBON-DIOXIDE[p]": 1, "FORMATE[p]": -1, "REDUCED-MENAQUINONE[i]": 1, "PROTON[p]": 1} false ["FORMATEDEHYDROGO-CPLX", "FORMATEDEHYDROGN-CPLX"] -"FORMYLTHFDEFORMYL-RXN-10-FORMYL-THF/WATER//THF/FORMATE/PROTON.40." {"WATER[c]": -1, "PROTON[c]": 1, "THF[c]": 1, "FORMATE[c]": 1, "10-FORMYL-THF[c]": -1} false ["FORMYLTHFDEFORMYL-CPLX"] -"FPPSYN-RXN" {"GERANYL-PP[c]": -1, "PPI[c]": 1, "DELTA3-ISOPENTENYL-PP[c]": -1, "FARNESYL-PP[c]": 1} false ["FPPSYN-MONOMER"] -"FRUCTOKINASE-RXN" {"PROTON[c]": 1, "FRUCTOSE-6P[c]": 1, "ADP[c]": 1, "BETA-D-FRUCTOSE[c]": -1, "ATP[c]": -1} false ["EG11288-MONOMER"] -"FUCISOM-RXN" {"CPD-10329[c]": 1, "L-FUCULOSE[c]": -1} true ["CPLX0-7631"] -"FUCPALDOL-RXN" {"DIHYDROXY-ACETONE-PHOSPHATE[c]": -1, "LACTALD[c]": -1, "FUCULOSE-1P[c]": 1} true ["CPLX0-7633"] -"FUCULOKIN-RXN" {"PROTON[c]": 1, "FUCULOSE-1P[c]": 1, "L-FUCULOSE[c]": -1, "ADP[c]": 1, "ATP[c]": -1} false ["FUCULOKIN-MONOMER"] -"FUMHYDR-RXN" {"WATER[c]": -1, "MAL[c]": 1, "FUM[c]": -1} true ["FUMARASE-A", "FUMARASE-B", "FUMARASE-C"] -"GABATRANSAM-RXN" {"GLT[c]": 1, "4-AMINO-BUTYRATE[c]": -1, "SUCC-S-ALD[c]": 1, "2-KETOGLUTARATE[c]": -1} true ["G6646-MONOMER", "GABATRANSAM-CPLX"] -"GALACTITOLPDEHYD-RXN" {"NADH[c]": -1, "PROTON[c]": -1, "TAGATOSE-6-PHOSPHATE[c]": -1, "NAD[c]": 1, "GALACTITOL-1-PHOSPHATE[c]": 1} true [] -"GALACTOACETYLTRAN-RXN" {"CO-A[c]": -1, "6-Acetyl-Beta-D-Galactosides[c]": -1, "ACETYL-COA[c]": 1, "Beta-D-Galactosides[c]": 1} true ["GALACTOACETYLTRAN-CPLX"] -"GALACTOKIN-RXN" {"GALACTOSE-1P[c]": 1, "PROTON[c]": 1, "ATP[c]": -1, "ADP[c]": 1, "ALPHA-D-GALACTOSE[c]": -1} false ["GALACTOKIN-MONOMER"] -"GALACTURIDYLYLTRANS-RXN" {"GALACTOSE-1P[c]": 1, "GLC-1-P[c]": -1, "CPD-14553[c]": -1, "CPD-12575[c]": 1} true ["GALACTURIDYLYLTRANS-CPLX"] -"GALACTUROISOM-RXN" {"CPD-15633[c]": 1, "D-TAGATURONATE[c]": -1} true ["UXAC-MONOMER"] -"GALPMUT-RXN" {"CPD-14553[c]": -1, "UDP-D-GALACTO-14-FURANOSE[c]": 1} true ["GALPMUT-MONOMER"] -"GAPOXNPHOSPHN-RXN" {"NADH[c]": 1, "GAP[c]": -1, "NAD[c]": -1, "PI[c]": -1, "PROTON[c]": 1, "DPG[c]": 1} true ["GAPDH-A-CPLX"] -"GART-RXN-10-FORMYL-THF/5-PHOSPHO-RIBOSYL-GLYCINEAMIDE//THF/5-P-RIBOSYL-N-FORMYLGLYCINEAMIDE/PROTON.90." {"5-PHOSPHO-RIBOSYL-GLYCINEAMIDE[c]": -1, "PROTON[c]": 1, "10-FORMYL-THF[c]": -1, "5-P-RIBOSYL-N-FORMYLGLYCINEAMIDE[c]": 1, "THF[c]": 1} true ["GART-MONOMER"] -"GARTRANSFORMYL2-RXN" {"5-PHOSPHO-RIBOSYL-GLYCINEAMIDE[c]": -1, "PI[c]": 1, "5-P-RIBOSYL-N-FORMYLGLYCINEAMIDE[c]": 1, "ADP[c]": 1, "PROTON[c]": 1, "ATP[c]": -1, "FORMATE[c]": -1} false ["GARTRANSFORMYL2-MONOMER"] -"GCVMULTI-RXN-GLY/CPD-1301/NAD//CPD-12996/AMMONIUM/CARBON-DIOXIDE/NADH.57." {"NADH[c]": 1, "NAD[c]": -1, "CPD-1301[c]": -1, "AMMONIUM[c]": 1, "GLY[c]": -1, "CARBON-DIOXIDE[c]": 1, "CPD-12996[c]": 1} false ["GCVMULTI-CPLX"] -"GCVMULTI-RXN-GLY/THF/NAD//METHYLENE-THF/AMMONIUM/CARBON-DIOXIDE/NADH.56." {"NADH[c]": 1, "NAD[c]": -1, "METHYLENE-THF[c]": 1, "AMMONIUM[c]": 1, "THF[c]": -1, "GLY[c]": -1, "CARBON-DIOXIDE[c]": 1} false ["GCVMULTI-CPLX"] -"GCVP-RXN" {"CARBON-DIOXIDE[c]": 1, "PROTON[c]": -1, "PROTEIN-LIPOYLLYSINE[c]": -1, "AMINOMETHYLDIHYDROLIPOYL-GCVH[c]": 1, "GLY[c]": -1} true ["GCVP-CPLX", "GCVMULTI-CPLX"] -"GCVT-RXN" {"THF-GLU-N[c]": 1, "DIHYDROLIPOYL-GCVH[c]": -1, "AMMONIUM[c]": -1, "METHYLENE-THF-GLU-N[c]": -1, "AMINOMETHYLDIHYDROLIPOYL-GCVH[c]": 1} true ["GCVT-MONOMER", "GCVMULTI-CPLX"] -"GDPKIN-RXN" {"GTP[c]": 1, "GDP[c]": -1, "ATP[c]": -1, "ADP[c]": 1} false ["NUCLEOSIDE-DIP-KIN-CPLX"] -"GDPPYPHOSKIN-RXN" {"GUANOSINE-5DP-3DP[c]": 1, "GDP[c]": -1, "ATP[c]": -1, "AMP[c]": 1} false ["RELA-MONOMER", "SPOT-MONOMER"] -"GKI-RXN" {"2-PG[c]": 1, "PROTON[c]": 1, "GLYCERATE[c]": -1, "ATP[c]": -1, "ADP[c]": 1} false ["GLY3KIN-MONOMER", "GKI-MONOMER"] -"GLU6PDEHYDROG-RXN" {"NADPH[c]": 1, "NADP[c]": -1, "PROTON[c]": 1, "GLC-6-P[c]": -1, "D-6-P-GLUCONO-DELTA-LACTONE[c]": 1} false ["GLU6PDEHYDROG-MONOMER"] -"GLUC1PADENYLTRANS-RXN" {"PROTON[c]": -1, "GLC-1-P[c]": -1, "ADP-D-GLUCOSE[c]": 1, "PPI[c]": 1, "ATP[c]": -1} false ["GLUC1PADENYLTRANS-CPLX"] -"GLUC1PURIDYLTRANS-RXN" {"PPI[c]": 1, "UTP[c]": -1, "PROTON[c]": -1, "GLC-1-P[c]": -1, "CPD-12575[c]": 1} false ["CPLX0-8205"] -"GLUCOKIN-RXN" {"PROTON[c]": 1, "GLC-6-P[c]": 1, "GLC[c]": -1, "ADP[c]": 1, "ATP[c]": -1} false ["GLUCOKIN-MONOMER"] -"GLUCONATE-5-DEHYDROGENASE-RXN-GLUCONATE/NAD//5-DEHYDROGLUCONATE/NADH/PROTON.46." {"NADH[c]": -1, "PROTON[c]": -1, "5-DEHYDROGLUCONATE[c]": -1, "NAD[c]": 1, "GLUCONATE[c]": 1} true ["GLUCONREDUCT-MONOMER"] -"GLUCONATE-5-DEHYDROGENASE-RXN-GLUCONATE/NADP//5-DEHYDROGLUCONATE/NADPH/PROTON.48." {"NADPH[c]": -1, "GLUCONATE[c]": 1, "PROTON[c]": -1, "5-DEHYDROGLUCONATE[c]": -1, "NADP[c]": 1} true ["GLUCONREDUCT-MONOMER"] -"GLUCONOKIN-RXN" {"CPD-2961[c]": 1, "GLUCONATE[c]": -1, "PROTON[c]": 1, "ADP[c]": 1, "ATP[c]": -1} false ["GLUCONOKINII-CPLX", "GLUCONOKINI-MONOMER"] -"GLUCOSE-1-PHOSPHAT-RXN[CCO-CYTOSOL]-GLC-1-P/WATER//Glucopyranose/Pi.45." {"WATER[c]": -1, "PI[c]": 1, "GLC-1-P[c]": -1, "Glucopyranose[c]": 1} false ["EG11850-MONOMER", "EG11470-MONOMER", "EG11195-MONOMER", "G6425-MONOMER"] -"GLUCOSE-6-PHOSPHATASE-RXN" {"WATER[c]": -1, "PI[c]": 1, "GLC-6-P[c]": -1, "GLC[c]": 1} false ["EG11470-MONOMER", "EG11195-MONOMER", "G7187-MONOMER", "G6425-MONOMER"] -"GLUCOSE-6-PHOSPHATE-1-EPIMERASE-RXN" {"GLC-6-P[c]": 1, "ALPHA-GLC-6-P[c]": -1} true [] -"GLUCUROISOM-RXN-CPD-15530//CPD-12537.21." {"CPD-12537[c]": -1, "CPD-15530[c]": 1} true ["UXAC-MONOMER"] -"GLURS-RXN-GLT-tRNAs/GLT/ATP/PROTON//Charged-GLT-tRNAs/AMP/PPI.52." {"GLT-tRNAs[c]": -1, "GLT[c]": -1, "AMP[c]": 1, "PPI[c]": 1, "ATP[c]": -1, "Charged-GLT-tRNAs[c]": 1} false ["GLURS-MONOMER"] -"GLUTAMATESYN-RXN" {"GLN[c]": -1, "GLT[c]": 2, "NADP[c]": 1, "PROTON[c]": -1, "2-KETOGLUTARATE[c]": -1, "NADPH[c]": -1} false ["GLUTAMATESYN-CPLX"] -"GLUTAMIDOTRANS-RXN" {"D-ERYTHRO-IMIDAZOLE-GLYCEROL-P[c]": 1, "PHOSPHORIBULOSYL-FORMIMINO-AICAR-P[c]": -1, "GLN[c]": -1, "GLT[c]": 1, "PROTON[c]": 1, "AICAR[c]": 1} false ["GLUTAMIDOTRANS-CPLX"] -"GLUTAMIN-RXN" {"WATER[c]": -1, "GLT[c]": 1, "AMMONIUM[c]": 1, "GLN[c]": -1} false ["CPLX0-7694", "CPLX0-7695", "GLUTAMINB-CPLX", "GLUTAMINA-CPLX", "GMP-SYN-CPLX", "CTPSYN-CPLX", "CARBPSYN-CPLX", "ASNSYNB-CPLX", "GLUTAMATESYN-CPLX"] -"GLUTAMINE--TRNA-LIGASE-RXN-GLN-tRNAs/GLN/ATP/PROTON//Charged-GLN-tRNAs/AMP/PPI.52." {"GLN[c]": -1, "Charged-GLN-tRNAs[c]": 1, "AMP[c]": 1, "PPI[c]": 1, "ATP[c]": -1, "GLN-tRNAs[c]": -1} false ["GLNS-MONOMER"] -"GLUTAMINESYN-RXN" {"PI[c]": 1, "GLN[c]": 1, "ADP[c]": 1, "GLT[c]": -1, "PROTON[c]": 1, "AMMONIUM[c]": -1, "ATP[c]": -1} false ["GLUTAMINESYN-OLIGOMER"] -"GLUTATHIONE-PEROXIDASE-RXN" {"WATER[c]": 2, "HYDROGEN-PEROXIDE[c]": -1, "GLUTATHIONE[c]": -2, "OXIDIZED-GLUTATHIONE[c]": 1} false ["BTUE-MONOMER"] -"GLUTATHIONE-REDUCT-NADPH-RXN" {"NADPH[c]": -1, "NADP[c]": 1, "PROTON[c]": -1, "GLUTATHIONE[c]": 2, "OXIDIZED-GLUTATHIONE[c]": -1} false ["GLUTATHIONE-REDUCT-NADPH-CPLX"] -"GLUTATHIONE-SYN-RXN" {"PI[c]": 1, "L-GAMMA-GLUTAMYLCYSTEINE[c]": -1, "ADP[c]": 1, "PROTON[c]": 1, "GLUTATHIONE[c]": 1, "ATP[c]": -1, "GLY[c]": -1} false ["GLUTATHIONE-SYN-CPLX"] -"GLUTCYSLIG-RXN" {"PI[c]": 1, "L-GAMMA-GLUTAMYLCYSTEINE[c]": 1, "CYS[c]": -1, "ADP[c]": 1, "GLT[c]": -1, "PROTON[c]": 1, "ATP[c]": -1} false ["GLUTCYSLIG-MONOMER"] -"GLUTDECARBOX-RXN" {"GLT[c]": -1, "4-AMINO-BUTYRATE[c]": 1, "PROTON[c]": -1, "CARBON-DIOXIDE[c]": 1} false ["GLUTDECARBOXB-CPLX", "GLUTDECARBOXA-CPLX"] -"GLUTDEHYD-RXN" {"GLT[c]": -1, "NADP[c]": -1, "PROTON[c]": 1, "AMMONIUM[c]": 1, "2-KETOGLUTARATE[c]": 1, "NADPH[c]": 1, "WATER[c]": -1} true ["GDHA-CPLX", "GLUTAMATESYN-CPLX"] -"GLUTKIN-RXN" {"GLT[c]": -1, "ATP[c]": -1, "ADP[c]": 1, "L-GLUTAMATE-5-P[c]": 1} false ["GLUTKIN-CPLX", "PROLINEMULTI-CPLX"] -"GLUTRACE-RXN" {"GLT[c]": -1, "D-GLT[c]": 1} true ["GLUTRACE-MONOMER"] -"GLUTRNAREDUCT-RXN-GLUTAMATE-1-SEMIALDEHYDE/GLT-tRNAs/NADP//Charged-GLT-tRNAs/NADPH.65." {"NADPH[c]": -1, "NADP[c]": 1, "Charged-GLT-tRNAs[c]": -1, "GLT-tRNAs[c]": 1, "GLUTAMATE-1-SEMIALDEHYDE[c]": 1} false ["CPLX0-3741"] -"GLUTSEMIALDEHYDROG-RXN" {"PI[c]": 1, "L-GLUTAMATE-5-P[c]": -1, "NADP[c]": 1, "PROTON[c]": -1, "L-GLUTAMATE_GAMMA-SEMIALDEHYDE[c]": 1, "NADPH[c]": -1} false ["GLUTSEMIALDEHYDROG-CPLX", "PROLINEMULTI-CPLX"] -"GLY3KIN-RXN" {"PROTON[c]": 1, "GLYCERATE[c]": -1, "ATP[c]": -1, "ADP[c]": 1, "G3P[c]": 1} false [] -"GLYC3PDEHYDROGBIOSYN-RXN-GLYCEROL-3P/NAD//DIHYDROXY-ACETONE-PHOSPHATE/NADH/PROTON.57." {"GLYCEROL-3P[c]": 1, "DIHYDROXY-ACETONE-PHOSPHATE[c]": -1, "PROTON[c]": -1, "NAD[c]": 1, "NADH[c]": -1} false ["GLYC3PDEHYDROGBIOSYN-CPLX"] -"GLYC3PDEHYDROGBIOSYN-RXN-GLYCEROL-3P/NADP//DIHYDROXY-ACETONE-PHOSPHATE/NADPH/PROTON.59." {"NADPH[c]": -1, "GLYCEROL-3P[c]": 1, "PROTON[c]": -1, "DIHYDROXY-ACETONE-PHOSPHATE[c]": -1, "NADP[c]": 1} false ["GLYC3PDEHYDROGBIOSYN-CPLX"] -"GLYCDEH-RXN" {"NADH[c]": -1, "PROTON[c]": -1, "GLYCEROL[c]": 1, "NAD[c]": 1, "DIHYDROXYACETONE[c]": -1} true ["GLYCDEH-CPLX"] -"GLYCEROL-2-PHOSPHATASE-RXN[CCO-PERI-BAC]-CPD-536/WATER//GLYCEROL/Pi.41." {"PI[p]": 1, "WATER[p]": -1, "GLYCEROL[p]": 1, "CPD-536[p]": -1} false ["ALKAPHOSPHA-CPLX"] -"GLYCEROL-KIN-RXN" {"GLYCEROL-3P[c]": 1, "PROTON[c]": 1, "GLYCEROL[c]": -1, "ATP[c]": -1, "ADP[c]": 1} false ["GLYCEROL-KIN-CPLX"] -"GLYCINE--TRNA-LIGASE-RXN-GLY-tRNAs/GLY/ATP/PROTON//Charged-GLY-tRNAs/AMP/PPI.52." {"Charged-GLY-tRNAs[c]": 1, "AMP[c]": 1, "PPI[c]": 1, "GLY-tRNAs[c]": -1, "ATP[c]": -1, "GLY[c]": -1} false ["GLYS-CPLX"] -"GLYCOLALD-DEHYDROG-RXN" {"NADH[c]": 1, "NAD[c]": -1, "PROTON[c]": 2, "GLYCOLLATE[c]": 1, "GLYCOLALDEHYDE[c]": -1, "WATER[c]": -1} false ["ALD-CPLX"] -"GLYCOLALDREDUCT-RXN" {"GLYCOLALDEHYDE[c]": -1, "NADH[c]": -1, "PROTON[c]": -1, "GLYCOL[c]": 1, "NAD[c]": 1} true ["LACTALDREDUCT-CPLX"] -"GLYCOLATEDEHYDRO-RXN" {"Donor-H2[c]": 1, "GLYOX[c]": 1, "Acceptor[c]": -1, "GLYCOLLATE[c]": -1} false ["CPLX0-7458"] -"GLYCPDIESTER-RXN-GLYCEROPHOSPHOGLYCEROL/WATER//GLYCEROL/GLYCEROL-3P/PROTON.58." {"WATER[c]": -1, "GLYCEROL-3P[c]": 1, "PROTON[c]": 1, "GLYCEROL[c]": 1, "GLYCEROPHOSPHOGLYCEROL[c]": -1} false ["GLYCPDIESTER-CYTO-MONOMER", "GLYCPDIESTER-PERI-CPLX"] -"GLYOCARBOLIG-RXN" {"GLYOX[c]": -2, "CARBON-DIOXIDE[c]": 1, "PROTON[c]": -1, "TARTRONATE-S-ALD[c]": 1} false ["GLYOCARBOLIG-CPLX"] -"GLYOHMETRANS-RXN-SER/CPD-1301//GLY/CPD-12996/WATER.34." {"WATER[c]": 1, "GLY[c]": 1, "SER[c]": -1, "CPD-12996[c]": 1, "CPD-1301[c]": -1} true ["GLYOHMETRANS-CPLX"] -"GLYOHMETRANS-RXN-SER/THF//GLY/METHYLENE-THF/WATER.33." {"WATER[c]": 1, "GLY[c]": 1, "SER[c]": -1, "THF[c]": -1, "METHYLENE-THF[c]": 1} true ["GLYOHMETRANS-CPLX"] -"GLYOXI-RXN" {"METHYL-GLYOXAL[c]": -1, "GLUTATHIONE[c]": -1, "S-LACTOYL-GLUTATHIONE[c]": 1} false ["GLYOXI-CPLX"] -"GLYOXII-RXN" {"WATER[c]": -1, "PROTON[c]": 1, "D-LACTATE[c]": 1, "GLUTATHIONE[c]": 1, "S-LACTOYL-GLUTATHIONE[c]": -1} false ["G6475-MONOMER", "CPLX0-3954", "GLYOXII-MONOMER"] -"GLYOXIII-RXN" {"METHYL-GLYOXAL[c]": -1, "WATER[c]": -1, "PROTON[c]": 1, "D-LACTATE[c]": 1} false ["G7647-MONOMER", "CPLX0-861"] -"GLYOXYLATE-REDUCTASE-NADP+-RXN" {"NADPH[c]": -1, "NADP[c]": 1, "GLYOX[c]": -1, "PROTON[c]": -1, "GLYCOLLATE[c]": 1} false ["CPLX0-235", "G6539-MONOMER"] -"GLYRIBONUCSYN-RXN" {"5-P-BETA-D-RIBOSYL-AMINE[c]": -1, "5-PHOSPHO-RIBOSYL-GLYCINEAMIDE[c]": 1, "ADP[c]": 1, "PI[c]": 1, "PROTON[c]": 1, "ATP[c]": -1, "GLY[c]": -1} false ["GLYCRIBONUCSYN-MONOMER"] -"GMKALT-RXN" {"DGMP[c]": -1, "DGDP[c]": 1, "ATP[c]": -1, "ADP[c]": 1} false ["GUANYL-KIN-CPLX"] -"GMP-REDUCT-RXN" {"NADP[c]": 1, "PROTON[c]": -2, "AMMONIUM[c]": 1, "GMP[c]": -1, "IMP[c]": 1, "NADPH[c]": -1} false ["GMP-REDUCT-CPLX"] -"GMP-SYN-GLUT-RXN" {"GLN[c]": -1, "GLT[c]": 1, "PROTON[c]": 2, "XANTHOSINE-5-PHOSPHATE[c]": -1, "AMP[c]": 1, "PPI[c]": 1, "GMP[c]": 1, "ATP[c]": -1, "WATER[c]": -1} false ["GMP-SYN-CPLX"] -"GMP-SYN-NH3-RXN" {"PROTON[c]": 2, "AMMONIUM[c]": -1, "XANTHOSINE-5-PHOSPHATE[c]": -1, "AMP[c]": 1, "PPI[c]": 1, "GMP[c]": 1, "ATP[c]": -1} false ["GMP-SYN-CPLX"] -"GPPSYN-RXN" {"CPD-4211[c]": -1, "GERANYL-PP[c]": 1, "PPI[c]": 1, "DELTA3-ISOPENTENYL-PP[c]": -1} false ["FPPSYN-MONOMER"] -"GSAAMINOTRANS-RXN" {"5-AMINO-LEVULINATE[c]": 1, "GLUTAMATE-1-SEMIALDEHYDE[c]": -1} false ["GSAAMINOTRANS-CPLX"] -"GSPAMID-RXN" {"WATER[c]": -1, "GLUTATHIONYLSPERMIDINE[c]": -1, "GLUTATHIONE[c]": 1, "SPERMIDINE[c]": 1} false ["GSP-CPLX"] -"GSPSYN-RXN" {"PI[c]": 1, "ADP[c]": 1, "PROTON[c]": 1, "GLUTATHIONE[c]": -1, "ATP[c]": -1, "GLUTATHIONYLSPERMIDINE[c]": 1, "SPERMIDINE[c]": -1} false ["GSP-CPLX"] -"GTP-CYCLOHYDRO-I-RXN" {"WATER[c]": -1, "PROTON[c]": 1, "GTP[c]": -1, "DIHYDRONEOPTERIN-P3[c]": 1, "FORMATE[c]": 1} false ["FOLE-CPLX"] -"GTP-CYCLOHYDRO-II-RXN" {"PROTON[c]": 2, "PPI[c]": 1, "DIAMINO-OH-PHOSPHORIBOSYLAMINO-PYR[c]": 1, "GTP[c]": -1, "WATER[c]": -3, "FORMATE[c]": 1} false ["GTP-CYCLOHYDRO-II-CPLX"] -"GTPPYPHOSKIN-RXN" {"GDP-TP[c]": 1, "GTP[c]": -1, "ATP[c]": -1, "AMP[c]": 1} false ["RELA-MONOMER"] -"GUANINE-DEAMINASE-RXN" {"WATER[c]": -1, "PROTON[c]": -1, "XANTHINE[c]": 1, "AMMONIUM[c]": 1, "GUANINE[c]": -1} false ["G7502-MONOMER"] -"GUANOSINE-DIPHOSPHATASE-RXN" {"WATER[c]": -1, "PI[c]": 1, "PROTON[c]": 1, "GDP[c]": -1, "GMP[c]": 1} false ["G6580-MONOMER", "EG12298-MONOMER"] -"GUANOSINEKIN-RXN" {"GUANOSINE[c]": -1, "PROTON[c]": 1, "GMP[c]": 1, "ADP[c]": 1, "ATP[c]": -1} false ["CPLX0-322"] -"GUANPRIBOSYLTRAN-RXN" {"PPI[c]": 1, "GUANINE[c]": -1, "PRPP[c]": -1, "GMP[c]": 1} false ["CPLX0-7685", "GPT-CPLX"] -"GUANYL-KIN-RXN" {"GDP[c]": 1, "GMP[c]": -1, "ADP[c]": 1, "ATP[c]": -1} false ["GUANYL-KIN-CPLX"] -"GUANYLCYC-RXN" {"PPI[c]": -1, "GTP[c]": 1, "CGMP[c]": -1} true ["GUANYLCYC-MONOMER"] -"H2NEOPTERINALDOL-RXN" {"GLYCOLALDEHYDE[c]": 1, "DIHYDRO-NEO-PTERIN[c]": -1, "AMINO-OH-HYDROXYMETHYL-DIHYDROPTERIDINE[c]": 1} false ["CPLX0-3936"] -"H2NEOPTERINP3PYROPHOSPHOHYDRO-RXN" {"WATER[c]": -1, "PPI[c]": 1, "DIHYDRONEOPTERIN-P[c]": 1, "PROTON[c]": 1, "DIHYDRONEOPTERIN-P3[c]": -1} false ["H2NEOPTERINP3PYROPHOSPHOHYDRO-MONOMER"] -"H2NTPEPIM-RXN" {"DIHYDRONEOPTERIN-P3[c]": 1, "DIHYDROMONAPTERIN-TRIPHOSPHATE[c]": -1} true ["FOLXTET-CPLX"] -"H2PTERIDINEPYROPHOSPHOKIN-RXN" {"PROTON[c]": 1, "DIHYDROPTERIN-CH2OH-PP[c]": 1, "AMINO-OH-HYDROXYMETHYL-DIHYDROPTERIDINE[c]": -1, "ATP[c]": -1, "AMP[c]": 1} false ["H2PTERIDINEPYROPHOSPHOKIN-MONOMER"] -"H2PTEROATESYNTH-RXN" {"PPI[c]": 1, "DIHYDROPTERIN-CH2OH-PP[c]": -1, "P-AMINO-BENZOATE[c]": -1, "7-8-DIHYDROPTEROATE[c]": 1} false ["H2PTEROATESYNTH-CPLX"] -"HEMEOSYN-RXN-PROTOHEME/FARNESYL-PP/WATER//CPD-17063/PPI.43." {"WATER[c]": 1, "CPD-17063[c]": -1, "PPI[c]": -1, "PROTOHEME[c]": 1, "FARNESYL-PP[c]": 1} true ["HEMEOSYN-MONOMER"] -"HEMN-RXN" {"CH33ADO[c]": 2, "PROTOPORPHYRINOGEN[c]": 1, "S-ADENOSYLMETHIONINE[c]": -2, "MET[c]": 2, "CARBON-DIOXIDE[c]": 2, "COPROPORPHYRINOGEN_III[c]": -1} false ["HEMN-MONOMER"] -"HISTALDEHYD-RXN" {"NADH[c]": 1, "NAD[c]": -1, "PROTON[c]": 2, "HIS[c]": 1, "WATER[c]": -1, "HISTIDINAL[c]": -1} false ["HISTDEHYD-CPLX"] -"HISTAMINOTRANS-RXN" {"GLT[c]": -1, "IMIDAZOLE-ACETOL-P[c]": -1, "L-HISTIDINOL-P[c]": 1, "2-KETOGLUTARATE[c]": 1} false ["HISTPHOSTRANS-CPLX"] -"HISTCYCLOHYD-RXN" {"WATER[c]": -1, "PHOSPHORIBOSYL-FORMIMINO-AICAR-P[c]": 1, "PHOSPHORIBOSYL-AMP[c]": -1} false ["HISTCYCLOPRATPPHOS"] -"HISTIDINE--TRNA-LIGASE-RXN-HIS-tRNAs/HIS/ATP/PROTON//Charged-HIS-tRNAs/AMP/PPI.52." {"HIS[c]": -1, "AMP[c]": 1, "PPI[c]": 1, "Charged-HIS-tRNAs[c]": 1, "ATP[c]": -1, "HIS-tRNAs[c]": -1} false ["HISS-CPLX"] -"HISTIDPHOS-RXN[CCO-CYTOSOL]-L-HISTIDINOL-P/WATER//HISTIDINOL/Pi.49." {"WATER[c]": -1, "PI[c]": 1, "L-HISTIDINOL-P[c]": -1, "HISTIDINOL[c]": 1} false ["IMIDHISTID-CPLX"] -"HISTIDPHOS-RXN[CCO-PERI-BAC]-L-HISTIDINOL-P/WATER//HISTIDINOL/Pi.50." {"PI[p]": 1, "WATER[p]": -1, "HISTIDINOL[p]": 1, "L-HISTIDINOL-P[p]": -1} false ["ALKAPHOSPHA-CPLX"] -"HISTOLDEHYD-RXN" {"NADH[c]": 1, "PROTON[c]": 1, "HISTIDINAL[c]": 1, "NAD[c]": -1, "HISTIDINOL[c]": -1} false ["HISTDEHYD-CPLX"] -"HISTPRATPHYD-RXN" {"WATER[c]": -1, "PPI[c]": 1, "PROTON[c]": 2, "PHOSPHORIBOSYL-AMP[c]": 1, "PHOSPHORIBOSYL-ATP[c]": -1} false ["HISTCYCLOPRATPPHOS"] -"HOLO-ACP-SYNTH-RXN-Apo-AsbD-Proteins/CO-A//3-5-ADP/Holo-AsbD-Proteins/PROTON.58." {"CO-A[c]": -1, "PROTON[c]": 1, "3-5-ADP[c]": 1, "Apo-AsbD-Proteins[c]": -1, "Holo-AsbD-Proteins[c]": 1} false ["EG12221-MONOMER", "HOLO-ACP-SYNTH-CPLX"] -"HOLO-ACP-SYNTH-RXN-Apo-EntB/CO-A//3-5-ADP/Holo-EntB/PROTON.40." {"Apo-EntB[c]": -1, "CO-A[c]": -1, "PROTON[c]": 1, "3-5-ADP[c]": 1, "Holo-EntB[c]": 1} false ["EG12221-MONOMER", "HOLO-ACP-SYNTH-CPLX"] -"HOLO-ACP-SYNTH-RXN-Apo-PigJ/CO-A//3-5-ADP/PigJ/PROTON.35." {"CO-A[c]": -1, "PROTON[c]": 1, "Apo-PigJ[c]": -1, "3-5-ADP[c]": 1, "PigJ[c]": 1} false ["EG12221-MONOMER", "HOLO-ACP-SYNTH-CPLX"] -"HOLO-ACP-SYNTH-RXN-CmaA-peptidyl-carrier-protein/CO-A//3-5-ADP/Holo-CmaA-peptidyl-carrier-protein/PROTON.86." {"CO-A[c]": -1, "Holo-CmaA-peptidyl-carrier-protein[c]": 1, "3-5-ADP[c]": 1, "PROTON[c]": 1, "CmaA-peptidyl-carrier-protein[c]": -1} false ["EG12221-MONOMER", "HOLO-ACP-SYNTH-CPLX"] -"HOLO-ACP-SYNTH-RXN-CmaD-peptidyl-carrier-protein/CO-A//3-5-ADP/Holo-CmaD-peptidyl-carrier-protein/PROTON.86." {"CO-A[c]": -1, "PROTON[c]": 1, "Holo-CmaD-peptidyl-carrier-protein[c]": 1, "3-5-ADP[c]": 1, "CmaD-peptidyl-carrier-protein[c]": -1} false ["EG12221-MONOMER", "HOLO-ACP-SYNTH-CPLX"] -"HOLO-ACP-SYNTH-RXN-EG50003-MONOMER/CO-A//3-5-ADP/ACP-MONOMER/PROTON.49." {"CO-A[c]": -1, "ACP-MONOMER[c]": 1, "PROTON[c]": 1, "EG50003-MONOMER[c]": -1, "3-5-ADP[c]": 1} false ["EG12221-MONOMER", "HOLO-ACP-SYNTH-CPLX"] -"HOLO-ACP-SYNTH-RXN-apo-ACP/CO-A//3-5-ADP/ACP/PROTON.33." {"CO-A[c]": -1, "PROTON[c]": 1, "3-5-ADP[c]": 1, "apo-ACP[c]": -1, "ACP[c]": 1} false ["EG12221-MONOMER", "HOLO-ACP-SYNTH-CPLX"] -"HOMOCYSMET-RXN" {"HOMO-CYS[c]": -1, "CPD-1302[c]": -1, "MET[c]": 1, "CPD-1301[c]": 1} false ["HOMOCYSMET-MONOMER", "HOMOCYSMETB12-MONOMER"] -"HOMOCYSMETB12-RXN-HOMO-CYS/5-METHYL-THF//MET/THF.31." {"HOMO-CYS[c]": -1, "MET[c]": 1, "5-METHYL-THF[c]": -1, "THF[c]": 1} false ["HOMOCYSMETB12-MONOMER"] -"HOMOCYSMETB12-RXN-HOMO-CYS/CPD-1302//MET/CPD-1301.32." {"HOMO-CYS[c]": -1, "CPD-1302[c]": -1, "MET[c]": 1, "CPD-1301[c]": 1} false ["HOMOCYSMETB12-MONOMER"] -"HOMOCYSTEINE-S-METHYLTRANSFERASE-RXN" {"HOMO-CYS[c]": -1, "ADENOSYL-HOMO-CYS[c]": 1, "S-ADENOSYLMETHIONINE[c]": -1, "PROTON[c]": 1, "MET[c]": 1} false [] -"HOMOSERDEHYDROG-RXN-HOMO-SER/NAD//L-ASPARTATE-SEMIALDEHYDE/NADH/PROTON.51." {"NADH[c]": -1, "PROTON[c]": -1, "HOMO-SER[c]": 1, "L-ASPARTATE-SEMIALDEHYDE[c]": -1, "NAD[c]": 1} false ["ASPKINIIHOMOSERDEHYDROGII-CPLX", "ASPKINIHOMOSERDEHYDROGI-CPLX"] -"HOMOSERDEHYDROG-RXN-HOMO-SER/NADP//L-ASPARTATE-SEMIALDEHYDE/NADPH/PROTON.53." {"NADPH[c]": -1, "NADP[c]": 1, "PROTON[c]": -1, "L-ASPARTATE-SEMIALDEHYDE[c]": -1, "HOMO-SER[c]": 1} false ["ASPKINIIHOMOSERDEHYDROGII-CPLX", "ASPKINIHOMOSERDEHYDROGI-CPLX"] -"HOMOSERKIN-RXN" {"PROTON[c]": 1, "O-PHOSPHO-L-HOMOSERINE[c]": 1, "HOMO-SER[c]": -1, "ADP[c]": 1, "ATP[c]": -1} false ["HOMOSERKIN-CPLX"] -"HOMSUCTRAN-RXN" {"SUC-COA[c]": -1, "CO-A[c]": 1, "O-SUCCINYL-L-HOMOSERINE[c]": 1, "HOMO-SER[c]": -1} false ["HOMSUCTRAN-CPLX"] -"HYDGLUTSYN-RXN-PROPIONYL-COA/GLYOX/WATER//CPD-381/CO-A/PROTON.47." {"PROTON[c]": -1, "CO-A[c]": -1, "PROPIONYL-COA[c]": 1, "WATER[c]": 1, "GLYOX[c]": 1, "CPD-381[c]": -1} true ["HYDGLUTSYN-MONOMER"] -"HYPOXANPRIBOSYLTRAN-RXN" {"PPI[c]": 1, "HYPOXANTHINE[c]": -1, "PRPP[c]": -1, "IMP[c]": 1} false ["GPT-CPLX", "CPLX0-7685"] -"IGPSYN-RXN" {"WATER[c]": 1, "CARBOXYPHENYLAMINO-DEOXYRIBULOSE-P[c]": -1, "PROTON[c]": -1, "CARBON-DIOXIDE[c]": 1, "INDOLE-3-GLYCEROL-P[c]": 1} false ["PRAI-IGPS"] -"IMIDPHOSDEHYD-RXN" {"WATER[c]": 1, "IMIDAZOLE-ACETOL-P[c]": 1, "D-ERYTHRO-IMIDAZOLE-GLYCEROL-P[c]": -1} false ["IMIDHISTID-CPLX"] -"IMP-DEHYDROG-RXN" {"NADH[c]": 1, "NAD[c]": -1, "PROTON[c]": 1, "XANTHOSINE-5-PHOSPHATE[c]": 1, "IMP[c]": -1, "WATER[c]": -1} false ["IMP-DEHYDROG-CPLX"] -"IMPCYCLOHYDROLASE-RXN" {"WATER[c]": 1, "PHOSPHORIBOSYL-FORMAMIDO-CARBOXAMIDE[c]": -1, "IMP[c]": 1} true ["AICARTRANSIMPCYCLO-CPLX"] -"INOPHOSPHOR-RXN" {"PI[c]": -1, "INOSINE[c]": -1, "HYPOXANTHINE[c]": 1, "RIBOSE-1P[c]": 1} true ["XANTHOSINEPHOSPHORY-CPLX", "DEOD-CPLX"] -"INORGPYROPHOSPHAT-RXN[CCO-CYTOSOL]-PPI/WATER//Pi/PROTON.34." {"WATER[c]": -1, "PI[c]": 2, "PPI[c]": -1, "PROTON[c]": 1} false ["CPLX0-243"] -"INORGPYROPHOSPHAT-RXN[CCO-PERI-BAC]-PPI/WATER//Pi/PROTON.35." {"PI[p]": 2, "WATER[p]": -1, "PPI[p]": -1, "PROTON[p]": 1} false ["ALKAPHOSPHA-CPLX"] -"INOSINE-NUCLEOSIDASE-RXN" {"WATER[c]": -1, "CPD0-1108[c]": 1, "INOSINE[c]": -1, "HYPOXANTHINE[c]": 1} false ["EG11082-MONOMER"] -"INOSINEKIN-RXN" {"PROTON[c]": 1, "INOSINE[c]": -1, "ATP[c]": -1, "ADP[c]": 1, "IMP[c]": 1} false ["CPLX0-322"] -"IPPISOM-RXN" {"CPD-4211[c]": -1, "DELTA3-ISOPENTENYL-PP[c]": 1} true ["IPPISOM-MONOMER"] -"ISOCHORMAT-RXN" {"WATER[c]": -1, "PYRUVATE[c]": 1, "DIHYDRO-DIOH-BENZOATE[c]": 1, "ISOCHORISMATE[c]": -1} false ["ENTB-CPLX"] -"ISOCHORSYN-RXN" {"CHORISMATE[c]": 1, "ISOCHORISMATE[c]": -1} true ["MENF-CPLX", "ENTC-MONOMER"] -"ISOCIT-CLEAV-RXN" {"THREO-DS-ISO-CITRATE[c]": -1, "GLYOX[c]": 1, "SUC[c]": 1} true ["ISOCIT-LYASE"] -"ISOCITDEH-RXN" {"NADPH[c]": 1, "NADP[c]": -1, "CARBON-DIOXIDE[c]": 1, "THREO-DS-ISO-CITRATE[c]": -1, "2-KETOGLUTARATE[c]": 1} false ["ISOCITHASE-CPLX"] -"ISOLEUCINE--TRNA-LIGASE-RXN-ILE-tRNAs/ILE/ATP/PROTON//Charged-ILE-tRNAs/AMP/PPI.52." {"ILE[c]": -1, "AMP[c]": 1, "PPI[c]": 1, "ATP[c]": -1, "ILE-tRNAs[c]": -1, "Charged-ILE-tRNAs[c]": 1} false ["ILES-MONOMER"] -"ISPH2-RXN-DELTA3-ISOPENTENYL-PP/NAD/WATER//HYDROXY-METHYL-BUTENYL-DIP/NADH/PROTON.72." {"NADH[c]": -1, "NAD[c]": 1, "HYDROXY-METHYL-BUTENYL-DIP[c]": -1, "PROTON[c]": -1, "WATER[c]": 1, "DELTA3-ISOPENTENYL-PP[c]": 1} false ["CPLX0-7564"] -"ISPH2-RXN-DELTA3-ISOPENTENYL-PP/NADP/WATER//HYDROXY-METHYL-BUTENYL-DIP/NADPH/PROTON.74." {"HYDROXY-METHYL-BUTENYL-DIP[c]": -1, "NADP[c]": 1, "PROTON[c]": -1, "NADPH[c]": -1, "WATER[c]": 1, "DELTA3-ISOPENTENYL-PP[c]": 1} false ["CPLX0-7564"] -"KDGALDOL-RXN" {"5-KETO-4-DEOXY-D-GLUCARATE[c]": -1, "PYRUVATE[c]": 1, "TARTRONATE-S-ALD[c]": 1} true ["CPLX0-7615"] -"KDO-8PPHOSPHAT-RXN" {"WATER[c]": -1, "KDO-8P[c]": -1, "KDO[c]": 1, "PI[c]": 1} false ["KDO-8PPHOSPHAT-CPLX"] -"KDO-8PSYNTH-RXN" {"WATER[c]": -1, "KDO-8P[c]": 1, "ARABINOSE-5P[c]": -1, "PHOSPHO-ENOL-PYRUVATE[c]": -1, "PI[c]": 1} false ["KDO-8PSYNTH-CPLX"] -"KDOTRANS-RXN" {"CMP-KDO[c]": -1, "CMP[c]": 1, "PROTON[c]": 1, "LIPID-IV-A[c]": -1, "KDO-LIPID-IVA[c]": 1} false ["KDOTRANS-MONOMER"] -"KDOTRANS2-RXN" {"CMP-KDO[c]": -1, "CMP[c]": 1, "PROTON[c]": 1, "KDO-LIPID-IVA[c]": -1, "KDO2-LIPID-IVA[c]": 1} false ["KDOTRANS-MONOMER"] -"KDPGALDOL-RXN" {"GAP[c]": 1, "PYRUVATE[c]": 1, "2-KETO-3-DEOXY-6-P-GLUCONATE[c]": -1} false ["KDPGALDOL-4OH2OXOGLUTARALDOL-CPLX"] -"KDUD-RXN" {"NADH[c]": 1, "PROTON[c]": 1, "DE-O-K-GLUCONATE[c]": 1, "DE-O-GLUCONATE[c]": -1, "NAD[c]": -1} true [] -"KETOACYLCOATHIOL-RXN-BUTYRYL-COA/ACETYL-COA//K-HEXANOYL-COA/CO-A.44." {"CO-A[c]": -1, "BUTYRYL-COA[c]": 1, "ACETYL-COA[c]": 1, "K-HEXANOYL-COA[c]": -1} false ["CPLX0-1667", "CPLX0-1668", "FADA-CPLX", "FAO-CPLX"] -"KETOACYLCOATHIOL-RXN-CPD-10267/ACETYL-COA//CPD0-2105/CO-A.37." {"CO-A[c]": -1, "ACETYL-COA[c]": 1, "CPD-10267[c]": 1, "CPD0-2105[c]": -1} false ["CPLX0-1667", "CPLX0-1668", "FADA-CPLX", "FAO-CPLX"] -"KETOACYLCOATHIOL-RXN-CPD-196/ACETYL-COA//CPD0-2123/CO-A.35." {"CO-A[c]": -1, "CPD-196[c]": 1, "ACETYL-COA[c]": 1, "CPD0-2123[c]": -1} false ["CPLX0-1667", "CPLX0-1668", "FADA-CPLX", "FAO-CPLX"] -"KETOACYLCOATHIOL-RXN-CPD-9965/ACETYL-COA//POLYMER-INST-3-KETOACYL-COA-C18-H36/CO-A.62." {"POLYMER-INST-3-KETOACYL-COA-C18-H36[c]": -1, "CO-A[c]": -1, "ACETYL-COA[c]": 1, "CPD-9965[c]": 1} false ["CPLX0-1667", "CPLX0-1668", "FADA-CPLX", "FAO-CPLX"] -"KETOACYLCOATHIOL-RXN-HEXANOYL-COA/ACETYL-COA//CPD0-2106/CO-A.40." {"CO-A[c]": -1, "ACETYL-COA[c]": 1, "HEXANOYL-COA[c]": 1, "CPD0-2106[c]": -1} false ["CPLX0-1667", "CPLX0-1668", "FADA-CPLX", "FAO-CPLX"] -"KETOACYLCOATHIOL-RXN-LAUROYLCOA-CPD/ACETYL-COA//CPD-10284/CO-A.42." {"CO-A[c]": -1, "CPD-10284[c]": -1, "ACETYL-COA[c]": 1, "LAUROYLCOA-CPD[c]": 1} false ["CPLX0-1667", "CPLX0-1668", "FADA-CPLX", "FAO-CPLX"] -"KETOACYLCOATHIOL-RXN-PALMITYL-COA/ACETYL-COA//CPD-10260/CO-A.40." {"CO-A[c]": -1, "PALMITYL-COA[c]": 1, "ACETYL-COA[c]": 1, "CPD-10260[c]": -1} false ["CPLX0-1667", "CPLX0-1668", "FADA-CPLX", "FAO-CPLX"] -"KETOACYLCOATHIOL-RXN-STEAROYL-COA/ACETYL-COA//POLYMER-INST-3-KETOACYL-COA-C16-H32/CO-A.66." {"CO-A[c]": -1, "ACETYL-COA[c]": 1, "POLYMER-INST-3-KETOACYL-COA-C16-H32[c]": -1, "STEAROYL-COA[c]": 1} false ["CPLX0-1667", "CPLX0-1668", "FADA-CPLX", "FAO-CPLX"] -"KETOACYLCOATHIOL-RXN-TETRADECANOYL-COA/ACETYL-COA//3-OXOPALMITOYL-COA/CO-A.54." {"CO-A[c]": -1, "3-OXOPALMITOYL-COA[c]": -1, "TETRADECANOYL-COA[c]": 1, "ACETYL-COA[c]": 1} false ["CPLX0-1667", "CPLX0-1668", "FADA-CPLX", "FAO-CPLX"] -"KETOBUTFORMLY-RXN" {"CO-A[c]": -1, "FORMATE[c]": 1, "2-OXOBUTANOATE[c]": -1, "PROPIONYL-COA[c]": 1} false [] -"L-ASPARTATE-OXID-RXN" {"OXYGEN-MOLECULE[c]": -1, "IMINOASPARTATE[c]": 1, "HYDROGEN-PEROXIDE[c]": 1, "PROTON[c]": 1, "L-ASPARTATE[c]": -1} false ["L-ASPARTATE-OXID-MONOMER"] -"L-GLN-FRUCT-6-P-AMINOTRANS-RXN-FRUCTOSE-6P/GLN//CPD-13469/GLT.31." {"GLT[c]": -1, "CPD-13469[c]": -1, "GLN[c]": 1, "FRUCTOSE-6P[c]": 1} true ["L-GLN-FRUCT-6-P-AMINOTRANS-CPLX"] -"L-LACTDEHYDROGFMN-RXN" {"Donor-H2[c]": 1, "PYRUVATE[c]": 1, "Acceptor[c]": -1, "L-LACTATE[c]": -1} false ["L-LACTDEHYDROGFMN-MONOMER"] -"L-RHAMNONATE-DEHYDRATASE-RXN" {"WATER[c]": -1, "L-RHAMNONATE[c]": 1, "DEHYDRO-3-DEOXY-L-RHAMNONATE[c]": -1} true ["CPLX0-7722"] -"LACTALDDEHYDROG-RXN" {"NADH[c]": 1, "NAD[c]": -1, "L-LACTATE[c]": 1, "PROTON[c]": 2, "LACTALD[c]": -1, "WATER[c]": -1} false ["ALD-CPLX"] -"LACTALDREDUCT-RXN" {"NADH[c]": -1, "PROTON[c]": -1, "LACTALD[c]": -1, "NAD[c]": 1, "PROPANE-1-2-DIOL[c]": 1} true ["LACTALDREDUCT-CPLX"] -"LAUROYLACYLTRAN-RXN-Dodecanoyl-ACPs/KDO2-LIPID-IVA//KDO2-LAUROYL-LIPID-IVA/ACP.59." {"KDO2-LAUROYL-LIPID-IVA[c]": 1, "ACP[c]": 1, "KDO2-LIPID-IVA[c]": -1, "Dodecanoyl-ACPs[c]": -1} false ["LAUROYLACYLTRAN-MONOMER"] -"LCYSDESULF-RXN" {"WATER[c]": -1, "PYRUVATE[c]": 1, "CYS[c]": -1, "AMMONIUM[c]": 1, "HS[c]": 1} false ["CYSTATHIONINE-BETA-LYASE-CPLX", "ACSERLYA-CPLX", "CYSSYNMULTI-CPLX", "ACSERLYB-CPLX", "CPLX0-8092", "TRYPTOPHAN-CPLX"] -"LEUCINE--TRNA-LIGASE-RXN-LEU-tRNAs/LEU/ATP/PROTON//Charged-LEU-tRNAs/AMP/PPI.52." {"LEU[c]": -1, "LEU-tRNAs[c]": -1, "Charged-LEU-tRNAs[c]": 1, "AMP[c]": 1, "PPI[c]": 1, "ATP[c]": -1} false ["LEUS-MONOMER"] -"LEUCYLTRANSFERASE-RXN-Charged-LEU-tRNAs/General-Protein-Substrates//LEU-tRNAs/L-leucyl-protein/PROTON.80." {"LEU-tRNAs[c]": 1, "General-Protein-Substrates[c]": -1, "Charged-LEU-tRNAs[c]": -1, "L-leucyl-protein[c]": 1} true ["EG11112-MONOMER"] -"LIPIDADISACCHARIDESYNTH-RXN" {"PROTON[c]": 1, "OH-MYRISTOYL[c]": -1, "UDP[c]": 1, "BISOHMYR-GLC[c]": 1, "BISOHMYR-GLUCOSAMINYL-1P[c]": -1} false ["CPLX0-7415"] -"LIPIDXSYNTHESIS-RXN" {"WATER[c]": -1, "OH-MYRISTOYL[c]": -1, "UMP[c]": 1, "PROTON[c]": 2, "BISOHMYR-GLUCOSAMINYL-1P[c]": 1} false ["EG12666-MONOMER"] -"LTAA-RXN" {"ACETALD[c]": 1, "L-ALLO-THREONINE[c]": -1, "GLY[c]": 1} true ["LTAA-CPLX", "GLYOHMETRANS-CPLX"] -"LTARTDEHYDRA-RXN" {"OXALACETIC_ACID[c]": 1, "WATER[c]": 1, "TARTRATE[c]": -1} true ["LTARTDEHYDRA-CPLX"] -"LUMAZINESYN-RXN" {"PI[c]": 1, "DIMETHYL-D-RIBITYL-LUMAZINE[c]": 1, "AMINO-RIBOSYLAMINO-1H-3H-PYR-DIONE[c]": -1, "PROTON[c]": 1, "DIHYDROXY-BUTANONE-P[c]": -1, "WATER[c]": 2} false ["LUMAZINESYN-CPLX"] -"LXULRU5P-RXN" {"L-XYLULOSE-5-P[c]": -1, "L-RIBULOSE-5-P[c]": 1} false ["EG12286-MONOMER", "G7859-MONOMER"] -"LYSDECARBOX-RXN" {"LYS[c]": -1, "PROTON[c]": -1, "CADAVERINE[c]": 1, "CARBON-DIOXIDE[c]": 1} false ["LDC2-CPLX", "LYSDECARBOX-CPLX"] -"LYSINE--TRNA-LIGASE-RXN-LYS/LYS-tRNAs/ATP/PROTON//Charged-LYS-tRNAs/AMP/PPI.52." {"LYS[c]": -1, "Charged-LYS-tRNAs[c]": 1, "PPI[c]": 1, "ATP[c]": -1, "AMP[c]": 1, "LYS-tRNAs[c]": -1} false ["LYSS-CPLX", "LYSU-CPLX"] -"LYSOPHOSPHOLIPASE-RXN[CCO-PERI-BAC]-2-Lysophosphatidylcholines/WATER//Carboxylates/L-1-GLYCERO-PHOSPHORYLCHOLINE/PROTON.98." {"WATER[p]": -1, "Carboxylates[p]": 1, "2-Lysophosphatidylcholines[p]": -1, "PROTON[p]": 1, "L-1-GLYCERO-PHOSPHORYLCHOLINE[p]": 1} false ["CPLX0-7630"] -"LYSOPHOSPHOLIPASE-RXN[CCO-UNKNOWN-SPACE]-2-Lysophosphatidylcholines/WATER//Carboxylates/L-1-GLYCERO-PHOSPHORYLCHOLINE/PROTON.103." {"WATER[2]": -1, "Carboxylates[2]": 1, "2-Lysophosphatidylcholines[2]": -1, "PROTON[2]": 1, "L-1-GLYCERO-PHOSPHORYLCHOLINE[2]": 1} false ["CPLX0-7630"] -"LYXISOM-RXN" {"L-LYXOSE[c]": -1, "L-XYLULOSE[c]": 1} true ["CPLX0-7652"] -"LYXK-RXN" {"PROTON[c]": 1, "L-XYLULOSE-5-P[c]": 1, "L-XYLULOSE[c]": -1, "ATP[c]": -1, "ADP[c]": 1} false ["LYXK-CPLX"] -"MALATE-DEH-RXN" {"OXALACETIC_ACID[c]": 1, "NADH[c]": 1, "PROTON[c]": 1, "MAL[c]": -1, "NAD[c]": -1} true ["MALATE-DEHASE"] -"MALATE-DEHYDROGENASE-ACCEPTOR-RXN-MAL/CPD-9728//OXALACETIC_ACID/REDUCED-MENAQUINONE.50." {"OXALACETIC_ACID[c]": 1, "MAL[c]": -1, "CPD-9728[i]": -1, "REDUCED-MENAQUINONE[i]": 1} false ["EG12069-MONOMER"] -"MALATE-DEHYDROGENASE-ACCEPTOR-RXN-MAL/UBIQUINONE-8//OXALACETIC_ACID/CPD-9956.43." {"OXALACETIC_ACID[c]": 1, "MAL[c]": -1, "UBIQUINONE-8[i]": -1, "CPD-9956[i]": 1} false ["EG12069-MONOMER"] -"MALIC-NADP-RXN" {"NADPH[c]": 1, "NADP[c]": -1, "CARBON-DIOXIDE[c]": 1, "MAL[c]": -1, "PYRUVATE[c]": 1} false ["MALIC-NADP-CPLX"] -"MALONYL-ACPDECARBOX-RXN-MALONYL-ACP/PROTON//ACETYL-ACP/CARBON-DIOXIDE.46." {"PROTON[c]": -1, "CARBON-DIOXIDE[c]": 1, "ACETYL-ACP[c]": 1, "MALONYL-ACP[c]": -1} false ["FABB-CPLX"] -"MALONYL-COA-ACP-TRANSACYL-RXN-ACP/MALONYL-COA//MALONYL-ACP/CO-A.34." {"CO-A[c]": -1, "MALONYL-ACP[c]": -1, "ACP[c]": 1, "MALONYL-COA[c]": 1} true ["MALONYL-COA-ACP-TRANSACYL-MONOMER"] -"MALSYN-RXN" {"ACETYL-COA[c]": -1, "GLYOX[c]": -1, "WATER[c]": -1, "MAL[c]": 1, "CO-A[c]": 1, "PROTON[c]": 1} false ["MALSYNG-MONOMER", "MALATE-SYNTHASE"] -"MALTACETYLTRAN-RXN" {"ACETYLMALTOSE[c]": -1, "CO-A[c]": -1, "ACETYL-COA[c]": 1, "MALTOSE[c]": 1} true ["MALTACETYLTRAN-CPLX"] -"MALTODEG-RXN" {"CPD0-1133[c]": 1, "MALTOHEXAOSE[c]": -1, "GLC[c]": 1, "MALTOSE[c]": -1} true ["AMYLOMALT-MONOMER"] -"MANNKIN-RXN" {"D-mannopyranose[c]": -1, "PROTON[c]": 1, "MANNOSE-6P[c]": 1, "ADP[c]": 1, "ATP[c]": -1} false ["MANNKIN-MONOMER"] -"MANNONDEHYDRAT-RXN" {"WATER[c]": 1, "D-MANNONATE[c]": -1, "2-DEHYDRO-3-DEOXY-D-GLUCONATE[c]": 1} false ["MANNONDEHYDRAT-MONOMER"] -"MANNONOXIDOREDUCT-RXN-D-MANNONATE/NAD//CPD-12537/NADH/PROTON.39." {"NADH[c]": 1, "PROTON[c]": 1, "CPD-12537[c]": 1, "NAD[c]": -1, "D-MANNONATE[c]": -1} true ["MANNONOXIDOREDUCT-MONOMER"] -"MANNOSE-ISOMERASE-RXN" {"CPD-15373[c]": 1, "CPD-15382[c]": -1} true ["CPLX0-7683"] -"MANNPDEHYDROG-RXN" {"NADH[c]": -1, "PROTON[c]": -1, "MANNITOL-1P[c]": 1, "NAD[c]": 1, "FRUCTOSE-6P[c]": -1} true ["MANNPDEHYDROG-MONOMER"] -"MANNPISOM-RXN" {"MANNOSE-6P[c]": -1, "FRUCTOSE-6P[c]": 1} true ["MANNPISOM-MONOMER"] -"MCPMETEST-RXN" {"WATER[c]": -1, "Protein-alpha-L-Glutamates[c]": 1, "METOH[c]": 1, "protein-L-glutamate-O4-methyl-ester[c]": -1, "PROTON[c]": 1} false ["PHOSPHO-CHEB"] -"METBALT-RXN" {"SUC[c]": 1, "2-OXOBUTANOATE[c]": 1, "PROTON[c]": 1, "O-SUCCINYL-L-HOMOSERINE[c]": -1, "AMMONIUM[c]": 1, "WATER[c]": -1} false ["O-SUCCHOMOSERLYASE-CPLX"] -"METHENYLTHFCYCLOHYDRO-RXN-5-10-METHENYL-THF/WATER//10-FORMYL-THF/PROTON.46." {"WATER[c]": 1, "PROTON[c]": -1, "5-10-METHENYL-THF[c]": 1, "10-FORMYL-THF[c]": -1} true ["FOLD-CPLX"] -"METHGLYSYN-RXN" {"METHYL-GLYOXAL[c]": 1, "DIHYDROXY-ACETONE-PHOSPHATE[c]": -1, "PI[c]": 1} false ["METHGLYSYN-CPLX"] -"METHIONINE--TRNA-LIGASE-RXN-Elongation-tRNAMet/MET/ATP/PROTON//Charged-MET-tRNAs/AMP/PPI.61." {"Charged-MET-tRNAs[c]": 1, "Elongation-tRNAMet[c]": -1, "AMP[c]": 1, "PPI[c]": 1, "ATP[c]": -1, "MET[c]": -1} false ["METG-CPLX"] -"METHIONYL-TRNA-FORMYLTRANSFERASE-RXN-10-FORMYL-THF/L-methionyl-tRNAfmet//THF/N-formyl-L-methionyl-tRNAfmet.70." {"L-methionyl-tRNAfmet[c]": -1, "10-FORMYL-THF[c]": -1, "N-formyl-L-methionyl-tRNAfmet[c]": 1, "THF[c]": 1} false ["EG11268-MONOMER"] -"METHYLENETHFDEHYDROG-NADP-RXN-METHYLENE-THF/NADP//5-10-METHENYL-THF/NADPH.44." {"NADPH[c]": -1, "NADP[c]": 1, "5-10-METHENYL-THF[c]": -1, "METHYLENE-THF[c]": 1} true ["FOLD-CPLX"] -"METHYLISOCITRATE-LYASE-RXN" {"SUC[c]": -1, "PYRUVATE[c]": -1, "CPD-618[c]": 1} true ["CPLX0-1021"] -"METHYLMALONYL-COA-EPIM-RXN" {"D-METHYL-MALONYL-COA[c]": 1, "METHYL-MALONYL-COA[c]": -1} true ["METHYLMALONYL-COA-EPIM-MONOMER"] -"METHYLMALONYL-COA-MUT-RXN" {"SUC-COA[c]": 1, "METHYL-MALONYL-COA[c]": -1} true ["CPLX0-7741"] -"METHYLTHIOADENOSINE-NUCLEOSIDASE-RXN" {"WATER[c]": -1, "ADENINE[c]": 1, "5-METHYLTHIOADENOSINE[c]": -1, "CPD-560[c]": 1} false ["CPLX0-1541"] -"MHPELY-RXN" {"ACETALD[c]": 1, "PYRUVATE[c]": 1, "4-HYDROXY-2-KETOVALERATE[c]": -1} true ["MHPELY-MONOMER"] -"MMUM-RXN" {"HOMO-CYS[c]": -1, "PROTON[c]": 1, "CPD-397[c]": -1, "MET[c]": 2} true ["MMUM-MONOMER"] -"MYRISTOYLACYLTRAN-RXN-Myristoyl-ACPs/KDO2-LAUROYL-LIPID-IVA//KDO2-LIPID-A/ACP.56." {"KDO2-LAUROYL-LIPID-IVA[c]": -1, "Myristoyl-ACPs[c]": -1, "ACP[c]": 1, "KDO2-LIPID-A[c]": 1} false ["MYRISTOYLACYLTRAN-MONOMER"] -"MYRPALMTRAN-RXN-Myristoyl-ACPs/KDO2-PALMITOLEOYL-LIPID-IVA//KDO2-LIPID-IVA-COLD/ACP.68." {"KDO2-LIPID-IVA-COLD[c]": 1, "KDO2-PALMITOLEOYL-LIPID-IVA[c]": -1, "Myristoyl-ACPs[c]": -1, "ACP[c]": 1} false ["MYRISTOYLACYLTRAN-MONOMER"] -"N-ACETYLGLUCOSAMINE-KINASE-RXN-N-ACETYL-D-GLUCOSAMINE/ATP//CPD-16168/ADP/PROTON.49." {"PROTON[c]": 1, "CPD-16168[c]": 1, "N-ACETYL-D-GLUCOSAMINE[c]": -1, "ADP[c]": 1, "ATP[c]": -1} true ["G6576-MONOMER"] -"N-ACETYLGLUTPREDUCT-RXN" {"PI[c]": -1, "N-ACETYL-GLUTAMYL-P[c]": 1, "NADP[c]": -1, "PROTON[c]": 1, "CPD-469[c]": -1, "NADPH[c]": 1} true ["N-ACETYLGLUTPREDUCT-MONOMER"] -"N-ACETYLTRANSFER-RXN" {"CO-A[c]": -1, "GLT[c]": 1, "ACETYL-COA[c]": 1, "PROTON[c]": -1, "ACETYL-GLU[c]": -1} true ["N-ACETYLTRANSFER-CPLX"] -"NACGLCTRANS-RXN" {"UDP[c]": 1, "PROTON[c]": 1, "C6[c]": 1, "C5[c]": -1, "UDP-N-ACETYL-D-GLUCOSAMINE[c]": -1} true ["NACGLCTRANS-MONOMER"] -"NAD-KIN-RXN" {"NADP[c]": 1, "PROTON[c]": 1, "NAD[c]": -1, "ADP[c]": 1, "ATP[c]": -1} false ["CPLX0-682"] -"NAD-SYNTH-GLN-RXN" {"DEAMIDO-NAD[c]": -1, "GLN[c]": -1, "NAD[c]": 1, "GLT[c]": 1, "PROTON[c]": 1, "AMP[c]": 1, "PPI[c]": 1, "ATP[c]": -1, "WATER[c]": -1} false ["NAD-SYNTH-CPLX"] -"NAD-SYNTH-NH3-RXN" {"DEAMIDO-NAD[c]": -1, "NAD[c]": 1, "PROTON[c]": 1, "AMMONIUM[c]": -1, "AMP[c]": 1, "PPI[c]": 1, "ATP[c]": -1} false ["NAD-SYNTH-CPLX"] -"NADH-DEHYDROG-A-RXN-NADH/UBIQUINONE-8/PROTON//NAD/CPD-9956/PROTON.46." {"NADH[c]": 1, "NAD[c]": -1, "CPD-9956[i]": -1, "PROTON[c]": 5, "UBIQUINONE-8[i]": 1, "PROTON[p]": -4} true ["NADH-DHI-CPLX"] -"NADH-DEHYDROGENASE-QUINONE-RXN" {"NADH[c]": -1, "CPD-3766[c]": -1, "MENADIOL[c]": 1, "PROTON[c]": -1, "NAD[c]": 1} true ["NQOR-CPLX"] -"NADPH-DEHYDROGENASE-FLAVIN-RXN" {"NADPH[c]": -1, "NADP[c]": 1, "PROTON[c]": -2, "RIBOFLAVIN[c]": -1, "CPD-316[c]": 1} false ["CPLX0-7841", "SULFITE-REDUCT-CPLX", "FMNREDUCT-MONOMER"] -"NADPYROPHOSPHAT-RXN" {"WATER[c]": -1, "PROTON[c]": 2, "NICOTINAMIDE_NUCLEOTIDE[c]": 1, "NAD[c]": -1, "AMP[c]": 1} false [] -"NAG1P-URIDYLTRANS-RXN" {"PROTON[c]": -1, "UTP[c]": -1, "PPI[c]": 1, "UDP-N-ACETYL-D-GLUCOSAMINE[c]": 1, "N-ACETYL-D-GLUCOSAMINE-1-P[c]": -1} false ["NAG1P-URIDYLTRANS-CPLX"] -"NAG6PDEACET-RXN-CPD-16168/WATER//CPD-13469/ACET.32." {"WATER[c]": -1, "CPD-13469[c]": 1, "CPD-16168[c]": -1, "ACET[c]": 1} false ["NAG6PDEACET-CPLX"] -"NANE-RXN-N-ACETYL-D-MANNOSAMINE-6P//CPD-16168.37." {"N-ACETYL-D-MANNOSAMINE-6P[c]": 1, "CPD-16168[c]": -1} true ["NANE-MONOMER"] -"NANK-RXN-N-ACETYL-D-MANNOSAMINE/ATP//N-ACETYL-D-MANNOSAMINE-6P/ADP/PROTON.65." {"N-ACETYL-D-MANNOSAMINE-6P[c]": 1, "PROTON[c]": 1, "N-ACETYL-D-MANNOSAMINE[c]": -1, "ATP[c]": -1, "ADP[c]": 1} false ["NANK-MONOMER"] -"NAPHTHOATE-SYN-RXN" {"WATER[c]": 1, "CPD-6972[c]": -1, "PROTON[c]": -1, "CPD-9925[c]": 1} false ["CPLX0-7882"] -"NICONUCADENYLYLTRAN-RXN" {"PROTON[c]": -1, "DEAMIDO-NAD[c]": 1, "NICOTINATE_NUCLEOTIDE[c]": -1, "PPI[c]": 1, "ATP[c]": -1} false ["NICONUCADENYLYLTRAN-MONOMER"] -"NICOTINAMID-RXN" {"WATER[c]": -1, "NIACINAMIDE[c]": -1, "NIACINE[c]": 1, "AMMONIUM[c]": 1} false ["NICOTINAMID-MONOMER"] -"NICOTINATEPRIBOSYLTRANS-RXN" {"PI[c]": 1, "NICOTINATE_NUCLEOTIDE[c]": 1, "ATP[c]": -1, "ADP[c]": 1, "PPI[c]": 1, "PRPP[c]": -1, "WATER[c]": -1, "NIACINE[c]": -1} false ["NICOTINATEPRIBOSYLTRANS-MONOMER"] -"NMNAMIDOHYDRO-RXN" {"WATER[c]": -1, "NICOTINATE_NUCLEOTIDE[c]": 1, "AMMONIUM[c]": 1, "NICOTINAMIDE_NUCLEOTIDE[c]": -1} false ["CPLXECOLI-7943"] -"NMNNUCLEOSID-RXN" {"WATER[c]": -1, "CPD-15317[c]": 1, "PROTON[c]": 1, "NICOTINAMIDE_NUCLEOTIDE[c]": -1, "NIACINAMIDE[c]": 1} false ["NMNNUCLEOSID-MONOMER"] -"NQOR-RXN-CPD-9728/NADH/PROTON//REDUCED-MENAQUINONE/NAD.46." {"NADH[c]": -1, "PROTON[c]": -1, "CPD-9728[i]": -1, "REDUCED-MENAQUINONE[i]": 1, "NAD[c]": 1} false ["CPLX0-7939", "CPLX0-7632", "CPLX0-3121"] -"NQOR-RXN-CPD-9728/NADPH/PROTON//REDUCED-MENAQUINONE/NADP.48." {"NADPH[c]": -1, "NADP[c]": 1, "PROTON[c]": -1, "CPD-9728[i]": -1, "REDUCED-MENAQUINONE[i]": 1} false ["CPLX0-7939", "CPLX0-7632", "CPLX0-3121"] -"NQOR-RXN-UBIQUINONE-8/NADH/PROTON//CPD-9956/NAD.39." {"NADH[c]": -1, "PROTON[c]": -1, "UBIQUINONE-8[i]": -1, "NAD[c]": 1, "CPD-9956[i]": 1} false ["CPLX0-7939", "CPLX0-7632", "CPLX0-3121"] -"NQOR-RXN-UBIQUINONE-8/NADPH/PROTON//CPD-9956/NADP.41." {"NADPH[c]": -1, "NADP[c]": 1, "PROTON[c]": -1, "UBIQUINONE-8[i]": -1, "CPD-9956[i]": 1} false ["CPLX0-7939", "CPLX0-7632", "CPLX0-3121"] -"NUCLEOSIDE-DIP-KIN-RXN-CDP/ATP//CTP/ADP.17." {"CTP[c]": 1, "CDP[c]": -1, "ATP[c]": -1, "ADP[c]": 1} false ["NUCLEOSIDE-DIP-KIN-CPLX"] -"NUCLEOSIDE-DIP-KIN-RXN-CPD0-2231/ATP//DITP/ADP.24." {"DITP[c]": 1, "CPD0-2231[c]": -1, "ADP[c]": 1, "ATP[c]": -1} false ["NUCLEOSIDE-DIP-KIN-CPLX"] -"NUCLEOSIDE-DIP-KIN-RXN-DADP/ATP//DATP/ADP.19." {"DATP[c]": 1, "DADP[c]": -1, "ATP[c]": -1, "ADP[c]": 1} false ["NUCLEOSIDE-DIP-KIN-CPLX"] -"NUCLEOSIDE-DIP-KIN-RXN-DCDP/ATP//DCTP/ADP.19." {"DCDP[c]": -1, "DCTP[c]": 1, "ADP[c]": 1, "ATP[c]": -1} false ["NUCLEOSIDE-DIP-KIN-CPLX"] -"NUCLEOSIDE-DIP-KIN-RXN-DUDP/ATP//DUTP/ADP.19." {"DUTP[c]": 1, "ATP[c]": -1, "ADP[c]": 1, "DUDP[c]": -1} false ["NUCLEOSIDE-DIP-KIN-CPLX"] -"NUCLEOSIDE-DIP-KIN-RXN-GDP/ATP//GTP/ADP.17." {"GTP[c]": 1, "GDP[c]": -1, "ATP[c]": -1, "ADP[c]": 1} false ["NUCLEOSIDE-DIP-KIN-CPLX"] -"NUCLEOSIDE-DIP-KIN-RXN-IDP/ATP//ITP/ADP.17." {"ITP[c]": 1, "IDP[c]": -1, "ADP[c]": 1, "ATP[c]": -1} false ["NUCLEOSIDE-DIP-KIN-CPLX"] -"NUCLEOSIDE-DIP-KIN-RXN-TDP/ATP//TTP/ADP.17." {"TTP[c]": 1, "TDP[c]": -1, "ADP[c]": 1, "ATP[c]": -1} false ["NUCLEOSIDE-DIP-KIN-CPLX"] -"NUCLEOSIDE-DIP-KIN-RXN-UDP/ATP//UTP/ADP.17." {"UTP[c]": 1, "UDP[c]": -1, "ADP[c]": 1, "ATP[c]": -1} false ["NUCLEOSIDE-DIP-KIN-CPLX"] -"NUCLEOSIDE-DIP-KIN-RXN-XDP/ATP//XTP/ADP.17." {"XDP[c]": -1, "ATP[c]": -1, "ADP[c]": 1, "XTP[c]": 1} false ["NUCLEOSIDE-DIP-KIN-CPLX"] -"NUCLEOSIDE-DIPHOSPHATASE-RXN-CDP/WATER//CMP/Pi/PROTON.25." {"WATER[c]": -1, "CMP[c]": 1, "PROTON[c]": 1, "CDP[c]": -1, "PI[c]": 1} false ["EG12298-MONOMER"] -"NUCLEOSIDE-DIPHOSPHATASE-RXN-CPD0-2231/WATER//DIMP/Pi/PROTON.32." {"WATER[c]": -1, "PI[c]": 1, "PROTON[c]": 1, "DIMP[c]": 1, "CPD0-2231[c]": -1} false ["EG12298-MONOMER"] -"NUCLEOSIDE-DIPHOSPHATASE-RXN-DADP/WATER//DAMP/Pi/PROTON.27." {"WATER[c]": -1, "PI[c]": 1, "DAMP[c]": 1, "DADP[c]": -1, "PROTON[c]": 1} false ["EG12298-MONOMER"] -"NUCLEOSIDE-DIPHOSPHATASE-RXN-DCDP/WATER//DCMP/Pi/PROTON.27." {"WATER[c]": -1, "PI[c]": 1, "PROTON[c]": 1, "DCMP[c]": 1, "DCDP[c]": -1} false ["EG12298-MONOMER"] -"NUCLEOSIDE-DIPHOSPHATASE-RXN-DUDP/WATER//DUMP/Pi/PROTON.27." {"WATER[c]": -1, "PI[c]": 1, "PROTON[c]": 1, "DUMP[c]": 1, "DUDP[c]": -1} false ["EG12298-MONOMER"] -"NUCLEOSIDE-DIPHOSPHATASE-RXN-GDP/WATER//GMP/Pi/PROTON.25." {"WATER[c]": -1, "PI[c]": 1, "PROTON[c]": 1, "GDP[c]": -1, "GMP[c]": 1} false ["EG12298-MONOMER"] -"NUCLEOSIDE-DIPHOSPHATASE-RXN-IDP/WATER//IMP/Pi/PROTON.25." {"WATER[c]": -1, "PI[c]": 1, "PROTON[c]": 1, "IDP[c]": -1, "IMP[c]": 1} false ["EG12298-MONOMER"] -"NUCLEOSIDE-DIPHOSPHATASE-RXN-TDP/WATER//TMP/Pi/PROTON.25." {"WATER[c]": -1, "PI[c]": 1, "PROTON[c]": 1, "TMP[c]": 1, "TDP[c]": -1} false ["EG12298-MONOMER"] -"NUCLEOSIDE-DIPHOSPHATASE-RXN-UDP/WATER//UMP/Pi/PROTON.25." {"WATER[c]": -1, "PI[c]": 1, "UDP[c]": -1, "UMP[c]": 1, "PROTON[c]": 1} false ["EG12298-MONOMER"] -"NUCLEOSIDE-DIPHOSPHATASE-RXN-XDP/WATER//XANTHOSINE-5-PHOSPHATE/Pi/PROTON.44." {"WATER[c]": -1, "XDP[c]": -1, "PROTON[c]": 1, "XANTHOSINE-5-PHOSPHATE[c]": 1, "PI[c]": 1} false ["EG12298-MONOMER"] -"O-SUCCHOMOSERLYASE-RXN" {"SUC[c]": 1, "O-SUCCINYL-L-HOMOSERINE[c]": -1, "PROTON[c]": 1, "CYS[c]": -1, "L-CYSTATHIONINE[c]": 1} false ["O-SUCCHOMOSERLYASE-CPLX"] -"O-SUCCINYLBENZOATE-COA-LIG-RXN" {"CPD-6972[c]": 1, "O-SUCCINYLBENZOATE[c]": -1, "AMP[c]": 1, "CO-A[c]": -1, "PPI[c]": 1, "ATP[c]": -1} false ["MENE-CPLX"] -"O-SUCCINYLBENZOATE-COA-SYN-RXN" {"WATER[c]": 1, "O-SUCCINYLBENZOATE[c]": 1, "CPD-9923[c]": -1} false ["O-SUCCINYLBENZOATE-COA-SYN-MONOMER"] -"OCTAPRENYL-METHYL-METHOXY-BENZOQ-OH-RXN" {"Donor-H2[c]": -1, "OXYGEN-MOLECULE[c]": -1, "OCTAPRENYL-METHYL-OH-METHOXY-BENZQ[c]": 1, "OCTAPRENYL-METHYL-METHOXY-BENZQ[c]": -1, "WATER[c]": 1, "Acceptor[c]": 1} false ["OCTAPRENYL-METHYL-METHOXY-BENZOQ-OH-MON"] -"OHACYL-COA-DEHYDROG-RXN-NAD/CPD0-2107//NADH/CPD0-2105/PROTON.37." {"NADH[c]": 1, "PROTON[c]": 1, "CPD0-2107[c]": -1, "NAD[c]": -1, "CPD0-2105[c]": 1} false ["CPLX0-1666", "CPLX0-1668", "FADB-CPLX", "FAO-CPLX"] -"OHACYL-COA-DEHYDROG-RXN-NAD/CPD0-2171//NADH/CPD-10284/PROTON.37." {"CPD0-2171[c]": -1, "NADH[c]": 1, "CPD-10284[c]": 1, "PROTON[c]": 1, "NAD[c]": -1} false ["CPLX0-1666", "CPLX0-1668", "FADB-CPLX", "FAO-CPLX"] -"OHACYL-COA-DEHYDROG-RXN-NAD/CPD0-2224//NADH/CPD0-2106/PROTON.37." {"NADH[c]": 1, "PROTON[c]": 1, "CPD0-2224[c]": -1, "CPD0-2106[c]": 1, "NAD[c]": -1} false ["CPLX0-1666", "CPLX0-1668", "FADB-CPLX", "FAO-CPLX"] -"OHACYL-COA-DEHYDROG-RXN-NAD/CPD0-2232//NADH/3-OXOPALMITOYL-COA/PROTON.46." {"CPD0-2232[c]": -1, "3-OXOPALMITOYL-COA[c]": 1, "PROTON[c]": 1, "NAD[c]": -1, "NADH[c]": 1} false ["CPLX0-1666", "CPLX0-1668", "FADB-CPLX", "FAO-CPLX"] -"OHACYL-COA-DEHYDROG-RXN-NAD/CPD0-2244//NADH/CPD0-2123/PROTON.37." {"CPD0-2244[c]": -1, "PROTON[c]": 1, "CPD0-2123[c]": 1, "NAD[c]": -1, "NADH[c]": 1} false ["CPLX0-1666", "CPLX0-1668", "FADB-CPLX", "FAO-CPLX"] -"OHACYL-COA-DEHYDROG-RXN-NAD/CPD0-2253//NADH/CPD-10260/PROTON.37." {"CPD0-2253[c]": -1, "PROTON[c]": 1, "CPD-10260[c]": 1, "NAD[c]": -1, "NADH[c]": 1} false ["CPLX0-1666", "CPLX0-1668", "FADB-CPLX", "FAO-CPLX"] -"OHACYL-COA-DEHYDROG-RXN-NAD/OH-HEXANOYL-COA//NADH/K-HEXANOYL-COA/PROTON.48." {"NADH[c]": 1, "PROTON[c]": 1, "K-HEXANOYL-COA[c]": 1, "OH-HEXANOYL-COA[c]": -1, "NAD[c]": -1} false ["CPLX0-1666", "CPLX0-1668", "FADB-CPLX", "FAO-CPLX"] -"OHACYL-COA-DEHYDROG-RXN-NAD/POLYMER-INST-L-3-HYDROXYACYL-COA-C16-H32//NADH/POLYMER-INST-3-KETOACYL-COA-C16-H32/PROTON.94." {"NADH[c]": 1, "PROTON[c]": 1, "POLYMER-INST-3-KETOACYL-COA-C16-H32[c]": 1, "POLYMER-INST-L-3-HYDROXYACYL-COA-C16-H32[c]": -1, "NAD[c]": -1} false ["CPLX0-1666", "CPLX0-1668", "FADB-CPLX", "FAO-CPLX"] -"OHACYL-COA-DEHYDROG-RXN-NAD/S-3-HYDROXYBUTANOYL-COA//NADH/ACETOACETYL-COA/PROTON.57." {"S-3-HYDROXYBUTANOYL-COA[c]": -1, "NADH[c]": 1, "PROTON[c]": 1, "NAD[c]": -1, "ACETOACETYL-COA[c]": 1} false ["CPLX0-1666", "CPLX0-1668", "FADB-CPLX", "FAO-CPLX"] -"OHBUTYRYL-COA-EPIM-RXN-CPD-650//S-3-HYDROXYBUTANOYL-COA.33." {"S-3-HYDROXYBUTANOYL-COA[c]": -1, "CPD-650[c]": 1} true ["CPLX0-1666", "CPLX0-1668", "FADB-CPLX", "FAO-CPLX"] -"OHMETHYLBILANESYN-RXN" {"WATER[c]": -1, "HYDROXYMETHYLBILANE[c]": 1, "AMMONIUM[c]": 4, "PORPHOBILINOGEN[c]": -4} false ["OHMETHYLBILANESYN-MONOMER"] -"ORNCARBAMTRANSFER-RXN" {"PI[c]": -1, "PROTON[c]": -1, "CARBAMOYL-P[c]": 1, "L-ORNITHINE[c]": 1, "L-CITRULLINE[c]": -1} true ["ORNCARBAMTRANSFERF-CPLX", "ORNCARBAMTRANSFERI-CPLX"] -"ORNDECARBOX-RXN" {"PUTRESCINE[c]": 1, "PROTON[c]": -1, "CARBON-DIOXIDE[c]": 1, "L-ORNITHINE[c]": -1} false ["ORNDECARBOXDEG-CPLX", "ORNDECARBOX-BIO-CPLX"] -"OROPRIBTRANS-RXN" {"PPI[c]": 1, "OROTIDINE-5-PHOSPHATE[c]": 1, "PRPP[c]": -1, "OROTATE[c]": -1} true ["OROPRIBTRANS-CPLX"] -"OROTPDECARB-RXN" {"CARBON-DIOXIDE[c]": 1, "UMP[c]": 1, "PROTON[c]": -1, "OROTIDINE-5-PHOSPHATE[c]": -1} false ["OROTPDECARB-CPLX"] -"OXALOACETATE-TAUTOMERASE-RXN" {"OXALACETIC_ACID[c]": -1, "ENOL-OXALOACETATE[c]": 1} true ["FUMARASE-A"] -"OXALODECARB-RXN" {"OXALACETIC_ACID[c]": -1, "PROTON[c]": -1, "PYRUVATE[c]": 1, "CARBON-DIOXIDE[c]": 1} false ["KDPGALDOL-4OH2OXOGLUTARALDOL-CPLX"] -"OXALYL-COA-DECARBOXYLASE-RXN" {"OXALYL-COA[c]": -1, "PROTON[c]": -1, "CARBON-DIOXIDE[c]": 1, "FORMYL-COA[c]": 1} true ["CPLX0-7878"] -"P-PANTOCYSDECARB-RXN" {"PANTETHEINE-P[c]": 1, "PROTON[c]": -1, "R-4-PHOSPHOPANTOTHENOYL-L-CYSTEINE[c]": -1, "CARBON-DIOXIDE[c]": 1} false ["CPLX0-341"] -"P-PANTOCYSLIG-RXN" {"CTP[c]": -1, "CYS[c]": -1, "PROTON[c]": 1, "R-4-PHOSPHOPANTOTHENOYL-L-CYSTEINE[c]": 1, "CMP[c]": 1, "PPI[c]": 1, "4-P-PANTOTHENATE[c]": -1} false ["CPLX0-341"] -"PABASYN-RXN" {"4-AMINO-4-DEOXYCHORISMATE[c]": -1, "CHORISMATE[c]": 1, "GLT[c]": -1, "GLN[c]": 1} true ["PABASYN-CPLX", "PABSYNMULTI-CPLX"] -"PALMITOTRANS-RXN-Palmitoleoyl-ACPs/KDO2-LIPID-IVA//KDO2-PALMITOLEOYL-LIPID-IVA/ACP.66." {"KDO2-PALMITOLEOYL-LIPID-IVA[c]": 1, "Palmitoleoyl-ACPs[c]": -1, "ACP[c]": 1, "KDO2-LIPID-IVA[c]": -1} false ["PALMITOTRANS-MONOMER"] -"PANTEPADENYLYLTRAN-RXN" {"PANTETHEINE-P[c]": -1, "PPI[c]": 1, "PROTON[c]": -1, "ATP[c]": -1, "DEPHOSPHO-COA[c]": 1} false ["COADTRI-CPLX"] -"PANTOATE-BETA-ALANINE-LIG-RXN" {"PROTON[c]": 1, "AMP[c]": 1, "PPI[c]": 1, "L-PANTOATE[c]": -1, "ATP[c]": -1, "B-ALANINE[c]": -1, "PANTOTHENATE[c]": 1} false ["PANTOATE-BETA-ALANINE-LIG-CPLX"] -"PANTOTHENATE-KIN-RXN" {"PROTON[c]": 1, "PANTOTHENATE[c]": -1, "ATP[c]": -1, "ADP[c]": 1, "4-P-PANTOTHENATE[c]": 1} false ["PANTOTHENATE-KIN-CPLX"] -"PDXJ-RXN" {"1-AMINO-PROPAN-2-ONE-3-PHOSPHATE[c]": -1, "PI[c]": 1, "DEOXYXYLULOSE-5P[c]": -1, "PROTON[c]": 1, "WATER[c]": 2, "PYRIDOXINE-5P[c]": 1} false ["CPLX0-321"] -"PEPCARBOX-RXN" {"OXALACETIC_ACID[c]": 1, "PI[c]": 1, "HCO3[c]": -1, "PHOSPHO-ENOL-PYRUVATE[c]": -1} true ["PEPCARBOX-CPLX"] -"PEPCARBOXYKIN-RXN" {"OXALACETIC_ACID[c]": -1, "CARBON-DIOXIDE[c]": 1, "ADP[c]": 1, "PHOSPHO-ENOL-PYRUVATE[c]": 1, "ATP[c]": -1} false ["PEPCARBOXYKIN-MONOMER"] -"PEPDEPHOS-RXN" {"PROTON[c]": 1, "PYRUVATE[c]": -1, "PHOSPHO-ENOL-PYRUVATE[c]": 1, "ADP[c]": 1, "ATP[c]": -1} true ["PKI-COMPLEX", "PKII-CPLX"] -"PEPSYNTH-RXN" {"PI[c]": 1, "PYRUVATE[c]": -1, "ATP[c]": -1, "PROTON[c]": 2, "AMP[c]": 1, "PHOSPHO-ENOL-PYRUVATE[c]": 1, "WATER[c]": -1} false ["PEPSYNTH-CPLX"] -"PEPTIDYLPROLYL-ISOMERASE-RXN[CCO-CYTOSOL]-CPD-8624//CPD-8625.32." {"CPD-8625[c]": -1, "CPD-8624[c]": 1} true ["CPLX0-7536", "EG10758-MONOMER", "EG12352-MONOMER", "EG11080-MONOMER", "EG11003-MONOMER"] -"PEPTIDYLPROLYL-ISOMERASE-RXN[CCO-PERI-BAC]-CPD-8624//CPD-8625.33." {"CPD-8624[p]": -1, "CPD-8625[p]": 1} true ["EG10757-MONOMER", "CPLX0-3924", "G7716-MONOMER", "EG10985-MONOMER"] -"PEROXID-RXN[CCO-CYTOSOL]-Phenolic-Donors/HYDROGEN-PEROXIDE//Phenoxyl-rad-of-phenolic-donors/WATER.86." {"WATER[c]": 2, "Phenoxyl-rad-of-phenolic-donors[c]": 2, "Phenolic-Donors[c]": -2, "HYDROGEN-PEROXIDE[c]": -1} true [] -"PEROXID-RXN[CCO-PERI-BAC]-Phenolic-Donors/HYDROGEN-PEROXIDE//Phenoxyl-rad-of-phenolic-donors/WATER.87." {"WATER[p]": 2, "Phenolic-Donors[p]": -2, "Phenoxyl-rad-of-phenolic-donors[p]": 2, "HYDROGEN-PEROXIDE[p]": -1} true [] -"PGLUCISOM-RXN" {"GLC-6-P[c]": 1, "FRUCTOSE-6P[c]": -1} true ["CPLX0-7877"] -"PGLUCONDEHYDRAT-RXN" {"CPD-2961[c]": -1, "WATER[c]": 1, "2-KETO-3-DEOXY-6-P-GLUCONATE[c]": 1} false ["PGLUCONDEHYDRAT-MONOMER"] -"PGLYCDEHYDROG-RXN" {"NADH[c]": -1, "PROTON[c]": -1, "3-P-HYDROXYPYRUVATE[c]": -1, "NAD[c]": 1, "G3P[c]": 1} true ["PGLYCDEHYDROG-CPLX"] -"PGLYCEROLTRANSI-RXN" {"L-1-PHOSPHATIDYL-GLYCEROL[p]": 1, "MDO-D-Glucoses[p]": 1, "DIACYLGLYCEROL[p]": -1, "CPD-16400[p]": -1, "PROTON[p]": -1} true ["PGLYCEROLTRANSI-MONOMER"] -"PGPPHOSPHA-RXN-CPD-12820/WATER//CPD-12822/Pi.30." {"WATER[c]": -1, "CPD-12820[c]": -1, "CPD-12822[c]": 1, "PI[c]": 1} false ["EG11371-MONOMER", "PGPPHOSPHAB-MONOMER", "PGPPHOSPHAA-MONOMER"] -"PGPPHOSPHA-RXN-CPD-12821/WATER//CPD-8260/Pi.29." {"CPD-8260[c]": 1, "WATER[c]": -1, "CPD-12821[c]": -1, "PI[c]": 1} false ["EG11371-MONOMER", "PGPPHOSPHAB-MONOMER", "PGPPHOSPHAA-MONOMER"] -"PGPPHOSPHA-RXN-CPD0-2230/WATER//CPD0-2330/Pi.30." {"WATER[c]": -1, "PI[c]": 1, "CPD0-2330[c]": 1, "CPD0-2230[c]": -1} false ["EG11371-MONOMER", "PGPPHOSPHAB-MONOMER", "PGPPHOSPHAA-MONOMER"] -"PHEAMINOTRANS-RXN" {"GLT[c]": 1, "PHENYL-PYRUVATE[c]": 1, "2-KETOGLUTARATE[c]": -1, "PHE[c]": -1} true ["BRANCHED-CHAINAMINOTRANSFER-CPLX", "ASPAMINOTRANS-DIMER", "TYRB-DIMER"] -"PHENDEHYD-RXN" {"NADH[c]": -1, "NAD[c]": 1, "PROTON[c]": -2, "WATER[c]": 1, "PHENYLACETATE[c]": -1, "PHENYLACETALDEHYDE[c]": 1} true ["PHENDEHYD-CPLX"] -"PHENYLALANINE--TRNA-LIGASE-RXN-PHE-tRNAs/PHE/ATP/PROTON//Charged-PHE-tRNAs/AMP/PPI.52." {"PHE-tRNAs[c]": -1, "Charged-PHE-tRNAs[c]": 1, "AMP[c]": 1, "PPI[c]": 1, "ATP[c]": -1, "PHE[c]": -1} false ["PHES-CPLX"] -"PHENYLSERINE-ALDOLASE-RXN" {"GLY[c]": 1, "BENZALDEHYDE[c]": 1, "CPD-644[c]": -1} true ["LTAA-CPLX"] -"PHOBCREC-RXN" {"PHOSPHO-PHOB[c]": 1, "CREC-CPLX[c]": 1, "PHOB-MONOMER[c]": -1, "PHOSPHO-CREC[c]": -1} true [] -"PHOSACETYLTRANS-RXN" {"CO-A[c]": 1, "ACETYL-P[c]": 1, "ACETYL-COA[c]": -1, "PI[c]": -1} true ["CPLX0-7912", "PHOSACETYLTRANS-CPLX"] -"PHOSGLYPHOS-RXN" {"DPG[c]": -1, "ATP[c]": 1, "ADP[c]": -1, "G3P[c]": 1} true ["PGK"] -"PHOSMANMUT-RXN" {"MANNOSE-1P[c]": -1, "MANNOSE-6P[c]": 1} true ["PHOSMANMUT-MONOMER"] -"PHOSNACMURPENTATRANS-RXN" {"C5[c]": 1, "UMP[c]": 1, "CPD-9646[c]": -1, "C1[c]": -1} false ["PHOSNACMURPENTATRANS-MONOMER"] -"PHOSPHAGLYPSYN-RXN-CPD-12814/GLYCEROL-3P//CMP/CPD-12820/PROTON.44." {"CPD-12820[c]": 1, "CMP[c]": 1, "PROTON[c]": 1, "CPD-12814[c]": -1, "GLYCEROL-3P[c]": -1} true ["PHOSPHAGLYPSYN-MONOMER"] -"PHOSPHAGLYPSYN-RXN-CPD-12815/GLYCEROL-3P//CMP/CPD-12821/PROTON.44." {"GLYCEROL-3P[c]": 1, "CMP[c]": -1, "PROTON[c]": -1, "CPD-12815[c]": 1, "CPD-12821[c]": -1} true ["PHOSPHAGLYPSYN-MONOMER"] -"PHOSPHASERDECARB-RXN-CPD-12817/PROTON//CPD-12819/CARBON-DIOXIDE.43." {"CPD-12819[c]": 1, "CPD-12817[c]": -1, "PROTON[c]": -1, "CARBON-DIOXIDE[c]": 1} false ["PHOSPHASERDECARB-CPLX"] -"PHOSPHASERSYN-RXN-CPD-12814/SER//CMP/CPD-12816/PROTON.36." {"CMP[c]": -1, "PROTON[c]": -1, "CPD-12814[c]": 1, "SER[c]": 1, "CPD-12816[c]": -1} true ["PHOSPHASERSYN-CPLX"] -"PHOSPHASERSYN-RXN-CPD-12815/SER//CMP/CPD-12817/PROTON.36." {"CMP[c]": 1, "CPD-12817[c]": 1, "SER[c]": -1, "CPD-12815[c]": -1, "PROTON[c]": 1} true ["PHOSPHASERSYN-CPLX"] -"PHOSPHOGLUCMUT-RXN" {"GLC-1-P[c]": 1, "ALPHA-GLC-6-P[c]": -1} true ["PHOSPHOGLUCMUT-MONOMER"] -"PMPOXI-RXN" {"OXYGEN-MOLECULE[c]": -1, "PYRIDOXAL_PHOSPHATE[c]": 1, "HYDROGEN-PEROXIDE[c]": 1, "AMMONIUM[c]": 1, "WATER[c]": -1, "PYRIDOXAMINE-5P[c]": -1} false ["PDXH-CPLX"] -"PNP-RXN-ADENOSINE/Pi//ADENINE/RIBOSE-1P.32." {"ADENINE[c]": 1, "RIBOSE-1P[c]": 1, "ADENOSINE[c]": -1, "PI[c]": -1} true ["DEOD-CPLX"] -"PNP-RXN-GUANOSINE/Pi//GUANINE/RIBOSE-1P.32." {"PI[c]": 1, "GUANOSINE[c]": 1, "GUANINE[c]": -1, "RIBOSE-1P[c]": -1} true ["DEOD-CPLX"] -"PNP-RXN-INOSINE/Pi//HYPOXANTHINE/RIBOSE-1P.35." {"PI[c]": -1, "INOSINE[c]": -1, "HYPOXANTHINE[c]": 1, "RIBOSE-1P[c]": 1} true ["DEOD-CPLX"] -"PNPOXI-RXN" {"PYRIDOXAL_PHOSPHATE[c]": 1, "OXYGEN-MOLECULE[c]": -1, "HYDROGEN-PEROXIDE[c]": 1, "PYRIDOXINE-5P[c]": -1} false ["PDXH-CPLX"] -"PORPHOBILSYNTH-RXN" {"WATER[c]": 2, "PROTON[c]": 1, "5-AMINO-LEVULINATE[c]": -2, "PORPHOBILINOGEN[c]": 1} false ["PORPHOBILSYNTH-CPLX"] -"PPENTOMUT-RXN" {"RIBOSE-5P[c]": -1, "RIBOSE-1P[c]": 1} true ["PPENTOMUT-MONOMER"] -"PPGPPSYN-RXN" {"WATER[c]": -1, "GUANOSINE-5DP-3DP[c]": -1, "PPI[c]": 1, "GDP[c]": 1, "PROTON[c]": 1} false ["SPOT-MONOMER"] -"PPPGPPHYDRO-RXN" {"WATER[c]": -1, "PI[c]": 1, "GDP-TP[c]": -1, "GUANOSINE-5DP-3DP[c]": 1, "PROTON[c]": 1} false ["PPPGPPHYDRO-CPLX"] -"PRAISOM-RXN" {"CARBOXYPHENYLAMINO-DEOXYRIBULOSE-P[c]": 1, "N-5-PHOSPHORIBOSYL-ANTHRANILATE[c]": -1} false ["PRAI-IGPS"] -"PREPHENATEDEHYDRAT-RXN" {"PREPHENATE[c]": -1, "WATER[c]": 1, "PROTON[c]": -1, "PHENYL-PYRUVATE[c]": 1, "CARBON-DIOXIDE[c]": 1} false ["CHORISMUTPREPHENDEHYDRAT-CPLX"] -"PREPHENATEDEHYDROG-RXN" {"PREPHENATE[c]": -1, "P-HYDROXY-PHENYLPYRUVATE[c]": 1, "CARBON-DIOXIDE[c]": 1, "NAD[c]": -1, "NADH[c]": 1} false ["CHORISMUTPREPHENDEHYDROG-CPLX"] -"PRIBFAICARPISOM-RXN" {"PHOSPHORIBOSYL-FORMIMINO-AICAR-P[c]": -1, "PHOSPHORIBULOSYL-FORMIMINO-AICAR-P[c]": 1} false ["PRIBFAICARPISOM-MONOMER"] -"PRODISULFREDUCT-A-RXN-GLUTATHIONE/Ox-Glutaredoxins//OXIDIZED-GLUTATHIONE/Red-Glutaredoxins.69." {"Red-Glutaredoxins[c]": 1, "GLUTATHIONE[c]": -2, "OXIDIZED-GLUTATHIONE[c]": 1, "Ox-Glutaredoxins[c]": -1} false [] -"PRODISULFREDUCT-A-RXN-GLUTATHIONE/Oxidized-NrdH-Proteins//OXIDIZED-GLUTATHIONE/Reduced-NrdH-Proteins.79." {"Reduced-NrdH-Proteins[c]": 1, "Oxidized-NrdH-Proteins[c]": -1, "GLUTATHIONE[c]": -2, "OXIDIZED-GLUTATHIONE[c]": 1} false [] -"PROLINE--TRNA-LIGASE-RXN-PRO-tRNAs/PRO/ATP/PROTON//Charged-PRO-tRNAs/AMP/PPI.52." {"PRO[c]": -1, "AMP[c]": 1, "PPI[c]": 1, "PRO-tRNAs[c]": -1, "ATP[c]": -1, "Charged-PRO-tRNAs[c]": 1} false ["PROS-CPLX"] -"PROLINE-MULTI" {"PI[c]": 1, "ADP[c]": 1, "GLT[c]": -1, "NADP[c]": 1, "PROTON[c]": -1, "L-GLUTAMATE_GAMMA-SEMIALDEHYDE[c]": 1, "ATP[c]": -1, "NADPH[c]": -1} false [] -"PROPIONATE--COA-LIGASE-RXN" {"PROPIONATE[c]": -1, "AMP[c]": 1, "CO-A[c]": -1, "PPI[c]": 1, "ATP[c]": -1, "PROPIONYL-COA[c]": 1} false ["G6200-MONOMER", "ACS-MONOMER"] -"PROPIONYL-COA-CARBOXY-RXN" {"PI[c]": 1, "ADP[c]": 1, "PROTON[c]": 1, "D-METHYL-MALONYL-COA[c]": 1, "HCO3[c]": -1, "ATP[c]": -1, "PROPIONYL-COA[c]": -1} false ["PROPIONYL-COA-CARBOXY-MONOMER"] -"PROPKIN-RXN" {"PROPIONATE[c]": -1, "PROPIONYL-P[c]": 1, "ATP[c]": -1, "ADP[c]": 1} true ["ACETATEKINA-MONOMER", "PROPKIN-MONOMER"] -"PROTEIN-KINASE-RXN" {"PROTON[c]": 1, "Protein-L-serine-or-L-threonine[c]": -1, "Protein-Ser-or-Thr-phosphate[c]": 1, "ADP[c]": 1, "ATP[c]": -1} false ["G6969-MONOMER", "EG11831-MONOMER"] -"PROTEIN-TYROSINE-PHOSPHATASE-RXN" {"WATER[c]": -1, "Protein-tyrosine-phosphates[c]": -1, "Protein-Tyrosines[c]": 1, "PI[c]": 1} false ["G6503-MONOMER", "G7106-MONOMER", "G7415-MONOMER", "G7011-MONOMER"] -"PROTOHEMEFERROCHELAT-RXN[CCO-CYTOSOL]-FE+2/PROTOPORPHYRIN_IX//PROTOHEME/PROTON.54." {"PROTOHEME[c]": -1, "PROTON[c]": -2, "FE+2[c]": 1, "PROTOPORPHYRIN_IX[c]": 1} true ["CPLX0-7810", "G7266-MONOMER"] -"PROTOPORGENOXI-RXN" {"PROTOPORPHYRINOGEN[c]": -1, "OXYGEN-MOLECULE[c]": -3, "HYDROGEN-PEROXIDE[c]": 3, "PROTOPORPHYRIN_IX[c]": 1} false ["CPLX0-7811"] -"PRPPAMIDOTRANS-RXN" {"5-P-BETA-D-RIBOSYL-AMINE[c]": 1, "GLN[c]": -1, "GLT[c]": 1, "PPI[c]": 1, "PRPP[c]": -1, "WATER[c]": -1} false ["PRPPAMIDOTRANS-CPLX"] -"PRPPSYN-RXN" {"PROTON[c]": 1, "RIBOSE-5P[c]": -1, "ATP[c]": -1, "PRPP[c]": 1, "AMP[c]": 1} false ["PRPPSYN-MONOMER"] -"PRTRANS-RXN" {"PPI[c]": 1, "N-5-PHOSPHORIBOSYL-ANTHRANILATE[c]": 1, "PRPP[c]": -1, "ANTHRANILATE[c]": -1} false ["ANTHRANSYNCOMPII-MONOMER", "ANTHRANSYN-CPLX"] -"PSERTRANSAM-RXN" {"GLT[c]": -1, "3-P-SERINE[c]": 1, "3-P-HYDROXYPYRUVATE[c]": -1, "2-KETOGLUTARATE[c]": 1} true ["PSERTRANSAM-CPLX"] -"PSERTRANSAMPYR-RXN" {"GLT[c]": -1, "3OH-4P-OH-ALPHA-KETOBUTYRATE[c]": -1, "2-KETOGLUTARATE[c]": 1, "4-PHOSPHONOOXY-THREONINE[c]": 1} true ["PSERTRANSAM-CPLX"] -"PTAALT-RXN" {"CO-A[c]": 1, "PI[c]": -1, "PROPIONYL-P[c]": 1, "PROPIONYL-COA[c]": -1} false ["PHOSACETYLTRANS-CPLX"] -"PUTTRANSAM-RXN" {"GLT[c]": 1, "PUTRESCINE[c]": -1, "2-KETOGLUTARATE[c]": -1, "4-AMINO-BUTYRALDEHYDE[c]": 1} false ["CPLX0-8159"] -"PYFLAVOXRE-RXN-PYRUVATE/Oxidized-flavodoxins/CO-A/PROTON//ACETYL-COA/CARBON-DIOXIDE/Reduced-flavodoxins.89." {"PYRUVATE[c]": 1, "ACETYL-COA[c]": -1, "PROTON[c]": 1, "Reduced-flavodoxins[c]": -1, "CO-A[c]": 1, "Oxidized-flavodoxins[c]": 1, "CARBON-DIOXIDE[c]": -1} true ["G6701-MONOMER"] -"PYRAMKIN-RXN" {"PYRIDOXAMINE-5P[c]": 1, "PYRIDOXAMINE[c]": -1, "PROTON[c]": 1, "ADP[c]": 1, "ATP[c]": -1} false ["PDXK-CPLX"] -"PYRIDOXKIN-RXN" {"PROTON[c]": 1, "PYRIDOXAL[c]": -1, "PYRIDOXAL_PHOSPHATE[c]": 1, "ATP[c]": -1, "ADP[c]": 1} false ["CPLX0-8031", "PDXK-CPLX"] -"PYRIMSYN1-RXN" {"CH33ADO[c]": 1, "PROTON[c]": 3, "S-ADENOSYLMETHIONINE[c]": -1, "5-PHOSPHORIBOSYL-5-AMINOIMIDAZOLE[c]": -1, "MET[c]": 1, "CARBON-MONOXIDE[c]": 1, "AMINO-HYDROXYMETHYL-METHYL-PYR-P[c]": 1, "FORMATE[c]": 1} false ["THIC-MONOMER"] -"PYRIMSYN3-RXN" {"AMINO-HYDROXYMETHYL-METHYLPYRIMIDINE-PP[c]": 1, "AMINO-HYDROXYMETHYL-METHYL-PYR-P[c]": -1, "ATP[c]": -1, "ADP[c]": 1} false ["HMP-P-KIN-CPLX"] -"PYRNUTRANSHYDROGEN-RXN" {"NADPH[c]": -1, "NADH[c]": 1, "NAD[c]": -1, "NADP[c]": 1} true ["UDHA-CPLX"] -"PYROXALTRANSAM-RXN" {"OXALACETIC_ACID[c]": -1, "PYRIDOXAMINE[c]": -1, "PYRIDOXAL[c]": 1, "L-ASPARTATE[c]": 1} true ["PYROXALTRANSAM-MONOMER"] -"PYRROLINECARBDEHYDROG-RXN" {"NADH[c]": 1, "NAD[c]": -1, "GLT[c]": 1, "PROTON[c]": 1, "WATER[c]": -2, "L-DELTA1-PYRROLINE_5-CARBOXYLATE[c]": -1} false ["PUTA-CPLX", "PUTA-CPLXBND"] -"PYRROLINECARBREDUCT-RXN-PRO/NAD//L-DELTA1-PYRROLINE_5-CARBOXYLATE/NADH/PROTON.54." {"NADH[c]": -1, "PROTON[c]": -2, "PRO[c]": 1, "L-DELTA1-PYRROLINE_5-CARBOXYLATE[c]": -1, "NAD[c]": 1} false ["PYRROLINECARBREDUCT-CPLX"] -"PYRROLINECARBREDUCT-RXN-PRO/NADP//L-DELTA1-PYRROLINE_5-CARBOXYLATE/NADPH/PROTON.56." {"NADPH[c]": -1, "NADP[c]": 1, "PROTON[c]": -2, "PRO[c]": 1, "L-DELTA1-PYRROLINE_5-CARBOXYLATE[c]": -1} false ["PYRROLINECARBREDUCT-CPLX"] -"PYRUFLAVREDUCT-RXN" {"PYRUVATE[c]": -1, "Oxidized-ferredoxins[c]": -2, "PROTON[c]": 1, "Reduced-ferredoxins[c]": 2, "CO-A[c]": -1, "ACETYL-COA[c]": 1, "CARBON-DIOXIDE[c]": 1} true ["PYRUFLAVREDUCT-MONOMER"] -"PYRUVDEH-RXN" {"NADH[c]": 1, "PYRUVATE[c]": -1, "NAD[c]": -1, "CO-A[c]": -1, "CARBON-DIOXIDE[c]": 1, "ACETYL-COA[c]": 1} false ["PYRUVATEDEH-CPLX"] -"QOR-RXN" {"NADPH[c]": -1, "NADP[c]": 1, "PROTON[c]": -1, "Quinones[c]": -2, "Semiquinones[c]": 2} true ["QOR-CPLX"] -"QUINOLINATE-SYNTHA-RXN" {"WATER[c]": 2, "DIHYDROXY-ACETONE-PHOSPHATE[c]": -1, "QUINOLINATE[c]": 1, "IMINOASPARTATE[c]": -1, "PI[c]": 1} false ["CPLX0-7719"] -"QUINOPRIBOTRANS-RXN" {"NICOTINATE_NUCLEOTIDE[c]": 1, "PROTON[c]": -2, "PPI[c]": 1, "PRPP[c]": -1, "QUINOLINATE[c]": -1, "CARBON-DIOXIDE[c]": 1} false ["QUINOPRIBOTRANS-CPLX"] -"R15-RXN-MET/2-KETOGLUTARATE//CPD-479/GLT.33." {"GLT[c]": 1, "CPD-479[c]": 1, "2-KETOGLUTARATE[c]": -1, "MET[c]": -1} true ["G6329-MONOMER"] -"R15-RXN-MET/GLYOX//CPD-479/GLY.23." {"CPD-479[c]": 1, "GLYOX[c]": -1, "GLY[c]": 1, "MET[c]": -1} true ["G6329-MONOMER"] -"R15-RXN-MET/PYRUVATE//CPD-479/L-ALPHA-ALANINE.38." {"CPD-479[c]": -1, "PYRUVATE[c]": 1, "L-ALPHA-ALANINE[c]": -1, "MET[c]": 1} true ["G6329-MONOMER"] -"R170-RXN" {"CU+[c]": 1, "CU+2[c]": -1, "NAD[c]": 1, "NADH[c]": -1} true ["NADH-DHII-MONOMER"] -"R601-RXN-FUM/REDUCED-MENAQUINONE//SUC/CPD-9728.38." {"SUC[c]": 1, "CPD-9728[i]": 1, "FUM[c]": -1, "REDUCED-MENAQUINONE[i]": -1} true ["FUMARATE-REDUCTASE"] -"RFFTRANS-RXN" {"GLT[c]": -1, "DTDP-DEOH-DEOXY-GLUCOSE[c]": -1, "2-KETOGLUTARATE[c]": 1, "TDP-D-FUCOSAMINE[c]": 1} true ["CPLX0-7990"] -"RHAMNISOM-RXN" {"CPD-16566[c]": 1, "CPD0-1112[c]": -1} true ["CPLX0-7652"] -"RHAMNULOKIN-RXN" {"CPD-16567[c]": -1, "RHAMNULOSE-1P[c]": 1, "PROTON[c]": 1, "ADP[c]": 1, "ATP[c]": -1} false ["RHAMNULOKIN-MONOMER"] -"RHAMNULPALDOL-RXN" {"DIHYDROXY-ACETONE-PHOSPHATE[c]": 1, "RHAMNULOSE-1P[c]": -1, "LACTALD[c]": 1} true ["RHAMNULPALDOL-CPLX"] -"RIB5PISOM-RXN" {"RIBOSE-5P[c]": -1, "RIBULOSE-5P[c]": 1} true ["RIB5PISOMA-CPLX", "RIB5PISOMB-CPLX"] -"RIBOFLAVIN-SYN-RXN" {"PROTON[c]": -1, "DIMETHYL-D-RIBITYL-LUMAZINE[c]": -2, "RIBOFLAVIN[c]": 1, "AMINO-RIBOSYLAMINO-1H-3H-PYR-DIONE[c]": 1} false ["CPLX0-3952"] -"RIBOFLAVINKIN-RXN" {"PROTON[c]": 1, "FMN[c]": 1, "ATP[c]": -1, "ADP[c]": 1, "RIBOFLAVIN[c]": -1} false ["RIBF-MONOMER"] -"RIBOFLAVINSYNDEAM-RXN" {"WATER[c]": -1, "PROTON[c]": -1, "DIAMINO-OH-PHOSPHORIBOSYLAMINO-PYR[c]": -1, "CPD-602[c]": 1, "AMMONIUM[c]": 1} false ["CPLX0-7659"] -"RIBOFLAVINSYNREDUC-RXN" {"NADPH[c]": -1, "NADP[c]": 1, "PROTON[c]": -1, "CPD-1086[c]": 1, "CPD-602[c]": -1} false ["CPLX0-7659"] -"RIBOKIN-RXN" {"CPD0-1108[c]": -1, "ATP[c]": -1, "CPD-15317[c]": 1, "ADP[c]": 1, "PROTON[c]": 1} false ["CPLX0-7647"] -"RIBONUCLEOSIDE-DIP-REDUCTI-RXN-Ox-Thioredoxin/CPD0-2231/WATER//Red-Thioredoxin/IDP.52." {"WATER[c]": 1, "Red-Thioredoxin[c]": -1, "Ox-Thioredoxin[c]": 1, "CPD0-2231[c]": 1, "IDP[c]": -1} false ["RIBONUCLEOSIDE-DIP-REDUCTII-CPLX", "RIBONUCLEOSIDE-DIP-REDUCTI-CPLX"] -"RIBONUCLEOSIDE-DIP-REDUCTI-RXN-Ox-Thioredoxin/DADP/WATER//Red-Thioredoxin/ADP.47." {"WATER[c]": 1, "Red-Thioredoxin[c]": -1, "Ox-Thioredoxin[c]": 1, "ADP[c]": -1, "DADP[c]": 1} false ["RIBONUCLEOSIDE-DIP-REDUCTII-CPLX", "RIBONUCLEOSIDE-DIP-REDUCTI-CPLX"] -"RIBONUCLEOSIDE-DIP-REDUCTI-RXN-Ox-Thioredoxin/DCDP/WATER//Red-Thioredoxin/CDP.47." {"WATER[c]": 1, "Red-Thioredoxin[c]": -1, "Ox-Thioredoxin[c]": 1, "CDP[c]": -1, "DCDP[c]": 1} false ["RIBONUCLEOSIDE-DIP-REDUCTII-CPLX", "RIBONUCLEOSIDE-DIP-REDUCTI-CPLX"] -"RIBONUCLEOSIDE-DIP-REDUCTI-RXN-Ox-Thioredoxin/DGDP/WATER//Red-Thioredoxin/GDP.47." {"WATER[c]": 1, "DGDP[c]": 1, "Ox-Thioredoxin[c]": 1, "GDP[c]": -1, "Red-Thioredoxin[c]": -1} false ["RIBONUCLEOSIDE-DIP-REDUCTII-CPLX", "RIBONUCLEOSIDE-DIP-REDUCTI-CPLX"] -"RIBONUCLEOSIDE-DIP-REDUCTI-RXN-Ox-Thioredoxin/DUDP/WATER//Red-Thioredoxin/UDP.47." {"WATER[c]": 1, "Red-Thioredoxin[c]": -1, "UDP[c]": -1, "Ox-Thioredoxin[c]": 1, "DUDP[c]": 1} false ["RIBONUCLEOSIDE-DIP-REDUCTII-CPLX", "RIBONUCLEOSIDE-DIP-REDUCTI-CPLX"] -"RIBONUCLEOSIDE-DIP-REDUCTII-RXN-DCDP/Oxidized-NrdH-Proteins/WATER//CDP/Reduced-NrdH-Proteins.61." {"WATER[c]": 1, "CDP[c]": -1, "Reduced-NrdH-Proteins[c]": -1, "Oxidized-NrdH-Proteins[c]": 1, "DCDP[c]": 1} false ["RIBONUCLEOSIDE-DIP-REDUCTII-CPLX"] -"RIBOPHOSPHAT-RXN" {"WATER[c]": -1, "PI[c]": 1, "CPD-1086[c]": -1, "AMINO-RIBOSYLAMINO-1H-3H-PYR-DIONE[c]": 1} false ["EG11202-MONOMER", "G6442-MONOMER"] -"RIBOSYLHOMOCYSTEINASE-RXN" {"HOMO-CYS[c]": 1, "CPD-564[c]": -1, "DIHYDROXYPENTANEDIONE[c]": 1} false ["EG12712-MONOMER"] -"RIBOSYLNICOTINAMIDE-KINASE-RXN" {"NICOTINAMIDE_RIBOSE[c]": -1, "NICOTINAMIDE_NUCLEOTIDE[c]": 1, "PROTON[c]": 1, "ADP[c]": 1, "ATP[c]": -1} false ["CPLX0-7975"] -"RIBULP3EPIM-RXN" {"XYLULOSE-5-PHOSPHATE[c]": -1, "RIBULOSE-5P[c]": 1} true ["RIBULP3EPIM-MONOMER"] -"RIBULPEPIM-RXN" {"XYLULOSE-5-PHOSPHATE[c]": 1, "L-RIBULOSE-5-P[c]": -1} true ["G7860-MONOMER", "EG12287-MONOMER", "RIBULPEPIM-CPLX"] -"RXN-10015" {"CPD-10773[c]": 1, "DIHYDROXYPENTANEDIONE[c]": -1} false [] -"RXN-10017" {"WATER[c]": -1, "CPD-10773[c]": -1, "CPD-10774[c]": 1} false [] -"RXN-10462-GLYCEROL-3P/Palmitoyl-ACPs//1-PALMITOYLGLYCEROL-3-PHOSPHATE/ACP.64." {"1-PALMITOYLGLYCEROL-3-PHOSPHATE[c]": 1, "GLYCEROL-3P[c]": -1, "ACP[c]": 1, "Palmitoyl-ACPs[c]": -1} false ["GLYCEROL-3-P-ACYLTRANSFER-MONOMER"] -"RXN-10639" {"CPD-448[c]": 1, "GLC-1-P[c]": -1} true [] -"RXN-10654-Cis-Delta5-dodecenoyl-ACPs/MALONYL-ACP/PROTON//3-oxo-cis-D7-tetradecenoyl-ACPs/ACP/CARBON-DIOXIDE.98." {"PROTON[c]": -1, "3-oxo-cis-D7-tetradecenoyl-ACPs[c]": 1, "Cis-Delta5-dodecenoyl-ACPs[c]": -1, "MALONYL-ACP[c]": -1, "CARBON-DIOXIDE[c]": 1, "ACP[c]": 1} false ["FABB-CPLX"] -"RXN-10655-3-hydroxy-cis-D7-tetraecenoyl-ACPs/NADP//3-oxo-cis-D7-tetradecenoyl-ACPs/NADPH/PROTON.86." {"NADPH[c]": -1, "3-oxo-cis-D7-tetradecenoyl-ACPs[c]": -1, "PROTON[c]": -1, "3-hydroxy-cis-D7-tetraecenoyl-ACPs[c]": 1, "NADP[c]": 1} false ["CPLX0-8005"] -"RXN-10656-3-hydroxy-cis-D7-tetraecenoyl-ACPs//Trans-D3-cis-D7-tetradecenoyl-ACPs/WATER.77." {"WATER[c]": 1, "Trans-D3-cis-D7-tetradecenoyl-ACPs[c]": 1, "3-hydroxy-cis-D7-tetraecenoyl-ACPs[c]": -1} false ["FABZ-CPLX"] -"RXN-10657-Cis-Delta7-tetradecenoyl-ACPs/NAD//Trans-D3-cis-D7-tetradecenoyl-ACPs/NADH/PROTON.82." {"Cis-Delta7-tetradecenoyl-ACPs[c]": 1, "NADH[c]": -1, "Trans-D3-cis-D7-tetradecenoyl-ACPs[c]": -1, "PROTON[c]": -1, "NAD[c]": 1} false ["CPLX0-8006"] -"RXN-10658-Cis-Delta7-tetradecenoyl-ACPs/MALONYL-ACP/PROTON//3-oxo-cis-D9-hexadecenoyl-ACPs/ACP/CARBON-DIOXIDE.100." {"PROTON[c]": -1, "Cis-Delta7-tetradecenoyl-ACPs[c]": -1, "3-oxo-cis-D9-hexadecenoyl-ACPs[c]": 1, "CARBON-DIOXIDE[c]": 1, "MALONYL-ACP[c]": -1, "ACP[c]": 1} false ["FABB-CPLX"] -"RXN-10659-3-hydroxy-cis-D9-hexaecenoyl-ACPs/NADP//3-oxo-cis-D9-hexadecenoyl-ACPs/NADPH/PROTON.84." {"NADPH[c]": -1, "3-hydroxy-cis-D9-hexaecenoyl-ACPs[c]": 1, "3-oxo-cis-D9-hexadecenoyl-ACPs[c]": -1, "PROTON[c]": -1, "NADP[c]": 1} false ["CPLX0-8005"] -"RXN-10660-3-hydroxy-cis-D9-hexaecenoyl-ACPs//Trans-D3-cis-D9-hexadecenoyl-ACPs/WATER.75." {"WATER[c]": 1, "3-hydroxy-cis-D9-hexaecenoyl-ACPs[c]": -1, "Trans-D3-cis-D9-hexadecenoyl-ACPs[c]": 1} false ["FABZ-CPLX"] -"RXN-10661-Palmitoleoyl-ACPs/NAD//Trans-D3-cis-D9-hexadecenoyl-ACPs/NADH/PROTON.69." {"NADH[c]": -1, "PROTON[c]": -1, "Trans-D3-cis-D9-hexadecenoyl-ACPs[c]": -1, "Palmitoleoyl-ACPs[c]": 1, "NAD[c]": 1} false ["CPLX0-8006"] -"RXN-10819" {"PHENYLACETATE[c]": -1, "AMP[c]": 1, "CO-A[c]": -1, "PPI[c]": 1, "ATP[c]": -1, "CPD-207[c]": 1} false ["G6719-MONOMER"] -"RXN-10851" {"Donor-H2[c]": -1, "CPD-11763[c]": 1, "CPD-11281[c]": -2, "Acceptor[c]": 1, "HS[c]": 1} true [] -"RXN-10856" {"DIHYDRO-NEO-PTERIN[c]": 1, "CPD-11770[c]": -1} true ["CPLX0-3936"] -"RXN-10981" {"CPD-318[c]": 2, "PROTON[c]": -2, "Acceptor[c]": -1, "ASCORBATE[c]": -2, "Donor-H2[c]": 1} false [] -"RXN-11109" {"WATER[c]": -1, "PI[c]": 1, "PROTON[c]": 1, "ATP[c]": -1, "ADP[c]": 1} false [] -"RXN-11193-D-ALANINE/CPD-9728/WATER//AMMONIUM/PYRUVATE/REDUCED-MENAQUINONE.64." {"D-ALANINE[c]": -1, "CPD-9728[i]": -1, "AMMONIUM[c]": 1, "WATER[c]": -1, "PYRUVATE[c]": 1, "REDUCED-MENAQUINONE[i]": 1} false ["DALADEHYDROG-CPLX"] -"RXN-11193-D-ALANINE/UBIQUINONE-8/WATER//AMMONIUM/PYRUVATE/CPD-9956.57." {"D-ALANINE[c]": -1, "PYRUVATE[c]": 1, "CPD-9956[i]": 1, "AMMONIUM[c]": 1, "WATER[c]": -1, "UBIQUINONE-8[i]": -1} false ["DALADEHYDROG-CPLX"] -"RXN-11193-D-GLT/CPD-9728/WATER//AMMONIUM/2-KETOGLUTARATE/REDUCED-MENAQUINONE.67." {"CPD-9728[i]": -1, "AMMONIUM[c]": 1, "2-KETOGLUTARATE[c]": 1, "D-GLT[c]": -1, "WATER[c]": -1, "REDUCED-MENAQUINONE[i]": 1} false ["DALADEHYDROG-CPLX"] -"RXN-11193-D-GLT/UBIQUINONE-8/WATER//AMMONIUM/2-KETOGLUTARATE/CPD-9956.60." {"CPD-9956[i]": 1, "AMMONIUM[c]": 1, "2-KETOGLUTARATE[c]": 1, "D-GLT[c]": -1, "WATER[c]": -1, "UBIQUINONE-8[i]": -1} false ["DALADEHYDROG-CPLX"] -"RXN-11302" {"CPD-12261[p]": 1, "CPD-12231[p]": -2, "D-ALANINE[p]": 1} false [] -"RXN-11319" {"CH33ADO[c]": 1, "CPD-108[c]": 1, "NADP[c]": 1, "PROTON[c]": 1, "TYR[c]": -1, "S-ADENOSYLMETHIONINE[c]": -1, "MET[c]": 1, "NADPH[c]": -1, "CPD-12279[c]": 1} false ["THIH-MONOMER", "CPLX0-3949"] -"RXN-11326" {"CMP-KDO[c]": 1, "CMP[c]": -1, "PROTON[c]": -1, "CPD-12284[c]": -1, "KDO2-LIPID-IVA[c]": 1} true ["EG11426-MONOMER"] -"RXN-11474-Malonyl-acp-methyl-ester/MALONYL-ACP/PROTON//3-Ketoglutaryl-ACP-methyl-ester/CARBON-DIOXIDE/ACP.96." {"PROTON[c]": -1, "3-Ketoglutaryl-ACP-methyl-ester[c]": 1, "MALONYL-ACP[c]": -1, "CARBON-DIOXIDE[c]": 1, "ACP[c]": 1, "Malonyl-acp-methyl-ester[c]": -1} false [] -"RXN-11475-MALONYL-ACP/S-ADENOSYLMETHIONINE//Malonyl-acp-methyl-ester/ADENOSYL-HOMO-CYS.77." {"MALONYL-ACP[c]": -1, "S-ADENOSYLMETHIONINE[c]": -1, "ADENOSYL-HOMO-CYS[c]": 1, "Malonyl-acp-methyl-ester[c]": 1} false ["EG10119-MONOMER"] -"RXN-11476-3-Hydroxyglutaryl-ACP-methyl-ester/NADP//3-Ketoglutaryl-ACP-methyl-ester/NADPH/PROTON.86." {"NADPH[c]": -1, "3-Hydroxyglutaryl-ACP-methyl-ester[c]": 1, "PROTON[c]": -1, "3-Ketoglutaryl-ACP-methyl-ester[c]": -1, "NADP[c]": 1} false ["CPLX0-8005"] -"RXN-11477-3-Hydroxyglutaryl-ACP-methyl-ester//Enoylglutaryl-ACP-methyl-esters/WATER.74." {"3-Hydroxyglutaryl-ACP-methyl-ester[c]": -1, "WATER[c]": 1, "Enoylglutaryl-ACP-methyl-esters[c]": 1} false ["FABZ-CPLX"] -"RXN-11478-Glutaryl-ACP-methyl-esters/NAD//Enoylglutaryl-ACP-methyl-esters/NADH/PROTON.76." {"NADH[c]": -1, "PROTON[c]": -1, "Glutaryl-ACP-methyl-esters[c]": 1, "Enoylglutaryl-ACP-methyl-esters[c]": -1, "NAD[c]": 1} false ["CPLX0-8006"] -"RXN-11479-Glutaryl-ACP-methyl-esters/MALONYL-ACP/PROTON//3-Ketopimeloyl-ACP-methyl-esters/CARBON-DIOXIDE/ACP.99." {"3-Ketopimeloyl-ACP-methyl-esters[c]": 1, "PROTON[c]": -1, "Glutaryl-ACP-methyl-esters[c]": -1, "MALONYL-ACP[c]": -1, "CARBON-DIOXIDE[c]": 1, "ACP[c]": 1} false ["FABB-CPLX"] -"RXN-11480-3-hydroxypimeloyl-ACP-methyl-esters/NADP//3-Ketopimeloyl-ACP-methyl-esters/NADPH/PROTON.88." {"NADPH[c]": -1, "NADP[c]": 1, "PROTON[c]": -1, "3-Ketopimeloyl-ACP-methyl-esters[c]": -1, "3-hydroxypimeloyl-ACP-methyl-esters[c]": 1} false ["CPLX0-8005"] -"RXN-11481-3-hydroxypimeloyl-ACP-methyl-esters//Enoylpimeloyl-ACP-methyl-esters/WATER.75." {"WATER[c]": 1, "3-hydroxypimeloyl-ACP-methyl-esters[c]": -1, "Enoylpimeloyl-ACP-methyl-esters[c]": 1} false ["FABZ-CPLX"] -"RXN-11482-Pimeloyl-ACP-methyl-esters/NAD//Enoylpimeloyl-ACP-methyl-esters/NADH/PROTON.76." {"NADH[c]": -1, "PROTON[c]": -1, "Pimeloyl-ACP-methyl-esters[c]": 1, "NAD[c]": 1, "Enoylpimeloyl-ACP-methyl-esters[c]": -1} false ["CPLX0-8006"] -"RXN-11483-Pimeloyl-ACP-methyl-esters/WATER//Pimeloyl-ACPs/METOH/PROTON.61." {"WATER[c]": -1, "METOH[c]": 1, "PROTON[c]": 1, "Pimeloyl-ACPs[c]": 1, "Pimeloyl-ACP-methyl-esters[c]": -1} false ["EG10122-MONOMER"] -"RXN-11484-Pimeloyl-ACPs/L-ALPHA-ALANINE/PROTON//8-AMINO-7-OXONONANOATE/CARBON-DIOXIDE/ACP.80." {"8-AMINO-7-OXONONANOATE[c]": 1, "PROTON[c]": -1, "L-ALPHA-ALANINE[c]": -1, "Pimeloyl-ACPs[c]": -1, "CARBON-DIOXIDE[c]": 1, "ACP[c]": 1} false ["7KAPSYN-CPLX"] -"RXN-11496-PYRUVATE/UBIQUINONE-8/WATER//CARBON-DIOXIDE/ACET/CPD-9956.58." {"PYRUVATE[c]": -1, "CPD-9956[i]": 1, "ACET[c]": 1, "WATER[c]": -1, "CARBON-DIOXIDE[c]": 1, "UBIQUINONE-8[i]": -1} false ["PYRUVOXID-CPLX"] -"RXN-11637" {"16S-rRNA-cytidine1402[c]": -1, "PROTON[c]": 1, "S-ADENOSYLMETHIONINE[c]": -1, "16S-rRNA-2-O-methylcytidine1402[c]": 1, "ADENOSYL-HOMO-CYS[c]": 1} false ["G7641-MONOMER"] -"RXN-11791" {"CPD-12773[c]": 1, "UMP[c]": 1, "CPD-12575[c]": -1, "CPD-9646[c]": -1} true ["G7098-MONOMER"] -"RXN-11811" {"PROTON[c]": 1, "AMMONIA[c]": 1, "AMMONIUM[c]": -1} true [] -"RXN-11832" {"CDP[c]": 1, "CMP[c]": -1, "ATP[c]": -1, "ADP[c]": 1} false ["CMPKI-MONOMER"] -"RXN-11839" {"tRNA-uridine55[c]": -1, "tRNA-pseudouridine55[c]": 1} true ["EG11177-MONOMER"] -"RXN-11840" {"tRNA-uridine65[c]": 1, "tRNA-pseudouridine65[c]": -1} true ["G7449-MONOMER"] -"RXN-11841" {"tRNA-pseudouridine13[c]": -1, "tRNA-uridine13[c]": 1} true ["G7422-MONOMER"] -"RXN-12002" {"UDP[c]": 1, "UMP[c]": -1, "ATP[c]": -1, "ADP[c]": 1} false ["UMPKI-CPLX"] -"RXN-12105-25-DIDEHYDRO-D-GLUCONATE/NADH/PROTON//CPD-13059/NAD.52." {"NADH[c]": -1, "PROTON[c]": -1, "25-DIDEHYDRO-D-GLUCONATE[c]": -1, "NAD[c]": 1, "CPD-13059[c]": 1} true [] -"RXN-12105-25-DIDEHYDRO-D-GLUCONATE/NADPH/PROTON//CPD-13059/NADP.54." {"NADPH[c]": -1, "CPD-13059[c]": 1, "PROTON[c]": -1, "25-DIDEHYDRO-D-GLUCONATE[c]": -1, "NADP[c]": 1} true [] -"RXN-12149" {"L-rhamnopyranose[c]": -1, "L-RHAMNOFURANOSE[c]": 1} true [] -"RXN-12195" {"CTP[c]": -1, "WATER[c]": -1, "PROTON[c]": 1, "CDP[c]": 1, "PI[c]": 1} false [] -"RXN-12197" {"WATER[c]": -1, "PI[c]": 1, "UDP[c]": -1, "UMP[c]": 1, "PROTON[c]": 1} false ["EG12298-MONOMER"] -"RXN-12198" {"WATER[c]": -1, "CMP[c]": 1, "PROTON[c]": 1, "CDP[c]": -1, "PI[c]": 1} false ["EG12298-MONOMER"] -"RXN-12274-FORMATE/Oxidized-hydrogenase-3//CARBON-DIOXIDE/Reduced-hydrogenase-3.69." {"CARBON-DIOXIDE[c]": -1, "Reduced-hydrogenase-3[c]": -1, "Oxidized-hydrogenase-3[c]": 1, "FORMATE[c]": 1} true ["FORMATEDEHYDROGH-MONOMER", "FHLMULTI-CPLX"] -"RXN-12275-Reduced-hydrogenase-3/PROTON//Oxidized-hydrogenase-3/HYDROGEN-MOLECULE.71." {"HYDROGEN-MOLECULE[c]": -1, "PROTON[c]": 1, "Reduced-hydrogenase-3[c]": 1, "Oxidized-hydrogenase-3[c]": -1} true ["HYDROG3-CPLX", "FHLMULTI-CPLX"] -"RXN-12440" {"WATER[c]": 2, "ASCORBATE[c]": -1, "PROTON[c]": -1, "L-DEHYDRO-ASCORBATE[c]": 1, "HYDROGEN-PEROXIDE[c]": -1} false [] -"RXN-12444" {"NADPH[c]": -1, "FMNH2[c]": 1, "PROTON[c]": -2, "FMN[c]": -1, "NADP[c]": 1} false ["CPLX0-224", "FMNREDUCT-MONOMER"] -"RXN-12445-CPD-316/NAD//RIBOFLAVIN/NADH/PROTON.36." {"NADH[c]": 1, "PROTON[c]": 2, "NAD[c]": -1, "RIBOFLAVIN[c]": 1, "CPD-316[c]": -1} true ["FMNREDUCT-MONOMER"] -"RXN-12445-CPD-316/NADP//RIBOFLAVIN/NADPH/PROTON.38." {"NADPH[c]": 1, "NADP[c]": -1, "PROTON[c]": 2, "RIBOFLAVIN[c]": 1, "CPD-316[c]": -1} true ["FMNREDUCT-MONOMER"] -"RXN-12458" {"Guanine37-in-tRNA[c]": -1, "PROTON[c]": 1, "S-ADENOSYLMETHIONINE[c]": -1, "ADENOSYL-HOMO-CYS[c]": 1, "tRNA-Containing-N1-Methylguanine-37[c]": 1} false ["CPLX0-3950"] -"RXN-12508" {"THIAMINE-PYROPHOSPHATE[c]": -1, "Pyruvate-dehydrogenase-acetylDHlipoyl[c]": -1, "Pyruvate-dehydrogenase-lipoate[c]": 1, "2-ALPHA-HYDROXYETHYL-THPP[c]": 1} true ["E1P-CPLX", "PYRUVATEDEH-CPLX"] -"RXN-12583" {"THIAMINE-PYROPHOSPHATE[c]": 1, "PROTON[c]": 1, "PYRUVATE[c]": 1, "2-ALPHA-HYDROXYETHYL-THPP[c]": -1, "CARBON-DIOXIDE[c]": -1} true ["E1P-CPLX", "PYRUVATEDEH-CPLX"] -"RXN-12587" {"Unsulfurated-Sulfur-Acceptors[c]": 1, "Cysteine-Desulfurase-L-cysteine[c]": -1, "L-Cysteine-Desulfurase-persulfide[c]": 1, "Sulfurated-Sulfur-Acceptors[c]": -1} true ["CPLX0-246", "CPLX0-248"] -"RXN-12588-CYS/Unsulfurated-Sulfur-Acceptors//L-ALPHA-ALANINE/Sulfurated-Sulfur-Acceptors.79." {"Unsulfurated-Sulfur-Acceptors[c]": -1, "CYS[c]": -1, "L-ALPHA-ALANINE[c]": 1, "Sulfurated-Sulfur-Acceptors[c]": 1} false ["CPLX0-246", "CPLX0-248"] -"RXN-12611" {"THIAMINE-P[c]": 1, "PROTON[c]": -2, "AMINO-HYDROXYMETHYL-METHYLPYRIMIDINE-PP[c]": -1, "PPI[c]": 1, "CPD-13575[c]": -1, "CARBON-DIOXIDE[c]": 1} false ["THIE-MONOMER"] -"RXN-12618" {"GLUTATHIONE[p]": -1, "WATER[p]": -1, "GLT[p]": 1, "CYS-GLY[p]": 1} false ["CPLX0-7885"] -"RXN-12752" {"CPD0-2472[c]": -1, "CPD-653[c]": 1} true ["EG11758-MONOMER"] -"RXN-12753" {"WATER[c]": -1, "NADH[c]": -1, "CPD-653[c]": 1} false [] -"RXN-12754" {"WATER[c]": -1, "NADH[c]": -1, "CPD0-2472[c]": 1} false [] -"RXN-12861" {"CPD-13907[c]": -1, "PROTON[c]": 1, "CPD-334[c]": 1} false [] -"RXN-12862" {"WATER[c]": -1, "CPD-13907[c]": 1, "L-DEHYDRO-ASCORBATE[c]": -1} false [] -"RXN-13039" {"Gcv-H[c]": -1, "PROTEIN-LIPOYLLYSINE[c]": 1, "PROTON[c]": 2, "LIPOYL-AMP[c]": -1, "AMP[c]": 1} true ["EG11796-MONOMER"] -"RXN-13141" {"CPD0-2474[c]": -1, "PI[c]": 1, "ADP[c]": -1, "PROTON[c]": 1, "AMP[c]": 1, "NADPH[c]": 1} false ["EG11758-MONOMER"] -"RXN-13142" {"CPD0-2474[c]": 1, "CPD-14133[c]": -1} true ["EG11758-MONOMER"] -"RXN-13202" {"PI[c]": 1, "ADP[c]": 2, "PROTON[c]": 2, "AMMONIUM[c]": -1, "HCO3[c]": -1, "ATP[c]": -2, "CARBAMOYL-P[c]": 1} false ["CARBPSYN-CPLX"] -"RXN-13329" {"WATER[c]": -1, "GLYOX[c]": 1, "CPD-12279[c]": -1, "PROTON[c]": -1, "AMMONIUM[c]": 1} false [] -"RXN-13418" {"OXYGEN-MOLECULE[c]": -1, "PROTON[c]": 2, "GLYCOLALDEHYDE[c]": 1, "FMN[c]": 1, "CPD-3745[c]": -1, "WATER[c]": 1, "FMNH2[c]": -1, "SO3[c]": 1} false ["CPLX0-225"] -"RXN-13459" {"CPD-14441[c]": 1, "OXOPENTENOATE[c]": -1} true [] -"RXN-13463" {"CPD-14447[c]": -1, "OXOPENTENOATE[c]": 1} true [] -"RXN-1381-PALMITYL-COA/GLYCEROL-3P//1-PALMITOYLGLYCEROL-3-PHOSPHATE/CO-A.63." {"1-PALMITOYLGLYCEROL-3-PHOSPHATE[c]": 1, "CO-A[c]": 1, "GLYCEROL-3P[c]": -1, "PALMITYL-COA[c]": -1} false ["GLYCEROL-3-P-ACYLTRANSFER-MONOMER"] -"RXN-13854" {"NADH[c]": -3, "NAD[c]": 3, "PROTON[c]": -5, "AMMONIUM[c]": 1, "WATER[c]": 2, "NITRITE[c]": -1} false ["NITRITREDUCT-CPLX"] -"RXN-13859" {"WATER[c]": -1, "NIACINAMIDE[c]": 1, "PROTON[c]": 1, "ADENOSINE_DIPHOSPHATE_RIBOSE[c]": 1, "NAD[c]": -1} false ["NADNUCLEOSID-MONOMER"] -"RXN-13990" {"GLYOX[c]": 1, "PYRUVATE[c]": 1, "CPD-15016[c]": -1} true ["KDPGALDOL-4OH2OXOGLUTARALDOL-CPLX"] -"RXN-14014" {"CPD-14443[c]": -1, "PROTON[c]": -1, "NADPH[c]": -1, "NADP[c]": 1, "WATER[c]": 1, "DELTA1-PIPERIDEINE-2-6-DICARBOXYLATE[c]": 1} false ["DIHYDROPICRED-CPLX"] -"RXN-14025[CCO-CYTOSOL]-UMP/WATER//URIDINE/Pi.35." {"WATER[c]": -1, "URIDINE[c]": 1, "UMP[c]": -1, "PI[c]": 1} false ["ALKAPHOSPHA-CPLX", "EG10634-MONOMER", "EG12115-MONOMER", "EG11817-MONOMER"] -"RXN-14026[CCO-CYTOSOL]-CMP/WATER//CYTIDINE/Pi.36." {"WATER[c]": -1, "CMP[c]": -1, "CYTIDINE[c]": 1, "PI[c]": 1} false ["ALKAPHOSPHA-CPLX", "EG10634-MONOMER", "EG12115-MONOMER", "EG11817-MONOMER"] -"RXN-14073" {"WATER[c]": -1, "GLYCEROL-3P[c]": 1, "PROTON[c]": 1, "GLYCEROL[c]": 1, "GLYCEROPHOSPHOGLYCEROL[c]": -1} false ["GLYCPDIESTER-PERI-CPLX", "GLYCPDIESTER-CYTO-MONOMER"] -"RXN-14074" {"GTP[c]": -1, "GDP[c]": 1, "ADP[c]": 1, "AMP[c]": -1} false ["ADENYL-KIN-MONOMER"] -"RXN-14116" {"NADH[c]": 1, "NAD[c]": -1, "GLT[c]": 1, "PROTON[c]": 2, "L-GLUTAMATE_GAMMA-SEMIALDEHYDE[c]": -1, "WATER[c]": -1} false ["PUTA-CPLX", "PUTA-CPLXBND"] -"RXN-14136" {"WATER[c]": -1, "GLYCEROL-3P[c]": 1, "PROTON[c]": 1, "SER[c]": 1, "CPD0-2030[c]": -1} false ["GLYCPDIESTER-CYTO-MONOMER"] -"RXN-14139" {"WATER[c]": -1, "PROTON[c]": 1, "UTP[c]": -1, "UMP[c]": 1, "PPI[c]": 1} false ["CPLX0-8106", "CPLX0-7692"] -"RXN-14142[CCO-CYTOSOL]-DGMP/WATER//DEOXYGUANOSINE/Pi.43." {"WATER[c]": -1, "DGMP[c]": -1, "DEOXYGUANOSINE[c]": 1, "PI[c]": 1} false ["EG11817-MONOMER", "G7230-MONOMER", "CPLX0-7625"] -"RXN-14142[CCO-PERI-BAC]-DGMP/WATER//DEOXYGUANOSINE/Pi.44." {"PI[p]": 1, "WATER[p]": -1, "DEOXYGUANOSINE[p]": 1, "DGMP[p]": -1} false ["ALKAPHOSPHA-CPLX", "APHA-CPLX", "USHA-MONOMER"] -"RXN-14143" {"WATER[c]": -1, "DEOXYURIDINE[c]": 1, "DUMP[c]": -1, "PI[c]": 1} false ["G7230-MONOMER", "CPLX0-7625"] -"RXN-14160" {"WATER[c]": -1, "GLYCEROL-3P[c]": 1, "PROTON[c]": 1, "L-1-GLYCEROPHOSPHORYLETHANOL-AMINE[c]": -1, "ETHANOL-AMINE[c]": 1} false ["GLYCPDIESTER-CYTO-MONOMER"] -"RXN-14161[CCO-CYTOSOL]-DAMP/WATER//DEOXYADENOSINE/Pi.43." {"WATER[c]": -1, "DEOXYADENOSINE[c]": 1, "DAMP[c]": -1, "PI[c]": 1} false ["G7230-MONOMER", "CPLX0-7625"] -"RXN-14260" {"MALTOTETRAOSE[c]": 1, "Glucopyranose[c]": -1, "MALTOPENTAOSE[c]": -1, "MALTOSE[c]": 1} true ["AMYLOMALT-MONOMER"] -"RXN-14261" {"MALTOHEXAOSE[c]": -1, "GLC[c]": -1, "MALTOSE[c]": 1, "MALTOPENTAOSE[c]": 1} true ["AMYLOMALT-MONOMER"] -"RXN-14281" {"WATER[c]": -1, "MALTOTETRAOSE[c]": 1, "ALPHA-GLUCOSE[c]": 1, "MALTOPENTAOSE[c]": -1} false ["MALTODEXGLUCOSID-MONOMER"] -"RXN-14282" {"WATER[c]": -1, "ALPHA-GLUCOSE[c]": 1, "MALTOHEXAOSE[c]": -1, "MALTOPENTAOSE[c]": 1} false ["MALTODEXGLUCOSID-MONOMER"] -"RXN-14283" {"WATER[c]": -1, "CPD0-1133[c]": -1, "ALPHA-GLUCOSE[c]": 1, "MALTOHEXAOSE[c]": 1} false ["MALTODEXGLUCOSID-MONOMER"] -"RXN-14284" {"MALTOTETRAOSE[c]": 1, "GLC-1-P[c]": 1, "MALTOPENTAOSE[c]": -1, "PI[c]": -1} true ["MALDEXPHOSPHORYL-CPLX"] -"RXN-14285" {"PI[c]": 1, "GLC-1-P[c]": -1, "MALTOHEXAOSE[c]": 1, "MALTOPENTAOSE[c]": -1} true ["MALDEXPHOSPHORYL-CPLX"] -"RXN-14286" {"CPD0-1133[c]": -1, "GLC-1-P[c]": 1, "MALTOHEXAOSE[c]": 1, "PI[c]": -1} true ["MALDEXPHOSPHORYL-CPLX"] -"RXN-14325" {"CTP[c]": 1, "PI[c]": 1, "ADP[c]": 1, "PROTON[c]": 2, "AMMONIUM[c]": -1, "ATP[c]": -1, "UTP[c]": -1} false ["CTPSYN-CPLX"] -"RXN-14382" {"Cysteine-Desulfurase-L-cysteine[c]": 1, "L-Cysteine-Desulfurase-persulfide[c]": -1, "Sulfur-Carrier-Proteins-ThiI[c]": -1, "Sulfurylated-ThiI[c]": 1} false ["CPLX0-248"] -"RXN-14473-GMP/WATER//GUANOSINE/Pi.24." {"GMP[p]": -1, "PI[p]": 1, "WATER[p]": -1, "GUANOSINE[p]": 1} false ["APHA-CPLX"] -"RXN-14473-IMP/WATER//INOSINE/Pi.22." {"PI[p]": 1, "WATER[p]": -1, "IMP[p]": -1, "INOSINE[p]": 1} false ["APHA-CPLX"] -"RXN-14393" {"NADH[c]": -1, "PROTON[c]": -1, "CPD0-1163[c]": 1, "NAD[c]": 1, "CPD-15244[c]": -1} true ["FADB-CPLX", "FAO-CPLX", "CPLX0-1666", "CPLX0-1668"] -"RXN-14394" {"CO-A[c]": 1, "ACETYL-COA[c]": -1, "CPD-7221[c]": -1, "CPD-15244[c]": 1} true ["CPLX0-1667", "CPLX0-1668", "FADA-CPLX", "FAO-CPLX"] -"RXN-14477" {"WATER[c]": -1, "PROTON[c]": 1, "ENTEROBACTIN[c]": -1, "CPD0-2483[c]": 1} false ["EG10299-MONOMER"] -"RXN-14478" {"N-23-DIHYDROXYBENZOYL-L-SERINE[c]": 1, "WATER[c]": -1, "PROTON[c]": 1, "CPD-15358[c]": 1, "CPD0-2483[c]": -1} false ["EG10299-MONOMER"] -"RXN-14479" {"WATER[c]": -1, "N-23-DIHYDROXYBENZOYL-L-SERINE[c]": 2, "PROTON[c]": 1, "CPD-15358[c]": -1} false ["EG10299-MONOMER"] -"RXN-14480" {"CH33ADO[c]": 1, "Donor-H2[c]": -1, "Unsulfurated-Sulfur-Acceptors[c]": 1, "PROTON[c]": 1, "CPD-15360[c]": 1, "S-ADENOSYLMETHIONINE[c]": -1, "MET[c]": 1, "Acceptor[c]": 1, "6-Dimethylallyladenosine37-tRNAs[c]": -1, "Sulfurated-Sulfur-Acceptors[c]": -1} true ["G6364-MONOMER"] -"RXN-14483-CPD-16502/WATER//CPD-16501/Pi.30." {"WATER[c]": 1, "PI[c]": -1, "CPD-16501[c]": -1, "CPD-16502[c]": 1} true [] -"RXN-14497" {"CPD0-1564[c]": 1, "GLUTATHIONE[c]": 2, "OXIDIZED-GLUTATHIONE[c]": -1, "D-CYSTEINE[c]": -2} true [] -"RXN-14498-Red-Thioredoxin/CYSTINE//Ox-Thioredoxin/CYS.44." {"Red-Thioredoxin[c]": -1, "Ox-Thioredoxin[c]": 1, "CYS[c]": 2, "CYSTINE[c]": -1} false [] -"RXN-14499-Red-Thioredoxin/CPD0-1564//Ox-Thioredoxin/D-CYSTEINE.53." {"Red-Thioredoxin[c]": -1, "CPD0-1564[c]": -1, "Ox-Thioredoxin[c]": 1, "D-CYSTEINE[c]": 2} false [] -"RXN-14500" {"CPD-15373[c]": -1, "D-mannopyranose[c]": 1} false [] -"RXN-14503" {"D-Xylopyranose[c]": 1, "CPD-15377[c]": -1} true [] -"RXN-14515" {"CPD-15382[c]": -1, "BETA-D-FRUCTOSE[c]": 1} false [] -"RXN-14552" {"PI[c]": 1, "CARBAMOYL-P[c]": -1, "PPI[c]": 1, "CPD-15424[c]": 1, "ATP[c]": -1, "WATER[c]": -1} true ["EG11551-MONOMER"] -"RXN-14693" {"D-Glucopyranuronate[c]": 1, "CPD-15530[c]": -1} true [] -"RXN-14747" {"D-Allopyranose[c]": 1, "CPD-15629[c]": -1} true [] -"RXN-14753-CPD-12523//CPD-15633.21." {"CPD-15633[c]": 1, "CPD-12523[c]": -1} true [] -"RXN-14807" {"D-arabinofuranose[c]": 1, "D-arabinopyranose[c]": -1} true [] -"RXN-14808-CPD-15699//ARABINOSE.21." {"CPD-15699[c]": -1, "ARABINOSE[c]": 1} true [] -"RXN-14809-CPD-12045//ARABINOSE.21." {"CPD-12045[c]": -1, "ARABINOSE[c]": 1} true [] -"RXN-14810" {"TAGATOSE[c]": -1, "D-tagatofuranose[c]": 1} true [] -"RXN-14811" {"CPD-15616[c]": -1, "CPD-9569[c]": 1} true [] -"RXN-14812" {"CPD-15709[c]": 1, "FRUCTOSE-6P[c]": -1} true [] -"RXN-14813" {"CPD-15619[c]": -1, "L-Fucopyranoses[c]": 1} true [] -"RXN-14815" {"MANNOSE-6P[c]": -1, "CPD-15711[c]": 1} true [] -"RXN-14850" {"D-altropyranoses[c]": -1, "ALTROSE[c]": 1} true [] -"RXN-14882" {"CPD0-1108[c]": 1, "CPD-15818[c]": -1} true [] -"RXN-14883-CPD-15818//CPD0-1110.21." {"CPD0-1110[c]": -1, "CPD-15818[c]": 1} true [] -"RXN-14904" {"CPD-10330[c]": -1, "CPD0-1108[c]": 1} true [] -"RXN-14992" {"Release-factor-L-glutamine[c]": -1, "PROTON[c]": 1, "S-ADENOSYLMETHIONINE[c]": -1, "ADENOSYL-HOMO-CYS[c]": 1, "Release-factor-N5-Methyl-L-glutamine[c]": 1} false ["EG12424-MONOMER"] -"RXN-15121" {"CPD-15056[c]": -1, "CPD-16013[c]": 1} false [] -"RXN-15122" {"WATER[c]": 1, "CPD-15056[c]": 1, "THR[c]": -1, "PROTON[c]": 1} false ["THREDEHYDSYN-CPLX", "THREDEHYDCAT-CPLX"] -"RXN-15123" {"WATER[c]": -1, "CPD-16013[c]": -1, "2-OXOBUTANOATE[c]": 1, "PROTON[c]": -1, "AMMONIUM[c]": 1} false [] -"RXN-15124" {"CPD-16015[c]": 1, "2-AMINOACRYLATE[c]": -1} false [] -"RXN-15125" {"WATER[c]": 1, "PROTON[c]": 1, "SER[c]": -1, "2-AMINOACRYLATE[c]": 1} false ["LSERINEDEAM2-MONOMER", "THREDEHYDCAT-CPLX", "LSERINEDEAM1-MONOMER", "CPLX0-7622"] -"RXN-15127" {"WATER[c]": -1, "CPD-16015[c]": -1, "PROTON[c]": -1, "PYRUVATE[c]": 1, "AMMONIUM[c]": 1} false [] -"RXN-15129" {"PROTON[c]": 1, "CYS[c]": -1, "2-AMINOACRYLATE[c]": 1, "HS[c]": 1} false ["CYSTATHIONINE-BETA-LYASE-CPLX", "ACSERLYA-CPLX", "ACSERLYB-CPLX", "CPLX0-8092", "TRYPTOPHAN-CPLX"] -"RXN-15131" {"HOMO-CYS[c]": 1, "PROTON[c]": 1, "2-AMINOACRYLATE[c]": 1, "L-CYSTATHIONINE[c]": -1} false ["CYSTATHIONINE-BETA-LYASE-CPLX", "CPLX0-8092"] -"RXN-15147" {"SUC[c]": 1, "CPD-15056[c]": 1, "O-SUCCINYL-L-HOMOSERINE[c]": -1, "PROTON[c]": 2} false ["O-SUCCHOMOSERLYASE-CPLX"] -"RXN-15216" {"CPD0-2467[c]": 1, "CPD-10551[c]": -1} false ["G6805-MONOMER"] -"RXN-15297" {"PROTON[c]": 1, "CPD-16502[c]": 1, "ADP[c]": 1, "CPD-16501[c]": -1, "ATP[c]": -1} false ["EG11848-MONOMER"] -"RXN-15312" {"WATER[c]": -1, "PI[c]": 1, "ALPHA-GLUCOSE[c]": 1, "ALPHA-GLC-6-P[c]": -1} false ["EG11470-MONOMER", "EG11195-MONOMER", "G7187-MONOMER", "G6425-MONOMER"] -"RXN-15313" {"CPD0-1123[c]": 1, "N-ACETYL-D-MANNOSAMINE[c]": -1, "PYRUVATE[c]": -1} true ["ACNEULY-CPLX"] -"RXN-15314" {"CPD0-1123[c]": 1, "CPD0-1123[p]": -1, "PROTON[c]": 1, "PROTON[p]": -1} false ["NANT-MONOMER"] -"RXN-15315" {"CPD0-1123[p]": 1, "CPD0-1123[e]": -1} false ["G7921-MONOMER", "CPLX0-7534", "CPLX0-2221", "CPLX0-7533", "CPLX0-7530"] -"RXN-15346" {"CPD-15317[c]": -1, "RIBOSE-5P[c]": 1} false [] -"RXN-15348" {"HS[c]": -1, "CPD-11281[c]": 1, "GLUTATHIONE[c]": 1, "OXIDIZED-GLUTATHIONE[c]": -1} false [] -"RXN-15356" {"CPD-16566[c]": -1, "CPD-16567[c]": 1} false [] -"RXN-15510" {"2-PG[c]": 1, "Protein-Histidines[c]": -1, "Protein-pi-phospho-L-histidines[c]": 1, "23-DIPHOSPHOGLYCERATE[c]": -1} true ["PHOSGLYCMUTASE"] -"RXN-15511" {"Protein-Histidines[c]": -1, "23-DIPHOSPHOGLYCERATE[c]": -1, "Protein-pi-phospho-L-histidines[c]": 1, "G3P[c]": 1} true ["PHOSGLYCMUTASE"] -"RXN-15513" {"2-PG[c]": -1, "G3P[c]": 1} true ["PHOSGLYCMUTASE"] -"RXN-15578" {"PROTON[c]": 1, "INDOLE[c]": 1, "2-AMINOACRYLATE[c]": 1, "TRP[c]": -1} false ["TRYPTOPHAN-CPLX"] -"RXN-15581" {"WATER[c]": 1, "PROTON[c]": 1, "2-AMINOACRYLATE[c]": 1, "D-SERINE[c]": -1} false ["DSERDEAM-MONOMER"] -"RXN-15607" {"NADH[c]": -1, "PROTON[c]": -1, "11-DEOXYCORTICOSTERONE[c]": -1, "NAD[c]": 1, "CPD-16843[c]": 1} true ["KDUD-MONOMER"] -"RXN-15740-GLYCEROL-3P/CPD-9728//DIHYDROXY-ACETONE-PHOSPHATE/REDUCED-MENAQUINONE.70." {"DIHYDROXY-ACETONE-PHOSPHATE[c]": 1, "GLYCEROL-3P[c]": -1, "CPD-9728[i]": -1, "REDUCED-MENAQUINONE[i]": 1} false ["ANGLYC3PDEHYDROG-CPLX"] -"RXN-15743" {"NADPH[c]": 1, "NADP[c]": -1, "PROTON[c]": 1, "CPD-8891[c]": -1, "CPD-358[c]": 1} true ["CPLX0-7667", "G6190-MONOMER", "EG11436-MONOMER", "G6269-MONOMER"] -"RXN-15744" {"NADPH[c]": 1, "NADP[c]": -1, "PROTON[c]": 1, "LACTALD[c]": 1, "PROPANE-1-2-DIOL[c]": -1} true ["CPLX0-7667", "G6190-MONOMER", "EG11436-MONOMER", "G6269-MONOMER"] -"RXN-15878-HYDROXY-METHYL-BUTENYL-DIP/Oxidized-flavodoxins/WATER/PROTON//2C-METH-D-ERYTHRITOL-CYCLODIPHOSPHATE/Reduced-flavodoxins.120." {"HYDROXY-METHYL-BUTENYL-DIP[c]": 1, "PROTON[c]": 1, "2C-METH-D-ERYTHRITOL-CYCLODIPHOSPHATE[c]": -1, "WATER[c]": 1, "Oxidized-flavodoxins[c]": 1, "Reduced-flavodoxins[c]": -1} false ["EG10370-MONOMER"] -"RXN-15881-L-Cysteine-Desulfurases/CYS//Persulfurated-L-cysteine-desulfurases/L-ALPHA-ALANINE.83." {"Persulfurated-L-cysteine-desulfurases[c]": 1, "CYS[c]": -1, "L-Cysteine-Desulfurases[c]": -1, "L-ALPHA-ALANINE[c]": 1} true ["CPLX0-248"] -"RXN-15890-Holo-EntF/SERYL-AMP//Seryl-EntF/AMP/PROTON.43." {"Holo-EntF[c]": -1, "PROTON[c]": 1, "AMP[c]": 1, "Seryl-EntF[c]": 1, "SERYL-AMP[c]": -1} false ["ENTF-PANT", "ENTMULTI-CPLX"] -"RXN-15891-23DHB-EntB/Seryl-EntF//Holo-EntB/DHB-Seryl-EntF/PROTON.55." {"DHB-Seryl-EntF[c]": 1, "Seryl-EntF[c]": -1, "PROTON[c]": 1, "23DHB-EntB[c]": -1, "Holo-EntB[c]": 1} false ["ENTF-PANT", "ENTMULTI-CPLX"] -"RXN-15915-CPD-15424/HypE-Proteins//HypE-S-carboxamide/AMP.48." {"HypE-Proteins[c]": -1, "CPD-15424[c]": -1, "HypE-S-carboxamide[c]": 1, "AMP[c]": 1} true ["EG11551-MONOMER"] -"RXN-15943" {"DIHYDROXY-ACETONE-PHOSPHATE[c]": 1, "CO-A[c]": -1, "ACETYL-COA[c]": 1, "CPD0-2467[c]": -1} false ["CPLX0-7820"] -"RXN-16000" {"NADPH[c]": -1, "NADP[c]": 1, "AMINO-OXOBUT[c]": -1, "L-ALLO-THREONINE[c]": 1, "PROTON[c]": -1} true ["CPLX0-1962"] -"RXN-16001" {"NADPH[c]": 1, "NADP[c]": -1, "CARBON-DIOXIDE[c]": 1, "L-ALLO-THREONINE[c]": -1, "AMINO-ACETONE[c]": 1} true ["CPLX0-1962"] -"RXN-16002" {"CPD-1772[c]": 1, "PROTON[c]": -1, "2-AMINOMALONATE-SEMIALDEHYDE[c]": -1, "CARBON-DIOXIDE[c]": 1} false [] -"RXN-16165-Initiation-tRNAmet/MET/ATP/PROTON//L-methionyl-tRNAfmet/AMP/PPI.64." {"L-methionyl-tRNAfmet[c]": -1, "Initiation-tRNAmet[c]": 1, "PROTON[c]": 1, "AMP[c]": -1, "PPI[c]": -1, "ATP[c]": 1, "MET[c]": 1} true ["METG-CPLX"] -"RXN-16225" {"L-1-GLYCERO-PHOSPHORYLCHOLINE[c]": 1, "WATER[c]": -1, "PROTON[c]": 1, "Carboxylates[c]": 1, "2-Acylglycero-Phosphocholines[c]": -1} true ["EG10739-MONOMER"] -"RXN-16281" {"KDO2-LIPID-A[c]": 1, "UNDECAPRENYL-DIPHOSPHATE[c]": 1, "CPD-9646[c]": -1, "CPD-17530[c]": -1} true ["G7146-MONOMER"] -"RXN-16286" {"CPD-11653[c]": -1, "L-1-PHOSPHATIDYL-ETHANOLAMINE[c]": 1, "KDO2-LIPID-A[c]": 1, "DIACYLGLYCEROL[c]": -1} true ["EG12267-MONOMER"] -"RXN-1961" {"Cytidine-34-tRNAIle2[c]": -1, "LYS[c]": -1, "PROTON[c]": 2, "Lysidine-tRNA-Ile2[c]": 1, "AMP[c]": 1, "PPI[c]": 1, "ATP[c]": -1} false ["G6096-MONOMER"] -"RXN-2881-FORMALDEHYDE/CPD-1301//CPD-12996/WATER.39." {"WATER[c]": 1, "FORMALDEHYDE[c]": -1, "CPD-12996[c]": 1, "CPD-1301[c]": -1} false [] -"RXN-2881-FORMALDEHYDE/THF//METHYLENE-THF/WATER.38." {"WATER[c]": 1, "METHYLENE-THF[c]": 1, "FORMALDEHYDE[c]": -1, "THF[c]": -1} false [] -"RXN-2961" {"S-HYDROXYMETHYLGLUTATHIONE[c]": 1, "FORMALDEHYDE[c]": -1, "GLUTATHIONE[c]": -1} true [] -"RXN-2962-S-HYDROXYMETHYLGLUTATHIONE/NAD//CPD-548/NADH/PROTON.52." {"NADH[c]": -1, "PROTON[c]": -1, "S-HYDROXYMETHYLGLUTATHIONE[c]": 1, "CPD-548[c]": -1, "NAD[c]": 1} true ["ADHC-CPLX"] -"RXN-2962-S-HYDROXYMETHYLGLUTATHIONE/NADP//CPD-548/NADPH/PROTON.54." {"NADPH[c]": 1, "NADP[c]": -1, "PROTON[c]": 1, "S-HYDROXYMETHYLGLUTATHIONE[c]": -1, "CPD-548[c]": 1} true ["ADHC-CPLX"] -"RXN-3521" {"WATER[c]": 2, "CPD-318[c]": 2, "PROTON[c]": -2, "HYDROGEN-PEROXIDE[c]": -1, "ASCORBATE[c]": -2} false [] -"RXN-3523" {"CPD-318[c]": -2, "PROTON[c]": 1, "L-DEHYDRO-ASCORBATE[c]": 1, "ASCORBATE[c]": 1} false [] -"RXN-3641" {"SUC-COA[c]": 1, "CO-A[c]": -1, "ACETYL-COA[c]": 1, "3-KETO-ADIPYL-COA[c]": -1} false ["G6718-MONOMER"] -"RXN-4821" {"WATER[c]": -1, "L-ALPHA-AMINO-EPSILON-KETO-PIMELATE[c]": 1, "PROTON[c]": -1, "DELTA1-PIPERIDEINE-2-6-DICARBOXYLATE[c]": -1} true [] -"RXN-5076" {"PROTON[c]": 1, "XANTHINE[c]": 1, "XANTHINE[p]": -1, "PROTON[p]": -1} false ["YGFU-MONOMER", "YGFO-MONOMER", "YICE-MONOMER"] -"RXN-5741-CPD-195/ACP/ATP//Octanoyl-ACPs/AMP/PPI.39." {"AMP[c]": 1, "CPD-195[c]": -1, "PPI[c]": 1, "ATP[c]": -1, "Octanoyl-ACPs[c]": 1, "ACP[c]": -1} false ["AAS-MONOMER"] -"RXN-5822[CCO-CYTOSOL]-NADP/WATER//NAD/Pi.32." {"WATER[c]": -1, "PI[c]": 1, "NAD[c]": 1, "NADP[c]": -1} false ["NADPPHOSPHAT-MONOMER"] -"RXN-5822[CCO-PERI-BAC]-NADP/WATER//NAD/Pi.33." {"PI[p]": 1, "WATER[p]": -1, "NADP[p]": -1, "NAD[p]": 1} false ["ALKAPHOSPHA-CPLX"] -"RXN-5841" {"WATER[c]": -1, "PI[c]": 1, "NICOTINAMIDE_RIBOSE[c]": 1, "NICOTINAMIDE_NUCLEOTIDE[c]": -1} false [] -"RXN-6268" {"WATER[c]": -1, "BETAINE-ALDEHYDE-HYDRATE[c]": 1, "BETAINE_ALDEHYDE[c]": -1} true [] -"RXN-6321-5-10-METHENYL-THF/WATER//5-FORMYL-THF/PROTON.45." {"WATER[c]": 1, "PROTON[c]": -1, "5-FORMYL-THF[c]": -1, "5-10-METHENYL-THF[c]": 1} true ["GLYOHMETRANS-CPLX"] -"RXN-6423" {"WATER[c]": 1, "CPD-6124[c]": 1, "4-AMINO-BUTYRALDEHYDE[c]": -1} true [] -"RXN-6622" {"WATER[c]": -1, "GLY[c]": 1, "CYS[c]": 1, "CYS-GLY[c]": -1} false ["EG10696-MONOMER", "CPLX0-8122", "CPLX0-3061", "CPLX0-3001"] -"RXN-7101-BCCP-biotin-monomers//BCCP-dimers.34." {"BCCP-biotin-monomers[c]": -2, "BCCP-dimers[c]": 1} false [] -"RXN-7282" {"CPD-6761[c]": 1, "OXOPENTENOATE[c]": -1} true [] -"RXN-7607[CCO-CYTOSOL]-IMP/WATER//INOSINE/Pi.35." {"WATER[c]": -1, "PI[c]": 1, "INOSINE[c]": 1, "IMP[c]": -1} false ["G7742-MONOMER", "EG10634-MONOMER"] -"RXN-7607[CCO-PERI-BAC]-IMP/WATER//INOSINE/Pi.36." {"PI[p]": 1, "WATER[p]": -1, "IMP[p]": -1, "INOSINE[p]": 1} false ["ALKAPHOSPHA-CPLX", "APHA-CPLX"] -"RXN-7609[CCO-CYTOSOL]-GMP/WATER//GUANOSINE/Pi.37." {"WATER[c]": -1, "PI[c]": 1, "GUANOSINE[c]": 1, "GMP[c]": -1} false ["G7742-MONOMER", "EG10634-MONOMER", "EG11817-MONOMER"] -"RXN-7609[CCO-PERI-BAC]-GMP/WATER//GUANOSINE/Pi.38." {"GMP[p]": -1, "PI[p]": 1, "WATER[p]": -1, "GUANOSINE[p]": 1} false ["G7742-MONOMER", "APHA-CPLX"] -"RXN-7682" {"NADH[c]": 1, "NAD[c]": -1, "PROTON[c]": 1, "XANTHINE[c]": 1, "WATER[c]": -1, "HYPOXANTHINE[c]": -1} false ["CPLX0-761"] -"RXN-7716" {"NADH[c]": 1, "PROTON[c]": 1, "Oxo-glutarate-dehydrogenase-DH-lipoyl[c]": -1, "Oxo-glutarate-dehydrogenase-lipoyl[c]": 1, "NAD[c]": -1} false ["2OXOGLUTARATEDEH-CPLX", "E3-CPLX", "PYRUVATEDEH-CPLX"] -"RXN-7800" {"PROTON[c]": -1, "CARBON-DIOXIDE[c]": 1, "CPD-7100[c]": -1, "2K-4CH3-PENTANOATE[c]": 1} false [] -"RXN-7913" {"DCMP[c]": -1, "DCDP[c]": 1, "ADP[c]": 1, "ATP[c]": -1} false ["CMPKI-MONOMER"] -"RXN-7931" {"CPD-7221[c]": -1, "CPD-7222[c]": 1} true ["CPLX0-1666", "CPLX0-1668", "FADB-CPLX", "FAO-CPLX"] -"RXN-7967-QUINATE/NAD//DEHYDROQUINATE/NADH/PROTON.40." {"NADH[c]": -1, "QUINATE[c]": 1, "DEHYDROQUINATE[c]": -1, "PROTON[c]": -1, "NAD[c]": 1} true ["CPLX0-7462"] -"RXN-7967-QUINATE/NADP//DEHYDROQUINATE/NADPH/PROTON.42." {"NADPH[c]": -1, "NADP[c]": 1, "QUINATE[c]": 1, "DEHYDROQUINATE[c]": -1, "PROTON[c]": -1} true ["CPLX0-7462"] -"RXN-7968-SHIKIMATE/NAD//3-DEHYDRO-SHIKIMATE/NADH/PROTON.47." {"3-DEHYDRO-SHIKIMATE[c]": -1, "NADH[c]": -1, "PROTON[c]": -1, "SHIKIMATE[c]": 1, "NAD[c]": 1} false ["CPLX0-7462"] -"RXN-7968-SHIKIMATE/NADP//3-DEHYDRO-SHIKIMATE/NADPH/PROTON.49." {"NADPH[c]": -1, "3-DEHYDRO-SHIKIMATE[c]": -1, "PROTON[c]": -1, "SHIKIMATE[c]": 1, "NADP[c]": 1} false ["CPLX0-7462"] -"RXN-8073" {"Heme-b[c]": 1, "HEME_D[c]": -1, "HYDROGEN-PEROXIDE[c]": 1} true ["HYDROPEROXIDII-CPLX"] -"RXN-8315" {"SO3[c]": 1, "HSO3[c]": -1, "PROTON[c]": 1} true [] -"RXN-8447" {"1-AMINO-PROPAN-2-ONE-3-PHOSPHATE[c]": 1, "PROTON[c]": -1, "CARBON-DIOXIDE[c]": 1, "2-AMINO-3-OXO-4-PHOSPHONOOXYBUTYRATE[c]": -1} false [] -"RXN-8629" {"DIHYDROLIPOYL-GCVH[c]": 1, "PROTON[c]": -1, "PROTEIN-LIPOYLLYSINE[c]": -1, "NAD[c]": 1, "NADH[c]": -1} true ["GCVMULTI-CPLX", "E3-CPLX", "2OXOGLUTARATEDEH-CPLX", "PYRUVATEDEH-CPLX"] -"RXN-8632" {"NADH[c]": -1, "PROTON[c]": -1, "ACETOL[c]": -1, "NAD[c]": 1, "PROPANE-1-2-DIOL[c]": 1} true ["GLYCDEH-CPLX"] -"RXN-8642" {"OXALO-SUCCINATE[c]": -1, "PROTON[c]": -1, "CARBON-DIOXIDE[c]": 1, "2-KETOGLUTARATE[c]": 1} true ["ISOCITHASE-CPLX"] -"RXN-8645-CPD-381/NAD//2-KETOGLUTARATE/NADH/PROTON.41." {"NADH[c]": 1, "PROTON[c]": 1, "CPD-381[c]": -1, "2-KETOGLUTARATE[c]": 1, "NAD[c]": -1} true [] -"RXN-8667" {"WATER[c]": 2, "Donor-H2[c]": -1, "HYDROGEN-PEROXIDE[c]": -1, "Acceptor[c]": 1} false ["HYDROPEROXIDI-CPLX"] -"RXN-8668" {"WATER[c]": 1, "Red-Thioredoxin[c]": -1, "Ox-Thioredoxin[c]": 1, "Protein-L-Methionine-S-Oxides[c]": -1, "Protein-L-methionine[c]": 1} false ["EG11433-MONOMER"] -"RXN-8675" {"DIHYDROSIROHYDROCHLORIN[c]": 1, "ADENOSYL-HOMO-CYS[c]": 1, "S-ADENOSYLMETHIONINE[c]": -1, "CPD-9038[c]": -1} false ["SIROHEMESYN-CPLX"] -"RXN-8899" {"WATER[c]": -1, "PROTON[c]": -1, "PYRUVATE[c]": 1, "2-AMINOACRYLATE[c]": -1, "AMMONIUM[c]": 1} false [] -"RXN-8991" {"WATER[c]": -1, "CPD-9451[c]": -1, "2-D-THREO-HYDROXY-3-CARBOXY-ISOCAPROATE[c]": 1} false ["3-ISOPROPYLMALISOM-CPLX"] -"RXN-8992" {"OCTAPRENYL-DIPHOSPHATE[c]": 1, "PPI[c]": 5, "DELTA3-ISOPENTENYL-PP[c]": -5, "FARNESYL-PP[c]": -1} false ["CPLX0-7426"] -"RXN-8999" {"UNDECAPRENYL-DIPHOSPHATE[c]": 1, "DELTA3-ISOPENTENYL-PP[c]": -8, "PPI[c]": 8, "FARNESYL-PP[c]": -1} true ["UPPSYN-CPLX"] -"RXN-9087" {"NADPH[c]": 1, "NADP[c]": -1, "PROTON[c]": 1, "PROPIONYL-COA[c]": -1, "ACRYLYL-COA[c]": 1} true ["CPLX0-8121"] -"RXN-9310" {"CPD-9924[c]": -1, "PYRUVATE[c]": 1, "CPD-9923[c]": 1} false ["EG12438-MONOMER"] -"RXN-9311" {"WATER[c]": -1, "CO-A[c]": 1, "PROTON[c]": 1, "DIHYDROXYNAPHTHOATE[c]": 1, "CPD-9925[c]": -1} false ["CPLX0-8128"] -"RXN-9514-Acetoacetyl-ACPs/NADPH/PROTON//Beta-3-hydroxybutyryl-ACPs/NADP.63." {"NADPH[c]": -1, "Beta-3-hydroxybutyryl-ACPs[c]": 1, "PROTON[c]": -1, "Acetoacetyl-ACPs[c]": -1, "NADP[c]": 1} false ["CPLX0-8005"] -"RXN-9516-Butanoyl-ACPs/MALONYL-ACP/PROTON//3-oxo-hexanoyl-ACPs/CARBON-DIOXIDE/ACP.73." {"PROTON[c]": -1, "Butanoyl-ACPs[c]": -1, "MALONYL-ACP[c]": -1, "3-oxo-hexanoyl-ACPs[c]": 1, "CARBON-DIOXIDE[c]": 1, "ACP[c]": 1} false ["FABB-CPLX"] -"RXN-9518-R-3-hydroxyhexanoyl-ACPs/NADP//3-oxo-hexanoyl-ACPs/NADPH/PROTON.64." {"NADPH[c]": -1, "3-oxo-hexanoyl-ACPs[c]": -1, "PROTON[c]": -1, "R-3-hydroxyhexanoyl-ACPs[c]": 1, "NADP[c]": 1} false ["CPLX0-8005"] -"RXN-9520-R-3-hydroxyhexanoyl-ACPs//Hex-2-enoyl-ACPs/WATER.49." {"WATER[c]": 1, "Hex-2-enoyl-ACPs[c]": 1, "R-3-hydroxyhexanoyl-ACPs[c]": -1} false ["FABA-CPLX", "FABZ-CPLX"] -"RXN-9523-Hexanoyl-ACPs/MALONYL-ACP/PROTON//3-Oxo-octanoyl-ACPs/CARBON-DIOXIDE/ACP.73." {"PROTON[c]": -1, "ACP[c]": 1, "Hexanoyl-ACPs[c]": -1, "CARBON-DIOXIDE[c]": 1, "3-Oxo-octanoyl-ACPs[c]": 1, "MALONYL-ACP[c]": -1} false ["FABB-CPLX"] -"RXN-9524-3-Hydroxy-octanoyl-ACPs/NADP//3-Oxo-octanoyl-ACPs/NADPH/PROTON.63." {"NADPH[c]": -1, "NADP[c]": 1, "PROTON[c]": -1, "3-Hydroxy-octanoyl-ACPs[c]": 1, "3-Oxo-octanoyl-ACPs[c]": -1} false ["CPLX0-8005"] -"RXN-9527-Octanoyl-ACPs/MALONYL-ACP/PROTON//3-oxo-decanoyl-ACPs/CARBON-DIOXIDE/ACP.73." {"3-oxo-decanoyl-ACPs[c]": 1, "PROTON[c]": -1, "MALONYL-ACP[c]": -1, "CARBON-DIOXIDE[c]": 1, "Octanoyl-ACPs[c]": -1, "ACP[c]": 1} false ["FABB-CPLX"] -"RXN-9528-Beta-hydroxydecanoyl-ACPs/NADP//3-oxo-decanoyl-ACPs/NADPH/PROTON.65." {"NADPH[c]": -1, "3-oxo-decanoyl-ACPs[c]": -1, "PROTON[c]": -1, "Beta-hydroxydecanoyl-ACPs[c]": 1, "NADP[c]": 1} false ["CPLX0-8005"] -"RXN-9531-Decanoyl-ACPs/MALONYL-ACP/PROTON//3-oxo-dodecanoyl-ACPs/CARBON-DIOXIDE/ACP.75." {"3-oxo-dodecanoyl-ACPs[c]": 1, "PROTON[c]": -1, "Decanoyl-ACPs[c]": -1, "CARBON-DIOXIDE[c]": 1, "MALONYL-ACP[c]": -1, "ACP[c]": 1} false ["FABB-CPLX"] -"RXN-9532-R-3-hydroxydodecanoyl-ACPs/NADP//3-oxo-dodecanoyl-ACPs/NADPH/PROTON.68." {"3-oxo-dodecanoyl-ACPs[c]": -1, "NADPH[c]": -1, "R-3-hydroxydodecanoyl-ACPs[c]": 1, "PROTON[c]": -1, "NADP[c]": 1} false ["CPLX0-8005"] -"RXN-9533-R-3-hydroxydodecanoyl-ACPs//Dodec-2-enoyl-ACPs/WATER.53." {"WATER[c]": 1, "Dodec-2-enoyl-ACPs[c]": 1, "R-3-hydroxydodecanoyl-ACPs[c]": -1} false ["FABA-CPLX", "FABZ-CPLX"] -"RXN-9535-Dodecanoyl-ACPs/MALONYL-ACP/PROTON//3-oxo-myristoyl-ACPs/CARBON-DIOXIDE/ACP.76." {"Dodecanoyl-ACPs[c]": -1, "PROTON[c]": -1, "3-oxo-myristoyl-ACPs[c]": 1, "CARBON-DIOXIDE[c]": 1, "MALONYL-ACP[c]": -1, "ACP[c]": 1} false ["FABB-CPLX"] -"RXN-9536-R-3-hydroxymyristoyl-ACPs/NADP//3-oxo-myristoyl-ACPs/NADPH/PROTON.66." {"NADPH[c]": -1, "NADP[c]": 1, "PROTON[c]": -1, "R-3-hydroxymyristoyl-ACPs[c]": 1, "3-oxo-myristoyl-ACPs[c]": -1} false ["CPLX0-8005"] -"RXN-9537-R-3-hydroxymyristoyl-ACPs//Tetradec-2-enoyl-ACPs/WATER.55." {"WATER[c]": 1, "Tetradec-2-enoyl-ACPs[c]": 1, "R-3-hydroxymyristoyl-ACPs[c]": -1} false ["FABA-CPLX", "FABZ-CPLX"] -"RXN-9539-Myristoyl-ACPs/MALONYL-ACP/PROTON//3-oxo-palmitoyl-ACPs/CARBON-DIOXIDE/ACP.75." {"PROTON[c]": -1, "Myristoyl-ACPs[c]": -1, "MALONYL-ACP[c]": -1, "CARBON-DIOXIDE[c]": 1, "3-oxo-palmitoyl-ACPs[c]": 1, "ACP[c]": 1} false ["FABB-CPLX"] -"RXN-9540-R-3-Hydroxypalmitoyl-ACPs/NADP//3-oxo-palmitoyl-ACPs/NADPH/PROTON.66." {"NADPH[c]": -1, "NADP[c]": 1, "R-3-Hydroxypalmitoyl-ACPs[c]": 1, "3-oxo-palmitoyl-ACPs[c]": -1, "PROTON[c]": -1} false ["CPLX0-8005"] -"RXN-9549-Palmitoyl-ACPs/WATER//PALMITATE/ACP/PROTON.43." {"WATER[c]": -1, "PROTON[c]": 1, "PALMITATE[c]": 1, "ACP[c]": 1, "Palmitoyl-ACPs[c]": -1} false [] -"RXN-9655-Beta-hydroxydecanoyl-ACPs//Trans-D2-decenoyl-ACPs/WATER.56." {"WATER[c]": 1, "Trans-D2-decenoyl-ACPs[c]": 1, "Beta-hydroxydecanoyl-ACPs[c]": -1} false ["FABA-CPLX", "FABZ-CPLX"] -"RXN-9657-Butanoyl-ACPs/NAD//Crotonyl-ACPs/NADH/PROTON.45." {"NADH[c]": -1, "PROTON[c]": -1, "Crotonyl-ACPs[c]": -1, "Butanoyl-ACPs[c]": 1, "NAD[c]": 1} false ["CPLX0-8006"] -"RXN-9658-Hexanoyl-ACPs/NAD//Hex-2-enoyl-ACPs/NADH/PROTON.48." {"Hex-2-enoyl-ACPs[c]": -1, "NADH[c]": -1, "PROTON[c]": -1, "Hexanoyl-ACPs[c]": 1, "NAD[c]": 1} false ["CPLX0-8006"] -"RXN-9659-Octanoyl-ACPs/NAD//2-Octenoyl-ACPs/NADH/PROTON.47." {"NADH[c]": -1, "PROTON[c]": -1, "Octanoyl-ACPs[c]": 1, "2-Octenoyl-ACPs[c]": -1, "NAD[c]": 1} false ["CPLX0-8006"] -"RXN-9660-Decanoyl-ACPs/NAD//Trans-D2-decenoyl-ACPs/NADH/PROTON.54." {"Trans-D2-decenoyl-ACPs[c]": -1, "Decanoyl-ACPs[c]": 1, "PROTON[c]": -1, "NAD[c]": 1, "NADH[c]": -1} false ["CPLX0-8006"] -"RXN-9661-Dodecanoyl-ACPs/NAD//Dodec-2-enoyl-ACPs/NADH/PROTON.52." {"Dodec-2-enoyl-ACPs[c]": -1, "NADH[c]": -1, "PROTON[c]": -1, "NAD[c]": 1, "Dodecanoyl-ACPs[c]": 1} false ["CPLX0-8006"] -"RXN-9662-Myristoyl-ACPs/NAD//Tetradec-2-enoyl-ACPs/NADH/PROTON.54." {"Tetradec-2-enoyl-ACPs[c]": -1, "NADH[c]": -1, "PROTON[c]": -1, "Myristoyl-ACPs[c]": 1, "NAD[c]": 1} false ["CPLX0-8006"] -"RXN-9663-Palmitoyl-ACPs/NAD//2-Hexadecenoyl-ACPs/NADH/PROTON.52." {"NADH[c]": -1, "PROTON[c]": -1, "2-Hexadecenoyl-ACPs[c]": -1, "Palmitoyl-ACPs[c]": 1, "NAD[c]": 1} false ["CPLX0-8006"] -"RXN-9772" {"SUC[c]": 1, "PROTON[c]": 1, "IMINOASPARTATE[c]": 1, "FUM[c]": -1, "L-ASPARTATE[c]": -1} false ["L-ASPARTATE-OXID-MONOMER"] -"RXN-9787-Sulfur-Carrier-Proteins-ThiI/CYS//Sulfurylated-ThiI/L-ALPHA-ALANINE.68." {"Sulfur-Carrier-Proteins-ThiI[c]": 1, "CYS[c]": 1, "L-ALPHA-ALANINE[c]": -1, "Sulfurylated-ThiI[c]": -1} true ["CPLX0-248"] -"RXN-9788" {"Sulfur-Carrier-Proteins-ThiI[c]": 1, "Oxidized-ferredoxins[c]": 2, "Reduced-ferredoxins[c]": -2, "Thiocarboxyadenylated-ThiS-Proteins[c]": 1, "AMP[c]": 1, "Adenylated-ThiS-Proteins[c]": -1, "Sulfurylated-ThiI[c]": -1} false ["THIF-MONOMER", "THII-MONOMER"] -"RXN-9789-Thi-S/ATP/PROTON//Adenylated-ThiS-Proteins/PPI.47." {"Thi-S[c]": -1, "Adenylated-ThiS-Proteins[c]": 1, "PPI[c]": 1, "PROTON[c]": -1, "ATP[c]": -1} false ["THIF-MONOMER"] -"RXN-982-ARSENATE/Red-Glutaredoxins/PROTON//CPD-763/Ox-Glutaredoxins/WATER.66." {"Ox-Glutaredoxins[c]": 1, "PROTON[c]": -1, "Red-Glutaredoxins[c]": -1, "CPD-763[c]": 1, "WATER[c]": 1, "ARSENATE[c]": -1} true ["EG12237-MONOMER"] -"RXN-982-ARSENATE/Reduced-NrdH-Proteins/PROTON//CPD-763/Oxidized-NrdH-Proteins/WATER.76." {"Reduced-NrdH-Proteins[c]": -1, "Oxidized-NrdH-Proteins[c]": 1, "PROTON[c]": -1, "CPD-763[c]": 1, "WATER[c]": 1, "ARSENATE[c]": -1} true ["EG12237-MONOMER"] -"RXN-9951" {"NADPH[c]": 1, "OXALO-SUCCINATE[c]": 1, "PROTON[c]": 1, "THREO-DS-ISO-CITRATE[c]": -1, "NADP[c]": -1} true ["ISOCITHASE-CPLX"] -"RXN-9952" {"CPD-2961[c]": -1, "NADPH[c]": 1, "CARBON-DIOXIDE[c]": 1, "RIBULOSE-5P[c]": 1, "NADP[c]": -1} false ["6PGLUCONDEHYDROG-CPLX"] -"RXN-9983" {"CPD-12849[c]": -1, "4-OXALOMESACONATE[c]": 1} true [] -"RXN0-0-CPD0-1122//CPD0-1122.21." {"CPD0-1122[p]": 1, "CPD0-1122[e]": -1} false ["G7921-MONOMER", "CPLX0-7534", "CPLX0-2221", "CPLX0-7533", "CPLX0-7530"] -"RXN0-0-CPD0-1123//CPD0-1123.21." {"CPD0-1123[p]": 1, "CPD0-1123[e]": -1} false ["G7921-MONOMER", "CPLX0-7534", "CPLX0-2221", "CPLX0-7533", "CPLX0-7530"] -"RXN0-10" {"CD+2[c]": 1, "CD+2[p]": -1} false ["EG11167-MONOMER"] -"RXN0-1081" {"WATER[c]": -1, "tRNA-Arg-adenosine34[c]": -1, "tRNA-Arg-inosine34[c]": 1, "PROTON[c]": -1, "AMMONIUM[c]": 1} false ["CPLX0-901"] -"RXN0-11" {"PI[c]": 1, "ADP[c]": 1, "PROTON[c]": 1, "GLUTATHIONE[c]": 1, "GLUTATHIONE[p]": -1, "ATP[c]": -1, "WATER[c]": -1} false ["ABC-49-CPLX"] -"RXN0-1132" {"NADH[c]": 1, "PROTON[c]": 1, "Pyruvate-dehydrogenase-dihydrolipoate[c]": -1, "NAD[c]": -1, "Pyruvate-dehydrogenase-lipoate[c]": 1} false ["PYRUVATEDEH-CPLX", "E3-CPLX", "2OXOGLUTARATEDEH-CPLX"] -"RXN0-1133" {"CO-A[c]": -1, "ACETYL-COA[c]": 1, "Pyruvate-dehydrogenase-dihydrolipoate[c]": 1, "Pyruvate-dehydrogenase-acetylDHlipoyl[c]": -1} false ["E2P-MONOMER", "PYRUVATEDEH-CPLX"] -"RXN0-1134" {"CARBON-DIOXIDE[c]": 1, "PYRUVATE[c]": -1, "PROTON[c]": -1, "Pyruvate-dehydrogenase-acetylDHlipoyl[c]": 1, "Pyruvate-dehydrogenase-lipoate[c]": -1} false ["E1P-CPLX", "PYRUVATEDEH-CPLX"] -"RXN0-1138" {"PROTON[c]": -1, "PROTEIN-LIPOYLLYSINE[c]": -1, "Gcv-H[c]": 1, "Lipoyl-ACPs[c]": 1, "ACP[c]": -1} true ["EG11591-MONOMER"] -"RXN0-1147" {"SUC-COA[c]": -1, "CO-A[c]": 1, "Oxo-glutarate-dehydrogenase-DH-lipoyl[c]": -1, "Oxo-glutarate-dehydro-suc-DH-lipoyl[c]": 1} true ["E2O", "2OXOGLUTARATEDEH-CPLX"] -"RXN0-12" {"ZN+2[p]": -1, "ZN+2[c]": 1} false ["EG11167-MONOMER"] -"RXN0-1382" {"OXALYL-COA[c]": -1, "OXALATE[c]": 1, "FORMYL-COA[c]": 1, "FORMATE[c]": -1} true ["CPLX0-1142"] -"RXN0-14" {"CU+2[c]": 1, "CU+2[p]": -1} false ["EG11167-MONOMER"] -"RXN0-1401" {"RIBOSE-15-BISPHOSPHATE[c]": -1, "PRPP[c]": 1, "ADP[c]": 1, "ATP[c]": -1} false ["EG10723-MONOMER"] -"RXN0-1402" {"PROTON[c]": 1, "RIBOSE-15-BISPHOSPHATE[c]": 1, "ATP[c]": -1, "ADP[c]": 1, "RIBOSE-1P[c]": -1} false ["MONOMER0-702"] -"RXN0-1441" {"WATER[c]": -1, "CPD-15317[c]": 1, "PROTON[c]": 2, "ADENOSINE_DIPHOSPHATE_RIBOSE[c]": -1, "AMP[c]": 1} false ["CPLX0-3721"] -"RXN0-1461" {"OXYGEN-MOLECULE[c]": -1, "PROTOPORPHYRINOGEN[c]": 1, "PROTON[c]": -2, "COPROPORPHYRINOGEN_III[c]": -1, "WATER[c]": 2, "CARBON-DIOXIDE[c]": 2} false ["CPLX0-7808"] -"RXN0-1483[CCO-PERI-BAC]-FE+2/PROTON/OXYGEN-MOLECULE//FE+3/WATER.54." {"WATER[p]": 2, "FE+3[p]": 4, "OXYGEN-MOLECULE[p]": -1, "PROTON[p]": -4, "FE+2[p]": -4} false ["EG12318-MONOMER"] -"RXN0-16" {"MN+2[c]": 1, "MN+2[p]": -1} false ["EG11167-MONOMER"] -"RXN0-1602" {"WATER[c]": -1, "PPI[c]": 1, "DITP[c]": -1, "PROTON[c]": 1, "DIMP[c]": 1} false ["CPLX0-7826", "CPLX0-7692"] -"RXN0-1603" {"WATER[c]": -1, "XTP[c]": -1, "PPI[c]": 1, "PROTON[c]": 1, "XANTHOSINE-5-PHOSPHATE[c]": 1} false ["CPLX0-7826", "CPLX0-7692"] -"RXN0-1661" {"WATER[c]": -3, "N-23-DIHYDROXYBENZOYL-L-SERINE[c]": 3, "ENTEROBACTIN[c]": -1, "PROTON[c]": 3} false ["EG10299-MONOMER"] -"RXN0-18" {"INOSINE[p]": 1, "PROTON[c]": 1, "INOSINE[c]": -1, "PROTON[p]": -1} false ["YICM-MONOMER"] -"RXN0-1802-CPD-7836//CPD-7836.19." {"CPD-7836[e]": -1, "CPD-7836[p]": 1} false ["EG10280-MONOMER"] -"RXN0-1802-CPD-9245//CPD-9245.19." {"CPD-9245[e]": -1, "CPD-9245[p]": 1} false ["EG10280-MONOMER"] -"RXN0-1802-CPD-9247//CPD-9247.19." {"CPD-9247[e]": -1, "CPD-9247[p]": 1} false ["EG10280-MONOMER"] -"RXN0-1802-CPD0-1159//CPD0-1159.21." {"CPD0-1159[p]": 1, "CPD0-1159[e]": -1} false ["EG10280-MONOMER"] -"RXN0-1802-OLEATE-CPD//OLEATE-CPD.23." {"OLEATE-CPD[p]": 1, "OLEATE-CPD[e]": -1} false ["EG10280-MONOMER"] -"RXN0-1802-PALMITATE//PALMITATE.21." {"PALMITATE[e]": -1, "PALMITATE[p]": 1} false ["EG10280-MONOMER"] -"RXN0-1802-STEARIC_ACID//STEARIC_ACID.27." {"STEARIC_ACID[e]": -1, "STEARIC_ACID[p]": 1} false ["EG10280-MONOMER"] -"RXN0-1861" {"NADH[c]": 1, "CARBON-DIOXIDE[c]": 1, "UDP-GLUCURONATE[c]": -1, "5-BETA-L-THREO-PENTAPYRANOSYL-4-ULOSE-[c]": 1, "NAD[c]": -1} false ["CPLX0-7718"] -"RXN0-1863" {"GLT[c]": 1, "5-BETA-L-THREO-PENTAPYRANOSYL-4-ULOSE-[c]": 1, "2-KETOGLUTARATE[c]": -1, "UDP-4-AMINO-4-DEOXY-L-ARABINOSE[c]": -1} true ["G7166-MONOMER"] -"RXN0-1924" {"CYS[p]": 1, "CYS[c]": -1} true ["EG12445-MONOMER", "EG11639-MONOMER"] -"RXN0-1941" {"NADPH[c]": 1, "ETHYL-2-METHYLACETOACETATE[c]": 1, "PROTON[c]": 1, "ETHYL-2R-METHYL-3S-HYDROXYBUTANOATE[c]": -1, "NADP[c]": -1} true ["MONOMER0-148"] -"RXN0-1981" {"ACET[p]": -1, "ACET[c]": 1} false [] -"RXN0-2042" {"OXYGEN-MOLECULE[c]": -1, "CPD0-2362[c]": 1, "NADP[c]": 1, "PROTON[c]": -1, "NADPH[c]": -1, "WATER[c]": 1, "CPD-207[c]": -1} false ["CPLX0-1762"] -"RXN0-2044" {"3-HYDROXYADIPYL-COA[c]": 1, "PROTON[c]": -1, "3-KETO-ADIPYL-COA[c]": -1, "NAD[c]": 1, "NADH[c]": -1} true ["G6716-MONOMER"] -"RXN0-21" {"PI[c]": 1, "ADP[c]": 1, "PROTON[c]": 1, "GLUTATHIONE[c]": -1, "GLUTATHIONE[p]": 1, "ATP[c]": -1, "WATER[c]": -1} false ["ABC-6-CPLX"] -"RXN0-2141-Cis-delta-3-decenoyl-ACPs/MALONYL-ACP/PROTON//b-Keto-cis-D5-dodecenoyl-ACPs/ACP/CARBON-DIOXIDE.95." {"Cis-delta-3-decenoyl-ACPs[c]": -1, "PROTON[c]": -1, "MALONYL-ACP[c]": -1, "b-Keto-cis-D5-dodecenoyl-ACPs[c]": 1, "CARBON-DIOXIDE[c]": 1, "ACP[c]": 1} false ["FABB-CPLX"] -"RXN0-2142-b-Hydroxy-cis-D5-dodecenoyl-ACPs/NADP//b-Keto-cis-D5-dodecenoyl-ACPs/NADPH/PROTON.82." {"b-Keto-cis-D5-dodecenoyl-ACPs[c]": -1, "NADPH[c]": -1, "PROTON[c]": -1, "b-Hydroxy-cis-D5-dodecenoyl-ACPs[c]": 1, "NADP[c]": 1} false ["CPLX0-8005"] -"RXN0-2144-b-Hydroxy-cis-D5-dodecenoyl-ACPs//Trans-D3-cis-D5-dodecenoyl-ACPs/WATER.72." {"WATER[c]": 1, "b-Hydroxy-cis-D5-dodecenoyl-ACPs[c]": -1, "Trans-D3-cis-D5-dodecenoyl-ACPs[c]": 1} false ["FABZ-CPLX"] -"RXN0-2145-Cis-Delta5-dodecenoyl-ACPs/NAD//Trans-D3-cis-D5-dodecenoyl-ACPs/NADH/PROTON.76." {"NADH[c]": -1, "Trans-D3-cis-D5-dodecenoyl-ACPs[c]": -1, "Cis-Delta5-dodecenoyl-ACPs[c]": 1, "PROTON[c]": -1, "NAD[c]": 1} false ["CPLX0-8006"] -"RXN0-22" {"PROTON[c]": 1, "PROTON[p]": -1, "GUANOSINE[c]": -1, "GUANOSINE[p]": 1} false ["YICM-MONOMER"] -"RXN0-2201" {"NADPH[c]": -1, "NADP[c]": 1, "PROTON[c]": -1, "2-AMINOMALONATE-SEMIALDEHYDE[c]": -1, "SER[c]": 1} true ["CPLX0-1962"] -"RXN0-2301-ISOVALERYL-COA/ETF-Oxidized/PROTON//3-METHYL-CROTONYL-COA/ETF-Reduced.70." {"ISOVALERYL-COA[c]": -1, "PROTON[c]": -1, "3-METHYL-CROTONYL-COA[c]": 1, "ETF-Oxidized[c]": -1, "ETF-Reduced[c]": 1} true ["CPLX0-7691"] -"RXN0-2361" {"PI[c]": 1, "UDP-AAGM-DIAMINOHEPTANEDIOATE[c]": 1, "ADP[c]": 1, "PROTON[c]": 1, "UDP-N-ACETYLMURAMATE[c]": -1, "ATP[c]": -1, "L-ALA-GAMMA-D-GLU-DAP[c]": -1} false ["EG12440-MONOMER"] -"RXN0-2381" {"GAP[c]": 1, "INDOLE[c]": 1, "INDOLE-3-GLYCEROL-P[c]": -1} true ["TRYPSYN-APROTEIN", "TRYPSYN"] -"RXN0-2382" {"WATER[c]": 1, "SER[c]": -1, "INDOLE[c]": -1, "TRP[c]": 1} false ["CPLX0-2401", "TRYPSYN"] -"RXN0-2421" {"FE+2[p]": -1, "PROTON[c]": 1, "FE+2[c]": 1, "PROTON[p]": -1} false ["YFEP-MONOMER"] -"RXN0-2501" {"PROTON[c]": 1, "PROTON[p]": -1, "CL-[p]": 2, "CL-[c]": -2} true ["CPLX0-7961"] -"RXN0-267-Red-Thioredoxin/HYDROGEN-PEROXIDE//Ox-Thioredoxin/WATER.56." {"WATER[c]": 2, "Red-Thioredoxin[c]": -1, "Ox-Thioredoxin[c]": 1, "HYDROGEN-PEROXIDE[c]": -1} false ["BTUE-MONOMER"] -"RXN0-268" {"SUC-COA[c]": -1, "PROPIONATE[c]": -1, "SUC[c]": 1, "PROPIONYL-COA[c]": 1} true ["G7517-MONOMER"] -"RXN0-271-NADPH/CPD-9728/PROTON//NADP/REDUCED-MENAQUINONE.48." {"NADPH[c]": -1, "NADP[c]": 1, "PROTON[c]": -1, "CPD-9728[i]": -1, "REDUCED-MENAQUINONE[i]": 1} false ["CPLX0-253"] -"RXN0-271-NADPH/UBIQUINONE-8/PROTON//NADP/CPD-9956.41." {"NADPH[c]": -1, "NADP[c]": 1, "PROTON[c]": -1, "UBIQUINONE-8[i]": -1, "CPD-9956[i]": 1} false ["CPLX0-253"] -"RXN0-279" {"WATER[c]": 1, "SO3[c]": -1, "PROTON[c]": -1, "3-SULFINOALANINE[c]": 1, "L-ALPHA-ALANINE[c]": -1} true ["CPLX0-246", "CPLX0-7838"] -"RXN0-280-CPD-10434/FMNH2/OXYGEN-MOLECULE//ACETALD/SO3/FMN/WATER/PROTON.62." {"OXYGEN-MOLECULE[c]": -1, "PROTON[c]": 2, "ACETALD[c]": 1, "FMN[c]": 1, "WATER[c]": 1, "FMNH2[c]": -1, "SO3[c]": 1, "CPD-10434[c]": -1} false ["CPLX0-225"] -"RXN0-280-CPD-3745/FMNH2/OXYGEN-MOLECULE//GLYCOLALDEHYDE/SO3/FMN/WATER/PROTON.68." {"OXYGEN-MOLECULE[c]": -1, "PROTON[c]": 2, "GLYCOLALDEHYDE[c]": 1, "FMN[c]": 1, "CPD-3745[c]": -1, "WATER[c]": 1, "FMNH2[c]": -1, "SO3[c]": 1} false ["CPLX0-225"] -"RXN0-280-CPD-3746/FMNH2/OXYGEN-MOLECULE//FORMALDEHYDE/SO3/FMN/WATER/PROTON.66." {"OXYGEN-MOLECULE[c]": -1, "PROTON[c]": 2, "CPD-3746[c]": -1, "FMN[c]": 1, "WATER[c]": 1, "FMNH2[c]": -1, "FORMALDEHYDE[c]": 1, "SO3[c]": 1} false ["CPLX0-225"] -"RXN0-2945" {"WATER[p]": 2, "OXYGEN-MOLECULE[p]": -1, "CU+2[p]": 2, "CU+[p]": -2, "PROTON[p]": -2} false [] -"RXN0-3" {"PI[c]": 1, "CYS[c]": -1, "ADP[c]": 1, "CYS[p]": 1, "PROTON[c]": 1, "ATP[c]": -1, "WATER[c]": -1} false ["ABC-6-CPLX"] -"RXN0-300" {"NADPH[c]": -1, "NADP[c]": 1, "PROTON[c]": -1, "OH-PYR[c]": -1, "GLYCERATE[c]": 1} false ["G6539-MONOMER", "CPLX0-235"] -"RXN0-302" {"2-PHOSPHO-4-CYTIDINE-5-DIPHOSPHO-2-C-MET[c]": -1, "CMP[c]": 1, "2C-METH-D-ERYTHRITOL-CYCLODIPHOSPHATE[c]": 1} false ["CPLX0-721"] -"RXN0-303" {"D-ALLULOSE-6-PHOSPHATE[c]": 1, "D-ALLOSE-6-PHOSPHATE[c]": -1} true ["RIB5PISOMB-CPLX"] -"RXN0-304" {"D-ALLULOSE-6-PHOSPHATE[c]": -1, "FRUCTOSE-6P[c]": 1} false ["EG11957-MONOMER"] -"RXN0-305" {"OH-PYR[c]": -1, "TARTRONATE-S-ALD[c]": 1} true ["CPLX-171"] -"RXN0-308" {"Cysteine-Desulfurase-L-cysteine[c]": -1, "L-Cysteine-Desulfurase-persulfide[c]": 1, "CYS[c]": -1, "L-ALPHA-ALANINE[c]": 1} false ["CPLX0-246", "CPLX0-248"] -"RXN0-310" {"PROTON[c]": -1, "CARBON-DIOXIDE[c]": 1, "METHYL-MALONYL-COA[c]": -1, "PROPIONYL-COA[c]": 1} false ["CPLX0-254"] -"RXN0-3281" {"Donor-H2[c]": 1, "CARBON-DIOXIDE[c]": 1, "FORMATE[c]": -1, "PROTON[c]": -1, "Acceptor[c]": -1} false ["FORMATEDEHYDROGH-MONOMER"] -"RXN0-3542" {"THIAMINE-PYROPHOSPHATE[c]": -1, "WATER[c]": -1, "PROTON[c]": 1, "THIAMINE-P[c]": 1, "PI[c]": 1} true ["G6580-MONOMER"] -"RXN0-3543" {"WATER[c]": -1, "AMINO-HYDROXYMETHYL-METHYLPYRIMIDINE-PP[c]": -1, "PROTON[c]": 1, "AMINO-HYDROXYMETHYL-METHYL-PYR-P[c]": 1, "PI[c]": 1} false ["G6246-MONOMER", "G6580-MONOMER"] -"RXN0-361" {"WATER[c]": -1, "CPD0-1108[c]": 1, "CYTOSINE[c]": 1, "CYTIDINE[c]": -1} false ["EG11082-MONOMER", "CPLX0-7904", "G6358-MONOMER"] -"RXN0-363" {"WATER[c]": -1, "XANTHINE[c]": 1, "CPD0-1108[c]": 1, "XANTHOSINE[c]": -1} false ["EG11082-MONOMER"] -"RXN0-3741[CCO-CYTOSOL]-DAMP/WATER//DEOXYADENOSINE/Pi.43." {"WATER[c]": -1, "DEOXYADENOSINE[c]": 1, "DAMP[c]": -1, "PI[c]": 1} false ["CPLX0-7625", "G7230-MONOMER"] -"RXN0-3741[CCO-CYTOSOL]-DCMP/WATER//DEOXYCYTIDINE/Pi.42." {"WATER[c]": -1, "PI[c]": 1, "DCMP[c]": -1, "DEOXYCYTIDINE[c]": 1} false ["CPLX0-7625", "G7230-MONOMER"] -"RXN0-3741[CCO-CYTOSOL]-DIMP/WATER//DEOXYINOSINE/Pi.41." {"DEOXYINOSINE[c]": 1, "WATER[c]": -1, "DIMP[c]": -1, "PI[c]": 1} false ["CPLX0-7625", "G7230-MONOMER"] -"RXN0-3741[CCO-CYTOSOL]-DUMP/WATER//DEOXYURIDINE/Pi.41." {"WATER[c]": -1, "DEOXYURIDINE[c]": 1, "DUMP[c]": -1, "PI[c]": 1} false ["CPLX0-7625", "G7230-MONOMER"] -"RXN0-3741[CCO-CYTOSOL]-TMP/WATER//THYMIDINE/Pi.37." {"WATER[c]": -1, "TMP[c]": -1, "THYMIDINE[c]": 1, "PI[c]": 1} false ["CPLX0-7625", "G7230-MONOMER"] -"RXN0-383" {"WATER[c]": -1, "CMP[c]": 1, "PPI[c]": 1, "CTP[c]": -1, "PROTON[c]": 1} false ["CPLX0-7692"] -"RXN0-384" {"WATER[c]": -1, "PPI[c]": 1, "DATP[c]": -1, "PROTON[c]": 1, "DAMP[c]": 1} false ["H2NEOPTERINP3PYROPHOSPHOHYDRO-MONOMER", "CPLX0-7692"] -"RXN0-385" {"WATER[c]": -1, "DGTP[c]": -1, "PPI[c]": 1, "DGMP[c]": 1, "PROTON[c]": 1} false ["CPLX0-7692"] -"RXN0-3901" {"PI[c]": 1, "ADP[c]": 1, "GLT[c]": -1, "PROTON[c]": 1, "ATP[c]": -1, "GAMMA-GLUTAMYL-PUTRESCINE[c]": 1, "PUTRESCINE[c]": -1} false ["CPLX0-7709"] -"RXN0-3921" {"OXYGEN-MOLECULE[c]": -1, "HYDROGEN-PEROXIDE[c]": 1, "AMMONIUM[c]": 1, "GAMMA-GLUTAMYL-PUTRESCINE[c]": -1, "WATER[c]": -1, "GAMMA-GLUTAMYL-GAMMA-AMINOBUTYRALDEH[c]": 1} false ["EG11822-MONOMER"] -"RXN0-3922-GAMMA-GLUTAMYL-GAMMA-AMINOBUTYRALDEH/NAD/WATER//CPD-9000/NADH/PROTON.69." {"NADH[c]": 1, "NAD[c]": -1, "PROTON[c]": 2, "WATER[c]": -1, "CPD-9000[c]": 1, "GAMMA-GLUTAMYL-GAMMA-AMINOBUTYRALDEH[c]": -1} false ["ALDHDEHYDROG-MONOMER"] -"RXN0-3922-GAMMA-GLUTAMYL-GAMMA-AMINOBUTYRALDEH/NADP/WATER//CPD-9000/NADPH/PROTON.71." {"NADP[c]": -1, "PROTON[c]": 2, "NADPH[c]": 1, "WATER[c]": -1, "CPD-9000[c]": 1, "GAMMA-GLUTAMYL-GAMMA-AMINOBUTYRALDEH[c]": -1} false ["ALDHDEHYDROG-MONOMER"] -"RXN0-3942" {"WATER[c]": -1, "GLT[c]": 1, "4-AMINO-BUTYRATE[c]": 1, "CPD-9000[c]": -1} false ["CPLX0-3943"] -"RXN0-3962" {"NADP[c]": -1, "PROTON[c]": 2, "ACET[c]": 1, "ACETALD[c]": -1, "NADPH[c]": 1, "WATER[c]": -1} false ["CPLX0-3482"] -"RXN0-4083" {"SER[p]": -1, "SER[c]": 1, "NA+[p]": -1, "NA+[c]": 1} false ["YGJU-MONOMER"] -"RXN0-4281" {"METHYL-GLYOXAL[c]": -1, "NADPH[c]": -1, "PROTON[c]": -1, "ACETOL[c]": 1, "NADP[c]": 1} true ["CPLX0-7667", "G6967-MONOMER", "MONOMER0-148", "MONOMER0-149", "G7558-MONOMER"] -"RXN0-4301" {"D-SEDOHEPTULOSE-7-P[c]": -1, "D-ALPHABETA-D-HEPTOSE-7-PHOSPHATE[c]": 1} false ["CPLX0-7660"] -"RXN0-4341" {"PROTON[c]": 1, "D-BETA-D-HEPTOSE-17-DIPHOSPHATE[c]": 1, "D-ALPHABETA-D-HEPTOSE-7-PHOSPHATE[c]": -1, "ATP[c]": -1, "ADP[c]": 1} false ["CPLX0-3661"] -"RXN0-4342" {"PPI[c]": 1, "PROTON[c]": -1, "ADP-D-GLYCERO-D-MANNO-HEPTOSE[c]": 1, "D-BETA-D-HEPTOSE-1-P[c]": -1, "ATP[c]": -1} false ["CPLX0-3661"] -"RXN0-4361" {"WATER[c]": -1, "PI[c]": 1, "D-BETA-D-HEPTOSE-1-P[c]": 1, "D-BETA-D-HEPTOSE-17-DIPHOSPHATE[c]": -1} false ["EG11736-MONOMER"] -"RXN0-4522" {"PI[c]": 1, "ADP[c]": 1, "PROTON[c]": 1, "ATP[c]": -1, "MET[c]": 1, "WATER[c]": -1, "MET[p]": -1} false ["METNIQ-METHIONINE-ABC-CPLX"] -"RXN0-4581" {"L-1-PHOSPHATIDYL-ETHANOLAMINE[p]": -1, "KDO2-LIPID-IVA[p]": -1, "DIACYLGLYCEROL[p]": 1, "PHOSPHATIDYLETHANOLAMINE-KDO2[p]": 1} true ["EG12267-MONOMER"] -"RXN0-4641-CPD0-881/WATER//CPD-16168/D-LACTATE.36." {"WATER[c]": -1, "CPD-16168[c]": 1, "CPD0-881[c]": -1, "D-LACTATE[c]": 1} true ["CPLX0-7732"] -"RXN0-4841" {"FRUCTOSELYSINE[c]": -1, "PSICOSELYSINE[c]": 1} true ["CPLX0-3861"] -"RXN0-5038" {"WATER[c]": -1, "CAMP[c]": -1, "PROTON[c]": 1, "AMP[c]": 1} false ["G7579-MONOMER"] -"RXN0-5055-ATP/ACETYL-COA/Carboxybiotin-BCCP/WATER//MALONYL-COA/BCCP-dimers/ADP/Pi/PROTON.79." {"PI[c]": 1, "ADP[c]": 1, "PROTON[c]": 1, "Carboxybiotin-BCCP[c]": -1, "BCCP-dimers[c]": 1, "ATP[c]": -1, "MALONYL-COA[c]": 1, "WATER[c]": -1, "ACETYL-COA[c]": -1} false ["ACETYL-COA-CARBOXYLTRANSFER-CPLX"] -"RXN0-5057" {"KDO2-LIPID-IVA[c]": 1, "HEPTOSYL-KDO2-LIPID-IVA[c]": -1, "ADP-L-GLYCERO-D-MANNO-HEPTOSE[c]": 1, "PROTON[c]": -1, "ADP[c]": -1} true ["EG11189-MONOMER"] -"RXN0-5061" {"PROTON[c]": 1, "ADP-L-GLYCERO-D-MANNO-HEPTOSE[c]": -1, "CPD0-929[c]": -1, "CPD0-930[c]": 1, "ADP[c]": 1} false ["EG12210-MONOMER"] -"RXN0-5065" {"WATER[c]": 1, "CO-A[c]": -1, "CPD-782[c]": -1, "34-DIHYDROXYPHENYLACETYL-COA[c]": 1, "PROTON[c]": -1} true ["CPLX0-3941"] -"RXN0-5073" {"WATER[c]": -1, "PI[c]": 1, "PROTON[c]": 1, "IDP[c]": 1, "ITP[c]": -1} false ["CPLX0-3948"] -"RXN0-5074" {"WATER[c]": -1, "XDP[c]": 1, "PROTON[c]": 1, "XTP[c]": -1, "PI[c]": 1} false ["CPLX0-3948"] -"RXN0-5107" {"WATER[c]": -1, "PPI[c]": 1, "TMP[c]": 1, "PROTON[c]": 1, "TTP[c]": -1} false ["CPLX0-8106", "G7164-MONOMER", "CPLX0-7692"] -"RXN0-5108" {"WATER[c]": -1, "PROTON[c]": 2, "GDP-MANNOSE[c]": -1, "GMP[c]": 1, "MANNOSE-1P[c]": 1} false ["CPLX0-3971"] -"RXN0-5114[CCO-CYTOSOL]-3-P-SERINE/WATER//SER/Pi.38." {"WATER[c]": -1, "3-P-SERINE[c]": -1, "SER[c]": 1, "PI[c]": 1} false ["PSERPHOSPHA-MONOMER"] -"RXN0-5114[CCO-PERI-BAC]-3-P-SERINE/WATER//SER/Pi.39." {"3-P-SERINE[p]": -1, "PI[p]": 1, "SER[p]": 1, "WATER[p]": -1} false ["APHA-CPLX", "ALKAPHOSPHA-CPLX"] -"RXN0-5116" {"PROTON[c]": 1, "L-RIBULOSE-5-P[c]": 1, "L-RIBULOSE[c]": -1, "ATP[c]": -1, "ADP[c]": 1} false ["RIBULOKIN-CPLX"] -"RXN0-5118" {"PROTON[c]": 1, "ADP-L-GLYCERO-D-MANNO-HEPTOSE[c]": -1, "CPD0-929[c]": 1, "KDO2-LIPID-A[c]": -1, "ADP[c]": 1} false ["EG11189-MONOMER"] -"RXN0-5120" {"CPD0-932[c]": 1, "PROTON[c]": 1, "CPD0-930[c]": -1, "UDP[c]": 1, "CPD-12575[c]": -1} false ["EG11339-MONOMER"] -"RXN0-5121" {"CPD0-932[c]": -1, "PROTON[c]": 1, "ATP[c]": -1, "ADP[c]": 1, "CPD0-933[c]": 1} false ["EG11340-MONOMER"] -"RXN0-5122" {"PROTON[c]": 1, "ADP-L-GLYCERO-D-MANNO-HEPTOSE[c]": -1, "CPD0-934[c]": 1, "ADP[c]": 1, "CPD0-933[c]": -1} false ["EG11341-MONOMER"] -"RXN0-5123" {"CPD0-935[c]": 1, "PROTON[c]": 1, "CPD0-934[c]": -1, "ADP[c]": 1, "ATP[c]": -1} false ["EG11425-MONOMER"] -"RXN0-5124" {"UDP[c]": 1, "CPD-14553[c]": -1, "CPD0-936[c]": 1, "PROTON[c]": 1, "CPD0-935[c]": -1} false ["EG11351-MONOMER"] -"RXN0-5125" {"UDP[c]": 1, "CPD0-937[c]": 1, "CPD0-936[c]": -1, "PROTON[c]": 1, "CPD-12575[c]": -1} false ["EG11352-MONOMER"] -"RXN0-5126" {"PROTON[c]": 1, "CPD0-938[c]": 1, "CPD0-937[c]": -1, "UDP[c]": 1, "CPD-12575[c]": -1} false ["EG11353-MONOMER"] -"RXN0-5127" {"CPD0-939[c]": 1, "PROTON[c]": 1, "ADP-L-GLYCERO-D-MANNO-HEPTOSE[c]": -1, "CPD0-938[c]": -1, "ADP[c]": 1} false ["EG11423-MONOMER"] -"RXN0-5141" {"NADPH[c]": 1, "NADP[c]": -1, "CPD-702[c]": -1, "PROTON[c]": 1, "CPD-703[c]": 1} true ["MONOMER0-149"] -"RXN0-5182" {"MALTOTRIOSE[c]": -1, "MALTOTETRAOSE[c]": 1, "GLC-1-P[c]": -1, "PI[c]": 1} true ["MALDEXPHOSPHORYL-CPLX"] -"RXN0-5183" {"WATER[c]": -1, "MALTOTRIOSE[c]": -1, "Glucopyranose[c]": 1, "MALTOSE[c]": 1} false ["MALTODEXGLUCOSID-MONOMER"] -"RXN0-5185" {"CPD-2961[c]": -1, "WATER[c]": -1, "GLUCONATE[c]": 1, "PI[c]": 1} false ["ALKAPHOSPHA-CPLX"] -"RXN0-5187[CCO-CYTOSOL]-FMN/WATER//RIBOFLAVIN/Pi.38." {"WATER[c]": -1, "PI[c]": 1, "FMN[c]": -1, "RIBOFLAVIN[c]": 1} false ["EG11202-MONOMER", "G6442-MONOMER"] -"RXN0-5187[CCO-PERI-BAC]-FMN/WATER//RIBOFLAVIN/Pi.39." {"PI[p]": 1, "WATER[p]": -1, "RIBOFLAVIN[p]": 1, "FMN[p]": -1} false ["ALKAPHOSPHA-CPLX"] -"RXN0-5190[CCI-PERI-BAC-GN]-Peptidoglycan-dimer//NAcMur-Peptide-NAcGlc-Undecaprenols/GlcNAc-1-6-anhydro-MurNAc-pentapeptide.113." {"NAcMur-Peptide-NAcGlc-Undecaprenols[p]": 1, "GLUTATHIONE[p]": -1, "GlcNAc-1-6-anhydro-MurNAc-pentapeptide[p]": 1} true ["G7410-MONOMER", "G6622-MONOMER"] -"RXN0-5190[CCO-CYTOSOL]-Peptidoglycan-dimer//NAcMur-Peptide-NAcGlc-Undecaprenols/GlcNAc-1-6-anhydro-MurNAc-pentapeptide.109." {"NAcMur-Peptide-NAcGlc-Undecaprenols[c]": -1, "GlcNAc-1-6-anhydro-MurNAc-pentapeptide[c]": -1, "Peptidoglycan-dimer[c]": 1} true ["G7457-MONOMER", "G7533-MONOMER", "EG11373-MONOMER"] -"RXN0-5190[CCO-UNKNOWN-SPACE]-Peptidoglycan-dimer//NAcMur-Peptide-NAcGlc-Undecaprenols/GlcNAc-1-6-anhydro-MurNAc-pentapeptide.115." {"Peptidoglycan-dimer[?]": -1, "NAcMur-Peptide-NAcGlc-Undecaprenols[?]": 1, "GlcNAc-1-6-anhydro-MurNAc-pentapeptide[?]": 1} true ["EG10950-MONOMER", "EG10246-MONOMER"] -"RXN0-5192" {"LYS[c]": -1, "CPD0-1032[c]": 1} true ["G7836-MONOMER"] -"RXN0-5199" {"PI[c]": 1, "GUANOSINE[c]": 1, "GUANINE[c]": -1, "RIBOSE-1P[c]": -1} true ["XANTHOSINEPHOSPHORY-CPLX", "DEOD-CPLX"] -"RXN0-5200" {"2-Aminobutyrate[c]": 1, "2-OXOBUTANOATE[c]": -1, "Aminated-Amine-Donors[c]": -1, "Deaminated-Amine-Donors[c]": 1} true ["VALINE-PYRUVATE-AMINOTRANSFER-MONOMER"] -"RXN0-5202" {"L-ALPHA-ALANINE[p]": -1, "PROTON[c]": 1, "L-ALPHA-ALANINE[c]": 1, "PROTON[p]": -1} false ["CYCA-MONOMER"] -"RXN0-5205" {"PI[c]": 1, "ADP[c]": 1, "PROTON[c]": 1, "ZN+2[p]": 1, "ZN+2[c]": -1, "ATP[c]": -1, "WATER[c]": -1} false ["YHHO-MONOMER"] -"RXN0-5208" {"PPI[c]": -1, "PROTON[c]": 1, "ATP[c]": 2, "ADENOSYL-P4[c]": -1} true ["ENTE-CPLX", "LYSU-CPLX"] -"RXN0-5209" {"PPI[c]": 1, "ADENOSINE5TRIPHOSPHO5ADENOSINE[c]": 1, "PROTON[c]": -1, "ADP[c]": -1, "ATP[c]": -1} false ["LYSU-CPLX"] -"RXN0-5210" {"CPD0-1048[c]": 1, "UDP[c]": -1, "UDP-D-GALACTO-14-FURANOSE[c]": 1, "PROTON[c]": -1, "CPD0-1049[c]": -1} true ["EG11983-MONOMER"] -"RXN0-5213" {"METHYL-GLYOXAL[c]": 1, "NADH[c]": 1, "PROTON[c]": 1, "ACETOL[c]": -1, "NAD[c]": -1} true ["G6958-MONOMER"] -"RXN0-5220" {"WATER[c]": -1, "PROTON[c]": 1, "OH[c]": 1} true [] -"RXN0-5223-CPD-12822/ATP//CPD-12820/ADP/PROTON.36." {"CPD-12820[c]": 1, "PROTON[c]": 1, "ATP[c]": -1, "ADP[c]": 1, "CPD-12822[c]": -1} false ["G7123-MONOMER"] -"RXN0-5223-CPD-8260/ATP//CPD-12821/ADP/PROTON.35." {"CPD-8260[c]": -1, "PROTON[c]": 1, "ATP[c]": -1, "ADP[c]": 1, "CPD-12821[c]": 1} false ["G7123-MONOMER"] -"RXN0-5223-CPD0-2330/ATP//CPD0-2230/ADP/PROTON.36." {"PROTON[c]": 1, "ATP[c]": -1, "CPD0-2230[c]": 1, "ADP[c]": 1, "CPD0-2330[c]": -1} false ["G7123-MONOMER"] -"RXN0-5224" {"WATER[c]": 1, "PROTON[c]": -1, "HCO3[c]": -1, "CARBON-DIOXIDE[c]": 1} true ["CARBODEHYDRAT-CPLX", "CPLX0-7521"] -"RXN0-5227[CCO-PERI-BAC]-CPD0-1082/WATER//L-ALA-GAMMA-D-GLU-DAP/D-ALANINE.63." {"WATER[p]": -1, "CPD0-1082[p]": -1, "L-ALA-GAMMA-D-GLU-DAP[p]": 1, "D-ALANINE[p]": 1} false ["G7147-MONOMER"] -"RXN0-5228" {"CPD0-2190[c]": 1, "CPD0-1445[c]": -1} true ["G6661-MONOMER"] -"RXN0-5234" {"ACETALD[c]": -1, "ALLO-THR[c]": 1, "GLY[c]": -1} true ["GLYOHMETRANS-CPLX"] -"RXN0-5240" {"PYRUVATE[c]": -1, "PYRIDOXAMINE-5P[c]": -1, "PYRIDOXAL_PHOSPHATE[c]": 1, "D-ALANINE[c]": 1} true ["GLYOHMETRANS-CPLX"] -"RXN0-5260-GLYCEROL-3P/UBIQUINONE-8//DIHYDROXY-ACETONE-PHOSPHATE/CPD-9956.63." {"DIHYDROXY-ACETONE-PHOSPHATE[c]": 1, "GLYCEROL-3P[c]": -1, "UBIQUINONE-8[i]": -1, "CPD-9956[i]": 1} false ["AERGLYC3PDEHYDROG-CPLX"] -"RXN0-5266-CPD-9956/OXYGEN-MOLECULE/PROTON//UBIQUINONE-8/WATER/PROTON.59." {"OXYGEN-MOLECULE[c]": -1, "CPD-9956[i]": -2, "PROTON[c]": -4, "WATER[c]": 2, "UBIQUINONE-8[i]": 2, "PROTON[p]": 4} false ["APP-UBIOX-CPLX", "CYT-D-UBIOX-CPLX"] -"RXN0-5268-CPD-9956/OXYGEN-MOLECULE/PROTON//UBIQUINONE-8/WATER/PROTON.59." {"OXYGEN-MOLECULE[c]": -1, "CPD-9956[i]": -2, "PROTON[c]": -8, "WATER[c]": 2, "UBIQUINONE-8[i]": 2, "PROTON[p]": 8} false ["CYT-O-UBIOX-CPLX"] -"RXN0-5289" {"NADH[c]": -1, "PROTON[c]": -1, "GLYCERATE[c]": 1, "TARTRONATE-S-ALD[c]": -1, "NAD[c]": 1} true ["CPLX0-7616", "TSA-REDUCT-MONOMER"] -"RXN0-5291" {"THIAMINE-PYROPHOSPHATE[c]": -1, "PI[c]": 1, "CPD0-1095[c]": 1, "PROTON[c]": -1, "ADP[c]": -1} true ["MONOMER0-2838"] -"RXN0-5292[CCO-CYTOSOL]-DCMP/WATER//DEOXYCYTIDINE/Pi.42." {"WATER[c]": -1, "PI[c]": 1, "DCMP[c]": -1, "DEOXYCYTIDINE[c]": 1} false ["G7230-MONOMER", "CPLX0-7625"] -"RXN0-5298" {"CPD-10329[c]": 1, "CPD0-1107[c]": -1} true ["CPLX0-7645"] -"RXN0-5304" {"CPD0-1110[c]": 1, "CPD0-1108[c]": -1} true ["CPLX0-7646"] -"RXN0-5305" {"CPD0-1108[c]": 1, "CPD-15818[c]": -1} true [] -"RXN0-5306" {"RHAMNOSE[c]": -1, "CPD0-1112[c]": 1} false ["CPLX0-7649"] -"RXN0-5329" {"CPD0-1123[c]": 1, "CPD0-1122[c]": -1} true ["CPLX0-7658"] -"RXN0-5330-NADH/UBIQUINONE-8/PROTON//NAD/CPD-9956.39." {"NADH[c]": -1, "PROTON[c]": -1, "UBIQUINONE-8[i]": -1, "NAD[c]": 1, "CPD-9956[i]": 1} false ["NADH-DHII-MONOMER", "CPLX0-3121", "CPLX0-7632", "CPLX0-7939"] -"RXN0-5363" {"Alpha-lactose[c]": 1, "ALLOLACTOSE[c]": -1} true ["BETAGALACTOSID-CPLX"] -"RXN0-5364" {"OXYGEN-MOLECULE[c]": -1, "CPD-381[c]": -1, "HYDROGEN-PEROXIDE[c]": 1, "2-KETOGLUTARATE[c]": 1} false ["EG12387-MONOMER"] -"RXN0-5383" {"CPD-9646[c]": 1, "CPD0-939[c]": -1, "PROTON[c]": -1, "UNDECAPRENYL-DIPHOSPHATE[c]": -1, "CPD0-1151[c]": 1} true ["G7146-MONOMER"] -"RXN0-5387" {"NADPH[c]": -2, "NADP[c]": 2, "PROTON[c]": -2, "CPD0-1157[c]": 1, "CPD0-1156[c]": -1} true ["G7868-MONOMER"] -"RXN0-5388-NADH/CPD-9728/PROTON//NAD/REDUCED-MENAQUINONE/PROTON.53." {"NADH[c]": -1, "CPD-9728[i]": -1, "NAD[c]": 1, "PROTON[c]": -5, "REDUCED-MENAQUINONE[i]": 1, "PROTON[p]": 4} false ["NADH-DHI-CPLX"] -"RXN0-5390" {"WATER[c]": -1, "CO-A[c]": 1, "PROTON[c]": 1, "CPD0-1159[c]": 1, "CPD0-1158[c]": -1} false ["G6244-MONOMER"] -"RXN0-5391" {"CPD0-1162[c]": -1, "CPD0-1158[c]": 1} true ["FADB-CPLX", "FAO-CPLX"] -"RXN0-5393" {"WATER[c]": -1, "CPD0-1162[c]": -1, "CPD0-1163[c]": 1} false ["CPLX0-1666", "CPLX0-1668", "FADB-CPLX", "FAO-CPLX"] -"RXN0-5398" {"URACIL[c]": 1, "CPD-15317[c]": 1, "PSEUDOURIDINE-5-P[c]": -1, "WATER[c]": -1} true ["EG12033-MONOMER"] -"RXN0-5405" {"CPD-12231[p]": 1, "UNDECAPRENYL-DIPHOSPHATE[p]": 1, "C6[p]": -2, "PROTON[p]": 1} false [] -"RXN0-5414" {"WATER[c]": -1, "PROTON[c]": 1, "CPD0-1193[c]": 1, "CPD0-1192[c]": -1, "ACET[c]": 1} true ["G6530-MONOMER"] -"RXN0-5433" {"DEHYDRO-3-DEOXY-L-RHAMNONATE[c]": -1, "PYRUVATE[c]": 1, "LACTALD[c]": 1} true ["CPLX0-7723"] -"RXN0-5461" {"PROTON[c]": 1, "CPD-10551[c]": 1, "DIHYDROXYPENTANEDIONE[c]": -1, "ADP[c]": 1, "ATP[c]": -1} false ["G6798-MONOMER"] -"RXN0-5462" {"WATER[c]": -1, "GTP[c]": -1, "PROTON[c]": 1, "GDP[c]": 1, "PI[c]": 1} false ["CPLX-722"] -"RXN0-5514" {"2-3-4-Saturated-L-Phosphatidates[c]": -1, "Saturated-Fatty-Acyl-ACPs[c]": 1, "Saturated-2-Lysophosphatidates[c]": 1, "ACP[c]": -1} true ["1-ACYLGLYCEROL-3-P-ACYLTRANSFER-MONOMER"] -"RXN0-6" {"FE+2[p]": 1, "PROTON[c]": 1, "FE+2[c]": -1, "PROTON[p]": -1} false ["CPLX0-7641"] -"RXN0-6259-PROTOPORPHYRIN_IX/REDUCED-MENAQUINONE//PROTOPORPHYRINOGEN/CPD-9728.67." {"PROTOPORPHYRINOGEN[c]": -1, "CPD-9728[i]": -3, "PROTOPORPHYRIN_IX[c]": 1, "REDUCED-MENAQUINONE[i]": 3} false ["CPLX0-7811"] -"RXN0-6274" {"CPD-4211[c]": -1, "tRNA-Adenosines-37[c]": -1, "PPI[c]": 1, "6-Dimethylallyladenosine37-tRNAs[c]": 1} true ["EG10595-MONOMER"] -"RXN0-6277-CPD-722/Red-Thioredoxin//BIOTIN/Ox-Thioredoxin/WATER.53." {"WATER[c]": 1, "Red-Thioredoxin[c]": -1, "Ox-Thioredoxin[c]": 1, "BIOTIN[c]": 1, "CPD-722[c]": -1} true ["EG10124-MONOMER"] -"RXN0-6368" {"WATER[c]": -3, "PI[c]": 3, "PROTON[c]": 2, "CPD-11770[c]": 1, "DIHYDROMONAPTERIN-TRIPHOSPHATE[c]": -1} false [] -"RXN0-6371" {"WATER[p]": -1, "Acceptor[p]": -1, "Aldoses[p]": -1, "Aldonic-Acids[p]": 1, "Donor-H2[p]": 1, "PROTON[p]": 1} true ["G6437-MONOMER"] -"RXN0-6382" {"WATER[c]": -1, "PPI[c]": 1, "PROTON[c]": 1, "ITP[c]": -1, "IMP[c]": 1} false ["CPLX0-7826", "CPLX0-7692"] -"RXN0-6385-Red-Thioredoxin/S2O3//Ox-Thioredoxin/SO3/HS/PROTON.51." {"Ox-Thioredoxin[c]": 1, "PROTON[c]": 1, "S2O3[c]": -1, "Red-Thioredoxin[c]": -1, "SO3[c]": 1, "HS[c]": 1} true ["CPLX0-242"] -"RXN0-6427" {"WATER[c]": -1, "GDP-TP[c]": -1, "PROTON[c]": 1, "GTP[c]": 1, "PPI[c]": 1} false ["SPOT-MONOMER"] -"RXN0-6435-CARBAMOYL-P/HypE-Proteins/ATP/WATER//HypE-S-carboxamide/AMP/PPI/Pi.67." {"PI[c]": 1, "HypE-Proteins[c]": -1, "CARBAMOYL-P[c]": -1, "AMP[c]": 1, "PPI[c]": 1, "ATP[c]": -1, "WATER[c]": -1, "HypE-S-carboxamide[c]": 1} false ["EG11551-MONOMER"] -"RXN0-6442-CPD-62/Holo-EntB//23DHB-EntB/AMP/PROTON.40." {"AMP[c]": 1, "PROTON[c]": 1, "Holo-EntB[c]": -1, "CPD-62[c]": -1, "23DHB-EntB[c]": 1} false ["ENTE-CPLX", "ENTMULTI-CPLX"] -"RXN0-6491-DI-H-OROTATE/UBIQUINONE-8//OROTATE/CPD-9956.44." {"DI-H-OROTATE[c]": -1, "CPD-9956[i]": 1, "UBIQUINONE-8[i]": -1, "OROTATE[c]": 1} false ["DIHYDROOROTOX-MONOMER"] -"RXN0-6510" {"CPD0-2363[c]": 1, "CPD0-2362[c]": -1} true ["G6715-MONOMER", "CPLX0-7988"] -"RXN0-6511" {"CPD0-2364[c]": 1, "CPD0-2363[c]": -1, "NADP[c]": -1, "PROTON[c]": 2, "NADPH[c]": 1, "WATER[c]": -2} true ["G6708-MONOMER"] -"RXN0-6512" {"CO-A[c]": -1, "ACETYL-COA[c]": 1, "CPD0-2365[c]": 1, "CPD0-2364[c]": -1} false ["G6718-MONOMER"] -"RXN0-6513" {"WATER[c]": -1, "3-HYDROXYADIPYL-COA[c]": 1, "CPD0-2365[c]": -1} true [] -"RXN0-6541" {"D-SEDOHEPTULOSE-7-P[c]": -1, "PROTON[c]": 1, "ADP[c]": 1, "D-SEDOHEPTULOSE-1-7-P2[c]": 1, "ATP[c]": -1} false ["6PFK-1-CPX"] -"RXN0-6550" {"WATER[c]": -1, "ADENINE[c]": 1, "CPD0-2167[c]": 1, "CH33ADO[c]": -1} false ["CPLX0-1541"] -"RXN0-6554-DI-H-OROTATE/CPD-9728//OROTATE/REDUCED-MENAQUINONE.51." {"DI-H-OROTATE[c]": -1, "CPD-9728[i]": -1, "REDUCED-MENAQUINONE[i]": 1, "OROTATE[c]": 1} false ["DIHYDROOROTOX-MONOMER"] -"RXN0-6562" {"WATER[c]": -1, "PI[c]": 1, "OH-PYR[c]": 1, "3-P-HYDROXYPYRUVATE[c]": -1} false ["EG12693-MONOMER"] -"RXN0-6563" {"GLYCOLALDEHYDE[c]": 1, "CPD0-2189[c]": -1, "GLY[c]": 1} true ["LTAA-CPLX"] -"RXN0-6564" {"PROTON[c]": 1, "CPD0-2189[c]": -1, "4-PHOSPHONOOXY-THREONINE[c]": 1, "ADP[c]": 1, "ATP[c]": -1} false ["HOMOSERKIN-CPLX"] -"RXN0-6565" {"NADH[c]": 1, "PROTON[c]": 1, "DIHYDRO-THYMINE[c]": -1, "THYMINE[c]": 1, "NAD[c]": -1} true ["CPLX0-7788"] -"RXN0-6705-1-PALMITOYLGLYCEROL-3-PHOSPHATE/Palmitoyl-ACPs//CPD0-1422/ACP.62." {"1-PALMITOYLGLYCEROL-3-PHOSPHATE[c]": -1, "CPD0-1422[c]": 1, "ACP[c]": 1, "Palmitoyl-ACPs[c]": -1} false ["1-ACYLGLYCEROL-3-P-ACYLTRANSFER-MONOMER"] -"RXN0-6717" {"PTSI-PHOSPHORYLATED[c]": -1, "PTSI-MONOMER[c]": 1, "PYRUVATE[c]": -1, "PHOSPHO-ENOL-PYRUVATE[c]": 1} true [] -"RXN0-6718" {"PTSI-PHOSPHORYLATED[c]": -1, "PTSH-PHOSPHORYLATED[c]": 1, "PTSH-MONOMER[c]": -1, "PTSI-MONOMER[c]": 1} true [] -"RXN0-6720" {"WATER[c]": -1, "CPD0-2467[c]": -1, "CPD0-2468[c]": 1} true ["G6805-MONOMER"] -"RXN0-6722" {"NADH[c]": -1, "PROTON[c]": -1, "Quinones[c]": -2, "Semiquinones[c]": 2, "NAD[c]": 1} true ["CPLX0-7693"] -"RXN0-6727" {"NADH[c]": 1, "ADP[c]": -1, "PI[c]": 1, "PROTON[c]": 1, "CPD-653[c]": -1, "AMP[c]": 1} false ["EG11758-MONOMER"] -"RXN0-6944" {"N-23-DIHYDROXYBENZOYL-L-SERINE[c]": -3, "WATER[c]": 2, "PROTON[c]": -2, "CPD0-2483[c]": 1} true [] -"RXN0-6948" {"CO-A[c]": -1, "ACETYL-COA[c]": 1, "MET[c]": 1, "PROTON[c]": -1, "CPD0-2015[c]": -1} true ["CPLX0-7962"] -"RXN0-6973" {"OXYGEN-MOLECULE[c]": -1, "CPD-3744[c]": -1, "PROTON[c]": 2, "BUTANAL[c]": 1, "FMN[c]": 1, "WATER[c]": 1, "FMNH2[c]": -1, "SO3[c]": 1} false ["CPLX0-225"] -"RXN0-6974" {"WATER[c]": -1, "GLY[c]": 1, "CPD-13393[c]": -1, "MET[c]": 1} false [] -"RXN0-6975" {"WATER[c]": -1, "L-ASPARTATE[c]": 1, "L-ALPHA-ALANINE[c]": 1, "CPD-13404[c]": -1} false [] -"RXN0-6976" {"WATER[c]": -1, "CPD-13403[c]": -1, "L-ALPHA-ALANINE[c]": 1, "GLN[c]": 1} false [] -"RXN0-6977" {"WATER[c]": -1, "L-ALPHA-ALANINE[c]": 1, "ALA-GLY[c]": -1, "GLY[c]": 1} false [] -"RXN0-6978" {"WATER[c]": -1, "CPD-13401[c]": -1, "HIS[c]": 1, "L-ALPHA-ALANINE[c]": 1} false [] -"RXN0-6979" {"WATER[c]": -1, "LEU[c]": 1, "L-ALPHA-ALANINE[c]": 1, "CPD-13398[c]": -1} false [] -"RXN0-6980" {"WATER[c]": -1, "CPD-13397[c]": -1, "THR[c]": 1, "L-ALPHA-ALANINE[c]": 1} false [] -"RXN0-6981" {"WATER[c]": -1, "GLT[c]": 1, "L-ALPHA-ALANINE[c]": 1, "CPD0-1445[c]": -1} false ["CPLX0-3001"] -"RXN0-6982" {"WATER[c]": -1, "ASN[c]": 1, "CPD-13395[c]": -1, "GLY[c]": 1} false [] -"RXN0-6983" {"WATER[c]": -1, "CPD-13394[c]": -1, "GLN[c]": 1, "GLY[c]": 1} false [] -"RXN0-6984" {"WATER[c]": -1, "GLT[c]": 1, "CPD-3569[c]": -1, "GLY[c]": 1} false [] -"RXN0-6985" {"WATER[c]": -1, "CPD-13390[c]": -1, "L-ALPHA-ALANINE[c]": 1, "MET[c]": 1} false [] -"RXN0-6987" {"WATER[c]": -1, "L-ASPARTATE[c]": 1, "CPD-13406[c]": -1, "GLY[c]": 1} false [] -"RXN0-6988" {"WATER[c]": -1, "PRO[c]": 1, "CPD-10814[c]": -1, "GLY[c]": 1} false [] -"RXN0-7008-PRO/UBIQUINONE-8//L-DELTA1-PYRROLINE_5-CARBOXYLATE/CPD-9956/PROTON.67." {"PROTON[c]": 1, "PRO[c]": -1, "L-DELTA1-PYRROLINE_5-CARBOXYLATE[c]": 1, "UBIQUINONE-8[i]": -1, "CPD-9956[i]": 1} false ["PUTA-CPLX", "PUTA-CPLXBND"] -"RXN0-7012-CPD-8260/CPD-12819//CPD-12824/ETHANOL-AMINE.44." {"CPD-12819[c]": -1, "CPD-8260[c]": -1, "CPD-12824[c]": 1, "ETHANOL-AMINE[c]": 1} false ["G6551-MONOMER"] -"RXN0-7014" {"CO-A[c]": -1, "CPD0-2518[c]": -1, "ACETYL-COA[c]": 1, "CPD0-1074[c]": 1} true ["EG10724-MONOMER"] -"RXN0-7020" {"NADPH[c]": -1, "CPD-13059[c]": 1, "PROTON[c]": -1, "25-DIDEHYDRO-D-GLUCONATE[c]": -1, "NADP[c]": 1} false ["MONOMER0-148", "MONOMER0-149"] -"RXN0-7021" {"NADPH[c]": -1, "CPD-13059[c]": -1, "L-IDONATE[c]": 1, "PROTON[c]": -1, "NADP[c]": 1} false ["CPLX0-235"] -"RXN0-703" {"NADH[c]": -1, "CPD-334[c]": -1, "3-KETO-L-GULONATE[c]": 1, "PROTON[c]": -1, "NAD[c]": 1} false ["CPLX0-2061"] -"RXN0-704" {"PROTON[c]": 1, "3-KETO-L-GULONATE[c]": -1, "CPD-2343[c]": 1, "ADP[c]": 1, "ATP[c]": -1} false ["LYXK-CPLX"] -"RXN0-705" {"CARBON-DIOXIDE[c]": 1, "L-XYLULOSE-5-P[c]": 1, "PROTON[c]": -1, "CPD-2343[c]": -1} false ["EG12285-MONOMER", "CPLX0-7744"] -"RXN0-7050" {"PROTON[c]": 1, "PROTON[p]": -1, "MET[p]": 1, "MET[c]": -1} false ["B4141-MONOMER", "G6984-MONOMER"] -"RXN0-7074" {"PYRIDOXAMINE-5P[c]": 1, "PYRIDOXAL_PHOSPHATE[c]": -1, "Aminated-Amine-Donors[c]": -1, "Deaminated-Amine-Donors[c]": 1} true ["PYRDAMPTRANS-MONOMER"] -"RXN0-7075" {"OXALYL-COA[c]": 1, "ACETYL-COA[c]": -1, "OXALATE[c]": -1, "ACET[c]": 1} true ["CPLX0-8032"] -"RXN0-7077-ALPHA-GLUCOSE/PROTON//ALPHA-GLUCOSE/PROTON.43." {"PROTON[c]": 1, "PROTON[p]": -1, "ALPHA-GLUCOSE[c]": 1, "ALPHA-GLUCOSE[p]": -1} false ["GALP-MONOMER"] -"RXN0-7077-GLC/PROTON//GLC/PROTON.23." {"GLC[p]": -1, "PROTON[c]": 1, "GLC[c]": 1, "PROTON[p]": -1} false ["GALP-MONOMER"] -"RXN0-7092" {"NIACINAMIDE[c]": 1, "NICOTINAMIDE_RIBOSE[c]": -1, "RIBOSE-1P[c]": 1, "PROTON[c]": 1, "PI[c]": -1} true ["XANTHOSINEPHOSPHORY-CPLX"] -"RXN0-7101" {"NADH[c]": 1, "PROTON[c]": 1, "5-DEHYDROGLUCONATE[c]": 1, "NAD[c]": -1, "GLUCONATE[c]": -1} true ["KDUD-MONOMER", "GLUCONREDUCT-MONOMER"] -"RXN0-7104" {"WATER[c]": -1, "CO-A[c]": 1, "CPD-207[c]": -1, "PROTON[c]": 1, "PHENYLACETATE[c]": 1} true ["CPLX0-3941"] -"RXN0-7115" {"Cyclic-N6-threonylcarbamoyl-A37-tRNAs[c]": -1, "PI[c]": -1, "N6-L-threonylcarbamoyladenine37-tRNAs[c]": 1, "ATP[c]": 1, "ADP[c]": -1} true ["CPLX0-8176"] -"RXN0-7119" {"NADPH[c]": -1, "NADP[c]": 1, "PROTON[c]": -1, "CPD-7000[c]": -1, "ISOBUTANOL[c]": 1} true ["EG11292-MONOMER", "G6269-MONOMER", "MONOMER0-148", "G6190-MONOMER"] -"RXN0-7123-NADH/CPD-9728/PROTON//NAD/REDUCED-MENAQUINONE.46." {"NADH[c]": -1, "PROTON[c]": -1, "CPD-9728[i]": -1, "REDUCED-MENAQUINONE[i]": 1, "NAD[c]": 1} false ["NADH-DHII-MONOMER", "CPLX0-3121", "CPLX0-7632", "CPLX0-7939"] -"RXN0-722-DUDP/Oxidized-NrdH-Proteins/WATER//UDP/Reduced-NrdH-Proteins.61." {"WATER[c]": 1, "UDP[c]": -1, "Reduced-NrdH-Proteins[c]": -1, "Oxidized-NrdH-Proteins[c]": 1, "DUDP[c]": 1} false ["RIBONUCLEOSIDE-DIP-REDUCTII-CPLX"] -"RXN0-742" {"PI[c]": 1, "ATP[c]": -1, "ADP[c]": 1, "PROTON[c]": 2, "HCO3[c]": -1, "5-PHOSPHORIBOSYL-5-AMINOIMIDAZOLE[c]": -1, "CPD0-181[c]": 1} false ["PURK-CPLX"] -"RXN0-743" {"PHOSPHORIBOSYL-CARBOXY-AMINOIMIDAZOLE[c]": 1, "CPD0-181[c]": -1} false ["PURE-CPLX"] -"RXN0-747-DADP/Oxidized-NrdH-Proteins/WATER//ADP/Reduced-NrdH-Proteins.61." {"WATER[c]": 1, "Reduced-NrdH-Proteins[c]": -1, "Oxidized-NrdH-Proteins[c]": 1, "ADP[c]": -1, "DADP[c]": 1} false ["RIBONUCLEOSIDE-DIP-REDUCTII-CPLX"] -"RXN0-748-DGDP/Oxidized-NrdH-Proteins/WATER//GDP/Reduced-NrdH-Proteins.61." {"WATER[c]": 1, "DGDP[c]": 1, "Reduced-NrdH-Proteins[c]": -1, "GDP[c]": -1, "Oxidized-NrdH-Proteins[c]": 1} false ["RIBONUCLEOSIDE-DIP-REDUCTII-CPLX"] -"RXN0-884-CPD-4211/NAD/WATER//HYDROXY-METHYL-BUTENYL-DIP/NADH/PROTON.59." {"CPD-4211[c]": 1, "NADH[c]": -1, "NAD[c]": 1, "HYDROXY-METHYL-BUTENYL-DIP[c]": -1, "PROTON[c]": -1, "WATER[c]": 1} false ["CPLX0-7564"] -"RXN0-884-CPD-4211/NADP/WATER//HYDROXY-METHYL-BUTENYL-DIP/NADPH/PROTON.61." {"CPD-4211[c]": 1, "HYDROXY-METHYL-BUTENYL-DIP[c]": -1, "NADP[c]": 1, "PROTON[c]": -1, "WATER[c]": 1, "NADPH[c]": -1} false ["CPLX0-7564"] -"RXN0-949" {"CH33ADO[c]": 2, "Unsulfurated-Sulfur-Acceptors[c]": 2, "Octanoylated-domains[c]": -1, "Lipoyl-Protein-N6-lipoyllysine[c]": 1, "Oxidized-2Fe-2S-Ferredoxins[c]": 2, "S-ADENOSYLMETHIONINE[c]": -2, "Reduced-2Fe-2S-Ferredoxins[c]": -2, "MET[c]": 2, "Sulfurated-Sulfur-Acceptors[c]": -2} false ["CPLX0-782"] -"RXN0-961" {"WATER[c]": -1, "L-ALA-GAMMA-D-GLU-DAP[c]": -1, "CPD0-2190[c]": 1, "MESO-DIAMINOPIMELATE[c]": 1} false ["CPLX0-7989"] -"RXN0-962" {"FRUCTOSELYSINE[c]": -1, "PROTON[c]": 1, "FRUCTOSELYSINE-6-PHOSPHATE[c]": 1, "ADP[c]": 1, "ATP[c]": -1} false ["G7726-MONOMER"] -"RXN0-963" {"WATER[c]": 1, "LYS[c]": -1, "GLC-6-P[c]": -1, "FRUCTOSELYSINE-6-PHOSPHATE[c]": 1} true ["CPLX0-821"] -"RXNMETA-12671" {"WATER[c]": -1, "CPDMETA-13650[c]": 1, "CPD0-2363[c]": -1} false ["G6708-MONOMER"] -"RXNMETA-12672" {"CPD0-2364[c]": 1, "NADP[c]": -1, "PROTON[c]": 2, "NADPH[c]": 1, "WATER[c]": -1, "CPDMETA-13650[c]": -1} false ["G6708-MONOMER"] -"S-ADENMETSYN-RXN" {"PI[c]": 1, "PPI[c]": 1, "S-ADENOSYLMETHIONINE[c]": 1, "ATP[c]": -1, "MET[c]": -1, "WATER[c]": -1} false ["S-ADENMETSYN-CPLX"] -"S-FORMYLGLUTATHIONE-HYDROLASE-RXN" {"WATER[c]": -1, "PROTON[c]": 1, "GLUTATHIONE[c]": 1, "CPD-548[c]": -1, "FORMATE[c]": 1} false ["CPLX0-3954", "G6208-MONOMER"] -"SAICARSYN-RXN" {"PI[c]": 1, "P-RIBOSYL-4-SUCCCARB-AMINOIMIDAZOLE[c]": 1, "ADP[c]": 1, "PROTON[c]": 1, "PHOSPHORIBOSYL-CARBOXY-AMINOIMIDAZOLE[c]": -1, "ATP[c]": -1, "L-ASPARTATE[c]": -1} false ["SAICARSYN-CPLX"] -"SAMDECARB-RXN" {"PROTON[c]": -1, "S-ADENOSYLMETHIONINE[c]": -1, "S-ADENOSYLMETHIONINAMINE[c]": 1, "CARBON-DIOXIDE[c]": 1} false ["SAMDECARB-CPLX"] -"SEDOBISALDOL-RXN" {"DIHYDROXY-ACETONE-PHOSPHATE[c]": 1, "ERYTHROSE-4P[c]": 1, "D-SEDOHEPTULOSE-1-7-P2[c]": -1} false ["FRUCBISALD-CLASSII"] -"SELENOCYSTEINE-LYASE-RXN" {"Donor-H2[c]": -1, "SE-2[c]": 1, "PROTON[c]": 2, "L-SELENOCYSTEINE[c]": -1, "L-ALPHA-ALANINE[c]": 1, "Acceptor[c]": 1} true ["CPLX0-246"] -"SERINE--TRNA-LIGASE-RXN-SER-tRNAs/SER/ATP/PROTON//Charged-SER-tRNAs/AMP/PPI.52." {"AMP[c]": 1, "PPI[c]": 1, "SER[c]": -1, "ATP[c]": -1, "SER-tRNAs[c]": -1, "Charged-SER-tRNAs[c]": 1} false ["SERS-CPLX"] -"SERINE-O-ACETTRAN-RXN" {"CO-A[c]": 1, "ACETYLSERINE[c]": 1, "ACETYL-COA[c]": -1, "SER[c]": -1} false ["CPLX0-237", "CYSSYNMULTI-CPLX"] -"SHIKIMATE-5-DEHYDROGENASE-RXN" {"NADPH[c]": 1, "3-DEHYDRO-SHIKIMATE[c]": 1, "PROTON[c]": 1, "SHIKIMATE[c]": -1, "NADP[c]": -1} true ["AROE-MONOMER", "CPLX0-7462"] -"SHIKIMATE-KINASE-RXN" {"PROTON[c]": 1, "SHIKIMATE-5P[c]": 1, "SHIKIMATE[c]": -1, "ATP[c]": -1, "ADP[c]": 1} false ["AROK-MONOMER", "AROL-MONOMER"] -"SIROHEME-FERROCHELAT-RXN" {"PROTON[c]": 2, "FE+2[c]": -1, "SIROHYDROCHLORIN[c]": -1, "SIROHEME[c]": 1} true ["SIROHEMESYN-CPLX"] -"SORB6PDEHYDROG-RXN" {"NADH[c]": -1, "PROTON[c]": -1, "CPD-15709[c]": -1, "NAD[c]": 1, "D-SORBITOL-6-P[c]": 1} true ["SORB6PDEHYDROG-CPLX"] -"SPERMIDINESYN-RXN" {"PUTRESCINE[c]": -1, "5-METHYLTHIOADENOSINE[c]": 1, "S-ADENOSYLMETHIONINAMINE[c]": -1, "PROTON[c]": 1, "SPERMIDINE[c]": 1} false ["SPERMIDINESYN-CPLX"] -"SPONTPRO-RXN" {"WATER[c]": 1, "PROTON[c]": 1, "L-GLUTAMATE_GAMMA-SEMIALDEHYDE[c]": -1, "L-DELTA1-PYRROLINE_5-CARBOXYLATE[c]": 1} true [] -"SUCCARGDIHYDRO-RXN" {"CPD-421[c]": -1, "PROTON[c]": -2, "AMMONIUM[c]": 2, "N2-SUCCINYLORNITHINE[c]": 1, "WATER[c]": -2, "CARBON-DIOXIDE[c]": 1} false ["CPLX0-7947"] -"SUCCCOASYN-RXN" {"SUC[c]": 1, "PI[c]": -1, "ADP[c]": -1, "SUC-COA[c]": -1, "CO-A[c]": 1, "ATP[c]": 1} true ["SUCCCOASYN"] -"SUCCDIAMINOPIMDESUCC-RXN" {"WATER[c]": -1, "SUC[c]": 1, "LL-DIAMINOPIMELATE[c]": 1, "N-SUCCINYLLL-2-6-DIAMINOPIMELATE[c]": -1} true ["CPLX0-3161"] -"SUCCGLUALDDEHYD-RXN" {"NADH[c]": 1, "NAD[c]": -1, "PROTON[c]": 2, "CPD-822[c]": -1, "WATER[c]": -1, "N2-SUCCINYLGLUTAMATE[c]": 1} false ["SUCCGLUALDDEHYD-MONOMER"] -"SUCCGLUDESUCC-RXN" {"WATER[c]": -1, "GLT[c]": 1, "SUC[c]": 1, "N2-SUCCINYLGLUTAMATE[c]": -1} false ["SUCCGLUDESUCC-MONOMER"] -"SUCCINATE-DEHYDROGENASE-UBIQUINONE-RXN-SUC/UBIQUINONE-8//FUM/CPD-9956.31." {"SUC[c]": -1, "FUM[c]": 1, "UBIQUINONE-8[i]": -1, "CPD-9956[i]": 1} false ["CPLX0-8160"] -"SUCCINATE-SEMIALDEHYDE-DEHYDROGENASE-RXN" {"SUC[c]": 1, "NADH[c]": 1, "SUCC-S-ALD[c]": -1, "NAD[c]": -1, "PROTON[c]": 2, "WATER[c]": -1} false ["CPLX0-7687"] -"SUCCINYLDIAMINOPIMTRANS-RXN" {"GLT[c]": -1, "N-SUCCINYL-2-AMINO-6-KETOPIMELATE[c]": -1, "N-SUCCINYLLL-2-6-DIAMINOPIMELATE[c]": 1, "2-KETOGLUTARATE[c]": 1} true ["PSERTRANSAM-CPLX", "ACETYLORNTRANSAM-CPLX"] -"SUCCORNTRANSAM-RXN" {"GLT[c]": 1, "N2-SUCCINYLORNITHINE[c]": -1, "CPD-822[c]": 1, "2-KETOGLUTARATE[c]": -1} true ["SUCCORNTRANSAM-CPLX"] -"SUCCSEMIALDDEHYDROG-RXN" {"SUC[c]": 1, "SUCC-S-ALD[c]": -1, "NADP[c]": -1, "PROTON[c]": 2, "WATER[c]": -1, "NADPH[c]": 1} false ["CPLX0-7688"] -"SUGAR-PHOSPHATASE-RXN-CPD-16502/WATER//CPD-16501/Pi.30." {"WATER[c]": -1, "PI[c]": 1, "CPD-16501[c]": 1, "CPD-16502[c]": -1} false ["G6425-MONOMER", "G7187-MONOMER", "EG11195-MONOMER", "EG11470-MONOMER"] -"SULFATE-ADENYLYLTRANS-RXN" {"PPI[c]": 1, "SULFATE[c]": -1, "PROTON[c]": -1, "ATP[c]": -1, "APS[c]": 1} false ["SULFATE-ADENYLYLTRANS-CPLX"] -"SULFITE-REDUCT-RXN" {"NADP[c]": 3, "PROTON[c]": -5, "NADPH[c]": -3, "WATER[c]": 3, "SO3[c]": -1, "HS[c]": 1} false ["SULFITE-REDUCT-CPLX"] -"SUPEROX-DISMUT-RXN[CCO-PERI-BAC]-SUPER-OXIDE/PROTON//HYDROGEN-PEROXIDE/OXYGEN-MOLECULE.68." {"PROTON[p]": -2, "OXYGEN-MOLECULE[p]": 1, "HYDROGEN-PEROXIDE[p]": 1, "SUPER-OXIDE[p]": -2} false ["G6886-MONOMER"] -"TAGAALDOL-RXN" {"DIHYDROXY-ACETONE-PHOSPHATE[c]": 1, "TAGATOSE-1-6-DIPHOSPHATE[c]": -1, "GAP[c]": 1} true ["CPLX0-241", "CPLX0-240"] -"TAGAKIN-RXN" {"TAGATOSE-1-6-DIPHOSPHATE[c]": 1, "PROTON[c]": 1, "TAGATOSE-6-PHOSPHATE[c]": -1, "ADP[c]": 1, "ATP[c]": -1} false ["6PFK-2-CPX"] -"TARTRATE-DEHYDROGENASE-RXN" {"NADH[c]": 1, "PROTON[c]": 1, "NAD[c]": -1, "CPD-66[c]": 1, "TARTRATE[c]": -1} true ["G6986-MONOMER"] -"TETHYDPICSUCC-RXN" {"SUC-COA[c]": -1, "WATER[c]": -1, "CO-A[c]": 1, "DELTA1-PIPERIDEINE-2-6-DICARBOXYLATE[c]": -1, "N-SUCCINYL-2-AMINO-6-KETOPIMELATE[c]": 1} false ["CPLX0-3181"] -"TETRAACYLDISACC4KIN-RXN" {"PROTON[c]": 1, "LIPID-IV-A[c]": 1, "ADP[c]": 1, "BISOHMYR-GLC[c]": -1, "ATP[c]": -1} false ["TETRAACYLDISACC4KIN-MONOMER"] -"THI-P-KIN-RXN" {"THIAMINE-PYROPHOSPHATE[c]": 1, "THIAMINE-P[c]": -1, "ATP[c]": -1, "ADP[c]": 1} false ["THI-P-KIN-MONOMER"] -"THIAZOLSYN2-RXN-DEOXYXYLULOSE-5P/CPD-12279/Thiocarboxyadenylated-ThiS-Proteins//CPD-13575/Thi-S/WATER.86." {"DEOXYXYLULOSE-5P[c]": -1, "Thiocarboxyadenylated-ThiS-Proteins[c]": -1, "Thi-S[c]": 1, "CPD-13575[c]": 1, "WATER[c]": 2, "CPD-12279[c]": -1} false ["THIG-MONOMER", "CPLX0-3949"] -"THIOREDOXIN-REDUCT-NADPH-RXN-Red-Thioredoxin/NADP//Ox-Thioredoxin/NADPH/PROTON.50." {"NADPH[c]": -1, "Red-Thioredoxin[c]": 1, "PROTON[c]": -1, "Ox-Thioredoxin[c]": -1, "NADP[c]": 1} false ["THIOREDOXIN-REDUCT-NADPH-CPLX"] -"THIOREDOXIN-RXN" {"Red-Thioredoxin[c]": -1, "Donor-H2[c]": 1, "Ox-Thioredoxin[c]": 1, "Acceptor[c]": -1} false [] -"THREDEHYD-RXN" {"THR[c]": -1, "2-OXOBUTANOATE[c]": 1, "AMMONIUM[c]": 1} false ["THREDEHYDSYN-CPLX", "THREDEHYDCAT-CPLX"] -"THREODEHYD-RXN" {"NADH[c]": 1, "AMINO-OXOBUT[c]": 1, "THR[c]": -1, "PROTON[c]": 1, "NAD[c]": -1} false ["EG12293-MONOMER", "THREODEHYD-CPLX"] -"THREONINE--TRNA-LIGASE-RXN-THR-tRNAs/THR/ATP/PROTON//Charged-THR-tRNAs/AMP/PPI.52." {"THR-tRNAs[c]": -1, "Charged-THR-tRNAs[c]": 1, "THR[c]": -1, "AMP[c]": 1, "PPI[c]": 1, "ATP[c]": -1} false ["THRS-CPLX"] -"THREONINE-ALDOLASE-RXN" {"ACETALD[c]": 1, "THR[c]": -1, "GLY[c]": 1} false ["LTAA-CPLX"] -"THREOSPON-RXN" {"CARBON-DIOXIDE[c]": 1, "AMINO-OXOBUT[c]": -1, "PROTON[c]": -1, "AMINO-ACETONE[c]": 1} false [] -"THRESYN-RXN" {"WATER[c]": -1, "PI[c]": 1, "THR[c]": 1, "O-PHOSPHO-L-HOMOSERINE[c]": -1} false ["THRESYN-MONOMER"] -"THTOREDUCT-RXN" {"Acceptor[p]": -1, "WATER[p]": -1, "TETRAHYDROTHIOPHENE[p]": -1, "TETRAHYDROTHIOPHENE-1-OXIDE[p]": 1, "Donor-H2[p]": 1} true [] -"THYKI-RXN" {"TMP[c]": 1, "PROTON[c]": 1, "THYMIDINE[c]": -1, "ATP[c]": -1, "ADP[c]": 1} false ["TDK-MONOMER"] -"THYM-PHOSPH-RXN" {"DEOXY-D-RIBOSE-1-PHOSPHATE[c]": 1, "THYMIDINE[c]": -1, "THYMINE[c]": 1, "PI[c]": -1} true ["DEOA-CPLX"] -"THYMIDYLATE-5-PHOSPHATASE-RXN" {"WATER[c]": -1, "TMP[c]": -1, "THYMIDINE[c]": 1, "PI[c]": 1} false ["G7230-MONOMER", "CPLX0-7625"] -"THYMIDYLATESYN-RXN-METHYLENE-THF/DUMP//TMP/DIHYDROFOLATE.38." {"METHYLENE-THF[c]": -1, "TMP[c]": 1, "DUMP[c]": -1, "DIHYDROFOLATE[c]": 1} false ["THYMIDYLATESYN-CPLX"] -"TMAOREDUCT-RXN" {"NADH[c]": -1, "NAD[c]": 1, "PROTON[c]": -2, "TRIMETHYLAMINE[c]": 1, "WATER[c]": 1, "TRIMENTHLAMINE-N-O[c]": -1} false [] -"TRANS-RXN-1" {"FORMATE[p]": 1, "FORMATE[c]": -1} true ["CPLX0-7843"] -"TRANS-RXN-10-ARABINOSE/PROTON//ARABINOSE/PROTON.35." {"ARABINOSE[p]": -1, "ARABINOSE[c]": 1, "PROTON[c]": 1, "PROTON[p]": -1} false ["ARAE-MONOMER"] -"TRANS-RXN-10-CPD-12045/PROTON//CPD-12045/PROTON.35." {"PROTON[c]": 1, "CPD-12045[p]": -1, "CPD-12045[c]": 1, "PROTON[p]": -1} false ["ARAE-MONOMER"] -"TRANS-RXN-10-CPD-15699/PROTON//CPD-15699/PROTON.35." {"CPD-15699[p]": -1, "CPD-15699[c]": 1, "PROTON[c]": 1, "PROTON[p]": -1} false ["ARAE-MONOMER"] -"TRANS-RXN-101" {"PROTON[c]": 1, "PROTON[p]": -1, "NA+[p]": 1, "NA+[c]": -1} false ["YJIO-MONOMER", "CMR-MONOMER", "CHAA-MONOMER"] -"TRANS-RXN-104" {"PROTON[c]": 1, "L-LACTATE[p]": -1, "L-LACTATE[c]": 1, "PROTON[p]": -1} false ["B2975-MONOMER", "LCTP-MONOMER"] -"TRANS-RXN-106" {"FUM[p]": -1, "SUC[c]": -1, "FUM[c]": 1, "SUC[p]": 1} false ["DCUB-MONOMER", "DCUA-MONOMER"] -"TRANS-RXN-106A" {"SUC[c]": -1, "SUC[p]": 1, "L-ASPARTATE[p]": -1, "L-ASPARTATE[c]": 1} false ["DCUB-MONOMER", "DCUA-MONOMER"] -"TRANS-RXN-106B" {"SUC[c]": -1, "MAL[p]": -1, "MAL[c]": 1, "SUC[p]": 1} false ["DCUB-MONOMER", "DCUA-MONOMER"] -"TRANS-RXN-106D-CPD-660/PROTON//CPD-660/PROTON.31." {"CPD-660[p]": -1, "PROTON[c]": 3, "CPD-660[c]": 1, "PROTON[p]": -3} false ["DCUB-MONOMER", "DCUA-MONOMER"] -"TRANS-RXN-106D-ENOL-OXALOACETATE/PROTON//ENOL-OXALOACETATE/PROTON.51." {"PROTON[c]": 3, "ENOL-OXALOACETATE[p]": -1, "ENOL-OXALOACETATE[c]": 1, "PROTON[p]": -3} false ["DCUB-MONOMER", "DCUA-MONOMER"] -"TRANS-RXN-106D-FUM/PROTON//FUM/PROTON.23." {"FUM[p]": -1, "PROTON[c]": 3, "FUM[c]": 1, "PROTON[p]": -3} false ["DCUB-MONOMER", "DCUA-MONOMER"] -"TRANS-RXN-106D-L-ASPARTATE/PROTON//L-ASPARTATE/PROTON.39." {"PROTON[c]": 3, "PROTON[p]": -3, "L-ASPARTATE[p]": -1, "L-ASPARTATE[c]": 1} false ["DCUB-MONOMER", "DCUA-MONOMER"] -"TRANS-RXN-106D-MAL/PROTON//MAL/PROTON.23." {"MAL[p]": -1, "MAL[c]": 1, "PROTON[c]": 3, "PROTON[p]": -3} false ["DCUB-MONOMER", "DCUA-MONOMER"] -"TRANS-RXN-106D-MALEATE/PROTON//MALEATE/PROTON.31." {"MALEATE[c]": 1, "MALEATE[p]": -1, "PROTON[c]": 3, "PROTON[p]": -3} false ["DCUB-MONOMER", "DCUA-MONOMER"] -"TRANS-RXN-106D-SUC/PROTON//SUC/PROTON.23." {"SUC[c]": 1, "PROTON[c]": 3, "SUC[p]": -1, "PROTON[p]": -3} false ["DCUB-MONOMER", "DCUA-MONOMER"] -"TRANS-RXN-108-5-METHYLAMINOMETHYL-2-SELENOURIDINE/PROTON//5-METHYLAMINOMETHYL-2-SELENOURIDINE/PROTON.87." {"5-METHYLAMINOMETHYL-2-SELENOURIDINE[p]": -1, "PROTON[c]": 1, "5-METHYLAMINOMETHYL-2-SELENOURIDINE[c]": 1, "PROTON[p]": -1} false ["NUPG-MONOMER"] -"TRANS-RXN-108-5-METHYLAMINOMETHYL-2-THIOURIDINE/PROTON//5-METHYLAMINOMETHYL-2-THIOURIDINE/PROTON.83." {"PROTON[c]": 1, "5-METHYLAMINOMETHYL-2-THIOURIDINE[c]": 1, "5-METHYLAMINOMETHYL-2-THIOURIDINE[p]": -1, "PROTON[p]": -1} false ["NUPG-MONOMER"] -"TRANS-RXN-108-ADENOSINE/PROTON//ADENOSINE/PROTON.35." {"ADENOSINE[p]": -1, "ADENOSINE[c]": 1, "PROTON[c]": 1, "PROTON[p]": -1} false ["NUPG-MONOMER"] -"TRANS-RXN-108-ADENOSINE5TRIPHOSPHO5ADENOSINE/PROTON//ADENOSINE5TRIPHOSPHO5ADENOSINE/PROTON.77." {"PROTON[c]": 1, "ADENOSINE5TRIPHOSPHO5ADENOSINE[c]": 1, "ADENOSINE5TRIPHOSPHO5ADENOSINE[p]": -1, "PROTON[p]": -1} false ["NUPG-MONOMER"] -"TRANS-RXN-108-ADENOSYL-P4/PROTON//ADENOSYL-P4/PROTON.39." {"ADENOSYL-P4[p]": -1, "PROTON[c]": 1, "ADENOSYL-P4[c]": 1, "PROTON[p]": -1} false ["NUPG-MONOMER"] -"TRANS-RXN-108-CPD-15544/PROTON//CPD-15544/PROTON.35." {"CPD-15544[c]": 1, "CPD-15544[p]": -1, "PROTON[c]": 1, "PROTON[p]": -1} false ["NUPG-MONOMER"] -"TRANS-RXN-108-CPD-16020/PROTON//CPD-16020/PROTON.35." {"PROTON[c]": 1, "CPD-16020[c]": 1, "CPD-16020[p]": -1, "PROTON[p]": -1} false ["NUPG-MONOMER"] -"TRANS-RXN-108-CPD0-1137/PROTON//CPD0-1137/PROTON.35." {"PROTON[c]": 1, "CPD0-1137[p]": -1, "CPD0-1137[c]": 1, "PROTON[p]": -1} false ["NUPG-MONOMER"] -"TRANS-RXN-108-CPD0-1311/PROTON//CPD0-1311/PROTON.35." {"CPD0-1311[p]": -1, "PROTON[p]": -1, "PROTON[c]": 1, "CPD0-1311[c]": 1} false ["NUPG-MONOMER"] -"TRANS-RXN-108-CPD0-1312/PROTON//CPD0-1312/PROTON.35." {"PROTON[c]": 1, "CPD0-1312[p]": -1, "CPD0-1312[c]": 1, "PROTON[p]": -1} false ["NUPG-MONOMER"] -"TRANS-RXN-108-CPD0-1319/PROTON//CPD0-1319/PROTON.35." {"PROTON[c]": 1, "CPD0-1319[c]": 1, "CPD0-1319[p]": -1, "PROTON[p]": -1} false ["NUPG-MONOMER"] 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{"URIDINE[c]": 1, "PROTON[c]": 1, "URIDINE[p]": -1, "PROTON[p]": -1} false ["NUPG-MONOMER"] -"TRANS-RXN-108-XANTHOSINE/PROTON//XANTHOSINE/PROTON.37." {"XANTHOSINE[p]": -1, "PROTON[p]": -1, "PROTON[c]": 1, "XANTHOSINE[c]": 1} false ["NUPG-MONOMER"] -"TRANS-RXN-108A" {"ADENOSINE[p]": -1, "ADENOSINE[c]": 1, "PROTON[c]": 1, "PROTON[p]": -1} false ["NUPC-MONOMER", "NUPG-MONOMER"] -"TRANS-RXN-108B" {"CYTIDINE[p]": -1, "PROTON[c]": 1, "CYTIDINE[c]": 1, "PROTON[p]": -1} false ["NUPC-MONOMER", "NUPG-MONOMER"] -"TRANS-RXN-108C" {"DEOXYADENOSINE[p]": -1, "DEOXYADENOSINE[c]": 1, "PROTON[c]": 1, "PROTON[p]": -1} false ["NUPC-MONOMER", "NUPG-MONOMER"] -"TRANS-RXN-108D" {"PROTON[c]": 1, "DEOXYCYTIDINE[p]": -1, "DEOXYCYTIDINE[c]": 1, "PROTON[p]": -1} false ["NUPC-MONOMER", "NUPG-MONOMER"] -"TRANS-RXN-108E" {"DEOXYINOSINE[c]": 1, "PROTON[c]": 1, "DEOXYINOSINE[p]": -1, "PROTON[p]": -1} false ["NUPC-MONOMER", "NUPG-MONOMER"] -"TRANS-RXN-108F" {"DEOXYURIDINE[c]": 1, "PROTON[c]": 1, "DEOXYURIDINE[p]": -1, 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["BRNQ-MONOMER"] -"TRANS-RXN-126A" {"NA+[c]": 1, "VAL[c]": 1, "NA+[p]": -1, "VAL[p]": -1} false ["BRNQ-MONOMER"] -"TRANS-RXN-126B" {"LEU[p]": -1, "LEU[c]": 1, "NA+[p]": -1, "NA+[c]": 1} false ["BRNQ-MONOMER"] -"TRANS-RXN-129" {"PROTON[c]": 2, "PROTON[p]": -2, "NA+[p]": 1, "NA+[c]": -1} false ["CPLX0-7629"] -"TRANS-RXN-130" {"PROTON[c]": 3, "PROTON[p]": -3, "NA+[p]": 2, "NA+[c]": -2} false ["NHAB-MONOMER"] -"TRANS-RXN-131" {"GLYCEROL[p]": -1, "GLYCEROL[c]": 1} true ["CPLX0-7654"] -"TRANS-RXN-132" {"URACIL[c]": 1, "URACIL[p]": -1, "PROTON[c]": 1, "PROTON[p]": -1} false ["B1006-MONOMER", "URAA-MONOMER"] -"TRANS-RXN-137" {"NITRITE[p]": -1, "NITRITE[c]": 1} false ["NARK-MONOMER", "NIRC-MONOMER"] -"TRANS-RXN-139" {"CL-[p]": -1, "CL-[c]": 1} false [] -"TRANS-RXN-141" {"MG+2[p]": -1, "MG+2[c]": 1} false ["CORA-MONOMER"] -"TRANS-RXN-141A" {"CO+2[p]": -1, "CO+2[c]": 1} false ["EG11167-MONOMER", "CORA-MONOMER"] -"TRANS-RXN-141B" {"NI+2[c]": 1, "NI+2[p]": -1} false ["CORA-MONOMER"] 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false ["CPLX0-7992"] -"TRANS-RXN-237-CPD0-933//CPD0-933.19." {"CPD0-933[e]": 1, "CPD0-933[c]": -1} false ["CPLX0-7992"] -"TRANS-RXN-237-CPD0-934//CPD0-934.19." {"CPD0-934[e]": 1, "CPD0-934[c]": -1} false ["CPLX0-7992"] -"TRANS-RXN-237-CPD0-935//CPD0-935.19." {"CPD0-935[e]": 1, "CPD0-935[c]": -1} false ["CPLX0-7992"] -"TRANS-RXN-237-CPD0-936//CPD0-936.19." {"CPD0-936[c]": -1, "CPD0-936[e]": 1} false ["CPLX0-7992"] -"TRANS-RXN-237-CPD0-937//CPD0-937.19." {"CPD0-937[c]": -1, "CPD0-937[e]": 1} false ["CPLX0-7992"] -"TRANS-RXN-237-CPD0-938//CPD0-938.19." {"CPD0-938[e]": 1, "CPD0-938[c]": -1} false ["CPLX0-7992"] -"TRANS-RXN-237-HEPTOSYL-KDO2-LIPID-IVA//HEPTOSYL-KDO2-LIPID-IVA.49." {"HEPTOSYL-KDO2-LIPID-IVA[c]": -1, "HEPTOSYL-KDO2-LIPID-IVA[e]": 1} false ["CPLX0-7992"] -"TRANS-RXN-237-KDO-LIPID-IVA//KDO-LIPID-IVA.29." {"KDO-LIPID-IVA[c]": -1, "KDO-LIPID-IVA[e]": 1} false ["CPLX0-7992"] -"TRANS-RXN-237-KDO2-LAUROYL-LIPID-IVA//KDO2-LAUROYL-LIPID-IVA.47." {"KDO2-LAUROYL-LIPID-IVA[c]": -1, "KDO2-LAUROYL-LIPID-IVA[e]": 1} false ["CPLX0-7992"] -"TRANS-RXN-237-KDO2-LIPID-A//KDO2-LIPID-A.27." {"KDO2-LIPID-A[e]": 1, "KDO2-LIPID-A[c]": -1} false ["CPLX0-7992"] -"TRANS-RXN-237-KDO2-LIPID-IVA-COLD//KDO2-LIPID-IVA-COLD.41." {"KDO2-LIPID-IVA-COLD[c]": -1, "KDO2-LIPID-IVA-COLD[e]": 1} false ["CPLX0-7992"] -"TRANS-RXN-237-KDO2-LIPID-IVA//KDO2-LIPID-IVA.31." {"KDO2-LIPID-IVA[e]": 1, "KDO2-LIPID-IVA[c]": -1} false ["CPLX0-7992"] -"TRANS-RXN-237-KDO2-PALMITOLEOYL-LIPID-IVA//KDO2-PALMITOLEOYL-LIPID-IVA.57." {"KDO2-PALMITOLEOYL-LIPID-IVA[c]": -1, "KDO2-PALMITOLEOYL-LIPID-IVA[e]": 1} false ["CPLX0-7992"] -"TRANS-RXN-237-L-ARA4N-MODIFIED-KDO2-LIPID-A//L-ARA4N-MODIFIED-KDO2-LIPID-A.61." {"L-ARA4N-MODIFIED-KDO2-LIPID-A[e]": 1, "L-ARA4N-MODIFIED-KDO2-LIPID-A[c]": -1} false ["CPLX0-7992"] -"TRANS-RXN-237-PHOSPHATIDYLETHANOLAMINE-KDO2//PHOSPHATIDYLETHANOLAMINE-KDO2.61." {"PHOSPHATIDYLETHANOLAMINE-KDO2[e]": 1, "PHOSPHATIDYLETHANOLAMINE-KDO2[c]": -1} false ["CPLX0-7992"] 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["YFEP-MONOMER"] -"TRANS-RXN-25-CPD0-1122/PROTON//CPD0-1122/PROTON.35." {"CPD0-1122[p]": -1, "PROTON[p]": -1, "PROTON[c]": 1, "CPD0-1122[c]": 1} false ["NANT-MONOMER"] -"TRANS-RXN-25-CPD0-1123/PROTON//CPD0-1123/PROTON.35." {"CPD0-1123[c]": 1, "CPD0-1123[p]": -1, "PROTON[c]": 1, "PROTON[p]": -1} false ["NANT-MONOMER"] -"TRANS-RXN-250" {"PI[c]": 1, "ADP[c]": 1, "PROTON[c]": 1, "MG+2[p]": -1, "MG+2[c]": 1, "ATP[c]": -1, "WATER[c]": -1} false ["MGTA-MONOMER"] -"TRANS-RXN-26" {"NITRITE[p]": 1, "PROTON[c]": 1, "NITRITE[c]": -1, "PROTON[p]": -1} false [] -"TRANS-RXN-261" {"GLT[c]": 1, "4-AMINO-BUTYRATE[c]": -1, "4-AMINO-BUTYRATE[p]": 1, "GLT[p]": -1} false ["XASA-MONOMER"] -"TRANS-RXN-262" {"ASN[p]": -1, "ASN[c]": 1, "PROTON[c]": 1, "PROTON[p]": -1} false ["ANSP-MONOMER"] -"TRANS-RXN-265" {"PI[c]": 1, "CYS[c]": 1, "ADP[c]": 1, "CYS[p]": -1, "PROTON[c]": 1, "ATP[c]": -1, "WATER[c]": -1} false ["CPLX0-8152"] -"TRANS-RXN-267-CPD0-1564//CPD0-1564.21." {"CPD0-1564[p]": 1, "CPD0-1564[c]": -1} false ["EG11902-MONOMER"] -"TRANS-RXN-267-CYSTINE//CYSTINE.17." {"CYSTINE[c]": -1, "CYSTINE[p]": 1} false ["EG11902-MONOMER"] -"TRANS-RXN-29" {"PROTON[c]": 1, "PRO[p]": -1, "PRO[c]": 1, "PROTON[p]": -1} false ["CPLX0-7642"] -"TRANS-RXN-29A" {"BETAINE[c]": 1, "PROTON[c]": 1, "BETAINE[p]": -1, "PROTON[p]": -1} false ["CPLX0-7642"] -"TRANS-RXN-3" {"PROTON[c]": 1, "K+[c]": 1, "K+[p]": -1, "PROTON[p]": -1} false ["TRKH-MONOMER", "TRKG-MONOMER"] -"TRANS-RXN-30-BETA-D-XYLOSE/PROTON//BETA-D-XYLOSE/PROTON.43." {"PROTON[c]": 1, "BETA-D-XYLOSE[c]": 1, "BETA-D-XYLOSE[p]": -1, "PROTON[p]": -1} false ["XYLE-MONOMER"] -"TRANS-RXN-30-CPD-15377/PROTON//CPD-15377/PROTON.35." {"PROTON[c]": 1, "CPD-15377[p]": -1, "CPD-15377[c]": 1, "PROTON[p]": -1} false ["XYLE-MONOMER"] -"TRANS-RXN-30-XYLOSE/PROTON//XYLOSE/PROTON.29." {"XYLOSE[c]": 1, "XYLOSE[p]": -1, "PROTON[c]": 1, "PROTON[p]": -1} false ["XYLE-MONOMER"] -"TRANS-RXN-31" {"XANTHOSINE[p]": -1, "PROTON[p]": -1, "PROTON[c]": 1, "XANTHOSINE[c]": 1} false ["XAPB-MONOMER", "NUPG-MONOMER"] -"TRANS-RXN-35-CPD-12521/PROTON//CPD-12521/PROTON.35." {"CPD-12521[c]": 1, "CPD-12521[p]": -1, "PROTON[c]": 1, "PROTON[p]": -1} false ["EXUT-MONOMER"] -"TRANS-RXN-35-CPD-14488/PROTON//CPD-14488/PROTON.35." {"CPD-14488[c]": 1, "CPD-14488[p]": -1, "PROTON[c]": 1, "PROTON[p]": -1} false ["EXUT-MONOMER"] -"TRANS-RXN-35-CPD-15530/PROTON//CPD-15530/PROTON.35." {"PROTON[c]": 1, "CPD-15530[p]": -1, "CPD-15530[c]": 1, "PROTON[p]": -1} false ["EXUT-MONOMER"] -"TRANS-RXN-40-ARABINOSE/PROTON//ARABINOSE/PROTON.35." {"ARABINOSE[p]": 1, "ARABINOSE[c]": -1, "PROTON[c]": 1, "PROTON[p]": -1} false ["YDEA-MONOMER"] -"TRANS-RXN-40-CPD-12045/PROTON//CPD-12045/PROTON.35." {"PROTON[c]": 1, "CPD-12045[p]": 1, "CPD-12045[c]": -1, "PROTON[p]": -1} false ["YDEA-MONOMER"] -"TRANS-RXN-40-CPD-15699/PROTON//CPD-15699/PROTON.35." {"CPD-15699[p]": 1, "CPD-15699[c]": -1, "PROTON[c]": 1, "PROTON[p]": -1} false ["YDEA-MONOMER"] -"TRANS-RXN-42" {"PROTON[c]": 1, "K+[c]": -1, "K+[p]": 1, "PROTON[p]": -1} false ["YJIO-MONOMER", "CMR-MONOMER", "CHAA-MONOMER", "CPLX0-7819", "KEFB-MONOMER"] -"TRANS-RXN-56" {"PROTON[c]": 1, "PROTON[p]": -1, "PHE[c]": 1, "PHE[p]": -1} false ["AROP-MONOMER", "PHEP-MONOMER"] -"TRANS-RXN-57" {"4-AMINO-BUTYRATE[c]": 1, "4-AMINO-BUTYRATE[p]": -1, "PROTON[c]": 1, "PROTON[p]": -1} false ["GABP-MONOMER"] -"TRANS-RXN-58" {"LYS[c]": 1, "PROTON[c]": 1, "LYS[p]": -1, "PROTON[p]": -1} false ["LYSP-MONOMER"] -"TRANS-RXN-62A" {"PROTON[c]": 1, "PROTON[p]": -1, "D-ALANINE[c]": 1, "D-ALANINE[p]": -1} false ["CYCA-MONOMER"] -"TRANS-RXN-62B" {"PROTON[c]": 1, "PROTON[p]": -1, "GLY[p]": -1, "GLY[c]": 1} false ["CYCA-MONOMER"] -"TRANS-RXN-68" {"LYS[c]": 1, "CADAVERINE[c]": -1, "CADAVERINE[p]": 1, "LYS[p]": -1} false ["CADB-MONOMER"] -"TRANS-RXN-69" {"PROTON[c]": 1, "PUTRESCINE[p]": -1, "PUTRESCINE[c]": 1, "PROTON[p]": -1} false ["YEEF-MONOMER", "POTE-MONOMER", "B1296-MONOMER"] -"TRANS-RXN-71" {"PROTON[c]": 1, "SER[c]": 1, "SER[p]": -1, "PROTON[p]": -1} false ["TDCC-MONOMER", "SDAC-MONOMER"] -"TRANS-RXN-72" {"PROTON[c]": 1, "THR[c]": 1, "THR[p]": -1, "PROTON[p]": -1} false ["TDCC-MONOMER"] -"TRANS-RXN-76" {"PROTON[c]": 1, "PROTON[p]": -1, "TRP[p]": -1, "TRP[c]": 1} false ["AROP-MONOMER", "MTR-MONOMER", "TNAB-MONOMER"] -"TRANS-RXN-77" {"PROTON[c]": 1, "PROTON[p]": -1, "TYR[c]": 1, "TYR[p]": -1} false ["TYRP-MONOMER", "AROP-MONOMER"] -"TRANS-RXN-8" {"FE+2[p]": -1, "FE+2[c]": 1} false ["EG11167-MONOMER", "FEOB-MONOMER"] -"TRANS-RXN-81-CPD-12537/PROTON//CPD-12537/PROTON.35." {"PROTON[c]": 1, "CPD-12537[c]": 1, "CPD-12537[p]": -1, "PROTON[p]": -1} false ["GNTP-MONOMER"] -"TRANS-RXN-82" {"PROTON[c]": 1, "Alpha-lactose[c]": -1, "Alpha-lactose[p]": 1, "PROTON[p]": -1} false ["B2170-MONOMER", "B0070-MONOMER"] -"TRANS-RXN-99" {"CHOLINE[p]": -1, "CHOLINE[c]": 1, "PROTON[c]": 1, "PROTON[p]": -1} false ["BETT-MONOMER"] -"TRANS-RXN0-0244" {"PROTON[c]": 1, "THR[c]": -1, "THR[p]": 1, "PROTON[p]": -1} false ["EG12134-MONOMER", "RHTC-MONOMER"] -"TRANS-RXN0-200" {"ZN+2[p]": 1, "PROTON[c]": 1, "ZN+2[c]": -1, "PROTON[p]": -1} false ["CPLX0-7641", "B0752-MONOMER"] -"TRANS-RXN0-206" {"AMMONIUM[p]": -1, "AMMONIUM[c]": 1} true ["CPLX0-7532"] -"TRANS-RXN0-207" {"PI[c]": 1, "ADP[c]": 1, "CU+[c]": -1, "PROTON[c]": 1, "ATP[c]": -1, "WATER[c]": -1, "CU+[p]": 1} false ["G6260-MONOMER"] -"TRANS-RXN0-211" {"PUTRESCINE[p]": 1, "PUTRESCINE[c]": -1, "L-ORNITHINE[c]": 1, "L-ORNITHINE[p]": -1} false ["POTE-MONOMER"] -"TRANS-RXN0-212" {"PROTON[c]": 1, "CADAVERINE[c]": 1, "CADAVERINE[p]": -1, "PROTON[p]": -1} false ["CADB-MONOMER"] -"TRANS-RXN0-222" {"PI[c]": 1, "ADP[c]": 1, "PROTON[c]": 1, "L-ASPARTATE[p]": -1, "ATP[c]": -1, "L-ASPARTATE[c]": 1, "WATER[c]": -1} false ["ABC-13-CPLX"] -"TRANS-RXN0-244" {"CD+2[c]": -1, "CD+2[p]": 1, "PROTON[c]": 1, "PROTON[p]": -1} false ["CPLX0-7641"] -"TRANS-RXN0-264" {"CPD-763[p]": 1, "CPD-763[c]": -1, "PROTON[c]": 1, "PROTON[p]": -1} false ["CPLX-7"] -"TRANS-RXN0-265-CPD-216//CPD-216.17." {"CPD-216[c]": -1, "CPD-216[p]": 1} false ["EG12713-MONOMER"] -"TRANS-RXN0-265-CPD-3729//CPD-3729.19." {"CPD-3729[p]": 1, "CPD-3729[c]": -1} false ["EG12713-MONOMER"] -"TRANS-RXN0-265-D-TRYPTOPHAN//D-TRYPTOPHAN.27." {"D-TRYPTOPHAN[c]": -1, "D-TRYPTOPHAN[p]": 1} false ["EG12713-MONOMER"] -"TRANS-RXN0-265-D-TYROSINE//D-TYROSINE.23." {"D-TYROSINE[c]": -1, "D-TYROSINE[p]": 1} false ["EG12713-MONOMER"] -"TRANS-RXN0-265-HIS//HIS.9." {"HIS[p]": 1, "HIS[c]": -1} false ["EG12713-MONOMER"] -"TRANS-RXN0-265-P-AMINO-BENZOATE//P-AMINO-BENZOATE.35." {"P-AMINO-BENZOATE[p]": 1, "P-AMINO-BENZOATE[c]": -1} false ["EG12713-MONOMER"] -"TRANS-RXN0-265-PHE//PHE.9." {"PHE[c]": -1, "PHE[p]": 1} false ["EG12713-MONOMER"] -"TRANS-RXN0-265-TRP//TRP.9." {"TRP[p]": 1, "TRP[c]": -1} false ["EG12713-MONOMER"] -"TRANS-RXN0-265-TYR//TYR.9." {"TYR[c]": -1, "TYR[p]": 1} false ["EG12713-MONOMER"] -"TRANS-RXN0-266" {"PROTON[c]": 1, "SPERMIDINE[p]": 1, "SPERMIDINE[c]": -1, "PROTON[p]": -1} false ["YDGEF-CPLX"] -"TRANS-RXN0-267-L-ALA-GAMMA-D-GLU-DAP/PROTON//L-ALA-GAMMA-D-GLU-DAP/PROTON.59." {"PROTON[c]": 1, "L-ALA-GAMMA-D-GLU-DAP[c]": 1, "L-ALA-GAMMA-D-GLU-DAP[p]": -1, "PROTON[p]": -1} false ["YJDL-MONOMER", "YHIP-MONOMER", "B1634-MONOMER"] -"TRANS-RXN0-268" {"PI[c]": 1, "L-ALA-GAMMA-D-GLU-DAP[p]": -1, "ADP[c]": 1, "PROTON[c]": 1, "ATP[c]": -1, "WATER[c]": -1, "L-ALA-GAMMA-D-GLU-DAP[c]": 1} false ["CPLX0-3970", "ABC-22-CPLX", "ABC-41-CPLX"] -"TRANS-RXN0-269" {"VAL[c]": -1, "VAL[p]": 1} false ["CPLX0-7684"] -"TRANS-RXN0-270" {"LEU[p]": 1, "LEU[c]": -1, "PROTON[c]": 1, "PROTON[p]": -1} false ["B4141-MONOMER", "G6984-MONOMER"] -"TRANS-RXN0-272" {"CPD-195[c]": 1, "CPD-195[p]": -1} false [] -"TRANS-RXN0-277" {"NADH[c]": -1, "NAD[c]": 1, "NADP[c]": -1, "PROTON[c]": 1, "NADPH[c]": 1, "PROTON[p]": -1} false ["PYRNUTRANSHYDROGEN-CPLX"] -"TRANS-RXN0-286" {"C6[c]": -1, "C6[p]": 1} false ["EG10344-MONOMER", "G6561-MONOMER"] -"TRANS-RXN0-288-ALA-GLY/PROTON//ALA-GLY/PROTON.31." {"PROTON[c]": 1, "PROTON[p]": -1, "ALA-GLY[c]": 1, "ALA-GLY[p]": -1} false ["B1634-MONOMER", "B0709-MONOMER", "YJDL-MONOMER", "YHIP-MONOMER"] -"TRANS-RXN0-288-CARNOSINE/PROTON//CARNOSINE/PROTON.35." {"CARNOSINE[p]": -1, "PROTON[p]": -1, "PROTON[c]": 1, "CARNOSINE[c]": 1} false ["B1634-MONOMER", "B0709-MONOMER", "YJDL-MONOMER", "YHIP-MONOMER"] -"TRANS-RXN0-288-CPD-10814/PROTON//CPD-10814/PROTON.35." {"PROTON[c]": 1, "CPD-10814[p]": -1, "CPD-10814[c]": 1, "PROTON[p]": -1} false ["B1634-MONOMER", "B0709-MONOMER", "YJDL-MONOMER", "YHIP-MONOMER"] -"TRANS-RXN0-288-CPD-13390/PROTON//CPD-13390/PROTON.35." {"PROTON[c]": 1, "CPD-13390[c]": 1, "CPD-13390[p]": -1, "PROTON[p]": -1} false ["B1634-MONOMER", "B0709-MONOMER", "YJDL-MONOMER", "YHIP-MONOMER"] -"TRANS-RXN0-288-CPD-13393/PROTON//CPD-13393/PROTON.35." {"PROTON[c]": 1, "CPD-13393[p]": -1, "CPD-13393[c]": 1, "PROTON[p]": -1} false ["B1634-MONOMER", "B0709-MONOMER", "YJDL-MONOMER", "YHIP-MONOMER"] -"TRANS-RXN0-288-CPD-13394/PROTON//CPD-13394/PROTON.35." {"PROTON[c]": 1, "CPD-13394[c]": 1, "CPD-13394[p]": -1, "PROTON[p]": -1} false ["B1634-MONOMER", "B0709-MONOMER", "YJDL-MONOMER", "YHIP-MONOMER"] -"TRANS-RXN0-288-CPD-13395/PROTON//CPD-13395/PROTON.35." {"PROTON[c]": 1, "CPD-13395[c]": 1, "CPD-13395[p]": -1, "PROTON[p]": -1} false ["B1634-MONOMER", "B0709-MONOMER", "YJDL-MONOMER", "YHIP-MONOMER"] -"TRANS-RXN0-288-CPD-13397/PROTON//CPD-13397/PROTON.35." {"PROTON[c]": 1, "PROTON[p]": -1, "CPD-13397[c]": 1, "CPD-13397[p]": -1} false ["B1634-MONOMER", "B0709-MONOMER", "YJDL-MONOMER", "YHIP-MONOMER"] -"TRANS-RXN0-288-CPD-13398/PROTON//CPD-13398/PROTON.35." {"PROTON[c]": 1, "PROTON[p]": -1, "CPD-13398[p]": -1, "CPD-13398[c]": 1} false ["B1634-MONOMER", "B0709-MONOMER", "YJDL-MONOMER", "YHIP-MONOMER"] -"TRANS-RXN0-288-CPD-13401/PROTON//CPD-13401/PROTON.35." {"PROTON[c]": 1, "CPD-13401[c]": 1, "CPD-13401[p]": -1, "PROTON[p]": -1} false ["B1634-MONOMER", "B0709-MONOMER", "YJDL-MONOMER", "YHIP-MONOMER"] 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[] -"TRANS-RXN0-551" {"CPD-763[p]": -1, "CPD-763[c]": 1} false ["CPLX0-7654"] -"TRANS-RXN0-552" {"SUC[c]": 1, "SUC[p]": -1} false [] -"TRANS-RXN0-553" {"FUM[p]": -1, "FUM[c]": 1} false [] -"TRANS-RXN0-554" {"L-ASPARTATE[p]": -1, "L-ASPARTATE[c]": 1} false ["YCHM-MONOMER"] -"TRANS-RXN0-556" {"CARBON-MONOXIDE[c]": -1, "CARBON-MONOXIDE[p]": 1} true [] -"TRANS-RXN0-557-R--ALLANTOIN//R--ALLANTOIN.27." {"R--ALLANTOIN[c]": 1, "R--ALLANTOIN[p]": -1} false [] -"TRANS-RXN0-557-S-ALLANTOIN//S-ALLANTOIN.25." {"S-ALLANTOIN[p]": -1, "S-ALLANTOIN[c]": 1} false [] -"TRANS-RXN0-560" {"URACIL[c]": -1, "URACIL[p]": 1} false [] -"TRANS-RXN0-561" {"XANTHINE[p]": 1, "XANTHINE[c]": -1} false [] -"TRANS-RXN0-562" {"HYPOXANTHINE[p]": -1, "HYPOXANTHINE[c]": 1} true ["G7504-MONOMER", "EG11939-MONOMER"] -"TRANS-RXN0-563" {"INDOLE[p]": -1, "INDOLE[c]": 1} true [] -"TRANS-RXN0-564" {"CAMP[c]": -1, "CAMP[p]": 1} true [] -"TRANS-RXN0-565" {"GMP[p]": 1, "GMP[c]": -1} false [] -"TRANS-RXN0-566" {"IMP[p]": 1, "IMP[c]": 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["G6458-MONOMER"] -"TRANS-RXN0-569-LL-DIAMINOPIMELATE//LL-DIAMINOPIMELATE.39." {"LL-DIAMINOPIMELATE[p]": 1, "LL-DIAMINOPIMELATE[c]": -1} false ["G6458-MONOMER"] -"TRANS-RXN0-569-LYS//LYS.9." {"LYS[c]": -1, "LYS[p]": 1} false ["G6458-MONOMER"] -"TRANS-RXN0-569-MET//MET.9." {"MET[p]": 1, "MET[c]": -1} false ["G6458-MONOMER"] -"TRANS-RXN0-569-N-ALPHA-ACETYLORNITHINE//N-ALPHA-ACETYLORNITHINE.49." {"N-ALPHA-ACETYLORNITHINE[c]": -1, "N-ALPHA-ACETYLORNITHINE[p]": 1} false ["G6458-MONOMER"] -"TRANS-RXN0-569-N-FORMYLMETHIONINE//N-FORMYLMETHIONINE.39." {"N-FORMYLMETHIONINE[p]": 1, "N-FORMYLMETHIONINE[c]": -1} false ["G6458-MONOMER"] -"TRANS-RXN0-569-N-METHYLTRYPTOPHAN//N-METHYLTRYPTOPHAN.39." {"N-METHYLTRYPTOPHAN[p]": 1, "N-METHYLTRYPTOPHAN[c]": -1} false ["G6458-MONOMER"] -"TRANS-RXN0-569-N5-METHYLGLUTAMINE//N5-METHYLGLUTAMINE.39." {"N5-METHYLGLUTAMINE[p]": 1, "N5-METHYLGLUTAMINE[c]": -1} false ["G6458-MONOMER"] -"TRANS-RXN0-569-PHE//PHE.9." {"PHE[c]": -1, "PHE[p]": 1} false ["G6458-MONOMER"] -"TRANS-RXN0-569-PRO//PRO.9." {"PRO[c]": -1, "PRO[p]": 1} false ["G6458-MONOMER"] -"TRANS-RXN0-569-SER//SER.9." {"SER[p]": 1, "SER[c]": -1} false ["G6458-MONOMER"] -"TRANS-RXN0-569-THR//THR.9." {"THR[p]": 1, "THR[c]": -1} false ["G6458-MONOMER"] -"TRANS-RXN0-569-TRP//TRP.9." {"TRP[p]": 1, "TRP[c]": -1} false ["G6458-MONOMER"] -"TRANS-RXN0-569-TYR//TYR.9." {"TYR[c]": -1, "TYR[p]": 1} false ["G6458-MONOMER"] -"TRANS-RXN0-569-VAL//VAL.9." {"VAL[c]": -1, "VAL[p]": 1} false ["G6458-MONOMER"] -"TRANS-RXN0-570" {"PYRUVATE[p]": 1, "PYRUVATE[c]": -1} false [] -"TRANS-RXN0-571" {"ACET[p]": -1, "PROTON[c]": 1, "ACET[c]": 1, "PROTON[p]": -1} false ["EG11512-MONOMER"] -"TRANS-RXN0-573-CPD-12822/ATP/WATER//CPD-12822/ADP/Pi/PROTON.45." {"PI[c]": 1, "CPD-12822[c]": 1, "ADP[c]": 1, "PROTON[c]": 1, "ATP[c]": -1, "WATER[c]": -1, "CPD-12822[p]": -1} false ["ABC-34-CPLX"] -"TRANS-RXN0-573-CPD-8260/ATP/WATER//CPD-8260/ADP/Pi/PROTON.43." {"PI[c]": 1, "ADP[c]": 1, "PROTON[c]": 1, "CPD-8260[p]": -1, "CPD-8260[c]": 1, "ATP[c]": -1, "WATER[c]": -1} false ["ABC-34-CPLX"] -"TRANS-RXN0-573-CPD0-2030/ATP/WATER//CPD0-2030/ADP/Pi/PROTON.45." {"PI[c]": 1, "ADP[c]": 1, "PROTON[c]": 1, "CPD0-2030[c]": 1, "ATP[c]": -1, "WATER[c]": -1, "CPD0-2030[p]": -1} false ["ABC-34-CPLX"] -"TRANS-RXN0-573-CPD0-2330/ATP/WATER//CPD0-2330/ADP/Pi/PROTON.45." {"PI[c]": 1, "CPD0-2330[p]": -1, "ADP[c]": 1, "PROTON[c]": 1, "CPD0-2330[c]": 1, "ATP[c]": -1, "WATER[c]": -1} false ["ABC-34-CPLX"] -"TRANS-RXN0-573-GLYCEROPHOSPHOGLYCEROL/ATP/WATER//GLYCEROPHOSPHOGLYCEROL/ADP/Pi/PROTON.71." {"PI[c]": 1, "GLYCEROPHOSPHOGLYCEROL[p]": -1, "ADP[c]": 1, "PROTON[c]": 1, "ATP[c]": -1, "WATER[c]": -1, "GLYCEROPHOSPHOGLYCEROL[c]": 1} false ["ABC-34-CPLX"] -"TRANS-RXN0-573-L-1-GLYCERO-PHOSPHORYLCHOLINE/ATP/WATER//L-1-GLYCERO-PHOSPHORYLCHOLINE/ADP/Pi/PROTON.85." {"PI[c]": 1, "ADP[c]": 1, "L-1-GLYCERO-PHOSPHORYLCHOLINE[p]": -1, "PROTON[c]": 1, "L-1-GLYCERO-PHOSPHORYLCHOLINE[c]": 1, "ATP[c]": -1, "WATER[c]": -1} false ["ABC-34-CPLX"] -"TRANS-RXN0-573-L-1-GLYCEROPHOSPHORYLETHANOL-AMINE/ATP/WATER//L-1-GLYCEROPHOSPHORYLETHANOL-AMINE/ADP/Pi/PROTON.95." {"PI[c]": 1, "L-1-GLYCEROPHOSPHORYLETHANOL-AMINE[p]": -1, "ADP[c]": 1, "PROTON[c]": 1, "ATP[c]": -1, "WATER[c]": -1, "L-1-GLYCEROPHOSPHORYLETHANOL-AMINE[c]": 1} false ["ABC-34-CPLX"] -"TRANS-RXN0-579" {"HYPOXANTHINE[p]": 1, "HYPOXANTHINE[c]": -1} false [] -"TRANS-RXN0-584" {"NI+2[c]": -1, "NI+2[p]": 1} false ["G7138-MONOMER"] -"TRANS-RXN0-585" {"CO+2[p]": 1, "CO+2[c]": -1} false ["G7138-MONOMER"] -"TRANS-RXN0-588" {"CHOLATE[c]": -1, "PROTON[c]": 1, "CHOLATE[p]": 1, "PROTON[p]": -1} false ["YJIO-MONOMER"] -"TRANS-RXN0-589" {"DEOXYCHOLATE[c]": -1, "PROTON[c]": 1, "DEOXYCHOLATE[p]": 1, "PROTON[p]": -1} false ["YJIO-MONOMER"] -"TRANS-RXN0-590" {"DEOXYCHOLATE[c]": 1, "DEOXYCHOLATE[p]": -1} false [] -"TRANS-RXN0-591" {"CPD-15189[p]": -1, "CPD-15189[c]": 1} false [] -"TRANS-RXN0-592" {"PROTON[c]": 1, "CPD-15189[p]": 1, "CPD-15189[c]": -1, "PROTON[p]": -1} false ["TRANS-CPLX-201"] -"TRANS-RXN0-593" {"PI[c]": 1, "ADP[c]": 1, "PROTON[c]": 1, "CYSTINE[c]": 1, "ATP[c]": -1, "CYSTINE[p]": -1, "WATER[c]": -1} false ["CPLX0-8152"] -"TRANSALDOL-RXN" {"D-SEDOHEPTULOSE-7-P[c]": 1, "FRUCTOSE-6P[c]": -1, "ERYTHROSE-4P[c]": -1, "GAP[c]": 1} true ["TRANSALDOLA-MONOMER", "TRANSALDOLB-CPLX"] -"TRANSENOYLCOARED-RXN-BUTYRYL-COA/NADP//CROTONYL-COA/NADPH/PROTON.44." {"NADPH[c]": 1, "NADP[c]": -1, "PROTON[c]": 1, "BUTYRYL-COA[c]": -1, "CROTONYL-COA[c]": 1} false ["TRANSENOYLCOARED-CPLX"] -"TRANSENOYLCOARED-RXN-CPD-10267/NADP//T2-DECENOYL-COA/NADPH/PROTON.45." {"NADPH[c]": 1, "NADP[c]": -1, "PROTON[c]": 1, "T2-DECENOYL-COA[c]": 1, "CPD-10267[c]": -1} false ["TRANSENOYLCOARED-CPLX"] -"TRANSENOYLCOARED-RXN-CPD-196/NADP//CPD0-2108/NADPH/PROTON.37." {"NADPH[c]": 1, "CPD-196[c]": -1, "PROTON[c]": 1, "CPD0-2108[c]": 1, "NADP[c]": -1} false ["TRANSENOYLCOARED-CPLX"] -"TRANSENOYLCOARED-RXN-HEXANOYL-COA/NADP//CPD0-2121/NADPH/PROTON.42." {"NADPH[c]": 1, "CPD0-2121[c]": 1, "PROTON[c]": 1, "HEXANOYL-COA[c]": -1, "NADP[c]": -1} false ["TRANSENOYLCOARED-CPLX"] -"TRANSENOYLCOARED-RXN-LAUROYLCOA-CPD/NADP//CPD-7222/NADPH/PROTON.43." {"NADPH[c]": 1, "NADP[c]": -1, "PROTON[c]": 1, "CPD-7222[c]": 1, "LAUROYLCOA-CPD[c]": -1} false ["TRANSENOYLCOARED-CPLX"] -"TRANSENOYLCOARED-RXN-PALMITYL-COA/NADP//CPD0-2117/NADPH/PROTON.42." {"NADPH[c]": 1, "CPD0-2117[c]": 1, "PROTON[c]": 1, "PALMITYL-COA[c]": -1, "NADP[c]": -1} false ["TRANSENOYLCOARED-CPLX"] -"TRANSENOYLCOARED-RXN-STEAROYL-COA/NADP//CPD-10262/NADPH/PROTON.42." {"NADPH[c]": 1, "NADP[c]": -1, "CPD-10262[c]": 1, "PROTON[c]": 1, "STEAROYL-COA[c]": -1} false ["TRANSENOYLCOARED-CPLX"] -"TRE6PHYDRO-RXN" {"TREHALOSE-6P[c]": -1, "WATER[c]": -1, "Glucopyranose[c]": 1, "GLC-6-P[c]": 1} false ["TRE6PHYDRO-MONOMER"] -"TREHALA-RXN[CCO-CYTOSOL]-TREHALOSE/WATER//GLC/ALPHA-GLUCOSE.48." {"TREHALOSE[c]": -1, "WATER[c]": -1, "ALPHA-GLUCOSE[c]": 1, "GLC[c]": 1} false ["TREHALACYTO-MONOMER"] -"TREHALOSE6PSYN-RXN" {"TREHALOSE-6P[c]": 1, "UDP[c]": 1, "ALPHA-GLC-6-P[c]": -1, "PROTON[c]": 1, "CPD-12575[c]": -1} false ["TREHALOSE6PSYN-MONOMER"] -"TREHALOSEPHOSPHA-RXN" {"TREHALOSE[c]": 1, "TREHALOSE-6P[c]": -1, "WATER[c]": -1, "PI[c]": 1} false ["TREHALOSEPHOSPHASYN-MONOMER"] -"TRIOSEPISOMERIZATION-RXN" {"DIHYDROXY-ACETONE-PHOSPHATE[c]": -1, "GAP[c]": 1} true ["TPI"] -"TRIPHOSPHATASE-RXN[CCO-CYTOSOL]-P3I/WATER//Pi/PPI.31." {"WATER[c]": -1, "PI[c]": 1, "PPI[c]": 1, "P3I[c]": -1} false ["CPLX0-243", "EG11603-MONOMER"] -"TRIPHOSPHATASE-RXN[CCO-PERI-BAC]-P3I/WATER//Pi/PPI.32." {"PI[p]": 1, "WATER[p]": -1, "PPI[p]": 1, "P3I[p]": -1} false ["ALKAPHOSPHA-CPLX"] -"TRYPSYN-RXN" {"WATER[c]": 1, "GAP[c]": 1, "SER[c]": -1, "INDOLE-3-GLYCEROL-P[c]": -1, "TRP[c]": 1} false ["TRYPSYN"] -"TRYPTOPHAN--TRNA-LIGASE-RXN-TRP/TRP-tRNAs/ATP/PROTON//Charged-TRP-tRNAs/AMP/PPI.52." {"Charged-TRP-tRNAs[c]": 1, "AMP[c]": 1, "PPI[c]": 1, "ATP[c]": -1, "TRP[c]": -1, "TRP-tRNAs[c]": -1} false ["TRPS-CPLX"] -"TRYPTOPHAN-RXN" {"WATER[c]": -1, "INDOLE[c]": 1, "PYRUVATE[c]": 1, "AMMONIUM[c]": 1, "TRP[c]": -1} true ["TRYPTOPHAN-CPLX"] -"TSA-REDUCT-RXN-GLYCERATE/NAD//TARTRONATE-S-ALD/NADH/PROTON.44." {"NADH[c]": -1, "PROTON[c]": -1, "GLYCERATE[c]": 1, "TARTRONATE-S-ALD[c]": -1, "NAD[c]": 1} false ["TSA-REDUCT-MONOMER"] -"TSA-REDUCT-RXN-GLYCERATE/NADP//TARTRONATE-S-ALD/NADPH/PROTON.46." {"NADPH[c]": -1, "NADP[c]": 1, "PROTON[c]": -1, "GLYCERATE[c]": 1, "TARTRONATE-S-ALD[c]": -1} false ["TSA-REDUCT-MONOMER"] -"TYROSINE--TRNA-LIGASE-RXN-TYR-tRNAs/TYR/ATP/PROTON//Charged-TYR-tRNAs/AMP/PPI.52." {"TYR[c]": -1, "AMP[c]": 1, "TYR-tRNAs[c]": -1, "PPI[c]": 1, "Charged-TYR-tRNAs[c]": 1, "ATP[c]": -1} false ["TYRS-CPLX"] -"TYROSINE-AMINOTRANSFERASE-RXN" {"GLT[c]": 1, "P-HYDROXY-PHENYLPYRUVATE[c]": 1, "TYR[c]": -1, "2-KETOGLUTARATE[c]": -1} true ["ASPAMINOTRANS-DIMER", "TYRB-DIMER"] -"UDP-NACMUR-ALA-LIG-RXN" {"PI[c]": 1, "ADP[c]": 1, "PROTON[c]": 1, "L-ALPHA-ALANINE[c]": -1, "UDP-N-ACETYLMURAMATE[c]": -1, "ATP[c]": -1, "CPD0-1456[c]": 1} false ["CPLX0-8014"] -"UDP-NACMURALA-GLU-LIG-RXN" {"PI[c]": 1, "ADP[c]": 1, "PROTON[c]": 1, "UDP-AA-GLUTAMATE[c]": 1, "ATP[c]": -1, "D-GLT[c]": -1, "CPD0-1456[c]": -1} false ["UDP-NACMURALA-GLU-LIG-MONOMER"] -"UDP-NACMURALGLDAPAALIG-RXN" {"PI[c]": 1, "UDP-AAGM-DIAMINOHEPTANEDIOATE[c]": -1, "ATP[c]": -1, "ADP[c]": 1, "PROTON[c]": 1, "D-ALA-D-ALA[c]": -1, "C1[c]": 1} false ["UDP-NACMURALGLDAPAALIG-MONOMER"] -"UDP-NACMURALGLDAPLIG-RXN" {"PI[c]": 1, "UDP-AAGM-DIAMINOHEPTANEDIOATE[c]": 1, "ADP[c]": 1, "PROTON[c]": 1, "MESO-DIAMINOPIMELATE[c]": -1, "UDP-AA-GLUTAMATE[c]": -1, "ATP[c]": -1} false ["UDP-NACMURALGLDAPLIG-MONOMER"] -"UDPACYLGLCNACDEACETYL-RXN" {"WATER[c]": -1, "UDP-OHMYR-GLUCOSAMINE[c]": 1, "UDP-OHMYR-ACETYLGLUCOSAMINE[c]": -1, "ACET[c]": 1} false ["UDPACYLGLCNACDEACETYL-MONOMER"] -"UDPGLCNACEPIM-RXN" {"UDP-N-ACETYL-D-GLUCOSAMINE[c]": -1, "UDP-MANNAC[c]": 1} true ["CPLX0-8008"] -"UDPGLUCEPIM-RXN" {"CPD-14553[c]": 1, "CPD-12575[c]": -1} true ["UDPGLUCEPIM-CPLX"] -"UDPHYDROXYMYRGLUCOSAMNACETYLTRANS-RXN-R-3-hydroxymyristoyl-ACPs/UDP-OHMYR-GLUCOSAMINE//OH-MYRISTOYL/ACP/PROTON.73." {"ACP[c]": 1, "PROTON[c]": 1, "R-3-hydroxymyristoyl-ACPs[c]": -1, "UDP-OHMYR-GLUCOSAMINE[c]": -1, "OH-MYRISTOYL[c]": 1} false ["CPLX0-8016"] -"UDPKIN-RXN" {"UTP[c]": 1, "UDP[c]": -1, "ADP[c]": 1, "ATP[c]": -1} false ["NUCLEOSIDE-DIP-KIN-CPLX"] -"UDPNACETYLGLUCOSAMACYLTRANS-RXN-R-3-hydroxymyristoyl-ACPs/UDP-N-ACETYL-D-GLUCOSAMINE//UDP-OHMYR-ACETYLGLUCOSAMINE/ACP.86." {"R-3-hydroxymyristoyl-ACPs[c]": -1, "UDP-OHMYR-ACETYLGLUCOSAMINE[c]": 1, "ACP[c]": 1, "UDP-N-ACETYL-D-GLUCOSAMINE[c]": -1} false ["UDPNACETYLGLUCOSAMACYLTRANS-CPLX"] -"UDPNACETYLGLUCOSAMENOLPYRTRANS-RXN" {"UDP-ACETYL-CARBOXYVINYL-GLUCOSAMINE[c]": 1, "PI[c]": 1, "PHOSPHO-ENOL-PYRUVATE[c]": -1, "UDP-N-ACETYL-D-GLUCOSAMINE[c]": -1} false ["UDPNACETYLGLUCOSAMENOLPYRTRANS-MONOMER"] -"UDPNACETYLMURAMATEDEHYDROG-RXN" {"NADPH[c]": -1, "UDP-ACETYL-CARBOXYVINYL-GLUCOSAMINE[c]": -1, "PROTON[c]": -1, "UDP-N-ACETYLMURAMATE[c]": 1, "NADP[c]": 1} false ["UDPNACETYLMURAMATEDEHYDROG-MONOMER"] -"UGD-RXN" {"NADH[c]": 2, "NAD[c]": -2, "PROTON[c]": 3, "UDP-GLUCURONATE[c]": 1, "CPD-12575[c]": -1, "WATER[c]": -1} false ["CPLX0-8098"] -"UNDECAPRENYL-DIPHOSPHATASE-RXN" {"WATER[c]": -1, "PI[c]": 1, "PROTON[c]": 1, "UNDECAPRENYL-DIPHOSPHATE[c]": -1, "CPD-9646[c]": 1} false ["G6439-MONOMER", "PGPPHOSPHAB-MONOMER"] -"URA-PHOSPH-RXN" {"URACIL[c]": 1, "DEOXYURIDINE[c]": -1, "DEOXY-D-RIBOSE-1-PHOSPHATE[c]": 1, "PI[c]": -1} true ["DEOA-CPLX"] -"URACIL-PRIBOSYLTRANS-RXN" {"URACIL[c]": -1, "PPI[c]": 1, "UMP[c]": 1, "PRPP[c]": -1} false ["URACIL-PRIBOSYLTRANS-CPLX"] -"UREIDOGLYCOLATE-LYASE-RXN" {"UREA[c]": 1, "GLYOX[c]": 1, "CPD-1091[c]": -1} false [] -"URIDINE-NUCLEOSIDASE-RXN" {"WATER[c]": -1, "URIDINE[c]": -1, "URACIL[c]": 1, "CPD0-1108[c]": 1} false ["CPLX0-7904", "G6358-MONOMER", "EG11082-MONOMER"] -"URIDINEKIN-RXN" {"URIDINE[c]": -1, "PROTON[c]": 1, "UMP[c]": 1, "ATP[c]": -1, "ADP[c]": 1} false ["UDK-MONOMER"] -"URKI-RXN" {"GTP[c]": -1, "URIDINE[c]": -1, "PROTON[c]": 1, "UMP[c]": 1, "GDP[c]": 1} false ["UDK-MONOMER"] -"UROGENDECARBOX-RXN" {"UROPORPHYRINOGEN-III[c]": -1, "PROTON[c]": -4, "COPROPORPHYRINOGEN_III[c]": 1, "CARBON-DIOXIDE[c]": 4} false ["UROGENDECARBOX-MONOMER"] -"UROGENIIISYN-RXN" {"WATER[c]": 1, "UROPORPHYRINOGEN-III[c]": 1, "HYDROXYMETHYLBILANE[c]": -1} false ["UROGENIIISYN-MONOMER"] -"UROPORIIIMETHYLTRANSA-RXN" {"UROPORPHYRINOGEN-III[c]": -1, "PROTON[c]": 1, "S-ADENOSYLMETHIONINE[c]": -1, "ADENOSYL-HOMO-CYS[c]": 1, "CPD-9038[c]": 1} false ["SIROHEMESYN-CPLX"] -"URPHOS-RXN" {"URACIL[c]": -1, "URIDINE[c]": 1, "RIBOSE-1P[c]": -1, "PI[c]": 1} true ["URPHOS-CPLX"] -"URUR-RXN" {"CPD0-2298[c]": -1, "WATER[c]": -1, "AMMONIUM[c]": 1, "CPD-1091[c]": 1} false ["G6284-MONOMER"] -"VALINE--TRNA-LIGASE-RXN-VAL-tRNAs/VAL/ATP/PROTON//Charged-VAL-tRNAs/AMP/PPI.52." {"VAL[c]": -1, "Charged-VAL-tRNAs[c]": 1, "AMP[c]": 1, "PPI[c]": 1, "ATP[c]": -1, "VAL-tRNAs[c]": -1} false 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{"CPD-377[CCO-CYTOSOL]":-1,"NADP[CCO-CYTOSOL]":-1,"25-DIDEHYDRO-D-GLUCONATE[CCO-CYTOSOL]":1,"NADPH[CCO-CYTOSOL]":1,"PROTON[CCO-CYTOSOL]":1} "R2L" [] +"1.1.1.283-RXN" {"LACTALD[CCO-CYTOSOL]":-1,"NADP[CCO-CYTOSOL]":-1,"METHYL-GLYOXAL[CCO-CYTOSOL]":1,"NADPH[CCO-CYTOSOL]":1,"PROTON[CCO-CYTOSOL]":1} "R2L" ["METHYLGLYREDUCT-MONOMER"] +"1.1.1.39-RXN" {"MAL[CCO-CYTOSOL]":-1,"NAD[CCO-CYTOSOL]":-1,"CARBON-DIOXIDE[CCO-CYTOSOL]":1,"PYRUVATE[CCO-CYTOSOL]":1,"NADH[CCO-CYTOSOL]":1} "L2R" ["MALIC-NAD-CPLX"] +"1.1.1.83-RXN" {"CPD-660[CCO-CYTOSOL]":-1,"NAD[CCO-CYTOSOL]":-1,"CARBON-DIOXIDE[CCO-CYTOSOL]":1,"PYRUVATE[CCO-CYTOSOL]":1,"NADH[CCO-CYTOSOL]":1} "L2R" ["G6986-MONOMER"] +"1.11.1.15-RXN" {"Red-Thioredoxin[CCO-CYTOSOL]":-1,"Alkyl-Hydro-Peroxides[CCO-CYTOSOL]":-1,"Ox-Thioredoxin[CCO-CYTOSOL]":1,"Alcohols[CCO-CYTOSOL]":1,"WATER[CCO-CYTOSOL]":1} "L2R" ["CPLX0-7747", "EG10108-MONOMER", "CPLX0-8157"] +"1.13.11.16-RXN" {"2-3-DIHYDROXYPHENYL-PROPIONATE[CCO-CYTOSOL]":-1,"OXYGEN-MOLECULE[CCO-CYTOSOL]":-1,"CPD-157[CCO-CYTOSOL]":1,"PROTON[CCO-CYTOSOL]":1} "L2R" ["DHPDIOXYGEN-CPLX"] +"1.5.1.20-RXN-5-METHYL-THF/NAD//METHYLENE-THF/NADH/PROTON.44." {"5-METHYL-THF[CCO-CYTOSOL]":-1,"NAD[CCO-CYTOSOL]":-1,"METHYLENE-THF[CCO-CYTOSOL]":1,"NADH[CCO-CYTOSOL]":1,"PROTON[CCO-CYTOSOL]":1} "BOTH" ["METHYLENETHFREDUCT-CPLX"] +"1.5.1.20-RXN-CPD-1302/NAD//CPD-12996/NADH/PROTON.36." {"CPD-1302[CCO-CYTOSOL]":-1,"NAD[CCO-CYTOSOL]":-1,"CPD-12996[CCO-CYTOSOL]":1,"NADH[CCO-CYTOSOL]":1,"PROTON[CCO-CYTOSOL]":1} "BOTH" ["METHYLENETHFREDUCT-CPLX"] +"1.8.4.4-RXN" {"CYSTINE[CCO-CYTOSOL]":-1,"GLUTATHIONE[CCO-CYTOSOL]":-2,"OXIDIZED-GLUTATHIONE[CCO-CYTOSOL]":1,"CYS[CCO-CYTOSOL]":2} "L2R" [] +"1PFRUCTPHOSN-RXN" {"ATP[CCO-CYTOSOL]":-1,"FRU1P[CCO-CYTOSOL]":-1,"ADP[CCO-CYTOSOL]":1,"FRUCTOSE-16-DIPHOSPHATE[CCO-CYTOSOL]":1,"PROTON[CCO-CYTOSOL]":1} "L2R" ["1-PFK"] +"1TRANSKETO-RXN" {"D-SEDOHEPTULOSE-7-P[CCO-CYTOSOL]":-1,"GAP[CCO-CYTOSOL]":-1,"RIBOSE-5P[CCO-CYTOSOL]":1,"XYLULOSE-5-PHOSPHATE[CCO-CYTOSOL]":1} "BOTH" ["CPLX0-1261", "TRANSKETOI-CPLX"] +"1TRANSKETO-RXN-D-SEDOHEPTULOSE-7-P/GAP//CPD-15318/XYLULOSE-5-PHOSPHATE.56." {"D-SEDOHEPTULOSE-7-P[CCO-CYTOSOL]":-1,"GAP[CCO-CYTOSOL]":-1,"CPD-15318[CCO-CYTOSOL]":1,"XYLULOSE-5-PHOSPHATE[CCO-CYTOSOL]":1} "BOTH" ["CPLX0-1261", "TRANSKETOI-CPLX"] +"1TRANSKETO-RXN-D-SEDOHEPTULOSE-7-P/GAP//CPD-15895/XYLULOSE-5-PHOSPHATE.56." {"D-SEDOHEPTULOSE-7-P[CCO-CYTOSOL]":-1,"GAP[CCO-CYTOSOL]":-1,"CPD-15895[CCO-CYTOSOL]":1,"XYLULOSE-5-PHOSPHATE[CCO-CYTOSOL]":1} "BOTH" ["CPLX0-1261", "TRANSKETOI-CPLX"] +"1TRANSKETO-RXN-D-SEDOHEPTULOSE-7-P/GAP//CPD-16551/XYLULOSE-5-PHOSPHATE.56." {"D-SEDOHEPTULOSE-7-P[CCO-CYTOSOL]":-1,"GAP[CCO-CYTOSOL]":-1,"CPD-16551[CCO-CYTOSOL]":1,"XYLULOSE-5-PHOSPHATE[CCO-CYTOSOL]":1} "BOTH" ["CPLX0-1261", "TRANSKETOI-CPLX"] +"2-DEHYDROPANTOATE-REDUCT-RXN" {"L-PANTOATE[CCO-CYTOSOL]":-1,"NADP[CCO-CYTOSOL]":-1,"2-DEHYDROPANTOATE[CCO-CYTOSOL]":1,"NADPH[CCO-CYTOSOL]":1,"PROTON[CCO-CYTOSOL]":1} "R2L" ["CPLX0-7643", "2-DEHYDROPANTOATE-REDUCT-MONOMER"] +"2-ISOPROPYLMALATESYN-RXN" {"2-KETO-ISOVALERATE[CCO-CYTOSOL]":-1,"ACETYL-COA[CCO-CYTOSOL]":-1,"WATER[CCO-CYTOSOL]":-1,"3-CARBOXY-3-HYDROXY-ISOCAPROATE[CCO-CYTOSOL]":1,"CO-A[CCO-CYTOSOL]":1,"PROTON[CCO-CYTOSOL]":1} "L2R" ["2-ISOPROPYLMALATESYN-MONOMER"] +"2-METHYLCITRATE-DEHYDRATASE-RXN" {"CPD-622[CCO-CYTOSOL]":-1,"CPD-1136[CCO-CYTOSOL]":1,"WATER[CCO-CYTOSOL]":1} "L2R" ["G6199-MONOMER"] +"2-METHYLCITRATE-SYNTHASE-RXN" {"OXALACETIC_ACID[CCO-CYTOSOL]":-1,"PROPIONYL-COA[CCO-CYTOSOL]":-1,"WATER[CCO-CYTOSOL]":-1,"CPD-622[CCO-CYTOSOL]":1,"CO-A[CCO-CYTOSOL]":1,"PROTON[CCO-CYTOSOL]":1} "L2R" ["CPLX0-251"] +"2-OCTAPRENYL-6-METHOXYPHENOL-HYDROX-RXN" {"2-OCTAPRENYL-6-METHOXYPHENOL[CCO-CYTOSOL]":-1,"NADPH[CCO-CYTOSOL]":-1,"OXYGEN-MOLECULE[CCO-CYTOSOL]":-1,"PROTON[CCO-CYTOSOL]":-1,"OCTAPRENYL-METHOXY-BENZOQUINONE[CCO-CYTOSOL]":1,"NADP[CCO-CYTOSOL]":1,"WATER[CCO-CYTOSOL]":1} "L2R" ["OCTAPRENYL-METHOXYPHENOL-OH-MONOMER"] +"2-OCTAPRENYL-6-OHPHENOL-METHY-RXN" {"S-ADENOSYLMETHIONINE[CCO-CYTOSOL]":-1,"2-OCTAPRENYL-6-HYDROXYPHENOL[CCO-CYTOSOL]":-1,"2-OCTAPRENYL-6-METHOXYPHENOL[CCO-CYTOSOL]":1,"ADENOSYL-HOMO-CYS[CCO-CYTOSOL]":1,"PROTON[CCO-CYTOSOL]":1} "L2R" ["DHHB-METHYLTRANSFER-MONOMER"] +"2-OCTAPRENYL-METHOXY-BENZOQ-METH-RXN" {"S-ADENOSYLMETHIONINE[CCO-CYTOSOL]":-1,"OCTAPRENYL-METHOXY-BENZOQUINONE[CCO-CYTOSOL]":-1,"OCTAPRENYL-METHYL-METHOXY-BENZQ[CCO-CYTOSOL]":1,"ADENOSYL-HOMO-CYS[CCO-CYTOSOL]":1,"PROTON[CCO-CYTOSOL]":1} "L2R" ["2-OCTAPRENYL-METHOXY-BENZOQ-METH-MONOMER"] +"2-OCTAPRENYLPHENOL-HYDROX-RXN" 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{"S-ADENOSYLMETHIONINE[CCO-CYTOSOL]":-1,"PROTEIN-L-BETA-ISOASPARTATES[CCO-CYTOSOL]":-1,"ADENOSYL-HOMO-CYS[CCO-CYTOSOL]":1,"PROTEIN-L-BETA-ISOSPARTATE-METHYL-ESTERS[CCO-CYTOSOL]":1} "L2R" ["EG10689-MONOMER"] +"2.1.1.79-RXN-S-ADENOSYLMETHIONINE/CPD-18361//CPD-18373/ADENOSYL-HOMO-CYS/PROTON.67." {"S-ADENOSYLMETHIONINE[CCO-CYTOSOL]":-1,"CPD-18361[CCO-CYTOSOL]":-1,"CPD-18373[CCO-CYTOSOL]":1,"ADENOSYL-HOMO-CYS[CCO-CYTOSOL]":1,"PROTON[CCO-CYTOSOL]":1} "L2R" ["CFA-CPLX"] +"2.1.1.79-RXN-S-ADENOSYLMETHIONINE/CPD-18362//CPD-18406/ADENOSYL-HOMO-CYS/PROTON.67." {"S-ADENOSYLMETHIONINE[CCO-CYTOSOL]":-1,"CPD-18362[CCO-CYTOSOL]":-1,"CPD-18406[CCO-CYTOSOL]":1,"ADENOSYL-HOMO-CYS[CCO-CYTOSOL]":1,"PROTON[CCO-CYTOSOL]":1} "L2R" ["CFA-CPLX"] +"2.1.1.79-RXN-S-ADENOSYLMETHIONINE/CPD-18367//CPD-18371/ADENOSYL-HOMO-CYS/PROTON.67." {"S-ADENOSYLMETHIONINE[CCO-CYTOSOL]":-1,"CPD-18367[CCO-CYTOSOL]":-1,"CPD-18371[CCO-CYTOSOL]":1,"ADENOSYL-HOMO-CYS[CCO-CYTOSOL]":1,"PROTON[CCO-CYTOSOL]":1} "L2R" ["CFA-CPLX"] 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"L2R" ["CPLX0-8262", "AMP-NUCLEOSID-CPLX"] +"AMP-NUCLEOSID-RXN-AMP/WATER//CPD-16551/ADENINE.29." {"AMP[CCO-CYTOSOL]":-1,"WATER[CCO-CYTOSOL]":-1,"CPD-16551[CCO-CYTOSOL]":1,"ADENINE[CCO-CYTOSOL]":1} "L2R" ["CPLX0-8262", "AMP-NUCLEOSID-CPLX"] +"AMPSYN-RXN" {"ADENYLOSUCC[CCO-CYTOSOL]":-1,"FUM[CCO-CYTOSOL]":1,"AMP[CCO-CYTOSOL]":1} "L2R" ["CPLX0-7959"] +"AMYLOMALT-RXN" {"MALTOTETRAOSE[CCO-CYTOSOL]":-1,"Glucopyranose[CCO-CYTOSOL]":-1,"MALTOTRIOSE[CCO-CYTOSOL]":1,"MALTOSE[CCO-CYTOSOL]":1} "BOTH" ["AMYLOMALT-MONOMER"] +"AMYLOMALT-RXN-MALTOTETRAOSE/ALPHA-GLUCOSE//MALTOTRIOSE/MALTOSE.49." {"MALTOTETRAOSE[CCO-CYTOSOL]":-1,"ALPHA-GLUCOSE[CCO-CYTOSOL]":-1,"MALTOTRIOSE[CCO-CYTOSOL]":1,"MALTOSE[CCO-CYTOSOL]":1} "BOTH" ["AMYLOMALT-MONOMER"] +"AMYLOMALT-RXN-MALTOTETRAOSE/GLC//MALTOTRIOSE/MALTOSE.39." {"MALTOTETRAOSE[CCO-CYTOSOL]":-1,"GLC[CCO-CYTOSOL]":-1,"MALTOTRIOSE[CCO-CYTOSOL]":1,"MALTOSE[CCO-CYTOSOL]":1} "BOTH" ["AMYLOMALT-MONOMER"] +"ANTHRANSYN-RXN" 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"L2R" ["ARGSUCCTRAN-MONOMER"] +"ARGSUCCINLYA-RXN" {"L-ARGININO-SUCCINATE[CCO-CYTOSOL]":-1,"ARG[CCO-CYTOSOL]":1,"FUM[CCO-CYTOSOL]":1} "BOTH" ["ARGSUCCINLYA-MONOMER"] +"ARGSUCCINSYN-RXN" {"L-ASPARTATE[CCO-CYTOSOL]":-1,"L-CITRULLINE[CCO-CYTOSOL]":-1,"ATP[CCO-CYTOSOL]":-1,"L-ARGININO-SUCCINATE[CCO-CYTOSOL]":1,"AMP[CCO-CYTOSOL]":1,"PPI[CCO-CYTOSOL]":1,"PROTON[CCO-CYTOSOL]":1} "L2R" ["CPLX0-238"] +"ASNSYNA-RXN" {"L-ASPARTATE[CCO-CYTOSOL]":-1,"AMMONIUM[CCO-CYTOSOL]":-1,"ATP[CCO-CYTOSOL]":-1,"ASN[CCO-CYTOSOL]":1,"AMP[CCO-CYTOSOL]":1,"PPI[CCO-CYTOSOL]":1,"PROTON[CCO-CYTOSOL]":1} "L2R" ["ASNSYNA-CPLX", "ASNSYNB-CPLX"] +"ASNSYNB-RXN" {"GLN[CCO-CYTOSOL]":-1,"L-ASPARTATE[CCO-CYTOSOL]":-1,"ATP[CCO-CYTOSOL]":-1,"WATER[CCO-CYTOSOL]":-1,"GLT[CCO-CYTOSOL]":1,"ASN[CCO-CYTOSOL]":1,"AMP[CCO-CYTOSOL]":1,"PPI[CCO-CYTOSOL]":1,"PROTON[CCO-CYTOSOL]":1} "L2R" ["ASNSYNB-CPLX"] +"ASPAMINOTRANS-RXN" 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{"GTP[CCO-CYTOSOL]":-1,"WATER[CCO-CYTOSOL]":-1,"GMP[CCO-CYTOSOL]":1,"PPI[CCO-CYTOSOL]":1,"PROTON[CCO-CYTOSOL]":1} "L2R" ["CPLX0-7692"] +"O-SUCCHOMOSERLYASE-RXN" {"CYS[CCO-CYTOSOL]":-1,"O-SUCCINYL-L-HOMOSERINE[CCO-CYTOSOL]":-1,"SUC[CCO-CYTOSOL]":1,"L-CYSTATHIONINE[CCO-CYTOSOL]":1,"PROTON[CCO-CYTOSOL]":1} "BOTH" ["O-SUCCHOMOSERLYASE-CPLX"] +"O-SUCCINYLBENZOATE-COA-LIG-RXN" {"ATP[CCO-CYTOSOL]":-1,"O-SUCCINYLBENZOATE[CCO-CYTOSOL]":-1,"CO-A[CCO-CYTOSOL]":-1,"AMP[CCO-CYTOSOL]":1,"CPD-6972[CCO-CYTOSOL]":1,"PPI[CCO-CYTOSOL]":1} "L2R" ["MENE-CPLX"] +"O-SUCCINYLBENZOATE-COA-SYN-RXN" {"CPD-9923[CCO-CYTOSOL]":-1,"O-SUCCINYLBENZOATE[CCO-CYTOSOL]":1,"WATER[CCO-CYTOSOL]":1} "L2R" ["O-SUCCINYLBENZOATE-COA-SYN-MONOMER"] +"OCTAPRENYL-METHYL-METHOXY-BENZOQ-OH-RXN" {"OCTAPRENYL-METHYL-METHOXY-BENZQ[CCO-CYTOSOL]":-1,"Donor-H2[CCO-CYTOSOL]":-1,"OXYGEN-MOLECULE[CCO-CYTOSOL]":-1,"OCTAPRENYL-METHYL-OH-METHOXY-BENZQ[CCO-CYTOSOL]":1,"Acceptor[CCO-CYTOSOL]":1,"WATER[CCO-CYTOSOL]":1} "L2R" ["OCTAPRENYL-METHYL-METHOXY-BENZOQ-OH-MON"] +"OHACYL-COA-DEHYDROG-RXN-NAD/CPD0-2171//NADH/CPD-10284/PROTON.37." {"NAD[CCO-CYTOSOL]":-1,"CPD0-2171[CCO-CYTOSOL]":-1,"NADH[CCO-CYTOSOL]":1,"CPD-10284[CCO-CYTOSOL]":1,"PROTON[CCO-CYTOSOL]":1} "L2R" ["G7212-MONOMER", "FADB-MONOMER"] +"OHACYL-COA-DEHYDROG-RXN-NAD/CPD0-2253//NADH/CPD-10260/PROTON.37." {"NAD[CCO-CYTOSOL]":-1,"CPD0-2253[CCO-CYTOSOL]":-1,"NADH[CCO-CYTOSOL]":1,"CPD-10260[CCO-CYTOSOL]":1,"PROTON[CCO-CYTOSOL]":1} "L2R" ["G7212-MONOMER", "FADB-MONOMER"] +"OHACYL-COA-DEHYDROG-RXN-NAD/POLYMER-INST-L-3-HYDROXYACYL-COA-C12-H24//NADH/3-OXOPALMITOYL-COA/PROTON.77." {"NAD[CCO-CYTOSOL]":-1,"POLYMER-INST-L-3-HYDROXYACYL-COA-C12-H24[CCO-CYTOSOL]":-1,"NADH[CCO-CYTOSOL]":1,"3-OXOPALMITOYL-COA[CCO-CYTOSOL]":1,"PROTON[CCO-CYTOSOL]":1} "L2R" ["G7212-MONOMER", "FADB-MONOMER"] +"OHACYL-COA-DEHYDROG-RXN-NAD/POLYMER-INST-L-3-HYDROXYACYL-COA-C16-H32//NADH/POLYMER-INST-3-KETOACYL-COA-C16-H32/PROTON.94." {"NAD[CCO-CYTOSOL]":-1,"POLYMER-INST-L-3-HYDROXYACYL-COA-C16-H32[CCO-CYTOSOL]":-1,"NADH[CCO-CYTOSOL]":1,"POLYMER-INST-3-KETOACYL-COA-C16-H32[CCO-CYTOSOL]":1,"PROTON[CCO-CYTOSOL]":1} "L2R" ["G7212-MONOMER", "FADB-MONOMER"] +"OHBUTYRYL-COA-EPIM-RXN-CPD-14916//CPD-22313.21." {"CPD-14916[CCO-CYTOSOL]":-1,"CPD-22313[CCO-CYTOSOL]":1} "BOTH" ["G7212-MONOMER", "FADB-MONOMER"] +"OHBUTYRYL-COA-EPIM-RXN-CPD-650//S-3-HYDROXYBUTANOYL-COA.33." {"CPD-650[CCO-CYTOSOL]":-1,"S-3-HYDROXYBUTANOYL-COA[CCO-CYTOSOL]":1} "BOTH" ["G7212-MONOMER", "FADB-MONOMER"] +"OHBUTYRYL-COA-EPIM-RXN-POLYMER-INST-D-3-HYDROXYACYL-COA-C10-H20//CPD0-2171.52." {"POLYMER-INST-D-3-HYDROXYACYL-COA-C10-H20[CCO-CYTOSOL]":-1,"CPD0-2171[CCO-CYTOSOL]":1} "BOTH" ["G7212-MONOMER", "FADB-MONOMER"] +"OHBUTYRYL-COA-EPIM-RXN-POLYMER-INST-D-3-HYDROXYACYL-COA-C12-H24//POLYMER-INST-L-3-HYDROXYACYL-COA-C12-H24.83." {"POLYMER-INST-D-3-HYDROXYACYL-COA-C12-H24[CCO-CYTOSOL]":-1,"POLYMER-INST-L-3-HYDROXYACYL-COA-C12-H24[CCO-CYTOSOL]":1} "BOTH" ["G7212-MONOMER", "FADB-MONOMER"] +"OHBUTYRYL-COA-EPIM-RXN-POLYMER-INST-D-3-HYDROXYACYL-COA-C14-H28//CPD0-2253.52." {"POLYMER-INST-D-3-HYDROXYACYL-COA-C14-H28[CCO-CYTOSOL]":-1,"CPD0-2253[CCO-CYTOSOL]":1} "BOTH" ["G7212-MONOMER", "FADB-MONOMER"] +"OHBUTYRYL-COA-EPIM-RXN-POLYMER-INST-D-3-HYDROXYACYL-COA-C16-H32//POLYMER-INST-L-3-HYDROXYACYL-COA-C16-H32.83." {"POLYMER-INST-D-3-HYDROXYACYL-COA-C16-H32[CCO-CYTOSOL]":-1,"POLYMER-INST-L-3-HYDROXYACYL-COA-C16-H32[CCO-CYTOSOL]":1} "BOTH" ["G7212-MONOMER", "FADB-MONOMER"] +"OHBUTYRYL-COA-EPIM-RXN-POLYMER-INST-D-3-HYDROXYACYL-COA-C2-H4//OH-HEXANOYL-COA.56." {"POLYMER-INST-D-3-HYDROXYACYL-COA-C2-H4[CCO-CYTOSOL]":-1,"OH-HEXANOYL-COA[CCO-CYTOSOL]":1} "BOTH" ["G7212-MONOMER", "FADB-MONOMER"] +"OHBUTYRYL-COA-EPIM-RXN-POLYMER-INST-D-3-HYDROXYACYL-COA-C6-H12//CPD0-2244.51." {"POLYMER-INST-D-3-HYDROXYACYL-COA-C6-H12[CCO-CYTOSOL]":-1,"CPD0-2244[CCO-CYTOSOL]":1} "BOTH" ["G7212-MONOMER", "FADB-MONOMER"] +"OHBUTYRYL-COA-EPIM-RXN-POLYMER-INST-D-3-HYDROXYACYL-COA-C8-H16//CPD0-2107.51." {"POLYMER-INST-D-3-HYDROXYACYL-COA-C8-H16[CCO-CYTOSOL]":-1,"CPD0-2107[CCO-CYTOSOL]":1} "BOTH" ["G7212-MONOMER", "FADB-MONOMER"] +"OHMETHYLBILANESYN-RXN" {"PORPHOBILINOGEN[CCO-CYTOSOL]":-4,"WATER[CCO-CYTOSOL]":-1,"AMMONIUM[CCO-CYTOSOL]":4,"HYDROXYMETHYLBILANE[CCO-CYTOSOL]":1} "L2R" ["OHMETHYLBILANESYN-MONOMER"] +"OHMETPYRKIN-RXN" {"ATP[CCO-CYTOSOL]":-1,"HMP[CCO-CYTOSOL]":-1,"ADP[CCO-CYTOSOL]":1,"AMINO-HYDROXYMETHYL-METHYL-PYR-P[CCO-CYTOSOL]":1,"PROTON[CCO-CYTOSOL]":1} "L2R" ["HMP-P-KIN-CPLX", "PDXK-CPLX"] +"ORNCARBAMTRANSFER-RXN" {"L-ORNITHINE[CCO-CYTOSOL]":-1,"CARBAMOYL-P[CCO-CYTOSOL]":-1,"L-CITRULLINE[CCO-CYTOSOL]":1,"Pi[CCO-CYTOSOL]":1,"PROTON[CCO-CYTOSOL]":1} "BOTH" ["ORNCARBAMTRANSFERF-CPLX", "ORNCARBAMTRANSFERI-CPLX"] +"ORNDECARBOX-RXN" {"L-ORNITHINE[CCO-CYTOSOL]":-1,"PROTON[CCO-CYTOSOL]":-1,"CARBON-DIOXIDE[CCO-CYTOSOL]":1,"PUTRESCINE[CCO-CYTOSOL]":1} "L2R" ["ORNDECARBOXDEG-CPLX", "ORNDECARBOX-BIO-CPLX"] +"OROPRIBTRANS-RXN" {"OROTIDINE-5-PHOSPHATE[CCO-CYTOSOL]":-1,"PPI[CCO-CYTOSOL]":-1,"PRPP[CCO-CYTOSOL]":1,"OROTATE[CCO-CYTOSOL]":1} "BOTH" ["OROPRIBTRANS-CPLX"] +"OROTPDECARB-RXN" {"OROTIDINE-5-PHOSPHATE[CCO-CYTOSOL]":-1,"PROTON[CCO-CYTOSOL]":-1,"CARBON-DIOXIDE[CCO-CYTOSOL]":1,"UMP[CCO-CYTOSOL]":1} "L2R" ["OROTPDECARB-CPLX"] +"OXALOACETATE-TAUTOMERASE-RXN" {"OXALACETIC_ACID[CCO-CYTOSOL]":-1,"ENOL-OXALOACETATE[CCO-CYTOSOL]":1} "R2L" ["FUMARASE-A"] +"OXALODECARB-RXN" {"OXALACETIC_ACID[CCO-CYTOSOL]":-1,"PROTON[CCO-CYTOSOL]":-1,"PYRUVATE[CCO-CYTOSOL]":1,"CARBON-DIOXIDE[CCO-CYTOSOL]":1} "L2R" ["KDPGALDOL-4OH2OXOGLUTARALDOL-CPLX", "MALIC-NADP-CPLX", "MALIC-NAD-CPLX"] +"OXALYL-COA-DECARBOXYLASE-RXN" {"OXALYL-COA[CCO-CYTOSOL]":-1,"PROTON[CCO-CYTOSOL]":-1,"CARBON-DIOXIDE[CCO-CYTOSOL]":1,"FORMYL-COA[CCO-CYTOSOL]":1} "L2R" ["CPLX0-7878"] +"OXAMATE-CARBAMOYLTRANSFERASE-RXN" {"OXAMATE[CCO-CYTOSOL]":-1,"CARBAMOYL-P[CCO-CYTOSOL]":-1,"CPD-389[CCO-CYTOSOL]":1,"Pi[CCO-CYTOSOL]":1} "R2L" [] +"P-PANTOCYSDECARB-RXN" {"R-4-PHOSPHOPANTOTHENOYL-L-CYSTEINE[CCO-CYTOSOL]":-1,"PROTON[CCO-CYTOSOL]":-1,"PANTETHEINE-P[CCO-CYTOSOL]":1,"CARBON-DIOXIDE[CCO-CYTOSOL]":1} "L2R" ["CPLX0-341"] +"P-PANTOCYSLIG-RXN" {"4-P-PANTOTHENATE[CCO-CYTOSOL]":-1,"CYS[CCO-CYTOSOL]":-1,"CTP[CCO-CYTOSOL]":-1,"CMP[CCO-CYTOSOL]":1,"R-4-PHOSPHOPANTOTHENOYL-L-CYSTEINE[CCO-CYTOSOL]":1,"PPI[CCO-CYTOSOL]":1,"PROTON[CCO-CYTOSOL]":1} "L2R" ["CPLX0-341"] +"PABASYN-RXN" {"GLN[CCO-CYTOSOL]":-1,"CHORISMATE[CCO-CYTOSOL]":-1,"4-AMINO-4-DEOXYCHORISMATE[CCO-CYTOSOL]":1,"GLT[CCO-CYTOSOL]":1} "BOTH" ["PABASYN-CPLX"] +"PANTEPADENYLYLTRAN-RXN" {"PANTETHEINE-P[CCO-CYTOSOL]":-1,"ATP[CCO-CYTOSOL]":-1,"PROTON[CCO-CYTOSOL]":-1,"DEPHOSPHO-COA[CCO-CYTOSOL]":1,"PPI[CCO-CYTOSOL]":1} "L2R" ["COADTRI-CPLX"] +"PANTETHEINE-KINASE-RXN" {"CPD-511[CCO-CYTOSOL]":-1,"ATP[CCO-CYTOSOL]":-1,"PANTETHEINE-P[CCO-CYTOSOL]":1,"ADP[CCO-CYTOSOL]":1,"PROTON[CCO-CYTOSOL]":1} "L2R" ["PANTOTHENATE-KIN-CPLX"] +"PANTOATE-BETA-ALANINE-LIG-RXN" {"B-ALANINE[CCO-CYTOSOL]":-1,"L-PANTOATE[CCO-CYTOSOL]":-1,"ATP[CCO-CYTOSOL]":-1,"PANTOTHENATE[CCO-CYTOSOL]":1,"AMP[CCO-CYTOSOL]":1,"PPI[CCO-CYTOSOL]":1,"PROTON[CCO-CYTOSOL]":1} "L2R" ["PANTOATE-BETA-ALANINE-LIG-CPLX"] +"PANTOTHENATE-KIN-RXN" {"PANTOTHENATE[CCO-CYTOSOL]":-1,"ATP[CCO-CYTOSOL]":-1,"4-P-PANTOTHENATE[CCO-CYTOSOL]":1,"ADP[CCO-CYTOSOL]":1,"PROTON[CCO-CYTOSOL]":1} "L2R" ["PANTOTHENATE-KIN-CPLX"] +"PDXJ-RXN" {"1-AMINO-PROPAN-2-ONE-3-PHOSPHATE[CCO-CYTOSOL]":-1,"DEOXYXYLULOSE-5P[CCO-CYTOSOL]":-1,"PYRIDOXINE-5P[CCO-CYTOSOL]":1,"Pi[CCO-CYTOSOL]":1,"PROTON[CCO-CYTOSOL]":1,"WATER[CCO-CYTOSOL]":2} "L2R" ["CPLX0-321"] +"PEPCARBOX-RXN" {"OXALACETIC_ACID[CCO-CYTOSOL]":-1,"Pi[CCO-CYTOSOL]":-1,"PHOSPHO-ENOL-PYRUVATE[CCO-CYTOSOL]":1,"HCO3[CCO-CYTOSOL]":1} "R2L" ["PEPCARBOX-CPLX"] +"PEPCARBOXYKIN-RXN" {"OXALACETIC_ACID[CCO-CYTOSOL]":-1,"ATP[CCO-CYTOSOL]":-1,"CARBON-DIOXIDE[CCO-CYTOSOL]":1,"PHOSPHO-ENOL-PYRUVATE[CCO-CYTOSOL]":1,"ADP[CCO-CYTOSOL]":1} "L2R" ["PEPCARBOXYKIN-MONOMER"] 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{"CPD-3709[CCO-PERI-BAC]":-1,"WATER[CCO-PERI-BAC]":-1,"CPD-3708[CCO-PERI-BAC]":1,"PROTON[CCO-PERI-BAC]":1} "L2R" ["CPDB-MONOMER"] +"RXN-14065" {"CMP[CCO-CYTOSOL]":-1,"WATER[CCO-CYTOSOL]":-1,"CYTOSINE[CCO-CYTOSOL]":1,"CPD-15317[CCO-CYTOSOL]":1} "L2R" ["CPLX0-8262"] +"RXN-14065-CMP/WATER//CYTOSINE/CPD-15318.30." {"CMP[CCO-CYTOSOL]":-1,"WATER[CCO-CYTOSOL]":-1,"CYTOSINE[CCO-CYTOSOL]":1,"CPD-15318[CCO-CYTOSOL]":1} "L2R" ["CPLX0-8262"] +"RXN-14065-CMP/WATER//CYTOSINE/CPD-16551.30." {"CMP[CCO-CYTOSOL]":-1,"WATER[CCO-CYTOSOL]":-1,"CYTOSINE[CCO-CYTOSOL]":1,"CPD-16551[CCO-CYTOSOL]":1} "L2R" ["CPLX0-8262"] +"RXN-14073" {"GLYCEROPHOSPHOGLYCEROL[CCO-CYTOSOL]":-1,"WATER[CCO-CYTOSOL]":-1,"GLYCEROL[CCO-CYTOSOL]":1,"GLYCEROL-3P[CCO-CYTOSOL]":1,"PROTON[CCO-CYTOSOL]":1} "L2R" ["GLYCPDIESTER-PERI-CPLX", "GLYCPDIESTER-CYTO-MONOMER"] +"RXN-14074" {"GTP[CCO-CYTOSOL]":-1,"AMP[CCO-CYTOSOL]":-1,"GDP[CCO-CYTOSOL]":1,"ADP[CCO-CYTOSOL]":1} "L2R" ["ADENYL-KIN-MONOMER"] +"RXN-14090[CCO-CYTOSOL]-CPD-3711/WATER//CYTIDINE/Pi.41." {"CPD-3711[CCO-CYTOSOL]":-1,"WATER[CCO-CYTOSOL]":-1,"CYTIDINE[CCO-CYTOSOL]":1,"Pi[CCO-CYTOSOL]":1} "L2R" ["EG11817-MONOMER"] +"RXN-14090[CCO-PERI-BAC]-CPD-3711/WATER//CYTIDINE/Pi.42." {"CPD-3711[CCO-PERI-BAC]":-1,"WATER[CCO-PERI-BAC]":-1,"CYTIDINE[CCO-PERI-BAC]":1,"Pi[CCO-PERI-BAC]":1} "L2R" ["ALKAPHOSPHA-CPLX", "APHA-CPLX", "CPDB-MONOMER"] +"RXN-14091" {"CPD-3725[CCO-PERI-BAC]":-1,"WATER[CCO-PERI-BAC]":-1,"CPD-3724[CCO-PERI-BAC]":1,"PROTON[CCO-PERI-BAC]":1} "L2R" ["CPDB-MONOMER"] +"RXN-14112" {"CPD-3713[CCO-PERI-BAC]":-1,"WATER[CCO-PERI-BAC]":-1,"CPD-3711[CCO-PERI-BAC]":1,"PROTON[CCO-PERI-BAC]":1} "L2R" ["CPDB-MONOMER"] +"RXN-14113" {"CPD-3707[CCO-PERI-BAC]":-1,"WATER[CCO-PERI-BAC]":-1,"CPD-3706[CCO-PERI-BAC]":1,"PROTON[CCO-PERI-BAC]":1} "L2R" ["CPDB-MONOMER"] +"RXN-14115" {"CPD-3724[CCO-PERI-BAC]":-1,"WATER[CCO-PERI-BAC]":-1,"URIDINE[CCO-PERI-BAC]":1,"Pi[CCO-PERI-BAC]":1} "L2R" ["ALKAPHOSPHA-CPLX", "CPDB-MONOMER"] +"RXN-14116" {"L-GLUTAMATE_GAMMA-SEMIALDEHYDE[CCO-CYTOSOL]":-1,"NAD[CCO-CYTOSOL]":-1,"WATER[CCO-CYTOSOL]":-1,"GLT[CCO-CYTOSOL]":1,"NADH[CCO-CYTOSOL]":1,"PROTON[CCO-CYTOSOL]":2} "L2R" ["PUTA-CPLX"] +"RXN-14124" {"CPD-3708[CCO-PERI-BAC]":-1,"WATER[CCO-PERI-BAC]":-1,"GUANOSINE[CCO-PERI-BAC]":1,"Pi[CCO-PERI-BAC]":1} "L2R" ["CPDB-MONOMER"] +"RXN-14126[CCO-CYTOSOL]-CPD-3706/WATER//ADENOSINE/Pi.42." {"CPD-3706[CCO-CYTOSOL]":-1,"WATER[CCO-CYTOSOL]":-1,"ADENOSINE[CCO-CYTOSOL]":1,"Pi[CCO-CYTOSOL]":1} "L2R" ["EG11817-MONOMER"] +"RXN-14126[CCO-PERI-BAC]-CPD-3706/WATER//ADENOSINE/Pi.43." {"CPD-3706[CCO-PERI-BAC]":-1,"WATER[CCO-PERI-BAC]":-1,"ADENOSINE[CCO-PERI-BAC]":1,"Pi[CCO-PERI-BAC]":1} "L2R" ["ALKAPHOSPHA-CPLX", "APHA-CPLX", "CPDB-MONOMER"] +"RXN-14136" {"CPD0-2030[CCO-CYTOSOL]":-1,"WATER[CCO-CYTOSOL]":-1,"GLYCEROL-3P[CCO-CYTOSOL]":1,"SER[CCO-CYTOSOL]":1,"PROTON[CCO-CYTOSOL]":1} "L2R" ["GLYCPDIESTER-CYTO-MONOMER"] +"RXN-14139" {"UTP[CCO-CYTOSOL]":-1,"WATER[CCO-CYTOSOL]":-1,"UMP[CCO-CYTOSOL]":1,"PPI[CCO-CYTOSOL]":1,"PROTON[CCO-CYTOSOL]":1} "L2R" ["CPLX0-8106", "CPLX0-7692"] +"RXN-14142[CCO-CYTOSOL]-DGMP/WATER//DEOXYGUANOSINE/Pi.43." {"DGMP[CCO-CYTOSOL]":-1,"WATER[CCO-CYTOSOL]":-1,"DEOXYGUANOSINE[CCO-CYTOSOL]":1,"Pi[CCO-CYTOSOL]":1} "L2R" ["EG11817-MONOMER", "G7230-MONOMER", "CPLX0-7625"] +"RXN-14142[CCO-PERI-BAC]-DGMP/WATER//DEOXYGUANOSINE/Pi.44." {"DGMP[CCO-PERI-BAC]":-1,"WATER[CCO-PERI-BAC]":-1,"DEOXYGUANOSINE[CCO-PERI-BAC]":1,"Pi[CCO-PERI-BAC]":1} "L2R" ["ALKAPHOSPHA-CPLX", "APHA-CPLX", "USHA-MONOMER"] +"RXN-14143" {"DUMP[CCO-CYTOSOL]":-1,"WATER[CCO-CYTOSOL]":-1,"DEOXYURIDINE[CCO-CYTOSOL]":1,"Pi[CCO-CYTOSOL]":1} "L2R" ["G7230-MONOMER", "CPLX0-7625"] +"RXN-14160" {"L-1-GLYCEROPHOSPHORYLETHANOL-AMINE[CCO-CYTOSOL]":-1,"WATER[CCO-CYTOSOL]":-1,"GLYCEROL-3P[CCO-CYTOSOL]":1,"ETHANOL-AMINE[CCO-CYTOSOL]":1,"PROTON[CCO-CYTOSOL]":1} "L2R" ["GLYCPDIESTER-CYTO-MONOMER"] 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{"CPD-196[CCO-CYTOSOL]":-1,"ETF-Oxidized[CCO-CYTOSOL]":-1,"PROTON[CCO-CYTOSOL]":-1,"CPD0-2108[CCO-CYTOSOL]":1,"ETF-Reduced[CCO-CYTOSOL]":1} "L2R" ["ACYLCOADEHYDROG-MONOMER"] +"RXN-14249" {"THR[CCO-CYTOSOL]":-1,"NAD[CCO-CYTOSOL]":-1,"AMINO-ACETONE[CCO-CYTOSOL]":1,"CARBON-DIOXIDE[CCO-CYTOSOL]":1,"NADH[CCO-CYTOSOL]":1} "L2R" ["EG12293-MONOMER", "THREODEHYD-CPLX"] +"RXN-14251" {"S-3-HYDROXYBUTANOYL-COA[CCO-CYTOSOL]":-1,"WATER[CCO-CYTOSOL]":-1,"CPD-1843[CCO-CYTOSOL]":1,"CO-A[CCO-CYTOSOL]":1,"PROTON[CCO-CYTOSOL]":1} "L2R" ["EG11121-MONOMER", "THIOESTERII-CPLX"] +"RXN-14255" {"CPD-650[CCO-CYTOSOL]":-1,"WATER[CCO-CYTOSOL]":-1,"CPD-335[CCO-CYTOSOL]":1,"CO-A[CCO-CYTOSOL]":1,"PROTON[CCO-CYTOSOL]":1} "L2R" ["EG11121-MONOMER", "THIOESTERII-CPLX"] +"RXN-14260" {"MALTOPENTAOSE[CCO-CYTOSOL]":-1,"Glucopyranose[CCO-CYTOSOL]":-1,"MALTOTETRAOSE[CCO-CYTOSOL]":1,"MALTOSE[CCO-CYTOSOL]":1} "BOTH" ["AMYLOMALT-MONOMER"] +"RXN-14260-MALTOPENTAOSE/ALPHA-GLUCOSE//MALTOTETRAOSE/MALTOSE.51." {"MALTOPENTAOSE[CCO-CYTOSOL]":-1,"ALPHA-GLUCOSE[CCO-CYTOSOL]":-1,"MALTOTETRAOSE[CCO-CYTOSOL]":1,"MALTOSE[CCO-CYTOSOL]":1} "BOTH" ["AMYLOMALT-MONOMER"] +"RXN-14260-MALTOPENTAOSE/GLC//MALTOTETRAOSE/MALTOSE.41." {"MALTOPENTAOSE[CCO-CYTOSOL]":-1,"GLC[CCO-CYTOSOL]":-1,"MALTOTETRAOSE[CCO-CYTOSOL]":1,"MALTOSE[CCO-CYTOSOL]":1} "BOTH" ["AMYLOMALT-MONOMER"] +"RXN-14261" {"MALTOHEXAOSE[CCO-CYTOSOL]":-1,"Glucopyranose[CCO-CYTOSOL]":-1,"MALTOPENTAOSE[CCO-CYTOSOL]":1,"MALTOSE[CCO-CYTOSOL]":1} "BOTH" ["AMYLOMALT-MONOMER"] +"RXN-14261-MALTOHEXAOSE/ALPHA-GLUCOSE//MALTOPENTAOSE/MALTOSE.50." {"MALTOHEXAOSE[CCO-CYTOSOL]":-1,"ALPHA-GLUCOSE[CCO-CYTOSOL]":-1,"MALTOPENTAOSE[CCO-CYTOSOL]":1,"MALTOSE[CCO-CYTOSOL]":1} "BOTH" ["AMYLOMALT-MONOMER"] +"RXN-14261-MALTOHEXAOSE/GLC//MALTOPENTAOSE/MALTOSE.40." {"MALTOHEXAOSE[CCO-CYTOSOL]":-1,"GLC[CCO-CYTOSOL]":-1,"MALTOPENTAOSE[CCO-CYTOSOL]":1,"MALTOSE[CCO-CYTOSOL]":1} "BOTH" ["AMYLOMALT-MONOMER"] +"RXN-14274" {"CPD-10267[CCO-CYTOSOL]":-1,"ACETYL-COA[CCO-CYTOSOL]":-1,"CPD0-2105[CCO-CYTOSOL]":1,"CO-A[CCO-CYTOSOL]":1} "R2L" ["FADA-MONOMER", "G7213-MONOMER"] +"RXN-14277" {"HEXANOYL-COA[CCO-CYTOSOL]":-1,"ACETYL-COA[CCO-CYTOSOL]":-1,"CPD0-2106[CCO-CYTOSOL]":1,"CO-A[CCO-CYTOSOL]":1} "R2L" ["FADA-MONOMER", "G7213-MONOMER"] +"RXN-14278" {"HEXANOYL-COA[CCO-CYTOSOL]":-1,"ETF-Oxidized[CCO-CYTOSOL]":-1,"PROTON[CCO-CYTOSOL]":-1,"CPD0-2121[CCO-CYTOSOL]":1,"ETF-Reduced[CCO-CYTOSOL]":1} "L2R" ["ACYLCOADEHYDROG-MONOMER"] +"RXN-14281" {"MALTOPENTAOSE[CCO-CYTOSOL]":-1,"WATER[CCO-CYTOSOL]":-1,"MALTOTETRAOSE[CCO-CYTOSOL]":1,"Glucopyranose[CCO-CYTOSOL]":1} "L2R" ["MALTODEXGLUCOSID-MONOMER"] +"RXN-14281-MALTOPENTAOSE/WATER//MALTOTETRAOSE/ALPHA-GLUCOSE.49." {"MALTOPENTAOSE[CCO-CYTOSOL]":-1,"WATER[CCO-CYTOSOL]":-1,"MALTOTETRAOSE[CCO-CYTOSOL]":1,"ALPHA-GLUCOSE[CCO-CYTOSOL]":1} "L2R" ["MALTODEXGLUCOSID-MONOMER"] +"RXN-14281-MALTOPENTAOSE/WATER//MALTOTETRAOSE/GLC.39." {"MALTOPENTAOSE[CCO-CYTOSOL]":-1,"WATER[CCO-CYTOSOL]":-1,"MALTOTETRAOSE[CCO-CYTOSOL]":1,"GLC[CCO-CYTOSOL]":1} "L2R" ["MALTODEXGLUCOSID-MONOMER"] +"RXN-14282" {"MALTOHEXAOSE[CCO-CYTOSOL]":-1,"WATER[CCO-CYTOSOL]":-1,"MALTOPENTAOSE[CCO-CYTOSOL]":1,"Glucopyranose[CCO-CYTOSOL]":1} "L2R" ["MALTODEXGLUCOSID-MONOMER"] +"RXN-14282-MALTOHEXAOSE/WATER//MALTOPENTAOSE/ALPHA-GLUCOSE.48." {"MALTOHEXAOSE[CCO-CYTOSOL]":-1,"WATER[CCO-CYTOSOL]":-1,"MALTOPENTAOSE[CCO-CYTOSOL]":1,"ALPHA-GLUCOSE[CCO-CYTOSOL]":1} "L2R" ["MALTODEXGLUCOSID-MONOMER"] +"RXN-14282-MALTOHEXAOSE/WATER//MALTOPENTAOSE/GLC.38." {"MALTOHEXAOSE[CCO-CYTOSOL]":-1,"WATER[CCO-CYTOSOL]":-1,"MALTOPENTAOSE[CCO-CYTOSOL]":1,"GLC[CCO-CYTOSOL]":1} "L2R" ["MALTODEXGLUCOSID-MONOMER"] +"RXN-14283" {"CPD0-1133[CCO-CYTOSOL]":-1,"WATER[CCO-CYTOSOL]":-1,"MALTOHEXAOSE[CCO-CYTOSOL]":1,"Glucopyranose[CCO-CYTOSOL]":1} "L2R" ["MALTODEXGLUCOSID-MONOMER"] +"RXN-14283-CPD0-1133/WATER//MALTOHEXAOSE/ALPHA-GLUCOSE.44." {"CPD0-1133[CCO-CYTOSOL]":-1,"WATER[CCO-CYTOSOL]":-1,"MALTOHEXAOSE[CCO-CYTOSOL]":1,"ALPHA-GLUCOSE[CCO-CYTOSOL]":1} "L2R" ["MALTODEXGLUCOSID-MONOMER"] +"RXN-14283-CPD0-1133/WATER//MALTOHEXAOSE/GLC.34." {"CPD0-1133[CCO-CYTOSOL]":-1,"WATER[CCO-CYTOSOL]":-1,"MALTOHEXAOSE[CCO-CYTOSOL]":1,"GLC[CCO-CYTOSOL]":1} "L2R" ["MALTODEXGLUCOSID-MONOMER"] +"RXN-14284" {"MALTOPENTAOSE[CCO-CYTOSOL]":-1,"Pi[CCO-CYTOSOL]":-1,"GLC-1-P[CCO-CYTOSOL]":1,"MALTOTETRAOSE[CCO-CYTOSOL]":1} "L2R" ["MALDEXPHOSPHORYL-CPLX"] +"RXN-14285" {"MALTOHEXAOSE[CCO-CYTOSOL]":-1,"Pi[CCO-CYTOSOL]":-1,"MALTOPENTAOSE[CCO-CYTOSOL]":1,"GLC-1-P[CCO-CYTOSOL]":1} "L2R" ["MALDEXPHOSPHORYL-CPLX"] +"RXN-14286" {"CPD0-1133[CCO-CYTOSOL]":-1,"Pi[CCO-CYTOSOL]":-1,"MALTOHEXAOSE[CCO-CYTOSOL]":1,"GLC-1-P[CCO-CYTOSOL]":1} "L2R" ["MALDEXPHOSPHORYL-CPLX"] +"RXN-14290" {"DATP[CCO-CYTOSOL]":-1,"CPD-12377[CCO-CYTOSOL]":-2,"CPD-13851[CCO-CYTOSOL]":1,"WATER[CCO-CYTOSOL]":1} "L2R" [] +"RXN-14325" 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["1-ACYLGLYCEROL-3-P-ACYLTRANSFER-MONOMER"] +"RXN-17104" {"GERANYL-PP[CCO-CYTOSOL]":-1,"WATER[CCO-CYTOSOL]":-1,"CPD-13243[CCO-CYTOSOL]":1,"Pi[CCO-CYTOSOL]":1,"PROTON[CCO-CYTOSOL]":1} "L2R" ["G7164-MONOMER"] +"RXN-17330" {"D-glucose-1-phosphates[CCO-CYTOSOL]":-1,"WATER[CCO-CYTOSOL]":-1,"Glucopyranose[CCO-CYTOSOL]":1,"Pi[CCO-CYTOSOL]":1} "L2R" ["ALKAPHOSPHA-CPLX", "EG11470-MONOMER", "EG11195-MONOMER", "G7187-MONOMER", "G6425-MONOMER"] +"RXN-17330-CPD-448/WATER//ALPHA-GLUCOSE/Pi.32." {"CPD-448[CCO-CYTOSOL]":-1,"WATER[CCO-CYTOSOL]":-1,"ALPHA-GLUCOSE[CCO-CYTOSOL]":1,"Pi[CCO-CYTOSOL]":1} "L2R" ["ALKAPHOSPHA-CPLX", "EG11470-MONOMER", "EG11195-MONOMER", "G7187-MONOMER", "G6425-MONOMER"] +"RXN-17330-CPD-448/WATER//GLC/Pi.22." {"CPD-448[CCO-CYTOSOL]":-1,"WATER[CCO-CYTOSOL]":-1,"GLC[CCO-CYTOSOL]":1,"Pi[CCO-CYTOSOL]":1} "L2R" ["ALKAPHOSPHA-CPLX", "EG11470-MONOMER", "EG11195-MONOMER", "G7187-MONOMER", "G6425-MONOMER"] +"RXN-17330-CPD-448/WATER//Glucopyranose/Pi.32." {"CPD-448[CCO-CYTOSOL]":-1,"WATER[CCO-CYTOSOL]":-1,"Glucopyranose[CCO-CYTOSOL]":1,"Pi[CCO-CYTOSOL]":1} "L2R" ["ALKAPHOSPHA-CPLX", "EG11470-MONOMER", "EG11195-MONOMER", "G7187-MONOMER", "G6425-MONOMER"] +"RXN-17330-D-glucose-1-phosphates/WATER//ALPHA-GLUCOSE/Pi.47." {"D-glucose-1-phosphates[CCO-CYTOSOL]":-1,"WATER[CCO-CYTOSOL]":-1,"ALPHA-GLUCOSE[CCO-CYTOSOL]":1,"Pi[CCO-CYTOSOL]":1} "L2R" ["ALKAPHOSPHA-CPLX", "EG11470-MONOMER", "EG11195-MONOMER", "G7187-MONOMER", "G6425-MONOMER"] +"RXN-17330-D-glucose-1-phosphates/WATER//GLC/Pi.37." {"D-glucose-1-phosphates[CCO-CYTOSOL]":-1,"WATER[CCO-CYTOSOL]":-1,"GLC[CCO-CYTOSOL]":1,"Pi[CCO-CYTOSOL]":1} "L2R" ["ALKAPHOSPHA-CPLX", "EG11470-MONOMER", "EG11195-MONOMER", "G7187-MONOMER", "G6425-MONOMER"] +"RXN-17330-GLC-1-P/WATER//ALPHA-GLUCOSE/Pi.32." {"GLC-1-P[CCO-CYTOSOL]":-1,"WATER[CCO-CYTOSOL]":-1,"ALPHA-GLUCOSE[CCO-CYTOSOL]":1,"Pi[CCO-CYTOSOL]":1} "L2R" ["ALKAPHOSPHA-CPLX", "EG11470-MONOMER", "EG11195-MONOMER", "G7187-MONOMER", "G6425-MONOMER"] 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{"Protein-Arginine-Aminocarbinol[CCO-CYTOSOL]":-1,"WATER[CCO-CYTOSOL]":-1,"Protein-L-Arginines[CCO-CYTOSOL]":1,"D-LACTATE[CCO-CYTOSOL]":1,"PROTON[CCO-CYTOSOL]":1} "L2R" ["CPLX0-861"] +"RXN-17631" {"METHYL-GLYOXAL[CCO-CYTOSOL]":-1,"Protein-L-lysine[CCO-CYTOSOL]":-1,"Protein-Lysine-Aminocarbinol[CCO-CYTOSOL]":1,"PROTON[CCO-CYTOSOL]":1} "L2R" [] +"RXN-17632" {"Protein-Lysine-Aminocarbinol[CCO-CYTOSOL]":-1,"WATER[CCO-CYTOSOL]":-1,"Protein-L-lysine[CCO-CYTOSOL]":1,"D-LACTATE[CCO-CYTOSOL]":1} "L2R" ["CPLX0-861", "G7647-MONOMER", "CPLX0-7960"] +"RXN-17633" {"METHYL-GLYOXAL[CCO-CYTOSOL]":-1,"PROT-CYS[CCO-CYTOSOL]":-1,"Protein-Cysteine-Hemithioacetal[CCO-CYTOSOL]":1} "L2R" [] +"RXN-17634" {"Protein-Cysteine-Hemithioacetal[CCO-CYTOSOL]":-1,"WATER[CCO-CYTOSOL]":-1,"PROT-CYS[CCO-CYTOSOL]":1,"D-LACTATE[CCO-CYTOSOL]":1,"PROTON[CCO-CYTOSOL]":1} "L2R" ["CPLX0-861"] +"RXN-17635" {"Protein-Arginine-Aminocarbinol[CCO-CYTOSOL]":-1,"Protein-Arginine-Imidazolidine[CCO-CYTOSOL]":1,"PROTON[CCO-CYTOSOL]":1} 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+"UNDECAPRENYL-DIPHOSPHATASE-RXN[CCO-CYTOSOL]-UNDECAPRENYL-DIPHOSPHATE/WATER//CPD-9646/Pi/PROTON.64." {"UNDECAPRENYL-DIPHOSPHATE[CCO-CYTOSOL]":-1,"WATER[CCO-CYTOSOL]":-1,"CPD-9646[CCO-CYTOSOL]":1,"Pi[CCO-CYTOSOL]":1,"PROTON[CCO-CYTOSOL]":1} "L2R" ["G6439-MONOMER", "PGPPHOSPHAB-MONOMER"] +"URA-PHOSPH-RXN" {"DEOXYURIDINE[CCO-CYTOSOL]":-1,"Pi[CCO-CYTOSOL]":-1,"DEOXY-D-RIBOSE-1-PHOSPHATE[CCO-CYTOSOL]":1,"URACIL[CCO-CYTOSOL]":1} "BOTH" ["DEOA-CPLX"] +"URACIL-PRIBOSYLTRANS-RXN" {"UMP[CCO-CYTOSOL]":-1,"PPI[CCO-CYTOSOL]":-1,"PRPP[CCO-CYTOSOL]":1,"URACIL[CCO-CYTOSOL]":1} "R2L" ["URACIL-PRIBOSYLTRANS-CPLX"] +"UREIDOGLYCOLATE-LYASE-RXN" {"CPD-1091[CCO-CYTOSOL]":-1,"UREA[CCO-CYTOSOL]":1,"GLYOX[CCO-CYTOSOL]":1} "L2R" ["G6275-MONOMER"] +"URIDINE-NUCLEOSIDASE-RXN" {"URIDINE[CCO-CYTOSOL]":-1,"WATER[CCO-CYTOSOL]":-1,"D-Ribofuranose[CCO-CYTOSOL]":1,"URACIL[CCO-CYTOSOL]":1} "L2R" ["CPLX0-7904", "CPLX0-8280", "EG11082-MONOMER"] +"URIDINEKIN-RXN" {"URIDINE[CCO-CYTOSOL]":-1,"ATP[CCO-CYTOSOL]":-1,"UMP[CCO-CYTOSOL]":1,"ADP[CCO-CYTOSOL]":1,"PROTON[CCO-CYTOSOL]":1} "L2R" ["UDK-MONOMER"] +"URKI-RXN" {"URIDINE[CCO-CYTOSOL]":-1,"GTP[CCO-CYTOSOL]":-1,"UMP[CCO-CYTOSOL]":1,"GDP[CCO-CYTOSOL]":1,"PROTON[CCO-CYTOSOL]":1} "L2R" ["UDK-MONOMER"] +"UROGENDECARBOX-RXN" {"UROPORPHYRINOGEN-III[CCO-CYTOSOL]":-1,"PROTON[CCO-CYTOSOL]":-4,"CARBON-DIOXIDE[CCO-CYTOSOL]":4,"COPROPORPHYRINOGEN_III[CCO-CYTOSOL]":1} "L2R" ["UROGENDECARBOX-MONOMER"] +"UROGENIIISYN-RXN" {"HYDROXYMETHYLBILANE[CCO-CYTOSOL]":-1,"UROPORPHYRINOGEN-III[CCO-CYTOSOL]":1,"WATER[CCO-CYTOSOL]":1} "L2R" ["UROGENIIISYN-MONOMER"] +"UROPORIIIMETHYLTRANSA-RXN" {"S-ADENOSYLMETHIONINE[CCO-CYTOSOL]":-1,"UROPORPHYRINOGEN-III[CCO-CYTOSOL]":-1,"ADENOSYL-HOMO-CYS[CCO-CYTOSOL]":1,"CPD-9038[CCO-CYTOSOL]":1,"PROTON[CCO-CYTOSOL]":1} "L2R" ["SIROHEMESYN-CPLX"] +"URPHOS-RXN" {"URIDINE[CCO-CYTOSOL]":-1,"Pi[CCO-CYTOSOL]":-1,"RIBOSE-1P[CCO-CYTOSOL]":1,"URACIL[CCO-CYTOSOL]":1} "BOTH" ["EG12159-MONOMER", "URPHOS-CPLX"] +"URUR-RXN" {"CPD0-2298[CCO-CYTOSOL]":-1,"WATER[CCO-CYTOSOL]":-1,"CPD-1091[CCO-CYTOSOL]":1,"AMMONIUM[CCO-CYTOSOL]":1} "L2R" ["G6284-MONOMER"] +"VAGL-RXN" {"5-AMINOPENTANOATE[CCO-CYTOSOL]":-1,"2-KETOGLUTARATE[CCO-CYTOSOL]":-1,"GLT[CCO-CYTOSOL]":1,"CPD-280[CCO-CYTOSOL]":1} "BOTH" ["GABATRANSAM-CPLX", "G6646-MONOMER"] +"VALINE-PYRUVATE-AMINOTRANSFER-RXN" {"PYRUVATE[CCO-CYTOSOL]":-1,"VAL[CCO-CYTOSOL]":-1,"L-ALPHA-ALANINE[CCO-CYTOSOL]":1,"2-KETO-ISOVALERATE[CCO-CYTOSOL]":1} "BOTH" ["VALINE-PYRUVATE-AMINOTRANSFER-MONOMER"] +"XANPRIBOSYLTRAN-RXN" {"XANTHOSINE-5-PHOSPHATE[CCO-CYTOSOL]":-1,"PPI[CCO-CYTOSOL]":-1,"XANTHINE[CCO-CYTOSOL]":1,"PRPP[CCO-CYTOSOL]":1} "R2L" ["GPT-CPLX"] +"XANTHOSINEPHOSPHORY-RXN" {"XANTHOSINE[CCO-CYTOSOL]":-1,"Pi[CCO-CYTOSOL]":-1,"RIBOSE-1P[CCO-CYTOSOL]":1,"XANTHINE[CCO-CYTOSOL]":1} "L2R" ["EG12159-MONOMER", "XANTHOSINEPHOSPHORY-CPLX"] +"XYLISOM-RXN" {"D-Xylose[CCO-CYTOSOL]":-1,"D-XYLULOSE[CCO-CYTOSOL]":1} "BOTH" ["XYLISOM-CPLX"] +"XYLISOM-RXN-BETA-D-XYLOSE//D-XYLULOSE.26." {"BETA-D-XYLOSE[CCO-CYTOSOL]":-1,"D-XYLULOSE[CCO-CYTOSOL]":1} "BOTH" ["XYLISOM-CPLX"] +"XYLISOM-RXN-CPD-15377//D-XYLULOSE.22." {"CPD-15377[CCO-CYTOSOL]":-1,"D-XYLULOSE[CCO-CYTOSOL]":1} "BOTH" ["XYLISOM-CPLX"] +"XYLISOM-RXN-XYLOSE//D-XYLULOSE.19." {"XYLOSE[CCO-CYTOSOL]":-1,"D-XYLULOSE[CCO-CYTOSOL]":1} "BOTH" ["XYLISOM-CPLX"] +"XYLONATE-DEHYDRATASE-RXN" {"D-XYLONATE[CCO-CYTOSOL]":-1,"2-DH-3-DO-D-ARABINONATE[CCO-CYTOSOL]":1,"WATER[CCO-CYTOSOL]":1} "L2R" ["G6141-MONOMER", "G7910-MONOMER"] +"XYLULOKIN-RXN" {"D-XYLULOSE[CCO-CYTOSOL]":-1,"ATP[CCO-CYTOSOL]":-1,"XYLULOSE-5-PHOSPHATE[CCO-CYTOSOL]":1,"ADP[CCO-CYTOSOL]":1,"PROTON[CCO-CYTOSOL]":1} "L2R" ["CPLX0-7466"] +"YIAE1-RXN" {"5-DEHYDROGLUCONATE[CCO-CYTOSOL]":-1,"NADP[CCO-CYTOSOL]":-1,"25-DIDEHYDRO-D-GLUCONATE[CCO-CYTOSOL]":1,"NADPH[CCO-CYTOSOL]":1,"PROTON[CCO-CYTOSOL]":1} "R2L" ["CPLX0-235"] +"YIAE2-RXN" {"CPD-377[CCO-CYTOSOL]":-1,"NADPH[CCO-CYTOSOL]":-1,"PROTON[CCO-CYTOSOL]":-1,"L-IDONATE[CCO-CYTOSOL]":1,"NADP[CCO-CYTOSOL]":1} "R2L" [] +"glycogen-monomer-extension" {"glycogen-monomer[CCO-CYTOSOL]": 1, "ADP-D-GLUCOSE[CCO-CYTOSOL]": -1, "ADP[CCO-CYTOSOL]": 1} "L2R" [] +"GLURS-RXN-GLT-tRNAs/GLT/ATP/PROTON//Charged-GLT-tRNAs/AMP/PPI.52." {"GLT-tRNAs[CCO-CYTOSOL]": -1, "GLT[CCO-CYTOSOL]": -1, "AMP[CCO-CYTOSOL]": 1, "PPI[CCO-CYTOSOL]": 1, "ATP[CCO-CYTOSOL]": -1, "Charged-GLT-tRNAs[CCO-CYTOSOL]": 1} "L2R" ["GLURS-MONOMER"] +"RXN0-5405" {"CPD-12231[CCO-PERI-BAC]": 1, "UNDECAPRENYL-DIPHOSPHATE[CCO-PERI-BAC]": 1, "C6[CCO-PERI-BAC]": -2, "PROTON[CCO-PERI-BAC]": 1} "L2R" [] +"RXN-11302" {"CPD-12261[CCO-PERI-BAC]": 1, "CPD-12231[CCO-PERI-BAC]": -2, "D-ALANINE[CCO-PERI-BAC]": 1} "L2R" [] diff --git a/reconstruction/ecoli/flat/metabolic_reactions_removed.tsv b/reconstruction/ecoli/flat/metabolic_reactions_removed.tsv index d9adc40bda..ffc36dc0f3 100644 --- a/reconstruction/ecoli/flat/metabolic_reactions_removed.tsv +++ b/reconstruction/ecoli/flat/metabolic_reactions_removed.tsv @@ -2,3 +2,8 @@ "LYSOPHOSPHOLIPASE-RXN[CCO-UNKNOWN-SPACE]-2-Lysophosphatidylcholines/WATER//Carboxylates/L-1-GLYCERO-PHOSPHORYLCHOLINE/PROTON.103." "RXN0-5190[CCO-UNKNOWN-SPACE]-Peptidoglycan-dimer//NAcMur-Peptide-NAcGlc-Undecaprenols/GlcNAc-1-6-anhydro-MurNAc-pentapeptide.115." "ATPSYN-RXN[CCO-PM-BAC-NEG]-ATP/PROTON/WATER//ADP/Pi/PROTON.48." +"RXN-14812-FRUCTOSE-6P//FRUCTOSE-6P.25." "Reactant and product are identical." +"RXN0-6418-GLC//GLC.9." "Reactant and product are identical." +"N-ACETYLGLUCOSAMINE-KINASE-RXN-N-acetyl-D-glucosamine/ATP//CPD-16168/ADP/PROTON.49." "Identical reaction with N-ACETYL-D-GLUCOSAMINE exists." +"3.2.1.17-RXN-C6/WATER//C5/N-acetyl-D-glucosamine.36." "Identical reaction with N-ACETYL-D-GLUCOSAMINE exists." +"RXN-18678" "Undetermined stoichiometry." diff --git a/reconstruction/ecoli/flat/metabolism_kinetics.tsv b/reconstruction/ecoli/flat/metabolism_kinetics.tsv index db75dbe290..1372daa6c5 100644 --- a/reconstruction/ecoli/flat/metabolism_kinetics.tsv +++ b/reconstruction/ecoli/flat/metabolism_kinetics.tsv @@ -149,7 +149,7 @@ reactionID enzymeID substrateIDs Temp rateEquationType direction kcat (1/units.s "ACYL-COA-HYDROLASE-RXN" "EG11121-MONOMER" ["3-METHYL-CROTONYL-COA"] 25 "standard" [0.1] [290] [] "18247525" "ACYL-COA-HYDROLASE-RXN" "EG11121-MONOMER" ["CPD-207"] 25 "standard" [9.4] [16] [] "18247525" "ACYLCOASYN-RXN" "ACYLCOASYN-CPLX" ["ATP"] 37 "standard" [0.029] [130] [] "12034706" -"ACYLPHOSPHATASE-RXN" "G6502-MONOMER" ["Acyl-Phosphates","PI"] 25 "custom" "forward" [94] [540] [1440] "kcat*E*S/(km*(1+I/ki)+S)" ["kcat","km","ki","E","S","I"] ["kcat","km","ki"] [94,540,1440] ["Acyl-Phosphates","PI"] "17134700" +"ACYLPHOSPHATASE-RXN" "G6502-MONOMER" ["Acyl-Phosphates","Pi"] 25 "custom" "forward" [94] [540] [1440] "kcat*E*S/(km*(1+I/ki)+S)" ["kcat","km","ki","E","S","I"] ["kcat","km","ki"] [94,540,1440] ["Acyl-Phosphates","Pi"] "17134700" "ADENINE-DEAMINASE-RXN" "CPLX0-1683" ["ADENINE"] 30 "standard" [200] [400] [] "21247091" "ADENINE-DEAMINASE-RXN" "CPLX0-1683" ["ADENINE"] 30 "standard" [200] [400] [] "21998098" "ADENOSYLHOMOCYSTEINE-NUCLEOSIDASE-RXN" "CPLX0-1541" ["ADENOSYL-HOMO-CYS"] 22 "standard" [2.6] [1.3] [] "16101288" @@ -236,7 +236,7 @@ reactionID enzymeID substrateIDs Temp rateEquationType direction kcat (1/units.s "ASPARTATEKIN-RXN" "ASPKINIHOMOSERDEHYDROGI-CPLX" ["L-ASPARTATE","ATP"] 27 "standard" [56.7] [1500,4000] [] "Truffa-Bachi, P. Microbial aspartokinases The Enzymes, 3rd Ed. (Boyer, P.D., ed.) 8 509-553 1973 " "ASPCARBTRANS-RXN" "ASPCARBTRANS-CPLX" ["L-ASPARTATE"] "standard" [1670] [] [] "Sheperdson, M.; Pardee, A.B. Production and crystallization of aspartate transcarbamylase J. Biol. Chem. 235 3233-3237 1960" "ASPDECARBOX-RXN" "CPLX0-2901" ["L-ASPARTATE"] "standard" [0.57] [151] [] "9169598" -"ATPSYN-RXN" "ATPSYN-CPLX" ["ADP","PI"] 25 "standard" [16,20] [100,4200] [] "19411254" +"ATPSYN-RXN" "ATPSYN-CPLX" ["ADP","Pi"] 25 "standard" [16,20] [100,4200] [] "19411254" "ATPSYN-RXN" "ATPSYN-CPLX" ["ATP"] 25 "standard" [285] [78] [] "19411254" "BETA-GLUCURONID-RXN" "BETA-GLUCURONID-MONOMER" ["Beta-D-Glucuronides"] "standard" [68] [200] [] "15069062" "BETA-GLUCURONID-RXN" "BETA-GLUCURONID-MONOMER" [] 37 "standard" [1500] [208] [] "17557766" @@ -572,10 +572,10 @@ reactionID enzymeID substrateIDs Temp rateEquationType direction kcat (1/units.s "IGPSYN-RXN" "PRAI-IGPS" ["CARBOXYPHENYLAMINO-DEOXYRIBULOSE-P"] 25 "standard" [2.2] [0.34] [] "9091315" "IMP-DEHYDROG-RXN" "IMP-DEHYDROG-CPLX" ["IMP","NAD"] "standard" [13] [60,2000] [] "18990827" "INOPHOSPHOR-RXN" "DEOD-CPLX" ["INOSINE"] 25 "standard" [4] [96] [] "12937174" -"INOPHOSPHOR-RXN" "DEOD-CPLX" ["INOSINE","PI"] 37 "standard" [44.93] [320,340] [] "18299797" +"INOPHOSPHOR-RXN" "DEOD-CPLX" ["INOSINE","Pi"] 37 "standard" [44.93] [320,340] [] "18299797" "INOPHOSPHOR-RXN" "DEOD-CPLX" ["INOSINE"] 37 "standard" [6200] [0.85] [] "21279421" "INORGPYROPHOSPHAT-RXN" "CPLX0-243" ["PPI"] 25 "standard" [187] [3.4] [] "7827038" -"INORGPYROPHOSPHAT-RXN" "CPLX0-243" ["PI"] 25 "standard" [114] [] [] "7827038" +"INORGPYROPHOSPHAT-RXN" "CPLX0-243" ["Pi"] 25 "standard" [114] [] [] "7827038" "INORGPYROPHOSPHAT-RXN" "CPLX0-243" ["PPI"] "standard" [389] [0.13] [] "8980129" "INORGPYROPHOSPHAT-RXN" "CPLX0-243" ["PPI"] 25 "standard" [390] [0.13] [] "14640961" "INORGPYROPHOSPHAT-RXN" "CPLX0-243" ["PPI"] 25 "standard" [390] [6.3] [] "15701051" @@ -725,7 +725,7 @@ reactionID enzymeID substrateIDs Temp rateEquationType direction kcat (1/units.s "PHENYLALANINE--TRNA-LIGASE-RXN" "PHES-CPLX" ["PHE"] "standard" [1.72] [10.3] [] "15526031" "PHENYLALANINE--TRNA-LIGASE-RXN" "PHES-CPLX" ["PHE-tRNAs"] 37 "standard" [0.817] [2.7] [] "16866361" "PHENYLALANINE--TRNA-LIGASE-RXN" "PHES-CPLX" ["PHE"] "standard" [199] [2] [] "20160120" -"PHOSACETYLTRANS-RXN" "PHOSACETYLTRANS-CPLX" ["ACETYL-COA","PI"] 30 "custom" [] [] [] "kcat*E*Pi/(KmP + Pi)*(Ac^H)/(KmA^H +Ac^H)" ["kcat","KmP","KmA","H","E","Pi","Ac"] ["kcat","KmP","KmA","H"] [29.6,2.1,44.9,1.3] {"E":"PHOSACETYLTRANS-CPLX","Pi":"PI","Ac":"ACETYL-COA"} "20236319" +"PHOSACETYLTRANS-RXN" "PHOSACETYLTRANS-CPLX" ["ACETYL-COA","Pi"] 30 "custom" [] [] [] "kcat*E*Pi/(KmP + Pi)*(Ac^H)/(KmA^H +Ac^H)" ["kcat","KmP","KmA","H","E","Pi","Ac"] ["kcat","KmP","KmA","H"] [29.6,2.1,44.9,1.3] {"E":"PHOSACETYLTRANS-CPLX","Pi":"Pi","Ac":"ACETYL-COA"} "20236319" "PHOSACETYLTRANS-RXN" "PHOSACETYLTRANS-CPLX" ["CO-A","ACETYL-P"] 30 "custom" [] [] [] "kcat*E*CoA/(KmC + CoA)*(Ac^H)/(KmA^H +Ac^H)" ["kcat","KmC","KmA","H","E","CoA","Ac"] ["kcat","KmC","KmA","H"] [227.6,67.2,900,1.7] {"E":"PHOSACETYLTRANS-CPLX","CoA":"CO-A","Ac":"ACETYL-P"} "20236319" "PHOSACETYLTRANS-RXN" "CPLX0-7912" ["ACETYL-P","CO-A"] 30 "standard" [415.5] [311.7,32.7] [] "21046341" "PHOSACETYLTRANS-RXN" "CPLX0-7912" ["ACETYL-COA"] 30 "standard" [119.8] [9.5] [] "21046341" diff --git a/reconstruction/ecoli/flat/metabolites.tsv b/reconstruction/ecoli/flat/metabolites.tsv index f2c86a08d7..5450370e23 100644 --- a/reconstruction/ecoli/flat/metabolites.tsv +++ b/reconstruction/ecoli/flat/metabolites.tsv @@ -1,2336 +1,7181 @@ -"id" "mw" -"CPD-205" 158.153 -"CPD-3624" 111.12 -"CPD-9728" 717.135 -"CPD-3621" 104.105 -"CPD-3623" 200.234 -"CPD-1136" 185.111 -"CPD-209" 1004.763 -"CPD-8147" 118.068 -"CPD0-1408" 151.165 -"CPD-16577" 336.082 -"CPD0-1400" 267.269 -"CPD0-1401" 309.31 -"X-PYROPHOSPHATE-GROUP" 143.959 -"CPD0-1403" 339.4 -"CPD0-1404" 325.373 -"CPD0-1405" 352.351 -"CPD0-1406" 339.4 -"CPD0-1407" 846.489 -"CPD-5242" 718.71 -"CDP-D-GLUCOSE" 563.302 -"PHMB" 337.704 -"N-ACETYL-GLUTAMYL-P" 266.122 -"HYPOTAURINE" 109.148 -"CPD-683" 304.175 -"CPD1G-159" 271.114 -"CPD-3711" 321.182 -"CPD-3710" 321.182 -"CPD-3713" 304.175 -"CPD-111" 124.139 -"CPD-110" 137.114 -"CPD-8524" 194.19 -"CPD-9038" 842.767 -"2-METHYLMALEATE" 128.083 -"CPD-9037" 1344.405 -"CPD-9035" 180.227 -"GDP-GROUP" 441.186 -"10-FORMYL-THF" 471.43 -"AG+" 107.868 -"ACRYLYL-COA" 817.555 -"CPD-12796" 512.608 -"PQQ" 327.184 -"CPD0-1889" 660.363 -"PRPP" 385.027 -"CPD0-1884" 474.367 -"CPD0-1885" 154.252 -"CPD-11444" 828.74 -"MAL" 132.071 -"CPD0-1882" 824.444 -"CPD0-1883" 475.438 -"CPD-9646" 845.287 -"CPD-10330" 150.13 -"OROTIDINE-5-PHOSPHATE" 365.167 -"BIOTIN" 243.306 -"MALONATE-S-ALD" 87.054 -"CPD0-1402" 325.373 -"METHYL-GROUP" 16.043 -"AMINOMALONATE" 118.068 -"D-SERINE" 105.093 -"PICOLINATE" 122.103 -"CPD-12245" 1450.279 -"TTP" 478.136 -"ERYTHROSE-4P" 198.067 -"RIBOFLAVIN" 375.361 -"DTDP-DEOH-DEOXY-GLUCOSE" 544.299 -"DEAMIDO-NAD" 662.398 -"CPD0-1761" 386.573 -"RIBOSE-1P" 228.093 -"CPD0-1811" 300.483 -"CPD0-1810" 316.526 -"AICAR" 336.197 -"CPD-10796" 179.151 -"CPD-10797" 163.152 -"7-AMINOMETHYL-7-DEAZAGUANINE" 180.191 -"BENZENE" 78.114 -"CPD-3570" 194.183 -"CPD-3573" 102.089 -"CPD-3572" 131.107 -"CPD-5721" 166.187 -"THYMINE" 126.115 -"ADENOSYL-P4" 832.359 -"DEMETHYLMENAQUINONE" 703.108 -"DOLICHOL-GROUP" 1093.936 -"CTP" 479.124 -"CPD-10246" 138.098 -"CPD-10247" 243.211 -"DEHYDRO-3-DEOXY-L-RHAMNONATE" 161.133 -"DTDP-RHAMNOSE" 546.315 -"23-DIPHOSPHOGLYCERATE" 260.995 -"P-BENZOQUINONE" 108.096 -"SERYL-AMP" 434.302 -"CPD-13118" 587.328 -"CPD-15818" 150.13 -"CPD0-1085" 531.543 -"CPD0-1086" 473.383 -"CPD0-1080" 919.892 -"CPD0-1081" 477.443 -"CPD0-1082" 460.464 -"CPD0-1083" 195.147 -"CPD0-1088" 614.888 -"CPD0-1024" 273.094 -"CPD0-1242" 210.296 -"CPD0-1240" 165.188 -"CPD0-1246" 220.185 -"UROPORPHYRIN_III" 820.676 -"CPD0-1244" 487.687 -"DOPAMINE" 154.189 -"UNDECAPRENYL-P" 845.287 -"CPD-6901" 223.272 -"CPD0-1249" 194.147 -"CIS-ACONITATE" 171.084 -"N-FORMYLMETHIONINE" 176.215 -"FMPP" 182.158 -"CPD0-2192" 876.227 -"OXYGEN-MOLECULE" 31.998 -"CPD0-2190" 217.201 -"CPD0-2197" 960.389 -"CPD-9939" 214.268 -"CPD0-2194" 792.065 -"HYDRPHENYLAC-CPD" 136.15 -"NICOTINAMIDE_NUCLEOTIDE" 333.213 -"S-2-AMINOETHYL-L-CYSTEINE" 165.236 -"DEHYDROQUINATE" 189.143 -"PROPIONATE" 73.071 -"CPD0-882" 274.249 -"CPD0-881" 370.227 -"CPD-15568" 971.852 -"CPD0-888" 1005.436 -"CPD0-889" 264.237 -"CPD-8990" 165.212 -"KDO2-PALMITOLEOYL-LIPID-IVA" 2076.432 -"PHOSPHO-ENOL-PYRUVATE" 165.017 -"CPD-8999" 240.171 -"NITRITE" 46.005 -"CPD0-2379" 871.138 -"CPD0-2377" 165.156 -"CPD0-2376" 567.527 -"CPD0-2375" 135.119 -"CPD0-2370" 363.346 -"S-FORMYCINYLHOMOCYSTEINE" 384.416 -"G3P" 183.032 -"CPD0-2400" 194.218 -"GLUCONATE" 195.147 -"CPD-13930" 117.104 -"CPD0-2107" 961.813 -"CPD0-1668" 256.254 -"CPD0-1669" 356.324 -"CPD0-1664" 204.205 -"CPD0-1667" 256.254 -"CPD0-1660" 154.217 -"CPD0-1661" 162.212 -"CPD0-1662" 206.221 -"CPD0-1663" 224.211 -"CPD0-1068" 95.014 -"L-THREONINE-O-3-PHOSPHATE" 197.083 -"CPD0-1063" 345.173 -"CPD0-1061" 176.215 -"CPD0-954" 158.156 -"CPD0-955" 153.113 -"AMMONIA" 17.031 -"C-DI-GMP" 688.4 -"TAGATOSE" 180.156 -"D-SORBITOL-6-P" 260.135 -"GERANIAL" 152.237 -"TREHALOSE" 342.297 -"4-OXALOMESACONATE" 199.094 -"CPD-9483" 500.676 -"CPD-9482" 456.711 -"CPD-9481" 471.702 -"ADENOSINE" 267.245 -"PRO" 115.132 -"CPD-12537" 193.131 -"TRIMENTHLAMINE-N-O" 75.111 -"CH4" 16.043 -"IMINOASPARTATE" 129.071 -"DTDP-D-GLUCOSE" 562.314 -"L-ASCORBATE-6-PHOSPHATE" 253.079 -"CPD-216" 165.192 -"CPD-218" 149.213 -"CPD-219" 147.198 -"CPD0-1475" 122.531 -"CMP-KDO" 541.359 -"CPD0-1477" 244.294 -"CPD0-1476" 165.403 -"CPD0-1471" 191.15 -"CPD0-1470" 60.08 -"CPD0-1473" 695.602 -"CPD0-1472" 571.527 -"CPD0-1396" 312.373 -"APS" 425.27 -"AMINO-GROUP" 29.042 -"2-ACETO-LACTATE" 131.107 -"CPD0-2084" 109.128 -"CPD-3764" 561.701 -"CPD-3766" 172.183 -"FUCULOSE-1P" 242.12 -"OXALYL-COA" 834.518 -"CPD-108" 108.14 -"NIACINAMIDE" 122.127 -"CPD0-1501" 208.189 -"CPD0-1500" 202.21 -"CPD0-1502" 224.644 -"CPD0-1507" 119.12 -"CPD0-1506" 223.157 -"CPD0-1508" 432.063 -"5-ETHYLTHIOADENOSINE" 311.365 -"ACETYL-P" 138.015 -"HMP" 139.158 -"CPD0-1965" 370.45 -"UDP-AA-GLUTAMATE" 875.58 -"2-THIOURIDINE" 260.269 -"IMIDAZOLE-LACTATE" 155.133 -"CPD-1106" 125.064 -"CPD-1107" 569.971 -"CPD-10303" 119.12 -"CPD-2961" 273.11 -"CPD0-2089" 202.276 -"CPD0-2088" 138.102 -"TAURINE" 125.147 -"CPD0-1159" 223.336 -"CPD-13320" 149.157 -"CPD-13321" 126.199 -"CPD-13322" 112.172 -"CPD-13323" 126.199 -"4-AMINO-BUTYRATE" 103.121 -"CPD0-1652" 82.106 -"DPG" 262.003 -"5-FORMYL-THF" 471.43 -"CPD0-1153" 316.442 -"TETRAHYDROTHIOPHENE" 88.173 -"N-ETHYLMALEIMIDE" 125.127 -"FRU1P" 258.119 -"L-ARA4N-MODIFIED-KDO2-LIPID-A" 2498.995 -"Alpha-lactose" 342.297 -"2-3-DIHYDROXYBENZOATE" 153.113 -"ATABRINE" 401.982 -"DELTA3-ISOPENTENYL-PP" 243.068 -"5-IODOPENTAPHOSPHONATE" 262.991 -"CPD-10016" 804.031 -"THIAMINE" 265.36 -"FRUCTOSELYSINE-6-PHOSPHATE" 387.302 -"CPD-7867" 186.339 -"NICOTINAMIDE_RIBOSE" 255.25 -"5-HYDROXY-PIPECOLATE" 145.158 -"2-DEHYDRO-3-DEOXY-D-GALACTONATE" 177.132 -"TAGATOSE-6-PHOSPHATE" 258.119 -"RIBITOL" 152.146 -"N2-SUCCINYLGLUTAMATE" 244.179 -"CPD0-1342" 259.261 -"HISTAMINE" 112.156 -"TRIS" 122.144 -"DIHYDRO-NEO-PTERIN" 255.234 -"D-aspartate-peptidoglycan" 1987.316 -"ISOBUTANOL" 74.123 -"S-CARBOXYMETHYL-D-CYSTEINE" 178.187 -"SUC-COA" 862.572 -"INDOLE_PYRUVATE" 202.189 -"CDP-GROUP" 401.161 -"HYDROGEN-MOLECULE" 2.016 -"PHOSPHORIBOSYL-CARBOXY-AMINOIMIDAZOLE" 336.173 -"2-D-THREO-HYDROXY-3-CARBOXY-ISOCAPROATE" 174.152 -"CPD0-1277" 1208.539 -"CPD0-1276" 186.187 -"5-AMINOPENTANOATE" 117.148 -"CPD0-1274" 153.113 -"CPD0-1272" 182.087 -"CARBOXYPHENYLAMINO-DEOXYRIBULOSE-P" 346.208 -"ADENOSYLCOBINAMIDE" 1240.344 -"CYS" 121.159 -"IMIDAZOLE-ACETOL-P" 218.105 -"SIROHEME" 908.607 -"ACETYLSERINE" 147.13 -"CAMP" 328.201 -"D-GALACTONATE" 195.147 -"CPD0-2189" 135.119 -"CPD0-2184" 210.141 -"CPD0-2182" 174.2 -"L-DEHYDRO-ASCORBATE" 174.108 -"CPD-703" 151.121 -"CPD0-1189" 978.434 -"CPD-313" 76.143 -"CPD0-1187" 423.171 -"LIPOIC-ACID" 205.32 -"CPD-8989" 165.212 -"CPD-7673" 105.136 -"CPD-7670" 62.135 -"CPD-7671" 48.108 -"PHOSPHATIDYLETHANOLAMINE-KDO2" 1963.081 -"UDP-GROUP" 402.145 -"2-OCTAPRENYL-6-HYDROXYPHENOL" 655.064 -"CPD-7679" 74.147 -"DIGLUCOACETYL-DOCOSANOATE" 721.902 -"THIABENDAZOLE" 201.252 -"1-AMINO-PROPAN-2-ONE-3-PHOSPHATE" 168.065 -"5-AMINO-5-DEOXY-D-GALACTOPYRANOSIDE" 180.18 -"CPD0-2360" 120.195 -"UDP-MANNAC" 605.339 -"CPD0-2363" 897.641 -"CPD0-2364" 930.647 -"CPD0-2365" 888.61 -"CPD0-2367" 262.193 -"DUDP" 385.138 -"CPD0-1937" 194.183 -"BIO-5-AMP" 572.515 -"L-GLUTAMATE-5-P" 225.093 -"CPD0-2414" 88.106 -"CPD0-1691" 176.196 -"CPD0-1690" 174.224 -"CPD-15358" 463.375 -"CPD0-1694" 126.751 -"CPD0-1699" 210.173 -"CPD-15424" 389.241 -"CPD0-1059" 131.175 -"CPD0-1057" 218.32 -"CPD0-1055" 518.141 -"CPD0-1054" 503.174 -"CPD0-1053" 566.277 -"CPD0-1052" 333.425 -"CPD0-1051" 292.372 -"CPD0-1050" 292.372 -"MONOTRANS-CIS-DECAPRENYL-GROUP" 683.206 -"HYDROQUINONE-O-BETA-D-GLUCOPYRANOSIDE" 272.253 -"GUANOSINE-5DP-3DP" 598.12 -"FAD-STEM-GROUP" 559.342 -"CPD-11209" 431.322 -"PHOSPHORYL-ETHANOLAMINE" 140.055 -"1-AMINO-PROPAN-2-OL" 76.119 -"CPD0-1585" 356.348 -"CPD0-1584" 412.534 -"P-NITROPHENOL" 138.102 -"P-RIBOSYL-4-SUCCCARB-AMINOIMIDAZOLE" 450.253 -"CPD-13890" 207.161 -"L-1-LECITHIN" 790.161 -"MYO-INOSITOL" 180.156 -"S-CITRAMALATE" 146.098 -"CPD-16551" 228.093 -"ADENINE-RING" 135.13 -"CPD-9231" 299.35 -"CPD-9235" 433.42 -"CPD0-1468" 346.192 -"CPD0-1467" 139.154 -"CPD0-1464" 182.175 -"23-PENTANEDIONE" 100.117 -"CPD0-1461" 453.406 -"GLC-1-P" 258.119 -"CPD-7100" 172.136 -"D-GLT" 146.122 -"CPD-355" 152.146 -"XDP" 441.162 -"CPD-358" 74.079 -"L-ALPHA-AMINO-EPSILON-KETO-PIMELATE" 188.159 -"D-GALACTOSYLAMINE" 180.18 -"CPD-9051" 260.159 -"CPD-9053" 86.134 -"CPD-173" 124.139 -"PANTOTHENATE" 218.229 -"CPD-170" 666.579 -"L-SELENOCYSTEINE" 168.054 -"CPD-14463" 224.192 -"CPD0-1512" 219.193 -"ALPHA-NAPHTHYL-ACETATE" 186.21 -"L-HISTIDINOL-P" 220.145 -"CPD-11426" 338.488 -"CPD-1114" 165.121 -"DGDP" 424.179 -"CPD-143" 227.085 -"NACMUR" 292.264 -"CPD0-2250" 503.15 -"GUANINE" 151.129 -"CPD-13357" 133.123 -"CPD-13353" 161.181 -"SEPO3" 158.939 -"CPD-13593" 308.455 -"CPD-13594" 107.156 -"C3" 1146.921 -"C1" 1189.922 -"OH-HEXANOYL-COA" 877.651 -"FE+2" 55.845 -"FE+3" 55.845 -"C5" 1713.043 -"C4" 1670.042 -"O-SUCCINYL-L-HOMOSERINE" 218.185 -"CPD-3571" 173.1 -"P-AMINO-BENZOATE" 136.13 -"NADPH" 741.393 -"CHLOROACETALDEHYDE" 78.498 -"CPD-371" 128.215 -"TRIMETHYLSULFONIUM" 77.17 -"CPD-5742" 225.268 -"PHENYLGLYOXAL" 134.134 -"CPD-9965" 1058.03 -"CPD-7988" 250.382 -"TDP" 399.165 -"NMNH" 334.221 -"DIAMINO-OH-PHOSPHORIBOSYLAMINO-PYR" 351.212 -"CPD-10267" 917.76 -"CPD-10260" 1043.959 -"CPD-10262" 1027.96 -"PURINE-RING" 120.115 -"L-ORNITHINE" 133.171 -"CPD-4501" 416.135 -"PROPIONYL-COA" 819.571 -"DIACETYLCHITOBIOSE-6-PHOSPHATE" 502.366 -"FRUCTOSELYSINE" 309.339 -"CPD-389" 131.067 -"CPD0-2085" 109.128 -"CPD0-1269" 249.06 -"CPD0-2087" 96.109 -"CPD0-2086" 283.244 -"CPD0-2081" 324.157 -"ADP-L-GLYCERO-D-MANNO-HEPTOSE" 617.354 -"CPD0-2083" 138.126 -"CPD0-2082" 138.102 -"CPD0-1260" 76.119 -"CPD0-1262" 148.137 -"CPD0-1263" 196.114 -"CPD0-1264" 172.18 -"CPD0-1265" 186.207 -"CPD0-1267" 164.116 -"CPD-15762" 180.156 -"CPD-15761" 180.156 -"XYLITOL" 152.146 -"CPD0-1426" 337.296 -"PENTACHLOROPHENOL" 265.33 -"CPD0-1932" 165.156 -"CPD0-2171" 989.867 -"CPD0-2173" 455.505 -"CPD0-1681" 222.196 -"CPD0-2177" 453.557 -"CPD0-2178" 397.449 -"CPD0-1198" 165.121 -"CPD0-1197" 195.147 -"CPD0-1685" 258.386 -"GLYCEROL" 92.094 -"3-HYDROXYADIPYL-COA" 906.625 -"CPD-1843" 103.097 -"HCO3" 61.016 -"CPD-15699" 150.13 -"DIHYDROMONAPTERIN-TRIPHOSPHATE" 491.139 -"P-NITROPHENYL-ACETATE" 181.147 -"5-PHOSPHO-RIBOSYL-GLYCINEAMIDE" 285.169 -"DIHYDROFOLATE" 441.404 -"DIMETHYLSUBERIMIDATE" 200.282 -"D-THREONINE" 119.12 -"CPD0-1682" 88.106 -"CPD0-1683" 181.06 -"CPD-13914" 189.099 -"CPD-13913" 191.115 -"CPD-13912" 208.122 -"CPD0-1684" 262.486 -"CPD-13910" 189.099 -"CPD0-1689" 326.48 -"CPD-13918" 267.245 -"CPD0-1040" 283.264 -"CPD0-1042" 282.256 -"CPD0-1043" 297.271 -"CPD0-1045" 266.213 -"CPD-8887" 58.036 -"CPD0-1048" 292.372 -"CPD0-1049" 454.513 -"CPD-2343" 271.094 -"L-GALACTOSE" 180.156 -"2-KETO-3-METHYL-VALERATE" 129.135 -"CO-A" 763.507 -"CPD0-2552" 534.184 -"CPD0-2223" 481.611 -"CPD0-2557" 913.728 -"CPD0-2556" 356.416 -"CPD-582" 864.469 -"CPD-581" 73.095 -"CPD-9138" 227.132 -"HS" 34.081 -"HYDROXYPROPANAL" 74.079 -"C55-PP-GLCNAC-MANNACA" 1344.629 -"HG+2" 200.59 -"HEXANAL" 100.161 -"CPD-14" 224.254 -"PALMITYL-COA" 1001.922 -"CPD0-1148" 136.198 -"D-SEDOHEPTULOSE-7-P" 288.145 -"KDO2-LIPID-A" 2232.701 -"OXAMATE" 88.042 -"CPD-763" 124.935 -"D-CYSTEINE" 121.159 -"NAD-STEM-GROUP" 541.303 -"CPD-9227" 347.394 -"CPD0-1456" 747.473 -"CPD0-1455" 390.48 -"CPD0-1454" 225.117 -"CPD-9229" 395.434 -"CPD0-1458" 154.058 -"CPD0-2498" 225.2 -"5-HYDROXY-CTP" 495.123 -"CPD-6001" 150.13 -"CPD0-2224" 905.705 -"CPD-343" 175.116 -"CPD-347" 76.095 -"DIISOPROPYL-PHOSPHATE" 181.148 -"CPD0-2124" 613.514 -"3-NITROBENZALDEHYDE" 151.121 -"CPD-3736" 208.237 -"CPD-3742" 196.222 -"CPD-3743" 514.703 -"CPD-3740" 254.329 -"CPD-3741" 76.122 -"SUC" 116.072 -"CPD-3747" 120.171 -"CPD-3744" 137.178 -"CPD-3745" 125.123 -"ANTHRANILATE" 136.13 -"CPD-8260" 721.974 -"BR-" 79.904 -"ALPHA-D-GALACTOSE" 180.156 -"CPD0-2121" 859.636 -"CPD-16183" 239.238 -"EDTA" 289.22 -"TREHALOSE-6P" 420.26 -"CPD0-1525" 244.222 -"CPD0-1524" 246.238 -"CPD0-1520" 251.235 -"DIGLUCODIACETYL-DOCOSANOATE" 763.939 -"CROTONYL-COA" 831.582 -"SELENOHOMOCYSTEINE" 182.081 -"DIACETYL" 86.09 -"ADP" 424.179 -"CPD-1301" 699.634 -"CPD-1302" 713.661 -"2-O-ALPHA-MANNOSYL-D-GLYCERATE" 267.21 -"CPD-16983" 288.383 -"MANNOSE-6P" 258.119 -"GMP" 361.207 -"CPD-16459" 96.986 -"CPD-13343" 101.105 -"CPD-16989" 84.118 -"CPD-12294" 552.57 -"CPD0-1812" 356.547 -"CPD-13584" 26.018 -"OCTAPRENYL-METHYL-METHOXY-BENZQ" 699.117 -"UDP-D-GLUCOSAMINE" 564.31 -"HYDROQUINONE" 110.112 -"3-DEOXY-D-ARABINO-HEPTULOSONATE-7-P" 285.121 -"DUTP" 464.109 -"GDP-D-GLUCOSE" 603.327 -"GAMMA-BUTYROBETAINYL-COA" 891.702 -"4-HYDROXY-2-KETOVALERATE" 131.107 -"ISOVALERATE" 101.125 -"ADIPATE" 144.126 -"CHOLANATE2" 405.555 -"UDP-GLUCURONATE" 577.261 -"PROPANOL" 60.096 -"CPD-12367" 377.206 -"CPD-12366" 535.148 -"CPD-12365" 361.207 -"ACETYL-D-GLUCOSAMINYLDIPHOSPHO-UNDECAPRE" 1128.46 -"N-DELTA-PHOSPHONOACETYL-L-ORNITHINE" 253.171 -"2-PROTOCATECHUOYLPHLOROGLUCINOLCARBOXYLA" 305.218 -"CPD-12164" 253.194 -"N-BROMOSUCCINIMIDE" 177.985 -"GLYCOLLATE" 75.043 -"CPD0-1946" 220.292 -"CPD-11984" 856.139 -"SS-DIMETHYL-BETA-PROPIOTHETIN" 134.198 -"5-OXOPROLINE" 128.107 -"CPD0-1078" 156.077 -"D-BETA-D-HEPTOSE-1-P" 288.145 -"L-RIBULOSE-5-P" 228.093 -"N1-METHYLADENINE" 149.157 -"CPD-17063" 836.855 -"L-ARGININE-P" 253.175 -"CPD0-1218" 146.122 -"CPD0-2090" 140.205 -"CPD0-1245" 196.119 -"OH-MYRISTOYL" 1016.022 -"CPD0-2099" 169.093 -"CPD0-1631" 380.385 -"CPD0-1248" 194.147 -"BUTHIONINE-SULFOXIMINE" 222.308 -"CPD0-2162" 483.559 -"IMINO-GROUP" 28.034 -"CPD0-2167" 134.131 -"CPD0-2165" 425.503 -"O-PHOSPHO-L-HOMOSERINE" 197.083 -"MN+2" 54.938 -"6-SELENO-OCTANOATE" 222.166 -"HEXANOATE" 115.152 -"CPD-15530" 193.131 -"CPD0-1321" 354.1 -"CPD0-1320" 269.217 -"CPD0-1322" 244.227 -"CPD0-1325" 416.172 -"CPD0-1324" 478.243 -"CPD0-1327" 130.078 -"CPD0-1326" 614.191 -"CPD0-1329" 505.477 -"CPD0-1328" 505.477 -"CPD0-2306" 206.218 -"CPD0-2303" 149.125 -"CPD0-2301" 279.1 -"ADENYLOSUCC" 459.264 -"2-DEOXYGLUCOSE-6-PHOSPHATE" 242.12 -"CPD-13908" 689.58 -"IMIDAZOLE-PYRUVATE" 153.117 -"ETHIONINE" 163.24 -"DIHYDROXY-ACETONE-PHOSPHATE" 168.041 -"DGTP" 503.15 -"CPD-13907" 192.123 -"CARBAMOYL-P" 139.003 -"PYROPHOSPHATE-GROUP" 174.949 -"D-LACTATE" 89.07 -"CPD-15403" 442.452 -"CMP" 321.182 -"CPD0-1035" 377.206 -"D-TARTRATE" 148.07 -"CPD0-1036" 178.575 -"CPD0-1031" 265.914 -"CPD0-967" 274.102 -"CPD0-2053" 116.116 -"S-ADENOSYL-4-METHYLTHIO-2-OXOBUTANOATE" 397.411 -"TETRAHYDROTHIOPHENE-1-OXIDE" 104.172 -"CPD0-2238" 2887.165 -"CPD0-2239" 2965.128 -"CPD0-2232" 1017.921 -"GAMMA-GLUTAMYL-PUTRESCINE" 218.277 -"CPD0-2230" 795.905 -"CPD0-2231" 409.164 -"CPD-15633" 193.131 -"IPRONIAZID" 179.223 -"CPD0-2234" 622.406 -"CPD-9451" 156.137 -"CPD-9452" 856.139 -"CPD-9453" 788.02 -"CPD-9454" 719.901 -"CPD-9455" 651.782 -"CPD-9456" 583.663 -"CPD-9457" 515.544 -"34-DIHYDROXYPHENYLACETYL-COA" 913.64 -"CPD-6124" 70.115 -"CPD-2482" 103.101 -"CPD-21" 204.383 -"CPD-27" 64.988 -"CPD0-1141" 379.373 -"CPD-29" 356.15 -"CPD0-1143" 152.117 -"CPD0-1144" 306.247 -"X-PHOSPHATE-GROUP" 80.987 -"DCDP" 384.154 -"CPD0-2195" 1044.551 -"5-PHOSPHORIBOSYL-N-FORMYLGLYCINEAMIDINE" 312.195 -"CPD0-1457" 140.031 -"MANNITOL" 182.172 -"3-BROMOPYRUVATE" 165.95 -"GLN" 146.146 -"METHYLNICOTINATE" 137.138 -"SULFATE" 96.061 -"CPD0-1445" 217.201 -"CPD0-1440" 186.187 -"CPD0-1442" 203.262 -"CPD-487" 345.232 -"CPD0-1449" 152.193 -"CPD-9228" 415.492 -"XYLULOSE-5-PHOSPHATE" 228.093 -"CPD-809" 103.081 -"CPD-374" 237.219 -"CPD-377" 193.131 -"S-METHYL-L-CYSTEINE" 135.186 -"L-HOMOCYSTEATE" 182.175 -"CPD-157" 212.157 -"ISOCHORISMATE" 224.168 -"CPD-622" 203.126 -"XTP" 520.133 -"THIOL-GROUP" 45.084 -"CPD-628" 203.082 -"CPD-397" 164.248 -"CPD0-1530" 208.189 -"CR+3" 51.996 -"CPD0-1532" 208.189 -"CPD0-1533" 208.189 -"CR+6" 51.996 -"CPD0-1535" 206.198 -"CPD0-1536" 206.198 -"CPD0-1537" 201.202 -"EGTA" 376.318 -"URACIL" 112.088 -"7-8-DIHYDROPTEROATE" 313.297 -"PORPHYRIN-RING" 308.344 -"DITHIO-NITROBENZOATE" 394.338 -"GUANOSINE_TETRAPHOSPHATE" 599.128 -"DIHYDROXYNAPHTHOATE" 203.173 -"CPD-201" 883.614 -"BROMOACETATE" 137.94 -"DI-H-URACIL" 114.104 -"AMINO-HYDROXYMETHYL-METHYLPYRIMIDINE-PP" 296.092 -"CPD-12284" 2059.202 -"CPD-3687" 159.229 -"8-HYDROXYDEOXYGUANOSINE-5-TRIPHOSPHAT" 519.149 -"CPD-3684" 142.07 -"CPD-13575" 264.173 -"CPD-3682" 61.108 -"CPD-3681" 88.174 -"TDP-D-FUCOSAMINE" 546.339 -"FADH2" 785.557 -"PYRAZINAMIDE" 123.115 -"URATE" 168.112 -"BETAINE-ALDEHYDE-HYDRATE" 120.172 -"PHOSPHORIBOSYL-FORMAMIDO-CARBOXAMIDE" 364.207 -"PHENYL-PYRUVATE" 163.152 -"DEOXYCYTIDINE" 227.22 -"ERYTHRITOL" 122.12 -"CPD-16843" 332.484 -"CPD-12377" 17.007 -"L-XYLULOSE" 150.13 -"OXOPENTENOATE" 113.092 -"GAMMA-BUTYROBETAINE" 145.202 -"CPD-14763" 599.339 -"CPD-10284" 987.851 -"FORMYL-COA" 791.517 -"CPD-14101" 456.177 -"L-DI-GMP" 705.407 -"ISONIAZIDE" 137.142 -"CPD-3746" 95.097 -"INOSINE" 268.229 -"CPD-13399" 342.297 -"CPD-13398" 202.254 -"BIS-P-NITROPHENOLPHOSPHATE" 339.176 -"CPD-13390" 220.292 -"CPD-13393" 206.265 -"5-METHYLAMINOMETHYL-2-SELENOURIDINE" 350.233 -"CPD-13395" 189.171 -"CPD-13394" 203.198 -"CPD-13397" 190.199 -"MI-HEXAKISPHOSPHATE" 647.934 -"CPD0-1202" 312.271 -"CPD0-1203" 152.121 -"CPD0-1200" 177.132 -"CROTONO-BETAINE" 143.186 -"CYSTINE" 240.302 -"PSEUDOURIDINE-5-P" 322.166 -"LI+" 6.941 -"CPD0-2155" 850.829 -"CPD0-2153" 1005.436 -"CPD0-2152" 481.611 -"5-METHYLTHIOADENOSINE" 297.338 -"MESO-TARTRATE" 148.07 -"CPD-13025" 361.207 -"34-DIHYDROXYPHENYLACETALDEHYDE" 152.149 -"SE-2" 78.96 -"BACIMETHRIN" 155.157 -"undecaprenyl" 751.325 -"CHLORALAN-CPD" 123.539 -"CPD0-1330" 569.413 -"CPD0-1331" 877.596 -"CPD0-1336" 99.069 -"CPD0-1337" 678.41 -"CPD0-1335" 107.084 -"CPD0-1338" 676.394 -"2-ALPHA-HYDROXYETHYL-THPP" 466.347 -"CPD-7046" 32.065 -"TDP-FUC4NAC" 587.368 -"CPD0-2339" 86.07 -"CPD0-2338" 146.102 -"SHIKIMATE-5P" 251.107 -"11-DEOXYCORTICOSTERONE" 330.468 -"CPD0-2332" 497.337 -"CPD0-2331" 129.095 -"CPD0-2330" 717.942 -"CPD0-2337" 186.21 -"CPD0-2336" 186.258 -"1-KETO-2-METHYLVALERATE" 147.15 -"S2O4" 128.126 -"S2O3" 113.135 -"DIHYDROXY-BUTANONE-P" 182.068 -"CPD0-914" 459.395 -"CPD0-915" 461.304 -"CPD0-916" 459.332 -"CPD0-1025" 339.979 -"CPD0-1918" 417.46 -"CPD0-918" 171.18 -"CPD0-919" 558.286 -"CPD0-1028" 447.425 -"CPD0-1029" 273.154 -"PTERIDINE-RING" 132.126 -"BUTANAL" 72.107 -"CPD0-2207" 427.451 -"CPD0-2205" 673.681 -"CPD0-2202" 745.996 -"CPD0-2200" 352.364 -"CPD-9115" 301.251 -"CPD-9117" 256.254 -"UREA" 60.056 -"CPD-568" 189.303 -"CPD-564" 267.301 -"CPD-560" 180.223 -"CPD0-1913" 379.369 -"CADAVERINE" 104.197 -"L-BETA-ASPARTYL-P" 211.066 -"OXALATE" 88.018 -"ATP" 503.15 -"GDP-TP" 677.091 -"CL-" 35.453 -"CPD0-1158" 969.836 -"CPD-12575" 564.286 -"FMNH2" 456.348 -"SER" 105.093 -"CPD0-1152" 288.388 -"6-AMINOPENICILLANATE" 216.26 -"CPD0-1151" 3885.838 -"CPD0-1156" 122.123 -"CPD0-1157" 126.155 -"CPD-31" 146.098 -"CARBON-MONOXIDE" 28.01 -"CPD-6602" 368.385 -"MESO-DIAMINOPIMELATE" 190.199 -"S-TUBERCIDINYLHOMOCYSTEINE" 383.428 -"CPD-16503" 153.133 -"CPD-16502" 321.174 -"CPD-16501" 243.211 -"CPD-16500" 88.851 -"CPD-702" 153.137 -"CU+2" 63.546 -"CPD-6761" 113.092 -"IMP" 346.192 -"PHOSPHORIBOSYL-AMP" 555.286 -"3-KETOBUTYRATE" 101.081 -"CPD-497" 244.203 -"S-ADENOSYLMETHIONINAMINE" 356.45 -"TRIMETHYLAMINE" 60.12 -"3-HYDROXYPHENYLACETYL-COA" 897.641 -"CPD-1099" 504.438 -"4-CARBOXYBENZALDEHYDE" 149.125 -"CPD-633" 153.113 -"CPD-1091" 133.083 -"L-GLYCERALDEHYDE-3-PHOSPHATE" 168.041 -"CPD-1093" 134.131 -"CPD-1094" 477.152 -"CPD-387" 126.904 -"CPD-381" 146.098 -"CPD0-1545" 244.27 -"CPD0-1544" 218.256 -"CPD0-1065" 162.301 -"CPD0-1541" 158.137 -"CPD0-1540" 168.172 -"CPD-16619" 272.146 -"ACETYL-GLU" 187.151 -"3-KETO-L-GULONATE" 193.131 -"3-CHLORO-D-ALANINE" 123.539 -"BISOHMYR-GLUCOSAMINYL-1P" 709.855 -"CPD-16470" 317.206 -"CPD0-2475" 196.202 -"SINEFUNGIN" 382.401 -"L-1-LYSOPHOSPHATIDATE" 434.51 -"2-OCTAPRENYL-6-METHOXYPHENOL" 669.091 -"CPD0-2477" 152.193 -"LIPOYL-AMP" 534.529 -"CPD0-1941" 132.163 -"CPD0-1940" 181.211 -"CPD0-1942" 103.121 -"CPD0-1945" 217.225 -"CPD0-1944" 203.174 -"CPD0-1499" 205.19 -"CPD0-1498" 204.206 -"CPD0-1496" 129.91 -"HYDROXY-METHYL-BUTENYL-DIP" 259.067 -"CPD0-1493" 360.219 -"CPD0-1492" 322.17 -"CPD0-1491" 84.082 -"CPD0-1490" 150.157 -"D-ALLOSE-6-PHOSPHATE" 258.119 -"23-DIMERCAPTOPROPAN-1-OL" 124.226 -"L-CYSTATHIONINE" 222.264 -"INDOLE-3-GLYCEROL-P" 285.192 -"D-ALA-D-ALA" 160.173 -"CPD-3785" 312.271 -"CPD-3782" 972.846 -"CPD-3783" 1297.128 -"CPD-3781" 1134.987 -"HISTIDINOL" 142.182 -"HSO3" 81.07 -"HYDROXYL-GROUP" 17.007 -"METOH" 32.042 -"DIHYDRONEOPTERIN-P" 333.197 -"5-CHLOROFORMYCIN" 301.69 -"METHYLMETHANETHIOSULFONATE" 126.198 -"CPD-10434" 109.124 -"CPD-7221" 943.798 -"CPD-10129" 251.246 -"CPD-7222" 943.798 -"PHENYLETHYLAMINE" 122.191 -"CPD-12115" 705.124 -"D-BETA-D-HEPTOSE-17-DIPHOSPHATE" 366.108 -"CPD0-1233" 415.574 -"CPD0-1232" 87.122 -"CPD0-1231" 162.164 -"CPD0-1230" 47.008 -"CPD0-1237" 201.158 -"CPD0-1236" 216.193 -"CPD0-1235" 347.105 -"CPD0-1234" 155.205 -"CPD-6972" 966.68 -"CPD0-1239" 108.16 -"SPERMIDINE" 148.274 -"R-4-PHOSPHOPANTOTHENOYL-L-CYSTEINE" 399.336 -"CPD-10542" 548.287 -"DIHYDRO-THYMINE" 128.131 -"CPD0-2148" 397.449 -"CPD-4422" 117 -"ALPHA-RIBAZOLE" 278.308 -"CPD0-2140" 511.613 -"CPD0-2143" 455.505 -"CPD0-2144" 427.451 -"CPD0-2147" 425.503 -"17-DIAMINOHEPTANE" 132.251 -"5-PHOSPHORIBOSYL-5-AMINOIMIDAZOLE" 294.18 -"CPD-13034" 181.167 -"RIBULOSE-5P" 228.093 -"OCTAPRENYL-METHYL-OH-METHOXY-BENZQ" 715.116 -"CPD-14932" 469.414 -"DCTP" 463.125 -"DIMETHYLSULFONIOACETATE" 120.171 -"CMP-GROUP" 322.19 -"CPD0-341" 306.425 -"CPD0-1306" 269.408 -"CPD0-1305" 162.141 -"CPD0-1304" 222.261 -"CPD0-1303" 317.317 -"CPD0-1302" 272.32 -"CPD0-1300" 146.142 -"ALPHA-RIBAZOLE-5-P" 356.271 -"CPD-7031" 86.134 -"CPD0-1309" 356.75 -"CPD0-1308" 167.057 -"CPD-14736" 208.217 -"CPD0-1307" 86.134 -"2-KETO-ISOVALERATE" 115.108 -"2-AMINOMALONATE-SEMIALDEHYDE" 103.077 -"DODECANOATE" 199.314 -"PUTRESCINE" 90.17 -"DCPIP" 268.099 -"CARBAMATE" 60.032 -"D-4-HYDROXY-2-KETO-GLUTARATE" 160.081 -"ILE" 131.175 -"V+5" 50.941 -"CARBON-DIOXIDE" 44.009 -"CPD0-2459" 150.198 -"CPD-15393" 306.167 -"CPD0-1617" 252.095 -"CPD-15391" 329.209 -"CPD-15390" 345.208 -"LACTALD" 74.079 -"CPD0-903" 127.143 -"PYRIDOXINE-5P" 247.143 -"KDO2-LIPID-IVA-COLD" 2286.793 -"CPD-3563" 604.822 -"CPD0-2212" 1823.785 -"CPD0-2213" 2972.913 -"CPD0-2214" 4436.45 -"CPD0-2215" 1478.78 -"CPD0-2216" 714.986 -"CPD0-2217" 802.104 -"CPD0-2218" 771.094 -"CPD0-2219" 1640.921 -"CARBOXYMETHOXYLAMINE" 90.058 -"DIAMINONONANOATE" 189.279 -"CPD-3801" 357.288 -"CPD-558" 904.653 -"P3I" 252.912 -"CPD-551" 123.024 -"CPD-552" 192.189 -"PYRUVATE" 87.054 -"CPD-12819" 691.972 -"CPD-12818" 748.08 -"DIMP" 330.193 -"GERANYL-PP" 311.187 -"CPD0-1465" 502.186 -"CPD-12815" 952.07 -"CPD-12814" 1008.178 -"CPD-12817" 734.973 -"CPD-12816" 791.081 -"1-ETHYLADENINE" 163.184 -"CPD-43" 354.491 -"CPD0-1163" 987.851 -"CPD0-1162" 969.836 -"CPD0-1160" 941.782 -"CPD-5" 87.91 -"7-CYANO-7-DEAZAGUANINE" 175.151 -"CPD-6" 175.82 -"CPD-3" 159.936 -"CPD-2" 132.905 -"PHTHALATE" 164.116 -"CHOLATE" 407.571 -"CPD-12601" 180.156 -"CPD-11551" 148.118 -"CPD-1063" 258.186 -"D-XYLONATE" 165.121 -"NIACINE" 122.103 -"SN-GLYCEROL-1-PHOSPHATE" 170.057 -"CPD-821" 143.186 -"NUKED-PENTOSE-RING" 134.131 -"GLYCOL" 62.068 -"CPD-822" 229.188 -"2-DEHYDROPANTOYL-LACTONE" 128.127 -"ETHYL-2R-METHYL-3S-HYDROXYBUTANOATE" 146.186 -"CPD-602" 352.196 -"CPD-605" 242.238 -"CPD-607" 583.129 -"CPD-609" 864.357 -"CPD-195" 143.206 -"CPD-1086" 354.212 -"L-ARGININO-SUCCINATE" 289.268 -"UTP" 480.108 -"GLYCERALD" 90.078 -"CPD0-1558" 171.219 -"L-FUCULOSE" 164.157 -"CPD0-1557" 167.208 -"CPD0-1554" 207.098 -"CPD-12773" 1087.407 -"CPD0-1552" 711.366 -"4-CYTIDINE-5-DIPHOSPHO-2-C" 519.293 -"CPD0-1574" 467.438 -"UDP-ACETYL-CARBOXYVINYL-GLUCOSAMINE" 674.378 -"PALMITATE" 255.422 -"L-GLUTAMATE_GAMMA-SEMIALDEHYDE" 131.131 -"5-DEHYDROGLUCONATE" 193.131 -"GAMMA-GLUTAMYL-GAMMA-AMINOBUTYRALDEH" 216.237 -"DADP" 408.18 -"RIBOSE-TRIPHOSPHATE" 386.035 -"NAD" 662.422 -"MALTOTETRAOSE" 666.579 -"PHENYLACETALDEHYDE" 120.151 -"DTDP-DEOH-DEOXY-MANNOSE" 544.299 -"KDO2-LAUROYL-LIPID-IVA" 2022.34 -"CPD0-1686" 514.659 -"CPD0-1474" 585.554 -"ARSENATE" 139.926 -"CANAVANINE" 177.184 -"LYS" 147.198 -"CPD-5401" 392.203 -"CPD0-2518" 152.066 -"MOENOMYCIN" 1580.558 -"CPD0-1480" 220.252 -"CPD0-1481" 193.266 -"CPD0-1482" 413.478 -"CPD0-1483" 184.215 -"CPD0-1484" 399.427 -"CPD-11770" 255.234 -"SUPER-OXIDE" 31.998 -"CPD0-1487" 154.12 -"CPD0-1488" 150.157 -"CPD0-1489" 150.157 -"CPD0-1958" 208.257 -"CPD-10734" 267.21 -"OCTAPRENYL-METHOXY-BENZOQUINONE" 685.09 -"CPD0-2458" 147.05 -"DIETHYLPYROCARBONATE" 162.141 -"CPD-5541" 174.194 -"NA+" 22.99 -"CPD-12150" 131.175 -"CPD-12153" 292.159 -"KOJIC-ACID" 141.102 -"NICOTINATE_NUCLEOTIDE" 333.189 -"CPD-15392" 305.183 -"DEPHOSPHO-COA" 685.544 -"MENADIOL" 174.199 -"CPD0-1809" 348.658 -"CPD-4544" 175.597 -"BOROHYDRIDE" 14.843 -"METHYLAMINE" 32.066 -"KDO-LIPID-IVA" 1620.864 -"BUTYL-HYDROPEROXIDE" 90.122 -"L-DELTA1-PYRROLINE_5-CARBOXYLATE" 112.108 -"4-HYDROXYBENZALDEHYDE" 122.123 -"CPD0-1224" 165.576 -"CPD0-1227" 289.545 -"CPD0-1220" 165.105 -"CPD0-1221" 231.144 -"CPD0-1222" 661.434 -"CPD0-1223" 675.417 -"CPD-15895" 228.093 -"CPD0-1229" 83.976 -"TRP" 204.229 -"CPD-10551" 210.078 -"CPD0-2139" 2744.94 -"CPD0-2138" 3351.498 -"CPD0-2135" 2138.382 -"CPD-12799" 52.46 -"CPD0-2133" 511.613 -"CPD-280" 115.108 -"CPD-13043" 193.142 -"ASCORBATE" 175.116 -"CPD0-1319" 228.204 -"DUMP" 306.167 -"CPD0-1310" 117.08 -"CPD0-1311" 246.194 -"CPD0-1312" 228.204 -"CPD0-1313" 465.855 -"CPD0-1314" 537.105 -"CPD0-1315" 492.654 -"CPD0-1316" 152.121 -"CPD0-621" 821.683 -"2-PHOSPHO-4-CYTIDINE-5-DIPHOSPHO-2-C-MET" 597.256 -"METHYLENE-THF" 455.431 -"QUINOLINATE" 165.104 -"CPD-6562" 373.314 -"SULFUR-DIOXIDE" 64.063 -"CPD0-2041" 173.965 -"CPD0-2040" 125.943 -"3-OCTAPRENYL-4-HYDROXYBENZOATE" 682.066 -"CPD0-2049" 164.157 -"GLUCOSAMINE-1P" 258.143 -"CHLORATE" 84.458 -"CPD-15382" 180.156 -"DEOXYCHOLATE" 391.572 -"GUANOSINE" 283.244 -"ALL-TRANS-PENTAPRENYL-DIPHOSPHATE" 515.544 -"CPD0-938" 3613.692 -"CPD0-939" 3805.859 -"CPD0-932" 2779.176 -"CPD0-933" 2857.139 -"CPD0-930" 2617.035 -"CPD0-936" 3289.41 -"CPD0-937" 3451.551 -"CPD0-934" 3049.306 -"CPD0-935" 3127.269 -"DEOXYXYLULOSE-5P" 212.094 -"MALEATE" 114.056 -"BETA-D-XYLOSE" 150.13 -"CPD-8122" 721.54 -"L-RIBULOSE" 150.13 -"ETHANAMINE" 46.093 -"COPROPORPHYRINOGEN_III" 656.736 -"CPD0-2265" 2078.448 -"CPD0-2264" 4409.585 -"CPD0-2267" 174.176 -"CPD0-2266" 2741.661 -"CPD0-2261" 3816.862 -"LEU" 131.175 -"D-ALLULOSE-6-PHOSPHATE" 258.119 -"CPD0-2262" 768.862 -"CPD0-2269" 1839.784 -"CPD0-2268" 2680.858 -"KYNURENATE" 187.154 -"GLUTAMIDE" 146.146 -"ITACONATE" 128.083 -"CPD-13406" 189.147 -"MELILOTATE" 165.168 -"4-hydroxybenzoate" 137.114 -"FORMAMIDE" 45.041 -"CPD-12800" 51.452 -"DIETHYLDITHIOCARBAMATE" 148.272 -"CPD-58" 154.189 -"DIHYDRONEOPTERIN-P3" 491.139 -"CPD0-2468" 228.093 -"CPD0-2463" 289.049 -"CPD0-2462" 129.115 -"CPD0-2461" 151.129 -"CPD0-2460" 344.313 -"CPD0-2467" 210.078 -"CPD0-2466" 209.07 -"CPD0-2464" 469.458 -"ACETOACETYL-COA" 847.581 -"glycogen-monomer" 163.149 -"3OH-4P-OH-ALPHA-KETOBUTYRATE" 211.042 -"L-AZASERINE" 174.136 -"CHOLINE" 104.173 -"DIHYDROLIPOAMIDE" 207.36 -"CPD-546" 116.072 -"T2-DECENOYL-COA" 915.744 -"CPD-541" 333.206 -"PHOSPHATE-GROUP" 94.97 -"CPD-548" 334.328 -"CPD-618" 203.126 -"CPD-610" 236.913 -"CPD-611" 501.265 -"CPD0-1563" 222.264 -"CPD0-1562" 334.092 -"3-P-HYDROXYPYRUVATE" 181.016 -"CPD0-1567" 177.267 -"CPD0-1566" 197.257 -"CPD0-1565" 211.284 -"CPD0-1564" 240.302 -"CPD0-1568" 163.24 -"CPD-16549" 143.186 -"ACET" 59.044 -"ADP-MANNOSE" 587.328 -"CPD0-1760" 358.519 -"CPD0-1763" 372.546 -"CPD0-1762" 358.519 -"CPD0-1816" 358.519 -"CPD0-1815" 330.465 -"CPD0-1353" 105.044 -"8-SELENO-OCTANOATE" 222.166 -"ADP-D-GLYCERO-D-MANNO-HEPTOSE" 617.354 -"CPD-722" 259.305 -"ADENOSYL-HOMO-CYS" 384.416 -"CPD-9793" 174.176 -"CPD-16491" 183.171 -"CPD0-1359" 362.47 -"MG+2" 24.305 -"GDP-4-DEHYDRO-6-L-DEOXYGALACTOSE" 585.312 -"IODOACETATE" 184.94 -"CPD-12010" 90.122 -"CPD0-1641" 159.185 -"HYPOXANTHINE" 136.114 -"L-GAMMA-GLUTAMYLCYSTEINE" 249.266 -"CPD0-1963" 1146.945 -"CPD-11763" 644.701 -"CPD0-1961" 118.156 -"ETHYLENE-CMPD" 28.054 -"6-DEOXY-D-GLUCOSE" 164.157 -"L-1-GLYCERO-PHOSPHORYLCHOLINE" 257.223 -"PYRIDOXAL" 167.164 -"CPD-8353" 453.557 -"D-TAGATURONATE" 193.131 -"CPD-4" 392.331 -"DE-O-GLUCONATE" 179.148 -"HSCN" 58.083 -"3-PHENYLPROPIONATE" 149.169 -"CPD0-1588" 342.321 -"LAUROYLCOA-CPD" 945.814 -"CPD0-1581" 290.323 -"CPD0-1583" 249.725 -"L-ALLO-THREONINE" 119.12 -"D-GALACTARATE" 208.122 -"CPD0-1587" 342.321 -"CPD0-1586" 321.337 -"OH-PYR" 103.053 -"CPD-14133" 759.408 -"CPD-10145" 211.953 -"STEAROYL-COA" 1029.976 -"4-HYDROXY-BENZYL-ALCOHOL" 124.139 -"CPD-7970" 204.62 -"CPD-7975" 259.349 -"5-METHYLAMINOMETHYL-2-THIOURIDINE" 304.346 -"HCN" 27.026 -"HCL" 36.461 -"FRUCTOSE-16-DIPHOSPHATE" 336.082 -"11-DEOXY-CORTISOL" 346.467 -"D-6-P-GLUCONO-DELTA-LACTONE" 256.103 -"CPD-12231" 2907.208 -"CPD-15711" 258.119 -"CPD-9374" 76.119 -"3-ENOLPYRUVYL-SHIKIMATE-5P" 320.146 -"PYRAZOLE" 68.079 -"PYRIMIDINE-RING" 80.09 -"DIHYDROPTERIN-CH2OH-PP" 352.116 -"CPD0-2128" 585.312 -"NOCARDICIN-A" 499.456 -"D-SEDOHEPTULOSE-1-7-P2" 366.108 -"CPD0-2123" 931.743 -"L-ASPARTATE-SEMIALDEHYDE" 117.104 -"CPD-15922" 151.129 -"CPD-13059" 193.131 -"TETRANITROMETHANE" 196.031 -"CPD0-1364" 648.415 -"CPD0-1367" 240.302 -"CPD0-1366" 235.306 -"CPD0-1360" 495.03 -"CPD0-1363" 433.245 -"FMN" 453.324 -"CPD0-1485" 185.199 -"URIDINE" 244.203 -"L-ALA-GAMMA-D-GLU-DAP" 389.385 -"DEOXYGUANOSINE" 267.245 -"CPD-4841" 165.104 -"CPD0-2050" 238.247 -"CPD0-2051" 255.234 -"CPD0-2056" 274.253 -"CPD0-2054" 162.208 -"CPD0-2055" 192.174 -"BUTYRYL-COA" 833.598 -"CPD0-2058" 225.2 -"CPD0-2059" 170.12 -"8-AMINO-7-OXONONANOATE" 187.239 -"GLUTATHIONYLSPERMIDINE" 436.577 -"CPD-13944" 149.106 -"MALONYL-COA" 848.545 -"DATP" 487.151 -"CPD-15916" 152.18 -"CPD0-929" 2424.868 -"SORBITOL" 182.172 -"3-OXOPALMITOYL-COA" 1015.905 -"CPD0-920" 256.285 -"CPD0-923" 199.181 -"CPD0-922" 222.219 -"VAL" 117.148 -"CPD0-2276" 103.121 -"CPD0-2277" 1683.643 -"CPD0-2274" 1768.705 -"CPD0-2272" 1697.626 -"CPD0-2273" 1750.69 -"CPD0-2270" 1820.761 -"CPD0-2271" 4171.17 -"AMINO-OXOBUT" 117.104 -"CPD0-2278" 1896.88 -"CPD0-2279" 1803.062 -"CPD-66" 146.054 -"CPD-67" 153.006 -"CPD-62" 482.322 -"ADP-GROUP" 425.187 -"MALTOPENTAOSE" 828.72 -"CPD-68" 101.105 -"CPD-69" 42.017 -"L-2-AMINOPENTANOIC-ACID" 117.148 -"CPD0-1105" 137.138 -"CPD0-1104" 101.105 -"UDP" 401.137 -"CPD-2209" 1060.341 -"CPD0-1103" 113.116 -"CPD0-1102" 169.029 -"TAGATOSE-1-6-DIPHOSPHATE" 336.082 -"ISOVALERYL-COA" 847.625 -"CPD0-1108" 150.13 -"SARCOSINE" 89.094 -"GLYCEROPHOSPHOGLYCEROL" 245.144 -"3-5-ADP" 423.171 -"CPD-8902" 165.121 -"CPD0-2479" 463.034 -"BENZOYLCOA" 867.615 -"CPD0-2474" 759.408 -"AMINO-HYDROXYMETHYL-METHYL-PYR-P" 217.121 -"CPD0-2476" 214.264 -"DMSO" 78.134 -"CPD0-2472" 681.445 -"METHYL-GLYOXAL" 72.063 -"CPD-448" 258.119 -"AGMATHINE" 132.211 -"METHYL-MALONYL-COA" 862.572 -"CPD-444" 258.186 -"CD+2" 112.411 -"3-AMINO-12-PROPANEDIOL" 92.118 -"BUTANEDIOL" 90.122 -"CPD0-1610" 49.008 -"CPD0-1613" 194.119 -"CPD0-1612" 192.123 -"CPD0-1615" 168.065 -"CPD0-1614" 146.122 -"L-PENICILLAMINE" 149.213 -"CPD0-1616" 131.087 -"2-KETO-3-DEOXY-D-GLUCARATE" 190.107 -"CPD-536" 170.057 -"CPD-535" 336.082 -"CPD-534" 569.971 -"N-ACETYL-D-GLUCOSAMINE-1-P" 299.172 -"5-P-NITROPHENYLTHIOADENOSINE" 404.406 -"SELENATE" 142.956 -"CPD-660" 132.071 -"CPD-667" 161.157 -"CPD-194" 217.073 -"CPD-665" 58.08 -"CPD-196" 889.706 -"S-HYDROXYMETHYLGLUTATHIONE" 336.344 -"CPD0-1575" 764.617 -"CPD0-1576" 558.345 -"CPD0-1577" 149.213 -"CPD0-1570" 135.186 -"CPD0-1571" 133.17 -"CPD0-1572" 115.108 -"CPD0-1578" 89.118 -"UBIQUINONE-10" 863.365 -"CPD0-1807" 357.491 -"2-DEOXY-D-GLUCOSE" 164.157 -"CPD0-1281" 1640.11 -"CPD0-1808" 343.508 -"S-ADENOSYLMETHIONINE" 399.451 -"HYDRAZINE" 32.046 -"DIGLUCO-DOCOSANOATE" 679.865 -"CPD-11281" 338.383 -"T2-C4-DECADIENYL-COA" 913.728 -"3-HYDROXYPHENYL-PROPIONATE" 165.168 -"OCTANOL" 130.231 -"ALPHA-GLUCOSE-16-BISPHOSPHATE" 336.082 -"GMP-LYSINE-PHOSPHORAMIDATE" 546.454 -"CPD-1125" 457.432 -"N1-ACETYLSPERMINE" 247.407 -"D-MANNONATE" 195.147 -"CPD-8123" 519.261 -"CPD-3642" 117.148 -"ALLANTOATE" 175.124 -"TRANS-CIS-UNDECAPRENYL-GROUP" 751.325 -"ETOH" 46.069 -"PAPS" 503.233 -"CATECHOL" 110.112 -"DE-O-K-GLUCONATE" 177.132 -"CARNITINE" 161.201 -"CPD-2841" 43.029 -"TETRADECANOYL-COA" 973.868 -"N5-METHYLGLUTAMINE" 160.173 -"CPD-17530" 2311.672 -"TRANS-2-HEXENAL" 98.145 -"L-XYLULOSE-5-P" 228.093 -"CPD-17537" 338.454 -"2-KETO-3-DEOXY-6-P-GLUCONATE" 255.095 -"DITHIOTHREITOL" 154.252 -"3-AMINOPROPYL-METHYL-PHOSPHINATE" 137.119 -"8-HYDROXYQUINOLINE" 145.161 -"ARABINOSE-5P" 228.093 -"CPD0-1598" 453.539 -"CPD-12132" 145.181 -"CPD-11627" 129.159 -"CPD0-1590" 273.384 -"CPD0-1591" 336.395 -"CPD0-1594" 435.426 -"LIPOAMIDE" 205.344 -"2C-METH-D-ERYTHRITOL-CYCLODIPHOSPHATE" 276.074 -"OLEOYL-COA" 1027.96 -"3-DEHYDRO-SHIKIMATE" 171.128 -"D-TRYPTOPHAN" 204.229 -"METHYL-BETA-D-GALACTOSIDE" 194.183 -"CPD0-1555" 179.044 -"CPD-3462" 189.303 -"N-SUCCINYL-2-AMINO-6-KETOPIMELATE" 286.216 -"D-ALANINE" 89.094 -"4-HYDROXY-L-PROLINE" 131.131 -"CPD-15873" 1585.001 -"LINAMARIN" 247.247 -"CPD-15700" 150.13 -"CPD-15874" 894.585 -"RIBOSE-15-BISPHOSPHATE" 306.056 -"HEPTOSYL-KDO2-LIPID-IVA" 2032.2 -"ACETOL" 74.079 -"HYDROXYPYRIDINE-N-OXIDE" 111.1 -"GTP" 519.149 -"CPD0-1414" 443.432 -"PRECURSOR-Z" 344.2 -"2-DEOXYRIBOSE" 134.131 -"CPD0-2113" 436.526 -"CPD0-2117" 999.906 -"NITRIC-OXIDE" 30.006 -"RHAMNULOSE-1P" 242.12 -"PENTOSE-RING" 150.13 -"UNDECAPRENYL-DIPHOSPHATE" 924.258 -"L-PANTOATE" 147.15 -"CPD0-1378" 121.116 -"CPD0-1379" 119.12 -"CPD0-1376" 182.331 -"CPD0-1377" 105.117 -"CPD0-1375" 427.573 -"CPD0-1372" 257.155 -"CPD0-1373" 269.122 -"CPD0-1370" 269.122 -"CPD-7000" 72.107 -"4-HYDROXY-BUTYRATE" 103.097 -"6-THIO-OCTANOATE" 175.271 -"CPD-6366" 210.165 -"2-5-PHOSPHORIBOSYL-3-DEPHOSPHO-COA" 881.639 -"CPD0-2067" 217.288 -"CPD0-2066" 462.509 -"CPD0-2065" 376.453 -"CPD0-2064" 311.442 -"RB+" 85.468 -"CPD-4584" 99.946 -"CPD0-2061" 252.31 -"CPD0-2060" 152.161 -"ZN+2" 65.39 -"UBIQUINONE-2" 318.413 -"CPD0-1133" 1153.002 -"CH33ADO" 251.246 -"CPD0-2069" 423.381 -"CPD0-2068" 349.41 -"DIMETHYL-GLYCINE" 103.121 -"CPD-8891" 76.095 -"CPD-15709" 258.119 -"DIPYRROMETHANE" 416.386 -"CPD0-2249" 7682.354 -"CPD-13895" 136.198 -"CPD0-1033" 297.271 -"DIMETHYLBENZIMIDAZOLE" 146.193 -"CPD0-2241" 740.529 -"CPD0-2240" 2694.998 -"CPD0-2247" 3492.58 -"CPD0-2245" 1910.863 -"CPD0-2244" 933.759 -"ADP-D-GLUCOSE" 587.328 -"SIROHYDROCHLORIN" 854.778 -"CPD0-1038" 108.12 -"CPD-12820" 856.045 -"CPD-12821" 799.937 -"CPD-12822" 778.082 -"CPD-15291" 458.375 -"CPD-12824" 1351.854 -"CPD-12826" 439.388 -"ADENOSYLCOBINAMIDE-GDP" 1663.515 -"BISOHMYR-GLC" 1323.732 -"CPD0-1116" 258.119 -"CPD0-1117" 663.406 -"CPD0-1114" 166.173 -"CPD0-1115" 228.093 -"CPD0-1112" 164.157 -"CPD0-1113" 137.051 -"CPD0-1110" 150.13 -"CPD0-1118" 250.294 -"CPD0-1119" 323.784 -"CPD0-2480" 305.092 -"CPD0-2483" 686.559 -"CPD0-2482" 737.364 -"DCMP" 305.183 -"D-ALTRONATE" 195.147 -"CPD0-2486" 180.156 -"CPD0-2489" 134.067 -"CPD-8979" 116.096 -"CPD-9245" 253.406 -"S-ACETYLPHOSPHOPANTETHEINE" 398.372 -"CPD-3627" 74.147 -"GALACTITOL-1-PHOSPHATE" 260.135 -"5-BETA-L-THREO-PENTAPYRANOSYL-4-ULOSE-" 532.244 -"HYDROGEN-PEROXIDE" 34.014 -"CPD0-1609" 196.209 -"CPD0-1601" 402.125 -"CPD0-1606" 515.711 -"CPD0-1607" 280.34 -"CPD0-1604" 128.127 -"CPD0-1605" 153.181 -"CPD-520" 301.23 -"CPD-522" 222.193 -"THIOGLYCOLATE" 91.109 -"MI-PENTAKISPHOSPHATE" 569.971 -"3-SULFINOALANINE" 152.149 -"CPD-3703" 182.156 -"CPD-678" 80.976 -"CPD-4211" 243.068 -"CPD-674" 147.153 -"THREO-DS-ISO-CITRATE" 189.099 -"ANTIMONITE" 169.757 -"N-5-PHOSPHORIBOSYL-ANTHRANILATE" 346.208 -"FRUCTOSE-6P" 258.119 -"CPD-298" 103.121 -"CPD-16015" 86.07 -"CPD-291" 172.136 -"CPD-296" 207.336 -"CPD-16013" 100.097 -"COBINAMIDE" 990.106 -"CPD-1162" 350.216 -"DGMP" 345.208 -"FORMYCIN-A" 269.261 -"CPD-273" 324.262 -"CYS-GLY" 178.211 -"RHAMNOSE" 164.157 -"CPD0-1909" 316.334 -"CPD0-1908" 347.391 -"CPD0-1905" 519.149 -"HYDROXYNAPHTHOQUINONE" 174.155 -"CPD0-1907" 345.376 -"CPD0-1906" 329.353 -"CPD0-1901" 183.182 -"CPD0-1900" 183.182 -"CPD-185" 199.094 -"CPD-183" 169.112 -"AMP-GROUP" 345.208 -"L-2-AMINOHEXANOATE" 131.175 -"TMP" 320.194 -"CPD-14488" 193.131 -"NADH" 663.43 -"CPD-3582" 194.183 -"BENZALDEHYDE" 106.124 -"CPD-13559" 180.156 -"2-3-DIHYDROXYPHENYL-PROPIONATE" 181.167 -"NADP" 740.385 -"CPD0-1952" 103.121 -"KDO" 237.184 -"CPD0-1953" 110.54 -"N2-SUCCINYLORNITHINE" 231.228 -"CPD0-1951" 108.16 -"CPD-11636" 89.118 -"TARTRONATE-S-ALD" 103.053 -"CPD0-1957" 254.241 -"CPD0-1149" 296.35 -"CPD0-1486" 348.224 -"CPD-15244" 985.835 -"DITP" 488.135 -"L-CITRULLINE" 175.188 -"L-PIPECOLATE" 129.159 -"CPD-1244" 420.26 -"CPD0-1624" 102.974 -"CREATINE-P" 209.098 -"CPD0-1891" 259.262 -"PHENYLHYDANTOIN" 176.175 -"CGMP" 344.2 -"PROTOPORPHYRIN_IX" 560.654 -"DECOYININE" 279.256 -"THZ-P" 221.172 -"ETHYLACETIMIDATE" 88.13 -"2-DEOXY-D-GLUCOSE-6-PHOSPHATE" 242.12 -"D-CARNITINE" 161.201 -"UDP-AAGM-DIAMINOHEPTANEDIOATE" 1047.764 -"CPD0-1271" 181.103 -"SHIKIMATE" 173.144 -"CPD0-1147" 268.296 -"PNP-PROPIONATE" 195.174 -"HISTIDINAL" 140.166 -"CPD0-2105" 959.797 -"CPD0-2106" 903.689 -"HYDROXYLAMINE" 33.03 -"CPD0-2101" 257.25 -"CPD0-2102" 524.383 -"CPD0-2108" 887.69 -"N-ACETYL-D-MANNOSAMINE-6P" 299.172 -"D-TYROSINE" 181.191 -"FAD" 782.533 -"CPD0-1343" 542.021 -"L-ASPARTATE" 132.095 -"CPD0-1346" 494.135 -"CPD0-1345" 414.18 -"CPD0-1344" 589.021 -"CPD0-1349" 112.128 -"CPD0-1348" 488.645 -"PREPHENATE" 224.168 -"CPD-15056" 100.097 -"CPD0-2070" 363.393 -"CPD0-2071" 196.143 -"CPD0-2072" 431.489 -"CPD0-2074" 166.24 -"CPD0-2075" 152.213 -"CPD0-2077" 161.157 -"DIHYDRO-DIOH-BENZOATE" 155.129 -"ENOL-PHENYLPYRUVATE" 163.152 -"FORMATE" 45.017 -"NITROUS-OXIDE" 44.013 -"TYRAMINE" 138.19 -"CAPSAICIN" 305.418 -"3-HYDROXYPHENYLACETATE" 151.141 -"ADENOSYLCOBINAMIDE-P" 1318.307 -"CPD0-1294" 226.299 -"CPD0-1297" 182.147 -"CPD0-1296" 156.253 -"CPD0-2258" 3654.721 -"CPD0-2259" 3979.003 -"CPD0-1293" 222.237 -"CPD0-2254" 380.418 -"CPD0-2257" 3184.297 -"CPD0-1299" 180.18 -"BETA-D-FRUCTOSE" 180.156 -"CPD0-2253" 1045.975 -"UDP-4-AMINO-4-DEOXY-L-ARABINOSE" 534.284 -"CPD-15590" 180.156 -"CPD0-2062" 301.251 -"PYRIDOXAL_PHOSPHATE" 245.127 -"GLC" 180.156 -"CPD-13859" 85.082 -"DIHYDROCOUMARIN" 148.161 -"CPD-13852" 345.208 -"CPD-13853" 440.178 -"CPD-13851" 503.15 -"CPD0-1129" 1221.194 -"SUCROSE" 342.297 -"CPD0-1123" 308.263 -"CPD0-1122" 308.263 -"CPD-83" 228.247 -"TEREPHTHALATE" 164.116 -"CPD-6746" 258.119 -"CPD-7610" 458.727 -"PSICOSE" 180.156 -"OH" 17.007 -"5-P-BETA-D-RIBOSYL-AMINE" 228.117 -"S-ACETYLDIHYDROLIPOAMIDE" 249.397 -"D-XYLULOSE" 150.13 -"CPD0-2491" 408.632 -"OXALO-SUCCINATE" 187.083 -"UBIQUINONE-6" 590.889 -"SELENOMETHIONINE" 196.108 -"CPD0-2499" 272.146 -"CYTOSINE" 111.104 -"C55-PP-GLCNAC-MANNACA-FUC4NAC" 1531.824 -"CPD-469" 172.16 -"CPD-468" 160.149 -"SOLANESYL-PYROPHOSPHATE" 788.02 -"XYLOSE" 150.13 -"MANNOSE-1P" 258.119 -"BENZYL-ALCOHOL" 108.14 -"B-ALANINE" 89.094 -"ADENOSINE5TRIPHOSPHO5ADENOSINE" 753.388 -"AMINO-RIBOSYLAMINO-1H-3H-PYR-DIONE" 276.249 -"CPD0-1636" 142.056 -"CPD0-1635" 345.208 -"CPD-15332" 168.112 -"CPD0-1633" 161.16 -"CPD-12454" 863.58 -"CARBOXYL-GROUP" 45.017 -"CPD-8819" 156.188 -"AMP" 345.208 -"CPD-511" 278.372 -"CPD-510" 271.094 -"CPD-8815" 153.113 -"OROTATE" 155.089 -"CPD-884" 131.175 -"DEOXYINOSINE" 252.23 -"CPD0-1759" 344.492 -"CARNOSINE" 226.236 -"1-DEOXYXYLONOJIRIMYCIN" 134.155 -"XANTHINE" 152.113 -"25-DIDEHYDRO-D-GLUCONATE" 191.115 -"CPD-764" 138.015 -"4-P-PANTOTHENATE" 296.192 -"UDP-OHMYR-GLUCOSAMINE" 790.67 -"ERYTHROSE" 120.104 -"MONOMETHYL-ESTER-OF-TRANS-ACONITATE" 186.119 -"CPD-3662" 275.216 -"2K-4CH3-PENTANOATE" 129.135 -"8-THIO-OCTANOATE" 175.271 -"CPD-476" 206.177 -"ETHYL-ACETOACETATE" 130.143 -"CPD0-1919" 464.298 -"CPD0-1916" 254.309 -"CPD0-1914" 146.146 -"UDP-L-ARA4-FORMYL-N" 561.286 -"CPD0-1910" 363.37 -"CPD0-1911" 315.326 -"CPD-644" 181.191 -"4-PHOSPHONOOXY-THREONINE" 213.082 -"DIHYDROXYACETONE" 90.078 -"CPD-8363" 483.559 -"BUTYRIC_ACID" 87.098 -"GDP" 440.178 -"CPD-10427" 172.183 -"PYRAZINOIC-ACID" 123.091 -"--TRANS-ACENAPHTHENE-12-DIOL" 186.21 -"CPD-13469" 258.143 -"MET" 149.213 -"PHOSPHONATE" 79.979 -"ENOL-OXALOACETATE" 130.055 -"ALPHA-GLUCOSE" 180.156 -"ALL-TRANS-HEPTAPRENYL-DIPHOSPHATE" 651.782 -"COB-I-ALAMIN" 1329.37 -"STERONE-RING" 232.411 -"KDO2-LIPID-IVA" 1840.033 -"ECTOINE" 142.158 -"CPD-3618" 115.108 -"P-HYDROXY-PHENYLPYRUVATE" 179.151 -"PHOSPHORIBULOSYL-FORMIMINO-AICAR-P" 573.301 -"CPD0-2362" 897.641 -"CPD-3614" 192.167 -"CPD-10776" 150.13 -"CPD-10774" 150.13 -"CPD-10775" 132.115 -"CPD-10773" 132.115 -"FERRIC-CITRATE-COMPLEX" 446.139 -"GLUTAMATE-1-SEMIALDEHYDE" 131.131 -"BA+2" 137.327 -"PYRIDOXAMINE-5P" 247.167 -"2-C-METHYL-D-ERYTHRITOL-4-PHOSPHATE" 214.11 -"PHOSPHORYL-CHOLINE" 182.136 -"GERANYLGERANYL-PP" 447.425 -"L-GLYCERALDEHYDE" 90.078 -"CPD-13245" 298.341 -"CPD0-1354" 425.318 -"CPD0-1356" 395.372 -"CPD0-1357" 648.327 -"CPD0-1351" 119.144 -"CPD0-1352" 453.351 -"CPD-15619" 164.157 -"CPD-15616" 180.156 -"UDP-N-ACETYL-D-GLUCOSAMINE" 605.339 -"CPD0-1358" 385.505 -"BORATE" 61.832 -"AMMONIUM" 18.039 -"CPD0-2399" 179.172 -"UDP-OHMYR-ACETYLGLUCOSAMINE" 831.699 -"BUTANOL" 74.123 -"UDP-MURNAC-TETRAPEPTIDE" 1118.843 -"CPD-10204" 113.092 -"HOMO-CYS" 135.186 -"CPD0-2009" 95.94 -"DETHIOBIOTIN" 213.257 -"PYRIDOXINE" 169.18 -"CPD0-2413" 209.201 -"L-LYXOSE" 150.13 -"CPD-15920" 135.13 -"CPD-15921" 166.144 -"GALACTOSE" 180.156 -"HEXANOYL-COA" 861.652 -"CPD0-1922" 178.219 -"L-ARABITOL" 152.146 -"CPD0-1921" 154.193 -"MO+2" 95.94 -"CPD0-1920" 370.622 -"NITRATE" 62.004 -"CPD0-1286" 244.136 -"CPD0-1284" 1497.824 -"CPD0-1283" 1794.363 -"CPD0-1280" 1323.732 -"MANNITOL-1P" 260.135 -"CPD0-1924" 170.192 -"CPD0-1288" 224.215 -"CPD0-1692" 363.373 -"5-KETO-4-DEOXY-D-GLUCARATE" 190.107 -"GDP-4-DEHYDRO-6-DEOXY-D-MANNOSE" 585.312 -"D-RIBULOSE-1-P" 228.093 -"THYMIDINE" 242.231 -"CPD0-2531" 933.674 -"CPD0-2530" 316.135 -"CPD-207" 881.642 -"CPD0-1138" 344.22 -"CPD0-1139" 345.208 -"CPD0-1137" 911.33 -"CO+2" 58.933 -"S-NITROSOGLUTATHIONE" 335.316 -"CPD-12849" 199.094 -"2-DH-3-DO-D-ARABINONATE" 147.106 -"3-Methyl-Adenines" 149.157 -"ALL-TRANS-HEXAPRENYL-DIPHOSPHATE" 583.663 -"CPD-2483" 103.101 -"OLEATE-CPD" 281.46 -"SUCC-S-ALD" 101.081 -"CA+2" 40.078 -"NI+2" 58.693 -"CPD-656" 128.107 -"ADENINE" 135.13 -"3-METHYL-CROTONYL-COA" 845.609 -"DEHYDRO-DEOXY-GALACTONATE-PHOSPHATE" 255.095 -"FERRIC-ENTEROBACTIN-COMPLEX" 719.349 -"AMINO-OH-HYDROXYMETHYL-DIHYDROPTERIDINE" 195.182 -"2-HYDROXY-2-METHYLPROPANENITRILE" 85.106 -"DIHYDROSIROHYDROCHLORIN" 857.802 -"CPD0-1625" 284.406 -"CPD0-1626" 222.247 -"CPD0-1627" 172.164 -"CPD0-1629" 1229.323 -"CPD-8829" 771.141 -"SEMICARBAZIDE" 75.071 -"PSICOSELYSINE" 309.339 -"DIISOPROPYL-FLUOROPHOSPHATE" 184.147 -"CPD-507" 420.26 -"CPD-8774" 120.151 -"CPD-8876" 265.393 -"CPD-9608" 173.147 -"REDUCED-MENAQUINONE" 719.151 -"CPD-9195" 349.41 -"SUCROSE-6P" 420.26 -"CPD0-1720" 218.316 -"PROPANE-1-2-DIOL" 76.095 -"15-DIDEOXY-15-IMINO-D-GALACTITOL" 164.181 -"DEOXY-D-RIBOSE-1-PHOSPHATE" 212.094 -"N-23-DIHYDROXYBENZOYL-L-SERINE" 240.191 -"CPD-473" 129.091 -"CPD0-2485" 180.156 -"CPD-479" 147.173 -"3FE-4S" 295.795 -"4FE-4S" 351.642 -"CPD-8179" 183.099 -"2-OXOBUTANOATE" 101.081 -"CPD-3615" 223.225 -"XANTHOSINE-5-PHOSPHATE" 362.191 -"CPD-3617" 171.26 -"CPD-1142" 286.28 -"CPD-3611" 207.158 -"CPD-3612" 194.183 -"CPD-3613" 164.157 -"L-RHAMNONATE" 179.148 -"CPD-259" 109.128 -"CPD0-2030" 258.143 -"PYRIDOXAMINE" 169.204 -"CPD0-1923" 156.165 -"CPD0-1430" 135.19 -"CPD0-1433" 297.337 -"CPD0-1432" 211.288 -"CPD0-1927" 159.152 -"CPD0-1926" 194.218 -"CPD0-1925" 180.191 -"CPD0-1436" 457.543 -"CPD0-1438" 255.984 -"CPD0-1929" 139.158 -"CPD0-1928" 161.168 -"CPD-653" 681.445 -"CPD-650" 849.597 -"CPD-3723" 322.166 -"ETHYL-2-METHYLACETOACETATE" 144.17 -"CPD-10835" 108.144 -"F-" 18.998 -"N-ACETYL-D-GLUCOSAMINE" 221.209 -"CPD-9247" 281.46 -"CPD0-2039" 172.781 -"CPD-3721" 156.121 -"CPD-3722" 183.056 -"IODOACETAMIDE" 184.964 -"CPD-3724" 322.166 -"CPD-3725" 305.159 -"CPD-3727" 305.159 -"CPD-3728" 259.154 -"CPD-3729" 259.154 -"O-PHENANTHROLINE" 180.21 -"UDP-MANNACA" 618.314 -"HIS" 155.157 -"CPD-11653" 2355.749 -"3-KETO-ADIPYL-COA" 904.609 -"CPD-17189" 1568.545 -"CPD-7283" 498.704 -"CPD-3685" 114.06 -"CPD-264" 883.614 -"CPD-5601" 76.119 -"CPD-5602" 90.146 -"H2CO3" 62.024 -"LIPID-IV-A" 1401.695 -"CPDMETA-13650" 915.656 -"3-CARBOXY-3-HYDROXY-ISOCAPROATE" 174.152 -"246-TRINITROBENZENE" 213.105 -"THIAMINE-P" 343.323 -"AMP-LYSINE" 518.444 -"K-HEXANOYL-COA" 875.635 -"CPD-12279" 72.043 -"PHENANTHRENE-RING" 178.234 -"PANTETHEINE-P" 356.335 -"CPD-1831" 112.04 -"CPD-7417" 325.293 -"CPD0-1431" 150.205 -"N-QUINOLIN-8-YLMETHANESULFONAMI" 221.259 -"6R-6-FLUORO-EPSP" 337.172 -"CPD0-1096" 336.106 -"QUINATE" 191.159 -"ETHANOL-AMINE" 62.092 -"P4I" 331.883 -"BETAINE_ALDEHYDE" 102.157 -"SELENOLIPOATE" 299.11 -"GLYCOLALDEHYDE" 60.052 -"N3-METHYLCYTOSINE" 126.139 -"MALTOHEXAOSE" 990.861 -"UDP-N-ACETYLMURAMATE" 676.394 -"CPD-12301" 3358.157 -"PHENYLACETATE" 135.142 -"AMINO-ACETONE" 74.103 -"CPD-15629" 180.156 -"GLYCEROL-3P" 170.057 -"2-CARBOXYMUCONATE" 183.095 -"S-ALLANTOIN" 158.117 -"CPD0-2383" 154.56 -"CPD0-2381" 190.632 -"CPD0-1251" 327.324 -"CPD0-2018" 125.131 -"CPD0-2019" 222.193 -"CPD0-2017" 216.241 -"CPD0-2015" 190.242 -"CPD0-2012" 109.128 -"CPD0-2013" 283.244 -"CPD0-2011" 107.112 -"CPD-5861" 164.157 -"ACETALD" 44.053 -"TYR" 181.191 -"O-SUCCINYLBENZOATE" 220.18 -"R--ALLANTOIN" 158.117 -"1-CHLORO-24-DINITROBENZENE" 202.553 -"6-PYRUVOYL-5678-TETRAHYDROPTERIN" 237.219 -"PHE" 165.192 -"CPD-14445" 370.548 -"CPD-14447" 113.092 -"CPD-14441" 113.092 -"CPD-14442" 131.107 -"CPD-14443" 185.135 -"CPD0-2294" 6597.402 -"L-IDONATE" 195.147 -"3-ETHYLCATECHOL" 138.166 -"GLC-D-LACTONE" 178.14 -"4-AMINO-4-DEOXYCHORISMATE" 224.192 -"CPD0-1437" 270.027 -"TARTRATE" 148.07 -"CPD0-2521" 124.056 -"CPD0-2526" 132.183 -"N-SUCCINYLLL-2-6-DIAMINOPIMELATE" 288.256 -"SUCCINYL-OH-CYCLOHEXADIENE-COOH" 238.195 -"ALPHA-D-MANNOSYL-3-PHOSPHOGLYCERATE" 345.173 -"CPD-15002" 756.663 -"CPD0-1388" 481.115 -"CPD0-1386" 164.184 -"CPD0-1385" 100.457 -"CPD-7836" 227.368 -"CPD0-1380" 165.192 -"PHOSPHORIBOSYL-FORMIMINO-AICAR-P" 573.301 -"ALTROSE" 180.156 -"DIMETHYLARSINATE" 136.99 -"K+" 39.098 -"PHOSPHOPANTOTHEINE-GROUP" 356.335 -"CHORISMATE" 224.168 -"COFORMYCIN" 285.28 -"D-GLUCARATE" 208.122 -"IMIDAZOLE-RING" 68.079 -"CPD0-1655" 195.171 -"CPD0-1656" 193.155 -"CPD0-1650" 245.064 -"CPD0-1653" 281.272 -"CPD-15318" 228.093 -"CPD-7702" 149.213 -"CPD0-1659" 168.244 -"ACETYL-COA" 805.544 -"L-CARNITINYL-COA" 907.701 -"CEPHALOSPORIN-C" 414.414 -"2-AMINOACRYLATE" 86.07 -"SELENALYSINE" 215.155 -"ASN" 132.119 -"CPD-318" 175.116 -"CPD-316" 378.385 -"CPD-315" 1355.388 -"D-GALACTONO-1-4-LACTONE" 178.14 -"HOMO-SER" 119.12 -"INDOLE" 117.151 -"CPD-13898" 159.232 -"MELIBIOSE" 342.297 -"CPD-1772" 60.076 -"5-METHYLTHIOFORMYCIN" 297.338 -"FRUCTOSEGLYCINE" 237.208 -"DIMETHYL-D-RIBITYL-LUMAZINE" 325.301 -"L-LACTATE" 89.07 -"CPD-400" 124.139 -"CPD-16020" 267.245 -"CPD-404" 160.149 -"PHOSPHORIBOSYL-ATP" 714.236 -"HYDROXYMALONATE" 118.044 -"ITP" 504.134 -"CPD-3609" 344.313 -"CPD-3607" 180.156 -"XANTHOSINE" 284.228 -"CPD-3605" 342.297 -"CPD-3604" 221.209 -"DELTA1-PIPERIDEINE-2-6-DICARBOXYLATE" 169.136 -"GLUCOSAMINATE" 195.171 -"CPD-12045" 150.13 -"CPD-227" 150.13 -"GLOBOMYCIN" 669.861 -"CPD-225" 171.084 -"CPD0-1422" 646.887 -"CPD0-1423" 702.995 -"CPD0-1936" 164.157 -"CPD0-1421" 136.084 -"CPD0-1930" 140.142 -"CPD0-1931" 135.126 -"CPD0-1424" 698.963 -"CPD0-1425" 590.779 -"CPD0-1428" 152.217 -"SELENITE" 126.957 -"CPD0-1938" 314.412 -"CPD0-1939" 452.562 -"ERYTHRONATE-4P" 213.058 -"OXIDIZED-GLUTATHIONE" 610.62 -"ADENOSYLCOBALAMIN-5-P" 1657.571 -"UROPORPHYRINOGEN-III" 828.74 -"FARNESYL-PP" 379.306 -"KDO-8P" 315.147 -"5-P-RIBOSYL-N-FORMYLGLYCINEAMIDE" 312.171 -"GLYCERATE" 105.069 -"CPD-17573" 360.366 -"CPD-3733" 303.187 -"CPD-3732" 320.194 -"CPD-3731" 173.985 -"CPD-1181" 364.243 -"CPD-13409" 504.438 -"2-KETOGLUTARATE" 144.082 -"CPD-3735" 128.11 -"CPD-3734" 112.044 -"CPD-13405" 194.968 -"CPD-13404" 203.174 -"CPD-3739" 182.175 -"CPD-3738" 191.206 -"CPD-13401" 226.236 -"CPD-13403" 217.225 -"2-PG" 183.032 -"S-LACTOYL-GLUTATHIONE" 378.381 -"CARBAMYUL-L-ASPARTATE" 174.112 -"CPD-9383" 89.094 -"CPD-9384" 174.2 -"GDP-MANNOSE" 603.327 -"SPERMINE" 206.378 -"D-RIBULOSE" 150.13 -"CPD-8490" 156.269 -"4-HYDROXYPHENYLACETATE" 151.141 -"D-ERYTHRO-IMIDAZOLE-GLYCEROL-P" 236.12 -"OCTAPRENYL-DIPHOSPHATE" 719.901 -"FORMALDEHYDE" 30.026 -"CPD-13315" 372.417 -"CPD-13314" 370.401 -"CPD-13319" 165.156 -"COA-GROUP" 763.507 -"CPD-12261" 5725.322 -"PHENYLHYDRAZINE" 108.144 -"THZ" 143.209 -"CPD0-2080" 322.166 -"THR" 119.12 -"NAIR" 325.15 -"7-METHYLGUANOSINE-5-PHOSPHATE" 376.242 -"GLC-6-P" 258.119 -"2-MERCAPTOETHANOL" 78.134 -"THF" 443.42 -"CPD-7388" 320.697 -"5-METHYL-THF" 457.447 -"CPD-13407" 89.094 -"3-MERCAPTO-PYRUVATE" 119.119 -"2-OCTAPRENYLPHENOL" 639.065 -"GLYOX" 73.027 -"N-ALPHA-ACETYLORNITHINE" 174.2 -"PROTON" 1.008 -"ACETYLMALTOSE" 384.334 -"DI-H-OROTATE" 157.105 -"CPD0-441" 182.092 -"PI" 95.978 -"5-N-PROPYLTHIOADENOSINE" 325.392 -"4-HYDROXYPHENYLACETYL-COA" 897.641 -"CPD0-2023" 193.222 -"CPD0-2022" 438.293 -"CPD0-2021" 312.091 -"CPD0-2020" 350.062 -"CPD0-2026" 329.209 -"GALACTITOL" 182.172 -"CPD0-2028" 168.579 -"PROTOPORPHYRINOGEN" 566.702 -"L-GULONATE" 195.147 -"DICOUMAROL" 336.299 -"ACETAMIDE" 59.068 -"DL-5-FLUOROTRYPTOPHAN" 222.219 -"N-METHYLTRYPTOPHAN" 218.256 -"CPD-15127" 177.132 -"CPD0-1899" 662.442 -"ETHYLACETATE" 88.106 -"CPD0-2287" 1839.784 -"CPD0-2284" 647.635 -"CPD0-2283" 1981.942 -"CPD0-2281" 112.108 -"CPD0-2280" 3558.654 -"CPD0-2289" 1274.602 -"CPD0-2288" 2723.646 -"5-METHYLTHIOTUBERCIDIN" 296.35 -"L-1-GLYCEROPHOSPHORYLETHANOL-AMINE" 215.142 -"PYRIDINE-RING" 79.102 -"CPD-9956" 729.143 -"UMP" 322.166 -"4-AMINO-4-DEOXY-L-ARABINOSE" 150.154 -"CPD0-2517" 1055.556 -"CPD0-2516" 155.237 -"MALONATE" 102.045 -"CYTIDINE" 243.219 -"CPD0-1107" 164.157 -"CARBOXYETHYL-3-5-CYCLOHEXADIENE-1-2-DIOL" 183.183 -"CPD-15016" 160.081 -"CPD-15544" 298.279 -"CPD0-1390" 497.57 -"CPD0-1391" 504.138 -"CPD0-1392" 300.046 -"CPD0-1393" 426.151 -"CPD0-1394" 419.583 -"CPD0-1395" 62.004 -"PORPHOBILINOGEN" 225.224 -"CPD0-1397" 200.25 -"CPD0-1398" 186.223 -"CPD0-1399" 37.837 -"DAMP" 329.209 -"BENZOATE" 121.115 -"CPD0-2359" 158.093 -"CPD0-2358" 401.137 -"ADENOSINE_DIPHOSPHATE_RIBOSE" 557.302 -"CPD0-2355" 242.471 -"CPD0-2357" 96.085 -"CPD0-2356" 138.905 -"PB+2" 207.2 -"UBIQUINONE-8" 727.127 -"GLY" 75.067 -"3-P-SERINE" 183.056 -"ALPHA-METHYLMETHIONINE" 163.24 -"CPD0-1646" 258.143 -"CPD0-1647" 221.209 -"CPD-15302" 440.472 -"CPD0-1642" 223.187 -"CPD0-1643" 370.227 -"CPD-6661" 569.971 -"GERANIOL" 154.253 -"CDP" 400.153 -"S-24-DINITROPHENYLGLUTATHIONE" 472.41 -"GLUTARATE" 130.099 -"STEARIC_ACID" 283.476 -"GLUTACONATE" 128.083 -"OXALACETIC_ACID" 130.055 -"CPD-302" 132.095 -"CPD0-1701" 148.162 -"CPD0-1700" 144.174 -"CPD-9175" 162.188 -"CPD0-1708" 505.005 -"CPD-1490" 118.71 -"CPD-1492" 9.012 -"CPD-782" 167.14 -"GALACTOSE-1P" 258.119 -"PPI" 174.949 -"GAP" 168.041 -"CPD-3633" 132.119 -"CPD-15374" 180.156 -"CPD-239" 78.158 -"SO3" 80.062 -"CPD-16566" 164.157 -"CPD-230" 342.297 -"1-PALMITOYLGLYCEROL-3-PHOSPHATE" 408.472 -"CPD0-1415" 518.141 -"L-ALPHA-ALANINE" 89.094 -"CPD0-1413" 284.423 -"CPD0-1410" 661.092 -"CPD-16168" 299.172 -"ARG" 175.212 -"CPD-10814" 172.184 -"CPD-6041" 452.431 -"2-DEHYDROPANTOATE" 145.134 -"3-4-DIHYDROXYBENZOATE" 153.113 -"CPD-3706" 345.208 -"CPD-3707" 328.201 -"CPD-3705" 345.208 -"VANILLATE" 167.14 -"CPD-13414" 129.091 -"CPD-9000" 231.228 -"CPD-13413" 148.114 -"CPD-3708" 361.207 -"CPD-3709" 344.2 -"HYDROXYMETHYLBILANE" 846.755 -"2-AMINO-3-OXO-4-PHOSPHONOOXYBUTYRATE" 211.066 -"5-10-METHENYL-THF" 454.423 -"CPD0-1898" 548.287 -"TUNGSTATE" 248.844 -"CELLOBIOSE" 342.297 -"HOMOARGININE" 189.239 -"CPD-10329" 164.157 -"2-DEHYDRO-3-DEOXY-D-GLUCONATE" 177.132 -"CPD0-1037" 496.174 -"CPD-10324" 229.631 -"CAFFEOYLQUINATE" 353.303 -"CPD-10322" 206.333 -"METHYL-ACETYLPHOSPHONATE" 137.051 -"DTDP-GROUP" 400.173 -"5-AMINO-LEVULINATE" 131.131 -"N-ACETYLANTHRANILATE" 178.167 -"CPD-5662" 245.322 -"CPD-12253" 103.097 -"FARNESYLFARNESYLGERANIOL" 562.967 -"CPD-12251" 1913.694 -"CPD-12255" 119.12 -"3-HYDROXY-PROPIONATE" 89.07 -"6S-6-FLUORO-EPSP" 337.172 -"PROTOHEME" 614.483 -"GLT" 146.122 -"CPD-13927" 160.129 -"CPD-3569" 203.174 -"CPD-3566" 522.676 -"CPD-3567" 410.683 -"CPD-3564" 103.097 -"CPD-3565" 194.183 -"BISGLYCEROPHOSPHOGLYCEROL" 398.194 -"LIPOL-AMP" 520.546 -"CPD-3561" 342.297 -"CPD-11925" 402.487 -"MALTOTRIOSE" 504.438 -"ALPHA-GLC-6-P" 258.119 -"BUTYLAMINE" 74.147 -"CPD-9300" 149.213 -"CPD0-181" 336.173 -"PROPIONYL-P" 152.042 -"CPD0-1032" 147.198 -"AS+5" 82.986 -"3-HYDROXYBENZOATE" 137.114 -"2-ACETO-2-HYDROXY-BUTYRATE" 145.134 -"CPD0-2038" 134.062 -"CPD-7246" 299.172 -"PENICILLIN-G" 333.387 -"THIAMINE-PYROPHOSPHATE" 422.294 -"CPD0-1093" 505.166 -"CPD0-1092" 208.122 -"CPD0-1090" 208.122 -"CPD-15158" 337.181 -"CPD0-1095" 751.503 -"CPD0-1094" 425.163 -"CPD-15157" 259.107 -"IDP" 425.163 -"CPD0-2298" 133.107 -"CPD0-1250" 199.553 -"CPD0-1253" 313.297 -"CPD0-1252" 330.347 -"CPD0-1255" 457.447 -"CPD0-1256" 1346.377 -"CPD0-2290" 1316.639 -"CPD0-1258" 92.142 -"CPD0-2292" 921.908 -"CPD0-2293" 4304.317 -"D-MYO-INOSITOL-1-MONOPHOSPHATE" 258.119 -"CPD0-2295" 3330.439 -"CPD0-2296" 2800.773 -"CPD0-1718" 165.156 -"CPD-9924" 325.249 -"CPD-9925" 949.673 -"CPD-9923" 238.195 -"ALLOLACTOSE" 342.297 -"CU+" 64.554 -"CPD0-2500" 301.251 -"CPD0-2501" 461.337 -"3-BETA-D-GLUCOSYLGLUCOSE" 342.297 -"BETAINE" 117.148 -"ENTEROBACTIN" 669.552 -"CPD-15579" 96.085 -"CPD-7656" 272.175 -"2-5-TRIPHOSPHORIBOSYL-3-DEPHOSPHO-" 1054.572 -"DEOXYURIDINE" 228.204 -"CPD-14553" 564.286 -"CROTONOBETAINYL-COA" 889.686 -"C6" 1916.237 -"D-METHYL-MALONYL-COA" 862.572 -"CPD0-2340" 103.077 -"CPD0-2347" 1534.635 -"GLUTATHIONE" 306.318 -"PANTOYL-LACTONE" 130.143 -"CPD-15189" 391.572 -"DEOXYADENOSINE" 251.246 -"UDP-D-GALACTO-14-FURANOSE" 564.286 -"CPD0-1678" 86.134 -"CIT" 189.099 -"CPD0-1673" 820.535 -"CPD-12996" 711.645 -"CPD0-1675" 174.264 -"4-AMINO-BUTYRALDEHYDE" 88.13 -"CPD-15377" 150.13 -"FUM" 114.056 -"CPD-15373" 180.156 -"CPD0-1075" 109.041 -"CPD0-1074" 110.029 -"CPD0-1077" 139.091 -"CPD0-1076" 123.068 -"CPD-8855" 181.191 -"ALA-GLY" 146.146 -"THIALYSINE" 165.236 -"LL-DIAMINOPIMELATE" 190.199 -"CPD-330" 178.14 -"CPD-335" 103.097 -"CPD-334" 191.115 -"L-CYSTEATE" 168.148 -"CPD0-1716" 223.236 -"CPD0-1717" 208.181 -"S-3-HYDROXYBUTANOYL-COA" 849.597 -"CPD0-1711" 478.254 -"CPD0-1712" 442.801 -"ARABINOSE" 150.13 -"CPD-1486" 107.868 -"CPD-1484" 26.982 -"ADENOSYLCOBALAMIN" 1579.608 -"DIHYDROXYPENTANEDIONE" 132.115 -"N-ACETYL-D-MANNOSAMINE" 221.209 -"CPD-12521" 193.131 -"CPD-12523" 193.131 -"CPD-424" 196.186 -"CPD-421" 273.269 -"DEOXY-RIBOSE-5P" 212.1 -"RIBOSE-5P" 228.1 -"WATER" 18.015 +"id" "common_name" "synonyms" "chemical_formula" "mw" +"--TRANS-ACENAPHTHENE-12-DIOL" "(+/-)-trans-acenaphthene-1,2-diol" ["trans-1,2-acenaphthylene glycol"] "C12H10O2" 186.21 +"1-2-Beta-D-Glucans" "a 1,2-β-D-glucan" [] null null +"1-2-Diglycerides" "a 1,2-diglyceride" ["a 1,2-diacylglycerol"] null null +"1-2-Mannan" "a (1→2)-β-D-mannan oligosaccharide" ["a (1-→2)-β-oligomannan", "a β-(1,2)-D-mannan"] null null +"1-3-alpha-D-Glucans" "a 1,3-α-D-glucan" ["1,3-α-D-glucan", "(1,3-α-D-glucosyl)(n)", "(1,3-α-D-glucosyl)(n+1)", "(1,3-α-D-glucosyl)(n-1)"] null null +"1-3-beta-D-Glucans" "a 1,3-β-D-glucan" ["1,3-β-D-glucan(n-1)", "1,3-β-D-glucan(n+1)", "1,3-β-D-glucan(n)", "(1,3-β-D-Glucosyl)(n)", "(1,3-β-D-Glucosyl)(n+1)", "(1,3-β-D-Glucosyl)(n-1)"] null null +"1-3-D-xylooligosaccharides" "a (1->3)-β-D-xylan oligosaccharide" [] null null +"1-3-Diglycerides" "a 1,3-diglyceride" ["a 1,3-DAG", "a 1,3-diacyl-sn-glycerol", "a 1,3-diacylglycerol"] null null +"1-4-alpha-D-galacturonosyl" "a homogalacturonan" ["a 1,4-α-poly-D-galacturonate", "a 1,4-α-D-D-galactosyluronate"] null null +"1-4-alpha-D-Glucan" "a (1→4)-α-D-glucan" ["a 1,4-α-D-glucan"] null null +"1-4-beta-D-Glucan" "a 1,4-β-D-glucan" ["(1,4-β-D-glucosyl)(n)", "(1,4-β-D-glucosyl)(n+1)", "(1,4-β-D-glucosyl)(n-1)"] null null +"1-4-beta-Xylan" "a (1→4)-β-D-xylan" [] null null +"1-4-D-xylooligosaccharides" "a (1->4)-β-D-xylan oligosaccharide" [] null null +"1-4-Mannan" "a β-(1,4)-D-mannan" ["a β-1,4-mannoglycan"] null null +"1-5-Galactofuran" "a galactofuran ending with a galactofuranosyl (1->5) linkage" ["a β-D-Galf-(1->5)-β-(D-Galf)n-Rha-GlcNAc-P-P-C50"] "C88H145NO36P2" 1855.046 +"1-5-L-Arabinooligosaccharides" "an α(1,5)-L-arabinan" ["a (1->5)-α-L-arabinan"] null null +"1-6-alpha-D-glucan" "a (1→6)-α-D-glucan" [] null null +"1-6-anhydro-MurNAc-pentapeptide" "1,6-anhydro-MurNAc-pentapeptide" [] null null +"1-6-anhydro-MurNAc-tetrapeptide" "1,6-anhydro-MurNAc-tetrapeptide" ["1,6-anhydrous-N-Acetylmuramyl-tetrapeptide"] null null +"1-6-beta-D-Glucan" "a 1,6-β-D-glucan" ["(1,6-β-D-glucosyl)(n)", "(1,6-β-D-glucosyl)(n+1)", "(1,6-β-D-glucosyl)(n-1)"] null null +"1-6-Galactofuran" "a galactofuran ending with a galactofuranosyl (1->6) linkage" ["a β-D-Galf-(1->6)-β-(D-Galf)n-Rha-GlcNAc-P-P-C50"] "C82H135NO31P2" 1692.904 +"1-ACYL-2-LINOLEOYL-SN-GLYCERO-3-PHOSPHOC" "a 1-acyl-2-linoleoyl-sn-glycero-3-phosphocholine" [] null null +"1-ACYL-2-OLEOYL-SN-GLYCERO-3-PHOSPHOCHOL" "a 1-acyl-2-oleoyl-sn-glycero-3-phosphocholine" [] null null +"1-acyl-2-palmitoleoyl-glycerolipids" "a 1-acyl-2-palmitoleoyl-[glycerolipid]" [] null null +"1-acyl-2-palmitoyl-glycerolipids" "1-acyl-2-palmitoyl-[glycerolipid]" [] null null +"1-Acyl-sn-glycero-3-phosphocholines" "a 1-acyl-2-lyso-sn-glycero-3-phosphocholine" [] null null +"1-Acyl-sn-glycerols" "a 1-acyl-sn-glycerol" [] null null +"1-Alkenes" "a 1-alkene" ["an α alkene"] null null +"1-ALKENYL-2-ACYLGLYCEROL" "a 2-acyl-1-Z-alk-1-enyl-sn-glycerol" ["a (Z) 2-acyl1-alkenyl-sn-glycerol"] null null +"1-Alkenyl-phosphoglycerol" "a 1-O-(alk-1-enyl)-sn-3-phosphoglycerol" ["a 1-alkenylphosphoglycerol"] null null +"1-Alkenylglycerophosphoethanolamines" "a 1-O-(alk-1-enyl)-sn-glycero-3-phosphoethanolamine" ["a 1-alkenylglycerophosphoethanolamine"] null null +"1-Alkyl-2-acetyl-sn-glycero-3-phosphates" "a 1-alkyl-2-acetyl-sn-glycero 3-phosphate" [] null null +"1-Alkyl-2-acyl-glycerol-3-phosphate" "a 2-acyl-1-alkyl-sn-glycerol 3-phosphate" [] null null +"1-Alkyl-2-acyl-glycerol-P-Etn" "a plasmanylethanolamine" ["an O-1-alkyl-2-acyl-sn-glycero-3-phosphoethanolamine", "a 2-acyl-1-alkyl-sn-glycero-3-phosphoethanolamine"] null null +"1-ALKYL-GLYCERONE-3-PHOSPHATE" "a 1-alkyl-glycerone 3-phosphate" ["a dihydroxyacetone phosphate alkyl ether", "an alkyl-glycerone 3-phosphate", "an O-alkylglycerone phosphate"] null null +"1-Alkyl-sn-glycero-3-phosphocholines" "a 1-alkyl-2-lyso-sn-glycero-3-phosphocholine" ["1-radyl-2-lyso-sn-glycero-3-phosphocholine", "1-organyl-2-lyso-sn-glycero-3-phosphocholine"] null null +"1-Alkyl-sn-glycerol-3-phosphates" "a 1-alkyl-sn-glycerol 3-phosphate" ["a 1-alkyl-sn-glycerol 3-phosphate", "1-O-alkyl-sn-glycerol 3-phosphate"] null null +"1-alpha-Linolenoyl-2-acyl-glycerolipids" "a 1-α-linolenoyl 2-acyl-[glycerolipid]" [] null null +"1-Alpha-Linolenoyl-L-Phosphatidate" "a 1-α-linolenoyl 2-acyl-sn-glycerol 3-phosphate" [] null null +"1-AMINO-PROPAN-2-OL" "(R)-1-aminopropan-2-ol" ["(R)-1-aminopropanol", "D-1-amino-2-propanol", "D-1-aminopropan-2-ol"] "C3H10NO" 76.118 +"1-AMINO-PROPAN-2-ONE-3-PHOSPHATE" "3-amino-1-hydroxyacetone 1-phosphate" ["1-amino-propan-2-one 3-phosphate", "3-amino-2-oxopropyl phosphate"] "C3H7NO5P" 168.066 +"1-Benzopyrans" "a 1-benzopyran" [] null null +"1-BETA-D-GALACTOSYL-2-2-HYDROXYACYLS" "a 1-(β-D-galactosyl)-2-(2-hydroxyacyl)sphingosine" [] null null +"1-CHLORO-24-DINITROBENZENE" "1-chloro-2,4-dinitrobenzene" ["CDNB"] "C6H3N2O4Cl" 202.554 +"1-DEOXYXYLONOJIRIMYCIN" "1-deoxyxylonojirimycin" [] "C5H12NO3" 134.155 +"1-ETHYLADENINE" "N1-ethyladenine" [] "C7H9N5" 163.182 +"1-gamma-linolenoyl-2-acyl-glycerolipids" "a 1-γ-linolenoyl 2-acyl-[glycerolipid]" [] null null +"1-gamma-Linolenoyl-L-Phosphatidate" "a 1-γ-linolenoyl 2-acyl-sn-glycerol 3-phosphate" [] null null +"1-Haloalkanes" "a 1-haloalkane" [] null null +"1-Hydroxy-2-oxolimonenes" "a 1-hydroxymenth-8-en-2-one" ["a 1-hydroxy-2-oxolimonene"] "C10H16O2" 168.235 +"1-KETO-2-METHYLVALERATE" "(R)-2,3-dihydroxy-3-methylpentanoate" ["(R)-2,3-dihydroxy-3-methylvalerate"] "C6H11O4" 147.15 +"1-Linoleoyl-2-acyl-glycerolipids" "a 1-linoleoyl 2-acyl-[glycerolipid]" [] null null +"1-Linoleoyl-L-Phosphatidate" "a 1-linoleoyl 2-acyl-sn-glycerol 3-phosphate" [] null null +"1-Lyso-phospholipids" "a 1-lyso-phospholipid" [] null null +"1-Lysophosphatidylglycerols" "a 2-acyl-1-lyso-phosphatidylglycerol" ["a 1-lyso-2-acyl-sn-glycero-3-phosphoglycerol"] null null +"1-Lysophosphatidylserines" "a 2-acyl-1-lyso-phosphatidylserine" ["a 2-acyl-1-lyso-sn-glycero-3-phospho-L-serine"] null null +"1-O-ALKYL-2-ACETYL-3-ACYL-SN-GLYCEROL" "a 2-acetyl-3-acyl-1-O-alkyl-sn-glycerol" [] null null +"1-O-ALKYL-2-ACETYL-SN-GLYCEROL" "1-O-alkyl-2-acetyl-sn-glycerol" ["a 1-alkyl-2-acetyl-sn-glycerol"] null null +"1-oleoyl-2-acyl-glycerolipids" "a 1-oleoyl 2-acyl-[glycerolipid]" [] null null +"1-Oleoyl-L-Phosphatidate" "a 1-oleoyl 2-acyl-sn-glycerol 3-phosphate" [] null null +"1-Palmitoyl-2-Acyl-Glycerol-P" "a 1-palmitoyl-2-acyl-sn-glycerol 3-phosphate" [] null null +"1-PALMITOYLGLYCEROL-3-PHOSPHATE" "1-palmitoyl-sn-glycerol 3-phosphate" [] "C19H37O7P" 408.471 +"1-PHOSPHATIDYL-1D-MYO-INOSITOL-34-BISPH" "a 1-phosphatidyl-1D-myo-inositol 3,4-bisphosphate" ["a 1-phosphatidyl-myo-inositol 3,4-bisphosphate", "1,2-Diacyl-sn-glycero-3-phospho-(1'-myo-inositol-3',4'-bisphosphate)", "PtdIns(3,4)P2"] null null +"1-PHOSPHATIDYL-1D-MYO-INOSITOL-35-BISPH" "1-phosphatidyl-1D-myo-inositol 3,5-bisphosphate" ["PtdIns(3,5)P2"] null null +"1-PHOSPHATIDYL-1D-MYO-INOSITOL-5-PHOSPHA" "a 1-phosphatidyl-1D-myo-inositol 5-phosphate" ["PtdIns5P", "2,3-bis(alkanoyloxy)propyl (1R,2R,3R,4R,5S,6R)-2,3,4,6-tetrahydroxy-5-(phosphonatooxy)cyclohexyl phosphate", "1-phosphatidyl-1D-myo-inositol 5-phosphate trianion", "PI(5)P"] null null +"1-Phosphatidyl-2-O-D-Ala-Glycerol" "2-O-D-alanyl-1-O-phosphatidylglycerol" ["PG-D-Ala"] null null +"1-PHOSPHATIDYL-MYO-INOSITOL-2-MANNOSE" "a 2-O-(α-D-mannosyl)-1-phosphatidyl-1D-myo-inositol" ["PIM1"] null null +"1-RADYL-2-ACYL-SN-GLYCERO-3-PHOSPHOLIPID" "a 1-organyl-2-lyso-sn-glycero-3-phospholipid" ["a 1-radyl-2-acyl-sn-glycero-3-phospholipid"] null null +"1-stearidonoyl-2-acyl-glycerolipids" "a 1-stearidonoyl 2-acyl-[glycerolipid]" [] null null +"1-stearidonoyl-L-Phosphatidate" "a 1-stearidonoyl 2-acyl-sn-glycerol 3-phosphate" [] null null +"10-FORMYL-DIHYDROFOLATE-GLU-N" "an N10-formyl-7,8-dihydrofolate" [] null null +"10-FORMYL-THF" "10-formyl-tetrahydrofolate mono-L-glutamate" ["N10-formyl-tetrahydrofolate mono-L-glutamate", "N10-formyl-THF mono-L-glutamate", "N10-formyl-H4F mono-L-glutamate", "10-formyl-THF mono-L-glutamate", "10-formyl-H4PteGlu1", "N10-formyl-H4PteGlu1"] "C20H21N7O7" 471.429 +"11-13-Eicosadienoates" "an 11,13-icosadienoate" ["11,13-eicosadienoic acid", "an 11,13-eicosadienoate"] "C20H35O2" null +"11-Beta-Hydroxysteroids1" "an 11-β-hydroxysteroid" [] null null +"11-Cis-Retinyl-Esters" "an 11-cis-retinyl ester" [] null null +"11-DEOXY-CORTISOL" "11-desoxycortisol" ["substance S, Reichstein's", "11-desoxycortisone", "cortexolone", "Reichstein's substance S", "cortodoxone"] "C21H30O4" 346.466 +"11-DEOXYCORTICOSTERONE" "11-deoxycorticosterone" ["deoxycorticosterone", "cortexone", "21-hydroxy-4-pregnene-3,20-dione"] "C21H30O3" 330.466 +"11-Hydroxyjasmonates" "an 11-hydroxyjasmonate" ["an 11-OHJA", "an 11-hydroxyjasmonic acid", "an 11-hydroxy-JA"] "C12H17O4" 225.264 +"11-Oxosteroids" "an 11-oxosteroid" [] null null +"12-apo-Carotenals" "a 12'-apo-carotenal" [] null null +"12-carboxyjasmonoyl-L-amino-acids" "a 12-hydroxy-12-oxojasmonoyl-L-amino acid" [] null null +"12-DAG-alpha-D-GAL-alpha-D-Glc" "a 1,2-diacyl-3-O-(α-D-galactopyranosyl-(1→2)-O-α-D-glucopyranosyl)-sn-glycerol" [] null null +"12-DIACYL-3-3-ETCETERA-GLYCEROL" "a 1,2-diacyl-3-[3-(N-acetyl-α-D-neuraminyl)-β-D-galactosyl]-sn-glycerol" [] null null +"12-DIACYL-3-O-ALPHA-D-GLUCOPYRANOSYL" "a 1,2-diacyl-3-O-(α-D-glucopyranosyl)-sn-glycerol" ["1,2-diacyl-3-O-(α-D-glucosyl)-sn-glycerol", "a 1,2-diacyl-3-O-(α-D-glucopyranosyl)-sn-glycerol"] null null +"12-DIACYL-3-O-ALPHA-D-GLUCOPYRANOSYL1" "a 1,2-diacyl-3-O-(α-D-glucopyranosyl(1->2)-O-α-D-glucopyranosyl)-sn-glycerol" [] null null +"12-Epoxybutane" "1,2-epoxybutane" [] "C4H8O" 72.107 +"12-EPOXYPROPANE" "1,2-epoxypropane" ["propylene oxide", "methyloxirane"] "C3H6O" 58.08 +"12-Hydroxyjasmonate-Sulfates" "a 12-hydroxyjasmonate sulfate" ["a 12-OHJA sulfate", "a 12-hydroxyjasmonic acid sulfate", "a SO4-hydroxy-JA", "a 12-hydroxy-JA sulfate"] "C12H16O7S" 304.314 +"12-Hydroxyjasmonates" "tuberonic acid" ["12-OHJA", "12-hydroxyjasmonic acid", "12-hydroxy-JA", "(+/-)-12-hydroxyjasmonate", "12-hydroxy epi-jasmonic acid", "12-hydroxyjasmonate", "{(1R,2R)-2-[(2Z)-5-hydroxypent-2-enyl]-3-oxo-cyclopentyl}acetate"] "C12H17O4" 225.264 +"12-oxojasmonoyl-L-amino-acids" "a 12-oxojasmonoyl-L-amino acid" [] null null +"13-14-Mixed-Xylan" "a mix-linked (1→3/1→4)-β-D-xylan" ["xylan type Xm", "a mix-linked (β-1→3/β1→4)-D-xylan", "(β-1→3/β1→4)-linked D-xylan"] null null +"13-and-16-Sial-Gal-N-glycans" "a {α-D-Sial-(2→6)-β-D-Gal-(1→4)-β-D-GlcNAc-(1→2)-[β-D-Gal-(1→4)-β-D-GlcNAc-(1→4)]-α-D-Man-(1→3)-[α-D-Sial-(2→3)-β-D-Gal-(1→4)-β-D-GlcNAc-(1→2)-[β-D-Gal-(1→4)-β-D-GlcNAc-(1→6)]-α-D-Man-(1→6)]-β-D-Man-(1→4)-β-D-GlcNAc-(1→4)-β-D-GlcNAc}-N-Asn-[protein]" [] null null +"13-BETA-D-GALACTOSYL-N-ACETYL-D-GLU" "a lactotetraosylceramide" ["a β-D-galactosyl-(1→3)-N-acetyl-β-D-glucosaminyl-(1→3)-β-D-galactosyl-(1→4)-β-D-glucosyl-(1↔1)ceramide", "a β-D-galactosyl-(1,3)-N-acetyl-β-D-glucosaminyl-(1,3)-β-D-galactosyl-(1,4)-β-D-glucosyl-(1↔1)-ceramide"] null null +"13-BETA-D-XYLANS" "a (1->3)-β-D-xylan" ["xylan type X3"] null null +"13-Sial-Gal-N-glycans" "a {β-D-Gal-(1→4)-β-D-GlcNAc-(1→2)-[β-D-Gal-(1→4)-β-D-GlcNAc-(1→4)]-α-D-Man-(1→3)-[α-D-Sial-(2→3)-β-D-Gal-(1→4)-β-D-GlcNAc-(1→2)-[β-D-Gal-(1→4)-β-D-GlcNAc-(1→6)]-α-D-Man-(1→6)]-β-D-Man-(1→4)-β-D-GlcNAc-(1→4)-β-D-GlcNAc}-N-Asn-[protein]" [] null null +"14-alpha-methylsteroids" "a 14α-methylsteroid" [] null null +"14a-formylsteroids" "a 14α-formylsteroid" [] null null +"14a-Hydroxymethylsteroids" "a 14α-hydroxymethylsteroid" [] null null +"15-ANHYDRO-D-GLUCITOL" "1,5-anhydro-D-glucitol" ["1,5-anhydro-D-sorbitol", "1,5-anhydroglucitol", "1-deoxy-D-glucopyranose"] "C6H12O5" 164.158 +"15-DIDEOXY-15-IMINO-D-GALACTITOL" "1,5-dideoxy-1,5-imino-D-galactitol" ["1-deoxygalactonojirimycin"] "C6H14NO4" 164.181 +"16-alpha-D-Mannosyloligosaccharides" "a 1,6-α-D-mannosyloligosaccharide" ["a (1->6)-α-D-mannose-(1->6)α-D-mannosyl-oligosaccharide"] null null +"16S-rRNA-2-O-methylcytidine1402" "a 2'-O-methylcytidine1402 in 16S rRNA" [] null null +"16S-rRNA-2-O-methylcytidine1409" "a 2'-O-methylcytidine1409 in 16S rRNA" [] null null +"16S-rRNA-5-O-methylcytosine1407" "a 5-methylcytosine1407 in 16S rRNA" [] null null +"16S-rRNA-5-O-methylcytosine967" "a 5-methylcytosine967 in 16S rRNA" [] null null +"16S-rRNA-7-methylguanine1405" "an N7-methylguanine1405 in 16S rRNA" [] null null +"16S-rRNA-adenine1408" "adenine1408 in 16S rRNA" [] null null +"16S-rRNA-adenine1518-adenine1519" "adenine1518/adenine1519 in 16S rRNA" [] null null +"16S-rRNA-Adenines" "an adenine in 16S rRNA" ["16S -rRNA adenine"] null null +"16S-rRNA-cytidine1402" "a cytidine1402 in 16S rRNA" [] null null +"16S-rRNA-cytidine1409" "a cytidine1409 in 16S rRNA" [] null null +"16S-rRNA-Cytidines" "a cytidine in 16S rRNA" ["a 16S rRNA cytidine"] null null +"16S-rRNA-cytosine1407" "a cytosine1407 in 16S rRNA" [] null null +"16S-rRNA-cytosine967" "a cytosine967 in 16S rRNA" [] null null +"16S-rRNA-Cytosines" "a cytosine is 16S rRNA" ["16S rRNA cytosine"] null null +"16S-rRNA-guanine-1207" "a guanine1207 in 16S rRNA" [] null null +"16S-rRNA-guanine-1405" "a guanine1405 in 16S rRNA" [] null null +"16S-rRNA-guanine-1516" "a guanine1516 in 16S rRNA" [] null null +"16S-rRNA-guanine-527" "a guanine527 in 16S rRNA" [] null null +"16S-rRNA-guanine-966" "a guanine966 in 16S rRNA" [] null null +"16S-rRNA-guanine1516" "a guanine1516 in 16S rRNA" [] null null +"16S-rRNA-Guanines" "a guanine in 16S rRNA" ["16S rRNA guanine"] null null +"16S-rRNA-N1-methyladenine1408" "N1-methyladenine1408 in 16S rRNA" [] null null +"16S-rRNA-N2-methylguanine1207" "an N2-methylguanine1207 in 16S rRNA" [] null null +"16S-rRNA-N2-methylguanine1516" "an N2-methylguanine1516 in 16S rRNA" [] null null +"16S-rRNA-N2-methylguanine966" "an N2-methylguanine966 in 16S rRNA" [] null null +"16S-rRNA-N2methylguanine1516" "an N2-methylguanine1516 in 16S rRNA" [] null null +"16S-rRNA-N3-methyluracil1498" "an N3-methyluracil1498 in 16S rRNA" [] null null +"16S-rRNA-N3-MethylUs" "an N3-methyluridine in 16S rRNA" ["16S rRNA containing N3-methylated uridine"] null null +"16S-rRNA-N4-methylcytidine1402" "an N4-methylcytidine1402 in 16S rRNA" [] null null +"16S-rRNA-N6-dimethyladenine1518-1519" "N6-dimethyladenine1518/N6-dimethyladenine1519in 16S rRNA" [] null null +"16S-rRNA-N7-methylguanine527" "an N7-methylguanine527 in 16S rRNA" [] null null +"16S-rRNA-pseudouridine516" "a 16S rRNA pseudouridine516" [] null null +"16S-rRNA-Uracil" "a uracil in 16S rRNA" ["16S rRNA uracil"] null null +"16S-rRNA-uracil1498" "a uracil1498 in 16S rRNA" [] null null +"16S-rRNA-uridine516" "a uridine516 in 16S rRNA" ["a 16S rRNA uridine516"] null null +"16S-rRNA-uridines" "a uridine in 16S rRNA" ["16S rRNA uridine"] null null +"16S-rRNAs-Pseudouridines" "a 16S rRNA pseudouridine" ["a pseudouridine in 16S rRNA"] null null +"17-Alpha-Hydroxysteroids" "a 17-α-hydroxysteroid" [] "C19H32O2" 292.461 +"17-BETA-HYDROXYANDROSTAN-3-ONE" "17-β-hydroxyandrostan-3-one" [] "C19H30O2" 290.445 +"17-beta-Hydroxysteroids" "a 17-β-hydroxysteroid" [] "C19H32O2" 292.461 +"17-DIAMINOHEPTANE" "1,7-diaminoheptane" [] "C7H20N2" 132.248 +"17a-hydroxy-C21-steroids" "a 17α-hydroxy-C21-steroid" [] null null +"18S-rRNA-adenine1779-adenine1780" "an adenine1779/adenine1780 in 18S rRNA" ["an 18S rRNA adenine1779/adenine1780"] null null +"18s-rRNA-Adenines" "an adenine in 18S rRNA" ["18s rRNA adenine"] null null +"18S-rRNA-N1-methylpseudouridine-1191" "an 18S rRNA N1-methylpseudouridine1191" ["an 18S rRNA containing N1-methylpseudouridine at position 1191", "an N1-methylpseudouridine1191 in 18S rRNA"] null null +"18S-rRNA-N6-dimethyladenine1779-1780" "an N6-dimethyladenine1779/N6-dimethyladenine1780 in 18S rRNA" ["an 18S rRNA N6-dimethyladenine1779/N6-dimethyladenine1780"] null null +"18S-rRNA-pseudouridine-1191" "an 18S rRNA pseudouridine1191" ["an 18S rRNA containing pseudouridine at position 1191", "a pseudouridine1191 in 18S rRNA"] null null +"18S-rRNAs-Pseudouridines" "a 18S rRNA pseudouridine" ["a pseudouridine in 18S rRNA"] null null +"1iNisup6sup-ethenoadenine-in-DNA" "1,N6-ethenoadenine in DNA" [] null null +"2-2-HYDROXYACYLSPHINGOSINE" "a 2-(2-hydroxyacyl)sphingosine" ["a N-(2-hydroxyacyl)sphing-4-enine"] null null +"2-2-N-linked-Glycan" "Man3GlcNAc4-[protein]" ["GnGn-GP", "GnGn-glycopeptide", "{N-acetyl-β-D-glucosaminyl-(1,2)-α-D-mannosyl-(1,3)-[N-acetyl-β-D-glucosaminyl-(1,2)-α-D-mannosyl-(1,6)]-β-D-mannosyl-(1,4)-N-acetyl-β-D-glucosaminyl-(1,4)-N-acetyl-β-D-glucosaminyl}-N-Asn-[protein]", "a {β-D-GlcNAc-(1→2)-α-D-Man-(1→3)-[β-D-GlcNAc-(1→2)-α-D-Man-(1→6)]-β-D-Man-(1→4)-β-D-GlcNAc-(1→4)-β-D-GlcNAc}-N-Asn-[protein]", "2,2 N-linked glycan"] null null +"2-3-4-Saturated-L-Phosphatidates" "a 2,3,4-saturated 1,2-diacyl-sn-glycerol 3-phosphate" ["a 2,3,4-saturated L-phosphatidate"] null null +"2-3-Butanediols" "a 2,3-butanediol" ["a butane-2,3-diol", "a 2,3-butylene glycol"] "C4H10O2" 90.122 +"2-3-CARBOXY-3-AMINOPROPYL-L-HISTIDINE" "a 2-[(3S)-3-amino-3-carboxypropyl]-L-histidine-[translation elongation factor 2]" ["diphthine intermediate in eEF-2", "a 2-(3-carboxy-3-aminopropyl)-L-histidine in eEF-2"] null null +"2-3-CARBOXY-3-METHYLAMMONIOPROPYL-L-" "a 2-[(3S)-3-carboxy-3-(methylammonio)propyl]-L-histidine-[translation elongation factor 2]" ["a [3-[[4-(2-amino-2-carboxy-ethyl)-1H-imidazol-2-yl]]-1-carboxy- propyl]-methyl-ammonium", "a 2-[3-carboxy-3-(methylammonio)propyl]-L-histidine", "2-[3-carboxy-3-(methylammonio)propyl]-L-histidine in eEF-2"] null null +"2-3-DIHYDROXYBENZOATE" "2,3-dihydroxybenzoate" ["2,3-dihydroxybenzoic acid", "3-hydroxysalicylate", "catechol-3-carboxylate", "2-pyrocatechuate"] "C7H5O4" 153.114 +"2-3-DIHYDROXYPHENYL-PROPIONATE" "3-(2,3-dihydroxyphenyl)propanoate" ["3-(2,3-dihydroxyphenyl)propionic acid", "3-(2,3-dihydroxyphenyl)propionate", "3-carboxyethylcatechol"] "C9H9O4" 181.168 +"2-3-dihydroxypropane-1-sulfonate" "3-sulfopropanediol" ["2,3-dihydroxypropane 1-sulfonate"] "C3H7O5S" 155.145 +"2-4-2-N-linked-Glycan" "a {β-D-GlcNAc-(1→2)-α-D-Man-(1→3)-[β-D-GlcNAc-(1→2)-α-D-Man-(1→6)]-[β-D-GlcNAc-(1→4)]-β-D-Man-(1→4)-β-D-GlcNAc-(1→4)-β-D-GlcNAc}-N-Asn-[protein]" ["[(2),(4),(2)]-N-linked glycan", "bis-2,2 N-glycan"] null null +"2-5-PHOSPHORIBOSYL-3-DEPHOSPHO-COA" "2'-(5''-phosphoribosyl)-3'-dephospho-CoA" ["2-5-phosphoribosyl-3-dephospho-CoA"] null null +"2-5-TRIPHOSPHORIBOSYL-3-DEPHOSPHO-" "2'-(5''-triphospho-α-D-ribosyl)-3'-dephospho-CoA" ["2-5-triphosphoribosyl-3-dephospho-CoA", "2'-(5-triphosphoribosyl)-3'-dephospho-CoA"] "C26H40N7O26P5S" 1053.562 +"2-ACETO-2-HYDROXY-BUTYRATE" "(S)-2-aceto-2-hydroxybutanoate" ["(S)-2-aceto-2-hydroxy-butyrate", "(S)-2-hydroxy-2-ethyl-3-oxobutanoate"] "C6H9O4" 145.135 +"2-ACETO-LACTATE" "(S)-2-acetolactate" ["(S)-2-hydroxy-2-methyl-3-oxobutanoate", "α-acetolactate", "(2S)-2-hydroxy-2-methyl-3-oxobutanoate"] "C5H7O4" 131.108 +"2-ACYL-GPE" "a 2-acyl-1-lyso-phosphatidylethanolamine" ["2-acyl-GPE", "O-(2-acyl-sn-glycero-3-phospho)-ethanolamine", "a 2-acyl-1-lyso-sn-glycero-3-phosphoethanolamine", "a 2-acyl-sn-glycero-3-phosphoethanolamine"] null null +"2-Acyl-sn-glycerol-3-phosphates" "a 2-acyl-sn-glycerol 3-phosphate" ["a 2-acyl-sn-glycerol 3P", "a 1-lysophosphatidate", "a 1-lyso-LPA", "a 1-lyso-phosphatidic acid", "a 1-lyso-phosphatidate"] null null +"2-Acylglycero-Phosphocholines" "a 2-acyl-sn-glycero-3-phosphocholine" ["a 2-acylglycero-3-phosphocholine", "a L-1-lysolecithin", "a 1-lyso-2-acyl-sn-glycero-3-phosphocholine", "a 1-lysolecithin", "a β-lysophosphatidylcholine", "a 2-acylglycerophosphocholine", "a 2-acyl 1-lyso-sn-glycero-3-phosphatidylcholine"] null null +"2-acylphloroglucinol-1-glucosides" "a 2-acylphloroglucinol 1-O-β-D-glucoside" [] null null +"2-Alkyl-3-hydroxy-fatty-acids" "a (2R,3S)-2-alkyl-3-hydroxyalkanoate" [] null null +"2-Alkyl-Dinitrophenol-Derivatives" "a 2-alkyl-dinitrophenol derivative" [] null null +"2-ALPHA-HYDROXYETHYL-THPP" "2-(α-hydroxyethyl)thiamine diphosphate" ["2-(α-hydroxyethyl)-TPP", "2-(α-hydroxyethyl)-ThPP"] "C14H20N4O8P2S" 466.341 +"2-Alpha-Mannosyl-Heteroglycans" "2-(α-D-mannosyl)-heteroglycan" [] null null +"2-AMINO-4-OXO-PENTOATE" "2-amino-4-oxo-pentoate" [] "C5H9NO3" 131.131 +"2-AMINOACRYLATE" "2-aminoprop-2-enoate" ["2-aminoacrylate", "α-aminoacrylate", "2-aminoacrylic acid", "2,3-didehydroalanine", "α,β-dehydroalanine", "anhydroserine 2-aminopropenoic acid", "dehydroalanine"] "C3H5NO2" 87.078 +"2-Aminobutyrate" "2-aminobutanoate" ["DL-a-amino-N-butyric acid", "2-aminobutyric acid", "2-amino-n-butyric acid", "butyrine", "α-aminobutyric acid", "D,L-α-amino-N-butyrate", "2-aminobutyrate", "D,L-α-amino-N-butyric acid"] "C4H9NO2" 103.121 +"2-AMINOMALONATE-SEMIALDEHYDE" "3-oxo-L-alanine" ["FGly", "(S)-Cα-formylglycine", "2-aminomalonate semialdehyde", "(S)-formylglycine"] "C3H5NO3" 103.077 +"2-Arylethylamines" "a 2-arylethylamine" [] null null +"2-C-METHYL-D-ERYTHRITOL-4-PHOSPHATE" "2-C-methyl-D-erythritol 4-phosphate" ["2-methylerylthritol 4-phosphate"] "C5H11O7P" 214.111 +"2-CARBOXYMUCONATE" "2-carboxymuconate" [] "C7H3O6" 183.097 +"2-D-THREO-HYDROXY-3-CARBOXY-ISOCAPROATE" "(2R,3S)-3-isopropylmalate" ["2-D-threo-hydroxy-3-carboxy-isocaproate", "3-carboxy-2-hydroxy-4-methylpentanoate", "β-isopropylmalate", "3-isopropylmalate"] "C7H10O5" 174.153 +"2-DEHYDRO-3-DEOXY-D-GALACTONATE" "2-dehydro-3-deoxy-D-galactonate" ["2-dehydro-3-deoxygalactonate", "2-keto-3-deoxygalactonate", "2-keto-3-deoxy-D-galactonate"] "C6H9O6" 177.133 +"2-DEHYDRO-3-DEOXY-D-GLUCONATE" "2-dehydro-3-deoxy-D-gluconate" ["2-keto-3-deoxy-D-gluconic acid", "2-keto-3-deoxy-D-gluconate", "3-deoxy-2-oxo-D-gluconate", "2-keto-3-deoxygluconate", "3-deoxy-D-erythro-hex-2-ulosonic acid", "KDG"] "C6H9O6" 177.133 +"2-DEHYDROPANTOATE" "2-dehydropantoate" ["ketopantoate", "2-ketopantoate"] "C6H9O4" 145.135 +"2-DEHYDROPANTOYL-LACTONE" "2-dehydropantolactone" ["2-oxopantoyl lactone", "2-dehydropantoyl lactone"] "C6H8O3" 128.127 +"2-Dehydropyranoses" "a 2-dehydropyranose" [] "C6H10O6" 178.141 +"2-DEOXY-D-GLUCOSE" "2-deoxy-D-glucose" ["2-deoxyglucose"] "C6H12O5" 164.158 +"2-DEOXY-D-GLUCOSE-6-PHOSPHATE" "2-deoxy-D-glucose 6-phosphate" [] "C6H11O8P" 242.122 +"2-Deoxy-D-Ribosyl-Base" "a 2-deoxy-D-ribosyl-base" [] null null +"2-DEOXYGLUCOSE-6-PHOSPHATE" "2-deoxyglucose 6-phosphate" [] "C6H11O8P" 242.122 +"2-DEOXYRIBOSE" "2-deoxy-D-ribose" ["deoxyribose", "2-deoxyribose", "2-deoxy-D-erythro-pentose"] "C5H10O4" 134.132 +"2-DH-3-DO-D-ARABINONATE" "2-dehydro-3-deoxy-D-arabinonate" ["2-dehydro-3-deoxy-D-xylonate", "2-dehydro-3-deoxy-D-pentonate", "2-keto-3-deoxy-D-arabinonate", "2-keto-3-deoxy-D-xylonate"] "C5H7O5" 147.107 +"2-Halobenzoate" "2-halobenzoate" ["2-halobenzoic acid"] null null +"2-HEXADECENOATES" "a 2-hexadecenoate" ["16:1Δ2", "2-hexadecenoic acid"] null null +"2-Hydroxy-2-methylbutyronitriles" "2-hydroxy-2-methylbutanenitrile" ["2-hydroxy-2-methylbutyronitrile"] "C5H9NO" 99.132 +"2-HYDROXY-2-METHYLPROPANENITRILE" "2-hydroxy-2-methylpropanenitrile" ["acetone cyanohydrin", "2-hydroxyisobutyronitrile"] "C4H7NO" 85.105 +"2-Hydroxy-carboxylates" "a 2-hydroxy carboxylate" [] null null +"2-Hydroxy-Fatty-Acids" "a 2-hydroxy fatty acid" ["a 2-OH fatty acid", "an alpha-Hydroxy fatty acid", "an α-OH fatty acid", "an α-hydroxy fatty acid"] null null +"2-hydroxyacyl-glutathiones" "S-(2-hydroxyacyl)glutathione" [] null null +"2-HYDROXYGLUTARIC_ACID" "2-hydroxyglutarate" ["2-hydroxyglutaric acid", "α-hydroxyglutarate", "α-hydroxy-glutarate", "2-hydroxypentanedioic acid"] "C5H6O5" 146.099 +"2-Hydroxyisoflavones" "a 2'-hydroxyisoflavone" [] null null +"2-KETO-3-DEOXY-6-P-GLUCONATE" "2-dehydro-3-deoxy-D-gluconate 6-phosphate" ["2-keto-3-deoxy-6-phospho-D-gluconate", "2-dehydro-3-deoxy-6-phospho-D-gluconate", "2-keto-3-deoxy-6-phospho-gluconate", "6-phospho-2-dehydro-3-deoxy-D-gluconate", "2-keto-3-deoxy-6-phosphogluconate", "2-keto-3-deoxy-6-P-gluconate", "6-p-2-k-3-deo-gluconate", "6-phospho-2-keto-3-deoxygluconate", "6-phospho-2-dehydro-3-deoxygluconate", "2-keto-3-deoxygluconate-6-P", "3-deoxy-D-erythro-hex-2-ulosonic acid 6-phosphate", "3-deoxy-D-erythro-hex-2-ulosonate-6-phosphate", "KDPG"] "C6H8O9P" 255.098 +"2-KETO-3-DEOXY-D-GLUCARATE" "(2S,3S)-2,3-dihydroxy-5-oxohexanedioate" ["3-deoxy-L-allo-hex-2-ulosarate"] "C6H6O7" 190.109 +"2-KETO-3-METHYL-VALERATE" "(3S)-3-methyl-2-oxopentanoate" ["(S)-3-methyl-2-oxopentanoate", "α-keto-methylvalerate", "2-oxo-3-methylvalerate", "(S)-2-oxo-3-methylpentanoate", "(S)-3-methyl-2-oxovalerate", "2-oxo-3-methylpentanoate", "3-methyl-2-oxopentanoate", "α-keto-β-methyl-valerate", "2-keto-3-methyl-valerate", "2-keto-isoleucine"] "C6H9O3" 129.135 +"2-KETO-GLUTARAMATE" "2-oxoglutaramate" ["2-keto-glutaramate"] "C5H6NO4" 144.107 +"2-KETO-ISOVALERATE" "3-methyl-2-oxobutanoate" ["2-oxo-3-methylbutanoate", "2-oxoisovalerate", "α-keto-isovaleric acid", "α-ketoisopentanoic acid", "α-keto-isovalerate", "α-oxoisovalerate", "α-ketovaline", "2-keto-isovalerate", "2-ketovaline", "α-keto-valine", "2-oxoisopentanoate", "2-keto-3-methylbutyric acid", "3-methyl-2-oxobutyrate"] "C5H7O3" 115.108 +"2-KETOGLUTARATE" "2-oxoglutarate" ["2-oxoglutarate", "ketoglutarate", "α-ketoglutarate", "2-oxoglutaric acid", "α-ketoglutaric acid", "α-oxoglutarate", "2-ketoglutaric acid", "2-ketoglutarate", "2-oxopentanedionic acid", "2-oxopentanedionate", "a-ketoglutaric acid"] "C5H4O5" 144.084 +"2-Lyso-phospholipids" "a 2-lyso-phospholipid" [] null null +"2-Lyso-Plasmalogens" "a 2-lysoplasmalogen" ["1-radyl-2-lyso-sn-glycero-3-phosphocholine", "1-organyl-2-lyso-sn-glycero-3-phosphocholine", "a 1-alkenyl-sn-glycero-3-phospholipid"] null null +"2-Lyso-Plasmanyl-Phospholipids" "a 2-lysoplasmanyl phospholipid" [] null null +"2-Lysophosphatidylcholines" "a 1-acyl-sn-glycero-3-phosphocholine" ["alpha-acylglycerophosphocholine", "1-acylglycerophosphocholine", "a 1-acyl-sn-glycerol-3-phosphocholine", "a 2-lyso-phosphatidylcholine", "a 1-acylglycero-3-phosphocholine", "2-lysolecithin"] null null +"2-LYSOPHOSPHATIDYLETHANOLAMINES" "a 1-acyl-2-lyso-phosphatidylethanolamine" ["L-2-lyso-phosphatidyl-ethanolamine"] null null +"2-Lysophosphatidylglycerols" "a 1-acyl-2-lyso-phosphatidylglycerol" [] null null +"2-Me-Branched-234-Sat-FA" "a 2-methyl branched 2,3,4-saturated fatty acid" [] null null +"2-Me-Branched-234-Sat-FALD" "a 2-methyl branched 2,3,4-saturated fatty aldehyde" [] null null +"2-Me-Branched-234-Sat-Fatty-Acyl-CoA" "a 2-methyl branched 2,3,4-saturated fatty acyl-CoA" [] null null +"2-MERCAPTOETHANOL" "2-sulfanylethan-1-ol" ["hydroxyethyl sulfide", "β-mercaptoethanol", "2-mercaptoethanol"] "C2H6OS" 78.129 +"2-Methoxy-6-Polyprenyl-14-Benzoquinols" "a 2-methoxy-6-all-trans-polyprenyl-1,4-benzoquinol" [] null null +"2-Methoxy-6-polyprenyl-phenols" "a 2-methoxy-6-(all-trans-polyprenyl)phenol" [] null null +"2-METHYLMALEATE" "citraconate" ["2-methylmaleate", "citraconic acid", "methylmaleic acid"] "C5H4O4" 128.084 +"2-MT-N6-L-THR-carbamoyladenine37-tRNAs" "a 2-methylsulfanyl-N6-L-threonylcarbamoyladenine37 in tRNA" [] null null +"2-N-linked-Glycan" "Man3GlcNAc3-[protein]" ["a {β-D-GlcNAc-(1→2)-α-D-Man-(1→3)-[α-D-Man-(1→6)]-β-D-Man-(1→4)-β-D-GlcNAc-(1→4)-β-D-GlcNAc}-N-Asn-[protein]", "0,2 N-linked glycan"] null null +"2-NUCLEOTIDYLGENTAMICIN" "a 2-nucleotidylgentamicin" ["a 2''-nucleotidylgentamicin"] null null +"2-O-acetyl-Rhamnogalacturns" "a 2-O-acetylated rhamnogalacturonan I" [] null null +"2-O-ALPHA-MANNOSYL-D-GLYCERATE" "2-O-(α-D-mannosyl)-D-glycerate" ["2-O-(α-D-mannopyranosyl)-D-glycerate", "mannosylglycerate"] "C9H15O9" 267.212 +"2-O-MeCytidine4-tRNAGLY-GCC" "a 2'-O-methylcytidine4 in tRNAGly(GCC)" [] null null +"2-O-MeGuan-34-tRNAs" "a 2'-O-methylguanosine34 in tRNA" [] null null +"2-o-methyladenosine-rRNAs" "a 2'-O-methyladenosine in rRNA" [] null null +"2-O-Methylcytidine-32-tRNAs" "a 2'-O-methylcytidine32 in tRNA" [] null null +"2-O-Methylcytidine-34-tRNAs" "a 2'-O-methylcytidine34 in tRNA" [] null null +"2-O-methylcytidine-56-tRNAs" "a 2'-O-methylcytidine56 in tRNA" [] null null +"2-O-methylguanosine-2922-in-27S-pre-rRNA" "a 2-O-methylguanosine2922 in 27S pre-rRNA" [] null null +"2-O-Methylguanosine18" "a 2'-O-methylguanosine18 in tRNA" [] null null +"2-O-Methyluridine-Containing-rRNAs" "a 2'-O-methyluridine in 21S rRNA" ["2'-O-methyluridine-containing rRNA"] null null +"2-O-methyluridine2479-in-23S-rRNA" "a 2'-O-methyluridine2479 in 23S rRNA" [] null null +"2-O-Methyluridine32-tRNA" "a 2'-O-methyluridine32 in tRNA" [] null null +"2-O-Methyluridine44-tRNASer" "a 2'-O-methyluridine44 in tRNAser" [] null null +"2-OCTAPRENYL-6-HYDROXYPHENOL" "3-(all-trans-octaprenyl)benzene-1,2-diol" ["2-octaprenyl-6-hydroxyphenol"] "C46H70O2" 655.058 +"2-OCTAPRENYL-6-METHOXYPHENOL" "2-methoxy-6-(all-trans-octaprenyl)phenol" ["2-methoxy-6-all-trans-octaprenylphenol", "2-octaprenyl-6-methoxyphenol"] "C47H72O2" 669.085 +"2-OCTAPRENYLPHENOL" "2-octaprenylphenol" [] "C46H70O" 639.058 +"2-OH-3-Methyl-Saturated-Fatty-Acyl-CoA" "a 2-hydroxy-3-methyl-branched 2,3,4-saturated fatty acyl-CoA" [] null null +"2-OH-4-IPCH-1-carboxyl-CoA" "2-hydroxy-4-isopropenylcyclohexane-1-carboxyl-CoA" [] "C31H46N7O18P3S" 929.722 +"2-OH-Ornithine-Lipids" "a 2-hydroxyornithine lipid" [] null null +"2-Or-3-Hydroxy-Fatty-Acids" "a 3- or 2-hydroxy fatty acid" [] null null +"2-OXINDOLE-3-ACETYL-HEXOSE" "a 2-oxindole-3-acetyl-hexose" [] "C16H19NO8" 353.328 +"2-Oxo-4-IPCH-1-carboxyl-CoA" "2-oxo-4-Isopropenylcyclohexane-1-carboxyl-CoA" [] "C31H44N7O18P3S" 927.706 +"2-Oxo-Acids" "a 2-oxo acid" ["a keto acid", "a α keto acid", "2-oxo acid"] null null +"2-Oxo-carboxylates" "a 2-oxo carboxylate" ["2-oxo acid", "an α keto acid", "a keto acid", "a 2-oxo acid", "a 2-ketocarboxylate"] null null +"2-OXOBUTANOATE" "2-oxobutanoate" ["2-oxobutyrate", "2-ketobutyrate", "2-oxobutyric acid", "α-oxobutyric acid", "α-ketobutyrate", "α-ketobutyric acid", "2-oxo-butyrate", "2-keto-butyrate", "2-ketobutyric acid", "a-ketobutyric acid"] "C4H5O3" 101.082 +"2-Palmitoleoyl-L-Phosphatidate" "a 1-acyl-2-palmitoleoyl-sn-glycerol 3-phosphate" [] null null +"2-Palmitoyl-L-Phosphatidate" "a 1-acyl-2-palmitoyl-sn-glycerol 3-phosphate" [] null null +"2-PG" "2-phospho-D-glycerate" ["2-phospho-(D)-glycerate", "2-phospho-(R)-glycerate", "2-phospho-D-glyceric acid", "2-P-D-glycerate", "D-glycerate 2-phosphate", "D-2-phosphoglycerate", "D-2-phosphoglyceric acid"] "C3H4O7P" 183.034 +"2-Phenyloxirane" "styrene oxide" ["2-phenyloxirane"] "C8H8O" 120.151 +"2-PHOSPHO-4-CYTIDINE-5-DIPHOSPHO-2-C-MET" "2-phospho-4-(cytidine 5'-diphospho)-2-C-methyl-D-erythritol" ["CDP-ME-2P", "CDP-methyl-D-erylthritol 2-phosphate", "4-diphosphocytidyl-2C-methyl-D-erythritol 2-phosphate", "4-diphosphocytidyl-2-C-methylerythritol 2-phosphate"] "C14H22N3O17P3" 597.259 +"2-Polyprenyl-Phenol" "a 2-(all-trans-polyprenyl)phenol" [] null null +"2-Prime-Ribonucleoside-Monophosphates" "a ribonucleoside 2'-phosphate" ["nucleoside-2'-phosphate", "nucleoside 2'-phosphate", "a 2'-ribonucleotide"] null null +"2-PROTOCATECHUOYLPHLOROGLUCINOLCARBOXYLA" "2-protocatechuoylphloroglucinolcarboxylate" ["2-(3,4-dihydroxybenzoyloxy)-4,6-dihydroxybenzoate", "2-protocatechuoyl-phloroglucinol carboxylic acid"] "C14H9O8" 305.22 +"2-Stearoyl-L-Phosphatidate" "a 1-acyl-2-stearoyl-sn-glycerol 3-phosphate" [] null null +"2-Thiocytosine-32-In-tRNAs" "a 2-thiocytosine32 in tRNA" [] null null +"2-THIOURIDINE" "2-thiouridine" ["s2U"] "C9H12N2O5S" 260.264 +"2-trans-4-cis-dienoyl-CoAs" "a (2E,4Z)-2,4-dienoyl-CoA" ["a 2-trans-4-cis-dienoyl-CoA"] null null +"20-Glc-Glc-Protopanaxadiol-ginsenosides" "a protopanaxadiol-type ginsenoside with two glucosyl residues at position 20" [] null null +"20-Glc-Protopanaxadiol-ginsenosides" "a protopanaxadiol-type ginsenoside with a single glucosyl residue at position 20" [] null null +"20-Gly-Glc-Protopanaxadiol-ginsenosides" "a protopanaxadiol-type ginsenoside with two glycosyl residues at position 20" [] null null +"21-Hydroxysteroids" "a 21-hydroxy-C21-steroid" ["a 21-hydroxysteroid"] null null +"21S-rRNA-2-O-methyluridine2791" "a 2'-O-methyluridine2791 in 21S rRNA" [] null null +"21S-rRNA-Pseudouridine-2819" "a 21S rRNA pseudouridine 2819" ["a pseudouridine 2819 in 21S rRNA"] null null +"21S-rRNA-uridine-2791" "a uridine2791 in 21S rRNA" [] null null +"21S-rRNA-uridine-2819" "a uridine2819 in 21S rRNA" ["21S rRNA uridine2819"] null null +"21S-rRNA-Uridines" "a uridine in 21S rRNA" ["21S rRNA uridine"] null null +"21S-rRNAs-Pseudouridines" "a 21S rRNA pseudouridine" ["a 21S rRNA containing pseudouridine", "a pseudouridine in 21S rRNA"] null null +"23-24-Dihydrocucurbitacins" "a 23,24-dihydrocucurbitacin" [] null null +"23-cyclic-nucloetide-PO4" "2',3' -cyclic nucleotide phosphate" ["a 2',3' -cyclic nucleotide"] null null +"23-Diaminopropanoate" "2,3-diaminopropanoate" ["2,3-diaminopropionate", "2,3-diaminopropionic acid", "2,3-diaminopropanoic acid", "3-aminoalanine zwitterion", "2-amino-3-ammoniopropanoate"] "C3H9N2O2" 105.116 +"23-Didehydropyranoses" "a 2,3-didehydropyranose" [] "C6H10O6" null +"23-DIMERCAPTOPROPAN-1-OL" "2,3-bis(sulfanyl)propan-1-ol" ["2,3-mercaptopropanol", "dithioglycerine", "2,3-dimercaptopropanol", "2,3-dithiopropanol", "1,2-dithioglycerol", "dimercaprol"] "C3H8OS2" 124.216 +"23-DIPHOSPHOGLYCERATE" "2,3-diphospho-D-glycerate" ["2,3-bisphosphoglycerate", "D-Greenwald ester", "2,3-P2-D-glycerate", "2,3-bisphospho-D-glycerate", "2,3-diphosphoglycerate", "DPG", "2,3-bisPGA", "(2R)-2,3-bisphosphoglycerate"] "C3H3O10P2" 260.998 +"23-PENTANEDIONE" "2,3-pentane-dione" [] "C5H8O2" 100.117 +"23S-rRNA-2-8-dimethyladenine2503" "2,8-dimethyladenine2503 in 23S rRNA" [] null null +"23S-rRNA-2-methyladenine2503" "a 2-methyladenine2503 in 23S rRNA" [] null null +"23S-rRNA-2-O-methyladenosine1067" "2-O-methyladenosine1067 in 23S rRNA" [] null null +"23S-rRNA-2-O-methylcytidine1920" "a 2'-O-methylcytidine1920 in 23S rRNA" [] null null +"23S-rRNA-2-O-methylcytidine2498" "a 2-O-methylcytidine2498 in 23S rRNA" [] null null +"23S-rRNA-2-O-methylguanosine2251" "2-O-methylguanosine2251 in 23S rRNA" [] null null +"23S-rRNA-2-O-methyluridine2552" "a 2'-O-methyluridine2552 in 23S rRNA" [] null null +"23S-rRNA-5-Methyl-Uridines" "a 5-methyluridine in 23S rRNA" ["a 23S-rRNA 5-methyluridine", "23S-rRNA 5-methyluridine"] null null +"23S-rRNA-5-methylcytosine1962" "a 5-methylcytosine1962 in 23S rRNA" [] null null +"23S-rRNA-5-methyluracil1939" "a 5-methyluracil1939 in 23S rRNA" [] null null +"23S-rRNA-5-methyluracil747" "a 5-methyluracil747 in 23S rRNA" [] null null +"23S-rRNA-8-methyladenine2503" "8-methyladenine2503 in 23S rRNA" [] null null +"23S-rRNA-adenine-1618" "adenine1618 in 23S rRNA" [] null null +"23S-rRNA-adenine-2030" "adenine2030 in 23S rRNA" [] null null +"23S-rRNA-adenine-2085" "adenine2085 in 23S rRNA" [] null null +"23S-rRNA-adenine-2503" "adenine2503 in 23S rRNA" [] null null +"23S-rRNA-Adenines" "an adenine in 23S rRNA" ["23S rRNA adenine"] null null +"23S-rRNA-adenosine-1067" "adenosine1067 in 23S rRNA" [] null null +"23S-rRNA-Adenosines" "23S rRNA adenosine" [] null null +"23S-rRNA-cytidine-1920" "a cytidine1920 in 23S rRNA" [] null null +"23S-rRNA-cytidine-2498" "a cytidine2498 in 23S rRNA" [] null null +"23S-rRNA-Cytidines" "a cytidine in 23S rRNA" ["a 23S rRNA cytidine"] null null +"23S-rRNA-cytosine-1962" "a cytosine1962 in 23S rRNA" [] null null +"23S-rRNA-cytosine-2501" "a cytosine2501 in 23S rRNA" [] null null +"23S-rRNA-Cytosines" "a cytosine in 23S rRNA" [] null null +"23S-rRNA-guanine-1835" "a guanine1835 in 23S rRNA" [] null null +"23S-rRNA-guanine-2069" "a guanine2069 in 23S rRNA" [] null null +"23S-rRNA-guanine-2445" "a guanine2445 in 23S rRNA" [] null null +"23S-rRNA-guanine-2551" "guanosine2251 in 23S rRNA" [] null null +"23S-rRNA-guanine-745" "a guanine745 in 23S rRNA" [] null null +"23S-rRNA-guanine-748" "a guanine748 in 23S rRNA" [] null null +"23S-rRNA-Guanines" "a guanine in 23S rRNA" ["a 23S rRNA guanine"] null null +"23S-rRNA-Guanosines" "a guanosine in 23S rRNA" [] null null +"23S-rRNA-N1-methylguanine745" "an N1-methylguanine745 in 23S rRNA" [] null null +"23S-rRNA-N1-methylguanine748" "an N1-methylguanine748 in 23S rRNA" [] null null +"23S-rRNA-N2-methylguanine1835" "an N2-methylguanine1835 in 23S rRNA" [] null null +"23S-RRNA-N2-METHYLGUANINE2445" "an N2-methylguanine2445 in 23S rRNA" [] null null +"23S-rRNA-N3-methylpseudouridine1915" "an N3-methylpseudouridine1915 in 23S rRNA" ["a 23S rRNA N3-methylpseudouridine1915"] null null +"23S-rRNA-N6-dimethyladenine2085" "N6-dimethyladenine2085 in 23S rRNA" [] null null +"23S-rRNA-N6-m-adenine1618" "an N6-methyladenine1618 in 23S rRNA" ["a 6-methylaminopurine1618 in 23S rRNA"] null null +"23S-rRNA-N6-methyladenine-2030" "an N6-methyladenine2030 in 23S rRNA" ["a 6-methylaminopurine2030 in 23S rRNA"] null null +"23S-rRNA-N7-methylguanine-2069" "an N7-methylguanine2069 in 23S rRNA" [] null null +"23S-rRNA-Pseudourdines" "a pseudouridine in 23S rRNA" ["a 23S rRNA pseudouridine"] null null +"23S-rRNA-pseudouridine1911-1915-1917" "a pseudouridine1911/1915/1917 in 23S rRNA" ["a 23S rRNA pseudouridine1911/1915/1917"] null null +"23S-rRNA-pseudouridine1915" "a pseudouridine1915 in 23S rRNA" ["a 23S rRNA pseudouridine1915"] null null +"23S-rRNA-pseudouridine2457" "a pseudouridine2457 in 23S rRNA" ["a 23S rRNA pseudouridine2457"] null null +"23S-rRNA-pseudouridine2604" "a pseudouridine2604 in 23S rRNA" ["a 23S rRNA pseudouridine2604"] null null +"23S-rRNA-pseudouridine2605" "a pseudouridine2605 in 23S rRNA" ["a 23S rRNA pseudouridine2605"] null null +"23S-rRNA-pseudouridine746" "a pseudouridine746 in 23S rRNA" ["a 23S rRNA pseudouridine746"] null null +"23S-rRNA-pseudouridine955-2504-2580" "a pseudouridine955/2504/2580 in 23S rRNA" ["a 23S rRNA pseudouridine955/2504/2580"] null null +"23S-rRNA-uracil-1939" "a uracil1939 in 23S rRNA" [] null null +"23S-rRNA-uracil-747" "a uracil747 in 23S rRNA" [] null null +"23S-rRNA-uracils" "a uracil in 23S rRNA" ["23S rRNA uracil"] null null +"23S-rRNA-uridine-2552" "uridine2552 in 23S rRNA" [] null null +"23S-rRNA-uridine1911-1915-1917" "a 23S rRNA uridine1911/1915/1917" [] null null +"23S-rRNA-uridine2457" "uridine2457 in 23S rRNA" ["a 23S rRNA uridine2457"] null null +"23S-rRNA-uridine2604" "a uridine2604 in 23S rRNA" ["a 23S rRNA uridine2604"] null null +"23S-rRNA-uridine2605" "uridine2605 in 23S rRNA" ["a 23S rRNA uridine2605"] null null +"23S-rRNA-uridine746" "uridine746 in 23S rRNA" ["a 23S rRNA uridine746"] null null +"23S-rRNA-uridine955-2504-2580" "uridine955/2504/2580 in 23S rRNA" ["a 23S rRNA uridine955/2504/2580"] null null +"23S-rRNA-uridines" "a uridine in 23S rRNA" [] null null +"24-2-N-linked-Glycan" "a {β-D-GlcNAc-(1→2)-[β-D-GlcNAc-(1→4)]-α-D-Man-(1→3)-[β-D-GlcNAc-(1→2)-α-D-Man-(1→6)]-β-D-Man-(1→4)-β-D-GlcNAc-(1→4)-β-D-GlcNAc}-N-Asn-[protein]" ["[(2,4),(2)]-N-linked glycan", "2,24 N-glycan"] null null +"24-246-N-linked-Glycan" "a [(2,4),(2,4,6)]-N-linked glycan" ["a {β-D-GlcNAc-(1→2)-[β-D-GlcNAc-(1→4)]-α-D-Man-(1→3)-[β-D-GlcNAc-(1→2)-[β-D-GlcNAc-(1→4)]-[β-D-GlcNAc-(1→6)]-α-D-Man-(1→6)]-β-D-Man-(1→4)-β-D-GlcNAc-(1→4)-β-D-GlcNAc}-N-Asn-[protein]", "246,24 N-linked glycan"] null null +"24-26-N-linked-Glycan" "a {β-D-GlcNAc-(1→2)-[β-D-GlcNAc-(1→4)]-α-D-Man-(1→3)-[β-D-GlcNAc-(1→2)-[β-D-GlcNAc-(1→6)]-α-D-Man-(1→6)]-β-D-Man-(1→4)-β-D-GlcNAc-(1→4)-β-D-GlcNAc}-N-Asn-[protein]" ["[(2,4),(2,6)]-N-linked glycan", "26,24 N-linked glycan"] null null +"24-Epibrassinolide-Sulfates" "a 24-epibrassinolide sulfate" [] null null +"24-Epicathasterone-Sulfates" "a 24-epicathasterone sulfate" [] null null +"246-TRINITROBENZENE" "2,4,6-trinitrobenzene" [] "C6H3N3O6" 213.106 +"25-DIAMINOPENTANOATE" "ornithine" ["2,5-diaminopentanoate"] "C5H13N2O2" 133.17 +"25-DIDEHYDRO-D-GLUCONATE" "2,5-didehydro-D-gluconate" ["2,5-diketo-D-gluconate", "2,5-diketogluconic acid"] "C6H7O7" 191.117 +"25S-rRNA-adenine-2142" "adenine2142 in 25S rRNA" [] null null +"25S-rRNA-adenine-645" "adenine645 in 25S rRNA" [] null null +"25S-rRNA-Adenines" "an adenine in 25S rRNA" ["25S rRNA adenine"] null null +"25S-rRNA-Cytosines" "a cytosine in 25S rRNA" ["25S rRNA cytosine"] null null +"25S-rRNA-N1-methyladenine-2142" "N1-methyladenine2142 in 25S rRNA" [] null null +"25S-rRNA-N1-methyladenine-645" "N1-methyladenine645 in 25S rRNA" [] null null +"25S-rRNA-N3-methyl-uracil-2634" "an N3-methyluracil2634 in 25S rRNA" [] null null +"25S-rRNA-N3-methyl-uracil-2843" "an N3-methyluracil2843 in 25S rRNA" [] null null +"25S-rRNA-uracil-2634" "a uracil2634 in 25S rRNA" [] null null +"25S-rRNA-uracil-2843" "a uracil2843 in 25S rRNA" [] null null +"25S-rRNA-uracils" "a uracil in 25S rRNA" ["a 25S rRNA uracil"] null null +"26-Dideoxyhexoses" "a 2,6-dideoxyhexose" [] null null +"28-Homobrassinosteroid-Sulfates" "a (22R,23R)-28-homobrassinolide sulfate" ["a B-homo-7-oxastigmastan-6-one, 2,3,22,23-tetrahydroxy-, (2α,3α,5α,22R,23R)-sulfate"] null null +"28-Homocastasterone-Sulfates" "a (22R,23R)-28-homocastasterone sulfate" [] null null +"28S-rRNA-adenine-4324" "adenine4324 in 28S rRNA" [] null null +"28S-rRNA-adenine-4328" "adenine4328 in 28S rRNA" [] null null +"28S-rRNA-Adenines" "an adenine in 28S rRNA" ["28s rRNA adenine"] null null +"2C-METH-D-ERYTHRITOL-CYCLODIPHOSPHATE" "2-C-methyl-D-erythritol-2,4-cyclodiphosphate" ["ME-2,4cPP"] "C5H10O9P2" 276.076 +"2K-4CH3-PENTANOATE" "4-methyl-2-oxopentanoate" ["2-keto-4-methyl-pentanoate", "2-oxoisocaproate", "2-oxo-4-methylpentanoate", "α-ketoisocaproate", "α-oxoisocaproate", "2-ketoisocaproate", "ketoleucine", "4-methyl-2-oxopentanoic acid", "2-ketoisocaproic acid"] "C6H9O3" 129.135 +"2primeO-Methylcytosine-Containing-rRNAs" "a 2'-O-methylcytosine in rRNA" [] null null +"2primeO-MethylU-Containing-23SrRNAs" "a 2'-O-methyluridine in 23S rRNA" ["23S rRNA containing 2'-O-methyluridine"] null null +"2R-2-Hydroxyl-Acyl-CoAs" "a (2R)-2-hydroxyacyl-CoA" [] null null +"2R-3R-Dihydroflavonols" "a (2R,3R)-dihydroflavonol" [] null null +"2R-3R-Flavan-3-O-glucosides" "a (2R,3R)-flavan-3-ol-3'-O-glucoside" ["a 2,3-cis-flavan-3-ol-3'-O-glucoside"] null null +"2R-3S-Flavan-3-O-glucosides" "a (2R,3S)-flavan-3-ol-3'-O-glucoside" ["a 2,3-trans-flavan-3-ol-3'-O-glucoside"] null null +"2R-HYDROPEROXY-FATTY-ACIDS" "a (2R)-2-hydroperoxy fatty acid" [] null null +"2R-Hydroxy-Fatty-Acids" "a (2R)-2-hydroxy fatty acid" ["an (R)-2-hydroxycarboxylate", "an (R)-2-hydroxyacid", "an (R)-2-hydroxyalkanoate", "a (2R)-hydroxy-carboxylate", "a D-2-hydroxycarboxylate", "a 2(R)-hydroxy fatty acid"] null null +"3-3-HAAs" "a 3-(3-hydroxyalkanoyloxy)alkanoate" [] null null +"3-4-DIHYDROXYBENZOATE" "protocatechuate" ["4-carboxy-1,2-dihydroxybenzene", "catechol-4-carboxylic acid", "4,5-dihydroxybenzoic acid", "benzoic acid, 3,4-dihydroxy-", "3,4-DHBA", "protocatehuic acid", "3,4-dihydroxybenzoic acid", "protocatechuic acid", "3,4-dihydroxybenzoate", "3,4-dihydrobenzoic acid", "Pca"] "C7H5O4" 153.114 +"3-5-ADP" "adenosine 3',5'-bisphosphate" ["adenosine-3',5'-bisphosphate", "phosphoadenosine phosphate", "PAP"] "C10H11N5O10P2" 423.172 +"3-5-Dihydroxy-Flavanones" "a 3',5'-dihydroxy isoflavanone" [] null null +"3-Acyl-pyruvates" "a 3-acylpyruvate" [] null null +"3-ACYLOXYACYL-GROUP-OF-BACTERIAL-TOXIN" "a 3-(acyloxy)acyl group of bacterial toxin" [] null null +"3-alpha-Hydroxysteroids" "a 3α-hydroxysteroid" ["a 3α-hydroxysterol"] null null +"3-Alpha-L-Fucosyl-NAc-Glycoprotein" "a 3-α-L-fucosyl-N-acetylglucosaminyl-[glycoprotein]" [] null null +"3-Alpha-Mannosyl-Heteroglycans" "3-(alpha-D-mannosyl)-heteroglycan" [] null null +"3-AMINO-12-PROPANEDIOL" "3-amino-1,2-propanediol" [] "C3H10NO2" 92.117 +"3-AMINO-6-ACETAMIDOHEXANOATE" "N6-acetyl-β-lysine" ["6-acetamido-3-aminohexanoate", "3-amino-6-acetamidohexanoate", "Nε-acetyl-β-lysine"] "C8H16N2O3" 188.226 +"3-AMINO-ISOBUTYRATE" "3-amino-2-methylpropanoate" ["β-aminoisobutyrate", "3-amino-isobutyric acid", "3-aminoisobutyrate", "3-amino-isobutyrate", "3-amino-isobutanoate"] "C4H9NO2" 103.121 +"3-AMINOPROPYL-METHYL-PHOSPHINATE" "3-aminopropyl-methyl-phosphinate" [] "C4H12NO2P" 137.118 +"3-Aryl-Acrylates" "a 3-(aryl)acrylate" [] null null +"3-Aryl-Acryloyl-CoAs" "a 3-(aryl)acryloyl-CoA" [] null null +"3-BETA-D-GLUCOSYLGLUCOSE" "nigerose" ["α-1,3-glucose disaccharide", "sakebiose", "3-O-α-D-glucopyranosyl-D-glucopyranose"] "C12H22O11" 342.299 +"3-Beta-Hydroxysterol-Esters" "a 3-β-hydroxysteroid ester" [] null null +"3-Beta-Hydroxysterols" "a 3β-hydroxysteroid" ["a 3-β-hydroxysterol"] null null +"3-BROMOPYRUVATE" "3-bromopyruvate" ["bromopyruvate", "3-bromopyruvic acid", "bromopyruvic acid", "3-bromo-2-oxopropanoic acid"] "C3H2O3Br" 165.951 +"3-CARBAMOYLOXYMETHYLCEPHEM" "a 3-carbamoyloxymethylcephem" [] null null +"3-carboxy-3-dimethylammonio-propyl-L-his" "a 2-[(3S)-3-carboxy-3-(dimethylammonio)propyl]-L-histidine-[translation elongation factor 2]" ["a 2-[3-carboxy-3-(dimethylammonio)propyl]-L-histidine in eEF-2"] null null +"3-CARBOXY-3-HYDROXY-ISOCAPROATE" "(2S)-2-isopropylmalate" ["3-hydroxy-4-methyl-3-carboxypentanoate", "3-carboxy-3-hydroxy-4-methylpentanoate", "3-carboxy-3-hydroxy-isocaproate", "α-isopropylmalate"] "C7H10O5" 174.153 +"3-CHLORO-D-ALANINE" "3-chloro-D-alanine" ["β-chloro-D-alanine"] "C3H6NO2Cl" 123.539 +"3-CHLORO-DL-ALANINE" "3-chloro-DL-alanine" ["β-chloro-DL-alanine"] "C3H6NO2Cl" 123.539 +"3-Dehydro-D-Glucopyranose" "3-dehydro-D-glucopyranose" ["3-keto-D-glucose"] "C6H10O6" 178.141 +"3-Dehydro-D-Glucosides" "a 3-dehydro-D-glucoside" ["a 3-keto-D-glucoside"] null null +"3-Dehydro-D-gulosides" "a 3-dehydro-D-guloside" ["a 3-keto-D-guloside"] null null +"3-DEHYDRO-SHIKIMATE" "3-dehydroshikimate" ["3-dehydroshikimic acid", "5-dehydroshikimic acid", "5-dehydroshikimate"] "C7H7O5" 171.129 +"3-Dehydropyranoses" "a 3-dehydropyranose" [] "C6H10O6" 178.141 +"3-Dehydropyranosides" "a 3-dehydropyranoside" [] null null +"3-DEOXY-D-ARABINO-HEPTULOSONATE-7-P" "3-deoxy-D-arabino-heptulosonate 7-phosphate" ["3-deoxy-D-arabino-heptulosonate-7-P", "3-deoxy-arabino-heptulosonate 7-phosphate", "3-deoxy-arabino-heptulosonate-7-P", "2-dehydro-3-deoxy-D-arabino-heptonate 7-phosphate", "3-deoxy-D-arabino-hept-2-ulosonate 7-phosphate", "3-deoxy-arabino-heptulonate 7-phosphate", "DAHP"] "C7H10O10P" 285.124 +"3-ENOLPYRUVYL-SHIKIMATE-5P" "5-enolpyruvoyl-shikimate 3-phosphate" ["3-enolpyruvyl-shikimate 5-phosphate", "3-enolpyruvyl-shikimate-5-P", "5-O-(1-carboxyvinyl)-3-phosphoshikimate", "5-enolpyruvyl-shikimate 3-phosphate"] "C10H9O10P" 320.149 +"3-ETHYLCATECHOL" "3-ethylcatechol" ["2,3-dihydroxyethylbenzene", "3-ethyl-benzene-1,2-diol"] "C8H10O2" 138.166 +"3-Glc-Phosphatidylglycerol" "an sn-3'-[O-β-D-glucopyranosyl]-phosphatidylglycerol" [] null null +"3-Hydroxy-11-cis-retinal" "11-cis-3-hydroxyretinal" ["3-hydroxy-11-cis-retinaldehyde", "3-hydroxy-11-cis-retinal"] "C20H28O2" 300.44 +"3-Hydroxy-11-cis-retinol" "11-cis-3-hydroxyretinol" ["3-hydroxy-11-cis-retinol"] "C20H30O2" 302.456 +"3-HYDROXY-BUTYRATE" "3-hydroxybutanoate" ["β-hydroxybutyrate", "3-hydroxybutyrate", "β-hydroxybutanoate"] "C4H7O3" 103.097 +"3-Hydroxy-Fatty-Acids" "a 3-hydroxy fatty acid" ["β-hydroxy fatty acid", "3-OH fatty acid", "β-OH fatty acid"] null null +"3-Hydroxy-Flavanones" "a 3'-hydroxy flavanone" [] null null +"3-HYDROXY-ISOBUTYRATE" "3-hydroxy-isobutanoate" ["3-hydroxy-isobutyrate", "3-hydroxyisobutyric acid", "3-hydroxy-2-methylpropanoate"] "C4H7O3" 103.097 +"3-HYDROXY-ISOBUTYRYL-COA" "3-hydroxy-isobutanoyl-CoA" ["3-Hydroxy-2-methylpropanoyl-CoA", "3-hydroxy-isobutyryl-coenzyme A", "3-hydroxy-2-methylpropionyl-CoA", "3-hydroxy-isobutyryl-CoA"] "C25H38N7O18P3S" 849.593 +"3-Hydroxy-L-aspartate" "3-hydroxy-L-aspartate" [] "C4H6NO5" 148.095 +"3-HYDROXY-PROPIONATE" "3-hydroxypropanoate" ["3-hydroxypropionate", "β-hydroxypropionate", "3-hydroxypropanoic acid", "3-hydropropionic acid", "hydracrylic acid", "3-hydroxypropionic acid"] "C3H5O3" 89.071 +"3-HYDROXYACYL-COA" "a 3-hydroxyacyl-CoA" [] null null +"3-HYDROXYACYL-GROUP-OF-BACTERIAL-TOXIN" "a 3-hydroxyacyl group of bacterial toxin" [] null null +"3-HYDROXYADIPYL-COA" "(3S)-hydroxyadipyl-CoA" [] "C27H39N7O20P3S" 906.621 +"3-HYDROXYBENZOATE" "3-hydroxybenzoate" ["3-hydroxybenzoic acid", "m-hydroxybenzoate"] "C7H5O3" 137.115 +"3-Hydroxybutanoyl-CoAs" "3-hydroxybutanoyl-CoA" ["3-OH-butyryl-CoA", "OH-butyryl-CoA", "β-hydroxybutyryl-S-CoA", "D-3-hydroxybutyryl-CoA", "hydroxy-butyryl-CoA", "β-hydroxybutyryl-CoA", "3-hydroxybutyryl-CoA", "3-hydroxybutanoyl-CoA"] "C25H38N7O18P3S" 849.593 +"3-HYDROXYPHENYL-PROPIONATE" "3-(3-hydroxyphenyl)propanoate" ["3-(3-hydroxyphenyl)propanoic acid", "dihydro-3-coumarate", "3-(3-hydroxyphenyl)propionic acid", "m-hydroxyphenylpropionic acid", "m-hydroxyphenylpropionate", "MHP", "3HPP", "3-(3-hydroxyphenyl)propionate"] "C9H9O3" 165.168 +"3-HYDROXYPHENYLACETATE" "3-hydroxyphenylacetate" ["m-hydroxyphenylacetic acid", "3-hydroxyphenylacetic acid", "m-hydroxyphenylacetate"] "C8H7O3" 151.141 +"3-HYDROXYPHENYLACETYL-COA" "3-hydroxyphenylacetyl-CoA" [] "C29H38N7O18P3S" 897.637 +"3-Isopropenyl-4H-hexano-lactones" "a 7-hydroxy-4-isopropenyl-7-methyloxepan-2-one" ["a 7-hydroxy-4-isoprenyl-7-methyl-2-oxo-oxepanone", "a 3-isopropenyl-4-hydroxy-hexano-6-lactone"] "C10H16O3" 184.235 +"3-Isopropenyl-6-oxoheptanoates" "a 3-isopropenyl-6-oxoheptanoate" [] "C10H15O3" 183.227 +"3-KETO-ADIPYL-COA" "3-oxoadipyl-CoA" ["3-ketoadipyl-CoA", "3-keto-adipyl-coa", "β-ketoadipyl-CoA"] "C27H37N7O20P3S" 904.605 +"3-KETO-L-GULONATE" "3-dehydro-L-gulonate" ["3-keto-L-gulonate"] "C6H9O7" 193.133 +"3-KETOACYL-COA" "a 2,3,4-saturated 3-oxoacyl-CoA" ["a 2,3,4-saturated β-ketoacyl-CoA", "a 2,3,4-saturated 3-ketoacyl-CoA"] null null +"3-KETOBUTYRATE" "acetoacetate" ["3-ketobutyrate", "3-oxobutanate", "oxobutyrate", "acetoacetic acid", "3-oxobutyric acid", "3-oxobutanoic acid", "diacetic acid", "β-ketobutyric acid"] "C4H5O3" 101.082 +"3-Ketomaltose" "3'-ketomaltose" ["3-dehydro-α-D-glucopyranose-(1→4)-D-glucopyranose"] "C12H20O11" 340.283 +"3-MERCAPTO-PYRUVATE" "2-oxo-3-sulfanylpropanoate" ["mercaptopyruvate", "3-mercaptopyruvic acid", "β-thiopyruvate", "β-mercaptopyruvate", "3-mercaptopyruvate"] "C3H3O3S" 119.115 +"3-Methoxy-4-Hydroxy-5-Polyprenylbenzoate" "a 3-methoxy-4-hydroxy-5-all-trans-polyprenylbenzoate" [] null null +"3-Methyl-Adenines" "3-methyladenine" [] "C6H7N5" 149.155 +"3-METHYL-CROTONYL-COA" "3-methylcrotonyl-CoA" ["β-methylcrotonoyl-CoA", "3-methylbut-2-enoyl-CoA", "3-methyl-2-butenoyl-CoA"] "C26H38N7O17P3S" 845.604 +"3-Methyl-Saturated-Fatty-Acids" "a 3-methyl-branched 2,3,4-saturated fatty acid" [] null null +"3-Methyl-Saturated-Fatty-Acyl-CoA" "a 3-methyl-branched 2,3,4-saturated fatty acyl-CoA" [] null null +"3-methylcrotonoyl-CoA-carboxylase-lysine" "a [3-methylcrotonoyl-CoA-carboxylase]-L-lysine" [] null null +"3-Monoacylglycerols" "a 3-acyl-sn-glycerol" [] null null +"3-N-3-carboxypropyl-uridine47-tRNAPhe" "a 3-[(3S)-3-amino-3-carboxypropyl]-uridine47 in tRNAPhe" [] null null +"3-NITROBENZALDEHYDE" "3-nitrobenzaldehyde" ["m-nitrobenzaldehyde"] "C7H5NO3" 151.121 +"3-O-acetyl-Rhamnogalacturns" "a 3-O-acetylated rhamnogalacturonan I" [] null null +"3-OCTAPRENYL-4-HYDROXYBENZOATE" "4-hydroxy-3-octaprenylbenzoate" ["3-octaprenyl-4-hydroxybenzoate"] "C47H69O3" 682.06 +"3-Oxo-5-Alpha-Steroids" "a 3-oxo-5-α-steroid" [] null null +"3-Oxo-5-Beta-Steroids" "a 3-oxo-5-β-steroid" [] null null +"3-oxo-D-glucose-6-phosphate" "3-dehydro-D-glucose 6-phosphate" ["3-oxo-D-glucose 6-phosphate", "3-oxo-D-glucose 6-P", "3-dehydro-D-glucose 6P"] "C6H9O9P" 256.105 +"3-oxo-D5-steroids" "a 3-oxo-δ5-steroid" [] null null +"3-Oxo-Delta-1-Steroids" "a 3-oxo-Δ1-steroid" [] null null +"3-Oxo-Delta-4-Steroids" "a 3-oxo-Δ4-steroid" [] null null +"3-Oxoacyl-CoAs" "a 3-oxoacyl-CoA" ["a β-ketoacyl-CoA", "a 3-oxoacyl-CoA", "3-oxoacyl-CoA", "a 3-oxo-acyl-CoA", "RCOCH2CO-CoA", "a 3-ketoacyl-CoA", "β-ketoacyl-CoA"] null null +"3-OXOPALMITOYL-COA" "3-oxopalmitoyl-CoA" ["3-ketopalmitoyl-CoA", "3-oxohexadecanoyl-CoA"] "C37H60N7O18P3S" 1015.898 +"3-Oxosteroids" "a 3-oxosteroid" ["a 3-oxo-sterol", "a sterone"] null null +"3-Oxosteroyl-CoA" "a 3-oxo bile acid CoA ester" [] "C45H68N7O18P3S" 1120.05 +"3-P-HYDROXYPYRUVATE" "3-phosphooxypyruvate" ["phosphohydroxypyruvate", "3-phosphonooxypyruvate", "3-P-hydroxypyruvate", "3-p-OH-pyr", "3-phosphohydroxypyruvate", "3-p-OH-pyruvate", "3-p-hydroxy-pyr", "3-phosphohydroxy-pyr", "phosphohydroxypyruate", "3-phospho-hydroxypyruvate"] "C3H2O7P" 181.018 +"3-P-SERINE" "O-phospho-L-serine" ["L-serine phosphate", "phosphoryl-L-serine", "L-seryl phosphate", "L-serine-3P", "L-serine 3-phosphate", "3-phospho-L-serine"] "C3H6NO6P" 183.057 +"3-PHENYLPROPIONATE" "3-phenylpropanoate" ["hydrocinnamate", "3-phenylpropionic acid", "hydrocinnamic acid", "HCA", "phenylpropanoate", "3-phenylpropionate"] "C9H9O2" 149.169 +"3-PHOSPHATIDYL-3-O-L-LYSYLGLYCEROL" "3-O-L-lysyl-1-O-phosphatidylglycerol" ["LPG", "lysyl-phosphatidylglycerol", "3-O-L-lysyl-1-O-phosphatidylglycerol", "3-phosphatidyl-(3'-O-L-lysyl)glycerol"] null null +"3-Phospho-DNA" "a 3'-phospho-[DNA]" [] null null +"3-Phosphomonucleotides" "a ribonucleoside 3'-phosphate" ["a 3'-phosphomonoribonucleotide"] null null +"3-phosphooligo-deoxyribonucleotides" "a 3' phosphooligo-deoxyribonucleotide" [] null null +"3-phosphooligonucleotides" "a 3' phosphooligonucleotide RNA" [] null null +"3-Polyrenyl-benzene-1-2-diols" "a 3-(all-trans-polyprenyl)benzene-1,2-diol" [] null null +"3-Prime-Nucleoside-Monophosphates" "a nucleoside 3'-monophosphate" [] null null +"3-SULFINOALANINE" "3-sulfino-L-alanine" ["cysteine sulfinate", "cysteine sulphinate", "L-cysteine sulfinate", "3-sulfinoalanine", "L-cysteinesulfinic acid", "3-sulphino-L-alanine", "cysteine-sulfinate"] "C3H6NO4S" 152.145 +"3-terminal-unsaturated-sugars" "a 3'-terminal unsaturated sugar" [] null null +"3-vinyl-bacteriochlorophyllide-d" "a 3-vinyl chlorophyllide d" [] null null +"34-Didehydropyranosides" "a 3,4-didehydropyranoside" [] null null +"34-Dihydroxy-5-Polyprenylbenzoates" "a 3,4-dihydroxy-5-all-trans-polyprenylbenzoate" [] null null +"34-DIHYDROXYPHENYLACETALDEHYDE" "3,4-dihydroxyphenylacetaldehyde" ["protocatechuatealdehyde"] "C8H8O3" 152.149 +"34-DIHYDROXYPHENYLACETYL-COA" "3,4-dihydroxyphenylacetyl-CoA" [] "C29H38N7O19P3S" 913.636 +"34-DIHYDROXYPHENYLPYRUVATE" "3-(3,4-dihydroxyphenyl)pyruvate" ["3-(3,4-dihydroxyphenyl)-2-oxo-propanoic acid", "3,4-dihydroxyphenylpyruvate"] "C9H7O5" 195.151 +"36-Dideoxyhexoses" "a 3,6-dideoxyhexose" [] null null +"3alpha-hydroxysteroyl-CoA" "a 3α-hydroxy bile acid CoA ester" [] "C45H70N7O18P3S" 1122.065 +"3b-hydroxy-D5-steroids" "a 3β-hydroxy-δ5-steroid" [] null null +"3FE-4S" "a [3Fe-4S] iron-sulfur cluster" ["a Fe3S4 cluster", "a Fe3S4 center", "Fe3S4", "a Fe3S4 iron-sulfur center", "a Fe3S4 iron-sulfur cluster", "a [3Fe-4S] iron-sulfur center", "[3Fe-4S]"] "HS4Fe3" 295.781 +"3Glc-Protopanaxadiol-ginsenosides" "a protopanaxadiol-type ginsenoside with one glucosyl residue at position 3" [] null null +"3GlcGlc-Protopanaxadiol-ginsenosides" "a protopanaxadiol-type ginsenoside with two glucosyl residues at position 3" [] null null +"3OH-4P-OH-ALPHA-KETOBUTYRATE" "(3R)-3-hydroxy-2-oxo-4 phosphooxybutanoate" ["3-hydroxy-4-phospho-hydroxy-α-ketobutyrate", "2-oxo-3-hydroxy-4-phosphobutanoate"] "C4H4O8P" 211.045 +"3prime-Hydroxy-Flavones" "a 3'-hydroxyflavone" [] null null +"3prime-Hydroxy-Flavonoids" "a 3'-hydroxy-flavonoid" [] null null +"3S-S-3-hydroxyacyl-CoAs" "a (3S)-3-hydroxyacyl-CoA" ["(3S)-3-hydroxyacyl-CoA", "3-hydroxyacyl-CoA", "3-OH-acyl-CoA", "RCHOHCH2CO-CoA", "trans-3-hydroxyacyl-CoA", "(S)-3-hydroxyacyl-CoA", "a (S)-3-hydroxyacyl-CoA", "a trans-3-hydroxyacyl-CoA", "a 3-OH-acyl-CoA", "a 3-hydroxyacyl-CoA", "an L-3-hydroxyacyl-CoA"] null null +"4-AMINO-4-DEOXY-L-ARABINOSE" "4-amino-4-deoxy-L-arabinose" ["L-Ara4N"] "C5H12NO4" 150.154 +"4-AMINO-4-DEOXYCHORISMATE" "4-amino-4-deoxychorismate" [] "C10H10NO5" 224.193 +"4-AMINO-BUTYRALDEHYDE" "4-aminobutanal" ["4-amino-butyraldehyde", "γ-aminobutyraldehyde", "4-aminobutyraldehyde", "ABAL"] "C4H10NO" 88.129 +"4-AMINO-BUTYRATE" "4-aminobutanoate" ["4-NH2-but", "4-NH3-but", "GABA", "4-aminobutyric acid", "γ-aminobutyrate", "4-amino-n-butyric acid", "γ-amino-n-butyric acid", "gamma-amino-N-butyrate", "g-amino-n-butyric acid", "4-aminobutyrate"] "C4H9NO2" 103.121 +"4-CARBOXYBENZALDEHYDE" "4-carboxybenzaldehyde" [] "C8H5O3" 149.126 +"4-CYTIDINE-5-DIPHOSPHO-2-C" "4-(cytidine 5'-diphospho)-2-C-methyl-D-erythritol" ["CDP-ME", "CDP-methyl-D-erythritol", "4-diphosphocytidyl-2C-methyl-D-erythritol", "4-diphosphocytidyl-2-C-methylerythritol"] "C14H23N3O14P2" 519.295 +"4-Dehydro-Cellulose" "4-dehydro-β-D-glucosyl-[(1→4)-β-D-glucosyl]n" [] null null +"4-dehydro-NacGlc-Chitin" "N-acetyl-4-dehydro-2-deoxy-2-amino-β-D-glucosyl-[(1→4)-β-N-acetyl-D-glucosaminyl]n" [] null null +"4-HYDROXY-2-KETOVALERATE" "(S)-4-hydroxy-2-oxopentanoate" ["HKP", "(S)-4-hydroxy-2-keto-pentanoic acid", "(S)-4-hydroxy-2-ketovaleric acid", "(S)-4-hydroxy-2-oxo-valeric acid", "(S)-4-hydroxy-2-oxo-pentanoic acid", "(S)-4-hydroxy-2-oxovaleric acid", "(S)-2-oxo-4-hydroxyvalerate", "(S)-4-hydroxy-2-ketovalerate", "(S)-4-hydroxy-2-oxo-valerate", "(S)-2-oxo-4S-hydroxypentanoate", "(S)-4-hydroxy-2-oxovalerate"] "C5H7O4" 131.108 +"4-Hydroxy-3-polyprenylbenzoates" "a 4-hydroxy-3-polyprenylbenzoate" [] null null +"4-HYDROXY-BENZYL-ALCOHOL" "4-hydroxybenzyl alcohol" ["p-hydroxybenzyl alcohol", "4-(hydroxymethyl)phenol"] "C7H8O2" 124.139 +"4-HYDROXY-BUTYRATE" "4-hydroxybutanoate" ["4-hydroxybutanoic acid", "4-hydroxybutyric acid", "γ-hydroxybutyrate", "γ-hydroxybutyric acid", "g-hydroxybutyric acid", "GHB", "4-hydroxybutyrate"] "C4H7O3" 103.097 +"4-HYDROXY-L-PROLINE" "trans-4-hydroxy-L-proline" ["trans-4-hydroxy-L-proline", "trans-4-hydroxyproline", "trans-oxyproline", "trans-L-4-hydroxyproline", "trans-hydroxy-L-proline", "trans-L-4-hydroxy-proline", "(2S,4R)-4-hydroxypyrrolidinium-2-carboxylate", "(2S,4R)-4-hydroxyproline"] "C5H9NO3" 131.131 +"4-HYDROXYBENZALDEHYDE" "4-hydroxybenzaldehyde" ["p-hydroxybenzaldehyde"] "C7H6O2" 122.123 +"4-hydroxybenzoate" "4-hydroxybenzoate" ["p-hydroxybenzoate", "4-hydroxybenzoic acid"] "C7H5O3" 137.115 +"4-HYDROXYMANDELATE" "4-hydroxymandelate" [] "C8H7O4" 167.141 +"4-HYDROXYPHENYLACETATE" "(4-hydroxyphenyl)acetate" ["4-HPA", "p-hydroxyphenylacetic acid", "benzeneacetic acid, 4-hydroxy-", "DL-para-hydroxyphenylacetic acid", "4-hydroxyphenylacetic acid", "4-hydroxyphenyl acetate", "p-hydroxyphenylacetate"] "C8H7O3" 151.141 +"4-HYDROXYPHENYLACETYL-COA" "4-hydroxyphenylacetyl-CoA" [] "C29H38N7O18P3S" 897.637 +"4-HYDROXYPHENYLLACTATE" "3-(4-hydroxyphenyl)lactate" ["4-hydroxyphenyllactate", "p-hydroxyphenyllactate", "3-(4-hydroxyphenyl)lactic acid", "2-hydroxy-3-(4-hydroxyphenyl)propanoate"] "C9H9O4" 181.168 +"4-Hydroxysphing-8-enine-20-1-Ceramides" "N-(icos-10-enoyl)-4-hydroxysphing-8-enine" ["4-hydroxy-8-sphingenine-20:1 ceramide", "4-hydroxysphing-8-enine-20:1 ceramide"] "C38H73NO4" null +"4-Hydroxysphing-8-enine-22-0-Ceramides" "a 4-hydroxysphing-8-enine-22:0 ceramide" ["4-hydroxy-8-sphingenine-22:0 ceramide", "4-hydroxy-8-sphingenine-docosanoic acid ceramide"] "C40H79NO4" null +"4-Hydroxysphing-8-enine-26-0-Ceramides" "a 4-hydroxysphing-8-enine-26:0 ceramide" ["4-hydroxy-8-sphingenine-26:0 ceramide", "4-hydroxy-8-sphingenine-hexacosanoic acid ceramide"] "C44H87NO4" null +"4-Hydroxysphing-8E-enine-ceramides" "an (8E)-4-hydroxysphing-8-enine ceramide" ["a trans-4-hydroxysphing-8-enine ceramide"] null null +"4-Hydroxysphing-8Z-enine-ceramides" "an (8Z)-4-hydroxy-sphing-8-enine-ceramide" ["a cis-4-hydroxysphing-8-enine-ceramide"] null null +"4-isopropenyl-7-methyloxepan-2-one" "a 4-isopropenyl-7-methyloxepan-2-one" [] "C10H16O2" 168.235 +"4-Isopropenyl-Pimelyl-CoA" "4-(isopropenyl)pimeloyl-CoA" [] "C31H45N7O19P3S" 944.713 +"4-NITROANILINE" "4-nitroaniline" ["p-nitroaniline", "4-nitrobenzeneamine"] "C6H7N2O2" 139.133 +"4-O-methylflavonoids" "a 4'-methoxyflavonoid" ["a 4'-O-methylflavonoid"] null null +"4-OXALOMESACONATE" "(1E)-4-oxobut-1-ene-1,2,4-tricarboxylate" ["4-oxalmesaconic acid", "4-oxalomesaconate", "γ-oxalomesaconate", "(E)-3-carboxy-5-oxo-2-hexenedioic-acid", "OMAketo"] "C7H3O7" 199.096 +"4-P-PANTOTHENATE" "(R)-4'-phosphopantothenate" ["4'-phosphopantothenate", "4'-P-Pantothenate", "D-4'-phosphopantothenate"] "C9H15NO8P" 296.193 +"4-PHOSPHONOOXY-THREONINE" "4-phosphooxy-L-threonine" ["L-threo-3-hydroxy-homoserine phosphate", "4-phosphonooxy-L-threonine", "4-phospho-hydroxy-threonine", "4-(phosphonooxy)-threonine", "O-phospho-4-hydroxy-L-threonine", "phospho-hydroxy-threonine", "4-(phosphonooxy)-L-threonine", "4-phospho-hydroxy-L-threonine"] "C4H8NO7P" 213.083 +"4alpha-Methyl-3-Oxosteroids" "a 4α-methyl-3-oxosteroid" ["a 3-oxo-4α-methylsteroid"] null null +"4beta-Methyl-3-Oxosteroids" "a 4β-methyl-3-oxosteroid" [] null null +"4prime-Hydroxyflavanones" "a 4'-hydroxyflavanone" [] null null +"4R-Limonene-1-2-epoxides" "a (4R)-1,2-epoxymenth-8-ene" ["a (4R)-limonene-1,2-epoxide"] "C10H16O" 152.236 +"4S-limonene-1-2-epoxides" "a (4S)-1,2-epoxymenth-8-ene" ["a (4S)-limonene-1,2-epoxide"] "C10H16O" 152.236 +"5-10-METHENYL-THF" "5,10-methenyltetrahydrofolate mono-L-glutamate" ["N5-N10-CH-THF mono-L-glutamate", "N5-N10-methenyltetrahydrofolate mono-L-glutamate", "CH-THF mono-L-glutamate", "5,10-methenyl-THF mono-L-glutamate", "anhydroleucovorin mono-L-glutamate", "methenyl-tetrahydrofolate mono-L-glutamate", "methenyl-THF mono-L-glutamate", "methenyl-H4F mono-L-glutamate", "5,10-methenyl-H4PteGlu1"] "C20H20N7O6" 454.421 +"5-10-METHENYL-THF-GLU-N" "a 5,10-methenyltetrahydrofolate" ["a 5,10-methenyl-THF"] null null +"5-2-me-oxy-2-oxo-et-ur-34-tRNA" "a 5-(2-methoxy-2-oxoethyl)uridine34 in tRNA" ["a tRNA containing 5-(2-methoxy-2-oxoethyl)uridine34", "an mcm5U34 in tRNA", "5-methoxycarbonylmethyl-uridine34 in tRNA"] null null +"5-6-DihydroUracil-tRNAs" "a 5,6-dihydrouracil in tRNA" ["tRNA containing 5,6-dihydrouracil"] null null +"5-AMINO-5-DEOXY-D-GALACTOPYRANOSIDE" "5-amino-5-deoxy-D-galactopyranoside" [] "C6H14NO5" 180.18 +"5-AMINO-LEVULINATE" "5-aminolevulinate" ["5-amino-4-oxopentanoate", "5-amino-4-oxo-pentanoic acid", "5-amino-levulinic acid", "5-amino-4-oxopentanoic acid", "δ-aminolevulinate", "5-aminolevulinic acid", "5-amino-levulinate", "ALA", "δ-aminolevulinic acid"] "C5H9NO3" 131.131 +"5-AMINOPENTANOATE" "5-aminopentanoate" ["5-aminovalerate", "δ-aminovalerate", "δ-amino-valeric acid", "5-aminopentanoic acid", "5-aminovaleric acid", "δ-aminovaleric acid", "δ-amino-N-valeric acid", "δ-amino-N-valerate"] "C5H11NO2" 117.147 +"5-BETA-L-THREO-PENTAPYRANOSYL-4-ULOSE-" "UDP-β-L-threo-pentapyranos-4-ulose" ["UDP-4-keto-α-D-xylose", "UDP-4-dehydro-α-D-xylose", "UDP-4-keto-pyranose", "uridine 5'-β-L-threo-pentapyranosyl-4''-ulose diphosphate", "UDP-4-ketopentose", "UDP-L-Ara4O"] "C14H18N2O16P2" 532.247 +"5-carbo-me-ami-me-ur-34-tRNALeu" "a 5-carboxymethylaminomethyluridine34 in tRNALeu" [] null null +"5-CarboxyMeAmMe-2-O-MeU34-tRNALeu" "a 5-carboxymethylaminomethyl-2'-O-methyluridine34 in tRNALeu" [] null null +"5-CHLOROFORMYCIN" "5'-chloroformycin" [] "C10H12N5O4Cl" 301.689 +"5-D-GLUTAMYL-D-GLUTAMYL-PEPTIDE" "a 5-D-glutamyl-D-glutamyl-peptide" ["a γ-D-glutamyl-D-glutamyl-peptide"] null null +"5-DEHYDROGLUCONATE" "5-dehydro-D-gluconate" ["5-keto-D-gluconic acid", "5-keto-D-gluconate", "5-ketogluconate", "5-dehydrogluconate"] "C6H9O7" 193.133 +"5-Dephospho-DNA" "a 5'-dephospho-[DNA]" [] null null +"5-ETHYLTHIOADENOSINE" "5'-ethylthioadenosine" [] "C12H17N5O3S" 311.358 +"5-FORMYL-THF" "(6S)-5-formyl-tetrahydrofolate mono-L-glutamate" ["n5-formyltetrahydrofolate monoglutamate", "n5-formyl-thf monoglutamate", "N5-formyl-THF monoglutamate", "5-formyl-H4F monoglutamate", "5-formyl-THF monoglutamate", "folinic acid monoglutamate", "5-CHO-THF monoglutamate", "folinate", "formyl-H4F monoglutamate", "citrovorum factor", "N5-formyl-H4F monoglutamate", "N5-formyl-H4PteGlu1", "(6S)-leucovorin"] "C20H21N7O7" 471.429 +"5-Halogenated-Analogs" "a 5-halogenated analog" [] null null +"5-Hydroxy-23S-rRNA-Cytosines2501" "a 5-hydroxycytosine2501 in 23S rRNA" [] null null +"5-HYDROXY-CTP" "5-hydroxy-CTP" ["5-hydroxycytidine triphosphate"] "C9H12N3O15P3" 495.126 +"5-HYDROXY-L-LYSINE" "5-hydroxy-L-lysine" ["5-hydroxylysine", "hydroxylysine", "δ-hydroxy-L-lysine", "2,6-diamino-5-hydroxyhexanoate", "5-hydroxy-2,6-diaminohexanoate"] "C6H15N2O3" 163.196 +"5-HYDROXY-PIPECOLATE" "5-hydroxypipecolate" [] "C6H11NO3" 145.158 +"5-Hydroxyfurocoumarins" "a 5-hydroxyfurocoumarin" [] null null +"5-HYDROXYISOURATE" "(S)-5-hydroxyisourate" [] "C5H4N4O4" 184.111 +"5-hydroxyoligo-deoxyribonucleotides" "a 5'-hydroxy-oligo-deoxyribonucleotide" [] null null +"5-hydroxyoligo-ribonucleotides" "a 5'-hydroxy-oligo-ribonucleotide" [] null null +"5-hydroxyoligonucleotides" "a 5'-hydroxyoligonucleotide" [] null null +"5-HYDROXYU34-TRNA" "a 5-hydroxyuridine34 in tRNA" [] null null +"5-IODOPENTAPHOSPHONATE" "5-iodopentaphosphonate" [] "C4H9O3PI" 262.992 +"5-KETO-4-DEOXY-D-GLUCARATE" "5-dehydro-4-deoxy-D-glucarate" ["3-deoxy-2-keto-L-threo-hexarate", "5-keto-4-deoxy-D-glucarate", "KDG", "3-deoxy-L-threo-hex-2-ulosarate", "GLR", "KGR", "5-KDG", "3-deoxy-(L)-threo-2-hexulosarate", "(2R,3S)-2,3-dihydroxy-5-oxohexanedioate", "2-keto-L-threo-4,5-dihydroxyadipate"] "C6H6O7" 190.109 +"5-L-GLUTAMYL-AMINO-ACID" "an α-(5-L-glutamyl)-amino acid" ["an α-(γ-L-glutamyl)-amino acid"] null null +"5-L-GLUTAMYL-L-AMINO-ACID" "an α-(γ-L-glutamyl)-L-amino acid" ["a 5-L-glutamyl-L-amino acid"] null null +"5-L-GLUTAMYL-PEPTIDE" "a 5-L-glutamyl-[peptide]" ["a γ-L-glutamyl-[peptide]"] null null +"5-methoxycarbonylmethoxyU34-tRNA" "a 5-(methoxycarbonylmethoxy)uridine34 in tRNA" ["a mcmo5U34 in tRNA"] null null +"5-Methoxyfurocoumarins" "a 5- methoxyfurocoumarin" [] null null +"5-methoxyU34-tRNA" "a 5-methoxyuridine34 in tRNA" ["mo5U34"] null null +"5-Methyl-2-thiouracil54-in-tRNA" "a 5-methyl-2-thiouracil54 in tRNA" ["a tRNA containing 5-methyl-2-thiouracil54"] null null +"5-Methyl-23S-rRNA-Cytosines" "a 5-methylcytosine in 23S rRNA" [] null null +"5-METHYL-THF" "5-methyltetrahydropteroyl mono-L-glutamate" ["5-methyltetrahydrofolate mono-L-glutamate", "5-methyl-THF mono-L-glutamate", "5-methyl-5,6,7,8-tetrahydrofolate mono-L-glutamate", "n5-methyltetrahydrofolate mono-L-glutamate", "N5-methyl-THF mono-L-glutamate", "methyl-THF mono-L-glutamate", "methyl-tetrahydrofolate mono-L-glutamate", "methyl-H4F mono-L-glutamate", "5-methyl-5,6,7,8-tetrahydropteroyl-L-glutamate", "N5-methyl--H4PteGlu1", "N5-methyltetrahydropteroyl mono-L-glutamate"] "C20H23N7O6" 457.445 +"5-METHYL-THF-GLU-N" "a 5-methyltetrahydrofolate" ["an N5-methyltetrahydrofolate"] null null +"5-METHYLAMINOMETHYL-2-SELENOURIDINE" "5-methylaminomethyl-2-selenouridine" ["mnm(5)se(2)U"] "C11H16N3O5Se" 349.224 +"5-METHYLAMINOMETHYL-2-THIOURIDINE" "5-methylaminomethyl-2-thiouridine" ["mnm5s2U"] "C12H20N3O5S" 318.367 +"5-METHYLCYTOSINE-34-TRNA-PRECURSORS" "a 5 methylcytosine34 in tRNA precursor" [] null null +"5-Methylcytosine-38-in-tRNAs" "a 5-methylcytosine38 in tRNA" [] null null +"5-Methylcytosine-40-tRNA-Precursors" "a 5 methylcytosine40 in tRNA precursor" [] null null +"5-Methylcytosine-48-tRNAs" "a 5-methylcytosine48 in tRNA" [] null null +"5-Methylcytosine-49-tRNAs" "a 5-methylcytosine49 in tRNA" [] null null +"5-Methylcytosine-DNA" "a 5-methylcytosine in DNA" ["DNA containing 5-methylcytosine", "a DNA 5-methylcytosine"] null null +"5-methylcytosine2278-in-25S-rRNA" "a 5-methylcytosine2278 in 25S rRNA" [] null null +"5-methylcytosine2870-in-25S-rRNA" "a 5-methylcytosine2870 in 25S rRNA" [] null null +"5-METHYLTHIOADENOSINE" "S-methyl-5'-thioadenosine" ["methylthioadenosine", "5'-methylthioadenosine", "MTA"] "C11H15N5O3S" 297.331 +"5-METHYLTHIOFORMYCIN" "5'-(methylsulfanyl)formycin" ["5'-Mtf", "5'-methylthioformycin"] "C11H15N5O3S" 297.331 +"5-METHYLTHIOTUBERCIDIN" "5'-(methylsulfanyl)tubercidin" ["7-(5-S-methyl-5-thio-β-D-ribofuranosyl)-7H-pyrrolo(2,3-d)pyrimidin-4-amine", "5'-methylthiotubercidin"] "C12H16N4O3S" 296.343 +"5-N-PROPYLTHIOADENOSINE" "5'-n-propylthioadenosine" [] "C13H19N5O3S" 325.385 +"5-Nitroisocytosine-Derivatives" "a 5-nitroisocytosine derivative" [] null null +"5-OXOPROLINE" "5-oxo-L-proline" ["pyrrolidone-COO", "pyrrolidone-carboxylate", "L-5-pyrrolidone-2-carboxylic acid", "L-pyroglutamic acid", "pyroglutamic acid", "pyroglutamate", "5-pyrrolidone-2-carboxylic acid", "L-pyroglutamate", "pidolic acid"] "C5H6NO3" 128.107 +"5-oxyacetylU34-tRNA" "a 5-(carboxymethoxy)uridine34 in tRNA" ["a 5-oxyacetyluridine34 in tRNA"] null null +"5-P-BETA-D-RIBOSYL-AMINE" "5-phospho-β-D-ribosylamine" ["5-P-β-D-ribosylamine", "PRA", "5-phosphoribosylamine"] "C5H11NO7P" 228.118 +"5-P-NITROPHENYLTHIOADENOSINE" "5'-(p-nitrophenyl)thioadenosine" [] "C16H16N6O5S" 404.4 +"5-P-RIBOSYL-N-FORMYLGLYCINEAMIDE" "N2-formyl-N1-(5-phospho-β-D-ribosyl)glycinamide" ["5'-phosphoribosyl-N-formylglycineamide", "5'-P-ribosyl-N-formylglycineamide", "5'-phosphoribosyl-N-formylglycinamide", "5-phosphoribosyl-N-formalglycineamide", "5'-phosphoribosyl-formylglycinamide"] "C8H13N2O9P" 312.172 +"5-Phospho-DNA" "a 5'-phospho-[DNA]" [] null null +"5-PHOSPHO-RIBOSYL-GLYCINEAMIDE" "N1-(5-phospho-β-D-ribosyl)glycinamide" ["5-phospho-β-D-ribosyl-glycineamide", "5'-phosphoribosylglycinamide", "5'-phosphoribosylglycineamide", "5'-p-ribosylglycinamide", "5'-p-ribosylglycineamide"] "C7H14N2O8P" 285.17 +"5-phosphodinucleotides" "a 5' phosphodinucleotide" [] null null +"5-Phosphomononucleotides" "a 5'-phosphomononucleotide" [] null null +"5-phosphooligonucleotides" "a 5'-phosphooligonucleotide" [] null null +"5-PHOSPHORIBOSYL-5-AMINOIMIDAZOLE" "5-amino-1-(5-phospho-β-D-ribosyl)imidazole" ["5-aminoimidazole ribonucleotide", "5-amino-1-(5-phospho-D-ribosyl)imidazole", "5-aminoimidazole ribotide", "1-(5'-phosphoribosyl)-5-aminoimidazole", "5'-phosphoribosyl-5-aminoimidazole", "phosphoribosylaminoimidazole"] "C8H13N3O7P" 294.18 +"5-PHOSPHORIBOSYL-N-FORMYLGLYCINEAMIDINE" "2-(formamido)-N1-(5-phospho-β-D-ribosyl)acetamidine" ["5-phosphoribosyl-N-formylglycineamidine", "5'-phosphoribosyl-N-formyl glycineamidine", "5'-phosphoribosylformylglycinamidine"] "C8H15N3O8P" 312.196 +"50S-Ribo-protein-L16-Hydroxylarginine" "a [50S ribosomal subunit protein L16]-(3R)-3-hydroxy-L-arginine81" ["a [50S ribosomal subunit protein L16]-(2S,3R)-3-hydroxyarginine81"] null null +"50S-Ribosomal-subunit-protein-L16-Arg" "a [50S ribosomal subunit protein L16]-L-arginine81" [] null null +"56-Dihydrouracil16-in-tRNAs" "a 5,6-dihydrouracil16 in tRNA" [] null null +"56-Dihydrouracil17-in-tRNAs" "a 5,6-dihydrouracil17 in tRNA" [] null null +"56-Dihydrouracil20-in-tRNAs" "a 5,6-dihydrouracil20 in tRNA" [] null null +"56-Dihydrouracil20a-in-tRNAs" "a 5,6-dihydrouracil20a in tRNA" [] null null +"56-Dihydrouracil20b-in-tRNAs" "a 5,6-dihydrouracil20b in tRNA" [] null null +"56-Dihydrouracil47-in-tRNAs" "a 5,6-dihydrouracil47 in tRNA" [] null null +"5678-TETRAHYDROPTERIDINE" "a 5,6,7,8-tetrahydropteridine" ["a tetrahydropteridine"] null null +"5mCpG-sites" "a 5-methyl-CpG site" ["a 5mCpG site"] null null +"5Z-dodec-5-enoyl-Lipid" "a [glycerolipid]-(5Z)-dodec-5-enoate" [] null null +"6-2-N-ACETYL-ETCETERA-MANNOSYL-R" "N-acetyl-β-D-glucosaminyl-(1→2)-α-D-mannosyl-(1→6)-β-D-mannosyl-R" ["6-(2-[N-acetyl-β-D-glucosaminyl]-α-D-mannosyl)-β-D-mannosyl-R", "6-(2-[N-acetyl-β-D-glucosaminyl]-α-D-mannosyl)-β-D-mannosyl-[glycoprotein]"] null null +"6-26-BISN-ACETYL-ETCETERA-MANNOSYL-R" "N-acetyl-β-D-glucosaminyl-(1→2)-[N-acetyl-β-D-glucosaminyl-(1→6)]-α-D-mannosyl-(1→6)-β-D-mannosyl-R" [] null null +"6-7-Dihydrobiopterins" "a 6,7-dihydrobiopterin" ["a quinoid dihydrobiopterin", "a q-dihydrobiopterin"] "C9H13N5O3" 239.233 +"6-Acetyl-Beta-D-Galactosides" "a 6-acetyl-β-D-galactoside" ["a 6-acetyl-β-D-galactoside", "6-acetyl-β-D-galactoside"] null null +"6-AMINOPENICILLANATE" "6-aminopenicillanate" ["6-Aminopenicillanic acid", "6-APA"] "C8H12N2O3S" 216.254 +"6-DEOXY-D-GLUCOSE" "6-deoxy-D-glucose" ["6-deoxyglucose"] "C6H12O5" 164.158 +"6-Deoxyhexoses" "a 6-deoxypyranose" ["a 6-deoxyhexose"] null null +"6-Dimethylallyladenosine37-tRNAs" "N6-(3-methylbut-2-en-1-yl)-adenosine37 in tRNA" ["2-methylthio-N-dimethylallyladenosine37 in tRNA", "tRNA-(2-methylthio-N-6-dimethylallyladenosine)", "N6-dimethylallyladenosine37 in tRNA"] null null +"6-Glc-Protopanaxatriol-ginsenosides" "a protopanaxatriol-type ginsenoside with a single glucosyl at position 6" [] null null +"6-Gly-Glc-Protopanaxatriol-ginsenosides" "a protopanaxatriol-type ginsenoside with two glycosyl residues at position 6" [] null null +"6-H-5-I-2-methylhexanoates" "a 6-hydroxy-5-isopropenyl-2-methylhexanoate" ["a 6-hydroxyisoprop(en)ylmethylhexanoate"] "C10H17O3" 185.242 +"6-Hydroxy-3-isopropenylheptanoates" "a 6-hydroxy-3-isopropenylheptanoate" [] "C10H17O3" 185.242 +"6-Hydroxy-37-dimethyloctanoate" "a 6-hydroxy-3,7-dimethyloctanoate" [] "C10H19O3" 187.258 +"6-Hydroxy-Purine-Nucleotides" "a 6-hydroxypurine nucleotide" [] "C10H13N4O8P" 348.208 +"6-hydroxysphingosines" "a (6R)-6-hydroxy-sphingosine ceramide" [] null null +"6-isopropenyl-3-methyloxepan-2-one" "a 6-isopropenyl-3-methyloxepan-2-one" ["a 6-isopropenyl-3-methyl-2oxo-oxepanon", "an isoprop(en)ylmethyloxepan-2-one"] "C10H16O2" 168.235 +"6-O-sulfate-cellulose" "6-O-sulfate cellulose" [] null null +"6-Phospho-b-D-galactosides" "a 6-phospho-β-D-galactoside" [] null null +"6-Phosphoglc-3-Phosphoglc-Amylopectins" "a 6-phosphogluco-3-phosphogluco-amylopectin" [] null null +"6-Phosphogluco-Amylopectins" "a 6-phosphogluco-amylopectin" [] null null +"6-Phosphogluco-Maltodextrins" "a 6-phosphogluco-maltodextrin" ["[Gln](n)Glc6-P"] null null +"6-PYRUVOYL-5678-TETRAHYDROPTERIN" "(6R)-6-pyruvoyl-5,6,7,8-tetrahydropterin" ["(6R)-6-pyruvoyl tetrahydropterin", "6-(1,2-dioxopropyl)-5,6,7,8-tetrahydropterin", "pyruvoyl-H4-pterin", "PPH4"] "C9H11N5O3" 237.218 +"6-SELENO-OCTANOATE" "6-seleno-octanoate" [] "C8H15O2Se" 222.165 +"6-SULFO-ALPHA-ETCETERA-ACYLGLYCEROL" "a 6-sulfo-α-D-glucosyl-1,6-α-D-glucosyl-1,6-α-D-glucosyl-1,3-1-O-alkyl-2-O-acylglycerol" [] null null +"6-Sulfo-sLex-Antigen" "a 6-sulfo-sialyl Lewis x epitope" ["an sLex antigen", "αNeuNAc-(2→3)-βGal-(1→4)-[αFuc-(1→3]-6-sulfo-βGlcNAc-[protein]", "a 6-sulfo sialyl Lewis x antigen"] null null +"6-THIO-OCTANOATE" "6-thio-octanoate" [] "C8H15O2S" 175.265 +"67-DIHYDROPTERIDINE" "a 6,7-dihydropteridine" [] null null +"6Methoxy5Methyl2Polyprenyl14Benzoquinol" "a 6-methoxy-3-methyl-2-all-trans-polyprenyl-1,4-benzoquinol" [] null null +"6R-6-FLUORO-EPSP" "(6R)-6-fluoro-5-enolpyruvoylshikimate 3-phosphate" ["(6R)-6-fluoro-EPSP"] "C11H11O9FP" 337.175 +"6S-6-FLUORO-EPSP" "(6S)-6-fluoro-5-enolpyruvoylshikimate 3-phosphate" ["(6S)-6-fluoro-EPSP"] "C11H11O9FP" 337.175 +"6S-Carveols" "a (6S)-carveol" [] "C10H16O" 152.236 +"7-8-Dihydroneopterins" "a 7,8-dihydroneopterin" ["a 2-amino-4-hydroxy-6-(1,2,3-trihydroxypropyl)-7,8-dihydropteridine"] "C9H13N5O4" null +"7-8-DIHYDROPTEROATE" "7,8-dihydropteroate" ["dihydropterate", "H2Pte", "dihydropteroate"] "C14H13N6O3" 313.295 +"7-AMINOMETHYL-7-DEAZAGUANINE" "preQ1" ["7-aminomethyl-7-deazaguanine", "7-aminomethyl-7-carbaguanine"] "C7H10N5O" 180.189 +"7-Beta-Hydroxysteroids" "a 7-β-hydroxysteroid" [] null null +"7-CYANO-7-DEAZAGUANINE" "preQ0" ["7-cyano-7-deazaguanine", "7-cyano-7-carbaguanine"] "C7H5N5O" 175.149 +"7-Deazapurine-Bases" "a 7-deazapurine base" [] null null +"7-Deazapurines" "a 7-deazapurine" [] "C6H5N3" 119.126 +"7-dihydroxy-bacteriochlorophyllide-c" "a 71,71-dihydroxybacteriochlorophyllide c" [] null null +"7-dihydroxy-bacteriochlorophyllide-d" "a 71,71-dihydroxybacteriochlorophyllide d" [] null null +"7-hydroxy-bacteriochlorophyllide-c" "a 71-hydroxybacteriochlorophyllide c" [] null null +"7-hydroxy-bacteriochlorophyllide-d" "a 71-hydroxybacteriochlorophyllide d" [] null null +"7-hydroxyisoflavones" "a 7-hydroxyisoflavone" ["a 7-hydroxyisoflavonoid"] null null +"7-isopropyl-4-methyloxepan-2-ones" "a 7-isopropyl-4-methyloxepan-2-one" ["a 7-isopropyl-4-methyl-2-oxo-oxepanon"] "C10H18O2" 170.251 +"7-methoxyisoflavones" "a 7-methoxyisoflavone" [] null null +"7-METHYLGUANOSINE-5-PHOSPHATE" "N7-methylguanosine 5'-phosphate" ["N7-methyl-guanosine-5'-phosphate", "N7-methyl-guanosine-phosphate", "N7-methyl-GMP", "7-methylguanosine-5'-phosphate"] "C11H15N5O8P" 376.242 +"7-Oxosteroids" "a 7-oxosteroid" [] null null +"78-Dihydropteridines" "a 7,8-dihydropteridine" [] null null +"8-AMINO-7-OXONONANOATE" "(8S)-8-amino-7-oxononanoate" ["7-keto-8-aminopelargonate", "KAPA", "7-KAP"] "C9H17NO3" 187.238 +"8-HYDROXYDEOXYGUANOSINE-5-TRIPHOSPHAT" "8-hydroxy-dGTP" ["8-hydroxydeoxyguanosine 5'-triphosphate"] "C10H12N5O14P3" 519.151 +"8-Hydroxyfurocoumarins" "an 8-hydroxyfurocoumarin" [] null null +"8-HYDROXYQUINOLINE" "8-hydroxyquinoline" ["oxyquinoline", "8-quinolinol"] "C9H7NO" 145.16 +"8-Methoxyfurocoumarins" "an 8-methoxyfurocoumarin" [] null null +"8-Methyldemethylmenaquinones" "a 2-demethyl-8-methylmenaquinone" [] null null +"8-Methylmenaquinones" "an 8-methylmenaquinone" [] null null +"8-SELENO-OCTANOATE" "8-seleno-octanoate" [] "C8H15O2Se" 222.165 +"8-THIO-OCTANOATE" "8-thio-octanoate" [] "C8H15O2S" 175.265 +"8FE-7S" "an [8Fe-7S] cluster" ["a Fe8S7 cluster", "a Fe8S7 center", "Fe8S7", "a Fe8S7 iron-sulfur center", "a Fe8S7 iron-sulfur cluster", "a [8Fe-7S] iron-sulfur center", "[8Fe-7S]", "P-cluster"] null null +"9-apo-Carotenones" "a 9-apo-carotenone" [] null null +"9-cis-Epoxycarotenoids" "a 9-cis-epoxycarotenoid" [] null null +"9-Methyl-sphing-4-8-dienine-ceramides" "a 9-methyl-(4E,8E)-sphinga-4,8-dienine ceramide" ["a 9-methyl-sphinga-4,8-dienine ceramide"] null null +"a-1-palmitoyl-2-acyl-phosphatidylethanol" "a 1-palmitoyl-2-acyl-phosphatidylethanolamine" ["phosphatidylethanolamine (1-palmitoyl, 2-acyl)", "1-hexadecanoyl-2-acyl-phosphatidylethanolamine", "1-palmitoyl-2-acyl-sn-glycero-3-phosphoethanolamine"] null null +"a-1-palmitoyl-2-acyl-phosphatidylglycero" "a 1-palmitoyl-2-acyl-phosphatidylglycerol" ["1-hexadecanoyl-2-acyl-phosphatidylglycerol", "1-palmitoyl-2-acyl-sn-glycero-3-phospho-(1'-sn-glycerol)"] null null +"a-1-palmitoyl-2-acyl-phosphatidylserine" "a 1-palmitoyl-2-acyl-phosphatidylserine" ["1-hexadecanoyl-2-acyl-phosphatidylserine", "phosphatidylserine (1-palmitoyl, 2-acyl)", "1-palmitoyl-2-acyl-3-sn-glycero-3-phosphoserine"] null null +"a-1iNisup2sup-ethenoguanine-in-DNA" "a 1,N2-ethenoguanine in DNA" ["εG", "epsilonG"] null null +"A-2-HYDROXYCARBONYL-COMPOUND" "a 2-hydroxycarbonyl compound" [] null null +"A-2-METHYLTHIOCYTOSINE32-IN-TRNA" "a 2-methylthiocytosine32 in tRNA" ["ms2C tRNA"] null null +"a-26-diamino-4-oxo-5-formamidopyrimidine" "a 2,6-diamino-4-oxo-5-formamidopyrimidine in DNA" ["FapyG in DNA"] null null +"A-antigen" "an A antigen" ["an A histo-blood group antigen", "a histo-blood group substance A", "an N-acetyl-α-D-galactosaminyl-(1,3)-[α-L-fucosyl-(1,2)]-β-D-galactosyl-R", "a [glycoprotein]-N-acetyl-α-D-galactosaminyl-(1,3)-[α-L-fucosyl-(1,2)]-D-galactose"] null null +"A-Clusters" "A-cluster" [] null 87.907 +"a-cyclic-polysaccharide" "a cyclic polysaccharide" [] null null +"A-DARA-HEX-2:5_2:KETO" "a-dara-HEX-2:5|2:keto" ["α-D-Fruf"] null null +"A-DARA-PEN-1:4" "a-dara-PEN-1:4" ["α-D-Araf"] null null +"A-DEEP-ROUGH-FORM-LIPOPOLYSACCHARIDE" "a deep rough form lipopolysaccharide" ["Re-LPS"] null null +"a-denuded-peptidoglycan" "a denuded peptidoglycan" ["[GlcNAc-(1 → 4)-MurNAc]n", "peptide-free peptidoglycan"] null null +"A-DGAL-HEX-1:4" "a-dgal-HEX-1:4" ["α-D-Galf"] null null +"A-DGAL-HEX-1:5" "a-dgal-HEX-1:5" ["α-D-Galp"] null null +"A-DGAL-HEX-1:5_6:A" "a-dgal-HEX-1:5|6:a" ["α-D-GalA"] null null +"A-DGLC-HEX-1:4_6:A" "a-dglc-HEX-1:4|6:a" [] null null +"A-DGLC-HEX-1:5" "a-dglc-HEX-1:5" ["α-D-Glcp"] null null +"A-DGLC-HEX-1:5_6:A" "a-dglc-HEX-1:5|6:a" ["α-D-GlcA"] null null +"A-DGLC-HEX-1:5_6:D" "a-dglc-HEX-1:5|6:d" ["α-D-Quip"] null null +"A-DGRO-DGAL-NON-2:6_1:A_2:KETO_3:D" "a-dgro-dgal-NON-2:6|1:a|2:keto|3:d" ["α-Kdn"] null null +"a-diazole" "a diazole" [] null null +"A-DIDO-HEX-1:5_6:A" "a-dido-HEX-1:5|6:a" ["α-D-IdoA"] null null +"A-DMAN-HEX-1:5" "a-dman-HEX-1:5" ["α-D-Manp"] null null +"A-DMAN-HEX-1:5_6:A" "a-dman-HEX-1:5|6:a" ["α-Man"] null null +"A-DMAN-HEX-1:5_6:D" "a-dman-HEX-1:5|6:d" ["α-D-Rhap"] null null +"A-DMAN-OCT-2:6_1:A_2:KETO_3:D" "a-dman-OCT-2:6|1:a|2:keto|3:d" ["α-Kdo"] null null +"a-DNA-3-alpha-beta-unsaturated-aldehyde" "a [DNA]-3'-α,β-unsaturated aldehyde" [] null null +"A-DXYL-PEN-1:5" "a-dxyl-PEN-1:5" ["α-D-Xylp"] null null +"a-fluoroquinolone-" "a fluoroquinolone" [] null null +"A-GALACTOSYLCERAMIDE" "a β-D-galactosyl-N-acylsphingosine" ["a galactosylceramide"] null null +"a-galctotetrose" "a galactotetraose" [] null null +"A-GLUCOSYLOXYANTHRAQUINONE" "a glucosyloxyanthraquinone" ["glucosyloxyanthraquinone"] "C20H18O8" 386.357 +"A-GLYCEROL-ESTER" "a glycerol ester" [] null null +"A-HEP-1:5" "a-HEP-1:5" [] null null +"a-hepta-acylated-core-oligosaccharide-li" "a hepta-acylated core oligosaccharide lipid A (E. coli K-12 type)" ["hepta-acylated lipopolysaccharide", "palmitoylated lipopolysaccharide"] "C178H312N2O90P4" 4044.277 +"a-hepta-acylated-lipopolysaccharide" "a hepta-acylated lipopolysaccharide" [] null null +"A-HEX-1:5" "a-HEX-1:5" [] null null +"A-HEX-1:5_6:A" "a-HEX-1:5|6:a" ["α-D-HexA"] null null +"A-L-GLYCOL" "an L-glycol" [] null null +"A-LARA-PEN-1:4" "a-lara-PEN-1:4" ["α-L-Araf"] null null +"A-LGAL-HEX-1:5" "a-lgal-HEX-1:5" ["α-L-Galp"] null null +"A-LGAL-HEX-1:5_6:D" "a-lgal-HEX-1:5|6:d" ["α-L-Fucp"] null null +"A-LIDO-HEX-1:5_6:A" "a-lido-HEX-1:5|6:a" ["α-L-IdoA"] null null +"A-LIPID-HYDROPEROXIDE" "a hydroperoxy-fatty-acyl-[lipid]" [] null null +"A-LMAN-HEX-1:5_6:D" "a-lman-HEX-1:5|6:d" ["α-L-Rhap"] null null +"A-LXYL-PEN-1:5" "a-lxyl-PEN-1:5" ["α-L-Xylp"] null null +"a-lyso-cardiolipin" "a lyso-cardiolipin" ["lyso-CL"] null null +"a-mature-triacylated-lipoprotein" "an N-acyl-(S-diacyl-sn-glyceryl)-L-cysteinyl-[lipoprotein]" [] null null +"a-natural-antibiotic" "a natural antibiotic" [] null null +"A-PHTHALYLAMIDE" "a phthalylamide" ["a phthalyl (N substituted) amide"] null null +"A-Series-Gangliosides" "an a-series ganglioside" [] null null +"a-single-stranded-DNA-YedK-thiazolidine-" "a single stranded DNA-YedK thiazolidine linkage" ["DNA-YedK cross-link"] null null +"a-synthetic-antibiotic" "a synthetic antibiotic" [] null null +"a-thymine-glycol-in-DNA" "a thymine glycol in DNA" [] null null +"a-thymine-in-DNA" "a thymine in DNA" [] null null +"A-XGAL-HEX-1:5_6:A" "a-xgal-HEX-1:5|6:a" [] null null +"A-XGLC-HEX-1:5" "a-xglc-HEX-1:5" ["α-Glc"] null null +"a-YedK-protein-L-cysteine" "an N-terminal L-cysteinyl-[YedK-protein]" [] null null +"Abscisic-Acid" "abscisic acid" [] null null +"Abscisic-Acid-Conjugate" "an abscisic acid conjugate" [] null null +"Abscisic-Acid-Derivative" "an abscisic acid derivative" [] null null +"Accep-Xyloglucan-With-Xyloglucanyl-Segs" "an acceptor xyloglucan with xyloglucanyl segment" [] null null +"Acceptor" "an oxidized unknown electron carrier" ["A", "an oxidized unknown electron donor", "an oxidized unknown electron acceptor"] null null +"Acceptor-Xyloglucans" "an acceptor xyloglucan" [] null null +"Acceptors" "an acceptor" [] null null +"ACET" "acetate" ["acetic acid", "ethanoic acid"] "C2H3O2" 59.044 +"ACETALD" "acetaldehyde" ["acetic aldehyde", "ethanal", "aldehyde", "ethyl aldehyde"] "C2H4O" 44.053 +"ACETAMIDE" "acetamide" [] "C2H5NO" 59.068 +"Acetan" "acetan" [] null null +"Acetate-esters" "an acetyl ester" ["an acetate ester", "an acetic ester"] null null +"ACETOACETYL-COA" "acetoacetyl-CoA" ["3-acetoacetyl-CoA", "acetoacetyl-S-CoA"] "C25H36N7O18P3S" 847.577 +"ACETOIN" "acetoin" ["acetylmethylcarbinol", "3-hydroxy-2-butanone", "dimethylketol", "3-hydroxybutan-2-one"] "C4H8O2" 88.106 +"ACETOL" "hydroxyacetone" ["1-hydroxy-2-propanone", "acetol", "acetylmethanol", "1-hydroxyacetone"] "C3H6O2" 74.079 +"Acetyl-Acceptors" "an acetyl acceptor" [] null null +"ACETYL-COA" "acetyl-CoA" ["acetyl coenzyme-A", "ac-CoA", "acetylcoenzyme-A", "acetyl-S-CoA", "ac-S-CoA"] "C23H34N7O17P3S" 805.54 +"ACETYL-D-GLUCOSAMINYLDIPHOSPHO-UNDECAPRE" "N-acetyl-α-D-glucosaminyl-diphospho-ditrans,octacis-undecaprenol" ["prenyl-P-P-GlcNAc", "C55-PP-GlcNAc", "GlcNAc-PP-lipid", "GlcNAc-pyrophosphorylundecaprenol", "N-acetyl-glucosaminyl-pyrophosphorylundecaprenol", "undecaprenyl diphospho N-acetyl-glucosamine", "undecaprenyl-N-acetyl-D-glucosaminyl-pyrophosphate", "N-acetyl-D-glucosaminyldiphospho-undecaprenol", "ditrans,polycis-undecaprenyl-N-acetyl-D-glucosaminyl diphosphate", "undecaprenyl-N-acetyl-α-D-glucosaminyl-pyrophosphate", "ECA-lipid I", "GlcNAc-PP-Und"] "C63H103NO12P2" 1128.454 +"ACETYL-GLU" "N-acetyl-L-glutamate" ["N-acetyl-L-glutamic acid", "acetyl-L-glu", "acetyl-L-glutamate", "NAG"] "C7H9NO5" 187.152 +"ACETYL-GLUCOSAMINYL-ETCETERA-MANNOSYL-R" "N-acetyl-β-D-glucosaminyl-1,2-α-D-mannosyl-1,6-(N-acetyl-β-D-glucosaminyl-1,2-α-D-mannosyl-1,3)-β-D-mannosyl-[glycoprotein]" ["N-acetyl-β-D-glucosaminyl-1,2-α-D-mannosyl-1,6-(N-acetyl-β-D-glucosaminyl-1,2-α-D-mannosyl-1,3)-β-D-mannosyl-R"] null null +"Acetyl-methanofurans" "an acetyl-methanofuran" [] null null +"ACETYL-P" "acetyl phosphate" ["acetyl-P"] "C2H3O5P" 138.016 +"Acetylated-Acetyl-Acceptors" "an acetylated acetyl acceptor donor" ["an acetylated acetyl acceptor"] null null +"Acetylated-Alginate" "acetylated alginate" ["acetylated alginic acid", "bacterial alginate"] null null +"Acetylated-Amino-Acids" "an acetylated amino acid" [] null null +"Acetylated-S18-N-terminal-L-alanine" "an N-terminal N-acetyl-L-alanyl-[S18 protein of 30S ribosome]" [] null null +"Acetylated-S5-N-terminal-L-alanine" "an N-terminal N-acetyl-L-alanyl-[S5 protein of 30S ribosome]" [] null null +"ACETYLMALTOSE" "1-O-acetyl-α-maltose" [] "C14H24O12" 384.336 +"ACETYLMURAMYL-ALANYL-ISOGLUTAMINE" "N-acetylmuramyl-L-alanyl-D-isoglutamine" ["acetylmuramyl-alanyl-iso-glutamine", "muramyl dipeptide"] "C19H32N4O11" 492.482 +"ACETYLNEURAMINYL-23-BETA-D-GALACTOSYL-ET" "a ganglioside LM1" ["a αNeuAc-(2→3)-βGal-(1→4)-βGlucNAc-(1→3)-βGal-(1→4)-βGlc-ceramide", "a α-N-acetylneuraminyl-(2→3)-β-D-galactosyl-(1→4)-N-acetyl-β-D-glucosaminyl-(1→3)-β-D-galactosyl-(1→4)-β-D-glucosyl-(1HARR:1)-ceramide", "a sialosylparagloboside (ambiguous)", "IV3Neu5Ac-nLc4Cer", "a sialosylneolactotetraosylceramide"] null null +"ACETYLSERINE" "O-acetyl-L-serine" ["O3-acetyl-L-serine", "acetylserine", "O-acetylserine", "(2S)-3-acetyloxy-2-aminopropanoate"] "C5H9NO4" 147.13 +"Acetylxylan" "acetylxylan" [] null null +"Acharan" "acharan sulfate" [] null null +"Acharan-L-iduronate" "an [acharan]-α-L-iduronate" [] null null +"Aci-Nitro-Compounds" "an aci-nitro compound" [] null null +"Acids" "an acid" ["a carboxylate", "a carboxylic anion", "acid", "RCOOH"] null null +"ACP-GROUP" "[acyl-carrier protein]-group" ["[acp]-group"] null null +"ACRYLYL-COA" "acryloyl-CoA" ["acrylyl-coenzyme A", "propenoyl-CoA", "acrylyl-CoA"] "C24H34N7O17P3S" 817.551 +"ACTINOMYCIN" "an actinomycin" [] null null +"Acyclonucleoside-Analogues" "an acyclonucleoside analogue" [] null null +"ACYL-COA" "an acyl-CoA" ["fatty acyl thioester-CoA", "an acyl-CoA", "RCH2CH2CO-CoA", "acyl-Coenzyme A"] null null +"Acyl-Group" "an acyl group" [] null null +"Acyl-homoserine-lactones" "an N-acyl-L-homoserine lactone" [] null null +"Acyl-homoserines" "an N-acyl-L-homoserine" [] null null +"Acyl-L-Lysines" "an N6-acyl-L-lysine" [] null null +"Acyl-Phosphates" "an acyl phosphate" ["acyl phosphate"] null null +"Acyl-protein-synthetase" "a [LuxE]-L-cysteine" [] null null +"Acyl-protein-thioesters" "an acyl-protein thioester" [] null null +"ACYL-SN-GLYCEROL-3P" "a 1-acyl-sn-glycerol 3-phosphate" ["a 2-lysophosphatidate", "an acyl-sn-glycerol-3P", "an acyl-sn-glycerol-3 phosphate"] null null +"ACYL1-6GALBETA1-3ACYL2GRO" "an acylmono-β-D-galactosyldiacylglycerol" ["an acyl1-monogalactosyl-diacylglycerol", "an acyl1->6Galβ1->3acyl2Gro"] null null +"Acylated-Amino-Acid-Lipids" "an N-acylated amino acid lipid" [] null null +"Acylated-Dihydro-Lipoyl-Proteins-Lysine" "an acylated [lipoyl-carrier protein] N6-dihydrolipoyl-L-lysine" ["an acylated [enzyme] N6-(dihydrolipoyl)lysine"] null null +"ACYLCHLORIDE" "an acylchloride" [] null null +"Acylcholines" "an acylcholine" [] null null +"ACYLDOLICHOL" "an acyldolichol" [] null null +"Acylglycerone-phosphate" "an acylglycerone phosphate" [] null null +"ACYLSUGAR" "an acylsugar" [] null null +"ADENINE" "adenine" ["6-aminopurine", "A"] "C5H5N5" 135.128 +"Adenine-34-in-tRNAs" "an adenine34 in tRNA" [] null null +"Adenine-37-tRNA-Alas" "an adenine37 in tRNAala" [] null null +"Adenine-Cytokinin-Glucosides" "an adenine-type cytokinin glucoside" [] null null +"Adenine-Cytokinins" "an adenine-type cytokinin" [] null null +"Adenine-In-Double-Stranded-RNAs" "an adenine in double-stranded RNA" [] null null +"Adenine-Nucleotides" "an adenine nucleotide" [] null null +"ADENINE-RING" "adenine-ring" [] "C5H5N5" 135.128 +"Adenine57-Adenine58-tRNAs" "an adenine57/adenine58 in tRNA" [] null null +"ADENOSINE" "adenosine" ["adenine-D-ribose"] "C10H13N5O4" 267.244 +"Adenosine-Nucleotides" "an adenosine nucleotide" [] null null +"ADENOSINE5TRIPHOSPHO5ADENOSINE" "P1,P3-bis(5'-adenosyl) triphosphate" ["bis(5'-adenosyl) triphosphate", "adenosine 5'-(tetrahydrogen triphosphate), P''-5'-ester with adenosine", "Ap3A", "adenosine(5')triphospho(5')adenosine", "5',5'''-diadenosine triphosphate"] "C20H24N10O16P3" 753.388 +"ADENOSINE_DIPHOSPHATE_RIBOSE" "ADP-D-ribose" ["adenosine diphosphate D-ribose", "adenosine 5'-(5-deoxy-D-ribofuranos-5-yl diphosphate)"] "C15H21N5O14P2" 557.303 +"ADENOSYL-HOMO-CYS" "S-adenosyl-L-homocysteine" ["S-adenosyl-L-homocysteine", "SAH", "S-adenosylhomocysteine", "2-S-adenosyl-L-homocysteine", "AdoHcy", "2-S-adenosyl-L-homocysteine", "S-adenosyl-homocysteine", "S-adenosylhomocysteine", "adenosyl-homo-cys", "adenosylhomocysteine", "adenosylhomo-cys"] "C14H20N6O5S" 384.409 +"ADENOSYL-P4" "P1,P4-bis(5'-adenosyl) tetraphosphate" ["Ap4A", "AppppA", "P(1),P(4)-bis(5'-adenosyl)tetraphosphate", "bis(5'-adenosyl) tetraphosphate", "5',5'''-diadenosine tetraphosphate"] "C20H24N10O19P4" 832.36 +"ADENOSYLCOBALAMIN" "adenosylcobalamin" ["coenzyme B12", "cobamide coenzyme", "deoxyadenosylcobalamin", "cobamamide", "vitamin B12", "cobamamid", "5,6-dimethylbenzimidazolyl-5-deoxyadenosyl-cobamide", "(5'-deoxy-5'-adenosyl)cobamide coenzyme", "(5,6-dimethylbenzimidazolyl)cobamide coenzyme", "5'-deoxy-5'-adenosylcobalamin", "5'-deoxyadenosyl vitamin B12", "5'-deoxyadenosyl-5,6-dimethylbenzimidazolylcobamide", "5'-deoxyadenosylcobalamin", "5,6-dimethylbenzimidazolyl-Co-5'-deoxyadenosylcobamide", "calomide", "cobalamin coenzyme", "dibencozide", "funacomide", "adenosylcob(III)alamin"] "C72H100N18O17PCo" 1579.596 +"ADENOSYLCOBALAMIN-5-P" "adenosylcobalamin 5'-phosphate" [] "C72H99N18O20P2Co" 1657.56 +"Adenosylcobamide" "an adenosylcobamide" [] null null +"ADENOSYLCOBINAMIDE" "adenosylcobinamide" ["AdoCbi"] "C58H84N16O11Co" 1240.332 +"ADENOSYLCOBINAMIDE-GDP" "adenosylcobinamide-GDP" ["Adenosine-GDP-cobinamide"] "C68H95N21O21P2Co" 1663.504 +"ADENOSYLCOBINAMIDE-P" "adenosyl-cobinamide phosphate" ["adenosylcobinamide-P"] "C58H83N16O14PCo" 1318.296 +"ADENYLOSUCC" "adenylo-succinate" ["N6-(1,2-dicarboxyethyl)-AMP", "adenylo-succ"] "C14H14N5O11P" 459.265 +"ADIPATE" "adipate" ["adipic acid", "hexanedioic acid"] "C6H8O4" 144.127 +"ADP" "ADP" ["adenosine pyrophosphate", "adenosine 5'-pyrophosphate", "adenosine-5'-diphosphate", "adenosine-diphosphate", "adenosine-5-diphosphate"] "C10H12N5O10P2" 424.18 +"ADP-Aldoses" "an ADP-aldose" [] null null +"ADP-D-GLUCOSE" "ADP-α-D-glucose" ["adenosine diphosphate glucose", "ADP-glucose", "ADP-D-glucose"] "C16H23N5O15P2" 587.33 +"ADP-D-GLYCERO-D-MANNO-HEPTOSE" "ADP-D-glycero-β-D-manno-heptose" ["2-[[[5-[(6-amino-9H-purin-9-yl)]-3,4-dihydroxy-tetrahydrofuran- 2-yl]methoxy-hydroxy-phosphinoyl]oxy-hydroxy-phosphinoyl]oxy-6- (1,2-dihydroxyethyl)tetrahydropyran-3,4,5-triol", "ADP-D-β-D-heptose"] "C17H25N5O16P2" 617.356 +"ADP-D-Ribosyl-Acceptors" "an ADP-D-ribosyl acceptor" [] null null +"ADP-D-ribosyl-nitrogen-reductases" "a [dinitrogen reductase]-Nω-α-( ADP-D-ribosyl)-L-arginine" [] null null +"ADP-GROUP" "ADP group" [] "C10H13N5O10P2" 425.188 +"ADP-L-GLYCERO-D-MANNO-HEPTOSE" "ADP-L-glycero-β-D-manno-heptose" ["2-[[[5-[(6-amino-9H-purin-9-yl)]-3,4-dihydroxy-tetrahydrofuran-2-yl]methoxy-hydroxy-phosphinoyl]oxy-hydroxy-phosphinoyl]oxy-6-(1,2-dihydroxyethyl)tetrahydropyran-3,4,5-triol", "ADP-L-glycero-D-manno-heptose"] "C17H25N5O16P2" 617.356 +"ADP-MANNOSE" "ADP-mannose" [] "C16H23N5O15P2" 587.33 +"ADP-RIBOSE-P-OR-NOP" "an ADP-ribose" [] null null +"ADP-SUGARS" "an ADP-sugar" ["an ADP-sugar"] null null +"Aerobacter-Polysaccharides" "capsular polysaccharide (Aerobacter aerogenes)" ["{Gal-α(1→3)-[GlcA-β(1→2)]-Man-α(1→3)-Gal}n"] null null +"AG+" "Ag+" ["silver(I)", "AgI"] "Ag" 107.87 +"Agarans" "an agaran" [] null null +"Agaro-oligosaccharides" "an agaro-oligosaccharide" [] null null +"Agaroses" "an agarose" [] null null +"Aggrecan" "aggrecan" ["chondroitin sulfate proteoglycan 1"] null null +"Aggrecan-Cleavage-products" "an aggrecan cleavage product" [] null null +"AGMATHINE" "agmatine" [] "C5H16N4" 132.208 +"agmatinylcytidine34-tRNA-Ile2" "an agmatinylcytidine34 in tRNAIle2" [] null null +"AICAR" "5-amino-1-(5-phospho-D-ribosyl)imidazole-4-carboxamide" ["Z-nucleotide", "AICA ribonucleotide", "5'-phosphoribosyl-5-amino-4-imidazole carboxamide", "5-amino-4-imidazolecarboxamide ribotide", "5'-P-ribosyl-5-amino-4-imidazole carboxamide", "aminoimidazole carboxamide ribonucleotide"] "C9H13N4O8P" 336.197 +"ALA-GLY" "L-alanyl-glycine" ["Ala-Gly"] "C5H10N2O3" 146.146 +"ALBENDAZOLE-S-OXIDE" "albendazole S-oxide" [] "C12H15N3O3S" 281.329 +"Alcohols" "an alcohol" ["an alcohol", "alcohol", "ROH"] null null +"Aldehydes" "an aldehyde" ["aldehyde", "RCHO"] null null +"Aldehydes-Or-Ketones" "an aldehyde or ketone" ["aldehyde or ketone"] null null +"Alditol-Derivatives" "an alditol derivative" ["a sugar alcohol derivative"] null null +"Alditol-phosphates" "an alditol phosphate" [] null null +"Aldodioses" "an aldodiose" [] null null +"Aldohexoses" "an aldohexose" [] null null +"Aldonic-Acids" "an aldonate" ["an aldonic acid"] null null +"Aldonolactones" "an aldonolactone" [] null null +"Aldopentoses" "an aldopentose" [] null null +"Aldopyranoses" "an aldopyranose" ["a pyranose"] "C6H12O6" 180.157 +"Aldose-Phosphates" "an aldose phosphate" [] null null +"Aldoses" "an aldose" ["an aldose"] null null +"Aldotetraoses" "an aldotetraose" [] null null +"Aldotrioses" "an aldotriose" [] null null +"Aldoxime" "an aldoxime" [] null null +"ALGINATE" "alginate" ["(alginate)n", "alginic acid", "algin"] null null +"Aliphatic-aldehydes-or-ketones" "an aliphatic aldehyde or ketone" [] null null +"Aliphatic-Aldoximes" "an aliphatic aldoxime" [] null null +"Aliphatic-Alpha-Omega-Diamines" "an aliphatic α,ω-diamine" ["aliphatic α,ω-diamine", "an α,ω-diamine", "α,ω-diamine"] null null +"Aliphatic-Amides" "an aliphatic amide" ["an aliphatic amide"] null null +"Aliphatic-Amines" "an aliphatic amine" ["RCH2NH2", "RCH(2)NH(2)"] null null +"Aliphatic-Diamines" "an aliphatic diamine" ["aliphatic diamine"] null null +"Aliphatic-L-Amino-Acids" "an aliphatic L-amino acid" [] null null +"Aliphatic-N-Acetyl-Diamines" null ["an aliphatic N-acetyl-diamine", "aliphatic N-acetyl-diamine", "an N-acetyl-diamine", "N-acetyl-diamine"] null null +"Aliphatic-Nitriles" "an aliphatic nitrile" [] null null +"Aliphatic-Omega-Amino-Aldehydes" null ["an aliphatic ω-aminoaldehyde", "aliphatic ω-aminoaldehyde", "an ω-aminoaldehyde", "ω-aminoaldehyde"] null null +"Aliphatic-R-hydroxynitriles" "an aliphatic (R)-hydroxynitrile" [] null null +"Aliphatic-S-hydroxynitriles" "an aliphatic (S)-hydroxynitrile" [] null null +"Aliphatic-Sulfonates" "an aliphatic sulfonate" [] null null +"Alk-2-enals" "an alk-2-enal" ["a 2-alkenal"] null null +"Alkali-Metal-Cations" "an alkali metal cation" [] null null +"Alkaline-Earth-Cations" "an alkaline earth metal cation" [] null null +"ALKALOID" "an alkaloid" [] null null +"Alkanes" "an alkane" ["a paraffin"] null null +"Alkanesulfonates" "an alkylsulfonate" ["alkanesulfonate", "an alkanesulfonate"] null null +"Alkenes" "an alkene" [] null null +"Alkenyl-Thiohydroximate-O-Sulfates" "a thiohydroximate-O-sulfate with a terminal alkene" ["an alkenyl-thiohydroximate-O-sulfate"] null null +"Alkyl-acetyl-glycero-phosphocholines" "a 2-acetyl-1-alkyl-sn-glycero-3-phosphocholine" ["PAF", "platelet-activating factor", "a 1-alkyl-2-acetyl-sn-glycero-3-phosphocholine"] null null +"Alkyl-acyl-gly-P-EtOH-amines" "an 2-acyl-O-1-alkyl-sn-glycero-3-phosphoethanolamine" ["a 2-acyl-1-alkyl-sn-glycero-3-phosphoethanolamine"] null null +"Alkyl-enyl-acyl-gly-P-EtOH-amines" "a plasmenylethanolamine" ["a 1-Z-alkenyl-2-acylglycerophosphoethanolamine", "an O-1-Z-alk-1-enyl-2-acyl-sn-glycero-3-phosphoethanolamine"] null null +"Alkyl-Hydro-Peroxides" "an organic hydroperoxide" ["ROOH", "an alkylhydroperoxide"] null null +"Alkyl-Sulfenates" "an S-alkylsulfenate" ["an alkyl sulfenate", "a sulfenic acid", "a sulfenate"] null null +"Alkyl-Sulfinates" "an S-alkylsulfinate" ["an alkyl sulfinate", "a sulfinic acid", "a sulfinate"] null null +"Alkyl-Thiols" "an alkyl-thiol" [] null null +"Alkylamines" "an alkylamine" [] null null +"Alkylated-Bases" "an alkylated nucleobase" ["an alkylated nucleotide base"] null null +"Alkylphosphonates" "an alkylphosphonate" ["an alkylphosphate", "alkylphosphonate", "alkanephosphonate"] null null +"All-Amines" "an amine" [] null null +"All-Amino-Acids" "an amino acid or its derivative" [] null null +"All-Biopterines" "a biopterin" ["a 2-amino-4-hydroxy-6-(1,2-dihydroxypropyl)-pteridine"] "C9H11N5O3" null +"All-Carbohydrates" "all carbohydrates" [] null null +"All-Carboxy-Acids" "all carboxy acids" [] null null +"All-Coas" "a coenzyme A-activated compound" ["a CoA derivative", "a CoA-activated compound"] null null +"All-Folates" "all folates" [] null null +"All-Glutathiones" "glutathione and derivatives" [] null null +"All-Nucleosides" "a nucleic acid component" [] null null +"All-trans-3-hydroxyretinal" "all-trans-3-hydroxyretinal" ["3-hydroxy-all-trans-retinal"] "C20H28O2" 300.44 +"All-trans-3-hydroxyretinol" "all-trans-3-hydroxyretinol" ["3-hydroxy-all-trans-retinol"] "C20H30O2" 302.456 +"ALL-TRANS-HEPTAPRENYL-DIPHOSPHATE" "all-trans-heptaprenyl diphosphate" [] "C35H57O7P2" 651.779 +"ALL-TRANS-HEXAPRENYL-DIPHOSPHATE" "all-trans-hexaprenyl diphosphate" ["hexaprenyl-diphosphate"] "C30H49O7P2" 583.66 +"ALL-TRANS-PENTAPRENYL-DIPHOSPHATE" "geranylfarnesyl diphosphate" ["geranylfarnesyl-PP", "geranylfarnesyl-diphosphate", "all-trans-pentaprenyl diphosphate", "2,6,10,14-trans-pentaprenyl diphosphate", "(2E,6E,10E,14E)-geranylfarnesyl diphosphate", "all-trans-geranylfarnesyl diphosphate"] "C25H41O7P2" 515.542 +"All-trans-Retinyl-Esters" "an all-trans-retinyl ester" [] null null +"ALLANTOATE" "allantoate" ["allantoic acid"] "C4H7N4O4" 175.124 +"ALLANTOIN" "allantoin" [] "C4H6N4O3" 158.116 +"ALLO-THR" "DL-allothreonine" ["allothreonine", "allo-thr"] "C4H9NO3" 119.12 +"ALLOLACTOSE" "allolactose" ["β-D-galactopyranosyl-(1→6)-D-glucopyranose"] "C12H22O11" 342.299 +"ALLOSE" "D-allose" [] "C6H12O6" 180.157 +"Alpha-1-2-Branched-Arabinans" "an α(1,5)-L-arabinan with α(1,2) branching" [] null null +"Alpha-1-3-Branched-Arabinans" "an α(1,5)-L-arabinan with α(1,3) branching" [] null null +"Alpha-3-branched-alpha-16-glucans" "a (1→6)-α-glucan containing a (1→3)-α-D-glucan branch" [] null null +"Alpha-3-glucosyl-alpha-16-glucans" "a (1→6)-α-glucan containing a (1→3)-α-D-glucose branch" [] null null +"Alpha-6-alpha-14-glucans" "a (1,6)-α-D-glucosyl-(1,4)-α-glucan" [] null null +"Alpha-6-branched-alpha-14-glucans" "a (1,4)-α-glucan containing a (1→6)-α-D-glucan branch" [] null null +"Alpha-Acetylgalactosaminides" "an N-acetyl-α-D-galactosaminide" [] null null +"ALPHA-ACIDS" "an α bitter acid" [] null null +"Alpha-Amino-Acids" "an α amino acid" [] null null +"Alpha-Amyloses" "α-amylose" ["an α-amylose"] null null +"Alpha-beta-dihydroxyphytoceramides" "an α,β dihydroxyphytoceramide" [] null null +"alpha-Carrageenan" "α-carrageenose" ["α-carrageenan"] null null +"Alpha-D-aldose-1-phosphates" "an α-D-aldose 1-phosphate" ["a β-L-aldose 1-phosphate"] null null +"ALPHA-D-GALACTOSE" "α-D-galactopyranose" ["6-(hydroxymethyl)tetrahydropyran-2,3,4,5-tetraol", "α-D-galactose"] "C6H12O6" 180.157 +"Alpha-D-Galactosides" "an α-D-galactoside" [] null null +"ALPHA-D-GALACTOSYL-ETCETERA-GLUCOSAMINYL" "an α-D-galactosyl-(1,3)-β-D-galactosyl-(1,4)-N-acetyl-D-glucosaminyl-R" ["an α-D-galactosyl-(1,3)-β-D-galactosyl-(1,4)-N-acetyl-D-glucosaminyl-[glycoprotein]"] null null +"Alpha-D-Glucans" "an α-D-glucan" [] null null +"ALPHA-D-GLUCOSYL-ETCETERA-ACYLGLYCEROL" "an α-D-glucosyl-1,6-α-D-glucosyl-1,6-α-D-glucosyl-1,3-1-O-alkyl-2-O-acylglycerol" [] null null +"Alpha-D-Glucuronides" "an α-D-glucuronoside" ["an α-D-glucosiduronate"] null null +"alpha-D-Man-13-beta-D-Man-R" "an α-D-Man-(1→3)-β-D-Man-R" [] null null +"Alpha-D-Mannosides" "an α-D-mannoside" [] null null +"ALPHA-D-MANNOSYL-3-PHOSPHOGLYCERATE" "2-O-(α-D-mannosyl)-3-phospho-D-glycerate" ["mannosyl-3-phospho-D-glycerate"] "C9H14O12P" 345.176 +"ALPHA-D-MANNOSYLCHITOBIO" "β-D-Man-(1→4)-β-D-GlcNAc-(1→4)-α-D-GlcNAc-diphosphodolichol" ["a β-1,4-D-mannosylchitobiosyldiphosphodolichol", "a {β-D-mannosyl-(1->4)-N-acetyl-β-D-glucosaminyl-(1->4)-N-acetyl-D-glucosaminyl}diphosphodolichol", "an α-D-mannosylchitobiosyldiphosphodolichol", "α-D-mannosylchitobiosyldiphosphodolichol", "β-D-mannosyl-(1→4)-N,N'-diacetylchitobiosyldiphosphodolichol", "β-1,4-D-mannosylchitobiosyldiphosphodolichol", "a mannosyl-(N-acetylglucosaminyl)2-diphosphodolichol", "β-D-mannosyl-(1->4)-N-acetyl-β-D-glucosaminyl-(1->4)-N-acetyl-α-D-glucosaminyl-diphosphodolichol"] "C102H168N2O22P2" 1836.397 +"Alpha-factor" "an α factor" ["Saccharomyces cerevisiae mating pheromon α factor"] null null +"ALPHA-GLC-6-P" "α-D-glucose 6-phosphate" ["α-glucose 6-phosphate", "α-D-glucose-6-P"] "C6H11O9P" 258.121 +"ALPHA-GLUCOSE" "α-D-glucopyranose" ["α-glucose", "α-D-glucose"] "C6H12O6" 180.157 +"ALPHA-GLUCOSE-16-BISPHOSPHATE" "α-glucose 1,6-bisphosphate" ["α-D-glucose 1,6-P2", "α-D-glucopyranose 1,6-bisphosphate"] "C6H10O12P2" 336.085 +"Alpha-Glycosylated-Hydroxymethyl-DNAs" "α-glucosyl-hydroxymethylcytosine in DNA" ["a DNA containing α-glucosyl-hydroxymethylcytosine"] null null +"Alpha-Hexose-1-Phosphates" "an α-hexose 1-phosphate" [] "C6H11O9P" 258.121 +"Alpha-hydroxydihydroceramides" "a (2'R)-2'-hydroxydihydroceramide" ["a plant ceramide (II)", "an α hydroxydihydroceramide"] null null +"Alpha-hydroxynitriles" "an α-hydroxynitrile" [] null null +"Alpha-hydroxyphytoceramides" "a (2'R)-2'-hydroxy-phytoceramide" ["an α hydroxyphytoceramide"] null null +"Alpha-L-Arabinosides" "an α-L-arabinoside" [] null null +"Alpha-L-Rhamnosides" "an α L-rhamnoside" ["6-deoxy-α-L-mannopyranoside"] null null +"Alpha-lactose" "α-lactose" ["β-D-galactopyranosyl-(1→4)-α-D-glucopyranose", "α-D-lactose", "β-D-Gal-(1→4)-α-D-Glc"] "C12H22O11" 342.299 +"Alpha-linolenoyl-groups" "a [glycerolipid]-α-linolenate" ["a [glycerolipid]-(9,12,15)-linolenic acid", "a [glycerolipid]-(9,12,15)-linolenate", "a [glycerolipid]-(9Z,12Z,15Z)-octadeca-9,12,15-trienoate", "a [glycerolipid]-9Z,12Z,15Z-octadecatrienoic acid"] null null +"ALPHA-METHYLMETHIONINE" "α-methylmethionine" ["2-methylmethionine"] "C6H13NO2S" 163.234 +"ALPHA-N-ACETYLNEURAMINYL-23-BETA-ETCETER" "an N-acetyl-α-neuraminyl-(2→3)-β-D-galactosyl-(1→4)-N-acetyl-β-D-glucosaminyl-R" ["an N-acetyl-α-neuraminyl-2,3-β-D-galactosyl-1,4-N-acetyl-D-glucosaminyl-glycoprotein"] null null +"ALPHA-N-ACETYLNEURAMINYL-23-ETCETERA" "an N-acetyl-α-neuraminyl-(2→3)-β-D-galactosyl-R" ["an N-acetyl-α-neuraminyl-2,3-β-D-galactosyl-R"] null null +"ALPHA-N-ACETYLNEURAMINYL-ETCETERA" "an N-acetyl-α-neuraminyl-(2->3)-β-D-galactosyl-(1->3)-N-acetyl-α-D-galactosaminyl-R" [] null null +"alpha-N-Peptidyl-LGlutamate" "a [protein] C-terminal L-glutamate" ["a [protein] with C-terminal α-L-glutamate"] null null +"Alpha-NAD-P" "α-NAD(P)+" ["α-NAD(P)", "α-NAD(P)+", "α-NAD(P)+"] null null +"Alpha-NAD-P-H" "α-NAD(P)H" [] null null +"ALPHA-NAPHTHYL-ACETATE" "α-naphthyl acetate" [] "C12H10O2" 186.21 +"Alpha-omega-dicarboxylates" "an α,ω-dicarboxylate" ["an α ω dicarboxylic acid"] null null +"Alpha-pinene" "an α-pinene" [] "C10H16" 136.236 +"ALPHA-RIBAZOLE" "α-ribazole" ["N1-(α-D-ribosyl)-5,6-dimethylbenzimidazole"] "C14H18N2O4" 278.307 +"ALPHA-RIBAZOLE-5-P" "α-ribazole 5'-phosphate" ["N1-(5'-phospho-α-D-ribosyl)-5,6-dimethylbenzimidazole", "DMB-ribose-5'-P", "α-ribazole-5'-P"] "C14H17N2O7P" 356.271 +"ALPHA_ACETYLGLUCOSAMINIDES" "an N-acetyl-α-D-glucosaminide" ["a α-acetylglucosaminide"] null null +"Alternans" "an alternan" [] null null +"ALTROSE" "aldehydo-D-altrose" [] "C6H12O6" 180.157 +"Amides" "an amide" [] null null +"Aminated-Amine-Donors" "an aminated amino group donor" ["an aminated amino group acceptor"] null null +"Amine-Donors" "an amino group acceptor" ["an amino group donor"] null null +"AMINO-ACETONE" "aminoacetone" [] "C3H8NO" 74.102 +"Amino-acid-adenylates" "an adenylated amino acid" ["an amino acid adenylate"] null null +"Amino-Acid-Derivatives" "an amino acid derivative" [] null null +"Amino-Acids" "an amino acid" [] null null +"Amino-Acids-20" "a proteinogenic amino acid" ["a proteinogenic amino acid", "a protein-building amino acid", "a standard α amino acid"] null null +"Amino-alcohols" "an amino alcohol" [] null null +"AMINO-GROUP" "an amino group" [] "CH3N" 29.041 +"AMINO-HYDROXYMETHYL-METHYL-PYR-P" "4-amino-2-methyl-5-(phosphooxymethyl)pyrimidine" ["4-amino-5-phosphomethyl-2-methylpyrimidine", "4-amino-5-hydroxymethyl-2-methylpyrimidine-phosphate"] "C6H8N3O4P" 217.121 +"AMINO-HYDROXYMETHYL-METHYLPYRIMIDINE-PP" "4-amino-2-methyl-5-(diphosphooxymethyl)pyrimidine" ["4-amino-2-methyl-5-(diphosphooxymethyl)pyrimidine", "4-amino-5-hydroxymethyl-2-methylpyrimidine-PP"] "C6H8N3O7P2" 296.093 +"AMINO-OH-HYDROXYMETHYL-DIHYDROPTERIDINE" "6-(hydroxymethyl)-7,8-dihydropterin" ["2-amino-6-(hydroxymethyl)-7,8-dihydropteridin-4(3H)-one", "2-amino-6-(hydroxymethyl)-7,8-dihydropteridin-4-one"] "C7H9N5O2" 195.18 +"AMINO-OXOBUT" "L-2-amino-3-oxobutanoate" ["3-oxothreonine", "3-keto-L-threonine", "L-2-amino-acetoacetate", "L-2-amino-3-ketobutyrate", "L-2-amino-3-oxobutyrate", "α-amino-β-ketobutyrate"] "C4H7NO3" 117.104 +"AMINO-RIBOSYLAMINO-1H-3H-PYR-DIONE" "5-amino-6-(D-ribitylamino)uracil" ["6-(1-D-ribitylamino)-5-amino-2,4-dihydroxypyrimidine", "5-amino-6-ribitylamino-2,4(1H,3H)-pyrimidinedione", "6-(1-D-ribitylamino)-5-aminouracil", "5-amino-6-(1-D-ribitylamino)pyrimidine-2,4(1H,3H)-dione"] "C9H16N4O6" 276.249 +"Amino-Sugars" "an amino sugar" [] null null +"AMINOACYL-PHOSPHATIDYLGLYCEROL" "a 3-aminoacyl-phosphatidylglycerol" [] null null +"Aminoalkylphosphinates" "an aminoalkylphosphinate" [] null null +"Aminoalkylphosphonates" "an (aminoalkyl)phosphonate" [] null null +"Aminoglycoside-Antibiotics" "an aminoglycoside antibiotic" [] null null +"Aminoglycosides" "an aminoglycoside" [] null null +"AMINOMALONATE" "aminomalonate" ["aminomalonic acid"] "C3H4NO4" 118.069 +"AMINOMETHYLDIHYDROLIPOYL-GCVH" "a [glycine-cleavage complex H protein] N6-aminomethyldihydrolipoyl-L-lysine" [] null null +"AMMONIA" "ammonia" ["NH3"] "H3N" 17.03 +"AMMONIUM" "ammonium" ["NH4+"] "H4N" 18.038 +"AMP" "AMP" ["5'-AMP", "adenosine-monophosphate", "adenylic acid", "adenosine 5'-phosphate", "adenosine 5'-monophosphate", "adenylate", "5'-adenylic acid", "5'-adenosine monophosphate"] "C10H12N5O7P" 345.208 +"AMP-GROUP" "AMP group" ["adenosine 5'-phosphate group"] "C10H13N5O7P" 346.216 +"AMP-LYSINE" "AMP-N-ε-(N-α-acetyl lysine methyl ester) 5-phosphoramidate" [] "C19H29N7O9P" 530.453 +"an-antimicrobial-agent" "an antimicrobial agent" [] null null +"an-iNisup1sup-methylguanine-in-DNA" "an N1-methylguanine in DNA" [] null null +"an-iNisup3sup-ethylcytosine-in-DNA" "an N3-ethylcytosine in DNA" [] null null +"an-iNisup3sup-methylthymine-in-DNA" "an N3-methylthymine in DNA" [] null null +"an-Nsup1sup-methyladenine-in-DNA" "an N1-methyladenine in DNA" [] null null +"an-Nsup3sup-methylcytosine-in-DNA" "an N3-methylcytosine in DNA" [] null null +"Anacardic-Acid" "anacardate" ["anacardic acid"] null null +"Analogs-of-Meso-Diaminopimaleates" "an analog of meso-diaminopimaleate" [] null null +"Androgens" "an androgen" [] null null +"ANDROSTAN-3-ALPHA17-BETA-DIOL" "androstan-3α,17β-diol" ["10,13-dimethyl-2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17- hexadecahydro-1H-cyclopenta[a]phenanthrene-3,17-diol"] "C19H32O2" 292.461 +"aNeuAc-23-bGal-13-bGlcNAC-R" "an N-acetyl-α-neuraminyl-(2→3)-β-D-galactosyl-(1→3)-N-acetyl-β-D-glucosaminyl-R" ["α-N-acetylneuraminyl-(2->3)-β-D-galactosyl-(1->3)-N-acetyl-D-glucosaminyl-R", "an α-N-acetylneuraminyl-2,3-β-D-galactosyl-1,3-N-acetyl-D-glucosaminyl-[glycoprotein]"] null null +"Angiotensins" "an angiotensin" [] null null +"Angucyclins" "an angucyclin" [] null null +"ANILIDE" "an anilide" [] null null +"Anions" "an anion" [] null null +"Ansamycins" "an ansamycin" [] null null +"Ansatrienins" "an ansatrienin" ["a mycotrienin"] null null +"Anteiso-fatty-acids" "an antiso-fatty acid" [] null null +"Anthocyanidin-3-O-beta-D-glucosides" "an anthocyanidin-3-O-β-D-glucoside" ["an anthocyanin 3'-O-β-D glucoside", "an anthocyanidin-3-O-D-glucoside"] null null +"Anthocyanidin-5-O-beta-D-glucosides" "an anthocyanidin-5-O-β-D-glucoside" ["an anthocyanidin-5-O-D-glucoside"] null null +"Anthocyanidin-malonyl-beta-D-glucosides" "an anthocyanidin-3-O-(6-O-malonyl-β-D-glucoside)" [] null null +"Anthocyanidins" "an anthocyanidin" [] null null +"Anthocyanins" "an anthocyanin" ["an anthocyanidin glycoside"] null null +"Anthracenes" "an anthracene" [] null null +"Anthracyclines" "an anthracycline" [] null null +"ANTHRANILATE" "anthranilate" ["anthranilic acid", "2-aminobenzoic acid", "vitamin L1", "o-aminobenzoic acid", "2-aminobenzoate", "o-aminobenzoate"] "C7H6NO2" 136.13 +"anthraniloyl-PqsD" "a [PqsD protein]-S-anthraniloyl-L-cysteine" [] null null +"Anthraquinones" "an anthraquinone derivative" [] "C14H8O2" 208.216 +"Antibiotics" "an antibiotic" [] null null +"Antigen-ALey" "an A (Lewis y) histo-blood group epitope" ["a blood group ALey antigen"] null null +"Antigen-BLey" "a B (Lewis y) histo-blood group epitope" ["a BLey histo-blood group antigen"] null null +"Antigen-Leb" "a Lewis b epitope" ["an Leb antigen", "a Lewis b antigen", "a histo-blood group Lewis b antigen"] null null +"Antigen-Ley" "a Lewis y epitope" ["a histo-blood group Ley antigen", "AH6 antigen"] null null +"ANTIMONITE" "antimonite" [] "O3Sb" 169.758 +"Apiogalacturonans" "an apiogalacturonan" [] null null +"Apo-Base-off-His-on-Enzymes" "an apo-[\"base-off/His-on\" B12-enzyme]" [] null null +"Apo-GcvH" "Apo-GcvH" [] null null +"Apocarotenoids" "an apocarotenoid" [] null null +"APS" "adenosine 5'-phosphosulfate" ["adenylyl-sulfate", "adenosine phosphosulfate", "adenosine 5'-sulphatophosphate"] "C10H12N5O10PS" 425.266 +"Arabinans" "an arabinan" [] null null +"Arabinofuranoses" "an arabinofuranose" [] "C5H10O5" 150.131 +"Arabinogalactan" "an arabinogalactan" [] null null +"Arabinoglucuronoxylans" "an arabinoglucuronoxylan" ["AGX"] null null +"Arabinopyranoses" "an arabinopyranose" [] "C5H10O5" 150.131 +"ARABINOSE" "α-L-arabinopyranose" ["α-L-arabinose", "arabinose"] "C5H10O5" 150.131 +"ARABINOSE-5P" "aldehydo-D-arabinose 5-phosphate" ["aldehydo-D-arabinose-5P", "aldehydo-arabinose-5P"] "C5H9O8P" 228.095 +"Arabinose-5P" "D-arabinose 5-phosphate" [] null null +"Arabinoses" "arabinose" [] null null +"Arabinosides" "an arabinoside" [] null null +"Arabinoxylan" "an arabinoxylan" ["AX"] null null +"Aralkylamines" "an aralkylamine" ["an aniline", "ArCH2NH2"] null null +"ARG" "L-arginine" ["2-amino-5-guanidinovaleric acid", "R", "arginine", "L-arg"] "C6H15N4O2" 175.21 +"Aromatic-Acid" "an aromatic carboxylate" ["an aromatic acid"] null null +"Aromatic-amino-acid-esters" "an ester of aromatic amino acids" [] null null +"Aromatic-Amino-Acids" "an aromatic amino acid" [] null null +"Aromatic-D-Amino-Acids" "an aromatic D-amino acid" [] null null +"Aromatic-Ethers" "an aromatic ether" [] null null +"Aromatic-L-Amino-Acids" "an aromatic L-amino acid" [] null null +"Aromatic-Nitriles" "an aromatic nitrile" [] null null +"Aromatic-Oxoacids" "an aromatic 2-oxo-acid" [] null null +"Aromatic-Polymers" "an aromatic polymer" [] null null +"Aromatic-Primary-Alcohols" "an aromatic primary alcohol" [] null null +"Aromatic-R-hydroxynitriles" "an aromatic (R)-hydroxynitrile" [] null null +"Aromatic-S-hydroxynitriles" "an aromatic (S)-hydroxynitrile" [] null null +"Aromatics" "an aromatic compound" [] null null +"ArsC-S-As-OH" "S-arsorososulfanethiol-[arsenate reductase]" [] null null +"ARSENATE" "arsenate" ["inorganic arsenate", "orthoarsenate", "AsO43-"] "HO4As" 139.927 +"Arsenate-Reductase-Cysteines" "an [arsenate reductase]-L-cysteine" [] null null +"Aryl-Alcohols" "an aryl alcohol" ["an aromatic alcohol"] null null +"Aryl-Aldehyde" "an aromatic aldehyde" ["an aryl aldehyde"] null null +"Aryl-Amines" "an arylamine" ["an aniline"] null null +"Aryl-beta-D-Glucosides" "an aryl β-D-glucoside" [] null null +"Aryl-Carrier-Protein-Group" "[aryl-carrier protein] group" [] null null +"Aryl-Dialkyl-Phosphate" "an aryl dialkyl phosphate" [] null null +"Aryl-Glucosides" "an aryl glucoside" [] null null +"Aryl-sulfates" "an aryl sulfate" ["an aromatic sulfate", "a phenol sulfate"] null null +"Arylalkylamines" "an arylalkylamine" [] null null +"AS+5" "As5+" ["arsenic ion"] "H8As" 82.985 +"ASCORBATE" "L-ascorbate" ["L-ascorbic acid", "vitamin C"] "C6H7O6" 175.118 +"ASN" "L-asparagine" ["asparagine", "α-aminosuccinamic acid", "(-)-asparagine", "(S)-2,4-diamino-4-oxobutanoic acid", "(S)-asparagine", "2,4-diamino-4-oxobutanoic acid, (S)-", "2-aminosuccinamic acid, L-", "agedoite", "altheine", "asparagine acid", "aspartic acid β-amide", "butanoic acid, 2,4-diamino-4-oxo-, (S)-", "L-2,4-diamino-4-oxobutanoic acid", "L-asparatamine", "L-β-asparagine", "N", "L-asn"] "C4H8N2O3" 132.119 +"ASOLECTIN" "asolectin" [] null null +"Aspergilus-galactomannan-core" "a galactofuranosemannan core (Aspergillus)" [] null null +"Asperlicins" "an asperlicin" [] null null +"ATABRINE" "atabrine" ["quinacrine mustard", "mepacrine", "chinacrin", "atebrin", "acrichine", "quinacrine"] "C23H32N3OCl" 401.978 +"ATP" "ATP" ["adenylpyrophosphate", "adenosine-triphosphate", "adenosine-5'-triphosphate"] "C10H12N5O13P3" 503.152 +"ATROPINE" "atropine" ["hyoscyamine"] "C17H24NO3" 290.381 +"Aurachins" "an aurachin" [] null null +"AURONE" "an aurone" [] null null +"Auxin-conjugates" "an auxin-conjugate" [] null null +"Auxins" "an auxin" [] null null +"Avermectins" "an avermectin" [] null null +"Azasugars" "an azasugar" [] null null +"Azoles" "an azole" [] null null +"B-ALANINE" "β-alanine" ["3-azaniumylpropanoate", "3-ammoniopropanoate"] "C3H7NO2" 89.094 +"B-antigen" "a B antigen" ["a histo-blood group substance B", "an α-D-galactosyl-(1->3)-[α-L-fucosyl(1->2)]-β-D-galactosyl-R", "a B histo-blood group antigen"] null null +"B-D-Gal-14-B-D-NAcGln-Glglycopeptides" "β-D-galactosyl-(1→3)-[β-D-galactosyl-(1→4)-N-acetyl-β-D-glucosaminyl-(1→6)]-N-acetyl-α-D-galactosaminyl-R" [] null null +"b-D-mannosyl-R" "a β-D-mannosyl-[glycoprotein]" ["a [glycoprotein]-D-mannose", "β-D-mannosyl-R"] null null +"B-DARA-HEX-2:5_2:KETO" "b-dara-HEX-2:5|2:keto" ["β-D-Fruf"] null null +"B-DGAL-HEX-1:4" "b-dgal-HEX-1:4" ["β-D-Galf"] null null +"B-DGAL-HEX-1:5" "b-dgal-HEX-1:5" ["β-D-Galp"] null null +"B-DGAL-HEX-1:5_6:A" "b-dgal-HEX-1:5|6:a" ["β-D-GalA"] null null +"B-DGLC-HEX-1:5" "b-dglc-HEX-1:5" ["β-D-Glcp"] null null +"B-DGLC-HEX-1:5_6:A" "b-dglc-HEX-1:5|6:a" ["β-D-GlcA"] null null +"B-DGLC-HEX-1:5_6:D" "b-dglc-HEX-1:5|6:d" ["β-Quip"] null null +"B-DGRO-DGAL-NON-2:6_1:A_2:KETO_3:D" "b-dgro-dgal-NON-2:6|1:a|2:keto|3:d" ["β-Kdn"] null null +"B-DIDO-HEX-1:5_6:A" "b-dido-HEX-1:5|6:a" ["β-D-IdoA"] null null +"B-DMAN-HEX-1:5" "b-dman-HEX-1:5" ["β-D-Manp"] null null +"B-DMAN-HEX-1:5_6:A" "b-dman-HEX-1:5|6:a" ["β-D-ManA"] null null +"B-DMAN-HEX-1:5_6:D" "b-dman-HEX-1:5|6:d" [] null null +"B-DMAN-OCT-2:6_1:A_2:KETO_3:D" "b-dman-OCT-2:6|1:a|2:keto|3:d" ["β-Kdo"] null null +"B-DXYL-PEN-1:5" "b-dxyl-PEN-1:5" ["β-D-Xylp"] null null +"B-Gal-14-NacGlc-R" "a type 2 histo-blood group antigen precursor disaccharide" ["an N-acetyllactosaminyl-R", "a β-D-galactosyl-(1,4)-N-acetyl-β-D-glucosaminyl-R", "a β-D-galactosyl-(1→4)-N-acetyl-β-D-glucosaminyl-R"] null null +"B-HEP-1:5" "b-HEP-1:5" [] null null +"B-HEX-1:5" "b-HEX-1:5" [] null null +"B-HEX-1:5_6:A" "b-HEX-1:5|6:a" ["β-D-HexA"] null null +"B-LARA-PEN-1:4" "b-lara-PEN-1:4" ["β-L-Araf"] null null +"B-LGAL-HEX-1:5" "b-lgal-HEX-1:5" ["β-L-Galp"] null null +"B-LGAL-HEX-1:5_6:D" "b-lgal-HEX-1:5|6:d" ["β-L-Fucp"] null null +"B-LMAN-HEX-1:5_6:D" "b-lman-HEX-1:5|6:d" ["β-L-Rhap"] null null +"B-PEN-1:5" "b-PEN-1:5" [] null null +"B-vitamins" "a B vitamin" [] null null +"B-XGLC-HEX-1:5_6:A" "b-xglc-HEX-1:5|6:a" ["β-Glc"] null null +"B-XXYL-PEN-1:5" "b-xxyl-PEN-1:5" ["β-Xyl"] null null +"B12-Corrinoid-Adenosyltranferase" "adenosylcob(III)alamin-[corrinoid adenosyltranferase]" [] null null +"BA+2" "Ba2+" ["Ba++", "barium(II)", "BaII"] "Ba" 137.34 +"BACIMETHRIN" "bacimethrin" ["2-methoxy-4-amino-5-hydroxymethylpyrimidine", "4-amino-2-methoxy-5-pyrimidinemethanol", "4-amino-5-hydroxymethyl-2-methoxypyrimidine", "bacimethrine", "5-pyrimidinemethanol, 4-amino-2-methoxy-"] "C6H9N3O2" 155.156 +"bacitracin" "bacitracin" [] null null +"Bacterial-Endotoxins" "a bacterial endotoxin" ["a bacterial endotoxin", "bacterial endotoxin"] null null +"Bacteriochlorins" "a bacteriochlorin" [] "C20H18N4" 314.389 +"Bacteriochlorophyll-a" "a bacteriochlorophyll a" [] null null +"Bacteriochlorophyll-f" "a bacteriochlorophyll f" [] null null +"Bacteriochlorophyllide-d" "a bacteriochlorophyllide d" [] null null +"Bacteriochlorophyllide-f" "a bacteriochlorophyllide f" [] null null +"Bases" "a nucleobase" ["a nucleotide base", "a nitrogenous base"] null null +"Basic-Amino-Acids" "a basic amino acid" [] null null +"BCAA-dehydrogenase-2MB-DH-lipoyl" "an [apo BCAA dehydrogenase E2 protein] N6-S-[2-methylbutanoyl]dihydrolipoyl-L-lysine" [] null null +"BCAA-dehydrogenase-2MP-DH-lipoyl" "an [apo BCAA dehydrogenase E2 protein] N6-S-[2-methylpropanoyl]dihydrolipoyl-L-lysine" ["[enzyme] N6-(S-[2-methylpropanoyl]dihydrolipoyl)lysine"] null null +"BCAA-dehydrogenase-3MB-DH-lipoyl" "a [apo BCAA dehydrogenase E2 protein] N6-S-[3-methylbutanoyl]dihydrolipoyl-L-lysine" [] null null +"BCAA-dehydrogenase-DH-lipoyl" "an [apo BCAA dehydrogenase E2 protein] N6-dihydrolipoyl-L-lysine" ["an [enzyme] N6-(dihydrolipoyl)lysine"] null null +"BCAA-dehydrogenase-lipoyl" "an [apo BCAA dehydrogenase E2 protein] N6-lipoyl-L-lysine" ["an [enzyme] N6-(lipoyl)lysine"] null null +"BCCP-biotin-L-lysine" "a [biotin carboxyl-carrier protein]-N6-biotinyl-L-lysine" ["a [BCCP monomer]-biotin-N6-L-lysine"] null null +"BCCP-L-lysine" "a [biotin carboxyl-carrier protein]-L-lysine" ["a [BCCP]-L-lysine"] null null +"BENZALDEHYDE" "benzaldehyde" ["benzanoaldehyde"] "C7H6O" 106.124 +"BENZENE" "benzene" ["benzol", "benzole"] "C6H6" 78.113 +"Benzenediols" "a benzenediol" [] null null +"BENZOATE" "benzoate" ["benzoic acid", "benzenecarboxylic acid", "phenylformic acid"] "C7H5O2" 121.115 +"Benzoates" "a benzoate" [] null null +"Benzoin" "benzoin" ["2-hydroxy-1,2-diphenylethanone"] "C14H12O2" 212.248 +"Benzopteridines" "a benzopteridine" [] null null +"Benzopyrans" "a benzopyran" [] null null +"Benzosemiquinones" "a benzosemiquinone" [] null null +"Benzoxazinoids" "a benzoxazinoid" [] null null +"BENZOYLCOA" "benzoyl-CoA" ["S-benzoate coenzyme A", "benzoyl-S-CoA"] "C28H36N7O17P3S" 867.61 +"BENZYL-ALCOHOL" "benzyl alcohol" ["α-hydroxytoluene", "benzenemethanol", "phenylmethanol", "phenylcarbinol", "hydroxymethylbenzene"] "C7H8O" 108.14 +"Benzylacylouridines" "a benzylacyclouridine" [] null null +"BERBERINE" "berberine" ["umbellatine"] "C20H18NO4" 336.366 +"beta-1-3-Galactans" "a (1→3)-β-D-galactan" ["(1,3-β-D-galactosyl)n", "a (1→3)-β-D-galactopyranan"] null null +"beta-1-4-Galactan" "a (1→4)-β-D-galactan" ["(1,4-β-D-galactosyl)n", "a (1→4)-β-D-galactopyranan"] null null +"beta-1-6-Galactan" "a (1→6)-β-D-galactan" ["(1,6-β-D-galactosyl)n", "a (1→6)-β-D-galactopyranan"] null null +"beta-Acetylgalactosaminides" "an N-acetyl-β-D-galactosaminide" [] null null +"BETA-ACETYLGLUCOSAMINIDE" "an N-acetyl-β-D-glucosaminyl-R" ["an N-acetyl-β-D-glucosaminide"] null null +"BETA-ACIDS" "a β bitter acid" ["a 2-acyl-4,6,6-trisprenylphloroglucinol"] null null +"Beta-amino-acids" "a β amino acid" [] null null +"beta-Carrageenan" "β-carrageenose" ["β-carrageenan"] null null +"Beta-D-Fructofuranosides" "a β-D-fructofuranoside" [] null null +"BETA-D-FRUCTOSE" "β-D-fructofuranose" ["β-D-fructofuranose", "β-D-fructose", "β-fruit sugar", "β-Levulose", "β-D-arabino-Hexulose"] "C6H12O6" 180.157 +"Beta-D-fucosides" "a β-D fucoside" [] null null +"BETA-D-GAL-1-3-D-GLCNAC" "β-D-galactopyranosyl-(1->3)-N-acetyl-D-glucosamine" ["lacto-N-biose", "β-D-Gal-1-3-D-GlcNAc"] "C14H25NO11" 383.352 +"Beta-D-Galactosides" "a β-D-galactoside" ["a β-D-galactoside", "β-D-galactoside"] null null +"BETA-D-GALACTOSYL-R" "a β-D-galactosyl-R" [] null null +"Beta-D-glucan-w-C-3-substitution" "a β-D-glucan with a C3-substituted glucose" [] null null +"Beta-D-Glucans" "a β-D glucan" [] null null +"Beta-D-glucosides" "a β-D glucoside" [] null null +"Beta-D-Glucuronides" "a β-D-glucuronoside" ["a β-D-glucuronoside", "an acceptor β-D-glucuronoside", "a glucuronide", "a β-D-glucosiduronate"] null null +"Beta-D-Mannosides" "a β-D-mannoside" [] null null +"BETA-D-XYLOSE" "β-D-xylopyranose" ["β-D-xylose"] "C5H10O5" 150.131 +"beta-Gal-13-alpha-GalNac-R" "a type 3 histo-blood group antigen precursor disaccharide" ["β-D-galactosyl-(1->3)-N-acetyl-α-D-galactosaminyl-R", "β-D-galactosyl-(1,3)-N-acetyl-α-D-galactosamine-R", "βGal-(1→3)-αGalNac-R", "T-Antigen"] null null +"beta-Gal-13-beta-Gal-R" "a type 5 histo-blood group antigen precursor disaccharide" ["β-D-galactosyl-(1,3)-β-D-galactosyl-R", "βGal-(1→3)-βGal-R"] null null +"beta-Gal-13-beta-GalNac-R" "a type 4 histo-blood group antigen precursor disaccharide" ["β-D-galactosyl-(1,3)-N-acetyl-β-D-galactosamine-R", "βGal-(1→3)-βGalNac-R"] null null +"beta-Gal-13-beta-GlcNac-R" "a type 1 histo-blood group antigen precursor disaccharide" ["β-D-galactosyl-(1,3)-N-acetyl-β-D-glucosamine-R", "βGal-(1→3)-βGlcNac-R", "β-D-galactosyl-(1→3)-N-acetyl-β-D-glucosaminyl-R"] null null +"beta-Gal-14-beta-Glc-R" "a type 6 histo-blood group antigen precursor disaccharide" ["β-D-galactosyl-1,4-β-D-glucosyl-R", "β-D-galactosyl-(1,4)-β-D-glucosyl-R", "βGal-(1→4)-βGlc-R"] null null +"Beta-Galactofuranosides" "a β-D-galactofuranoside" [] null null +"Beta-Glucoside-6-P" "a β-glucoside 6-phosphate" [] null null +"BETA-GLUCOSIDES" "a β-glucoside" [] null null +"Beta-Glycosylated-Hydroxymethylated-DNAs" "β-glucosyl-hydroxymethylcytosine in DNA" ["a DNA containing β-glucosyl-hydroxymethylcytosine"] null null +"Beta-L-arabinosides" "an oligosaccharide with β-L-arabinopyranose at the non-reducing end" ["a β-L-arabinoside"] null null +"Beta-L-Rhamnosides" "a β L-rhamnoside" ["6-deoxy-β-L-mannopyranoside"] null null +"Beta-Lactams" "a β-lactam" [] null null +"Beta-lactones" "a β-lactone" [] null null +"Beta-phellandrene" "β-phellandrene" ["β-phellandrene"] "C10H16" 136.236 +"BETAINE" "glycine betaine" ["oxyneurine", "lycine", "acidin-pepsin", "betaine", "trimethylammonioacetate", "N,N,N-trimethylglycine"] "C5H11NO2" 117.147 +"BETAINE-ALDEHYDE-HYDRATE" "betaine aldehyde hydrate" [] "C5H14NO2" 120.171 +"BETAINE_ALDEHYDE" "betaine aldehyde" ["glycine betaine aldehyde", "N,N,N-trimethyl-2-oxoethylammonium"] "C5H12NO" 102.156 +"BH4NA" "sodium tetrahydridoborate" ["sodium borohydride"] "Na(BH4)" 37.834 +"Bile-acids" "a bile acid" [] null null +"Bile-Alcohols" "a bile alcohol" [] null null +"Bilins" "a bilin" ["a bilane", "a bile pigment"] null null +"Binuclear-Copper-Centers" "a binuclear copper center" ["Cu-Cu active site"] null 87.907 +"BIO-5-AMP" "biotinyl-5'-adenylate" ["biotinyl-5'-AMP"] "C20H27N7O9PS" 572.509 +"BIOPTERIN" "a 7,8-dihydrobiopterin" ["q-BH2", "dihydrobiopterin", "P-quinonoid-dihydrobiopterin", "7,8-di-H-biopterin", "L-erythro-dihydrobiopterin", "a 2-amino-4-hydroxy-6-(1,2-dihydroxypropyl)-7,8-dihydropteridine"] "C9H13N5O3" 239.233 +"BIOTIN" "biotin" ["vitamin H", "coenzyme R", "D-biotin", "vitamin B7"] "C10H15N2O3S" 243.3 +"Biotin-EC6-4-1-4" "a [methylcrotonoyl-CoA carboxylase]-biotin-N6-L-lysine" [] null null +"biotin-L-lysine-in-BCCP-dimers" "a [biotin carboxyl-carrier-protein dimer]-N6-biotinyl-L-lysine" ["a [BCCP dimer]-N6-biotinyl-L-lysine"] null null +"BIS-P-NITROPHENOLPHOSPHATE" "bis(p-nitrophenyl) phosphate" ["BNPP", "di-p-nitrophenyl phosphate", "bis(4-nitrophenyl) phosphate"] "C12H8N2O8P" 339.178 +"Bisdiphospho-myo-inositol-polyphosphates" "a bis(diphospho)-1D-myo-inositol tetrakisphosphate" ["1D-myo-inositol bisdiphosphate"] null null +"BISGLYCEROPHOSPHOGLYCEROL" "bis(glycerophosphoglycerol)" [] "C9H20O13P2" 398.197 +"BISOHMYR-GLC" "lipid A disaccharide (E. coli)" ["2,3-bis-(3-hydroxytetradecanoyl)-β-D-glucosaminyl-(β-D-1,6)-2,3-bis-(3-hydroxytetradecanoyl)-α-D-glucosaminyl-1-phosphate", "2,3-bis(3-hydroxymyristoyl)-β-D-glucosaminyl-1,6-β-D-2,3-bis(3-hydroxymyristoyl)-α-D-glucosaminyl 1-phosphate", "2'-3'-diacyl-GlcN(β-1'-6)2,3-diacyl-GlcN-1-P", "2,3,2',3'-tetrakis(3-hydroxymyristoyl)-D-glucosaminyl-1,6-α-D-glucosamine 1-phosphate", "2,3-bis(3-hydroxytetradecanoyl)-D-glucosaminyl-1,6-β-D-2,3-bis(3-hydroxytetradecanoyl)-α-D-glucosaminyl 1-phosphate", "[2-N,3-O-bis(3-hydroxytetradecanoyl)-β-D-glucosaminyl]-(1 -> 6)-[2-N,3-O-bis(3-hydroxytetradecanoyl)-α-D-glucosaminyl phosphate]", "tetraacyldisaccharide-1-phosphate"] "C68H127N2O20P" 1323.726 +"BISOHMYR-GLUCOSAMINYL-1P" "lipid X (E. coli)" ["2,3-bis(3-hydroxytetradecanoyl)-α-D-glucosaminyl 1-phosphate", "2,3-bis(β-hydroxymyristoyl)-α-D-glucosaminyl 1-phosphate", "2,3-bis[(3R)-3-hydroxymyristoyl]-α-D-glucosaminyl 1-phosphate", "2,3-bis(3-hydroxymyristoyl)-α-D-glucosaminyl 1-phosphate"] "C34H64NO12P" 709.853 +"BITTER-ACIDS" "a bitter acid" ["a prenylated acylphloroglucinol"] null null +"Bleomycins" "a bleomycin" [] null null +"Blood-Group-Antigen-Precursor" "a histo-blood group antigen precursor disaccharide" [] null null +"blood-group-substances" "a histo-blood group antigen" [] null null +"Bmp1-dibromopyrrole-2-carboxylate" "a 4,5-dibromo-1H-pyrrole-2-carbonyl-[Bmp1 prolyl-carrier protein]" [] null null +"Bmp1-L-proline" "an L-prolyl-[Bmp1 prolyl-carrier protein]" [] null null +"Bmp1-monobromopyrrole-2-carboxylate" "a 5-bromo-1H-pyrrole-2-carbonyl-[Bmp1 prolyl-carrier protein]" [] null null +"Bmp1-pyrrole-2-carboxylate" "a 1H-pyrrole-2-carbonyl-[Bmp1 prolyl-carrier protein]" [] null null +"Bmp1-tribromopyrrole-2-carboxylate" "a 3,4,5-tribromo-1H-pyrrole-2-carbonyl-[Bmp1 prolyl-carrier protein]" [] null null +"BORATE" "borate" [] "H3O3B" 61.834 +"BOROHYDRIDE" "borohydride" [] "H4B" 14.844 +"BR-" "bromide" ["Br-", "bromide ion"] "Br" 79.904 +"Branched-Alkanes" "a branched alkane" [] null null +"Branched-alpha-1-6-mannans" "mannan (S. cerevisiae )" ["a fungal cell wall mannan"] null null +"Branched-alpha-D-glucans" "a branched α-D-glucan" [] null null +"Branched-Amino-Acids" "a branched-chain amino acid" ["BCAA"] null null +"Branched-chain-fatty-acids" "a branched-chain fatty acid" [] null null +"Branched-L-arabinans" "an α(1,5)-L-arabinan with α(1,2) and α(1,3) branching" [] null null +"Branched-truncated-alpha-1-6-mannans" "a branched α-(1,6)-D-mannan with truncated side chain" [] null null +"Branched-Unphos-Amylopectin-Tails" "an exposed unphosphorylated, (α-1,6)-branched malto-oligosaccharide tail on amylopectin" [] null null +"Brassicasteryl-Esters" "a brassicasteryl ester" ["a brassicasteryl ester", "a brassicasteryl 3-O-ester"] null null +"Brassinolide-Sulfates" "a brassinolide sulfate" ["BL sulfate"] null null +"Brassinosteroids" "a brassinosteroid" [] null null +"BRIJ97" "Brij 97" ["Brij 96", "polyoxyethylene (10) oleoyl ether"] "C38H76O11" null +"Bromide" "an organobromine compound" ["RBr"] null null +"BROMOACETATE" "bromoacetate" [] "C2H2O2Br" 137.941 +"Bromoaromtic-Compounds" "a bromoaromatic compound" [] null null +"Buffers" "a buffer" [] null null +"Bulgecins" "a bulgecin" [] "C15H26N2O11S" 442.437 +"BUTANAL" "1-butanal" ["butanal", "butyraldehyde", "n-butyraldehyde", "butan-1-al"] "C4H8O" 72.107 +"BUTANEDIOL" "(R,R)-2,3-butanediol" ["D(-)-2,3-butanediol", "2,3-butylene glycol", "2,3-butanediol", "butanediol", "(R,R)-butane-2,3-diol", "(R,R)-2,3-butylene glycol"] "C4H10O2" 90.122 +"BUTANOL" "butan-1-ol" ["n-butyl alcohol", "n-butanol", "butanol", "1-hydroxybutane", "1-butanol"] "C4H10O" 74.122 +"BUTHIONINE-SULFOXIMINE" "buthionine sulfoximine" ["S-butyl-DL-homocysteine (S,R)-sulfoximine", "2-amino-4-(S-butylsulfonimidoyl)butanoate"] "C8H18N2O3S" 222.302 +"Butirosins" "a butirosin" [] "C21H45N5O12" 559.613 +"BUTYL-HYDROPEROXIDE" "tert-butyl hydroperoxide" ["t-butyl hydroperoxide", "tertiary butyl hydroperoxide"] "C4H10O2" 90.122 +"BUTYLAMINE" "n-butylamine" ["butylamine", "1-butylamine", "butanamine", "1-butanamine"] "C4H12N" 74.145 +"BUTYRIC_ACID" "butanoate" ["butyrate", "butyric acid", "butanoic acid", "ethylacetic acid", "n-butanoate", "1-propanecarboxylic acid", "propylformic acid"] "C4H7O2" 87.098 +"BUTYRYL-COA" "butanoyl-CoA" ["butyryl-CoA", "butyryl-coenzyme A"] "C25H38N7O17P3S" 833.593 +"C-Clusters" "C-cluster" [] null 87.907 +"C-DI-GMP" "cyclic di-3',5'-guanylate" ["cyclic di-3',5'-GMP", "c-di-guanylate", "cyclic bis(3' -> 5') dimeric GMP"] "C20H22N10O14P2" 688.4 +"C-Methylated-Amino-Acids" "a C-methylated amino acid" ["a C-methyl amino acid"] null null +"C-nitro-compounds" "a C-nitro compound" [] null null +"C-nitroso-compounds" "a C-nitroso compound" [] null null +"C-terminal-32-aminoacid-Peptides" "a C terminal 32 amino-acid peptide" [] null null +"C-terminal-Amino-Acids" "a [protein] C-terminal amino acid" [] null null +"C-terminal-L-alanine" "a [protein] C-terminal L-alanine" [] null null +"C1" "UDP-N-acetyl-α-D-muramoyl-L-alanyl-γ-D-glutamyl-meso-2,6-diaminopimeloyl-D-alanyl-D-alanine" ["UDP-N-acetylmuramoyl-L-alanyl-γ-D-glutamyl-meso-2,6-diaminopimeloyl-D-alanyl-D-alanine", "UDP-N-acetylmuramoyl-L-alanyl-γ-D-glutamyl-meso-2,6-diaminoheptanedioate- D-alanyl-D-alanine"] "C41H61N9O28P2" 1189.924 +"C21-Steroids" "a C21-steroid" [] null null +"C3" "UDP-N-acetyl-α-D-muramoyl-L-alanyl-γ-D-glutamyl-L-lysyl-D-alanyl-D-alanine" ["UDP-Mur2Ac(oyl-L-Ala-g-D-Glu-L-Lys-D-Ala-D-Ala)", "UDP-MurNAc-pentapeptide"] "C40H62N9O26P2" 1146.922 +"C34-Botryococcenes" "a C34 botryococcenes" [] "C34H58" 466.832 +"C35-Terpenes" "a sesquarterpenoid" ["a sesquarterpene", "a C35 terpenoid"] null null +"C4" "undecaprenyl-diphospho-N-acetylmuramoyl-L-alanyl-γ-D-glutamyl-L-lysyl- D-alanyl-D-alanine" ["mur2Ac(oyl-L-Ala-γ-D-Glu-L-Lys-D-Ala-D-Ala)-diphosphoundecaprenol", "lipid II"] "C86H140N7O21P2" 1670.034 +"C4-dicarboxylates" "a C4-dicarboxylate" ["C4-dicarboxylate"] null null +"C5" "undecaprenyldiphospho-N-acetylmuramoyl-L-alanyl-γ-D-glutamyl-meso-2,6-diaminopimeloyl-D-alanyl-D-alanine" ["N-acetylmuramoyl-L-alanyl-D-glutamyl-meso-2,6-diaminoheptanedioate-D-alanyl-D-alanine-diphosphoundecaprenol", "a peptidoglycan with cleaved N-acetyl-glucosamine", "lipid intermediate I", "undecaprenyl-pyrophosphoryl-MurNAc-pentapeptide", "lipid I"] "C87H139N7O23P2" 1713.036 +"C55-PP-GLCNAC-MANNACA" "β-D-ManNAcA-(1→4)-α-D-GlcNAc-PP-undecaprenol" ["undecaprenyl-diphospho-N-acetylglucosamine-N-acetylmannosaminuronate", "ManNAcA-GlcNAc-PP-lipid", "C55-PP-GlcNAc-ManNAcA", "N-acetyl-β-D-mannosaminuronyl-(1→4)-N-acetyl-α-D-glucosaminyl-diphospho-ditrans,octacis-undecaprenol", "undecaprenyl N-acetyl-glucosaminyl-N-acetyl-mannosaminuronate pyrophosphate", "ECA-lipid II", "β-D-ManNAcA-(1→4)-α-D-GlcNAc-pyrophosphorylundecaprenol", "β-D-ManNAcA-(1→4)-α-D-GlcNAc-diphospho-ditrans,octacis-undecaprenol"] "C71H113N2O18P2" 1344.624 +"C55-PP-GLCNAC-MANNACA-FUC4NAC" "(enterobacterial common antigen monomer)-undecaprenyl diphosphate" ["C55-PP-GlcNAc-ManNAcA-Fuc4NAc", "ManNAcA-GlcNAc-Fuc4NAc-pyrophosphorylundecaprenol", "ManNAcA-GlcNAc-Fuc4NAc-PP-lipid", "N-acetyl-α-D-fucosyl-(1→4)-N-acetyl-β-D-mannosaminouronyl-(1→4)-N-acetyl-α-D-glucosaminyl-diphospho-ditrans,octacis-undecaprenol", "lipid III", "ECA-lipid III"] "C79H126N3O22P2" 1531.819 +"C6" "ditrans,octacis-undecaprenyldiphospho-[(N-acetyl-β-D-glucosaminyl)-(1,4)-]-N-acetyl-α-D-muramoyl-L-alanyl-γ-D-glutamyl-meso-2,6-diaminopimeloyl-D-alanyl-D-alanine" ["a peptidoglycan with (L-alanyl-γ-D-glutamyl-meso-2,6-diaminopimeloyl-D-alanyl-D-alanine) pentapeptide", "diphosphoundecaprenyl-[GlcNAc-MurNAc-pentapeptide]n", "lipid intermediate II", "undecaprenyl-diphospho-N-acetylmuramoyl-(N-acetylglucosamine)-L-ala-γ-D-glu-meso-2,6-diaminopimeloyl-D-ala-D-ala", "lipid II"] "C95H152N8O28P2" 1916.23 +"CA+2" "Ca2+" ["calcium(II)", "Ca++", "calcium ion", "CaII"] "Ca" 40.08 +"CADAVERINE" "cadaverine" ["pentane-1,5-diamine", "diaminopentane", "1,5-diaminopentane", "1,5-pentanediamine", "pentamethylenediamine", "1-BioDex"] "C5H16N2" 104.195 +"CAFFEATE" "caffeate" ["caffeic acid", "3-(3,4-dihydroxyphenyl)prop-2-enoate"] "C9H7O4" 179.152 +"CAFFEOYLQUINATE" "trans-5-O-caffeoyl-D-quinate" ["caffeoylquinate", "chlorogenate", "chlorogenic acid", "3-O-caffeoyl-D-quinic acid"] "C16H17O9" 353.305 +"Calendoyl-Lipid" "a [glycerolipid]-calendate" ["a [glycerolipid]-(8E,10E,12Z)-octadeca-8,10,12-trienoate", "a [glycerolipid]-(8E,10E,12Z)-octadecatrienoate"] null null +"Callose" "callose" [] null null +"Calmodulin-N6-methyl-L-lysine-22" "a [calmodulin]-L-lysine22" [] null null +"CAMP" "cyclic-AMP" ["cyclic 3',5'-AMP", "3',5'-cyclic AMP", "adenosine cyclic-3',5'-monophosphate", "adenosine cyclic-monophosphate", "adenosine-cyclic-phosphoric-acid", "cAMP", "adenosine-cyclic-phosphate", "adenosine-3',5'-monophosphate", "adenosine 3',5'-cyclic phosphate", "adenosine-3',5'-cyclic monophosphate", "cyclic-3',5'-adenosine monophosphate"] "C10H11N5O6P" 328.201 +"Campesteryl-Esters" "a campesteryl ester" ["a campesteryl ester"] null null +"Camphor" "camphor" ["bornan-2-one"] "C10H16O" 152.236 +"CANAVANINE" "L-canavanine" ["canavanine", "2-amino-4-(guanidinooxy)butyrate", "2-amino-4-(guanidinooxy)butyric acid"] "C5H13N4O3" 177.183 +"CANNABINOIDS" "a cannabinoid" [] null null +"CAPSAICIN" "capsaicin" ["trans-8-methyl-N-vanillyl-6-nonenamide", "isodecenoic acid vanillylamide", "(E)-8-methyl-N-vanillyl-6-nonenamide"] "C18H27NO3" 305.416 +"Capsaicinoids" "a capsaicinoid" [] null null +"CAPSULAR-POLYSACCHARIDES" "a capsular polysaccharide" [] null null +"CARBAMATE" "carbamate" ["carbamic acid", "aminoformic acid"] "CH2NO2" 60.032 +"Carbamates" "a carbamate ester" [] null null +"CARBAMOYL-P" "carbamoyl phosphate" ["carbamoyl-P", "carbamyl-phosphate"] "CH2NO5P" 139.004 +"CARBAMYUL-L-ASPARTATE" "N-carbamoyl-L-aspartate" ["carbamyul-L-aspartate", "carbamyul-aspartate", "carbamoyl-aspartate", "carbamyl-aspartate", "carbamyl-L-aspartate", "L-ureidosuccinate"] "C5H6N2O5" 174.113 +"Carbapenems" "a carbapenem" [] null null +"Carbazoles" "a carbazole" [] null null +"carbo-me-ur-34-tRNA" "a carboxymethyluridine34 in tRNA" [] null null +"Carbohydrate-acid-derivatives" "a carbohydrate acid derivative" [] null null +"Carbohydrate-acids" "a carbohydrate acid" [] null null +"Carbohydrate-containing-antibiotics" "a carbohydrate-containing antibiotic" [] null null +"Carbohydrate-Derivatives" "a carbohydrate derivative" [] null null +"Carbohydrate-lactones" "a carbohydrate lactone" [] null null +"Carbohydrate-phosphates" "a carbohydrate phosphate" [] null null +"Carbohydrates" "a carbohydrate" [] null null +"CARBON-DIOXIDE" "CO2" ["carbonic anhydride", "carbonic acid gas", "carbon dioxide"] "CO2" 44.01 +"CARBON-MONOXIDE" "carbon monoxide" ["carbon monooxide"] "CO" 28.01 +"CARBONYL-GROUP" "a carbonyl group" [] null null +"Carbonyls" "a carbonyl" [] null null +"Carbopolycyclic-compounds" "a carbopolycyclic compound" [] null null +"Carbotricyclic-Compounds" "a carbotricyclic compound" [] null null +"Carboxamides" "a carboxamide" [] null null +"carboxybiotin-L-lysine-in-BCCP-dimers" "a [carboxyl-carrier protein dimer]-N6-carboxybiotinyl-L-lysine" ["a [BCCP dimer]-N6-carboxybiotinyl-L-lysine", "a [BCCP]-N6-carboxybiotinyl-L-lysine"] null null +"CARBOXYETHYL-3-5-CYCLOHEXADIENE-1-2-DIOL" "3-(5,6-dihydroxycyclohexa-1,3-dien-1-yl)propanoate" ["cis-3-(3-carboxyethyl)-3,5-cyclohexadiene-1,2-diol", "3-(cis-5,6-dihydroxycyclohexa-1,3-dien-1-yl)propanoate", "cis-3-(carboxyethyl)-3,5-cyclohexadiene-1,2-diol"] "C9H11O4" 183.183 +"CARBOXYL-GROUP" "a carboxyl group" [] "CHO2" 45.018 +"Carboxylate-siderophores" "a carboxylate siderophore" [] null null +"Carboxylates" "a carboxylate" ["carboxylic acid", "carboxylate"] null null +"Carboxylic-esters" "a carboxylic ester" [] null null +"CARBOXYMETHOXYLAMINE" "carboxymethoxylamine" ["aminooxyacetate", "(aminooxy)acetic acid", "(aminooxy)acetate", "hydroxylamine-O-acetic acid"] "C2H4NO3" 90.058 +"Carboxymethylcellulose" "(carboxymethyl)cellulose" ["cellulose gum", "CMC", "E466"] null null +"CARBOXYPHENYLAMINO-DEOXYRIBULOSE-P" "1-(2-carboxyphenylamino)-1-deoxy-D-ribulose 5-phosphate" ["1-(o-carboxyphenylamino)-1-deoxyribulose-5'-P", "1-(2-carboxyphenylamino)-1-deoxy-D-ribulose-5-P", "1-(o-carboxyphenylamino)-1'-deoxyribulose 5'-phosphate"] "C12H13NO9P" 346.21 +"Carboxyphthiodiolenones" "a carboxyphthiodiolenone" [] null null +"Cardanols" "a cardanol" [] null null +"CARDIOLIPIN" "a cardiolipin" ["bisphosphatidylglycerol", "diphosphatidylglycerol"] null null +"CARNITINE" "L-carnitine" ["γ-trimethyl-hydroxybutyrobetaine", "3-hydroxy-4-trimethylammoniobutanoate", "R-(-)-3-hydroxy-4-trimethylaminobutyrate", "vitamin B T", "bicarnesine", "(R)-carnitine", "γ-L-trimethyl-β-hydroxybutyrobetaine", "vitamin Bt", "3-carboxy-2-hydroxy-N,N,N-trimethyl-1-propanaminium"] "C7H15NO3" 161.2 +"CARNOSINE" "carnosine" ["ignotine", "N-β-alanyl-L-histidine"] "C9H14N4O3" 226.235 +"Carotenes" "a carotene" [] null null +"Carotenoid-beta-end-group" "a carotenoid β-end group" [] null null +"Carotenoid-chi-end-group" "a carotenoid χ-end group" [] null null +"Carotenoid-epsilon-end-group" "a carotenoid ε-end group" [] null null +"Carotenoid-phi-end-group" "a carotenoid φ-end group" [] null null +"Carotenoid-psi-end-group" "a carotenoid ψ-end group" [] null null +"carotenoids" "a carotenoid" [] null null +"Carrageenan-oligosaccharides" "a carrageenan oligosaccharide" [] null null +"Carrageenans" "a carrageenan" [] null null +"Carrageenose-oligosaccharides" "a carrageenose oligosaccharide" [] null null +"Carrageenoses" "a carrageenose" [] null null +"Carveols" "a carveol" [] "C10H16O" 152.236 +"Carvones" "a carvone" ["2-methyl-5-(prop-1-en-2-yl)cyclohex-2-en-1-one"] "C10H14O" 150.22 +"Castasterone-Sulfates" "a castasterone-sulfate" [] null null +"Catechloamines" "a catecholamine" [] null null +"CATECHOL" "catechol" ["pyrocatechol", "2-hydroxyphenol", "pyrocatechin", "1,2-dihydroxybenzene", "1,2-benzenediol"] "C6H6O2" 110.112 +"Catecholate-siderophores" "a catecholate siderophore" [] null null +"Catechols" "a catechol" ["l", "a 1,2-dihydroxybenzene", "a 1,2-benzenediol", "an ortho-benzenediol"] null null +"Cations" "a cation" [] null null +"CD+2" "Cd2+" ["cadmium(II)", "CdII", "Cd++"] "Cd" 112.4 +"CDP" "CDP" ["cytidine-diphosphate", "cytidine-5'-diphosphate"] "C9H12N3O11P2" 400.155 +"CDP-2-3-4-Saturated-Diacylglycerols" "a CDP-2,3,4-saturated-diacylglycerol" ["CDP-diglyceride", "CDP-1,2-diglyceride", "CDP-1,2-diacylglycerol"] null null +"CDP-ACYLGLYCEROL" "a CDP-monoacylglycerol" ["a 1-acyl-sn-glycero-3-cytidine-5'-diphosphate"] null null +"CDP-CHOLINE" "CDP-choline" ["citicoline", "citicholine", "cidifos", "cyticholine", "cytidine 5'-diphosphocholine", "cytidine diphosphate choline"] "C14H25N4O11P2" 487.319 +"CDP-D-GLUCOSE" "CDP-α-D-glucose" ["CDP-glc", "CDP-glucose", "CDP-D-glucose"] "C15H23N3O16P2" 563.305 +"CDP-ETHANOLAMINE" "CDP-ethanolamine" ["cytidine diphosphate ethanolamine"] "C11H19N4O11P2" 445.239 +"CDP-GROUP" "CDP group" [] "C9H13N3O11P2" 401.163 +"CDP-SUGARS" "a CDP-sugar" [] null null +"CDPDIACYLGLYCEROL" "a CDP-diacylglycerol" ["CDP-diglyceride", "CDP-1,2-diglyceride", "CDP-1,2-diacylglycerol"] null null +"CELLOBIOSE" "β-D-cellobiose" ["4-O-β-D-glucopyranosyl-β-D-glucopyranose", "β-D-glucosyl-(1→4)-β-D-glucose"] "C12H22O11" 342.299 +"Cellobiosides" "a cellobioside" [] null null +"Cellodextrins" "a cellodextrin" [] null null +"CELLULOSE" "cellulose" ["(1,4-β-D-glucosyl)n"] null null +"Cellulose-D-Gluconate" "[(1→4)-β-D-glucosyl]n-1-(1→4)-D-gluconate" [] null null +"Cellulose-D-glucono-1-5-lactone" "[(1→4)-β-D-glucosyl]n-1-(1→4)-D-glucono-1,5-lactone" [] null null +"CEPHALOSPORIN-C" "cephalosporin C" [] "C16H20N3O8S" 414.409 +"Cephalosporins" "a cephalosporin" [] null null +"Cephems" "a cephem" [] null null +"Ceramides" "a ceramide" ["an N-acylsphingosine", "a sphingosine-containing ceramide"] null null +"Ceramides-PE" "a sphingoethanolamine" ["an N-acylsphing-4-enine 1-phosphoethanolamine", "a ceramide phosphoethanolamine"] null null +"Cerebrosides" "a cerebroside" ["a monoglycosylceramide"] null null +"CGMP" "cyclic-GMP" ["3',5'-cyclic GMP", "guanosine-cyclic-phosphoric-acid", "cGMP", "guanosine cyclic-monophosphate", "guanosine 3',5'-cyclic-monophosphate", "guanosine 3',5'-cyclic phosphate", "cyclic 3',5'-guanosine monophosphate"] "C10H11N5O7P" 344.2 +"CH33ADO" "5'-deoxyadenosine" ["CH3Ado"] "C10H13N5O3" 251.244 +"CH4" "methane" [] "CH4" 16.043 +"Chalcones" "a chalcone" ["a chalconoid"] null null +"Chelate-Complexes" "a chelate-complex" [] null null +"Chelators" "a chelator" [] null null +"CHITIN" "chitin" ["[GlcNAc]n", "beta-1,4-Poly-N-acetyl-D-glucosamine", "(1→4)-2-acetamido-2-deoxy-β-D-glucan"] null null +"Chitin-NAc-2-deoxy-2-amino-D-gluconate" "[(1→4)-β-N-acetyl-D-glucosaminyl]n-(1→4)-N-acetyl-2-deoxy-2-amino-D-gluconate" [] null null +"Chitin-NAc-D-glucono-1-5-lactone" "[(1→4)-β-N-acetyl-D-glucosaminyl]n-(1→4)-2-(acetylamino)-2-deoxy-D-glucono-1,5-lactone" [] null null +"CHITOBIOSE" "N,N'-diacetylchitobiose" ["diacetylchitobiose", "N-[2-[5-acetylamino-4,6-dihydroxy-2-(hydroxymethyl)tetrahydropyran-3-yl]oxy-4,5-dihyrdoxy-6-(hydroxymethyl)tetrahydropyran-3-yl]acetamide", "CBS", "chitobiose", "2-(acetylamino)-4-O-[2-(acetylamino)-2-deoxy-β-D-glucopyranosyl]-2-deoxy-β-D-glucopyranose"] "C16H28N2O11" 424.404 +"Chitodextrins" "a chitodextrin" ["a chtin fragment", "a chitin oligosaccharide"] null null +"Chitosan" "chitosan" ["β-1,4-poly-D-glucosamine"] null null +"Chitosan-fragments" "a chitosan fragment" [] null null +"CHLORALAN-CPD" "3-chloro-L-alanine" ["β-chloro-L-alanine"] "C3H6NO2Cl" 123.539 +"CHLORAMPHENICOL" "chloramphenicol" ["chlornitromycin", "levomycetin", "levomicetina", "laevomycetinum"] "C11H12N2O5Cl2" 323.132 +"CHLORATE" "chlorate" ["chloric acid"] "HO3Cl" 84.459 +"Chlorides" "an organochlorine compound" ["RCl", "an organic chloride"] null null +"Chlorins" "a chlorin" [] "C20H16N4" 312.373 +"CHLOROACETALDEHYDE" "chloroacetaldehyde" ["2-chloroacetaldehyde", "2-chloroethanal", "chloroaldehyde", "chloroethanal", "monochloroacetaldehyde"] "C2H3OCl" 78.498 +"Chloroaromatic-Compounds" "a chloroaromatic compound" [] null null +"Chlorophyllide-e" "a bacteriochlorophyllide e" [] null null +"Chlorophyllides" "a chlorophyllide" [] null null +"Chlorophylls" "a chlorophyll" ["chlorophyll"] null null +"CHOLANATE2" "3α,12α-dihydroxy-7-oxo-5β-cholan-24-oate" ["3α,12α-dihydroxy-7-oxo-5β-cholanate"] "C24H37O5" 405.553 +"Cholanates" "a cholanate" ["a cholanic acid"] null null +"CHOLATE" "cholate" ["cholic acid", "3α,7α,12α-trihydroxy-5β-cholan-24-oate", "3α,7α,12α-trihydroxy-5-beta-cholanoic acid", "3α,7α,12α-trihydroxy-5-beta-cholanoate"] "C24H39O5" 407.569 +"Cholesterol-esters" "a cholesterol ester" ["a cholesteryl ester", "a cholesterol ester"] null null +"CHOLINE" "choline" ["(2-hydroxyethyl)trimethylammonium"] "C5H14NO" 104.172 +"CHONDROITIN-4-SULFATE" "a [chondroitin-sulfate] containing 4-O-sulfo-N-acetylgalactosamine" ["chondroitin 4'-sulfate", "chondroitin-4-sulfate", "[chondroitin]-N-acetyl-galactosamine 4'-sulfate"] null null +"CHONDROITIN-46-DISULFATE" "a [chondroitin-sulfate] containing 4,6-di-O-sulfo-N-acetyl-D-galactosamine" ["[chondroitin]-N-acetyl-galactosamine 4',6'-disulfate", "[chondroitin]-N-acetyl-galactosamine 4',6'-bissulfate", "[chondroitin]-4-O,6-O-bissulfo-N-acetylgalactosamine"] null null +"Chondroitin-D-glucuronates" "a β-D-glucuronate in [chondroitin]" ["a [chondroitin] containing β-D-glucuronate"] null null +"Chondroitin-GalNAc-6S" "a [chondroitin-sulfate] containing 6-O-sulfo-N-acetylgalactosamine" ["chondroitin 6'-sulfate", "chondroitin-6-sulfate", "[chondroitin]-N-acetyl-galactosamine 6'-sulfate"] null null +"Chondroitin-N-acetyl-galactosamines" "a [chondroitin] containing N-acetyl-galactosamine" [] null null +"Chondroitin-Protein" "a 3-O-chondroitin-L-seryl-[protein]" [] null null +"Chondroitin-Sulfate-A" "chondroitin sulfate A" ["chondroitin 4-sulfate"] null null +"Chondroitin-Sulfate-C" "chondroitin sulfate C" ["chondroitin 6-sulfate"] null null +"Chondroitin-Sulfate-D" "chondroitin sulfate D" [] null null +"Chondroitin-sulfate-disaccharides" "chondroitin sulfate disaccharide" ["GlcA-GalNAC-4S"] "C14H21NO18S2" 555.436 +"Chondroitin-Sulfate-E" "chondroitin sulfate E" [] null null +"Chondroitin-sulfate-GlcA2S" "a 2-O-sulfo-β-D-glucuronate in [chondroitin]" ["a [chondroitin-sulfate] containing 2-O-sulfo-β-D-glucuronate"] null null +"Chondroitin-sulfates" "chondroitin sulfate" [] null null +"Chondroitins" "chondroitin" [] null null +"CHORISMATE" "chorismate" ["chorismic acid"] "C10H8O6" 224.17 +"Chromanes" "a chromane" [] null null +"Chromanones" "a chromanone" [] null null +"Chromenes" "a chromene" [] null null +"Chromenones" "a chromenone" [] null null +"Chrysolaminarin" "chrysolaminarin" ["leucosin"] null null +"Cis-2-enoyl-CoAs" "a cis-2-enoyl-CoA" ["a cis-2,3-dehydroacyl-CoA"] null null +"cis-5-enoyl-CoA" "a (5Z)-alkan-5-enoyl-CoA" ["cis-Δ5-enoyl-CoA", "a cis-5-enoyl-CoA"] null null +"CIS-ACONITATE" "cis-aconitate" ["(Z)-prop-1-ene-1,2,3-tricarboxylate", "cis-aconitic acid"] "C6H3O6" 171.086 +"Cis-Delta-11-acyl-CoAs" "an (11Z)-enoyl-CoA" ["a cis Δ11 acyl-CoA"] null null +"CIS-DELTA3-ENOYL-COA" "a (3Z)-alk-3-enoyl-CoA" ["a cis3-enoyl-CoA", "a cis-3-enoyl-CoA"] null null +"CiS-POLYISOPRENYL-PP" "an all-cis polyisoprenyl diphosphate" [] null null +"Cis-Prenyl-tRNAs" "cis-hydroxy-prenyl-tRNA" ["tRNA containing N6-(cis-hydroxy)isopentenyladenosine"] null null +"CIS-TRANS-POLYISOPRENYL-P" "a cis,trans-isoprenoid phosphate" ["a cis,trans-polyisoprenyln-P", "a cis,trans-polyisoprenyl phosphate"] null null +"CIS-TRANS-POLYISOPRENYL-PP" "a cis,trans-polyisoprenyl diphosphate" ["a cis,trans-polyisoprenyln-PP"] null null +"CIT" "citrate" ["citr", "cit", "citric acid", "2-hydroxy-1,2,3-propanetricarboxylic acid"] "C6H5O7" 189.101 +"Citronellals" "citronellal" ["2,3-dihydrocitral", "3,7-dimethyl-6-octen-1-al", "3,7-dimethyl-6-octenal", "β-citronellal"] "C10H18O" 154.252 +"Citronellates" "citronellate" ["citronellic acid", "3,7-dimethyl-6-octenoic acid", "rhodinolic acid"] "C10H17O2" 169.243 +"Citronellols" "citronellol" ["2,3-dihydrogeraniol", "2,6-dimethyl-2-octen-8-ol", "3,7-dimethyl-6-octen-1-ol", "β-citronellol", "3,7-dimethyloct-6-en-1-ol", "Rhodinol", "DL-citronellol", "cephrol"] "C10H20O" 156.267 +"CL-" "chloride" ["chloride ion", "Cl-"] "Cl" 35.453 +"Cleaved-DNA" "cleaved DNA" [] null null +"CmaA-L-allo-isoleucine" "L-allo-isoleucyl-[CmaA peptidyl-carrier protein]" [] null null +"CmaD-L-allo-isoleucine" "L-allo-isoleucyl-[CmaD peptidyl-carrier protein]" [] null null +"CMC-dextrins" "(carboxymethyl)cellodextrin" [] null null +"CMP" "CMP" ["5'-cytidylic acid", "cytidine 5'-monophosphate", "cytidylate", "cytidylic acid", "cytidine-P", "cytidine-monophosphate", "cytidine-phosphate", "cytidine 5'-phosphate"] "C9H12N3O8P" 321.183 +"CMP-GROUP" "CMP group" [] "C9H13N3O8P" 322.191 +"CMP-KDO" "CMP-3-deoxy-β-D-manno-octulosonate" ["CMP-2-dehydro-3-deoxy-D-octonate", "CMP-β-Kdo", "CMP-ketodeoxyoctonate"] "C17H24N3O15P" 541.361 +"CMP-SUGARS" "a CMP-sugar" [] null null +"CO+2" "Co2+" ["Co++", "cobalt(II)", "CoII"] "Co" 58.93 +"CO-A" "coenzyme A" ["CoA", "Co-A-SH", "HS-CoA"] "C21H32N7O16P3S" 763.502 +"Co-a-adenyl-cobamide" "a Coα-[α-(aden-7-yl)]-cobamide" ["a pseudocobalamin"] null null +"CO3" "carbonate" ["CO3"] "CO3" 60.009 +"COA-GROUP" "a coenzyme-A group" [] "C21H32N7O16P3S" 763.502 +"COB-I-ALAMIN" "cob(I)alamin" ["cobalamin", "B12s"] "C62H88N13O14PCo" 1329.36 +"Cobalamins" "a Coα-[α-(5,6-dimethylbenzimidazolyl)]-cobamide" ["a cobalamin"] null null +"Cobalt-corrinoid-hexaamides" "a cobalt-corrinoid hexaamide" [] null null +"Cobamide-phosphate" "a cobamide phosphate" [] null null +"Cobamides" "a cobamide" [] null null +"COBINAMIDE" "cob(I)inamide" ["Cbi(I)"] "C48H72N11O8Co" 990.096 +"Coelenteramides" "a coelenteramide" [] null null +"Coelenterazin-dioxetanone" "a coelenterazine dioxetanone" [] null null +"Coelenterazines" "a coelenterazine" [] null null +"Cofactors" "a cofactor" ["a prosthetic group", "a coenzyme"] null null +"COFORMYCIN" "coformycin" [] "C11H17N4O5" 285.279 +"Compound-0" "compound 0" [] null null +"Compound-I" "compound I" [] null null +"Compound-II" "compound II" [] null null +"Compound-III" "compound III" [] null null +"Compound-With-Gamma-Glutamyl" "a compound with γ-glutamate" [] null null +"Compounds-Holder-Class" "a nonspecific small molecule" [] null null +"Coniferonoyl-Lipid" "a [glycerolipid]-coniferonate" ["a [glycerolipid]-(5Z,9Z,12Z,18Z)-octadecatetra-5,9,12,15-enoate", "a [glycerolipid]-coniferonoic acid", "a coniferonoyl-[glycerolipid]"] null null +"COPROPORPHYRINOGEN_III" "coproporphyrinogen III" [] "C36H40N4O8" 656.734 +"COPROPORPHYRIN_III" "coproporphyrin III" [] "C36H34N4O8" 650.687 +"Core-Protein-L-Ser-Xyl" "a 3-O-(β-D-xylosyl)-L-seryl-[protein]" ["protein O-D-xyloside", "a core protein L-serine-β-D-xylose", "D-xylosylprotein", "O-β-D-xylosyl-[core protein]"] null null +"Core1" "core 1" ["β-D-galactosyl-1,3-N-acetyl-α-D-galactosaminyl-R", "glycoprotein D-galactosyl-1,3-N-acetyl-α-D-galactosamine", "β-D-galactosyl-1,3-N-acetyl-D-galactosaminyl-R", "β-D-galactosyl-(1→3)-N-acetyl-α-D-galactosaminyl-L-seryl/L-threonyl-[protein]", "T antigen"] null null +"Corphins" "a corphin" [] null null +"Corrinoids" "a corrinoid" [] null null +"Corrins" "a corrin" ["corrinoid"] null null +"CORTISOL" "cortisol" ["11β-cortisol", "hydrocortisone"] "C21H30O5" 362.465 +"Coumarins" "a coumarin" ["a 1,2-benzopyrone"] "C9H6O2" 146.145 +"CPD-10016" "FK-506" ["tacrolimus", "Prograf", "Advagraf", "Fujimycin", "Protopic", "Protopy", "LCP-Tacro", "Ambap5429", "BSPBio-001279"] "C44H69NO12" 804.029 +"CPD-10071" "(5R)-6-hydroxy-5-isopropenyl-2-methylhexanoate" [] "C10H17O3" 185.242 +"CPD-10072" "(5S)-6-hydroxy-5-isopropenyl-2-methylhexanoate" [] "C10H17O3" 185.242 +"CPD-10129" "3'-deoxyadenosine" ["cordycepin"] "C10H13N5O3" 251.244 +"CPD-10145" "ferricyanide" ["ferric hexacyanide", "hexacyanoferrate III", "hexacyanoferrate(3-)", "hexacyanoferrate(III)"] "C6N6Fe" 211.953 +"CPD-10156" "a N-acetyl-D-glucosaminyl-polyepetide" [] null null +"CPD-10204" "norfuraneol" ["4-hydroxy-5-methyl-3(2H)-furanone", "HMF (ambiguous)"] "C5H6O3" 114.101 +"CPD-10205" "4-hydroxy-5-methyl-2-methylene-3(2H)-furanone" ["HMMF", "(2E)-ethylidene-4-hydroxy-5-methyl-3(2H)-furanone"] "C6H6O3" 126.112 +"CPD-10206" "(2E)-2-ethylidene-4-hydroxy-5-methyl-3(2H)-furanone" ["EDHMF"] "C7H8O3" 140.138 +"CPD-10208" "(2E)-2-butylidene-4-hydroxy-5-methyl-3(2H)-furanone" ["BDHMF"] "C9H12O3" 168.192 +"CPD-10246" "sulfoacetate" [] "C2H2O5S" 138.095 +"CPD-10247" "6-sulfo-D-quinovose" ["sulphoquinovose", "6-deoxy-6-sulfoglucose", "6-deoxy-6-sulfo-D-glucopyranose", "sulfoquinovose"] "C6H11O8S" 243.208 +"CPD-10260" "3-oxooctadecanoyl-CoA" ["3-oxoo-stearoyl-CoA"] "C39H64N7O18P3S" 1043.952 +"CPD-10262" "(2E)-octadec-2-enoyl-CoA" ["trans-2,3-dihydro-stearenoyl-CoA", "trans-octadec-2-enoyl-CoA"] "C39H64N7O17P3S" 1027.953 +"CPD-10267" "decanoyl-CoA" [] "C31H50N7O17P3S" 917.754 +"CPD-10269" "palmitoleoyl-CoA" ["16:1-delta9-CoA", "9z-hexadecenoyl-CoA", "cis-9-hexadecenoyl-CoA", "palmitoleoyl coenzyme A", "(9Z)-hexadec-9-enoyl-CoA"] "C37H60N7O17P3S" 999.899 +"CPD-10284" "3-oxomyristoyl-CoA" ["3-oxotetradecanoyl-CoA"] "C35H56N7O18P3S" 987.845 +"CPD-10303" "D-allothreonine" [] "C4H9NO3" 119.12 +"CPD-10322" "dicyclohexylcarbodiimide" ["DCCD", "carbodicyclohexylimide", "N,N'-dicyclohexylcarbodiimide", "1,3-dicyclohexylcarbodiimide", "carbodiimide, dicyclohexyl-"] "C13H22N2" 206.33 +"CPD-10324" "amiloride" ["Amipramidin", "Guanamprazin", "Amipramizid", "Guanamprazine", "Amipramizide", "Midamor"] "C6H8N7OCl" 229.628 +"CPD-10329" "α-L-fucopyranose" ["α-L-fucose"] "C6H12O5" 164.158 +"CPD-10330" "α-D-ribofuranose" ["α D-ribose"] "C5H10O5" 150.131 +"CPD-10359" "a (2R,3S)-flavan-3-ol" ["a 2,3-trans-flavan-3-ol"] null null +"CPD-10363" "a 1,2-diacyl-3-O-[β-D-galactosyl-(1→6)-β-D-galactosyl]-sn-glycerol" ["a (β-D-galactosyl-(1->6)-β-D-galactosyl)-1,2-diacyl-sn-glycerol", "an β-D-galactosyl-β-D-galactosyldiacylglycerol", "DGDG", "a β,β digalactosyldiacylglycerol"] null null +"CPD-10364" "a trigalactosyldiacylglycerol" ["a (β-D-galactosyl-(1->6)-β-D-galactosyl-(1->6)-β-D-galactosyl)-1,2-diacyl-sn-glycerol", "TGDG", "1,2-Diacyl-3-O-(beta-D-galactosyl(1->6)-O-beta-D-galactosyl(1->6)-O-beta-D-galactosyl)-sn-glycerol"] null null +"CPD-10414" "a (2R,3R)-flavan-3-ol" ["a 2,3-cis-flavan-3-ol"] null null +"CPD-10427" "4-aminobenzenesulfonate" ["sulfanilate", "p-amino benzene sulfonate", "4-Aminobenzenesulfonic acid", "Sulfanilic acid", "p-Aminobenzenesulfonic acid"] "C6H6NO3S" 172.178 +"CPD-10434" "ethanesulfonate" [] "C2H5O3S" 109.12 +"CPD-10435" "1-propanesulfonate" ["1-propanesulfonic acid", "propane-1-sulfonate"] "C3H7O3S" 123.146 +"CPD-10463" "an α-D-aldosyl-β-D-fructoside" [] null null +"CPD-10464" "an α 2,8-linked polysialic acid" ["α-2,8-Linked polymer of sialic acid", "an α 2,8-linked polymer of sialate"] null null +"CPD-10465" "an α 2,8-linked polysialic acid acetylated at O-7" [] null null +"CPD-10543" "α-D-quinovopyranose" ["α-D-quinovose"] "C6H12O5" 164.158 +"CPD-10551" "(2S)-2-hydroxy-3,4-dioxopentyl phosphate" ["(4S)-4-hydroxy-2,3-pentanedione 5-phosphate", "(4S)-4-hydroxy-5-phosphooxypentane-2,3-dione"] "C5H7O7P" 210.08 +"CPD-10572" "a fluorobenzoate" [] null null +"CPD-1062" "an N-acyl-D-glucosamine 6-phosphate" [] null null +"CPD-1063" "S-methyl-5-thio-D-ribulose 1-phosphate" ["5-methylthio-5-deoxy-D-ribulose 1-phosphate", "1-phosphomethylthioribulose", "methylthioribulose 1-phosphate", "MTRu-1-P", "1PMT-ribulose", "1-phospho-5-S-methylthioribulose", "5-(methylthio)ribulose 1-phosphate"] "C6H11O7PS" 258.182 +"CPD-1066" "2,5-diaminohexanoate" [] "C6H15N2O2" 147.197 +"CPD-10685" "a 3-O-β-D-galactosyl-N-acetyl-α-D-galactosaminyl-L-serine-[protein]" ["a [protein]-(2S)-3-(2-acetamido-2-deoxy-3-O-D-galactopyranosyl--D-galactopyranosyloxy)-2-aminopropanoic acid", "a [protein]-O-(3-O-D-galactosyl-N-acetyl-β-D-galactosaminyl)-L-serine", "D-galactosyl-3-(N-acetyl-α-D-galactosaminyl)-L-serine -[protein]"] null null +"CPD-10723" "α-D-fructofuranose" [] "C6H12O6" 180.157 +"CPD-10725" "α-D-fructopyranose" [] "C6H12O6" 180.157 +"CPD-10726" "β-D-fructopyranose" [] "C6H12O6" 180.157 +"CPD-10734" "3-deoxy-D-glycero-D-galacto-non-2-ulopyranosonate" ["3-deoxy-D-glycero-D-galacto-nononic acid", "3-deoxy-D-glycero-D-galacto-non-2-ulopyranosonic acid", "3-deoxy-D-glycero-D-galacto-nonulosonic acid", "3-deoxy-D-glycero-D-galacto-nonulosonate", "3-deoxy-D-glycero-D-galacto-nononate"] "C9H15O9" 267.212 +"CPD-10773" "(2R,4S)-2-methyl-2,4-dihydroxydihydrofuran-3-one" ["(R)-DHMF"] "C5H8O4" 132.116 +"CPD-10774" "(2R,4S)-2-methyl-2,3,3,4-tetrahydroxytetrahydrofuran" ["(R)-THMF", "AI-2 (salmonella)", "autoinducer 2 (salmonella)"] "C5H10O5" 150.131 +"CPD-10775" "(2S,4S)-2-methyl-2,4-dihydroxydihydrofuran-3-one" ["Pro-AI-2 (vibrio)", "(S)-DHMF"] "C5H8O4" 132.116 +"CPD-10776" "(2S,4S)-2-methyl-2,3,3,4-tetrahydroxytetrahydrofuran" ["AI-2 precursor", "(S)-THMF", "Pro-AI-2 (vibrio)"] "C5H10O5" 150.131 +"CPD-10796" "2,3-dihydroxy-trans-cinnamate" ["2,3-dihydroxycinnamic acid", "(2E)-3-(2,3-dihydroxyphenyl)prop-2-enoate"] "C9H7O4" 179.152 +"CPD-10797" "3-hydroxycinnamate" ["trans-3-hydroxycinnamate", "m-coumarate", "m-coumaric acid", "trans-3-coumarate", "3-hydroxycinnamic acid", "(2E)-3-(3-hydroxyphenyl)prop-2-enoate", "3-coumarate", "3-hydroxy-trans-cinnamate (incorrect)"] "C9H7O3" 163.152 +"CPD-108" "4-methylphenol" ["4-hydroxytoluene", "p-hydroxytoluene", "4-cresol", "p-cresol"] "C7H8O" 108.14 +"CPD-10814" "glycyl-L-proline" ["Gly-L-Pro", "Gly-Pro"] "C7H12N2O3" 172.183 +"CPD-10835" "4-aminobenzylamine" ["4-aminoaniline", "p-phenylenediamine"] "C6H8N2" 108.143 +"CPD-1084" "perillyl aldehyde" ["perillaldehyde"] "C10H14O" 150.22 +"CPD-1086" "5-amino-6-(5-phospho-D-ribitylamino)uracil" ["5-amino-6-(5'-phosphoribitylamino)uracil", "5-amino-6-(5-phosphoribitylamino)uracil", "5-amino-6-ribitylamino-2,4(1H,3H)-pyrimidinedione 5'-phosphate"] "C9H15N4O9P" 354.213 +"CPD-1091" "(S)-ureidoglycolate" ["(-)-ureidoglycolate", "ureidoglycolate", "(S)-(-)-ureidoglycolate", "(2S)-(carbamoylamino)(hydroxy)acetate"] "C3H5N2O4" 133.083 +"CPD-1093" "1-deoxy-D-xylulose" ["1-deoxy-xylulose"] "C5H10O4" 134.132 +"CPD-1094" "5-methyl-dCTP" ["5-methyldeoxycytidine triphosphate", "5-methyl-2'-deoxycytidine-5'-triphosphate", "5-methyl deoxycytidine-5'-triphosphate", "cytidine 5'-(tetrahydrogen triphosphate), 2'-deoxy-5-methyl-", "[[[5-[(4-amino-5-methyl-2-oxo-1H-pyrimidin-1-yl)]-3-hydroxy-tetrahydrofuran-2-yl]methoxy-hydroxy-phosphinoyl]oxy-hydroxy-phosphinoyl]oxyphosphonic acid"] "C10H14N3O13P3" 477.154 +"CPD-1099" "raffinose" ["melitose", "melitriose", "gossypose", "6G-α-D-galactosylsucrose", "(2S,3R,4S,5S,6R)-2-[[(2R,3R,4S,5R,6R)-6-[(2S,3S,4R,5S)-3,4-dihydroxy-2,5-bis(hydroxymethyl)oxolan-2-yl]oxy-3,4,5-trihydroxy-oxan-2-yl]methoxy]-6-(hydroxymethyl)oxane-3,4,5-triol", "α-D-Galp-(1->6)-α-D-Glcp-(1->2)-β-D-Fruf", "α-D-galactopyranosyl-(1->6)-α-D-glucopyranosyl-(1->2)-β-D-fructofuranoside", "D-raffinose"] "C18H32O16" 504.441 +"CPD-110" "salicylate" ["salicylic acid", "o-hydroxybenzoic acid", "2-hydroxybenzoic acid", "SA", "2-HBA", "2-hydroxybenzoate", "o-hydroxybenzoate"] "C7H5O3" 137.115 +"CPD-1100" "a ganglioside GM2" ["an N-acetyl-D-galactosaminyl-(N-acetylneuraminyl)-D-galactosyl-1,4-β-D-glucosyl-N-acylsphingosine", "a 1-O-[O-2-(acetylamino)-2-deoxy-β-D-galactopyranosyl-(1→4)-O-[N-acetyl-α-neuraminyl-(2→3)]-O-β-D-galactopyranosyl-(1→4)-β-D-glucopyranosyl]-ceramide", "a Tay-Sachs ganglioside", "an N-acetyl-β-D-galactosaminyl-(1→4)-[N-acetyl-α-neuraminyl)-(2→3)]-β-D-galactosyl-(1→4)-β-D-glucosyl-N-acylsphingosine", "II3Neu5AcGg3Cer", "GalNAcβ1,4[Neu5Acα(2,3)]Galβ(1,4)Glcβ1Cer"] null null +"CPD-1101" "a lactotriaosylceramide" ["an N-acetyl-β-D-glucosaminyl-(1→3)-β-D-galactosyl-(1→4)-β-D-glucosyl-(1↔1)ceramide", "an N-acetyl-β-D-glucosaminyl-(1-3)-β-D-galactosyl-(1-4)-β-D-glucosyl-(1↔1)-ceramide", "an N-acetyl-β-D-glucosaminyl-1,3-β-D-galactosyl-1,4-β-D-glucosyl-(1↔1)-ceramide", "Lc3Cer"] null null +"CPD-1106" "(2-aminoethyl)phosphonate" ["(2-aminoethane)phosphonate", "ciliatine", "2-aminoethylphosphonate", "2-AEPn", "2-aminoethylphosphonic acid", "phosphonoethylamine"] "C2H8NO3P" 125.064 +"CPD-1107" "D-myo-inositol 1,3,4,5,6-pentakisphosphate" ["Ins(1,3,4,5,6)P5", "1D-myo-inositol 1,3,4,5,6-pentakisphosphate", "inositol 1,3,4,5,6-pentakisphosphate", "I(1,3,4,5,6)P5"] "C6H7O21P5" 569.977 +"CPD-1108" "a 1-phosphatidyl-1D-myo-inositol 4-phosphate" ["phosphatidylinositol-4-phosphate", "PtdIns4P"] null null +"CPD-1109" "an N-acyl-D-mannosamine" [] null null +"CPD-111" "3-methylcatechol" ["2,3-dihydroxytoluene"] "C7H8O2" 124.139 +"CPD-1114" "D-arabinonate" ["D-arabinonic acid"] "C5H9O6" 165.122 +"CPD-1119" "an N-acyl-neuraminate" [] null null +"CPD-11209" "guanosine 5'-monophosphomorpholidate" ["GMP-MOR"] "C14H20N6O8P" 431.321 +"CPD-11244" "an unsaturated pectate oligosaccharide" ["a pectate oligosaccharide with 4-(4-deoxy-α-D-galact-4-enuronosyl)-D-galacturonate end", "Δ4,5-unsaturated polygalacturonate"] null null +"CPD-1125" "(R)-amygdalin" ["(R)-amygdaloside", "(R)-laenitrile", "amygdalin", "(R)-α-((6-O-β-D-glucopyranosyl-β-D- glucopyranosyl)oxy)benzeneacetonitrile", "D(-)-mandelonitrile-β-D-gentiobioside", "D-amygdalin", "D-mandelonitrile-β-D-glucosido-6-β-D-glucoside", "vitamin B17", "mandelonitrile-β-gentiobioside"] "C20H27NO11" 457.433 +"CPD-11256" "an 11-hydroxyjasmonate sulfate" ["an 11-OHJA sulfate", "an 11-hydroxyjasmonic acid sulfate", "an 11-SO4-hydroxy-JA", "an 11-hydroxy-JA-sulfate"] "C12H16O7S" 304.314 +"CPD-11281" "S-sulfanylglutathione" ["glutathione-sulfide", "glutathione persulfide"] "C10H16N3O6S2" 338.373 +"CPD-11285" "sulfathiazole" ["Neostrepsan", "Norsulfasol", "Norsulfazole"] "C9H9N3O2S2" 255.309 +"CPD-1136" "cis-2-methylaconitate" ["(Z)-but-2-ene-1,2,3-tricarboxylate", "2-methyl-cis-aconitate", "2-methylaconitate"] "C7H5O6" 185.113 +"CPD-11391" "α-curcumene" ["1-(1,5-dimethyl-4-hexenyl)-4-methylbenzene", "2-methyl-6-p-tolyl-2-heptene"] "C15H22" 202.339 +"CPD-1142" "salicin" ["salicoside", "2-(hydroxymethyl)-phenyl-β-D-glucopyranoside", "D(-)-salicin"] "C13H18O7" 286.281 +"CPD-11426" "aphidicolin" [] "C20H34O4" 338.486 +"CPD-11434" "a sulfoxide" [] null null +"CPD-11444" "uroporphyrinogen-I" ["uroporphyrinogen I"] "C40H36N4O16" 828.742 +"CPD-11452" "a myxoxanthophyll" [] null null +"CPD-11455" "oscillaxanthin" [] "C52H76O14" 925.164 +"CPD-11473" "astaxanthin" [] "C40H52O4" 596.848 +"CPD-11500" "a [protein] 4-carboxy-L-glutamate" ["peptidyl 4-carboxyglutamate"] null null +"CPD-11501" "a vitamin K" [] null null +"CPD-11512" "a (2R,3S,4S)-leucoanthocyanidin" ["a flavan-3,4 -diol"] null null +"CPD-11551" "β-L-aspartylhydroxamate" [] "C4H8N2O4" 148.118 +"CPD-11592" "N6-(3-methylbut-2-en-1-yl)-2-(methylsulfanyl)adenosine37 in tRNA" ["tRNA-(2-methylsulfanyl-N6-dimethylallyladenosine37)", "a tRNA containing 2-methylsulfanyl-N6-dimethylallyladenosine37", "2-methylthio-N6-dimethylallyladenosine37 in tRNA", "ms2i6A37", "tRNA 2-(methylsulfanyl)-N6-isopentenyl adenosine37", "2-(methylsulfanyl)-N6-dimethylallyladenosine37 in tRNA"] null null +"CPD-11593" "2-(methylsulfanyl)-N6-[(2Z)-5-hydroxy-3-methylbut-2-en-1-yl]-adenosine37 in tRNA" ["2-methylthio-cis-ribozeatin", "ms2io6A37", "2-(methylsulfanyl)-6-(5-hydroxydimethylallyl)-adenosine37 in tRNA", "2-(methylsulfanyl)-N6-(5-hydroxydimethylallyl)-adenosine37 in tRNA"] null null +"CPD-1162" "arbutin 6-phosphate" ["arbutin-6-p", "arbutin-6P"] "C12H15O10P" 350.218 +"CPD-11620" "(S)-piperidine-2-carboxamide" [] "C6H13N2O" 129.181 +"CPD-11626" "(R,S)-piperidine-3-carboxamide" [] "C6H12N2O" 128.174 +"CPD-11627" "(S)-nipecotate" ["(3S)-nipecotate", "(S)-nipecotic acid", "(S)-piperidine-3-carboxylic acid", "(3S)-piperidine-3-carboxylate", "(S)-piperidine-3-carboxylate", "(+)-nipecotate", "(+)-hexahydronicotinic acid"] "C6H11NO2" 129.158 +"CPD-11631" "(R,S)-piperazine-2-tert-butylcarboxamide" [] "C9H19N3O" 185.269 +"CPD-11633" "(R,S)-piperazine-2-carboxamide" [] "C5H11N3O" 129.161 +"CPD-11636" "L-alanine amide" ["L-alaninamide"] "C3H9N2O" 89.117 +"CPD-11643" "two adjacent thymidines in DNA" ["thymidylyl-(3'-5')-thymidylate (in DNA)"] null null +"CPD-11648" "N4-acetylcytidine" ["4-acetyl-1-(beta-D-ribofuranosyl)cytosine", "4-acetylcytidine", "acetamide, N-(1,2-dihydro-2-oxo-1-beta-D-ribofuranosyl-4-pyrimidinyl)", "acetylcytidine", "N-[1-[(2R,3R,4S,5R)-3,4-dihydroxy-5-(hydroxymethyl)oxolan-2-yl]-2-oxopyrimidin-4-yl]acetamide"] "C11H15N3O6" 285.256 +"CPD-11653" "7-O-[2-aminoethoxy(hydroxy)phosphoryl]-α-D-Kdo-(2→4)-α-D-Kdo-(2→6)-lipid A" ["phosphoethanolamine-Kdo2-lipid A"] "C112H202N3O42P3" 2355.744 +"CPD-11657" "a (6-4) photoproduct (in DNA)" ["a pyrimidine (6-4) pyrimidone photoproduct"] null null +"CPD-11675" "ferriheme b" ["ferriprotoporphyrin IX", "Fe-protoporphyrin IX"] "C34H30N4O4Fe" 614.482 +"CPD-11678" "hemin" ["hemine", "protohemin"] "C34H30N4O4ClFe" 649.935 +"CPD-11725" "homotaurine" ["3-aminopropanesulfonate", "Tramiprosate", "Alzhemed", "Cerebril", "3-aminopropanesulphonic acid", "3-aminopropanesulfonic acid"] "C3H9NO3S" 139.169 +"CPD-11763" "bisorganyltrisulfane" ["GS3G"] "C20H32N6O12S3" 644.686 +"CPD-11770" "D-threo-7,8-dihydroneopterin" ["7,8-dihydromonapterin"] "C9H13N5O4" 255.233 +"CPD-11797" "2-O-sulfonatolactate" ["2-O-sulfonatolactic acid", "2-(sulfooxy)propanoic acid", "2-(sulfooxy)propanoate"] "C3H4O6S" 168.121 +"CPD-11803" "(RS)-phospho-3-sulfolactate" ["(2RS)-O-phospho-3-sulfolactate", "(2RS)-2-O-phosphonato-3-sulfonatolactate", "(RS)-phosphosulfolactate"] "C3H3O9PS" 246.085 +"CPD-1181" "salicin 6-phosphate" ["salicin-6-p", "[3,4,5-trihydroxy-6-[2-(hydroxymethyl)phenoxy]-tetrahydropyran-2-yl]methoxyphosphonic acid"] "C13H17O10P" 364.245 +"CPD-11914" "L-digitoxose" [] "C6H12O4" 148.158 +"CPD-11925" "citreoviridin" [] "C23H30O6" 402.486 +"CPD-11926" "an oligomycin" [] null null +"CPD-11927" "a venturicidin" [] null null +"CPD-11933" "a diphospho-1D-myo-inositol pentakisphosphate" ["PP-InsP5", "a diphosphoinositol pentakisphosphate"] "C6H6O27P7" 726.913 +"CPD-11984" "mono-trans,octa-cis-decaprenyl diphosphate" ["ω, mono-E,poly-Z-decaprenyl diphosphate", "(2Z,6Z,10Z,14Z,18Z,22Z,26Z,30Z,34E)-decaprenyl diphosphate", "ω, mono-trans,poly-cis-decaprenyl diphosphate", "ω, mono-E,octa-Z-decaprenyl diphosphate", "ω, mono-trans,octa-cis-decaprenyl diphosphate"] "C50H81O7P2" 856.133 +"CPD-12010" "1,2-butanediol" ["butane-1,2-diol"] "C4H10O2" 90.122 +"CPD-12013" "3-hydroxy-3-methyl-2-oxopentanoate" ["α-keto-β-hydroxy-β-methylvalerate", "2-keto-3-hydroxy-3-methylvalerate"] "C6H9O4" 145.135 +"CPD-12043" "β-D-arabinofuranose" ["β-D-arabinose"] "C5H10O5" 150.131 +"CPD-12044" "α-D-arabinofuranose" ["α-D-arabinose"] "C5H10O5" 150.131 +"CPD-12045" "α-L-arabinofuranose" ["α-L-arabinose"] "C5H10O5" 150.131 +"CPD-12046" "β-L-arabinofuranose" ["β-L-arabinose"] "C5H10O5" 150.131 +"CPD-12047" "α-D-arabinopyranose" ["α-D-arabinose"] "C5H10O5" 150.131 +"CPD-12049" "β-D-arabinopyranose" ["β-D-arabinose"] "C5H10O5" 150.131 +"CPD-12086" "a [PchE NRPS protein]-S-salicyl-S-L-cysteine" ["[PchE]-salycilate-cysteine"] null null +"CPD-12092" "a [PchE NRPS protein]-(S)-L-cysteine" ["PchE-S-cysteine"] null null +"CPD-12106" "a pentaglycine cross-bridge of peptidoglycan" [] null null +"CPD-12115" "demethylmenaquinol-8" ["2-demethylmenaquinol-8", "DMKH2-8"] "C50H72O2" 705.118 +"CPD-12132" "(S)-4-amino-4,5-dihydro-2-thiophenecarboxylate" ["(S)-4-amino-4,5-dihydro-2-thiophenecarboxylic acid", "SADTA"] "C5H7NO2S" 145.176 +"CPD-12145" "tryptophan tryptophylquinone" ["TTQ"] null null +"CPD-12146" "copper-complexed cysteinyltyrosyl radical cofactor" [] null null +"CPD-12150" "D-leucine" [] "C6H13NO2" 131.174 +"CPD-12151" "D-histidine" [] "C6H9N3O2" 155.156 +"CPD-12153" "2,4,6-trinitrobenzene sulfonate" ["2,4,6-trinitrobenzene sulphonate", "picryl sulfonic acid", "picrylsulfonic Acid", "TNBS", "trinitrobenzenesulfonic Acid", "benzenesulfonic acid, 2,4,6-trinitro-", "2,4,6-trinitrobenzene-1-sulfonic acid"] "C6H2N3O9S" 292.156 +"CPD-12164" "indolepropanol phosphate" ["indole propanol phosphate", "indole-3-propanol phosphate", "1-(indol-3-yl)propanol 3-phosphate", "3-(1H-indol-3-yl)propyl dihydrogen phosphate", "3-(indol-3-yl)propyl phosphate"] "C11H12NO4P" 253.194 +"CPD-12175" "(S)-3-hydroxy-isobutanoate" ["(S)-3-hydroxy-2-methylpropanoate", "(S)-3-Hydroxyisobutyric acid", "(S)-3-OH-iso-but", "(S)-3-OH-isobutyrate", "(S)-3-hydroxy-isobutyrate"] "C4H7O3" 103.097 +"CPD-12176" "(R)-3-hydroxy-isobutanoate" ["(R)-3-hydroxy-2-methylpropanoate", "(R)-3-Hydroxyisobutyric acid", "(R)-3-OH-iso-but", "(R)-3-OH-isobutyrate", "(R)-β-hydroxy-isobutyrate", "(R)-3-hydroxy-isobutyrate"] "C4H7O3" 103.097 +"CPD-12179" "methylmalonate semialdehyde" ["2-methyl-3-oxopropanoate", "CH3-malonate-semialdehyde"] "C4H5O3" 101.082 +"CPD-12210" "aminoguanidinium" ["aminoguanidine"] "CH7N4" 75.093 +"CPD-12226" "α-phellandrene" [] "C10H16" 136.236 +"CPD-12231" "a peptidoglycan dimer (meso-diaminopimelate containing)" ["[N-acetylglucosamine-N-acetylmuramoyl-L-alanyl-γ-D-glutamyl-meso-2,6-diaminopimeloyl-D-alanyl-D-alanine]2 diphospho-undecaprenyl"] "C135H214N16O49P2" 2907.201 +"CPD-12245" "vancomycin" [] "C66H76N9O24Cl2" 1450.278 +"CPD-12251" "teicoplanin" [] "C88H99N9O35Cl2" 1913.695 +"CPD-12253" "(R)-2-hydroxybutanoate" ["D-2-hydroxybutyric acid", "(R)-2-hydroxybutyrate", "D-α-hydroxybutyrate", "D-2-hydroxybutyrate"] "C4H7O3" 103.097 +"CPD-12255" "D-homoserine" [] "C4H9NO3" 119.12 +"CPD-12261" "a peptidoglycan with D,D cross-links (meso-diaminopimelate containing)" [] "C267H421N31O96P4" 5725.308 +"CPD-12274" "N-acetyl-β-D-glucosaminyl-(1→4)-D-glucosamine" ["4-O-(N-acetyl-β-D-glucosaminyl)-D-glucosamine", "2-(acetylamino)-4-O-(2-amino-2-deoxy-β-D-glucopyranosyl)-2-deoxy-β-D-glucopyranose", "N-monoacetylchitobiose"] "C14H27N2O10" 383.375 +"CPD-12279" "2-iminoacetate" ["iminoacetic acid", "dehydroglycine", "iminoacetate"] "C2H2NO2" 72.043 +"CPD-12284" "α-Kdo-(2->4)-α-Kdo-(2->4)-α-Kdo-(2->6)-lipid IVA" ["α-Kdo-(2→4)-α-Kdo-(2→4)--α-Kdo-(2→6)-Lipid A", "KDOIII-lipopolysaccharide", "Kdo3-lipid IVA"] "C92H159N2O44P2" 2059.203 +"CPD-12294" "ceftriaxone" ["Ceftriaxonum", "biotrakson", "ceftriaxona", "rocephin", "ceftriazone"] "C18H16N8O7S3" 552.554 +"CPD-12301" "nisin" [] "C143H234N42O37S7" 3358.101 +"CPD-12334" "D-glycero-α-D-manno-heptose 1,7-bisphosphate" ["D-glycero-α-D-manno-heptose 1,7-bisphosphate", "D-α-D-heptose-1,7-bisphosphate", "D-glycero-α-D-manno-heptose 1,7-PP"] "C7H12O13P2" 366.112 +"CPD-12345" "N-(ADP-D-ribosyl)diphthamide-[translation elongation factor 2]" ["elongation factor 2 N-(ADP-D-ribosyl)diphthamide", "EF-2 N-(ADP-D-ribosyl)diphthamide", "peptide N-(ADP-D-ribosyl)diphthamide"] null null +"CPD-12365" "8-oxo-dGMP" ["7,8-dihydro-8-oxo-2'-dGMP", "2'-deoxy-7,8-dihydro-8-oxo-guanosine 5'-phosphate", "8-oxo-deoxyguanosine-monophosphate"] "C10H12N5O8P" 361.207 +"CPD-12366" "8-oxo-GTP" ["7,8-dihydro-8-oxoguanosine 5'-triphosphate"] "C10H12N5O15P3" 535.151 +"CPD-12367" "8-oxo-GMP" ["7,8-dihydro-8-oxo-guanosine 5'-phosphate"] "C10H12N5O9P" 377.207 +"CPD-12377" "hydroxyl radical" [] "HO" 17.007 +"CPD-12378" "melanochrome" [] null null +"CPD-12427" "7,8-dihydro-8-oxoguanine" ["8-oxoguanine"] "C5H5N5O2" 167.127 +"CPD-1244" "α-maltose 6'-phosphate" [] "C12H21O14P" 420.263 +"CPD-12443" "perillate" ["perillic acid", "perillyl carboxylate", "4-(1-methylethenyl)-1-cyclohexene-1-carboxylic acid", "4-isopropenylcyclohex-1-enecarboxylic acid"] "C10H13O2" 165.211 +"CPD-12454" "malonyl-CoA methyl ester" [] "C25H36N7O19P3S" 863.576 +"CPD-12457" "taurodeoxycholate" [] "C26H44NO6S" 498.697 +"CPD-12470" "cysteine tryptophylquinone" ["CTQ"] null null +"CPD-12485" "3,6,8-trimethylallantoin" ["1,3-dimethyl-1-(1-methyl-2,5-dioxo-4-imidazolidinyl)urea"] "C7H12N4O3" 200.197 +"CPD-12515" "α-L-idopyranuronate" ["IdoA"] "C6H9O7" 193.133 +"CPD-12520" "2'-deoxyuridine 5'-α,β-imido-diphosphate" ["α,β imido dUDP"] "C9H12N3O10P2" 384.155 +"CPD-12521" "β-D-glucuronate" ["β-D-glucuronic acid", "β-D-glucopyranuronic acid"] "C6H9O7" 193.133 +"CPD-12523" "α-D-galacturonate" ["α-D-galacturonic acid"] "C6H9O7" 193.133 +"CPD-12524" "β-D-galacturonate" ["β-D-galacturonic acid"] "C6H9O7" 193.133 +"CPD-12537" "β-D-fructuronate" ["β-D-fructuronic acid"] "C6H9O7" 193.133 +"CPD-12538" "α-D-glucosamine" [] "C6H14NO5" 180.18 +"CPD-12539" "β-D-glucosamine" [] "C6H14NO5" 180.18 +"CPD-12546" "3'-azido-3'-deoxythymidine 5'-phosphate" ["3'-azido-3'-deoxythymidine monophosphate", "AZTMP", "Zidovudine monophosphate", "Zidovudine 5'-monophosphate", "ZDVMP"] "C10H12N5O7P" 345.208 +"CPD-12548" "UDP-D-xylose" [] "C14H20N2O16P2" 534.263 +"CPD-12575" "UDP-α-D-glucose" ["UDPG", "UDP-glucose", "UDP-D-glucose", "UDP-α-D-glucopyranose"] "C15H22N2O17P2" 564.289 +"CPD-12587" "(2E,6E)-farnesyl phosphate" ["2,6,10-dodecatrien-1-ol, 3,7,11-trimethyl-, dihydrogen phosphate, (2E,6E)-", "2,6,10-dodecatrien-1-ol, 3,7,11-trimethyl-, dihydrogen phosphate, (E,E)", "(E,E)-farnesyl monophosphate", "(E,E)-farnesyl phosphate", "(trans, trans)-farnesyl monophosphate", "2-trans,-6-trans-farnesyl monophosphate", "2-trans,-6-trans-farnesyl phosphate"] "C15H25O4P" 300.334 +"CPD-12601" "β-D-mannopyranose" [] "C6H12O6" 180.157 +"CPD-12642" "a 3-oxoacid" ["3-oxygen acid", "3-oxy acid", "a 3-oxo acid", "a β-keto acid", "a 3-ketoacid", "a β-oxto acid"] null null +"CPD-12742" "3-phenylserine" [] null null +"CPD-12763" "5-aminopentanal" ["1-amino-5-oxopentane"] "C5H12NO" 102.156 +"CPD-12773" "α-D-glucopyranosyl-diphosphoundecaprenol" ["α-D-glucose-diphosphoundecaprenol", "α-D-glucosyl-diphosphoundecaprenol", "undecaprenol-diphosphate-glucose"] "C61H100O12P2" 1087.401 +"CPD-12792" "Reactive Blue 5" ["1-Amino-4-{[3-({4-chloro-6-[(3-sulfophenyl)amino]-1,3,5-triazin-2-yl}amino)-4-sulfophenyl]amino}-9,10-dihydro-9,10-dioxoanthracene-2-sulfonic acid"] "C29H21N7O11S3Cl" 775.158 +"CPD-12795" "Reactive Blue 19" [] "C22H16N2O11S3" 580.555 +"CPD-12796" "2,2'-azino-bis-(3-ethylbenzothiazoline-6-sulfonate)" ["ABTS", "2,2'-azino-di-(3-ethylbenzothiazoline-6-sulfonate)", "2,2'-azino-di-(3-ethylbenzothiazoline)-6-sulfonic acid"] "C18H16N4O6S4" 512.588 +"CPD-12797" "2,6-dimethoxyphenol" ["DMP", "1,3-di-O-methylpyrogallol", "1,3-dimethoxy-2-hydroxybenzene", "1,3-dimethyl pyrogallate", "2-hydroxy-1,3-dimethoxybenzene", "pyrogallol 1,3-dimethyl ether"] "C8H10O3" 154.165 +"CPD-12799" "hypochlorous acid" ["HClO", "HOCl", "hypochloric acid"] "HOCl" 52.46 +"CPD-12800" "hypochlorite" [] "OCl" 51.452 +"CPD-12809" "a heme-thiolate prosthetic group" [] null null +"CPD-12814" "CDP-1,2-dioctadecanoylglycerol" [] "C48H87N3O15P2" 1008.174 +"CPD-12815" "CDP-1,2-dipalmitoylglycerol" [] "C44H79N3O15P2" 952.067 +"CPD-12816" "phosphatidylserine (dioctadecanoyl, n-C18:0)" [] "C42H81NO10P" 791.076 +"CPD-12817" "1,2-dipalmitoyl-phosphatidylserine" ["phosphatidylserine (dihexadecanoyl, n-C16:0)"] "C38H73NO10P" 734.969 +"CPD-12818" "1,2-dioctadecanoyl-phosphatidyl-ethanolamine" ["phosphatidylethanolamine (dioctadecanoyl, n-C18:0)"] "C41H82NO8P" 748.074 +"CPD-12819" "1,2-dipalmitoyl-phosphatidyl-ethanolamine" ["phosphatidylethanolamine (dihexadecanoyl, n-C16:0)"] "C37H74NO8P" 691.967 +"CPD-12820" "phosphatidylglycerolphosphate (1,2-di-stearoyl)" ["phosphatidylglycerophosphate (dioctadecanoyl, n-C18:0)"] "C42H81O13P2" 856.042 +"CPD-12821" "phosphatidylglycerolphosphate (1,2-di-palmitoyl)" ["phosphatidylglycerophosphate (dihexadecanoyl, n-C16:0)", "1,2-dipalmitoyl-phosphatidylglycerol-phosphate"] "C38H73O13P2" 799.934 +"CPD-12822" "phosphatidylglycerol (dioctadecanoyl, n-C18:0)" [] "C42H82O10P" 778.078 +"CPD-12824" "cardiolipin (tetrahexadecanoyl, n-C16:0)" [] "C73H140O17P2" 1351.846 +"CPD-12826" "folate" ["folic acid"] "C19H17N7O6" 439.387 +"CPD-12843" "ciprofloxacin" ["Ciproxan", "Cipro", "1-cyclopropyl-6-fluoro-1,4-dihydro-4-oxo-7-(1-piperazinyl)-3-quinolinecarboxylic acid", "1-cyclopropyl-6-fluoro-4-oxo-7-(piperazin-1-yl)-1,4-dihydroquinoline-3-carboxylic acid", "1-cyclopropyl-6-fluoro-4-oxo-7-piperazin-1-ylquinoline-3-carboxylic acid"] "C17H18N3O3F" 331.346 +"CPD-12849" "(1E,3E)-4-hydroxybuta-1,3-diene-1,2,4-tricarboxylate" ["4-carboxy-2-hydroxyhexa-2,4-cis,cis-dienedioate", "4-carboxy-2-hydroxy-cis,cis-muconate"] "C7H3O7" 199.096 +"CPD-12980" "an oligosaccharide with 4-deoxy-6-O-methyl-α-D-galact-4-enuronate end" ["a pectin oligosaccharide with 4-(4-deoxy-α-D-galact-4-enuronosyl)-D-galacturonate end", "an unsaturated pectin oligosaccharide", "4-deoxy-6-O-methyl-α-D-galact-4-enuronoside", "4-deoxy-6-O-methyl-α-D-gluc-4-enuronoside"] null null +"CPD-12981" "a 4-deoxy-α-L-erythro-hex-4-enopyranuronoside" ["an oligosaccharide with 4-deoxy-α-L-erythro-hex-4-enopyranuronosyl end", "an oligosaccharide with 4-deoxy-α-L-erythro-hex-4-enuronosyl end"] null null +"CPD-12985" "4-deoxy-α-L-threo-hex-4-enopyranoside" ["an oligosaccharide with 4-deoxy-α-L-threo-hex-4-enuronosyl end", "an oligosaccharides with 4-deoxy-α-D-gluc-4-enuronosyl end", "an oligosaccharides with 4-deoxy-β-D-gluc-4-enuronosyl end", "4-deoxy-β-D-gluc-4-enuronoside", "an oligosaccharides with 4-deoxy-α-L-threo-hex-4-enopyranosyl end"] null null +"CPD-12991" "β-aspartyl dipeptide" [] null null +"CPD-12996" "5,10-methylenetetrahydropteroyl tri-L-glutamate" ["5,10-methylene-H4PteGlu3"] "C30H33N9O12" 711.644 +"CPD-13005" "cellulose polysulfate" [] null null +"CPD-1301" "tetrahydropteroyl tri-L-glutamate" ["H4PteGlu3"] "C29H33N9O12" 699.633 +"CPD-1302" "5-methyltetrahydropteroyl tri-L-glutamate" ["N5-methyl--H4PteGlu3", "N5-methyltetrahydropteroyl tri-L-glutamate"] "C30H35N9O12" 713.66 +"CPD-13025" "guanosine 2'-monophosphate" [] "C10H12N5O8P" 361.207 +"CPD-13034" "(2E)-3-(5,6-dihydroxycyclohexa-1,3-dien-1-yl)prop-2-enoate" ["cis-3-(3-carboxyethenyl)-3,5-cyclohexadiene-1,2-diol", "cis-3-(3-carboxyethenyl)-3,5-cyclohexadiene-1,2-diol", "3-(cis-5,6-dihydroxycyclohexa-1,3-dien-1-yl)prop-2-enoate", "(2E)-3-[(5R,6S)-5,6-dihydroxycyclohexa-1,3-dien-1-yl]prop-2-enoate"] "C9H9O4" 181.168 +"CPD-13043" "7-carboxy-7-deazaguanine" [] "C7H5N4O3" 193.141 +"CPD-13059" "2-keto-L-gulonate" ["2-dehydro-L-gulonate", "2-dehydro-L-idonate", "2-keto-L-idonate", "L-sorbosonate", "2-oxo-L-gulonate", "2oxo-L-idonate", "L-xylo-2-hexulosonate", "L-xylo-2-hex-2-ulosonate"] "C6H9O7" 193.133 +"CPD-13118" "GDP-β-L-fucose" ["GDP-β-L-fucopyranose", "GDP-L-fucose", "guanosine diphosphate fucose", "GDP-L-fucopyranose", "GDP-L-Fuc", "GDP-L-Fucp"] "C16H23N5O15P2" 587.33 +"CPD-13122" "4-deoxy-L-threo-hex-4-enopyranuronate" ["(3R,4S)-2,3,4-trihydroxy-3,4-dihydro-2H-pyran-6-carboxylic acid", "4-deoxy-L-threo-5-hexosulose-uronic acid", "4-deoxy-L-threo-5-hexosulose-uronate", "4-deoxy-L-threo-hex-4-enopyranuronate", "4-deoxy-L-threo-5-hexosulose-uronate", "4-deoxy-β-L-threo-hex-4-enopyranuronose"] "C6H7O6" 175.118 +"CPD-13158" "polymyxin E2" ["colistin B"] "C52H103N16O13" 1160.485 +"CPD-13198" "an exposed unphosphorylated, unbranched malto-oligosaccharide tail on amylopectin" [] null null +"CPD-13227" "N,N',N''-triacetylchitotriose" ["triacetylchitotriose"] "C24H41N3O16" 627.598 +"CPD-13243" "geranyl monophosphate" ["geranyl-monophosphate", "geranyl-phosphate", "(E)-geranyl phosphate", "geranyl-P", "trans-geranyl phosphate"] "C10H17O4P" 232.216 +"CPD-13245" "8-anilinonaphthalenesulfonate" ["8-anilino-1-naphthalenesulfonic acid", "8-anilino-1-naphthalenesulfonate", "8-anilinonaphthalene-1-sulfonate", "ANS"] "C16H12NO3S" 298.336 +"CPD-13314" "dihydrocurcumin" [] "C21H22O6" 370.401 +"CPD-13315" "tetrahydrocurcumin" [] "C21H24O6" 372.417 +"CPD-13319" "3-methylguanine" ["3-MeG", "2-amino-3-methyl-3,9-dihydro-6H-purin-6-one"] "C6H7N5O" 165.154 +"CPD-13320" "7-methyladenine" [] "C6H7N5" 149.155 +"CPD-13321" "3-octen-2-one" ["trans-3-octen-2-one", "(3E)-3-octen-2-one"] "C8H14O" 126.198 +"CPD-13322" "(E)-hept-3-en-2-one" ["butylideneacetone", "3-hepten-2-one", "methyl pentenyl ketone", "(3E)-3-hepten-2-one"] "C7H12O" 112.171 +"CPD-13323" "trans-2-octenal" ["2-octenal", "(E)-oct-2-enal", "2-octenel", "trans-2-octen-1-al"] "C8H14O" 126.198 +"CPD-13327" "a lycopanerol" [] null null +"CPD-13343" "vinylglycine" ["2-amino-3-butenoic acid", "2-aminobut-3-enoic acid", "D,L-vinylglycine"] "C4H7NO2" 101.105 +"CPD-13353" "(2S,3E)-2-amino-4-(2-aminoethoxy)but-3-enoate" ["aminoethoxyvinylglycine", "Aviglycine", "L-2-amino-4-(2-aminoethoxy)-trans-3-butenoic acid", "L-trans-2-amino-4-(2-aminoethoxy)-3-butenoic acid", "(S-(E))-2-amino-4-(2-aminoethoxy)-3-butenoic acid", "L-2-amino-4-(2'-aminoethoxy)-trans-3-butenoic acid", "AVG"] "C6H13N2O3" 161.18 +"CPD-13357" "(2R)-2,3-dihydroxy-3-methylbutanoate" ["(R)-2,3-dihydroxy-3-methylbutanoate", "(R)-2,3-dihydroxy-isovalerate"] "C5H9O4" 133.124 +"CPD-13390" "L-methionyl-L-alanine dipeptide" ["L-Met-L-Ala", "Met-Ala"] "C8H16N2O3S" 220.286 +"CPD-13393" "glycyl-L-methionine" ["gly-met", "N-glycyl-L-methionine"] "C7H14N2O3S" 206.259 +"CPD-13394" "glycyl-L-glutamine" ["gly-gln"] "C7H13N3O4" 203.197 +"CPD-13395" "glycyl-L-asparagine" ["gly-asn"] "C6H11N3O4" 189.171 +"CPD-13397" "L-alanyl-L-threonine" ["Ala-Thr"] "C7H14N2O4" 190.199 +"CPD-13398" "L-alanyl-L-leucine" ["Ala-Leu"] "C9H18N2O3" 202.253 +"CPD-13399" "turanose" ["D-(+)-turanose", "D-turanose", "α-D-glucopyranose-(1→3)-β-D-fructose", "β-turanose", "3-O-α-D-glucopyranosyl-D-fructose"] "C12H22O11" 342.299 +"CPD-13401" "L-alanyl-L-histidine" ["ala-his"] "C9H14N4O3" 226.235 +"CPD-13403" "L-alanyl-L-glutamine" ["ala-gln"] "C8H15N3O4" 217.224 +"CPD-13404" "L-alanyl-L-aspartate" ["ala-asp"] "C7H11N2O5" 203.174 +"CPD-13405" "bromosuccinate" ["DL-bromosuccinic acid", "DL-2-bromosuccinate", "bromosuccinic acid"] "C4H3O4Br" 194.969 +"CPD-13406" "glycyl-L-aspartate" ["gly-asp", "glycyl-L-aspartic acid"] "C6H9N2O5" 189.147 +"CPD-13407" "D,L-lactamide" [] "C3H7NO2" 89.094 +"CPD-13409" "melezitose" ["melizitose", "O-α-D-glucopyranosyl-(1,3)-β-D-fructofuranosyl-α-D-glucopyranoside", "D-melezitose"] "C18H32O16" 504.441 +"CPD-13413" "D-ribono-1,4-lactone" ["ribonolactone", "D-ribopentono-1,4-lactone", "ribono-γ-lactone", "D-(+)-ribono-1,4-lactone"] "C5H8O5" 148.115 +"CPD-13414" "α-hydroxyglutarate-γ-lactone" ["tetrahydro-5-oxo-(2S)-2-furancarboxylic acid", "a-hydroxyglutaric acid-g-lactone", "α-hydroxyglutaric acid-γ-lactone"] "C5H5O4" 129.092 +"CPD-13428" "α-L-galactopyranose" ["α-L-galactose"] "C6H12O6" 180.157 +"CPD-13469" "α-D-glucosamine 6-phosphate" ["α-D-glucosamine phosphate", "α-D-glucosamine 6-phosphate", "α-α-D-glucosamine-6-P"] "C6H13NO8P" 258.144 +"CPD-13545" "chitobiose" ["β-D-glucosaminyl-(1→4)-β-D-glucosamine", "2-amino-4-O-(2-amino-2-deoxy-β-D-glucopyranosyl)-2-deoxy-β-D-glucopyranose"] "C12H26N2O9" 342.345 +"CPD-13559" "α-D-mannopyranose" [] "C6H12O6" 180.157 +"CPD-13575" "2-[(2R,5Z)-2-carboxy-4-methylthiazol-5(2H)-ylidene]ethyl phosphate" ["cThz*-P", "thiazole tautomer", "(R,Z)-2-(2-carboxy-4-methylthiazol-5(2H)-ylidene)ethyl phosphate"] "C7H7NO6PS" 264.169 +"CPD-13584" "cyanide" ["CN-"] "CN" 26.018 +"CPD-13593" "5-bromo-4-chloro-3-indoxyl phosphate" [] "C8H4NO3PClBr" 308.455 +"CPD-13594" "p-toluidine" [] "C7H9N" 107.155 +"CPD-13595" "cetyltrimethylammonium" [] "C19H42N" 284.547 +"CPD-13746" "β-1,4-D-mannobiose" ["4-O-D-mannopyranosyl-D-mannose", "β-D-mannopyranosyl-(1→4)-D-mannose", "β-D-mannopyranosyl-(1→4)-D-mannopyranose"] "C12H22O11" 342.299 +"CPD-13804" "erythromycin A" ["ilotycin"] "C37H68NO13" 734.943 +"CPD-13829" "α-D-rhamnopyranose" ["α-D-rhamnose"] "C6H12O5" 164.158 +"CPD-13838" "[β-D-GlcA-(1→4)-2-O-Ac-β-D-GlcA-(1→4)-β-D-Glc-(1→4)-[3-O-3-O-(CH3CH(OH)CH2C(O))-4,6-CH3(COO-)C-β-D-Gal-(1→4)-β-D-Glc-(1→4)-β-D-Glc-(1→4)-β-D-Glc-(1→6)]-2(or3)-O-Ac-α-D-Glc-(1→6)]n" [] null null +"CPD-13839" "Rhizobium leguminosarum exopolysaccharide octasaccharide repeating unit" ["[6)-D-GlcA-β-(1→4)-2-O-Ac-D-GlcA-β-(1→4)-D-Glc-β-(1→4)-[3-O-CH3-CH2CH(OH)C(O)-4,6-CH3(COO)C-D-Gal-β-(1→3)-4,6-CH3(COO)C-D-Glc-β-(1→4)-D-Glc-β-(1→4)-D-Glc-β-(1→6)]-2-O-Ac-D-Glc-α-(1→"] null null +"CPD-13840" "[β-D-GlcA-(1→4)-2-O-Ac-β-D-GlcA-(1→4)-β-D-Glc-(1→4)-[3-O-3-O-(CH3CH(OH)CH2C(O))-4,6-CH3(COO-)C-β-D-Gal-1→3)-4,6-CH3(COO-)C-β-D-Glc-(1→4)-β-D-Glc-(1→4)-β-D-Glc-(1→6)]-2(or3)-O-Ac-α-D-Glc-(1→6)]n" ["Rhizobium leguminosarum exopolysaccharide octasaccharide repeating unit"] null null +"CPD-13851" "2-hydroxy-dATP" ["2-hydroxy-2'-deoxyadenosine 5'-triphosphate", "2'-deoxyisoguanosine triphosphate"] "C10H12N5O13P3" 503.152 +"CPD-13852" "2-hydroxy-dAMP" ["2-OH-dAMP", "2-hydroxy-2'-deoxyadenosine 5'-monophosphate"] "C10H12N5O7P" 345.208 +"CPD-13853" "8-oxo-dGDP" ["7,8-dihydro-8-oxo-dGDP", "2'-deoxy-7,8-dihydro-8-oxo-guanosine 5'-diphosphate"] "C10H12N5O11P2" 440.179 +"CPD-13859" "methacrylate" ["methacrylic acid"] "C4H5O2" 85.082 +"CPD-13890" "4-(oxoacetyl)phenoxyacetate" ["4-(oxoacetyl)phenoxyacetic acid", "2-(4-oxaldehydoylphenoxy)acetic acid"] "C10H7O5" 207.162 +"CPD-13892" "clindamycin" [] "C18H34N2O5SCl" 425.99 +"CPD-13895" "phenelzine" ["phenethylhydrazine", "β-phenylethylhydrazine", "Nardil", "Fenelzyna", "Fenelzyne", "Phenelzinum"] "C8H12N2" 136.196 +"CPD-13898" "pargyline" ["Eudatin", "N-methyl-N-propargylbenzylamine", "Pargylamine", "Paragyline", "Supirdyl", "Eutonyl", "N-methyl-N-2-propynylbenzylamine"] "C11H13N" 159.23 +"CPD-13907" "dehydroascorbate (bicyclic form)" ["dehydroascorbate monohydrate"] "C6H8O7" 192.125 +"CPD-13908" "selenodiglutathione" ["GSSeSG"] "C20H30N6O12S2Se" 689.57 +"CPD-13910" "cyclic- 3,4-O-oxalyl-L-threonate" ["3,4-cyclic oxalyl theronolactone"] "C6H5O7" 189.101 +"CPD-13914" "cyclic-2,3-O-oxalyl-L-threonate" ["2,3-cyclic oxalyl theronolactone"] "C6H5O7" 189.101 +"CPD-13918" "adenine arabinoside" ["Vidarabine", "2-(6-amino-purin-9-yl)-5-hydroxymethyl-tetrahydro-furan-3,4-diol", "9--D-arabinofuranosyl-9H-purin-6-amine", "9-β-D-arabinofuranosyladenine", "Spongoadenosine"] "C10H13N5O4" 267.244 +"CPD-13927" "(Z)-2-methylureidoacrylate peracid" ["(Z)-2-methylureidoperacrylic acid", "(2Z)-3-(carbamoylamino)-2-methylprop-2-eneperoxoic acid"] "C5H8N2O4" 160.129 +"CPD-13930" "(Z)-2-methyl-peroxyaminoacrylate" [] "C4H7NO3" 117.104 +"CPD-13944" "L-alanosine" ["alanosine", "3-(hydroxynitrosoamino)-L-alanine"] "C3H7N3O4" 149.106 +"CPD-13962" "daunorubicin" ["daunomycin", "rubidomycin"] "C27H30NO10" 528.535 +"CPD-13973" "doxorubicin" ["14-hydroxydaunomycin", "14-hydroxydaunorubicine", "adriamycin"] "C27H30NO11" 544.534 +"CPD-13992" "2,2'-disulfonyl azobenzene" [] "C12H8N2O6S2" 340.325 +"CPD-13993" "3-[(4-amino-6-chloro-1,3,5-triazin-2-yl)amino]benzenesulfonate" [] "C9H7N5O3SCl" 300.699 +"CPD-14" "tetrathionate" ["S4O6-2", "S4O62-", "tetrathionic acid", "thioperoxydisulfuric acid"] "O6S4" 224.236 +"CPD-14020" "dTDP-4-amino-4,6-dideoxy-D-galactose" [] "C16H26N3O14P2" 546.341 +"CPD-14021" "UDP-N-acetyl-α-D-glucosamine 3'-phosphate" ["UNAG-3P", "UDP-N-acetyl-α-D-glucosamine 3-phosphate", "UDP-N-acetyl-D-glucosamine 3'-phosphate"] "C17H24N3O20P3" 683.306 +"CPD-14022" "α-terpineol" ["α-terpineol"] "C10H18O" 154.252 +"CPD-14024" "3-carene" ["3,7,7-trimethyl bicyclohept-3-ene", "car-3-ene"] "C10H16" 136.236 +"CPD-14101" "8-oxo-GDP" ["8-oxo-guanosine diphosphate"] "C10H12N5O12P2" 456.179 +"CPD-14133" "(R)-NADPHX" [] "C21H28N7O18P3" 759.41 +"CPD-14142" "neomycin B" ["fradiomycin B", "framycetin"] "C23H52N6O13" 620.696 +"CPD-14154" "tobramycin" [] "C18H42N5O9" 472.558 +"CPD-14197" "amikacin" [] "C22H47N5O13" 589.639 +"CPD-14202" "L-erythro-7,8-dihydrobiopterin" ["L-erythro-q-dihydrobiopterin"] "C9H13N5O3" 239.233 +"CPD-143" "nitroglycerin" ["NG", "glycerol trinitrate"] "C3H5N3O9" 227.087 +"CPD-14306" "[(1S)-2,2,3-trimethyl-4-oxocyclopentyl]acetate" ["(1S)-α-campholonate (keto form)"] "C10H15O3" 183.227 +"CPD-14325" "citramalate" ["2-methylmalic acid", "(R,S)-citramalate", "(R,S)-citramalic acid", "α-hydroxypyrotartaric acid", "D,L-citramalate", "D,L-citramalic acid", "2-methylmalate", "citramalic acid"] "C5H6O5" 146.099 +"CPD-14332" "prenyl phosphate" ["dimethylallyl phosphate", "3,3-dimethylallyl phosphate"] "C5H9O4P" 164.097 +"CPD-14441" "(3E)-2-oxopent-3-enoate" [] "C5H5O3" 113.093 +"CPD-14442" "(2Z)-2,4-dihydroxypent-2-enoate" [] "C5H7O4" 131.108 +"CPD-14443" "(2S,4S)-4-hydroxy-2,3,4,5-tetrahydrodipicolinate" ["(4S)-4-hydroxy-2,3,4,5-tetrahydro-(2S)-dipicolinate"] "C7H7NO5" 185.136 +"CPD-14445" "1,4-bis-{[N-(1-imino-1-guanidino-methyl)]sulfanylmethyl}-3,6-dimethyl-benzene" [] "C14H26N8S2" 370.533 +"CPD-14447" "(2Z)-2-hydroxypenta-2,4-dienoate" [] "C5H5O3" 113.093 +"CPD-14463" "3-(carboxymethylaminomethyl)-4-hydroxybenzoate" ["3-(carboxymethylaminomethyl)-4-hydroxybenzoic acid"] "C10H10NO5" 224.193 +"CPD-14474" "(3R)-β-phenylalanine" ["L-β-phenylalanine", "(R)-β-phenylalanine"] "C9H11NO2" 165.191 +"CPD-14488" "α-D-glucuronate" ["α-D-glucuronic acid", "α-D-glucopyranuronic acid"] "C6H9O7" 193.133 +"CPD-14545" "2-nitroimidazole" ["azomycin", "2-nitro-1H-imidazole"] "C3H3N3O2" 113.076 +"CPD-14553" "UDP-α-D-galactose" ["UDP-α-D-galactopyranose", "UDP-galactose"] "C15H22N2O17P2" 564.289 +"CPD-14577" "a plant arabinogalactan-[protein]" ["a plant [protein]-arabinogalactan"] null null +"CPD-14581" "a rhamnogalacturonan type II" ["rhamnogalacturonan II", "RG-II"] null null +"CPD-14729" "(3Z)-oct-3-enoyl-CoA" ["3-cis-octenoyl coenzyme A", "3-cis-octenoyl-CoA"] "C29H44N7O17P3S" 887.685 +"CPD-14730" "3-cis-tetradecenoyl-CoA" ["3-cis-tetradecenoyl coenzyme A"] "C35H56N7O17P3S" 971.845 +"CPD-14736" "L-kynurenine" ["kynurenine"] "C10H12N2O3" 208.216 +"CPD-14762" "2''-O-acetyl-ADP-ribose" ["2''-OAADPr"] "C17H23N5O15P2" 599.341 +"CPD-14763" "3''-O-acetyl-ADP-ribose" [] "C17H23N5O15P2" 599.341 +"CPD-148" "octane" ["n-octane"] "C8H18" 114.23 +"CPD-1484" "Al3+" ["Al+++", "aluminium(III)", "AlIII"] "Al" 26.98 +"CPD-1486" "Ag2+" ["Ag++", "silver(II)", "AgII"] "Ag" 107.87 +"CPD-1490" "Sn2+" ["Sn++", "SnII", "tin(II)", "tin (II) ion"] "Sn" 118.69 +"CPD-14916" "(R)-3-hydroxyoctanoyl-CoA" ["(R)-3-hydroxyoctanoyl-CoA", "(3R)-3-hydroxyoctanoyl-CoA"] "C29H46N7O18P3S" 905.7 +"CPD-1492" "Be2+" ["Be++", "BeII"] "Be" 9.012 +"CPD-14925" "(3Z)-dec-3-enoyl-CoA" ["3-cis-decenoyl-CoA", "10:1(n-7)-CoA", "10:1-Δ3-CoA", "(3Z)-decenoyl-CoA"] "C31H48N7O17P3S" 915.738 +"CPD-14931" "4a-hydroxy-N10-formyltetrahydrofolate" ["a 10-formyltetrahydrofolate-4a-carbinolamine", "4a-hydroxy-10-formyltetrahydrofolate"] null null +"CPD-14932" "N10-formyl-7,8-dihydrofolate" ["N10-formyldihydrofolate"] "C20H19N7O7" 469.413 +"CPD-15002" "cyanidin-3-O-rutinoside-5-O-β-D-glucoside" ["cyanidin 3-rutinoside-5-glucoside", "a cyanidin-3-O-rutinoside-5-O-β-D-glucoside"] "C33H40O20" 756.667 +"CPD-15011" "an N-acetyl-β-D-galactosaminyl-(1→4)-[α-N-acetylneuraminyl-(2→3)]-β-D-galactosyl-(1→4)-β-D-glucosyl-(1↔1)-ceramide" ["an N-acetyl-D-galactosaminyl-1,4-α-N-acetylneuraminyl-2,3-α-D-galactosyl-1,4-β-D-glucosylceramide", "an N-acetyl-α-D-galactosaminyl-1,4-(α-N-acetylneuraminyl)-2,3-α-D-galactosyl-1,4-β-D-glucosylceramide"] null null +"CPD-15015" "4-hydroxy-2-oxoglutarate" ["4-hydroxy-2-keto-glutarate", "2-keto-4-hydroxyglutarate", "2-oxo-4-hydroxyglutarate", "4-hydroxy-2-ketoglutarate"] "C5H4O6" 160.083 +"CPD-15016" "(4S)-4-hydroxy-2-oxoglutarate" ["L-4-hydroxy-2-oxoglutarate", "L-4-hydroxy-2-ketoglutarate", "(S)-2-hydroxy-4-oxopentanedioate"] "C5H4O6" 160.083 +"CPD-15019" "8-hydroxy-dADP" [] "C10H12N5O10P2" 424.18 +"CPD-15056" "(2Z)-2-aminobut-2-enoate" [] "C4H6NO2" 100.097 +"CPD-15057" "4-hydroxy-L-glutamate" ["(2S)-2-ammonio-4-hydroxypentanedioate", "hydrogen 4-hydroxy-L-glutamate"] "C5H8NO5" 162.122 +"CPD-15127" "5-deoxy-D-glucuronate" [] "C6H9O6" 177.133 +"CPD-15157" "5-phospho-D-arabinonohydroxamate" ["5-phospho-D-arabinonohydroxamic acid"] "C5H10NO9P" 259.109 +"CPD-15158" "5-hydroxy-CMP" ["5-hydroxycytidine monophosphate"] "C9H12N3O9P" 337.182 +"CPD-15159" "(6R)-L-erythro-6,7-dihydrobiopterin" ["erythro-quinonoid dihydro-(6H)-biopterin", "erythro-quinoid dihydrobiopterin", "(6R)-erythro-6,7-dihydrobiopterin"] "C9H13N5O3" 239.233 +"CPD-15180" "a 1-acyl-sn-glycero-3-phospho-D-myo-inositol" [] null null +"CPD-15189" "chenodeoxycholate" ["3α, 7α-dihydroxy-5β-cholanic acid", "chenodexycholic acid", "chenodiol", "chenic acid", "CDCA"] "C24H39O4" 391.57 +"CPD-15205" "β-D-mannuronate" [] "C6H9O7" 193.133 +"CPD-15237" "glucosyl-(heptosyl)3-glucosyluronate-Kdo2-lipid A-phosphate" [] "C143H248N2O71P3" 3224.424 +"CPD-15238" "lipid A-core-phosphoethanolamine (hep I)" ["phosphoethanolamine modifed Lipid A", "galactosyl-(glucosyl)3-(heptosyl)4-Kdo2-lipid A-bisphosphate-phosphoethanolamine"] "C172H302N4O97P5" 4133.115 +"CPD-15242" "lipid A-core-pyrophosphoethanolamine" [] "C172H302N4O97P5" 4133.115 +"CPD-15244" "3-oxo-(5Z)-tetradecenoyl-CoA" ["3-oxo-5-cis-tetradecenoyl-CoA", "3-oxo-14:1-Δ5-CoA", "3-keto-5-cis-tetradecenoyl-CoA"] "C35H54N7O18P3S" 985.829 +"CPD-15291" "(-)-epigallocatechin-3-O-gallate" ["[(2R,3R)-5,7-dihydroxy-2-(3,4,5-trihydroxyphenyl)-3,4-dihydro-2H-chromen-3-yl] 3,4,5-trihydroxybenzoate", "(-)-epigallocatechin 3-gallate"] "C22H18O11" 458.378 +"CPD-15302" "platensimycin" ["PMN", "(-)-platensimycin"] "C24H26NO7" 440.472 +"CPD-15317" "D-ribofuranose 5-phosphate" [] "C5H9O8P" 228.095 +"CPD-15318" "α-D-ribose 5-phosphate" ["α-D-ribofuranose 5-phosphate"] "C5H9O8P" 228.095 +"CPD-15326" "2-oxo-4-phenylbutanoate" ["2-oxo-4-phenylbutyrate"] "C10H9O3" 177.179 +"CPD-15332" "9H-purine-2,6,8-triol" ["urate", "uric acid"] "C5H4N4O3" 168.112 +"CPD-15358" "N-(2,3-dihydroxybenzoyl)-L-serine dimer" ["(2,3-dihydroxybenzoylserine)2", "O-3-[N-(2,3-dihydroxybenzoyl)-L-seryl]-N-(2,3-dihydroxybenzoyl)-L-serine"] "C20H19N2O11" 463.377 +"CPD-15360" "N6-(3-methylbut-2-en-1-yl)-2-thioadenosine37 in tRNA" ["tRNA-(2-thio-N6-dimethylallyladenosine37)", "a tRNA containing 2-thio-N6-dimethylallyladenosine37", "2-thio-N6-dimethylallyladenosine37 in tRNA", "2-sulfanyl-N6-dimethylallyladenosine37 in tRNA"] null null +"CPD-15373" "aldehydo-D-mannose" [] "C6H12O6" 180.157 +"CPD-15374" "aldehydo-D-glucose" ["(2R,3S,4R,5R)-2,3,4,5,6-pentahydroxyhexanal", "linear D-glucose"] "C6H12O6" 180.157 +"CPD-15377" "aldehydo-D-xylose" ["linear D-xylose"] "C5H10O5" 150.131 +"CPD-15382" "keto-D-fructose" [] "C6H12O6" 180.157 +"CPD-15384" "L-alanyl-γ-D-glutamyl-L-lysyl-D-alanyl-D-alanine" ["L-Ala-g-D-Glu-L-Lys-D-Ala-D-Ala)", "peptidoglycan pentapeptide"] "C20H36N6O8" 488.54 +"CPD-15390" "2'-deoxyguanosine 3'-monophosphate" ["2'-Deoxyguanosine 3'-(dihydrogen phosphate)", "2'-Deoxyguanosine 3'-phosphate", "2'-deoxy-3'GMP"] "C10H12N5O7P" 345.208 +"CPD-15391" "2'-deoxyadenosine 3'-monophosphate" ["2'-deoxy-3'AMP", "2'-Deoxy-3'-adenosine monophosphate", "2'-deoxy-3'-adenylic acid"] "C10H12N5O6P" 329.208 +"CPD-15392" "2'-deoxycytidine 3'-monophosphate" [] "C9H12N3O7P" 305.183 +"CPD-15393" "2'-deoxyuridine 3'-monophosphate" [] "C9H11N2O8P" 306.168 +"CPD-154" "an N-acyl-D-mannosaminolactone" [] null null +"CPD-15403" "S-adenosyl-S-carboxymethyl-L-homocysteine" ["Cx-SAM", "carboxy-S-adenosyl-L-methionine"] "C16H22N6O7S" 442.446 +"CPD-15417" "novobiocin" [] "C31H35N2O11" 611.624 +"CPD-15424" "(O-carbamoyl)adenylate" [] "C11H14N6O8P" 389.241 +"CPD-15435" "(L-threonylcarbamoyl)adenylate" [] "C15H19N6O11P" 490.322 +"CPD-15436" "(5Z)-tetradecenoyl-CoA" ["cis-tetradec-5-enoyl-CoA", "14:1 cis-5", "14:1(n-9)", "(5Z)-tetradec-5-enoyl-CoA"] "C35H56N7O17P3S" 971.845 +"CPD-15479" "a mycothiol S-conjugate" [] null null +"CPD-15530" "aldehydo-D-glucuronate" ["aldehydo-D-glucuronic acid"] "C6H9O7" 193.133 +"CPD-15544" "N7-methylguanosine" ["N7-methyl-guanosine", "7-methylguanosine"] "C11H16N5O5" 298.278 +"CPD-15554" "L-homoserine lactone" [] "C4H8NO2" 102.113 +"CPD-15568" "(2E)-tetradec-2-enoyl-CoA" ["(2E)-tetradecenoyl-CoA", "trans-tetradec-2-enoyl-CoA", "2-trans-tetradecenoyl-CoA"] "C35H56N7O17P3S" 971.845 +"CPD-15579" "sulfamate" [] "H2NO3S" 96.081 +"CPD-15583" "a nitrile oxide" [] null null +"CPD-15590" "aldehydo-D-galactose" [] "C6H12O6" 180.157 +"CPD-15616" "keto-L-sorbose" [] "C6H12O6" 180.157 +"CPD-15619" "aldehydo-L-fucose" [] "C6H12O5" 164.158 +"CPD-15629" "aldehydo-D-allose" [] "C6H12O6" 180.157 +"CPD-15633" "aldehydo-D-galacturonate" [] "C6H9O7" 193.133 +"CPD-15660" "3-hydroxypentanoyl-CoA" [] "C26H40N7O18P3S" 863.619 +"CPD-15688" "(3Z,5E)-dodec-3,5-dienoyl-CoA" ["3-cis, 5-trans-dodecadienoyl-CoA"] "C33H50N7O17P3S" 941.776 +"CPD-15694" "3-hydroxy-decanoyl-CoA" [] "C31H50N7O18P3S" 933.753 +"CPD-15699" "aldehydo-L-arabinose" [] "C5H10O5" 150.131 +"CPD-157" "(2Z,4E)-2-hydroxy-6-oxonona-2,4-diene-1,9-dioate" ["(2Z,4E)-2-hydroxy-6-oxo-nona-2,4-diene 1,9-dicarboxylate", "(2Z,4E)-2-hydroxy-6-ketononadienedioic acid", "(2Z,4E)-2-hydroxy-6-ketononadienedicarboxylate", "(2Z,4E)-2-hydroxy-6-ketonona-2,4-dienedioate", "(2Z,4E)-2-hydroxy-6-oxonona-2,4-dienedioate"] "C9H8O6" 212.159 +"CPD-15700" "aldehydo-D-arabinose" [] "C5H10O5" 150.131 +"CPD-15709" "keto-D-fructose 6-phosphate" [] "C6H11O9P" 258.121 +"CPD-15711" "β-D-mannopyranose 6-phosphate" ["β-D-mannose-6-P"] "C6H11O9P" 258.121 +"CPD-15761" "β-D-altrose" ["β-D-altropyranose"] "C6H12O6" 180.157 +"CPD-15762" "α-D-altrose" ["α-D-altropyranose"] "C6H12O6" 180.157 +"CPD-15818" "aldehydo-D-ribose" [] "C5H10O5" 150.131 +"CPD-15826" "keto-D-tagatose 6-phosphate" [] "C6H11O9P" 258.121 +"CPD-15828" "keto-L-tagatose 6-phosphate" [] "C6H11O9P" 258.121 +"CPD-15829" "α-D-ribopyranose" [] "C5H10O5" 150.131 +"CPD-15844" "citramalyl-CoA" ["DL-citramalyl-CoA"] "C26H37N7O20P3S" 892.594 +"CPD-15846" "malyl-CoA" ["(2R)-4-malyl-CoA"] "C25H35N7O20P3S" 878.568 +"CPD-15860" "a holo citrate-lyase" [] null null +"CPD-15861" "a holo malonate-decarboxylase" [] null null +"CPD-15867" "L-lyxopyranose" [] "C5H10O5" 150.131 +"CPD-15868" "aldehydo-L-lyxose" [] "C5H10O5" 150.131 +"CPD-15873" "bis(guanylyl molybdopterin) cofactor" ["bis(molybdopterin guanine dinucleotide)molybdenum cofactor", "Mo(Dtpp-mGDP)2", "bis-MGD", "bis(molybdopterin guanine dinucleotide)molybdenum", "molybdo-bis(pyranopterin guanine dinucleotide)", "mo-bis(molybdopterin guanine dinucleotide)", "Mo-bisPGD", "Mo-bis(pyranopterin guanosine dinucleotide)"] "C40H44N20O27P4S4Mo" 1584.98 +"CPD-15874" "bis(molybdenum cofactor)" ["bis(molybdopterin)molybdenum cofactor", "bis-MPT", "bis(molybdopterin)molybdenum"] "C20H20N10O13P2S4Mo" 894.565 +"CPD-15878" "membrane protein integrase" ["MPIase", "N-acetyl-α-D-fucosyl-(1→4)-N-acetyl-β-D-mannosaminouronyl-(1→4)-N-acetyl-α-D-glucosaminyl-diphosphate-diacylglycerol", "ManNAcA-GlcNAc-Fuc4NAc-diphosphate diacylglycerol"] null null +"CPD-15893" "reduced methyl viologen" [] "C12H16N2" 188.272 +"CPD-15895" "aldehydo-D-ribose 5-phosphate" ["keto-D-ribose 5-phosphate"] "C5H9O8P" 228.095 +"CPD-15909" "aurachin D" [] "C25H33NO" 363.542 +"CPD-15916" "purine-6-thiol" ["1,7-dihydro-6H-purine-6-thione", "mercaptopurine", "6-MP", "6-mercaptopurine"] "C5H4N4S" 152.173 +"CPD-15920" "2-aminopurine" ["9H-purin-2-amine"] "C5H5N5" 135.128 +"CPD-15921" "2-amino-6-hydroxyaminopurine" ["2-amino-N(6)-hydroxyadenine", "guanine oxime"] "C5H6N6O" 166.142 +"CPD-15922" "6-hydroxyaminopurine" ["HAP", "N(6)-Hydroxyadenine", "6-Hydroxylaminopurine", "N-(7H-purin-6-yl)hydroxylamine", "6-N-hydroxyaminopurine", "N-Hydroxyadenine"] "C5H5N5O" 151.127 +"CPD-15939" "an ipsdienol" ["2-methyl-6-methylene-2,7-octadien-4-ol", "2-methyl-6-methyleneocta-2,7-dien-4-ol", "2-methyl-6-methylideneocta-2,7-dien-4-ol"] "C10H16O" 152.236 +"CPD-15942" "josamycin" [] "C42H70NO15" 829.013 +"CPD-15972" "lactose" ["β-D-galactopyranosyl-(1→4)-D-glucopyranose", "D-lactose", "β-D-Galp-(1→4)-D-Glcp"] "C12H22O11" 342.299 +"CPD-15975" "D-cellobiose" ["4-O-β-D-glucopyranosyl--D-glucopyranose", "β-D-glucosyl-(1→4)-D-glucose"] "C12H22O11" 342.299 +"CPD-15978" "D-cellobiose 6'-phosphate" ["D-cellobiose-6'-p", "6'-phospho-β-D-glucosyl-(1,4)-D-glucose"] "C12H21O14P" 420.263 +"CPD-15979" "D-mannopyranose 6-phosphate" ["D-mannopyranose-6-P"] "C6H11O9P" 258.121 +"CPD-15982" "maltose 6'-phosphate" [] "C12H21O14P" 420.263 +"CPD-15990" "trehalose" ["trehalose", "D-trehalose"] "C12H22O11" 342.299 +"CPD-15991" "D-trehalose 6-phosphate" ["trehalose phosphate", "trehalose 6-phosphate"] "C12H21O14P" 420.263 +"CPD-160" "a phosphatidyl-N-dimethylethanolamine" [] null null +"CPD-16009" "Te0" ["elemental tellurium"] null null +"CPD-16013" "2-iminobutanoate" [] "C4H6NO2" 100.097 +"CPD-16015" "2-iminopropanoate" [] "C3H5NO2" 87.078 +"CPD-16020" "2-oxo-2'-deoxyadenosine" ["2'-deoxyisoguanosine"] "C10H13N5O4" 267.244 +"CPD-16154" "α-D-fructofuranose 1-phosphate" ["α-D-fructofuranose-1-P"] "C6H11O9P" 258.121 +"CPD-16168" "N-acetyl-α-D-glucosamine 6-phosphate" [] "C8H14NO9P" 299.174 +"CPD-16183" "N6-benzoyladenine" [] "C12H9N5O" 239.236 +"CPD-16184" "β-D-galactosyl-(1→3)-N-acetyl-D-galactosamine" ["D-galactosyl-3-N-acetyl-D-galactosamine", "3-O-β-D-galactosyl-N-acetyl-D-galactosamine"] "C14H25NO11" 383.352 +"CPD-16348" "3-hydroxytetracosanoyl-CoA" [] "C45H78N7O18P3S" 1130.129 +"CPD-16398" "an E. coli osmoregulated periplasmic glucan (OPG)" ["an E. coli MDO-D-glucose", "an E. coli membrane derived oligosaccharide"] null null +"CPD-16400" "an osmoregulated periplasmic glucan with phosphoglycerol substituent" ["an MDO-6-(glycerophospho)-D-glucose", "an OPG-6-(sn-1-phosphoglycero)-β-D-glucan", "an E. coli MDO-D-glucose with phosphoglycerol substituent"] null null +"CPD-16401" "an E. coli osmoregulated periplasmic glucan with phosphotidylethanolamine substituent" [] null null +"CPD-16444" "polymyxin A" [] "C51H101N16O14" 1162.458 +"CPD-16459" "dihydrogen phosphate" ["H2PO4-"] "H2O4P" 96.987 +"CPD-16461" "polymyxin M" ["mattacin"] "C51H101N16O14" 1162.458 +"CPD-16462" "polymyxin B2" [] "C55H101N16O13" 1194.502 +"CPD-16463" "polymyxin E1" ["colistin A"] "C53H105N16O13" 1174.512 +"CPD-16470" "β-citryl-L-glutamate" [] "C11H11NO10" 317.209 +"CPD-16491" "2,6-diamino-4-hydroxy-5-(N-methyl)formamidopyrimidine" ["N-(2,4-diamino-6-hydroxypyrimidin-5-yl)-N-methylformamide"] "C6H9N5O2" 183.169 +"CPD-16494" "a β-D-Gal-(1→4)-β-D-GlcNAc-(1→3)-[β-D-GlcNAc-(1→6)]-β-D-Gal-(1→4)-β-D-GlcNAc-R" ["a β-D-galactosyl-(1→4)-[N-acetyl-β-D-glucosyl-(1→6)]-N-acetyl-β-D-glucosaminyl-(1→3)-β-D-galactosyl-(1→4)-N-acetyl-D-glucosaminyl-[glycoprotein]", "a β-D-galactosyl-(1,4)-[N-acetyl-β-D-glucosyl-(1,6)]-N-acetyl-β-D-glucosaminyl-(1,3)-β-D-galactosyl-(1,4)-N-acetyl-β-D-glucosaminyl-R"] null null +"CPD-16499" "Fe(III) oxide-hydroxide" ["[FeO(OH)]"] "H16O22Fe8" 814.889 +"CPD-16500" "[FeO(OH)] monomer" [] "HO2Fe" 88.854 +"CPD-16501" "6-deoxy-6-sulfo-D-fructose" ["6-deoxy-6-sulphofructose", "6-deoxy-6-sulfofructose"] "C6H11O8S" 243.208 +"CPD-16502" "6-deoxy-6-sulfo-D-fructose 1-phosphate" ["6-deoxy-6-sulphofructose 1-phosphate", "6-deoxy-6-sulfofructose 1-phosphate"] "C6H10O11PS" 321.172 +"CPD-16503" "(2R)-3-sulfolactaldehyde" ["(2R)-2-hydroxy-3-oxopropane 1-sulfonate", "D-3-sulfolactaldehyde"] "C3H5O5S" 153.129 +"CPD-16517" "azinomycin B" [] "C31H33N3O11" 623.615 +"CPD-16549" "3-(N-morpholino)propanal" ["3-morpholinopropanal"] "C7H13NO2" 143.185 +"CPD-16551" "β-D-ribose 5-phosphate" ["β-D-ribofuranose 5-phosphate", "5-O-phosphono-β-D-ribofuranose"] "C5H9O8P" 228.095 +"CPD-16566" "keto-L-rhamnulose" [] "C6H12O5" 164.158 +"CPD-16567" "L-rhamnulofuranose" [] "C6H12O5" 164.158 +"CPD-16569" "kojibiose" ["2-α-D-glucosyl-D-glucose", "α-D-glucopyranosyl-(1->2)-D-glucopyranose"] "C12H22O11" 342.299 +"CPD-16577" "β-glucose 1,6-bisphosphate" ["β-glucose-1,6-diphosphate", "β-D-glucose 1,6-P2", "β-D-glucopyranose 1,6-bisphosphate"] "C6H10O12P2" 336.085 +"CPD-166" "a dolichyl β-D-glucosyl phosphate" [] "C86H142O9P" 1351.036 +"CPD-16617" "pantethine" [] "C22H42N4O8S2" 554.716 +"CPD-16618" "L-malic semialdehyde" ["(3R)-3-hydroxy-4-oxobutanoate"] "C4H5O4" 117.081 +"CPD-16619" "methyl α-D-glucoside 6-phosphate" ["methyl α-D-glucopyranoside 6-phosphate", "αMG6P"] "C7H13O9P" 272.148 +"CPD-16631" "β-tyrosine" ["3-amino-3-(4-hydroxyphenyl)propanoate", "3-amino-3-(4-hydroxyphenyl)propanoic acid"] "C9H11NO3" 181.191 +"CPD-16705" "1-monomyristoylglycerol" ["2,3-dihydroxypropyl tetradecanoate", "myristin", "2,3-dihydroxypropyl ester", "rac-1-myristoylglycerol", "monomyristin"] "C17H34O4" 302.453 +"CPD-16713" "2-hydroxypentanoate" ["2-hydroxyvaleric acid", "2-hydroxypentanoic acid", "2-hydroxyvalerate"] "C5H9O3" 117.124 +"CPD-16716" "1,3,4-butanetriol" ["2-deoxyerythritol"] "C4H10O3" 106.121 +"CPD-16717" "1-stearoyl-sn-glycerol" ["monostearin", "stearin", "1-monostearin"] "C21H42O4" 358.56 +"CPD-16720" "toluquinol" ["2-methylhydroquinol", "methyl-p-hydroquinol", "2,5-dihydroxytoluene", "2-methyl-1,4-benzenediol", "1,4-dihydroxy-2-methylbenzene", "p-toluquinol"] "C7H8O2" 124.139 +"CPD-16758" "2/3-phospho-D-glycerate" [] null null +"CPD-16768" "mycosamine" ["3-amino-3-desoxy-D-rhamnose", "3-amino-3,6-dideoxymannose", "3-amino-3,6-dideoxy-D-mannose"] "C6H14NO4" 164.181 +"CPD-16843" "4-pregnen-20,21-diol-3-one" ["20-dihydro DOC"] "C21H32O3" 332.482 +"CPD-16983" "sodium dodecyl sulfate" ["SDS"] "Na(C12H25SO4)" 288.377 +"CPD-16987" "a (3R,4E)-3-hydroxy-2-keto-alk-4-ene" [] null null +"CPD-16989" "(E)-3-penten-2-one" [] "C5H8O" 84.118 +"CPD-170" "stachyose" ["(2R,3R,4S,5S,6R)-2-[[(2R,3S,4S,5R,6R)-6-[(2R,3R,4S,5R,6R)-6-[(2S,3S,4R,5S)-3,4-dihydroxy-2,5-bis(hydroxymethyl)oxolan-2-yl]oxy-4,5-dihydroxy-2-(hydroxymethyl)oxan-3-yl]oxy-3,4,5-trihydroxy-oxan-2-yl]methoxy]-6-(hydroxymethyl)oxane-3,4,5-triol", "α-D-Galp-(1->6)-α-D-Galp-(1->6)-α-D-Glcp-(1->2)-β-D-Fruf"] "C24H42O21" 666.583 +"CPD-17006" "D-xylose 5-phosphate" ["5-O-phosphono-D-xylose", "D-xylose 5-(dihydrogen phosphate)", "[(2R,3S,4R)-2,3,4-trihydroxy-5-oxopentyl] dihydrogen phosphate"] "C5H9O8P" 228.095 +"CPD-17063" "ferroheme o" [] "C49H56N4O5Fe" 836.852 +"CPD-17082" "iron(III)-[N-(2,3-dihydroxybenzoyl)-L-serine] complex" ["ferric 2,3-dihydroxybenzoylserine", "ferric dihydroxybenzoylserine", "dihydroxybenzoylserine-iron", "Fe3+-[N-(2,3-dihydroxybenzoyl)-L-serine] complex"] "C10H8NO6Fe" 294.023 +"CPD-17087" "1,2-dimyristoyl-phosphatidyl-ethanolamine" ["phosphatidylethanolamine (ditetradecanoyl, n-C14:0)"] "C33H66NO8P" 635.86 +"CPD-171" "a dolichyl β-D-mannosyl phosphate" ["dolichol monophosphate mannose", "β-D-mannopyranose, 1-ester with dolichol dihydrogen phosphate", "D-mannose, ester with dolichol dihydrogen phosphate", "mannosyl phosphoryl dolichol", "mannolipid", "dolichyl mannosyl phosphate", "dolichyl mannopyranosyl phosphate", "dolichyl phosphate D-mannose", "dolichyl D-mannosyl phosphate"] "C86H142O9P" 1351.036 +"CPD-17157" "L-galactono-1,5-lactone" [] "C6H10O6" 178.141 +"CPD-17189" "Coα-[α-(adenin-7-yl)]-Coβ-adenosylcobamide" ["pseudoAdoCba", "pseudo-adenosyl cobamide", "pseudocoenzyme B12"] "C68H95N21O17PCo" 1568.533 +"CPD-17265" "a [glycerolipid]-(8Z,11Z,14Z)-icosatrienoate" ["a [glycerolipid]-(di-homo-γ-linolenoate"] null null +"CPD-17278" "a [glycerolipid]-stearidonate" ["a [glycerolipid]-(6Z,9Z,12Z,15Z)-octadecatetraenoate"] null null +"CPD-17279" "a [glycerolipid]-dicranin" ["a [glycerolipid]-((9Z,12Z,15Z)-octadecatrien-6-ynoate"] null null +"CPD-17280" "a [glycerolipid]-((9Z,12Z)-octadecadien-6-ynoate" [] null null +"CPD-17281" "a [glycerolipid]-(8Z,11Z,14Z,17Z)-icosatetraenoate" ["a [glycerolipid]-(8Z,11Z,14Z,17Z)-eicosatetraenoate", "(8Z,11Z,14Z,17Z)-icosa-8,11,14,17-tetraenoyl-lipid", "a [glycerolipid]-icosatetraenoate"] null null +"CPD-17282" "a [glycerolipid]-(5Z,8Z,11Z,14Z,17Z)-icosapentaenoate" ["a [glycerolipid]-(5Z,8Z,11Z,14Z,17Z)-icosa-5,8,11,14,17-pentaenoate", "a [glycerolipid]-timnodonic acid", "a [glycerolipid]-(5Z,8Z,11Z,14Z,17Z)-eicosapentaenoate", "a [glycerolipid]-(5Z,8Z,11Z,14Z,17Z)-icosapentaenoic acid", "a [glycerolipid]-EPA", "a [glycerolipid]-icosapentaenoate", "a [glycerolipid-eicosapentaenoate"] null null +"CPD-17283" "a [glycerolipid]-di-homo-γ-linolenate" ["a [glycerolipid]-(8Z,11Z,14Z)-icosa-8,11,14-trienoate", "a [glycerolipid]-(8Z,11Z,14Z)-icosatrienoate"] null null +"CPD-17284" "a [glycerolipid]-arachidonate" ["a [glycerolipid]-(5Z,8Z,11Z,14Z)-icosatetraenoate", "a [glycerolipid]-arachidonic acid", "a [glycerolipid]-all-cis-icosa-5,8,11,14-tetraenoate", "a [glycerolipid]-(5Z,8Z,11Z,14Z)-icosatetra-5,8,11,14-enoate"] null null +"CPD-17285" "a [glycerolipid]-(9Z,12E)-octadecadienoate" ["a [glycerolipid]-trans-Δ12 linoleic acid", "a [glycerolipid]-18:2Δ9cis,12trans", "a [glycerolipid]-(9Z,12E)-octadeca-9,12-dienoate", "a [glycerolipid]-trans-Δ12 linoleate"] null null +"CPD-17286" "a [glycerolipid]-dimorphecolate" ["a [glycerolipid]-dimorphecolic acid", "a [glycerolipid]-9-hydroxy-18:2Δ10trans,12trans", "a [glycerolipid]-(10E,12E)-9-hydroxyoctadeca-10,12-dienoate"] null null +"CPD-17292" "a [glycerolipid]-(7Z,10Z,13Z)-hexadecatrienoate" ["a [glycerolipid]-(7Z,10Z,13Z)-hexadecatrienoic acid"] null null +"CPD-17293" "a [glycerolipid]-(7Z,10Z)-hexadecadienoate" ["a [glycerolipid]-(7Z,10Z)-hexadecadienoic acid"] null null +"CPD-17294" "a [glycerolipid]-(7Z)-hexadecenoate" ["a [glycerolipid]-(7Z)-hexadecenoic acid", "a [glycerolipid]-cis-7-hexadecenoic acid"] null null +"CPD-17296" "1-acyl,2-(7Z)-hexadecenoate-monogalactosyldiacylglycerol" [] null null +"CPD-17297" "(7Z,10Z)-hexadecadienoate-sn2-monogalactosyldiacylglycerol" ["(7Z,10Z)-hexadecadienoate-sn2-MGDG", "2-(7Z,10Z-hexadecadienoyl)-3-O-beta-D-galactosyl-sn-glycerol"] null null +"CPD-17298" "(7Z,10Z,13Z)-sn2-monogalactosyldiacylglycerol" ["(7Z,10Z,13Z)-sn2-MGDG", "(7Z,10Z,13Z)-3-O-beta-D-galactosyl-sn-glycerol"] null null +"CPD-173" "salicyl alcohol" ["saligenin", "2-hydroxybenzyl alcohol", "o-hydroxybenzyl alcohol"] "C7H8O2" 124.139 +"CPD-17353" "a meroterpenoid" [] null null +"CPD-17354" "a [glycerolipid](7Z,10Z,13Z,16Z,19Z)-docosapentaenoate" ["docosapentaenoyl-[glycerolipid]", "a [glycerolipid]-docosapentaenoate", "a [glycerolipid]all-cis-7,10,13,16,19-docosapentaenoate", "a [glycerolipid](7Z,10Z,13Z,16Z,19Z)-docosa-7,10,13,16,19-pentaenoic acid", "a [glycerolipid](7Z,10Z,13Z,16Z,19Z)-docosa-7,10,13,16,19-pentenoate"] null null +"CPD-17355" "a [glycerolipid]-(4Z,7Z,10Z,13Z,16Z,19Z)-docosahexaenoate" ["a [glycerolipid]-docosahexaenoic acid", "a [glycerolipid]-DHA", "a [glycerolipid]-all-cis-docosa-4,7,10,13,16,19-hexaenoate", "a [glycerolipid]-docosahexaenoate", "a [glycerolipid]-(4Z,7Z,10Z,13Z,16Z,19Z)-docosa-4,7,10,13,16,19-hexaenoate", "a docosahexaenoyl-[glycerolipid]"] null null +"CPD-17363" "a [glycerolipid]-adrenate" ["a [glycerolipid]-adrenic acid", "a [glycerolipid]-(7Z,10Z,13Z,16Z)-docosa-7,10,13,16-tetraenoate", "a [glycerolipid]-(7Z,10Z,13Z,16Z)-docosa-7,10,13,16-tetraenoic acid", "a [glycerolipid]-(7Z,10Z,13Z,16Z)-docosatetraenoate", "an anderoyl-[glycerolipid]"] null null +"CPD-17366" "a [glycerolipid]-(4Z,7Z,10Z,13Z,16Z)-docosapentaenoate" ["a [glycerolipid]-(4Z,7Z,10Z,13Z,16Z)-docosa-4,7,10,13,16-pentaenoic acid", "a [glycerolipid]-(4Z,7Z,10Z,13Z,16Z)-docosa-4,7,10,13,16-pentaenoate"] null null +"CPD-17396" "a [glycerolipid]-ricinoleate" ["a [glycerolipid]-ricinoleic acid", "a [glycerolipid]-(9Z,12R)-12-hydroxyoctadec-9-enate"] null null +"CPD-17397" "a [glycerolipid]-densipolate" ["a [glycerolipid]-densipolic acid", "a [glycerolipid]-(9Z,12R,15Z)-12-hydroxyoctadeca-9,15-dienoate"] null null +"CPD-17399" "a [glycerolipid]-auricolate" ["a [glycerolipid]-(11Z,17Z)-14R-hydroxy-eicosa-11,17-dienoate", "a [glycerolipid]-auricolic acid", "a [glycerolipid]-(11Z,17Z)-14R-hydroxy-icosa-11,17-dienoate"] null null +"CPD-17400" "a [glycerolipid]-lesquerolate" ["a [glycerolipid]-(11Z)-14R-hydroxy-docosenoate"] null null +"CPD-17404" "a [glycerolipid]-(11Z)-eicosenoate" [] null null +"CPD-17410" "a [glycerolipid]-α-parinarate" ["a [glycerolipid]-α-parinaric acid", "a [glycerolipid]-cis-parinarate"] null null +"CPD-17413" "a [glycerolipid]-(9Z,12E)-hexadecadienoate" ["a [glycerolipid]-(9Z,12E)-hexadecadienoic acid"] null null +"CPD-17425" "a dialkyl-thiosulfinate" [] null null +"CPD-17449" "a [protein]-2-aminoprop-2-enoate" ["a [protein]-2-aminoacrylate", "a [protein]-α-aminoacrylate", "a [protein]-2-aminoacrylic acid", "a [protein]-2,3-didehydroalanine", "a [protein]-α,β-dehydroalanine", "a [protein]-anhydroserine 2-aminopropenoic acid", "a [protein]-dehydroalanine"] null null +"CPD-17456" "reduced coenzyme F430" ["nickel (I) porphinoid", "reduced factor F430", "reduced cofactor F430"] "C42H46N6O13Ni" 902.566 +"CPD-17483" "1-[(15Z)-tetracos-15-enoyl]-2-acyl-[phosphoglyceride]" ["1-24:1-2-acyl-[glycerolipid]"] null null +"CPD-17484" "1-tetracosanoyl-2-acyl-[phosphoglyceride]" ["1-24:0-2-acyl-[phosphoglycerolipid]"] null null +"CPD-17485" "1-hexacosanoyl-2-acyl-[phosphoglyceride]" ["1-26:0-2-acyl-[phosphoglycerolipid]"] null null +"CPD-17486" "1-[(17Z)-hexacos-17-enoyl]-2-acyl-[phosphoglyceride]" ["1-26:1-2-acyl-[phosphoglycerolipid]"] null null +"CPD-17518" "mitomycin C" [] "C15H18N4O5" 334.331 +"CPD-17523" "a 1-palmitoyl-2-acyl-sn-glycero-3-phosphocholine" ["a 1-palmitoyl-2-acyl-phosphatidylcholine"] null null +"CPD-17528" "acarbose" ["Glucobay", "Prandase"] "C25H43NO18" 645.611 +"CPD-17530" "α-D-Kdo-(2→4)-α-D-Kdo-(2→6)-lipid A 1-diphosphate" [] "C110H196N2O42P3" 2311.668 +"CPD-17537" "benzyl viologen" [] "C24H22N2" 338.451 +"CPD-17546" "a dipeptide with an N-terminal L-arginine" ["L-Arg-L-Xaa"] null null +"CPD-17573" "syringaldazine" ["4-hydroxy-3,5-dimethoxybenzaldehyde azine"] "C18H20N2O6" 360.366 +"CPD-17574" "tetramethoxy azobismethylene quinine" ["TMAMQ"] "C18H18N2O6" 358.35 +"CPD-17578" "a [glycerolipid]-(9Z,12Z)-hexadeca-9,12-dienoate" [] null null +"CPD-17583" "a peptidoglycan pentapeptide" ["L-alanyl-γ-D-glutamyl-L-lysyl/meso-2,6-diaminopimeloyl-D-alanyl-D-alanine", "L-Ala-γ-D-Glu-L-Lys/meso-A2pm-D-Ala-D-Ala", "L-alanyl-γ-D-glutamyl-L-lysyl/meso-2,6-diaminoheptanedioyl-D-alanyl-D-alanine"] null null +"CPD-17589" "a phytosphingenine" ["a 4-hydroxy-sphing-8-enine", "a 4-hydroxy-8-sphingenine"] "C18H38NO3" 316.503 +"CPD-17649" "a [4Fe-3S] iron-sulfur cluster" [] null null +"CPD-17677" "tranylcypromine" ["Parnate", "Jatrosom"] "C9H11N" 133.193 +"CPD-177" "a 1-phosphatidyl-1D-myo-inositol 3-phosphate" ["PtdIns3P"] null null +"CPD-17707" "a 4-deoxy-α-L-erythro-hex-4-enopyranuronate-uronate disccharide" [] "C12H14O12" 350.235 +"CPD-17716" "a linoleate group" [] "C18H32O" 264.45 +"CPD-1772" "2-aminoacetaldehyde" ["aminoacetaldehyde"] "C2H6NO" 60.075 +"CPD-17752" "5-nitro benzisoxazole" [] "C7H4N2O3" 164.12 +"CPD-17753" "2-cyano-4-nitrophenol" ["4-nitro 2-cyanophenol", "2-hydroxy-5-nitrobenzonitrile"] "C7H4N2O3" 164.12 +"CPD-17767" "a 2,3-bis-(O-geranylgeranyl)-sn-glycero-phospholipid" [] null null +"CPD-17768" "a 2,3-bis-(O-phytanyl)-sn-glycero-phospholipid" [] null null +"CPD-17926" "a nascent peptidoglycan with (L-alanyl-γ-D-glutamyl-meso-2,6-diaminopimeloyl-D-alanine) tetrapeptide" [] null null +"CPD-17927" "a nascent peptidoglycan with (L-alanyl-γ-D-glutamyl-meso-2,6-diaminopimeloyl-D-alanyl-D-alanine) pentapeptide" [] null null +"CPD-17931" "a peptidoglycan with (L-alanyl-γ-D-glutamyl-meso-2,6-diaminopimeloyl-D-alanine) tetrapeptide" [] null null +"CPD-17932" "a nascent peptidoglycan with D,D cross-links (meso-diaminopimelate containing)" [] null null +"CPD-17947" "a nascent peptidoglycan with L,D cross links (meso-diaminopimelate containing)" [] null null +"CPD-17968" "a nascent peptidoglycan with (L-alanyl-γ-D-glutamyl-meso-2,6-diaminopimelate) tripeptide" [] null null +"CPD-17969" "a nascent peptidoglycan with (L-alanyl-γ-D-glutamyl-meso-2,6-diaminopimeloyl-glycine) tetrapeptide" [] null null +"CPD-17985" "a mature peptidoglycan with (L-alanyl-γ-D-glutamyl-meso-2,6-diaminopimeloyl-D-alanyl-D-alanine) pentapeptide" ["GlcNAc-1,6-anhydro-MurNAc-pentapeptide", "GlcNAc-1,6-anhydro-MurNAc-(L-alanyl-γ-D-glutamyl-meso-2,6-diaminopimeloyl-D-alanyl-D-alanine) pentapeptide"] null null +"CPD-17986" "a mature peptidoglycan with (L-alanyl-γ-D-glutamyl-meso-2,6-diaminopimeloyl-D-alanine) tetrapeptide" ["a mature peptidoglycan strand with 1,6-anhydro-MurNAc terminus", "GlcNAc-1,6-anhydro-MurNAc-tetrapeptide", "GlcNAc-1,6-anhydro-MurNAc-(L-alanyl-γ-D-glutamyl-meso-2,6-diaminopimeloyl-D-alanine) tetrapeptide"] null null +"CPD-17987" "a mature peptidoglycan with (L-alanyl-γ-D-glutamyl-meso-2,6-diaminopimelate) tripeptide" ["GlcNAc-1,6-anhydro-MurNAc-tripeptide", "GlcNAc-1,6-anhydro-MurNAc- (L-alanyl-γ-D-glutamyl-meso-2,6-diaminopimelate) tripeptide"] null null +"CPD-17988" "a mature peptidoglycan with L,D cross-links (meso-diaminopimelate containing)" [] null null +"CPD-17989" "a mature peptidoglycan(n) (meso-DAP containing)" [] null null +"CPD-18012" "thymine glycol" ["5,6-dihydroxy-5-methyldihydropyrimidine-2,4(1H,3H)-dione"] "C5H8N2O4" 160.129 +"CPD-18013" "uracil glycol" [] "C4H6N2O4" 146.102 +"CPD-18014" "5-hydroxy-6-hydrothymine" [] "C5H8N2O3" 144.13 +"CPD-18016" "5-hydroxycytosine" [] "C4H5N3O2" 127.102 +"CPD-18017" "5-hydroxyuracil" [] "C4H4N2O3" 128.087 +"CPD-18018" "5,6-dihydroxyuracil" [] "C4H4N2O4" 144.087 +"CPD-18019" "5,6-dihydroxycytosine" [] "C4H5N3O3" 143.102 +"CPD-18077" "Glc3Man9GlcNAc2-[protein]" ["an [α-D-Glc-(1→2)-α-D-Glc-(1→3)-α-D-Glc-(1→3)-α-D-Man-(1→2)-α-D-Man-(1→2)-α-D-Man-(1→3)-{α-D-Man-(1→2)-α-D-Man-(1→3)-[α-D-Man-(1→2)-α-D-Man-(1→6)]-α-D-Man-(1→6)}-β-D-Man-(1→4)-β-D-GlcNAc-(1→4)-β-D-GlcNAc]-N-Asn-[protein]", "[(glucosyl)3(mannosyl)9(N-acetylglucosaminyl)2]-L-asparaginyl-[protein]"] null null +"CPD-18085" "1,2-dihydro-β-NADP" ["2-dihydro-nicotinamide adenine dinucleotide phosphate", "2DHNADP"] "C21H26N7O17P3" 741.394 +"CPD-18118" "D-arabinofuranose 5-phosphate" ["D-arabinofuranose 5P"] "C5H9O8P" 228.095 +"CPD-18165" "2-phenylethyl β-D-thiogalactopyranoside" ["PETG", "phenylethyl β-D-thiogalactoside"] "C14H20O5S" 300.369 +"CPD-18171" "a 1-acyl-2-ricinoleoyl-sn-glycero-3-phosphocholine" ["a 1-acyl-2-[(R)-12-hydroxyoleoyl]-sn-glycero-3-phosphocholine"] null null +"CPD-18238" "carboxyphosphate" [] "CHO6P" 139.989 +"CPD-18252" "an acyl-D-asparagine" [] null null +"CPD-18254" "hydrophilic solute < 900 Da" [] null null +"CPD-18259" "a peptidoglycan dimer with pentapeptide stem (meso-diaminopimelate containing)" [] null null +"CPD-18260" "prenylated FMNH2" ["prenylated reduced flavin mononucleotide", "prenylated flavin mononucleotide"] "C22H29N4O9P" 524.466 +"CPD-1829" "cob(II)alamin" ["cobalamin", "B12r"] "C62H88N13O14PCo" 1329.36 +"CPD-183" "gallate" ["gallic acid", "3,4,5-trihydroxybenzoic acid", "3,4,5-trihydroxybenzoate", "pyrogallol-5-carboxylic acid", "pyrogallol-5-carboxylate"] "C7H5O5" 169.113 +"CPD-1831" "acetylenedicarboxylate" ["acetylenedicarboxylic acid", "2-butynedioic acid"] "C4O4" 112.042 +"CPD-18345" "a mycobactin" [] null null +"CPD-18346" "cis-vaccenoyl-CoA" ["(Z)-octadec-11-enoyl CoA", "(Z)-11-octadecenoic acyl-CoA", "cis-11-octadecenoic acyl-CoA", "cis-octadec-11-enoic acyl-CoA"] "C39H64N7O17P3S" 1027.953 +"CPD-18348" "1-cis-vaccenoyl-sn-glycerol-3-phosphate" ["(Z)-octadec-11-enoylglycerol 3-phosphate", "(Z)-11-octadecenoic acylglycerol 3-phosphate", "cis-11-octadecenoic acylglycerol 3-phosphate", "cis-octadec-11-enoic acylglycerol 3-phosphate"] "C21H39O7P" 434.509 +"CPD-18350" "1-palmitoyl-2-palmitoleoyl-sn-glycerol 3-phosphate" ["16:0-16:1-PA", "1-hexadecanoyl-2-(9Z-hexadecenoyl)--sn-glycerol-3-phosphate", "1-palmitoyl-2-palmitoleoyl phosphatidate"] "C35H65O8P" 644.867 +"CPD-18351" "1-cis-vaccenoyl-2-palmitoleoyl-sn-glycerol-3-phosphate" ["18:1-16:1-PA", "1-(11Z-octadecenoyl)-2-(9Z-hexadecenoyl)-sn-glycerol-3-phosphate", "1-cis-vaccenoyl-2-palmitoleoyl phosphatidate"] "C37H67O8P" 670.905 +"CPD-18352" "1-palmitoyl-2-cis-vaccenoyl phosphatidate" ["16:0-18:1-PA", "1-palmitoyl-2-(11Z-octadecenoyl)-sn-glycerol-3-phosphate"] "C37H69O8P" 672.921 +"CPD-18353" "1,2-bis-cis-vaccenoyl-phosphatidate" ["18:1-18:1-PA", "1,2-(11Z-octadecenoyl)-sn-glycerol-3-phosphate", "1,2-bis-cis-vaccenoyl phosphatidate"] "C39H71O8P" 698.959 +"CPD-18355" "CDP-1,2-bis-cis-vaccenoylglycerol" [] "C48H83N3O15P2" 1004.142 +"CPD-18356" "CDP-1-palmitoyl-2-cis-vaccenoylglycerol" [] "C46H81N3O15P2" 978.104 +"CPD-18357" "CDP-1-cis-vaccenoyl-2-palmitoleoylglycerol" [] "C46H79N3O15P2" 976.089 +"CPD-18358" "CDP-1-palmitoyl-2-palmitoleoylglycerol" [] "C44H77N3O15P2" 950.051 +"CPD-18359" "phosphatidylglycerolphosphate (1-palmitoyl, 2-palmitoleoyl)" [] "C38H71O13P2" 797.919 +"CPD-18360" "phosphatidylglycerolphosphate (1-palmitoyl, 2-cis-vaccenoyl)" [] "C40H75O13P2" 825.972 +"CPD-18361" "phosphatidylglycerol (1-palmitoyl, 2-palmitoleoyl)" [] "C38H72O10P" 719.955 +"CPD-18362" "phosphatidylglycerol (1-palmitoyl, 2-cis-vaccenoyl)" [] "C40H76O10P" 748.008 +"CPD-18363" "phosphatidylserine (1-palmitoyl, 2-palmitoleoyl)" [] "C38H71NO10P" 732.953 +"CPD-18364" "phosphatidylserine (1-cis-vaccenoyl, 2-palmitoleoyl)" [] "C40H73NO10P" 758.991 +"CPD-18365" "phosphatidylserine (1-palmitoyl, 2-cis-vaccenoyl)" [] "C40H75NO10P" 761.007 +"CPD-18366" "phosphatidylserine (1,2-bis-cis-vaccenoyl)" [] "C42H77NO10P" 787.045 +"CPD-18367" "phosphatidylethanolamine (1-palmitoyl, 2-palmitoleoyl)" [] "C37H72NO8P" 689.951 +"CPD-18368" "phosphatidylethanolamine (1-cis-vaccenoyl, 2-palmitoleoyl)" [] "C39H74NO8P" 715.989 +"CPD-18369" "phosphatidylethanolamine (1-palmitoyl, 2-cis-vaccenoyl)" [] "C39H76NO8P" 718.005 +"CPD-18370" "phosphatidylethanolamine (1,2-bis-cis-vaccenoyl)" ["phosphatidylethanolamine (dioctadec-11-enoyl, n-C18:1)"] "C41H78NO8P" 744.043 +"CPD-18371" "phosphatidylethanolamine (1-palmitoyl, 2-cis-9,10-methylene hexadecanoyl)" [] "C38H74NO8P" 703.978 +"CPD-18372" "phosphatidylethanolamine (1-palmitoyl, 2-lactobacilloyl)" [] "C40H78NO8P" 732.032 +"CPD-18373" "phosphatidylglycerol (1-palmitoyl, 2-cis-9,10-methylene hexadecanoyl)" [] "C39H74O10P" 733.981 +"CPD-18374" "cardiolipin (1,3-bispalmitoyl, 2,4-bis-cis-vaccenoyl)" [] "C77H144O17P2" 1403.922 +"CPD-18375" "cardiolipin (1,3-palmitoyl, 2,4-cis-9,10-methylene hexadecanoyl)" [] "C75H140O17P2" 1375.868 +"CPD-18379" "1-myristoyl-sn-glycerol 3-phosphate" ["1-tetradecanoyl-sn-glycerol 3-phosphate", "1-myristoylglycerol 3-phosphate"] "C17H33O7P" 380.417 +"CPD-18380" "1-myristoyl-2-palmitoleoyl-sn-glycerol 3-phosphate" ["1-myristoyl-2-palmitoleoyl phosphatidate"] "C33H61O8P" 616.814 +"CPD-18387" "CDP-1-myristoyl-2-palmitoleoylglycerol" [] "C42H73N3O15P2" 921.997 +"CPD-18388" "CDP-1,2-dimyristoylglycerol" [] "C40H71N3O15P2" 895.959 +"CPD-18390" "1-palmitoyl-2-myristoyl phosphatidate" [] "C33H63O8P" 618.83 +"CPD-18391" "CDP-1-palmitoyl-2-myristoylglycerol" [] "C42H75N3O15P2" 924.013 +"CPD-18392" "phosphatidylglycerol (1-myristoyl, 2-palmitoleoyl)" [] "C36H68O10P" 691.901 +"CPD-18393" "phosphatidylglycerol (1-palmitoyl, 2-myristoyl)" [] "C36H70O10P" 693.917 +"CPD-18394" "phosphatidylglycerol (1-cis-vaccenoyl, 2-palmitoleoyl)" [] "C40H74O10P" 745.992 +"CPD-18396" "phosphatidylglycerol (1,2-bis-cis-vaccenoyl)" ["phosphatidylglycerol (dioctadec-11-enoyl, n-C18:1)"] "C42H78O10P" 774.046 +"CPD-18397" "phosphatidylglycerolphosphate (1-myristoyl, 2-palmitoleoyl)" [] "C36H67O13P2" 769.865 +"CPD-18398" "phosphatidylglycerolphosphate (1-palmitoyl, 2-myristoyl)" [] "C36H69O13P2" 771.881 +"CPD-18399" "phosphatidylglycerolphosphate (1-cis-vaccenoyl, 2-palmitoleoyl)" [] "C40H73O13P2" 823.956 +"CPD-18400" "phosphatidylglycerolphosphate (1,2-bis-cis-vaccenoyl)" [] "C42H77O13P2" 852.01 +"CPD-18401" "phosphatidylserine (1,2-dimyristoyl)" [] "C34H65NO10P" 678.862 +"CPD-18402" "phosphatidylserine (1-myristoyl, 2-palmitoleoyl)" [] "C36H67NO10P" 704.9 +"CPD-18403" "phosphatidylethanolamine (1-myristoyl, 2-palmitoleoyl)" [] "C35H68NO8P" 661.898 +"CPD-18404" "phosphatidylethanolamine (1-myristoyl, 2-cis-9,10-methylene hexadecanoyl)" [] "C36H70NO8P" 675.925 +"CPD-18405" "phosphatidylglycerol (1-myristoyl, 2-cis-9,10-methylene hexadecanoyl)" [] "C37H70O10P" 705.928 +"CPD-18406" "phosphatidylglycerol (1-palmitoyl, 2-lactobacilloyl)" [] "C41H78O10P" 762.035 +"CPD-1843" "(S)-3-hydroxybutanoate" ["(S)-hydroxybutanoate", "(S)-3-hydroxybutanoic acid", "(S)-3-hydroxybutyric acid"] "C4H7O3" 103.097 +"CPD-18499" "magnesium hydrogenphosphate" ["magnesium hydrogen orthophosphate", "magnesium phosphate dibasic"] "Mg(PHO4)" 120.284 +"CPD-185" "(1Z,3Z)-4-hydroxybuta-1,3-diene-1,2,4-tricarboxylate" ["2-hydroxy-4-carboxymuconate", "4-carboxy-2-hydroxymuconate", "2-hydroxy-4-carboxy-hexa-2,4-dienedioate", "OMAenol", "(2E,4E)-4-carboxy-2-hydroxyhexa-2,4-dienedioate", "4-carboxy-2-hydroxyhexa-2,4-dienedioate"] "C7H3O7" 199.096 +"CPD-18500" "calcium hydrogenphosphate" ["calcium phosphate dibasic"] "Ca(PHO4)" 136.05899 +"CPD-18501" "zinc hydrogenphosphate" [] "Zn(PHO4)" 161.359 +"CPD-18518" "a nonphenolic arylglycerol β-aryl ether lignin fragment" [] null null +"CPD-18529" "6-O-acetyl-α-D-glucopyranosyl-(1→4)-D-glucose" [] "C14H24O12" 384.336 +"CPD-18565" "a 2-(long-chain fatty acyl)-3-mycolipenoyl-trehalose" ["a 2,3-diacyltrehalose"] null null +"CPD-18567" "a 2-(long-chain fatty acyl)-2',3,4',6-tetramycolipenoyl-trehalose" [] null null +"CPD-18579" "PGL-tb" ["triglycosyl dimycocerosyl phenolphthiocerol", "a [2,3,4-tri-O-methyl-α-L-fucopyranosyl-(1→3)-α-L-rhamnopyranosyl-(1→3)-2-O-methyl-α-L-rhamnopyranosyl] dimycocerosyl phenol-phthiocerol", "dimycocerosyl triglycosyl phenolphthiocerol"] null null +"CPD-18601" "a 2,3-diacyltrehalose" [] null null +"CPD-18602" "a pentaacyltrehalose" ["polyacyltrehalose", "PAT"] null null +"CPD-18607" "a β-D-mannosyl phosphomycoketide" [] null null +"CPD-18612" "a dimycocerosyl phthiocerol" ["DIM A"] null null +"CPD-18648" "L-glutamate γ-monohydroxamate" ["L-glutamic acid gamma-monohydroxamate", "L-5-N-hydroxyglutamine"] "C5H10N2O4" 162.145 +"CPD-18649" "L-glutamate γ-methyl ester" ["5-methyl L-glutamate", "glutamic acid, 5-methylester"] "C6H11NO4" 161.157 +"CPD-18651" "a dimycocerosyl phthiodiolone" ["DIM B"] null null +"CPD-18661" "L-selenaproline" ["selenazolidine-4-carboxylic acid"] "C4H7NO2Se" 180.065 +"CPD-18669" "a dimycocerosyl phenolphthiocerol" [] null null +"CPD-18679" "mycoside B" ["C102-monoglycosyl dimycocerosyl phenolphthiocerol", "C102-(2-O-methyl-α-L-rhamnopyranosyl) dimycocerosyl phenol-phthiocerol", "C102-PGL", "C102-dimycocerosyl monoglycosyl phenolphthiocerol"] null null +"CPD-18680" "an (α-L-rhamnopyranosyl) dimycocerosyl phenol-phthiocerol" ["demethylmycoside B"] null null +"CPD-18681" "an [α-L-rhamnopyranosyl-(1→3)-2-O-methyl-α-L-rhamnopyranosyl] dimycocerosyl phenol-phthiocerol" ["L-rhamnosyl-mycoside B", "PGL-2S"] null null +"CPD-18682" "an [α-L-fucopyranosyl-(1→3)-α-L-rhamnopyranosyl-(1→3)-2-O-methyl-α-L-rhamnopyranosyl] dimycocerosyl phenol-phthiocerol" [] null null +"CPD-18683" "a [2-O-methyl-α-L-fucopyranosyl-(1→3)-α-L-rhamnopyranosyl-(1→3)-2-O-methyl-α-L-rhamnopyranosyl] dimycocerosyl phenol-phthiocerol" [] null null +"CPD-18684" "a [2,4-di-O-methyl-α-L-fucopyranosyl-(1→3)-α-L-rhamnopyranosyl-(1→3)-2-O-methyl-α-L-rhamnopyranosyl] dimycocerosyl phenol-phthiocerol" [] null null +"CPD-18692" "PGL-1" ["[3,6-di-O-methyl-β-D-glucopyranosyl-(1→4)-2,3-di-O-methyl-α-L-rhamnopyranosyl-(1→3)-3-O-methyl-α-L-rhamnopyranosyl] dimycocerosyl phenol-phthiocerol"] null null +"CPD-18696" "a mycoketide-CoA" [] null null +"CPD-187" "4-hydroxy-4-methyl-2-oxoglutarate" ["4-hydroxy-4-carboxy-2-oxovalerate", "4-hydroxy-4-methyl-2-ketoglutarate", "HMG"] "C6H6O6" 174.11 +"CPD-18702" "a 2-(long-chain-fatty acyl)-trehalose" [] null null +"CPD-18715" "2'-palmitoyl/stearoyl-2-O-sulfo-α,α-trehalose" ["2'-palmitoyl/stearoyl-trehalose-2 sulfate"] null null +"CPD-18717" "3-sulfolactaldehyde" ["2-hydroxy-3-oxopropane 1-sulfonate"] "C3H5O5S" 153.129 +"CPD-18719" "D-fructofuranose 6-phosphate" [] "C6H11O9P" 258.121 +"CPD-18720" "α-D-fructofuranose 6-phosphate" [] "C6H11O9P" 258.121 +"CPD-18727" "rifampicin" ["rifampin", "3-[(4-methylpiperazin-1-yl)iminomethyl]rifamycin"] "C43H58N4O12" 822.951 +"CPD-18734" "5-phospho-D-arabinonate" [] "C5H8O9P" 243.087 +"CPD-18739" "diphenyl ether" [] "C12H10O" 170.21 +"CPD-18804" "a mature peptidoglycan (meso-diaminopimelate containing)" [] null null +"CPD-18805" "a mature peptidoglycan strand (non-reducing terminus)" [] null null +"CPD-18807" "a nascent peptidoglycan (meso-DAP containing)" [] null null +"CPD-18808" "a nascent peptidoglycan (meso-DAP containing) with GlcNAc terminus" [] "C92H147N7O27P2" 1845.151 +"CPD-18809" "a mature peptidoglycan with (L-alanyl-γ-D-glutamyl-meso-2,6-diaminopimeloyl-glycine) tetrapeptide" [] null null +"CPD-18866" "a 3-(1-hydroxyethyl) chlorophyllide d" [] null null +"CPD-18867" "a bacteriochlorophyllide c" [] null null +"CPD-18899" "a chlorophyll a" [] null null +"CPD-189" "a CMP-N-acyl-neuraminate" [] null null +"CPD-18901" "D-myo-inositol (2,3,4,5) tetrakisphosphate" ["1D-myo-inositol (2,3,4,5) tetrakisphosphate", "myo-inositol (2,3,4,5) tetrakisphosphate", "Ins(2,3,4,5)P4", "I(2,3,4,5)P4"] "C6H8O18P4" 492.013 +"CPD-18902" "D-myo-inositol (2,4,5) trisphosphate" ["1D-myo-inositol (2,4,5) trisphosphate", "Ins(2,4,5)P3", "I(2,4,5)P3"] "C6H9O15P3" 414.049 +"CPD-18903" "D-myo-inositol (2,5) bisphosphate" ["Ins(2,5)P2", "I(2,5)P2", "1D-myo-inositol (2,5) bisphosphate", "inositol (2,5) bisphosphate"] "C6H10O12P2" 336.085 +"CPD-18906" "molybdenum cofactor (within MsrP)" [] null null +"CPD-18909" "β-1,2-D-mannobiose" ["β-D-mannopyranosyl-(1→2)-D-mannopyranose", "2-O-β-D-mannopyranosyl-D-mannopyranose"] "C12H22O11" 342.299 +"CPD-18966" "dehydrodiconiferyl alcohol" ["DCA"] "C20H22O6" 358.39 +"CPD-18967" "dehydrodiconiferyl aldehyde" ["DCA-L", "(2E)-3-[2-(4-hydroxy-3-methoxyphenyl)-3-(hydroxymethyl)-7-methoxy-2,3-dihydrobenzofuran-5-yl] acrylaldehyde"] "C20H20O6" 356.374 +"CPD-18968" "dehydrodiconiferyl acid" ["DCA-C", "(2E)-3-[2-(4-hydroxy-3-methoxyphenyl)-3-(hydroxymethyl)-7-methoxy-2,3-dihydrobenzofuran-5-yl] acrylate"] "C20H19O7" 371.366 +"CPD-18969" "dehydrodiconiferyl acid ketone" ["DCA-CL", "(2E)-3-[3-formyl-2-(4-hydroxy-3-methoxyphenyl)-7-methoxy-2,3-dihydro-1-benzofuran-5-yl]prop-2-enoate"] "C20H17O7" 369.35 +"CPD-18970" "dehydrodiconiferyl acid carboxylate" ["DCA-CC", "5-[(1E)-2-carboxyeth-1-en-1-yl]-2-(4-hydroxy-3-methoxyphenyl)-7-methoxy-2,3-dihydro-1-benzofuran-3-carboxylate"] "C20H16O8" 384.342 +"CPD-18991" "pentan-2-ol" ["2-pentyl alcohol", "2-pentanol"] "C5H12O" 88.149 +"CPD-190" "N-acetyl-α-D-glucosaminyl-diphosphodolichol" ["N-acetyl-α-D-glucosaminyldiphosphodolichol"] "C88H145NO12P2" 1471.06 +"CPD-19093" "a leucoanthocyanidin" [] null null +"CPD-19111" "1-(6-sulfo-α-D-quinovosyl)glycerol" [] "C9H17O10S" 317.287 +"CPD-19144" "(7Z)-hexadecenoyl-CoA" ["cis-hexadec-7-enoyl-CoA", "(7Z)-hexadec-7-enoyl-CoA", "16:1 cis-7", "16:1(n-9)"] "C37H60N7O17P3S" 999.899 +"CPD-19147" "(7Z)-tetradecenoyl-CoA" ["14:1-Δ7-CoA", "cis-7-tetradecenoyl-CoA", "14:1(n-7)-CoA", "(7Z)-tetradec-7-enoyl-CoA"] "C35H56N7O17P3S" 971.845 +"CPD-19148" "(5Z)-dodecenoyl-CoA" ["12:1-Δ5-CoA", "cis-5-dodecenoyl-CoA", "12:1(n-7)-CoA", "(5Z)-dodec-5-enoyl-CoA"] "C33H52N7O17P3S" 943.792 +"CPD-19150" "(2E,5Z)-dodecenoyl-CoA" ["12:2-Δ2,Δ5-CoA", "2-trans,5-cis-dodecenoyl-CoA"] "C33H50N7O17P3S" 941.776 +"CPD-19151" "(S)-3-hydroxy-(5Z)-dodecenoyl-CoA" ["(S)-3-hydroxy-12:1-Δ5-CoA", "(S)-3-hydroxy-5-cis-dodecenoyl-CoA"] "C33H52N7O18P3S" 959.791 +"CPD-19153" "3-oxo-(5Z)-dodecenoyl-CoA" ["3-oxo-12:1-Δ5-CoA", "3-oxo-5-cis-dodecenoyl-CoA"] "C33H50N7O18P3S" 957.775 +"CPD-19154" "(S)-3-hydroxy-(7Z)-tetradecenoyl-CoA" ["(S)-3-hydroxy-14:1-Δ7-CoA", "(S)-3-hydroxy-7-cis-tetradecenoyl-CoA"] "C35H56N7O18P3S" 987.845 +"CPD-19155" "(S)-3-hydroxy-(9Z)-hexadecenoyl-CoA" ["(S)-3-hydroxy-16:1-Δ9-CoA", "(S)-3-hydroxy-9-cis-hexadecenoyl-CoA"] "C37H60N7O18P3S" 1015.898 +"CPD-19157" "3-oxo-(7Z)-tetradecenoyl-CoA" ["3-oxo-14:1-Δ7-CoA", "3-oxo-7-cis-tetradecenoyl-CoA"] "C35H54N7O18P3S" 985.829 +"CPD-19158" "3-oxo-(9Z)-hexadecenoyl-CoA" ["3-oxo-16:1-Δ9-CoA", "3-oxo-9-cis-hexadecenoyl-CoA"] "C37H58N7O18P3S" 1013.883 +"CPD-19159" "(S)-3-hydroxy-(11Z)-octadecenoyl-CoA" ["(S)-3-hydroxy-18:1-Δ11-CoA", "(S)-3-hydroxy-11-cis-octadecenoyl-CoA"] "C39H64N7O18P3S" 1043.952 +"CPD-19160" "3-oxo-(11Z)-octadecenoyl-CoA" ["3-oxo-18:1-Δ11-CoA", "3-oxo-11-cis-octadecenoyl-CoA"] "C39H62N7O18P3S" 1041.936 +"CPD-19161" "(2E,7Z)-tetradecenoyl-CoA" ["14:2-Δ2,Δ7-CoA", "2-trans,7-cis-tetradecenoyl-CoA"] "C35H54N7O17P3S" 969.83 +"CPD-19162" "(2E,9Z)-hexadecenoyl-CoA" ["16:2-Δ2,Δ9-CoA", "2-trans,9-cis-hexadecenoyl-CoA"] "C37H58N7O17P3S" 997.883 +"CPD-19163" "(2E,11Z)-octadecenoyl-CoA" ["18:2-Δ2,Δ11-CoA", "2-trans,11-cis-octadecenoyl-CoA"] "C39H62N7O17P3S" 1025.937 +"CPD-19167" "3-oxo-(7Z)-hexadecenoyl-CoA" ["3-oxo-16:1-Δ7-CoA", "3-oxo-7-cis-hexadecenoyl-CoA"] "C37H58N7O18P3S" 1013.883 +"CPD-19168" "(S)-3-hydroxy-(7Z)-hexadecenoyl-CoA" ["(S)-3-hydroxy-16:1-Δ7-CoA", "(S)-3-hydroxy-7-cis-hexadecenoyl-CoA"] "C37H60N7O18P3S" 1015.898 +"CPD-19169" "3-oxo-(9Z)-octadecenoyl-CoA" ["3-oxo-18:1-Δ9-CoA", "3-oxo-9-cis-octadecenoyl-CoA"] "C39H62N7O18P3S" 1041.936 +"CPD-19170" "(2E,7Z)-hexadecenoyl-CoA" ["16:2-Δ2,Δ7-CoA", "2-trans,7-cis-hexadecenoyl-CoA"] "C37H58N7O17P3S" 997.883 +"CPD-19171" "(S)-3-hydroxy-(9Z)-octadecenoyl-CoA" ["(S)-3-hydroxy-18:1-Δ9-CoA", "(S)-3-hydroxy-9-cis-octadecenoyl-CoA"] "C39H64N7O18P3S" 1043.952 +"CPD-19172" "(2E,9Z)-octadecenoyl-CoA" ["18:2-Δ2,Δ9-CoA", "2-trans,9-cis-octadecenoyl-CoA"] "C39H62N7O17P3S" 1025.937 +"CPD-19179" "(8S)-3',8-cyclo-7,8-dihydroguanosine 5'-triphosphate" ["3',8-cH2GTP"] "C10H12N5O14P3" 519.151 +"CPD-19186" "an O4-methylthymine in DNA" ["a DNA 4-O-methylthymine", "a DNA containing 4-O-methylthymine", "DNA 4-O-methylthymine"] null null +"CPD-19217" "S-(hydroxysulfenamide)glutathione" ["GSNHOH"] "C10H17N4O7S" 337.327 +"CPD-19233" "3,3',5,5'-tetramethoxydiphenoquinone" ["coerulignone", "cerulignone", "TMPQ"] "C16H16O6" 304.299 +"CPD-19235" "α-D-ribose 1-(acetamidomethylphosphonate) 5-triphosphate" ["5-triphospho-α-D-ribosyl-1-(2-N-acetamidomethylphosphonate)"] "C8H14NO17P4" 520.09 +"CPD-19236" "α-D-ribose-1-(2-N-acetamidomethylphosphonate) 5-phosphate" ["1-(2-N-acetamidomethylphosphonato) 5-phospho-α-D-ribose"] "C8H14NO11P2" 362.146 +"CPD-19237" "N-methylacetamide" [] "C3H7NO" 73.094 +"CPD-19240" "[(1S)-1-acetamidoethyl]phosphonate" [] "C4H8NO4P" 165.085 +"CPD-19241" "[(R)-1-aminoethyl]phosphonate" [] "C2H7NO3P" 124.056 +"CPD-19242" "[(1R)-1-acetamidoethyl]phosphonate" [] "C4H8NO4P" 165.085 +"CPD-19243" "(2-acetamidoethyl)phosphonate" [] "C4H8NO4P" 165.085 +"CPD-19259" "minocycline" ["7-dimethylamino-6-demethyl-6-deoxytetracycline"] "C23H26N3O7" 456.474 +"CPD-19296" "cefsulodin" [] "C22H20N4O8S2" 532.542 +"CPD-19297" "polymyxin B" [] null null +"CPD-19298" "N,N',N'',N'''-tetraacetyl chitotetraose" ["chitotetraose", "tetra-N-acetyl chitotetraose"] "C32H54N4O21" 830.793 +"CPD-19299" "N,N',N'',N''',N''''-pentaacetyl chitopentaose" ["chitopentaose", "penta-N-acetyl chitopentaose"] "C40H67N5O26" 1033.987 +"CPD-19300" "N,N',N'',N''',N'''',N'''''-hexaacetyl chitohexaose" ["chitohexaose", "hexa-N-acetyl chitohexaose"] "C48H80N6O31" 1237.182 +"CPD-19318" "diferric dicitrate" ["di-iron dicitrate", "[Fe2(Cit2)]2-"] null null +"CPD-19319" "daptomycin" ["Cubicin"] "C72H98N17O26" 1617.664 +"CPD-19329" "[(Chol-P-GalNAc)-(Chol-P-GalNAc)-(Rib-ol)-P-Glc-AATGal]n-PP-undecaprenol" ["{[6-O-(choline-phospho)-N-acetyl-α-D-galactosaminyl]-(1→3)-[6-O-(choline-phospho)-N-acetyl-β-D-galactosaminyl]-[6-O-(phosphoribitol)]-β-D-glucosyl-(1→3)-2-acetamido-4-amino-2,4,6-trideoxy-β-D-galactosyl}n-diphospho-ditrans,octacis-undecaprenol"] null null +"CPD-19330" "[(Chol-P-GalNAc)-(Chol-P-GalNAc)-(D-Ala-Rib-ol)-P-Glc-AATGal]n-PP-undecaprenol" ["{[6-O-(choline-phospho)-N-acetyl-α-D-galactosaminyl]-(1→3)-[6-O-(choline-phospho)-N-acetyl-β-D-galactosaminyl]-[6-O-(D-alanyl-phosphoribitol)]-β-D-glucosyl-(1→3)-2-acetamido-4-amino-2,4,6-trideoxy-β-D-galactosyl}n-diphospho-ditrans,octacis-undecaprenol"] null null +"CPD-19347" "[β-D-glucuronosyl-(1→3)-N-acetyl-α-D-galactosaminyl]n-diphospho-ditrans,octacis-undecaprenol" ["[β-D-GlcA-(1→3)-α-D-GalNAc]n-diphospho-ditrans,octacis-undecaprenol"] null null +"CPD-19352" "a polyisoprenyl-wall teichuronic acid (B. subtilis 168)" ["[β-D-glucuronosyl-(1→4)-β-D-glucuronosyl-(1→3)-N-acetyl-α-D-galactosaminyl-(1→6)-N-acetyl-β-D-galactosaminyl]n-β-D-glucuronosyl-(1→4)-β-D-glucuronosyl-(1→3)-N-acetyl-α-D-galactosaminyl-(1→6)-N-acetyl-α-D-galactosaminyl-diphospho-ditrans,octacis-undecaprenol", "[β-D-GlcA-(1→4)-β-D-GlcA-(1→3)-α-D-GalNAc-(1→6)-β-D-GalNAc]-β-D-GlcA-(1→4)-β-D-GlcA-(1→3)-α-D-GalNAc-(1→6)-α-D-GalNAc-diphospho-ditrans,octacis-undecaprenol"] null null +"CPD-19353" "bacitracin A" [] "C66H104N17O16S" 1423.712 +"CPD-19395" "γ-L-glutamyl-glycylglycine" ["γ-L-Glu-Gly-Gly"] "C9H14N3O6" 260.226 +"CPD-194" "4-nitrophenyl phosphate" ["para-nitrophenyl phosphate", "nitrophenol-P", "NO2-phen-P", "nitrophenol-phosphate", "p-nitrophenyl phosphate", "pNPP"] "C6H4NO6P" 217.074 +"CPD-19411" "(2S)-2-amino-4-pentenoate" ["(2S)-2-amino-4-pent-4-enoate", "L-allylglycine"] "C5H9NO2" 115.132 +"CPD-19425" "oxomaritinamine" [] "C16H19NO3" 273.331 +"CPD-19426" "noroxomaritidine" ["8-hydroxy-9-methoxy-4,4a-dihydro-3H,6H-5,10b-ethanophenanthridin-3-one"] "C16H17NO3" 271.315 +"CPD-19427" "normaritidine" [] "C16H19NO3" 273.331 +"CPD-19461" "cyclobis-(1→6)-α-nigerosyl" ["cyclobis-(1→3)-α-isomaltosyl"] "C24H40O20" 648.568 +"CPD-19472" "an (E)-ω-(methylsulfanyl)alkanal oxime" [] null null +"CPD-19473" "a 1-(methylsulfanyl)-n-aci-nitroalkane" ["a 1-(methylthio)-n-aci-nitroalkane", "an n-(methylsulfanyl)alkan-1-ylideneazinate"] null null +"CPD-19474" "an (E)-1-(glutathion-S-yl)-N-hydroxy-ω-(methylsulfanyl)alkan-1-imine" [] null null +"CPD-19475" "an (E)-1-(L-cysteinylglycin-S-yl)-N-hydroxy-ω-(methylsulfanyl)alkan-1-imine" [] null null +"CPD-19482" "a 2-[(ω-methylsulfanyl)alkyl]malate" ["a 2-[(ω-methylthio)alkyl]malate"] null null +"CPD-19483" "a 3-[(ω-methylsulfanyl)alkyl]malate" ["a 3-[(ω-methylthio)alkyl]malic acid", "a 3-[(ω-methylthio)alkyl]malate"] null null +"CPD-19484" "a 2-[(ω-methylsulfanyl)alkyl]maleate" ["a 2-[(ω-methylthio)alkyl]maleate"] null null +"CPD-19485" "an ω-(methylsulfanyl)-2-oxoalkanoate" ["an ω-(methylthio)-2-oxoalkanoate"] null null +"CPD-195" "octanoate" ["C-8 acid", "n-caprylic acid", "caprylic acid", "capryloate", "1-heptanecarboxylic acid", "neo-fat 8", "octanoic acid", "n-octanoic acid", "octanoate (n-C8:0)", "n-octic acid", "octoic acid", "n-octylic acid"] "C8H15O2" 143.205 +"CPD-19512" "isothiocyanate" ["isothiocyanic acid"] "CNS" 58.078 +"CPD-19513" "bis(5'-adenosyl) diphosphate" ["Ap2A", "diadenosine pyrophosphate", "adenosine-5'-diphospho-5'-adenosine", "diadenosine 5',5'''-P1,P2-diphosphate", "diadenosine 5',5'-diphosphate", "diadenosine 5',5'''-diphosphate"] "C20H24N10O13P2" 674.416 +"CPD-19517" "αNeuNAc-(2→3)-βGal-(1→4)-βGlcNAc-(1→3)-βGal-(1→4)-βGlcNAc-R" ["NeuNAca2→3Galβl→4GlcNAcβ1→3Galβl→4GlcNAc-R"] null null +"CPD-19542" "tetraethylammonium" [] "C9H24N" 146.295 +"CPD-19547" "N-propargylglycine" ["(S)-2-(prop-2-ynylamino)acetate", "(2S)-2-(ethynylamino)propanoate"] "C5H6NO2" 112.108 +"CPD-19571" "dibenziodolium" ["iodonium diphenyl chloride", "(1,1'-biphenyl)-2,2'-diyliodonium", "2,2'-biphenylyleneiodonium", "diphenyleneiodonium"] "C12H8I" 279.1 +"CPD-196" "octanoyl-CoA" ["Octanoyl-CoA (n-C8:0CoA)", "capryloyl-CoA"] "C29H46N7O17P3S" 889.7 +"CPD-19659" "tridecanoate" ["C13:0", "tridecanoic acid"] "C13H25O2" 213.339 +"CPD-19670" "a thermozeaxanthin" ["a zeaxanthin glucoside ester"] null null +"CPD-19683" "an N-acetyl-β-D-glucosaminyl-(1,3)-[N-acetyl-β-D-glucosyl-(1,6)]-β-D-galactosyl-(1,4)-N-acetyl-β-D-glucosaminyl-R" ["an N-acetyl-β-D-glucosaminyl-1,3-[N-acetyl-β-D-glucosyl-1,6]-β-D-galactosyl-1,4-N-acetyl-D-glucosaminyl-[glycoprotein]"] null null +"CPD-19703" "4H-imidazole" [] "C3H4N2" 68.078 +"CPD-19712" "mesoheme" [] "C34H34N4O4Fe" 618.514 +"CPD-19745" "glycolaldehyde phosphate" [] "C2H3O5P" 138.016 +"CPD-19747" "3-aminobutanoyl-CoA" ["3-aminobutyryl-CoA"] "C25H40N8O17P3S" 849.616 +"CPD-19751" "2-formylpyridine" ["2-pyridaldehyde", "picolinal", "picolinic aldehyde", "picolinaldehyde", "2-pyridinecarboxaldehyde", "2-picolinaldehyde", "pyridine-2-aldehyde"] "C6H5NO" 107.112 +"CPD-19753" "2-dehydro-3-deoxy-D-octonate" ["keto-3-deoxy-D-manno-octulosonate", "3-deoxy-D-manno-octulosonate", "keto-3-deoxy-D-manno-oct-2-ulosonate"] "C8H13O8" 237.186 +"CPD-19763" "2,3,5-trichloro-6-(glutathion-S-yl)-hydroquinone" ["GS-TriCH", "S-glutathionyl-TriCH", "S-glutathionyl-trichloro-p-hydroquinone"] "C16H17N3O8SCl3" 517.745 +"CPD-19766" "coenzyme F430" ["nickel (I) porphinoid", "factor F430", "cofactor F430"] "C42H46N6O13Ni" 901.558 +"CPD-19786" "a 2-acylphloroglucinol" [] null null +"CPD-19787" "a 2-acyl-4-prenylphloroglucinol" ["4-dimethylallyl-acylphloroglucinol"] null null +"CPD-19788" "a 2-acyl-4,6-bisprenylphloroglucinol" [] null null +"CPD-198" "an N-long-chain-fatty-acyl-L-glutamate" [] null null +"CPD-19809" "2,2'-piperazine-1,4-diylbisethanesulfonate" ["PIPES", "2,2'-piperazine-1,4-diyldiethanesulfonate"] "C8H16N2O6S2" 300.344 +"CPD-19814" "tuberonic acid glucoside" ["12-hydroxyjasmonate 12-O-β-D-glucoside"] "C18H27O9" 387.406 +"CPD-19821" "a 12-hydroxyjasmonoyl-L-amino acid" [] null null +"CPD-19832" "3-amino-3-phenylpropanoyl-CoA" [] "C30H42N8O17P3S" 911.686 +"CPD-19853" "an (2R)-2-alkyl-3-oxoalkanoate" [] null null +"CPD-19854" "a cis-3-alkyl-4-alkyloxetan-2-one" [] null null +"CPD-19877" "D-erythronate" ["(2R,3R)-2,3,4-trihydroxybutanoate"] "C4H7O5" 135.096 +"CPD-19886" "a 2,6-di-O-(α-D-mannosyl)-1-phosphatidyl-1D-myo-inositol" ["PIM2"] null null +"CPD-19940" "a 4-(hydroxymethyl)-3-(5-alkanoyl)-5H-furan-2-one" [] null null +"CPD-19941" "a 2-oxo-3-(phosphooxy)propyl 3-oxoalkanoate" ["a 2-oxo-3-(phosphooxy)propyl medium-chain 3-oxo-fatty acid"] null null +"CPD-19942" "a 3-hydroxy-2-oxopropyl 3-oxoalkanoate" [] null null +"CPD-19943" "a (4-alkanoyl-5-oxo-2H-furan-3-yl)methyl phosphate" [] null null +"CPD-19944" "a [(3S,4R)-4-alkanoyl-5-oxooxolan-3-yl]methyl phosphate" [] null null +"CPD-19952" "piperacillin" [] "C23H27N5O7S" 517.556 +"CPD-19953" "cefoperazone" [] "C25H27N9O8S2" 645.664 +"CPD-2" "Cs+" ["cesium(I)", "CsI"] "Cs" 132.905 +"CPD-20033" "1,N2-ethenoguanine" ["1,N(2)-ethenoguanine", "1,4-dihydro-9H-imidazo[1,2-a]purin-9-one", "epsilonG", "εG"] "C7H5N5O" 175.149 +"CPD-20034" "1,N6-ethanoadenine" ["1,N(6)-ethanoadenine", "EA"] "C7H7N5" 161.166 +"CPD-20035" "1-methyl-dAMP" ["N1-methyl-2'deoxyadenosine 5'-monophosphate", "1-methyldeoxyadenosine monophosphate"] "C11H14N5O6P" 343.235 +"CPD-20036" "1-methyl-dATP" ["N1-methyl-2'-deoxyadenosine 5'-triphosphate", "1-methyldeoxyadenosine triphosphate"] "C11H14N5O12P3" 501.179 +"CPD-20058" "polymyxin Ile-B1" [] "C56H103N16O13" 1208.529 +"CPD-20059" "polymyxin B3" [] "C55H101N16O13" 1194.502 +"CPD-20060" "polymyxin B4" [] "C54H99N16O13" 1180.475 +"CPD-20061" "polymyxin B5" [] "C56H103N16O13" 1208.529 +"CPD-20062" "polymyxin B6" [] "C56H103N16O14" 1224.528 +"CPD-20071" "[α-D-Man-(1→3)-α-D-Man-(1→3)-α-D-Man-(1→2)-α-D-Man-(1→2)]n-α-D-Man-(1→3)-α-D-Man-(1→3)-α-D-Man-(1→3)-α-D-GlcNAc-diphospho-ditrans,octacis-undecaprenol" [] null null +"CPD-201" "4-hydroxybenzoyl-CoA" ["p-hydroxybenzoyl-CoA"] "C28H36N7O18P3S" 883.61 +"CPD-20107" "an oxyvinylglycine" [] null null +"CPD-20122" "palatinose" ["6-O-α-D-glucopyranosyl-D-fructofuranose"] "C12H22O11" 342.299 +"CPD-20133" "deoxynybomycin" ["DNM"] "C16H14N2O3" 282.298 +"CPD-20213" "6DNM-NH3" [] "C18H20N3O3" 326.374 +"CPD-20235" "an excited coelenteramide monoanion" [] null null +"CPD-20303" "a polyprenal" ["a prenal"] null null +"CPD-20304" "an enal" [] null null +"CPD-20305" "an S-prenyl-L-cysteine" [] null null +"CPD-20314" "trans-stilbene oxide" ["rel-(2R,3R)-2,3-diphenyloxirane"] null null +"CPD-20315" "stilbene oxide" [] "C14H12O" 196.248 +"CPD-20332" "2,6-diaminopimelate" ["diaminopimelate"] "C7H14N2O4" 190.199 +"CPD-20333" "pipecolate" ["piperidine-2-carboxylate", "piperidine-2-carboxylic acid"] "C6H11NO2" 129.158 +"CPD-20340" "ophthalmate" ["ophthalmic acid", "N-{(2S)-1-[(carboxymethyl)amino]-1-oxobutan-2-yl}-L-glutamine", "(γ-L-glutamyl-(S)-2-aminobutanoyl-glycine"] "C11H18N3O6" 288.28 +"CPD-20431" "(+)-kolavelool" ["(2ξ)-3-methyl-5-[(1R,2S,4aS,8aS)-1,2,4a,5-tetramethyl-1,2,3,4,4a,7,8,8a-octahydronaphthalen-1-yl]pent-1-en-3-ol"] "C20H34O" 290.488 +"CPD-205" "pimelate" ["heptanedioate", "6-carboxyhexanoate", "pimelic acid"] "C7H10O4" 158.154 +"CPD-20511" "a [LarE]-S-[5-carboxy-1-(5-O-phosphono-β-D-ribofuranosyl)pyridin-1-ium-3-carbonyl]-L-cysteine" [] null null +"CPD-20517" "a [LarE]-S-[1-(5-O-phosphono-β-D-ribofuranosyl)-5-(sulfanylcarbonyl)pyridin-1-ium-3-carbonyl]-L-cysteine" [] null null +"CPD-20645" "a dipeptide with an N-terminal L-histidine" ["His-Xaa"] null null +"CPD-207" "phenylacetyl-CoA" ["phenylacetate-CoA"] "C29H38N7O17P3S" 881.637 +"CPD-20735" "two adjacent 2'-deoxycytidines in DNA" [] null null +"CPD-20746" "Nα,Nε-diacetyl-lysyl-D-alanine" ["diacetyl-lys-D-ala"] "C13H22N3O5" 300.334 +"CPD-20750" "L-alanyl-γ-D-glutamyl-L-lysyl-D-alanine" ["L-Ala-γ-D-glu-L-Lys-D-Ala", "peptidoglycan tetrapeptide"] "C17H31N5O7" 417.461 +"CPD-20756" "N-acetyl-muramoyl-(L-alanyl-γ-D-glutamyl-L-lysyl-D-alanyl-D-alanine)" ["NAM-(L-Ala-D-isoGlu-L-Lys-D-Ala-D-Ala)", "NAM-pentapeptide"] "C31H52N7O15" 762.79 +"CPD-20757" "N-acetyl-muramoyl-(L-alanyl-γ-D-glutamyl-L-lysyl-D-alanine)" ["NAM-(L-Ala-D-isoGlu-L-Lys-D-Ala", "NAM-tetrapeptide"] "C28H47N6O14" 691.711 +"CPD-20861" "1-palmitoyl-2-myristoyl-sn-glycero-3-phosphocholine" [] "C38H76NO8P" 705.994 +"CPD-20862" "hexadecanesulfonyl fluoride" ["hexadecane-1-sulfonyl fluoride", "1-hexadecanesulfonyl fluoride"] "C16H33O2FS" 308.494 +"CPD-20888" "cetylpyridinium" ["1-hexadecylpyridinium"] "C21H38N" 304.538 +"CPD-20889" "domiphen" [] "C22H40NO" 334.564 +"CPD-20890" "tetraphenylphosphonium" ["TPP+"] "C24H20P" 341.412 +"CPD-20893" "N-oxalylglycine" ["2-oxo-3-azaglutaric acid", "NOG", "oxaloglycine", "oxalylglycine"] "C4H5NO5" 147.087 +"CPD-20894" "dequalinium" ["DEQ"] "C30H40N4" 456.673 +"CPD-20896" "chlorhexidine" [] "C22H30N10Cl2" 505.452 +"CPD-20897" "pentamidine" [] "C19H24N4O2" 340.424 +"CPD-20898" "nigericin" [] "C40H68O11" 724.971 +"CPD-20899" "valinomycin" [] "C54H90N6O18" 1111.334 +"CPD-209" "UDP-N-acetyl-α-D-muramoyl-L-alanyl-γ-D-glutamyl-L-lysine" [] "C34H52N7O24P2" 1004.765 +"CPD-20900" "benzalkonium" [] "C21H38N" 304.538 +"CPD-20901" "rhodamine 6G" [] "C28H31N2O3Cl" 479.017 +"CPD-20903" "cob(II)inamide" ["Cbi(II)"] "C48H72N11O8Co" 990.096 +"CPD-20904" "cob(II)alamin-[corrinoid adenosyltranferase]" [] null null +"CPD-20905" "cob(I)alamin-[corrinoid adenosyltranferase]" [] null null +"CPD-20906" "[corrinoid adenosyltranferase]-cob(II)inamide" [] null null +"CPD-20907" "[corrinoid adenosyltranferase]-cob(I)inamide" [] null null +"CPD-20920" "tetrachlorosalicylanilide" ["TSA", "3,3',4',5-tetrachlorosalicylanilide"] "C13H7NO2Cl4" 351.016 +"CPD-20921" "bicozamycin" ["bicyclomycin"] "C12H18N2O7" 302.283 +"CPD-20922" "bacillosamine" ["2,4-diamino-2,4,6-trideoxy-D-glucose"] null null +"CPD-20938" "an alkylcobalamin" [] null null +"CPD-20939" "an S-alkylglutathione" ["a γ-L-glutamyl-(S-alkyl)-L-cysteinyl-glycine"] null null +"CPD-20940" "sulfadiazine" [] "C10H10N4O2S" 250.275 +"CPD-20944" "crystal violet" [] "C25H30N3" 372.532 +"CPD-20952" "amphetamine" [] "C9H14N" 136.216 +"CPD-20966" "β-D-glucosyl-1-phosphoundecaprenol" ["β-D-glucosyl ditrans,octacis-undecaprenyl phosphate", "β-D-glucosyl-phospho-ditrans,octacis-undecaprenol"] "C61H100O9P" 1008.429 +"CPD-20969" "5,6-diaminouracil" ["5,6-diamino-2,4-dihydroxypyrimidine", "5,6-diaminopyrimidine-2,4-dione"] "C4H6N4O2" 142.117 +"CPD-20970" "tellurate" ["tetraoxotellurate(2-)", "tetraoxotellurate(VI)", "Te(VI)", "TeO42-"] "O4Te" 191.598 +"CPD-20973" "lariciresinol" [] "C20H24O6" 360.406 +"CPD-20974" "pinoresinol" [] "C20H22O6" 358.39 +"CPD-20975" "secoisolariciresinol" [] "C20H26O6" 362.422 +"CPD-21" "Tl+" ["thallium(I)", "TlI"] "Tl" 204.37 +"CPD-21015" "norfloxacin" [] "C16H18N3O3F" 319.335 +"CPD-21016" "enoxacin" [] "C15H17N4O3F" 320.323 +"CPD-21022" "3,6-diaminoacridine" ["proflavine", "proflavin"] "C13H11N3" 209.25 +"CPD-21025" "nalidixate" ["nalidixic acid"] "C12H11N2O3" 231.23 +"CPD-21029" "sulfachloropyridazine" [] "C10H9N4O2SCl" 284.72 +"CPD-21030" "sulfamethazine" [] "C12H14N4O2S" 278.328 +"CPD-21032" "sulfamethoxazole" [] "C10H11N3O3S" 253.275 +"CPD-21033" "sulfamonomethoxine" [] "C11H12N4O3S" 280.301 +"CPD-21036" "3-hydroxyhexadecanoyl-CoA" ["3-hydroxypalmitoyl-CoA"] "C37H62N7O18P3S" 1017.914 +"CPD-21070" "3,6-diamino-10-methylacridinium" ["acriflavine", "10-methyl-3,6-diaminoacridinium chloride", "Trypaflavin", "acriflavin", "euflavine"] "C14H14N3" 224.285 +"CPD-21081" "an Nα-acyl-L-glutamine" [] null null +"CPD-21098" "3-hydroxydecanoate" [] "C10H19O3" 187.258 +"CPD-21103" "3-methyl-2-oxopentanoate" [] "C6H9O3" 129.135 +"CPD-21112" "a sulfanylalkanol" [] null null +"CPD-21142" "mezlocillin" [] "C21H24N5O8S2" 538.569 +"CPD-21145" "azlocillin" [] "C20H22N5O6S" 460.484 +"CPD-21160" "(glutathion-S-yl)-bimane" ["bimane-S-glutathione"] "C20H26N5O8S" 496.514 +"CPD-21167" "monochlorobimane" [] "C10H11N2O2Cl" 226.662 +"CPD-21221" "4-oxo-2-pentenal" [] "C5H6O2" 98.101 +"CPD-21252" "β-D-idopyranuronate" ["β-D-idopyranuronic acid"] "C6H9O7" 193.133 +"CPD-21253" "α-D-idopyranuronate" ["α-D-idopyranuronic acid"] "C6H9O7" 193.133 +"CPD-21258" "α-L-xylopyranose" [] "C5H10O5" 150.131 +"CPD-21259" "3-deoxy-D-glycero-β-D-galacto-nonulosonate" ["β-Kdn", "3-deoxy-D-glycero-β-D-galacto-non-2-ulopyranosonate"] "C9H15O9" 267.212 +"CPD-21260" "3-deoxy-D-glycero-α-D-galacto-nonulosonate" ["α-Kdn", "3-deoxy-D-glycero-α-D-galacto-non-2-ulopyranosonate"] "C9H15O9" 267.212 +"CPD-21261" "3-deoxy-β-D-manno-2-octulosonate" ["β-2-keto-3-deoxyoctulosonic acid pyranose", "3-deoxy-β-D-manno-octulosonate", "3-deoxy-β-D-manno-oct-2-ulosonate"] "C8H13O8" 237.186 +"CPD-21282" "florfenicol" [] "C12H14NO4FSCl2" 358.211 +"CPD-21283" "nafcillin" [] "C21H22N2O5S" 414.475 +"CPD-21304" "alloxanthine" ["oxypurinol"] "C5H4N4O2" 152.112 +"CPD-21336" "2-chlorophenylhydrazine" [] "C6H7N2Cl" 142.588 +"CPD-21340" "all-trans-nonaprenyl diphosphate" ["(hydroxy-(3,7,11,15,19,23,27,31,35-nonamethylhexatriaconta-2,6,10,14,18,22,26,30,34-nonaenoxy)phosphinoyl)oxyphosphonic acid", "solanyl pyrophosphate", "all-trans-nonaprenyl diphosphate", "solanesyl pyrophosphate", "solanesyl diphosphate"] "C45H73O7P2" 788.015 +"CPD-21342" "cetyldimethlethylammonium" ["ethylhexadecyldimethylammonium", "Mecetronium"] "C20H44N" 298.574 +"CPD-21351" "3-deoxy-D-manno-2-octulosonate" ["2-keto-3-deoxyoctulosonic acid pyranose", "3-deoxy-D-manno-octulosonate", "3-deoxy-D-manno-oct-2-ulosonate"] "C8H13O8" 237.186 +"CPD-21352" "core oligosaccharide-lipid A (E. coli R1 core type)" ["lipid A-core oligosaccharide (E. coli R1 core type)"] "C161H280N2O88P4" 3775.838 +"CPD-21354" "core oligosaccharide-lipid A (E. coli R2 core type)" ["lipid A-core oligosaccharide (E. coli R2 core type)"] "C163H283N3O88P4" 3816.891 +"CPD-21356" "core oligosaccharide-lipid A (E. coli R3 core type)" ["lipid A-core oligosaccharide (E. coli R3 core type)"] "C163H283N3O88P4" 3816.891 +"CPD-21357" "core oligosaccharide-lipid A (E. coli R4 core type)" ["lipid A-core oligosaccharide (E. coli R4 core type)"] "C161H280N2O88P4" 3775.838 +"CPD-21358" "L-glycero-D-manno-heptose" [] "C7H14O7" 210.183 +"CPD-21359" "core oligosaccharide-lipid A (E. coli K-12 core type)" [] "C162H282N2O89P4" 3805.865 +"CPD-21374" "bis(guanylyl tungstenpterin) cofactor" ["W-bisPGD", "W-bis(pyranopterin guanosine dinucleotide)"] "C40H44N20O27P4S4W" 1672.89 +"CPD-21381" "4-hydroxy-2-oxohexanoate" [] "C6H9O4" 145.135 +"CPD-21382" "4-hydroxy-2-oxopentanoate" [] "C5H7O4" 131.108 +"CPD-21398" "a [protein]-phospho-L-aspartate" [] null null +"CPD-21406" "a partially deacetylated poly-β-1,6-N-acetyl-D-glucosamine (fragment 1)" [] null null +"CPD-21407" "a partially deacetylated poly-β-1,6-N-acetyl-D-glucosamine (fragment 2)" [] null null +"CPD-21409" "a partially deacetylated poly-β-1,6-N-acetyl-D-glucosamine I" [] null null +"CPD-21504" "colanic acid (E. coli K-12)" ["E unit", "M-antigen"] null null +"CPD-21519" "Batimastat" [] "C23H31N3O4S2" 477.636 +"CPD-21521" "a 3-carboxy-ω-(methylsulfanyl)-2-oxoalkanoate" [] null null +"CPD-21522" "colanic acid repeating unit" ["4,6-pyruvoyl-β-D-galactosyl-(1→4)-β-D-glucoronosyl-(1→3)-β-D-galactosyl-(1→4)-β-L-fucosyl-(1→4)-3-O-acetyl-α-L-fucosyl-(1→3)-β-D-glucose"] "C41H62O33" 1082.921 +"CPD-21531" "M-antigen (variant) monomer undecaprenyl diphosphate" ["4,6-pyruvyl-α-D-galactosyl-(1→4)-β-D-glucoronosyl-(1→3)-2-O-acetyl-α-D-galactosyl-(1→3)-α-L-fucosyl-(1→4)-2,3-di-O-acetyl-α-L-fucosyl-(1→3)-α-D-glucosyl-diphosphoundecaprenol"] "C100H154O41P2" 2074.239 +"CPD-21533" "a [protein]-N6-[1,1-(5-adenosylyl-α-D-ribose-1,2-di-O-yl)ethyl]-L-lysine" [] null null +"CPD-21599" "8-azido-3,8-dideoxy-D-manno-2-octulosonate" ["8-azido-3,8-dideoxy-D-manno-oct-2-ulosonic acid", "Kdo-N3"] "C8H12N3O7" 262.199 +"CPD-216" "D-phenylalanine" ["D-α-amino-β-phenylpropionic acid"] "C9H11NO2" 165.191 +"CPD-21605" "enterobacterial common antigen-phosphatidylglycerol" ["ECAPG", "ECA phosphatidylglycerol"] null null +"CPD-21612" "iron(III)-[(2,3-dihydroxybenzoylserine)2] complex" ["ferric-[(2,3-dihydroxybenzoylserine)2] complex"] "C20H15N2O11Fe" 515.192 +"CPD-21685" "6-sulfo-α-D-quinovose" ["α-D-sulphoquinovose", "6-deoxy-6-α-D-sulfoglucose", "6-deoxy-6-sulfo-α-D-glucopyranose", "α-sulfoquinovose"] "C6H11O8S" 243.208 +"CPD-21702" "3-hydroxypropanal dimer" ["2-(2-hydroxyethyl)-1,3-dioxan-4-ol"] "C6H12O4" 148.158 +"CPD-21703" "3-hydroxypropanal hydrate" ["reuterin hydrate"] "C3H8O3" 92.094 +"CPD-21707" "N6-(D-glucosyl)-L-lysine" ["glucoselysine", "glucosyllysine"] "C12H25N2O7" 309.339 +"CPD-21757" "laudanosoline" ["N-methylnorlaudanosoline", "N-methylntetrahydropapaveroline"] "C17H20NO4" 302.349 +"CPD-21758" "norlaudanosoline" ["tetrahydropapaveroline"] "C16H18NO4" 288.322 +"CPD-21759" "norreticuline" ["norreticuline"] "C18H22NO4" 316.376 +"CPD-21764" "norcoclaurine" ["1,2,3,4-tetrahydro-1-[(4-hydroxyphenyl)methyl]-6,7-isoquinolinediol"] "C16H18NO3" 272.323 +"CPD-21765" "6-O-methylnorlaudanosoline" ["4-[(7-hydroxy-6-methoxy-1,2,3,4-tetrahydroisoquinol-1-yl)methyl] benzene-1,2-diol"] "C17H20NO4" 302.349 +"CPD-21777" "D-selenomethionine" [] "C5H10NO2Se" 195.099 +"CPD-21785" "4-amino-L-phenylalanyl-[CmlP-peptidyl-carrier-protein]" [] null null +"CPD-21786" "2-(4-aminophenyl)-L-seryl-[CmlP-peptidyl-carrier-protein]" ["2-amino-3-(4-aminophenyl)-3-hydroxypropanoyl-[CmlP-peptidyl-carrier-protein]"] null null +"CPD-21798" "4-nitrobenzoyl-[aureothin polyketide synthase]" [] null null +"CPD-21799" "(8E,10E)-2,4,8,10-tetramethyl-11-(4-nitrophenyl)-3,5-dioxoundeca-8,10-dienoyl-[aureothin polyketide synthase]" [] null null +"CPD-218" "D-methionine" ["D-2-amino-4-(methylthio)butyric acid"] "C5H11NO2S" 149.207 +"CPD-21833" "(2Z,4Z,8E,10E,12E,14E)-3,5-dihydroxy-2,4,8,10,12,14-hexamethyl-15-(4-nitrophenyl)pentadeca-2,4,8,10,12,14-hexaenoyl-[spectinabilin polyketide synthase]" [] null null +"CPD-21834" "4-nitrobenzoyl-[spectinabilin polyketide synthase]" [] null null +"CPD-219" "D-lysine" ["D-2,6-diaminohexanoic acid"] "C6H15N2O2" 147.197 +"CPD-21965" "a mitomycin" [] null null +"CPD-22030" "muscimol" ["5-(aminomethyl)-1,2-oxazol-3-ol", "3-hydroxy-5-aminomethylisoxazole", "agarin", "pantherine"] "C4H7N2O2" 115.111 +"CPD-22070" "an N-(stearoyl)-sphingoid base" ["a C18 ceramide"] null null +"CPD-2209" "N-acetyl-α-D-glucosaminyl-diphospho-trans,octacis-decaprenol" ["GlcNAc-PP-C50", "GlcNAc-pyrophosphoryldecaprenol", "N-acetyl-glucosaminyl-pyrophosphoryldecaprenol", "decaprenyl diphospho N-acetyl-glucosamine", "decaprenyl-N-acetyl-D-glucosaminyl-pyrophosphate", "N-acetyl-D-glucosaminyldiphosphodecaprenol", "N-acetyl-D-glucosaminyldiphospho-decaprenol", "glycolipid 1", "mono-trans, poly-cis-decaprenyl-N-acetyl-α-D-glucosaminyl-pyrophosphate", "lipid I"] "C58H95NO12P2" 1060.335 +"CPD-22115" "de(cyclohexane-1-carbonyl)-thiazinotrienomycin E" [] "C31H42N3O6S" 584.749 +"CPD-22116" "de(cyclohexane-1-carbonyl-D-alanyl)-thiazinotrienomycin E" [] "C28H36N2O5S" 512.663 +"CPD-22307" "3-deoxy-D-arabino-heptulopyranuronate 7-phosphate" ["(2R,4R,5S,6R)-2,4,5-trihydroxy-6-[(phosphonatooxy)methyl]oxane-2-carboxylate", "cyclic 3-deoxy-D-arabino-heptulosonate 7-phosphate"] "C7H10O10P" 285.124 +"CPD-22313" "(S)-3-hydroxyoctanoyl-CoA" [] "C29H46N7O18P3S" 905.7 +"CPD-22314" "cyanocob(II)inamide" [] "C49H72N12O8Co" 1016.113 +"CPD-22315" "aquacob(II)inamide" ["aquocob(II)inamide"] "C48H74N11O9Co" 1008.111 +"CPD-22316" "aquacyanocob(III)inamide" ["cyano-aquo-cob(III)inamide"] "C49H74N12O9Co" 1034.129 +"CPD-22317" "a 2,2'-dilysocardiolipin" ["dilyso-CL", "DLCL", "diacylated CL", "sn-1(1')-diacyl-lysocardiolipin"] null null +"CPD-22318" "microcin J25" ["MccJ25"] null null +"CPD-22328" "FAD-N5-oxide" [] "C27H32N9O16P2" 800.548 +"CPD-22329" "FMN-N5-oxide" ["flavin mononucleotide N5-oxide", "riboflavin 5'-phosphate N5-oxide"] "C17H18N4O10P" 469.324 +"CPD-22331" "(Z)-2-methylureidoacrylate" ["(2Z)-3-(carbamoylamino)-2-methylprop-2-enoate"] "C5H7N2O3" 143.122 +"CPD-22332" "(Z)-2-methylaminoacrylate" [] "C4H6NO2" 100.097 +"CPD-22373" "(2E)-3,7-dimethylocta-2,6-diene-1-thiol" [] "C10H18S" 170.312 +"CPD-22376" "ertapenem" [] "C22H25N3O7S" 475.515 +"CPD-225" "trans-aconitate" ["trans-aconitic acid", "(E)-prop-1-ene-1,2,3-tricarboxylate"] "C6H3O6" 171.086 +"CPD-22525" "p-aminophenyl-β-D-glucoside" ["4-aminophenyl-β-D-glucoside"] "C12H17NO6" 271.269 +"CPD-22526" "p-aminophenyl-α-D-glucoside" ["4-aminophenyl-α-D-glucoside"] "C12H17NO6" 271.269 +"CPD-22527" "isopropyl β-D-thiogalactopyranoside" ["IPTG", "isopropyl thiogalactoside"] "C9H18O5S" 238.298 +"CPD-22528" "phenylethyl-β-D-galactopyranoside" [] "C14H20O6" 284.308 +"CPD-22536" "hepta-acylated Kdo2 lipid A (E. coli)" ["hepta-acylated Re endotoxin", "palmitoylated Re endotoxin"] "C126H226N2O40P2" 2471.108 +"CPD-22538" "2-palmitoyl-sn-glycero-3-phosphoserine" [] "C22H43NO9P" 496.557 +"CPD-22539" "lipid Y (E. coli)" ["palmitoylated lipid X"] "C50H94NO13P" 948.265 +"CPD-22631" "(6R)-L-threo-6,7-dihydrobiopterin" ["threo-quinonoid dihydro-(6H)-biopterin", "threo-quinoid dihydrobiopterin"] "C9H13N5O3" 239.233 +"CPD-22658" "arsenic triglutathione" [] "C30H43N9O18S3As" 988.821 +"CPD-22681" "3-O-D-mannopyranose" [] "C7H14O6" 194.184 +"CPD-22690" "5-fluorouridine 5'-monophosphate" ["5-F-UMP", "5-fluorouridine monophosphate", "fosfluoridine"] "C9H10N2O9FP" 340.158 +"CPD-227" "α-D-lyxopyranose" ["α-D-lyxose"] "C5H10O5" 150.131 +"CPD-22802" "microcin B17 precursor peptide containing azole residues" [] null null +"CPD-22805" "microcin B17" [] "C118H156N48O45S4" 3095.065 +"CPD-22978" "4-hydroxy-2-pentenal-5-phosphate" [] "C5H7O6P" 194.08 +"CPD-23" "a [3Fe-3S] iron-sulfur cluster" ["Fe3S3", "a Fe3S3 center", "a Fe3S3 cluster", "a Fe3S3 iron-sulfur cluster", "a Fe3S3 iron-sulfur center", "[3Fe-3S]"] "HS3Fe3" 263.721 +"CPD-230" "β-palatinose" ["6-O-α-D-glucopyranosyl-D-fructofuranose", "α-D-glucopyranose-(1→6)-β-D-fructofuranose"] "C12H22O11" 342.299 +"CPD-23250" "a deoxyinosine in DNA" ["hypoxanthine in DNA"] null null +"CPD-23251" "a deoxyinosine-[DNA]-3'-hydroxyl" [] null null +"CPD-23305" "6-O-methyl-β-D-galacturonate" ["6-O-methyl-β-D-galacturonic acid"] "C7H12O7" 208.168 +"CPD-23427" "aldehydo-L-arabinuronate" [] "C5H7O6" 163.107 +"CPD-23428" "α-L-glycero-L-galacto-octulonopyranose 1-phosphate" [] "C8H12O12P" 331.149 +"CPD-23429" "cis heme d" [] "C34H32N4O6Fe" 648.497 +"CPD-2343" "3-dehydro-L-gulonate 6-phosphate" ["3-keto-L-gulonate 6-P", "3-keto-L-gulonate 6-phosphate"] "C6H8O10P" 271.097 +"CPD-23430" "trans heme d" [] "C34H32N4O6Fe" 648.497 +"CPD-23431" "keto-L-glycero-L-galacto-octuluronate" [] "C8H13O9" 253.185 +"CPD-23449" "sulfo-bis(guanylyl molybdopterin) cofactor" ["sulfo-bis(molybdopterin guanine dinucleotide)molybdenum cofactor", "MoS(Dtpp-mGDP)2", "sulfo-bis-MGD", "sulfo-bis(molybdopterin guanine dinucleotide)molybdenum", "sulfo-molybdo-bis(pyranopterin guanine dinucleotide)", "sulfo-mo-bis(molybdopterin guanine dinucleotide)", "sulfo-Mo-bisPGD", "sulfo-Mo-bis(pyranopterin guanosine dinucleotide)"] null null +"CPD-23504" "darobactin" [] "C47H55N11O12" 966.018 +"CPD-23531" "mechlorethamine" ["nitrogen mustard"] "C5H11NCl2" 156.055 +"CPD-23534" "a mechlorethamine derived bis-guanyl compound" [] "C15H21N11O2" 387.403 +"CPD-23638" "2-deoxy-2,3-dehydro-N-acetylneuraminate" ["2-deoxy-2,3-dehydro-N-acetylneuraminic acid", "Neu2en5Ac"] "C11H16NO8" 290.249 +"CPD-23688" "L-glycero-L-galacto-octuluronate" [] "C8H13O9" 253.185 +"CPD-23690" "L-glycero-L-galacto-octuluronate-1-phosphate" [] "C8H12O12P" 331.149 +"CPD-239" "cysteamine" ["2-aminoethanethiol", "β-aminoethanethiol", "β-mercaptoethylamine", "mercaptamine", "thioethanolamine"] "C2H8NS" 78.152 +"CPD-2482" "D-cycloserine" ["D-4-amino-3-isoxazolidinone", "D-4-amino-3-isoxazolidone", "orientomycin", "Seromycin"] "C3H7N2O2" 103.1 +"CPD-2483" "L-cycloserine" ["L-4-amino-3-isoxazolidinone", "L-4-amino-3-isoxazolidone"] "C3H7N2O2" 103.1 +"CPD-253" "4,5-seco-dopa" ["4-(L-alanin-3-yl)-2-hydroxy-cis,cis-muconate 6-semialdehyde"] "C9H10NO6" 228.181 +"CPD-255" "(S)-acetoin" ["(S)-2-acetoin", "L-(+)-acetoin", "(+)-acetoin", "(S)-acetylmethylcarbinol"] "C4H8O2" 88.106 +"CPD-259" "4-aminophenol" ["4-hydroxyaniline", "p-aminophenol", "4-aminobenzenol", "p-hydroxyaniline", "p-aminobenzenol"] "C6H7NO" 109.127 +"CPD-264" "3-hydroxybenzoyl-CoA" [] "C28H36N7O18P3S" 883.61 +"CPD-27" "phosphinate" ["hypophosphite"] "H2O2P" 64.988 +"CPD-270" "an N-acyl-D-glucosamine" [] null null +"CPD-273" "N-glycolylneuraminate" ["N-glycoloyl-neuraminate", "N--glycolylneuraminic acid", "Neu5Gc"] "C11H18NO10" 324.264 +"CPD-280" "glutarate semialdehyde" ["5-oxopentanoate"] "C5H7O3" 115.108 +"CPD-2841" "azide" ["trinitride (1-)"] "N3" 42.02 +"CPD-29" "p-chloromercuribenzoate" ["4-chloromercuribenzoic acid", "(4-carboxyphenyl)-chloro-mercury", "p-CMB", "p-chloromercuribenzoic acid"] "C7H4O2ClHg" 356.15 +"CPD-291" "2-oxopimelate" ["2-oxoheptanedionic acid", "α-ketopimelate"] "C7H8O5" 172.137 +"CPD-296" "dihydrolipoate" ["Dihydrolipoic acid", "Dihydrothioctic acid", "DHLP"] "C8H15O2S2" 207.325 +"CPD-2961" "D-gluconate 6-phosphate" ["6-p gluconate", "6-phospho gluconate", "6-phosphogluconic acid", "6-phospho D-gluconate"] "C6H10O10P" 273.113 +"CPD-298" "N-methyl-L-alanine" ["N-methylalanine"] "C4H9NO2" 103.121 +"CPD-3" "molybdate" ["MoO42-", "molybdate ion", "MoO4-2"] "O4Mo" 159.938 +"CPD-302" "D-aspartate" ["D-aspartic acid"] "C4H6NO4" 132.096 +"CPD-31" "(R)-citramalate" ["(R)-2-methylmalic acid", "(3R)-citramalate", "(3R)-citramalic acid", "(3R)-α-hydroxypyrotartaric acid", "D-citramalate", "D-citramalic acid", "D-α-hydroxypyrotartaric acid", "(R)-2-methylmalate", "(R)-(-)-citramalic acid"] "C5H6O5" 146.099 +"CPD-313" "propane-1,3-diamine" ["trimethylenediamine", "1,3-propanediamine", "1,3-diaminopropane", "1,3-DAP"] "C3H12N2" 76.141 +"CPD-315" "cyanocob(III)alamin" ["cyanocobalamin", "rubramin", "vitamin B12", "alphamine", "crystamine", "cyanoject", "cyomin", "cytamen", "hydrobexan", "rubesol"] "C63H88N14O14PCo" 1355.377 +"CPD-316" "reduced riboflavin" ["4a,5-dihydroriboflavine", "7,8-dimethyl-10-(D-ribo-2,3,4,5-tetrahydroxypentyl)-4a,5-dihydroisoalloxazine", "7,8-dimethyl-10-(D-ribo-2,3,4,5-tetrahydroxypentyl)-5,10-dihydrobenzo[g]pteridine-2,4(3H,4aH)-dione"] "C17H22N4O6" 378.384 +"CPD-318" "monodehydroascorbate radical" ["monodehydroascorbic acid", "semidehydroascorbic acid", "semidehydroascorbate", "ascorbyl radical"] "C6H7O6" 175.118 +"CPD-326" "butan-2-ol" ["2-butyl alcohol", "1-methylpropyl alcohol", "1-methyl-1-propanol", "2-butanol", "sec-butyl alcohol", "butylene hydrate", "methyl ethyl carbinol", "2-hydroxybutane"] "C4H10O" 74.122 +"CPD-330" "L-galactono-1,4-lactone" ["L-galactono-γ-lactone", "L-galactonate-γ-lactone", "L-galactonic acid-γ-lactone", "L-galactonic acid-g-lactone"] "C6H10O6" 178.141 +"CPD-334" "2,3-didehydro-L-gulonate" ["(4R,5S)-4,5,6-trihydroxy-2,3-dioxohexanoate", "2,3-diketo-L-gulonate", "DKG", "L-xylo-hex-2-enonic acid", "L-xylo-hex-2-enonate", "2,3-dioxo-L-gulonate"] "C6H7O7" 191.117 +"CPD-3344" "pyruvic oxime" [] "C3H4NO3" 102.069 +"CPD-335" "(R)-3-hydroxybutanoate" ["D-3-hydroxybutyrate", "D-β-hydroxybutyrate", "(R)-3-hydroxybutanoic acid", "(R)-3-hydroxybutyric acid", "β-hydroxybutyric acid", "b-hydroxybutyric acid", "(R)-3-hydroxybutyrate"] "C4H7O3" 103.097 +"CPD-343" "3-deoxy-D-glycero-2,5-hexodiulosonate" ["(4S)-4,6-dihydroxy-2,5-dioxohexanoate", "2,5-diketo-3-deoxy-D-gluconate", "2,5-diketo-3-deoxygluconate", "DKII", "2,5-didehydro-3-deoxy-L-galactonate"] "C6H7O6" 175.118 +"CPD-3462" "N8-acetylspermidine" ["N-[4-(3-aminopropylamino)butyl]acetamide"] "C9H23N3O" 189.3 +"CPD-347" "1,3-propanediol" ["propane-1,3-diol", "Trimethylene glycol", "PDO", "TMG"] "C3H8O2" 76.095 +"CPD-352" "17β-estradiol" ["estradiol", "β-estradiol", "oestradiol"] "C18H24O2" 272.386 +"CPD-355" "D-arabinitol" ["D-arabitol", "D-arabinol", "D-lyxitol", "(2R,4R)-pentane-1,2,3,4,5-pentol"] "C5H12O5" 152.147 +"CPD-3561" "lactulose" ["CEPHULAC (TN)"] "C12H22O11" 342.299 +"CPD-3563" "Tween 80" ["polysorbate 80"] "C32H60O10" 604.82 +"CPD-3564" "(S)-2-hydroxybutanoate" ["L-2-hydroxybutyric acid", "L-2-hydroxybutyrate", "L-α-hydroxybutyrate", "a-hydroxybutyric acid", "(S)-2-hydroxybutyrate"] "C4H7O3" 103.097 +"CPD-3565" "methyl-α-D-galactopyranoside" ["1-Methyl-D-galactopyranoside", "α-methylgalactoside", "α-methyl-D-galactopyranoside", "α-methyl-D-galactoside", "methyl-α-D-galactoside", "1-O-methyl-α-D-galactopyranose", "a-methyl-D-galactoside"] "C7H14O6" 194.184 +"CPD-3566" "Tween 20" ["POE (20) sorbitan monolaurate", "POE (6) sorbitol monolaurate", "polyoxyethylene (20) sorbitan monolaurate", "polyoxyethylene sorbitan monolaurate", "polysorbate 20", "sorbitan", "tween (R) 20"] "C26H50O10" 522.675 +"CPD-3567" "Tween 40" [] "C26H50O3" 410.679 +"CPD-3569" "glycyl-L-glutamate" ["glycyl-L-glutamic acid", "Gly-Glu"] "C7H11N2O5" 203.174 +"CPD-3570" "methyl β-D-glucoside" ["methyl-β-D-glucose", "methyl-β-D-glucopyranoside", "1-O-methyl-β-D-glucopyranose", "methyl-β-D-glucopyranoside hemihydrate", "β-methyl-D-glucoside", "b-methyl-D-glucoside"] "C7H14O6" 194.184 +"CPD-3571" "propane-1,2,3-tricarboxylate" ["propane 1,2,3-tricarboxylic acid", "beta-carboxyglutaric acid", "tricarballylate", "tricarballylic acid", "1,2,3-propanetricarboxylic acid"] "C6H5O6" 173.102 +"CPD-3572" "mono-methyl hydrogen succinate" ["butanedioic acid monomethyl ester", "methyl hydrogen succinate", "monomethylsuccinate"] "C5H7O4" 131.108 +"CPD-3573" "methyl pyruvate" ["propanoic acid, 2-oxo-, methyl ester", "pyruvic acid methylester"] "C4H6O3" 102.09 +"CPD-358" "(R)-lactaldehyde" ["D-lactaldehyde", "D-2-hydroxy-propionaldehyde"] "C3H6O2" 74.079 +"CPD-3582" "methyl α-D-glucoside" ["α-methyl-D-glucoside", "α-methylglucoside", "methyl α-D-glucopyranose", "methyl α-D-glucopyranoside", "methyl-D-glucoside", "a-methyl-D-glucoside", "αMG"] "C7H14O6" 194.184 +"CPD-3602" "laminaran" ["a laminarin", "laminarin"] null null +"CPD-3604" "N-acetyl-α-D-galactosamine" ["N-acetylgalactosamine", "acetylgalactosamine", "2-acetamido-2-deoxy-D-galactopyranose", "2-acetamido-2-deoxy-D-galactose", "N-acetyl-D-chondrosamine", "α-D-galactopyranose, 2-(acetylamino)-2-deoxy-", "N-acetyl-D-galactosamine", "α-GalNAc"] "C8H15NO6" 221.21 +"CPD-3605" "β-gentiobiose" ["gentiobiose", "β-D-Glcp-(1→6)-β-D-Glcp", "β-D-glucopyranose-(1→6)-β-D-glucopyranose"] "C12H22O11" 342.299 +"CPD-3607" "L-glucose" ["L-glucopyranose"] "C6H12O6" 180.157 +"CPD-3609" "maltitol" ["α-D-glucopyranosyl-(1→4)-D-glucitol", "4-O-α-D-glucopyranosyl-D-glucitol"] "C12H24O11" 344.315 +"CPD-3611" "1-O-methyl-β-D-glucuronate" ["methyl-β-D-glucopyranosiduronic acid", "methylglucopyranosiduronic acid", "methyl-β-D-glucuronide", "1-O-methyl-β-D-glucuronic acid", "β-methyl-D-glucuronate", "b-methyl-D-glucuronic acid", "β-methyl-D-glucuronic acid"] "C7H11O7" 207.16 +"CPD-3612" "methyl α-D-mannopyranoside" ["α-methyl mannopyranoside", "1-O-methyl-α-D-mannopyranoside", "methyl α-D-mannoside", "α-D-methyl mannoside", "α-methyl-D-(-)-mannoside", "a-methyl-D-mannoside"] "C7H14O6" 194.184 +"CPD-3613" "1-O-methyl-β-D-xylopyranose" ["methyl β-D-xyloside", "methyl β-D-xylopyranoside", "β-methyl-D-xyloside", "b-methyl-D-xyloside"] "C6H12O5" 164.158 +"CPD-3614" "sedoheptulose anhydride" ["sedoheptulosan", "2,7-anhydro-β-D-altro-2-heptulopyranose"] "C7H12O6" 192.168 +"CPD-3615" "N-acetyl -D- glucosaminitol" ["2-Acetamido-2-deoxy-D-glucitol", "D-Glucitol, 2-(acetylamino)-2-deoxy-", "2-Acetamido-2-deoxyglucitol"] "C8H17NO6" 223.225 +"CPD-3617" "decanoate" ["caprate", "decanoic acid", "n-decanoate", "n-capric acid", "caprinic acid", "caprinate", "capric acid"] "C10H19O2" 171.259 +"CPD-3618" "2-oxovalerate" ["2-ketopentanoate", "2-oxopentanoate", "α-ketovaleric acid", "2-ketovalerate", "α-ketovalerate", "a-ketovaleric acid"] "C5H7O3" 115.108 +"CPD-362" "apiitol" [] "C5H12O5" 152.147 +"CPD-3621" "methyl D-lactate" ["methyl (R)-lactate", "D-lactic acid methyl ester", "D-lactate methyl ester"] "C4H8O3" 104.105 +"CPD-3623" "sebacate" ["sebacic acid", "1,10-decanedioic acid", "1,8-Octanedicarboxylic acid", "n-decanedioic acid", "decanedioic acid", "decanedicarboxylic acid"] "C10H16O4" 200.234 +"CPD-3624" "sorbate" ["sorbic acid", "2-propenylacrylic acid", "1,3-pentadiene-1-carboxylic acid", "2,4-hexadienoic acid", "(2-butenylidene)acetic acid", "crotylidene acetic acid", "(E,E)-2,4-hexadienoic acid", "hexa-2,4-dienoic acid", "panosorb", "hexadienoic acid", "sorbistat", "trans,trans-2,4-hexadienoic acid", "trans,trans-sorbic acid", "preservastat", "α-trans-γ-trans-Sorbic acid"] "C6H7O2" 111.12 +"CPD-3627" "sec-butylamine" ["2-aminobutane", "2-aminobutane base", "2-butanamine", "2-butylamine", "butafume", "deccotane", "butanamine", "frucote", "methylpropylamine"] "C4H12N" 74.145 +"CPD-3633" "D-asparagine" [] "C4H8N2O3" 132.119 +"CPD-3642" "D-valine" ["2-amino-3-methylbutanoic acid(D)", "D-2-amino-3-methylbutyric acid", "D-2-amino-3-methylbutanoic acid", "(R)-valine"] "C5H11NO2" 117.147 +"CPD-3662" "2-phthalimidoglutarate" ["2-Phthalimidoglutaric acid", "2-(1,3-dioxoisoindol-2-yl)glutaric acid", "L-2-Phthalimidoglutaric acid", "N-Phthaloyl-L-glutamic acid", "N-Phthalyl-L-glutamic acid", "Phthaloyl-L-glutamic acid", "N-phthaloyl-L-glutamate"] "C13H9NO6" 275.217 +"CPD-3681" "n-amylamine" ["1-pentanamine", "1-aminopentane", "1-pentylamine", "monoamylamine", "norleucamine", "n-pentylamine"] "C5H14N" 88.172 +"CPD-3682" "ethylenediamine" ["ethanediamine", "1,2-diaminoethane", "1,2-ethanediamine", "dimethylenediamine"] "C2H9N2" 61.106 +"CPD-3684" "alloxan" ["2,4,5,6(1H,3H)-pyrimidinetetrone", "5,6-dioxouracil", "2,4,5,6-tetraoxohexahydropyrimidine"] "C4H2N2O4" 142.071 +"CPD-3685" "parabanate" ["parabanic acid", "2,4,5-trioxoimidazolidine"] "C3H2N2O3" 114.06 +"CPD-3687" "2-aminocaprylate" ["2-aminocaprylic acid", "α-aminocaprylic acid", "2-aminooctanoic acid", "D,L-alpha-amino-caprylate", "DL-α-amino-caprylic acid"] "C8H17NO2" 159.228 +"CPD-369" "L-iditol" [] "C6H14O6" 182.173 +"CPD-37" "5-dehydro-4-deoxy-D-glucuronate" ["4-deoxy-L-threo-5-hexosulose uronate", "4,5-dihydroxy-2,6-dioxo-hexanoate", "(4S,5R)-4,5-dihydroxy-2,6-dioxohexanoate", "5-keto-4-deoxyuronate", "DKI", "4-deoxy-5-ketouronic acid"] "C6H7O6" 175.118 +"CPD-3703" "triethyl phosphate" ["phosphoric acid, triethyl ester", "TEP", "ethyl phosphate", "triethoxyphosphine oxide"] "C6H15O4P" 182.156 +"CPD-3705" "adenosine 2'-monophosphate" ["2'-adenylic acid", "adenosine-2'-monophosphate", "AMP 2'-phosphate"] "C10H12N5O7P" 345.208 +"CPD-3706" "adenosine 3'-monophosphate" ["3'-adenylic acid", "adenosine 3'-phosphate", "adenosine-3'-monophosphoric acid", "adenosine-3'-monophosphate", "3'-adenosine monophosphate"] "C10H12N5O7P" 345.208 +"CPD-3707" "adenosine 2',3'-cyclic monophosphate" ["cyclic 2',3'-AMP", "2',3'-Cyclic AMP", "adenosine 2',3'-(hydrogen phosphate)", "(2R,3aR,4R,6R,6aR)-4-(6-amino-9H-purin-9-yl)-6-(hydroxymethyl)tetrahydrofuro[3,4-d][1,3,2]dioxaphosphol-2-ol 2-oxide", "(3aR,4R,6R,6aR)-4-(6-amino-9H-purin-9-yl)-6-(hydroxymethyl)tetrahydrofuro[3,4-d][1,3,2]dioxaphosphol-2-ol 2-oxide", "adenosine cyclic 2',3'-(hydrogen phosphate)", "cyclic 2',3'-adenosine monophosphate"] "C10H11N5O6P" 328.201 +"CPD-3708" "guanosine 3'-monophosphate" ["guanosine 3'-phosphate", "3'-guanylic acid"] "C10H12N5O8P" 361.207 +"CPD-3709" "guanosine 2',3'-cyclic monophosphate" ["2',3'-cyclic GMP", "cyclic 2',3'-guanosine monophosphate"] "C10H11N5O7P" 344.2 +"CPD-371" "1-octanal" ["1-caprylaldehyde", "1-octylaldehyde", "1-octaldehyde", "n-octanal"] "C8H16O" 128.214 +"CPD-3710" "cytidine 2'-monophosphate" ["2'-cytidylic acid", "cytidine 2'-phosphate", "2'-CMP"] "C9H12N3O8P" 321.183 +"CPD-3711" "cytidine-3'-monophosphate" ["3'-CMP", "cytidine 3'-phosphate", "3'-cytidylic acid"] "C9H12N3O8P" 321.183 +"CPD-3713" "cytidine 2',3'-cyclic monophosphate" ["2',3'-cyclic CMP", "cyclic cytidine 2',3'-monophosphate"] "C9H11N3O7P" 304.176 +"CPD-3721" "cysteamine S-phosphate" ["ethanethiol, 2-amino-, S-ester with phosphorothioic acid", "phosphocysteamine", "2-aminoethanethiol dihydrogen phosphate (ester)", "s-(2-aminoethyl) phosphorothioate", "phosphorothioic acid, s-(2-aminoethyl) ester", "ethanethiol, 2-amino-, dihydrogen phosphate (ester)"] "C2H7NO3PS" 156.116 +"CPD-3722" "O-phospho-D-serine" [] "C3H6NO6P" 183.057 +"CPD-3723" "uridine 2'-monophosphate" ["2'-uridylic acid", "uridine 2'-phosphate"] "C9H11N2O9P" 322.168 +"CPD-3724" "uridine 3'-monophosphate" ["3'-uridylic acid"] "C9H11N2O9P" 322.168 +"CPD-3725" "uridine 2'3'-cyclic monophosphate" ["2',3'-Cyclic UMP"] "C9H10N2O8P" 305.16 +"CPD-3727" "cyclic 3'5'-uridine monophosphate" ["uridine 3',5'-cyclic monophosphate"] "C9H10N2O8P" 305.16 +"CPD-3728" "O-phospho-L-tyrosine" ["Phosphotyrosine", "L-Tyrosine, dihydrogen phosphate (ester)", "O(4)-phosphonato-L-tyrosine(2-)", "(2S)-2-ammonio-3-[4-(phosphonatooxy)phenyl]propanoate"] "C9H10NO6P" 259.155 +"CPD-3729" "O-phospho-D-tyrosine" [] "C9H10NO6P" 259.155 +"CPD-3731" "methylenediphosphonate" ["methylenediphosphonic acid", "MDP", "methanediphosphonic acid", "methanebisphosphonic acid", "medronic acid"] "CH4O6P2" 173.987 +"CPD-3732" "thymidine 3'-monophosphate" ["T3P", "[2-(hydroxymethyl)-5-[(5-methyl-2,4-dioxo-1H-pyrimidin-1-yl)]tetrahydrofuran-3-yl]oxyphosphonic acid", "3' thymidylic acid", "deoxythymidine 3'-monophosphate"] "C10H13N2O8P" 320.195 +"CPD-3733" "cyclic 3',5'-thymidine monophosphate" ["thymidine 3',5'-cyclic monophosphate"] "C10H12N2O7P" 303.188 +"CPD-3734" "thiophosphate" ["phosphorothiolate", "phosphorothionate"] "HO3PS" 112.04 +"CPD-3735" "dithiophosphate" [] "HO2PS2" 128.1 +"CPD-3736" "lanthionine" ["3,3'-thiobis-L-alanine", "3,3'-thiodi-L-alanine", "L-lanthionine", "β,β'-thiodi-L-alanine", "S-((2R)-2-amino-2-carboxyethyl)-L-cysteine", "S-(2-amino-2-carboxyethyl)-, (R)-L-cysteine", "DL-lanthionine"] "C6H12N2O4S" 208.232 +"CPD-3738" "N-acetyl-DL-methionine" ["acetyl-DL-methionine"] "C6H9NO4S" 191.201 +"CPD-3739" "L-methionine sulfone" ["(S)-amino-4-(methylsulphonyl)butyric acid"] "C4H8NO5S" 182.171 +"CPD-374" "sepiapterin" ["6-lactoyl-7,8-dihydropterin"] "C9H11N5O3" 237.218 +"CPD-3740" "L-djenkolate" ["L-cysteine thioacetal of formaldehyde", "L-djenkolic acid", "β,β'-methylenedithiodialanine", "3,3'-methylenedithiobis(2-aminopropanoic acid)", "3,3'-(methylenedithio)-di-L-alanine"] "C7H14N2O4S2" 254.319 +"CPD-3741" "thiourea" ["2-thiopseudourea", "2-thiourea", "pseudothiourea", "sulfourea", "THU", "thiocarbamide", "thiocarbonic acid diamide", "β-thiopseudourea"] "CH4N2S" 76.116 +"CPD-3742" "1-thio-β-D-glucose" ["thioglucose", "2-(hydroxymethyl)-6-sulfanyl-tetrahydropyran-3,4,5-triol", "1-thio-b-D-glucose"] "C6H12O5S" 196.218 +"CPD-3743" "taurocholate" ["2-(((3α,5β,7α,12α)-3,7,12-Trihydroxy-24- oxocholan-24-yl)amino)ethanesulphonic acid", "2-(((3α,5β,7α,12α)-3,7,12-Trihydroxy-24- oxocholan-24-yl)amino)ethanesulfonic acid", "2-((3-α,7-α,12-α-trihydroxy-24-oxo-5-β-cholan- 24-yl)amino)ethanesulfonic acid", "3α,7α,12α-trihydroxy-5β-cholanic acid 24-taurine", "acidum cholatauricum", "cholaic acid", "cholyltaurine", "ethanesulfonic acid, 2-(((3α,5β,7α,12α)-3,7,12- trihydroxy-24-oxocholan-24-yl)amino)-", "N-choloyltaurine", "N-choloyl-taurine", "taurocholic acid"] "C26H44NO7S" 514.696 +"CPD-3744" "1-butanesulfonate" ["1-butanesulfonic acid", "1-butane sulfonic acid", "butane-1-sulfonic acid", "butanesulfonate", "n-butyl-1-sulfonate", "butane sulfonic acid"] "C4H9O3S" 137.173 +"CPD-3745" "isethionate" ["isethionic acid", "2-hydroxyethanesulfonate", "2-hydroxyethanesulfonic acid", "2-hydroxyethane-1-sulfonic acid"] "C2H5O4S" 125.119 +"CPD-3746" "methanesulfonate" ["methylsulfonate", "MSA", "methanesulfonic acid"] "CH3O3S" 95.093 +"CPD-3747" "sulfolane" ["2,3,4,5-tetrahydrothiophene-1,1-dioxide", "1,1-dioxidetetrahydrothiofuran", "1,1-dioxothiolan", "1,1-dioxidetetrahydrothiophene", "bondelane A", "bondolane A", "cyclic tetramethylene sulfone", "cyclotetramethylene sulfone", "dihydrobutadiene sulfone", "dihydrobutadiene sulphone", "dioxothiolan", "sulfalone", "sulfolan", "sulpholane", "tetramethylene sulfone", "sulphoxaline", "tetrahydrothiophene 1,1-dioxide", "tetrahydrothiophene 1-dioxide", "tetrahydrothiophene dioxide", "thiacyclopentane dioxide", "thiophene, tetrahydro-, 1,1-dioxide"] "C4H8O2S" 120.166 +"CPD-3764" "desferrioxamine B" ["deferoxamine", "deferrioxamine B"] "C25H49N6O8" 561.697 +"CPD-3766" "menadione" ["2-methylnaphthoquinone", "2-methyl-1,4-naphthalenedione", "vitamin K3", "2-methyl-1,4-naphthoquinone"] "C11H8O2" 172.183 +"CPD-377" "2-keto-D-gluconate" ["2-dehydro-D-gluconate"] "C6H9O7" 193.133 +"CPD-3781" "β-cyclodextrin" ["cycloheptaamylose", "cycloheptaglucan", "cycloheptaglucosan", "cyclomaltoheptaose", "kleptose", "kleptose B", "rhodocap N", "ringdex B", "ringdex BL", "cycloheptapentylose", "betadex", "b-cyclodextrin"] "C42H70O35" 1134.994 +"CPD-3782" "α-cyclodextrin" ["alfadex", "cyclohexaamylose", "cyclomaltohexaose", "cyclomaltohexose", "α-cycloamylose", "cyclohexapentylose", "α-dextrin", "a-cyclodextrin"] "C36H60O30" 972.852 +"CPD-3783" "γ-cyclodextrin" ["cyclooctaamylose", "ringdex c", "cyclooctapentylose", "γ-dextrin", "g-cyclodextrin"] "C48H80O40" 1297.136 +"CPD-3785" "3-O-β-D-galactopyranosyl-D-arabinose" ["3-O-β-D-galactopyranosyl-L-arabinose", "3-O-galactosylarabinose", "arabinosylgalactose", "galactosylarabinose", "3-O-b-D-galactopyranosyl-D-arabinose"] "C11H20O10" 312.273 +"CPD-3801" "melibionate" ["melibionic acid", "6-O-α-D-galactopyranosyl-D-gluconic acid"] "C12H21O12" 357.291 +"CPD-381" "(S)-2-hydroxyglutarate" ["L-2-hydroxyglutarate", "(S)-2-hydroxyglutaric acid", "(2S)-2-hydroxypentanedioic acid", "L-2-hydroxyglutaric acid"] "C5H6O5" 146.099 +"CPD-387" "iodide" ["I-"] "I" 126.904 +"CPD-389" "N-carbamoyl-2-oxoglycine" ["oxaluric acid", "monooxalylurea", "ureido(oxo)acetic acid", "carbamyl oxamate", "oxalureate", "N-carbamoyloxamate", "2-(carbamoylamino)-2-oxoacetate", "oxalurate"] "C3H3N2O4" 131.068 +"CPD-3923" "a nylon-6 linear oligomer" ["[N-(6-aminohexanoyl)]n"] null null +"CPD-397" "S-methyl-L-methionine" ["S-methylmethionine"] "C6H14NO2S" 164.242 +"CPD-4" "molybdopterin" ["MPT", "pyranopterin-dithiolate", "ene-dithiol pyranopterin", "H2Dtpp-mP", "[(5aR,8R,9aR)-2-amino-4-oxo-6,7-disulfanyl-3,5,5a,8,9a,10-hexahydro-4H-pyrano[3,2-g]pteridin-8-yl]methyl dihydrogen phosphate", "H2Dtpp-mP"] "C10H11N5O6PS2" 392.321 +"CPD-400" "guaiacol" ["a hydroxlyated aryl lignin fragment", "O-methoxyphenol", "catechol monomethyl ether", "1-hydroxy-2-methoxybenzene", "2-hydroxyanisole", "o--methoxyphenol", "2-methoxyphenol"] "C7H8O2" 124.139 +"CPD-404" "N-methyl-L-glutamate" ["N-methyl-L-glutamic acid", "NMG"] "C6H10NO4" 160.149 +"CPD-405" "a phosphatidyl-N-methylethanolamine" [] null null +"CPD-409" "a 2-acylglycerol" ["a 2-monoglyceride", "a 2-glyceride", "a 2-MAG"] null null +"CPD-415" "a 1-long-chain acyl-glycerone 3-phosphate" [] null null +"CPD-421" "N2-succinyl-L-arginine" ["N2-succinylarginine"] "C10H17N4O5" 273.268 +"CPD-4211" "prenyl diphosphate" ["dimethylallyl-diphosphate", "prenyl-diphosphate", "δ-prenyl diphosphate", "δ2-isopentenyl-diphosphate", "2-isopentenyl diphosphate", "dimethylallyl diphosphate", "DPP", "di-CH3-allyl-PPi", "dimethylallyl-PP", "dimethylallyl-PPi", "DMPP", "dimethylallyl pyrophosphate"] "C5H9O7P2" 243.069 +"CPD-424" "N-acetyl-L-histidine" ["N2-Acetylhistidine", "L-Histidine, N-acetyl-", "N-Acetylhistidine", "N-α-acetyl-L-histidine"] "C8H10N3O3" 196.185 +"CPD-426" "an N-acylglycine" [] null null +"CPD-427" "an N-acyl-L-glutamine" [] null null +"CPD-43" "1,1,1-trichloro-2,2-bis(4-chlorophenyl)ethane" [] "C14H9Cl5" 354.49 +"CPD-432" "a multi-methyl-branched acyl-CoA" [] null null +"CPD-442" "an N-acetyl-α-neuraminyl-(2→6)-β-galactosyl-(1→4)-β-D-glucosyl-(1↔1)-ceramide" [] null null +"CPD-4422" "chromate" ["CrO42-"] "O4Cr" 115.998 +"CPD-444" "S-methyl-5-thio-α-D-ribose 1-phosphate" ["5-methylthioribose-1-phosphate", "5-methylthio-D-ribose-1-phosphate", "1-phosphomethylthioribose", "1-phospho-5-S-methylthioribose", "1-PMTR", "1-phospho-5-S-methylthio-α-D-ribofuranoside", "S-methyl-5-thio-D-ribose 1-phosphate"] "C6H11O7PS" 258.182 +"CPD-4461" "plumbagin" ["plumbagine", "5-hydroxy-2-methyl-1,4-naphthoquinone"] "C11H8O3" 188.182 +"CPD-448" "β-D-glucopyranose 1-phosphate" ["β-D-glucose 1-phosphate"] "C6H11O9P" 258.121 +"CPD-4501" "miconazole" ["1-(2,4-dichloro-β-((2,4-dichlorobenzyl)oxy)phenethyl) imidazole", "1H-imidazole, 1-(2-(2,4-dichlorophenyl)-2-((2,4-dichlorophenyl) methoxy)ethyl)-", "imidazole, 1-(2,4-dichloro-β-((2,4-dichlorobenzyl)oxy) phenethyl)-", "imidazole, 1-(2-(2,4-dichlorophenyl)-2-((2,4-dichlorophenyl) methoxy)ethyl)- (9CI)"] "C18H14N2OCl4" 416.133 +"CPD-452" "a 6-(N-acetyl-α-D-glucosaminyl)-1-phosphatidyl-1D-myo-inositol" ["N-acetyl-α-D-glucosaminylphosphatidylinositol"] null null +"CPD-4544" "tellurite" ["TeO2", "trioxotellurate(IV)", "tellurite ion"] "O3Te" 175.598 +"CPD-4584" "vanadate" ["ortho-vanadate", "tetraoxovanadate"] "O4V" 114.938 +"CPD-468" "L-2-aminoadipate" ["L-aminoadipic acid", "L-aminoadipate", "L-2-amino-hexanedioic acid", "L-α-aminoadipate", "L-α-aminoadipic acid", "L-2-aminoadipic acid", "L-2-aminohexanedioate"] "C6H10NO4" 160.149 +"CPD-469" "N-acetyl-L-glutamate 5-semialdehyde" ["N-acetylglutamate γ-semialdehyde", "N-acetyl-L-glutamate-5-semialdehyde", "N-acetyl-L-glutamate semialdehyde", "N-acetylglutamate semialdehyde", "2-acetamido-5-oxopentanoate"] "C7H10NO4" 172.16 +"CPD-473" "4,5-dioxopentanoate" ["diketovalerate", "4,5-dioxovalerate", "4-ketoglutarate semialdehyde", "4-oxoglutarate semialdehyde"] "C5H5O4" 129.092 +"CPD-4748" "3-aminobutanoate" ["β-homoalanine", "DL-3-aminobutyric acid", "DL-β-amino-n-butyric acid", "3-aminobutyric acid", "3-aminobutanoic acid", "DL-3-aminobutyrate"] "C4H9NO2" 103.121 +"CPD-476" "4-(2-aminophenyl)-2,4-dioxobutanoate" [] "C10H8NO4" 206.177 +"CPD-478" "1-pyrroline-5-carboxylate" ["3,4-dihydro-2H-pyrrole-2-carboxylate"] "C5H6NO2" 112.108 +"CPD-479" "4-(methylsulfanyl)-2-oxobutanoate" ["2-keto-methyl-thio-butyrate", "2-keto-4-methylthiobutyrate", "4-methylthio-2-oxobutanoate", "α-keto-4-methylthiobutyrate", "4-methylthio-2-ketobutyrate", "4-methylthio-2-ketobutanoate", "4-methylthio-2-oxobutyrate", "2-ketomethiobutyrate", "KMTB", "α-ketomethiobutyrate", "2-keto-4-methylthiobutyric acid", "α-ketomethiobutyric acid", "α-keto-γ-methylthiobutyrate", "α-keto-γ-methylthiobutyric acid", "2-oxo-4-methylthiobutanoic acid", "2-oxomethionine", "2-keto-4-methylthiobutanoate", "4-(methylthio)-2-oxobutanoate", "ketomethiobutyrate"] "C5H7O3S" 147.168 +"CPD-4821" "kanamycin A" [] "C18H40N4O11" 488.534 +"CPD-4841" "dipicolinate" ["DPAC", "pyridine-dicarboxylate", "pyridine-2,6-dicarboxylate", "2,6-pyridine dicarboxylate", "dipicolinic acid", "DPA"] "C7H3NO4" 165.105 +"CPD-487" "adenosine 5'-phosphoramidate" ["adenosine-5'-monophosphoramidate", "AMP-NH2"] "C10H14N6O6P" 345.231 +"CPD-4893" "sabinene" [] "C10H16" 136.236 +"CPD-497" "pseudouridine" [] "C9H12N2O6" 244.204 +"CPD-5" "a [FeS] iron-sulfur cluster" ["a [FeS] iron-sulfur center", "a FeS cluster", "a FeS center", "[FeS]"] "SFe" 87.907 +"CPD-50" "a 2,2-dialkylglycine" [] null null +"CPD-502" "a ceramide 1-phosphate" [] null null +"CPD-504" "a 1-monoglyceride" ["a monoglyceride", "a 1-acylglycerol", "a 1-MAG", "a 1-monoacyl-glycerol"] null null +"CPD-507" "β-D-cellobiose 6'-phosphate" ["β-D-cellobiose-6'-p", "6-phospho-β-D-glucosyl-(1,4)-β-D-glucose"] "C12H21O14P" 420.263 +"CPD-510" "α-D-glucuronate 1-phosphate" ["glucuronate-1-P", "glucuronate-1-phosphate", "D-glucuronate-1-P", "D-glucuronate-1-phosphate", "1-phospho-α-D-glucuronate"] "C6H8O10P" 271.097 +"CPD-511" "pantetheine" ["pantotheine"] "C11H22N2O4S" 278.366 +"CPD-5161" "α-D-Man-(1→3)-β-D-Man-(1→4)-β-D-GlcNAc-(1→4)-α-D-GlcNAc-diphosphodolichol" ["α-D-mannosyl-(1→3)-β-D-mannosyl-(1→4)-N-acetyl-β-D-glucosaminyl-(1→4)-N-acetyl-α-D-glucosaminyl-diphosphodolichol", "a (mannosyl)2-(N-acetylglucosaminyl)2-diphosphodolichol"] "C108H178N2O27P2" 1998.539 +"CPD-5162" "α-D-Man-(1→3)-[α-D-Man-(1→6)]-α-D-Man-(1→4)-β-D-GlcNAc-(1→4)-α-D-GlcNAc-diphosphodolichol" ["α-D-mannosyl-(1→3)-[α-D-mannosyl-(1→6)]-α-D-mannosyl-(1→4)-N-acetyl-β-D-glucosaminyl-(1→4)-N-acetyl-α-D-glucosaminyl-diphosphodolichol", "a (mannosyl)3-(N-acetylglucosaminyl)2-diphosphodolichol"] "C114H188N2O32P2" 2160.681 +"CPD-5163" "a (mannosyl)4-(N-acetylglucosaminyl)2-diphosphodolichol" ["an {α-D-mannosyl-(1->2)-α-D-mannosyl-(1->3)-[α-D-mannosyl-(1,6)]-β-D-mannosyl-(1->4)-N-acetyl-β-D-glucosaminyl-(1->4)-N-acetyl-D-glucosaminyl}diphosphodolichol"] "C120H198N2O37P2" 2322.823 +"CPD-5164" "α-D-Man-(1→2)-α-D-Man-(1→2)-α-D-Man-(1→3)-[α-D-Man-(1→6)]-β-D-Man-(1→4)-β-D-GlcNAc-(1→4)-α-D-GlcNAc-diphosphodolichol" ["a (mannosyl)5-(N-acetylglucosaminyl)2-diphosphodolichol", "α-D-mannosyl-(1→2)-α-D-mannosyl-(1→2)-α-D-mannosyl-(1→3)-[α-D-mannosyl-(1→6)]-β-D-mannosyl-(1→4)-N-acetyl-β-D-glucosaminyl-(1→4)-N-acetyl-α-D-glucosaminyl-diphosphodolichol"] "C126H208N2O42P2" 2484.965 +"CPD-5165" "α-D-Man-(1→2)-α-D-Man-(1→2)-α-D-Man-(1→3)-[α-D-Man-(1→3)-α-D-Man-(1→6)]-β-D-Man-(1→4)-β-D-GlcNAc-(1→4)-α-D-GlcNAc-diphosphodolichol" ["an {α-D-mannosyl-(1->2)-α-D-mannosyl-(1->2)-α-D-mannosyl-(1->3)-[α-D-mannosyl-(1->3)-α-D-mannosyl-(1,6)]-β-D-mannosyl-(1->4)-N-acetyl-β-D-glucosaminyl-(1->4)-N-acetyl-D-glucosaminyl}diphosphodolichol", "{α-D-mannosyl-(1->2)-α-D-mannosyl-(1->2)-α-D-mannosyl-(1->3)-[α-D-mannosyl-(1->3)-α-D-mannosyl-(1,6)]-β-D-mannosyl-(1->4)-N-acetyl-β-D-glucosaminyl-(1->4)-N-acetyl-D-glucosaminyl}diphosphodolichol", "a (mannosyl)6-(N-acetylglucosaminyl)2-diphosphodolichol"] "C132H218N2O47P2" 2647.107 +"CPD-5166" "α-D-Man-(1→2)-α-D-Man-(1→2)-α-D-Man-(1→3)-[α-D-Man-(1→2)-α-D-Man-(1→3)-α-D-Man-(1→6)]-β-D-Man-(1→4)-β-D-GlcNAc-(1→4)-α-D-GlcNAc-diphosphodolichol" ["an {α-D-mannosyl-(1->2)-α-D-mannosyl-(1->2)-α-D-mannosyl-(1->3)-[α-D-mannosyl-(1->2)-α-D-mannosyl-(1->3)-α-D-mannosyl-(1,6)]-β-D-mannosyl-(1->4)-N-acetyl-β-D-glucosaminyl-(1->4)-N-acetyl-D-glucosaminyl}diphosphodolichol", "{α-D-mannosyl-(1->2)-α-D-mannosyl-(1->2)-α-D-mannosyl-(1->3)-[α-D-mannosyl-(1->2)-α-D-mannosyl-(1->3)-α-D-mannosyl-(1,6)]-β-D-mannosyl-(1->4)-N-acetyl-β-D-glucosaminyl-(1->4)-N-acetyl-D-glucosaminyl}diphosphodolichol", "a (mannosyl)7-(N-acetylglucosaminyl)2-diphosphodolichol"] "C138H228N2O52P2" 2809.249 +"CPD-5167" "α-D-Man-a-(1→2)-α-D-Man-(1→2)-α-D-Man-(1→3)-[α-D-Man-(1→2)-α-D-Man-(1→3)-[α-D-Man-(1→6)]-α-D-Man-(1→6)]-β-D-Man-(1→4)-β-D-GlcNAc-(1→4)-α-D-GlcNAc-diphosphodolichol" ["an {α-D-mannosyl-(1->2)-α-D-mannosyl-(1->2)-α-D-mannosyl-(1->3)-[α-D-mannosyl-(1->2)-α-D-mannosyl-(1->3)-[α-D-mannosyl-(1,6)]-α-D-mannosyl-(1,6)]-β-D-mannosyl-(1->4)-N-acetyl-β-D-glucosaminyl-(1->4)-N-acetyl-D-glucosaminyl}diphosphodolichol", "{α-D-mannosyl-(1->2)-α-D-mannosyl-(1->2)-α-D-mannosyl-(1->3)-[α-D-mannosyl-(1->2)-α-D-mannosyl-(1->3)-[α-D-mannosyl-(1,6)]-α-D-mannosyl-(1,6)]-β-D-mannosyl-(1->4)-N-acetyl-β-D-glucosaminyl-(1->4)-N-acetyl-D-glucosaminyl}diphosphodolichol", "a (mannosyl)8-(N-acetylglucosaminyl)2-diphosphodolichol"] "C144H238N2O57P2" 2971.391 +"CPD-5168" "α-D-Man-(1→2)-α-D-Man-(1→2)-α-D-Man-(1→3)-[α-D-Man-(1→2)-α-D-Man-(1→3)-[α-D-Man-(1→2)-α-D-Man-(1→6)]-α-D-Man-(1→6)]-β-D-Man-(1→4)-β-D-GlcNAc-(1→4)-α-D-GlcNAc-diphosphodolichol" ["an {α-D-mannosyl-(1->2)-α-D-mannosyl-(1->2)-α-D-mannosyl-(1->3)-[α-D-mannosyl-(1->2)-α-D-mannosyl-(1->3)-[α-D-mannosyl-(1->2)-α-D-mannosyl-(1,6)]-α-D-mannosyl-(1,6)]-β-D-mannosyl-(1->4)-N-acetyl-β-D-glucosaminyl-(1->4)-N-acetyl-D-glucosaminyl}diphosphodolichol", "{α-D-mannosyl-(1->2)-α-D-mannosyl-(1->2)-α-D-mannosyl-(1->3)-[α-D-mannosyl-(1->2)-α-D-mannosyl-(1->3)-[α-D-mannosyl-(1->2)-α-D-mannosyl-(1,6)]-α-D-mannosyl-(1,6)]-β-D-mannosyl-(1->4)-N-acetyl-β-D-glucosaminyl-(1->4)-N-acetyl-D-glucosaminyl}diphosphodolichol", "a (mannosyl)9-(N-acetylglucosaminyl)2-diphosphodolichol"] "C150H248N2O62P2" 3133.533 +"CPD-5169" "α-D-Glc-(1→3)-α-D-Man-(1→2)-α-D-Man-(1→2)-α-D-Man-(1→3)-[α-D-Man-(1→2)-α-D-Man-(1→3)-[α-D-Man-(1→2)-α-D-Man-(1→6)]-α-D-Man-(1→6)]-β-D-Man-(1→4)-β-D-GlcNAc-(1→4)-α-D-GlcNAc-diphosphodolichol" ["an {α-D-glucosyl-(1->3)-α-D-mannosyl-(1->2)-α-D-mannosyl-(1->2)-α-D-mannosyl-(1->3)-[α-D-mannosyl-(1->2)-α-D-mannosyl-(1->3)-[α-D-mannosyl-(1->2)-α-D-mannosyl-(1,6)]-α-D-mannosyl-(1,6)]-β-D-mannosyl-(1->4)-N-acetyl-β-D-glucosaminyl-(1->4)-N-acetyl-D-glucosaminyl}diphosphodolichol", "{α-D-glucosyl-(1->3)-α-D-mannosyl-(1->2)-α-D-mannosyl-(1->2)-α-D-mannosyl-(1->3)-[α-D-mannosyl-(1->2)-α-D-mannosyl-(1->3)-[α-D-mannosyl-(1->2)-α-D-mannosyl-(1,6)]-α-D-mannosyl-(1,6)]-β-D-mannosyl-(1->4)-N-acetyl-β-D-glucosaminyl-(1->4)-N-acetyl-D-glucosaminyl}diphosphodolichol", "a glucosyl-(mannosyl)9-(N-acetylglucosaminyl)2-diphosphodolichol"] "C156H258N2O67P2" 3295.675 +"CPD-5170" "α-D-Glc-(1→3)-α-D-Glc-(1→3)-α-D-Man-(1→2)-α-D-Man-(1→2)-α-D-Man-(1→3)-[α-D-Man-(1→2)-α-D-Man-(1→3)-[α-D-Man-(1→2)-α-D-Man-(1→6)]-α-D-Man-(1→6)]-β-D-Man-(1→4)-β-D-GlcNAc-(1→4)-α-D-GlcNAc-diphosphodolichol" ["an {α-D-glucosyl-(1->3)-α-D-glucosyl-(1->3)-α-D-mannosyl-(1->2)-α-D-mannosyl-(1->2)-α-D-mannosyl-(1->3)-[α-D-mannosyl-(1->2)-α-D-mannosyl-(1->3)-[α-D-mannosyl-(1->2)-α-D-mannosyl-(1,6)]-α-D-mannosyl-(1,6)]-β-D-mannosyl-(1->4)-N-acetyl-β-D-glucosaminyl-(1->4)-N-acetyl-D-glucosaminyl}diphosphodolichol", "{α-D-glucosyl-(1->3)-α-D-glucosyl-(1->3)-α-D-mannosyl-(1->2)-α-D-mannosyl-(1->2)-α-D-mannosyl-(1->3)-[α-D-mannosyl-(1->2)-α-D-mannosyl-(1->3)-[α-D-mannosyl-(1->2)-α-D-mannosyl-(1,6)]-α-D-mannosyl-(1,6)]-β-D-mannosyl-(1->4)-N-acetyl-β-D-glucosaminyl-(1->4)-N-acetyl-D-glucosaminyl}diphosphodolichol", "a (glucosyl)2(mannosyl)9-(N-acetylglucosaminyl)2-diphosphodolichol"] "C162H268N2O72P2" 3457.817 +"CPD-520" "quercetin" ["3,5,7,3',4'-pentahydroxyflavone", "3,5,7,3',4'-pentahydroflavone"] "C15H9O7" 301.232 +"CPD-522" "6-acetyl-D-glucose" [] "C8H14O7" 222.194 +"CPD-524" "aspirin" ["acetylsalicylic acid", "2-acetoxybenzenecarboxylic acid", "acetylsalicylate"] "C9H7O4" 179.152 +"CPD-5242" "a tunicamycin" ["an N-[2-[3-acetylamino-4,5-dihydroxy-6-(hydroxymethyl) tetrahydropyran-2-yl]oxy-6-[2-[5-[(2,4-dioxo-1H-pyrimidin-1-yl)] -3,4-dihydroxy-tetrahydrofuran-2-yl]-2-hydroxy-ethyl]-4,5- dihydroxy-tetrahydropyran-3-yl]-5-methyl-hex-2-enamide", "a mycospocidin"] null null +"CPD-534" "D-myo-inositol (1,2,4,5,6)-pentakisphosphate" ["1D-myo-inositol 1,2,4,5,6-pentakisphosphate", "myo-inositol 1,2,4,5,6-pentakisphosphate", "inositol 1,2,4,5,6-pentakisphosphate", "Ins(1,2,4,5,6)P5"] "C6H7O21P5" 569.977 +"CPD-535" "β-D-fructose 2,6-bisphosphate" ["fru 2,6-P2", "fructose 2,6-diphosphate"] "C6H10O12P2" 336.085 +"CPD-536" "glycerol 2-phosphate" ["β-glycerol-phosphate", "2-glycerophosphate", "b-glycerol-phosphate"] "C3H7O6P" 170.058 +"CPD-538" "a serine phosphoethanolamine" [] "C5H13N2O6P" 228.141 +"CPD-5401" "p-chloromercuriphenylsulfonate" ["p-chloromercuriphenyl sulphonate", "p-chloromercuriphenyl sulphonic acid", "p-CMPSA", "p-chloromercuriphenylsulphonate", "PCMBS", "4-chloromercuribenzenesulfonate", "p-chloromercuribenzenesulfonate"] "C6H4O3SClHg" 392.199 +"CPD-541" "sn-glycero-3-phospho-1-inositol" ["1-(sn-glycero-3-phospho)-1D-myo-inositol", "GroPIns"] "C9H18O11P" 333.208 +"CPD-543" "choline sulfate" [] "C5H13NO4S" 183.222 +"CPD-546" "methylmalonate" ["Methylmalonic acid"] "C4H4O4" 116.073 +"CPD-548" "S-formylglutathione" [] "C11H16N3O7S" 334.323 +"CPD-55" "octadecanal" [] "C18H36O" 268.482 +"CPD-551" "phosphonoacetaldehyde" ["2-phosphonoacetaldehyde", "phosphonic acid, (2-oxoethyl)-", "acetylphosphonate"] "C2H4O4P" 123.025 +"CPD-552" "trithionate" ["S3O6"] "O6S3" 192.176 +"CPD-5541" "phenylmethanesulfonyl fluoride" ["PMSF"] "C7H7O2FS" 174.189 +"CPD-557" "a protein-Nω-(ADP-D-ribosyl)-L-arginine" ["N2-(ADP-D-ribosyl)-L-arginine"] null null +"CPD-558" "pimeloyl-CoA" ["6-carboxyhexanoyl-CoA", "pimelyl-CoA"] "C28H41N7O19P3S" 904.649 +"CPD-560" "5-(methylsulfanyl)-D-ribose" ["5-methylthio-D-ribose", "5-methylthioribose", "S-methyl-5-thio-D-ribofuranose", "S-methyl-5-thio-D-ribose"] "C6H12O4S" 180.218 +"CPD-5601" "N-monomethylethanolamine" [] "C3H10NO" 76.118 +"CPD-5602" "N-dimethylethanolamine" [] "C4H12NO" 90.145 +"CPD-563" "a 1-(1-alkenyl)-sn-glycero-3-phosphocholine" ["a 1-alkenyl-sn-glycero-3-phosphocholine", "a 1-alkenylglycerophosphocholine", "a 1-O-alk-1-enyl-glycero-3-phosphocholine", "a 1-O-(alk-1-enyl)glycero-3-phosphocholine"] null null +"CPD-564" "S-ribosyl-L-homocysteine" ["Ribose-5-S-homocysteine", "S-D-ribosyl-L-homocysteine", "ribose-5-S-homocysteine", "S-ribosylhomocysteine", "S-(5-deoxy-D-ribos-5-yl)-L-homocysteine"] "C9H17NO6S" 267.296 +"CPD-5662" "9-mercaptodethiobiotin" ["9-mercaptodesthiobiotin"] "C10H17N2O3S" 245.316 +"CPD-568" "N1-acetylspermidine" ["an N-acetylspermidine"] "C9H23N3O" 189.3 +"CPD-5682" "D,L-malic semialdehyde" ["3-hydroxy-4-oxobutanoate"] "C4H5O4" 117.081 +"CPD-571" "an N-(long-chain-acyl)ethanolamine" [] null null +"CPD-5721" "thioguanine" ["6-thioguanine", "6-mercaptoguanine"] "C5H5N5S" 167.188 +"CPD-5742" "amobarbital" ["amytal"] "C11H17N2O3" 225.267 +"CPD-576" "an N-acyl-L-aspartate" [] null null +"CPD-58" "octopamine" ["1-(4-hydroxyphenyl)-2-aminoethanol", "p-hydroxyphenylethanolamine", "D,L-octopamine"] "C8H12NO2" 154.188 +"CPD-581" "N,N-Dimethylformamide" ["N,N-Dimethylmethanamide", "DMF"] "C3H7NO" 73.094 +"CPD-582" "guanylyl molybdenum cofactor" ["MGD", "MPT-GMP", "MoO2(OH)Dtpp-mGDP", "molybdopterin guanine dinucleotide"] "C20H22N10O15P2S2Mo" 864.459 +"CPD-5821" "(S)-2-oxo-4-hydroxy-4-carboxy-5-ureidoimidazoline" ["(S)-5-hydroxy-2-oxo-4-ureido-2,5-dihydro-1H imidazole-5-carboxylate", "(S)-OHCU", "4-(carbamoylamino)-5-hydroxy-2-oxo-2,5-dihydro-1H-imidazole-5-carboxylate"] "C5H5N4O5" 201.118 +"CPD-5861" "2-deoxy-D-galactose" ["2-deoxy-D-lyxohexose", "deoxygalactose"] "C6H12O5" 164.158 +"CPD-593" "methylguanidinium" ["methylguanidine"] "C2H8N3" 74.105 +"CPD-6" "a [2Fe-2S] iron-sulfur cluster" ["an iron-sulfur center (ambiguous)", "Fe2S2 iron-sulfur cluster", "a 2Fe-2S center", "a 2Fe-2S cluster", "2Fe-2S", "Fe2S2", "an Fe2S2 iron-sulfur center", "[2Fe-2S]", "[2Fe-2S] cluster"] null null +"CPD-6001" "L-ribose" [] "C5H10O5" 150.131 +"CPD-602" "5-amino-6-(5-phospho-D-ribosylamino)uracil" ["5-amino-6-(ribosylamino)-2,4-(1H,3H)-pyrimidinedione 5'-phosphate", "5-amino-6-(5'-phosphoribosylamino)uracil"] "C9H13N4O9P" 352.197 +"CPD-6041" "methotrexate" [] "C20H20N8O5" 452.429 +"CPD-605" "lumichrome" ["7,8-Dimethylalloxazine"] "C12H10N4O2" 242.237 +"CPD-606" "CDP-glycerol" [] "C12H19N3O13P2" 475.242 +"CPD-6061" "F-dUMP" ["2-fluoro-2-deoxy-uridine 5'-monophosphate", "dUflMP", "2'-deoxy-5-fluoro-uridine 5'-monophosphate", "fluorodeoxyuridylate", "5-fluorodeoxyuridine monophosphate"] "C9H10N2O8FP" 324.159 +"CPD-607" "adenosine tetraphosphate" ["Adenosine 5'-tetraphosphate", "p4A"] "C10H12N5O16P4" 582.124 +"CPD-608" "a 5'-acylphosphoadenosine" ["an acyladenylate"] null null +"CPD-609" "P1,P4-bis(5'-guanosyl) tetraphosphate" ["Gp4G", "bis(5'-guanosyl) tetraphosphate"] "C20H24N10O21P4" 864.359 +"CPD-610" "trimetaphosphate" ["TMP", "trimetaphosphoric acid", "cyclo-triphosphoric acid", "1,3,5,2,4,6-trioxatriphosphinane-2,4,6-triol 2,4,6-trioxide", "2,4,6-trihydroxido-2,4,6-trioxido-1,3,5-trioxy-2,4,6-triphosphy-[6]cycle", "tri--oxido-tris(hydroxidooxidophosphorus)", "1,3,5,2,4,6-trioxatriphosphinane-2,4,6-triolate 2,4,6-trioxide"] "O9P3" 236.916 +"CPD-611" "thiamine triphosphate" ["thiamin triphosphate"] "C12H16N4O10P3S" 501.26 +"CPD-6124" "1-pyrroline" [] "C4H8N" 70.114 +"CPD-618" "(2R,3S)-2-methylisocitrate" ["(2S,3R)-3-hydroxybutane-1,2,3-tricarboxylate", "methylisocitric acid", "methylisocitrate", "threo-Ds-2-methylisocitrate"] "C7H7O7" 203.128 +"CPD-6182" "2,7-anhydro-α-N-acetylneuraminate" ["2,7-AN"] "C11H16NO8" 290.249 +"CPD-62" "(2,3-dihydroxybenzoyl)adenylate" ["2,3-dihydroxybenzoyl-AMP", "2,3-dihydroxybenzoyl adenylate"] "C17H17N5O10P" 482.323 +"CPD-622" "(2S,3S)-2-methylcitrate" ["(2S,3S)-2-hydroxybutane-1,2,3-tricarboxylate"] "C7H7O7" 203.128 +"CPD-624" "an N-acyl-neuraminate 9-phosphate" [] null null +"CPD-6242" "a protein-O-(N-acetyl-D-glucosaminyl)-trans-4-hydroxy-L-proline" [] null null +"CPD-6262" "an (L-cysteinylglycine)-S-conjugate" ["a (Cys-Gly)-S-conjugate"] null null +"CPD-628" "3-oxalomalate" ["oxalomalate", "3-oxalomalic acid", "oxalomalic acid"] "C6H3O8" 203.085 +"CPD-6301" "N-P-tosyl-L-phenylalanyl chloromethyl ketone" ["TPCK"] "C17H18NO3SCl" 351.847 +"CPD-6321" "a [procollagen] trans 4-hyroxy-L-proline" ["a [procollagen]-(2S,4R)-4-hydroxy-L-proline"] null null +"CPD-633" "gentisate" ["gentisic acid", "hydroquinonecarboxylic acid", "2,5-dihydroxybenzoate", "2,5-DHBA", "2,5-dihydroxybenzoic acid", "2,5-dioxybenzoic acid", "3,6-dihydroxybenzoic acid", "5-hydroxysalicylic acid", "5-hydroxysalicylate"] "C7H5O4" 153.114 +"CPD-6366" "DIMBOA" ["2,4-dihydroxy-7-methoxy-2H-1,4-benzoxazin-3(4H)-one"] "C9H8NO5" 210.166 +"CPD-644" "L-threo-3-phenylserine" ["L-threo-phenylserine", "L-threo-phenylserine", "L-threo-β-phenylserine", "(2S,3S)-2-amino-3-hydroxy-3-phenylpropanoate"] "C9H11NO3" 181.191 +"CPD-650" "(3R)-3-hydroxybutanoyl-CoA" ["3-OH-butyryl-CoA", "OH-butyryl-CoA", "β-hydroxybutyryl-S-CoA", "D-3-hydroxybutyryl-CoA", "hydroxy-butyryl-CoA", "β-hydroxybutyryl-CoA", "3-hydroxybutyryl-CoA", "(3R)-3-Hydroxybutanoyl-CoA", "3-hydroxybutanoyl-CoA"] "C25H38N7O18P3S" 849.593 +"CPD-653" "(S)-NADHX" ["(6S)-6-β-hydroxy-1,4,5,6-tetrahydronicotinamide-adenine dinucleotide"] "C21H29N7O15P2" 681.445 +"CPD-656" "5-oxo-D-proline" ["D-Pyroglutamic acid", "D-5-Pyrrolidone-2-carboxylic acid"] "C5H6NO3" 128.107 +"CPD-6562" "DIMBOA-β-D-glucoside" ["(2R)-4-hydroxy-7-methoxy-3-oxo-3,4-dihydro-2H-1,4-benzoxazin-2-yl β-D-glucopyranoside", "DIMBOA-Glc"] "C15H19NO10" 373.316 +"CPD-66" "2-hydroxy-3-oxosuccinate" ["Oxaloglycolate"] "C4H2O6" 146.056 +"CPD-660" "(R)-malate" ["D-malate", "D-malic acid", "D-(+)-malic acid"] "C4H4O5" 132.073 +"CPD-6602" "curcumin" ["diferuloylmethane"] "C21H20O6" 368.385 +"CPD-665" "1-propanal" ["propionaldehyde"] "C3H6O" 58.08 +"CPD-6661" "1D-myo-inositol (1,2,3,4,6)-pentakisphosphate" [] "C6H7O21P5" 569.977 +"CPD-667" "O-acetyl-L-homoserine" ["acetylhomoserine", "O-acetylhomoserine"] "C6H11NO4" 161.157 +"CPD-67" "2-phosphoglycolate" ["2-P-glycolate", "phosphoglycolate", "Phosphoglycolic acid"] "C2H2O6P" 153.008 +"CPD-671" "a 5-formiminotetrahydrofolate" ["an N5-formimino-THF", "an N5-formiminotetrahydrofolate", "a 5-formimino-THF"] null null +"CPD-674" "cinnamate" ["β-phenylacrylic acid", "(E)-3-phenyl-2-prop -2-enoic acid", "cinnamic acid", "trans-cinnamate (incorrect)", "trans-cinnamic acid (incorrect)", "(E)-cinnamate (incorrect)"] "C9H7O2" 147.153 +"CPD-6746" "1D-myo-inositol 2-monophosphate" ["D-myo-inositol 2-monophosphate", "Ins(2)P1", "Ins2P"] "C6H11O9P" 258.121 +"CPD-6761" "(2E)-2-hydroxypenta-2,4-dienoate" ["2-hydroxypenta-2,4-dienoate", "2-hydroxy-2,4-pentadienoate", "2-hydroxypent-2,4-dienoate", "2-hydroxy-2,4-pentadienoic acid", "cis-2-hydroxypenta-2,4-dienoate", "HPD"] "C5H5O3" 113.093 +"CPD-678" "hydrogen selenide" ["dihydridoselenium", "H2Se", "selane", "dihydrogen selenide", "[SeH2]"] "H2Se" 80.976 +"CPD-68" "1-aminocyclopropane-1-carboxylate" ["1-aminocyclopropane-1-carboxylic acid", "ACC", "1-aminocyclopropanecarboxylic acid", "1-aminocyclopropanecarboxylate"] "C4H7NO2" 101.105 +"CPD-683" "cyclic 3',5'-cytidine monophosphate" ["cyclic-CMP", "cytidine cyclic-monophosphate", "cyclic 3',5'-CMP", "cytidine 3',5'-cyclic monophosphate"] "C9H11N3O7P" 304.176 +"CPD-69" "cyanate" ["cyanic acid", "hydrogen cyanate"] "CNO" 42.017 +"CPD-6901" "cerulenin" [] "C12H17NO3" 223.271 +"CPD-6972" "4-(2'-carboxyphenyl)-4-oxobutyryl-CoA" ["succinylbenzoyl-CoA", "2-succinylbenzoyl-CoA", "2-(3'-carboxypropionyl)benzoyl-CoA", "o-succinylbenzoyl-CoA"] "C32H39N7O20P3S" 966.676 +"CPD-6982" "(R)-3-(3,4-dihydroxyphenyl)lactate" ["R(+)-(3,4-dihydroxyphenyl)lactic acid", "(2R)-3-(3,4-dihydroxyphenyl)-2-hydroxypropanoate"] "C9H9O5" 197.167 +"CPD-7" "a [4Fe-4S] iron-sulfur cluster" ["a 4Fe-4S iron-sulfur cluster", "a 4Fe-4S center", "a 4Fe-4S cluster", "a 4Fe-4S iron-sulfur center", "a Fe4S4 iron-sulfur center", "a [4Fe-4S] iron-sulfur center", "[4Fe-4S]", "4Fe-4S", "[4Fe-4S] cluster"] "H4S4Fe4" 351.628 +"CPD-7000" "isobutanal" ["isobutyraldehyde", "isobutylaldehyde"] "C4H8O" 72.107 +"CPD-702" "4-nitrobenzyl alcohol" ["4NBA"] "C7H7NO3" 153.137 +"CPD-703" "4-nitrobenzaldehyde" ["4NBZ", "p-nitrobenzaldehyde"] "C7H5NO3" 151.121 +"CPD-7031" "3-methylbutanal" ["isovaleraldehyde", "isoamylaldehyde", "isopentaldehyde"] "C5H10O" 86.133 +"CPD-7038" "methylmethanesulfonate" ["methylmesylate", "methylmethansulphonate", "methylmethansulfonat"] "C2H6O3S" 110.128 +"CPD-7043" "amylopectin" [] null null +"CPD-7046" "sulfide(2-)" ["sulfanediide", "S2-", "sulfur(2-)"] "S" 32.06 +"CPD-7076" "2-methylbutanoate" ["2-methylbutyric acid", "2-methylbutanoic acid", "α-methylbutyrate", "2-methylbutyrate"] "C5H9O2" 101.125 +"CPD-7082" "potassium cyanide" ["KCN", "kalium cyanid"] "K(CN)" 65.116 +"CPD-7100" "(2S)-2-isopropyl-3-oxosuccinate" ["2-isopropyl-3-oxosuccinate"] "C7H8O5" 172.137 +"CPD-7181" "a ganglioside GM3" ["a 1-O-[O-(N-acetyl-α-neuraminyl)-2,3-α-D-galactosyl-1,4-β-D-glucosyl]ceramide", "a 1-O-[O-(N-acetyl-α-neuraminyl)-2,3-β-D-galactosyl-1,4-β-D-glucosyl]ceramide", "an N-acetyl-α-neuraminyl-2,3-β-D-galactosyl-1,4-β-D-glucosylceramide", "an (N-acetylneuraminyl)-D-galactosyl-D-glucosylceramide", "hematoside", "an N-acetyl-α-neuraminyl-(2→3)-β-D-galactosyl-(1→4)-β-D-glucosyl-(1↔1)-ceramide", "II3Neu5AcLacCer"] null null +"CPD-7182" "an N-acetyl-β-D-galactosaminyl-1,4-(β-N-acetylneuraminyl)-2,3-α-D-galactosyl-1,4-β-D-glucosylceramide" ["an N-acetyl-D-galactosaminyl-1,4-β-N-acetylneuraminyl-2,3-α-D-galactosyl-1,4-β-D-glucosylceramide"] null null +"CPD-7188" "a ganglioside GM1a" ["a β-D-galactosyl-1,3-β-N-acetyl-D-galactosaminyl-(N-acetylneuraminyl)-D-galactosyl-D-glucosyl-N-acylsphingosine", "α-N-acetylneuraminosyl-(2→3)-[β-D-galactosyl-(1→3)-N-acetyl-β-D-galactosaminyl-(1→4)]-β-D-galactosyl-(1→4)-β-D-glucosyl-ceramide", "α-N-acetylneuraminosyl-(2→3)-[β-D-galactosyl-(1→3)-N-acetyl-β-D-galactosaminyl-(1→4)]-β-D-galactosyl-(1→4)-β-D-glucosyl-R", "a ganglioside GM1", "I3Neu5AcGg4Cer", "Galβ(1,3)GalNAcβ(1,4)[Neu5Acα(2,3)]Galβ(1,4)Glcβ1Cer"] null null +"CPD-722" "d-biotin d-sulfoxide" ["biotin sulfoxide", "5-[(3aS,4S,6aR)-5-oxido-2-oxohexahydro-1H-thieno[3,4-d]imidazol-4-yl]pentanoate"] "C10H15N2O4S" 259.299 +"CPD-7221" "(3Z)-dodec-3-enoyl-CoA" ["12:1(n-9)", "12:1 cis-3", "cis-3-dodecenoyl-CoA", "3-cis-dodecenoyl-CoA", "(3Z)-dodecenoyl-CoA"] "C33H52N7O17P3S" 943.792 +"CPD-7222" "(2E)-dodec-2-enoyl-CoA" ["(2E)-dodecenoyl-CoA", "2-trans-dodecenoyl-CoA", "trans-dodec-2-enoyl-CoA"] "C33H52N7O17P3S" 943.792 +"CPD-7246" "N-acetyl-α-D-galactosamine 1-phosphate" ["N-Acetyl-D-galactosamine 1-phosphate"] "C8H14NO9P" 299.174 +"CPD-7248" "6-decylubiquinone" ["decylbenzylquinone", "DBQ"] "C19H30O4" 322.444 +"CPD-7249" "6-decylubiquinol" [] "C19H32O4" 324.459 +"CPD-7263" "a α-D-mannosyl-(1->6)-β-D-mannosyl-(1->4)-N-acetyl-β-D-glucosaminyl-(1->4)-N-acetyl-β-D-glucosaminyl-[glycoprotein]" [] null null +"CPD-7265" "an N-acetyl-β-D-glucosaminyl-(1->4)-N-acetyl-β-D-glucosaminyl-[glycoprotein]" [] null null +"CPD-7277" "an anthocyanidin 3,5-di-O-β-D-glucoside" ["an anthocyanidin-3,5-diglucoside"] null null +"CPD-7283" "taurochenodeoxycholate" ["chenodeoxycholoyltaurine", "N-(3α,7α-dihydroxy-5β-cholan-24-oyl)taurine"] "C26H44NO6S" 498.697 +"CPD-7388" "p-mercuribenzoate" ["4-mercuribenzoate"] "C7H4O2Hg" 320.697 +"CPD-741" "muconolactone" ["(+)-4-hydroxy-4-carboxymethylisocrotonolactone", "2-oxo-2,5-dihydrofuran-5-acetate", "2,5-dihydro-5-oxofuran-2-acetate", "5-oxo-2,5-dihydrofuran-2-acetate", "4-carboxymethyl-4-hydroxyisocrotonolactone"] "C6H5O4" 141.103 +"CPD-7417" "cis-coumarinic acid-β-D-glucoside" ["coumarinic acid glucoside", "coumarinate glucoside"] "C15H17O8" 325.294 +"CPD-7610" "soyasapogenol B" ["24-hydroxysophoradiol", "(3β,22β)-olean-12-ene-3,22,24-triol"] "C30H50O3" 458.723 +"CPD-7620" "1-heptanal" ["heptaldehyde", "enanthal"] "C7H14O" 114.187 +"CPD-763" "arsenite" ["As(OH)3", "arsenic trioxide", "arsenic oxide", "arsenic (III) oxide", "arsenous trioxide", "arsenic sesquioxide", "arsenous oxide", "white arsenic", "diarsenic trioxide", "crude arsenic", "arsenious oxide", "arsenic (III) trioxide", "arsenous anhydride", "arsenolite", "arsenous acid anhydride", "arsenous oxide anhydride", "arsodent", "claudelite", "clauditite", "arsenicum album", "diarsonic trioxide", "diarsenic oxide"] "H2O3As" 124.936 +"CPD-764" "phosphonoacetate" ["Phosphonoacetic acid"] "C2H3O5P" 138.016 +"CPD-7656" "clorgyline" ["clorgiline"] "C13H15NOCl2" 272.174 +"CPD-7670" "dimethyl sulfide" ["reduced dimethyl sulfoxide", "dimethyl sulphide", "dimethylsulphide", "DMS", "dimethylsulfide"] "C2H6S" 62.129 +"CPD-7671" "methanethiol" ["methylsulfanium", "methylsulfide anion", "methyl-mercaptan", "methylmercaptan", "mercaptomethane", "thiomethane", "methyl sulfhydrate", "thiomethyl alcohol", "methyl-thiol", "methyl thiol"] "CH4S" 48.103 +"CPD-7673" "3-sulfanylpropanoate" ["3-mercaptopropanoic acid", "3-thiopropionic acid", "3-thiopropanoic acid", "β-thiopropionic acid", "3-mercaptopropionate", "3-mercaptopropanoate"] "C3H5O2S" 105.131 +"CPD-7679" "tetramethylammonium" ["tetramethylazanium", "trimethylaminomethane", "artilacer", "yodurtan", "banikol"] "C4H12N" 74.145 +"CPD-7682" "1-piperideine 6-carboxylate" ["Δ1-piperideine-6-carboxylate", "Δ6-piperideine-2-carboxylate", "1,6-didehydropiperidine-2-carboxylate", "2,3,4,5-tetrahydropyridine-2-carboxylate", "(S)-2,3,4,5-tetrahydropiperidine-2-carboxylate"] "C6H8NO2" 126.135 +"CPD-7702" "D-penicillamine" ["(-)-penicillamine", "(S)-3,3-dimethylcysteine", "3-mercapto-D-valine", "D-(-)-penicillamine", "D-β,β-dimethylcysteine"] "C5H11NO2S" 149.207 +"CPD-7733" "aurachin C" [] "C25H33NO2" 379.541 +"CPD-782" "(3,4-dihydroxyphenyl)acetate" ["(3,4-dihydroxyphenyl)acetic acid", "homoprotocatechuate", "(dihydroxyphenyl)acetic acid"] "C8H7O4" 167.141 +"CPD-7836" "tetradecanoate" ["myristic acid", "myristate", "tetradecanoic acid", "tetradecoate", "tetradecoic acid"] "C14H27O2" 227.366 +"CPD-7867" "dodecan-1-ol" ["n-dodecanol", "dodecyl alcohol", "1-dodecanol", "lauric alcohol", "lauryl alcohol", "laurinic alcohol", "lorol"] "C12H26O" 186.337 +"CPD-7880" "dodecanal" ["n-dodecyl aldehyde", "lauraldehyde", "laurylaldehyde", "lauric aldehyde", "lauryl aldehyde"] "C12H24O" 184.321 +"CPD-7886" "tetradecanal" ["tetradecyl aldehyde", "myristaldehyde", "myristic aldehyde"] "C14H28O" 212.375 +"CPD-7970" "carbonylcyanide m-chlorophenylhydrazone" ["CCCP", "(3-chlorophenyl)hydrazonomalononitrile", "Carbonylcyanide-3-chlorophenylhydrazone"] "C9H5N4Cl" 204.618 +"CPD-7975" "2-n-heptyl-4-hydroxyquinoline-N-oxide" ["HQNO", "HOQNO", "2-heptyl-4-hydroxyquinoline n-oxide", "2-heptylquinolin-4-ol 1-oxide", "2-Heptyl-4-quinolinol 1-oxide"] "C16H21NO2" 259.347 +"CPD-7988" "Triton X-100" [] "C16H26O2" 250.38 +"CPD-7999" "3-phenyllactate" ["3-phenyllactic acid"] "C9H9O3" 165.168 +"CPD-804" "(4S)-4-hydroxy-2-oxoheptanedioate" ["4-hydroxy-2-ketoheptane-1,7-dioate", "2-oxo-4-hydroxyhepta-1,7-dioate", "4-hydroxy-2-oxo-heptanedioate", "4-hydroxy-2-ketopimelate", "2-keto-4-hydroxypimelate"] "C7H8O6" 188.137 +"CPD-809" "biuret" ["allophanamide", "carbamylurea", "imidodicarbonic diamide"] "C2H5N3O2" 103.08 +"CPD-8122" "molybdopterin adenine dinucleotide" ["adenylated molybdopterin", "H2Dtpp-mADP", "molybdopterin-AMP", "adenylyl-molybdopterin"] "C20H23N10O12P2S2" 721.529 +"CPD-8123" "MoO2-molybdopterin cofactor" ["MoCo (dioxyo)", "molybdenum cofactor (dioxyo)", "MoO2(OH)Dtpp-mP", "{[(5aR,8R,9aR)-2-amino-4-oxo-6,7-di(sulfanyl-κS)-1,5,5a,8,9a,10-hexahydro-4H-pyrano[3,2-g]pteridin-8-yl]methyl dihydrogenato(2-) phosphate}(dioxo)molybdate", "MoO2-Mo-MPT"] "C10H10N5O8PS2Mo" 519.251 +"CPD-8147" "3-nitropropanoate" ["3-nitropropionate", "3-nitro-1-propionate"] "C3H4NO4" 118.069 +"CPD-8179" "2,4-dinitrophenol" ["1-hydroxy-2,4-dinitrobenzene", "2,4-DNP", "α-dinitrophenol"] "C6H3N2O5" 183.1 +"CPD-8190" "a [phospholipid] methylene fatty acid" [] null null +"CPD-8202" "a 3-O-[β-D-galactosyl-(1→4)-β-D-xylosyl]-L-seryl-[protein]" ["4-β-D-galactosyl-O-β-D-xylosyl-[protein]", "4-β-D-galactosyl-O-β-D-xylosyl-[core protein]", "β-D-galactosyl-(1->4)-β-D-xylosyl-[proteoglycan]", "β-D-galactosyl-(1->4)-β-D-xylosyl-[core protein]"] null null +"CPD-821" "L-proline betaine" ["stachydrine", "N,N-dimethyl L-proline", "proline betaine", "(S)-2-carboxylato-1,1-dimethylpyrrolidinium", "N,N-dimethylproline", "(2S)-1,1-dimethylpyrrolidinium-2-carboxylate"] "C7H13NO2" 143.185 +"CPD-822" "N2-succinyl-L-glutamate 5-semialdehyde" ["N2-succinylglutamic-semialdehyde", "N2-succinylglutamate semialdehyde", "N2-succinylglutamic semialdehyde"] "C9H11NO6" 229.189 +"CPD-8260" "phosphatidylglycerol (dihexadecanoyl, n-C16:0)" ["phosphatidylglycerol-32:0", "16:0-16:0-PG", "1,2-dihexadecanoyl-sn-glycero-3-phospho-(1'-sn-glycerol)", "1,2-dipalmitoyl-phosphatidylglycerol"] "C38H74O10P" 721.97 +"CPD-83" "trans-resveratrol" ["3,4',5-trihydroxystilbene", "3,5,4'-trihydroxystilbene", "3,4',5-trihydroxy-trans-stilbene"] "C14H12O3" 228.247 +"CPD-8353" "1-palmitoyl-sn-glycero-3-phosphoethanolamine" ["1-16:0-lysoPE", "1-hexadecanoyl-sn-glycero-3-phosphoethanolamine", "1-acyl-sn-glycero-3-phosphoethanolamine (n-C16:0)", "1-16:0-2-lysophosphatidylethanolamine"] "C21H44NO7P" 453.555 +"CPD-8363" "2-16:0-lysophosphatidylglycerol" ["2-16:0-lysoPG", "2-hexadecanoyl-sn-glycero-3-phospho-(1'-sn-glycerol)", "2-Acyl-sn-glycero-3-phosphoglycerol (n-C16:0)"] "C22H44O9P" 483.558 +"CPD-841" "an N-acyl-α-D-mannosamine 6-phosphate" [] null null +"CPD-8475" "2-hydroxyhexadecanoate" ["2-hydroxyhexadecanoic acid", "2-hydroxypalmitate", "2-hydroxypalmitic acid"] "C16H31O3" 271.419 +"CPD-8490" "decanal" ["n-decanal", "1-decanal", "n-decyl aldehyde", "capraldehyde", "Capric aldehyde"] "C10H20O" 156.267 +"CPD-8524" "N-carbamoyl-D-phenylglycine" ["phenylureidoacetic acid", "phenylureidoacetate"] "C9H9N2O3" 193.182 +"CPD-8525" "a [pyruvate-kinase] L-serine phosphate" [] null null +"CPD-8528" "a [protein] C-terminal (2S)-2-hydroxyglycine" ["a C-terminal peptidylamidoglycolate", "a C-terminal peptidyl 2-hydroxyglycine"] null null +"CPD-8534" "DNA without lesion" [] null null +"CPD-8536" "D-mannosyl-5'-O-β-queuosine at position 34 of a tRNAAsp" ["a tRNAAsp-O-5'-β-D-mannosylqueuosine"] null null +"CPD-8539" "a 3-[(3S)-3-amino-3-carboxypropyl]-uridine in tRNA" ["a tRNA 3-(3-amino-3-carboxypropyl)-uridine"] null null +"CPD-8541" "a [protein]-N4-(N-acetyl-β-D-glucosaminyl)-L-asparagine" ["a 4-N-(N-acetyl-β-D-glucosaminyl)-protein"] null null +"CPD-8548" "a D-threo-aldose" [] null null +"CPD-8549" "a (2S,3R)-aldono-1,5-lactone" ["a D-threo-aldono-1,5-lactone"] null null +"CPD-8550" "a substituted β-amino acid" [] null null +"CPD-8555" "an oligoglycosyl-(1→4)-β-D-glucosylceramide" [] null null +"CPD-8556" "an oligoglycosylglucose" [] null null +"CPD-8559" "a 6-(D-glucose-1-phospho)-D-mannosyl-[glycoprotein]" ["a [glycoprotein]-6-(D-glucose-1-phospho)-D-mannose"] null null +"CPD-8563" "a [myosin light-chain] L-serine phosphate" [] null null +"CPD-8572" "α-D-galactosamine-[glycoprotein]" ["D-galactosaminoglycan"] null null +"CPD-8575" "a 4-hydroxyacid" ["a 4-hydroxyalkanoic acid", "a 4-hydroxycarboxlic acid"] null null +"CPD-8579" "a [histone] N6-methyl-L-lysine" [] null null +"CPD-8580" "a [calmodulin] L-lysine" [] null null +"CPD-8581" "a [calmodulin] N6-methyl-L-lysine" [] null null +"CPD-8583" "a [glycoprotein]-O-palmitoyl-L-serine" [] null null +"CPD-8592" "β-D-glucosyluronate-[chondroitin/dermatan]" ["D-glucosyluronate-N-acetyl-1,3-β-D-galactosaminyl-[proteoglycan]", "β-D-glucosyluronate-(1->3)-N-acetyl-β-D-galactosaminyl-(1->4)-β-D-glucuronosyl-[proteoglycan]"] null null +"CPD-8594" "a Lewis x epitope" ["a 1,4-β-D-galactosyl-(α-1,3-L-fucosyl)-N-acetyl-D-glucosaminyl-[glycoprotein]", "a 1,4-β-D-galactosyl-(α-1,3-L-fucosyl)-N-acetyl-D-glucosaminyl-R", "a β-D-galactosyl-(1→4)-[α-L-fucosyl-(1→3)]-N-acetyl-D-glucosaminyl-R", "a histo-blood group Lex antigen", "SSEA-1", "stage-specific embryonic antigen 1"] null null +"CPD-8624" "a [protein]-L-proline (ω = 180)" ["a peptidylproline (ω = 180)"] null null +"CPD-8625" "a [protein]-L-proline (ω = 0)" ["a peptidylproline (ω = 0)"] null null +"CPD-8649" "a [protein]-(S)-2-amino-6-oxohexanoate" ["a [protein]-L-allysine"] null null +"CPD-8651" "betalamate" ["betalamic acid", "(2S,4E)-4-(2-oxoethylidene)-1,2,3,4-tetrahydropyridine-2,6-dicarboxylate"] "C9H7NO5" 209.158 +"CPD-8670" "portulacaxanthin II" ["tyrosine-betaxanthin"] "C18H15N2O7" 371.326 +"CPD-8743" "germacrene A" [] "C15H24" 204.355 +"CPD-8774" "3-methylbenzaldehyde" ["3-tolualdehyde", "m-methylbenzaldehyde", "3-tolylaldehyde", "m-tolylaldehyde", "m-tolyl aldehyde"] "C8H8O" 120.151 +"CPD-8783" "4,4'-diisothiocyanostilbene-2,2'-disulfonate" ["4,4'-diisothiocyanostilbene-2,2'-disulfonic acid", "DIDS"] "C16H8N2O6S4" 452.489 +"CPD-8815" "4-methylsalicylate" ["2-hydroxy-4-methylbenzoate", "γ-cresotate", "m-cresotate", "2-hydroxy-p-toluate"] "C8H7O3" 151.141 +"CPD-8819" "2,2'-dipyridyl" ["2,2'-bipyridine", "2,2'-bipyridyl", "α,α'-dipyridyl"] "C10H8N2" 156.187 +"CPD-8829" "cibacron blue 3GA" ["cibacron blue", "cibacron blue F 3GA"] "C29H17N7O11S3Cl" 771.127 +"CPD-884" "6-aminohexanoate" ["epsilon-amino-N-caproate", "6-aminocapronate", "capracid", "caplamin", "caprolisin", "capramol", "capralense", "aminokapron", "atsemin", "acepramine", "hexanoic acid, 6-amino-", "6-amino-n-hexanoic acid", "6-aminocaproic acid", "acepramin", "ε-aminocaproate", "6-amino-n-caproic acid", "aminocaproic acid", "amicar", "epsilcapramine", "6-amino-n-caproate", "6-aminohexanoic acid", "ε-aminocaproic acid", "e-amino-n-caproic acid", "ε-amino-N-caproic acid"] "C6H13NO2" 131.174 +"CPD-8855" "L-erythro-3-phenylserine" ["L-erythro-phenylserine", "(2S,3R)-2-amino-3-hydroxy-3-phenylpropanoic acid", "L-erythro-β-phenylserine"] "C9H11NO3" 181.191 +"CPD-8857" "DL-β-hydroxynorvaline" [] "C5H11NO3" 133.147 +"CPD-8876" "dodecyl sulfate" [] "C12H25O4S" 265.387 +"CPD-8887" "glyoxal" ["oxalaldehyde", "1,2-ethanedione"] "C2H2O2" 58.037 +"CPD-8891" "(R)-propane-1,2-diol" ["D-1,2-propanediol"] "C3H8O2" 76.095 +"CPD-8900" "a [protein] N6,N6-dimethyl-L-lysine" [] null null +"CPD-8901" "a [protein] N6-methyl-L-lysine" [] null null +"CPD-8902" "D-lyxonate" ["D-lyxonic acid"] "C5H9O6" 165.122 +"CPD-8923" "cyclohexane" ["hexamethylene", "hexanaphthene", "hexahydrobenzene", "polycyclohexane"] "C6H12" 84.161 +"CPD-8926" "clotrimazol" ["chlortrimazole", "empecid", "mycosporin", "lotrimin", "clotrimazole", "clotrimeizol"] "C22H17N2Cl" 344.843 +"CPD-8945" "N-acetyl-β-D-galactosaminyl-(1->4)-N-acetyl-β-D-glucosaminyl-[glycoprotein]" [] null null +"CPD-8979" "succinamate" ["succanimic acid", "succanimate", "succinamic acid"] "C4H6NO3" 116.096 +"CPD-8989" "L-methionine-(S)-S-oxide" [] "C5H11NO3S" 165.207 +"CPD-8990" "L-methionine-(R)-S-oxide" ["L-methionine-R-sulfoxide"] "C5H11NO3S" 165.207 +"CPD-8999" "5-(methylsulfanyl)-2,3-dioxopentyl 1-phosphate" ["1-phosphoryloxy-2,3-diketo-5-methylthiopentane", "1-phospho-2,3-diketo-5-methylthiopentane", "DKM-1-P", "2,3-diketo-5-methylthio 1-phosphopentane", "2,3-diketo-5-methylthiopentyl 1-phosphate", "5-(methylsulfanyl)-2,3-dioxopentyl phosphate", "5-methylthio-1-(phosphonooxy)pentane-2,3-dione", "5-(methylthio)-2,3-dioxopentyl phosphate", "5-(methylthio)-2,3-dioxopentyl 1-phosphate"] "C6H9O6PS" 240.167 +"CPD-9000" "4-(γ-L-glutamylamino)butanoate" ["γ-glu-GABA", "γ-glutamyl-γ-aminobutyric acid", "γ-glutamyl-γ-aminobutyrate", "γ-glutamyl-γ-aminobutanoate", "4-(glutamylamino)butanoate"] "C9H15N2O5" 231.228 +"CPD-9035" "L-methionine-D,L-sulphoximine" ["methionine sulfoximine", "MSX"] "C5H12N2O3S" 180.221 +"CPD-9037" "methylcob(III)alamin" ["mecobalamin", "cobametin", "vancomin", "algobaz", "cobamet", "methyl cobalamine", "methylcobalamin"] "C63H91N13O14PCo" 1344.394 +"CPD-9038" "precorrin-1" [] "C41H38N4O16" 842.768 +"CPD-9051" "2-deoxy-2-amino glucitol-6-phosphate" ["2-amino-2-deoxy-D-glucitol 6-phosphate", "2-amino-2-deoxy-glucitol 6-phosphate", "2-deoxy-2-amino-D-glucitol 6-phosphate", "2-amino-2-deoxyglucitol 6-phosphate", "2-amino-2-deoxy-6-O-phosphono-D-glucitol"] "C6H15NO8P" 260.16 +"CPD-9053" "1-pentanal" ["n-pentanal", "valeraldehyde", "n-valeraldehyde", "amylaldehyde", "valeral", "butyl formal", "valeric aldehyde", "valeryl aldehyde"] "C5H10O" 86.133 +"CPD-9092" "a bacteriochlorophyll c" [] null null +"CPD-9093" "a bacteriochlorophyll d" [] null null +"CPD-9094" "a bacteriochlorophyll e" [] null null +"CPD-9115" "o-nitrophenyl-β-galactoside" ["2-nitrophenylgalactoside", "ONPG"] "C12H15NO8" 301.252 +"CPD-9117" "phenyl-β-galactoside" ["phenyl-β-D-galactopyranoside"] "C12H16O6" 256.255 +"CPD-9138" "2,4,6-trinitrotoluene" [] "C7H5N3O6" 227.133 +"CPD-9175" "N-acetyl-L-cysteine" ["acetylcysteine"] "C5H8NO3S" 162.183 +"CPD-9190" "2-O-(α-D-glucopyranosyl)-D-glycerate" ["glucosylglycerate", "2-(α-D-glucopyranosyl)-D-glycerate"] "C9H15O9" 267.212 +"CPD-9195" "ampicillin" ["aminobenzylpenicillin", "ampicillin Acid", "ampicillin Anhydrous", "D-(-)-6-(alpha-Aminophenylacetamido)penicillanic acid", "D-(-)-Ampicillin", "6-(D-(2-Amino-2-phenylacetamido))-3,3-dimethyl-7-oxo-4-thia-1-azabicyclo(3.2.0)heptane-2-carboxylic acid", "anhydrous ampicillin"] "C16H19N3O4S" 349.404 +"CPD-9196" "penicillin V" ["phenoxymethylpenicillin"] "C16H17N2O5S" 349.381 +"CPD-9218" "carbenicillin" ["carboxybenzylpenicillin", "pyopen"] "C17H16N2O6S" 376.383 +"CPD-9224" "oxacillin" ["Micropenin", "Prostaphlin", "Resistopen", "Bristopen", "Stapenor", "Oxabel", "Staphcillin V"] "C19H18N3O5S" 400.428 +"CPD-9225" "cloxacillin" ["Syntarpen", "Methocillin S", "Clossacillina [DCIT]", "Spectrum 001345"] "C19H17N3O5SCl" 434.873 +"CPD-9226" "dicloxacillin" ["dicloxacycline", "dicloxacilin", "maclicine"] "C19H16N3O5SCl2" 469.318 +"CPD-9227" "cephalexin" ["Keflex", "Cefalexin", "Keflet", "Carnosporin", "Cefaleksin", "Cefaseptin", "Cephacillin", "Cephalexine", "Cephalexinum"] "C16H17N3O4S" 347.388 +"CPD-9228" "cephaloridine" ["Kefloridin", "Loridine", "Cephaloridinum", "Cefaloridin", "Cefalorizin", "Cepaloridin", "Cephaloridin", "Glaxoridin"] "C19H17N3O4S2" 415.481 +"CPD-9229" "cephalothin" ["Cephalothinum", "Cefalothin", "Cephalotin", "Cefalotin", "Cemastin", "Coaxin", "Keflin", "Averon-1"] "C16H15N2O6S2" 395.424 +"CPD-9230" "cephalosporin 87/312" ["nitrocefin"] "C21H15N4O8S2" 515.491 +"CPD-9231" "imipenem" ["tienamycin", "N-Formimidoylthienamycin"] "C12H17N3O4S" 299.344 +"CPD-9233" "cefoxitin" ["Mefoxitin", "Mefoxin", "Spectrum 001399"] "C16H16N3O7S2" 426.438 +"CPD-9235" "aztreonam" ["Primbactam", "Azactam"] "C13H15N5O8S2" 433.41 +"CPD-9245" "palmitoleate" ["(9Z)-hexadec-9-enoate", "palmitoleic acid (16:1Δ9)", "palmitoleic acid", "(9Z)-hexadecenoic acid", "cis-9-hexadecenoic acid", "cis-9-hexadecenoate"] "C16H29O2" 253.404 +"CPD-9247" "cis-vaccenate" ["cis-vaccenic acid", "(Z)-octadec-11-enoate", "(Z)-11-octadecenoic acid", "cis-11-octadecenoic acid", "cis-octadec-11-enoic acid"] "C18H33O2" 281.457 +"CPD-9275" "allicin" ["diallyl thiosulfinate", "DADSO", "diallyldisulfid-S-oxid", "S-Allyl acrylo-1-sulphinothioate", "allylthiosulphinic acid allyl ester"] "C6H10OS2" 162.264 +"CPD-9286" "heptane" ["n-heptane"] "C7H16" 100.203 +"CPD-9288" "hexane" ["n-hexane"] "C6H14" 86.177 +"CPD-9300" "S-ethyl-L-cysteine" ["S-ethylcysteine", "3-(ethylthio)alanine"] "C5H11NO2S" 149.207 +"CPD-9374" "L-alaninol" ["L-2-aminopropan-1-ol", "S-(+)-2-amino-1-propanol"] "C3H10NO" 76.118 +"CPD-9383" "glycine methyl ester" ["Methyl glycinate"] "C3H7NO2" 89.094 +"CPD-9384" "γ-glutamyl-ethylamide" ["γ-glutamylethylamide", "theanine", "N5-ethylglutamine", "N5-ethyl-L-glutamine"] "C7H14N2O3" 174.199 +"CPD-9385" "γ-glutamyl-p-nitroanilide" ["γ-glutamyl-p-nitroaniline"] "C11H13N3O5" 267.241 +"CPD-9394" "abequose" ["3,6-dideoxy-D-galactose", "3,6-dideoxy-D-xylo-hexose"] null null +"CPD-9395" "tyvelose" ["3,6-dideoxy-D-mannose"] null null +"CPD-9396" "ascarylose" ["3,6-dideoxy-L-mannose", "3,6-dideoxy-L-arabino-hexose"] null null +"CPD-9399" "D-paratose" ["3,6-dideoxy-D-ribo-hexose"] null null +"CPD-9451" "2-isopropylmaleate" ["β-isopropylmaleate", "2-isopropylmaleic acid"] "C7H8O4" 156.138 +"CPD-9452" "di-trans,poly-cis-decaprenyl diphosphate" ["di-trans-poly-cis-decaprenyl diphosphate", "decaprenyl-PP", "decaprenyl pyrophosphate", "decaprenyl diphosphate"] "C50H81O7P2" 856.133 +"CPD-9453" "di-trans,poly-cis-nonaprenyl diphosphate" ["nonaprenyl-PP", "nonaprenyl pyrophosphate", "nonaprenyl diphosphate"] "C45H73O7P2" 788.015 +"CPD-9454" "di-trans,poly-cis-octaprenyl diphosphate" ["octaprenyl-PP", "octaprenyl pyrophosphate", "octaprenyl diphosphate"] "C40H65O7P2" 719.897 +"CPD-9455" "di-trans,poly-cis-heptaprenyl diphosphate" ["heptaprenyl-PP", "heptaprenyl pyrophosphate", "heptaprenyl diphosphate"] "C35H57O7P2" 651.779 +"CPD-9456" "di-trans,poly-cis-hexaprenyl diphosphate" ["hexaprenyl-PP", "hexaprenyl pyrophosphate", "hexaprenyl diphosphate"] "C30H49O7P2" 583.66 +"CPD-9457" "di-trans,di-cis-pentaprenyl diphosphate" ["2,6-cis, 10,14-trans-pentaprenyl diphosphate"] "C25H41O7P2" 515.542 +"CPD-9481" "hederagenin" ["Caulosapogenin", "Astrantiagenin E", "Hederagenic acid", "(3-beta,4-alpha)-3,23-Dihydroxyolean-12-en-28-oic acid"] "C30H47O4" 471.699 +"CPD-9482" "soyasapogenol E" [] "C30H48O3" 456.707 +"CPD-9483" "medicagenate" ["medicagenic acid", "2-beta,3-beta-Dihydroxyolean-12-ene-23,28-dioic acid"] "C30H44O6" 500.674 +"CPD-9569" "L-sorbopyranose" [] "C6H12O6" 180.157 +"CPD-9608" "lawsone" ["2-hydroxy-1,4-naphthoquinone"] "C10H5O3" 173.148 +"CPD-9646" "di-trans,octa-cis-undecaprenyl phosphate" ["ditrans,polycis-undecaprenyl phosphate", "ditrans,octacis-undecaprenyl phosphate", "C55-P", "Und-P"] "C55H89O4P" 845.279 +"CPD-9728" "menaquinone-8" ["vitamin K2", "MK-8", "menaquinone"] "C51H72O2" 717.129 +"CPD-9793" "alpha-aminopimelate" ["DL-α-aminopimelic acid", "DL-α-aminopimelate", "alpha-aminiopimelic acid", "2-aminopimelate", "2-aminoheptanedioic acid"] "C7H12NO4" 174.176 +"CPD-9923" "(1R,6R)-6-hydroxy-2-succinylcyclohexa-2,4-diene-1-carboxylate" ["SHCHC", "(1R,6R)-2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate", "2-(3-CARBOXYPROPIONYL)-6-HYDROXY-CYCLOHEXA-2,4-DIENE CARBOXYLIC ACID"] "C11H10O6" 238.196 +"CPD-9924" "2-succinyl-5-enolpyruvoyl-6-hydroxy-3-cyclohexene-1-carboxylate" ["SEPHCHC", "5-enolpyruvoyl-6-hydroxy-2-succinyl-cyclohex-3-ene-1-carboxylate"] "C14H13O9" 325.251 +"CPD-9925" "1,4-dihydroxy-2-naphthoyl-CoA" ["1,4-dihydroxy-2-naphthoate-CoA", "DHNA-CoA"] "C32H38N7O19P3S" 949.669 +"CPD-9939" "harmaline" [] "C13H14N2O" 214.266 +"CPD-9956" "ubiquinol-8" ["ubiquinol(8)"] "C49H76O4" 729.137 +"CPD-9965" "arachidoyl-CoA" ["eicosanoyl-CoA", "icosanoyl-CoA"] "C41H70N7O17P3S" 1058.022 +"CPD-9973" "an [eIF5A-precursor]-deoxyhypusine" ["a protein deoxyhypusine", "a protein N6-(4-aminobutyl)-L-lysine", "an eIF5A deoxyhypusine"] null null +"CPD0-1024" "3,4-epoxy-3-methyl-1-butyl diphosphate" ["EIPP"] "C6H11O8P2" 273.096 +"CPD0-1025" "bromohydrin of isopentenyl pyrophosphate" [] "C5H10O8P2Br" 339.981 +"CPD0-1027" "a debranched α-limit dextrin" ["a debranched glycogen phosphorylase-limit dextrin", "a debranched glycogen phosphorylase-limited dextrin"] "C60H102O51" null +"CPD0-1028" "2-cis,6-trans,10-trans-geranylgeranyl diphosphate" ["di-trans,mono-cis-geranylgeranyl diphosphate", "ω,E,E,Z-geranylgeranyl diphosphate"] "C20H33O7P2" 447.424 +"CPD0-1029" "α-D-glucose 1-methylene-phosphonate" ["Glc-1-MeP"] "C7H14O9P" 273.156 +"CPD0-1031" "chlorothalonil" ["2,4,5,6-tetrachloroisophthalonitrile"] "C8N2Cl4" 265.913 +"CPD0-1032" "(R)-β-lysine" ["3,6-diaminohexanoate", "D-β-lysine"] "C6H15N2O2" 147.197 +"CPD0-1033" "psicofuranine" ["9-D-psicofuranosyl-6-aminopurine", "angustmycin C"] "C11H15N5O5" 297.27 +"CPD0-1035" "N2-hydroxyguanosine 5'-monophosphate" ["N2-hydroxyguanosine 5'-monophosphate", "N2-OH-GMP"] "C10H12N5O9P" 377.207 +"CPD0-1036" "acivicin" [] "C5H7N2O3Cl" 178.575 +"CPD0-1037" "2-thiouridine 5'-triphosphate" [] "C9H11N2O14P3S" 496.172 +"CPD0-1038" "thiourea dioxide" [] "CH4N2O2S" 108.115 +"CPD0-1040" "7-methylinosine" [] "C11H15N4O5" 283.263 +"CPD0-1042" "1-methylinosine" [] "C11H14N4O5" 282.255 +"CPD0-1043" "1-methylguanosine" ["N1-methylguanosine"] "C11H15N5O5" 297.27 +"CPD0-1045" "formycin B" [] "C10H10N4O5" 266.213 +"CPD0-1048" "octyl α-D-glucopyranoside" ["Glcp-α-octyl"] "C14H28O6" 292.372 +"CPD0-1049" "octyl β-1,6-D-galactofuranosyl-α-D-glucopyranoside" ["Galf-β-1,6-Glcp-α-octyl"] "C20H38O11" 454.514 +"CPD0-1050" "octyl α-D-mannopyranoside" ["Manp-α-octyl"] "C14H28O6" 292.372 +"CPD0-1051" "octyl α-D-galactopyranoside" ["Galp-α-octyl"] "C14H28O6" 292.372 +"CPD0-1052" "octyl 2-acetamido-2-deoxy-α-D-glucopyranoside" ["GlcNAcp-α-octyl"] "C16H31NO6" 333.424 +"CPD0-1053" "UDP-[3-F]galactofuranose" [] "C15H21N2O16FP2" 566.281 +"CPD0-1054" "adenylyl-imidodiphosphate" ["β,γ-imidoadenosine 5'-triphosphate", "AMP-PNP", "5'-O-(hydroxy{[hydroxy(phosphonoamino)phosphoryl]oxy}phosphoryl)adenosine"] "C10H13N6O12P3" 502.167 +"CPD0-1055" "ppGp" [] "C10H11N5O14P3" 518.143 +"CPD0-1057" "diaminobiotin" [] "C9H19N2O2S" 219.321 +"CPD0-1059" "N-methyl-L-valine" [] "C6H13NO2" 131.174 +"CPD0-1061" "2,4,6-trimethylphenylglyoxal" [] "C11H12O2" 176.215 +"CPD0-1063" "2-O-(6-phospho-α-D-mannosyl)-D-glycerate" ["2(α-D-mannosyl-6-phosphate)-D-glycerate"] "C9H14O12P" 345.176 +"CPD0-1065" "aminopropylcadaverine" ["N-3-aminopropyl-1,5-diaminopentane"] "C8H24N3" 162.298 +"CPD0-1068" "methylphosphonate" ["MePn", "methylphosphonic acid"] "CH4O3P" 95.015 +"CPD0-1074" "(aminomethyl)phosphonate" ["AMPA"] "CH5NO3P" 110.029 +"CPD0-1075" "ethylphosphonate" ["EPn", "ethylphosphonic acid"] "C2H6O3P" 109.041 +"CPD0-1076" "propylphosphonate" ["PPn", "propylphosphonic acid", "propanephosphonic acid", "1-propylphosphonic acid"] "C3H8O3P" 123.068 +"CPD0-1078" "phenylphosphonate" ["phenylphosphonic acid", "PhPn", "benzenephosphonic acid"] "C6H5O3P" 156.077 +"CPD0-1080" "GlcNAc-1,6-anhMurNAc-L-Ala-γ-D-Glu-DAP-D-Ala" [] "C37H57N7O20" 919.892 +"CPD0-1081" "N-acetyl-β-D-glucosamine-1,6-anhydro-N-acetyl-β-D-muramate" ["glcNAc-1,6-anhMurNAc", "N-acetyl-β-D-glucosamine(anhydrous)-N-acetylmuramic acid"] "C19H29N2O12" 477.444 +"CPD0-1082" "L-alanyl-γ-D-glutamyl-meso-2,6-diaminopimeloyl-D-alanine" ["L-alanine-γ-D-glutamate-meso-2,6-diaminoheptanedioate-D-alanine", "L-Ala-D-Glu-meso-A2pm-D-Ala", "L-Ala-γ-D-Glu-meso-DAP-D-Ala", "L-alanyl-γ-D-glutamyl-meso-2,6-diaminoheptanedioyl-D-alanine"] "C18H30N5O9" 460.463 +"CPD0-1083" "L-galactonate" [] "C6H11O7" 195.149 +"CPD0-1085" "L-alanyl-γ-D-glutamyl-meso-2,6-diaminopimeloyl-D-alanyl-D-alanine" ["pentapeptide", "L-Ala-γ-D-Glu-meso-A2pm-D-Ala-D-Ala", "L-alanyl-γ-D-glutamyl-meso-2,6-diaminoheptanedioyl-D-alanyl-D-alanine"] "C21H35N6O10" 531.542 +"CPD0-1086" "glutaminyl-β-ketophosphonate-adenosine" [] "C16H24N7O8P" 473.381 +"CPD0-1088" "CHAPS" ["3-[(3-cholamidopropyl)-dimethylammonio]-1-propane-sulfonate", "3-[(3-cholamidopropyl)dimethylammonium]-1-propansulfonate"] "C32H58N2O7S" 614.879 +"CPD0-1090" "L-idarate" ["L-idaric acid"] "C6H8O8" 208.124 +"CPD0-1092" "D-idarate" ["D-idaric acid"] "C6H8O8" 208.124 +"CPD0-1093" "8-hydroxy-dATP" [] "C10H12N5O14P3" 519.151 +"CPD0-1094" "8-oxo-dADP" [] "C10H12N5O10P2" 424.18 +"CPD0-1095" "adenosine thiamine triphosphate" ["AThTP"] "C22H28N9O13P3S" 751.497 +"CPD0-1096" "glucosamine 1,6-diphosphate" [] "C6H12NO11P2" 336.108 +"CPD0-1098" "a Rieske [2Fe-2S] iron-sulfur cluster" ["a Rieske Fe2S2 iron-sulfur cluster", "a Rieske type [2Fe-2S] iron-sulfur cluster", "a Rieske type [2Fe-2S]"] null null +"CPD0-1099" "a colanic acid" ["an M antigen"] null null +"CPD0-1101" "E. coli MLPS" ["MLPS", "E. coli M-antigen - core oligosaccharide-lipid A"] "C207H346N2O123P4" null +"CPD0-1102" "phosphoglycolohydroxamate" ["PGH"] "C2H4NO6P" 169.03 +"CPD0-1103" "3,4-dehydroproline" ["3,4-dehydro-DL-proline", "3,4-Didehydro-proline", "3-Pyrroline-2-carboxylic acid", "2,5-dihydro-1H-pyrrole-2-carboxylic acid"] "C5H7NO2" 113.116 +"CPD0-1104" "azetidine-2-carboxylate" ["azetidyl-2-carboxylic acid", "azetidinecarboxylic acid", "azetidine-2-carboxylic acid"] "C4H7NO2" 101.105 +"CPD0-1105" "1-carboxymethylpyridinium" ["2-pyridin-1-ium-1-ylacetic acid"] "C7H7NO2" 137.138 +"CPD0-1107" "β-L-fucopyranose" ["β-L-fucose"] "C6H12O5" 164.158 +"CPD0-1108" "β-D-ribofuranose" [] "C5H10O5" 150.131 +"CPD0-1110" "β-D-ribopyranose" [] "C5H10O5" 150.131 +"CPD0-1112" "β-L-rhamnopyranose" [] "C6H12O5" 164.158 +"CPD0-1113" "fosfomycin" ["(1R,2S)-epoxypropylphosphonate", "L-cis-1,2-epoxypropylphosphonic acid", "phosphonomycin", "L-cis-1,2-epoxypropylphosphonic acid", "phosphonemycin", "(1R,2S)-epoxypropylphosphonic acid", "cis-(1R,2S)-epoxypropylphosphonic acid"] "C3H6O4P" 137.052 +"CPD0-1114" "L-rhamnitol" [] "C6H14O5" 166.174 +"CPD0-1115" "L-xylulose 1-phosphate" [] "C5H9O8P" 228.095 +"CPD0-1116" "D-sorbose 1-phosphate" [] "C6H11O9P" 258.121 +"CPD0-1117" "nicotinamide hypoxanthine dinucleotide" ["d-NADH"] "C21H26N6O15P2" 664.415 +"CPD0-1118" "ubiquinone-1" [] "C14H18O4" 250.294 +"CPD0-1119" "As3H3O6" ["2,4,6-trihydroxy-1,3,5,2,4,6-trioxatriarsinane"] "H3O6As3" 323.785 +"CPD0-1122" "N-acetyl-α-neuraminate" ["α-Neu5Ac", "α-N-acetylneuraminate"] "C11H18NO9" 308.264 +"CPD0-1123" "N-acetyl-β-neuraminate" ["β-Neu5Ac", "β-N-acetylneuraminate"] "C11H18NO9" 308.264 +"CPD0-1129" "microcin C" [] "C43H71N19O19PS" 1221.184 +"CPD0-1133" "maltoheptaose" [] "C42H72O36" 1153.009 +"CPD0-1137" "P1,P5-bis(5'-adenosyl) pentaphosphate" ["5',5'''-diadenosine pentaphosphate", "bis(5'-adenosyl) pentaphosphate", "P(1),P(5)-di(adenosine-5'-)pentaphosphate", "Ap5A", "P1,P5-di(adenosine-5')-pentaphosphate"] "C20H24N10O22P5" 911.332 +"CPD0-1138" "tubercidine 5'-monophosphate" ["7-deazaadenosine 5'-monophosphate", "TuMP"] "C11H13N4O7P" 344.22 +"CPD0-1139" "vidarabine phosphate" ["adenine-9-β-D-arabinofuranoside 5'-monophosphate", "araAMP"] "C10H12N5O7P" 345.208 +"CPD0-1141" "3,3-dimethyl-2-oxobutyric acid 5-(6-aminopurin-9-yl)-3,4-dihydroxytetrahydrofuran-2-ylmethyl ester" [] "C16H21N5O6" 379.372 +"CPD0-1143" "azaguanine" ["8-azaguanine"] "C4H4N6O" 152.115 +"CPD0-1144" "4-oxo-N-acetylneuraminate" ["5-acetamido-3,5-dideoxy-β-D-manno-non-2,4-diulosonic acid"] "C11H16NO9" 306.249 +"CPD0-1147" "methyl red" ["2-(4-dimethylaminophenyl)diazenylbenzoate"] "C15H14N3O2" 268.294 +"CPD0-1148" "N,N-dimethyl-1,4-phenylenediamine" ["N,N-dimethyl-p-phenylenediamine", "DMPD", "dimethyl-4-phenylenediamine"] "C8H12N2" 136.196 +"CPD0-1149" "ethyl red" [] "C17H18N3O2" 296.348 +"CPD0-1151" "lipid A-core 1-diphosphate" [] "C170H295N3O97P5" 4088.031 +"CPD0-1152" "N-pentylpantothenamide" ["N5-Pan"] "C14H28N2O4" 288.386 +"CPD0-1153" "N-heptylpantothenamide" ["N7-Pan"] "C16H32N2O4" 316.44 +"CPD0-1156" "2-methyl-1,4-benzoquinone" [] "C7H6O2" 122.123 +"CPD0-1157" "methyl-1,4-benzoquinol" [] "C7H10O2" 126.155 +"CPD0-1158" "(3E,5Z)-tetradeca-3,5-dienoyl-CoA" ["3-trans,5-cis-tetradecadienoyl-CoA"] "C35H54N7O17P3S" 969.83 +"CPD0-1159" "(3E,5Z)-tetradecadienoate" ["(3E,5Z)-tetradecadi-3,5-enoate", "3-trans,5-cis-tetradecadi-3,5-enoate"] "C14H23O2" 223.334 +"CPD0-1160" "3,5-cis-dodecadienoyl-CoA" [] "C33H50N7O17P3S" 941.776 +"CPD0-1161" "3-hydroxytetradecanoyl-CoA" [] "C35H58N7O18P3S" 989.861 +"CPD0-1162" "(2E,5Z)-tetradecenoyl-CoA" ["2-trans,5-cis-tetradecenoyl-CoA", "14:2-Δ2,Δ5-CoA", "2-trans,5-cis-tetradecadienoyl-CoA"] "C35H54N7O17P3S" 969.83 +"CPD0-1163" "(S)-3-hydroxy-(5Z)-tetradecenoyl-CoA" ["(S)-3-hydroxy-5-cis-tetradecenoyl-CoA", "(S)-3-hydroxy-14:1-Δ5-CoA", "(3S)-hydroxy-5-cis-tetradecenoyl-CoA"] "C35H56N7O18P3S" 987.845 +"CPD0-1171" "a peptidoglycan tripeptide crosslinked to lipopolysaccharide" [] null null +"CPD0-1174" "GlcNAc-MurNAc-pentapeptide" [] null null +"CPD0-1175" "a peptidoglycan polymer with GlcNAc end" [] null null +"CPD0-1176" "GlcNAc-1,6-anhydro-MurNAc-tetrapeptide" [] null null +"CPD0-1181" "peptidoglycan D-alanyl-DAP crosslink" [] null null +"CPD0-1182" "peptidoglycan tetrapeptide, glycan chain 1" [] null null +"CPD0-1183" "peptidoglycan tetrapeptide, glycan chain 2" [] null null +"CPD0-1184" "peptidoglycan tripeptide, glycan chain 1" [] null null +"CPD0-1185" "peptidoglycan DAP-DAP crosslink" [] null null +"CPD0-1187" "adenosine-2',5'-bisphosphate" ["2',5'-ADP", "2'-phosphoadenosine 5'-phosphate", "2'-PAP"] "C10H11N5O10P2" 423.172 +"CPD0-1189" "4-amino-4-deoxy-α-L-arabinopyranosyl ditrans,octacis-undecaprenyl phosphate" ["ditrans,octacis-undecaprenyl phosphate-α-L-Ara4N"] "C60H100NO7P" 978.426 +"CPD0-1192" "poly-β-1,6-N-acetyl-D-glucosamine" ["PGA"] null null +"CPD0-1193" "partially deacetylated poly-β-1,6-N-acetyl-D-glucosamine" [] null null +"CPD0-1194" "5'-D-arabinosyladenine triphosphate" [] "C10H12N5O13P3" null +"CPD0-1197" "L-mannonate" [] "C6H11O7" 195.149 +"CPD0-1198" "L-lyxonate" [] "C5H9O6" 165.122 +"CPD0-1200" "2-dehydro-3-deoxy-L-mannonate" ["2-keto-3-deoxy-L-mannonate"] "C6H9O6" 177.133 +"CPD0-1202" "isoprimeverose" ["Xyl-α(1,6)-Glc"] "C11H20O10" 312.273 +"CPD0-1203" "α-xylosyl fluoride" [] "C5H9O4F" 152.122 +"CPD0-1218" "N-hydroxy-N-isopropyloxamate" [] "C5H8NO4" 146.122 +"CPD0-1220" "2-methylphosphinoyl-2-hydroxyacetate" ["2-methylphosphinoyl-2-hydroxyacetic acid", "Hoe 704"] "C5H10O4P" 165.105 +"CPD0-1221" "4-deoxypyridoxine 5'-phosphate" [] "C8H10NO5P" 231.144 +"CPD0-1222" "3-acetyl pyridine adenine dinucleotide" ["3-acetylpyridine-NAD"] "C22H27N6O14P2" 661.435 +"CPD0-1223" "pyridine 3-aldehyde adenine dinucleotide" [] "C22H25N6O15P2" 675.418 +"CPD0-1224" "L-2-amino-4-oxo-5-chloropentanoate" ["2-amino-4-oxo-5-chloropentanoic acid", "2-amino-5-chloro-4-oxopentanoic acid", "2-amino-4-keto-5-chloropentanoic acid"] "C5H8NO3Cl" 165.576 +"CPD0-1227" "triclosan" [] "C12H7O2Cl3" 289.545 +"CPD0-1228" "a diazaborine" [] null null +"CPD0-1229" "aluminium fluoride" ["trifluoroalumane", "trifluoridoaluminium"] "F3Al" 83.975 +"CPD0-1230" "beryllium fluoride" ["Beryllium difluoride"] "BeF2" 47.009 +"CPD0-1231" "2-mercaptoglutarate" [] "C5H6O4S" 162.16 +"CPD0-1232" "N,N-dimethylacetamide" [] "C4H9NO" 87.121 +"CPD0-1233" "piericidin A" [] "C25H37NO4" 415.572 +"CPD0-1234" "isoleucine tetrazole" ["L-5(1-Amino-2-methylbutyl)tetrazole"] "C6H13N5" 155.202 +"CPD0-1235" "N-iodoacetylglucosamine 6-phosphate" [] "C8H14NO6I" 347.106 +"CPD0-1236" "N3-(4-methoxyfumaroyl)-L-2,3-diaminopropanoate" ["N3-methoxyfumaroyl-2,3-diaminopropanoate", "Nβ-methoxyfumaroyl-DAP", "Nβ-methoxyfumaroyl-2,3-diaminopropanoate", "N3-(4-methoxyfumaroyl)-L-2,3-diaminopropanoic acid", "FMDP"] "C8H12N2O5" 216.193 +"CPD0-1237" "N-3-fumaroyl-L-2,3-diaminopropanoate" ["N-3-fumaroyl-(S)-2,3-diaminopropanoate", "Nβ-fumaroyl-DAP", "Nβ-fumaroyl-2,3-diaminopropanoate"] "C7H9N2O5" 201.158 +"CPD0-1239" "monofluoromethylputrescine" ["alpha-monofluoromethylputrescine", "1,2-propanediamine, 3-fluoro-, (+-)-"] "C4H13N2F" 108.158 +"CPD0-1240" "monofluoromethylornithine" ["2-fluoromethylornithine", "alpha-Fluoromethylornithine", "ornithine, 2-(fluoromethyl)-"] "C6H14N2O2F" 165.187 +"CPD0-1242" "thiolactomycin" ["antibiotic 2-200", "(+)-thiolactomycin", "(R)-(+)-thiolactomycin", "(2R)-5-hydroxy-2,4-dimethyl-2-[(1E)-2-methylbuta-1,3-dien-1-yl]-2,3-dihydrothiophen-3-one"] "C11H14O2S" 210.29 +"CPD0-1244" "myxothiazol" [] "C25H33N3O3S2" 487.674 +"CPD0-1245" "D,L- γ-hydroxyphosphinothricin" ["GHPPT"] "C5H11NO5P" 196.119 +"CPD0-1246" "D,L-cyclohexanephosphinothricin" ["CHPPT"] "C8H15NO4P" 220.185 +"CPD0-1248" "D,L-α-methylphosphinothricin" ["AMPPT"] "C6H13NO4P" 194.147 +"CPD0-1249" "γ-methylphosphinothricin" ["GMPPT"] "C6H13NO4P" 194.147 +"CPD0-1250" "4-chloro-7-nitrobenzofurazan" ["7-chloro-4-nitrobenzo-2-oxa-1,3-diazole", "1-chloro-4-nitrobenzoxadiazole", "4-chloro-7-nitro-2,1,3-benzoxadiazole", "NBD chloride", "4-chloro-7-nitrobenzo-2-oxa-1,3-diazole", "7-chloro-4-nitrobenzofurazan", "chloronitrobenzoxadiazole"] "C6H2N3O3Cl" 199.553 +"CPD0-1251" "dihydrohomopteroate" ["dihydrohomopteroic acid", "7,8-dihydrohomopteroic acid"] "C15H15N6O3" 327.322 +"CPD0-1252" "dihydro-10-thiopteroate" ["dihydro-10-thiopteroic acid"] "C14H12N5O3S" 330.34 +"CPD0-1253" "dihydroisopteroate" ["dihydroisopteroic acid"] "C14H13N6O3" 313.295 +"CPD0-1255" "10-methyl-5,6,7,8-tetrahydropteroylglutamate" ["10-methyl-5,6,7,8-tetrahydropteroylglutamic acid"] "C20H23N7O6" 457.445 +"CPD0-1256" "hydroxocobalamin" ["hydroxycobalamin", "vitamin B12a"] "C62H90N13O15PCo" 1346.367 +"CPD0-1258" "DL-1,3-diaminopropan-2-ol" [] "C3H12N2O" 92.141 +"CPD0-1260" "DL-2-aminopropan-1-ol" [] "C3H10NO" 76.118 +"CPD0-1262" "2-mercaptosuccinate" ["2-mercaptosuccinic acid", "2-thiomalic acid", "2-mercaptobutanedioate", "2-sulfanylbutanedioate"] "C4H4O4S" 148.133 +"CPD0-1263" "4,5-dihydroxyisophthalate" ["4,5-dihydroxyisophthalic acid"] "C8H4O6" 196.116 +"CPD0-1264" "suberate" ["octanedioate", "suberic acid", "octanedioic acid", "1,6-hexanedicarboxylic acid", "1,8-octanedioic acid"] "C8H12O4" 172.18 +"CPD0-1265" "azelate" ["1,8-nonanedioic acid", "nonanedioate", "azelaic acid", "nonanedioic acid"] "C9H14O4" 186.207 +"CPD0-1267" "isophthalate" ["isophthalic acid", "IPA", "m-benzene-1,3-dicarboxylic acid"] "C8H4O4" 164.117 +"CPD0-1269" "4-bromoisophthalate" ["4-bromoisophthalic acid", "1,3-benzenedicarboxylic acid, 4-bromo"] "C8H9O4Br" 249.061 +"CPD0-1271" "chelidamate" ["chelidamic acid"] "C7H3NO5" 181.104 +"CPD0-1272" "chelidonate" ["chelidonic acid", "jervasic acid", "jerva acid"] "C7H2O6" 182.089 +"CPD0-1274" "3,5-dihydroxybenzoate" ["3,5-dihydroxybenzoic acid", "5-carboxyresorcinol"] "C7H5O4" 153.114 +"CPD0-1276" "cyclogutamate" ["1-amino-1,3-cyclohexanedicarboxylic acid"] "C8H12NO4" 186.187 +"CPD0-1277" "polymyxin B1" [] "C56H103N16O13" 1208.529 +"CPD0-1280" "tetraacyldisaccharide 4-phosphate" [] "C68H127N2O20P" 1323.726 +"CPD0-1281" "lipid IVB" ["palmitoylated Lipid IVA"] "C84H156N2O24P2" 1640.103 +"CPD0-1283" "lipid A (E. coli)" [] "C94H174N2O25P2" 1794.354 +"CPD0-1284" "lipid A (R. sphaeroides)" [] "C74H135N2O21P" 1419.855 +"CPD0-1286" "L-rhamnitol 1-phosphate" [] "C6H13O8P" 244.138 +"CPD0-1288" "8-hydroxyquinoline-5-sulfonic acid" [] "C9H6NO4S" 224.211 +"CPD0-1293" "isopropyl β-D-galactopyranoside" ["β-D-galactopyranoside, 1-methylethyl"] "C9H18O6" 222.238 +"CPD0-1294" "(1/2,5,6)-2-(3-azibutylthio)-5,6-epoxy-3-cyclohexen-1-ol" [] "C10H14N2O2S" 226.293 +"CPD0-1296" "1-ethyl-3-(3-dimethylaminopropyl)-carbodiimide" [] "C8H18N3" 156.25 +"CPD0-1297" "2-deoxy-2-fluoro-β-D-galactopyranosyl fluoride" ["2-deoxy-2-fluoro-β-D-galactose"] "C6H11O5F" 182.148 +"CPD0-1299" "2-aminogalactopyranose" [] "C6H14NO5" 180.18 +"CPD0-1300" "D-galactal" ["1,5-anhydro-2-deoxy-D-lyxo-hex-1-enitol", "arabino-hex-5-enitol, 2,6-anhydro-5-deoxy-"] "C6H10O4" 146.143 +"CPD0-1302" "phenyl-1-thio-β-D-galactopyranoside" [] "C12H16O5S" 272.315 +"CPD0-1303" "o-nitrophenol β-thiogalactoside" [] "C12H15NO7S" 317.313 +"CPD0-1304" "β-D-galactopyranosyl trimethylammonium bromide" [] "C9H20NO5" 222.261 +"CPD0-1305" "conduritol C cis-epoxide" [] "C6H10O5" 162.142 +"CPD0-1306" "3-decynoyl-N-acetylcysteamine" ["N-acetyl-N-(2-sulfanylethyl)-3-decynamide"] "C14H23NO2S" 269.401 +"CPD0-1307" "3-methyl-2-butanone" ["2-acetylpropane", "isopropyl methyl ketone"] "C5H10O" 86.133 +"CPD0-1308" "glyphosate" ["N-(phosphonomethyl)glycine", "Roundup"] "C3H6NO5P" 167.058 +"CPD0-1309" "4-mercuriphenylsulfonate" ["PMBS", "p-mercuribenzenesulfonic acid", "(4-sulfophenyl)mercury"] "C6H4O3SHg" 356.746 +"CPD0-1310" "2-keto-4-hydroxybutanoate" ["2-keto-4-hydroxybutyrate"] "C4H5O4" 117.081 +"CPD0-1311" "5-fluoropyrimidin-2-one-ribonucleoside" [] "C9H11N2O5F" 246.195 +"CPD0-1312" "pyrimidin-2-one-ribonucleoside" [] "C9H12N2O5" 228.204 +"CPD0-1313" "mersalyl acid" ["salyrganic acid", "2-(3-hydroxymercurio-2-methoxypropylcarbamoyl)phenoxyacetic acid"] "C13H15NO5Hg" 465.855 +"CPD0-1314" "uridine-5'-diphosphate bromoacetol" [] "C12H15N2O13P2Br" 537.108 +"CPD0-1315" "uridine-5'-diphosphate chloroacetol" [] "C12H15N2O13P2Cl" 492.657 +"CPD0-1316" "5-fluoro-xylulose" [] "C5H9O4F" 152.122 +"CPD0-1319" "5'-deoxyuridine" [] "C9H12N2O5" 228.204 +"CPD0-1320" "5'-azido-5-deoxyuridine" [] "C9H11N5O5" 269.216 +"CPD0-1321" "5'-iodo-5'-deoxyuridine" [] "C9H11N2O5I" 354.101 +"CPD0-1322" "5'-amino-5'-deoxyuridine" [] "C9H14N3O5" 244.227 +"CPD0-1324" "P1-uridyl-P2-phenyl diphosphate" [] "C15H16N2O12P2" 478.245 +"CPD0-1325" "P1-uridyl-P2-methyl diphosphate" [] "C10H14N2O12P2" 416.174 +"CPD0-1326" "p-(bromoacetamido)phenyl uridyl pyrophosphate" [] "C17H18N3O13P2Br" 614.193 +"CPD0-1327" "5-fluorouracil" [] "C4H3N2O2F" 130.078 +"CPD0-1328" "N-acetylmuramate(alpha-methyl)-L-alanyl-D-glutamate" ["MurNAc(alpha-methyl)-L-Ala-D-Glu"] "C20H31N3O12" 505.478 +"CPD0-1329" "N-acetylmuramate(beta-methyl)-L-alanyl-D-glutamate" ["MurNAc(beta-methyl)-L-Ala-D-Glu"] "C20H31N3O12" 505.478 +"CPD0-1330" "1-phospho-N-acetylmuramoyl-L-alanyl-D-glutamate" ["P1-MurNAc-L-Ala-D-Glu"] "C19H28N3O15P" 569.415 +"CPD0-1331" "dihydrouridine-diphosphate-N-acetylmuramoyl-L-alanyl-D-glutamate" ["DDP-N-acetylmuramoyl-L-alanyl-D-glutamate"] "C28H41N5O23P2" 877.599 +"CPD0-1333" "DDP-N-acetylmuramoyl-L-alanyl-γ-D-glutamyl-meso-2,6-diaminoheptanedioate" [] "C41H63N9O28P2" null +"CPD0-1335" "β-fluoro-L-alanine" [] "C3H6NO2F" 107.084 +"CPD0-1336" "3-nitrilo-L-alanine" ["amino(cyano)acetate"] "C3H3N2O2" 99.069 +"CPD0-1338" "UDP-N-acetyl-β-D-muramate" [] "C20H28N3O19P2" 676.397 +"CPD0-1342" "5-mercaptodeoxyuridine" [] "C9H11N2O5S" 259.256 +"CPD0-1343" "5-bromo-dCTP" [] "C9H11N3O13P3Br" 542.023 +"CPD0-1344" "5-iodo-dCTP" ["5-iododeoxycytidine-5'-triphosphate", "5-iodo-2'-deoxycytidine-5'-triphosphate", "5-iododeoxycytidine triphosphate"] "C9H11N3O13P3I" 589.024 +"CPD0-1345" "hydroxymethyl-dCDP" ["2'-deoxy-5-hydroxymethylcytidine-5'-diphosphate"] "C10H14N3O11P2" 414.182 +"CPD0-1348" "borrelidin" ["treponemycin", "borrelidine", "cyclopentanecarboxylic acid"] "C28H42NO6" 488.643 +"CPD0-1349" "cyclohexane-1,2-dione" ["1,2-cyclohexanedione", "1,2-dioxocyclohexane"] "C6H8O2" 112.128 +"CPD0-1351" "L-threonine amide" [] "C4H11N2O2" 119.143 +"CPD0-1352" "thiamine thiothiazolone diphosphate" ["TTTPP", "thiamine thiothiazolone pyrophosphate", "thiamin thiothiazolone diphosphate"] "C12H15N4O7P2S2" 453.341 +"CPD0-1353" "fluoropyruvate" ["β-fluoropyruvate"] "C3H2O3F" 105.045 +"CPD0-1354" "tetrahydrothiamine diphosphate" ["tetrahydro-TPP", "tetrahydrothiamin pyrophosphate"] "C12H19N4O7P2S" 425.312 +"CPD0-1355" "dichlorocadmium" ["cadmium dichloride"] "CdCl2" 183.306 +"CPD0-1356" "(S)-farnesyl thiopyrophosphate" [] "C15H25O6P2S" 395.366 +"CPD0-1357" "2-iodo-L-isoleucine-NHSO2-AMP" [] "C16H23N6O10PSI" 649.33 +"CPD0-1358" "actinonin" [] "C19H35N3O5" 385.503 +"CPD0-1359" "calpeptin" [] "C20H30N2O4" 362.468 +"CPD0-1360" "4-(4-hydroxyphenoxy)-3,5-diiodophenyl acetate" ["4-(4-hydroxyphenoxy)-3,5-diiodophenyl acetic acid"] "C14H9O4I2" 495.032 +"CPD0-1363" "5-((2-iodoacetamido)ethyl)-1-aminonapthalene sulfate" ["1,5-IAEDANS"] "C14H14N2O4SI" 433.24 +"CPD0-1364" "3-pyridinecarboxaldehyde adenine dinucleotide" [] "C21H26N6O14P2" 648.416 +"CPD0-1366" "carboxin" ["carbathiin", "oxatin"] "C12H13NO2S" 235.3 +"CPD0-1367" "menaquinone-1" ["Vitamin MK 1", "2-methyl-3-(3-methyl-2-butenyl)naphthoquinone", "Lepachol acetate"] "C16H16O2" 240.301 +"CPD0-1370" "α-(2,6-anhydro-3-deoxy-D-arabino-heptulopyranosid)onate 7-phosphate" [] "C7H10O9P" 269.124 +"CPD0-1372" "α-(2,6-anhydro-3-deoxy-D-arabino-heptulopyranosid)onate 7-phosphonate" [] "C7H14O8P" 257.157 +"CPD0-1373" "β-(2,6-anhydro-3-deoxy-D-arabino-heptulopyranosid)onate 7-phosphate" [] "C7H10O9P" 269.124 +"CPD0-1374" "2-O-methyl cyclic 3-deoxy-D-arabino-heptulosonate 7-phosphate" ["DAHP-2-O-methyl glycoside"] "C8H12O10P" null +"CPD0-1375" "S-adenosyl-1,8-diamino-3-thiooctane" [] "C18H33N7O3S" 427.564 +"CPD0-1376" "dicyclohexylamine" [] "C12H24N" 182.328 +"CPD0-1377" "serinamide" [] "C3H9N2O2" 105.116 +"CPD0-1378" "serine hydroxamate" [] "C3H9N2O3" 121.116 +"CPD0-1379" "serine methyl ester" [] "C4H9NO3" 119.12 +"CPD0-1380" "N-benzylglycine" ["N-(phenylmethyl)glycine"] "C9H10NO2" 164.183 +"CPD0-1385" "perchlorate" [] "O4Cl" 99.451 +"CPD0-1386" "3-(sulfanylcarbamoyl)-L-alanine" [] "C4H8N2O3S" 164.179 +"CPD0-1388" "2'-fluoro-dCTP" ["2'-fluoro-2'-deoxycytidine-5'-triphosphate"] "C9H11N3O13FP3" 481.118 +"CPD0-1390" "2'-chloro-dCTP" ["2'-chloro-2'-deoxycytidine-5'-triphosphate"] "C9H11N3O13P3Cl" 497.572 +"CPD0-1391" "2'-azido-dCTP" ["2'-azido-2'-deoxycytidine-5'-triphosphate"] "C9H11N6O13P3" 504.14 +"CPD0-1392" "cisplatin" ["cis-dichlorodiammineplatinum(II)"] "H6N2Cl2Pt" 300.051 +"CPD0-1393" "2'-azido-2'-deoxyuridine-5'-diphosphate" [] "C9H10N5O12P2" 442.152 +"CPD0-1394" "2'-chloro-2'-deoxyuridine-5'-diphosphate" [] "C9H10N2O11P2Cl" 419.585 +"CPD0-1395" "peroxynitrite" [] "NO3" 62.005 +"CPD0-1396" "5'-(dimethylsulfonio)-5'-deoxyadenosine" [] "C12H18N5O3S" 312.366 +"CPD0-1397" "ethylglyoxalbis(guanylhydrazone)" ["EGBG"] "C6H16N8" 200.246 +"CPD0-1398" "methylglyoxalbis(guanylhydrazone)" ["MGBG"] "C5H14N8" 186.219 +"CPD0-1399" "cyanoborohydride" [] "CHNB" 37.838 +"CPD0-1400" "5'-amino-5'-deoxyadenosine" [] "C10H15N6O3" 267.267 +"CPD0-1401" "5'-(aminoiminomethyl)amino-5'-deoxyadenosine" [] "C10H16N9O3" 310.295 +"CPD0-1402" "5'-[(3-aminopropyl)-amino]-5'-deoxyadenosine" [] "C13H23N7O3" 325.37 +"CPD0-1403" "5'-[(3-aminopropyl)methylamino]-5'-deoxyadenosine" [] "C14H25N7O3" 339.397 +"CPD0-1404" "9-[6(RS)-8-diamino-5,6,7,8-tetradeoxy-β-D-ribo-octofuranosyl]-9H-purin-6-amine" [] "C13H23N7O3" 325.37 +"CPD0-1405" "9-[6(RS)-C-carboxamido-5,6,7-trideoxy-β-D-ribo-octofuranosyl]-9H-purin-6-amine" [] "C14H20N6O5" 352.349 +"CPD0-1406" "9-[6(S),9-diamino-5,6,7,8,9-pentadeoxy-β-D-ribo-nonafuranosyl]-9H-purin-6-amine" [] "C14H25N7O3" 339.397 +"CPD0-1407" "isoniazid-NADP" [] "C27H29N8O18P3" 846.49 +"CPD0-1408" "5-deoxypyridoxal" [] "C8H9NO2" 151.165 +"CPD0-1410" "pppApp" ["adenosine-5-triphosphate-3-diphosphate"] "C10H11N5O19P5" 660.088 +"CPD0-1413" "levallorphan" [] "C19H26NO" 284.42 +"CPD0-1414" "tetracycline" [] "C22H24N2O8" 444.44 +"CPD0-1415" "pGpp" ["guanosine 5'-monophosphate,3'-diphosphate"] "C10H11N5O14P3" 518.143 +"CPD0-1421" "potassium dihydrogen phosphate" ["monobasic potassium phosphate", "monopotassium phosphate", "MKP", "KDP", "KH2PO4"] "K(PH2O4)" 136.08499 +"CPD0-1422" "dipalmitoyl phosphatidate" ["PA(16:0/16:0)", "1,2-dihexadecanoyl-sn-glycero 3-phosphate", "1,2-dipalmitoyl-3-sn-phosphatidic acid", "dipalmitoyl phosphatidic acid"] "C35H67O8P" 646.883 +"CPD0-1423" "1-stearoyl-2-stearoyl-sn-glycerol 3-phosphate" ["distearoyl phosphatidic acid", "distearoyl phosphatidate"] "C39H75O8P" 702.99 +"CPD0-1425" "1,2-dimyristoyl-sn-glycerol 3-phosphate" ["dimyristoyl phosphatidic acid", "1,2-ditetradecanoyl-sn-glycerol 3-phosphate", "dimyristoyl phosphatidate"] "C31H59O8P" 590.776 +"CPD0-1426" "pyrithiamine phosphate" ["2-[1-[(4-amino-2-methylpyrimidin-5-yl)methyl]-2-methylpyridin-1-ium-3-yl]ethyl phosphono hydrogen phosphate"] "C14H18N4O4P" 337.294 +"CPD0-1428" "L-phenylalaninol" ["(S)-phenylalaninol", "(S)-2-benzylethanolamine", "(S)-β-aminobenzenepropanol"] "C9H14NO" 152.216 +"CPD0-1430" "2-phenylacetamidine" ["benzeneethanimidamide", "2-phenylethanamidine"] "C8H11N2" 135.188 +"CPD0-1431" "benzylguanidine" ["1-benzylguanidine", "N-benzylguanidine"] "C8H12N3" 150.203 +"CPD0-1432" "N-benzylbenzamidine" [] "C14H15N2" 211.286 +"CPD0-1433" "phenyl-thiazolylurea-sulfonamides" [] "C10H9N4O3S2" 297.326 +"CPD0-1436" "fumagillin" [] "C26H33O7" 457.542 +"CPD0-1437" "UO2+" [] "O2U" 270.028 +"CPD0-1438" "diimidotriphosphate" ["PNPNP"] "H7N2O8P3" 255.985 +"CPD0-1440" "cis-cycloglutamate" ["cis-1-amino-1,3-dicarboxycyclohexane"] "C8H12NO4" 186.187 +"CPD0-1442" "N-α-acetyl lysine methyl ester" [] "C9H19N2O3" 203.261 +"CPD0-1445" "L-alanyl-L-glutamate" ["L-Ala-L-Glu", "Ala-Glu"] "C8H13N2O5" 217.201 +"CPD0-1449" "cumene hydroperoxide" [] "C9H12O2" 152.193 +"CPD0-1454" "3-(phosphonoacetylamido)-L-alanine" [] "C5H10N2O6P" 225.118 +"CPD0-1455" "S-hexylglutathione" [] "C16H28N3O6S" 390.474 +"CPD0-1456" "UDP-N-acetyl-α-D-muramoyl-L-alanine" ["UDP-N-acetyl-α-D-muramyl-L-Ala"] "C23H33N4O20P2" 747.476 +"CPD0-1457" "ethyleneglycol phosphate" ["ethyleneglycol-P"] "C2H5O5P" 140.032 +"CPD0-1458" "1,3-propanediol-P" [] "C3H7O5P" 154.059 +"CPD0-1461" "5'-[p-(fluorosulphonyl)benzoyl]adenosine" [] "C17H16N5O7FS" 453.401 +"CPD0-1463" "a persulfate" [] null null +"CPD0-1464" "ubiquinone-0" ["ubiquinone-Q0", "2-Methyl-4,5-dimethoxy-p-quinone", "CoQ0", "ubiquinone Q0", "ubiquinone-O", "ubiquinone 0", "coenzyme Q0", "2,3-dimethoxy-5-methyl-1,4-benzoquinone", "Q0"] "C9H10O4" 182.176 +"CPD0-1465" "adenosine 5'[β,γ-methylene]triphosphate" ["adenylyl(β,γ-methylene)-diphosphate", "AMP-PCP", "adenylyl methylenediphosphate", "β γ-methylene-ATP"] "C11H14N5O14P3" 533.178 +"CPD0-1467" "gabaculine" ["3-Amino-2,3-dihydrobenzoic acid"] "C7H9NO2" 139.154 +"CPD0-1468" "dXMP" [] "C10H11N4O8P" 346.193 +"CPD0-1470" "guanidinium" ["guanidine", "diaminomethaniminium"] "CH6N3" 60.078 +"CPD0-1471" "6-formylpterin" ["2-amino-4-hydroxy-6-formylpteridine"] "C7H5N5O2" 191.149 +"CPD0-1472" "tetrahydropteroyl-α-glutamylglutamate" ["tetrahydropteroyl-α-glutamylglutamic acid"] "C24H27N8O9" 571.525 +"CPD0-1473" "pteroyl-γ-glutamyl-γ-glutamylglutamate" ["pteroyl-γ-glutamyl-γ-glutamylglutamic acid"] "C29H29N9O12" 695.601 +"CPD0-1474" "5-methyl-tetrahydropteroyl-α-glutamylglutamate" [] "C25H29N8O9" null +"CPD0-1475" "2-chloro-L-alanine" [] "C3H5NO2Cl" 122.531 +"CPD0-1476" "chloral hydrate" [] "C2H3O2Cl3" 165.403 +"CPD0-1477" "dianisidine" [] "C14H16N2O2" 244.293 +"CPD0-1480" "L-tryptophanhydroxamate" ["α-amino-N-hydroxy-1H-Indole-3-propanamide"] "C11H14N3O2" 220.25 +"CPD0-1481" "amiclenomycin" [] "C12H17O2" 193.265 +"CPD0-1482" "S-adenosyl-L-ethionine" [] "C16H25N6O5S" 413.471 +"CPD0-1483" "8-keto-7-aminoperlagonate" ["8-keto-7-aminoperlagonic acid"] "C9H14NO3" 184.214 +"CPD0-1484" "S-adenosyl-L-(2 hydroxyl-4-methylthio)butanoate" ["S-adenosyl-L-(2 hydroxyl-4-methylthio)butyric acid", "S-adenosyl-L-(2 hydroxyl-4-methylthio)butyrate"] "C15H21N5O6S" 399.421 +"CPD0-1485" "7,8-diketopelargonate" ["7,8-diketopelargonic acid"] "C9H13O4" 185.199 +"CPD0-1486" "rCdRP" ["reduced-1-[(2-carboxyphenyl)amino]-1-deoxyribulose 5-phosphate,"] "C12H15NO9P" 348.226 +"CPD0-1487" "5-fluoroanthranilate" ["5-fluoroanthranilic acid"] "C7H5NO2F" 154.12 +"CPD0-1488" "5-methylanthranilate" ["5 - methylanthranilic acid"] "C8H8NO2" 150.157 +"CPD0-1489" "4-methylanthranilate" ["4 - methylanthranilic acid"] "C8H8NO2" 150.157 +"CPD0-1490" "3-methylanthranilate" ["3 -methylanthranilic acid"] "C8H8NO2" 150.157 +"CPD0-1491" "3-amino-1,2,4-triazole" ["Amitrol", "Amitrole", "aminotriazole"] "C2H4N4" 84.08 +"CPD0-1492" "ribavirin-5'-monophosphate" [] "C8H11N4O8P" 322.171 +"CPD0-1493" "3-deaza-GMP" [] "C11H14N4O8P" 361.227 +"CPD0-1496" "sodium arsenite" [] "O2NaAs" 129.91 +"CPD0-1498" "N-amino DAP" [] "C7H14N3O4" 204.205 +"CPD0-1499" "N-hydroxy DAP" [] "C7H13N2O5" 205.19 +"CPD0-1500" "4-methylene diaminopimelate" [] "C8H14N2O4" 202.21 +"CPD0-1501" "(2S,3R,6S)-3-fluoro-2,6-diaminopimelate" ["(2S,3R,6S)-3-fluoro-2,6-diaminopimelic acid"] "C7H13N2O4F" 208.189 +"CPD0-1502" "3-chlorodiaminopimelate" ["3-chlorodiaminopimelic acid"] "C7H13N2O4Cl" 224.644 +"CPD0-1506" "ketodeoxyheptonate" [] "C7H11O8" 223.159 +"CPD0-1507" "O-methylserine" ["3-methoxyalanine", "serine, o-methyl-", "O-methyl-DL-serine"] "C4H9NO3" 119.12 +"CPD0-1508" "5-iodo-2'-dUMP" [] "C9H10N2O8PI" 432.065 +"CPD0-1512" "N-acetylglucosaminolactone" [] "C8H13NO6" 219.194 +"CPD0-1520" "muramate" ["muramic acid", "2-amino-3-O-[(R)-1-carboxyethyl]-2-deoxy-D-glucopyranose", "2-amino-3-O-D-1-carboxyethyl-2-deoxy-D-glucose", "3-O-α-carboxyethyl-D-glucosamine"] "C9H17NO7" 251.236 +"CPD0-1524" "α-oxo-1-carboxy-4-tetrahydrothiopyranpropanoate S-oxide" ["α-oxo-1-carboxy-4-tetrahydrothiopyranpropanoic acid S-oxide"] "C9H10O6S" 246.234 +"CPD0-1525" "α-oxo-1-carboxy-5,6-dihydrothiopyranpropanoate S-oxide" ["α-oxo-1-carboxy-5,6-dihydrothiopyranpropanoic acid S-oxide"] "C9H8O6S" 244.219 +"CPD0-1530" "(2R,3R,6S)-3-fluoro-2,6-diaminopimelate" [] "C7H13N2O4F" 208.189 +"CPD0-1532" "(2S,3S,6S)-3-fluoro-2,6-diaminopimelate" [] "C7H13N2O4F" 208.189 +"CPD0-1533" "(2R,3S,6S)-3-fluoro-2,6-diaminopimelate" [] "C7H13N2O4F" 208.189 +"CPD0-1535" "(2S,3R,6S)-2,6-diamino-3-hydroxydiaminopimelate" [] "C7H14N2O5" 206.198 +"CPD0-1536" "(2R,3S,6S)-2,6-diamino-3-hydroxy-diaminopimelate" [] "C7H14N2O5" 206.198 +"CPD0-1537" "2-(4-amino-4-carboxybutyl)aziridine-2-carboxylate" ["2-(4-amino-4-carboxybutyl)aziridine-2-carboxylic acid", "aziridino-DAP"] "C8H13N2O4" 201.202 +"CPD0-1540" "L-2-amino-2-carboxyethane-sulfonamide" [] "C3H8N2O4S" 168.167 +"CPD0-1541" "5-diazo-4-oxo-norvaline" [] "C5H8N3O3" 158.136 +"CPD0-1544" "7-methyl-L-tryptophan" [] "C12H14N2O2" 218.255 +"CPD0-1545" "penem CGP31608" [] "C9H12N2O4S" 244.265 +"CPD0-1546" "iodinated Bolton and Hunter derivative of ampicillin" [] "C25H25N3O6SI" null +"CPD0-1551" "DL-glyceraldehyde" [] "C3H6O3" 90.079 +"CPD0-1552" "3'-O-(4-benzoyl)-benzoic-adenosine 5'-triphosphate" ["Bz2ATP"] "C24H20N5O15P3" 711.368 +"CPD0-1554" "3-propylphosphoenolpyruvate" [] "C6H8O6P" 207.099 +"CPD0-1555" "3-methylphosphoenolpyruvate" ["phosphoenol-2-oxobutyrate"] "C4H4O6P" 179.046 +"CPD0-1557" "L-dihydrophenylalanine" ["Dihydrophenylalanine", "L-3-(2,5-Cyclohexadienyl)alanine", "1,4-Cyclohexadiene-1-propanoic acid, alpha-amino-, (S)-"] "C9H13NO2" 167.207 +"CPD0-1558" "β-2-thienyl-D,L-Alanine" [] "C7H9NO2S" 171.214 +"CPD0-1561" "selenocysteine" ["3-selenyl-alanine", "D,L-selenocysteine", "selenium-cystine"] "C3H7NO2Se" 168.054 +"CPD0-1562" "DL-selenocystine" ["3,3'-diselenodialanine", "Selenocystine", "3,3'-diselane-1,2-diylbis(2-aminopropanoic acid)"] "C6H12N2O4Se2" 334.092 +"CPD0-1563" "D-cystathionine" [] "C7H14N2O4S" 222.259 +"CPD0-1564" "D-cystine" [] "C6H12N2O4S2" 240.292 +"CPD0-1565" "S-benzyl-D-cysteine" [] "C10H13NO2S" 211.278 +"CPD0-1566" "S-phenyl-D-cysteine" [] "C9H11NO2S" 197.251 +"CPD0-1567" "sn-butyl-D-cysteine" [] "C7H15NO2S" 177.261 +"CPD0-1568" "S-propyl-D-cysteine" [] "C6H13NO2S" 163.234 +"CPD0-1570" "S-methyl-D-cysteine" [] "C4H9NO2S" 135.181 +"CPD0-1571" "L-thiazolidine-4-carboxylate" ["gamma-thioproline", "T4C"] "C4H6NO2S" 132.157 +"CPD0-1572" "L-tetrahydro-2-furoic acid" ["L-THFA"] "C5H7O3" 115.108 +"CPD0-1574" "N10-formyl-2,4-diaminodideazafolate" ["DDF"] "C22H21N5O7" 467.437 +"CPD0-1575" "β-thiogardideazafolate" ["β-TGDDF", "N10 -[5-'phosphoribosyl-1'-β-aminocarbonylmethyl-1-thioacetyl]-5,8-dideazafolate"] "C29H29N6O15PS" 764.613 +"CPD0-1576" "N10-(bromoacetyl)-5,8-dideazafolate" [] "C23H20N5O7Br" 558.344 +"CPD0-1577" "penicillamine" ["2-amino-3-mercapto-3-methylbutyric acid", "3,3-dimethylcysteine", "β-mercaptovaline", "D,L-penicillamine", "DL-3-mercaptovaline"] "C5H11NO2S" 149.207 +"CPD0-1578" "1,2-diaminopropanoate" ["alaninamide", "1,2-diaminopropionic acid", "1,2-diaminopropionate"] "C3H9N2O" 89.117 +"CPD0-1581" "trimethoprim" ["2,4-diamino-5-(3,4,5-trimethoxybenzyl)pyrimidine", "5-[(3,4,5-trimethoxyphenyl)methyl]-2,4-pyrimidinediamine", "Proloprim", "Trimpex"] "C14H18N4O3" 290.321 +"CPD0-1583" "pyrimethamine" [] "C12H14N4Cl" 249.722 +"CPD0-1584" "2,4-diamino-6-ethyl-5,3'-(2-cyclohexylphenoxy)prop-1'-yloxypyrimidine" [] "C23H32N4O3" 412.531 +"CPD0-1585" "2,4-diamino-6-ethyl-5,3'-(2-trifluoromethylphenoxy)prop-1'-yloxypyrimidine" [] "C16H19N4O2F3" 356.347 +"CPD0-1586" "2,4-diamino-6-methyl-5,3'-(3-nitrophenoxy)prop-1'-yloxypyrimidine" [] "C14H19N5O4" 321.335 +"CPD0-1587" "2,4-diamino-6-methyl-5,3'-(2-trifluoromethylphenoxy)prop-1'-yloxypyrimidine" [] "C15H17N4O2F3" 342.32 +"CPD0-1588" "2,4-diamino-6-methyl-5,3'-(3-trifluoromethylphenoxy)prop-1'-yloxypyrimidine" [] "C15H17N4O2F3" 342.32 +"CPD0-1589" "calcium chloride" ["calcium dichloride"] "CaCl2" 110.986 +"CPD0-1590" "1-(p-butylphenyl)-2,2-dimethyl-4,6-diamino-1,2-dihydro-s-triazine" [] "C15H23N5" 273.38 +"CPD0-1591" "5-[[4-methoxy-3-(phenylmethoxy)phenyl]methyl]-2,4-pyrimidinediamine" [] "C19H20N4O2" 336.393 +"CPD0-1592" "barium chloride" ["BaCl2"] "BaCl2" 208.246 +"CPD0-1594" "2,4-diamino-6-ethyl-5,3'-(2-trifluoromethyl-4-sulphonamidophenoxy)prop-1'-yloxypyrimidine" [] "C16H20N5O4F3S" 435.42 +"CPD0-1596" "10-formyl-tetrahydropteroate" [] "C15H15N6O4" null +"CPD0-1598" "moiramide B" [] "C25H31N3O5" 453.537 +"CPD0-1601" "6-azauridine diphosphate" [] "C8H10N3O12P2" 402.127 +"CPD0-1604" "2-hydroxy-3-butynoate" ["2-hydroxy-3-butynoic acid ethyl ester"] "C6H8O3" 128.127 +"CPD0-1605" "4-deoxypyridoxine" ["4-deoxypyridoxol"] "C8H11NO2" 153.18 +"CPD0-1606" "fusidate" ["fusidic acid", "fusidine", "ramycin"] "C31H47O6" 515.709 +"CPD0-1607" "isopropyl 6-O-acetyl-β-D-thiogalactopyranoside" [] "C11H20O6S" 280.335 +"CPD0-1608" "manganese(II) sulfate" ["MnSO4", "manganous sulfate"] "Mn(SO4)" 150.996 +"CPD0-1609" "1,10-phenanthroline N10-oxide" [] "C12H8N2O" 196.208 +"CPD0-1610" "NaCN" ["Sodium Cyanide", "cyanide salts"] "CNNa" 49.007 +"CPD0-1612" "4-deoxy-D-glucarate" [] "C6H8O7" 192.125 +"CPD0-1613" "xylarohydroxamate" [] "C5H8NO7" 194.121 +"CPD0-1614" "2-methylaspartate" ["α-methyl-DL-aspartate"] "C5H8NO4" 146.122 +"CPD0-1615" "2-amino-3-phosphonopropanoate" ["DL-2-amino-3-phosphonopropanoate", "3-phosphonoalanine", "phosphonoalanine", "2-amino-3-phosphonopropionate"] "C3H7NO5P" 168.066 +"CPD0-1616" "S-2,3-dicarboxyaziridine" [] "C4H5NO4" 131.088 +"CPD0-1617" "N-(phosphonacetyl)-L-aspartate" [] "C6H7NO8P" 252.097 +"CPD0-1618" "aurovertin B" [] "C25H32O8" null +"CPD0-1620" "efrapeptin F" [] "C82H141N18O16" null +"CPD0-1624" "fluoroaluminate" ["Tetrafluoroaluminate anion"] "F4Al" 102.974 +"CPD0-1625" "methylene blue" ["basic blue 9", "methylene blue anhydrous"] "C16H18N3S" 284.398 +"CPD0-1626" "acetazolamide" [] "C4H6N4O3S2" 222.236 +"CPD0-1627" "6-diazo-5-oxonorleucine" ["6-diazo-5-oxo-norleucine", "DON", "diazooxonorleucine", "6-diazo-5-oxo-L-norleucine"] "C6H10N3O3" 172.163 +"CPD0-1629" "digitonin" ["digitin"] "C56H92O29" 1229.325 +"CPD0-1630" "ADP-diglyceride" [] null null +"CPD0-1631" "A9145C" [] "C15H22N7O5" 380.383 +"CPD0-1633" "hydroxyquinoline N oxide" [] "C9H7NO2" 161.16 +"CPD0-1634" "MgATP2-" [] "Mg(C10P3N5H12O13)" 527.45703 +"CPD0-1635" "formycin 5'-PO4" [] "C10H12N5O7P" 345.208 +"CPD0-1636" "trifluoroalanine" [] "C3H3NO2F3" 142.057 +"CPD0-1641" "N-α-acetyl-DL-norvaline" [] "C7H13NO3" 159.185 +"CPD0-1642" "2-nitro-5-thiocyanobenzoate" ["2-Nitro-5-thiocyanobenzoic acid"] "C8H3N2O4S" 223.183 +"CPD0-1643" "N-acetyl-α-D-muramate 1-phosphate" ["N-acetylmuramic acid 1-phosphate", "N-acetylmuraminate 1-phosphate"] "C11H17NO11P" 370.229 +"CPD0-1646" "α-D-galactosamine-1-phosphate" ["Galn-1-P", "2-amino-2-deoxy-1-O-phosphono-D-galactopyranose"] "C6H13NO8P" 258.144 +"CPD0-1647" "8-aminoethyl-2,6-anhydro-3,8-dideoxy-D-glycero-D-talo-octonate" ["8-aminoethyl-2,6-anhydro-3,8-dideoxy-D-glycero-D-talo-octonic acid"] "C8H15NO6" 221.21 +"CPD0-1650" "2-amino-3-(phosphomethylphosphinyl)propanoate" ["2-amino-4-[(phosphonomethyl)hydroxy-phosphinyl]butanoate"] "C4H9NO7P2" 245.065 +"CPD0-1651" "MgADP" [] "Mg(C10P2N5H12O10)" 448.485 +"CPD0-1652" "4-methylpyrazole" ["Antizol", "4-Methylpyrazol", "4-methyl-1H-pyrazole"] "C4H6N2" 82.105 +"CPD0-1653" "N(6)-methylformycin A" [] "C11H15N5O4" 281.271 +"CPD0-1655" "mannonic amide" ["D-Mannonic amide", "D-Mannonamide"] "C6H13NO6" 195.172 +"CPD0-1656" "glucuronamide" ["D-glucuronic amide", "Guronamin", "D-Glucuronic acid amide", "2,3,4,5-tetrahydroxy-6-oxo-hexanamide"] "C6H11NO6" 193.156 +"CPD0-1659" "α -allenylagmatine" ["AA"] "C8H16N4" 168.241 +"CPD0-1660" "α -ethynylagmatine" ["EA"] "C7H14N4" 154.214 +"CPD0-1661" "α-monofluoromethylagmatine" ["FMA"] "C6H15N4F" 162.21 +"CPD0-1662" "α-monofluoromethylarginine" ["MFMA"] "C7H15N4O2F" 206.219 +"CPD0-1663" "α-difluoromethylarginine" ["DFMA"] "C7H14N4O2F2" 224.21 +"CPD0-1664" "(E)-α-monofluoromethyldehydroarginine" ["delta-MFMA", "(E)-α-monofluoromethyl-3,4-dehydroarginine"] "C7H14N4O2F" 205.212 +"CPD0-1666" "methyl-D-glucoside" [] "C7H14O6" 194.184 +"CPD0-1667" "phenyl-β-D-glucoside" [] "C12H16O6" 256.255 +"CPD0-1668" "phenyl-α-D-glucoside" [] "C12H16O6" 256.255 +"CPD0-1669" "β -methyl maltoside" [] "C13H24O11" 356.326 +"CPD0-1673" "carboxymethyl-CoA" ["carboxymethyl-coenzyme A", "s-(carboxymethyl)-coenzyme A"] "C23H33N7O18P3S" 820.531 +"CPD0-1675" "butyrylcholine" [] "C9H20NO2" 174.262 +"CPD0-1676" "tetramethylammonium hydroxide" ["TMAH"] "(HO)(C4NH12)" 91.15199 +"CPD0-1678" "trimethylacetaldehyde" [] "C5H10O" 86.133 +"CPD0-1681" "cycloheptadienyl" [] "C11H10O5" 222.197 +"CPD0-1682" "dioxane" [] "C4H8O2" 88.106 +"CPD0-1683" "phosphoenol-2-oxobutanoate" ["phosphoenol-2-oxobutyrate"] "C4H6O6P" 181.062 +"CPD0-1684" "N1, N12-bis(ethyl)spermine" ["BESPM"] "C14H38N4" 262.481 +"CPD0-1685" "N1, N8-bis(ethyl)spermidine" ["BESPD"] "C13H28N3O2" 258.383 +"CPD0-1686" "stigmatellin" ["stigmatellin A"] "C30H42O7" 514.658 +"CPD0-1689" "3-undecyl-2-hydroxyl-1,4-naphthoquinone" ["UHNQ"] "C22H30O2" 326.478 +"CPD0-1690" "L-indospicine" [] "C7H16N3O2" 174.222 +"CPD0-1691" "O-[L-norvalyl-5]-isourea" ["L-Norvaline, 5-(aminoiminomethoxy)-"] "C6H14N3O3" 176.195 +"CPD0-1692" "sulfometuron methyl" [] "C15H15N4O5S" 363.367 +"CPD0-1693" "iron(III) chloride" ["FeCl3", "iron trichloride", "ferric chloride"] "FeCl3" 162.206 +"CPD0-1694" "iron dichloride" ["FeCl2", "ferrous chloride"] "FeCl2" 126.753 +"CPD0-1695" "cobalt chloride" ["CoCl2", "cobalt dichloride", "cobalt muriate", "cobaltous chloride", "cobaltous chloride anhydrous", "dichlorocobalt"] "CoCl2" 129.836 +"CPD0-1696" "nickel sulphate" ["NiSO4"] "Ni(SO4)" 154.758 +"CPD0-1699" "6-carboxy-5,6,7,8-tetrahydropterin" ["6-carboxytetrahydropterin"] "C7H8N5O3" 210.172 +"CPD0-1700" "dehydrolysine" ["4,5-trans-dehydrolysine"] "C6H12N2O2" 144.173 +"CPD0-1701" "aminoethylserine" [] "C5H12N2O3" 148.161 +"CPD0-1708" "5-chloro-2-propyl-3-[2''-(1H-tetrazol-5-ylmethyl)-[1,1',4',1'']terphenyl-4-yl]-3H-imidazo[4,5-b]pyridine" [] "C29H23N7Cl" 505.001 +"CPD0-1711" "5-(chloromercuri)cytidine" [] "C9H12N3O5ClHg" 478.254 +"CPD0-1712" "5-mercuriocytidine" [] "C9H12N3O5Hg" 442.801 +"CPD0-1716" "2-amino-6-hydroxymethyl-7,7-dimethyl-7,8-dihydropteridin-4-one" [] "C9H13N5O2" 223.234 +"CPD0-1717" "2-amino-6-carboxamido-7,8-dihydropteridin-4-one" [] "C7H8N6O2" 208.179 +"CPD0-1718" "7,8-dihydropterin" ["dihydropterin", "H2-pterin"] "C6H7N5O" 165.154 +"CPD0-1719" "TsaD degradation products" ["YgjD degradation products"] null null +"CPD0-1720" "2-dimethylbutanoyl-S-methyl-mercaptopropanoate" ["DMB-S-MMP", "dimethylbutyryl-S-methyl mercaptopropionate"] "C10H18O3S" 218.31 +"CPD0-1759" "sn-1,2-di(2-propylpentanoyl)glycerol" ["di(2-propylC5)"] "C19H36O5" 344.49 +"CPD0-1760" "1,2-dioctanoyl-1,2,4-butanetriol" ["diC8-butanetriol"] "C20H38O5" 358.517 +"CPD0-1761" "1,2-dioctanoyl-1,2,6-hexanetriol" ["diC8-hexanetriol"] "C22H42O5" 386.571 +"CPD0-1762" "1,2-dioctanoyl-1,2,3-butanetriol" ["3-methyl-diC8"] "C20H38O5" 358.517 +"CPD0-1763" "1,2-dioctanoyl-3-methyl-1,2,3-butanetriol" ["3,3,-dimethyl-diC8"] "C21H40O5" 372.544 +"CPD0-1807" "2,3-dioctanoylglyceramide" ["diC8-glyceramide"] "C19H35NO5" 357.489 +"CPD0-1808" "1,2-dioctanoyl-1-amino-2,3-propanediol" ["diC8 1-amide"] "C19H37NO4" 343.506 +"CPD0-1809" "1,2-di-S-octyl-1,2-dimercapto-3-propanol" ["diC8 thioether"] "C19H40OS2" 348.644 +"CPD0-181" "N5-carboxyaminoimidazole ribonucleotide" ["5-carboxyamino-1-(5-phospho-D-ribosyl)imidazole", "5-phosphoribosyl-5-carboxyaminoimidazole", "N5-CAIR"] "C9H11N3O9P" 336.174 +"CPD0-1810" "1,2-di-O-octylglycerol" ["diC8 ether"] "C19H40O3" 316.523 +"CPD0-1811" "1-monopalmitoylethylene glycol" ["mono-C16-EG"] "C18H36O3" 300.481 +"CPD0-1812" "2-oleoylglycerol" ["2-mono-C18:1", "2-monoolein", "2-monooleoylglycerol", "2-glyceryl monooleate", "1,3-dihydroxypropan-2-yl oleate", "2-(9Z)-octadecenoylglycerol"] "C21H40O4" 356.545 +"CPD0-1815" "1,3-dioctanoylglycerol" ["1,3-diC8"] "C18H34O5" 330.464 +"CPD0-1816" "1,3-dioctanoyl-1,2,3-butanetriol" ["3-methyl-1,3-diC8"] "C20H38O5" 358.517 +"CPD0-1882" "cytidylyl molybdenum cofactor (dioxo)" ["MCD", "MoO2Dtpp-mCDP", "Mo(VI)-molybdopterin cytosine dinucleotide", "MoO2-molybdopterin cytosine dinucleotide"] "C19H22N8O15P2S2Mo" 824.435 +"CPD0-1883" "5'-O-[N-(L-glutamyl)-sulfamoyl] adenosine" [] "C15H19N7O9S" 473.417 +"CPD0-1884" "glutamyl-β-ketophosphonate-adenosine" [] "C16H22N6O9P" 473.358 +"CPD0-1885" "2-hydroxyethyldisulfide" ["dithiodiglycol"] "C4H10O2S2" 154.242 +"CPD0-1888" "a bulgecin" [] null null +"CPD0-1889" "desulfo-CoA" [] "C18H27N6O15P3" 660.364 +"CPD0-1891" "γ-Glu-Ala-Gly-CHO" [] "C10H17N3O5" 259.261 +"CPD0-1898" "UDP-α-D-fucopyranose" ["UDP-6-deoxy-α-D-galactose"] "C15H22N2O16P2" 548.29 +"CPD0-1899" "reduced 3-acetylpyridine adenine dinucleotide" ["AcNADH"] "C22H29N6O14P2" 663.45 +"CPD0-1900" "DL-p-phenylalanine" ["p-Fluorophenylalanine"] "C9H10NO2F" 183.182 +"CPD0-1901" "DL-o-phenylalanine" [] "C9H10NO2F" 183.182 +"CPD0-1905" "8-oxo-dGTP" ["7,8-dihydro-8-oxo-2'-dGTP", "2'-deoxy-7,8-dihydro-8-oxo-guanosine 5'-triphosphate"] "C10H12N5O14P3" 519.151 +"CPD0-1906" "FMDP-L-leucine" ["3-{[(2E)-4-methoxy-4-oxobut-2-enoyl]amino}alanyl-L-leucine", "FMDP-L-Leu"] "C14H23N3O6" 329.352 +"CPD0-1907" "L-lysyl-FMDP" ["L-lysyl-3-{[(2E)-4-methoxy-4-oxobut-2-enoyl]amino}alanine"] "C14H25N4O6" 345.375 +"CPD0-1908" "L-methionyl-FMDP" ["L-methionyl-3-{[(2E)-4-methoxy-4-oxobut-2-enoyl]amino}alanine"] "C13H21N3O6S" 347.385 +"CPD0-1909" "L-norvalyl-FMDP" ["nva-FMDB", "norvalyl-N(3)-(4-methoxyfumaroyl)-2,3-diaminopropionic acid"] "C13H21N3O6" 315.325 +"CPD0-1910" "FMDP-L-phenylalanine" ["3-{[(2E)-4-methoxy-4-oxobut-2-enoyl]amino}alanyl-L-phenylalanine", "FMDP-L-Phe"] "C17H21N3O6" 363.369 +"CPD0-1911" "FMDP-L-valine" ["L-valyl-3-{[(2E)-4-methoxy-4-oxobut-2-enoyl]amino}alanine"] "C13H21N3O6" 315.325 +"CPD0-1913" "L-tyrosyl-FMDP" ["L-tyrosyl-N(3)-(4-methoxyfumaroyl)-2,3-diaminopropanoate"] "C17H21N3O7" 379.369 +"CPD0-1914" "glycylsarcosine" ["N-Glycylsarcosine", "Gly-Sar"] "C5H10N2O3" 146.146 +"CPD0-1915" "L-lysyl-L-aminoxyalanine" ["Lys-aminoxyAla"] "C9H20N3O4" null +"CPD0-1916" "L-alanyl-L-α-thiophenylglycine" [] "C11H14N2O3S" 254.303 +"CPD0-1918" "AsSb2H3O6" [] "H3O6AsSb2" 417.462 +"CPD0-1919" "Sb3H3O6" [] "H3O6Sb3" 464.3 +"CPD0-1920" "As2SbH3O6" [] "H3O6As2Sb" 370.623 +"CPD0-1921" "an N3-propylcytosine in DNA" [] null null +"CPD0-1922" "an N1-propyladenine in DNA" [] null null +"CPD0-1923" "an N3-hydroxyethylcytosine in DNA" [] null null +"CPD0-1924" "an N3-hydroxypropylcytosine in DNA" [] null null +"CPD0-1925" "an N1-hydroxyethyladenine in DNA" [] null null +"CPD0-1926" "an N1-hydroxypropyladenine in DNA" [] null null +"CPD0-1927" "1,N6-ethenoadenine" ["1-N6-ethenoadenine", "1H-imidazo[2,1-i]purine", "ethenoadenine"] "C7H5N5" 159.15 +"CPD0-1929" "3-ethylcytosine" [] "C6H9N3O" 139.157 +"CPD0-1930" "N3-methylthymine" [] "C6H8N2O2" 140.141 +"CPD0-1931" "3,N4-ethenocytosine" ["epsilonC", "εC", "3,N(4)-ethenocytosine"] "C6H5N3O" 135.125 +"CPD0-1932" "1-methylguanine" ["N1-methylguanine", "2-amino-1-methyl-1,9-dihydro-6H-purin-6-one"] "C6H7N5O" 165.154 +"CPD0-1936" "3-deoxy-D-glucose" [] "C6H12O5" 164.158 +"CPD0-1937" "3-O-methyl-D-glucose" ["methylglucose", "3-methyl-glucose"] "C7H14O6" 194.184 +"CPD0-1938" "ethidium" ["ethidium cation", "homidium"] "C21H20N3" 314.409 +"CPD0-1939" "hoechst 33342" ["Hoe 33342", "2'-(4-ethoxyphenyl)-5-(4-methyl-1-piperazinyl)-2,5'-bi-1H-benzimidazole", "2'-(4-ETHOXYPHENYL)-5-(4-METHYL-1-PIPERAZINYL)-2,5'-BI-BENZIMIDAZOLE", "2'-(p-ethoxyphenyl)-5-(4-methyl-1-piperazinyl)-2,5'-bibenzimidazole"] "C27H28N6O" 452.558 +"CPD0-1940" "DL-methionine sulfone" ["2-amino-4-(methylsulfonyl)butanoic acid", "(S)-amino-4-(methylsulphonyl)butyric acid", "DL-2-amino-4-(methylsulfonyl)butanoic acid", "(2S)-2-amino-4-methylsulfonylbutanoic acid", "butanoic acid, 2-amino-4-(methylsulfonyl)-"] "C5H11NO4S" 181.206 +"CPD0-1941" "4-aza-DL-leucine" [] "C5H12N2O2" 132.162 +"CPD0-1942" "(S)-2-aminobutanoate" ["L-α-amino-n-butyric acid", "(-)-2-aminobutyric acid", "L-2-aminobutyrate", "L-(+)-2-aminobutyric acid", "L-butyrine", "L-2-aminobutyric acid", "L-α-amino-n-butyrate", "L-α-aminobutyric acid", "L-α-aminobutyrate"] "C4H9NO2" 103.121 +"CPD0-1944" "L-alanyl-D-aspartate" ["L-Ala-D-Asp"] "C7H11N2O5" 203.174 +"CPD0-1945" "L-Ala-D-Gln" [] "C8H15N3O4" 217.224 +"CPD0-1946" "L-Ala-D-Met" [] "C8H16N2O3S" 220.286 +"CPD0-1950" "DL-norvaline" ["2-aminovalerate", "2-aminopentanoic acid", "2-aminovalerianic acid", "2-aminopentanoate", "2-aminovaleric acid", "DL-2-aminopentanoic acid", "α-DL-aminopentanoic acid", "DL-2-aminovaleric acid", "2-amino-pentanoic acid", "α-amino-N-valerate", "α-amino-N-valeric acid"] "C5H11NO2" 117.147 +"CPD0-1951" "3-mercapto-1,2-propanediol" ["alpha-monothioglycerol", "1-Thioglycerol"] "C3H8O2S" 108.155 +"CPD0-1952" "(R)-2-aminobutanoate" ["D-α-amino-N-butyrate", "D-2-aminobutyrate", "D-α-aminobutyric acid", "(R)-2-aminobutanoic acid", "D-(-)-2-aminobutyric acid", "D-2-aminobutyric acid", "D-2-aminobutanoate"] "C4H9NO2" 103.121 +"CPD0-1953" "3-chloro-1,2-propanediol" [] "C3H7O2Cl" 110.54 +"CPD0-1957" "2-(1,3-dioxoisoindolin-2-yl)ethanesulfonate" ["1,3-dioxo-2-isoindolineethanesulfonic acid", "1,3-dioxo-2-isoindolineethanesulfonate"] "C10H8NO5S" 254.237 +"CPD0-1958" "3-(N-morpholino)propanesulfonate" ["3-(N-morpholino)propanesulfonic acid", "MOPS", "morpholinopropane sulfonic acid"] "C7H14NO4S" 208.252 +"CPD0-1959" "methionine S-oxide" ["DL-methionine sulfoxide", "methionine sulfoxide"] "C5H11NO3S" 165.207 +"CPD0-1961" "4-methylmorpholine N-oxide" [] "C5H12NO2" 118.155 +"CPD0-1965" "Nα,Nε-diacetyl-lysyl-D-alanyl-D-alanine" ["Ac2-Lys-Ala-Ala", "Ac2-Lys-D-Ala-D-Ala", "diacetyl-lysyl-D-alanyl-D-alanine"] "C16H28N4O6" null +"CPD0-1966" "Nα,Nε-diacetyl-L-lysyl-D-alanyl-D-lactate" ["DiAc-L-Lys-D-Ala-D-Lac", "diacetyl-L-Lys-D-Ala-D-Lac", "diacetyl-L-lysyl-D-alanyl-D-lactate"] "C16H26N3O7" null +"CPD0-2009" "Mo6+" ["molybdenum(6+)", "MOLYBDENUM(VI) ION", "Molybdenum, ion (Mo(6+))"] "Mo" 95.94 +"CPD0-2012" "α-picoline N-oxide" ["2-Picoline-N-oxide", "Picoline N-oxide", "2-Methylpyridine 1-oxide"] "C6H7NO" 109.127 +"CPD0-2013" "adenosine-N-oxide" ["9-pentofuranosyl-9H-purin-6-amine 1-oxide", "2-(6-Amino-1-oxy-purin-9-yl)-5-hydroxymethyl-tetrahydro-furan-3,4-diol"] "C10H13N5O5" 283.243 +"CPD0-2015" "N-acetyl-L-methionine" ["N-acetylmethionine"] "C7H12NO3S" 190.237 +"CPD0-2017" "N-α-acetyl-arginine" [] "C8H16N4O3" 216.239 +"CPD0-2018" "5-methylcytosine" ["Cytosine, 5-methyl-", "2(1H)-Pyrimidinone, 4-amino-5-methyl-", "Cytosine, 5-methyl- (VAN)"] "C5H7N3O" 125.13 +"CPD0-2019" "2β-deoxy Kdo" [] "C8H14O7" 222.194 +"CPD0-2020" "4-amino-2-trifluoromethyl 5-hydroxymethylpyrimidine pyrophosphate" ["CF3-HMP-PP"] "C6H5N3O7F3P2" 350.064 +"CPD0-2021" "bacimethrin pyrophosphate" ["MeO-HMP-PP", "4-amino-2-methoxy-5-hydroxymethylpyrimidine pyrophosphate"] "C6H8N3O8P2" 312.092 +"CPD0-2022" "2'-methoxythiamine pyrophosphate" ["MeO-TPP"] "C12H16N4O8P2S" 438.288 +"CPD0-2023" "γ-thiomethyl glutamate" [] "C6H11NO4S" 193.217 +"CPD0-2026" "3'-deoxyadenosine 5'-monophosphate" ["3'-dAMP", "3'-deoxyadenosine 5'-phosphate"] "C10H12N5O6P" 329.208 +"CPD0-2028" "p-chlorophenylglyoxal" [] "C8H5O2Cl" 168.579 +"CPD0-2029" "keto-ω-methylpantoyl lactone" ["2-keto-4-hydroxy-3,3-dimethylvaleric acid-gamma-lactone"] "C6H8O4" null +"CPD0-2030" "glycerophosphoserine" [] "C6H13NO8P" 258.144 +"CPD0-2032" "DL-glyceraldehyde 3-phosphate" [] "C3H5O6P" 168.043 +"CPD0-2036" "a dCDP-diacylglycerol" [] null null +"CPD0-2038" "fluorofumarate" ["monofluorofumarate", "2-butenedioic acid, 2-fluoro-, (Z)-", "fluorofumaric acid"] "C4H3O4F" 134.064 +"CPD0-2039" "antimonous acid" ["Sb(OH)3", "stiborous acid", "trihydroxyantimonite", "H3SbO3"] "H3O3Sb" 172.782 +"CPD0-2040" "arsenous acid" ["As(OH)3", "H3AsO3", "trihydroxyarsenite(III)"] "H3O3As" 125.943 +"CPD0-2041" "imidodiphosphate" ["Imidodiphosphoric acid", "imido-diP", "imidodiphosphoric acid", "imido-di-P"] "H2NO6P2" 173.966 +"CPD0-2049" "6-deoxy-D-sorbose" [] "C6H12O5" 164.158 +"CPD0-2051" "6,7-dihydroneopterin" ["quinonoid dihydro-(6H)-neopterin"] "C9H13N5O4" 255.233 +"CPD0-2053" "ethylpyruvate" [] "C5H8O3" 116.116 +"CPD0-2054" "ethylthioacetoacetate" [] "C6H10O3S" 162.203 +"CPD0-2055" "5-(p-hydroxyphenyl)hydantoin" ["5-(4-hydroxyphenyl)-2,4-imidazolidinedione", "5-(4-hydroxyphenyl)imidazolidine-2,4-dione"] "C9H8N2O3" 192.174 +"CPD0-2056" "norophthalmate" ["(γ-L-glutamyl-L-alanyl-glycine", "N-{(2S)-1-[(carboxymethyl)amino]-1-oxopropan-2-yl}-L-glutamine", "norophthalmic acid", "γ-L-glutamyl-L-alanyl-glycine", "norophthalamic acid", "γ-Glu-Ala-Gly", "N-(N-γ-L-glutamyl-L-alanyl)-glycine"] "C10H16N3O6" 274.253 +"CPD0-2058" "hydroxyporphobilinogen" [] "C10H11NO5" 225.201 +"CPD0-2059" "2,3,4-trihydroxybenzoate" ["pyrogallolcarboxylate", "4-pyrogallolcarboxylic acid"] "C7H6O5" 170.121 +"CPD0-2060" "2,6-diaminopurine" [] "C5H8N6" 152.158 +"CPD0-2061" "ubiquinol-1" ["ubiquinol(1)"] "C14H20O4" 252.31 +"CPD0-2062" "p-nitrophenyl-α-D-glucopyranoside" ["4-nitrophenyl-α-D-glucopyranoside", "PNG", "pNPαGlu"] "C12H15NO8" 301.252 +"CPD0-2064" "(11S)-11-hydroperoxylinoleate" ["11-hydroperoxyoctadeca-9,12-dienoic acid", "(9Z,12Z)-(11S)-11-hydroperoxyoctadeca-9,12-dienoate", "(11S)-11-hydroperoxylinoleic acid", "(9Z,11S,12Z)-11-hydroperoxyoctadeca-9,12-dienoate"] "C18H31O4" 311.44 +"CPD0-2065" "enalapril" ["Enalaprila", "Kinfil", "Bonuten", "Enalaprilum", "Renitek"] "C20H28N2O5" 376.452 +"CPD0-2066" "cefamandole" ["(6R,7R)-7-[[(2R)-2-hydroxy-2-phenylacetyl]amino]-3-[(1-methyltetrazol-5-yl)sulfanylmethyl]-8-oxo-5-thia-1-azabicyclo[4.2.0]oct-2-ene-2-carboxylic acid"] "C18H18N6O5S2" 462.497 +"CPD0-2067" "captopril" ["D-3-mercapto-2-methylpropionylproline", "D-2-methyl-3-mercaptopropanoyl-L-proline", "(2S)-1-(3-mercapto-2-methylpropionyl)-L-proline", "(2S)-1-[(2S)-2-methyl-3-sulfanylpropanoyl]pyrrolidine-2-carboxylic acid"] "C9H15NO3S" 217.282 +"CPD0-2068" "cephradine" ["Anspor", "Eskacef", "(6R,7R)-7-{[(2R)-2-amino-2-cyclohexa-1,4-dien-1-ylacetyl]amino}-3-methyl-8-oxo-5-thia-1-azabicyclo[4.2.0]oct-2-ene-2-carboxylic acid", "Sefril"] "C16H19N3O4S" 349.404 +"CPD0-2069" "cefuroxime" ["(6R,7R)-3-[(carbamoyloxy)methyl]-7-{[(2Z)-2-furan-2-yl-2-(methoxyimino)acetyl]amino}-8-oxo-5-thia-1-azabicyclo[4.2.0]oct-2-ene-2-carboxylic acid"] "C16H15N4O8S" 423.376 +"CPD0-2070" "cefadroxil" ["(6R,7R)-7-{[(2R)-2-amino-2-(4-hydroxyphenyl)acetyl]amino}-3-methyl-8-oxo-5-thia-1-azabicyclo[4.2.0]oct-2-ene-2-carboxylic acid", "5-Thia-1-azabicyclo(4.2.0)oct-2-ene-2-carboxylic acid, 7-(((2R)-amino(4-hydroxyphenyl)acetyl)amino)-3-methyl-8-oxo-, (6R,7R)-"] "C16H17N3O5S" 363.387 +"CPD0-2071" "alafosfalin" ["((1R)-1-((2S)-2-aminopropionamido)ethyl)phosphonic acid", "(1R)-1-(L-alanylamino)ethylphosphonic acid", "L-alanyl-L-1-aminoethylphosphonic acid"] "C5H12N2O4P" 195.135 +"CPD0-2072" "β-alanyl-L-lysyl-N-ε-7-amino-4-methylcoumarin-3-acetate" ["beta-alanyl-lysyl-AMCA", "β-alanyl-L-lysyl-N-ε-7-amino-4-methylcoumarin-3-acetic acid"] "C22H29N3O6" 431.488 +"CPD0-2073" "N-(4-nitrobenzyloxycarbonyl)-L-lysyl-L-proline" ["L-lysyl-{Z-nitro]-L-proline"] "C19H26N4O7" null +"CPD0-2074" "1-hexanesulfonate" ["hexanesulfonic acid", "hexane-1-sulfonate"] "C6H13O3S" 165.227 +"CPD0-2075" "1-pentanesulfonate" ["Pentanesulfonic acid", "pentane-1-sulfonate"] "C5H11O3S" 151.2 +"CPD0-2076" "UDP-diglyceride" [] null null +"CPD0-2077" "α-methyl-glutamate" [] "C6H11NO4" 161.157 +"CPD0-2079" "3-hydroxy-D-aspartate" [] "C4H6NO5" 148.095 +"CPD0-2080" "arabinouracil 5'-monophosphate" ["aUMP"] "C9H11N2O9P" 322.168 +"CPD0-2082" "nicotinic acid N-oxide" [] "C6H4NO3" 138.102 +"CPD0-2083" "nicotinamide N-oxide" ["3-Pyridinecarboxamide, 1-oxide"] "C6H6N2O2" 138.126 +"CPD0-2084" "3-picoline N-oxide" ["β-Picoline N-oxide", "3-Methylpyridine N-oxide"] "C6H7NO" 109.127 +"CPD0-2085" "4-picoline N-oxide" ["Pyridine, 4-methyl-, 1-oxide", "γ-Picoline N-oxide"] "C6H7NO" 109.127 +"CPD0-2086" "adenosine-N1-oxide" [] "C10H13N5O5" 283.243 +"CPD0-2087" "pyridine-N-oxide" ["pyridine oxide", "pyridine 1-oxide", "pyridine N-oxide perchlorate"] "C5H6NO" 96.108 +"CPD0-2088" "picolinic acid-N-oxide" ["2-Pyridinecarboxylic acid, 1-oxide", "Picolinic acid 1-oxide"] "C6H4NO3" 138.102 +"CPD0-2089" "phenyl sulfoxide" ["Diphenyl sulfoxide", "Phenylsulfinylbenzene", "1,1'-sulfinyldibenzene"] "C12H10OS" 202.27 +"CPD0-2090" "methyl phenyl sulfoxide" ["Thioanisole S-oxide", "Sulfoxide, methyl phenyl", "methylsulfinyl-benzene", "Benzene, (methylsulfinyl)-"] "C7H8OS" 140.2 +"CPD0-2094" "cis-6,7-dihydro-6-7-dimethylpterin" ["cis-6-7-dimethyldihydro-(6H)-pterin"] "C8H11N5O" null +"CPD0-2095" "6,7-dihydro-6-methyl-pterin" ["6-methyldihydro-(6H)-pterin"] "C7H9N5O" null +"CPD0-2096" "6,7-dihydromonapterin" ["dihydro-(6H)-monapterin"] "C9H13N5O4" null +"CPD0-2099" "3,4,-dihydroxybutylphosphonate" [] "C4H10O5P" 169.094 +"CPD0-2101" "5,6,7,8-tetrahydromonapterin" ["H4-MPt", "tetrahydromonapterin"] "C9H15N5O4" 257.249 +"CPD0-2102" "succinate semialdehyde-thiamine diphosphate" ["succinate-semialdehyde-thiamin PPi"] "C16H22N4O10P2S" 524.378 +"CPD0-2105" "3-oxododecanoyl-CoA" ["3-ketododecanoyl-CoA", "3-oxolauroyl-CoA"] "C33H52N7O18P3S" 959.791 +"CPD0-2106" "3-oxooctanoyl-CoA" [] "C29H44N7O18P3S" 903.684 +"CPD0-2107" "(S)-3-hydroxydodecanoyl-CoA" [] "C33H54N7O18P3S" 961.807 +"CPD0-2108" "(2E)-oct-2-enoyl-CoA" ["(2E)-octenoyl-CoA", "trans-2-octenoyl-coenzyme A", "trans-oct-2-enoyl-CoA"] "C29H44N7O17P3S" 887.685 +"CPD0-2113" "1-stearoyl-sn-glycerol 3-phosphate" ["1-octadecanoyl-sn-glycerol 3-phosphate"] "C21H41O7P" 436.524 +"CPD0-2114" "Fe(III) hydroxamate" ["Fe(III)hydroxamic acid", "iron(III) hydroxamates"] null null +"CPD0-2117" "(2E)-hexadecenoyl-CoA" ["trans-2-hexadecenoyl-CoA", "trans-hexadec-2-enoyl-CoA"] "C37H60N7O17P3S" 999.899 +"CPD0-2121" "(2E)-hexenoyl-CoA" ["hexenoyl-CoA", "trans-hex-2-enoyl-CoA", "trans-2-hexenoyl-CoA"] "C27H40N7O17P3S" 859.631 +"CPD0-2122" "a1-tetradec-7-enoyl-sn-glycerol 3-phosphate" [] "C17H31O7P" 378.401 +"CPD0-2123" "3-oxodecanoyl-CoA" [] "C31H48N7O18P3S" 931.738 +"CPD0-2124" "ferroxamine" [] "C25H45N6O8Fe" 613.513 +"CPD0-2133" "2-acyl-sn-glycero-3-phosphoglycerol (n-C18:0)" [] "C24H48O9P" 511.612 +"CPD0-2134" "a 2-acyl-sn-glycero-3-phosphoglycerol (n-C14:1)" [] "C20H38O9P" 453.489 +"CPD0-2135" "(enterobacterial common antigen)2 undecaprenyl-diphosphate" [] "C103H162N6O37P2" 2138.378 +"CPD0-2137" "a 1-hexadec-9-enoyl-sn-glycerol 3-phosphate" [] "C19H35O7P" 406.455 +"CPD0-2138" "(enterobacterial common antigen)4-undecaprenyl diphosphate" [] "C151H234N12O67P2" 3351.497 +"CPD0-2139" "(enterobacterial common antigen)3 undecaprenyl-diphosphate" [] "C127H198N9O52P2" 2744.938 +"CPD0-2140" "1-acyl-sn-glycero-3-phosphoglycerol (n-C18:0)" [] "C24H48O9P" 511.612 +"CPD0-2143" "1-acyl-sn-glycero-3-phosphoglycerol (n-C14:0)" [] "C20H40O9P" 455.504 +"CPD0-2144" "1-acyl-sn-glycero-3-phosphoglycerol (n-C12:0)" [] "C18H36O9P" 427.451 +"CPD0-2147" "1-myristoyl-sn-glycero-3-phosphoethanolamine" ["1-myristoylglycerophosphoethanolamine", "1-14:0-2-lysophosphatidylethanolamine"] "C19H40NO7P" 425.501 +"CPD0-2148" "1-lauroyl-sn-glycero-3-phosphoethanolamine" ["1-12:0-2-lysophosphatidylethanolamine", "1-dodecanoyl-sn-glycero-3-phosphoethanolamine"] "C17H36NO7P" 397.448 +"CPD0-2149" "a 1-acyl-sn-glycero-3-phosphoethanolamine (n-C14:1)" [] "C19H38NO7P" 423.485 +"CPD0-2150" "a 1-acyl-sn-glycero-3-phosphoethanolamine (n-C18:1)" [] "C23H46NO7P" 479.593 +"CPD0-2151" "a 1-acyl-sn-glycero-3-phosphoethanolamine (n-C16:1)" [] "C21H42NO7P" 451.539 +"CPD0-2152" "1-stearoyl-sn-glycero-3-phosphoethanolamine" ["1-18:0-2-lysophosphatidylethanolamine", "1-stearoylglycerophosphoethanolamine"] "C23H48NO7P" 481.608 +"CPD0-2153" "undecaprenyl phosphate-4-amino-4-formyl-L-arabinose" [] "C61H99NO8P" 1005.429 +"CPD0-2155" "N-Acetyl-D-glucosamine(anhydrous)N-Acetylmuramyl-tripeptide" [] "C34H54N6O19" 850.829 +"CPD0-2157" "a 1-acyl-sn-glycero-3-phosphoglycerol (n-C14:1)" [] "C20H38O9P" 453.489 +"CPD0-2162" "1-acyl-sn-glycero-3-phosphoglycerol (n-C16:0)" [] "C22H44O9P" 483.558 +"CPD0-2165" "2-acyl-sn-glycero-3-phosphoethanolamine (n-C14:0)" [] "C19H40NO7P" 425.501 +"CPD0-2167" "5-deoxy-D-ribose" ["5'-deoxyribose", "5-deoxy-D-ribofuranose"] "C5H10O4" 134.132 +"CPD0-2169" "a 1-acyl-sn-glycero-3-phosphoglycerol (n-C16:1)" [] "C22H42O9P" 481.542 +"CPD0-2170" "a 2-acyl-sn-glycero-3-phosphoethanolamine (n-C14:1)" [] "C19H38NO7P" 423.485 +"CPD0-2171" "(S)-3-hydroxytetradecanoyl-CoA" [] "C35H58N7O18P3S" 989.861 +"CPD0-2172" "a 2-acyl-sn-glycero-3-phosphoglycerol (n-C16:1)" [] "C22H42O9P" 481.542 +"CPD0-2173" "2-14:0-lysophosphatidylglycerol" ["2-14:0-lysoPG", "2-Acyl-sn-glycero-3-phosphoglycerol (n-C14:0)"] "C20H40O9P" 455.504 +"CPD0-2174" "a 2-acyl-sn-glycero-3-phosphoethanolamine (n-C18:1)" [] "C23H46NO7P" 479.593 +"CPD0-2175" "Fe(III)hydoxamate, unloaded" [] null null +"CPD0-2177" "2-acyl-sn-glycero-3-phosphoethanolamine (n-C16:0)" [] "C21H44NO7P" 453.555 +"CPD0-2178" "2-acyl-sn-glycero-3-phosphoethanolamine (n-C12:0)" [] "C17H36NO7P" 397.448 +"CPD0-2179" "an acyl phosphatidylglycerol (n-C18:1)" [] null null +"CPD0-2182" "L-prolinylglycine" [] "C7H14N2O3" 174.199 +"CPD0-2184" "(2Z,4E,7E)-2-hydroxy-6-oxonona-2,4,7-triene-1,9-dioate" ["2-hydroxy-6-oxononatrienedioate", "2-hydroxy-6-oxonona-2,4,7-trienedioic acid", "2-hydroxy-6-oxonona-2,4,7-triene-1,9-dioic acid", "2-hydroxy-6-ketononatrienedioate", "2-hydroxy-6-oxonona-2,4,7-triene-1,9-dioate"] "C9H6O6" 210.143 +"CPD0-2186" "a hexadecenoyl-CoA (n-C16:1CoA)" [] "C37H60N7O17P3S" 999.899 +"CPD0-2189" "4-hydroxy-L-threonine" ["(2S,3S)-2-amino-3,4-dihydroxybutanoic acid", "hydroxythreonine", "3-hydroxyhomoserine"] "C4H9NO4" 135.119 +"CPD0-2190" "L-alanyl-D-glutamate" ["L-Ala-D-Glu"] "C8H13N2O5" 217.201 +"CPD0-2192" "acyl phosphatidylglycerol (n-C14:0)" [] "C48H92O11P" 876.222 +"CPD0-2194" "acyl phosphatidylglycerol (n-C12:0)" [] "C42H80O11P" 792.061 +"CPD0-2195" "3-sn-phosphatidyl-1'-(3'-acyl)-glycerol (n-C18:0)" ["acyl phosphatidylglycerol (n-C18:0)"] "C60H116O11P" 1044.544 +"CPD0-2196" "an acyl phosphatidylglycerol (n-C14:1)" [] null null +"CPD0-2197" "acyl phosphatidylglycerol (n-C16:0)" [] "C54H104O11P" 960.383 +"CPD0-2198" "an acyl phosphatidylglycerol (n-C16:1)" [] null null +"CPD0-2200" "1-lauroyl-sn-glycerol 3-phosphate" ["1-dodecanoyl-sn-glycerol 3-phosphate"] "C15H29O7P" 352.364 +"CPD0-2202" "cyclopropane phosphatidylglycerol (dihexadec-9,10-cyclo-anoyl, n-C16:0 cyclo)" [] "C40H74O10P" 745.992 +"CPD0-2204" "a 2-acyl-sn-glycero-3-phosphoethanolamine (n-C16:1)" [] "C21H42NO7P" 451.539 +"CPD0-2205" "apoferrichrome" [] "C27H45N9O12" 687.706 +"CPD0-2207" "2-12:0-lysophosphatidylglycerol" ["2-12:0-lysoPG"] "C18H36O9P" 427.451 +"CPD0-2208" "a tetradecenoate(n-C14:1)" ["tetradecenoic acid(n-C14:1)"] "C14H25O2" 225.35 +"CPD0-2212" "two disacharide linked murein units, pentapeptide crosslinked tripeptide (A2pm->A2pm) (middle of chain)" [] "C74H114N14O39" 1823.785 +"CPD0-2213" "a peptidoglycan trimer with pentapeptide stems (meso-diaminopimelate containing)" ["[N-acetylglucosamine-N-acetylmuramoyl-L-alanyl-γ-D-glutamyl-meso-2,6-diaminopimeloyl-D-alanyl-D-alanine]3", "three linked disaccharide pentapeptide murein units (uncrosslinked, middle of chain)"] null null +"CPD0-2214" "(O16 antigen)4-undecaprenyl diphosphate" [] "C191H310N4O107P2" 4436.46 +"CPD0-2215" "glucosyl-O-acetyl-rhamanosyl-N-acetylglucosamyl-undecaprenyl diphosphate" [] "C77H125NO22P2" 1478.775 +"CPD0-2216" "cyclopropane phosphatidylethanolamine (dihexadec-9,10-cyclo-anoyl, n-C16:0 cyclo)" [] "C39H74NO8P" 715.989 +"CPD0-2217" "cyclopropane phosphatidylglycerol (dioctadec-11,12-cyclo-anoyl, n-C18:0 cyclo)" [] "C44H82O10P" 802.1 +"CPD0-2218" "cyclopropane phosphatidylethanolamine (dioctadec-11,12-cyclo-anoyl, n-C18:0 cyclo" [] "C43H82NO8P" 772.096 +"CPD0-2219" "galactofuranosyl-glucosyl-O-acetyl-rhamanosyl-N-acetylglucosamyl-undecaprenyl diphosphate" [] "C83H135NO27P2" 1640.917 +"CPD0-2220" "a 1-octadec-11-enoyl-sn-glycerol 3-phosphate" [] "C21H39O7P" 434.509 +"CPD0-2223" "2-acyl-sn-glycero-3-phosphoethanolamine (n-C18:0)" [] "C23H48NO7P" 481.608 +"CPD0-2227" "an octadecenoyl-CoA (n-C18:1CoA)" [] "C39H64N7O17P3S" 1027.953 +"CPD0-2228" "a tetradecenoyl-CoA (n-C14:1CoA)" [] "C35H56N7O17P3S" 971.845 +"CPD0-2229" "a 2-acyl-sn-glycero-3-phosphoglycerol (n-C18:1)" [] "C24H46O9P" 509.596 +"CPD0-2230" "phosphatidylglycerolphosphate (1,2-di-palmitoleoyl)" ["phosphatidylglycerolphosphate (dihexadec-9-enoyl, n-C16:1)"] "C38H69O13P2" 795.903 +"CPD0-2231" "dIDP" ["deoxyinosine diphosphate"] "C10H11N4O10P2" 409.165 +"CPD0-2232" "(S)-3-hydroxyhexadecanoyl-CoA" ["3S-hydroxyhexadecanoyl-AoA", "(S)-3-hydroxypalmitoyl-CoA"] "C37H62N7O18P3S" 1017.914 +"CPD0-2234" "iron(III)-aerobactin" ["ferric aerobactin"] "C22H34N4O13Fe" 618.377 +"CPD0-2238" "inner core oligosaccharide-lipid A" ["heptosyl-phospho-heptosyl-heptosyl-Kdo2-lipidA"] "C131H231N2O60P3" 2887.164 +"CPD0-2239" "phospho-heptosyl-phospho-heptosyl-heptosyl-Kdo2-lipidA" [] "C131H230N2O63P4" 2965.128 +"CPD0-2240" "phospho-heptosyl-heptosyl-Kdo2-lipidA" [] "C124H219N2O54P3" 2694.996 +"CPD0-2241" "ferrichrome" [] "C27H42N9O12Fe" 740.529 +"CPD0-2244" "(S)-3-hydroxydecanoyl-CoA" [] "C31H50N7O18P3S" 933.753 +"CPD0-2245" "a peptidoglycan dimer with pentapeptide and tetrapeptide stems (meso-diaminopimelate containing)" ["two linked disaccharide pentapeptide and tetrapeptide murein units (uncrosslinked, middle of chain)"] null null +"CPD0-2247" "galactosyl-inner core polysaccharide-lipid A" ["galactosyl-inner core oligosaccharide lipid A"] "C151H261N2O79P4" 3492.584 +"CPD0-2249" "(E. coli O16 antigen)4-core oligosaccharide-lipid A" [] "C298H502N6O189P4" 7317.065 +"CPD0-2250" "dHAPTP" ["2'-deoxy-N-6-hydroxylaminopurine triphosphate", "6-N-hydroxylaminopurine deoxynucleoside triphosphate", "[(2R,3S,5R)-3-hydroxy-5-[6-(hydroxyamino)purin-9-yl]oxolan-2-yl]methyl", "[hydroxy(phosphooxy)phosphoryl] hydrogen phosphate"] "C10H12N5O13P3" 503.152 +"CPD0-2253" "(S)-3-hydroxy-stearoyl-CoA" ["(S)-3-Hydroxyoctadecanoyl-CoA"] "C39H66N7O18P3S" 1045.968 +"CPD0-2257" "inner core oligosaccharide-lipid A with Kdo(III) (E. coli)" ["Kdo-phospho-heptosyl-phospho-heptosyl-heptosyl-Kdo2-lipidA"] "C139H241N2O70P4" 3184.299 +"CPD0-2258" "galactosyl-glucosyl-inner core oligosaccharide lipid A" [] "C157H271N2O84P4" 3654.726 +"CPD0-2259" "glucosyl-glucosyl-galactosyl-glucosyl-inner core oligosaccharide lipid A" [] "C169H291N2O94P4" 3979.01 +"CPD0-2261" "glucosyl-galactosyl-glucosyl-inner core oligosaccharide lipid A" [] "C163H281N2O89P4" 3816.868 +"CPD0-2262" "coprogen" [] "C35H56N6O13" 768.86 +"CPD0-2264" "hepta-acylated core oligosaccharide lipid A" [] "C192H333N2O101P4" 4409.59 +"CPD0-2266" "three disacharide linked murein units (tetrapeptide crosslinked tetrapeptide (A2pm->D-ala), one uncrosslinked tetrapaptide) (middle of chain)" [] "C111H169N21O59" 2741.661 +"CPD0-2267" "α-ethyl-L-glutamate" [] "C7H12NO4" 174.176 +"CPD0-2268" "(O16 antigen)2-undecaprenyl diphosphate" [] "C123H200N2O57P2" 2680.86 +"CPD0-2269" "a peptidoglycan dimer with tetrapeptide stems (meso-diaminopimelate containing)" ["[N-acetylglucosamine-N-acetylmuramoyl-L-alanyl-γ-D-glutamyl-meso-2,6-diaminopimeloyl-D-alanine]2", "two linked disacharide tetrapeptide murein units (uncrosslinked, middle of chain)"] null null +"CPD0-2270" "two disacharide linked murein units, tetrapeptide crosslinked tetrapeptide (A2pm->D-ala) (middle of chain)" [] "C74H111N14O39" 1820.761 +"CPD0-2272" "a peptidoglycan dimer with tripeptide stems (meso-diaminopimelate containing)" ["[N-acetylglucosamine-N-acetylmuramoyl-L-alanyl-γ-D-glutamyl-meso-diaminopimelate]2", "two linked disaccharide tripeptide murein units (uncrosslinked, middle of chain)"] null null +"CPD0-2273" "two disacharide linked murein units, tripeptide crosslinked tetrapeptide (A2pm->D-ala) (middle of chain)" ["peptidoglycan tripeptide-tetrapeptide crosslink"] "C71H107N13O38" 1750.691 +"CPD0-2274" "a peptidoglycan dimer with tetrapeptide and tripepetide stems (meso diaminopimelate containing)" ["two linked disaccharide tetrapeptide and tripeptide murein units (uncrosslinked, middle of chain)"] null null +"CPD0-2275" "adenosine tetraphosphopyridoxal" ["adenosine-(5')tetraphospho(5')pyridoxal", "AP4-PL"] "C18H20N6O18P4" null +"CPD0-2276" "glycine ethyl ester" [] "C4H9NO2" 103.121 +"CPD0-2277" "two disacharide linked murein units, tripeptide crosslinked tripeptide (A2pm->A2pm) (middle of chain)" [] "C68H106N12O37" 1683.644 +"CPD0-2278" "two disacharide linked murein units, pentapeptide crosslinked tetrapeptide (A2pm->D-ala) (middle of chain)" [] "C77H121N15O40" 1896.879 +"CPD0-2279" "E. coli O16 antigen monomer-diphosphoundecaprenol" ["→2)-β-D-Galf-(1→6)-α-D-Glcp- (1→3)-α-L-Rhap-(1→3)-α-D-GlcpNAc-(1-→"] "C89H145NO32P2" 1803.059 +"CPD0-2280" "(O16 antigen)3-undecaprenyl diphosphate" [] "C157H255N3O82P2" 3558.66 +"CPD0-2283" "a peptidoglycan dimer with pentapeptide stems (meso-diaminopimelate containing)" ["two linked disacharide pentapeptide murein units (uncrosslinked, middle of chain)", "[N-acetylglucosamine-N-acetylmuramoyl-L-alanyl-γ-D-glutamyl-meso-2,6-diaminopimeloyl--D-alanyl-D-alanine]2"] null null +"CPD0-2284" "1,6-anhydrous-N-Acetylmuramyl-tripeptide" [] "C26H41N5O14" 647.635 +"CPD0-2287" "a peptidoglycan dimer with pentapeptide and tripeptide stems (meso-diaminopimelate containing)" ["two linked disaccharide pentapeptide and tripeptide murein units (uncrosslinked, middle of chain)"] null null +"CPD0-2288" "three disacharide linked murein units (tetrapeptide crosslinked tetrapeptide (A2pm->D-ala) and tetrapeptide corsslinked tetrapeptide (A2pm->D-ala)) (middle of chain)" [] "C111H167N21O58" 2723.646 +"CPD0-2289" "rhamanosyl-N-acetylglucosamyl-undecaprenyl diphosphate" [] "C69H113NO16P2" 1274.596 +"CPD0-2290" "O-acetyl-rhamanosyl-N-acetylglucosamyl-undecaprenyl diphosphate" [] "C71H115NO17P2" 1316.633 +"CPD0-2292" "an N-acetyl-D-glucosamine-(anhydrous)-N-acetylmuramyl-tetrapeptide" [] null null +"CPD0-2293" "4-amino-4-deoxy-L-arabinose modified core oligosaccharide lipid A" [] "C167H293N3O92P4" 3939.011 +"CPD0-2294" "enterobacterial common antigen-core oligosaccharide-lipid A" ["ECA-lipopolysaccharide", "ECALPS", "ECA(LPS)"] "C258H426N14O149P4" 6232.103 +"CPD0-2295" "inner core oligosaccharide-lipid A with Kdo(III) and L-rhamnose (E. coli)" [] "C145H251N2O74P4" 3330.442 +"CPD0-2296" "three disacharide linked murein units (pentapeptide crosslinked tetrapeptide (A2pm->D-ala) tetrapeptide corsslinked tetrapeptide (A2pm->D-ala)) (middle of chain)" [] "C114H178N22O59" 2800.772 +"CPD0-2298" "(S)-ureidoglycine" ["(S)-2-ureidoglycine", "(2S)-(carbamoylamino)glycine"] "C3H7N3O3" 133.107 +"CPD0-2303" "3-carboxybenzaldehyde" [] "C8H5O3" 149.126 +"CPD0-2306" "casuarine" [] "C8H16NO5" 206.218 +"CPD0-2330" "phosphatidylglycerol (dihexadec-9-enoyl, n-C16:1)" [] "C38H70O10P" 717.939 +"CPD0-2331" "(Z)-3-ureidoacrylate" ["(2Z)-3-(carbamoylamino)prop-2-enoate"] "C4H5N2O3" 129.095 +"CPD0-2332" "2,3-dihydroxybenzohydroxamoyl adenylate" [] "C17H18N6O10P" 497.337 +"CPD0-2336" "paraquat" ["methyl viologen", "gramoxone", "esgram"] "C12H14N2" 186.256 +"CPD0-2337" "2,3-dimethyl-1,4-naphthoquinone" [] "C12H10O2" 186.21 +"CPD0-2338" "(Z)-3-ureidoacrylate peracid" ["ureidoacrylate peracid", "ureidoperacrylic acid", "(2Z)-3-(carbamoylamino)prop-2-eneperoxoic acid", "peroxy ureidoacrylate"] "C4H6N2O4" 146.102 +"CPD0-2339" "(Z)-3-aminoacrylate" ["3-aminoacrylate", "aminoacrylate"] "C3H4NO2" 86.07 +"CPD0-2340" "(Z)-3-peroxyaminoacrylate" ["peroxy aminoacrylate", "aminoacrylate peracid"] "C3H5NO3" 103.077 +"CPD0-2347" "adeninylpentylcobalamin" [] "C72H104N18O14PCo" 1534.622 +"CPD0-2355" "dioctylamine" [] "C16H36N" 242.467 +"CPD0-2356" "La3+" ["lanthanum(III) cation", "lanthanum(3+)", "lanthanum(3+) ion", "lanthanum(III)"] "La" 138.905 +"CPD0-2357" "furfural" [] "C5H4O2" 96.085 +"CPD0-2358" "6-phosphonouridine 5'-monophosphate" [] "C9H10N2O12P2" 400.132 +"CPD0-2359" "dihydrooxonate" [] "C4H4N3O4" 158.093 +"CPD0-2360" "cumene" ["(1-methylethyl)benzene", "2-phenylpropane", "isopropylbenzene"] "C9H12" 120.194 +"CPD0-2362" "2-(1,2-epoxy-1,2-dihydrophenyl)acetyl-CoA" ["2-{7-oxabicyclo[4.1.0]hepta-2,4-dien-1-yl}acetyl-CoA"] "C29H38N7O18P3S" 897.637 +"CPD0-2363" "2-oxepin-2(3H)-ylideneacetyl-CoA" ["oxepin-CoA"] "C29H38N7O18P3S" 897.637 +"CPD0-2364" "3-oxo-5,6-didehydrosuberyl-CoA" ["(5Z)-7-carboxy-3-oxohept-5-enoyl-CoA"] "C29H39N7O20P3S" 930.643 +"CPD0-2367" "5-fluorouridine" [] "C9H11N2O6F" 262.194 +"CPD0-2368" "2-aminopropanal" ["2-aminopropionaldehyde"] "C3H8NO" null +"CPD0-2370" "S-(acet-2-yl)-glutathione" [] "C12H17N3O8S" 363.342 +"CPD0-2375" "4-hydroxy-L-allo-threonine" [] "C4H9NO4" 135.119 +"CPD0-2376" "SN-38G" [] "C28H27N2O11" 567.528 +"CPD0-2377" "N7-methylguanine" ["7-MeG", "7-methylguanine", "2-amino-7-methyl-1,7-dihydro-6H-purin-6-one"] "C6H7N5O" 165.154 +"CPD0-2379" "glutathionylspermidine disulfide" ["(GspS)2"] "C34H70N12O10S2" 871.121 +"CPD0-2381" "methanetelluronate" ["methylated tellurite"] "CH3O3Te" 190.633 +"CPD0-2383" "6-chloropurine" [] "C5H3N4Cl" 154.558 +"CPD0-2386" "iron(II) sulfate" ["ferrous sulfate"] "Fe(SO4)" 151.905 +"CPD0-2387" "magnesium sulfate heptahydrate" ["MgSO4*7H2O", "MgSO4(H2O)7", "Epsom salt"] "Mg(SO4)(H2O)7" 246.46799 +"CPD0-2389" "disodium hydrogenphosphate heptahydrate" ["sodium phosphate dibasic heptahydrate", "disodium phosphate heptahydrate"] "HNa2(PHO4)(H2O)7" 269.072 +"CPD0-2390" "magnesium sulfate" [] "Mg(SO4)" 120.363 +"CPD0-2391" "potassium sulfate" ["K2SO4"] "K2(SO4)" 174.254 +"CPD0-2393" "zinc sulfate" ["ZnSO4"] "Zn(SO4)" 161.43799 +"CPD0-2394" "manganese chloride" ["MnCl2"] "MnCl2" 125.843994 +"CPD0-2398" "ammonium molybdate" ["ammonium orthomolybdate"] "(NH4)2(MoO4)" 196.01399 +"CPD0-2399" "N-tris(hydroxymethyl)methylglycine" ["tricine"] "C6H13NO5" 179.172 +"CPD0-2400" "7-methyl-preQ0" [] "C8H12N5O" 194.216 +"CPD0-2412" "disodium hydrogenphosphate" ["disodium phosphate"] "Na2(PHO4)" 141.959 +"CPD0-2413" "4-nitrophenyl butanoate" ["p-nitrophenyl butyrate", "pNP-butyrate", "p-nitrophenyl butanoate", "p-nitrophenyl butyrate"] "C10H11NO4" 209.201 +"CPD0-2414" "1-hydroxy-2-butanone" ["hydroxybutanone", "1-hydroxybutanone"] "C4H8O2" 88.106 +"CPD0-2418" "iron(II) sulfate heptahydrate" ["ferrous sulfate heptahydrate", "iron(2+) sulfate heptahydrate"] "Fe(SO4)(H2O)7" 278.01 +"CPD0-2419" "calcium nitrate tetrahydrate" [] "Ca(NO3)2(H2O)4" 236.15001 +"CPD0-2420" "zinc sulfate heptahydrate" [] "Zn(SO4)(H2O)7" 287.54297 +"CPD0-2422" "sodium acetate" [] "Na(C2H3O2)" 82.034 +"CPD0-2427" "ammonium dihydrogen phosphate" [] "(NH4)(PH2O4)" 115.025 +"CPD0-2430" "triethanolamine HCI" ["TEA-Hydrochloride", "2,2',2''-Nitrilotrisethanol hydrochloride", "2,2',2''-Nitrilotriethanol hydrochloride", "Tris(2-hydroxyethyl)amine hydrochloride"] "(C6NH16O3)(HCl)" 186.658 +"CPD0-2431" "sodium pyruvate" [] "Na(C5H8O)(C3H3O3)" 194.16301 +"CPD0-2432" "sodium dihydrogen phosphate" ["monobasic sodium phosphate", "monosodium phosphate"] "Na(PH2O4)" 119.977 +"CPD0-2433" "dipotassium hydrogen phosphate" ["K2HPO4", "dipotassium phosphate"] "K2(PHO4)" 174.17499 +"CPD0-2434" "sodium citrate trihydrate" [] "Na(H2O)3(C6H5O7)" 266.136 +"CPD0-2435" "cycloamylose" [] null null +"CPD0-2443" "calcium pantothenate" [] "Ca(C9NH16O5)2" 476.53802 +"CPD0-2458" "phosphonocytosine" [] "C3H4N2O3P" 147.05 +"CPD0-2459" "triethanolamine" [] "C6H16NO3" 150.197 +"CPD0-2460" "lactitol" ["importal", "4-O-β-D-galactopyranosyl-D-glucitol", "β-D-galactopyranosyl-(1→4)-D-glucitol", "D-lactitol"] "C12H24O11" 344.315 +"CPD0-2461" "isoguanine" ["2-oxoadenine", "2-hydroxyadenine"] "C5H5N5O" 151.127 +"CPD0-2462" "(S)-4-amino-4,5-dihydro-2-furancarboxylate" ["(S)-4-amino-4,5-dihydro-2-furancarboxylic acid", "S-ADFA"] "C5H7NO3" 129.115 +"CPD0-2463" "5-phospho-α-D-ribose 1,2-cyclic phosphate" ["5-phospho-α-D-ribosyl 1,2-cyclic phosphate", "α-D-ribose-1,2-cyclic-phosphate 5-phosphate"] "C5H7O10P2" 289.052 +"CPD0-2464" "tryptamine guanosine carbamate" ["TpGc"] "C21H23N7O6" 469.456 +"CPD0-2466" "3,4-dihydroxypent-3-en-2-one 5-phosphate" [] "C5H6O7P" 209.072 +"CPD0-2467" "3-hydroxy-2,4-dioxopentyl phosphate" ["3-hydroxy-2,4-pentanedione phosphate", "3-hydroxy-5-phosphooxypentane-2,4-dione", "3-hydroxy-1-phosphooxypentane-2,4-dione"] "C5H7O7P" 210.08 +"CPD0-2468" "3,4,4-trihydroxy-5-phosphooxypentan-2-one" ["3,4,4-trihydroxy-2-pentaone 5-phosphate", "P-TPO", "3,4,4-trihydroxy-2-pentanone 5-phosphate"] "C5H9O8P" 228.095 +"CPD0-2471" "a [protein] C-terminal α-L-glutamate-α-L-glutamate" ["a [protein] α-L-glu-α-L-glu"] null null +"CPD0-2472" "(R)-NADHX" ["(6R)-6-β-hydroxy-1,4,5,6-tetrahydronicotinamide-adenine dinucleotide"] "C21H29N7O15P2" 681.445 +"CPD0-2474" "(S)-NADPHX" ["(6S)-6β-hydroxy-1,4,5,6-tetrahydronicotinamide-adenine dinucleotide phosphate"] "C21H28N7O18P3" 759.41 +"CPD0-2475" "methyl-2,3-dihydroxyphenylpropanoate" ["methyl-2,3-dihydroxyphenylpropionate"] "C10H12O4" 196.202 +"CPD0-2476" "3-phenylethylcatechol" [] "C14H14O2" 214.263 +"CPD0-2477" "3-propylcatechol" ["1,2-benzenediol, 3-propyl-", "3-propylbenzene-1,2-diol"] "C9H12O2" 152.193 +"CPD0-2479" "α-D-ribose-1-methylphosphonate-5-triphosphate" [] "C6H11O16P4" 463.038 +"CPD0-2480" "α-D-ribose-1-methylphosphonate 5-phosphate" [] "C6H11O10P2" 305.094 +"CPD0-2482" "iron(III)-[N-(2,3-dihydroxybenzoyl)-L-serine trimer] complex" ["hydrolyzed ferric enterobactin complex", "ferric (2,3-dihydroxybenzoylserine)3", "ferric N-(2,3-dihydroxybenzoyl)-L-serine trimer", "ferric-[N-(2,3-dihydroxybenzoyl)-L-serine trimer] complex"] "C30H22N3O16Fe" 736.361 +"CPD0-2483" "N-(2,3-dihydroxybenzoyl)-L-serine trimer" ["(2,3-dihydroxybenzoylserine)3", "O-3-{O-3-[N-(2,3-dihydroxybenzoyl)-L-seryl]-N-(2,3-dihydroxybenzoyl)-L-seryl}-N-(2,3-dihydroxybenzoyl)-L-serine"] "C30H28N3O16" 686.562 +"CPD0-2485" "β-D-galactofuranose" ["Galf"] "C6H12O6" 180.157 +"CPD0-2486" "α-D-galactofuranose" [] "C6H12O6" 180.157 +"CPD0-2489" "2-hydroxy-3-nitropropionate" [] "C3H4NO5" 134.068 +"CPD0-2491" "5-bromo-4-chloro-3-indolyl β-galactoside" ["X-gal"] "C14H15NO6ClBr" 408.633 +"CPD0-2495" "5-methylcytidine" [] "C10H15N3O5" 257.246 +"CPD0-2496" "N4-methylcytidine" [] "C11H16N2O5" 256.258 +"CPD0-2497" "nitrofurazone" ["nitrofural"] "C6H6N4O4" 198.138 +"CPD0-2498" "ethyl 2-(2-nitrophenoxy)acetate" [] "C10H11NO5" 225.201 +"CPD0-2499" "methyl β-D-glucoside 6-phosphate" [] "C7H13O9P" 272.148 +"CPD0-2500" "p-nitrophenyl-α-D-galactopyranoside" ["4-nitrophenyl-α-D-galactopyranoside", "4-nitrophenyl-α-D-galactoside", "p-nitrophenyl-α-D-galactoside", "pNPαGal"] "C12H15NO8" 301.252 +"CPD0-2501" "N-monoacetylchitobiose 6'-phosphate" [] "C14H26N2O13P" 461.339 +"CPD0-2503" "diammonium hydrogen phosphate" ["(NH4)2HPO4", "diammonium phosphate"] "(NH4)2(PHO4)" 132.055 +"CPD0-2504" "copper sulfate pentahydrate" ["CuSO4(H2O)5"] "Cu(SO4)(H2O)5" 249.679 +"CPD0-2505" "manganese(II) sulfate pentahydrate" ["MnSO4(H2O)5"] "Mn(SO4)(H2O)5" 241.071 +"CPD0-2506" "sodium tetraborate decahydrate" ["Na2B4O7(H2O)10"] "Na2(B4O7)(H2O)10" 381.37408 +"CPD0-2507" "calcium chloride dihydrate" ["CaCl2(H2O)2"] "CaCl2(H2O)2" 147.016 +"CPD0-2508" "ammonium heptamolybdate" ["(NH4)6Mo7O24 · 4H2O", "ammonium paramolybdate", "ammonium heptamolybdate tetrahydrate"] "(NH4)6(Mo7O24)(H2O)4" 1235.8539 +"CPD0-2511" "6-(glutathion-S-yl)-2-methylhydroquinone" ["GS-MHQ", "GS-methylhydroquinone"] "C17H22N3O8S" 428.436 +"CPD0-2513" "a (glutathion-S-yl)-hydroquinone" ["a glutathionyl-hydroquinone", "GS-hydroquinone", "GS-HQ"] null null +"CPD0-2514" "5-(glutathion-S-yl)-1,2,4-trihydroxybenzene" ["GS-HHQ", "GS-hydroxy-p-hydroquinone"] "C16H20N3O9S" 430.409 +"CPD0-2515" "3-(glutathion-S-yl)-2-methyl-1,4-naphthohydroquinone" ["GS-menadiol"] "C21H24N3O8S" 478.496 +"CPD0-2516" "tetraborate" [] "O7B4" 155.244 +"CPD0-2517" "heptamolybdate" [] "O24Mo7" 1055.566 +"CPD0-2518" "(acetamidomethyl)phosphonate" ["2-N-acetamidomethylphosphonate"] "C3H7NO4P" 152.066 +"CPD0-2521" "[(S)-1-aminoethyl]phosphonate" [] "C2H7NO3P" 124.056 +"CPD0-2523" "2,4-dioxo-4-phenylbutanoate" ["2,4-dioxo-4-phenylbutyrate"] "C10H7O4" 191.163 +"CPD0-2526" "1-ethyl-4-aminobutanoate" ["1-ethyl-4-aminobutyrate"] "C6H14NO2" 132.182 +"CPD0-2527" "p-anisidine" ["4-anisidine", "4-methoxyaniline"] "C7H9NO" 123.154 +"CPD0-2528" "4-ethoxyaniline" ["p-phenetidine"] "C8H11NO" 137.181 +"CPD0-2529" "2-aminofluorene" [] "C13H11N" 181.237 +"CPD0-2530" "pentaerythritol tetranitrate" ["PETN"] "C5H8N4O12" 316.138 +"CPD0-2531" "1-hydroxy-2-naphthoyl-CoA" [] "C32H38N7O18P3S" 933.67 +"CPD0-2536" "α-D-glucopyranosyl-(1→2)-D-galactopyranose" ["2-O-α-D-glucopyranosyl-D-galactopyranose"] "C12H22O11" 342.299 +"CPD0-2538" "meso-lanthionine" [] "C6H12N2O4S" 208.232 +"CPD0-2539" "L-allocystathionine" [] "C7H14N2O4S" 222.259 +"CPD0-2542" "p-nitrophenyl-β-glucoside 6-phosphate" [] "C12H14NO11P" 379.216 +"CPD0-2543" "n-phenyltaurine" [] "C8H10NO3S" 200.232 +"CPD0-2544" "2-(4-pyridyl)ethanesulfonate" [] "C7H8NO3S" 186.205 +"CPD0-2545" "4-phenylbutane-1-sulfonate" ["4-phenyl-1-butanesulfonate"] "C10H13O3S" 213.271 +"CPD0-2546" "1-decanesulfonate" ["decane-1-sulfonate"] "C10H21O3S" 221.334 +"CPD0-2547" "1-octanesulfonate" ["octane-1-sulfonate", "octanesulfonic acid"] "C8H17O3S" 193.28 +"CPD0-2549" "5-methyl-CTP" ["m5CTP"] "C10H14N3O14P3" 493.154 +"CPD0-2550" "m5UTP" ["5-methyl-UTP"] "C16H18N4O3" 314.343 +"CPD0-2551" "pseudouridine 5'-triphosphate" ["pseudo-UTP"] "C9H11N2O15P3" 480.112 +"CPD0-2552" "m7GTP" ["7-methyl-GTP"] "C11H15N5O14P3" 534.186 +"CPD0-2554" "(R)-S-adenosyl-L-methionine" [] "C15H23N6O5S" 399.444 +"CPD0-2555" "L-leucyl-glycine" ["Leu-Gly"] "C8H16N2O3" 188.226 +"CPD0-2556" "Sulindac" [] "C20H17O3FS" 356.411 +"CPD0-2557" "trans,trans-2,4-decadienoyl-CoA" ["trans-Δ2, trans-Δ4-decadienoyl-CoA"] "C31H46N7O17P3S" 913.722 +"CPD0-2558" "2-hydroxycyclohepta-1,4,6-triene-1-carboxyl-CoA" [] "C29H38N7O18P3S" 897.637 +"CPD0-2559" "2-hydroxycyclohepta-1,4,6-triene-1-carboxylate" [] "C8H7O3" 151.141 +"CPD0-2560" "3,5-dihydroxybenzoyl-CoA" [] "C28H36N7O19P3S" 899.609 +"CPD0-2565" "5-deazaflavin" ["deazaflavin"] "C11H7N3O2" 213.195 +"CPD0-2573" "3-acetyl-NADH" [] "C23H29N7O15P2" 705.467 +"CPD0-2575" "tretazicar" ["5-[aziridin-1-yl]-2,4-dinitrobenzamide", "CB-1954", "5-aziridinyl-2,4-dinitrobenzamide"] "C9H8N4O5" 252.186 +"CPD0-2576" "nitrobenzodiazepine" ["NBDZ"] "C9H7N3O2" 189.173 +"CPD0-2577" "7-nitrocoumarin-3-carboxylate" [] "C10H4NO6" 234.145 +"CPD0-2579" "a mature peptidoglycan with D,D cross-links (meso-diaminopimelate containing)" [] null null +"CPD0-2580" "a purine nucleotide phosphoramidate" [] null null +"CPD0-2581" "pseudomonate A" [] "C26H43O9" 499.62 +"CPD0-2582" "(3R)-3,4-dihydroxybutanal" ["D-3,4-dihydroxybutanal"] "C4H8O3" 104.105 +"CPD0-2583" "GlcNAc-1,6-anhMurNAc-L-Ala-γ-D-Glu-DAP-D-Ala-D-Ala" [] null null +"CPD0-2585" "immucillin-A 5'-triphosphate" ["ImmA-TP", "immucillin-A triphosphate"] "C10H14N6O12P3" 503.175 +"CPD0-2587" "anthraquinone-2-sulfonate" [] "C14H7O5S" 287.266 +"CPD0-2588" "anthraquinone-2,6-disulfonate" ["9,10-anthraquinone-2,6-disulfonate", "AQDS"] "C14H6O8S2" 366.317 +"CPD0-2590" "naphthalen-1-yl propanoate" ["α-naphthyl propionate"] "C13H12O2" 200.237 +"CPD0-2591" "naphthalen-1-yl butanoate" ["1-naphthyl butyrate", "α-naphthyl butyrate"] "C14H14O2" 214.263 +"CPD0-2595" "2-hydroxypropyl-β-cyclodextrin" ["HP-β-CD"] "C63H112O42" 1541.553 +"CPD0-2596" "N-pantoylglycyl-2-aminoethanethiol" ["Gly-Pan"] "C10H20N2O4S" 264.339 +"CPD0-2597" "faropenem" [] "C12H14NO5S" 284.306 +"CPD0-2598" "AM-112" [] "C14H22N2O5" 298.338 +"CPD0-2599" "mecillinam" ["FL 1060"] "C15H22N3O3S" 324.417 +"CPD0-2600" "doripenem" [] "C15H24N4O6S2" 420.498 +"CPD0-2601" "ceftobiprole" [] "C20H22N8O6S2" 534.564 +"CPD0-2602" "cefepime" [] "C19H24N6O5S2" 480.556 +"CPD0-2603" "enduracidin" [] "C106H135N26O31Cl3" 2375.747 +"CPD0-2604" "macarbomycin" [] "C69H106N5O35P" 1596.583 +"CPD0-2605" "chlorobiphenyl vancomycin" [] "C78H82N9O24Cl3" 1635.911 +"CPD0-2606" "ristocetin" [] "C95H112N8O44" 2069.957 +"CPD0-2607" "DCB-PV" ["N(4)-alkylated 3,4-dichlorobenzyloxybenzyl derivative of glycopeptide putrescinyl vancomycin"] "C83H95N11O24Cl4" 1772.535 +"CPD0-2608" "amoxicillin" [] "C16H19N3O5S" 365.403 +"CPD0-2609" "cephapirin" [] "C17H16N3O6S2" 422.45 +"CPD0-2610" "cefaclor" [] "C15H14N3O4SCl" 367.806 +"CPD0-2611" "meropenem" [] "C17H25N3O5S" 383.462 +"CPD0-2612" "cefoselis sulfate" ["FK037"] null null +"CPD0-2613" "DQ-2556" [] "C22H19N7O6S2" 541.555 +"CPD0-2614" "cefazolin" [] "C14H14N8O4S3" 454.496 +"CPD0-2615" "cephalosporin derivative compound 6" [] "C40H57N10O17S" 982.007 +"CPD0-2617" "dTDP-6-deoxy-α-D-glucose" ["dTDP-α-D-quinovose"] "C16H24N2O15P2" 546.317 +"CPD0-2621" "citric acid monohydrate" [] "H3(H2O)(C6H5O7)" 210.14 +"CPD0-2622" "ammonium sodium hydrogenphosphate tetrahydrate" ["NaNH4HPO4 · 4H2O", "ammonium sodium phosphate dibasic tetrahydrate"] "(NH4)Na(PHO4)(H2O)4" 209.06699 +"CPD0-2624" "4-hydroxy-3-nitrophenylacetaldehyde" [] "C8H7NO4" 181.148 +"CPD0-2628" "2-((2-bromoethyl)-2-{[(2-hydroxyethyl)amino]carbonyl}-4,6-dinitroanilino)ethyl methanesulfonate" [] "C14H19N4O9SBr" 499.289 +"CPD0-2629" "benzethonium" [] "C27H42NO2" 412.634 +"CPD0-2630" "dimethyldioctadecylammonium" [] "C38H80N" 551.057 +"CPD0-2631" "sulfanilamide" [] "C6H8N2O2S" 172.201 +"CPD0-2633" "5-bromo-2'-deoxyuridine" ["dBU", "5-bromodeoxyuridine"] "C9H11N2O5Br" 307.1 +"CPD0-2634" "pGp" ["guanosine 3',5'-bis(dihydrogen phosphate)", "guanosine 3',5'-bisphosphate", "guanosine 5'-phosphate,3'-phosphate", "guanosine 3'-phosphate 5'-phosphate"] "C10H11N5O11P2" 439.171 +"CPD0-2635" "gemcitabine 5'-triphosphate" ["dF-dCTP"] "C9H10N3O13F2P3" 499.108 +"CPD0-2636" "β-D-allose 1-phosphate" [] "C6H11O9P" 258.121 +"CPD0-2637" "β-D-galactose 1-phosphate" ["β-D-galactopyranse 1-phosphate"] "C6H11O9P" 258.121 +"CPD0-2640" "M-antigen monomer undecaprenyl diphosphate" ["4,6-pyruvyl-β-D-galactosyl-(1→4)-β-D-glucoronosyl-(1→3)-β-D-galactosyl-(1→4)-β-L-fucosyl-(1→4)-3-O-acetyl-α-L-fucosyl-(1→3)-β-D-glucosyl-diphosphoundecaprenol", "lipid-linked colanic acid monomer", "UndPP-linked colanic acid"] "C96H150O39P2" 1990.165 +"CPD0-2643" "2-hydroxy-dADP" ["2-OH-dADP"] "C10H12N5O10P2" 424.18 +"CPD0-2646" "cyclic enterobacterial common antigen" ["cyclic ECA", "ECAcyc"] "C96H144N12O60" 2426.238 +"CPD0-2648" "D-cycloserine phosphate" ["Seromycin"] "C3H6N2O5P" 181.065 +"CPD0-2649" "L-methionyl-L-proline dipeptide" ["Met-Pro"] "C10H18N2O3S" 246.324 +"CPD0-2650" "L-methionyl-L-prolyl-L-alanine tripeptide" ["Met-Pro-Ala"] "C13H23N3O4S" 317.402 +"CPD0-2651" "L-methionyl-L-alanyl-L-alanine tripeptide" ["Met-Ala-Ala"] "C11H21N3O4S" 291.365 +"CPD0-2652" "phosphatidylglycerolphosphate (1-palmitoyl, 2-oleoyl)" ["1-palmitoyl-2-oleoyl-sn-glycero-3-[phospho-rac-(1-glycerol)]"] "C40H75O13P2" 825.972 +"CPD0-2654" "a pyruvoyl group" [] null null +"CPD0-2655" "3-dehydro-1-O-methyl-β-D-glucose" ["methyl β-3-keto-D-glucoside"] "C7H12O6" 192.168 +"CPD0-2656" "3-dehydro-1-O-methyl-α-D-gulose" ["methyl α-3-keto-D-guloside"] "C7H12O6" 192.168 +"CPD0-2657" "3-dehydro-1-O-methyl-α-D-glucose" ["methyl α-3-keto-D-glucoside"] "C7H12O6" 192.168 +"CPD0-2658" "3-dehydro-1-O-methyl-β-D-gulose" ["methyl β-3-keto-D-guloside"] "C7H12O6" 192.168 +"CPD0-2659" "1-(5-((4-(3-(trifluoromethyl) phenyl)piperazin-1-yl) sulfonyl) indolin-1-yl) ethan-1-one" ["sulfonyl piperazine"] "C21H22N3O3F3S" 453.478 +"CPD0-2660" "α-L-fucosyl-(1->3)-β-D-glucopyranosyl-diphosphoundecaprenol" [] "C67H110O16P2" 1233.544 +"CPD0-2661" "[2/3-O-acetyl-α-L-fucosyl]-(1->3)-β-D-glucopyranosyl-diphosphoundecaprenol" [] "C69H112O17P2" 1275.581 +"CPD0-2662" "2-O-acetyl-L-fucosyl-(1->3)-β-D-glucopyranosyl-diphosphoundecaprenol" [] "C69H112O17P2" 1275.581 +"CPD0-2663" "3-O-acetyl-L-fucosyl-(1->3)-β-D-glucopyranosyl-diphosphoundecaprenol" [] "C69H112O17P2" 1275.581 +"CPD0-2664" "α-L-fucosyl-(1->4)-[2/3-O-acetyl-α-L-fucosyl]-(1->3)-β-D-glucopyranosyl-diphosphoundecaprenol" [] "C75H122O21P2" 1421.724 +"CPD0-2665" "β-D-galactosyl-(1->3)-α-L-fucosyl-(1->4)-[2/3-O-acetyl-α-L-fucosyl]-(1->3)-β-D-glucopyranosyl-diphosphoundecaprenol" [] "C81H132O26P2" 1583.866 +"CPD0-2666" "2-O-acetyl-β-D-galactosyl-(1->3)-α-L-fucosyl-(1->4)-[2/3-O-acetyl-α-L-fucosyl]-(1->3)-β-D-glucopyranosyl-diphosphoundecaprenol" [] "C83H134O27P2" 1625.903 +"CPD0-2667" "1-O-methyl-β-D-gulose" [] "C7H14O6" 194.184 +"CPD0-2668" "1-O-methyl-β-D-glucose" [] null null +"CPD0-2669" "1-O-methyl-α-D-glucose" [] null null +"CPD0-2676" "2-deoxyglucose 1-phosphate" [] null null +"CPD0-2677" "L-3-hydroxy-4-trans-decenoyl-CoA" [] null null +"CPD0-2678" "D-3-hydroxy-4-trans-decenoyl-CoA" [] null null +"CPD0-2679" "2-cis-octenoyl-CoA" [] null null +"CPD0-2681" "N4-acetylcytosine" [] null null +"CPD0-2682" "(E)-2-fluoro-p-hydroxycinnamate" [] null null +"CPD0-2683" "D-xyluronate" [] null null +"CPD0-2684" "1L-myo-inositol 1-monophosphate" [] null null +"CPD0-2685" "carolacton" [] null null +"CPD0-341" "S-succinyl-dihydrolipoamide" [] "C12H20NO4S2" 306.414 +"CPD0-441" "fosmidomycin" [] "C4H9NO5P" 182.093 +"CPD0-621" "iron(III)-coprogen" ["ferric coprogen"] "C35H53N6O13Fe" 821.683 +"CPD0-881" "N-acetyl-D-muramate 6-phosphate" ["MurNAc-6-P"] "C11H17NO11P" 370.229 +"CPD0-882" "1,6-anhydro-N-acetyl-β-muramate" ["1,6-anhMurNAc"] "C11H16NO7" 274.25 +"CPD0-888" "4-deoxy-4-formamido-α-L-arabinopyranosyl ditrans,octacis-undecaprenyl phosphate" ["undecaprenyl phosphate-L-Ara4-Formyl-N", "undecaprenyl phosphate-α-L-Ara4FN", "4-deoxy-4-formamido-α-L-arabinopyranosyl undecaprenyl phosphate"] "C61H99NO8P" 1005.429 +"CPD0-889" "N-(4-aminobenzoyl)-L-glutamate" ["4-aminobenzoyl-glutamate", "pABA-Glu", "N-(para-aminobenzoyl)-L-glutamate", "N-(4-aminobenzoyl)-L-glutamic acid", "p-aminobenzoyl glutamate"] "C12H12N2O5" 264.237 +"CPD0-903" "N-ethylsuccinimide" ["ethylsuccinimide", "succinimide, N-ethyl"] "C6H9NO2" 127.143 +"CPD0-914" "5'-O-[N-(L-aspartyl)sulfamoyl]adenosine" [] "C14H17N7O9S" 459.39 +"CPD0-915" "(L-aspartyl)adenylate" ["L-aspartyl-adenylate"] "C14H18N6O10P" 461.304 +"CPD0-916" "aspartyl-phosphonate-adenosine" [] "C15H20N6O9P" 459.332 +"CPD0-918" "L-histidine hydroxamate" [] "C6H11N4O2" 171.178 +"CPD0-919" "IDP-ribose" [] "C15H20N4O15P2" 558.288 +"CPD0-920" "indolmycin" ["indolemycin", "PA155A", "TAK 083", "(1R,5S)-(-)-5-(1-indol-3-ylethyl)-2-(methylamino)-2-oxazolin-4-one"] "C14H15N3O2" 257.291 +"CPD0-922" "4-fluoro-L-tryptophan" [] "C11H11N2O2F" 222.218 +"CPD0-923" "3-fluorotyrosine" [] "C9H10NO3F" 199.181 +"CPD0-925" "5-hydroxy-2-(3-DL-alanyl)-pyridine" ["HPA"] "C7H8N2O3" null +"CPD0-929" "heptosyl-Kdo2-lipid A" ["Rd2 LPS"] "C117H208N2O45P2" 2424.864 +"CPD0-930" "(heptosyl)2-Kdo2-lipid A" ["heptosyl2-Kdo2-lipid A", "heptosyl-heptosyl-Kdo2-lipidA", "Rd1 LPS"] "C124H220N2O51P2" 2617.032 +"CPD0-932" "glucosyl-(heptosyl)2-Kdo2-lipid A" ["Rc LPS"] "C130H230N2O56P2" 2779.174 +"CPD0-933" "glucosyl-(heptosyl)2-Kdo2-lipid A-phosphate" [] "C130H229N2O59P3" 2857.138 +"CPD0-934" "glucosyl-(heptosyl)3-Kdo2-lipid A-phosphate" [] "C137H241N2O65P3" 3049.306 +"CPD0-935" "glucosyl-(heptosyl)3-Kdo2-lipid A-bisphosphate" [] "C137H240N2O68P4" 3127.27 +"CPD0-936" "galactosyl-glucosyl-(heptosyl)3-Kdo2-lipid A-bisphosphate" [] "C143H250N2O73P4" 3289.412 +"CPD0-937" "galactosyl-(glucosyl)2-(heptosyl)3-Kdo2-lipid A-bisphosphate" ["Rb2 LPS"] "C149H260N2O78P4" 3451.554 +"CPD0-938" "galactosyl-(glucosyl)3-(heptosyl)3-Kdo2-lipid A-bisphosphate" ["Rb1 LPS"] "C155H270N2O83P4" 3613.696 +"CPD0-939" "core oligosaccharide-lipid A (E. coli K-12 core type with D-GlcNAc)" ["core oligosaccharide lipid A", "lipid A-core oligosaccharide (E. coli K-12 core type)", "core oligosaccharide-lipid A (E. coli K-12)", "lipid A-core (E. coli K-12)"] "C170H295N3O94P4" 4009.059 +"CPD0-944" "a rhamnosyl lipopolysaccharide" [] null null +"CPD0-954" "1,4-naphthoquinone" ["1,4-naphthalenedione"] "C10H6O2" 158.156 +"CPD0-955" "2,3-dihydroxy-5-methyl-1,4-benzoquinone" [] "C7H5O4" 153.114 +"CPD0-963" "a 2'-O-methylcytosine in tRNA" [] null null +"CPD0-967" "hexanediol 1,6-bisphosphate" ["hexanediol-1,6-diphosphate"] "C6H12O8P2" 274.104 +"CPD0-971" "an α-limit dextrin" ["a glycogen phosphorylase-limit dextrin", "a glycogen phosphorylase-limited dextrin"] "C156H262O131" null +"CPD1G-124" "a C52-α-meroacyl-adenylate" [] "C62H111N5O8P" null +"CPD1G-1531" "a mycolyl-arabinogalactan-peptidoglycan complex" ["mAGP", "MAPc"] null null +"CPD1G-159" "monobromobimane" ["mBBr"] "C10H11N2O2Br" 271.113 +"CPD1G-204" "a cis-methoxy-C59-meroacyl-adenylate" [] "C69H127N5O9P" 1201.764 +"CPD1G-252" "a trans-methoxy-C60-meroacyl-adenylate" [] "C70H129N5O9P" 1215.791 +"CPD1G-360" "a cis-keto-C60-meroacyl-adenylate" [] "C70H127N5O9P" 1213.775 +"CPD1G-408" "a trans-keto-C61-meroacyl-adenylate" [] "C70H127N5O9P" 1213.775 +"CPD1ZN3-1" "(7R,8S)-8-amino-7-(carboxyamino)nonanoate" [] "C10H19N2O4" 231.271 +"CPD3DJ-82" "a dihydroceramide" ["a plant ceramide (I)", "an N-acylsphinganine (C18)", "an octadecadihydroceramide", "a dihydroceramide (C18)"] null null +"CPD3O-0" "a [protein]-N6-acetyl-L-lysine" [] null null +"CPD66-39" "a 2,3,4-saturated fatty acid" [] null null +"CPDMETA-13650" "3-oxo-5,6-didehydrosuberyl-CoA semialdehyde" ["(5Z)-3,8-dioxooct-5-enoyl-CoA"] "C29H40N7O19P3S" 915.652 +"CPDQT-505" "a cholesteryl ester(18:2)" ["an 18:2 cholesteryl ester"] null null +"CpG-Sites" "a CpG site" [] null null +"CR+3" "Cr3+" ["Cr(III)", "chromium(III) cation", "chromic ion", "chromium(III)", "chromium(3+) ion"] "Cr" 52.0 +"CR+6" "Cr6+" ["Cr(VI)"] "Cr" 52.0 +"CREATINE" "creatine" ["methylguanidinoacetic acid", "N-amidinosarcosine", "methylglycocyamine", "N-methyl-N-guanylglycine"] "C4H9N3O2" 131.134 +"CREATINE-P" "Nω-phosphocreatine" ["creatine-phosphate", "neo-ton", "phosphorylcreatine", "phosphocreatine", "P-creatine", "creatine-P"] "C4H8N3O5P" 209.098 +"CROTONATE" "crotonate" ["2-butenoate", "b-methylacrylic acid", "trans-2-butenoic acid", "2-butenoic acid", "crotonic acid", "β-methylacrylic acid", "trans-but-2-enoate", "(E)-2-butenoate"] "C4H5O2" 85.082 +"CROTONO-BETAINE" "crotono-betaine" ["4-(trimethylamino)but-2-enoate", "crotonic acid betaine", "croton betaine", "(E)-4-(trimethylamino)but-2-enoate"] "C7H13NO2" 143.185 +"CROTONOBETAINYL-COA" "crotonobetainyl-CoA" ["(E)-4-(trimethylammonio)but-2-enoyl-CoA"] "C28H44N8O17P3S" 889.68 +"CROTONYL-COA" "crotonyl-CoA" ["crotonyl-S-CoA", "crotonyl-coenzyme A", "crotonoyl-CoA", "2-butenoyl-CoA", "trans-but-2-enoyl-CoA", "but-2-enoyl-CoA", "trans-butyr-2-enoyl-CoA", "(E)-but-2-enoyl-CoA"] "C25H36N7O17P3S" 831.577 +"CTAB" "CTAB" ["cetyltrimethylammoniumbromide", "Cetrimonium bromide"] "(C19NH42)Br" 364.451 +"CTP" "CTP" ["cytidine-triphosphate", "cytidine-5'-triphosphate"] "C9H12N3O14P3" 479.127 +"CU+" "Cu+" ["copper(I)", "cuprous ion", "cuprous copper", "CuI"] "Cu" 64.554 +"CU+2" "Cu2+" ["Cu++", "cupric ion", "cupric copper", "copper(II)", "CuII"] "Cu" 63.546 +"Cucurbitacins" "a cucurbitacin" [] null null +"Cullin-L-Lysine" "a [cullin]-L-lysine" [] null null +"Curdlan" "curdlan" [] null null +"CUSO4" "copper sulfate" ["cupric sulfate"] "Cu(SO4)" 159.604 +"Cutin-Monomers" "a cutin monomer" ["cutin monomer"] null null +"Cutins" "a cutin" ["cutin"] null null +"Cyanocobamides" "a cyanocobamide" [] null null +"Cyanohydrins" "a cyanohydrin" [] null null +"Cyanophycin" "cyanophycin" ["N-β-aspartylarginine", "[L-Asp(4-L-Arg)]n", "[L-4-(L-arginin-2-N-yl)aspartic acid]n", "poly{N4-[(1S)-1-carboxy-4-guanidinobutyl]-L-asparagine}", "multi-L-arginyl-poly [L-aspartic acid]"] null null +"Cyanophycin-aspartate" "[cyanophycin]-L-aspartate" ["[L-Asp(4-L-Arg)]n-L-Asp"] null null +"Cycic-Dipeptides" "a cyclic dipeptide" [] null null +"Cyclic-2-3-Ribonucleoside-Monophosphates" "a ribonucleoside 2',3'-cyclic phosphate" ["a nucleoside 2',3'-cyclic phosphate"] null null +"Cyclic-3-5-Nucleoside-Monophosphates" "a nucleoside cyclic 3',5'-monophosphate" [] null null +"Cyclic-Alcohols" "a cyclic alcohol" [] null null +"Cyclic-Amides" "a cyclic amide" [] null null +"Cyclic-Ketones" "a cyclic ketone" [] null null +"Cyclic-Monoterpene-Ketones" "a cyclic monoterpene ketone" [] null null +"Cyclic-N6-threonylcarbamoyl-A37-tRNAs" "a cyclic N6-L-threonylcarbamoyladenosine 37 in tRNA" ["ct6A37 tRNA"] null null +"Cyclic-Nucleoside-Monophosphates" "a nucleoside cyclic monophosphate" [] null null +"Cyclic-Nucleotides" "a cyclic nucleotide" [] null null +"Cyclic-Peptides" "a cyclic peptide" [] null null +"Cyclic-polypyrroles" "cyclic polypyrrole" [] null null +"Cyclic-Purine-Dinucleotides" "cyclic purine dinucleotide" [] null null +"Cyclic-Ribonucleoside-Monophosphates" "a nucleoside cyclic phosphate" ["nucleoside cyclic phosphate"] null null +"Cyclic-Terpene-Ketones" "a cyclic terpene ketone" [] null null +"Cyclic-tetrapyrroles" "a cyclic tetrapyrrole" [] null null +"Cyclitols" "a cyclitol" [] null null +"Cycloalkenes" "a cycloalkene" [] null null +"Cyclodextrins" "a cyclodextrin" ["a cyclomaltodextrin", "a Schardinger dextrin"] null null +"Cycloisomaltooligosaccharides" "a cycloisomaltooligosaccharide" [] null null +"Cypemycin" "cypemycin" [] null null +"Cypemycin-C-Terminal-Cys" "a [cypemycin] C-terminal L-Cys-L-Leu-L-Val-L-Cys" [] null null +"Cypemycin-N-terminal-dimethylalanine" "an N-terminal N,N-dimethyl-L-alanine-[cypemycin]" [] null null +"Cypemycin-N-terminal-L-alanine" "an N-terminal L-alanine-[cypemycin]" [] null null +"Cypemycin-N-Z-ethenethiol" "a C-terminal C3.19,S21-[cyclocypemycin]-L-Ala-L-Leu-L-valinamide" [] null null +"CYS" "L-cysteine" ["C", "carbocysteine", "cysteine", "Cys", "L-cys"] "C3H7NO2S" 121.154 +"CYS-GLY" "L-cysteinylglycine" ["Cys-Gly"] "C5H10N2O3S" 178.206 +"Cysteine-Desulfurase-L-cysteine" "an [L-cysteine desulfurase]-L-cysteine" [] null null +"CYSTINE" "L-cystine" [] "C6H12N2O4S2" 240.292 +"cystine" "cystine" ["3,3'-disulfanediylbis(2-aminopropanoic acid)"] "C6H12N2O4S2" 240.292 +"CYTIDINE" "cytidine" [] "C9H13N3O5" 243.219 +"Cytidine-32-tRNAs" "a cytidine 32 in tRNA" [] null null +"Cytidine-34-tRNAIle2" "a cytidine34 in tRNAIle2" [] null null +"Cytidine-34-tRNAmet" "a cytidine34 in [elongator tRNAmet]" ["[elongator tRNAmet]-cytidine34"] null null +"Cytidine-34-tRNAs" "a cytidine34 in tRNA" [] null null +"Cytidine-56-tRNAs" "a cytidine 56 in tRNA" [] null null +"Cytidine-In-Single-Stranded-DNAs" "a cytosine in single-stranded DNA" ["a cytosine in single-stranded DNA"] null null +"Cytidine-Nucleotides" "a cytidine nucleotide" [] null null +"Cytidine4-tRNAGly-GCC" "a cytidine4 in tRNAGly" [] null null +"Cytochrome-c-arginines" "[cytochrome c]-L-arginine" [] null null +"Cytochrome-c-L-lysine" "a [cytochrome c]-L-lysine" [] null null +"Cytochrome-c-L-methionine" "a [cytochrome c]-L-methionine" [] null null +"Cytochrome-c-N-O-methyl-arginines" "[cytochrome c]-Nω-methyl-arginine" ["[cytochrome c]-N6-methyl-arginine"] null null +"Cytochrome-c-N6-methyl-lysine" "a [cytochrome c]-N6-methyl-L-lysine" [] null null +"Cytochrome-c-S-methyl-methionine" "a [cytochrome c]-S-methyl-methionine" [] null null +"Cytokinins" "a cytokinin" [] null null +"CYTOSINE" "cytosine" ["4-amino-2-oxo-1,2-dihydropyrimidine", "C"] "C4H5N3O" 111.103 +"Cytosine-32-In-tRNAs" "a cytosine32 in tRNA" [] null null +"Cytosine-32-In-tRNAs-Sers" "a cytosine32 in tRNASer" [] null null +"Cytosine-32-tRNA-Thrs" "a cytosine32 in tRNAthr" [] null null +"Cytosine-34-tRNA-Precursors" "a cytosine34 in tRNA precursor" [] null null +"Cytosine-38-in-tRNAs" "a cytosine38 in tRNA" [] null null +"Cytosine-40-tRNA-Precursors" "a cytosine40 in tRNA precursor" [] null null +"Cytosine-48-tRNAs" "a cytosine48 in tRNA" [] null null +"Cytosine-49-tRNAs" "a cytosine49 in tRNA" [] null null +"Cytosine-6666-In-Apolipoprotein-B-mRNAs" "a cytosine6666 in apolipoprotein B mRNA" [] null null +"Cytosine-8-In-tRNAs" "a cytosine8 in tRNA" [] null null +"Cytosine-Nucleotides" "a cytosine nucleotide" [] null null +"Cytosine2278-in-25S-rRNA" "a cytosine2278 in 25S rRNA" [] null null +"Cytosine2870-in-25S-rRNA" "a cytosine2870 in 25S rRNA" [] null null +"D-2-hydroxyacids" "a (2R)-2-hydroxycarboxylate" ["a D-2-hydroxycarboxylate", "(R)-2-hydroxyacid", "(R)-2-hydroxycarboxylic acid"] null null +"D-3-HYDROXYACYL-COA" "a 2,3,4-saturated (3R)-3-hydroxyacyl-CoA" ["a D-3-hydroxyacyl-CoA", "an (R)-hydroxyacyl-CoA", "a cis-3-hydroxyacyl-CoA", "a 3-OH-acyl-CoA", "a 3-hydroxyacyl-CoA"] null null +"D-4-HYDROXY-2-KETO-GLUTARATE" "(4R)-4-hydroxy-2-oxoglutarate" ["D-4-hydroxy-2-ketoglutarate", "(R)-2-hydroxy-4-oxopentanedioate", "D-4-hydroxy-2-oxoglutarate", "D-4-hydroxy-2-keto-glutarate"] "C5H4O6" 160.083 +"D-5-Monosubstituted-Hydantoins" "a D-5-monosubstituted hydantoin" [] null null +"D-6-P-GLUCONO-DELTA-LACTONE" "6-phospho D-glucono-1,5-lactone" ["6-phosphogluconolactone", "D-6-phosphoglucono-δ-lactone", "D-6-P-glucono-δ-lactone", "D-glucono-1,5-lactone 6-phosphate", "D-glucono-δ-lactone 6-phosphate", "D-6-phospho-glucono-δ-lactone"] "C6H9O9P" 256.105 +"D-ALA-D-ALA" "D-alanyl-D-alanine" [] "C6H12N2O3" 160.172 +"D-ALANINE" "D-alanine" [] "C3H7NO2" 89.094 +"D-aldohexoses" "a D-aldohexose" [] null null +"D-Aldonolactones" "an aldono-1,5-lactone" [] "C6H10O6" null +"D-aldopyranoses" "a D-aldopyranose" [] null null +"D-Aldose-1-phosphates" "a D-aldose 1-phosphate" [] null null +"D-Aldoses" "a D-aldose" [] null null +"D-Allopyranose" "D-allopyranose" [] "C6H12O6" 180.157 +"D-ALLOSE-6-PHOSPHATE" "aldehydo-D-allose 6-phosphate" ["aldehydo-D-allose-6-P"] "C6H11O9P" 258.121 +"D-ALLULOSE-6-PHOSPHATE" "D-allulose 6-phosphate" ["D-allulose-6-P"] "C6H11O9P" 258.121 +"D-ALPHABETA-D-HEPTOSE-7-PHOSPHATE" "D-glycero-D-manno-heptose 7-phosphate" ["D-glycero-D-heptose 7-P", "D-glycero-α,β-D-manno-heptose 7-P", "D-α,β-D-heptose 7-phosphate"] "C7H13O10P" 288.147 +"D-ALTRONATE" "D-altronate" ["altronate"] "C6H11O7" 195.149 +"D-altropyranoses" "D-altropyranose" [] "C6H12O6" 180.157 +"D-altrose" "D-altrose" [] null null +"D-Amino-Acids" "a D-amino acid" ["D-α-amino acid"] null null +"D-APIOSE" "D-apiose" ["3-C-(hydroxymethyl)-D-glycero-tetrose"] "C5H10O5" 150.131 +"D-arabinofuranose" null [] "C5H10O5" 150.131 +"D-arabinopyranose" null [] "C5H10O5" 150.131 +"D-ARABINOSE" "D-arabinose" [] "C5H10O5" 150.131 +"D-aspartate-peptidoglycan" "ditrans,octacis-undecaprenyldiphospho-N-acetyl-(N-acetylglucosaminyl)muramoyl-L-alanyl-γ-D-glutamyl-N-(β-D-asparatyl)-L-lysyl-D-alanyl-D-alanine" ["[β-GlcNAc-(1-4)-Mur2Ac(oyl-L-Ala-γ-D-Glu-6-N-(β-D-Asp)-L-Lys-D-Ala-D-Ala)]n"] "C98H157N9O29P2" 1987.309 +"D-BETA-D-HEPTOSE-1-P" "D-glycero-β-D-manno-heptose 1-phosphate" ["D-β-D-heptose-1-phosphate"] "C7H13O10P" 288.147 +"D-BETA-D-HEPTOSE-17-DIPHOSPHATE" "D-glycero-β-D-manno-heptose 1,7-bisphosphate" ["D-β-D-heptose-1,7-bisphosphate", "D-glycero-β-D-manno-heptose 1,7-PP"] "C7H12O13P2" 366.112 +"D-CARNITINE" "D-carnitine" ["S-(+)-3-hydroxy-4-trimethylaminobutyrate", "(S)-carnitine"] "C7H15NO3" 161.2 +"D-CYSTEINE" "D-cysteine" [] "C3H7NO2S" 121.154 +"D-ERYTHRO-IMIDAZOLE-GLYCEROL-P" "D-erythro-1-(imidazol-4-yl)-glycerol 3-phosphate" ["D-erythro-imidazole-glycerol-phosphate", "D-erythro-imidazole-glycerol-P", "erythro-imidazole-glycerol-P", "erythro-imidazole-glycerol-phosphate", "imidazole glycerol phosphate", "IGP"] "C6H9N2O6P" 236.121 +"D-fructofuranose-1-phosphate" "D-fructofuranose 1-phosphate" [] "C6H11O9P" 258.121 +"D-fructofuranosyl-26-D-glucopyranosides" "[1-β-D-fructofuranosyl-(2->1)-](n) β-D-fructofuranosyl-(2->6)-α-D-glucopyranoside" [] null null +"D-fructofuranuronate" "D-fructofuranuronate" ["D-fructofuranuronic acid"] "C6H9O7" 193.133 +"D-Fructopyranose" "D-fructopyranose" [] "C6H12O6" 180.157 +"D-fructopyranose-1-phosphate" "D-fructopyranose 1-phosphate" [] "C6H11O9P" 258.121 +"D-fructose-1-phosphate" "D-fructose 1-phosphate" [] null null +"D-Fucoses" "D-fucose" ["6-deoxy-D-galactose"] "C6H12O5" 164.158 +"D-Gal-NAc--Glycoproteins" "an N-acetyl-α-D-galactosalaminyl-[glycoprotein]" ["a Tn antigen"] null null +"D-GALACTARATE" "galactarate" ["D-galactarate", "galactaric acid", "mucic acid", "meso-galactarate", "mucate"] "C6H8O8" 208.124 +"D-galactofuransoe" "D-galactofuranose" [] "C6H12O6" 180.157 +"D-GALACTONATE" "D-galactonate" ["galactonate"] "C6H11O7" 195.149 +"D-GALACTONO-1-4-LACTONE" "D-galactono-1,4-lactone" ["D-galactonate-γ-lactone", "galactono-γ-lactone", "D-galactonolactone", "D-galactono-γ-lactone", "D-galactonic acid γ-lactone", "γ-D-galactonolactone", "D-(-)-galactonic acid γ-lactone", "D-galactonic acid g-lactone"] "C6H10O6" 178.141 +"D-galactopyranose" "D-galactopyranose" [] "C6H12O6" 180.157 +"D-galactopyranose-6-phosphate" "D-galactopyranose 6-phosphate" [] "C6H11O9P" 258.121 +"D-Galactopyranuronate" "D-galactopyranuronate" ["D-galactopyranuronic acid"] "C6H9O7" 193.133 +"D-GALACTOSAMINE-6-PHOSPHATE" "D-galactosamine 6-phosphate" [] "C6H13NO8P" 258.144 +"D-Galactosaminides" "a D-galactosaminide" [] null null +"D-Galactose" "D-galactose" [] "C6H12O6" 180.157 +"D-galactose-1-phosphate" "a D-galactopyranose 1-phosphate" ["a D-galactose 1-phosphate"] "C6H11O9P" 258.121 +"D-galactose-6-phosphate" "a D-galactose 6-phosphate" [] null null +"D-Galactosyl-12-diacyl-glycerols" "a 1,2-diacyl-3-O-(β-D-galactopyranosyl)-sn-glycerol" ["a monogalactosyl-diacylglycerol", "a monogalactosyldiacylglycerol", "a D-galactosyldiacylglycerol", "a 3-(β-D-galactosyl)-1,2-diacyl-sn-glycerol", "a 3-β-D-galactosyl-1,2-diacylglycerol", "a monogalactosyldiglyceride", "MGDG", "a Galβ1->3acyl2Gro", "a mono-β-D-galactosyldiacylglycerol", "a 1,2-diacyl-3-β-D-galactosyl-sn-glycerol", "a β-monogalactosyldiacylglycerol", "a 1,2-diacyl-3-O-(β-D-galactosyl)-sn-glycerol"] null null +"D-GALACTOSYL-14-D-GALACTOSYL-14-D-" "a globotriosylceramide" ["a α-D-galactosyl-(1,4)-D-galactosyl-(1,4)-D-glucosylceramide", "an α-D-galactosyl-(1->4)-β-D-galactosyl-(1->4)-β-D-glucosylceramide", "a trihexosylceramide", "a D-galactosyl-1,4-D-galactosyl-1,4-D-glucosylceramide", "a Pk histo-blood group antigen"] null null +"D-GALACTOSYLAMINE" "D-galactosylamine" [] "C6H14NO5" 180.18 +"D-galactosylceramide" "a galactosyl cerebroside" ["a D-galactosylceramide", "a galactosylceramide", "a galactocerebroside", "GalCer"] null null +"D-Galactosylglycosaminoglycans" "a D-galactosylglycosaminoglycan" [] null null +"D-GALACTURONATE" "D-galacturonate" ["galacturonate", "D-galaturonate", "galaturonate", "D-galacturonic acid", "D-galactopyranuronic acid"] "C6H9O7" 193.133 +"D-galacturonate-rhamnogalacturonan" "α-D-galacturonate-[rhamnogalacturonan I oligosaccharide]" [] null null +"D-Glc-NAc--Glycoproteins" "an N-acetyl-β-D-glucosaminyl-[glycoprotein]" ["N-acetyl-β-D-glucosaminyl-glycopeptide", "N-acetyl-β-D-glucosaminyl-[glycoprotein]", "N-acetyl-D-glucosaminyl-polypeptide", "N-acetyl-D-glucosamoglycan", "glycoprotein N-acetyl-D-glucosamine", "N-acetyl-D-glucosamine-α-[glycoprotein]", "an N-acetyl-D-glucosaminyl-R"] null null +"D-GLT" "D-glutamate" ["D-glutamic acid", "D-glu"] "C5H8NO4" 146.122 +"D-GLUCARATE" "D-glucarate" ["glucarate", "D-glucaric acid", "L-gularic acid", "D-saccharic acid", "D-glucosaccharic acid", "saccharate", "(D)-glucarate", "D-saccharate"] "C6H8O8" 208.124 +"D-glucopyranose-6-phosphate" "D-glucopyranose 6-phosphate" ["D-glucopyranose-6-P"] "C6H11O9P" 258.121 +"D-Glucopyranuronate" "D-glucopyranuronate" ["D-glucopyranuronic acid"] "C6H9O7" 193.133 +"D-GLUCOSAMINE-6-P" "D-glucosamine 6-phosphate" ["D-glucosamine phosphate", "D-glucosamine 6-phosphate", "D-glucosamine-6-P"] "C6H13NO8P" 258.144 +"D-Glucosaminides" "a D-glucosaminide" [] null null +"D-Glucose" "D-glucose" ["D-gluco-hexose", "dextrose"] "C6H12O6" 180.157 +"D-glucose-1-phosphates" "D-glucose 1-phosphate" ["D-glucopyranose 1-phosphate"] "C6H11O9P" 258.121 +"D-Glucosyl-12-diacyl-glycerols" "a 1,2-diacyl-3-O-(β-D-glucopyranosyl)-sn-glycerol" ["a 3-D-glucosyl-1,2-diacylglycerol", "a monoglucosyl-diacylglycerol", "a monogalactosyldiacylglycerol", "a 3-(β-D-glucosyl)-1,2-diacyl-sn-glycerol", "a 3-β-D-glucosyl-1,2-diacylglycerol", "a monoglucosyldiglyceride", "MGlcDG", "a mono-β-D-glucosyldiacylglycerol", "a 1,2-diacyl-3-β-D-glucosyl-sn-glycerol", "a β-monoglucosyldiacylglycerol", "a 1,2-diacyl-3-O-(β-D-glucosyl)-sn-glycerol"] null null +"D-GLUTAMYL-PEPTIDE" "a 5-D-glutamyl-[peptide]" ["a γ-D-glutamyl-[peptide]"] null null +"D-Gulose" "D-gulose" [] null null +"D-gulosides" "a D-guloside" [] null null +"D-Heptoses" "a D-heptose" [] null null +"D-Hexose-Phosphate" "a D-hexose-phosphate" [] null null +"D-Hexoses" "a D-hexose" ["a D-hexopyranose"] null null +"D-idopyranuronate" "D-idopyranuronate" ["D-idopyranuronic acid"] "C6H9O7" 193.133 +"D-Iduronate" "D-iduronate" [] "C6H9O7" 193.133 +"D-L-Xylose" "xylose" [] null null +"D-LACTATE" "(R)-lactate" ["(R)-2-hydroxypropanate", "D-lactate", "(R)-lactic acid", "D-lactic acid"] "C3H5O3" 89.071 +"D-MANNONATE" "D-mannonate" ["mannonate"] "C6H11O7" 195.149 +"D-mannopyranose" "D-mannopyranose" ["carubinose", "seminose"] "C6H12O6" 180.157 +"D-Mannopyranuronate" "D-mannopyranuronate" ["D-mannopyranuronic acid"] "C6H9O7" 193.133 +"D-Mannosamines" "D-mannosamine" ["2-amino-2-deoxy-D-Mannose"] "C6H14NO5" 180.18 +"D-mannosyl-Lipid-linked-oligos" "an α-D-mannosyl lipid-linked-oligosaccharide" [] null null +"D-mannuronates" "D-mannuronate" ["D-mannuronic acid"] "C6H9O7" 193.133 +"D-METHYL-MALONYL-COA" "(S)-methylmalonyl-CoA" ["D-methylmalonyl-CoA", "methyl-malonyl-coenzyme A", "CH3-malonyl-CoA", "(2S)-methyl-malonyl-CoA"] "C25H35N7O19P3S" 862.568 +"D-MYO-INOSITOL-1-MONOPHOSPHATE" "1D-myo-inositol 1-monophosphate" ["1D-myo-inositol (1)-monophosphate", "1D-myo-Inositol 1-phosphate", "D-myo-inositol (1)-monophosphate", "Ins(1)P1", "1-D-myo-inositol-1-p", "1D-myo-inositol 1-phosphate", "Ins1P"] "C6H11O9P" 258.121 +"D-myo-inositol-pentakisphosphates" "a D myo-inositol penta kis phosphate" [] "C6H7O21P5" 569.977 +"D-Pentoses" "a D-pentose" [] null null +"D-Phenylalanyl-Acps" "D-phenylalanyl-[gramicidin-S synthetase]" ["(3R)-3-amino-4-phenylbutan-2-one-[NRPS-pcp]"] null null +"D-Psicose" "D-psicose" [] "C6H12O6" 180.157 +"D-quinovopyranose" "D-quinovopyranose" [] "C6H12O5" null +"D-quinovose" "D-quinovose" [] "C6H12O5" null +"D-rhamnopyranoses" "D-rhamnopyranose" ["D-rhamnose"] "C6H12O5" 164.158 +"D-Rhamnose" "D-rhamnose" [] null null +"D-Ribofuranose" "D-ribofuranose" [] "C5H10O5" 150.131 +"D-Ribopyranose" "D-ribopyranose" [] "C5H10O5" 150.131 +"D-Ribosyl-Base" "a D-ribosyl-base" [] null null +"D-RIBULOSE" "D-ribulose" ["D-erythro-pentulose", "D-erythropentulose", "erythropentulose"] "C5H10O5" 150.131 +"D-RIBULOSE-1-P" "D-ribulose 1-phosphate" ["D-ribulose-1-P"] "C5H9O8P" 228.095 +"D-SEDOHEPTULOSE-1-7-P2" "D-sedoheptulose 1,7-bisphosphate" ["sedoheptulose 1,7-bisphosphate", "SBP"] "C7H12O13P2" 366.112 +"D-SEDOHEPTULOSE-7-P" "D-sedoheptulose 7-phosphate" ["D-Sedoheptulose-7-P", "heptulose 7-phosphate", "sedoheptulose-7-P", "sedo-heptulose-7-phosphate"] "C7H13O10P" 288.147 +"D-SERINE" "D-serine" [] "C3H7NO3" 105.093 +"D-SORBITOL-6-P" "D-sorbitol 6-phosphate" ["D-glucitol 6-phosphate"] "C6H13O9P" 260.137 +"D-sorbose-1-phosphate" "a D-sorbose 1-phosphate" [] null null +"D-tagatofuranose" "D-tagatofuranose" [] "C6H12O6" 180.157 +"D-tagatose" "D-tagatose" [] "C6H12O6" 180.157 +"D-TAGATURONATE" "D-tagaturonate" ["tagaturonate", "D-arabino-hex-5-ulosonate"] "C6H9O7" 193.133 +"D-TARTRATE" "D-tartrate" ["(-)-tartrate", "(-)-tartaric acid", "D-tartarate", "(S,S)-tartrate", "D-tartaric acid", "(2S,3S)-tartaric acid", "(2S,3S)-tartrate", "(S,S)-tartaric acid"] "C4H4O6" 148.072 +"D-Tetroses" "a D-tetrose" [] null null +"D-THREONINE" "D-threonine" ["D-thr", "2-amino-3-hydroxybutyric acid", "(2R,3S)-2-amino-3-hydroxybutanoic acid", "(2R,3S)-2-amino-3-hydroxybutanoate"] "C4H9NO3" 119.12 +"D-TRYPTOPHAN" "D-tryptophan" [] "C11H12N2O2" 204.228 +"D-TYROSINE" "D-tyrosine" ["2-amino-3-(4-hydroxyphenyl)-propanoic acid"] "C9H11NO3" 181.191 +"D-XYLONATE" "D-xylonate" [] "C5H9O6" 165.122 +"D-Xylopyranose" "D-xylopyranose" [] "C5H10O5" 150.131 +"D-Xylose" "D-xylose" ["(+)-xylose", "(D)-Xylose", "D-Xyl", "wood sugar"] "C5H10O5" 150.131 +"D-XYLULOSE" "D-xylulose" ["xylulose", "D-threo-pentulose"] "C5H10O5" 150.131 +"D2-ENOYL-COA" "a 2-enoyl-CoA" ["2,3-dehydroacyl-CoA", "RCH=CHCO-CoA", "a Δ2-enoyl-CoA", "a 2,3-dehydroacyl-CoA"] null null +"DADP" "dADP" ["2'-deoxyadenosine-5'-diphosphate", "deoxyadenosine-diphosphate"] "C10H12N5O9P2" 408.18 +"DAG-18-2-16-0S" "a diacylglycerol(18:2/16:0)" ["a DAG(18:2/16:0)"] null null +"DAMP" "dAMP" ["2'-deoxyadenosine 5'-phosphate", "deoxyadenosine-phosphate", "2'-deoxyadenosine 5''-monophosphate", "2'-dAMP"] "C10H12N5O6P" 329.208 +"DATP" "dATP" ["2'-deoxyATP", "2'-deoxyadenosine triphosphate", "deoxy-ATP", "deoxyadenosine-triphosphate", "2'-deoxyadenosine-5'-triphosphate"] "C10H12N5O12P3" 487.152 +"DCDP" "dCDP" ["2'-deoxycytidine diphosphate", "2'-deoxycytidine-5'-diphosphate", "deoxycytidine-diphosphate"] "C9H12N3O10P2" 384.155 +"DCMP" "dCMP" ["2'-deoxycytidine 5'-monophosphate", "deoxycytidylate", "deoxycytidylic acid", "deoxycytidine monophosphate", "2'-deoxycytidine 5'-phosphate", "deoxycytidine-phosphate"] "C9H12N3O7P" 305.183 +"dCpdG-DNAs" "a dCpdG DNA" [] null null +"DCPIP" "oxidized DCPIP" ["2,6-dichloro-4-[(4-hydroxyphenyl)imino]", "dichloroindophenol", "2,5-cyclohexadien-1-ol", "DCPIP", "2,6-dichlorophenolindophenol", "2,6-dichloro-4-[(4-hydroxyphenyl)imino]cyclohexa-2,5-dien-1-one", "oxidized dichloroindophenol", "oxidized 2,6-dichlorophenolindophenol", "oxidized DCIP"] "C12H7NO2Cl2" 268.099 +"DCTP" "dCTP" ["2'-deoxycytidine-5'-triphosphate", "deoxycytidine-triphosphate", "deoxy-CTP"] "C9H12N3O13P3" 463.127 +"DDP-NAcMur-Peptides" "a DDP-N-acetylmuramoyl-pentapeptide" [] null null +"DE-O-GLUCONATE" "2-deoxy-D-gluconate" ["2-deoxygluconate", "2-deoxy-D-gluconic acid"] "C6H11O6" 179.149 +"DE-O-K-GLUCONATE" "3-dehydro-2-deoxy-D-gluconate" ["3-dehydro-2-deoxy-gluconate", "de-O-K-gluconate", "2-deoxy-3-ketogluconate", "2-deoxy-3-oxogluconate", "deoxy-ketogluconate", "2-deoxy-3-dehydro-D-gluconate"] "C6H9O6" 177.133 +"Deacetylated-Peptidoglycan" "a deacetylated peptidoglycan" [] null null +"Deamido-bleomycins" "a deamido-bleomycin" [] null null +"DEAMIDO-NAD" "nicotinate adenine dinucleotide" ["deamino-NAD+", "NaADN", "deamido-NAD+", "deamidonicotinamide adenine dinucleoetide", "deamido-NAD", "NaAD"] "C21H24N6O15P2" 662.399 +"Deaminated-Amine-Donors" "a deaminated amino group donor" ["a deaminated amino group acceptor"] null null +"DECOYININE" "decoyinine" ["angustmycin A"] "C11H13N5O4" 279.255 +"DEHYDRO-3-DEOXY-L-RHAMNONATE" "2-dehydro-3-deoxy-L-rhamnonate" ["2-keto-3-deoxy-L-rhamnonate", "Kdr", "2-dehydro-3,6-dideoxy-L-mannonate", "2-dehydro-3-deoxy-L-rhamnonic acid", "L-2-keto-3-deoxyrhamnonate", "L-Kdr"] "C6H9O5" 161.134 +"DEHYDRO-DEOXY-GALACTONATE-PHOSPHATE" "2-dehydro-3-deoxy-D-galactonate 6-phosphate" ["2-keto-3-deoxy-D-galactonate 6-phosphate"] "C6H8O9P" 255.098 +"DEHYDROQUINATE" "3-dehydroquinate" ["3-dehydroquinic acid", "5-dehydroquinic acid", "5-dehydroquinate", "5-de-H-quinate", "rel-(1R,3R,4S)-1,3,4-trihydroxy-5-oxocyclohexanecarboxylate"] "C7H9O6" 189.144 +"Delta-14-steroids" "a Δ14steroid" [] null null +"Delta-GalA-rhamnogalacturonan" "4-deoxy-4,5-unsaturated α-D-galactopyranosyluronate-[rhamnogalacturonan I oligosaccharide]" [] null null +"Delta-Lactams" "a δ-lactam" [] null null +"Delta-lactones" "a δ-lactone" [] null null +"Delta-Selinenes" "a δ-selinene" ["a (4aR)-1,4a-dimethyl-7-(propan-2-yl)-2,3,4,4a,5,6-hexahydronaphthalene", "a naphthalene, 2,3,4,4a,5,6-hexahydro-1,4a-dimethyl-7-(1-methylethyl)-", "a β-cyperene"] "C15H24" 204.355 +"DELTA1-PIPERIDEINE-2-6-DICARBOXYLATE" "(S)-2,3,4,5-tetrahydrodipicolinate" ["2,3,4,5-tetrahydrodipicolinate", "(S)-2,3,4,5-tetrahydropyridine-2,6-dicarboxylate", "Δ1-piperideine-2,6-dicarboxylate", "tetrahydrodipicolinate", "tetrahydropyridine-2,6-dicarboxylate", "L-2,3,4,5-tetrahydrodipicolinate"] "C7H7NO4" 169.137 +"DELTA3-ISOPENTENYL-PP" "isopentenyl diphosphate" ["isopentenyl-pp", "isopentenyl pyrophosphate", "δ(3)-isopentenyl-PP", "Δ3-isopentenyl-PP", "3-methylbut-3-enyl diphosphate", "3-methylbut-3-enyl pyrophosphate"] "C5H9O7P2" 243.069 +"Delta5-Delta7-Steroids" "a Δ5,7-sterol" [] null null +"Delta7-Steroids" "a Δ7-sterol" [] null null +"Demethylated-methyl-acceptors" "a demethylated methyl donor" ["a demethylated methyl acceptor"] null null +"Demethylated-Ubiquinols" "a 3-demethyubiquinol" ["a 3-methoxy-6-methyl-5-(all trans-polyprenyl)benzene-1,2,4-triol"] null null +"Demethylmenaquinols" "a 2-demethylmenaquinol" [] null null +"DEMETHYLMENAQUINONE" "2-demethylmenaquinone-8" ["demethylmenaquinone 8"] "C50H70O2" 703.102 +"Demethylmenaquinones" "a 2-demethylmenaquinone" [] null null +"DEOXY-D-RIBOSE-1-PHOSPHATE" "2-deoxy-α-D-ribose 1-phosphate" ["deoxy-D-ribose 1-phosphate", "2-deoxy-D-ribose-1-phosphate"] "C5H9O7P" 212.096 +"DEOXY-OH-METHYLCYTIDINE-TRIPHOSPHATE" "2'-deoxy-5-hydroxymethylcytidine-5'-triphosphate" ["hydroxymethyl-dCTP"] "C10H14N3O14P3" 493.154 +"Deoxy-Ribonucleoside-3P" "a 2'-deoxyribonucleoside 3'-monophosphate" ["a deoxyribonucleoside 3'-monophosphate", "deoxynucleoside 3'-phosphate", "a 2'-deoxynucleoside 3'-monophosphate", "a 2'-deoxynucleoside 3'-phosphate", "a deoxynucleoside 3'-monophosphate"] null null +"Deoxy-Ribonucleoside-Diphosphates" "a 2'-deoxyribonucleoside 5'-diphosphate" ["a deoxyribonucleoside diphosphate", "a deoxynucleoside diphosphate", "2'-deoxyribonucleoside diphosphate", "deoxynucleoside diphosphate", "deoxyribonucleoside diphosphate", "a 2'-deoxyribonucleoside diphosphate"] null null +"Deoxy-Ribonucleoside-Monophosphates" "a 2'-deoxyribonucleoside 5'-monophosphate" ["a deoxyribonucleoside monophosphate", "a 2'-deoxynucleoside 5'-monophosphate", "a 2'-deoxynucleoside 5'-phosphate", "a deoxynucleoside monophosphate", "a deoxynucleoside 5'-monophosphate"] null null +"Deoxy-Ribonucleoside-Triphosphates" "a 2'-deoxyribonucleoside 5'-triphosphate" ["a deoxynucleoside triphosphate", "a deoxyribonucleoside triphosphate", "a dNTP"] null null +"Deoxy-Ribonucleosides" "a 2'-deoxyribonucleoside" ["a deoxyribonucleoside"] null null +"DEOXY-RIBOSE-1P" "deoxyribose 1-phosphate" [] "C5H9O7P" 212.096 +"DEOXY-RIBOSE-5P" "2-deoxy-D-ribose 5-phosphate" [] "C5H9O7P" 212.096 +"DEOXYADENOSINE" "2'-deoxyadenosine" ["deoxyadenosine", "2-deoxy-adenosine"] "C10H13N5O3" 251.244 +"DEOXYCHOLATE" "deoxycholate" ["deoxycholic acid", "3α,12α-dihydroxy-5β-cholanate"] "C24H39O4" 391.57 +"DEOXYCYTIDINE" "2'-deoxycytidine" ["d-cytidine", "deoxycytidine"] "C9H13N3O4" 227.219 +"DEOXYGUANOSINE" "2'-deoxyguanosine" ["deoxyguanosine"] "C10H13N5O4" 267.244 +"Deoxyhypusine-Synthase-Lysine" "a [deoxyhypusine synthase]-L-lysine" [] null null +"DEOXYINOSINE" "2'-deoxyinosine" ["deoxyinosine"] "C10H12N4O4" 252.229 +"DEOXYMORPHOLINOFRUCTOSE" "1-deoxy-1-morpholino-D-fructose" [] "C10H19NO6" 249.263 +"Deoxynucleoside-Derivatives" "a deoxynucleoside derivative" [] null null +"Deoxynucleotides" "a 2'-deoxyribonucleotide" ["a deoxynucleotide", "a deoxyribonucleotide"] null null +"Deoxyribonucleosides-in-DNA" "a deoxyribonucleoside within DNA" [] null null +"Deoxystreptamine-Antib" "a 2-deoxystreptamine antibiotic" [] null null +"DEOXYURIDINE" "2'-deoxyuridine" ["deoxyuridine"] "C9H12N2O5" 228.204 +"DEOXYXYLULOSE-5P" "1-deoxy-D-xylulose 5-phosphate" ["DXP", "deoxyxylulose-5-phosphate", "D-1-deoxyxylulose-5-P", "1-deoxy-D-threo-pentulose 5-phosphate", "DOXP"] "C5H9O7P" 212.096 +"DEPHOSPHO-COA" "3'-dephospho-CoA" ["3-dephospho-CoA", "dephosphocoenzyme A"] "C21H33N7O13P2S" 685.538 +"Depsipeptides" "a depsipeptide" [] null null +"DERMATAN-L-IDURONATE" "an α-L-iduronate in [dermatan]" ["[dermatan]-α-L-iduronate", "a [dermatan] containing α-L-iduronate"] null null +"Dermatan-NacGal" "[dermatan] containing N-acetyl-D-galactosamine" ["[dermatan]-N-acetylgalactosamine"] null null +"Dermatan-NAcGal-4-sulfates" "[dermatan sulfate] containing 4-O-sulfo-N-acetyl-D-galactosamine" ["[dermatan]-N-acetyl-galactosamine 4'-sulfate", "[dermatan]-4-O-sulfo-N-acetylgalactosamine"] null null +"Dermatan-NAcGal-46-disulfates" "[dermatan sulfate] containing 4,6-di-O-sulfo-N-acetyl-D-galactosamine" ["[dermatan]-N-acetyl-galactosamine 4',6'-disulfate", "[dermatan]-N-acetyl-galactosamine 4',6'-bissulfate"] null null +"Dermatan-NAcGal-6-sulfates" "[dermatan]-6-O-sulfo-N-acetylgalactosamine" ["[dermatan]-N-acetyl-galactosamine 6'-sulfate"] null null +"Dermatan-Sulfate" "dermatan sulfate" [] null null +"Dermatan-sulfate-disaccharides" "dermatan sulfate disaccharide" ["DUA-GalNAC-4S"] "C14H21NO18S2" 555.436 +"Dermatan-sulfate-L-IdoA2S" "a 2-O-sulfo-α-L-iduronate in [dermatan]" ["[dermatan-sulfate] containing 2-O-sulfo-α-L-iduronate"] null null +"DETHIOBIOTIN" "dethiobiotin" ["desthiobiotin", "DTB"] "C10H17N2O3" 213.256 +"DEXTRAN" "a dextran" ["DEAE-dextran", "dextran T 500-", "dextran T 40-", "dextran B 1355-S", "dextran B 1355-", "saviosol", "rondex", "rheopolyglucin", "rheomacrodex", "rheoisodex", "rheodextran", "promit", "polyglucin", "macrodex", "infukoll", "hyskon", "hemodex", "dextran 80-", "dextran 75-", "dextran 70-", "dextran 40000-", "dextran 40-", "dextran T-500-", "dextran T-40-", "dextran T 70-", "dextran M 70-", "dextran b512", "dextran b1355", "dextran B-1355-", "dextran B-1355-S"] null null +"Dextran-Fragments" "a dextran fragment" [] null null +"Dextrins" "a dextrin" ["dextrin"] null null +"DGDG" "a digalactosyldiacylglycerol" ["DGDG"] null null +"DGDP" "dGDP" ["2'-deoxyguanosine-5'-diphosphate", "deoxyguanosine-diphosphate"] "C10H12N5O10P2" 424.18 +"DGMP" "dGMP" ["2'-dG-5'-MP", "2'-deoxyguanosine 5'-monophosphate", "guanine riboside", "vernine", "2'-deoxyguanosine 5'-phosphate", "deoxyguanosine-phosphate"] "C10H12N5O7P" 345.208 +"DGTP" "dGTP" ["2'-deoxyguanosine-5'-triphosphate", "deoxy-GTP", "deoxyguanosine-triphosphate"] "C10H12N5O13P3" 503.152 +"DI-H-OROTATE" "(S)-dihydroorotate" ["dihydro-L-orotate", "(S)-4,5-dihydroorotate", "(S)-4,5-dihydroorotic acid", "(S)-hydroorotic acid", "(S)-di-H-orotate", "L-dihydroorotate", "4,5-dihydro-L-orotate", "L-4,5-dihydroorotate", "(S)-4-pyrimidinecarboxylic acid"] "C5H5N2O4" 157.105 +"DI-H-URACIL" "5,6-dihydrouracil" ["dihydrouracil", "DI-H-uracil"] "C4H6N2O2" 114.104 +"DI-N-ACETYL-BETA-D-GLUCOSAMINYL" "N-acetyl-β-D-glucosaminyl-1,2-α-D-mannosyl-1,3-(N-acetyl-β-D-glucosaminyl-1,2-α-D-mannosyl-1,6)-β-D-mannosyl-1,4-N-acetyl-β-D-glucosaminyl-R" [] null null +"Di-Rhamnolipids" "a di-rhamnolipid" [] null null +"Di-trans-poly-cis-polyprenyl-PP" "a di-trans, poly-cis-polyisoprenyl diphosphate" [] null null +"DIACETYL" "diacetyl" ["2,3-butanedione", "biacetyl", "dimethylglyoxal", "2,3-diketobutane", "2,3-dioxobutane", "butadione", "dimethyl diketone", "butanedione"] "C4H6O2" 86.09 +"DIACETYLCHITOBIOSE-6-PHOSPHATE" "N,N'-diacetylchitobiose 6'-phosphate" ["diacetylchitobiose 6-phosphate"] "C16H27N2O14P" 502.368 +"diacyl-3-Glc-16-Glc-16-Glc-glycerol" "a 1,2-diacyl-3-O-[β-D-glucopyranosyl-(1->6)-O-β-D-glucopyranosyl-(1->6)-β-D-glucopyranosyl]-sn-glycerol" ["triglucosyl-1,2 diacylglycerol"] null null +"diacyl-3-O-glucl-1-6-gluc-sn-glycerol" "a 1,2-diacyl-3-O-[β-D-glucopyranosyl-(1->6)-O-β-D-glucopyranosyl]-sn-glycerol" ["diglucosyl-diacylglycerol", "Glc2-DAG"] null null +"Diacyl-sn-Glycerols" "a diacyl-sn-glycerol" [] null null +"Diacylglycerides" "a diglyceride" ["a diacylglycerol"] null null +"DIACYLGLYCEROL" "a 1,2-diacyl-sn-glycerol" ["a D-1,2-diglyceride", "a 1,2-diacylglycerol", "a D-1,2-diacylglycerol", "DAG"] null null +"Diacylglycerol-NNN-trimethylhomoserines" "a diacylglyceryl-N,N,N-trimethylhomoserine" ["DGTS"] null null +"Diacylglycerol-Prolipoproteins" "an (S-diacyl-sn-glyceryl)-L-cysteinyl-[apolipoprotein]" [] null null +"DIACYLGLYCEROL-PYROPHOSPHATE" "a 1,2-diacyl-sn-glycerol 3-diphosphate" ["DGPP", "a diacylglycerol pyrophosphate", "a 1,2-diacylglycerol 3-diphosphate", "a diacylglycerol 3-diphosphate"] null null +"Diacylglycerolhomoserines" "a diacylglycerolhomoserine" ["DGHS"] null null +"Diadenosine-polyphosphates" "a diadenosine polyphosphate" [] null null +"Dialkyl-phosphates" "a dialkyl phosphate" [] null null +"DIALKYLKETONE-CPD" "a dialkyl ketone" [] null null +"Diamines" "a diamine" [] null null +"DIAMINO-OH-PHOSPHORIBOSYLAMINO-PYR" "2,5-diamino-6-(5-phospho-D-ribosylamino)pyrimidin-4(3H)-one" ["2,5-diamino-6-hydroxy-4-(5-phosphoribosylamino)pyrimidine", "DARP", "2,5-diamino-6-(1-D-ribosylamino)pyrimidin-4(3H)-one 5'-phosphate", "2,5-diamino-6-(ribosylamino)-4-(3H)-pyrimidinone 5'-phosphate", "2,5-diamino-6-(D-ribosylamino)pyrimidin-4(3H)-one 5'-phosphate"] "C9H14N5O8P" 351.212 +"DIAMINONONANOATE" "(7R,8S)-diaminononanoate" ["(7R,8S)-7,8-diaminopelargonate", "DAPA"] "C9H21N2O2" 189.277 +"Diaryl-Sulfone-Derivatives" "a diaryl sulfone derivative" [] null null +"Diazines" "a diazine" [] null null +"dicarboxylate" "a dicarboxylate" [] null null +"DICARBOXYLIC-ACID-MONOAMIDES" "a monoamide of a dicarboxylate" ["monoamide of a dicarboxylic acid"] null null +"Dichlorobenzoate" "a dichlorobenzoate" [] null null +"DICOUMAROL" "dicoumarol" ["dicoumarin", "melitoxin", "bis-hydroxycoumarin", "dicumarol"] "C19H12O6" 336.3 +"Dietary-retinyl-esters" "a dietary all-trans-retinyl ester" [] null null +"DIETHYLDITHIOCARBAMATE" "diethyldithiocarbamate" ["diethyldithiocarbamic acid", "Ditiocarb", "diethylcarbamodithioic acid", "diethyldithione", "Imuthiol", "diethyl dithiocarbamate", "DIECA"] "C5H10NS2" 148.261 +"DIETHYLPYROCARBONATE" "diethylpyrocarbonate" ["DEPC"] "C6H10O5" 162.142 +"Difucosyl-sialyl-Lewis-X" "a difucosylated sialylated Lewis x epitope" ["αNeuNAc-(2→3)-βGal-(1→4)-[αFuc-(1→3)-βGlcNAc]-(1→3)-βGal-(1→4)-[αFuc-(1→3)-βGlcNAc]-R", "NeuNAca2→3Galβl→4[Fuca(l→3)GlcNAc]1→3Galβl→4[Fuca(l→3)GlcNAc]-R"] null null +"Digalactosyldiacylglycerols-34-1" "digalactosyldiacylglycerol-34:1" ["DGDG-34:1", "DGDG34:1"] null null +"Digalactosyldiacylglycerols-34-2" "digalactosyldiacylglycerol-34:2" ["DGDG-34:2", "DGDG34:2"] null null +"Digalactosyldiacylglycerols-34-3" "digalactosyldiacylglycerol-34:3" ["DGDG-34:3", "DGDG34:3"] null null +"Digalactosyldiacylglycerols-34-4" "digalactosyldiacylglycerol-34:4" ["DGDG-34:4", "DGDG34:4"] null null +"Digalactosyldiacylglycerols-34-5" "digalactosyldiacylglycerol-34:5" ["DGDG-34:5", "DGDG34:5"] null null +"Digalactosyldiacylglycerols-34-6" "digalactosyldiacylglycerol-34:6" ["DGDG-34:6", "DGDG34:6"] null null +"Digalactosyldiacylglycerols-36-1" "digalactosyldiacylglycerol-36:1" ["DGDG-36:1", "DGDG36:1"] null null +"Digalactosyldiacylglycerols-36-2" "digalactosyldiacylglycerol-36:2" ["DGDG-36:2", "DGDG36:2"] null null +"Digalactosyldiacylglycerols-36-3" "digalactosyldiacylglycerol-36:3" ["DGDG-36:3", "DGDG36:3"] null null +"Digalactosyldiacylglycerols-36-4" "digalactosyldiacylglycerol-36:4" ["DGDG-36:4", "DGDG36:4"] null null +"Digalactosyldiacylglycerols-36-5" "digalactosyldiacylglycerol-36:5" ["DGDG-36:5", "DGDG36:5"] null null +"Digalactosyldiacylglycerols-36-6" "digalactosyldiacylglycerol-36:6" ["DGDG-36:6", "DGDG36:6"] null null +"Digalactosyldiacylglycerols-38-3" "digalactosyldiacylglycerol-38:3" ["DGDG-38:3", "DGDG38:3"] null null +"Digalactosyldiacylglycerols-38-4" "digalactosyldiacylglycerol-38:4" ["DGDG-38:4", "DGDG38:4"] null null +"Digalactosyldiacylglycerols-38-5" "digalactosyldiacylglycerol-38:5" ["DGDG-38:5", "DGDG38:5"] null null +"Digalactosyldiacylglycerols-38-6" "digalactosyldiacylglycerol-38:6" ["DGDG-38:6", "DGDG38:6"] null null +"Digitoxose" "digitoxose" [] null null +"DIHYDRO-DIOH-BENZOATE" "(2S,3S)-2,3-dihydroxy-2,3-dihydrobenzoate" [] "C7H7O4" 155.13 +"Dihydro-Lipoyl-Proteins" "a [lipoyl-carrier protein]-N6-[(R)-dihydrolipoyl]-L-lysine" ["an [enzyme]-N6-(dihydrolipoyl)lysine"] null null +"DIHYDRO-NEO-PTERIN" "D-erythro-7,8-dihydroneopterin" ["2-amino-4-hydroxy-6-(D-erythro-1,2,3-trihydroxypropyl)-7,8-dihydropteridine", "2-amino-4-hydroxy-6-(D-erythro)-trihydroxypropyldihydropteridine", "dihydro-neo-pterin", "DHN", "7,8-dihydro-D-neopterin"] "C9H13N5O4" 255.233 +"DIHYDRO-SPHINGOSINE" "a sphinganine" ["a dihydrosphingosine"] null null +"DIHYDRO-THYMINE" "5,6-dihydrothymine" ["dihydrothymine"] "C5H8N2O2" 128.13 +"Dihydrocarveols" "a dihydrocarveol" [] "C10H18O" 154.252 +"Dihydrocarvones" "a dihydrocarvone" [] "C10H16O" 152.236 +"DIHYDROCOUMARIN" "3,4-dihydrocoumarin" ["meliotine", "2-chromanone", "melilotin", "melilotol", "melilotic lactone", "o-hydroxydihydrocinnamic acid lactone", "hydrocoumarin", "2-hydroxydihydrocinnamic acid lactone", "1,2-benzodihydropyrone"] "C9H8O2" 148.161 +"Dihydroflavonols" "a dihydroflavonol" [] null null +"DIHYDROFOLATE" "7,8-dihydrofolate monoglutamate" ["7,8-pteroylglutamic acid", "7,8-pteroylglutamate", "7,8-dihydropteroyl monoglutamate", "H2PteGlu", "H2PteGlu1", "dihydrofolate", "7,8-dihydropteroylglutamate", "7,8-dihydrofolate"] "C19H19N7O6" 441.402 +"Dihydrofolate-Derivatives" "a dihydrofolate derivative" [] null null +"DIHYDROFOLATE-GLU-N" "a 7,8-dihydrofolate" ["a dihydropteroate glutamate"] null null +"Dihydrofurano-Derivatives" "a dihydrofurano derivative" [] "C21H22O7" null +"DIHYDROLIPOAMIDE" "dihydrolipoamide" [] "C8H17NOS2" 207.348 +"DIHYDROLIPOYL-GCVH" "a [glycine-cleavage complex H protein] N6-dihydrolipoyl-L-lysine" [] null null +"Dihydromenaquinols" "a dihydromenaquinol" [] null null +"Dihydromenaquinones" "a dihydromenaquinone" [] null null +"DIHYDROMONAPTERIN-TRIPHOSPHATE" "7,8-dihydromonapterin triphosphate" ["H2MTP", "6-(L-threo-1',2',3'-trihydroxypropyl)-7,8-dihydropterin-3'-triphosphate", "dihydromonapterin-triphosphate", "D-threo-7,8-dihydroneopterin triphosphate"] "C9H12N5O13P3" 491.141 +"DIHYDRONEOPTERIN-P" "7,8-dihydroneopterin 3'-phosphate" ["dihydroneopterin 3'-monophosphate", "dihydroneopterin-P", "2-amino-4-hydroxy-6-(erythro-1,2,3-trihydroxypropyl)dihydropteridine phosphate", "dihydroneopterin 3'-phosphate", "7,8-dihydro-D-neopterin 3'-phosphate"] "C9H12N5O7P" 333.197 +"DIHYDRONEOPTERIN-P3" "7,8-dihydroneopterin 3'-triphosphate" ["6-(L-erythro-1,2-dihydroxypropyl 3-triphosphate)-7,8-dihydropterin", "6-[(1S,2R)-1,2-dihydroxy-3-triphosphooxypropyl]-7,8-dihydropterin", "6-(D-erythro-1',2',3'-trihydroxypropyl)-7,8-dihydropterin-3'-triphosphate", "7,8-dihydroneopterin 3'-triphosphate", "2-amino-4-hydroxy-6-(erythro-1,2,3-trihydroxypropyl)dihydropteridine triphosphate", "dihydroneopterin triphosphate", "H2NTP", "7,8-dihydroneopterin triphosphate"] "C9H12N5O13P3" 491.141 +"DIHYDROPTERIN-CH2OH-PP" "(7,8-dihydropterin-6-yl)methyl diphosphate" ["6-hydroxymethyl-dihydropterin pyrophosphate", "6-hydroxymethyl-dihydropterin diphosphate", "6-hydroxymethyl-7,8-dihydropterin diphosphate"] "C7H8N5O8P2" 352.116 +"Dihydroquercetins" "taxifolin" ["a cis or trans dihydroquercetin", "dihydroquercetin"] "C15H12O7" 304.256 +"DIHYDROSIROHYDROCHLORIN" "precorrin-2" ["dihydrosirohydrochlorin"] "C42H41N4O16" 857.803 +"DIHYDROXY-ACETONE-PHOSPHATE" "glycerone phosphate" ["dihydroxyacetone phosphate", "dihydroxyacetone-P", "di-OH-acetone-P", "dihydroxy-acetone phosphate", "3-hydroxy-2-oxopropyl phosphate"] "C3H5O6P" 168.043 +"DIHYDROXY-BUTANONE-P" "1-deoxy-L-glycero-tetrulose 4-phosphate" ["3,4-dihydroxy-2-butanone-4-phosphate", "tetrolose phosphate", "3,4-dihydroxy-2-butanone-4-P", "L-3,4-dihydroxybutan-2-one-4-phosphate"] "C4H7O6P" 182.069 +"DIHYDROXYACETONE" "dihydroxyacetone" ["glycerone", "1,3-dihydroxyacetone", "dihydroxy-acetone"] "C3H6O3" 90.079 +"DIHYDROXYNAPHTHOATE" "1,4-dihydroxy-2-naphthoate" ["DHNA", "2-carboxy-1,4-naphthoquinol"] "C11H7O4" 203.174 +"DIHYDROXYPENTANEDIONE" "autoinducer 2" ["(4S)-4,5-dihydroxy-2,3-pentanedione", "(4S)-4,5-dihydroxypentane-2,3-dione"] "C5H8O4" 132.116 +"Dihydroxypteridines" "a dihydroxypteridine" ["a 2,4-dihydroxypteridine"] null null +"DIISOPROPYL-FLUOROPHOSPHATE" "diisopropyl fluorophosphate" [] "C6H14O3FP" 184.147 +"DIISOPROPYL-PHOSPHATE" "diisopropyl phosphate" ["2-(hydroxy-isopropoxy-phosphinoyl)oxypropane"] "C6H14O4P" 181.148 +"Dimethoxylariciresinol" "5,5'-dimethoxylariciresinol" [] "C22H28O8" 420.458 +"DIMETHYL-D-RIBITYL-LUMAZINE" "6,7-dimethyl-8-(1-D-ribityl)lumazine" [] "C13H17N4O6" 325.3 +"DIMETHYL-GLYCINE" "N,N-dimethylglycine" ["dimethylglycine"] "C4H9NO2" 103.121 +"DIMETHYLARSINATE" "cacodylate" ["dimethylarsinate", "DMAV"] "C2H6O2As" 136.99 +"DIMETHYLBENZIMIDAZOLE" "5,6-dimethylbenzimidazole" ["DMB", "dimethylbenzimidazole"] "C9H10N2" 146.191 +"DIMETHYLSUBERIMIDATE" "dimethylsuberimidate" [] "C10H20N2O2" 200.28 +"DIMETHYLSULFONIOACETATE" "thetin" ["carboxymethyl-dimethyl-sulfonium", "sulfobetaine", "dimethylsulfonioacetate"] "C4H8O2S" 120.166 +"DIMP" "dIMP" ["2'-deoxy-IMP", "2'-deoxy-5'-inosinic acid", "2'-Deoxyinosine 5'-monophosphate", "2'-Deoxyinosine 5'-phosphate", "9-(2-deoxy-5-O-phosphono-β-D-erythro-pentofuranosyl)-9H-purin-6-ol", "Deoxyinosine monophosphate", "Hypoxanthine deoxyriboside"] "C10H11N4O7P" 330.193 +"Dinitrogen-reductase-L-arginine" "a [dinitrogen reductase]-L-arginine" [] null null +"Dinucleoside-polyphosphates" "a dinucleoside polyphosphate" ["a dinucleoside oligophosphate"] null null +"Dinucleotide" "a dinucleotide" [] null null +"Dinucleotide-Electron-Carriers" "a dinucleotide electron carrier" [] null null +"Dinucleotide-Nucleic-Acid" "a dinucleotide (nucleic acid)" [] null null +"DIOH-ISOVALERATE" "2,3-dihydroxy-3-methylbutanoate" ["2,3-dihydroxy-isovalerate", "α,β-dihydroxy-isovalerate"] "C5H9O4" 133.124 +"Diols" "a diol" [] null null +"Dioxindole-3-Acetyl-3-O-hexoses" "a dioxindole-3-acetyl-3-O-hexose" ["3-(-O-hexosyl)-dioxindole-3-acetate", "DiOxIAA-hexose", "2-oxindole-3-acetyl-3-O-hexose"] "C16H18NO9" 368.319 +"DIPEPTIDES" "a dipeptide" ["an aminoacyl-amino acid"] null null +"Dipeptides-Of-D-Amino-Acids" "a dipeptide of D-amino acids" [] null null +"Dipeptides-Of-L-Amino-Acids" "a dipeptide of L-amino acids" [] null null +"Dipeptides-With-Asp-At-N-Terminal" "a dipetide with an N-terminal L-aspartate" ["a dipetide with L-aspartate at the N-terminal"] null null +"Dipeptides-With-C-Terminal-Arg" "a dipeptide with a C-terminal L-arginine" [] null null +"Dipeptides-With-C-Terminal-glycine" "a dipeptide with a C-terminal glycine" [] null null +"Dipeptides-With-C-Terminal-Lys" "a dipeptide with a C-terminal L-lysine" [] null null +"Dipeptides-With-C-Terminal-Ornithine" "a dipeptide with a C-terminal L-ornithine" [] null null +"Dipeptides-With-Gly-At-N-Terminal" "a dipetide with an N-terminal glycine" ["a dipetide with glycine at the N-terminal"] null null +"Dipeptides-With-Hist-C-Terminal-Position" "a dipeptide with a C-terminal L-histidine" [] null null +"Dipeptides-With-L-Ala-At-N-Terminal" "a dipetide with an N-terminal L-alanine" ["a dipetide with L-alanine at the N-terminal"] null null +"Dipeptides-With-Met-Amino" "a dipeptide with an N-terminal L-methionine" ["Met-Xaa dipeptide", "a dipeptide with L-methionine at the N-terminal"] null null +"Dipeptides-With-Proline-Carboxy" "a dipeptide with a C-terminal L-proline" ["Xaa-Pro", "a dipeptide with proline at carboxy terminal"] null null +"DIPHOSPHO-1D-MYO-INOSITOL-TETRAKISPHOSPH" "a diphospho-1D-myo-inositol tetrakisphosphate" [] "C6H7O24P6" 648.949 +"DIPHTHAMIDE" "a diphthamide-[translation elongation factor 2]" ["a {3-[4-(2-amino-2-carboxy-ethyl)-1H-imidazol-2-YL]-1-carbomyl-propyl}-trimethyl-ammonium", "a 2-[(3R)-3-carbamoyl-3-(trimethylammonio)propyl]-L-histidyl", "a 2'-[3-carboxamido-3-(trimethylammonio)propyl]-L-histidine", "a peptide diphthamide", "a diphthamide in eEF-2", "a [translation elongation factor 2] diphthamide"] null null +"Diphthine-methyl-ester-EF2" "a diphthine methyl ester-[translation elongation factor 2]" ["a diphthine methyl ester in eEF-2", "a [translation elongation factor 2]-diphthine methyl ester"] null null +"DIPHTINE" "a diphthine-[translation elongation factor 2]" ["a diphthine in eEF-2", "a [translation elongation factor 2]-diphthine"] null null +"DIPYRROMETHANE" "dipyrromethane cofactor" ["3,8-bis(carboxylatomethyl)-9-methyldipyrromethane-2,7-dipropionate", "3,8-bis(2-carboxyethyl)-2,7-bis(carboxymethyl)-1-methyldipyrromethane"] null null +"Diribonucleotide" "a diribonucleotide" [] null null +"Disaccharide-phosphates" "a disaccharide phosphate" [] null null +"Disaccharides" "a disaccharide" [] null null +"Disulfides" "a disulfide" [] null null +"Diterpene-Derivatives" "a diterpenoid derivative" [] null null +"Diterpenes" "a diterpenoid" ["a diterpene"] null null +"Diterpenols" "a diterpenol" [] null null +"DITHIO-NITROBENZOATE" "5,5'-dithio-bis-2-nitrobenzoate" ["dithionitrobenzoic acid", "dithionitrobenzoate", "DTNB", "5-(3-carboxy-4-nitro-phenyl)disulfanyl-2-nitro-benzoic acid", "5'-dithio-bis(2-nitrobenzoic acid)", "5,5'-dithio-bis(2-nitrobenzoic acid)"] "C14H6N2O8S2" 394.33 +"DITHIOTHREITOL" "L-dithiothreitol" ["L-DTT", "L-threo-1,4-dimercapto-2,3-butanediol", "L-1,4-disulfanylbutane-2,3-diol", "L-1,4-dithiothreitol"] "C4H10O2S2" 154.242 +"DITP" "dITP" ["deoxyinosine triphosphate"] "C10H11N4O13P3" 488.137 +"Ditrans-polycis-polyprenols" "a di-trans, poly-cis-polyprenol" [] "C80H130O" 1107.906 +"Divalent-Inorganic-Cations" "a divalent inorganic cation" [] null null +"DL-12-Propanediol" "propane-1,2-diol" ["1,2-PDO", "propylene glycol", "1,2-propanediol"] "C3H8O2" 76.095 +"DL-3-HYDROXYASPARTATE" "3-hydroxyaspartate" [] "C4H6NO5" 148.095 +"DL-5-FLUOROTRYPTOPHAN" "D,L-5-fluorotryptophan" [] "C11H11N2O2F" 222.218 +"DL-CARNITINE" "carnitine" ["D,L-carnitine"] "C7H15NO3" 161.2 +"DL-ethionine" "DL-ethionine" ["DL-2-amino-4-(ethylthio)butyric acid", "DL-2-amino-4-(ethylthio)butanoate", "S-ethyl-rac-homocysteine"] "C6H13NO2S" 163.234 +"DL-Phospholactate" "phospholactate" ["DL-phospholactate"] "C3H4O6P" 167.035 +"DL-Phosphomalate" "(RS)-phosphomalate" ["DL-P-malate", "DL-phosphomalate"] "C4H3O8P" 210.037 +"DMSO" "dimethyl sulfoxide" ["DMSO", "sulfinylbismethane"] "C2H6OS" 78.129 +"DNA-3-methyladenines" "an N3-methyladenine in DNA" ["a DNA with N3-methyladenine"] null null +"DNA-46-Diamino-5-Formamidopyrimidine" "a 4,6-diamino-5-formamidopyrimidine in DNA" ["a DNA-4,6-diamino-5-formamidopyrimidine", "FapyA in DNA"] null null +"DNA-6-O-Methyl-Guanines" "an O6-methylguanine in DNA" ["a DNA 6-O-methylguanine", "DNA 6-O-methylguanine", "DNA (CONTAINING 6-O-METHYLGUANINE)", "a DNA containing 6-O-methylguanine"] null null +"DNA-Adenines" "an adenine in DNA" ["a DNA adenine"] null null +"DNA-Cleaved-Recognition-Site" "DNA cleaved at recognition site" [] null null +"DNA-Combined-With-Exogenous-DNA" "DNA combined with exogenous DNA to form a recombinational junction" [] null null +"DNA-containing-diamino-hydro-formamidops" "a ring-opened 7-methylguanine in DNA" ["Fapy-7MeG", "a 2,6-diamino-4-hydroxy-5N-methyl-formamidopyrimidine in DNA"] null null +"DNA-Containing-N6-Methyladenine" "an N6-methyladenine in DNA" ["a DNA 6-methylaminopurine", "DNA containing N6-methyladenine", "a 6-methylaminopurine in DNA"] null null +"DNA-Cytidines" "a 2'-deoxycytidine in DNA" ["a DNA cytidine"] null null +"DNA-Cytosines" "a cytosine in DNA" [] null null +"DNA-Guanines" "a guanine in DNA" ["a DNA guanine"] null null +"DNA-Holder" "DNA" [] null null +"DNA-Hydroxymethyl-cytosines" "5-hydroxymethylcytosine in DNA" ["a DNA containing 5-hydroxymethylcytosine"] null null +"DNA-Ligase-L-lysine" "a [DNA ligase]-L-lysine" [] null null +"DNA-Ligase-L-lysine-adenylate" "a [DNA ligase]-N6-(5'-adenylyl)-L-lysine" ["a 5'-adenosyl [DNA ligase]-Nε-phosphono-L-lysine"] null null +"DNA-Ligase-L-lysine-guanylate" "a [DNA ligase]-L-lysine-guanylate" [] null null +"DNA-N4-Methylcytosine" "an N4-methylcytosine in DNA" ["a DNA-N4-methylcyosine"] null null +"DNA-purines" "a purine in DNA" ["a DNA purine"] null null +"DNA-pyrimidines" "a pyrimidine nucleoside in DNA" ["a DNA pyrimidine"] null null +"DNA-Segment-Placeholder" "a DNA segment" [] null null +"DNA-thymidines" "a thymidine in DNA" ["a DNA thymidine"] null null +"DNA-with-Alkylated-Adenines" "an alkylated adenine in DNA" ["a DNA with alkylated adenine"] null null +"DNA-With-GO" "a 7,8-dihydro-8-oxoguanine in DNA" [] null null +"DNA-With-GO-A-Mismatch" "DNA with adenine:7,8-dihydro-8-oxoguanine mismatch" ["DNA with A-GO mismatch"] null null +"DNA-With-Hypoxanthines" "a hypoxanthine in DNA" ["a 2'-deoxyinosine in DNA"] null null +"DNA-With-Recognition-Site" "DNA containing a recognition site" [] null null +"DODECANOATE" "laurate" ["n-dodecanoic acid", "dodecanoic acid", "n-dodecanoic acid", "lauric acid", "tin II 2-ethylhexanoate", "dodecanoate"] "C12H23O2" 199.312 +"DOLICHOL" "a dolichol" ["a ditrans,polycis-dolichol", "4-{alpha-[(2E,6E)-3,7,11-trimethyldodeca-2,6,10-trien-1-yl]poly[(2Z)-2-methylbut-2-ene-1,4-diyl]}-3-methylbutan-1-ol"] "C80H132O" 1109.922 +"DOLICHOL-GROUP" "dolichol-group" ["dolichol"] "C80H132" 1093.923 +"DOLICHOLP" "a dolichyl phosphate" ["a a dolichol-phosphate", "a dolychol phosphate", "a dolichyl phosphate", "a dolichol phosphate", "a dolichyl monophosphate", "a dolichol monophosphate"] "C80H131O4P" 1187.886 +"Dolichyl-phosphooligosaccharides" "a dolichyl phosphooligosaccharide" [] null null +"Donor-H1" "a reduced unknown one electron carrier" ["a reduced unknown one electron donor", "A(H)", "a reduced unknown one electron acceptor"] null null +"Donor-H2" "a reduced unknown two electron carrier" ["a reduced unknown two electron donor", "A(H2)", "a reduced unknown two electron acceptor"] null null +"Donor-Xyloglucan-Cleaved-Xyloglucanyls" "a donor Xyloglucan with cleaved xyloglucanyl segment" [] null null +"Donor-Xyloglucans" "a donor xyloglucan" [] null null +"DOPAMINE" "dopamine" ["deoxyepinephrine", "hydroxytyramine", "3,4-dihydroxyphenethylamine", "intropin", "2-(3,4-dihydroxyphenyl)ethylamine", "4-(2-aminoethyl)benzene-1,2-diol", "3-hydroxytyramine"] "C8H12NO2" 154.188 +"DPG" "3-phospho-D-glyceroyl phosphate" ["1,3-bisphospho-D-glycerate", "3-phosphoglyceroyl-P", "P-glyceroyl-P", "phosphoglyceroyl-P", "3-phosphoglyceroyl phosphate", "3-P-glyceroyl-P", "DPG", "glycerate 1,3-bisphosphate", "3-phosphonato-D-glyceroyl phosphate"] "C3H4O10P2" 262.006 +"Drugs" "a drug" [] null null +"DS-Oligodeoxyribonucleotides" "a double-stranded oligodeoxyribonucleotide" [] null null +"DS-Oligoribonucleotides" "a double-stranded oligoribonucleotide" [] null null +"DsrC-disulfide-form" "a [DsrC protein] with an intramolecular disulfide bond" [] null null +"DsrC-L-Cysteine" "a [DsrC protein]-dithiol" ["a [DsrC protein]-L-cysteine"] null null +"DsrC-L-cysteine-S-sulfate" "a [DsrC]-S-sulfo-L-cysteine" ["a [DsrC]-L-cysteine-S-sulfate"] null null +"DsrC-persulfides" "a [DsrC]-S-sulfanyl-L-cysteine" ["a DsrC persulfide", "a [DsrC protein] persulfide"] null null +"DsrC-trisulfides" "a [DsrC]-trisulfide" [] null null +"DsrE-L-Cysteine" "a [DsrE protein]-L-cysteine" [] null null +"DsrE-Persulfides" "a [DsrE protein] persulfide" [] null null +"DsrE3A-L-cysteine" "a [DsrE3A thiosulfate-carrier protein]-L-cysteine" [] null null +"DsrE3A-L-cysteine-S-thiosulfonates" "a [DsrE3A thiosulfate-carrier protein]-L-cysteine-S-thiosulfonate" [] null null +"DTDP-4-DEHYDRO-6-DEOXY-D-GALACTOSE" "dTDP-4-dehydro-6-deoxy-D-galactose" ["dTDP-4-dehydro-6-deoxy-D-glucose"] "C16H22N2O15P2" 544.302 +"DTDP-D-GLUCOSE" "dTDP-α-D-glucose" ["TDP-glucose", "dTDP-glucose", "dTDP-D-glucose"] "C16H24N2O16P2" 562.317 +"DTDP-DEOH-DEOXY-GLUCOSE" "dTDP-4-dehydro-6-deoxy-α-D-glucopyranose" ["TDP-4-keto-6-deoxy--α-D-glucose", "TDP-4-oxo-6-deoxy--α-D-glucose", "dTDP-4-oxo-6-deoxy--α-D-glucose", "dTDP-6-deoxy-α-D-xylo-4-hexosulose", "dTDP-6-deoxy-α-D-xylohex-4-ulose", "dTDP-4-dehydro-6-deoxy-α-D-glucose"] "C16H22N2O15P2" 544.302 +"DTDP-DEOH-DEOXY-MANNOSE" "dTDP-4-dehydro-β-L-rhamnose" ["dTDP-4-oxo-6-deoxy-β-L-mannose", "dTDP-4-oxo-β-L-rhamnose", "dTDP-4-dehydro-6-deoxy-β-L-mannose", "dTDP-4-keto-L-rhamnose"] "C16H22N2O15P2" 544.302 +"DTDP-GROUP" "dTDP group" [] "C10H14N2O11P2" 400.175 +"DTDP-RHAMNOSE" "dTDP-β-L-rhamnose" ["dTDP-6-deoxy-β-L-mannose"] "C16H24N2O15P2" 546.317 +"DTDP-SUGARS" "a dTDP-sugar" [] null null +"DUDP" "dUDP" ["2'-deoxyuridine-5'-diphosphate", "deoxyuridine-diphosphate"] "C9H11N2O11P2" 385.14 +"DUMP" "dUMP" ["deoxyurdine-phosphate", "2'-deoxyuridine 5-monophosphate", "deoxyuridine-phosphate", "2'-deoxyuridine 5'-phosphate", "2'-deoxyuridylic acid", "2'-deoxy-5'-uridylic acid"] "C9H11N2O8P" 306.168 +"DUTP" "dUTP" ["deoxy-UTP", "2'-deoxyuridine-5'-triphosphate", "deoxyuridine-triphosphate"] "C9H11N2O14P3" 464.112 +"Dyes" "a dye" [] null null +"E-11-methyl-12-octadec-12-enoate-lipid" "a [glycerolipid]-(E)-11-methyl-12-octadec-12-enoate" [] null null +"E-2-keto-alk-3-ene" "an (E)-2-oxo-alk-3-ene" [] null null +"E-nerolidol" "(6E)-nerolidol" [] "C15H26O" 222.37 +"E3-independent-Ubiquitin-E2-L-cysteine" "an [(E3-independent) E2 ubiquitin-conjugating enzyme]-L-cysteine" ["an [(E3-independent) ubiquitin-conjugating enzyme E2]-L-cysteine"] null null +"E3-independent-UCP-E2-L-cysteine" "an [E3-independent ubiquitin-carrier-protein E2]-L-cysteine" [] null null +"Ecdysteroids" "an ecdysteroid" [] null null +"Ecdysteroids-22P" "an ecdysteroid 22-phosphate" [] null null +"ECTOINE" "ectoine" ["1,4,5,6-tetrahydro-2-methyl-4-pyrimidine carboxylic acid"] "C6H10N2O2" 142.157 +"EDTA" "EDTA" ["ethylenediaminetetraacetic acid", "ethylenediaminetetraacetate"] "C10H14N2O8" 290.229 +"eEF-2-Histidines" "an L-histidine-[translation elongation factor 2]" ["an L-histidine in translation elongation factor 2", "an L-histidine in eEF-2", "an [eEF-2]-L-histidine", "a-[translation elongation factor 2] L-histidine"] null null +"EF-P-beta-lysyl-L-lysine" "a [elongation-Factor-P]-N6-(β-lysyl)-L-lysine" [] null null +"EF-P-L-lysine" "a [protein chain elongation factor P]-L-lysine34" [] null null +"EF-P-lysyl-hydroxylysine" "a [protein chain elongation factor EF-P]-N-(β-lysyl)-5-hydroxy-L-lysine34" ["a [protein chain elongation factor EF-P]-N-(β-lysyl)-δ-hydroxy-L-lysine34"] null null +"EF-P-lysyl-lysine" "[a protein chain elongation factor EF-P]-N-(β-L-lysyl)-L-lysine34" [] null null +"Efrapeptins" "an efrapeptin" [] null null +"EGF-Domain-Protein-L-Serine" "a [protein with EGF-like domain]-L-serine" [] null null +"EGTA" "EGTA" ["ethyleneglycol-bis-N,N'-tetraacetic acid", "egtazic acid"] "C14H20N2O10" 376.319 +"Eicosadienoates" "an icosadienoate" ["an eicosadienoic acid", "an eicosadienoate", "an icosadienoic acid"] "C20H35O2" 307.495 +"Eicosatrienoates" "an icosatrienoate" ["an eicosatrienoic acid", "an eicosatrienoate", "an icosatrienoic acid"] null null +"EIF5A-HYPUSINE" "an [eIF5A]-hypusine" ["an [eIF5A]-N6-[(R)-4-amino-2-hydroxybutyl]-L-lysine"] null null +"EIF5A-LYSINE" "an [eIF5A-precursor]-lysine" ["an eIF5A-L-lysine", "an eIF5A lysine"] null null +"Elemental-selenium" "Se0" ["elemental selenium"] "Se" 78.96 +"Elemental-Sulfur" "S0" ["elemental sulfur", "orthorhombic sulfur", "rhombic sulfur"] "S" 32.06 +"Elongation-Factor-EF-P-L-lysine" "a [elongation-Factor-P]-L-lysine" [] null null +"Elongator-tRNAMet-acetylcytidine" "an N4-acetylcytidine34 in [elongator tRNAmet]" ["[elongator tRNAmet]-N4-acetylcytidine34"] null null +"Enamines" "an enamine" [] null null +"ENOL-OXALOACETATE" "enol-oxaloacetate" ["enol-oxaloacetic acid", "2-hydroxyethylenedicarboxylate", "hydroxyfumarate"] "C4H2O5" 130.057 +"ENOL-PHENYLPYRUVATE" "enol-phenylpyruvate" [] "C9H7O3" 163.152 +"Enones" "an enone" [] null null +"ENTEROBACTIN" "enterobactin" ["(2,3-dihydroxybenzoylserine)3", "enterochelin", "N-(2,3-dihydroxybenzoyl)-O-[N-(2,3-dihydroxybenzoyl)-O-[N-(2,3-dihydroxybenzoyl)-L-seryl]-L-seryl]-L-serine-(3->1(3))-lactone"] "C30H27N3O15" 669.554 +"ENZYME-S-SULFANYLCYSTEINE" "a [protein]-S-sulfanyl-L-cysteine" [] null null +"EPITHIONITRILES" "an epithionitrile" [] null null +"epoxides" "an epoxide" [] null null +"epoxy-11-methyl-octadecadienoate-lipid" "a [glycerolipid]-10,13-epoxy-11-methyl-octadecadienoate" [] null null +"Epoxy-fatty-acids" "an epoxy fatty acid" ["LCFA"] null null +"Epoxyqueuosine-Nucleotides" "an epoxyqueuosine nucleotide" [] null null +"Epsilon-lactones" "an ε-lactone" [] null null +"ERYTHRITOL" "erythritol" ["phycitol", "erythrit", "butanetetrol", "(2R,3S)-butane-1,2,3,4-tetrol", "erythrite", "erythro-tetritol", "erythrol"] "C4H10O4" 122.121 +"Erythro-GGE" "erythro-guaiacylglycerol-β-guaiacyl ether" ["erythro-GGE"] "C17H20O6" 320.341 +"Erythromycins" "an erythromycin" [] null null +"ERYTHRONATE-4P" "4-phospho-D-erythronate" ["erythronate 4-phosphate", "4-phosphoerythronate", "erythronate-4P", "D-erythronate-4-phosphate", "D-erythronate-4P"] "C4H6O8P" 213.06 +"ERYTHROSE" "D-erythrose" ["D-erythro-tetrose"] "C4H8O4" 120.105 +"ERYTHROSE-4P" "D-erythrose 4-phosphate" ["erythrose-4P", "threose 4-phosphate", "erythrose-4-phosphate", "erythrose-4-P", "D-erythrose-4-P"] "C4H7O7P" 198.069 +"ERYTHRULOSE-1P" "erythrulose 1-phosphate" ["erythrulose-1-P", "glycerotetrulose-1-P", "glycerotetrulose 1-phosphate"] "C4H7O7P" 198.069 +"Esters" "an ester" [] null null +"Estrogens" "an estrogen" [] null null +"ETHANAMINE" "ethylamine" ["ethanamine", "aminoethane"] "C2H8N" 46.092 +"ETHANOL-AMINE" "ethanolamine" ["2-aminoethanol", "monoethanolamine", "colamine", "ethanol-amine"] "C2H8NO" 62.091 +"ETHENOCYTOSINE-IN-DNA" "a 3,N4-ethenocytosine in DNA" ["εC", "epsilonC"] null null +"Ether-linked-phospholipids" "a phospholipid containing an ether-linked hydrocarbon" [] null null +"Ether-Lipids" "an ether lipid" [] null null +"Ethers" "an ether" [] null null +"ETHIONINE" "L-ethionine" [] "C6H13NO2S" 163.234 +"ETHYL-2-METHYLACETOACETATE" "ethyl-2-methylacetoacetate" [] "C7H12O3" 144.17 +"ETHYL-2R-METHYL-3S-HYDROXYBUTANOATE" "ethyl-(2R)-methyl-(3S)-hydroxybutanoate" [] "C7H14O3" 146.186 +"ETHYL-ACETOACETATE" "ethyl-acetoacetate" ["3-oxobutanoic acid ethyl ester", "acetoacetic acid, ethyl ester", "active acetyl acetate", "diacetic ether", "butanoic acid, 3-oxo-ethyl ester", "ethyl 3-oxobutanoate", "ethyl 3-oxobutyrate", "ethyl acetoacetate", "ethyl acetylacetate", "ethyl acetylacetonate", "ethyl β-ketobutyrate"] "C6H10O3" 130.143 +"Ethyl-esters" "an ethyl ester" [] null null +"ETHYLACETATE" "ethyl acetate" ["ethylether", "ether", "ethyl", "acetic-acid-ethylester", "acet-eth-ester", "acet-ethylester", "acetic ester"] "C4H8O2" 88.106 +"ETHYLACETIMIDATE" "ethylacetimidate" [] "C4H10NO" 88.129 +"ETHYLENE-CMPD" "ethene" ["olefiant gas", "elayl", "ethylene"] "C2H4" 28.054 +"ETOH" "ethanol" ["absolute alcohol", "alcohol", "EtOH", "eth", "ethyl alcohol", "grain alcohol"] "C2H6O" 46.069 +"ETR-Quinols" "an electron-transfer quinol" [] null null +"ETR-Quinones" "an electron-transfer quinone" [] null null +"ETR-Semiquinones" "an electron-transfer semiquinone" [] null null +"Even-Saturated-Fatty-Acyl-CoA" "an even numbered straight chain 2,3,4-saturated fatty acyl CoA" [] null null +"Even-Straight-Chain-234-Sat-FA" "an even numbered straight chain 2,3,4-saturated fatty acid" [] null null +"Exopolysaccharides" "an exopolysaccharide" ["an extracellular polysaccharide", "EPS"] null null +"F-" "fluoride" ["fluoride ion", "F-"] "F" 18.998 +"F-actin-L-methionine-44" "an [F-actin]-L-methionine44" [] null null +"F-actin-L-methionine-47" "an [F-actin]-L-methionine47" [] null null +"F-actin-L-methionine-S-Oxide-44" "an [F-actin]-L-methionine44-(R)-S-oxide" [] null null +"F-actin-L-methionine-S-Oxide-47" "an [F-actin]-L-methionine47-(R)-S-oxide" [] null null +"Factor-420" "a factor 420" ["a coenzyme F420", "a cofactor F420"] null null +"FAD" "FAD" ["flavin adenine dinucleotide oxidized", "flavin adenine dinucleotide", "flavitan"] "C27H30N9O15P2" 782.533 +"FADH" "FADH" ["flavin adenine dinucleotide semiquinone"] "C27H32N9O15P2" 784.549 +"FADH2" "FADH2" ["flavin adenine dinucleotide reduced", "1,5-dihydro-FAD"] "C27H33N9O15P2" 785.556 +"Farnesoates" "a farnesoate" ["a farnesoic acid", "a 3,7,11-trimethyl-2,6,10-dodecatrienoic acid", "a farnesenic acid", "a farnesic acid", "a farnesylic acid"] "C15H20O2" 232.322 +"Farnesols" "a farnesol" [] "C15H26O" 222.37 +"FARNESYL-PP" "(2E,6E)-farnesyl diphosphate" ["2-trans,6-trans-farnesyl diphosphate", "2-trans,6-trans-farnesyl diphosphate", "FPP", "trans, trans-farnesyl diphosphate", "farnesyl-PP", "farnesyl pyrophosphate", "ω,E,E-farnesyl diphosphate", "farnesyl diphosphate", "(E,E)-farnesyl diphosphate", "all-trans-farnesyl diphosphate", "C15-PP"] "C15H25O7P2" 379.306 +"FARNESYLFARNESYLGERANIOL" "farnesylfarnesylgeraniol" [] "C40H66O" 562.961 +"Fatty-acid-derivatives" "a fatty acid derivative" [] null null +"Fatty-acid-methyl-esters" "a fatty acid-methyl ester" ["a fatty acid methyl ester", "FAME"] null null +"Fatty-Acids" "a fatty acid" [] null null +"Fatty-Acids-Within-Glycerolipids" "a fatty acid within a glycerolipid" [] null null +"Fatty-acyl-adenylate" "a fatty-acyl adenylate ester" ["an adenylated fatty-acid"] null null +"Fatty-Acyl-CoAs" "a fatty acyl-CoA" [] null null +"Fatty-Alcohols" "a fatty alcohol" [] null null +"Fatty-Aldehydes" "a fatty aldehyde" [] null null +"Fatty-amides" "a fatty amide" [] null null +"FE+2" "Fe2+" ["ferrous iron", "ferrous ion", "iron(II)", "FeII"] "Fe" 55.847 +"FE+3" "Fe3+" ["ferric iron", "ferric ion", "iron(III)", "FeIII"] "Fe" 55.847 +"Fe2-siderophores" "a siderophore-bound Fe(II)" [] null null +"Fe3-siderophores" "a siderophore-bound Fe(III)" ["an iron(III) chelate", "an Fe3+-siderophore", "a ferric-siderophore complex"] null null +"Feraxan" "feraxan" [] null null +"FERRIC-CITRATE-COMPLEX" "iron(III) dicitrate" ["Fe(III)dicitrate", "ferric dicitrate complex", "iron dicitrate", "ferric dicitrate", "Fe(Cit)2"] "C12H16O14Fe" 440.097 +"FERRIC-ENTEROBACTIN-COMPLEX" "iron(III)-enterobactin complex" ["ferric enterobactin", "ferric enterochelin", "ferrienterochelin", "ferrienterobactin", "ferric-enterobactin complex", "Fe3+-enterobactin complex"] "C30H21N3O15Fe" 719.354 +"Ferric-Hydroxamate-Complexes" "a ferric hydroxamate complex" ["a ferric hydroxamate complex", "an iron (III) hydroxamate complex", "an iron (III) hydroxamate"] null null +"FERULIC-ACID" "ferulate" ["ferulic acid", "4-hydroxy-3-methoxycinnamic acid", "caffeic acid 3-methyl ether", "4-hydroxy-3-methoxycinnamate"] "C10H9O4" 193.179 +"Feruloyl-polysaccharides" "a feruloyl-polysaccharide" [] null null +"FeS-Centers" "an iron-sulfur cluster" ["an FeS center", "an FeS cluster", "an [FeS] iron-sulfur center", "an [FeS] iron-sulfur cluster", "an iron-sulfur center"] null 87.907 +"Flavan-3-ols" "a flavan-3-ol" [] null null +"Flavan-4-ols" "a flavan-4-ol" [] null null +"Flavanoids" "a flavan" [] null null +"Flavanol-glycosides" "a flavanol glycoside" [] null null +"Flavanols" "a flavanol" ["a hydroxyflavan"] null null +"FLAVANONE-7-O-GLUCOSIDES" "a flavanone-7-O-β-D-glucoside" [] "C21H22O8" 402.4 +"Flavanone-Glycosides" "a flavanone glycoside" [] null null +"FLAVANONES" "a flavanone" ["2-phenyl-4-chromanone", "2,3-dihydro-2-phenyl-4H-1-benzopyran-4-one", "2,3-dihydroflavone", "flavanone"] null null +"FLAVIN" "a flavin" [] null null +"Flavin-Electorin-Carriers" "a flavin electron carrier" [] null null +"Flavones" "a flavone" [] null null +"Flavonoids" "a flavonoid" [] null null +"Flavonol-3-B-D-Xylosyl-12-B-D-Glycoside" "a flavonol 3-[β-D-xylosyl-(1->2)-β-D-glycoside]" [] null null +"Flavonol-3-O-6-O-Malonyl-B-D-Glu" "a flavonol 3-O-(6-O-malonyl-β-D-glucoside)" [] null null +"Flavonol-3-O-B-D-Glucosides" "a flavonol-3-O-β-D-glucoside" [] null null +"Flavonol-3-O-D-Glucosides" "a flavonol-3-O-β-D-glucoside" [] null null +"Flavonol-3-O-Galactosides" "a flavonol 3-O-galactoside" [] "C21H20O8" 400.384 +"Flavonol-3-O-Glu-16-Glu-7-O-Rhams" "a flavonol-3-O-[D-glucopyranosyl(1->6)D-glucopyranoside]-7-O-L-rhamnopyranoside" [] null null +"Flavonol-3-O-Glucoside-7-O-Rhamnosides" "a flavonol-3-O-glucoside-7-O-rhamnoside" [] null null +"Flavonol-3-O-Glycosides" "a flavonol 3-O-glycoside" [] null null +"Flavonol-3-O-L-Rham-16-D-Glus" "a flavonol 3-O-[α-L-rhamnosyl-(1->6)-β-D-glucoside]" ["a flavonol 3-O-rutinoside"] null null +"Flavonol-7-O-beta-D-glucosides" "a flavonol-7-O-β-D-glucosides" [] null null +"Flavonol-cumaroyl-glucosides" "a flavonol 3-O-(6-(4-coumaroyl)-β-D glucosyl-(1->2)-β-D-glucosyl-(1->2)-β-D-glucoside)" [] null null +"Flavonol-Derivatives" "a flavonol derivative" [] null null +"Flavonol-glucosyl-glucosides" "a flavonol 3-O β-D-glucosyl-(1->2)-β-D-glucoside" [] null null +"Flavonol-glucosyl-glucosyl-glucosides" "a flavonol 3-O-(β-D-glucosyl-(1->2)-β-D-glucosyl (1->2)-β-D-glucoside)" [] null null +"Flavonols" "a flavonol" [] null null +"Flavonone-rhamnosyl-glucosides" "a flavanone 7-O-[α-L-rhamnosyl-(1→2)-β-D-glucoside]" ["a flavanone 7-O-(α-L-rhamnosyl-(1,2)-β-D-glucoside"] "C27H32O12" 548.543 +"Fluorides" "an organofluorine compound" [] null null +"Fluoroaromatic-Compounds" "a fluoroaromatic compound" [] null null +"FMN" "FMN" ["flavin mononucleotide", "riboflavin 5'-phosphate"] "C17H18N4O9P" 453.324 +"FMNH2" "FMNH2" ["reduced FMN", "reduced flavin mononucleotide"] "C17H21N4O9P" 456.348 +"FMPP" "FMPP" ["2-amino-5-(fluoromethyl)pyrrolo[2,3-d]pyrimidin-4 (3H)-one"] "C7H7N4OF" 182.157 +"Folates" "a folate" [] null null +"FORMALDEHYDE" "formaldehyde" ["formalin", "methanal", "formol"] "CH2O" 30.026 +"FORMAMIDE" "formamide" ["carbamaldehyde", "Methanamide"] "CH3NO" 45.041 +"FORMATE" "formate" ["formic acid"] "CHO2" 45.018 +"Formate-acetyltrans-glycine-radical" "a [formate C acetyltransferase]-glycin -2-yl radical" [] null null +"Formate-acetyltransferase-glycine" "a [formate C acetyltransferase]-glycine" [] null null +"FORMYCIN-A" "formycin A" [] "C10H15N5O4" 269.26 +"FORMYL-COA" "formyl-CoA" [] "C22H32N7O17P3S" 791.513 +"FORMYL-L-METHIONYL-PEPTIDE" "a [protein] N-terminal-formyl-L-methionine" ["N-terminal-formyl-L-methionyl peptide"] null null +"Formyl-methanofurans" "a formylmethanofuran" ["a 5-formylmethanofuran"] null null +"FORMYL-THF-GLU-N" "an N10-formyltetrahydrofolate" ["a 10-formyltetrahydrofolate"] null null +"FORSSMAN-HAPTEN" "Forssman globoside" ["N-acetyl-D-galactosaminyl-N-acetyl-D-galactosaminyl-1,3-D- galactosyl-1,4-D-galactosyl-1,4-D-glucosylceramide", "galNAc-α1->3galNAc-β1->3gal-α1->4gal-β1->4glc- β1->1'cer", "Forssman hapten", "galNAc-α1->3galNAc-β1->3gal-α1->4lacCer", "N-acetyl-α-D-galactosaminyl-(1→3)-N-acetyl-β-D-galactosaminyl-(1→3)-α-D-galactosyl-(1→4)-β-D-galactosyl-(1→4)-β-D-glucosylceramide", "a FORS antigen"] null null +"Fortimicins" "a fortimicin" [] null null +"FRU" "D-fructose" ["fructose", "laevosan", "levugen", "laevoral", "fructosteril", "levulose", "fru", "fru-ring", "D-fructose-ring", "D-fructose"] "C6H12O6" 180.157 +"FRU1P" "β-D-fructofuranose 1-phosphate" ["β-D-fructofuranose-1-P"] "C6H11O9P" 258.121 +"Fructans" "a fructan" [] null null +"Fructofuranose" "D-fructofuranose" [] "C6H12O6" 180.157 +"Fructooligosaccharides" "a fructooligosaccharide" ["oligofructose", "oligofructan"] null null +"Fructose" "fructose" [] null null +"FRUCTOSE-16-DIPHOSPHATE" "β-D-fructose 1,6-bisphosphate" ["fructose 1,6-biphosphate", "fructose 1,6-bisphosphate", "D-fructos 1,6-bisphosphate", "FBP"] "C6H10O12P2" 336.085 +"FRUCTOSE-6P" "β-D-fructofuranose 6-phosphate" ["D-fructose-6-phosphate", "fructose-6P", "fructose-6-P", "fruc6p", "fru-6-P", "fructose-6-phosphate", "A-D-fructose-6-P", "D-fructose-6-P", "D-fructose 6-phosphate", "D-fructofuranose 6-phosphate"] "C6H11O9P" 258.121 +"Fructose-BisPO4-Aldolase-Lysine" "[fructose-bisphosphate aldolase]-lysine" [] null null +"Fructose-BisPO4-Aldolase-Tri-Me-Lysine" "a [fructose-bisphosphate aldolase]-N6,N6,N6-trimethyl-L-lysine" [] null null +"FRUCTOSEGLYCINE" "fructosylglycine" ["N-(1-deoxy-D-fructos-1-yl)glycine", "fructoseglycine"] "C8H15NO7" 237.209 +"FRUCTOSELYSINE" "N6-(D-fructosyl)-L-lysine" ["fructoselysine", "fructosyllysine"] "C12H25N2O7" 309.339 +"FRUCTOSELYSINE-6-PHOSPHATE" "N6-(6-phospho-D-fructosyl)-L-lysine" ["fructoselysine-6-P", "fructoselysine 6-phosphate"] "C12H24N2O10P" 387.303 +"FRUCTURONATE" "D-fructuronate" [] "C6H9O7" 193.133 +"Fucan" "a fucan" [] null null +"Fucofuranoses" "D-fucofuranose" [] "C6H12O5" 164.158 +"Fucoidans" "a fucoidan" [] null null +"Fucoses" "fucose" [] null null +"Fucosides" "a fucoside" [] null null +"FUCOSYL-ACCEPTORS" "a fucosyl acceptor" [] null null +"FUCULOSE-1P" "L-fuculose 1-phosphate" ["L-fuculose-1-P"] "C6H11O8P" 242.122 +"FUM" "fumarate" ["fum", "fumaric acid"] "C4H2O4" 114.057 +"Furan-containing-fatty-acids" "a furan-containing fatty acid" [] null null +"Furanocoumarins" "a furanocoumarin" ["a furocoumarin"] null null +"Furanosides" "a furanoside" [] null null +"Furans" "a furan" [] null null +"G3P" "3-phospho-D-glycerate" ["3-phospho-(R)-glycerate", "3-phospho-D-glyceric acid", "3-P-D-glycerate", "D-glycerate-3-P", "D-glycerate 3-phosphate", "3-phosphoglycerate", "D-3-phosphoglycerate", "D-3-Phospho-glyceric acid"] "C3H4O7P" 183.034 +"Gal-Gal-Xyl-Proteins" "a 3-O-[β-D-galactosyl-(1→3)-β-D-galactosyl-(1→4)-β-D-xylosyl]-L-seryl-[protein]" ["3-β-D-galactosyl-4-β-D-galactosyl-O-β-D-xylosyl-[protein]", "3-β-D-galactosyl-4-β-D-galactosyl-O-β-D-xylosyl-[core protein]", "β-D-galactosyl-(1->3)-β-D-galactosyl-(1->4)-β-D-xylosyl-[proteoglycan]", "β-D-galactosyl-(1->3)-β-D-galactosyl-(1->4)-β-D-xylosyl-[core protein]"] null null +"Galactans" "a galactan" [] null null +"GALACTINOL-TYPE-DISACCHARIDE-ALCOHOLS" "a galactinol-type-disaccharide-sugar-alcohol" [] null null +"GALACTITOL" "galactitol" ["dulcitol", "dulcite", "dulcose", "(2R,3S,4R,5S)-hexane-1,2,3,4,5,6-hexol"] "C6H14O6" 182.173 +"GALACTITOL-1-PHOSPHATE" "galactitol 1-phosphate" [] "C6H13O9P" 260.137 +"Galacto-Glucuronoxylans" "a 2-O-α-D-galactopyranosyl-4-O-methyl-α-D-glucurono)-D-xylan" [] null null +"Galactofuran" "a galactofuran" ["a β-D-Galf-(1->6)-β-D-Galf-(1->5)-β-D-Galf-Rha-GlcNAc-P-P-C50"] "C94H155NO41P2" 2017.188 +"Galactofuranosemannans" "a galactomannan (Aspergillus)" [] null null +"Galactogen" "a galactogen" ["1,6-β-D-galactosyl-galactogen"] null null +"Galactoglucomannans" "a galactoglucomannan" ["GGM"] null null +"Galactolipids" "a galactolipid" [] null null +"Galactomannans" "a galactomannan" ["GaM"] null null +"GALACTOSAMINE" "D-galactosamine" ["2-amino-2-deoxy-D-galactopyranose", "chondrosamine", "D-2-amino-2-deoxygalactose", "D-chondrosamine", "D-GalN", "2-amino-2-deoxy-D-galactose"] "C6H14NO5" 180.18 +"Galactosaminoglycans" "a galactosaminoglycan" [] null null +"GALACTOSE" "β-D-galactopyranose" ["β-D-galactopyranose", "β-D-galactose", "cerebrose", "6-(hydroxymethyl)tetrahydropyran-2,3,4,5-tetraol"] "C6H12O6" 180.157 +"Galactose" "galactose" [] null null +"GALACTOSE-1P" "α-D-galactose 1-phosphate" ["α-D-Gal-1-P", "α-D-galactopyranose 1-phosphate", "galactose-1-P", "D-galactose-1-phosphate"] "C6H11O9P" 258.121 +"Galactose-beta-13-N-glycans" "a galactose-β-1,3-N-glycan" [] null null +"Galactose-phosphate" "a galactose phosphate" [] null null +"Galactosides" "a D-galactoside" ["a D-galactopyranoside"] null null +"Galactosyl-Acceptors" "a galactosyl acceptor" [] null null +"GALACTOSYL-BETA-GALACTOSAMINYL-R" null ["β-D-galactosyl-1,3-(N-acetyl-β-D-glucosaminyl-1,6)-N-acetyl-D-galactosaminyl-R", "β-D-galactosyl-1,3-(N-acetyl-D-glucosaminyl-1,6)-N-acetyl-D-galactosaminyl-R"] null null +"Galactosyl-galactosyl-diacyl-glycerols" "an α,β-digalactosyldiacylglycerol" ["an (α-D-galactosyl-(1->6)-β-D-galactosyl)-1,2-diacyl-sn-glycerol", "a 3(α-D-galactosyl-(1->6)-β-D-galactosyl)-1,2-diacyl-sn-glycerol", "DGDG", "an α-D-galactosyl-β-D-galactosyldiacylglycerol"] null null +"Galactosyl-Inositols" "a galactosyl inositol" [] null null +"Galactosylated-Galactose-Acceptors" "a galactosylated galactose acceptor" [] null null +"Galactosylated-N-Glycan" "a {β-D-Gal-(1→4)-β-D-GlcNAc-(1→2)-[β-D-Gal-(1→4)-β-D-GlcNAc-(1→4)]-α-D-Man-(1→3)-[β-D-Gal-(1→4)-β-D-GlcNAc-(1→2)-[β-D-Gal-(1→4)-β-D-GlcNAc-(1→6)]-α-D-Man-(1→6)]-β-D-Man-(1→4)-β-D-GlcNAc-(1→4)-β-D-GlcNAc}-N-Asn-[protein]" [] null null +"GALACTOSYLCERAMIDE-SULFATE" "a sulfatide" ["a cerebroside 3-sulfate", "a galactosylceramidesulfate", "a galactosylceramide-sulfate"] null null +"Galacturonan-Methyl-Ester" "a (1,4)-α-D-galacturonan methyl ester" [] null null +"Galacturonans" "a galacturonan" ["a 1,4-α-poly-D-galacturonate", "a 1,4-α-D-D-galactosyluronate"] null null +"Galacturonate" "galacturonate" [] "C6H9O7" null +"GalNAc-chondroitin-dermatan" "N-acetyl-β-D-galactosaminide-[chondroitin/dermatan]" ["N-acetyl-D-galactosaminyl-1,4-β-D-glucosyluronate-N-acetyl-1,3-β-D-galactosaminylproteoglycan", "N-acetyl-β-D-galactosaminyl-(1->4)-β-D-glucosyluronate-[proteoglycan]"] null null +"GalNAc-GlcA-Gal-Gal-Xyl-Proteins" "a 3-O-[β-D-GalNAc-(1→4)-β-D-GlcA-(1→3)-β-D-Gal-(1→3)-β-D-Gal-(1→4)-β-D-Xyl]-L-seryl-[protein]" ["N-acetyl-D-galactosaminyl-(1→4)-β-D-glucuronosyl-(1→3)-β-D-galactosyl-(1->3)-β-D-galactosyl-(1->4)-β-D-xylosyl-[core protein]"] null null +"GalNAc-GlcA-GalNAc-GlcA-Gal-Gal-Xyl-Pr" "a 3-O-[β-D-GalNAc-(1→4)-β-D-GlcA-(1→3)-β-D-GalNAc-(1→4)-β-D-GlcA-(1→3)-β-D-Gal-(1→3)-β-D-Gal-(1→4)-β-D-Xyl]-L-seryl-[protein]" ["N-acetyl-D-galactosaminyl-(1→4)-β-D-glucuronosyl-(1→3)-β-N-acetyl-D-galactosaminyl-(1→4)-β-D-glucuronosyl-(1→3)-β-D-galactosyl-(1->3)-β-D-galactosyl-(1->4)-β-D-xylosyl-[core protein]"] null null +"GAMMA-BUTYROBETAINE" "γ-butyrobetaine" ["3-carboxypropyl-trimethyl-ammonium", "4-(trimethylamino)butanoate", "4-(trimethylammonio)butanoate", "deoxycarnitine", "actinine", "4-butyrobetaine"] "C7H15NO2" 145.201 +"GAMMA-BUTYROBETAINYL-COA" "γ-butyrobetainyl-CoA" ["γ-butyrobetaine-CoA", "4-(trimethylammonio)butanoayl-CoA"] "C28H46N8O17P3S" 891.696 +"GAMMA-GLUTAMYL-GAMMA-AMINOBUTYRALDEH" "4-(γ-L-glutamylamino)butanal" ["gamma-glutamyl-gamma-butyraldehyde", "γ-glutamyl-γ-aminobutyraldehyde"] "C9H16N2O4" 216.236 +"GAMMA-GLUTAMYL-PUTRESCINE" "γ-glutamyl-L-putrescine" ["gamma-L glutamylputrescine", "γ-Glu-Put", "γ-glutamylputrescine"] "C9H20N3O3" 218.275 +"Gamma-Glutamylated-Glutamyl-acceptors" "a γ-glutamylated glutamyl acceptor" [] null null +"Gamma-Lactams" "a γ-lactam" [] null null +"Gamma-lactones" "a γ-lactone" ["a 1,4-lactone"] null null +"Gamma-linolenoyl-groups" "a [glycerolipid]-γ-linolenate" ["a [glycerolipid]-6Z,9Z,12Z-octadecatrienoic acid", "a [glycerolipid]-6Z,9Z,12Z-octadecatrienoate", "a [glycerolipid]-(6,9,12)-linolenoic acid", "a [glycerolipid]-(6,9,12)-linolenate", "a [glycerolipid]-γ-linolenic acid"] null null +"Ganglio-Series-GSLs" "a ganglio-series glycosphingolipid" [] null null +"Gangliosides" "a ganglioside" [] null null +"GAP" "D-glyceraldehyde 3-phosphate" ["3-phosphoglyceraldehyde", "D-glyceraldehyde-3-P", "glyceraldehyde 3-phosphate", "GAP", "glyceraldehyde-phosphate", "glyceraldehyde-P", "glyceraldehyde-3-P", "(2R)-2-hydroxy-3-(phosphooxy)-propanal", "triose phosphate"] "C3H5O6P" 168.043 +"Gcv-H" "[glycine cleavage system lipoyl-carrier protein]-L-lysine" [] null null +"GDP" "GDP" ["ppG", "guanosine-5'-diphosphate", "guanosine-diphosphate"] "C10H12N5O11P2" 440.179 +"GDP-4-DEHYDRO-6-DEOXY-D-MANNOSE" "GDP-4-dehydro-α-D-rhamnose" ["GDP-4-keto-6-deoxymannose", "GDP-4-keto-6-deoxy-α-D-mannose", "GDP-4-dehydro-6-deoxy-α-D-talose", "GDP-4-oxo-6-deoxy-α-D-mannose", "GDP-4-dehydro-6-deoxy-α-D-mannose", "GDP-4-dehydro-6-deoxymannose", "GDP-6-deoxy-D-lyxo-4-hexulose"] "C16H21N5O15P2" 585.314 +"GDP-4-DEHYDRO-6-L-DEOXYGALACTOSE" "GDP-4-dehydro-6-deoxy-β-L-galactose" ["GDP-4-oxo-L-fucose", "GDP-4-keto-6-L-deoxygalactose"] "C16H21N5O15P2" 585.314 +"GDP-D-GLUCOSE" "GDP-α-D-glucose" ["GDP-glucose"] "C16H23N5O16P2" 603.329 +"GDP-GROUP" "GDP group" [] "C10H13N5O11P2" 441.187 +"GDP-MANNOSE" "GDP-α-D-mannose" ["guanosine pyrophosphate mannose", "guanosine diphosphomannose", "guanosine diphosphate mannose", "GDP-mannose"] "C16H23N5O16P2" 603.329 +"GDP-SUGARS" "a GDP-sugar" [] null null +"GDP-TP" "pppGpp" ["guanosine pentaphosphate", "guanosine 3'-diphosphate 5'-triphosphate", "guanosine 5'-triphosphate,3'-diphosphate"] "C10H11N5O20P5" 676.087 +"Gellan" "gellan" ["E418"] null null +"Gentamicin-2-prime-prime-phosphate" "a gentamicin 2''-phosphate" ["a gentamycin 2''-phosphate"] null null +"Gentamycins" "a gentamicin" ["a gentamycin"] null null +"Gentiobiose" "gentiobiose" ["β-D-Glcp-(1→6)-D-Glcp", "β-D-glucopyranose-(1→6)-D-glucopyranose"] "C12H22O11" 342.299 +"GERANIAL" "geranial" ["citral", "geranialdehyde", "geranal", "trans-citral"] "C10H16O" 152.236 +"GERANIOL" "geraniol" ["lemonol", "geranyl alcohol", "trans-geraniol", "trans-3,7-dimethyl-2,6-octadien-1-ol", "(E)-geraniol"] "C10H18O" 154.252 +"GERANYL-PP" "geranyl diphosphate" ["geranyl-diphosphate", "geranyl-pyrophosphate", "GPP", "geranyl-PP", "geranyl pyrophosphate", "ω,E-geranyl diphosphate"] "C10H17O7P2" 311.188 +"GERANYLGERANYL-PP" "geranylgeranyl diphosphate" ["GGPP", "all-trans-geranyl-geranyl-pp", "geranylgeranyl-PP", "geranylgeranyl diphosphate", "(2E,6E,10E)-geranylgeranyl diphosphate", "ω,E,E,E-geranylgeranyl diphosphate", "(2E,6E,10E)-3,7,11,15-tetramethylhexadeca-2,6,10,14-tetraen-1-yl diphosphate", "all-trans-geranylgeranyl diphosphate", "2-trans,6-trans,10-trans-geranylgeranyl diphosphate"] "C20H33O7P2" 447.424 +"Gibberellins" "a gibberellin" [] null null +"Ginsenosides" "a ginsenoside" ["a panaxoside"] null null +"GIPC-40-0-2s" "a glycosylinositolphosphoceramide(40:0)-2" ["a GIPC(40:0)-2"] null null +"GIPC-40-0-3s" "a glycosylinositolphosphoceramide(40:0)-3" ["a GIPC(40:0)-3"] null null +"GIPC-40-1-2s" "a glycosylinositolphosphoceramide(40:1)-2" ["a GIPC(40:1)-2"] null null +"GIPC-40-1-3s" "a glycosylinositolphosphoceramide(40:1)-3" ["a GIPC(40:1)-3"] null null +"GIPC-42-2-3s" "a glycosylinositolphosphoceramide(42:2)-3" ["a GIPC(42:2)-3"] null null +"GIPC-44-0-2s" "a glycosylinositolphosphoceramide(44:0)-2" ["a GIPC(44:0)-2"] null null +"GIPC-44-0-3s" "a glycosylinositolphosphoceramide(44:0)-3" ["a GIPC(44:0)-3"] null null +"GIPC-46-2-2s" "a glycosylinositolphosphoceramide(46:2)-2" ["a GIPC(46:2)-2"] null null +"GLC" "β-D-glucopyranose" ["β-D-glucose", "β-glucose"] "C6H12O6" 180.157 +"GLC-1-P" "α-D-glucopyranose 1-phosphate" ["glucose 1-phosphate", "cori ester", "D-glucose 1-phosphate", "glucose-1P", "α-glucose-1-phosphate", "D-glucose-α-1-phosphate", "α-D-glucose-1-P", "D-glucose-1-phosphate", "α-D-glucose 1-phosphate"] "C6H11O9P" 258.121 +"GLC-6-P" "β-D-glucose 6-phosphate" ["β-D-glucose-6-P"] "C6H11O9P" 258.121 +"GLC-D-LACTONE" "D-glucono-1,5-lactone" ["3,4,5-trihydroxy-6-(hydroxymethyl)tetrahydropyran-2-one", "gluconolactone", "glucono-1,5-lactone", "1,5-gluconolactone", "D-gluconolactone", "glucono-δ-lactone", "δ-gluconolactone", "D-glucono-δ-lactone", "gluconic lactone", "gluconic acid lactone"] "C6H10O6" 178.141 +"Glc2Man9GlcNAc2-proteins" "Glc2Man9GlcNAc2-[protein]" ["an [α-D-Glc-(1→3)-α-D-Glc-(1→3)-α-D-Man-(1→2)-α-D-Man-(1→2)-α-D-Man-(1→3)-{α-D-Man-(1→2)-α-D-Man-(1→3)-[α-D-Man-(1→2)-α-D-Man-(1→6)]-α-D-Man-(1→6)}-β-D-Man-(1→4)-β-D-GlcNAc-(1→4)-β-D-GlcNAc]-N-Asn-[protein]", "a -[(glucosyl)2(mannosyl)9(N-acetylglucosaminyl)2]-L-asparaginyl-[protein]"] null null +"GlcA-Gal-Gal-Xyl-Proteins" "a 3-O-[β-D-GlcA-(1→3)-β-D-Gal-(1→3)-β-D-Gal-(1→4)-β-D-Xyl]-L-seryl-[protein]" ["3-β-D-glucosyluronate-3-β-D-galactosyl-4-β-D-galactosyl-O-β-D-xylosyl-[protein]", "β-D-glucosyluronate-(1->3)-β-D-galactosyl-(1->3)-β-D-galactosyl-(1->4)-β-D-xylosyl-[proteoglycan]", "β-D-glucuronosyl-(1->3)-β-D-galactosyl-(1->3)-β-D-galactosyl-(1->4)-β-D-xylosyl-[core protein]", "a [protein]-3-O-(β-D-glucuronosyl-(1→3)-β-D-galactosyl-(1→3)-β-D-galactosyl-(1→4)-β-D-xylosyl)-L-serine"] null null +"GlcA-GalNAc-GlcA-Gal-Gal-Xyl-Proteins" "a 3-O-[β-D-GlcA-(1→3)-β-D-GalNAc-(1→4)-β-D-GlcA-(1→3)-β-D-Gal-(1→3)-β-D-Gal-(1→4)-β-D-Xyl]-L-seryl-[protein]" ["D-glucuronosyl-(1→3)-β-N-acetyl-D-galactosaminyl-(1→4)-β-D-glucuronosyl-(1→3)-β-D-galactosyl-(1->3)-β-D-galactosyl-(1->4)-β-D-xylosyl-[core protein]"] null null +"GlcA-GlcNAc-GlcA-Gal-Gal-Xyl-Protein" "a 3-O-[β-D-GlcA-(1→3)-α-D-GlcNAc-(1→4)-β-D-GlcA-(1→3)-β-D-Gal-(1→3)-β-D-Gal-(1→4)-β-D-Xyl]-L-seryl-[protein]" ["β-D-glucosyluronate-(1->3)-α-N-acetyl-D-glucosaminyl-(1->4)-β-D-glucosyluronate-(1->3)-β-D-galactosyl-(1->3)-β-D-galactosyl-(1->4)-β-D-xylosyl-[proteoglycan]", "β-D-glucosyluronate-(1->3)-α-N-acetyl-D-glucosaminyl-(1->4)-β-D-glucosyluronate-(1->3)-β-D-galactosyl-(1->3)-β-D-galactosyl-(1->4)-β-D-xylosylproteoglycan", "β-D-glucuronosyl-(1->3)-α-N-acetyl-D-glucosaminyl-(1->4)-β-D-glucuronosyl-(1->3)-β-D-galactosyl-(1->3)-β-D-galactosyl-(1->4)-β-D-xylosyl-[core protein]"] null null +"GlcA-n-3-O-sulfoGlcNS" "heparan sulfate containing a glucuronate--N,3-O-disulfo-D-glucosamine disaccharide" [] null null +"GlcA-n-6-O-sulfoGlcNS" "heparan sulfate containing a glucuronate--N,6-O-disulfo-D-glucosamine disaccharide" [] null null +"GlcCer-40-1-3s" "a glucosylceramide(40:1)-3" ["a GlcCer(40:1)-3", "a glucosyl ceramide(40:1)-3"] null null +"GlcMan9GlcNAc2-proteins" "GlcMan9GlcNAc2-[protein]" ["an N-linked GlcMan9(GlcNAc)2-glycoprotein", "an α-D-Glc-(1→3)-α-D-Man-(1→2)-α-D-Man-(1→2)-α-D-Man-(1→3)-[α-D-Man-(1→2)-α-D-Man-(1→3)-[α-D-Man-(1→2)-α-D-Man-(1→6)]-α-D-Man-(1→6)]-β-D-Man-(1→4)-β-D-GlcNAc-(1→4)-β-D-GlcNAc-1-L-asparaginyl-[protein]", "a [glucosyl(mannosyl)9(N-acetylglucosaminyl)2]-L-asparaginyl-[protein]"] null null +"GlcNAc-1-6-anhydro-MurNAc-pentapeptide" "GlcNAc-1,6-anhydro-MurNAc-pentapeptide" [] null null +"GlcNAc-b2-GlcNAc-b6-O-D-mannosyl-Protein" "a 3-O-{β-D-GlcNAc-(1→2)-[β-D-GlcNAc-(1→6)-]-α-D-mannosyl}-(Ser/Thr)-[protein]" ["core M2"] null null +"GlcNAc-b2-O-D-mannosyl-Protein" "a 3-O-[β-D-GlcNAc-(1→2)-α-D-mannosyl]-(Ser/Thr)-[protein]" ["core M1"] null null +"GlcNAc-GlcA-Gal-Gal-Xyl-Protein" "a 3-O-[α-D-GlcNAc-(1→4)-β-D-GlcA-(1→3)-β-D-Gal-(1→3)-β-D-Gal-(1→4)-β-D-Xyl]-L-seryl-[protein]" ["α-N-acetyl-D-glucosaminyl-(1->4)-β-D-glucosyluronate-(1->3)-β-D-galactosyl-(1->3)-β-D-galactosyl-(1->4)-β-D-xylosyl-[proteoglycan]", "α-N-acetyl-D-glucosaminyl-(1->4)-β-D-glucosyluronate-(1->3)-β-D-galactosyl-(1->3)-β-D-galactosyl-(1->4)-β-D-xylosylproteoglycan", "α-N-acetyl-D-glucosaminyl-(1->4)-β-D-glucuronosyl-(1->3)-β-D-galactosyl-(1->3)-β-D-galactosyl-(1->4)-β-D-xylosyl-[core protein]"] null null +"GlcNAc-GlcA-GlcNAc-GlcA-Gal-Gal-Xyl-Core" "a 3-O-[α-D-GlcNAc-(1→4)-β-D-GlcA-(1→3)-α-D-GlcNAc-(1→4)-β-D-GlcA-(1→3)-β-D-Gal-(1→3)-β-D-Gal-(1→4)-β-D-Xyl]-L-seryl-[protein]" ["α-N-acetyl-D-glucosaminyl-(1->4)-β-D-glucosyluronate-(1->3)-α-N-acetyl-D-glucosaminyl-(1->4)-β-D-glucosyluronate-(1->3)-β-D-galactosyl-(1->3)-β-D-galactosyl-(1->4)-β-D-xylosyl-[proteoglycan]", "α-N-acetyl-D-glucosaminyl-(1->4)-β-D-glucosyluronate-(1->3)-α-N-acetyl-D-glucosaminyl-(1->4)-β-D-glucosyluronate-(1->3)-β-D-galactosyl-(1->3)-β-D-galactosyl-(1->4)-β-D-xylosylproteoglycan", "α-N-acetyl-D-glucosaminyl-(1->4)-β-D-glucuronosyl-(1->3)-α-N-acetyl-D-glucosaminyl-(1->4)-β-D-glucuronosyl-(1->3)-β-D-galactosyl-(1->3)-β-D-galactosyl-(1->4)-β-D-xylosyl-[core protein]"] null null +"GlcNAc-MurNAc-tetrapeptide" "an N-acetyl-D-glucosamine-N-acetylmuramyl-tetrapeptide" ["a GlcNAc-MurNAc-tetrapeptide"] null null +"GlgE-Glycogen" "a GlgE-glycogen" ["a mycobacterial α-D-glucan"] null null +"GLN" "L-glutamine" ["Q", "proglumide", "glum", "glutamine", "glumin", "2-aminoglutaramic acid", "glutamic acid 5-amide", "L-gln"] "C5H10N2O3" 146.146 +"Globo-Series-GSLs" "a globo-series glycosphingolipid" [] null null +"GLOBOMYCIN" "globomycin" [] "C33H59N5O9" 669.857 +"GLT" "L-glutamate" ["1-amino-propane-1,3-dicarboxylic acid", "glutacid", "glutaminic acid", "L-glutamic acid", "α-aminoglutaric acid", "E", "glt", "glut", "L-glu", "2-aminopentanedioic acid"] "C5H8NO4" 146.122 +"Gluc-Glycosyl-Hydroxymethylcytosine-DNAs" "β-D-glucosyl-β-D-glucosyl-hydroxymethylcytosine in DNA" ["a DNA containing β-D-glucosyl-β-D-glucosyl-hydroxymethylcytosine"] null null +"Glucans" "a glucan" [] null null +"Glucocorticoids" "a glucocorticoid" [] null null +"Glucolipids" "a glucolipid" [] null null +"Glucomannans" "a glucomannan" [] null null +"GLUCONATE" "D-gluconate" ["D-gluconic acid", "dextronic acid", "maltonic acid"] "C6H11O7" 195.149 +"Glucopyranose" "D-glucopyranose" ["6-(hydroxymethyl)tetrahydropyran-2,3,4,5-tetraol"] "C6H12O6" 180.157 +"GLUCOSAMINATE" "2-amino-2-deoxy-D-gluconate" ["D-glucosaminic acid", "D-glucosaminate", "2-amino-2-deoxy-D-gluconic acid"] "C6H13NO6" 195.172 +"GLUCOSAMINE" "D-glucosamine" ["2-amino-2-deoxyglucose", "chitosamine", "glucosamine"] "C6H14NO5" 180.18 +"GLUCOSAMINE-1P" "α-D-glucosamine 1-phosphate" ["glucosamine-1P", "α-D-glucosamine 1P", "D-glucosamine 1-phosphate"] "C6H13NO8P" 258.144 +"Glucosaminoglycans" "a glucosaminoglycan" [] null null +"GLUCOSAMINYL-13-N-ETCETERA-GALACTOSAMINY" "core 3" ["N-acetyl-β-D-glucosaminyl-1,3-N-acetyl-α-D-galactosaminyl-R", "N-acetyl-β-D-glucosaminyl-1,3-N-acetyl-α-D-galactosaminyl-[glycoprotein]"] null null +"GLUCOSAMINYL-16-ETCETERA-GALACTOSAMINYL-" "core 4" ["N-acetyl-β-D-glucosaminyl-1,6-(N-acetyl-β-D-glucosaminyl-1,3)-N-acetyl-α-D-galactosaminyl-R", "N-acetyl-β-D-glucosaminyl-1,6-(N-acetyl-β-D-glucosaminyl-1,3)-N-acetyl-α-D-galactosaminyl-[glycoprotein]"] null null +"GLUCOSAMINYL-ETCETERA-MANNOSYL-R" "(N-acetyl-β-D-glucosaminyl-1,2)-α-D-mannosyl-1,3-(β-N-acetyl-D-glucosaminyl-1,2-α-D-mannosyl-1,6)-β-D-mannosyl-R" [] null null +"Glucose" "glucose" [] null null +"GLUCOSE-16-DIPHOSPHATE" "glucose-1,6-bisphosphate" ["glucose-1,6-diphosphate"] "C6H10O12P2" 336.085 +"Glucose-6-phosphate" "D-glucose 6-phosphate" ["D-glucose-6-P"] null null +"Glucosides" "a D-glucoside" ["a D-glucopyranoside"] null null +"Glucosinolates" "a glucosinolate" [] null null +"Glucosyl-Acceptors" "a glucosyl acceptor" ["a glucosyl donor"] null null +"Glucosyl-acyl-sphinganines" "a β-D-glucosyl-N-acylsphinganine" ["a glucosylceramide (I)", "an N-acyl-β-D-glucosyl-sphinganine", "a dihydroglucosylceramide", "GlcCer"] null null +"Glucosyl-acyl-sphingosines" "a β-D-glucosyl-N-acylsphingosine" ["a β-D-glucosyl-(1↔1)-ceramide", "N-acyl-β-D-glucosyl-sphingosine", "a glucosylceramide (II)"] null null +"Glucosyl-ceramides" "a glucosylceramide" ["a glucocerebroside", "a D-glucosylceramide", "a glucosyl cerebroside", "a GlcCer", "a glucosyl ceramide"] null null +"Glucosyl-Lipopolysaccharides" "an α-D-glucosyl-lipopolysaccharide" [] null null +"Glucosylated-Glucose-Acceptors" "a glucosylated D-glucose acceptor" ["a glucosylated D-glucose donor"] null null +"Glucuronans" "a glucuronan" ["a (1,4)-β-D-glucuronan"] null null +"GLUCURONATE" "D-glucuronate" ["glucuronate", "glucuronic acid", "D-glucuronic acid", "GlcA", "D-glucopyranuronic acid"] "C6H9O7" 193.133 +"Glucuronides" "a D-glucoronoside" ["a D-glucosiduronate"] null null +"Glucuronoarabinoxylan-Oligosaccharides" "a glucuronoarabinoxylan oligosaccharide" [] null null +"Glucuronoarabinoxylans" "a glucuronoarabinoxylan" ["GAX"] null null +"Glucuronoside-Acceptors" "a glucuronoside acceptor" [] null null +"Glucuronosylated-Glucuronoside-Acceptors" "a glucuronated glucosyluronate acceptor" [] null null +"GLUCURONOXYLAN-4-O-METHYL-D-GLUCURONATE" "[glucuronoxylan] 4-O-methyl-D-glucuronate" [] null null +"GLUCURONOXYLAN-D-GLUCURONATE" "[glucuronoxylan] D-glucuronate" [] null null +"Glucuronoxylan-Oligosaccharides" "a glucuronoxylan oligosaccharide" [] null null +"Glucuronoxylans" "a glucuronoxylan" ["MGX", "4-O-methyl-D-glucurono-D-xylan"] null null +"GLUCURONYL-ETCETERA-GALACTOSYLPROTEOGLYC" "D-glucosyluronate-1,3-β-D-galactosyl-[proteoglycan]" ["3-β-D-glucosyluronate-3-β-D-galactosyl-4-β-D-galactosyl-O-β-D-xylosyl-[protein]", "β-D-glucosyluronate-1,3-D-galactosyl-[proteoglycan]"] null null +"GLUTACONATE" "(E)-glutaconate" ["trans-glutaconic acid", "trans-glutaconate", "(E)-glutaconic acid"] "C5H4O4" 128.084 +"GLUTAMATE-1-SEMIALDEHYDE" "(S)-4-amino-5-oxopentanoate" ["L-glutamate 1-semialdehyde"] "C5H9NO3" 131.131 +"Glutamates" "glutamate" [] "C5H8NO4" 146.122 +"GLUTAMIDE" "D-glutamine" ["glutamide"] "C5H10N2O3" 146.146 +"Glutamine-synthetase-adenylyl-Tyr" "a [glutamine synthetase]-O4-(5'-adenylyl)-L-tyrosine" [] null null +"Glutamine-synthetase-Tyr" "a [glutamine-synthetase]-L-tyrosine" [] null null +"Glutamyl-Acceptors" "a glutamyl acceptor" [] null null +"GLUTARATE" "glutarate" ["pentanedioate", "glutaric acid"] "C5H6O4" 130.1 +"GLUTATHIONE" "glutathione" ["L-γ-glutamyl-L-cysteinylglycine", "GSH", "reduced glutathione", "glutathionate"] "C10H16N3O6S" 306.313 +"GLUTATHIONYLSPERMIDINE" "glutathionylspermidine" ["N1-(γ-L-glutamyl-L-cysteinyl-glycyl)-spermidine"] "C17H36N6O5S" 436.569 +"GLY" "glycine" ["G", "aminoacetic acid"] "C2H5NO2" 75.067 +"Glycan-Groups" "a glycan group" [] null null +"Glycans" "a glycan" [] null null +"Glyceollins" "a glyceollin" [] null null +"GLYCERALD" "D-glyceraldehyde" ["glyceraldehyde", "α,β-dihydroxypropionaldehyde", "D-(+)-glyceraldehyde", "D-2,3-dihydroxypropanal", "D-2,3-dihydroxypropionaldehyde", "D-aldotriose", "D-glycerose"] "C3H6O3" 90.079 +"GLYCERATE" "D-glycerate" ["(R)-glycerate", "glycerate", "D-glyceric acid"] "C3H5O4" 105.07 +"Glycerates" "a glycerate" ["glyceric acid"] null null +"Glycerides" "a glyceride" [] null null +"GLYCEROL" "glycerol" ["1,2,3-trihydroxypropane", "glycerin", "1,2,3-trihydroxypropanol"] "C3H8O3" 92.094 +"Glycerol-1-phosphate" "glycerol 1-phosphate" ["D,L-α-glycerol-phosphate", "DL-glycerol 1-phosphate"] "C3H7O6P" 170.058 +"GLYCEROL-3P" "sn-glycerol 3-phosphate" ["L-α-glycerophosphate", "L-G3P", "L-glycerol 3-phosphate", "α-glycerophosphoric acid", "α-glycerophosphate", "D-glycerol 1-phosphate", "glycerol 3-phosphate"] "C3H7O6P" 170.058 +"Glycerol-Ethers" "a glycerol ether" [] null null +"Glycerolipid-crepenynate" "a [glycerolipid]-crepenynate" [] null null +"Glycerolipid-Olefinic-Fatty-Acids" "a [glycerolipid] olefinic fatty acid" [] null null +"Glycerolipid-vernolate" "a [glycerolipid]-vernolate" [] null null +"Glycerolipids" "a glycerolipid" [] null null +"Glycerophosphodiesters" "a glycerophosphodiester" ["glycerophosphodiester", "glycerol-3-P-OR"] null null +"GLYCEROPHOSPHOGLYCEROL" "glycerophosphoglycerol" ["diglycerol phosphate", "bis(2,3-dihydroxypropyl) phosphate"] "C6H14O8P" 245.146 +"Glycerophosphoinositols" "a glycerophosphoinositol" [] null null +"GLYCO-CT-ACETYL" null [] null null +"GLYCO-CT-AMINO" null [] null null +"Glyco-CT-Base-Types" "Glyco-CT Base Types" [] null null +"GLYCO-CT-METHYL" null [] null null +"GLYCO-CT-N-ACETYL" "GLYCO-CT-N-ACETYL" [] null null +"GLYCO-CT-N-SULFATE" "GLYCO-CT-N-SULFATE" [] null null +"GLYCO-CT-PHOSPHATE" null [] null null +"Glyco-CT-Stemtype-ALL" null [] null null +"Glyco-CT-Stemtype-ALT" null [] null null +"Glyco-CT-Stemtype-ARA" null [] null null +"Glyco-CT-Stemtype-ERY" null [] null null +"Glyco-CT-Stemtype-GAL" null [] null null +"Glyco-CT-Stemtype-GLC" null [] null null +"Glyco-CT-Stemtype-GUL" null [] null null +"Glyco-CT-Stemtype-IDO" null [] null null +"Glyco-CT-Stemtype-LYX" null [] null null +"Glyco-CT-Stemtype-MAN" null [] null null +"Glyco-CT-Stemtype-RIB" null [] null null +"Glyco-CT-Stemtype-TAL" null [] null null +"Glyco-CT-Stemtype-TRE" null [] null null +"Glyco-CT-Stemtype-XYL" null [] null null +"Glyco-CT-Substituents" "Glyco-CT Substituents" [] null null +"GLYCO-CT-SULFATE" null [] null null +"Glyco-CT-Superclass-DEC" "Decose" [] null null +"Glyco-CT-Superclass-HEP" "Heptose" [] null null +"Glyco-CT-Superclass-HEX" "Hexose" [] null null +"Glyco-CT-Superclass-NON" "Nonose" [] null null +"Glyco-CT-Superclass-OCT" "Octose" [] null null +"Glyco-CT-Superclass-PEN" "Pentose" [] null null +"Glyco-CT-Superclass-S11" "Undecose" [] null null +"Glyco-CT-Superclass-S12" "Dodecose" [] null null +"Glyco-CT-Superclass-S13" "Tridecose" [] null null +"Glyco-CT-Superclass-S14" "Tetradecose" [] null null +"Glyco-CT-Superclass-S15" "Pentadecose" [] null null +"Glyco-CT-Superclass-S16" "Hexadecose" [] null null +"Glyco-CT-Superclass-TET" "Tetrose" [] null null +"Glyco-CT-Superclass-TRI" "Triose" [] "C3H6O3" 90.079 +"Glycoalkaloids" "a glycoalkaloid" [] null null +"Glycoconjugates" "a glycoconjugate" [] null null +"Glycogens" "a glycogen" ["a branching glycogen", "6-α-D-(1,4-α-D-glucano)-glucan", "glycogen"] null null +"GLYCOL" "ethylene glycol" ["monoethylene glycol", "2-hydroxyethanol", "ethanediol", "1,2-ethanediol", "glycol"] "C2H6O2" 62.068 +"GLYCOLALDEHYDE" "glycolaldehyde" ["glycoaldehyde", "2-OH-acetaldehyde", "hydroxyacetaldehyde", "2-hydroxyethanal"] "C2H4O2" 60.052 +"Glycolipids" "a glycolipid" [] null null +"GLYCOLLATE" "glycolate" ["hydroxyacetic acid", "glycolic acid", "glycollate"] "C2H3O3" 75.044 +"glycols" "a glycol" [] null null +"Glycoprotein-Asn-oligosaccharides" "a [glycoprotein]-L-asparagine-[oligosaccharide]" [] null null +"Glycoprotein-L-Lysine" "a [glycoprotein]-L-lysine" [] null null +"Glycoprotein-L-Serine" "a [glycolipid] L-serine" [] null null +"Glycoprotein-L-serine-or-L-threonine" "a [glycoprotein]-(L-serine/L-threonine)" ["a [glycoprotein]-L-serine/L-threonine"] null null +"GLYCOPROTEIN-PHOSPHO-D-MANNOSE" "a 3-phospho-α-D-Man-(1→2)-α-D-Man-(1→2)-α-D-Man-(1→3)-[α-D-Man-(1→2)-α-D-Man-(1→3)-[α-D-Man-(1→6)]-α-D-Man-(1→6)]-β-D-Man-(1→4)-β-D-GlcNAc-(1→4)-α-D-GlcNAc-L-asparaginyl-[lysosomal protein]" [] null null +"Glycosaminoglycans" "a glycosaminoglycan" ["a mucopolysaccharide"] null null +"Glycosides" "a glycoside" [] null null +"Glycosphingolipids" "a glycosphingolipid" [] null null +"Glycosyl-Esters" "a glycosyl ester" [] null null +"Glycosyl-IPCs" "a glycosylinositol phosphoceramide" ["a GIPC"] null null +"Glycosylated-Dolichols" "a glycosylated dolichol" [] null null +"Glycosylated-Sugar-Acceptors" "a glycosylated sugar acceptor" [] null null +"GLYCOSYLGLYCERIDES" "a glycosylglyceride" [] null null +"GLYCYLGLYCINE" "glycyl-glycine" ["Gly-Gly"] "C4H8N2O3" 132.119 +"GLYOX" "glyoxylate" ["glyoxalate", "glyox", "glyoxylic acid"] "C2HO3" 73.028 +"GMP" "GMP" ["guanylate", "guanylic acid", "guanosine phosphate", "guanosine 5'-phosphate", "guanosine monophosphate", "guanosine-5'-monophosphate"] "C10H12N5O8P" 361.207 +"GMP-LYSINE-PHOSPHORAMIDATE" "GMP-N-ε-(N-α-acetyl lysine methyl ester) 5'-phosphoramidate" ["GMP-lysine"] "C19H29N7O10P" 546.453 +"Goods-Buffers" "a Good's buffer substance" [] null null +"GPPOL" "a triglycosyl phenolphthiocerol" ["[2,3,4-tri-O-methyl-α-L-fucopyranosyl-(1→3)-α-L-rhamnopyranosyl-(1→3)-2-O-methyl-α-L-rhamnopyranosyl] phenolphthiocerol", "GPPOL"] null null +"Gramicidins" "a gramicidin" [] null null +"Graminans" "a graminan" [] null null +"Gro-P-Glc2-DAG" "1,2-diacyl-3-O-[6-O-(sn-glycerol phospho)-(β-D-glucopyranosyl-(1->6)-O-β-D-glucopyranosyl)]-sn-glycerol" [] null null +"Gro-P-n-Gro-P-Glc2-DAG" "1,2-diacyl-3-O-[6-O-(sn-glycerol phospho)n-(sn-glycerol phospho)-(β-D-glucopyranosyl-(1->6)-O-β-D-glucopyranosyl)]-sn-glycerol" [] null null +"Groups" "Superatoms" ["Groups"] null null +"GTP" "GTP" ["guanylyl imidodiphosphate", "guanosine 5'-triphosphate", "guanosine-triphosphate"] "C10H12N5O14P3" 519.151 +"Guaiacols" "a guaiacol" ["an O-methoxyphenol", "a catechol monomethyl ether"] null null +"Guaiacylglycerol-guaiacyl-ether" "guaiacylglycerol-β-guaiacyl ether" ["GGE"] "C17H20O6" 320.341 +"Guanido-Compounds" "a guanido compound" [] null null +"GUANINE" "guanine" ["G"] "C5H5N5O" 151.127 +"Guanine10-in-tRNA" "a guanine10 in tRNA" [] null null +"Guanine15-in-tRNA-with-GUN-anticodon" "a guanine15 in archaeal tRNA" ["guanine at position 15 of an archaeal tRNA"] null null +"Guanine1575-in-18StRNAs" "a guanine1575 in 18S tRNA" [] null null +"Guanine2535-in-23S-rRNA" "a guanine2535 in 23S rRNA" [] null null +"Guanine26-Guanine27-in-tRNAs" "a guanine26/guanine27 in tRNA" [] null null +"Guanine26-in-tRNA" "a guanine26 in tRNA" [] null null +"Guanine34-in-tRNA-with-GUN-anticodon" "guanine34 in tRNA with GUN anticodon" [] null null +"Guanine34-in-tRNAs" "a guanine34 in tRNA" [] null null +"Guanine37-in-tRNA" "a guanine37 in tRNA" [] null null +"Guanine37-in-tRNAPhe" "guanine37 in tRNAPhe" [] null null +"Guanine46-in-tRNA" "a guanine46 in tRNA" [] null null +"Guanine6-in-tRNA" "a guanine6 in tRNA" [] null null +"Guanine9-in-tRNA" "a guanine9 in tRNA" [] null null +"GUANOSINE" "guanosine" ["nucleoside Q"] "C10H13N5O5" 283.243 +"Guanosine-2922-in-27S-pre-rRNA" "a guanosine2922 in 27S pre-rRNA" [] null null +"guanosine-34-tRNAs" "a guanosine34 in tRNA" [] null null +"GUANOSINE-5DP-3DP" "ppGpp" ["guanosine tetraphosphate", "guanosine 5'-diphosphate,3'-diphosphate", "guanosine 3',5'-bispyrophosphate", "guanosine 3',5'-bis(diphosphate)", "guanosine 3'-diphosphate 5'-diphosphate", "magic spot", "guanosine-5',3'-tetraphosphate"] "C10H11N5O17P4" 597.115 +"GUANOSINE_TETRAPHOSPHATE" "guanosine tetraphosphate" [] "C10H12N5O17P4" 598.123 +"Guloses" "gulose" [] null null +"GXGG-Xyloglucans" "a GXGG xylogulcan" [] null null +"H-antigen" "an H antigen" ["an α-L-fucosyl-(1->2)-β-D-galactosyl-R", "a glycoprotein-α-L-fucosyl-(1,2)-β-D-galactose", "a 2-O-(6-deoxy-α-L-galactopyranosyl)-β-D-galactopyranosyl", "an α-L-fucosyl-1,2-β-D-galactoside", "an α-L-fucosyl-1,2-β-D-galactosyl-R"] null null +"H2CO3" "carbonic acid" ["H2CO3"] "CH2O3" 62.025 +"Halide-Anions" "a halide anion" ["a halide"] null null +"Haloacetates" "a haloacetate" [] null null +"Haloalkanes" "a haloalkane" [] null null +"HCL" "HCl" ["hydrogen chloride", "hydrochloric acid"] "HCl" 36.461 +"HCN" "hydrogen cyanide" ["cyanide", "hydrocyanic acid"] "CHN" 27.026 +"HCO3" "hydrogencarbonate" ["carbonate", "CO3-2", "CO32-", "HCO3-", "HCO3", "bicarbonate"] "CHO3" 61.017 +"HECT-Ubiquitin-carrier-protein-E3-L-cys" "a [HECT-type E3 ubiquitin transferase]-L-cysteine" [] null null +"Hederagenin-Monoglucosides" "a hederagenin monoglucoside" [] null null +"Heme-b" "heme b" [] "C34H30N4O4Fe" 614.482 +"Heme-d1" "heme d1" [] "C34H26N4O10Fe" 706.447 +"Hemes" "a heme" [] null null +"HEME_A" "heme a" [] "C49H54N4O6Fe" 850.836 +"HEME_C" "heme c" [] "C34H34N4O4S2Fe" 682.634 +"HEME_D" "heme d" [] "C34H32N4O6Fe" 648.497 +"Heme_I" "heme i" ["haem i"] "C49H55N4O6Fe" 852.852 +"HEME_O" "heme o" [] "C49H56N4O5Fe" 836.852 +"Hemicelluloses" "hemicellulose" [] null null +"Hemiterpenes" "a hemiterpene" [] null null +"Heparan" "heparosan-[core protein]" [] null null +"Heparan-Glc-N-3-6-trisulfate" "a [heparan sulfate]-α-D-N-sulfoglucosamine 3,6-O-bissulfate" ["a heparin-3-O,6-O-disulfated, N-sulfated glucosamine", "a [heparan sulfate]-2-N,3,6-O-trisulfo-α-D-glucosamine"] null null +"Heparan-GlcN-6-N-bisulfate" "a [heparan sulfate]-α-D-N-sulfoglucosamine 6-O-sulfate" ["a heparin-6-O-sulfated, N-sulfated glucosamine", "a [heparan sulfate]-2-N,6-O-disulfo-α-D-glucosamine"] null null +"Heparan-glucuronate-terminal" "β-D-glucosyluronate-[heparan sulfate]" ["β-D-glucosyluronate-(1->4)-N-acetyl-α-D-glucosaminyl-[proteoglycan]", "β-D-glucosyluronate-(1->4)-N-acetyl-α-D-glucosaminyl-(1->4)-β-D-glucuronosyl-[proteoglycan]"] null null +"Heparan-NAc-Glc" "a [heparan sulfate]-N-acetyl-α-D-glucosamine" [] null null +"Heparan-NAc-Glc-6S" "[heparan sulfate]-α-N-acetyl-D-glucosamine 6-O-sulfate" ["a heparin N-acetyl-glucosamine 6-O-sulfate", "[heparan sulfate] 6-O-sulfate"] null null +"Heparan-NAc-glucosaminide" "N-acetyl-α-D-glucosaminide-[heparan sulfate]" ["N-acetyl-α-D-glucosaminyl-(1->4)-β-D-glucuronosyl-(1->4)-N-acetyl-α-D-glucosaminyl-[proteoglycan]", "N-acetyl-α-D-glucosaminyl-(1->4)-β-D-glucosyluronate-[proteoglycan]", "N-acetyl-a-D-glucosaminide-[heparan sulfate]"] null null +"Heparan-Sulfate" "heparan sulfate" ["heparitin sulfate"] null null +"Heparan-sulfate-3-N-disulfate" "a [heparan sulfate]-α-D-N-sulfoglucosamine 3-O-sulfate" ["a heparin-3-O-sulfated, N-sulfated glucosamine", "a [heparan sulfate]-2-N,3-O-disulfo-α-D-glucosamine"] null null +"Heparan-sulfate-D-GlcNS" "a [heparan sulfate]-α-D-N-sulfoglucosamine" ["a [heparan sulfate]-N-sulfoglucosamine", "a heparin α-D-N-sulfoglucosamine", "a [heparan sulfate]-GlcNS"] null null +"Heparan-sulfate-D-glucosaminides" "α-D-glucosaminide-[heparan sulfate]" [] null null +"Heparan-sulfate-D-glucuronate" "a [heparan-sulfate]-β-D-glucuronate" [] null null +"Heparan-sulfate-GlcA2S" "a [heparan-sulfate]-2-O-sulfo-β-D-glucuronate" [] null null +"Heparan-sulfate-GlcN6S" "[heparan sulfate]-α-D-glucosamine 6-O-sulfate" ["a heparin glucosamine 6-O-sulfate", "[heparan sulfate] 6-O-sulfate"] null null +"Heparan-sulfate-L-IdoA-2S" "a [heparan-sulfate]-2-O-sulfo-α-L-iduronate" [] null null +"Heparan-sulfate-L-iduronate" "a [heparan sulfate]-α-L-iduronate" [] null null +"HEPARIN" "heparin" ["enoxaparin"] null null +"HEPARIN-GLUCOSAMINE" "a [heparan sulfate]-α-D-glucosamine" ["a [heparan sulfate]-glucosamine"] null null +"HEPARIN-GLUCOSAMINE-3-O-SULFATE" "a [heparan sulfate]-α-D-glucosamine 3-sulfate" ["a heparin-glucosamine 3-O-sulfate", "a [heparan sulfate]-glucosamine 3-sulfate"] null null +"Heparin-NAcGlc-3S" "[heparin]-α-N-acetyl-D-glucosamine 3-O-sulfate" ["a heparin N-acetylglucosamine 3-O-sulfate"] null null +"Heparin-sulfo-NGlc" "[heparin]-α-N-sulfo-D-glucosamine" ["a heparin N-sulfoglucosamine"] null null +"Heparin-sulfo-NGlc-3S" "[heparin]-α-N-sulfo-D-glucosamine 3-O-sulfate" ["a heparin N-sulfoglucosamine 3-O-sulfate"] null null +"Heparosan" "heparosan" ["heparan"] null null +"Heparosan-D-glucuronate" "a [heparosan]-β-D-glucuronate" [] null null +"HEPES" "2-[4-(2-hydroxyethyl)piperazin-1-yl]ethanesulfonate" ["HEPES", "2-[4-(2-hydroxyethyl)piperazin-1-yl]ethanesulfonic acid"] "C8H18N2O4S" 238.301 +"HEPTA-ACYLATED-LIPID-A" "a hepta-acylated lipid A (E. coli)" ["a hepta-acyl lipid A", "lipid B (E. coli)", "palmitoylated lipid A"] "C110H204N2O26P2" 2032.767 +"Heptoses" "a heptose" [] null null +"HEPTOSYL-KDO2-LIPID-IVA" "heptosyl-Kdo2-lipid IVA" ["Rd2-LPS"] "C91H160N2O43P2" 2032.2 +"Heteroglycans" "heteroglycan" [] null null +"Hexadecenoates" "a hexadecenoate" [] null null +"HEXANAL" "1-hexanal" ["hexaldehyde"] "C6H12O" 100.16 +"HEXANOATE" "hexanoate" ["a hexonic acid", "hexanoate (n-C6:0)", "hexanoic acid", "caproate", "caproic acid"] "C6H11O2" 115.152 +"HEXANOYL-COA" "hexanoyl-CoA" ["hexanoyl-coenzyme A"] "C27H42N7O17P3S" 861.647 +"Hexaric-Acids" "a hexaric acid" [] "C6H8O8" 208.124 +"Hexasaccharides" "an hexasaccharide" [] null null +"Hexitols" "a hexitol" [] "C6H14O6" 182.173 +"Hexonic-Acids" "a hexonic acid" [] null null +"Hexosamines" "a hexosamine" [] "C6H13NO5" 179.172 +"Hexosaminides" "a hexosaminide" [] null null +"Hexose-1-Phosphate" "a hexose 1-phosphate" [] "C6H11O9P" 258.121 +"HEXOSE-6-PHOSPHATES" "a hexose 6-phosphate" [] null null +"Hexose-phosphates" "a hexose phosphate" [] null null +"Hexoses" "a hexose" [] null null +"Hexuronates" "a hexuronate" ["a hexuronic acid"] "C6H9O7" 193.133 +"HG+2" "Hg2+" ["Hg++", "mercury ion", "mercury(II)", "HgII"] "Hg" 200.59 +"HIF-alpha-subunit-3S-OH-ASN" "a [hypoxia inducible factor (HIF) α subunit]-(3S)-hydroxy-L-asparagine" [] null null +"HIF-alpha-subunit-4-OH-Proline" "a [hypoxia inducible factor (HIF) α subunit]-trans 4-hyroxy-L-proline" [] null null +"HIF-alpha-subunit-L-asparagines" "a [hypoxia inducible factor (HIF) α subunit]-L-asparagine" [] null null +"HIF-alpha-subunit-L-Proline" "a [hypoxia inducible factor (HIF) α subunit]-L-proline" [] null null +"HIS" "L-histidine" ["glyoxaline-5-alanine", "α-amino-4-imidazoleproprionic acid", "(S)-α-amino-1H-imidazole-4-propanoic acid", "H", "histidine", "L-his"] "C6H9N3O2" 155.156 +"HISTAMINE" "histamine" ["peremin", "1H-Imidazole-4-ethanamine"] "C5H10N3" 112.154 +"HISTIDINAL" "histidinal" ["L-histidinal"] "C6H10N3O" 140.164 +"HISTIDINOL" "histidinol" ["histidol", "L-histidinol"] "C6H12N3O" 142.18 +"Histone-Acetyl-Lysine" "a [histone]-N6-acetyl-L-lysine" [] null null +"Histone-L-arginines" "[histone]-L-arginine" [] null null +"Histone-L-lysine" "a [histone]-L-lysine" ["histone-L-lysine"] null null +"Histone-N-o-methyl-arginines" "[histone]-Nω-methyl-arginine" [] null null +"HMP" "4-amino-2-methyl-5-pyrimidinemethanol" ["hydroxymethylpyrimidine", "pyramine", "pyramin", "Toxopyrimidine", "HMP", "4-amino-2-methyl-5-hydroxymethylpyrimidine", "4-amino-5-hydroxymethyl-2-methylpyrimidine"] "C6H9N3O" 139.157 +"Holo-Hydroxymethylbilane-Synthase" "a holo-[hydroxymethylbilane synthase]" [] null null +"HOMO-CYS" "L-homocysteine" ["homo-cys", "homocysteine"] "C4H9NO2S" 135.181 +"HOMO-SER" "L-homoserine" ["homo-ser", "homoserine", "2-amino-4-hydroxybutanoic acid", "2-amino-4-hydroxybutanoate"] "C4H9NO3" 119.12 +"HOMOARGININE" "L-homoarginine" [] "C7H17N4O2" 189.237 +"HOMOCYSTINE" "L,L-homocystine" [] "C8H16N2O4S2" 268.345 +"HOMOSERINE-LACTONE" "homoserine lactone" ["2-aminobutan-4-olide", "2(3H)-furanone, 3-aminodihydro-", "α-amino-γ-butyrolactone", "Hsl"] "C4H8NO2" 102.113 +"Homoterpenoids" "a homoterpenoid" ["a homoterpene"] null null +"Hormones" "a hormone" [] null null +"Hpr-Histidine" "an [HPr]-L-histidine" [] null null +"Hpr-pi-phospho-L-histidines" "an [HPr protein]-Nπ-phospho-L-histidine" [] null null +"HS" "hydrogen sulfide" ["sulfide", "H2S"] "H2S" 34.076 +"HSCN" "thiocyanate" ["thiocyanic acid", "rhodanide"] "CNS" 58.078 +"HSO3" "hydrogensulfite" ["bisulfite", "HSO3-", "HSO3"] "HO3S" 81.066 +"Hyaluronan" "hyaluronan" [] null null +"Hyaluronan-glucuronate-terminal" "β-D-glucuronosyl-[hyaluronan]" ["β-D-glucuronosyl-(1->3)-N-acetyl-α-D-glucosaminyl-[hyaluronan]", "β-D-glucuronosyl-(1->3)-N-acetyl-α-D-glucosaminyl-(1->4)-β-D-glucuronosyl-[hyaluronan]"] null null +"Hyaluronan-NAc-glucosaminide" "N-acetyl-α-D-glucosaminyl-[hyaluronan]" ["N-acetyl-α-D-glucosaminyl-(1->4)-β-D-glucuronosyl-[hyaluronan]", "N-acetyl-a-D-glucosaminide-[hyaluronan]"] null null +"Hydrazides" "a hydrazide" [] null null +"HYDRAZINE" "hydrazine" [] "H4N2" 32.045 +"Hydrazines" "a hydrazine" [] null null +"Hydride-Acceptors" "an unknown electron carrier" ["an unknown electron donor", "an unknown electron acceptor"] null null +"Hydrocarbons" "a hydrocarbon" [] null null +"HYDROGEN-MOLECULE" "H2" ["hydrogen", "hydrogen molecule", "dihydrogen"] "H2" 2.016 +"HYDROGEN-PEROXIDE" "hydrogen peroxide" ["hydroperoxide", "perhydrol", "H2O2"] "H2O2" 34.015 +"HYDROLYZED-TANNIN" "a hydrolyzable tannin" [] null null +"Hydroperoxy-Fatty-Acids" "a hydroperoxy fatty acid" [] null null +"Hydroperoxy-icosatetraenoates" "a hydroperoxy icosatetraenoate" [] null null +"Hydroperoxy-octadecatrienoates" "a hydroperoxy octadecatrienoate" [] null null +"Hydrophilic-Solute-Or-Ion-LT-600Da" "hydrophilic solute or ion < 600 Da" [] null null +"Hydrophobic-amino-acid-esters" "an ester of hydrophobic-amino acids" [] null null +"HYDROQUINONE" "hydroquinone" ["1,4-benzenediol", "benzene-1,4-diol"] "C6H6O2" 110.112 +"HYDROQUINONE-O-BETA-D-GLUCOPYRANOSIDE" "arbutin" ["hydroquinone-O-β-D-glucopyranoside", "p-hydroxyphenyl β-D-glucopyranoside", "Ursin", "Uvasol", "p-hydroxyphenyl β-D-glucoside"] "C12H16O7" 272.254 +"Hydroxamate-siderophores" "a hydroxamate siderophore" [] null null +"Hydroxamates" "a hydroxamate" [] null null +"HYDROXY-ACYL-COA" "a hydroxyacyl-CoA" [] null null +"Hydroxy-Amino-Acids" "a hydroxylated amino acid" ["a hydroxy amino acid"] null null +"Hydroxy-Butyrates" "2-hydroxybutanoate" ["α-hydroxybutyrate", "a 2-hydroxybutyrate", "2-hydroxybutanoic acid", "α-hydroxybutyric acid"] "C4H7O3" 103.097 +"Hydroxy-carboxylates" "a hydroxylated carboxylate" [] null null +"Hydroxy-D-Amino-Acids" "a hydroxy-D-amino acid" [] null null +"Hydroxy-fatty-acid-derivs" "a hydroxylated fatty acid derivative" [] null null +"Hydroxy-fatty-acids" "a hydroxylated fatty acid" [] null null +"Hydroxy-L-Amino-Acids" "a hydroxy-L-amino acid" [] null null +"HYDROXY-METHYL-BUTENYL-DIP" "(E)-4-hydroxy-3-methylbut-2-en-1-yl diphosphate" ["(E)-4-hydroxy-3-methylbut 2-en-1-yl diphosphate", "HMBDP", "1-hydroxy-2-methyl-2-(E)-butenyl 4-diphosphate"] "C5H9O8P2" 259.069 +"Hydroxy-phthioceranyl-CoA" "a (hydroxy)phthioceranyl-CoA" [] null null +"Hydroxyanthraquinones" "a hydroxyanthraquinone" [] null null +"Hydroxyflavones" "a hydroxyflavone" [] null null +"Hydroxyflavonones" "a hydroxyflavonone" [] null null +"Hydroxyketones" "a hydroxyketone" [] null null +"HYDROXYL-GROUP" "a hydroxyl group" [] "HO" 17.007 +"HYDROXYLAMINE" "hydroxylamine" ["NH2OH"] "H3NO" 33.03 +"HYDROXYLATED-TETRAKETIDE-PYRONE" "a hydroxylated tetraketide α-pyrone" [] null null +"HYDROXYMALONATE" "2-hydroxymalonate" ["tartronate", "hydroxymalonate"] "C3H2O5" 118.046 +"HYDROXYMETHYLBILANE" "preuroporphyrinogen" ["hydroxymethylbilane"] "C40H38N4O17" 846.757 +"Hydroxymethylbilane-Synthase-ES" "a holo [hydroxymethylbilane synthase] ES intermediate" [] null null +"Hydroxymethylbilane-Synthase-ES2" "a [hydroxymethylbilane synthase] ES2 intermediate" [] null null +"Hydroxymethylbilane-Synthase-ES3" "a [hydroxymethylbilane synthase] ES3 intermediate" [] null null +"Hydroxymethylbilane-Synthase-ES4" "a [hydroxymethylbilane synthase] ES4 intermediate" [] null null +"HYDROXYMETHYLCEPH-3-EM-4-CARBOXYLATE" "a 3-hydroxymethyl ceph-3-em-4-carboxylate" [] null null +"HYDROXYNAPHTHOQUINONE" "juglone" ["5-hydroxy-1,4-naphthoquinone"] "C10H6O3" 174.156 +"Hydroxyphthioceranic-Acids" "a hydroxyphthioceranate" ["a hydroxyphthioceranic acid"] null null +"Hydroxyphthioceranyl-CoA" "a hydroxyphthioceranyl-CoA" [] null null +"HYDROXYPROPANAL" "3-hydroxypropanal" ["hydroxypropionaldehyde", "3-hydroxypropionaldehyde", "β-hydroxypropionaldehyde", "reuterin"] "C3H6O2" 74.079 +"HYDROXYPYRIDINE-N-OXIDE" "hydroxypyridine N-oxide" ["3-pyridinol-1-oxide", "3-hydroxypyridine-N-oxide", "3-hydroxypyridine 1-oxide", "3-pyridinol N-oxide"] "C5H5NO2" 111.1 +"Hydroxysteroids" "a hydroxysteroid" [] null null +"HYDRPHENYLAC-CPD" "(4-hydroxyphenyl)acetaldehyde" ["HPAL"] "C8H8O2" 136.15 +"HYPOTAURINE" "hypotaurine" [] "C2H7NO2S" 109.143 +"HYPOXANTHINE" "hypoxanthine" [] "C5H4N4O" 136.113 +"Hypoxanthine-37-In-tRNA-Alanines" "a hypoxanthine37 in tRNAala" [] null null +"Hypoxanthine-In-Double-Stranded-RNAs" "a hypoxanthine in double-stranded RNA" [] null null +"Hypoxanthine-In-tRNAs-34s" "a hypoxanthine 34 in tRNAs" [] null null +"Hypoxanthine-Nucleotides" "a hypoxanthine nucelotide" [] null null +"I-antigens" "an I antigen" ["an N-acetyl-β-D-galactosyl-1,4-[β-D-galactosyl-1,4-N-acetyl-β-D-glucosyl-1,6]-N-acetyl-β-D-glucosaminyl-1,3-β-D-galactosyl-1,4-N-acetyl-D-glucosaminyl-[glycoprotein]", "an N-acetyl-β-D-galactosyl-(1,4)-[β-D-galactosyl-(1,4)-N-acetyl-β-D-glucosyl-(1,6)]-N-acetyl-β-D-glucosaminyl-(1,3)-β-D-galactosyl-(1,4)-N-acetyl-β-D-glucosaminyl-R", "an I histo-blood group antigen", "a β-D-Gal-(1→4)-β-D-GlcNAc-(1→3)-[β-D-Gal-(11→4)-β-D-GlcNAc-(1->6)]-β-D-Gal-(1→4)-β-D-GlcNAc-R"] null null +"i-Antigens" "an i antigen" ["a β-D-galactosyl-(1,4)-N-acetyl-β-D-glucosaminyl-(1,3)-β-D-galactosyl-(1,4)-N-acetyl-D-glucosaminyl-[glycoprotein]", "a β-D-galactosyl-(1→4)-N-acetyl-β-D-glucosaminyl-(1→3)-β-D-galactosyl-(1→4)-N-acetyl-β-D-glucosaminyl-R", "an i histo-blood group antigen", "a β-D-Gal-(1→4)-β-D-GlcNAc-(1→3)-β-D-Gal-(1→4)-β-D-GlcNAc-R"] null null +"Ibuprofen" "ibuprofen" ["(4-isobutylphenyl)-α-methylacetate", "Motrin", "α-(4-isobutylphenyl)propionate", "2-(4-isobutylphenyl)propanoate", "α-methyl-4-(2-methylpropyl)benzeneacetate", "Advil", "Nurofen", "Nuprin"] "C13H17O2" 205.276 +"Icosanoids" "an icosanoid" ["an eicosanoid"] null null +"IDP" "IDP" ["riboxin", "inosine diphosphate"] "C10H11N4O11P2" 425.165 +"Iduronate" "iduronate" ["iduronic acid"] "C6H9O7" null +"III2-a-Fucosyllactotetraosylceramides" "a III2-α-fucosyllactotetraosylceramide" ["α-L-fucosyl-(1→2)-β-D-galactosyl-(1,3)-N-acetyl-β-D-glucosaminyl-(1,3)-β-D- galactosyl-(1,4)-β-D-glucosyl-(1,1)-ceramide", "β-D-galactosyl-1,3-N-acetyl-β-D-glucosaminyl-1,3-β-D-galactosyl-1,4-β-D-glucosyl-(1↔1)-ceramide", "β-D-galactosyl-(1,3)-N-acetyl-β-D-glucosaminyl-(1,3)-β-D-galactosyl-(1,4)-β-D-glucosyl-(1,1)-ceramide"] null null +"ILE" "L-isoleucine" ["I", "iso-leucine", "L-ile"] "C6H13NO2" 131.174 +"IMIDAZOLE-ACETOL-P" "3-(imidazol-4-yl)-2-oxopropyl phosphate" ["imidazole acetol-P", "imidazole acetol-phosphate"] "C6H7N2O5P" 218.105 +"IMIDAZOLE-LACTATE" "3-(imidazol-5-yl)lactate" ["(S)-3-(imidazol-5-yl)-lactate", "imidazol-5-yl-lactate", "imidazole-lactate"] "C6H7N2O3" 155.133 +"IMIDAZOLE-PYRUVATE" "3-(imidazol-5-yl)pyruvate" ["imidazole-pyruvate", "imidazol-5-yl-pyruvate"] "C6H5N2O3" 153.117 +"IMIDAZOLE-RING" "1H-imidazole" ["1,3-diaza-2,4-cyclopentadiene", "1,3-diazole", "glyoxaline", "N,N'-1,2-ethenediylmethanimidamide", "N,N'-vinyleneformamidine", "pyrro[b]monazole"] "C3H4N2" 68.078 +"Imidazoles" "an imidazole" [] null null +"Imidazolidines" "an imidazolidine" [] "C3H8N2" 72.11 +"Imides" "an imide" [] null null +"Imines" "an imine" [] null null +"IMINO-GROUP" "an imino group" [] "CH2N" 28.033 +"IMINOASPARTATE" "2-iminosuccinate" ["2-iminobutanedioate", "α-iminosuccinate", "iminoaspartate"] "C4H3NO4" 129.072 +"IMP" "IMP" ["5'-IMP", "ribosylhypoxanthine monophosphate", "inosinate", "inosine monophosphate", "inosine 5'-monophosphate", "inosine 5'-phosphate", "5'-inosinate", "5'-inosinic acid", "5'-inosine monophosphate"] "C10H11N4O8P" 346.193 +"IN-CHAIN-HYDROXY-FATTY-ACID" "an in-chain hydroxy fatty acid" ["a mid-chain hydroxy fatty acid"] null null +"In-Situ-Cofactors" "a cofactor that is synthesized in situ" [] null null +"INDOLE" "indole" [] "C8H7N" 117.15 +"INDOLE-3-ACETYL-POLYPEPTIDE" "an indole-3-acetyl-polypeptide" [] null null +"INDOLE-3-GLYCEROL-P" "(1S,2R)-1-C-(indol-3-yl)glycerol 3-phosphate" ["C1-(3-Indolyl)-glycerol 3-phosphate", "indole-3-glycerol-P", "1-(indol-3-yl)glycerol-3-P", "1-(indol-3-yl)glycerol-3-phosphate", "indoleglycerol phosphate", "indole-3-glycerol-phosphate"] "C11H12NO6P" 285.193 +"Indole-Containing-Compounds" "an indole-containing compound" [] null null +"Indole-Derivatives" "an indole derivative" [] null null +"Indole-Phytoalexins" "an indole-phytoalexin" [] null null +"Indoles" "an indole" [] null null +"INDOLE_LACTATE" "indole-3-lactate" ["indole lactate", "(indol-3-yl)lactate", "indolelactic acid", "indolelactate"] "C11H10NO3" 204.205 +"INDOLE_PYRUVATE" "(indol-3-yl)pyruvate" ["indole-pyr", "indolepyruvic acid", "indole-3-pyruvate", "indolepyruvate", "3-(indol-3-yl)pyruvate", "3-indole-2-oxopropanoate", "IPA"] "C11H8NO3" 202.189 +"Indolocarbazoles" "an indolocarbazole alkaloid" [] null null +"Inorganic-Anions" "an inorganic anion" [] null null +"Inorganic-Cations" "an inorganic cation" [] null null +"Inorganic-Compounds" "an inorganic compound" [] null null +"Inorganic-Ions" "an inorganic ion" [] null null +"Inorganic-Minerals" "an inorganic mineral" [] null null +"Inorganic-Phosphorus-Ions" "an inorganic phosphorus-containing ion" [] null null +"Inorganic-Salts" "an inorganic salt" [] null null +"INOSINE" "inosine" ["hypoxanthine-ribose", "iso-prinosine", "riboxine"] "C10H12N4O5" 268.229 +"Inositol-Phosphates" "an inositol phosphate" [] "C6H11O9P" 258.121 +"Inositol-Phosphoceramides" "an inositol-phosphoceramide" ["an inositol-p-ceramide"] null null +"Inositol-PhosphoManIno-PhosphoCera" "an inositol phosphomannosylinositol phosphoceramide" [] null null +"Inositolphosphoryl-Ceramides" "an inositol phosphodihydroceramide" [] null null +"Inositols" "an inositol" ["1,2,3,4,5,6-cyclohexanehexol"] "C6H12O6" 180.157 +"INSECT-HORMONES" "an insect hormone" [] null null +"Insecticides" "an insecticide" [] null null +"Insertion-Sequences" "an insertion sequence" [] null null +"Intracellular-Sulfur" "intracellular S0" [] "S" 34.076 +"Inulin" "an inulin" ["a [1-β-D-fructofuranosyl-(2->1)n--α-D-glucopyranoside", "a (2,1-β-D-fructan)"] null null +"Iodides" "an iodo organic compound" [] null null +"IODOACETAMIDE" "iodoacetamide" ["iodoacetoamide", "2-iodoacetamide", "acetamide, 2-iodo-", "monoiodoacetamide", "surauto", "N-(3-methoxy-4-butoxybenzyl)thiobarbituric acid"] "C2H4NOI" 184.964 +"IODOACETATE" "iodoacetate" ["2-iodoacetate", "monoiodoacetate"] "C2H2O2I" 184.941 +"Iodoalkanes" "an iodoalkane" [] null null +"Iodoaromtic-Compounds" "an iodoaromatic compound" [] null null +"Ions" "an ion" [] null null +"iota-Carrageenan" "ι-carrageenose" ["ι-carrageenan"] null null +"IPC" "(4R)-4-hydroxy-N-[(2R)-2-hydroxy-very-long-chain-acyl]-1-O-[(1D-myo-inositol-1-O-yl)hydroxyphosphoryl]sphinganine" ["VLC IPC", "a very-long-chain inositol-P-α-hydroxyphytoceramide", "a very-long-chain inositol phospho-α-hydroxyphytoceramide", "a very-long-chain inositol phospho-(2'R)-2'-hydroxyphytoceramide"] null null +"IPRONIAZID" "iproniazid" [] "C9H13N3O" 179.221 +"IS30-Insertion-Sequences" "an insertion sequence element IS30" [] null null +"IS30-with-Integrated-Transposon" "an insertion sequence IS30 with integrated transposon" [] null null +"Iso-Alpha-Bitter-Acids" "an iso-α bitter acid" [] null null +"Iso-dihydrocarvones" "an isodihydrocarvone" [] "C10H16O" 152.236 +"Iso-fatty-acids" "an iso-fatty acid" [] null null +"ISOBUTANOL" "isobutanol" ["2-methyl-1-propanol", "1-hydroxymethylpropane", "2-methylpropanol", "isobutyl alcohol"] "C4H10O" 74.122 +"ISOBUTYRYL-COA" "isobutanoyl-CoA" ["2-methylpropanoyl-CoA", "isobutyryl-coenzyme A", "2-methylpropionyl-CoA", "S-(2-methylpropanoyl)-CoA", "isobutyryl-CoA"] "C25H38N7O17P3S" 833.593 +"ISOCHORISMATE" "isochorismate" ["Isochorismic acid"] "C10H8O6" 224.17 +"Isocitrate" "isocitrate" ["isocitric acid"] "C6H5O7" 189.101 +"Isoflavone-7-O-B-D-glucosides" "an isoflavone-7-O-β-D-glucoside" ["Isoflavone-7-O-β-D-glucosides"] null null +"Isoflavones" "an isoflavone" ["Isoflavones"] null null +"Isoflavonoids" "an isoflavonoid" [] null null +"Isolichenin" "isolichenan" ["isolichenin"] null null +"Isomaltose" "isomaltose" ["brachiose", "α-D-glucopyranose-(1→6)-D-glucopyranose", "6-O-α-D-glucopyranosyl-D-glucopyranose"] "C12H22O11" 342.299 +"ISONIAZIDE" "isoniazid" ["isoniazide", "isonicotinate hydrazide", "isonicotinic acid hydrazide", "isonicotinylhydrazide", "INH"] "C6H7N3O" 137.141 +"Isoprenoid-Derivatives" "an isoprenoid derivative" [] null null +"Isoprenoid-Phosphates" "an isoprenoid phosphate" [] null null +"ISOTHIOCYANATES" "an isothiocyanate" [] null null +"ISOVALERATE" "3-methylbutanoate" ["isovalerate", "3-methylbutyrate"] "C5H9O2" 101.125 +"ISOVALERYL-COA" "3-methylbutanoyl-CoA" ["3-methylbutyryl-CoA", "isovaleryl-CoA", "isovaleryl-coenzyme A", "iso-valeryl-CoA"] "C26H40N7O17P3S" 847.62 +"ITACONATE" "itaconate" ["propylenedicarboxylic acid", "methylenebutanedioic acid", "2-propene-1,2-dicarboxylic acid", "methylenesuccinic acid", "itaconic acid", "2-methylsuccinate"] "C5H4O4" 128.084 +"ITP" "ITP" ["inosine triphosphate"] "C10H11N4O14P3" 504.137 +"Jadomycin-A" "jadomycin A" [] "C24H21NO6" 419.433 +"Jadomycin-B" "jadomycin B" [] "C30H31NO9" 549.576 +"Jasmonates" "a jasmonate or derivative" [] null null +"Jasmonic-Acids" "a jasmonate" ["a jasmonic acid", "a JA"] "C12H17O3" 209.264 +"Jasmonoyl-ACCs" "a jasmonoyl-1-aminocyclopropane-1 carboxylate" ["a jasmonyl-1-aminocyclopropane-1 carboxylic acid", "a JA-ACC", "a jasmonate-ACC", "a jasmonyl-1-aminocyclopropanecarboxylate", "a jasmonyl-1-aminocyclopropane-1 carboxylate"] "C16H22NO4" 292.354 +"Jasmonoyl-Amino-Acid-Conjugates" "a jasmonoyl-L-amino acid" [] null null +"Jasmonoyl-Glutamines" "a jasmonoyl-glutamine" ["a JA-Gln", "a jasmonate-glutamine", "a jasmonic acid-glutamine", "a jasmonic acid-glutamine conjugate", "a jasmonyl-glutamine"] "C17H25N2O5" 337.395 +"Jasmonoyl-Isoleucines" "a jasmonoyl-L-isoleucine" ["a JA-Ile", "a jasmonate-isoleucine", "a jasmonic acid-isoleucine", "a jasmonic acid-isoleucine conjugate", "a jasmonyl isoleucine"] "C18H28NO4" 322.423 +"Jasmonoyl-Leucines" "a jasmonoyl-L-leucine" ["a JA-Leu", "a jasmonate-leucine", "a jasmonic acid-leucine", "a jasmonic acid-leucine conjugate", "a jasmonyl-leucine"] "C18H28NO4" 322.423 +"Jasmonoyl-Phenylalanines" "a jasmonoyl-L-phenylalanine" ["a phenylalanine-jasmonate conjugate", "a JA-Phe", "a jasmonate-phenylalanine", "a jasmonic acid-phenylalanine", "a jasmonic acid-phenylalanine conjugate", "a jasmonyl-phenylalanine"] "C21H26NO4" 356.441 +"Jasmonoyl-Valines" "a jasmonoyl-L-valine" ["a jasmonate-valine", "a jasmonic acid-valine", "a jasmonic acid-valine conjugate", "a jasmonyl-valine", "a JA-Val"] "C17H26NO4" 308.397 +"K+" "K+" ["potassium(I)", "potassium ion", "KI"] "K" 39.098 +"K-HEXANOYL-COA" "3-oxohexanoyl-CoA" ["ketohexanoyl-CoA", "β-hexanoyl-CoA", "ketohexanoyl-coenzyme-A", "3-ketohexanoyl-CoA"] "C27H40N7O18P3S" 875.63 +"Kanamycin-3-phosphates" "a kanamycin 3'-phosphate" [] null null +"Kanamycins" "a kanamycin" [] null null +"kappa-Carrageenan" "κ-carrageenose" ["κ-carrageenan"] null null +"KCL" "potassium chloride" [] "KCl" 74.551 +"KDO" "3-deoxy-α-D-manno-2-octulosonate" ["α-2-keto-3-deoxyoctulosonic acid pyranose", "3-Kdo", "deoxy-manno-octulosonate", "ketodeoxyoctonate", "3-deoxy-α-D-manno-octulosonate", "3-deoxy-α-D-manno-oct-2-ulosonate"] "C8H13O8" 237.186 +"KDO-8P" "3-deoxy-D-manno-octulosonate 8-phosphate" ["3-deoxy-D-manno-octulosonate 8-P", "2-dehydro-3-deoxy-D-octonate 8-P", "2-dehydro-3-deoxy-D-octonate 8-phosphate", "Kdo-8P"] "C8H12O11P" 315.15 +"KDO-Containing-Capsular-Polysaccharides" "a capsular polysaccharide with 3-deoxy-D-manno-2-octulosonate" [] null null +"KDO-LIPID-IVA" "α-Kdo-(2→6)-lipid IVA (E. coli)" ["3-Deoxy-D-manno-octulosonyl-lipid IV(A) (E. coli)", "3-deoxy-α-D-manno-oct-2-ulopyranosyl-(2->6)-2-deoxy-2-{[(3R)-3-hydroxypentadecanoyl]amino}-3-O-[(3R)-3-hydroxytetradecanoyl]-4-O-phosphono-β-D-glucopyranosyl-(1->6)-2-deoxy-3-O-[(3R)-3-hydroxytetradecanoyl]-2-{[(3R)-3-hydroxytetradecanoyl]amino}-1-O-phosphono-α-D-glucopyranose", "(KDO)-lipid IVA (E. coli)"] "C76H137N2O30P2" 1620.861 +"KDO2-LAUROYL-LIPID-IVA" "α-Kdo-(2->4)-α-Kdo-(2->6)-(lauroyl)-lipid IVA (E. coli)" ["lauroyl-(Kdo)2-lipid IV (A) (E. coli)", "(Kdo)2-(lauroyl)-lipid IVA (E. coli)"] "C96H170N2O38P2" 2022.337 +"KDO2-LIPID-A" "α-D-Kdo-(2→4)-α-D-Kdo-(2→6)-lipid A (E. coli)" ["Re endotoxin", "(Kdo)2-lipid A (E. coli)", "Kdo2-lipid A (E. coli)"] "C110H196N2O39P2" 2232.696 +"KDO2-LIPID-IVA" "α-Kdo-(2->4)-α-Kdo-(2->6)-lipid IVA (E. coli)" ["(Kdo)2-lipid IVA (E. coli)", "Re-LPS"] "C84H148N2O37P2" 1840.032 +"KDO2-LIPID-IVA-COLD" "(Kdo)2-lipid A, cold adapted" ["cold adapted Kdo(2)-lipid (A)", "Kdo2-(palmitoleoyl-myristoyl)-lipid A", "Kdo2-lipid A, cold adapted"] "C114H202N2O39P2" 2286.787 +"KDO2-PALMITOLEOYL-LIPID-IVA" "Kdo2-(palmitoleoyl)-lipid IVA" ["Kdo2-lipid IVA with palmitoleoyl", "(9Z)-hexadec-9-enoyl-Kdo2-lipid IVA"] "C100H176N2O38P2" 2076.428 +"KERATAN" "a keratan" [] null null +"KERATAN-6-SULFATE" "a keratan sulfate" ["a keratan 6-sulfate", "a kerato sulfate", "a kerato 6'-sulfate"] null null +"Keratan-Gal-6S" "[keratan]-galactose 6'-sulfate" [] null null +"Keratan-galactose" "[keratan]-galactose" [] null null +"Keratan-sulfate-NAcGlc" "[keratan sulfate]-α-N-acetyl-D-glucosamine" ["a keratan glucosamine"] null null +"Keratan-sulfate-NAcGlcN6S" "[keratan sulfate]-α-N-acetyl-D-glucosamine 6-O-sulfate" ["a keratan glucosamine 6-O-sulfate"] null null +"Ketals" "a ketoaldehyde" [] null null +"Ketoaldonates" "a ketoaldonate" ["a ketoaldonic acid"] null null +"Ketocarotenoids" "a ketocarotenoid" [] null null +"Ketohexoses" "a ketohexose" [] null null +"KETONE" "a methyl-ethyl-ketone" [] null null +"Ketoses" "a ketose" [] null null +"Ketoximes" "a ketoxime" [] null null +"KOJIC-ACID" "kojic acid" [] "C6H5O4" 141.103 +"KYNURENATE" "kynurenate" ["kynurenic acid"] "C10H5NO3" 187.154 +"L-1-GLYCERO-PHOSPHORYLCHOLINE" "sn-glycero-3-phosphocholine" ["sn-3-GPC", "glycero-phosphocholine", "L-1-glycero-3-phosphocholine", "L-1-glycero-phosphorylcholine", "glycerophosphocholine"] "C8H20NO6P" 257.223 +"L-1-GLYCEROPHOSPHORYLETHANOL-AMINE" "sn-glycero-3-phosphoethanolamine" ["L-1-glycerophosphorylethanolamine", "1-glycerophosphorylethanolamine"] "C5H14NO6P" 215.142 +"L-1-LECITHIN" "1,2-distearoyl-sn-glycero-3-phosphocholine" [] "C44H88NO8P" 790.155 +"L-1-PHOSPHATIDYL-ETHANOLAMINE" "an L-1-phosphatidylethanolamine" ["a glycerophosphoethanolamine", "a phosphatidylethanolamine", "a 1-phosphatidylethanolamine", "an L-1-phosphotidylethanolamine", "a phosphatidylethenolamine", "an O-(1-β-acyl-2-acyl-sn-glycero-3-phospho)-ethanolamine", "PtdEtn"] null null +"L-1-PHOSPHATIDYL-GLYCEROL" "an L-1-phosphatidyl-sn-glycerol" ["1-phosphatidylglycerol", "1,2-diacyl-sn-glycero-3-phospho-(1'-sn-glycerol)"] null null +"L-1-PHOSPHATIDYL-GLYCEROL-P" "1-(3-sn-phosphatidyl)-sn-glycerol 3-phosphate" [] null null +"L-1-phosphatidyl-inositols" "a 1-phosphatidyl-1D-myo-inositol" ["a 1,2-diacyl-sn-glycero-3-phospho-(1D-myo-inositol)", "1-phosphatidyl-1D-myo-inositol", "a phosphatidylinositol", "a 1-phosphatidyl-D-myo-inositol", "a 1-phosphatidylinositol", "an L-1-phosphatidylinositol", "a phosphatidyl-inositol", "an L-1-phosphatidyl-inositol", "a phosphatidyl-1D-myo-inositol", "a (3-phosphatidyl)-1-D-inositol", "PtdIns"] null null +"L-1-PHOSPHATIDYL-SERINE" "a 3-sn-phosphatidyl-L-serine" ["phosphatidylserine", "phosphatidyl-serine", "a 3-O-sn-phosphatidyl-L-serine", "an O-sn-phosphatidyl-L-serine", "a phosphatidyl-serine", "an L-1-phosphatidylserine", "a phosphatidyl-L-serine", "a 1-phosphatidyl-serine"] null null +"L-1-PHOSPHATIDYL-THREONINE" "a phosphatidylthreonine" ["a 3-O-sn-phosphatidyl-L-threonine", "a phosphatidyl-L-threonine", "a 1-phosphatidyl-threonine", "an L-1-phosphatidylthreonine", "PtdThr"] null null +"L-2-AMINOHEXANOATE" "L-norleucine" ["L-2-aminohexanoate", "L-2-aminohexanoic acid", "L-aminohexanoate", "L-aminohexanoic acid"] "C6H13NO2" 131.174 +"L-2-AMINOPENTANOIC-ACID" "L-norvaline" ["L-2-aminopentanoic acid", "L-(+)-2-aminovaleric acid", "L-2-aminopentanoate"] "C5H11NO2" 117.147 +"L-2-hydroxyacids" "a (2S)-2-hydroxycarboxylate" ["an L-2-hydroxycarboxylate"] null null +"L-3-HYDROXYACYL-COA" "a 2,3,4-saturated (3S)-3-hydroxyacyl-CoA" ["(3S)-3-hydroxyacyl-CoA", "3-hydroxyacyl-CoA", "3-OH-acyl-CoA", "RCHOHCH2CO-CoA", "trans-3-hydroxyacyl-CoA", "(S)-3-hydroxyacyl-CoA", "a (S)-3-hydroxyacyl-CoA", "a trans-3-hydroxyacyl-CoA", "a 3-OH-acyl-CoA", "a 3-hydroxyacyl-CoA", "an L-3-hydroxyacyl-CoA"] null null +"L-5-Monosubstituted-Hydantoins" "an L-5-monosubstituted hydantoin" [] null null +"L-ALA-GAMMA-D-GLU-DAP" "L-alanyl-γ-D-glutamyl-meso-diaminopimelate" ["L-Ala-D-Glu-meso-A2pm", "L-Ala-γ-D-Glu-diaminopimelate", "L-Ala-γ-D-Glu-Dap", "L-alanyl-γ-D-glutamyl-meso-2,6-diaminoheptanedioate"] "C15H25N4O8" 389.384 +"L-aldopyranoses" "an L-aldopyranose" [] null null +"L-ALLO-THREONINE" "L-allo-threonine" [] "C4H9NO3" 119.12 +"L-ALPHA-ALANINE" "L-alanine" ["alanine", "L-α-alanine", "ala"] "C3H7NO2" 89.094 +"L-ALPHA-AMINO-EPSILON-KETO-PIMELATE" "L-α-amino-ε-keto-pimelate" ["L-2-Amino-6-oxopimelate", "L-2-Amino-6-oxoheptanedioate"] "C7H10NO5" 188.16 +"L-Amino-Acids" "an L-amino acid" ["an L-Amino acid", "an L-2-amino-acid", "L-α-amino acid"] null null +"L-ARA4N-MODIFIED-KDO2-LIPID-A" "4'-α-L-Ara4N-α-Kdo-(2→4)-α-Kdo-(2→6)-[P4'-α-L-ara4N]-lipid A" ["α-Kdo-(2→4)-α-Kdo-(2→6)-lipid IIA", "L-Ara4N-modified (KDO)2-Lipid A"] "C115H207N3O42P2" 2365.843 +"L-Arabinans" "an L-arabinan" [] null null +"L-arabinofuranose" null [] "C5H10O5" 150.131 +"L-arabinopyranose" null [] "C5H10O5" 150.131 +"L-ARABINOSE" "L-arabinose" [] "C5H10O5" 150.131 +"L-Arabinosides" "an L-arabinoside" [] null null +"L-ARABITOL" "L-arabinitol" ["L-arabinol", "L-arabitol", "L-lyxitol", "(2S,4S)-pentane-1,2,3,4,5-pentol"] "C5H12O5" 152.147 +"L-ARGININE-P" "Nω-phospho-L-arginine" ["L-arginine phosphate", "phospho-L-arginine", "L-arginine-phosphate", "L-arginine-P", "arg-P", "phosphoarginine", "arginine-phosphate", "N-phospho-L-arginine", "arginine-P"] "C6H14N4O5P" 253.174 +"L-ARGININO-SUCCINATE" "L-arginino-succinate" ["N-(L-arginino)-succinate", "arginino-succinate"] "C10H17N4O6" 289.267 +"L-arginyl-3-sulfino-L-alaninyl-Peptides" "an N-terminal L-arginiyl-3-sulfino-L-alanyl-[protein]" [] null null +"L-arginyl-3-sulfo-L-alaninyl-Peptides" "an N-terminal L-arginiyl-3-sulfo-L-alanyl-[protein]" [] null null +"L-arginyl-L-aspartyl-Peptides" "an N-terminal L-arginiyl-L-aspartyl-[protein]" [] null null +"L-arginyl-L-Glutamyl-Peptides" "an N-terminal L-arginiyl-L-glutamyl-[protein]" [] null null +"L-ASCORBATE-6-PHOSPHATE" "L-ascorbate 6-phosphate" [] "C6H6O9P" 253.082 +"L-ASPARTATE" "L-aspartate" ["L-aspartic acid", "aspartic acid", "D", "aspartate", "L-asp"] "C4H6NO4" 132.096 +"L-ASPARTATE-SEMIALDEHYDE" "L-aspartate 4-semialdehyde" ["L-aspartic 4-semialdehyde", "L-aspartate-semialdehyde", "L-aspartate β-semialdehyde"] "C4H7NO3" 117.104 +"L-AZASERINE" "L-azaserine" ["azaserine"] "C5H8N3O4" 174.136 +"L-BETA-ASPARTYL-P" "L-aspartyl-4-phosphate" ["4-phospho-L-aspartate", "L-4-aspartyl phosphate", "L-β-aspartyl-P", "L-β-aspartyl-phosphate", "L-aspartyl-4-P", "L-aspartyl-β-phosphate", "4-phosphonato-L-aspartate"] "C4H6NO7P" 211.068 +"L-CARNITINYL-COA" "(R)-carnitinyl-CoA" ["L-carnityl-CoA", "(3R)-3-hydroxy-4-(trimethylamino)butanoyl-CoA", "L-carnitinyl-CoA"] "C28H46N8O18P3S" 907.695 +"L-CITRULLINE" "L-citrulline" ["Nγ-carbamylornithine", "α-amino-γ-ureidovaleric acid", "γ-ureidonorvaline", "N5-(Aminocarbonyl)-L-ornithine"] "C6H13N3O3" 175.187 +"L-CYSTATHIONINE" "L-cystathionine" ["cystathionine"] "C7H14N2O4S" 222.259 +"L-CYSTEATE" "L-cysteate" ["L-cysteic acid", "3-sulfoalanine", "2-amino-3-sulfopropionic acid", "(R)-cysteate", "3-sulfo-L-alanine", "(2R)-2-amino-3-sulfopropanoic acid"] "C3H6NO5S" 168.144 +"L-Cysteine-Desulfurase-persulfide" "an [L-cysteine desulfurase]-S-sulfanyl-L-cysteine" ["an [L-cysteine desulfurase] L-cysteine persulfide"] null null +"L-DEHYDRO-ASCORBATE" "dehydroascorbate" ["L-dehydro-ascorbate"] "C6H5O6" 173.102 +"L-DELTA1-PYRROLINE_5-CARBOXYLATE" "(S)-1-pyrroline-5-carboxylate" ["pyrroline 5-carboxylate", "L-Δ1-pyrroline-5-carboxylate", "1-pyrroline-5-carboxylate", "L-1-pyrroline-5-carboxylate", "δ-1-pyrroline-5-carboxylic acid", "δ-1-pyrroline-5-carboxylate"] "C5H6NO2" 112.108 +"L-DI-GMP" "5'-phosphoguanylyl(3'→5')guanosine" ["l-di-GMP", "5'pGpG", "linear dimeric GMP"] "C20H23N10O15P2" 705.407 +"L-DIHYDROXY-PHENYLALANINE" "L-dopa" ["DOPA", "3-hydroxytyrosine", "3,4-dihydroxy-L-phenylalanine", "dihydroxyphenylalanine", "L-dihydroxy-phenylalanine", "levodopa"] "C9H11NO4" 197.19 +"L-EPINEPHRINE" "(R)-adrenaline" ["L-epinephrine", "(R)-(-)-adrenaline", "(-)-adrenaline"] "C9H14NO3" 184.214 +"L-Fructofuranose" "L-fructofuranose" [] "C6H12O6" 180.157 +"L-Fructopyranose" "L-fructopyranose" [] "C6H12O6" 180.157 +"L-Fructose" "L-fructose" [] "C6H12O6" 180.157 +"L-Fucopyranoses" "L-fucopyranose" ["6-deoxy-L-galactose", "L-galactomethylose"] "C6H12O5" 164.158 +"L-fucoses" "L-fucose" ["L-galactomethylose", "6-deoxy-L-galactose"] "C6H12O5" 164.158 +"L-FUCULOSE" "L-fuculose" ["fuculose", "6-deoxy-L-tagatose"] "C6H12O5" 164.158 +"L-Galactopyranose" "L-galactopyranose" [] "C6H12O6" 180.157 +"L-GALACTOSE" "β-L-galactopyranose" ["β-L-galactose"] "C6H12O6" 180.157 +"L-Galactose" "L-galactose" [] null null +"L-GAMMA-GLUTAMYLCYSTEINE" "γ-L-glutamyl-L-cysteine" ["γ-glutamylcysteine", "γ-L-glutamylcysteine", "γ-Glu-Cys"] "C8H13N2O5S" 249.261 +"L-GLUTAMATE-5-P" "γ-L-glutamyl 5-phosphate" ["L-glutamate 5-phosphate", "γ-L-glutamyl-5-P"] "C5H8NO7P" 225.094 +"L-GLUTAMATE_GAMMA-SEMIALDEHYDE" "L-glutamate-5-semialdehyde" ["glutamic γ-semialdehyde", "L-glutamate γ-semialdehyde", "glutamate-semialdehyde"] "C5H9NO3" 131.131 +"L-Glutaminyl-Peptides" "an N-terminal L-glutaminyl-[protein]" ["a peptide with N-terminal L-glutamine", "a [protein] N-terminal L-glutamine"] null null +"L-Glutamyl-Peptides" "an N-terminal L-glutamyl-[protein]" ["a [protein] N-terminal L-glutamate"] null null +"L-GLYCERALDEHYDE" "L-glyceraldehyde" ["(S)-2,3-dihydroxypropanal", "L-(-)-glyceraldehyde", "L-2,3-Dihydroxypropanal", "L-2,3-Dihydroxypropionaldehyde", "L-Aldotriose", "L-Glycerose"] "C3H6O3" 90.079 +"L-GLYCERALDEHYDE-3-PHOSPHATE" "L-glyceraldehyde 3-phosphate" ["L-glyceraldehyde-3-phosphate", "L-GAP"] "C3H5O6P" 168.043 +"L-GULONATE" "L-gulonate" ["gulonate"] "C6H11O7" 195.149 +"L-gulopyranose" "L-gulopyranose" [] "C6H12O6" 180.157 +"L-Gulose" "L-gulose" ["L-gulo-hexose"] null null +"L-Guluronate" "L-guluronate" [] "C6H9O7" 193.133 +"L-Heptoses" "an L-heptose" [] null null +"L-Hexoses" "an L-hexose" [] null null +"L-HISTIDINOL-P" "L-histidinol phosphate" ["histidinol-P", "L-histidinol-p", "histidinol phosphate"] "C6H11N3O4P" 220.144 +"L-HOMOCYSTEATE" "L-homocysteate" ["homocysteate", "L-homocysteic acid", "L-2-amino-4-sulfobutyric acid"] "C4H8NO5S" 182.171 +"L-IDONATE" "L-idonate" ["L-idonic acid", "(R)-idonate"] "C6H11O7" 195.149 +"L-idopyranuronate" "L-idopyranuronate" ["L-idopyranuronic acid"] "C6H9O7" 193.133 +"L-Iduronate" "L-iduronate" [] "C6H9O7" 193.133 +"L-LACTATE" "(S)-lactate" ["L-lactate", "L(+)-lactate", "L-lactic acid", "(S)-lactic acid"] "C3H5O3" 89.071 +"L-leucyl-L-amino-acid-Protein" "L-leucyl-L-amino acid-[protein]" [] null null +"L-leucyl-L-arginyl-Protein" "a [protein] N-terminal L-leucyl-L-arginine" ["L-leucyl-L-arginyl-[protein]"] null null +"L-leucyl-L-lysyl-Protein" "a [protein] N-terminal L-leucyl-L-lysine" ["L-leucyl-L-lysyl-[protein]"] null null +"L-leucyl-protein" "L-leucyl-[protein]" [] null null +"L-LYXOSE" "β-L-lyxopyranose" ["β-L-lyxose"] "C5H10O5" 150.131 +"L-lyxose" "L-lyxose" [] null null +"L-Mannopyranose" "L-mannopyranose" [] "C6H12O6" 180.157 +"L-mannose" "L-mannose" [] "C6H12O6" 180.157 +"L-Methionine-sulfoxides" "L-methionine S-oxide" ["Methionine S-oxide", "DL-Methionine sulfoxide", "L-methionine-S-sulfoxide", "L-methionine sulfoxide", "methionine sulfoxide"] "C5H11NO3S" 165.207 +"L-methionyl--Membrane-Protein" "an N-terminal L-methionyl-[transmembrane protein]" [] null null +"L-methionyl-glycyl-Protein" "an N-terminal-L-methionyl-glycyl-[protein]" [] null null +"L-methionyl-L-alanyl-Protein" "an N-terminal-L-methionyl-L-alanyl-[protein]" [] null null +"L-methionyl-L-asparaginyl-Protein" "an N-terminal-L-methionyl-L-asparaginyl-[protein]" ["an L-methionyl-L-asparaginyl-[protein]"] null null +"L-methionyl-L-aspartyl-Protein" "an N-terminal-L-methionyl-L-aspartyl-[protein]" [] null null +"L-methionyl-L-cysteinyl-Protein" "an N-terminal-L-methionyl-L-cysteinyl-[protein]" [] null null +"L-methionyl-L-glutaminyl-Protein" "an N-terminal-L-methionyl-L-glutaminyl-[protein]" [] null null +"L-methionyl-L-glutamyl-Protein" "an N-terminal-L-methionyl-L-glutamyl-[protein]" [] null null +"L-methionyl-L-isoleucyl-Protein" "an N-terminal-L-methionyl-L-isoleucyl-[protein]" [] null null +"L-methionyl-L-leucyl-Protein" "an N-terminal-L-methionyl-L-leucyl-[protein]" [] null null +"L-methionyl-L-lysyl-Protein" "an N-terminal L-methionyl-L-lysyl-[protein]" ["L-methionyl-L-lysyl-[protein]", "a [protein] N-terminal L-methionyl-L-lysine"] null null +"L-methionyl-L-phenylalanyl-Protein" "an N-terminal-L-methionyl-L-phenylalanyl-[protein]" [] null null +"L-methionyl-L-seryl-Protein" "an N-terminal-L-methionyl-L-seryl-[protein]" [] null null +"L-methionyl-L-threonyl-Protein" "an N-terminal-L-methionyl-L-threonyl-[protein]" [] null null +"L-methionyl-L-tryptophanyl-Protein" "an N-terminal-L-methionyl-L-tryptophyl-[protein]" [] null null +"L-methionyl-L-tyrosinyl-Protein" "an N-terminal-L-methionyl-L-tyrosyl-[protein]" [] null null +"L-methionyl-L-valyl-Protein" "an N-terminal-L-methionyl-L-valyl-[protein]" [] null null +"L-ORNITHINE" "L-ornithine" ["Ornithine", "2, 5-diaminovaleric acid", "2, 5-diaminopentanoic acid", "2, 5-diaminopentanoate", "α,δ-diaminovaleric acid"] "C5H13N2O2" 133.17 +"L-PANTOATE" "(R)-pantoate" ["pantoate", "L-pantoate"] "C6H11O4" 147.15 +"L-PENICILLAMINE" "L-penicillamine" [] "C5H11NO2S" 149.207 +"L-Pentoses" "an L-pentose" [] null null +"L-phenylalanyl-L-amino-acid-Protein" "L-phenylalanyl-L-amino acid-[protein]" [] null null +"L-phenylalanyl-L-arginyl-Protein" "L-phenylalanyl-L-arginyl-[protein]" [] null null +"L-phenylalanyl-L-lysyl-Protein" "L-phenylalanyl-L-lysyl-[protein]" [] null null +"L-PHOSPHATIDATE" "a 1,2-diacyl-sn-glycerol 3-phosphate" ["A 3-SN-phosphatidate", "DGP", "diacylglycerol phosphate", "a 3-sn-phosphatidate", "a diacyl-glycerol-3P", "a diacylglycerol-3-phosphate", "a phosphatidic acid", "an L-phosphatidate", "a phosphatidate", "a 1,2-diacylglycerol 3-phosphate"] null null +"L-PHOSPHINOTHRICIN" "L-phosphinothricin" ["glufosinate", "DL-phosphinothricin", "phosphinothricin", "phosphinothricine", "(S)-phosphinothricin", "(S)-2-amino-4-(hydroxymethylphosphinyl)butyric acid", "(S)-4-[hydroxy(methyl)phosphinyl]-2-aminobutyric acid", "L-glufosinate"] "C5H11NO4P" 180.12 +"L-PIPECOLATE" "L-pipecolate" ["(S)-pipecolate", "L-pipecolic acid", "(S)-pipecolic acid"] "C6H11NO2" 129.158 +"L-RHAMNOFURANOSE" "L-rhamnofuranose" [] "C6H12O5" 164.158 +"L-RHAMNONATE" "L-rhamnonate" [] "C6H11O6" 179.149 +"L-rhamnopyranose" "L-rhamnopyranose" [] "C6H12O5" 164.158 +"L-rhamnose" "L-rhamnose" ["6-deoxy-L-mannose", "L-mannomethylose"] "C6H12O5" 164.158 +"L-Rhamnose-rhamnogalacturonan" "α-L-rhamnose-[rhamnogalacturonan I oligosaccharide]" [] null null +"L-RIBULOSE" "L-ribulose" ["ribulose"] "C5H10O5" 150.131 +"L-RIBULOSE-5-P" "L-ribulose 5-phosphate" ["L-ribulose-5-P"] "C5H9O8P" 228.095 +"L-SELENOCYSTEINE" "L-selenocysteine" ["selenocys", "U"] "C3H7NO2Se" 168.054 +"L-sorbose" "L-sorbose" [] "C6H12O6" 180.157 +"L-sorbose-1-phosphate" "an L-sorbose 1-phosphate" [] null null +"L-Tetroses" "an L-tetrose" [] null null +"L-THREO-3-METHYL-ASPARTATE" "(2S, 3S)-3-methylaspartate" ["β-methylaspartate", "L-threo-3-methylaspartate", "L-threo-3-methyl-aspartate"] "C5H8NO4" 146.122 +"L-THREONINE-O-3-PHOSPHATE" "L-threonine 3-O-phosphate" ["O-phospho-L-threonine", "phosphothreonine"] "C4H8NO6P" 197.084 +"L-tryptophanyl-L-amino-acid-Protein" "L-tryptophanyl-L-amino acid-[protein]" [] null null +"L-tryptophanyl-L-arginyl-Protein" "L-tryptophyl-L-arginyl-[protein]" [] null null +"L-tryptophanyl-L-lysyl-Protein" "L-tryptophyl-L-lysyl-[protein]" [] null null +"L-xylopyranose" "L-xylopyranose" [] "C5H10O5" 150.131 +"L-XYLOSE" "L-xylose" ["L-xylo-pentose"] "C5H10O5" 150.131 +"L-XYLULOSE" "L-xylulose" ["xylulose", "L-threo-pent-2-ulose"] "C5H10O5" 150.131 +"L-XYLULOSE-5-P" "L-xylulose 5-phosphate" ["L-xylulose 5P"] "C5H9O8P" 228.095 +"LACTALD" "(S)-lactaldehyde" ["lactaldehyde", "L-lactaldehyde", "lactald"] "C3H6O2" 74.079 +"Lactaldehydes" "lactaldehyde" ["DL-lactaldehyde", "2-hydroxypropanal", "2-hydroxypropionaldehyde"] "C3H6O2" 74.079 +"Lactams" "a lactam" [] null null +"Lactate" "lactate" ["lactic acid", "DL lactate", "(RS)-lactate", "DL lactic acid", "(RS)-lactic acid", "2-hydroxypropanoate", "2-hydroxypropanoic acid"] "C3H5O3" 89.071 +"Lacto-Series-GSLs" "a lacto-series glycosphingolipid" [] null null +"Lactones" "a lactone" [] null null +"Lactosyl-Ceramides" "a lactosylceramide" ["Gal-β1->4Glc-β1->1'Cer", "a β-D-galactosyl-1,4-β-D-glucosylceramide", "a lactosyl ceramide", "LacCer", "a lactosyl-N-acylsphingosine", "cytolipin-H", "a β-D-galactosyl-(1→4)-β-D-glucosyl-(1↔1)-ceramide", "a p histo-blood group antigen"] null null +"Lactoyl-CoAs" "lactoyl-CoA" [] "C24H36N7O18P3S" 835.566 +"Lambda-Carrageenan" "λ-carrageenan" ["λ- carrageenan"] null null +"Lanthanide-Cations" "a lanthanide cation" [] null null +"Lanthionine-Isomers" "a lanthionine isomer" [] null null +"LarE-L-cysteine" "a [LarE]-L-cysteine" [] null null +"Large-branched-glucans" "a large-branched glucan" [] null null +"LAUROYLCOA-CPD" "lauroyl-CoA" ["dodecanoyl-CoA (n-C12:0CoA)", "lauroyl coenzyme A", "dodecanoyl-CoA"] "C33H54N7O17P3S" 945.808 +"LC-ACYL-SN-GLYCEROL-3P" "1-(long-chain acyl)-sn-glycerol 3-phosphate" [] null null +"LC-alcohol-LC-acyl-ester" "a long-chain alcohol--long-chain acyl wax ester" [] null null +"LC-alcohol-VLC-acyl-ester" "a long-chain alcohol--very-long-chain acyl wax ester" [] null null +"LDL-receptor-L-serine" "[low-density-lipoprotein receptor]-L-serine" [] null null +"LDL-receptor-O-phospho-L-serine" "[low-density-lipoprotein receptor]-O-phospho-L-serine" [] null null +"LEU" "L-leucine" ["(2S)-α-2-amino-4-methylvaleric acid", "L", "leucine", "2-amino-4-methylvaleric acid", "(2S)-α-leucine", "L-leu"] "C6H13NO2" 131.174 +"Levan" "a levan" [] null null +"Lewis-a-epitope" "a Lewis a epitope" ["1,3-β-D-galactosyl-(α-1,4-L-fucosyl)-N-acetyl-D-glucosaminyl- R", "βGal-(1→3)-[α-Fuc-(1→4)-βGlcNac]-(1→R)[", "β-D-galactosyl-(1→3)-[(α-L-fucosyl)-(1→4)]-N-acetyl-β-D-glucosaminyl-[protein]", "a histo-blood group Lea antigen"] null null +"Lewis-Antigen" "a Lewis epitope" ["a Lewis antigen"] null null +"LI+" "Li+" ["lithium(I)", "LiI"] "Li" 6.941 +"Lichenin" "lichenan" ["lichenin", "moss starch"] null null +"Light" "hν" ["light", "a photon"] null 0.0 +"LIGNAN" "a lignan" [] null null +"Lignins" "a lignin" [] null null +"Limonene-1-2-diols" "a limonene-1,2-diol" [] "C10H18O2" 170.251 +"Limonene-1-2-epoxides" "a limonene-1,2-epoxide" ["a 1,2-epoxymenth-8-ene"] "C10H16O" 152.236 +"Limonenes" "limonene" ["cajeputene", "1,8-p-menthadiene", "1-methyl-4-(1-methylethenyl)cyclohexene", "4-isopropenyl-1-methylcyclohexene", "dipentene"] "C10H16" 136.236 +"Linalools" "(RS)-linalool" ["linalyl alcohol", "linalool", "3,7-dimethylocta-1,6-dien-3-ol"] "C10H18O" 154.252 +"LINAMARIN" "linamarin" ["2-(β-D-glucopyranosyloxy)-2-methylpropanenitrile", "1-cyano-1-methylethyl beta-D-glucoside"] "C10H17NO6" 247.247 +"Linear-Malto-Oligosaccharides" "a linear malto-oligosaccharide" [] null null +"Linoleate-containing-TGs" "a linoleate-containing triacyl-sn-glycerol" ["a linoleate-containing triacylglycerol"] null null +"Linoleoyl-groups" "a [glycerolipid]-linoleate" ["a [glycerolipid]-cis,cis-9,12-octadecadienoate", "a [glycerolipid]-(9Z,12Z)-octadeca-9,12-dienoate", "a [glycerolipid]-9,12-linoleic acid", "a [glycerolipid]-9-cis,12-cis-octadecadienoate", "a linoleoyl-[glycerolipid]"] null null +"Lipid-3E-hexadecenoate" "a [glycerolipid]-(3E)-hexadec-3-enoate" ["a [glycerolipid]-(3E)-hexadecenoic acid", "a [glycerolipid]-trans-3-hexadecenoic acid", "a [glycerolipid]-(3E)-hexadecenoate", "a [glycerolipid]-trans-hexdec-3-enoate"] null null +"Lipid-A" "a lipid A" [] null null +"Lipid-A-1-2-aminoethyl-PP" "lipid A 1-(2-aminoethyl diphosphate) (E. coli)" [] "C96H181N3O28P3" 1918.41 +"Lipid-A-1-4prime-2-aminoethyl-PP" "lipid A 1,4'-bis(2-aminoethyl diphosphate) (E. coli)" [] "C98H188N4O31P4" 2042.466 +"Lipid-A-4prime-2-aminoethyl-PP" "lipid A 4'-(2-aminoethyl diphosphate) (E. coli)" [] "C96H181N3O28P3" 1918.41 +"Lipid-A-containing-Glycolipids" "a lipid A-containing glycolipid" [] null null +"Lipid-dihydrosterculate" "a [phospholipid]-dihydrosterculate" ["a [phospholipid]-dihydrosterculic acid"] null null +"Lipid-hydroxy-fatty-acids" "a hydroxy-fatty-acyl-[lipid]" [] null null +"LIPID-IV-A" "lipid IVA (E. coli)" ["2-deoxy-2-{[(3R)-3-hydroxypentadecanoyl]amino}-3-O-[(3R)-3-hydroxytetradecanoyl]-4-O-phosphono-β-D-glucopyranosyl-(1->6)-2-deoxy-3-O-[(3R)-3-hydroxytetradecanoyl]-2-{[(3R)-3-hydroxytetradecanoyl]amino}-1-O-phosphono-α-D-glucopyranose"] "C68H126N2O23P2" 1401.69 +"Lipid-linked-13-mannosyl-mannose-oligos" "a lipid-linked α(1->3)-D-mannosyl-D-mannose-oligosaccharide" [] null null +"Lipid-linked-16-mannosyl-mannose-oligos" "a lipid-linked α(1->6)-D-mannosyl-D-mannose-oligosaccharide" [] null null +"Lipid-linked-mannosyl-oligos" "a lipid-linked D-mannose-oligosaccharide" [] null null +"Lipid-sterculate" "a [phospholipid]-sterculate" ["a [phospholipid]-2-octyl-1-cyclopropene-1-octanoate", "a [phospholipid]-sterculic acid"] null null +"Lipids" "a lipid" [] null null +"LIPOAMIDE" "lipoamide" ["5-(1,2-dithiolan-3-yl)-pentanamide", "DL-lipoamide", "6,8-dithiooctanoic amide"] "C8H15NOS2" 205.333 +"LIPOIC-ACID" "(R)-lipoate" ["α-liponic acid", "5-(1,2-dithiolan-3-yl)-pentanoate", "lipoic acid", "6,8-thioctic acid", "6,8-thioctate", "D-thioctic acid", "D-thioctate"] "C8H13O2S2" 205.309 +"LIPOL-AMP" "lipol-AMP" [] "C18H27N5O7PS2" 520.534 +"LIPOPEPTIDE" "a lipopeptide" [] null null +"Lipopolysaccharide-O5-Salmonella" "lipopolysaccharide-O5 (Salmonella)" [] null null +"Lipopolysaccharides" "a lipopolysaccharide" ["a lipopolysaccharide", "lipopolysaccharide", "LPS"] null null +"Lipoprotein-signal-peptide" "a lipoprotein signal peptide" [] null null +"LIPOYL-AMP" "[(R)-lipoyl]adenylate" ["lipoyl-AMP", "lipoyl-adenylate"] "C18H25N5O8PS2" 534.518 +"Lipoyl-Protein-L-Lysine" "a [lipoyl-carrier protein]-L-lysine" [] null null +"Lipoyl-Protein-N6-lipoyllysine" "a [lipoyl-carrier protein]-N6-[(R)-lipoyl]-L-lysine" ["protein N6-(lipoyl)lysine", "lipoyl-domain", "a lipoylated protein lipoyl-domain", "an [enzyme] N6-(lipoyl)lysine"] null null +"Lividomycins" "a lividomycin" [] null null +"LL-DIAMINOPIMELATE" "L,L-diaminopimelate" ["L,L-A2pm", "L,L-DAP", "L,L-2,6-diaminopimelate", "L,L-2,6-diaminoheptanedioate"] "C7H14N2O4" 190.199 +"Long-Chain-2-Enoyl-CoAs" "a long-chain 2-enoyl-CoA" ["a long-chain Δ2-enoyl-CoA", "a long-chain 2,3-dehydroacyl-CoA"] null null +"Long-Chain-234-Saturated-acyl-CoAs" "a long-chain 2,3,4-saturated fatty acyl CoA" [] null null +"Long-Chain-234-Saturated-Fatty-Acids" "a long-chain 2,3,4-saturated fatty acid" [] null null +"Long-Chain-3-Hydroxyacyl-CoAs" "a long-chain (3R)-3-hydroxyacyl-CoA" ["a long-chainD-3-hydroxyacyl-CoA", "a long-chain(R)-hydroxyacyl-CoA", "a long-chain cis-3-hydroxyacyl-CoA", "a long-chain 3-hydroxyacyl-CoA"] null null +"Long-Chain-3S-Hydroxyacyl-CoAs" "a long-chain (3S)-3-hydroxyacyl-CoA" ["a long-chain-L-3-hydroxyacyl-CoA", "a long-chain (S)-hydroxyacyl-CoA"] null null +"Long-Chain-Acyl-CoAs" "a long-chain fatty acyl-CoA" [] null null +"Long-Chain-Acyl-Ethyl-Esters" "a long-chain acyl ethyl ester" ["FAEE", "a long-chain acyl-ethyl ester"] null null +"Long-chain-alcohols" "a long-chain fatty alcohol" ["a fatty alcohol"] null null +"Long-Chain-Aldehydes" "a long-chain fatty aldehyde" ["a long-chain aldehyde"] null null +"Long-Chain-Alkanes" "a long-chain alkane" [] null null +"Long-Chain-Ceramides" "a long-chain ceramide" [] null null +"Long-chain-cholesterol-esters" "a long-chain acyl-cholesterol ester" [] null null +"Long-Chain-Fatty-Acids" "a long-chain fatty acid" ["LCFA"] null null +"Long-chain-fatty-acyl-AMPs" "a long-chain fatty-acyl adenylate ester" [] null null +"LONG-CHAIN-KETONE" "a ketone" [] null null +"Long-Chain-oxoacyl-CoAs" "a long-chain 3-oxoacyl-CoA" ["a long-chain 3-ketoacyl-CoA", "a long-chain β-ketoacyl-CoA"] null null +"Long-Chain-Polyphosphate" "long chain polyphosphate" ["(phosphate)(n)", "(phosphate)(n+1)", "(phosphate)(n-1)", "(polyphosphate)(n)", "(polyphosphate)(n+1)", "(polyphosphate)(n-1)", "PolyP", "inorganic polyphosphate", "(polyphosphate)(n-2)"] null null +"Long-Chain-Steryl-Esters" "a long-chain 3-hydroxysterol ester" [] null null +"Long-Chain-Trans-23-Dehydroacyl-CoA" "a long-chain (2E)-2-enoyl-CoA" ["a long-chain trans-2,3-didehydroacyl-CoA", "a long-chain trans-2-enoyl-CoA", "a long-chain trans2-enoyl-CoA", "a long-chain trans-didehydroacyl-CoA", "a long-chain trans-2,3-dehydroacyl-CoA"] null null +"Long-linear-glucans" "a long-linear α-D-glucan" [] null null +"LOS" "a rough-form lipopolysaccharide" ["a rough-form LPS", "(R)-form LPS", "a lipooligosaccharide", "lipid A-core", "core oligosaccharide-lipid A", "lipid A-core oligosaccharide"] null null +"LPS-Core-Oligosaccharides" "a lipopolysaccharide core oligosaccharide" [] null null +"LPS-with-pentaacyl-lipidA" "a lipopolysaccharide with pentaacyl-lipid A" [] null null +"LPS-with-tetraacyl-lipidA" "a lipopolysaccharide with tetraacyl lipid A" ["a lipopolysaccharide with lipid IVA"] null null +"Luciferins" "a luciferin" [] null null +"LuxE-long-chain-fatty-acyl-L-cysteine" "a [LuxE]-S-(long-chain fatty acyl)-L-cysteine" ["an [acyl-protein synthetase]-S-(long-chain fatty acyl)-L-cysteine"] null null +"LYS" "L-lysine" ["K", "lysine", "L-lys", "2,6-diaminohexanoic acid", "lysine acid"] "C6H15N2O2" 147.197 +"Lysidine-tRNA-Ile2" "a lysidine34 in tRNAIle2" ["a [tRNAIle2]-N6-(4-amino-1-β-D-ribofuranosylpyrimidin-2-ylidene)-L-lysine34", "a [tRNAIle2]-lysidine34"] null null +"Lysine-or-DAP" "an L-lysine or meso-2,6-diaminoheptanedioate" [] null null +"Lyso-Form-Lipoprotein-Cysteine" "an N-acyl-[lipoprotein]-(S-acylglyceryl)-L-cysteine" ["a [lyso-form lipoprotein] L-cysteine"] null null +"Lyso-Glycosphingolipids" "a lyso-glycosphingolipid" [] null null +"LYSO-ORNITHINE-LIPIDS" "a lyso-ornithine lipid" ["an Nα-[(3R)-3-hydroxyacyl]-L-ornithine"] null null +"Lysophosphatidates" "a lysophosphatidate" [] null null +"Lysophosphatidylcholines" "a lyso-phosphatidylcholine" ["lysoPC"] null null +"Lysophosphatidylcholines-16-0" "lysophosphatidylcholine-16:0" ["lysoPC-16:0", "lysoPC16:0"] null null +"Lysophosphatidylcholines-16-1" "lysophosphatidylcholine-16:1" ["lysoPC-16:1", "lysoPC16:1"] null null +"Lysophosphatidylcholines-18-0" "lysophosphatidylcholine-18:0" ["lysoPC-18:0", "lysoPC18:0"] null null +"Lysophosphatidylcholines-18-1" "lysophosphatidylcholine-18:1" ["lysoPC-18:1", "lysoPC18:1"] null null +"Lysophosphatidylcholines-18-2" "lysophosphatidylcholine-18:2" ["lysoPC-18:2", "lysoPC18:2"] null null +"Lysophosphatidylcholines-18-3" "lysophosphatidylcholine-18:3" ["lysoPC-18:3", "lysoPC18:3"] null null +"Lysophosphatidylethanolamines" "a lyso-phosphatidylethanolamine" ["lysoPE"] null null +"Lysophosphatidylethanolamines-16-0" "lysophosphatidylethanolamine-16:0" ["lysoPE-16:0", "lysoPE16:0"] null null +"Lysophosphatidylethanolamines-16-1" "lysophosphatidylethanolamine-16:1" ["lysoPE-16:1", "lysoPE16:1"] null null +"Lysophosphatidylethanolamines-18-1" "lysophosphatidylethanolamine-18:1" ["lysoPE-18:1", "lysoPE18:1"] null null +"Lysophosphatidylethanolamines-18-2" "lysophosphatidylethanolamine-18:2" ["lysoPE-18:2", "lysoPE18:2"] null null +"Lysophosphatidylethanolamines-18-3" "lysophosphatidylethanolamine-18:3" ["lysoPE-18:3", "lysoPE18:3"] null null +"Lysophosphatidylglycerols" "a lyso-phosphatidylglycerol" ["lysoPG"] null null +"Lysophosphatidylglycerols-18-1" "lysophosphatidylglycerol-18:1" ["lysoPG-18:1", "lysoPG18:1"] null null +"Lysophosphatidylglycerols-18-2" "lysophosphatidylglycerol-18:2" ["lysoPG-18:2", "lysoPG18:2"] null null +"Lysophosphatidylglycerols-18-3" "lysophosphatidylglycerol-18:3" ["lysoPG-18:3", "lysoPG18:3"] null null +"Lysophospholipids" "a lyso-phospholipid" [] null null +"LYSOSOMAL-ENZYME-D-MANNOSE" "an α-D-Man-(1→2)-α-D-Man-(1→2)-α-D-Man-(1→3)-[α-D-Man-(1→2)-α-D-Man-(1→3)-[α-D-Man-(1→6)]-α-D-Man-(1→6)]-β-D-Man-(1→4)-β-D-GlcNAc-(1→4)-α-D-GlcNAc-L-asparaginyl-[lysosomal protein]" [] null null +"LYSOSOMAL-ENZYME-N-ETCETERA-MANNOSE" "an α-D-GlcNAc-(phospho)-3-α-D-Man-(1→2)-α-D-Man-(1→2)-α-D-Man-(1→3)-[α-D-Man-(1→2)-α-D-Man-(1→3)-[α-D-Man-(1→6)]-α-D-Man-(1→6)]-β-D-Man-(1→4)-β-D-GlcNAc-(1→4)-α-D-GlcNAc-L-asparaginyl-[lysosomal protein]" [] null null +"LysW-Alpha-Aminoadipate" "an [amino-group carrier protein]-C-terminal-[N-(1,4-dicarboxybutyl)-L-glutamine]" ["an [amino-group carrier protein]-C-terminal-γ-(L-2-aminoadip-2-yl)-L-glutamate", "an [amino-group carrier protein]-C-terminal-[N-(1,4-dicarboxybutan-1-yl)-L-glutamine]"] null null +"LysW-Alpha-Aminoadipate-Phosphate" "an [amino-group carrier protein]-C-terminal-{N-[1-carboxy-5-oxo-5-(phosphooxy)pentyl]-L-glutamine}" ["an [amino-group carrier protein]-C-terminal-γ-(6-phospho-L-2-aminoadip-2-yl)-L-glutamate", "an [amino-group carrier protein]-C-terminal-{N-[1-carboxy-5-oxo-5-(phosphooxy)pentan-1-yl]-L-glutamine}"] null null +"LysW-Alpha-Aminoadipate-Semialdehyde" "an [amino-group carrier protein]-C-terminal-[N-(1-carboxy-5-oxopentyl)-L-glutamine]" ["an [amino-group carrier protein]-C-terminal-γ-(L-2-aminoadipate semialdehyde-2-yl)-L-glutamate", "an [amino-group carrier protein]-C-terminal-N-(1-carboxy-5-oxopentan-1-yl)-L-glutamine"] null null +"LysW-C-Terminal-L-Glutamate" "an [amino-group carrier protein]-C-terminal-L-glutamate" [] null null +"LysW-L-glutamate" "an [amino-group carrier protein]-C-terminal-γ-(L-glutamyl)-L-glutamate" [] null null +"LysW-L-glutamate-5-phosphate" "an [amino-group carrier protein]-C-terminal-γ-(5-phospho-L-glutamyl)-L-glutamate" [] null null +"LysW-L-glutamate-5-semialdehyde" "an [amino-group carrier protein]-C-terminal-γ-(L-glutamate 5-semialdehyde-2-yl)-L-glutamate" [] null null +"LysW-L-lysine" "an [amino-group carrier protein]-C-terminal-[γ-(L-lysyl)-L-glutamate]" [] null null +"LysW-L-ornithine" "an [amino-group carrier protein]-C-terminal-γ-(L-ornithyl)-L-glutamate" [] null null +"Maackiain" "maackiain" ["6a,12a-dihydro-6H-[1,3]dioxolo[5,6][1]benzofuro[3,2-c]chromen-3-ol", "3-hydroxy-8,9-methylenedioxypterocarpane"] "C16H12O5" 284.268 +"Macrocycles" "a macrocycle" [] null null +"Macrolide-Antibiotics" "a macrolide antibiotic" [] null null +"Macrolides" "a macrolide" [] null null +"MAL" "(S)-malate" ["(S)-malic acid", "L-apple acid", "L-malic acid", "L-hydroxysuccinic acid", "L-hydroxybutanedioic acid", "L-malate"] "C4H4O5" 132.073 +"MALEATE" "maleate" ["maleic acid", "cis-butenedioic acid"] "C4H2O4" 114.057 +"MALONATE" "malonate" ["malonyl", "propanedioic acid", "malonic acid"] "C3H2O4" 102.046 +"MALONATE-S-ALD" "3-oxopropanoate" ["malonate semialdehyde", "malonic semialdehyde"] "C3H3O3" 87.055 +"MALONYL-COA" "malonyl-CoA" ["malonyl coenzyme A"] "C24H33N7O19P3S" 848.541 +"Malto-Oligosaccharides" "a malto-oligosaccharide" [] null null +"Maltodextrins" "a maltodextrin" ["4-{(1,4)-α-D-glucosyl}(n-1)-D-glucose", "maltodextrins", "maltodextrin(n)", "linear maltodextrin"] null null +"MALTOHEXAOSE" "maltohexaose" [] "C36H62O31" 990.867 +"MALTOOLIGOSYLTREHALOSE" "a maltooligosyl-trehalose" ["1-α-D-{(1,4)-α-D-glucosyl}(n-1)-α-D-glucopyranoside"] null null +"MALTOPENTAOSE" "maltopentaose" [] "C30H52O26" 828.725 +"MALTOSE" "maltose" ["α-D-glucopyranose-(1→4)-D-glucopyranose", "maltose"] "C12H22O11" 342.299 +"Maltose-phosphates" "a maltose phosphate" [] null null +"MALTOTETRAOSE" "maltotetraose" [] "C24H42O21" 666.583 +"MALTOTRIOSE" "maltotriose" ["amylotriose", "α-D-glucopyranosyl-(1→4)-α-D-glucopyranosyl-(1→4)-D-glucose"] "C18H32O16" 504.441 +"Man-12-Man-12-Man-Proteins" "an α-D-Man-(1→2)-α-D-Man-(1→2)-α-D-Man-3-O-(Ser/Thr)-[protein]" [] null null +"Man-12-Man-Proteins" "an α-D-Man-(1→2)-α-D-Man-3-O-(Ser/Thr)-[protein]" [] null null +"Man-13-Man-12-Man-12-Man-Proteins" "an α-D-Man-(1→3)-α-D-Man-(1→2)-α-D-Man-(1→2)-α-D-Man-3-O-(Ser/Thr)-[protein]" [] null null +"Man-13-Man-13-Man-12-Man-12-Man-Proteins" "an α-D-Man-(1→3)-α-D-Man-(1→3)-α-D-Man-(1→2)-α-D-Man-(1→2)-α-D-Man-3-O-(Ser/Thr)-[protein]" [] null null +"Man-16-Man8GlcNAc2-proteins" "Man9GlcNAc2-[protein] (isomer 8A1,2,3,4B1,4)" ["an α-D-Man-(1→2)-α-D-Man-(1→2)-[α-D-Man-(1→6)]-α-D-Man-(1→3)-[α-D-Man-(1→2)-α-D-Man-(1→3)-[α-D-Man-(1→6)]-α-D-Man-(1→6)]-β-D-Man-(1→4)-β-D-GlcNAc-(1→4)-α-D-GlcNAc-[protein]-L-asparagine", "Man9GlcNAc2-protein", "a [protein]-L-asparagine-[(mannosyl)9(N-acetylglucosaminyl)2]"] null null +"Man10GlcNAc2-proteins" "a [protein]-L-asparagine-[(mannosyl)10(N-acetylglucosaminyl)2] (isomer 8A1,2,3,4B1,2,4)" ["an α-D-Man-(1→2)-α-D-Man-(1→2)-[α-D-Man-(1→6)]-α-D-Man-(1→3)-[α-D-Man-(1→2)-[α-D-Man-(1→6)-]-α-D-Man-(1→3)-[α-D-Man-(1→6)]-α-D-Man-(1→6)]-β-D-Man-(1→4)-β-D-GlcNAc-(1→4)-α-D-GlcNAc-[protein]-L-asparagine", "Man10GlcNAc2-protein"] null null +"Man3-GlcNAc3-Xyl-Proteins" "a β-D-GlcNAc-(1→2)-α-D-Man-(1→3)-[α-D-Man-(1→6)]-[β-D-Xyl-(1→2)]-β-D-Man-(1→4)-β-D-GlcNAc-(1→4)-β-D-GlcNAc-N-Asn-[protein]" ["Man3GlcNAc3Xyl-[protein]"] null null +"Man3-GlcNAc4-Xyl-Fuc-Gal2-Proteins" "a β-D-Gal-(1→3)-β-D-GlcNAc-(1→2)-α-D-Man-(1→3)-[β-D-Gal-(1→3)-β-D-GlcNAc-(1→2)-α-D-Man-(1→6)]-[β-D-Xyl-(1→2)]-β-D-Man-(1→4)-β-D-GlcNAc-(1→4)-[α-L-Fuc-(1→3)]-β-D-GlcNAc-N-Asn-[protein]" [] null null +"Man3-GlcNAc4-Xyl-Fuc3-Gal2-Proteins" "a β-D-Gal-(1→3)-[α-L-Fuc-(1→4)]-β-D-GlcNAc-(1→2)-α-D-Man-(1→3)-[β-D-Gal-(1→3)-[α-L-Fuc-(1→4)]-β-D-GlcNAc-(1→2)-α-D-Man-(1→6)]-[β-D-Xyl-(1→2)]-β-D-Man-(1→4)-β-D-GlcNAc-(1→4)-[α-L-Fuc-(1→3)]-β-D-GlcNAc-N-Asn-[protein]" [] null null +"Man5-GlcNAc3-Xyl-Proteins" "a β-D-GlcNAc-(1→2)-α-D-Man-(1→3)-[α-D-Man-(1→3)-[α-D-Man-(1→6)]-α-D-Man-(1→6)]-[β-D-Xyl-(1→2)]-β-D-Man-(1→4)-β-D-GlcNAc-(1→4)-α-D-GlcNAc-N-Asn-[protein]" ["Man5GlcNAc3Xyl-[protein]"] null null +"Man6-GlcNAc2-protein-A12B2" "Man6GlcNAc2-[protein] (isomer 6A1,2B2)" ["an α-D-Man-(1→2)-α-D-Man-(1→3)-[α-D-Man-(1→2)-α-D-Man-(1→3)-[α-D-Man-(1→6)]-α-D-Man-(1→6)]-β-D-Man-(1→4)-β-D-GlcNAc-(1→4)-β-D-GlcNAc-1-L-asparaginyl-[protein]", "a [(mannosyl)6(N-acetylglucosaminyl)2]-L-asparaginyl-[protein] (isomer 6A1,2B2)"] null null +"Man6GlcNAc2-protein-A123" "Man6GlcNAc2-[protein] (isomer 6A1,2,3)" ["an α-D-Man-(1→2)-α-D-Man-(1→3)-[α-D-Man-(1→2)-α-D-Man-(1→3)-[α-D-Man-(1→6)]-α-D-Man-(1→6)]-β-D-Man-(1→4)-β-D-GlcNAc-(1→4)-β-D-GlcNAc-1-L-asparaginyl-[protein]", "a [(mannosyl)6(N-acetylglucosaminyl)2]-L-asparaginyl-[protein] (isomer 6A1,2,3)"] null null +"Man6GlcNAc2-protein-A12B1" "Man6GlcNAc2-[protein] (isomer 6A1,2B1)" ["an α-D-Man-(1→3)-[α-D-Man-(1→3)-[α-D-Man-(1→2)-α-D-Man-(1→6)]-α-D-Man-(1→6)]-β-D-Man-(1→4)-β-D-GlcNAc-(1→4)-β-D-GlcNAc-1-L-asparaginyl-[protein]", "[(mannosyl)6(N-acetylglucosaminyl)2]-L-asparaginyl-[protein] (isomer 6A1,2B1)"] null null +"Man7GlcNAc2-protein-A123B1" "Man7GlcNAc2-protein (isomer 7A1,2,3B1)" ["an α-D-Man-(1→2)-α-D-Man-(1→3)-[α-D-Man-(1→3)-[α-D-Man-(1→2)-α-D-Man-(1→6)]-α-D-Man-(1→6)]-β-D-Man-(1→4)-β-D-GlcNAc-(1→4)-β-D-GlcNAc-1-L-asparaginyl-[protein]", "a [(mannosyl)7(N-acetylglucosaminyl)2]-L-asparaginyl-[protein] (isomer 7A1,2,3B1)"] null null +"Man7GlcNAc2-protein-A123B2" "Man7GlcNAc2-[protein] (isomer 7A1,2,3B2)" ["a [(mannosyl)7(N-acetylglucosaminyl)2]-L-asparaginyl-[protein] (isomer 7A1,2,3B2)", "an α-D-Man-(1→2)-α-D-Man-(1→3)-[α-D-Man-(1→2)-α-D-Man-(1→3)-[α-D-Man-(1→6)]-α-D-Man-(1→6)]-β-D-Man-(1→4)-β-D-GlcNAc-(1→4)-β-D-GlcNAc-1-L-asparaginyl-[protein]"] null null +"Man7GlcNAc2-protein-A123B3" "Man7GlcNAc2-[protein] (isomer 7A1,2,3B3)" ["an α-D-Man-(1→2)-α-D-Man-(1→2)-α-D-Man-(1→3)-[α-D-Man-(1→2)-α-D-Man-(1→3)-[α-D-Man-(1→6)]-α-D-Man-(1→6)]-β-D-Man-(1→4)-β-D-GlcNAc-(1→4)-β-D-GlcNAc-1-L-asparaginyl-[protein]", "a [(mannosyl)7(N-acetylglucosaminyl)2]-L-asparaginyl-[protein] (isomer 7A1,2,3B3)"] null null +"Man7GlcNAc2-protein-A12B12" "Man7GlcNAc2-[protein] (isomer 7A1,2B1,2)" ["an α-D-Man-(1→3)-[α-D-Man-(1→2)-α-D-Man-(1→3)-[α-D-Man-(1→2)-α-D-Man-(1→6)]-α-D-Man-(1→6)]-β-D-Man-(1→4)-β-D-GlcNAc-(1→4)-β-D-GlcNAc-1-L-asparaginyl-[protein]", "a [(mannosyl)7(N-acetylglucosaminyl)2]-L-asparaginyl-[protein] (isomer 7A1,2B1,2)"] null null +"Man8-GlcNAc2-protein-A123B12" "Man8GlcNAc2-[protein] (isomer 8A1,2,3B1,2)" ["an α-D-Man-(1→2)-α-D-Man-(1→3)-[α-D-Man-(1→2)-α-D-Man-(1→3)-[α-D-Man-(1→2)-α-D-Man-(1→6)]-α-D-Man-(1→6)]-β-D-Man-(1→4)-β-D-GlcNAc-(1→4)-β-D-GlcNAc-N-Asn-[protein]", "a [(mannosyl)8(N-acetylglucosaminyl)2]-L-asparaginyl-[protein] (isomer 8A1,2,3B1,2)"] null null +"Man8GlcNAc2-protein-A123B13" "Man8GlcNAc2-[protein] (isomer 8A1,2,3B1,3)" ["an [α-D-Man-(1→2)-α-D-Man-(1→2)-α-D-Man-(1→3)-{α-D-Man-(1→3)-[α-D-Man-(1→2)-α-D-Man-(1→6)]-α-D-Man-(1→6)}-β-D-Man-(1→4)-β-D-GlcNAc-(1→4)-β-D-GlcNAc]-N-Asn-[protein]", "a [(mannosyl)8(N-acetylglucosaminyl)2]-L-asparaginyl-[protein] (isomer 8A1,2,3B1,3)"] null null +"Man8GlcNAc2-protein-A123B23" "Man8GlcNAc2-[protein] (isomer 8A1,2,3B2,3)" ["an α-D-Man-(1→2)-α-D-Man-(1→2)-α-D-Man-(1→3)-[α-D-Man-(1→2)-α-D-Man-(1→3)-[α-D-Man-(1→6)]-α-D-Man-(1→6)]-β-D-Man-(1→4)-β-D-GlcNAc-(1→4)-β-D-GlcNAc-N-Asn-[protein]", "a [(mannosyl)8(N-acetylglucosaminyl)2]-L-asparaginyl-[protein] (isomer 8A1,2,3B2,3)"] null null +"Man9GlcNAc2-proteins" "Man9GlcNAc2-[protein] (isomer 9A1,2,3B1,2,3)" ["an [α-D-Man-(1→2)-α-D-Man-(1→2)-α-D-Man-(1→3)-{α-D-Man-(1→2)-α-D-Man-(1→3)-[α-D-Man-(1→2)-α-D-Man-(1→6)]-α-D-Man-(1→6)}-β-D-Man-(1→4)-β-D-GlcNAc-(1→4)-β-D-GlcNAc]-N-Asn-[protein]", "a [(mannosyl)9(N-acetylglucosaminyl)2]-L-asparaginyl-[protein]"] null null +"MANDELONITRILE" "mandelonitrile" [] "C8H7NO" 133.149 +"Mannans" "a mannan" ["mannan"] null null +"MANNITOL" "D-mannitol" ["D-mitobronitol", "(2R,3R,4R,5R)-hexane-1,2,3,4,5,6-hexol"] "C6H14O6" 182.173 +"MANNITOL-1P" "D-mannitol 1-phosphate" ["mannitol-1-P"] "C6H13O9P" 260.137 +"Mannobiose" "a mannobiose" [] null null +"Mannolipids" "a mannolipid" [] null null +"MANNOSE" "D-mannose" [] "C6H12O6" 180.157 +"MANNOSE-1P" "α-D-mannose 1-phosphate" ["mannose-1-phosphate", "D-mannose-1-phosphate", "mannose-1-P", "α-D-mannopyranose 1-phosphate"] "C6H11O9P" 258.121 +"Mannose-6-phosphate" "D-mannose 6-phosphate" ["D-mannose-6-P"] "C6H11O9P" 258.121 +"MANNOSE-6P" "α-D-mannopyranose 6-phosphate" ["α-D-mannose-6-P"] "C6H11O9P" 258.121 +"Mannoses" "mannose" [] null null +"MANNOSYL-ETCETERA-MANNOSYL-R" "α-D-mannosyl-1,6-(N-acetyl-β-D-glucosaminyl-1,2-α-D-mannosyl-1,3)-β-D-mannosyl-[glycoprotein]" ["α-D-mannosyl-1,6-(N-acetyl-β-D-glucosaminyl-1,2-α-D-mannosyl-1,3)-β-D-mannosyl-R"] null null +"Mannosyl3-N-acetyl-glucosamine2-R" "a (mannosyl)3-(N-acetylglucosaminyl)-R" ["Man3GlcNAc-R"] null null +"Mannosyl5-N-acetyl-glucosamine2-R" "Man5GlcNAc3-[protein]" ["a [β-D-GlcNAc-(1→2)-α-D-Man-(1→3)-{α-D-Man-(1→3)-[α-D-Man-(1→6)]-α-D-Man-(1→6)}-β-D-Man-(1→4)-β-D-GlcNAc-(1→4)-β-D-GlcNAc]-N-Asn-[protein]", "2M5hy N-glycan"] null null +"Mannosyl5-N-Glycans" "Man5GlcNAc2-[protein] (isomer 5A1,2)" ["an [α-D-Man-(1→3)-{α-D-Man-(1→3)-[α-D-Man-(1→6)]-α-D-Man-(1→6)}-β-D-Man-(1→4)-β-D-GlcNAc-(1→4)-β-D-GlcNAc]-N-Asn-[protein]", "a [(mannosyl)5(N-acetylglucosaminyl)2]-L-asparginyl-[protein] (isomer 5A1,2)", "M5 N-glycan"] null null +"Mannosylinositol-phosphorylceramides" "a mannosylinositol phosphorylceramide" [] null null +"Mannuronate" "mannuronate" [] "C6H9O7" null +"MAP-Kinase-L-Phosphothreonine" "a [mitogen-activated protein kinase] L-threonine phosphate" [] null null +"MAP-Kinase-L-Phosphotyrosine" "a [mitogen-activated protein kinase] L-tyrosine phosphate" [] null null +"MAP-Kinase-L-Tyr" "a [mitogen-activated protein kinase]-L-tyrosine" [] null null +"MAPKK-L-serine-or-L-threonine" "a [MAP kinase kinase]-(L-serine/L-threonine)" ["a [mitogen-activated protein kinase kinase]-L-serine/L-threonine"] null null +"MAPKK-Ser-or-Thr-phosphate" "a [MAP kinase kinase] (L-serine/L-threonine) phosphate" ["a [MAPKK] (L-serine/L-threonine) phosphate", "a [mitogen-activated protein kinase kinase] (L-serine/L-threonine) phosphate"] null null +"Marinolic-Acids" "a marinolic acid" ["a marinolate"] null null +"Marinoloyl-Coa" "a marinoloyl-CoA" [] null null +"MC-alcohol-LC-acyl-ester" "a medium-chain alcohol--long-chain acyl wax ester" [] null null +"MC-alcohol-VLC-acyl-ester" "a medium-chain alcohol--very-long-chain acyl wax ester" [] null null +"mcm5s2U-34-tRNA" "a 5-(2-methoxy-2-oxoethyl)2-thiouridine34 in tRNA" ["a tRNA containing 5-(2-methoxy-2-oxoethyl)2-thiouridine34", "an mcm5s2U34 in tRNA", "a 5-methoxycarbonylmethyl-2-thiouridine34 in tRNA"] null null +"mcmo5U34m-tRNA" "a 5-(methoxycarbonylmethoxy)-2'-O-methyluridine34 in tRNA" ["a mcmo5U34m in tRNA"] null null +"MDO-D-Glucoses" "an osmoregulated periplasmic glucan" ["an MDO-β-D-glucan", "an OPG-β-D-glucan"] null null +"Medicagenate-Monoglucosides" "a medicagenate monoglucoside" [] null null +"Medicarpin" "medicarpin" ["9-methoxy-6a,11a-dihydro-6H-[1]benzofuro[3,2-c]chromen-3-ol"] "C16H14O4" 270.284 +"Medium-Chain-2-Enoyl-CoAs" "a medium-chain 2-enoyl-CoA" ["a medium-chain Δ2-enoyl-CoA", "a medium-chain 2,3-dehydroacyl-CoA"] null null +"Medium-Chain-234-Saturated-acyl-CoAs" "a medium-chain 2,3,4-saturated fatty acyl CoA" [] null null +"Medium-Chain-234-Saturated-Fatty-Acids" "a medium-chain 2,3,4-saturated fatty acid" [] null null +"Medium-Chain-3-Hydroxyacyl-CoAs" "a medium-chain (3R)-3-hydroxyacyl-CoA" [] null null +"Medium-Chain-3S-Hydroxyacyl-CoAs" "a medium-chain (3S)-3-hydroxyacyl-CoA" [] null null +"Medium-Chain-Acyl-CoAs" "a medium-chain fatty acyl-CoA" [] null null +"Medium-Chain-Alcohols" "a medium-chain fatty alcohol" [] null null +"Medium-Chain-Aldehydes" "a medium-chain fatty aldehyde" ["a medium-chain aldehyde"] null null +"Medium-Chain-Alkanes" "a medium-chain alkane" [] null null +"Medium-Chain-Carboxylates" "a medium-chain carboxylate" ["a medium-chain acid anion"] null null +"Medium-chain-fatty-acids" "a medium chain fatty acid" ["MCFA"] null null +"Medium-Chain-oxoacyl-CoAs" "a medium-chain oxoacyl-CoA" [] null null +"Medium-Chain-Primary-Alcohols" "a medium-chain primary alcohol" [] null null +"medium-Chain-Trans-23-Dehydroacyl-CoA" "a medium-chain (2E)-2-enoyl-CoA" ["a medium-chain trans-2,3-didehydroacyl-CoA", "a medium-chain trans-2-enoyl-CoA", "a medium-chain trans2-enoyl-CoA", "a medium-chain trans-didehydroacyl-CoA", "a medium-chain trans-2,3-dehydroacyl-CoA"] null null +"Megalomicins" "a megalomicin" ["a megalomycin"] null null +"MELANIN" "melanin" [] "C18H10N2O4" 318.288 +"MELIBIOSE" "melibiose" ["6-O-(α-D-galactopyranosyl)-D-glucopyranose", "D-Gal-α(1->6)-D-glucose", "D-melibiose", "6-O-α-D-galactopyranosyl-D-glucose", "6-(α-D-galactosido)-D-glucose", "α-D-Galp-(1->6)-D-Glc"] "C12H22O11" 342.299 +"MELILOTATE" "melilotate" ["3-(2-Hydroxyphenyl) propionate", "3-(2-Hydroxyphenyl)propionic acid", "3-(o-Hydroxyphenyl) propionic acid", "3-(2-hydroxyphenyl)propanoate"] "C9H9O3" 165.168 +"Melleolides" "a melleolide" [] null null +"Membrane-Electron-Carriers" "a membrane-bound electron carrier" [] null null +"MENADIOL" "menadiol" ["2-methylnaphthalene-1,4-diol", "2-methyl-1,4-naphthohydroquinone", "2-methylhydronaphthoquinone"] "C11H10O2" 174.199 +"Menaquinols" "a menaquinol" [] null null +"Menaquinones" "a menaquinone" ["a vitamin K2"] null null +"Menthones" "a menthone" [] "C10H18O" 154.252 +"Mercapturates" "a mercapturate" ["an S-substituted-N-acetyl-L-cysteine", "an N-acetyl-L-cysteine-S-conjugate", "a mercapturic acid"] null null +"MESACONATE" "mesaconate" ["2-methylfumarate", "mesaconic acid", "(E)-2-methyl-2-butanedionic acid"] "C5H4O4" 128.084 +"MESO-DIAMINOPIMELATE" "meso-diaminopimelate" ["meso-2,6-diaminopimelate", "meso-A2pm", "meso-diaminoheptanedioate", "meso-2,6-diaminoheptanedioate", "meso-1-α,ε-diaminopimelate", "D,L-diaminopimelate", "D,L-DAP", "D,L-meso-diaminoheptanedioate", "M-DAP"] "C7H14N2O4" 190.199 +"MESO-TARTRATE" "meso-tartrate" ["meso-tartaric acid", "(2R,3S)-2,3-dihydroxybutanedioate", "mesotartaric acid", "erythrarate", "M-tartarate", "M-tartaric acid"] "C4H4O6" 148.072 +"MET" "L-methionine" ["M", "methionine", "L-met"] "C5H11NO2S" 149.207 +"Metal-Ions" "a metal cation" [] null null +"Metal-sulfur-Clusters" "a metal-sulfur cluster" ["a metal-sulfur center"] null 87.907 +"Metalloid-Cations" "a metalloid cation" [] null null +"Methanofurans" "a methanofuran" [] null null +"Methanopterines-and-derivatives" "methanopterin and derivatives" [] null null +"Methionine-synthase-cob-I-alamins" "cob(I)alamin-[methionine synthase]" [] null null +"Methionine-synthase-cob-II-alamins" "cob(II)alamin-[methionine synthase]" [] null null +"METHIONINE-SYNTHASE-METHYLCOBALAMIN" "methylcob(III)alamin-[methionine synthase]" [] null null +"METHIONYL-PEPTIDE" "an N-terminal L-methionyl-[protein]" ["a [protein] N-terminal L-methionine"] null null +"Methyl-Acceptors" "a methyl group donor" ["a methyl group acceptor", "a methyl donor"] null null +"METHYL-ACETYLPHOSPHONATE" "methyl-acetylphosphonate" ["monomethylacetylphosphonate"] "C3H6O4P" 137.052 +"METHYL-BETA-D-GALACTOSIDE" "methyl-β-D-galactoside" ["methyl β-D-galactopyranoside", "β-methyl-D-galactoside", "b-methyl-D-galactoside"] "C7H14O6" 194.184 +"Methyl-Branched-Fatty-Acids" "a methyl-branched fatty acid" [] null null +"Methyl-Branched-Lipids" "a methyl-branched lipid" [] null null +"METHYL-dCpdG-DNAs" "a methyl-dCpdG DNA" [] null null +"Methyl-esterified-homogalacturonan" "a methyl-esterified homogalacturonan" ["methyl-esterified α-(1,4)-poly-D-galacturonate", "methyl-esterified α-(1,4)-poly-D-galactosyluronate", "methyl-esterified homogalacturonan"] null null +"Methyl-esters" "a methyl ester" [] null null +"Methyl-Farnesoates" "a methyl farnesoate" ["a farnesoic acid methyl ester", "a 2,6,10-Dodecatrienoic acid, 3,7,11-trimethyl-, methyl ester", "a farnesenic acid, methyl ester", "a farnesyl methyl ester", "a methyl 3,7,11-trimethyl-2,6,10-dodecatrienoate", "a methyl farnesate", "a methyl farnesylate"] "C16H26O2" 250.38 +"METHYL-GLYOXAL" "methylglyoxal" ["2-oxopropanal", "acetylformaldehyde", "pyruvic aldehyde", "pyruvaldehyde"] "C3H4O2" 72.063 +"METHYL-GROUP" "a methyl group" [] "CH4" 16.043 +"Methyl-Inositols" "a methylated inositol" [] null null +"Methyl-Jasmonates" "a methyl jasmonate" ["a jasmonic acid methyl ester", "a jasmonate methyl ester", "an MeJA"] "C13H20O3" 224.299 +"METHYL-MALONYL-COA" "(R)-methylmalonyl-CoA" ["L-methylmalonyl-CoA", "methylmalonyl-CoA", "methyl-malonyl-coenzyme A", "CH3-malonyl-CoA"] "C25H35N7O19P3S" 862.568 +"Methyl-thioethers" "a methyl thioether" [] null null +"METHYLAMINE" "methylamine" ["methylammonium", "monomethylammonium ion", "monomethylamine", "aminomethane", "methylammonium ion", "methanamine", "MMA"] "CH6N" 32.065 +"Methylated-Amino-Acids" "a methylated amino acid" ["a methyl amino acid"] null null +"Methylated-DNA-Bases" "a methylated nucleobase within DNA" ["DNA-base-CH3", "methyl DNA-base", "methylated DNA base"] null null +"Methylated-methyl-acceptors" "a methylated methyl donor" ["a methylated methyl acceptor"] null null +"Methylcobamides" "a methylcobamide" [] null null +"METHYLENE-THF" "5,10-methylenetetrahydropteroyl mono-L-glutamate" ["N5,N10-methylenetetrahydrofolate mono-L-glutamate", "5,10-methylenetetrahydrofolate mono-L-glutamate", "5,10-methylene-H4PteGlu1"] "C20H21N7O6" 455.429 +"METHYLENE-THF-GLU-N" "a 5,10-methylenetetrahydrofolate" ["(-)CH2H4folate", "(-)5,10-methylene-5,6,7,8-tetrahydrofolate", "methylene-H4PteGlu(n)", "methylene-THF(glu)n", "methylene-H4PteGlun", "methylene-tetrahydropteroylpolyglutamates"] null null +"Methylhexadecanoates" "a methylhexadecanoic acid" [] "C17H34O2" 270.454 +"Methylketones" "a methyl ketone" [] null null +"Methylmalonyl-CoA" "methylmalonyl-CoA" ["methyl-malonyl-coenzyme A", "CH3-malonyl-CoA"] "C25H35N7O19P3S" 862.568 +"METHYLMETHANETHIOSULFONATE" "methylmethanethiosulfonate" ["MMTS"] "C2H6O2S2" 126.188 +"METHYLNICOTINATE" "trigonelline" ["1-methylnicotinate", "N-methylnicotinate"] "C7H7NO2" 137.138 +"Methylphenols" "a methylphenol" ["a cresol", "a hydroxytoluene"] null null +"METOH" "methanol" ["MeOH", "MetOH", "carbinol", "methyl alcohol", "wood alcohol", "CH3OH"] "CH4O" 32.042 +"MG+2" "Mg2+" ["magnesium", "magnesium(II)", "Mg++", "magnesium ion", "MgII"] "Mg" 24.305 +"MGCL2" "magnesium dichloride" ["MgCl2"] "MgCl2" 95.211 +"MI-HEXAKISPHOSPHATE" "phytate" ["phytic acid", "1D-myo-inositol 1,2,3,4,5,6-hexakisphosphate", "myo-inositol hexakisphosphate", "D-myo-Inositol 1,2,3,4,5,6-hexakisphosphate", "myo-Inositol 1,2,3,4,5,6-hexakisphosphate", "Inositol 1,2,3,4,5,6-hexakisphosphate", "InsP6", "1D-myo-Inositol hexakisphosphate", "IP6", "inositol hexaphosphate"] "C6H6O24P6" 647.942 +"MI-PENTAKISPHOSPHATE" "D-myo-inositol (1,2,3,4,5)-pentakisphosphate" ["1-myo-inositol (1,2,3,4,5)-pentakisphosphate", "inositol (1,2,3,4,5)-pentakisphosphate", "myo-inositol (1,2,3,4,5)-pentakisphosphate", "1L-myo-inositol (1,2,3,4,5)-pentakisphosphate", "1D-myo-inositol (1,2,3,4,5)-pentakisphosphate", "I(1,2,3,4,5)P5", "Ins(1,2,3,4,5)P5"] "C6H7O21P5" 569.977 +"Microcins" "a microcin" [] null null +"Mineralocorticoids" "a mineralocorticoid" [] null null +"MIP2C" "a mannosyl-diphosphoinositol-(2'R)-2'-hydroxyphytoceramide" ["MIP2C", "M(IP)2C", "a mannose-(inositol phosphate)2-ceramide", "an inositol-phospho-mannosyl-inositol-phospho-α-hydroxyphytoceramide", "a mannosyl-diphosphoinositol-ceramide", "a mannosyl-diphosphoinositol-α-hydroxyphytoceramide"] null null +"MIPC" "a mannosylinositol phospho-(2'R)-2'-hydroxyphytoceramide" ["MIPC", "a mannosylinositol-P-α-hydroxyphytoceramide", "a mannosylinositol phospho-α-hydroxyphytoceramide"] null null +"Mitogen-Activated-Protein-Kinase-L-Thr" "a [mitogen-activated protein kinase]-L-threonine" [] null null +"MN+2" "Mn2+" ["Mn(II) (incorrect)", "Mn++", "manganese(II)", "MnII"] "Mn" 54.938 +"mnm5GeS2U" "a 5-methylaminomethyl-2-(S-geranyl)thiouridine34 in tRNA" ["mnm5geS2U"] null null +"Mnm5Se2U-containing-tRNAs" "a 5-methylaminomethyl-2-selenouridine34 in tRNA" ["tRNA containing 5-methylaminomethyl-2-selenouridine34"] null null +"mnm5SeP2U" "a 5-methylaminomethyl-2-(Se-phospho)selenouridine34 in tRNA" ["tRNA containing 5-methylaminomethyl-2-selenophosphouridine"] null null +"MO+2" "Mo2+" ["molybdenum(II)", "Mo++", "MoII"] "Mo" 95.94 +"Mo-bis-MGD-Chaperone-Cys-Persulfide" "a [bis(guanylyl molybdopterin) cofactor chaperone]-S-sulfanyl-L-cysteine" [] null null +"Mo-bis-MGD-Chaperone-L-cysteine" "a [bis(guanylyl molybdopterin) cofactor chaperone]-L-cysteine" [] null null +"Mo-molybdopterin-cofactor" "a W/Mo-pterin cofactor" [] null null +"MOCS3-S-sulfanylcysteine" "a [MOCS3]-S-sulfanylcysteine" [] null null +"MOD-PROT-CYS" "a modified protein L-cysteine" [] null null +"Modified-Amino-Acids" "a modified amino acid" [] null null +"Modified-Bases" "a modified nucleobase" ["a modified nucleotide base"] null null +"modified-deoxyribonucleoside" "a modified 2'-deoxyribonucleoside" [] null null +"Modified-Galacturonans" "a modified galacturonan" [] null null +"Modified-Inositols" "a modified inositol" [] null null +"Modified-Menaquinols" "a modified menaquinol" [] null null +"Modified-Menaquinones" "a modified menaquinone" [] null null +"Modified-Nucleobases-in-DNA" "a modified nucleobase within DNA" [] null null +"Modified-Nucleobases-in-mRNA" "a modified nucleobase within mRNA" [] null null +"Modified-Nucleobases-in-RNA" "a modified nucleobase within RNA" [] null null +"Modified-Nucleobases-in-rRNA" "a modified nucleobase within rRNA" [] null null +"Modified-Nucleobases-in-tRNA" "a modified nucleobase within a tRNA" [] null null +"Modified-Nucleosides" "a modified nucleoside" [] null null +"Modified-Nucleosides-In-DNA" "a modified nucleoside in DNA" [] null null +"Modified-Nucleosides-in-Nucleic-Acid" "a modified nucleoside in nucleic acid" [] null null +"Modified-Nucleosides-In-RNA" "a modified nucleoside in RNA" [] null null +"Modified-Nucleotides" "a modified nucleotide" [] null null +"Modified-Peptides" "a modified peptide" [] null null +"Modified-Sugars" "a modified sugar" [] null null +"Modified-Uridines" "a modified uridine" [] null null +"MOENOMYCIN" "moenomycin" [] "C69H104N4O35P" 1580.56 +"MONO-BETA-D-GALACTOSYLACYLGLYCEROL" "a mono-β-D-galactosylacylglycerol" [] null null +"Mono-Rhamnolipids" "a mono-rhamnolipid" [] null null +"Mono-trans-poly-cis-polyprenyl-PP" "a mono-trans, poly-cis-polyisoprenyl diphosphate" [] null null +"Monoacylglycerols" "a monoglyceride" ["a monoacylglycerol"] null null +"Monoamines" "a monoamine" [] null null +"Monobactams" "a monobactam" [] null null +"Monocarboxylates" "a monocarboxylate" [] null null +"Monocarboxylic-Acid-Amides" "a monocarboxylic acid amide" [] null null +"Monogalactosyldiacylglycerols-34-1" "monogalactosyldiacylglycerol-34:1" ["MGDG-34:1", "MGDG34:1"] null null +"Monogalactosyldiacylglycerols-34-2" "monogalactosyldiacylglycerol-34:2" ["MGDG-34:2", "MGDG34:2"] null null +"Monogalactosyldiacylglycerols-34-3" "monogalactosyldiacylglycerol-34:3" ["MGDG-34:3", "MGDG34:3"] null null +"Monogalactosyldiacylglycerols-34-4" "monogalactosyldiacylglycerol-34:4" ["MGDG-34:4", "MGDG34:4"] null null +"Monogalactosyldiacylglycerols-34-5" "monogalactosyldiacylglycerol-34:5" ["MGDG-34:5", "MGDG34:5"] null null +"Monogalactosyldiacylglycerols-34-6" "monogalactosyldiacylglycerol-34:6" ["MGDG-34:6", "MGDG34:6"] null null +"Monogalactosyldiacylglycerols-36-1" "monogalactosyldiacylglycerol-36:1" ["MGDG-36:1", "MGDG36:1"] null null +"Monogalactosyldiacylglycerols-36-2" "monogalactosyldiacylglycerol-36:2" ["MGDG-36:2", "MGDG36:2"] null null +"Monogalactosyldiacylglycerols-36-3" "monogalactosyldiacylglycerol-36:3" ["MGDG-36:3", "MGDG36:3"] null null +"Monogalactosyldiacylglycerols-36-4" "monogalactosyldiacylglycerol-36:4" ["MGDG-36:4", "MGDG36:4"] null null +"Monogalactosyldiacylglycerols-36-5" "monogalactosyldiacylglycerol-36:5" ["MGDG-36:5", "MGDG36:5"] null null +"Monogalactosyldiacylglycerols-36-6" "monogalactosyldiacylglycerol-36:6" ["MGDG-36:6", "MGDG36:6"] null null +"Monogalactosyldiacylglycerols-38-3" "monogalactosyldiacylglycerol-38:3" ["MGDG-38:3", "MGDG38:3"] null null +"Monogalactosyldiacylglycerols-38-4" "monogalactosyldiacylglycerol-38:4" ["MGDG-38:4", "MGDG38:4"] null null +"Monogalactosyldiacylglycerols-38-5" "monogalactosyldiacylglycerol-38:5" ["MGDG-38:5", "MGDG38:5"] null null +"Monogalactosyldiacylglycerols-38-6" "monogalactosyldiacylglycerol-38:6" ["MGDG-38:6", "MGDG38:6"] null null +"Monolactams" "a monolactam" [] null null +"MONOMER0-4342" "a [prolipoprotein]-S-1,2-diacyl-sn-glyceryl-L-cysteine" [] null null +"MONOMETHYL-ESTER-OF-TRANS-ACONITATE" "(E)-3-(methoxycarbonyl)pent-2-enedioate" ["(E)-3-carboxy-2-pentenedioate 6-methyl ester"] "C7H6O6" 186.121 +"Monosaccharides" "a monosaccharide" [] null null +"Monoterpenals" "a monoterpenal" [] null null +"Monoterpene-Derivatives" "a monoterpenoid derivative" [] null null +"Monoterpene-Ketones" "a monoterpene ketone" [] null null +"Monoterpenes" "a monoterpenoid" ["a monoterpene"] null null +"Monoterpenol-Acetate-Esters" "a monoterpenol acetate ester" [] null null +"Monoterpenol-phosphates" "a monoterpenyl phosphate" [] null null +"Monoterpenols" "a monoterpenol" ["an oxygenated monoterpene"] null null +"Monoterpenyl-Diphosphates" "a monoterpenyl diphosphate" [] null null +"MONOTRANS-CIS-DECAPRENYL-GROUP" "mono-trans, poly-cis-decaprenyl group" [] "C50H82" 683.198 +"Monounsaturated-fatty-acids" "a monounsaturated fatty acid" ["PUFA"] null null +"Monovalent-Inorganic-Cations" "a monovalent inorganic cation" [] null null +"MPHPV" "α-(2-methoxyphenoxy)-β-hydroxypropiovanillone" ["MPHPV"] "C17H18O6" 318.326 +"mRNA-Adenines" "an adenine in mRNA" ["an mRNA adenine"] null null +"mRNA-Containing-N1-Methyladenine" "an N1-methyladenine in mRNA" ["mRNA containing N1-methyladenine"] null null +"mRNA-Cytidines" "a cytidine in mRNA" ["a mRNA cytidine"] null null +"mRNA-Cytosines" "a cytosine in mRNA" [] null null +"mRNA-Uracils" "a uracil in mRNA" [] null null +"MRNAS-WITH-N3-METHYLCYTOSINE" "an N3-methylcytosine in mRNA" [] null null +"mu-Carrageenan" "μ-carrageenan" [] null null +"Mucin-type-glycans" "a mucin-type O-glycan" [] null null +"Muricholates" "a muricholate" ["a muricholic acid"] null null +"Mycaminose" "mycaminose" ["3,6-dideoxy-3-(dimethylamino)-D-glucose"] "C8H18NO4" 192.234 +"Mycobacterial-Arabinogalactans" "a mycobacterial arabinogalactan" ["a microbial arabinogalactan"] null null +"Mycocerosic-Acids" "a mycocerosate" ["a mycocerosic acid"] null null +"Mycocerosyl-adenylate" "a mycocerosyl-adenylate" [] null null +"Mycocerosyl-CoA" "a mycocerosyl-CoA" [] null null +"Mycoketide-Phosphates" "a mycoketide phosphate" [] null null +"Mycoketides" "a mycoketide" [] null null +"MYCOLIC-ACIDS" "a mycolate" ["a mycolic acid"] null null +"Mycolipanoic-Acids" "a mycolipanoate" ["a mycolipanic acid", "a mycothianoic acid", "a mycothianoate", "a (2S,4S,6S)-2,4,6-trimethyl-very-long-chain fatty acid"] null null +"Mycolipanolic-Acids" "a mycolipanolate" ["a mycolipanolic acid"] null null +"Mycolipanoyl-CoA" "a mycolipanoyl-CoA" ["a (2S,4S,6S)-2,4,6-trimethyl-very-long-chain fatty acyl-CoA"] null null +"Mycolipenic-Acids" "a mycolipenoate" ["a mycolipenic acid", "a mycothienoic acid", "a mycothienoate"] null null +"Mycolipenyl-CoA" "a mycolipenoyl-CoA" ["a (2E,2S,4S,6S)-2,4,6-trimethyl-2-enoyl-CoA"] null null +"Mycolipodienoic-Acids" "a mycolipodienoate" ["a mycolipodienoic acid", "a mycothidienoic acid", "a mycothidienoate"] null null +"Mycolyl-Arabinogalactan" "a mycolyl-arabinogalactan complex" ["a mycolylarabinogalactan", "an arabinogalactan-mycolate"] null null +"Mycoredoxin-L-cysteine" "a [mycoredoxin]-L-cysteine" [] null null +"Mycosanoic-Acids" "a mycosanoate" ["a mycosanoic acid"] null null +"Mycothiol-mycoredoxin-mixed-disulfides" "a [mycoredoxin] mycothiolyl-S-S-L-cysteine disulfide" [] null null +"Myelin-L-arginines" "[myelin basic protein]-L-arginine" [] null null +"Myelin-N-o-methyl-arginines" "[myelin basic protein]-Nω-methyl-arginine" [] null null +"MYO-INOSITOL" "myo-inositol" ["cis-1,2,3,5-trans-4,6-cyclohexanehexol", "dambose", "mesoinositol", "meso-inositol", "M-inositol", "1,2,3,5/4,6 inositol"] "C6H12O6" 180.157 +"Myo-inositol-bisphosphates" "a myo-inositol bisphosphate" [] null null +"Myo-inositol-monophosphates" "a myo-inositol monophosphate" ["an inositol monophosphate"] null null +"Myo-inositol-penta-kis-phosphates" "a myo-inositol pentakisphosphate" ["myo-inositol pentakisphosphate (mixed isomers)"] null null +"Myo-inositol-polyphosphates" "a myo-inositol-polyphosphate" [] null null +"Myo-inositol-tetra-kis-phosphates" "a myo-inositol tetrakisphosphate" [] null null +"Myo-inositol-trisphosphates" "a myo-inositol trisphosphate" [] null null +"Myristoylated-Glycine-in-Proteins" "an N-terminal N-myristoyl-glycyl-[protein]" ["a [protein] N-terminal N-myristoyl-glycine", "an N-terminal N-tetradecanoyl-glycine-[protein]"] null null +"N-23-DIHYDROXYBENZOYL-L-SERINE" "N-(2,3-dihydroxybenzoyl)-L-serine" ["2-(2,3-dihydroxybenzoyl)amino-3-hydroxy-propanoic acid", "2,3-dihydroxybenzoylserine"] "C10H10NO6" 240.192 +"N-4-aminobutylidene-eIF5A-lysine" "an [eIF5A-precursor]-N-(4-aminobutylidene)-lysine" ["an N-(4-aminobutylidene)-[eIF5A-precursor]-lysine"] null null +"N-4-aminobutylidene-enzyme-lysine" "a [deoxyhypusine synthase]-N-(4-aminobutylidene)-lysine" ["an N-(4-aminobutylidene)-[enzyme]-lysine"] null null +"N-5-PHOSPHORIBOSYL-ANTHRANILATE" "N-(5-phosphoribosyl)-anthranilate" ["N-(5-phospho-D-ribosyl)-anthranilate", "N-(5-phospho-β-D-ribosyl)-anthranilate", "5-phosphoribosyl-anthranilate", "5-P-ribosyl-anthranilate", "5'-phosphoribosyl-anthranilate", "5'-P-ribosyl-anthranilate", "N-(5-phosphoribosyl)-anthranilate"] "C12H13NO9P" 346.21 +"N-6-ISOPENTYL-ADENOSINE-37-TRNA" "N-6-isopentenyl adenosine37 in tRNA" ["a tRNA containing N-6-isopentenyl adenosine37"] null null +"N-Ac-L-Met-L-Lys-Membrane-Protein" "an N-terminal Nα-acetyl-L-methionyl-[transmembrane protein]" ["a [transmembrane protein]-N-terminal-Nα-acetyl-L-methionine"] null null +"N-Ac-L-methionyl-L-alanyl-Protein" "an N-terminal-Nα-acetyl-L-methionyl-L-alanyl-[protein]" [] null null +"N-Ac-L-methionyl-L-asparaginyl-Protein" "an N-terminal-Nα-acetyl-L-methionyl-L-asparaginyl-[protein]" ["an Nα-acetyl-L-methionyl-L-asparaginyl-[protein]"] null null +"N-Ac-L-methionyl-L-aspartyl-Protein" "an N-terminal-Nα-acetyl-L-methionyl-L-aspartyl-[protein]" [] null null +"N-Ac-L-methionyl-L-glutaminyl-Protein" "an N-terminal Nα-acetyl-L-methionyl-L-glutaminyl-[protein]" [] null null +"N-Ac-L-methionyl-L-glutamyl-Protein" "an N-terminal Nα-acetyl-L-methionyl-L-glutamyl-[protein]" [] null null +"N-Ac-L-methionyl-L-isoleucyl-Protein" "an N-terminal Nα-acetyl-L-methionyl-L-isoleucyl-[protein]" ["a [protein]-N-terminal-Nα-acetyl-L-methionyl-L-isoleucine"] null null +"N-Ac-L-methionyl-L-leucyl-Protein" "an N-terminal Nα-acetyl-L-methionyl-L-leucyl-[protein]" ["a [protein]-N-terminal-Nα-acetyl-L-methionyl-L-leucine"] null null +"N-Ac-L-methionyl-L-lysyl-Protein" "an N-terminal Nα-acetyl-L-methionyl-L-lysyl-[protein]" ["a [protein]-N-terminal-Nα-acetyl-L-methionyl-L-lysine"] null null +"N-Ac-L-methionyl-L-phenylalanyl-Protein" "an N-terminal Nα-acetyl-L-methionyl-L-phenylalanyl-[protein]" ["a [protein]-N-terminal-Nα-acetyl-L-methionyl-L-phenylalanine"] null null +"N-Ac-L-methionyl-L-seryl-Protein" "an N-terminal Nα-acetyl-L-methionyl-L-seryl-[protein]" ["a [protein]-N-terminal-Nα-acetyl-L-methionyl-L-serine"] null null +"N-Ac-L-methionyl-L-threonyl-Protein" "an N-terminal Nα-acetyl-L-methionyl-L-threonyl-[protein]" ["a [protein]-N-terminal-Nα-acetyl-L-methionyl-L-threonine"] null null +"N-Ac-L-methionyl-L-tryptophanyl-Protein" "an N-terminal Nα-acetyl-L-methionyl-L-tryptophyl-[protein]" ["a [protein]-N-terminal-Nα-acetyl-L-methionyl-L-tryptophan"] null null +"N-Ac-L-methionyl-L-tyrosinyl-Protein" "an N-terminal Nα-acetyl-L-methionyl-L-tyrosyl-[protein]" ["a [protein]-N-terminal-Nα-acetyl-L-methionyl-L-tyrosine"] null null +"N-Ac-L-methionyl-L-valyl-Protein" "an N-terminal Nα-acetyl-L-methionyl-L-valyl-[protein]" ["a [protein]-N-terminal-Nα-acetyl-L-methionyl-L-valine"] null null +"N-Ac-N-terminal-L-valine" "an N-terminal Nα-acetyl-L-valyl-[protein]" ["a [protein] N-terminal Nα-acetyl-L-valine"] null null +"N-Acetoxy-Arylamines" "an N-acetoxyarylamine" ["N-acetoxyarylamine"] null null +"N-Acetyl-2-Arylethylamines" "an N-acetyl-2-arylethylamine" [] null null +"N-ACETYL-9-O-ACETYLNEURAMINATE" "N-acetyl-9-O-acetylneuraminate" [] "C13H20NO10" 350.302 +"N-acetyl-a-D-glucosaminyl-glycoproteins" "N-acetyl-α-D-glucosaminyl-[glycoprotein]" ["N-acetyl-α-D-glucosaminyl-glycopeptide"] null null +"N-acetyl-a-D-hexosamine-1-phosphates" "an N-acetyl-α-D-hexosamine 1-phosphate" [] "C8H14NO9P" 299.174 +"N-acetyl-alpha-D-hexosamines" "an N-acetyl-α-D-hexosamine" [] "C8H15NO6" null +"N-Acetyl-alpha-D-Hexosaminides" "an N-acetyl-α-D-hexosaminide" [] null null +"N-Acetyl-Amino-Acids" "an N-acetyl L-amino acid" [] null null +"N-ACETYL-BETA-D-GLUCOSAMINYL-13-ETCETERA" "an N-acetyl-β-D-glucosaminyl-(1,3)-β-D-galactosyl-(1,4)-N-acetyl-β-D-glucosaminyl-R" ["an N-acetyl-β-D-glucosaminyl-(1→3)-β-D-galactosyl-(1→4)-N-acetyl-D-glucosaminyl-[glycoprotein]"] null null +"N-ACETYL-BETA-D-GLUCOSAMINYL-16-ETCETERA" "N-acetyl-β-D-glucosaminyl-(1→6)-β-D-galactosyl-(1→4)-N-acetyl-β-D-glucosaminyl-R" ["N-acetyl-β-D-glucosaminyl-1,6-β-D-galactosyl-1,4-N-acetyl-D-glucosaminyl-R", "blood group I antigen"] null null +"N-acetyl-beta-D-hexosamines" "an N-acetyl-β-D-hexosamine" [] "C8H15NO6" 221.21 +"N-Acetyl-beta-D-Hexosaminides" "an N-acetyl-β-D-hexosaminide" [] null null +"N-ACETYL-BETA-ETCETERA-MANNOSYL-R" "N-acetyl-β-D-glucosaminyl-(1→6)-[N-acetyl-β-D-glucosaminyl-(1→2)]-α-D-mannosyl-R" ["N-acetyl-β-D-glucosaminyl-1,6-β-D-(N-acetyl-B-glucosaminyl-1,2)-β-D-mannosyl-R", "N-acetyl-β-D-glucosaminyl-1,6-β-D-(N-acetyl-B-glucosaminyl-1,2)-β-D-mannosyl-[glycoprotein]"] null null +"N-ACETYL-D-AMINO-ACID" "an N-acetyl-D-amino acid" [] null null +"N-acetyl-D-galactosamine" "N-acetyl-D-galactosamine" ["GalNAc"] "C8H15NO6" 221.21 +"N-ACETYL-D-GALACTOSAMINYL-13-D-GALACT" "a globotetraosylceramide" ["an N-acetyl-β-D-galactosaminyl-(1,3)-α-D-galactosyl-(1,4)-β-D-galactosyl-(1,4)-β-D-glucosylceramide", "a globoside I", "a P histo-blood group antigen", "T lymphocyte macrophage-associated antigen", "TLMA", "Gb4Cer"] null null +"N-ACETYL-D-GLUCOSAMINE" "N-acetyl-β-D-glucosamine" ["NAcGlc", "N-acetylglucosamine", "N-acetyl-D-glucosamine"] "C8H15NO6" 221.21 +"N-acetyl-D-glucosamine" "N-acetyl-D-glucosamine" ["NAcGlc", "N-acetylglucosamine", "GlcNAc", "2-acetamido-2-deoxy-D-glucose"] "C8H15NO6" 221.21 +"N-ACETYL-D-GLUCOSAMINE-1-P" "N-acetyl-α-D-glucosamine 1-phosphate" [] "C8H14NO9P" 299.174 +"N-ACETYL-D-GLUCOSAMINE-16-BIS-P" "N-acetyl-D-glucosamine 1,6-bisphosphate" ["N-acetyl-D-glucosamine-1,6-P2", "N-acetyl-D-glucosamine-1,6-diphosphate"] "C8H13NO12P2" 377.138 +"N-ACETYL-D-GLUCOSAMINE-6-P" "N-acetyl-D-glucosamine 6-phosphate" ["N-acetylglucosamine-6-P", "GlcNAc-6-P", "N-acetyl-D-glucosamine-6-P", "N-acetyl-glucosamine 6-phosphate", "N-acetyl-glucosamine-6-P"] "C8H14NO9P" 299.174 +"N-ACETYL-D-GLUCOSAMINYL-ETCETERA-GLUCOSY" "an IV6-β-D-galactosaminylneolactotetraosylceramide" ["an N-acetyl-β-D-glucosaminyl-1,6-β-D-galactosyl-1,4-N-acetyl-β-D-glucosaminyl-1,3-β-D-galactosyl-1,4 β-D-glucosylceramide"] null null +"N-acetyl-D-hexosamines" "an N-acetyl-D-hexosamine" [] "C8H15NO6" 221.21 +"N-Acetyl-D-Hexosaminides" "an N-acetyl-D-hexosaminide" [] null null +"N-ACETYL-D-MANNOSAMINE" "N-acetyl-β-D-mannosamine" [] "C8H15NO6" 221.21 +"N-acetyl-D-mannosamine" "N-acetyl-D-mannosamine" [] "C8H15NO6" 221.21 +"N-ACETYL-D-MANNOSAMINE-6P" "N-acetyl-D-mannosamine 6-phosphate" ["ManNAc-6-P", "N-acetylmannosamine-6-P", "N-acetyl-mannosamine-6-P", "N-acetyl-D-mannosamine-6-P", "N-acetyl-mannosamine 6-phosphate"] "C8H14NO9P" 299.174 +"N-ACETYL-ETCETERA-GALACTOSAMINYL-R" "O-3-{N-acetyl-β-D-glucosaminyl-(1→3)-β-D-galactosyl-(1→3)-[N-acetyl-β-D-glucosaminyl-(1→6)]-N-acetyl-α-D-galactosaminyl}-L-seryl/threonyl-[protein]" ["N-acetyl-β-D-glucosaminyl-1,3-β-D-galactosyl-1,3-(N-acetyl-β-D-glucosaminyl-1,6)-N-acetyl-D-galactosaminyl-R", "N-acetyl-β-D-glucosaminyl-1,3-β-D-galactosyl-1,3-(N-acetyl-β-D-glucosaminyl-1,6)-N-acetyl-D-galactosaminyl-[glycoprotein]"] null null +"N-ACETYL-GLUTAMYL-P" "N-acetylglutamyl-phosphate" ["N-Acetyl-L-glutamyl 5-phosphate", "N-acetyl-L-glutamate-5-phosphate", "N-acetyl-glutamyl-P", "N-acetylglutamyl-P", "N-acetyl-5-glutamyl phosphate"] "C7H9NO8P" 266.124 +"N-ACETYL-O-ACETYLNEURAMINATE" "N-acetyl-O-acetylneuraminate" [] null null +"N-ACETYLANTHRANILATE" "N-acetylanthranilate" ["2-(acetylamino)-benzoate"] "C9H8NO3" 178.167 +"N-Acetylarylalkylamines" "an N-acetylarylalkylamine" [] null null +"N-acetylarylamines" "an N-acetylarylamine" [] null null +"N-Acetylated-Amino-Acids" "an N-acetylated amino acid" [] null null +"N-ACETYLNEURAMINATE" "N-acetylneuraminate" ["sialic acid", "NANA", "O-sialic acid", "sialate", "N-acetylneuraminic acid", "Neu5Ac", "5-acetamido-3,5-dideoxy-D-glycero-D-galacto-2-nonulosonic acid", "5-acetamido-3,5-dideoxy-D-glycero-D-galacto-non-2-ulopyranosonic acid"] "C11H18NO9" 308.264 +"N-ACETYLNEURAMINATE-GLYCOSIDES" "an N-acetyl-α-D-neuraminate glycoside" [] null null +"N-ACETYLNEURAMINYL-ETCETERA-GLUCOSYLCERA" "a ganglioside GD1a" ["an α-N-acetylneuraminosyl-(2→3)-β-D-galactosyl-(1→3)-N-acetyl-β-D-galactosaminyl-(1→4)-[α-N-acetylneuraminosyl-(2→3)]-β-D-galactosyl-(1→4)-β-D-glucosyl-(1↔1')-N-acylsphingosine", "an α-NeuNAc-(2→3)-β-D-Gal-(1→3)-β-D-GalNAc-(1→4)-[α-NeuNAc-(2→3)]-β-D-Gal-(1→4)-β-D-Glc-(1↔1')-Cer", "IV3Neu5AcII3Neu5AcGg4Cer"] null null +"N-ACYL-D-AMINO-ACID" "an N-acylated-D-amino acid" [] null null +"N-ACYL-D-ASPARTATE" "an N-acyl-D-aspartate" [] null null +"N-ACYL-D-GLUTAMATE" "an N-acyl-D-glutamate" [] null null +"N-ACYL-L-AMINO-ACID" "an N-acylated-L-amino acid" [] null null +"N-acyl-sphingosylphosphorylcholine" "an N-acyl-sphingosylphosphorylcholine" [] null null +"N-Acylated-Aliphatic-Amino-Acids" "an N-acylated aliphatic-L-amino acid" ["an N-acyl-aliphatic-L-amino acid"] null null +"N-Acylated-Amino-Acids" "an N-acylated amino acid" ["a N-acyl-amino acid", "an N-acyl-L-amino acid"] null null +"N-Acylated-Aromatic-Amino-Acids" "an N-acylated aromatic-L-amino acid" ["an N-acyl-aromatic-L-amino acid"] null null +"N-Acylethanolamines" "an N-acylethanolamine" ["an ethanolamide"] null null +"N-Acylphosphatidylethanolamines" "an N-acylphosphatidylethanolamine" ["NAPE"] null null +"N-Acylsphingosine" "a sphingosine ceramide" ["a sphing-4-enine ceramide", "a (4E)-sphing-4-enine ceramide"] null null +"n-Alkanals" "a 1-alkanal" ["an n-alkanal"] null null +"N-Alkylglycine" "an N-alkylglycine" [] null null +"N-Alpha-Acetylated-Amino-Acids" "an Nα-acetylated amino acid" [] null null +"N-Alpha-Acetylated-N-terminal-Amino-Acid" "an Nα-acetylated [protein] N-terminal amino acid" ["an N-terminal Nα-acetylatedamino acid-[protein]"] null null +"N-ALPHA-ACETYLORNITHINE" "N-acetyl-L-ornithine" ["N2-acetyl-ornithine", "N-α-acetylornithine", "N-acetylornithine", "acetylornithine", "N2-acetyl-L-ornithine"] "C7H14N2O3" 174.199 +"N-alpha-Acylated-L-Amino-Acids" "an N-α-acylated L-amino acid" ["an N-α-acyl-L-amino acid"] null null +"N-Alpha-Methyl-L-Amino-Acids" "an Nα-methyl L-amino acid" [] null null +"N-BROMOSUCCINIMIDE" "N-bromosuccinimide" [] "C4H4NO2Br" 177.985 +"N-Carbamoyl-D-Amino-Acids" "an N-carbamoyl D-amino acid" [] null null +"N-Carbamoyl-L-Amino-Acids" "an N-carbamoyl-L-amino acid" [] null null +"N-DELTA-PHOSPHONOACETYL-L-ORNITHINE" "N-δ-(phosphonoacetyl)-L-ornithine" [] "C7H14N2O6P" 253.171 +"N-ETHYLMALEIMIDE" "N-ethylmaleimide" ["ethylmaleimide", "maleic acid N-ethylimide", "maleimide, N-ethyl-", "N-EM", "1H-pyrrole-2,5-dione, 1-ethyl-"] "C6H7NO2" 125.127 +"N-FORMYLMETHIONINE" "N-formyl-L-methionine" ["N-formyl-methionine", "formylmethionine"] "C6H10NO3S" 176.21 +"N-gamma-Acylated-L-Amino-Acids" "an N-γ-acylated L-amino acid" ["an N-γ-acyl-L-amino acid"] null null +"N-Glycans" "an N-glycan" [] null null +"N-Glycoprotein-M-voltae" "a [M. voltae glycoprotein]-L-asparagine-[trisaccharide]" [] null null +"N-homo-methionine" "an L-polyhomomethionine" [] null null +"N-Hydroxy-Arylamines" "an N-hydroxy-arylamine" ["an N-hydroxyarylamine", "N-hydroxyarylamine"] null null +"N-Malonyl-L-Cysteine-S-Conjugate" "an N-malonyl-L-cysteine-S-conjugate" [] null null +"N-Methyl-D-Amino-Acids" "a N-methyl D-amino acid" [] null null +"N-methyl-DL-aspartate" "N-methyl-DL-aspartate" ["N-methyl-aspartic acid"] "C5H7NO4" 145.115 +"N-Methyl-L-Amino-Acids" "an N-methyl L-amino acid" [] null null +"N-Methyl-Ornithine-Lipid" "an N-methylornithine lipid" [] null null +"N-methylated-Amino-Acids" "an N-methylated amino acid" [] null null +"N-METHYLTRYPTOPHAN" "N-methyl-L-tryptophan" ["L-Abrine", "Abrine"] "C12H14N2O2" 218.255 +"N-myristoyl-lysine-in-protein" "a [glycoprotein]-N-myristoyl-L-lysine" [] null null +"N-palmitoylglycoproteins" "a [glycoprotein]-N-palmitoyl-L-lysine" [] null null +"N-pentasaccharide-protein-H-volcanii" "an [H. volcanii glycoprotein]-L-asparagine-[pentasaccharide]" ["β-D-Man-(1→2)-[methyl-O-4]-β-D-GlcA-(1→4)-α-D-GalA-(1→4)-β-D-GlcA-(1→4)-β-D-Glc-Asn-[protein]"] null null +"N-QUINOLIN-8-YLMETHANESULFONAMI" "N-(quinolin-8-yl)methanesulfonamide" [] "C10H9N2O2S" 221.253 +"N-Substituted-Amino-Acids" "an N-modified amino acid" ["an N-substituted amino acid"] null null +"N-SUCCINYL-2-AMINO-6-KETOPIMELATE" "N-succinyl-2-amino-6-ketopimelate" ["N-Succinyl-2-L-amino-6-oxoheptanedioate", "N-succinyl-L-2-amino-6-oxoheptanedioate", "succinyl-ε-keto-α-aminopimelate"] "C11H12NO8" 286.218 +"N-SUCCINYLLL-2-6-DIAMINOPIMELATE" "N-succinyl-L,L-2,6-diaminopimelate" ["N-succinyl-L-2,6-diaminoheptanedioate", "N-succinyl-LL-2,6-diaminoheptanedioate", "L,L-SDAP"] "C11H16N2O7" 288.257 +"N-sulfo-D-glucosamine" "N-sulfo-D-glucosamine" ["GlcNS", "D-N-sulfoglucosamine", "GlcN2S"] "C6H12NO8S" 258.223 +"N-terminal-Amino-Acids" "an N-terminal amino acyl-[protein]" ["a [protein] N-terminal amino acid"] null null +"N-terminal-asparagine" "an N-terminal asparaginyl-[protein]" [] null null +"N-terminal-glycine" "an N-terminal glycyl-[protein]" [] null null +"N-terminal-L-alanine" "an N-terminal L-alanyl-[protein]" ["an N-terminal [protein]-L-alanine"] null null +"N-terminal-L-alanine-sulfenate" "an N-terminal 3-sulfeno-L-alanyl-[protein]" [] null null +"N-terminal-L-cysteine" "an N-terminal L-cysteinyl-[protein]" ["an N-terminal [protein]-L-cysteine"] null null +"N-terminal-L-cysteine-sulfinate" "an N-terminal 3-sulfino-L-alanyl-[protein]" [] null null +"N-terminal-L-cysteine-sulfonate" "an N-terminal 3-sulfo-L-alanyl-[protein]" [] null null +"N-terminal-L-leucyl-L-aspartyl-Protein" "a [protein] N-terminal L-leucyl-L-aspartate" ["L-leucyl-L-aspartyl-[protein]"] null null +"N-terminal-L-leucyl-L-glutamyl-Protein" "a [protein] N-terminal L-leucyl-L-glutamate" ["L-leucyl-L-glutamyl-[protein]"] null null +"N-terminal-L-Serine" "an N-terminal L-seryl-[protein]" ["a [protein] N-terminal L-serine"] null null +"N-terminal-L-Serine-Histone-H2A" "an N-terminal-L-seryl-[histone H2A]" [] null null +"N-terminal-L-Serine-Histone-H4" "an N-terminal-L-seryl-[histone H4]" [] null null +"N-terminal-L-valine" "an N-terminal L-valyl-[protein]" ["a [protein] N-terminal L-valine"] null null +"N-terminal-N-Ac-glycine" "an N-terminal Nα-acetyl-glycyl-[protein]" ["a [protein] N-terminal Nα-acetyl-glycine"] null null +"N-terminal-N-Ac-L-alanine" "an N-terminal N-acetyl-L-alanyl-[protein]" ["a [protein] N-terminal N-acetyl-L-alanine"] null null +"N-terminal-N-Ac-L-cysteine" "an N-terminal Nα-acetyl-L-cysteinyl-[protein]" ["a [protein] N-terminal Nα-acetyl-L-cysteine"] null null +"N-terminal-N-Ac-L-methionyl-Protein" "an N-terminal-Nα-acetyl-L-methionyl-[protein]" [] null null +"N-terminal-N-Ac-L-Serine" "an N-terminal Nα-acetyl-L-seryl-[protein]" ["a [protein] N-terminal Nα-acetyl-L-serine"] null null +"N-terminal-N-Ac-L-Serine-Histone-2A" "an N-terminal Nα-acetyl-L-seryl-[histone H2A]" [] null null +"N-terminal-N-Ac-L-Serine-Histone-4" "an N-terminal Nα-acetyl-L-seryl-[histone H4]" [] null null +"N-terminal-N-alpha-acetyl-L-amino-acid" "an N-terminal Nα-acetyl-L-amino acyl-[protein]" ["a [protein] N-terminal Nα-acetyl-L-amino acid"] null null +"N-terminal-specific-UCP-E2-L-cysteine" "an [N-terminal E2 ubiquitin-conjugating enzyme]-L-cysteine" ["an [N-terminal ubiquitin-conjugating enzyme E2]-L-cysteine"] null null +"N-tetrasaccharide-protein-H-volcanii" "an [H. volcanii glycoprotein]-L-asparagine-[tetrasaccharide]" ["methyl-O-4-β-D-GlcA-(1→4)-α-D-GalA-(1→4)-β-D-GlcA-(1→4)-β-D-Glc-Asn-[protein]"] null null +"N1-ACETYLSPERMINE" "N1-acetylspermine" [] "C12H31N4O" 247.403 +"N1-ETHYLADENINE-IN-DNA" "an N1-ethyladenine in DNA" [] null null +"N1-MeAdenine57-MeAdenine58-tRNAs" "N1-methyladenine57/N1-methyladenine58 in tRNA" [] null null +"N1-METHYLADENINE" "N1-methyladenine" ["m1A"] "C6H7N5" 149.155 +"N1-Methyladenine-containing-rRNAs" "an N1-methyladenine in rRNA" ["rRNA containing N1-methyladenine"] null null +"N1-METHYLADENINE-RNA" "an N1-methyladenine in RNA" ["1-methyladenine in RNA"] null null +"N1-Methylguanine-containing-23S-rRNAs" "an N1-methylguanine in 23S rRNA" [] null null +"N1-Methylguanine-containing-rRNAs" "an N1-methylguanine in rRNA" ["rRNA containing N1-methylguanine"] null null +"N1-methylguanine2535-in-23S-rRNA" "an N1-methylguanine2535 in 23S rRNA" [] null null +"N2-8-dimethyladenine-containing-rRNAs" "a 2,8- dimethyladenine in rRNA" ["an rRNA containing 2,8- dimethyladenine"] null null +"N2-Methyladenine-containing-rRNAs" "a 2-methyladenine in rRNA" [] null null +"N2-Methylguanine-containing-16SrRNAs" "an N2-methylguanine in 16S rRNA" ["a 16S rRNA containing N2-methylguanine"] null null +"N2-MethylGuanines-containing-23SrRNAs" "an N2-methylguanine in 23S rRNA" ["a 23SrRNA containing N2-methylguanine"] null null +"N2-SUCCINYLGLUTAMATE" "N2-succinylglutamate" ["N2-Succinyl-L-glutamate", "N2-succinylglutamatic acid", "N2-succinylglutamic acid"] "C9H10NO7" 244.18 +"N2-SUCCINYLORNITHINE" "N2-succinyl-L-ornithine" ["N2-succinylornithine"] "C9H15N2O5" 231.228 +"N3-Acetal-deoxystreptamine-antib" "an N3-acetyl-2-deoxystreptamine antibiotic" [] null null +"N3-Methylated-pseudoU-containing-rRNAs" "an N3-methyl pseudouridine in rRNA" [] null null +"N3-Methylcytosine-32-tRNA-Sers" "an N3-methylcytosine32 in tRNASer" [] null null +"N3-Methylcytosine-32-tRNA-Thr" "an N3-methylcytosine32 in tRNAthr" [] null null +"N3-METHYLCYTOSINE-RNA" "an N3-methylcytosine in RNA" ["3-methylcytosine in RNA"] null null +"N3-Methyluracil-containing-rRNAs" "an N3-methyluracil in rRNA" ["an rRNA containing N3-methyluracil"] null null +"N3-O-disulfo-D-glucosamine" "N,3-O-disulfo-D-glucosamine" [] "C6H11NO11S2" 337.273 +"N4-Methylcytosine-Containing-rRNAs" "an N4-methylcytosine in rRNA" ["an N4-methylcytosine-containing rRNA"] null null +"N4-N-ACETYL-BETA-D-GLUCOSAMINYL-F" "a β-D-GlcNAc-(1→2)-α-D-Man-(1→3)-[β-D-GlcNAc-(1→2)-α-D-Man-(1→6)]-[β-D-Xyl-(1→2)]-β-D-Man-(1→4)-β-D-GlcNAc-(1→4)-[α-L-Fuc-(1→3)]-β-D-GlcNAc}-N-Asn-[protein]" [] null null +"N4-N-ACETYL-BETA-D-GLUCOSAMINYL-F6" "an N4-{β-D-GlcNAc-(1→2)-α-D-Man-(1→3)-[β-D-GlcNAc-(1→2)-α-D-Man-(1→6)]-β-D-Man-(1→4)-β-D-GlcNAc-(1→4)-[α-L-Fuc-(1→6)]-β-D-GlcNAc}-N-Asn-[protein]" ["an N4-{N-acetyl-β-D-glucosaminyl-(1,2)-α-D-mannosyl-(1,3)-[N-acetyl-β-D-glucosaminyl-(1,2)-α-D-mannosyl-(1,6)]-β-D-mannosyl-(1,4)-N-acetyl-β-D-glucosaminyl-(1,4)-[α-L-fucosyl-(1,6)]-N-acetyl-β-D-glucosaminyl}-N-Asn-[protein]", "Man3FucGlcNAc4-[protein]"] null null +"N4-N-ACETYL-BETA-D-GLUCOSAMINYL-X" "a β-D-GlcNAc-(1→2)-α-D-Man-(1→3)-[β-D-GlcNAc-(1→2)-α-D-Man-(1→6)]-[β-D-Xyl-(1→2)]-β-D-Man-(1→4)-β-D-GlcNAc-(1→4)-β-D-GlcNAc}-N-Asn-[protein]" ["GnGnX-glycopeptide", "GnGnX-GP", "an N4-{N-acetyl-β-D-glucosaminyl-(1,2)-α-D-mannosyl-(1,3)-[N-acetyl-β-D-glucosaminyl-(1,2)-α-D-mannosyl-(1,6)]-[β-D-xylosyl-(1,2)]-β-D-mannosyl-(1,4)-N-acetyl-β-D-glucosaminyl-(1,4)-N-acetyl-β-D-glucosaminyl}-L-asparagine-[protein]"] null null +"N4-N-ACETYL-BETA-D-GLUCOSAMINYL-XF" "a β-D-GlcNAc-(1→2)-α-D-Man-(1→3)-[β-D-GlcNAc-(1→2)-α-D-Man-(1→6)]-[β-D-Xyl-(1→2)]-β-D-Man-(1→4)-β-D-GlcNAc-(1→4)-[α-L-Fuc-(1→3)]-β-D-GlcNAc}-N-Asn-[protein]" [] null null +"N5-ACYL-L-ORNITHINE" "an N5-acyl-L-ornithine" [] null null +"N5-ACYL-L-ORNITHINE-ESTER" "an N5-acyl-L-ornithine-ester" [] null null +"N5-Formyl-THF-Glu-N" "a (6S)-5-formyltetrahydrofolate" ["a folinic acid", "an (6S)-N5-formyltetrahydrofolate"] null null +"N5-METHYLGLUTAMINE" "N5-methyl-L-glutamine" ["γ-L-glutamyl methylamide", "N5-methyl-L-glutamine", "(2S)-2-amino-5-(methylamino)-5-oxopentanoate"] "C6H12N2O3" 160.172 +"N6-Alkylaminopurine" "an N6-alkylaminopurine" [] null null +"N6-Alkylaminopurine-glucoside" "an N6-alkylaminopurine-7-β-D-glucoside" [] null null +"N6-dimethyladenine-containing-rRNAs" "an N6-dimethyladenine in rRNA" ["an rRNA containing N6-dimethyladenine"] null null +"N6-L-threonylcarbamoyladenine37-tRNAs" "an N6-L-threonylcarbamoyladenine37 in tRNA" [] null null +"N6-met-threonylcarbamoyl-A37-tRNAs" "an N6-methyl-threonylcarbamoyladenosine 37 in tRNA" ["m6t6A37 tRNA"] null null +"N6-Methyladenine-containing-mRNAs" "an N6-methyladenine in mRNA" ["mRNA containing N6-methyladenine", "a 6-methylaminopurine in mRNA"] null null +"N6-Methyladenine-containing-rRNAs" "an N6-methyladenine in rRNA" ["rRNA containing N6-methyladenine", "a 6-methylaminopurine in rRNA"] null null +"N6-Methyladenine-U6-snRNA" "an N6-methyladenine in a U6 snRNA" [] null null +"N6-O-disulfo-D-glucosamine" "N,6-O-disulfo-D-glucosamine" ["N2-,6-disulfo-D-glucosamine"] "C6H11NO11S2" 337.273 +"N6-Pup-gamma-L-glutamyl-protein-L-lysine" "N6-([prokaryotic ubiquitin-like protein]-γ-L-glutamyl)-[protein]-L-lysine" [] null null +"N6N6-Dimethyladenine-Containing-rRNAs" "an N6,N6-dimethyladenine in rRNA" [] null null +"N7-Methylguanine-containing-16SrRNAs" "an N7-methylguanine in 16S rRNA" ["a 16S rRNA containing N7-methylguanine"] null null +"N7-Methylguanine-containing-rRNAs" "an N7-methylguanine in rRNA" ["an rRNA containing N7-methylguanine"] null null +"N7-METHYLGUANINE-IN-DNA" "an N7-methylguanine in DNA" ["N7-deoxymethylguanosine-DNA", "d7mG-DNA"] null null +"N7-methylGuanine1575-in-18StRNAs" "an N7-methylguanine1575 in 18S rRNA" [] null null +"N7-Methylguanosine-containing-rRNAs" "a 7-methylguanosine in rRNA" [] null null +"N8-Methyladenine-containing-rRNAs" "an 8-methyladenine in rRNA" [] null null +"NA+" "Na+" ["sodium(I)", "NaI"] "Na" 22.99 +"NA2SO4" "sodium sulfate" [] "Na2(SO4)" 142.038 +"NAc-glucosaminyl-b-D-mannosyl-R" "N-acetyl-β-D-glucosaminyl-(1→4)-β-D-mannosyl-[glycoprotein]" ["4-(N-acetyl-β-D-glucosaminyl)-β-D-mannosyl-R", "4-(N-acetyl-β-D-glucosaminyl)-β-D-mannosyl-[glycoprotein]"] null null +"NACL" "sodium chloride" [] "NaCl" 58.443 +"NACMUR" "N-acetyl-D-muramate" ["2-acetamido-3-O-(D-1-carboxyethyl)-2-deoxy-beta-D-glucose", "MurNAc", "N-acetylmuramic acid", "NAcMur", "2-[3-acetylamino-2,5-dihydroxy-6-(hydroxymethyl)tetrahydropyran-4-yl]oxypropanoic acid", "N-acetyl-D-muramic acid"] "C11H18NO8" 292.265 +"NAcMur-4Peptide-NAcGlc-Undecaprenols" "a N-acetylglucosamine--N-acetylmuramyl-(tetrapeptide) pyrophosphoryl-undecaprenol" ["a GlcNAc-(1->4)-MurNAc-tetrapeptide-diphosphoundecaprenol"] null null +"NAcMur-Peptide-NAcGlc-Undecaprenols" "a lipid II" ["a peptidoglycan monomer", "an undecaprenyldiphospho-N-acetyl-(N-acetylglucosaminyl)muramoyl peptide", "an undecaprenyldiphospho-4-O-(N-acetyl-β-D-glucosaminyl)-3-O-peptidyl-α-N-acetylmuramate"] null null +"NAcMur-Peptide-Undecaprenols" "a N-acetylmuramoyl-pentapeptide-diphosphoundecaprenol" ["lipid I"] null null +"NAD" "NAD+" ["NAD+", "beta-nicotinamide adenine dinucleotide", "coenzyme I", "diphosphopyridine nucleotide", "diphosphopyridine nucleotide oxidized", "nicotinamide adenine dinucleotide", "nicotinamide adenine dinucleotide oxidized", "NAD-oxidized", "NAD-ox", "DPN+", "DPN-ox", "DPN", "β-nicotinamide adenine dinucleotide", "NAD", "β-NAD+"] "C21H26N7O14P2" 662.422 +"NAD-P-OR-NOP" "NAD(P)+" ["NAD(P)", "NAD(P)+", "β-NAD(P)+"] null null +"NADH" "NADH" ["NADH2", "NADH2", "dihydrodiphosphopyridine nucleotide", "diphosphopyridine nucleotide reduced", "dihydronicotinamide adenine dinucleotide", "nicotinamide adenine dinucleotide reduced", "NAD-reduced", "NADH+H+", "DPNH", "β-NADH"] "C21H27N7O14P2" 663.43 +"NADH-P-OR-NOP" "NAD(P)H" ["β-NAD(P)H"] null null +"NADHX" "NADHX" [] "C21H29N7O15P2" 681.445 +"NADP" "NADP+" ["coenzyme II", "triphosphopyridine nucleotide", "nicotinamide adenine dinucleotide phosphate", "NADP-oxidized", "NADP-ox", "TPN", "TPN+", "TPN-ox", "nicotinamide adenine dinucleotide-P", "NADP(+)", "NADP", "β-NADP+"] "C21H25N7O17P3" 740.386 +"NADPH" "NADPH" ["reduced nicotinamide adenine dinucleotide phosphate", "NADPH2", "NADPH2", "dihydrotriphosphopyridine nucleotide", "reduced dihydrotriphosphopyridine nucleotide", "dihydronicotinamide adenine dinucleotide phosphate", "dihydronicotinamide adenine dinucleotide phosphate reduced", "reduced NADP", "NADP-red", "TPNH", "dihydronicotinamide adenine dinucleotide-P", "β-NADPH"] "C21H26N7O17P3" 741.394 +"NADPHX" "NADPHX" [] "C21H28N7O18P3" 759.41 +"NaF" "sodium fluoride" ["NaF"] "NaF" 41.988 +"NAIR" "4-nitro-5-aminoimidazole ribonucleotide" ["NAIR"] "C7H10N4O9P" 325.151 +"NCCS" "a nonfluorescent chlorophyll catabolite" ["NCCs"] null null +"NDP-26-dideoxy-D-threo-4-hexulose" "an NDP-2,6-dideoxy-D-threo-4-hexulose" [] null null +"NDP-26-dideoxy-L-erythro-4-hexulose" "an NDP-2,6-dideoxy-L-erythro-4-hexulose" [] null null +"NDP-34-didehydro-26-dideoxy-D-glucose" "an NDP-3,4-didehydro-2,6-dideoxy-α-D-glucose" [] null null +"NDP-4-dehydro-26-dideoxy-D-glucose" "an NDP-4-dehydro-2,6-dideoxy-α-D-glucose" ["an NDP-4-keto-2,6-dideoxy-α-D-glucose", "an NDP-4-oxo-2,6-dideoxy-α-D-glucose"] null null +"NDP-4-dehydro-6-deoxy-D-glucose" "an NDP-4-dehydro-6-deoxy-α-D-glucose" ["an NDP-4-keto-6-deoxy-α-D-glucose", "an NDP-4-oxo-6-deoxy-α-D-glucose"] null null +"NDP-alpha-D-glucoses" "an NDP-α-D-glucose" ["nucleoside diphosphate-α-D-glucose", "a nucleoside diphosphate-α-D-glucose"] null null +"NDP-glucoses" "a nucleoside diphosphate-glucose" ["a nucleoside diphosphate-glucose", "nucleoside diphosphate-glucose", "an NDP-glucose"] null null +"NDP-HEXOSE" "a nucleoside diphosphate-hexose" ["an NDP-hexose"] null null +"NDP-sugars" "an NDP-sugar" ["a nucleoside diphosphate sugar"] null null +"NEDD8-Activating-Enzyme-E1-L-cys" "an [E1 NEDD8-activating enzyme]-L-cysteine" [] null null +"NEDD8-conjugating-proteins-E2-L-cys" "an [E2 NEDD8-conjugating enzyme]-L-cysteine" [] null null +"Negatively-charged-polar-amino-acids" "a negatively-charged polar amino acid" [] null null +"Neoagaro-oligosaccharides" "a neoagaro-oligosaccharide" [] null null +"Neolacto-Series-GSLs" "a neolacto-series glycosphingolipid" [] null null +"Neolactopentaosylceramides" "a neolactopentaosylceramide" ["N-acetyl-D-glucosaminyl-1,3-β-D-galactosyl-1,4-N-acetyl-β-D-glucosaminyl-1,3-β-D-galactosyl-1,4-β-D-glucosyceramide", "an IV3-β-D-galactosaminylneolactotetraosylceramide", "an N-acetyl-β-D-glucosaminyl-(1-3)-β-D-galactosyl-(1,4)-N-acetyl-β-D-glucosaminyl-(1-3)-β-D-galactosyl-1,4-β-D-glucosyl-(1↔1)-ceramide", "an N-acetyl-β-D-glucosaminyl-1,3-β-D-galactosyl-1,4-N-acetyl-β-D-glucosaminyl-1,3-β-D- galactosyl-1,4-β-D-glucosylceramide", "an N-acetyl-β-D-glucosaminyl-1,3-β-D-galactosyl-1,4-N-acetyl-β-D-glucosaminyl-1,3-β-D-galactosyl-1,4-β-D-glucosyl-(1↔1)-ceramide", "an N-acetyl-β-D-glucosaminyl-(1→3)-β-D-galactosyl-(1→4)-N-acetyl-β-D-glucosaminyl-(1→3)-β-D-galactosyl-(1→4)-β-D-glucosyl-(1↔1)-ceramide", "a β-D-GlcNAc-(1→3)-β-D-Gal-(1→4)-β-D-GlcNAc-(1→3)-β-D-Gal-(1→4)-β-D-Glc-(1↔1)-ceramide", "a lacto-N-neopentaosylceramide", "a lactoneopentaosylceramide", "nLc5", "nLc5Cer"] null null +"Neomycins" "a neomycin" [] null null +"Neopterins" "a neopterin" [] "C9H11N5O4" null +"Neutral-Amino-Acids" "a neutral amino acid" [] null null +"NH42SO4" "ammonium sulfate" [] "(NH4)2(SO4)" 132.134 +"NH4CL" "ammonium chloride" [] "(NH4)Cl" 53.491 +"NI+2" "Ni2+" ["nickel(II)", "Ni++", "NiII"] "Ni" 58.7 +"Ni-Fe-S-Clusters" "a nickel-iron-sulfur cluster" ["[NiFe]-(CN)2CO", "Ni-Fe active site", "Ni-Fe bimetallic cofactor", "an NiFeS center", "an NiFeS cluster", "an [NiFeS] cluster"] null 87.907 +"NIACINAMIDE" "nicotinamide" ["6-aminonicotinamide", "vitamin PP", "niacinamide", "nicotinic acid amide"] "C6H6N2O" 122.126 +"NIACINE" "nicotinate" ["3-pyridinecarboxylic acid", "nicotinic acid", "wampocap", "nicolar", "nicocap", "nicobid", "nico-400-", "nicamin", "niacin", "niacine", "vitamin B3", "3-pyridinecarboxylate", "pyridine-3-carboxylate"] "C6H4NO2" 122.103 +"Nicotinamide-Mononucleotides" "a nicotinamide mononucleotide" [] null null +"NICOTINAMIDE_NUCLEOTIDE" "β-nicotinamide D-ribonucleotide" ["β-nicotinamide mononucleotide", "β-nicotinamide ribonucleotide", "β-nicotinamide nucleotide"] "C11H14N2O8P" 333.214 +"NICOTINAMIDE_RIBOSE" "1-(β-D ribofuranosyl)nicotinamide" ["β-nicotinamide D-ribonucleotide", "N-ribosyl-nicotinamide", "nicotinamide ribonucleoside", "nicotinamide ribose", "nicotinamide riboside", "ribosylnicotinamide", "nicotinamide-β-riboside"] "C11H15N2O5" 255.25 +"NICOTINATE_NUCLEOTIDE" "β-nicotinate D-ribonucleotide" ["nicotinate dinucleotide", "β-nicotinate-D-nucleotide", "nicotinic acid nucleotide", "nicotinic acid mononucleotide", "nicotinic acid ribonucleotide", "nicotinate-D-ribonucleotide", "nicotinate ribonucleotide", "nicotinate nucleotide", "deamido-nicotinamide mononucleotide", "deamido-NMN", "nicotinate D-ribonucleotide", "nicotinate mononucleotide", "NaMN"] "C11H12NO9P" 333.191 +"NiFe-Clusters" "an [NiFeS] cluster" ["[NiFe]-(CN)2CO", "Ni-Fe active site", "Ni-Fe bimetallic cofactor", "an NiFeS center", "an NiFeS cluster", "a nickel-iron-sulfur cluster"] null 87.907 +"Nigerans" "nigeran" ["mycodextran"] null null +"NITRATE" "nitrate" ["NO3", "NO3-"] "NO3" 62.005 +"NITRIC-OXIDE" "nitric oxide" ["NO", "nitrogen monoxide", "nitrogen protoxide"] "NO" 30.006 +"Nitriles" "a nitrile" ["nitrile", "R-CN", "a nitrile"] null null +"NITRITE" "nitrite" ["NO2", "NO2-"] "NO2" 46.005 +"Nitroalkanes" "a nitroalkane" [] null null +"Nitroaromatic-Compounds" "a nitroaromatic compound" [] null null +"Nitroaromatic-Ox-Compounds" "an oxidized nitroaromatic compound" ["nitroaromatic compoundox"] null null +"Nitroaromatic-Red-Compounds" "a reduced nitroaromatic compound" ["nitroaromatic compoundred"] null null +"Nitrogen-Molecular-Entities" "a nitrogen molecular entity" [] null null +"Nitrohydrocarbons" "a nitrohydrocarbon" [] null null +"Nitroso-Compounds" "a nitroso compound" [] null null +"NITROUS-OXIDE" "nitrous oxide" ["N2O"] "N2O" 44.013 +"NMNH" "reduced β-nicotinamide D-ribonucleotide" ["nicotinamide mononucleotide (reduced)", "NMNH"] "C11H15N2O8P" 334.222 +"NMP-Sugars" "an NMP-sugar" ["a nucleoside monophosphate sugar"] null null +"NN-DIACETYLCHITOBIOSYLDIPHOSPHODOLICHO" "N-acetyl-β-D-glucosaminyl-(1→4)-N-acetyl-α-D-glucosaminyl-diphosphodolichol" ["an {N-acetyl-β-D-glucosaminyl-(1->4)-N-acetyl-α-D-glucosaminyl}diphosphodolichol", "an N,N'-diacetylchitobiosyldiphosphodolichol", "a chitobiosyldiphosphodolichol", "chitobiosyldiphosphodolichol", "N,N'-diacetylchitobiosyldiphosphodolichol", "an (N-acetylglucosaminyl)2-diphosphodolichol"] "C96H158N2O17P2" 1674.255 +"NN-Dimethyl-Ornithine-Lipid" "an N,N-dimethylornithine lipid" [] null null +"NNN-Trimethyl-Ornithine-Lipid" "an N,N,N-trimethylornithine lipid" [] null null +"No-Alkenyl-Thiohydroximate-O-Sulfates" "an aliphatic thiohydroximate-O-sulfate without a terminal alkene" [] null null +"NOCARDICIN-A" "nocardicin A" ["(2R)-2-amino-4-{4-[(1E)-{[(3S)-1-[(R)-carboxy(4-hydroxyphenyl)methyl]-2-oxoazetidin-3-yl]carbamoyl}(hydroxyimino)methyl]phenoxy}butanoate"] "C23H23N4O9" 499.456 +"Nocardicins" "a nocardicin" [] null null +"Non-Acetylated-Acetyl-Acceptors" "a non-acetylated acetyl acceptor donor" ["a non-acetylated acetyl acceptor"] null null +"Non-alpha-amino-acids" "a non-α amino acid" [] null null +"Non-D-Ala-Teichoic-Acid" "a non-D-alanylated teichoic acid precursor" [] null null +"Non-Fucosylated-Fucose-Acceptors" "a non fucosylated fucose acceptor" [] null null +"Non-Galactosylated-Galactose-Acceptors" "a non galactosylated galactose acceptor" [] null null +"Non-Glucosylated-Glucose-Acceptors" "a non glucosylated D-glucose acceptor" ["a non glucosylated D-glucose donor"] null null +"Non-Glucur-Glucuronoside-Acceptors" "a non-glucuronated glucosyluronate acceptor" [] null null +"Non-Glutamylated-Glutamyl-Acceptors" "a non-glutamylated glutamyl acceptor" [] null null +"Non-Glycosylated-sugar-Acceptors" "a non glycosylated sugar acceptor" ["a non glycosylated sugar donor"] null null +"Non-Metabolic-Compounds" "a non-metabolic compound" [] null null +"Non-polar-amino-acids" "a non-polar amino acid" [] null null +"Non-Rhamonsylated-Rhamnosyl-Acceptors" "a non rhamnosylated rhamnosyl acceptor" ["a non rhamnosylated rhamnosyl donor"] null null +"Non-standard-amino-acids" "a non-proteinogenic α-amino acid" ["a non-standard α amino acid"] null null +"Nonionic-Detergents" "a nonionic detergent" [] null null +"Nonribosomal-Peptides" "a non-ribosomal peptide" [] null null +"NRPS-Group" "[non-ribosomal peptide synthase] group" [] null null +"nu-Carrageenan" "ν-carrageenan" [] null null +"Nucleobase-analogues" "a nucleobase analogue" [] null null +"Nucleobases-in-DNA" "a nucleobase within DNA" [] null null +"Nucleobases-in-mRNA" "a nucleobase within mRNA" [] null null +"Nucleobases-in-Nucleic-Acids" "a nucleobase within a nucleic acid" [] null null +"Nucleobases-in-RNA" "a nucleobase within RNA" [] null null +"Nucleobases-in-tRNA" "a nucleobase within tRNA" [] null null +"Nucleoside-3-5-bisphosphate" "a nucleoside 3',5'-bisphosphate" [] null null +"Nucleoside-Diphosphates" "a nucleoside diphosphate" ["NDP"] null null +"Nucleoside-Diphosphocholines" "a nucleoside diphosphocholine" [] null null +"Nucleoside-Monophosphates" "a nucleoside 5'-monophosphate" ["mononucleotide", "a nucleoside 5'-phosphate", "NMP", "a nucleoside monophosphate"] null null +"Nucleoside-Phosphate-Groups" "a nucleoside phosphate group" [] null null +"Nucleoside-Triphosphates" "a nucleoside triphosphate" ["NTP", "a nucleoside 5'-triphosphate"] null null +"Nucleosides" "a nucleoside" ["nucleoside"] null null +"Nucleosides-Analogues" "a nucleoside analog" [] null null +"Nucleosides-in-Nucleic-Acids" "a nucleoside within nucleic acids" [] null null +"NUCLEOTIDE-SUGARS" "a nucleotide sugar" [] null null +"Nucleotides" "a nucleotide" ["nucleotide", "a nucleoside phosphate"] null null +"Nucleotides-in-Nucleic-Acids" "a nucleotide within nucleic acids" [] null null +"NUKED-PENTOSE-RING" "nt-pentose-ring" [] "C5H10O4" 134.132 +"Nylon-6" "nylon-6 polymer" [] null null +"O-acetyl-ADP-riboses" "an O-acetyl-ADP-ribose" ["OAADPr"] null null +"O-Acetylated-Amino-Acids" "an O-acetylated amino acid" [] null null +"O-Acyl-L-Carnitines" "an O-acyl-L-carnitine" [] null null +"O-acylpseudotropines" "an O-acylpseudotropine" [] null null +"O-acyltropines" "an O-acyltropine" [] null null +"O-ALKYLGLYCERONE" "an O-alkylglycerone" [] null null +"O-Antigens" "an O-antigen" ["an O-specific polysaccharide", "an O polysaccharide", "an O side-chain"] null null +"O-D-MANNOSYL-PROTEIN" "a 3-O-(α-D-mannosyl)-(Ser/Thr)-[protein]" ["a [protein]-O-D-mannosyl-(L-serine/L-threonine)"] null null +"O-DGAL-HEX-0:0_1:ALDI" "o-dgal-HEX-0:0|1:aldi" ["D-Gal-ol"] null null +"O-Glucosylsterols" "a sterol 3-glucoside" ["a sterol 3-b-D-glucoside", "a sterol 3-D-glucoside", "an O-glucosylsterol"] null null +"O-Glycans" "an O-glycan" [] "C82H137N6O60NAc5N" null +"O-Long-Chain-Acyl-L-Carnitines" "an O-(long-chain-acyl)-L-carnitine" [] null null +"O-Medium-Chain-Acyl-L-Carnitines" "an O-medium-chain-acyl-L-carnitine" [] null null +"O-Methylated-Amino-Acids" "an O-methylated amino acid" ["an O-methyl amino acid", "an amino acid methyl-ester"] null null +"O-N-acetylgalactosamine-Glycans" "an O-(N-acetylgalactosamine) glycan" [] null null +"O-PHENANTHROLINE" "o-phenanthroline" ["1,10-phenanthroline", "1,10-fenanthroline", "1,10-o-phenanthroline", "2-phenanthroline", "orthophenanthroline", "β-phenanthroline"] "C12H8N2" 180.209 +"O-PHOSPHO-L-HOMOSERINE" "O-phospho-L-homoserine" ["o-phosphohomoserine"] "C4H8NO6P" 197.084 +"O-phospho-phospho-alpha-glucans" "3-O-phospho-[6-O-phospho-α-glucan]" [] null null +"O-Short-Chain-Acyl-L-Carnitines" "an O-short-chain-acyl-L-carnitine" [] null null +"O-SUCCINYL-L-HOMOSERINE" "O-succinyl-L-homoserine" ["O-succinyl-homoserine", "succinyl-homoserine"] "C8H12NO6" 218.186 +"O-SUCCINYLBENZOATE" "2-succinylbenzoate" ["o-succinyl-benzoate", "2-succinyl-benzoate", "o-succinylbenzoate", "4-(2-carboxyphenyl)-4-oxobutanoate"] "C11H8O5" 220.181 +"OCTANOL" "octan-1-ol" ["1-octanol", "caprylic alcohol", "N-octanol", "octyl-alcohol", "N-octyl-alcohol", "octanol"] "C8H18O" 130.23 +"Octanoylated-domains" "a [lipoyl-carrier protein] N6-octanoyl-L-lysine" ["an octanoylated protein lipoyl-domain"] null null +"Octanoylated-Gcv-H" "a [glycine-cleavage complex H protein] N6-octanoyl-L-lysine" [] null null +"Octanoylated-PqsC" "a [PqsC protein]-S-octanoyl-L-cysteine" [] null null +"OCTAPRENYL-DIPHOSPHATE" "all-trans-octaprenyl diphosphate" ["farnesylfarnesylgeranyl-PP", "octaprenyl pyrophosphate", "OPP", "farnesylfarnesylgeraniol", "octaprenyl diphosphate"] "C40H65O7P2" 719.897 +"OCTAPRENYL-METHOXY-BENZOQUINONE" "2-methoxy-6-all trans-octaprenyl-1,4-benzoquinol" ["2-octaprenyl-6-methoxy-benzene-1,4-diol", "2-octaprenyl-6-methoxyhydroquinone", "2-octaprenyl-6-methoxyquinol"] "C47H72O3" 685.084 +"OCTAPRENYL-METHYL-METHOXY-BENZQ" "6-methoxy-3-methyl-2-all-trans-octaprenyl-1,4-benzoquinol" ["2-octaprenyl-3-methyl-6-methoxy-1,4-benzenediol", "6-methoxy-3-methyl-2-octaprenylquinol", "2-octaprenyl-3-methyl-6-methoxyhydroquinone", "2-octaprenyl-3-methyl-6-methoxyquinol"] "C48H74O3" 699.111 +"OCTAPRENYL-METHYL-OH-METHOXY-BENZQ" "3-demethylubiquinol-8" ["2-octaprenyl-3-methyl-5-hydroxy-6-methoxy-1,4-benzoquinol", "OMHMB", "2-octaprenyl-3-methyl-5-hydroxy-6-methoxy-1,4-benzoquinone"] "C48H74O4" 715.11 +"Octoses" "an octose" [] null null +"Odd-Saturated-Fatty-Acyl-CoA" "an odd numbered straight chain 2,3,4-saturated fatty acyl CoA" [] null null +"Odd-Straight-Chain-234-Sat-FA" "an odd numbered straight chain 2,3,4-saturated fatty acid" [] null null +"Odd-Straight-Chain-234-Sat-FALD" "an odd numbered straight chain 2,3,4-saturated fatty aldehyde" [] null null +"OH" "OH-" ["hydroxyl", "hydroxyl ion", "OH", "hydroxide", "hydroxide ion"] "HO" 17.007 +"OH-HEXANOYL-COA" "(S)-3-hydroxyhexanoyl-CoA" ["OH-hexanoyl-CoA", "3-OH-hexanoyl-CoA"] "C27H42N7O18P3S" 877.646 +"OH-MYRISTOYL" "UDP-2-N,3-O-bis[(3R)-3-hydroxytetradecanoyl]-α-D-glucosamine" ["UDP-2,3-bis(3-hydroxytetradecanoyl)glucosamine", "UDP-2,3-diacyl-glucosamine", "UDP-2,3-bis(3-hydroxymyristoyl)glucosamine", "UDP-2,3-bis[(3R)-3-hydroxymyristoyl]-α-D-glucosamine", "UDP-2,3-bis[O-(3R)-3-hydroxymyristoyl]-α-D-glucosamine"] "C43H75N3O20P2" 1016.021 +"OH-PYR" "hydroxypyruvate" ["β-hydroxypyruvate", "OH-pyruvate", "OH-pyr", "3-hydroxypyruvate", "hydroxypyruvic acid", "3-hydroxy-2-oxopropanoic acid", "3-hydroxy-2-oxopropanoate"] "C3H3O4" 103.054 +"OHyW-58-tRNAPhe" "7-[4-methoxy-(2-hydroxy-3-amino-3-carboxypropyl)]-wyosine37 in tRNAPhe" ["OHyW-58 in tRNAPhe"] null null +"OHyW-tRNAPhe" "2-hydroxy-wybutosine37 in tRNAPhe" ["OHyW in tRNAPhe"] null null +"OHyWstar-tRNA" "7-(2-hydroxy-3-amino-3-carboxypropyl)-wyosine37 in tRNAPhe" ["OHyW* in tRNAPhe"] null null +"Oleandrose" "oleandrose" [] null null +"Oleanonic-acid-type-ginsenosides" "an oleanonic-acid-type saponin ginsenoside" [] null null +"OLEATE-CPD" "oleate" ["oleic acid", "(9Z)-octadec-9-enoate", "(9Z)-octadecenoate", "(9Z)-octadecenoic acid", "(9Z)-octadec-9-enoic acid", "(Z)-octadec-9-enoic acid", "18:1 n-9", "18:1Δ9cis", "C18:1 n-9", "cis-9-octadecenoic acid", "cis-Δ9-octadecenoic acid", "cis-oleic acid", "octadec-9-enoic acid", "octadecenoate (n-C18:1)", "9-octadecenoic acid"] "C18H33O2" 281.457 +"Olefins" "an olefin" [] null null +"OLEOYL-COA" "oleoyl-CoA" ["oloeyl-CoA (cis)", "cis-octadec-9-enoyl-CoA", "(9Z)-octadec-9-enoyl-CoA", "18:1 cis-9", "18:1(n-9)"] "C39H64N7O17P3S" 1027.953 +"Oleoyl-lipid" "a [glycerolipid]-oleate" ["an oleoyl-[glycerolipid]"] null null +"Oligodeoxyribonucleotides" "an oligodeoxyribonucleotide" [] null null +"Oligomers-Of-16beta-D-Glucans" "a (1→6)-β-linked oligosaccharide" [] null null +"Oligomers-Of-Galactosamines" "an oligomer of galactosamine" [] null null +"Oligonucleotides" "a double-stranded oligonucleotide" ["an oligonucleotide(n-1)", "an oligonucleotide(n+1)", "an oligonucleotide(n)", "a ds oligonucleotide"] null null +"OLIGOPEPTIDES" "an oligopeptide" [] null null +"OLIGOPHOSPHATE" "an oligophosphate" [] null null +"Oligoribonucleotides" "an oligoribonucleotide" [] null null +"OLIGOSACCHARIDE-DIPHOSPHODOLICHOL" "dolichyl diphosphooligosaccharide" ["a (glucosyl)3-(mannosyl)9-(N-acetylglucosaminyl)2-diphosphodolichol", "a dolichyl diphosphooligosaccharide", "an {α-D-glucosyl-(1->2)-α-D-glucosyl-(1->3)-α-D-glucosyl-(1->3)-α-D-mannosyl-(1->2)-α-D-mannosyl-(1->2)-α-D-mannosyl-(1->3)-[α-D-mannosyl-(1->2)-α-D-mannosyl-(1->3)-[α-D-mannosyl-(1->2)-α-D-mannosyl-(1,6)]-α-D-mannosyl-(1,6)]-β-D-mannosyl-(1->4)-N-acetyl-β-D-glucosaminyl-(1->4)-N-acetyl-D-glucosaminyl}diphosphodolichol", "a (glucosyl)3-(mannosyl)9-(N-acetylglucosaminyl)2-PP-Dol", "(glucosyl)3-(mannosyl)9-(N-acetylglucosaminyl)2-PP-Dol", "{α-D-glucosyl-(1->2)-α-D-glucosyl-(1->3)-α-D-glucosyl-(1->3)-α-D-mannosyl-(1->2)-α-D-mannosyl-(1->2)-α-D-mannosyl-(1->3)-[α-D-mannosyl-(1->2)-α-D-mannosyl-(1->3)-[α-D-mannosyl-(1->2)-α-D-mannosyl-(1,6)]-α-D-mannosyl-(1,6)]-β-D-mannosyl-(1->4)-N-acetyl-β-D-glucosaminyl-(1->4)-N-acetyl-D-glucosaminyl}diphosphodolichol", "an oligosaccharide-diphosphodolichol", "(glucosyl)3-(mannosyl)9-(N-acetylglucosaminyl)2-diphosphodolichol"] null null +"Oligosaccharide-Lipid" "a lipid-linked oligosaccharide" ["an oligosaccharide attached to a lipid"] null null +"Oligosaccharide-Phosphate" "an oligosaccharide phosphate" [] "C88H149N2O74P" 2450.088 +"Oligosaccharide-Protein" "a protein-linked oligosaccharide" ["an oligosaccharide attached to a protein"] null null +"Oligosaccharide-Protein-or-Lipid" "a protein- or lipid-linked oligosaccharide" ["an oligosaccharide attached to a protein or a lipid"] null null +"Oligosaccharides" "an oligosaccharide" [] null null +"Omega-3-Fatty-Acids" "a ω-3 fatty acid" [] null null +"Omega-6-Fatty-Acids" "a ω-6 fatty acid" [] null null +"Omega-9-Fatty-Acids" "an ω-9 fatty acid" [] null null +"OMEGA-ALDEHYDE-FATTY-ACID" "an ω-oxo fatty acid" [] null null +"Omega-carboxyacyl-CoAs" "an ω-carboxyacyl-CoA" [] null null +"OMEGA-HYDROXY-FATTY-ACID" "an ω-hydroxy fatty acid" [] null null +"Omega-hydroxy-fatty-acyl-coa" "an ω-hydroxy fatty acyl-CoA" [] null null +"Omega-Hydroxy-long-Chain-Fatty-Acid" "an ω-hydroxy long-chain fatty acid" [] null null +"Omega-Hydroxy-Long-Chain-Fatty-Acyl-Coa" "a long-chain ω-hydroxy fatty acyl-CoA" [] null null +"Omega-Hydroxy-Me-Branched-Lipids" "an ω-hydroxy-methyl-branched lipid" [] null null +"Omega-Hydroxy-Medium-Chain-Fatty-Acid" "an ω-hydroxy medium-chain fatty acid" [] null null +"Omega-Hydroxy-Short-Chain-Fatty-Acid" "an ω-hydroxy short-chain fatty acid" [] null null +"Omega-Hydroxy-Very-Long-Chain-Fatty-Acid" "an ω-hydroxy very-long-chain fatty acid" [] null null +"Omega-OH-Medium-Chain-Fatty-Acyl-Coa" "an ω-hydroxy medium-chain fatty acyl-CoA" [] null null +"Organic-Acids" "an organic acid" [] null null +"Organic-Anions" "an organic anion" [] null null +"Organic-aromatic-compounds" "an organic aromatic compound" [] null null +"Organic-Cations" "an organic cation" [] null null +"Organic-heterobicyclic-compounds" "an organic heterobicyclic compound" [] null null +"Organic-heterocyclic-compound" "an organic heterocyclic compound" [] null null +"Organic-heteromonocyclic-compounds" "an organic heteromonocyclic compound" [] null null +"Organic-Heteropolycyclic-Compounds" "an organic heteropolycyclic compound" [] null null +"Organic-Ions" "an organic ion" [] null null +"Organic-Salts" "an organic salt" [] null null +"Organo-Sulfates" "an organosulfate" ["alkyl sulfate"] null null +"Organoarsenics" "an organoarsenic compound" [] null null +"Organohalogen-Compounds" "an organohalogen compound" [] null null +"Organoiodine-Compounds" "an organoiodine compound" [] null null +"Organometallics" "an organometallic compound" [] null null +"Organonitrogen-Compounds" "an organonitrogen compound" [] null null +"Organonitrogen-Heterocyclic-Compounds" "an organonitrogen heterocyclic compound" [] null null +"Organooxygen-Compounds" "an organooxygen compound" [] null null +"Organophosphonates" "an organophosphonate" [] null null +"Organophosphorus-Compounds" "an organophosphorus compound" [] null null +"ORGANOSULFUR" "an organosulfur compound" [] null null +"Organyl-acyl-glycero-phosphocholines" "a 2-acyl-1-alkyl-sn-glycero-3-phosphocholine" ["a 1-organyl-2-acyl-sn-glycero-3-phosphocholine", "a 1-radyl-2-acyl-sn-glycero-3-phosphocholine"] null null +"ORNITHINE-LIPIDS" "an ornithine lipid" ["an ornithine amide lipid", "an Nα-[(3R)-3-(acyloxy)acyl]-L-ornithine"] null null +"OROTATE" "orotate" ["orotic acid"] "C5H3N2O4" 155.09 +"OROTIDINE-5-PHOSPHATE" "orotidine 5'-phosphate" [] "C10H10N2O11P" 365.17 +"Orthophosphoric-Monoesters" "a phosphate monoester" ["an orthophosphoric monoester"] null null +"Osmoregulated-Periplasmic-Glucans" "an osmoregulated periplasmic glucan" ["OPGs", "periplasmic β-D-glucans"] null null +"OXALACETIC_ACID" "oxaloacetate" ["keto-oxaloacetate", "oxaloacetic acid", "oxalacetic acid", "oxalacetate"] "C4H2O5" 130.057 +"OXALATE" "oxalate" ["oxalic acid", "ethanedioic acid"] "C2O4" 88.02 +"OXALO-SUCCINATE" "oxalosuccinate" ["oxalo-succ"] "C6H3O7" 187.085 +"OXALYL-COA" "oxalyl-CoA" ["CoA-oxalate"] "C23H31N7O19P3S" 834.515 +"OXAMATE" "oxamate" [] "C2H2NO3" 88.043 +"Oxidized-Factor-F420" "an oxidized factor 420" ["an oxidized coenzyme F420"] null null +"Oxidized-Flavins" "an oxidized flavin" [] null null +"OXIDIZED-GLUTATHIONE" "glutathione disulfide" ["glutathione oxidized", "glutathione ox", "oxidized glutathione"] "C20H30N6O12S2" 610.61 +"Oxidized-Polyvinyl-Alcohol" "oxidized polyvinyl alcohol(n)" [] null null +"Oximes" "an oxime" [] null null +"Oxo-Fatty-Acids" "an oxo fatty acid" [] null null +"Oxo-glutarate-dehydro-suc-DH-lipoyl" "a [2-oxoglutarate dehydrogenase E2 protein] N6-S-succinyldihydrolipoyl-L-lysine" [] null null +"Oxo-glutarate-dehydrogenase-DH-lipoyl" "a [2-oxoglutarate dehydrogenase E2 protein] N6-dihydrolipoyl-L-lysine" ["an enzyme N6-(dihydrolipoyl)lysine"] null null +"Oxo-glutarate-dehydrogenase-lipoyl" "a [2-oxoglutarate dehydrogenase E2 protein] N6-lipoyl-L-lysine" ["an enzyme N6-(lipoyl)lysine"] null null +"Oxoicosatetraenoates" "an oxoicosatetraenoate" [] null null +"OXOPENTENOATE" "2-oxopent-4-enoate" ["2-oxo-4-pentenoate", "2-oxopentenoate", "2-keto-4-pentenoate", "oxopent-4-enoate", "2-keto-4-pentenoic acid", "2-ketopent-4-enoic acid"] "C5H5O3" 113.093 +"Oxosteroids" "an oxosteroid" ["a ketosteroid"] null null +"OXYGEN-HETEROCYCLES" "an oxygen heterocycle" [] null null +"OXYGEN-MOLECULE" "oxygen" ["oxygen molecule"] "O2" 31.999 +"Oxygen-Substituted-Quinates" "a oxygen substituted quinate" [] null null +"Oxylipins" "an oxylipin" [] null null +"Oxyluciferins" "an oxyluciferin" [] null null +"P-AMINO-BENZOATE" "4-aminobenzoate" ["para-aminobenzoic acid", "p-aminobenzoic acid", "para-aminobenzoate", "p-aminobenzoate", "4-aminobenzoic acid", "pABA"] "C7H6NO2" 136.13 +"P-BENZOQUINONE" "1,4-benzoquinone" ["p-benzoquinone", "2,5-cyclohexadiene-1,4-dione", "chinone", "quinone"] "C6H4O2" 108.096 +"P-HYDROXY-PHENYLPYRUVATE" "3-(4-hydroxyphenyl)pyruvate" ["p-hydroxyphenylpyruvic acid", "4-hydroxyphenylpyruvate", "hydroxyphenylpyruvate", "p-hydroxyphenylpyruvate"] "C9H7O4" 179.152 +"P-NITROPHENOL" "4-nitrophenol" ["p-nitrophenol", "PNP", "niphen", "4-hydroxynitrobenzene", "para-nitrophenol"] "C6H4NO3" 138.102 +"P-Nitrophenyl-5-Nucleotides" "a p-nitrophenyl 5'-nucleotide" [] null null +"P-NITROPHENYL-ACETATE" "p-nitrophenyl acetate" ["pNP-acetate", "p-nitrophenyl acetate (VAN)", "4-nitrophenyl acetate", "acetic acid p-nitrophenyl ester", "p-acetoxynitrobenzene", "p-nitrophenol acetate", "acetic acid, 4-nitrophenyl ester"] "C8H7NO4" 181.148 +"P-RIBOSYL-4-SUCCCARB-AMINOIMIDAZOLE" "5'-phosphoribosyl-4-(N-succinocarboxamide)-5-aminoimidazole" ["(S)-2-[5-amino-1-(5-phospho-D-ribosyl)imidazole-4-carboxamido]succinate", "1-(5-phosphoribosyl)-4-(N-succino-carboxamide)-5-aminoimidazole", "5'-P-ribosyl-4-(N-succinocarboxamide)-5-aminoimidazole", "5'-p-Ribosyl-4-(N-succinocarboxamide)-5-amino imidazole", "1-(5'-phosphoribosyl)-4-(N-succino-carboxamide)-5-aminoimidazole"] "C13H15N4O12P" 450.255 +"P1P4-BIS5-NUCLEOSYL-TETRAPHOSPHATE" "P1,P4-bis(5'-nucleosyl) tetraphosphate" [] null null +"P3I" "triphosphate" ["inorganic triphosphate", "tripolyphosphate", "PPPi", "inorganic open chain tripolyphosphate", "P3,i"] "O10P3" 252.915 +"P4I" "tetraphosphate" ["P4,i", "inorganic open chain tetrapolyphosphate"] "O13P4" 331.887 +"PA-N" "a proanthocyanidin" ["a condensed tannin"] null null +"PALMITALDEHYDE" "palmitaldehyde" ["palmitoyl aldehyde", "hexadecanal"] "C16H32O" 240.428 +"PALMITATE" "palmitate" ["hexadecanoate (n-C16:0)", "palmitic acid", "hexadecanoate", "hexadecanoic acid"] "C16H31O2" 255.42 +"Palmitoleoyl-lipid" "a [glycerolipid]-palmitoleate" [] null null +"Palmitoleoyl-phospholipid" "a [phospholipid]-palmitoleate" [] null null +"Palmitoyl-lipid" "a [glycerolipid]-palmitate" [] null null +"PALMITYL-COA" "palmitoyl-CoA" ["Palmitoyl-CoA (n-C16:0CoA)", "hexadecanoyl CoA", "palmityl-CoA", "palmitoyl coenzyme A", "palmitoyl CoA"] "C37H62N7O17P3S" 1001.915 +"PAMIDRONATE" "pamidronate" ["(3-amino-1-hydroxy-1-phosphono-propyl)phosphonic acid", "Amidronate", "Aminomux"] "C3H10NO7P2" 234.062 +"PANTETHEINE-P" "4'-phosphopantetheine" ["phosphopantotheine", "pantetheine 4'-phosphate", "phosphopantetheine"] "C11H21N2O7PS" 356.33 +"PANTOTHENATE" "(R)-pantothenate" ["vitamin B5", "(R)-pantothenic acid", "D-pantothenic acid"] "C9H16NO5" 218.229 +"PANTOYL-LACTONE" "(R)-pantolactone" ["(3R)-dihydro-3-hydroxy-4,4-dimethyl-2(3H)-furanone", "(R)-pantoyl lactone", "D-pantolactone", "(R)-pantoyl lactone", "(3R)-dihydro-3-hydroxy-4,4-dimethyl-2(3H)-furanone"] "C6H10O3" 130.143 +"PAPS" "3'-phosphoadenylyl-sulfate" ["phosphoadenosine-5'-phosphosulfate", "phosphoadenosine phosphosulfate", "3'-phosphoadenosine-5'-phosphosulfate", "3'-phosphoadenylyl sulfate", "3'-phospho-5'-adenylyl sulfate"] "C10H11N5O13P2S" 503.23 +"Paramylon" "paramylon" [] null null +"Partially-Acetylated-Chitosans" "a partially acetylated chitosan" [] null null +"PB+2" "Pb2+" ["lead(II)", "PbII"] "Pb" 207.2 +"PCP-pyrrole-2-carboxylate" "a 1H-pyrrole-2-carbonyl-[peptidyl-carrier protein]" [] null null +"PE-32-0" "a phosphatidylethanolamine-32:0" ["a PE-32:0", "a PE32:0"] null null +"PE-32-1" "a phosphatidylethanolamine-32:1" ["a PE-32:1", "a PE32:1"] null null +"PE-32-2" "a phosphatidylethanolamine-32:2" ["a PE-32:2", "a PE32:2"] null null +"PECTATE" "a pectate" ["poly(1,4-α-D-galacturonate)(n)", "(1,4-α-D-D-galactosyluronate)n", "1,4-α-D-galacturonide", "a pectic acid", "an α-D-polygalacturonic acid", "a poly(1,4-α-D-galacturonate)"] null null +"Pectin" "a pectin" ["pectin"] null null +"Penams" "a penam" [] null null +"PENICILLIN" "a penicillin" [] null null +"PENICILLIN-G" "penicillin G" ["benzylpenicillin"] "C16H17N2O4S" 333.381 +"PENTACHLOROPHENOL" "pentachlorophenol" ["PCP"] "C6OCl5" 265.33 +"Pentahydroxyflavones" "a pentahydroxyflavone" [] null null +"Pentaric-Acids" "a pentaric acid" [] null null +"Pentasaccharides" "a pentasaccharide" [] null null +"Pentitols" "a pentitol" [] "C5H12O5" 152.147 +"PENTOSE-1-PHOSPHATES" "a pentose 1-phosphate" [] null null +"PENTOSE-5-PHOSPHATES" "a pentose 5-phosphate" [] null null +"Pentose-phosphates" "a pentose phosphate" [] null null +"PENTOSE-RING" "pentose-ring" [] "C5H10O5" 150.131 +"Pentoses" "a pentose" [] null null +"PEPTIDAMIDE-CPD" "a [protein]-amide" ["a peptidyl amide"] null null +"Peptide-3-hydroxy-L-Aspartates" "a [protein]-3-hydroxy-L-aspartate" ["a peptide 3-hydroxy-L-aspartate"] null null +"Peptide-Antibiotics" "a peptide antibiotic" ["Peptide Antibiotic"] null null +"Peptide-C-terminal-Glycines" "a [protein] C-terminal glycine" ["a C-terminal peptide glycine"] null null +"PEPTIDE-FORMYLKYNURENINE" "a [protein]-N-formyl-L-kynurenine" ["a peptide formylkynurenine", "a [protein]-formylkynurenine", "a [protein]-(2S)-2-amino-4-[2-(formamido)phenyl]-4-oxobutanoic acid"] null null +"Peptide-Group" "a peptide" ["a peptide group"] null null +"PEPTIDE-TRYPTOPHAN" "a [protein]-L-tryptophan" ["a peptide tryptophan"] null null +"Peptides" "a peptide" [] null null +"Peptidoglycan-DD-crosslinks" "a peptidoglycan with D,D crosslinks" [] null null +"Peptidoglycan-dimer" "a peptidoglycan dimer (generic)" ["a GlcNAc-(1->4)-MurNAc-pentapeptide dimer diphosphoundecaprenol", "a N-acetylglucosamine--N-acetylmuramoyl-(pentapeptide) dimer pyrophosphoryl-undecaprenol"] null null +"Peptidoglycan-With-Cle-Pentagly-Bridges" "a fragment of peptidoglycan with cleaved pentaglycine bridge" [] null null +"Peptidoglycan-With-Cleaved-Peptides" "a peptidoglycan with cleaved peptide" [] null null +"Peptidoglycan-with-L-lysine-pentapeptide" "a peptidoglycan with (L-alanyl-γ-D-glutamyl-L-lysyl-D-alanyl-D-alanine) pentapeptide" [] null null +"Peptidoglycan-With-Pentaglycine-Bridges" "a peptidoglycan with pentaglycine bridge" [] null null +"Peptidoglycans" "a peptidoglycan" [] null null +"Peptidyl-Carrier-Protein-Group" "[peptidyl-carrier protein] group" [] null null +"Peptidyl-Carrier-Protein-L-proline" "an L-prolyl-[peptidyl-carrier protein]" [] null null +"Peptidyl-nucleosides" "a peptidyl nucleoside" [] null null +"Perillyl-Alcohols" "perillyl alcohol" [] "C10H16O" 152.236 +"Perillyl-CoA" "perillyl-CoA" [] "C31H44N7O17P3S" 911.707 +"Peroxides" "a peroxide" [] null null +"Perthiols" "a perthiol" ["a persulfide"] null null +"PGL" "a dimycocerosyl glycosyl phenolphthiocerol" ["a glycosyl dimycocerosyl phenolphthiocerol", "PGL"] null null +"PHE" "L-phenylalanine" ["2S-α-phenylalanine", "F", "endophenyl", "phenylalanine", "L-phe"] "C9H11NO2" 165.191 +"PHENANTHRENE-RING" "phenanthrene-ring" [] "C14H10" 178.233 +"Phenolcarboxyphthiodiolenones" "a phenolcarboxyphthiodiolenone" [] null null +"Phenolic-Donors" "a phenolic donor" [] null null +"Phenolphthiocerol-A" "a phenolphthiocerol A" [] null null +"Phenolphthiocerol-B" "a phenolphthiocerol B" [] null null +"Phenolphthiocerols" "a phenolphthiocerol" [] null null +"Phenolphthiodiolenone" "a phenolphthiodiolenone" [] null null +"Phenolphthiodiolenone-A" "a phenolphthiodiolenone A" [] null null +"Phenolphthiodiolenone-B" "a phenolphthiodiolenone B" [] null null +"Phenolphthiodiolone" "a phenolphthiodiolone" [] null null +"Phenolphthiodiolone-A" "a phenolphthiodiolone A" [] null null +"Phenolphthiodiolone-B" "a phenolphthiodiolone B" [] null null +"Phenolphthiotriol" "a phenolphthiotriol" [] null null +"Phenolphthiotriol-A" "a phenolphthiotriol A" [] null null +"Phenolphthiotriol-B" "a phenolphthiotriol B" [] null null +"Phenols" "a phenol" [] null null +"Phenothiazines" "a phenothiazine" [] "C12H9NS" 199.27 +"Phenoxyl-rad-of-phenolic-donors" "a phenoxyl radical of a phenolic donor" [] null null +"Phenyl-Acetates" "a phenyl acetate" [] null null +"PHENYL-PYRUVATE" "3-phenyl-2-oxopropanoate" ["α-ketohydrocinnamic acid", "keto-phenylpyruvate", "phenylpyruvate", "3-phenylpyruvate", "3-phenylpyruvic acid", "2-oxo-3-phenylpropanoate"] "C9H7O3" 163.152 +"PHENYLACETALDEHYDE" "phenylacetaldehyde" ["2-phenylacetaldehyde", "PAA", "α-tolualdehyde", "hyacinthin", "phenylethanal"] "C8H8O" 120.151 +"PHENYLACETATE" "phenylacetate" ["2-phenylacetate", "benzeneacetic acid", "phenylacetic acid"] "C8H7O2" 135.142 +"Phenylalkanoates" "a phenylalkanoate" [] null null +"PHENYLETHYLAMINE" "2-phenylethylamine" ["β-phenylethylamine", "phenylethylamine", "phenethylamine", "b-phenylethylamine"] "C8H12N" 122.189 +"PHENYLGLYOXAL" "phenylglyoxal" ["benzoylcarboxaldehyde", "benzoylformaldehyde", "phenylethanedione", "α-oxobenzeneacetaldehyde", "benzeneacetaldehyde, α-oxo-, monohydrate", "glyoxal, phenyl-"] "C8H6O2" 134.134 +"PHENYLHYDANTOIN" "D-phenylhydantoin" ["5R-phenylhydantoin"] "C9H8N2O2" 176.174 +"PHENYLHYDRAZINE" "phenylhydrazine" ["hydrazine, phenyl-", "hydrazine-benzene", "hydrazobenzene", "hydrazinobenzene", "monophenylhydrazine"] "C6H8N2" 108.143 +"Phenylpropanoids" "a phenylpropanoid" [] null null +"Phenylurea-Cytokinins" "a phenylurea-type cytokinin" [] null null +"Phenylureas" "a phenylurea compound" [] null null +"Pheophytins" "a pheophytin" [] null null +"PHMB" "p-hydroxymercuribenzoate" ["(p-carboxyphenyl)hydroxymercury", "p-hydroxymercuribenzoic acid", "PHMB"] "C7H5O3Hg" 337.705 +"Phosphatase-2A-leucine" "a [phosphatase 2A protein] C-terminal L-leucine" ["a C-terminal [phosphatase 2A protein]-leucine"] null null +"Phosphatase-2A-leucine-methyl-ester" "a [phosphatase 2A protein] C-terminal L-leucine methyl ester" ["a C-terminal [phosphatase 2A protein]-leucine methyl ester"] null null +"PHOSPHATE-GROUP" "a phosphate group" [] "O4P" 94.971 +"Phosphates" "an inorganic phosphate" [] null null +"Phosphatidates-34-1" "phosphatidate-34:1" ["phosphatidic acid-34:1", "PA-34:1", "PA34:1"] null null +"Phosphatidates-34-2" "phosphatidate-34:2" ["phosphatidic acid-34:2", "PA-34:2", "PA34:2"] null null +"Phosphatidates-34-3" "phosphatidate-34:3" ["phosphatidic acid-34:3", "PA-34:3", "PA34:3"] null null +"Phosphatidates-34-4" "phosphatidate-34:4" ["phosphatidic acid-34:4", "PA-34:4", "PA34:4"] null null +"Phosphatidates-34-6" "phosphatidate-34:6" ["phosphatidic acid-34:6", "PA-34:6", "PA34:6"] null null +"Phosphatidates-36-2" "phosphatidate-36:2" ["phosphatidic acid-36:2", "PA-36:2", "PA36:2"] null null +"Phosphatidates-36-3" "phosphatidate-36:3" ["phosphatidic acid-36:3", "PA-36:3", "PA36:3"] null null +"Phosphatidates-36-4" "phosphatidate-36:4" ["phosphatidic acid-36:4", "PA-36:4", "PA36:4"] null null +"Phosphatidates-36-5" "phosphatidate-36:5" ["phosphatidic acid-36:5", "PA-36:5", "PA36:5"] null null +"Phosphatidates-36-6" "phosphatidate-36:6" ["phosphatidic acid-36:6", "PA-36:6", "PA36:6"] null null +"PHOSPHATIDYL-MYO-INOSITOL-45-BISPHOSPHA" "a 1-phosphatidyl-1D-myo-inositol 4,5-bisphosphate" ["a phosphatidyl-myo-inositol 4,5-biphosphate", "PtdIns(4,5)P2", "1,2-diacyl-sn-glycero-3-phospho-(1'-myo-inositol-4',5'-bisphosphate", "PIP2", "phosphatidylinositol-4,5-bisphosphate"] null null +"PHOSPHATIDYLCHOLINE" "a phosphatidylcholine" ["acyl-glycerophosphocholine", "a choline phosphatide", "a 1,2-diacyl-sn-glycero-3-phosphocholine", "a phosphatidyl-N-trimethylethanolamine", "a lecithin", "3-sn-phosphatidylcholine"] null null +"phosphatidylcholine-30:0" "phosphatidylcholine-30:0" ["PC-32:0", "PC32:0"] null null +"Phosphatidylcholines-32-0" "phosphatidylcholine-32:0" ["PC-32:0", "PC32:0"] null null +"Phosphatidylcholines-34-1" "phosphatidylcholine-34:1" ["PC-34:1", "PC34:1"] null null +"Phosphatidylcholines-34-2" "phosphatidylcholine-34:2" ["PC-34:2", "PC34:2"] null null +"Phosphatidylcholines-34-3" "phosphatidylcholine-34:3" ["PC-34:3", "PC34:3"] null null +"Phosphatidylcholines-34-4" "phosphatidylcholine-34:4" ["PC-34:4", "PC34:4"] null null +"Phosphatidylcholines-36-1" "phosphatidylcholine-36:1" ["PC-36:1", "PC36:1"] null null +"Phosphatidylcholines-36-2" "phosphatidylcholine-36:2" ["PC-36:2", "PC36:2"] null null +"Phosphatidylcholines-36-3" "phosphatidylcholine-36:3" ["PC-36:3", "PC36:3"] null null +"Phosphatidylcholines-36-4" "phosphatidylcholine-36:4" ["PC-36:4", "PC36:4"] null null +"Phosphatidylcholines-36-5" "phosphatidylcholine-36:5" ["PC-36:5", "PC36:5"] null null +"Phosphatidylcholines-36-6" "phosphatidylcholine-36:6" ["PC-36:6", "PC36:6"] null null +"Phosphatidylcholines-38-2" "phosphatidylcholine-38:2" ["PC-38:2", "PC38:2"] null null +"Phosphatidylcholines-38-3" "phosphatidylcholine-38:3" ["PC-38:3", "PC38:3"] null null +"Phosphatidylcholines-38-4" "phosphatidylcholine-38:4" ["PC-38:4", "PC38:4"] null null +"Phosphatidylcholines-38-5" "phosphatidylcholine-38:5" ["PC-38:5", "PC38:5"] null null +"Phosphatidylcholines-38-6" "phosphatidylcholine-38:6" ["PC-38:6", "PC38:6"] null null +"Phosphatidylcholines-40-2" "phosphatidylcholine-40:2" ["PC-40:2", "PC40:2"] null null +"Phosphatidylcholines-40-3" "phosphatidylcholine-40:3" ["PC-40:3", "PC40:3"] null null +"Phosphatidylcholines-40-4" "phosphatidylcholine-40:4" ["PC-40:4", "PC40:4"] null null +"Phosphatidylcholines-40-5" "phosphatidylcholine-40:5" ["PC-40:5", "PC40:5"] null null +"PHOSPHATIDYLETHANOLAMINE-KDO2" "7-O-[2-aminoethoxy(hydroxy)phosphoryl]-α-D-Kdo-(2→4)-α-D-Kdo-(2→6)-lipid IVA" ["phosphatidylethanolamine-Kdo2-lipid IVA"] "C86H154N3O40P3" 1963.08 +"Phosphatidylethanolamines-34-1" "phosphatidylethanolamine-34:1" ["PE-34:1", "PE34:1"] null null +"Phosphatidylethanolamines-34-2" "phosphatidylethanolamine-34:2" ["PE-34:2", "PE34:2"] null null +"Phosphatidylethanolamines-34-3" "phosphatidylethanolamine-34:3" ["PE-34:3", "PE34:3"] null null +"Phosphatidylethanolamines-34-4" "phosphatidylethanolamine-34:4" ["PE-34:4", "PE34:4"] null null +"Phosphatidylethanolamines-36-1" "phosphatidylethanolamine-36:1" ["PE-36:1", "PE36:1"] null null +"Phosphatidylethanolamines-36-2" "phosphatidylethanolamine-36:2" ["PE-36:2", "PE36:2"] null null +"Phosphatidylethanolamines-36-3" "phosphatidylethanolamine-36:3" ["PE-36:3", "PE36:3"] null null +"Phosphatidylethanolamines-36-4" "phosphatidylethanolamine-36:4" ["PE-36:4", "PE36:4"] null null +"Phosphatidylethanolamines-36-5" "phosphatidylethanolamine-36:5" ["PE-36:5", "PE36:5"] null null +"Phosphatidylethanolamines-36-6" "phosphatidylethanolamine-36:6" ["PE-36:6", "PE36:6"] null null +"Phosphatidylethanolamines-38-2" "phosphatidylethanolamine-38:2" ["PE-38:2", "PE38:2"] null null +"Phosphatidylethanolamines-38-3" "phosphatidylethanolamine-38:3" ["PE-38:3", "PE38:3"] null null +"Phosphatidylethanolamines-38-4" "phosphatidylethanolamine-38:4" ["PE-38:4", "PE38:4"] null null +"Phosphatidylethanolamines-38-5" "phosphatidylethanolamine-38:5" ["PE-38:5", "PE38:5"] null null +"Phosphatidylethanolamines-38-6" "phosphatidylethanolamine-38:6" ["PE-38:6", "PE38:6"] null null +"Phosphatidylethanolamines-40-2" "phosphatidylethanolamine-40:2" ["PE-40:2", "PE40:2"] null null +"Phosphatidylethanolamines-40-3" "phosphatidylethanolamine-40:3" ["PE-40:3", "PE40:3"] null null +"Phosphatidylethanolamines-42-2" "phosphatidylethanolamine-42:2" ["PE-42:2", "PE42:2"] null null +"Phosphatidylethanolamines-42-3" "phosphatidylethanolamine-42:3" ["PE-42:3", "PE42:3"] null null +"Phosphatidylethanolamines-42-4" "phosphatidylethanolamine-42:4" ["PE-42:4", "PE42:4"] null null +"Phosphatidylglycerols-32-0" "phosphatidylglycerol-32:0" ["PG-32:0", "PG32:0"] null null +"Phosphatidylglycerols-32-1" "phosphatidylglycerol-32:1" ["PG-32:1", "PG32:1"] null null +"Phosphatidylglycerols-34-0" "phosphatidylglycerol-34:0" ["PG-34:0", "PG34:0"] null null +"Phosphatidylglycerols-34-1" "phosphatidylglycerol-34:1" ["PG-34:1", "PG34:1"] null null +"Phosphatidylglycerols-34-2" "phosphatidylglycerol-34:2" ["PG-34:2", "PG34:2"] null null +"Phosphatidylglycerols-34-3" "phosphatidylglycerol-34:3" ["PG-34:3", "PG34:3"] null null +"Phosphatidylglycerols-34-4" "phosphatidylglycerol-34:4" ["PG-34:4", "PG34:4"] null null +"PHOSPHATIDYLINOSITOL-345-TRIPHOSPHATE" "1-phosphatidyl-1D-myo-inositol 3,4,5-trisphosphate" ["1-phosphatidyl-1D-myo-inositol 3,4,5-triphosphate", "phosphatidyl inositol-3,4,5-trisphosphate", "phosphatidylinositol-3,4,5-triphosphate", "PtdIns(3,4,5)P3"] null null +"Phosphatidylinositols" "a phosphatidylinositol" ["Pi"] null null +"Phosphatidylinositols-34-1" "phosphatidylinositol-34:1" ["PI-34:1", "PI34:1"] null null +"Phosphatidylinositols-34-2" "phosphatidylinositol-34:2" ["PI-34:2", "PI34:2"] null null +"Phosphatidylinositols-34-3" "phosphatidylinositol-34:3" ["PI-34:3", "PI34:3"] null null +"Phosphatidylinositols-34-4" "phosphatidylinositol-34:4" ["PI-34:4", "PI34:4"] null null +"Phosphatidylinositols-36-1" "phosphatidylinositol-36:1" ["PI-36:1", "PI36:1"] null null +"Phosphatidylinositols-36-2" "phosphatidylinositol-36:2" ["PI-36:2", "PI36:2"] null null +"Phosphatidylinositols-36-3" "phosphatidylinositol-36:3" ["PI-36:3", "PI36:3"] null null +"Phosphatidylinositols-36-4" "phosphatidylinositol-36:4" ["PI-36:4", "PI36:4"] null null +"Phosphatidylinositols-36-5" "phosphatidylinositol-36:5" ["PI-36:5", "PI36:5"] null null +"Phosphatidylinositols-36-6" "phosphatidylinositol-36:6" ["PI-36:6", "PI36:6"] null null +"Phosphatidylserines-34-1" "phosphatidylserine-34:1" ["PS-34:1", "PS34:1"] null null +"Phosphatidylserines-34-2" "phosphatidylserine-34:2" ["PS-34:2", "PS34:2"] null null +"Phosphatidylserines-34-3" "phosphatidylserine-34:3" ["PS-34:3", "PS34:3"] null null +"Phosphatidylserines-34-4" "phosphatidylserine-34:4" ["PS-34:4", "PS34:4"] null null +"Phosphatidylserines-36-1" "phosphatidylserine-36:1" ["PS-36:1", "PS36:1"] null null +"Phosphatidylserines-36-2" "phosphatidylserine-36:2" ["PS-36:2", "PS36:2"] null null +"Phosphatidylserines-36-3" "phosphatidylserine-36:3" ["PS-36:3", "PS36:3"] null null +"Phosphatidylserines-36-4" "phosphatidylserine-36:4" ["PS-36:4", "PS36:4"] null null +"Phosphatidylserines-36-5" "phosphatidylserine-36:5" ["PS-36:5", "PS36:5"] null null +"Phosphatidylserines-36-6" "phosphatidylserine-36:6" ["PS-36:6", "PS36:6"] null null +"Phosphatidylserines-38-1" "phosphatidylserine-38:1" ["PS-38:1", "PS38:1"] null null +"Phosphatidylserines-38-2" "phosphatidylserine-38:2" ["PS-38:2", "PS38:2"] null null +"Phosphatidylserines-38-3" "phosphatidylserine-38:3" ["PS-38:3", "PS38:3"] null null +"Phosphatidylserines-38-4" "phosphatidylserine-38:4" ["PS-38:4", "PS38:4"] null null +"Phosphatidylserines-38-5" "phosphatidylserine-38:5" ["PS-38:5", "PS38:5"] null null +"Phosphatidylserines-38-6" "phosphatidylserine-38:6" ["PS-38:6", "PS38:6"] null null +"Phosphatidylserines-40-1" "phosphatidylserine-40:1" ["PS-40:1", "PS40:1"] null null +"Phosphatidylserines-40-2" "phosphatidylserine-40:2" ["PS-40:2", "PS40:2"] null null +"Phosphatidylserines-40-3" "phosphatidylserine-40:3" ["PS-40:3", "PS40:3"] null null +"Phosphatidylserines-40-4" "phosphatidylserine-40:4" ["PS-40:4", "PS40:4"] null null +"Phosphatidylserines-42-1" "phosphatidylserine-42:1" ["PS-42:1", "PS42:1"] null null +"Phosphatidylserines-42-2" "phosphatidylserine-42:2" ["PS-42:2", "PS42:2"] null null +"Phosphatidylserines-42-3" "phosphatidylserine-42:3" ["PS-42:3", "PS42:3"] null null +"Phosphatidylserines-42-4" "phosphatidylserine-42:4" ["PS-42:4", "PS42:4"] null null +"Phosphatidylserines-44-2" "phosphatidylserine-44:2" ["PS-44:2", "PS44:2"] null null +"Phosphatidylserines-44-3" "phosphatidylserine-44:3" ["PS-44:3", "PS44:3"] null null +"Phosphinates" "a phosphinate" [] null null +"Phospho-alpha-glucans" "[6-O-phospho-α-glucan]" [] null null +"PHOSPHO-ENOL-PYRUVATE" "phosphoenolpyruvate" ["PEP", "2-(phosphooxy)- 2-propenoate"] "C3H2O6P" 165.019 +"Phosphocholine-Glycoconjugates" "a phosphorylcholine-glycoconjugate" [] null null +"phosphoethanolamine-cellulose" "phosphoethanolamine cellulose" ["pEtN cellulose"] null null +"Phosphoglycerides" "a phosphoglyceride" ["a glycerophospholipid"] null null +"Phosphoinositides" "a phosphoinositide" [] null null +"Phospholipid-Cis-Olefinic-Fatty-Acids" "a [phospholipid] cis-olefinic fatty acid" ["a [phospholipid] (Z)-olefinic fatty acid"] null null +"Phospholipid-cis-vaccenate" "a [phospholipid]-cis-vaccenate" [] null null +"Phospholipid-Cyclopropane-Fatty-Acids" "a [phospholipid] fatty acid containing cyclopropane" [] null null +"Phospholipid-Oleate" "a [phospholipid]-oleate" ["an oleoyl-[phospholipid]"] null null +"Phospholipid-Olefinic-Fatty-Acids" "a [phospholipid] olefinic fatty acid" [] null null +"Phospholipids" "a phospholipid" [] null null +"Phosphomannans" "a phosphomannan" ["phosphomannan backbone"] null null +"PHOSPHONATE" "phosphonate" ["hydrogenphosphite"] "HO3P" 79.98 +"PHOSPHOPANTOTHEINE-GROUP" "4'-phosphopantetheine group" ["phosphopantotheine", "pantetheine 4'-phosphate"] "C11H21N2O7PS" 356.33 +"Phosphopantotheine-Proteins-Group" "a phosphopantotheine-containing protein group" [] null null +"PHOSPHORIBOSYL-AMP" "1-(5-phospho-β-D-ribosyl)-AMP" ["1-(5-phosphoribosyl)-AMP", "phosphoribosyl-AMP", "5-phosphoribosyl-AMP", "N-(5-phospho-D-ribosyl)-AMP", "N-(5'-phospho-D-ribosyl)-AMP", "N1-(5-phospho-D-ribosyl)-AMP"] "C15H19N5O14P2" 555.288 +"PHOSPHORIBOSYL-ATP" "1-(5-phospho-β-D-ribosyl)-ATP" ["1-(5-phosphoribosyl)-ATP", "N1-(5-phospho-D-ribosyl)-ATP", "5-phosphoribosyl-ATP", "1-(5-phospho-D-ribosyl)-ATP", "phosphoribosyl-ATP"] "C15H19N5O20P4" 713.232 +"PHOSPHORIBOSYL-CARBOXY-AMINOIMIDAZOLE" "5-amino-1-(5-phospho-D-ribosyl)imidazole-4-carboxylate" ["1-(5-phosphoribosyl)-4-carboxy-5-aminoimidazole", "5'-P-ribosyl-4-carboxy-5-aminoimidazole", "5'-phosphoribosyl-4-carboxy-5-aminoimidazole", "5-phosphoribosyl-4-carboxy-5-aminoimidazole", "1-(5'-phosphoribosyl)-5-amino-4-imidazole carboxylate", "1-(5'-phosphoribosyl)-4-carboxy-5-aminoimidazole", "4-carboxyaminoimidazole ribonucleotide", "phosphoribosyl-carboxy-aminoimidazole"] "C9H11N3O9P" 336.174 +"PHOSPHORIBOSYL-FORMAMIDO-CARBOXAMIDE" "5-formamido-1-(5-phospho-D-ribosyl)-imidazole-4-carboxamide" ["5-formamido-1-(5-phospho-D-ribosyl)imidazole-4-carboxamide", "5'-p-ribosyl-5-formamido-4-imidazolecarboxamide", "5'-phosphoribosyl-5-formamido-4-imidazole carboxamide", "5'-p-ribosyl-5-formamido-4-imidazole carboxamide", "5-phosphoribosyl-5-formamido-4-imid-carboxamide", "5'-phosphoribosyl-formamido-carboxamide", "5-formylamidoimidazole-4-carboxamide ribonucleotide"] "C10H13N4O9P" 364.208 +"PHOSPHORIBOSYL-FORMIMINO-AICAR-P" "1-(5-phospho-β-D-ribosyl)-5-[(5-phosphoribosylamino)methylideneamino]imidazole-4-carboxamide" ["phosphoribosylformiminoAICAR-phosphate", "phosphoribosyl-formimino-aicar-P", "phosphoribosylformiminoAICAR-P", "5-(5-phospho-D-ribosyl-aminoformimino)-1-(5-phosphoribosyl)-imidazole4-carboxamide", "5-(5'-phospho-D-ribosyl-aminoformimino)-1-(5-phosphoribosyl)-imidazole-4-carboxamide", "N-5-phosphoribosyl-formimino-5-amino-imidazole-4-carboxamide ribonucleotide", "N-(5'-phospho-D-ribosylformimino)-5-amino-1-(5''-phosphoribosyl)-4-imidazolecarboxamide"] "C15H21N5O15P2" 573.303 +"PHOSPHORIBULOSYL-FORMIMINO-AICAR-P" "phosphoribulosylformimino-AICAR-phosphate" ["5-[(5-phospho-1-deoxy-β-D-ribulos-1-ylamino)methylideneamino]-1-(5-phosphoribosyl)imidazole-4-carboxamide", "N-(5'-phospho-D-1'-ribulosylformimino)-5-amino-1-(5''-phosphoribosyl)-4-imidazolecarboxamide", "phosphoribulosylformiminoAICAR-phosphate", "phosphoribulosyl-formimino-5-aminoimidazole-4-carboxamide ribotide phosphate", "phosphoribulosyl-formimino-5-aminoimidazole-4-carboxamide ribonucleotide phosphate", "PRFAR", "N-(5'phospho-D-1'-ribulosylformimino)-5-amino-1-(5-phosphoribosyl)-4-imidazolecarboxamide", "phosphoribulosylformimino-AICAR-P"] "C15H21N5O15P2" 573.303 +"Phosphorus-Molecular-Entities" "a phosphorus molecular entity" [] null null +"Phosphorus-oxoacids-And-Derivatives" "a phosphorus oxoacid and derivatives" [] null null +"PHOSPHORYL-CHOLINE" "phosphocholine" ["choline-phosphate", "phosphoryl-choline", "O-phosphocholine"] "C5H13NO4P" 182.136 +"PHOSPHORYL-ETHANOLAMINE" "O-phosphoethanolamine" ["phosphoryl-ethanolamine", "O-phosphorylethanolamine", "phosphoethanolamine", "ethanolamine phosphate", "2-aminoethyl phosphate"] "C2H7NO4P" 140.055 +"Phosphorylated-Amino-Acids" "a phosphorylated amino acid" [] null null +"Phosphoserines" "L(or D)-O-phosphoserine" [] "C3H5NO6P" 182.049 +"Phosphosphingolipids" "a phosphosphingolipid" [] null null +"PHTHALATE" "phthalate" ["phthalic acid", "1,2-benzenedicarboxylic acid", "o-benzenedicarboxylic acid", "benzene-1,2-dicarboxylic acid", "o-phthalic acid", "o-dicarboxybenzene"] "C8H4O4" 164.117 +"Phthioceranic-Acids" "a phthioceranate" ["a phthioceranic acid"] null null +"Phthioceranyl-CoA" "a phthioceranoyl-CoA" [] null null +"Phthiocerol-A" "a phthiocerol A" [] null null +"Phthiocerol-B" "a phthiocerol B" [] null null +"Phthiocerols" "a phthiocerol" [] null null +"Phthiodiolenone-A" "a phthiodiolenone A" [] null null +"Phthiodiolenone-B" "a phthiodiolenone B" [] null null +"Phthiodiolenones" "a phthiodiolenone" [] null null +"Phthiodiolone-A" "a phthiodiolone A" [] null null +"Phthiodiolone-B" "a phthiodiolone B" [] null null +"Phthiodiolones" "a phthiodiolone" [] null null +"Phthiotriols" "a phthiotriol" [] null null +"Phthiotriols-A" "a phthiotriol A" [] null null +"Phthiotriols-B" "a phthiotriol B" [] null null +"Phytoalexins" "a phytoalexin" [] null null +"Phytocassanes" "a phytocassane" [] null null +"Phytoceramides" "a phytoceramide" ["a plant ceramide (III)", "an N-acyl-phytosphinganine", "an N-acyl-4-hydroxysphinganine", "a (4R)-4-hydroxysphinganine ceramide"] null null +"Phytosiderophores" "a phytosiderophore" ["mugineic acid"] null null +"Pi" "phosphate" ["inorganic phosphate", "phosphate-inorganic", "Pi", "orthophosphate", "PO43-", "HPO42-", "HPO4-2", "hydrogenphosphate"] "HO4P" 95.979 +"PICOLINATE" "picolinate" ["2-pyridinecarboxylate", "picolinic acid", "2-pyridine carboxylic acid", "2-picolinate"] "C6H4NO2" 122.103 +"PigG-L-proline" "an L-prolyl-[PigG prolyl-carrier protein]" [] null null +"PigG-pyrrole-2-carboxylate" "a 1H-pyrrole-2-carbonyl-[PigG prolyl-carrier protein]" [] null null +"PigJ-pyrrole-2-carboxylate" "a 1H-pyrrole-2-carbonyl-[PigJ acyl-carrier protein]" [] null null +"PINENE" "pinene" ["α-pinene"] "C10H16" 136.236 +"pinolenoyl-lipid" "a [glycerolipid]-pinolenate" ["a [glycerolipid]-(5Z,9Z,12Z)-octadecatri-5,9,12-enoate", "a [glycerolipid]-pinolenoic acid"] null null +"Piperdines" "a piperdine" [] null null +"piperidine-3-carboxylate" "nipecotate" ["nipecotic acid", "piperidine-3-carboxylate"] "C6H11NO2" 129.158 +"PKS-ACP-GROUP" "[polyketide synthase acyl-carrier protein]-group" ["[polyketide synthase] group", "[pks-acp]-group"] null null +"Plant-Arabinogalactans" "a plant arabinogalactan" [] null null +"Plant-Arabinogalactans-I" "a plant arabinogalactan type I" ["type I AG", "type II arabinogalactan"] null null +"Plant-Arabinogalactans-II" "a plant arabinogalactan type II" ["type I AG", "arabino-3,6-galactan", "type II arabinogalactan"] null null +"Plant-Ceramide-Phosphate" "a dihydroceramide 1-phosphate" ["a plant ceramide 1-phosphate"] null null +"Plant-Ceramides-IV" "a (4R)-4-hydroxysphing-8-enine ceramide" ["a plant ceramide (IV)"] null null +"Plant-Hormones" "a plant hormone" [] null null +"Plasmalogens" "a plasmalogen" ["a 2-acyl-1-alkenyl-sn-glycero-3-phospholipid"] null null +"Plasmanyl-Phospholipids" null [] null null +"Plasmanylcholine" "a plasmanylcholine" ["an O-1-alkyl-2-acyl-sn-glycero-3-phosphocholine", "a 1-alkyl-2-acylglycerophosphocholine", "a 2-acyl-1-alkyl-sn-glycero-3-phosphocholine"] null null +"PLASMENYLCHOLINE" "a plasmenylcholine" ["an O-1-Z-alk-1-enyl-2-acyl-sn-glycero-3-phosphocholine", "a choline plasmalogen", "a 1-Z-alkenyl-2-acylglycerophosphocholine", "a 1-Z-alkenyl-2-acyl-sn-glycero-3-phosphocholine"] null null +"Plastoquinols" "a plastoquinol" ["PQ"] "C53H82O2" 751.23 +"PLASTOQUINONE" "a plastoquinone" [] "C53H80O2" 749.214 +"PltL-Cl-pyrrole-2-carboxylate" "a 5-chloro-1H-pyrrole-2-carbonyl-[PltL prolyl-carrier protein]" [] null null +"PltL-Cl2-pyrrole-2-carboxylate" "a 4,5-dichloro-1H-pyrrole-2-carbonyl-[PltL prolyl-carrier protein]" [] null null +"PltL-L-proline" "an L-prolyl-[PltL prolyl-carrier protein]" [] null null +"PltL-Pre-Pyoluteorin" "a 7-(4,5-dichloro-1H-pyrrol-2-yl)-3-hydroxy-5,7-dioxoheptanoyl-[PltL prolyl-carrier protein]" [] null null +"PltL-pyrrole-2-carboxylate" "a 1H-pyrrole-2-carbonyl-[PltL prolyl-carrier protein]" [] null null +"PNP-Modified-Glycosides" "a p-nitrophenyl-modified glycoside" ["a 4-nitrophenyl-modified glycoside"] null null +"PNP-PROPIONATE" "4-nitrophenyl propanoate" ["pNP-propionate", "p-nitrophenyl propionate"] "C9H9NO4" 195.174 +"Polar-amino-acids" "a polar amino acid" [] null null +"Poly-3-hydroxyoctanoate" "poly-3-hydroxyoctanoate" [] null null +"Poly-6-Phosphogluco-Maltodextrins" "a poly-6-phosphogluco-maltodextrin" ["[Gln](n)[Glc6-P](m)"] null null +"Poly-ADP-Riboses" "a poly(ADP-D-ribose)" [] null null +"Poly-beta-D-Mannuronate" "mannuronan" ["poly(β-D-mannuronate)"] null null +"POLY-CIS-POLYPRENYL-DIPHOSPHATE" "a poly-cis-polyprenyldiphosphate" ["a poly-cis-polyprenyl diphosphate(n)"] null null +"Poly-D-galactosamine" "a poly-D-galactosamine" [] null null +"POLY-GLUCOSYLATED-GLYCOGENINS" "a glucosylated glycogenin" ["(1,4-α-D-glucosyl)(n) glycogenin", "(1,4-α-D-glucosyl)(n+1) glycogenin", "(1,4-α-D-glucosyl)(n-1) glycogenin"] null null +"Poly-Hydroxybutyrate" "poly-[(R)-3-hydroxybutanoate]" ["a poly-β-hydroxybutanoate", "PHB", "polyhydroxybutyrate", "2-methyl-3-ketobutyrate", "poly-hydroxybutyrate", "poly-3-hydroxybutyrate", "a poly-β-hydroxybutyrate"] null null +"POLY-HYDROXYLATED-TETRAKETIDE-PYRONE" "a polyhydroxylated tetraketide α-pyrone" [] null null +"POLY-OH-DEC-N" "a poly[(R)-3-hydroxydecanoate]" ["polyhydroxydecanoate"] null null +"Polyamines" "a polyamine" [] null null +"Polycations" "a polycation" [] null null +"Polyhydroxyalkanoates" "a poly[(R)-3-hydroxyalkanoate]" ["a polyhydroxyalkanoate", "PHA", "a polyhydroxyalkanoic acid"] null null +"Polyisoprenoids" "an isoprenoid" [] null null +"Polyisoprenyl-Diphosphates" "an isoprenoid diphosphate" ["a polyisoprenyl diphosphate"] null null +"Polyisoprenyl-Monophosphates" "a polyprenol phosphate" ["an isoprenoid monophosphate", "a polyprenyl phosphate", "a polyisoprenyl phosphate", "a polyisoprenyl monophosphate"] null null +"POLYKETIDE" "a polyketide" [] null null +"Polymannuronates" "a polymannuronate" [] null null +"Polymer-Segment-Enzyme-Substrates" null [] null null +"Polymeric-Compounds" "a polymeric compound" [] null null +"Polymyxins" "a polymyxin" [] null null +"Polynucleotide-Enzyme-Substrates" "Polynucleotides Enzyme Substrates" [] null null +"Polynucleotide-Holder" "a generic polynucleotide substrate" [] null null +"Polyphenols" "a polyphenol" [] null null +"Polyphosphates" "a polyphosphate" ["linear polyphosphates"] null null +"Polyprenol-Groups" "a polyprenol group" [] null null +"Polyprenols" "a polyprenol" [] null null +"Polyprenyl-Mannosyl-Phosphates" "a polyprenol monophospho-β-D-mannose" ["a polyprenyl β-D-mannosyl phosphate"] null null +"POLYPRENYLPHOSPHATE-GLUCOSE" "β-D-glucosyl polyprenyl phosphate" [] null null +"Polypyrroles" "a polypyrrole" [] null null +"Polysaccharide-Derivatives" "a polysaccharide derivative" [] null null +"Polysaccharides" "a polysaccharide" [] null null +"Polysaccharides-mannuronate-residues" "polysaccharides containing β-D-mannuronate residues" [] null null +"Polysaccharides-with-L-guluronates" "polysaccharides containing a terminal α-L-guluronate group" [] null null +"polysialic-acid" "a polysialic acid" [] null null +"Polysulfides" "a polysulfide" [] null null +"Polyunsaturated-fatty-acids" "a polyunsaturated fatty acid" ["PUFA"] null null +"POLYVINYL-ALCOHOL" "polyvinyl alcohol(n)" ["hydroxyethylene", "ethenol", "alcotex 17F-H", "PVA"] null null +"PORPHOBILINOGEN" "porphobilinogen" [] "C10H13N2O4" 225.224 +"Porphyran-With-Anhydrogalactose-Residues" "a methylated agarose" ["a porphyran with 3,6-anhydrogalactose residue"] null null +"Porphyrans" "a porphyran" [] null null +"PORPHYRIN-RING" "porphyrin-ring" [] "C20H12N4" 308.342 +"Porphyrins" "a porphyrin" [] "C20H14N4" 310.357 +"Positively-charged-polar-amino-acids" "a positively-charged polar amino acid" [] null null +"Post-Transition-Metal-Cations" "a post transition metal cation" [] null null +"PPI" "diphosphate" ["PPi", "PP", "pyrophosphate"] "HO7P2" 174.951 +"PQQ" "pyrroloquinoline quinone" ["coenzyme PQQ", "4,5-dihydro-4,5-dioxo-1H-pyrrolo[2,3-5,6]quinoline-2,7,9-tricarboxylic acid", "2,7,9-tricarboxy-1H-pyrrolo(2,3-f)quinoline-4,5-dione", "2,4,6-tricarboxylic-pyrrolo[2,3-5,6]quinoline 8,9-quinone", "4,5-dioxo-3α,4,5,6,7,8,9,9β-octahydro-1H pyrrolo[2,3-f]quinoline-2,7,9-tricarboxylate", "4,5-dioxo-4,5-dihydro-1H-pyrrolo[2,3-f]quinoline-2,7,9-tricarboxylate", "PQQ", "methoxatin", "2,7,9-tricarboxy-1H-pyrrolo[2,3-f]quinoline-4,5-dione"] "C14H3N2O8" 327.186 +"Precorrins" "a precorrin" [] null null +"PRECURSOR-Z" "cyclic pyranopterin phosphate" ["precursor Z", "cPMP", "precursor-Z", "8-amino-2,12,12-trihydroxy-4a,5a,6,9,11,11a,12,12a-octahydro[1,3,2]dioxaphosphinino[4',5':5,6]pyrano[3,2-g]pteridin-10(4H)-one 2-oxide", "8-amino-2,12,12-trihydroxy-4,4a,5a,6,9,10,11,11a,12,12a-decahydro-[1,3,2]dioxaphosphinino[4',5':5,6]pyrano[3,2-g]pteridine 2-oxide", "cyclic pyranopterin monophosphate"] "C10H11N5O7P" 344.2 +"PRENOL" "prenol" ["isopentenol", "3-methyl-2-buten-1-ol"] "C5H10O" 86.133 +"Prenols" "a prenol" ["an isoprenoid alcohol"] null null +"Prenylated-Glycans" "a prenylated oligosaccharide" ["a prenylated glycan"] null null +"PRENYLCHALCONES" "a prenylchalcone" ["a prenylflavonoid", "a prenylated chalcone"] null null +"PRENYLFLAVANONES" "a prenylflavanone" ["a prenylated flavanone", "a prenylflavonoid"] null null +"PREPHENATE" "prephenate" [] "C10H8O6" 224.17 +"Primary-Alcohols" "a primary alcohol" ["1-Alcohol"] null null +"Primary-Aliphatic-Amides" "a primary aliphatic amide" [] null null +"Primary-Alkyl-Sulfate-Esters" "a primary alkyl sulfate ester" [] null null +"Primary-Amides" "a primary amide" [] null null +"Primary-Amines" "a primary amine" [] null null +"PRO" "L-proline" ["2-pyrrolidinecarboxylic acid", "P", "proline", "prol", "L-pro"] "C5H9NO2" 115.132 +"PROCOLLAGEN-3-HYDROXY-L-PROLINE" "a [procollagen]-trans-3-hydroxy-L-proline" ["a [procollagen]-3-hydroxy-L-proline"] null null +"PROCOLLAGEN-5-GALACTOSYLOXY-L-LYSINE" "a [procollagen]-(5R)-5-O-(β-D-galactosyloxy)-L-lysine" [] null null +"PROCOLLAGEN-5-HYDROXY-L-LYSINE" "a [procollagen]-(5R)-5-hydroxy-L-lysine" ["a [procollagen] L-erythro-5-hydroxy-L-lysine", "a [procollagen]-5-hydroxy-L-lysine", "a (2S,5R)- 5-hydroxy-L-lysine-[procollagen]"] null null +"PROCOLLAGEN-L-LYSINE" "a [procollagen]-L-lysine" ["an L-lysine-[procollagen]"] null null +"PROCOLLAGEN-L-PROLINE" "a [procollagen]-L-proline" [] null null +"PROGESTERONE" "progesterone" ["pregn-4-ene-3,20-dione"] "C21H30O2" 314.467 +"Progestogens" "a progestogen" [] null null +"Prolipoprotein-Cysteines" "a [prolipoprotein]-L-cysteine" [] null null +"PROPANE-1-2-DIOL" "(S)-propane-1,2-diol" ["(S)-propane-1,2-diol", "(S)-1,2-propane-diol", "(S)-1,2-propanediol", "(S)-1,2-dihydroxypropane", "L-1,2-propanediol"] "C3H8O2" 76.095 +"PROPANOL" "propan-1-ol" ["osmosol extra", "optal", "1-hydroxypropane", "ethylcarbinol", "1-propanol", "n-propanol", "propanol", "propylalcohol"] "C3H8O" 60.096 +"PROPIONATE" "propanoate" ["propionic acid", "ethylformic acid", "methylacetic acid", "propionate"] "C3H5O2" 73.071 +"PROPIONYL-COA" "propanoyl-CoA" ["n-propionyl-CoA", "propionyl-CoA", "propionyl-coenzyme A"] "C24H36N7O17P3S" 819.566 +"PROPIONYL-P" "propanoyl phosphate" ["propionyl-phosphate", "propanoyl-P", "propionyl-P"] "C3H5O5P" 152.043 +"Prostaglandins" "a prostaglandin" [] null null +"Prostanoids" "a prostanoid" [] null null +"Prot-1-hydroxy-2-oxopropylalanine" "an [HMP-P synthase]-3-(2-hydroxyacetyl)-L-alanine" [] null null +"Prot-Alanines" "a [protein]-L-alanine" ["a peptidyl-L-alanine"] null null +"PROT-CYS" "a [protein]-L-cysteine" ["peptide cysteine", "peptidyl cysteine", "[enzyme]-cysteine", "protein-cysteine"] null null +"Prot-Glycinamides" "a [protein] C-terminal glycinamide" ["a peptidyl C-terminal glycinamide"] null null +"Protein-2-amino-5-hydroxy-6-oxohexanoate" "a [protein]-(S)-2-amino-5-hydroxy-6-oxohexanoate" [] null null +"Protein-3-Hydroxy-L-Arginines" "a [protein]-(3R)-3-hydroxy-L-arginine" [] null null +"Protein-3S-hydroxy-L-lysine" "a [protein]-(3S)-3-hydroxy-L-lysine" [] null null +"Protein-5-hydroxy-L-lysine" "a [protein]-5-hydroxy-L-lysine" [] null null +"Protein-6-N-octanoyl-lysine" "a protein 6-N-(octanoyl)lysine" [] null null +"Protein-alpha-D-mannosyl-L-Thr" "O2-(α-D-mannosyl)-L-threonyl-[protein]" [] null null +"Protein-alpha-L-Glutamates" "a [protein]-α-L-glutamate" ["a peptidyl-glutamate", "a peptidyl-L-glutamate"] null null +"Protein-Amino-Acids" "a [protein]-amino acid" ["protein amino acid", "a peptidyl amino acid", "an amino acid within a protein"] null null +"Protein-Arginine-Aminocarbinol" "an Nω-(1-hydroxy-2-oxopropyl)-[protein]-L-arginine" [] null null +"Protein-Arginine-Imidazolidine" "a [protein]-L-lysine-N-2-(4,5-dihydro-4-methyl-1H-imidazol-4,5-diol)" [] null null +"Protein-Arginine-MGH1" "a [protein]-L-lysine-N-2-(4,5-dihydro-4-methyl-1H-imidazol-5-one)" ["a [protein]-L-lysine-N-MG-H1"] null null +"Protein-bound-uremic-retention-solutes" "a protein-bound uremic retention solute" [] null null +"Protein-C-terminal-L-Arginine" "a [peptide]-with a C-terminal L-arginine" ["a [protein]-with a C-terminal L-arginine"] null null +"Protein-C-terminal-L-glutamine" "a [protein] C-terminal L-glutamine" ["an α-N-peptidyl-L-glutamine", "a [protein] with C-terminal α-L-glutamine"] null null +"PROTEIN-C-TERMINAL-S-ETC-CYSTEINE" "a [protein] C-terminal S-farnesyl-L-cysteine" [] null null +"PROTEIN-C-TERMINAL-S-FARNESYL-L-CYSTEINE" "a [protein] C-terminal S-farnesyl-L-cysteine methyl ester" [] null null +"Protein-Cysteine-Hemithioacetal" "an S-(1-hydroxy-2-oxopropyl)-[protein]-L-cysteine" [] null null +"Protein-D-amino-Acids" "a [protein]-D-amino acid" ["a peptidyl-L-amino acid", "a D-amino acid within a protein"] null null +"Protein-D-serines" "a [protein]-D-serine" [] null null +"Protein-disaccharide-L-ser" "a 3-O-[α-D-glucosyl-(1→3)-N,N'-diacetyl-β-D-bacillosaminyl]-(Ser)-[protein]" [] null null +"Protein-Disulfides" "an intra-protein disulfide" ["a protein disulfide", "a [protein] carrying a disulfide bond"] null null +"Protein-Dithiols" "two reduced cysteine residues in a protein" ["a protein dithiol", "a [protein] with reduced L-cysteine residues"] null null +"Protein-flavinated-threonines" "a [protein]-FMN-L-threonine" [] null null +"Protein-formylglycine" "a [sulfatase]-3-oxo-L-alanine" ["a [sulfatase]-Cα-formylglycine"] null null +"Protein-GalNAc-GlcNAc-D-Man-6P-L-Thr" "O2-[N-acetyl-β-D-galactosaminyl-(1→3)-N-acetyl-β-D-glucosaminyl-(1→4)-α-D-(6-phospho)mannosyl]-L-threonyl-[protein]" [] null null +"Protein-GalNAc-GlcNAc-D-mannosyl-L-Thr" "O2-[N-acetyl-β-D-galactosaminyl-(1→3)-N-acetyl-β-D-glucosaminyl-(1→4)-α-D-mannosyl]-L-threonyl-[protein]" [] null null +"Protein-gamma-glutamates" "a [protein]-γ-L-glutamate" [] null null +"Protein-GlcNAc-alpha-D-mannosyl-L-Thr" "O2-[N-acetyl-β-D-glucosaminyl-(1→4)-α-D-mannosy]-L-threonyl-[protein]" [] null null +"Protein-Glutamates" "a [protein]-L-glutamate" ["a peptidyl-glutamate", "a peptidyl-L-glutamate", "a [protein]-α-L-glutamate"] null null +"Protein-Glycines" "a [protein]-glycine" [] null null +"Protein-heptasaccharide-L-asn" "a [protein]-N4-heptasaccharide-L-asparagine" ["GalNAc-α1,4-GalNAc-α1,4-[Glc-β1,3-]GalNAc-α1,4-GalNAc-α1,4-GalNAc-α1,3-Bac-β1,N-Asn"] null null +"Protein-Histidines" "a [protein]-L-histidine" ["a peptidyl L-histidine"] null null +"Protein-hydroxyprolines" "a [protein]-trans-4-hydroxy-L-proline" ["a [protein]-(2S,4R)-4-hydroxy-L-proline"] null null +"Protein-L-amino-Acids" "a [protein]-L-amino acid" ["a peptidyl-L-amino acid", "an L-amino acid within a protein"] null null +"Protein-L-Arginines" "a [protein]-L-arginine" ["protein-L-arginine"] null null +"Protein-L-Asparagine" "a [protein]-L-asparagine" [] null null +"Protein-L-Aspartates" "a [protein]-L-aspartate" [] null null +"PROTEIN-L-BETA-ISOASPARTATES" "a [protein]-L-β-isoaspartate" [] null null +"PROTEIN-L-BETA-ISOSPARTATE-METHYL-ESTERS" "a protein L-β-isoaspartate α-methyl ester" [] null null +"PROTEIN-L-CITRULLINE" "a [protein]-L-citrulline" [] null null +"protein-L-glutamate-O4-methyl-ester" "a [protein]-L-glutamate-O5-methyl-ester" ["MCP-L-glutamate-O5-methyl-ester", "protein-L-glutamate methyl-ester"] null null +"Protein-L-glutamine" "a [protein]-L-glutamine" ["L-glutaminyl-peptide"] null null +"Protein-L-Leucine" "a [protein]-L-leucine" [] null null +"Protein-L-lysine" "a [protein]-L-lysine" ["an [enzyme]-lysine"] null null +"Protein-L-methionine" "a [protein]-L-methionine" [] null null +"Protein-L-methionine-R-S-oxides" "a protein-L-methionine-(R)-S-oxide" ["a peptide-L-methionine-(R)-S-oxide"] null null +"Protein-L-Methionine-S-Oxides" "a protein-L-methionine-S-oxide" ["a peptide-L-methionine-S-oxide"] null null +"Protein-L-methionine-S-S-oxides" "a protein-L-methionine-(S)-S-oxide" ["a peptide-L-methionine-(S)-S-oxide"] null null +"Protein-L-phenylalanine" "a [protein]-L-phenylalanine" ["a peptide phenylalanine"] null null +"Protein-L-serine-or-L-threonine" "a [protein] Ser/Thr" ["a [protein]-(L-serine/L-threonine)", "a [protein]-L-serine/L-threonine"] null null +"Protein-L-serines" "a [protein]-L-serine" [] null null +"Protein-L-valine" "a [protein]-L-valine" [] null null +"PROTEIN-LIPOYLLYSINE" "a [glycine-cleavage complex H protein] N6-[(R)-lipoyl]-L-lysine" [] null null +"Protein-Lysine-Aminocarbinol" "an N6-(1-hydroxy-2-oxopropyl)-[protein]-L-lysine" [] null null +"Protein-Modified-Amino-Acids" "a modified amino acid within a protein" [] null null +"Protein-N-acetyl-D-glucosamin-L-serine" "an N-acetyl-β-D-glucosaminyl-L-serine-[glycoprotein]" ["[protein]-3-O-(N-acetyl-D-glucosaminyl)-L-serine"] null null +"Protein-N-acetyl-D-glucosamine-L-thr" "an N-acetyl-β-D-glucosaminyl-L-threonine-[glycoprotein]" ["[protein]-3-O-(N-acetyl-D-glucosaminyl)-L-threonine"] null null +"Protein-N-methyl-histidines" "a [protein] Nτ-methyl-histidine" ["a [protein] 3-N-methylhistidine", "a [protein] 3-methylhistidine", "a [protein] N3-methyl-histidine"] null null +"Protein-N-Nprime-omega-dimethyl-arginine" "[protein]-Nω,N'ω-dimethyl-L-arginine" ["[protein]-symmetric dimethylarginine", "[protein]-N6,N'6-dimethyl-L-arginine", "[protein]-NG,N'G-dimethyl-L-arginine"] null null +"Protein-N-omega-dimethyl-arginine" "[protein]-Nω,Nω-dimethyl-L-arginine" ["[protein]-asymmetric dimethylarginine", "[protein]-N6,N6-dimethyl-L-arginine", "[protein]-NG,NG-dimethyl-L-arginine"] null null +"Protein-N-omega-methyl-arginine" "[protein]-Nω-methyl-L-arginine" ["[protein]-N6-methyl-L-arginine", "[protein]-NG-methyl-L-arginine"] null null +"PROTEIN-N-SAMP-LYSINE" "an N6-SAMP-[protein]-L-lysine" [] null null +"Protein-N-terminal-L-Arginine" "an N-terminal arginyl-[protein]" [] null null +"Protein-N-terminal-L-Lysine" "an N-terminal L-lysyl-[protein]" ["a [protein] N-terminal L-lysine"] null null +"Protein-N-terminal-L-threonine" "an N-terminal L-threonyl-[protein]" ["a [protein] N-terminal L-threonine"] null null +"Protein-N-terminal-N-Ac-L-threonine" "an N-terminal Nα-acetyl-L-threonyl-[protein]" ["a [protein] N-terminal Nα-acetyl-L-threonine"] null null +"Protein-N-trimethyl-L-lysine" "a [protein] N6,N6,N6-trimethyl-L-lysine" [] null null +"PROTEIN-N-UBIQUITYL-LYSINE" "a [protein]-N6-monoubiquitinyl-L-lysine" [] null null +"Protein-N5-alkylglutamines" "a protein-N5-alkylglutamine" [] null null +"Protein-N5-methyl-arginine" "[protein]-N5-methyl-L-arginine" ["[protein]-Nδ-methyl-L-arginine"] null null +"Protein-N5-methyl-L-glutamine" "a [protein]-N5-methyl-L-glutamine" [] null null +"Protein-N6-5-glutamyl-lysine-crosslinks" "a protein with an N6-(γ-glutamyl)-L-lysine crosslink" [] null null +"Protein-N6-5-glutamyl-serotonin" "a [protein] N6-[(5-hydroxy-1H-indol-3-yl)ethyl]-L-glutamine" [] null null +"Protein-nitrosothiol-L-alanine" "a [protein] 3-nitrosothio-L-alanine" [] null null +"Protein-phospho-fructosamines" "a [protein]-N6-(3-O-phospho-D-fructosyl)-L-lysine" [] null null +"Protein-phospho-L-histidines" "a [protein]-N-phospho-L-histidine" [] null null +"Protein-Phosphoserines" "a [protein] L-serine phosphate" ["a [protein] L-phosphoserine"] null null +"Protein-Phosphothreonines" "a [protein] L-threonine phosphate" [] null null +"Protein-pi-phospho-L-histidines" "a [protein]-Nπ-phospho-L-histidine" ["a [protein]-N-phosphohistidine"] null null +"Protein-Prolines" "a [protein]-L-proline" [] null null +"Protein-S-Acetyl-Cysteines" "a [protein] S-acetyl-L-cysteine" [] null null +"Protein-S-Acyl-Cysteines" "a [protein] S-acyl-L-cysteine" [] null null +"Protein-S-farnesyl-L-cysteines" "a [protein] S-farnesyl-L-cysteine" ["a farnesylated protein", "a [protein]-S-farnesyl-L-cysteine"] null null +"PROTEIN-S-HYDROXY-CYSTEINE" "a [protein]-S-hydroxy-L-cysteine" [] null null +"Protein-S-methyl-L-cysteine" "a [protein]-S-methyl-L-cysteine" [] null null +"Protein-Ser-or-Thr-phosphate" "a [protein] (L-serine/L-threonine) phosphate" [] null null +"Protein-Serines" "a [protein]-serine" [] null null +"Protein-tauphospho-L-histidines" "a [protein]-Nτ-phospho-L-histidine" [] null null +"Protein-trisaccharide-L-ser" "a 3-O-[β-D-galactosyl-(1→4)-α-D-galactosyl-(1→3)-N,N'-diacetyl-β-D-bacillosaminyl]-(Ser)-[protein]" [] null null +"Protein-tyrosine-O-sulfates" "a protein L-tyrosine-O-sulfate" [] null null +"Protein-tyrosine-phosphates" "a [protein]-L-tyrosine phosphate" ["a [protein] tyrosine phosphate"] null null +"Protein-Tyrosines" "a [protein]-L-tyrosine" ["a protein tyrosine", "protein tyrosine"] null null +"Proteins-hydroxyproline-arabinofuranoses" "a [protein]-trans-4-(β-L-arabinofuranosyl)oxy-L-proline" [] null null +"Proteins-L-Threonines" "a [protein]-L-threonine" [] null null +"Proteins-With-C-Terminal-Ser" "a [protein] C-terminal L-serine" [] null null +"Proteins-With-N-Terminal-Asp" "an N-terminal L-aspartyl-[protein]" ["a [protein] N-terminal L-aspartate"] null null +"Proteoglycans" "a proteoglycan" [] null null +"PROTOHEME" "protoheme" ["protoheme IX", "ferroprotoporphyrin IX", "ferroheme b"] "C34H30N4O4Fe" 614.482 +"PROTON" "H+" ["hydrogen ion", "proton", "H"] "H" 1.008 +"Protopanaxadiol-type-3OH-ginsenosides" "a protopanaxadiol-type ginsenoside with no glycosidic modification at position 3" [] null null +"Protopanaxadiol-type-ginsenosides" "a protopanaxadiol-type ginsenoside" [] null null +"Protopanaxatriol-type-6OH-ginsenosides" "a protopanaxatriol-type ginsenoside with no glycosidic modification at position 6" [] null null +"Protopanaxatriol-type-ginsenosides" "a protopanaxatriol-type ginsenoside" [] null null +"PROTOPORPHYRINOGEN" "protoporphyrinogen IX" ["protoporphyrinogen"] "C34H38N4O4" 566.699 +"PROTOPORPHYRIN_IX" "protoporphyrin IX" [] "C34H32N4O4" 560.651 +"PRPP" "5-phospho-α-D-ribose 1-diphosphate" ["5-phosphoribosyl 1-pyrophosphate", "5-phosphoribosyl diphosphate", "5-phosphoribosyl-1-PP", "5-phosphoribosyl-PP", "5-phosphoribosyl-1-pyrophosphate", "5-phosphoribosylpyrophosphate", "phosphoribosylpyrophosphate", "5-phospho-ribosyl-pyrophosphate", "α-D-5-phosphoribosylPP", "α-D-5-P-RibosylPP"] "C5H8O14P3" 385.031 +"Pseudo-Compounds" "a pseudo compound" [] null null +"Pseudomonic-Acids" "a pseudomonate" ["a pseudomonic acid"] null null +"Pseudomonoyl-CoAs" "a pseudomonoyl-CoA" ["mupirocin-CoA"] null null +"PSEUDOURIDINE-5-P" "pseudouridine 5'-phosphate" [] "C9H11N2O9P" 322.168 +"Pseudouridines" "a pseudouridine nucleotide" [] null null +"PSICOSE" "keto-D-psicose" ["D-ribo-2-ketohexose", "D-ribo-2-hexulose", "erythrohexulose", "D-allulose", "psicose", "pseudofructose", "D-altrulose"] "C6H12O6" 180.157 +"PSICOSELYSINE" "N6-(D-psicosyl)-L-lysine" ["psicoselysine"] "C12H25N2O7" 309.339 +"PTERIDINE-RING" "pteridine-ring" [] "C6H4N4" 132.124 +"Pteridines" "a pteridine" [] null null +"Pterins" "a pterin" [] null null +"Pteroates" "a pteroate" [] null null +"PTEROCARPANS" "a pterocarpan" [] null null +"PTS-I-Histidines" "a [PTS enzyme I]-L-histidine" [] null null +"PTS-I-pi-phospho-L-histidines" "a [PTS enzyme I]-Nπ-phospho-L-histidine" [] null null +"Pullulans" "pullulan" [] null null +"Punicoyl-Lipid" "a [glycerolipid]-punicate" ["a [glycerolipid]-(9Z,11E,13Z)-octadeca-9,11,13-trienoate", "a punicoyl-[glycerolipid]", "a [glycerolipid]-(9Z,11E,13Z)-octadecatrienoate"] null null +"Pup-C-terminal-L-glutamate" "a [prokaryotic ubiquitin-like protein] C-terminal L-glutamate" [] null null +"Pup-C-terminal-L-glutamine" "a [prokaryotic ubiquitin-like protein] C-terminal L-glutamine" [] null null +"PURINE" "purine" [] "C5H4N4" 120.113 +"Purine-Bases" "a purine base" ["purine base"] null null +"Purine-Deoxyribonucleosides" "a purine 2'-deoxyribonucleoside" [] null null +"Purine-deoxyribonucleosides-5-P" "a purine 2'-deoxyribonucleoside 5'-monophosphate" [] null null +"Purine-deoxyribonucleosides-5-PP" "a purine 2'-deoxyribonucleoside 5'-diphosphate" [] null null +"Purine-deoxyribonucleosides-5-PPP" "a purine 2'-deoxyribonucleoside 5'-triphosphate" [] null null +"Purine-deoxyribonucleotides" "a purine 2'-deoxyribonucleotide" [] null null +"Purine-Nucleosides" "a purine nucleoside" [] null null +"Purine-Nucleotides" "a purine nucleotide" [] null null +"Purine-Related" "a purine-related compound" [] null null +"Purine-Ribonucleosides" "a purine ribonucleoside" ["nebularine", "purine riboside", "an N-D-ribosyl-purine"] null null +"Purine-ribonucleosides-5-P" "a purine ribonucleoside 5'-monophosphate" [] null null +"Purine-ribonucleosides-5-PP" "a purine ribonucleoside 5'-diphosphate" ["RDP", "purine-diphosphate", "a purine diphosphate"] null null +"Purine-ribonucleosides-5-PPP" "a purine ribonucleoside 5'-triphosphate" [] null null +"Purine-ribonucleosides-5-PPPP" "a purine ribonucleoside 5'-tetraphosphate" [] null null +"Purine-ribonucleotides" "a purine ribonucleotide" [] null null +"PURINE-RING" "purine-ring" [] "C5H4N4" 120.113 +"Purine-Triphosphates" "a purine triphosphate" ["RTP"] null null +"Purines" "a purine" ["a purine-related compound"] null null +"PUROMYCIN" "puromycin" [] "C22H30N7O5" 472.523 +"PUTRESCINE" "putrescine" ["diaminobutane", "1,4-diaminobutane", "1,4-butanediamine", "tetramethylenediamine"] "C4H14N2" 90.168 +"Pyoverdines" "a pyoverdine" [] null null +"Pyranosides" "a pyranoside" [] null null +"Pyranuronates" "a pyranuronate" ["a pyranuronic acid"] "C6H9O7" null +"PYRAZINAMIDE" "pyrazinamide" ["pyrazinecarboxamide", "pyrazinoic acid amide", "pyrazine carboxylamide"] "C5H5N3O" 123.114 +"PYRAZINOIC-ACID" "pyrazine-2-carboxylate" ["pyrazinoate", "pyrazinoic acid", "pyrazinecarboxylic acid", "pyrazinemonocarboxylic acid"] "C5H3N2O2" 123.091 +"PYRAZOLE" "pyrazole" ["1,2-diazole"] "C3H4N2" 68.078 +"PYRIDINE" "pyridine" [] "C5H5N" 79.101 +"PYRIDINE-RING" "pyridine-ring" [] "C5H5N" 79.101 +"Pyridines" "a pyridine" [] null null +"PYRIDOXAL" "pyridoxal" [] "C8H9NO3" 167.164 +"PYRIDOXAL_PHOSPHATE" "pyridoxal 5'-phosphate" ["pyridoxal phosphate", "pyridoxal-5P", "pyridoxal 5-phosphate", "pyridoxal-P", "vitamin B6"] "C8H8NO6P" 245.128 +"PYRIDOXAMINE" "pyridoxamine" ["PM"] "C8H13N2O2" 169.203 +"PYRIDOXAMINE-5P" "pyridoxamine 5'-phosphate" ["pyridoxamine phosphate", "PMP"] "C8H12N2O5P" 247.167 +"PYRIDOXINE" "pyridoxine" ["vitamin B6", "2-methyl-3-hydroxy-4,5-bis(hydroxy-methyl) pyridine", "pyridoxol"] "C8H11NO3" 169.18 +"PYRIDOXINE-5P" "pyridoxine 5'-phosphate" ["pyridoxol 5'-phosphate", "pyridoxine 5-phosphate", "pyridoxine phosphate", "pyridoxine-5P", "pyridoxine-P", "[5-hydroxy-4-(hydroxymethyl)-6-methylpyridin-3-yl]methyl phosphate"] "C8H10NO6P" 247.144 +"Pyrimidine-5-Deoxyribonucleosides" "a pyrimidine 5'-deoxyribonucleoside" [] null null +"Pyrimidine-Bases" "a pyrimidine base" ["pyrimidine base"] null null +"Pyrimidine-Deoxyribonucleosides" "a pyrimidine 2'-deoxyribonucleoside" [] null null +"Pyrimidine-deoxyribonucleosides-3-P" "a pyrimidine 2'-deoxyribonucleoside 3'-monophosphate" [] null null +"Pyrimidine-deoxyribonucleosides-5-P" "a pyrimidine 2'-deoxyribonucleoside 5'-monophosphate" [] null null +"Pyrimidine-deoxyribonucleosides-5-PP" "a pyrimidine 2'-deoxyribonucleoside 5'-diphosphate" [] null null +"Pyrimidine-deoxyribonucleosides-5-PPP" "a pyrimidine 2'-deoxyribonucleoside 5'-triphosphate" [] null null +"Pyrimidine-deoxyribonucleotides" "a pyrimidine 2'-deoxyribonucleotide" [] null null +"Pyrimidine-Nucleosides" "a pyrimidine nucleoside" ["an N-D-ribosylpyrimidine", "pyrimidine nucleoside"] null null +"Pyrimidine-nucleotides" "a pyrimidine nucleotide" ["a pyrimidine 5'-nucleotide"] null null +"Pyrimidine-Related" "a pyrimidine-related compound" [] null null +"Pyrimidine-Ribonucleosides" "a pyrimidine ribonucleoside" ["an N-D-ribosylpyrimidine"] null null +"Pyrimidine-ribonucleosides-5-P" "a pyrimidine ribonucleoside 5'-monophosphate" [] null null +"Pyrimidine-ribonucleosides-5-PP" "a pyrimidine ribonucleoside 5'-diphosphate" [] null null +"Pyrimidine-ribonucleosides-5-PPP" "a pyrimidine ribonucleoside 5'-triphosphate" ["a pyrimidine triphosphate"] null null +"Pyrimidine-ribonucleotides" "a pyrimidine ribonucleotide" [] null null +"PYRIMIDINE-RING" "pyrimidine" ["1,3-diazin", "m-diazine", "metadiazine"] "C4H4N2" 80.089 +"Pyrimidines" "a pyrimidine" ["a pyrimidine-related compound"] null null +"Pyrimidodiazepines" "a pyrimidodiazepine" [] null null +"PYROGALLOL" "pyrogallol" ["1,2,3-trihydroxybenzene", "1,2,3-benzenetriol", "C.I. Oxidation Base 32", "C.I. 76515", "fouramine base ap", "Fouramine Brown AP", "fourrine 85", "fourrine PG", "Piral", "Pyro", "pyrogallic acid", "benzene-1,2-3-triol"] "C6H6O3" 126.112 +"PYROPHOSPHATE-GROUP" "a pyrophosphate group" [] "HO7P2" 174.951 +"Pyrophosphate-inositol-phosphates" "a pyrophosphate-containing inositol phosphate" ["a diphospho-myo-inositol pentakisphosphate", "a diphospho-myo-inositol polyphosphate"] null null +"Pyrroles" "a pyrrole" [] "C4H5N" 67.09 +"Pyrrolidine-Diones" "a pyrrolidine dione" [] null null +"Pyrrolidinecarboxamides" "a pyrrolidinecarboxamide" [] null null +"Pyrrolidines" "a pyrrolidine" [] null null +"Pyrrolines" "a pyrroline" [] null null +"PYRUVATE" "pyruvate" ["alpha-ketopropionic acid", "BTS", "α-ketopropionic acid", "acetylformic acid", "pyroracemic acid", "2-oxopropanoic acid", "pyruvic acid", "2-oxopropanoate", "2-oxo-propionic acid"] "C3H3O3" 87.055 +"Pyruvate-dehydrogenase-acetylDHlipoyl" "a [pyruvate dehydrogenase E2 protein] N6-S-acetyldihydrolipoyl-L-lysine" ["an [enzyme] N6-(S-acetyldihydrolipoyl)lysine"] null null +"Pyruvate-dehydrogenase-dihydrolipoate" "a [pyruvate dehydrogenase E2 protein] N6-dihydrolipoyl-L-lysine" [] null null +"Pyruvate-dehydrogenase-L-serine" "a [pyruvate dehydrogenase E1 α subunit]-L-serine" [] null null +"Pyruvate-dehydrogenase-lipoate" "a [pyruvate dehydrogenase E2 protein] N6-lipoyl-L-lysine" [] null null +"Pyruvate-phosphate-dikinase-L-threonine" "a [pyruvate,phosphate dikinase]-L-threonine" [] null null +"Pyruvate-phosphate-dikinase-Thr-P" "a [pyruvate,phosphate dikinase]-phospho-L-threonine" [] null null +"Pyruvoyl-D-Gal-R" "a 4,6-CH3(COO-)C-D-galactoside" [] null null +"Quaternary-Amines" "a quaternary ammonium compound" ["a quaternary ammonium ion", "a quaternary amine"] null null +"Queuine-Nucleotides" "a queuine nucleotide" [] null null +"QUINATE" "L-quinate" ["(-)-quinic acid", "(-)-quinate", "(1S,3R,4S,5R)-1,3,4,5-tetrahydroxycyclohexanecarboxylate"] "C7H11O6" 191.16 +"QUINOLINATE" "quinolinate" ["2,3-pyridinedicarboxylic acid", "2,3-pyridinedicarboxylate", "quinolinic acid", "pyridine-2,3-dicarboxylic acid", "pyridine-2,3-dicarboxylate"] "C7H3NO4" 165.105 +"Quinones" "a quinone" ["quinone"] null null +"Quinovose" "quinovose" [] null null +"R--ALLANTOIN" "(R)-(-)-allantoin" ["R-allantoin"] "C4H6N4O3" 158.116 +"R-2-Haloacids" "an (R)-2-halocarboxylate" ["an (R)-2-haloacid"] null null +"R-2-HYDROXYGLUTARATE" "(R)-2-hydroxyglutarate" ["(R)-2-hydroxyglutaric acid", "(R)-2-hydroxypentanedioic acid", "D-2-hydroxyglutarate"] "C5H6O5" 146.099 +"R-2-METHYLACYL-COA" "a (2R)-2-methylacyl-CoA" [] null null +"R-3-Aryl-Lactates" "a (R)-3-(aryl)lactate" [] null null +"R-4-PHOSPHOPANTOTHENOYL-L-CYSTEINE" "(R)-4'-phosphopantothenoyl-L-cysteine" ["(R)-4'-phospho-N-pantothenoyl-L-cysteine", "4-P-N-pantothenoylcysteine", "4'-P-N-pantothenoylcysteine", "N-((R)-4-phosphopantothenoyl)-L-cysteine", "4'-phosphopantothenoylcysteine", "4'-phospho-N-pantothenoylcysteine", "(R)-4'-phosphopantothenoyl-L-cysteine", "N-[(R)-4'-phosphopantothenoyl]-L-cysteine", "PPC"] "C12H20N2O9PS" 399.332 +"R-OR-S-2-HYDROXYPROPYL-COM" "2-hydroxypropyl-CoM" [] "C5H11O4S2" 199.259 +"R-Secondary-Alkyl-Sulfate-Esters" "an (R)-secondary-alkyl sulfate ester" [] null null +"R2-2OH-Straight-Chain-234-Sat-FA-CoA" "a (R)-2-hydroxy even numbered straight chain 2,3,4-saturated fatty acyl CoA" [] null null +"R2OH-Straight-Chain-234-Sat-FA" "a (2R)-2-hydroxy even numbered straight chain 2,3,4-saturated fatty acid" [] null null +"Radicals" "a radical" ["a free radical"] null null +"RB+" "Rb+" ["rubidium(I)", "RbI"] "Rb" 85.47 +"RBR-Ubiquitin-carrier-protein-E3-L-cys" "an [RBR-type E3 ubiquitin transferase]-L-cysteine" [] null null +"RCR-Ubiquitin-carrier-protein-E3-L-cys" "an [RCR-type E3 ubiquitin transferase]-L-cysteine" [] null null +"Receptor-protein-Ser-or-Thr" "a [receptor protein] Ser/Thr" ["a [receptor protein]-(L-serine/L-threonine)", "a [receptor protein]-L-serine/L-threonine"] null null +"Receptor-Protein-Ser-or-Thr-phosphate" "a [receptor protein] (L-serine/L-threonine) phosphate" [] null null +"Red-Alage-Galactans" "a red algal galactan" [] null null +"Redox-Electron-Carriers" "a redox electron carrier" [] null null +"Reduced-Factor-F420" "a reduced factor 420" ["a reduced cofactor F420", "a reduced coenzyme F420"] null null +"Reduced-Flavins" "a reduced flavin" [] null null +"REDUCED-MENAQUINONE" "menaquinol-8" ["reduced menaquinone-8", "MKH2-8"] "C51H74O2" 719.144 +"Reduced-Quinones" "a quinol" ["quinol", "a quinol", "a hydroquinone", "a reduced quinone"] null null +"Release-factor-L-glutamine" "a [release factor]-L-glutamine" [] null null +"Release-factor-N5-Methyl-L-glutamine" "a [release factor]-N5-methyl-L-glutamine" [] null null +"Resolution-of-Recombinational-Junction" "resolution of recombinational junction formation of two intact strands" [] null null +"RETINAL" "all-trans-retinal" ["vitamin A aldehyde", "retinene", "axerophthal", "retinaldehyde", "retinal", "all-trans-Vitamin A aldehyde", "all-trans-retinene"] "C20H28O" 284.441 +"Retinals" "a retinal" ["Vitamin A", "Vitamin A1"] "C20H28O" 284.441 +"Retinoates" "a retinoate" ["Vitamin A", "a retinoic acid"] "C20H27O2" 299.432 +"Retinoids" "a retinoid" [] null null +"Retinols" "a retinol" ["Vitamin A", "Vitamin A1"] "C20H30O" 286.456 +"Retinyl-Esters" "a retinyl ester" [] null null +"RH-Group" "an organic molecule" ["an organic compound"] null null +"Rha3S" "α-L-rhamnopyranose 3-sulfate" [] "C6H11O8S" 243.208 +"Rhamnogalacturonan-D-galacturonate" "[rhamnogalacturonan I oligosaccharide]-β-D-galacturonate" [] null null +"Rhamnogalacturonan-L-Rhamnose" "[rhamnogalacturonan I oligosaccharide]-α-L-rhamnose" [] null null +"Rhamnogalacturonans-I" "a rhamnogalacturonan type I" ["a rhamnogalacturonan I", "RG-I"] null null +"Rhamnolipids" "a rhamnolipid" [] null null +"RHAMNOSE" "α-L-rhamnopyranose" ["6-deoxy-α-L-mannopyranose", "α-L-mannomethylose", "isodulcit"] "C6H12O5" 164.158 +"Rhamnose" "rhamnose" [] null null +"Rhamnosides" "a rhamnoside" [] null null +"RHAMNULOSE" "L-rhamnulose" ["6-deoxy-L-fructose"] "C6H12O5" 164.158 +"RHAMNULOSE-1P" "L-rhamnulose 1-phosphate" ["L-rhamnulose-1P", "L-rhamnulose-1-P", "6-deoxy-L-fructose 1-phosphate"] "C6H11O8P" 242.122 +"Rhamonsyl-Acceptors" "a rhamnosyl acceptors" [] null null +"Rhamonsylated-Rhamonsyl-Acceptors" "an L-rhamonsylated rhamnosyl acceptor" ["an L-rhamnosylated rhamnosyl donor"] null null +"Rhd-L-Cysteine" "a [Rhd protein]-L-cysteine" [] null null +"RhD-Persulfides" "a [Rhd protein] persulfide" [] null null +"RHg" "an alkylmercury" ["RHg+"] null null +"Rhodoquinols" "a rhodoquinol" [] null null +"Rhodoquinones" "a rhodoquinone" [] null null +"RIBITOL" "ribitol" ["meso-ribitol", "adonitol", "L-ribitol (incorrect)", "D-ribitol (incorrect)"] "C5H12O5" 152.147 +"RIBOFLAVIN" "riboflavin" ["vitamin B2"] "C17H19N4O6" 375.36 +"Ribonucleoside-Diphosphates" "a ribonucleoside diphosphate" ["a nucleoside diphosphate", "ribonucleoside diphosphate", "nucleoside diphosphate"] null null +"Ribonucleoside-Monophosphates" "a ribonucleoside 5'-monophosphate" ["a 5'-ribonucleotide"] null null +"Ribonucleoside-Triphosphates" "a ribonucleoside triphosphate" ["an NTP"] null null +"Ribonucleosides" "a ribonucleoside" ["nucleoside"] null null +"Ribonucleosides-in-RNA" "a ribonucleoside within RNA" [] null null +"Ribonucleosides-in-tRNA" "a ribonucleoside within tRNA" [] null null +"Ribonucleotides" "a ribonucleotide" [] null null +"RIBOSE" "D-ribose" ["ribose"] "C5H10O5" 150.131 +"RIBOSE-15-BISPHOSPHATE" "α-D-ribose 1,5-bisphosphate" ["ribose-1,5-bisphosphate"] "C5H8O11P2" 306.059 +"RIBOSE-1P" "α-D-ribose-1-phosphate" ["D-ribose-1-phosphate", "α-D-ribose-1P", "α-D-ribofuranose 1-phosphate", "ribose-1-phosphate"] "C5H9O8P" 228.095 +"RIBOSE-5P" "D-ribose 5-phosphate" ["D-ribose-5-phosphoric acid", "ribose-5-phosphoric acid", "ribose-5P", "D-ribose-5-P", "ribose-5-P", "D-ribose 5'-phosphate"] "C5H9O8P" 228.095 +"RIBOSE-TRIPHOSPHATE" "D-ribose 5-triphosphate" [] "C5H9O14P3" 386.039 +"Ribosomal-protein-L3-L-glutamine" "a [ribosomal protein L3]-L-glutamine" [] null null +"Ribosomal-protein-L3-N5M-L-glutamine" "a [ribosomal protein L3]-N5-methyl-L-glutamine" [] null null +"Ribosomal-protein-S12-3-methylthio-Asp89" "a [ribosomal protein S12]-3-methylsulfanyl-L-aspartate89" [] null null +"Ribosomal-protein-S12-Asp89" "a [ribosomal protein S12] L-aspartate89" [] null null +"RIBULOSE-5P" "D-ribulose 5-phosphate" ["ribulose-5P", "D-ribulose-5-P", "ribulose-5-P"] "C5H9O8P" 228.095 +"Ribulose-phosphates" "L(or D)-ribulose 5-phosphate" [] "C5H9O8P" 228.095 +"Ribuloses" "ribulose" [] "C5H10O5" 150.131 +"Rifamycins" "a rifamycin" [] null null +"RING-Ubiquitin-carrier-protein-E3-L-cys" "a [RING-type E3 ubiquitin-carrier protein]-L-cysteine" [] null null +"Rings" "a ring" [] null null +"RNA-2-3-Cyclic-Nucleotide-Phosphate" "an [oligo-ribonucleotide RNA]-2',3'-cyclo nucleotide phosphate" [] null null +"RNA-21" "an N1-methylguanine745 in 23S rRNA" [] null null +"RNA-3-prime-P-cyclase-L-His-adenylate" "an [RNA 3'-phosphate cyclase]-Nτ-(5'-adenylyl)-L-histidine" ["a 5'-adenosyl [RNA 3'-phosphate cyclase]-Nτ-phosphono-L-histidine"] null null +"RNA-3-prime-P-cyclase-L-histidine" "an [RNA 3'-phosphate cyclase]-L-histidine" [] null null +"RNA-3-prime-P-cyclase-L-lysine-adenylate" "an [RNA 3'-phosphate cyclase]-L-lysine-adenylate" [] null null +"RNA-3-prime-P-cyclase-L-lysine-guanylate" "a 5'-guanosyl [RNA 3'-phosphate cyclase]-Nτ-phosphono-L-histidine" [] null null +"RNA-3-prime-phosphate-cyclase-L-lysine" "an [RNA 3'-phosphate cyclase]-L-lysine" [] null null +"RNA-Adenines" "an adenine in RNA" [] null null +"RNA-Cytosines" "a cytosine in RNA" ["a RNA cytosine"] null null +"RNA-Holder" "a ribonucleic acid" ["RNA"] null null +"RNA-Ligase-L-histidine" "an [RNA ligase]-L-histidine" [] null null +"RNA-Ligase-L-histidine-guanylate" "an [RNA ligase]-Nτ-(5'-guanosyl-phosphono)-L-histidine" [] null null +"RNA-Ligase-L-lysine" "an [RNA ligase]-L-lysine" [] null null +"RNA-Ligase-L-lysine-adenylate" "a [DNA ligase]-N6-(5'-adenylyl)-L-lysine" ["a 5'-adenosyl [RNA ligase]-Nε-phosphono-L-lysine"] null null +"RNA-Uracils" "a uracil in RNA" [] null null +"RNAs-Hypoxanthines" "a hypoxanthine in RNA" ["a RNA hypoxanthine"] null null +"Rotenoids" "a rotenoid" [] "C16H12O3" 252.269 +"rRNA-Adenines" "an adenine in rRNA" ["a rRNA adenine"] null null +"rRNA-Adenosines" "a rRNA adenosine" [] null null +"rRNA-Containing-2-O-Methylguanosine" "a 2'-O-methylguanosine in rRNA" ["an rRNA containing 2'-O-methylguanosine"] null null +"rRNA-Cytidines" "a cytidine in rRNA" ["a rRNA cytidine"] null null +"rRNA-Cytosines" "a cytosine in rRNA" ["a rRNA cytosine"] null null +"rRNA-Guanines" "a guanine in rRNA" ["rRNA guanine"] null null +"rRNA-Guanosines" "a guanosine in rRNA" [] null null +"rRNA-Holder" "an rRNA" [] null null +"rRNA-Pseudouridines" "a pseudouridine in rRNA" ["rRNA containing pseudouridine", "an rRNA pseudouridine"] null null +"rRNA-Uracil" "a uracil in rRNA" [] null null +"rRNA-uridines" "a uridine in rRNA" ["an rRNA uridine"] null null +"RS-3-Sulfolactate" "3-sulfolactate" [] "C3H4O6S" 168.121 +"RS-Malate" "(RS)-malate" ["(RS)-malic acid", "DL-apple acid", "DL-malic acid", "hydroxysuccinic acid", "hydroxybutanedioic acid", "malic acid", "DL-malate", "malate", "2-hydroxybutanedioate"] "C4H4O5" 132.073 +"Rubbers" "rubber" ["natural rubber"] null null +"Rubisco-lysine" "a [ribulose-1,5-bisphosphate-carboxylase]-lysine" [] null null +"Rubisco-trimethylated-lysine" "a [ribulose-1,5-bisphosphate-carboxylase]-N6,N6,N6-trimethyl-L-lysine" [] null null +"S-2-AMINOETHYL-L-CYSTEINE" "S-(2-aminoethyl)-L-cysteine" ["4-thialysine", "S-L-aminoethyl cysteine", "γ-thialysine", "thialysine", "aminoethylcysteine", "2-aminoethylcysteine", "thiosine"] "C5H13N2O2S" 165.23 +"S-2-Haloacids" "an (S)-2-halocarboxylate" ["an (S)-2-haloacid"] null null +"S-2-Hydroxyacids1" "an (S)-2-hydroxycarboxylate" ["an (S)-2-hydroxyacid"] null null +"S-2-METHYLACYL-COA" "a (2S)-2-methylacyl-CoA" [] null null +"S-24-DINITROPHENYLGLUTATHIONE" "2,4-dinitrophenyl-S-glutathione" ["DNP-SG", "S-(2,4-dinitrophenyl)glutathione"] "C16H18N5O10S" 472.406 +"S-3-HYDROXYACYL-N-ACYLTHIOETHANOLAMINE" "a S-3-hydroxyacyl-N-acylthioethanolamine" [] null null +"S-3-HYDROXYACYLHYDROLIPOATE" "a S-3-hydroxyacylhydrolipoate" [] null null +"S-3-HYDROXYBUTANOYL-COA" "(S)-3-hydroxybutanoyl-CoA" ["L-3-hydroxybutyryl-CoA"] "C25H38N7O18P3S" 849.593 +"S-ACETYLDIHYDROLIPOAMIDE" "S-acetyldihydrolipoamide" ["6-S-Acetyldihydrolipoamide"] "C10H19NO2S2" 249.386 +"S-ACETYLPHOSPHOPANTETHEINE" "S-acetyl phosphopantetheine" ["[3-[2-(2-acetylsulfanylethylcarbamoyl)ethylcarbamoyl]-3-hydroxy- 2,2-dimethyl-propoxy]phosphonic acid"] "C13H23N2O8PS" 398.367 +"S-ACYLGLUTATHIONE" "an S-acylglutathione" [] null null +"S-ADENOSYL-4-METHYLTHIO-2-OXOBUTANOATE" "S-adenosyl-4-methylsulfanyl-2-oxobutanoate" ["S-adenosyl-4-methylthio-2-oxobutanoate"] "C15H19N5O6S" 397.405 +"S-ADENOSYLMETHIONINAMINE" "S-adenosyl 3-(methylsulfanyl)propylamine" ["S-adenosyl-(5')-3-methylthiopropylamine", "dcSAM", "decarboxylated AdoMet", "(5-deoxy-5-adenosyl)(3-aminopropyl) methylsulfonium salt", "decarboxylated SAM", "S-adenosylmethioninamine", "decarboxylated S-adenosylmethionine", "S-methyl-S-adenosyl homocysteamine", "3-amino-propyl-S-adenosine", "S-adenosyl-L-methioninamine", "S-adenosyl 3-(methylthio)propylamine"] "C14H24N6O3S" 356.442 +"S-ADENOSYLMETHIONINE" "S-adenosyl-L-methionine" ["(S)-S-adenosyl-L-methionine", "AdoMet", "SAM", "2-S-adenosyl-L-methionine", "S-adenosyl-methionine", "adenosylmethionine", "S-adenosylmethionine"] "C15H23N6O5S" 399.444 +"S-Alkyl-L-Cysteine-S-Oxides" "an S-alkyl-L-cysteine S-oxide" [] null null +"S-Alkyl-L-Cysteines" "an S-alkyl-L-cysteine" [] null null +"S-ALKYL-THIOSULFATE" "an S-alkyl thiosulfate" [] null null +"S-ALLANTOIN" "(S)-(+)-allantoin" ["S-allantoin"] "C4H6N4O3" 158.116 +"S-CARBOXYMETHYL-D-CYSTEINE" "S-carboxymethyl-D-cysteine" [] "C5H8NO4S" 178.182 +"S-CITRAMALATE" "(S)-citramalate" ["α-methylmalate", "(S)-2-methylmalic acid", "(3S)-citramalate", "(3S)-citramalic acid", "(3S)-α-hydroxypyrotartaric acid", "(S)-2-methylmalate", "L-citramalic acid", "L-α-hydroxypyrotartaric acid", "L-citramalate", "S-citramalic acid", "S-α-hydroxypyrotartaric acid", "L-(+)-citramalate"] "C5H6O5" 146.099 +"S-FORMYCINYLHOMOCYSTEINE" "S-formycinylhomocysteine" [] "C14H20N6O5S" 384.409 +"S-GERANYLGERANYL-PROTEIN" "a [protein]-S-geranylgeranyl-L-cysteine" [] null null +"S-glycosyl-compounds" "an S-glycosyl compound" [] null null +"S-HYDROXYMETHYLGLUTATHIONE" "S-(hydroxymethyl)glutathione" ["HMGSH", "HM-GSH", "GS-CH2-OH", "(hydroxymethyl)glutathione"] "C11H18N3O7S" 336.339 +"S-LACTOYL-GLUTATHIONE" "(R)-S-lactoylglutathione" ["S-D-lactoylglutathione", "D-lactoylglutathione"] "C13H20N3O8S" 378.376 +"S-METHYL-L-CYSTEINE" "S-methyl-L-cysteine" [] "C4H9NO2S" 135.181 +"S-METHYLGLUTATHIONE" "S-methylglutathione" ["γ-L-glutamyl-(S-methyl)-L-cysteinyl-glycine"] "C11H18N3O6S" 320.34 +"S-NITROSOGLUTATHIONE" "S-nitrosoglutathione" ["GSNO"] "C10H15N4O7S" 335.311 +"S-palmitoyl-L-cysteine-in-proteins" "a [protein]-S-palmitoyl-L-cysteine" ["a palmitoylated protein"] null null +"S-Secondary-Alcohols" "an (S)-secondary alcohol" [] null null +"S-Substituted-Glutamyl-Cysteine" "a [γ-glutamyl-L-cysteine]-S-conjugate" ["a [γ-Glu-Cys]-S-conjugate", "a [γ-glutamylcysteine]-S-conjugate"] null null +"S-Substituted-Glutathione" "a glutathione-S-conjugate" ["S-substituted glutathione", "R-S-G"] null null +"S-Substituted-L-Cysteines" "an L-cysteine-S-conjugate" ["a cysteine-S-conjugate", "an S-substituted-L-cysteine", "an L-cysteine conjugate"] null null +"s-Triazines" "s-triazine" [] "C3H3N3" 81.077 +"S-TUBERCIDINYLHOMOCYSTEINE" "S-tubercidinylhomocysteine" ["(S)-7-(5-S-(3-amino-3-carboxypropyl)-5-thio-β-D-ribofuranosyl)-7H-pyrrolo(2,3-d)pyrimidin-4-amine"] "C15H21N5O5S" 383.421 +"S-ubi-E3-independent-UCP-E2-L-cysteine" "S-ubiquitinyl-[E3-independent ubiquitin-carrier protein E2]-L-cysteine" [] null null +"S-ubi-N-term-specific-UCP-E2-L-cysteine" "an [N-terminal E2 ubiquitin-conjugating enzyme]-S-ubiquitinyl-L-cysteine" ["an [N-terminal ubiquitin-conjugating enzyme E2]-S-ubiquitinyl-L-cysteine"] null null +"S-ubiquitinyl-E3-independent-E2-Cys" "an [(E3-independent) E2 ubiquitin-conjugating enzyme]-S-ubiquitinyl-L-cysteine" ["an [(E3-independent) ubiquitin-conjugating enzyme E2]-S-ubiquitinyl-L-cysteine"] null null +"S-ubiquitinyl-HECT-E3-UCP-L-cysteine" "a [HECT-type E3 ubiquitin transferase]-S-ubiquitinyl-L-cysteine" [] null null +"S-ubiquitinyl-UAP-E1-L-cysteine" "an [E1 ubiquitin-activating enzyme]-S-ubiquitinyl-L-cysteine" ["a [ubiquitin-activating enzyme E1]-S-ubiquitinyl-L-cysteine", "a [ubiquitin-activating E1 enzyme]-S-ubiquitinyl-L-cysteine"] null null +"S-ubiquitinyl-UCP-E2-L-cysteine" "an [E2 ubiquitin-conjugating enzyme]-S-ubiquitinyl-L-cysteine" ["an [ubiquitin-conjugating enzyme E2]-S-ubiquitinyl-L-cysteine"] null null +"S18-N-terminal-L-alanine" "an N-terminal L-alanyl-[S18 protein of 30S ribosome]" [] null null +"S2O3" "thiosulfate" ["S2O3", "S2O3-", "HS2O3-"] "HO3S2" 113.126 +"S2O4" "dithionite" ["S2O42-", "hydrosulfite"] "O4S2" 128.118 +"S5-N-terminal-L-alanine" "an N-terminal L-alanyl-[S5 protein of 30S ribosome]" [] null null +"Salinosporamides" "a salinosporamide" [] null null +"Salmochelins" "a salmochelin" [] null null +"Salts" "a salt" [] null null +"SAMP-activating-protein-E1-L-cys" "an [E1 SAMP-activating enzyme]-L-cysteine" ["a [SAMP-activating enzyme E1]-L-cysteine"] null null +"SAMP-C-Terminal-adenylate" "a carboxyadenylated [SAMP] C-terminal glycine" [] null null +"SAMP-C-Terminal-Glycine" "a [SAMP] C-terminal glycine" ["a C-terminal [SAMP]-glycine"] null null +"SAMP-C-Terminal-thiol" "a thiocarboxylated [SAMP] C-terminal glycine" ["a [SAMP]-Gly-NH-CH2-C(O)SH"] null null +"Saponins" "a saponin" [] null null +"SARCOSINE" "sarcosine" ["N-methylglycine"] "C3H7NO2" 89.094 +"Saturated-2-Lysophosphatidates" "a 2,3,4-saturated 2-lysophosphatidate" ["1-acyl-sn-glycerol 3-phosphate", "acyl-sn-glycerol-3P", "acyl-sn-glycerol 3-phosphate", "a 1-acyl-sn-glycero 3-phosphate", "an acyl-sn-glycerol-3P", "an acyl-sn-glycerol 3-phosphate", "a 1-acyl-sn-glycerol-3P"] null null +"Saturated-Fatty-Acids" "a saturated fatty acid" [] null null +"Saturated-Fatty-Acyl-CoA" "a 2,3,4-saturated fatty acyl CoA" [] null null +"SE-2" "selenide" ["selenide ion", "Se-2"] "Se" 78.96 +"Secondary-Alcohols" "a secondary alcohol" [] null null +"Secondary-Amines" "a secondary amine" [] null null +"Secondary-Metabolites" "a secondary metabolite" [] null null +"SEDOHEPTULOSE" "D-sedoheptulose" ["D-glucoheptulose", "D-mannoheptulose", "L-galactoheptulose", "galacto-heptulose"] "C7H14O7" 210.183 +"SELENALYSINE" "selenalysine" [] "C5H16N2O2Se" 215.154 +"SELENATE" "selenate" [] "O4Se" 142.958 +"SELENITE" "selenite" [] "O3Se" 126.958 +"SELENOHOMOCYSTEINE" "seleno-L-homocysteine" ["2-amino-4-selanyl-butanoate"] "C4H9NO2Se" 182.081 +"SELENOLIPOATE" "selenolipoate" [] "C8H13O2Se2" 299.109 +"SELENOMETHIONINE" "L-selenomethionine" ["selenium L-methionine", "seleno-L-methionine"] "C5H11NO2Se" 196.107 +"Selenomonas-ruminantium-peptidoglycan" "a mature peptidoglycan (Selenomonas ruminantium)" [] null null +"SEMICARBAZIDE" "semicarbazide" ["Carbamoylhydrazine", "Aminourea", "Hydrazinecarboxamide"] "CH5N3O" 75.07 +"Semiquinones" "a semiquinone" ["semiquinone"] null null +"SEPO3" "selenophosphate" ["SePO3"] "HO3PSe" 158.94 +"SER" "L-serine" ["S", "serine", "L-ser"] "C3H7NO3" 105.093 +"Serines" "serine" ["(L) or (D)-serine"] "C3H7NO3" 105.093 +"SEROTONIN" "serotonin" ["5-HT", "hydroxytryptamine", "5-hydroxytryptamine", "3-(2-aminoethyl)-1H-indol-5-ol", "enteramine", "thrombocytin", "thrombotonin"] "C10H13N2O" 177.225 +"SERYL-AMP" "(L-seryl)adenylate" ["L-seryl-AMP", "L-seryl-adenylate"] "C13H19N6O9P" 434.302 +"Sesquisabinene" "sesquisabinene" [] "C15H24" 204.355 +"Sesquiterpenes" "a sesquiterpenoid" ["a sesquiterpene"] null null +"Sesquiterpenoid-Derivatives" "a sesquiterpenoid derivative" [] null null +"Sesquiterpenols" "a sesquiterpenol" [] null null +"Sesterterpenes" "a sesterterpenoid" ["a sesterterpene"] null null +"SgcC2-3-chloro-5-hydroxy-beta-tyrosine" "(S)-3-chloro-5-hydroxy-β-tyrosyl-[SgcC2]" ["(3S)-3-amino-3-(3-chloro-4,5-dihydroxyphenyl)propanoyl-[peptidyl-carrier protein SgcC2]"] null null +"SgcC2-3-chloro-beta-tyrosine" "(S)-3-chloro-β-tyrosyl-[SgcC2]" ["(3S)-3-amino-3-(3-chloro-4-hydroxyphenyl)propanoyl-[peptidyl-carrier protein SgcC2]"] null null +"SgcC2-beta-tyrosine" "(S)-β-tyrosyl-[SgcC2]" [] null null +"SH-Compounds" "a -SH Compound" [] null null +"SHIKIMATE" "shikimate" ["shikimic acid", "(3R,4S,5R)--3,4,5-trihydroxycyclohex-1-ene-1-carboxylate"] "C7H9O5" 173.145 +"SHIKIMATE-5P" "shikimate 3-phosphate" ["shikimate 5-phosphate", "shikimate-5-P", "3-phosphoshikimate", "shikimate-3-P"] "C7H8O8P" 251.109 +"Short-Alpha-14-Glucans" "a short 1,4-α-D-glucan" [] null null +"Short-Chain-2-Enoyl-CoAs" "a short-chain 2-enoyl-CoA" ["a short-chain Δ2-enoyl-CoA", "a short-chain 2,3-dehydroacyl-CoA"] null null +"Short-Chain-2-Methyl-Fatty-Acids" "a short-chain 2-methyl-branched fatty acid" [] null null +"Short-Chain-234-Saturated-acyl-CoAs" "a short-chain 2,3,4-saturated fatty acyl CoA" [] null null +"Short-Chain-234-Saturated-Fatty-Acids" "a short-chain 2,3,4-saturated fatty acid" [] null null +"Short-Chain-3R-Hydroxyacyl-CoAs" "a short-chain (3R)-3-hydroxyacyl-CoA" [] null null +"Short-Chain-3S-Hydroxyacyl-CoAs" "a short-chain (3S)-3-hydroxyacyl-CoA" [] null null +"Short-Chain-Acyl-CoAs" "a short-chain fatty acyl-CoA" [] null null +"Short-Chain-Alcohols" "a short-chain fatty alcohol" [] null null +"Short-Chain-Aldehydes" "a short-chain fatty aldehyde" ["a short-chain aldehyde"] null null +"Short-Chain-Alkanes" "a short-chain alkane" [] null null +"Short-Chain-Carboxylates" "a short-chain carboxylate" ["a short-chain acid anion"] null null +"Short-chain-fatty-acids" "a short chain fatty acid" ["SCFA", "a volatile fatty acid", "VFA"] null null +"Short-Chain-oxoacyl-CoAs" "a short-chain oxoacyl-CoA" [] null null +"Short-Chain-Primary-Alcohols" "a short-chain primary alcohol" [] null null +"Short-Chain-Trans-23-Dehydroacyl-CoA" "a short-chain (2E)-2-enoyl-CoA" ["a short-chain trans-2,3-didehydroacyl-CoA", "a short-chain trans-2-enoyl-CoA", "a short-chain trans2-enoyl-CoA", "a short-chain trans-didehydroacyl-CoA", "a short-chain trans-2,3-dehydroacyl-CoA"] null null +"Short-glucans" "a short glucan" [] null null +"Short-Heparan-Fragments" "short heparan sulfate fragments" [] null null +"Short-Mannan" "a β-(1,4)-mannan oligosaccharide" ["a (1→4)-β-D-mannooligosaccharide", "a short β-(1,4)-mannoglycan", "a short β-(1,4)-mannan"] null null +"Short-OH-Long-FA-Esters" "a short-chain-alcohol—long-chain fatty acid ester" [] null null +"sialyl-28-sialyl-glycoside" "an α-N-acetylneuraminate-(2→8)-α-N-acetylneuraminate-glycoside" [] null null +"Sialyl-Tn-Antigen" "a sialyl-Tn antigen" ["an sTn antigen", "an N-acetyl-α-neuraminyl-(2→6)-N-acetyl-α-D-galactosalaminyl-[glycoprotein]"] null null +"Sialyloligosaccharides" "a sialyloligosaccharide" [] null null +"Siderophore" "a siderophore" [] null null +"signal-peptide" "a signal peptide" [] null null +"Simple-Groups" "a simple group" [] null null +"SINEFUNGIN" "sinefungin" [] "C15H24N7O5" 382.398 +"SIROHEME" "siroheme" [] "C42H36N4O16Fe" 908.611 +"SIROHYDROCHLORIN" "sirohydrochlorin" ["Precorrin"] "C42H38N4O16" 854.779 +"sLea-Antigen" "a sialyl-Lewis a epitope" ["an sLea antigen", "αNeuNAc-(2→3)-βGal-(1→3)-[αFuc-(1→4]-βGlcNAc-[protein]", "a histo-blood group sialyl Lewis a epitope"] null null +"sLex-Antigen" "a sialyl-Lewis x epitope" ["an sLex antigen", "αNeuNAc-(2→3)-βGal-(1→4)-[αFuc-(1→3]-βGlcNAc-[protein]", "a sialyl Lewis x antigen", "a histo-blood group sialyl Lewis x antigen"] null null +"SN-3-D-GALACTOSYL-SN-2-ACYLGLYCEROL" "an sn-3-D-galactosyl-sn-2-acylglycerol" ["a monogalactosyl-monoacylglycerol"] null null +"SN-GLYCEROL-1-PHOSPHATE" "sn-glycerol 1-phosphate" ["D-glycerol 3-phosphate", "L-glycerol 1-phosphate"] "C3H7O6P" 170.058 +"snRNA-Adenines" "an adenine in snRNA" ["an snRNA adenine"] null null +"SO3" "sulfite" ["SO3", "SO3-2"] "O3S" 80.058 +"Soluble-Heteroglycans" "a plant soluble heteroglycan" ["SHG"] null null +"Soluble-Heteroglycans-LI" "SHGLI" ["a soluble heteroglycan fraction LI (plants)", "a soluble heteroglycan LI"] null null +"Sophorosyloxy-FAs-O-6-Acet" "a sophorosyloxyfatty acid O(6'')-acetate" [] null null +"Sophorosyloxy-FAs-O-6-Diacet" "a sophorosyloxyfatty acid 6',6''-diacetate" [] null null +"Sophorosyloxy-Fatty-Acids" "a sophorosyloxyfatty acid" [] null null +"SORBITOL" "D-sorbitol" ["L-gulitol", "D-glucitol", "meglumine", "iso-sorbide", "(2S,3R,4R,5R)-hexane-1,2,3,4,5,6-hexol"] "C6H14O6" 182.173 +"SORBOSE" "sorbose" [] null null +"Sorbose-phosphates" "a sorbose 1-phosphate" [] null null +"SoxY-S-Thiocysteine" "a [SoxY protein]-S-sulfanyl-L-cysteine" ["a [SoxY protein]-S-thiocysteine"] null null +"SoxY-Systeine-Sulfinate" "[a SoxY protein]-S-sulfinyl-L-cysteine" [] null null +"SoxY-Thiocysteine-Sulfate" "a [SoxY protein]-S-sulfosulfanyl-L-cysteine" [] null null +"SoxZY-L-Cysteine" "a [SoxY protein]-L-cysteine" [] null null +"Soyasapogenol-B-glycosides" "a soyasapogenol B glycoside" [] null null +"Soyasapogenol-B-Monoglucosides" "a soyasapogenol B monoglucoside" [] null null +"Soyasapogenol-B-Monoglucuronides" "a soyasapogenol B monoglucuronide" [] null null +"Soyasapogenol-E-Monoglucosides" "a soyasapogenol E monoglucoside" [] null null +"Soyasapogenols" "a soyasapogenol" [] null null +"Soyasaponins" "a soyasaponin" [] null null +"SPERMIDINE" "spermidine" ["N-(3-aminopropyl)butane-1,4-diamine"] "C7H22N3" 148.271 +"SPERMINE" "spermine" ["gerontine", "musculamine", "neuridine", "diaminopropyl-tetramethylenediamine"] "C10H30N4" 206.374 +"Sphing-4-8-10-trienine-ceramides" "a (4E,8E,10E)-sphinga-4,8,10-trienine ceramide" [] null null +"Sphing-8-enine-ceramides" "a sphing-8-enine-ceramide" [] null null +"Sphing-8E-enine-ceramides" "a sphing-8(E)-enine-ceramide" [] null null +"Sphing-8Z-enine-ceramides" "a sphing-8(Z)-enine-ceramide" [] null null +"Sphinga-4-8-dienine-18-O-Ceramides" "an N-(stearoyl)-sphinga-4,8-dienine" ["an octadecanoyl-4,8-sphingadienine", "a 4,8-sphingadienine-stearic acid", "an N-octadecanoyl-4,8-sphingadienine", "a 4,8-sphingadienine-octadecanoate", "a 4,8-sphingadienine-octadecanoic acid", "a 4,8-sphingadienine-18:0", "a sphinga-4,8-dienine-18:0-ceramide", "a 4,8-sphingadienine-18:0, ceramide", "an N-(octadecanoyl)-sphinga-4,8-dienine"] "C36H69NO3" null +"Sphinga-4-8-dienine-Ceramides" "a (4E)-4-sphinga-4,8-dienine ceramide" ["a 4,8-sphingadienine ceramide", "a sphinga-4,8-dienine ceramide"] null null +"Sphinga-4E-8E-dienine-Ceramides" "a (4E,8E)-sphinga-4,8-dienine ceramide" [] null null +"Sphinga-4E-8Z-dienine-Ceramides" "a (4E,8Z)-4-sphinga-4,8-dienine ceramide" [] null null +"Sphingoid-1-phosphates" "a sphingoid 1-phosphate" ["a long chain base 1-phosphate", "a LCB-P"] null null +"Sphingoids" "a sphingoid base" ["a sphingolipid long chain base", "LCB"] null null +"SPHINGOLIPIDS" "a sphingolipid" [] null null +"Sphingomyelins" "a sphingomyelin" [] null null +"SQNYPIVQ-Cleavage-Sites" "an authentic SQNY-PIVQ cleavage site" [] null null +"SS-DIMETHYL-BETA-PROPIOTHETIN" "dimethylsulfoniopropanoate" ["S,S-dimethyl-β-propiothetin", "DMPT", "dimethylpropiothetin", "S-dimethylsulfonium propionic acid", "dimethylsulfoniopropionate", "3-(dimethylsulfaniumyl)propanoate"] "C5H10O2S" 134.193 +"SS-Oligodeoxyribonucleotides" "a single-stranded oligodeoxyribonucleotide" [] null null +"SS-Oligoribonucleotides" "a single-stranded oligoribonucleotide" [] null null +"Stabilized-RecA-Filament-DNA-Complex" "a stabilized RecA filament-DNA complex" [] null null +"Starch" "starch" [] null null +"STEARIC_ACID" "stearate" ["octadecanoate", "stearic acid", "octadecanoic acid", "n-C18:0"] "C18H35O2" 283.473 +"STEAROYL-COA" "stearoyl-CoA" ["n-C18:0CoA", "stearyl-CoA", "stearyl coenzyme A", "octadecanoyl-CoA"] "C39H66N7O17P3S" 1029.968 +"Stearoyl-lipid" "a [glycerolipid]-stearate" [] null null +"Steroid-Acids" "a steroid acid" [] null null +"Steroid-Hormones" "a steroid hormone" [] null null +"STEROID-O-SULFATE" "a steroid sulfate" [] "C18H23O4S" 335.437 +"Steroids" "a steroid" [] null null +"Sterols" "a sterol" [] null null +"STERONE-RING" "sterone-ring" [] "C17H28" 232.408 +"Steryl-Esters" "a steryl-ester" ["a steroid ester", "a sterol ester"] null null +"Straight-Chain-234-Sat-FA" "a straight chain 2,3,4-saturated fatty acid" [] null null +"Straight-Chain-234-Sat-FA-CoA" "a straight chain 2,3,4-saturated fatty acyl CoA" [] null null +"Straight-Chain-234-Sat-FALD" "a straight chain 2,3,4-saturated fatty aldehyde" [] null null +"STREPTOMYCIN" "streptomycin" [] "C21H42N7O12" 584.602 +"Strigolactones" "a strigolactone" [] null null +"Structural-Polysaccharides" "a structural polysaccharide" [] null null +"SUC" "succinate" ["succinic acid", "suc", "succ", "butanedioic acid", "ethylenesuccinic acid"] "C4H4O4" 116.073 +"SUC-COA" "succinyl-CoA" ["succ-coenzyme-A", "succ-S-coenzyme-A", "succinyl-S-coenzyme-A", "succ-S-CoA", "succinylcoenzyme-A", "succ-CoA", "suc-CoA", "succinyl-S-CoA", "succinyl-coenzyme A"] "C25H35N7O19P3S" 862.568 +"SUCC-S-ALD" "succinate semialdehyde" ["succinyl semialdehyde", "succ-S-ald", "succinic semialdehyde"] "C4H5O3" 101.082 +"SUCCINYL-OH-CYCLOHEXADIENE-COOH" "(1S,6R)-2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate" ["2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate", "SHCHC", "(1S,6R)-6-hydroxy-2-succinylcyclohexa-2,4-diene-1-carboxylate"] "C11H10O6" 238.196 +"SUCROSE" "sucrose" ["saccharose", "Glc(α1->2β)Fru", "β-D-fructofuranosyl-(2↔1)-α-D-glucopyranoside"] "C12H22O11" 342.299 +"SUCROSE-6P" "sucrose 6F-phosphate" ["sucrose-6F-P", "6-O-phosphonato-β-D-fructofuranosyl α-D-glucopyranoside"] "C12H21O14P" 420.263 +"Sugar" "a sugar" [] null null +"Sugar-1-Phosphate" "a sugar 1-phosphate" [] null null +"SUGAR-5-PHOSPHATES" "a sugar 5-phosphate" [] null null +"SUGAR-6-PHOSPHATES" "a sugar 6-phosphate" [] null null +"Sugar-Acceptors" "a sugar acceptor" [] null null +"Sugar-alcohols" "a sugar alcohol" ["a glycitol", "an alditol", "a polyalcohol", "a polyhydric alcohol", "a polyol"] null null +"Sugar-bisphosphates" "a sugar bisphosphate" [] null null +"Sugar-Group" "a sugar" [] null null +"Sugar-Phosphate" "a sugar phosphate" ["a phospho sugar"] null null +"Sulfamates" "a sulfamate" [] null null +"Sulfatase-L-cysteine" "a [sulfatase]-L-cysteine" [] null null +"Sulfatase-L-Serine" "a [sulfatase] L-serine" [] null null +"SULFATE" "sulfate" ["sulfuric acid", "H2SO4", "sulphate", "SO4-2", "SO42-", "SO4--"] "O4S" 96.058 +"Sulfated-Polysaccharides" "a sulfated polysaccharide" [] null null +"Sulfhydryl-Groups" "a sulfhydryl group" ["mercapto group", "thiol group"] null null +"Sulfhydryl-Reagents" "a sulfhydryl reagent" [] null null +"Sulfhydryls" "R'C(R)SH" ["a sulfhydryls"] null null +"Sulfines" "a sulfine" [] null null +"SULFO-CYSTEINE" "S-sulfo-L-cysteine" ["S-sulfocysteine"] "C3H6NO5S2" 200.204 +"Sulfolipids" "a sulfolipid" [] null null +"Sulfonamides" "a sulfonamide" [] null null +"SULFONATES" "a sulfonate" ["an organosulfonate", "a sulfonic acid"] null null +"Sulfones" "a sulfone" [] null null +"SULFOQUINOVOSYLDIACYLGLYCEROL" "an 6-sulfo-α-D-quinovosyl diacylglycerol" ["a 1,2-diacyl-3-(6-sulfo-α-D-quinovosyl)-sn-glycerol", "SQDG"] null null +"SULFUR-DIOXIDE" "sulfur dioxide" ["SO2", "sulphur dioxide"] "O2S" 64.059 +"SUPER-OXIDE" "superoxide" ["superoxide anion", "peroxide radical"] "O2" 31.999 +"T2-C4-DECADIENYL-COA" "(2E,4Z)-deca-2,4-dienoyl-CoA" ["trans-Δ2, cis-Δ4-decadienoyl-CoA"] "C31H46N7O17P3S" 913.722 +"T2-DECENOYL-COA" "(2E)-dec-2-enoyl-CoA" ["2E-decenoyl-CoA", "2-trans-decenoyl-CoA", "trans-Δ2-decenoyl-CoA", "trans-dec-2-enoyl-CoA"] "C31H48N7O17P3S" 915.738 +"TAG-18-2-32-0s" "a TAG(18:2/32:0)" ["an 18:2/32:0-TAG", "a triacylglyceride(18:2/32:0)", "a TAG(50:2)"] null null +"TAG-18-2-32-1s" "a TAG(18:2/32:1)" ["an 18:2/32:1-TAG", "a triacylglyceride(18:2/32:1)", "a TAG(50:3)"] null null +"TAG-18-2-32-2s" "a TAG(18:2/32:2)" ["an 18:2/32:2-TAG", "a triacylglyceride(18:2/32:2)", "a TAG(50:4)"] null null +"TAG-18-2-34-0s" "a TAG(18:2/34:0)" ["an 18:2/34:0-TAG", "a triacylglyceride(18:2/34:0)", "a TAG(52:2)"] null null +"TAG-18-2-34-1s" "a TAG(18:2/34:1)" ["an 18:2/34:1-TAG", "a triacylglyceride(18:2/34:1)", "a TAG(52:3)"] null null +"TAG-18-2-34-2s" "a TAG(18:2/34:2)" ["an 18:2/34:2-TAG", "a triacylglyceride(18:2/34:2)", "a TAG(52:4)"] null null +"TAG-18-2-34-3s" "a TAG(18:2/34:3)" ["an 18:2/34:3-TAG", "a triacylglyceride(18:2/34:3)", "a TAG(52:5)"] null null +"TAG-18-2-34-4s" "a TAG(18:2/34:4)" ["an 18:2/34:4-TAG", "a triacylglyceride(18:2/34:4)", "a TAG(52:6)"] null null +"TAG-18-2-36-0s" "a TAG(18:2/36:0)" ["an 18:2/36:0-TAG", "a triacylglyceride(18:2/36:0)", "a TAG(54:2)"] null null +"TAG-18-2-36-1s" "a TAG(18:2/36:1)" ["an 18:2/36:1-TAG", "a triacylglyceride(18:2/36:1)", "a TAG(54:3)"] null null +"TAG-18-2-36-2s" "a TAG(18:2/36:2)" ["an 18:2/36:2-TAG", "a triacylglyceride(18:2/36:2)", "a TAG(54:4)"] null null +"TAG-18-2-36-3s" "a TAG(18:2/36:3)" ["an 18:2/36:3-TAG", "a triacylglyceride(18:2/36:3)", "a TAG(54:5)"] null null +"TAG-18-2-36-4s" "a TAG(18:2/36:4)" ["an 18:2/36:4-TAG", "a triacylglyceride(18:2/36:4)", "a TAG(54:6)"] null null +"TAG-18-2-36-5s" "a TAG(18:2/36:5)" ["an 18:2/36:5-TAG", "a triacylglyceride(18:2/36:5)", "a TAG(54:7)"] null null +"TAG-18-2-36-6s" "a TAG(18:2/36:6)" ["an 18:2/36:6-TAG", "a triacylglyceride(18:2/36:6)", "a TAG(54:8)"] null null +"TAG-18-2-38-0s" "a TAG(18:2/38:0)" ["an 18:2/38:0-TAG", "a triacylglyceride(18:2/38:0)", "a TAG(56:2)"] null null +"TAG-18-2-38-1s" "a TAG(18:2/38:1)" ["an 18:2/38:1-TAG", "a triacylglyceride(18:2/38:1)", "a TAG(56:3)"] null null +"TAG-18-2-38-2s" "a TAG(18:2/38:2)" ["an 18:2/38:2-TAG", "a triacylglyceride(18:2/38:2)", "a TAG(56:4)"] null null +"TAG-18-2-38-3s" "a TAG(18:2/38:3)" ["an 18:2/38:3-TAG", "a triacylglyceride(18:2/38:3)", "a TAG(56:5)"] null null +"TAG-18-2-38-5s" "a TAG(18:2/38:5)" ["an 18:2/38:5-TAG", "a triacylglyceride(18:2/38:5)", "a TAG(56:7)"] null null +"TAG-18-2-40-0s" "a TAG(18:2/40:0)" ["an 18:2/40:0-TAG", "a triacylglyceride(18:2/40:0)", "a TAG(58:2)"] null null +"TAG-18-2-40-1s" "a TAG(18:2/40:1)" ["an 18:2/40:1-TAG", "a triacylglyceride(18:2/40:1)", "a TAG(58:3)"] null null +"TAG-18-2-40-2s" "a TAG(18:2/40:2)" ["an 18:2/40:2-TAG", "a triacylglyceride(18:2/40:2)", "a TAG(58:4)"] null null +"TAG-18-2-40-3s" "a TAG(18:2/40:3)" ["an 18:2/40:3-TAG", "a triacylglyceride(18:2/40:3)", "a TAG(58:5)"] null null +"TAG-18-2-40-4s" "a TAG(18:2/40:4)" ["an 18:2/40:4-TAG", "a triacylglyceride(18:2/40:4)", "a TAG(58:6)"] null null +"TAG-18-3-32-0s" "a TAG(18:3/32:0)" ["an 18:3/32:0-TAG", "a triacylglyceride(18:3/32:0)", "a TAG(50:3)"] null null +"TAG-18-3-32-1s" "a TAG(18:3/32:1)" ["an 18:3/32:1-TAG", "a triacylglyceride(18:3/32:1)", "a TAG(50:4)"] null null +"TAG-18-3-32-2s" "a TAG(18:3/32:2)" ["an 18:3/32:2-TAG", "a triacylglyceride(18:3/32:2)", "a TAG(50:5)"] null null +"TAG-18-3-34-0s" "a TAG(18:3/34:0)" ["an 18:3/34:0-TAG", "a triacylglyceride(18:3/34:0)", "a TAG(52:3)"] null null +"TAG-18-3-34-1" "a TAG(18:3/34:1)" ["an 18:3/34:1-TAG", "a triacylglyceride(18:3/34:1)", "a TAG(52:4)"] null null +"TAG-18-3-34-2s" "a TAG(18:3/34:2)" ["an 18:3/34:2-TAG", "a triacylglyceride(18:3/34:2)", "a TAG(52:5)"] null null +"TAG-18-3-34-3s" "a TAG(18:3/34:3)" ["an 18:3/34:3-TAG", "a triacylglyceride(18:3/34:3)", "a TAG(52:6)"] null null +"TAG-18-3-36-0s" "a TAG(18:3/36:0)" ["an 18:3/36:0-TAG", "a triacylglyceride(18:3/36:0)", "a TAG(54:3)"] null null +"TAG-18-3-36-1s" "a TAG(18:3/36:1)" ["an 18:3/36:1-TAG", "a triacylglyceride(18:3/36:1)", "a TAG(54:4)"] null null +"TAG-18-3-36-3s" "a TAG(18:3/36:3)" ["an 18:3/36:3-TAG", "a triacylglyceride(18:3/36:3)", "a TAG(54:6)"] null null +"TAG-18-3-36-4s" "a TAG(18:3/36:4)" ["an 18:3/36:4-TAG", "a triacylglyceride(18:3/36:4)", "a TAG(54:7)"] null null +"TAG-18-3-36-5s" "a TAG(18:3/36:5)" ["an 18:3/36:5-TAG", "a triacylglyceride(18:3/36:5)", "a TAG(54:8)"] null null +"TAG-18-3-36-6s" "a TAG(18:3/36:6)" ["an 18:3/36:6-TAG", "a triacylglyceride(18:3/36:6)", "a TAG(54:9)"] null null +"TAG-18-3-38-0s" "a TAG(18:3/38:0)" ["an 18:3/38:0-TAG", "a triacylglyceride(18:3/38:0)", "a TAG(56:3)"] null null +"TAG-18-3-38-1s" "a TAG(18:3/38:1)" ["an 18:3/38:1-TAG", "a triacylglyceride(18:3/38:1)", "a TAG(56:4)"] null null +"TAG-18-3-38-2s" "a TAG(18:3/38:2)" ["an 18:3/38:2-TAG", "a triacylglyceride(18:3/38:2)", "a TAG(56:5)"] null null +"TAG-18-3-38-3s" "a TAG(18:3/38:3)" ["an 18:3/38:3-TAG", "a triacylglyceride(18:3/38:3)", "a TAG(56:6)"] null null +"TAG-18-3-38-4s" "a TAG(18:3/38:4)" ["an 18:3/38:4-TAG", "a triacylglyceride(18:3/38:4)", "a TAG(56:7)"] null null +"TAG-18-3-38-5s" "a TAG(18:3/38:5)" ["an 18:3/38:5-TAG", "a triacylglyceride(18:3/38:5)", "a TAG(56:8)"] null null +"TAG-18-3-40-0s" "a TAG(18:3/40:0)" ["an 18:3/40:0-TAG", "a triacylglyceride(18:3/40:0)", "a TAG(58:3)"] null null +"TAG-18-3-40-1s" "a TAG(18:3/40:1)" ["an 18:3/40:1-TAG", "a triacylglyceride(18:3/40:1)", "a TAG(58:4)"] null null +"TAG-18-3-40-2s" "a TAG(18:3/40:2)" ["an 18:3/40:2-TAG", "a triacylglyceride(18:3/40:2)", "a TAG(58:5)"] null null +"TAG-18-3-40-3s" "a TAG(18:3/40:3)" ["an 18:3/40:3-TAG", "a triacylglyceride(18:3/40:3)", "a TAG(58:6)"] null null +"TAG-18-3-40-4s" "a TAG(18:3/40:4)" ["an 18:3/40:4-TAG", "a triacylglyceride(18:3/40:4)", "a TAG(58:7)"] null null +"TAGATOSE" "keto-D-tagatose" [] "C6H12O6" 180.157 +"TAGATOSE-1-6-DIPHOSPHATE" "D-tagatofuranose 1,6-bisphosphate" ["D-tagatofuranose 1,6-diphosphate"] "C6H10O12P2" 336.085 +"TAGATOSE-6-PHOSPHATE" "D-tagatofuranose 6-phosphate" [] "C6H11O9P" 258.121 +"TARTRATE" "L-tartrate" ["weinsaeure", "(+)-tartrate", "tartrate", "tartaric acid", "(R,R)-tartrate", "L-tartaric acid", "L(+)-tartaric acid", "(2R,3R)-tartaric acid", "(2R,3R)-tartrate", "L-tartarate", "L-threarate"] "C4H4O6" 148.072 +"TARTRONATE-S-ALD" "tartronate semialdehyde" ["2-hydroxy-3-oxopropanoate", "tartronic semialdehyde", "hydroxymalonaldehydic acid", "tartronate-S-ald"] "C3H3O4" 103.054 +"TAURINE" "taurine" ["2-aminoethanesulfonate", "tauphon", "taufon", "2-aminoethanesulfonic acid", "aminoetylsulphonic acid", "ethylaminesulphonic acid"] "C2H7NO3S" 125.142 +"TDP" "dTDP" ["TDP", "thymidine 5'-(trihydrogen diphosphate) (9CI)", "deoxy-TDP", "thymidine-5'-diphosphate", "thymidine-diphosphate"] "C10H13N2O11P2" 399.167 +"TDP-D-FUCOSAMINE" "dTDP-4-amino-4,6-dideoxy-α-D-galactose" ["TDP-fucosamine (misleading)", "TDP-D-fucosamine (misleading)", "dTDP-thomosamine", "dTDP-α-D-fucosamine (misleading)"] "C16H26N3O14P2" 546.341 +"TDP-FUC4NAC" "dTDP-4-acetamido-4,6-dideoxy-α-D-galactose" ["TDP-Fuc4NAc", "dTDP-N-acetylthomosamine", "TDP-4N-acetyl-α-D-fucosamine", "dTDP-4-acetamido-α-D-fucose"] "C18H27N3O15P2" 587.37 +"Teichoic-Acid" "a polyisoprenyl-teichoic acid" [] null null +"Teichoic-acid-components" "a teichoic acid component" [] null null +"Teichoic-Acids" "a teichoic acid" [] null null +"Teichoic-P-Gro" "(Gro-P)n-Gro-P-ManNAc-GlcNAc-PP-undecaprenol" ["4-O-{poly[(2R)-glycerophospho]-(2R)-glycerophospho}-N-acetyl-β-D-mannosaminyl-(1→4)-N-acetyl-α-D-glucosaminyl-diphospho-ditrans,octacis-undecaprenol"] null null +"Teichoic-P-Gro-Glc" "[(2-Glc)-Gro-P]n-Gro-P-ManNAc-GlcNAc-PP-undecaprenol" ["4-O-{poly[(2R)-2-α-D-glucosyl-1-glycerophospho]-(2R)-glycerophospho}-N-acetyl-β-D-mannosaminyl-(1→4)-N-acetyl-α-D-glucosaminyl-diphospho-ditrans,octacis-undecaprenol"] null null +"TEREPHTHALATE" "terephthalate" ["1,4-bezenedicarboxylic acid", "p-phthalic acid", "terephthalic acid", "1,4-dicarboxybenzene", "TPA"] "C8H4O4" 164.117 +"Terminal-Olefins" "a terminal olefin" ["an α olefin"] null null +"Terpene-ketones" "a terpene ketone" [] null null +"Terpenes" "a terpene" ["terpenes", "a terpene"] null null +"Terpenoid-Derivatives" "a terpenoid derivative" [] null null +"Terpenoids" "a terpenoid" ["terpenes", "a terpene"] null null +"Terpenols" "a terpenol" [] null null +"Terpenophenolics" "a terpenophenolic" [] null null +"Tertiary-Alcohols" "a tertiary alcohol" [] null null +"Tertiary-Amines" "a tertiary amine" [] null null +"TESTOSTERONE" "testosterone" [] "C19H28O2" 288.429 +"TETRA-H-BIOPTERIN" "a tetrahydrobiopterin" ["phenylalanine hydroxylase cofactor", "5,6,7,8-tetrahydrobiopterin", "5,6,7,8-tetra-H-biopterin", "tetra-H-biopterin", "tetra-hydro-biopterin"] "C9H15N5O3" 241.249 +"Tetracyclines" "a tetracycline" [] null null +"TETRADECANOYL-COA" "myristoyl-CoA" ["n-C14:0CoA", "tetradecanoyl-CoA"] "C35H58N7O17P3S" 973.861 +"TETRADEHYDROACYL-COA" "a (2E,4E)-2,4-dienoyl-CoA" ["a trans-2,trans-4-dienoyl-CoA", "a trans,trans-Δ24-dienoyl-CoA", "a (2E,4E)-alka-2,4-dienoyl-CoA"] null null +"Tetragalactosyldiacylglycerol" "a tetragalactosyldiacylglycerol" ["a (β-D-galactosyl-(1->6)-(β-D-galactosyl-(1->6)-β-D-galactosyl-(1->6)-β-D-galactosyl)-1,2-diacyl-sn-glycerol", "TetGDG"] null null +"Tetrahydropterins" "a tetrahydropterin" [] null null +"Tetrahydropyridines" "a tetrahydropyridine" [] null null +"TETRAHYDROTHIOPHENE" "tetrahydrothiophene" [] "C4H8S" 88.167 +"TETRAHYDROTHIOPHENE-1-OXIDE" "tetrahydrothiophene 1-oxide" ["tetramethylene sulfoxide", "TMSO"] "C4H8OS" 104.167 +"TETRAKETIDE-PYRONE" "a tetraketide α-pyrone" [] null null +"Tetramethylated-Mycocerosic-Acids" "a tetramethylated mycocerosate" ["a tetramethylated mycocerosic acid"] null null +"TETRANITROMETHANE" "tetranitromethane" [] "CN4O8" 196.033 +"Tetrapeptides" "a tetrapeptide" [] null null +"Tetraric-Acids" "a tetrarate" ["a tetraric acid"] null null +"Tetrasaccharides" "a tetrasaccharide" [] null null +"Tetrasaccharides-with-repeating-units" "a tetrasaccharide comprising two repeating units" [] null null +"Tetraterpenes" "a tetraterpenoid" ["a tetraterpene"] null null +"Tetritols" "a tetritol" [] null null +"Tetroses" "a tetrose" [] null null +"theta-Carrageenan" "θ-carrageenose" ["θ-carrageenan"] null null +"THF" "5,6,7,8-tetrahydrofolate" ["H4PteGlu", "5,6,7,8-tetrahydrofolic acid", "tetrahydrofolic acid", "(6S)-tetrahydrofolate", "H4PteGlu1", "tetrahydrofolate", "tetrahydrafolate", "tetrahydropteroyl mono-L-glutamate", "THF", "tetra-H-folate", "th-folate", "FH4", "folate-H4", "tetrahydropteroylglutamate", "H4F", "vitamin B9"] "C19H21N7O6" 443.418 +"THF-Derivatives" "a tetrahydrofolate derivative" ["a tetrahydropteroate-glutamate derivative"] null null +"THF-GLU-N" "a tetrahydrofolate" ["tetrahydropteroyl polyglutamate", "THF(glu)n", "H4PteGlun", "a tetrahydrofolate-glutamate", "THF", "THF polyglutamate"] null null +"THI5-L-histidine" "[an HMP-P synthase]-L-histidine" ["[a 4-amino-2-methyl-5-phosphomethylpyrimidine synthase]-L-histidine", "a [THI5]-L-histidine"] null null +"THIABENDAZOLE" "thiabendazole" [] "C10H7N3S" 201.245 +"THIAMINE" "thiamine" ["thiamin", "vitamin B1"] "C12H17N4OS" 265.352 +"THIAMINE-P" "thiamine phosphate" ["TMP", "thiamin monophosphate", "thiamin phosphate", "thiamin-P", "thiamine-Pi", "ThP", "thiamine monophosphate"] "C12H16N4O4PS" 343.317 +"THIAMINE-PYROPHOSPHATE" "thiamine diphosphate" ["thiamin diphosphate", "TDP", "thiamine pyrophosphate", "TPP", "thiamin-PPi", "thiamin pyrophosphate", "thiamine-PPi", "ThPP"] "C12H16N4O7P2S" 422.288 +"Thiarsahydroxy-ArsC" "thiarsahydroxy-[arsenate reductase]" [] null null +"Thiarsahydroxy-SG-ArsC" "S-glutathionyl-thiarsahydroxy-[arsenate reductase]" [] null null +"Thiazoles" "a thiazole" [] "C3H3NS" 85.123 +"Thiazoline-siderophores" "a thiazoline siderophore" [] null null +"ThiI-L-cysteine" "a [ThiI sulfur-carrier protein]-L-cysteine" [] null null +"ThiI-S-sulfanylcysteine" "a [ThiI sulfur-carrier protein]-S-sulfanylcysteine" ["a ThiI persulfide", "a sulfurylated sulfur-carrier protein ThiI"] null null +"Thio-Ethers" "a thioether" [] null null +"Thioesters" "a thioester" [] null null +"Thioglucosides" "a thioglucoside" [] null null +"THIOGLYCOLATE" "thioglycolate" ["mercaptoacetate", "thioglycolic acid", "mercaptoacetic acid"] "C2H3O2S" 91.104 +"THIOHYDROXIMATE-O-SULFATES" "a thiohydroximate-O-sulfate" [] null null +"THIOL-GROUP" "a thiol group" [] "CHS" 45.079 +"Thiols" "a thiol" ["a mercaptan"] null null +"Thiopurine-Methylethers" "a thiopurine S-methylether" [] "C6H6N4S" 166.2 +"Thiopurines" "a thiopurine" [] "C5H4N4S" 152.173 +"THR" "L-threonine" ["T", "thre", "L-thr", "threonine", "2-amino-3-hydroxybutyric acid"] "C4H9NO3" 119.12 +"Threitols" "a threitol" ["threo-tetritol"] null null +"THREO-DS-ISO-CITRATE" "D-threo-isocitrate" ["D-threo-isocitrate", "(1R, 2S)-1-hydroxypropane-1,2,3-tricarboxylate", "D-threo-isocitric acid", "isocitric acid", "isocitrate", "threo-Ds-isocitrate", "I-CIT", "D-isocitrate"] "C6H5O7" 189.101 +"Threo-GGE" "threo-guaiacylglycerol-β-guaiacyl ether" ["threo-GGE"] "C17H20O6" 320.341 +"THRYROXINE" "thyroxine" ["DL-thyroxine", "2-amino-3-[4-(4-hydroxy-3,5-diiodophenoxy)-3,5-diiodophenyl]propanoic acid", "O-(4-Hydroxy-3,5-diiodophenyl)-3,5-diiodo-DL-tyrosine", "Thx"] "C15H11NO4I4" 776.874 +"THYMIDINE" "thymidine" ["deoxythymidine"] "C10H14N2O5" 242.231 +"THYMINE" "thymine" ["5-methyluracil", "5-methyl-2,4(1H,3H)-pyrimidinedione", "T"] "C5H6N2O2" 126.115 +"Thyroglobulin-3-5-diiodotyrosines" "a [thyroglobulin]-3,5-diiodotyrosine" [] null null +"Thyroglobulin-3-iodotyrosines" "a [thyroglobulin]-3-iodotyrosine" [] null null +"Thyroglobulin-aminoacrylates" "a [thyroglobulin]-aminoacrylate" ["a [thyroglobulin]-dehydroalanine"] null null +"Thyroglobulin-L-thyroxines" "a [thyroglobulin]-L-thyroxine" ["a [thyroglobulin] 3,5,3'5'-tetraiodo-L-thyronine"] null null +"Thyroglobulin-L-tyrosines" "a [thyroglobulin]-L-tyrosine" [] null null +"Thyroglobulin-triiodothyronines" "a [thyroglobulin]-triiodothyronine" ["a [thyroglobulin] L-3,5,3'-triiodothyronine"] null null +"THZ" "5-(2-hydroxyethyl)-4-methylthiazole" ["4-methyl-5-(2-hydroxyethyl)-thiazole", "THZ", "4-methyl-5-(β-hydroxyethyl)thiazole", "HET"] "C6H9NOS" 143.203 +"THZ-P" "4-methyl-5-(2-phosphooxyethyl)thiazole" ["4-4-methyl-5-(2-phosphonooxyethyl)-thiazole", "4-methyl-5-(2-phosphoethyl)-thiazole", "THZ-P", "4-methyl-5-(β-hydroxyethyl)thiazole phosphate", "HET-P"] "C6H8NO4PS" 221.167 +"Tirandamycins" "a tirandamycin" [] null null +"TMP" "dTMP" ["thymidylic acid", "thymidine monophosphate", "deoxythymidylate", "TMP", "thymidine 5'-monophosphate", "thymidine-phosphate", "thymidine 5'-phosphate", "deoxythymidine 5'-phosphate", "5'-thymidylic acid", "deoxythymidylic acid", "thymidylate"] "C10H13N2O8P" 320.195 +"toluates" "toluate" ["toluic acid"] null null +"TOPAQUINONE" "topaquinone" ["6-hydroxydopa quinone"] null null +"Toxins" "a toxin" [] null null +"trans-2-cis-5-dienoyl-CoA" "a (2E,5Z)-alka-2,5-dienoyl-CoA" ["a trans2,cis-5-dienoyl-CoA"] null null +"TRANS-2-HEXENAL" "(E)-2-hexenal" ["trans-2-hexenal"] "C6H10O" 98.144 +"TRANS-23-DEHYDROADIPYL-COA" "trans-2,3-dehydroadipyl-coA" ["cis-2,3-didehydroadipyl-CoA", "2,3-didehydroadipyl-CoA"] "C27H37N7O19P3S" 888.606 +"Trans-23-dihydro-3-hydroxyanthranilate" "trans-2,3-dihydro-3-hydroxyanthranilate" ["trans-2,3-dihydro-3-hydroxyanthranilic acid", "DHHA", "6-amino-5-hydroxycyclohexane-1,3-diene-1-carboxylate"] "C7H9NO3" 155.153 +"trans-3-cis-5-dienoyl-CoA" "a (3E,5Z)-alka-3,5-dienoyl-CoA" ["a trans3,cis-5-dienoyl-CoA", "a (3E,5Z)-dienoyl-CoA"] null null +"Trans-3-enoyl-CoAs" "a (3E)-3-enoyl-CoA" ["a trans-3-enoyl-CoA", "a (3E)-alk-3-enoyl-CoA"] null null +"TRANS-CIS-UNDECAPRENYL-GROUP" "di-trans,octa-cis-undecaprenyl group" ["di-trans, poly-cis-undecaprenyl", "di-trans, poly-cis-undecaprenyl group", "ditrans,octacis-undecaprenyl group"] "C55H90" 751.316 +"TRANS-D2-ENOYL-COA" "a (2E)-2-enoyl-CoA" ["a trans-didehydroacyl-CoA", "a trans2-enoyl-CoA", "a trans-2,3-didehydroacyl-CoA", "a trans-2,3-dehydroacyl-CoA", "trans-2,3-didehydroacyl-CoA", "trans-2,3-dehydroacyl-CoA", "trans-Δ2-enoyl-CoA", "trans-2,3-didehydroacyl-CoA", "trans-2,3-dehydroacyl-CoA", "trans2-enoyl-CoA", "trans-didehydroacyl-CoA", "a trans-2-enoyl-CoA", "a (2E)-alk-2-enoyl-CoA"] null null +"Trans-Delta-11-acyl-CoAs" "an (11E)-enoyl-CoA" ["a trans Δ11 acyl-CoA"] null null +"TRANS-POLYISOPRENYL-P" "an all-trans-isoprenoid phosphate" ["a trans-polyisoprenyln-P", "an all-trans-polyisoprenyl phosphate"] null null +"TRANS-POLYISOPRENYL-PP" "an all-trans-polyisoprenyl diphosphate" ["a trans-polyisoprenyln-PP"] null null +"Trans-Shisool" "trans-shisool" [] "C10H18O" 154.252 +"Transition-Metal-Cations" "a transition metal cation" ["a transition element cation"] null null +"TREHALOSE" "α,α-trehalose" ["α-D-glucopyranosyl α-D-glucopyranoside", "α-D-Glcp-(1↔1)-α-D-Glcp", "D-(+)-trehalose"] "C12H22O11" 342.299 +"TREHALOSE-6P" "α,α-trehalose 6-phosphate" ["α,α-D-trehalose 6-phosphate"] "C12H21O14P" 420.263 +"Trehalose-phosphate-synthase-L-Cys" "a [trehalose-phosphate-synthase]-L-cysteine" [] null null +"TRI-N-ACETYL-BETA-D-GLUCOSAMINYL" "N-acetyl-β-D-glucosaminyl-1,2-α-D-mannosyl-1,3-(N-acetyl-β-D-glucosaminyl-1,2-α-D-mannosyl-1,6)-(N-acetyl-β-D-glucosaminyl-1,4)-β-D-mannosyl-1,4-N-acetyl-β-D-glucosaminyl-R" [] null null +"Tri-trans-polycis-polyprenyl-PPs" "a tri-trans,poly-cis-polyprenyl diphosphate" [] null null +"Triacylglycerides" "a triglyceride" [] null null +"Triacylglycerols" "a triacyl-sn-glycerol" [] null null +"Tricarboxylates" "a tricarboxylate" ["a tripartite tricarboxylate"] null null +"TRIKETIDE-PYRONE" "a triketide α-pyrone" [] null null +"TRIMETHYLAMINE" "trimethylamine" ["(CH3)3NH", "(CH3)3NH+", "TMA"] "C3H10N" 60.119 +"TRIMETHYLAMINE-N-O" "trimethylamine N-oxide" ["TMAO"] "C3H9NO" 75.11 +"Trimethylated-Mycocerosic-Acids" "a trimethylated mycocerosate" ["a trimethylated mycocerosic acid"] null null +"TRIMETHYLSULFONIUM" "trimethyl sulfonium" [] "C3H9S" 77.164 +"Trinucleotides" "a trinucleotide" [] null null +"TRIPEPTIDES" "a tripeptide" [] null null +"TRIS" "tris" ["tris(hydroxymethyl)amino methane", "tris hydrochloride"] "C4H12NO3" 122.144 +"TRIS-HYDROCHLORIDE" "tris-hydrochloride" ["tris-HCl"] "(HCl)(C4NH12O3)" 158.605 +"Trisaccharides" "a trisaccharide" [] null null +"Triterpenes" "a triterpenoid" ["a triterpene"] null null +"tRNA-2-thiouridine" "a 2-thiouridine in tRNA" ["a tRNA 2-thiouridine"] null null +"tRNA-2-thiouridine34" "a 2-thiouridine34 in tRNA" ["a tRNA 2-thiouridine34"] null null +"tRNA-2methyladenine-37" "a 2-methyladenine37 in tRNA" [] null null +"tRNA-4-thiouridine" "a 4-thiouracil in tRNA" ["a tRNA 4-thioracil"] null null +"tRNA-Adenine-22" "an adenine22 in tRNA" [] null null +"tRNA-adenine-37" "an adenine37 in tRNA" [] null null +"tRNA-Adenine-58" "an adenine58 in tRNA" [] null null +"tRNA-Adenine-9" "an adenine9 in tRNA" [] null null +"tRNA-Adenines" "an adenine in tRNA" ["a tRNA adenine"] null null +"tRNA-Adenosines" "an adenosine in tRNA" ["a tRNA adenosine"] null null +"tRNA-Adenosines-37" "an adenosine37 in tRNA" [] null null +"tRNA-archaeosine" "archaeosine at position 15 of an archaeal tRNA" ["G* tRNA", "7-amidino-7-deazaguanosine"] null null +"tRNA-Arg-adenosine34" "an adenosine34 in [tRNAArg2]" ["[tRNAArg2]-adenosine34"] null null +"tRNA-Arg-inosine34" "an inosine34 in [tRNAArg2]" ["[tRNAArg2]-inosine34"] null null +"tRNA-Containing-2-O-Methylcytidines" "a 2'-O-methylcytidine in tRNA" ["a tRNA containing 2'-O-methylcytidine"] null null +"tRNA-Containing-2-O-Methylguanosine" "a 2'-O-methylguanosine in tRNA" ["a tRNA containing 2'-O-methylguanosine"] null null +"tRNA-Containing-2-O-Methyluridines" "a 2'-O-methyluridine in tRNA" ["a tRNA containing 2'-O-methyluridine"] null null +"tRNA-containing-5-2-Meoxy-2-OxEt-uridine" "a 5-(2-methoxy-2-oxoethyl)uridine in tRNA" ["a tRNA containing 5-(2-methoxy-2-oxoethyl)uridine", "an mcm5U in tRNA", "a 5-methoxycarbonylmethyl-uridine in tRNA"] null null +"tRNA-containing-5-CarbMeAminome-2-methUr" "a 5-carboxymethylaminomethyl-2'-O-methyluridine in tRNA" [] null null +"tRNA-containing-5-CarbMeAminome-2-ThioU" "a 5-carboxymethylaminomethyl-2-thiouridine34 in tRNA" ["a tRNA containing 5-carboxymethylaminomethyl-2-thiouridine34", "cmnm5s2U in tRNA"] null null +"tRNA-containing-5-CarbMeAminome-uridine" "a 5-carboxymethylaminomethyluridine34 in tRNA" ["a tRNA containing 5-carboxymethylaminomethyluridine34"] null null +"tRNA-Containing-5-Methylcytosine" "a 5-methylcytosine in tRNA" ["tRNA containing 5-methylcytidine", "tRNA containing 5-methylcytosine"] null null +"tRNA-containing-5-taurinomethyluridine" "a 5-taurinomethyluridine in tRNA" ["a tRNA containing 5-taurinomethyluridine"] null null +"tRNA-Containing-5AminoMe-2-ThioUrdines" "a 5-aminomethyl-2-thiouridine34 in tRNA" ["a tRNA containing 5-aminomethyl-2-thiouridine34"] null null +"tRNA-containing-5Me-uridine" "a 5-methyluracil in tRNA" ["a tRNA containing 5-methyluracil"] null null +"tRNA-containing-5Me-uridine54" "a 5-methyluracil54 in tRNA" ["a tRNA containing 5-methyluracil54"] null null +"tRNA-Containing-5MeAminoMe-2-ThioU" "a 5-methylaminomethyl-2-thiouridine34 in tRNA" ["a 5-methylaminomethyl-2-thiouridylate34 in tRNA", "mnm5S2U"] null null +"tRNA-containing-CarbMe-uridine" "a carboxymethyluridine in tRNA" ["a tRNA containing carboxymethyluridine"] null null +"tRNA-Containing-N1-Methyladenine" "an N1-methyladenine in tRNA" ["tRNA containing N1-methyladenine"] null null +"tRNA-Containing-N1-MethylAdenine-22" "N1-methyladenine22 in tRNA" [] null null +"tRNA-Containing-N1-MethylAdenine-58" "an N1-methyladenine58 in tRNA" [] null null +"tRNA-Containing-N1-MethylAdenine-9" "N1-methyladenine9 in tRNA" [] null null +"tRNA-Containing-N1-Methylguanine" "an N1-methylguanine in tRNA" ["a tRNA containing N1-methylguanine"] null null +"tRNA-Containing-N1-Methylguanine-37" "an N1-methylguanine37 in tRNA" [] null null +"tRNA-Containing-N1-Methylguanine-9" "an N1-methylguanine9 in tRNA" [] null null +"tRNA-Containing-N2-DiMeGua-26-DiMeGua27" "an N2-dimethylguanine26/N2-dimethylguanine27" [] null null +"tRNA-Containing-N2-Dimetgua-26-MeGua27" "an N2-dimethylguanine26/N2-methylguanine27" [] null null +"tRNA-Containing-N2-Dimethylgua-26-Gua27" "an N2 dimethylguanine26/guanine27 in tRNA" [] null null +"tRNA-Containing-N2-dimethylguanine-10" "an N2-dimethylguanine10 in tRNA" [] null null +"tRNA-Containing-N2-dimethylguanine-26" "an N2dimethylguanine26 in tRNA" [] null null +"tRNA-Containing-N2-Dimethylguanines" "an N2 dimethylguanine in tRNA" ["a tRNA containing N2 dimethylguanine"] null null +"tRNA-Containing-N2-Methylgua-26-Gua27" "an N2-methylguanine26/guanine27 in tRNA" [] null null +"tRNA-Containing-N2-Methylguanine" "an N2-methylguanine in tRNA" ["a tRNA containing N2-methylguanine"] null null +"tRNA-Containing-N2-Methylguanine-10" "an N2-methylguanine10 in tRNA" [] null null +"tRNA-Containing-N2-Methylguanine-26" "an N2-methylguanine26 in tRNA" [] null null +"tRNA-Containing-N2-Methylguanine-6" "an N2-methylguanine6 in tRNA" [] null null +"tRNA-Containing-N7-Methylguanine-46" "an N7-methylguanine46 in tRNA" [] null null +"tRNA-Cytosines" "a cytosine in tRNA" ["a tRNA cytosine"] null null +"tRNA-Dihydrouridines" "a 5,6-dihydrouridine in tRNA" ["a tRNA containing 5,6-dihydrouridine"] null null +"tRNA-Epoxyqueuosines" "a tRNA epoxyqueuosine" [] null null +"tRNA-Guanines" "a guanine in tRNA" ["a tRNA containing guanine", "a tRNA guanine"] null null +"tRNA-guanosine18" "a guanosine18 in tRNA" [] null null +"tRNA-Guanosines" "a guanosine in tRNA" [] null null +"tRNA-Holder" "a tRNA" [] null null +"tRNA-Inosines" "an inosine in tRNA" [] null null +"tRNA-N1-methylpseudouridine-54" "an N1-methylpseudouridine54 in tRNA" ["a tRNA containing N1-methylpseudouridine at position 54", "a tRNA N1-methylpseudouridine54"] null null +"tRNA-PreQ0" "preQ0 at position 15 of an archaeal tRNA" ["7-cyano-7-deazaguanine at position 15 in archaeal tRNA", "7-cyano-7-carbaguanine at position 15 in archaeal tRNA", "preQ0 at position 15 in archaeal tRNA", "7-cyano-7-carbaguanine15 in archaeal tRNA", "7-cyano-7-deazaguanine15 in archaeal tRNA", "preQ015 in archaeal tRNA"] null null +"tRNA-pseudouridine-31" "a pseudouridine31 in tRNA" ["a tRNA pseudouridine31"] null null +"tRNA-pseudouridine-38-39" "a pseudouridine38/39 in tRNA" ["a tRNA pseudouridine38/39"] null null +"tRNA-pseudouridine-38-40" "a pseudouridine38-40 in tRNA" ["a tRNA pseudouridine38-40"] null null +"tRNA-pseudouridine-54" "a pseudouridine54 in tRNA" ["a tRNA containing pseudouridine at position 54", "a tRNA pseudouridine54"] null null +"tRNA-pseudouridine13" "a pseudouridine13 in tRNA" ["a tRNA pseudouridine13"] null null +"tRNA-pseudouridine32" "a pseudouridine32 in tRNA" ["a tRNA pseudouridine32"] null null +"tRNA-pseudouridine35" "a pseudouridine35 in tRNA" [] null null +"tRNA-pseudouridine55" "a pseudouridine55 in tRNA" [] null null +"tRNA-pseudouridine65" "a pseudouridine65 in tRNA" [] null null +"tRNA-Pseudouridines" "a pseudouridine in tRNA" ["a tRNA pseudouridine"] null null +"tRNA-Queuines" "a tRNA queuine" [] null null +"tRNA-Ribothymidines" "a ribothymidine in tRNA" ["a tRNA ribothymidine"] null null +"tRNA-uridine-38-39" "a uridine38/39 in tRNA" [] null null +"tRNA-uridine-38-40" "a uridine38-40 in tRNA" ["a tRNA uridine38-40"] null null +"tRNA-uridine13" "a uridine13 in tRNA" ["a tRNA uridine13"] null null +"tRNA-uridine34" "a uridine34 in tRNA" ["a tRNA uridine34"] null null +"tRNA-uridine35" "a uridine35 in tRNA" [] null null +"tRNA-uridine55" "a uridine55 in tRNA" ["a tRNA uridine55"] null null +"tRNA-uridine65" "a uridine65 in tRNA" ["a tRNA uridine65"] null null +"tRNA-uridines" "a uridine in tRNA" ["a tRNA containing uridine", "a tRNA uridine"] null null +"tRNA-with-5-taurinomethyl-2-thiouridine" "a 5-taurinomethyl-2-thiouridine in tRNA" ["a tRNA containing 5-taurinomethyl-2-thiouridine"] null null +"tRNA-with-7-aminomethyl-7-deazaguanine" "a 7-aminomethyl-7-deazaguanosine34 in tRNA" ["a 7-aminomethyl-7-deazaguanine at position 34 of a tRNA containing GUN anticodon"] null null +"tRNA-with-uridine-54" "a uridine54 in tRNA" ["a tRNA containing uridine at position 54", "a tRNA uridine54"] null null +"tRNAPhe-Containing-4-demethylwyosine-37" "4-demethylwyosine37 in tRNAPhe" ["imG-1437 in tRNAPhe"] null null +"tRNAPhe-Containing-isowyosine-37" "isowyosine37 in tRNAPhe" ["imG237 in tRNAPhe"] null null +"tRNAPhe-Containing-methylwyosine-37" "7-methylwyosine37 in tRNAPhe" ["mimG37 in tRNAPhe"] null null +"tRNAPhe-Containing-N1-Methylguanine-37" "an N1-methylguanine37 in tRNAPhe" [] null null +"tRNAPhe-Containing-wyosine-37" "wyosine37 in tRNAPhe" ["imG37 in tRNAPhe"] null null +"tRNAPhe-wybutosine" "wybutosine37 in tRNAPhe" [] null null +"tRNAs-Asp-with-queuosine" "queuosine at position 34 of a tRNAAsp" ["a tRNAAsp-queuosine"] null null +"tRNAs-containing-epoxy-quenosine" "an epoxyqueuosine34 in tRNA" ["an epoxyqueuosine at position 34 of a tRNA containing GUN anticodon"] null null +"tRNAs-Containing-N6-Methyladenine" "an N6-methyladenine in tRNA" ["a tRNA containing N6-methyladenine"] null null +"tRNAs-Hypoxanthines" "a hypoxanthine in tRNA" ["a tRNA hypoxanthine"] null null +"tRNAs-with-cytidines" "a cytidine in tRNA" [] null null +"tRNAs-with-glutamylated-queuosine" "glutamyl-queuosine at position 34 of a tRNAAsp" ["a tRNA containing glutamylated queuosine", "glutamylated queuosine at position 34 of a tRNAAsp"] null null +"TRNAS-WITH-N3-METHYLCYTOSINE" "an N3-methylcytosine in tRNA" [] null null +"tRNAs-with-N7-methyl-guanine" "an N7-methylguanine in tRNA" ["a tRNA containing N7-methylguanine"] null null +"tRNAs-with-O-methyl-C-or-U" "a tRNA containing 2'-O-methylcytosine or 2'-O-methyluridine" [] null null +"tRNAs-with-queuine" "a queuosine34 in tRNA" ["a tRNA containing queuosine", "queuosine at position 34 of a tRNA"] null null +"TRP" "L-tryptophan" ["W", "tryptacin", "trofan", "tryptophan", "2-amino-3-indolylpropanic acid", "L-trp"] "C11H12N2O2" 204.228 +"Truncated-Limit-Dextrins" "a α-limit dextrin with short branches" [] "C72H122O61" null +"TTP" "dTTP" ["thymidine triphosphate", "thymidine 5'-triphosphate", "TTP"] "C10H13N2O14P3" 478.139 +"TtuD-S-sulfanyl-L-cysteine" "a [TtuD protein]-S-sulfanyl-L-cysteine" [] null null +"Tubulin-acetyl-L-lysine" "an [α-tubulin]-N6-acetyl-L-lysine" [] null null +"Tubulin-L-Lysine" "an [α-tubuline]-L-lysine" [] null null +"TUM1-L-cysteine" "a [3-mercaptopyruvate sulfurtransferase]-L-cysteine" ["a [TUM1 protein]-L-cysteine"] null null +"TUM1-S-sulfanylcysteine" "a [3-mercaptopyruvate sulfurtransferase]-S-sulfanyl-L-cysteine" ["a [TUM1] persulfide", "a sulfurylated [TUM1] protein", "a [TUM1]-S-sulfanyl-L-cysteine"] null null +"TUNGSTATE" "tungstate" ["wolframate"] "O4W" 247.848 +"TusA-L-cysteine" "a [TusA]-L-cysteine" [] null null +"TusA-L-cysteine-S-thiosulfonates" "a [TusA]-L-cysteine-S-thiosulfonate" [] null null +"TusA-Persulfides" "a [TusA sulfur-carrier protein]-S-sulfanyl-L-cysteine" ["a [TusA sulfur-carrier protein] persulfide"] null null +"TusD-L-cysteine" "a [TusD]-L-cysteine" [] null null +"TusD-Persulfides" "a [TusD sulfur-carrier protein]-S-sulfanyl-L-cysteine" ["a [TusD sulfur-carrier protein] persulfide"] null null +"TusE-L-cysteine" "a [TusE sulfur carrier protein]-L-cysteine" [] null null +"TusE-S-sulfanylcysteine" "a [TusE sulfur carrier protein]-S-sulfanylcysteine" [] null null +"TYLOSIN" "tylosin" ["tylosin A"] "C46H78NO17" 917.119 +"Type-ALeb-antigen" "an N-acetyl-α-D-galactosaminyl-(1,3)[α-L-fucosyl-(1,2)]-β-D-galactosyl-(1,3)-[α-L-fucosyl-(1,4)]-N-acetyl-β-D-glucosamine-(1→protein]" ["an A (Lewis b) histo-blood group epitope", "an ALeb epitope"] null null +"Type-BLeb-antigen" "a B (Lewis b) histo-blood group epitope" ["an α-D-galactosaminyl-(1,4)[α-L-fucosyl-(1,2)]-β-D-galactosyl-(1,3)-[α-L-fucosyl-(1,4)]-N-acetyl-β-D-glucosamine-(1→protein]", "a BLeb histo-blood group antigen"] null null +"TYR" "L-tyrosine" ["Y", "tyrosine", "L-tyr"] "C9H11NO3" 181.191 +"TYR-tRNA-Containing-2O-MeGuanosine" "a 2'-O-methylguanosine in tRNAtyr" ["tRNAtyr-containing-2'-O-methylguanosine"] null null +"TYRAMINE" "p-tyramine" ["tyrosamine", "4-(2-aminoethyl)phenol", "p-hydroxyphenethylamine", "2-(p-hydroxyphenyl)ethylamine", "para-tyramine"] "C8H12NO" 138.189 +"U6-snRNA-Adenines" "an adenine in a U6 snRNA" [] null null +"Ubiquinol-Analogues" "a ubiquinol analogue" [] null null +"Ubiquinols" "an ubiquinol" ["a reduced ubiquinone", "a dihydroubiquinone", "a QH2"] null null +"UBIQUINONE-10" "ubiquinone-10" ["coenzyme-Q10", "ubiquinone(10)"] "C59H90O4" 863.358 +"UBIQUINONE-2" "ubiquinone-2" [] "C19H26O4" 318.412 +"UBIQUINONE-6" "ubiquinone-6" ["ubiquinone(6)", "CoQ-6", "ubiquinone(30)", "coenzyme-Q6", "Q6"] "C39H58O4" 590.885 +"UBIQUINONE-8" "ubiquinone-8" ["ubiquinone(8)", "coenzyme-Q8"] "C49H74O4" 727.121 +"Ubiquinones" "a ubiquinone" ["coenzyme-Qn", "ubiquinone", "Q"] null null +"Ubiquitin-activating-protein-E1-L-cys" "an [E1 ubiquitin-activating enzyme]-L-cysteine" ["a [ubiquitin-activating enzyme E1]-L-cysteine"] null null +"Ubiquitin-C-Terminal-Glycine" "a [ubiquitin] C-terminal glycine" ["a C-terminal [ubiquitin]-glycine"] null null +"UBIQUITIN-CALMODULIN" "an N6-ubiquitinyl-[calmodulin]-L-lysine22" [] null null +"Ubiquitin-carrier-protein-E2-L-cysteine" "an [E2 ubiquitin-conjugating enzyme]-L-cysteine" ["a [ubiquitin-conjugating enzyme E2]-L-cysteine"] null null +"UDP" "UDP" ["uridine-diphosphate", "uridine-5'-diphosphate"] "C9H11N2O12P2" 401.14 +"UDP-4-AMINO-4-DEOXY-L-ARABINOSE" "UDP-4-amino-4-deoxy-β-L-arabinopyranose" ["uridine 5''-diphospho-{β}-4-deoxy-4-amino-L-arabinose", "UDP-4-amino-4-deoxy-L-arabinose"] "C14H22N3O15P2" 534.286 +"UDP-4-amino-sugars" "a UDP-4-amino-4-deoxy sugar" [] null null +"UDP-4R-amino-sugars" "a UDP-4(R)-amino-4-deoxy sugar" [] null null +"UDP-4S-amino-sugars" "a UDP-4(S)-amino-4-deoxy sugar" [] null null +"UDP-AA-GLUTAMATE" "UDP-N-acetyl-α-D-muramoyl-L-alanyl-D-glutamate" [] "C28H39N5O23P2" 875.583 +"UDP-AAGM-DIAMINOHEPTANEDIOATE" "UDP-N-acetyl-α-D-muramoyl-L-alanyl-γ-D-glutamyl-meso-2,6-diaminopimelate" ["UDP-N-acetyl-α-D-muramoyl-L-alanyl-γ-D-glutamyl-meso-2,6-diaminopimelate", "UDP-N-acetyl-α-D-muramoyl-L-alanyl-γ-D-glutamyl-meso-diaminopimelate", "UDP-MurNAc-L-Ala-γ-D-Glu-meso-A2pm", "UDP-N-acetyl-α-D-muramoyl-L-alanyl-γ-D-glutamyl-meso-2,6-diaminoheptanedioate"] "C35H51N7O26P2" 1047.767 +"UDP-ACETYL-CARBOXYVINYL-GLUCOSAMINE" "UDP-N-acetyl-α-D-glucosamine-enolpyruvate" ["UDP-N-acetyl-3-O-(1-carboxyvinyl)-α-D-glucosamine", "UDP-N-acetyl-α-D-glucosamine-3-O-pyruvate ether", "UDP-N-acetyl-3-(1-carboxyvinyl)-α-D-glucosamine", "UDP-GlcNAc-pyruvate enol ether", "UDP-GlcNAc-enolpyruvate"] "C20H26N3O19P2" 674.382 +"UDP-D-GALACTO-14-FURANOSE" "UDP-α-D-galactofuranose" ["UDP-Galf", "UDP-D-galactofuranose"] "C15H22N2O17P2" 564.289 +"UDP-D-GLUCOSAMINE" "UDP-α-D-glucosamine" ["UDP-glucosamine", "UDP-D-glucosamine"] "C15H24N3O16P2" 564.313 +"UDP-GLUCURONATE" "UDP-α-D-glucuronate" ["(UDP-GlcA)1", "UDP-D-glucuronic acid", "UDP-glucuronic acid", "udp-glcua", "UDP-glucuronate", "uridine diphosphate glucuronate", "uridine diphosphate glucuronic acid", "UDP-D-glucuronate"] "C15H19N2O18P2" 577.265 +"UDP-GROUP" "UDP group" [] "C9H12N2O12P2" 402.148 +"UDP-hex4-ulose" "a UDP-hex4-ulose" ["a UDP-4-dehydro-sugar"] null null +"UDP-L-ARA4-FORMYL-N" "UDP-4-deoxy-4-formamido-β-L-arabinopyranose" ["UDP-L-Ara4FN", "UDP-β-L-Ara4FN", "UDP-L-Ara4-Formyl-N", "UDP-β-(4-deoxy-4-formamido-L-arabinose)", "uridine 5''-diphospho-{beta}-4-deoxy-4-formamido-L-arabinose"] "C15H21N3O16P2" 561.289 +"UDP-L-arabinofuranose" "UDP-L-arabinofuranose" [] "C14H20N2O16P2" 534.263 +"UDP-L-arabinopyranose" "UDP-L-arabinopyranose" [] "C14H20N2O16P2" 534.263 +"UDP-L-ARABINOSE" "UDP-L-arabinose" ["UDP-arabinose", "UDP-β-L-arabinose"] "C14H20N2O16P2" 534.263 +"UDP-MANNAC" "UDP-N-acetyl-α-D-mannosamine" ["uridine diphosphate N-acetylmannosamine", "uridine 5'-(trihydrogen diphosphate), P'-(2-(acetylamino)-2-deoxy-α-D-mannopyranosyl) ester", "UDP-acetylmannosamine", "UDP-ManNAc"] "C17H25N3O17P2" 605.342 +"UDP-MANNACA" "UDP-N-acetyl-α-D-mannosaminuronate" ["UDP-ManNAcA"] "C17H22N3O18P2" 618.318 +"UDP-MURNAC-TETRAPEPTIDE" "UDP-N-acetylmuramoyl-L-alanyl-γ-D-glutamyl-meso-2,6-diaminopimeloyl-D-alanine" ["UDP-N-acetylmuramoyl-L-alanyl-γ-D-glutamyl-meso-2,6-diaminoheptanedioate-D-alanine", "UDP-MurNAc-tetrapeptide", "uridine 5'-pyrophosphoryl N-acetylmuramyl-tetrapeptide"] "C38H56N8O27P2" 1118.845 +"UDP-N-ACETYL-D-GLUCOSAMINE" "UDP-N-acetyl-α-D-glucosamine" ["UDP-2-acetamido-2-deoxy-D-glucose", "UDP-acetyl-D-glucosamine", "UDP-GlcNAc", "UDP-N-acetyl-glucosamine", "uridine diphosphate N-acetylglucosamine", "N-[2-[[[5-[(2,4-dioxo-1H-pyrimidin-1-yl)]-3,4-dihydroxy-tetrahydrofuran-2-yl]methoxy-hydroxy-phosphinoyl]oxy-hydroxy-phosphinoyl]oxy-4,5-dihydroxy-6-(hydroxymethyl)tetrahydropyran-3-yl]acetamide", "UDP-2-acetamido-2-deoxy-α-D-glucose", "UDP-N-acetyl-D-glucosamine", "UDP-α-N-acetyl-D-glucosamine"] "C17H25N3O17P2" 605.342 +"UDP-N-ACETYL-GALACTOSAMINE" "UDP-N-acetyl-D-galactosamine" ["UDP-N-acetylgalactosamine", "uridine diphosphate N-acetylgalactosamine"] "C17H25N3O17P2" 605.342 +"UDP-N-ACETYLMURAMATE" "UDP-N-acetyl-α-D-muramate" ["dihydro-UDP-MurNAc", "dihydro-UDP-N-acetylmuramic acid", "dihydro-UDP-N-acetylmuramate", "uridine diphosphate N-acetylmuramic acid", "UDP-N-acetylmuramic acid", "UDP-N-acetyl-D-muramate", "UDP-MurNAc", "UDP-N-acetylmuramoyl", "-O-[(1R)-1-carboxyethyl]-2-acetoxy-2-deoxy-D-glucopyranose"] "C20H28N3O19P2" 676.397 +"UDP-N-acetylmuramoyl-Tripeptide" "a UDP-N-acetylmuramoyl-tripeptide" [] null null +"UDP-NAC-MANNOS" "UDP-N-acetyl-D-mannosaminouronate" ["UDP-N-acetyl-2-amino-2-deoxy-D-mannuronate", "UDP-N-acetyl-D-mannosaminuronic acid"] "C17H22N3O18P2" 618.318 +"UDP-NAcMur-Peptides" "a UDP-N-acetylmuramoyl-pentapeptide" ["a UDP-N-acetylmuramoyl-L-alanyl-γ-D-glutamyl-X- D-alanyl-D-alanine"] null null +"UDP-NAcMur-Tetrapeptides" "a UDP-N-acetylmuramoyl-tetrapeptide" ["a UDP-N-acetylmuramoyl-L-alanyl-D-glutamyl-X- D-D-alanine"] null null +"UDP-OHMYR-ACETYLGLUCOSAMINE" "UDP-3-O-[(3R)-3-hydroxymyristoyl]-N-acetyl-α-D-glucosamine" ["UDP-3-O-(3-hydroxytetradecanoyl)-N-acetylglucosamine", "UDP-3-O-(3-hydroxymyristoyl)-N-acetylglucosamine"] "C31H51N3O19P2" 831.7 +"UDP-OHMYR-GLUCOSAMINE" "UDP-3-O-(3-hydroxymyristoyl)-α-D-glucosamine" ["UDP-3-O-(3-hydroxytetradecanoyl)-D-glucosamine", "UDP-3-O-(3-hydroxytetradecanoyl)glucosamine", "UDP-3-O-[(3R)-3-hydroxymyristoyl]-D-glucosamine"] "C29H50N3O18P2" 790.671 +"UDP-sugar" "a UDP-sugar" [] null null +"UMP" "UMP" ["uridylate", "5'-UMP", "uridine 5'-phosphate", "5'-uridylic acid (8CI)(9CI)", "uridine monophosphate", "uridine 5'-monophosphate"] "C9H11N2O9P" 322.168 +"Unbranched-1-6-Mannan" "an unbranched α-(1,6)-D-mannan" ["a fungal cell wall mannan backbone"] null null +"Uncharged-polar-amino-acids" "an uncharged polar amino acid" [] null null +"undecaprenyl" "all-trans-undecaprenyl group" [] "C55H90" 751.316 +"UNDECAPRENYL-DIPHOSPHATE" "di-trans,octa-cis-undecaprenyl diphosphate" ["di-trans-poly-cis-undecaprenyl diphosphate", "undecaprenyl-PP (ambiguous)", "bactoprenyl pyrophosphate", "undecaprenyl pyrophosphate (ambiguous)", "UPP (ambiguous)", "di-trans,octa-cis-undecaprenyl diphosphate", "C55-PP", "Und-PP"] "C55H89O7P2" 924.251 +"UNDECAPRENYL-P" "all-trans-undecaprenyl phosphate" [] "C55H89O4P" 845.279 +"UNKNOWN" "an unknown compound" ["unknown"] null null +"Unknown-Inducers" null ["an unknown inducer", "unknown inducer"] null null +"Unknown-Quinols" "an unknown quinol" [] null null +"Unknown-Quinones" "an unknown quinone" [] null null +"Unsaturated-aldehydes" "an α,β-unsaturated aldehyde" [] null null +"Unsaturated-carbonyl-compounds" "an α,β-unsaturated carbonyl compound" [] null null +"Unsaturated-Fatty-Acids" "an unsaturated fatty acid" [] null null +"Unsaturated-Pyranuronate" "an unsaturated pyranuronate" [] "C6H7O6" null +"Unspecified-Degradation-Products" "[unspecified degradation products]" [] null null +"Unspecified-Ion-Or-Solute" "non-specific ion/solute" [] null null +"Unstable-RecA-Filament-DNA-Complex" "an unstable RecA filament-DNA complex" [] null null +"URACIL" "uracil" ["U"] "C4H4N2O2" 112.088 +"Uracil-54-in-tRNA" "a uracil54 in tRNA" ["a tRNA containing uracil at position 54", "a tRNA uracil54"] null null +"Uracil-6666-apolipoprotein-B-mRNAs" "a uracil6666 in apolipoprotein B mRNA" [] null null +"Uracil-8-In-tRNAs" "a uracil8 in tRNA" [] null null +"Uracil-Analogues" "a uracil analogue" [] null null +"Uracil-In-Single-Stranded-DNAs" "a uracil in single-stranded DNA" [] null null +"Uracil-Nucleotides" "a uracil nucleotide" [] null null +"Uracil-tRNAs" "a uracil in tRNA" ["tRNA containing uracil"] null null +"Uracil16-in-tRNAs" "a uracil16 in tRNA" [] null null +"Uracil17-in-tRNAs" "a uracil17 in tRNA" [] null null +"Uracil20-in-tRNAs" "a uracil20 in tRNA" [] null null +"Uracil20a-in-tRNAs" "a uracil20a in tRNA" [] null null +"Uracil20b-in-tRNAs" "a uracil20b in tRNA" [] null null +"Uracil47-in-tRNAs" "a uracil47 in tRNA" [] null null +"URATE" "urate" ["2,6,8-trioxypurine", "purine-2,6,8-(1H,3H,9H)-trione", "7,9-dihydro-1H-purine-2,6,8(3H)-trione"] "C5H4N4O3" 168.112 +"UREA" "urea" ["bromisovalum", "carmol", "basodexan", "carbamide"] "CH4N2O" 60.055 +"Ureido-Compounds" "a ureido compound" ["a (carbamoylamino) compound"] null null +"Ureidocarboxylates" "an ureidocarboxylate" ["a (carbamoylamino)carboxylate"] null null +"URIDINE" "uridine" [] "C9H12N2O6" 244.204 +"Uridine-Nucleotides" "a uridine nucleotide" [] null null +"Uridine2479-in-23S-rRNA" "a uridine2479 in 23S rRNA" [] null null +"Uridine31-in-tRNA" "a uridine31 in tRNA" [] null null +"Uridine32-in-tRNA" "a uridine32 in tRNA" ["a tRNA uridine32"] null null +"Uridine44-in-tRNA-Ser" "a uridine44 in tRNAser" [] null null +"Uridine47-in-tRNAPhe" "a uridine47 in tRNAPhe" [] null null +"Uronate-Phosphate" "a uronate phosphate" ["a uronic acid phosphate"] null null +"Uronates" "a uronate" ["a uronic acid"] null null +"UROPORPHYRINOGEN-III" "uroporphyrinogen-III" ["uroporphyrinogen III"] "C40H36N4O16" 828.742 +"UROPORPHYRIN_III" "uroporphyrin III" [] "C40H30N4O16" 822.694 +"Urushiol" "an urushiol" [] null null +"UTP" "UTP" ["uridine-triphosphate", "uridine-5'-triphosphate"] "C9H11N2O15P3" 480.112 +"V+5" "V5+" ["vanadium(5+)", "vanadium", "vanadium (5+)", "vanadium 5+", "vanadium ion (V5+)"] "V" 50.94 +"Vaccenate" "a vaccenate" ["octadec-11-enoate", "11-octadecenoate", "a vaccenic acid"] "C18H33O2" 281.457 +"Vaccenoyl-Lipid" "a [glycerolipid]-vaccenate" [] null null +"VAL" "L-valine" ["V", "valine", "L-val"] "C5H11NO2" 117.147 +"Val-tRNA1-Adenine37" "adenine37 in tRNA1val" [] null null +"Val-tRNA1-N6-MeAdenine37" "an N6-methyladenine37 in tRNA1val" [] null null +"VANILLATE" "vanillate" ["4-hydroxy-3-methoxybenzoate", "vanillic acid", "4-hydroxy-3-methoxybenzoic acid"] "C8H7O4" 167.141 +"VANILLIN" "vanillin" ["4-hydroxy-3-methoxybenzaldehyde"] "C8H8O3" 152.149 +"Vernolates" "vernolate" ["12,13-epoxy-9-cis-octadecenoic acid", "12,13-epoxy-9-cis-octadecenoate", "vernolic acid", "(9Z)-11-(3-pentyloxiran-2-yl)undec-9-enoic acid", "(9Z)-11-(3-pentyloxiran-2-yl)undec-9-enoic acids", "12(13)-EpOME", "(9Z)-12,13-epoxyoctadecenoic acid", "12,13-cis-epoxyoctadecenoic acid", "cis-12,13-ep, 9c-18:1", "cis-12,13-epoxy-9-octadecenoic acid"] "C18H31O3" 295.441 +"Very-long-Chain-234-Saturated-acyl-CoAs" "a very-long-chain 2,3,4-saturated fatty acyl CoA" [] null null +"Very-Long-Chain-234-Saturated-FAs" "a very-long-chain 2,3,4-saturated fatty acid" [] null null +"Very-Long-Chain-3-Hydroxyacyl-CoAs" "a very-long-chain (3R)-3-hydroxyacyl-CoA" [] null null +"Very-Long-Chain-3-Oxo-fatty-Acids" "a very long chain 3-oxo-fatty acid" ["a 3-oxo-very long chain-fatty acid"] null null +"Very-Long-Chain-3S-Hydroxyacyl-CoAs" "a very-long-chain (3S)-3-hydroxyacyl-CoA" [] null null +"Very-Long-Chain-Alcohols" "a very-long-chain fatty alcohol" [] null null +"Very-Long-Chain-Aldehydes" "a very-long-chain fatty aldehyde" ["a very-long-chain aldehyde"] null null +"Very-Long-Chain-Alkanes" "a very long-chain alkane" [] null null +"Very-long-chain-fatty-acids" "a very-long-chain fatty acid" ["VLCFA"] null null +"VERY-LONG-CHAIN-FATTY-ACYL-AMPs" "a very long chain fatty-acyl adenylate ester" [] null null +"VERY-LONG-CHAIN-FATTY-ACYL-COA" "a very-long-chain fatty acyl-CoA" ["a very-long-chain fatty acyl-coenzyme A", "a very-long-chain acyl-CoA"] null null +"Very-Long-Chain-oxoacyl-CoAs" "a very-long-chain oxoacyl-CoA" [] null null +"Very-Long-Chain-Trans-23-Dehydroacyl-CoA" "a very-long-chain (2E)-2-enoyl-CoA" ["a very-long-chain trans-2,3-didehydroacyl-CoA", "a very-long-chain trans-2-enoyl-CoA", "a very-long-chain trans2-enoyl-CoA", "a very-long-chain trans-didehydroacyl-CoA", "a very-long-chain trans-2,3-dehydroacyl-CoA"] null null +"VIM-2" "a VIM-2 epitope" ["αNeuNAc-(2→3)-βGal-(1→4)-βGlcNAc-(1→3)-βGal-(1→4)-[αFuc-(1→3)-βGlcNAc]-R", "NeuNAca2→3Galβl→4GlcNAcβ1→3Galβl→4[Fuca(l→3)GlcNAc]-R"] null null +"Vitamin-A" "vitamin A" ["tocopherol"] null null +"Vitamin-E" "vitamin E" ["a tocochromenol"] null null +"Vitamins" "a vitamin" [] null null +"Vitamins-B6" "a vitamin B6" [] null null +"VLC-alcohol-LC-acyl-ester" "a very-long-chain alcohol--long-chain acyl wax ester" [] null null +"VLC-alcohol-VLC-acyl-ester" "a very-long-chain alcohol--very-long-chain acyl wax ester" [] null null +"WATER" "H2O" ["H2O", "hydrogen oxide", "water"] "H2O" 18.015 +"Wax-Esters" "a wax ester" [] null null +"Wnt-Protein-L-serine" "a [Wnt protein]-L-serine" [] null null +"Wnt-Protein-O-9Z-hexadecenoyl-L-serine" "a [Wnt protein]-O-palmitoleoyl-L-serine" ["a [Wnt protein]-O-(9Z)-hexadecenoyl-L-serine"] null null +"X-DARA-HEX-2:5_2:KETO" "x-dara-HEX-2:5|2:keto" ["D-Fruf"] null null +"X-DARA-PEN-1:4" "x-dara-PEN-1:4" ["D-Araf"] null null +"X-DGAL-HEX-1:5" "x-dgal-HEX-1:5" ["D-Galp"] null null +"X-DGAL-HEX-1:5_6:A" "x-dgal-HEX-1:5|6:a" ["D-GalA"] null null +"X-DGLC-HEX-1:5" "x-dglc-HEX-1:5" ["D-Glcp"] null null +"X-DGLC-HEX-1:5_6:A" "x-dglc-HEX-1:5|6:a" ["D-GlcA"] null null +"X-DGLC-HEX-1:5_6:D" "x-dglc-HEX-1:5|6:d" ["D-Quip"] null null +"X-DGRO-DGAL-NON-2:6_1:A_2:KETO_3:D" "x-dgro-dgal-NON-2:6|1:a|2:keto|3:d" [] null null +"X-DMAN-HEX-1:5" "x-dman-HEX-1:5" ["D-Manp"] null null +"X-DMAN-HEX-X:X" "x-dman-HEX-x:x" [] null null +"X-DXYL-PEN-1:5" "x-dxyl-PEN-1:5" ["D-Xylp"] null null +"X-HEP-1:5" "x-HEP-1:5" [] null null +"X-HEX-1:5" "x-HEX-1:5" [] null null +"X-LARA-PEN-1:4" "x-lara-PEN-1:4" ["L-Araf"] null null +"X-LGAL-HEX-1:5" "x-lgal-HEX-1:5" ["L-Galp"] null null +"X-LGAL-HEX-1:5_6:D" "x-lgal-HEX-1:5|6:d" ["L-Fucp"] null null +"X-LIDO-HEX-1:5_6:A" "x-lido-HEX-1:5|6:a" ["L-IdoA"] null null +"X-LMAN-HEX-1:5_6:D" "x-lman-HEX-1:5|6:d" ["L-Rhap"] null null +"X-PEN-1:4" "x-PEN-1:4" ["Pen"] null null +"Xanthan" "xanthan" ["xanthan gum"] null null +"XANTHINE" "xanthine" ["2,6-dioxopurine"] "C5H4N4O2" 152.112 +"Xanthophylls" "a xanthophyll" [] null null +"XANTHOSINE" "xanthosine" ["9 β-D-ribofuranosylxanthine"] "C10H12N4O6" 284.228 +"XANTHOSINE-5-PHOSPHATE" "XMP" ["(9-D-ribosylxanthine) 5'-phosphate", "xanthosine 5-phosphate", "xanthosine 5'-phosphate", "xanthosine-5-P", "xanthosine-5'-P", "9-(5-phospho-β-D-ribosyl)xanthine"] "C10H11N4O9P" 362.192 +"XDP" "XDP" ["xanthosine diphosphate"] "C10H11N4O12P2" 441.164 +"Xenobiotic" "a xenobiotic" [] null null +"XLFG-Xyloglucans" "an XLFG xylogulcan" ["a xyloglucan modified with galactose and fucose side chains"] null null +"XTP" "XTP" ["xanthosine 5' triphosphate"] "C10H11N4O15P3" 520.136 +"Xyl-Glc-EGF-like-domain" "a [protein with EGF-like domain]-3-O-[α-D-xylosyl-(1→3)-β-D-glucosyl]-L-serine" ["Xyl-α(1-3)-Glc-β-[EGF-like domain protein]"] null null +"Xyl-Xyl-Glc-EGF-like-domain" "a [protein with EGF-like domain]-3-O-[α-D-xylosyl-(1→3)-α-D-xylosyl-(1→3)-β-D-glucosyl]-L-serine" [] null null +"Xylans" "xylan" [] null null +"Xylarates" "a xylarate" [] null null +"XYLITOL" "xylitol" ["(2R,3R,4S)-pentane-1,2,3,4,5-pentaol"] "C5H12O5" 152.147 +"Xylogalacturonan" "a xylogalacturonan" [] null null +"Xyloglucan" "a xyloglucan" [] null null +"Xyloglucan-oligosaccharides" "a xyloglucan oligosaccharide" ["an oligoxyloglucan"] null null +"Xyloglucan-tetraose" "a xyloglucan cellotetraose" [] null null +"Xyloglucans-Galactose-2" "an XLXG xylogulcan" ["a xyloglucan with galactose side chain at position 2"] null null +"Xyloglucans-Galactose-23" "an XLLG xylogulcan" ["a xyloglucan with galactose side chain at positions 2 and 3"] null null +"Xyloglucans-Galactose-3" "an XXLG xylogulcan" ["a xyloglucan with galactose side chain at position 3"] null null +"Xyloglucans-Xylose" "an XXXG xylogulcan" ["a xylose-only xyloglucan"] null null +"XYLOSE" "α-D-xylopyranose" ["α-D-xylose", "xylose", "D-xylose", "wood sugar"] "C5H10O5" 150.131 +"Xylosides" "a xyloside" [] null null +"Xylulose" "xylulose" [] "C5H10O5" 150.131 +"XYLULOSE-5-PHOSPHATE" "D-xylulose 5-phosphate" ["xylulose 5-phosphate", "xylulose-phosphate", "D-xylulose-5-P", "xylulose-P"] "C5H9O8P" 228.095 +"yW-58" "7-[(3S)-4-methoxy-(3-amino-3-carboxypropyl)]-wyosine37 in tRNAPhe" ["yW-58 in tRNAPhe", "7-(3-amino-3-methylcarboxypropyl)-wyosine37 in tRNAPhe"] null null +"yW-72" "7-[(3S)-(3-amino-3-carboxypropyl)]-wyosine37 in tRNAPhe" ["yW-72 in tRNAPhe"] null null +"yW-86" "7-[(3S)-3-amino-3-carboxypropyl]-4-demethylwyosine37 in tRNAPhe" ["yW86 in tRNAPhe", "4-demethyl-7-(3-amino-3-carboxypropyl)wyosine37 in tRNAPhe"] null null +"Zealexins" "a zealexin" [] null null +"ZN+2" "Zn2+" ["zinc(II)", "Zn(II) (incorrect)", "ZnII"] "Zn" 65.38 +"Zymosan" "zymosan" [] null null +# Metabolites below were added to save other processes +"glycogen-monomer" 163.149 +"4FE-4S" 351.642 diff --git a/reconstruction/ecoli/flat/modified_proteins.tsv b/reconstruction/ecoli/flat/modified_proteins.tsv index e0bf0bd461..fab9911915 100644 --- a/reconstruction/ecoli/flat/modified_proteins.tsv +++ b/reconstruction/ecoli/flat/modified_proteins.tsv @@ -1,30 +1,23 @@ "id" "subunits" "mw" "compartment" -"PHOSPHO-ARCA" [{"monomer": "ARCA-MONOMER[c]", "stoichiometry": 1}, {"monomer": "PI[c]", "stoichiometry": 1}] [0.0, 0.0, 0.0, 0.0, 0.0, 27282.049, 77.963, 0.0, 0.0] "c" -"PHOSPHO-ARCB-CPLX" [{"monomer": "ARCB-MONOMER[i]", "stoichiometry": 2}, {"monomer": "PI[c]", "stoichiometry": 1}] [0.0, 0.0, 0.0, 0.0, 0.0, 175899.976, 77.963, 0.0, 0.0] "i" -"PHOSPHO-BAER" [{"monomer": "BAER-MONOMER[c]", "stoichiometry": 1}, {"monomer": "PI[c]", "stoichiometry": 1}] [0.0, 0.0, 0.0, 0.0, 0.0, 27651.011, 77.963, 0.0, 0.0] "c" -"PHOSPHO-BAES" [{"monomer": "BAES-MONOMER[i]", "stoichiometry": 1}, {"monomer": "PI[c]", "stoichiometry": 1}] [0.0, 0.0, 0.0, 0.0, 0.0, 51991.529, 77.963, 0.0, 0.0] "i" -"PHOSPHO-BASR" [{"monomer": "BASR-MONOMER[c]", "stoichiometry": 1}, {"monomer": "PI[c]", "stoichiometry": 1}] [0.0, 0.0, 0.0, 0.0, 0.0, 25024.866, 77.963, 0.0, 0.0] "c" -"PHOSPHO-BASS" [{"monomer": "BASS-MONOMER[i]", "stoichiometry": 1}, {"monomer": "PI[c]", "stoichiometry": 1}] [0.0, 0.0, 0.0, 0.0, 0.0, 41022.360, 77.963, 0.0, 0.0] "i" -"PHOSPHO-DCUR" [{"monomer": "DCUR-MONOMER[c]", "stoichiometry": 1}, {"monomer": "PI[c]", "stoichiometry": 1}] [0.0, 0.0, 0.0, 0.0, 0.0, 27483.513, 77.963, 0.0, 0.0] "c" -"PHOSPHO-DCUS" [{"monomer": "DCUS-MONOMER[i]", "stoichiometry": 1}, {"monomer": "PI[c]", "stoichiometry": 1}] [0.0, 0.0, 0.0, 0.0, 0.0, 60545.873, 77.963, 0.0, 0.0] "i" -"PHOSPHO-NARL" [{"monomer": "NARL-MONOMER[c]", "stoichiometry": 1}, {"monomer": "PI[c]", "stoichiometry": 1}] [0.0, 0.0, 0.0, 0.0, 0.0, 23921.867, 77.963, 0.0, 0.0] "c" -"PHOSPHO-NARX" [{"monomer": "NARX-MONOMER[i]", "stoichiometry": 2}, {"monomer": "PI[c]", "stoichiometry": 1}] [0.0, 0.0, 0.0, 0.0, 0.0, 134156.426, 77.963, 0.0, 0.0] "i" -"PHOSPHO-PHOP" [{"monomer": "PHOP-MONOMER[c]", "stoichiometry": 1}, {"monomer": "PI[c]", "stoichiometry": 1}] [0.0, 0.0, 0.0, 0.0, 0.0, 25525.239, 77.963, 0.0, 0.0] "c" -"PHOSPHO-PHOQ" [{"monomer": "PHOQ-MONOMER[i]", "stoichiometry": 2}, {"monomer": "PI[c]", "stoichiometry": 1}] [0.0, 0.0, 0.0, 0.0, 0.0, 110577.528, 77.963, 0.0, 0.0] "i" -"PHOSPHO-PHOB" [{"monomer": "PHOB-MONOMER[c]", "stoichiometry": 1}, {"monomer": "PI[c]", "stoichiometry": 1}] [0.0, 0.0, 0.0, 0.0, 0.0, 26425.439, 77.963, 0.0, 0.0] "c" -"PHOSPHO-PHOR" [{"monomer": "PHOR-MONOMER[i]", "stoichiometry": 2}, {"monomer": "PI[c]", "stoichiometry": 1}] [0.0, 0.0, 0.0, 0.0, 0.0, 99217.306, 77.963, 0.0, 0.0] "i" +"PHOSPHO-ARCA" [{"monomer": "ARCA-MONOMER[c]", "stoichiometry": 1}, {"monomer": "Pi[c]", "stoichiometry": 1}] [0.0, 0.0, 0.0, 0.0, 0.0, 27281.891, 77.964, 0.0, 0.0] "c" +"PHOSPHO-BAER" [{"monomer": "BAER-MONOMER[c]", "stoichiometry": 1}, {"monomer": "Pi[c]", "stoichiometry": 1}] [0.0, 0.0, 0.0, 0.0, 0.0, 27650.854, 77.964, 0.0, 0.0] "c" +"PHOSPHO-BAES" [{"monomer": "BAES-MONOMER[i]", "stoichiometry": 1}, {"monomer": "Pi[c]", "stoichiometry": 1}] [0.0, 0.0, 0.0, 0.0, 0.0, 51991.262, 77.964, 0.0, 0.0] "i" +"PHOSPHO-BASR" [{"monomer": "BASR-MONOMER[c]", "stoichiometry": 1}, {"monomer": "Pi[c]", "stoichiometry": 1}] [0.0, 0.0, 0.0, 0.0, 0.0, 25024.723, 77.964, 0.0, 0.0] "c" +"PHOSPHO-BASS" [{"monomer": "BASS-MONOMER[i]", "stoichiometry": 1}, {"monomer": "Pi[c]", "stoichiometry": 1}] [0.0, 0.0, 0.0, 0.0, 0.0, 41022.114, 77.964, 0.0, 0.0] "i" +"PHOSPHO-DCUR" [{"monomer": "DCUR-MONOMER[c]", "stoichiometry": 1}, {"monomer": "Pi[c]", "stoichiometry": 1}] [0.0, 0.0, 0.0, 0.0, 0.0, 27483.357, 77.964, 0.0, 0.0] "c" +"PHOSPHO-DCUS" [{"monomer": "DCUS-MONOMER[i]", "stoichiometry": 1}, {"monomer": "Pi[c]", "stoichiometry": 1}] [0.0, 0.0, 0.0, 0.0, 0.0, 60545.55, 77.964, 0.0, 0.0] "i" +"PHOSPHO-NARL" [{"monomer": "NARL-MONOMER[c]", "stoichiometry": 1}, {"monomer": "Pi[c]", "stoichiometry": 1}] [0.0, 0.0, 0.0, 0.0, 0.0, 23921.712, 77.964, 0.0, 0.0] "c" +"PHOSPHO-NARX" [{"monomer": "NARX-MONOMER[i]", "stoichiometry": 2}, {"monomer": "Pi[c]", "stoichiometry": 1}] [0.0, 0.0, 0.0, 0.0, 0.0, 134155.558, 77.964, 0.0, 0.0] "i" +"PHOSPHO-PHOP" [{"monomer": "PHOP-MONOMER[c]", "stoichiometry": 1}, {"monomer": "Pi[c]", "stoichiometry": 1}] [0.0, 0.0, 0.0, 0.0, 0.0, 25525.098, 77.964, 0.0, 0.0] "c" +"PHOSPHO-PHOQ" [{"monomer": "PHOQ-MONOMER[i]", "stoichiometry": 2}, {"monomer": "Pi[c]", "stoichiometry": 1}] [0.0, 0.0, 0.0, 0.0, 0.0, 110576.89, 77.964, 0.0, 0.0] "i" +"PHOSPHO-PHOB" [{"monomer": "PHOB-MONOMER[c]", "stoichiometry": 1}, {"monomer": "Pi[c]", "stoichiometry": 1}] [0.0, 0.0, 0.0, 0.0, 0.0, 26425.252, 77.964, 0.0, 0.0] "c" +"PHOSPHO-PHOR" [{"monomer": "PHOR-MONOMER[i]", "stoichiometry": 2}, {"monomer": "Pi[c]", "stoichiometry": 1}] [0.0, 0.0, 0.0, 0.0, 0.0, 99280.802, 77.964, 0.0, 0.0] "i" +"PHOSPHO-ARCB-CPLX" [{"monomer": "ARCB-MONOMER[i]", "stoichiometry": 2}, {"monomer": "PI[c]", "stoichiometry": 1}] [0.0, 0.0, 0.0, 0.0, 0.0, 175899.018, 77.964, 0.0, 0.0] "i" +"PHOSPHO-BAES-INDOLE-CPLX" [{"monomer": "BAES-MONOMER[i]", "stoichiometry": 1}, {"monomer": "Pi[c]", "stoichiometry": 1}] [0.0, 0.0, 0.0, 0.0, 0.0, 51991.262, 195.114, 0.0, 0.0] "i" +"PHOSPHO-BASS-FE+3-CPLX" [{"monomer": "BASS-MONOMER[i]", "stoichiometry": 1}, {"monomer": "Pi[c]", "stoichiometry": 1}] [0.0, 0.0, 0.0, 0.0, 0.0, 41022.114, 133.811, 0.0, 0.0] "i" +"PHOSPHO-DCUS-SUC-CPLX" [{"monomer": "DCUS-MONOMER[i]", "stoichiometry": 1}, {"monomer": "Pi[c]", "stoichiometry": 1}] [0.0, 0.0, 0.0, 0.0, 0.0, 60545.55, 194.037, 0.0, 0.0] "i" +"PHOSPHO-NARX-NITRATE-CPLX" [{"monomer": "NARX-MONOMER[i]", "stoichiometry": 2}, {"monomer": "Pi[c]", "stoichiometry": 1}] [0.0, 0.0, 0.0, 0.0, 0.0, 134155.558, 139.969, 0.0, 0.0] "i" +# Proteins below are not used by the simulation and are added just as placeholders "PHOSPHO-ARCB-OXYGEN-CPLX" [{"monomer": "ARCB-MONOMER[i]", "stoichiometry": 2}, {"monomer": "PI[c]", "stoichiometry": 1}] [0.0, 0.0, 0.0, 0.0, 0.0, 175899.976, 109.961, 0.0, 0.0] "i" -"PHOSPHO-BAES-INDOLE-CPLX" [{"monomer": "BAES-MONOMER[i]", "stoichiometry": 1}, {"monomer": "PI[c]", "stoichiometry": 1}] [0.0, 0.0, 0.0, 0.0, 0.0, 51991.529, 195.114, 0.0, 0.0] "i" -"PHOSPHO-BAES-TUNGSTATE-CPLX" [{"monomer": "BAES-MONOMER[i]", "stoichiometry": 1}, {"monomer": "PI[c]", "stoichiometry": 1}] [0.0, 0.0, 0.0, 0.0, 0.0, 51991.529, 326.807, 0.0, 0.0] "i" -"PHOSPHO-BAES-CPD-520-CPLX" [{"monomer": "BAES-MONOMER[i]", "stoichiometry": 1}, {"monomer": "PI[c]", "stoichiometry": 1}] [0.0, 0.0, 0.0, 0.0, 0.0, 51991.529, 379.193, 0.0, 0.0] "i" -"PHOSPHO-BAES-CPD-183-CPLX" [{"monomer": "BAES-MONOMER[i]", "stoichiometry": 1}, {"monomer": "PI[c]", "stoichiometry": 1}] [0.0, 0.0, 0.0, 0.0, 0.0, 51991.529, 247.075, 0.0, 0.0] "i" -"PHOSPHO-BASS-FE+3-CPLX" [{"monomer": "BASS-MONOMER[i]", "stoichiometry": 1}, {"monomer": "PI[c]", "stoichiometry": 1}] [0.0, 0.0, 0.0, 0.0, 0.0, 41022.360, 133.808, 0.0, 0.0] "i" -"PHOSPHO-DCUS-SUC-CPLX" [{"monomer": "DCUS-MONOMER[i]", "stoichiometry": 1}, {"monomer": "PI[c]", "stoichiometry": 1}] [0.0, 0.0, 0.0, 0.0, 0.0, 60545.873, 194.035, 0.0, 0.0] "i" -"PHOSPHO-DCUS-ACET-CPLX" [{"monomer": "DCUS-MONOMER[i]", "stoichiometry": 1}, {"monomer": "PI[c]", "stoichiometry": 1}] [0.0, 0.0, 0.0, 0.0, 0.0, 60545.873, 137.007, 0.0, 0.0] "i" -"PHOSPHO-DCUS-FUM-CPLX" [{"monomer": "DCUS-MONOMER[i]", "stoichiometry": 1}, {"monomer": "PI[c]", "stoichiometry": 1}] [0.0, 0.0, 0.0, 0.0, 0.0, 60545.873, 192.019, 0.0, 0.0] "i" -"PHOSPHO-DCUS-MAL-CPLX" [{"monomer": "DCUS-MONOMER[i]", "stoichiometry": 1}, {"monomer": "PI[c]", "stoichiometry": 1}] [0.0, 0.0, 0.0, 0.0, 0.0, 60545.873, 210.034, 0.0, 0.0] "i" -"PHOSPHO-NARX-NITRATE-CPLX" [{"monomer": "NARX-MONOMER[i]", "stoichiometry": 2}, {"monomer": "PI[c]", "stoichiometry": 1}] [0.0, 0.0, 0.0, 0.0, 0.0, 134156.426, 139.967, 0.0, 0.0] "i" -"PHOSPHO-NARX-NITRITE-CPLX" [{"monomer": "NARX-MONOMER[i]", "stoichiometry": 2}, {"monomer": "PI[c]", "stoichiometry": 1}] [0.0, 0.0, 0.0, 0.0, 0.0, 134156.426, 123.968, 0.0, 0.0] "i" "PHOSPHO-PHOQ-CA+2-CPLX" [{"monomer": "PHOQ-MONOMER[i]", "stoichiometry": 2}, {"monomer": "PI[c]", "stoichiometry": 1}] [0.0, 0.0, 0.0, 0.0, 0.0, 110577.528, 118.041, 0.0, 0.0] "i" -"PHOSPHO-PHOQ-MG+2-CPLX" [{"monomer": "PHOQ-MONOMER[i]", "stoichiometry": 2}, {"monomer": "PI[c]", "stoichiometry": 1}] [0.0, 0.0, 0.0, 0.0, 0.0, 110577.528, 102.268, 0.0, 0.0] "i" "PHOSPHO-PHOR-Pi-CPLX" [{"monomer": "PHOR-MONOMER[i]", "stoichiometry": 2}, {"monomer": "PI[c]", "stoichiometry": 1}] [0.0, 0.0, 0.0, 0.0, 0.0, 99217.306, 173.941, 0.0, 0.0] "i" diff --git a/reconstruction/ecoli/flat/parameters.tsv b/reconstruction/ecoli/flat/parameters.tsv index b12d855cb8..8c0416291d 100644 --- a/reconstruction/ecoli/flat/parameters.tsv +++ b/reconstruction/ecoli/flat/parameters.tsv @@ -1,7 +1,7 @@ "name" "value" "units" "_source" "_comments" "gtp_per_translation" 4.2 -"oriC_center" 3923882 "units.nt" "Ecocyc" -"terC_center" 1607192 "units.nt" "Ecocyc" +"oriC_center" 3925860 "units.nt" "EcoCyc, rounded average of two oriC boundaries" +"terC_center" 1605046 "units.nt" "EcoCyc, (oriC_center) - (genome_size/2)" "cell_density" 1100 "units.g/units.L" "Baldwin et al." "from Baldwin WW, Myer R, Powell N, Anderson E, Koch AL. Buoyant density of Escherichia coli is determined solely by the osmolarity of the culture medium. Arch Microbiol. 1995 Aug164(2):155-7 p.156 fig.3 & fig.2 (retrieved from Bionumbers)" "growth_associated_maintenance" 59.81 "units.mmol / units.g" "Feist" "non_growth_associated_maintenance" 8.39 "units.mmol / units.g / units.h" "Feist" diff --git a/reconstruction/ecoli/flat/protein_modification_reactions.tsv b/reconstruction/ecoli/flat/protein_modification_reactions.tsv new file mode 100644 index 0000000000..e548500827 --- /dev/null +++ b/reconstruction/ecoli/flat/protein_modification_reactions.tsv @@ -0,0 +1,655 @@ +"id" "stoichiometry" "direction" "catalyzed_by" +"1-ACYLGLYCEROL-3-P-ACYLTRANSFER-RXN" {"ACYL-SN-GLYCEROL-3P[CCO-CYTOSOL]":-1,"ACYL-ACP[CCO-CYTOSOL]":-1,"L-PHOSPHATIDATE[CCO-CYTOSOL]":1,"ACP[CCO-CYTOSOL]":1} "L2R" ["1-ACYLGLYCEROL-3-P-ACYLTRANSFER-MONOMER"] +"1.3.1.9-RXN" {"ACYL-ACP[CCO-CYTOSOL]":-1,"NAD[CCO-CYTOSOL]":-1,"TRANS-D2-ENOYL-ACP[CCO-CYTOSOL]":1,"NADH[CCO-CYTOSOL]":1,"PROTON[CCO-CYTOSOL]":1} "R2L" ["CPLX0-8006"] +"1.7.2.2-RXN-a-reduced-NrfB-protein/NITRITE/PROTON//AMMONIUM/an-oxidized-NrfB-protein/WATER.79." {"a-reduced-NrfB-protein[CCO-PERI-BAC]":-6,"NITRITE[CCO-PERI-BAC]":-1,"PROTON[CCO-PERI-BAC]":-8,"AMMONIUM[CCO-PERI-BAC]":1,"an-oxidized-NrfB-protein[CCO-PERI-BAC]":6,"WATER[CCO-PERI-BAC]":2} "L2R" [] +"1.7.2.2-RXN-a-reduced-TorC-protein/NITRITE/PROTON//AMMONIUM/an-oxidized-TorC-protein/WATER.79." {"a-reduced-TorC-protein[CCO-PERI-BAC]":-6,"NITRITE[CCO-PERI-BAC]":-1,"PROTON[CCO-PERI-BAC]":-8,"AMMONIUM[CCO-PERI-BAC]":1,"an-oxidized-TorC-protein[CCO-PERI-BAC]":6,"WATER[CCO-PERI-BAC]":2} "L2R" [] +"1.7.2.2-RXN-A-REDUCED-TORY-PROTEIN/NITRITE/PROTON//AMMONIUM/an-oxidized-TorY-protein/WATER.79." {"A-REDUCED-TORY-PROTEIN[CCO-PERI-BAC]":-6,"NITRITE[CCO-PERI-BAC]":-1,"PROTON[CCO-PERI-BAC]":-8,"AMMONIUM[CCO-PERI-BAC]":1,"an-oxidized-TorY-protein[CCO-PERI-BAC]":6,"WATER[CCO-PERI-BAC]":2} "L2R" [] +"1.7.2.2-RXN-Cytochromes-C-Reduced/NITRITE/PROTON//AMMONIUM/Cytochromes-C-Oxidized/WATER.76." {"Cytochromes-C-Reduced[CCO-PERI-BAC]":-6,"NITRITE[CCO-PERI-BAC]":-1,"PROTON[CCO-PERI-BAC]":-8,"AMMONIUM[CCO-PERI-BAC]":1,"Cytochromes-C-Oxidized[CCO-PERI-BAC]":6,"WATER[CCO-PERI-BAC]":2} "L2R" [] +"1.7.2.2-RXN-Cytochromes-c3-Reduced/NITRITE/PROTON//AMMONIUM/Cytochromes-c3-Oxidized/WATER.78." {"Cytochromes-c3-Reduced[CCO-PERI-BAC]":-6,"NITRITE[CCO-PERI-BAC]":-1,"PROTON[CCO-PERI-BAC]":-8,"AMMONIUM[CCO-PERI-BAC]":1,"Cytochromes-c3-Oxidized[CCO-PERI-BAC]":6,"WATER[CCO-PERI-BAC]":2} "L2R" [] +"1.7.2.2-RXN-Cytochromes-C550-Red/NITRITE/PROTON//AMMONIUM/Cytochromes-C550-Ox/WATER.72." {"Cytochromes-C550-Red[CCO-PERI-BAC]":-6,"NITRITE[CCO-PERI-BAC]":-1,"PROTON[CCO-PERI-BAC]":-8,"AMMONIUM[CCO-PERI-BAC]":1,"Cytochromes-C550-Ox[CCO-PERI-BAC]":6,"WATER[CCO-PERI-BAC]":2} "L2R" [] +"1.7.2.2-RXN-Cytochromes-C552-Red/NITRITE/PROTON//AMMONIUM/Cytochromes-C552-Ox/WATER.72." 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{"PTSI-PHOSPHORYLATED[CCO-CYTOSOL]":-1,"CPD-10726[CCO-PERI-BAC]":-1,"PTSI-MONOMER[CCO-CYTOSOL]":1,"D-fructopyranose-1-phosphate[CCO-CYTOSOL]":1} "L2R" ["CPLX-158"] +"TRANS-RXN0-618-PTSI-PHOSPHORYLATED/D-Fructopyranose//PTSI-MONOMER/D-fructopyranose-1-phosphate.80." {"PTSI-PHOSPHORYLATED[CCO-CYTOSOL]":-1,"D-Fructopyranose[CCO-PERI-BAC]":-1,"PTSI-MONOMER[CCO-CYTOSOL]":1,"D-fructopyranose-1-phosphate[CCO-CYTOSOL]":1} "L2R" ["CPLX-158"] +"TRANS-RXN0-623-BUTYRIC_ACID/ATP/CO-A/PROTON//BUTYRYL-COA/AMP/PPI/PROTON.57." {"BUTYRIC_ACID[CCO-PERI-BAC]":-1,"ATP[CCO-CYTOSOL]":-1,"CO-A[CCO-CYTOSOL]":-1,"PROTON[CCO-PERI-BAC]":-1,"BUTYRYL-COA[CCO-CYTOSOL]":1,"AMP[CCO-CYTOSOL]":1,"PPI[CCO-CYTOSOL]":1,"PROTON[CCO-CYTOSOL]":1} "L2R" ["EG12357-MONOMER", "ACYLCOASYN-CPLX"] +"TRANS-RXN0-623-CPD-195/ATP/CO-A/PROTON//CPD-196/AMP/PPI/PROTON.48." {"CPD-195[CCO-PERI-BAC]":-1,"ATP[CCO-CYTOSOL]":-1,"CO-A[CCO-CYTOSOL]":-1,"PROTON[CCO-PERI-BAC]":-1,"CPD-196[CCO-CYTOSOL]":1,"AMP[CCO-CYTOSOL]":1,"PPI[CCO-CYTOSOL]":1,"PROTON[CCO-CYTOSOL]":1} "L2R" ["EG12357-MONOMER", "ACYLCOASYN-CPLX"] +"TRANS-RXN0-623-CPD-3617/ATP/CO-A/PROTON//CPD-10267/AMP/PPI/PROTON.51." {"CPD-3617[CCO-PERI-BAC]":-1,"ATP[CCO-CYTOSOL]":-1,"CO-A[CCO-CYTOSOL]":-1,"PROTON[CCO-PERI-BAC]":-1,"CPD-10267[CCO-CYTOSOL]":1,"AMP[CCO-CYTOSOL]":1,"PPI[CCO-CYTOSOL]":1,"PROTON[CCO-CYTOSOL]":1} "L2R" ["EG12357-MONOMER", "ACYLCOASYN-CPLX"] +"TRANS-RXN0-623-CPD-7836/ATP/CO-A/PROTON//TETRADECANOYL-COA/AMP/PPI/PROTON.59." {"CPD-7836[CCO-PERI-BAC]":-1,"ATP[CCO-CYTOSOL]":-1,"CO-A[CCO-CYTOSOL]":-1,"PROTON[CCO-PERI-BAC]":-1,"TETRADECANOYL-COA[CCO-CYTOSOL]":1,"AMP[CCO-CYTOSOL]":1,"PPI[CCO-CYTOSOL]":1,"PROTON[CCO-CYTOSOL]":1} "L2R" ["EG12357-MONOMER", "ACYLCOASYN-CPLX"] +"TRANS-RXN0-623-DODECANOATE/ATP/CO-A/PROTON//LAUROYLCOA-CPD/AMP/PPI/PROTON.59." {"DODECANOATE[CCO-PERI-BAC]":-1,"ATP[CCO-CYTOSOL]":-1,"CO-A[CCO-CYTOSOL]":-1,"PROTON[CCO-PERI-BAC]":-1,"LAUROYLCOA-CPD[CCO-CYTOSOL]":1,"AMP[CCO-CYTOSOL]":1,"PPI[CCO-CYTOSOL]":1,"PROTON[CCO-CYTOSOL]":1} "L2R" ["EG12357-MONOMER", "ACYLCOASYN-CPLX"] +"TRANS-RXN0-623-HEXANOATE/ATP/CO-A/PROTON//HEXANOYL-COA/AMP/PPI/PROTON.55." {"HEXANOATE[CCO-PERI-BAC]":-1,"ATP[CCO-CYTOSOL]":-1,"CO-A[CCO-CYTOSOL]":-1,"PROTON[CCO-PERI-BAC]":-1,"HEXANOYL-COA[CCO-CYTOSOL]":1,"AMP[CCO-CYTOSOL]":1,"PPI[CCO-CYTOSOL]":1,"PROTON[CCO-CYTOSOL]":1} "L2R" ["EG12357-MONOMER", "ACYLCOASYN-CPLX"] +"TRANS-RXN0-623-PALMITATE/ATP/CO-A/PROTON//PALMITYL-COA/AMP/PPI/PROTON.55." {"PALMITATE[CCO-PERI-BAC]":-1,"ATP[CCO-CYTOSOL]":-1,"CO-A[CCO-CYTOSOL]":-1,"PROTON[CCO-PERI-BAC]":-1,"PALMITYL-COA[CCO-CYTOSOL]":1,"AMP[CCO-CYTOSOL]":1,"PPI[CCO-CYTOSOL]":1,"PROTON[CCO-CYTOSOL]":1} "L2R" ["EG12357-MONOMER", "ACYLCOASYN-CPLX"] +"TRANS-RXN0-623-PROPIONATE/ATP/CO-A/PROTON//PROPIONYL-COA/AMP/PPI/PROTON.57." {"PROPIONATE[CCO-PERI-BAC]":-1,"ATP[CCO-CYTOSOL]":-1,"CO-A[CCO-CYTOSOL]":-1,"PROTON[CCO-PERI-BAC]":-1,"PROPIONYL-COA[CCO-CYTOSOL]":1,"AMP[CCO-CYTOSOL]":1,"PPI[CCO-CYTOSOL]":1,"PROTON[CCO-CYTOSOL]":1} "L2R" ["EG12357-MONOMER", "ACYLCOASYN-CPLX"] +"TRANS-RXN0-623-STEARIC_ACID/ATP/CO-A/PROTON//STEAROYL-COA/AMP/PPI/PROTON.58." {"STEARIC_ACID[CCO-PERI-BAC]":-1,"ATP[CCO-CYTOSOL]":-1,"CO-A[CCO-CYTOSOL]":-1,"PROTON[CCO-PERI-BAC]":-1,"STEAROYL-COA[CCO-CYTOSOL]":1,"AMP[CCO-CYTOSOL]":1,"PPI[CCO-CYTOSOL]":1,"PROTON[CCO-CYTOSOL]":1} "L2R" ["EG12357-MONOMER", "ACYLCOASYN-CPLX"] +"UDPHYDROXYMYRGLUCOSAMNACETYLTRANS-RXN" {"R-3-hydroxymyristoyl-ACPs[CCO-CYTOSOL]":-1,"UDP-OHMYR-GLUCOSAMINE[CCO-CYTOSOL]":-1,"OH-MYRISTOYL[CCO-CYTOSOL]":1,"ACP[CCO-CYTOSOL]":1,"PROTON[CCO-CYTOSOL]":1} "L2R" ["CPLX0-8016"] +"UDPNACETYLGLUCOSAMACYLTRANS-RXN" {"R-3-hydroxymyristoyl-ACPs[CCO-CYTOSOL]":-1,"UDP-N-ACETYL-D-GLUCOSAMINE[CCO-CYTOSOL]":-1,"UDP-OHMYR-ACETYLGLUCOSAMINE[CCO-CYTOSOL]":1,"ACP[CCO-CYTOSOL]":1} "L2R" ["UDPNACETYLGLUCOSAMACYLTRANS-CPLX"] +"UDPREDUCT-RXN" {"DUDP[CCO-CYTOSOL]":-1,"Ox-Thioredoxin[CCO-CYTOSOL]":-1,"WATER[CCO-CYTOSOL]":-1,"UDP[CCO-CYTOSOL]":1,"Red-Thioredoxin[CCO-CYTOSOL]":1} "R2L" ["RIBONUCLEOSIDE-DIP-REDUCTI-CPLX", "RIBONUCLEOSIDE-DIP-REDUCTII-CPLX"] +"UDPREDUCT-RXN-DUDP/Ox-thioredoxins-1/WATER//UDP/Red-thioredoxins-1.53." {"DUDP[CCO-CYTOSOL]":-1,"Ox-thioredoxins-1[CCO-CYTOSOL]":-1,"WATER[CCO-CYTOSOL]":-1,"UDP[CCO-CYTOSOL]":1,"Red-thioredoxins-1[CCO-CYTOSOL]":1} "R2L" ["RIBONUCLEOSIDE-DIP-REDUCTI-CPLX", "RIBONUCLEOSIDE-DIP-REDUCTII-CPLX"] +"UDPREDUCT-RXN-DUDP/Oxidized-CcmG-Proteins/WATER//UDP/Reduced-CcmG-Proteins.61." {"DUDP[CCO-CYTOSOL]":-1,"Oxidized-CcmG-Proteins[CCO-CYTOSOL]":-1,"WATER[CCO-CYTOSOL]":-1,"UDP[CCO-CYTOSOL]":1,"Reduced-CcmG-Proteins[CCO-CYTOSOL]":1} "R2L" ["RIBONUCLEOSIDE-DIP-REDUCTI-CPLX", "RIBONUCLEOSIDE-DIP-REDUCTII-CPLX"] +"UDPREDUCT-RXN-DUDP/Oxidized-CcmH-Proteins/WATER//UDP/Reduced-CcmH-Proteins.61." {"DUDP[CCO-CYTOSOL]":-1,"Oxidized-CcmH-Proteins[CCO-CYTOSOL]":-1,"WATER[CCO-CYTOSOL]":-1,"UDP[CCO-CYTOSOL]":1,"Reduced-CcmH-Proteins[CCO-CYTOSOL]":1} "R2L" ["RIBONUCLEOSIDE-DIP-REDUCTI-CPLX", "RIBONUCLEOSIDE-DIP-REDUCTII-CPLX"] +"UHPB-RXN" {"UHPB-MONOMER[CCI-PM-BAC-NEG-GN]":-1,"ATP[CCO-CYTOSOL]":-1,"PHOSPHO-UHPB[CCI-PM-BAC-NEG-GN]":1,"ADP[CCO-CYTOSOL]":1} "L2R" [] +"UHPC-RXN" {"GLC-6-P[CCO-CYTOSOL]":-1,"UHPC-MONOMER[CCO-CYTOSOL]":-1,"GLU-UHPC[CCO-CYTOSOL]":1} "BOTH" [] +"URIDYLREM-RXN" {"URIDYLYL-PII[CCO-CYTOSOL]":-1,"PROTEIN-PII[CCO-CYTOSOL]":1,"UMP[CCO-CYTOSOL]":1} "L2R" [] +"URITRANS-RXN" {"Gln-B[CCO-CYTOSOL]":-1,"UTP[CCO-CYTOSOL]":-1,"URIDYLYL-PROTEIN-PII[CCO-CYTOSOL]":1,"PPI[CCO-CYTOSOL]":1} "L2R" ["GLND-MONOMER"] diff --git a/reconstruction/ecoli/flat/proteins.tsv b/reconstruction/ecoli/flat/proteins.tsv index b1f091fb10..f59a20ed81 100644 --- a/reconstruction/ecoli/flat/proteins.tsv +++ b/reconstruction/ecoli/flat/proteins.tsv @@ -1,4354 +1,4421 @@ -"id" "seq" "compartment" "_compartment_source" -"1-ACYLGLYCEROL-3-P-ACYLTRANSFER-MONOMER" "MLYIFRLIITVIYSILVCVFGSIYCLFSPRNPKHVATFGHMFGRLAPLFGLKVECRKPTDAESYGNAIYIANHQNNYDMVTASNIVQPPTVTVGKKSLLWIPFFGQLYWLTGNLLIDRNNRTKAHGTIAEVVNHFKKRRISIWMFPEGTRSRGRGLLPFKTGAFHAAIAAGVPIIPVCVSTTSNKINLNRLHNGLVIVEMLPPIDVSQYGKDQVRELAAHCRSIMEQKIAELDKEVAEREAAGKV" "i" "Han et al., 2011" -"1-PFK-MONOMER" "MSRRVATITLNPAYDLVGFCPEIERGEVNLVKTTGLHAAGKGINVAKVLKDLGIDVTVGGFLGKDNQDGFQQLFSELGIANRFQVVQGRTRINVKLTEKDGEVTDFNFSGFEVTPADWERFVTDSLSWLGQFDMVCVSGSLPSGVSPEAFTDWMTRLRSQCPCIIFDSSREALVAGLKAAPWLVKPNRRELEIWAGRKLPEMKDVIEAAHALREQGIAHVVISLGAEGALWVNASGEWIAKPPSVDVVSTVGAGDSMVGGLIYGLLMRESSEHTLRLATAVAALAVSQSNVGITDRPQLAAMMARVDLQPFN" "c" "Han et al., 2011" -"2-DEHYDROPANTOATE-REDUCT-MONOMER" "MKITVLGCGALGQLWLTALCKQGHEVQGWLRVPQPYCSVNLVETDGSIFNESLTANDPDFLATSDLLLVTLKAWQVSDAVKSLASTLPVTTPILLIHNGMGTIEELQNIQQPLLMGTTTHAARRDGNVIIHVANGITHIGPARQQDGDYSYLADILQTVLPDVAWHNNIRAELWRKLAVNCVINPLTAIWNCPNGELRHHPQEIMQICEEVAAVIEREGHHTSAEDLRDYVMQVIDATAENISSMLQDIRALRHTEIDYINGFLLRRARAHGIAVPENTRLFEMVKRKESEYERIGTGLPRPW" "c" "Han et al., 2011" -"2-ISOPROPYLMALATESYN-MONOMER" "MSQQVIIFDTTLRDGEQALQASLSVKEKLQIALALERMGVDVMEVGFPVSSPGDFESVQTIARQVKNSRVCALARCVEKDIDVAAESLKVAEAFRIHTFIATSPMHIATKLRSTLDEVIERAIYMVKRARNYTDDVEFSCEDAGRTPIADLARVVEAAINAGATTINIPDTVGYTMPFEFAGIISGLYERVPNIDKAIISVHTHDDLGLAVGNSLAAVHAGARQVEGAMNGIGERAGNCSLEEVIMAIKVRKDILNVHTAINHQEIWRTSQLVSQICNMPIPANKAIVGSGAFAHSSGIHQDGVLKNRENYEIMTPESIGLNQIQLNLTSRSGRAAVKHRMDEMGYKESEYNLDNLYDAFLKLADKKGQVFDYDLEALAFIGKQQEEPEHFRLDYFSVQSGSNDIATAAVKLACGEEVKAEAANGNGPVDAVYQAINRITEYNVELVKYSLTAKGHGKDALGQVDIVANYNGRRFHGVGLATDIVESSAKAMVHVLNNIWRAAEVEKELQRKAQHNENNKETV" "c" "Han et al., 2011" -"2-OCTAPRENYL-METHOXY-BENZOQ-METH-MONOMER" "MVDKSQETTHFGFQTVAKEQKADMVAHVFHSVASKYDVMNDLMSFGIHRLWKRFTIDCSGVRRGQTVLDLAGGTGDLTAKFSRLVGETGKVVLADINESMLKMGREKLRNIGVIGNVEYVQANAEALPFPDNTFDCITISFGLRNVTDKDKALRSMYRVLKPGGRLLVLEFSKPIIEPLSKAYDAYSFHVLPRIGSLVANDADSYRYLAESIRMHPDQDTLKAMMQDAGFESVDYYNLTAGVVALHRGYKF" "c" "Han et al., 2011" -"2-OCTAPRENYLPHENOL-HYDROX-MONOMER" "MTPGEVRRLYFIIRTFLSYGLDELIPKMRITLPLRLWRYSLFWMPNRHKDKLLGERLRLALQELGPVWIKFGQMLSTRRDLFPPHIADQLALLQDKVAPFDGKLAKQQIEAAMGGLPVEAWFDDFEIKPLASASIAQVHTARLKSNGKEVVIKVIRPDILPVIKADLKLIYRLARWVPRLLPDGRRLRPTEVVREYEKTLIDELNLLRESANAIQLRRNFEDSPMLYIPEVYPDYCSEGMMVMERIYGIPVSDVAALEKNGTNMKLLAERGVQVFFTQVFRDSFFHADMHPGNIFVSYEHPENPKYIGIDCGIVGSLNKEDKRYLAENFIAFFNRDYRKVAELHVDSGWVPPDTNVEEFEFAIRTVCEPIFEKPLAEISFGHVLLNLFNTARRFNMEVQPQLVLLQKTLLYVEGVGRQLYPQLDLWKTAKPFLESWIKDQVGIPALVRAFKEKAPFWVEKMPELPELVYDSLRQGKYLQHSVDKIARELQSNHVRQGQSRYFLGIGATLVLSGTFLLVSRPEWGLMPGWLMAGGLIAWFVGWRKTR" "c" "Han et al., 2011" -"3-CH3-2-OXOBUTANOATE-OH-CH3-XFER-MONOMER" "MKPTTISLLQKYKQEKKRFATITAYDYSFAKLFADEGLNVMLVGDSLGMTVQGHDSTLPVTVADIAYHTAAVRRGAPNCLLLADLPFMAYATPEQAFENAATVMRAGANMVKIEGGEWLVETVQMLTERAVPVCGHLGLTPQSVNIFGGYKVQGRGDEAGDQLLSDALALEAAGAQLLVLECVPVELAKRITEALAIPVIGIGAGNVTDGQILVMHDAFGITGGHIPKFAKNFLAETGDIRAAVRQYMAEVESGVYPGEEHSFH" "c" "Lopez-Campistrous et al., 2005" -"3-ISOPROPYLMALDEHYDROG-MONOMER" "MSKNYHIAVLPGDGIGPEVMTQALKVLDAVRNRFAMRITTSHYDVGGAAIDNHGQPLPPATVEGCEQADAVLFGSVGGPKWEHLPPDQQPERGALLPLRKHFKLFSNLRPAKLYQGLEAFCPLRADIAANGFDILCVRELTGGIYFGQPKGREGSGQYEKAFDTEVYHRFEIERIARIAFESARKRRHKVTSIDKANVLQSSILWREIVNEIATEYPDVELAHMYIDNATMQLIKDPSQFDVLLCSNLFGDILSDECAMITGSMGMLPSASLNEQGFGLYEPAGGSAPDIAGKNIANPIAQILSLALLLRYSLDADDAACAIERAINRALEEGIRTGDLARGAAAVSTDEMGDIIARYVAEGV" "c" "Han et al., 2011" -"3-OXOACYL-ACP-REDUCT-MONOMER" "MNFEGKIALVTGASRGIGRAIAETLAARGAKVIGTATSENGAQAISDYLGANGKGLMLNVTDPASIESVLEKIRAEFGEVDILVNNAGITRDNLLMRMKDEEWNDIIETNLSSVFRLSKAVMRAMMKKRHGRIITIGSVVGTMGNGGQANYAAAKAGLIGFSKSLAREVASRGITVNVVAPGFIETDMTRALSDDQRAGILAQVPAGRLGGAQEIANAVAFLASDEAAYITGETLHVNGGMYMV" "c" "Lopez-Campistrous et al., 2005" -"3-OXOACYL-ACP-SYNTHII-MONOMER" "VSKRRVVVTGLGMLSPVGNTVESTWKALLAGQSGISLIDHFDTSAYATKFAGLVKDFNCEDIISRKEQRKMDAFIQYGIVAGVQAMQDSGLEITEENATRIGAAIGSGIGGLGLIEENHTSLMNGGPRKISPFFVPSTIVNMVAGHLTIMYGLRGPSISIATACTSGVHNIGHAARIIAYGDADVMVAGGAEKASTPLGVGGFGAARALSTRNDNPQAASRPWDKERDGFVLGDGAGMLVLEEYEHAKKRGAKIYAELVGFGMSSDAYHMTSPPENGAGAALAMANALRDAGIEASQIGYVNAHGTSTPAGDKAEAQAVKTIFGEAASRVLVSSTKSMTGHLLGAAGAVESIYSILALRDQAVPPTINLDNPDEGCDLDFVPHEARQVSGMEYTLCNSFGFGGTNGSLIFKKI" "c" "Lopez-Campistrous et al., 2005 (location manually reset)" -"4OHBENZOATE-OCTAPRENYLTRANSFER-MONOMER" "MEWSLTQNKLLAFHRLMRTDKPIGALLLLWPTLWALWVATPGVPQLWILAVFVAGVWLMRAAGCVVNDYADRKFDGHVKRTANRPLPSGAVTEKEARALFVVLVLISFLLVLTLNTMTILLSIAALALAWVYPFMKRYTHLPQVVLGAAFGWSIPMAFAAVSESVPLSCWLMFLANILWAVAYDTQYAMVDRDDDVKIGIKSTAILFGQYDKLIIGILQIGVLALMAIIGELNGLGWGYYWSILVAGALFVYQQKLIANREREACFKAFMNNNYVGLVLFLGLAMSYWHF" "i" "Han et al., 2011" -"6PFK-1-MONOMER" "MIKKIGVLTSGGDAPGMNAAIRGVVRSALTEGLEVMGIYDGYLGLYEDRMVQLDRYSVSDMINRGGTFLGSARFPEFRDENIRAVAIENLKKRGIDALVVIGGDGSYMGAMRLTEMGFPCIGLPGTIDNDIKGTDYTIGFFTALSTVVEAIDRLRDTSSSHQRISVVEVMGRYCGDLTLAAAIAGGCEFVVVPEVEFSREDLVNEIKAGIAKGKKHAIVAITEHMCDVDELAHFIEKETGRETRATVLGHIQRGGSPVPYDRILASRMGAYAIDLLLAGYGGRCVGIQNEQLVHHDIIDAIENMKRPFKGDWLDCAKKLY" "c" "Han et al., 2011" -"6PFK-2-MONOMER" "MVRIYTLTLAPSLDSATITPQIYPEGKLRCTAPVFEPGGGGINVARAIAHLGGSATAIFPAGGATGEHLVSLLADENVPVATVEAKDWTRQNLHVHVEASGEQYRFVMPGAALNEDEFRQLEEQVLEIESGAILVISGSLPPGVKLEKLTQLISAAQKQGIRCIVDSSGEALSAALAIGNIELVKPNQKELSALVNRELTQPDDVRKAAQEIVNSGKAKRVVVSLGPQGALGVDSENCIQVVPPPVKSQSTVGAGDSMVGAMTLKLAENASLEEMVRFGVAAGSAATLNQGTRLCSHDDTQKIYAYLSR" "c" "Lopez-Campistrous et al., 2005" -"6PGLUCONDEHYDROG-MONOMER" "MSKQQIGVVGMAVMGRNLALNIESRGYTVSIFNRSREKTEEVIAENPGKKLVPYYTVKEFVESLETPRRILLMVKAGAGTDAAIDSLKPYLDKGDIIIDGGNTFFQDTIRRNRELSAEGFNFIGTGVSGGEEGALKGPSIMPGGQKEAYELVAPILTKIAAVAEDGEPCVTYIGADGAGHYVKMVHNGIEYGDMQLIAEAYSLLKGGLNLTNEELAQTFTEWNNGELSSYLIDITKDIFTKKDEDGNYLVDVILDEAANKGTGKWTSQSALDLGEPLSLITESVFARYISSLKDQRVAASKVLSGPQAQPAGDKAEFIEKVRRALYLGKIVSYAQGFSQLRAASEEYNWDLNYGEIAKIFRAGCIIRAQFLQKITDAYAENPQIANLLLAPYFKQIADDYQQALRDVVAYAVQNGIPVPTFSAAVAYYDSYRAAVLPANLIQAQRDYFGAHTYKRIDKEGVFHTEWLD" "c" "Lopez-Campistrous et al., 2005" -"6PGLUCONOLACT-MONOMER" "MKQTVYIASPESQQIHVWNLNHEGALTLTQVVDVPGQVQPMVVSPDKRYLYVGVRPEFRVLAYRIAPDDGALTFAAESALPGSPTHISTDHQGQFVFVGSYNAGNVSVTRLEDGLPVGVVDVVEGLDGCHSANISPDNRTLWVPALKQDRICLFTVSDDGHLVAQDPAEVTTVEGAGPRHMVFHPNEQYAYCVNELNSSVDVWELKDPHGNIECVQTLDMMPENFSDTRWAADIHITPDGRHLYACDRTASLITVFSVSEDGSVLSKEGFQPTETQPRGFNVDHSGKYLIAAGQKSHHISVYEIVGEQGLLHEKGRYAVGQGPMWVVVNAH" "c" "Han et al., 2011" -"7-ALPHA-HYDROXYSTEROID-DEH-MONOMER" "VFNSDNLRLDGKCAIITGAGAGIGKEIAITFATAGASVVVSDINADAANHVVDEIQQLGGQAFACRCDITSEQELSALADFAISKLGKVDILVNNAGGGGPKPFDMPMADFRRAYELNVFSFFHLSQLVAPEMEKNGGGVILTITSMAAENKNINMTSYASSKAAASHLVRNMAFDLGEKNIRVNGIAPGAILTDALKSVITPEIEQKMLQHTPIRRLGQPQDIANAALFLCSPAASWVSGQILTVSGGGVQELN" "c" "Han et al., 2011" -"7KAPSYN-MONOMER" "MSWQEKINAALDARRAADALRRRYPVAQGAGRWLVADDRQYLNFSSNDYLGLSHHPQIIRAWQQGAEQFGIGSGGSGHVSGYSVVHQALEEELAEWLGYSRALLFISGFAANQAVIAAMMAKEDRIAADRLSHASLLEAASLSPSQLRRFAHNDVTHLARLLASPCPGQQMVVTEGVFSMDGDSAPLAEIQQVTQQHNGWLMVDDAHGTGVIGEQGRGSCWLQKVKPELLVVTFGKGFGVSGAAVLCSSTVADYLLQFARHLIYSTSMPPAQAQALRASLAVIRSDEGDARREKLAALITRFRAGVQDLPFTLADSCSAIQPLIVGDNSRALQLAEKLRQQGCWVTAIRPPTVPAGTARLRLTLTAAHEMQDIDRLLEVLHGNG" "c" "Han et al., 2011" -"AAS-MONOMER" "MLFSFFRNLCRVLYRVRVTGDTQALKGERVLITPNHVSFIDGILLGLFLPVRPVFAVYTSISQQWYMRWLKSFIDFVPLDPTQPMAIKHLVRLVEQGRPVVIFPEGRITTTGSLMKIYDGAGFVAAKSGATVIPVRIEGAELTHFSRLKGLVKRRLFPQITLHILPPTQVAMPDAPRARDRRKIAGEMLHQIMMEARMAVRPRETLYESLLSAMYRFGAGKKCVEDVNFTPDSYRKLLTKTLFVGRILEKYSVEGERIGLMLPNAGISAAVIFGAIARRRMPAMMNYTAGVKGLTSAITAAEIKTIFTSRQFLDKGKLWHLPEQLTQVRWVYLEDLKADVTTADKVWIFAHLLMPRLAQVKQQPEEEALILFTSGSEGHPKGVVHSHKSILANVEQIKTIADFTTNDRFMSALPLFHSFGLTVGLFTPLLTGAEVFLYPSPLHYRIVPELVYDRSCTVLFGTSTFLGHYARFANPYDFYRLRYVVAGAEKLQESTKQLWQDKFGLRILEGYGVTECAPVVSINVPMAAKPGTVGRILPGMDARLLSVPGIEEGGRLQLKGPNIMNGYLRVEKPGVLEVPTAENVRGEMERGWYDTGDIVRFDEQGFVQIQGRAKRFAKIAGEMVSLEMVEQLALGVSPDKVHATAIKSDASKGEALVLFTTDNELTRDKLQQYAREHGVPELAVPRDIRYLKQMPLLGSGKPDFVTLKSWVDEAEQHDE" "i" "Han et al., 2011" -"ABC-MONOMER" "MIKLSNITKVFHQGTRTIQALNNVSLHVPAGQIYGVIGASGAGKSTLIRCVNLLERPTEGSVLVDGQELTTLSESELTKARRQIGMIFQHFNLLSSRTVFGNVALPLELDNTPKDEVKRRVTELLSLVGLGDKHDSYPSNLSGGQKQRVAIARALASNPKVLLCDEATSALDPATTRSILELLKDINRRLGLTILLITHEMDVVKRICDCVAVISNGELIEQDTVSEVFSHPKTPLAQKFIQSTLHLDIPEDYQERLQAEPFTDCVPMLRLEFTGQSVDAPLLSETARRFNVNNNIISAQMDYAGGVKFGIMLTEMHGTQQDTQAAIAWLQEHHVKVEVLGYV" "i" "Han et al., 2011" -"ABGT-MONOMER" "MSMSSIPSSSQSGKLYGWVERIGNKVPHPFLLFIYLIIVLMVTTAILSAFGVSAKNPTDGTPVVVKNLLSVEGLHWFLPNVIKNFSGFAPLGAILALVLGAGLAERVGLLPALMVKMASHVNARYASYMVLFIAFFSHISSDAALVIMPPMGALIFLAVGRHPVAGLLAAIAGVGCGFTANLLIVTTDVLLSGISTEAAAAFNPQMHVSVIDNWYFMASSVVVLTIVGGLITDKIIEPRLGQWQGNSDEKLQTLTESQRFGLRIAGVVSLLFIAAIALMVIPQNGILRDPINHTVMPSPFIKGIVPLIILFFFVVSLAYGIATRTIRRQADLPHLMIEPMKEMAGFIVMVFPLAQFVAMFNWSNMGKFIAVGLTDILESSGLSGIPAFVGLALLSSFLCMFIASGSAIWSILAPIFVPMFMLLGFHPAFAQILFRIADSSVLPLAPVSPFVPLFLGFLQRYKPDAKLGTYYSLVLPYPLIFLVVWLLMLLAWYLVGLPIGPGIYPRLS" "i" "Han et al., 2011" -"ACETATEKINA-MONOMER" "MSSKLVLVLNCGSSSLKFAIIDAVNGEEYLSGLAECFHLPEARIKWKMDGNKQEAALGAGAAHSEALNFIVNTILAQKPELSAQLTAIGHRIVHGGEKYTSSVVIDESVIQGIKDAASFAPLHNPAHLIGIEEALKSFPQLKDKNVAVFDTAFHQTMPEESYLYALPYNLYKEHGIRRYGAHGTSHFYVTQEAAKMLNKPVEELNIITCHLGNGGSVSAIRNGKCVDTSMGLTPLEGLVMGTRSGDIDPAIIFHLHDTLGMSVDAINKLLTKESGLLGLTEVTSDCRYVEDNYATKEDAKRAMDVYCHRLAKYIGAYTALMDGRLDAVVFTGGIGENAAMVRELSLGKLGVLGFEVDHERNLAARFGKSGFINKEGTRPAVVIPTNEELVIAQDASRLTA" "c" "Han et al., 2011" -"ACETOLACTSYNIII-HCHAIN-MONOMER" "MRRILSVLLENESGALSRVIGLFSQRGYNIESLTVAPTDDPTLSRMTIQTVGDEKVLEQIEKQLHKLVDVLRVSELGQGAHVEREIMLVKIQASGYGRDEVKRNTEIFRGQIIDVTPSLYTVQLAGTSGKLDAFLASIRDVAKIVEVARSGVVGLSRGDKIMR" "c" "Han et al., 2011" -"ACETOLACTSYNIII-ICHAIN-MONOMER" "MEMLSGAEMVVRSLIDQGVKQVFGYPGGAVLDIYDALHTVGGIDHVLVRHEQAAVHMADGLARATGEVGVVLVTSGPGATNAITGIATAYMDSIPLVVLSGQVATSLIGYDAFQECDMVGISRPVVKHSFLVKQTEDIPQVLKKAFWLAASGRPGPVVVDLPKDILNPANKLPYVWPESVSMRSYNPTTTGHKGQIKRALQTLVAAKKPVVYVGGGAITAGCHQQLKETVEALNLPVVCSLMGLGAFPATHRQALGMLGMHGTYEANMTMHNADVIFAVGVRFDDRTTNNLAKYCPNATVLHIDIDPTSISKTVTADIPIVGDARQVLEQMLELLSQESAHQPLDEIRDWWQQIEQWRARQCLKYDTHSEKIKPQAVIETLWRLTKGDAYVTSDVGQHQMFAALYYPFDKPRRWINSGGLGTMGFGLPAALGVKMALPEETVVCVTGDGSIQMNIQELSTALQYELPVLVVNLNNRYLGMVKQWQDMIYSGRHSQSYMQSLPDFVRLAEAYGHVGIQISHPHELESKLSEALEQVRNNRLVFVDVTVDGSEHVYPMQIRGGGMDEMWLSKTERT" "c" "Han et al., 2011" -"ACETYL-COA-ACETYLTRANSFER-MONOMER" "MKNCVIVSAVRTAIGSFNGSLASTSAIDLGATVIKAAIERAKIDSQHVDEVIMGNVLQAGLGQNPARQALLKSGLAETVCGFTVNKVCGSGLKSVALAAQAIQAGQAQSIVAGGMENMSLAPYLLDAKARSGYRLGDGQVYDVILRDGLMCATHGYHMGITAENVAKEYGITREMQDELALHSQRKAAAAIESGAFTAEIVPVNVVTRKKTFVFSQDEFPKANSTAEALGALRPAFDKAGTVTAGNASGINDGAAALVIMEESAALAAGLTPLARIKSYASGGVPPALMGMGPVPATQKALQLAGLQLADIDLIEANEAFAAQFLAVGKNLGFDSEKVNVNGGAIALGHPIGASGARILVTLLHAMQARDKTLGLATLCIGGGQGIAMVIERLN" "c" "Han et al., 2011" -"ACETYLGLUTKIN-MONOMER" "MNPLIIKLGGVLLDSEEALERLFSALVNYRESHQRPLVIVHGGGCVVDELMKGLNLPVKKKNGLRVTPADQIDIITGALAGTANKTLLAWAKKHQIAAVGLFLGDGDSVKVTQLDEELGHVGLAQPGSPKLINSLLENGYLPVVSSIGVTDEGQLMNVNADQAATALAATLGADLILLSDVSGILDGKGQRIAEMTAAKAEQLIEQGIITDGMIVKVNAALDAARTLGRPVDIASWRHAEQLPALFNGMPMGTRILA" "c" "Han et al., 2011" -"ACETYLORNDEACET-MONOMER" "MKNKLPPFIEIYRALIATPSISATEEALDQSNADLITLLADWFKDLGFNVEVQPVPGTRNKFNMLASIGQGAGGLLLAGHTDTVPFDDGRWTRDPFTLTEHDGKLYGLGTADMKGFFAFILDALRDVDVTKLKKPLYILATADEETSMAGARYFAETTALRPDCAIIGEPTSLQPVRAHKGHISNAIRIQGQSGHSSDPARGVNAIELMHDAIGHILQLRDNLKERYHYEAFTVPYPTLNLGHIHGGDASNRICACCELHMDIRPLPGMTLNELNGLLNDALAPVSERWPGRLTVDELHPPIPGYECPPNHQLVEVVEKLLGAKTEVVNYCTEAPFIQTLCPTLVLGPGSINQAHQPDEYLETRFIKPTRELITQVIHHFCWH" "c" "Han et al., 2011" -"ACETYLORNTRANSAM-MONOMER" "MAIEQTAITRATFDEVILPIYAPAEFIPVKGQGSRIWDQQGKEYVDFAGGIAVTALGHCHPALVNALKTQGETLWHISNVFTNEPALRLGRKLIEATFAERVVFMNSGTEANETAFKLARHYACVRHSPFKTKIIAFHNAFHGRSLFTVSVGGQPKYSDGFGPKPADIIHVPFNDLHAVKAVMDDHTCAVVVEPIQGEGGVTAATPEFLQGLRELCDQHQALLVFDEVQCGMGRTGDLFAYMHYGVTPDILTSAKALGGGFPISAMLTTAEIASAFHPGSHGSTYGGNPLACAVAGAAFDIINTPEVLEGIQAKRQRFVDHLQKIDQQYDVFSDIRGMGLLIGAELKPQYKGRARDFLYAGAEAGVMVLNAGPDVMRFAPSLVVEDADIDEGMQRFAHAVAKVVGA" "c" "Han et al., 2011" -"ACNEULY-MONOMER" "MATNLRGVMAALLTPFDQQQALDKASLRRLVQFNIQQGIDGLYVGGSTGEAFVQSLSEREQVLEIVAEEAKGKIKLIAHVGCVSTAESQQLAASAKRYGFDAVSAVTPFYYPFSFEEHCDHYRAIIDSADGLPMVVYNIPALSGVKLTLDQINTLVTLPGVGALKQTSGDLYQMEQIRREHPDLVLYNGYDEIFASGLLAGADGGIGSTYNIMGWRYQGIVKALKEGDIQTAQKLQTECNKVIDLLIKTGVFRGLKTVLHYMDVVSVPLCRKPFGPVDEKYLPELKALAQQLMQERG" "c" "Han et al., 2011" -"ACONITASE-MONOMER" "MSSTLREASKDTLQAKDKTYHYYSLPLAAKSLGDITRLPKSLKVLLENLLRWQDGNSVTEEDIHALAGWLKNAHADREIAYRPARVLMQDFTGVPAVVDLAAMREAVKRLGGDTAKVNPLSPVDLVIDHSVTVDRFGDDEAFEENVRLEMERNHERYVFLKWGKQAFSRFSVVPPGTGICHQVNLEYLGKAVWSELQDGEWIAYPDTLVGTDSHTTMINGLGVLGWGVGGIEAEAAMLGQPVSMLIPDVVGFKLTGKLREGITATDLVLTVTQMLRKHGVVGKFVEFYGDGLDSLPLADRATIANMSPEYGATCGFFPIDAVTLDYMRLSGRSEDQVELVEKYAKAQGMWRNPGDEPIFTSTLELDMNDVEASLAGPKRPQDRVALPDVPKAFAASNELEVNATHKDRQPVDYVMNGHQYQLPDGAVVIAAITSCTNTSNPSVLMAAGLLAKKAVTLGLKRQPWVKASLAPGSKVVSDYLAKAKLTPYLDELGFNLVGYGCTTCIGNSGPLPDPIETAIKKSDLTVGAVLSGNRNFEGRIHPLVKTNWLASPPLVVAYALAGNMNINLASEPIGHDRKGDPVYLKDIWPSAQEIARAVEQVSTEMFRKEYAEVFEGTAEWKGINVTRSDTYGWQEDSTYIRLSPFFDEMQATPAPVEDIHGARILAMLGDSVTTDHISPAGSIKPDSPAGRYLQGRGVERKDFNSYGSRRGNHEVMMRGTFANIRIRNEMVPGVEGGMTRHLPDSDVVSIYDAAMRYKQEQTPLAVIAGKEYGSGSSRDWAAKGPRLLGIRVVIAESFERIHRSNLIGMGILPLEFPQGVTRKTLGLTGEEKIDIGDLQNLQPGATVPVTLTRADGSQEVVPCRCRIDTATELTYYQNDGILHYVIRNMLK" "c" "Han et al., 2011" -"ACONITATEDEHYDRB-MONOMER" "VLEEYRKHVAERAAEGIAPKPLDANQMAALVELLKNPPAGEEEFLLDLLTNRVPPGVDEAAYVKAGFLAAIAKGEAKSPLLTPEKAIELLGTMQGGYNIHPLIDALDDAKLAPIAAKALSHTLLMFDNFYDVEEKAKAGNEYAKQVMQSWADAEWFLNRPALAEKLTVTVFKVTGETNTDDLSPAPDAWSRPDIPLHALAMLKNAREGIEPDQPGVVGPIKQIEALQQKGFPLAYVGDVVGTGSSRKSATNSVLWFMGDDIPHVPNKRGGGLCLGGKIAPIFFNTMEDAGALPIEVDVSNLNMGDVIDVYPYKGEVRNHETGELLATFELKTDVLIDEVRAGGRIPLIIGRGLTTKAREALGLPHSDVFRQAKDVAESDRGFSLAQKMVGRACGVKGIRPGAYCEPKMTSVGSQDTTGPMTRDELKDLACLGFSADLVMQSFCHTAAYPKPVDVNTHHTLPDFIMNRGGVSLRPGDGVIHSWLNRMLLPDTVGTGGDSHTRFPIGISFPAGSGLVAFAAATGVMPLDMPESVLVRFKGKMQPGITLRDLVHAIPLYAIKQGLLTVEKKGKKNIFSGRILEIEGLPDLKVEQAFELTDASAERSAAGCTIKLNKEPIIEYLNSNIVLLKWMIAEGYGDRRTLERRIQGMEKWLANPELLEADADAEYAAVIDIDLADIKEPILCAPNDPDDARPLSAVQGEKIDEVFIGSCMTNIGHFRAAGKLLDAHKGQLPTRLWVAPPTRMDAAQLTEEGYYSVFGKSGARIEIPGCSLCMGNQARVADGATVVSTSTRNFPNRLGTGANVFLASAELAAVAALIGKLPTPEEYQTYVAQVDKTAVDTYRYLNFNQLSQYTEKADGVIFQTAV" "c" "Lopez-Campistrous et al., 2005" -"ACPSUB-MONOMER" "MKINQPAVAGTLESGDVMIRIAPLDTQDIDLQINSSVEKQFGDAIRTTILDVLARYNVRGVQLNVDDKGALDCILRARLEALLARASGIPALPWEDCQ" "c" "Han et al., 2011" -"ACRB-MONOMER" "MPNFFIDRPIFAWVIAIIIMLAGGLAILKLPVAQYPTIAPPAVTISASYPGADAKTVQDTVTQVIEQNMNGIDNLMYMSSNSDSTGTVQITLTFESGTDADIAQVQVQNKLQLAMPLLPQEVQQQGVSVEKSSSSFLMVVGVINTDGTMTQEDISDYVAANMKDAISRTSGVGDVQLFGSQYAMRIWMNPNELNKFQLTPVDVITAIKAQNAQVAAGQLGGTPPVKGQQLNASIIAQTRLTSTEEFGKILLKVNQDGSRVLLRDVAKIELGGENYDIIAEFNGQPASGLGIKLATGANALDTAAAIRAELAKMEPFFPSGLKIVYPYDTTPFVKISIHEVVKTLVEAIILVFLVMYLFLQNFRATLIPTIAVPVVLLGTFAVLAAFGFSINTLTMFGMVLAIGLLVDDAIVVVENVERVMAEEGLPPKEATRKSMGQIQGALVGIAMVLSAVFVPMAFFGGSTGAIYRQFSITIVSAMALSVLVALILTPALCATMLKPIAKGDHGEGKKGFFGWFNRMFEKSTHHYTDSVGGILRSTGRYLVLYLIIVVGMAYLFVRLPSSFLPDEDQGVFMTMVQLPAGATQERTQKVLNEVTHYYLTKEKNNVESVFAVNGFGFAGRGQNTGIAFVSLKDWADRPGEENKVEAITMRATRAFSQIKDAMVFAFNLPAIVELGTATGFDFELIDQAGLGHEKLTQARNQLLAEAAKHPDMLTSVRPNGLEDTPQFKIDIDQEKAQALGVSINDINTTLGAAWGGSYVNDFIDRGRVKKVYVMSEAKYRMLPDDIGDWYVRAADGQMVPFSAFSSSRWEYGSPRLERYNGLPSMEILGQAAPGKSTGEAMELMEQLASKLPTGVGYDWTGMSYQERLSGNQAPSLYAISLIVVFLCLAALYESWSIPFSVMLVVPLGVIGALLAATFRGLTNDVYFQVGLLTTIGLSAKNAILIVEFAKDLMDKEGKGLIEATLDAVRMRLRPILMTSLAFILGVMPLVISTGAGSGAQNAVGTGVMGGMVTATVLAIFFVPVFFVVVRRRFSRKNEDIEHSHTVDHH" "i" "Han et al., 2011" -"ACRD-MONOMER" "MANFFIDRPIFAWVLAILLCLTGTLAIFSLPVEQYPDLAPPNVRVTANYPGASAQTLENTVTQVIEQNMTGLDNLMYMSSQSSGTGQASVTLSFKAGTDPDEAVQQVQNQLQSAMRKLPQAVQNQGVTVRKTGDTNILTIAFVSTDGSMDKQDIADYVASNIQDPLSRVNGVGDIDAYGSQYSMRIWLDPAKLNSFQMTAKDVTDAIESQNAQIAVGQLGGTPSVDKQALNATINAQSLLQTPEQFRDITLRVNQDGSEVRLGDVATVEMGAEKYDYLSRFNGKPASGLGVKLASGANEMATAELVLNRLDELAQYFPHGLEYKVAYETTSFVKASIEDVVKTLLEAIALVFLVMYLFLQNFRATLIPTIAVPVVLMGTFSVLYAFGYSVNTLTMFAMVLAIGLLVDDAIVVVENVERIMSEEGLTPREATRKSMGQIQGALVGIAMVLSAVFVPMAFFGGTTGAIYRQFSITIVAAMVLSVLVAMILTPALCATLLKPLKKGEHHGQKGFFAWFNQMFNRNAERYEKGVAKILHRSLRWIVIYVLLLGGMVFLFLRLPTSFLPLEDRGMFTTSVQLPSGSTQQQTLKVVEQIEKYYFTHEKDNIMSVFATVGSGPGGNGQNVARMFIRLKDWSERDSKTGTSFAIIERATKAFNQIKEARVIASSPPAISGLGSSAGFDMELQDHAGAGHDALMAARNQLLALAAENPELTRVRHNGLDDSPQLQIDIDQRKAQALGVAIDDINDTLQTAWGSSYVNDFMDRGRVKKVYVQAAAPYRMLPDDINLWYVRNKDGGMVPFSAFATSRWETGSPRLERYNGYSAVEIVGEAAPGVSTGTAMDIMESLVKQLPNGFGLEWTAMSYQERLSGAQAPALYAISLLVVFLCLAALYESWSVPFSVMLVVPLGVIGALLATWMRGLENDVYFQVGLLTVIGLSAKNAILIVEFANEMNQKGHDLFEATLHACRQRLRPILMTSLAFIFGVLPMATSTGAGSGGQHAVGTGVMGGMISATILAIYFVPLFFVLVRRRFPLKPRPE" "i" "Han et al., 2011" -"ACRF-MONOMER" "MANFFIRRPIFAWVLAIILMMAGALAILQLPVAQYPTIAPPAVSVSANYPGADAQTVQDTVTQVIEQNMNGIDNLMYMSSTSDSAGSVTITLTFQSGTDPDIAQVQVQNKLQLATPLLPQEVQQQGISVEKSSSSYLMVAGFVSDNPGTTQDDISDYVASNVKDTLSRLNGVGDVQLFGAQYAMRIWLDADLLNKYKLTPVDVINQLKVQNDQIAAGQLGGTPALPGQQLNASIIAQTRFKNPEEFGKVTLRVNSDGSVVRLKDVARVELGGENYNVIARINGKPAAGLGIKLATGANALDTAKAIKAKLAELQPFFPQGMKVLYPYDTTPFVQLSIHEVVKTLFEAIMLVFLVMYLFLQNMRATLIPTIAVPVVLLGTFAILAAFGYSINTLTMFGMVLAIGLLVDDAIVVVENVERVMMEDKLPPKEATEKSMSQIQGALVGIAMVLSAVFIPMAFFGGSTGAIYRQFSITIVSAMALSVLVALILTPALCATLLKPVSAEHHENKGGFFGWFNTTFDHSVNHYTNSVGKILGSTGRYLLIYALIVAGMVVLFLRLPSSFLPEEDQGVFLTMIQLPAGATQERTQKVLDQVTDYYLKNEKANVESVFTVNGFSFSGQAQNAGMAFVSLKPWEERNGDENSAEAVIHRAKMELGKIRDGFVIPFNMPAIVELGTATGFDFELIDQAGLGHDALTQARNQLLGMAAQHPASLVSVRPNGLEDTAQFKLEVDQEKAQALGVSLSDINQTISTALGGTYVNDFIDRGRVKKLYVQADAKFRMLPEDVDKLYVRSANGEMVPFSAFTTSHWVYGSPRLERYNGLPSMEIQGEAAPGTSSGDAMALMENLASKLPAGIGYDWTGMSYQERLSGNQAPALVAISFVVVFLCLAALYESWSIPVSVMLVVPLGIVGVLLAATLFNQKNDVYFMVGLLTTIGLSAKNAILIVEFAKDLMEKEGKGVVEATLMAVRMRLRPILMTSLAFILGVLPLAISNGAGSGAQNAVGIGVMGGMVSATLLAIFFVPVFFVVIRRCFKG" "i" "Han et al., 2011" -"ACS-MONOMER" "MSQIHKHTIPANIADRCLINPQQYEAMYQQSINVPDTFWGEQGKILDWIKPYQKVKNTSFAPGNVSIKWYEDGTLNLAANCLDRHLQENGDRTAIIWEGDDASQSKHISYKELHRDVCRFANTLLELGIKKGDVVAIYMPMVPEAAVAMLACARIGAVHSVIFGGFSPEAVAGRIIDSNSRLVITSDEGVRAGRSIPLKKNVDDALKNPNVTSVEHVVVLKRTGGKIDWQEGRDLWWHDLVEQASDQHQAEEMNAEDPLFILYTSGSTGKPKGVLHTTGGYLVYAALTFKYVFDYHPGDIYWCTADVGWVTGHSYLLYGPLACGATTLMFEGVPNWPTPARMAQVVDKHQVNILYTAPTAIRALMAEGDKAIEGTDRSSLRILGSVGEPINPEAWEWYWKKIGNEKCPVVDTWWQTETGGFMITPLPGATELKAGSATRPFFGVQPALVDNEGNPLEGATEGSLVITDSWPGQARTLFGDHERFEQTYFSTFKNMYFSGDGARRDEDGYYWITGRVDDVLNVSGHRLGTAEIESALVAHPKIAEAAVVGIPHNIKGQAIYAYVTLNHGEEPSPELYAEVRNWVRKEIGPLATPDVLHWTDSLPKTRSGKIMRRILRKIAAGDTSNLGDTSTLADPGVVEKLLEEKQAIAMPS" "c" "Han et al., 2011" -"ACSERLYA-MONOMER" "MSKIFEDNSLTIGHTPLVRLNRIGNGRILAKVESRNPSFSVKCRIGANMIWDAEKRGVLKPGVELVEPTSGNTGIALAYVAAARGYKLTLTMPETMSIERRKLLKALGANLVLTEGAKGMKGAIQKAEEIVASNPEKYLLLQQFSNPANPEIHEKTTGPEIWEDTDGQVDVFIAGVGTGGTLTGVSRYIKGTKGKTDLISVAVEPTDSPVIAQALAGEEIKPGPHKIQGIGAGFIPANLDLKLVDKVIGITNEEAISTARRLMEEEGILAGISSGAAVAAALKLQEDESFTNKNIVVILPSSGERYLSTALFADLFTEKELQQ" "c" "Lopez-Campistrous et al., 2005" -"ACSERLYB-MONOMER" "VSTLEQTIGNTPLVKLQRMGPDNGSEVWLKLEGNNPAGSVKDRAALSMIVEAEKRGEIKPGDVLIEATSGNTGIALAMIAALKGYRMKLLMPDNMSQERRAAMRAYGAELILVTKEQGMEGARDLALEMANRGEGKLLDQFNNPDNPYAHYTTTGPEIWQQTGGRITHFVSSMGTTGTITGVSRFMREQSKPVTIVGLQPEEGSSIPGIRRWPTEYLPGIFNASLVDEVLDIHQRDAENTMRELAVREGIFCGVSSGGAVAGALRVAKANPDAVVVAIICDRGDRYLSTGVFGEEHFSQGAGI" "c" "Han et al., 2011" -"ACYLCOADEHYDROG-MONOMER" "MMILSILATVVLLGALFYHRVSLFISSLILLAWTAALGVAGLWSAWVLVPLAIILVPFNFAPMRKSMISAPVFRGFRKVMPPMSRTEKEAIDAGTTWWEGDLFQGKPDWKKLHNYPQPRLTAEEQAFLDGPVEEACRMANDFQITHELADLPPELWAYLKEHRFFAMIIKKEYGGLEFSAYAQSRVLQKLSGVSGILAITVGVPNSLGPGELLQHYGTDEQKDHYLPRLARGQEIPCFALTSPEAGSDAGAIPDTGIVCMGEWQGQQVLGMRLTWNKRYITLAPIATVLGLAFKLSDPEKLLGGAEDLGITCALIPTTTPGVEIGRRHFPLNVPFQNGPTRGKDVFVPIDYIIGGPKMAGQGWRMLVECLSVGRGITLPSNSTGGVKSVALATGAYAHIRRQFKISIGKMEGIEEPLARIAGNAYVMDAAASLITYGIMLGEKPAVLSAIVKYHCTHRGQQSIIDAMDITGGKGIMLGQSNFLARAYQGAPIAITVEGANILTRSMMIFGQGAIRCHPYVLEEMEAAKNNDVNAFDKLLFKHIGHVGSNKVRSFWLGLTRGLTSSTPTGDATKRYYQHLNRLSANLALLSDVSMAVLGGSLKRRERISARLGDILSQLYLASAVLKRYDDEGRNEADLPLVHWGVQDALYQAEQAMDDLLQNFPNRVVAGLLNVVIFPTGRHYLAPSDKLDHKVAKILQVPNATRSRIGRGQYLTPSEHNPVGLLEEALVDVIAADPIHQRICKELGKNLPFTRLDELAHNALVKGLIDKDEAAILVKAEESRLRSINVDDFDPEELATKPVKLPEKVRKVEAA" "i" "Han et al., 2011" -"ACYLCOASYN-MONOMER" "LKKVWLNRYPADVPTEINPDRYQSLVDMFEQSVARYADQPAFVNMGEVMTFRKLEERSRAFAAYLQQGLGLKKGDRVALMMPNLLQYPVALFGILRAGMIVVNVNPLYTPRELEHQLNDSGASAIVIVSNFAHTLEKVVDKTAVQHVILTRMGDQLSTAKGTVVNFVVKYIKRLVPKYHLPDAISFRSALHNGYRMQYVKPELVPEDLAFLQYTGGTTGVAKGAMLTHRNMLANLEQVNATYGPLLHPGKELVVTALPLYHIFALTINCLLFIELGGQNLLITNPRDIPGLVKELAKYPFTAITGVNTLFNALLNNKEFQQLDFSSLHLSAGGGMPVQQVVAERWVKLTGQYLLEGYGLTECAPLVSVNPYDIDYHSGSIGLPVPSTEAKLVDDDDNEVPPGQPGELCVKGPQVMLGYWQRPDATDEIIKNGWLHTGDIAVMDEEGFLRIVDRKKDMILVSGFNVYPNEIEDVVMQHPGVQEVAAVGVPSGSSGEAVKIFVVKKDPSLTEESLVTFCRRQLTGYKVPKLVEFRDELPKSNVGKILRRELRDEARGKVDNKA" "i" "EcoCyc dump" -"ADCLY-MONOMER" "MFLINGHKQESLAVSDRATQFGDGCFTTARVIDGKVSLLSAHIQRLQDACQRLMISCDFWPQLEQEMKTLAAEQQNGVLKVVISRGSGGRGYSTLNSGPATRILSVTAYPAHYDRLRNEGITLALSPVRLGRNPHLAGIKHLNRLEQVLIRSHLEQTNADEALVLDSEGWVTECCAANLFWRKGNVVYTPRLDQAGVNGIMRQFCIRLLAQSSYQLVEVQASLEESLQADEMVICNALMPVMPVCACGDVSFSSATLYEYLAPLCERPN" "c" "Han et al., 2011" -"ADENODEAMIN-MONOMER" "MIDTTLPLTDIHRHLDGNIRPQTILELGRQYNISLPAQSLETLIPHVQVIANEPDLVSFLTKLDWGVKVLASLDACRRVAFENIEDAARHGLHYVELRFSPGYMAMAHQLPVAGVVEAVIDGVREGCRTFGVQAKLIGIMSRTFGEAACQQELEAFLAHRDQITALDLAGDELGFPGSLFLSHFNRARDAGWHITVHAGEAAGPESIWQAIRELGAERIGHGVKAIEDRALMDFLAEQQIGIESCLTSNIQTSTVAELAAHPLKTFLEHGIRASINTDDPGVQGVDIIHEYTVAAPAAGLSREQIRQAQINGLEMAFLSAEEKRALREKVAAK" "c" "Han et al., 2011" -"ADENPRIBOSYLTRAN-MONOMER" "MTATAQQLEYLKNSIKSIQDYPKPGILFRDVTSLLEDPKAYALSIDLLVERYKNAGITKVVGTEARGFLFGAPVALGLGVGFVPVRKPGKLPRETISETYDLEYGTDQLEIHVDAIKPGDKVLVVDDLLATGGTIEATVKLIRRLGGEVADAAFIINLFDLGGEQRLEKQGITSYSLVPFPGH" "c" "Lopez-Campistrous et al., 2005" -"ADENYL-KIN-MONOMER" "MRIILLGAPGAGKGTQAQFIMEKYGIPQISTGDMLRAAVKSGSELGKQAKDIMDAGKLVTDELVIALVKERIAQEDCRNGFLLDGFPRTIPQADAMKEAGINVDYVLEFDVPDELIVDRIVGRRVHAPSGRVYHVKFNPPKVEGKDDVTGEELTTRKDDQEETVRKRLVEYHQMTAPLIGYYSKEAEAGNTKYAKVDGTKPVAEVRADLEKILG" "c" "Han et al., 2011" -"ADENYLATECYC-MONOMER" "LYLYIETLKQRLDAINQLRVDRALAAMGPAFQQVYSLLPTLLHYHHPLMPGYLDGNVPKGICLYTPDETQRHYLNELELYRGMSVQDPPKGELPITGVYTMGSTSSVGQSCSSDLDIWVCHQSWLDSEERQLLQRKCSLLENWAASLGVEVSFFLIDENRFRHNESGSLGGEDCGSTQHILLLDEFYRTAVRLAGKRILWNMVPCDEEEHYDDYVMTLYAQGVLTPNEWLDLGGLSSLSAEEYFGASLWQLYKSIDSPYKAVLKTLLLEAYSWEYPNPRLLAKDIKQRLHDGEIVSFGLDPYCMMLERVTEYLTAIEDFTRLDLVRRCFYLKVCEKLSRERACVGWRRAVLSQLVSEWGWDEARLAMLDNRANWKIDQVREAHNELLDAMMQSYRNLIRFARRNNLSVSASPQDIGVLTRKLYAAFEALPGKVTLVNPQISPDLSEPNLTFIYVPPGRANRSGWYLYNRAPNIESIISHQPLEYNRYLNKLVAWAWFNGLLTSRTRLYIKGNGIVDLPKLQEMVADVSHHFPLRLPAPTPKALYSPCEIRHLAIIVNLEYDPTAAFRNQVVHFDFRKLDVFSFGENQNCLVGSVDLLYRNSWNEVRTLHFNGEQSMIEALKTILGKMHQDAAPPDSVEVFCYSQHLRGLIRTRVQQLVSECIELRLSSTRQETGRFKALRVSGQTWGLFFERLNVSVQKLENAIEFYGAISHNKLHGLSVQVETNHVKLPAVVDGFASEGIIQFFFEETQDENGFNIYILDESNRVEVYHHCEGSKEELVRDVSRFYSSSHDRFTYGSSFINFNLPQFYQIVKVDGREQVIPFRTKSIGNMPPANQDHDTPLLQQYFS" "c" "Han et al., 2011" -"ADENYLOSUCCINATE-SYN-MONOMER" "MGNNVVVLGTQWGDEGKGKIVDLLTERAKYVVRYQGGHNAGHTLVINGEKTVLHLIPSGILRENVTSIIGNGVVLSPAALMKEMKELEDRGIPVRERLLLSEACPLILDYHVALDNAREKARGAKAIGTTGRGIGPAYEDKVARRGLRVGDLFDKETFAEKLKEVMEYHNFQLVNYYKAEAVDYQKVLDDTMAVADILTSMVVDVSDLLDQARQRGDFVMFEGAQGTLLDIDHGTYPYVTSSNTTAGGVATGSGLGPRYVDYVLGILKAYSTRVGAGPFPTELFDETGEFLCKQGNEFGATTGRRRRTGWLDTVAVRRAVQLNSLSGFCLTKLDVLDGLKEVKLCVAYRMPDGREVTTTPLAADDWKGVEPIYETMPGWSESTFGVKDRSGLPQAALNYIKRIEELTGVPIDIISTGPDRTETMILRDPFDA" "c" "Han et al., 2011" -"ADENYLYLSULFKIN-MONOMER" "MALHDENVVWHSHPVTVQQRELHHGHRGVVLWFTGLSGSGKSTVAGALEEALHKLGVSTYLLDGDNVRHGLCSDLGFSDADRKENIRRVGEVANLMVEAGLVVLTAFISPHRAERQMVRERVGEGRFIEVFVDTPLAICEARDPKGLYKKARAGELRNFTGIDSVYEAPESAEIHLNGEQLVTNLVQQLLDLLRQNDIIRS" "c" "Han et al., 2011" -"ADHC-MONOMER" "MKSRAAVAFAPGKPLEIVEIDVAPPKKGEVLIKVTHTGVCHTDAFTLSGDDPEGVFPVVLGHEGAGVVVEVGEGVTSVKPGDHVIPLYTAECGECEFCRSGKTNLCVAVRETQGKGLMPDGTTRFSYNGQPLYHYMGCSTFSEYTVVAEVSLAKINPEANHEHVCLLGCGVTTGIGAVHNTAKVQPGDSVAVFGLGAIGLAVVQGARQAKAGRIIAIDTNPKKFDLARRFGATDCINPNDYDKPIKDVLLDINKWGIDHTFECIGNVNVMRAALESAHRGWGQSVIIGVAVAGQEISTRPFQLVTGRVWKGSAFGGVKGRSQLPGMVEDAMKGDIDLEPFVTHTMSLDEINDAFDLMHEGKSIRTVIRY" "c" "Han et al., 2011" -"ADHE-MONOMER" "MAVTNVAELNALVERVKKAQREYASFTQEQVDKIFRAAALAAADARIPLAKMAVAESGMGIVEDKVIKNHFASEYIYNAYKDEKTCGVLSEDDTFGTITIAEPIGIICGIVPTTNPTSTAIFKSLISLKTRNAIIFSPHPRAKDATNKAADIVLQAAIAAGAPKDLIGWIDQPSVELSNALMHHPDINLILATGGPGMVKAAYSSGKPAIGVGAGNTPVVIDETADIKRAVASVLMSKTFDNGVICASEQSVVVVDSVYDAVRERFATHGGYLLQGKELKAVQDVILKNGALNAAIVGQPAYKIAELAGFSVPENTKILIGEVTVVDESEPFAHEKLSPTLAMYRAKDFEDAVEKAEKLVAMGGIGHTSCLYTDQDNQPARVSYFGQKMKTARILINTPASQGGIGDLYNFKLAPSLTLGCGSWGGNSISENVGPKHLINKKTVAKRAENMLWHKLPKSIYFRRGSLPIALDEVITDGHKRALIVTDRFLFNNGYADQITSVLKAAGVETEVFFEVEADPTLSIVRKGAELANSFKPDVIIALGGGSPMDAAKIMWVMYEHPETHFEELALRFMDIRKRIYKFPKMGVKAKMIAVTTTSGTGSEVTPFAVVTDDATGQKYPLADYALTPDMAIVDANLVMDMPKSLCAFGGLDAVTHAMEAYVSVLASEFSDGQALQALKLLKEYLPASYHEGSKNPVARERVHSAATIAGIAFANAFLGVCHSMAHKLGSQFHIPHGLANALLICNVIRYNANDNPTKQTAFSQYDRPQARRRYAEIADHLGLSAPGDRTAAKIEKLLAWLETLKAELGIPKSIREAGVQEADFLANVDKLSEDAFDDQCTGANPRYPLISELKQILLDTYYGRDYVEGETAAKKEAAPAKAEKKAKKSA" "c" "Lopez-Campistrous et al., 2005" -"ADHP-MONOMER" "MKAAVVTKDHHVDVTYKTLRSLKHGEALLKMECCGVCHTDLHVKNGDFGDKTGVILGHEGIGVVAEVGPGVTSLKPGDRASVAWFYEGCGHCEYCNSGNETLCRSVKNAGYSVDGGMAEECIVVADYAVKVPDGLDSAAASSITCAGVTTYKAVKLSKIRPGQWIAIYGLGGLGNLALQYAKNVFNAKVIAIDVNDEQLKLATEMGADLAINSHTEDAAKIVQEKTGGAHAAVVTAVAKAAFNSAVDAVRAGGRVVAVGLPPESMSLDIPRLVLDGIEVVGSLVGTRQDLTEAFQFAAEGKVVPKVALRPLADINTIFTEMEEGKIRGRMVIDFRH" "c" "Han et al., 2011" -"AERGLYC3PDEHYDROG-MONOMER" "METKDLIVIGGGINGAGIAADAAGRGLSVLMLEAQDLACATSSASSKLIHGGLRYLEHYEFRLVSEALAEREVLLKMAPHIAFPMRFRLPHRPHLRPAWMIRIGLFMYDHLGKRTSLPGSTGLRFGANSVLKPEIKRGFEYSDCWVDDARLVLANAQMVVRKGGEVLTRTRATSARRENGLWIVEAEDIDTGKKYSWQARGLVNATGPWVKQFFDDGMHLPSPYGIRLIKGSHIVVPRVHTQKQAYILQNEDKRIVFVIPWMDEFSIIGTTDVEYKGDPKAVKIEESEINYLLNVYNTHFKKQLSRDDIVWTYSGVRPLCDDESDSPQAITRDYTLDIHDENGKAPLLSVFGGKLTTYRKLAEHALEKLTPYYQGIGPAWTKESVLPGGAIEGDRDDYAARLRRRYPFLTESLARHYARTYGSNSELLLGNAGTVSDLGEDFGHEFYEAELKYLVDHEWVRRADDALWRRTKQGMWLNADQQSRVSQWLVEYTQQRLSLAS" "i" "Lopez-Campistrous et al., 2005" -"AGAA-MONOMER" "VHCYNGMTGLHHREPGMVGAGLTDKRAWLELIADGHHVHPAAMSLCCCCAKERIVLITDAMQAAGMPDGRYTLCGEEVQMHGGVVRTASGGLAGSTLSVDAAVRNMVELTGVTPAEAIHMASLHPARMLGVDGVLGSLKPGKRASVVALDSGLHVQQIWIQGQLASF" "c" "Han et al., 2011" -"AGAB-MONOMER" "MTSPNILLTRIDNRLVHGQVGVTWTSTIGANLLVVVDDVVANDDIQQKLMGITAETYGFGIRFFTIEKTINVIGKAAPHQKIFLICRTPQTVRKLVEGGIDLKDVNVGNMHFSEGKKQISSKVYVDDQDLTDLRFIKQRGVNVFIQDVPGDQKEQIPD" "c" "Han et al., 2011" -"AGAC-MONOMER" "MHEITLLQGLSLAALVFVLGIDFWLEALFLFRPIIVCTLTGAILGDIQTGLITGGLTELAFAGLTPAGGVQPPNPIMAGLMTTVIAWSTGVDAKTAIGLGLPFSLLMQYVILFFYSAFSLFMTKADKCAKEADTAAFSRLNWTTMLIVASAYAVIAFLCTYLAQGAMQALVKAMPAWLTHGFEVAGGILPAVGFGLLLRVMFKAQYIPYLIAGFLFVCYIQVSNLLPVAVLGAGFAVYEFFNAKSRQQAQPQPVASKNEEEDYSNGI" "i" "Han et al., 2011" -"AGAD-MONOMER" "MGSEISKKDITRLGFRSSLLQASFNYERMQAGGFTWAMLPILKKIYKDDKPGLSAAMKDNLEFINTHPNLVGFLMGLLISMEEKGENRDTIKGLKVALFGPIAGIGDAIFWFTLLPIMAGICSSFASQGNLLGPILFFAVYLLIFFLRVGWTHVGYSVGVKAIDKVRENSQMIARSATILGITVIGGLIASYVHINVVTSFAIDNTHSVALQQDFFDKVFPNILPMAYTLLMYYFLRVKKAHPVLLIGVTFVLSIVCSAFGIL" "i" "Han et al., 2011" -"AGAX-MONOMER" "MLGWVITCHDDRAQEILDALEKKHGALLQCRAVNFWRGLSSNMLSRMMCDALHEADSGEGVIFLTDIAGAPPYRVASLLSHKHSRCEVISGVTLPLIEQMMACRETMTSSEFRERIVELGAPEVSSLWHQQQKNPPFVLKHNLYEY" "c" "Han et al., 2011" -"AGMATIN-MONOMER" "MSTLGHQYDNSLVSNAFGFLRLPMNFQPYDSDADWVITGVPFDMATSGRAGGRHGPAAIRQVSTNLAWEHNRFPWNFDMRERLNVVDCGDLVYAFGDAREMSEKLQAHAEKLLAAGKRMLSFGGDHFVTLPLLRAHAKHFGKMALVHFDAHTDTYANGCEFDHGTMFYTAPKEGLIDPNHSVQIGIRTEFDKDNGFTVLDACQVNDRSVDDVIAQVKQIVGDMPVYLTFDIDCLDPAFAPGTGTPVIGGLTSDRAIKLVRGLKDLNIVGMDVVEVAPAYDQSEITALAAATLALEMLYIQAAKKGE" "c" "Han et al., 2011" -"AICARTRANSIMPCYCLO-CPLX" "MQQRRPVRRALLSVSDKAGIVEFAQALSARGVELLSTGGTARLLAEKGLPVTEVSDYTGFPEMMDGRVKTLHPKVHGGILGRRGQDDAIMEEHQIQPIDMVVVNLYPFAQTVAREGCSLEDAVENIDIGGPTMVRSAAKNHKDVAIVVKSSDYDAIIKEMDDNEGSLTLATRFDLAIKAFEHTAAYDSMIANYFGSMVPAYHGESKEAAGRFPRTLNLNFIKKLDMRYGENSHQQAAFYIEENVKEASVATATQVQGKALSYNNIADTDAALECVKEFAEPACVIVKHANPCGVAIGNSILDAYDRAYKTDPTSAFGGIIAFNRELDAETAQAIISRQFVEVIIAPSASEEALKITAAKQNVRVLTCGQWGERVPGLDFKRVNGGLLVQDRDLGMVGAEELRVVTKRQPSEQELRDALFCWKVAKFVKSNAIVYAKNNMTIGIGAGQMSRVYSAKIAGIKAADEGLEVKGSSMASDAFFPFRDGIDAAAAAGVTCVIQPGGSIRDDEVIAAADEHGIAMLFTDMRHFRH" "c" "Lopez-Campistrous et al., 2005" -"AIRS-MONOMER" "VTDKTSLSYKDAGVDIDAGNALVGRIKGVVKKTRRPEVMGGLGGFGALCALPQKYREPVLVSGTDGVGTKLRLAMDLKRHDTIGIDLVAMCVNDLVVQGAEPLFFLDYYATGKLDVDTASAVISGIAEGCLQSGCSLVGGETAEMPGMYHGEDYDVAGFCVGVVEKSEIIDGSKVSDGDVLIALGSSGPHSNGYSLVRKILEVSGCDPQTTELDGKPLADHLLAPTRIYVKSVLELIEKVDVHAIAHLTGGGFWENIPRVLPDNTQAVIDESSWQWPEVFNWLQTAGNVEHHEMYRTFNCGVGMIIALPAPEVDKALALLNANGENAWKIGIIKASDSEQRVVIE" "c" "Lopez-Campistrous et al., 2005" -"AKBLIG-MONOMER" "MRGEFYQQLTNDLETARAEGLFKEERIITSAQQADITVADGSHVINFCANNYLGLANHPDLIAAAKAGMDSHGFGMASVRFICGTQDSHKELEQKLAAFLGMEDAILYSSCFDANGGLFETLLGAEDAIISDALNHASIIDGVRLCKAKRYRYANNDMQELEARLKEAREAGARHVLIATDGVFSMDGVIANLKGVCDLADKYDALVMVDDSHAVGFVGENGRGSHEYCDVMGRVDIITGTLGKALGGASGGYTAARKEVVEWLRQRSRPYLFSNSLAPAIVAASIKVLEMVEAGSELRDRLWANARQFREQMSAAGFTLAGADHAIIPVMLGDAVVAQKFARELQKEGIYVTGFFYPVVPKGQARIRTQMSAAHTPEQITRAVEAFTRIGKQLGVIA" "c" "Han et al., 2011" -"ALARACEBIOSYN-MONOMER" "MQAATVVINRRALRHNLQRLRELAPASKMVAVVKANAYGHGLLETARTLPDADAFGVARLEEALRLRAGGITKPVLLLEGFFDARDLPTISAQHFHTAVHNEEQLAALEEASLDEPVTVWMKLDTGMHRLGVRPEQAEAFYHRLTQCKNVRQPVNIVSHFARADEPKCGATEKQLAIFNTFCEGKPGQRSIAASGGILLWPQSHFDWVRPGIILYGVSPLEDRSTGADFGCQPVMSLTSSLIAVREHKAGEPVGYGGTWVSERDTRLGVVAMGYGDGYPRAAPSGTPVLVNGREVPIVGRVAMDMICVDLGPQAQDKAGDPVILWGEGLPVERIAEMTKVSAYELITRLTSRVAMKYVD" "c" "Han et al., 2011" -"ALARACECAT-MONOMER" "MTRPIQASLDLQALKQNLSIVRQAATHARVWSVVKANAYGHGIERIWSAIGATDGFALLNLEEAITLRERGWKGPILMLEGFFHAQDLEIYDQHRLTTCVHSNWQLKALQNARLKAPLDIYLKVNSGMNRLGFQPDRVLTVWQQLRAMANVGEMTLMSHFAEAEHPDGISGAMARIEQAAEGLECRRSLSNSAATLWHPEAHFDWVRPGIILYGASPSGQWRDIANTGLRPVMTLSSEIIGVQTLKAGERVGYGGRYTARDEQRIGIVAAGYADGYPRHAPTGTPVLVDGVRTMTVGTVSMDMLAVDLTPCPQAGIGTPVELWGKEIKIDDVAAAAGTVGYELMCALALRVPVVTV" "c" "Han et al., 2011" -"ALAS-MONOMER" "MSKSTAEIRQAFLDFFHSKGHQVVASSSLVPHNDPTLLFTNAGMNQFKDVFLGLDKRNYSRATTSQRCVRAGGKHNDLENVGYTARHHTFFEMLGNFSFGDYFKHDAIQFAWELLTSEKWFALPKERLWVTVYESDDEAYEIWEKEVGIPRERIIRIGDNKGAPYASDNFWQMGDTGPCGPCTEIFYDHGDHIWGGPPGSPEEDGDRYIEIWNIVFMQFNRQADGTMEPLPKPSVDTGMGLERIAAVLQHVNSNYDIDLFRTLIQAVAKVTGATDLSNKSLRVIADHIRSCAFLIADGVMPSNENRGYVLRRIIRRAVRHGNMLGAKETFFYKLVGPLIDVMGSAGEDLKRQQAQVEQVLKTEEEQFARTLERGLALLDEELAKLSGDTLDGETAFRLYDTYGFPVDLTADVCRERNIKVDEAGFEAAMEEQRRRAREASGFGADYNAMIRVDSASEFKGYDHLELNGKVTALFVDGKAVDAINAGQEAVVVLDQTPFYAESGGQVGDKGELKGANFSFAVEDTQKYGQAIGHIGKLAAGSLKVGDAVQADVDEARRARIRLNHSATHLMHAALRQVLGTHVSQKGSLVNDKVLRFDFSHNEAMKPEEIRAVEDLVNTQIRRNLPIETNIMDLEAAKAKGAMALFGEKYDERVRVLSMGDFSTELCGGTHASRTGDIGLFRIISESGTAAGVRRIEAVTGEGAIATVHADSDRLSEVAHLLKGDSNNLADKVRSVLERTRQLEKELQQLKEQAAAQESANLSSKAIDVNGVKLLVSELSGVEPKMLRTMVDDLKNQLGSTIIVLATVVEGKVSLIAGVSKDVTDRVKAGELIGMVAQQVGGKGGGRPDMAQAGGTDAAALPAALASVKGWVSAKLQ" "c" "Han et al., 2011" -"ALDDEHYDROGB-MONOMER" "MTNNPPSAQIKPGEYGFPLKLKARYDNFIGGEWVAPADGEYYQNLTPVTGQLLCEVASSGKRDIDLALDAAHKVKDKWAHTSVQDRAAILFKIADRMEQNLELLATAETWDNGKPIRETSAADVPLAIDHFRYFASCIRAQEGGISEVDSETVAYHFHEPLGVVGQIIPWNFPLLMASWKMAPALAAGNCVVLKPARLTPLSVLLLMEIVGDLLPPGVVNVVNGAGGVIGEYLATSKRIAKVAFTGSTEVGQQIMQYATQNIIPVTLELGGKSPNIFFADVMDEEDAFFDKALEGFALFAFNQGEVCTCPSRALVQESIYERFMERAIRRVESIRSGNPLDSVTQMGAQVSHGQLETILNYIDIGKKEGADVLTGGRRKLLEGELKDGYYLEPTILFGQNNMRVFQEEIFGPVLAVTTFKTMEEALELANDTQYGLGAGVWSRNGNLAYKMGRGIQAGRVWTNCYHAYPAHAAFGGYKQSGIGRETHKMMLEHYQQTKCLLVSYSDKPLGLF" "c" "Han et al., 2011" -"ALDHDEHYDROG-MONOMER" "MNFHHLAYWQDKALSLAIENRLFINGEYTAAAENETFETVDPVTQAPLAKIARGKSVDIDRAMSAARGVFERGDWSLSSPAKRKAVLNKLADLMEAHAEELALLETLDTGKPIRHSLRDDIPGAARAIRWYAEAIDKVYGEVATTSSHELAMIVREPVGVIAAIVPWNFPLLLTCWKLGPALAAGNSVILKPSEKSPLSAIRLAGLAKEAGLPDGVLNVVTGFGHEAGQALSRHNDIDAIAFTGSTRTGKQLLKDAGDSNMKRVWLEAGGKSANIVFADCPDLQQAASATAAGIFYNQGQVCIAGTRLLLEESIADEFLALLKQQAQNWQPGHPLDPATTMGTLIDCAHADSVHSFIREGESKGQLLLDGRNAGLAAAIGPTIFVDVDPNASLSREEIFGPVLVVTRFTSEEQALQLANDSQYGLGAAVWTRDLSRAHRMSRRLKAGSVFVNNYNDGDMTVPFGGYKQSGNGRDKSLHALEKFTELKTIWISLEA" "c" "Han et al., 2011" -"ALDOSE1EPIM-MONOMER" "VLNETPALAPDGQPYRLLTLRNNAGMVVTLMDWGATLLSARIPLSDGSVREALLGCASPECYQDQAAFLGASIGRYANRIANSRYTFDGETVTLSPSQGVNQLHGGPEGFDKRRWQIVNQNDRQVLFALSSDDGDQGFPGNLGATVQYRLTDDNRISITYRATVDKPCPVNMTNHVYFNLDGEQSDVRNHKLQILADEYLPVDEGGIPHDGLKSVAGTSFDFRSAKIIASEFLADDDQRKVKGYDHAFLLQAKGDGKKVAAHVWSADEKLQLKVYTTAPALQFYSGNFLGGTPSRGTEPYADWQGLALESEFLPDSPNHPEWPQPDCFLRPGEEYSSLTEYQFIAE" "c" "Lopez-Campistrous et al., 2005" -"ALKAPHOSPHA-MONOMER" "VKQSTIALALLPLLFTPVTKARTPEMPVLENRAAQGDITAPGGARRLTGDQTAALRDSLSDKPAKNIILLIGDGMGDSEITAARNYAEGAGGFFKGIDALPLTGQYTHYALNKKTGKPDYVTDSAASATAWSTGVKTYNGALGVDIHEKDHPTILEMAKAAGLATGNVSTAELQDATPAALVAHVTSRKCYGPSATSEKCPGNALEKGGKGSITEQLLNARADVTLGGGAKTFAETATAGEWQGKTLREQAQARGYQLVSDAASLNSVTEANQQKPLLGLFADGNMPVRWLGPKATYHGNIDKPAVTCTPNPQRNDSVPTLAQMTDKAIELLSKNEKGFFLQVEGASIDKQDHAANPCGQIGETVDLDEAVQRALEFAKKEGNTLVIVTADHAHASQIVAPDTKAPGLTQALNTKDGAVMVMSYGNSEEDSQEHTGSQLRIAAYGPHAANVVGLTDQTDLFYTMKAALGLK" "p" "Han et al., 2011" -"ALPHA-AMYL-CYTO-MONOMER" "MRNPTLLQCFHWYYPEGGKLWPELAERADGFNDIGINMVWLPPAYKGASGGYSVGYDSYDLFDLGEFDQKGSIPTKYGDKAQLLAAIDALKRNDIAVLLDVVVNHKMGADEKEAIRVQRVNADDRTQIDEEIIECEGWTRYTFPARAGQYSQFIWDFKCFSGIDHIENPDEDGIFKIVNDYTGEGWNDQVDDELGNFDYLMGENIDFRNHAVTEEIKYWARWVMEQTQCDGFRLDAVKHIPAWFYKEWIEHVQEVAPKPLFIVAEYWSHEVDKLQTYIDQVEGKTMLFDAPLQMKFHEASRMGRDYDMTQIFTGTLVEADPFHAVTLVANHDTQPLQALEAPVEPWFKPLAYALILLRENGVPSVFYPDLYGAHYEDVGGDGQTYPIDMPIIEQLDELILARQRFAHGVQTLFFDHPNCIAFSRSGTDEFPGCVVVMSNGDDGEKTIHLGENYGNKTWRDFLGNRQERVVTDENGEATFFCNGGSVSVWVIEEVI" "c" "Unambiguous EcoCyc data" -"ALPHA-AMYL-PERI-MONOMER" "MKLAACFLTLLPGFAVAASWTSPGFPAFSEQGTGTFVSHAQLPKGTRPLTLNFDQQCWQPADAIKLNQMLSLQPCSNTPPQWRLFRDGEYTLQIDTRSGTPTLMISIQNAAEPVASLVRECPKWDGLPLTVDVSATFPEGAAVRDYYSQQIAIVKNGQIMLQPAATSNGLLLLERAETDTSAPFDWHNATVYFVLTDRFENGDPSNDQSYGRHKDGMAEIGTFHGGDLRGLTNKLDYLQQLGVNALWISAPFEQIHGWVGGGTKGDFPHYAYHGYYTQDWTNLDANMGNEADLRTLVDSAHQRGIRILFDVVMNHTGYATLADMQEYQFGALYLSGDEVKKSLGERWSDWKPAAGQTWHSFNDYINFSDKTGWDKWWGKNWIRTDIGDYDNPGFDDLTMSLAFLPDIKTESTTASGLPVFYKNKMDTHAKAIDGYTPRDYLTHWLSQWVRDYGIDGFRVDTAKHVELPAWQQLKTEASAALREWKKANPDKALDDKPFWMTGEAWGHGVMQSDYYRHGFDAMINFDYQEQAAKAVDCLAQMDTTWQQMAEKLQGFNVLSYLSSHDTRLFREGGDKAAELLLLAPGAVQIFYGDESSRPFGPTGSDPLQGTRSDMNWQDVSGKSAASVAHWQKISQFRARHPAIGAGKQTTLLLKQGYGFVREHGDDKVLVVWAGQQ" "p" "Han et al., 2011" -"ALPHACOMP-MONOMER" "MTTQVPPSALLPLNPEQLARLQAATTDLTPTQLAWVSGYFWGVLNQQPAALAATPAPAAEMPGITIISASQTGNARRVAEALRDDLLAAKLNVKLVNAGDYKFKQIASEKLLIVVTSTQGEGEPPEEAVALHKFLFSKKAPKLENTAFAVFSLGDSSYEFFCQSGKDFDSKLAELGGERLLDRVDADVEYQAAASEWRARVVDALKSRAPVAAPSQSVATGAVNEIHTSPYSKDAPLVASLSVNQKITGRNSEKDVRHIEIDLGDSGMRYQPGDALGVWYQNDPALVKELVELLWLKGDEPVTVEGKTLPLNEALQWHFELTVNTANIVENYATLTRSETLLPLVGDKAKLQHYAATTPIVDMVRFSPAQLDAEALINLLRPLTPRLYSIASSQAEVENEVHVTVGVVRYDVEGRARAGGASSFLADRVEEEGEVRVFIEHNDNFRLPANPETPVIMIGPGTGIAPFRAFMQQRAADEAPGKNWLFFGNPHFTEDFLYQVEWQRYVKDGVLTRIDLAWSRDQKEKVYVQDKLREQGAELWRWINDGAHIYVCGDANRMAKDVEQALLEVIAEFGGMDTEAADEFLSELRVERRYQRDVY" "c" "EcoCyc dump" -"ALPHAGALACTOSID-MONOMER" "MMSAPKITFIGAGSTIFVKNILGDVFHREALKTAHIALMDIDPTRLEESHIVVRKLMDSAGASGKITCHTQQKEALEDADFVVVAFQIGGYEPCTVTDFEVCKRHGLEQTIADTLGPGGIMRALRTIPHLWQICEDMTEVCPDATMLNYVNPMAMNTWAMYARYPHIKQVGLCHSVQGTAEELARDLNIDPATLRYRCAGINHMAFYLELERKTADGSYVNLYPELLAAYEAGQAPKPNIHGNTRCQNIVRYEMFKKLGYFVTESSEHFAEYTPWFIKPGREDLIERYKVPLDEYPKRCVEQLANWHKELEEYKKASRIDIKPSREYASTIMNAIWTGEPSVIYGNVRNDGLIDNLPQGCCVEVACLVDANGIQPTKVGTLPSHLAALMQTNINVQTLLTEAILTENRDRVYHAAMMDPHTAAVLGIDEIYALVDDLIAAHGDWLPGWLHR" "c" "Han et al., 2011" -"ALTRO-OXIDOREDUCT-MONOMER" "VKTLNRRDFPGAQYPERIIQFGEGNFLRAFVDWQIDLLNEHTDLNSGVVVVRPIETSFPPSLSTQDGLYTTIIRGLNEKGEAVSDARLIRSVNREISVYSEYDEFLKLAHNPEMRFVFSNTTEAGISYHAGDKFDDAPAVSYPAKLTRLLFERFSHFNGALDKGWIIIPCELIDYNGDALRELVLRYAQEWALPEAFIQWLDQANSFCSTLVDRIVTGYPRDEVAKLEEELGYHDGFLDTAEHFYLFVIQGPKSLATELRLDKYPLNVLIVDDIKPYKERKVAILNGAHTALVPVAFQAGLDTVGEAMNDAEICAFVEKAIYEEIIPVLDLPRDELESFASAVTGRFRNPYIKHQLLSIALNGMTKFRTRILPQLLAGQKANGTLPARLTFALAALIAFYRGERNGETYPVQDDAHWLERYQQLWSQHRDRVIGTQELVAIVLAEKDHWEQDLTQVPGLVEQVANDLDAILEKGMREAVRPLC" "c" "Han et al., 2011" -"ALTRODEHYDRAT-MONOMER" "MQYIKIHALDNVAVALADLAEGTEVSVDNQTVTLRQDVARGHKFALTDIAKGANVIKYGLPIGYALADIAAGVHVHAHNTRTNLSDLDQYRYQPDFQDLPAQAADREVQIYRRANGDVGVRNELWILPTVGCVNGIARQIQNRFLKETNNAEGTDGVFLFSHTYGCSQLGDDHINTRTMLQNMVRHPNAGAVLVIGLGCENNQVAAFRETLGDIDPERVHFMICQQQDDEIEAGIEHLHQLYNVMRNDKREPGKLSELKFGLECGGSDGLSGITANPMLGRFSDYVIANGGTTVLTEVPEMFGAEQLLMDHCRDEATFEKLVTMVNDFKQYFIAHDQPIYENPSPGNKAGGITTLEDKSLGCTQKAGSSVVVDVLRYGERLKTPGLNLLSAPGNDAVATSALAGAGCHMVLFSTGRGTPYGGFVPTVKIATNSELAAKKKHWIDFDAGQLIHGKAMPQLLEEFIDTIVEFANGKQTCNERNDFRELAIFKSGVTL" "c" "Han et al., 2011" -"AMINEOXID-MONOMER" "MGSPSLYSARKTTLALAVALSFAWQAPVFAHGGEAHMVPMDKTLKEFGADVQWDDYAQLFTLIKDGAYVKVKPGAQTAIVNGQPLALQVPVVMKDNKAWVSDTFINDVFQSGLDQTFQVEKRPHPLNALTADEIKQAVEIVKASADFKPNTRFTEISLLPPDKEAVWAFALENKPVDQPRKADVIMLDGKHIIEAVVDLQNNKLLSWQPIKDAHGMVLLDDFASVQNIINNSEEFAAAVKKRGITDAKKVITTPLTVGYFDGKDGLKQDARLLKVISYLDVGDGNYWAHPIENLVAVVDLEQKKIVKIEEGPVVPVPMTARPFDGRDRVAPAVKPMQIIEPEGKNYTITGDMIHWRNWDFHLSMNSRVGPMISTVTYNDNGTKRKVMYEGSLGGMIVPYGDPDIGWYFKAYLDSGDYGMGTLTSPIARGKDAPSNAVLLNETIADYTGVPMEIPRAIAVFERYAGPEYKHQEMGQPNVSTERRELVVRWISTVGNYDYIFDWIFHENGTIGIDAGATGIEAVKGVKAKTMHDETAKDDTRYGTLIDHNIVGTTHQHIYNFRLDLDVDGENNSLVAMDPVVKPNTAGGPRTSTMQVNQYNIGNEQDAAQKFDPGTIRLLSNPNKENRMGNPVSYQIIPYAGGTHPVAKGAQFAPDEWIYHRLSFMDKQLWVTRYHPGERFPEGKYPNRSTHDTGLGQYSKDNESLDNTDAVVWMTTGTTHVARAEEWPIMPTEWVHTLLKPWNFFDETPTLGALKKDK" "p" "Han et al., 2011" -"AMP-NUCLEOSID-MONOMER" "MNNKGSGLTPAQALDKLDALYEQSVVALRNAIGNYITSGELPDENARKQGLFVYPSLTVTWDGSTTNPPKTRAFGRFTHAGSYTTTITRPTLFRSYLNEQLTLLYQDYGAHISVQPSQHEIPYPYVIDGSELTLDRSMSAGLTRYFPTTELAQIGDETADGIYHPTEFSPLSHFDARRVDFSLARLRHYTGTPVEHFQPFVLFTNYTRYVDEFVRWGCSQILDPDSPYIALSCAGGNWITAETEAPEEAISDLAWKKHQMPAWHLITADGQGITLVNIGVGPSNAKTICDHLAVLRPDVWLMIGHCGGLRESQAIGDYVLAHAYLRDDHVLDAVLPPDIPIPSIAEVQRALYDATKLVSGRPGEEVKQRLRTGTVVTTDDRNWELRYSASALRFNLSRAVAIDMESATIAAQGYRFRVPYGTLLCVSDKPLHGEIKLPGQANRFYEGAISEHLQIGIRAIDLLRAEGDRLHSRKLRTFNEPPFR" "c" "Han et al., 2011" -"AMPG-MONOMER" "MSSQYLRIFQQPRSAILLILGFASGLPLALTSGTLQAWMTVENIDLKTIGFFSLVGQAYVFKFLWSPLMDRYTPPFFGRRRGWLLATQILLLVAIAAMGFLEPGTQLRWMAALAVVIAFCSASQDIVFDAWKTDVLPAEERGAGAAISVLGYRLGMLVSGGLALWLADKWLGWQGMYWLMAALLIPCIIATLLAPEPTDTIPVPKTLEQAVVAPLRDFFGRNNAWLILLLIVLYKLGDAFAMSLTTTFLIRGVGFDAGEVGVVNKTLGLLATIVGALYGGILMQRLSLFRALLIFGILQGASNAGYWLLSITDKHLYSMGAAVFFENLCGGMGTSAFVALLMTLCNKSFSATQFALLSALSAVGRVYVGPVAGWFVEAHGWSTFYLFSVAAAVPGLILLLVCRQTLEYTRVNDNFISRTAYPAGYAFAMWTLAAGVSLLAVWLLLLTMDALDLTHFSFLPALLEVGVLVALSGVVLGGLLDYLALRKTHLT" "i" "Han et al., 2011" -"AMTB-MONOMER" "MKIATIKTGLASLAMLPGLVMAAPAVADKADNAFMMICTALVLFMTIPGIALFYGGLIRGKNVLSMLTQVTVTFALVCILWVVYGYSLAFGEGNNFFGNINWLMLKNIELTAVMGSIYQYIHVAFQGSFACITVGLIVGALAERIRFSAVLIFVVVWLTLSYIPIAHMVWGGGLLASHGALDFAGGTVVHINAAIAGLVGAYLIGKRVGFGKEAFKPHNLPMVFTGTAILYIGWFGFNAGSAGTANEIAALAFVNTVVATAAAILGWIFGEWALRGKPSLLGACSGAIAGLVGVTPACGYIGVGGALIIGVVAGLAGLWGVTMLKRLLRVDDPCDVFGVHGVCGIVGCIMTGIFAASSLGGVGFAEGVTMGHQLLVQLESIAITIVWSGVVAFIGYKLADLTVGLRVPEEQEREGLDVNSHGENAYNA" "i" "Han et al., 2011" -"AMYLOMALT-MONOMER" "MESKRLDNAALAAGISPNYINAHGKPQSISAETKRRLLDAMHQRTATKVAVTPVPNVMVYTSGKKMPMVVEGSGEYSWLLTTEEGTQYKGHVTGGKAFNLPTKLPEGYHTLTLTQDDQRAHCRVIVAPKRCYEPQALLNKQKLWGACVQLYTLRSEKNWGIGDFGDLKAMLVDVAKRGGSFIGLNPIHALYPANPESASPYSPSSRRWLNVIYIDVNAVEDFHLSEEAQAWWQLPTTQQTLQQARDADWVDYSTVTALKMTALRMAWKGFAQRDDEQMAAFRQFVAEQGDSLFWQAAFDALHAQQVKEDEMRWGWPAWPEMYQNVDSPEVRQFCEEHRDDVDFYLWLQWLAYSQFAACWEISQGYEMPIGLYRDLAVGVAEGGAETWCDRELYCLKASVGAPPDILGPLGQNWGLPPMDPHIITARAYEPFIELLRANMQNCGALRIDHVMSMLRLWWIPYGETADQGAYVHYPVDDLLSILALESKRHRCMVIGEDLGTVPVEIVGKLRSSGVYSYKVLYFENDHEKTFRAPKAYPEQSMAVAATHDLPTLRGYWECGDLTLGKTLGLYPDEVVLRGLYQDRELAKQGLLDALHKYGCLPKRAGHKASLMSMTPTLNRGLQRYIADSNSALLGLQPEDWLDMAEPVNIPGTSYQYKNWRRKLSATLESMFADDGVNKLLKDLDRRRRAAAKKK" "c" "Han et al., 2011" -"ANGLYC3PDEHYDROGSUBUNITA-MONOMER" "MKTRDSQSSDVIIIGGGATGAGIARDCALRGLRVILVERHDIATGATGRNHGLLHSGARYAVTDAESARECISENQILKRIARHCVEPTNGLFITLPEDDLSFQATFIRACEEAGISAEAIDPQQARIIEPAVNPALIGAVKVPDGTVDPFRLTAANMLDAKEHGAVILTAHEVTGLIREGATVCGVRVRNHLTGETQALHAPVVVNAAGIWGQHIAEYADLRIRMFPAKGSLLIMDHRINQHVINRCRKPSDADILVPGDTISLIGTTSLRIDYNEIDDNRVTAEEVDILLREGEKLAPVMAKTRILRAYSGVRPLVASDDDPSGRNVSRGIVLLDHAERDGLDGFITITGGKLMTYRLMAEWATDAVCRKLGNTRPCTTADLALPGSQEPAEVTLRKVISLPAPLRGSAVYRHGDRTPAWLSEGRLHRSLVCECEAVTAGEVQYAVENLNVNSLLDLRRRTRVGMGTCQGELCACRAAGLLQRFNVTTSAQSIEQLSTFLNERWKGVQPIAWGDALRESEFTRWVYQGLCGLEKEQKDAL" "i" "EcoCyc dump" -"ANGLYC3PDEHYDROGSUBUNITB-MONOMER" "MRFDTVIMGGGLAGLLCGLQLQKHGLRCAIVTRGQSALHFSSGSLDLLSHLPDGQPVTDIHSGLESLRQQAPAHPYSLLEPQRVLDLACQAQALIAESGAQLQGSVELAHQRVTPLGTLRSTWLSSPEVPVWPLPAKKICVVGISGLMDFQAHLAAASLRELGLAVETAEIELPELDVLRNNATEFRAVNIARFLDNEENWPLLLDALIPVANTCEMILMPACFGLADDKLWRWLNEKLPCSLMLLPTLPPSVLGIRLQNQLQRQFVRQGGVWMPGDEVKKVTCKNGVVNEIWTRNHADIPLRPRFAVLASGSFFSGGLVAERNGIREPILGLDVLQTATRGEWYKGDFFAPQPWQQFGVTTDETLRPSQAGQTIENLFAIGSVLGGFDPIAQGCGGGVCAVSALHAAQQIAQRAGGQQ" "i" "EcoCyc dump" -"ANGLYC3PDEHYDROGSUBUNITC-MONOMER" "MNDTSFENCIKCTVCTTACPVSRVNPGYPGPKQAGPDGERLRLKDGALYDEALKYCINCKRCEVACPSDVKIGDIIQRARAKYDTTRPSLRNFVLSHTDLMGSVSTPFAPIVNTATSLKPVRQLLDAALKIDHRRTLPKYSFGTFRRWYRSVAAQQAQYKDQVAFFHGCFVNYNHPQLGKDLIKVLNAMGTGVQLLSKEKCCGVPLIANGFTDKARKQAITNVESIREAVGVKGIPVIATSSTCTFALRDEYPEVLNVDNKGLRDHIELATRWLWRKLDEGKTLPLKPLPLKVVYHTPCHMEKMGWTLYTLELLRNIPGLELTVLDSQCCGIAGTYGFKKENYPTSQAIGAPLFRQIEESGADLVVTDCETCKWQIEMSTSLRCEHPITLLAQALA" "i" "Han et al., 2011" -"ANSA-MONOMER" "MQKKSIYVAYTGGTIGMQRSEQGYIPVSGHLQRQLALMPEFHRPEMPDFTIHEYTPLMDSSDMTPEDWQHIAEDIKAHYDDYDGFVILHGTDTMAYTASALSFMLENLGKPVIVTGSQIPLAELRSDGQINLLNALYVAANYPINEVTLFFNNRLYRGNRTTKAHADGFDAFASPNLPPLLEAGIHIRRLNTPPAPHGEGELIVHPITPQPIGVVTIYPGISADVVRNFLRQPVKALILRSYGVGNAPQNKAFLQELQEASDRGIVVVNLTQCMSGKVNMGGYATGNALAHAGVIGGADMTVEATLTKLHYLLSQELDTETIRKAMSQNLRGELTPDD" "c" "Han et al., 2011" -"ANSB-MONOMER" "MEFFKKTALAALVMGFSGAALALPNITILATGGTIAGGGDSATKSNYTVGKVGVENLVNAVPQLKDIANVKGEQVVNIGSQDMNDNVWLTLAKKINTDCDKTDGFVITHGTDTMEETAYFLDLTVKCDKPVVMVGAMRPSTSMSADGPFNLYNAVVTAADKASANRGVLVVMNDTVLDGRDVTKTNTTDVATFKSVNYGPLGYIHNGKIDYQRTPARKHTSDTPFDVSKLNELPKVGIVYNYANASDLPAKALVDAGYDGIVSAGVGNGNLYKSVFDTLATAAKTGTAVVRSSRVPTGATTQDAEVDDAKYGFVASGTLNPQKARVLLQLALTQTKDPQQIQQIFNQY" "c" "EcoCyc dump" -"ANSP-MONOMER" "MSKHDTDTSDQHAAKRRWLNAHEEGYHKAMGNRQVQMIAIGGAIGTGLFLGAGARLQMAGPALALVYLICGLFSFFILRALGELVLHRPSSGSFVSYAREFLGEKAAYVAGWMYFINWAMTGIVDITAVALYMHYWGAFGGVPQWVFALAALTIVGTMNMIGVKWFAEMEFWFALIKVLAIVTFLVVGTVFLGSGQPLDGNTTGFHLITDNGGFFPHGLLPALVLIQGVVFAFASIEMVGTAAGECKDPQTMVPKAINSVIWRIGLFYVGSVVLLVMLLPWSAYQAGQSPFVTFFSKLGVPYIGSIMNIVVLTAALSSLNSGLYCTGRILRSMAMGGSAPSFMAKMSRQHVPYAGILATLVVYVVGVFLNYLVPSRVFEIVLNFASLGIIASWAFIIVCQMRLRKAIKEGKAADVSFKLPGAPFTSWLTLLFLLSVLVLMAFDYPNGTYTIAALPIIGILLVIGWFGVRKRVAEIHSTAPVVEEDEEKQEIVFKPETAS" "i" "Han et al., 2011" -"ANTHRANSYNCOMPI-MONOMER" "MQTQKPTLELLTCEGAYRDNPTALFHQLCGDRPATLLLESADIDSKDDLKSLLLVDSALRITALGDTVTIQALSGNGEALLALLDNALPAGVESEQSPNCRVLRFPPVSPLLDEDARLCSLSVFDAFRLLQNLLNVPKEEREAMFFGGLFSYDLVAGFEDLPQLSAENNCPDFCFYLAETLMVIDHQKKSTRIQASLFAPNEEEKQRLTARLNELRQQLTEAAPPLPVVSVPHMRCECNQSDEEFGGVVRLLQKAIRAGEIFQVVPSRRFSLPCPSPLAAYYVLKKSNPSPYMFFMQDNDFTLFGASPESSLKYDATSRQIEIYPIAGTRPRGRRADGSLDRDLDSRIELEMRTDHKELSEHLMLVDLARNDLARICTPGSRYVADLTKVDRYSYVMHLVSRVVGELRHDLDALHAYRACMNMGTLSGAPKVRAMQLIAEAEGRRRGSYGGAVGYFTAHGDLDTCIVIRSALVENGIATVQAGAGVVLDSVPQSEADETRNKARAVLRAIATAHHAQETF" "c" "Han et al., 2011" -"ANTHRANSYNCOMPII-MONOMER" "MADILLLDNIDSFTYNLADQLRSNGHNVVIYRNHIPAQTLIERLATMSNPVLMLSPGPGVPSEAGCMPELLTRLRGKLPIIGICLGHQAIVEAYGGYVGQAGEILHGKASSIEHDGQAMFAGLTNPLPVARYHSLVGSNIPAGLTINAHFNGMVMAVRHDADRVCGFQFHPESILTTQGARLLEQTLAWAQQKLEPANTLQPILEKLYQAQTLSQQESHQLFSAVVRGELKPEQLAAALVSMKIRGEHPNEIAGAATALLENAAPFPRPDYLFADIVGTGGDGSNSINISTASAFVAAACGLKVAKHGNRSVSSKSGSSDLLAAFGINLDMNADKSRQALDELGVCFLFAPKYHTGFRHAMPVRQQLKTRTLFNVLGPLINPAHPPLALIGVYSPELVLPIAETLRVLGYQRAAVVHSGGMDEVSLHAPTIVAELHDGEIKSYQLTAEDFGLTPYHQEQLAGGTPEENRDILTRLLQGKGDAAHEAAVAANVAMLMRLHGHEDLQANAQTVLEVLRSGSAYDRVTALAARG" "c" "Han et al., 2011" -"APHA-MONOMER" "MRKITQAISAVCLLFALNSSAVALASSPSPLNPGTNVARLAEQAPIHWVSVAQIENSLAGRPPMAVGFDIDDTVLFSSPGFWRGKKTFSPESEDYLKNPVFWEKMNNGWDEFSIPKEVARQLIDMHVRRGDAIFFVTGRSPTKTETVSKTLADNFHIPATNMNPVIFAGDKPGQNTKSQWLQDKNIRIFYGDSDNDITAARDVGARGIRILRASNSTYKPLPQAGAFGEEVIVNSEY" "p" "Han et al., 2011" -"APPA-MONOMER" "MKAILIPFLSLLIPLTPQSAFAQSEPELKLESVVIVSRHGVRAPTKATQLMQDVTPDAWPTWPVKLGWLTPRGGELIAYLGHYQRQRLVADGLLAKKGCPQSGQVAIIADVDERTRKTGEAFAAGLAPDCAITVHTQADTSSPDPLFNPLKTGVCQLDNANVTDAILSRAGGSIADFTGHRQTAFRELERVLNFPQSNLCLKREKQDESCSLTQALPSELKVSADNVSLTGAVSLASMLTEIFLLQQAQGMPEPGWGRITDSHQWNTLLSLHNAQFYLLQRTPEVARSRATPLLDLIKTALTPHPPQKQAYGVTLPTSVLFIAGHDTNLANLGGALELNWTLPGQPDNTPPGGELVFERWRRLSDNSQWIQVSLVFQTLQQMRDKTPLSLNTPPGEVKLTLAGCEERNAQGMCSLAGFTQIVNEARIPACSL" "p" "Han et al., 2011" -"APPB-MONOMER" "MFDYETLRFIWWLLIGVILVVFMISDGFDMGIGCLLPLVARNDDERRIVINSVGAHWEGNQVWLILAGGALFAAWPRVYAAAFSGFYVAMILVLCSLFFRPLAFDYRGKIADARWRKMWDAGLVIGSLVPPVVFGIAFGNLLLGVPFAFTPQLRVEYLGSFWQLLTPFPLLCGLLSLGMVILQGGVWLQLKTVGVIHLRSQLATKRAALLVMLCFLLAGYWLWVGIDGFVLLAQDANGPSNPLMKLVAVLPGAWMNNFVESPVLWIFPLLGFFCPLLTVMAIYRGRPGWGFLMASLMQFGVIFTAGITLFPFVMPSSVSPISSLTLWDSTSSQLTLSIMLVIVLIFLPIVLLYTLWSYYKMWGRMTTETLRRNENELY" "i" "Han et al., 2011" -"APPC-MONOMER" "MWDVIDLSRWQFALTALYHFLFVPLTLGLIFLLAIMETIYVVTGKTIYRDMTRFWGKLFGINFALGVATGLTMEFQFGTNWSFYSNYVGDIFGAPLAMEALMAFFLESTFVGLFFFGWQRLNKYQHLLVTWLVAFGSNLSALWILNANGWMQYPTGAHFDIDTLRMEMTSFSELVFNPVSQVKFVHTVMAGYVTGAMFIMAISAWYLLRGRERNVALRSFAIGSVFGTLAIIGTLQLGDSSAYEVAQVQPVKLAAMEGEWQTEPAPAPFHVVAWPEQDQERNAFALKIPALLGILATHSLDKPVPGLKNLMAETYPRLQRGRMAWLLMQEISQGNREPHVLQAFRGLEGDLGYGMLLSRYAPDMNHVTAAQYQAAMRGAIPQVAPVFWSFRIMVGCGSLLLLVMLIALVQTLRGKIDQHRWVLKMALWSLPLPWIAIEAGWFMTEFGRQPWAIQDILPTYSAHSALTTGQLAFSLIMIVGLYTLFLIAEVYLMQKYARLGPSAMQSEQPTQQQG" "i" "Han et al., 2011" -"AQPZ-MONOMER" "MFRKLAAECFGTFWLVFGGCGSAVLAAGFPELGIGFAGVALAFGLTVLTMAFAVGHISGGHFNPAVTIGLWAGGRFPAKEVVGYVIAQVVGGIVAAALLYLIASGKTGFDAAASGFASNGYGEHSPGGYSMLSALVVELVLSAGFLLVIHGATDKFAPAGFAPIAIGLALTLIHLISIPVTNTSVNPARSTAVAIFQGGWALEQLWFFWVVPIVGGIIGGLIYRTLLEKRD" "i" "Han et al., 2011" -"ARABISOM-MONOMER" "MTIFDNYEVWFVIGSQHLYGPETLRQVTQHAEHVVNALNTEAKLPCKLVLKPLGTTPDEITAICRDANYDDRCAGLVVWLHTFSPAKMWINGLTMLNKPLLQFHTQFNAALPWDSIDMDFMNLNQTAHGGREFGFIGARMRQQHAVVTGHWQDKQAHERIGSWMRQAVSKQDTRHLKVCRFGDNMREVAVTDGDKVAAQIKFGFSVNTWAVGDLVQVVNSISDGDVNALVDEYESCYTMTPATQIHGKKRQNVLEAARIELGMKRFLEQGGFHAFTTTFEDLHGLKQLPGLAVQRLMQQGYGFAGEGDWKTAALLRIMKVMSTGLQGGTSFMEDYTYHFEKGNDLVLGSHMLEVCPSIAAEEKPILDVQHLGIGGKDDPARLIFNTQTGPAIVASLIDLGDRYRLLVNCIDTVKTPHSLPKLPVANALWKAQPDLPTASEAWILAGGAHHTVFSHALNLNDMRQFAEMHDIEITVIDNDTRLPAFKDALRWNEVYYGFRR" "c" "Han et al., 2011" -"ARAE-MONOMER" "MVTINTESALTPRSLRDTRRMNMFVSVAAAVAGLLFGLDIGVIAGALPFITDHFVLTSRLQEWVVSSMMLGAAIGALFNGWLSFRLGRKYSLMAGAILFVLGSIGSAFATSVEMLIAARVVLGIAVGIASYTAPLYLSEMASENVRGKMISMYQLMVTLGIVLAFLSDTAFSYSGNWRAMLGVLALPAVLLIILVVFLPNSPRWLAEKGRHIEAEEVLRMLRDTSEKAREELNEIRESLKLKQGGWALFKINRNVRRAVFLGMLLQAMQQFTGMNIIMYYAPRIFKMAGFTTTEQQMIATLVVGLTFMFATFIAVFTVDKAGRKPALKIGFSVMALGTLVLGYCLMQFDNGTASSGLSWLSVGMTMMCIAGYAMSAAPVVWILCSEIQPLKCRDFGITCSTTTNWVSNMIIGATFLTLLDSIGAAGTFWLYTALNIAFVGITFWLIPETKNVTLEHIERKLMAGEKLRNIGV" "i" "Han et al., 2011" -"ARAF-MONOMER" "MHKFTKALAAIGLAAVMSQSAMAENLKLGFLVKQPEEPWFQTEWKFADKAGKDLGFEVIKIAVPDGEKTLNAIDSLAASGAKGFVICTPDPKLGSAIVAKARGYDMKVIAVDDQFVNAKGKPMDTVPLVMMAATKIGERQGQELYKEMQKRGWDVKESAVMAITANELDTARRRTTGSMDALKAAGFPEKQIYQVPTKSNDIPGAFDAANSMLVQHPEVKHWLIVGMNDSTVLGGVRATEGQGFKAADIIGIGINGVDAVSELSKAQATGFYGSLLPSPDVHGYKSSEMLYNWVAKDVEPPKFTEVTDVVLITRDNFKEELEKKGLGGK" "i" "EcoCyc dump" -"ARAG-MONOMER" "MQQSTPYLSFRGIGKTFPGVKALTDISFDCYAGQVHALMGENGAGKSTLLKILSGNYAPTTGSVVINGQEMSFSDTTAALNAGVAIIYQELHLVPEMTVAENIYLGQLPHKGGIVNRSLLNYEAGLQLKHLGMDIDPDTPLKYLSIGQWQMVEIAKALARNAKIIAFDEPTSSLSAREIDNLFRVIRELRKEGRVILYVSHRMEEIFALSDAITVFKDGRYVKTFTDMQQVDHDALVQAMVGRDIGDIYGWQPRSYGEERLRLDAVKAPGVRTPISLAVRSGEIVGLFGLVGAGRSELMKGMFGGTQITAGQVYIDQQPIDIRKPSHAIAAGMMLCPEDRKAEGIIPVHSVRDNINISARRKHVLGGCVINNGWEENNADHHIRSLNIKTPGAEQLIMNLSGGNQQKAILGRWLSEEMKVILLDEPTRGIDVGAKHEIYNVIYALAAQGVAVLFASSDLPEVLGVADRIVVMREGEIAGELLHEQADERQALSLAMPKVSQAVA" "i" "Han et al., 2011" -"ARAH-MONOMER" "MMSSVSTSGSGAPKSSFSFGRIWDQYGMLVVFAVLFIACAIFVPNFATFINMKGLGLAISMSGMVACGMLFCLASGDFDLSVASVIACAGVTTAVVINLTESLWIGVAAGLLLGVLCGLVNGFVIAKLKINALITTLATMQIVRGLAYIISDGKAVGIEDESFFALGYANWFGLPAPIWLTVACLIIFGLLLNKTTFGRNTLAIGGNEEAARLAGVPVVRTKIIIFVLSGLVSAIAGIILASRMTSGQPMTSIGYELIVISACVLGGVSLKGGIGKISYVVAGILILGTVENAMNLLNISPFAQYVVRGLILLAAVIFDRYKQKAKRTV" "i" "Han et al., 2011" -"ARAJ-MONOMER" "MKKVILSLALGTFGLGMAEFGIMGVLTELAHNVGISIPAAGHMISYYALGVVVGAPIIALFSSRYSLKHILLFLVALCVIGNAMFTLSSSYLMLAIGRLVSGFPHGAFFGVGAIVLSKIIKPGKVTAAVAGMVSGMTVANLLGIPLGTYLSQEFSWRYTFLLIAVFNIAVMASVYFWVPDIRDEAKGNLREQFHFLRSPAPWLIFAATMFGNAGVFAWFSYVKPYMMFISGFSETAMTFIMMLVGLGMVLGNMLSGRISGRYSPLRIAAVTDFIIVLALLMLFFCGGMKTTSLIFAFICCAGLFALSAPLQILLLQNAKGGELLGAAGGQIAFNLGSAVGAYCGGMMLTLGLAYNYVALPAALLSFAAMSSLLLYGRYKRQQAADTPVLAKPLG" "i" "Han et al., 2011" -"ARCA-MONOMER" "MQTPHILIVEDELVTRNTLKSIFEAEGYDVFEATDGAEMHQILSEYDINLVIMDINLPGKNGLLLARELREQANVALMFLTGRDNEVDKILGLEIGADDYITKPFNPRELTIRARNLLSRTMNLGTVSEERRSVESYKFNGWELDINSRSLIGPDGEQYKLPRSEFRAMLHFCENPGKIQSRAELLKKMTGRELKPHDRTVDVTIRRIRKHFESTPDTPEIIATIHGEGYRFCGDLED" "c" "Han et al., 2011" -"ARCB-MONOMER" "MKQIRLLAQYYVDLMMKLGLVRFSMLLALALVVLAIVVQMAVTMVLHGQVESIDVIRSIFFGLLITPWAVYFLSVVVEQLEESRQRLSRLVQKLEEMRERDLSLNVQLKDNIAQLNQEIAVREKAEAELQETFGQLKIEIKEREETQIQLEQQSSFLRSFLDASPDLVFYRNEDKEFSGCNRAMELLTGKSEKQLVHLKPADVYSPEAAAKVIETDEKVFRHNVSLTYEQWLDYPDGRKACFEIRKVPYYDRVGKRHGLMGFGRDITERKRYQDALERASRDKTTFISTISHELRTPLNGIVGLSRILLDTELTAEQEKYLKTIHVSAVTLGNIFNDIIDMDKMERRKVQLDNQPVDFTSFLADLENLSALQAQQKGLRFNLEPTLPLPHQVITDGTRLRQILWNLISNAVKFTQQGQVTVRVRYDEGDMLHFEVEDSGIGIPQDELDKIFAMYYQVKDSHGGKPATGTGIGLAVSRRLAKNMGGDITVTSEQGKGSTFTLTIHAPSVAEEVDDAFDEDDMPLPALNVLLVEDIELNVIVARSVLEKLGNSVDVAMTGKAALEMFKPGEYDLVLLDIQLPDMTGLDISRELTKRYPREDLPPLVALTANVLKDKQEYLNAGMDDVLSKPLSVPALTAMIKKFWDTQDDEESTVTTEENSKSEALLDIPMLEQYLELVGPKLITDGLAVFEKMMPGYVSVLESNLTAQDKKGIVEEGHKIKGAAGSVGLRHLQQLGQQIQSPDLPAWEDNVGEWIEEMKEEWRHDVEVLKAWVAKATKK" "i" "Han et al., 2011" -"ARCD-MONOMER" "MEKKLGLSALTALVLSSMLGAGVFSLPQNMAAVASPAALLIGWGITGAGILLLAFAMLILTRIRPELDGGIFTYAREGFGELIGFCSAWGYWLCAVIANVSYLVIVFSALSFFTDTPELRLFGDGNTWQSIVGASALLWIVHFLILRGVQTAASINLVATLAKLLPLGLFVVLAMMMFKLDTFKLDFTGLALGVPVWEQVKNTMLITLWVFIGVEGAVVVSARARNKRDVGKATLLAVLSALGVYLLVTLLSLGVVARPELAEIRNPSMAGLMVEMMGPWGEIIIAAGLIVSVCGAYLSWTIMAAEVPFLAATHKAFPRIFARQNAQAAPSASLWLTNICVQICLVLIWLTGSDYNTLLTIASEMILVPYFLVGAFLLKIATRPLHKAVGVGACIYGLWLLYASGPMHLLLSVVLYAPGLLVFLYARKTHTHDNVLNRQEMVLIGMLLIASVPATWMLVG" "i" "Han et al., 2011" -"ARGDECARBOXBIO-MONOMER" "MSDDMSMGLPSSAGEHGVLRSMQEVAMSSQEASKMLRTYNIAWWGNNYYDVNELGHISVCPDPDVPEARVDLAQLVKTREAQGQRLPALFCFPQILQHRLRSINAAFKRARESYGYNGDYFLVYPIKVNQHRRVIESLIHSGEPLGLEAGSKAELMAVLAHAGMTRSVIVCNGYKDREYIRLALIGEKMGHKVYLVIEKMSEIAIVLDEAERLNVVPRLGVRARLASQGSGKWQSSGGEKSKFGLAATQVLQLVETLREAGRLDSLQLLHFHLGSQMANIRDIATGVRESARFYVELHKLGVNIQCFDVGGGLGVDYEGTRSQSDCSVNYGLNEYANNIIWAIGDACEENGLPHPTVITESGRAVTAHHTVLVSNIIGVERNEYTVPTAPAEDAPRALQSMWETWQEMHEPGTRRSLREWLHDSQMDLHDIHIGYSSGIFSLQERAWAEQLYLSMCHEVQKQLDPQNRAHRPIIDELQERMADKMYVNFSLFQSMPDAWGIDQLFPVLPLEGLDQVPERRAVLLDITCDSDGAIDHYIDGDGIATTMPMPEYDPENPPMLGFFMVGAYQEILGNMHNLFGDTEAVDVFVFPDGSVEVELSDEGDTVADMLQYVQLDPKTLLTQFRDQVKKTDLDAELQQQFLEEFEAGLYGYTYLEDE" "p" "Han et al., 2011" -"ARGDECARBOXDEG-MONOMER" "MKVLIVESEFLHQDTWVGNAVERLADALSQQNVTVIKSTSFDDGFAILSSNEAIDCLMFSYQMEHPDEHQNVRQLIGKLHERQQNVPVFLLGDREKALAAMDRDLLELVDEFAWILEDTADFIAGRAVAAMTRYRQQLLPPLFSALMKYSDIHEYSWAAPGHQGGVGFTKTPAGRFYHDYYGENLFRTDMGIERTSLGSLLDHTGAFGESEKYAARVFGADRSWSVVVGTSGSNRTIMQACMTDNDVVVVDRNCHKSIEQGLMLTGAKPVYMVPSRNRYGIIGPIYPQEMQPETLQKKISESPLTKDKAGQKPSYCVVTNCTYDGVCYNAKEAQDLLEKTSDRLHFDEAWYGYARFNPIYADHYAMRGEPGDHNGPTVFATHSTHKLLNALSQASYIHVREGRGAINFSRFNQAYMMHATTSPLYAICASNDVAVSMMDGNSGLSLTQEVIDEAVDFRQAMARLYKEFTADGSWFFKPWNKEVVTDPQTGKTYDFADAPTKLLTTVQDCWVMHPGESWHGFKDIPDNWSMLDPIKVSILAPGMGEDGELEETGVPAALVTAWLGRHGIVPTRTTDFQIMFLFSMGVTRGKWGTLVNTLCSFKRHYDANTPLAQVMPELVEQYPDTYANMGIHDLGDTMFAWLKENNPGARLNEAYSGLPVAEVTPREAYNAIVDNNVELVSIENLPGRIAANSVIPYPPGIPMLLSGENFGDKNSPQVSYLRSLQSWDHHFPGFEHETEGTEIIDGIYHVMCVKA" "c" "Han et al., 2011" -"ARGS-MONOMER" "VNIQALLSEKVRQAMIAAGAPADCEPQVRQSAKVQFGDYQANGMMAVAKKLGMAPRQLAEQVLTHLDLNGIASKVEIAGPGFINIFLDPAFLAEHVQQALASDRLGVATPEKQTIVVDYSAPNVAKEMHVGHLRSTIIGDAAVRTLEFLGHKVIRANHVGDWGTQFGMLIAWLEKQQQENAGEMELADLEGFYRDAKKHYDEDEEFAERARNYVVKLQSGDEYFREMWRKLVDITMTQNQITYDRLNVTLTRDDVMGESLYNPMLPGIVADLKAKGLAVESEGATVVFLDEFKNKEGEPMGVIIQKKDGGYLYTTTDIACAKYRYETLHADRVLYYIDSRQHQHLMQAWAIVRKAGYVPESVPLEHHMFGMMLGKDGKPFKTRAGGTVKLADLLDEALERARRLVAEKNPDMPADELEKLANAVGIGAVKYADLSKNRTTDYIFDWDNMLAFEGNTAPYMQYAYTRVLSVFRKAEIDEEQLAAAPVIIREDREAQLAARLLQFEETLTVVAREGTPHVMCAYLYDLAGLFSGFYEHCPILSAENEEVRNSRLKLAQLTAKTLKLGLDTLGIETVERM" "c" "Han et al., 2011" -"ARGSUCCINLYA-MONOMER" "MALWGGRFTQAADQRFKQFNDSLRFDYRLAEQDIVGSVAWSKALVTVGVLTAEEQAQLEEALNVLLEDVRARPQQILESDAEDIHSWVEGKLIDKVGQLGKKLHTGRSRNDQVATDLKLWCKDTVSELLTANRQLQSALVETAQNNQDAVMPGYTHLQRAQPVTFAHWCLAYVEMLARDESRLQDALKRLDVSPLGCGALAGTAYEIDREQLAGWLGFASATRNSLDSVSDRDHVLELLSAAAIGMVHLSRFAEDLIFFNTGEAGFVELSDRVTSGSSLMPQKKNPDALELIRGKCGRVQGALTGMMMTLKGLPLAYNKDMQEDKEGLFDALDTWLDCLHMAALVLDGIQVKRPRCQEAAQQGYANATELADYLVAKGVPFREAHHIVGEAVVEAIRQGKPLEDLPLSELQKFSQVIDEDVYPILSLQSCLDKRAAKGGVSPQQVAQAIAFAQARLG" "c" "Han et al., 2011" -"ARGSUCCINSYN-MONOMER" "MTTILKHLPVGQRIGIAFSGGLDTSAALLWMRQKGAVPYAYTANLGQPDEEDYDAIPRRAMEYGAENARLIDCRKQLVAEGIAAIQCGAFHNTTGGLTYFNTTPLGRAVTGTMLVAAMKEDGVNIWGDGSTYKGNDIERFYRYGLLTNAELQIYKPWLDTDFIDELGGRHEMSEFMIACGFDYKMSVEKAYSTDSNMLGATHEAKDLEYLNSSVKIVNPIMGVKFWDESVKIPAEEVTVRFEQGHPVALNGKTFSDDVEMMLEANRIGGRHGLGMSDQIENRIIEAKSRGIYEAPGMALLHIAYERLLTGIHNEDTIEQYHAHGRQLGRLLYQGRWFDSQALMLRDSLQRWVASQITGEVTLELRRGNDYSILNTVSENLTYKPERLTMEKGDSVFSPDDRIGQLTMRNLDITDTREKLFGYAKTGLLSSSAASGVPQVENLENKGQ" "c" "Han et al., 2011" -"ARGSUCCTRAN-MONOMER" "MMVIRPVERSDVSALMQLASKTGGGLTSLPANEATLSARIERAIKTWQGELPKSEQGYVFVLEDSETGTVAGICAIEVAVGLNDPWYNYRVGTLVHASKELNVYNALPTLFLSNDHTGSSELCTLFLDPDWRKEGNGYLLSKSRFMFMAAFRDKFNDKVVAEMRGVIDEHGYSPFWQSLGKRFFSMDFSRADFLCGTGQKAFIAELMPKHPIYTHFLSQEAQDVIGQVHPQTAPARAVLEKEGFRYRNYIDIFDGGPTLECDIDRVRAIRKSRLVEVAEGQPAQGDFPACLVANENYHHFRVVLVRTDPATERLILTAAQLDALKCHAGDRVRLVRLCAEEKTA" "c" "Han et al., 2011" -"ARGT-MONOMER" "MKKSILALSLLVGLSTAASSYAALPETVRIGTDTTYAPFSSKDAKGDFVGFDIDLGNEMCKRMQVKCTWVASDFDALIPSLKAKKIDAIISSLSITDKRQQEIAFSDKLYAADSRLIAAKGSPIQPTLDSLKGKHVGVLQGSTQEAYANETWRSKGVDVVAYANQDLVYSDLAAGRLDAALQDEVAASEGFLKQPAGKDFAFAGSSVKDKKYFGDGTGVGLRKDDAELTAAFNKALGELRQDGTYDKMAKKYFDFNVYGD" "p" "Han et al., 2011" -"AROA-MONOMER" "MESLTLQPIARVDGTINLPGSKSVSNRALLLAALAHGKTVLTNLLDSDDVRHMLNALTALGVSYTLSADRTRCEIIGNGGPLHAEGALELFLGNAGTAMRPLAAALCLGSNDIVLTGEPRMKERPIGHLVDALRLGGAKITYLEQENYPPLRLQGGFTGGNVDVDGSVSSQFLTALLMTAPLAPEDTVIRIKGDLVSKPYIDITLNLMKTFGVEIENQHYQQFVVKGGQSYQSPGTYLVEGDASSASYFLAAAAIKGGTVKVTGIGRNSMQGDIRFADVLEKMGATICWGDDYISCTRGELNAIDMDMNHIPDAAMTIATAALFAKGTTTLRNIYNWRVKETDRLFAMATELRKVGAEVEEGHDYIRITPPEKLNFAEIATYNDHRMAMCFSLVALSDTPVTILDPKCTAKTFPDYFEQLARISQAA" "c" "Han et al., 2011" -"AROB-MONOMER" "MERIVVTLGERSYPITIASGLFNEPASFLPLKSGEQVMLVTNETLAPLYLDKVRGVLEQAGVNVDSVILPDGEQYKSLAVLDTVFTALLQKPHGRDTTLVALGGGVVGDLTGFAAASYQRGVRFIQVPTTLLSQVDSSVGGKTAVNHPLGKNMIGAFYQPASVVVDLDCLKTLPPRELASGLAEVIKYGIILDGAFFNWLEENLDALLRLDGPAMAYCIRRCCELKAEVVAADERETGLRALLNLGHTFGHAIEAEMGYGNWLHGEAVAAGMVMAARTSERLGQFSSAETQRIITLLKRAGLPVNGPREMSAQAYLPHMLRDKKVLAGEMRLILPLAIGKSEVRSGVSHELVLNAIADCQSA" "c" "Han et al., 2011" -"AROC-MONOMER" "MAGNTIGQLFRVTTFGESHGLALGCIVDGVPPGIPLTEADLQHDLDRRRPGTSRYTTQRREPDQVKILSGVFEGVTTGTSIGLLIENTDQRSQDYSAIKDVFRPGHADYTYEQKYGLRDYRGGGRSSARETAMRVAAGAIAKKYLAEKFGIEIRGCLTQMGDIPLDIKDWSQVEQNPFFCPDPDKIDALDELMRALKKEGDSIGAKVTVVASGVPAGLGEPVFDRLDADIAHALMSINAVKGVEIGDGFDVVALRGSQNRDEITKDGFQSNHAGGILGGISSGQQIIAHMALKPTSSITVPGRTINRFGEEVEMITKGRHDPCVGIRAVPIAEAMLAIVLMDHLLRQRAQNADVKTDIPRW" "c" "Han et al., 2011" -"AROD-MONOMER" "MKTVTVKDLVIGTGAPKIIVSLMAKDIASVKSEALAYREADFDILEWRVDHYADLSNVESVMAAAKILRETMPEKPLLFTFRSAKEGGEQAISTEAYIALNRAAIDSGLVDMIDLELFTGDDQVKETVAYAHAHDVKVVMSNHDFHKTPEAEEIIARLRKMQSFDADIPKIALMPQSTSDVLTLLAATLEMQEQYADRPIITMSMAKTGVISRLAGEVFGSAATFGAVKKASAPGQISVNDLRTVLTILHQA" "c" "Lopez-Campistrous et al., 2005" -"AROE-MONOMER" "METYAVFGNPIAHSKSPFIHQQFAQQLNIEHPYGRVLAPINDFINTLNAFFSAGGKGANVTVPFKEEAFARADELTERAALAGAVNTLMRLEDGRLLGDNTDGVGLLSDLERLSFIRPGLRILLIGAGGASRGVLLPLLSLDCAVTITNRTVSRAEELAKLFAHTGSIQALSMDELEGHEFDLIINATSSGISGDIPAIPSSLIHPGIYCYDMFYQKGKTPFLAWCEQRGSKRNADGLGMLVAQAAHAFLLWHGVLPDVEPVIKQLQEELSA" "c" "Han et al., 2011" -"AROF-MONOMER" "MQKDALNNVHITDEQVLMTPEQLKAAFPLSLQQEAQIADSRKSISDIIAGRDPRLLVVCGPCSIHDPETALEYARRFKALAAEVSDSLYLVMRVYFEKPRTTVGWKGLINDPHMDGSFDVEAGLQIARKLLLELVNMGLPLATEALDPNSPQYLGDLFSWSAIGARTTESQTHREMASGLSMPVGFKNGTDGSLATAINAMRAAAQPHRFVGINQAGQVALLQTQGNPDGHVILRGGKAPNYSPADVAQCEKEMEQAGLRPSLMVDCSHGNSNKDYRRQPAVAESVVAQIKDGNRSIIGLMIESNIHEGNQSSEQPRSEMKYGVSVTDACISWEMTDALLREIHQDLNGQLTARVA" "c" "Han et al., 2011" -"AROG-MONOMER" "MNYQNDDLRIKEIKELLPPVALLEKFPATENAANTVAHARKAIHKILKGNDDRLLVVIGPCSIHDPVAAKEYATRLLALREELKDELEIVMRVYFEKPRTTVGWKGLINDPHMDNSFQINDGLRIARKLLLDINDSGLPAAGEFLDMITPQYLADLMSWGAIGARTTESQVHRELASGLSCPVGFKNGTDGTIKVAIDAINAAGAPHCFLSVTKWGHSAIVNTSGNGDCHIILRGGKEPNYSAKHVAEVKEGLNKAGLPAQVMIDFSHANSSKQFKKQMDVCADVCQQIAGGEKAIIGVMVESHLVEGNQSLESGEPLAYGKSITDACIGWEDTDALLRQLANAVKARRG" "c" "Lopez-Campistrous et al., 2005" -"AROH-MONOMER" "MNRTDELRTARIESLVTPAELALRYPVTPGVATHVTDSRRRIEKILNGEDKRLLVIIGPCSIHDLTAAMEYATRLQSLRNQYQSRLEIVMRTYFEKPRTVVGWKGLISDPDLNGSYRVNHGLELARKLLLQVNELGVPTATEFLDMVTGQFIADLISWGAIGARTTESQIHREMASALSCPVGFKNGTDGNTRIAVDAIRAARASHMFLSPDKNGQMTIYQTSGNPYGHIIMRGGKKPNYHADDIAAACDTLHEFDLPEHLVVDFSHGNCQKQHRRQLEVCEDICQQIRNGSTAIAGIMAESFLREGTQKIVGSQPLTYGQSITDPCLGWEDTERLVEKLASAVDTRF" "c" "Han et al., 2011" -"AROK-MONOMER" "MAEKRNIFLVGPMGAGKSTIGRQLAQQLNMEFYDSDQEIEKRTGADVGWVFDLEGEEGFRDREEKVINELTEKQGIVLATGGGSVKSRETRNRLSARGVVVYLETTIEKQLARTQRDKKRPLLHVETPPREVLEALANERNPLYEEIADVTIRTDDQSAKVVANQIIHMLESN" "c" "Han et al., 2011" -"AROL-MONOMER" "MTQPLFLIGPRGCGKTTVGMALADSLNRRFVDTDQWLQSQLNMTVAEIVEREEWAGFRARETAALEAVTAPSTVIATGGGIILTEFNRHFMQNNGIVVYLCAPVSVLVNRLQAAPEEDLRPTLTGKPLSEEVQEVLEERDALYREVAHIIIDATNEPSQVISEIRSALAQTINC" "c" "Han et al., 2011" -"AROP-MONOMER" "MMEGQQHGEQLKRGLKNRHIQLIALGGAIGTGLFLGSASVIQSAGPGIILGYAIAGFIAFLIMRQLGEMVVEEPVAGSFSHFAYKYWGSFAGFASGWNYWVLYVLVAMAELTAVGKYIQFWYPEIPTWVSAAVFFVVINAINLTNVKVFGEMEFWFAIIKVIAVVAMIIFGGWLLFSGNGGPQATVSNLWDQGGFLPHGFTGLVMMMAIIMFSFGGLELVGITAAEADNPEQSIPKATNQVIYRILIFYIGSLAVLLSLMPWTRVTADTSPFVLIFHELGDTFVANALNIVVLTAALSVYNSCVYCNSRMLFGLAQQGNAPKALASVDKRGVPVNTILVSALVTALCVLINYLAPESAFGLLMALVVSALVINWAMISLAHMKFRRAKQEQGVVTRFPALLYPLGNWICLLFMAAVLVIMLMTPGMAISVYLIPVWLIVLGIGYLFKEKTAKAVKAH" "i" "Han et al., 2011" -"ARSF-MONOMER" "MLLAGAIFVLTIVLVIWQPKGLGIGWSATLGAVLALVTGVVHPGDIPVVWNIVWNATAAFIAVIIISLLLDESGFFEWAALHVSRWGNGRGRLLFTWIVLLGAAVAALFANDGAALILTPIVIAMLLALGFSKGTTLAFVMAAGFIADTASLPLIVSNLVNIVSADFFGLGFREYASVMVPVDIAAIVATLVMLHLYFRKDIPQNYDMALLKSPAEAIKDPATFKTGWVVLLLLLVGFFVLEPLGIPVSAIAAVGALILFVVAKRGHAINTGKVLRGAPWQIVIFSLGMYLVVYGLRNAGLTEYLSGVLNVLADNGLWAATLGTGFLTAFLSSIMNNMPTVLVGALSIDGSTASGVIKEAMVYANVIGCDLGPKITPIGSLATLLWLHVLSQKNMTISWGYYFRTGIIMTLPVLFVTLAALALRLSFTL" "i" "Han et al., 2011" -"ARTI-MONOMER" "MKKVLIAALIAGFSLSATAAETIRFATEASYPPFESIDANNQIVGFDVDLAQALCKEIDATCTFSNQAFDSLIPSLKFRRVEAVMAGMDITPEREKQVLFTTPYYDNSALFVGQQGKYTSVDQLKGKKVGVQNGTTHQKFIMDKHPEITTVPYDSYQNAKLDLQNGRIDGVFGDTAVVTEWLKDNPKLAAVGDKVTDKDYFGTGLGIAVRQGNTELQQKLNTALEKVKKDGTYETIYNKWFQK" "p" "Lopez-Campistrous et al., 2005" -"ARTJ-MONOMER" "MKKLVLAALLASFTFGASAAEKINFGVSATYPPFESIGANNEIVGFDIDLAKALCKQMQAECTFTNHAFDSLIPSLKFRKYDAVISGMDITPERSKQVSFTTPYYENSAVVIAKKDTYKTFADLKGKRIGMENGTTHQKYIQDQHPEVKTVSYDSYQNAFIDLKNGRIDGVFGDTAVVNEWLKTNPQLGVATEKVTDPQYFGTGLGIAVRPDNKALLEKLNNALAAIKADGTYQKISDQWFPQ" "p" "Han et al., 2011" -"ARTM-MONOMER" "MFEYLPELMKGLHTSLTLTVASLIVALILALIFTIILTLKTPVLVWLVRGYITLFTGTPLLVQIFLIYYGPGQFPTLQEYPALWHLLSEPWLCALIALSLNSAAYTTQLFYGAIRAIPEGQWQSCSALGMSKKDTLAILLPYAFKRSLSSYSNEVVLVFKSTSLAYTITLMEVMGYSQLLYGRTYDVMVFGAAGIIYLVVNGLLTLMMRLIERKALAFERRN" "i" "Han et al., 2011" -"ARTP-MONOMER" "MSIQLNGINCFYGAHQALFDITLDCPQGETLVLLGPSGAGKSSLLRVLNLLEMPRSGTLNIAGNHFDFTKTPSDKAIRDLRRNVGMVFQQYNLWPHLTVQQNLIEAPCRVLGLSKDQALARAEKLLERLRLKPYSDRYPLHLSGGQQQRVAIARALMMEPQVLLFDEPTAALDPEITAQIVSIIRELAETNITQVIVTHEVEVARKTASRVVYMENGHIVEQGDASCFTEPQTEAFKNYLSH" "i" "Lopez-Campistrous et al., 2005" -"ARTQ-MONOMER" "MNEFFPLASAAGMTVGLAVCALIVGLALAMFFAVWESAKWRPVAWAGSALVTILRGLPEILVVLFIYFGSSQLLLTLSDGFTINLGFVQIPVQMDIENFDVSPFLCGVIALSLLYAAYASQTLRGALKAVPVGQWESGQALGLSKSAIFFRLVMPQMWRHALPGLGNQWLVLLKDTALVSLISVNDLMLQTKSIATRTQEPFTWYIVAAAIYLVITLLSQYILKRIDLRATRFERRPS" "i" "Han et al., 2011" -"ARYLSULFAT-MONOMER" "MEFSFSPKRLVVAVAAALPLMASAADTPSTATARKGFAGYDHPNQYLVKPATTIADNMMPVMQHPAQDKETQQKLAELEKKTGKKPNVVVFLLDDVGWMDVGFNGGGVAVGNPTPDIDAVASQGLILTSAYSQPSSSPTRATILTGQYSIHHGILMPPMYGQPGGLQGLTTLPQLLHDQGYVTQAIGKWHMGENKESQPQNVGFDDFRGFNSVSDMYTEWRDVHVNPEVALSPDRSEYIKQLPFSKDDVHAVRGGEQQAIADITPKYMEDLDQRWMDYGVKFLDKMAKSDKPFFLYYGTRGCHFDNYPNAKYAGSSPARTSYGDCMVEMNDVFANLYKTLEKNGQLDNTLIVFTSDNGPEAEVPPHGRTPFRGAKGSTWEGGVRVPTFVYWKGMIQPRKSDGIVDLADLFPTALDLAGHPGAKVANLVPKTTFIDGVDQTSFFLGTNGQSNRKAEHYFLNGKLAAVRMDEFKYHVLIQQPYAYTQSGYQGGFTGTVMQTAGSSVFNLYTDPQESDSIGVRHIPMGVPLQTEMHAYMEILKKYPPRAQIKSD" "p" "Han et al., 2011" -"ASCF-MONOMER" "MAKNYAALARSVIAALGGVDNISAVTHCMTRLRFVIKDDALIDSPTLKTIPGVLGVVRSDNQCQVIIGNTVSQAFQEVVSLLPGDMQPAQPVGKPKLTLRRIGAGILDALIGTMSPLIPAIIGGSMVKLLAMILEMSGVLTKGSPTLTILNVIGDGAFFFLPLMVAASAAIKFKTNMSLAIAIAGVLVHPSFIELMAKAAQGEHVEFALIPVTAVKYTYTVIPALVMTWCLSYIERWVDSITPAVTKNFLKPMLIVLIAAPLAILLIGPIGIWIGSAISALVYTIHGYLGWLSVAIMGALWPLLVMTGMHRVFTPTIIQTIAETGKEGMVMPSEIGANLSLGGSSLAVAWKTKNPELRQTALAAAASAIMAGISEPALYGVAIRLKRPLIASLISGFICGAVAGMAGLASHSMAAPGLFTSVQFFDPANPMSIVWVFAVMALAVVLSFILTLLLGFEDIPVEEAAAQARKYQSVQPTVAKEVSLN" "i" "Han et al., 2011" -"ASL-MONOMER" "MELSSLTAVSPVDGRYGDKVSALRGIFSEYGLLKFRVQVEVRWLQKLAAHAAIKEVPAFAADAIGYLDAIVASFSEEDAARIKTIERTTNHDVKAVEYFLKEKVAEIPELHAVSEFIHFACTSEDINNLSHALMLKTARDEVILPYWRQLIDGIKDLAVQYRDIPLLSRTHGQPATPSTIGKEMANVAYRMERQYRQLNQVEILGKINGAVGNYNAHIAAYPEVDWHQFSEEFVTSLGIQWNPYTTQIEPHDYIAELFDCVARFNTILIDFDRDVWGYIALNHFKQKTIAGEIGSSTMPHKVNPIDFENSEGNLGLSNAVLQHLASKLPVSRWQRDLTDSTVLRNLGVGIGYALIAYQSTLKGVSKLEVNRDHLLDELDHNWEVLAEPIQTVMRRYGIEKPYEKLKELTRGKRVDAEGMKQFIDGLALPEEEKARLKAMTPANYIGRAITMVDELK" "c" "Lopez-Campistrous et al., 2005" -"ASNS-MONOMER" "MSVVPVADVLQGRVAVDSEVTVRGWVRTRRDSKAGISFLAVYDGSCFDPVQAVINNSLPNYNEDVLRLTTGCSVIVTGKVVASPGQGQQFEIQASKVEVAGWVEDPDTYPMAAKRHSIEYLREVAHLRPRTNLIGAVARVRHTLAQALHRFFNEQGFFWVSTPLITASDTEGAGEMFRVSTLDLENLPRNDQGKVDFDKDFFGKESFLTVSGQLNGETYACALSKIYTFGPTFRAENSNTSRHLAEFWMLEPEVAFANLNDIAGLAEAMLKYVFKAVLEERADDMKFFAERVDKDAVSRLERFIEADFAQVDYTDAVTILENCGRKFENPVYWGVDLSSEHERYLAEEHFKAPVVVKNYPKDIKAFYMRLNEDGKTVAAMDVLAPGIGEIIGGSQREERLDVLDERMLEMGLNKEDYWWYRDLRRYGTVPHSGFGLGFERLIAYVTGVQNVRDVIPFPRTPRNASF" "c" "Han et al., 2011" -"ASNSYNA-MONOMER" "MKTAYIAKQRQISFVKSHFSRQLEERLGLIEVQAPILSRVGDGTQDNLSGCEKAVQVKVKALPDAQFEVVHSLAKWKRQTLGQHDFSAGEGLYTHMKALRPDEDRLSPLHSVYVDQWDWERVMGDGERQFSTLKSTVEAIWAGIKATEAAVSEEFGLAPFLPDQIHFVHSQELLSRYPDLDAKGRERAIAKDLGAVFLVGIGGKLSDGHRHDVRAPDYDDWSTPSELGHAGLNGDILVWNPVLEDAFELSSMGIRVDADTLKHQLALTGDEDRLELEWHQALLRGEMPQTIGGGIGQSRLTMLLLQLPHIGQVQCGVWPAAVRESVPSLL" "c" "Han et al., 2011" -"ASNSYNB-MONOMER" "MCSIFGVFDIKTDAVELRKKALELSRLMRHRGPDWSGIYASDNAILAHERLSIVDVNAGAQPLYNQQKTHVLAVNGEIYNHQALRAEYGDRYQFQTGSDCEVILALYQEKGPEFLDDLQGMFAFALYDSEKDAYLIGRDHLGIIPLYMGYDEHGQLYVASEMKALVPVCRTIKEFPAGSYLWSQDGEIRSYYHRDWFDYDAVKDNVTDKNELRQALEDSVKSHLMSDVPYGVLLSGGLDSSIISAITKKYAARRVEDQERSEAWWPQLHSFAVGLPGSPDLKAAQEVANHLGTVHHEIHFTVQEGLDAIRDVIYHIETYDVTTIRASTPMYLMSRKIKAMGIKMVLSGEGSDEVFGGYLYFHKAPNAKELHEETVRKLLALHMYDCARANKAMSAWGVEARVPFLDKKFLDVAMRINPQDKMCGNGKMEKHILRECFEAYLPASVAWRQKEQFSDGVGYSWIDTLKEVAAQQVSDQQLETARFRFPYNTPTSKEAYLYREIFEELFPLPSAAECVPGGPSVACSSAKAIEWDEAFKKMDDPSGRAVGVHQSAYK" "c" "Han et al., 2011" -"ASP-SEMIALDEHYDE-DEHYDROGENASE-MONOMER" "MKNVGFIGWRGMVGSVLMQRMVEERDFDAIRPVFFSTSQLGQAAPSFGGTTGTLQDAFDLEALKALDIIVTCQGGDYTNEIYPKLRESGWQGYWIDAASSLRMKDDAIIILDPVNQDVITDGLNNGIRTFVGGNCTVSLMLMSLGGLFANDLVDWVSVATYQAASGGGARHMRELLTQMGHLYGHVADELATPSSAILDIERKVTTLTRSGELPVDNFGVPLAGSLIPWIDKQLDNGQSREEWKGQAETNKILNTSSVIPVDGLCVRVGALRCHSQAFTIKLKKDVSIPTVEELLAAHNPWAKVVPNDREITMRELTPAAVTGTLTTPVGRLRKLNMGPEFLSAFTVGDQLLWGAAEPLRRMLRQLA" "c" "Lopez-Campistrous et al., 2005" -"ASPAMINOTRANS-MONOMER" "MFENITAAPADPILGLADLFRADERPGKINLGIGVYKDETGKTPVLTSVKKAEQYLLENETTKNYLGIDGIPEFGRCTQELLFGKGSALINDKRARTAQTPGGTGALRVAADFLAKNTSVKRVWVSNPSWPNHKSVFNSAGLEVREYAYYDAENHTLDFDALINSLNEAQAGDVVLFHGCCHNPTGIDPTLEQWQTLAQLSVEKGWLPLFDFAYQGFARGLEEDAEGLRAFAAMHKELIVASSYSKNFGLYNERVGACTLVAADSETVDRAFSQMKAAIRANYSNPPAHGASVVATILSNDALRAIWEQELTDMRQRIQRMRQLFVNTLQEKGANRDFSFIIKQNGMFSFSGLTKEQVLRLREEFGVYAVASGRVNVAGMTPDNMAPLCEAIVAVL" "c" "Lopez-Campistrous et al., 2005 (location manually reset)" -"ASPARTASE-MONOMER" "MSNNIRIEEDLLGTREVPADAYYGVHTLRAIENFYISNNKISDIPEFVRGMVMVKKAAAMANKELQTIPKSVANAIIAACDEVLNNGKCMDQFPVDVYQGGAGTSVNMNTNEVLANIGLELMGHQKGEYQYLNPNDHVNKCQSTNDAYPTGFRIAVYSSLIKLVDAINQLREGFERKAVEFQDILKMGRTQLQDAVPMTLGQEFRAFSILLKEEVKNIQRTAELLLEVNLGATAIGTGLNTPKEYSPLAVKKLAEVTGFPCVPAEDLIEATSDCGAYVMVHGALKRLAVKMSKICNDLRLLSSGPRAGLNEINLPELQAGSSIMPAKVNPVVPEVVNQVCFKVIGNDTTVTMAAEAGQLQLNVMEPVIGQAMFESVHILTNACYNLLEKCINGITANKEVCEGYVYNSIGIVTYLNPFIGHHNGDIVGKICAETGKSVREVVLERGLLTEAELDDIFSVQNLMHPAYKAKRYTDESEQ" "c" "Han et al., 2011" -"ASPCARBCAT-MONOMER" "MANPLYQKHIISINDLSRDDLNLVLATAAKLKANPQPELLKHKVIASCFFEASTRTRLSFETSMHRLGASVVGFSDSANTSLGKKGETLADTISVISTYVDAIVMRHPQEGAARLATEFSGNVPVLNAGDGSNQHPTQTLLDLFTIQETQGRLDNLHVAMVGDLKYGRTVHSLTQALAKFDGNRFYFIAPDALAMPQYILDMLDEKGIAWSLHSSIEEVMAEVDILYMTRVQKERLDPSEYANVKAQFVLRASDLHNAKANMKVLHPLPRVDEIATDVDKTPHAWYFQQAGNGIFARQALLALVLNRDLVL" "c" "Lopez-Campistrous et al., 2005" -"ASPCARBREG-MONOMER" "MTHDNKLQVEAIKRGTVIDHIPAQIGFKLLSLFKLTETDQRITIGLNLPSGEMGRKDLIKIENTFLSEDQVDQLALYAPQATVNRIDNYEVVGKSRPSLPERIDNVLVCPNSNCISHAEPVSSSFAVRKRANDIALKCKYCEKEFSHNVVLAN" "c" "EcoCyc dump" -"ASPDECARBOX-MONOMER" "MIRTMLQGKLHRVKVTHADLHYEGSCAIDQDFLDAAGILENEAIDIWNVTNGKRFSTYAIAAERGSRIISVNGAAAHCASVGDIVIIASFVTMPDEEARTWRPNVAYFEGDNEMKRTAKAIPVQVA" "c" "Han et al., 2011" -"ASPKINIHOMOSERDEHYDROGI-MONOMER" "MRVLKFGGTSVANAERFLRVADILESNARQGQVATVLSAPAKITNHLVAMIEKTISGQDALPNISDAERIFAELLTGLAAAQPGFPLAQLKTFVDQEFAQIKHVLHGISLLGQCPDSINAALICRGEKMSIAIMAGVLEARGHNVTVIDPVEKLLAVGHYLESTVDIAESTRRIAASRIPADHMVLMAGFTAGNEKGELVVLGRNGSDYSAAVLAACLRADCCEIWTDVDGVYTCDPRQVPDARLLKSMSYQEAMELSYFGAKVLHPRTITPIAQFQIPCLIKNTGNPQAPGTLIGASRDEDELPVKGISNLNNMAMFSVSGPGMKGMVGMAARVFAAMSRARISVVLITQSSSEYSISFCVPQSDCVRAERAMQEEFYLELKEGLLEPLAVTERLAIISVVGDGMRTLRGISAKFFAALARANINIVAIAQGSSERSISVVVNNDDATTGVRVTHQMLFNTDQVIEVFVIGVGGVGGALLEQLKRQQSWLKNKHIDLRVCGVANSKALLTNVHGLNLENWQEELAQAKEPFNLGRLIRLVKEYHLLNPVIVDCTSSQAVADQYADFLREGFHVVTPNKKANTSSMDYYHQLRYAAEKSRRKFLYDTNVGAGLPVIENLQNLLNAGDELMKFSGILSGSLSYIFGKLDEGMSFSEATTLAREMGYTEPDPRDDLSGMDVARKLLILARETGRELELADIEIEPVLPAEFNAEGDVAAFMANLSQLDDLFAARVAKARDEGKVLRYVGNIDEDGVCRVKIAEVDGNDPLFKVKNGENALAFYSHYYQPLPLVLRGYGAGNDVTAAGVFADLLRTLSWKLGV" "c" "EcoCyc dump" -"ASPKINIIHOMOSERDEHYDROGII-MONOMER" "MSVIAQAGAKGRQLHKFGGSSLADVKCYLRVAGIMAEYSQPDDMMVVSAAGSTTNQLINWLKLSQTDRLSAHQVQQTLRRYQCDLISGLLPAEEADSLISAFVSDLERLAALLDSGINDAVYAEVVGHGEVWSARLMSAVLNQQGLPAAWLDAREFLRAERAAQPQVDEGLSYPLLQQLLVQHPGKRLVVTGFISRNNAGETVLLGRNGSDYSATQIGALAGVSRVTIWSDVAGVYSADPRKVKDACLLPLLRLDEASELARLAAPVLHARTLQPVSGSEIDLQLRCSYTPDQGSTRIERVLASGTGARIVTSHDDVCLIEFQVPASQDFKLAHKEIDQILKRAQVRPLAVGVHNDRQLLQFCYTSEVADSALKILDEAGLPGELRLRQGLALVAMVGAGVTRNPLHCHRFWQQLKGQPVEFTWQSDDGISLVAVLRTGPTESLIQGLHQSVFRAEKRIGLVLFGKGNIGSRWLELFAREQSTLSARTGFEFVLAGVVDSRRSLLSYDGLDASRALAFFNDEAVEQDEESLFLWMRAHPYDDLVVLDVTASQQLADQYLDFASHGFHVISANKLAGASDSNKYRQIHDAFEKTGRHWLYNATVGAGLPINHTVRDLIDSGDTILSISGIFSGTLSWLFLQFDGSVPFTELVDQAWQQGLTEPDPRDDLSGKDVMRKLVILAREAGYNIEPDQVRVESLVPAHCEGGSIDHFFENGDELNEQMVQRLEAAREMGLVLRYVARFDANGKARVGVEAVREDHPLASLLPCDNVFAIESRWYRDNPLVIRGPGAGRDVTAGAIQSDINRLAQLL" "c" "Han et al., 2011" -"ASPKINIII-MONOMER" "MSEIVVSKFGGTSVADFDAMNRSADIVLSDANVRLVVLSASAGITNLLVALAEGLEPGERFEKLDAIRNIQFAILERLRYPNVIREEIERLLENITVLAEAAALATSPALTDELVSHGELMSTLLFVEILRERDVQAQWFDVRKVMRTNDRFGRAEPDIAALAELAALQLLPRLNEGLVITQGFIGSENKGRTTTLGRGGSDYTAALLAEALHASRVDIWTDVPGIYTTDPRVVSAAKRIDEIAFAEAAEMATFGAKVLHPATLLPAVRSDIPVFVGSSKDPRAGGTLVCNKTENPPLFRALALRRNQTLLTLHSLNMLHSRGFLAEVFGILARHNISVDLITTSEVSVALTLDTTGSTSTGDTLLTQSLLMELSALCRVEVEEGLALVALIGNDLSKACGVGKEVFGVLEPFNIRMICYGASSHNLCFLVPGEDAEQVVQKLHSNLFE" "c" "Han et al., 2011" -"ASPS-MONOMER" "MRTEYCGQLRLSHVGQQVTLCGWVNRRRDLGSLIFIDMRDREGIVQVFFDPDRADALKLASELRNEFCIQVTGTVRARDEKNINRDMATGEIEVLASSLTIINRADVLPLDSNHVNTEEARLKYRYLDLRRPEMAQRLKTRAKITSLVRRFMDDHGFLDIETPMLTKATPEGARDYLVPSRVHKGKFYALPQSPQLFKQLLMMSGFDRYYQIVKCFRDEDLRADRQPEFTQIDVETSFMTAPQVREVMEALVRHLWLEVKGVDLGDFPVMTFAEAERRYGSDKPDLRNPMELTDVADLLKSVEFAVFAGPANDPKGRVAALRVPGGASLTRKQIDEYGNFVKIYGAKGLAYIKVNERAKGLEGINSPVAKFLNAEIIEDILDRTAAQDGDMIFFGADNKKIVADAMGALRLKVGKDLGLTDESKWAPLWVIDFPMFEDDGEGGLTAMHHPFTSPKDMTAAELKAAPENAVANAYDMVINGYEVGGGSVRIHNGDMQQTVFGILGINEEEQREKFGFLLDALKYGTPPHAGLAFGLDRLTMLLTGTDNIRDVIAFPKTTAAACLMTEAPSFANPTALAELSIQVVKKAENN" "c" "Han et al., 2011" -"ATOA-MONOMER" "MDAKQRIARRVAQELRDGDIVNLGIGLPTMVANYLPEGIHITLQSENGFLGLGPVTTAHPDLVNAGGQPCGVLPGAAMFDSAMSFALIRGGHIDACVLGGLQVDEEANLANWVVPGKMVPGMGGAMDLVTGSRKVIIAMEHCAKDGSAKILRRCTMPLTAQHAVHMLVTELAVFRFIDGKMWLTEIADGCDLATVRAKTEARFEVAADLNTQRGDL" "c" "Han et al., 2011" -"ATOC-MONOMER" "MTAINRILIVDDEDNVRRMLSTAFALQGFETHCANNGRTALHLFADIHPDVVLMDIRMPEMDGIKALKEMRSHETRTPVILMTAYAEVETAVEALRCGAFDYVIKPFDLDELNLIVQRALQLQSMKKEIRHLHQALSTSWQWGHILTNSPAMMDICKDTAKIALSQASVLISGESGTGKELIARAIHYNSRRAKGPFIKVNCAALPESLLESELFGHEKGAFTGAQTLRQGLFERANEGTLLLDEIGEMPLVLQAKLLRILQEREFERIGGHQTIKVDIRIIAATNRDLQAMVKEGTFREDLFYRLNVIHLILPPLRDRREDISLLANHFLQKFSSENQRDIIDIDPMAMSLLTAWSWPGNIRELSNVIERAVVMNSGPIIFSEDLPPQIRQPVCNAGEVKTAPVGERNLKEEIKRVEKRIIMEVLEQQEGNRTRTALMLGISRRALMYKLQEYGIDPADV" "c" "Han et al., 2011" -"ATOD-MONOMER" "MKTKLMTLQDATGFFRDGMTIMVGGFMGIGTPSRLVEALLESGVRDLTLIANDTAFVDTGIGPLIVNGRVRKVIASHIGTNPETGRRMISGEMDVVLVPQGTLIEQIRCGGAGLGGFLTPTGVGTVVEEGKQTLTLDGKTWLLERPLRADLALIRAHRCDTLGNLTYQLSARNFNPLIALAADITLVEPDELVETGELQPDHIVTPGAVIDHIIVSQESK" "c" "EcoCyc dump" -"ATOS-MONOMER" "MHYMKWIYPRRLRNQMILMAILMVIVPTLTIGYIVETEGRSAVLSEKEKKLSAVVNLLNQALGDRYDLYIDLPREERIRALNAELAPITENITHAFPGIGAGYYNKMLDAIITYAPSALYQNNVGVTIAADHPGREVMRTNTPLVYSGRQVRGDILNSMLPIERNGEILGYIWANELTEDIRRQAWKMDVRIIIVLTAGLLISLLLIVLFSRRLSANIDIITDGLSTLAQNIPTRLPQLPGEMGQISQSVNNLAQALRETRTLNDLIIENAADGVIAIDRQGDVTTMNPAAEVITGYQRHELVGQPYSMLFDNTQFYSPVLDTLEHGTEHVALEISFPGRDRTIELSVTTSRIHNTHGEMIGALVIFSDLTARKETQRRMAQAERLATLGELMAGVAHEVRNPLTAIRGYVQILRQQTSDPIHQEYLSVVLKEIDSINKVIQQLLEFSRPRHSQWQQVSLNALVEETLVLVQTAGVQARVDFISELDNELSPINADRELLKQVLLNILINAVQAISARGKIRIQTWQYSDSQQAISIEDNGCGIDLSLQKKIFDPFFTTKASGTGLGLALSQRIINAHQGDIRVASLPGYGATFTLILPINPQGNQTV" "i" "Han et al., 2011" -"ATPA-MONOMER" "MQLNSTEISELIKQRIAQFNVVSEAHNEGTIVSVSDGVIRIHGLADCMQGEMISLPGNRYAIALNLERDSVGAVVMGPYADLAEGMKVKCTGRILEVPVGRGLLGRVVNTLGAPIDGKGPLDHDGFSAVEAIAPGVIERQSVDQPVQTGYKAVDSMIPIGRGQRELIIGDRQTGKTALAIDAIINQRDSGIKCIYVAIGQKASTISNVVRKLEEHGALANTIVVVATASESAALQYLAPYAGCAMGEYFRDRGEDALIIYDDLSKQAVAYRQISLLLRRPPGREAFPGDVFYLHSRLLERAARVNAEYVEAFTKGEVKGKTGSLTALPIIETQAGDVSAFVPTNVISITDGQIFLETNLFNAGIRPAVNPGISVSRVGGAAQTKIMKKLSGGIRTALAQYRELAAFSQFASDLDDATRKQLDHGQKVTELLKQKQYAPMSVAQQSLVLFAAERGYLADVELSKIGSFEAALLAYVDRDHAPLMQEINQTGGYNDEIEGKLKGILDSFKATQSW" "i" "Lopez-Campistrous et al., 2005" -"ATPB-MONOMER" "MASENMTPQDYIGHHLNNLQLDLRTFSLVDPQNPPATFWTINIDSMFFSVVLGLLFLVLFRSVAKKATSGVPGKFQTAIELVIGFVNGSVKDMYHGKSKLIAPLALTIFVWVFLMNLMDLLPIDLLPYIAEHVLGLPALRVVPSADVNVTLSMALGVFILILFYSIKMKGIGGFTKELTLQPFNHWAFIPVNLILEGVSLLSKPVSLGLRLFGNMYAGELIFILIAGLLPWWSQWILNVPWAIFHILIITLQAFIFMVLTIVYLSMASEEH" "i" "Han et al., 2011" -"ATPC-MONOMER" "MAMTYHLDVVSAEQQMFSGLVEKIQVTGSEGELGIYPGHAPLLTAIKPGMIRIVKQHGHEEFIYLSGGILEVQPGNVTVLADTAIRGQDLDEARAMEAKRKAEEHISSSHGDVDYAQASAELAKAIAQLRVIELTKKAM" "i" "EcoCyc dump" -"ATPD-MONOMER" "MATGKIVQVIGAVVDVEFPQDAVPRVYDALEVQNGNERLVLEVQQQLGGGIVRTIAMGSSDGLRRGLDVKDLEHPIEVPVGKATLGRIMNVLGEPVDMKGEIGEEERWAIHRAAPSYEELSNSQELLETGIKVIDLMCPFAKGGKVGLFGGAGVGKTVNMMELIRNIAIEHSGYSVFAGVGERTREGNDFYHEMTDSNVIDKVSLVYGQMNEPPGNRLRVALTGLTMAEKFRDEGRDVLLFVDNIYRYTLAGTEVSALLGRMPSAVGYQPTLAEEMGVLQERITSTKTGSITSVQAVYVPADDLTDPSPATTFAHLDATVVLSRQIASLGIYPAVDPLDSTSRQLDPLVVGQEHYDTARGVQSILQRYQELKDIIAILGMDELSEEDKLVVARARKIQRFLSQPFFVAEVFTGSPGKYVSLKDTIRGFKGIMEGEYDHLPEQAFYMVGSIEEAVEKAKKL" "i" "Lopez-Campistrous et al., 2005" -"ATPE-MONOMER" "MENLNMDLLYMAAAVMMGLAAIGAAIGIGILGGKFLEGAARQPDLIPLLRTQFFIVMGLVDAIPMIAVGLGLYVMFAVA" "i" "Han et al., 2011" -"ATPF-MONOMER" "VNLNATILGQAIAFVLFVLFCMKYVWPPLMAAIEKRQKEIADGLASAERAHKDLDLAKASATDQLKKAKAEAQVIIEQANKRRSQILDEAKAEAEQERTKIVAQAQAEIEAERKRAREELRKQVAILAVAGAEKIIERSVDEAANSDIVDKLVAEL" "i" "Han et al., 2011" -"ATPG-MONOMER" "MAGAKEIRSKIASVQNTQKITKAMEMVAASKMRKSQDRMAASRPYAETMRKVIGHLAHGNLEYKHPYLEDRDVKRVGYLVVSTDRGLCGGLNINLFKKLLAEMKTWTDKGVQCDLAMIGSKGVSFFNSVGGNVVAQVTGMGDNPSLSELIGPVKVMLQAYDEGRLDKLYIVSNKFINTMSQVPTISQLLPLPASDDDDLKHKSWDYLYEPDPKALLDTLLRRYVESQVYQGVVENLASEQAARMVAMKAATDNGGSLIKELQLVYNKARQASITQELTEIVSGAAAV" "i" "EcoCyc dump" -"ATPH-MONOMER" "MSEFITVARPYAKAAFDFAVEHQSVERWQDMLAFAAEVTKNEQMAELLSGALAPETLAESFIAVCGEQLDENGQNLIRVMAENGRLNALPDVLEQFIHLRAVSEATAEVDVISAAALSEQQLAKISAAMEKRLSRKVKLNCKIDKSVMAGVIIRAGDMVIDGSVRGRLERLADVLQS" "i" "EcoCyc dump" -"ATPPHOSRIBOSTRANS-MONOMER" "MTDNTRLRIAMQKSGRLSDDSRELLARCGIKINLHTQRLIAMAENMPIDILRVRDDDIPGLVMDGVVDLGIIGENVLEEELLNRRAQGEDPRYFTLRRLDFGGCRLSLATPVDEAWDGPLSLNGKRIATSYPHLLKRYLDQKGISFKSCLLNGSVEVAPRAGLADAICDLVSTGATLEANGLREVEVIYRSKACLIQRDGEMEESKQQLIDKLLTRIQGVIQARESKYIMMHAPTERLDEVIALLPGAERPTILPLAGDQQRVAMHMVSSETLFWETMEKLKALGASSILVLPIEKMME" "c" "Lopez-Campistrous et al., 2005" -"B0070-MONOMER" "MIWIMTMARRMNGVYAAFMLVAFMMGVAGALQAPTLSLFLSREVGAQPFWIGLFYTVNAIAGIGVSLWLAKRSDSQGDRRKLIIFCCLMAIGNALLFAFNRHYLTLITCGVLLASLANTAMPQLFALAREYADNSAREVVMFSSVMRAQLSLAWVIGPPLAFMLALNYGFTVMFSIAAGIFTLSLVLIAFMLPSVARVELPSENALSMQGGWQDSNVRMLFVASTLMWTCNTMYIIDMPLWISSELGLPDKLAGFLMGTAAGLEIPAMILAGYYVKRYGKRRMMVIAVAAGVLFYTGLIFFNSRMALMTLQLFNAVFIGIVAGIGMLWFQDLMPGRAGAATTLFTNSISTGVILAGVIQGAIAQSWGHFAVYWVIAVISVVALFLTAKVKDV" "i" "Han et al., 2011" -"B0260-MONOMER" "MQTTQQNAPLKRTMKTRHLIMLSLGGVIGTGLFFNTGYIISTTGAAGTLLAYLIGALVVWLVMQCLGELSVAMPETGAFHVYAARYLGPATGYTVAWLYWLTWTVALGSSFTAAGFCMQYWFPQVPVWVWCVVFCAIIFGLNVISTRFFAEGEFWFSLVKVVTIIAFIILGGAAIFGFIPMQDGSPAPGLSNITAEGWFPHGGLPILMTMVAVNFAFSGTELIGIAAGETENPRKVIPVAIRTTIARLIIFFIGTVFVLAALIPMQQVGVEKSPFVLVFEKVGIPYAADIFNFVILTAILSAANSGLYASGRMLWSLSNERTLPACFARVTKNGVPLTALSVSMLGGVLALFSSVVAPDTVFVALSAISGFAVVAVWLSICASHFVFRRRHLQQGKALSELHYRAPWYPLVPVLGFVLCLVACVGLAFDPAQRIALWCGLPFVALCYGAYFLTQPRNAKQEPEHVAE" "i" "Unambiguous EcoCyc data" -"B0270-MONOMER" "MTQLTMKDKIGYGLGDTACGFVWQATMFLLAYFYTDVFGLSAGIMGTLFLVSRVLDAVTDPLMGLLVDRTRTRHGQFRPFLLWGAIPFGIVCVLTFYTPDFSAQGKIIYACVTYILLTLVYTFVNVPYCAMPGVITADPKERHALQSWRFFLAAAGSLAISGIALPLVSIIGKGDEQVGYFGAMCVLGLSGVVLLYVCFFTTKERYTFEVQPGSSVAKDLKLLLGNSQWRIMCAFKMMATCSNVVRGGATLYFVKYVMDHPELATQFLLYGSLATMFGSLCSSRLLGRFDRVTAFKWIIVAYSLISLLIFVTPAEHIALIFALNILFLFVFNTTTPLQWLMASDVVDYEESRSGRRLDGLVFSTYLFSLKIGLAIGGAVVGWILAYVNYSASSSVQPVEVLTTIKILFCVVPVVLYAGMFIMLSLYKLTDARVEAISRQLIKHRAAQGEAVPDAATAASH" "i" "Unambiguous EcoCyc data" -"B0427-MONOMER" "MNDYKMTPGERRATWGLGTVFSLRMLGMFMVLPVLTTYGMALQGASEALIGIAIGIYGLTQAVFQIPFGLLSDRIGRKPLIVGGLAVFAAGSVIAALSDSIWGIILGRALQGSGAIAAAVMALLSDLTREQNRTKAMAFIGVSFGITFAIAMVLGPIITHKLGLHALFWMIAILATTGIALTIWVVPNSSTHVLNRESGMVKGSFSKVLAEPRLLKLNFGIMCLHILLMSTFVALPGQLADAGFPAAEHWKVYLATMLIAFGSVVPFIIYAEVKRKMKQVFVFCVGLIVVAEIVLWNAQTQFWQLVVGVQLFFVAFNLMEALLPSLISKESPAGYKGTAMGVYSTSQFLGVAIGGSLGGWINGMFDGQGVFLAGAMLAAVWLTVASTMKEPPYVSSLRIEIPANIAANEALKVRLLETEGIKEVLIAEEEHSAYVKIDSKVTNRFEIEQAIRQA" "i" "Han et al., 2011" -"B0486-MONOMER" "MMNTEGNNGNKPLGLWNVVSIGIGAMVGAGIFALLGQAALLMEASTWVAFAFGGIVAMFSGYAYARLGASYPSNGGIIDFFRRGLGNGVFSLALSLLYLLTLAVSIAMVARAFGAYAVQFLHEGSQEEHLILLYALGIIAVMTLFNSLSNHAVGRLEVILVGIKMMILLLLIIAGVWSLQPAHISVSAPPSSGAFFSCIGITFLAYAGFGMMANAADKVKDPQVIMPRAFLVAIGVTTLLYISLALVLLSDVSALELEKYADTAVAQAASPLLGHVGYVIVVIGALLATASAINANLFAVFNIMDNMGSERELPKLMNKSLWRQSTWGNIIVVVLIMLMTAALNLGSLASVASATFLICYLAVFVVAIRLRHDIHASLPILIVGTLVMLLVIVGFIYSLWSQGSRALIWIIGSLLLSLIVAMVMKRNKTV" "i" "Han et al., 2011" -"B0511-MONOMER" "MEHQRKLFQQRGYSEDLLPKTQSQRTWKTFNYFTLWMGSVHNVPNYVMVGGFFILGLSTFSIMLAIILSAFFIAAVMVLNGAAGSKYGVPFAMILRASYGVRGALFPGLLRGGIAAIMWFGLQCYAGSLACLILIGKIWPGFLTLGGDFTLLGLSLPGLITFLIFWLVNVGIGFGGGKVLNKFTAILNPCIYIVFGGMAIWAISLVGIGPIFDYIPSGIQKAENGGFLFLVVINAVVAVWAAPAVSASDFTQNAHSFREQALGQTLGLVVAYILFAVAGVCIIAGASIHYGADTWNVLDIVQRWDSLFASFFAVLVILMTTISTNATGNIIPAGYQIAAIAPTKLTYKNGVLIASIISLLICPWKLMENQDSIYLFLDIIGGMLGPVIGVMMAHYFVVMRGQINLDELYTAPGDYKYYDNGFNLTAFSVTLVAVILSLGGKFIHFMEPLSRVSWFVGVIVAFAAYALLKKRTTAEKTGEQKTIG" "i" "Han et al., 2011" -"B0612-MONOMER" "MSLAKDNIWKLLAPLVVMGVMFLIPVPDGMPPQAWHYFAVFVAMIVGMILEPIPATAISFIAVTICVIGSNYLLFDAKELADPAFNAQKQALKWGLAGFSSTTVWLVFGAFIFALGYEVSGLGRRIALFLVKFMGKRTLTLGYAIVIIDILLAPFTPSNTARTGGTVFPVIKNLPPLFKSFPNDPSARRIGGYLMWMMVISTSLSSSMFVTGAAPNVLGLEFVSKIAGIQISWLQWFLCFLPVGVILLIIAPWLSYVLYKPEITHSEEVATWAGDELKTMGALTRREWTLIGLVLLSLGLWVFGSEVINATAVGLLAVSLMLALHVVPWKDITRYNSAWNTLVNLATLVVMANGLTRSGFIDWFAGTMSTHLEGFSPNATVIVLVLVFYFAHYLFASLSAHTATMLPVILAVGKGIPGVPMEQLCILLVLSIGIMGCLTPYATGPGVIIYGCGYVKSKDYWRLGAIFGVIYISMLLLVGWPILAMWN" "i" "Han et al., 2011" -"B0709-MONOMER" "MNKHASQPRAIYYVVALQIWEYFSFYGMRALLILYLTNQLKYNDTHAYELFSAYCSLVYVTPILGGFLADKVLGNRMAVMLGALLMAIGHVVLGASEIHPSFLYLSLAIIVCGYGLFKSNVSCLLGELYEPTDPRRDGGFSLMYAAGNVGSIIAPIACGYAQEEYSWAMGFGLAAVGMIAGLVIFLCGNRHFTHTRGVNKKVLRATNFLLPNWGWLLVLLVATPALITILFWKEWSVYALIVATIIGLGVLAKIYRKAENQKQRKELGLIVTLTFFSMLFWAFAQQGGSSISLYIDRFVNRDMFGYTVPTAMFQSINAFAVMLCGVFLAWVVKESVAGNRTVRIWGKFALGLGLMSAGFCILTLSARWSAMYGHSSLPLMVLGLAVMGFAELFIDPVAMSQITRIEIPGVTGVLTGIYMLLSGAIANYLAGVIADQTSQASFDASGAINYSINAYIEVFDQITWGALACVGLVLMIWLYQALKFRNRALALES" "i" "Han et al., 2011" -"B0752-MONOMER" "MAHSHSHTSSHLPEDNNARRLLYAFGVTAGFMLVEVVGGFLSGSLALLADAGHMLTDTAALLFALLAVQFSRRPPTIRHTFGWLRLTTLAAFVNAIALVVITILIVWEAIERFRTPRPVEGGMMMAIAVAGLLANILSFWLLHHGSEEKNLNVRAAALHVLGDLLGSVGAIIAALIIIWTGWTPADPILSILVSLLVLRSAWRLLKDSVNELLEGAPVSLDIAELKRRMCREIPEVRNVHHVHVWMVGEKPVMTLHVQVIPPHDHDALLDQIQHYLMDHYQIEHATIQMEYQPCHGPDCHLNEGVSGHSHHHH" "i" "Han et al., 2011" -"B0770-MONOMER" "MNKKSLWKLILILAIPCIIGFMPAPAGLSELAWVLFGIYLAAIVGLVIKPFPEPVVLLIAVAASMVVVGNLSDGAFKTTAVLSGYSSGTTWLVFSAFTLSAAFVTTGLGKRIAYLLIGKIGNTTLGLGYVTVFLDLVLAPATPSNTARAGGIVLPIINSVAVALGSEPEKSPRRVGHYLMMSIYMVTKTTSYMFFTAMAGNILALKMINDILHLQISWGGWALAAGLPGIIMLLVTPLVIYTMYPPEIKKVDNKTIAKAGLAELGPMKIREKMLLGVFVLALLGWIFSKSLGVDESTVAIVVMATMLLLGIVTWEDVVKNKGGWNTLIWYGGIIGLSSLLSKVKFFEWLAEVFKNNLAFDGHGNVAFFVIIFLSIIVRYFFASGSAYIVAMLPVFAMLANVSGAPLMLTALALLFSNSYGGMVTHYGGAAGPVIFGVGYNDIKSWWLVGAVLTILTFLVHITLGVWWWNMLIGWNML" "i" "Han et al., 2011" -"B0899-MONOMER" "MFNRPNRNDVDDGVQDIQNDVNQLADSLESVLKSWGSDAKGEAEAARSKAQALLKETRARMHGRTRVQQAARDAVGCADSFVRERPWCSVGTAAAVGIFIGALLSMRKS" "c" "Han et al., 2011" -"B1006-MONOMER" "MAMFGFPHWQLKSTSTESGVVAPDERLPFAQTAVMGVQHAVAMFGATVLMPILMGLDPNLSILMSGIGTLLFFFITGGRVPSYLGSSAAFVGVVIAATGFNGQGINPNISIALGGIIACGLVYTVIGLVVMKIGTRWIERLMPPVVTGAVVMAIGLNLAPIAVKSVSASAFDSWMAVMTVLCIGLVAVFTRGMIQRLLILVGLIVACLLYGVMTNVLGLGKAVDFTLVSHAAWFGLPHFSTPAFNGQAMMLIAPVAVILVAENLGHLKAVAGMTGRNMDPYMGRAFVGDGLATMLSGSVGGSGVTTYAENIGVMAVTKVYSTLVFVAAAVIAMLLGFSPKFGALIHTIPAAVIGGASIVVFGLIAVAGARIWVQNRVDLSQNGNLIMVAVTLVLGAGDFALTLGGFTLGGIGTATFGAILLNALLSRKLVDVPPPEVVHQEP" "i" "Han et al., 2011" -"B1065-MONOMER" "MSRVSQARNLGKYFLLIDNMLVVLGFFVVFPLISIRFVDQMGWAAVMVGIALGLRQFIQQGLGIFGGAIADRFGAKPMIVTGMLMRAAGFATMGIAHEPWLLWFSCLLSGLGGTLFDPPRSALVVKLIRPQQRGRFFSLLMMQDSAGAVIGALLGSWLLQYDFRLVCATGAVLFVLCAAFNAWLLPAWKLSTVRTPVREGMTRVMRDKRFVTYVLTLAGYYMLAVQVMLMLPIMVNDVAGAPSAVKWMYAIEACLSLTLLYPIARWSEKHFRLEHRLMAGLLIMSLSMMPVGMVSGLQQLFTLICLFYIGSIIAEPARETLSASLADARARGSYMGFSRLGLAIGGAIGYIGGGWLFDLGKSAHQPELPWMMLGIIGIFTFLALGWQFSQKRAARRLLERDA" "i" "Han et al., 2011" -"B1296-MONOMER" "MAINSPLNIAAQPGKTRLRKSLKLWQVVMMGLAYLTPMTVFDTFGIVSGISDGHVPASYLLALAGVLFTAISYGKLVRQFPEAGSAYTYAQKSINPHVGFMVGWSSLLDYLFLPMINVLLAKIYLSALFPEVPPWVWVVTFVAILTAANLKSVNLVANFNTLFVLVQISIMVVFIFLVVQGLHKGEGVGTVWSLQPFISENAHLIPIITGATIVCFSFLGFDAVTTLSEETPDAARVIPKAIFLTAVYGGVIFIAASFFMQLFFPDISRFKDPDAALPEIALYVGGKLFQSIFLCTTFVNTLASGLASHASVSRLLYVMGRDNVFPERVFGYVHPKWRTPALNVIMVGIVALSALFFDLVTATALINFGALVAFTFVNLSVFNHFWRRKGMNKSWKDHFHYLLMPLVGALTVGVLWVNLESTSLTLGLVWASLGGAYLWYLIRRYRKVPLYDGDRTPVSET" "i" "Han et al., 2011" -"B1433-MONOMER" "MRLFSIPPPTLLAGFLAVLIGYASSAAIIWQAAIVAGATTAQISGWMTALGLAMGVSTLTLTLWYRVPVLTAWSTPGAALLVTGLQGLTLNEAIGVFIVTNALIVLCGITGLFARLMRIIPHSLAAAMLAGILLRFGLQAFASLDGQFTLCGSMLLVWLATKAVAPRYAVIAAMIIGIVIVIAQGDVVTTDVVFKPVLPTYITPDFSFAHSLSVALPLFLVTMASQNAPGIAAMKAAGYSAPVSPLIVFTGLLALVFSPFGVYSVGIAAITAAICQSPEAHPDKDQRWLAAAVAGIFYLLAGLFGSAITGMMAALPVSWIQMLAGLALLSTIGGSLYQALHNERERDAAVVAFLVTASGLTLVGIGSAFWGLIAGGVCYVVLNLIADRNRY" "i" "Han et al., 2011" -"B1543-MONOMER" "MDFQLYSLGAALVFHEIFFPESSTAMALILAMGTYGAGYVARIVGAFIFGKMGDRIGRKKVLFITITMMGICTTLIGVLPTYAQIGVFAPILLVTLRIIQGLGAGAEISGAGTMLAEYAPKGKRGIISSFVAMGTNCGTLSATAIWAFMFFILSKEELLAWGWRIPFLASVVVMVFAIWLRMNLKESPVFEKVNDSNQPTAKPAPAGSMFQSKSFWLATGLRFGQAGNSGLIQTFLAGYLVQTLLFNKAIPTDALMISSILGFMTIPFLGWLSDKIGRRIPYIIMNTSAIVLAWPMLSIIVDKSYAPSTIMVALIVIHNCAVLGLFALENITMAEMFGCKNRFTRMAISKEIGGLIASGFGPILAGIFCTMTESWYPIAIMIMAYSVIGLISALKMPEVKDRDLSALEDAAEDQPRVVRAAQPSRSL" "i" "Han et al., 2011" -"B1596-MONOMER" "VSRTTTVDGAPASDTDKQSISQPNQFIKRGTPQFMRVTLALFSAGLATFALLYCVQPILPVLSQEFGLTPANSSISLSISTAMLAIGLLFTGPLSDAIGRKPVMVTALLLASICTLLSTMMTSWHGILIMRALIGLSLSGVAAVGMTYLSEEIHPSFVAFSMGLYISGNSIGGMSGRLISGVFTDFFNWRIALAAIGCFALASALMFWKILPESRHFRPTSLRPKTLFINFRLHWRDRGLPLLFAEGFLLMGSFVTLFNYIGYRLMLSPWHVSQAVVGLLSLAYLTGTWSSPKAGTMTTRYGRGPVMLFSTGVMLFGLLMTLFSSLWLIFAGMLLFSAGFFAAHSVASSWIGPRAKRAKGQASSLYLFSYYLGSSIAGTLGGVFWHNYGWNGVGAFIALMLVIALLVGTRLHRRLHA" "i" "Han et al., 2011" -"B1599-MONOMER" "MAQFEWVHAAWLALAIVLEIVANVFLKFSDGFRRKIFGLLSLAAVLAAFSALSQAVKGIDLSVAYALWGGFGIAATLAAGWILFGQRLNRKGWIGLVLLLAGMIMVKLA" "i" "Han et al., 2011" -"B1600-MONOMER" "MYIYWILLGLAIATEITGTLSMKWASVSEGNGGFILMLVMISLSYIFLSFAVKKIALGVAYALWEGIGILFITLFSVLLFDESLSLMKIAGLTTLVAGIVLIKSGTRKARKPELEVNHGAV" "i" "Han et al., 2011" -"B1634-MONOMER" "VSTANQKPTESVSLNAFKQPKAFYLIFSIELWERFGYYGLQGIMAVYLVKQLGMSEADSITLFSSFSALVYGLVAIGGWLGDKVLGTKRVIMLGAIVLAIGYALVAWSGHDAGIVYMGMAAIAVGNGLFKANPSSLLSTCYEKNDPRLDGAFTMYYMSVNIGSFFSMIATPWLAAKYGWSVAFALSVVGLLITIVNFAFCQRWVKQYGSKPDFEPINYRNLLLTIIGVVALIAIATWLLHNQEVARMALGVVAFGIVVIFGKEAFAMKGAARRKMIVAFILMLEAIIFFVLYSQMPTSLNFFAIRNVEHSILGLAVEPEQYQALNPFWIIIGSPILAAIYNKMGDTLPMPTKFAIGMVMCSGAFLILPLGAKFASDAGIVSVSWLVASYGLQSIGELMISGLGLAMVAQLVPQRLMGFIMGSWFLTTAGANLIGGYVAGMMAVPDNVTDPLMSLEVYGRVFLQIGVATAVIAVLMLLTAPKLHRMTQDDAADKAAKAAVA" "i" "Han et al., 2011" -"B1657-MONOMER" "MKINYPLLALAIGAFGIGTTEFSPMGLLPVIARGVDVSIPAAGMLISAYAVGVMVGAPLMTLLLSHRARRSALIFLMAIFTLGNVLSAIAPDYMTLMLSRILTSLNHGAFFGLGSVVAASVVPKHKQASAVATMFMGLTLANIGGVPAATWLGETIGWRMSFLATAGLGVISMVSLFFSLPKGGAGARPEVKKELAVLMRPQVLSALLTTVLGAGAMFTLYTYISPVLQSITHATPVFVTAMLVLIGVGFSIGNYLGGKLADRSVNGTLKGFLLLLMVIMLAIPFLARNEFGAAISMVVWGAATFAVVPPLQMRVMRVASEAPGLSSSVNIGAFNLGNALGAAAGGAVISAGLGYSFVPVMGAIVAGLALLLVFMSARKQPETVCVANS" "i" "Han et al., 2011" -"B1690-MONOMER" "MKNPYFPTALGLYFNYLVHGMGVLLMSLNMASLETLWQTNAAGVSIVISSLGIGRLSVLLFAGLLSDRFGRRPFIMLGMCCYMAFFFGILQTNNIIIAYVFGFLAGMANSFLDAGTYPSLMEAFPRSPGTANILIKAFVSSGQFLLPLIISLLVWAELWFGWSFMIAAGIMFINALFLYRCTFPPHPGRRLPVIKKTTSSTEHRCSIIDLASYTLYGYISMATFYLVSQWLAQYGQFVAGMSYTMSIKLLSIYTVGSLLCVFITAPLIRNTVRPTTLLMLYTFISFIALFTVCLHPTFYVVIIFAFVIGFTSAGGVVQIGLTLMAERFPYAKGKATGIYYSAGSIATFTIPLITAHLSQRSIADIMWFDTAIAAIGFLLALFIGLRSRKKTRHHSLKENVAPGG" "i" "Unambiguous EcoCyc data" -"B1691-MONOMER" "MSQNKAFSTPFILAVLCIYFSYFLHGISVITLAQNMSSLAEKFSTDNAGIAYLISGIGLGRLISILFFGVISDKFGRRAVILMAVIMYLLFFFGIPACPNLTLAYGLAVCVGIANSALDTGGYPALMECFPKASGSAVILVKAMVSFGQMFYPMLVSYMLLNNIWYGYGLIIPGILFVLITLMLLKSKFPSQLVDASVTNELPQMNSKPLVWLEGVSSVLFGVAAFSTFYVIVVWMPKYAMAFAGMSEAEALKTISYYSMGSLVCVFIFAALLKKMVRPIWANVFNSALATITAAIIYLYPSPLVCNAGAFVIGFSAAGGILQLGVSVMSEFFPKSKAKVTSIYMMMGGLANFVIPLITGYLSNIGLQYIIVLDFTFALLALITAIIVFIRYYRVFIIPENDVRFGERKFCTRLNTIKHRG" "i" "Han et al., 2011" -"B1775-MONOMER" "MEQITKPHCGARLDRLPDCRWHSSMFAIVAFGLLVCWSNAVGGLILAQLKALGWTDNSTTATFSAITTAGMFLGALVGGIIGDKTGRRNAFILYEAIHIASMVVGAFSPNMDFLIACRFVMGVGLGALLVTLFAGFTEYMPGRNRGTWSSRVSFIGNWSYPLCSLIAMGLTPLISAEWNWRVQLLIPAILSLIATALAWRYFPESPRWLESRGRYQEAEKVMRSIEEGVIRQTGKPLPPVVIADDGKAPQAVPYSALLTGVLLKRVILGSCVLIAMNVVQYTLINWLPTIFMTQGINLKDSIVLNTMSMFGAPFGIFIAMLVMDKIPRKTMGVGLLILIAVLGYIYSLQTSMLLITLIGFFLITFVYMYVCYASAVYVPEIWPTEAKLRGSGLANAVGRISGIAAPYAVAVLLSSYGVTGVFILLGAVSIIVAIAIATIGIETKGVSVESLSIDAVANK" "i" "Han et al., 2011" -"B1791-MONOMER" "MTCSTSLSGKNRIVLIAGILMIATTLRVTFTGAAPLLDTIRSAYSLTTAQTGLLTTLPLLAFALISPLAAPVARRFGMERSLFAALLLICAGIAIRSLPSPYLLFGGTAVIGGGIALGNVLLPGLIKRDFPHSVARLTGAYSLTMGAAAALGSAMVVPLALNGFGWQGALLMLMCFPLLALFLWLPQWRSQQHANLSTSRALHTRGIWRSPLAWQVTLFLGINSLVYYVIIGWLPAILISHGYSEAQAGSLHGLLQLATAAPGLLIPLFLHHVKDQRGIAAFVALMCAVGAVGLCFMPAHAITWTLLFGFGSGATMILGLTFIGLRASSAHQAAALSGMAQSVGYLLAACGPPLMGKIHDANGNWSVPLMGVAILSLLMAIFGLCAGRDKEIR" "i" "Han et al., 2011" -"B1828-MONOMER" "MPKVQADGLPLPQRYGAILTIVIGISMAVLDGAIANVALPTIATDLHATPASSIWVVNAYQIAIVISLLSFSFLGDMFGYRRIYKCGLVVFLLSSLFCALSDSLQMLTLARVIQGFGGAALMSVNTALIRLIYPQRFLGRGMGINSFIVAVSSAAGPTIAAAILSIASWKWLFLINVPLGIIALLLAMRFLPPNGSRASKPRFDLPSAVMNALTFGLLITALSGFAQGQSLTLIAAELVVMVVVGIFFIRRQLSLPVPLLPVDLLRIPLFSLSICTSVCSFCAQMLAMVSLPFYLQTVLGRSEVETGLLLTPWPLATMVMAPLAGYLIERVHAGLLGALGLFIMAAGLFSLVLLPASPADINIIWPMILCGAGFGLFQSPNNHTIITSAPRERSGGASGMLGTARLLGQSSGAALVALMLNQFGDNGTHVSLMAAAILAVIAACVSGLRITQPRSRA" "i" "Han et al., 2011" -"B2075-MONOMER" "MQVLPPSSTGGPSRLFIMRPVATTLLMVAILLAGIIGYRALPVSALPEVDYPTIQVVTLYPGASPDVMTSAVTAPLERQFGQMSGLKQMSSQSSGGASVITLQFQLTLPLDVAEQEVQAAINAATNLLPSDLPNPPVYSKVNPADPPIMTLAVTSTAMPMTQVEDMVETRVAQKISQISGVGLVTLSGGQRPAVRVKLNAQAIAALGLTSETVRTAITGANVNSAKGSLDGPSRAVTLSANDQMQSAEEYRQLIIAYQNGAPIRLGDVATVEQGAENSWLGAWANKEQAIVMNVQRQPGANIISTADSIRQMLPQLTESLPKSVKVTVLSDRTTNIRASVDDTQFELMMAIALVVMIIYLFLRNIPATIIPGVAVPLSLIGTFAVMVFLDFSINNLTLMALTIATGFVVDDAIVVIENISRYIEKGEKPLAAALKGAGEIGFTIISLTFSLIAVLIPLLFMGDIVGRLFREFAITLAVAILISAVVSLTLTPMMCARMLSQESLRKQNRFSRASEKMFDRIIAAYGRGLAKVLNHPWLTLSVALSTLLLSVLLWVFIPKGFFPVQDNGIIQGTLQAPQSSSFANMAQRQRQVADVILQDPAVQSLTSFVGVDGTNPSLNSARLQINLKPLDERDDRVQKVIARLQTAVDKVPGVDLFLQPTQDLTIDTQVSRTQYQFTLQATSLDALSTWVPQLMEKLQQLPQLSDVSSDWQDKGLVAYVNVDRDSASRLGISMADVDNALYNAFGQRLISTIYTQANQYRVVLEHNTENTPGLAALDTIRLTSSDGGVVPLSSIAKIEQRFAPLSINHLDQFPVTTISFNVPDNYSLGDAVQAIMDTEKTLNLPVDITTQFQGSTLAFQSALGSTVWLIVAAVVAMYIVLGILYESFIHPITILSTLPTAGVGALLALLIAGSELDVIAIIGIILLIGIVKKNAIMMIDFALAAEREQGMSPREAIYQACLLRFRPILMTTLAALLGALPLMLSTGVGAELRRPLGIGMVGGLIVSQVLTLFTTPVIYLLFDRLALWTKSRFARHEEEA" "i" "Han et al., 2011" -"B2076-MONOMER" "VKFFALFIYRPVATILLSVAITLCGILGFRMLPVAPLPQVDFPVIIVSASLPGASPETMASSVATPLERSLGRIAGVSEMTSSSSLGSTRIILQFDFDRDINGAARDVQAAINAAQSLLPSGMPSRPTYRKANPSDAPIMILTLTSDTYSQGELYDFASTQLAPTISQIDGVGDVDVGGSSLPAVRVGLNPQALFNQGVSLDDVRTAVSNANVRKPQGALEDGTHRWQIQTNDELKTAAEYQPLIIHYNNGGAVRLGDVATVTDSVQDVRNAGMTNAKPAILLMIRKLPEANIIQTVDSIRAKLPELQETIPAAIDLQIAQDRSPTIRASLEEVEQTLIISVALVILVVFLFLRSGRATIIPAVSVPVSLIGTFAAMYLCGFSLNNLSLMALTIATGFVVDDAIVVLENIARHLEAGMKPLQAALQGTREVGFTVLSMSLSLVAVFLPLLLMGGLPGRLLREFAVTLSVAIGISLLVSLTLTPMMCGWMLKASKPREQKRLRGFGRMLVALQQGYGKSLKWVLNHTRLVGVVLLGTIALNIWLYISIPKTFFPEQDTGVLMGGIQADQSISFQAMRGKLQDFMKIIRDDPAVDNVTGFTGGSRVNSGMMFITLKPRDERSETAQQIIDRLRVKLAKEPGANLFLMAVQDIRVGGRQSNASYQYTLLSDDLAALREWEPKIRKKLATLPELADVNSDQQDNGAEMNLVYDRDTMARLGIDVQAANSLLNNAFGQRQISTIYQPMNQYKVVMEVDPRYTQDISALEKMFVINNEGKAIPLSYFAKWQPANAPLSVNHQGLSAASTISFNLPTGKSLSDASAAIDRAMTQLGVPSTVRGSFAGTAQVFQETMNSQVILIIAAIATVYIVLGILYESYVHPLTILSTLPSAGVGALLALELFNAPFSLIALIGIMLLIGIVKKNAIMMVDFALEAQRHGNLTPQEAIFQACLLRFRPIMMTTLAALFGALPLVLSGGDGSELRQPLGITIVGGLVMSQLLTLYTTPVVYLFFDRLRLRFSRKPKQTVTE" "i" "Han et al., 2011" -"B2077-MONOMER" "MTDLPDSTRWQLWIVAFGFFMQSLDTTIVNTALPSMAQSLGESPLHMHMVIVSYVLTVAVMLPASGWLADKVGVRNIFFTAIVLFTLGSLFCALSGTLNELLLARALQGVGGAMMVPVGRLTVMKIVPREQYMAAMTFVTLPGQVGPLLGPALGGLLVEYASWHWIFLINIPVGIIGAIATLLLMPNYTMQTRRFDLSGFLLLAVGMAVLTLALDGSKGTGLSPLTIAGLVAVGVVALVLYLLHARNNNRALFSLKLFRTRTFSLGLAGSFAGRIGSGMLPFMTPVFLQIGLGFSPFHAGLMMIPMVLGSMGMKRIVVQVVNRFGYRRVLVATTLGLSLVTLLFMTTALLGWYYVLPFVLFLQGMVNSTRFSSMNTLTLKDLPDNLASSGNSLLSMIMQLSMSIGVTIAGLLLGLFGSQHVSVDSGTTQTVFMYTWLSMALIIALPAFIFARVPNDTHQNVAISRRKRSAQ" "i" "Han et al., 2011" -"B2098-MONOMER" "MKTTAKLSFMMFVEWFIWGAWFVPLWLWLSKSGFSAGEIGWSYACTAIAAILSPILVGSITDRFFSAQKVLAVLMFAGALLMYFAAQQTTFAGFFPLLLAYSLTYMPTIALTNSIAFANVPDVERDFPRIRVMGTIGWIASGLACGFLPQILGYADISPTNIPLLITAGSSALLGVFAFFLPDTPPKSTGKMDIKVMLGLDALILLRDKNFLVFFFCSFLFAMPLAFYYIFANGYLTEVGMKNATGWMTLGQFSEIFFMLALPFFTKRFGIKKVLLLGLVTAAIRYGFFIYGSADEYFTYALLFLGILLHGVSYDFYYVTAYIYVDKKAPVHMRTAAQGLITLCCQGFGSLLGYRLGGVMMEKMFAYQEPVNGLTFNWSGMWTFGAVMIAIIAVLFMIFFRESDNEITAIKVDDRDIALTQGEVK" "i" "Han et al., 2011" -"B2170-MONOMER" "MHNSPAVSSAKSFDLTSTAFLIVAFLTGIAGALQTPTLSIFLTDEVHARPAMVGFFFTGSAVIGILVSQFLAGRSDKRGDRKSLIVFCCLLGVLACTLFAWNRNYFVLLFVGVFLSSFGSTANPQMFALAREHADKTGREAVMFSSFLRAQVSLAWVIGPPLAYALAMGFSFTVMYLSAAVAFIVCGVMVWLFLPSMRKELPLATGTIEAPRRNRRDTLLLFVICTLMWGSNSLYIINMPLFIINELHLPEKLAGVMMGTAAGLEIPTMLIAGYFAKRLGKRFLMRVAAVGGVCFYAGMLMAHSPVILLGLQLLNAIFIGILGGIGMLYFQDLMPGQAGSATTLYTNTSRVGWIIAGSVAGIVAEIWNYHAVFWFAMVMIIATLFCLLRIKDV" "i" "Han et al., 2011" -"B2246-MONOMER" "MSTALLDAVVKKNRVRLIPFMLALYVLAFLDRSNIGFAKQTYQIDTGLSNEAYALGAGIFFVVYAFLGVPANLLMRKLGARTWIGTTTLLWGFLSAAMAWADTEAKFLIVRTLLRAAEAGFFPGMIYLTSQWFPQRNRASIMGLFYMGAPLALTLGSPLSGALLEMHGFMGHPGWFWMFVIEGLLAVGAGVFTFFWLDDTPEQARFLSKQEKTLLINQLASEEQQKVTSRLSDALRNGRVWQLAIIYLTIQVAVYGLIFFLPTQVAALLGTKVGFTASVVTAIPWVAALFGTWLIPRYSDKTGERRNVAALTLLAAGIGIGLSGLLSPVMAIVALCVAAIGFIAVQPVFWTMPTQLLSGTALAAGIGFVNLFGAVGGFIAPILRVKAETLFASDAAGLLTLAAVAVIGSLIIFTLRVNRTVAQTDVAHH" "i" "Han et al., 2011" -"B2322-MONOMER" "MTAVSQTETRSSANFSLFRIAFAVFLTYMTVGLPLPVIPLFVHHELGYGNTMVGIAVGIQFLATVLTRGYAGRLADQYGAKRSALQGMLACGLAGGALLLAAILPVSAPFKFALLVVGRLILGFGESQLLTGALTWGLGIVGPKHSGKVMSWNGMAIYGALAVGAPLGLLIHSHYGFAALAITTMVLPVLAWACNGTVRKVPALAGERPSLWSVVGLIWKPGLGLALQGVGFAVIGTFVSLYFASKGWAMAGFTLTAFGGAFVVMRVMFGWMPDRFGGVKVAIVSLLVETVGLLLLWQAPGAWVALAGAALTGAGCSLIFPALGVEVVKRVPSQVRGTALGGYAAFQDIALGVSGPLAGMLATTFGYSSVFLAGAISAVLGIIVTILSFRRG" "i" "Han et al., 2011" -"B2372-MONOMER" "MLTFFIGDLLPIIVIMLLGYFSGRRETFSEDQARAFNKLVLNYALPAALFVSITRANREMIFADTRLTLVSLVVIVGCFFFSWFGCYKFFKRTHAEAAVCALIAGSPTIGFLGFAVLDPIYGDSVSTGLVVAIISIIVNAITIPIGLYLLNPSSGADGKKNSNLSALISAAKEPVVWAPVLATILVLVGVKIPAAWDPTFNLIAKANSGVAVFAAGLTLAAHKFEFSAEIAYNTFLKLILMPLALLLVGMACHLNSEHLQMMVLAGALPPAFSGIIIASRFNVYTRTGTASLAVSVLGFVVTAPLWIYVSRLVS" "i" "Han et al., 2011" -"B2740-MONOMER" "MSTITLLCIALAGVIMLLLLVIKAKVQPFVALLLVSLLVALAAGIPAGEVGKVMIAGMGGVLGSVTIIIGLGAMLGRMIEHSGGAESLANYFSRKLGDKRTIAALTLAAFFLGIPVFFDVGFIILAPIIYGFAKVAKISPLKFGLPVAGIMLTVHVAVPPHPGPVAAAGLLHADIGWLTIIGIAISIPVGVVGYFAAKIINKRQYAMSVEVLEQMQLAPASEEGATKLSDKINPPGVALVTSLIVIPIAIIMAGTVSATLMPPSHPLLGTLQLIGSPMVALMIALVLAFWLLALRRGWSLQHTSDIMGSALPTAAVVILVTGAGGVFGKVLVESGVGKALANMLQMIDLPLLPAAFIISLALRASQGSATVAILTTGGLLSEAVMGLNPIQCVLVTLAACFGGLGASHINDSGFWIVTKYLGLSVADGLKTWTVLTTILGFTGFLITWCVWAVI" "i" "Han et al., 2011" -"B2771-MONOMER" "MNTSPVRMDDLPLNRFHCRIAALTFGAHLTDGYVLGVIGYAIIQLTPAMQLTPFMAGMIGGSALLGLFLGSLVLGWISDHIGRQKIFTFSFLLITLASFLQFFATTPEHLIGLRILIGIGLGGDYSVGHTLLAEFSPRRHRGILLGAFSVVWTVGYVLASIAGHHFISENPEAWRWLLASAALPALLITLLRWGTPESPRWLLRQGRFAEAHAIVHRYFGPHVLLGDEVVTATHKHIKTLFSSRYWRRTAFNSVFFVCLVIPWFVIYTWLPTIAQTIGLEDALTASLMLNALLIVGALLGLVLTHLLAHRKFLLGSFLLLAATLVVMACLPSGSSLTLLLFVLFSTTISAVSNLVGILPAESFPTDIRSLGVGFATAMSRLGAAVSTGLLPWVLAQWGMQVTLLLLATVLLVGFVVTWLWAPETKALPLVAAGNVGGANEHSVSV" "i" "Han et al., 2011" -"B2775-MONOMER" "MQHNSYRRWITLAIISFSGGVSFDLAYLRYIYQIPMAKFMGFSNTEIGLIMSTFGIAAIILYAPSGVIADKFSHRKMITSAMIITGLLGLLMATYPPLWVMLCIQIAFAITTILMLWSVSIKAASLLGDHSEQGKIMGWMEGLRGVGVMSLAVFTMWVFSRFAPDDSTSLKTVIIIYSVVYILLGILCWFFVSDNNNLRSANNEEKQSFQLSDILAVLRISTTWYCSMVIFGVFTIYAILSYSTNYLTEMYGMSLVAASYMGIVINKIFRALCGPLGGIITTYSKVKSPTRVIQILSVLGLLTLTALLVTNSNPQSVAMGIGLILLLGFTCYASRGLYWACPGEARTPSYIMGTTVGICSVIGFLPDVFVYPIIGHWQDTLPAAEAYRNMWLMGMAALGMVIVFTFLLFQKIRTADSAPAMASSK" "i" "Han et al., 2011" -"B2789-MONOMER" "MSSLSQAASSVEKRTNARYWIVVMLFIVTSFNYGDRATLSIAGSEMAKDIGLDPVGMGYVFSAFSWAYVIGQIPGGWLLDRFGSKRVYFWSIFIWSMFTLLQGFVDIFSGFGIIVALFTLRFLVGLAEAPSFPGNSRIVAAWFPAQERGTAVSIFNSAQYFATVIFAPIMGWLTHEVGWSHVFFFMGGLGIVISFIWLKVIHEPNQHPGVNKKELEYIAAGGALINMDQQNTKVKVPFSVKWGQIKQLLGSRMMIGVYIGQYCINALTYFFITWFPVYLVQARGMSILKAGFVASVPAVCGFIGGVLGGIISDWLMRRTGSLNIARKTPIVMGMLLSMVMVFCNYVNVEWMIIGFMALAFFGKGIGALGWAVMADTAPKEISGLSGGLFNMFGNISGIVTPIAIGYIVGTTGSFNGALIYVGVHALIAVLSYLVLVGDIKRIELKPVAGQ" "i" "Han et al., 2011" -"B2845-MONOMER" "MSNIWSKEETLWSFALYGTAVGAGTLFLPIQLGSAGAVVLFITALVAWPLTYWPHKALCQFILSSKTSAGEGITGAVTHYYGKKIGNLITTLYFIAFFVVVLIYAVAITNSLTEQLAKHMVIDLRIRMLVSLGVVLILNLIFLMGRHATIRVMGFLVFPLIAYFLFLSIYLVGSWQPDLLTTQVEFNQNTLHQIWISIPVMVFAFSHTPIISTFAIDRREKYGEHAMDKCKKIMKVAYLIICISVLFFVFSCLLSIPPSYIEAAKEEGVTILSALSMLPNAPAWLSISGIIVAVVAMSKSFLGTYFGVIEGATEVVKTTLQQVGVKKSRAFNRALSIMLVSLITFIVCCINPNAISMIYAISGPLIAMILFIMPTLSTYLIPALKPWRSIGNLITLIVGILCVSVMFFS" "i" "Han et al., 2011" -"B2975-MONOMER" "MVTWTQMYMPMGGLGLSALVALIPIIFFFVALAVLRLKGHVAGAITLILSILIAIFAFKMPIDMAFAAAGYGFIYGLWPIAWIIVAAVFLYKLTVASGQFDIIRSSVISITDDQRLQVLLIGFSFGALLEGAAGFGAPVAITGALLVGLGFKPLYAAGLCLIANTAPVAFGALGVPILVAGQVTGIDPFHIGAMAGRQLPFLSVLVPFWLVAMMDGWKGVKETWPAALVAGGSFAVTQFFTSNYIGPELPDITSALVSIVSLALFLKVWRPKNTETAISMGQSAGAMVVNKPSSGGPVPSEYSLGQIIRAWSPFLILTVLVTIWTMKPFKALFAPGGAFYSLVINFQIPHLHQQVLKAAPIVAQPTPMDAVFKFDPLSAGGTAIFIAAIISIFILGVGIKKGIGVFAETLISLKWPILSIGMVLAFAFVTNYSGMSTTLALVLAGTGVMFPFFSPFLGWLGVFLTGSDTSSNALFGSLQSTTAQQINVSDTLLVAANTSGGVTGKMISPQSIAVACAATGMVGRESELFRYTVKHSLIFASVIGIITLLQAYVFTGMLVS" "i" "Han et al., 2011" -"B3659-MONOMER" "MQKTATTPSKILDLTAAAFLLVAFLTGIAGALQTPTLSIFLADELKARPIMVGFFFTGSAIMGILVSQFLARHSDKQGDRKLLILLCCLFGVLACTLFAWNRNYFILLSTGVLLSSFASTANPQMFALAREHADRTGRETVMFSTFLRAQISLAWVIGPPLAYELAMGFSFKVMYLTAAIAFVVCGLIVWLFLPSIQRNIPVVTQPVEILPSTHRKRDTRLLFVVCSMMWAANNLYMINMPLFIIDELHLTDKLTGEMIGIAAGLEIPMMLIAGYYMKRIGKRLLMLIAIVSGMCFYASVLMATTPAVELELQILNAIFLGILCGIGMLYFQDLMPEKIGSATTLYANTSRVGWIIAGSVDGIMVEIWSYHALFWLAIGMLGIAMICLLFIKDI" "i" "Han et al., 2011" -"B4141-MONOMER" "MSGLKQELGLAQGIGLLSTSLLGTGVFAVPALAALVAGNNSLWAWPVLIILVFPIAIVFAILGRHYPSAGGVAHFVGMAFGSRLERVTGWLFLSVIPVGLPAALQIAAGFGQAMFGWHSWQLLLAELGTLALVWYIGTRGASSSANLQTVIAGLIVALIVAIWWAGDIKPANIPFPAPGNIELTGLFAALSVMFWCFVGLEAFAHLASEFKNPERDFPRALMIGLLLAGLVYWGCTVVVLHFDAYGEKMAAAASLPKIVVQLFGVGALWIACVIGYLACFASLNIYIQSFARLVWSQAQHNPDHYLARLSSRHIPNNALNAVLGCCVVSTLVIHALEINLDALIIYANGIFIMIYLLCMLAGCKLLQGRYRLLAVVGGLLCVLLLAMVGWKSLYALIMLAGLWLLLPKRKTPENGITT" "i" "Han et al., 2011" -"BADH-MONOMER" "MSRMAEQQLYIHGGYTSATSGRTFETINPANGNVLATVQAAGREDVDRAVKSAQQGQKIWASMTAMERSRILRRAVDILRERNDELAKLETLDTGKAYSETSTVDIVTGADVLEYYAGLIPALEGSQIPLRETSFVYTRREPLGVVAGIGAWNYPIQIALWKSAPALAAGNAMIFKPSEVTPLTALKLAEIYSEAGLPDGVFNVLPGVGAETGQYLTEHPGIAKVSFTGGVASGKKVMANSAASSLKEVTMELGGKSPLIVFDDADLDLAADIAMMANFFSSGQVCTNGTRVFVPAKCKAAFEQKILARVERIRAGDVFDPQTNFGPLVSFPHRDNVLRYIAKGKEEGARVLCGGDVLKGDGFDNGAWVAPTVFTDCSDDMTIVREEIFGPVMSILTYESEDEVIRRANDTDYGLAAGIVTADLNRAHRVIHQLEAGICWINTWGESPAEMPVGGYKHSGIGRENGVMTLQSYTQVKSIQVEMAKFQSIF" "c" "Han et al., 2011" -"BAER-MONOMER" "MTELPIDENTPRILIVEDEPKLGQLLIDYLRAASYAPTLISHGDQVLPYVRQTPPDLILLDLMLPGTDGLTLCREIRRFSDIPIVMVTAKIEEIDRLLGLEIGADDYICKPYSPREVVARVKTILRRCKPQRELQQQDAESPLIIDEGRFQASWRGKMLDLTPAEFRLLKTLSHEPGKVFSREQLLNHLYDDYRVVTDRTIDSHIKNLRRKLESLDAEQSFIRAVYGVGYRWEADACRIV" "c" "Han et al., 2011" -"BAES-MONOMER" "MKFWRPGITGKLFLAIFATCIVLLISMHWAVRISFERGFIDYIKHGNEQRLQLLSDALGEQYAQHGNWRFLRNNDRFVFQILRSFEHDNSEDKPGPGMPPHGWRTQFWVVDQNNKVLVGPRAPIPPDGTRRPILVNGAEVGAVIASPVERLTRNTDINFDKQQRQTSWLIVALATLLAALATFLLARGLLAPVKRLVDGTHKLAAGDFTTRVTPTSEDELGKLAQDFNQLASTLEKNQQMRRDFMADISHELRTPLAVLRGELEAIQDGVRKFTPETVASLQAEVGTLTKLVDDLHQLSMSDEGALAYQKAPVDLIPLLEVAGGAFRERFASRGLKLQFSLPDSITVFGDRDRLMQLFNNLLENSLRYTDSGGSLQISAGQRDKTVRLTFADSAPGVSDDQLQKLFERFYRTEGSRNRASGGSGLGLAICLNIVEAHNGRIIAAHSPFGGVSITVELPLERDLQREV" "i" "Han et al., 2011" -"BARA-MONOMER" "MTNYSLRARMMILILAPTVLIGLLLSIFFVVHRYNDLQRQLEDAGASIIEPLAVSTEYGMSLQNRESIGQLISVLHRRHSDIVRAISVYDENNRLFVTSNFHLDPSSMQLGSNVPFPRQLTVTRDGDIMILRTPIISESYSPDESPSSDAKNSQNMLGYIALELDLKSVRLQQYKEIFISSVMMLFCIGIALIFGWRLMRDVTGPIRNMVNTVDRIRRGQLDSRVEGFMLGELDMLKNGINSMAMSLAAYHEEMQHNIDQATSDLRETLEQMEIQNVELDLAKKRAQEAARIKSEFLANMSHELRTPLNGVIGFTRLTLKTELTPTQRDHLNTIERSANNLLAIINDVLDFSKLEAGKLILESIPFPLRSTLDEVVTLLAHSSHDKGLELTLNIKSDVPDNVIGDPLRLQQIITNLVGNAIKFTENGNIDILVEKRALSNTKVQIEVQIRDTGIGIPERDQSRLFQAFRQADASISRRHGGTGLGLVITQKLVNEMGGDISFHSQPNRGSTFWFHINLDLNPNIIIEGPSTQCLAGKRLAYVEPNSAAAQCTLDILSETPLEVVYSPTFSALPPAHYDMMLLGIAVTFREPLTMQHERLAKAVSMTDFLMLALPCHAQVNAEKLKQDGIGACLLKPLTPTRLLPALTEFCHHKQNTLLPVTDESKLAMTVMAVDDNPANLKLIGALLEDMVQHVELCDSGHQAVERAKQMPFDLILMDIQMPDMDGIRACELIHQLPHQQQTPVIAVTAHAMAGQKEKLLGAGMSDYLAKPIEEERLHNLLLRYKPGSGISSRVVTPEVNEIVVNPNATLDWQLALRQAAGKTDLARDMLQMLLDFLPEVRNKVEEQLVGENPEGLVDLIHKLHGSCGYSGVPRMKNLCQLIEQQLRSGTKEEDLEPELLELLDEMDNVAREASKILG" "i" "Han et al., 2011" -"BASR-MONOMER" "MKILIVEDDTLLLQGLILAAQTEGYACDSVTTARMAEQSLEAGHYSLVVLDLGLPDEDGLHFLARIRQKKYTLPVLILTARDTLTDKIAGLDVGADDYLVKPFALEELHARIRALLRRHNNQGESELIVGNLTLNMGRRQVWMGGEELILTPKEYALLSRLMLKAGSPVHREILYNDIYNWDNEPSTNTLEVHIHNLRDKVGKARIRTVRGFGYMLVANEEN" "c" "Han et al., 2011" -"BASS-MONOMER" "MHFLRRPISLRQRLILTIGAILLVFELISVFWLWHESTEQIQLFEQALRDNRNNDRHIMREIREAVASLIVPGVFMVSLTLFICYQAVRRITRPLAELQKELEARTADNLTPIAIHSATLEIEAVVSALNDLVSRLTSTLDNERLFTADVAHELRTPLAGVRLHLELLAKTHHIDVAPLVARLDQMMESVSQLLQLARAGQSFSSGNYQHVKLLEDVILPSYDELSTMLDQRQQTLLLPESAADITVQGDATLLRMLLRNLVENAHRYSPQGSNIMIKLQEDDGAVMAVEDEGPGIDESKCGELSKAFVRMDSRYGGIGLGLSIVSRITQLHHGQFFLQNRQETSGTRAWVRLKKDQYVANQI" "i" "Han et al., 2011" -"BCCP-MONOMER" "MDIRKIKKLIELVEESGISELEISEGEESVRISRAAPAASFPVMQQAYAAPMMQQPAQSNAAAPATVPSMEAPAAAEISGHIVRSPMVGTFYRTPSPDAKAFIEVGQKVNVGDTLCIVEAMKMMNQIEADKSGTVKAILVESGQPVEFDEPLVVIE" "c" "Lopez-Campistrous et al., 2005" -"BCR-MONOMER" "VTTRQHSSFAIVFILGLLAMLMPLSIDMYLPALPVISAQFGVPAGSTQMTLSTYILGFALGQLIYGPMADSFGRKPVVLGGTLVFAAAAVACALANTIDQLIVMRFFHGLAAAAASVVINALMRDIYPKEEFSRMMSFVMLVTTIAPLMAPIVGGWVLVWLSWHYIFWILALAAILASAMIFFLIKETLPPERRQPFHIRTTIGNFAALFRHKRVLSYMLASGFSFAGMFSFLSAGPFVYIEINHVAPENFGYYFALNIVFLFVMTIFNSRFVRRIGALNMFRSGLWIQFIMAAWMVISALLGLGFWSLVVGVAAFVGCVSMVSSNAMAVILDEFPHMAGTASSLAGTFRFGIGAIVGALLSLATFNSAWPMIWSIAFCATSSILFCLYASRPKKR" "i" "Han et al., 2011" -"BETA-GLUCURONID-MONOMER" "MLRPVETPTREIKKLDGLWAFSLDRENCGIDQRWWESALQESRAIAVPGSFNDQFADADIRNYAGNVWYQREVFIPKGWAGQRIVLRFDAVTHYGKVWVNNQEVMEHQGGYTPFEADVTPYVIAGKSVRITVCVNNELNWQTIPPGMVITDENGKKKQSYFHDFFNYAGIHRSVMLYTTPNTWVDDITVVTHVAQDCNHASVDWQVVANGDVSVELRDADQQVVATGQGTSGTLQVVNPHLWQPGEGYLYELCVTAKSQTECDIYPLRVGIRSVAVKGEQFLINHKPFYFTGFGRHEDADLRGKGFDNVLMVHDHALMDWIGANSYRTSHYPYAEEMLDWADEHGIVVIDETAAVGFNLSLGIGFEAGNKPKELYSEEAVNGETQQAHLQAIKELIARDKNHPSVVMWSIANEPDTRPQGAREYFAPLAEATRKLDPTRPITCVNVMFCDAHTDTISDLFDVLCLNRYYGWYVQSGDLETAEKVLEKELLAWQEKLHQPIIITEYGVDTLAGLHSMYTDMWSEEYQCAWLDMYHRVFDRVSAVVGEQVWNFADFATSQGILRVGGNKKGIFTRDRKPKSAAFLLQKRWTGMNFGEKPQQGGKQ" "c" "Han et al., 2011" -"BETACOMP-MONOMER" "MSEKHPGPLVVEGKLTDAERMKHESNYLRGTIAEDLNDGLTGGFKGDNFLLIRFHGMYQQDDRDIRAERAEQKLEPRHAMLLRCRLPGGVITTKQWQAIDKFAGENTIYGSIRLTNRQTFQFHGILKKNVKPVHQMLHSVGLDALATANDMNRNVLCTSNPYESQLHAEAYEWAKKISEHLLPRTRAYAEIWLDQEKVATTDEEPILGQTYLPRKFKTTVVIPPQNDIDLHANDMNFVAIAENGKLVGFNLLVGGGLSIEHGNKKTYARTASEFGYLPLEHTLAVAEAVVTTQRDWGNRTDRKNAKTKYTLERVGVETFKAEVERRAGIKFEPIRPYEFTGRGDRIGWVKGIDDNWHLTLFIENGRILDYPARPLKTGLLEIAKIHKGDFRITANQNLIIAGVPESEKAKIEKIAKESGLMNAVTPQRENSMACVSFPTCPLAMAEAERFLPSFIDNIDNLMAKHGVSDEHIVMRVTGCPNGCGRAMLAEVGLVGKAPGRYNLHLGGNRIGTRIPRMYKENITEPEILASLDELIGRWAKEREAGEGFGDFTVRAGIIRPVLDPARDLWD" "c" "EcoCyc dump" -"BETAGALACTOSID-MONOMER" "MTMITDSLAVVLQRRDWENPGVTQLNRLAAHPPFASWRNSEEARTDRPSQQLRSLNGEWRFAWFPAPEAVPESWLECDLPEADTVVVPSNWQMHGYDAPIYTNVTYPITVNPPFVPTENPTGCYSLTFNVDESWLQEGQTRIIFDGVNSAFHLWCNGRWVGYGQDSRLPSEFDLSAFLRAGENRLAVMVLRWSDGSYLEDQDMWRMSGIFRDVSLLHKPTTQISDFHVATRFNDDFSRAVLEAEVQMCGELRDYLRVTVSLWQGETQVASGTAPFGGEIIDERGGYADRVTLRLNVENPKLWSAEIPNLYRAVVELHTADGTLIEAEACDVGFREVRIENGLLLLNGKPLLIRGVNRHEHHPLHGQVMDEQTMVQDILLMKQNNFNAVRCSHYPNHPLWYTLCDRYGLYVVDEANIETHGMVPMNRLTDDPRWLPAMSERVTRMVQRDRNHPSVIIWSLGNESGHGANHDALYRWIKSVDPSRPVQYEGGGADTTATDIICPMYARVDEDQPFPAVPKWSIKKWLSLPGETRPLILCEYAHAMGNSLGGFAKYWQAFRQYPRLQGGFVWDWVDQSLIKYDENGNPWSAYGGDFGDTPNDRQFCMNGLVFADRTPHPALTEAKHQQQFFQFRLSGQTIEVTSEYLFRHSDNELLHWMVALDGKPLASGEVPLDVAPQGKQLIELPELPQPESAGQLWLTVRVVQPNATAWSEAGHISAWQQWRLAENLSVTLPAASHAIPHLTTSEMDFCIELGNKRWQFNRQSGFLSQMWIGDKKQLLTPLRDQFTRAPLDNDIGVSEATRIDPNAWVERWKAAGHYQAEAALLQCTADTLADAVLITTAHAWQHQGKTLFISRKTYRIDGSGQMAITVDVEVASDTPHPARIGLNCQLAQVAERVNWLGLGPQENYPDRLTAACFDRWDLPLSDMYTPYVFPSENGLRCGTRELNYGPHQWRGDFQFNISRYSQQQLMETSHRHLLHAEEGTWLNIDGFHMGIGGDDSWSPSVSAEFQLSAGRYHYQLVWCQK" "c" "Han et al., 2011" -"BETT-MONOMER" "MTDLSHSREKDKINPVVFYTSAGLILLFSLTTILFRDFSALWIGRTLDWVSKTFGWYYLLAATLYIVFVVCIACSRFGSVKLGPEQSKPEFSLLSWAAMLFAAGIGIDLMFFSVAEPVTQYMQPPEGAGQTIEAARQAMVWTLFHYGLTGWSMYALMGMALGYFSYRYNLPLTIRSALYPIFGKRINGPIGHSVDIAAVIGTIFGIATTLGIGVVQLNYGLSVLFDIPDSMAAKAALIALSVIIATISVTSGVDKGIRVLSELNVALALGLILFVLFMGDTSFLLNALVLNVGDYVNRFMGMTLNSFAFDRPVEWMNNWTLFFWAWWVAWSPFVGLFLARISRGRTIRQFVLGTLIIPFTFTLLWLSVFGNSALYEIIHGGAAFAEEAMVHPERGFYSLLAQYPAFTFSASVATITGLLFYVTSADSGALVLGNFTSQLKDINSDAPGWLRVFWSVAIGLLTLGMLMTNGISALQNTTVIMGLPFSFVIFFVMAGLYKSLKVEDYRRESANRDTAPRPLGLQDRLSWKKRLSRLMNYPGTRYTKQMMETVCYPAMEEVAQELRLRGAYVELKSLPPEEGQQLGHLDLLVHMGEEQNFVYQIWPQQYSVPGFTYRARSGKSTYYRLETFLLEGSQGNDLMDYSKEQVITDILDQYERHLNFIHLHREAPGHSVMFPDA" "i" "Han et al., 2011" -"BGLF-MONOMER" "MTELARKIVAGVGGADNIVSLMHCATRLRFKLKDESKAQAEVLKKTPGIIMVVESGGQFQVVIGNHVADVFLAVNSVAGLDEKAQQAPENDDKGNLLNRFVYVISGIFTPLIGLMAATGILKGMLALALTFQWTTEQSGTYLILFSASDALFWFFPIILGYTAGKRFGGNPFTAMVIGGALVHPLILTAFENGQKADALGLDFLGIPVTLLNYSSSVIPIIFSAWLCSILERRLNAWLPSAIKNFFTPLLCLMVITPVTFLLVGPLSTWISELIAAGYLWLYQAVPAFAGAVMGGFWQIFVMFGLHWGLVPLCINNFTVLGYDTMIPLLMPAIMAQVGAALGVFLCERDAQKKVVAGSAALTSLFGITEPAVYGVNLPRKYPFVIACISGALGATIIGYAQTKVYSFGLPSIFTFMQTIPSTGIDFTVWASVIGGVIAIGCAFVGTVMLHFITAKRQPAQGAPQEKTPEVITPPEQGGICSPMTGEIVPLIHVADTTFASGLLGKGIAILPSVGEVRSPVAGRIASLFATLHAIGIESDDGVEILIHVGIDTVKLDGKFFSAHVNVGDKVNTGDRLISFDIPAIREAGFDLTTPVLISNSDDFTDVLPHGTAQISAGEPLLSIIR" "i" "Han et al., 2011" -"BIOTIN-CARBOXYL-MONOMER" "MLDKIVIANRGEIALRILRACKELGIKTVAVHSSADRDLKHVLLADETVCIGPAPSVKSYLNIPAIISAAEITGAVAIHPGYGFLSENANFAEQVERSGFIFIGPKAETIRLMGDKVSAIAAMKKAGVPCVPGSDGPLGDDMDKNRAIAKRIGYPVIIKASGGGGGRGMRVVRGDAELAQSISMTRAEAKAAFSNDMVYMEKYLENPRHVEIQVLADGQGNAIYLAERDCSMQRRHQKVVEEAPAPGITPELRRYIGERCAKACVDIGYRGAGTFEFLFENGEFYFIEMNTRIQVEHPVTEMITGVDLIKEQLRIAAGQPLSIKQEEVHVRGHAVECRINAEDPNTFLPSPGKITRFHAPGGFGVRWESHIYAGYTVPPYYDSMIGKLICYGENRDVAIARMKNALQELIIDGIKTNVDLQIRIMNDENFQHGGTNIHYLEKKLGLQEK" "c" "Lopez-Campistrous et al., 2005" -"BIOTIN-SYN-MONOMER" "MAHRPRWTLSQVTELFEKPLLDLLFEAQQVHRQHFDPRQVQVSTLLSIKTGACPEDCKYCPQSSRYKTGLEAERLMEVEQVLESARKAKAAGSTRFCMGAAWKNPHERDMPYLEQMVQGVKAMGLEACMTLGTLSESQAQRLANAGLDYYNHNLDTSPEFYGNIITTRTYQERLDTLEKVRDAGIKVCSGGIVGLGETVKDRAGLLLQLANLPTPPESVPINMLVKVKGTPLADNDDVDAFDFIRTIAVARIMMPTSYVRLSAGREQMNEQTQAMCFMAGANSIFYGCKLLTTPNPEEDKDLQLFRKLGLNPQQTAVLAGDNEQQQRLEQALMTPDTDEYYNAAAL" "c" "EcoCyc dump" -"BIOTINLIG-MONOMER" "MKDNTVPLKLIALLANGEFHSGEQLGETLGMSRAAINKHIQTLRDWGVDVFTVPGKGYSLPEPIQLLNAKQILGQLDGGSVAVLPVIDSTNQYLLDRIGELKSGDACIAEYQQAGRGRRGRKWFSPFGANLYLSMFWRLEQGPAAAIGLSLVIGIVMAEVLRKLGADKVRVKWPNDLYLQDRKLAGILVELTGKTGDAAQIVIGAGINMAMRRVEESVVNQGWITLQEAGINLDRNTLAAMLIRELRAALELFEQEGLAPYLSRWEKLDNFINRPVKLIIGDKEIFGISRGIDKQGALLLEQDGIIKPWMGGEISLRSAEK" "c" "Han et al., 2011" -"BRANCHED-CHAINAMINOTRANSFER-MONOMER" "MTTKKADYIWFNGEMVRWEDAKVHVMSHALHYGTSVFEGIRCYDSHKGPVVFRHREHMQRLHDSAKIYRFPVSQSIDELMEACRDVIRKNNLTSAYIRPLIFVGDVGMGVNPPAGYSTDVIIAAFPWGAYLGAEALEQGIDAMVSSWNRAAPNTIPTAAKAGGNYLSSLLVGSEARRHGYQEGIALDVNGYISEGAGENLFEVKDGVLFTPPFTSSALPGITRDAIIKLAKELGIEVREQVLSRESLYLADEVFMSGTAAEITPVRSVDGIQVGEGRCGPVTKRIQQAFFGLFTGETEDKWGWLDQVNQ" "c" "Han et al., 2011" -"BRNQ-MONOMER" "MTHQLRSRDIIALGFMTFALFVGAGNIIFPPMVGLQAGEHVWTAAFGFLITAVGLPVLTVVALAKVGGGVDSLSTPIGKVAGVLLATVCYLAVGPLFATPRTATVSFEVGIAPLTGDSALPLFIYSLVYFAIVILVSLYPGKLLDTVGNFLAPLKIIALVILSVAAIVWPAGSISTATEAYQNAAFSNGFVNGYLTMDTLGAMVFGIVIVNAARSRGVTEARLLTRYTVWAGLMAGVGLTLLYLALFRLGSDSASLVDQSANGAAILHAYVQHTFGGGGSFLLAALIFIACLVTAVGLTCACAEFFAQYVPLSYRTLVFILGGFSMVVSNLGLSQLIQISVPVLTAIYPPCIALVVLSFTRSWWHNSSRVIAPPMFISLLFGILDGIKASAFSDILPSWAQRLPLAEQGLAWLMPTVVMVVLAIIWDRAAGRQVTSSAH" "i" "Han et al., 2011" -"BTUC-MONOMER" "MLTLARQQQRQNIRWLLCLSVLMLLALLLSLCAGEQWISPGDWFTPRGELFVWQIRLPRTLAVLLVGAALAISGAVMQALFENPLAEPGLLGVSNGAGVGLIAAVLLGQGQLPNWALGLCAIAGALIITLILLRFARRHLSTSRLLLAGVALGIICSALMTWAIYFSTSVDLRQLMYWMMGGFGGVDWRQSWLMLALIPVLLWICCQSRPMNMLALGEISARQLGLPLWFWRNVLVAATGWMVGVSVALAGAIGFIGLVIPHILRLCGLTDHRVLLPGCALAGASALLLADIVARLALAAAELPIGVVTATLGAPVFIWLLLKAGR" "i" "Han et al., 2011" -"BTUD-MONOMER" "MSIVMQLQDVAESTRLGPLSGEVRAGEILHLVGPNGAGKSTLLARMAGMTSGKGSIQFAGQPLEAWSATKLALHRAYLSQQQTPPFATPVWHYLTLHQHDKTRTELLNDVAGALALDDKLGRSTNQLSGGEWQRVRLAAVVLQITPQANPAGQLLLLDEPMNSLDVAQQSALDKILSALCQQGLAIVMSSHDLNHTLRHAHRAWLLKGGKMLASGRREEVLTPPNLAQAYGMNFRRLDIEGHRMLISTI" "i" "EcoCyc dump" -"BTUE-MONOMER" "MQDSILTTVVKDIDGEVTTLEKFAGNVLLIVNVASKCGLTPQYEQLENIQKAWVDRGFMVLGFPCNQFLEQEPGSDEEIKTYCTTTWGVTFPMFSKIEVNGEGRHPLYQKLIAAAPTAVAPEESGFYARMVSKGRAPLYPDDILWNFEKFLVGRDGKVIQRFSPDMTPEDPIVMESIKLALAK" "c" "Han et al., 2011" -"CADB-MONOMER" "MSSAKKIGLFACTGVVAGNMMGSGIALLPANLASIGGIAIWGWIISIIGAMSLAYVYARLATKNPQQGGPIAYAGEISPAFGFQTGVLYYHANWIGNLAIGITAVSYLSTFFPVLNDPVPAGIACIAIVWVFTFVNMLGGTWVSRLTTIGLVLVLIPVVMTAIVGWHWFDAATYAANWNTADTTDGHAIIKSILLCLWAFVGVESAAVSTGMVKNPKRTVPLATMLGTGLAGIVYIAATQVLSGMYPSSVMAASGAPFAISASTILGNWAAPLVSAFTAFACLTSLGSWMMLVGQAGVRAANDGNFPKVYGEVDSNGIPKKGLLLAAVKMTALMILITLMNSAGGKASDLFGELTGIAVLLTMLPYFYSCVDLIRFEGVNIRNFVSLICSVLGCVFCFIALMGASSFELAGTFIVSLIILMFYARKMHERQSHSMDNHTASNAH" "i" "Han et al., 2011" -"CAIC-MONOMER" "MDIIGGQHLRQMWDDLADVYGHKTALICESSGGVVNRYSYLELNQEINRTANLFYTLGIRKGDKVALHLDNCPEFIFCWFGLAKIGAIMVPINARLLCEESAWILQNSQACLLVTSAQFYPMYQQIQQEDATQLRHICLTDVALPADDGVSSFTQLKNQQPATLCYAPPLSTDDTAEILFTSGTTSRPKGVVITHYNLRFAGYYSAWQCALRDDDVYLTVMPAFHIDCQCTAAMAAFSAGATFVLVEKYSARAFWGQVQKYRATVTECIPMMIRTLMVQPPSANDQQHRLREVMFYLNLSEQEKDAFCERFGVRLLTSYGMTETIVGIIGDRPGDKRRWPSIGRVGFCYEAEIRDDHNRPLPAGEIGEICIKGIPGKTIFKEYFLNPQATAKVLEADGWLHTGDTGYRDEEDFFYFVDRRCNMIKRGGENVSCVELENIIAAHPKIQDIVVVGIKDSIRDEAIKAFVVLNEGETLSEEEFFRFCEQNMAKFKVPSYLEIRKDLPRNCSGKIIRKNLK" "c" "Han et al., 2011" -"CAIE-MONOMER" "VSYYAFEGLIPVVHPTAFVHPSAVLIGDVIVGAGVYIGPLASLRGDYGRLIVQAGANIQDGCIMHGYCDTDTIVGENGHIGHGAILHGCLIGRDALVGMNSVIMDGAVIGEESIVAAMSFVKAGFRGEKRQLLMGTPARAVRNVSDDELHWKRLNTKEYQDLVGRCHVSLHETQPLRQMEENRPRLQGTTDVTPKR" "c" "Han et al., 2011" -"CAIT-MONOMER" "MKNEKRKTGIEPKVFFPPLIIVGILCWLTVRDLDAANVVINAVFSYVTNVWGWAFEWYMVVMLFGWFWLVFGPYAKKRLGNEPPEFSTASWIFMMFASCTSAAVLFWGSIEIYYYISTPPFGLEPNSTGAKELGLAYSLFHWGPLPWATYSFLSVAFAYFFFVRKMEVIRPSSTLVPLVGEKHAKGLFGTIVDNFYLVALIFAMGTSLGLATPLVTECMQWLFGIPHTLQLDAIIITCWIILNAICVACGLQKGVRIASDVRSYLSFLMLGWVFIVSGASFIMNYFTDSVGMLLMYLPRMLFYTDPIAKGGFPQGWTVFYWAWWVIYAIQMSIFLARISRGRTVRELCFGMVLGLTASTWILWTVLGSNTLLLIDKNIINIPNLIEQYGVARAIIETWAALPLSTATMWGFFILCFIATVTLVNACSYTLAMSTCREVRDGEEPPLLVRIGWSILVGIIGIVLLALGGLKPIQTAIIAGGCPLFFVNIMVTLSFIKDAKQNWKD" "i" "Han et al., 2011" -"CARBODEHYDRAT-MONOMER" "VKEIIDGFLKFQREAFPKREALFKQLATQQSPRTLFISCSDSRLVPELVTQREPGDLFVIRNAGNIVPSYGPEPGGVSASVEYAVAALRVSDIVICGHSNCGAMTAIASCQCMDHMPAVSHWLRYADSARVVNEARPHSDLPSKAAAMVRENVIAQLANLQTHPSVRLALEEGRIALHGWVYDIESGSIAAFDGATRQFVPLAANPRVCAIPLRQPTAA" "c" "Han et al., 2011" -"CARBOXYL-TRANSFERASE-ALPHA-MONOMER" "MSLNFLDFEQPIAELEAKIDSLTAVSRQDEKLDINIDEEVHRLREKSVELTRKIFADLGAWQIAQLARHPQRPYTLDYVRLAFDEFDELAGDRAYADDKAIVGGIARLDGRPVMIIGHQKGRETKEKIRRNFGMPAPEGYRKALRLMQMAERFKMPIITFIDTPGAYPGVGAEERGQSEAIARNLREMSRLGVPVVCTVIGEGGSGGALAIGVGDKVNMLQYSTYSVISPEGCASILWKSADKAPLAAEAMGIIAPRLKELKLIDSIIPEPLGGAHRNPEAMAASLKAQLLADLADLDVLSTEDLKNRRYQRLMSYGYA" "c" "Lopez-Campistrous et al., 2005" -"CARBOXYL-TRANSFERASE-BETA-MONOMER" "MSWIERIKSNITPTRKASIPEGVWTKCDSCGQVLYRAELERNLEVCPKCDHHMRMTARNRLHSLLDEGSLVELGSELEPKDVLKFRDSKKYKDRLASAQKETGEKDALVVMKGTLYGMPVVAAAFEFAFMGGSMGSVVGARFVRAVEQALEDNCPLICFSASGGARMQEALMSLMQMAKTSAALAKMQERGLPYISVLTDPTMGGVSASFAMLGDLNIAEPKALIGFAGPRVIEQTVREKLPPGFQRSEFLIEKGAIDMIVRRPEMRLKLASILAKLMNLPAPNPEAPREGVVVPPVPDQEPEA" "c" "Lopez-Campistrous et al., 2005" -"CARBPSYN-LARGE" "MPKRTDIKSILILGAGPIVIGQACEFDYSGAQACKALREEGYRVILVNSNPATIMTDPEMADATYIEPIHWEVVRKIIEKERPDAVLPTMGGQTALNCALELERQGVLEEFGVTMIGATADAIDKAEDRRRFDVAMKKIGLETARSGIAHTMEEALAVAADVGFPCIIRPSFTMGGSGGGIAYNREEFEEICARGLDLSPTKELLIDESLIGWKEYEMEVVRDKNDNCIIVCSIENFDAMGIHTGDSITVAPAQTLTDKEYQIMRNASMAVLREIGVETGGSNVQFAVNPKNGRLIVIEMNPRVSRSSALASKATGFPIAKVAAKLAVGYTLDELMNDITGGRTPASFEPSIDYVVTKIPRFNFEKFAGANDRLTTQMKSVGEVMAIGRTQQESLQKALRGLEVGATGFDPKVSLDDPEALTKIRRELKDAGADRIWYIADAFRAGLSVDGVFNLTNIDRWFLVQIEELVRLEEKVAEVGITGLNADFLRQLKRKGFADARLAKLAGVREAEIRKLRDQYDLHPVYKRVDTCAAEFATDTAYMYSTYEEECEANPSTDREKIMVLGGGPNRIGQGIEFDYCCVHASLALREDGYETIMVNCNPETVSTDYDTSDRLYFEPVTLEDVLEIVRIEKPKGVIVQYGGQTPLKLARALEAAGVPVIGTSPDAIDRAEDRERFQHAVERLKLKQPANATVTAIEMAVEKAKEIGYPLVVRPSYVLGGRAMEIVYDEADLRRYFQTAVSVSNDAPVLLDHFLDDAVEVDVDAICDGEMVLIGGIMEHIEQAGVHSGDSACSLPAYTLSQEIQDVMRQQVQKLAFELQVRGLMNVQFAVKNNEVYLIEVNPRAARTVPFVSKATGVPLAKVAARVMAGKSLAEQGVTKEVIPPYYSVKEVVLPFNKFPGVDPLLGPEMRSTGEVMGVGRTFAEAFAKAQLGSNSTMKKHGRALLSVREGDKERVVDLAAKLLKQGFELDATHGTAIVLGEAGINPRLVNKVHEGRPHIQDRIKNGEYTYIINTTSGRRAIEDSRVIRRSALQYKVHYDTTLNGGFATAMALNADATEKVISVQEMHAQIK" "c" "Han et al., 2011" -"CARBPSYN-SMALL" "LIKSALLVLEDGTQFHGRAIGATGSAVGEVVFNTSMTGYQEILTDPSYSRQIVTLTYPHIGNVGTNDADEESSQVHAQGLVIRDLPLIASNFRNTEDLSSYLKRHNIVAIADIDTRKLTRLLREKGAQNGCIIAGDNPDAALALEKARAFPGLNGMDLAKEVTTAEAYSWTQGSWTLTGGLPEAKKEDELPFHVVAYDFGAKRNILRMLVDRGCRLTIVPAQTSAEDVLKMNPDGIFLSNGPGDPAPCDYAITAIQKFLETDIPVFGICLGHQLLALASGAKTVKMKFGHHGGNHPVKDVEKNVVMITAQNHGFAVDEATLPANLRVTHKSLFDGTLQGIHRTDKPAFSFQGHPEASPGPHDAAPLFDHFIELIEQYRKTAK" "c" "Lopez-Campistrous et al., 2005" -"CARDIOLIPSYN-MONOMER" "MTTVYTLVSWLAILGYWLLIAGVTLRILMKRRAVPSAMAWLLIIYILPLVGIIAYLAVGELHLGKRRAERARAMWPSTAKWLNDLKACKHIFAEENSSVAAPLFKLCERRQGIAGVKGNQLQLMTESDDVMQALIRDIQLARHNIEMVFYIWQPGGMADQVAESLMAAARRGIHCRLMLDSAGSVAFFRSPWPELMRNAGIEVVEALKVNLMRVFLRRMDLRQHRKMIMIDNYIAYTGSMNMVDPRYFKQDAGVGQWIDLMARMEGPIATAMGIIYSCDWEIETGKRILPPPPDVNIMPFEQASGHTIHTIASGPGFPEDLIHQALLTAAYSAREYLIMTTPYFVPSDDLLHAICTAAQRGVDVSIILPRKNDSMLVGWASRAFFTELLAAGVKIYQFEGGLLHTKSVLVDGELSLVGTVNLDMRSLWLNFEITLAIDDKGFGADLAAVQDDYISRSRLLDARLWLKRPLWQRVAERLFYFFSPLL" "i" "Han et al., 2011" -"CARNDEHYDRA-MONOMER" "MDHLPMPKFGPLAGLRVVFSGIEIAGPFAGQMFAEWGAEVIWIENVAWADTIRVQPNYPQLSRRNLHALSLNIFKDEGREAFLKLMETTDIFIEASKGPAFARRGITDEVLWQHNPKLVIAHLSGFGQYGTEEYTNLPAYNTIAQAFSGYLIQNGDVDQPMPAFPYTADYFSGLTATTAALAALHKVRETGKGESIDIAMYEVMLRMGQYFMMDYFNGGEMCPRMSKGKDPYYAGCGLYKCADGYIVMELVGITQIEECFKDIGLAHLLGTPEIPEGTQLIHRIECPYGPLVEEKLDAWLATHTIAEVKERFAELNIACAKVLTVPELESNPQYVARESITQWQTMDGRTCKGPNIMPKFKNNPGQIWRGMPSHGMDTAAILKNIGYSENDIQELVSKGLAKVED" "c" "Unambiguous EcoCyc data" -"CARNRACE-MONOMER" "MSESLHLTRNGSILEITLDRPKANAIDAKTSFEMGEVFLNFRDDPQLRVAIITGAGEKFFSAGWDLKAAAEGEAPDADFGPGGFAGLTEIFNLDKPVIAAVNGYAFGGGFELALAADFIVCADNASFALPEAKLGIVPDSGGVLRLPKILPPAIVNEMVMTGRRMGAEEALRWGIVNRVVSQAELMDNARELAQQLVNSAPLAIAALKEIYRTTSEMPVEEAYRYIRSGVLKHYPSVLHSEDAIEGPLAFAEKRDPVWKGR" "c" "Han et al., 2011" -"CCMA-MONOMER" "VGMLEARELLCERDERTLFSGLSFTLNAGEWVQITGSNGAGKTTLLRLLTGLSRPDAGEVLWQGQPLHQVRDSYHQNLLWIGHQPGIKTRLTALENLHFYHRDGDTAQCLEALAQAGLAGFEDIPVNQLSAGQQRRVALARLWLTRATLWILDEPFTAIDVNGVDRLTQRMAQHTEQGGIVILTTHQPLNVAESKIRRISLTQTRAA" "i" "Han et al., 2011" -"CCMB-MONOMER" "MMFWRIFRLELRVAFRHSAEIANPLWFFLIVITLFPLSIGPEPQLLARIAPGIIWVAALLSSLLALERLFRDDLQDGSLEQLMLLPLPLPAVVLAKVMAHWMVTGLPLLILSPLVAMLLGMDVYGWQVMALTLLLGTPTLGFLGAPGVALTVGLKRGGVLLSILVLPLTIPLLIFATAAMDAASMHLPVDGYLAILGALLAGTATLSPFATAAALRISIQ" "i" "Han et al., 2011" -"CCMC-MONOMER" "MWKTLHQLAIPPRLYQICGWFIPWLAIASVVVLTVGWIWGFGFAPADYQQGNSYRIIYLHVPAAIWSMGIYASMAVAAFIGLVWQMKMANLAVAAMAPIGAVFTFIALVTGSAWGKPMWGTWWVWDARLTSELVLLFLYVGVIALWHAFDDRRLAGRAAGILVLIGVVNLPIIHYSVEWWNTLHQGSTRMQQSIDPAMRSPLRWSIFGFLLLSATLTLMRMRNLILLMEKRRPWVSELILKRGRK" "i" "Han et al., 2011" -"CCME-MONOMER" "MNIRRKNRLWIACAVLAGLALTIGLVLYALRSNIDLFYTPGEILYGKRETQQMPEVGQRLRVGGMVMPGSVQRDPNSLKVTFTIYDAEGSVDVSYEGILPDLFREGQGVVVQGELEKGNHILAKEVLAKHDENYTPPEVEKAMEANHRRPASVYKDPAS" "i" "Han et al., 2011" -"CDPDIGLYPYPHOSPHA-MONOMER" "MKKAGLLFLVMIVIAVVAAGIGYWKLTGEESDTLRKIVLEECLPNQQQNQNPSPCAEVKPNAGYVVLKDLNGPLQYLLMPTYRINGTESPLLTDPSTPNFFWLAWQARDFMSKKYGQPVPDRAVSLAINSRTGRTQNHFHIHISCIRPDVRKQLDNNLANISSRWLPLPGGLRGHEYLARRVTESELVQRSPFMMLAEEVPEAREHMGRYGLAMVRQSDNSFVLLATQRNLLTLNRASAEEIQDHQCEILR" "i" "Han et al., 2011" -"CDPDIGLYSYN-MONOMER" "LLKYRLISAFVLIPVVIAALFLLPPVGFAIVTLVVCMLAAWEWGQLSGFTTRSQRVWLAVLCGLLLALMLFLLPEYHRNIHQPLVEISLWASLGWWIVALLLVLFYPGSAAIWRNSKTLRLIFGVLTIVPFFWGMLALRAWHYDENHYSGAIWLLYVMILVWGADSGAYMFGKLFGKHKLAPKVSPGKTWQGFIGGLATAAVISWGYGMWANLDVAPVTLLICSIVAALASVLGDLTESMFKREAGIKDSGHLIPGHGGILDRIDSLTAAVPVFACLLLLVFRTL" "i" "Han et al., 2011" -"CELA-MONOMER" "MEKKHIYLFCSAGMSTSLLVSKMRAQAEKYEVPVIIEAFPETLAGEKGQNADVVLLGPQIAYMLPEIQRLLPNKPVEVIDSLLYGKVDGLGVLKAAVAAIKKAAAN" "c" "Han et al., 2011" -"CELB-MONOMER" "MSNVIASLEKVLLPFAVKIGKQPHVNAIKNGFIRLMPLTLAGAMFVLINNVFLSFGEGSFFYSLGIRLDASTIETLNGLKGIGGNVYNGTLGIMSLMAPFFIGMALAEERKVDALAAGLLSVAAFMTVTPYSVGEAYAVGANWLGGANIISGIIIGLVVAEMFTFIVRRNWVIKLPDSVPASVSRSFSALIPGFIILSVMGIIAWALNTWGTNFHQIIMDTISTPLASLGSVVGWAYVIFVPLLWFFGIHGALALTALDNGIMTPWALENIATYQQYGSVEAALAAGKTFHIWAKPMLDSFIFLGGSGATLGLILAIFIASRRADYRQVAKLALPSGIFQINEPILFGLPIIMNPVMFIPFVLVQPILAAITLAAYYMGIIPPVTNIAPWTMPTGLGAFFNTNGSVAALLVALFNLGIATLIYLPFVVVANKAQNAIDKEESEEDIANALKF" "i" "Han et al., 2011" -"CELC-MONOMER" "MMDLDNIPDTQTEAEELEEVVMGLIINSGQARSLAYAALKQAKQGDFAAAKAMMDQSRMALNEAHLVQTKLIEGDAGEGKMKVSLVLVHAQDHLMTSMLARELITELIELHEKLKA" "c" "Han et al., 2011" -"CFA-MONOMER" "MSSSCIEEVSVPDDNWYRIANELLSRAGIAINGSAPADIRVKNPDFFKRVLQEGSLGLGESYMDGWWECDRLDMFFSKVLRAGLENQLPHHFKDTLRIAGARLFNLQSKKRAWIVGKEHYDLGNDLFSRMLDPFMQYSCAYWKDADNLESAQQAKLKMICEKLQLKPGMRVLDIGCGWGGLAHYMASNYDVSVVGVTISAEQQKMAQERCEGLDVTILLQDYRDLNDQFDRIVSVGMFEHVGPKNYDTYFAVVDRNLKPEGIFLLHTIGSKKTDLNVDPWINKYIFPNGCLPSVRQIAQSSEPHFVMEDWHNFGADYDTTLMAWYERFLAAWPEIADNYSERFKRMFTYYLNACAGAFRARDIQLWQVVFSRGVENGLRVAR" "i" "EcoCyc dump" -"CHAA-MONOMER" "MSNAQEAVKTRHKETSLIFPVLALVVLFLWGSSQTLPVVIAINLLALIGILSSAFSVVRHADVLAHRLGEPYGSLILSLSVVILEVSLISALMATGDAAPTLMRDTLYSIIMIVTGGLVGFSLLLGGRKFATQYMNLFGIKQYLIALFPLAIIVLVFPMALPAANFSTGQALLVALISAAMYGVFLLIQTKTHQSLFVYEHEDDSDDDDPHHGKPSAHSSLWHAIWLIIHLIAVIAVTKMNASSLETLLDSMNAPVAFTGFLVALLILSPEGLGALKAVLNNQVQRAMNLFFGSVLATISLTVPVVTLIAFMTGNELQFALGAPEMVVMVASLVLCHISFSTGRTNVLNGAAHLALFAAYLMTIFA" "i" "Han et al., 2011" -"CHAINF-MONOMER" "MSDLYKKHFLKLLDFTPAQFTSLLTLAAQLKADKKNGKEVQKLTGKNIALIFEKDSTRTRCSFEVAAFDQGARVTYLGPSGSQIGHKESIKDTARVLGRMYDGIQYRGHGQEVVETLAQYAGVPVWNGLTNEFHPTQLLADLMTMQEHLPGKAFNEMTLVYAGDARNNMGNSMLEAAALTGLDLRLLAPKACWPEESLVAECSALAEKHGGKITLTEDVAAGVKGADFIYTDVWVSMGEAKEKWAERIALLRGYQVNAQMMALTDNPNVKFLHCLPAFHDDQTTLGKQMAKEFDLHGGMEVTDEVFESAASIVFDQAENRMHTIKAVMMATLGE" "c" "Unambiguous EcoCyc data" -"CHAINI-MONOMER" "MSGFYHKHFLKLLDFTPAELNSLLQLAAKLKADKKSGKEEAKLTGKNIALIFEKDSTRTRCSFEVAAYDQGARVTYLGPSGSQIGHKESIKDTARVLGRMYDGIQYRGYGQEIVETLAEYASVPVWNGLTNEFHPTQLLADLLTMQEHLPGKAFNEMTLVYAGDARNNMGNSMLEAAALTGLDLRLVAPQACWPEAALVTECRALAQQNGGNITLTEDVAKGVEGADFIYTDVWVSMGEAKEKWAERIALLREYQVNSKMMQLTGNPEVKFLHCLPAFHDDQTTLGKKMAEEFGLHGGMEVTDEVFESAASIVFDQAENRMHTIKAVMVATLSK" "c" "Han et al., 2011" -"CHD-MONOMER" "LQFDYIIIGAGSAGNVLATRLTEDPNTSVLLLEAGGPDYRFDFRTQMPAALAFPLQGKRYNWAYETEPEPFMNNRRMECGRGKGLGGSSLINGMCYIRGNALDLDNWAQEPGLENWSYLDCLPYYRKAETRDMGENDYHGGDGPVSVTTSKPGVNPLFEAMIEAGVQAGYPRTDDLNGYQQEGFGPMDRTVTPQGRRASTARGYLDQAKSRPNLTIRTHAMTDHIIFDGKRAVGVEWLEGDSTIPTRATANKEVLLCAGAIASPQILQRSGVGNAELLAEFDIPLVHELPGVGENLQDHLEMYLQYECKEPVSLYPALQWWNQPKIGAEWLFGGTGVGASNHFEAGGFIRSREEFAWPNIQYHFLPVAINYNGSNAVKEHGFQCHVGSMRSPSRGHVRIKSRDPHQHPAILFNYMSHEQDWQEFRDAIRITREIMHQPALDQYRGREISPGVECQTDEQLDEFVRNHAETAFHPCGTCKMGYDEMSVVDGEGRVHGLEGLRVVDASIMPQIITGNLNATTIMIGEKIADMIRGQEALPRSTAGYFVANGMPVRAKK" "c" "Han et al., 2011" -"CHEB-MONOMER" "MSKIRVLSVDDSALMRQIMTEIINSHSDMEMVATAPDPLVARDLIKKFNPDVLTLDVEMPRMDGLDFLEKLMRLRPMPVVMVSSLTGKGSEVTLRALELGAIDFVTKPQLGIREGMLAYNEMIAEKVRTAAKASLAAHKPLSAPTTLKAGPLLSSEKLIAIGASTGGTEAIRHVLQPLPLSSPALLITQHMPPGFTRSFADRLNKLCQIGVKEAEDGERVLPGHAYIAPGDRHMELSRSGANYQIKIHDGPAVNRHRPSVDVLFHSVAKQAGRNAVGVILTGMGNDGAAGMLAMRQAGAWTLAQNEASCVVFGMPREAINMGGVCEVVDLSQVSQQMLAKISAGQAIRI" "c" "Han et al., 2011" -"CHER-MONOMER" "MTSSLPCGQTSLLLQMTERLALSDAHFRRISQLIYQRAGIVLADHKRDMVYNRLVRRLRSLGLTDFGHYLNLLESNQHSGEWQAFINSLTTNLTAFFREAHHFPLLADHARRRSGEYRVWSAAASTGEEPYSIAMTLADTLGTAPGRWKVFASDIDTEVLEKARSGIYRHEELKNLTPQQLQRYFMRGTGPHEGLVRVRQELANYVDFAPLNLLAKQYTVPGPFDAIFCRNVMIYFDQTTQQEILRRFVPLLKPDGLLFAGHSENFSHLERRFTLRGQTVYALSKD" "c" "Han et al., 2011" -"CHEW-MONOMER" "MTGMTNVTKLASEPSGQEFLVFTLGDEEYGIDILKVQEIRGYDQVTRIANTPAFIKGVTNLRGVIVPIVDLRIKFSQVDVDYNDNTVVIVLNLGQRVVGIVVDGVSDVLSLTAEQIRPAPEFAVTLSTEYLTGLGALGDRMLILVNIEKLLNSEEMALLDSAASEVA" "c" "Han et al., 2011" -"CHEY-MONOMER" "MADKELKFLVVDDFSTMRRIVRNLLKELGFNNVEEAEDGVDALNKLQAGGYGFVISDWNMPNMDGLELLKTIRADGAMSALPVLMVTAEAKKENIIAAAQAGASGYVVKPFTAATLEEKLNKIFEKLGM" "c" "Han et al., 2011" -"CHEZ-MONOMER" "MMQPSIKPADEHSAGDIIARIGSLTRMLRDSLRELGLDQAIAEAAEAIPDARDRLYYVVQMTAQAAERALNSVEASQPHQDQMEKSAKALTQRWDDWFADPIDLADARELVTDTRQFLADVPAHTSFTNAQLLEIMMAQDFQDLTGQVIKRMMDVIQEIERQLLMVLLENIPEQESRPKRENQSLLNGPQVDTSKAGVVASQDQVDDLLDSLGF" "s" "EcoCyc dump" -"CHORISMUTPREPHENDEHYDRAT-MONOMER" "MTSENPLLALREKISALDEKLLALLAERRELAVEVGKAKLLSHRPVRDIDRERDLLERLITLGKAHHLDAHYITRLFQLIIEDSVLTQQALLQQHLNKINPHSARIAFLGPKGSYSHLAARQYAARHFEQFIESGCAKFADIFNQVETGQADYAVVPIENTSSGAINDVYDLLQHTSLSIVGEMTLTIDHCLLVSGTTDLSTINTVYSHPQPFQQCSKFLNRYPHWKIEYTESTSAAMEKVAQAKSPHVAALGSEAGGTLYGLQVLERIEANQRQNFTRFVVLARKAINVSDQVPAKTTLLMATGQQAGALVEALLVLRNHNLIMTRLESRPIHGNPWEEMFYLDIQANLESAEMQKALKELGEITRSMKVLGCYPSENVVPVDPT" "c" "Han et al., 2011" -"CHORISMUTPREPHENDEHYDROG-MONOMER" "MVAELTALRDQIDEVDKALLNLLAKRLELVAEVGEVKSRFGLPIYVPEREASMLASRRAEAEALGVPPDLIEDVLRRVMRESYSSENDKGFKTLCPSLRPVVIVGGGGQMGRLFEKMLTLSGYQVRILEQHDWDRAADIVADAGMVIVSVPIHVTEQVIGKLPPLPKDCILVDLASVKNGPLQAMLVAHDGPVLGLHPMFGPDSGSLAKQVVVWCDGRKPEAYQWFLEQIQVWGARLHRISAVEHDQNMAFIQALRHFATFAYGLHLAEENVQLEQLLALSSPIYRLELAMVGRLFAQDPQLYADIIMSSERNLALIKRYYKRFGEAIELLEQGDKQAFIDSFRKVEHWFGDYAQRFQSESRVLLRQANDNRQ" "c" "Han et al., 2011" -"CHORPYRLY-MONOMER" "MSHPALTQLRALRYCKEIPALDPQLLDWLLLEDSMTKRFEQQGKTVSVTMIREGFVEQNEIPEELPLLPKESRYWLREILLCADGEPWLAGRTVVPVSTLSGPELALQKLGKTPLGRYLFTSSTLTRDFIEIGRDAGLWGRRSRLRLSGKPLLLTELFLPASPLY" "c" "Han et al., 2011" -"CITC-MONOMER" "MFGNDIFTRVKRSENKKMAEIAQFLHENDLSVDTTVEVFITVTRDEKLIACGGIAGNIIKCVAISESVRGEGLALTLATELINLAYERHSTHLFIYTKTEYEALFRQCGFSTLTSVPGVMVLMENSATRLKRYAESLKKFRHPGNKIGCIVMNANPFTNGHRYLIQQAAAQCDWLHLFLVKEDSSRFPYEDRLDLVLKGTADIPRLTVHRGSEYIISRATFPCYFIKEQSVINHCYTEIDLKIFRQYLAPALGVTHRFVGTEPFCRVTAQYNQDMRYWLETPTISAPPIELVEIERLRYQEMPISASRVRQLLAKNDLTAIAPLVPAVTLHYLQNLLEHSRQDAAARQKTPA" "c" "Han et al., 2011" -"CITRYLY-MONOMER" "MISASLQQRKTRTRRSMLFVPGANAAMVSNSFIYPADALMFDLEDSVALREKDTARRMVYHALQHPLYRDIETIVRVNALDSEWGVNDLEAVVRGGADVVRLPKTDTAQDVLDIEKEILRIEKACGREPGSTGLLAAIESPLGITRAVEIAHASERLIGIALGAEDYVRNLRTERSPEGTELLFARCSILQAARSAGIQAFDTVYSDANNEAGFLQEAAHIKQLGFDGKSLINPRQIDLLHNLYAPTQKEVDHARRVVEAAEAAAREGLGVVSLNGKMVDGPVIDRARLVLSRAELSGIREE" "c" "Han et al., 2011" -"CITSYN-MONOMER" "MADTKAKLTLNGDTAVELDVLKGTLGQDVIDIRTLGSKGVFTFDPGFTSTASCESKITFIDGDEGILLHRGFPIDQLATDSNYLEVCYILLNGEKPTQEQYDEFKTTVTRHTMIHEQITRLFHAFRRDSHPMAVMCGITGALAAFYHDSLDVNNPRHREIAAFRLLSKMPTMAAMCYKYSIGQPFVYPRNDLSYAGNFLNMMFSTPCEPYEVNPILERAMDRILILHADHEQNASTSTVRTAGSSGANPFACIAAGIASLWGPAHGGANEAALKMLEEISSVKHIPEFVRRAKDKNDSFRLMGFGHRVYKNYDPRATVMRETCHEVLKELGTKDDLLEVAMELENIALNDPYFIEKKLYPNVDFYSGIILKAMGIPSSMFTVIFAMARTVGWIAHWSEMHSDGMKIARPRQLYTGYEKRDFKSDIKR" "c" "Lopez-Campistrous et al., 2005" -"CITTRANS-MONOMER" "MTQKIEQSQRQERVAAWNRRAECDLAAFQNSPKQTYQAEKARDRKLCANLEEAIRRSGLQDGMTVSFHHAFRGGDLTVNMVMDVIAKMGFKNLTLASSSLSDCHAPLVEHIRQGVVTRIYTSGLRGPLAEEISRGLLAEPVQIHSHGGRVHLVQSGELNIDVAFLGVPSCDEFGNANGYTGKACCGSLGYAIVDADNAKQVVMLTEELLPYPHNPASIEQDQVDLIVKVDRVGDAAKIGAGATRMTTNPRELLIARSAADVIVNSGYFKEGFSMQTGTGGASLAVTRFLEDKMRSRDIRADFALGGITATMVDLHEKGLIRKLLDVQSFDSHAAQSLARNPNHIEISANQYANWGSKGASVDRLDVVVLSALEIDTQFNVNVLTGSDGVLRGASGGHCDTAIASALSIIVAPLVRGRIPTLVDNVLTCITPGSSVDILVTDHGIAVNPARPELAERLQEAGIKVVSIEWLRERARLLTGEPQPIEFTDRVVAVVRYRDGSVIDVVHQVKE" "c" "Han et al., 2011" -"CMPKI-MONOMER" "MTAIAPVITIDGPSGAGKGTLCKAMAEALQWHLLDSGAIYRVLALAALHHHVDVASEDALVPLASHLDVRFVSTNGNLEVILEGEDVSGEIRTQEVANAASQVAAFPRVREALLRRQRAFRELPGLIADGRDMGTVVFPDAPVKIFLDASSEERAHRRMLQLQEKGFSVNFERLLAEIKERDDRDRNRAVAPLVPAADALVLDSTTLSIEQVIEKALQYARQKLALA" "c" "Lopez-Campistrous et al., 2005" -"CMR-MONOMER" "MQNKLASGARLGRQALLFPLCLVLYEFSTYIGNDMIQPGMLAVVEQYQAGIDWVPTSMTAYLAGGMFLQWLLGPLSDRIGRRPVMLAGVVWFIVTCLAILLAQNIEQFTLLRFLQGISLCFIGAVGYAAIQESFEEAVCIKITALMANVALIAPLLGPLVGAAWIHVLPWEGMFVLFAALAAISFFGLQRAMPETATRIGEKLSLKELGRDYKLVLKNGRFVAGALALGFVSLPLLAWIAQSPIIIITGEQLSSYEYGLLQVPIFGALIAGNLLLARLTSRRTVRSLIIMGGWPIMIGLLVAAAATVISSHAYLWMTAGLSIYAFGIGLANAGLVRLTLFASDMSKGTVSAAMGMLQMLIFTVGIEISKHAWLNGGNGLFNLFNLVNGILWLSLMVIFLKDKQMGNSHEG" "i" "Han et al., 2011" -"CMTA-MONOMER" "MENKSARAKVQAFGGFLTAMVIPNIGAFIAWGFITALFIPTGWLPNEHFAKIVGPMITYLLPVMIGSTGGHLVGGKRGAVMGGIGTIGVIVGAEIPMFLGSMIMGPLGGLVIKYVDKALEKRIPAGFEMVINNFSLGIAGMLLCLLGFEVIGPAVLIANTFVKECIEALVHAGYLPLLSVINEPAKVLFLNNAIDQGVYYPLGMQQASVNGKSIFFMVASNPGPGLGLLLAFTLFGKGMSKRSAPGAMIIHFLGGIHELYFPYVLMKPLTIIAMIAGGMSGTWMFNLLDGGLVAGPSPGSIFAYLALTPKGSFLATIAGVTVGTLVSFAITSLILKMEKTVETESEDEFAQSANAVKAMKQEGAFSLSRVKRIAFVCDAGMGSSAMGATTFRKRLEKAGLAIEVKHYAIENVPADADIVVTHASLEGRVKRVTDKPLILINNYIGDPKLDTLFNQLTAEHKH" "i" "Han et al., 2011" -"CMTB-MONOMER" "MRLSDYFPESSISVIHSAKDWQEAIDFSMVSLLDKNYISENYIQAIKDSTINNGPYYILAPGVAMPHARPECGALKTGMSLTLLEQGVYFPGNDEPIKLLIGLSAADADSHIGAIQALSELLCEEEILEQLLTASSEKQLADIISRG" "c" "Han et al., 2011" -"COBALADENOSYLTRANS-MONOMER" "MSDERYQQRQQRVKEKVDARVAQAQDERGIIIVFTGNGKGKTTAAFGTATRAVGHGKKVGVVQFIKGTWPNGERNLLEPHGVEFQVMATGFTWDTQNRESDTAACREVWQHAKRMLADSSLDMVLLDELTYMVAYDYLPLEEVVQALNERPHQQTVIITGRGCHRDILELADTVSELRPVKHAFDAGVKAQIGIDY" "c" "Han et al., 2011" -"COBS-MONOMER" "MSKLFWAMLSFITRLPVPRRWSQGLDFEHYSRGIITFPLIGLLLGAISGLVFMVLQAWCGAPLAALFSVLVLVLMTGGFHLDGLADTCDGVFSARSRDRMLEIMRDSRLGTHGGLALIFVVLAKILVLSELALRGESILASLAAACAVSRGTAALLMYRHRYAREEGLGNVFIGKIDGRQTCVTLGLAAIFAAVLLPGMHGVAAMVVTMVAIFILGQLLKRTLGGQTGDTLGAAIELGELVFLLALL" "i" "Han et al., 2011" -"COBU-MONOMER" "MMILVTGGARSGKSRHAEALIGDSSQVLYIATSQILDDEMAARIEHHRQGRPEHWRTVERWQHLDELIHADINPNEVVLLECVTTMVTNLLFDYGGDKDPDEWDYQAMEQAINAEIQSLIAACQRCPAKVVLVTNEVGMGIVPESRLARHFRDIAGRVNQQLAAAANEVWLVVSGIGVKIK" "c" "Han et al., 2011" -"CODB-MONOMER" "VSQDNNFSQGPVPQSARKGVLALTFVMLGLTFFSASMWTGGTLGTGLSYHDFFLAVLIGNLLLGIYTSFLGYIGAKTGLTTHLLARFSFGVKGSWLPSLLLGGTQVGWFGVGVAMFAIPVGKATGLDINLLIAVSGLLMTVTVFFGISALTVLSVIAVPAIACLGGYSVWLAVNGMGGLDALKAVVPAQPLDFNVALALVVGSFISAGTLTADFVRFGRNAKLAVLVAMVAFFLGNSLMFIFGAAGAAALGMADISDVMIAQGLLLPAIVVLGLNIWTTNDNALYASGLGFANITGMSSKTLSVINGIIGTVCALWLYNNFVGWLTFLSAAIPPVGGVIIADYLMNRRRYEHFATTRMMSVNWVAILAVALGIAAGHWLPGIVPVNAVLGGALSYLILNPILNRKTTAAMTHVEANSVE" "i" "Han et al., 2011" -"COPROGENOXI-MONOMER" "MKPDAHQVKQFLLNLQDTICQQLTAVDGAEFVEDSWQREAGGGGRSRVLRNGGVFEQAGVNFSHVHGEAMPASATAHRPELAGRSFEAMGVSLVVHPHNPYVPTSHANVRFFIAEKPGADPVWWFGGGFDLTPFYGFEEDAIHWHRTARDLCLPFGEDVYPRYKKWCDEYFYLKHRNEQRGIGGLFFDDLNTPDFDRCFAFMQAVGKGYTDAYLPIVERRKAMAYGERERNFQLYRRGRYVEFNLVWDRGTLFGLQTGGRTESILMSMPPLVRWEYDYQPKDGSPEAALSEFIKVRDWV" "c" "Han et al., 2011" -"CORA-MONOMER" "MLSAFQLENNRLTRLEVEESQPLVNAVWIDLVEPDDDERLRVQSELGQSLATRPELEDIEASARFFEDDDGLHIHSFFFFEDAEDHAGNSTVAFTIRDGRLFTLRERELPAFRLYRMRARSQSMVDGNAYELLLDLFETKIEQLADEIENIYSDLEQLSRVIMEGHQGDEYDEALSTLAELEDIGWKVRLCLMDTQRALNFLVRKARLPGGQLEQAREILRDIESLLPHNESLFQKVNFLMQAAMGFINIEQNRIIKIFSVVSVVFLPPTLVASSYGMNFEFMPELKWSFGYPGAIIFMILAGLAPYLYFKRKNWL" "c" "Han et al., 2011" -"CPDB-MONOMER" "MIKFSATLLATLIAASVNAATVDLRIMETTDLHSNMMDFDYYKDTATEKFGLVRTASLINDARNEVKNSVLVDNGDLIQGSPLADYMSAKGLKAGDIHPVYKALNTLDYTVGTLGNHEFNYGLDYLKNALAGAKFPYVNANVIDARTKQPMFTPYLIKDTEVVDKDGKKQTLKIGYIGVVPPQIMGWDKANLSGKVTVNDITETVRKYVPEMREKGADVVVVLAHSGLSADPYKVMAENSVYYLSEIPGVNAIMFGHAHAVFPGKDFADIEGADIAKGTLNGVPAVMPGMWGDHLGVVDLQLSNDSGKWQVTQAKAEARPIYDIANKKSLAAEDSKLVETLKADHDATRQFVSKPIGKSADNMYSYLALVQDDPTVQVVNNAQKAYVEHYIQGDPDLAKLPVLSAAAPFKVGGRKNDPASYVEVEKGQLTFRNAADLYLYPNTLIVVKASGKEVKEWLECSAGQFNQIDPNSTKPQSLINWDGFRTYNFDVIDGVNYQIDVTQPARYDGECQMINANAERIKNLTFNGKPIDPNAMFLVATNNYRAYGGKFAGTGDSHIAFASPDENRSVLAAWIADESKRAGEIHPAADNNWRLAPIAGDKKLDIRFETSPSDKAAAFIKEKGQYPMNKVATDDIGFAIYQVDLSK" "p" "Han et al., 2011" -"CPM-KDOSYNTH-MONOMER" "MSFVVIIPARYASTRLPGKPLVDINGKPMIVHVLERARESGAERIIVATDHEDVARAVEAAGGEVCMTRADHQSGTERLAEVVEKCAFSDDTVIVNVQGDEPMIPATIIRQVADNLAQRQVGMATLAVPIHNAEEAFNPNAVKVVLDAEGYALYFSRATIPWDRDRFAEGLETVGDNFLRHLGIYGYRAGFIRRYVNWQPSPLEHIEMLEQLRVLWYGEKIHVAVAQEVPGTGVDTPEDLERVRAEMR" "c" "Han et al., 2011" -"CPXA-MONOMER" "MIGSLTARIFAIFWLTLALVLMLVLMLPKLDSRQMTELLDSEQRQGLMIEQHVEAELANDPPNDLMWWRRLFRAIDKWAPPGQRLLLVTTEGRVIGAERSEMQIIRNFIGQADNADHPQKKKYGRVELVGPFSVRDGEDNYQLYLIRPASSSQSDFINLLFDRPLLLLIVTMLVSTPLLLWLAWSLAKPARKLKNAADEVAQGNLRQHPELEAGPQEFLAAGASFNQMVTALERMMTSQQRLLSDISHELRTPLTRLQLGTALLRRRSGESKELERIETEAQRLDSMINDLLVMSRNQQKNALVSETIKANQLWSEVLDNAAFEAEQMGKSLTVNFPPGPWPLYGNPNALESALENIVRNALRYSHTKIEVGFAVDKDGITITVDDDGPGVSPEDREQIFRPFYRTDEARDRESGGTGLGLAIVETAIQQHRGWVKAEDSPLGGLRLVIWLPLYKRS" "i" "Han et al., 2011" -"CPXR-MONOMER" "MNKILLVDDDRELTSLLKELLEMEGFNVIVAHDGEQALDLLDDSIDLLLLDVMMPKKNGIDTLKALRQTHQTPVIMLTARGSELDRVLGLELGADDYLPKPFNDRELVARIRAILRRSHWSEQQQNNDNGSPTLEVDALVLNPGRQEASFDGQTLELTGTEFTLLYLLAQHLGQVVSREHLSQEVLGKRLTPFDRAIDMHISNLRRKLPDRKDGHPWFKTLRGRGYLMVSAS" "c" "Han et al., 2011" -"CREB-MONOMER" "MQRETVWLVEDEQGIADTLVYMLQQEGFAVEVFERGLPVLDKARKQVPDVMILDVGLPDISGFELCRQLLALHPALPVLFLTARSEEVDRLLGLEIGADDYVAKPFSPREVCARVRTLLRRVKKFSTPSPVIRIGHFELNEPAAQISWFDTPLALTRYEFLLLKTLLKSPGRVWSRQQLMDSVWEDAQDTYDRTVDTHIKTLRAKLRAINPDLSPINTHRGMGYSLRGL" "c" "Han et al., 2011" -"CREC-MONOMER" "MRIGMRLLLGYFLLVAVAAWFVLAIFVKEVKPGVRRATEGTLIDTATLLAELARPDLLSGDPTHGQLAQAFNQLQHRPFRANIGGINKVRNEYHVYMTDAQGKVLFDSANKAVGQDYSRWNDVWLTLRGQYGARSTLQNPADPESSVMYVAAPIMDGSRLIGVLSVGKPNAAMAPVIKRSERRILWASAILLGIALVIGAGMVWWINRSIARLTRYADSVTDNKPVPLPDLGSSELRKLAQALESMRVKLEGKNYIEQYVYALTHELKSPLAAIRGAAEILREGPPPEVVARFTDNILTQNARMQALVETLLRQARLENRQEVVLTAVDVAALFRRVSEARTVQLAEKKITLHVTPTEVNVAAEPALLEQALGNLLDNAIDFTPESGCITLSAEVDQEHVTLKVLDTGSGIPDYALSRIFERFYSLPRANGQKSSGLGLAFVSEVARLFNGEVTLRNVQEGGVLASLRLHRHFT" "i" "Han et al., 2011" -"CROBETREDUCT-MONOMER" "MDFNLNDEQELFVAGIRELMASENWEAYFAECDRDSVYPERFVKALADMGIDSLLIPEEHGGLDAGFVTLAAVWMELGRLGAPTYVLYQLPGGFNTFLREGTQEQIDKIMAFRGTGKQMWNSAITEPGAGSDVGSLKTTYTRRNGKIYLNGSKCFITSSAYTPYIVVMARDGASPDKPVYTEWFVDMSKPGIKVTKLEKLGLRMDSCCEITFDDVELDEKDMFGREGNGFNRVKEEFDHERFLVALTNYGTAMCAFEDAARYANQRVQFGEAIGRFQLIQEKFAHMAIKLNSMKNMLYEAAWKADNGTITSGDAAMCKYFCANAAFEVVDSAMQVLGGVGIAGNHRISRFWRDLRVDRVSGGSDEMQILTLGRAVLKQYR" "c" "Han et al., 2011" -"CRR-MONOMER" "MGLFDKLKSLVSDDKKDTGTIEIIAPLSGEIVNIEDVPDVVFAEKIVGDGIAIKPTGNKMVAPVDGTIGKIFETNHAFSIESDSGVELFVHFGIDTVELKGEGFKRIAEEGQRVKVGDTVIEFDLPLLEEKAKSTLTPVVISNMDEIKELIKLSGSVTVGETPVIRIKK" "i" "EcoCyc dump" -"CTPSYN-MONOMER" "MTTNYIFVTGGVVSSLGKGIAAASLAAILEARGLNVTIMKLDPYINVDPGTMSPIQHGEVFVTEDGAETDLDLGHYERFIRTKMSRRNNFTTGRIYSDVLRKERRGDYLGATVQVIPHITNAIKERVLEGGEGHDVVLVEIGGTVGDIESLPFLEAIRQMAVEIGREHTLFMHLTLVPYMAASGEVKTKPTQHSVKELLSIGIQPDILICRSDRAVPANERAKIALFCNVPEKAVISLKDVDSIYKIPGLLKSQGLDDYICKRFSLNCPEANLSEWEQVIFEEANPVSEVTIGMVGKYIELPDAYKSVIEALKHGGLKNRVSVNIKLIDSQDVETRGVEILKGLDAILVPGGFGYRGVEGMITTARFARENNIPYLGICLGMQVALIDYARHVANMENANSTEFVPDCKYPVVALITEWRDENGNVEVRSEKSDLGGTMRLGAQQCQLVDDSLVRQLYNAPTIVERHRHRYEVNNMLLKQIEDAGLRVAGRSGDDQLVEIIEVPNHPWFVACQFHPEFTSTPRDGHPLFAGFVKAASEFQKRQAK" "c" "Lopez-Campistrous et al., 2005" -"CYANLY-MONOMER" "MIQSQINRNIRLDLADAILLSKAKKDLSFAEIADGTGLAEAFVTAALLGQQALPADAARLVGAKLDLDEDSILLLQMIPLRGCIDDRIPTDPTMYRFYEMLQVYGTTLKALVHEKFGDGIISAINFKLDVKKVADPEGGERAVITLDGKYLPTKPF" "c" "Han et al., 2011" -"CYCA-MONOMER" "MVDQVKVVADDQAPAEQSLRRNLTNRHIQLIAIGGAIGTGLFMGSGKTISLAGPSIIFVYMIIGFMLFFVMRAMGELLLSNLEYKSFSDFASDLLGPWAGYFTGWTYWFCWVVTGMADVVAITAYAQFWFPDLSDWVASLAVIVLLLTLNLATVKMFGEMEFWFAMIKIVAIVSLIVVGLVMVAMHFQSPTGVEASFAHLWNDGGWFPKGLSGFFAGFQIAVFAFVGIELVGTTAAETKDPEKSLPRAINSIPIRIIMFYVFALIVIMSVTPWSSVVPEKSPFVELFVLVGLPAAASVINFVVLTSAASSANSGVFSTSRMLFGLAQEGVAPKAFAKLSKRAVPAKGLTFSCICLLGGVVMLYVNPSVIGAFTMITTVSAILFMFVWTIILCSYLVYRKQRPHLHEKSIYKMPLGKLMCWVCMAFFVFVVVLLTLEDDTRQALLVTPLWFIALGLGWLFIGKKRAAELRK" "i" "Han et al., 2011" -"CYCLASE-MONOMER" "MLAKRIIPCLDVRDGQVVKGVQFRNHEIIGDIVPLAKRYAEEGADELVFYDITASSDGRVVDKSWVSRVAEVIDIPFCVAGGIKSLEDAAKILSFGADKISINSPALADPTLITRLADRFGVQCIVVGIDTWYDAETGKYHVNQYTGDESRTRVTQWETLDWVQEVQKRGAGEIVLNMMNQDGVRNGYDLEQLKKVREVCHVPLIASGGAGTMEHFLEAFRDADVDGALAASVFHKQIINIGELKAYLATQGVEIRIC" "c" "Lopez-Campistrous et al., 2005" -"CYDA-MONOMER" "MLDIVELSRLQFALTAMYHFLFVPLTLGMAFLLAIMETVYVLSGKQIYKDMTKFWGKLFGINFALGVATGLTMEFQFGTNWSYYSHYVGDIFGAPLAIEGLMAFFLESTFVGLFFFGWDRLGKVQHMCVTWLVALGSNLSALWILVANGWMQNPIASDFNFETMRMEMVSFSELVLNPVAQVKFVHTVASGYVTGAMFILGISAWYMLKGRDFAFAKRSFAIAASFGMAAVLSVIVLGDESGYEMGDVQKTKLAAIEAEWETQPAPAAFTLFGIPDQEEETNKFAIQIPYALGIIATRSVDTPVIGLKELMVQHEERIRNGMKAYSLLEQLRSGSTDQAVRDQFNSMKKDLGYGLLLKRYTPNVADATEAQIQQATKDSIPRVAPLYFAFRIMVACGFLLLAIIALSFWSVIRNRIGEKKWLLRAALYGIPLPWIAVEAGWFVAEYGRQPWAIGEVLPTAVANSSLTAGDLIFSMVLICGLYTLFLVAELFLMFKFARLGPSSLKTGRYHFEQSSTTTQPAR" "i" "Han et al., 2011" -"CYDB-MONOMER" "MIDYEVLRFIWWLLVGVLLIGFAVTDGFDMGVGMLTRFLGRNDTERRIMINSIAPHWDGNQVWLITAGGALFAAWPMVYAAAFSGFYVAMILVLASLFFRPVGFDYRSKIEETRWRNMWDWGIFIGSFVPPLVIGVAFGNLLQGVPFNVDEYLRLYYTGNFFQLLNPFGLLAGVVSVGMIITQGATYLQMRTVGELHLRTRATAQVAALVTLVCFALAGVWVMYGIDGYVVKSTMDHYAASNPLNKEVVREAGAWLVNFNNTPILWAIPALGVVLPLLTILTARMDKAAWAFVFSSLTLACIILTAGIAMFPFVMPSSTMMNASLTMWDATSSQLTLNVMTWVAVVLVPIILLYTAWCYWKMFGRITKEDIERNTHSLY" "i" "Han et al., 2011" -"CYDC-MONOMER" "MRALLPYLALYKRHKWMLSLGIVLAIVTLLASIGLLTLSGWFLSASAVAGVAGLYSFNYMLPAAGVRGAAITRTAGRYFERLVSHDATFRVLQHLRIYTFSKLLPLSPAGLARYRQGELLNRVVADVDTLDHLYLRVISPLVGAFVVIMVVTIGLSFLDFTLAFTLGGIMLLTLFLMPPLFYRAGKSTGQNLTHLRGQYRQQLTAWLQGQAELTIFGASDRYRTQLENTEIQWLEAQRRQSELTALSQAIMLLIGALAVILMLWMASGGVGGNAQPGALIALFVFCALAAFEALAPVTGAFQHLGQVIASAVRISDLTDQKPEVTFPDTQTRVADRVSLTLRDVQFTYPEQSQQALKGISLQVNAGEHIAILGRTGCGKSTLLQQLTRAWDPQQGEILLNDSPIASLNEAALRQTISVVPQRVHLFSATLRDNLLLASPGSSDEALSEILRRVGLEKLLEDAGLNSWLGEGGRQLSGGELRRLAIARALLHDAPLVLLDEPTEGLDATTESQILELLAEMMREKTVLMVTHRLRGLSRFQQIIVMDNGQIIEQGTHAELLARQGRYYQFKQGL" "i" "Han et al., 2011" -"CYDD-MONOMER" "MNKSRQKELTRWLKQQSVISQRWLNISRLLGFVSGILIIAQAWFMARILQHMIMENIPREALLLPFTLLVLTFVLRAWVVWLRERVGYHAGQHIRFAIRRQVLDRLQQAGPAWIQGKPAGSWATLVLEQIDDMHDYYARYLPQMALAVSVPLLIVVAIFPSNWAAALILLGTAPLIPLFMALVGMGAADANRRNFLALARLSGHFLDRLRGMETLRIFGRGEAEIESIRSASEDFRQRTMEVLRLAFLSSGILEFFTSLSIALVAVYFGFSYLGELDFGHYDTGVTLAAGFLALILAPEFFQPLRDLGTFYHAKAQAVGAADSLKTFMETPLAHPQRGEAELASTDPVTIEAEELFITSPEGKTLAGPLNFTLPAGQRAVLVGRSGSGKSSLLNALSGFLSYQGSLRINGIELRDLSPESWRKHLSWVGQNPQLPAATLRDNVLLARPDASEQELQAALDNAWVSEFLPLLPQGVDTPVGDQAARLSVGQAQRVAVARALLNPCSLLLLDEPAASLDAHSEQRVMEALNAASLRQTTLMVTHQLEDLADWDVIWVMQDGRIIEQGRYAELSVAGGPFATLLAHRQEEI" "i" "Han et al., 2011" -"CYNX-MONOMER" "MLLVLVLIGLNMRPLLTSVGPLLPQLRQASGMSFSVAALLTALPVVTMGGLALAGSWLHQHVSERRSVAISLLLIAVGALMRELYPQSALLLSSALLGGVGIGIIQAVMPSVIKRRFQQRTPLVMGLWSAALMGGGGLGAAITPWLVQHSETWYQTLAWWALPAVVALFAWWWQSAREVASSHKTTTTPVRVVFTPRAWTLGVYFGLINGGYASLIAWLPAFYIEIGASAQYSGSLLALMTLGQAAGALLMPAMARHQDRRKLLMLALVLQLVGFCGFIWLPMQLPVLWAMVCGLGLGGAFPLCLLLALDHSVQPAIAGKLVAFMQGIGFIIAGLAPWFSGVLRSISGNYLMDWAFHALCVVGLMIITLRFAPVRFPQLWVKEA" "i" "Han et al., 2011" -"CYOA-MONOMER" "MRLRKYNKSLGWLSLFAGTVLLSGCNSALLDPKGQIGLEQRSLILTAFGLMLIVVIPAILMAVGFAWKYRASNKDAKYSPNWSHSNKVEAVVWTVPILIIIFLAVLTWKTTHALEPSKPLAHDEKPITIEVVSMDWKWFFIYPEQGIATVNEIAFPANTPVYFKVTSNSVMNSFFIPRLGSQIYAMAGMQTRLHLIANEPGTYDGISASYSGPGFSGMKFKAIATPDRAAFDQWVAKAKQSPNTMSDMAAFEKLAAPSEYNQVEYFSNVKPDLFADVINKFMAHGKSMDMTQPEGEHSAHEGMEGMDMSHAESAH" "i" "Han et al., 2011" -"CYOB-MONOMER" "MFGKLSLDAVPFHEPIVMVTIAGIILGGLALVGLITYFGKWTYLWKEWLTSVDHKRLGIMYIIVAIVMLLRGFADAIMMRSQQALASAGEAGFLPPHHYDQIFTAHGVIMIFFVAMPFVIGLMNLVVPLQIGARDVAFPFLNNLSFWFTVVGVILVNVSLGVGEFAQTGWLAYPPLSGIEYSPGVGVDYWIWSLQLSGIGTTLTGINFFVTILKMRAPGMTMFKMPVFTWASLCANVLIIASFPILTVTVALLTLDRYLGTHFFTNDMGGNMMMYINLIWAWGHPEVYILILPVFGVFSEIAATFSRKRLFGYTSLVWATVCITVLSFIVWLHHFFTMGAGANVNAFFGITTMIIAIPTGVKIFNWLFTMYQGRIVFHSAMLWTIGFIVTFSVGGMTGVLLAVPGADFVLHNSLFLIAHFHNVIIGGVVFGCFAGMTYWWPKAFGFKLNETWGKRAFWFWIIGFFVAFMPLYALGFMGMTRRLSQQIDPQFHTMLMIAASGAVLIALGILCLVIQMYVSIRDRDQNRDLTGDPWGGRTLEWATSSPPPFYNFAVVPHVHERDAFWEMKEKGEAYKKPDHYEEIHMPKNSGAGIVIAAFSTIFGFAMIWHIWWLAIVGFAGMIITWIVKSFDEDVDYYVPVAEIEKLENQHFDEITKAGLKNGN" "i" "Han et al., 2011" -"CYOC-MONOMER" "MATDTLTHATAHAHEHGHHDAGGTKIFGFWIYLMSDCILFSILFATYAVLVNGTAGGPTGKDIFELPFVLVETFLLLFSSITYGMAAIAMYKNNKSQVISWLALTWLFGAGFIGMEIYEFHHLIVNGMGPDRSGFLSAFFALVGTHGLHVTSGLIWMAVLMVQIARRGLTSTNRTRIMCLSLFWHFLDVVWICVFTVVYLMGAM" "i" "Han et al., 2011" -"CYOD-MONOMER" "MSHSTDHSGASHGSVKTYMTGFILSIILTVIPFWMVMTGAASPAVILGTILAMAVVQVLVHLVCFLHMNTKSDEGWNMTAFVFTVLIIAILVVGSIWIMWNLNYNMMMH" "i" "Han et al., 2011" -"CYSA-MONOMER" "MSIEIANIKKSFGRTQVLNDISLDIPSGQMVALLGPSGSGKTTLLRIIAGLEHQTSGHIRFHGTDVSRLHARDRKVGFVFQHYALFRHMTVFDNIAFGLTVLPRRERPNAAAIKAKVTKLLEMVQLAHLADRYPAQLSGGQKQRVALARALAVEPQILLLDEPFGALDAQVRKELRRWLRQLHEELKFTSVFVTHDQEEATEVADRVVVMSQGNIEQADAPDQVWREPATRFVLEFMGEVNRLQGTIRGGQFHVGAHRWPLGYTPAYQGPVDLFLRPWEVDISRRTSLDSPLPVQVLEASPKGHYTQLVVQPLGWYNEPLTVVMHGDDAPQRGERLFVGLQHARLYNGDERIETRDEELALAQSA" "i" "EcoCyc dump" -"CYSD-MONOMER" "MDQIRLTHLRQLEAESIHIIREVAAEFSNPVMLYSIGKDSSVMLHLARKAFYPGTLPFPLLHVDTGWKFREMYEFRDRTAKAYGCELLVHKNPEGVAMGINPFVHGSAKHTDIMKTEGLKQALNKYGFDAAFGGARRDEEKSRAKERIYSFRDRFHRWDPKNQRPELWHNYNGQINKGESIRVFPLSNWTEQDIWQYIWLENIDIVPLYLAAERPVLERDGMLMMIDDNRIDLQPGEVIKKRMVRFRTLGCWPLTGAVESNAQTLPEIIEEMLVSTTSERQGRVIDRDQAGSMELKKRQGYF" "c" "Han et al., 2011" -"CYSN-MONOMER" "MNTALAQQIANEGGVEAWMIAQQHKSLLRFLTCGSVDDGKSTLIGRLLHDTRQIYEDQLSSLHNDSKRHGTQGEKLDLALLVDGLQAEREQGITIDVAYRYFSTEKRKFIIADTPGHEQYTRNMATGASTCELAILLIDARKGVLDQTRRHSFISTLLGIKHLVVAINKMDLVDYSEETFTRIREDYLTFAGQLPGNLDIRFVPLSALEGDNVASQSESMPWYSGPTLLEVLETVEIQRVVDAQPMRFPVQYVNRPNLDFRGYAGTLASGRVEVGQRVKVLPSGVESNVARIVTFDGDREEAFAGEAITLVLTDEIDISRGDLLLAADEALPAVQSASVDVVWMAEQPLSPGQSYDIKIAGKKTRARVDGIRYQVDINNLTQREVENLPLNGIGLVDLTFDEPLVLDRYQQNPVTGGLIFIDRLSNVTVGAGMVHEPVSQATAAPSEFSAFELELNALVRRHFPHWGARDLLGDK" "c" "Han et al., 2011" -"CYSP-MONOMER" "MAVNLLKKNSLALVASLLLAGHVQATELLNSSYDVSRELFAALNPPFEQQWAKDNGGDKLTIKQSHAGSSKQALAILQGLKADVVTYNQVTDVQILHDKGKLIPADWQSRLPNNSSPFYSTMGFLVRKGNPKNIHDWNDLVRSDVKLIFPNPKTSGNARYTYLAAWGAADKADGGDKGKTEQFMTQFLKNVEVFDTGGRGATTTFAERGLGDVLISFESEVNNIRKQYEAQGFEVVIPKTNILAEFPVAWVDKNVQANGTEKAAKAYLNWLYSPQAQTIITDYYYRVNNPEVMDKLKDKFPQTELFRVEDKFGSWPEVMKTHFTSGGELDKLLAAGRN" "p" "Han et al., 2011" -"CYSS-MONOMER" "MLKIFNTLTRQKEEFKPIHAGEVGMYVCGITVYDLCHIGHGRTFVAFDVVARYLRFLGYKLKYVRNITDIDDKIIKRANENGESFVAMVDRMIAEMHKDFDALNILRPDMEPRATHHIAEIIELTEQLIAKGHAYVADNGDVMFDVPTDPTYGVLSRQDLDQLQAGARVDVVDDKRNPMDFVLWKMSKEGEPSWPSPWGAGRPGWHIECSAMNCKQLGNHFDIHGGGSDLMFPHHENEIAQSTCAHDGQYVNYWMHSGMVMVDREKMSKSLGNFFTVRDVLKYYDAETVRYFLMSGHYRSQLNYSEENLKQARAALERLYTALRGTDKTVAPAGGEAFEARFIEAMDDDFNTPEAYSVLFDMAREVNRLKAEDMAAANAMASHLRKLSAVLGLLEQEPEAFLQSGAQADDSEVAEIEALIQQRLDARKAKDWAAADAARDRLNEMGIVLEDGPQGTTWRRK" "c" "Han et al., 2011" -"CYST-MONOMER" "MFAVSSRRVLPGFTLSLGTSLLFVCLILLLPLSALVMQLAQMSWAQYWEVITNPQVVAAYKVTLLSAFVASIFNGVFGLLMAWILTRYRFPGRTLLDALMDLPFALPTAVAGLTLASLFSVNGFYGEWLAKFDIKVTYTWLGIAVAMAFTSIPFVVRTVQPVLEELGPEYEEAAETLGATRWQSFCKVVLPELSPALVAGVALSFTRSLGEFGAVIFIAGNIAWKTEVTSLMIFVRLQEFDYPAASAIASVILAASLLLLFSINTLQSRFGRRVVGH" "i" "Han et al., 2011" -"CYSTATHIONINE-BETA-LYASE-MONOMER" "MADKKLDTQLVNAGRSKKYTLGAVNSVIQRASSLVFDSVEAKKHATRNRANGELFYGRRGTLTHFSLQQAMCELEGGAGCVLFPCGAAAVANSILAFIEQGDHVLMTNTAYEPSQDFCSKILSKLGVTTSWFDPLIGADIVKHLQPNTKIVFLESPGSITMEVHDVPAIVAAVRSVVPDAIIMIDNTWAAGVLFKALDFGIDVSIQAATKYLVGHSDAMIGTAVCNARCWEQLRENAYLMGQMVDADTAYITSRGLRTLGVRLRQHHESSLKVAEWLAEHPQVARVNHPALPGSKGHEFWKRDFTGSSGLFSFVLKKKLNNEELANYLDNFSLFSMAYSWGGYESLILANQPEHIAAIRPQGEIDFSGTLIRLHIGLEDVDDLIADLDAGFARIV" "c" "Han et al., 2011" -"CYSW-MONOMER" "MAEVTQLKRYDARPINWGKWFLIGIGMLVSAFILLVPMIYIFVQAFSKGLMPVLQNLADPDMLHAIWLTVMIALIAVPVNLVFGILLAWLVTRFNFPGRQLLLTLLDIPFAVSPVVAGLVYLLFYGSNGPLGGWLDEHNLQIMFSWPGMVLVTIFVTCPFVVRELVPVMLSQGSQEDEAAILLGASGWQMFRRVTLPNIRWALLYGVVLTNARAIGEFGAVSVVSGSIRGETLSLPLQIELLEQDYNTVGSFTAAALLTLMAIITLFLKSMLQWRLENQEKRAQQEEHHEH" "i" "Han et al., 2011" -"CYTDEAM-MONOMER" "VSNNALQTIINARLPGEEGLWQIHLQDGKISAIDAQSGVMPITENSLDAEQGLVIPPFVEPHIHLDTTQTAGQPNWNQSGTLFEGIERWAERKALLTHDDVKQRAWQTLKWQIANGIQHVRTHVDVSDATLTALKAMLEVKQEVAPWIDLQIVAFPQEGILSYPNGEALLEEALRLGADVVGAIPHFEFTREYGVESLHKTFALAQKYDRLIDVHCDEIDDEQSRFVETVAALAHHEGMGARVTASHTTAMHSYNGAYTSRLFRLLKMSGINFVANPLVNIHLQGRFDTYPKRRGITRVKEMLESGINVCFGHDDVFDPWYPLGTANMLQVLHMGLHVCQLMGYGQINDGLNLITHHSARTLNLQDYGIAAGNSANLIILPAENGFDALRRQVPVRYSVRGGKVIASTQPAQTTVYLEQPEAIDYKR" "c" "Han et al., 2011" -"CYTIDEAM-MONOMER" "MHPRFQTAFAQLADNLQSALEPILADKYFPALLTGEQVSSLKSATGLDEDALAFALLPLAAACARTPLSNFNVGAIARGVSGTWYFGANMEFIGATMQQTVHAEQSAISHAWLSGEKALAAITVNYTPCGHCRQFMNELNSGLDLRIHLPGREAHALRDYLPDAFGPKDLEIKTLLMDEQDHGYALTGDALSQAAIAAANRSHMPYSKSPSGVALECKDGRIFSGSYAENAAFNPTLPPLQGALILLNLKGYDYPDIQRAVLAEKADAPLIQWDATSATLKALGCHSIDRVLLA" "c" "Han et al., 2011" -"CYTOCHROME-B561-MONOMER" "MENKYSRLQISIHWLVFLLVIAAYCAMEFRGFFPRSDRPLINMIHVSCGISILVLMVVRLLLRLKYPTPPIIPKPKPMMTGLAHLGHLVIYLLFIALPVIGLVMMYNRGNPWFAFGLTMPYASEANFERVDSLKSWHETLANLGYFVIGLHAAAALAHHYFWKDNTLLRMMPRKRS" "i" "Han et al., 2011" -"CYTOCHROME-B562-MONOMER" "METLNDNLKVVEKADNAAQVKDALTKMRAAALDAQKATPPKLEDKSPDSPEMKDFRHGFDILVGQIDDALKLANEGKVKEAQAAAEQLKTTRNSYHKKYR" "p" "Unambiguous EcoCyc data" -"CYTOCHROMEC-MONOMER" "MSVLRSLLTAGVLASGLLWSLNGITATPAAQASDDRYEVTQQRNPDAACLDCHKPDTEGMHGKHASVINPNNKLPVTCTNCHGQPSPQHREGVKDVMRFNEPMYKVGEQNSVCMSCHLPEQLQKAFWPHDVHVTKVACASCHSLHPQQDTMQTLSDKGRIKICVDCHSDQRTNPNFNPASVPLLKEQP" "p" "Han et al., 2011" -"CYTOCHROMEC552-MONOMER" "MTRIKINARRIFSLLIPFFFFTSVHAEQTAAPAKPVTVEAKNETFAPQHPDQYLSWKATSEQSERVDALAEDPRLVILWAGYPFSRDYNKPRGHAFAVTDVRETLRTGAPKNAEDGPLPMACWSCKSPDVARLIQKDGEDGYFHGKWARGGPEIVNNLGCADCHNTASPEFAKGKPELTLSRPYAARAMEAIGKPFEKAGRFDQQSMVCGQCHVEYYFDGKNKAVKFPWDDGMKVENMEQYYDKIAFSDWTNSLSKTPMLKAQHPEYETWTAGIHGKNNVTCIDCHMPKVQNAEGKLYTDHKIGNPFDNFAQTCANCHTQDKAALQKVVAERKQSINDLKIKVEDQLVHAHFEAKAALDAGATEAEMKPIQDDIRHAQWRWDLAIASHGIHMHAPEEGLRMLGTAMDKAADARTKLARLLATKGITHEIQIPDISTKEKAQQAIGLNMEQIKAEKQDFIKTVIPQWEEQARKNGLLSQ" "p" "Han et al., 2011" -"DALADALALIGA-MONOMER" "MEKLRVGIVFGGKSAEHEVSLQSAKNIVDAIDKSRFDVVLLGIDKQGQWHVSDASNYLLNADDPAHIALRPSATSLAQVPGKHEHQLIDAQNGQPLPTVDVIFPIVHGTLGEDGSLQGMLRVANLPFVGSDVLASAACMDKDVTKRLLRDAGLNIAPFITLTRANRHNISFAEVESKLGLPLFVKPANQGSSVGVSKVTSEEQYAIAVDLAFEFDHKVIVEQGIKGREIECAVLGNDNPQASTCGEIVLTSDFYAYDTKYIDEDGAKVVVPAAIAPEINDKIRAIAVQAYQTLGCAGMARVDVFLTPENEVVINEINTLPGFTNISMYPKLWQASGLGYTDLITRLIELALERHAADNALKTTM" "c" "Han et al., 2011" -"DALADALALIGB-MONOMER" "MTDKIAVLLGGTSAEREVSLNSGAAVLAGLREGGIDAYPVDPKEVDVTQLKSMGFQKVFIALHGRGGEDGTLQGMLELMGLPYTGSGVMASALSMDKLRSKLLWQGAGLPVAPWVALTRAEFEKGLSDKQLAEISALGLPVIVKPSREGSSVGMSKVVAENALQDALRLAFQHDEEVLIEKWLSGPEFTVAILGEEILPSIRIQPSGTFYDYEAKYLSDETQYFCPAGLEASQEANLQALVLKAWTTLGCKGWGRIDVMLDSDGQFYLLEANTSPGMTSHSLVPMAARQAGMSFSQLVVRILELAD" "c" "Han et al., 2011" -"DALADEHYDROGA-MONOMER" "MRVVILGSGVVGVASAWYLNQAGHEVTVIDREPGAALETSAANAGQISPGYAAPWAAPGVPLKAIKWMFQRHAPLAVRLDGTQFQLKWMWQMLRNCDTSHYMENKGRMVRLAEYSRDCLKALRAETNIQYEGRQGGTLQLFRTEQQYENATRDIAVLEDAGVPYQLLESSRLAEVEPALAEVAHKLTGGLQLPNDETGDCQLFTQNLARMAEQAGVKFRFNTPVDQLLCDGEQIYGVKCGDEVIKADAYVMAFGSYSTAMLKGIVDIPVYPLKGYSLTIPIAQEDGAPVSTILDETYKIAITRFDNRIRVGGMAEIVGFNTELLQPRRETLEMVVRDLYPRGGHVEQATFWTGLRPMTPDGTPVVGRTRFKNLWLNTGHGTLGWTMACGSGQLLSDLLSGRTPAIPYEDLSVARYSRGFTPSRPGHLHGAHS" "i" "EcoCyc dump" -"DAPASYN-MONOMER" "MTTDDLAFDQRHIWHPYTSMTSPLPVYPVVSAEGCELILSDGRRLVDGMSSWWAAIHGYNHPQLNAAMKSQIDAMSHVMFGGITHAPAIELCRKLVAMTPQPLECVFLADSGSVAVEVAMKMALQYWQAKGEARQRFLTFRNGYHGDTFGAMSVCDPDNSMHSLWKGYLPENLFAPAPQSRMDGEWDERDMVGFARLMAAHRHEIAAVIIEPIVQGAGGMRMYHPEWLKRIRKICDREGILLIADEIATGFGRTGKLFACEHAEIAPDILCLGKALTGGTMTLSATLTTREVAETISNGEAGCFMHGPTFMGNPLACAAANASLAILESGDWQQQVADIEVQLREQLAPARDAEMVADVRVLGAIGVVETTHPVNMAALQKFFVEQGVWIRPFGKLIYLMPPYIILPQQLQRLTAAVNRAVQDETFFCQ" "c" "Han et al., 2011" -"DCTA-MONOMER" "MKTSLFKSLYFQVLTAIAIGILLGHFYPEIGEQMKPLGDGFVKLIKMIIAPVIFCTVVTGIAGMESMKAVGRTGAVALLYFEIVSTIALIIGLIIVNVVQPGAGMNVDPATLDAKAVAVYADQAKDQGIVAFIMDVIPASVIGAFASGNILQVLLFAVLFGFALHRLGSKGQLIFNVIESFSQVIFGIINMIMRLAPIGAFGAMAFTIGKYGVGTLVQLGQLIICFYITCILFVVLVLGSIAKATGFSIFKFIRYIREELLIVLGTSSSESALPRMLDKMEKLGCRKSVVGLVIPTGYSFNLDGTSIYLTMAAVFIAQATNSQMDIVHQITLLIVLLLSSKGAAGVTGSGFIVLAATLSAVGHLPVAGLALILGIDRFMSEARALTNLVGNGVATIVVAKWVKELDHKKLDDVLNNRAPDGKTHELSS" "i" "Han et al., 2011" -"DCTP-DEAM-MONOMER" "MRLCDRDIEAWLDEGRLSINPRPPVERINGATVDVRLGNKFRTFRGHTAAFIDLSGPKDEVSAALDRVMSDEIVLDEGEAFYLHPGELALAVTLESVTLPADLVGWLDGRSSLARLGLMVHVTAHRIDPGWSGCIVLEFYNSGKLPLALRPGMLIGALSFEPLSGPAVRPYNRREDAKYRNQQGAVASRIDKD" "c" "Han et al., 2011" -"DCUA-MONOMER" "MLVVELIIVLLAIFLGARLGGIGIGFAGGLGVLVLAAIGVKPGNIPFDVISIIMAVIAAISAMQVAGGLDYLVHQTEKLLRRNPKYITILAPIVTYFLTIFAGTGNISLATLPVIAEVAKEQGVKPCRPLSTAVVSAQIAITASPISAAVVYMSSVMEGHGISYLHLLSVVIPSTLLAVLVMSFLVTMLFNSKLSDDPIYRKRLEEGLVELRGEKQIEIKSGAKTSVWLFLLGVVGVVIYAIINSPSMGLVEKPLMNTTNAILIIMLSVATLTTVICKVDTDNILNSSTFKAGMSACICILGVAWLGDTFVSNNIDWIKDTAGEVIQGHPWLLAVIFFFASALLYSQAATAKALMPMALALNVSPLTAVASFAAVSGLFILPTYPTLVAAVQMDDTGTTRIGKFVFNHPFFIPGTLGVALAVCFGFVLGSFML" "i" "Han et al., 2011" -"DCUB-MONOMER" "MLFTIQLIIILICLFYGARKGGIALGLLGGIGLVILVFVFHLQPGKPPVDVMLVIIAVVAASATLQASGGLDVMLQIAEKLLRRNPKYVSIVAPFVTCTLTILCGTGHVVYTILPIIYDVAIKNNIRPERPMAASSIGAQMGIIASPVSVAVVSLVAMLGNVTFDGRHLEFLDLLAITIPSTLIGILAIGIFSWFRGKDLDKDEEFQKFISVPENREYVYGDTATLLDKKLPKSNWLAMWIFLGAIAVVALLGADSDLRPSFGGKPLSMVLVIQMFMLLTGALIIILTKTNPASISKNEVFRSGMIAIVAVYGIAWMAETMFGAHMSEIQGVLGEMVKEYPWAYAIVLLLVSKFVNSQAAALAAIVPVALAIGVDPAYIVASAPACYGYYILPTYPSDLAAIQFDRSGTTHIGRFVINHSFILPGLIGVSVSCVFGWIFAAMYGFL" "i" "Han et al., 2011" -"DCUC-MONOMER" "MLTFIELLIGVVVIVGVARYIIKGYSATGVLFVGGLLLLIISAIMGHKVLPSSQASTGYSATDIVEYVKILLMSRGGDLGMMIMMLCGFAAYMTHIGANDMVVKLASKPLQYINSPYLLMIAAYFVACLMSLAVSSATGLGVLLMATLFPVMVNVGISRGAAAAICASPAAIILAPTSGDVVLAAQASEMSLIDFAFKTTLPISIAAIIGMAIAHFFWQRYLDKKEHISHEMLDVSEITTTAPAFYAILPFTPIIGVLIFDGKWGPQLHIITILVICMLIASILEFLRSFNTQKVFSGLEVAYRGMADAFANVVMLLVAAGVFAQGLSTIGFIQSLISIATSFGSASIILMLVLVILTMLAAVTTGSGNAPFYAFVEMIPKLAHSSGINPAYLTIPMLQASNLGRTLSPVSGVVVAVAGMAKISPFEVVKRTSVPVLVGLVIVIVATELMVPGTAAAVTGK" "i" "Han et al., 2011" -"DCUR-MONOMER" "MINVLIIDDDAMVAELNRRYVAQIPGFQCCGTASTLEKAKEIIFNSDTPIDLILLDIYMQKENGLDLLPVLHNARCKSDVIVISSAADAATIKDSLHYGVVDYLIKPFQASRFEEALTGWRQKKMALEKHQYYDQAELDQLIHGSSSNEQDPRRLPKGLTPQTLRTLCQWIDAHQDYEFSTDELANEVNISRVSCRKYLIWLVNCHILFTSIHYGVTGRPVYRYRIQAEHYSLLKQYCQ" "c" "Han et al., 2011" -"DCUS-MONOMER" "MRHSLPYRMLRKRPMKLSTTVILMVSAVLFSVLLVVHLIYFSQISDMTRDGLANKALAVARTLADSPEIRQGLQKKPQESGIQAIAEAVRKRNDLLFIVVTDMQSLRYSHPEAQRIGQPFKGDDILKALNGEENVAINRGFLAQALRVFTPIYDENHKQIGVVAIGLELSRVTQQINDSRWSIIWSVLFGMLVGLIGTCILVKVLKKILFGLEPYEISTLFEQRQAMLQSIKEGVVAVDDRGEVTLINDAAQELLNYRKSQDDEKLSTLSHSWSQVVDVSEVLRDGTPRRDEEITIKDRLLLINTVPVRSNGVIIGAISTFRDKTEVRKLMQRLDGLVNYADALRERSHEFMNKLHVILGLLHLKSYKQLEDYILKTANNYQEEIGSLLGKIKSPVIAGFLISKINRATDLGHTLILNSESQLPDSGSEDQVATLITTLGNLIENALEALGPEPGGEISVTLHYRHGWLHCEVNDDGPGIAPDKIDHIFDKGVSTKGSERGVGLALVKQQVENLGGSIAVESEPGIFTQFFVQIPWDGERSNR" "i" "Unambiguous EcoCyc data" -"DCYSDESULF-MONOMER" "MPLHNLTRFPRLEFIGAPTPLEYLPRFSDYLGREIFIKRDDVTPMAMGGNKLRKLEFLAADALREGADTLITAGAIQSNHVRQTAAVAAKLGLHCVALLENPIGTTAENYLTNGNRLLLDLFNTQIEMCDALTDPNAQLEELATRVEAQGFRPYVIPVGGSNALGALGYVESALEIAQQCEGAVNISSVVVASGSAGTHAGLAVGLEHLMPESELIGVTVSRSVADQLPKVVNLQQAIAKELELTASAEILLWDDYFAPGYGVPNDEGMEAVKLLARLEGILLDPVYTGKAMAGLIDGISQKRFKDEGPILFIHTGGAPALFAYHPHV" "c" "Unambiguous EcoCyc data" -"DEHYDDEOXGALACTKIN-MONOMER" "MTARYIAIDWGSTNLRAWLYQGDHCLESRQSEAGVTRLNGKSPAAVLAEVTTDWREEKTPVVMAGMVGSNVGWKVAPYLSVPACFSSIGEQLTSVGDNIWIIPGLCVSHDDNHNVMRGEETQLIGARALAPSSLYVMPGTHCKWVQADSQQINDFRTVMTGELHHLLLNHSLIGAGLPPQENSADAFTAGLERGLNTPAILPQLFEVRASHVLGTLPREQVSEFLSGLLIGAEVASMRDYVAHQHAITLVAGTSLTARYQQAFQAMGCDVTAVAGDTAFQAGIRSIAHAVAN" "c" "Han et al., 2011" -"DEHYDDEOXPHOSGALACT-ALDOL-MONOMER" "MQWQTKLPLIAILRGITPDEALAHVGAVIDAGFDAVEIPLNSPQWEQSIPAIVDAYGDKALIGAGTVLKPEQVDALARMGCQLIVTPNIHSEVIRRAVGYGMTVCPGCATATEAFTALEAGAQALKIFPSSAFGPQYIKALKAVLPSDIAVFAVGGVTPENLAQWIDAGCAGAGLGSDLYRAGQSVERTAQQAAAFVKAYREAVQ" "c" "Han et al., 2011" -"DEOA-MONOMER" "LFLAQEIIRKKRDGHALSDEEIRFFINGIRDNTISEGQIAALAMTIFFHDMTMPERVSLTMAMRDSGTVLDWKSLHLNGPIVDKHSTGGVGDVTSLMLGPMVAACGGYIPMISGRGLGHTGGTLDKLESIPGFDIFPDDNRFREIIKDVGVAIIGQTSSLAPADKRFYATRDITATVDSIPLITASILAKKLAEGLDALVMDVKVGSGAFMPTYELSEALAEAIVGVANGAGVRTTALLTDMNQVLASSAGNAVEVREAVQFLTGEYRNPRLFDVTMALCVEMLISGKLAKDDAEARAKLQAVLDNGKAAEVFGRMVAAQKGPTDFVENYAKYLPTAMLTKAVYADTEGFVSEMDTRALGMAVVAMGGGRRQASDTIDYSVGFTDMARLGDQVDGQRPLAVIHAKDENNWQEAAKAVKAAIKLADKAPESTPTVYRRISE" "c" "Han et al., 2011" -"DEOD-MONOMER" "MATPHINAEMGDFADVVLMPGDPLRAKYIAETFLEDAREVNNVRGMLGFTGTYKGRKISVMGHGMGIPSCSIYTKELITDFGVKKIIRVGSCGAVLPHVKLRDVVIGMGACTDSKVNRIRFKDHDFAAIADFDMVRNAVDAAKALGIDARVGNLFSADLFYSPDGEMFDVMEKYGILGVEMEAAGIYGVAAEFGAKALTICTVSDHIRTHEQTTAAERQTTFNDMIKIALESVLLGDKE" "c" "Han et al., 2011" -"DEOXYGLUCONOKIN-MONOMER" "MSKKIAVIGECMIELSEKGADVKRGFGGDTLNTSVYIARQVDPAALTVHYVTALGTDSFSQQMLDAWHGENVDTSLTQRMENRLPGLYYIETDSTGERTFYYWRNEAAAKFWLESEQSAAICEELANFDYLYLSGISLAILSPTSREKLLSLLRECRANGGKVIFDNNYRPRLWASKEETQQVYQQMLECTDIAFLTLDDEDALWGQQPVEDVIARTHNAGVKEVVVKRGADSCLVSIAGEGLVDVPAVKLPKEKVIDTTAAGDSFSAGYLAVRLTGGSAEDAAKRGHLTASTVIQYRGAIIPREAMPA" "c" "Han et al., 2011" -"DEOXYRIBOSE-P-ALD-MONOMER" "MTDLKASSLRALKLMDLTTLNDDDTDEKVIALCHQAKTPVGNTAAICIYPRFIPIARKTLKEQGTPEIRIATVTNFPHGNDDIDIALAETRAAIAYGADEVDVVFPYRALMAGNEQVGFDLVKACKEACAAANVLLKVIIETGELKDEALIRKASEISIKAGADFIKTSTGKVAVNATPESARIMMEVIRDMGVEKTVGFKPAGGVRTAEDAQKYLAIADELFGADWADARHYRFGASSLLASLLKALGHGDGKSASSY" "c" "Han et al., 2011" -"DETHIOBIOTIN-SYN-MONOMER" "VSKRYFVTGTDTEVGKTVASCALLQAAKAAGYRTAGYKPVASGSEKTPEGLRNSDALALQRNSSLQLDYATVNPYTFAEPTSPHIISAQEGRPIESLVMSAGLRALEQQADWVLVEGAGGWFTPLSDTFTFADWVTQEQLPVILVVGVKLGCINHAMLTAQVIQHAGLTLAGWVANDVTPPGKRHAEYMTTLTRMIPAPLLGEIPWLAENPENAATGKYINLALL" "c" "Han et al., 2011" -"DGTPTRIPHYDRO-MONOMER" "MAQIDFRKKINWHRRYRSPQGVKTEHEILRIFESDRGRIINSPAIRRLQQKTQVFPLERNAAVRTRLTHSMEVQQVGRYIAKEILSRLKELKLLEAYGLDELTGPFESIVEMSCLMHDIGNPPFGHFGEAAINDWFRQRLHPEDAESQPLTDDRCSVAALRLRDGEEPLNELRRKIRQDLCHFEGNAQGIRLVHTLMRMNLTWAQVGGILKYTRPAWWRGETPETHHYLMKKPGYYLSEEAYIARLRKELNLALYSRFPLTWIMEAADDISYCVADLEDAVEKRIFTVEQLYHHLHEAWGQHEKGSLFSLVVENAWEKSRSNSLSRSTEDQFFMYLRVNTLNKLVPYAAQRFIDNLPAIFAGTFNHALLEDASECSDLLKLYKNVAVKHVFSHPDVERLELQGYRVISGLLEIYRPLLSLSLSDFTELVEKERVKRFPIESRLFHKLSTRHRLAYVEAVSKLPSDSPEFPLWEYYYRCRLLQDYISGMTDLYAWDEYRRLMAVEQ" "c" "Han et al., 2011" -"DHHB-METHYLTRANSFER-MONOMER" "MNAEKSPVNHNVDHEEIAKFEAVASRWWDLEGEFKPLHRINPLRLGYIAERAGGLFGKKVLDVGCGGGILAESMAREGATVTGLDMGFEPLQVAKLHALESGIQVDYVQETVEEHAAKHAGQYDVVTCMEMLEHVPDPQSVVRACAQLVKPGGDVFFSTLNRNGKSWLMAVVGAEYILRMVPKGTHDVKKFIKPAELLGWVDQTSLKERHITGLHYNPITNTFKLGPGVDVNYMLHTQNK" "i" "EcoCyc dump" -"DHPDIOXYGEN-MONOMER" "MHAYLHCLSHSPLVGYVDPAQEVLDEVNGVIASARERIAAFSPELVVLFAPDHYNGFFYDVMPPFCLGVGATAIGDFGSAAGELPVPVELAEACAHAVMKSGIDLAVSYCMQVDHGFAQPLEFLLGGLDKVPVLPVFINGVATPLPGFQRTRMLGEAIGRFTSTLNKRVLFLGSGGLSHQPPVPELAKADAHMRDRLLGSGKDLPASERELRQQRVISAAEKFVEDQRTLHPLNPIWDNQFMTLLEQGRIQELDAVSNEELSAIAGKSTHEIKTWVAAFAAISAFGNWRSEGRYYRPIPEWIAGFGSLSARTEN" "c" "EcoCyc dump" -"DIACYLGLYKIN-MONOMER" "MANNTTGFTRIIKAAGYSWKGLRAAWINEAAFRQEGVAVLLAVVIACWLDVDAITRVLLISSVMLVMIVEILNSAIEAVVDRIGSEYHELSGRAKDMGSAAVLIAIIVAVITWCILLWSHFG" "i" "Han et al., 2011" -"DIAMINOPIMDECARB-MONOMER" "MPHSLFSTDTDLTAENLLRLPAEFGCPVWVYDAQIIRRQIAALKQFDVVRFAQKACSNIHILRLMREQGVKVDSVSLGEIERALAAGYNPQTHPDDIVFTADVIDQATLERVSELQIPVNAGSVDMLDQLGQVSPGHRVWLRVNPGFGHGHSQKTNTGGENSKHGIWYTDLPAALDVIQRHHLQLVGIHMHIGSGVDYAHLEQVCGAMVRQVIEFGQDLQAISAGGGLSVPYQQGEEAVDTEHYYGLWNAAREQIARHLGHPVKLEIEPGRFLVAQSGVLITQVRSVKQMGSRHFVLVDAGFNDLMRPAMYGSYHHISALAADGRSLEHAPTVETVVAGPLCESGDVFTQQEGGNVETRALPEVKAGDYLVLHDTGAYGASMSSNYNSRPLLPEVLFDNGQARLIRRRQTIEELLALELL" "c" "Han et al., 2011" -"DIAMINOPIMEPIM-MONOMER" "MQFSKMHGLGNDFMVVDAVTQNVFFSPELIRRLADRHLGVGFDQLLVVEPPYDPELDFHYRIFNADGSEVAQCGNGARCFARFVRLKGLTNKRDIRVSTANGRMVLTVTDDDLVRVNMGEPNFEPSAVPFRANKAEKTYIMRAAEQTILCGVVSMGNPHCVIQVDDVDTAAVETLGPVLESHERFPERANIGFMQVVKREHIRLRVYERGAGETQACGSGACAAVAVGIQQGLLAEEVRVELPGGRLDIAWKGPGHPLYMTGPAVHVYDGFIHL" "c" "Han et al., 2011" -"DIENOYLCOAREDUCT-MONOMER" "MSYPSLFAPLDLGFTTLKNRVLMGSMHTGLEEYPDGAERLAAFYAERARHGVALIVSGGIAPDLTGVGMEGGAMLNDASQIPHHRTITEAVHQEGGKIALQILHTGRYSYQPHLVAPSALQAPINRFVPHELSHEEILQLIDNFARCAQLAREAGYDGVEVMGSEGYLINEFLTLRTNQRSDQWGGDYRNRMRFAVEVVRAVRERVGNDFIIIYRLSMLDLVEDGGTFAETVELAQAIEAAGATIINTGIGWHEARIPTIATPVPRGAFSWVTRKLKGHVSLPLVTTNRINDPQVADDILSRGDADMVSMARPFLADAELLSKAQSGRADEINTCIGCNQACLDQIFVGKVTSCLVNPRACHETKMPILPAVQKKNLAVVGAGPAGLAFAINAAARGHQVTLFDAHSEIGGQFNIAKQIPGKEEFYETLRYYRRMIEVTGVTLKLNHTVTADQLQAFDETILASGIVPRTPPIDGIDHPKVLSYLDVLRDKAPVGNKVAIIGCGGIGFDTAMYLSQPGESTSQNIAGFCNEWGIDSSLQQAGGLSPQGMQIPRSPRQIVMLQRKASKPGQGLGKTTGWIHRTTLLSRGVKMIPGVSYQKIDDDGLHVVINGETQVLAVDNVVICAGQEPNRALAQPLIDSGKTVHLIGGCDVAMELDARRAIAQGTRLALEI" "c" "Han et al., 2011" -"DIHYDRODIPICSYN-MONOMER" "MFTGSIVAIVTPMDEKGNVCRASLKKLIDYHVASGTSAIVSVGTTGESATLNHDEHADVVMMTLDLADGRIPVIAGTGANATAEAISLTQRFNDSGIVGCLTVTPYYNRPSQEGLYQHFKAIAEHTDLPQILYNVPSRTGCDLLPETVGRLAKVKNIIGIKEATGNLTRVNQIKELVSDDFVLLSGDDASALDFMQLGGHGVISVTANVAARDMAQMCKLAAEGHFAEARVINQRLMPLHNKLFVEPNPIPVKWACKELGLVATDTLRLPMTPITDSGRETVRAALKHAGLL" "c" "Lopez-Campistrous et al., 2005" -"DIHYDROFOLATEREDUCT-MONOMER" "MISLIAALAVDRVIGMENAMPWNLPADLAWFKRNTLNKPVIMGRHTWESIGRPLPGRKNIILSSQPGTDDRVTWVKSVDEAIAACGDVPEIMVIGGGRVYEQFLPKAQKLYLTHIDAEVEGDTHFPDYEPDDWESVFSEFHDADAQNSHSYCFEILERR" "c" "Han et al., 2011" -"DIHYDROOROT-MONOMER" "MTAPSQVLKIRRPDDWHLHLRDGDMLKTVVPYTSEIYGRAIVMPNLAPPVTTVEAAVAYRQRILDAVPAGHDFTPLMTCYLTDSLDPNELERGFNEGVFTAAKLYPANATTNSSHGVTSIDAIMPVLERMEKIGMPLLVHGEVTHADIDIFDREARFIESVMEPLRQRLTALKVVFEHITTKDAADYVRDGNERLAATITPQHLMFNRNHMLVGGVRPHLYCLPILKRNIHQQALRELVASGFNRVFLGTDSAPHARHRKESSCGCAGCFNAPTALGSYATVFEEMNALQHFEAFCSVNGPQFYGLPVNDTFIELVREEQQVAESIALTDDTLVPFLAGETVRWSVKQ" "c" "Han et al., 2011" -"DIHYDROOROTOX-MONOMER" "MYYPFVRKALFQLDPERAHEFTFQQLRRITGTPFEALVRQKVPAKPVNCMGLTFKNPLGLAAGLDKDGECIDALGAMGFGSIEIGTVTPRPQPGNDKPRLFRLVDAEGLINRMGFNNLGVDNLVENVKKAHYDGVLGINIGKNKDTPVEQGKDDYLICMEKIYAYAGYIAINISSPNTPGLRTLQYGEALDDLLTAIKNKQNDLQAMHHKYVPIAVKIAPDLSEEELIQVADSLVRHNIDGVIATNTTLDRSLVQGMKNCDQTGGLSGRPLQLKSTEIIRRLSLELNGRLPIIGVGGIDSVIAAREKIAAGASLVQIYSGFIFKGPPLIKEIVTHI" "c" "Lopez-Campistrous et al., 2005" -"DIHYDROPICRED-MONOMER" "MHDANIRVAIAGAGGRMGRQLIQAALALEGVQLGAALEREGSSLLGSDAGELAGAGKTGVTVQSSLDAVKDDFDVFIDFTRPEGTLNHLAFCRQHGKGMVIGTTGFDEAGKQAIRDAAADIAIVFAANFSVGVNVMLKLLEKAAKVMGDYTDIEIIEAHHRHKVDAPSGTALAMGEAIAHALDKDLKDCAVYSREGHTGERVPGTIGFATVRAGDIVGEHTAMFADIGERLEITHKASSRMTFANGAVRSALWLSGKESGLFDMRDVLDLNNL" "c" "Han et al., 2011" -"DIHYDROPTERIREDUCT-MONOMER" "MDIISVALKRHSTKAFDASKKLTPEQAEQIKTLLQYSPSSTNSQPWHFIVASTEEGKARVAKSAAGNYVFNERKMLDASHVVVFCAKTAMDDVWLKLVVDQEDADGRFATPEAKAANDKGRKFFADMHRKDLHDDAEWMAKQVYLNVGNFLLGVAALGLDAVPIEGFDAAILDAEFGLKEKGYTSLVVVPVGHHSVEDFNATLPKSRLPQNITLTEV" "c" "Lopez-Campistrous et al., 2005" -"DIHYDROXYACIDDEHYDRAT-MONOMER" "MPKYRSATTTHGRNMAGARALWRATGMTDADFGKPIIAVVNSFTQFVPGHVHLRDLGKLVAEQIEAAGGVAKEFNTIAVDDGIAMGHGGMLYSLPSRELIADSVEYMVNAHCADAMVCISNCDKITPGMLMASLRLNIPVIFVSGGPMEAGKTKLSDQIIKLDLVDAMIQGADPKVSDSQSDQVERSACPTCGSCSGMFTANSMNCLTEALGLSQPGNGSLLATHADRKQLFLNAGKRIVELTKRYYEQNDESALPRNIASKAAFENAMTLDIAMGGSTNTVLHLLAAAQEAEIDFTMSDIDKLSRKVPQLCKVAPSTQKYHMEDVHRAGGVIGILGELDRAGLLNRDVKNVLGLTLPQTLEQYDVMLTQDDAVKNMFRAGPAGIRTTQAFSQDCRWDTLDDDRANGCIRSLEHAYSKDGGLAVLYGNFAENGCIVKTAGVDDSILKFTGPAKVYESQDDAVEAILGGKVVAGDVVVIRYEGPKGGPGMQEMLYPTSFLKSMGLGKACALITDGRFSGGTSGLSIGHVSPEAASGGSIGLIEDGDLIAIDIPNRGIQLQVSDAELAARREAQDARGDKAWTPKNRERQVSFALRAYASLATSADKGAVRDKSKLGG" "c" "Han et al., 2011" -"DINF-MONOMER" "MPPGVAVCFSSLFIRLVCMAFLTSSDKALWHLALPMIFSNITVPLLGLVDTAVIGHLDSPVYLGGVAVGATATSFLFMLLLFLRMSTTGLTAQAYGAKNPQALARTLVQPLLLALGAGALIALLRTPIIDLALHIVGGSEAVLEQARRFLEIRWLSAPASLANLVLLGWLLGVQYARAPVILLVVGNILNIVLDVWLVMGLHMNVQGAALATVIAEYATLLIGLLMVRKILKLRGISGEMLKTAWRGNFRRLLALNRDIMLRSLLLQLCFGAITVLGARLGSDIIAVNAVLMTLLTFTAYALDGFAYAVEAHSGQAYGARDGSQLLDVWRAACRQSGIVALLFSVVYLLAGEHIIALLTSLTQIQQLADRYLIWQVILPVVGVWCYLLDGMFIGATRATEMRNSMAVAAAGFALTLLTLPWLGNHALWLALTVFLALRGLSLAAIWRRHWRNGTWFAAT" "i" "Han et al., 2011" -"DIOHBUTANONEPSYN-MONOMER" "MNQTLLSSFGTPFERVENALAALREGRGVMVLDDEDRENEGDMIFPAETMTVEQMALTIRHGSGIVCLCITEDRRKQLDLPMMVENNTSAYGTGFTVTIEAAEGVTTGVSAADRITTVRAAIADGAKPSDLNRPGHVFPLRAQAGGVLTRGGHTEATIDLMTLAGFKPAGVLCELTNDDGTMARAPECIEFANKHNMALVTIEDLVAYRQAHERKAS" "i" "EcoCyc dump" -"DISULFOXRED-MONOMER" "MKKIWLALAGLVLAFSASAAQYEDGKQYTTLEKPVAGAPQVLEFFSFFCPHCYQFEEVLHISDNVKKKLPEGVKMTKYHVNFMGGDLGKDLTQAWAVAMALGVEDKVTVPLFEGVQKTQTIRSASDIRDVFINAGIKGEEYDAAWNSFVVKSLVAQQEKAAADVQLRGVPAMFVNGKYQLNPQGMDTSNMDVFVQQYADTVKYLSEKK" "p" "Lopez-Campistrous et al., 2005" -"DLACTDEHYDROGFAD-MONOMER" "MSSMTTTDNKAFLNELARLVGSSHLLTDPAKTARYRKGFRSGQGDALAVVFPGSLLELWRVLKACVTADKIILMQAANTGLTEGSTPNGNDYDRDVVIISTLRLDKLHVLGKGEQVLAYPGTTLYSLEKALKPLGREPHSVIGSSCIGASVIGGICNNSGGSLVQRGPAYTEMSLFARINEDGKLTLVNHLGIDLGETPEQILSKLDDDRIKDDDVRHDGRHAHDYDYVHRVRDIEADTPARYNADPDRLFESSGCAGKLAVFAVRLDTFEAEKNQQVFYIGTNQPEVLTEIRRHILANFENLPVAGEYMHRDIYDIAEKYGKDTFLMIDKLGTDKMPFFFNLKGRTDAMLEKVKFFRPHFTDRAMQKFGHLFPSHLPPRMKNWRDKYEHHLLLKMAGDGVGEAKSWLVDYFKQAEGDFFVCTPEEGSKAFLHRFAAAGAAIRYQAVHSDEVEDILALDIALRRNDTEWYEHLPPEIDSQLVHKLYYGHFMCYVFHQDYIVKKGVDVHALKEQMLELLQQRGAQYPAEHNVGHLYKAPETLQKFYRENDPTNSMNPGIGKTSKRKNWQEVE" "c" "Han et al., 2011" -"DLACTDEHYDROGNAD-MONOMER" "MKLAVYSTKQYDKKYLQQVNESFGFELEFFDFLLTEKTAKTANGCEAVCIFVNDDGSRPVLEELKKHGVKYIALRCAGFNNVDLDAAKELGLKVVRVPAYDPEAVAEHAIGMMMTLNRRIHRAYQRTRDANFSLEGLTGFTMYGKTAGVIGTGKIGVAMLRILKGFGMRLLAFDPYPSAAALELGVEYVDLPTLFSESDVISLHCPLTPENYHLLNEAAFEQMKNGVMIVNTSRGALIDSQAAIEALKNQKIGSLGMDVYENERDLFFEDKSNDVIQDDVFRRLSACHNVLFTGHQAFLTAEALTSISQTTLQNLSNLEKGETCPNELV" "c" "Han et al., 2011" -"DMBPPRIBOSYLTRANS-MONOMER" "MQILADLLNTIPAIDSTAMSRAQRHIDGLLKPVGSLGKLEVLAIQLAGMPGLNGIPHVGKKAVLVMCADHGVWEEGVAISPKEVTAIQAENMTRGTTGVCVLAEQAGANVHVIDVGIDTAEPIPGLINMRVARGSGNIASAPAMSRRQAEKLLLDVICYTQELAKNGVTLFGVGELGMANTTPAAAIVSTITGRDPEEVVGIGANLPTDKLANKIDVVRRAITLNQPNPQDGVDVLAKVGGFDLVGIAGVMLGAASCGLPVLLDGFLSYAAALAACQMSPAIKPYLIPSHLSAEKGARIALSHLGLEPYLNMEMRLGEGSGAALAMPIIEAACAIYNNMGELAASNIVLPGNTTSDLNS" "c" "Han et al., 2011" -"DMK-MONOMER" "MTEQQISRTQAWLESLRPKTLPLAFAAIIVGTALAWWQGHFDPLVALLALITAGLLQILSNLANDYGDAVKGSDKPDRIGPLRGMQKGVITQQEMKRALIITVVLICLSGLALVAVACHTLADFVGFLILGGLSIIAAITYTVGNRPYGYIGLGDISVLVFFGWLSVMGSWYLQAHTLIPALILPATACGLLATAVLNINNLRDINSDRENGKNTLVVRLGEVNARRYHACLLMGSLVCLALFNLFSLHSLWGWLFLLAAPLLVKQARYVMREMDPVAMRPMLERTVKGALLTNLLFVLGIFLSQWAA" "i" "Han et al., 2011" -"DMSA-MONOMER" "MKTKIPDAVLAAEVSRRGLVKTTAIGGLAMASSALTLPFSRIAHAVDSAIPTKSDEKVIWSACTVNCGSRCPLRMHVVDGEIKYVETDNTGDDNYDGLHQVRACLRGRSMRRRVYNPDRLKYPMKRVGARGEGKFERISWEEAYDIIATNMQRLIKEYGNESIYLNYGTGTLGGTMTRSWPPGNTLVARLMNCCGGYLNHYGDYSSAQIAEGLNYTYGGWADGNSPSDIENSKLVVLFGNNPGETRMSGGGVTYYLEQARQKSNARMIIIDPRYTDTGAGREDEWIPIRPGTDAALVNGLAYVMITENLVDQAFLDKYCVGYDEKTLPASAPKNGHYKAYILGEGPDGVAKTPEWASQITGVPADKIIKLAREIGSTKPAFISQGWGPQRHANGEIATRAISMLAILTGNVGINGGNSGAREGSYSLPFVRMPTLENPIQTSISMFMWTDAIERGPEMTALRDGVRGKDKLDVPIKMIWNYAGNCLINQHSEINRTHEILQDDKKCELIVVIDCHMTSSAKYADILLPDCTASEQMDFALDASCGNMSYVIFNDQVIKPRFECKTIYEMTSELAKRLGVEQQFTEGRTQEEWMRHLYAQSREAIPELPTFEEFRKQGIFKKRDPQGHHVAYKAFREDPQANPLTTPSGKIEIYSQALADIAATWELPEGDVIDPLPIYTPGFESYQDPLNKQYPLQLTGFHYKSRVHSTYGNVDVLKAACRQEMWINPLDAQKRGIHNGDKVRIFNDRGEVHIEAKVTPRMMPGVVALGEGAWYDPDAKRVDKGGCINVLTTQRPSPLAKGNPSHTNLVQVEKV" "i" "EcoCyc dump" -"DMSB-MONOMER" "MTTQYGFFIDSSRCTGCKTCELACKDYKDLTPEVSFRRIYEYAGGDWQEDNGVWHQNVFAYYLSISCNHCEDPACTKVCPSGAMHKREDGFVVVDEDVCIGCRYCHMACPYGAPQYNETKGHMTKCDGCYDRVAEGKKPICVESCPLRALDFGPIDELRKKHGDLAAVAPLPRAHFTKPNIVIKPNANSRPTGDTTGYLANPKEV" "c" "EcoCyc dump" -"DMSC-MONOMER" "MGSGWHEWPLMIFTVFGQCVAGGFIVLALALLKGDLRAEAQQRVIACMFGLWVLMGIGFIASMLHLGSPMRAFNSLNRVGASALSNEIASGSIFFAVGGIGWLLAMLKKLSPALRTLWLIVTMVLGVIFVWMMVRVYNSIDTVPTWYSIWTPMGFFLTMFMGGPLLGYLLLSLAGVDGWAMRLLPAISVLALVVSGVVSVMQGAELATIHSSVQQAAALVPDYGALMSWRIVLLAVALCLWIAPQLKGYQPAVPLLSVSFILLLAGELIGRGVFYGLHMTVGMAVAS" "i" "Han et al., 2011" -"DPPA-MONOMER" "MRISLKKSGMLKLGLSLVAMTVAASVQAKTLVYCSEGSPEGFNPQLFTSGTTYDASSVPLYNRLVEFKIGTTEVIPGLAEKWEVSEDGKTYTFHLRKGVKWHDNKEFKPTRELNADDVVFSFDRQKNAQNPYHKVSGGSYEYFEGMGLPELISEVKKVDDNTVQFVLTRPEAPFLADLAMDFASILSKEYADAMMKAGTPEKLDLNPIGTGPFQLQQYQKDSRIRYKAFDGYWGTKPQIDTLVFSITPDASVRYAKLQKNECQVMPYPNPADIARMKQDKSINLMEMPGLNVGYLSYNVQKKPLDDVKVRQALTYAVNKDAIIKAVYQGAGVSAKNLIPPTMWGYNDDVQDYTYDPEKAKALLKEAGLEKGFSIDLWAMPVQRPYNPNARRMAEMIQADWAKVGVQAKIVTYEWGEYLKRAKDGEHQTVMMGWTGDNGDPDNFFATLFSCAASEQGSNYSKWCYKPFEDLIQPARATDDHNKRVELYKQAQVVMHDQAPALIIAHSTVFEPVRKEVKGYVVDPLGKHHFENVSIE" "i" "EcoCyc dump" -"DPPB-MONOMER" "MLQFILRRLGLVIPTFIGITLLTFAFVHMIPGDPVMIMAGERGISPERHAQLLAELGLDKPMWQQYLHYIWGVMHGDLGISMKSRIPVWEEFVPRFQATLELGVCAMIFATAVGIPVGVLAAVKRGSIFDHTAVGLALTGYSMPIFWWGMMLIMLVSVHWNLTPVSGRVSDMVFLDDSNPLTGFMLIDTAIWGEDGNFIDAVAHMILPAIVLGTIPLAVIVRMTRSSMLEVLGEDYIRTARAKGLTRMRVIIVHALRNAMLPVVTVIGLQVGTLLAGAILTETIFSWPGLGRWLIDALQRRDYPVVQGGVLLVATMIILVNLLVDLLYGVVNPRIRHKK" "i" "Han et al., 2011" -"DPPC-MONOMER" "MSQVTENKVISAPVPMTPLQEFWHYFKRNKGAVVGLVYVVIVLFIAIFANWIAPYNPAEQFRDALLAPPAWQEGGSMAHLLGTDDVGRDVLSRLMYGARLSLLVGCLVVVLSLIMGVILGLIAGYFGGLVDNIIMRVVDIMLALPSLLLALVLVAIFGPSIGNAALALTFVALPHYVRLTRAAVLVEVNRDYVTASRVAGAGAMRQMFINIFPNCLAPLIVQASLGFSNAILDMAALGFLGMGAQPPTPEWGTMLSDVLQFAQSAWWVVTFPGLAILLTVLAFNLMGDGLRDALDPKLKQ" "i" "Han et al., 2011" -"DPPD-MONOMER" "MALLNVDKLSVHFGDESAPFRAVDRISYSVKQGEVVGIVGESGSGKSVSSLAIMGLIDYPGRVMAEKLEFNGQDLQRISEKERRNLVGAEVAMIFQDPMTSLNPCYTVGFQIMEAIKVHQGGNKSTRRQRAIDLLNQVGIPDPASRLDVYPHQLSGGMSQRVMIAMAIACRPKLLIADEPTTALDVTIQAQIIELLLELQQKENMALVLITHDLALVAEAAHKIIVMYAGQVVETGDAHAIFHAPRHPYTQALLRALPEFAQDKERLASLPGVVPGKYDRPNGCLLNPRCPYATDRCRAEEPALNMLADGRQSKCHYPLDDAGRPTL" "i" "EcoCyc dump" -"DPPF-MONOMER" "MSTQEATLQQPLLQAIDLKKHYPVKKGMFAPERLVKALDGVSFNLERGKTLAVVGESGCGKSTLGRLLTMIEMPTGGELYYQGQDLLKHDPQAQKLRRQKIQIVFQNPYGSLNPRKKVGQILEEPLLINTSLSKEQRREKALSMMAKVGLKTEHYDRYPHMFSGGQRQRIAIARGLMLDPDVVIADEPVSALDVSVRAQVLNLMMDLQQELGLSYVFISHDLSVVEHIADEVMVMYLGRCVEKGTKDQIFNNPRHPYTQALLSATPRLNPDDRRERIKLSGELPSPLNPPPGCAFNARCRRRFGPCTQLQPQLKDYGGQLVACFAVDQDENPQR" "i" "EcoCyc dump" -"DSBBPROT-MONOMER" "MLRFLNQCSQGRGAWLLMAFTALALELTALWFQHVMLLKPCVLCIYERCALFGVLGAALIGAIAPKTPLRYVAMVIWLYSAFRGVQLTYEHTMLQLYPSPFATCDFMVRFPEWLPLDKWVPQVFVASGDCAERQWDFLGLEMPQWLLGIFIAYLIVAVLVVISQPFKAKKRDLFGR" "i" "Han et al., 2011" -"DSBC-MONOMER" "MKKGFMLFTLLAAFSGFAQADDAAIQQTLAKMGIKSSDIQPAPVAGMKTVLTNSGVLYITDDGKHIIQGPMYDVSGTAPVNVTNKMLLKQLNALEKEMIVYKAPQEKHVITVFTDITCGYCHKLHEQMADYNALGITVRYLAFPRQGLDSDAEKEMKAIWCAKDKNKAFDDVMAGKSVAPASCDVDIADHYALGVQLGVSGTPAVVLSNGTLVPGYQPPKEMKEFLDEHQKMTSGK" "p" "Lopez-Campistrous et al., 2005" -"DSBD-MONOMER" "MAQRIFTLILLLCSTSVFAGLFDAPGRSQFVPADQAFAFDFQQNQHDLNLTWQIKDGYYLYRKQIRITPEHAKIADVQLPQGVWHEDEFYGKSEIYRDRLTLPVTINQASAGATLTVTYQGCADAGFCYPPETKTVPLSEVVANNAAPQPVSVPQQEQPTAQLPFSALWALLIGIGIAFTPCVLPMYPLISGIVLGGKQRLSTARALLLTFIYVQGMALTYTALGLVVAAAGLQFQAALQHPYVLIGLAIVFTLLAMSMFGLFTLQLPSSLQTRLTLMSNRQQGGSPGGVFVMGAIAGLICSPCTTAPLSAILLYIAQSGNMWLGGGTLYLYALGMGLPLMLITVFGNRLLPKSGPWMEQVKTAFGFVILALPVFLLERVIGDVWGLRLWSALGVAFFGWAFITSLQAKRGWMRIVQIILLAAALVSVRPLQDWAFGATHTAQTQTHLNFTQIKTVDELNQALVEAKGKPVMLDLYADWCVACKEFEKYTFSDPQVQKALADTVLLQANVTANDAQDVALLKHLNVLGLPTILFFDGQGQEHPQARVTGFMDAETFSAHLRDRQP" "i" "Han et al., 2011" -"DSBG-MONOMER" "MLKKILLLALLPAIAFAEELPAPVKAIEKQGITIIKTFDAPGGMKGYLGKYQDMGVTIYLTPDGKHAISGYMYNEKGENLSNTLIEKEIYAPAGREMWQRMEQSHWLLDGKKDAPVIVYVFADPFCPYCKQFWQQARPWVDSGKVQLRTLLVGVIKPESPATAAAILASKDPAKTWQQYEASGGKLKLNVPANVSTEQMKVLSDNEKLMDDLGANVTPAIYYMSKENTLQQAVGLPDQKTLNIIMGNK" "p" "Han et al., 2011" -"DSDX-MONOMER" "MHSQIWVVSTLLISIVLIVLTIVKFKFHPFLALLLASFFVGTMMGMGPLDMVNAIESGIGGTLGFLAAVIGLGTILGKMMEVSGAAERIGLTLQRCRWLSVDVIMVLVGLICGITLFVEVGVVLLIPLAFSIAKKTNTSLLKLAIPLCTALMAVHCVVPPHPAALYVANKLGADIGSVIVYGLLVGLMASLIGGPLFLKFLGQRLPFKPVPTEFADLKVRDEKTLPSLGATLFTILLPIALMLVKTIAELNMARESGLYILVEFIGNPITAMFIAVFVAYYVLGIRQHMSMGTMLTHTENGFGSIANILLIIGAGGAFNAILKSSSLADTLAVILSNMHMHPILLAWLVALILHAAVGSATVAMMGATAIVAPMLPLYPDISPEIIAIAIGSGAIGCTIVTDSLFWLVKQYCGATLNETFKYYTTATFIASVVALAGTFLLSFII" "i" "Han et al., 2011" -"DSERDEAM-MONOMER" "MENAKMNSLIAQYPLVKDLVALKETTWFNPGTTSLAEGLPYVGLTEQDVQDAHARLSRFAPYLAKAFPETAATGGIIESELVAIPAMQKRLEKEYQQPISGQLLLKKDSHLPISGSIKARGGIYEVLAHAEKLALEAGLLTLDDDYSKLLSPEFKQFFSQYSIAVGSTGNLGLSIGIMSARIGFKVTVHMSADARAWKKAKLRSHGVTVVEYEQDYGVAVEEGRKAAQSDPNCFFIDDENSRTLFLGYSVAGQRLKAQFAQQGRIVDADNPLFVYLPCGVGGGPGGVAFGLKLAFGDHVHCFFAEPTHSPCMLLGVHTGLHDQISVQDIGIDNLTAADGLAVGRASGFVGRAMERLLDGFYTLSDQTMYDMLGWLAQEEGIRLEPSALAGMAGPQRVCASVSYQQMHGFSAEQLRNTTHLVWATGGGMVPEEEMNQYLAKGR" "c" "Han et al., 2011" -"DTDPDEHYDRHAMEPIM-MONOMER" "MNVIRTEIEDVLILEPRVFGDDRGFFYESFNQSAFEHILGYPVSFVQDNHSRSSKNVLRGLHFQRGEYAQDKLVRCTHGAVFDVAVDIRPNSVSFGKWVGVLLSADNKQQLWIPKGFAHGFLVLSDIAEFQYKTTNYYHPESDCGICWNDERIAIDWPQTSGLILSPKDERLFTLDELIRLKLIA" "c" "Lopez-Campistrous et al., 2005" -"DTDPDEHYRHAMREDUCT-MONOMER" "MNILLFGKTGQVGWELQRALAPLGNLIAFDVHSTDYCGDFSNPEGVAETVRSIRPDIIVNAAAHTAVDKAESEPEFAQLINATSVEAIAKAANEVGAWVIHYSTDYVFPGNGDMPWLETDATAPLNVYGETKLAGEKALQEYCAKHLIFRTSWVYAGKGNNFAKTMLRLAKEREELAVINDQFGAPTGAELLADCTAHAIRVALNKPDVAGLYHLVASGTTTWYDYAALVFEEARKAGIPLALNKLNAVPTTAYPTPARRPHNSRLNTEKFQQNFALVLPDWQVGVKRMLNELFTTTAI" "c" "Han et al., 2011" -"DTDPGLUCDEHYDRAT-MONOMER" "VKILVTGGAGFIGSAVVRHIINNTQDSVVNVDKLTYAGNRESLADVSDSERYVFEHADICDAPAMARIFAQHQPDAVMHLAAESHVDRSITGPAAFIETNIVGTYVLLEAARNYWSALDSDKKNSFRFHHISTDEVYGDLPHPDEVNNTEELPLFTETTAYAPSSPYSASKASSDHLVRAWKRTYGLPTIVTNCSNNYGPYHFPEKLIPLVILNALEGKALPIYGKGDQIRDWLYVEDHARALYTVVTEGKAGETYNIGGHNEKKNIDVVLTICDLLDEIVPKEKSYREQITYVADRPGHDRRYAIDAEKIGRALGWKPQETFESGIRKTVEWYLSNTKWVDNVKSGAYQSWIEQNYEGRQ" "c" "Han et al., 2011" -"DTDPGLUCDEHYDRAT2-MONOMER" "MRKILITGGAGFIGSALVRYIINETSDAVVVVDKLTYAGNLMSLAPVAQSERFAFEKVDICDRAELARVFTEHQPDCVMHLAAESHVDRSIDGPAAFIETNIVGTYTLLEAARAYWNALTEDKKSAFRFHHISTDEVYGDLHSTDDFFTETTPYAPSSPYSASKASSDHLVRAWLRTYGLPTLITNCSNNYGPYHFPEKLIPLMILNALAGKSLPVYGNGQQIRDWLYVEDHARALYCVATTGKVGETYNIGGHNERKNLDVVETICELLEELAPNKPHGVAHYRDLITFVADRPGHDLRYAIDASKIARELGWLPQETFESGMRKTVQWYLANESWWKQVQDGSYQGERLGLKG" "c" "Han et al., 2011" -"DTDPGLUCOSEPP-MONOMER" "MKMRKGIILAGGSGTRLYPVTMAVSKQLLPIYDKPMIYYPLSTLMLAGIRDILIISTPQDTPRFQQLLGDGSQWGLNLQYKVQPSPDGLAQAFIIGEEFIGGDDCALVLGDNIFYGHDLPKLMEAAVNKESGATVFAYHVNDPERYGVVEFDKNGTAISLEEKPLEPKSNYAVTGLYFYDNDVVQMAKNLKPSARGELEITDINRIYLEQGRLSVAMMGRGYAWLDTGTHQSLIEASNFIATIEERQGLKVSCPEEIAFRKGFIDVEQVRKLAVPLIKNNYGQYLYKMTKDSN" "c" "Han et al., 2011" -"DTDPGLUCOSEPP2-MONOMER" "MKGIILAGGSGTRLHPITRGVSKQLLPIYDKPMIYYPLSVLMLAGIREILIITTPEDKGYFQRLLGDGSEFGIQLEYAEQPSPDGLAQAFIIGETFLNGEPSCLVLGDNIFFGQGFSPKLRHVAARTEGATVFGYQVMDPERFGVVEFDDNFRAISLEEKPKQPKSNWAVTGLYFYDSKVVEYAKQVKPSERGELEITSINQMYLEAGNLTVELLGRGFAWLDTGTHDSLIEASTFVQTVEKRQGFKIACLEEIAWRNGWLDDEGVKRAASSLAKTGYGQYLLELLRARPRQY" "c" "Han et al., 2011" -"DTMPKI-MONOMER" "MRSKYIVIEGLEGAGKTTARNVVVETLEQLGIRDMVFTREPGGTQLAEKLRSLVLDIKSVGDEVITDKAEVLMFYAARVQLVETVIKPALANGTWVIGDRHDLSTQAYQGGGRGIDQHMLATLRDAVLGDFRPDLTLYLDVTPEVGLKRARARGELDRIEQESFDFFNRTRARYLELAAQDKSIHTIDATQPLEAVMDAIRTTVTHWVKELDA" "c" "Han et al., 2011" -"DUTP-PYROP-MONOMER" "MKKIDVKILDPRVGKEFPLPTYATSGSAGLDLRACLNDAVELAPGDTTLVPTGLAIHIADPSLAAMMLPRSGLGHKHGIVLGNLVGLIDSDYQGQLMISVWNRGQDSFTIQPGERIAQMIFVPVVQAEFNLVEDFDATDRGEGGFGHSGRQ" "c" "Lopez-Campistrous et al., 2005" -"DXPREDISOM-MONOMER" "MKQLTILGSTGSIGCSTLDVVRHNPEHFRVVALVAGKNVTRMVEQCLEFSPRYAVMDDEASAKLLKTMLQQQGSRTEVLSGQQAACDMAALEDVDQVMAAIVGAAGLLPTLAAIRAGKTILLANKESLVTCGRLFMDAVKQSKAQLLPVDSEHNAIFQSLPQPIQHNLGYADLEQNGVVSILLTGSGGPFRETPLRDLATMTPDQACRHPNWSMGRKISVDSATMMNKGLEYIEARWLFNASASQMEVLIHPQSVIHSMVRYQDGSVLAQLGEPDMRTPIAHTMAWPNRVNSGVKPLDFCKLSALTFAAPDYDRYPCLKLAMEAFEQGQAATTALNAANEITVAAFLAQQIRFTDIAALNLSVLEKMDMREPQCVDDVLSVDANAREVARKEVMRLAS" "c" "Han et al., 2011" -"DXS-MONOMER" "MSFDIAKYPTLALVDSTQELRLLPKESLPKLCDELRRYLLDSVSRSSGHFASGLGTVELTVALHYVYNTPFDQLIWDVGHQAYPHKILTGRRDKIGTIRQKGGLHPFPWRGESEYDVLSVGHSSTSISAGIGIAVAAEKEGKNRRTVCVIGDGAITAGMAFEAMNHAGDIRPDMLVILNDNEMSISENVGALNNHLAQLLSGKLYSSLREGGKKVFSGVPPIKELLKRTEEHIKGMVVPGTLFEELGFNYIGPVDGHDVLGLITTLKNMRDLKGPQFLHIMTKKGRGYEPAEKDPITFHAVPKFDPSSGCLPKSSGGLPSYSKIFGDWLCETAAKDNKLMAITPAMREGSGMVEFSRKFPDRYFDVAIAEQHAVTFAAGLAIGGYKPIVAIYSTFLQRAYDQVLHDVAIQKLPVLFAIDRAGIVGADGQTHQGAFDLSYLRCIPEMVIMTPSDENECRQMLYTGYHYNDGPSAVRYPRGNAVGVELTPLEKLPIGKGIVKRRGEKLAILNFGTLMPEAAKVAESLNATLVDMRFVKPLDEALILEMAASHEALVTVEENAIMGGAGSGVNEVLMAHRKPVPVLNIGLPDFFIPQGTQEEMRAELGLDAAGMEAKIKAWLA" "c" "Han et al., 2011" -"E1O-MONOMER" "MQNSALKAWLDSSYLSGANQSWIEQLYEDFLTDPDSVDANWRSTFQQLPGTGVKPDQFHSQTREYFRRLAKDASRYSSTISDPDTNVKQVKVLQLINAYRFRGHQHANLDPLGLWQQDKVADLDPSFHDLTEADFQETFNVGSFASGKETMKLGELLEALKQTYCGPIGAEYMHITSTEEKRWIQQRIESGRATFNSEEKKRFLSELTAAEGLERYLGAKFPGAKRFSLEGGDALIPMLKEMIRHAGNSGTREVVLGMAHRGRLNVLVNVLGKKPQDLFDEFAGKHKEHLGTGDVKYHMGFSSDFQTDGGLVHLALAFNPSHLEIVSPVVIGSVRARLDRLDEPSSNKVLPITIHGDAAVTGQGVVQETLNMSKARGYEVGGTVRIVINNQVGFTTSNPLDARSTPYCTDIGKMVQAPIFHVNADDPEAVAFVTRLALDFRNTFKRDVFIDLVCYRRHGHNEADEPSATQPLMYQKIKKHPTPRKIYADKLEQEKVATLEDATEMVNLYRDALDAGDCVVAEWRPMNMHSFTWSPYLNHEWDEEYPNKVEMKRLQELAKRISTVPEAVEMQSRVAKIYGDRQAMAAGEKLFDWGGAENLAYATLVDEGIPVRLSGEDSGRGTFFHRHAVIHNQSNGSTYTPLQHIHNGQGAFRVWDSVLSEEAVLAFEYGYATAEPRTLTIWEAQFGDFANGAQVVIDQFISSGEQKWGRMCGLVMLLPHGYEGQGPEHSSARLERYLQLCAEQNMQVCVPSTPAQVYHMLRRQALRGMRRPLVVMSPKSLLRHPLAVSSLEELANGTFLPAIGEIDELDPKGVKRVVMCSGKVYYDLLEQRRKNNQHDVAIVRIEQLYPFPHKAMQEVLQQFAHVKDFVWCQEEPLNQGAWYCSQHHFREVIPFGASLRYAGRPASASPAVGYMSVHQKQQQDLVNDALNVE" "c" "Han et al., 2011" -"E1P-MONOMER" "MSERFPNDVDPIETRDWLQAIESVIREEGVERAQYLIDQLLAEARKGGVNVAAGTGISNYINTIPVEEQPEYPGNLELERRIRSAIRWNAIMTVLRASKKDLELGGHMASFQSSATIYDVCFNHFFRARNEQDGGDLVYFQGHISPGVYARAFLEGRLTQEQLDNFRQEVHGNGLSSYPHPKLMPEFWQFPTVSMGLGPIGAIYQAKFLKYLEHRGLKDTSKQTVYAFLGDGEMDEPESKGAITIATREKLDNLVFVINCNLQRLDGPVTGNGKIINELEGIFEGAGWNVIKVMWGSRWDELLRKDTSGKLIQLMNETVDGDYQTFKSKDGAYVREHFFGKYPETAALVADWTDEQIWALNRGGHDPKKIYAAFKKAQETKGKATVILAHTIKGYGMGDAAEGKNIAHQVKKMNMDGVRHIRDRFNVPVSDADIEKLPYITFPEGSEEHTYLHAQRQKLHGYLPSRQPNFTEKLELPSLQDFGALLEEQSKEISTTIAFVRALNVMLKNKSIKDRLVPIIADEARTFGMEGLFRQIGIYSPNGQQYTPQDREQVAYYKEDEKGQILQEGINELGAGCSWLAAATSYSTNNLPMIPFYIYYSMFGFQRIGDLCWAAGDQQARGFLIGGTSGRTTLNGEGLQHEDGHSHIQSLTIPNCISYDPAYAYEVAVIMHDGLERMYGEKQENVYYYITTLNENYHMPAMPEGAEEGIRKGIYKLETIEGSKGKVQLLGSGSILRHVREAAEILAKDYGVGSDVYSVTSFTELARDGQDCERWNMLHPLETPRVPYIAQVMNDAPAVASTDYMKLFAEQVRTYVPADDYRVLGTDGFGRSDSRENLRHHFEVDASYVVVAALGELAKRGEIDKKVVADAIAKFNIDADKVNPRLA" "c" "EcoCyc dump" -"E2O-MONOMER" "MSSVDILVPDLPESVADATVATWHKKPGDAVVRDEVLVEIETDKVVLEVPASADGILDAVLEDEGTTVTSRQILGRLREGNSAGKETSAKSEEKASTPAQRQQASLEEQNNDALSPAIRRLLAEHNLDASAIKGTGVGGRLTREDVEKHLAKAPAKESAPAAAAPAAQPALAARSEKRVPMTRLRKRVAERLLEAKNSTAMLTTFNEVNMKPIMDLRKQYGEAFEKRHGIRLGFMSFYVKAVVEALKRYPEVNASIDGDDVVYHNYFDVSMAVSTPRGLVTPVLRDVDTLGMADIEKKIKELAVKGRDGKLTVEDLTGGNFTITNGGVFGSLMSTPIINPPQSAILGMHAIKDRPMAVNGQVEILPMMYLALSYDHRLIDGRESVGFLVTIKELLEDPTRLLLDV" "c" "Lopez-Campistrous et al., 2005" -"E2P-MONOMER" "MAIEIKVPDIGADEVEITEILVKVGDKVEAEQSLITVEGDKASMEVPSPQAGIVKEIKVSVGDKTQTGALIMIFDSADGAADAAPAQAEEKKEAAPAAAPAAAAAKDVNVPDIGSDEVEVTEILVKVGDKVEAEQSLITVEGDKASMEVPAPFAGTVKEIKVNVGDKVSTGSLIMVFEVAGEAGAAAPAAKQEAAPAAAPAPAAGVKEVNVPDIGGDEVEVTEVMVKVGDKVAAEQSLITVEGDKASMEVPAPFAGVVKELKVNVGDKVKTGSLIMIFEVEGAAPAAAPAKQEAAAPAPAAKAEAPAAAPAAKAEGKSEFAENDAYVHATPLIRRLAREFGVNLAKVKGTGRKGRILREDVQAYVKEAIKRAEAAPAATGGGIPGMLPWPKVDFSKFGEIEEVELGRIQKISGANLSRNWVMIPHVTHFDKTDITELEAFRKQQNEEAAKRKLDVKITPVVFIMKAVAAALEQMPRFNSSLSEDGQRLTLKKYINIGVAVDTPNGLVVPVFKDVNKKGIIELSRELMTISKKARDGKLTAGEMQGGCFTISSIGGLGTTHFAPIVNAPEVAILGVSKSAMEPVWNGKEFVPRLMLPISLSFDHRVIDGADGARFITIINNTLSDIRRLVM" "c" "Han et al., 2011" -"E3-MONOMER" "MSTEIKTQVVVLGAGPAGYSAAFRCADLGLETVIVERYNTLGGVCLNVGCIPSKALLHVAKVIEEAKALAEHGIVFGEPKTDIDKIRTWKEKVINQLTGGLAGMAKGRKVKVVNGLGKFTGANTLEVEGENGKTVINFDNAIIAAGSRPIQLPFIPHEDPRIWDSTDALELKEVPERLLVMGGGIIGLEMGTVYHALGSQIDVVEMFDQVIPAADKDIVKVFTKRISKKFNLMLETKVTAVEAKEDGIYVTMEGKKAPAEPQRYDAVLVAIGRVPNGKNLDAGKAGVEVDDRGFIRVDKQLRTNVPHIFAIGDIVGQPMLAHKGVHEGHVAAEVIAGKKHYFDPKVIPSIAYTEPEVAWVGLTEKEAKEKGISYETATFPWAASGRAIASDCADGMTKLIFDKESHRVIGGAIVGTNGGELLGEIGLAIEMGCDAEDIALTIHAHPTLHESVGLAAEVFEGSITDLPNPKAKKK" "i" "EcoCyc dump" -"EG10003-MONOMER" "MVSSFTSAPRSGFYYFAQGWKLVSQPGIRRFVILPLLVNILLMGGAFWWLFTQLDVWIPTLMSYVPDWLQWLSYLLWPLAVISVLLVFGYFFSTIANWIAAPFNGLLAEQLEARLTGATPPDTGIFGIMKDVPRIMKREWQKFAWYLPRAIVLLILYFIPGIGQTVAPVLWFLFSAWMLAIQYCDYPFDNHKVPFKEMRTALRTRKITNMQFGALTSLFTMIPLLNLFIMPVAVCGATAMWVDCYRDKHAMWR" "i" "Han et al., 2011" -"EG10004-MONOMER" "MSLAGKKIVLGVSGGIAAYKTPELVRRLRDRGADVRVAMTEAAKAFITPLSLQAVSGYPVSDSLLDPAAEAAMGHIELGKWADLVILAPATADLIARVAAGMANDLVSTICLATPAPVAVLPAMNQQMYRAAATQHNLEVLASRGLLIWGPDSGSQACGDIGPGRMLDPLTIVDMAVAHFSPVNDLKHLNIMITAGPTREPLDPVRYISNHSSGKMGFAIAAAAARRGANVTLVSGPVSLPTPPFVKRVDVMTALEMEAAVNASVQQQNIFIGCAAVADYRAATVAPEKIKKQATQGDELTIKMVKNPDIVAGVAALKDHRPYVVGFAAETNNVEEYARQKRIRKNLDLICANDVSQPTQGFNSDNNALHLFWQDGDKVLPLERKELLGQLLLDEIVTRYDEKNRR" "c" "Han et al., 2011" -"EG10010-MONOMER" "MSTRLTTLSHTSEGHRVSVHYGYDDKGRLTGERQTVENPETGELLWHHETGHAYNEQGLANRVTPDSLPPVEWLTYGSGYLAGMKLGGTPLLEFTRDRLHRETVRSFGSMAGSNAAYKLTSTYTPAGQLQSQHLNSLVYDRDYGWNDNGDLVRISGPRQTREYGYSATGRLESVRTLAPDLDIRIPYATDPAGNRLPDPELHPDSTLTVWPDNRIAEDAHYVYRHDEYGRLTEKTDRIPAGVIRTDDERTHHYHYDSQHRLVFYTRIQHGEPLVESRYLYDPLGRRMAKRVWRRERDLTGWMSLSRKPEVTWYGWDGDRLTTVQTDTTRIQTVYEPGSFTPLIRVETENGEREKAQRRSLAETLQQEGSENGHGVVFPAELVRLLDRLEEEIRADRVSSESRAWLAQCGLTVEQLARQVEPEYTPARKVHFYHCDHRGLPLALISEDGNTAWRGEYDEWGNQLNEENPHHLHQPYRLPGQQHDEESGLYYNRHRHYDPLQGRYITPDPIGLRGGWNMYQYPLNPIQVIDPMGLDAIENMTSGGLIYAVSGVPGLIAANSITNSAYQFGYDMDAIVGGAHNGAADAMRHCYLMCRMTKTFGSTIADVIGKNHEAAGDRQGQPAKERIMDLKNNTVGIACGDFSAKCSDACIEKYNTGQLFGLDGIKADNPIKAKQGSSDASNY" "o" "Han et al., 2011" -"EG10011-MONOMER" "MLILISPAKTLDYQSPLTTTRYTLPELLDNSQQLIHEARKLTPPQISTLMRISDKLAGINAARFHDWQPDFTPANARQAILAFKGDVYTGLQAETFSEDDFDFAQQHLRMLSGLYGVLRPLDLMQPYRLEMGIRLENARGKDLYQFWGDIITNKLNEALAAQGDNVVINLASDEYFKSVKPKKLNAEIIKPVFLDEKNGKFKIISFYAKKARGLMSRFIIENRLTKPEQLTGFNSEGYFFDEDSSSNGELVFKRYEQR" "c" "Han et al., 2011" -"EG10013-MONOMER" "VQQIARSVALAFNNLPRPHRVMLGSLTVLTLAVAVWRPYVYHRDATPIVKTIELEQNEIRSLLPEASEPIDQAAQEDEAIPQDELDDKIAGEAGVHEYVVSTGDTLSSILNQYGIDMGDITQLAAADKELRNLKIGQQLSWTLTADGELQRLTWEVSRRETRTYDRTAANGFKMTSEMQQGEWVNNLLKGTVGGSFVASARNAGLTSAEVSAVIKAMQWQMDFRKLKKGDEFAVLMSREMLDGKREQSQLLGVRLRSEGKDYYAIRAEDGKFYDRNGTGLAKGFLRFPTAKQFRISSNFNPRRTNPVTGRVAPHRGVDFAMPQGTPVLSVGDGEVVVAKRSGAAGYYVAIRHGRSYTTRYMHLRKILVKPGQKVKRGDRIALSGNTGRSTGPHLHYEVWINQQAVNPLTAKLPRTEGLTGSDRREFLAQAKEIVPQLRFD" "e" "Han et al., 2011" -"EG10015-MONOMER" "MNTEATHDQNEALTTGARLRNAREQLGLSQQAVAERLCLKVSTVRDIEEDKAPADLASTFLRGYIRSYARLVHIPEEELLPGLEKQAPLRAAKVAPMQSFSLGKRRKKRDGWLMTFTWLVLFVVIGLSGAWWWQDRKAQQEEITTMADQSSAELSSNSEQGQSVPLNTSTTTDPATTSTPPASVDTTATNTQTPAVTAPAPAVDPQQNAVVSPSQANVDTAATPAPTAATTPDGAAPLPTDQAGVTTPVADPNALVMNFTADCWLEVTDATGKKLFSGMQRKDGNLNLTGQAPYKLKIGAPAAVQIQYQGKPVDLSRFIRTNQVARLTLNAEQSPAQ" "c" "Han et al., 2011" -"EG10018-MONOMER" "MRLTTKFSAFVTLLTGLTIFVTLLGCSLSFYNAIQYKFSHRVQAVATAIDTHLVSNDFSVLRPQITELMMSADIVRVDLLHGDKQVYTLARNGSYRPVGSSDLFRELSVPLIKHPGMSLRLVYQDPMGNYFHSLMTTAPLTGAIGFIIVMLFLAVRWLQRQLAGQELLETRATRILNGERGSNVLGTIYEWPPRTSSALDTLLREIQNAREQHSRLDTLIRSYAAQDVKTGLNNRLFFDNQLATLLEDQEKVGTHGIVMMIRLPDFNMLSDTWGHSQVEEQFFTLTNLLSTFMMRYPGALLARYHRSDFAALLPHRTLKEAESIAGQLIKAVDTLPNNKMLDRDDMIHIGICAWRSGQDTEQVMEHAESATRNAGLQGGNSWAIYDDSLPEKGRGNVRWRTLIEQMLSRGGPRLYQKPAVTREGQVHHRELMCRIFDGNEEVSSAEYMPMVLQFGLSEEYDRLQISRLIPLLRYWPEENLAIQVTVESLIRPRFQRWLRDTLMQCEKSQRKRIIIELAEADVGQHISRLQPVIRLVNALGVRVAVNQAGLTLVSTSWIKELNVELLKLHPGLVRNIEKRTENQLLVQSLVEACSGTSTQVYATGVRSRSEWQTLIQRGVTGGQGDFFASSQPLDTNVKKYSQRYSV" "i" "Han et al., 2011" -"EG10021-MONOMER" "MNPIAVTLLTGFLGAGKTTLLRHILNEQHGYKIAVIENEFGEVSVDDQLIGDRATQIKTLTNGCICCSRSNELEDALLDLLDNLDKGNIQFDRLVIECTGMADPGPIIQTFFSHEVLCQRYLLDGVIALVDAVHADEQMNQFTIAQSQVGYADRILLTKTDVAGEAEKLHERLARINARAPVYTVTHGDIDLGLLFNTNGFMLEENVVSTKPRFHFIADKQNDISSIVVELDYPVDISEVSRVMENLLLESADKLLRYKGMLWIDGEPNRLLFQGVQRLYSADWDRPWGDEKPHSTMVFIGIQLPEEEIRAAFAGLRK" "c" "Han et al., 2011" -"EG10037-MONOMER" "MLDLFADAEPWQEPLAAGAVILRRFAFNAAEQLIRDINDVASQSPFRQMVTPGGYTMSVAMTNCGHLGWTTHRQGYLYSPIDPQTNKPWPAMPQSFHNLCQRAATAAGYPDFQPDACLINRYAPGAKLSLHQDKDEPDLRAPIVSVSLGLPAIFQFGGLKRNDPLKRLLLEHGDVVVWGGESRLFYHGIQPLKAGFHPLTIDCRYNLTFRQAGKKE" "c" "Han et al., 2011" -"EG10040-MONOMER" "MFKTTLCALLITASCSTFAAPQQINDIVHRTITPLIEQQKIPGMAVAVIYQGKPYYFTWGYADIAKKQPVTQQTLFELGSVSKTFTGVLGGDAIARGEIKLSDPTTKYWPELTAKQWNGITLLHLATYTAGGLPLQVPDEVKSSSDLLRFYQNWQPAWAPGTQRLYANSSIGLFGALAVKPSGLSFEQAMQTRVFQPLKLNHTWINVPPAEEKNYAWGYREGKAVHVSPGALDAEAYGVKSTIEDMARWVQSNLKPLDINEKTLQQGIQLAQSRYWQTGDMYQGLGWEMLDWPVNPDSIINGSDNKIALAARPVKAITPPTPAVRASWVHKTGATGGFGSYVAFIPEKELGIVMLANKNYPNPARVDAAWQILNALQ" "p" "Han et al., 2011" -"EG10041-MONOMER" "MLLEQGWLVGARRVPSPHYDCRPDDETPTLLVVHNISLPPGEFGGPWIDALFTGTIDPQAHPFFAEIAHLRVSAHCLIRRDGEIVQYVPFDKRAWHAGVSQYQGRERCNDFSIGIELEGTDTLAYTDAQYQQLAAVTRALIDCYPDIAKNMTGHCDIAPDRKTDPGPAFDWARFRVLVSKETT" "c" "Han et al., 2011" -"EG10042-MONOMER" "MTLFTTLLVLIFERLFKLGEHWQLDHRLEAFFRRVKHFSLGRTLGMTIIAMGVTFLLLRALQGVLFNVPTLLVWLLIGLLCIGAGKVRLHYHAYLTAASRNDSHARATMAGELTMIHGVPAGCDEREYLRELQNALLWINFRFYLAPLFWLIVGGTWGPVTLMGYAFLRAWQYWLARYQTPHHRLQSGIDAVLHVLDWVPVRLAGVVYALIGHGEKALPAWFASLGDFHTSQYQVLTRLAQFSLAREPHVDKVETPKAAVSMAKKTSFVVVVVIALLTIYGALV" "i" "Han et al., 2011" -"EG10043-MONOMER" "MLDQVCQLARNAGDAIMQVYDGTKPMDVVSKADNSPVTAADIAAHTVIMDGLRTLTPDVPVLSEEDPPGWEVRQHWQRYWLVDPLDGTKEFIKRNGEFTVNIALIDHGKPILGVVYAPVMNVMYSAAEGKAWKEECGVRKQIQVRDARPPLVVISRSHADAELKEYLQQLGEHQTTSIGSSLKFCLVAEGQAQLYPRFGPTNIWDTAAGHAVAAAAGAHVHDWQGKPLDYTPRESFLNPGFRVSIY" "c" "Han et al., 2011" -"EG10044-MONOMER" "MNKNMAGILSAAAVLTMLAGCTAYDRTKDQFVQPVVKDVKKGMSRAQVAQIAGKPSSEVSMIHARGTCQTYILGQRDGKAETYFVALDDTGHVINSGYQTCAEYDTDPQAAK" "i" "Han et al., 2011" -"EG10047-MONOMER" "MINSPRVCIQVQSVYIEAQSSPDNERYVFAYTVTIRNLGRAPVQLLGRYWLITNGNGRETEVQGEGVVGVQPLIAPGEEYQYTSGAIIETPLGTMQGHYEMIDENGVPFSIDIPVFRLAVPTLIH" "c" "Han et al., 2011" -"EG10048-MONOMER" "MATYLIGDVHGCYDELIALLHKVEFTPGKDTLWLTGDLVARGPGSLDVLRYVKSLGDSVRLVLGNHDLHLLAVFAGISRNKPKDRLTPLLEAPDADELLNWLRRQPLLQIDEEKKLVMAHAGITPQWDLQTAKECARDVEAVLSSDSYPFFLDAMYGDMPNNWSPELRGLGRLRFITNAFTRMRFCFPNGQLDMYSKESPEEAPAPLKPWFAIPGPVAEEYSIAFGHWASLEGKGTPEGIYALDTGCCWGGTLTCLRWEDKQYFVQPSNRHKDLGEAAAS" "c" "Han et al., 2011" -"EG10083-MONOMER" "MSASLAILTIGIVPMQEVLPLLTEYIDEDNISHHSLLGKLSREEVMAEYAPEAGEDTILTLLNDNQLAHVSRRKVERDLQGVVEVLDNQGYDVILLMSTANISSMTARNTIFLEPSRILPPLVSSIVEDHQVGVIVPVEEMLPVQAQKWQILQKSPVFSLGNPIHDSEQKIIDAGKELLAKGADVIMLDCLGFHQRHRDLLQKQLDVPVLLSNVLIARLAAELLV" "c" "Han et al., 2011" -"EG10085-MONOMER" "MSVFPESFLWGGALAANQSEGAFREGDKGLTTVDMIPHGEHRMAVKLGLEKRFQLRDDEFYPSHEATDFYHRYKEDIALMAEMGFKVFRTSIAWSRLFPQGDEITPNQQGIAFYRSVFEECKKYGIEPLVTLCHFDVPMHLVTEYGSWRNRKLVEFFSRYARTCFEAFDGLVKYWLTFNEINIMLHSPFSGAGLVFEEGENQDQVKYQAAHHQLVASALATKIAHEVNPQNQVGCMLAGGNFYPYSCKPEDVWAALEKDRENLFFIDVQARGTYPAYSARVFREKGVTINKAPGDDEILKNTVDFVSFSYYASRCASAEMNANNSSAANVVKSLRNPYLQVSDWGWGIDPLGLRITMNMMYDRYQKPLFLVENGLGAKDEFAANGEINDDYRISYLREHIRAMGEAIADGIPLMGYTTWGCIDLVSASTGEMSKRYGFVFVDRDDAGNGTLTRTRKKSFWWYKKVIASNGEDLE" "c" "Han et al., 2011" -"EG10087-MONOMER" "MTTMLEVAKRAGVSKATVSRVLSGNGYVSQETKDRVFQAVEESGYRPNLLARNLSAKSTQTLGLVVTNTLYHGIYFSELLFHAARMAEEKGRQLLLADGKHSAEEERQAIQYLLDLRCDAIMIYPRFLSVDEIDDIIDAHSQPIMVLNRRLRKNSSHSVWCDHKQTSFNAVAELINAGHQEIAFLTGSMDSPTSIERLAGYKDALAQHGIALNEKLIANGKWTPASGAEGVEMLLERGAKFSALVASNDDMAIGAMKALHERGVAVPEQVSVIGFDDIAIAPYTVPALSSVKIPVTEMIQEIIGRLIFMLDGGDFSPPKTFSGKLIRRDSLIAPSR" "c" "Han et al., 2011" -"EG10090-MONOMER" "MLQQVPTRAFHVMAKPSGSDCNLNCDYCFYLEKQSLYREKPVTHMDDDTLEAYVRHYIAASEPQNEVAFTWQGGEPTLLGLAFYRRAVALQAKYGAGRKISNSFQTNGVLLDDEWCAFLAEHHFLVGLSLDGPPEIHNQYRVTKGGRPTHKLVMRALTLLQKHHVDYNVLVCVNRTSAQQPLQVYDFLCDAGVEFIQFIPVVERLADETTARDGLKLHAPGDIQGELTEWSVRPEEFGEFLVAIFDHWIKRDVGKIFVMNIEWAFANFVGAPGAVCHHQPTCGRSVIVEHNGDVYACDHYVYPQYRLGNMHQQTIAEMIDSPQQQAFGEDKFKQLPAQCRSCNVLKACWGGCPKHRFMLDASGKPGLNYLCAGYQRYFRHLPPYLKAMADLLAHGRPASDIMHAHLLVVSK" "c" "Han et al., 2011" -"EG10106-MONOMER" "MSVSLVSRNVARKLLLVQLLVVIASGLLFSLKDPFWGVSAISGGLAVFLPNVLFMIFAWRHQAHTPAKGRVAWTFAFGEAFKVLAMLVLLVVALAVLKAVFLPLIVTWVLVLVVQILAPAVINNKG" "i" "Han et al., 2011" -"EG10108-MONOMER" "MNPLKAGDIAPKFSLPDQDGEQVNLTDFQGQRVLVYFYPKAMTPGCTVQACGLRDNMDELKKAGVDVLGISTDKPEKLSRFAEKELLNFTLLSDEDHQVCEQFGVWGEKSFMGKTYDGIHRISFLIDADGKIEHVFDDFKTSNHHDVVLNWLKEHA" "c" "Lopez-Campistrous et al., 2005" -"EG10113-MONOMER" "MKGDTKVINYLNKLLGNELVAINQYFLHARMFKNWGLKRLNDVEYHESIDEMKHADRYIERILFLEGLPNLQDLGKLNIGEDVEEMLRSDLALELDGAKNLREAIGYADSVHDYVSRDMMIEILRDEEGHIDWLETELDLIQKMGLQNYLQAQIREEG" "c" "Han et al., 2011" -"EG10114-MONOMER" "MKAFPETFLWGGATAANQVEGAWQEDGKGISTSDLQPHGVMGKMEPRILGKENIKDVAIDFYHRYPEDIALFAEMGFTCLRISIAWARIFPQGDEVEPNEAGLAFYDRLFDEMAQAGIKPLVTLSHYEMPYGLVKNYGGWANRAVIDHFEHYARTVFTRYQHKVALWLTFNEINMSLHAPFTGVGLAEESGEAEVYQAIHHQLVASARAVKACHSLLPEAKIGNMLLGGLVYPLTCQPQDMLQAMEENRRWMFFGDVQARGQYPGYMQRFFRDHNITIEMTESDAEDLKHTVDFISFSYYMTGCVSHDESINKNAQGNILNMIPNPHLKSSEWGWQIDPVGLRVLLNTLWDRYQKPLFIVENGLGAKDSVEADGSIQDDYRIAYLNDHLVQVNEAIADGVDIMGYTSWGPIDLVSASHSQMSKRYGFIYVDRDDNGEGSLTRTRKKSFGWYAEVIKTRGLSLKKITIKAP" "c" "Han et al., 2011" -"EG10116-MONOMER" "MNMQITKILNNNVVVVIDDQQREKVVMGRGIGFQKRAGERINSSGIEKEYALSSHELNGRLSELLSHIPLEVMATCDRIISLAQERLGKLQDSIYISLTDHCQFAIKRFQQNVLLPNPLLWDIQRLYPKEFQLGEEALTIIDKRLGVQLPKDEVGFIAMHLVSAQMSGNMEDVAGVTQLMREMLQLIKFQFSLNYQEESLSYQRLVTHLKFLSWRILEHASINDSDESLQQAVKQNYPQAWQCAERIAIFIGLQYQRKISPAEIMFLAINIERVRKEH" "c" "Han et al., 2011" -"EG10119-MONOMER" "MATVNKQAIAAAFGRAAAHYEQHADLQRQSADALLAMLPQRKYTHVLDAGCGPGWMSRHWRERHAQVTALDLSPPMLVQARQKDAADHYLAGDIESLPLATATFDLAWSNLAVQWCGNLSTALRELYRVVRPKGVVAFTTLVQGSLPELHQAWQAVDERPHANRFLPPDEIEQSLNGVHYQHHIQPITLWFDDALSAMRSLKGIGATHLHEGRDPRILTRSQLQRLQLAWPQQQGRYPLTYHLFLGVIARE" "c" "Han et al., 2011" -"EG10122-MONOMER" "MNNIWWQTKGQGNVHLVLLHGWGLNAEVWRCIDEELSSHFTLHLVDLPGFGRSRGFGALSLADMAEAVLQQAPDKAIWLGWSLGGLVASQIALTHPERVQALVTVASSPCFSARDEWPGIKPDVLAGFQQQLSDDFQRTVERFLALQTMGTETARQDARALKKTVLALPMPEVDVLNGGLEILKTVDLRQPLQNVSMPFLRLYGYLDGLVPRKVVPMLDKLWPHSESYIFAKAAHAPFISHPAEFCHLLVALKQRV" "c" "Han et al., 2011" -"EG10124-MONOMER" "LANSSSRYSVLTAAHWGPMLVETDGETVFSSRGALATGMENSLQSAVRDQVHSNTRVRFPMVRKGFLASPENPQGIRGQDEFVRVSWDEALDLIHQQHKRIREAYGPASIFAGSYGWRSNGVLHKASTLLQRYMALAGGYTGHLGDYSTGAAQAIMPYVVGGSEVYQQQTSWPLVLEHSDVVVLWSANPLNTLKIAWNASDEQGLSYFSALRDSGKKLICIDPMRSETVDFFGDKMEWVAPHMGTDVALMLGIAHTLVENGWHDEAFLARCTTGYAVFASYLLGESDGIAKTAEWAAEICGVGAAKIRELAAIFHQNTTMLMAGWGMQRQQFGEQKHWMIVTLAAMLGQIGTPGGGFGLSYHFANGGNPTRRSAVLSSMQGSLPGGCDAVDKIPVARIVEALENPGGAYQHNGMNRHFPDIRFIWWAGGANFTHHQDTNRLIRAWQKPELVVISECFWTAAAKHADIVLPATTSFERNDLTMTGDYSNQHLVPMKQVVPPRYEARNDFDVFAELSERWEKGGYARFTEGKSELQWLETFYNVARQRGASQQVELPPFAEFWQANQLIEMPENPDSERFIRFADFCRDPLAHPLKTASGKIEIFSQRIADYGYPDCPGHPMWLEPDEWQGNAEPEQLQVLSAHPAHRLHSQLNYSSLRELYAVANREPVTIHPDDAQERGIQDGDTVRLWNARGQILAGAVISEGIKPGVICIHEGAWPDLDLTADGICKNGAVNVLTKDLPSSRLGNGCAGNTALAWLEKYNGPELTLTAFEPPASS" "c" "Han et al., 2011 (location manually reset)" -"EG10125-MONOMER" "MMIRERIEEKLRAAFQPVFLEVVDESYRHNVPAGSESHFKVVLVSDRFTGERFLNRHRMIYSTLAEELSTTVHALALHTYTIKEWEGLQDTVFASPPCRGAGSIA" "c" "Han et al., 2011" -"EG10126-MONOMER" "MIKKASLLTACSVTAFSAWAQDTSPDTLVVTANRFEQPRSTVLAPTTVVTRQDIDRWQSTSVNDVLRRLPGVDITQNGGSGQLSSIFIRGTNASHVLVLIDGVRLNLAGVSGSADLSQFPIALVQRVEYIRGPRSAVYGSDAIGGVVNIITTRDEPGTEISAGWGSNSYQNYDVSTQQQLGDKTRVTLLGDYAHTHGYDVVAYGNTGTQAQTDNDGFLSKTLYGALEHNFTDAWSGFVRGYGYDNRTNYDAYYSPGSPLLDTRKLYSQSWDAGLRYNGELIKSQLITSYSHSKDYNYDPHYGRYDSSATLDEMKQYTVQWANNVIVGHGSIGAGVDWQKQTTTPGTGYVEDGYDQRNTGIYLTGLQQVGDFTFEGAARSDDNSQFGRHGTWQTSAGWEFIEGYRFIASYGTSYKAPNLGQLYGFYGNPNLDPEKSKQWEGAFEGLTAGVNWRISGYRNDVSDLIDYDDHTLKYYNEGKARIKGVEATANFDTGPLTHTVSYDYVDARNAITDTPLLRRAKQQVKYQLDWQLYDFDWGITYQYLGTRYDKDYSSYPYQTVKMGGVSLWDLAVAYPVTSHLTVRGKIANLFDKDYETVYGYQTAGREYTLSGSYTF" "e" "EcoCyc dump" -"EG10136-MONOMER" "VKIYLVGGAVRDALLGLPVKDRDWVVVGSTPQEMLDAGYQQVGRDFPVFLHPQTHEEYALARTERKSGSGYTGFTCYAAPDVTLEDDLKRRDLTINALAQDDNGEIIDPYNGLGDLQNRLLRHVSPAFGEDPLRVLRVARFAARYAHLGFRIADETLALMREMTHAGELEHLTPERVWKETESALTTRNPQVFFQVLRDCGALRVLFPEIDALFGVPAPAKWHPEIDTGIHTLMTLSMAAMLSPQVDVRFATLCHDLGKGLTPPELWPRHHGHGPAGVKLVEQLCQRLRVPNEIRDLARLVAEFHDLIHTFPMLNPKTIVKLFDSIDAWRKPQRVEQLALTSEADVRGRTGFESADYPQGRWLREAWEVAQSVPTKAVVEAGFKGVEIREELTRRRIAAVASWKEQRCPKPE" "c" "Han et al., 2011" -"EG10143-MONOMER" "MMQPVINAPEIATAREQQLFNGKNFHVFIYNKTESISGLHQHDYYEFTLVLTGRYFQEINGKRVLLERGDFVFIPLGSHHQSFYEFGATRILNVGISKRFFEQHYLPLLPYCFVASQVYRTNNAFLTYVETVISSLNFRETGLEEFVEMVTFYVINRLRHYREEQVIDDVPQWLKSTVEKMHDKEQFSESALENMVALSAKSQEYLTRATQRYYGKTPMQIINEIRINFAKKQLEMTNYSVTDIAFEAGYSSPSLFIKTFKKLTSFTPKSYRKKLTEFNQ" "c" "Han et al., 2011" -"EG10144-MONOMER" "MSQKLKVVTIGGGSSYTPELLEGFIKRYHELPVSELWLVDVEGGKPKLDIIFDLCQRMIDNAGVPMKLYKTLDRREALKDADFVTTQLRVGQLPARELDERIPLSHGYLGQETNGAGGLFKGLRTIPVIFDIVKDVEELCPNAWVINFTNPAGMVTEAVYRHTGFKRFIGVCNIPIGMKMFIRDVLMLKDSDDLSIDLFGLNHMVFIKDVLINGKSRFAELLDGVASGQLKASSVKNIFDLPFSEGLIRSLNLLPCSYLLYYFKQKEMLAIEMGEYYKGGARAQVVQKVEKQLFELYKNPELKVKPKELEQRGGAYYSDAACEVINAIYNDKQAEHYVNIPHHGQIDNIPADWAVEMTCKLGRDGATPHPRITHFDDKVMGLIHTIKGFEIAASNAALSGEFNDVLLALNLSPLVHSDRDAELLAREMILAHEKWLPNFADCIAELKKAH" "c" "Han et al., 2011" -"EG10145-MONOMER" "MLKSPLFWKMTSLFGAVLLLLIPIMLIRQVIVERADYRSDVEDAIRQSTSGPQKLVGPLIAIPVTELYTVQEEDKTVERKRSFIHFWLPESLMVDGNQNVEERKIGIYTGQVWHSDLTLKADFDVSRLSELNAPNITLGKPFIVISVGDARGIGVVKAPEVNGTALTIEPGTGLEQGGQGVHIPLPEGDWRKQNLKLNMALNLSGTGDLSVVPGGRNSEMTLTSNWPHPSFLGDFLPAKREVSESGFQAHWQSSWFANNLGERFASGNDTGWENFPAFSVAVTTPADQYQLTDRATKYAILLIALTFMAFFVFETLTAQRLHPMQYLLVGLSLVMFYLLLLALSEHTGFTVAWIIASLIGAIMNGIYLQAVLKGWCNSMLFTLALLLLDGVMWGLLNSADSALLLGTSVLVVALAGMMFVTRNIDWYAFSLPKMKASKEVTTDDELRIWK" "i" "Unambiguous EcoCyc data" -"EG10153-MONOMER" "MEFTTGLMSLDTALNEMLSRVTPLTAQETLPLVQCFGRILASDVVSPLDVPGFDNSAMDGYAVRLADIASGQPLPVAGKSFAGQPYHGEWPAGTCIRIMTGAPVPEGCEAVVMQEQTEQMDNGVRFTAEVRSGQNIRRRGEDISAGAVVFPAGTRLTTAELPVIASLGIAEVPVIRKVRVALFSTGDELQLPGQPLGDGQIYDTNRLAVHLMLEQLGCEVINLGIIRDDPHALRAAFIEADSQADVVISSGGVSVGEADYTKTILEELGEIAFWKLAIKPGKPFAFGKLSNSWFCGLPGNPVSATLTFYQLVQPLLAKLSGNTASGLPARQRVRTASRLKKTPGRLDFQRGVLQRNADGELEVTTTGHQGSHIFSSFSLGNCFIVLERDRGNVEVGEWVEVEPFNALFGGL" "c" "Han et al., 2011" -"EG10154-MONOMER" "MAELSDQEMLRYNRQIILRGFDFDGQEALKDSRVLIVGLGGLGCAASQYLASAGVGNLTLLDFDTVSLSNLQRQTLHSDATVGQPKVESARDALTRINPHIAITPVNALLDDAELAALIAEHDLVLDCTDNVAVRNQLNAGCFAAKVPLVSGAAIRMEGQITVFTYQDGEPCYRCLSRLFGENALTCVEAGVMAPLIGVIGSLQAMEAIKMLAGYGKPASGKIVMYDAMTCQFREMKLMRNPGCEVCGQ" "c" "Han et al., 2011" -"EG10155-MONOMER" "MFRLNPFVRVGLCLSAISCAWPVLAVDDDGETMVVTASSVEQNLKDAPASISVITQEDLQRKPVQNLKDVLKEVPGVQLTNEGDNRKGVSIRGLDSSYTLILVDGKRVNSRNAVFRHNDFDLNWIPVDSIERIEVVRGPMSSLYGSDALGGVVNIITKKIGQKWSGTVTVDTTIQEHRDRGDTYNGQFFTSGPLIDGVLGMKAYGSLAKREKDDPQNSTTTDTGETPRIEGFSSRDGNVEFAWTPNQNHDFTAGYGFDRQDRDSDSLDKNRLERQNYSVSHNGRWDYGTSELKYYGEKVENKNPGNSSPITSESNTVDGKYTLPLTAINQFLTVGGEWRHDKLSDAVNLTGGTSSKTSASQYALFVEDEWRIFEPLALTTGVRMDDHETYGEHWSPRAYLVYNATDTVTVKGGWATAFKAPSLLQLSPDWTSNSCRGACKIVGSPDLKPETSESWELGLYYMGEEGWLEGVESSVTVFRNDVKDRISISRTSDVNAAPGYQNFVGFETGANGRRIPVFSYYNVNKARIQGVETELKIPFNDEWKLSINYTYNDGRDVSNGENKPLSDLPFHTANGTLDWKPLALEDWSFYVSGHYTGQKRADSATAKTPGGYTIWNTGAAWQVTKDVKLRAGVLNLGDKDLSRDDYSYNEDGRRYFMAVDYRF" "o" "Han et al., 2011" -"EG10156-MONOMER" "MLNQELELSLNMAFARAREHRHEFMTVEHLLLALLSNPSAREALEACSVDLVALRQELEAFIEQTTPVLPASEEERDTQPTLSFQRVLQRAVFHVQSSGRNEVTGANVLVAIFSEQESQAAYLLRKHEVSRLDVVNFISHGTRKDEPTQSSDPGSQPNSEEQAGGEERMENFTTNLNQLARVGGIDPLIGREKELERAIQVLCRRRKNNPLLVGESGVGKTAIAEGLAWRIVQGDVPEVMADCTIYSLDIGSLLAGTKYRGDFEKRFKALLKQLEQDTNSILFIDEIHTIIGAGAASGGQVDAANLIKPLLSSGKIRVIGSTTYQEFSNIFEKDRALARRFQKIDITEPSIEETVQIINGLKPKYEAHHDVRYTAKAVRAAVELAVKYINDRHLPDKAIDVIDEAGARARLMPVSKRKKTVNVADIESVVARIARIPEKSVSQSDRDTLKNLGDRLKMLVFGQDKAIEALTEAIKMARAGLGHEHKPVGSFLFAGPTGVGKTEVTVQLSKALGIELLRFDMSEYMERHTVSRLIGAPPGYVGFDQGGLLTDAVIKHPHAVLLLDEIEKAHPDVFNILLQVMDNGTLTDNNGRKADFRNVVLVMTTNAGVRETERKSIGLIHQDNSTDAMEEIKKIFTPEFRNRLDNIIWFDHLSTDVIHQVVDKFIVELQVQLDQKGVSLEVSQEARNWLAEKGYDRAMGARPMARVIQDNLKKPLANELLFGSLVDGGQVTVALDKEKNELTYGFQSAQKHKAEAAH" "c" "Han et al., 2011" -"EG10157-MONOMER" "MRLDRLTNKFQLALADAQSLALGHDNQFIEPLHLMSALLNQEGGSVSPLLTSAGINAGQLRTDINQALNRLPQVEGTGGDVQPSQDLVRVLNLCDKLAQKRGDNFISSELFVLAALESRGTLADILKAAGATTANITQAIEQMRGGESVNDQGAEDQRQALKKYTIDLTERAEQGKLDPVIGRDEEIRRTIQVLQRRTKNNPVLIGEPGVGKTAIVEGLAQRIINGEVPEGLKGRRVLALDMGALVAGAKYRGEFEERLKGVLNDLAKQEGNVILFIDELHTMVGAGKADGAMDAGNMLKPALARGELHCVGATTLDEYRQYIEKDAALERRFQKVFVAEPSVEDTIAILRGLKERYELHHHVQITDPAIVAAATLSHRYIADRQLPDKAIDLIDEAASSIRMQIDSKPEELDRLDRRIIQLKLEQQALMKESDEASKKRLDMLNEELSDKERQYSELEEEWKAEKASLSGTQTIKAELEQAKIAIEQARRVGDLARMSELQYGKIPELEKQLEAATQLEGKTMRLLRNKVTDAEIAEVLARWTGIPVSRMMESEREKLLRMEQELHHRVIGQNEAVDAVSNAIRRSRAGLADPNRPIGSFLFLGPTGVGKTELCKALANFMFDSDEAMVRIDMSEFMEKHSVSRLVGAPPGYVGYEEGGYLTEAVRRRPYSVILLDEVEKAHPDVFNILLQVLDDGRLTDGQGRTVDFRNTVVIMTSNLGSDLIQERFGELDYAHMKELVLGVVSHNFRPEFINRIDEVVVFHPLGEQHIASIAQIQLKRLYKRLEERGYEIHISDEALKLLSENGYDPVYGARPLKRAIQQQIENPLAQQILSGELVPGKVIRLEVNEDRIVAVQ" "c" "Lopez-Campistrous et al., 2005" -"EG10158-MONOMER" "MSYSGERDNFAPHMALVPMVIEQTSRGERSFDIYSRLLKERVIFLTGQVEDHMANLIVAQMLFLEAENPEKDIYLYINSPGGVITAGMSIYDTMQFIKPDVSTICMGQAASMGAFLLTAGAKGKRFCLPNSRVMIHQPLGGYQGQATDIEIHAREILKVKGRMNELMALHTGQSLEQIERDTERDRFLSAPEAVEYGLVDSILTHRN" "c" "EcoCyc dump" -"EG10159-MONOMER" "MTDKRKDGSGKLLYCSFCGKSQHEVRKLIAGPSVYICDECVDLCNDIIREEIKEVAPHRERSALPTPHEIRNHLDDYVIGQEQAKKVLAVAVYNHYKRLRNGDTSNGVELGKSNILLIGPTGSGKTLLAETLARLLDVPFTMADATTLTEAGYVGEDVENIIQKLLQKCDYDVQKAQRGIVYIDEIDKISRKSDNPSITRDVSGEGVQQALLKLIEGTVAAVPPQGGRKHPQQEFLQVDTSKILFICGGAFAGLDKVISHRVETGSGIGFGATVKAKSDKASEGELLAQVEPEDLIKFGLIPEFIGRLPVVATLNELSEEALIQILKEPKNALTKQYQALFNLEGVDLEFRDEALDAIAKKAMARKTGARGLRSIVEAALLDTMYDLPSMEDVEKVVIDESVIDGQSKPLLIYGKPEAQQASGE" "c" "Han et al., 2011" -"EG10167-MONOMER" "MNKSGKYLVWTVLSVMGAFALGYIALNRGEQINALWIVVASVCIYLIAYRFYGLYIAKNVLAVDPTRMTPAVRHNDGLDYVPTDKKVLFGHHFAAIAGAGPLVGPVLAAQMGYLPGMIWLLAGVVLAGAVQDFMVLFVSTRRDGRSLGELVKEEMGPTAGVIALVACFMIMVIILAVLAMIVVKALTHSPWGTYTVAFTIPLALFMGIYLRYLRPGRIGEVSVIGLVFLIFAIISGGWVAESPTWAPYFDFTGVQLTWMLVGYGFVAAVLPVWLLLAPRDYLSTFLKIGTIVGLAVGILIMRPTLTMPALTKFVDGTGPVWTGNLFPFLFITIACGAVSGFHALISSGTTPKMLANEGQACFIGYGGMLMESFVAIMALVSACIIDPGVYFAMNSPMAVLAPAGTADVVASAAQVVSSWGFSITPDTLNQIASEVGEQSIISRAGGAPTLAVGMAYILHGALGGMMDVAFWYHFAILFEALFILTAVDAGTRAARFMLQDLLGVVSPGLKRTDSLPANLLATALCVLAWGYFLHQGVVDPLGGINTLWPLFGIANQMLAGMALMLCAVVLFKMKRQRYAWVALVPTAWLLICTLTAGWQKAFSPDAKVGFLAIANKFQAMIDSGNIPSQYTESQLAQLVFNNRLDAGLTIFFMVVVVVLALFSIKTALAALKDPKPTAKETPYEPMPENVEEIVAQAKGAH" "i" "Unambiguous EcoCyc data" -"EG10168-MONOMER" "MAFASLIERQRIRLLLALLFGACGTLAFSPYDVWPAAIISLMGLQALTFNRRPLQSAAIGFCWGFGLFGSGINWVYVSIATFGGMPGPVNIFLVVLLAAYLSLYTGLFAGVLSRLWPKTTWLRVAIAAPALWQVTEFLRGWVLTGFPWLQFGYSQIDGPLKGLAPIMGVEAINFLLMMVSGLLALALVKRNWRPLVVAVVLFALPFPLRYIQWFTPQPEKTIQVSMVQGDIPQSLKWDEGQLLNTLKIYYNATAPLMGKSSLIIWPESAITDLEINQQPFLKALDGELRDKGSSLVTGIVDARLNKQNRYDTYNTIITLGKGAPYSYESADRYNKNHLVPFGEFVPLESILRPLAPFFDLPMSSFSRGPYIQPPLSANGIELTAAICYEIILGEQVRDNFRPDTDYLLTISNDAWFGKSIGPWQHFQMARMRALELARPLLRSTNNGITAVIGPQGEIQAMIPQFTREVLTTNVTPTTGLTPYARTGNWPLWVLTALFGFAAVLMSLRQRRK" "i" "Han et al., 2011" -"EG10169-MONOMER" "MVWIDYAIIAVIAFSSLVSLIRGFVREALSLVTWGCAFFVASHYYTYLSVWFTGFEDELVRNGIAIAVLFIATLIVGAIVNFVIGQLVEKTGLSGTDRVLGVCFGALRGVLIVAAILFFLDSFTGVSKSEDWSKSQLIPQFSFIIRCFFDYLQSSSSFLPRA" "i" "Han et al., 2011" -"EG10201-MONOMER" "MNTIFSARIMKRLALTTALCTAFISAAHADDLNIKTMIPGVPQIDAESYILIDYNSGKVLAEQNADVRRDPASLTKMMTSYVIGQAMKAGKFKETDLVTIGNDAWATGNPVFKGSSLMFLKPGMQVPVSQLIRGINLQSGNDACVAMADFAAGSQDAFVGLMNSYVNALGLKNTHFQTVHGLDADGQYSSARDMALIGQALIRDVPNEYSIYKEKEFTFNGIRQLNRNGLLWDNSLNVDGIKTGHTDKAGYNLVASATEGQMRLISAVMGGRTFKGREAESKKLLTWGFRFFETVNPLKVGKEFASEPVWFGDSDRASLGVDKDVYLTIPRGRMKDLKASYVLNSSELHAPLQKNQVVGTINFQLDGKTIEQRPLVVLQEIPEGNFFGKIIDYIKLMFHHWFG" "i" "Han et al., 2011" -"EG10202-MONOMER" "MRFSRFIIGLTSCIAFSVQAANVDEYITQLPAGANLALMVQKVGASAPAIDYHSQQMALPASTQKVITALAALIQLGPDFRFTTTLETKGNVENGVLKGDLVARFGADPTLKRQDIRNMVATLKKSGVNQIDGNVLIDTSIFASHDKAPGWPWNDMTQCFSAPPAAAIVDRNCFSVSLYSAPKPGDMAFIRVASYYPVTMFSQVRTLPRGSAEAQYCELDVVPGDLNRFTLTGCLPQRSEPLPLAFAVQDGASYAGAILKDELKQAGITWSGTLLRQTQVNEPGTVVASKQSAPLHDLLKIMLKKSDNMIADTVFRMIGHARFNVPGTWRAGSDAVRQILRQQAGVDIGNTIIADGSGLSRHNLIAPATMMQVLQYIAQHDNELNFISMLPLAGYDGSLQYRAGLHQAGVDGKVSAKTGSLQGVYNLAGFITTASGQRMAFVQYLSGYAVEPADQRNRRIPLVRFESRLYKDIYQNN" "p" "Han et al., 2011" -"EG10203-MONOMER" "MTQYSSLLRGLAAGSAFLFLFAPTAFAAEQTVEAPSVDARAWILMDYASGKVLAEGNADEKLDPASLTKIMTSYVVGQALKADKIKLTDMVTVGKDAWATGNPALRGSSVMFLKPGDQVSVADLNKGVIIQSGNDACIALADYVAGSQESFIGLMNGYAKKLGLTNTTFQTVHGLDAPGQFSTARDMALLGKALIHDVPEEYAIHKEKEFTFNKIRQPNRNRLLWSSNLNVDGMKTGTTAGAGYNLVASATQGDMRLISVVLGAKTDRIRFNESEKLLTWGFRFFETVTPIKPDATFVTQRVWFGDKSEVNLGAGEAGSVTIPRGQLKNLKASYTLTEPQLTAPLKKGQVVGTIDFQLNGKSIEQRPLIVMENVEEGGFFGRVWDFVMMKFHQWFGSWFS" "i" "Han et al., 2011" -"EG10204-MONOMER" "MKKNRAFLKWAGGKYPLLDDIKRHLPKGECLVEPFVGAGSVFLNTDFSRYILADINSDLISLYNIVKMRTDEYVQAARELFVPETNCAEVYYQFREEFNKSQDPFRRAVLFLYLNRYGYNGLCRYNLRGEFNVPFGRYKKPYFPEAELYHFAEKAQNAFFYCESYADSMARADDASVVYCDPPYAPLSATANFTAYHTNSFTLEQQAHLAEIAEGLVERHIPVLISNHDTMLTREWYQRAKLHVVKVRRSISSNGGTRKKVDELLALYKPGVVSPAKK" "c" "Han et al., 2011" -"EG10210-MONOMER" "VTAFSTLNVLPPAQLTNLNELGYLTMTPVQAAALPAILAGKDVRVQAKTGSGKTAAFGLGLLQQIDASLFQTQALVLCPTRELADQVAGELRRLARFLPNTKILTLCGGQPFGMQRDSLQHAPHIIVATPGRLLDHLQKGTVSLDALNTLVMDEADRMLDMGFSDAIDDVIRFAPASRQTLLFSATWPEAIAAISGRVQRDPLAIEIDSTDALPPIEQQFYETSSKGKIPLLQRLLSLHQPSSCVVFCNTKKDCQAVCDALNEVGQSALSLHGDLEQRDRDQTLVRFANGSARVLVATDVAARGLDIKSLELVVNFELAWDPEVHVHRIGRTARAGNSGLAISFCAPEEAQRANIISDMLQIKLNWQTPPANSSIATLEAEMATLCIDGGKKAKMRPGDVLGALTGDIGLDGADIGKIAVHPAHVYVAVRQAVAHKAWKQLQGGKIKGKTCRVRLLK" "c" "Han et al., 2011" -"EG10211-MONOMER" "MQENISVTDSYSTGNAAQAMLEKLLQIYDVKTLVAQLNGVGENHWSAAILKRALANDSAWHRLSEKEFAHLQTLLPKPPAHHPHYAFRFIDLFAGIGGIRRGFESIGGQCVFTSEWNKHAVRTYKANHYCDPATHHFNEDIRDITLSHKEGVSDEAAAEHIRQHIPEHDVLLAGFPCQPFSLAGVSKKNSLGRAHGFACDTQGTLFFDVVRIIDARRPAMFVLENVKNLKSHDQGKTFRIIMQTLDELGYDVADAEDNGPDDPKIIDGKHFLPQHRERIVLVGFRRDLNLKADFTLRDISECFPAQRVTLAQLLDPMVEAKYILTPVLWKYLYRYAKKHQARGNGFGYGMVYPNNPQSVTRTLSARYYKDGAEILIDRGWDMATGEKDFDDPLNQQHRPRRLTPRECARLMGFEAPGEAKFRIPVSDTQAYRQFGNSVVVPVFAAVAKLLEPKIKQAVALRQQEAQHGRRSR" "c" "Unambiguous EcoCyc data" -"EG10212-MONOMER" "MTTMNPFLVQSTLPYLAPHFDQIANHHYRPAFDEGMQQKRAEIAAIALNPQMPDFNNTILALEQSGELLTRVTSVFFAMTAAHTNDELQRLDEQFSAELAELANDIYLNGELFARVDAVWQRRESLGLDSESIRLVEVIHQRFVLAGAKLAQADKAKLKVLNTEAATLTSQFNQRLLAANKSGGLVVNDIAQLAGMSEQEIALAAEAAREKGLDNKWLIPLLNTTQQPALAEMRDRATREKLFIAGWTRAEKNDANDTRAIIQRLVEIRAQQATLLGFPHYAAWKIADQMAKTPEAALNFMREIVPAARQRASDELASIQAVIDKQQGGFSAQPWDWAFYAEQVRREKFDLDEAQLKPYFELNTVLNEGVFWTANQLFGIKFVERFDIPVYHPDVRVWEIFDHNGVGLALFYGDFFARDSKSGGAWMGNFVEQSTLNKTHPVIYNVCNYQKPAAGEPALLLWDDVITLFHEFGHTLHGLFARQRYATLSGTNTPRDFVEFPSQINEHWATHPQVFARYARHYQSGAAMPDELQQKMRNASLFNKGYEMSELLSAALLDMRWHCLEENEAMQDVDDFELRALVAENMDLPAIPPRYRSSYFAHIFGGGYAAGYYAYLWTQMLADDGYQWFVEQGGLTRENGLRFREAILSRGNSEDLERLYRQWRGKAPKIMPMLQHRGLNI" "c" "Han et al., 2011" -"EG10215-MONOMER" "MAEFETTFADLGLKAPILEALNDLGYEKPSPIQAECIPHLLNGRDVLGMAQTGSGKTAAFSLPLLQNLDPELKAPQILVLAPTRELAVQVAEAMTDFSKHMRGVNVVALYGGQRYDVQLRALRQGPQIVVGTPGRLLDHLKRGTLDLSKLSGLVLDEADEMLRMGFIEDVETIMAQIPEGHQTALFSATMPEAIRRITRRFMKEPQEVRIQSSVTTRPDISQSYWTVWGMRKNEALVRFLEAEDFDAAIIFVRTKNATLEVAEALERNGYNSAALNGDMNQALREQTLERLKDGRLDILIATDVAARGLDVERISLVVNYDIPMDSESYVHRIGRTGRAGRAGRALLFVENRERRLLRNIERTMKLTIPEVELPNAELLGKRRLEKFAAKVQQQLESSDLDQYRALLSKIQPTAEGEELDLETLAAALLKMAQGERTLIVPPDAPMRPKREFRDRDDRGPRDRNDRGPRGDREDRPRRERRDVGDMQLYRIEVGRDDGVEVRHIVGAIANEGDISSRYIGNIKLFASHSTIELPKGMPGEVLQHFTRTRILNKPMNMQLLGDAQPHTGGERRGGGRGFGGERREGGRNFSGERREGGRGDGRRFSGERREGRAPRRDDSTGRRRFGGDA" "c" "Han et al., 2011" -"EG10216-MONOMER" "MDLIYFLIDFILHIDVHLAELVAEYGVWVYAILFLILFCETGLVVTPFLPGDSLLFVAGALASLETNDLNVHMMVVLMLIAAIVGDAVNYTIGRLFGEKLFSNPNSKIFRRSYLDKTHQFYEKHGGKTIILARFVPIVRTFAPFVAGMGHMSYRHFAAYNVIGALLWVLLFTYAGYFFGTIPMVQDNLKLLIVGIIVVSILPGVIEIIRHKRAAARAAK" "i" "Han et al., 2011" -"EG10218-MONOMER" "VASKFQNRLVGTIVLVALGVIVLPGLLDGQKKHYQDEFAAIPLVPKAGDRDEPDMMPAATQALPTQPPEGAAEEVRAGDAAAPSLDPATIAANNTEFEPEPAPVAPPKPKPVEPPKPKVEAPPAPKPEPKPVVEEKAAPTGKAYVVQLGALKNADKVNEIVGKLRGAGYRVYTSPSTPVQGKITRILVGPDASKDKLKGSLGELKQLSGLSGVVMGYTPN" "i" "Han et al., 2011" -"EG10226-MONOMER" "METKNLTIGERIRYRRKNLKHTQRSLAKALKISHVSVSQWERGDSEPTGKNLFALSKVLQCSPTWILFGDEDKQPTPPVEKPVALSPKELELLELFNALPESEQDTQLAEMRARVKNFNKLFEELLKARQRTNKR" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"EG10227-MONOMER" "MKTLLPNVNTSEGCFEIGVTISNPVFTEDAINKRKQERELLNKICIVSMLARLRLMPKGCAQ" "c" "Han et al., 2011" -"EG10228-MONOMER" "MLKTDALLYFGSKTKLAQAAGIRLASLYSWKGDLVPEGRAMRLQEASGGELQYDPKVYDEYRKTKRAGRLNNENHS" "c" "Han et al., 2011" -"EG10229-MONOMER" "MIQPISGPPPGQPPGQGDNLPSGTGNQPLSSQQRTSLESLMTKVTSLTQQQRAELWAGIRHDIGLSGDSPLLSRHFPAAEHNLAQRLLAAQKSHSARQLLAQLGEYLRLGNNRQAVTDYIRHNFGQTPLNQLSPEQLKTILTLLQEGKMVIPQPQQREATDRPLLPAEHNALKQLVTKLAAATGEPSKQIWQSMLELSGVKDGELIPAKLFNHLVTWLQARQTLSQQNTPTLESLQMTLKQPLDASELAALSAYIQQKYGLSAQSSLSSAQAEDILNQLYQRRVKGIDPRVMQPLLNPFPPMMDTLQNMATRPALWILLVAIILMLVWLVR" "c" "Han et al., 2011" -"EG10230-MONOMER" "MQEGQNRKTSSLSILAIAGVEPYQEKPGEEYMNEAQLAHFRRILEAWRNQLRDEVDRTVTHMQDEAANFPDPVDRAAQEEEFSLELRNRDRERKLIKKIEKTLKKVEDEDFGYCESCGVEIGIRRLEARPTADLCIDCKTLAEIREKQMAG" "c" "Han et al., 2011" -"EG10236-MONOMER" "MAGNKPFNKQQAEPRERDPQVAGLKVPPHSIEAEQSVLGGLMLDNERWDDVAERVVADDFYTRPHRHIFTEMARLQESGSPIDLITLAESLERQGQLDSVGGFAYLAELSKNTPSAANISAYADIVRERAVVREMISVANEIAEAGFDPQGRTSEDLLDLAESRVFKIAESRANKDEGPKNIADVLDATVARIEQLFQQPHDGVTGVNTGYDDLNKKTAGLQPSDLIIVAARPSMGKTTFAMNLVENAAMLQDKPVLIFSLEMPSEQIMMRSLASLSRVDQTKIRTGQLDDEDWARISGTMGILLEKRNIYIDDSSGLTPTEVRSRARRIAREHGGIGLIMIDYLQLMRVPALSDNRTLEIAEISRSLKALAKELNVPVVALSQLNRSLEQRADKRPVNSDLRESGSIEQDADLIMFIYRDEVYHENSDLKGIAEIIIGKQRNGPIGTVRLTFNGQWSRFDNYAGPQYDDE" "c" "Han et al., 2011" -"EG10237-MONOMER" "MKNVGDLMQRLQKMMPAHIKPAFKTGEELLAWQKEQGAIRSAALERENRAMKMQRTFNRSGIRPLHQNCSFENYRVECEGQMNALSKARQYVEEFDGNIASFIFSGKPGTGKNHLAAAICNELLLRGKSVLIITVADIMSAMKDTFRNSGTSEEQLLNDLSNVDLLVIDEIGVQTESKYEKVIINQIVDRRSSSKRPTGMLTNSNMEEMTKLLGERVMDRMRLGNSLWVIFNWDSYRSRVTGKEY" "c" "Han et al., 2011" -"EG10238-MONOMER" "MSEPRFVHLRVHSDYSMIDGLAKTAPLVKKAAALGMPALAITDFTNLCGLVKFYGAGHGAGIKPIVGADFNVQCDLLGDELTHLTVLAANNTGYQNLTLLISKAYQRGYGAAGPIIDRDWLIELNEGLILLSGGRMGDVGRSLLRGNSALVDECVAFYEEHFPDRYFLELIRTGRPDEESYLHAAVELAEARGLPVVATNDVRFIDSSDFDAHEIRVAIHDGFTLDDPKRPRNYSPQQYMRSEEEMCELFADIPEALANTVEIAKRCNVTVRLGEYFLPQFPTGDMSTEDYLVKRAKEGLEERLAFLFPDEEERLKRRPEYDERLETELQVINQMGFPGYFLIVMEFIQWSKDNGVPVGPGRGSGAGSLVAYALKITDLDPLEFDLLFERFLNPERVSMPDFDVDFCMEKRDQVIEHVADMYGRDAVSQIITFGTMAAKAVIRDVGRVLGHPYGFVDRISKLIPPDPGMTLAKAFEAEPQLPEIYEADEEVKALIDMARKLEGVTRNAGKHAGGVVIAPTKITDFAPLYCDEEGKHPVTQFDKSDVEYAGLVKFDFLGLRTLTIINWALEMINKRRAKNGEPPLDIAAIPLDDKKSFDMLQRSETTAVFQLESRGMKDLIKRLQPDCFEDMIALVALFRPGPLQSGMVDNFIDRKHGREEISYPDVQWQHESLKPVLEPTYGIILYQEQVMQIAQVLSGYTLGGADMLRRAMGKKKPEEMAKQRSVFAEGAEKNGINAELAMKIFDLVEKFAGYGFNKSHSAAYALVSYQTLWLKAHYPAEFMAAVMTADMDNTEKVVGLVDECWRMGLKILPPDINSGLYHFHVNDDGEIVYGIGAIKGVGEGPIEAIIEARNKGGYFRELFDLCARTDTKKLNRRVLEKLIMSGAFDRLGPHRAALMNSLGDALKAADQHAKAEAIGQADMFGVLAEEPEQIEQSYASCQPWPEQVVLDGERETLGLYLTGHPINQYLKEIERYVGGVRLKDMHPTERGKVITAAGLVVAARVMVTKRGNRIGICTLDDRSGRLEVMLFTDALDKYQQLLEKDRILIVSGQVSFDDFSGGLKMTAREVMDIDEAREKYARGLAISLTDRQIDDQLLNRLRQSLEPHRSGTIPVHLYYQRADARARLRFGATWRVSPSDRLLNDLRGLIGSEQVELEFD" "c" "Han et al., 2011" -"EG10239-MONOMER" "MAGRIPRVFINDLLARTDIVDLIDARVKLKKQGKNFHACCPFHNEKTPSFTVNGEKQFYHCFGCGAHGNAIDFLMNYDKLEFVETVEELAAMHNLEVPFEAGSGPSQIERHQRQTLYQLMDGLNTFYQQSLQQPVATSARQYLEKRGLSHEVIARFAIGFAPPGWDNVLKRFGGNPENRQSLIDAGMLVTNDQGRSYDRFRERVMFPIRDKRGRVIGFGGRVLGNDTPKYLNSPETDIFHKGRQLYGLYEAQQDNAEPNRLLVVEGYMDVVALAQYGINYAVASLGTSTTADHIQLLFRATNNVICCYDGDRAGRDAAWRALETALPYMTDGRQLRFMFLPDGEDPDTLVRKEGKEAFEARMEQAMPLSAFLFNSLMPQVDLSTPDGRARLSTLALPLISQVPGETLRIYLRQELGNKLGILDDSQLERLMPKAAESGVSRPVPQLKRTTMRILIGLLVQNPELATLVPPLENLDENKLPGLGLFRELVNTCLSQPGLTTGQLLEHYRGTNNAATLEKLSMWDDIADKNIAEQTFTDSLNHMFDSLLELRQEELIARERTHGLSNEERLELWTLNQELAKK" "c" "Han et al., 2011" -"EG10240-MONOMER" "MAKQDYYEILGVSKTAEEREIRKAYKRLAMKYHPDRNQGDKEAEAKFKEIKEAYEVLTDSQKRAAYDQYGHAAFEQGGMGGGGFGGGADFSDIFGDVFGDIFGGGRGRQRAARGADLRYNMELTLEEAVRGVTKEIRIPTLEECDVCHGSGAKPGTQPQTCPTCHGSGQVQMRQGFFAVQQTCPHCQGRGTLIKDPCNKCHGHGRVERSKTLSVKIPAGVDTGDRIRLAGEGEAGEHGAPAGDLYVQVQVKQHPIFEREGNNLYCEVPINFAMAALGGEIEVPTLDGRVKLKVPGETQTGKLFRMRGKGVKSVRGGAQGDLLCRVVVETPVGLNERQKQLLQELQESFGGPTGEHNSPRSKSFFDGVKKFFDDLTR" "c" "Han et al., 2011" -"EG10241-MONOMER" "MGKIIGIDLGTTNSCVAIMDGTTPRVLENAEGDRTTPSIIAYTQDGETLVGQPAKRQAVTNPQNTLFAIKRLIGRRFQDEEVQRDVSIMPFKIIAADNGDAWVEVKGQKMAPPQISAEVLKKMKKTAEDYLGEPVTEAVITVPAYFNDAQRQATKDAGRIAGLEVKRIINEPTAAALAYGLDKGTGNRTIAVYDLGGGTFDISIIEIDEVDGEKTFEVLATNGDTHLGGEDFDSRLINYLVEEFKKDQGIDLRNDPLAMQRLKEAAEKAKIELSSAQQTDVNLPYITADATGPKHMNIKVTRAKLESLVEDLVNRSIEPLKVALQDAGLSVSDIDDVILVGGQTRMPMVQKKVAEFFGKEPRKDVNPDEAVAIGAAVQGGVLTGDVKDVLLLDVTPLSLGIETMGGVMTTLIAKNTTIPTKHSQVFSTAEDNQSAVTIHVLQGERKRAADNKSLGQFNLDGINPAPRGMPQIEVTFDIDADGILHVSAKDKNSGKEQKITIKASSGLNEDEIQKMVRDAEANAEADRKFEELVQTRNQGDHLLHSTRKQVEEAGDKLPADDKTAIESALTALETALKGEDKAAIEAKMQELAQVSQKLMEIAQQQHAQQQTAGADASANNAKDDDVVDAEFEEVKDKK" "c" "Lopez-Campistrous et al., 2005" -"EG10242-MONOMER" "MKFTVEREHLLKPLQQVSGPLGGRPTLPILGNLLLQVADGTLSLTGTDLEMEMVARVALVQPHEPGATTVPARKFFDICRGLPEGAEIAVQLEGERMLVRSGRSRFSLSTLPAADFPNLDDWQSEVEFTLPQATMKRLIEATQFSMAHQDVRYYLNGMLFETEGEELRTVATDGHRLAVCSMPIGQSLPSHSVIVPRKGVIELMRMLDGGDNPLRVQIGSNNIRAHVGDFIFTSKLVDGRFPDYRRVLPKNPDKHLEAGCDLLKQAFARAAILSNEKFRGVRLYVSENQLKITANNPEQEEAEEILDVTYSGAEMEIGFNVSYVLDVLNALKCENVRMMLTDSVSSVQIEDAASQSAAYVVMPMRL" "c" "Han et al., 2011" -"EG10243-MONOMER" "MSTAITRQIVLDTETTGMNQIGAHYEGHKIIEIGAVEVVNRRLTGNNFHVYLKPDRLVDPEAFGVHGIADEFLLDKPTFAEVADEFMDYIRGAELVIHNAAFDIGFMDYEFSLLKRDIPKTNTFCKVTDSLAVARKMFPGKRNSLDALCARYEIDNSKRTLHGALLDAQILAEVYLAMTGGQTSMAFAMEGETQQQQGEATIQRIVRQASKLRVVFATDEEIAAHEARLDLVQKKGGSCLWRA" "c" "Han et al., 2011" -"EG10244-MONOMER" "MSSRVLTPDVVGIDALVHDHQTVLAKAEGGVVAVFANNAPAFYAVTPARLAELLALEEKLARPGSDVALDDQLYQEPQAAPVAVPMGKFAMYPDWQPDADFIRLAALWGVALREPVTTEELASFIAYWQAEGKVFHHVQWQQKLARSLQIGRASNGGLPKRDVNTVSEPDSQIPPGFRG" "c" "Han et al., 2011" -"EG10246-MONOMER" "MKAKAILLASVLLVGCQSTGNVQQHAQSLSAAGQGEAAKFTSQARWMDDGTSIAPDGDLWAFIGDELKMGIPENDRIREQKQKYLRNKSYLHDVTLRAEPYMYWIAGQVKKRNMPMELVLLPIVESAFDPHATSGANAAGIWQIIPSTGRNYGLKQTRNYDARRDVVASTTAALNMMQRLNKMFDGDWLLTVAAYNSGEGRVMKAIKTNKARGKSTDFWSLPLPQETKQYVPKMLALSDILKNSKRYGVRLPTTDESRALARVHLSSPVEMAKVADMAGISVSKLKTFNAGVKGSTLGASGPQYVMVPKKHADQLRESLASGEIAAVQSTLVADNTPLNSRVYTVRSGDTLSSIASRLGVSTKDLQQWNKLRGSKLKPGQSLTIGAGSSAQRLANNSDSITYRVRKGDSLSSIAKRHGVNIKDVMRWNSDTANLQPGDKLTLFVKNNNMPDS" "e" "Han et al., 2011" -"EG10252-MONOMER" "MNRWENIQLTHENRLAPRAYFFSYDSVAQARTFARETSSLFLPLSGQWNFHFFDHPLQVPEAFTSELMADWGHITVPAMWQMEGHGKLQYTDEGFPFPIDVPFVPSDNPTGAYQRIFTLSDGWQGKQTLIKFDGVETYFEVYVNGQYVGFSKGSRLTAEFDISAMVKTGDNLLCVRVMQWADSTYVEDQDMWWSAGIFRDVYLVGKHLTHINDFTVRTDFDEAYCDATLSCEVVLENLAASPVVTTLEYTLFDGERVVHSSAIDHLAIEKLTSASFAFTVEQPQQWSAESPYLYHLVMTLKDANGNVLEVVPQRVGFRDIKVRDGLFWINNRYVMLHGVNRHDNDHRKGRAVGMDRVEKDLQLMKQHNINSVRTAHYPNDPRFYELCDIYGLFVMAETDVESHGFANVGDISRITDDPQWEKVYVERIVRHIHAQKNHPSIIIWSLGNESGYGCNIRAMYHAAKALDDTRLVHYEEDRDAEVVDIISTMYTRVPLMNEFGEYPHPKPRIICEYAHAMGNGPGGLTEYQNVFYKHDCIQGHYVWEWCDHGIQAQDDHGNVWYKFGGDYGDYPNNYNFCLDGLIYSDQTPGPGLKEYKQVIAPVKIHARDLTRGELKVENKLWFTTLDDYTLHAEVRAEGETLATQQIKLRDVAPNSEAPLQITLPQLDAREAFLNITVTKDSRTRYSEAGHPIATYQFPLKENTAQPVPFAPNNARPLTLEDDRLSCTVRGYNFAITFSKMSGKPTSWQVNGESLLTREPKINFFKPMIDNHKQEYEGLWQPNHLQIMQEHLRDFAVEQSDGEVLIISRTVIAPPVFDFGMRCTYIWRIAADGQVNVALSGERYGDYPHIIPCIGFTMGINGEYDQVAYYGRGPGENYADSQQANIIDIWRSTVDAMFENYPFPQNNGNRQHVRWTALTNRHGNGLLVVPQRPINFSAWHYTQENIHAAQHCNELQRSDDITLNLDHQLLGLGSNSWGSEVLDSWRVWFRDFSYGFTLLPVSGGEATAQSLASYEFGAGFFSTNLHSENKQ" "c" "EcoCyc dump" -"EG10253-MONOMER" "MRIIDNLEQFRQIYASGKKWQRCVEAIENIDNIQPGVAHSIGDSLTYRVETDSATDALFTGHRRYFEVHYYLQGQQKIEYAPKETLQVVEYYRDETDREYLKGCGETVEVHEGQIVICDIHEAYRFICNNAVKKVVLKVTIEDGYFHNK" "c" "Han et al., 2011" -"EG10255-MONOMER" "MKTILPAVLFAAFATTSAWAAESVQPLEKIAPYPQAEKGMKRQVIQLTPQEDESTLKVELLIGQTLEVDCNLHRLGGKLENKTLEGWGYDYYVFDKVSSPVSTMMACPDGKKEKKFVTAYLGDAGMLRYNSKLPIVVYTPDNVDVKYRVWKAEEKIDNAVVR" "p" "Han et al., 2011" -"EG10266-MONOMER" "MTKHARFFLLPSFILISAALIAGCNDKGEEKAHVGEPQVTVHIVKTAPLEVKTELPGRTNAYRIAEVRPQVSGIVLNRNFTEGSDVQAGQSLYQIDPATYQANYDSAKGELAKSEAAAAIAHLTVKRYVPLVGTKYISQQEYDQAIADARQADAAVIAAKATVESARINLAYTKVTAPISGRIGKSTVTEGALVTNGQTTELATVQQLDPIYVDVTQSSNDFMRLKQSVEQGNLHKENATSNVELVMENGQTYPLKGTLQFSDVTVDESTGSITLRAVFPNPQHTLLPGMFVRARIDEGVQPDAILIPQQGVSRTPRGDATVLIVNDKSQVEARPVVASQAIGDKWLISEGLKSGDQVIVSGLQKARPGEQVKATTDTPADTASK" "i" "Han et al., 2011" -"EG10270-MONOMER" "MSIDKSYCGFIAIVGRPNVGKSTLLNKLLGQKISITSRKAQTTRHRIVGIHTEGAYQAIYVDTPGLHMEEKRAINRLMNKAASSSIGDVELVIFVVEGTRWTPDDEMVLNKLREGKAPVILAVNKVDNVQEKADLLPHLQFLASQMNFLDIVPISAETGLNVDTIAAIVRKHLPEATHHFPEDYITDRSQRFMASEIIREKLMRFLGAELPYSVTVEIERFVSNERGGYDINGLILVEREGQKKMVIGNKGAKIKTIGIEARKDMQEMFEAPVHLELWVKVKSGWADDERALRSLGYVDDL" "c" "Han et al., 2011" -"EG10271-MONOMER" "VGNNLMQTDLSVWGMYQHADIVVKCVMIGLILASVVTWAIFFSKSVEFFNQKRRLKREQQLLAEARSLNQANDIAADFGSKSLSLHLLNEAQNELELSEGSDDNEGIKERTSFRLERRVAAVGRQMGRGNGYLATIGAISPFVGLFGTVWGIMNSFIGIAQTQTTNLAVVAPGIAEALLATAIGLVAAIPAVVIYNVFARQIGGFKAMLGDVAAQVLLLQSRDLDLEASAAAHPVRVAQKLRAG" "i" "Han et al., 2011" -"EG10272-MONOMER" "MAMHLNENLDDNGEMHDINVTPFIDVMLVLLIIFMVAAPLATVDVKVNLPASTSTPQPRPEKPVYLSVKADNSMFIGNDPVTDETMITALNALTEGKKDTTIFFRADKTVDYETLMKVMDTLHQAGYLKIGLVGEETAKAK" "i" "Han et al., 2011" -"EG10280-MONOMER" "MVMSQKTLFTKSALAVAVALISTQAWSAGFQLNEFSSSGLGRAYSGEGAIADDAGNVSRNPALITMFDRPTFSAGAVYIDPDVNISGTSPSGRSLKADNIAPTAWVPNMHFVAPINDQFGWGASITSNYGLATEFNDTYAGGSVGGTTDLETMNLNLSGAYRLNNAWSFGLGFNAVYARAKIERFAGDLGQLVAGQIMQSPAGQTQQGQALAATANGIDSNTKIAHLNGNQWGFGWNAGILYELDKNNRYALTYRSEVKIDFKGNYSSDLNRAFNNYGLPIPTATGGATQSGYLTLNLPEMWEVSGYNRVDPQWAIHYSLAYTSWSQFQQLKATSTSGDTLFQKHEGFKDAYRIALGTTYYYDDNWTFRTGIAFDDSPVPAQNRSISIPDQDRFWLSAGTTYAFNKDASVDVGVSYMHGQSVKINEGPYQFESEGKAWLFGTNFNYAF" "o" "Lopez-Campistrous et al., 2005" -"EG10284-MONOMER" "MSIRIIPQDELGSSEKRTADMIPPLLFPRLKNLYNRRAERLRELAENNPLGDYLRFAALIAHAQEVVLYDHPLEMDLTARIKEASAQGKPPLDIHVLPRDKHWQKLLMALIAELKPEMSGPALAVIENLEKASTQELEDMASALFASDFSSVSSDKAPFIWAALSLYWAQMANLIPGKARAEYGEQRQYCPVCGSMPVSSMVQIGTTQGLRYLHCNLCETEWHVVRVKCSNCEQSGKLHYWSLDDEQAAIKAESCDDCDTYLKILYQEKDPKIEAVADDLASLVLDARMEQEGYARSSINPFLFPGEGE" "c" "Han et al., 2011" -"EG10286-MONOMER" "MTPLRVFRKTTPLVNTIRLSLLPLAGLSFSAFAAQVNIAPGSLDKALNQYAAHSGFTLSVDASLTRGKQSNGLHGDYDVESGLQQLLDGSGLQVKPLGNNSWTLEPAPAPKEDALTVVGDWLGDARENDVFEHAGARDVIRREDFAKTGATTMREVLNRIPGVSAPENNGTGSHDLAMNFGIRGLNPRLASRSTVLMDGIPVPFAPYGQPQLSLAPVSLGNMDAIDVVRGGGAVRYGPQSVGGVVNFVTRAIPQDFGIEAGVEGQLSPTSSQNNPKETHNLMVGGTADNGFGTALLYSGTRGSDWREHSATRIDDLMLKSKYAPDEVHTFNSLLQYYDGEADMPGGLSRADYDADRWQSTRPYDRFWGRRKLASLGYQFQPDSQHKFNIQGFYTQTLRSGYLEQGKRITLSPRNYWVRGIEPRYSQIFMIGPSAHEVGVGYRYLNESTHEMRYYTATSSGQLPSGSSPYDRDTRSGTEAHAWYLDDKIDIGNWTITPGMRFEHIESYQNNAITGTHEEVSYNAPLPALNVLYHLTDSWNLYANTEGSFGTVQYSQIGKAVQSGNVEPEKARTWELGTRYDDGALTAEMGLFLINFNNQYDSNQTNDTVTARGKTRHTGLETQARYDLGTLTPTLDNVSIYASYAYVNAEIREKGDTYGNLVPFSPKHKGTLGVDYKPGNWTFNLNSDFQSSQFADNANTVKESADGSTGRIPGFMLWGARVAYDFGPQMADLNLAFGVKNIFDQDYFIRSYDDNNKGIYAGQPRTLYMQGSLKF" "e" "EcoCyc dump" -"EG10292-MONOMER" "MNPLLTDSRRQALRSASHWYAVLSGERVSPQQEARWQQWYEQDQDNQWAWQQVENLRNQLGGVPGDVASRALHDTRLTRRHVMKGLLLLLGAGGGWQLWQSETGEGLRADYRTAKGTVSRQQLEDGSLLTLNTQSAADVRFDAHQRTVRLWYGEIAITTAKDALQRPFRVLTRQGQLTALGTEFTVRQQDNFTQLDVQQHAVEVLLASAPAQKRIVNAGESLQFSASEFGAVKPLDDESTSWTKDILSFSDKPLGEVIATLTRYRNGVLRCDPAVAGLRLSGTFPLKNTDAILNVIAQTLPVKIQSITRYWINISPL" "p" "EcoCyc dump" -"EG10293-MONOMER" "MNKKIHSLALLVNLGIYGVAQAQEPTDTPVSHDDTIVVTAAEQNLQAPGVSTITADEIRKNPVARDVSKIIRTMPGVNLTGNSTSGQRGNNRQIDIRGMGPENTLILIDGKPVSSRNSVRQGWRGERDTRGDTSWVPPEMIERIEVLRGPAAARYGNGAAGGVVNIITKKGSGEWHGSWDAYFNAPEHKEEGATKRTNFSLTGPLGDEFSFRLYGNLDKTQADAWDINQGHQSARAGTYATTLPAGREGVINKDINGVVRWDFAPLQSLELEAGYSRQGNLYAGDTQNTNSDSYTRSKYGDETNRLYRQNYALTWNGGWDNGVTTSNWVQYEHTRNSRIPEGLAGGTEGKFNEKATQDFVDIDLDDVMLHSEVNLPIDFLVNQTLTLGTEWNQQRMKDLSSNTQALTGTNTGGAIDGVSTTDRSPYSKAEIFSLFAENNMELTDSTIVTPGLRFDHHSIVGNNWSPALNISQGLGDDFTLKMGIARAYKAPSLYQTNPNYILYSKGQGCYASAGGCYLQGNDDLKAETSINKEIGLEFKRDGWLAGVTWFRNDYRNKIEAGYVAVGQNAVGTDLYQWDNVPKAVVEGLEGSLNVPVSETVMWTNNITYMLKSENKTTGDRLSIIPEYTLNSTLSWQAREDLSMQTTFTWYGKQQPKKYNYKGQPAVGPETKEISPYSIVGLSATWDVTKNVSLTGGVDNLFDKRLWRAGNAQTTGDLAGANYIAGAGAYTYNEPGRTWYMSVNTHF" "e" "EcoCyc dump" -"EG10297-MONOMER" "MSSLNIKQGSDAHFPDYPLASPSNNEIDLLNLISVLWRAKKTVMAVVFAFACAGLLISFILPQKWTSAAVVTPPEPVQWQELEKSFTKLRVLDLDIKIDRTEAFNLFIKKFQSVSLLEEYLRSSPYVMDQLKEAKIDELDLHRAIVALSEKMKAVDDNASKKKDEPSLYTSWTLSFTAPTSEEAQTVLSGYIDYISTLVVKESLENVRNKLEIKTQFEKEKLAQDRIKTKNQLDANIQRLNYSLDIANAAGIKKPVYSNGQAVKDDPDFSISLGADGIERKLEIEKAVTDVAELNGELRNRQYLVEQLTKAHVNDVNFTPFKYQLSPSLPVKKDGPGKAIIVILSALIGGMVACGGVLLRYAMASRKQDAMMADHLV" "i" "Han et al., 2011" -"EG10299-MONOMER" "MFEVTFWWRDPQGSEEYSTIKRVWVYITGVTDHHQNSQPQSMQRIAGTNVWQWTTQLNANWRGSYCFIPTERDDIFSVPSPDRLELREGWRKLLPQAIADPLNLQSWKGGRGHAVSALEMPQAPLQPGWDCPQAPEIPAKEIIWKSERLKKSRRVWIFTTGDATAEERPLAVLLDGEFWAQSMPVWPVLTSLTHRQQLPPAVYVLIDAIDTTHRAHELPCNADFWLAVQQELLPLVKAIAPFSDRADRTVVAGQSFGGLSALYAGLHWPERFGCVLSQSGSYWWPHRGGQQEGVLLEKLKAGEVSAEGLRIVLEAGIREPMIMRANQALYAQLHPIKESIFWRQVDGGHDALCWRGGLMQGLIDLWQPLFHDRS" "c" "Han et al., 2011" -"EG10300-MONOMER" "MFDNLTDRLSRTLRNISGRGRLTEDNVKDTLREVRMALLEADVALPVVREFINRVKEKAVGHEVNKSLTPGQEFVKIVRNELVAAMGEENQTLNLAAQPPAVVLMAGLQGAGKTTSVGKLGKFLREKHKKKVLVVSADVYRPAAIKQLETLAEQVGVDFFPSDVGQKPVDIVNAALKEAKLKFYDVLLVDTAGRLHVDEAMMDEIKQVHASINPVETLFVVDAMTGQDAANTAKAFNEALPLTGVVLTKVDGDARGGAALSIRHITGKPIKFLGVGEKTEALEPFHPDRIASRILGMGDVLSLIEDIESKVDRAQAEKLASKLKKGDGFDLNDFLEQLRQMKNMGGMASLMGKLPGMGQIPDNVKSQMDDKVLVRMEAIINSMTMKERAKPEIIKGSRKRRIAAGCGMQVQDVNRLLKQFDDMQRMMKKMKKGGMAKMMRSMKGMMPPGFPGR" "c" "Han et al., 2011" -"EG10302-MONOMER" "MARSKTAQPKHSLRKIAVVVATAVSGMSVYAQAAVEPKEDTITVTAAPAPQESAWGPAATIAARQSATGTKTDTPIQKVPQSISVVTAEEMALHQPKSVKEALSYTPGVSVGTRGASNTYDHLIIRGFAAEGQSQNNYLNGLKLQGNFYNDAVIDPYMLERAEIMRGPVSVLYGKSSPGGLLNMVSKRPTTEPLKEVQFKAGTDSLFQTGFDFSDSLDDDGVYSYRLTGLARSANAQQKGSEEQRYAIAPAFTWRPDDKTNFTFLSYFQNEPETGYYGWLPKEGTVEPLPNGKRLPTDFNEGAKNNTYSRNEKMVGYSFDHEFNDTFTVRQNLRFAENKTSQNSVYGYGVCSDPANAYSKQCAALAPADKGHYLARKYVVDDEKLQNFSVDTQLQSKFATGDIDHTLLTGVDFMRMRNDINAWFGYDDSVPLLNLYNPVNTDFDFNAKDPANSGPYRILNKQKQTGVYVQDQAQWDKVLVTLGGRYDWADQESLNRVAGTTDKRDDKQFTWRGGVNYLFDNGVTPYFSYSESFEPSSQVGKDGNIFAPSKGKQYEVGVKYVPEDRPIVVTGAVYNLTKTNNLMADPEGSFFSVEGGEIRARGVEIEAKAALSASVNVVGSYTYTDAEYTTDTTYKGNTPAQVPKHMASLWADYTFFDGPLSGLTLGTGGRYTGSSYGDPANSFKVGSYTVVDALVRYDLARVGMAGSNVALHVNNLFDREYVASCFNTYGCFWGAERQVVATATFRF" "e" "EcoCyc dump" -"EG10306-MONOMER" "MLSTQFNRDNQYQAITKPSLLAGCIALALLPSAAFAAPATEETVIVEGSATAPDDGENDYSVTSTSAGTKMQMTQRDIPQSVTIVSQQRMEDQQLQTLGEVMENTLGISKSQADSDRALYYSRGFQIDNYMVDGIPTYFESRWNLGDALSDMALFERVEVVRGATGLMTGTGNPSAAINMVRKHATSREFKGDVSAEYGSWNKERYVADLQSPLTEDGKIRARIVGGYQNNDSWLDRYNSEKTFFSGIVDADLGDLTTLSAGYEYQRIDVNSPTWGGLPRWNTDGSSNSYDRARSTAPDWAYNDKEINKVFMTLKQQFADTWQATLNATHSEVEFDSKMMYVDAYVNKADGMLVGPYSNYGPGFDYVGGTGWNSGKRKVDALDLFADGSYELFGRQHNLMFGGSYSKQNNRYFSSWANIFPDEIGSFYNFNGNFPQTDWSPQSLAQDDTTHMKSLYAATRVTLADPLHLILGARYTNWRVDTLTYSMEKNHTTPYAGLVFDINDNWSTYASYTSIFQPQNDRDSSGKYLAPITGNNYELGLKSDWMNSRLTTTLAIFRIEQDNVAQSTGTPIPGSNGETAYKAVDGTVSKGVEFELNGAITDNWQLTFGATRYIAEDNEGNAVNPNLPRTTVKMFTSYRLPVMPELTVGGGVNWQNRVYTDTVTPYGTFRAEQGSYALVDLFTRYQVTKNFSLQGNVNNLFDKTYDTNVEGSIVYGTPRNFSITGTYQF" "e" "EcoCyc dump" -"EG10307-MONOMER" "MSDKFGEGRDPYLYPGLDIMRNRLNIRQQQRLEQAAYEMTALRAATIELGPLVRGLPHLRTIHRQLYQDIFDWAGQLREVDIYQGDTPFCHFAYIEKEGNALMQDLEEEGYLVGLEKAKFVERLAHYYCEINVLHPFRVGSGLAQRIFFEQLAIHAGYQLSWQGIEKEAWNQANQSGAMGDLTALQMIFSKVVSEAGESE" "c" "Han et al., 2011" -"EG10308-MONOMER" "MKIKTLAIVVLSALSLSSTAALAAATTVNGGTVHFKGEVVNAACAVDAGSVDQTVQLGQVRTASLAQEGATSSAVGFNIQLNDCDTNVASKAAVAFLGTAIDAGHTNVLALQSSAAGSATNVGVQILDRTGAALTLDGATFSSETTLNNGTNTIPFQARYFATGAATPGAANADATFKVQYQ" "s" "EcoCyc dump" -"EG10309-MONOMER" "MKNKADNKKRNFLTHSEIESLLKAANTGPHAARNYCLTLLCFIHGFRASEICRLRISDIDLKAKCIYIHRLKKGFSTTHPLLNKEVQALKNWLSIRTSYPHAESEWVFLSRKGNPLSRQQFYHIISTSGGNAGLSLEIHPHMLRHSCGFALANMGIDTRLIQDYLGHRNIRHTVWYTASNAGRFYGIWDRARGRQRHAVL" "c" "Unambiguous EcoCyc data" -"EG10310-MONOMER" "VSNKNVNVRKSQEITFCLLAGILMFMAMMVAGRAEAGVALGATRVIYPAGQKQEQLAVTNNDENSTYLIQSWVENADGVKDGRFIVTPPLFAMKGKKENTLRILDATNNQLPQDRESLFWMNVKAIPSMDKSKLTENTLQLAIISRIKLYYRPAKLALPPDQAAEKLRFRRSANSLTLINPTPYYLTVTELNAGTRVLENALVPPMGESTVKLPSDAGSNITYRTINDYGALTPKMTGVME" "p" "Han et al., 2011" -"EG10311-MONOMER" "MSYLNLRLYQRNTQCLHIRKHRLAGFFVRLVVACAFAAQAPLSSADLYFNPRFLADDPQAVADLSRFENGQELPPGTYRVDIYLNNGYMATRDVTFNTGDSEQGIVPCLTRAQLASMGLNTASVAGMNLLADDACVPLTTMVQDATAHLDVGQQRLNLTIPQAFMSNRARGYIPPELWDPGINAGLLNYNFSGNSVQNRIGGNSHYAYLNLQSGLNIGAWRLRDNTTWSYNSSDRSSGSKNKWQHINTWLERDIIPLRSRLTLGDGYTQGDIFDGINFRGAQLASDDNMLPDSQRGFAPVIHGIARGTAQVTIKQNGYDIYNSTVPPGPFTINDIYAAGNSGDLQVTIKEADGSTQIFTVPYSSVPLLQREGHTRYSITAGEYRSGNAQQEKTRFFQSTLLHGLPAGWTIYGGTQLADRYRAFNFGIGKNMGALGALSVDMTQANSTLPDDSQHDGQSVRFLYNKSLNESGTNIQLVGYRYSTSGYFNFADTTYSRMNGYNIETQDGVIQVKPKFTDYYNLAYNKRGKLQLTVTQQLGRTSTLYLSGSHQTYWGTSNVDEQFQAGLNTAFEDINWTLSYSLTKNAWQKGRDQMLALNVNIPFSHWLRSDSKSQWRHASASYSMSHDLNGRMTNLAGVYGTLLEDNNLSYSVQTGYAGGGDGNSGSTGYATLNYRGGYGNANIGYSHSDDIKQLYYGVSGGVLAHANGVTLGQPLNDTVVLVKAPGAKDAKVENQTGVRTDWRGYAVLPYATEYRENRVALDTNTLADNVDLDNAVANVVPTRGAIVRAEFKARVGIKLLMTLTHNNKPLPFGAMVTSESSQSSGIVADNGQVYLSGMPLAGKVQVKWGEEENAHCVANYQLPPESQQQLLTQLSAECR" "e" "EcoCyc dump" -"EG10312-MONOMER" "VSKRRYLTGKEVQAMMQAVCYGATGARDYCLILLAYRHGMRISELLDLHYQDLDLNEGRINIRRLKNGFSTVHPLRFDEREAVERWTQERANWKGADRTDAIFISRRGSRLSRQQAYRIIRDAGIEAGTVTQTHPHMLRHACGYELAERGADTRLIQDYLGHRNIRHTVRYTASNAARFAGLWERNNLINEKLKREEV" "c" "Han et al., 2011" -"EG10313-MONOMER" "MRNKPFYLLCAFLWLAVSHALAADSTITIRGYVRDNGCSVAAESTNFTVDLMENAAKQFNNIGATTPVVPFRILLSPCGNAVSAVKVGFTGVADSHNANLLALENTVSAASGLGIQLLNEQQNQIPLNAPSSALSWTTLTPGKPNTLNFYARLMATQVPVTAGHINATATFTLEYQ" "s" "EcoCyc dump" -"EG10314-MONOMER" "MKWCKRGYVLAAILALASATIQAADVTITVNGKVVAKPCTVSTTNATVDLGDLYSFSLMSAGAASAWHDVALELTNCPVGTSRVTASFSGAADSTGYYKNQGTAQNIQLELQDDSGNTLNTGATKTVQVDDSSQSAHFPLQVRALTVNGGATQGTIQAVISITYTYS" "s" "EcoCyc dump" -"EG10315-MONOMER" "MKRVITLFAVLLMGWSVNAWSFACKTANGTAIPIGGGSANVYVNLAPVVNVGQNLVVDLSTQIFCHNDYPETITDYVTLQRGSAYGGVLSNFSGTVKYSGSSYPFPTTSETPRVVYNSRTDKPWPVALYLTPVSSAGGVAIKAGSLIAVLILRQTNNYNSDDFQFVWNIYANNDVVVPTGGCDVSARDVTVTLPDYPGSVPIPLTVYCAKSQNLGYYLSGTTADAGNSIFTNTASFSPAQGVGVQLTRNGTIIPANNTVSLGAVGTSAVSLGLTANYARTGGQVTAGNVQSIIGVTFVYQ" "s" "EcoCyc dump" -"EG10320-MONOMER" "MHTSELLKHIYDINLSYLLLAQRLIVQDKASAMFRLGINEEMATTLAALTLPQMVKLAETNQLVCHFRFDSHQTITQLTQDSRVDDLQQIHTGIMLSTRLLNDVNQPEEALRKKRA" "c" "Han et al., 2011" -"EG10321-MONOMER" "MAQVINTNSLSLITQNNINKNQSALSSSIERLSSGLRINSAKDDAAGQAIANRFTSNIKGLTQAARNANDGISVAQTTEGALSEINNNLQRVRELTVQATTGTNSESDLSSIQDEIKSRLDEIDRVSGQTQFNGVNVLAKNGSMKIQVGANDNQTITIDLKQIDAKTLGLDGFSVKNNDTVTTSAPVTAFGATTTNNIKLTGITLSTEAATDTGGTNPASIEGVYTDNGNDYYAKITGGDNDGKYYAVTVANDGTVTMATGATANATVTDANTTKATTITSGGTPVQIDNTAGSATANLGAVSLVKLQDSKGNDTDTYALKDTNGNLYAADVNETTGAVSVKTITYTDSSGAASSPTAVKLGGDDGKTEVVDIDGKTYDSADLNGGNLQTGLTAGGEALTAVANGKTTDPLKALDDAIASVDKFRSSLGAVQNRLDSAVTNLNNTTTNLSEAQSRIQDADYATEVSNMSKAQIIQQAGNSVLAKANQVPQQVLSLLQG" "s" "EcoCyc dump" -"EG10322-MONOMER" "MTDYAISKKSKRSLWIPILVFITLAACASAGYSYWHSHQVAADDKAQQRVVPSPVFYALDTFTVNLGDADRVLYIGITLRLKDEATRSRLSEYLPEVRSRLLLLFSRQDAAVLATEEGKKNLIAEIKTTLSTPLVAGQPKQDVTDVLYTAFILR" "s" "EcoCyc dump" -"EG10329-MONOMER" "MPELPEVETSRRGIEPHLVGATILHAVVRNGRLRWPVSEEIYRLSDQPVLSVQRRAKYLLLELPEGWIIIHLGMSGSLRILPEELPPEKHDHVDLVMSNGKVLRYTDPRRFGAWLWTKELEGHNVLTHLGPEPLSDDFNGEYLHQKCAKKKTAIKPWLMDNKLVVGVGNIYASESLFAAGIHPDRLASSLSLAECELLARVIKAVLLRSIEQGGTTLKDFLQSDGKPGYFAQELQVYGRKGEPCRVCGTPIVATKHAQRATFYCRQCQK" "c" "Han et al., 2011" -"EG10335-MONOMER" "VISDIRKDAEVRMDKCVEAFKTQISKIRTGRASPSLLDGIVVEYYGTPTPLRQLASVTVEDSRTLKINVFDRSMSPAVEKAIMASDLGLNPNSAGSDIRVPLPPLTEERRKDLTKIVRGEAEQARVAVRNVRRDANDKVKALLKDKEISEDDDRRSQDDVQKLTDAAIKKIEAALADKEAELMQF" "c" "Lopez-Campistrous et al., 2005" -"EG10339-MONOMER" "MIKATDRKLVVGLEIGTAKVAALVGEVLPDGMVNIIGVGSCPSRGMDKGGVNDLESVVKCVQRAIDQAELMADCQISSVYLALSGKHISCQNEIGMVPISEEEVTQEDVENVVHTAKSVRVRDEHRVLHVIPQEYAIDYQEGIKNPVGLSGVRMQAKVHLITCHNDMAKNIVKAVERCGLKVDQLIFAGLASSYSVLTEDERELGVCVVDIGGGTMDIAVYTGGALRHTKVIPYAGNVVTSDIAYAFGTPPSDAEAIKVRHGCALGSIVGKDESVEVPSVGGRPPRSLQRQTLAEVIEPRYTELLNLVNEEILQLQEKLRQQGVKHHLAAGIVLTGGAAQIEGLAACAQRVFHTQVRIGAPLNITGLTDYAQEPYYSTAVGLLHYGKESHLNGEAEVEKRVTASVGSWIKRLNSWLRKEF" "c" "Han et al., 2011" -"EG10341-MONOMER" "MKAAAKTQKPKRQEEHANFISWRFALLCGCILLALAFLLGRVAWLQVISPDMLVKEGDMRSLRVQQVSTSRGMITDRSGRPLAVSVPVKAIWADPKEVHDAGGISVGDRWKALANALNIPLDQLSARINANPKGRFIYLARQVNPDMADYIKKLKLPGIHLREESRRYYPSGEVTAHLIGFTNVDSQGIEGVEKSFDKWLTGQPGERIVRKDRYGRVIEDISSTDSQAAHNLALSIDERLQALVYRELNNAVAFNKAESGSAVLVDVNTGEVLAMANSPSYNPNNLSGTPKEAMRNRTITDVFEPGSTVKPMVVMTALQRGVVRENSVLNTIPYRINGHEIKDVARYSELTLTGVLQKSSNVGVSKLALAMPSSALVDTYSRFGLGKATNLGLVGERSGLYPQKQRWSDIERATFSFGYGLMVTPLQLARVYATIGSYGIYRPLSITKVDPPVPGERVFPESIVRTVVHMMESVALPGGGGVKAAIKGYRIAIKTGTAKKVGPDGRYINKYIAYTAGVAPASQPRFALVVVINDPQAGKYYGGAVSAPVFGAIMGGVLRTMNIEPDALTTGDKNEFVINQGEGTGGRS" "i" "Han et al., 2011" -"EG10342-MONOMER" "MSQAALNTRNSEEEVSSRRNNGTRLAGILFLLTVLTTVLVSGWVVLGWMEDAQRLPLSKLVLTGERHYTRNDDIRQSILALGEPGTFMTQDVNIIQTQIEQRLPWIKQVSVRKQWPDELKIHLVEYVPIARWNDQHMVDAEGNTFSVPPERTSKQVLPMLYGPEGSANEVLQGYREMGQMLAKDRFTLKEAAMTARRSWQLTLNNDIKLNLGRGDTMKRLARFVELYPVLQQQAQTDGKRISYVDLRYDSGAAVGWAPLPPEESTQQQNQAQAEQQ" "i" "Han et al., 2011" -"EG10343-MONOMER" "MKKPNHSGSGQIRIIGGQWRGRKLPVPDSPGLRPTTDRVRETLFNWLAPVIVDAQCLDCFAGSGALGLEALSRYAAGATLIEMDRAVSQQLIKNLATLKAGNARVVNSNAMSFLAQKGTPHNIVFVDPPFRRGLLEETINLLEDNGWLADEALIYVESEVENGLPTVPANWSLHREKVAGQVAYRLYQREAQGESDAD" "c" "Han et al., 2011" -"EG10344-MONOMER" "MRLSLPRLKMPRLPGFSILVWISTALKGWVMGSREKDTDSLIMYDRTLLWLTFGLAAIGFIMVTSASMPIGQRLTNDPFFFAKRDGVYLILAFILAIITLRLPMEFWQRYSATMLLGSIILLMIVLVVGSSVKGASRWIDLGLLRIQPAELTKLSLFCYIANYLVRKGDEVRNNLRGFLKPMGVILVLAVLLLAQPDLGTVVVLFVTTLAMLFLAGAKLWQFIAIIGMGISAVVLLILAEPYRIRRVTAFWNPWEDPFGSGYQLTQSLMAFGRGELWGQGLGNSVQKLEYLPEAHTDFIFAIIGEELGYVGVVLALLMVFFVAFRAMSIGRKALEIDHRFSGFLACSIGIWFSFQALVNVGAAAGMLPTKGLTLPLISYGGSSLLIMSTAIMMLLRIDYETRLEKAQAFVRGSR" "i" "Han et al., 2011" -"EG10346-MONOMER" "MAKEKKRGFFSWLGFGQKEQTPEKETEVQNEQPVVEEIVQAQEPVKASEQAVEEQPQAHTEAEAETFAADVVEVTEQVAESEKAQPEAEVVAQPEPVVEETPEPVAIEREELPLPEDVNAEAVSPEEWQAEAETVEIVEAAEEEAAKEEITDEELETALAAEAAEEAVMVVPPAEEEQPVEEIAQEQEKPTKEGFFARLKRSLLKTKENLGSGFISLFRGKKIDDDLFEELEEQLLIADVGVETTRKIITNLTEGASRKQLRDAEALYGLLKEEMGEILAKVDEPLNVEGKAPFVILMVGVNGVGKTTTIGKLARQFEQQGKSVMLAAGDTFRAAAVEQLQVWGQRNNIPVIAQHTGADSASVIFDAIQAAKARNIDVLIADTAGRLQNKSHLMEELKKIVRVMKKLDVEAPHEVMLTIDASTGQNAVSQAKLFHEAVGLTGITLTKLDGTAKGGVIFSVADQFGIPIRYIGVGERIEDLRPFKADDFIEALFARED" "i" "EcoCyc dump" -"EG10347-MONOMER" "MFEPMELTNDAVIKVIGVGGGGGNAVEHMVRERIEGVEFFAVNTDAQALRKTAVGQTIQIGSGITKGLGAGANPEVGRNAADEDRDALRAALEGADMVFIAAGMGGGTGTGAAPVVAEVAKDLGILTVAVVTKPFNFEGKKRMAFAEQGITELSKHVDSLITIPNDKLLKVLGRGISLLDAFGAANDVLKGAVQGIAELITRPGLMNVDFADVRTVMSEMGYAMMGSGVASGEDRAEEAAEMAISSPLLEDIDLSGARGVLVNITAGFDLRLDEFETVGNTIRAFASDNATVVIGTSLDPDMNDELRVTVVATGIGMDKRPEITLVTNKQVQQPVMDRYQQHGMAPLTQEQKPVAKVVNDNAPQTAKEPDYLDIPAFLRKQAD" "p" "Lopez-Campistrous et al., 2005" -"EG10355-MONOMER" "MLKTISPLISPELLKVLAEMGHGDEIIFSDAHFPAHSMGPQVIRADGLLVSDLLQAIIPLFELDSYAPPLVMMAAVEGDTLDPEVERRYRNALSLQAPCPDIIRINRFAFYERAQKAFAIVITGERAKYGNILLKKGVTP" "c" "Han et al., 2011" -"EG10360-MONOMER" "MARTTPIARYRNIGISAHIDAGKTTTTERILFYTGVNHKIGEVHDGAATMDWMEQEQERGITITSAATTAFWSGMAKQYEPHRINIIDTPGHVDFTIEVERSMRVLDGAVMVYCAVGGVQPQSETVWRQANKYKVPRIAFVNKMDRMGANFLKVVNQIKTRLGANPVPLQLAIGAEEHFTGVVDLVKMKAINWNDADQGVTFEYEDIPADMVELANEWHQNLIESAAEASEELMEKYLGGEELTEAEIKGALRQRVLNNEIILVTCGSAFKNKGVQAMLDAVIDYLPSPVDVPAINGILDDGKDTPAERHASDDEPFSALAFKIATDPFVGNLTFFRVYSGVVNSGDTVLNSVKAARERFGRIVQMHANKREEIKEVRAGDIAAAIGLKDVTTGDTLCDPDAPIILERMEFPEPVISIAVEPKTKADQEKMGLALGRLAKEDPSFRVWTDEESNQTIIAGMGELHLDIIVDRMKREFNVEANVGKPQVAYRETIRQKVTDVEGKHAKQSGGRGQYGHVVIDMYPLEPGSNPKGYEFINDIKGGVIPGEYIPAVDKGIQEQLKAGPLAGYPVVDMGIRLHFGSYHDVDSSELAFKLAASIAFKEGFKKAKPVLLEPIMKVEVETPEENTGDVIGDLSRRRGMLKGQESEVTGVKIHAEVPLSEMFGYATQLRSLTKGRASYTMEFLKYDEAPSNVAQAVIEARGK" "c" "Lopez-Campistrous et al., 2005" -"EG10370-MONOMER" "MHNQAPIQRRKSTRIYVGNVPIGDGAPIAVQSMTNTRTTDVEATVNQIKALERVGADIVRVSVPTMDAAEAFKLIKQQVNVPLVADIHFDYRIALKVAEYGVDCLRINPGNIGNEERIRMVVDCARDKNIPIRIGVNAGSLEKDLQEKYGEPTPQALLESAMRHVDHLDRLNFDQFKVSVKASDVFLAVESYRLLAKQIDQPLHLGITEAGGARSGAVKSAIGLGLLLSEGIGDTLRVSLAADPVEEIKVGFDILKSLRIRSRGINFIACPTCSRQEFDVIGTVNALEQRLEDIITPMDVSIIGCVVNGPGEALVSTLGVTGGNKKSGLYEDGVRKDRLDNNDMIDQLEARIRAKASQLDEARRIDVQQVEK" "c" "Lopez-Campistrous et al., 2005" -"EG10373-MONOMER" "MLNTCRVPLTDRKVKEKRAMKQHKAMIVALIVICITAVVAALVTRKDLCEVHIRTGQTEVAVFTAYESE" "i" "Han et al., 2011" -"EG10374-MONOMER" "MIKPTFLRRVAIAALLSGSCFSAAAAPPAPPVSYGVEEDVFHPVRAKQGMVASVDATATQVGVDILKEGGNAVDAAVAVGYALAVTHPQAGNLGGGGFMLIRSKNGNTTAIDFREMAPAKATRDMFLDDQGNPDSKKSLTSHLASGTPGTVAGFSLALDKYGTMPLNKVVQPAFKLARDGFIVNDALADDLKTYGSEVLPNHENSKAIFWKEGEPLKKGDTLVQANLAKSLEMIAENGPDEFYKGTIAEQIAQEMQKNGGLITKEDLAAYKAVERTPISGDYRGYQVYSMPPPSSGGIHIVQILNILENFDMKKYGFGSADAMQIMAEAEKYAYADRSEYLGDPDFVKVPWQALTNKAYAKSIADQIDINKAKPSSEIRPGKLAPYESNQTTHYSVVDKDGNAVAVTYTLNTTFGTGIVAGESGILLNNQMDDFSAKPGVPNVYGLVGGDANAVGPNKRPLSSMSPTIVVKDGKTWLVTGSPGGSRIITTVLQMVVNSIDYGLNVAEATNAPRFHHQWLPDELRVEKGFSPDTLKLLEAKGQKVALKEAMGSTQSIMVGPDGELYGASDPRSVDDLTAGY" "p" "Han et al., 2011" -"EG10375-MONOMER" "MFYPDPFDVIIIGGGHAGTEAAMAAARMGQQTLLLTHNIDTLGQMSCNPAIGGIGKGHLVKEVDALGGLMAKAIDQAGIQFRILNASKGPAVRATRAQADRVLYRQAVRTALENQPNLMIFQQAVEDLIVENDRVVGAVTQMGLKFRAKAVVLTVGTFLDGKIHIGLDNYSGGRAGDPPSIPLSRRLRELPLRVGRLKTGTPPRIDARTIDFSVLAQQHGDNPMPVFSFMGNASQHPQQVPCYITHTNEKTHDVIRSNLDRSPMYAGVIEGVGPRYCPSIEDKVMRFADRNQHQIFLEPEGLTSNEIYPNGISTSLPFDVQMQIVRSMQGMENAKIVRPGYAIEYDFFDPRDLKPTLESKFIQGLFFAGQINGTTGYEEAAAQGLLAGLNAARLSADKEGWAPARSQAYLGVLVDDLCTLGTKEPYRMFTSRAEYRLMLREDNADLRLTEIGRELGLVDDERWARFNEKLENIERERQRLKSTWVTPSAEAAAEVNAHLTAPLSREASGEDLLRRPEMTYEKLTTLTPFAPALTDEQAAEQVEIQVKYEGYIARQQDEIEKQLRNENTLLPATLDYRQVSGLSNEVIAKLNDHKPASIGQASRISGVTPAAISILLVWLKKQGMLRRSA" "c" "Han et al., 2011" -"EG10376-MONOMER" "VLNKLSLLLKDAGISLTDHQKNQLIAYVNMLHKWNKAYNLTSVRDPNEMLVRHILDSIVVAPYLQGERFIDVGTGPGLPGIPLSIVRPEAHFTLLDSLGKRVRFLRQVQHELKLENIEPVQSRVEEFPSEPPFDGVISRAFASLNDMVSWCHHLPGEQGRFYALKGQMPEDEIALLPEEYQVESVVKLQVPALDGERHLVVIKANKI" "c" "Unambiguous EcoCyc data" -"EG10381-MONOMER" "MTQLAIGKPAPLGAHYDGQGVNFTLFSAHAERVELCVFDANGQEHRYDLPGHSGDIWHGYLPDARPGLRYGYRVHGPWQPAEGHRFNPAKLLIDPCARQIDGEFKDNPLLHAGHNEPDYRDNAAIAPKCVVVVDHYDWEDDAPPRTPWGSTIIYEAHVKGLTYLHPEIPVEIRGTYKALGHPVMINYLKQLGITALELLPVAQFASEPRLQRMGLSNYWGYNPVAMFALHPAYACSPETALDEFRDAIKALHKAGIEVILDIVLNHSAELDLDGPLFSLRGIDNRSYYWIREDGDYHNWTGCGNTLNLSHPAVVDYASACLRYWVETCHVDGFRFDLAAVMGRTPEFRQDAPLFTAIQNCPVLSQVKLIAEPWDIAPGGYQVGNFPPLFAEWNDHFRDAARRFWLHYDLPLGAFAGRFAASSDVFKRNGRLPSAAINLVTAHDGFTLRDCVCFNHKHNEANGEENRDGTNNNYSNNHGKEGLGGSLDLVERRRDSIHALLTTLLLSQGTPMLLAGDEHGHSQHGNNNAYCQDNQLTWLDWSQASSGLTAFTAALIHLRKRIPALVENRWWEEGDGNVRWLNRYAQPLSTDEWQNGPKQLQILLSDRFLIAINATLEVTEIVLPAGEWHAIPPFAGEDNPVITAVWQGPAHGLCVFQR" "c" "Han et al., 2011" -"EG10395-MONOMER" "MDQFECINVADAHQKLQEKEAVLVDIRDPQSFAMGHAVQAFHLTNDTLGAFMRDNDFDTPVMVMCYHGNSSKGAAQYLLQQGYDVVYSIDGGFEAWQRQFPAEVAYGA" "c" "Han et al., 2011" -"EG10397-MONOMER" "MLMITSFANPRVAQAFVDYMATQGVILTIQQHNQSDVWLADESQAERVRAELARFLENPADPRYLAASWQAGHTGSGLHYRRYPFFAALRERAGPVTWVMMIACVVVFIAMQILGDQEVMLWLAWPFDPTLKFEFWRYFTHALMHFSLMHILFNLLWWWYLGGAVEKRLGSGKLIVITLISALLSGYVQQKFSGPWFGGLSGVVYALMGYVWLRGERDPQSGIYLQRGLIIFALIWIVAGWFDLFGMSMANGAHIAGLAVGLAMAFVDSLNARKRK" "i" "Han et al., 2011" -"EG10415-MONOMER" "MQAIPMTLRGAEKLREELDFLKSVRRPEIIAAIAEAREHGDLKENAEYHAAREQQGFCEGRIKDIEAKLSNAQVIDVTKMPNNGRVIFGATVTVLNLDSDEEQTYRIVGDDEADFKQNLISVNSPIARGLIGKEEDDVVVIKTPGGEVEFEVIKVEYL" "c" "Han et al., 2011" -"EG10416-MONOMER" "MSSKEQKTPEGQAPEEIIMDQHEEIEAVEPEASAEQVDPRDEKVANLEAQLAEAQTRERDGILRVKAEMENLRRRTELDIEKAHKFALEKFINELLPVIDSLDRALEVADKANPDMSAMVEGIELTLKSMLDVVRKFGVEVIAETNVPLDPNVHQAIAMVESDDVAPGNVLGIMQKGYTLNGRTIRAAMVTVAKAKA" "c" "Lopez-Campistrous et al., 2005" -"EG10423-MONOMER" "MSDLAREITPVNIEEELKSSYLDYAMSVIVGRALPDVRDGLKPVHRRVLYAMNVLGNDWNKAYKKSARVVGDVIGKYHPHGDSAVYDTIVRMAQPFSLRYMLVDGQGNFGSIDGDSAAAMRYTEIRLAKIAHELMADLEKETVDFVDNYDGTEKIPDVMPTKIPNLLVNGSSGIAVGMATNIPPHNLTEVINGCLAYIDDEDISIEGLMEHIPGPDFPTAAIINGRRGIEEAYRTGRGKVYIRARAEVEVDAKTGRETIIVHEIPYQVNKARLIEKIAELVKEKRVEGISALRDESDKDGMRIVIEVKRDAVGEVVLNNLYSQTQLQVSFGINMVALHHGQPKIMNLKDIIAAFVRHRREVVTRRTIFELRKARDRAHILEALAVALANIDPIIELIRHAPTPAEAKTALVANPWQLGNVAAMLERAGDDAARPEWLEPEFGVRDGLYYLTEQQAQAILDLRLQKLTGLEHEKLLDEYKELLDQIAELLRILGSADRLMEVIREELELVREQFGDKRRTEITANSADINLEDLITQEDVVVTLSHQGYVKYQPLSEYEAQRRGGKGKSAARIKEEDFIDRLLVANTHDHILCFSSRGRVYSMKVYQLPEATRGARGRPIVNLLPLEQDERITAILPVTEFEEGVKVFMATANGTVKKTVLTEFNRLRTAGKVAIKLVDGDELIGVDLTSGEDEVMLFSAEGKVVRFKESSVRAMGCNTTGVRGIRLGEGDKVVSLIVPRGDGAILTATQNGYGKRTAVAEYPTKSRATKGVISIKVTERNGLVVGAVQVDDCDQIMMITDAGTLVRTRVSEISIVGRNTQGVILIRTAEDENVVGLQRVAEPVDEEDLDTIDGSAAEGDDEIAPEVDVDDEPEEE" "c" "Han et al., 2011" -"EG10424-MONOMER" "MSNSYDSSSIKVLKGLDAVRKRPGMYIGDTDDGTGLHHMVFEVVDNAIDEALAGHCKEIIVTIHADNSVSVQDDGRGIPTGIHPEEGVSAAEVIMTVLHAGGKFDDNSYKVSGGLHGVGVSVVNALSQKLELVIQREGKIHRQIYEHGVPQAPLAVTGETEKTGTMVRFWPSLETFTNVTEFEYEILAKRLRELSFLNSGVSIRLRDKRDGKEDHFHYEGGIKAFVEYLNKNKTPIHPNIFYFSTEKDGIGVEVALQWNDGFQENIYCFTNNIPQRDGGTHLAGFRAAMTRTLNAYMDKEGYSKKAKVSATGDDAREGLIAVVSVKVPDPKFSSQTKDKLVSSEVKSAVEQQMNELLAEYLLENPTDAKIVVGKIIDAARAREAARRAREMTRRKGALDLAGLPGKLADCQERDPALSELYLVEGDSAGGSAKQGRNRKNQAILPLKGKILNVEKARFDKMLSSQEVATLITALGCGIGRDEYNPDKLRYHSIIIMTDADVDGSHIRTLLLTFFYRQMPEIVERGHVYIAQPPLYKVKKGKQEQYIKDDEAMDQYQISIALDGATLHTNASAPALAGEALEKLVSEYNATQKMINRMERRYPKAMLKELIYQPTLTEADLSDEQTVTRWVNALVSELNDKEQHGSQWKFDVHTNAEQNLFEPIVRVRTHGVDTDYPLDHEFITGGEYRRICTLGEKLRGLLEEDAFIERGERRQPVASFEQALDWLVKESRRGLSIQRYKGLGEMNPEQLWETTMDPESRRMLRVTVKDAIAADQLFTTLMGDAVEPRRAFIEENALKAANIDI" "c" "Han et al., 2011" -"EG10426-MONOMER" "MELKATTLGKRLAQHPYDRAVILNAGIKVSGDRHEYLIPFNQLLAIHCKRGLVWGELEFVLPDEKVVRLHGTEWGETQRFYHHLDAHWRRWSGEMSEIASGVLRQQLDLIATRTGENKWLTREQTSGVQQQIRQALSALPLPVNRLEEFDNCREAWRKCQAWLKDIESARLQHNQAYTEAMLTEYADFFRQVESSPLNPAQARAVVNGEHSLLVLAGAGSGKTSVLVARAGWLLARGEASPEQILLLAFGRKAAEEMDERIRERLHTEDITARTFHALALHIIQQGSKKVPIVSKLENDTAARHELFIAEWRKQCSEKKAQAKGWRQWLTEEMQWSVPEGNFWDDEKLQRRLASRLDRWVSLMRMHGGAQAEMIASAPEEIRDLFSKRIKLMAPLLKAWKGALKAENAVDFSGLIHQAIVILEKGRFISPWKHILVDEFQDISPQRAALLAALRKQNSQTTLFAVGDDWQAIYRFSGAQMSLTTAFHENFGEGERCDLDTTYRFNSRIGEVANRFIQQNPGQLKKPLNSLTNGDKKAVTLLDESQLDALLDKLSGYAKPEERILILARYHHMRPASLEKAATRWPKLQIDFMTIHASKGQQADYVIIVGLQEGSDGFPAAARESIMEEALLPPVEDFPDAEERRLMYVALTRARHRVWALFNKENPSPFVEILKNLDVPVARKP" "c" "Han et al., 2011" -"EG10434-MONOMER" "MLKVLLLFVLLIAGIVVGPMIAGHQGYVLIQTDNYNIETSVTGLAIILILAMVVLFAIEWLLRRIFRTGAHTRGWFVGRKRRRARKQTEQALLKLAEGDYQQVEKLMAKNADHAEQPVVNYLLAAEAAQQRGDEARANQHLERAAELAGNDTIPVEITRVRLQLARNENHAARHGVDKLLEVTPRHPEVLRLAEQAYIRTGAWSSLLDIIPSMAKAHVGDEEHRAMLEQQAWIGLMDQARADNGSEGLRNWWKNQSRKTRHQVALQVAMAEHLIECDDHDTAQQIIIDGLKRQYDDRLLLPIPRLKTNNPEQLEKVLRQQIKNVGDRPLLWSTLGQSLMKHGEWQEASLAFRAALKQRPDAYDYAWLADALDRLHKPEEAAAMRRDGLMLTLQNNPPQ" "i" "Han et al., 2011" -"EG10435-MONOMER" "MRKSVIAIIIIVLVVLYMSVFVVKEGERGITLRFGKVLRDDDNKPLVYEPGLHFKIPFIETVKMLDARIQTMDNQADRFVTKEKKDLIVDSYIKWRISDFSRYYLATGGGDISQAEVLLKRKFSDRLRSEIGRLDVKDIVTDSRGRLTLEVRDALNSGSAGTEDEVTTPAADNAIAEAAERVTAETKGKVPVINPNSMAALGIEVVDVRIKQINLPTEVSEAIYNRMRAEREAVARRHRSQGQEEAEKLRATADYEVTRTLAEAERQGRIMRGEGDAEAAKLFADAFSKDPDFYAFIRSLRAYENSFSGNQDVMVMSPDSDFFRYMKTPTSATR" "i" "Han et al., 2011" -"EG10436-MONOMER" "MAWNQPGNNGQDRDPWGSSKPGGNSEGNGNKGGRDQGPPDLDDIFRKLSKKLGGLGGGKGTGSGGGSSSQGPRPQLGGRVVTIAAAAIVIIWAASGFYTIKEAERGVVTRFGKFSHLVEPGLNWKPTFIDEVKPVNVEAVRELAASGVMLTSDENVVRVEMNVQYRVTNPEKYLYSVTSPDDSLRQATDSALRGVIGKYTMDRILTEGRTVIRSDTQRELEETIRPYDMGITLLDVNFQAARPPEEVKAAFDDAIAARENEQQYIREAEAYTNEVQPRANGQAQRILEEARAYKAQTILEAQGEVARFAKLLPEYKAAPEITRERLYIETMEKVLGNTRKVLVNDKGGNLMVLPLDQMLKGGNAPAAKSDNGASNLLRLPPASSSTTSGASNTSSTSQGDIMDQRRANAQRNDYQRQGE" "i" "EcoCyc dump" -"EG10437-MONOMER" "LFDRYDAGEQAVLVHIYFTQDKDMEDLQEFESLVSSAGVEALQVITGSRKAPHPKYFVGEGKAVEIAEAVKATGASVVLFDHALSPAQERNLERLCECRVIDRTGLILDIFAQRARTHEGKLQVELAQLRHLATRLVRGWTHLERQKGGIGLRGPGETQLETDRRLLRNRIVQIQSRLERVEKQREQGRQSRIKADVPTVSLVGYTNAGKSTLFNRITEARVYAADQLFATLDPTLRRIDVADVGETVLADTVGFIRHLPHDLVAAFKATLQETRQATLLLHVIDAADVRVQENIEAVNTVLEEIDAHEIPTLLVMNKIDMLEDFEPRIDRDEENKPNRVWLSAQTGAGIPQLFQALTERLSGEVAQHTLRLPPQEGRLRSRFYQLQAIEKEWMEEDGSVSLQVRMPIVDWRRLCKQEPALIDYLI" "c" "Han et al., 2011" -"EG10438-MONOMER" "MAKGQSLQDPFLNALRRERVPVSIYLVNGIKLQGQIESFDQFVILLKNTVSQMVYKHAISTVVPSRPVSHHSNNAGGGTSSNYHHGSSAQNTSAQQDSEETE" "c" "Han et al., 2011" -"EG10439-MONOMER" "MSEKPLTKTDYLMRLRRCQTIDTLERVIEKNKYELSDNELAVFYSAADHRLAELTMNKLYDKIPSSVWKFIR" "c" "Han et al., 2011" -"EG10442-MONOMER" "MMSFQKIYSPTQLANAMKLVRQQNGWTQSELAKKIGIKQATISNFENNPDNTTLTTFFKILQSLELSMTLCDAKNASPESTEQQNLEW" "c" "Han et al., 2011" -"EG10443-MONOMER" "MPKLVTWMNNQRVGELTKLANGAHTFKYAPEWLASRYARPLSLSLPLQRGNITSDAVFNFFDNLLPDSPIVRDRIVKRYHAKSRQPFDLLSEIGRDSVGAVTLIPEDETVTHPIMAWEKLTEARLEEVLTAYKADIPLGMIREENDFRISVAGAQEKTALLRIGNDWCIPKGITPTTHIIKLPIGEIRQPNATLDLSQSVDNEYYCLLLAKELGLNVPDAEIIKAGNVRALAVERFDRRWNAERTVLLRLPQEDMCQTFGLPSSVKYESDGGPGIARIMAFLMGSSEALKDRYDFMKFQVFQWLIGATDGHAKNFSVFIQAGGSYRLTPFYDIISAFPVLGGTGIHISDLKLAMGLNASKGKKTAIDKIYPRHFLATAKVLRFPEVQMHEILSDFARMIPAALDNVKTSLPTDFPENVVTAVESNVLRLHGRLSREYGSK" "c" "Han et al., 2011" -"EG10454-MONOMER" "MSDQQQPPVYKIALGIEYDGSKYYGWQRQNEVRSVQEKLEKALSQVANEPITVFCAGRTDAGVHGTGQVVHFETTALRKDAAWTLGVNANLPGDIAVRWVKTVPDDFHARFSATARRYRYIIYNHRLRPAVLSKGVTHFYEPLDAERMHRAAQCLLGENDFTSFRAVQCQSRTPWRNVMHINVTRHGPYVVVDIKANAFVHHMVRNIVGSLMEVGAHNQPESWIAELLAAKDRTLAAATAKAEGLYLVAVDYPDRYDLPKPPMGPLFLAD" "c" "Han et al., 2011" -"EG10455-MONOMER" "VKKWLLAAGLGLALATSAQAADKIAIVNMGSLFQQVAQKTGVSNTLENEFKGRASELQRMETDLQAKMKKLQSMKAGSDRTKLEKDVMAQRQTFAQKAQAFEQDRARRSNEERGKLVTRIQTAVKSVANSQDIDLVVDANAVAYNSSDVKDITADVLKQVK" "e" "EcoCyc dump" -"EG10456-MONOMER" "MLDAQTIATVKATIPLLVETGPKLTAHFYDRMFTHNPELKEIFNMSNQRNGDQREALFNAIAAYASNIENLPALLPAVEKIAQKHTSFQIKPEQYNIVGEHLLATLDEMFSPGQEVLDAWGKAYGVLANVFINREAEIYNENASKAGGWEGTRDFRIVAKTPRSALITSFELEPVDGGAVAEYRPGQYLGVWLKPEGFPHQEIRQYSLTRKPDGKGYRIAVKREEGGQVSNWLHNHANVGDVVKLVAPAGDFFMAVADDTPVTLISAGVGQTPMLAMLDTLAKAGHTAQVNWFHAAENGDVHAFADEVKELGQSLPRFTAHTWYRQPSEADRAKGQFDSEGLMDLSKLEGAFSDPTMQFYLCGPVGFMQFTAKQLVDLGVKQENIHYECFGPHKVL" "c" "Han et al., 2011" -"EG10458-MONOMER" "MNNNDLVAKLWKLCDNLRDGGVSYQNYVNELASLLFLKMCKETGQEAEYLPEGYRWDDLKSRIGQEQLQFYRKMLVHLGEDDKKLVQAVFHNVSTTITEPKQITALVSNMDSLDWYNGAHGKSRDDFGDMYEGLLQKNANETKSGAGQYFTPRPLIKTIIHLLKPQPREVVQDPAAGTAGFLIEADRYVKSQTNDLDDLDGDTQDFQIHRAFIGLELVPGTRRLALMNCLLHDIEGNLDHGGAIRLGNTLGSDGENLPKAHIVATNPPFGSAAGTNITRTFVHPTSNKQLCFMQHIIETLHPGGRAAVVVPDNVLFEGGKGTDIRRDLMDKCHLHTILRLPTGIFYAQGVKTNVLFFTKGTVANPNQDKNCTDDVWVYDLRTNMPSFGKRTPFTDEHLQPFERVYGEDPHGLSPRTEGEWSFNAEETEVADSEENKNTDQHLATSRWRKFSREWIRTAKSDSLDISWLKDKDSIDADSLPEPDVLAAEAMGELVQALSELDALMRELGASDEADLQRQLLEEAFGGVKE" "c" "Han et al., 2011" -"EG10459-MONOMER" "MLWALNIWTGPHSNGLITMMNKSNFEFLKGVNDFTYAIACAAENNYPDDPNTTLIKMRMFGEATAKHLGLLLNIPPCENQHDLLRELGKIAFVDDNILSVFHKLRRIGNQAVHEYHNDLNDAQMCLRLGFRLAVWYYRLVTKDYDFPVPVFVLPERGENLYHQEVLTLKQQLEQQVREKAQTQAEVEAQQQKLVALNGYIAILEGKQQETEAQTQARLAALEAQLAEKNAELAKQTEQERKAYHKEITDQAIKRTLNLSEEESRFLIDAQLRKAGWQADSKTLRFSKGARPEPGVNKAIAEWPTGKDETGNQGFADYVLFVGLKPIAVVEAKRNNIDVPARLNESYRYSKCFDNGFLRETLLEHYSPDEVHEAVPEYETSWQDTSGKQRFKIPFCYSTNGREYRATMKTKSGIWYRDVRDTRNMSKALPEWHRPEELLEMLGSEPQKQNQWFADNPGMSELGLRYYQEDAVRAVEKAIVKGQQEILLAMATGTGKTRTAIAMMFRLIQSQRFKRILFLVDRRSLGEQALGAFEDTRINGDTFNSIFDIKGLTDKFPEDSTKIHVATVQSLVKRTLQSDEPMPVARYDCIVVDEAHRGYILDKEQTEGELQFRSQLDYVSAYRRILDHFDAVKIALTATPALHTVQIFGEPVYRYTYRTAVIDGFLIDQDPPIQIITRNAQEGVYLSKGEQVERISPQGEVINDTLEDDQDFEVADFNRGLVIPAFNRAVCNELTNYLDPTGSQKTLVFCVTNAHADMVVEELRAAFKKKYPQLEHDAIIKITGDADKDARKVQTMITRFNKERLPNIVVTVDLLTTGVDIPSICNIVFLRKVRSRILYEQMKGRATRLCPEVNKTSFKIFDCVDIYSTLESVDTMRPVVVRPKVELQTLVNEITDSETYKITEADGRSFAEHSHEQLVAKLQRIIGLATFNRDRSETIDKQVRRLDELCQDAAGVNFNGFASRLREKGPHWSAEVFNKLPGFIARLEKLKTDINNLNDAPIFLDIDDEVVSVKSLYGDYDTPQDFLEAFDSLVQRSPNAQPALQAVINRPRDLTRKGLVELQEWFDRQHFEESSLRKAWKETRNEDIAARLIGHIRRAAVGDALKPFEERVDHALTRIKGENDWSSEQLSWLDRLAQALKEKVVLDDDVFKTGNFHRRGGKAMLQRTFDDNLDTLLGKFSDYIWDELA" "c" "Han et al., 2011" -"EG10460-MONOMER" "MSAGKLPEGWVIAPVSTVTTLIRGVTYKKEQAINYLKDDYLPLIRANNIQNGKFDTTDLVFVPKNLVKESQKISPEDIVIAMSSGSKSVVGKSAHQHLPFECSFGAFCGVLRPEKLIFSGFIAHFTKSSLYRNKISSLSAGANINNIKPASFDLINIPIPPLAEQKIIAEKLDTLLAQVDSTKARFEQIPQILKRFRQAVLGGAVNGKLTEKWRNFEPQHSVFKKLNFESILTELRNGLSSKPNESGVGHPILRISSVRAGHVDQNDIRFLECSESELNRHKLQDGDLLFTRYNGSLEFVGVCGLLKKLQHQNLLYPDKLIRARLTKDALPEYIEIFFSSPSARNAMMNCVKTTSGQKGISGKDIKSQVVLLPPVKEQAEIVRRVEQLFAYADTIEKQVNNALARVNNLTQSILAKAFRGELTAQWRAENPDLISGENSAAALLEKIKAERAASGGKKASRKKS" "c" "Han et al., 2011" -"EG10461-MONOMER" "MKGQETRGFQSEVKQLLHLMIHSLYSNKEIFLRELISNASDAADKLRFRALSNPDLYEGDGELRVRVSFDKDKRTLTISDNGVGMTRDEVIDHLGTIAKSGTKSFLESLGSDQAKDSQLIGQFGVGFYSAFIVADKVTVRTRAAGEKPENGVFWESAGEGEYTVADITKEDRGTEITLHLREGEDEFLDDWRVRSIISKYSDHIALPVEIEKREEKDGETVISWEKINKAQALWTRNKSEITDEEYKEFYKHIAHDFNDPLTWSHNRVEGKQEYTSLLYIPSQAPWDMWNRDHKHGLKLYVQRVFIMDDAEQFMPNYLRFVRGLIDSSDLPLNVSREILQDSTVTRNLRNALTKRVLQMLEKLAKDDAEKYQTFWQQFGLVLKEGPAEDFANQEAIAKLLRFASTHTDSSAQTVSLEDYVSRMKEGQEKIYYITADSYAAAKSSPHLELLRKKGIEVLLLSDRIDEWMMNYLTEFDGKPFQSVSKVDESLEKLADEVDESAKEAEKALTPFIDRVKALLGERVKDVRLTHRLTDTPAIVSTDADEMSTQMAKLFAAAGQKVPEVKYIFELNPDHVLVKRAADTEDEAKFSEWVELLLDQALLAERGTLEDPNLFIRRMNQLLVS" "i" "EcoCyc dump" -"EG10462-MONOMER" "MMRIALFLLTNLAVMVVFGLVLSLTGIQSSSVQGLMIMALLFGFGGSFVSLLMSKWMALRSVGGEVIEQPRNERERWLVNTVATQARQAGIAMPQVAIYHAPDINAFATGARRDASLVAVSTGLLQNMSPDEAEAVIAHEISHIANGDMVTMTLIQGVVNTFVIFISRILAQLAAGFMGGNRDEGEESNGNPLIYFAVATVLELVFGILASIITMWFSRHREFHADAGSAKLVGREKMIAALQRLKTSYEPQEATSMMALCINGKSKSLSELFMTHPPLDKRIEALRTGEYLK" "i" "Han et al., 2011" -"EG10463-MONOMER" "MKKTTLALSALALSLGLALSPLSATAAETSSATTAQQMPSLAPMLEKVMPSVVSINVEGSTTVNTPRMPRNFQQFFGDDSPFCQEGSPFQSSPFCQGGQGGNGGGQQQKFMALGSGVIIDADKGYVVTNNHVVDNATVIKVQLSDGRKFDAKMVGKDPRSDIALIQIQNPKNLTAIKMADSDALRVGDYTVAIGNPFGLGETVTSGIVSALGRSGLNAENYENFIQTDAAINRGNSGGALVNLNGELIGINTAILAPDGGNIGIGFAIPSNMVKNLTSQMVEYGQVKRGELGIMGTELNSELAKAMKVDAQRGAFVSQVLPNSSAAKAGIKAGDVITSLNGKPISSFAALRAQVGTMPVGSKLTLGLLRDGKQVNVNLELQQSSQNQVDSSSIFNGIEGAEMSNKGKDQGVVVNNVKTGTPAAQIGLKKGDVIIGANQQAVKNIAELRKVLDSKPSVLALNIQRGDSTIYLLMQ" "i" "EcoCyc dump" -"EG10466-MONOMER" "MNKTQLIDVIAEKAELSKTQAKAALESTLAAITESLKEGDAVQLVGFGTFKVNHRAERTGRNPQTGKEIKIAAANVPAFVSGKALKDAVK" "c" "Han et al., 2011" -"EG10467-MONOMER" "VNKSQLIDKIAAGADISKAAAGRALDAIIASVTESLKEGDDVALVGFGTFAVKERAARTGRNPQTGKEITIAAAKVPSFRAGKALKDAVN" "c" "Han et al., 2011" -"EG10471-MONOMER" "MSEQRVVVMGLGNLLWADEGFGVRVAERLYAHYHWPEYVEIVDGGTQGLNLLGYVESASHLLILDAIDYGLEPGTLRTYAGERIPAYLSAKKMSLHQNSFSEVLALADIRGHLPAHIALVGLQPAMLDDYGGSLSELAREQLPAAEQAALAQLAAWGIVPQPANESRCLNYDCLSMENYEGVRLRQYRMTQEEQG" "c" "Han et al., 2011" -"EG10472-MONOMER" "MSNDTPFDALWQRMLARGWTPVSESRLDDWLTQAPDGVVLLSSDPKRTPEVSDNPVMIGELLREFPDYTWQVAIADLEQSEAIGDRFGVFRFPATLVFTGGNYRGVLNGIHPWAELINLMRGLVEPQQERAS" "c" "Han et al., 2011" -"EG10473-MONOMER" "MSETFFHLLGPGTQPNDDSFSMNPLPITCQVNDEPSMAALEQCAHSPQVIALLNELQHQLSERQPPLGEVLAVDLLNLNADDRHFINTLLGEGEVSVRIQQADDSESEIQEAIFCGLWRVRRRRGEKLLEDKLEAGCAPLALWQAATQNLLPTDSLLPPPIDGLMNGLPLAHELLAHVRNPDAQPHSINLTQLPISEADRLFLSRLCGPGNIQIRTIGYGESYINATGLRHVWHLRCTDTLKGPLLESYEICPIPEVVLAAPEDLVDSAQRLSEVCQWLAEAAPT" "c" "Han et al., 2011" -"EG10474-MONOMER" "MTIWEISEKADYIAQRHRRLQDQWHIYCNSLVQGITLSKARLHHAMSCAPDKELCFVLFEHFRIYVTLADGFNSHTIEYYVETKDGEDKQRIAQAQLSIDGMIDGKVNIRDREQVLEHYLEKIAGVYDSLYTAIENNVPVNLSQLVKGQSPAA" "c" "Han et al., 2011" -"EG10481-MONOMER" "MSEKVVFSQLSRKFIDENDATPAEAQQVVYYSLAIGHHLGVIDCLEAALTCPWDEYLAWIATLEAGSEARRKMEGVPKYGEIVIDINHVPMLANAFDKARAAQTSQQQEWSTMLLSMLHDIHQENAIYLMVRRLRD" "c" "Han et al., 2011" -"EG10483-MONOMER" "MHEITLCQRALELIEQQAAKHGAKRVTGVWLKIGAFSCVETSSLAFCFDLVCRGSVAEGCKLHLEEQEAECWCETCQQYVTLLTQRVRRCPQCHGDMLQIVADDGLQIRRIEIDQE" "i" "EcoCyc dump" -"EG10484-MONOMER" "MCTTCGCGEGNLYIEGDEHNPHSAFRSAPFAPAARPKMKITGIKAPEFTPSQTEEGDLHYGHGEAGTHAPGMSQRRMLEVEIDVLDKNNRLAERNRARFAARKQLVLNLVSSPGSGKTTLLTETLMRLKDSVPCAVIEGDQQTVNDAARIRATGTPAIQVNTGKGCHLDAQMIADAAPRLPLDDNGILFIENVGNLVCPASFDLGEKHKVAVLSVTEGEDKPLKYPHMFAAASLMLLNKVDLLPYLNFDVEKCIACAREVNPEIEIILISATSGEGMDQWLNWLETQRCA" "c" "Han et al., 2011" -"EG10485-MONOMER" "MCIGVPGQIRTIDGNQAKVDVCGIQRDVDLTLVGSCDENGQPRVGQWVLVHVGFAMSVINEAEARDTLDALQNMFDVEPDVGALLYGEEK" "c" "Han et al., 2011" -"EG10486-MONOMER" "MRFVDEYRAPEQVMQLIEHLRERASHLSYTAERPLRIMEVCGGHTHAIFKFGLDQLLPENVEFIHGPGCPVCVLPMGRIDTCVEIASHPEVIFCTFGDAMRVPGKQGSLLQAKARGADVRIVYSPMDALKLAQENPTRKVVFFGLGFETTMPTTAITLQQAKARDVQNFYFFCQHITLIPTLRSLLEQPDNGIDAFLAPGHVSMVIGTDAYNFIASDFHRPLVVAGFEPLDLLQGVVMLVQQKIAAHSKVENQYRRVVPDAGNLLAQQAIADVFCVNGDSEWRGLGVIESSGVHLTPDYQRFDAEAHFRPAPQQVCDDPRARCGEVLTGKCKPHQCPLFGNTCNPQTAFGALMVSSEGACAAWYQYRQQESEA" "c" "Han et al., 2011" -"EG10487-MONOMER" "MQQLINSLFMEAFANPWLAEQEDQARLDLAQLVAEGDRLAFSTDSYVIDPLFFPGGNIGKLAICGTANDVAVSGAIPRYLSCGFILEEGLPMETLKAVVTSMAETARAAGIAIVTGDTKVVQRGAVDKLFINTAGMGAIPANIHWGAQTLTAGDVLLVSGTLGDHGATILNLREQLGLDGELVSDCAVLTPLIQTLRDIPGVKALRDATRGGVNAVVHEFAAACGCGIELSEAALPVKPAVRGVCELLGLDALNFANEGKLVIAVERNAAEQVLAALHSHPLGKDAALIGEVVERKGVRLAGLYGVKRTLDLPHAEPLPRIC" "c" "Han et al., 2011" -"EG10488-MONOMER" "MFSALRHRTAALALGVCFILPVHASSPKPGDFANTQARHIATFFPGRMTGTPAEMLSADYIRQQFQQMGYRSDIRTFNSRYIYTARDNRKSWHNVTGSTVIAAHEGKAPQQIIIMAHLDTYAPLSDADADANLGGLTLQGMDDNAAGLGVMLELAERLKNTPTEYGIRFVATSGEEEGKLGAENLLKRMSDTEKKNTLLVINLDNLIVGDKLYFNSGVKTPEAVRKLTRDRALAIARSHGIAATTNPGLNKNYPKGTGCCNDAEIFDKAGIAVLSVEATNWNLGNKDGYQQRAKTPAFPAGNSWHDVRLDNHQHIDKALPGRIERRCRDVMRIMLPLVKELAKAS" "e" "Han et al., 2011" -"EG10490-MONOMER" "MKRPDYRTLQALDAVIRERGFERAAQKLCITQSAVSQRIKQLENMFGQPLLVRTVPPRPTEQGQKLLALLRQVELLEEEWLGDEQTGSTPLLLSLAVNADSLATWLLPALAPVLADSPIRLNLQVEDETRTQERLRRGEVVGAVSIQHQALPSCLVDKLGALDYLFVSSKPFAEKYFPNGVTRSALLKAPVVAFDHLDDMHQAFLQQNFDLPPGSVPCHIVNSSEAFVQLARQGTTCCMIPHLQIEKELASGELIDLTPGLFQRRMLYWHRFAPESRMMRKVTDALLDYGHKVLRQD" "c" "Han et al., 2011" -"EG10504-MONOMER" "MAKEDNIEMQGTVLETLPNTMFRVELENGHVVTAHISGKMRKNYIRILTGDKVTVELTPYDLSKGRIVFRSR" "c" "Han et al., 2011" -"EG10505-MONOMER" "MTDVTIKTLAAERQTSVERLVQQFADAGIRKSADDSVSAQEKQTLIDHLNQKNSGPDKLTLQRKTRSTLNIPGTGGKSKSVQIEVRKKRTFVKRDPQEAERLAAEEQAQREAEEQARREAEESAKREAQQKAEREAAEQAKREAAEQAKREAAEKDKVSNQQDDMTKNAQAEKARREQEAAELKRKAEEEARRKLEEEARRVAEEARRMAEENKWTDNAEPTEDSSDYHVTTSQHARQAEDESDREVEGGRGRGRNAKAARPKKGNKHAESKADREEARAAVRGGKGGKRKGSSLQQGFQKPAQAVNRDVVIGETITVGELANKMAVKGSQVIKAMMKLGAMATINQVIDQETAQLVAEEMGHKVILRRENELEEAVMSDRDTGAAAEPRAPVVTIMGHVDHGKTSLLDYIRSTKVASGEAGGITQHIGAYHVETENGMITFLDTPGHAAFTSMRARGAQATDIVVLVVAADDGVMPQTIEAIQHAKAAQVPVVVAVNKIDKPEADPDRVKNELSQYGILPEEWGGESQFVHVSAKAGTGIDELLDAILLQAEVLELKAVRKGMASGAVIESFLDKGRGPVATVLVREGTLHKGDIVLCGFEYGRVRAMRNELGQEVLEAGPSIPVEILGLSGVPAAGDEVTVVRDEKKAREVALYRQGKFREVKLARQQKSKLENMFANMTEGEVHEVNIVLKADVQGSVEAISDSLLKLSTDEVKVKIIGSGVGGITETDATLAAASNAILVGFNVRADASARKVIEAESLDLRYYSVIYNLIDEVKAAMSGMLSPELKQQIIGLAEVRDVFKSPKFGAIAGCMVTEGVVKRHNPIRVLRDNVVIYEGELESLRRFKDDVNEVRNGMECGIGVKNYNDVRTGDVIEVFEIIEIQRTIA" "c" "Han et al., 2011" -"EG10506-MONOMER" "IKGGKRVQTARPNRINGEIRAQEVRLTGLEGEQLGIVSLREALEKAEEAGVDLVEISPNAEPPVCRIMDYGKFLYEKSKSSKEQKKKQKVIQVKEIKFRPGTDEGDYQVKLRSLIRFLEEGDKAKITLRFRGREMAHQQIGMEVLNRVKDDLQELAVVESFPTKIEGRQMIMVLAPKKKQ" "c" "Han et al., 2011" -"EG10507-MONOMER" "MSLFRRNEIWYASYSLPGGKRIKESLGTKDKRQAQELHDKRKAELWRVEKLGDLPDVTFEEACLRWLEEKADKKSLDSDKSRIEFWLEHFEGIRLKDISEAKIYSAVSRMHNRKTKEIWKQKVQAAIRKGKELPVYEPKPVSTQTKAKHLAMIKAILRAAERDWKWLEKAPVIKIPAVRNKRVRWLEKEEAKRLIDECPEPLKSVVKFALATGLRKSNIINLEWQQIDMQRRVAWVNPEESKSNRAIGVALNDTACKVLRDQIGKHHKWVFVHTKAAKRADGTSTPAVRKMRIDSKTSWLSACRRAGIEDFRFHDLRHTWASWLIQSGVPLSVLQEMGGWESIEMVRRYAHLAPNHLTEHARKIDDIFGDNVPNMSHSEIMEDIKKA" "c" "Han et al., 2011" -"EG10513-MONOMER" "MAAQGFLLIATFLLVLMVLARPLGSGLARLINDIPLPGTTGVERVLFRALGVSDREMNWKQYLCAILGLNMLGLAVLFFMLLGQHYLPLNPQQLPGLSWDLALNTAVSFVTNTNWQSYSGETTLSYFSQMAGLTVQNFLSAASGIAVIFALIRAFTRQSMSTLGNAWVDLLRITLWVLVPVALLIALFFIQQGALQNFLPYQAVNTVEGAQQLLPMGPVASQEAIKMLGTNGGGFFNANSSHPFENPTALTNFVQMLAIFLIPTALCFAFGEVMGDRRQGRMLLWAMSVIFVICVGVVMWAEVQGNPHLLALGTDSSINMEGKESRFGVLVSSLFAVVTTAASCGAVIAMHDSFTALGGMVPMWLMQIGEVVFGGVGSGLYGMMLFVLLAVFIAGLMIGRTPEYLGKKIDVREMKLTALAILVTPTLVLMGAALAMMTDAGRSAMLNPGPHGFSEVLYAVSSAANNNGSAFAGLSANSPFWNCLLAFCMFVGRFGVIIPVMAIAGSLVSKKSQAASSGTLPTHGPLFVGLLIGTVLLVGALTFIPALALGPVAEYLS" "i" "Han et al., 2011" -"EG10515-MONOMER" "MSGLRPALSTFIFLLLITGGVYPLLTTVLGQWWFPWQANGSLIREGDTVRGSALIGQNFTGNGYFHGRPSATAEMPYNPQASGGSNLAVSNPELDKLIAARVAALRAANPDASASVPVELVTASASGLDNNITPQAAAWQIPRVAKARNLSVEQLTQLIAKYSQQPLVKYIGQPVVNIVELNLALDKLDE" "i" "Han et al., 2011" -"EG10523-MONOMER" "MNNRVHQGHLARKRFGQNFLNDQFVIDSIVSAINPQKGQAMVEIGPGLAALTEPVGERLDQLTVIELDRDLAARLQTHPFLGPKLTIYQQDAMTFNFGELAEKMGQPLRVFGNLPYNISTPLMFHLFSYTDAIADMHFMLQKEVVNRLVAGPNSKAYGRLSVMAQYYCNVIPVLEVPPSAFTPPPKVDSAVVRLVPHATMPHPVKDVRVLSRITTEAFNQRRKTIRNSLGNLFSVEVLTGMGIDPAMRAENISVAQYCQMANYLAENAPLQES" "c" "Han et al., 2011" -"EG10528-MONOMER" "MMITLRKLPLAVAVAAGVMSAQAMAVDFHGYARSGIGWTGSGGEQQCFQTTGAQSKYRLGNECETYAELKLGQEVWKEGDKSFYFDTNVAYSVAQQNDWEATDPAFREANVQGKNLIEWLPGSTIWAGKRFYQRHDVHMIDFYYWDISGPGAGLENIDVGFGKLSLAATRSSEAGGSSSFASNNIYDYTNETANDVFDVRLAQMEINPGGTLELGVDYGRANLRDNYRLVDGASKDGWLFTAEHTQSVLKGFNKFVVQYATDSMTSQGKGLSQGSGVAFDNEKFAYNINNNGHMLRILDHGAISMGDNWDMMYVGMYQDINWDNDNGTKWWTVGIRPMYKWTPIMSTVMEIGYDNVESQRTGDKNNQYKITLAQQWQAGDSIWSRPAIRVFATYAKWDEKWGYDYTGNADNNANFGKAVPADFNGGSFGRGDSDEWTFGAQMEIWW" "e" "EcoCyc dump" -"EG10529-MONOMER" "MKNIRNFSIIAHIDHGKSTLSDRIIQICGGLSDREMEAQVLDSMDLERERGITIKAQSVTLDYKASDGETYQLNFIDTPGHVDFSYEVSRSLAACEGALLVVDAGQGVEAQTLANCYTAMEMDLEVVPVLNKIDLPAADPERVAEEIEDIVGIDATDAVRCSAKTGVGVQDVLERLVRDIPPPEGDPEGPLQALIIDSWFDNYLGVVSLIRIKNGTLRKGDKVKVMSTGQTYNADRLGIFTPKQVDRTELKCGEVGWLVCAIKDIHGAPVGDTLTLARNPAEKALPGFKKVKPQVYAGLFPVSSDDYEAFRDALGKLSLNDASLFYEPESSSALGFGFRCGFLGLLHMEIIQERLEREYDLDLITTAPTVVYEVETTSREVIYVDSPSKLPAVNNIYELREPIAECHMLLPQAYLGNVITLCVEKRGVQTNMVYHGNQVALTYEIPMAEVVLDFFDRLKSTSRGYASLDYNFKRFQASDMVRVDVLINGERVDALALITHRDNSQNRGRELVEKMKDLIPRQQFDIAIQAAIGTHIIARSTVKQLRKNVLAKCYGGDISRKKKLLQKQKEGKKRMKQIGNVELPQEAFLAILHVGKDNK" "c" "Han et al., 2011" -"EG10530-MONOMER" "MANMFALILVIATLVTGILWCVDKFFFAPKRRERQAAAQAAAGDSLDKATLKKVAPKPGWLETGASVFPVLAIVLIVRSFIYEPFQIPSGSMMPTLLIGDFILVEKFAYGIKDPIYQKTLIETGHPKRGDIVVFKYPEDPKLDYIKRAVGLPGDKVTYDPVSKELTIQPGCSSGQACENALPVTYSNVEPSDFVQTFSRRNGGEATSGFFEVPKNETKENGIRLSERKETLGDVTHRILTVPIAQDQVGMYYQQPGQQLATWIVPPGQYFMMGDNRDNSADSRYWGFVPEANLVGRATAIWMSFDKQEGEWPTGLRLSRIGGIH" "i" "Han et al., 2011" -"EG10534-MONOMER" "MESIEQQLTELRTTLRHHEYLYHVMDAPEIPDAEYDRLMRELRELETKHPELITPDSPTQRVGAAPLAAFSQIRHEVPMLSLDNVFDEESFLAFNKRVQDRLKNNEKVTWCCELKLDGLAVSILYENGVLVSAATRGDGTTGEDITSNVRTIRAIPLKLHGENIPARLEVRGEVFLPQAGFEKINEDARRTGGKVFANPRNAAAGSLRQLDPRITAKRPLTFFCYGVGVLEGGELPDTHLGRLLQFKKWGLPVSDRVTLCESAEEVLAFYHKVEEDRPTLGFDIDGVVIKVNSLAQQEQLGFVARAPRWAVAFKFPAQEQMTFVRDVEFQVGRTGAITPVARLEPVHVAGVLVSNATLHNADEIERLGLRIGDKVVIRRAGDVIPQVVNVVLSERPEDTREVVFPTHCPVCGSDVERVEGEAVARCTGGLICGAQRKESLKHFVSRRAMDVDGMGDKIIDQLVEKEYVHTPADLFKLTAGKLTGLERMGPKSAQNVVNALEKAKETTFARFLYALGIREVGEATAAGLAAYFGTLEALEAASIEELQKVPDVGIVVASHVHNFFAEESNRNVISELLAEGVHWPAPIVINAEEIDSPFAGKTVVLTGSLSQMSRDDAKARLVELGAKVAGSVSKKTDLVIAGEAAGSKLAKAQELGIEVIDEAEMLRLLGS" "c" "Han et al., 2011" -"EG10535-MONOMER" "MRSPICHLFSAINSSPFKIAPEKEQDLKTIVDDKKIIISVVSEPGFNIRVRKNESNNSHEIVLTVASLEYIWAFSNFFWVFTQEYSKSQKNNDEHFDLTGKNRLKKSDELLKWARKNLQTTGCESWPKKCPKPEAYLQGSEDSQVASEIFLCAIAWILHHEISHVVLQHPLVTTAFSTQEEREADSHATKWILGNLYESAPELKKRALGIATAVLCIQSLEVENYFCLQNTHPAAYERIYSNISCYPVGNEELIEALCTVMLQYLFHGKNINVNLDGESFSSILGDLLCDISRLTSN" "i" "Unambiguous EcoCyc data" -"EG10542-MONOMER" "MNPERSERIEIPVLPLRDVVVYPHMVIPLFVGREKSIRCLEAAMDHDKKIMLVAQKEASTDEPGVNDLFTVGTVASILQMLKLPDGTVKVLVEGLQRARISALSDNGEHFSAKAEYLESPTIDEREQEVLVRTAISQFEGYIKLNKKIPPEVLTSLNSIDDPARLADTIAAHMPLKLADKQSVLEMSDVNERLEYLMAMMESEIDLLQVEKRIRNRVKKQMEKSQREYYLNEQMKAIQKELGEMDDAPDENEALKRKIDAAKMPKEAKEKAEAELQKLKMMSPMSAEATVVRGYIDWMVQVPWNARSKVKKDLRQAQEILDTDHYGLERVKDRILEYLAVQSRVNKIKGPILCLVGPPGVGKTSLGQSIAKATGRKYVRMALGGVRDEAEIRGHRRTYIGSMPGKLIQKMAKVGVKNPLFLLDEIDKMSSDMRGDPASALLEVLDPEQNVAFSDHYLEVDYDLSDVMFVATSNSMNIPAPLLDRMEVIRLSGYTEDEKLNIAKRHLLPKQIERNALKKGELTVDDSAIIGIIRYYTREAGVRGLEREISKLCRKAVKQLLLDKSLKHIEINGDNLHDYLGVQRFDYGRADNENRVGQVTGLAWTEVGGDLLTIETACVPGKGKLTYTGSLGEVMQESIQAALTVVRARAEKLGINPDFYEKRDIHVHVPEGATPKDGPSAGIAMCTALVSCLTGNPVRADVAMTGEITLRGQVLPIGGLKEKLLAAHRGGIKTVLIPFENKRDLEEIPDNVIADLDIHPVKRIEEVLTLALQNEPSGMQVVTAK" "c" "Han et al., 2011" -"EG10544-MONOMER" "MKATKLVLGAVILGSTLLAGCSSNAKIDQLSSDVQTLNAKVDQLSNDVNAMRSDVQAAKDDAARANQRLDNMATKYRK" "o" "Lopez-Campistrous et al., 2005" -"EG10548-MONOMER" "MSQSICSTGLRWLWLVVVVLIIDLGSKYLILQNFALGDTVPLFPSLNLHYARNYGAAFSFLADSGGWQRWFFAGIAIGISVILAVMMYRSKATQKLNNIAYALIIGGALGNLFDRLWHGFVVDMIDFYVGDWHFATFNLADTAICVGAALIVLEGFLPSRAKKQ" "i" "Han et al., 2011" -"EG10559-MONOMER" "MKMNKSLIVLCLSAGLLASAPGISLADVNYVPQNTSDAPAIPSAALQQLTWTPVDQSKTQTTQLATGGQQLNVPGISGPVAAYSVPANIGELTLTLTSEVNKQTSVFAPNVLILDQNMTPSAFFPSSYFTYQEPGVMSADRLEGVMRLTPALGQQKLYVLVFTTEKDLQQTTQLLDPAKAYAKGVGNSIPDIPDPVARHTTDGLLKLKVKTNSSSSVLVGPLFGSSAPAPVTVGNTAAPAVAAPAPAPVKKSEPMLNDTESYFNTAIKNAVAKGDVDKALKLLDEAERLGSTSARSTFISSVKGKG" "p" "Han et al., 2011" -"EG10564-MONOMER" "MFDFSKVVDRHGTWCTQWDYVADRFGTADLLPFTISDMDFATAPCIIEALNQRLMHGVFGYSRWKNDEFLAAIAHWFSTQHYTAIDSQTVVYGPSVIYMVSELIRQWSETGEGVVIHTPAYDAFYKAIEGNQRTVMPVALEKQADGWFCDMGKLEAVLAKPECKIMLLCSPQNPTGKVWTCDELEIMADLCERHGVRVISDEIHMDMVWGEQPHIPWSNVARGDWALLTSGSKSFNIPALTGAYGIIENSSSRDAYLSALKGRDGLSSPSVLALTAHIAAYQQGAPWLDALRIYLKDNLTYIADKMNAAFPELNWQIPQSTYLAWLDLRPLNIDDNALQKALIEQEKVAIMPGYTYGEEGRGFVRLNAGCPRSKLEKGVAGLINAIRAVR" "c" "Han et al., 2011" -"EG10570-MONOMER" "MAISIKTPEDIEKMRVAGRLAAEVLEMIEPYVKPGVSTGELDRICNDYIVNEQHAVSACLGYHGYPKSVCISINEVVCHGIPDDAKLLKDGDIVNIDVTVIKDGFHGDTSKMFIVGKPTIMGERLCRITQESLYLALRMVKPGINLREIGAAIQKFVEAEGFSVVREYCGHGIGRGFHEEPQVLHYDSRETNVVLKPGMTFTIEPMVNAGKKEIRTMKDGWTVKTKDRSLSAQYEHTIVVTDNGCEILTLRKDDTIPAIISHDE" "c" "Han et al., 2011" -"EG10571-MONOMER" "MIHSSVKRWGNSPAVRIPATLMQALNLNIDDEVKIDLVDGKLIIEPVRKEPVFTLAELVNDITPENLHENIDWGEPKDKEVW" "c" "Han et al., 2011" -"EG10572-MONOMER" "MNQIDRLLTIMQRLRDPENGCPWDKEQTFATIAPYTLEETYEVLDAIAREDFDDLRGELGDLLFQVVFYAQMAQEEGRFDFNDICAAISDKLERRHPHVFADSSAENSSEVLARWEQIKTEERAQKAQHSALDDIPRSLPALMRAQKIQKRCANVGFDWTTLGPVVDKVYEEIDEVMYEARQAVVDQAKLEEEMGDLLFATVNLARHLGTKAEIALQKANEKFERRFREVERIVAARGLEMTGVDLETMEEVWQQVKRQEIDL" "c" "Han et al., 2011" -"EG10573-MONOMER" "MHVFDNNGIELKAECSIGEEDGVYGLILESWGPGDRNKDYNIALDYIIERLVDSGVSQVVVYLASSSVRKHMHSLDERKIHPGEYFTLIGNSPRDIRLKMCGYQAYFSRTGRKEIPSGNRTKRILINVPGIYSDSFWASIIRGELSELSQPTDDESLLNMRVSKLIKKTLSQPEGSRKPVEVERLQKVYVRDPMVKAWILQQSKGICENCGKNAPFYLNDGNPYLEVHHVIPLSSGGADTTDNCVALCPNCHRELHYSKNAKELIEMLYVNINRLQK" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"EG10574-MONOMER" "MESIQPWIEKFIKQAQQQRSQSTKDYPTSYRNLRVKLSFGYGNFTSIPWFAFLGEGQEASNGIYPVILYYKDFDELVLAYGISDTNEPHAQWQFSSDIPKTIAEYFQATSGVYPKKYGQSYYACSQKVSQGIDYTRFASMLDNIINDYKLIFNSGKSVIPPMSKTESYCLEDALNDLFIPETTIETILKRLTIKKNIILQGPPGVGKTFVARRLAYLLTGEKAPQRVNMVQFHQSYSYEDFIQGYRPNGVGFRRKDGIFYNFCQQAKEQPEKKYIFIIDEINRANLSKVFGEVMMLMEHDKRGENWSVPLTYSENDEERFYVPENVYIIGLMNTADRSLAVVDYALRRRFSFIDIEPGFDTPQFRNFLLNKKAEPSFVESLCQKMNELNQEISKEATILGKGFRIGHSYFCCGLEDGTSPDTQWLNEIVMTDIAPLLEEYFFDDPYKQQKWTNKLLGDS" "c" "Han et al., 2011" -"EG10575-MONOMER" "VEQPVIPVRNIYYMLTYAWGYLQEIKQANLEAIPGNNLLDILGYVLNKGVLQLSRRGLELDYNPNTEIIPGIKGRIEFAKTIRGFHLNHGKTVSTFDMLNEDTLANRIIKSTLAILIKHEKLNSTIRDEARSLYRKLPGISTLHLTPQHFSYLNGGKNTRYYKFVISVCKFIVNNSIPGQNKGHYRFYDFERNEKEMSLLYQKFLYEFCRRELTSANTTRSYLKWDASSISDQSLNLLPRMETDITIRSSEKILIVDAKYYKSIFSRRMGTEKFHSQNLYQLMNYLWSLKPENGENIGGLLIYPHVDTAVKHRYKINGFDIGLCTVNLGQEWPCIHQELLDIFDEYLK" "c" "Han et al., 2011" -"EG10580-MONOMER" "MNKTAIALLALLASSASLAATPWQKITQPVPGSAQSIGSFSNGCIVGADTLPIQSEHYQVMRTDQRRYFGHPDLVMFIQRLSSQVSNLGMGTVLIGDMGMPAGGRFNGGHASHQTGLDVDIFLQLPKTRWTSAQLLRPQALDLVSRDGKHVVSTLWKPEIFSLIKLAAQDKDVTRIFVNPAIKQQLCLDAGTDRDWLRKVRPWFQHRAHMHVRLRCPADSLECEDQPLPPSGDGCGAELQSWFEPPKPGTTKPEKKTPPPLPPSCQALLDEHVI" "p" "Han et al., 2011" -"EG10595-MONOMER" "MSDISKASLPKAIFLMGPTASGKTALAIELRKILPVELISVDSALIYKGMDIGTAKPNAEELLAAPHRLLDIRDPSQAYSAADFRRDALAEMADITAAGRIPLLVGGTMLYFKALLEGLSPLPSADPEVRARIEQQAAEQGWESLHRQLQEVDPVAAARIHPNDPQRLSRALEVFFISGKTLTELTQTSGDALPYQVHQFAIAPASRELLHQRIEQRFHQMLASGFEAEVRALFARGDLHTDLPSIRCVGYRQMWSYLEGEISYDEMVYRGVCATRQLAKRQITWLRGWEGVHWLDSEKPEQARDEVLQVVGAIAG" "c" "Han et al., 2011" -"EG10596-MONOMER" "MSNTPIELKGSSFTLSVVHLHEAEPKVIHQALEDKIAQAPAFLKHAPVVLNVSALEDPVNWSAMHKAVSATGLRVIGVSGCKDAQLKAEIEKMGLPILTEGKEKAPRPAPTPQAPAQNTTPVTKTRLIDTPVRSGQRIYAPQCDLIVTSHVSAGAELIADGNIHVYGMMRGRALAGASGDRETQIFCTNLMAELVSIAGEYWLSDQIPAEFYGKAARLQLVENALTVQPLN" "c" "Han et al., 2011" -"EG10597-MONOMER" "MARIIVVTSGKGGVGKTTSSAAIATGLAQKGKKTVVIDFDIGLRNLDLIMGCERRVVYDFVNVIQGDATLNQALIKDKRTENLYILPASQTRDKDALTREGVAKVLDDLKAMDFEFIVCDSPAGIETGALMALYFADEAIITTNPEVSSVRDSDRILGILASKSRRAENGEEPIKEHLLLTRYNPGRVSRGDMLSMEDVLEILRIKLVGVIPEDQSVLRASNQGEPVILDINADAGKAYADTVERLLGEERPFRFIEEEKKGFLKRLFGG" "i" "EcoCyc dump" -"EG10598-MONOMER" "MALLDFFLSRKKNTANIAKERLQIIVAERRRSDAEPHYLPQLRKDILEVICKYVQIDPEMVTVQLEQKDGDISILELNVTLPEAEELK" "c" "Han et al., 2011" -"EG10599-MONOMER" "MAAKDVKFGNDARVKMLRGVNVLADAVKVTLGPKGRNVVLDKSFGAPTITKDGVSVAREIELEDKFENMGAQMVKEVASKANDAAGDGTTTATVLAQAIITEGLKAVAAGMNPMDLKRGIDKAVTAAVEELKALSVPCSDSKAIAQVGTISANSDETVGKLIAEAMDKVGKEGVITVEDGTGLQDELDVVEGMQFDRGYLSPYFINKPETGAVELESPFILLADKKISNIREMLPVLEAVAKAGKPLLIIAEDVEGEALATLVVNTMRGIVKVAAVKAPGFGDRRKAMLQDIATLTGGTVISEEIGMELEKATLEDLGQAKRVVINKDTTTIIDGVGEEAAIQGRVAQIRQQIEEATSDYDREKLQERVAKLAGGVAVIKVGAATEVEMKEKKARVEDALHATRAAVEEGVVAGGGVALIRVASKLADLRGQNEDQNVGIKVALRAMEAPLRQIVLNCGEEPSVVANTVKGGDGNYGYNAATEEYGNMIDMGILDPTKVTRSALQYAASVAGLMITTECMVTDLPKNDAADLGAAGGMGGMGGMGGMM" "c" "Lopez-Campistrous et al., 2005" -"EG10600-MONOMER" "MNIRPLHDRVIVKRKEVETKSAGGIVLTGSAAAKSTRGEVLAVGNGRILENGEVKPLDVKVGDIVIFNDGYGVKSEKIDNEEVLIMSESDILAIVEA" "c" "Lopez-Campistrous et al., 2005" -"EG10603-MONOMER" "MDSSFTPIEQMLKFRASRHEDFPYQEILLTRLCMHMQSKLLENRNKMLKAQGINETLFMALITLESQENHSIQPSELSCALGSSRTNATRIADELEKRGWIERRESDNDRRCLHLQLTEKGHEFLREVLPPQHNCLHQLWSALSTTEKDQLEQITRKLLSRLDQMEQDGVVLEAMS" "c" "Han et al., 2011" -"EG10605-MONOMER" "MAGNDREPIGRKGKPTRPVKQKVSRRRYEDDDDYDDYDDYEDEEPMPRKGKGKGKGRKPRGKRGWLWLLLKLAIVFAVLIAIYGVYLDQKIRSRIDGKVWQLPAAVYGRMVNLEPDMTISKNEMVKLLEATQYRQVSKMTRPGEFTVQANSIEMIRRPFDFPDSKEGQVRARLTFDGDHLATIVNMENNRQFGFFRLDPRLITMISSPNGEQRLFVPRSGFPDLLVDTLLATEDRHFYEHDGISLYSIGRAVLANLTAGRTVQGASTLTQQLVKNLFLSSERSYWRKANEAYMALIMDARYSKDRILELYMNEVYLGQSGDNEIRGFPLASLYYFGRPVEELSLDQQALLVGMVKGASIYNPWRNPKLALERRNLVLRLLQQQQIIDQELYDMLSARPLGVQPRGGVISPQPAFMQLVRQELQAKLGDKVKDLSGVKIFTTFDSVAQDAAEKAAVEGIPALKKQRKLSDLETAIVVVDRFSGEVRAMVGGSEPQFAGYNRAMQARRSIGSLAKPATYLTALSQPKIYRLNTWIADAPIALRQPNGQVWSPQNDDRRYSESGRVMLVDALTRSMNVPTVNLGMALGLPAVTETWIKLGVPKDQLHPVPAMLLGALNLTPIEVAQAFQTIASGGNRAPLSALRSVIAEDGKVLYQSFPQAERAVPAQAAYLTLWTMQQVVQRGTGRQLGAKYPNLHLAGKTGTTNNNVDTWFAGIDGSTVTITWVGRDNNQPTKLYGASGAMSIYQRYLANQTPTPLNLVPPEDIADMGVDYDGNFVCSGGMRILPVWTSDPQSLCQQSEMQQQPSGNPFDQSSQPQQQPQQQPAQQEQKDSDGVAGWIKDMFGSN" "i" "Han et al., 2011" -"EG10606-MONOMER" "MKLQNSFRDYTAESALFVRRALVAFLGILLLTGVLIANLYNLQIVRFTDYQTRSNENRIKLVPIAPSRGIIYDRNGIPLALNRTIYQIEMMPEKVDNVQQTLDALRSVVDLTDDDIAAFRKERARSHRFTSIPVKTNLTEVQVARFAVNQYRFPGVEVKGYKRRYYPYGSALTHVIGYVSKINDKDVERLNNDGKLANYAATHDIGKLGIERYYEDVLHGQTGYEEVEVNNRGRVIRQLKEVPPQAGHDIYLTLDLKLQQYIETLLAGSRAAVVVTDPRTGGVLALVSTPSYDPNLFVDGISSKDYSALLNDPNTPLVNRATQGVYPPASTVKPYVAVSALSAGVITRNTTLFDPGWWQLPGSEKRYRDWKKWGHGRLNVTRSLEESADTFFYQVAYDMGIDRLSEWMGKFGYGHYTGIDLAEERSGNMPTREWKQKRFKKPWYQGDTIPVGIGQGYWTATPIQMSKALMILINDGIVKVPHLLMSTAEDGKQVPWVQPHEPPVGDIHSGYWELAKDGMYGVANRPNGTAHKYFASAPYKIAAKSGTAQVFGLKANETYNAHKIAERLRDHKLMTAFAPYNNPQVAVAMILENGGAGPAVGTLMRQILDHIMLGDNNTDLPAENPAVAAAEDH" "i" "Han et al., 2011" -"EG10607-MONOMER" "MTDNPNKKTFWDKVHLDPTMLLILLALLVYSALVIWSASGQDIGMMERKIGQIAMGLVIMVVMAQIPPRVYEGWAPYLYIICIILLVAVDAFGAISKGAQRWLDLGIVRFQPSEIAKIAVPLMVARFINRDVCPPSLKNTGIALVLIFMPTLLVAAQPDLGTSILVALSGLFVLFLSGLSWRLIGVAVVLVAAFIPILWFFLMHDYQRQRVMMLLDPESDPLGAGYHIIQSKIAIGSGGLRGKGWLHGTQSQLEFLPERHTDFIFAVLAEELGLVGILILLALYILLIMRGLWIAARAQTTFGRVMAGGLMLILFVYVFVNIGMVSGILPVVGVPLPLVSYGGSALIVLMAGFGIVMSIHTHRKMLSKSV" "i" "Han et al., 2011" -"EG10608-MONOMER" "MLKKFRGMFSNDLSIDLGTANTLIYVKGQGIVLNEPSVVAIRQDRAGSPKSVAAVGHDAKQMLGRTPGNIAAIRPMKDGVIADFFVTEKMLQHFIKQVHSNSFMRPSPRVLVCVPVGATQVERRAIRESAQGAGAREVFLIEEPMAAAIGAGLPVSEATGSMVVDIGGGTTEVAVISLNGVVYSSSVRIGGDRFDEAIINYVRRNYGSLIGEATAERIKHEIGSAYPGDEVREIEVRGRNLAEGVPRGFTLNSNEILEALQEPLTGIVSAVMVALEQCPPELASDISERGMVLTGGGALLRNLDRLLMEETGIPVVVAEDPLTCVARGGGKALEMIDMHGGDLFSEE" "c" "Han et al., 2011" -"EG10609-MONOMER" "MKPIFSRGPSLQIRLILAVLVALGIIIADSRLGTFSQIRTYMDTAVSPFYFVSNAPRELLDGVSQTLASRDQLELENRALRQELLLKNSELLMLGQYKQENARLRELLGSPLRQDEQKMVTQVISTVNDPYSDQVVIDKGSVNGVYEGQPVISDKGVVGQVVAVAKLTSRVLLICDATHALPIQVLRNDIRVIAAGNGCTDDLQLEHLPANTDIRVGDVLVTSGLGGRFPEGYPVAVVSSVKLDTQRAYTVIQARPTAGLQRLRYLLLLWGADRNGANPMTPEEVHRVANERLMQMMPQVLPSPDAMGPKLPEPATGIAQPTPQQPATGNAATAPAAPTQPAANRSPQRATPPQSGAQPPARAPGGQ" "i" "Han et al., 2011" -"EG10610-MONOMER" "VASYRSQGRWVIWLSFLIALLLQIMPWPDNLIVFRPNWVLLILLYWILALPHRVNVGTGFVMGAILDLISGSTLGVRVLAMSIIAYLVALKYQLFRNLALWQQALVVMLLSLVVDIIVFWAEFLVINVSFRPEVFWSSVVNGVLWPWIFLLMRKVRQQFAVQ" "i" "Han et al., 2011" -"EG10611-MONOMER" "MNEQSQAKSPEALRAMVAGTLANFQHPTLKHNLTTLKALHHVAWMDDTLHVELVMPFVWHSAFEELKEQCSAELLRITGAKAIDWKLSHNIATLKRVKNQPGINGVKNIIAVSSGKGGVGKSSTAVNLALALAAEGAKVGILDADIYGPSIPTMLGAENQRPTSPDGTHMAPIMSHGLATNSIGYLVTDDNAMVWRGPMASKALMQMLQETLWPDLDYLVLDMPPGTGDIQLTLAQNIPVTGAVVVTTPQDIALIDAKKGIVMFEKVEVPVLGIVENMSVHICSNCGHHEPIFGTGGAEKLAEKYHTQLLGQMPLHISLREDLDKGTPTVISRPESEFTAIYRQLADRVAAQLYWQGEVIPGEISFRAV" "c" "Lopez-Campistrous et al., 2005" -"EG10612-MONOMER" "MTVPTYDKFIEPVLRYLATKPEGAAARDVHEAAADALGLDDSQRAKVITSGQLVYKNRAGWAHDRLKRAGLSQSLSRGKWCLTPAGFDWVASHPQPMTEQETNHLAFAFVNVKLKSRPDAVDLDPKADSPDHEELAKSSPDDRLDQALKELRDAVADEVLENLLQVSPSRFEVIVLDVLHRLGYGGHRDDLQRVGGTGDGGIDGVISLDKLGLEKVYVQAKRWQNTVGRPELQAFYGALAGQKAKRGVFITTSGFTSQARDFAQSVEGMVLVDGERLVHLMIENEVGVSSRLLKVPKLDMDYFE" "c" "Han et al., 2011" -"EG10613-MONOMER" "MHNDKDLSTWQTFRRLWPTIAPFKAGLIVAGVALILNAASDTFMLSLLKPLLDDGFGKTDRSVLVWMPLVVIGLMILRGITSYVSSYCISWVSGKVVMTMRRRLFGHMMGMPVSFFDKQSTGTLLSRITYDSEQVASSSSGALITVVREGASIIGLFIMMFYYSWQLSIILIVLAPIVSIAIRVVSKRFRNISKNMQNTMGQVTTSAEQMLKGHKEVLIFGGQEVETKRFDKVSNRMRLQGMKMVSASSISDPIIQLIASLALAFVLYAASFPSVMDSLTAGTITVVFSSMIALMRPLKSLTNVNAQFQRGMAACQTLFTILDSEQEKDEGKRVIERATGDVEFRNVTFTYPGRDVPALRNINLKIPAGKTVALVGRSGSGKSTIASLITRFYDIDEGEILMDGHDLREYTLASLRNQVALVSQNVHLFNDTVANNIAYARTEQYSREQIEEAARMAYAMDFINKMDNGLDTVIGENGVLLSGGQRQRIAIARALLRDSPILILDEATSALDTESERAIQAALDELQKNRTSLVIAHRLSTIEKADEIVVVEDGVIVERGTHNDLLEHRGVYAQLHKMQFGQ" "i" "Han et al., 2011" -"EG10618-MONOMER" "MIERGKFRSLTLINWNGFFARTFDLDELVTTLSGGNGAGKSTTMAAFVTALIPDLTLLHFRNTTEAGATSGSRDKGLHGKLKAGVCYSMLDTINSRHQRVVVGVRLQQVAGRDRKVDIKPFAIQGLPMSVQPTQLVTETLNERQARVLPLNELKDKLEAMEGVQFKQFNSITDYHSLMFDLGIIARRLRSASDRSKFYRLIEASLYGGISSAITRSLRDYLLPENSGVRKAFQDMEAALRENRMTLEAIRVTQSDRDLFKHLISEATNYVAADYMRHANERRVHLDKALEFRRELHTSRQQLAAEQYKHVDMARELAEHNGAEGDLEADYQAASDHLNLVQTALRQQEKIERYEADLDELQIRLEEQNEVVAEAIERQQENEARAEAAELEVDELKSQLADYQQALDVQQTRAIQYNQAIAALNRAKELCHLPDLTADCAAEWLETFQAKELEATEKMLSLEQKMSMAQTAHSQFEQAYQLVVAINGPLARNEAWDVARELLREGVDQRHLAEQVQPLRMRLSELEQRLREQQEAERLLADFCKRQGKNFDIDELEALHQELEARIASLSDSVSNAREERMALRQEQEQLQSRIQSLMQRAPVWLAAQNSLNQLSEQCGEEFTSSQDVTEYLQQLLEREREAIVERDEVGARKNAVDEEIERLSQPGGSEDQRLNALAERFGGVLLSEIYDDVSLEDAPYFSALYGPSRHAIVVPDLSQVTEHLEGLTDCPEDLYLIEGDPQSFDDSVFSVDELEKAVVVKIADRQWRYSRFPEVPLFGRAARESRIESLHAEREVLSERFATLSFDVQKTQRLHQAFSRFIGSHLAVAFESDPEAEIRQLNSRRVELERALSNHENDNQQQRIQFEQAKEGVTALNRILPRLNLLADDSLADRVDEIRERLDEAQEAARFVQQFGNQLAKLEPIVSVLQSDPEQFEQLKEDYAYSQQMQRDARQQAFALTEVVQRRAHFSYSDSAEMLSGNSDLNEKLRERLEQAEAERTRAREALRGHAAQLSQYNQVLASLKSSYDTKKELLNDLQRELQDIGVRADSGAEERARIRRDELHAQLSNNRSRRNQLEKALTFCEAEMDNLTRKLRKLERDYFEMREQVVTAKAGWCAVMRMVKDNGVERRLHRRELAYLSADDLRSMSDKALGALRLAVADNEHLRDVLRMSEDPKRPERKIQFFVAVYQHLRERIRQDIIRTDDPVEAIEQMEIELSRLTEELTSREQKLAISSRSVANIIRKTIQREQNRIRMLNQGLQNVSFGQVNSVRLNVNVRETHAMLLDVLSEQHEQHQDLFNSNRLTFSEALAKLYQRLNPQIDMGQRTPQTIGEELLDYRNYLEMEVEVNRGSDGWLRAESGALSTGEAIGTGMSILVMVVQSWEDESRRLRGKDISPCRLLFLDEAARLDARSIATLFELCERLQMQLIIAAPENISPEKGTTYKLVRKVFQNTEHVHVVGLRGFAPQLPETLPGTDEAPSQAS" "c" "Han et al., 2011" -"EG10624-MONOMER" "MSQPRPLLSPPETEEQLLAQAQQLSGYTLGELAALVGLVTPENLKRDKGWIGVLLEIWLGASAGSKPEQDFAALGVELKTIPVDSLGRPLETTFVCVAPLTGNSGVTWETSHVRHKLKRVLWIPVEGERSIPLAQRRVGSPLLWSPNEEEDRQLREDWEELMDMIVLGQVERITARHGEYLQIRPKAANAKALTEAIGARGERILTLPRGFYLKKNFTSALLARHFLIQ" "c" "Han et al., 2011" -"EG10625-MONOMER" "MSAIENFDAHTPMMQQYLRLKAQHPEILLFYRMGDFYELFYDDAKRASQLLDISLTKRGASAGEPIPMAGIPYHAVENYLAKLVNQGESVAICEQIGDPATSKGPVERKVVRIVTPGTISDEALLQERQDNLLAAIWQDSKGFGYATLDISSGRFRLSEPADRETMAAELQRTNPAELLYAEDFAEMSLIEGRRGLRRRPLWEFEIDTARQQLNLQFGTRDLVGFGVENAPRGLCAAGCLLQYAKDTQRTTLPHIRSITMEREQDSIIMDAATRRNLEITQNLAGGAENTLASVLDCTVTPMGSRMLKRWLHMPVRDTRVLLERQQTIGALQDFTAGLQPVLRQVGDLERILARLALRTARPRDLARMRHAFQQLPELRAQLETVDSAPVQALREKMGEFAELRDLLERAIIDTPPVLVRDGGVIASGYNEELDEWRALADGATDYLERLEVRERERTGLDTLKVGFNAVHGYYIQISRGQSHLAPINYMRRQTLKNAERYIIPELKEYEDKVLTSKGKALALEKQLYEELFDLLLPHLEALQQSASALAELDVLVNLAERAYTLNYTCPTFIDKPGIRITEGRHPVVEQVLNEPFIANPLNLSPQRRMLIITGPNMGGKSTYMRQTALIALMAYIGSYVPAQKVEIGPIDRIFTRVGAADDLASGRSTFMVEMTETANILHNATEYSLVLMDEIGRGTSTYDGLSLAWACAENLANKIKALTLFATHYFELTQLPEKMEGVANVHLDALEHGDTIAFMHSVQDGAASKSYGLAVAALAGVPKEVIKRARQKLRELESISPNAAATQVDGTQMSLLSVPEETSPAVEALENLDPDSLTPRQALEWIYRLKSLV" "c" "Han et al., 2011" -"EG10626-MONOMER" "MKKLQIAVGIIRNENNEIFITRRAADAHMANKLEFPGGKIEMGETPEQAVVRELQEEVGITPQHFSLFEKLEYEFPDRHITLWFWLVERWEGEPWGKEGQPGEWMSLVGLNADDFPPANEPVIAKLKRL" "c" "Han et al., 2011" -"EG10627-MONOMER" "MQASQFSAQVLDWYDKYGRKTLPWQIDKTPYKVWLSEVMLQQTQVATVIPYFERFMARFPTVTDLANAPLDEVLHLWTGLGYYARARNLHKAAQQVATLHGGKFPETFEEVAALPGVGRSTAGAILSLSLGKHFPILDGNVKRVLARCYAVSGWPGKKEVENKLWSLSEQVTPAVGVERFNQAMMDLGAMICTRSKPKCSLCPLQNGCIAAANNSWALYPGKKPKQTLPERTGYFLLLQHEDEVLLAQRPPSGLWGGLYCFPQFADEESLRQWLAQRQIAADNLTQLTAFRHTFSHFHLDIVPMWLPVSSFTGCMDEGNALWYNLAQPPSVGLAAPVERLLQQLRTGAPV" "c" "Han et al., 2011" -"EG10634-MONOMER" "MTIKNVICDIDGVLMHDNVAVPGAAEFLHGIMDKGLPLVLLTNYPSQTGQDLANRFATAGVDVPDSVFYTSAMATADFLRRQEGKKAYVVGEGALIHELYKAGFTITDVNPDFVIVGETRSYNWDMMHKAAYFVANGARFIATNPDTHGRGFYPACGALCAGIEKISGRKPFYVGKPSPWIIRAALNKMQAHSEETVIVGDNLRTDILAGFQAGLETILVLSGVSSLDDIDSMPFRPSWIYPSVAEIDVI" "c" "Han et al., 2011" -"EG10651-MONOMER" "MKYIGAHVSAAGGLANAAIRAAEIDATAFALFTKNQRQWRAAPLTTQTIDEFKAACEKYHYTSAQILPHDSYLINLGHPVTEALEKSRDAFIDEMQRCEQLGLSLLNFHPGSHLMQISEEDCLARIAESINIALDKTQGVTAVIENTAGQGSNLGFKFEHLAAIIDGVEDKSRVGVCIDTCHAFAAGYDLRTPAECEKTFADFARTVGFKYLRGMHLNDAKSTFGSRVDRHHSLGEGNIGHDAFRWIMQDDRFDGIPLILETINPDIWAEEIAWLKAQQTEKAVA" "c" "Han et al., 2011" -"EG10656-MONOMER" "MESNFIDWHPADIIAGLRKKGTSMAAESRRNGLSSSTLANALSRPWPKGEMIIAKALGTDPWVIWPSRYHDPQTHEFIDRTQLMRSYTKPKK" "c" "Unambiguous EcoCyc data" -"EG10657-MONOMER" "MKLTTHHLRTGAALLLAGILLAGCDQSSSDAKHIKVGVINGAEQDVAEVAKKVAKEKYGLDVELVGFSGSLLPNDATNHGELDANVFQHRPFLEQDNQAHGYKLVAVGNTFVFPMAGYSKKIKTVAQIKEGATVAIPNDPTNLGRALLLLQKEKLITLKEGKGLLPTALDITDNPRHLQIMELEGAQLPRVLDDPKVDVAIISTTYIQQTGLSPVHDSVFIEDKNSPYVNILVAREDNKNAENVKEFLQSYQSPEVAKAAETIFNGGAVPGW" "p" "Han et al., 2011" -"EG10658-MONOMER" "MAYSVQKSRLAKVAGVSLVLLLAACSSDSRYKRQVSGDEAYLEAAPLAELHAPAGMILPVTSGDYAIPVTNGSGAVGKALDIRPPAQPLALVSGARTQFTGDTASLLVENGRGNTLWPQVVSVLQAKNYTITQRDDAGQTLTTDWVQWNRLDEDEQYRGRYQISVKPQGYQQAVTVKLLNLEQAGKPVADAASMQRYSTEMMNVISAGLDKSATDAANAAQNRASTTMDVQSAADDTGLPMLVVRGPFNVVWQRLPAALEKVGMKVTDSTRSQGNMAVTYKPLSDSDWQELGASDPGLASGDYKLQVGDLDNRSSLQFIDPKGHTLTQSQNDALVAVFQAAFSK" "e" "EcoCyc dump" -"EG10659-MONOMER" "MKKLTVAISAVAASVLMAMSAQAAEIYNKDSNKLDLYGKVNAKHYFSSNDADDGDTTYARLGFKGETQINDQLTGFGQWEYEFKGNRAESQGSSKDKTRLAFAGLKFGDYGSIDYGRNYGVAYDIGAWTDVLPEFGGDTWTQTDVFMTQRATGVATYRNNDFFGLVDGLNFAAQYQGKNDRSDFDNYTEGNGDGFGFSATYEYEGFGIGATYAKSDRTDTQVNAGKVLPEVFASGKNAEVWAAGLKYDANNIYLATTYSETQNMTVFADHFVANKAQNFEAVAQYQFDFGLRPSVAYLQSKGKDLGVWGDQDLVKYVDVGATYYFNKNMSTFVDYKINLLDKNDFTKEGANKSLI" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"EG10662-MONOMER" "MNKAKRLEILTRLRENNPHPTTELNFSSPFELLIAVLLSAQATDVSVNKATAKLYPVANTPAAMLELGVEGVKTYIKTIGLYNSKAENIIKTCRILLEQHNGEVPEDRAALEALPGVGRKTANVVLNTAFGWPTIAVDTHIFRVCNRTQFAPGKNVEQVEEKLLKVVPAEFKVDCHHWLILHGRYTCIARKPRCGSCIIEDLCEYKEKVDI" "i" "Han et al., 2011" -"EG10665-MONOMER" "MNKEILAVVEAVSNEKALPREKIFEALESALATATKKKYEQEIDVRVQIDRKSGDFDTFRRWLVVDEVTQPTKEITLEAARYEDESLNLGDYVEDQIESVTFDRITTQTAKQVIVQKVREAERAMVVDQFREHEGEIITGVVKKVNRDNISLDLGNNAEAVILREDMLPRENFRPGDRVRGVLYSVRPEARGAQLFVTRSKPEMLIELFRIEVPEIGEEVIEIKAAARDPGSRAKIAVKTNDKRIDPVGACVGMRGARVQAVSTELGGERIDIVLWDDNPAQFVINAMAPADVASIVVDEDKHTMDIAVEAGNLAQAIGRNGQNVRLASQLSGWELNVMTVDDLQAKHQAEAHAAIDTFTKYLDIDEDFATVLVEEGFSTLEELAYVPMKELLEIEGLDEPTVEALRERAKNALATIAQAQEESLGDNKPADDLLNLEGVDRDLAFKLAARGVCTLEDLAEQGIDDLADIEGLTDEKAGALIMAARNICWFGDEA" "c" "Han et al., 2011" -"EG10666-MONOMER" "VKPAARRRARECAVQALYSWQLSQNDIADVEYQFLAEQDVKDVDVLYFRELLAGVATNTAYLDGLMKPYLSRLLEELGQVEKAVLRIALYELSKRSDVPYKVAINEAIELAKSFGAEDSHKFVNGVLDKAAPVIRPNKK" "c" "Han et al., 2011" -"EG10667-MONOMER" "MSEAPKKRWYVVQAFSGFEGRVATSLREHIKLHNMEDLFGEVMVPTEEVVEIRGGQRRKSERKFFPGYVLVQMVMNDASWHLVRSVPRVMGFIGGTSDRPAPISDKEVDAIMNRLQQVGDKPRPKTLFEPGEMVRVNDGPFADFNGVVEEVDYEKSRLKVSVSIFGRATPVELDFSQVEKA" "c" "Lopez-Campistrous et al., 2005" -"EG10668-MONOMER" "MLRLLEEKIATPLGPLWVICDEQFRLRAVEWEEYSERMVQLLDIHYRKEGYERISATNPGGLSDKLREYFAGNLSIIDTLPTATGGTPFQREVWKTLRTIPCGQVMHYGQLAEQLGRPGAARAVGAANGSNPISIVVPCHRVIGRNGTMTGYAGGVQRKEWLLRHEGYLLL" "c" "Han et al., 2011" -"EG10669-MONOMER" "MKKTAIAIAVALAGFATVAQAAPKDNTWYTGAKLGWSQYHDTGFINNNGPTHENQLGAGAFGGYQVNPYVGFEMGYDWLGRMPYKGSVENGAYKAQGVQLTAKLGYPITDDLDIYTRLGGMVWRADTKSNVYGKNHDTGVSPVFAGGVEYAITPEIATRLEYQWTNNIGDAHTIGTRPDNGMLSLGVSYRFGQGEAAPVVAPAPAPAPEVQTKHFTLKSDVLFNFNKATLKPEGQAALDQLYSQLSNLDPKDGSVVVLGYTDRIGSDAYNQGLSERRAQSVVDYLISKGIPADKISARGMGESNPVTGNTCDNVKQRAALIDCLAPDRRVEIEVKGIKDVVTQPQA" "i" "Lopez-Campistrous et al., 2005" -"EG10670-MONOMER" "MKVKVLSLLVPALLVAGAANAAEVYNKDGNKLDLYGKVDGLHYFSDNKDVDGDQTYMRLGFKGETQVTDQLTGYGQWEYQIQGNSAENENNSWTRVAFAGLKFQDVGSFDYGRNYGVVYDVTSWTDVLPEFGGDTYGSDNFMQQRGNGFATYRNTDFFGLVDGLNFAVQYQGKNGNPSGEGFTSGVTNNGRDALRQNGDGVGGSITYDYEGFGIGGAISSSKRTDAQNTAAYIGNGDRAETYTGGLKYDANNIYLAAQYTQTYNATRVGSLGWANKAQNFEAVAQYQFDFGLRPSLAYLQSKGKNLGRGYDDEDILKYVDVGATYYFNKNMSTYVDYKINLLDDNQFTRDAGINTDNIVALGLVYQF" "e" "EcoCyc dump" -"EG10671-MONOMER" "MMKRNILAVIVPALLVAGTANAAEIYNKDGNKVDLYGKAVGLHYFSKGNGENSYGGNGDMTYARLGFKGETQINSDLTGYGQWEYNFQGNNSEGADAQTGNKTRLAFAGLKYADVGSFDYGRNYGVVYDALGYTDMLPEFGGDTAYSDDFFVGRVGGVATYRNSNFFGLVDGLNFAVQYLGKNERDTARRSNGDGVGGSISYEYEGFGIVGAYGAADRTNLQEAQPLGNGKKAEQWATGLKYDANNIYLAANYGETRNATPITNKFTNTSGFANKTQDVLLVAQYQFDFGLRPSIAYTKSKAKDVEGIGDVDLVNYFEVGATYYFNKNMSTYVDYIINQIDSDNKLGVGSDDTVAVGIVYQF" "e" "EcoCyc dump" -"EG10673-MONOMER" "MRAKLLGIVLTTPIAISSFASTETLSFTPDNINADISLGTLSGKTKERVYLAEEGGRKVSQLDWKFNNAAIIKGAINWDLMPQISIGAAGWTTLGSRGGNMVDQDWMDSSNPGTWTDESRHPDTQLNYANEFDLNIKGWLLNEPNYRLGLMAGYQESRYSFTARGGSYIYSSEEGFRDDIGSFPNGERAIGYKQRFKMPYIGLTGSYRYEDFELGGTFKYSGWVESSDNDEHYDPGKRITYRSKVKDQNYYSVAVNAGYYVTPNAKVYVEGAWNRVTNKKGNTSLYDHNNNTSDYSKNGAGIENYNFITTAGLKYTF" "o" "Lopez-Campistrous et al., 2005" -"EG10679-MONOMER" "MFVTSKKMTAAVLAITLAMSLSACSNWSKRDRNTAIGAGAGALGGAVLTDGSTLGTLGGAAVGGVIGHQVGK" "o" "Han et al., 2011" -"EG10680-MONOMER" "MTIHKKGQAHWEGDIKRGKGTVSTESGVLNQQPYGFNTRFEGEKGTNPEELIGAAHAACFSMALSLMLGEAGFTPTSIDTTADVSLDKVDAGFAITKIALKSEVAVPGIDASTFDGIIQKAKAGCPVSQVLKAEITLDYQLKS" "c" "Han et al., 2011" -"EG10684-MONOMER" "MQLNKVLKGLMIALPVMAIAACSSNKNASNDGSEGMLGAGTGMDANGGNGNMSSEEQARLQMQQLQQNNIVYFDLDKYDIRSDFAQMLDAHANFLRSNPSYKVTVEGHADERGTPEYNISLGERRANAVKMYLQGKGVSADQISIVSYGKEKPAVLGHDEAAYSKNRRAVLVY" "e" "EcoCyc dump" -"EG10686-MONOMER" "MSDMAERLALHEFTENAYLNYSMYVIMDRALPFIGDGLKPVQRRIVYAMSELGLNASAKFKKSARTVGDVLGKYHPHGDSACYEAMVLMAQPFSYRYPLVDGQGNWGAPDDPKSFAAMRYTESRLSKYSELLLSELGQGTADWVPNFDGTLQEPKMLPARLPNILLNGTTGIAVGMATDIPPHNLREVAQAAIALIDQPKTTLDQLLDIVQGPDYPTEAEIITSRAEIRKIYENGRGSVRMRAVWKKEDGAVVISALPHQVSGARVLEQIAAQMRNKKLPMVDDLRDESDHENPTRLVIVPRSNRVDMDQVMNHLFATTDLEKSYRINLNMIGLDGRPAVKNLLEILSEWLVFRRDTVRRRLNYRLEKVLKRLHILEGLLVAFLNIDEVIEIIRNEDEPKPALMSRFGLTETQAEAILELKLRHLAKLEEMKIRGEQSELEKERDQLQGILASERKMNNLLKKELQADAQAYGDDRRSPLQEREEAKAMSEHDMLPSEPVTIVLSQMGWVRSAKGHDIDAPGLNYKAGDSFKAAVKGKSNQPVVFVDSTGRSYAIDPITLPSARGQGEPLTGKLTLPPGATVDHMLMESDDQKLLMASDAGYGFVCTFNDLVARNRAGKALITLPENAHVMPPVVIEDASDMLLAITQAGRMLMFPVSDLPQLSKGKGNKIINIPSAEAARGEDGLAQLYVLPPQSTLTIHVGKRKIKLRPEELQKVTGERGRRGTLMRGLQRIDRVEIDSPRRASSGDSEE" "i" "EcoCyc dump" -"EG10687-MONOMER" "MTQTYNADAIEVLTGLEPVRRRPGMYTDTTRPNHLGQEVIDNSVDEALAGHAKRVDVILHADQSLEVIDDGRGMPVDIHPEEGVPAVELILCRLHAGGKFSNKNYQFSGGLHGVGISVVNALSKRVEVNVRRDGQVYNIAFENGEKVQDLQVVGTCGKRNTGTSVHFWPDETFFDSPRFSVSRLTHVLKAKAVLCPGVEITFKDEINNTEQRWCYQDGLNDYLAEAVNGLPTLPEKPFIGNFAGDTEAVDWALLWLPEGGELLTESYVNLIPTMQGGTHVNGLRQGLLDAMREFCEYRNILPRGVKLSAEDIWDRCAYVLSVKMQDPQFAGQTKERLSSRQCAAFVSGVVKDAFILWLNQNVQAAELLAEMAISSAQRRMRAAKKVVRKKLTSGPALPGKLADCTAQDLNRTELFLVEGDSAGGSAKQARDREYQAIMPLKGKILNTWEVSSDEVLASQEVHDISVAIGIDPDSDDLSQLRYGKICILADADSDGLHIATLLCALFVKHFRALVKHGHVYVALPPLYRIDLGKEVYYALTEEEKEGVLEQLKRKKGKPNVQRFKGLGEMNPMQLRETTLDPNTRRLVQLTIDDEDDQRTDAMMDMLLAKKRSEDRRNWLQEKGDMAEIEV" "c" "Han et al., 2011" -"EG10689-MONOMER" "MVSRRVQALLDQLRAQGIQDEQVLNALAAVPREKFVDEAFEQKAWDNIALPIGQGQTISQPYMVARMTELLELTPQSRVLEIGTGSGYQTAILAHLVQHVCSVERIKGLQWQARRRLKNLDLHNVSTRHGDGWQGWQARAPFDAIIVTAAPPEIPTALMTQLDEGGILVLPVGEEHQYLKRVRRRGGEFIIDTVEAVRFVPLVKGELA" "c" "Han et al., 2011" -"EG10690-MONOMER" "IFTRVANFCRKVLSREESEAEQAVARPQVTVIPREQHAISRKDISENALKVMYRLNKAGYEAWLVGGGVRDLLLGKKPKDFDVTTNATPEQVRKLFRNCRLVGRRFRLAHVMFGPEIIEVATFRGHHEGNVSDRTTSQRGQNGMLLRDNIFGSIEEDAQRRDFTINSLYYSVADFTVRDYVGGMKDLKDGVIRLIGNPETRYREDPVRMLRAVRFAAKLGMRISPETAEPIPRLATLLNDIPPARLFEESLKLLQAGYGYETYKLLCEYHLFQPLFPTITRYFTENGDSPMERIIEQVLKNTDTRIHNDMRVNPAFLFAAMFWYPLLETAQKIAQESGLTYHDAFALAMNDVLDEACRSLAIPKRLTTLTRDIWQLQLRMSRRQGKRAWKLLEHPKFRAAYDLLALRAEVERNAELQRLVKWWGEFQVSAPPDQKGMLNELDEEPSPRRRTRRPRKRAPRREGTA" "c" "Han et al., 2011" -"EG10694-MONOMER" "MEFSVKSGSPEKQRSACIVVGVFEPRRLSPIAEQLDKISDGYISALLRRGELEGKPGQTLLLHHVPNVLSERILLIGCGKERELDERQYKQVIQKTINTLNDTGSMEAVCFLTELHVKGRNNYWKVRQAVETAKETLYSFDQLKTNKSEPRRPLRKMVFNVPTRRELTSGERAIQHGLAIAAGIKAAKDLGNMPPNICNAAYLASQARQLADSYSKNVITRVIGEQQMKELGMHSYLAVGQGSQNESLMSVIEYKGNASEDARPIVLVGKGLTFDSGGISIKPSEGMDEMKYDMCGAAAVYGVMRMVAELQLPINVIGVLAGCENMPGGRAYRPGDVLTTMSGQTVEVLNTDAEGRLVLCDVLTYVERFEPEAVIDVATLTGACVIALGHHITGLMANHNPLAHELIAASEQSGDRAWRLPLGDEYQEQLESNFADMANIGGRPGGAITAGCFLSRFTRKYNWAHLDIAGTAWRSGKAKGATGRPVALLAQFLLNRAGFNGEE" "c" "Han et al., 2011" -"EG10695-MONOMER" "VSELSQLSPQPLWDIFAKICSIPHPSYHEEQLAEYIVGWAKEKGFHVERDQVGNILIRKPATAGMENRKPVVLQAHLDMVPQKNNDTVHDFTKDPIQPYIDGEWVKARGTTLGADNGIGMASALAVLADENVVHGPLEVLLTMTEEAGMDGAFGLQGNWLQADILINTDSEEEGEIYMGCAGGIDFTSNLHLDREAVPAGFETFKLTLKGLKGGHSGGEIHVGLGNANKLLVRFLAGHAEELDLRLIDFNGGTLRNAIPREAFATIAVAADKVDVLKSLVNTYQEILKNELAEKEKNLALLLDSVANDKAALIAKSRDTFIRLLNATPNGVIRNSDVAKGVVETSLNVGVVTMTDNNVEIHCLIRSLIDSGKDYVVSMLDSLGKLAGAKTEAKGAYPGWQPDANSPVMHLVRETYQRLFNKTPNIQIIHAGLECGLFKKPYPEMDMVSIGPTITGPHSPDEQVHIESVGHYWTLLTELLKEIPAK" "c" "Lopez-Campistrous et al., 2005" -"EG10696-MONOMER" "MTQQPQAKYRHDYRAPDYQITDIDLTFDLDAQKTVVTAVSQAVRHGASDAPLRLNGEDLKLVSVHINDEPWTAWKEEEGALVISNLPERFTLKIINEISPAANTALEGLYQSGDALCTQCEAEGFRHITYYLDRPDVLARFTTKIIADKIKYPFLLSNGNRVAQGELENGRHWVQWQDPFPKPCYLFALVAGDFDVLRDTFTTRSGREVALELYVDRGNLDRAPWAMTSLKNSMKWDEERFGLEYDLDIYMIVAVDFFNMGAMENKGLNIFNSKYVLARTDTATDKDYLDIERVIGHEYFHNWTGNRVTCRDWFQLSLKEGLTVFRDQEFSSDLGSRAVNRINNVRTMRGLQFAEDASPMAHPIRPDMVIEMNNFYTLTVYEKGAEVIRMIHTLLGEENFQKGMQLYFERHDGSAATCDDFVQAMEDASNVDLSHFRRWYSQSGTPIVTVKDDYNPETEQYTLTISQRTPATPDQAEKQPLHIPFAIELYDNEGKVIPLQKGGHPVNSVLNVTQAEQTFVFDNVYFQPVPALLCEFSAPVKLEYKWSDQQLTFLMRHARNDFSRWDAAQSLLATYIKLNVARHQQGQPLSLPVHVADAFRAVLLDEKIDPALAAEILTLPSVNEMAELFDIIDPIAIAEVREALTRTLATELADELLAIYNANYQSEYRVEHEDIAKRTLRNACLRFLAFGETHLADVLVSKQFHEANNMTDALAALSAAVAAQLPCRDALMQEYDDKWHQNGLVMDKWFILQATSPAANVLETVRGLLQHRSFTMSNPNRIRSLIGAFAGSNPAAFHAEDGSGYLFLVEMLTDLNSRNPQVASRLIEPLIRLKRYDAKRQEKMRAALEQLKGLENLSGDLYEKITKALA" "i" "Han et al., 2011" -"EG10697-MONOMER" "MSEISRQEFQRRRQALVEQMQPGSAALIFAAPEVTRSADSEYPYRQNSDFWYFTGFNEPEAVLVLIKSDDTHNHSVLFNRVRDLTAEIWFGRRLGQDAAPEKLGVDRALAFSEINQQLYQLLNGLDVVYHAQGEYAYADVIVNSALEKLRKGSRQNLTAPATMIDWRPVVHEMRLFKSPEEIAVLRRAGEITAMAHTRAMEKCRPGMFEYHLEGEIHHEFNRHGARYPSYNTIVGSGENGCILHYTENECEMRDGDLVLIDAGCEYKGYAGDITRTFPVNGKFTQAQREIYDIVLESLETSLRLYRPGTSILEVTGEVVRIMVSGLVKLGILKGDVDELIAQNAHRPFFMHGLSHWLGLDVHDVGVYGQDRSRILEPGMVLTVEPGLYIAPDAEVPEQYRGIGIRIEDDIVITETGNENLTASVVKKPEEIEALMVAARKQ" "c" "Han et al., 2011" -"EG10698-MONOMER" "MESLASLYKNHIATLQERTRDALARFKLDALLIHSGELFNVFLDDHPYPFKVNPQFKAWVPVTQVPNCWLLVDGVNKPKLWFYLPVDYWHNVEPLPTSFWTEDVEVIALPKADGIGSLLPAARGNIGYIGPVPERALQLGIEASNINPKGVIDYLHYYRSFKTEYELACMREAQKMAVNGHRAAEEAFRSGMSEFDINIAYLTATGHRDTDVPYSNIVALNEHAAVLHYTKLDHQAPEEMRSFLLDAGAEYNGYAADLTRTWSAKSDNDYAQLVKDVNDEQLALIATMKAGVSYVDYHIQFHQRIAKLLRKHQIITDMSEEAMVENDLTGPFMPHGIGHPLGLQVHDVAGFMQDDSGTHLAAPAKYPYLRCTRILQPGMVLTIEPGIYFIESLLAPWREGQFSKHFNWQKIEALKPFGGIRIEDNVVIHENNVENMTRDLKLA" "c" "Lopez-Campistrous et al., 2005" -"EG10711-MONOMER" "MSLPHCPKCNSEYTYEDNGMYICPECAYEWNDAEPAQESDELIVKDANGNLLADGDSVTIIKDLKVKGSSSMLKIGTKVKNIRLVEGDHNIDCKIDGFGPMKLKSEFVKKN" "c" "Han et al., 2011" -"EG10712-MONOMER" "MPLSPYLSFAGNCSDAIAYYQRTLGAELLYKISFGEMPKSAQDSAENCPSGMQFPDTAIAHANVRIAGSDIMMSDAMPSGKASYSGFTLVLDSQQVEEGKRWFDNLAANGKIEMAWQETFWAHGFGKVTDKFGVPWMINVVKQQPTQ" "c" "Han et al., 2011" -"EG10715-MONOMER" "MHLSTHPTSYPTRYQEIAAKLEQELRQHYRCGDYLPAEQQLAARFEVNRHTLRRAIDQLVEKGWVQRRQGVGVLVLMRPFDYPLNAQARFSQNLLDQGSHPTSEKLLSVLRPASGHVADALGITEGENVIHLRTLRRVNGVALCLIDHYFADLTLWPTLQRFDSGSLHDFLREQTGIALRRSQTRISARRAQAKECQRLEIPNMSPLLCVRTLNHRDGESSPAEYSVSLTRADMIEFTMEH" "c" "Han et al., 2011" -"EG10716-MONOMER" "MHADTATRQHWMSVLAHSQPAELAARLNALNITADYEVIRAAETGLVQIQARMGGTGERFFAGDATLTRAAVRLTDGTLGYSWVQGRDKQHAERCALIDALMQQSRHFQNLSETLIAPLDADRMARIAARQAEVNASRVDFFTMVRGDNA" "c" "Han et al., 2011" -"EG10717-MONOMER" "MTLETAFMLPVQDAQHSFRRLLKAMSEPGVIVALHQLKRGWQPLNIATTSVLLTLADNDTPVWLSTPLNNDIVNQSLRFHTNAPLVSQPEQATFAVTDEAISSEQLNALSTGTAVAPEAGATLILQVASLSGGRMLRLTGAGIAEERMIAPQLPECILHELTERPHPFPLGIDLILTCGERLLAIPRTTHVEVC" "c" "Han et al., 2011" -"EG10718-MONOMER" "MYVAVKGGEKAIDAAHALQESRRRGDTDLPELSVAQIEQQLNLAVDRVMTEGGIADRELAALALKQASGDNVEAIFLLRAYRTTLAKLAVSEPLDTTGMRLERRISAVYKDIPGGQLLGPTYDYTHRLLDFTLLANGEAPTLTTADSEQQPSPHVFSLLARQGLAKFEEDSGAQPDDITRTPPVYPCSRSSRLQQLMRGDEGYLLALAYSTQRGYGRNHPFAGEIRSGYIDVSIVPEELGFAVNVGELLMTECEMVNGFIDPPGEPPHFTRGYGLVFGMSERKAMAMALVDRALQAPEYGEHATGPAQDEEFVLAHADNVEAAGFVSHLKLPHYVDFQAELELLKRLQQEQNHG" "c" "Han et al., 2011" -"EG10719-MONOMER" "MANLSGYNFAYLDEQTKRMIRRAILKAVAIPGYQVPFGGREMPMPYGWGTGGIQLTASVIGESDVLKVIDQGADDTTNAVSIRNFFKRVTGVNTTERTDDATVIQTRHRIPETPLTEDQIIIFQVPIPEPLRFIEPRETETRTMHALEEYGVMQVKLYEDIARFGHIATTYAYPVKVNGRYVMDPSPIPKFDNPKMDMMPALQLFGAGREKRIYAVPPFTRVESLDFDDHPFTVQQWDEPCAICGSTHSYLDEVVLDDAGNRMFVCSDTDYCRQQSEAKNQ" "c" "Han et al., 2011" -"EG10722-MONOMER" "MIINNVKLVLENEVVSGSLEVQNGEIRAFAESQSRLPEAMDGEGGWLLPGLIELHTDNLDKFFTPRPKVDWPAHSAMSSHDALMVASGITTVLDAVAIGDVRDGGDRLENLEKMINAIEETQKRGVNRAEHRLHLRCELPHHTTLPLFEKLVQREPVTLVSLMDHSPGQRQFANREKYREYYQGKYSLTDAQMQQYEEEQLALAARWSQPNRESIAALCRARKIALASHDDATHAHVAESHQLGSVIAEFPTTFEAAEASRKHGMNVLMGAPNIVRGGSHSGNVAASELAQLGLLDILSSDYYPASLLDAAFRVADDQSNRFTLPQAVKLVTKNPAQALNLQDRGVIGEGKRADLVLAHRKDNHIHIDHVWRQGKRVF" "c" "Han et al., 2011" -"EG10723-MONOMER" "MMGKLIWLMGPSGSGKDSLLAELRLREQTQLLVAHRYITRDASAGSENHIALSEQEFFTRAGQNLLALSWHANGLYYGVGVEIDLWLHAGFDVLVNGSRAHLPQARARYQSALLPVCLQVSPEILRQRLENRGRENASEINARLARAARYTPQDCHTLNNDGSLRQSVDTLLTLIHQKEKHHACL" "c" "Han et al., 2011" -"EG10724-MONOMER" "MPACELRPATQYDTDAVYALICELKQAEFDHHAFRVGFNANLRDPNMRYHLALLDGEVVGMIGLHLQFHLHHVNWIGEIQELVVMPQARGLNVGSKLLAWAEEEARQAGAEMTELSTNVKRHDAHRFYLREGYEQSHFRFTKAL" "c" "Han et al., 2011" -"EG10725-MONOMER" "MSLTLTLTGTGGAQGVPAWGCECAACARARRSPQYRRQPCSGVVKFNDAITLIDAGLHDLADRWSPGSFQQFLLTHYHMDHVQGLFPLRWGVGDPIPVYGPPDEQGCDDLFKHPGLLDFSHTVEPFVVFDLQGLQVTPLPLNHSKLTFGYLLETAHSRVAWLSDTAGLPEKTLKFLRNNQPQVMVMDCSHPPRADAPRNHCDLNTVLALNQVIRSPRVILTHISHQFDAWLMENALPSGFEVGFDGMEIGVA" "c" "Han et al., 2011" -"EG10735-MONOMER" "MDSLNLNKHISGQFNAELESIRTQVMTMGGMVEQQLSDAITAMHNQDSDLAKRVIEGDKNVNMMEVAIDEACVRIIAKRQPTASDLRLVMVISKTIAELERIGDVADKICRTALEKFSQQHQPLLVSLESLGRHTIQMLHDVLDAFARMDIDEAVRIYREDKKVDQEYEGIVRQLMTYMMEDSRTIPSVLTALFCARSIERIGDRCQNICEFIFYYVKGQDFRHVGGDELDKLLAGKDSDK" "i" "EcoCyc dump" -"EG10736-MONOMER" "MTTHLVWFRQDLRLHDNLALAAACRNSSARVLALYIATPRQWATHNMSPRQAELINAQLNGLQIALAEKGIPLLFREVDDFVASVEIVKQVCAENSVTHLFYNYQYEVNERARDVEVERALRNVVCEGFDDSVILPPGAVMTGNHEMYKVFTPFKNAWLKRLREGMPECVAAPKVRSSGSIEPSPSITLNYPRQSFDTAHFPVEEKAAIAQLRQFCQNGAGEYEQQRDFPAVEGTSRLSASLATGGLSPRQCLHRLLAEQPQALDGGAGSVWLNELIWREFYRHLITYHPSLCKHRPFIAWTDRVQWQSNPAHLQAWQEGKTGYPIVDAAMRQLNSTGWMHNRLRMITASFLVKDLLIDWREGERYFMSQLIDGDLAANNGGWQWAASTGTDAAPYFRIFNPTTQGEKFDHEGEFIRQWLPELRDVPGKVVHEPWKWAQKAGVTLDYPQPIVEHKEARVQTLAAYEAARKGK" "c" "Han et al., 2011" -"EG10737-MONOMER" "MLIGYVRVSTNDQNTDLQRNALNCAGCELIFEDKISGTKSERPGLKKLLRTLSAGDTLVVWKLDRLGRSMRHLVVLVEELRERGINFRSLTDSIDTSTPMGRFFFHVMGALAEMERELIVERTKAGLETARAQGRIGGRRPKLTPEQWAQAGRLIAAGTPRQKVAIIYDVGVSTLYKRFPAGDK" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"EG10739-MONOMER" "MFQQQKDWETRENAFAAFTMGPLTDFWRQRDEAEFTGVDDIPVRFVRFRAQHHDRVVVICPGRIESYVKYAELAYDLFHLGFDVLIIDHRGQGRSGRLLADPHLGHVNRFNDYVDDLAAFWQQEVQPGPWRKRYILAHSMGGAISTLFLQRHPGVCDAIALTAPMFGIVIRMPSFMARQILNWAEAHPRFRDGYAIGTGRWRALPFAINVLTHSRQRYRRNLRFYADDPTIRVGGPTYHWVRESILAGEQVLAGAGDDATPTLLLQAEEERVVDNRMHDRFCELRTAAGHPVEGGRPLVIKGAYHEILFEKDAMRSVALHAIVDFFNRHNSPSGNRSTEV" "i" "Han et al., 2011" -"EG10741-MONOMER" "MALAMKVISQVEAQRKILEEAVSTALELASGKSDGAEVAVSKTTGISVSTRYGEVENVEFNSDGALGITVYHQNRKGSASSTDLSPQAIARTVQAALDIARYTSPDPCAGVADKELLAFDAPDLDLFHPAEVSPDEAIELAARAEQAALQADKRITNTEGGSFNSHYGVKVFGNSHGMLQGYCSTRHSLSSCVIAEENGDMERDYAYTIGRAMSDLQTPEWVGADCARRTLSRLSPRKLSTMKAPVIFANEVATGLFGHLVGAIAGGSVYRKSTFLLDSLGKQILPDWLTIEEHPHLLKGLASTPFDSEGVRTERRDIIKDGILTQWLLTSYSARKLGLKSTGHAGGIHNWRIAGQGLSFEQMLKEMGTGLVVTELMGQGVSAITGDYSRGAAGFWVENGEIQYPVSEITIAGNLKDMWRNIVTVGNDIETRSNIQCGSVLLPEMKIAGQ" "c" "Han et al., 2011" -"EG10743-MONOMER" "LLNPIVRKFQYGQHTVTLETGMMARQATAAVMVSMDDTAVFVTVVGQKKAKPGQDFFPLTVNYQERTYAAGRIPGSFFRREGRPSEGETLIARLIDRPIRPLFPEGFVNEVQVIATVVSVNPQVNPDIVAMIGASAALSLSGIPFNGPIGAARVGYINDQYVLNPTQDELKESKLDLVVAGTEAAVLMVESEAQLLSEDQMLGAVVFGHEQQQVVIQNINELVKEAGKPRWDWQPEPVNEALNARVAALAEARLSDAYRITDKQERYAQVDVIKSETIATLLAEDETLDENELGEILHAIEKNVVRSRVLAGEPRIDGREKDMIRGLDVRTGVLPRTHGSALFTRGETQALVTATLGTARDAQVLDELMGERTDTFLFHYNFPPYSVGETGMVGSPKRREIGHGRLAKRGVLAVMPDMDKFPYTVRVVSEITESNGSSSMASVCGASLALMDAGVPIKAAVAGIAMGLVKEGDNYVVLSDILGDEDHLGDMDFKVAGSRDGISALQMDIKIEGITKEIMQVALNQAKGARLHILGVMEQAINAPRGDISEFAPRIHTIKINPDKIKDVIGKGGSVIRALTEETGTTIEIEDDGTVKIAATDGEKAKHAIRRIEEITAEIEVGRVYTGKVTRIVDFGAFVAIGGGKEGLVHISQIADKRVEKVTDYLQMGQEVPVKVLEVDRQGRIRLSIKEATEQSQPAAAPEAPAAEQGE" "c" "Han et al., 2011" -"EG10746-MONOMER" "MVQIPQNPLILVDGSSYLYRAYHAFPPLTNSAGEPTGAMYGVLNMLRSLIMQYKPTHAAVVFDAKGKTFRDELFEHYKSHRPPMPDDLRAQIEPLHAMVKAMGLPLLAVSGVEADDVIGTLAREAEKAGRPVLISTGDKDMAQLVTPNITLINTMTNTILGPEEVVNKYGVPPELIIDFLALMGDSSDNIPGVPGVGEKTAQALLQGLGGLDTLYAEPEKIAGLSFRGAKTMAAKLEQNKEVAYLSYQLATIKTDVELELTCEQLEVQQPAAEELLGLFKKYEFKRWTADVEAGKWLQAKGAKPAAKPQETSVADEAPEVTATVISYDNYVTILDEETLKAWIAKLEKAPVFAFDTETDSLDNISANLVGLSFAIEPGVAAYIPVAHDYLDAPDQISRERALELLKPLLEDEKALKVGQNLKYDRGILANYGIELRGIAFDTMLESYILNSVAGRHDMDSLAERWLKHKTITFEEIAGKGKNQLTFNQIALEEAGRYAAEDADVTLQLHLKMWPDLQKHKGPLNVFENIEMPLVPVLSRIERNGVKIDPKVLHNHSEELTLRLAELEKKAHEIAGEEFNLSSTKQLQTILFEKQGIKPLKKTPGGAPSTSEEVLEELALDYPLPKVILEYRGLAKLKSTYTDKLPLMINPKTGRVHTSYHQAVTATGRLSSTDPNLQNIPVRNEEGRRIRQAFIAPEDYVIVSADYSQIELRIMAHLSRDKGLLTAFAEGKDIHRATAAEVFGLPLETVTSEQRRSAKAINFGLIYGMSAFGLARQLNIPRKEAQKYMDLYFERYPGVLEYMERTRAQAKEQGYVETLDGRRLYLPDIKSSNGARRAAAERAAINAPMQGTAADIIKRAMIAVDAWLQAEQPRVRMIMQVHDELVFEVHKDDVDAVAKQIHQLMENCTRLDVPLLVEVGSGENWDQAH" "c" "Han et al., 2011" -"EG10747-MONOMER" "VAQAGFILTRHWRDTPQGTEVSFWLATDNGPLQVTLAPQESVAFIPADQVPRAQHILQGEQGFRLTPLALKDFHRQPVYGLYCRAHRQLMNYEKRLREGGVTVYEADVRPPERYLMERFITSPVWVEGDMHNGTIVNARLKPHPDYRPPLKWVSIDIETTRHGELYCIGLEGCGQRIVYMLGPENGDASSLDFELEYVASRPQLLEKLNAWFANYDPDVIIGWNVVQFDLRMLQKHAERYRLPLRLGRDNSELEWREHGFKNGVFFAQAKGRLIIDGIEALKSAFWNFSSFSLETVAQELLGEGKSIDNPWDRMDEIDRRFAEDKPALATYNLKDCELVTQIFHKTEIMPFLLERATVNGLPVDRHGGSVAAFGHLYFPRMHRAGYVAPNLGEVPPHASPGGYVMDSRPGLYDSVLVLDYKSLYPSIIRTFLIDPVGLVEGMAQPDPEHSTEGFLDAWFSREKHCLPEIVTNIWHGRDEAKRQGNKPLSQALKIIMNAFYGVLGTTACRFFDPRLASSITMRGHQIMRQTKALIEAQGYDVIYGDTDSTFVWLKGAHSEEEAAKIGRALVQHVNAWWAETLQKQRLTSALELEYETHFCRFLMPTIRGADTGSKKRYAGLIQEGDKQRMVFKGLETVRTDWTPLAQQFQQELYLRIFRNEPYQEYVRETIDKLMAGELDARLVYRKRLRRPLSEYQRNVPPHVRAARLADEENQKRGRPLQYQNRGTIKYVWTTNGPEPLDYQRSPLDYEHYLTRQLQPVAEGILPFIEDNFATLMTGQLGLF" "c" "Han et al., 2011" -"EG10748-MONOMER" "VKFVKYFLILAVCCILLGAGSIYGLYRYIEPQLPDVATLKDVRLQIPMQIYSADGELIAQYGEKRRIPVTLDQIPPEMVKAFIATEDSRFYEHHGVDPVGIFRAASVALFSGHASQGASTITQQLARNFFLSPERTLMRKIKEVFLAIRIEQLLTKDEILELYLNKIYLGYRAYGVGAAAQVYFGKTVDQLTLNEMAVIAGLPKAPSTFNPLYSMDRAVARRNVVLSRMLDEGYITQQQFDQTRTEAINANYHAPEIAFSAPYLSEMVRQEMYNRYGESAYEDGYRIYTTITRKVQQAAQQAVRNNVLDYDMRHGYRGPANVLWKVGESAWDNNKITDTLKALPTYGPLLPAAVTSANPQQATAMLADGSTVALSMEGVRWARPYRSDTQQGPTPRKVTDVLQTGQQIWVRQVGDAWWLAQVPEVNSALVSINPQNGAVMALVGGFDFNQSKFNRATQALRQVGSNIKPFLYTAAMDKGLTLASMLNDVPISRWDASAGSDWQPKNSPPQYAGPIRLRQGLGQSKNVVMVRAMRAMGVDYAAEYLQRFGFPAQNIVHTESLALGSASFTPMQVARGYAVMANGGFLVDPWFISKIENDQGGVIFEAKPKVACPECDIPVIYGDTQKSNVLENNDVEDVAISREQQNVSVPMPQLEQANQALVAKTGAQEYAPHVINTPLAFLIKSALNTNIFGEPGWQGTGWRAGRDLQRRDIGGKTGTTNSSKDAWFSGYGPGVVTSVWIGFDDHRRNLGHTTASGAIKDQISGYEGGAKSAQPAWDAYMKAVLEGVPEQPLTPPPGIVTVNIDRSTGQLANGGNSREEYFIEGTQPTQQAVHEVGTTIIDNGEAQELF" "i" "Han et al., 2011" -"EG10757-MONOMER" "MFKSTLAAMAAVFALSALSPAAMAAKGDPHVLLTTSAGNIELELDKQKAPVSVQNFVDYVNSGFYNNTTFHRVIPGFMIQGGGFTEQMQQKKPNPPIKNEADNGLRNTRGTIAMARTADKDSATSQFFINVADNAFLDHGQRDFGYAVFGKVVKGMDVADKISQVPTHDVGPYQNVPSKPVVILSAKVLP" "p" "Han et al., 2011" -"EG10758-MONOMER" "MVTFHTNHGDIVIKTFDDKAPETVKNFLDYCREGFYNNTIFHRVINGFMIQGGGFEPGMKQKATKEPIKNEANNGLKNTRGTLAMARTQAPHSATAQFFINVVDNDFLNFSGESLQGWGYCVFAEVVDGMDVVDKIKGVATGRSGMHQDVPKEDVIIESVTVSE" "c" "Lopez-Campistrous et al., 2005" -"EG10760-MONOMER" "MNMFFRLTALAGLLAIAGQTFAVEDITRADQIPVLKEETQHATVSERVTSRFTRSHYRQFDLDQAFSAKIFDRYLNLLDYSHNVLLASDVEQFAKKKTELGDELRSGKLDVFYDLYNLAQKRRFERYQYALSVLEKPMDFTGNDTYNLDRSKAPWPKNEAELNALWDSKVKFDELSLKLTGKTDKEIRETLTRRYKFAIRRLAQTNSEDVFSLAMTAFAREIDPHTNYLSPRNTEQFNTEMSLSLEGIGAVLQMDDDYTVINSMVAGGPAAKSKAISVGDKIVGVGQTGKPMVDVIGWRLDDVVALIKGPKGSKVRLEILPAGKGTKTRTVTLTRERIRLEDRAVKMSVKTVGKEKVGVLDIPGFYVGLTDDVKVQLQKLEKQNVSSVIIDLRSNGGGALTEAVSLSGLFIPAGPIVQVRDNNGKVREDSDTDGQVFYKGPLVVLVDRFSASASEIFAAAMQDYGRALVVGEPTFGKGTVQQYRSLNRIYDQMLRPEWPALGSVQYTIQKFYRVNGGSTQRKGVTPDIIMPTGNEETETGEKFEDNALPWDSIDAATYVKSGDLTAFEPELLKEHNARIAKDPEFQNIMKDIARFNAMKDKRNIVSLNYAVREKENNEDDATRLARLNERFKREGKPELKKLDDLPKDYQEPDPYLDETVNIALDLAKLEKARPAEQPAPVK" "p" "Han et al., 2011" -"EG10761-MONOMER" "MKPSIVAKLEALHERHEEVQALLGDAQTIADQERFRALSREYAQLSDVSRCFTDWQQVQEDIETAQMMLDDPEMREMAQDELREAKEKSEQLEQQLQVLLLPKDPDDERNAFLEVRAGTGGDEAALFAGDLFRMYSRYAEARRWRVEIMSASEGEHGGYKEIIAKISGDGVYGRLKFESGGHRVQRVPATESQGRIHTSACTVAVMPELPDAELPDINPADLRIDTFRSSGAGGQHVNTTDSAIRITHLPTGIVVECQDERSQHKNKAKALSVLGARIHAAEMAKRQQAEASTRRNLLGSGDRSDRNRTYNFPQGRVTDHRINLTLYRLDEVMEGKLDMLIEPIIQEHQADQLAALSEQE" "c" "Han et al., 2011" -"EG10762-MONOMER" "MFEINPVNNRIQDLTERSDVLRGYLDYDAKKERLEEVNAELEQPDVWNEPERAQALGKERSSLEAVVDTLDQMKQGLEDVSGLLELAVEADDEETFNEAVAELDALEEKLAQLEFRRMFSGEYDSADCYLDIQAGSGGTEAQDWASMLERMYLRWAESRGFKTEIIEESEGEVAGIKSVTIKISGDYAYGWLRTETGVHRLVRKSPFDSGGRRHTSFSSAFVYPEVDDDIDIEINPADLRIDVYRTSGAGGQHVNRTESAVRITHIPTGIVTQCQNDRSQHKNKDQAMKQMKAKLYELEMQKKNAEKQAMEDNKSDIGWGSQIRSYVLDDSRIKDLRTGVETRNTQAVLDGSLDQFIEASLKAGL" "c" "Lopez-Campistrous et al., 2005" -"EG10763-MONOMER" "MPVAHVALPVPLPRTFDYLLPEGMTVKAGCRVRVPFGKQQERIGIVVSVSDASELPLNELKAVVEVLDSEPVFTHSVWRLLLWAADYYHHPIGDVLFHALPILLRQGRPAANAPMWYWFATEQGQAVDLNSLKRSPKQQQALAALRQGKIWRDQVATLEFNDAALQALRKKGLCDLASETPEFSDWRTNYAVSGERLRLNTEQATAVGAIHSAADTFSAWLLAGVTGSGKTEVYLSVLENVLAQGKQALVMVPEIGLTPQTIARFRERFNAPVEVLHSGLNDSERLSAWLKAKNGEAAIVIGTRSALFTPFKNLGVIVIDEEHDSSYKQQEGWRYHARDLAVYRAHSEQIPIILGSATPALETLCNVQQKKYRLLRLTRRAGNARPAIQHVLDLKGQKVQAGLAPALITRMRQHLQADNQVILFLNRRGFAPALLCHDCGWIAECPRCDHYYTLHQAQHHLRCHHCDSQRPVPRQCPSCGSTHLVPVGLGTEQLEQTLAPLFPGVPISRIDRDTTSRKGALEQQLAEVHRGGARILIGTQMLAKGHHFPDVTLVALLDVDGALFSADFRSAERFAQLYTQVAGRAGRAGKQGEVVLQTHHPEHPLLQTLLYKGYDAFAEQALAERRMMQLPPWTSHVIVRAEDHNNQHAPLFLQQLRNLILSSPLADEKLWVLGPVPALAPKRGGRWRWQILLQHPSRVRLQHIINGTLALINTIPDSRKVKWVLDVDPIEG" "c" "Han et al., 2011" -"EG10764-MONOMER" "MTNRLVLSGTVCRAPLRKVSPSGIPHCQFVLEHRSVQEEAGFHRQAWCQMPVIVSGHENQAITHSITVGSRITVQGFISCHKAKNGLSKMVLHAEQIELIDSGD" "c" "Han et al., 2011" -"EG10765-MONOMER" "VKTALLLEKLEGQLATLRQRCAPVSQFATLSARFDRHLFQTRATTLQACLDEAGDNLAALRHAVEQQQLPQVAWLAEHLAAQLEAIAREASAWSLREWDSAPPKIARWQRKRIQHQDFERRLREMVAERRARLARVTDLVEQQTLHREVEAYEARLARCRHALEKIENRLARLTR" "c" "Han et al., 2011" -"EG10776-MONOMER" "MGIFSRFADIVNANINALLEKAEDPQKLVRLMIQEMEDTLVEVRSTSARALAEKKQLTRRIEQASAREVEWQEKAELALLKEREDLARAALIEKQKLTDLIKSLEHEVTLVDDTLARMKKEIGELENKLSETRARQQALMLRHQAANSSRDVRRQLDSGKLDEAMARFESFERRIDQMEAEAESHSFGKQKSLDDQFAELKADDAISEQLAQLKAKMKQDNQ" "c" "Han et al., 2011" -"EG10777-MONOMER" "MSALFLAIPLTIFVLFVLPIWLWLHYSNRSGRSELSQSEQQRLAQLADEAKRMRERIQALESILDAEHPNWRDR" "i" "Han et al., 2011" -"EG10778-MONOMER" "MAGINLNKKLWRIPQQGMVRGVCAGIANYFDVPVKLVRILVVLSIFFGLALFTLVAYIILSFALDPMPDNMAFGEQLPSSSELLDEVDRELAASETRLREMERYVTSDTFTLRSRFRQL" "i" "Han et al., 2011" -"EG10779-MONOMER" "MNTRWQQAGQKVKPGFKLAGKLVLLTALRYGPAGVAGWAIKSVARRPLKMLLAVALEPLLSRAANKLAQRYKR" "c" "Han et al., 2011" -"EG10780-MONOMER" "MFKKGLLALALVFSLPVFAAEHWIDVRVPEQYQQEHVQGAINIPLKEVKERIATAVPDKNDTVKVYCNAGRQSGQAKEILSEMGYTHVENAGGLKDIAMPKVKG" "p" "Han et al., 2011" -"EG10785-MONOMER" "VTIKLIVGLANPGAEYAATRHNAGAWFVDLLAERLRAPLREEAKFFGYTSRVTLGGEDVRLLVPTTFMNLSGKAVAAMASFFRINPDEILVAHDELDLPPGVAKFKLGGGHGGHNGLKDIISKLGNNPNFHRLRIGIGHPGDKNKVVGFVLGKPPVSEQKLIDEAIDEAARCTEMWFTDGLTKATNRLHAFKAQ" "c" "Han et al., 2011" -"EG10786-MONOMER" "MPRSTWFKALLLLVALWAPLSQAETGWQPIQETIRKSDKDNRQYQAIRLDNGMVVLLVSDPQAVKSLSALVVPVGSLEDPEAYQGLAHYLEHMSLMGSKKYPQADSLAEYLKMHGGSHNASTAPYRTAFYLEVENDALPGAVDRLADAIAEPLLDKKYAERERNAVNAELTMARTRDGMRMAQVSAETINPAHPGSKFSGGNLETLSDKPGNPVQQALKDFHEKYYSANLMKAVIYSNKPLPELAKMAADTFGRVPNKESKKPEITVPVVTDAQKGIIIHYVPALPRKVLRVEFRIDNNSAKFRSKTDELITYLIGNRSPGTLSDWLQKQGLVEGISANSDPIVNGNSGVLAISASLTDKGLANRDQVVAAIFSYLNLLREKGIDKQYFDELANVLDIDFRYPSITRDMDYVEWLADTMIRVPVEHTLDAVNIADRYDAKAVKERLAMMTPQNARIWYISPKEPHNKTAYFVDAPYQVDKISAQTFADWQKKAADIALSLPELNPYIPDDFSLIKSEKKYDHPELIVDESNLRVVYAPSRYFASEPKADVSLILRNPKAMDSARNQVMFALNDYLAGLALDQLSNQASVGGISFSTNANNGLMVNANGYTQRLPQLFQALLEGYFSYTATEDQLEQAKSWYNQMMDSAEKGKAFEQAIMPAQMLSQVPYFSRDERRKILPSITLKEVLAYRDALKSGARPEFMVIGNMTEAQATTLARDVQKQLGADGSEWCRNKDVVVDKKQSVIFEKAGNSTDSALAAVFVPTGYDEYTSSAYSSLLGQIVQPWFYNQLRTEEQLGYAVFAFPMSVGRQWGMGFLLQSNDKQPSFLWERYKAFFPTAEAKLRAMKPDEFAQIQQAVITQMLQAPQTLGEEASKLSKDFDRGNMRFDSRDKIVAQIKLLTPQKLADFFHQAVVEPQGMAILSQISGSQNGKAEYVHPEGWKVWENVSALQQTMPLMSEKNE" "p" "Han et al., 2011" -"EG10812-MONOMER" "MRVTDFSFELPESLIAHYPMPERSSCRLLSLDGPTGALTHGTFTDLLDKLNPGDLLVFNNTRVIPARLFGRKASGGKIEVLVERMLDDKRILAHIRASKAPKPGAELLLGDDESINATMTARHGALFEVEFNDERSVLDILNSIGHMPLPPYIDRPDEDADRELYQTVYSEKPGAVAAPTAGLHFDEPLLEKLRAKGVEMAFVTLHVGAGTFQPVRVDTIEDHIMHSEYAEVPQDVVDAVLAAKARGNRVIAVGTTSVRSLESAAQAAKNDLIEPFFDDTQIFIYPGFQYKVVDALVTNFHLPESTLIMLVSAFAGYQHTMNAYKAAVEEKYRFFSYGDAMFITYNPQAINERVGE" "c" "Han et al., 2011" -"EG10813-MONOMER" "MITNYEATVVTTDDIVHEVNLEGKRIGYVIKTENKETPFTVVDIDGPSGNVKTLDEGVKKMCLVHIGKNLPAEKKAEFLATLIAMKLKGEI" "c" "Han et al., 2011" -"EG10817-MONOMER" "MKKGTVLNSDISSVISRLGHTDTLVVCDAGLPIPKSTTRIDMALTQGVPSFMQVLGVVTNEMQVEAAIIAEEIKHHNPQLHETLLTHLEQLQKHQGNTIEIRYTTHEQFKQQTAESQAVIRSGECSPYANIILCAGVTF" "c" "Han et al., 2011" -"EG10823-MONOMER" "MAIDENKQKALAAALGQIEKQFGKGSIMRLGEDRSMDVETISTGSLSLDIALGAGGLPMGRIVEIYGPESSGKTTLTLQVIAAAQREGKTCAFIDAEHALDPIYARKLGVDIDNLLCSQPDTGEQALEICDALARSGAVDVIVVDSVAALTPKAEIEGEIGDSHMGLAARMMSQAMRKLAGNLKQSNTLLIFINQIRMKIGVMFGNPETTTGGNALKFYASVRLDIRRIGAVKEGENVVGSETRVKVVKNKIAAPFKQAEFQILYGEGINFYGELVDLGVKEKLIEKAGAWYSYKGEKIGQGKANATAWLKDNPETAKEIEKKVRELLLSNPNSTPDFSVDDSEGVAETNEDF" "c" "Han et al., 2011" -"EG10824-MONOMER" "MSDVAETLDPLRLPLQGERLIEASAGTGKTFTIAALYLRLLLGLGGSAAFPRPLTVEELLVVTFTEAATAELRGRIRSNIHELRIACLRETTDNPLYERLLEEIDDKAQAAQWLLLAERQMDEAAVFTIHGFCQRMLNLNAFESGMLFEQQLIEDESLLRYQACADFWRRHCYPLPREIAQVVFETWKGPQALLRDINRYLQGEAPVIKAPPPDDETLASRHAQIVARIDTVKQQWRDAVGELDALIESSGIDRRKFNRSNQAKWIDKISAWAEEETNSYQLPESLEKFSQRFLEDRTKAGGETPRHPLFEAIDQLLAEPLSIRDLVITRALAEIRETVAREKRRRGELGFDDMLSRLDSALRSESGEVLAAAIRTRFPVAMIDEFQDTDPQQYRIFRRIWHHQPETALLLIGDPKQAIYAFRGADIFTYMKARSEVHAHYTLDTNWRSAPGMVNSVNKLFSQTDDAFMFREIPFIPVKSAGKNQALRFVFKGETQPAMKMWLMEGESCGVGDYQSTMAQVCAAQIRDWLQAGQRGEALLMNGDDARPVRASDISVLVRSRQEAAQVRDALTLLEIPSVYLSNRDSVFETLEAQEMLWLLQAVMTPERENTLRSALATSMMGLNALDIETLNNDEHAWDVVVEEFDGYRQIWRKRGVMPMLRALMSARNIAENLLATAGGERRLTDILHISELLQEAGTQLESEHALVRWLSQHILEPDSNASSQQMRLESDKHLVQIVTIHKSKGLEYPLVWLPFITNFRVQEQAFYHDRHSFEAVLDLNAAPESVDLAEAERLAEDLRLLYVALTRSVWHCSLGVAPLVRRRGDKKGDTDVHQSALGRLLQKGEPQDAAGLRTCIEALCDDDIAWQTAQTGDNQPWQVNDVSTAELNAKTLQRLPGDNWRVTSYSGLQQRGHGIAQDLMPRLDVDAAGVASVVEEPTLTPHQFPRGASPGTFLHSLFEDLDFTQPVDPNWVREKLELGGFESQWEPVLTEWITAVLQAPLNETGVSLSQLSARNKQVEMEFYLPISEPLIASQLDTLIRQFDPLSAGCPPLEFMQVRGMLKGFIDLVFRHEGRYYLLDYKSNWLGEDSSAYTQQAMAAAMQAHRYDLQYQLYTLALHRYLRHRIADYDYEHHFGGVIYLFLRGVDKEHPQQGIYTTRPNAGLIALMDEMFAGMTLEEA" "c" "Han et al., 2011" -"EG10825-MONOMER" "MLRVYHSNRLDVLEALMEFIVERERLDDPFEPEMILVQSTGMAQWLQMTLSQKFGIAANIDFPLPASFIWDMFVRVLPEIPKESAFNKQSMSWKLMTLLPQLLEREDFTLLRHYLTDDSDKRKLFQLSSKAADLFDQYLVYRPDWLAQWETGHLVEGLGEAQAWQAPLWKALVEYTHQLGQPRWHRANLYQRFIETLESATTCPPGLPSRVFICGISALPPVYLQALQALGKHIEIHLLFTNPCRYYWGDIKDPAYLAKLLTRQRRHSFEDRELPLFRDSENAGQLFNSDGEQDVGNPLLASWGKLGRDYIYLLSDLESSQELDAFVDVTPDNLLHNIQSDILELENRAVAGVNIEEFSRSDNKRPLDPLDSSITFHVCHSPQREVEVLHDRLLAMLEEDPTLTPRDIIVMVADIDSYSPFIQAVFGSAPADRYLPYAISDRRARQSHPVLEAFISLLSLPDSRFVSEDVLALLDVPVLAARFDITEEGLRYLRQWVNESGIRWGIDDDNVRELELPATGQHTWRFGLTRMLLGYAMESAQGEWQSVLPYDESSGLIAELVGHLASLLMQLNIWRRGLAQERPLEEWLPVCRDMLNAFFLPDAETEAAMTLIEQQWQAIIAEGLGAQYGDAVPLSLLRDELAQRLDQERISQRFLAGPVNICTLMPMRSIPFKVVCLLGMNDGVYPRQLAPLGFDLMSQKPKRGDRSRRDDDRYLFLEALISAQQKLYISYIGRSIQDNSERFPSVLVQELIDYIGQSHYLPGDEALNCDESEARVKAHLTCLHTRMPFDPQNYQPGERQSYAREWLPAASQAGKAHSEFVQPLPFTLPETVPLETLQRFWAHPVRAFFQMRLQVNFRTEDSEIPDTEPFILEGLSRYQINQQLLNALVEQDDAERLFRRFRAAGDLPYGAFGEIFWETQCQEMQQLADRVIACRQPGQSMEIDLACNGVQITGWLPQVQPDGLLRWRPSLLSVAQGMQLWLEHLVYCASGGNGESRLFLRKDGEWRFPPLAAEQALHYLSQLIEGYREGMSAPLLVLPESGGAWLKTCYDAQNDAMLDDDSTLQKARTKFLQAYEGNMMVRGEGDDIWYQRLWRQLTPETMEAIVEQSQRFLLPLFRFNQS" "c" "Han et al., 2011" -"EG10826-MONOMER" "MKLQKQLLEAVEHKQLRPLDVQFALTVAGDEHPAVTLAAALLSHDAGEGHVCLPLSRLENNEASHPLLATCVSEIGELQNWEECLLASQAVSRGDEPTPMILCGDRLYLNRMWCNERTVARFFNEVNHAIEVDEALLAQTLDKLFPVSDEINWQKVAAAVALTRRISVISGGPGTGKTTTVAKLLAALIQMADGERCRIRLAAPTGKAAARLTESLGKALRQLPLTDEQKKRIPEDASTLHRLLGAQPGSQRLRHHAGNPLHLDVLVVDEASMIDLPMMSRLIDALPDHARVIFLGDRDQLASVEAGAVLGDICAYANAGFTAERARQLSRLTGTHVPAGTGTEAASLRDSLCLLQKSYRFGSDSGIGQLAAAINRGDKTAVKTVFQQDFTDIEKRLLQSGEDYIAMLEEALAGYGRYLDLLQARAEPDLIIQAFNEYQLLCALREGPFGVAGLNERIEQFMQQKRKIHRHPHSRWYEGRPVMIARNDSALGLFNGDIGIALDRGQGTRVWFAMPDGNIKSVQPSRLPEHETTWAMTVHKSQGSEFDHAALILPSQRTPVVTRELVYTAVTRARRRLSLYADERILSAAIATRTERRSGLAALFSSRE" "c" "Han et al., 2011" -"EG10827-MONOMER" "MSTKPLFLLRKAKKSSGEPDVVLWASNDFESTCATLDYLIVKSGKKLSSYFKAVATNFPVVNDLPAEGEIDFTWSERYQLSKDSMTWELKPGAAPDNAHYQGNTNVNGEDMTEIEENMLLPISGQELPIRWLAQHGSEKPVTHVSRDGLQALHIARAEELPAVTALAVSHKTSLLDPLEIRELHKLVRDTDKVFPNPGNSNLGLITAFFEAYLNADYTDRGLLTKEWMKGNRVSHITRTASGANAGGGNLTDRGEGFVHDLTSLARDVATGVLARSMDLDIYNLHPAHAKRIEEIIAENKPPFSVFRDKFITMPGGLDYSRAIVVASVKEAPIGIEVIPAHVTEYLNKVLTETDHANPDPEIVDIACGRSSAPMPQRVTEEGKQDDEEKPQPSGTTAVEQGEAETMEPDATEHHQDTQPLDAQSQVNSVDAKYQELRAELHEARKNIPSKNPVDDDKLLAASRGEFVDGISDPNDPKWVKGIQTRDCVYQNQPETEKTSPDMNQPEPVVQQEPEIACNACGQTGGDNCPDCGAVMGDATYQETFDEESQVEAKENDPEEMEGAEHPHNENAGSDPHRDCSDETGEVADPVIVEDIEPGIYYGISNENYHAGPGISKSQLDDIADTPALYLWRKNAPVDTTKTKTLDLGTAFHCRVLEPEEFSNRFIVAPEFNRRTNAGKEEEKAFLMECASTGKTVITAEEGRKIELMYQSVMALPLGQWLVESAGHAESSIYWEDPETGILCRCRPDKIIPEFHWIMDVKTTADIQRFKTAYYDYRYHVQDAFYSDGYEAQFGVQPTFVFLVASTTIECGRYPVEIFMMGEEAKLAGQQEYHRNLRTLSDCLNTDEWPAIKTLSLPRWAKEYAND" "c" "Han et al., 2011" -"EG10828-MONOMER" "MSLTRLLIRDFRNIETADLALSPGFNFLVGANGSGKTSVLEAIYTLGHGRAFRSLQIGRVIRHEQEAFVLHGRLQGEERETAIGLTKDKQGDSKVRIDGTDGHKVAELAHLMPMQLITPEGFTLLNGGPKYRRAFLDWGCFHNEPGFFTAWSNLKRLLKQRNAALRQVTRYEQLRPWDKELIPLAEQISTWRAEYSAGIAADMADTCKQFLPEFSLTFSFQRGWEKETEYAEVLERNFERDRQLTYTAHGPHKADLRIRADGAPVEDTLSRGQLKLLMCALRLAQGEFLTRESGRRCLYLIDDFASELDDERRGLLASRLKATQSQVFVSAISAEHVIDMSDENSKMFTVEKGKITD" "c" "Han et al., 2011" -"EG10829-MONOMER" "MKGRLLDAVPLSSLTGVGAALSNKLAKINLHTVQDLLLHLPLRYEDRTHLYPIGELLPGVYATVEGEVLNCNISFGGRRMMTCQISDGSGILTMRFFNFSAAMKNSLAAGRRVLAYGEAKRGKYGAEMIHPEYRVQGDLSTPELQETLTPVYPTTEGVKQATLRKLTDQALDLLDTCAIEELLPPELSQGMMTLPEALRTLHRPPPTLQLSDLETGQHPAQRRLILEELLAHNLSMLALRAGAQRFHAQPLSANDTLKNKLLAALPFKPTGAQARVVAEIERDMALDVPMMRLVQGDVGSGKTLVAALAALRAIAHGKQVALMAPTELLAEQHANNFRNWFAPLGIEVGWLAGKQKGKARLAQQEAIASGQVQMIVGTHAIFQEQVQFNGLALVIIDEQHRFGVHQRLALWEKGQQQGFHPHQLIMTATPIPRTLAMTAYADLDTSVIDELPPGRTPVTTVAIPDTRRTDIIDRVHHACITEGRQAYWVCTLIEESELLEAQAAEATWEELKLALPELNVGLVHGRMKPAEKQAVMASFKQGELHLLVATTVIEVGVDVPNASLMIIENPERLGLAQLHQLRGRVGRGAVASHCVLLYKTPLSKTAQIRLQVLRDSNDGFVIAQKDLEIRGPGELLGTRQTGNAEFKVADLLRDQAMIPEVQRLARHIHERYPQQAKALIERWMPETERYSNA" "c" "Han et al., 2011" -"EG10830-MONOMER" "VKQQIQLRRREVDETADLPAELPPLLRRLYASRGVRSAQELERSVKGMLPWQQLSGVEKAVEILYNAFREGTRIIVVGDFDADGATSTALSVLAMRSLGCSNIDYLVPNRFEDGYGLSPEVVDQAHARGAQLIVTVDNGISSHAGVEHARSLGIPVIVTDHHLPGDTLPAAEAIINPNLRDCNFPSKSLAGVGVAFYLMLALRTFLRDQGWFDERNIAIPNLAELLDLVALGTVADVVPLDANNRILTWQGMSRIRAGKCRPGIKALLEVANRDAQKLAASDLGFALGPRLNAAGRLDDMSVGVALLLCDNIGEARVLANELDALNQTRKEIEQGMQIEALTLCEKLERSRDTLPGGLAMYHPEWHQGVVGILASRIKERFHRPVIAFAPAGDGTLKGSGRSIQGLHMRDALERLDTLYPGMMLKFGGHAMAAGLSLEEDKFKLFQQRFGELVTEWLDPSLLQGEVVSDGPLSPAEMTMEVAQLLRDAGPWGQMFPEPLFDGHFRLLQQRLVGERHLKVMVEPVGGGPLLDGIAFNVDTALWPDNGVREVQLAYKLDINEFRGNRSLQIIIDNIWPI" "c" "Han et al., 2011" -"EG10831-MONOMER" "MLAQLTISNFAIVRELEIDFHSGMTVITGETGAGKSIAIDALGLCLGGRAEADMVRTGAARADLCARFSLKDTPAALRWLEENQLEDGHECLLRRVISSDGRSRGFINGTAVPLSQLRELGQLLIQIHGQHAHQLLTKPEHQKFLLDGYANETSLLQEMTARYQLWHQSCRDLAHHQQLSQERAARAELLQYQLKELNEFNPQPGEFEQIDEEYKRLANSGQLLTTSQNALALMADGEDANLQSQLYTAKQLVSELIGMDSKLSGVLDMLEEATIQIAEASDELRHYCDRLDLDPNRLFELEQRISKQISLARKHHVSPEALPQYYQSLLEEQQQLDDQADSQETLALAVTKHHQQALEIARALHQQRQQYAEELAQLITDSMHALSMPHGQFTIDVKFDEHHLGADGADRIEFRVTTNPGQPMQPIAKVASGGELSRIALAIQVITARKMETPALIFDEVDVGISGPTAAVVGKLLRQLGESTQVMCVTHLPQVAGCGHQHYFVSKETDGAMTETHMQSLNKKARLQELARLLGGSEVTRNTLANAKELLAA" "c" "Han et al., 2011" -"EG10832-MONOMER" "MEGWQRAFVLHSRPWSETSLMLDVFTEESGRVRLVAKGARSKRSTLKGALQPFTPLLLRFGGRGEVKTLRSAEAVSLALPLSGITLYSGLYINELLSRVLEYETRFSELFFDYLHCIQSLAGVTGTPEPALRRFELALLGHLGYGVNFTHCAGSGEPVDDTMTYRYREEKGFIASVVIDNKTFTGRQLKALNAREFPDADTLRAAKRFTRMALKPYLGGKPLKSRELFRQFMPKRTVKTHYE" "c" "Han et al., 2011" -"EG10833-MONOMER" "VAQAEVLNLESGAKQVLQETFGYQQFRPGQEEIIDTVLSGRDCLVVMPTGGGKSLCYQIPALLLNGLTVVVSPLISLMKDQVDQLQANGVAAACLNSTQTREQQLEVMTGCRTGQIRLLYIAPERLMLDNFLEHLAHWNPVLLAVDEAHCISQWGHDFRPEYAALGQLRQRFPTLPFMALTATADDTTRQDIVRLLGLNDPLIQISSFDRPNIRYMLMEKFKPLDQLMRYVQEQRGKSGIIYCNSRAKVEDTAARLQSKGISAAAYHAGLENNVRADVQEKFQRDDLQIVVATVAFGMGINKPNVRFVVHFDIPRNIESYYQETGRAGRDGLPAEAMLFYDPADMAWLRRCLEEKPQGQLQDIERHKLNAMGAFAEAQTCRRLVLLNYFGEGRQEPCGNCDICLDPPKQYDGSTDAQIALSTIGRVNQRFGMGYVVEVIRGANNQRIRDYGHDKLKVYGMGRDKSHEHWVSVIRQLIHLGLVTQNIAQHSALQLTEAARPVLRGESSLQLAVPRIVALKPKAMQKSFGGNYDRKLFAKLRKLRKSIADESNVPPYVVFNDATLIEMAEQMPITASEMLSVNGVGMRKLERFGKPFMALIRAHVDGDDEE" "c" "Han et al., 2011" -"EG10834-MONOMER" "MQTSPLLTQLMEALRCLPGVGPKSAQRMAFTLLQRDRSGGMRLAQALTRAMSEIGHCADCRTFTEQEVCNICSNPRRQENGQICVVESPADIYAIEQTGQFSGRYFVLMGHLSPLDGIGPDDIGLDRLEQRLAEEKITEVILATNPTVEGEATANYIAELCAQYDVEASRIAHGVPVGGELEMVDGTTLSHSLAGRHKIRF" "c" "Han et al., 2011" -"EG10836-MONOMER" "MGSINLRIDDELKARSYAALEKMGVTPSEALRLMLEYIADNERLPFKQTLLSDEDAELVEIVKERLRNPKPVRVTLDEL" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"EG10837-MONOMER" "MRLNPGQQQAVEFVTGPCLVLAGAGSGKTRVITNKIAHLIRGCGYQARHIAAVTFTNKAAREMKERVGQTLGRKEARGLMISTFHTLGLDIIKREYAALGMKANFSLFDDTDQLALLKELTEGLIEDDKVLLQQLISTISNWKNDLKTPSQAAASAIGERDRIFAHCYGLYDAHLKACNVLDFDDLILLPTLLLQRNEEVRKRWQNKIRYLLVDEYQDTNTSQYELVKLLVGSRARFTVVGDDDQSIYSWRGARPQNLVLLSQDFPALKVIKLEQNYRSSGRILKAANILIANNPHVFEKRLFSELGYGAELKVLSANNEEHEAERVTGELIAHHFVNKTQYKDYAILYRGNHQSRVFEKFLMQNRIPYKISGGTSFFSRPEIKDLLAYLRVLTNPDDDSAFLRIVNTPKREIGPATLKKLGEWAMTRNKSMFTASFDMGLSQTLSGRGYEALTRFTHWLAEIQRLAEREPIAAVRDLIHGMDYESWLYETSPSPKAAEMRMKNVNQLFSWMTEMLEGSELDEPMTLTQVVTRFTLRDMMERGESEEELDQVQLMTLHASKGLEFPYVYMVGMEEGFLPHQSSIDEDNIDEERRLAYVGITRAQKELTFTLCKERRQYGELVRPEPSRFLLELPQDDLIWEQERKVVSAEERMQKGQSHLANLKAMMAAKRGK" "c" "Han et al., 2011" -"EG10838-MONOMER" "MIIVTGGAGFIGSNIVKALNDKGITDILVVDNLKDGTKFVNLVDLNIADYMDKEDFLIQIMAGEEFGDVEAIFHEGACSSTTEWDGKYMMDNNYQYSKELLHYCLEREIPFLYASSAATYGGRTSDFIESREYEKPLNVYGYSKFLFDEYVRQILPEANSQIVGFRYFNVYGPREGHKGSMASVAFHLNTQLNNGESPKLFEGSENFKRDFVYVGDVADVNLWFLENGVSGIFNLGTGRAESFQAVADATLAYHKKGQIEYIPFPDKLKGRYQAFTQADLTNLRAAGYDKPFKTVAEGVTEYMAWLNRDA" "c" "Lopez-Campistrous et al., 2005" -"EG10839-MONOMER" "MQSWYLLYCKRGQLQRAQEHLERQAVNCLAPMITLEKIVRGKRTAVSEPLFPNYLFVEFDPEVIHTTTINATRGVSHFVRFGASPAIVPSAVIHQLSVYKPKDIVDPATPYPGDKVIITEGAFEGFQAIFTEPDGEARSMLLLNLINKEIKHSVKNTEFRKL" "c" "Han et al., 2011" -"EG10841-MONOMER" "MASISSLGVGSGLDLSSILDSLTAAQKATLTPISNQQSSFTAKLSAYGTLKSALTTFQTANTALSKADLFSATSTTSSTTAFSATTAGNAIAGKYTISVTHLAQAQTLTTRTTRDDTKTAIATSDSKLTIQQGGDKDPITIDISAANSSLSGIRDAINNAKAGVSASIINVGNGEYRLSVTSNDTGLDNAMTLSVSGDDALQSFMGYDASASSNGMEVSVAAQNAQLTVNNVAIENSSNTISDALENITLNLNDVTTGNQTLTITQDTSKAQTAIKDWVNAYNSLIDTFSSLTKYTAVDAGADSQSSSNGALLGDSTLRTIQTQLKSMLSNTVSSSSYKTLAQIGITTDPSDGKLELDADKLTAALKKDASGVGALIVGDGKKTGITTTIGSNLTSWLSTTGIIKAATDGVSKTLNKLTKDYNAASDRIDAQVARYKEQFTQLDVLMTSLNSTSSYLTQQFENNSNSK" "s" "EcoCyc dump" -"EG10844-MONOMER" "MSKTHLTEQKFSDFALHPKVVEALEKKGFHNCTPIQALALPLTLAGRDVAGQAQTGTGKTMAFLTSTFHYLLSHPAIADRKVNQPRALIMAPTRELAVQIHADAEPLAEATGLKLGLAYGGDGYDKQLKVLESGVDILIGTTGRLIDYAKQNHINLGAIQVVVLDEADRMYDLGFIKDIRWLFRRMPPANQRLNMLFSATLSYRVRELAFEQMNNAEYIEVEPEQKTGHRIKEELFYPSNEEKMRLLQTLIEEEWPDRAIIFANTKHRCEEIWGHLAADGHRVGLLTGDVAQKKRLRILDEFTRGDLDILVATDVAARGLHIPAVTHVFNYDLPDDCEDYVHRIGRTGRAGASGHSISLACEEYALNLPAIETYIGHSIPVSKYNPDALMTDLPKPLRLTRPRTGNGPRRTGAPRNRRRSG" "c" "Han et al., 2011" -"EG10845-MONOMER" "MNLTELKNTPVSELITLGENMGLENLARMRKQDIIFAILKQHAKSGEDIFGDGVLEILQDGFGFLRSADSSYLAGPDDIYVSPSQIRRFNLRTGDTISGKIRPPKEGERYFALLKVNEVNFDKPENARNKILFENLTPLHANSRLRMERGNGSTEDLTARVLDLASPIGRGQRGLIVAPPKAGKTMLLQNIAQSIAYNHPDCVLMVLLIDERPEEVTEMQRLVKGEVVASTFDEPASRHVQVAEMVIEKAKRLVEHKKDVIILLDSITRLARAYNTVVPASGKVLTGGVDANALHRPKRFFGAARNVEEGGSLTIIATALIDTGSKMDEVIYEEFKGTGNMELHLSRKIAEKRVFPAIDYNRSGTRKEELLTTQEELQKMWILRKIIHPMGEIDAMEFLINKLAMTKTNDDFFEMMKRS" "c" "Lopez-Campistrous et al., 2005" -"EG10846-MONOMER" "MSGKPAARQGDMTQYGGSIVQGSAGVRIGAPTGVACSVCPGGVTSGHPVNPLLGAKVLPGETDIALPGPLPFILSRTYSSYRTKTPAPVGSLGPGWKMPADIRLQLRDNTLILSDNGGRSLYFEHLFPGEDGYSRSESLWLVRGGVAKLDEGHRLAALWQALPEELRLSPHRYLATNSPQGPWWLLGWCERVPEADEVLPAPLPPYRVLTGLVDRFGRTQTFHREAAGEFSGEITGVTDGAWRHFRLVLTTQAQRAEEARQQAISGGTEPSAFPDTLPGYTEYGRDNGIRLSAVWLTHDPEYPENLPAAPLVRYGWTPRGELAVVYDRSGKQVRSFTYDDKYRGRMVAHRHTGRPEIRYRYDSDGRVTEQLNPAGLSYTYQYEKDRITITDSLDRREVLHTQGEAGLKRVVKKEHADGSVTQSQFDAVGRLRAQTDAAGRTTEYSPDVVTGLITRITTPDGRASAFYYNHHNQLTSATGPDGLELRREYDELGRLIQETAPDGDITRYRYDNPHSDLPCATEDATGSRKTMTWSRYGQLLSFTDCSGYVTRYDHDRFGQMTAVHREEGLSQYRAYDSRGQLIAVKDTQGHETRYEYNIAGDLTAVIAPDGSRNGTQYDAWGKAVRTTQGGLTRSMEYDAAGRVIRLTSENGSHTTFRYDVLDRLIQETGFDGRTQRYHHDLTGKLIRSEDEGLVTHWHYDEADRLTHRTVKGETAERWQYDERGWLTDISHISEGHRVAVHYRYDEKGRLTGERQTVHHPQTEALLWQHETRHAYNAQGLANRCIPDSLPAVEWLTYGSGYLAGMKLGDTPLVEYTRDRLHRETLRSFGRYELTTAYTPAGQLQSQHLNSLLSDRDYTWNDNGELIRISSPRQTRSYSYSTTGRLTGVHTTAANLDIRIPYATDPAGNRLPDPELHPDSTLSMWPDNRIARDAHYLYRYDRHGRLTEKTDLIPEGVIRTDDERTHRYHYDSQHRLVHYTRTQYEEPLVESRYLYDPLGRRVAKRVWRRERDLTGWMSLSRKPQVTWYGWDGDRLTTIQNDRTRIQTIYQPGSFTPLIRVETATGELAKTQRRSLADALQQSGGEDGGSVVFPPVLVQMLDRLESEILADRVSEESRRWLASCGLTVEQMQNQMDPVYTPARKIHLYHCDHRGLPLALISKEGTTEWCAEYDEWGNLLNEENPHQLQQLIRLPGQQYDEESGLYYNRHRYYDPLQGRYITQDPIGLKGGWNFYQYPLNPVTNTDPLGLEVFPRPFPLPIPWPKSPAQQQADDNAAKALTKWWNDTASQRIFDSLILNNPGLALDITMIASRGNVADTGITDRVNDIINDRFWSDGKKPDRCDVLQELIDCGDISAKDAKSTQKAWNCRHSRQSNDKKR" "o" "Han et al., 2011" -"EG10847-MONOMER" "MSGKPAARQGDMTQYGGSIVQGSAGVRIGAPTGVACSVCPGGVTSGHPVNPLLGAKVLPGETDIALPGPLPFILSRTYSSYRTKTPAPVGSLGPGWKMPADIRLQLRDNTLILSDNGGRSLYFEHLFPGEDGYSRSESLWLVRGGVAKLDEGHRLAALWQALPEELRLSPHRYLATNSPQGPWWLLGWCERVPEADEVLPAPLPPYRVLTGLVDRFGRTQTFHREAAGEFSGEITGVTDGAWRHFRLVLTTQAQRAEEARQQAISGGTEPSAFPDTLPGYTEYGRDNGIRLSAVWLTHDPEYPENLPAAPLVRYGWTPRGELAVVYDRSGKQVRSFTYDDKYRGRMVAHRHTGRPEIRYRYDSDGRVTEQLNPAGLSYTYQYEKDRITITDSLDRREVLHTQGEAGLKRVVKKEHADGSVTQSQFDAVGRLRAQTDAAGRTTEYSPDVVTGLITRITTPDGRASAFYYNHHNQLTSATGPDGLELRREYDELGRLIQETAPDGDITRYRYDNPHSDLPCATEDATGSRKTMTWSRYGQLLSFTDCSGYVTRYDHDRFGQMTAVHREEGLSQYRAYDSRGQLIAVKDTQGHETRYEYNIAGDLTAVIAPDGSRNGTQYDAWGKAVRTTQGGLTRSMEYDAAGRVIRLTSENGSHTTFRYDVLDRLIQETGFDGRTQRYHHDLTGKLIRSEDEGLVTHWHYDEADRLTHRTVKGETAERWQYDERGWLTDISHISEGHRVAVHYRYDEKGRLTGERQTVHHPQTEALLWQHETRHAYNAQGLANRCIPDSLPAVEWLTYGSGYLAGMKLGDTPLVEYTRDRLHRETLRSFGRYELTTAYTPAGQLQSQHLNSLLSDRDYTWNDNGELIRISSPRQTRSYSYSTTGRLTGVHTTAANLDIRIPYATDPAGNRLPDPELHPDSTLSMWPDNRIARDAHYLYRYDRHGRLTEKTDLIPEGVIRTDDERTHRYHYDSQHRLVHYTRTQYEEPLVESRYLYDPLGRRVAKRVWRRERDLTGWMSLSRKPQVTWYGWDGDRLTTIQNDRSRIQTIYQPGSFTPLIRVETATGELAKTQRRSLADALQQSGGEDGGSVVFPPVLVQMLDRLESEILADRVSEESRRWLASCGLTVEQMQNQMDPVYTPARKIHLYHCDHRGLPLALISTEGATAWCAEYDEWGNLLNEENPHQLQQLIRLPGQQYDEESGLYYNRHRYYDPLQGRYITQDPIGLKGGWNLYGYQLNPISDIDPLGLSMWEDAKSGACTNGLCGTLSAMIGPDKFDSIDSTAYDALNKINSQSICEDKEFAGLICKDNSGRYFSTAPNRGERKGSYPFNSPCPNGTEKVSAYHTHGADSHGEYWDEIFSGKDEKIVKSKDNNIKSFYLGTPSGNFKAIDNHGKEITNRKGLPNVCRVHGNM" "o" "Han et al., 2011" -"EG10848-MONOMER" "MSGKPAARQGDMTQYGGSIVQGSAGVRIGAPTGVACSVCPGGVTSGHPVNPLLGAKVLPGETDIALPGPLPFILSRTYSSYRTKTPAPVGSLGPGWKMPADIRLQLRDNTLILSDNGGRSLYFEHLFPGEDGYSRSESLWLVRGGVAKLDEGHRLAALWQALPEELRLSPHRYLATNSPQGPWWLLGWCERVPEADEVLPAPLPPYRVLTGLVDRFGRTQTFHREAAGEFSGEITGVTDGAGRHFRLVLTTQAQRAEEARQQAISGGTEPSAFPDTLPGYTEYGRDNGIRLSAVWLTHDPEYPENLPAAPLVRYGWTPRGELAAVYDRSNTQVRSFTYDDKYRGRMVAHRHTGRPEICYRYDSDGRVTEQLNPAGLSYTYQYEKDRITITDSLNRREVLHTQGEGGLKRVVKKEHADGSVTQSQFDAVGRLRAQTDAAGRTTEYSPDVVTGLITRITTPDGRASAFYYNHHSQLTSATGPDGLEIRREYDEWGRLIQETAPDGDITRYRYDNPHSDLPCATEDATGSRKTMTWSRYGQLLSFTDCSGYVTRYDHDRFGQVTAVHREEGLSQYRAYDSRGQLIAVKDTQGHETRYEYNAAGDLTTVIAPDGSRNGTQYDAWGKAICTTQGGLTRSMEYDAAGRVIRLTSENGSHTTFRYDVLDRLIQETGFDGRTQRYHHDLTGKLIRSEDEGLVTHWHYDEADRLTHRTVNGETAERWQYDERGWLTDISHISEGHRVTVHYGYDSKGRLASEHLTVHHPQTNELLWQHETRHAYNAQGLANRCIPDSLPAVEWLTYGSGWLSGMKLGDTPLVEYTRDRLHRETLRSFGRYELTTAYTPAGQLQSQHLNSLLSDRDYTWNDNGELIRISSPRQTRSYSYSTTGRLTGVHTTAANLDIRIPYTTDPAGNRLPDPELHPDSALSMWPDNRIARDAHYLYRYDRHGRLTEKTDLIPEGVIRTDDERTHRYHYDSQHRLVHYTRTQYAEPLVESRYLYDPLGRRVAKRVWRRERDLTGWMSLSRKPQVTWYGWDGDRLTTIQNDRTRIQTIYQPGSFTPLIRVETATGELAKTQRRSLADTLQQSGGEDGGSVVFPPVLVQMLDRLESEILADRVSEESRRWLASCGLTVAQMQSQMDPVYTPARKIHLYHCDHRGLPLALISTEGTTAWYAEYDEWGNLLNEENPHQLQQLIRLPGQQYDEESGLYYNRHRYYDPLQGRYITQDPIGLKGGWNFYQYPLNPISNIDPLGLETLKCIKPLHSMGGTGERSGPDIWGNPFYHQYLCVPDGKGDYTCGGQDQRGESKGDGLWGPGKASNDTKEAAGRCDLVETDNSCVENCLKGKFKEVRPRYSVLPDIFTPINLGLFKNCQDWSNDSLETCKMKCSGNNIGRFIRFVFTGVM" "c" "Han et al., 2011" -"EG10849-MONOMER" "MSGKPAARQGDMTQYGGPIVQGSAGVRIGAPTGVACSVCPGGMTSGNPVNPLLGAKVLPGETDLALPGPLPFILSRTYSSYRTKTPAPVGVFGPGWKAPSDIRLQLRDDGLILNDNGGRSIHFEPLLPGEAVYSRSESMWLVRGGKAAQPDGHTLARLWGALPPDIRLSPHLYLATNSAQGPWWILGWSERVPGAEDVLPAPLPPYRVLTGMADRFGRTLTYRREAAGDLAGEITGVTDGAGREFRLVLTTQAQRAEEARTSSLSSSDSSRPLSASAFPDTLPGTEYGPDRGIRLSAVWLMHDPAYPESLPAAPLVRYTYTEAGELLAVYDRSNTQVRAFTYDAQHPGRMVAHRYAGRPEMRYRYDDTGRVVEQLNPAGLSYRYLYEQDRITVTDSLNRREVLHTEGGAGLKRVVKKELADGSVTRSGYDAAGRLTAQTDAAGRRTEYGLNVVSGDITDITTPDGRETKFYYNDGNQLTAVVSPDGLESRREYDEPGRLVSETSRSGETVRYRYDDAHSELPATTTDATGSTRQMTWSRYGQLLAFTDCSGYQTRYEYDRFGQMTAVHREEGISLYRRYDNRGRLTSVKDAQGRETRYEYNAAGDLTAVITPDGNRSETQYDAWGKAVSTTQGGLTRSMEYDAAGRVISLTNENGSHSVFSYDALDRLVQQGGFDGRTQRYHYDLTGKLTQSEDEGLVILWYYDESDRITHRTVNGEPAEQWQYDGHGWLTDISHLSEGHRVAVHYGYDDKGRLTGECQTVENPETGELLWQHETKHAYNEQGLANRVTPDSLPPVEWLTYGSGYLAGMKLGGTPLVEYTRDRLHRETVRSFGSMAGSNAAYELTSTYTPAGQLQSQHLNSLVYDRDYGWSDNGDLVRISGPRQTREYGYSATGRLESVRTLAPDLDIRIPYATDPAGNRLPDPELHPDSTLTVWPDNRIAEDAHYVYRHDEYGRLTEKTDRIPAGVIRTDDERTHHYHYDSQHRLVFYTRIQHGEPLVESRYLYDPLGRRMAKRVWRRERDLTGWMSLSRKPEVTWYGWDGDRLTTVQTDTTRIQTVYEPGSFTPLIRVETENGEREKAQRRSLAETLQQEGSENGHGVVFPAELVRLLDRLEEEIRADRVSSESRAWLAQCGLTVEQLARQVEPEYTPARKAHLYHCDHRGLPLALISEDGNTAWSAEYDEWGNQLNEENPHHVYQPYRLPGQQHDEESGLYYNRHRYYDPLQGRYITQDPMGLKGGWNLYQYPLNPLQQIDPMGLLQTWDDARSGACTGGVCGVLSRIIGPSKFDSTADAALDALKETQNRSLCNDMEYSGIVCKDTNGKYFASKAETDNLRKESYPLKRKCPTGTDRVAAYHTHGADSHGDYVDEFFSSSDKNLVRSKDNNLEAFYLATPDGRFEALNNKGEYIFIRNSVPGLSSVCIPYHD" "o" "Han et al., 2011" -"EG10850-MONOMER" "MNTISSLETTDLPAAYHIEQRAHAFPWSEKTFASNQGERYLNFQLTQNGKMAAFAITQVVLDEATLFNIAVDPDYQRQGLGRALLEHLIDELEKRGVATLWLEVRASNAAAIALYESLGFNEATIRRNYYPTTDGREDAIIMALPISM" "c" "Han et al., 2011" -"EG10851-MONOMER" "MFGYRSNVPKVRLTTDRLVVRLVHDRDAWRLADYYAENRHFLKPWEPVRDESHCYPSGWQARLGMINEFHKQGSAFYFGLFDPDEKEIIGVANFSNVVRGSFHACYLGYSIGQKWQGKGLMFEALTAAIRYMQRTQHIHRIMANYMPHNKRSGDLLARLGFEKEGYAKDYLLIDGQWRDHVLTALTTPDWTPGR" "c" "Han et al., 2011" -"EG10852-MONOMER" "VKIAILSRDGTLYSCKRLREAAIQRGHLVEILDPLSCYMNINPAASSIHYKGRKLPHFDAVIPRIGTAITFYGTAALRQFEMLGSYPLNESVAIARARDKLRSMQLLARQGIDLPVTGIAHSPDDTSDLIDMVGGAPLVVKLVEGTQGIGVVLAETRQAAESVIDAFRGLNAHILVQEYIKEAQGCDIRCLVVGDEVVAAIERRAKEGDFRSNLHRGGAASVASITPQEREIAIKAARTMALDVAGVDILRANRGPLVMEVNASPGLEGIEKTTGIDIAGKMIRWIERHATTEYCLKTGG" "c" "Han et al., 2011" -"EG10853-MONOMER" "MTETIKVSESLELHAVAENHVKPLYQLICKNKTWLQQSLNWPQFVQSEEDTRKTVQGNVMLHQRGYAKMFMIFKEDELIGVISFNRIEPLNKTAEIGYWLDESHQGQGIISQALQALIHHYAQSGELRRFVIKCRVDNPQSNQVALRNGFILEGCLKQAEFLNDAYDDVNLYARIIDSQ" "c" "Han et al., 2011" -"EG10854-MONOMER" "MRKQWLGICIAAGMLAACTSDDGQQQTVSVPQPAVCNGPIVEISGADPRFEPLNATANQDYQRDGKSYKIVQDPSRFSQAGLAAIYDAEPGSNLTASGEAFDPTQLTAAHPTLPIPSYARITNLANGRMIVVRINDRGPYGNDRVISLSRAAADRLNTSNNTKVRIDPIIVAQDGSLSGPGMACTTVAKQTYALPAPPDLSGGAGTSSVSGPQGDILPVSNSTLKSEDPTGAPVTSSGFLGAPTTLAPGVLEGSEPTPAPQPVVTAPSTTPATSPAMVTPQAVSQSASGNFMVQVGAVSDQARAQQYQQQLGQKFGVPGRVTQNGAVWRIQLGPFASKAEASTLQQRLQTEAQLQSFITTAQ" "o" "Han et al., 2011" -"EG10855-MONOMER" "VRYLATLLLSLAVLITAGCGWHLRDTTQVPSTMKVMILDSGDPNGPLSRAVRNQLRLNGVELLDKETTRKDVPSLRLGKVSIAKDTASVFRNGQTAEYQMIMTVNATVLIPGRDIYPISAKVFRSFFDNPQMALAKDNEQDMIVKEMYDRAAEQLIRKLPSIRAADIRSDEEQTSTTTDTPATPARVSTTLGN" "e" "EcoCyc dump" -"EG10856-MONOMER" "MKAFWRNAALLAVSLLPFSSANALALQAKQYGDFDRYVLALSWQTGFCQSQHDRNRNERDECRLQTETTNKADFLTVHGLWPGLPKSVAARGVDERRWMRFGCATRPIPNLPEARASRMCSSPETGLSLETAAKLSEVMPGAGGRSCLERYEYAKHGACFGFDPDAYFGTMVRLNQEIKESEAGKFLADNYGKTVSRRDFDAAFAKSWGKENVKAVKLTCQGNPAYLTEIQISIKADAINAPLSANSFLPQPHPGNCGKTFVIDKAGY" "p" "Han et al., 2011" -"EG10857-MONOMER" "MNPIVINRLQRKLGYTFNHQELLQQALTHRSASSKHNERLEFLGDSILSYVIANALYHRFPRVDEGDMSRMRATLVRGNTLAELAREFELGECLRLGPGELKSGGFRRESILADTVEALIGGVFLDSDIQTVEKLILNWYQTRLDEISPGDKQKDPKTRLQEYLQGRHLPLPTYLVVQVRGEAHDQEFTIHCQVSGLSEPVVGTGSSRRKAEQAAAEQALKKLELE" "c" "Lopez-Campistrous et al., 2005" -"EG10858-MONOMER" "LNYQMITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLFDGEHLALIDPLGITDWSPLKAILRDPSITKFLHAGSEDLEVFLNVFGELPQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLARPLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVVAPEDAWRDITNAWQLRTRQLACLQLLADWRLRKARERDLAVNFVVREEHLWSVARYMPGSLGELDSLGLSGSEIRFHGKTLLALVEKAQTLPEDALPQPMLNLMDMPGYRKAFKAIKSLITDVSETHKISAELLASRRQINQLLNWHWKLKPQNNLPELISGWRGELMAEALHNLLQEYPQ" "c" "Han et al., 2011" -"EG10859-MONOMER" "MKRMLINATQQEELRVALVDGQRLYDLDIESPGHEQKKANIYKGKITRIEPSLEAAFVDYGAERHGFLPLKEIAREYFPANYSAHGRPNIKDVLREGQEVIVQIDKEERGNKGAALTTFISLAGSYLVLMPNNPRAGGISRRIEGDDRTELKEALASLELPEGMGLIVRTAGVGKSAEALQWDLSFRLKHWEAIKKAAESRPAPFLIHQESNVIVRAFRDYLRQDIGEILIDNPKVLELARQHIAALGRPDFSSKIKLYTGEIPLFSHYQIESQIESAFQREVRLPSGGSIVIDSTEALTAIDINSARATRGGDIEETAFNTNLEAADEIARQLRLRDLGGLIVIDFIDMTPVRHQRAVENRLREAVRQDRARIQISHISRFGLLEMSRQRLSPSLGESSHHVCPRCSGTGTVRDNESLSLSILRLIEEEALKENTQEVHAIVPVPIASYLLNEKRSAVNAIETRQDGVRCVIVPNDQMETPHYHVLRVRKGEETPTLSYMLPKLHEEAMALPSEEEFAERKRPEQPALATFAMPDVPPAPTPAEPAAPVVAPAPKAAPATPAAPAQPGLLSRFFGALKALFSGGEETKPTEQPAPKAEAKPERQQDRRKPRQNNRRDRNERRDTRSERTEGSDNREENRRNRRQAQQQTAETRESRQQAEVTEKARTADEQQAPRRERSRRRNDDKRQAQQEAKALNVEEQSVQETEQEERVRPVQPRRKQRQLNQKVRYEQSVAEEAVVAPVVEETVAAEPIVQEAPAPRTELVKVPLPVVAQTAPEQQEENNADNRDNGGMPRRSRRSPRHLRVSGQRRRRYRDERYPTQSPMPLTVACASPELASGKVWIRYPIVRPQDVQVEEQREQEEVHVQPMVTEVPVAAAIEPVVSAPVVEEVAGVVEAPVQVAEPQPEVVETTHPEVIAAAVTEQPQVITESDVAVAQEVAEQAEPVVEPQEETADIEEVVETAEVVVAEPEVVAQPAAPVVAEVAAEVETVAAVEPEVTVEHNHATAPMTRAPAPEYVPEAPRHSDWQRPTFAFEGKGAAGGHTATHHASAAPARPQPVE" "i" "EcoCyc dump" -"EG10860-MONOMER" "MLKQVEIFTDGSCLGNPGPGGYGAILRYRGREKTFSAGYTRTTNNRMELMAAIVALEALKEHCEVILSTDSQYVRQGITQWIHNWKKRGWKTADKKPVKNVDLWQRLDAALGQHQIKWEWVKGHAGHPENERCDELARAAAMNPTLEDTGYQVEV" "c" "Han et al., 2011" -"EG10861-MONOMER" "MIEFVYPHTQLVAGVDEVGRGPLVGAVVTAAVILDPARPIAGLNDSKKLSEKRRLALYEEIKEKALSWSLGRAEPHEIDELNILHATMLAMQRAVAGLHIAPEYVLIDGNRCPKLPMPAMAVVKGDSRVPEISAASILAKVTRDAEMAALDIVFPQYGFAQHKGYPTAFHLEKLAEHGATEHHRRSFGPVKRALGLAS" "c" "Han et al., 2011" -"EG10862-MONOMER" "VVKLAFPRELRLLTPSQFTFVFQQPQRAGTPQITILGRLNSLGHPRIGLTVAKKNVRRAHERNRIKRLTRESFRLRQHELPAMDFVVVAKKGVADLDNRALSEALEKLWRRHCRLARGS" "c" "Han et al., 2011" -"EG10863-MONOMER" "MRPAGRSNNQVRPVTLTRNYTKHAEGSVLVEFGDTKVLCTASIEEGVPRFLKGQGQGWITAEYGMLPRSTHTRNAREAAKGKQGGRTMEIQRLIARALRAAVDLKALGEFTITLDCDVLQADGGTRTASITGACVALVDALQKLVENGKLKTNPMKGMVAAVSVGIVNGEAVCDLEYVEDSAAETDMNVVMTEDGRIIEVQGTAEGEPFTHEELLILLALARGESNPL" "c" "Han et al., 2011" -"EG10864-MONOMER" "MAKLTKRMRVIREKVDATKQYDINEAIALLKELATAKFVESVDVAVNLGIDARKSDQNVRGATVLPHGTGRSVRVAVFTQGANAEAAKAAGAELVGMEDLADQIKKGEMNFDVVIASPDAMRVVGQLGQVLGPRGLMPNPKVGTVTPNVAEAVKNAKAGQVRYRNDKNGIIHTTIGKVDFDADKLKENLEALLVALKKAKPTQAKGVYIKKVSISTTMGAGVAVDQAGLSASVN" "c" "Lopez-Campistrous et al., 2005" -"EG10865-MONOMER" "MAVVKCKPTSPGRRHVVKVVNPELHKGKPFAPLLEKNSKSGGRNNNGRITTRHIGGGHKQAYRIVDFKRNKDGIPAVVERLEYDPNRSANIALVLYKDGERRYILAPKGLKAGDQIQSGVDAAIKPGNTLPMRNIPVGSTVHNVEMKPGKGGQLARSAGTYVQIVARDGAYVTLRLRSGEMRKVEADCRATLGEVGNAEHMLRVLGKAGAARWRGVRPTVRGTAMNPVDHPHGGGEGRNFGKHPVTPWGVQTKGKKTRSNKRTDKFIVRRRSK" "c" "Han et al., 2011" -"EG10866-MONOMER" "MIGLVGKKVGMTRIFTEDGVSIPVTVIEVEANRVTQVKDLANDGYRAIQVTTGAKKANRVTKPEAGHFAKAGVEAGRGLWEFRLAEGEEFTVGQSISVELFADVKKVDVTGTSKGKGFAGTVKRWNFRTQDATHGNSLSHRVPGSIGQNQTPGKVFKGKKMAGQMGNERVTVQSLDVVRVDAERNLLLVKGAVPGATGSDLIVKPAVKA" "c" "Han et al., 2011" -"EG10867-MONOMER" "MELVLKDAQSALTVSETTFGRDFNEALVHQVVVAYAAGARQGTRAQKTRAEVTGSGKKPWRQKGTGRARSGSIKSPIWRSGGVTFAARPQDHSQKVNKKMYRGALKSILSELVRQDRLIVVEKFSVEAPKTKLLAQKLKDMALEDVLIITGELDENLFLAARNLHKVDVRDATGIDPVSLIAFDKVVMTADAVKQVEEMLA" "c" "Han et al., 2011" -"EG10868-MONOMER" "MAKLHDYYKDEVVKKLMTEFNYNSVMQVPRVEKITLNMGVGEAIADKKLLDNAAADLAAISGQKPLITKARKSVAGFKIRQGYPIGCKVTLRGERMWEFFERLITIAVPRIRDFRGLSAKSFDGRGNYSMGVREQIIFPEIDYDKVDRVRGLDITITTTAKSDEEGRALLAAFDFPFRK" "c" "Han et al., 2011" -"EG10869-MONOMER" "MSRVAKAPVVVPAGVDVKINGQVITIKGKNGELTRTLNDAVEVKHADNTLTFGPRDGYADGWAQAGTARALLNSMVIGVTEGFTKKLQLVGVGYRAAVKGNVINLSLGFSHPVDHQLPAGITAECPTQTEIVLKGADKQVIGQVAADLRAYRRPEPYKGKGVRYADEVVRTKEAKKK" "c" "Han et al., 2011" -"EG10870-MONOMER" "MQVILLDKVANLGSLGDQVNVKAGYARNFLVPQGKAVPATKKNIEFFEARRAELEAKLAEVLAAANARAEKINALETVTIASKAGDEGKLFGSIGTRDIADAVTAAGVEVAKSEVRLPNGVLRTTGEHEVSFQVHSEVFAKVIVNVVAE" "c" "Lopez-Campistrous et al., 2005" -"EG10871-MONOMER" "MALNLQDKQAIVAEVSEVAKGALSAVVADSRGVTVDKMTELRKAGREAGVYMRVVRNTLLRRAVEGTPFECLKDAFVGPTLIAYSMEHPGAAARLFKEFAKANAKFEVKAAAFEGELIPASQIDRLATLPTYEEAIARLMATMKEASAGKLVRTLAAVRDAKEAA" "c" "Lopez-Campistrous et al., 2005" -"EG10872-MONOMER" "MAKKVQAYVKLQVAAGMANPSPPVGPALGQQGVNIMEFCKAFNAKTDSIEKGLPIPVVITVYADRSFTFVTKTPPAAVLLKKAAGIKSGSGKPNKDKVGKISRAQLQEIAQTKAADMTGADIEAMTRSIEGTARSMGLVVED" "c" "Han et al., 2011" -"EG10873-MONOMER" "MSITKDQIIEAVAAMSVMDVVELISAMEEKFGVSAAAAVAVAAGPVEAAEEKTEFDVILKAAGANKVAVIKAVRGATGLGLKEAKDLVESAPAALKEGVSKDDAEALKKALEEAGAEVEVK" "c" "Lopez-Campistrous et al., 2005" -"EG10874-MONOMER" "MKTFTAKPETVKRDWYVVDATGKTLGRLATELARRLRGKHKAEYTPHVDTGDYIIVLNADKVAVTGNKRTDKVYYHHTGHIGGIKQATFEEMIARRPERVIEIAVKGMLPKGPLGRAMFRKLKVYAGNEHNHAAQQPQVLDI" "c" "Han et al., 2011" -"EG10875-MONOMER" "MIQEQTMLNVADNSGARRVMCIKVLGGSHRRYAGVGDIIKITIKEAIPRGKVKKGDVLKAVVVRTKKGVRRPDGSVIRFDGNACVLLNNNSEQPIGTRIFGPVTRELRSEKFMKIISLAPEVL" "c" "Han et al., 2011" -"EG10876-MONOMER" "MRLNTLSPAEGSKKAGKRLGRGIGSGLGKTGGRGHKGQKSRSGGGVRRGFEGGQMPLYRRLPKFGFTSRKAAITAEIRLSDLAKVEGGVVDLNTLKAANIIGIQIEFAKVILAGEVTTPVTVRGLRVTKGARAAIEAAGGKIEE" "c" "Lopez-Campistrous et al., 2005" -"EG10877-MONOMER" "MLQPKRTKFRKMHKGRNRGLAQGTDVSFGSFGLKAVGRGRLTARQIEAARRAMTRAVKRQGKIWIRVFPDKPITEKPLAVRMGKGKGNVEYWVALIQPGKVLYEMDGVPEELAREAFKLAAAKLPIKTTFVTKTVM" "c" "Han et al., 2011" -"EG10878-MONOMER" "MRHRKSGRQLNRNSSHRQAMFRNMAGSLVRHEIIKTTLPKAKELRRVVEPLITLAKTDSVANRRLAFARTRDNEIVAKLFNELGPRFASRAGGYTRILKCGFRAGDNAPMAYIELVDRSEKAEAAAE" "c" "Han et al., 2011" -"EG10879-MONOMER" "MDKKSARIRRATRARRKLQELGATRLVVHRTPRHIYAQVIAPNGSEVLVAASTVEKAIAEQLKYTGNKDAAAAVGKAVAERALEKGIKDVSFDRSGFQYHGRVQALADAAREAGLQF" "c" "Han et al., 2011" -"EG10880-MONOMER" "MSNIIKQLEQEQMKQDVPSFRPGDTVEVKVWVVEGSKKRLQAFEGVVIAIRNRGLHSAFTVRKISNGEGVERVFQTHSPVVDSISVKRRGAVRKAKLYYLRERTGKAARIKERLN" "c" "Han et al., 2011" -"EG10881-MONOMER" "MARVKRGVIARARHKKILKQAKGYYGARSRVYRVAFQAVIKAGQYAYRDRRQRKRQFRQLWIARINAAARQNGISYSKFINGLKKASVEIDRKILADIAVFDKVAFTALVEKAKAALA" "c" "Han et al., 2011" -"EG10882-MONOMER" "METIAKHRHARSSAQKVRLVADLIRGKKVSQALDILTYTNKKAAVLVKKVLESAIANAEHNDGADIDDLKVTKIFVDEGPSMKRIMPRAKGRADRILKRTSHITVVVSDR" "c" "Han et al., 2011" -"EG10883-MONOMER" "MIREERLLKVLRAPHVSEKASTAMEKSNTIVLKVAKDATKAEIKAAVQKLFEVEVEVVNTLVVKGKVKRHGQRIGRRSDWKKAYVTLKEGQNLDFVGGAE" "c" "Han et al., 2011" -"EG10884-MONOMER" "MAAKIRRDDEVIVLTGKDKGKRGKVKNVLSSGKVIVEGINLVKKHQKPVPALNQPGGIVEKEAAIQVSNVAIFNAATGKADRVGFRFEDGKKVRFFKSNSETIK" "c" "Han et al., 2011" -"EG10885-MONOMER" "MFTINAEVRKEQGKGASRRLRAANKFPAIIYGGKEAPLAIELDHDKVMNMQAKAEFYSEVLTIVVDGKEIKVKAQDVQRHPYKPKLQHIDFVRA" "c" "Han et al., 2011" -"EG10886-MONOMER" "MSRVCQVTGKRPVTGNNRSHALNATKRRFLPNLHSHRFWVESEKRFVTLRVSAKGMRVIDKKGIDTVLAELRARGEKY" "c" "Han et al., 2011" -"EG10887-MONOMER" "MKAKELREKSVEELNTELLNLLREQFNLRMQAASGQLQQSHLLKQVRRDVARVKTLLNEKAGA" "c" "Han et al., 2011" -"EG10888-MONOMER" "MAKTIKITQTRSAIGRLPKHKATLLGLGLRRIGHTVEREDTPAIRGMINAVSFMVKVEE" "c" "Han et al., 2011" -"EG10889-MONOMER" "MKKDIHPKYEEITASCSCGNVMKIRSTVGHDLNLDVCSKCHPFFTGKQRDVATGGRVDRFNKRFNIPGSK" "c" "Han et al., 2011" -"EG10890-MONOMER" "MAVQQNKPTRSKRGMRRSHDALTAVTSLSVDKTSGEKHLRHHITADGYYRGRKVIAK" "c" "Han et al., 2011" -"EG10891-MONOMER" "MAKGIREKIKLVSSAGTGHFYTTTKNKRTKPEKLELKKFDPVVRQHVIYKEAKIK" "c" "Han et al., 2011" -"EG10892-MONOMER" "MKRTFQPSVLKRNRSHGFRARMATKNGRQVLARRRAKGRARLTVSK" "c" "Han et al., 2011" -"EG10893-MONOMER" "MQGSVTEFLKPRLVDIEQVSSTHAKVTLEPLERGFGHTLGNALRRILLSSMPGCAVTEVEIDGVLHEYSTKEGVQEDILEILLNLKGLAVRVQGKDEVILTLNKSGIGPVTAADITHDGDVEIVKPQHVICHLTDENASISMRIKVQRGRGYVPASTRIHSEEDERPIGRLLVDACYSPVERIAYNVEAARVEQRTDLDKLVIEMETNGTIDPEEAIRRAATILAEQLEAFVDLRDVRQPEVKEEKPEFDPILLRPVDDLELTVRSANCLKAEAIHYIGDLVQRTEVELLKTPNLGKKSLTEIKDVLASRGLSLGMRLENWPPASIADE" "c" "Han et al., 2011" -"EG10899-MONOMER" "MARVTVQDAVEKIGNRFDLVLVAARRARQMQVGGKDPLVPEENDKTTVIALREIEEGLINNQILDVRERQEQQEQEAAELQAVTAIAEGRR" "c" "Han et al., 2011" -"EG10900-MONOMER" "MTESFAQLFEESLKEIETRPGSIVRGVVVAIDKDVVLVDAGLKSESAIPAEQFKNAQGELEIQVGDEVDVALDAVEDGFGETLLSREKAKRHEAWITLEKAYEDAETVTGVINGKVKGGFTVELNGIRAFLPGSLVDVRPVRDTLHLEGKELEFKVIKLDQKRNNVVVSRRAVIESENSAERDQLLENLQEGMEVKGIVKNLTDYGAFVDLGGVDGLLHITDMAWKRVKHPSEIVNVGDEITVKVLKFDRERTRVSLGLKQLGEDPWVAIAKRYPEGTKLTGRVTNLTDYGCFVEIEEGVEGLVHVSEMDWTNKNIHPSKVVNVGDVVEVMVLDIDEERRRISLGLKQCKANPWQQFAETHNKGDRVEGKIKSITDFGIFIGLDGGIDGLVHLSDISWNVAGEEAVREYKKGDEIAAVVLQVDAERERISLGVKQLAEDPFNNWVALNKKGAIVTGKVTAVDAKGATVELADGVEGYLRASEASRDRVEDATLVLSVGDEVEAKFTGVDRKNRAISLSVRAKDEADEKDAIATVNKQEDANFSNNAMAEAFKAAKGE" "c" "Lopez-Campistrous et al., 2005" -"EG10901-MONOMER" "MATVSMRDMLKAGVHFGHQTRYWNPKMKPFIFGARNKVHIINLEKTVPMFNEALAELNKIASRKGKILFVGTKRAASEAVKDAALSCDQFFVNHRWLGGMLTNWKTVRQSIKRLKDLETQSQDGTFDKLTKKEALMRTRELEKLENSLGGIKDMGGLPDALFVIDADHEHIAIKEANNLGIPVFAIVDTNSDPDGVDFVIPGNDDAIRAVTLYLGAVAATVREGRSQDLASQAEESFVEAE" "c" "Lopez-Campistrous et al., 2005" -"EG10902-MONOMER" "MGQKVHPNGIRLGIVKPWNSTWFANTKEFADNLDSDFKVRQYLTKELAKASVSRIVIERPAKSIRVTIHTARPGIVIGKKGEDVEKLRKVVADIAGVPAQINIAEVRKPELDAKLVADSITSQLERRVMFRRAMKRAVQNAMRLGAKGIKVEVSGRLGGAEIARTEWYREGRVPLHTLRADIDYNTSEAHTTYGVIGVKVWIFKGEILGGMAAVEQPEKPAAQPKKQQRKGRK" "c" "Han et al., 2011" -"EG10903-MONOMER" "MARYLGPKLKLSRREGTDLFLKSGVRAIDTKCKIEQAPGQHGARKPRLSDYGVQLREKQKVRRIYGVLERQFRNYYKEAARLKGNTGENLLALLEGRLDNVVYRMGFGATRAEARQLVSHKAIMVNGRVVNIASYQVSPNDVVSIREKAKKQSRVKAALELAEQREKPTWLEVDAGKMEGTFKRKPERSDLSADINEHLIVELYSK" "c" "Han et al., 2011" -"EG10904-MONOMER" "MAHIEKQAGELQEKLIAVNRVSKTVKGGRIFSFTALTVVGDGNGRVGFGYGKAREVPAAIQKAMEKARRNMINVALNNGTLQHPVKGVHTGSRVFMQPASEGTGIIAGGAMRAVLEVAGVHNVLAKAYGSTNPINVVRATIDGLENMNSPEMVAAKRGKSVEEILGK" "c" "Han et al., 2011" -"EG10905-MONOMER" "MRHYEIVFMVHPDQSEQVPGMIERYTAAITGAEGKIHRLEDWGRRQLAYPINKLHKAHYVLMNVEAPQEVIDELETTFRFNDAVIRSMVMRTKHAVTEASPMVKAKDERRERRDDFANETADDAEAGDSEE" "c" "Han et al., 2011" -"EG10906-MONOMER" "MPRRRVIGQRKILPDPKFGSELLAKFVNILMVDGKKSTAESIVYSALETLAQRSGKSELEAFEVALENVRPTVEVKSRRVGGSTYQVPVEVRPVRRNALAMRWIVEAARKRGDKSMALRLANELSDAAENKGTAVKKREDVHRMAEANKAFAHYRWLSLRSFSHQAGASSKQPALGYLN" "c" "Han et al., 2011" -"EG10907-MONOMER" "MSMQDPIADMLTRIRNGQAANKAAVTMPSSKLKVAIANVLKEEGFIEDFKVEGDTKPELELTLKYFQGKAVVESIQRVSRPGLRIYKRKDELPKVMAGLGIAVVSTSKGVMTDRAARQAGLGGEIICYVA" "c" "Han et al., 2011" -"EG10908-MONOMER" "MAENQYYGTGRRKSSAARVFIKPGNGKIVINQRSLEQYFGRETARMVVRQPLELVDMVEKLDLYITVKGGGISGQAGAIRHGITRALMEYDESLRSELRKAGFVTRDARQVERKKVGLRKARRRPQFSKR" "c" "Han et al., 2011" -"EG10909-MONOMER" "MQNQRIRIRLKAFDHRLIDQATAEIVETAKRTGAQVRGPIPLPTRKERFTVLISPHVNKDARDQYEIRTHLRLVDIVEPTEKTVDALMRLDLAAGVDVQISLG" "c" "Han et al., 2011" -"EG10910-MONOMER" "MAKAPIRARKRVRKQVSDGVAHIHASFNNTIVTITDRQGNALGWATAGGSGFRGSRKSTPFAAQVAAERCADAVKEYGIKNLEVMVKGPGPGRESTIRALNAAGFRITNITDVTPIPHNGCRPPKKRRV" "c" "Han et al., 2011" -"EG10911-MONOMER" "MATVNQLVRKPRARKVAKSNVPALEACPQKRGVCTRVYTTTPKKPNSALRKVCRVRLTNGFEVTSYIGGEGHNLQEHSVILIRGGRVKDLPGVRYHTVRGALDCSGVKDRKQARSKYGVKRPKA" "c" "Han et al., 2011" -"EG10912-MONOMER" "VARIAGINIPDHKHAVIALTSIYGVGKTRSKAILAAAGIAEDVKISELSEGQIDTLRDEVAKFVVEGDLRREISMSIKRLMDLGCYRGLRHRRGLPVRGQRTKTNARTRKGPRKPIKK" "c" "Han et al., 2011" -"EG10913-MONOMER" "MAKQSMKAREVKRVALADKYFAKRAELKAIISDVNASDEDRWNAVLKLQTLPRDSSPSRQRNRCRQTGRPHGFLRKFGLSRIKVREAAMRGEIPGLKKASW" "c" "Han et al., 2011" -"EG10914-MONOMER" "MSLSTEATAKIVSEFGRDANDTGSTEVQVALLTAQINHLQGHFAEHKKDHHSRRGLLRMVSQRRKLLDYLKRKDVARYTQLIERLGLRR" "c" "Han et al., 2011" -"EG10915-MONOMER" "MVTIRLARHGAKKRPFYQVVVADSRNARNGRFIERVGFFNPIASEKEEGTRLDLDRIAHWVGQGATISDRVAALIKEVNKAA" "c" "Han et al., 2011" -"EG10916-MONOMER" "MTDKIRTLQGRVVSDKMEKSIVVAIERFVKHPIYGKFIKRTTKLHVHDENNECGIGDVVEIRECRPLSKTKSWTLVRVVEKAVL" "c" "Han et al., 2011" -"EG10917-MONOMER" "MARYFRRRKFCRFTAEGVQEIDYKDIATLKNYITESGKIVPSRITGTRAKYQRQLARAIKRARYLSLLPYTDRHQ" "c" "Han et al., 2011" -"EG10918-MONOMER" "MPRSLKKGPFIDLHLLKKVEKAVESGDKKPLRTWSRRSTIFPNMIGLTIAVHNGRQHVPVFVTDEMVGHKLGEFAPTRTYRGHAADKKAKKK" "c" "Han et al., 2011" -"EG10919-MONOMER" "LANIKSAKKRAIQSEKARKHNASRRSMMRTFIKKVYAAIEAGDKAAAQKAFNEMQPIVDRQAAKGLIHKNKAARHKANLTAQINKLA" "c" "Han et al., 2011" -"EG10920-MONOMER" "MPVIKVRENEPFDVALRRFKRSCEKAGVLAEVRRREFYEKPTTERKRAKASAVKRHAKKLARENARRTRLY" "c" "Han et al., 2011" -"EG10921-MONOMER" "MLKPEMIEKLNEQMNLELYSSLLYQQMSAWCSYHTFEGAAAFLRRHAQEEMTHMQRLFDYLTDTGNLPRINTVESPFAEYSSLDELFQETYKHEQLITQKINELAHAAMTNQDYPTFNFLQWYVSEQHEEEKLFKSIIDKLSLAGKSGEGLYFIDKELSTLDTQN" "c" "Han et al., 2011" -"EG10923-MONOMER" "VIGRLRGIIIEKQPPLVLIEVGGVGYEVHMPMTCFYELPEAGQEAIVFTHFVVREDAQLLYGFNNKQERTLFKELIKTNGVGPKLALAILSGMSAQQFVNAVEREEVGALVKLPGIGKKTAERLIVEMKDRFKGLHGDLFTPAADLVLTSPASPATDDAEQEAVAALVALGYKPQEASRMVSKIARPDASSETLIREALRAAL" "c" "Han et al., 2011" -"EG10924-MONOMER" "MIEADRLISAGTTLPEDVADRAIRPKLLEEYVGQPQVRSQMEIFIKAAKLRGDALDHLLIFGPPGLGKTTLANIVANEMGVNLRTTSGPVLEKAGDLAAMLTNLEPHDVLFIDEIHRLSPVVEEVLYPAMEDYQLDIMIGEGPAARSIKIDLPPFTLIGATTRAGSLTSPLRDRFGIVQRLEFYQVPDLQYIVSRSARFMGLEMSDDGALEVARRARGTPRIANRLLRRVRDFAEVKHDGTISADIAAQALDMLNVDAEGFDYMDRKLLLAVIDKFFGGPVGLDNLAAAIGEERETIEDVLEPYLIQQGFLQRTPRGRMATTRAWNHFGITPPEMP" "c" "Han et al., 2011" -"EG10925-MONOMER" "MAIILGIDPGSRVTGYGVIRQVGRQLSYLGSGCIRTKVDDLPSRLKLIYAGVTEIITQFQPDYFAIEQVFMAKNADSALKLGQARGVAIVAAVNQELPVFEYAARQVKQTVVGIGSAEKSQVQHMVRTLLKLPANPQADAADALAIAITHCHVSQNAMQMSESRLNLARGRLR" "c" "Han et al., 2011" -"EG10926-MONOMER" "MMNDGKQQSTFLFHDYETFGTHPALDRPAQFAAIRTDSEFNVIGEPEVFYCKPADDYLPQPGAVLITGITPQEARAKGENEAAFAARIHSLFTVPKTCILGYNNVRFDDEVTRNIFYRNFYDPYAWSWQHDNSRWDLLDVMRACYALRPEGINWPENDDGLPSFRLEHLTKANGIEHSNAHDAMADVYATIAMAKLVKTRQPRLFDYLFTHRNKHKLMALIDVPQMKPLVHVSGMFGAWRGNTSWVAPLAWHPENRNAVIMVDLAGDISPLLELDSDTLRERLYTAKTDLGDNAAVPVKLVHINKCPVLAQANTLRPEDADRLGINRQHCLDNLKILRENPQVREKVVAIFAEAEPFTPSDNVDAQLYNGFFSDADRAAMKIVLETEPRNLPALDITFVDKRIEKLLFNYRARNFPGTLDYAEQQRWLEHRRQVFTPEFLQGYADELQMLVQQYADDKEKVALLKALWQYAEEIV" "c" "Han et al., 2011" -"EG10927-MONOMER" "MKILSLRLKNLNSLKGEWKIDFTREPFASNGLFAITGPTGAGKTTLLDAICLALYHETPRLSNVSQSQNDLMTRDTAECLAEVEFEVKGEAYRAFWSQNRARNQPDGNLQVPRVELARCADGKILADKVKDKLELTATLTGLDYGRFTRSMLLSQGQFAAFLNAKPKERAELLEELTGTEIYGQISAMVFEQHKSARTELEKLQAQASGVTLLTPEQVQSLTASLQVLTDEEKQLITAQQQEQQSLNWLTRQDELQQEASRRQQALQQALAEEEKAQPQLAALSLAQPARNLRPHWERIAEHSAALAHIRQQIEEVNTRLQSTMALRASIRHHAAKQSAELQQQQQSLNTWLQEHDRFRQWNNEPAGWRAQFSQQTSDREHLRQWQQQLTHAEQKLNALAAITLTLTADEVATALAQHAEQRPLRQHLVALHGQIVPQQKRLAQLQVAIQNVTQEQTQRNAALNEMRQRYKEKTQQLADVKTICEQEARIKTLEAQRAQLQAGQPCPLCGSTSHPAVEAYQALEPGVNQSRLLALENEVKKLGEEGATLRGQLDAITKQLQRDENEAQSLRQDEQALTQQWQAVTASLNITLQPLDDIQPWLDAQDEHERQLRLLSQRHELQGQIAAHNQQIIQYQQQIEQRQQLLLTTLTGYALTLPQEDEEESWLATRQQEAQSWQQRQNELTALQNRIQQLTPILETLPQSDELPHCEETVVLENWRQVHEQCLALHSQQQTLQQQDVLAAQSLQKAQAQFDTALQASVFDDQQAFLAALMDEQTLTQLEQLKQNLENQRRQAQTLVTQTAETLAQHQQHRPDDGLALTVTVEQIQQELAQTHQKLRENTTSQGEIRQQLKQDADNRQQQQTLMQQIAQMTQQVEDWGYLNSLIGSKEGDKFRKFAQGLTLDNLVHLANQQLTRLHGRYLLQRKASEALEVEVVDTWQADAVRDTRTLSGGESFLVSLALALALSDLVSHKTRIDSLFLDEGFGTLDSETLDTALDALDALNASGKTIGVISHVEAMKERIPVQIKVKKINGLGYSKLESTFAVK" "c" "Han et al., 2011" -"EG10941-MONOMER" "MTTETRSLYSQLPAIDRLLRDSSFLSLRDTYGHTRVVELLRQMLDEAREVIRGSQTLPAWCENWAQEVDARLTKEAQSALRPVINLTGTVLHTNLGRALQAEAAVEAVAQAMRSPVTLEYDLDDAGRGHRDRALAQLLCRITGAEDACIVNNNAAAVLLMLAATASGKEVVVSRGELVEIGGAFRIPDVMRQAGCTLHEVGTTNRTHANDYRQAVNENTALLMKVHTSNYSIQGFTKAIDEAELVALGKELDVPVVTDLGSGSLVDLSQYGLPKEPMPQELIAAGVSLVSFSGDKLLGGPQAGIIVGKKEMIARLQSHPLKRALRADKMTLAALEATLRLYLHPEALSEKLPTLRLLTRSAEVIQIQAQRLQAPLAAHYGAEFAVQVMPCLSQIGSGSLPVDRLPSAALTFTPHDGRGSHLESLAARWRELPVPVIGRIYDGRLWLDLRCLEDEQRFLEMLLK" "c" "Han et al., 2011" -"EG10942-MONOMER" "MIIATAGHVDHGKTTLLQAITGVNADRLPEEKKRGMTIDLGYAYWPQPDGRVPGFIDVPGHEKFLSNMLAGVGGIDHALLVVACDDGVMAQTREHLAILQLTGNPMLTVALTKADRVDEARVDEVERQVKEVLREYGFAEAKLFITAATEGRGMDALREHLLQLPEREHASQHSFRLAIDRAFTVKGAGLVVTGTALSGEVKVGDSLWLTGVNKPMRVRALHAQNQPTETANAGQRIALNIAGDAEKEQINRGDWLLADVPPEPFTRVIVELQTHTPLTQWQPLHIHHAASHVTGRVSLLEDNLAELVFDTPLWLADNDRLVLRDISARNTLAGARVVMLNPPRRGKRKPEYLQWLASLARAQSDADALSVHLERGAVNLADFAWARQLNGEGMRELLQQPGYIQAGYSLLNAPVAARWQRKILDTLATYHEQHRDEPGPGRERLRRMALPMEDEALVLLLIEKMRESGDIHSHHGWLHLPDHKAGFSEEQQAIWQKAEPLFGDEPWWVRDLAKETGTDEQAMRLTLRQAAQQGIITAIVKDRYYRNDRIVEFANMIRDLDQECGSTCAADFRDRLGVGRKLAIQILEYFDRIGFTRRRGNDHLLRDALLFPEK" "c" "Han et al., 2011" -"EG10943-MONOMER" "MSENSIRLTQYSHGAGCGCKISPKVLETILHSEQAKFVDPNLLVGNETRDDAAVYDLGNGTSVISTTDFFMPIVDNPFDFGRIAATNAISDIFAMGGKPIMAIAILGWPINKLSPEIAREVTEGGRYACRQAGIALAGGHSIDAPEPIFGLAVTGIVPTERVKKNSTAQAGCKLFLTKPLGIGVLTTAEKKSLLKPEHQGLATEVMCRMNIAGASFANIEGVKAMTDVTGFGLLGHLSEMCQGAGVQARVDYEAIPKLPGVEEYIKLGAVPGGTERNFASYGHLMGEMPREVRDLLCDPQTSGGLLLAVMPEAENEVKATAAEFGIELTAIGELVPARGGRAMVEIR" "c" "Lopez-Campistrous et al., 2005" -"EG10949-MONOMER" "MEFSPPLQRATLIQRYKRFLADVITPDGRELTLHCPNTGAMTGCATPGDTVWYSTSDNTKRKYPHTWELTQSQSGAFICVNTLWANRLTKEAILNESISELSGYSSLKSEVKYGAERSRIDFMLQADSRPDCYIEVKSVTLAENEQGYFPDAVTERGQKHLRELMSVAAEGQRAVIFFAVLHSAITRFSPARHIDEKYAQLLSEAQQRGVEILAYKAEISAEGMALKKSLPVTL" "c" "Han et al., 2011" -"EG10950-MONOMER" "VEKAKQVTWRLLAAGVCLLTVSSVARADSLDEQRSRYAQIKQAWDNRQMDVVEQMMPGLKDYPLYPYLEYRQITDDLMNQPAVTVTNFVRANPTLPPARTLQSRFVNELARREDWRGLLAFSPEKPGTTEAQCNYYYAKWNTGQSEEAWQGAKELWLTGKSQPNACDKLFSVWRASGKQDPLAYLERIRLAMKAGNTGLVTVLAGQMPADYQTIASAIISLANNPNTVLTFARTTGATDFTRQMAAVAFASVARQDAENARLMIPSLAQAQQLNEDQIQELRDIVAWRLMGNDVTDEQAKWRDDAIMRSQSTSLIERRVRMALGTGDRRGLNTWLARLPMEAKEKDEWRYWQADLLLERGREAEAKEILHQLMQQRGFYPMVAAQRIGEEYELKIDKAPQNVDSALTQGPEMARVRELMYWNLDNTARSEWANLVKSKSKTEQAQLARYAFNNQWWDLSVQATIAGKLWDHLEERFPLAYNDLFKRYTSGKEIPQSYAMAIARQESAWNPKVKSPVGASGLMQIMPGTATHTVKMFSIPGYSSPGQLLDPETNINIGTSYLQYVYQQFGNNRIFSSAAYNAGPGRVRTWLGNSAGRIDAVAFVESIPFSETRGYVKNVLAYDAYYRYFMGDKPTLMSATEWGRRY" "p" "Han et al., 2011" -"EG10951-MONOMER" "MARTKLKFRLHRAVIVLFCLALLVALMQGASWFSQNHQRQRNPQLEELARTLARQVTLNVAPLMRTDSPDEKRIQAILDQLTDESRILDAGVYDEQGDLIARSGESVEVRDRLALDGKKAGGYFNQQIVEPIAGKNGPLGYLRLTLDTHTLATEAQQVDNTTNILRLMLLLSLAIGVVLTRTLLQGKRTRWQQSPFLLTASKPVPEEEESEKKE" "i" "Han et al., 2011" -"EG10952-MONOMER" "MRCKTLTAAAAVLLMLTAGCSTLERVVYRPDINQGNYLTANDVSKIRVGMTQQQVAYALGTPLMSDPFGTNTWFYVFRQQPGHEGVTQQTLTLTFNSSGVLTNIDNKPALSGN" "e" "EcoCyc dump" -"EG10955-MONOMER" "MPANARSHAVLTTESKVTIRGQTTIPAPVREALKLKPGQDSIHYEILPGGQVFMCRLGDEQEDHTMNAFLRFLDADIQNNPQKTRPFNIQQGKKLVAGMDVNIDDEIGDDE" "c" "Han et al., 2011" -"EG10956-MONOMER" "VELLSEYGLFLAKIVTVVLAIAAIAAIIVNVAQRNKRQRGELRVNNLSEQYKEMKEELAAALMDSHQQKQWHKAQKKKHKQEAKAAKAKAKLGEVATDSKPRVWVLDFKGSMDAHEVNSLREEITAVLAAFKPQDQVVLRLESPGGMVHGYGLAASQLQRLRDKNIPLTVTVDKVAASGGYMMACVADKIVSAPFAIVGSIGVVAQMPNFNRFLKSKDIDIELHTAGQYKRTLTLLGENTEEGREKFREELNETHQLFKDFVKRMRPSLDIEQVATGEHWYGQQAVEKGLVDEINTSDEVILSLMEGREVVNVRYMQRKRLIDRFTGSAAESADRLLLRWWQRGQKPLM" "i" "Han et al., 2011" -"EG10967-MONOMER" "MNPTRYARICEMLARRQPDLTVCMEQVHKPHNVSAIIRTADAVGVHEVHAVWPGSRMRTMASAAAGSNSWVQVKTHRTIGDAVAHLKGQGMQILATHLSDNAVDFREIDYTRPTCILMGQEKTGITQEALALADQDIIIPMIGMVQSLNVSVASALILYEAQRQRQNAGMYLRENSMLPEAEQQRLLFEGGYPVLAKVAKRKGLPYPHVNQQGEIEADADWWATMQAAG" "c" "Han et al., 2011" -"EG10968-MONOMER" "MRTLWRFIAGFFKWTWRLLNFVREMVLNLFFIFLVLVGVGIWMQVSGGDSKETASRGALLLDISGVIVDKPDSSQRFSKLSRQLLGASSDRLQENSLFDIVNTIRQAKDDRNITGIVMDLKNFAGGDQPSMQYIGKALKEFRDSGKPVYAVGENYSQGQYYLASFANKIWLSPQGVVDLHGFATNGLYYKSLLDKLKVSTHVFRVGTYKSAVEPFIRDDMSPAAREADSRWIGELWQNYLNTVAANRQIPAEQVFPGAQGLLEGLTKTGGDTAKYALENKLVDALASSAEIEKALTKEFGWSKTDKNYRAISYYDYALKTPADTGDSIGVVFANGAIMDGEETQGNVGGDTTAAQIRDARLDPKVKAIVLRVNSPGGSVTASEVIRAELAAARAAGKPVVVSMGGMAASGGYWISTPANYIVANPSTLTGSIGIFGVITTVENSLDSIGVHTDGVSTSPLADVSITRALPPEAQLMMQLSIENGYKRFITLVADARHSTPEQIDKIAQGHVWTGQDAKANGLVDSLGDFDDAVAKAAELAKVKQWHLEYYVDEPTFFDKVMDNMSGSVRAMLPDAFQAMLPAPLASVASTVKSESDKLAAFNDPQNRYAFCLTCANMR" "i" "Han et al., 2011" -"EG10973-MONOMER" "MSEALLNAGRQTLMLELQEASRLPERLGDDFVRAANIILHCEGKVVVSGIGKSGHIGKKIAATLASTGTPAFFVHPAEALHGDLGMIESRDVMLFISYSGGAKELDLIIPRLEDKSIALLAMTGKPTSPLGLAAKAVLDISVEREACPMHLAPTSSTVNTLMMGDALAMAVMQARGFNEEDFARSHPAGALGARLLNKVHHLMRRDDAIPQVALTASVMDAMLELSRTGLGLVAVCDAQQQVQGVFTDGDLRRWLVGGGALTTPVNEAMTVGGTTLQSQSRAIDAKEILMKRKITAAPVVDENGKLTGAINLQDFYQAGII" "c" "Han et al., 2011" -"EG10975-MONOMER" "MTVTTFSELELDESLLEALQDKGFTRPTAIQAAAIPPALDGRDVLGSAPTGTGKTAAYLLPALQHLLDFPRKKSGPPRILILTPTRELAMQVSDHARELAKHTHLDIATITGGVAYMNHAEVFSENQDIVVATTGRLLQYIKEENFDCRAVETLILDEADRMLDMGFAQDIEHIAGETRWRKQTLLFSATLEGDAIQDFAERLLEDPVEVSANPSTRERKKIHQWYYRADDLEHKTALLVHLLKQPEATRSIVFVRKRERVHELANWLREAGINNCYLEGEMVQGKRNEAIKRLTEGRVNVLVATDVAARGIDIPDVSHVFNFDMPRSGDTYLHRIGRTARAGRKGTAISLVEAHDHLLLGKVGRYIEEPIKARVIDELRPKTRAPSEKQTGKPSKKVLAKRAEKKKAKEKEKPRVKKRHRDTKNIGKRRKPSGTGVPPQTTEE" "c" "Han et al., 2011" -"EG10976-MONOMER" "MASRGVNKVILVGNLGQDPEVRYMPNGGAVANITLATSESWRDKATGEMKEQTEWHRVVLFGKLAEVASEYLRKGSQVYIEGQLRTRKWTDQSGQDRYTTEVVVNVGGTMQMLGGRQGGGAPAGGNIGGGQPQGGWGQPQQPQGGNQFSGGAQSRPQQSAPAAPSNEPPMDFDDDIPF" "c" "Han et al., 2011" -"EG10977-MONOMER" "MAVAANKRSVMTLFSGPTDIYSHQVRIVLAEKGVSFEIEHVEKDNPPQDLIDLNPNQSVPTLVDRELTLWESRIIMEYLDERFPHPPLMPVYPVARGESRLYMHRIEKDWYTLMNTIINGSASEADAARKQLREELLAIAPVFGQKPYFLSDEFSLVDCYLAPLLWRLPQLGIEFSGPGAKELKGYMTRVFERDSFLASLTEAEREMRLGRS" "c" "Lopez-Campistrous et al., 2005" -"EG10978-MONOMER" "MDLSQLTPRRPYLLRAFYEWLLDNQLTPHLVVDVTLPGVQVPMEYARDGQIVLNIAPRAVGNLELANDEVRFNARFGGIPRQVSVPLAAVLAIYARENGAGTMFEPEAAYDEDTSIMNDEEASADNETVMSVIDGDKPDHDDDTHPDDEPPQPPRGGRPALRVVK" "c" "Han et al., 2011" -"EG10983-MONOMER" "MHPMLNIAVRAARKAGNLIAKNYETPDAVEASQKGSNDFVTNVDKAAEAVIIDTIRKSYPQHTIITEESGELEGTDQDVQWVIDPLDGTTNFIKRLPHFAVSIAVRIKGRTEVAVVYDPMRNELFTATRGQGAQLNGYRLRGSTARDLDGTILATGFPFKAKQYATTYINIVGKLFNECADFRRTGSAALDLAYVAAGRVDGFFEIGLRPWDFAAGELLVREAGGIVSDFTGGHNYMLTGNIVAGNPRVVKAMLANMRDELSDALKR" "c" "Han et al., 2011" -"EG10984-MONOMER" "MYTSGYAHRSSSFSSAASKIARVSTENTTAGLISEVVYREDQPMMTQLLLLPLLQQLGQQSRWQLWLTPQQKLSREWVQASGLPLTKVMQISQLSPCHTVESMVRALRTGNYSVVIGWLADDLTEEEHAELVDAANEGNAMGFIMRPVSASSHATRQLSGLKIHSNLYH" "i" "Han et al., 2011" -"EG10985-MONOMER" "MKNWKTLLLGIAMIANTSFAAPQVVDKVAAVVNNGVVLESDVDGLMQSVKLNAAQARQQLPDDATLRHQIMERLIMDQIILQMGQKMGVKISDEQLDQAIANIAKQNNMTLDQMRSRLAYDGLNYNTYRNQIRKEMIISEVRNNEVRRRITILPQEVESLAQQVGNQNDASTELNLSHILIPLPENPTSDQVNEAESQARAIVDQARNGADFGKLAIAHSADQQALNGGQMGWGRIQELPGIFAQALSTAKKGDIVGPIRSGVGFHILKVNDLRGESKNISVTEVHARHILLKPSPIMTDEQARVKLEQIAADIKSGKTTFAAAAKEFSQDPGSANQGGDLGWATPDIFDPAFRDALTRLNKGQMSAPVHSSFGWHLIELLDTRNVDKTDAAQKDRAYRMLMNRKFSEEAASWMQEQRASAYVKILSN" "p" "Lopez-Campistrous et al., 2005" -"EG10986-MONOMER" "MERCGWVSQDPLYIAYHDNEWGVPETDSKKLFEMICLEGQQAGLSWITVLKKRENYRACFHQFDPVKVAAMQEEDVERLVQDAGIIRHRGKIQAIIGNARAYLQMEQNGEPFVDFVWSFVNHQPQVTQATTLSEIPTSTSASDALSKALKKRGFKFVGTTICYSFMQACGLVNDHVVGCCCYPGNKP" "c" "Han et al., 2011" -"EG10996-MONOMER" "MKFELDTTDGRARRGRLVFDRGVVETPCFMPVGTYGTVKGMTPEEVEATGAQIILGNTFHLWLRPGQEIMKLHGDLHDFMQWKGPILTDSGGFQVFSLGDIRKITEQGVHFRNPINGDPIFLDPEKSMEIQYDLGSDIVMIFDECTPYPADWDYAKRSMEMSLRWAKRSRERFDSLGNKNALFGIIQGSVYEDLRDISVKGLVDIGFDGYAVGGLAVGEPKADMHRILEHVCPQIPADKPRYLMGVGKPEDLVEGVRRGIDMFDCVMPTRNARNGHLFVTDGVVKIRNAKYKSDTGPLDPECDCYTCRNYSRAYLHHLDRCNEILGARLNTIHNLRYYQRLMAGLRKAIEEGKLESFVTDFYQRQGREVPPLNVD" "c" "Han et al., 2011" -"EG10997-MONOMER" "MSDNDTIVAQATPPGRGGVGILRISGFKAREVAETVLGKLPKPRYADYLPFKDADGSVLDQGIALWFPGPNSFTGEDVLELQGHGGPVILDLLLKRILTIPGLRIARPGEFSERAFLNDKLDLAQAEAIADLIDASSEQAARSALNSLQGAFSARVNHLVEALTHLRIYVEAAIDFPDEEIDFLSDGKIEAQLNDVIADLDAVRAEARQGSLLREGMKVVIAGRPNAGKSSLLNALAGREAAIVTDIAGTTRDVLREHIHIDGMPLHIIDTAGLREASDEVERIGIERAWQEIEQADRVLFMVDGTTTDAVDPAEIWPEFIARLPAKLPITVVRNKADITGETLGMSEVNGHALIRLSARTGEGVDVLRNHLKQSMGFDTNMEGGFLARRRHLQALEQAAEHLQQGKAQLLGAWAGELLAEELRLAQQNLSEITGEFTSDDLLGRIFSSFCIGK" "i" "EcoCyc dump" -"EG11003-MONOMER" "MQVSVETTQGLGRRVTITIAADSIETAVKSELVNVAKKVRIDGFRKGKVPMNIVAQRYGASVRQDVLGDLMSRNFIDAIIKEKINPAGAPTYVPGEYKLGEDFTYSVEFEVYPEVELQGLEAIEVEKPIVEVTDADVDGMLDTLRKQQATWKEKDGAVEAEDRVTIDFTGSVDGEEFEGGKASDFVLAMGQGRMIPGFEDGIKGHKAGEEFTIDVTFPEEYHAENLKGKAAKFAINLKKVEERELPELTAEFIKRFGVEDGSVEGLRAEVRKNMERELKSAIRNRVKSQAIEGLVKANDIDVPAALIDSEIDVLRRQAAQRFGGNEKQALELPRELFEEQAKRRVVVGLLLGEVIRTNELKADEERVKGLIEEMASAYEDPKEVIEFYSKNKELMDNMRNVALEEQAVEAVLAKAKVTEKETTFNELMNQQA" "c" "Lopez-Campistrous et al., 2005" -"EG11004-MONOMER" "MLPKAARIPHAMTLHGDTRIDNYYWLRDDTRSQPEVLDYLQQENSYGHRVMASQQALQDRILKEIIDRIPQREVSAPYIKNGYRYRHIYEPGCEYAIYQRQSAFSEEWDEWETLLDANKRAAHSEFYSMGGMAITPDNTIMALAEDFLSRRQYGIRFRNLETGNWYPELLDNVEPSFVWANDSWIFYYVRKHPVTLLPYQVWRHAIGTPASQDKLIYEEKDDTYYVSLHKTTSKHYVVIHLASATTSEVRLLDAEMADAEPFVFLPRRKDHEYSLDHYQHRFYLRSNRHGKNFGLYRTRMRDEQQWEELIPPRENIMLEGFTLFTDWLVVEERQRGLTSLRQINRKTREVIGIAFDDPAYVTWIAYNPEPETARLRYGYSSMTTPDTLFELDMDTGERRVLKQTEVPGFYAANYRSEHLWIVARDGVEVPVSLVYHRKHFRKGHNPLLVYGYGSYGASIDADFSFSRLSLLDRGFVYAIVHVRGGGELGQQWYEDGKFLKKKNTFNDYLDACDALLKLGYGSPSLCYAMGGSAGGMLMGVAINQRPELFHGVIAQVPFVDVVTTMLDESIPLTTGEFEEWGNPQDPQYYEYMKSYSPYDNVTAQAYPHLLVTTGLHDSQVQYWEPAKWVAKLRELKTDDHLLLLCTDMDSGHGGKSGRFKSYEGVAMEYAFLVALAQGTLPATPAD" "c" "Han et al., 2011" -"EG11007-MONOMER" "VSKATEQNDKLKRAIIISAVLHVILFAALIWSSFDENIEASAGGGGGSSIDAVMVDSGAVVEQYKRMQSQESSAKRSDEQRKMKEQQAAEELREKQAAEQERLKQLEKERLAAQEQKKQAEEAAKQAELKQKQAEEAAAKAAADAKAKAEADAKAAEEAAKKAAADAKKKAEAEAAKAAAEAQKKAEAAAAALKKKAEAAEAAAAEARKKAATEAAEKAKAEAEKKAAAEKAAADKKAAAEKAAADKKAAEKAAAEKAAADKKAAAEKAAADKKAAAAKAAAEKAAAAKAAAEADDIFGELSSGKNAPKTGGGAKGNNASPAGSGNTKNNGASGADINNYAGQIKSAIESKFYDASSYAGKTCTLRIKLAPDGMLLDIKPEGGDPALCQAALAAAKLAKIPKPPSQAVYEVFKNAPLDFKP" "i" "Han et al., 2011" -"EG11008-MONOMER" "MKQALRVAFGFLILWASVLHAEVRIVIDSGVDSGRPIGVVPFQWAGPGAAPEDIGGIVAADLRNSGKFNPLDRARLPQQPGSAQEVQPAAWSALGIDAVVVGQVTPNPDGSYNVAYQLVDTGGAPGTVLAQNSYKVNKQWLRYAGHTASDEVFEKLTGIKGAFRTRIAYVVQTNGGQFPYELRVSDYDGYNQFVVHRSPQPLMSPAWSPDGSKLAYVTFESGRSALVIQTLANGAVRQVASFPRHNGAPAFSPDGSKLAFALSKTGSLNLYVMDLASGQIRQVTDGRSNNTEPTWFPDSQNLAFTSDQAGRPQVYKVNINGGAPQRITWEGSQNQDADVSSDGKFMVMVSSNGGQQHIAKQDLATGGVQVLSSTFLDETPSLAPNGTMVIYSSSQGMGSVLNLVSTDGRFKARLPATDGQVKFPAWSPYL" "p" "Lopez-Campistrous et al., 2005" -"EG11009-MONOMER" "MKKLLPILIGLSLSGFSSLSQAENLMQVYQQARLSNPELRKSAADRDAAFEKINEARSPLLPQLGLGADYTYSNGYRDANGINSNATSASLQLTQSIFDMSKWRALTLQEKAAGIQDVTYQTDQQTLILNTATAYFNVLNAIDVLSYTQAQKEAIYRQLDQTTQRFNVGLVAITDVQNARAQYDTVLANEVTARNNLDNAVEQLRQITGNYYPELAALNVENFKTDKPQPVNALLKEAEKRNLSLLQARLSQDLAREQIRQAQDGHLPTLDLTASTGISDTSYSGSKTRGAAGTQYDDSNMGQNKVGLSFSLPIYQGGMVNSQVKQAQYNFVGASEQLESAHRSVVQTVRSSFNNINASISSINAYKQAVVSAQSSLDAMEAGYSVGTRTIVDVLDATTTLYNAKQELANARYNYLINQLNIKSALGTLNEQDLLALNNALSKPVSTNPENVAPQTPEQNAIADGYAPDSPAPVVQQTSARTTTSNGHNPFRN" "e" "EcoCyc dump" -"EG11010-MONOMER" "VTDMNILDLFLKASLLVKLIMLILIGFSIASWAIIIQRTRILNAAAREAEAFEDKFWSGIELSRLYQESQGKRDNLTGSEQIFYSGFKEFVRLHRANSHAPEAVVEGASRAMRISMNRELENLETHIPFLGTVGSISPYIGLFGTVWGIMHAFIALGAVKQATLQMVAPGIAEALIATAIGLFAAIPAVMAYNRLNQRVNKLELNYDNFMEEFTAILHRQAFTVSESNKG" "i" "Han et al., 2011" -"EG11011-MONOMER" "MARARGRGRRDLKSEINIVPLLDVLLVLLLIFMATAPIITQSVEVDLPDATESQAVSSNDNPPVIVEVSGIGQYTVVVEKDRLERLPPEQVVAEVSSRFKANPKTVFLIGGAKDVPYDEIIKALNLLHSAGVKSVGLMTQPI" "i" "Han et al., 2011" -"EG11012-MONOMER" "MTLDLPRRFPWPTLLSVCIHGAVVAGLLYTSVHQVIELPAPAQPISVTMVTPADLEPPQAVQPPPEPVVEPEPEPEPIPEPPKEAPVVIEKPKPKPKPKPKPVKKVQEQPKRDVKPVESRPASPFENTAPARLTSSTATAATSKPVTSVASGPRALSRNQPQYPARAQALRIEGQVKVKFDVTPDGRVDNVQILSAKPANMFEREVKNAMRRWRYEPGKPGSGIVVNILFKINGTTEIQ" "i" "Han et al., 2011" -"EG11013-MONOMER" "MGKALVIVESPAKAKTINKYLGSDYVVKSSVGHIRDLPTSGSAAKKSADSTSTKTAKKPKKDERGALVNRMGVDPWHNWEAHYEVLPGKEKVVSELKQLAEKADHIYLATDLDREGEAIAWHLREVIGGDDARYSRVVFNEITKNAIRQAFNKPGELNIDRVNAQQARRFMDRVVGYMVSPLLWKKIARGLSAGRVQSVAVRLVVEREREIKAFVPEEFWEVDASTTTPSGEALALQVTHQNDKPFRPVNKEQTQAAVSLLEKARYSVLEREDKPTTSKPGAPFITSTLQQAASTRLGFGVKKTMMMAQRLYEAGYITYMRTDSTNLSQDAVNMVRGYISDNFGKKYLPESPNQYASKENSQEAHEAIRPSDVNVMAESLKDMEADAQKLYQLIWRQFVACQMTPAKYDSTTLTVGAGDFRLKARGRILRFDGWTKVMPALRKGDEDRILPAVNKGDALTLVELTPAQHFTKPPARFSEASLVKELEKRGIGRPSTYASIISTIQDRGYVRVENRRFYAEKMGEIVTDRLEENFRELMNYDFTAQMENSLDQVANHEAEWKAVLDHFFSDFTQQLDKAEKDPEEGGMRPNQMVLTSIDCPTCGRKMGIRTASTGVFLGCSGYALPPKERCKTTINLVPENEVLNVLEGEDAETNALRAKRRCPKCGTAMDSYLIDPKRKLHVCGNNPTCDGYEIEEGEFRIKGYDGPIVECEKCGSEMHLKMGRFGKYMACTNEECKNTRKILRNGEVAPPKEDPVPLPELPCEKSDAYFVLRDGAAGVFLAANTFPKSRETRAPLVEELYRFRDRLPEKLRYLADAPQQDPEGNKTMVRFSRKTKQQYVSSEKDGKATGWSAFYVDGKWVEGKK" "c" "Han et al., 2011" -"EG11014-MONOMER" "MRLFIAEKPSLARAIADVLPKPHRKGDGFIECGNGQVVTWCIGHLLEQAQPDAYDSRYARWNLADLPIVPEKWQLQPRPSVTKQLNVIKRFLHEASEIVHAGDPDREGQLLVDEVLDYLQLAPEKRQQVQRCLINDLNPQAVERAIDRLRSNSEFVPLCVSALARARADWLYGINMTRAYTILGRNAGYQGVLSVGRVQTPVLGLVVRRDEEIENFVAKDFFEVKAHIVTPADERFTAIWQPSEACEPYQDEEGRLLHRPLAEHVVNRISGQPAIVTSYNDKRESESAPLPFSLSALQIEAAKRFGLSAQNVLDICQKLYETHKLITYPRSDCRYLPEEHFAGRHAVMNAISVHAPDLLPQPVVDPDIRNRCWDDKKVDAHHAIIPTARSSAINLTENEAKVYNLIARQYLMQFCPDAVFRKCVIELDIAKGKFVAKARFLAEAGWRTLLGSKERDEENDGTPLPVVAKGDELLCEKGEVVERQTQPPRHFTDATLLSAMTGIARFVQDKDLKKILRATDGLGTEATRAGIIELLFKRGFLTKKGRYIHSTDAGKALFHSLPEMATRPDMTAHWESVLTQISEKQCRYQDFMQPLVGTLYQLIDQAKRTPVRQFRGIVAPGSGGSADKKKAAPRKRSAKKSPPADEVGSGAIA" "c" "Han et al., 2011" -"EG11016-MONOMER" "MRGRMRSFDQGSTRAPARERCRRQRPEGRSAQR" "c" "Unambiguous EcoCyc data" -"EG11022-MONOMER" "MTPEHLPTEQYEAQLAEKVVRLQSMMAPFSDLVPEVFRSPVSHYRMRAEFRIWHDGDDLYHIIFDQQTKSRIRVDSFPAASELINQLMTAMIAGVRNNPVLRHKLFQIDYLTTLSNQAVVSLLYHKKLDDEWRQEAEALRDALRAQNLNVHLIGRATKTKIELDQDYIDERLPVAGKEMIYRQVENSFTQPNAAMNIQMLEWALDVTKGSKGDLLELYCGNGNFSLALARNFDRVLATEIAKPSVAAAQYNIAANHIDNVQIIRMAAEEFTQAMNGVREFNRLQGIDLKSYQCETIFVDPPRSGLDSETEKMVQAYPRILYISCNPETLCKNLETLSQTHKVERLALFDQFPYTHHMECGVLLTAK" "c" "Han et al., 2011" -"EG11023-MONOMER" "MWIGIISLFPEMFRAITDYGVTGRAVKNGLLSIQSWSPRDFTHDRHRTVDDRPYGGGPGMLMMVQPLRDAIHAAKAAAGEGAKVIYLSPQGRKLDQAGVSELATNQKLILVCGRYEGIDERVIQTEIDEEWSIGDYVLSGGELPAMTLIDSVSRFIPGVLGHEASATEDSFAEGLLDCPHYTRPEVLEGMEVPPVLLSGNHAEIRRWRLKQSLGRTWLRRPELLENLALTEEQARLLAEFKTEHAQQQHKHDGMA" "c" "Han et al., 2011" -"EG11033-MONOMER" "MAEITASLVKELRERTGAGMMDCKKALTEANGDIELAIENMRKSGAIKAAKKAGNVAADGVIKTKIDGNYGIILEVNCQTDFVAKDAGFQAFADKVLDAAVAGKITDVEVLKAQFEEERVALVAKIGENINIRRVAALEGDVLGSYQHGARIGVLVAAKGADEELVKHIAMHVAASKPEFIKPEDVSAEVVEKEYQVQLDIAMQSGKPKEIAEKMVEGRMKKFTGEVSLTGQPFVMEPSKTVGQLLKEHNAEVTGFIRFEVGEGIEKVETDFAAEVAAMSKQS" "c" "Lopez-Campistrous et al., 2005" -"EG11035-MONOMER" "MKKTLLAAGAVLALSSSFTVNAAENDKPQYLSDWWHQSVNVVGSYHTRFGPQIRNDTYLEYEAFAKKDWFDFYGYADAPVFFGGNSDAKGIWNHGSPLFMEIEPRFSIDKLTNTDLSFGPFKEWYFANNYIYDMGRNKDGRQSTWYMGLGTDIDTGLPMSLSMNVYAKYQWQNYGAANENEWDGYRFKIKYFVPITDLWGGQLSYIGFTNFDWGSDLGDDSGNAINGIKTRTNNSIASSHILALNYDHWHYSVVARYWHDGGQWNDDAELNFGNGNFNVRSTGWGGYLVVGYNF" "o" "Han et al., 2011" -"EG11036-MONOMER" "VSKEKFERTKPHVNVGTIGHVDHGKTTLTAAITTVLAKTYGGAARAFDQIDNAPEEKARGITINTSHVEYDTPTRHYAHVDCPGHADYVKNMITGAAQMDGAILVVAATDGPMPQTREHILLGRQVGVPYIIVFLNKCDMVDDEELLELVEMEVRELLSQYDFPGDDTPIVRGSALKALEGDAEWEAKILELAGFLDSYIPEPERAIDKPFLLPIEDVFSISGRGTVVTGRVERGIIKVGEEVEIVGIKETQKSTCTGVEMFRKLLDEGRAGENVGVLLRGIKREEIERGQVLAKPGTIKPHTKFESEVYILSKDEGGRHTPFFKGYRPQFYFRTTDVTGTIELPEGVEMVMPGDNIKMVVTLIHPIAMDDGLRFAIREGGRTVGAGVVAKVLG" "i" "Lopez-Campistrous et al., 2005" -"EG11037-MONOMER" "MSKEKFERTKPHVNVGTIGHVDHGKTTLTAAITTVLAKTYGGAARAFDQIDNAPEEKARGITINTSHVEYDTPTRHYAHVDCPGHADYVKNMITGAAQMDGAILVVAATDGPMPQTREHILLGRQVGVPYIIVFLNKCDMVDDEELLELVEMEVRELLSQYDFPGDDTPIVRGSALKALEGDAEWEAKILELAGFLDSYIPEPERAIDKPFLLPIEDVFSISGRGTVVTGRVERGIIKVGEEVEIVGIKETQKSTCTGVEMFRKLLDEGRAGENVGVLLRGIKREEIERGQVLAKPGTIKPHTKFESEVYILSKDEGGRHTPFFKGYRPQFYFRTTDVTGTIELPEGVEMVMPGDNIKMVVTLIHPIAMDDGLRFAIREGGRTVGAGVVAKVLS" "c" "Han et al., 2011" -"EG11038-MONOMER" "MARYDLVDRLNTTFRQMEQELAIFAAHLEQHKLLVARVFSLPEVKKEDEHNPLNRIEVKQHLGNDAQSLALRHFRHLFIQQQSENRSSKAAVRLPGVLCYQVDNLSQAALVSHIQHINKLKTTFEHIVTVESELPTAARFEWVHRHLPGLITLNAYRTLTVLHDPATLRFGWANKHIIKNLHRDEVLAQLEKSLKSPRSVAPWTREEWQRKLEREYQDIAALPQNAKLKIKRPVKVQPIARVWYKGDQKQVQHACPTPLIALINRDNGAGVPDVGELLNYDADNVQHRYKPQAQPLRLIIPRLHLYVAD" "c" "Han et al., 2011" -"EG11056-MONOMER" "MFALCDVNAFYASCETVFRPDLWGKPVVVLSNNDGCVIARNAEAKALGVKMGDPWFKQKDLFRRCGVVCFSSNYELYADMSNRVMSTLEELSPRVEIYSIDEAFCDLTGVRNCRDLTDFGREIRATVLQRTHLTVGVGIAQTKTLAKLANHAAKKWQRQTGGVVDLSNLERQRKLMSALPVDDVWGIGRRISKKLDAMGIKTVLDLADTDIRFIRKHFNVVLERTVRELRGEPCLQLEEFAPTKQEIICSRSFGERITDYPSMRQAICSYAARAAEKLRSEHQYCRFISTFIKTSPFALNEPYYGNSASVKLLTPTQDSRDIINAATRSLDAIWQAGHRYQKAGVMLGDFFSQGVAQLNLFDDNAPRPGSEQLMTVMDTLNAKEGRGTLYFAGQGIQQQWQMKRAMLSPRYTTRSSDLLRVK" "c" "Han et al., 2011" -"EG11057-MONOMER" "MLFIKPADLREIVTFPLFSDLVQCGFPSPAADYVEQRIDLNQLLIQHPSATYFVKASGDSMIDGGISDGDLLIVDSAITASHGDIVIAAVDGEFTVKKLQLRPTVQLIPMNSAYSPITISSEDTLDVFGVVIHVVKAMR" "c" "Han et al., 2011" -"EG11058-MONOMER" "MANELTWHDVLAEEKQQPYFLNTLQTVASERQSGVTIYPPQKDVFNAFRFTELGDVKVVILGQDPYHGPGQAHGLAFSVRPGIAIPPSLLNMYKELENTIPGFTRPNHGYLESWARQGVLLLNTVLTVRAGQAHSHASLGWETFTDKVISLINQHREGVVFLLWGSHAQKKGAIIDKQRHHVLKAPHPSPLSAHRGFFGCNHFVLANQWLEQRGETPIDWMPVLPAESE" "c" "Han et al., 2011" -"EG11059-MONOMER" "MSEGWNIAVLGATGAVGEALLETLAERQFPVGEIYALARNESAGEQLRFGGKTITVQDAAEFDWTQAQLAFFVAGKEATAAWVEEATNSGCLVIDSSGLFALEPDVPLVVPEVNPFVLTDYRNRNVIAVPDSLTSQLLAALKPLIDQGGLSRISVTSLISASAQGKKAVDALAGQSAKLLNGIPIDEEDFFGRQLAFNMLPLLPDSEGSVREERRIVDEVRKILQDEGLMISASVVQAPVFYGHAQMVNFEALRPLAAEEARDAFVQGEDIVLSEENEFPTQVGDASGTPHLSVGCVRNDYGMPEQVQFWSVADNVRFGGALMAVKIAEKLVQEYLY" "c" "Lopez-Campistrous et al., 2005" -"EG11061-MONOMER" "MDKIEVRGARTHNLKNINLVIPRDKLIVVTGLSGSGKSSLAFDTLYAEGQRRYVESLSAYARQFLSLMEKPDVDHIEGLSPAISIEQKSTSHNPRSTVGTITEIHDYLRLLFARVGEPRCPDHDVPLAAQTVSQMVDNVLSQPEGKRLMLLAPIIKERKGEHTKTLENLASQGYIRARIDGEVCDLSDPPKLELQKKHTIEVVVDRFKVRDDLTQRLAESFETALELSGGTAVVADMDDPKAEELLFSANFACPICGYSMRELEPRLFSFNNPAGACPTCDGLGVQQYFDPDRVIQNPELSLAGGAIRGWDRRNFYYFQMLKSLADHYKFDVEAPWGSLSANVHKVVLYGSGKENIEFKYMNDRGDTSIRRHPFEGVLHNMERRYKETESSAVREELAKFISNRPCASCEGTRLRREARHVYVENTPLPAISDMSIGHAMEFFNNLKLAGQRAKIAEKILKEIGDRLKFLVNVGLNYLTLSRSAETLSGGEAQRIRLASQIGAGLVGVMYVLDEPSIGLHQRDNERLLGTLIHLRDLGNTVIVVEHDEDAIRAADHVIDIGPGAGVHGGEVVAEGPLEAIMAVPESLTGQYMSGKRKIEVPKKRVPANPEKVLKLTGARGNNLKDVTLTLPVGLFTCITGVSGSGKSTLINDTLFPIAQRQLNGATIAEPAPYRDIQGLEHFDKVIDIDQSPIGRTPRSNPATYTGVFTPVRELFAGVPESRARGYTPGRFSFNVRGGRCEACQGDGVIKVEMHFLPDIYVPCDQCKGKRYNRETLEIKYKGKTIHEVLDMTIEEAREFFDAVPALARKLQTLMDVGLTYIRLGQSATTLSGGEAQRVKLARELSKRGTGQTLYILDEPTTGLHFADIQQLLDVLHKLRDQGNTIVVIEHNLDVIKTADWIVDLGPEGGSGGGEILVSGTPETVAECEASHTARFLKPML" "c" "Han et al., 2011" -"EG11062-MONOMER" "MSKPFKLNSAFKPSGDQPEAIRRLEEGLEDGLAHQTLLGVTGSGKTFTIANVIADLQRPTMVLAPNKTLAAQLYGEMKEFFPENAVEYFVSYYDYYQPEAYVPSSDTFIEKDASVNEHIEQMRLSATKAMLERRDVVVVASVSAIYGLGDPDLYLKMMLHLTVGMIIDQRAILRRLAELQYARNDQAFQRGTFRVRGEVIDIFPAESDDIALRVELFDEEVERLSLFDPLTGQIVSTIPRFTIYPKTHYVTPRERIVQAMEEIKEELAARRKVLLENNKLLEEQRLTQRTQFDLEMMNELGYCSGIENYSRFLSGRGPGEPPPTLFDYLPADGLLVVDESHVTIPQIGGMYRGDRARKETLVEYGFRLPSALDNRPLKFEEFEALAPQTIYVSATPGNYELEKSGGDVVDQVVRPTGLLDPIIEVRPVATQVDDLLSEIRQRAAINERVLVTTLTKRMAEDLTEYLEEHGERVRYLHSDIDTVERMEIIRDLRLGEFDVLVGINLLREGLDMPEVSLVAILDADKEGFLRSERSLIQTIGRAARNVNGKAILYGDKITPSMAKAIGETERRREKQQKYNEEHGITPQGLNKKVVDILALGQNIAKTKAKGRGKSRPIVEPDNVPMDMSPKALQQKIHELEGLMMQHAQNLEFEEAAQIRDQLHQLRELFIAAS" "c" "Han et al., 2011" -"EG11063-MONOMER" "VSDQFDAKAFLKTVTSQPGVYRMYDAGGTVIYVGKAKDLKKRLSSYFRSNLASRKTEALVAQIQQIDVTVTHTETEALLLEHNYIKLYQPRYNVLLRDDKSYPFIFLSGDTHPRLAMHRGAKHAKGEYFGPFPNGYAVRETLALLQKIFPIRQCENSVYRNRSRPCLQYQIGRCLGPCVEGLVSEEEYAQQVEYVRLFLSGKDDQVLTQLISRMETASQNLEFEEAARIRDQIQAVRRVTEKQFVSNTGDDLDVIGVAFDAGMACVHVLFIRQGKVLGSRSYFPKVPGGTELSEVVETFVGQFYLQGSQMRTLPGEILLDFNLSDKTLLADSLSELAGRKINVQTKPRGDRARYLKLARTNAATALTSKLSQQSTVHQRLTALASVLKLPEVKRMECFDISHTMGEQTVASCVVFDANGPLRAEYRRYNITGITPGDDYAAMNQVLRRRYGKAIDDSKIPDVILIDGGKGQLAQAKNVFAELDVSWDKNHPLLLGVAKGADRKAGLETLFFEPEGEGFSLPPDSPALHVIQHIRDESHDHAIGGHRKKRAKVKNTSSLETIEGVGPKRRQMLLKYMGGLQGLRNASVEEIAKVPGISQGLAEKIFWSLKH" "c" "Han et al., 2011" -"EG11064-MONOMER" "MDVSYLLDSLNDKQREAVAAPRSNLLVLAGAGSGKTRVLVHRIAWLMSVENCSPYSIMAVTFTNKAAAEMRHRIGQLMGTSQGGMWVGTFHGLAHRLLRAHHMDANLPQDFQILDSEDQLRLLKRLIKAMNLDEKQWPPRQAMWYINSQKDEGLRPHHIQSYGNPVEQTWQKVYQAYQEACDRAGLVDFAELLLRAHELWLNKPHILQHYRERFTNILVDEFQDTNNIQYAWIRLLAGDTGKVMIVGDDDQSIYGWRGAQVENIQRFLNDFPGAETIRLEQNYRSTSNILSAANALIENNNGRLGKKLWTDGADGEPISLYCAFNELDEARFVVNRIKTWQDNGGALAECAILYRSNAQSRVLEEALLQASMPYRIYGGMRFFERQEIKDALSYLRLIANRNDDAAFERVVNTPTRGIGDRTLDVVRQTSRDRQLTLWQACRELLQEKALAGRAASALQRFMELIDALAQETADMPLHVQTDRVIKDSGLRTMYEQEKGEKGQTRIENLEELVTATRQFSYNEEDEDLMPLQAFLSHAALEAGEGQADTWQDAVQLMTLHSAKGLEFPQVFIVGMEEGMFPSQMSLDEGGRLEEERRLAYVGVTRAMQKLTLTYAETRRLYGKEVYHRPSRFIGELPEECVEEVRLRATVSRPVSHQRMGTPMVENDSGYKLGQRVRHAKFGEGTIVNMEGSGEHSRLQVAFQGQGIKWLVAAYARLESV" "c" "Han et al., 2011" -"EG11068-MONOMER" "MADVHDKATRSKNMRAIATRDTAIEKRLASLLTGQGLAFRVQDASLPGRPDFVVDEYRCVIFTHGCFWHHHHCYLFKVPATRTEFWLEKIGKNVERDRRDISRLQELGWRVLIVWECALRGREKLTDEALTERLEEWICGEGASAQIDTQGIHLLA" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"EG11069-MONOMER" "MTDLHTDVERYLRYLSVERQLSPITLLNYQRQLEAIINFASENGLQSWQQCDVTMVRNFAVRSRRKGLGAASLALRLSALRSFFDWLVSQNELKANPAKGVSAPKAPRHLPKNIDVDDMNRLLDIDINDPLAVRDRAMLEVMYGAGLRLSELVGLDIKHLDLESGEVWVMGKGSKERRLPIGRNAVAWIEHWLDLRDLFGSEDDALFLSKLGKRISARNVQKRFAEWGIKQGLNNHVHPHKLRHSFATHMLESSGDLRGVQELLGHANLSTTQIYTHLDFQHLASVYDAAHPRAKRGK" "c" "Han et al., 2011" -"EG11071-MONOMER" "VKQDLARIEQFLDALWLEKNLAENTLNAYRRDLSMMVEWLHHRGLTLATAQSDDLQALLAERLEGGYKATSSARLLSAVRRLFQYLYREKFREDDPSAHLASPKLPQRLPKDLSEAQVERLLQAPLIDQPLELRDKAMLEVLYATGLRVSELVGLTMSDISLRQGVVRVIGKGNKERLVPLGEEAVYWLETYLEHGRPWLLNGVSIDVLFPSQRAQQMTRQTFWHRIKHYAVLAGIDSEKLSPHVLRHAFATHLLNHGADLRVVQMLLGHSDLSTTQIYTHVATERLRQLHQQHHPRA" "c" "Han et al., 2011" -"EG11072-MONOMER" "MLPSQSPAIFTVSRLNQTVRLLLEHEMGQVWISGEISNFTQPASGHWYFTLKDDTAQVRCAMFRNSNRRVTFRPQHGQQVLVRANITLYEPRGDYQIIVESMQPAGEGLLQQKYEQLKAKLQAEGLFDQQYKKPLPSPAHCVGVITSKTGAALHDILHVLKRRDPSLPVIIYPAAVQGDDAPGQIVRAIELANQRNECDVLIVGRGGGSLEDLWSFNDERVARAIFTSRIPVVSAVGHETDVTIADFVADLRAPTPSAAAEVVSRNQQELLRQVQSTRQRLEMAMDYYLANRTRRFTQIHHRLQQQHPQLRLARQQTMLERLQKRMSFALENQLKRTGQQQQRLTQRLNQQNPQPKIHRAQTRIQQLEYRLAETLRAQLSATRERFGNAVTHLEAVSPLSTLARGYSVTTATDGNVLKKVKQVKAGEMLTTRLEDGWIESEVKNIQPVKKSRKKVH" "c" "Han et al., 2011" -"EG11073-MONOMER" "MKFVSFNINGLRARPHQLEAIVEKHQPDVIGLQETKVHDDMFPLEEVAKLGYNVFYHGQKGHYGVALLTKETPIAVRRGFPGDDEEAQRRIIMAEIPSLLGNVTVINGYFPQGESRDHPIKFPAKAQFYQNLQNYLETELKRDNPVLIMGDMNISPTDLDIGIGEENRKRWLRTGKCSFLPEEREWMDRLMSWGLVDTFRHANPQTADRFSWFDYRSKGFDDNRGLRIDLLLASQPLAECCVETGIDYEIRSMEKPSDHAPVWATFRR" "c" "Han et al., 2011" -"EG11080-MONOMER" "MSESVQSNSAVLVHFTLKLDDGTTAESTRNNGKPALFRLGDASLSEGLEQHLLGLKVGDKTTFSLEPDAAFGVPSPDLIQYFSRREFMDAGEPEIGAIMLFTAMDGSEMPGVIREINGDSITVDFNHPLAGQTVHFDIEVLEIDPALEA" "c" "Han et al., 2011" -"EG11081-MONOMER" "MQILLANPRGFCAGVDRAISIVENALAIYGAPIYVRHEVVHNRYVVDSLRERGAIFIEQISEVPDGAILIFSAHGVSQAVRNEAKSRDLTVFDATCPLVTKVHMEVARASRRGEESILIGHAGHPEVEGTMGQYSNPEGGMYLVESPDDVWKLTVKNEEKLSFMTQTTLSVDDTSDVIDALRKRFPKIVGPRKDDICYATTNRQEAVRALAEQAEVVLVVGSKNSSNSNRLAELAQRMGKRAFLIDDAKDIQEEWVKEVKCVGVTAGASAPDILVQNVVARLQQLGGGEAIPLEGREENIVFEVPKELRVDIREVD" "c" "Han et al., 2011" -"EG11082-MONOMER" "MRLPIFLDTDPGIDDAVAIAAAIFAPELDLQLMTTVAGNVSVEKTTRNALQLLHFWNAEIPLAQGAAVPLVRAPRDAASVHGESGMAGYDFVEHNRKPLGIPAFLAIRDALMRAPEPVTLVAIGPLTNIALLLSQCPECKPYIRRLVIMGGSAGRGNCTPNAEFNIAADPEAAACVFRSGIEIVMCGLDVTNQAILTPDYLSTLPQLNRTGKMLHALFSHYRSGSMQSGLRMHDLCAIAWLVRPDLFTLKPCFVAVETQGEFTSGTTVVDIDGCLGKPANVQVALDLDVKGFQQWVAEVLALAS" "c" "Han et al., 2011" -"EG11083-MONOMER" "MPFTLGQRWISDTESELGLGTVVAVDARTVTLLFPSTGENRLYARSDSPVTRVMFNPGDTITSHDGWQMQVEEVKEENGLLTYIGTRLDTEESGVALREVFLDSKLVFSKPQDRLFAGQIDRMDRFALRYRARKYSSEQFRMPYSGLRGQRTSLIPHQLNIAHDVGRRHAPRVLLADEVGLGKTIEAGMILHQQLLSGAAERVLIIVPETLQHQWLVEMLRRFNLRFALFDDERYAEAQHDAYNPFDTEQLVICSLDFARRSKQRLEHLCEAEWDLLVVDEAHHLVWSEDAPSREYQAIEQLAEHVPGVLLLTATPEQLGMESHFARLRLLDPNRFHDFAQFVEEQKNYRPVADAVAMLLAGNKLSNDELNMLGEMIGEQDIEPLLQAANSDSEDAQSARQELVSMLMDRHGTSRVLFRNTRNGVKGFPKRELHTIKLPLPTQYQTAIKVSGIMGARKSAEDRARDMLYPERIYQEFEGDNATWWNFDPRVEWLMGYLTSHRSQKVLVICAKAATALQLEQVLREREGIRAAVFHEGMSIIERDRAAAWFAEEDTGAQVLLCSEIGSEGRNFQFASHMVMFDLPFNPDLLEQRIGRLDRIGQAHDIQIHVPYLEKTAQSVLVRWYHEGLDAFEHTCPTGRTIYDSVYNDLINYLASPDQTEGFDDLIKNCREQHEALKAQLEQGRDRLLEIHSNGGEKAQALAESIEEQDDDTNLIAFAMNLFDIIGINQDDRGDNMIVLTPSDHMLVPDFPGLSEDGITITFDREVALAREDAQFITWEHPLIRNGLDLILSGDTGSSTISLLKNKALPVGTLLVELIYVVEAQAPKQLQLNRFLPPTPVRMLLDKNGNNLAAQVEFETFNRQLNAVNRHTGSKLVNAVQQDVHAILQLGEAQIEKSARALIDAARNEADEKLSAELSRLEALRAVNPNIRDDELTAIESNRQQVMESLDQAGWRLDALRLIVVTHQ" "c" "Han et al., 2011" -"EG11084-MONOMER" "MFRGATLVNLDSKGRLSVPTRYREQLLENAAGQMVCTIDIYHPCLLLYPLPEWEIIEQKLSRLSSMNPVERRVQRLLLGHASECQMDGAGRLLIAPVLRQHAGLTKEVMLVGQFNKFELWDETTWHQQVKEDIDAEQLATGDLSERLQDLSL" "c" "Han et al., 2011" -"EG11085-MONOMER" "MMENYKHTTVLLDEAVNGLNIRPDGIYIDGTFGRGGHSRLILSQLGEEGRLLAIDRDPQAIAVAKTIDDPRFSIIHGPFSALGEYVAERDLIGKIDGILLDLGVSSPQLDDAERGFSFMRDGPLDMRMDPTRGQSAAEWLQTAEEADIAWVLKTYGEERFAKRIARAIVERNREQPMTRTKELAEVVAAATPVKDKFKHPATRTFQAVRIWVNSELEEIEQALKSSLNVLAPGGRLSIISFHSLEDRIVKRFMRENSRGPQVPAGLPMTEEQLKKLGGRQLRALGKLMPGEEEVAENPRARSSVLRIAERTNA" "c" "Han et al., 2011" -"EG11086-MONOMER" "MISRVTEALSKVKGSMGSHERHALPGVIGDDLLRFGKLPLCLFICIILTAVTVVTTAHHTRLLTAQREQLVLERDALDIEWRNLILEENALGDHSRVERIATEKLQMQHVDPSQENIVVQK" "i" "EcoCyc dump" -"EG11087-MONOMER" "VSGILTRWRQFGKRYFWPHLLLGMVAASLGLPALSNAAEPNAPAKATTRNHEPSAKVNFGQLALLEANTRRPNSNYSVDYWHQHAIRTVIRHLSFAMAPQTLPVAEESLPLQAQHLALLDTLSALLTQEGTPSEKGYRIDYAHFTPQAKFSTPVWISQAQGIRAGPQRLT" "p" "Han et al., 2011" -"EG11088-MONOMER" "MAYSKIRQPKLSDVIEQQLEFLILEGTLRPGEKLPPERELAKQFDVSRPSLREAIQRLEAKGLLLRRQGGGTFVQSSLWQSFSDPLVELLSDHPESQYDLLETRHALEGIAAYYAALRSTDEDKERIRELHHAIELAQQSGDLDAESNAVLQYQIAVTEAAHNVVLLHLLRCMEPMLAQNVRQNFELLYSRREMLPLVSSHRTRIFEAIMAGKPEEAREASHRHLAFIEEILLDRSREESRRERSLRRLEQRKN" "c" "Han et al., 2011" -"EG11089-MONOMER" "MKTFFRTVLFGSLMAVCANSYALSESEAEDMADLTAVFVFLKNDCGYQNLPNGQIRRALVFFAQQNQWDLSNYDTFDMKALGEDSYRDLSGIGIPVAKKCKALARDSLSLLAYVK" "p" "Han et al., 2011" -"EG11090-MONOMER" "MKIGIIGAMEEEVTLLRDKIENRQTISLGGCEIYTGQLNGTEVALLKSGIGKVAAALGATLLLEHCKPDVIINTGSAGGLAPTLKVGDIVVSDEARYHDADVTAFGYEYGQLPGCPAGFKADDKLIAAAEACIAELNLNAVRGLIVSGDAFINGSVGLAKIRHNFPQAIAVEMEATAIAHVCHNFNVPFVVVRAISDVADQQSHLSFDEFLAVAAKQSSLMVESLVQKLAHG" "c" "Lopez-Campistrous et al., 2005" -"EG11091-MONOMER" "MTQANLSETLFKPRFKHPETSTLVRRFNHGAQPPVQSALDGKTIPHWYRMINRLMWIWRGIDPREILDVQARIVMSDAERTDDDLYDTVIGYRGGNWIYEWATQAMVWQQKACAEDDPQLSGRHWLHAATLYNIAAYPHLKGDDLAEQAQALSNRAYEEAAQRLPGTMRQMEFTVPGGAPITGFLHMPKGDGPFPTVLMCGGLDAMQTDYYSLYERYFAPRGIAMLTIDMPSVGFSSKWKLTQDSSLLHQHVLKALPNVPWVDHTRVAAFGFRFGANVAVRLAYLESPRLKAVACLGPVVHTLLSDFKCQQQVPEMYLDVLASRLGMHDASDEALRVELNRYSLKVQGLLGRRCPTPMLSGYWKNDPFSPEEDSRLITSSSADGKLLEIPFNPVYRNFDKGLQEITDWIEKRLC" "c" "Han et al., 2011" -"EG11092-MONOMER" "MTLPSGHPKSRLIKKFTALGPYIREGKCKDNRFFFDCLAVCVNVKPAPEVREFWGWWMELEAQESRFTYSYQFGLFDKAGDWKSVPVKDTEVVERLEHTLREFHEKLRELLTTLNLKLEPADDFRDEPVKLTA" "c" "Han et al., 2011" -"EG11093-MONOMER" "MPTKPPYPREAYIVTIEKGKPGQTVTWYQLRADHPKPDSLISEHPTAQEAMDAKKRYEDPDKE" "c" "Han et al., 2011" -"EG11094-MONOMER" "MRILHTSDWHLGQNFYSKSREAEHQAFLDWLLETAQTHQVDAIIVAGDVFDTGSPPSYARTLYNRFVVNLQQTGCHLVVLAGNHDSVATLNESRDIMAFLNTTVVASAGHAPQILPRRDGTPGAVLCPIPFLRPRDIITSQAGLNGIEKQQHLLAAITDYYQQHYADACKLRGDQPLPIIATGHLTTVGASKSDAVRDIYIGTLDAFPAQNFPPADYIALGHIHRAQIIGGMEHVRYCGSPIPLSFDECGKSKYVHLVTFSNGKLESVENLNVPVTQPMAVLKGDLASITAQLEQWRDVSQEPPVWLDIEITTDEYLHDIQRKIQALTESLPVEVLLVRRSREQRERVLASQQRETLSELSVEEVFNRRLALEELDESQQQRLQHLFTTTLHTLAGEHEA" "c" "Han et al., 2011" -"EG11095-MONOMER" "MNFLAHLHLAHLAESSLSGNLLADFVRGNPEESFPPDVVAGIHMHRRIDVLTDNLPEVREAREWFRSETRRVAPITLDVMWDHFLSRHWSQLSPDFPLQEFVCYAREQVMTILPDSPPRFINLNNYLWSEQWLVRYRDMDFIQNVLNGMASRRPRLDALRDSWYDLDAHYDALETRFWQFYPRMMAQASRKAL" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"EG11096-MONOMER" "MSFFISDAVAATGAPAQGSPMSLILMLVVFGLIFYFMILRPQQKRTKEHKKLMDSIAKGDEVLTNGGLVGRVTKVAENGYIAIALNDTTEVVIKRDFVAAVLPKGTMKAL" "i" "Han et al., 2011" -"EG11097-MONOMER" "MAIIPKNYARLESGYREKALKIYPWVCGRCSREFVYSNLRELTVHHIDHDHTNNPEDGSNWELLCLYCHDHEHSKYTEADQYGTTVIAGEDAQKDVGEAKYNPFADLKAMMNKKK" "c" "Han et al., 2011" -"EG11098-MONOMER" "MPKKNEAPASFEKALSELEQIVTRLESGDLPLEEALNEFERGVQLARQGQAKLQQAEQRVQILLSDNEDASLTPFTPDNE" "c" "Han et al., 2011" -"EG11099-MONOMER" "MKYVDGFVVAVPADKKDAYREMAAKAAPLFKEFGALRIVECWASDVPDGKVTDFRMAVKAEENEEVVFSWIEYPSKEVRDAANQKMMSDPRMKEFGESMPFDGKRMIYGGFESIIDE" "c" "Han et al., 2011" -"EG11100-MONOMER" "MFGKGGLGNLMKQAQQMQEKMQKMQEEIAQLEVTGESGAGLVKVTINGAHNCRRVEIDPSLLEDDKEMLEDLVAAAFNDAARRIEETQKEKMASVSSGMQLPPGFKMPF" "c" "Han et al., 2011" -"EG11101-MONOMER" "MKPENKLPVLDLISAEMKTVVNTLQPDLPPWPATGTIAEQRQYYTLERRFWNAGAPEMATRAYMVPTKYGQVETRLFCPQPDSPATLFYLHGGGFILGNLDTHDRIMRLLASYSQCTVIGIDYTLSPEARFPQAIEEIVAACCYFHQQAEDYQINMSRIGFAGDSAGAMLALASALWLRDKQIDCGKVAGVLLWYGLYGLRDSVTRRLLGGVWDGLTQQDLQMYEEAYLSNDADRESPYYCLFNNDLTREVPPCFIAGAEFDPLLDDSRLLYQTLAAHQQPCEFKLYPGTLHAFLHYSRMMKTADEALRDGAQFFTAQL" "c" "Han et al., 2011" -"EG11103-MONOMER" "MKPTSVIIMDTHPIIRMSIEVLLQKNSELQIVLKTDDYRITIDYLRTRPVDLIIMDIDLPGTDGFTFLKRIKQIQSTVKVLFLSSKSECFYAGRAIQAGANGFVSKCNDQNDIFHAVQMILSGYTFFPSETLNYIKSNKCSTNSSTVTVLSNREVTILRYLVSGLSNKEIADKLLLSNKTVSAHKSNIYGKLGLHSIVELIDYAKLYELI" "c" "Han et al., 2011" -"EG11105-MONOMER" "MIWKRHLTLDELNATSDNTMVAHLGIVYTRLGDDVLEAEMPVDTRTHQPFGLLHGGASAALAETLGSMAGFMMTRDGQCVVGTELNATHHRPVSEGKVRGVCQPLHLGRQNQSWEIVVFDEQGRRCCTCRLGTAVLG" "c" "Han et al., 2011" -"EG11108-MONOMER" "MNLQRFDDSTLIRIFALHELHRLKEHGLTRGALLDYHSRYKLVFLAHSQPEYRKLGPFVADIHQWQNLDDYYNQYRQRVVVLLSHPANPRDHTNVLMHVQGYFRPHIDSTERQQLAALIDSYRRGEQPLLAPLMRIKHYMALYPDAWLSGQRYFELWPRVINLRHSGVL" "c" "Han et al., 2011" -"EG11110-MONOMER" "VNTTLFRWPVRVYYEDTDAGGVVYHASYVAFYERARTEMLRHHHFSQQALMAERVAFVVRKMTVEYYAPARLDDMLEIQTEITSMRGTSLVFTQRIVNAENTLLNEAEVLVVCVDPLKMKPRALPKSIVAEFKQ" "c" "Han et al., 2011" -"EG11111-MONOMER" "MEKGTVKWFNNAKGFGFICPEGGGEDIFAHYSTIQMDGYRTLKAGQSVQFDVHQGPKGNHASVIVPVEVEAAVA" "c" "Han et al., 2011" -"EG11112-MONOMER" "MRLVQLSRHSIAFPSPEGALREPNGLLALGGDLSPARLLMAYQRGIFPWFSPGDPILWWSPDPRAVLWPESLHISRSMKRFHKRSPYRVTMNYAFGQVIEGCASDREEGTWITRGVVEAYHRLHELGHAHSIEVWREDELVGGMYGVAQGTLFCGESMFSRMENASKTALLVFCEEFIGHGGKLIDCQVLNDHTASLGACEIPRRDYLNYLNQMRLGRLPNNFWVPRCLFSPQE" "c" "Han et al., 2011" -"EG11113-MONOMER" "MDRIVSSSHDRTSLLSTHKVLRNTYFLLSLTLAFSAITATASTVLMLPSPGLILTLVGMYGLMFLTYKTANKPTGIISAFAFTGFLGYILGPILNTYLSAGMGDVIAMALGGTALVFFCCSAYVLTTRKDMSFLGGMLMAGIVVVLIGMVANIFLQLPALHLAISAVFILISSGAILFETSNIIHGGETNYIRATVSLYVSLYNIFVSLLSILGFASRD" "i" "Han et al., 2011" -"EG11116-MONOMER" "MPVLHNRISNDALKAKMLAESEPRTTISFYKYFHIADPKATRDALYQLFTALNVFGRVYLAHEGINAQISVPASNVETFRAQLYAFDPALEGLRLNIALDDDGKSFWVLRMKVRDRIVADGIDDPHFDASNVGEYLQAAEVNAMLDDPDALFIDMRNHYEYEVGHFENALEIPADTFREQLPKAVEMMQAHKDKKIVMYCTGGIRCEKASAWMKHNGFNKVWHIEGGIIEYARKAREQGLPVRFIGKNFVFDERMGERISDEIIAHCHQCGAPCDSHTNCKNDGCHLLFIQCPVCAEKYKGCCSEICCEESALPPEEQRRRRAGRENGNKIFNKSRGRLNTTLCIPDPTE" "c" "Han et al., 2011" -"EG11117-MONOMER" "MNKFLFAAALIVSGLLVGCNQLTQYTITEQEINQSLAKHNNFSKDIGLPGVADAHIVLTNLTSQIGREEPNKVTLTGDANLDMNSLFGSQKATMKLKLKALPVFDKEKGAIFLKEMEVVDATVQPEKMQTVMQTLLPYLNQALRNYFNQQPAYVLREDGSQGEAMAKKLAKGIEVKPGEIVIPFTD" "c" "Han et al., 2011" -"EG11118-MONOMER" "MKTETPSVKIVAITADEAGQRIDNFLRTQLKGVPKSMIYRILRKGEVRVNKKRIKPEYKLEAGDEVRIPPVRVAEREEEAVSPHLQKVAALADVILYEDDHILVLNKPSGTAVHGGSGLSFGVIEGLRALRPEARFLELVHRLDRDTSGVLLVAKKRSALRSLHEQLREKGMQKDYLALVRGQWQSHVKSVQAPLLKNILQSGERIVRVSQEGKPSETRFKVEERYAFATLVRCSPVTGRTHQIRVHTQYAGHPIAFDDRYGDREFDRQLTEAGTGLNRLFLHAAALKFTHPGTGEVMRIEAPMDEGLKRCLQKLRNAR" "c" "Han et al., 2011" -"EG11119-MONOMER" "MQKVKLPLTLDPVRTAQKRLDYQGIYTPDQVERVAESVVSVDSDVECSMSFAIDNQRLAVLNGDAKVTVTLECQRCGKPFTHQVYTTYCFSPVRSDEQAEALPEAYEPIEVNEFGEIDLLAMVEDEIILALPVVPVHDSEHCEVSEADMVFGELPEEAQKPNPFAVLASLKRK" "c" "Lopez-Campistrous et al., 2005" -"EG11120-MONOMER" "MHKAILNSDLIATKAGDVTVYNYDGETREYISTSNEYLAVGVGIPACSCLDAPGTHKAGYAICRSADFNSWEYVPDHRGETVYSTKTGESKEIKAPGDYPENTTTIAPLSPYDKWDGEKWVTDTEAQHSAAVDAAEAQRQSLIDAAMASISLIQLKLQAGRKLTQAETTRLNAVLDYIDAVTATDTSTAPDVIWPELPEA" "c" "Han et al., 2011" -"EG11121-MONOMER" "MSTTHNVPQGDLVLRTLAMPADTNANGDIFGGWLMSQMDIGGAILAKEIAHGRVVTVRVEGMTFLRPVAVGDVVCCYARCVQKGTTSVSINIEVWVKKVASEPIGQRYKATEALFKYVAVDPEGKPRALPVE" "c" "Han et al., 2011" -"EG11122-MONOMER" "MKQFLDFLPLVVFFAFYKIYDIYAATAALIVATAIVLIYSWVRFRKVEKMALITFVLVVVFGGLTLFFHNDEFIKWKVTVIYALFAGALLVSQWVMKKPLIQRMLGKELTLPQPVWSKLNLAWAVFFILCGLANIYIAFWLPQNIWVNFKVFGLTALTLIFTLLSGIYIYRHMPQEDKS" "i" "Han et al., 2011" -"EG11123-MONOMER" "MSITAQSVYRDTGNFFRNQFMTILLVSLLCAFITVVLGHVFSPSDAQLAQLNDGVPVSGSSGLFDLVQNMSPEQQQILLQASAASTFSGLIGNAILAGGVILIIQLVSAGQRVSALRAIGASAPILPKLFILIFLTTLLVQIGIMLVVVPGIIMAILLALAPVMLVQDKMGVFASMRSSMRLTWANMRLVAPAVLSWLLAKTLLLLFASSFAALTPEIGAVLANTLSNLISAILLIYLFRLYMLIRQ" "i" "Han et al., 2011" -"EG11124-MONOMER" "MKKLTVAALAVTTLLSGSAFAHEAGEFFMRAGSATVRPTEGAGGTLGSLGGFSVTNNTQLGLTFTYMATDNIGVELLAATPFRHKIGTRATGDIATVHHLPPTLMAQWYFGDASSKFRPYVGAGINYTTFFDNGFNDHGKEAGLSDLSLKDSWGAAGQVGVDYLINRDWLVNMSVWYMDIDTTANYKLGGAQQHDSVRLDPWVFMFSAGYRF" "o" "Han et al., 2011" -"EG11125-MONOMER" "MNRIEHYHDWLRDAHAMEKQAESMLESMASRIDNYPELRARIEQHLSETKNQIVQLETILDRNDISRSVIKDSMSKMAALGQSIGGIFPSDEIVKGSISGYVFEQFEIACYTSLLAAAKNAGDTASIPTIEAILNEEKQMADWLIQNIPQTTEKFLIRSETDGVEAKK" "c" "Han et al., 2011" -"EG11126-MONOMER" "MNMKTIEDVFIHLLSDTYSAEKQLTRALAKLARATSNEKLSQAFHAHLEETHGQIERIDQVVESESNLKIKRMKCVAMEGLIEEANEVIESTEKNEVRDAALIAAAQKVEHYEIASYGTLATLAEQLGYRKAAKLLKETLEEEKATDIKLTDLAINNVNKKAENKA" "c" "EcoCyc dump" -"EG11127-MONOMER" "MAEHRGGSGNFAEDREKASDAGRKGGQHSGGNFKNDPQRASEAGKKGGQQSGGNKSGKS" "c" "Han et al., 2011" -"EG11128-MONOMER" "MSDSNSRLVYSTETGRIDEPKAAPVRPKGDGVVRIQRQTSGRKGKGVCLITGVDLDDAELTKLAAELKKKCGCGGAVKDGVIEIQGDKRDLLKSLLEAKGMKVKLAGG" "c" "Han et al., 2011" -"EG11129-MONOMER" "MMNIEELRKIFCEDGLYAVCVENGNLVSHYRIMCLRKNGAALINFVDARVTDGFILREGEFVTSLQALKEIGIKAGFSAFSGE" "c" "Han et al., 2011" -"EG11130-MONOMER" "MKQQKAMLIALIVICLTVIVTALVTRKDLCEVRIRTGQTEVAVFTAYEPEE" "i" "Han et al., 2011" -"EG11131-MONOMER" "MAYFLDFDERALKEWRKLGSTVREQLKKKLVEVLESPRIEANKLRGMPDCYKIKLRSSGYRLVYQVIDEKVVVFVISVGKRERSEVYSEAVKRIL" "c" "Unambiguous EcoCyc data" -"EG11132-MONOMER" "MDNAVDRHVFYISDGTAITAEVLGHAVMSQFPVTISSITLPFVENESRARAVKDQIDAIYHQTGVRPLVFYSIVLPEIRAIILQSEGFCQDIVQALVAPLQQEMKLDPTPIAHRTHGLNPNNLNKYDARIAAIDYTLAHDDGISLRNLDQAQVILLGVSRCGKTPTSLYLAMQFGIRAANYPFIADDMDNLVLPASLKPLQHKLFGLTIDPERLAAIREERRENSRYASLRQCRMEVAEVEALYRKNQIPWINSTNYSVEEIATKILDIMGLSRRMY" "c" "Han et al., 2011" -"EG11133-MONOMER" "MRFCLILITALLLAGCSHHKAPPPNARLSDSITVIAGLNDQLQSWHGTPYRYGGMTRRGVDCSGFVVVTMRDRFDLQLPRETKQQASIGTQIDKDELLPGDLVFFKTGSGQNGLHVGIYDTNNQFIHASTSKGVMRSSLDNVYWQKNFWQARRI" "o" "Han et al., 2011" -"EG11134-MONOMER" "MDALELLINRRSASRLAEPAPTGEQLQNILRAGMRAPDHKSMQPWHFFVIEGEGRERFSAVLEQGAIAAGSDDKAIDKARNAPFRAPLIITVVAKCEENHKVPRWEQEMSAGCAVMAMQMAAVAQGFGGIWRSGALTESPVVREAFGCREQDKIVGFLYLGTPQLKASTSINVPDPTPFVTYF" "c" "Lopez-Campistrous et al., 2005" -"EG11136-MONOMER" "VNINYPAEYEIGDIVFTCIGAALFGQISAASNCWSNHVGIIIGHNGEDFLVAESRVPLSTITTLSRFIKRSSNQRYAIKRLDAGLTERQKQRIVEQVPSRLRKLYHTGFKYESSRQFCSKFVFDIYKEALCIPVGEIETFGELLNSNPNAKLTFWKFWFLGSIPWERKTVTPASLWHHPGLVLIHAEGVETPQPELTEAV" "c" "Han et al., 2011" -"EG11137-MONOMER" "MAGHSKWANTRHRKAAQDAKRGKIFTKIIRELVTAAKLGGGDPDANPRLRAAVDKALSNNMTRDTLNRAIARGVGGDDDANMETIIYEGYGPGGTAIMIECLSDNRNRTVAEVRHAFSKCGGNLGTDGSVAYLFSKKGVISFEKGDEDTIMEAALEAGAEDVVTYDDGAIDVYTAWEEMGKVRDALEAAGLKADSAEVSMIPSTKADMDAETAPKLMRLIDMLEDCDDVQEVYHNGEISDEVAATL" "c" "Han et al., 2011" -"EG11139-MONOMER" "MKTGPLNESELEWLDDILTKYNTDHAILDVAELDGLLTAVLSSPQEIEPEQWLVAVWGGADYVPRWASEKEMTRFMNLAFQHMADTAERLNEFPEQFEPLFGLREVDGSELTIVEEWCFGYMRGVALSDWSTLPDSLKPALEAIALHGTEENFERVEKMSPEAFEESVDAIRLAALDLHAYWMAHPQEKAVQQPIKAEEKPGRNDPCPCGSGKKFKQCCLH" "c" "Han et al., 2011" -"EG11140-MONOMER" "LINVLLVDDHELVRAGIRRILEDIKGIKVVGEASCGEDAVKWCRTNAVDVVLMDMSMPGIGGLEATRKIARSTADVKIIMLTVHTENPLPAKVMQAGAAGYLSKGAAPQEVVSAIRSVYSGQRYIASDIAQQMALSQIEPEKTESPFASLSERELQIMLMITKGQKVNEISEQLNLSPKTVNSYRYRMFSKLNIHGDVELTHLAIRHGLCNAETLSSQ" "c" "Han et al., 2011" -"EG11141-MONOMER" "MRFRQLLPLFGALFALYIIWGSTYFVIRIGVESWPPLMMAGVRFLAAGILLLAFLLLRGHKLPPLRPLLNAALIGLLLLAVGNGMVTVAEHQNVPSGIAAVVVATVPLFTLCFSRLFGIKTRKLEWVGIAIGLAGIIMLNSGGNLSGNPWGAILILIGSISWAFGSVYGSRITLPVGMMAGAIEMLAAGVVLMIASMIAGEKLTALPSLSGFLAVGYLALFGSIIAINAYMYLIRNVSPALATSYAYVNPVVAVLLGTGLGGETLSKIEWLALGVIVFAVVLVTLGKYLFPAKPVVAPVIQDASSE" "i" "Unambiguous EcoCyc data" -"EG11142-MONOMER" "MSGEKKAKGWRFYGLVGFGAIALLSAGVWALQYAGSGPEKTLSPLVVHNNLQIDLNEPDLFLDSDSLSQLPKDLLTIPFLHDVLSEDFVFYYQNHADRLGIEGSIRRIVYEHDLTLKDKLFSSLLDQPAQAALWHDKQGHLSHYMVLIQRSGLSKLLEPLLFAATSDSQLSKTEISSIKINSETVPVYQLRYNGNNALMFATYQDKMLVFSSTDMLFKDDQQDTEATAIAGDLLSGKKRWQASFGLEERTAEKTPVRQRIVVSARWLGFGYQRLMPSFAGVRFEMGNDGWHSFVALNDESASVDASFDFTPVWNSMPAGASFCVAVPYSHGIAEEMLSHISQENDKLNGALDGAAGLCWYEDSKLQTPLFVGQFDGTAEQAQLPGKLFTQNIGAHESKAPEGVLPVSQTQQGEAQIWRREVSSRYGQYPKAQAAQPDQLMSDYFFRVSLAMQNKTLLFSLDDTLVNNALQTLNKTRPAMVDVIPTDGIVPLYINPQGIAKLLRNETLTSLPKNLEPVFYNAAQTLLMPKLDALSQQPRYVMKLAQMEPGAAWQWLPITWQPL" "i" "Han et al., 2011" -"EG11144-MONOMER" "METFNSLFMVSPLLLGVLFFVAMLAGFIDSIAGGGGLLTIPALMAAGMSPANALATNKLQACGGSISATIYFIRRKVVSLSDQKLNIAMTFVGSMSGALLVQYVQADVLRQILPILVICIGLYFLLMPKLGEEDRQRRMYGLPFALIAGGCVGFYDGFFGPAAGSFYALAFVTLCGFNLAKATAHAKLLNATSNIGGLLLFILGGKVIWATGFVMLVGQFLGARMGSRLVLSKGQKLIRPMIVIVSAVMSAKLLYDSHGQEILHWLGMN" "i" "Han et al., 2011" -"EG11145-MONOMER" "MFVEHNLIKNIKIFTLAFTLTVVLIQLSRFISPLAIIHSSYIFLAWMPLCVMLSILFIFGWRGVVPVLCGMFCTNLWNFHLSFLQTAVMLGSQTFVVLCACAILRWQLGTRWRYGLTSRYVWQRLFWLGLVTPIGIKCSMYLVGSFFDFPLKISTFFGDADAIFTVVDLLSLFTAVLIYNMLFYYLTRMIVSPHFAQILWRRDIAPSLGKEKRAFTLSWLAALSVLLLLLCTPYENDFIAGYLVPVFFIIFTLGVGKLRYPFLNLTWAVSTLCLLNYNQNFLQGVETEYSLAFILAVLISFSVCLLYMVRIYHRSEWLNRRWHLQALTDPLTLLPNFRALEQAPEQEAGKSFCCLRIDNLEFMSRHYGLMMRVHCIRSICRTLLPLMQENEKLYQLPGSELLLVLSGPETEGRLQHMVNILNSRQIHWNNTGLDMGYGAAWGRFDGNQETLQPLLGQLSWLAEQSCAHHHVLALDSREEMVSGQTTKQVLLLNTIRTALDQGDLLLYAQPIRNKEGEGYDEILARLKYDGGIMTPDKFLPLIAQFNLSARFDLQVLESLLKWLATHPCDKKGPRFSVNLMPLTLLQKNIAGRIIRLFKRYHISPQAVILEITEEQAFSNAESSMYNIEQLHKFGFRIAIDDFGTGYANYERLKRLQADIIKIDGVFVKDIVTNTLDAMIVRSITDLAKAKSLSVVAEFVETQQQQALLHKLGVQYLQGYLIGRPQPLAD" "i" "Han et al., 2011" -"EG11146-MONOMER" "MERVYRTDLKLLRYFLAVAEELHFGRAAARLNMSQPPLSIHIKELENQLGTQLFIRHSRSVVLTHAGKILMEESRRLLVNANNVLARIEQIGRGEAGRIELGVVGTAMWGRMRPVMRRFLRENPNVDVLFREKMPAMQMALLERRELDAGIWRMATEPPTGFTSLRLHESAFLVAMPEEHHLSSFSTVPLEALRDEYFVTMPPVYTDWDFLQRVCQQVGFSPVVIREVNEPQTVLAMVSMGIGITLIADSYAQMNWPGVIFRPLKQRIPADLYIVYETQQVTPAMVKLLAALTQ" "c" "Unambiguous EcoCyc data" -"EG11147-MONOMER" "MVTLYGIKNCDTIKKARRWLEANNIDYRFHDYRVDGLDSELLNDFINELGWEALLNTRGTTWRKLDETTRNKITDAASAAALMTEMPAIIKRPLLCVPGKPMLLGFSDSSYQQFFHEV" "c" "Han et al., 2011" -"EG11149-MONOMER" "LTLSSQHYLVITALGADRPGIVNTITRHVSSCGCNIEDSRLAMLGEEFTFIMLLSGSWNAITLIESTLPLKGAELDLLIVMKRTTARPRPPMPASVWVQVDVADSPHLIERFTALFDAHHMNIAELVSRTQPAENERAAQLHIQITAHSPASADAANIEQAFKALCTELNAQGSINVVNYSQHDEQDGVK" "c" "Han et al., 2011" -"EG11151-MONOMER" "MTMNITSKQMEITPAIRQHVADRLAKLEKWQTHLINPHIILSKEPQGFVADATINTPNGVLVASGKHEDMYTAINELINKLERQLNKLQHKGEARRAATSVKDANFVEEVEEE" "c" "Han et al., 2011" -"EG11152-MONOMER" "MIKHLVAPLVFTSLILTGCQSPQGKFTPEQVAAMQSYGFTESAGDWSLGLSDAILFAKNDYKLLPESQQQIQTMAAKLASTGLTHARMDGHTDNYGEDSYNEGLSLKRANVVADAWAMGGQIPRSNLTTQGLGKKYPIASNKTAQGRAENRRVAVVITTP" "o" "Han et al., 2011" -"EG11153-MONOMER" "MSKQLTAQAPVDPIVLGKMGSSYGIRGWLRVFSSTEDAESIFDYQPWFIQKAGQWQQVQLESWKHHNQDMIIKLKGVDDRDAANLLTNCEIVVDSSQLPQLEEGDYYWKDLMGCQVVTTEGYDLGKVVDMMETGSNDVLVIKANLKDAFGIKERLVPFLDGQVIKKVDLTTRSIEVDWDPGF" "c" "Han et al., 2011" -"EG11154-MONOMER" "MSASLKNQQGFSLPEVMLAMVLMVMIVTALSGFQRTLMNSLASRNQYQQLWRHGWQQTQLRAISPPANWQVNRMQTSQAGCVSISVTLVSPGGREGEMTRLHCPNRQ" "i" "Han et al., 2011" -"EG11155-MONOMER" "VNREKGVSSLALVLMLLVLGSLLLQGMSQQDRSFASRVSMESQSLRRQAIVQSALAWGKMHCWQTQPAVQCSQYAETDAQVCLRLLADNEALLIAGYEGVSLWRTGEVIDGNIVFSPRGWSDFCPLKERALCQLP" "i" "Han et al., 2011" -"EG11156-MONOMER" "MPVKEQGFSLLEVLIAMAISSVLLLGAARFLPALQRESLTSTRKLALEDEIWLRVFTVAKHLQRAGYCHGICTGEGLEIVGQGDCVIVQWDANSNGIWDREPVKESDQIGFRLKEHVLETLRGATSCEGKGWDKVTNPDAIIIDTFQVVRQDVSGFSPVLTVNMRAASKSEPQTVVNASYSVTGFNL" "i" "Han et al., 2011" -"EG11157-MONOMER" "MKTIGLLGGMSWESTIPYYRLINEGIKQRLGGLHSAQVLLHSVDFHEIEECQRRGEWDKTGDILAEAALGLQRAGAEGIVLCTNTMHKVADAIESRCTLPFLHIADATGRAITGAGMTRVALLGTRYTMEQDFYRGRLTEQFSINCLIPEADERAKINQIIFEELCLGQFTEASRAYCAQVIARLAEQGAQGVIFGCTEIGLLVPEERSVLPVFDTAAIHAEDAVAFMLS" "c" "Han et al., 2011" -"EG11158-MONOMER" "MIRQRRRALTPEQQQEMGQQAATRMMTYPPVVMAHTVAVFLSFDGELDTQPLIEQLWRAGKRVYLPVLHPFSAGNLLFLNYHPQSELVMNRLKIHEPKLDVRDVLPLSRLDVLITPLVAFDEYGQRLGMGGGFYDRTLQNWQHYKTQPVGYAHDCQLVEKLPVEEWDIPLPAVVTPSKVWEW" "c" "Han et al., 2011" -"EG11160-MONOMER" "MEDLNVVDSINGAGSWLVANQALLLSYAVNIVAALAIIIVGLIIARMISNAVNRLMISRKIDATVADFLSALVRYGIIAFTLIAALGRVGVQTASVIAVLGAAGLAVGLALQGSLSNLAAGVLLVMFRPFRAGEYVDLGGVAGTVLSVQIFSTTMRTADGKIIVIPNGKIIAGNIINFSREPVRRNEFIIGVAYDSDIDQVKQILTNIIQSEDRILKDREMTVRLNELGASSINFVVRVWSNSGDLQNVYWDVLERIKREFDAAGISFPYPQMDVNFKRVKEDKAA" "i" "Han et al., 2011" -"EG11161-MONOMER" "VKIELTVNGLKIQAQYQNEEIENVHKPLLHMLAALQTVNPQRRTVVFLCAPPGTGKSTLTTFWEYLAQQDPELPAIQTLPMDGFHHYNSWLDAHQLRPFKGAPETFDVAKLTENLRQVVEGDCTWPQYDRQKHDPVEDALHVTAPLVIVEGNWLLLDDEKWLELASFCDFSIFIHAPAQILRERLISRKIAGGLTRQVAEAFYARTDGPNVERVLMNSRQANLIVEMTEEGRYHFTS" "c" "Han et al., 2011" -"EG11162-MONOMER" "MATLTEDDVLEQLDAQDNLFSFMKTAHTILLQGIRQFLPSLFVDNDEEIVEYAVKPLLAQSGPLDDIDVALRLIYALGKMDKWLYADITHFSQFWHYLNEQDETPGFADDMTWDFISNVNSITRNAMLYDALKAMKFADFSVWSEARFSGMVKTALTLAVTTTLKELTP" "c" "Han et al., 2011" -"EG11163-MONOMER" "MTTTGLRPRLNVRQRKDTGYLPHSSPFSLQFRPAILYSDGYLPLVPEDKNETDKIHTPRIVPQKLERTPSDTSRSRGCHCFYAGWL" "c" "Han et al., 2011" -"EG11164-MONOMER" "MLAGCEKSDETVSLYQNADDCSAANPGKSAECTTAYNNALKEAERTAPKYATREDCVAEFGEGQCQQAPAQAGMAPENQAQAQQSSGSFWMPLMAGYMMGRLMGGGAGFAQQPLFSSKNPASPAYGKYTDATGKNYGAAQPGRTMTVPKTAMAPKPATTTTVTRGGFGESVAKQSTMQRSATGTSSRSMGG" "c" "Han et al., 2011" -"EG11165-MONOMER" "MERVSITERPDWREKAHEYGFNFHTMYGEPYWCEDAYYKLTLAQVEKLEEVTAELHQMCLKVVEKVIASDELMTKFRIPKHTWSFVRQSWLTHQPSLYSRLDLAWDGTGEPKLLENNADTPTSLYEAAFFQWIWLEDQLNAGNLPEGSDQFNSLQEKLIDRFVELREQYGFQLLHLTCCRDTVEDRGTIQYLQDCATEAEIATEFLYIDDIGLGEKGQFTDLQDQVISNLFKLYPWEFMLREMFSTKLEDAGVRWLEPAWKSIISNKALLPLLWEMFPNHPNLLPAYFAEDDHPQMEKYVVKPIFSREGANVSIIENGKTIEAAEGPYGEEGMIVQQFHPLPKFGDSYMLIGSWLVNDQPAGIGIREDRALITQDMSRFYPHIFVE" "c" "Han et al., 2011" -"EG11166-MONOMER" "MTPLVKDIIMSSTRMPALFLGHGSPMNVLEDNLYTRSWQKLGMTLPRPQAIVVVSAHWFTRGTGVTAMETPPTIHDFGGFPQALYDTHYPAPGSPALAQRLVELLAPIPVTLDKEAWGFDHGSWGVLIKMYPDADIPMVQLSIDSSKPAAWHFEMGRKLAALRDEGIMLVASGNVVHNLRTVKWHGDSSPYPWATSFNEYVKANLTWQGPVEQHPLVNYLDHEGGTLSNPTPEHYLPLLYVLGAWDGQEPITIPVEGIEMGSLSMLSVQIG" "c" "Han et al., 2011" -"EG11167-MONOMER" "MSVPLILTILAGAATFIGAFLGVLGQKPSNRLLAFSLGFAAGIMLLISLMEMLPAALAAEGMSPVLGYGMFIFGLLGYFGLDRMLPHAHPQDLMQKSVQPLPKSIKRTAILLTLGISLHNFPEGIATFVTASSNLELGFGIALAVALHNIPEGLAVAGPVYAATGSKRTAILWAGISGLAEILGGVLAWLILGSMISPVVMAAIMAAVAGIMVALSVDELMPLAKEIDPNNNPSYGVLCGMSVMGFSLVLLQTAGIG" "i" "Han et al., 2011" -"EG11171-MONOMER" "MRVLGIETSCDETGIAIYDDEKGLLANQLYSQVKLHADYGGVVPELASRDHVRKTVPLIQAALKESGLTAKDIDAVAYTAGPGLVGALLVGATVGRSLAFAWDVPAIPVHHMEGHLLAPMLEDNPPEFPFVALLVSGGHTQLISVTGIGQYELLGESIDDAAGEAFDKTAKLLGLDYPGGPLLSKMAAQGTAGRFVFPRPMTDRPGLDFSFSGLKTFAANTIRDNGTDDQTRADIARAFEDAVVDTLMIKCKRALDQTGFKRLVMAGGVSANRTLRAKLAEMMKKRRGEVFYARPEFCTDNGAMIAYAGMVRFKAGATADLGVSVRPRWPLAELPAA" "c" "EcoCyc dump" -"EG11173-MONOMER" "MKGFPIAHIFHPSIPPMHAVVNNHNRNIDYWTVKRKFAEIVSTNDVNKIYSISNELRRVLSAITALNFYHGDVPSVMIRIQPENMSPFIIDISTGEHDDYIIQTLDVGTFAPFGEQCTCSAVNKKELECIKETISKYCAKFTRKEAILTPLVHFNKTSITSDCWQILFFSPDHFNNDFY" "c" "Han et al., 2011" -"EG11174-MONOMER" "MFPVSSIGNDISSDLVRRKMNDLPESPTGNNLEALAPGIEKLKQTSIEMVTLLNTLQPGGKCIITGDFQKELAYLQNVILYNVSSLRLDFLGYNAQIIQRSDNTCELTINEPLKNQEISTGNININCPLKDIYNEIRRLNVIFSCGTGDIVDLSSLDLRNVDLDYYDFTDKHMANTILNPFKLNSTNFTNANMFQVNFVSSTQNATISWDYLLKITPVLISISDMYSEEKIKFVESCLNEPGDITEEQLKIMRFAIIKSIPRATLTDKLENELTKEIYKSSSKIINCLNRIKLTEMKEFSSEKIYDYIDIIIEDYENTKENAYLVVPQINYTMDLNIEDSSSEELLSDNTLEKDENSPDNGFEVGEYNTYEAYNSEKQYFTREDYTYDYDLLNAI" "c" "Han et al., 2011" -"EG11177-MONOMER" "MSRPRRRGRDINGVLLLDKPQGMSSNDALQKVKRIYNANRAGHTGALDPLATGMLPICLGEATKFSQYLLDSDKRYRVIARLGQRTDTSDADGQIVEERPVTFSAEQLAAALDTFRGDIEQIPSMYSALKYQGKKLYEYARQGIEVPREARPITVYELLFIRHEGNELELEIHCSKGTYIRTIIDDLGEKLGCGAHVIYLRRLAVSKYPVERMVTLEHLRELVEQAEQQDIPAAELLDPLLMPMDSPASDYPVVNLPLTSSVYFKNGNPVRTSGAPLEGLVRVTEGENGKFIGMGEIDDEGRVAPRRLVVEYPA" "c" "Han et al., 2011" -"EG11178-MONOMER" "MAKEFGRPQRVAQEMQKEIALILQREIKDPRLGMMTTVSGVEMSRDLAYAKVYVTFLNDKDEDAVKAGIKALQEASGFIRSLLGKAMRLRIVPELTFFYDNSLVEGMRMSNLVTSVVKHDEERRVNPDDSKED" "c" "Han et al., 2011" -"EG11179-MONOMER" "LSTLEQKLTEMITAPVEALGFELVGIEFIRGRTSTLRIYIDSEDGINVDDCADVSHQVSAVLDVEDPITVAYNLEVSSPGLDRPLFTAEHYARFVGEEVTLVLRMAVQNRRKWQGVIKAVDGEMITVTVEGKDEVFALSNIQKANLVPHF" "c" "Han et al., 2011" -"EG11180-MONOMER" "MSIIKEFREFAMRGNVVDLAVGVIIGAAFGKIVSSLVADIIMPPLGLLIGGIDFKQFAVTLRDAQGDIPAVVMHYGVFIQNVFDFLIVAFAIFMAIKLINKLNRKKEEPAAAPAPTKEEVLLTEIRDLLKEQNNRS" "i" "Han et al., 2011" -"EG11181-MONOMER" "MYVCLCNGISDKKIRQAVRQFSPHSFQQLKKFIPVGNQCGKCVRAAREVMEDELMQLPEFKESA" "c" "Han et al., 2011" -"EG11182-MONOMER" "MQARVKWVEGLTFLGESASGHQILMDGNSGDKAPSPMEMVLMAAGGCSAIDVVSILQKGRQDVVDCEVKLTSERREEAPRLFTHINLHFIVTGRDLKDAAVARAVDLSAEKYCSVALMLEKAVNITHSYEVVAA" "c" "Han et al., 2011" -"EG11183-MONOMER" "MDEFKPEDELKPDPSDRRTGRSRQSSERSERTERGEPQINFDDIELDDTDDRRPTRAQKERNEEPEIEEEIDESEDETVDEERVERRPRKRKKAASKPASRQYMMMGVGILVLLLLIIGIGSALKAPSTTSSDQTASGEKSIDLAGNATDQANGVQPAPGTTSAENTQQDVSLPPISSTPTQGQTPVATDGQQRVEVQGDLNNALTQPQNQQQLNNVAVNSTLPTEPATVAPVRNGNASRDTAKTQTAERPSTTRPARQQAVIEPKKPQATVKTEPKPVAQTPKRTEPAAPVASTKAPAATSTPAPKETATTAPVQTASPAQTTATPAAGAKTAGNVGSLKSAPSSHYTLQLSSSSNYDNLNGWAKKENLKNYVVYETTRNGQPWYVLVSGVYASKEEAKKAVSTLPADVQAKNPWAKPLRQVQADLK" "c" "Han et al., 2011" -"EG11184-MONOMER" "MKRLLILTALLPFVGFAQPINTLNNPNQPGYQIPSQQRMQTQMQTQQIQQKGMLNQQLKTQTQLQQQHLENQINNNSQRVLQSQPGERNPARQQMLPNTNGGMLNSNRNPDSSLNQQHMLPERRNGDMLNQPSTPQPDIPLKTIGP" "p" "Han et al., 2011" -"EG11186-MONOMER" "MDNKISTYSPAFSIVSWIALVGGIVTYLLGLWNAEMQLNEKGYYFAVLVLGLFSAASYQKTVRDKYEGIPTTSIYYMTCLTVFIISVALLMVGLWNATLLLSEKGFYGLAFFLSLFGAVAVQKNIRDAGINPPKETQVTQEEYSE" "i" "Han et al., 2011" -"EG11187-MONOMER" "MSNTYQKRKASKEYGLYNQCKKLNDDELFRLLDDHNSLKRISSARVLQLRGGQDAVRLAIEFCSDKNYIRRDIGAFILGQIKICKKCEDNVFNILNNMALNDKSACVRATAIESTAQRCKKNPIYSPKIVEQSQITAFDKSTNVRRATAFAISVINDKATIPLLINLLKDPNGDVRNWAAFAININKYDNSDIRDCFVEMLQDKNEEVRIEAIIGLSYRKDKRVLSVLCDELKKNTVYDDIIEAAGELGDKTLLPVLDTMLYKFDDNEIITSAIDKLKRS" "c" "Han et al., 2011" -"EG11188-MONOMER" "MKSSTTIITAYFDIGRGDWTANKGFREKLARSVDVYFSYFERLAALENEMIIFTSPDLKPRVEAIRNGKPTTVIVIDIKKKFRYIRSRIEKIQKDESFTNRLEPRQLKNPEYWSPEYVLVCNLKAYFVNKAINMGLVKTPLVAWIDFGYCHKPNVTRGLKIWDFPFDESKMHLFTIKKGLTVTSQQQVFDFMIGNHVYIIGGAIVGSQHKWKEFYKLVLESQKITLNNNIVDDDQGIFVMCYYKRPDLFNLNYLGRGKWFDLFRCFRSNTLGAKMQALRIFLSRK" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"EG11189-MONOMER" "MRVLIVKTSSMGDVLHTLPALTDAQQAIPGIKFDWVVEEGFAQIPSWHAAVERVIPVAIRRWRKAWFSAPIKAERKAFREALQAENYDAVIDAQGLVKSAALVTRLAHGVKHGMDWQTAREPLASLFYNRKHHIAKQQHAVERTRELFAKSLGYSKPQTQGDYAIAQHFLTNLPTDAGEYAVFLHATTRDDKHWPEEHWRELIGLLADSGIRIKLPWGAPHEEERAKRLAEGFAYVEVLPKMSLEGVARVLAGAKFVVSVDTGLSHLTAALDRPNITVYGPTDPGLIGGYGKNQMVCRAPRENLINLNSQAVLEKLSSL" "c" "Han et al., 2011" -"EG11191-MONOMER" "MAEKQTAKRNRREEILQSLALMLESSDGSQRITTAKLAASVGVSEAALYRHFPSKTRMFDSLIEFIEDSLITRINLILKDEKDTTARLRLIVLLLLGFGERNPGLTRILTGHALMFEQDRLQGRINQLFERIEAQLRQVLREKRMREGEGYTTDETLLASQILAFCEGMLSRFVRSEFKYRPTDDFDARWPLIAAQLQ" "c" "Han et al., 2011" -"EG11192-MONOMER" "MIRSMTAYARREIKGEWGSATWEMRSVNQRYLETYFRLPEQFRSLEPVVRERIRSRLTRGKVECTLRYEPDVSAQGELILNEKLAKQLVTAANWVKMQSDEGEINPVDILRWPGVMAAQEQDLDAIAAEILAALDGTLDDFIVARETEGQALKALIEQRLEGVTAEVVKVRSHMPEILQWQRERLVAKLEDAQVQLENNRLEQELVLLAQRIDVAEELDRLEAHVKETYNILKKKEAVGRRLDFMMQEFNRESNTLASKSINAEVTNSAIELKVLIEQMREQIQNIE" "c" "Han et al., 2011" -"EG11193-MONOMER" "MNEHHQPFEEIKLINANGAEQWSARQLGKLLGYSEYRHFIPVLTRAKEACENSGHTIDDHFEEILDMVKIGSNAKRALKDIVLSRYACYLVVQNGDPAKPVIAAGQTYFAIQTRRQELADDEAFKQLREDEKRLFLRNELKEHNKQLVEAAQQAGVATATDFAIFQNHGYQGLYGGLDQKAIHQRKGLKKNQKILDHMGSTELAANLFRATQTEEKLKRDGVNSKQQANTTHFDVGRKVRQTIQELGGTMPEELPTPQVSIKQLENSVKITEKK" "c" "Han et al., 2011" -"EG11195-MONOMER" "MAIKLIAIDMDGTLLLPDHTISPAVKNAIAAARARGVNVVLTTGRPYAGVHNYLKELHMEQPGDYCITYNGALVQKAADGSTVAQTALSYDDYRFLEKLSREVGSHFHALDRTTLYTANRDISYYTVHESFVATIPLVFCEAEKMDPNTQFLKVMMIDEPAILDQAIARIPQEVKEKYTVLKSAPYFLEILDKRVNKGTGVKSLADVLGIKPEEIMAIGDQENDIAMIEYAGVGVAMDNAIPSVKEVANFVTKSNLEDGVAFAIEKYVLN" "c" "Lopez-Campistrous et al., 2005" -"EG11196-MONOMER" "MGLFDEVVGAFLKGDAGKYQAILSWVEEQGGIQVLLEKLQSGGLGAILSTWLSNQQGNQSVSGEQLESALGTNAVSDLGQKLGVDTSTASSLLAEQLPKIIDALSPQGEVSPQANNDLLSAGMELLKGKLFR" "c" "Han et al., 2011" -"EG11199-MONOMER" "MADITLISGSTLGGAEYVAEHLAEKLEEAGFTTETLHGPLLEDLPASGIWLVISSTHGAGDIPDNLSPFYEALQEQKPDLSAVRFGAIGIGSREYDTFCGAIDKLEAELKNSGAKQTGETLKINILDHDIPEDPAEEWLGSWVNLLK" "c" "Han et al., 2011" -"EG11201-MONOMER" "MKQPGEELQETLTELDDRAVVDYLIKNPEFFIRNARAVEAIRVPHPVRGTVSLVEWHMARARNHIHVLEENMALLMEQAIANEGLFYRLLYLQRSLTAASSLDDMLMRFHRWARDLGLAGASLRLFPDRWRLGAPSNHTHLALSRQSFEPLRIQRLGQEQHYLGPLNGPELLVVLPEAKAVGSVAMSMLGSDADLGVVLFTSRDASHYQQGQGTQLLHEIALMLPELLERWIERV" "c" "Han et al., 2011" -"EG11202-MONOMER" "MRFYRPLGRISALTFDLDDTLYDNRPVILRTEREALTFVQNYHPALRSFQNEDLQRLRQAVREAEPEIYHDVTRWRFRSIEQAMLDAGLSAEEASAGAHAAMINFAKWRSRIDVPQQTHDTLKQLAKKWPLVAITNGNAQPELFGLGDYFEFVLRAGPHGRSKPFSDMYFLAAEKLNVPIGEILHVGDDLTTDVGGAIRSGMQACWIRPENGDLMQTWDSRLLPHLEISRLASLTSLI" "c" "Han et al., 2011" -"EG11203-MONOMER" "MSAPDIRHLPSDTGIEVAFAGRSNAGKSSALNTLTNQKSLARTSKTPGRTQLINLFEVADGKRLVDLPGYGYAEVPEEMKRKWQRALGEYLEKRQSLQGLVVLMDIRHPLKDLDQQMIEWAVDSNIAVLVLLTKADKLASGARKAQLNMVREAVLAFNGDVQVETFSSLKKQGVDKLRQKLDTWFSEMQPVEETQDGE" "c" "Han et al., 2011" -"EG11206-MONOMER" "MSVLYIQIRRNQITVRDLESKREVSGDAAFSNQRLLIANFFVAEKVLQDLVLQLHPRSTWHSFLPAKRMDIVVSALEMNEGGLSQVEERILHEVVAGATLMKYRQFHIHAQSAVLSDSAVMAMLKQK" "m" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"EG11207-MONOMER" "MVISIRRSRHEEGEELVAIWCRSVDATHDFLSAEYRTELEDLVRSFLPEAPLWVAVNERDQPVGFMLLSGQHMDALFIDPDVRGCGVGRVLVEHALSMAPELTTNVNEQNEQAVGFYKKVGFKVTGRSEVDDLGKPYPLLNLAYVGA" "c" "Han et al., 2011" -"EG11208-MONOMER" "MITRIPRSSFSANINNTAQTNEHQTLSELFYKELEDKFSGKELATPLLKSFSENCRQNGRHIFSNKDFVIKFSTSVLQADKKEITIINKNENTTLTQTIAPIFEKYLMEILPQRSDTLDKQELNLKSDRKEKEFPRIKLNGQCYFPGRPQNRIVCRHIAAQYINDIYQNVDYKPHQDDYSSAEKFLTHFNKKCKNQTLALVSSRPEGRCVAACGDFGLVMKAYFDKMESNGISVMAAILLVDNHALTVRLRIKNTTEGCTHYVVSVYDPNVTNDKIRIMSESKENIKHYSLMDFMNVDYSLLKWSNDHVINQSVAIIPALPKEQLLMLKGSVDEITPPLSPATMNLLMAIGQNHQLTQLMIQLQKMPELHRTEMLTAYNSINLPGLYLAINYGNADIVETIFNSLSETGYEGLLSKKNLMHILEAKDKNGFSGLFLAISRKDKNVVTSILNALPKLAATHHLDNEQVYKFLSAKNRTSSHVLYHVMANGDADMLKIVLNALPLLIRTCHLTKEQVLDLLKAKDFYGCPGLYLAMQNGHSDIVKVILEALPSLAQEINISASDIVDLLTAKSLARDTGLFMAMQRGHMNVINTIFNALPTLFNTFKFDKKNMKPLLLANNSNEYPGLFSAIQHKQQNVVETVYLALSDHARLFGFTAEDIMDFWQHKAPQKYSAFELAFEFGHRVIAELILNTLNKMAESFGFTDNPRYIAEKNYMEALLKKASPHTVR" "c" "Unambiguous EcoCyc data" -"EG11209-MONOMER" "MTSLSRPRVEFISTILQTVLNLGLLCLGLILVVFLGKETVHLADVLFAPEQTSKYELVEGLVVYFLYFEFIALIVKYFQSGFHFPLRYFVYIGITAIVRLIIVDHKSPLDVLIYSAAILLLVITLWLCNSKRLKRE" "i" "Han et al., 2011" -"EG11210-MONOMER" "MYTQTLYELSQEAERLLQLSRQQLQLLEKMPLSVPGDDAPQLALPWSQPNIAERHAMLNNELRKISRLEMVLAIVGTMKAGKSTTINAIVGTEVLPNRNRPMTALPTLIRHTPGQKEPVLHFSHVAPIDCLIQQLQQRLRDCDIKHLTDVLEIDKDMRALMQRIENGVAFEKYYLGAQPIFHCLKSLNDLVRLAKALDVDFPFSAYAAIEHIPVIEVEFVHLAGLESYPGQLTLLDTPGPNEAGQPHLQKMLNQQLARASAVLAVLDYTQLKSISDEEVREAILAVGQSVPLYVLVNKFDQQDRNSDDADQVRALISGTLMKGCITPQQIFPVSSMWGYLANRARYELANNGKLPPPEQQRWVEDFAHAALGRRWRHADLADLEHIRHAADQLWEDSLFAQPIQALLHAAYANASLYALRSAAHKLLNYAQQAREYLDFRAHGLNVACEQLRQNIHQIEESLQLLQLNQAQVSGEIKHEIELALTSANHFLRQQQDALKVQLAALFQDDSEPLSEIRTRCETLLQTAQNTISRDFTLRFAELESTLCRVLTDVIRPIEQQVKMELSESGFRPGFHFPVFHGVVPHFNTRQLFSEVISRQEATDEQSTRLGVVRETFSRWLNQPDWGRGNEKSPTETVDYSVLQRALSAEVDLYCQQMAKVLAEQVDESVTAGMNTFFAEFASCLTELQTRLRESLALRQQNESVVRLMQQQLQQTVMTHGWIYTDAQLLRDDIQTLFTAERY" "c" "Han et al., 2011" -"EG11211-MONOMER" "MSETASWQPSASIPNLLKRAAIMAEIRRFFADRGVLEVETPCMSQATVTDIHLVPFETRFVGPGHSQGMNLWLMTSPEYHMKRLLVAGCGPVFQLCRSFRNEEMGRYHNPEFTMLEWYRPHYDMYRLMNEVDDLLQQVLDCPAAESLSYQQAFLRYLEIDPLSADKTQLREVAAKLDLSNVADTEEDRDTLLQLLFTFGVEPNIGKEKPTFVYHFPASQASLAQISTEDHRVAERFEVYYKGIELANGFHELTDAREQQQRFEQDNRKRAARGLPQHPIDQNLIEALKVGMPDCSGVALGVDRLVMLALGAETLAEVIAFSVDRA" "c" "Han et al., 2011" -"EG11212-MONOMER" "VQLTSFTDYGLRALIYMASLPEGRMTSISEVTDVYGVSRNHMVKIINQLSRAGYVTAVRGKNGGIRLGKPASAIRIGDVVRELEPLSLVNCSSEFCHITPACRLKQALSKAVQSFLTELDNYTLADLVEENQPLYKLLLVE" "c" "Han et al., 2011" -"EG11213-MONOMER" "MHMVTYPCLTSRRFQLALIHRRVVDKRTSMHSRTASESTGARIHRPWCARHQVRPAWRCQYDKLHRVPFRSPELRLDSGPGYTTGSYRY" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"EG11214-MONOMER" "MMKTVKHLLCCAIAASALISTGVHAASWKDALSSAASELGNQNSTTQEGGWSLASLTNLLSSGNQALSADNMNNAAGILQYCAKQKLASVTDAENIKNQVLEKLGLNSEEQKEDTNYLDGIQGLLKTKDGQQLNLDNIGTTPLAEKVKTKACDLVLKQGLNFIS" "p" "Han et al., 2011" -"EG11215-MONOMER" "MILMTSGLNIEWSTFMASMLVGTIGIQWSRWYLAHPKVFTVAAVIPMFPGISAYTAMISAVKISQLGYSEPLMITLLTNFLTASSIVGALSIGLSIPGLWLYRKRPRV" "i" "Han et al., 2011" -"EG11217-MONOMER" "MKYKHLILSLSLIMLGPLAHAEEIGSVDTVFKMIGPDHKIVVEAFDDPDVKNVTCYVSRAKTGGIKGGLGLAEDTSDAAISCQQVGPIELSDRIKNGKAQGEVVFKKRTSLVFKSLQVVRFYDAKRNALAYLAYSDKVVEGSPKNAISAVPVMPWRQ" "p" "Han et al., 2011" -"EG11219-MONOMER" "MKKLALILFMGTLVSFYADAGRKPCSGSKGGISHCTAGGKFVCNDGSISASKKTCTN" "p" "Han et al., 2011" -"EG11222-MONOMER" "MYTLNWQPPYDWSWMLGFLAARAVSSVETVADSYYARSLAVGEYRGVVTAIPDIARHTLHINLSAGLEPVAAECLAKMSRLFDLQCNPQIVNGALGRLGAARPGLRLPGCVDAFEQGVRAILGQLVSVAMAAKLTARVAQLYGERLDDFPEYICFPTPQRLAAADPQALKALGMPLKRAEALIHLANAALEGTLPMTIPGDVEQAMKTLQTFPGIGRWTANYFALRGWQAKDVFLPDDYLIKQRFPGMTPAQIRRYAERWKPWRSYALLHIWYTEGWQPDEA" "c" "Han et al., 2011" -"EG11224-MONOMER" "MNNHATVQSSAPVSAAPLLQVSGALIAIIALILAAAWLVKRLGFAPKRTGVNGLKISASASLGARERVVVVDVEDARLVLGVTAGQINLLHKLPPSAPTEEIPQTDFQSVMKNLLKRSGRS" "s" "EcoCyc dump" -"EG11231-MONOMER" "MPKIKTVRGAAKRFKKTGKGGFKHKHANLRHILTKKATKRKRHLRPKAMVSKGDLGLVIACLPYA" "c" "Han et al., 2011" -"EG11232-MONOMER" "MKVRASVKKLCRNCKIVKRDGVIRVICSAEPKHKQRQG" "c" "Han et al., 2011" -"EG11234-MONOMER" "MDVTAKYELIGLMAYPIRHSLSPEMQNKALEKAGLPFTYMAFEVDNDSFPGAIEGLKALKMRGTGVSMPNKQLACEYVDELTPAAKLVGAINTIVNDDGYLRGYNTDGTGHIRAIKESGFDIKGKTMVLLGAGGASTAIGAQGAIEGLKEIKLFNRRDEFFDKALAFAQRVNENTDCVVTVTDLADQQAFAEALASADILTNGTKVGMKPLENESLVNDISLLHPGLLVTECVYNPHMTKLLQQAQQAGCKTIDGYGMLLWQGAEQFTLWTGKDFPLEYVKQVMGFGA" "c" "Han et al., 2011" -"EG11235-MONOMER" "MSFDSLGLSPDILRAVAEQGYREPTPIQQQAIPAVLEGRDLMASAQTGTGKTAGFTLPLLQHLITRQPHAKGRRPVRALILTPTRELAAQIGENVRDYSKYLNIRSLVVFGGVSINPQMMKLRGGVDVLVATPGRLLDLEHQNAVKLDQVEILVLDEADRMLDMGFIHDIRRVLTKLPAKRQNLLFSATFSDDIKALAEKLLHNPLEIEVARRNTASDQVTQHVHFVDKKRKRELLSHMIGKGNWQQVLVFTRTKHGANHLAEQLNKDGIRSAAIHGNKSQGARTRALADFKSGDIRVLVATDIAARGLDIEELPHVVNYELPNVPEDYVHRIGRTGRAAATGEALSLVCVDEHKLLRDIEKLLKKEIPRIAIPGYEPDPSIKAEPIQNGRQQRGGGGRGQGGGRGQQQPRRGEGGAKSASAKPAEKPSRRLGDAKPAGEQQRRRRPRKPAAAQ" "c" "Han et al., 2011" -"EG11236-MONOMER" "MNSCDFRVFLQEFGTTVHLSLPGSVSEKERLLLKLLMQGMSVTEISQYRNRSAKTISHQKKQLFEKLGIQSDITFWRDIFFQYNPEIISATGSNSHRYINDNHYHHIVTPEAISLALENHEFKPWIQPVFCAQTGVLTGCEVLVRWEHPQTGIIPPDQFIPLAESSGLIVIMTRQLMKQTADILMPVKHLLPDNFHIGINVSAGCFLAAGFEKECLNLVNKLGNDKIKLVLELTERNPIPVTPEARAIFDSLHQHNITFALDDFGTGYATYRYLQAFPVDFIKIDKSFVQMASVDEISGHIVDNIVELARKPGLSIVAEGVETQEQADLMIGKGVHFLQGYLYSPPVPGNKFISEWVMKAGG" "c" "EcoCyc dump" -"EG11237-MONOMER" "MKLNIFTKSMIGMGLVCSALPALAMEAWNNQQGGNKYQVIFDGKIYENAWWVSSTNCPGKAKANDATNPWRLKRTATAAEISQFGNTLSCEKSGSSSSSNSNTPASNTPANGGSATPAQGTVPSNSSVVAWNKQQGGQTWYVVFNGAVYKNAWWVASSNCPGDAKSNDASNPWRYVRAATATEISETSNPQSCTSAPQPSPDVKPAPDVKPAPDVQPAPADKSNDNYAVVAWKGQEGSSTWYVIYNGGIYKNAWWVGAANCPGDAKENDASNPWRYVRAATATEISQYGNPGSCSVKPDNNGGAVTPVDPTPETPVTPTPDNSEPSTPADSVNDYSLQAWSGQEGSEIYHVIFNGNVYKNAWWVGSKDCPRGTSAENSNNPWRLERTATAAELSQYGNPTTCEIDNGGVIVADGFQASKAYSADSIVDYNDAHYKTSVDQDAWGFVPGGDNPWKKYEPAKAWSASTVYVKGDRVVVDGQAYEALFWTQSDNPALVANQNATGSNSRPWKPLGKAQSYSNEELNNAPQFNPETLYASDTLIRFNGVNYISQSKVQKVSPSDSNPWRVFVDWTGTKERVGTPKKAWPKHVYAPYVDFTLNTIPDLAALAKNHNVNHFTLAFVVSKDANTCLPTWGTAYGMQNYAQYSKIKALREAGGDVMLSIGGANNAPLAASCKNVDDLMQHYYDIVDNLNLKVLDFDIEGTWVADQASIERRNLAVKKVQDKWKSEGKDIAIWYTLPILPTGLTPEGMNVLSDAKAKGVELAGVNVMTMDYGNAICQSANTEGQNIHGKCATSAIANLHSQLKGLHPNKSDAEIDAMMGTTPMVGVNDVQGEVFYLSDARLVMQDAQKRNLGMVGIWSIARDLPGGTNLSPEFHGLTKEQAPKYAFSEIFAPFTKQ" "p" "Han et al., 2011" -"EG11238-MONOMER" "MKLISNDLRDGDKLPHRHVFNGMGYDGDNISPHLAWDDVPAGTKSFVVTCYDPDAPTGSGWWHWVVVNLPADTRVLPQGFGSGLVAMPDGVLQTRTDFGKTGYDGAAPPKGETHRYIFTVHALDIERIDVDEGASGAMVGFNVHFHSLASASITAMFS" "c" "Han et al., 2011" -"EG11239-MONOMER" "MTTRVIALDLDGTLLTPKKTLLPSSIEALARAREAGYQLIIVTGRHHVAIHPFYQALALDTPAICCNGTYLYDYHAKTVLEADPMPVIKALQLIEMLNEHHIHGLMYVDDAMVYEHPTGHVIRTSNWAQTLPPEQRPTFTQVASLAETAQQVNAVWKFALTHDDLPQLQHFGKHVEHELGLECEWSWHDQVDIARGGNSKGKRLTKWVEAQGWSMENVVAFGDNFNDISMLEAAGTGVAMGNADDAVKARANIVIGDNTTDSIAQFIYSHLI" "c" "Han et al., 2011" -"EG11241-MONOMER" "MTKPYVRLDKNDAAVLLVDHQAGLLSLVRDIEPDKFKNNVLALGDLAKYFNLPTILTTSFETGPNGPLVPELKAQFPDTPYIARPGNINAWDNEDFVKAVKATGKKQLIIAGVVTEVCVAFPALSAIEEGFDVFVVTDASGTFNEITRHSAWDRLSQAGAQLMTWFGVACELHRDWRNDIEGLATLFSNHIPDYRNLMTSYDTLTKQK" "c" "Han et al., 2011" -"EG11244-MONOMER" "VKFKVIALAALMGISGMAAQANELPDGPHIVTSGTASVDAVPDIATLAIEVNVAAKDAATAKKQADERVAQYISFLELNQIAKKDISSANLRTQPDYDYQDGKSILKGYRAVRTVEVTLRQLDKLNSLLDGALKAGLNEIRSVSLGVAQPDAYKDKARKAAIDNAIHQAQELANGFHRKLGPVYSVRYHVSNYQPSPMVRMMKADAAPVSAQETYEQAAIQFDDQVDVVFQLEPVDQQPAKTPAAQ" "p" "Han et al., 2011" -"EG11245-MONOMER" "MMSLAWPLFRVTEQAALAAWPQTGCGDKNKIDGLAVTAMRQALNDVAFRGRVVIGEGEIDHAPMLWIGEEVGKGDGPEVDIAVDPIEGTRMVAMGQSNALAVMAFAPRDSLLHAPDMYMKKLVVNRLAAGAIDLSLPLTDNLRNVAKALGKPLDKLRMVTLDKPRLSAAIEEATQLGVKVFALPDGDVAASVLTCWQDNPYDVMYTIGGAPEGVISACAVKALGGDMQAELIDFCQAKGDYTENRQIAEQERKRCKAMGVDVNRVYSLDELVRGNDILFSATGVTGGELVNGIQQTANGVRTQTLLIGGADQTCNIIDSLH" "c" "Han et al., 2011" -"EG11246-MONOMER" "MAMYQNMLVVIDPNQDDQPALRRAVYLHQRIGGKIKAFLPIYDFSYEMTTLLSPDERTAMRQGVISQRTAWIHEQAKYYLNAGVPIEIKVVWHNRPFEAIIQEVISGGHDLVLKMAHQHDRLEAVIFTPTDWHLLRKCPSPVWMVKDQPWPEGGKALVAVNLASEEPYHNALNEKLVKETIELAEQVNHTEVHLVGAYPVTPINIAIELPEFDPSVYNDAIRGQHLLAMKALRQKFGINENMTHVEKGLPEEVIPDLAEHLQAGIVVLGTVGRTGISAAFLGNTAEQVIDHLRCDLLVIKPDQYQTPVELDDEEDD" "c" "Han et al., 2011" -"EG11247-MONOMER" "MAQFYSAKRRTTTRQIITVSVNDLDSFGQGVARHNGKTLFIPGLLPQENAEVTVTEDKKQYARAKVVRRLSDSPERETPRCPHFGVCGGCQQQHASVDLQQRSKSAALARLMKHDVSEVIADVPWGYRRRARLSLNYLPKTQQLQMGFRKAGSSDIVDVKQCPILAPQLEALLPKVRACLGSLQAMRHLGHVELVQATSGTLMILRHTAPLSSADREKLERFSHSEGLDLYLAPDSEILETVSGEMPWYDSNGLRLTFSPRDFIQVNAGVNQKMVARALEWLDVQPEDRVLDLFCGMGNFTLPLATQAASVVGVEGVPALVEKGQQNARLNGLQNVTFYHENLEEDVTKQPWAKNGFDKVLLDPARAGAAGVMQQIIKLEPIRIVYVSCNPATLARDSEALLKAGYTIARLAMLDMFPHTGHLESMVLFSRVK" "c" "Han et al., 2011" -"EG11249-MONOMER" "MVSRYVPDMGDLIWVDFDPTKGSEQAGHRPAVVLSPFMYNNKTGMCLCVPCTTQSKGYPFEVVLSGQERDGVALADQVKSIAWRARGATKKGTVAPEELQLIKAKINVLIG" "c" "Han et al., 2011" -"EG11250-MONOMER" "MRITIKRWGNSAGMVIPNIVMKELNLQPGQSVEAQVSNNQLILTPISRRYSLDELLAQCDMNAAELSEQDVWGKSTPAGDEIW" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"EG11251-MONOMER" "MRSLADFEFNKAPLCEGMILACEAIRRDFPSQDVYDELERLVSLAKEEISQLLPLEEQLEKLIALFYGDWGFKASRGVYRLSDALWLDQVLKNRQGSAVSLGAVLLWVANRLDLPLLPVIFPTQLILRIECPDGEIWLINPFNGESLSEHMLDVWLKGNISPSAELFYEDLDEADNIEVIRKLLDTLKASLMEENQMELALRTSEALLQFNPEDPYEIRDRGLIYAQLDCEHVALNDLSYFVEQCPEDPISEMIRAQINNIAHKHIVLH" "c" "Han et al., 2011" -"EG11252-MONOMER" "MPVKLAQALANPLFPALDSALRSGRHIGLDELDNHAFLMDFQEYLEEFYARYNVELIRAPEGFFYLRPRSTTLIPRSVLSELDMMVGKILCYLYLSPERLANEGIFTQQELYDELLTLADEAKLLKLVNNRSTGSDVDRQKLQEKVRSSLNRLRRLGMVWFMGHDSSKFRITESVFRFGADVRAGDDPREAQRRLIRDGEAMPIENHLQLNDETEENQPDSGEEE" "c" "Han et al., 2011" -"EG11253-MONOMER" "MLLNMMCGRQLSAISLCLAVTFAPLFNAQADEPEVIPGDSPVAVSEQGEALPQAQATAIMAGIQPLPEGAAEKARTQIESQLPAGYKPVYLNQLQLLYAARDMQPMWENRDAVKAFQQQLAEVAIAGFQPQFNKWVELLTDPGVNGMARDVVLSDAMMGYLHFIANIPVKGTRWLYSSKPYALATPPLSVINQWQLALDKGQLPTFVAGLAPQHPQYAAMHESLLALLCDTKPWPQLTGKATLRPGQWSNDVPALREILQRTGMLDGGPKITLPGDDTPTDAVVSPSAVTVETAETKPMDKQTTSRSKPAPAVRAAYDNELVEAVKRFQAWQGLGADGAIGPATRDWLNVTPAQRAGVLALNIQRLRLLPTELSTGIMVNIPAYSLVYYQNGNQVLDSRVIVGRPDRKTPMMSSALNNVVVNPPWNVPPTLARKDILPKVRNDPGYLESHGYTVMRGWNSREAIDPWQVDWSTITASNLPFRFQQAPGPRNSLGRYKFNMPSSEAIYLHDTPNHNLFKRDTRALSSGCVRVNKASDLANMLLQDAGWNDKRISDALKQGDTRYVNIRQSIPVNLYYLTAFVGADGRTQYRTDIYNYDLPARSSSQIVSKAEQLIR" "p" "Han et al., 2011" -"EG11254-MONOMER" "VKLQLVAVGTKMPDWVQTGFTEYLRRFPKDMPFELIEIPAGKRGKNADIKRILDKEGEQMLAAAGKNRIVTLDIPGKPWDTPQLAAELERWKLDGRDVSLLIGGPEGLSPACKAAAEQSWSLSALTLPHPLVRVLVAESLYRAWSITTNHPYHRE" "c" "Han et al., 2011" -"EG11255-MONOMER" "LQGKALQDFVIDKIDDLKGQDIIALDVQGKSSITDCMIICTGTSSRHVMSIADHVVQESRAAGLLPLGVEGENSADWIVVDLGDVIVHVMQEESRRLYELEKLWS" "c" "Han et al., 2011" -"EG11256-MONOMER" "MKNLIAELLFKLAQKEEESKELCAQVEALEIIVTAMLRNMAQNDQQRLIDQVEGALYEVKPDASIPDDDTELLRDYVKKLLKHPRQ" "c" "Han et al., 2011" -"EG11257-MONOMER" "MFPKIMNDENFFKKAAAHGEEPPLTPQNEHQRSGLRFARRVRLPRAVGLAGMFLPIASTLVSHPPPGWWWLVLVGWAFVWPHLAWQIASRAVDPLSREIYNLKTDAVLAGMWVGVMGVNVLPSTAMLMIMCLNLMGAGGPRLFVAGLVLMVVSCLVTLELTGITVSFNSAPLEWWLSLPIIVIYPLLFGWVSYQTATKLAEHKRRLQVMSTRDGMTGVYNRRHWETMLRNEFDNCRRHNRDATLLIIDIDHFKSINDTWGHDVGDEAIVALTRQLQITLRGSDVIGRFGGDEFAVIMSGTPAESAITAMLRVHEGLNTLRLPNTPQVTLRISVGVAPLNPQMSHYREWLKSADLALYKAKKAGRNRTEVAA" "i" "Han et al., 2011" -"EG11259-MONOMER" "MSQDPFQEREAEKYANPIPSREFILEHLTKREKPASRDELAVELHIEGEEQLEGLRRRLRAMERDGQLVFTRRQCYALPERLDLVKGTVIGHRDGYGFLRVEGRKDDLYLSSEQMKTCIHGDQVLAQPLGADRKGRREARIVRVLVPKTSQIVGRYFTEAGVGFVVPDDSRLSFDILIPPDQIMGARMGFVVVVELTQRPTRRTKAVGKIVEVLGDNMGTGMAVDIALRTHEIPYIWPQAVEQQVAGLKEEVPEEAKAGRVDLRDLPLVTIDGEDARDFDDAVYCEKKRGGGWRLWVAIADVSYYVRPSTPLDREARNRGTSVYFPSQVIPMLPEVLSNGLCSLNPQVDRLCMVCEMTVSSKGRLTGYKFYEAVMSSHARLTYTKVWHILQGDQDLREQYAPLVKHLEELHNLYKVLDKAREERGGISFESEEAKFIFNAERRIERIEQTQRNDAHKLIEECMILANISAARFVEKAKEPALFRIHDKPSTEAITSFRSVLAELGLELPGGNKPEPRDYAELLESVADRPDAEMLQTMLLRSMKQAIYDPENRGHFGLALQSYAHFTSPIRRYPDLTLHRAIKYLLAKEQGHQGNTTETGGYHYSMEEMLQLGQHCSMAERRADEATRDVADWLKCDFMLDQVGNVFKGVISSVTGFGFFVRLDDLFIDGLVHVSSLDNDYYRFDQVGQRLMGESSGQTYRLGDRVEVRVEAVNMDERKIDFSLISSERAPRNVGKTAREKAKKGDAGKKGGKRRQVGKKVNFEPDSAFRGEKKTKPKAAKKDARKAKKPSAKTQKIAAATKAKRAAKKKVAE" "c" "Han et al., 2011" -"EG11260-MONOMER" "MHIMVTQGGLMSLSIVHTRAALGVNAPPITVEVHISKGLPGLTMVGLPETTVKEARDRVRSAIINSGYEYPAKKITINLAPADLPKEGGRYDLPIAIALLAASEQLTANKLDEYELVGELALTGALRGVPGAISSATEAIKSGRKIIVAKDNEDEVGLINGEGCLIADHLQAVCAFLEGKHALERPKPTDAVSRALQHDLSDVIGQEQGKRGLEITAAGGHNLLLIGPPGTGKTMLASRINGLLPDLSNEEALESAAILSLVNAESVQKQWRQRPFRSPHHSASLTAMVGGGAIPGPGEISLAHNGVLFLDELPEFERRTLDALREPIESGQIHLSRTRAKITYPARFQLVAAMNPSPTGHYQGNHNRCTPEQTLRYLNRLSGPFLDRFDLSLEIPLPPPGILSKTVVPGESSATVKQRVMAARERQFKRQNKLNAWLDSPEIRQFCKLESEDAMWLEGTLIHLGLSIRAWQRLLKVARTIADIDQSDIITRQHLQEAVSYRAIDRLLIHLQKLLT" "c" "Han et al., 2011" -"EG11261-MONOMER" "MTPTIELICGHRSIRHFTDEPISEAQREAIINSARATSSSSFLQCSSIIRITDKALREELVTLTGGQKHVAQAAEFWVFCADFNRHLQICPDAQLGLAEQLLLGVVDTAMMAQNALIAAESLGLGGVYIGGLRNNIEAVTKLLKLPQHVLPLFGLCLGWPADNPDLKPRLPASILVHENSYQPLDKGALAQYDEQLAEYYLTRGSNNRRDTWSDHIRRTIIKESRPFILDYLHKQGWATR" "c" "Han et al., 2011" -"EG11263-MONOMER" "MFEFYIAAREQKETGHPGIFSRQKHSTIIYVICLLLICLWFAGMVLVGGYARQLWVLWIVKAEVTVEAETPAFKQSTQHYFFKKQPLPVVESVEEEDDPGVAVENAPSSSEDEENTVEESEEKAGLRERVKNALNELER" "i" "Han et al., 2011" -"EG11266-MONOMER" "MMNSTNKLSVIIPLYNAGDDFRTCMESLITQTWTALEIIIINDGSTDNSVEIAKYYAENYPHVRLLHQANAGASVARNRGIEVATGKYVAFVDADDEVYPTMYETLMTMALEDDLDVAQCNADWCFRETGETWQSIPTDRLRSTGVLTGPDWLRMGLSSRRWTHVVWMGVYRRDVIVKNNIKFIAGLHHQDIVWTTEFMFNALRARYTEQSLYKYYLHNTSVSRLHRQGNKNLNYQRHYIKITRLLEKLNRNYADKIMIYPEFHQQITYEALRVCHAVRKEPDILTRQRMIAEIFTSGMYKRLITNVRSVKVGYQALLWSFRLWQWRDKTRSHHRITRSAFNLR" "c" "Han et al., 2011" -"EG11267-MONOMER" "MKTSKTVAKLLFVVGALVYLVGLWISCPLLSGKGYFLGVLMTATFGNYAYLRAEKLGQLDDFFTHICQLVALITIGLLFIGVLNAPINTYEMVIYPIAFFVCLFGQMRLFRSA" "i" "Han et al., 2011" -"EG11268-MONOMER" "VSESLRIIFAGTPDFAARHLDALLSSGHNVVGVFTQPDRPAGRGKKLMPSPVKVLAEEKGLPVFQPVSLRPQENQQLVAELQADVMVVVAYGLILPKAVLEMPRLGCINVHGSLLPRWRGAAPIQRSLWAGDAETGVTIMQMDVGLDTGDMLYKLSCPITAEDTSGTLYDKLAELGPQGLITTLKQLADGTAKPEVQDETLVTYAEKLSKEEARIDWSLSAAQLERCIRAFNPWPMSWLEIEGQPVKVWKASVIDTATNAAPGTILEANKQGIQVATGDGILNLLSLQPAGKKAMSAQDLLNSRREWFVPGNRLV" "c" "Han et al., 2011" -"EG11269-MONOMER" "MTRVQFKHHHHHHHPD" "c" "Han et al., 2011" -"EG11270-MONOMER" "MTALLRVISLVVISVVVIIIPPCGAALGRGKA" "i" "Han et al., 2011" -"EG11271-MONOMER" "MKHIPFFFAFFFTFP" "c" "Han et al., 2011" -"EG11272-MONOMER" "MNAAIFRFFFYFST" "c" "Han et al., 2011" -"EG11274-MONOMER" "MKAIFVLKGWWRTS" "c" "Han et al., 2011" -"EG11275-MONOMER" "MTTSMLNAKLLPTAPSAAVVVVRVVVVVGNAP" "c" "Han et al., 2011" -"EG11276-MONOMER" "MNILHICVTSKWFNIDNKIVDHRP" "c" "Han et al., 2011" -"EG11277-MONOMER" "MKRISTTITTTITITTGNGAG" "c" "Han et al., 2011" -"EG11279-MONOMER" "MVQCVRHFVLPRLKKDAGLPFFFPLITHSQPLNRGAFFCPGVRR" "c" "Han et al., 2011" -"EG11280-MONOMER" "MTHIVRFIGLLLLNASSLRGRRVSGIQH" "c" "Han et al., 2011" -"EG11281-MONOMER" "MPIQVLPPQLANQIAAGEVVERPASVVKELVENSLDAGATRIDIDIERGGAKLIRIRDNGCGIKKDELALALARHATSKIASLDDLEAIISLGFRGEALASISSVSRLTLTSRTAEQQEAWQAYAEGRDMNVTVKPAAHPVGTTLEVLDLFYNTPARRKFLRTEKTEFNHIDEIIRRIALARFDVTINLSHNGKIVRQYRAVPEGGQKERRLGAICGTAFLEQALAIEWQHGDLTLRGWVADPNHTTPALAEIQYCYVNGRMMRDRLINHAIRQACEDKLGADQQPAFVLYLEIDPHQVDVNVHPAKHEVRFHQSRLVHDFIYQGVLSVLQQQLETPLPLDDEPQPAPRSIPENRVAAGRNHFAEPAAREPVAPRYTPAPASGSRPAAPWPNAQPGYQKQQGEVYRQLLQTPAPMQKLKAPEPQEPALAANSQSFGRVLTIVHSDCALLERDGNISLLSLPVAERWLRQAQLTPGEAPVCAQPLLIPLRLKVSAEEKSALEKAQSALAELGIDFQSDAQHVTIRAVPLPLRQQNLQILIPELIGYLAKQSVFEPGNIAQWIARNLMSEHAQWSMAQAITLLADVERLCPQLVKTPPGGLLQSVDLHPAIKALKDE" "c" "Han et al., 2011" -"EG11285-MONOMER" "MSHKPAHLLLVDDDPGLLKLLGLRLTSEGYSVVTAESGAEGLRVLNREKVDLVISDLRMDEMDGMQLFAEIQKVQPGMPVIILTAHGSIPDAVAATQQGVFSFLTKPVDKDALYQAIDDALEQSAPATDERWREAIVTRSPLMLRLLEQARLVAQSDVSVLINGQSGTGKEIFAQAIHNASPRNSKPFIAINCGALPEQLLESELFGHARGAFTGAVSNREGLFQAAEGGTLFLDEIGDMPAPLQVKLLRVLQERKVRPLGSNRDIDINVRIISATHRDLPKAMARGEFREDLYYRLNVVSLKIPALAERTEDIPLLANHLLRQAAERHKPFVRAFSTDAMKRLMTASWPGNVRQLVNVIEQCVALTSSPVISDALVEQALEGENTALPTFVEARNQFELNYLRKLLQITKGNVTHAARMAGRNRTEFYKLLSRHELDANDFKE" "c" "Han et al., 2011" -"EG11287-MONOMER" "MSGKRISREKLTIKKMIDLYQAKCPQASAEPEHYEALFVYAQKRLDKCVFGEEKPACKQCPVHCYQPAKREEMKQIMRWAGPRMLWRHPILTVRHLIDDKRPVPELPEKYRPKKPHE" "c" "Han et al., 2011" -"EG11288-MONOMER" "VRIGIDLGGTKTEVIALGDAGEQLYRHRLPTPRDDYRQTIETIATLVDMAEQATGQRGTVGMGIPGSISPYTGVVKNANSTWLNGQPFDKDLSARLQREVRLANDANCLAVSEAVDGAAAGAQTVFAVIIGTGCGAGVAFNGRAHIGGNGTAGEWGHNPLPWMDEDELRYREEVPCYCGKQGCIETFISGTGFAMDYRRLSGHALKGSEIIRLVEESDPVAELALRRYELRLAKSLAHVVNILDPDVIVLGGGMSNVDRLYQTVGQLIKQFVFGGECETPVRKAKHGDSSGVRGAAWLWPQE" "c" "Han et al., 2011" -"EG11289-MONOMER" "MLTKDLSITFCGVKFPNPFCLSSSPVGNCYEMCAKAYDTGWGGVVFKTIGFFIANEVSPRFDHLVKEDTGFIGFKNMEQIAEHPLEENLAALRRLKEDYPDKVLIASIMGENEQQWEELARLVQEAGADMIECNFSCPQMTSHAMGSDVGQSPELVEKYCRAVKRGSTLPMLAKMTPNIGDMCEVALAAKRGGADGIAAINTVKSITNIDLNQKIGMPIVNGKSSISGYSGKAVKPIALRFIQQMRTHPELRDFPISGIGGIETWEDAAEFLLLGAATLQVTTGIMQYGYRIVEDMASGLSHYLADQGFDSLQEMVGLANNNIVPAEDLDRSYIVYPRINLDKCVGCGRCYISCYDGGHQAMEWSEKTRTPHCNTEKCVGCLLCGHVCPVGCIELGEVKFKKGEKEHPVTL" "c" "Han et al., 2011" -"EG11290-MONOMER" "MERNVTLDFVRGVAILGILLLNISAFGLPKAAYLNPAWYGAITPRDAWTWAFLDLIGQVKFLTLFALLFGAGLQMLLPRGRRWIQSRLTLLVLLGFIHGLLFWDGDILLAYGLVGLICWRLVRDAPSVKSLFNTGVMLYLVGLGVLLLLGLISDSQTSRAWTPDASAILYEKYWKLHGGVEAISNRADGVGNSLLALGAQYGWQLAGMMLIGAALMRSGWLKGQFSLRHYRRTGFVLVAIGVTINLPAIALQWQLDWAYRWCAFLLQMPRELSAPFQAIGYASLFYGFWPQLSRFKLVLAIACVGRMALTNYLLQTLICTTLFYHLGLFMHFDRLELLAFVIPVWLANILFSVIWLRYFRQGPVEWLWRQLTLRAAGPAISKTSR" "i" "Han et al., 2011" -"EG11291-MONOMER" "MKIRALLVAMSVATVLTGCQNMDSNGLLSSGAEAFQAYSLSDAQVKTLSDQACQEMDSKATIAPANSEYAKRLTTIANALGNNINGQPVNYKVYMAKDVNAFAMANGCIRVYSGLMDMMTDNEVEAVIGHEMGHVALGHVKKGMQVALGTNAVRVAAASAGGIVGSLSQSQLGNLGEKLVNSQFSQRQEAEADDYSYDLLRQRGISPAGLATSFEKLAKLEEGRQSSMFDDHPASAERAQHIRDRMSADGIK" "c" "Han et al., 2011" -"EG11292-MONOMER" "MSHLKDPTTQYYTGEYPKQKQPTPGIQAKMTPVPDCGEKTYVGSGRLKDRKALVTGGDSGIGRAAAIAYAREGADVAISYLPVEEEDAQDVKKIIEECGRKAVLLPGDLSDEKFARSLVHEAHKALGGLDIMALVAGKQVAIPDIADLTSEQFQKTFAINVFALFWLTQEAIPLLPKGASIITTSSIQAYQPSPHLLDYAATKAAILNYSRGLAKQVAEKGIRVNIVAPGPIWTALQISGGQTQDKIPQFGQQTPMKRAGQPAELAPVYVYLASQESSYVTAEVHGVCGGEHLG" "c" "Han et al., 2011" -"EG11293-MONOMER" "MPLPDFRLIRLLPLAALVLTACSVTTPKGPGKSPDSPQWRQHQQDVRNLNQYQTRGAFAYISDQQKVYARFFWQQTGQDRYRLLLTNPLGSTELELNAQPGNVQLVDNKGQRYTADDAEEMIGKLTGMPIPLNSLRQWILGLPGDATDYKLDDQYRLSEITYSQNGKNWKVVYGGYDTKTQPAMPANMELTDGGQRIKLKMDNWIVK" "o" "Han et al., 2011" -"EG11294-MONOMER" "MRTQWPSPAKLNLFLYITGQRADGYHTLQTLFQFLDYGDTISIELRDDGDIRLLTPVEGVEHEDNLIVRAARLLMKTAADSGRLPTGSGANISIDKRLPMGGGLGGGSSNAATVLVALNHLWQCGLSMDELAEMGLTLGADVPVFVRGHAAFAEGVGEILTPVDPPEKWYLVAHPGVSIPTPVIFKDPELPRNTPKRSIETLLKCEFSNDCEVIARKRFREVDAVLSWLLEYAPSRLTGTGACVFAEFDTESEARQVLEQAPEWLNGFVAKGANLSPLHRAML" "c" "Han et al., 2011" -"EG11295-MONOMER" "MTQPMPGKPAEDAENELDIRGLFRTLWAGKLWIIGMGLAFALIALAYTFFARQEWSSTAITDRPTVNMLGGYYSQQQFLRNLDVRSNMASADQPSVMDEAYKEFVMQLASWDTRREFWLQTDYYKQRMVGNSKADAALLDEMINNIQFIPGDFTRAVNDSVKLIAETAPDANNLLRQYVAFASQRAASHLNDELKGAWAARTIQMKAQVKRQEEVAKAIYDRRMNSIEQALKIAEQHNISRSATDVPAEELPDSEMFLLGRPMLQARLENLQAVGPAFDLDYDQNRAMLNTLNVGPTLDPRFQTYRYLRTPEEPVKRDSPRRAFLMIMWGIVGGLIGAGVALTRRCSK" "i" "Han et al., 2011" -"EG11296-MONOMER" "VAKAPKRAFVCNECGADYPRWQGQCSACHAWNTITEVRLAASPMVARNERLSGYAGSAGVAKVQKLSDISLEELPRFSTGFKEFDRVLGGGVVPGSAILIGGNPGAGKSTLLLQTLCKLAQQMKTLYVTGEESLQQVAMRAHRLGLPTDNLNMLSETSIEQICLIAEEEQPKLMVIDSIQVMHMADVQSSPGSVAQVRETAAYLTRFAKTRGVAIVMVGHVTKDGSLAGPKVLEHCIDCSVLLDGDADSRFRTLRSHKNRFGAVNELGVFAMTEQGLREVSNPSAIFLSRGDEVTSGSSVMVVWEGTRPLLVEIQALVDHSMMANPRRVAVGLEQNRLAILLAVLHRHGGLQMADQDVFVNVVGGVKVTETSADLALLLAMVSSLRDRPLPQDLVVFGEVGLAGEIRPVPSGQERISEAAKHGFRRAIVPAANVPKKAPEGMQIFGVKKLSDALSVFDDL" "c" "Han et al., 2011" -"EG11298-MONOMER" "MTSLYLASGSPRRQELLAQLGVTFERIVTGIEEQRQPQESAQQYVVRLAREKARAGVAQTAKDLPVLGADTIVILNGEVLEKPRDAEHAAQMLRKLSGQTHQVMTAVALADSQHILDCLVVTDVTFRTLTDEDIAGYVASDEPLDKAGAYGIQGLGGCFVRKINGSYHAVVGLPLVETYELLSNFNALREKRDKHDG" "c" "Han et al., 2011" -"EG11299-MONOMER" "MTAELLVNVTPSETRVAYIDGGILQEIHIEREARRGIVGNIYKGRVSRVLPGMQAAFVDIGLDKAAFLHASDIMPHTECVAGEEQKQFTVRDISELVRQGQDLMVQVVKDPLGTKGARLTTDITLPSRYLVFMPGASHVGVSQRIESESERERLKKVVAEYCDEQGGFIIRTAAEGVGEAELASDAAYLKRVWTKVMERKKRPQTRYQLYGELALAQRVLRDFADAELDRIRVDSRLTYEALLEFTSEYIPEMTSKLEHYTGRQPIFDLFDVENEIQRALERKVELKSGGYLIIDQTEAMTTVDINTGAFVGHRNLDDTIFNTNIEATQAIARQLRLRNLGGIIIIDFIDMNNEDHRRRVLHSLEQALSKDRVKTSVNGFSALGLVEMTRKRTRESIEHVLCNECPTCHGRGTVKTVETVCYEIMREIVRVHHAYDSDRFLVYASPAVAEALKGEESHSLAEVEIFVGKQVKVQIEPLYNQEQFDVVMM" "c" "Han et al., 2011" -"EG11300-MONOMER" "MDTIDLGNNESLVYGVFPNQDGTFTAMTYTKSKTFKTENGARRWLERNSGE" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"EG11301-MONOMER" "MDFDTIMEKAYEEYFEGLAEGEEALSFSEFKQALSSSAKSNG" "c" "Unambiguous EcoCyc data" -"EG11302-MONOMER" "MQKREPVIIAPDYTDDELYEWMRQKINAAQDLKWANEARAKQAENLSALEQDITNLEKAAALSIARMITYPR" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"EG11303-MONOMER" "MNSAFVLVLTVFLVSGEPVDIAVSVHRTMQECMTAATEQKIPGNCYPVDKVIHQDNIEIPAGL" "c" "Han et al., 2011" -"EG11304-MONOMER" "MSKVFICAAIPDELATREEGAVAVATAIEAGDERRARAKFHWQFLEHYPAAQDCAYKFIVCEDKPGIPRPALDSWDAEYMQENRWDEESASFVPVETESDPMNVTFDKLAPEVQNAVMVKFDTCENITVDMVISAQELLQEDMATFDGHIVEALMKMPEVNAMYPELKLHAIGWVKHKCIPGAKWPEIQAEMRIWKKRREGERKETGKYTSVVDLARARANQQYTENSTGKISPVIAAIHREYKQTWKTLDDELAYGRCFADRQNLMVCLRSMPNVFTGSCARMRCCLSENLLYRHRNGHIQAEWP" "c" "Han et al., 2011" -"EG11305-MONOMER" "MGEISITKLLVVAALVVLLFGTKKLRTLGGDLGAAIKGFKKAMNDDDAAAKKGADVDLQAEKLSHKE" "i" "EcoCyc dump" -"EG11306-MONOMER" "MSKPIVMERGVKYRDADKMALIPVKNVATEREALLRKPEWMKIKLPADSTRIQGIKAAMRKNGLHSVCEEASCPNLAECFNHGTATFMILGAICTRRCPFCDVAHGRPVAPDANEPVKLAQTIADMALRYVVITSVDRDDLRDGGAQHFADCITAIREKSPQIKIETLVPDFRGRMDRALDILTATPPDVFNHNLENVPRIYRQVRPGADYNWSLKLLERFKEAHPEIPTKSGLMVGLGETNEEIIEVMRDLRRHGVTMLTLGQYLQPSRHHLPVQRYVSPDEFDEMKAEALAMGFTHAACGPFVRSSYHADLQAKGMEVK" "c" "Han et al., 2011" -"EG11309-MONOMER" "MSSNTFTLGTKSVNRLGYGAMQLAGPGVFGPPRDRHVAITVLREALALGVNHIDTSDFYGPHVTNQIIREALYPYSDDLTIVTKIGARRGEDASWLPAFSPAELQKAVHDNLRNLGLDVLDVVNLRVMMGDGHGPAEGSIEASLTVLAEMQQQGLVKHIGLSNVTPTQVAEARKIAEIVCVQNEYNIAHRADDAMIDALAHDGIAYVPFFPLGGFTPLQSSTLSDVAASLGATPMQVALAWLLQRSPNILLIPGTSSVAHLRENMAAEKLHLSEEVLSTLDGISRE" "c" "Han et al., 2011" -"EG11310-MONOMER" "MLKARNCGWIRLLPLFMLSLPVQAELRCVANAVDIESFFSAATAEDKQQVEQAINSSVNLVPFGLSASNWKVHRGDLVVEGNIESNQKLIVLGNLTVKGNISTFSLSNPWVILGNVTATNIVADSPLLITGSINASGLVFIDSYYDNPSTIKGSINARGIFINDIIAPVVASSTNSEFMVRASDKHDTENVKKALMIINPDAYYWGLINDEDALKEIFKRSNIRMAGNVCNQMKKEALFRPKPSPELVQELQMLDEGKVAAFEGRDIATFDLAVMRTLPRLKGISANLRKQLINSNDEQTIESMARYMPDNEILELTDQQLGYQPVVLGLLDREPLSVEIMTRMSRLPDGVGPLNLALRENLPLDIVMTLAKRDWDMIIQELYKDAWLLPESIIDGYIRSDDSSIRQVGAGGQLTYNQAMQLANDSSNNVVTSLAFKLAEMKHHGQLLRMTPQESDKVAGYLYQKFENDDDLIRVLFLALPDNLQFNFVKRMEKKSPAYFCCRDMQVIHSDAALQRLLTRFNDPEGWSNLAKNQYLSTSMKQKIWQRALSHRKNNPKADSDAYETSADMILSELISHGEVDDQMLLNATALIRSDDWDFLESALISWDNLPAVVLKELQQNTPRNDIWAKFFLRQENSSRAQVDEALRVYYALDPDALAQLDVLAKQPDRIWWSTLAKSNLTFFKFGALNNRHTPPAVLAAEIDPEWWIVAMNNPRFPVDVLKARLKRDPLLALELVNPELDLVRQLALNGKTRAIREQAMRKLDELY" "p" "Han et al., 2011" -"EG11311-MONOMER" "MRIGQYQLRNRLIAAPMAGITDRPFRTLCYEMGAGLTVSEMMSSNPQVWESDKSRLRMVHIDEPGIRTVQIAGSDPKEMADAARINVESGAQIIDINMGCPAKKVNRKLAGSALLQYPDVVKSILTEVVNAVDVPVTLKIRTGWAPEHRNCEEIAQLAEDCGIQALTIHGRTRACLFNGEAEYDSIRAVKQKVSIPVIANGDITDPLKARAVLDYTGADALMIGRAAQGRPWIFREIQHYLDTGELLPPLPLAEVKRLLCAHVRELHDFYGPAKGYRIARKHVSWYLQEHAPNDQFRRTFNAIEDASEQLEALEAYFENFA" "c" "Han et al., 2011" -"EG11312-MONOMER" "VKNNSQLLMPREKMLKFGISALTDVELLALFLRTGTRGKDVLTLAKEMLENFGSLYGLLTSEYEQFSGVHGIGVAKFAQLKGIAELARRYYNVRMREESPLLSPEMTREFLQSQLTGEEREIFMVIFLDSQHRVITHRRLFSGTLNHVEVHPREIIREAIKINASALILAHNHPSGCAEPSKADKLITERIIKSCQFMDLRVLDHIVIGRGEYVSFAERGWI" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"EG11315-MONOMER" "MQALLLEQQDGKTLASVQTLDESRLPEGDVTVDVHWSSLNYKDALAITGKGKIIRNFPMIPGIDFAGTVRTSEDPRFHAGQEVLLTGWGVGENHWGGLAEQARVKGDWLVAMPQGLDARKAMIIGTAGFTAMLCVMALEDAGVRPQDGEIVVTGASGGVGSTAVALLHKLGYQVVAVSGRESTHEYLKSLGASRVLPRDEFAESRPLEKQVWAGAIDTVGDKVLAKVLAQMNYGGCVAACGLAGGFTLPTTVMPFILRNVRLQGVDSVMTPPERRAQAWQRLVADLPESFYTQAAKEISLSEAPNFAEAIINNQIQGRTLVKVN" "c" "Han et al., 2011" -"EG11320-MONOMER" "MHCPFCFAVDTKVIDSRLVGEGSSVRRRRQCLVCNERFTTFEVAELVMPRVVKSNDVREPFNEEKLRSGMLRALEKRPVSSDDVEMAINHIKSQLRATGEREVPSKMIGNLVMEQLKKLDKVAYIRFASVYRSFEDIKEFGEEIARLED" "c" "Han et al., 2011" -"EG11323-MONOMER" "MSIQNEMPGYNEMNQYLNQQGTGLTPAEMHGLISGMICGGNDDSSWLPLLHDLTNEGMAFGHELAQALRKMHSATSDALQDDGFLFQLYLPDGDDVSVFDRADALAGWVNHFLLGLGVTQPKLDKVTGETGEAIDDLRNIAQLGYDEDEDQEELEMSLEEIIEYVRVAALLCHDTFTHPQPTAPEVQKPTLH" "c" "Han et al., 2011" -"EG11333-MONOMER" "MQSVDVAIVGGGMVGLAVACGLQGSGLRVAVLEQRVQEPLAANAPPQLRVSAINAASEKLLTRLGVWQDILSRRASCYHGMEVWDKDSFGHISFDDQSMGYSHLGHIVENSVIHYALWNKAHQSSDITLLAPAELQQVAWGENETFLTLKDGSMLTARLVIGADGANSWLRNKADIPLTFWDYQHHALVATIRTEEPHDAVARQVFHGEGILAFLPLSDPHLCSIVWSLSPEEAQRMQQASEDEFNRALNIAFDNRLGLCKVESARQVFPLTGRYARQFASHRLALVGDAAHTIHPLAGQGVNLGFMDAAELIAELKRLHRQGKDIGQYIYLRRYERSRKHSAALMLAGMQGFRDLFSGTNPAKKLLRDIGLKLADTLPGVKPQLIRQAMGLNDLPEWLR" "c" "Han et al., 2011" -"EG11334-MONOMER" "MKVWMAILIGILCWQSSVWAVCPAWSPARAQEEISRLQQQIKQWDDDYWKEGKSEVEDGVYDQLSARLTQWQRCFGSEPRDVMMPPLNGAVMHPVAHTGVRKMVDKNALSLWMRERSDLWVQPKVDGVAVTLVYRDGKLNKAISRGNGLKGEDWTQKVSLISAVPQTVSGPLANSTLQGEIFLQREGHIQQQMGGINARAKVAGLMMRQDDSDTLNSLGVFVWAWPDGPQLMSDRLKELATAGFTLTQTYTRAVKNADEVARVRNEWWKAELPFVTDGVVVRAAKEPESRHWLPGQAEWLVAWKYQPVAQVAEVKAIQFAVGKSGKISVVASLAPVMLDDKKVQRVNIGSVRRWQEWDIAPGDQILVSLAGQGIPRIDDVVWRGAERTKPTPPENRFNSLTCYFASDVCQEQFISRLVWLGAKQVLGLDGIGEAGWRALHQTHRFEHIFSWLLLTPEQLQNTPGIAKSKSAQLWHQFNLARKQPFTRWVMAMGIPLTRAALNASDERSWSQLLFSTEQFWQQLPGTGSGRARQVIEWKENAQIKKLGSWLAAQQITGFEP" "i" "Han et al., 2011" -"EG11336-MONOMER" "MYRYLSIAAVVLSAAFSGPALAEGINSFSQAKAAAVKVHADAPGTFYCGCKINWQGKKGVVDLQSCGYQVRKNENRASRVEWEHVVPAWQFGHQRQCWQDGGRKNCAKDPVYRKMESDMHNLQPSVGEVNGDRGNFMYSQWNGGEGQYGQCAMKVDFKEKAAEPPARARGAIARTYFYMRDQYNLTLSRQQTQLFNAWNKMYPVTDWECERDERIAKVQGNHNPYVQRACQARKS" "p" "Han et al., 2011" -"EG11338-MONOMER" "MTMYATLEEAIDAAREEFLADNPGIDAEDANVQQFNAQKYVLQDGDIMWQVEFFADEGEEGECLPMLSGEAAQSVFDGDYDEIEIRQEWQEENTLHEWDEGEFQLEPPLDTEEGRAAADEWDER" "c" "Han et al., 2011" -"EG11339-MONOMER" "MIVAFCLYKYFPFGGLQRDFMRIASTVAARGHHVRVYTQSWEGDCPKAFELIQVPVKSHTNHGRNAEYYAWVQNHLKEHPADRVVGFNKMPGLDVYFAADVCYAEKVAQEKGFLYRLTSRYRHYAAFERATFEQGKSTKLMMLTDKQIADFQKHYQTEPERFQILPPGIYPDRKYSEQIPNSREIYRQKNGIKEQQNLLLQVGSDFGRKGVDRSIEALASLPESLRHNTLLFVVGQDKPRKFEALAEKLGVRSNVHFFSGRNDVSELMAAADLLLHPAYQEAAGIVLLEAITAGLPVLTTAVCGYAHYIADANCGTVIAEPFSQEQLNEVLRKALTQSPLRMAWAENARHYADTQDLYSLPEKAADIITGGLDG" "c" "Han et al., 2011" -"EG11340-MONOMER" "MVELKEPLATLWRGKDAFAEVKKLNGEVFRELETRRTLRFELSGKSYFLKWHKGTTLKEIIKNLLSLRMPVLGADREWHAIHRLSDVGVDTMKGIGFGEKGLNPLTRASFIITEDLTPTISLEDYCADWAVNPPDIRVKRMLIARVATMVRKMHTAGINHRDCYICHFLLHLPFTGREDELKISVIDLHRAQIRAKVPRRWRDKDLIGLYFSSMNIGLTQRDIWRFMKVYFGMPLRKILSLEQNLLNMASVKAERIKERTQRKGL" "c" "Han et al., 2011" -"EG11341-MONOMER" "MRYHGDMLLTTPVISTLKQNYPDAKIDMLLYQDTIPILSENPEINALYGISNKGAGTFDKIKNVLSLIKTLRANNYDLVINLTDQWMVALLVRCLPARMKISQLYGHRQHGIWKKSFTHLAPIHGTHIVERNLSVLEPLGITDFYTDTTMSYAEDCWKKMRRELDALGVKDHYVVIQPTARQIFKCWDNDKFSKVIDALQQRGYQVVLTCGPSADDLACVDEIARGCETKPITGLAGKTRFPELGALIDHAVLFIGVDSAPGHIAAAVKTPVISLFGATDHVFWRPWTENIIQFWAGNYQKMPTRHELDRNKKYLSVIPAEDVIAATEKLLPEDAPSADRNAQL" "c" "Han et al., 2011" -"EG11342-MONOMER" "VIQTFFDFPVYFKFFIGLFALVNPVGIIPVFISMTSYQTAAARNKTNLTANLSVAIILWISLFLGDTILQLFGISIDSFRIAGGILVVTIAMSMISGKLGEDKQNKQEKSETAVRESIGVVPLALPLMAGPGAISSTIVWGTRYHSISYLFGFFVAIALFALCCWGLFRMAPWLVRVLRQTGINVITRIMGLLLMALGIEFIVTGIKGIFPGLLN" "i" "Han et al., 2011" -"EG11344-MONOMER" "MSETAKKVIVGMSGGVDSSVSAWLLQQQGYQVEGLFMKNWEEDDGEEYCTAAADLADAQAVCDKLGIELHTVNFAAEYWDNVFELFLAEYKAGRTPNPDILCNKEIKFKAFLEFAAEDLGADYIATGHYVRRADVDGKSRLLRGLDSNKDQSYFLYTLSHEQIAQSLFPVGELEKPQVRKIAEDLGLVTAKKKDSTGICFIGERKFREFLGRYLPAQPGKIITVDGDEIGEHQGLMYHTLGQRKGLGIGGTKEGTEEPWYVVDKDVENNILVVAQGHEHPRLMSVGLIAQQLHWVDREPFTGTMRCTVKTRYRQTDIPCTVKALDDDRIEVIFDEPVAAVTPGQSAVFYNGEVCLGGGIIEQRLPLPV" "c" "Han et al., 2011" -"EG11345-MONOMER" "VAKNYYDITLALAGICQSARLVQQLAHQGHCDADALHVSLNSIIDMNPSSTLAVFGGSEANLRVGLETLLGVLNASSRQGLNAELTRYTLSLMVLERKLSSAKGALDTLGNRINGLQRQLEHFDLQSETLMSAMAAIYVDVISPLGPRIQVTGSPAVLQSPQVQAKVRATLLAGIRAAVLWHQVGGGRLQLMFSRNRLTTQAKQILAHLTPEL" "c" "Han et al., 2011" -"EG11346-MONOMER" "MSAIQGIEGVISQLQATAMSARAQESLPQPTISFAGQLHAALDRISDTQTAARTQAEKFTLGEPGVALNDVMTDMQKASVSMQMGIQVRNKLVAAYQEVMSMQV" "s" "EcoCyc dump" -"EG11350-MONOMER" "MTIYFINWVADYELKMIQYLKKKYKIKNITTPKKYNWINKKISKIGMDNAWLGRLFIKHYLNDIKKDDIIIINDSVVNKGINKQILKNINCHKVLLLRNTVGEDFILDNANYFDIIYDFEHRFIGNEKIKAIEQFFPIGMDEIRNYSLSDKNNSQPICFFLGRDKGRLQIINELAERLTTLGCKLDFNVVKDKTSSTTSKYLIEKQISYEENIRRTLNANIIVDITKENQSGWTLRILEALFFNKKLITNNINVFGSEIYSESRFFIIGHDDWDKLEYFINSSVKPMDYDSLYKFSPDKMMSTIVSDFIDK" "i" "Unambiguous EcoCyc data" -"EG11351-MONOMER" "VSFTQLMRVSMKIAFIGEAVSGFGGMETVIRDVITTFRQQHIQSEMFFFCRNDKMDKGWLEGIKYSCSFSNIRLGFLRRAKHIHALSKWLQEYQPDIVICIDVISCLFAAKARKKSGIDMPVFSWPHFSLDHKKHAEYITCADYHLAISSGIKQQMINRGVAESTINVIFNPVETKDSVIPAPEEGETATFIYVGRMKFEGQKRVKDLLDGLSQAKGNWKLHVLGDGSDFEKCQAYGRELNIDDRIVWYGWQQYPWELVQQDIEKVSALLLTSSFEGFPMTLLEALSWGIPCISADCVSGPADIIQPDVNGHLYQPGDIAGFVTLLNKYIAGEIHIEHEKIPASIDEFYQSKYYDRLHKVIISAISRRK" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"EG11352-MONOMER" "MQQVFFQETEFLNSVIDYDHKVETENLCLDIAYGTDKNFLFGCGISIASILKYNEGSRLCFHIFTDYFGDDDRKYFDALALQYKTRIKIYLINGDRLRSLPSTKNWTHAIYFRFVIADYFINKAPKVLYLDADIICQGTIEPLINFSFPDDKVAMVVTEGQADWWEKRAHSLGVAGIAKGYFNSGFLLINTAQWAAQQVSARAIAMLNEPEIIKKITHPDQDVLNMLLADKLIFADIKYNTQFSLNYQLKESFINPVTNDTIFIHYIGPTKPWHDWAWDYPVSQAFMEAKNASPWKNTALLKPNNSNQLRYSAKHMLKKHRYLKGFSNYLFYFIEKIKH" "c" "Han et al., 2011" -"EG11353-MONOMER" "VDSFPAIEIDKVKAWDFRLANINTSECLNVAYGVDANYLDGVGVSITSIVLNNRHINLDFYIIADVYNDGFFQKIAKLAEQNQLRITLYRINTDKLQCLPCTQVWSRAMYFRLFAFQLLGLTLDRLLYLDADVVCKGDISQLLHLGLNGAVAAVVKDVEPMQEKAVSRLSDPELLGQYFNSGVVYLDLKKWADAKLTEKALSILMSKDNVYKYPDQDVMNVLLKGMTLFLPREYNTIYTIKSELKDKTHQNYKKLITESTLLIHYTGATKPWHKWAIYPSVKYYKIALENSPWKDDSPRDAKSIIEFKKRYKHLLVQHHYISGIIAGVCYLCRKYYRK" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"EG11354-MONOMER" "MSANAETQTPQQPVKKSGKRKRLLLLLTLLFIIIAVAIGIYWFLVLRHFEETDDAYVAGNQIQIMSQVSGSVTKVWADNTDFVKEGDVLVTLDPTDARQAFEKAKTALASSVRQTHQLMINSKQLQANIEVQKIALAKAQSDYNRRVPLGNANLIGREELQHARDAVTSAQAQLDVAIQQYNANQAMILGTKLEDQPAVQQAATEVRNAWLALERTRIISPMTGYVSRRAVQPGAQISPTTPLMAVVPATNMWVDANFKETQIANMRIGQPVTITTDIYGDDVKYTGKVVGLDMGTGSAFSLLPAQNATGNWIKVVQRLPVRIELDQKQLEQYPLRIGLSTLVSVNTTNRDGQVLANKVRSTPVAVSTAREISLAPVNKLIDDIVKANAG" "i" "Han et al., 2011" -"EG11355-MONOMER" "VNSLYTAEGVMDKHSLWQRYVPLVRHEALRLQVRLPASVELDDLLQAGGIGLLNAVERYDALQGTAFTTYAVQRIRGAMLDELRSRDWVPRSVRRNAREVAQAIGQLEQELGRNATETEVAERLGIDIADYRQMLLDTNNSQLFSYDEWREEHGDSIELVTDDHQRENPLQQLLDSNLRQRVMEAIETLPEREKLVLTLYYQEELNLKEIGAVLEVGESRVSQLHSQAIKRLRTKLGKL" "c" "Unambiguous EcoCyc data" -"EG11356-MONOMER" "MMVQHLKRRPLSRYLKDFKHSQTHCAHCRKLLDRITLVRDGKIVNKIEISRLDTLLDENGWQTEQKSWAALCRFCGDLHCKTQSDFFDIIGFKQFLFEQTEMSPGTVREYVVRLRRLGNHLHEQNISLDQLQDGFLDEILAPWLPTTSTNNYRIALRKYQHYQRQTCTRLVQKSSSLPSSDIY" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"EG11357-MONOMER" "MALTAALKAQIAAWYKALQEQIPDFIPRAPQRQMIADVAKTLAGEEGRHLAIEAPTGVGKTLSYLIPGIAIAREEQKTLVVSTANVALQDQIYSKDLPLLKKIIPDLKFTAAFGRGRYVCPRNLTALASTEPTQQDLLAFLDDELTPNNQEEQKRCAKLKGDLDTYKWDGLRDHTDIAIDDDLWRRLSTDKASCLNRNCYYYRECPFFVARREIQEAEVVVANHALVMAAMESEAVLPDPKNLLLVLDEGHHLPDVARDALEMSAEITAPWYRLQLDLFTKLVATCMEQFRPKTIPPLAIPERLNAHCEELYELIASLNNILNLYMPAGQEAEHRFAMGELPDEVLEICQRLAKLTEMLRGLAELFLNDLSEKTGSHDIVRLHRLILQMNRALGMFEAQSKLWRLASLAQSSGAPVTKWATREEREGQLHLWFHCVGIRVSDQLERLLWRSIPHIIVTSATLRSLNSFSRLQEMSGLKEKAGDRFVALDSPFNHCEQGKIVIPRMRVEPSIDNEEQHIAEMAAFFRKQVESKKHLGMLVLFASGRAMQRFLDYVTDLRLMLLVQGDQPRYRLVELHRKRVANGERSVLVGLQSFAEGLDLKGDLLSQVHIHKIAFPPIDSPVVITEGEWLKSLNRYPFEVQSLPSASFNLIQQVGRLIRSHGCWGEVVIYDKRLLTKNYGKRLLDALPVFPIEQPEVPEGIVKKKEKTKSPRRRRR" "c" "Han et al., 2011" -"EG11359-MONOMER" "MTMLLPLFILVGFIADYFVNAIAYHLSPLEDKTALTFRQVLVHFRQKKYAWHDTVPLILCVAAAIACALAPFTPIVTGALFLYFCFVLTLSVIDFRTQLLPDKLTLPLLWLGLVFNAQYGLIDLHDAVYGAVAGYGVLWCVYWGVWLVCHKEGLGYGDFKLLAAAGAWCGWQTLPMILLIASLGGIGYAIVSQLLQRRTITTIAFGPWLALGSMINLGYLAWISY" "i" "Han et al., 2011" -"EG11360-MONOMER" "MILTPIRRYGAMILMLLTLVFSSEVLAKTHTTTASQKSHLTKASNKQVSSKQEYSRNSAKSSSLPDLRKYPSGTPRKKAFLRTVMPYITSQNAAITAERNWLISKQYQGQWSPAERARLKDIAKRYKVKWSGNTRKIPWNTLLERVDIIPTSMVATMAAAESGWGTSKLARNNNNLFGMKCMKGRCTNAPGKVKGYSQFSSVKESVSAYVTNLNTHPAYSSFRKSRAQLRKADQEVTATAMIHKLKGYSTKGKSYNNYLFAMYQDNQRLIAAHM" "p" "Han et al., 2011" -"EG11361-MONOMER" "MRRFLTTLMILLVVLVAGLSALVLLVNPNDFRDYMVKQVAARSGYQLQLDGPLRWHVWPQLSILSGRMSLTAQGASQPLVRADNMRLDVALLPLLSHQLSVKQVMLKGAVIQLTPQTEAVRSEDAPVAPRDNTLPDLSDDRGWSFDISSLKVADSVLVFQHEDDEQVTIRNIRLQMEQDPQHRGSFEFSGRVNRDQRDLTISLNGTVDASDYPHDLTAAIEQINWQLQGADLPKQGIQGQGSFQAQWQESHKRLSFNQISLTANDSTLSGQAQVTLTEKPEWQLRLQFPQLNLDNLIPLNETANGENGAAQQGQSQSTLPRPVISSRIDEPAYQGLQGFTADILLQASNVRWRGMNFTDVATQMTNKSGLLEITQLQGKLNGGQVSLPGTLDATSINPRINFQPRLENVEIGTILKAFNYPISLTGKMSLAGDFSGADIDADAFRHNWQGQAHVEMTDTRMEGMNFQQMIQQAVERNGGDVKAAENFDNVTRLDRFTTDLTLKDGVVTLNDMQGQSPVLALTGEGMLNLADQTCDTQFDIRVVGGWNGESKLIDFLKETPVPLRVYGNWQQLNYSLQVDQLLRKHLQDEAKRRLNDWAERNKDSRNGKDVKKLLEKM" "i" "Han et al., 2011" -"EG11362-MONOMER" "MLPPYFLFKEMTDTQYIGRFAPSPSGELHFGSLIAALGSYLQARARQGRWLVRIEDIDPPREVPGAAETILRQLEHYGLHWDGDVLWQSQRHDAYREALAWLHEQGLSYYCTCTRARIQSIGGIYDGHCRVLHHGPDNAAVRIRQQHPVTQFTDQLRGIIHADEKLAREDFIIHRRDGLFAYNLAVVVDDHFQGVTEIVRGADLIEPTVRQISLYQLFGWKVPDYIHLPLALNPQGAKLSKQNHAPALPKGDPRPVLIAALQFLGQQAEAHWQDFSVEQILQSAVKNWRLTAVPESAIVNSTFSNASC" "c" "Han et al., 2011" -"EG11364-MONOMER" "MFRRNLITSAILLMAPLAFSAQSLAESLTVEQRLELLEKALRETQSELKKYKDEEKKKYTPATVNRSVSTNDQGYAANPFPTSSAAKPDAVLVKNEEKNASETGSIYSSMTLKDFSKFVKDEIGFSYNGYYRSGWGTASHGSPKSWAIGSLGRFGNEYSGWFDLQLKQRVYNENGKRVDAVVMMDGNVGQQYSTGWFGDNAGGENYMQFSDMYVTTKGFLPFAPEADFWVGKHGAPKIEIQMLDWKTQRTDAAAGVGLENWKVGPGKIDIALVREDVDDYDRSLQNKQQINTNTIDLRYKDIPLWDKATLMVSGRYVTANESASEKDNQDNNGYYDWKDTWMFGTSLTQKFDKGGFNEFSFLVANNSIASNFGRYAGASPFTTFNGRYYGDHTGGTAVRLTSQGEAYIGDHFIVANAIVYSFGNDIYSYETGAHSDFESIRAVVRPAYIWDQYNQTGVELGYFTQQNKDANSNKFNESGYKTTLFHTFKVNTSMLTSRPEIRFYATYIKALENELDGFTFEDNKDDQFAVGAQAEIWW" "o" "Han et al., 2011" -"EG11371-MONOMER" "LATHERRVVFFDLDGTLHQQDMFGSFLRYLLRRQPLNALLVLPLLPIIAIALLIKGRAARWPMSLLLWGCTFGHSEARLQTLQADFVRWFRDNVTAFPLVQERLTTYLLSSDADIWLITGSPQPLVEAVYFDTPWLPRVNLIASQIQRGYGGWVLTMRCLGHEKVAQLERKIGTPLRLYSGYSDSNQDNPLLYFCQHRWRVTPRGELQQLE" "i" "Han et al., 2011" -"EG11372-MONOMER" "LSEVEFSHEYWMRHALTLAKRAWDEREVPVGAVLVHNNRVIGEGWNRPIGRHDPTAHAEIMALRQGGLVMQNYRLIDATLYVTLEPCVMCAGAMIHSRIGRVVFGARDAKTGAAGSLMDVLHHPGMNHRVEITEGILADECAALLSDFFRMRRQEIKAQKKAQSSTD" "c" "Han et al., 2011" -"EG11373-MONOMER" "LKKLKINYLFIGILALLLAVALWPSIPWFGKADNRIAAIQARGELRVSTIHTPLTYNEINGKPFGLDYELAKQFADYLGVKLKVTVRQNISQLFDDLDNGNADLLAAGLVYNSERVKNYQPGPTYYSVSQQLVYKVGQYRPRTLGNLTAEQLTVAPGHVVVNDLQTLKETKFPELSWKVDDKKGSAELMEDVIEGKLDYTIADSVAISLFQRVHPELAVALDITDEQPVTWFSPLDGDNTLSAALLDFFNEMNEDGTLARIEEKYLGHGDDFDYVDTRTFLRAVDAVLPQLKPLFEKYAEEIDWRLLAAIAYQESHWDAQATSPTGVRGMMMLTKNTAQSLGITDRTDAEQSISGGVRYLQDMMSKVPESVPENERIWFALAAYNMGYAHMLDARALTAKTKGNPDSWADVKQRLPLLSQKPYYSKLTYGYARGHEAYAYVENIRKYQISLVGYLQEKEKQATEAAMQLAQDYPAVSPTELGKEKFPFLSFLSQSSSNYLTHSPSLLFSRKGSEEKQN" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"EG11376-MONOMER" "MSLSRRQFIQASGIALCAGAVPLKASAAGQQQPLPVPPLLESRRGQPLFMTVQRAHWSFTPGTRASVWGINGRYLGPTIRVWKGDDVKLIYSNRLTENVSMTVAGLQVPGPLMGGPARMMSPNADWAPVLPIRQNAATLWYHANTPNRTAQQVYNGLAGMWLVEDEVSKSLPIPNHYGVDDFPVIIQDKRLDNFGTPEYNEPGSGGFVGDTLLVNGVQSPYVEVSRGWVRLRLLNASNSRRYQLQMNDGRPLHVISGDQGFLPAPVSVKQLSLAPGERREILVDMSNGDEVSITCGEAASIVDRIRGFFEPSSILVSTLVLTLRPTGLLPLVTDSLPMRLLPTEIMAGSPIRSRDISLGDDPGINGQLWDVNRIDVTAQQGTWERWTVRADEPQAFHIEGVMFQIRNVNGAMPFPEDRGWKDTVWVDGQVELLVYFGQPSWAHFPFYFNSQTLEMADRGSIGQLLVNPVP" "p" "Han et al., 2011" -"EG11378-MONOMER" "MDMHSGTFNPQDFAWQGLTLTPAAAIHIRELVAKQPGMVGVRLGVKQTGCAGFGYVLDSVSEPDKDDLLFEHDGAKLFVPLQAMPFIDGTEVDFVREGLNQIFKFHNPKAQNECGCGESFGV" "c" "Han et al., 2011" -"EG11381-MONOMER" "MDHSLNSLNNFDFLARSFARMHAEGRPVDILAVTGNMDEEHRTWFCARYAWYCQQMMQARELELEH" "c" "Han et al., 2011" -"EG11383-MONOMER" "MKKIGVILSGCGVYDGSEIHEAVLTLLAISRSGAQAVCFAPDKQQVDVINHLTGEAMTETRNVLIEAARITRGEIRPLAQADAAELDALIVPGGFGAAKNLSNFASLGSECTVDRELKALAQAMHQAGKPLGFMCIAPAMLPKIFDFPLRLTIGTDIDTAEVLEEMGAEHVPCPVDDIVVDEDNKIVTTPAYMLAQNIAEAASGIDKLVSRVLVLAE" "c" "Lopez-Campistrous et al., 2005" -"EG11384-MONOMER" "MSLINTKIKPFKNQAFKNGEFIEITEKDTEGRWSVFFFYPADFTFVCPTELGDVADHYEELQKLGVDVYAVSTDTHFTHKAWHSSSETIAKIKYAMIGDPTGALTRNFDNMREDEGLADRATFVVDPQGIIQAIEVTAEGIGRDASDLLRKIKAAQYVASHPGEVCPAKWKEGEATLAPSLDLVGKI" "c" "Lopez-Campistrous et al., 2005" -"EG11385-MONOMER" "MLDTNMKTQLKAYLEKLTKPVELIATLDDSAKSAEIKELLAEIAELSDKVTFKEDNSLPVRKPSFLITNPGSNQGPRFAGSPLGHEFTSLVLALLWTGGHPSKEAQSLLEQIRHIDGDFEFETYYSLSCHNCPDVVQALNLMSVLNPRIKHTAIDGGTFQNEITDRNVMGVPAVFVNGKEFGQGRMTLTEIVAKIDTGAEKRAAEELNKRDAYDVLIVGSGPAGAAAAIYSARKGIRTGLMGERFGGQILDTVDIENYISVPKTEGQKLAGALKVHVDEYDVDVIDSQSASKLIPAAVEGGLHQIETASGAVLKARSIIVATGAKWRNMNVPGEDQYRTKGVTYCPHCDGPLFKGKRVAVIGGGNSGVEAAIDLAGIVEHVTLLEFAPEMKADQVLQDKLRSLKNVDIILNAQTTEVKGDGSKVVGLEYRDRVSGDIHNIELAGIFVQIGLLPNTNWLEGAVERNRMGEIIIDAKCETNVKGVFAAGDCTTVPYKQIIIATGEGAKASLSAFDYLIRTKTA" "c" "Lopez-Campistrous et al., 2005" -"EG11386-MONOMER" "VYVNQRQNCDCGSPVYEVAFCNDCNEPHLLARDKKGKLVQWENKGGDEFSLQDEVPVEHDATEEKVEKENSFQPPLIIAAGETSEAGYTLQRLDRQTRRIGVINNDSIPLIINDIEQVCSASGCGYRGMSGKQPFRRALLGGPFYVTNIVPTVLEYCQDFTSDEGKEGVGPDSLPGRGRRLITFTDSRQGTARMAVRMQQEAERSRLRGSVVEILSWHQRTQTSTAPNANADLEKLAARAKQAREQAEEYRSWGMPDQAKLSQAQAEQLEQAYQAATGGKAATILVSRTWTEMVNELKERADIRGPVLQYNHYLKPEVFNENGGPLKLSEMLLFREFMRRPKRTNSLETQGLVQVGYQGLEKIHKSPLHWQEKGLTLDDWRDFLKVTLDHYVRESNFTQLDDELKNWIGSRFSSKFVRNPESKDPEDNQNRRWPQIRNGNVSHRLAKLLMLGAGFKTVNAATIDIINTWLKEAWAQLTGPLAVLKPDGNRFYLPKEHMTFSLITDAWICPVTNKILDTAFKGLTPYLPTHISFEHLTLAQYDTFVAQKVTMPEIWKLDRSQEDYAEGLAKARDWVSHDPLIAQLRSENVWTDINDRVVEGGFYYRTAEHSAQQSSERLQSYEKMFKNGQLNVLNCSTTMEMGVDTDRVMTLASRSQQATIPGPEWHLNDELVVRSLGYKTVELNEFILPAKATNAVERVKDIQIHKQLNGPLSQFGQRFWDVLFNDHEEAQSLMNNTRITGVHYTDRYLQNPVALALLGSILRPLKTKLTDGAEVTLDTLFKDKDRPGNRPFHDWMSIADFQDFADQWFAAALGRPVELTVFDSPRDIPHHRKLTVTFEDGQVLKIRFDQGMGYWRINFSSQWHYFDFRDDVSFQLVKMAQACKEGNVANSEESWATDVLVEVIAS" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"EG11388-MONOMER" "MYAAKGTQAYAQIGVESAVMSASQQQLVTMLFDGVLSALVRASLFMQDNNQQGKGVSLSKAINIIENGLRVSLDEESKDELTQNLIALYSYMVRRLLQANLRNDVSAVEEVEALMRNIADAWKESLLSPSLIQDPV" "c" "Unambiguous EcoCyc data" -"EG11389-MONOMER" "MNHAPHLYFAWQQLVEKSQLMLRLATEEQWDELIASEMAYVNAVQEIAHLTEEVDPSTTMQEQLRPMLRLILDNESKVKQLLQIRMDELAKLVGQSSVQKSVLSAYGDQGGFVLAPQDNLF" "c" "Unambiguous EcoCyc data" -"EG11390-MONOMER" "MAYKHILIAVDLSPESKVLVEKAVSMARPYNAKVSLIHVDVNYSDLYTGLIDVNLGDMQKRISEETHHALTELSTNAGYPITETLSGSGDLGQVLVDAIKKYDMDLVVCGHHQDFWSKLMSSARQLINTVHVDMLIVPLRDEEE" "i" "Lopez-Campistrous et al., 2005" -"EG11391-MONOMER" "MTMTRLKISKTLLAVMLTSAVATGSAYAENNAQTTNESAGQKVDSSMNKVGNFMDDSAITAKVKAALVDHDNIKSTDISVKTDQKVVTLSGFVESQAQAEEAVKVAKGVEGVTSVSDKLHVRDAKEGSVKGYAGDTATTSEIKAKLLADDIVPSRHVKVETTDGVVQLSGTVDSQAQSDRAESIAKAVDGVKSVKNDLKTK" "p" "Han et al., 2011" -"EG11394-MONOMER" "MFILWYSASSTFGKDSDIVMGVRAQQKEKTRRSLVEAAFSQLSAERSFASLSLREVAREAGIAPTSFYRHFRDVDELGLTMVDESGLMLRQLMRQARQRIAKGGSVIRTSVSTFMEFIGNNPNAFRLLLRERSGTSAAFRAAVAREIQHFIAELADYLELENHMPRAFTEAQAEAMVTIVFSAGAEALDVGVEQRRQLEERLVLQLRMISKGAYYWYRREQEKTAIIPGNVKDE" "c" "Han et al., 2011" -"EG11395-MONOMER" "MKQANQDRGTLLLALVAGLSINGTFAALFSSIVPFSVFPIISLVLTVYCLHQRYLNRTMPVGLPGLAAACFILGVLLYSTVVRAEYPDIGSNFFPAVLSVIMVFWIGAKMRNRKQEVAE" "i" "Han et al., 2011" -"EG11396-MONOMER" "MDAMKYNDLRDFLTLLEQQGELKRITLPVDPHLEITEIADRTLRAGGPALLFENPKGYSMPVLCNLFGTPKRVAMGMGQEDVSALREVGKLLAFLKEPEPPKGFRDLFDKLPQFKQVLNMPTKRLRGAPCQQKIVSGDDVDLNRIPIMTCWPEDAAPLITWGLTVTRGPHKERQNLGIYRQQLIGKNKLIMRWLSHRGGALDYQEWCAAHPGERFPVSVALGADPATILGAVTPVPDTLSEYAFAGLLRGTKTEVVKCISNDLEVPASAEIVLEGYIEQGETAPEGPYGDHTGYYNEVDSFPVFTVTHITQREDAIYHSTYTGRPPDEPAVLGVALNEVFVPILQKQFPEIVDFYLPPEGCSYRLAVVTIKKQYAGHAKRVMMGVWSFLRQFMYTKFVIVCDDDVNARDWNDVIWAITTRMDPARDTVLVENTPIDYLDFASPVSGLGSKMGLDATNKWPGETQREWGRPIKKDPDVVAHIDAIWDELAIFNNGKSA" "i" "EcoCyc dump" -"EG11398-MONOMER" "MKKVLGVILGGLLLLPVVSNAADAQKAADNKKPVNSWTCEDFLAVDESFQPTAVGFAEALNNKDKPEDAVLDVQGIATVTPAIVQACTQDKQANFKDKVKGEWDKIKKDM" "p" "Han et al., 2011" -"EG11399-MONOMER" "MNISSLRKAFIFMGAVAALSLVNAQSALAANESAKDMTCQEFIDLNPKAMTPVAWWMLHEETVYKGGDTVTLNETDLTQIPKVIEYCKKNPQKNLYTFKNQASNDLPN" "p" "Han et al., 2011" -"EG11400-MONOMER" "MTAEFIIRLILAAIACGAIGMERQMRGKGAGLRTHVLIGMGSALFMIVSKYGFADVLSLDHVGLDPSRIAAQVVTGVGFIGAGNILVRNQNIVGLTTAADIWVTAAIGMVIGSGMYELGIYGSVMTLLVLEVFHQLTFRLMNKNYHLQLTLVNGNTVSMLDWFKQQKIKTDLVSLQENEDHEVVAIDIQLHATTSIEDLLRLLKGMAGVKGVSIS" "i" "Han et al., 2011" -"EG11401-MONOMER" "MKITLLVTLLFGLVFLTTVGAAERTLTPQQQRMTSCNQQATAQALKGDARKTYMSDCLKNSKSAPGEKSLTPQQQKMRECNNQATQQSLKGDDRNKFMSACLKKAA" "p" "Han et al., 2011" -"EG11404-MONOMER" "MGFKCGIVGLPNVGKSTLFNALTKAGIEAANFPFCTIEPNTGVVPMPDPRLDQLAEIVKPQRTLPTTMEFVDIAGLVKGASKGEGLGNQFLTNIRETEAIGHVVRCFENDNIIHVSGKVNPADDIEVINTELALADLDTCERAIHRVQKKAKGGDKDAKAELAVLEKCLPQLENAGMLRALDLSAEEKAAIRYLSFLTLKPTMYIANVNEDGFENNPYLDQVREIAAKEGSVVVPVCAAVEADIAELDDEERDEFMQELGLEEPGLNRVIRAGYKLLNLQTYFTAGVKEVRAWTIPVGATAPQAAGKIHTDFEKGFIRAQTISFEDFITYKGEQGAKEAGKMRAEGKDYIVKDGDVMNFLFNV" "c" "Lopez-Campistrous et al., 2005" -"EG11410-MONOMER" "MTKQPEDWLDDVPGDDIEDEDDEIIWVSKSEIKRDAEELKRLGAEIVDLGKNALDKIPLDADLRAAIELAQRIKMEGRRRQLQLIGKMLRQRDVEPIRQALDKLKNRHNQQVVLFHKLENLRDRLIDQGDDAIAEVLNLWPDADRQQLRTLIRNAKKEKEGNKPPKSARQIFQYLRELAENEG" "c" "Han et al., 2011" -"EG11412-MONOMER" "MIRLYPEQLRAQLNEGLRAAYLLLGNDPLLLQESQDAVRQVAAAQGFEEHHTFSIDPNTDWNAIFSLCQAMSLFASRQTLLLLLPENGPNAAINEQLLTLTGLLHDDLLLIVRGNKLSKAQENAAWFTALANRSVQVTCQTPEQAQLPRWVAARAKQLNLELDDAANQVLCYCYEGNLLALAQALERLSLLWPDGKLTLPRVEQAVNDAAHFTPFHWVDALLMGKSKRALHILQQLRLEGSEPVILLRTLQRELLLLVNLKRQSAHTPLRALFDKHRVWQNRRGMMGEALNRLSQTQLRQAVQLLTRTELTLKQDYGQSVWAELEGLSLLLCHKPLADVFIDG" "c" "Han et al., 2011" -"EG11413-MONOMER" "MKNATFYLLDNDTTVDGLSAVEQLVCEIAAERWRSGKRVLIACEDEKQAYRLDEALWARPAESFVPHNLAGEGPRGGAPVEIAWPQKRSSSRRDILISLRTSFADFATAFTEVVDFVPYEDSLKQLARERYKAYRVAGFNLNTATWK" "c" "Han et al., 2011" -"EG11414-MONOMER" "MTSRRDWQLQQLGITQWSLRRPGALQGEIAIAIPAHVRLVMVANDLPALTDPLVSDVLRALTVSPDQVLQLTPEKIAMLPQGSHCNSWRLGTDEPLSLEGAQVASPALTDLRANPTARAALWQQICTYEHDFFPRND" "c" "Han et al., 2011" -"EG11415-MONOMER" "MSTAKLVKSKATNLLYTRNDVSDSEKKATVELLNRQVIQFIDLSLITKQAHWNMRGANFIAVHEMLDGFRTALIDHLDTMAERAVQLGGVALGTTQVINSKTPLKSYPLDIHNVQDHLKELADRYAIVANDVRKAIGEAKDDDTADILTAASRDLDKFLWFIESNIE" "c" "Han et al., 2011" -"EG11422-MONOMER" "MAVSAKYDEFNHWWATEGDWVEEPNYRRNGMSGVQCVERNGKKLYVKRMTHHLFHSVRYPFGRPTIVREVAVIKELERAGVIVPKIVFGEAVKIEGEWRALLVTEDMAGFISIADWYAQHAVSPYSDEVRQAMLKAVALAFKKMHSINRQHGCCYVRHIYVKTEGNAEAGFLDLEKSRRRLRRDKAINHDFRQLEKYLEPIPKADWEQVKAYYYAM" "c" "Han et al., 2011" -"EG11423-MONOMER" "MRLGTFHKKKRFYINKIKINFLSFLFRNKINNQITDPAQVKSCLIIHDNNKLGDLIVLSSIYRELYSKGVKITLLTNRKGGEFLSNNKNIFEFCIKESTGFLEMLTLCKHLRDLQFDIVLDPFETMPSFKHSLILSSLKDSYILGFDHWYKRYYSFYHPHDECLKEHMSTRAIEILKHIYGEGKFSTNYDLHLPVDVEDKIKEFIGDTRIVIINPLGAKKICRLTFEQIKVIYQEVKTHFENYRIIFTGLPQDLLTIPILEIETLPFDEFIYTVALTKYSDFVISVDTALVHIAAAYHKPTLAFYPNSRTPEYPSHLIWSPNHHKSIQIVSPTYTVKDIDTETLTNSVKRLSCIDKK" "m" "Unambiguous EcoCyc data" -"EG11424-MONOMER" "MLTSFKLHSLKPYTLKSSMILEIITYILCFFSMIIAFVDNTFSIKIYNITAIVCLLSLILRGRQENYNIKNLILPLSIFLIGLLDLIWYSAFKVDNSPFRATYHSYLNTAKIFIFGSFIVFLTLTSQLKSKKESVLYTLYSLSFLIAGYAMYINSIHENDRISFGVGTATGAAYSTMLIGIVSGVAILYTKKNHPFLFLLNSCAVLYVLALTQTRATLLLFPIICVAALIAYYNKSPKKFTSSIVLLIAILASIVIIFNKPIQNRYNEALNDLNSYTNANSVTSLGARLAMYEIGLNIFIKSPFSFRSAESRAESMNLLVAEHNRLRGALEFSNVHLHNEIIEAGSLKGLMGIFSTLFLYFSLFYIAYKKRALGLLILTLGIVGIGLSDVIIWARSIPIIIISAIVLLLVINNRNNTIN" "i" "Han et al., 2011" -"EG11425-MONOMER" "MIQKSKIKDLVVFTDENNSKYLNVLNDFLSYNINIIKVFRSIDDTKVMLIDTDYGKLILKVFSPKVKRNERFFKSLLKGDYYERLFEQTQKVRNEGLNTLNDFYLLAERKTLRFVHTYIMIIEYIDGIELCDMPDIDDALKNKIQQSINALHQHGMVSGDPHRGNFIIKNGEVRIIDLSGKRASAQRKAKDRIDLERHYGIKNEIRDLGYYLLVYRKKMRNFMRRLKGKPAR" "c" "Han et al., 2011" -"EG11426-MONOMER" "MKNIRYIDKKDVENLIENKISDDVIIFLSGPTSQKTPLSVLRTKDIIAVNGSAQYLLSNNIVPFIYVLTDVRFLHQRRDDFYKFSQRSRYTIVNVDVYEHASKEDKLYILQNCLVLRSFYRREKGGFIKKIKFNILRQIHKELLISVPLSKKGRLVGFCKDISLGYCSCHTIAFAAIQIAYSLKYARIICSGLDLTGSCSRFYDENKNPMPSELSRDLFKILPFFRFMHDNVKDINIYNLSDDTAISYDVIPFIKLQDISAEESKDMTRKKMQYRTSTDSYAN" "i" "Unambiguous EcoCyc data" -"EG11429-MONOMER" "MKQEVEKWRPFGHPDGDIRDLSFLDAHQAVYVQHHEGKEPLEYRFWVTYSLHCFTKDYEHQTNEEKQSLMYHAPKESRPFCQHRYNLARTHLKRTILALPESNVIHAGYGSYAVIEVDLDGGDKAFYFVAFRAFREKKKLRLHVTSAYPISEKQKGKSVKFFTIAYNLLRNKQLPQPSK" "c" "Han et al., 2011" -"EG11430-MONOMER" "MEYQLTLNWPDFLERHWQKRPVVLKRGFNNFIDPISPDELAGLAMESEVDSRLVSHQDGKWQVSHGPFESYDHLGETNWSLLVQAVNHWHEPTAALMRPFRELPDWRIDDLMISFSVPGGGVGPHLDQYDVFIIQGTGRRRWRVGEKLQMKQHCPHPDLLQVDPFEAIIDEELEPGDILYIPPGFPHEGYALENAMNYSVGFRAPNTRELISGFADYVLQRELGGNYYSDPDVPPRAHPADVLPQEMDKLREMMLELINQPEHFKQWFGEFISQSRHELDIAPPEPPYQPDEIYDALKQGEVLVRLGGLRVLRIGDDVYANGEKIDSPHRPALDALASNIALTAENFGDALEDPSFLAMLAALVNSGYWFFEG" "c" "Han et al., 2011" -"EG11431-MONOMER" "MTPDELARLTGYSRQTINKWVRKEGWTTSPKPGVQGGKARLVHVNEQVREYIRNAERPEGQGEAPALSGDAPLEVLLVTLAKEMTPVEQKQFTSLLLREGIIGLLQRLGIRDSK" "c" "Han et al., 2011" -"EG11432-MONOMER" "MKRLRNKMTTEELAECLGVAKQTVNRWIREKGWKTEKFPGVKGGRARLILVDTQVCEFIQNTPAFHNTPMLMEAEERIAEYAPGARAPAYRQIINAIDNMTDIEQEKVAQFLSREGIRNFLARLDIDESA" "c" "Han et al., 2011" -"EG11433-MONOMER" "MSLFDKKHLVSPADALPGRNTPMPVATLHAVNGHSMTNVPDGMEIAIFAMGCFWGVERLFWQLPGVYSTAAGYTGGYTPNPTYREVCSGDTGHAEAVRIVYDPSVISYEQLLQVFWENHDPAQGMRQGNDHGTQYRSAIYPLTPEQDAAARASLERFQAAMLAADDDRHITTEIANATPFYYAEDDHQQYLHKNPYGYCGIGGIGVCLPPEA" "c" "Han et al., 2011" -"EG11436-MONOMER" "MSMIKSYAAKEAGGELEVYEYDPGELRPQDVEVQVDYCGICHSDLSMIDNEWGFSQYPLVAGHEVIGRVVALGSAAQDKGLQVGQRVGIGWTARSCGHCDACISGNQINCEQGAVPTIMNRGGFAEKLRADWQWVIPLPENIDIESAGPLLCGGITVFKPLLMHHITATSRVGVIGIGGLGHIAIKLLHAMGCEVTAFSSNPAKEQEVLAMGADKVVNSRDPQALKALAGQFDLIINTVNVSLDWQPYFEALTYGGNFHTVGAVLTPLSVPAFTLIAGDRSVSGSATGTPYELRKLMRFAARSKVAPTTELFPMSKINDAIQHVRDGKARYRVVLKADF" "c" "Han et al., 2011" -"EG11437-MONOMER" "LTRLTLALDVMGGDFGPSVTVPAALQALNSNSQLTLLLVGNSDAITPLLAKADFEQRSRLQIIPAQSVIASDARPSQAIRASRGSSMRVALELVKEGRAQACVSAGNTGALMGLAKLLLKPLEGIERPALVTVLPHQQKGKTVVLDLGANVDCDSTMLVQFAIMGSVLAEEVVEIPNPRVALLNIGEEEVKGLDSIRDASAVLKTIPSINYIGYLEANELLTGKTDVLVCDGFTGNVTLKTMEGVVRMFLSLLKSQGEGKKRSWWLLLLKRWLQKSLTRRFSHLNPDQYNGACLLGLRGTVIKSHGAANQRAFAVAIEQAVQAVQRQVPQRIAARLESVYPAGFELLDGGKSGTLR" "c" "Han et al., 2011" -"EG11438-MONOMER" "MPKLILASTSPWRRALLEKLQISFECAAPEVDETPRSDESPRQLVLRLAQEKAQSLASRYPDHLIIGSDQVCVLDGEITGKPLTEENARLQLRKASGNIVTFYTGLALFNSANGHLQTEVEPFDVHFRHLSEAEIDNYVRKEHPLHCAGSFKSEGFGITLFERLEGRDPNTLVGLPLIALCQMLRREGKNPLMG" "c" "Han et al., 2011" -"EG11440-MONOMER" "MSVLQVLHIPDERLRKVAKPVEEVNAEIQRIVDDMFETMYAEEGIGLAATQVDIHQRIIVIDVSENRDERLVLINPELLEKSGETGIEEGCLSIPEQRALVPRAEKVKIRALDRDGKPFELEADGLLAICIQHEMDHLVGKLFMDYLSPLKQQRIRQKVEKLDRLKARA" "c" "Han et al., 2011" -"EG11441-MONOMER" "MTNPLLTPFELPPFSKILPEHVVPAVTKALNDCRENVERVVAQGAPYTWENLCQPLAEVDDVLGRIFSPVSHLNSVKNSPELREAYEQTLPLLSEYSTWVGQHEGLYKAYRDLRDGDHYATLNTAQKKAVDNALRDFELSGIGLPKEKQQRYGEIATRLSELGNQYSNNVLDATMGWTKLVTDEAELAGMPESALAAAKAQAEAKELEGYLLTLDIPSYLPVMTYCDNQALREEMYRAYSTRASDQGPNAGKWDNSKVMEEILALRHELAQLLGFENYAFKSLATKMAENPQQVLDFLTDLAKRARPQGEKELAQLRAFAKAEFGVDELQPWDIAYYSEKQKQHLYSISDEQLRPYFPENKAVNGLFEVVKRIYGITAKERKDVDVWHPDVRFFELYDENNELRGSFYLDLYARENKRGGAWMDDCVGQMRKADGSLQKPVAYLTCNFNRPVNGKPALFTHDEVITLFHEFGHGLHHMLTRIETAGVSGISGVPWDAVELPSQFMENWCWEPEALAFISGHYETGEPLPKELLDKMLAAKNYQAALFILRQLEFGLFDFRLHAEFRPDQGAKILETLAEIKKLVAVVPSPSWGRFPHAFSHIFAGGYAAGYYSYLWADVLAADAFSRFEEEGIFNRETGQSFLDNILSRGGSEEPMDLFKRFRGREPQLDAMLEHYGIKG" "c" "Han et al., 2011" -"EG11445-MONOMER" "MINEATLAESIRRLRQGERATLAQAMTLVESRHPRHQALSTQLLDAIMPYCGNTLRLGVTGTPGAGKSTFLEAFGMLLIREGLKVAVIAVDPSSPVTGGSILGDKTRMNDLARAEAAFIRPVPSSGHLGGASQRARELMLLCEAAGYDVVIVETVGVGQSETEVARMVDCFISLQIAGGGDDLQGIKKGLMEVADLIVINKDDGDNHTNVAIARHMYESALHILRRKYDEWQPRVLTCSALEKRGIDEIWHAIIDFKTALTASGRLQQVRQQQSVEWLRKQTEEEVLNHLFANEDFDRYYRQTLLAVKNNTLSPRTGLRQLSEFIQTQYFD" "c" "Han et al., 2011" -"EG11447-MONOMER" "MLILTRRVGETLMIGDEVTVTVLGVKGNQVRIGVNAPKEVSVHREEIYQRIQAEKSQQSSY" "c" "Han et al., 2011" -"EG11449-MONOMER" "VDTELLKTFLEVSRTRHFGRAAESLYLTQSAVSFRIRQLENQLGVNLFTRHRNNIRLTAAGEKLLPYAETLMSTWQAARKEVAHTSRHNEFSIGASASLWECMLNQWLGRLYQNQDAHTGLQFEARIAQRQSLVKQLHERQLDLLITTEAPKMDEFSSQLLGYFTLALYTSAPSKLKGDLNYLRLEWGPDFQQHEAGLIGADEVPILTTSSAELAQQQIAMLNGCTWLPVSWARKKGGLHTVVDSTTLSRPLYAIWLQNSDKNALIRDLLKINVLDEVY" "c" "Han et al., 2011" -"EG11450-MONOMER" "MAESFTTTNRYFDNKHYPRGFSRHGDFTIKEAQLLERHGYAFNELDLGKREPVTEEEKLFVAVCRGEREPVTEAERVWSKYMTRIKRPKRFHTLSGGKPQVEGAEDYTDSDD" "c" "Han et al., 2011" -"EG11462-MONOMER" "MAHQLLIGKGMITLNLKRIFLALTLLPLFAVAADDCALSDPTLTVQAYTVNPQTERVKMYWQKANGEAWGTLHALLADINSQGQVQMAMNGGIYDESYAPLGLYIENGQQKVALNLASGEGNFFIRPGGVFYVAGDKVGIVRLDAFKTSKEIQFAVQSGPMLMENGVINPRIHPNVASSKIRNGVGINKHGNAVFLLSQQATNFYDFACYAKAKLNVEQLLYLDGTISHMYMKGGAIPWQRYPFVTMISVERKG" "p" "Han et al., 2011" -"EG11464-MONOMER" "MSKEYMNDGSLSEKWKYRFNFYDQHGFPGFWGATPEYKAAFKALKVRQRLTIQMNFIAFFCSWIYLFVLGLWKKAIIVLLLGILSLFVGALIGVNILGIAVAAYVAVNTNKWFYEKEVKGLNTWSL" "c" "Han et al., 2011" -"EG11465-MONOMER" "MLRIFIPTSNGKISRRRYIFSFILINFIFAFLIIFFNDGEAGFLVIVSTIVLHYLVINMNCQRLRDSGFIYIKTYVFGTLAVYIISIITMIAEDFACSGNGSMIFLICYFSTFSMLMLAPTDSSKQ" "i" "Han et al., 2011" -"EG11466-MONOMER" "MDAKQTRQGVLLALAAYFIWGIAPAYFKLIYYVPADEILTHRVIWSFFFMVVLMSICRQWSYLKTLIQTPQKIFMLAVSAVLIGGNWLLFIWAVNNHHMLEASLGYFINPLVNIVLGMIFLGERFRRMQWLAVILAICGVLVQLWTFGSLPIIALGLAFSFAFYGLVRKKIAVEAQTGMLIETMWLLPVAAIYLFAIADSSTSHMGQNPMSLNLLLIAAGIVTTVPLLCFTAAATRLRLSTLGFFQYIGPTLMFLLAVTFYGEKPGADKMVTFAFIWVALAIFVMDAIYTQRRTSK" "i" "Han et al., 2011" -"EG11467-MONOMER" "MSAVLTAEQALKLVGEMFVYHMPFNRALGMELERYEKEFAQLAFKNQPMMVGNWAQSILHGGVIASALDVAAGLVCVGSTLTRHETISEDELRQRLSRMGTIDLRVDYLRPGRGERFTATSSLLRAGNKVAVARVELHNEEQLYIASATATYMVG" "c" "Han et al., 2011" -"EG11470-MONOMER" "MYQVVASDLDGTLLSPDHTLSPYAKETLKLLTARGINFVFATGRHHVDVGQIRDNLEIKSYMITSNGARVHDLDGNLIFAHNLDRDIASDLFGVVNDNPDIITNVYRDDEWFMNRHRPEEMRFFKEAVFQYALYEPGLLEPEGVSKVFFTCDSHEQLLPLEQAINARWGDRVNVSFSTLTCLEVMAGGVSKGHALEAVAKKLGYSLKDCIAFGDGMNDAEMLSMAGKGCIMGSAHQRLKDLHPELEVIGTNADDAVPHYLRKLYLS" "c" "Han et al., 2011" -"EG11471-MONOMER" "VALLIITTILWAFSFSFYGEYLAGHVDSYFAVLVRVGLAALVFLPFLRTRGNSLKTVGLYMLVGAMQLGVMYMLSFRAYLYLTVSELLLFTVLTPLYITLIYDIMSKRRLRWGYAFSALLAVIGAGIIRYDQVTDHFWTGLLLVQLSNITFAIGMVGYKRLMETRPMPQHNAFAWFYLGAFLVAVIAWFLLGNAQKMPQTTLQWGILVFLGVVASGIGYFMWNYGATQVDAGTLGIMNNMHVPAGLLVNLAIWHQQPHWPTFITGALVILASLWVHRKWVAPRSSQTADDRRRDCALSE" "i" "Han et al., 2011" -"EG11472-MONOMER" "VDFSIMVYAVIALVGVAIGWLFASYQHAQQKAEQLAEREEMVAELSAAKQQITQSEHWRAECELLNNEVRSLQSINTSLEADLREVTTRMEAAQQHADDKIRQMINSEQRLSEQFENLANRIFEHSNRRVDEQNRQSLNSLLSPLREQLDGFRRQVQDSFGKEAQERHTLTHEIRNLQQLNAQMAQEAINLTRALKGDNKTQGNWGEVVLTRVLEASGLREGYEYETQVSIENDARSRMQPDVIVRLPQGKDVVIDAKMTLVAYERYFNAEDDYTRESALQEHIASVRNHIRLLGRKDYQQLPGLRTLDYVLMFIPVEPAFLLALDRQPELITEALKNNIMLVSPTTLLVALRTIANLWRYEHQSRNAQQIADRASKLYDKMRLFIDDMSAIGQSLDKAQDNYRQAMKKLSSGRGNVLAQAEAFRGLGVEIKREINPDLAEQAVSQDEEYRLRSVPEQPNDEAYQRDDEYNQQSR" "c" "Han et al., 2011" -"EG11474-MONOMER" "MPFKPLVTAGIESLLNTFLYRSPALKTARSRLLGKVLRVEVKGFSTSLILVFSERQVDVLGEWAGDADCTVIAYASVLPKLRDRQQLTALIRSGELEVQGDIQVVQNFVALADLAEFDPAELLAPYTGDIAAEGISKAMRGGAKFLHHGIKRQQRYVAEAITEEWRMAPGPLEVAWFAEETAAVERAVDALTKRLEKLEAK" "c" "Han et al., 2011" -"EG11479-MONOMER" "MSVEDTQPLITHLIELRKRLLNCIIAVIVIFLCLVYFANDIYHLVSAPLIKQLPQGSTMIATDVASPFFTPIKLTFMVSLILSAPVILYQVWAFIAPALYKHERRLVVPLLVSSSLLFYIGMAFAYFVVFPLAFGFLANTAPEGVQVSTDIASYLSFVMALFMAFGVSFEVPVAIVLLCWMGITSPEDLRKKRPYVLVGAFVVGMLLTPPDVFSQTLLAIPMYCLFEIGVFFSRFYVGKGRNREEENDAEAESEKTEE" "i" "Han et al., 2011" -"EG11481-MONOMER" "MFDIGVNLTSSQFAKDRDDVVACAFDAGVNGLLITGTNLRESQQAQKLARQYSSCWSTAGVHPHDSSQWQAATEEAIIELAAQPEVVAIGECGLDFNRNFSTPEEQERAFVAQLRIAADLNMPVFMHCRDAHERFMTLLEPWLDKLPGAVLHCFTGTREEMQACVAHGIYIGITGWVCDERRGLELRELLPLIPAEKLLIETDAPYLLPRDLTPKPSSRRNEPAHLPHILQRIAHWRGEDAAWLAATTDANVKTLFGIAF" "c" "Han et al., 2011" -"EG11484-MONOMER" "MESWLIPAAPVTVVEEIKKSRFITMLAHTDGVEAAKAFVESVRAEHPDARHHCVAWVAGAPDDSQQLGFSDDGEPAGTAGKPMLAQLMGSGVGEITAVVVRYYGGILLGTGGLVKAYGGGVNQALRQLTTQRKTPLTEYTLQCEYHQLTGIEALLGQCDGKIINSDYQAFVLLRVALPAAKVAEFSAKLADFSRGSLQLLAIEE" "c" "Han et al., 2011" -"EG11486-MONOMER" "MSLAKASLWTAASTLVKIGAGLLVGKLLAVSFGPAGLGLAANFRQLITVLGVLAGAGIFNGVTKYVAQYHDNPQQLRRVVGTSSAMVLGFSTLMALVFVLAAAPISQGLFGNTDYQGLVRLVALVQMGIAWGNLLLALMKGFRDAAGNALSLIVGSLIGVLAYYVSYRLGGYEGALLGLALIPALVVIPAAIMLIKRGVIPLSYLKPSWDNGLAGQLSKFTLMALITSVTLPVAYIMMRKLLAAQYSWDEVGIWQGVSSISDAYLQFITASFSVYLLPTLSRLTEKRDITREVVKSLKFVLPAVAAASFTVWLLRDFAIWLLLSNKFTAMRDLFAWQLVGDVLKVGAYVFGYLVIAKASLRFYILAEVSQFTLLMVFAHWLIPAHGALGAAQAYMATYIVYFSLCCGVFLLWRRRA" "i" "Han et al., 2011" -"EG11488-MONOMER" "MTMKKLLIIILPVLLSGCSAFNQLVERMQTDTLEYQCDEKPLTVKLNNPRQEVSFVYDNQLLHLKQGISASGARYTDGIYVFWSKGDEATVYKRDRIVLNNCQLQNPQR" "c" "Han et al., 2011" -"EG11489-MONOMER" "MKLLKVAAIAAIVFSGSALAGVVPQYGGGGNHGGGGNNSGPNSELNIYQYGGGNSALALQTDARNSDLTITQHGGGNGADVGQGSDDSSIDLTQRGFGNSATLDQWNGKNSEMTVKQFGGGNGAAVDQTASNSSVNVTQVGFGNNATAHQY" "j" "Han et al., 2011" -"EG11494-MONOMER" "MKKVLLIILLLLVVLGIAAGVGVWKVRHLADSKLLIKEETIFTLKPGTGRLALGEQLYADKIINRPRVFQWLLRIEPDLSHFKAGTYRFTPQMTVREMLKLLESGKEAQFPLRLVEGMRLSDYLKQLREAPYIKHTLSDDKYATVAQALELENPEWIEGWFWPDTWMYTANTTDVALLKRAHKKMVKAVDSAWEGRADGLPYKDKNQLVTMASIIEKETAVASERDKVASVFINRLRIGMRLQTDPTVIYGMGERYNGKLSRADLETPTAYNTYTITGLPPGAIATPGADSLKAAAHPAKTPYLYFVADGKGGHTFNTNLASHNKSVQDYLKVLKEKNAQ" "c" "Han et al., 2011" -"EG11495-MONOMER" "MLYIDKATILKFDLEMLKKHRRAIQFIAVLLFIVGLLCISFPFVSGDILSTVVGALLICSGIALIVGLFSNRSHNFWPVLSGFLVAVAYLLIGYFFIRAPELGIFAIAAFIAGLFCVAGVIRLMSWYRQRSMKGSWLQLVIGVLDIVIAWIFLGATPMVSVTLVSTLVGIELIFSAASLFSFASLFVKQQ" "i" "Han et al., 2011" -"EG11496-MONOMER" "VLETETGRYSDTLRSALVSLDGDNAWALSESWCGTIQWICPSPYRPHHGRKNWFLGIGRFTADEQEQSDAIRYETLRSSGPGGQHVNKTDSAVRATHLASGISVKVQSERSQHANKRLARLLIAWKLEQQQQENSAALKSQRRMFHHQIERGNPRRTFTGMAFIEG" "c" "Han et al., 2011" -"EG11497-MONOMER" "MPWIQLKLNTTGANAEDLSDALMEAGAVSITFQDTHDTPVFEPLPGETRLWGDTDVIGLFDAETDMNDVVAILENHPLLGAGFAHKIEQLEDKDWEREWMDNFHPMRFGERLWICPSWRDVPDENAVNVMLDPGLAFGTGTHPTTSLCLQWLDSLDLTGKTVIDFGCGSGILAIAALKLGAAKAIGIDIDPQAIQASRDNAERNGVSDRLELYLPKDQPEEMKADVVVANILAGPLRELAPLISVLPVSGGLLGLSGILASQAESVCEAYADSFALDPVVEKEEWCRITGRKN" "c" "Han et al., 2011" -"EG11498-MONOMER" "MRTGCEPTRFGNEAKTIIHGDALAELKKIPAESVDLIFADPPYNIGKNFDGLIEAWKEDLFIDWLFEVIAECHRVLKKQGSMYIMNSTENMPFIDLQCRKLFTIKSRIVWSYDSSGVQAKKHYGSMYEPILMMVKDAKNYTFNGDAILVEAKTGSQRALIDYRKNPPQPYNHQKVPGNVWDFPRVRYLMDEYENHPTQKPEALLKRIILASSNPGDIVLDPFAGSFTTGAVAIASGRKFIGIEINSEYIKMGLRRLDVASHYSAEELAKVKKRKTGNLSKRSRLSEVDPDLITK" "c" "Han et al., 2011" -"EG11499-MONOMER" "MKQQAGIGILLALTTAICWGALPIAMKQVLEVMEPPTIVFYRFLMASIGLGAILAVKKRLPPLRVFRKPRWLILLAVATAGLFGNFILFSSSLQYLSPTASQVIGQLSPVGMMVASVFILKEKMRSTQVVGALMLLSGLVMFFNTSLVEIFTKLTDYTWGVIFGVGAATVWVSYGVAQKVLLRRLASPQILFLLYTLCTIALFPLAKPGVIAQLSHWQLACLIFCGLNTLVGYGALAEAMARWQAAQVSAIITLTPLFTLFFSDLLSLAWPDFFARPMLNLLGYLGAFVVVAGAMYSAIGHRIWGGLRKHTTVVSQPRAGE" "i" "Han et al., 2011" -"EG11500-MONOMER" "MRWYPWLRPDFEKLVASYQAGRGHHALLIQALPGMGDDALIYALSRYLLCQQPQGHKSCGHCRGCQLMQAGTHPDYYTLAPEKGKNTLGVDAVREVTEKLNEHARLGGAKVVWVTDAALLTDAAANALLKTLEEPPAETWFFLATREPERLLATLRSRCRLHYLAPPPEQYAVTWLSREVTMSQDALLAALRLSAGSPGAALALFQGDNWQARETLCQALAYSVPSGDWYSLLAALNHEQAPARLHWLATLLMDALKRHHGAAQVTNVDVPGLVAELANHLSPSRLQAILGDVCHIREQLMSVTGINRELLITDLLLRIEHYLQPGVVLPVPHL" "c" "Han et al., 2011" -"EG11503-MONOMER" "MSSFQFEQIGVIRSPYKEKFAVPRQPGLVKSANGELHLIAPYNQADAVRGLEAFSHLWILFVFHQTMEGGWRPTVRPPRLGGNARMGVFATRSTFRPNPIGMSLVELKEVVCHKDSVILKLGSLDLVDGTPVVDIKPYLPFAESLPDASASYAQSAPAAEMAVSFTAEVEKQLLTLEKRYPQLTLFIREVLAQDPRPAYRKGEETGKTYAVWLHDFNVRWRVTDAGFEVFALEPR" "c" "Han et al., 2011" -"EG11505-MONOMER" "MLKNLAKLDQTEMDKVNVDLAAAGVAFKERYNMPVIAEAVEREQPEHLRSWFRERLIAHRLASVNLSRLPYEPKLK" "c" "Han et al., 2011" -"EG11506-MONOMER" "MAKNLILWLVIAVVLMSVFQSFGPSESNGRKVDYSTFLQEVNNDQVREARINGREINVTKKDSNRYTTYIPVQDPKLLDNLLTKNVKVVGEPPEEPSLLASIFISWFPMLLLIGVWIFFMRQMQGGGGKGAMSFGKSKARMLTEDQIKTTFADVAGCDEAKEEVAELVEYLREPSRFQKLGGKIPKGVLMVGPPGTGKTLLAKAIAGEAKVPFFTISGSDFVEMFVGVGASRVRDMFEQAKKAAPCIIFIDEIDAVGRQRGAGLGGGHDEREQTLNQMLVEMDGFEGNEGIIVIAATNRPDVLDPALLRPGRFDRQVVVGLPDVRGREQILKVHMRRVPLAPDIDAAIIARGTPGFSGADLANLVNEAALFAARGNKRVVSMVEFEKAKDKIMMGAERRSMVMTEAQKESTAYHEAGHAIIGRLVPEHDPVHKVTIIPRGRALGVTFFLPEGDAISASRQKLESQISTLYGGRLAEEIIYGPEHVSTGASNDIKVATNLARNMVTQWGFSEKLGPLLYAEEEGEVFLGRSVAKAKHMSDETARIIDQEVKALIERNYNRARQLLTDNMDILHAMKDALMKYETIDAPQIDDLMARRDVRPPAGWEEPGASNNSGDNGSPKAPRPVDEPRTPNPGNTMSEQLGDK" "i" "Han et al., 2011" -"EG11507-MONOMER" "MTGKKRSASSSRWLQEHFSDKYVQQAQKKGLRSRAWFKLDEIQQSDKLFKPGMTVVDLGAAPGGWSQYVVTQIGGKGRIIACDLLPMDPIVGVDFLQGDFRDELVMKALLERVGDSKVQVVMSDMAPNMSGTPAVDIPRAMYLVELALEMCRDVLAPGGSFVVKVFQGEGFDEYLREIRSLFTKVKVRKPDSSRARSREVYIVATGRKP" "c" "Han et al., 2011" -"EG11508-MONOMER" "MKSNRQARHILGLDHKISNQRKIVTEGDKSSVVNNPTGRKRPAEK" "c" "Han et al., 2011" -"EG11509-MONOMER" "MRVSWLESKCDTPFANNLSFISSGSSSSSSFTLASTACRNSCLCSSSIFFQVLRRNCSSNCCSISNVDISLSAFSFNRFETSSKMARYNLPCPRSLLAILSPPKCCNSPAISCQLRRCCSGCPSIDLNSSLRISTLERRVLPFSLWVSNRAKFANCSSLQC" "m" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"EG11511-MONOMER" "MNTLRIGLVSISDRASSGVYQDKGIPALEEWLTSALTTPFELETRLIPDEQAIIEQTLCELVDEMSCHLVLTTGGTGPARRDVTPDATLAVADREMPGFGEQMRQISLHFVPTAILSRQVGVIRKQALILNLPGQPKSIKETLEGVKDAEGNVVVHGIFASVPYCIQLLEGPYVETAPEVVAAFRPKSARRDVSE" "c" "Han et al., 2011" -"EG11512-MONOMER" "MGNTKLANPAPLGLMGFGMTTILLNLHNVGYFALDGIILAMGIFYGGIAQIFAGLLEYKKGNTFGLTAFTSYGSFWLTLVAILLMPKLGLTDAPNAQFLGVYLGLWGVFTLFMFFGTLKGARVLQFVFFSLTVLFALLAIGNIAGNAAIIHFAGWIGLICGASAIYLAMGEVLNEQFGRTVLPIGESH" "i" "Han et al., 2011" -"EG11514-MONOMER" "MFFKKNLTTAAICAALSVAAFSAMATDSTDTELTIIGEYTPGACTPVVTGGGIVDYGKHHNSALNPTGKSNKLVQLGRKNSTLNITCTAPTLIAVTSKDNRQSTIVALNDTSYIEKAYDTLVDMKGTKNAFGLGSAPNGQKIGAASIGIDRSNGGIHAADDTGEIPVDLIQTDHWSAATPTWKASSNGAFCSLTSCSAIERGYSVAKTGELTPVAITAVTFPLLIDAAVNDNTILGSDETIKLDGNVTISVQYL" "m" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"EG11515-MONOMER" "MLRHITFTVFITTSMNTLATGMVPETSVLLVDEKRGEASINIKNTDDHPSLLYTTIVDLPESNKSIRLIPTQPVIRVEAGQVQQVRFLLQATVPLQSEELKRVTFEGIPPKDDKSSRVTVSIRQDLPVLIHPASLPEERETWKFLEWRKNGDQIEISNPSNYVVRMTLQFKTLPSGKTGAINKTYFLPHTSTTTALTNATDTKVEFYPASRYGYRGNKYVTDLK" "p" "Unambiguous EcoCyc data" -"EG11516-MONOMER" "MATIDSMNKDTTRLSDGPDWTFDLLDVYLAEIDRVAKLYRLDTYPHQIEVITSEQMMDAYSSVGMPINYPHWSFGKKFIETERLYKHGQQGLAYEIVINSNPCIAYLMEENTITMQALVMAHACYGHNSFFKNNYLFRSWTDASSIVDYLIFARKYITECEERYGVDEVERLLDSCHALMNYGVDRYKRPQKISLQEEKARQKSREEYLQSQVNMLWRTLPKREEEKTVAEARRYPSEPQENLLYFMEKNAPLLESWQREILRIVRKVSQYFYPQKQTQVMNEGWATFWHYTILNHLYDEGKVTERFMLEFLHSHTNVVFQPPYNSPWYSGINPYALGFAMFQDIKRICQSPTEEDKYWFPDIAGSDWLETLHFAMRDFKDESFISQFLSPKVMRDFRFFTVLDDDRHNYLEISAIHNEEGYREIRNRLSSQYNLSNLEPNIQIWNVDLRGDRSLTLRYIPHNRAPLDRGRKEVLKHVHRLWGFDVMLEQQNEDGSIELLERCPPRMGNL" "c" "Han et al., 2011" -"EG11517-MONOMER" "MRRELAIEFSRVTESAALAGYKWLGRGDKNTADGAAVNAMRIMLNQVNIDGTIVIGEGEIDEAPMLYIGEKVGTGRGDAVDIAVDPIEGTRMTAMGQANALAVLAVGDKGCFLNAPDMYMEKLIVGPGAKGTIDLNLPLADNLRNVAAALGKPLSELTVTILAKPRHDAVIAEMQQLGVRVFAIPDGDVAASILTCMPDSEVDVLYGIGGAPEGVVSAAVIRALDGDMNGRLLARHDVKGDNEENRRIGEQELARCKAMGIEAGKVLRLGDMARSDNVIFSATGITKGDLLEGISRKGNIATTETLLIRGKSRTIRRIQSIHYLDRKDPEMQVHIL" "c" "Han et al., 2011" -"EG11519-MONOMER" "MQRVTITLDDDLLETLDSLSQRRGYNNRSEAIRDILRSALAQEATQQHGTQGFAVLSYVYEHEKRDLASRIVSTQHHHHDLSVATLHVHINHDDCLEIAVLKGDMGDVQHFADDVIAQRGVRHGHLQCLPKED" "c" "Han et al., 2011" -"EG11520-MONOMER" "MSAEFMVICKKILFRNCVIVSLFVFTYNTWAQCNNNIKIMRKYESEGKYTVRNLVKNKAIALELAEIYVKNRYGQDAAEEEKPYEITELTTSWVVEGTIHSDQIAGGVFIIEIGKNDGRILNFGHGK" "i" "Han et al., 2011" -"EG11521-MONOMER" "MELYREYPAWLIFLRRTYAVAAGVLALPFMLFWKDRARFYSYLHRVWSKTSDKPVWMDQAEKATGDFY" "i" "Han et al., 2011" -"EG11522-MONOMER" "MKYIIFLFRAIWLALSLLILFFSMHRLSLLDSTRDVSELISLMSYGMMVICFPTGIVFFIALIFIGTVSDIIGVRIDSKYIMAIIIWLYFLSGGYIQWFVLSKRIINK" "i" "Han et al., 2011" -"EG11523-MONOMER" "MKRVLFFLLMIFVSFGVIADCEIQAKDHDCFTIFAKGTIFSAFPVLNNKAMWRWYQNEDIGEYYWQTELGTCKNNKFTPSGARLLIRVGSLRLNENHAIKGTLQELINTAEKTAFLGDRFRSYIRAGIYQKKSSDPVQLLAVLDNSIMVKYFKDEKPTYARMTAHLPNKNESYECLIKIQHELIRSEEK" "p" "Han et al., 2011" -"EG11524-MONOMER" "MELKKLMEHISIIPDYRQAWKVEHKLSDILLLTICAVISGAEGWEDIEDFGETHPDFLKQYGDFENGIPVHDTIARVVSCICPAKFHESFINWMLDYHSSDDKDVIAIDGKIHRHSYDKSRRKGAIHVISAFSTMHSLVIGQIKTDKKSNEITAIPELLNMLDIKGKIIKTDAMGCQKDIAEKIQKQGGDYLFAVKGNQGRLNKAFEEKFPLKELNNPKHDSYAISEKSHGREETRLHIVCDVPDELIDFTFE" "c" "Han et al., 2011" -"EG11525-MONOMER" "MELKKLMEHISIIPDYRQTWKVEHKLSDILLLTICAVISGAEGWEDIEDFGETHLDFLKQYGDFENGIPVHDTIARVVSCISPAKFHECFINWMRDCHSSDDKDVIAIDGKTLRHSYDKSRRRGAIHVISAFSTMHSLVIGQIKTDEKSNEITAIPELLNMLDIKGKIITTDAMGCQKDIAEKIQKQGGDYLFAVKGTQGRLNKAFEEKFPLKELNNPEHDSYAISEKSHGREEIRLHIVCDVPDELIDFTFEWKGLKKLCVAVSFRSIIAEQKKEPEMTVRYYISSADLTAEKFATAIRNHWHVENKLHWRLDVVMNEDDCKIRRGNAAELFSGIRHIAINILTNDKVFKAGLRRKMRKAAMDRNYLASVLAGSGLS" "c" "Han et al., 2011" -"EG11526-MONOMER" "MELKKLMGHISIIPDYRQAWKMEHKLSDILLLTICAVISGAEGWEDIEDFGETHPDFLKQYGDFENGIPVHDTIARVVSCISPAKFHECFINWMRDCHSSDDKDVIAIDGKTLRHSYDKSRRRGAIHVISAFSTMHSLVIGQIKTDEKSNEITAIPELLNMLDIKGKIITTDAMGCQKDIAEKIQKQGGDYLFAVKGNQGRLNKAFEEKFPLKELNNPAHDSYAMSEKSHGREEIRLHIVCDVPDELIDFTFEWKGLKKLCVAVSFRSIIAEQKKELEMTVRYYISSADLTAEKFATAIRNHWHVENKLHWRLDVVMNEDDCKIRRGNAAELFSGIRHIAINILTNDKVFKAGLRRKMRKAAMDRNYLASVLTGSGLS" "c" "Han et al., 2011" -"EG11529-MONOMER" "VAQRDYVRRSQPAPSRRKKSTSRKKQRNLPAVSPAMVAIAAAVLVTFIGGLYFITHHKKEESETLQSQKVTGNGLPPKPEERWRYIKELESRQPGVRAPTEPSAGGEVKTPEQLTPEQRQLLEQMQADMRQQPTQLVEVPWNEQTPEQRQQTLQRQRQAQQLAEQQRLAQQSRTTEQSWQQQTRTSQAAPVQAQPRQSKPASSQQPYQDLLQTPAHTTAQSKPQQAAPVARAADAPKPTAEKKDERRWMVQCGSFRGAEQAETVRAQLAFEGFDSKITTNNGWNRVVIGPVKGKENADSTLNRLKMAGHTNCIRLAAGG" "i" "Han et al., 2011" -"EG11533-MONOMER" "MKRKNASLLGNVLMGLGLVVMVVGVGYSILNQLPQFNMPQYFAHGAVLSIFVGAILWLAGARVGGHEQVCDRYWWVRHYDKRCRRSDNRRHS" "i" "Han et al., 2011" -"EG11534-MONOMER" "MRNFDLSPLYRSAIGFDRLFNHLENNQSQSNGGYPPYNVELVDENHYRIAIAVAGFAESELEITAQDNLLVVKGAHADEQKERTYLYQGIAERNFERKFQLAENIHVRGANLVNGLLYIDLERVIPEAKKPRRIEIN" "c" "Han et al., 2011" -"EG11535-MONOMER" "MRNFDLSPLMRQWIGFDKLANALQNAGESQSFPPYNIEKSDDNHYRITLALAGFRQEDLEIQLEGTRLSVKGTPEQPKEEKKWLHQGLMNQPFSLSFTLAENMEVSGATFVNGLLHIDLIRNEPEPIAAQRIAISERPALNS" "c" "Han et al., 2011" -"EG11536-MONOMER" "MSDIALTVSILALVAVVGLFIGNVKFRGIGLGIGGVLFGGIIVGHFVSQAGMTLSSDMLHVIQEFGLILFVYTIGIQVGPGFFASLRVSGLRLNLFAVLIVIIGGLVTAILHKLFDIPLPVVLGIFSGAVTNTPALGAGQQILRDLGTPMEMVDQMGMSYAMAYPFGICGILFTMWMLRVIFRVNVETEAQQHESSRTNGGALIKTINIRVENPNLHDLAIKDVPILNGDKIICSRLKREETLKVPSPDTIIQLGDLLHLVGQPADLHNAQLVIGQEVDTSLSTKGTDLRVERVVVTNENVLGKRIRDLHFKERYDVVISRLNRAGVELVASGDISLQFGDILNLVGRPSAIDAVANVLGNAQQKLQQVQMLPVFIGIGLGVLLGSIPVFVPGFPAALKLGLAGGPLIMALILGRIGSIGKLYWFMPPSANLALRELGIVLFLSVVGLKSGGDFVNTLVNGEGLSWIGYGALITAVPLITVGILARMLAKMNYLTMCGMLAGSMTDPPALAFANNLHPTSGAAALSYATVYPLVMFLRIITPQLLAVLFWSIG" "i" "Han et al., 2011" -"EG11537-MONOMER" "MKYQLTALEARVIGCLLEKQVTTPEQYPLSVNGVVTACNQKTNREPVMNLSESEVQEQLDNLVKRHYLRTVSGFGNRVTKYEQRFCNSEFGDLKLSAAEVALITTLLLRGAQTPGELRSRAARMYEFSDMAEVESTLEQLANREDGPFVVRLAREPGKRENRYMHLFSGEVEDQPAVTDMSNAVDGDLQARVEALEIEVAELKQRLDSLLAHLGD" "c" "Han et al., 2011" -"EG11538-MONOMER" "MSQSTSVLRRNGFTFKQFFVAHDRCAMKVGTDGILLGAWAPVAGVKRCLDIGAGSGLLALMLAQRTDDSVMIDAVELESEAAAQAQENINQSPWAERINVHTADIQQWITQQTVRFDLIISNPPYYQQGVECSTPQREQARYTTTLDHPSLLTCAAECITEEGFFCVVLPEQIGNGFTELALSMGWHLRLRTDVAENEARLPHRVLLAFSPQAGECFSDRLVIRGPDQNYSEAYTALTQAFYLFM" "c" "Han et al., 2011" -"EG11544-MONOMER" "MIFLMTKDSFLLQGFWQLKDNHEMIKINSLSEIKKVGNKPFKVIIDTYHNHILDEEAIKFLEKLDAERIIVLAPYHISKLKAKAPIYFVSRKESIKNLLEITYGKHLPHKNSQLCFSHNQFKIMQLILKNKNESNITSTLNISQQTLKIQKFNIMYKLKLRRMSDIVTLGITSYF" "c" "Han et al., 2011" -"EG11545-MONOMER" "MRFSTQMMYQQNMRGITNSQAEWMKYGEQMSTGKRVVNPSDDPIAASQAVVLSQAQAQNSQYTLARTFATQKVSLEESVLSQVTTAIQNAQEKIVYASNGTLSDDDRASLATDIQGLRDQLLNLANTTDGNGRYIFAGYKTETAPFSEEKGKYVGGAESIKQQVDASRSMVIGHTGDKIFDSITSNAVAEPDGSASETNLFAMLDSAIAALKTPVADSEADKETAAAALDKTNRGLKNSLNNVLTVRAELGTQLNELESLDSLGSDRALGQTQQMSDLVDVDWNATISSYIMQQTALQASYKAFTDMQGLSLFQLSK" "s" "EcoCyc dump" -"EG11547-MONOMER" "MSDNAQLTGLCDRFRGFYPVVIDVETAGFNAKTDALLEIAAITLKMDEQGWLMPDTTLHFHVEPFVGANLQPEALAFNGIDPNDPDRGAVSEYEALHEIFKVVRKGIKASGCNRAIMVAHNANFDHSFMMAAAERASLKRNPFHPFATFDTAALAGLALGQTVLSKACQTAGMDFDSTQAHSALYDTERTAVLFCEIVNRWKRLGGWPLSAAEEV" "c" "Han et al., 2011" -"EG11548-MONOMER" "MADNPDPSSLLPDVFSPATRDWFLRAFKQPTAVQPQTWHVAARSEHALVIAPTGSGKTLAAFLYALDRLFREGGEDTREAHKRKTSRILYISPIKALGTDVQRNLQIPLKGIADERRRRGETEVNLRVGIRTGDTPAQERSKLTRNPPDILITTPESLYLMLTSRARETLRGVETVIIDEVHAVAGSKRGAHLALSLERLDALLHTSAQRIGLSATVRSASDVAAFLGGDRPVTVVNPPAMRHPQIRIVVPVANMDDVSSVASGTGEDSHAGREGSIWPYIETGILDEVLRHRSTIVFTNSRGLAEKLTARLNELYAARLQRSPSIAVDAAHFESTSGATSNRVQSSDVFIARSHHGSVSKEQRAITEQALKSGELRCVVATSSLELGIDMGAVDLVIQVATPLSVASGLQRIGRAGHQVGGVSKGLFFPRTRRDLVDSAVIVECMFAGRLENLTPPHNPLDVLAQQTVAAAAMDALQVDEWYSRVRRAAPWKDLPRRVFDATLDMLSGRYPSGDFSAFRPKLVWNRETGILTARPGAQLLAVTSGGTIPDRGMYSVLLPEGEEKAGSRRVGELDEEMVYESRVNDIITLGATSWRIQQITRDQVIVTPAPGRSARLPFWRGEGNGRPAELGEMIGDFLHLLADGAFFSGTIPPWLAEENTIANIQGLIEEQRNATGIVPGSRHLVLERCRDEIGDWRIILHSPYGRRVHEPWAVAIAGRIHALWGADASVVASDDGIVARIPDTDGKLPDAAIFLFEPEKLLQIVREAVGSSALFAARFRECAARALLMPGRTPGHRTPLWQQRLRASQLLEIAQGYPDFPVILETLRECLQDVYDLPALERLMRRLNGGEIQISDVTTTTPSPFATSLLFGYVAEFMYQSDAPLAERRASVLSLDSELLRNLLGQVDPGELLDPQVIRQVEEELQRLAPGRRAKGEEGLFDLLRELGPMTVEDLAQRHTGSSEEVASYLENLLAVKRIFPAMISGQERLACMDDAARLRDALGVRLPESLPEIYLHRVSYPLRDLFLRYLRAHALVTAEQLAHEFSLGIAIVEEQLQQLREQGLVMNLQQDIWVSDEVFRRLRLRSLQAAREATRPVAATTYARLLLERQGVLPATDGSPALFASTSPGVYEGVDGVMRVIEQLAGVGLPASLWESQILPARVRDYSSEMLDELLATGAVIWSGQKKLGEDDGLVALHLQEYAAESFTPAEADQANRSALQQAIVAVLADGGAWFAQQISQRIRDKIGESVDLSALQEALWALVWQGVITSDIWAPLRALTRSSSNARTSTRRSHRARRGRPVYAQPVSPRVSYNTPNLAGRWSLLQVEPLNDTERMLALAENMLDRYGIISRQAVIAENIPGGFPSMQTLCRSMEDSGRIMRGRFVEGLGGAQFAERLTIDRLRDLATQATQTRHYTPVALSANDPANVWGNLLPWPAHPATLVPTRRAGALVVVSGGKLLLYLAQGGKKMLVWQEKEELLAPEVFHALTTALRREPRLRFTLTEVNDLPVRQTPMFTLLREAGFSSSPQGLDWG" "c" "Han et al., 2011" -"EG11549-MONOMER" "MDKLLERFLNYVSLDTQSKAGVRQVPSTEGQWKLLHLLKEQLEEMGLINVTLSEKGTLMATLPANVPGDIPAIGFISHVDTSPDCSGKNVNPQIVENYRGGDIALGIGDEVLSPVMFPVLHQLLGQTLITTDGKTLLGADDKAGIAEIMTALAVLQQKKIPHGDIRVAFTPDEEVGKGAKHFDVDAFDARWAYTVDGGGVGELEFENFNAASVNIKIVGNNVHPGTAKGVMVNALSLAARIHAEVPADESPEMTEGYEGFYHLASMKGTVERADMHYIIRDFDRKQFEARKRKMMEIAKKVGKGLHPDCYIELVIEDSYYNMREKVVEHPHILDIAQQAMRDCDIEPELKPIRGGTDGAQLSFMGLPCPNLFTGGYNYHGKHEFVTLEGMEKAVQVIVRIAELTAQRK" "c" "Han et al., 2011" -"EG11551-MONOMER" "MAKNTSCGVQLRIRGKVQGVGFRPFVWQLAQQLNLHGDVCNDGDGVEVRLREDPETFLVQLYQHCPPLARIDSVEREPFIWSQLPTEFTIRQSTGGTMNTQIVPDAATCPACLAEMNTPGERRYRYPFINCTHCGPRFTIIRAMPYDRPFTVMAAFPLCPACDKEYRDPLDRRFHAQPVACPECGPHLEWVSHGEHAEQEAALQAAIAQLKMGKIVAIKGIGGFHLACDARNSNAVATLRARKHRPAKPLAVMLPVADGLPDAARQLLTTPAAPIVLVDKKYVPELCDDIAPDLNEVGVMLPANPLQHLLLQELQCPLVMTSGNLSGKPPAISNEQALADLQGIADGFLIHNRDIVQRMDDSVVRESGEMLRRSRGYVPDALALPPGFKNVPPVLCLGADLKNTFCLVRGEQAVLSQHLGDLSDDGIQMQWREALRLMQNIYDFTPQYVVHDAHPGYVSSQWAREMNLPTQTVLHHHAHAAACLAEHQWPLDGGDVIALTLDGIGMGENGALWGGECLRVNYRECEHLGGLPAVALPGGDLAAKQPWRNLLAQCLRFVPEWQNYSETASVQQQNWSVLARAIERGINAPLASSCGRFFDAVAAALGCAPATLSYEGEAACALEALAASCHGVTHPVTMPRVDNQLDLATFWQQWLNWQAPVNQRAWAFHDALAQGFAALMREQATMRGITTLVFSGGVIHNRLLRARLAHYLADFTLLFPQSLPAGDGGLSLGQGVIAAARWLAGEVQNG" "c" "Han et al., 2011" -"EG11552-MONOMER" "MNRFIIADASKCIGCRTCEVACVVSHQENQDCASLTPETFLPRIHVIKGVNISTATVCRQCEDAPCANVCPNGAISRDKGFVHVMQERCIGCKTCVVACPYGAMEVVVRPVIRNSGAGLNVRADKAEANKCDLCNHREDGPACMAACPTHALICVDRNKLEQLSAEKRRRTALMF" "i" "Han et al., 2011" -"EG11554-MONOMER" "MSVMLQSLNNIRTLRAMAREFSIDVLEEMLEKFRVVTKERREEEEQQQRELAERQEKISTWLELMKADGINPEELLGNSSAAAPRAGKKRQPRPAKYKFTDVNGETKTWTGQGRTPKPIAQALAEGKSLDDFLI" "c" "Han et al., 2011" -"EG11562-MONOMER" "MKIITCYKCVPDEQDIAVNNADGSLDFSKADAKISQYDLNAIEAACQLKQQAAEAQVTALSVGGKALTNAKGRKDVLSRGPDELIVVIDDQFEQALPQQTASALAAAAQKAGFDLILCGDGSSDLYAQQVGLLVGEILNIPAVNGVSKIISLTADTLTVERELEDETETLSIPLPAVVAVSTDINSPQIPSMKAILGAAKKPVQVWSAADIGFNAEAAWSEQQVAAPKQRERQRIVIEGDGEEQIAAFAENLRKVI" "c" "Han et al., 2011" -"EG11563-MONOMER" "MNTFSQVWVFSDTPSRLPELMNGAQALANQINTFVLNDADGAQAIQLGANHVWKLNGKPDDRMIEDYAGVMADTIRQHGADGLVLLPNTRRGKLLAAKLGYRLKAAVSNDASTVSVQDGKATVKHMVYGGLAIGEERIATPYAVLTISSGTFDAAQPDASRTGETHTVEWQAPAVAITRTATQARQSNSVDLDKARLVVSVGRGIGSKENIALAEQLCKAIGAELACSRPVAENEKWMEHERYVGISNLMLKPELYLAVGISGQIQHMVGANASQTIFAINKDKNAPIFQYADYGIVGDAVKILPALTAALAR" "c" "Han et al., 2011" -"EG11564-MONOMER" "MSEDIFDAIIVGAGLAGSVAALVLAREGAQVLVIERGNSAGAKNVTGGRLYAHSLEHIIPGFADSAPVERLITHEKLAFMTEKSAMTMDYCNGDETSPSQRSYSVLRSKFDAWLMEQAEEAGAQLITGIRVDNLVQRDGKVVGVEADGDVIEAKTVILADGVNSILAEKLGMAKRVKPTDVAVGVKELIELPKSVIEDRFQLQGNQGAACLFAGSPTDGLMGGGFLYTNENTLSLGLVCGLHHLHDAKKSVPQMLEDFKQHPAVAPLIAGGKLVEYSAHVVPEAGINMLPELVGDGVLIAGDAAGMCMNLGFTIRGMDLAIAAGEAAAKTVLSAMKSDDFSKQKLAEYRQHLESGPLRDMRMYQKLPAFLDNPRMFSGYPELAVGVARDLFTIDGSAPELMRKKILRHGKKVGFINLIKDGMKGVTVL" "c" "Han et al., 2011" -"EG11565-MONOMER" "MTSPVNVDVKLGVNKFNVDEEHPHIVVKADADKQALELLVKACPAGLYKKQDDGSVRFDYAGCLECGTCRILGLGSALEQWEYPRGTFGVEFRYG" "c" "Han et al., 2011" -"EG11568-MONOMER" "MILIIYAHPYPHHSHANKRMLEQARTLEGVEIRSLYQLYPDFNIDIAAEQEALSRADLIVWQHPMQWYSIPPLLKLWIDKVFSHGWAYGHGGTALHGKHLLWAVTTGGGESHFEIGAHPGFDVLSQPLQATAIYCGLNWLPPFAMHCTFICDDETLEGQARHYKQRLLEWQEAHHG" "i" "EcoCyc dump" -"EG11569-MONOMER" "MKKRIPTLLATMIATALYSQQGLAADLASQCMLGVPSYDRPLVQGDTNDLPVTINADHAKGDYPDDAVFTGSVDIMQGNSRLQADEVQLHQKEAPGQPEPVRTVDALGNVHYDDNQVILKGPKGWANLNTKDTNVWEGDYQMVGRQGRGKADLMKQRGENRYTILDNGSFTSCLPGSDTWSVVGSEIIHDREEQVAEIWNARFKVGPVPIFYSPYLQLPVGDKRRSGFLIPNAKYTTTNYFEFYLPYYWNIAPNMDATITPHYMHRRGNIMWENEFRYLSQAGAGLMELDYLPSDKVYEDEHPNDDSSRRWLFYWNHSGVMDQVWRFNVDYTKVSDPSYFNDFDNKYGSSTDGYATQKFSVGYAVQNFNATVSTKQFQVFSEQNTSSYSAEPQLDVNYYQNDVGPFDTRIYGQAVHFVNTRDDMPEATRVHLEPTINLPLSNNWGSINTEAKLLATHYQQTNLDWYNSRNTTKLDESVNRVMPQFKVDGKMVFERDMEMLAPGYTQTLEPRAQYLYVPYRDQSDIYNYDSSLLQSDYSGLFRDRTYGGLDRIASANQVTTGVTSRIYDDAAVERFNISVGQIYYFTESRTGDDNITWENDDKTGSLVWAGDTYWRISERWGLRGGIQYDTRLDNVATSNSSIEYRRDEDRLVQLNYRYASPEYIQATLPKYYSTAEQYKNGISQVGAVASWPIADRWSIVGAYYYDTNANKQADSMLGVQYSSCCYAIRVGYERKLNGWDNDKQHAVYDNAIGFNIELRGLSSNYGLGTQEMLRSNILPYQNTL" "e" "EcoCyc dump" -"EG11570-MONOMER" "MQYWGKIIGVAVALLMGGGFWGVVLGLLIGHMFDKARSRKMAWFANQRERQALFFATTFEVMGHLTKSKGRVTEADIHIASQLMDRMNLHGASRTAAQNAFRVGKSDNYPLREKMRQFRSVCFGRFDLIRMFLEIQIQAAFADGSLHPNERAVLYVIAEELGISRAQFDQFLRMMQGGAQFGGGYQQQTGGGNWQQAQRGPTLEDACNVLGVKPTDDATTIKRAYRKLMSEHHPDKLVAKGLPPEMMEMAKQKAQEIQQAYELIKQQKGFK" "i" "Han et al., 2011" -"EG11571-MONOMER" "MQALLEHFITQSTVYSLMAVVLVAFLESLALVGLILPGTVLMAGLGALIGSGELSFWHAWLAGIIGCLMGDWISFWLGWRFKKPLHRWSFLKKNKALLDKTEHALHQHSMFTILVGRFVGPTRPLVPMVAGMLDLPVAKFITPNIIGCLLWPPFYFLPGILAGAAIDIPAGMQSGEFKWLLLATAVFLWVGGWLCWRLWRSGKATDRLSHYLSRGRLLWLTPLISAIGVVALVVLIRHPLMPVYIDILRKVVGV" "i" "Han et al., 2011" -"EG11578-MONOMER" "MKTPLVTREGYEKLKQELNYLWREERPEVTKKVTWAASLGDRSENADYQYNKKRLREIDRRVRYLTKCLENLKIVDYSPQQEGKVFFGAWVEIENDDGVTHRFRIVGYDEIFGRKDYISIDSPMARALLKKEVGDLAVVNTPAGEASWYVNAIEYVKP" "c" "Han et al., 2011" -"EG11579-MONOMER" "MPVRAQRIQHVMQDTIINFYSTSDDYGDFSNFAAWPIKVDGKTWPTSEHYFQAQKFLDEKYREEIRRVSSPMVAARMGRDRSKPLRKNWESVKEQVMRKALRAKFEQHAELRALLLATAPAKLVEHTENDAYWGDGGHGKGKNRLGYLLMELREQLAIEK" "c" "Han et al., 2011" -"EG11580-MONOMER" "MDYRKIIKEIGRGKNHARDLDRDTARGLYAHMLNGEVPDLELGGVLIALRIKGEGEAEMLGFYEAMQNHTIKLTPPAGKPMPIVIPSYNGARKQANLTPLLAILLHKLGFPVVVHGVSEDPTRVLTETIFELMGITPTLHGGQAQAKLDEHQPVFMPVGAFCPPLEKQLAMRWRMGVRNSAHTLAKLATPFAEGEALRLSSVSHPEYIGRVAKFFSDIGGRALLMHGTEGEVYANPQRCPQINLIDREGMRVLYEKQDTAGSELLPQAKDPETTAQWIERCLAGSEPIPESLKIQMACCLVATGEAATISDGLARVNQAF" "c" "Han et al., 2011" -"EG11581-MONOMER" "MESGHRFDAQTLHSFIQAVFRQMGSEEQEAKLVADHLIAANLAGHDSHGIGMIPSYVRSWSQGHLQINHHAKTVKEAGAAVTLDGDRAFGQVAAHEAMALGIEKAHQHGIAAVALHNSHHIGRIGYWAEQCAAAGFVSIHFVSVVGIPMVAPFHGRDSRFGTNPFCVVFPRKDNFPLLLDYATSAIAFGKTRVAWHKGVPVPPGCLIDVNGVPTTNPAVMQESPLGSLLTFAEHKGYALAAMCEILGGALSGGKTTHQETLQTSPDAILNCMTTIIINPELFGAPDCNAQTEAFAEWVKASPHDDDKPILLPGEWEVNTRRERQKQGIPLDAGSWQAICDAARQIGMPEETLQAFCQQLAS" "c" "Han et al., 2011" -"EG11591-MONOMER" "LYQDKILVRQLGLQPYEPISQAMHEFTDTRDDSTLDEIWLVEHYPVFTQGQAGKAEHILMPGDIPVIQSDRGGQVTYHGPGQQVMYVLLNLKRRKLGVRELVTLLEQTVVNTLAELGIEAHPRADAPGVYVGEKKICSLGLRIRRGCSFHGLALNVNMDLSPFLRINPCGYAGMEMAKISQWKPEATTNNIAPRLLENILALLNNPDFEYITA" "c" "Han et al., 2011" -"EG11592-MONOMER" "MKTKLNELLEFPTPFTYKVMGQALPELVDQVVEVVQRHAPGDYTPTVKPSSKGNYHSVSITINATHIEQVETLYEELGKIDIVRMVL" "c" "Han et al., 2011" -"EG11594-MONOMER" "VDSNNQIEPCLSRKSSEGKPQIFTTLRNIDLNLLTIFEAVYVHKGIVNAAKVLNLTPSAISQSIQKLRVIFPDPLFIRKGQGVTPTAFAMHLHEYISQGLESILGALDIEGSYDKQRTITIATTPSVGALVLPVIYRAIKTHYPQLLLRNPPISDAENQLSQFQTDLIIDNMFCTNRTVQHHVLFTDNMVLICREGNPLLSLEDDRETIDNAAHVLLLPEEQNFSGLRQRVQEMFPDRQINFTSYNILTIAALVANSDMLAIIPSRFYNLFSRCWPLEKLPFPSLNEEQIDFSIHYNKFSLRDPILHGVIDVIRNAF" "c" "Han et al., 2011" -"EG11595-MONOMER" "MASQLTDAFARKFYYLRLSITDVCNFRCTYCLPDGYKPSGVTNKGFLTVDEIRRVTRAFARLGTEKVRLTGGEPSLRRDFTDIIAAVRENDAIRQIAVTTNGYRLERDVASWRDAGLTGINVSVDSLDARQFHAITGQDKFNQVMAGIDAAFEAGFEKVKVNTVLMRDVNHHQLDTFLNWIQHRPIQLRFIELMETGEGSELFRKHHISGQVLRDELLRRGWIHQLRQRSDGPAQVFCHPDYAGEIGLIMPYEKDFCATCNRLRVSSIGKLHLCLFGEGGVNLRDLLEDDTQQQALEARISAALREKKQTHFLHQNNTGITQNLSYIGG" "c" "Han et al., 2011" -"EG11597-MONOMER" "MIKVLFFAQVRELVGTDATEVAADFPTVEALRQHMAAQSDRWALALEDGKLLAAVNQTLVSFDHPLTDGDEVAFFPPVTGG" "c" "Han et al., 2011" -"EG11598-MONOMER" "MAETKIVVGPQPFSVGEEYPWLAERDEDGAVVTFTGKVRNHNLGDSVNALTLEHYPGMTEKALAEIVDEARNRWPLGRVTVIHRIGELWPGDEIVFVGVTSAHRSSAFEAGQFIMDYLKTRAPFWKREATPEGDRWVEARESDQQAAKRW" "c" "Han et al., 2011" -"EG11599-MONOMER" "MKPLSSAIAAALILFSAQGVAEQTTQPVVTSCANVVVVPPSQEHPPFDLNHMGTGSDKSDALGVPYYNQHAM" "p" "Han et al., 2011" -"EG11600-MONOMER" "MSTTWFVGADWLAEHIDDPEIQIIDARMASPGQEDRNVAQEYLNGHIPGAVFFDIEALSDHTSPLPHMLPRPETFAVAMRELGVNQDKHLIVYDEGNLFSAPRAWWMLRTFGVEKVSILGGGLAGWQRDDLLLEEGAVELPEGEFNAAFNPEAVVKVTDVLLASHENTAQIIDARPAARFNAEVDEPRPGLRRGHIPGALNVPWTELVREGELKTTDELDAIFFGRGVSYDKPIIVSCGSGVTAAVVLLALATLDVPNVKLYDGAWSEWGARADLPVEPVK" "c" "Han et al., 2011" -"EG11601-MONOMER" "MSETKNELEDLLEKAATEPAHRPAFFRTLLESTVWVPGTAAQGEAVVEDSALDLQHWEKEDGTSVIPFFTSLEALQQAVEDEQAFVVMPVRTLFEMTLGETLFLNAKLPTGKEFMPREISLLIGEEGNPLSSQEILEGGESLILSEVAEPPAQMIDSLTTLFKTIKPVKRAFICSIKENEEAQPNLLIGIEADGDIEEIIQATGSVATDTLPGDEPIDICQVKKGEKGISHFITEHIAPFYERRWGGFLRDFKQNRII" "c" "Han et al., 2011" -"EG11603-MONOMER" "MAQEIELKFIVNHSAVEALRDHLNTLGGEHHDPVQLLNIYYETPDNWLRGHDMGLRIRGENGRYEMTMKVAGRVTGGLHQRPEYNVALSEPTLDLAQLPTEVWPNGELPADLASRVQPLFSTDFYREKWLVAVDGSQIEIALDQGEVKAGEFAEPICELELELLSGDTRAVLKLANQLVSQTGLRQGSLSKAARGYHLAQGNPAREIKPTTILHVAAKADVEQGLEAALELALAQWQYHEELWVRGNDAAKEQVLAAISLVRHTLMLFGGIVPRKASTHLRDLLTQCEATIASAVSAVTAVYSTETAMAKLALTEWLVSKAWQPFLDAKAQGKISDSFKRFADIHLSRHAAELKSVFCQPLGDRYRDQLPRLTRDIDSILLLAGYYDPVVAQAWLENWQGLHHAIATGQRIEIEHFRNEANNQEPFWLHSGKR" "c" "Han et al., 2011" -"EG11604-MONOMER" "MVDTEIWLRLMSISSLYGDDMVRIAHWVAKQSHIDAVVLQQTGLTLRQAQRFLSFPRKSIESSLCWLEQPNHHLIPADSEFYPPQLLATTDYPGALFVEGELHALHSFQLAVVGSRAHSWYGERWGRLFCETLATRGVTITSGLARGIDGVAHKAALQVNGVSIAVLGNGLNTIHPRRHARLAASLLEQGGALVSEFPLDVPPLAYNFPRRNRIISGLSKGVLVVEAALRSGSLVTARCALEQGREVFALPGPIGNPGSEGPHWLIKQGAILVTEPEEILENLQFGLHWLPDAPENSFYSPDQQDVALPFPELLANVGDEVTPVDVVAERAGQPVPEVVTQLLELELAGWIAAVPGGYVRLRRACHVRRTNVFV" "c" "Han et al., 2011" -"EG11605-MONOMER" "MFDVLMYLFETYIHTEAELRVDQDKLEQDLTDAGFEREDIYNALLWLEKLADYQEGLAEPMQLASDPLSMRIYTPEECERLDASCRGFLLFLEQIQVLNLETREMVIERVLALDNAEFELDDLKWVILMVLFNIPGCENAYQQMEELLFEVNEGMLH" "c" "Han et al., 2011" -"EG11607-MONOMER" "VLYVIYAQDKADSLEKRLSVRPAHLARLQLLHDEGRLLTAGPMPAVDSNDPGAAGFTGSTVIAEFESLEAAQAWADADPYVAAGVYEHVSVKPFKKVF" "c" "Han et al., 2011" -"EG11611-MONOMER" "MALPPDRTDRGAERYLKDDWHGLQLFAIDGAQFRTPDKPELREYYGSANTSTKRQNAYPVMRLVALMNLGSHILLNAVTAPYRQSETVLAHSMLATIPDNSITLFDKLFYSEDLLLTLNQKGCNRHWLLPAWKNIASEMIELGNTASPGTIPKRLEHLRGALEVVFITKRPRPSRPRSVKISKTRYPVKHSAAPLK" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"EG11613-MONOMER" "MLKRLLKRPSLNLLAWLLLAAFYISICLNIAFFKQVLQALPLDSLHNVLVFLSMPVVAFSVINIVLTLSSFLWLNRPLACLFILVGAAAQYFIMTYGIVIDRSMIANIIDTTPAESYALMTPQMLLTLGFSGVLAALIACWIKIKPATSRLRSVLFRGANILVSVLLILLVAALFYKDYASLFRNNKELVKSLSPSNSIVASWSWYSHQRLANLPLVRIGEDAHRNPLMQNEKRKNLTILIVGETSRAENFSLNGYPRETNPRLAKDNVVYFPNTASCGTATAVSVPCMFSDMPREHYKEELAQHQEGVLDIIQRAGINVLWNDNDGGCKGACDRVPHQNVTALNLPDQCINGECYDEVLFHGLEEYINNLQGDGVIVLHTIGSHGPTYYNRYPPQFRKFTPTCDTNEIQTCTKEQLVNTYDNTLVYVDYIVDKAINLLKEHQDKFTTSLVYLSDHGESLGENGIYLHGLPYAIAPDSQKQVPMLLWLSEDYQKRYQVDQNCLQKQAQTQHYSQDNLFSTLLGLTGVETKYYQAADDILQTCRRVSE" "i" "Han et al., 2011" -"EG11619-MONOMER" "MPEQYRYTLPVKAGEQRLLGELTGAACATLVAEIAERHAGPVVLIAPDMQNALRLHDEISQFTDQMVMNLADWETLPYDSFSPHQDIISSRLSTLYQLPTMQRGVLIVPVNTLMQRVCPHSFLHGHALVMKKGQRLSRDALRTQLDSAGYRHVDQVMEHGEYATRGALLDLFPMGSELPYRLDFFDDEIDSLRVFDVDSQRTLEEVEAINLLPAHEFPTDKAAIELFRSQWRDTFEVKRDPEHIYQQVSKGTLPAGIEYWQPLFFSEPLPPLFSYFPANTLLVNTGDLETSAERFQADTLARFENRGVDPMRPLLPPQSLWLRVDELFSELKNWPRVQLKTEHLPTKAANANLGFQKLPDLAVQAQQKAPLDALRKFLETFDGPVVFSVESEGRREALGELLARIKIAPQRIMRLDEASDRGRYLMIGAAEHGFVDTVRNLALICESDLLGERVARRRQDSRRTINPDTLIRNLAELHIGQPVVHLEHGVGRYAGMTTLEAGGITGEYLMLTYANDAKLYVPVSSLHLISRYAGGAEENAPLHKLGGDAWSRARQKAAEKVRDVAAELLDIYAQRAAKEGFAFKHDREQYQLFCDSFPFETTPDQAQAINAVLSDMCQPLAMDRLVCGDVGFGKTEVAMRAAFLAVDNHKQVAVLVPTTLLAQQHYDNFRDRFANWPVRIEMISRFRSAKEQTQILAEVAEGKIDILIGTHKLLQSDVKFKDLGLLIVDEEHRFGVRHKERIKAMRANVDILTLTATPIPRTLNMAMSGMRDLSIIATPPARRLAVKTFVREYDSMVVREAILREILRGGQVYYLYNDVENIQKAAERLAELVPEARIAIGHGQMRERELERVMNDFHHQRFNVLVCTTIIETGIDIPTANTIIIERADHFGLAQLHQLRGRVGRSHHQAYAWLLTPHPKAMTTDAQKRLEAIASLEDLGAGFALATHDLEIRGAGELLGEEQSGSMETIGFSLYMELLENAVDALKAGREPSLEDLTSQQTEVELRMPSLLPDDFIPDVNTRLSFYKRIASAKTENELEEIKVELIDRFGLLPDPARTLLDIARLRQQAQKLGIRKLEGNEKGGVIEFAEKNHVNPAWLIGLLQKQPQHYRLDGPTRLKFIQDLSERKTRIEWVRQFMRELEENAIA" "c" "Han et al., 2011" -"EG11620-MONOMER" "MFQDNPLLAQLKQQLHSQTPRAEGVVKATEKGFGFLEVDAQKSYFIPPPQMKKVMHGDRIIAVIHSEKERESAEPEELVEPFLTRFVGKVQGKNDRLAIVPDHPLLKDAIPCRAARGLNHEFKEGDWAVAEMRRHPLKGDRSFYAELTQYITFGDDHFVPWWVTLARHNLEKEAPDGVATEMLDEGLVREDLTALDFVTIDSASTEDMDDALFAKALPDDKLQLIVAIADPTAWIAEGSKLDKAAKIRAFTNYLPGFNIPMLPRELSDDLCSLRANEVRPVLACRMTLSADGTIEDNIEFFAATIESKAKLVYDQVSDWLENTGDWQPESEAIAEQVRLLAQICQRRGEWRHNHALVFKDRPDYRFILGEKGEVLDIVAEPRRIANRIVEEAMIAANICAARVLRDKLGFGIYNVHMGFDPANADALAALLKTHGLHVDAEEVLTLDGFCKLRRELDAQPTGFLDSRIRRFQSFAEISTEPGPHFGLGLEAYATWTSPIRKYGDMINHRLLKAVIKGETATRPQDEITVQMAERRRLNRMAERDVGDWLYARFLKDKAGTDTRFAAEIVDISRGGMRVRLVDNGAIAFIPAPFLHAVRDELVCSQENGTVQIKGETVYKVTDVIDVTIAEVRMETRSIIARPVA" "c" "Han et al., 2011" -"EG11634-MONOMER" "MEVNKKQLADIFGASIRTIQNWQEQGMPVLRGGGKGNEVLYDSAAVIRWYAERDAEIENEKLRREVEELRQASETDLQPGTIEYERHRLTRAQADAQELKNARDSAEVVETAFCTFVLSRIAGEIASILDGIPLSVQRRFPELENRHVDFLKRDIIKAMNKAAALDELIPGLLSEYNRADRQYAGGSRS" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"EG11635-MONOMER" "MEVNKKQLADIFGASIRTIQNWQEQGMPVLRGGGKGNEVLYDSAAVIKWYAERDAEIENEKLRREVEELLQASETDLQPGTIEYERHRLTRAQADAQELKNARDSAEVVETAFCTFVLSRIAGEIASILDGIPLSVQRRFPELENRHVDFLKRDIIKAMNKAAALDELIPGLLSEYIEQSG" "c" "Han et al., 2011" -"EG11637-MONOMER" "MLDLFKAIGLGLVVLLPLANPLTTVALFLGLAGNMNSAERNRQSLMASVYVFAIMMVAYYAGQLVMDTFGISIPGLRIAGGLIVAFIGFRMLFPQQKAIDSPEAKSKSEELEDEPSANIAFVPLAMPSTAGPGTIAMIISSASTVRQSSTFADWVLMVAPPLIFFLVAVILWGSLRSSGAIMRLVGKGGIEAISRLMGFLLVCMGVQFIINGILEIIKTYH" "i" "Han et al., 2011" -"EG11639-MONOMER" "MSRKDGVLALLVVVVWGLNFVVIKVGLHNMPPLMLAGLRFMLVAFPAIFFVARPKVPLNLLLGYGLTISFAQFAFLFCAINFGMPAGLASLVLQAQAFFTIMLGAFTFGERLHGKQLAGIALAIFGVLVLIEDSLNGQHVAMLGFMLTLAAAFSWACGNIFNKKIMSHSTRPAVMSLVIWSALIPIIPFFVASLILDGSATMIHSLVTIDMTTILSLMYLAFVATIVGYGIWGTLLGRYETWRVAPLSLLVPVVGLASAALLLDERLTGLQFLGAVLIMTGLYINVFGLRWRKAVKVGS" "i" "Han et al., 2011" -"EG11643-MONOMER" "MIKKTTEIDAILLNLNKAIDAHYQWLVSMFHSVVARDASKPEITDNHSYGLCQFGRWIDHLGPLDNDELPYVRLMDSAHQHMHNCGRELMLAIVENHWQDAHFDAFQEGLLSFTAALTDYKIYLLTIRSNMDVLTGLPGRRVLDESFDHQLRNAEPLNLYLMLLDIDRFKLVNDTYGHLIGDVVLRTLATYLASWTRDYETVYRYGGEEFIIIVKAANDEEACRAGVRICQLVDNHAITHSEGHINITVTAGVSRAFPEEPLDVVIGRADRAMYEGKQTGRNRCMFIDEQNVINRV" "c" "Han et al., 2011" -"EG11644-MONOMER" "MKFQAIVLASFLVMPYALADDQGGLKQDAAPPPPHAIEDGYRGTDDAKKMTVDFAKTMHDGASVSLRGNLISHKGEDRYVFRDKSGEINVVIPAAVFDGREVQPDQMINISGSLDKKSAPAVVRVTHLQK" "p" "Han et al., 2011" -"EG11645-MONOMER" "VNINRDKIVQLVDTDTIENLTSALSQRLIADQLRLTTAESCTGGKLASALCAAEDTPKFYGAGFVTFTDQAKMKILSVSQQSLERYSAVSEKVAAEMATGAIERADADVSIAITGYGGPEGGEDGTPAGTVWFAWHIKGQNYTAVMHFAGDCETVLALAVRFALAQLLQLLL" "c" "Han et al., 2011" -"EG11646-MONOMER" "MREKDYVVIIGSANIDVAGYSHESLNYADSNPGKIKFTPGGVGRNIAQNLALLGNKAWLLSAVGSDFYGQSLLTQTNQSGVYVDKCLIVPGENTSSYLSLLDNTGEMLVAINDMNISNAITAEYLAQHGEFIQRAKVIVADCNISEEALAWILDNAANVPVFVDPVSAWKCVKVRDRLNQIHTLKPNRLEAETLSGIALSGREDVAKVAAWFHQHGLNRLVLSMGGDGVYYSDISGESGWSAPIKTNVINVTGAGDAMMAGLASCWVDGMPFAESVRFAQGCSSMALSCEYTNNPDLSIANVISLVENAECLN" "c" "Han et al., 2011" -"EG11649-MONOMER" "MKATSEELAIFVSVVESGSFSRAAEQLGQANSAVSRAVKKLEMKLGVSLLNRTTRQLSLTEEGERYFRRVQSILQEMAAAESEIMETRNTPRGLLRIDAATPVVLHFLMPLIKPFRERYPEVTLSLVSSETIINLIERKVDVAIRAGTLTDSSLRARPLFNSYRKIIASPDYISRYGKPETIDDLKQHICLGFTEPASLNTWPIARSDGQLHEVKYGLSSNSGETLKQLCLSGNGIACLSDYMIDKEIARGELVELMADKVLPVEMPFSAVYYSDRAVSTRIRAFIDFLSEHVKTAPGGAVREA" "c" "Han et al., 2011" -"EG11650-MONOMER" "VRKNTYAMRYVAGQPAERILPPGSFASIGQALPPGEPLSTEERIRILVWNIYKQQRAEWLSVLKNYGKDAHLVLLQEAQTTPELVQFATANYLAADQVPAFVLPQHPSGVMTLSAAHPVYCCPLREREPILRLAKSALVTVYPLPDTRLLMVVNIHAVNFSLGVDVYSKQLLPIGDQIAHHSGPVIMAGDFNAWSRRRMNALYRFAREMSLRQVRFTDDQRRRAFGRPLDFVFYRGLNVSEASVLVTRASDHNPLLVEFSPGKPDK" "c" "Han et al., 2011" -"EG11651-MONOMER" "MSGLPQGRPTFGAAQNVSAVVAYDLSAHMLDVVAQAAEARQLKNITTRQGYAESLPFADNAFDIVISRYSAHHWHDVGAALREVNRILKPGGRLIVMDVMSPGHPVRDIWLQTVEALRDTSHVRNYASGEWLTLINEANLIVDNLITDKLPLEFSSWVARMRTPEALVDAIRIYQQSASTEVRTYFALQNDGFFTSDIIMVDAHKAA" "c" "Han et al., 2011" -"EG11652-MONOMER" "MFVKLLRSVAIGLIVGAILLVAMPSLRSLNPLSTPQFDSTDETPASYNLAVRRAAPAVVNVYNRGLNTNSHNQLEIRTLGSGVIMDQRGYIITNKHVINDADQIIVALQDGRVFEALLVGSDSLTDLAVLKINATGGLPTIPINARRVPHIGDVVLAIGNPYNLGQTITQGIISATGRIGLNPTGRQNFLQTDASINHGNSGGALVNSLGELMGINTLSFDKSNDGETPEGIGFAIPFQLATKIMDKLIRDGRVIRGYIGIGGREIAPLHAQGGGIDQLQGIVVNEVSPDGPAANAGIQVNDLIISVDNKPAISALETMDQVAEIRPGSVIPVVVMRDDKQLTLQVTIQEYPATN" "i" "EcoCyc dump" -"EG11653-MONOMER" "MNDSEFHRLADQLWLTIEERLDDWDGDSDIDCEINGGVLTITFENGSKIIINRQEPLHQVWLATKQGGYHFDLKGDEWICDRSGETFWDLLEQAATQQAGETVSFR" "c" "Han et al., 2011" -"EG11656-MONOMER" "MSDNLPWKTWTPDDLAPPQAEFVPIVEPEETIIEEAEPSLEQQLAQLQMQAHEQGYQAGIAEGRQQGHKQGYQEGLAQGLEQGLAEAKSQQAPIHARMQQLVSEFQTTLDALDSVIASRLMQMALEAARQVIGQTPTVDNSALIKQIQQLLQQEPLFSGKPQLRVHPDDLQRVDDMLGATLSLHGWRLRGDPTLHPGGCKVSADEGDLDASVATRWQELCRLAAPGVV" "s" "EcoCyc dump" -"EG11659-MONOMER" "MKKLAIAGALLLLAGCAEVENYNNVVKTPAPDWLAGYWQTKGPQRALVSPEAIGSLIVTKEGDTLDCRQWQRVIAVPGKLTLMSDDLTNVTVKRELYEVERDGNTIEYDGMTMERVDRPTAECAAALDKAPLPTPLP" "i" "Unambiguous EcoCyc data" -"EG11660-MONOMER" "MSWQQFKHAWLIKFWAPIPAVIAAGILSTYYFGITGTFWAVTGEFTRWGGQLLQLFGVHAEEWGYFKIIHLEGSPLTRIDGMMILGMFGGCFAAALWANNVKLRMPRSRIRIMQAIIGGIIAGFGARLAMGCNLAAFFTGIPQFSLHAWFFAIATAIGSWFGARFTLLPIFRIPVKMQKVSAASPLTQKPDQARRRFRLGMLVFFGMLGWALLTAMNQPKLGLAMLFGVGFGLLIERAQICFTSAFRDMWITGRTHMAKAIIIGMAVSAIGIFSYVQLGVEPKIMWAGPNAVIGGLLFGFGIVLAGGCETGWMYRAVEGQVHYWWVGLGNVIGSTILAYYWDDFAPALATDWDKINLLKTFGPMGGLLVTYLLLFAALMLIIGWEKRFFRRAAPQTAKEIA" "i" "Unambiguous EcoCyc data" -"EG11661-MONOMER" "MKNIVPDYRLDMVGEPCPYPAVATLEAMPQLKKGEILEVVSDCPQSINNIPLDARNHGYTVLDIQQDGPTIRYLIQK" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"EG11662-MONOMER" "MCGRFAQSQTREDYLALLAEDIERDIPYDPEPIGRYNVAPGTKVLLLSERDEHLHLDPVFWGYAPGWWDKPPLINARVETAATSRMFKPLWQHGRAICFADGWFEWKKEGDKKQPFFIYRADGQPIFMAAIGSTPFERGDEAEGFLIVTAAADQGLVDIHDRRPLVLSPEAAREWMRQEISGKEASEIAASGCVPANQFSWHPVSRAVGNVKNQGAELIQPV" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"EG11663-MONOMER" "MKVAKDLVVSLAYQVRTEDGVLVDESPVSAPLDYLHGHGSLISGLETALEGHEVGDKFDVAVGANDAYGQYDENLVQRVPKDVFMGVDELQVGMRFLAETDQGPVPVEITAVEDDHVVVDGNHMLAGQNLKFNVEVVAIREATEEELAHGHVHGAHDHHHDHDHDGCCGGHGHDHGHEHGGEGCCGGKGNGGCGCH" "c" "Lopez-Campistrous et al., 2005" -"EG11664-MONOMER" "MQDLSLEARLAELESRLAFQEITIEELNVTVTAHEMEMAKLRDHLRLLTEKLKASQPSNIASQAEETPPPHY" "c" "Han et al., 2011" -"EG11665-MONOMER" "MSDMHSLLIAAILGVVEGLTEFLPVSSTGHMIIVGHLLGFEGDTAKTFEVVIQLGSILAVVVMFWRRLFGLIGIHFGRPLQHEGESKGRLTLIHILLGMIPAVVLGLLFHDTIKSLFNPINVMYALVVGGLLLIAAECLKPKEPRAPGLDDMTYRQAFMIGCFQCLALWPGFSRSGATISGGMLMGVSRYAASEFSFLLAVPMMMGATALDLYKSWGFLTSGDIPMFAVGFITAFVVALIAIKTFLQLIKRISFIPFAIYRFIVAAAVYVVFF" "i" "Han et al., 2011" -"EG11666-MONOMER" "MSQLTHINAAGEAHMVDVSAKAETVREARAEAFVTMRSETLAMIIDGRHHKGDVFATARIAGIQAAKRTWDLIPLCHPLMLSKVEVNLQAEPEHNRVRIETLCRLTGKTGVEMEALTAASVAALTIYDMCKAVQKDMVIGPVRLLAKSGGKSGDFKVEADD" "c" "Han et al., 2011" -"EG11671-MONOMER" "MIGRISRFMTRFVSRWLPDPLIFAMLLTLLTFVIALWLTPQTPISMVKMWGDGFWNLLAFGMQMALIIVTGHALASSAPVKSLLRTAASAAKTPVQGVMLVTFFGSVACVINWGFGLVVGAMFAREVARRVPGSDYPLLIACAYIGFLTWGGGFSGSMPLLAATPGNPVEHIAGLIPVGDTLFSGFNIFITVALIVVMPFITRMMMPKPSDVVSIDPKLLMEEADFQKQLPKDAPPSERLEESRILTLIIGALGIAYLAMYFSEHGFNITINTVNLMFMIAGLLLHKTPMAYMRAISAAARSTAGILVQFPFYAGIQLMMEHSGLGGLITEFFINVANKDTFPVMTFFSSALINFAVPSGGGHWVIQGPFVIPAAQALGADLGKSVMAIAYGEQWMNMAQPFWALPALAIAGLGVRDIMGYCITALLFSGVIFVIGLTLF" "i" "Han et al., 2011" -"EG11674-MONOMER" "MSAIAPGMILIAYLCGSISSAILVCRLCGLPDPRTSGSGNPGATNVLRIGGKGAAVAVLIFDVLKGMLPVWGAYELGVSPFWLGLIAIAACLGHIWPVFFGFKGGKGVATAFGAIAPIGWDLTGVMAGTWLLTVLLSGYSSLGAIVSALIAPFYVWWFKPQFTFPVSMLSCLILLRHHDNIQRLWRRQETKIWTKFKRKREKDPE" "i" "Han et al., 2011" -"EG11676-MONOMER" "VTTIVSVRRNGHVVIAGDGQATLGNTVMKGNVKKVRRLYNDKVIAGFAGGTADAFTLFELFERKLEMHQGHLVKAAVELAKDWRTDRMLRKLEALLAVADETASLIITGNGDVVQPENDLIAIGSGGPYAQAAARALLENTELSAREIAEKALDIAGDICIYTNHFHTIEELSYKA" "c" "Han et al., 2011" -"EG11678-MONOMER" "MKTIFRYILFLALYSCCNTVSAYTSFIVGNNAGVDNYRGPSTAAQMTFNYTSTASNLVFYKPTQLGPTGVKMYWSYLDTGTGGGILYCNTSGRANPGPITIENAMVYSGKDYGGHKLFNTSVPGLYYTMLISRVWSAYDTITDIQSPGIYIGDPSNQEFFFSVTDSDLQTKGCNKADDYDKFWAIGGIVHNITVEFYTDTNFDPTLNQQVQLSSSSNYLYSFKAYSPGTKVVDHSNHIYVNFTLNNVKLTLPTCFTSILTGPSVNGSTVRMGEYSSGTIKNGASPVPFDISLQNCIRVRNIETKLVTGKVGTQNTQLLGNTLTGSTAAKGVGVLIEGLATSKNPLMTLKPNDTNSVYIDYETEDDTSDGVYPNQGNGTSQPLHFQATLKQDGNIAIEPGEFKATSTFQVTYP" "j" "Han et al., 2011" -"EG11681-MONOMER" "MQLNITGNNVEITEALREFVTAKFAKLEQYFDRINQVYVVLKVEKVTHTSDATLHVNGGEIHASAEGQDMYAAIDGLIDKLARQLTKHKDKLKQH" "c" "Han et al., 2011" -"EG11682-MONOMER" "MTNNDTTLQLSSVLNRECTRSRVHCQSKKRALEIISELAAKQLSLPPQVVFEAILTREKMGSTGIGNGIAIPHGKLEEDTLRAVGVFVQLETPIAFDAIDNQPVDLLFALLVPADQTKTHLHTLSLVAKRLADKTICRRLRAAQSDEELYQIITDTEGTPDEA" "c" "Han et al., 2011" -"EG11683-MONOMER" "MLLHILYLVGITAEAMTGALAAGRRRMDTFGVIIIATATAIGGGSVRDILLGHYPLGWVKHPEYVIIVATAAVLTTIVAPVMPYLRKVFLVLDALGLVVFSIIGAQVALDMGHGPIIAVVAAVTTGVFGGVLRDMFCKRIPLVFQKELYAGVSFASAVLYIALQHYVSNHDVVIISTLVFGFFARLLALRLKLGLPVFYYSHEGH" "i" "Han et al., 2011" -"EG11684-MONOMER" "MKFIGKLLLYILIALLVAIAGLYFLLQTRWGAEHISAWVSENSDYHLAFGAMDHRFSAPSHIVLENVTFGRDGQPATLVAKSVDIALSSRQLTEPRHVDTILLENGTLNLTDQTAPLPFKADRLQLRDMAFNSPNSEWKLSAQRVNGGVVPWSPKAGKVLGTKAQIQFSAGSLSLNDVPATNVLIEGSIDNDRVTLTNLGADIARGTLTGNAQRNADGSWQVENLRMADIRLQSEKSLTDFFAPLRSVPSLQIGRLEVIDARLQGPDWAVTDLDLSLRNMTFSKDDWQTQEGKLSMNASEFIYGSLHLFDPIINTEFSPQGVALRQFTSRWEGGMVRTSGNWLRDGKTLILDDAAIAGLEYTLPKNWQQLWMETTPGWLNSLQLKRFSASRNLIIDIDPDFPWQLTALDGYGANLTLVTDHKWGVWSGSANLNAAAATFNRVDVRRPSLALTANSSTVNISELSAFTEKGILEATASVSQTPQRQTHISLNGRGVPVNILQQWGWPELPLTGDGNIQLTASGDIQANVPLKPTVSGQLHAVNAAKQQVTQTMNAGIVSSGEVTSTEPVR" "p" "Han et al., 2011" -"EG11685-MONOMER" "MKISDGNWLIQPGLNLIHPLQVFEVEQQDNEMVVYAAPRDVRERTWQLDTPLFTLRFFSPQEGIVGVRIEHFQGALNNGPHYPLNILQDVKVTIENTERYAEFKSGNLSARVSKGEFWSLDFLRNGERITGSQVKNNGYVQDTNNQRNYMFERLDLGVGETVYGLGERFTALVRNGQTVETWNRDGGTSTEQAYKNIPFYMTNRGYGVLVNHPQCVSFEVGSEKVSKVQFSVESEYLEYFVIDGPTPKAVLDRYTRFTGRPALPPAWSFGLWLTTSFTTNYDEATVNSFIDGMAERNLPLHVFHFDCFWMKAFQWCDFEWDPLTFPDPEGMIRRLKAKGLKICVWINPYIGQKSPVFKELQEKGYLLKRPDGSLWQWDKWQPGLAIYDFTNPDACKWYADKLKGLVAMGVDCFKTDFGERIPTDVQWFDGSDPQKMHNHYAYIYNELVWNVLKDTVGEEEAVLFARSASVGAQKFPVHWGGDCYANYESMAESLRGGLSIGLSGFGFWSHDIGGFENTAPAHVYKRWCAFGLLSSHSRLHGSKSYRVPWAYDDESCDVVRFFTQLKCRMMPYLYREAARANARGTPMMRAMMMEFPDDPACDYLDRQYMLGDNVMVAPVFTEAGDVQFYLPEGRWTHLWHNDELDGSRWHKQQHGFLSLPVYVRDNTLLALGNNDQRPDYVWHEGTAFHLFNLQDGHEAVCEVPAADGSVIFTLKAARTGNTITVTGAGEAKNWTLCLRNVVKVNGLQDGSQAESEQGLVVKPQGNALTITL" "c" "EcoCyc dump" -"EG11688-MONOMER" "MGSTRKGMLNVLIAAVLWGSSGVCAQYIMEQSQMSSQFLTMTRLIFAGLILLTLSFVHGDKIFSIINNHKDAISLLIFSVVGALTVQLTFLLTIEKSNAATATVLQFLSPTIIVAWFSLVRKSRPGILVFCAILTSLVGTFLLVTHGNPTSLSISPAALFWGIASAFAAAFYTTYPSTLIARYGTLPVVGWSMLIGGLILLPFYARQGTNFVVNGSLILAFFYLVVIGTSLTFSLYLKGAQLIGGPKASILSCAEPLSSALLSLLLLGITFTLPDWLGTLLILSSVILISMDSRRRARKINRPARHK" "i" "Han et al., 2011" -"EG11690-MONOMER" "MIWIMLATLAVVFVVGFRVLTSGARKAIRRLSDRLNIDVVPVESMVDQMGKSAGDEFLRYLHRPDESHLQNAAQVLLIWQIVIVDGSEQNLLQWHRILQKARLAAPITDAQVRLALGFLRETEPEMQDINAFQMRYNAFFQPAEGVHWLH" "c" "Han et al., 2011" -"EG11691-MONOMER" "MNNDNTDYVSNESGTLSRLFKLPQHGTTVRTELIAGMTTFLTMVYIVFVNPQILGAAQMDPKVVFVTTCLIAGIGSIAMGIFANLPVALAPAMGLNAFFAFVVVGAMGISWQTGMGAIFWGAVGLFLLTLFRIRYWMISNIPLSLRIGITSGIGLFIALMGLKNTGVIVANKDTLVMIGDLSSHGVLLGILGFFIITVLSSRHFHAAVLVSIVVTSCCGLFFGDVHFSGVYSIPPDISGVIGEVDLSGALTLELAGIIFSFMLINLFDSSGTLIGVTDKAGLIDGNGKFPNMNKALYVDSVSSVAGAFIGTSSVTAYIESTSGVAVGGRTGLTAVVVGVMFLLVMFFSPLVAIVPPYATAGALIFVGVLMTSSLARVNWDDFTESVPAFITTVMMPFTFSITEGIALGFMSYCIMKVCTGRWRDLNLCVVVVAALFALKIILVD" "i" "Han et al., 2011" -"EG11692-MONOMER" "MNNSINHKFHHISRAEYQELLAVSRGDAVADYIIDNVSILDLINGGEISGPIVIKGRYIAGVGAEYTDAPALQRIDARGATAVPGFIDAHLHIESSMMTPVTFETATLPRGLTTVICDPHEIVNVMGEAGFAWFARCAEQARQNQYLQVSSCVPALEGCDVNGASFTLEQMLAWRDHPQVTGLAEMMDYPGVISGQNALLDKLDAFRHLTLDGHCPGLGGKELNAYITAGIENCHESYQLEEGRRKLQLGMSLMIREGSAARNLNALAPLINEFNSPQCMLCTDDRNPWEIAHEGHIDALIRRLIEQHNVPLHVAYRVASWSTARHFGLNHLGLLAPGKQADIVLLSDARKVTVQQVLVKGEPIDAQTLQAEESARLAQSAPPYGNTIARQPVSASDFALQFTPGKRYRVIDVIHNELITHSHSSVYSENGFDRDDVSFIAVLERYGQRLAPACGLLGGFGLNEGALAATVSHDSHNIVVIGRSAEEMALAVNQVIQDGGGLCVVRNGQVQSHLPLPIAGLMSTDTAQSLAEQIDALKAAARECGPLPDEPFIQMAFLSLPVIPALKLTSQGLFDGEKFAFTTLEVTE" "c" "Han et al., 2011" -"EG11694-MONOMER" "MTGSQVIDAEEDRHKLVVEYKDALQPADFYHNFKQRGIRSVQLIPYLEFDDRGDLTAASVTAELWGKFLIALFECWVRADISRISIELFDATLQKWCGSENPQPRCDCQACDWHRLCPHARQETPDSVLCAGYQAFYSYSAPHMRVMRDLIKQHRSPMELMTMLR" "c" "Han et al., 2011" -"EG11695-MONOMER" "MPDSRKARRIADPGLQPERTSLAWFRTMLGYGALMALAIKHNWHQAGMLFWISIGILAIVALILWHYTRNRNLMDVTNSDFSQFHVVRDKFLISLAVLSLAILFAVTHIHQLIVFIERVA" "i" "Han et al., 2011" -"EG11696-MONOMER" "MKISRLGEAPDYRFSLANERTFLAWIRTALGFLAAGVGLDQLAPDFATPVIRELLALLLCLFSGGLAMYGYLRWLRNEKAMRLKEDLPYTNSLLIISLILMVVAVIVMGLVLYAG" "i" "Han et al., 2011" -"EG11697-MONOMER" "MGIIAQNKISSLGMLFGAIALMMGIIHFSFGPFSAPPPTFESIVADKTAEIKRGLLAGIKGEKITTVEKKEDVDVDKILNQSGIALAIAALLCAFIGGMRKENRWGIRGALVFGGGTLAFHTLLFGIGIVCSILLIFLIFSFLTGGSLV" "i" "Han et al., 2011" -"EG11702-MONOMER" "MDRIIEKLDHGWWVVSHEQKLWLPKGELPYGEAANFDLVGQRALQIGEWQGEPVWLVQQQRRHDMGSVRQVIDLDVGLFQLAGRGVQLAEFYRSHKYCGYCGHEMYPSKTEWAMLCSHCRERYYPQIAPCIIVAIRRDDSILLAQHTRHRNGVHTVLAGFVEVGETLEQAVAREVMEESGIKVKNLRYVTSQPWPFPQSLMTAFMAEYDSGDIVIDPKELLEANWYRYDDLPLLPPPGTVARRLIEDTVAMCRAEYE" "c" "Han et al., 2011" -"EG11703-MONOMER" "MNKNRGFTPLAVVLMLSGSLALTGCDDKQAQQGGQQMPAVGVVTVKTEPLQITTELPGRTSAYRIAEVRPQVSGIILKRNFKEGSDIEAGVSLYQIDPATYQATYDSAKGDLAKAQAAANIAQLTVNRYQKLLGTQYISKQEYDQALADAQQANAAVTAAKAAVETARINLAYTKVTSPISGRIGKSNVTEGALVQNGQATALATVQQLDPIYVDVTQSSNDFLRLKQELANGTLKQENGKAKVSLITSDGIKFPQDGTLEFSDVTVDQTTGSITLRAIFPNPDHTLLPGMFVRARLEEGLNPNAILVPQQGVTRTPRGDATVLVVGADDKVETRPIVASQAIGDKWLVTEGLKAGDRVVISGLQKVRPGVQVKAQEVTADNNQQAASGAQPEQSKS" "i" "Han et al., 2011" -"EG11705-MONOMER" "MKRPNFLFVMTDTQATNMVGCYSGKPLNTQNIDSLAAEGIRFNSAYTCSPVCTPARAGLFTGIYANQSGPWTNNVAPGKNISTMGRYFKDAGYHTCYIGKWHLDGHDYFGTGECPPEWDADYWFDGANYLSELTEKEISLWRNGLNSVEDLQANHIDETFTWAHRISNRAVDFLQQPARADEPFLMVVSYDEPHHPFTCPVEYLEKYADFYYELGEKAQDDLANKPEHHRLWAQAMPSPVGDDGLYHHPLYFACNDFVDDQIGRVINALTPEQRENTWVIYTSDHGEMMGAHKLISKGAAMYDDITRIPLIIRSPQGERRQVDTPVSHIDLLPTMMALADIEKPEILPGENILAVKEPRGVMVEFNRYEIEHDSFGGFIPVRCWVTDDFKLVLNLFTSDELYDRRNDPNEMHNLIDDIRFADVRSKMHDALLDYMDKIRDPFRSYQWSLRPWRKDARPRWMGAFRPRPQDGYSPVVRDYDTGLPTQGVKVEEKKQKF" "c" "Han et al., 2011" -"EG11707-MONOMER" "VSIIRRRDIKMNGKLQSSDVKNETPYNIPLLINENVISSGISLISLWHTYADEHYRVIWPRDKKKPLIANSWVAVYTVQGCGKILLKNGEQITLHGNCIIFLKPMDIHSYHCEGLVWEQYWMEFTPTSMMDIPVGQQSVIYNGEIYNQELTEVAELITSPEAIKNNLAVAFLTKIIYQWICLMYADGKKDPQRRQIEKLIATLHASLQQRWSVADMAATIPCSEAWLRRLFLRYTGKTPKEYYLDARLDLALSLLKQQGNSVGEVADTLNFFDSFHFSKAFKHKFGYAPSAVLKNTDQHPTDASPHN" "c" "Han et al., 2011" -"EG11708-MONOMER" "MTKFSVVVAGGGSTFTPGIVLMLLANQDRFPLRALKFYDNDGARQEVIAEACKVILKEKAPDIAFSYTTDPEVAFSDVDFVMAHIRVGKYPMRELDEKIPLRHGVVGQETCGPGGIAYGMRSIGGVLELVDYMEKYSPNAWMLNYSNPAAIVAEATRRLRPNAKILNICDMPIGIESRMAQIVGLQDRKQMRVRYYGLNHWWSAISRSFRKG" "c" "Han et al., 2011" -"EG11711-MONOMER" "MIYKSIAERLRIRLNSADFTLNSLLPGEKKLAEEFAVSRMTIRKAIDLLVAWGLVVRRHGSGTYLVRKDVLHQTASLTGLVEVLKRQGKTVTSQVLIFEIMPAPPAIASQLRIQINEQIYFSRRVRFVEGKPLMLEDSYMPVKLFRNLSLQHLEGSKFEYIEQECGILIGGNYESLTPVLADRLLARQMKVAEHTPLLRITSLSYSESGEFLNYSVMFRNASEYQVEYHLRRLHPEKS" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"EG11712-MONOMER" "MIRNVLLAFMICSGMTLLGGCSSVMSHTGGKEGTYPGTRASATMIGDDETNWGTKSLAILDMPFTAVMDTLLLPWDVFRKDSSVRSRVEKSEANAQATNAVIPPARMPDN" "i" "Han et al., 2011" -"EG11713-MONOMER" "MAGPVLYQDRAMKQITFAPRNHLLTNTNTWTPDSQWLVFDVRPSGASFTGETIERVNIHTGEVEVIYRASQGAHVGVVTVHPKSEKYVFIHGPENPDETWHYDFHHRRGVIVEGGKMSNLDAMDITAPYTPGVLRGGSHVHVFSPNGERVSFTYNDHVMHELDPALDLRNVGVAAPFGPVNVQKQHPREYSGSHWCVLVSKTTPTPQPGSDEINRAYEEGWVGNHALAFIGDTLSPKGEKVPELFIVELPQDEAGWKAAGDAPLSGTETTLPAPPRGVVQRRLTFTHHRAYPGLVNVPRHWVRCNPQGTQIAFLMRDDNGIVQLWLISPQGGEPRQLTHNKTDIQSAFNWHPSGEWLGFVLDNRIACAHAQSGEVEYLTEHHANSPSADAVVFSPDGQWLAWMEGGQLWITETDR" "c" "Han et al., 2011" -"EG11714-MONOMER" "MEHFDVAIIGLGPAGSALARKLAGKMQVIALDKKHQCGTEGFSKPCGGLLAPDAQRSFIRDGLTLPVDVIANPQIFSVKTVDVAASLTRNYQRSYININRHAFDLWMKSLIPASVEVYHDSLCRKIWREDDKWHVIFRADGWEQHITARYLVGADGANSMVRRHLYPDHQIRKYVAIQQWFAEKHPVPFYSCIFDNSITNCYSWSISKDGYFIFGGAYPMKDGQTRFTTLKEKMSAFQFQFGKTVKSEKCTVLFPSRWQDFVCGKDNAFLIGEAAGFISASSLEGISYALDSTDILRSVLLKQPEKLNTAYWRATRKLRLKLFGKIVKSRCLTAPALRKWIMRSGVAHIPQLKD" "c" "Han et al., 2011" -"EG11719-MONOMER" "MKLNFKGFFKAAGLFPLALMLSGCISYALVSHTAKGSSGKYQSQSDTITGLSQAKDSNGTKGYVFVGESLDYLITDGADDIVKMLNDPALNRHNIQVADDARFVLNAGKKKFTGTISLYYYWNNEEEKALATHYGFACGVQHCTRSLENLKGTIHEKNKNMDYSKVMAFYHPFKVRFYEYYSPRGIPDGVSAALLPVTVTLDIITAPLQFLVVYAVNQ" "i" "Han et al., 2011" -"EG11721-MONOMER" "MKKSITTLDLNLLLCLQLLMQERSVTKAAKRINVTPSAVSKSLAKLRAWFDDPLFVNSPLGLSPTPLMVSMEQNLAEWMQMSNLLLDKPHHQTPRGLKFELAAESPLMMIMLNALSKQIYQRYPQATIKLRNWDYDSLDAITRGEVDIGFSGRESHPRSRELLSSLPLAIDYEVLFSDVPCVWLRKDHPALHQTWNLDTFLRYPHISICWEQSDTWALDNVLQELGRERTIAMSLPEFEQSLFMAAQPDNLLLATAPRYCQYYNQLHQLPLVALPLPFDESQQKKLEVPFTLLWHKRNSHNPKIVWLRETIKNLYASMA" "c" "Han et al., 2011" -"EG11722-MONOMER" "MERKMATHFARGILTEGHLISVRLPSQCHQEARNIPPHRQSRFLASRGLLAELMFMLYGIGELPEIVTLPKGKPVFSDKNLPSFSISYAGNMVGVALTTEGECGLDMELQRATRGFHSPHAPDNHTFSSNESLWISKQNDPNEARAQLITLRRSVLKLTGDVLNDDPRDLQLLPIAGRLKCAHVNHVEALCDAEDVLVWSVAVTPTIEKLSVWELDGKHGWKSLPDIHSRANNPTSRMMRFAQLSTVKAFSPN" "c" "Han et al., 2011" -"EG11723-MONOMER" "MSEKLQVVTLLGSLRKGSFNGMVARTLPKIAPASMEVNALPSIADIPLYDADVQQEEGFPATVEALAEQIRQADGVVIVTPEYNYSVPGGLKNAIDWLSRLPDQPLAGKPVLIQTSSMGVIGGARCQYHLRQILVFLDAMVMNKPEFMGGVIQNKVDPQTGEVIDQGTLDHLTGQLTAFGEFIQRVKI" "c" "Han et al., 2011" -"EG11724-MONOMER" "MSHQHTTQTSGQGMLERVFKLREHGTTARTEVIAGFTTFLTMVYIVFVNPQILGVAGMDTSAVFVTTCLIAAFGSIMMGLFANLPVALAPAMGLNAFFAFVVVQAMGLPWQVGMGAIFWGAIGLLLLTIFRVRYWMIANIPVSLRVGITSGIGLFIGMMGLKNAGVIVANPETLVSIGNLTSHSVLLGILGFFIIAILASRNIHAAVLVSIVVTTLLGWMLGDVHYNGIVSAPPSVMTVVGHVDLAGSFNLGLAGVIFSFMLVNLFDSSGTLIGVTDKAGLADEKGKFPRMKQALYVDSISSVTGSFIGTSSVTAYIESSSGVSVGGRTGLTAVVVGLLFLLVIFLSPLAGMVPGYAAAGALIYVGVLMTSSLARVNWQDLTESVPAFITAVMMPFSFSITEGIALGFISYCVMKIGTGRLRDLSPCVIIVALLFILKIVFIDAH" "i" "Han et al., 2011" -"EG11725-MONOMER" "MSRIEAVFFDCDGTLVDSEVICSRAYVTMFQEFGITLDPEEVFKRFKGVKLYEIIDIVSLEHGVTLAKTEAEHVYRAEVARLFDSELEAIEGAGALLSAITAPMCVVSNGPNNKMQHSMGKLNMLHYFPDKLFSGYDIQRWKPDPALMFHAAKAMNVNVENCILVDDSVAGAQSGIDAGMEVFYFCADPHNKPIVHPKVTTFTHLSQLPELWKARGWDITA" "c" "Han et al., 2011" -"EG11726-MONOMER" "MSVSRRVIHHGLYFAVLGPLIGVLFLVLYIFFAKEPLVLWVIIHPIFLLLSITTGAIPALLTGVMVACLPEKIGSQKRYRCLAGGIGGVVITEIYCAVIVHIKGMASSELFENILSGDSLVVRIIPALLAGVVMSRIITRLPGLDISCPETDSLS" "i" "Han et al., 2011" -"EG11727-MONOMER" "MTQNIRPLPQFKYHPKPLETGAFEQDKTVECDCCEQQTSVYYSGPFYCVDEVEHLCPWCIADGSAAEKFAGSFQDDASIEGVEFEYDEEDEFAGIKNTYPDEMLKELVERTPGYHGWQQEFWLAHCGDFCVFIGYVGWNDIKDRLDEFANLEEDCENFGIRNSDLAKCLQKGGHCQGYLFRCLHCGKLRLWGDFS" "c" "Han et al., 2011" -"EG11728-MONOMER" "MKLIITEDYQEMSRVAAHHLLGYMSKTRRVNLAITAGSTPKGMYEYLTTLVKGKPWYDNCYFYNFDEIPFRGKEGEGVTITNLRNLFFTPAGIKEENIQKLTIDNYREHDQKLAREGGLDLVVLGLGADGHFCGNLPNTTHFHEQTVEFPIQGEMVDIVAHGELGGDFSLVPDSYVTMGPKSIMAAKNLLIIVSGAGKAQALKNVLQGPVTEDVPASVLQLHPSLMVIADKAAAAELALG" "c" "Han et al., 2011" -"EG11729-MONOMER" "MELNERNITMNIKIAALTLAIASGISAQWAIAADMPASPAPTIPVKQYVTQVNADNSVTFRYFAPGAKNVSVVVGVPVPDNIHPMTKDEAGVWSWRTPILKGNLYEYFFNVDGVRSIDTGTAMTNPQRQVNSSMILVPGSYLDTRSVAHGDLIAITYHSNALQSERQMYVWTPPGYTGMGEPLPVLYFYHGFGDTGRSAIDQGRIPQIMDNLLAEGKIKPMLVVIPDTETDAKGIIPEDFVPQERRKVFYPLNAKAADRELMNDIIPLISKRFNVRKDADGRALAGLSQGGYQALVSGMNHLESFGWLATFSGVTTTTVPDEGVAARLNDPAAINQQLRNFTVVVGDKDVVTGKDIAGLKTELEQKKINFDYQEYPGLNHEMDVWRPAYAAFVQKLFK" "p" "Han et al., 2011" -"EG11730-MONOMER" "MLTLDTLNVMLAVSEEGLIEEMIIALLASPQLAVFFEKFPRLKAAITDDVPRWREALRSRLKDARVPPELTEEVMCYQQSQLLSTPQFIVQLPQILDLLHRLNSPWAEQARQLVDANSTITSALHTLFLQRWRLSLIVQATTLNQQLLEEEREQLLSEVQERMTLSGQLEPILADNNTAAGRLWDMSAGQLKRGDYQLIVKYGEFLNEQPELKRLAEQLGRSREAKSIPRNDAQMETFRTMVREPATVPEQVDGLQQSDDILRLLPPELATLGITELEYEFYRRLVEKQLLTYRLHGESWREKVIERPVVHKDYDEQPRGPFIVCVDTSGSMGGFNEQCAKAFCLALMRIALAENRRCYIMLFSTEIVRYELSGPQGIEQAIRFLSQQFRGGTDLASCFRAIMERLQSREWFDADAVVISDFIAQRLPDDVTSKVKELQRVHQHRFHAVAMSAHGKPGIMRIFDHIWRFDTGMRSRLLRRWRR" "c" "Han et al., 2011" -"EG11731-MONOMER" "MAHPHLLAERISRLSSSLEKGLYERSHAIRLCLLAALSGESVFLLGPPGIAKSLIARRLKFAFQNARAFEYLMTRFSTPEEVFGPLSIQALKDEGRYERLTSGYLPEAEIVFLDEIWKAGPAILNTLLTAINERQFRNGAHVEKIPMRLLVAASNELPEADSSLEALYDRMLIRLWLDKVQDKANFRSMLTSQQDENDNPVPDALQVTDEEYERWQKEIGEITLPDHVFELIFMLRQQLDKLPDAPYVSDRRWKKAIRLLQASAFFSGRSAVAPVDLILLKDCLWYDAQSLNLIQQQIDVLMTGHAWQQQGMLTRLGAIVQRHLQLQQQQSDKTALTVIRLGGIFSRRQQYQLPVNVTASTLTLLLQKPLKLHDMEVVHISFERSALEQWLSKGGEIRGKLNGIGFAQKLNLEVDSAQHLVVRDVSLQGSTLALPGSSAEGLPGEIKQQLEELESDWRKQHALFSEQQKCLFIPGDWLGRIEASLQDVGAQIRQAQQC" "c" "Han et al., 2011" -"EG11733-MONOMER" "MPLSAQQLAAQKNLSYVLAEKLAQRILKGEYEPGTILPGEIELGEQFGVSRTAVREAVKTLTAKGMVLPRPRIGTRVMPQSNWNFLDQELLTWWMTEENFHQVIDHFLVMRICLEPQACLLAATVGTAEQKAHLNTLMAEMAALKENFRRERWIEVDMAWHEHIYEMSANPFLTSFASLFHSVYHTYFTSITSDTVIKLDLHQAIVDAIIQSDGDAAFKACQALLRSPDK" "c" "Han et al., 2011" -"EG11734-MONOMER" "MVTSCTGHVLDNQRATTRGVFSSGSHLVTLHFQPHPFFSCVTDAVNGARSRFSAFYPKANYGLQGSQPSDVRAHNRAANGACDEYKQLKVLSMGRQKAVIKARREAKRVLRRDSRSHKQREEESVTSLVQMGGVEAIGMARDSRDTSPILARNEAQLHYLKAIESKQLIFATGEAGCGKTWISAAKAAEALIHKDVDRIIVTRPVLQADEDLGFLPGDIAEKFAPYFRPVYDVLVRRLGASFMQYCLRPEIGKVEIAPFAYMRGRTFENAVVILDEAQNVTAAQMKMFLTRLGENVTVIVNGDITQCDLPRGVCSGLSDALERFEEDEMVGIVRFGKEDCVRSALCQRTLHAYS" "c" "Han et al., 2011" -"EG11735-MONOMER" "MQYKDENGVNEPSRRRLLKVIGALALAGSCPVAHAQKTQSAPGTLSPDARNEKQPFYGEHQAGILTPQQAAMMLVAFDVLASDKADLERLFRLLTQRFAFLTQGGAAPETPNPRLPPLDSGILGGYIAPDNLTITLSVGHSLFDERFGLAPQMPKKLQKMTRFPNDSLDAALCHGDVLLQICANTQDTVIHALRDIIKHTPDLLSVRWKREGFISDHAARSKGKETPINLLGFKDGTANPDSQNDKLMQKVVWVTADQQEPAWTIGGSYQAVRLIQFRVEFWDRTPLKEQQTIFGRDKQTGAPLGMQHEHDVPDYASDPEGKVIALDSHIRLANPRTAESESSLMLRRGYSYSLGVTNSGQLDMGLLFVCYQHDLEKGFLTVQKRLNGEALEEYVKPIGGGYFFALPGVKDANDYFGSALLRV" "c" "EcoCyc dump" -"EG11736-MONOMER" "VAKSVPAIFLDRDGTINVDHGYVHEIDNFEFIDGVIDAMRELKKMGFALVVVTNQSGIARGKFTEAQFETLTEWMDWSLADRDVDLDGIYYCPHHPQGSVEEFRQVCDCRKPHPGMLLSARDYLHIDMAASYMVGDKLEDMQAAVAANVGTKVLVRTGKPITPEAENAADWVLNSLADLPQAIKKQQKPAQ" "c" "Han et al., 2011" -"EG11738-MONOMER" "MLNQLDNLTERVRGSNKLVDRWLHVRKHLLVAYYNLVGIKPGKESYMRLNEKALDDFCQSLVDYLSAGHFSIYERILHKLEGNGQLARAAKIWPQLEANTQQIMDYYDSSLETAIDHDNYLEFQQVLSDIGEALEARFVLEDKLILLVLDAARVKHPA" "c" "Han et al., 2011" -"EG11739-MONOMER" "VDWLLDVFATWLYGLKVIAITLAVIMFISGLDDFFIDVVYWVRRIKRKLSVYRRYPRMSYRELYKPDEKPLAIMVPAWNETGVIGNMAELAATTLDYENYHIFVGTYPNDPDTQRDVDEVCARFPNVHKVVCARPGPTSKADCLNNVLDAITQFERSANFAFAGFILHDAEDVISPMELRLFNYLVERKDLIQIPVYPFEREWTHFTSMTYIDEFSELHGKDVPVREALAGQVPSAGVGTCFSRRAVTALLADGDGIAFDVQSLTEDYDIGFRLKEKGMTEIFVRFPVVDEAKEREQRKFLQHARTSNMICVREYFPDTFSTAVRQKSRWIIGIVFQGFKTHKWTSSLTLNYFLWRDRKGAISNFVSFLAMLVMIQLLLLLAYESLWPDAWHFLSIFSGSAWLMTLLWLNFGLMVNRIVQRVIFVTGYYGLTQGLLSVLRLFWGNLINFMANWRALKQVLQHGDPRRVAWDKTTHDFPSVTGDTRSLRPLGQILLENQVITEEQLDTALRNRVEGLRLGGSMLMQGLISAEQLAQALAEQNGVAWESIDAWQIPSSLIAEMPASVALHYAVLPLRLENDELIVGSEDGIDPVSLAALTRKVGRKVRYVIVLRGQIVTGLRHWYARRRGHDPRAMLYNAVQHQWLTEQQAGEIWRQYVPHQFLFAEILTTLGHINRSAINVLLLRHERSSLPLGKFLVTEGVISQETLDRVLTIQRELQVSMQSLLLKAGLNTEQVAQLESENEGE" "i" "Unambiguous EcoCyc data" -"EG11740-MONOMER" "MKENNLNRVIGWSGLLLTSLLSTSALADNIGTSAEELGLSDYRHFVIYPRLDKALKAQKNNDEATAIREFEYIHQQVPDNIPLTLYLAEAYRHFGHDDRARLLLEDQLKRHPGDARLERSLAAIPVEVKSVTTVEELLAQQKACDAAPTLRCRSEVGQNALRLAQLPVARAQLNDATFAASPEGKTLRTDLLQRAIYLKQWSQADTLYNEARQQNTLSAAERRQWFDVLLAGQLDDRILALQSQGIFTDPQSYITYATALAYRGEKARLQHYLIENKPLFTTDAQEKSWLYLLSKYSANPVQALANYTVQFADNRQYVVGATLPVLLKEGQYDAAQKLLATLPANEMLEERYAVSVATRNKAEALRLARLLYQQEPANLTRLDQLTWQLMQNEQSREAADLLLQRYPFQGDARVSQTLMARLASLLESHPYLATPAKVAILSKPLPLAEQRQWQSQLPGIADNCPAIVRLLGDMSPSYDAAAWNRLAKCYRDTLPGVALYAWLQAEQRQPSAWQHRAVAYQAYQVEDYATALAAWQKISLHDMSNEDLLAAANTAQAAGNGAARDRWLQQAEKRGLGSNALYWWLHAQRYIPGQPELALNDLTRSINIAPSANAYVARATIYRQRHNVPAAVSDLRAALELEPNNSNTQAALGYALWDSGDIAQSREMLEPAHKGLPDDPALIRQLAYVNQRLDDMPATQHYARLVIDDIDNQALITPLTPEQNQQRFNFRRLHEEVGRRWTFSFDSSIGLRSGAMSTANNNVGGAAPGKSYRSYGQLEAEYRIGRNMLLEGDLLSVYSRVFADTGENGVMMPVKNPMSGTGLRWKPLRDQIFFIAVEQQLPLNGQNGASDTMLRASASFFNGGKYSDEWHPNGSGWFAQNLYLDAAQYIRQDIQAWTADYRVSWHQKVANGQTIEPYAHVQDNGYRDKGTQGAQLGGVGVRWNIWTGETHYDAWPHKVSLGVEYQHTFKAINQRNGERNNAFLTIGVHW" "o" "Han et al., 2011" -"EG11741-MONOMER" "MAKRTKAEALKTRQELIETAIAQFAQHGVSKTTLNDIADAANVTRGAIYWHFENKTQLFNEMWLQQPSLRELIQEHLTAGLEHDPFQQLREKLIVGLQYIAKIPRQQALLKILYHKCEFNDEMLAEGVIREKMGFNPQTLREVLQACQQQGCVANNLDLDVVMIIIDGAFSGIVQNWLMNMAGYDLYKQAPALVDNVLRMFMPDENITKLIHQTNELSVM" "c" "Han et al., 2011" -"EG11743-MONOMER" "MKRVLIPGVILCGADVAQAVDDKNMYMHFFEEMTVYAPVPVPVNGNTHYTSESIERLPTGNGNISDLLRTNPAVRMDSTQSTSLNQGDIRPEKISIHGASPYQNAYLIDGISATNNLNPANESDASSATNISGMSQGYYLDVSLLDNVTLYDSFVPVEFGRFNGGVIDAKIKRFNADDSKVKLGYRTTRSDWLTSHIDENNKSAFNQGSSGSTYYSPDFKKNFYTLSFNQELADNFGVTAGLSRRQSDITRADYVSNDGIVAGRAQYKNVIDTALSKFTWFASDRFTHDLTLKYTGSSRDYNTSTFPQSDREMGNKSYGLAWDMDTQLAWAKLRTTVGWDHISDYTRHDHDIWYTELSCTYGDITGRCTRGGLGHISQAVDNYTFKTRLDWQKFAVGNVSHQPYFGAEYIYSDAWTERHNQSESYVINAAGKKTNHTIYHKGKGRLGIDNYTLYMADRISWRNVSLMPGVRYDYDNYLSNHNISPRFMTEWDIFANQTSMITAGYNRYYGGNILDMGLRDIRNSWTESVSGNKTLTRYQDLKTPYNDELAMGLQQKIGKNVIARANYVYREAHDQISKSSRTDSATKTTITEYNNDGKTKTHSFSLSFELAEPLHIRQVDINPQIVFSYIKSKGNLSLNNGYEESNTGDNQVVYNGNLVSYDSVPVADFNNPLKISLNMDFTHQPSGLVWANTLAWQEARKARIILGKTNAQYISEYSDYKQYVDEKLDSSLTWDTRLSWTPQFLQQQNLTISADILNVLDSKTAVDTTNTGVATYASGRTFWLDVSMKF" "o" "Han et al., 2011" -"EG11744-MONOMER" "MEIIMRNLCFLLTLVATLLLPGRLIAAALPQDEKLITGQLDNGLRYMIYPHAHPKDQVNLWLQIHTGSLQEEDNELGVAHFVEHMMFNGTKTWPGNKVIETFESMGLRFGRDVNAYTSYDETVYQVSLPTTQKQNLQQVMAIFSEWSNAATFEKLEVDAERGVITEEWRAHQDAKWRTSQARRPFLLANTRNLDREPIGLMDTVATVTPAQLRQFYQRWYQPNNMTFIVVGDIDSKEALALIKDNLSKLPANKAAENRVWPTKAENHLRFNIINDKENRVNGIALYYRLPMVQVNDEQSFIEQAEWSMLVQLFNQRLQERIQSGELKTISGGTARSVKIAPDYQSLFFRVNARDDNMQDAANALMAELATIDQHGFSAEELDDVKSTRLTWLKNAVDQQAERDLRMLTSRLASSSLNNTPFLSPEETYQLSKRLWQQITVQSLAEKWQQLRKNQDAFWEQMVNNEVAAKKALSPAAILALEKEYANKKLAAYVFPGRNLSLTVDADPQAEISSKETLAENLTSLTLSNGARVILAKSAGEEQKLQIIAVSNKGDLSFPAQQKSLIALANKAVSGSGVGELSSSSLKRWSAENSVTMSSKVSGMNTLLSVSARTNNPEPGFQLINQRITHSTINDNIWASLQNAQIQALKTLDQRPAEKFAQQMYETRYADDRTKLLQENQIAQFTAADALAADRQLFSSPADITFVIVGNVAEDKLVALITRYLGSIKHSDSPLAAGKPLTRATDNASVTVKEQNEPVAQVSQWKRYDSRTPVNLPTRMALDAFNVALAKDLRVNIREQASGAYSVSSRLSVDPQAKDISHLLAFTCQPERHDELLTLANEVMVKRLAKGISEQELNEYQQNVQRSLDIQQRSVQQLANTIVNSLIQYDDPAAWTEQEQLLKQMTVENVNTAVKQYLSHPVNTYTGVLLPK" "i" "Han et al., 2011" -"EG11748-MONOMER" "MDAPSTTPHDAVFKQFLMHAETARDFLEIHLPVELRELCDLNTLHLESGSFIEESLKGHSTDVLYSVQMQGNPGYLHVVIEHQSKPDKKMAFRMMRYSIAAMHRHLEADHDKLPLVVPILFYQGEATPYPLSMCWFDMFYSPELARRVYNSPFPLVDITITPDDEIMQHRRIAILELLQKHIRQRDLMLLLEQLVTLIDEGYTSGSQLVAMQNYMLQRGHTEQADLFYGVLRDRETGGESMMTLAQWFEEKGIEKGIQQGRQEVSQEFAQRLLSKGMSREDVAEMANLPLAEIDKVINLI" "c" "Han et al., 2011" -"EG11749-MONOMER" "MYKQAVILLLMLFTASVSAALPARYMQTIENAAVWAQIGDKMVTVGNIRAGQIIAVEPTAASYYAFNFGFGKGFIDKGHLEPVQGRQKVEDGLGDLNKPLSNQNLVTWKDTPVYNAPSAGSAPFGVLADNLRYPILHKLKDRLNQTWYQIRIGDRLAYISALDAQPDNGLSVLTYHHILRDEENTRFRHTSTTTSVRAFNNQMAWLRDRGYATLSMVQLEGYVKNKINLPARAVVITFDDGLKSVSRYAYPVLKQYGMKATAFIVTSRIKRHPQKWNPKSLQFMSVSELNEIRDVFDFQSHTHFLHRVDGYRRPILLSRSEHNILFDFARSRRALAQFNPHVWYLSYPFGGFNDNAVKAANDAGFHLAVTTMKGKVKPGDNPLLLKRLYILRTDSLETMSRLVSNQPQG" "p" "Han et al., 2011" -"EG11750-MONOMER" "MSKKQSSTPHDALFKLFLRQPDTARDFLAFHLPAPIHALCDMKTLKLESSSFIDDDLRESYSDVLWSVKTEQGPGYIYCLIEHQSTSNKLIAFRMMRYAIAAMQNHLDAGYKTLPMVVPLLFYHGIESPYPYSLCWLDCFADPKLARQLYASAFPLIDVTVMPDDEIMQHRRMALLELIQKHIRQRDLMGLVEQMACLLSSGYANDRQIKGLFNYILQTGDAVRFNDFIDGVAERSPKHKESLMTIAERLRQEGEQSKALHIAKIMLESGVPLADIMRFTGLSEEELAAASQ" "c" "Han et al., 2011" -"EG11757-MONOMER" "MMNRVIPLPDEQATLDLGERVAKACDGATVIYLYGDLGAGKTTFSRGFLQALGHQGNVKSPTYTLVEPYTLDNLMVYHFDLYRLADPEELEFMGIRDYFANDAICLVEWPQQGTGVLPDPDVEIHIDYQAQGREARVSAVSSAGELLLARLAG" "c" "Han et al., 2011" -"EG11758-MONOMER" "MTDHTMKKNPVSIPHTVWYADDIRRGEREAADVLGLTLYELMLRAGEAAFQVCRSAYPDARHWLVLCGHGNNGGDGYVVARLAKAVGIEVTLLAQESDKPLPEEAALAREAWLNAGGEIHASNIVWPESVDLIVDALLGTGLRQAPRESISQLIDHANSHPAPIVAVDIPSGLLAETGATPGAVINADHTITFIALKPGLLTGKARDVTGQLHFDSLGLDSWLAGQETKIQRFSAEQLSHWLKPRRPTSHKGDHGRLVIIGGDHGTAGAIRMTGEAALRAGAGLVRVLTRSENIAPLLTARPELMVHELTMDSLTESLEWADVVVIGPGLGQQEWGKKALQKVENFRKPMLWDADALNLLAINPDKRHNRVITPHPGEAARLLGCSVAEIESDRLHCAKRLVQRYGGVAVLKGAGTVVAAHPDALGIIDAGNAGMASGGMGDVLSGIIGALLGQKLSPYDAACAGCVAHGAAADVLAARFGTRGMLATDLFSTLQRIVNPEVTDKNHDESSNSAP" "c" "Han et al., 2011" -"EG11759-MONOMER" "MHYQPKQDLLNDRIILVTGASDGIGREAAMTYARYGATVILLGRNEEKLRQVASHINEETGRQPQWFILDLLTCTSENCQQLAQRIAVNYPRLDGVLHNAGLLGDVCPMSEQNPQVWQDVMQVNVNATFMLTQALLPLLLKSDAGSLVFTSSSVGRQGRANWGAYAASKFATEGMMQVLADEYQQRLRVNCINPGGTRTAMRASAFPTEDPQKLKTPADIMPLYLWLMGDDSRRKTGMTFDAQPGRKPGISQ" "c" "Han et al., 2011" -"EG11760-MONOMER" "MLQIIRGKLVIFLITLCLFVVYLGFDNNSNSDIVFYGHKTPKSVEIYLSEKNIIYKIINDQKISRGNGHFISIMVNNYRTHCGVVDINLNFFNDILYSVRLKNISKLENMEFCATKQRVYFSDKNKKASYKIINYGDYYDVDYYDNNLKNEVFDWIGKWS" "i" "Han et al., 2011" -"EG11761-MONOMER" "MPHIDIKCFPRELDEQQKAALAADITDVIIRHLNSKDSSISIALQQIQPESWQAIWDAEIAPQMEALIKKPGYSMNA" "c" "Han et al., 2011" -"EG11762-MONOMER" "MKLVGSYTSPFVRKLSILLLEKGITFEFINELPYNADNGVAQFNPLGKVPVLVTEEGECWFDSPIIAEYIELMNVAPAMLPRDPLESLRVRKIEALADGIMDAGLVSVREQARPAAQQSEDELLRQREKINRSLDVLEGYLVDGTLKTDTVNLATIAIACAVGYLNFRRVAPGWCVDRPHLVKLVENLFSRESFARTEPPKA" "c" "Han et al., 2011" -"EG11763-MONOMER" "MKACLLLFFYFSFICQLHGADVKIKQNESMMGSTAMTYDLSEEKLMKLKYKSQHGDSEASFRLYQYYCFTKNNIYKQLRFLERSASQGNVTAQFNYGVFLSDTNPTLSEYYNLNRAIYWMEFAVNNGNIDAKSKLQELKKLKRMDRRKNKENP" "c" "Han et al., 2011" -"EG11764-MONOMER" "MDLLIVLTYVALAWAVFKIFRIPVNQWTLATAALGGVFLVSGLILLMNYNHPYTFTAQKAVIAIPITPQVTGIVTEVTDKNNQLIQKGEVLFKLDPVRYQARVDRLQADLMTATHNIKTLRAQLTEAQANTTQVSAERDRLFKNYQRYLKGSQAAVNPFSERDIDDARQNFLAQDALVKGSVAEQAQIQSQLDSMVNGEQSQIVSLRAQLTEAKYNLEQTVIRAPSNGYVTQVLIRPGTYAAALPLRPVMVFIPEQKRQIVAQFRQNSLLRLKPGDDAEVVFNALPGQVFHGKLTSILPVVPGGSYQAQGVLQSLTVVPGTDGVLGTIELDPNDDIDALPDGIYAQVAVYSDHFSHVSVMRKVLLRMTSWMHYLYLDH" "i" "Han et al., 2011" -"EG11765-MONOMER" "MFLNYFALGVLIFVFLVIFYGIIAIHDIPYLIAKKRNHPHADAIHTAGWVSLFTLHVIWPFLWIWATLYQPERGWGMQSHVASQEKATDPEIAALSDRISRLEHQLAAEKKTDYSTFPEI" "i" "Han et al., 2011" -"EG11766-MONOMER" "VQMLDRLESEILADRVSEESRRWLASCGLTVEQMKNQMDPVYTPARKIHLYHCDHRGLPLALISTEGATAWCAEYDEWGNLLSDENPHHLQQLIRLPGQQYDEESGLYYNRHRYYDPLLGRYITQDPIGLKGGWNFYQYPLNPVINVDPQGLVDINLYPESDLIHSVADEINIPGVFTIGGHGTPTSIESATRSIMTAKDLAYLIKFDGNYKDGMTVWLFSCNTGKGQNSFAS" "c" "Han et al., 2011" -"EG11768-MONOMER" "MQERHTEQDYRALLIADTPIIDVRAPIEFEHGAMPAAINLPLMNNDERAAVGTCYKQQGSDAALALGHKLVAGEIRQQRMDAWRAACLQNPQGILCCARGGQRSHIVQSWLHAAGIDYPLVEGGYKALRQTAIQATIELAQKPIVLIGGCTGSGKTLLVQQQPNGVDLEGLARHRGSAFGRTLQPQLSQASFENLLAAEMLKTDARQNLRLWVLEDESRMIGSNHLPECLRERMTQAAIAVVEDPFEIRLERLNEEYFLRMHHDFTHAYGDEQGWQEYCEYLHHGLSAIKRRLGLQRYNELAARLDAALTTQLTTGSTDGHLAWLVPLLEEYYDPMYRYQLEKKAEKVVFRGEWAEVAEWVKAR" "c" "Han et al., 2011" -"EG11769-MONOMER" "MKYSSIFSMLSFFILFACNETAVYGSDENIIFMRYVEKLHLDKYSVKNTVKTETMAIQLAEIYVRYRYGERIAEEEKPYLITELPDSWVVEGAKLPYEVAGGVFIIEINKKNGCVLNFLHSK" "p" "Han et al., 2011" -"EG11770-MONOMER" "MLAISSNLSKMIIFIFAIIIIVVLCVITYLYLYKDESLVSKHYINYMAIPENDGVFTWLPDFFPHVAVDISIYTNVEDDYFFLIFP" "i" "Han et al., 2011" -"EG11775-MONOMER" "MAKEQTDRTTLDLFAHERRPGRPKTNPLSRDEQLRINKRNQLKRDKVRGLKRVELKLNAEAVEALNELAESRNMSRSELIEEMLMQQLAALRSQGIV" "c" "Han et al., 2011" -"EG11776-MONOMER" "MKLNIRAQTAQNQHNNSPIVLVHGLFGSLDNLGVLARDLVNDHNIIQVDMRNHGLSPRDPVMNYPAMAQDLVDTLDAQQIDKATFIGHSMGGKAVMALTALASDRIDKLVAIDIAPVDYHVRRHDEIFAAINAVSESDAQTRQQAAAIMRQHLNEEGVIQFLLKSFVDGEWRFNVPVLWDQYPHIVGWEKIPAWDHPALFIPGGNSPYVSEQYRDDLLAQFPQARAHVIAGAGHWVHAEKPDAVLRAIRRYLND" "c" "Han et al., 2011" -"EG11777-MONOMER" "LPRDPVSWTQRPEFAGVRALPIADDVAGVIFALNGGDLGEDTGCVYYFAPDTLNWESLEVGYSEFLQWALSGDLDTFYENVRWQQWREDVIKLSATEAFTFYPFLWVQSEEARTRKVISLTELWEMQYQMKETFTQ" "c" "Han et al., 2011" -"EG11778-MONOMER" "MREMNQLVNTEDSAWPIIQNWLKDATNHTELLPVNKDLAETALYQLQVTTKSPMGALVYGSGGLLIDNG" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"EG11779-MONOMER" "MKNDVISPEFDENGRPLRRIRSFVRRQGRLTKGQEHALENYWPVMGVEFSEDMLDFPALFGREAPVTLEIGFGMGASLVAMAKDRPEQDFLGIEVHSPGVGACLASAHEEGLSNLRVMCHDAVEVLHKMIPDNSLRMVQLFFPDPWHKARHNKRRIVQVPFAELVKSKLQLGGVFHMATDWEPYAEHMLEVMSSIDGYKNLSESNDYVPRPASRPVTKFEQRGHRLGHGVWDLMFERVK" "c" "Han et al., 2011" -"EG11780-MONOMER" "MNRIYRVIWNCTLQVFQACSELTRRAGKTSTVNLRKSSGLTTKFSRLTLGVLLALSGSASGASLEVDNDQITNIDTDVAYDAYLVGWYGTGVLNILAGGNASLTTITTSVIGANEDSEGTVNVLGGTWRLYDSGNNARPLNVGQSGTGTLNIKQKGHVDGGYLRLGSSTGGVGTVNVEGEDSVLTTELFEIGSYGTGSLNITDKGYVTSSIVAILGYQAGSNGQVVVEKGGEWLIKNNDSSIEFQIGNQGTGEATIREGGLVTAENTIIGGNATGIGTLNVQDQDSVITVRRLYNGYFGNGTVNISNNGLINNKEYSLVGVQDGSHGVVNVTDKGHWNFLGTGEAFRYIYIGDAGDGELNVSSEGKVDSGIITAGMKETGTGNITVKDKNSVITNLGTNLGYDGHGEMNISNQGLVVSNGGSSLGYGETGVGNVSITTGGMWEVNKNVYTTIGVAGVGNLNISDGGKFVSQNITFLGDKASGIGTLNLMDATSSFDTVGINVGNFGSGIVNVSNGATLNSTGYGFIGGNASGKGIVNISTDSLWNLKTSSTNAQLLQVGVLGTGELNITTGGIVKARDTQIALNDKSKGDVRVDGQNSLLETFNMYVGTSGTGTLTLTNNGTLNVEGGEVYLGVFEPAVGTLNIGAAHGEAAADAGFITNATKVEFGLGEGVFVFNHTNNSDAGYQVDMLITGDDKDGKVIHDAGHTVFNAGNTYSGKTLVNDGLLTIASHTADGVTGMGSSEVTIANPGTLDILASTNSAGDYTLTNALKGDGLMRVQLSSSDKMFGFTHATGTEFAGVAQLKDSTFTLERDNTAALTHAMLQSDSENTTSVKVGEQSIGGLAMNGGTIIFDTDIPAATLAEGYISVDTLVVGAGDYTWKGRNYQVNGTGDVLIDVPKPWNDPMANNPLTTLNLLEHDDSHVGVQLVKAQTVIGSGGSLTLRDLQGDEVEADKTLHIAQNGTVVAEGDYGFRLTTAPGNGLYVNYGLKALNIHGGQKLTLAEHGGAYGATADMSAKIGGEGDLAINTVRQVSLSNGQNDYQGATYVQMGTLRTDADGALGNTRELNISNAAIVDLNGSTQTVETFTGQMGSTVLFKEGALTVNKGGISQGELTGGGNLNVTGGTLAIEGLNARYNALTSISPNAEVSLDNTQGLGRGNIANDGLLTLKNVTGELRNSISGKGIVSATARTDVELDGDNSRFVGQFNIDTGSALSVNEQKNLGDASVINNGLLTISTERSWAMTHSISGSGDVTKLGTGILTLNNDSAAYQGTTDIVGGEIAFGSDSAINMASQHINIHNSGVMSGNVTTAGDMNVMPGGGTACR" "i" "Unambiguous EcoCyc data" -"EG11782-MONOMER" "MTKKKAHKPGSATIALNKRARHEYFIEEEFEAGLALQGWEVKSLRAGKANISDSYVLLRDGEAFLFGANITPMAVASTHVVCDPTRTRKLLLNQRELDSLYGRVNREGYTVVALSLYWKNAWCKVKIGVAKGKKQHDKRSDIKEREWQVDKARIMKNAHR" "c" "Han et al., 2011" -"EG11783-MONOMER" "MARKTKPLTDTEIKAAKPKDADYQLYDGDGLTLLIKSSGSKLWQFRYYRPLTKQRTKQSFGAYPAVSLSDARKLRAESKVLLAKDIDPQEHQKEQVRNSQEAKTNTFLLVAERWWNVKKTSVTEDYADDIWRSLERDIFPAIGDISITEIKAHTLVKAVQPVQARGALETVRRLCQRINEVMIYAQNTGLIDAVPSVNIGKAFEKPQKKNMPSIRPDQLPQLMHTMRTASISMSTRCLFMWQLLTITRPAEAAEARWDEIDFNASEWKIPAARMKMNRDHTVPLSDGALAILEMMKPLSGGREFIFPSRIKPNQPMNSQTVNAALKRAGLGGVLVSHGLRSIASTALNEEGFPPDVIEAALAHVDKNEVRRAYNRSDYLEQRRPMMQWWADLVKAADSGSIVLTHLSKIRLVG" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"EG11784-MONOMER" "MITGIQITKAANDDLLNSFWLLDSEKGEARCIVAKAGYAEDEVVAVSKLGDIEYREVPVEVKPEVRVEGGQHLNVNVLRRETLEDAVKHPEKYPQLTIRVSGYAVRFNSLTPEQQRDVIARTFTESL" "c" "Han et al., 2011" -"EG11785-MONOMER" "MDLRRFITLKTVVEEGSFLRASQKLCCTQSTVTFHIQQLEQEFSVQLFEKIGRRMCLTREGKKLLPHIYELTRVMDTLREAAKKESDPDGELRVVSGETLLSYRMPQVLQRFRQRAPKVRLSLQSLNCYVIRDALLNDEADVGVFYRVGNDDALNRRELGEQSLVLVASPQIADVDFTEPGRHNACSFIINEPQCVFRQIFESTLRQRRITVENTIELISIESIKRCVAANIGVSYLPRFAVAKELECGELIELPFGEQSQTITAMCAHHAGKAVSPAMHTFIQCVEESFVAG" "c" "Han et al., 2011" -"EG11786-MONOMER" "MNDEMKGKSGKVKVMYVRSDDDSDKRTHNPRTGKGGGRPGKSRADGGRRPARDDKQSQPRDRKWEDSPWRTVSRAPGDETPEKADHGGISGKSFIDPEVLRRQRAEETRVYGENACQALFQSRPEAIVRAWFIQSVTPRFKEALRWMAANRKAYHVVDEAELTKASGTEHHGGVCFLIKKRNGTTVQQWVSQAGAQDCVLALENESNPHNLGGMMRSCAHFGVKGVVVQDAALLESGAAIRTAEGGAEHVQPITGDNIVNVLDDFRQAGYTVVTTSSEQGKPLFKTSLPAKMVLVLGQEYEGLPDAARDPNDLRVKIDGTGNVAGLNISVATGVLLGEWWRQNKA" "c" "Han et al., 2011" -"EG11790-MONOMER" "MKILVYGINYSPELTGIGKYTGEMVEWLAAQGHEVRVITAPPYYPQWQVGENYSAWRYKREEGAATVWRCPLYVPKQPSTLKRLLHLGSFAVSSFFPLMAQRRWKPDRIIGVVPTLFCAPGMRLLAKLSGARTVLHIQDYEVDAMLGLGLAGKGKGGKVAQLATAFERSGLHNVDNVSTISRSMMNKAIEKGVAAENVIFFPNWSEIARFQHVADADVDALRNQLDLPDNKKIILYSGNIGEKQGLENVIEAADRLRDEPLIFAIVGQGGGKARLEKMAQQRGLRNMQFFPLQSYDALPALLKMGDCHLVVQKRGAADAVLPSKLTNILAVGGNAVITAEAYTELGQLCETFPGIAVCVEPESVEALVAGIRQALLLPKHNTVAREYAERTLDKENVLRQFINDIRG" "c" "Han et al., 2011" -"EG11793-MONOMER" "MTSRFMLIFAAISGFIFVALGAFGAHVLSKTMGAVEMGWIQTGLEYQAFHTLAILGLAVAMQRRISIWFYWSSVFLALGTVLFSGSLYCLALSHLRLWAFVTPVGGVSFLAGWALMLVGAIRLKRKGVSHE" "i" "Han et al., 2011" -"EG11794-MONOMER" "MNKVVLLCRPGFEKECAAEITDKAGQREIFGFARVKENAGYVIYECYQPDDGDKLIRELPFSSLIFARQWFVVGELLQHLPPEDRITPIVGMLQGVVEKGGELRVEVADTNESKELLKFCRKFTVPLRAALRDAGVLANYETPKRPVVHVFFIAPGCCYTGYSYSNNNSPFYMGIPRLKFPADAPSRSTLKLEEAFHVFIPADEWDERLANGMWAVDLGACPGGWTYQLVKRNMWVYSVDNGPMAQSLMDTGQVTWLREDGFKFRPTRSNISWMVCDMVEKPAKVAALMAQWLVNGWCRETIFNLKLPMKKRYEEVSHNLAYIQAQLDEHGINAQIQARQLYHDREEVTVHVRRIWAAVGGRRDER" "c" "Han et al., 2011" -"EG11796-MONOMER" "MSTLRLLISDSYDPWFNLAVEECIFRQMPATQRVLFLWRNADTVVIGRAQNPWKECNTRRMEEDNVRLARRSSGGGAVFHDLGNTCFTFMAGKPEYDKTISTSIVLNALNALGVSAEASGRNDLVVKTVEGDRKVSGSAYRETKDRGFHHGTLLLNADLSRLANYLNPDKKKLAAKGITSVRSRVTNLTELLPGITHEQVCEAITEAFFAHYGERVEAEIISPNKTPDLPNFAETFARQSSWEWNFGQAPAFSHLLDERFTWGGVELHFDVEKGHITRAQVFTDSLNPAPLEALAGRLQGCLYRADMLQQECEALLVDFPEQEKELRELSAWMAGAVR" "c" "Han et al., 2011" -"EG11798-MONOMER" "MASKQLWRWHGITGDGNAQDGMLWAESRTLLLMALQQQMVTPLSLKRIAINSAQWRGDKSAEVIHQLATLLKAGLTLSEGLALLAEQHPSKQWQALLQSLAHDLEQGIAFSNALLPWSEVFPPLYQAMIRTGELTGKLDECCFELARQQKAQRQLTDKVKSALRYPIIILAMAIMVVVAMLHFVLPEFAAIYKTFNTPLPALTQGIMTLADFSGEWSWLLVLFGFLLAIANKLLMRRPTWLIVRQKLLLRIPIMGSLMRGQKLTQIFTILALTQSAGITFLQGVESVRETMRCPYWVQLLTQIQHDISNGQPIWLALKNTGEFSPLCLQLVRTGEASGSLDLMLDNLAHHHRENTMALADNLAALLEPALLIITGGIIGTLVVAMYLPIFHLGDAMSGMG" "i" "Han et al., 2011" -"EG11800-MONOMER" "MSHDPQPLGGKIISKPVMIFGPLIVICMLLIVKRLVFGLGSVSDLNGGFPWGVWIAFDLLIGTGFACGGWALAWAVYVFNRGQYHPLVRPALLASLFGYSLGGLSITIDVGRYWNLPYFYIPGHFNVNSVLFETAVCMTIYIGVMALEFAPALFERLGWKVSLQRLNKVMFFIIALGALLPTMHQSSMGSLMISAGYKVHPLWQSYEMLPLFSLLTAFIMGFSIVIFEGSLVQAGLRGNGPDEKSLFVKLTNTISVLLAIFIVLRFGELIYRDKLSLAFAGDFYSVMFWIEVLLMLFPLVVLRVAKLRNDSRMLFLSALSALLGCATWRLTYSLVAFNPGGGYAYFPTWEELLISIGFVAIEICAYIVLIRLLPILPPLKQNDHNRHEASKA" "i" "Han et al., 2011" -"EG11802-MONOMER" "MRILVLGVGNILLTDEAIGVRIVEALEQRYILPDYVEILDGGTAGMELLGDMANRDHLIIADAIVSKKNAPGTMMILRDEEVPALFTNKISPHQLGLADVLSALRFTGEFPKKLTLVGVIPESLEPHIGLTPTVEAMIEPALEQVLAALRESGVEAIPREAIHD" "c" "Han et al., 2011" -"EG11803-MONOMER" "MTEEIAGFQTSPKAQVQAAFEEIARRSMHDLSFLHPSMPVYVSDFTLFEGQWTGCVITPWMLSAVIFPGPDQLWPLRKVSEKIGLQLPYGTMTFTVGELDGVSQYLSCSLMSPLSHSMSIEEGQRLTDDCARMILSLPVTNPDVPHAGRRALLFGRRSGENA" "c" "Han et al., 2011" -"EG11804-MONOMER" "MHELSLCQSAVEIIQRQAEQHDVKRVTAVWLEIGALSCVEESAVRFSFEIVCHGTVAQGCDLHIVYKPAQAWCWDCSQVVEIHQHDAQCPLCHGERLRVDTGDSLIVKSIEVE" "c" "Han et al., 2011" -"EG11805-MONOMER" "MCIGVPGQVLAVGEDIHQLAQVEVCGIKRDVNIALICEGNPADLLGQWVLVHVGFAMSIIDEDEAKATLDALRQMDYDITSA" "c" "Han et al., 2011" -"EG11806-MONOMER" "MANWLNQLQSLLGQSSSSTSSSADQGLVKLLVPGALGGLAGLLVANKSARKLLTKYGTNALLVGGGAVAGTVLWNKYKDKIRAAHQDEPQFGAQSTPLDERTARLILALVFAAKSDGHIDAKERAAIDQQLRGAGVEEQGRVLIEQAIEQPLDPQRLATGVRNEEEALEIYFLSCAAIDIDHFMERSYLNALGDALKIPQDVRDGIERDLEQQKRTLAE" "i" "Han et al., 2011" -"EG11807-MONOMER" "MKKRGAFLGLLLVSACASVFAANNETSKSVTFPKCEDLDAAGIAASVKRDYQQNRVARWADDQKIVGQADPVAWVSLQDIQGKDDKWSVPLTVRGKSADIHYQVSVDCKAGMAEYQRR" "e" "Han et al., 2011" -"EG11808-MONOMER" "MAVEVKYVVIREGEEKMSFTSKKEADAYDKMLDTADLLDTWLTNSPVQMEDEQREALSLWLAEQKDVLSTILKTGKLPSPQVVGAESEEEDASHAA" "c" "Han et al., 2011" -"EG11811-MONOMER" "VHWQTHTVFNQPIPLNNSNLYLSDGALCEAVTREGAGWDSDFLASIGQQLGTAESLELGRLANVNPPELLRYDAQGRRLDDVRFHPAWHLLMQALCTNRVHNLAWEEDARSGAFVARAARFMLHAQVEAGSLCPITMTFAATPLLLQMLPAPFQDWTTPLLSDRYDSHLLPGGQKRGLLIGMGMTEKQGGSDVMSNTTRAERLEDGSYRLVGHKWFFSVPQSDAHLVLAQTAGGLSCFFVPRFLPDGQRNAIRLERLKDKLGNRSNASCEVEFQDAIGWLLGLEGEGIRLILKMGGMTRFDCALGSHAMMRRAFSLAIYHAHQRHVFGNPLIQQPLMRHVLSRMALQLEGQTALLFRLARAWDRRADAKEALWARLFTPAAKFVICKRGMPFVAEAMEVLGGIGYCEESELPRLYREMPVNSIWEGSGNIMCLDVLRVLNKQAGVYDLLSEAFVEVKGQDRYFDRAVRRLQQQLRKPAEELGREITHQLFLLGCGAQMLKYASPPMAQAWCQVMLDTRGGVRLSEQIQNDLLLRATGGVCV" "c" "Han et al., 2011" -"EG11812-MONOMER" "MLRHNVPVRRDLDQIAADNGFDFHIIDNEIYWDESRAYRFTLRQIEEQIEKPTAELHQMCLEVVDRAVKDEEILTQLAIPPLYWDVIAESWRARDPSLYGRMDFAWCGNAPVKLLEYNADTPTSLYESAYFQWLWLEDARRSGIIPRDADQYNAIQERLISRFSELYSREPFYFCCCQDTDEDRSTVLYLQDCAQQAGQESRFIYIEDLGLGVGGVLTDLDDNVIQRAFKLYPLEWMMRDDNGPLLRKRREQWVEPLWKSILSNKGLMPLLWRFFPGHPNLLASWFDGEKPQIAAGESYVRKPIYSREGGNVTIFDGKNNVVDHADGDYADEPMIYQAFQPLPRFGDSYTLIGSWIVDDEACGMGIREDNTLITKDTSRFVPHYIAG" "c" "Han et al., 2011" -"EG11815-MONOMER" "MRKLWNALRRPSARWSVLALVAIGIVIGIALIVLPHVGIKVTSTTEFCVSCHSMQPVYEEYKQSVHFQNASGVRAECHDCHIPPDIPGMVKRKLEASNDIYQTFIAHSIDTPEKFEAKRAELAEREWARMKENNSATCRSCHNYDAMDHAKQHPEAARQMKVAAKDNQSCIDCHKGIAHQLPDMSSGFRKQFDELRASANDSGDTLYSIDIKPIYAAKGDKEASGSLLPASEVKVLKRDGDWLQIEITGWTESAGRQRVLTQFPGKRIFVASIRGDVQQQVKTLEKTTVADTNTEWSKLQATAWMKKGDMVNDIKPIWAYADSLYNGTCNQCHGAPEIAHFDANGWIGTLNGMIGFTSLDKREERTLLKYLQMNASDTAGKAHGDKKEEK" "i" "Han et al., 2011" -"EG11816-MONOMER" "MRIGHGFDVHAFGGEGPIIIGGVRIPYEKGLLAHSDGDVALHALTDALLGAAALGDIGKLFPDTDPAFKGADSRELLREAWRRIQAKGYTLGNVDVTIIAQAPKMLPHIPQMRVFIAEDLGCHMDDVNVKATTTEKLGFTGRGEGIACEAVALLIKATK" "c" "Han et al., 2011" -"EG11817-MONOMER" "MRILLSNDDGVHAPGIQTLAKALREFADVQVVAPDRNRSGASNSLTLESSLRTFTFENGDIAVQMGTPTDCVYLGVNALMRPRPDIVVSGINAGPNLGDDVIYSGTVAAAMEGRHLGFPALAVSLDGHKHYDTAAAVTCSILRALCKEPLRTGRILNINVPDLPLDQIKGIRVTRCGTRHPADQVIPQQDPRGNTLYWIGPPGGKCDAGPGTDFAAVDEGYVSITPLHVDLTAHSAQDVVSDWLNSVGVGTQW" "c" "Han et al., 2011" -"EG11820-MONOMER" "MKKSLLGLTFASLMFSAGSAVAADYKIDKEGQHAFVNFRIQHLGYSWLYGTFKDFDGTFTFDEKNPAADKVNVTINTTSVDTNHAERDKHLRSADFLNTAKYPQATFTSTSVKKDGDELDITGDLTLNGVTKPVTLEAKLIGQGDDPWGGKRAGFEAEGKIKLKDFNIKTDLGPASQEVDLIISVEGVQQK" "p" "Han et al., 2011" -"EG11822-MONOMER" "MTEHTSSYYAASANKYAPFDTLNESITCDVCVVGGGYTGLSSALHLAEAGFDVVVLEASRIGFGASGRNGGQLVNSYSRDIDVIEKSYGMDTARMLGSMMFEGGEIIRERIKRYQIDCDYRPGGLFVAMNDKQLATLEEQKENWERYGNKQLELLDANAIRREVASDRYTGALLDHSGGHIHPLNLAIGEADAIRLNGGRVYELSAVTQIQHTTPAVVRTAKGQVTAKYVIVAGNAYLGDKVEPELAKRSMPCGTQVITTERLSEDLARSLIPKNYCVEDCNYLLDYYRLTADNRLLYGGGVVYGARDPDDVERLVVPKLLKTFPQLKGVKIDYRWTGNFLLTLSRMPQFGRLDTNIYYMQGYSGHGVTCTHLAGRLIAELLRGDAERFDAFANLPHYPFPGGRTLRVPFTAMGAAYYSLRDRLGV" "c" "Han et al., 2011" -"EG11824-MONOMER" "MAVIQDIIAALWQHDFAALADPHIVSVVYFVMFATLFLENGLLPASFLPGDSLLILAGALIAQGVMDFLPTIAILTAAASLGCWLSYIQGRWLGNTKTVKGWLAQLPAKYHQRATCMFDRHGLLALLAGRFLAFVRTLLPTMAGISGLPNRRFQFFNWLSGLLWVSVVTSFGYALSMIPFVKRHEDQVMTFLMILPIALLTAGLLGTLFVVIKKKYCNA" "i" "Han et al., 2011" -"EG11825-MONOMER" "MKPQVYHVDAFTSQPFRGNSAGVVFPADNLSEAQMQLIARELGHSETAFLLHSDDSDVRIRYFTPTVEVPICGHATVAAHYVRAKVLGLGNCTIWQTSLAGKHRVTIEKHNDDYRISLEQGTPGFEPPLEGETRAAIINALHLTEDDILPGLPIQVATTGHSKVMIPLKPEVDIDALSPDLNALTAISKKIGCNGFFPFQIRPGKNETDGRMFSPAIGIVEDPVTGNANGPMGAWLVHHNVLPHDGNVLRVKGHQGRALGRDGMIEVTVTIRDNQPEKVTISGTAVILFHAEWAIEL" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"EG11826-MONOMER" "MTTKNMNTPPGSTQENEIDLLRLVGELWDHRKFIISVTALFTLIAVAYSLLSTPIYQADTLVQVEQKQGNAILSGLSDMIPNSSPESAPEIQLLQSRMILGKTIAELNLRDIVEQKYFPIVGRGWARLTKEKPGELAISWMHIPQLNGQDQQLTLTVGENGHYTLEGEEFTVNGMVGQRLEKDGVALTIADIKAKPGTQFVLSQRTELEAINALQETFTVSERSKESGMLELTMTGDDPQLITRILNSIANNYLQQNIARQAAQDSQSLEFLQRQLPEVRSELDQAEEKLNVYRQQRDSVDLNLEAKAVLEQIVNVDNQLNELTFREAEISQLYKKDHPTYRALLEKRQTLEQERKRLNKRVSAMPSTQQEVLRLSRDVEAGRAVYLQLLNRQQELSISKSSAIGNVRIIDPAVTQPQPVKPKKALNVVLGFILGLFISVGAVLARAMLRRGVEAPEQLEEHGISVYATIPMSEWLDKRTRLRKKNLFSNQQRHRTKNIPFLAVDNPADSAVEAVRALRTSLHFAMMETENNILMITGATPDSGKTFVSSTLAAVIAQSDQKVLFIDADLRRGYSHNLFTVSNEHGLSEYLAGKDELNKVIQHFGKGGFDVITRGQVPPNPSELLMRDRMRQLLEWANDHYDLVIVDTPPMLAVSDAAVVGRSVGTSLLVARFGLNTAKEVSLSMQRLEQAGVNIKGAILNGVIKRASTAYSYGYNYYGYSYSEKE" "i" "Han et al., 2011" -"EG11828-MONOMER" "MAGKTMIPLLAFAAWSGTGKTTLLKKLIPALCARGIRPGLIKHTHHDMDVDKPGKDSYELRKAGAAQTIVASQQRWALMTETPDEEELDLQFLASRMDTSKLDLILVEGFKHEEIAKIVLFRDGAGHRPEELVIDRHVIAVASDVPLNLDVALLDINDVEGLADFVVEWMQKQNG" "c" "Han et al., 2011" -"EG11829-MONOMER" "VNLMTTITGVVLAGGKARRMGGVDKGLLELNGKPLWQHVADALMTQLSHVVVNANRHQEIYQASGLKVIEDSLADYPGPLAGMLSVMQQEAGEWFLFCPCDTPYIPPDLAARLNHQRKDAPVVWVHDGERDHPTIALVNRAIEPLLLEYLQAGERRVMVFMRLAGGHAVDFSDHKDAFVNVNTPEELARWQEKR" "c" "Han et al., 2011" -"EG11830-MONOMER" "MKCKRLNEVIELLQPAWQKEPDLNLLQFLQKLAKESGFDGELADLTDDILIYHLKMRDSAKDAVIPGLQKDYEEDFKTALLRARGVIKE" "c" "Han et al., 2011" -"EG11831-MONOMER" "MNNSAFTFQTLHPDTIMDALFEHGIRVDSGLTPLNSYENRVYQFQDEDRRRFVVKFYRPERWTADQILEEHQFALQLVNDEVPVAAPVAFNGQTLLNHQGFYFAVFPSVGGRQFEADNIDQMEAVGRYLGRMHQTGRKQLFIHRPTIGLNEYLIEPRKLFEDATLIPSGLKAAFLKATDELIAAVTAHWREDFTVLRLHGDCHAGNILWRDGPMFVDLDDARNGPAVQDLWMLLNGDKAEQRMQLETIIEAYEEFSEFDTAEIGLIEPLRAMRLVYYLAWLMRRWADPAFPKNFPWLTGEDYWLRQTATFIEQAKVLQEPPLQLTPMY" "c" "Han et al., 2011" -"EG11832-MONOMER" "MIRKSATGVIVALAVIWGGGTWYTGTQIQPGVEKFIKDFNDAKKKGEHAYDMTLSYQNFDKGFFNSRFQMQMTFDNGAPDLNIKPGQKVVFDVDVEHGPLPITMLMHGNVIPALAAAKVNLVNNELTQPLFIAAKNKSPVEATLRFAFGGSFSTTLDVAPAEYGKFSFGEGQFTFNGDGSSLSNLDIEGKVEDIVLQLSPMNKVTAKSFTIDSLARLEEKKFPVGESESKFNQINIINHGEDVAQIDAFVAKTRLDRVKDKDYINVNLTYELDKLTKGNQQLGSGEWSLIAESIDPSAVRQFIIQYNIAMQKQLAAHPELANDEVALQEVNAALFKEYLPLLQKSEPTIKQPVRWKNALGELNANLDISIADPAKSSSSTNKDIKSLNFDVKLPLNVVTETAKQLNLSEGMDAEKAQKQADKQISGMMTLGQMFQLITIDNNTASLQLRYTPGKVVFNGQEMSEEEFMSRAGRFVH" "i" "Han et al., 2011" -"EG11833-MONOMER" "MANLLNKFIMTRILAAITLLLSIVLTILVTIFCSVPIIIAGIVKLLLPVPVIWRKVSRFCDFMMYCWCEGLAVLLHLNPHLQWEVHGLEGLSKKNWYLLICNHRSWADIVVLCVLFRKHIPMNKYFLKQQLAWVPFLGLACWSLDMPFMKRYSRAYLLRHPERRGKDVETTRRSCEKFRLHPTTIVNFVEGSRFTQEKHQQTHSTFQNLLPPKAAGIAMALNVLGKQFDKLLNVTLCYPDNNRQPFFDMLSGKLTRIVVHVDLQPIADELHGDYINDKSFKRHFQQWLNSLWQEKDRLLTSLMSSQRQNK" "i" "Han et al., 2011" -"EG11835-MONOMER" "MKPSSSNSRSKGHAKARRKTREELDQEARDRKRQKKRRGHAPGSRAAGGNTTSGSKGQNAPKDPRIGSKTPIPLGVTEKVTKQHKPKSEKPMLSPQAELELLETDERLDALLERLEAGETLSAEEQSWVDAKLDRIDELMQKLGLSYDDDEEEEEDEKQEDMMRLLRGN" "c" "Han et al., 2011" -"EG11837-MONOMER" "VIEKLRNIAIIAHVDHGKTTLVDKLLQQSGTFDSRAETQERVMDSNDLEKERGITILAKNTAIKWNDYRINIVDTPGHADFGGEVERVMSMVDSVLLVVDAFDGPMPQTRFVTKKAFAYGLKPIVVINKVDRPGARPDWVVDQVFDLFVNLDATDEQLDFPIVYASALNGIAGLDHEDMAEDMTPLYQAIVDHVPAPDVDLDGPFQMQISQLDYNSYVGVIGIGRIKRGKVKPNQQVTIIDSEGKTRNAKVGKVLGHLGLERIETDLAEAGDIVAITGLGELNISDTVCDTQNVEALPALSVDEPTVSMFFCVNTSPFCGKEGKFVTSRQILDRLNKELVHNVALRVEETEDADAFRVSGRGELHLSVLIENMRREGFELAVSRPKVIFREIDGRKQEPYENVTLDVEEQHQGSVMQALGERKGDLKNMNPDGKGRVRLDYVIPSRGLIGFRSEFMTMTSGTGLLYSTFSHYDDVRPGEVGQRQNGVLISNGQGKAVAFALFGLQDRGKLFLGHGAEVYEGQIIGIHSRSNDLTVNCLTGKKLTNMRASGTDEAVVLVPPIRMTLEQALEFIDDDELVEVTPTSIRIRKRHLTENDRRRANRAPKDD" "c" "Han et al., 2011" -"EG11838-MONOMER" "MAENQSTVENAKEKLDRWLKDGITTPGGKLPSERELGELLGIKRMTLRQALLNLEAESKIFRKDRKGWFVTQPRFNYSPELSASFQRAAIEQGREPSWGFTEKNRTSDIPETLAPLIAVTPSTELYRITGWGALEGHKVFYHETYINPEVAPGFIEQLENHSFSAVWEKCYQKETVVKKLIFKPVRMPGDISKYLGGSAGMPAILIEKHRADQQGNIVQIDIEYWRFEAVDLIINL" "c" "Han et al., 2011" -"EG11839-MONOMER" "MVTINNARKILQRVDTLPLYLHAYAFHLNMRLERVLPADLLDIASENNLRGVKIHVLDGERFSLGNMDDKELSAFGDKARRLNLDIHIETSASDKASIDEAVAIALKTGASSVRFYPRYEGNLRDVLSIIANDIAYVRETYQDSGLTFTIEQHEDLKSHELVSLVKESEMESLSLLFDFANMINANEHPIDALKTMAPHITQVHIKDALIVKEPGGLGHKACISGQGDMPFKALLTHLICLGDDEPQVTAYGLEEEVDYYAPAFRFEDEDDNPWIPYRQMSETPLPENHLLDARLRKEKEDAINQINHVRNVLQQIKQEANHLLNH" "c" "Han et al., 2011" -"EG11843-MONOMER" "MDTPRPQLLDFQFHQNNDSFTLHFQQRLILTHSKDNPCLWIGSGIADIDMFRGNFSIKDKLQEKIALTDAIVSQSPDGWLIHFSRGSDISATLNISADDQGRLLLELQNDNLNHNRIWLRLAAQPEDHIYGCGEQFSYFDLRGKPFPLWTSEQGVGRNKQTYVTWQADCKENAGGDYYWTFFPQPTFVSTQKYYCHVDNSCYMNFDFSAPEYHELALWEDKATLRFECADTYISLLEKLTALLGRQPELPDWIYDGVTLGIQGGTEVCQKKLDTMRNAGVKVNGIWAQDWSGIRMTSFGKRVMWNWKWNSENYPQLDSRIKQWNQEGVQFLAYINPYVASDKDLCEEAAQHGYLAKDASGGDYLVEFGEFYGGVVDLTNPEAYAWFKEVIKKNMIELGCGGWMADFGEYLPTDTYLHNGVSAEIMHNAWPALWAKCNYEALEETGKLGEILFFMRAGSTGSQKYSTMMWAGDQNVDWSLDDGLASVVPAALSLAMTGHGLHHSDIGGYTTLFEMKRSKELLLRWCDFSAFTPMMRTHEGNRPGDNWQFDGDAETIAHFARMTTVFTTLKPYLKEAVALNAKSGLPVMRPLFLHYEDDAHTYTLKYQYLLGRDILVAPVHEEGRSDWTLYLPEDNWVHAWTGEAFRGGEVTVNAPIGKPPVFYRADSEWAALFASLKSI" "c" "Han et al., 2011" -"EG11844-MONOMER" "MSLIKVPCMQITNMHCSGQTVSLAAGDYHATIVTVGAGLAELTFQGCHLVIPHKPEEMPLAHLGKVLIPWPNRIANGCYRYQGQEYQLPINEHSSKAAIHGLLAWRDWQISELTATSVTLTAFLPPSYGYPFMLASQVVYSLNAHTGLSVEIASQNIGTVAAPYGVGIHPYLTCNLTSVDEYLFQLPANQVYAVDEHANPTTLHHVDELDLNFTQAKKIAATKIDHTFKTANDLWEMTITHPQQALSVSLCSDQLWVQVYSGEKLQRQGLAVEPMSCPPNAFNSGIDLLLLESGKPHRLFFNIYGQRK" "c" "Han et al., 2011" -"EG11845-MONOMER" "MKWFNTLSHNRWLEQETDRIFDFGKNSVVPTGFGWLGNKGQIKEEMGTHLWITARMLHVYSVAAAMGRPGAYSLVDHGIKAMNGALRDKKYGGWYACVNDEGVVDASKQGYQHFFALLGAASAVTTGHPEARKLLDYTIEIIEKYFWSEEEQMCLESWDEAFSKTEEYRGGNANMHAVEAFLIVYDVTHDKKWLDRAIRVASVIIHDVARNNHYRVNEHFDTQWNPLPDYNKDNPAHRFRAFGGTPGHWIEWGRLMLHIHAALEARCEQPPAWLLEDAKGLFNATVRDAWAPDGADGIVYTVDWEGKPVVRERVRWPIVEAMGTAYALYTVTGDRQYETWYQTWWEYCIKYLMDYENGSWWQELDADNKVTTKVWDGKQDIYHLLHCLVIPRIPLAPGMAPAVAAGLLDINAK" "c" "Han et al., 2011" -"EG11846-MONOMER" "MNKYTINDITRASGGFAMLAVDQREAMRMMFAAAGAPAPVADSVLTDFKVNAAKALSPYASAILVDQQFCYRQVVEQNAIAKSCAMIVAADEFIPGNGIPVDSVVIDRKINPLQIKQDGGKALKLLVLWRSDEDAQQRLDMVKEFNELCHSHGLVSIIEPVVRPPRRGDKFDREQAIIDAAKELGDSGADLYKVEMPLYGKGPQQELLCASQRLNDHINMPWVILSSGVDEKLFPRAVRVAMTAGASGFLAGRAVWASVVGLPDNELMLRDVCAPKLQQLGDIVDEMMAKRR" "c" "Han et al., 2011" -"EG11847-MONOMER" "MAAIAFIGLGQMGSPMASNLLQQGHQLRVFDVNAEAVRHLVDKGATPAANPAQAAKDAEFIITMLPNGDLVRNVLFGENGVCEGLSTDALVIDMSTIHPLQTDKLIADMQAKGFSMMDVPVGRTSANAITGTLLLLAGGTAEQVERATPILMAMGSELINAGGPGMGIRVKLINNYMSIALNALSAEAAVLCEALNLPFDVAVKVMSGTAAGKGHFTTSWPNKVLSGDLSPAFMIDLAHKDLGIALDVANQLHVPMPLGAASREVYSQARAAGRGRQDWSAILEQVRVSAGMTAKVKM" "c" "Han et al., 2011" -"EG11848-MONOMER" "MIRVACVGITVMDRIYYVEGLPTESGKYVARNYTEVGGGPAATAAVAAARLGAQVDFIGRVGDDDTGNSLLAELESWGVNTRYTKRYNQAKSSQSAIMVDTKGERIIINYPSPDLLPDAEWLEEIDFSQWDVVLADVRWHDGAKKAFTLARQAGVMTVLDGDITPQDISELVALSDHAAFSEPGLARLTGVKEMASALKQAQTLTNGHVYVTQGSAGCDWLENGGRQHQPAFKVDVVDTTGAGDVFHGALAVALATSGDLAESVRFASGVAALKCTRPGGRAGIPDCDQTRSFLSLFV" "c" "Han et al., 2011" -"EG11849-MONOMER" "MSLTELTGNPRHDQLLMLIAERGYMNIDELANLLDVSTQTVRRDIRKLSEQGLITRHHGGAGRASSVVNTAFEQREVSQTEEKKAIAEAVADYIPDGSTIFITIGTTVEHVARALLNHNHLRIITNSLRVAHILYHNPRFEVMVPGGTLRSHNSGIIGPSAASFVADFRADYLVTSVGAIESDGALMEFDVNEANVVKTMMAHARNILLVADHTKYHASAAVEIGNVAQVTALFTDELPPAALKSRLQDSQIEIILPQEDA" "c" "Han et al., 2011" -"EG11850-MONOMER" "MLYIFDLGNVIVDIDFNRVLGAWSDLTRIPLASLKKSFHMGEAFHQHERGEISDEAFAEALCHEMALPLSYEQFSHGWQAVFVALRPEVIAIMHKLREQGHRVVVLSNTNRLHTTFWPEEYPEIRDAADHIYLSQDLGMRKPEARIYQHVLQAEGFSPSDTVFFDDNADNIEGANQLGITSILVKDKTTIPDYFAKVLC" "c" "Han et al., 2011" -"EG11851-MONOMER" "MLKTIQDKARHRTRPLWAWLKLLWQRIDEDNMTTLAGNLAYVSLLSLVPLVAVVFALFAAFPMFSDVSIQLRHFIFANFLPATGDVIQRYIEQFVANSNKMTAVGACGLIVTALLLMYSIDSALNTIWRSKRARPKIYSFAVYWMILTLGPLLAGASLAISSYLLSLRWASDLNTVIDNVLRIFPLLLSWISFWLLYSIVPTIRVPNRDAIVGAFVAALLFEAGKKGFALYITMFPSYQLIYGVLAVIPILFVWVYWTWCIVLLGAEITVTLGEYRKLKQAAEQEEDDEP" "i" "Unambiguous EcoCyc data" -"EG11852-MONOMER" "MIALIQRVTRASVTVEGEVTGEIGAGLLVLLGVEKDDDEQKANRLCERVLGYRIFSDAEGKMNLNVQQAGGSVLVVSQFTLAADTERGMRPSFSKGASPDRAEALYDYFVERCRQQEMNTQTGRFAADMQVSLVNDGPVTFWLQV" "c" "Han et al., 2011" -"EG11853-MONOMER" "MSQLPGLSRETRESIAMYHLRVPQTEEELERYYQFRWEMLRKPLHQPKGSERDAWDAMAHHQMVVDEQGNLVAVGRLYINADNEASIRFMAVHPDVQDKGLGTLMAMTLESVARQEGVKRVTCSAREDAVEFFAKLGFVNQGEITTPTTTPIRHFLMIKPVATLDDILHRGDWCAQLQQAWYEHIPLSEKMGVRIQQYTGQKFITTMPETGNQNPHHTLFAGSLFSLATLTGWGLIWLMLRERHLGGTIILADAHIRYSKPISGKPHAVADLGALSGDLDRLARGRKARVQMQVEIFGDETPGAVFEGTYIVLPAKPFGPYEEGGNEEE" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"EG11854-MONOMER" "MAMNTVFLHLSEEAIKRLNKLRGWRKVSRSAILREAVEQYLERQQFPVRKAKGGRQKGEVVGVDDQCKEHKE" "c" "Han et al., 2011" -"EG11855-MONOMER" "MGRILLDLSNEVIKQLDDLEVQRNLPRADLLREAVDQYLINQSQTARTSVPGIWQGCEEDGVEYQRKLREEW" "c" "Han et al., 2011" -"EG11859-MONOMER" "VKKTQRKEIENVTNITGVRQIELWRRDDLQHPRLDEVAEEVPVALVYNGISHVVMMASPKDLEYFALGFSLSEGIIESPRDIFGMDVVPSCNGLEVQIELSSRRFMGLKERRRALAGRTGCGVCGVEQLNDIGKPVQPLPFTQTFDLNKLDDALRHLNDFQPVGQLTGCTHAAAWMLPSGELVGGHEDVGRHVALDKLLGRRSQEGESWQQGAVLVSSRASYEMVQKSAMCGVEILFAVSAATTLAVEVAERCNLTLVGFCKPGRATVYTHPQRLSN" "c" "Han et al., 2011" -"EG11860-MONOMER" "MKRNLLSSAIIVAIMSLGLTGCDDKKAETETLPPANSQPAAPAPEAKPTEAPVAKAEAKPETPAQPVVDEQAVFDEKMDVYIKCYNKLQIPVQRSLARYADWLKDFKQGPTGEERTVYGIYGISESNLAECEKGVKSAVALTPALQPIDGVAVSYIDAAVALGNTINEMDKYYTQENYKDDAFAKGKTLHQTFLKNLEAFEPVAESYHAAIQEINDKRQLAELKNIEEREGKTFHYYSLAVMISAKQINNLISQDKFDAEAAMKKVSELETLVAQAKEADKGGMNFSFINSAGQYQLEAKKYVRRIRDKVPYSDWDKEQLQDANSSWMVEDSFPRALREYNEMVDDYNSLR" "p" "Han et al., 2011" -"EG11861-MONOMER" "MLNERQLKIVDLLEQQPRTPGELAQQTGVSGRTILRDIDYLNFTLNGKARIFASGSAGYQLEIFERRSFFQLLQKHDNDDRLLALLLLNTFTPRAQLASALNLPETWVAERLPRLKQRYERTCCLASRPGLGHFIDETEEKRVILLANLLRKDPFLIPLAGITRDNLQHLSTACDNQHRWPLMQGDYLSSLILAIYALRNQLTDEWPQYPGDEIKQIVEHSGLFLGDNAVRTLTGLIEKQHQQAQVISADNVQGLLQRVPGIASLNIIDAQLVENITGHLLRCLAAPVWIAEHRQSSMNNLKAAWPAAFDMSLHFITLLREQLDIPLFDSDLIGLYFACALERHQNERQPIILLSDQNAIATINQLAIERDVLNCRVIIARSLSELVAIREEIEPLLIINNSHYLLDDAVNNYITVKNIITAAGIEQIKHFLATAFIRQQPERFFSAPGSFHYSNVRGESWQHITRQICAQLVAQHHITADEAQRIIAREGEGENLIVNRLAIPHCWSEQERRFRGFFITLAQPVEVNNEVINHVLIACAAADARHELKIFSYLASILCQHPAEIIAGLTGYEAFMELLHKG" "c" "Han et al., 2011" -"EG11862-MONOMER" "MNIELLQQLCEASAVSGDEQEVRDILINTLEPCVNEITFDGLGSFVARKGNKGPKVAVVGHMDEVGFMVTHIDESGFLRFTTIGGWWNQSMLNHRVTIRTHKGVKIPGVIGSVAPHALTEKQKQQPLSFDEMFIDIGANSREEVEKRGVEIGNFISPEANFACWGEDKVVGKALDNRIGCAMMAELLQTVNNPEITLYGVGSVEEEVGLRGAQTSAEHIKPDVVIVLDTAVAGDVPGIDNIKYPLKLGQGPGLMLFDKRYFPNQKLVAALKSCAAHNDLPLQFSTMKTGATDGGRYNVMGGGRPVVALCLPTRYLHANSGMISKADYEALLTLIRGFLTTLTAEKVNAFSQFRQVD" "c" "Han et al., 2011" -"EG11865-MONOMER" "MIRKAFVMQVNPDAHEEYQRRHNPIWPELEAVLKSHGAHNYAIYLDKARNLLFAMVEIESEERWNAVASTDVCQRWWKYMTDVMPANPDNSPVSSELQEVFYLP" "c" "Han et al., 2011" -"EG11870-MONOMER" "MRYPVDVYTGKIQAYPEGKPSAIAKIQVDGELMLTELGLEGDEQAEKKVHGGPDRALCHYPREHYLYWAREFPEQAELFVAPAFGENLSTDGLTESNVYMGDIFRWGEALIQVSQPRSPCYKLNYHFDISDIAQLMQNTGKVGWLYSVIAPGKVSADAPLELVSRVSDVTVQEAAAIAWHMPFDDDQYHRLLSAAGLSKSWTRTMQKRRLSGKIEDFSRRLWGK" "c" "Han et al., 2011" -"EG11874-MONOMER" "MKPGCTLFFLLCSALTVTTEAHAQTPDTATTAPYLLAGAPTFDLSISQFREDFNSQNPSLPLNEFRAIDSSPDKANLTRAASKINENLYASTALERGTLKIKSIQMTWLPIQGPEQKAAKAKAQEYMAAVIRTLTPLMTKTQSQKKLQSLLTAGKNKRYYTETEGALRYVVADNGEKGLTFAVEPIKLALSESLEGLNK" "p" "Han et al., 2011" -"EG11875-MONOMER" "MTIQQWLFSFKGRIGRRDFWIWIGLWFAGMLVLFSLAGKNLLDIQTAAFCLVCLLWPTAAVTVKRLHDRGRSGAWAFLMIVAWMLLAGNWAILPGVWQWAVGRFVPTLILVMMLIDLGAFVGTQGENKYGKDTQDVKYKADNKSSN" "i" "Han et al., 2011" -"EG11876-MONOMER" "MKDVVDKCSTKGCAIDIGTVIDNDNCTSKFSRFFATREEAESFMTKLKELAAATSSADEGASVAYKIKDLEGQVELDAAFTFSCQAEMIIFELSLRSLA" "c" "Han et al., 2011" -"EG11877-MONOMER" "MAYKHIGVAISGNEEDALLVNKALELARHNDAHLTLIHIDDGLSELYPGIYFPATEDILQLLKNKSDNKLYKLTKNIQWPKTKLRIERGEMPETLLEIMQKEQCDLLVCGHHHSFINRLMPAYRGMINKMSADLLIVPFIDK" "c" "Han et al., 2011" -"EG11878-MONOMER" "MTMSLEVFEKLEAKVQQAIDTITLLQMEIEELKEKNNSLSQEVQNAQHQREELERENNHLKEQQNGWQERLQALLGRMEEV" "c" "Han et al., 2011" -"EG11879-MONOMER" "MKYDTSELCDIYQEDVNVVEPLFSNFGGRASFGGQIITVKCFEDNGLLYDLLEQNGRGRVLVVDGGGSVRRALVDAELARLAVQNEWEGLVIYGAVRQVDDLEELDIGIQAMAAIPVGAAGEGIGESDVRVNFGGVTFFSGDHLYADNTGIILSEDPLDIE" "c" "Han et al., 2011" -"EG11881-MONOMER" "MSEMTPREIVSELDKHIIGQDNAKRSVAIALRNRWRRMQLNEELRHEVTPKNILMIGPTGVGKTEIARRLAKLANAPFIKVEATKFTEVGYVGKEVDSIIRDLTDAAVKMVRVQAIEKNRYRAEELAEERILDVLIPPAKNNWGQTEQQQEPSAARQAFRKKLREGQLDDKEIEIDLAAAPMGVEIMAPPGMEEMTSQLQSMFQNLGGQKQKARKLKIKDAMKLLIEEEAAKLVNPEELKQDAIDAVEQHGIVFIDEIDKICKRGESSGPDVSREGVQRDLLPLVEGCTVSTKHGMVKTDHILFIASGAFQIAKPSDLIPELQGRLPIRVELQALTTSDFERILTEPNASITVQYKALMATEGVNIEFTDSGIKRIAEAAWQVNESTENIGARRLHTVLERLMEEISYDASDLSGQNITIDADYVSKHLDALVADEDLSRFIL" "c" "Han et al., 2011" -"EG11882-MONOMER" "MKNRLLILSLLVSVPAFAWQPQTGDIIFQISRSSQSKAIQLATHTDYSHTGMLVIRNKKPYVFEAVGPVKYTPLKQWIAHGEKGKYVVRRVEGGLSVEQQQKLAQTAKRYLGKPYDFSFSWSDDRQYCSEVVWKVYQNALGMRVGEQQKLKEFDLSSPQVQAKLKERYGKNIPLEETVVSPQAVFDAPQLTTVAKEWPLFSW" "p" "Han et al., 2011" -"EG11884-MONOMER" "MIIRDENYFTDKYELTRTHSEVLEAVKVVKPGKTLDLGCGNGRNSLYLAANGYDVDAWDKNAMSIANVERIKSIENLDNLHTRVVDLNNLTFDRQYDFILSTVVLMFLEAKTIPGLIANMQRCTKPGGYNLIVAAMDTADYPCTVGFPFAFKEGELRRYYEGWERVKYNEDVGELHRTDANGNRIKLRFATMLARKK" "c" "Han et al., 2011" -"EG11885-MONOMER" "MMKMRWLSAAVMLTLYTSSSWAFSIDDVAKQAQSLAGKGYETPKSNLPSVFRDMKYADYQQIQFNHDKAYWNNLKTPFKLEFYHQGMYFDTPVKINEVTATAVKRIKYSPDYFTFGDVQHDKDTVKDLGFAGFKVLYPINSKDKNDEIVSMLGASYFRVIGAGQVYGLSARGLAIDTALPSGEEFPRFKEFWIERPKPTDKRLTIYALLDSPRATGAYKFVVMPGRDTVVDVQSKIYLRDKVGKLGVAPLTSMFLFGPNQPSPANNYRPELHDSNGLSIHAGNGEWIWRPLNNPKHLAVSSFSMENPQGFGLLQRGRDFSRFEDLDDRYDLRPSAWVTPKGEWGKGSVELVEIPTNDETNDNIVAYWTPDQLPEPGKEMNFKYTITFSRDEDKLHAPDNAWVQQTRRSTGDVKQSNLIRQPDGTIAFVVDFTGAEMKKLPEDTPVTAQTSIGDNGEIVESTVRYNPVTKGWRLVMRVKVKDAKKTTEMRAALVNADQTLSETWSYQLPANE" "p" "Han et al., 2011" -"EG11886-MONOMER" "MNKTTEYIDAMPIAASEKAALPKTDIRAVHQALDAEHRTWAREDDSPQGSVKARLEQAWPDSLADGQLIKDDEGRDQLKAMPEAKRSSMFPDPWRTNPVGRFWDRLRGRDVTPRYLARLTKEEQESEQKWRTVGTIRRYILLILTLAQTVVATWYMKTILPYQGWALINPMDMVGQDLWVSFMQLLPYMLQTGILILFAVLFCWVSAGFWTALMGFLQLLIGRDKYSISASTVGDEPLNPEHRTALIMPICNEDVNRVFAGLRATWESVKATGNAKHFDVYILSDSYNPDICVAEQKAWMELIAEVGGEGQIFYRRRRRRVKRKSGNIDDFCRRWGSQYSYMVVLDADSVMTGDCLCGLVRLMEANPNAGIIQSSPKASGMDTLYARCQQFATRVYGPLFTAGLHFWQLGESHYWGHNAIIRVKPFIEHCALAPLPGEGSFAGSILSHDFVEAALMRRAGWGVWIAYDLPGSYEELPPNLLDELKRDRRWCHGNLMNFRLFLVKGMHPVHRAVFLTGVMSYLSAPLWFMFLALSTALQVVHALTEPQYFLQPRQLFPVWPQWRPELAIALFASTMVLLFLPKLLSILLIWCKGTKEYGGFWRVTLSLLLEVLFSVLLAPVRMLFHTVFVVSAFLGWEVVWNSPQRDDDSTSWGEAFKRHGSQLLLGLVWAVGMAWLDLRFLFWLAPIVFSLILSPFVSVISSRATVGLRTKRWKLFLIPEEYSPPQVLVDTDRFLEMNRQRSLDDGFMHAVFNPSFNALATAMATARHRASKVLEIARDRHVEQALNETPEKLNRDRRLVLLSDPVTMARLHFRVWNSPERYSSWVSYYEGIKLNPLALRKPDAASQ" "i" "Han et al., 2011" -"EG11888-MONOMER" "MLNIVLYEPEIPPNTGNIIRLCANTGFRLHIIEPMGFAWDDKRLRRAGLDYHEFTAVTRHHDYRAFLEAENPQRLFALTTKGTPAHSAVSYQDGDYLMFGPETRGLPASILDALPAEQKIRIPMVPDSRSMNLSNAVSVVVYEAWRQLGYPGAVLRD" "c" "Han et al., 2011" -"EG11889-MONOMER" "MFLIITRDTMFFTAMKNILSKGNVVHIQNEEEIDVMLHQNAFVIIDTLMNNVFHSNFLTQIERLKPVHVIIFSPFNIKRCLGKVPVTFVPRTITIIDFVALINGSYCSVPEAAVSLSRKQHQVLSCIANQMTTEDILEKLKISLKTFYCHKHNIMMILNLKRINELVRHQHIDYLV" "c" "Han et al., 2011" -"EG11890-MONOMER" "MNMTKGALILSLSFLLAACSSIPQNIKGNNQPDIQKSFVAVHNQPGLYVGQQARFGGKVINVINGKTDTLLEISVLPLDSYAKPDIEANYQGRLLARQSGFLDPVNYRNHFVTILGTIQGEQPGFINKVPYNFLEVNMQGIQVWHLREVVNTTYNLWDYGYGAFWPEPGWGAPYYTNAVSQVTPELVK" "o" "Han et al., 2011" -"EG11891-MONOMER" "VRADKSLSPFEIRVYRHYRIVHGTRVALAFLLTFLIIRLFTIPESTWPLVTMVVIMGPISFWGNVVPRAFERIGGTVLGSILGLIALQLELISLPLMLVWCAAAMFLCGWLALGKKPYQGLLIGVTLAIVVGSPTGEIDTALWRSGDVILGSLLAMLFTGIWPQRAFIHWRIQLAKSLTEYNRVYQSAFSPNLLERPRLESHLQKLLTDAVKMRGLIAPASKETRIPKSIYEGIQTINRNLVCMLELQINAYWATRPSHFVLLNAQKLRDTQHMMQQILLSLVHALYEGNPQPVFANTEKLNDAVEELRQLLNNHHDLKVVETPIYGYVWLNMETAHQLELLSNLICRALRK" "i" "Han et al., 2011" -"EG11892-MONOMER" "MNYEIKQEEKRTVAGFHLVGPWEQTVKKGFEQLMMWVDSKNIVPKEWVAVYYDNPDETPAEKLRCDTVVTVPGYFTLPENSEGVILTEITGGQYAVAVARVVGDDFAKPWYQFFNSLLQDSAYEMLPKPCFEVYLNNGAEDGYWDIEMYVAVQPKHH" "c" "Han et al., 2011" -"EG11894-MONOMER" "MVIKKLDVVTQVCPFPLIEAKAALAEMVSGDELVIEFDCTQATEAIPQWAAEEGHAITDYQQIGDAAWSITVQKA" "c" "Han et al., 2011" -"EG11895-MONOMER" "MFSMILSGLICGALLGFVMQRGRFCLTGGFRDMYIVKNNRMFYALLIAISVQSVGVFALIQAGLLTYEAGAFPWLGTVIGGYIFGLGIVLAGGCATGTWYRAGEGLIGSWIALFTYMVMSAVMRSPHASGLNQTLQHYSTEHNSIAETFNLSVWPLVAVLLVITLWVVMKELKKPKLKVATLPPRRTGIAHILFEKRWHPFVTAVLIGLIALLAWPLSEATGRMFGLGITSPTANILQFLVAGDMKYINWGVFLVLGIFVGSFIAAKASREFRVRAADAQTTLRSGLGGVLMGFGASIAGGCSIGNGLVMTAMMTWQGWIGLVFMILGVWTASWLVYVRPQRKARLATAAAN" "i" "Han et al., 2011" -"EG11899-MONOMER" "MTKQPPIAKADLQKTQGNRAPAAVKNSDVISFINQPSMKEQLAAALPRHMTAERMIRIATTEIRKVPALGNCDTMSFVSAIVQCSQLGLEPGSALGHAYLLPFGNKNEKSGKKNVQLIIGYRGMIDLARRSGQIASLSARVVREGDEFSFEFGLDEKLIHRPGENEDAPVTHVYAVARLKDGGTQFEVMTRKQIELVRSLSKAGNNGPWVTHWEEMAKKTAIRRLFKYLPVSIEIQRAVSMDEKEPLTIDPADSSVLTGEYSVIDNSEE" "c" "Han et al., 2011" -"EG11900-MONOMER" "MRYDNVKPCPFCGCPSVTVKAISGYYRAKCNGCESRTGYGGSEKEALERWNKRTTGNNNGGVHV" "c" "Han et al., 2011" -"EG11901-MONOMER" "MYKITATIEKEGGTPTNWTRYSKSKLTKSECEKMLSGKKEAGVSREQKVKLINFNCEKLQSSRIALYSN" "c" "Han et al., 2011" -"EG11902-MONOMER" "MSAAGKSNPLAISGLVVLTLIWSYSWIFMKQVTSYIGAFDFTALRCIFGALVLFIVLLLRGRGMRPTPFKYTLAIALLQTCGMVGLAQWALVSGGAGKVAILSYTMPFWVVIFAALFLGERLRRGQYFAILIAAFGLFLVLQPWQLDFSSMKSAMLAILSGVSWGASAIVAKRLYARHPRVDLLSLTSWQMLYAALVMSVVALLVPQREIDWQPTVFWALAYSAILATALAWSLWLFVLKNLPASIASLSTLAVPVCGVLFSWWLLGENPGAVEGSGIVLIVLALALVSRKKKEAVSVKRI" "i" "Han et al., 2011" -"EG11903-MONOMER" "MKASLALLSLLTAFTSHSLKSPAVPPTVVQIQANTNLAIADGARQQIGSTLFYDPAYVQLTYPGGDVPQERGVCSDVVIRALRSQKVDLQKLVHEDMAKNFAEYPQKWKLKRPDSNIDHRRVPNLETWFSRHDKTRPTSKNPSDYQAGDIVSWRLDNGLAHIGVVSDGFARDGTPLVIHNIGAGAQEEDVLFNWRMVGHYRYFVK" "i" "Han et al., 2011" -"EG11905-MONOMER" "MELYLDTANVAEVERLARIFPIAGVTTNPSIIAASKESIWEVLPRLQKAIGDEGILFAQTMSRDAQGMVEEAKRLRDAIPGIVVKIPVTSEGLAAIKILKKEGITTLGTAVYSAAQGLLAALAGAKYVAPYVNRVDAQGGDGIRTVQELQTLLEMHAPESMVLAASFKTPRQALDCLLAGCESITLPLDVAQQMLNTPAVESAIEKFEHDWNAAFGTTHL" "c" "Han et al., 2011" -"EG11906-MONOMER" "MALIVEFICELPNGVHARPASHVETLCNTFSSQIEWHNLRTDRKGNAKSALALIGTDTLAGDNCQLLISGADEQEAHQRLSQWLRDEFPHCDAPLAEVKSDELEPLPVSLTNLNPQIIRARTVCSGSAGGILTPISSLDLNALGNLPAAKGVDAEQSALENGLTLVLKNIEFRLLDSDGATSAILEAHRSLAGDTSLREHLLAGVSAGLSCAEAIVASANHFCEEFSRSSSSYLQERALDVRDVCFQLLQQIYGEQRFPAPGKLTQPAICMADELTPSQFLELDKNHLKGLLLKSGGTTSHTVILARSFNIPTLVGVDIDALTPWQQQTIYIDGNAGAIVVEPGEAVARYYQQEARVQDALREQQRVWLTQQARTADGIRIEIAANIAHSVEAQAAFGNGAEGVGLFRTEMLYMDRTSAPGESELYNIFCQALESANGRSIIVRTMDIGGDKPVDYLNIPAEANPFLGYRAVRIYEEYASLFTTQLRSILRASAHGSLKIMIPMISSMEEILWVKEKLAEAKQQLRNEHIPFDEKIQLGIMLEVPSVMFIIDQCCEEIDFFSIGSNDLTQYLLAVDRDNAKVTRHYNSLNPAFLRALDYAVQAVHRQGKWIGLCGELGAKGSVLPLLVGLGLDELSMSAPSIPAAKARMAQLDSRECRKLLNQAMACRTSLEVEHLLAQFRMTQQDAPLVTAECITLESDWRSKEEVLKGMTDNLLLAGRCRYPRKLEADLWAREAVFSTGLGFSFAIPHSKSEHIEQSTISVARLQAPVRWGDDEAQFIIMLTLNKHAAGDQHMRIFSRLARRIMHEEFRNALVNAASADAIASLLQHELEL" "c" "Han et al., 2011" -"EG11910-MONOMER" "MTNRISRLKTALFANTREISLERALLYTASHRQTEGEPVILRRAKATAYILEHVEISIRDEELIAGNRTVKPRAGIMSPEMDPYWLLKELDQFPTRPQDRFAISEEDKRIYREELFPYWEKRSMKDFINGQMTDEVKAATNTQIFSINQTDKGQGHIIIDYPRLLNHGLGELVAQMQQHCQQQPENHFYQAALLLLEASQKHILRYAELAETMAANCTDAQRREELLTIAEISRHNAQHKPQTFWQACQLFWYMNIILQYESNASSLSLGRFDQYMLPFYQTSLTQGEDAAFLKELLESLWVKCNDIVLLRSTSSARYFAGFPTGYTALLGGLTENGRSAVNVLSFLCLDAYQSVQLPQPNLGVRTNALIDTPFLMKTAETIRFGTGIPQIFNDEVVVPAFLNRGVSLEDARDYSVVGCVELSIPGRTYGLHDIAMFNLLKVMEICLHENEGNAALTYEGLLEQIRAKISHYITLMVEGSNICDIGHRDWAPVPLLSSFISDCLEKGRDITDGGARYNFSGVQGIGIANLSDSLHALKGMVFEQQRLSFDELLSVLKANFATPEGEKVRARLINRFEKYGNDIDEVDNISAELLRHYCKEVEKYQNPRGGYFTPGSYTVSAHVPLGSVVGATPDGRFAGEQLADGGLSPMLGQDAQGPTAVLKSVSKLDNTLLSNGTLLNVKFTPATLEGEAGLRKLADFLRAFTQLKLQHIQFNVVNADTLREAQQRPQDYAGLVVRVAGYSAFFVELSKEIQDDIIRRTAHQL" "c" "Han et al., 2011" -"EG11911-MONOMER" "MTSSAGQRISCNVVETRRDDVARIFNIQRYSLNDGEGIRTVVFFKGCPHLCPWCANPESISGKIQTVRREAKCLHCAKCLRDADECPSGAFERIGRDISLDALEREVMKDDIFFRTSGGGVTLSGGEVLMQAEFATRFLQRLRLWGVSCAIETAGDAPASKLLPLAKLCDEVLFDLKIMDATQARDVVKMNLPRVLENLRLLVSEGVNVIPRLPLIPGFTLSRENMQQALDVLIPLNIRQIHLLPFHQYGEPKYRLLGKTWSMKEVPAPSSADVATMREMAERAGLQVTVGG" "c" "Han et al., 2011" -"EG11912-MONOMER" "MAYLVAVTACVSGVAHTYMAAERLEKLCLLEKWGVSIETQGALGTENRLADEDIRRADVALLITDIELAGAERFEHCRYVQCSIYAFLREPQRVMSAVRKVLSAPQQTHLILE" "c" "Han et al., 2011" -"EG11913-MONOMER" "MYHDVSYLLSRLINGPLSLRQIYFASSNGPVPDLAYQVDFPRLEIVLEGEFVDTGAGATLVPGDVLYVPAGGWNFPQWQAPATTFSVLFGKQQLGFSVVQWDGKQYQNLAKQHVARRGPRIGSFLLQTLNEMQMQPQEQQTARLIVASLLSHCRDLLGSQIQTASRSQALFEAIRDYIDERYASALTRESVAQAFYISPNYLSHLFQKTGAIGFNEYLNHTRLEHAKTLLKGYDLKVKEVAHACGFVDSNYFCRLFRKNTERSPSEYRRQYHSQLTEKPTTPE" "c" "Han et al., 2011" -"EG11914-MONOMER" "MHSTEVQAKPLFSWKALGWALLYFWFFSTLLQAIIYISGYSGTNGIRDSLLFSSLWLIPVFLFPKRIKIIAAVIGVVLWAASLAALCYYVIYGQEFSQSVLFVMFETNTNEASEYLSQYFSLKIVLIALAYTAVAVLLWTRLRPVYIPKPWRYVVSFALLYGLILHPIAMNTFIKNKPFEKTLDNLASRMEPAAPWQFLTGYYQYRQQLNSLTKLLNENNALPPLANFKDESGNEPRTLVLVIGESTQRGRMSLYGYPRETTPELDALHKTDPNLTVFNNVVTSRPYTIEILQQALTFANEKNPDLYLTQPSLMNMMKQAGYKTFWITNQQTMTARNTMLTVFSRQTDKQYYMNQQRTQSAREYDTNVLKPFQEVLNDPAPKKLIIVHLLGTHIKYKYRYPENQGKFDGNTDHVPPGLNAEELESYNDYDNANLYNDHVVASLIKDFKAANPNGFLVYFSDHGEEVYDTPPHKTQGRNEDNPTRHMYTIPFLLWTSEKWQATHPRDFSQDVDRKYSLAELIHTWSDLAGLSYDGYDPTRSVVNPQFKETTRWIGNPYKKNALIDYDTLPYGDQVGNQ" "i" "Han et al., 2011" -"EG11915-MONOMER" "MDLASLRAQQIELASSVIREDRLDKDPPDLIAGADVGFEQGGEVTRAAMVLLKYPSLELVEYKVARIATTMPYIPGFLSFREYPALLAAWEMLSQKPDLVFVDGHGISHPRRLGVASHFGLLVDVPTIGVAKKRLCGKFEPLSSEPGALAPLMDKGEQLAWVWRSKARCNPLFIATGHRVSVDSALAWVQRCMKGYRLPEPTRWADAVASERPAFVRYTANQP" "c" "Han et al., 2011" -"EG11916-MONOMER" "MLQNPIHLRLERLESWQHVTFMACLCERMYPNYAMFCQQTGFGDGQIYRRILDLIWETLTVKDAKVNFDSQLEKFEEAIPSADDFDLYGVYPAIDACVALSELVHSRLSGETLEHAVEVSKTSITTVAMLEMTQAGREMSDEELKENPAVEQEWDIQWEIFRLLAECEERDIELIKGLRADLREAGESNIGIIFQQ" "c" "Han et al., 2011" -"EG11917-MONOMER" "VNSFNEGVVSPLLSFWRRSLMLAGALLLTACSHNSSLPPFTASGFAEDQGAVRIWRKDSGDNVHLLAVFSPWRSGDTTTREYRWQGDNLTLININVYSKPPVNIRARFDDRGDLSFMQRESDGEKQQLSNDQIDLYRYRADQIRQISDALRQGRVVLRQGRWHAMEQTVTTCEGQTIKPDLDSQAIAHIERRQSRSSVDVSVAWLEAPEGSQLLLVANSDFCRWQPNEKTF" "i" "Han et al., 2011" -"EG11918-MONOMER" "MKRNTKIALVMMALSAMAMGSTSAFAHGGHGMWQQNAAPLTSEQQTAWQKIHNDFYAQSSALQQQLVTKRYEYNALLAANPPDSSKINAVAKEMENLRQSLDELRVKRDIAMAEAGIPRGAGMGMGYGGCGGGGHMGMGHW" "p" "Han et al., 2011" -"EG11919-MONOMER" "VLTLLHLLSAVALLVWGTHIVRTGVMRVFGARLRTVLSRSVEKKPLAFCAGIGVTALVQSSNATTMLVTSFVAQDLVALAPALVIVLGADVGTALMARILTFDLSWLSPLLIFIGVIFFLGRKQSRAGQLGRVGIGLGLILLALELIVQAVTPITQANGVQVIFASLTGDILLDALIGAMFAIISYSSLAAVLLTATLTAAGIISFPVALCLVIGANLGSGLLAMLNNSAANAAARRVALGSLLFKLVGSLIILPFVHLLAETMGKLSLPKAELVIYFHVFYNLVRCLVMLPFVDPMARFCKTIIRDEPELDTQLRPKHLDVSALDTPTLALANAARETLRIGDAMEQMMEGLNKVMHGEPRQEKELRKLADDINVLYTAIKLYLARMPKEELAEEESRRWAEIIEMSLNLEQASDIVERMGSEIADKSLAARRAFSLDGLKELDALYEQLLSNLKLAMSVFFSGDVTSARRLRRSKHRFRILNRRYSHAHVDRLHQQNVQSIETSSLHLGLLGDMQRLNSLFCSVAYSVLEQPDEDEGRDEY" "i" "Han et al., 2011" -"EG11920-MONOMER" "MELLLLSNSTLPGKAWLEHALPLIAEQLQGRRSAVFIPFAGVTQTWDDYTAKTAAVLAPLGVSVTGIHSVVDPVAAIENAEIVIVGGGNTFQLLKQCRERGLLAPITDVVKRGALYIGWSAGANLACPTIRTTNDMPIVDPQGFDALNLFPLQINPHFTNALPEGHKGETREQRIRELLVVAPELTIIGLPEGNWITVSKGHATLGGPNTTYVFKAGEEAVPLEAGHRF" "c" "Han et al., 2011" -"EG11921-MONOMER" "MLPDSSVRLNKYISESGICSRREADRYIEQGNVFLNGKRATIGDQVKPGDVVKVNGQLIEPREAEDLVLIALNKPVGIVSTTEDGERDNIVDFVNHSKRVFPIGRLDKDSQGLIFLTNHGDLVNKILRAGNDHEKEYLVTVDKPITEEFIRGMSAGVPILGTVTKKCKVKKEAPFVFRITLVQGLNRQIRRMCEHFGYEVKKLERTRIMNVSLSGIPLGEWRDLTDDELIDLFKLIENSSSEVKPKAKAKPKTAGIKRPVVKMEKTAEKGGRPASNGKRFTSPGRKKKGR" "c" "Han et al., 2011" -"EG11922-MONOMER" "MALPRITQKEMTEREQRELKTLLDRARIAHGRVLTNSETNSIKKDYIDKLMVEREAEAKKARQLKKKQAYKPDPEASFSWSANTSTRGRR" "c" "Han et al., 2011" -"EG11923-MONOMER" "MKKVLYGIFAISALAATSAWAAPVQVGEAAGSAATSVSAGSSSATSVSTVSSAVGVALAATGGGDGSNTGTTTTTTTSTQ" "p" "Han et al., 2011" -"EG11924-MONOMER" "VKRPALILICLLLQACSATTKELGNSLWDSLFGTPGVQLTDDDIQNMPYASQYMQLNGGPQLFVVLAFAEDGQQKWVTQDQATLVTQHGRLVKTLLGGDNLIEVNNLAADPLIKPAQIVDGASWTRTMGWTEYQQVRYATARSVFKWDGTDTVKVGSDETPVRVLDEEVSTDQARWHNRYWIDSEGQIRQSEQYLGADYFPVKTTLIKAAKQ" "i" "Han et al., 2011" -"EG11925-MONOMER" "MIKQTIVALLLSVGASSVFAAGTVKVFSNGSSEAKTLTGAEHLIDLVGQPRLANSWWPGAVISEELATAAALRQQQALLTRLAEQGADSSADDAAAINALRQQIQALKVTGRQKINLDPDIVRVAERGNPPLQGNYTLWVGPPPSTVTLFGLISRPGKQPFTPGRDVASYLSDQSLLSGADRSYAWVVYPDGRTQKAPVAYWNKRHVEPMPGSIIYVGLADSVWSETPDALNADILQTLTQRIPQ" "p" "Han et al., 2011" -"EG11926-MONOMER" "MKKRHLLSLLALGISTACYGETYPAPIGPSQSDFGGVGLLQTPTARMAREGELSLNYRDNDQYRYYSASVQLFPWLETTLRYTDVRTRQYSSVEAFSGDQTYKDKAFDLKLRLWEESYWLPQVAVGARDIGGTGLFDAEYLVASKAWGPFDFTLGLGWGYLGTSGNVKNPLCSASDKYCYRDNSYKQAGSIDGSQMFHGPASLFGGVEYQTPWQPLRLKLEYEGNNYQQDFAGKLEQKSKFNVGAIYRVTDWADVNLSYERGNTFMFGVTLRTNFNDLRPSYNDNARPQYQPQPQDAILQHSVVANQLTLLKYNAGLADPQIQAKGDTLYVTGEQVKYRDSREGIIRANRIVMNDLPDGIKTIRITENRLNMPQVTTETDVASLKNHLAGEPLGHETTLAQKRVEPVVPQSTEQGWYIDKSRFDFHIDPVLNQSVGGPENFYMYQLGVMGTADLWLTDHLLTTGSLFANLANNYDKFNYTNPPQDSHLPRVRTHVREYVQNDVYVNNLQANYFQHLGNGFYGQVYGGYLETMFGGAGAEVLYRPLDSNWAFGLDANYVKQRDWRSAKDMMKFTDYSVKTGHLTAYWTPSFAQDVLVKASVGQYLAGDKGGTLEIAKRFDSGVVVGGYATITNVSKEEYGEGDFTKGVYVSVPLDLFSSGPTRSRAAIGWTPLTRDGGQQLGRKFQLYDMTSDRSVNFR" "o" "Han et al., 2011" -"EG11927-MONOMER" "MKKIECACNFLMDKDAQGYIDLSDLDLTSCHFKGDVISKVSFLSSNLQHVTFECKEIGDCNFTTAIVDNVIFRCRRLHNVIFIKASGECVDFSKNILDTVDFSQSQLGHSNFRECQIRNSNFDNCYLYASHFTRAEFLSAKEISFIKSNLTAVMFDYVRMSTGNFKDCITEQLELTIDYSDIFWNEDLDGYINNIIKMIDTLPDNAMILKSVLAVKLVMQLKILNIVNKNFIENMKKIFSHCPYIKDPIIRSYIHSDEDNKFDDFMRQHRFSEVNFDTQQMIDFINRFNTNKWLIDKNNNFFIQLIDQALRSTDDMIKANVWHLYKEWIRSDDVSPIFIETEDNLRTFNTNELTRNDNIFILFSSVDDGPVMVVSSQRLHDMLNPTKDTNWNSTYIYKSRHEMLPVNLTQETLFSSKSHGKYALFPIFTASWRAHRIMNKGV" "c" "Han et al., 2011" -"EG11928-MONOMER" "MNKDEAGGNWKQFKGKVKEQWGKLTDDDMTIIEGKRDQLVGKIQERYGYQKDQAEKEVVDWETRNEYRW" "c" "Han et al., 2011" -"EG11929-MONOMER" "MEKTTTQELLAQAEKICAQRNVRLTPQRLEVLRLMSLQDGAISAYDLLDLLREAEPQAKPPTVYRALDFLLEQGFVHKVESTNSYVLCHLFDQPTHTSAMFICDRCGAVKEECAEGVEDIMHTLAAKMGFALRHNVIEAHGLCAACVEVEACRHPEQCQHDHSVQVKKKPR" "c" "Han et al., 2011" -"EG11930-MONOMER" "MLKIIPGATGYFNKTLNSNQFDNEDAIKDKLDNRGSIKGKLNNIYGKSIDYAALRHRDIIIAKIDLFIQRITHNLWHARKKMCF" "c" "Han et al., 2011" -"EG11931-MONOMER" "MWVNKYIDDCTDEDLNDRDFIASVVDRAIFHFAINSICNPGDNKDAMPIEQCTFDVETKNDLPSTVQLFYEESKDNEPLANIHFQAIGSGFLTFVNACQEHDDNSLKLFASLLISLSYSSAYADLSETVYINENNESYLKAQFEKLSQRDMKKYLGEMKRLADGGEMNFDGYLDKMSHLVNEGTLDPDILSKMRDAAPQLISFAKSFDPTSKEEIKILTDTSKLIYDLFGVKSEK" "c" "Han et al., 2011" -"EG11932-MONOMER" "MHGNSEMQKINQTSAMPEKTDVHWSGRFSVAPMLDWTDRHCRYFLRLLSRNTLLYTEMVTTGAIIHGKGDYLAYSEEEHPVALQLGGSDPAALAQCAKLAEARGYDEINLNVGCPSDRVQNGMFGACLMGNAQLVADCVKAMRDVVSIPVTVKTRIGIDDQDSYEFLCDFINTVSGKGECEMFIIHARKAWLSGLSPKENREIPPLDYPRVYQLKRDFPHLTMSINGGIKSLEEAKAHLQHMDGVMVGREAYQNPGILAAVDREIFGSSDTDADPVAVVRAMYPYIERELSQGTYLGHITRHMLGLFQGIPGARQWRRYLSENAHKAGADINVLEHALKLVADKR" "c" "Han et al., 2011" -"EG11933-MONOMER" "MLELLFVIGFFVMLMVTGVSLLGIIAALVVATAIMFLGGMLALMIKLLPWLLLAIAVVWVIKAIKAPKVPKYQRYDRWRY" "i" "Han et al., 2011" -"EG11935-MONOMER" "MWYQKTLTLSAKSRGFHLVTDEILNQLADMPRVNIGLLHLLLQHTSASLTLNENCDPTVRHDMERFFLRTVPDNGNYEHDYEGADDMPSHIKSSMLGTSLVLPVHKGRIQTGTWQGIWLGEHRIHGGSRRIIATLQGE" "c" "Han et al., 2011" -"EG11936-MONOMER" "MTISELLQYCMAKPGAEQSVHNDWKATQIKVEDVLFAMVKEVENRPAVSLKTSPELAELLRQQHSDVRPSRHLNKAHWSTVYLDGSLPDSQIYYLVDASYQQAVNLLPEEKRKLLVQL" "c" "Han et al., 2011" -"EG11937-MONOMER" "MATLTTGVVLLRWQLLSAVMMFLASTLNIRFRRSDYVGLAVISSGLGVVSACWFAMGLLGITMADITAIWHNIESVMIEEMNQTPPQWPMILT" "i" "Han et al., 2011" -"EG11938-MONOMER" "MSHRARHQLLALPGIIFLVLFPIILSLWIAFLWAKSEVNNQLRTFAQLALDKSELVIRQADLVSDAAERYQGQVCTPAHQKRMLNIIRGYLYINELIYARDNHFLCSSLIAPVNGYTIAPADYKREPNVSIYYYRDTPFFSGYKMTYMQRGNYVAVINPLFWSEVMSDDPTLQWGVYDTVTKTFFSLSKEASAATFSPLIHLKDLTVQRNGYLYATVYSTKRPIAAIVATSYQRLITHFYNHLIFALPAGILGSLVLLLLWLRIRQNYLSPKRKLQRALEKHQLCLYYQPIIDIKTEKCIGAEALLRWPGEQGQIMNPAEFIPLAEKEGMIEQITDYVIDNVFRDLGDYLATHADRYVSINLSASDFHTSRLIARINQKTEQYAVRPQQIKFEVTEHAFLDVDKMTPIILAFRQAGYEVAIDDFGIGYSNLHNLKSLNVDILKIDKSFVETLTTHKTSHLIAEHIIELAHSLGLKTIAEGVETEEQVNWLRKRGVRYCQGWFFAKAMPPQVFMQWMEQLPARELTRGQ" "i" "Unambiguous EcoCyc data" -"EG11939-MONOMER" "MSTPSARTGGSLDAWFKISQRGSTVRQEVVAGLTTFLAMVYSVIVVPGMLGKAGFPPAAVFVATCLVAGLGSIVMGLWANLPLAIGCAISLTAFTAFSLVLGQHISVPVALGAVFLMGVLFTVISATGIRSWILRNLPHGVAHGTGIGIGLFLLLIAANGVGLVIKNPLDGLPVALGDFATFPVIMSLVGLAVIIGLEKLKVPGGILLTIIGISIVGLIFDPNVHFSGVFAMPSLSDENGNSLIGSLDIMGALNPVVLPSVLALVMTAVFDATGTIRAVAGQANLLDKDGQIIDGGKALTTDSMSSVFSGLVGAAPAAVYIESAAGTAAGGKTGLTAITVGVLFLLILFLSPLSYLVPGYATAPALMYVGLLMLSNVAKIDFADFVDAMAGLVTAVFIVLTCNIVTGIMIGFATLVIGRLVSGEWRKLNIGTVVIAVALVTFYAGGWAI" "i" "Han et al., 2011" -"EG11941-MONOMER" "MRYNGLNNMFFPLCLINDNHSVTSPSHTKKTKSDNYSKHHKNTLIDNKALSLFKMDDHEKVIGLIQKMKRIYDSLPSGKITKETDRKIHKYFIDIASHANNKCDDRITRRVYLNKDKEVSIKVVYFINNVTVHNNTIEIPQTVNGGYDFSHLSLKGIVIKDEDLSNSNFAGCRLQNAIFQDCNMYKTNFNFAIMEKILFDNCILDDSNFAQIKMTDGTLNSCSAMHVQFYNATMNRANIKNTFLDYSNFYMAYMAEVNLYKVIAPYINLFRADLSFSKLDLINFEHADLSRVNLNKATLQNINLIDSKLFFTRLTNTFLEMVICTDSNMANVNFNNANLSNCHFNCSVLTKAWMFNIRLYRVNFDEASVQGMGITILRGEENISINSDILVTLQKFFEEDCATHTGMSQTEDNLHAVAMKITADIMQDAD" "c" "Han et al., 2011" -"EG11948-MONOMER" "VLTPLTAFAGVRLRWPAMMRLTCIGILAQFALLLLAFGVLTYCFLISDFSVIYVAQHSYSLLSWELKLAAVWGGHEGSLLLWVLLLSAWSALFAWHYRQQTDPLFPLTLAVLSLMLAALLLFVVLWSDPFVRIFPPAIEGRDLNPMLQHPGLIFHPPLLYLGYGGLMVAASVALASLLRGEFDGACARICWRWALPGWSALTAGIILGSWWAYCELGWGGWWFWDPVENASLLPWLSATALLHSLSLTRQRGIFCHWSLLLAIVTLMLSLLGTLIVRSGILVSVHAFALDNVRAVPLFSLFALISLASLALYGWRARDGGPAVHFSGLSREMLILATLLLFCAVLLIVLVGTLYPMIYGLLGWGRLSVGAPYFNRATLPFGLLMLVVIVLATFVSGKRVQLPALVAHAGVLLFAAGVVVSSVSRQEISLNLQPGQQVTLAGYTFRFECLDLQAKGNYTSEKAIVALFDHQQRIGELTPERRFYEARRQQMMEPSIRWNGIHDWYAVMGEKTGPDRYAFRLYVQSGVRWIWGGGLLMIAGALLSGWRGKKRDE" "i" "Han et al., 2011" -"EG11949-MONOMER" "MNKGLLTLLLLFTCFAHAQVVDTWQFANPQQQQQALNIASQLRCPQCQNQNLLESNAPVAVSMRHQVYSMVAEGKNEVEIIGWMTERYGDFVRYNPPLTGQTLVLWALPVVLLLLMALILWRVRAKR" "p" "Han et al., 2011" -"EG11950-MONOMER" "MKQPKIPVKMLTTLTILMVFLCVGSYLLSPKWQAVRAEYQRQRDPLHQFASQQTPEAQLQALQDKIRANPQNSEQWALLGEYYLWQNDYSNSLLAYRQALQLRGENAELYAALATVLYYQASQHMTAQTRAMIDKALALDSNEITALMLLASDAFMQANYAQAIELWQKVMDLNSPRVNRTQLVESINMAKLLQRRLD" "i" "Han et al., 2011" -"EG11951-MONOMER" "MKKIIALMLFLTFFAHANDSEPGSQYLKAAEAGDRRAQYFLADSWFSSGDLSKAEYWAQKAADSGDADACALLAQIKITNPVSLDYPQAKVLAEKAAQAGSKEGEVTLAHILVNTQAGKPDYPKAISLLENASEDLENDSAVDAQMLLGLIYANGVGIKADDDKATWYFKRSSAISRTGYSEYWAGMMFLNGEEGFIEKNKQKALHWLNLSCMEGFDTGCEEFEKLTNG" "p" "Han et al., 2011" -"EG11952-MONOMER" "MINRQLSRLLLCSILGSTTLISGCALVRKDSAPHQQLKPEQIKLADDIHLASSGWPQAQWWKQLNDPQLDALIQRTLSGSHTLAEAKLREEKAQSQADLLDAGSQLQVAALGMLNRQRVSANGFLSPYSMDAPALGMDGPYYTEATVGLFAGLDLDLWGVHRSAVAAAIGAHNAALAETAAVELSLATGVAQLYYSMQASYQMLDLLEQTHDVIDYAVKAHQSKVAHGLEAQVPFHGARAQILAVDKQIVAVKGQITETRESLRALIGAGASDMPEIRPVALPQVQTGIPATLSYELLARRPDLQAMRWYVQASLDQVDSARALFYPSFDIKAFFGLDSIHLHTLFKKTSRQFNFIPGLKLPLFDGGRLNANLEGTRAASNMMIERYNQSVLNAVRDVAVNGTRLQTLNDEREMQAERVEATRFTQRAAEAAYQRGLTSRLQATEARLPVLAEEMSLLMLDSRRVIQSIQLMKSLGGGYQAGPVVEKK" "e" "EcoCyc dump" -"EG11954-MONOMER" "MESTPKKAPRSKFPALLVVALALVALVFVIWRVDSAPSTNDAYASADTIDVVPEVSGRIVELAVTDNQAVKQGDLLFRIDPRPYEANLAKAEASLAALDKQIMLTQRSVDAQQFGADSVNATVEKARAAAKQATDTLRRTEPLLKEGFVSAEDVDRARTAQRAAEADLNAVLLQAQSAASAVSGVDALVAQRAAVEADIALTKLHLEMATVRAPFDGRVISLKTSVGQFASAMRPIFTLIDTRHWYVIANFRETDLKNIRSGTPATIRLMSDSGKTFEGKVDSIGYGVLPDDGGLVLGGLPKVSRSINWVRVAQRFPVKIMVDKPDPEMFRIGASAVANLEPQ" "i" "Han et al., 2011" -"EG11955-MONOMER" "MNNSRLFRLSRIVIALTAASGMMVNTANAKEEAKAATQYTQQVNQNYAKSLPFSDRQDFDDAQRGFIAPLLDEGILRDANGKVYYRADDYKFDINAAAPETVNPSLWRQSQINGISGLFKVTDKMYQVRGQDISNITFVEGEKGIIVIDPLVTPPAAKAALDLYFQHRPQKPIVAVIYTHSHTDHYGGVKGIISEADVKSGKVQVIAPAGFMDEAISENVLAGNIMSRRALYSYGLLLPHNAQGNVGNGLGVTLATGDPSIIAPTKTIVRTGEKMIIDGLEFDFLMTPGSEAPAEMHFYIPALKALCTAENATHTLHNFYTLRGAKTRDTSKWTEYLNETLDMWGNDAEVLFMPHTWPVWGNKHINDYIGKYRDTIKYIHDQTLHLANQGYTMNEIGDMIKLPPALANNWASRGYYGSVSHNARAVYNFYLGYYDGNPANLHPYGQVEMGKRYVQALGGSARVINLAQEANKQGDYRWSAELLKQVIAANPGDQVAKNLQANNFEQLGYQAESATWRGFYLTGAKELREGVHKFSHGTTGSPDTIRGMSVEMLFDFMAVRLDSAKAAGKNISLNFNMSNGDNLNLTLNDSVLNYRKTLQPQADASFYISREDLHAVLTGQAKMADLVKAKKAKIIGNGAKLEEIIACLDNFDLWVNIVTPN" "p" "Han et al., 2011" -"EG11956-MONOMER" "MQKQHNVVAGVDMGATHIRFCLRTAEGETLHCEKKRTAEVIAPGLVSGIGEMIDEQLRRFNARCHGLVMGFPALVSKDKRTIISTPNLPLTAADLYDLADKLENTLNCPVEFSRDVNLQLSWDVVENRLTQQLVLAAYLGTGMGFAVWMNGAPWTGAHGVAGELGHIPLGDMTQHCACGNPGCLETNCSGMALRRWYEQQPRNYPLRDLFVHAENAPFVQSLLENAARAIATSINLFDPDAVILGGGVMDMPAFPRETLVAMTQKYLRRPLPHQVVRFIAASSSDFNGAQGAAILAHQRFLPQFCAKAP" "c" "Han et al., 2011" -"EG11957-MONOMER" "MKISPSLMCMDLLKFKEQIEFIDSHADYFHIDIMDGHFVPNLTLSPFFVSQVKKLATKPLDCHLMVTRPQDYIAQLARAGADFITLHPETINGQAFRLIDEIRRHDMKVGLILNPETPVEAMKYYIHKADKITVMTVDPGFAGQPFIPEMLDKLAELKAWREREGLEYEIEVDGSCNQATYEKLMAAGADVFIVGTSGLFNHAENIDEAWRIMTAQILAAKSEVQPHAKTA" "c" "Han et al., 2011" -"EG11962-MONOMER" "MIVLPRRLSDEVADRVRALIDEKNLEAGMKLPAERQLAMQLGVSRNSLREALAKLVSEGVLLSRRGGGTFIRWRHDTWSEQNIVQPLKTLMADDPDYSFDILEARYAIEASTAWHAAMRATPGDKEKIQLCFEATLSEDPDIASQADVRFHLAIAEASHNIVLLQTMRGFFDVLQSSVKHSRQRMYLVPPVFSQLTEQHQAVIDAIFAGDADGARKAMMAHLSFVHTTMKRFDEDQARHARITRLPGEHNEHSREKNA" "c" "Han et al., 2011" -"EG11964-MONOMER" "MKEVEKNEIKRLSDRLDAIRHQQADLSLVEAADKYAELEKEKATLEAEIARLREVHSQKLSKEAQKLMKMPFQRAITKKEQADMGKLKKSVRGLVVVHPMTALGREMGLQEMTGFSKTAF" "c" "Han et al., 2011" -"EG11966-MONOMER" "MRICSDQPCIVLLTEKDVWIRVNGKEPISLKANHMALLNCENNIIDVSSLNNTLVAHISHDIIKDYLRFLNKDLSQIPVWQRSATPILTLPCLTPDVFRVAAQHSMMPAETESEKERTRALLFTVLSRFLDSKKFVSLMMYMLRNCVSDSVYQIIESDIHKDWNLSMVASCLCLSPSLLKKKLKSENTSYSQIITTCRMRYAVNELMMDGKNISQVSQSCGYNSTSYFISVFKDFYGMTPLHYVSQHRERTVA" "c" "Han et al., 2011" -"EG11967-MONOMER" "MSSLINNAMSGLNAAQAALNTASNNISSYNVAGYTRQTTIMAQANSTLGAGGWVGNGVYVSGVQREYDAFITNQLRAAQTQSSGLTARYEQMSKIDNMLSTSTSSLATQMQDFFTSLQTLVSNAEDPAARQALIGKSEGLVNQFKTTDQYLRDQDKQVNIAIGASVDQINNYAKQIASLNDQISRLTGVGAGASPNNLLDQRDQLVSELNQIVGVEVSVQDGGTYNITMANGYSLVQGSTARQLAAVPSSADPSRTTVAYVDGTAGNIEIPEKLLNTGSLGGILTFRSQDLDQTRNTLGQLALAFAEAFNTQHKAGFDANGDAGEDFFAIGKPAVLQNTKNKGDVAIGATVTDASAVLATDYKISFDNNQWQVTRLASNTTFTVTPDANGKVAFDGLELTFTGTPAVNDSFTLKPVSDAIVNMDVLITDEAKIAMASEEDAGDSDNRNGQALLDLQSNSKTVGGAKSFNDAYASLVSDIGNKTATLKTSSATQGNVVTQLSNQQQSISGVNLDEEYGNLQRFQQYYLANAQVLQTANAIFDALINIR" "s" "EcoCyc dump" -"EG11969-MONOMER" "MYRIGELAKMAEVTPDTIRYYEKQQMMEHEVRTEGGFRLYTESDLQRLKFIRHARQLGFSLESIRELLSIRIDPEHHTCQESKGIVQERLQEVEARIAELQSMQRSLQRLNDACCGTAHSSVYCSILEALEQGASGVKSGC" "c" "Han et al., 2011" -"EG11970-MONOMER" "MWLLDQWAERHIAEAQAKGEFDNLAGSGEPLILDDDSHVPPELRAGYRLLKNAGCLPPELEQRREAIQLLDILKGIRHDDPQYQEVSRRLSLLELKLRQAGLSTDFLRGDYADKLLDKINDN" "c" "Han et al., 2011" -"EG11972-MONOMER" "VTIEYTKNYHHLTRIATFCALLYCNTAFSAELVEYDHTFLMGQNASNIDLSRYSEGNPAIPGVYDVSVYVNDQPIINQSITFVAIEGKKNAQACITLKNLLQFHINSPDINNEKAVLLARDETLGNCLNLTEIIPQASVRYDVNDQRLDIDVPQAWVMKNYQNYVDPSLWENGINAAMLSYNLNGYHSETPGRKNESIYAAFNGGMNLGAWRLRASGNYNWMTDSGSNYDFKNRYVQRDIASLRSQLILGESYTTGETFDSVSIRGIRLYSDSRMLPPTLASFAPIIHGVANTNAKVTITQGGYKIYETTVPPGAFVIDDLSPSGYGSDLIVTIEESDGSKRTFSQPFSSVVQMLRPGVGRWDISGGQVLKDDIQDEPNLFQASYYYGLNNYLTGYTGIQITDNNYTAGLLGLGLNTSVGAFSFDVTHSNVRIPDDKTYQGQSYRVSWNKLFEETSTSLNIAAYRYSTQNYLGLNDALTLIDEVKHPEQDLEPKSMRNYSRMKNQVTVSINQPLKFEKKDYGSFYLSGSWSDYWASGQNRSNYSIGYSNSTSWGSYSVSAQRSWNEDGDTDDSVYLSFTIPIEKLLGTEQRTSGFQSIDTQISSDFKGNNQLNVSSSGYSDNARVSYSVNTGYTMNKASKDLSYVGGYASYESPWGTLAGSISANSDNSRQVSLSTDGGFVLHSGGLTFSNDSFSDSDTLAVVQAPGAQGARINYGNSTIDRWGYGVTSALSPYHENRIALDINDLENDVELKSTSAVAVPRQGSVVFADFETVQGQSAIMNITRSDGKNIPFAADIYDEQGNVIGNVGQGGQAFVRGIEQQGNISIKWLEQSKPVSCLAHYQQSPEAEKIAQSIILNGIRCQIQ" "o" "Han et al., 2011" -"EG11973-MONOMER" "MFFNTKHTTALCFVTCMAFSSSSIADIVISGTRVIYKSDQKSVNVRLENKGNNPLLVQSWLDTGDDNAEPGSITVPFTATPPVSRIDAKRGQTIKLMYTASTSLPKDRESVFWFNVLEVPPKPDAEKVANQSLLQLAFRTRIKLFYRPDGLKGNPSEAPLALKWFWSGSEGKASLRVTNPTPYYVSFSSGDLEASGKRYPIDVKMIAPFSDEVMKVNGLNGKANSAKVHFYAINDFGGAIEGNARL" "p" "Unambiguous EcoCyc data" -"EG11974-MONOMER" "MKRKRLFLLASLLPMFALAGNKWNTTLPGGNMQFQGVIIAETCRIEAGDKQMTVNMGQISSNRFHAVGEDSAPVPFVIHLRECSTVVSERVGVAFHGVADGKNPDVLSVGEGPGIATNIGVALFDDEGNLVPINRPPANWKRLYSGSTSLHFIAKYRATGRRVTGGIANAQAWFSLTYQ" "e" "Han et al., 2011" -"EG11975-MONOMER" "MRRLLSVAPVLLWLITPLAFAQLPGITSQPLPGGGQSWSLPVQTLVFITSLTFIPAILLMMTSFTRIIIVFGLLRNALGTPSAPPNQVLLGLALFLTFFIMSPVIDKIYVDAYQPFSEEKISMQEALEKGAQPLREFMLRQTREADLGLFARLANTGPLQGPEAVPMRILLPAYVTSELKTAFQIGFTIFIPFLIIDLVIASVLMALGMMMVPPATIALPFKLMLFVLVDGWQLLVGSLAQSFYS" "s" "EcoCyc dump" -"EG11976-MONOMER" "MTPESVMMMGTEAMKVALALAAPLLLVALVTGLIISILQAATQINEMTLSFIPKIIAVFIAIIIAGPWMLNLLLDYVRTLFTNLPYIIG" "s" "EcoCyc dump" -"EG11977-MONOMER" "MLQVTSEQWLSWLNLYFWPLLRVLALISTAPILSERSVPKRVKLGLAMMITFAIAPSLPANDVPVFSFFALWLAVQQILIGIALGFTMQFAFAAVRTAGEIIGLQMGLSFATFVDPASHLNMPVLARIMDMLALLLFLTFNGHLWLISLLVDTFHTLPIGGEPLNSNAFLALTKAGSLIFLNGLMLALPLITLLLTLNLALGLLNRMAPQLSIFVIGFPLTLTVGISLMAALMPLIAPFCEHLFSEIFNLLADIISELPLI" "s" "EcoCyc dump" -"EG11982-MONOMER" "MIYLVISVFLITAFICLYLKKDIFYPAVCVNIIFALVLLGYEITSDIYAFQLNDATLIFLLCNVLTFTLSCLLTESVLDLNIRKVNNAIYSIPSKKVHNVGLLVISFSMIYICMRLSNYQFGTSLLSYMNLIRDADVEDTSRNFSAYMQPIILTTFALFIWSKKFTNTKVSKTFTLLVFIVFIFAIILNTGKQIVFMVIISYAFIVGVNRVKHYVYLITAVGVLFSLYMLFLRGLPGGMAYYLSMYLVSPIIAFQEFYFQQVSNSASSHVFWFFERLMGLLTGGVSMSLHKEFVWVGLPTNVYTAFSDYVYISAELSYLMMVIHGCISGVLWRLSRNYISVKIFYSYFIYTFSFIFYHESFMTNISSWIQITLCIIVFSQFLKAQKIK" "i" "Unambiguous EcoCyc data" -"EG11983-MONOMER" "MYFLNDLNFSRRDAGFKARKDALDIASDYENISVVNIPLWGGVVQRIISSVKLSTFLCGLENKDVLIFNFPMAKPFWHILSFFHRLLKFRIVPLIHDIDELRGGGGSDSVRLATCDMVISHNPQMTKYLSKYMSQDKIKDIKIFDYLVSSDVEHRDVTDKQRGVIYAGNLSRHKCSFIYTEGCDFTLFGVNYENKDNPKYLGSFDAQSPEKINLPGMQFGLIWDGDSVETCSGAFGDYLKFNNPHKTSLYLSMELPVFIWDKAALADFIVDNRIGYAVGSIKEMQEIVDSMTIETYKQISENTKIISQKIRTGSYFRDVLEEVIDDLKTR" "c" "Unambiguous EcoCyc data" -"EG11984-MONOMER" "MILKLAKRYGLCGFIRLVRDVLLTRVFYRNCRIIRFPCYIRNDGSINFGENFTSGVGLRLDAFGRGVIFFSDNVQVNDYVHIASIESVTIGRDTLIASKVFITDHNHGSFKHSDPMSSPNIPPDMRTLESSAVVIGQRVWLGENVTVLPGTIIGNGVVVGANSVVRGSIPENTVIAGVPAKIIKKYNHETKLWEKA" "i" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE) (location manually reset)" -"EG11985-MONOMER" "MGKSIVVVSAVNFTTGGPFTILKKFLAATNNKENVSFIALVHSAKELKESYPWVKFIEFPEVKGSWLKRLHFEYVVCKKLSKELNATHWICLHDITANVVTKKRYVYCHNPAPFYKGILFREILMEPSFFLFKMLYGLIYKINIKKNTAVFVQQFWMKEKFIKKYSINNIIVSRPEIKLSDKSQLTDDDSQFKNNPSELTIFYPAVPRVFKNYELIISAARKLKEQSNIKFLLTISGTENAYAKYIISLAEGLDNVHFLGYLDKEKIDHCYNISDIVCFPSRLETWGLPLSEAKERGKWVLASDFPFTRETLGSYEKKAFFDSNNDDMLVKLIIDFKKGNLKKDISDANFIYRNENVLVGFDELVNFITEEH" "i" "Unambiguous EcoCyc data" -"EG11986-MONOMER" "MVYIIIVSHGHEDYIKKLLENLNADDEHYKIIVRDNKDSLLLKQICQHYAGLDYISGGVYGFGHNNNIAVAYVKEKYRPADDDYILFLNPDIIMKHDDLLTYIKYVESKRYAFSTLCLFRDEAKSLHDYSVRKFPVLSDFIVSFMLGIKEGANKSLI" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"EG11987-MONOMER" "MEIRIMLFILMMMVMPVSYAACYSELSVQHNLVVQGDFALTQTQMATYEHNFNDSSCVSTNTITPMSPSDIIVGLYNDTIKLNLHFEWTNKNNITLSNNQTSFTSGYSVTVTPAASNAKVNVSAGGGGSVMINGVATLSSASSSTRGSAAVQFLLCLLGGKSWDACVNSYRNALAQNAGVYSFNLTLSYNPITTTCKPDDLLITLDSIPVSQLPATGNKATINSKQGDIILRCKNLLGQQNQTSRKMQVYLSSSDLLTNSNTILKGAEDNGVGFILESNGSPVTLLNITNSSKGYTNLKEVAAKSKLTDTTVSIPITASYYVYDTNKVKSGALEATALINVKYD" "l" "Unambiguous EcoCyc data" -"EG11988-MONOMER" "MLRMTPLASAIVALLLGIEAYAAEETFDTHFMIGGMKDQQVANIRLDDNQPLPGQYDIDIYVNKQWRGKYEIIVKDNPQETCLSREVIKRLGINSDNFASGKQCLTFEQLVQGGSYTWDIGVFRLDFSVPQAWVEELESGYVPPENWERGINAFYTSYYLSQYYSDYKASGNNKSTYVRFNSGLNLLGWQLHSDASFSKTNNNPGVWKSNTLYLERGFAQLLGTLRVGDMYTSSDIFDSVRFRGVRLFRDMQMLPNSKQNFTPRVQGIAQSNALVTIEQNGFVVYQKEVPPGPFAITDLQLAGGGADLDVSVKEADGSVTTYLVPYAAVPNMLQPGVSKYDLAAGRSHIEGASKQSDFVQAGYQYGFNNLLTLYGGSMVANNYYAFTLGAGWNTRIGAISVDATKSHSKQDNGDVFDGQSYQIAYNKFVSQTSTRFGLAAWRYSSRDYRTFNDHVWANNKDNYRRDENDVYDIADYYQNDFGRKNSFSANMSQSLPEGWGSVSLSTLWRDYWGRSGSSKDYQLSYSNNLRRISYTLAASQAYDENHHEEKRFNIFISIPFDWGDDVSTPRRQIYMSNSTTFDDQGFASNNTGLSGTVGSRDQFNYGVNLSHQHQGNETTAGANLTWNAPVATVNGSYSQSSTYRQAGASVSGGIVAWSGGVNLANRLSETFAVMNAPGIKDAYVNGQKYRTTNRNGVVIYDGMTPYRENHLMLDVSQSDSEAELRGNRKIAAPYRGAVVLVNFDTDQRKPWFIKALRADGQSLTFGYEVNDIHGHNIGVVGQGSQLFIRTNEVPPSVNVAIDKQQGLSCTITFGKEIDESRNYICQ" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"EG11989-MONOMER" "MAAIPWRPFNLRGIKMKGLLSLLIFSMVLPAHAGIVIYGTRIIYPAENKEVMVQLMNQGNRSSLLQAWIDDGDTSLPPEKIQVPFMLTPPVAKIGANSGQQVKIKIMPNKLPTNKESIFYLNVLDIPPNSPEQEGKNALKFAMQNRIKLFYRPAGIAPVNKATFKKLLVNRSGNGLVIKNDSANWVTISDVKANNVKVNYETIMIAPLESQSVNVKSNNANNWHLTIIDDHGNYISDKI" "p" "Unambiguous EcoCyc data" -"EG11990-MONOMER" "MKRSIIAAAVFSSFFMSAGVFAADVDTGTLTIKGNIAESPCKFEAGGDSVSINMPTVPTSVFEGKAKYSTYDDAVGVTSSMLKISCPKEVAGVKLSLITNDKITGNDKAIASSNDTVGYYLYLGDNSDVLDVSAPFNIESYKTAEGQYAIPFKAKYLKLTDNSVQSGDVLSSLVMRVAQD" "l" "Unambiguous EcoCyc data" -"EG11991-MONOMER" "MNKYWLSGIIFLAYGLASPAFSSETATLAINGRISPPTCSMAMVNGQPQQHCGQLTYNVDTRHLFSSPVKGVTTEVVVAGSDSKRRIVLNRYD" "p" "Han et al., 2011" -"EG11992-MONOMER" "MRHFIYQDEKSHKFRAVEQQGNELHISWGKVGTKGQSQIKSFSDAAAAAKAELKLIAEKVKKGYVEQAKDNSLQPSQTVTGSLKVADLSTIIQEQPSFVAETRAPDKNTDAVLPWLAKDIAVVFPPEVVHTTLSHRRFPGVPVQQADKLPQLRRLACSVSQRDNKTATFDFSACSLEWQNTVAQAISQIDGLKTTQLPSPVMAVLTALEMKCTRYKVREDVMDQIVQEGGLEYATDVIIHLQQIDIEWDYANNVIIILPSGIAPSYLEQYSRFE" "c" "Han et al., 2011" -"EG11995-MONOMER" "MDKELPWLADNAQLELKYKKGKTPLSHRRWPGEPVSVITGSLIQTLGDELLQKAEKKKNIVWRYENFSLEWQSAITQAINLIGEHKPSIPARTMAALACIAQNDSQQLLDEIVQQEGLEYATEVVIARQFIARCYESDPLVVTLQYQDEDYGYGYRSETYNEFDLRLRKHLSLAEESCWQRCADKLIAALPGINKVRRPFIALILPEKPEIANELVGLECPRTHFHSKEWLKVVANDPTAVRKLEHYWSQDIFSDREASYMSHENHFGYAACAALLREQGLAAIPRLAMYAHKEDCGSLLVQINHPQVIRTLLLVADKNKPSLQRVAKYHKNFPHATLAALAELLALTEPPARPGYPIIEDKKLPAQQKARDEYWRTLLQTLMASQPQLAAEVMPWLSTQPQSVLKSYLSAPPKPVIDGTDNSNLPEILVSPPWRSKKKMTAPRLDLAPLELTPQVYWQPGEQERLAATEPARYFSTESLAQRMEQKSGRVVLQELGFGDDVWLFLNYILPGKLDAARNSLFVQWHYYQGRVEEILNGWNSPEAQLAEQALRSGHIEALINIWENDNYSHYRPEKSVWNLYLLAQLPREMALTFWLRINEKKHLFAGEDYFLSILGLDALPGLLLAFSHRPKETFPLILNFGATELALPVAHVWRRFAAQRDLARQWILQWPEHTASALIPLVFTKPSDNSEAALLALRLLYEQGHGELLQTVANRWQRTDVWSALEQLLKQGPMDIYPARIPKAPDFWHPQMWSRPRLITNNQTVTNDALEIIGEMLRFTQGGRFYSGLEQLKTFCQPQTLAAFAWDLFTAWQQAGAPAKDNWAFLALSLFGDESTARDLTTQILAWPQEGKSARAVSGLNILTLMNNDMALIQLHHISQRAKSRPLRDNAAEFLQVVAENRGLSQEELADRLVPTLGLDDPQALSFDFGPRQFTVRFDENLNPVIFDQQNVRQKSVPRLRADDDQLKAPEALARLKGLKKDATQVSKNLLPRLETALRTTRRWSLADFHSLFVNHPFTRLVTQRLIWGVYPANEPRCLLKAFRVAAEGEFCNAQDEPIDLPADALIGIAHPLEMTAEMRSEFAQLFADYEIMPPFRQLSRRTVLLTPDESTSNSLTRWEGKSATVGQLMGMRYKGWESGYEDAFVYNLGEYRLVLKFSPGFNHYNVDSKALMSFRSLRVYRDNKSVTFAELDVFDLSEALSAPDVIFH" "c" "Han et al., 2011" -"EG11998-MONOMER" "MSPQNNHLQRPPAAVLYADELAKLKQNDNAPCPPGWQLSLPAARAFILGDEAQNISRKVVISPSAVERMLVTLATGRGLMLVGEPGTAKSLLSELLATAISGDAGLTIQGGASTTEDQIKYGWNYALLINHGPSTEALVPAPLYQGMRDGKIVRFEEITRTPLEVQDCLLGMLSDRVMTGPELTGEASQLYAREGFNIIATANTRDRGVNEMSAALKRRFDFETVFPIMDFAQELELVASASARLLAHSGIPHKVPDAVLELLVRTFRDLRANGEKKTSMDTLTAIMSTAEAVNVAHAVGVRAWFLANRAGEPADLVECIAGTIVKDNEEDRARLRRYFEQRVATHKEAHWQAYYQARHRLP" "c" "Han et al., 2011" -"EG11999-MONOMER" "MSEPLIVGIRHHSPACARLVKSLIESQRPRYVLIEGPADFNDRVDELFLAHQLPVAIYSYCQYQDGAAPGRGAWTPFAEFSPEWQALQAARRIQAQTYFIDLPCWAQSEEEDDSPDTQDESQALLLRATRMDNSDTLWDHLFEDESQQTALPSALAHYFAQLRGDASGDALNRQREAFMARWIGWAMQQNNGDVLVVCGGWHAPALAKMWRECPQKINKPELPSLADAVTGCYLTPYSEKRLDVLAGYLSGMPAPVWQNWCWQWGLQKAGEQLLKTILTRLRQHKLPASTADMAAAHLHAMALAQLRGHTLPLRTDWLDAIAGSLIKEALNAPLPWSYRGVIHPDTDPILLTLIDTLAGDGFGKLAPSTPQPPLPKDVTCELERTAISLPAELTLNRFTPDGLAQSQVLHRLAILEIPGIVRQQGSTLTLAGNGEERWKLTRPLSQHAALIEAACFGATLQEAARNKLEADMLDAGGIGSITTCLSQAALAGLASFSQQLLEQLTLLIAQENQFAEMGQALEVLYALWRLDEISGMQGAQILQTTLCATIDRTLWLCESNGRPDEKEFHAHLHSWQALCHILRDLHSGVNLPGVSLSAAVALLERRSQAIHAPALDRGAALGALMRLEHPNASAEAALTMLAQLSPAQSGEALHGLLALARHQLACQPAFIAGFSSHLNQLSEADFINALPDLRAAMAWLPPRERGTLAHQVLEHYQLAQLPVSALQMPLHCPPQAIAHHQQLEQQALASLQNWGVFHV" "c" "Han et al., 2011" -"EG12002-MONOMER" "MSELNDLLTTRELQRWRLILGEAAETTLCGLDDNARQIDHALEWLYGRDPERLQRGERSGGLGGSNLTTPEWINSIHTLFPQQVIERLESDAVLRYGIEDVVTNLDVLERMQPSESLLRAVLHTKHLMNPEVLAAARRIVCQVVEEIMARLAKEVRQAFSGVRDRRRRSFIPLARNFDFKSTLRANLQHWHPQHGKLYIESPRFNSRIKRQSEQWQLVLLVDQSGSMVDSVIHSAVMAACLWQLPGIRTHLVAFDTSVVDLTADVADPVELLMKVQLGGGTNIASAVEYGRQLIEQPAKSVIILVSDFYEGGSSSLLTHQVKKCVQSGIKVLGLAALDSTATPCYDRDTAQALVNVGAQIAAMTPGELASWLAENLQS" "c" "Han et al., 2011" -"EG12003-MONOMER" "MNSLRPELLELTPQALTALSNAGFVKRSLKELENGNVPEISHENDALIATFSDGVRTQLANGQALKEAQCSCGANGMCRHRVMLVLSYQRLCATTQSTEKEEEWDPAIWLEELATLPDATRKRAQALVAKGITIELFCAPGEIPSARLPMSDVRFYSRSSIRFARCDCIEGTLCEHVVLAVQAFVEAKAQQAEFNHLIWQMRSEHVTSSDDPFASEEGNACRQYVQQLSQTLWLGGISQPLIHYEAAFNRALQAAETCNWRWVSESLRQLRASVDAFHARASHYNAGECLHQLAALNSRLNCAQEMARRDSIGEVPPVPWRTVVGSGIAGEAKLDHLRLVSLGMRCWQDIEHYGLRIWFTDPDTGSILHLSRSWPRSEQENSPAATRRLFSFQAGALAGGQIVSQAAKRSADGELLLATRNRLSSVVPLSPDAWQMLSAPLRQPGIVALREYLRQRPPACIRPLNQVDNLFILPVAECISLGWDSSRQTLDAQVISGEGEDNVLTLSLPASASAPYAVERMAALLQQTDDPVCLVSGFVSFVEGQLTLEPRVMMTKTRAWALDAETTPVAPLPSASVLPVPSTAHQLLIRCQALLIQLLHNGWRYQEQSAIGQA" "c" "Han et al., 2011" -"EG12004-MONOMER" "MKAFNKLFSLVVASVLVFSLAGCGDKEESKKFSANLNGTEIAITYVYKGDKVLKQSSETKIQFASIGATTKEDAAKTLEPLSAKYKNIAGVEEKLTYTDTYAQENVTIDMEKVDFKALQGISGINVSAEDAKKGITMAQMELVMKAAGFKEVK" "p" "Han et al., 2011" -"EG12005-MONOMER" "MLSNDILRSVRYILKANNNDLVRILALGNVEATAEQIAVWLRKEDEEGFQRCPDIVLSSFLNGLIYEKRGKDESAPALEPERRINNNIVLKKLRIAFSLKTDDILAILTEQQFRVSMPEITAMMRAPDHKNFRECGDQFLRYFLRGLAARQHVKKG" "c" "Han et al., 2011" -"EG12006-MONOMER" "MIKVLIVDDEPLARENLRVFLQEQSDIEIVGECSNAVEGIGAVHKLRPDVLFLDIQMPRISGLEMVGMLDPEHRPYIVFLTAFDEYAIKAFEEHAFDYLLKPIDEARLEKTLARLRQERSKQDVSLLPENQQALKFIPCTGHSRIYLLQMKDVAFVSSRMSGVYVTSHEGKEGFTELTLRTLESRTPLLRCHRQYLVNLAHLQEIRLEDNGQAELILRNGLTVPVSRRYLKSLKEAIGL" "c" "Han et al., 2011" -"EG12007-MONOMER" "MYDFNLVLLLLQQMCVFLVIAWLMSKTPLFIPLMQVTVRLPHKFLCYIVFSIFCIMGTWFGLHIDDSIANTRAIGAVMGGLLGGPVVGGLVGLTGGLHRYSMGGMTALSCMISTIVEGLLGGLVHSILIRRGRTDKVFNPITAGAVTFVAEMVQMLIILAIARPYEDAVRLVSNIAAPMMVTNTVGAALFMRILLDKRAMFEKYTSAFSATALKVAASTEGILRQGFNEVNSMKVAQVLYQELDIGAVAITDREKLLAFTGIGDDHHLPGKPISSTYTLKAIETGEVVYADGNEVPYRCSLHPQCKLGSTLVIPLRGENQRVMGTIKLYEAKNRLFSSINRTLGEGIAQLLSAQILAGQYERQKAMLTQSEIKLLHAQVNPHFLFNALNTIKAVIRRDSEQASQLVQYLSTFFRKNLKRPSEFVTLADEIEHVNAYLQIEKARFQSRLQVNIAIPQELSQQQLPAFTLQPIVENAIKHGTSQLLDTGRVAISARREGQHLMLEIEDNAGLYQPVTNASGLGMNLVDKRLRERFGDDYGISVACEPDSYTRITLRLPWRDEA" "i" "Han et al., 2011" -"EG12008-MONOMER" "MALYTIGEVALLCDINPVTLRAWQRRYGLLKPQRTDGGHRLFNDADIDRIREIKRWIDNGVQVSKVKMLLSNENVDVQNGWRDQQETLLTYLQSGNLHSLRTWIKERGQDYPAQTLTTHLFIPLRRRLQCQQPTLQALLAILDGVLINYIAICLASARKKQGKDALVVGWNIQDTTRLWLEGWIASQQGWRIDVLAHSLNQLRPELFEGRTLLVWCGENRTSAQQQQLTSWQEQGHDIFPLGI" "c" "Han et al., 2011" -"EG12013-MONOMER" "MKWLCSVGIAVSLALQPALADDLFGNHPLTPEARDAFVTELLKKMTVDEKIGQLRLISVGPDNPKEAIREMIKDGQVGAIFNTVTRQDIRAMQDQVMELSRLKIPLFFAYDVLHGQRTVFPISLGLASSFNLDAVKTVGRVSAYEAADDGLNMTWAPMVDVSRDPRWGRASEGFGEDTYLTSTMGKTMVEAMQGKSPADRYSVMTSVKHFAAYGAVEGGKEYNTVDMSPQRLFNDYMPPYKAGLDAGSGAVMVALNSLNGTPATSDSWLLKDVLRDQWGFKGITVSDHGAIKELIKHGTAADPEDAVRVALKSGINMSMSDEYYSKYLPGLIKSGKVTMAELDDAARHVLNVKYDMGLFNDPYSHLGPKESDPVDTNAESRLHRKEAREVARESLVLLKNRLETLPLKKSATIAVVGPLADSKRDVMGSWSAAGVADQSVTVLTGIKNAVGENGKVLYAKGANVTSDKGIIDFLNQYEEAVKVDPRSPQEMIDEAVQTAKQSDVVVAVVGEAQGMAHEASSRTDITIPQSQRDLIAALKATGKPLVLVLMNGRPLALVKEDQQADAILETWFAGTEGGNAIADVLFGDYNPSGKLPMSFPRSVGQIPVYYSHLNTGRPYNADKPNKYTSRYFDEANGALYPFGYGLSYTTFTVSDVKLSAPTMKRDGKVTASVQVTNTGKREGATVVQMYLQDVTASMSRPVKQLKGFEKITLKPGETQTVSFPIDIEALKFWNQQMKYDAEPGKFNVFIGTDSARVKKGEFELL" "p" "Han et al., 2011 (location manually reset)" -"EG12015-MONOMER" "MPKFRVSLFSLALMLAVPFAPQAVAKTAAATTASQPEIASGSAMIVDLNTNKVIYSNHPDLVRPIASISKLMTAMVVLDARLPLDEKLKVDISQTPEMKGVYSRVRLNSEISRKDMLLLALMSSENRAAASLAHHYPGGYKAFIKAMNAKAKSLGMNNTRFVEPTGLSVHNVSTARDLTKLLIASKQYPLIGQLSTTREDMATFSNPTYTLPFRNTNHLVYRDNWNIQLTKTGFTNAAGHCLVMRTVINNKPVALVVMDAFGKYTHFADASRLRTWIETGKVMPVPAAALSYKKQKAAQMAAAGQTAQND" "p" "Han et al., 2011" -"EG12016-MONOMER" "MSHVWGLFSHPDREMQVINRENETISHHYTHHVLLMAAIPVICAFIGTTQIGWNFGDGTILKLSWFTGLALAVLFYGVMLAGVAVMGRVIWWMARNYPQRPSLAHCMVFAGYVATPLFLSGLVALYPLVWLCALVGTVALFYTGYLLYLGIPSFLNINKEEGLSFSSSTLAIGVLVLEVLLALTVILWGYGYRLF" "i" "Han et al., 2011" -"EG12017-MONOMER" "MDLNTLISQYGYAALVIGSLAEGETVTLLGGVAAHQGLLKFPLVVLSVALGGMIGDQVLYLCGRRFGGKLLRRFSKHQDKIERAQKLIQRHPYLFVIGTRFMYGFRVIGPTLIGASQLPPKIFLPLNILGAFAWALIFTTIGYAGGQVIAPWLHNLDQHLKHWVWLILVVVLVVGVRWWLKRRGKKKPDHQA" "i" "Han et al., 2011" -"EG12019-MONOMER" "MAQVAIITASDSGIGKECALLLAQQGFDIGITWHSDEEGAKDTAREVVSHGVRAEIVQLDLGNLPEGALALEKLIQRLGRIDVLVNNAGAMTKAPFLDMAFDEWRKIFTVDVDGAFLCSQIAARQMVKQGQGGRIINITSVHEHTPLPDASAYTAAKHALGGLTKAMALELVRHKILVNAVAPGAIATPMNGMDDSDVKPDAEPSIPLRRFGATHEIASLVVWLCSEGANYTTGQSLIVDGGFMLANPQFNPE" "c" "Han et al., 2011" -"EG12020-MONOMER" "MSAEGLMGPFALNDPAAGTTGPWYTNGTFGLTAGWHLDIWGKNRAEVTARLGTVKARAAEREQTRQLLAGSVARLYWEWQTQAALNTVLQQIEKEQNTIIATDRQLYQNGITSSVEGVETDINASKTRQQLNDVAGKMKIIEARLSALTNNQTKSLKLKPVALPKVASQLPDELGYSLLARRADLQAAHWYVESSLSTIDAAKAAFYPDINLMAFLQQDALHLSDLFRHSAQQMGVTAGLTLPIFDSGRLNANLDIAKAESNLSIASYNKAVVEAVNDVARAASQVQTLAEKNQHQAQIERDALRVVGLAQARFNAGIIAGSRVSEARIPALRERANGLLLQGQWLDASIQLTGALGGGYKR" "o" "Han et al., 2011" -"EG12021-MONOMER" "MHETRQALSQQTPAAQVDTALPTALKMVGQTANGGWSITIINSLP" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"EG12022-MONOMER" "MRVLLAPMEGVLDSLVRELLTEVNDYDLCITEFVRVVDQLLPVKVFHRICPELQNASRTPSGTLVRVQLLGQFPQWLAENAARAVELGSWGVDLNCGCPSKTVNGSGGGATLLKDPELIYQGAKAMREAVPAHLPVSVKVRLGWDSGEKKFEIADAVQQAGATELVVHGRTKEQGYRAEHIDWQAIGDIRQRLNIPVIANGEIWDWQSAQQCMAISGCDAVMIGRGALNIPNLSRVVKYNEPRMPWPEVVALLQKYTRLEKQGDTGLYHVARIKQWLSYLRKEYDEATELFQHVRVLNNSPDIARAIQAIDIEKL" "c" "Han et al., 2011" -"EG12023-MONOMER" "MSKTLNIIWQYLRAFVLIYACLYAGIFIASLLPVTIPGSIIGMLILFVLLALQILPAKWVNPGCYVLIRYMALLFVPIGVGVMQYFDLLRAQFGPVVVSCAVSTLVVFLVVSWSSQLVHGERKVVGQKGSEE" "i" "Han et al., 2011" -"EG12024-MONOMER" "MMANIWWSLPLTLIVFFAARKLAARYKFPLLNPLLVAMVVIIPFLMLTGISYDSYFKGSEVLNDLLQPAVVALAYPLYEQLHQIRARWKSIITICFIGSVVAMVTGTSVALLMGASPEIAASILPKSVTTPIAMAVGGSIGGIPAISAVCVIFVGILGAVFGHTLLNAMRIRTKAARGLAMGTASHALGTARCAELDYQEGAFSSLALVLCGIITSLIAPFLFPIILAVMG" "i" "Han et al., 2011" -"EG12025-MONOMER" "MLKRVFLSLLVLIGLLLLTVLGLDRWMSWKTAPYIYDELQDLPYRQVGVVLGTAKYYRTGVINQYYRYRIQGAINAYNSGKVNYLLLSGDNALQSYNEPMTMRKDLIAAGVDPSDIVLDYAGFRTLDSIVRTRKVFDTNDFIIITQRFHCERALFIALHMGIQAQCYAVPSPKDMLSVRIREFAARFGALADLYIFKREPRFLGPLVPIPAMHQVPEDAQGYPAVTPEQLLELQKKQGK" "i" "Han et al., 2011" -"EG12026-MONOMER" "MEMLEEHRCFEGWQQRWRHDSSTLNCPMTFSIFLPPPRDHTPPPVLYWLSGLTCNDENFTTKAGAQRVAAELGIVLVMPDTSPRGEKVANDDGYDLGQGAGFYLNATQPPWATHYRMYDYLRDELPALVQSQFNVSDRCAISGHSMGGHGALIMALKNPGKYTSVSAFAPIVNPCSVPWGIKAFSSYLGEDKNAWLEWDSCALMYASNAQDAIPTLIDQGDNDQFLADQLQPAVLAEAARQKAWPMTLRIQPGYDHSYYFIASFIEDHLRFHAQYLLK" "c" "EcoCyc dump" -"EG12027-MONOMER" "MTNITLQKQHRTLWHFIPGLALSAVITGVALWGGSIPAVAGAGFSALTLAILLGMVLGNTIYPHIWKSCDGGVLFAKQYLLRLGIILYGFRLTFSQIADVGISGIIIDVLTLSSTFLLACFLGQKVFGLDKHTSWLIGAGSSICGAAAVLATEPVVKAEASKVTVAVATVVIFGTVAIFLYPAIYPLMSQWFSPETFGIYIGSTVHEVAQVVAAGHAISPDAENAAVISKMLRVMMLAPFLILLAARVKQLSGANSGEKSKITIPWFAILFIVVAIFNSFHLLPQSVVNMLVTLDTFLLAMAMAALGLTTHVSALKKAGAKPLLMALVLFAWLIVGGGAINYVIQSVIA" "i" "Han et al., 2011" -"EG12028-MONOMER" "MNNREKEILAILRRNPLIQQNEIADMLQISRSRVAAHIMDLMRKGRIKGKGYILTEQEYCVVVGTINMDIRGMADIRYPQSASHPGTIHCSAGGVGRNIAHNLALLGRDVHLLSVIGDDFYGEMLLEETRRAGVNVSGCVRLHGQSTSTYLAIANRDDQTVLAINDTHLLEQLTPQLLNGSRDLLRHAGVVLADCNLTAEALEWVFTLADEIPVFVDTVSEFKAGKIKHWLAHIHTLKPTLPELEILWGQAITSDADRNTAVNALHQQGVQQLFVYLPDESVYCSEKDGEQFLLTAPAHTTVDSFGADDGFMAGLVYSFLEGYSFRDSARFAVACAAISRASGSLNNPTLSADNALSLVPMV" "c" "Han et al., 2011" -"EG12030-MONOMER" "MEKRKIILDCDPGHDDAIAIMMAAKHPAIDLLGITIVAGNQTLDKTLINGLNVCQKLEINVPVYAGMPQPIMRQQIVADNIHGETGLDGPVFEPLTRQAESTHAVKYIIDTLMASDGDITLVPVGPLSNIAVAMRMQPAILPKIREIVLMGGAYGTGNFTPSAEFNIFADPEAARVVFTSGVPLVMMGLDLTNQTVCTPDVIARMERAGGPAGELFSDIMNFTLKTQFENYGLAGGPVHDATCIGYLINPDGIKTQEMYVEVDVNSGPCYGRTVCDELGVLGKPANTKVGITIDTDWFWGLVEECVRGYIKTH" "c" "Han et al., 2011" -"EG12031-MONOMER" "MSESAFKDCFLTDVSADTRLFHFLARDYIVQEGQQPSWLFYLTRGRARLYATLANGRVSLIDFFAAPCFIGEIELIDKDHEPRAVQAIEECWCLALPMKHYRPLLLNDTLFLRKLCVTLSHKNYRNIVSLTQNQSFPLVNRLAAFILLSQEGDLYHEKHTQAAEYLGVSYRHLLYVLAQFIHDGLLIKSKKGYLIKNRKQLSGLALEMDPENKFSGMMQ" "c" "Han et al., 2011" -"EG12033-MONOMER" "MSELKISPELLQISPEVQDALKNKKPVVALESTIISHGMPFPQNAQTAIEVEETIRKQGAVPATIAIIGGVMKVGLSKEEIELLGREGHNVTKVSRRDLPFVVAAGKNGATTVASTMIIAALAGIKVFATGGIGGVHRGAEHTFDISADLQELANTNVTVVCAGAKSILDLGLTTEYLETFGVPLIGYQTKALPAFFCRTSPFDVSIRLDSASEIARAMVVKWQSGLNGGLVVANPIPEQFAMPEHTINAAIDQAVAEAEAQGVIGKESTPFLLARVAELTGGDSLKSNIQLVFNNAILASEIAKEYQRLAG" "c" "Han et al., 2011" -"EG12035-MONOMER" "MPRANEIKKGMVLNYNGKLLLVKDIDIQSPTARGAATLYKMRFSDVRTGLKVEERFKGDDIVDTVTLTRRYVDFSYVDGNEYVFMDKEDYTPYTFTKDQIEEELLFMPEGGMPDMQVLTWDGQLLALELPQTVDLEIVETAPGIKGASASARNKPATLSTGLVIQVPEYLSPGEKIRIHIEERRYMGRAD" "c" "Lopez-Campistrous et al., 2005" -"EG12036-MONOMER" "MNTIASVTLPHHVHAPRYDRQQLQSRIVHFGFGAFHRAHQALLTDRVLNAQGGDWGICEISLFSGDQLMSQLRAQNHLYTVLEKGADGNQVIIVGAVHECLNAKLDSLAAIIEKFCEPQVAIVSLTITEKGYCIDPATGALDTSNPRIIHDLQTPEEPHSAPGILVEALKRRRERGLTPFTVLSCDNIPDNGHVVKNAVLGMAEKRSPELAGWIKEHVSFPGTMVDRIVPAATDESLVEISQHLGVNDPCAISCEPFIQWVVEDNFVAGRPAWEVAGVQMVNDVLPWEEMKLRMLNGSHSFLAYLGYLSGFAHISDCMQDRAFRHAARTLMLDEQAPTLQIKDVDLTQYADKLIARFANPALKHKTWQIAMDGSQKLPQRMLAGIRIHQGRETDWSLLALGVAGWMRYVSGVDDAGNAIDVRDPLSDKIRELVAGSSSEQRVTALLSLREVFGDDLPDNPHFVQAIEQAWQQIVQFGAHQALLNTLKI" "c" "Han et al., 2011" -"EG12042-MONOMER" "VTSLQLSIVHRLPQNYRWSAGFAGSKVEPIPQNGPCGDNSLVALKLLSPDGDNAWSVMYKLSQALSDIEVPCSVLECEGEPCLFVNRQDEFAATCRLKNFGVAIAEPFSNYNPF" "c" "Han et al., 2011" -"EG12043-MONOMER" "MPQISRYSDEQVEQLLAELLNVLEKHKAPTDLSLMVLGNMVTNLINTSIAPAQRQAIANSFARALQSSINEDKAH" "c" "Han et al., 2011" -"EG12044-MONOMER" "MRLDKFIAQQLGVSRAIAGREIRGNRVTVDGEIVRNAAFKLLPEHDVAYDGNPLAQQHGPRYFMLNKPQGYVCSTDDPDHPTVLYFLDEPVAWKLHAAGRLDIDTTGLVLMTDDGQWSHRITSPRHHCEKTYLVTLESPVADDTAEQFAKGVQLHNEKDLTKPAVLEVITPTQVRLTISEGRYHQVKRMFAAVGNHVVELHRERIGGITLDADLAPGEYRPLTEEEIASVV" "c" "Lopez-Campistrous et al., 2005" -"EG12045-MONOMER" "MIFTLRPYQQEAVDATLNHFRRHKTPAVIVLPTGAGKSLVIAELARLARGRVLVLAHVKELVAQNHAKYQALGLEADIFAAGLKRKESHGKVVFGSVQSVARNLDAFQGEFSLLIVDECHRIGDDEESQYQQILTHLTKVNPHLRLLGLTATPFRLGKGWIYQFHYHGMVRGDEKALFRDCIYELPLRYMIKHGYLTPPERLDMPVVQYDFSRLQAQSNGLFSEADLNRELKKQQRITPHIISQIMEFAATRKGVMIFAATVEHAKEIVGLLPAEDAALITGDTPGAERDVLIENFKAQRFRYLVNVAVLTTGFDAPHVDLIAILRPTESVSLYQQIVGRGLRLAPGKTDCLILDYAGNPHDLYAPEVGTPKGKSDNVPVQVFCPACGFANTFWGKTTADGTLIEHFGRRCQGWFEDDDGHREQCDFRFRFKNCPQCNAENDIAARRCRECDTVLVDPDDMLKAALRLKDALVLRCSGMSLQHGHDEKGEWLKITYYDEDGADVSERFRLQTPAQRTAFEQLFIRPHTRTPGIPLRWITAADILAQQALLRHPDFVVARMKGQYWQVREKVFDYEGRFRLAHELRG" "c" "Han et al., 2011" -"EG12048-MONOMER" "MSLDINQIALHQLIKRDEQNLELVLRDSLLEPTETVVEMVAELHRVYSAKNKAYGLFSEESELAQTLRLQRQGEEDFLAFSRAATGRLRDELAKYPFADGGFVLFCHYRYLAVEYLLVAVLSNLSSMRVNENLDINPTHYLDINHADIVARIDLTEWETNPESTRYLTFLKGRVGRKVADFFMDFLGASEGLNAKAQNRGLLQAVDDFTAEAQLDKAERQNVRQQVYSYCNEQLQAGEEIELKSLSKELAGVSEVSFTEFAAEKGYELEESFPADRSTLRQLTKFAGSGGGLTINFDAMLLGERIFWDPATDTLTIKGTPPNLRDQLQRRTSGGN" "c" "Han et al., 2011" -"EG12049-MONOMER" "MVTHRQRYREKVSQMVSWGHWFALFNILLSLVIGSRYLFIADWPTTLAGRIYSYVSIIGHFSFLVFATYLLILFPLTFIVGSQRLMRFLSVILATAGMTLLLIDSEVFTRFHLHLNPIVWQLVINPDENEMARDWQLMFISVPVILLLELVFATWSWQKLRSLTRRRRFARPLAAFLFIAFIASHVVYIWADANFYRPITMQRANLPLSYPMTARRFLEKHGLLDAQEYQRRLIEQGNPDAVSVQYPLSELRYRDMGTGQNVLLITVDGLNYSRFEKQMPALAGFAEQNISFTRHMSSGNTTDNGIFGLFYGISPSYMDGILSTRTPAALITALNQQGYQLGLFSSDGFTSPLYRQALLSDFSMPSVRTQSDEQTATQWINWLGRYAQEDNRWFSWVSFNGTNIDDSNQQAFARKYSRAAGNVDDQINRVLNALRDSGKLDNTVVIITAGRGIPLSEEEETFDWSHGHLQVPLVIHWPGTPAQRINALTDHTDLMTTLMQRLLHVSTPASEYSQGQDLFNPQRRHYWVTAADNDTLAITTPKKTLVLNNNGKYRTYNLRGERVKDEKPQLSLLLQVLTDEKRFIAN" "i" "Han et al., 2011" -"EG12051-MONOMER" "LASTVEYGETVDGVVLEKDIQLVYGTANNTKINPGGEQHIKEFGVSNNTEINGGYQYIEMNGAAEYSVLNDGYQIVQMGGAANQTTLNNGVLQVYGAANDTTIKGGRLIVEKDGGAVFVAIEKGGLLEVKEGGFAFAVDQKAGGAIKTTTRAMEVFGTNRLGQFDIKNGIANNMLLENGGSLRVEENDFAYNTTVDSGGLLEVMDGGTVTGVDKKAGGKLIVSTNALEVSGPNSKGQFSIKDGVSKNYELDDGSGLIVMEDTQAIDTILDKHATMQSLGKDTGTKVQANAVYDLGRSYQNGSITYSSKAISENMVINNGRANVWAGTMVNVSVRGNDGILEVMKPQINYAPAMLVGKVVVSEGASFRTHGAVDTSKADVSLENSVWTIIADITTTNQNTLLNLANLAMSDANVIMMDEPVTRSSVTASAENFITLTTNTLSGNGNFYMRTDMANHQSDQLNVTGQATGDFKIFVTDTGASPAAGDSLTLVTTGGGDAAFTLGNAGGVVDIGTYEYTLLDNGNHSWSLAENRAQITPSTTDVLNMAAAQPLVFDAELDTVRERLGSVKGVSYDTAMWSSAINTRNNVTTDAGAGFEQTLTGLTLGIDSRFSREESSTIRGLIFGYSHSDIGFDRGGKGNIDSYTLGAYAGWEHQNGAYVDGVVKVDRFANTIHGKMSNGATAFGDYNSNGAGAHVESGFRWVDGLWSVRPYLAFTGFTTDGQDYTLSNGMRADVGNTRILRAEAGTAVSYHMDLQNGTTLEPWLKAAVRQEYADSNQVKVNDDGKFNNDVAGTSGVYQAGIRSSFTPTLSGHLSVSYGNGAGVESPWNTQAGVVWTF" "o" "Han et al., 2011" -"EG12052-MONOMER" "MRFLLGVLMLMISGSALATIDVLQFKDEAQEQQFRQLTEELRCPKCQNNSIADSNSMIATDLRQKVYELMQEGKSKKEIVDYMVARYGNFVTYDPPLTPLTVLLWVLPVVAIGIGGWVIYARSRRRVRVVPEAFPEQSVPEGKRAGYVVYLPGIVVALIVAGVSYYQTGNYQQVKIWQQATAQAPALLDRALDPKADPLNEEEMSRLALGMRTQLQKNPGDIEGWIMLGRVGMALGNASIATDAYATAYRLDPKNSDAALGYAEALTRSSDPNDNRLGGELLRQLVRTDHSNIRVLSMYAFNAFEQQRFGEAVAAWEMMLKLLPANDTRRAVIERSIAQAMQHLSPQESK" "i" "Han et al., 2011" -"EG12053-MONOMER" "MKRKVLLIPLIIFLAIAAALLWQLARNAEGDDPTNLESALIGKPVPKFRLESLDNPGQFYQADVLTQGKPVLLNVWATWCPTCRAEHQYLNQLSAQGIRVVGMNYKDDRQKAISWLKELGNPYALSLFDGDGMLGLDLGVYGAPETFLIDGNGIIRYRHAGDLNPRVWEEEIKPLWEKYSKEAAQ" "i" "Han et al., 2011" -"EG12054-MONOMER" "MMPEIGNGLLCLALGIALLLSVYPLWGVARGDARMMASSRLFAWLLFMSVAGAFLVLVNAFVVNDFTVTYVASNSNTQLPVWYRVAATWGAHEGSLLLWVLLMSGWTFAVAIFSQRIPLDIVARVLAIMGMVSVGFLLFILFTSNPFSRTLPNFPIEGRDLNPLLQDPGLIFHPPLLYMGYVGFSVAFAFAIASLLSGRLDSTYARFTRPWTLAAWIFLTLGIVLGSAWAYYELGWGGWWFWDPVENASFMPWLVGTALMHSLAVTEQRASFKAWTLLLAISAFSLCLLGTFLVRSGVLVSVHAFASDPARGMFILAFMVLVIGGSLLLFAARGHKVRSRVNNALWSRESLLLANNVLLVAAMLVVLLGTLLPLVHKQLGLGSISIGEPFFNTMFTWLMVPFALLLGVGPLVRWGRDRPRKIRNLLIIAFISTLVLSLLLPWLFESKVVAMTVLGLAMACWIAVLAIAEAALRISRGTKTTFSYWGMVAAHLGLAVTIVGIAFSQNYSVERDVRMKSGDSVDIHEYRFTFRDVKEVTGPNWRGGVATIGVTRDGKPETVLYAEKRYYNTAGSMMTEAAIDGGITRDLYAALGEELENGAWAVRLYYKPFVRWIWAGGLMMALGGLLCLFDPRYRKRVSPQKTAPEAV" "i" "Han et al., 2011" -"EG12069-MONOMER" "MKKVTAMLFSMAVGLNAVSMAAKAKASEEQETDVLLIGGGIMSATLGTYLRELEPEWSMTMVERLEGVAQESSNGWNNAGTGHSALMELNYTPQNADGSISIEKAVAINEAFQISRQFWAHQVERGVLRTPRSFINTVPHMSFVWGEDNVNFLRARYAALQQSSLFRGMRYSEDHAQIKEWAPLVMEGRDPQQKVAATRTEIGTDVNYGEITRQLIASLQKKSNFSLQLSSEVRALKRNDDNTWTVTVADLKNGTAQNIRAKFVFIGAGGAALKLLQESGIPEAKDYAGFPVGGQFLVSENPDVVNHHLAKVYGKASVGAPPMSVPHIDTRVLDGKRVVLFGPFATFSTKFLKNGSLWDLMSSTTTSNVMPMMHVGLDNFDLVKYLVSQVMLSEEDRFEALKEYYPQAKKEDWRLWQAGQRVQIIKRDAEKGGVLRLGTEVVSDQQGTIAALLGASPGASTAAPIMLNLLEKVFGDRVSSPQWQATLKAIVPSYGRKLNGDVAATERELQYTSEVLGLNYDKPQAADSTPKPQLKPQPVQKEVADIAL" "i" "Han et al., 2011" -"EG12073-MONOMER" "MEISFTRVALLAAALFFVGCDQKPQPAKTHATEVTVLEGKTMGTFWRASIPGIDAKRSAELKEKIQTQLDADDQLLSTYKKDSALMRFNDSQSLSPWPVSEAMADIVTTSLRIGAKTDGAMDITVGPLVNLWGFGPEQQPVQIPSQEQIDAMKAKTGLQHLTVINQSHQQYLQKDLPDLYVDLSTVGEGYAADHLARLMEQEGISRYLVSVGGALNSRGMNGEGLPWRVAIQKPTDKENAVQAVVDINGHGISTSGSYRNYYELDGKRLSHVIDPQTGRPIEHNLVSVTVIAPTALEADAWDTGLMVLGPEKAKEVVRREGLAVYMITKEGDSFKTWMSPQFKSFLVSEKN" "c" "Han et al., 2011" -"EG12080-MONOMER" "MTESTSRRPAYARLLDRAVRILAVRDHSEQELRRKLAAPIMGKNGPEEIDATAEDYERVIAWCHEHGYLDDSRFVARFIASRSRKGYGPARIRQELNQKGISREATEKAMRECDIDWCALARDQATRKYGEPLPTVFSEKVKIQRFLLYRGYLMEDIQEIWRNFAD" "c" "Han et al., 2011" -"EG12081-MONOMER" "MKTQRGYTLIETLVAMLILVMLSASGLYGWQYWQQSQRLWQTASQARDYLLYLREDANWHNRDHSISVIREGTLWCLVSSAAGANTCHGSSPLVFVPRWPEVEMSDLTPSLAFFGLRNTAWAGHIRFKNSTGEWWLVVSPWGRLRLCQQGETEGCL" "i" "Han et al., 2011" -"EG12094-MONOMER" "MPSARLQQQFIRLWQCCEGKSQDTTLNELAALLSCSRRHMRTLLNTMQDRGWLTWEAEVGRGKRSRLTFLYTGLALQQQRAEDLLEQDRIDQLVQLVGDKATVRQMLVSHLGRSFRQGRHILRVLYYRPLRNLLPGSALRRSETHIARQIFSSLTRINEENGELEADIAHHWQQISPLHWRFFLRPGVHFHHGRELEMDDVIASLKRINTLPLYSHIADIVSPTPWTLDIHLTQPDRWLPLLLGQVPAMILPREWETLSNFASHPIGTGPYAVIRNSTNQLKIQAFDDFFGYRALIDEVNVWVLPEIADEPAGGLMLKGPQGEEKEIESRLEEGCYYLLFDSRTHRGANQQVRDWVSYVLSPTNLVYFAEEQYQQLWFPAYGLLPRWHHARTIKSEKPAGLESLTLTFYQDHSEHRVIAGIMQQILASHQVTLKIKEIDYDQWHTGEIESDIWLNSANFTLPLDFSVFAHLCEVPLLQHCIPIDWQADAARWRNGEMNLANWCQQLVASKAMVPLLHHWLIIQGQRSMRGLRMNTLGWFDFKSAWFAPPDP" "c" "Han et al., 2011" -"EG12096-MONOMER" "MVKKSEFERGDIVLVGFDPASGHEQQGAGRPALVLSVQAFNQLGMTLVAPITQGGNFARYAGFSVPLHCEEGDVHGVVLVNQVRMMDLHARLAKRIGLAADEVVEEALLRLQAVVE" "c" "EcoCyc dump" -"EG12097-MONOMER" "MSKLIVPQWPQPKGVAACSSTRIGGVSLPPYDSLNLGAHCGDNPDHVEENRKRLFAAGNLPSKPVWLEQVHGKDVLKLTGEPYASKRADASYSNTPGTVCAVMTADCLPVLFCNRAGTEVAAAHAGWRGLCAGVLEETVSCFADNPENILAWLGPAIGPRAFEVGGEVREAFMAVDAKASAAFIQHGDKYLADIYQLARQRLANVGVEQIFGGDRCTYTENETFFSYRRDKTTGRMASFIWLI" "c" "Han et al., 2011" -"EG12098-MONOMER" "MAQRVQLTATVSENQLGQRLDQALAEMFPDYSRSRIKEWILDQRVLVNGKVCDKPKEKVLGGEQVAINAEIEEEARFEPQDIPLDIVYEDEDIIIINKPRDLVVHPGAGNPDGTVLNALLHYYPPIADVPRAGIVHRLDKDTTGLMVVAKTVPAQTRLVESLQRREITREYEAVAIGHMTAGGTVDEPISRHPTKRTHMAVHPMGKPAVTHYRIMEHFRVHTRLRLRLETGRTHQIRVHMAHITHPLVGDPVYGGRPRPPKGASEAFISTLRKFDRQALHATMLRLYHPISGIEMEWHAPIPQDMVELIEVMRADFEEHKDEVDWL" "c" "Han et al., 2011" -"EG12099-MONOMER" "MATYYSNDFRAGLKIMLDGEPYAVEASEFVKPGKGQAFARVKLRRLLTGTRVEKTFKSTDSAEGADVVDMNLTYLYNDGEFWHFMNNETFEQLSADAKAIGDNAKWLLDQAECIVTLWNGQPISVTPPNFVELEIVDTDPGLKGDTAGTGGKPATLSTGAVVKVPLFVQIGEVIKVDTRSGEYVSRVK" "c" "Han et al., 2011" -"EG12101-MONOMER" "MQYTPDTAWKITGFSREISPAYRQKLLSLGMLPGSSFNVVRVAPLGDPIHIETRRVSLVLRKKDLALLEVEAVSC" "c" "Han et al., 2011" -"EG12103-MONOMER" "VTAEEVNNALKQATTNNESFGYTDEEIVSSDIIGSHFGSVFDATQTEITAVGDLQLVKTVAWYDNEYGFVTQLIRTLEKFAKL" "c" "Han et al., 2011" -"EG12104-MONOMER" "VTRTNLITGFLGSGKTTSILHLLAHKDPNEKWAVLVNEFGEVGIDGALLADSGALLKEIPGGCMCCVNGLPMQVGLNTLLRQGKPDRLLIEPTGLGHPKQILDLLTAPVYEPWIDLRATLCILDPRLLLDEKSASNENFRDQLAAADIIVANKSDRTTPESEQALQRWWQQNGGDRQLIHSEHGKVDGHLLDLPRRNLAELPASAAHSHQHVVKKGLAALSLPEHQRWRRSLNSGQGYQACGWIFDADTVFDTIGILEWARLAPVERVKGVLRIPEGLVRINRQGDDLHIETQNVAPPDSRIELISSSEADWNALQSALLKLRLATTA" "c" "Han et al., 2011" -"EG12105-MONOMER" "MHITLRQLEVFAEVLKSGSTTQASVMLALSQSAVSAALTDLEGQLGVQLFDRVGKRLVVNEHGRLLYPRALALLEQAVEIEQLFREDNGAIRIYASSTIGNYILPAVIARYRHDYPQLPIELSVGNSQDVMQAVLDFRVDIGFIEGPCHSTEIISEPWLEDELVVFAAPTSPLARGPVTLEQLAAAPWILRERGSGTREIVDYLLLSHLPKFEMAMELGNSEAIKHAVRHGLGISCLSRRVIEDQLQAGTLSEVAVPLPRLMRTLWRIHHRQKHLSNALRRFLDYCDPANVPR" "c" "Han et al., 2011" -"EG12106-MONOMER" "MNIPQLTALCLRYHGVLLDASEEVVHVAVVDAPSHELLDALHFATTKRIEITCWTRQQMEGHASRTQQTLPVAVQEKHQPKAELLTRTLQSALEQRASDIHIEPADNAYRIRLRIDGVLHPLPDVSPDAGVALTARLKVLGNLDIAEHRLPQDGQFTVELAGNAVSFRIATLPCRGGEKVVLRLLQQVGQALDVNTLGMQPLQLADFAHALQQPQGLVLVTGPTGSGKTVTLYSALQKLNTADINICSVEDPVEIPIAGLNQTQIHPRAGLTFQGVLRALLRQDPDVIMIGEIRDGETAEIAIKAAQTGHLVLSTLHTNSTCETLVRLQQMGVARWMLSSALTLVIAQRLVRKLCPHCRRQQGEPIHIPDNVWPSPLPHWQAPGCVHCYHGFYGRTALFEVLPITPVIRQLISANTDVESLETHARQAGMRTLFENGCLAVEQGLTTFEELIRVLGMPHGE" "c" "Han et al., 2011" -"EG12107-MONOMER" "MDKQRGFTLIELMVVIGIIAILSAIGIPAYQNYLRKAALTDMLQTFVPYRTAVELCALEHGGLDTCDGGSNGIPSPTTTRYVSAMSVAKGVVSLTGQESLNGLSVVMTPGWDNANGVTGWTRNCNIQSDSALQQACEDVFRFDDAN" "i" "Han et al., 2011" -"EG12108-MONOMER" "MSFSVDVLANIAIELQRGIGHQDRFQRLITTLRQVLECDASALLRYDSRQFIPLAIDGLAKDVLGRRFALEGHPRLEAIARAGDVVRFPADSELPDPYDGLIPGQESLKVHACVGLPLFAGQNLIGALTLDGMQPDQFDVFSDEELRLIAALAAGALSNALLIEQLESQNMLPGDATPFEAVKQTQMIGLSPGMTQLKKEIEIVAASDLNVLISGETGTGKELVAKAIHEASPRAVNPLVYLNCAALPESVAESELFGHVKGAFTGAISNRSGKFEMADNGTLFLDEIGELSLALQAKLLRVLQYGDIQRVGDDRCLRVDVRVLAATNRDLREEVLAGRFRADLFHRLSVFPLSVPPLRERGDDVILLAGYFCEQCRLRQGLSRVVLSAGARNLLQHYSFPGNVRELEHAIHRAVVLARATRSGDEVILEAQHFAFPEVTLPTPEVAAVPVVKQNLREATEAFQRETIRQALAQNHHNWAACARMLETDVANLHRLAKRLGLKD" "c" "Han et al., 2011" -"EG12110-MONOMER" "MNITPFPTLSPATIDAINVIGQWLAQDDFSGEVPYQADCVILAGNAVMPTIDAACKIARDQQIPLLISGGIGHSTTFLYSAIAQHPHYNTIRTTGRAEATILADIAHQFWHIPHEKIWIEDQSTNCGENARFSIALLNQAVERVHTAIVVQDPTMQRRTMATFRRMTGDNPDAPRWLSYPGFVPQLGNNADSVIFINQLQGLWPVERYLSLLTGELPRLRDDSDGYGPRGRDFIVHVDFPAEVIHAWQTLKHDAVLIEAMESRSLR" "c" "Han et al., 2011" -"EG12111-MONOMER" "MSAGSPKFTVRRIAALSLVSLWLAGCSDTSNPPAPVSSVNGNAPANTNSGMLITPPPKMGTTSTAQQPQIQPVQQPQIQATQQPQIQPVQPVAQQPVQMENGRIVYNRQYGNIPKGSYSGSTYTVKKGDTLFYIAWITGNDFRDLAQRNNIQAPYALNVGQTLQVGNASGTPITGGNAITQADAAEQGVVIKPAQNSTVAVASQPTITYSESSGEQSANKMLPNNKPTATTVTAPVTVPTASTTEPTVSSTSTSTPISTWRWPTEGKVIETFGASEGGNKGIDIAGSKGQAIIATADGRVVYAGNALRGYGNLIIIKHNDDYLSAYAHNDTMLVREQQEVKAGQKIATMGSTGTSSTRLHFEIRYKGKSVNPLRYLPQR" "e" "Han et al., 2011" -"EG12113-MONOMER" "MKQWIAALLLMLIPGVQAAKPQKVTLMVDDVPVAQVLQALAEQEKLNLVVSPDVSGTVSLHLTDVPWKQALQTVVKSAGLITRQEGNILSVHSIAWQNNNIARQEAEQARAQANLPLENRSITLQYADAGELAKAGEKLLSAKGSMTVDKRTNRLLLRDNKTALSALEQWVAQMDLPVGQVELSAHIVTINEKSLRELGVKWTLADAQHAGGVGQVTTLGSDLSVATATTHVGFNIGRINGRLLDLELSALEQKQQLDIIASPRLLASHLQPASIKQGSEIPYQVSSGESGATSVEFKEAVLGMEVTPTVLQKGRIRLKLHISQNVPGQVLQQADGEVLAIDKQEIETQVEVKSGETLALGGIFTRKNKSGQDSVPLLGDIPWFGQLFRHDGKEDERRELVVFITPRLVSSE" "o" "Han et al., 2011" -"EG12114-MONOMER" "MTLSPYLQEVAKRRTFAIISHPDAGKTTITEKVLLFGQAIQTAGTVKGRGSNQHAKSDWMEMEKQRGISITTSVMQFPYHDCLVNLLDTPGHEDFSEDTYRTLTAVDCCLMVIDAAKGVEDRTRKLMEVTRLRDTPILTFMNKLDRDIRDPMELLDEVENELKIGCAPITWPIGCGKLFKGVYHLYKDETYLYQSGKGHTIQEVRIVKGLNNPDLDAAVGEDLAQQLRDELELVKGASNEFDKELFLAGEITPVFFGTALGNFGVDHMLDGLVEWAPAPMPRQTDTRTVEASEDKFTGFVFKIQANMDPKHRDRVAFMRVVSGKYEKGMKLRQVRTAKDVVISDALTFMAGDRSHVEEAYPGDILGLHNHGTIQIGDTFTQGEMMKFTGIPNFAPELFRRIRLKDPLKQKQLLKGLVQLSEEGAVQVFRPISNNDLIVGAVGVLQFDVVVARLKSEYNVEAVYESVNVATARWVECADAKKFEEFKRKNESQLALDGGDNLAYIATSMVNLRLAQERYPDVQFHQTREH" "c" "Lopez-Campistrous et al., 2005" -"EG12115-MONOMER" "MKWDWIFFDADETLFTFDSFTGLQRMFLDYSVTFTAEDFQDYQAVNKPLWVDYQNGAITSLQLQHGRFESWAERLNVEPGKLNEAFINAMAEICTPLPGAVSLLNAIRGNAKIGIITNGFSALQQVRLERTGLRDYFDLLVISEEVGVAKPNKKIFDYALEQAGNPDRSRVLMVGDTAESDILGGINAGLATCWLNAHHREQPEGIAPTWTVSSLHELEQLLCKH" "c" "Han et al., 2011" -"EG12116-MONOMER" "MARKTKQEAQETRQHILDVALRLFSQQGVSSTSLGEIAKAAGVTRGAIYWHFKDKSDLFSEIWELSESNIGELELEYQAKFPGDPLSVLREILIHVLESTVTEERRRLLMEIIFHKCEFVGEMAVVQQAQRNLCLESYDRIEQTLKHCIEAKMLPADLMTRRAAIIMRGYISGLMENWLFAPQSFDLKKEARDYVAILLEMYLLCPTLRNPATNE" "c" "Han et al., 2011" -"EG12117-MONOMER" "MKKIACLSALAAVLAFTAGTSVAATSTVTGGYAQSDAQGQMNKMGGFNLKYRYEEDNSPLGVIGSFTYTEKSRTASSGDYNKNQYYGITAGPAYRINDWASIYGVVGVGYGKFQTTEYPTYKHDTSDYGFSYGAGLQFNPMENVALDFSYEQSRIRSVDVGTWIAGVGYRF" "o" "Lopez-Campistrous et al., 2005" -"EG12119-MONOMER" "VSQLCPCGSAVEYSLCCHPYVSGEKVAPDPEHLMRSRYCAFVMQDADYLIKTWHPSCGAAALRAELMAGFAHTEWLGLTVFEHCWQDADNIGFVSFVARFTEGGKTGAIIERSRFLKENGQWYYIDGTRPQFGRNDPCPCGSGKKFKKCCGQ" "c" "Han et al., 2011" -"EG12120-MONOMER" "VATIAFQGNLAGIMRKIKIGLALGSGAARGWSHIGVINALKKVGIEIDIVAGCSIGSLVGAAYACDRLSALEDWVTSFSYWDVLRLMDLSWQRGGLLRGERVFNQYREIMPETEIENCSRRFAAVATNLSTGRELWFTEGDLHLAIRASCSIPGLMAPVAHNGYWLVDGAVVNPIPISLTRALGADIVIAVDLQHDAHLMQQDLLSFNVSEENSENGDSLPWHARLKERLGSITTRRAVTAPTATEIMTTSIQVLENRLKRNRMAGDPPDILIQPVCPQISTLDFHRAHAAIAAGQLAVERKMDELLPLVRTNI" "c" "Han et al., 2011" -"EG12121-MONOMER" "MTQPLVGKQILIVEDEQVFRSLLDSWFSSLGATTVLAADGVDALELLGGFTPDLMICDIAMPRMNGLKLLEHIRNRGDQTPVLVISATENMADIAKALRLGVEDVLLKPVKDLNRLREMVFACLYPSMFNSRVEEEERLFRDWDAMVDNPAAAAKLLQELQPPVQQVISHCRVNYRQLVAADKPGLVLDIAALSENDLAFYCLDVTRAGHNGVLAALLLRALFNGLLQEQLAHQNQRLPELGALLKQVNHLLRQANLPGQFPLLVGYYHRELKNLILVSAGLNATLNTGEHQVQISNGVPLGTLGNAYLNQLSQRCDAWQCQIWGTGGRLRLMLSAE" "c" "Han et al., 2011" -"EG12122-MONOMER" "MKTSRLPIAIQQAVMRRLREKLAQANLKLGRNYPEPKLSYTQRGTSAGTAWLESYEIRLNPVLLLENSEAFIEEVVPHELAHLLVWKHFGRVAPHGKEWKWMMENVLGVPARRTHQFELQSVRRNTFPYRCKCQEHQLTVRRHNRVVRGEAVYRCVHCGEQLVAK" "c" "Han et al., 2011" -"EG12123-MONOMER" "MISANRPIINLDLDLLRTFVAVADLNTFAAAAAAVCRTQSAVSQQMQRLEQLVGKELFARHGRNKLLTEHGIQLLGYARKILRFNDEACSSLMFSNLQGVLTIGASDESADTILPFLLNRVSSVYPKLALDVRVKRNAYMAEMLESQEVDLMVTTHRPSAFKALNLRTSPTHWYCAAEYILQKGEPIPLVLLDDPSPFRDMVLATLNKADIPWRLAYVASTLPAVRAAVKAGLGVTARPVEMMSPDLRVLSGVDGLPPLPDTEYLLCYDPSSNNELAQVIYQAMESYHNPWQYSPMSAPEGDDSLLIERDIE" "c" "Han et al., 2011" -"EG12128-MONOMER" "MTSSYLHFPEFDPVIFSIGPVALHWYGLMYLVGFIFAMWLATRRANRPGSGWTKNEVENLLYAGFLGVFLGGRIGYVLFYNFPQFMADPLYLFRVWDGGMSFHGGLIGVIVVMIIFARRTKRSFFQVSDFIAPLIPFGLGAGRLGNFINGELWGRVDPNFPFAMLFPGSRTEDILLLQTNPQWQSIFDTYGVLPRHPSQLYELLLEGVVLFIILNLYIRKPRPMGAVSGLFLIGYGAFRIIVEFFRQPDAQFTGAWVQYISMGQILSIPMIVAGVIMMVWAYRRSPQQHVS" "i" "Han et al., 2011" -"EG12130-MONOMER" "MALLQISEPGLSAAPHQRRLAAGIDLGTTNSLVATVRSGQAETLADHEGRHLLPSVVHYQQQGHSVGYDARTNAALDTANTISSVKRLMGRSLADIQQRYPHLPYQFQASENGLPMIETAAGLLNPVRVSADILKALAARATEALAGELDGVVITVPAYFDDAQRQGTKDAARLAGLHVLRLLNEPTAAAIAYGLDSGQEGVIAVYDLGGGTFDISILRLSRGVFEVLATGGDSALGGDDFDHLLADYIREQAGIPDRSDNRVQRELLDAAIAAKIALSDADSVTVNVAGWQGEISREQFNELIAPLVKRTLLACRRALKDAGVEADEVLEVVMVGGSTRVPLVRERVGEFFGRPPLTSIDPDKVVAIGAAIQADILVGNKPDSEMLLLDVIPLSLGLETMGGLVEKVIPRNTTIPVARAQDFTTFKDGQTAMSIHVMQGERELVQDCRSLARFALRGIPALPAGGAHIRVTFQVDADGLLSVTAMEKSTGVEASIQVKPSYGLTDSEIASMIKDSMSYAEQDVKARMLAEQKVEAARVLESLHGALAADAALLSAAERQVIDDAAAHLSEVAQGDDVDAIEQAIKNVDKQTQDFAARRMDQSVRRALKGHSVDEV" "c" "Han et al., 2011" -"EG12131-MONOMER" "MDYFTLFGLPARYQLDTQALSLRFQDLQRQYHPDKFASGSQAEQLAAVQQSATINQAWQTLRHPLMRAEYLLSLHGFDLASEQHTVRDTAFLMEQLELREELDEIEQAKDEARLESFIKRVKKMFDTRHQLMVEQLDNETWDAAADTVRKLRFLDKLRSSAEQLEEKLLDF" "c" "Han et al., 2011" -"EG12132-MONOMER" "MSITLSDSAAARVNTFLANRGKGFGLRLGVRTSGCSGMAYVLEFVDEPTPEDIVFEDKGVKVVVDGKSLQFLDGTQLDFVKEGLNEGFKFTNPNVKDECGCGESFHV" "c" "Han et al., 2011" -"EG12133-MONOMER" "MGKLTGKTALITGALQGIGEGIARTFARHGANLILLDISPEIEKLADELCGRGHRCTAVVADVRDPASVAAAIKRAKEKEGRIDILVNNAGVCRLGSFLDMSDDDRDFHIDINIKGVWNVTKAVLPEMIARKDGRIVMMSSVTGDMVADPGETAYALTKAAIVGLTKSLAVEYAQSGIRVNAICPGYVRTPMAESIARQSNPEDPESVLTEMAKAIPMRRLADPLEVGELAAFLASDESSYLTGTQNVIDGGSTLPETVSVGI" "c" "Han et al., 2011" -"EG12134-MONOMER" "MPGSLRKMPVWLPIVILLVAMASIQGGASLAKSLFPLVGAPGVTALRLALGTLILIAFFKPWRLRFAKEQRLPLLFYGVSLGGMNYLFYLSIQTVPLGIAVALEFTGPLAVALFSSRRPVDFVWVVLAVLGLWFLLPLGQDVSHVDLTGCALALGAGACWAIYILSGQRAGAEHGPATVAIGSLIAALIFVPIGALQAGEALWHWSVIPLGLAVAILSTALPYSLEMIALTRLPTRTFGTLMSMEPALAAVSGMIFLGETLTPIQLLALGAIIAASMGSTLTVRKESKIKELDIN" "i" "Han et al., 2011" -"EG12137-MONOMER" "MVKKAIVTAMAVISLFTLMGCNNRAEVDTLSPAQAAELKPMPQSWRGVLPCADCEGIETSLFLEKDGTWVMNERYLGAREEPSSFASYGTWARTADKLVLTDSKGEKSYYRAKGDALEMLDREGNPIESQFNYTLEAAQSSLPMTPMTLRGMYFYMADAATFTDCATGKRFMVANNAELERSYLAARGHSEKPVLLSVEGHFTLEGNPDTGAPTKVLAPDTAGKFYPNQDCSSLGQ" "o" "Han et al., 2011" -"EG12138-MONOMER" "MDKPKAYCRLFLPSFLLLSACTVDISQPDPSATAVDAEAKTWAVKFQHQSSFTEQSIKEITAPDLKPGDLLFSSSLGVTSFGIRVFSTSSVSHVAIFLGDNNVAEATGAGVQIVSLKKAMKHSDKLFVLRVPDLTPQQATDITAFANKIKDSGYNYRGIVEFIPFMVTRQMCSLNPFSEDFRQQCVSGLAKAQLSSVGEGDKKSWFCSEFVTDAFAKAGHPLTLAQSGWISPADLMHMRIGDVSAFKPETQLQYVGHLKPGIYIKAGRFVGLTR" "i" "Han et al., 2011" -"EG12139-MONOMER" "MRHIFQRLLPRRLWLAGLPCLALLGCVQNHNKPAIDTPAEEKIPVYQLADYLSTECSDIWALQGKSTETNPLYWLRAMDCADRLMPAQSRQQARQYDDGSWQNTFKQGILLADAKITPYERRQLVARIEALSTEIPAQVRPLYQLWRDGQALQLQLAEERQRYSKLQQSSDSELDTLRQQHHVLQQQLELTTRKLENLTDIERQLSTRKPAGNFSPDTPHESEKPAPSTHEVTPDEP" "i" "Han et al., 2011" -"EG12140-MONOMER" "MWSEYSLEVVDAVARNGSFSAAAQELHRVPSAVSYTVRQLEEWLAVPLFERRHRDVELTAAGAWFLKEGRSVVKKMQITRQQCQQIANGWRGQLAIAVDNIVRPERTRQMIVDFYRHFDDVELLVFQEVFNGVWDALSDGRVELAIGATRAIPVGGRYAFRDMGMLSWSCVVASHHPLALMDGPFSDDTLRNWPSLVREDTSRTLPKRITWLLDNQKRVVVPDWESSATCISAGLCIGMVPTHFAKPWLNEGKWVALELENPFPDSACCLTWQQNDMSPALTWLLEYLGDSETLNKEWLREPEETPATGD" "c" "Han et al., 2011" -"EG12146-MONOMER" "MVLMIVSGRSGSGKSVALRALEDMGFYCVDNLPVVLLPDLARTLADREISAAVSIDVRNMPESPEIFEQAMSNLPDAFSPQLLFLDADRNTLIRRYSDTRRLHPLSSKNLSLESAIDKESDLLEPLRSRADLIVDTSEMSVHELAEMLRTRLLGKRERELTMVFESFGFKHGIPIDADYVFDVRFLPNPHWDPKLRPMTGLDKPVAAFLDRHTEVHNFIYQTRSYLELWLPMLETNNRSYLTVAIGCTGGKHRSVYIAEQLADYFRSRGKNVQSRHRTLEKRKP" "c" "Han et al., 2011" -"EG12147-MONOMER" "MTVKQTVEITNKLGMHARPAMKLFELMQGFDAEVLLRNDEGTEAEANSVIALLMLDSAKGRQIEVEATGPQEEEALAAVIALFNSGFDED" "c" "Han et al., 2011" -"EG12154-MONOMER" "MLDVFTPLLKLFANEPLERLMYTIIIFGLTLWLIPKEFTVAFNAYTEIPWLFQIIVFAFSFVVAISFSRLRAHIQKHYSLLPEQRVLLRLSEKEIAVFKDFLKTGNLIITSPCRNPVMKKLERKGIIQHQSDSANCSYYLVTEKYSHFMKLFWNSRSRRFNR" "i" "Han et al., 2011" -"EG12155-MONOMER" "MIAHHFGTDEIPRQCVTPGDYVLHEGRTYIASANNIKKRKLYIRNLTTKTFITDRMIKVFLGRDGLPVKAESW" "c" "Han et al., 2011" -"EG12158-MONOMER" "MLWFKNLMVYRLSREISLRAEEMEKQLASMAFTPCGSQDMAKMGWVPPMGSHSDALTHVANGQIVICARKEEKILPSPVIKQALEAKIAKLEAEQARKLKKTEKDSLKDEVLHSLLPRAFSRFSQTMMWIDTVNGLIMVDCASAKKAEDTLALLRKSLGSLPVVPLSMENPIELTLTEWVRSGSAAQGFQLLDEAELKSLLEDGGVIRAKKQDLTSEEITNHIEAGKVVTKLALDWQQRIQFVMCDDGSLKRLKFCDELRDQNEDIDREDFAQRFDADFILMTGELAALIQNLIEGLGGEAQR" "c" "Han et al., 2011" -"EG12159-MONOMER" "MLQSNEYFSGKVKSIGFSSSSTGRASVGVMVEGEYTFSTAEPEEMTVISGALNVLLPDATDWQVYEAGSVFNVPGHSEFHLQVAEPTSYLCRYL" "c" "Han et al., 2011" -"EG12161-MONOMER" "MSHYKTGHKQPRFRYSVLARCVAWANISVQVLFPLAVTFTPVMAARAQHAVQPRLSMGNTTVTADNNVEKNVASFAANAGTFLSSQPDSDATRNFITGMATAKANQEIQEWLGKYGTARVKLNVDKDFSLKDSSLEMLYPIYDTPTNMLFTQGAIHRTDDRTQSNIGFGWRHFSGNDWMAGVNTFIDHDLSRSHTRIGVGAEYWRDYLKLSANGYIRASGWKKSPDIEDYQERPANGWDIRAEGYLPAWPQLGASLMYEQYYGDEVGLFGKDKRQKDPHAISAEVTYTPVPLTQQ" "o" "Han et al., 2011" -"EG12163-MONOMER" "MKKQRNLRSMAAQAVEQVVEQGQSLSNILPPLQQKVSDKDKALLQELCFGVLRTLSQLDWLINKLMARPMTGKQRTVHYLIMVGLYQLLYTRIPPHAALAETVEGAIAIKRPQLKGLINGVLRQFQRQQEELLAEFNASDARYLHPSWLLKRLQKAYPEQWQSIVEANNQRPPMWLRINRTHHSRDSWLALLDEAGMKGFPHADYPDAVRLETPAPVHALPGFEDGWVTVQDASAQGCMTWLAPQNGEHILDLCAAPGGKTTHILEVAPEAQVVAVDIDEQRLSRVYDNLKRLGMKATVKQGDGRYPSQWCGEQQFDRILLDAPCSATGVIRRHPDIKWLRRDRDIPELAQLQSEILDAIWPHLKTGGTLVYATCSVLPEENSLQIKAFLQRTADAELCETGTPEQPGKQNLPGAEEGDGFFYAKLIKK" "c" "Han et al., 2011" -"EG12165-MONOMER" "MSEFSQTVPELVAWARKNDFSISLPVDRLSFLLAVATLNGERLDGEMSEGELVDAFRHVSDAFEQTSETIGVRANNAINDMVRQRLLNRFTSEQAEGNAIYRLTPLGIGITDYYIRQREFSTLRLSMQLSIVAGELKRAADAAEEGGDEFHWHRNVYAPLKYSVAEIFDSIDLTQRLMDEQQQQVKDDIAQLLNKDWRAAISSCELLLSETSGTLRELQDTLEAAGDKLQANLLRIQDATMTHDDLHFVDRLVFDLQSKLDRIISWGQQSIDLWIGYDRHVHKFIRTAIDMDKNRVFAQRLRQSVQTYFDEPWALTYANADRLLDMRDEEMALRDEEVTGELPEDLEYEEFNEIREQLAAIIEEQLAVYKTRQVPLDLGLVVREYLSQYPRARHFDVARIVIDQAVRLGVAQADFTGLPAKWQPINDYGAKVQAHVIDKY" "c" "Han et al., 2011" -"EG12166-MONOMER" "MLFTLKKVIGNMLLPLPLMLLIIGAGLALLWFSRFQKTGKIFISIGWLALLLLSLQPVADRLLRPIESTYPTWNNSQKVDYIVVLGGGYTWNPQWAPSSNLINNSLPRLNEGIRLWRENPGSKLIFTGGVAKTNTVSTAEVGARVAQSLGVPREQIITLDLPKDTEEEAAAVKQAIGDAPFLLVTSASHLPRAMIFFQQEGLNPLPAPANQLAIDSPLNPWERAIPSPVWLMHSDRVGYETLGRIWQWLKGSSGEPRQE" "c" "Han et al., 2011" -"EG12167-MONOMER" "MQDRNFDDIAEKFSRNIYGTTKGQLRQAILWQDLDRVLAEMGPQKLRVLDAGGGEGQTAIKMAERGHQVILCDLSAQMIDRAKQAAEAKGVSDNMQFIHCAAQDVASHLETPVDLILFHAVLEWVADPRSVLQTLWSVLRPGGVLSLMFYNAHGLLMHNMVAGNFDYVQAGMPKKKKRTLSPDYPRDPAQVYLWLEEAGWQIMGKTGVRVFHDYLREKHQQRDCYEALLELETRYCRQEPYITLGRYIHVTARKPQSKDKV" "c" "Han et al., 2011" -"EG12169-MONOMER" "MTPAFASWNEFFAMGGYAFFVWLAVVMTVIPLVVLVVHSVMQHRAILRGVAQQRAREARLRAAQQQEAA" "i" "Han et al., 2011" -"EG12171-MONOMER" "MPTSHENALQQRCQQIVTSPVLSPEQKRHFLALEAENNLPYPQLPAEARRALDEGVICDMFEGHAPYKPRYVLPDYARFLANGSEWLELEGAKDLDDALSLLTILYHHVPSVTSMPVYLGQLDALLQPYVRILTQDEIDVRIKRFWRYLDRTLPDAFMHANIGPSDSPITRAILRADAELKQVSPNLTFIYDPEITPDDLLLEVAKNICECSKPHIANGPVHDKIFTKGGYGIVSCYNSLPLAGGGSTLVRLNLKAIAERSESLDDFFTRTLPHYCQQQIAIIDARCEFLYQQSHFFENSFLVKEGLINPERFVPMFGMYGLAEAVNLLCEKEGIAARYGKEAAANEVGYRISAQLAEFVANTPVKYGWQKRAMLHAQSGISSDIGTTPGARLPYGDEPDPITHLQTVAPHHAYYYSGISDILTLDETIKRNPQALVQLCLGAFKAGMREFTANVSGNDLVRVTGYMVRLSDLEKYRAEGSRTNTTWLGEEAARNTRILERQPRVISHEQQMRFSQ" "c" "Han et al., 2011" -"EG12172-MONOMER" "VAEETIFSKIIRREIPSDIVYQDDLVTAFRDISPQAPTHILIIPNILIPTVNDVSAEHEQALGRMITVAAKIAEQEGIAEDGYRLIMNTNRHGGQEVYHIHMHLLGGRPLGPMLAHKGL" "c" "Han et al., 2011" -"EG12173-MONOMER" "MIKSWWAEKSTSEKQIVAALAVLSLGVFCWLGVIKPIDTYIAEHQSHAQKIKKDIKWMQDQASTHGLLGHPALTQPIKNILLEEAKRENLAITLENGPDNTLTIHPVTAPLENVSRWLTTAQVTYGIVIEDLQFTLAGNEEITLRHLSFREQQ" "i" "Han et al., 2011" -"EG12176-MONOMER" "VQREDVLGEALKLLELQGIANTTLEMVAERVDYPLDELRRFWPDKEAILYDALRYLSQQIDVWRRQLMLDETQTAEQKLLARYQALSECVKNNRYPGCLFIAACTFYPDPGHPIHQLADQQKSAAYDFTHELLTTLEVDDPAMVAKQMELVLEGCLSRMLVNRSQADVDTAHRLAEDILRFARCRQGGALT" "c" "Han et al., 2011" -"EG12177-MONOMER" "MLDEKSSNTASVVVLCTAPDEATAQDLAAKVLAEKLAACATLIPGATSLYYWEGKLEQEYEVQMILKTTVSHQQALLECLKSHHPYQTPELLVLPVTHGDTDYLSWLNASLR" "c" "Han et al., 2011" -"EG12179-MONOMER" "MSKIKGNVKWFNESKGFGFITPEDGSKDVFVHFSAIQTNGFKTLAEGQRVEFEITNGAKGPSAANVIAL" "c" "Han et al., 2011" -"EG12180-MONOMER" "MNVSKYVAIFSFVFIQLISVGKVFANADEWMTTFRENIAQTWQQPEHYDLYIPAITWHARFAYDKEKTDRYNERPWGGGFGLSRWDEKGNWHGLYAMAFKDSWNKWEPIAGYGWESTWRPLADENFHLGLGFTAGVTARDNWNYIPLPVLLPLASVGYGPVTFQMTYIPGTYNNGNVYFAWMRFQF" "e" "EcoCyc dump" -"EG12181-MONOMER" "MSTTIEKIQRQIAENPILLYMKGSPKLPSCGFSAQAVQALAACGERFAYVDILQNPDIRAELPKYANWPTFPQLWVDGELVGGCDIVIEMYQRGELQQLIKETAAKYKSEEPDAE" "c" "Han et al., 2011" -"EG12182-MONOMER" "MFKKILFPLVALFMLAGCAKPPTTIEVSPTITLPQQDPSLMGVTVSINGADQRTDQALAKVTRDNQIVTLTASRDLRFLLQEVLEKQMTARGYMVGPNGPVNLQIIVSQLYADVSQGNVRYNIATKADIAIIATAQNGNKMTKNYRASYNVEGAFQASNKNIADAVNSVLTDTIADMSQDTSIHEFIKQNAR" "p" "Han et al., 2011" -"EG12188-MONOMER" "MLTRLREIVEKVASAPRLNEALNILVTDICLAMDTEVCSVYLADHDRRCYYLMATRGLKKPRGRTVTLAFDEGIVGLVGRLAEPINLADAQKHPSFKYIPSVKEERFRAFLGVPIIQRRQLLGVLVVQQRELRQYDESEESFLVTLATQMAAILSQSQLTALFGQYRQTRIRALPAAPGVAIAEGWQDATLPLMEQVYQASTLDPALERERLTGALEEAANEFRRYSKRFAAGAQKETAAIFDLYSHLLSDTRLRRELFAEVDKGSVAEWAVKTVIEKFAEQFAALSDNYLKERAGDLRALGQRLLFHLDDANQGPNAWPERFILVADELSATTLAELPQDRLVGVVVRDGAANSHAAIMVRALGIPTVMGADIQPSVLHRRTLIVDGYRGELLVDPEPVLLQEYQRLISEEIELSRLAEDDVNLPAQLKSGERIKVMLNAGLSPEHEEKLGSRIDGIGLYRTEIPFMLQSGFPSEEEQVAQYQGMLQMFNDKPVTLRTLDVGADKQLPYMPISEENPCLGWRGIRITLDQPEIFLIQVRAMLRANAATGNLNILLPMVTSLDEVDEARRLIERAGREVEEMIGYEIPKPRIGIMLEVPSMVFMLPHLAKRVDFISVGTNDLTQYILAVDRNNTRVANIYDSLHPAMLRALAMIAREAEIHGIDLRLCGEMAGDPMCVAILIGLGYRHLSMNGRSVARAKYLLRRIDYAEAENLAQRSLEAQLATEVRHQVAAFMERRGMGGLIRGGL" "c" "Han et al., 2011" -"EG12190-MONOMER" "MKKTRTANLHHLYHEPLPENLKLTPKVEVDNVHQRQTTDVYEHALTITAWQQIYDQLHPGKFHGEFTEILLDDIQVFREYTGLALRQSCLVWPNSFWFGIPATRGEQGFIGSQCLGSAEIATRPGGTEFELSTPDDYTILGVVLSEDVITRQANFLHNPDRVLHMLRNQSALEVKEQHKAALWGFVQQALATFCENPENLHQPAVRKVLGDNLLMAMGAMLEEAQPMVTAESISHQSYRRLLSRAREYVLENMSEPVTVLDLCNQLHVSRRTLQNAFHAILGIGPNAWLKRIRLNAVRRELISPWSQSMTVKDAAMQWGFWHLGQFATDYQQLFSEKPSLTLHQRMREWG" "c" "Han et al., 2011" -"EG12193-MONOMER" "MELKDYYAIMGVKPTDDLKTIKTAYRRLARKYHPDVSKEPDAEARFKEVAEAWEVLSDEQRRAEYDQMWQHRNDPQFNRQFHHGDGQSFNAEDFDDIFSSIFGQHARQSRQRPATRGHDIEIEVAVFLEETLTEHKRTISYNLPVYNAFGMIEQEIPKTLNVKIPAGVGNGQRIRLKGQGTPGENGGPNGDLWLVIHIAPHPLFDIVGQDLEIVVPVSPWEAALGAKVTVPTLKESILLTIPPGSQAGQRLRVKGKGLVSKKQTGDLYAVLKIVMPPKPDENTAALWQQLADAQSSFDPRKDWGKA" "c" "EcoCyc dump" -"EG12194-MONOMER" "MANVTVTFTITEFCLHTGISEEELNEIVGLGVVEPREIQETTWVFDDHAAIVVQRAVRLRHELALDWPGIAVALTLMDDIAHLKQENRLLRQRLSRFVAHP" "c" "Han et al., 2011" -"EG12195-MONOMER" "MTTLTAQQIACVYAWLAQLFSRELDDEQLTQIASAQMAEWFSLLKSEPPLTAAVNELENRIATLTVRDDARLELAADFCGLFLMTDKQAALPYASAYKQDEQEIKRLLVEAGMETSGNFNEPADHLAIYLELLSHLHFSLGEGTVPARRIDSLRQKTLTALWQWLPEFVARCRQYDSFGFYAALSQLLLVLVECDHQNR" "c" "Han et al., 2011" -"EG12196-MONOMER" "MGSNIHGISCTANNYLKQAWNDIKNEYEKNQTYSITLFENTLVCFMRLYNELRRKVNEEDTPCLECESLEKEFEEMQNDNDLSLFMRILRTNDTQIYSGVSGGITYTIQYVRDIDIVRVSLPGRASESITDFKGYYWYNFMEYIENINACDDVFSEYCFDDENISVQPERINTPGISDLDSDIDLSGISFIQRETNQALGLKYAPVDGDGYCLLRAILVLKQHDYSWALVSYKMQKEVYNEFIKMVDKKTIEALVDTAFYNLREDVKTLFGVDLQSDNQIQGQSSLMSWSFLFFKKQFIDSCLNNEKCILHLPEFIFNDNKNLLALDTDTSDRIKAVKNFLVVLSDSICSLFIVNSNVASISLGNESFSTDEDLEYGYLMNTGNHYDVYLPPELFAQAYKLNNKEMNAQLDYLNRYAI" "c" "Han et al., 2011" -"EG12197-MONOMER" "MKTIEVDDELYSYIASHTKHIGESASDILRRMLKFSAASQPAAPVTKEVRVASPAIVEAKPVKTIKDKVRAMRELLLSDEYAEQKRAVNRFMLLLSTLYSLDAQAFAEATESLHGRTRVYFAADEQTLLKNGNQTKPKHVPGTPYWVITNTNTGRKCSMIEHIMQSMQFPAELIEKVCGTI" "c" "Han et al., 2011" -"EG12198-MONOMER" "MERLLIVNADDFGLSKGQNYGIIEACRNGIVTSTTALVNGQAIDHAVQLSRDEPSLAIGMHFVLTMGKPLTAMPGLTRDGVLGKWIWQLAEEDALPLEEITQELVSQYLRFIELFGRKPTHLDSHHHVHMFPQIFPIVARFAAEQGIALRADRQMAFDLPVNLRTTQGFSSAFYGEEISESLFLQVLDDAGHRGDRSLEVMCHPAFIDNTIRQSAYCFPRLTELDVLTSASLKGAIAQRGYRLGSYRDV" "c" "Han et al., 2011" -"EG12200-MONOMER" "VFIGFDYGTANCSVAVMRDGKPHLLKMENDSTLLPSMLCAPTREAVSEWLYRHHDVPADDDETQALLRRAIRYNREEDIDVTAKSVQFGLSSLAQYIDDPEEVWFVKSPKSFLGASGLKPQQVALFEDLVCAMMLHIRQQAQAQLPEAITQAVIGRPINFQGLGGDEANTQAQGILERAAKRAGFRDVVFQYEPVAAGLDYEATLQEEKRVLVVDIGGGTTDCSLLLMGPQWRSRLDREASLLGHSGCRIGGNDLDIALAFKNLMPLLGMGGETEKGIALPILPWWNAVAINDVPAQSDFYSSANGRLLNDLVRDAREPEKVALLQKVWRQRLSYRLVRSAEECKIALSSVAETRASLPFISNELATLISQRGLESALSQPLTRILEQVQLALDNAQEKPDVIYLTGGSARSPLIKKALAEQLPGIPIAGGDDFGSVTAGLARWAEVVFR" "c" "Han et al., 2011" -"EG12201-MONOMER" "MYLRPDEVARVLEKVGFTVDVVTQKAYGYRRGENYVYVNREARMGRTALVIHPTLKERSSTLAEPASDIKTCDHYQQFPLYLAGERHEHYGIPHGFSSRVALERYLNGLFGEAS" "c" "Han et al., 2011" -"EG12202-MONOMER" "MQNRLTIKDIARLSGVGKSTVSRVLNNESGVSQLTRERVEAVMNQHGFSPSRSARAMRGQSDKVVAIIVTRLDSLSENLAVQTMLPAFYEQGYDPIMMESQFSPQLVAEHLGVLKRRNIDGVVLFGFTGITEEMLAHWQSSLVLLARDAKGFASVCYDDEGAIKILMQRLYDQGHRNISYLGVPHSDVTTGKRRHEAYLAFCKAHKLHPVAALPGLAMKQGYENVAKVITPETTALLCATDTLALGASKYLQEQRIDTLQLASVGNTPLMKFLHPEIVTVDPGYAEAGRQAACQLIAQVTGRSEPQQIIIPATLS" "c" "Han et al., 2011" -"EG12203-MONOMER" "MSNKMTGLVKWFNADKGFGFISPVDGSKDVFVHFSAIQNDNYRTLFEGQKVTFSIESGAKGPAAANVIITD" "c" "Unambiguous EcoCyc data" -"EG12204-MONOMER" "MAKIKGQVKWFNESKGFGFITPADGSKDVFVHFSAIQGNGFKTLAEGQNVEFEIQDGQKGPAAVNVTAI" "c" "Lopez-Campistrous et al., 2005" -"EG12205-MONOMER" "LSRKMTGIVKTFDGKSGKGLITPSDGRIDVQLHVSALNLRDAEEITTGLRVEFCRINGLRGPSAANVYLS" "c" "Unambiguous EcoCyc data" -"EG12207-MONOMER" "MSFSCPLCHQPLSREKNSYICPQRHQFDMAKEGYVNLLPVQHKRSRDPGDSAEMMQARRAFLDAGHYQPLRDAIVAQLRERLDDKATAVLDIGCGEGYYTHAFADALPEITTFGLDVSKVAIKAAAKRYPQVTFCVASSHRLPFSDTSMDAIIRIYAPCKAEELARVVKPGGWVITATPGPRHLMELKGLIYNEVHLHAPHAEQLEGFTLQQSAELCYPMRLRGDEAVALLQMTPFAWRAKPEVWQTLAAKEVFDCQTDFNIHLWQRSY" "c" "Han et al., 2011" -"EG12208-MONOMER" "MLVAAGQFAVTSVWEKNAEICASLMAQAAENDASLFALPEALLARDDHDADLSVKSAQLLEGEFLGLYGEKVNVT" "c" "Han et al., 2011" -"EG12209-MONOMER" "VLQLLLAVFIGGGTGSVARWLLSMRFNPLHQAIPLGTLTANLIGAFIIGIGFAWFSRMTNIDPVWKVLITTGFCGGLTTFSTFSAEVVFLLQEGRFGWALLNVFVNLLGSFAMTALAFWLFSASTAH" "i" "Han et al., 2011" -"EG12210-MONOMER" "MKILVIGPSWVGDMMMSQSLYRTLQARYPQAIIDVMAPAWCRPLLSRMPEVNEAIPMPLGHGALEIGERRKLGHSLREKRYDRAYVLPNSFKSALVPFFAGIPHRTGWRGEMRYGLLNDVRVLDKEAWPLMVERYIALAYDKGIMRTAQDLPQPLLWPQLQVSEGEKSYTCNQFSLSSERPMIGFCPGAEFGPAKRWPHYHYAELAKQLIDEGYQVVLFGSAKDHEAGNEILAALNTEQQAWCRNLAGETQLDQAVILIAACKAIVTNDSGLMHVAAALNRPLVALYGPSSPDFTPPLSHKARVIRLITGYHKVRKGDAAEGYHQSLIDITPQRVLEELNALLLQEEA" "c" "Han et al., 2011" -"EG12211-MONOMER" "MKLTIIRLEKFSDQDRIDLQKIWPEYSPSSLQVDDNHRIYAARFNERLLAAVRVTLSGTEGALDSLRVREVTRRRGVGQYLLEEVLRNNPGVSCWWMADAGVEDRGVMTAFMQALGFTAQQGGWEKC" "c" "Han et al., 2011" -"EG12212-MONOMER" "MLINIGRLLMLCVWGFLILNLVHPFPRPLNIFVNVALIFTVLMHGMQLALLKSTLPKDGPQMTTAEKVRIFLFGVFELLAWQKKFKVKK" "i" "Han et al., 2011" -"EG12213-MONOMER" "MSKPPLFFIVIIGLIVVAASFRFMQQRREKADNDMAPLQQKLVVVSNKREKPINDRRSRQQEVTPAGTSIRYEASFKPQSGGMEQTFRLDAQQYHALTVGDKGTLSYKGTRFVSFVGEQ" "i" "Han et al., 2011" -"EG12214-MONOMER" "MLWSFIAVCLSAWLSVDASYRGPTWQRWVFKPLTLLLLLLLAWQAPMFDAISYLVLAGLCASLLGDALTLLPRQRLMYAIGAFFLSHLLYTIYFASQMTLSFFWPLPLVLLVLGALLLAIIWTRLEEYRWPICTFIGMTLVMVWLAGELWFFRPTAPALSAFVGASLLFISNFVWLGSHYRRRFRADNAIAAACYFAGHFLIVRSLYL" "i" "Han et al., 2011" -"EG12216-MONOMER" "MTDLFSSPDHTLDALGLRCPEPVMMVRKTVRNMQPGETLLIIADDPATTRDIPGFCTFMEHELVAKETDGLPYRYLIRKGG" "c" "Han et al., 2011" -"EG12217-MONOMER" "MNVFSQTQRYKALFWLSLFHLLVITSSNYLVQLPVSILGFHTTWGAFSFPFIFLATDLTVRIFGAPLARRIIFAVMIPALLISYVISSLFYMGSWQGFGALAHFNLFVARIATASFMAYALGQILDVHVFNRLRQSRRWWLAPTASTLFGNVSDTLAFFFIAFWRSPDAFMAEHWMEIALVDYCFKVLISIVFFLPMYGVLLNMLLKRLADKSEINALQAS" "i" "Han et al., 2011" -"EG12220-MONOMER" "METPQPDKTGMHILLKLASLVVILAGIHAAADIIVQLLLALFFAIVLNPLVTWFIRRGVQRPVAITIVVVVMLIALTALVGVLAASFNEFISMLPKFNKELTRKLFKLQEMLPFLNLHMSPERMLQRMDSEKVVTFTTALMTGLSGAMASVLLLVMTVVFMLFEVRHVPYKMRFALNNPQIHIAGLHRALKGVSHYLALKTLLSLWTGVIVWLGLELMGVQFALMWAVLAFLLNYVPNIGAVISAVPPMIQVLLFNGVYECILVGALFLVVHMVIGNILEPRMMGHRLGMSTMVVFLSLLIWGWLLGPVGMLLSVPLTSVCKIWMETTKGGSKLAILLGPGRPKSRLPG" "i" "Han et al., 2011" -"EG12221-MONOMER" "MYRIVLGKVSTLSAAPLPPGLREQAPQGPRRERWLAGRALLSHTLSPLPEIIYGEQGKPAFAPEMPLWFNLSHSGDDIALLLSDEGEVGCDIEVIRPRANWRWLANAVFSLGEHAEMDAVHPDQQLEMFWRIWTRKEAIVKQRGGSAWQIVSVDSTYHSSLSVSHCQLENLSLAICTPTPFTLTADSVQWIDSVN" "c" "Han et al., 2011" -"EG12224-MONOMER" "MDKSKRHLAWWVVGLLAVAAIVAWWLLRPAGVPEGFAVSNGRIEATEVDIASKIAGRIDTILVKEGKFVREGEVLAKMDTRVLQEQRLEAIAQIKEAQSAVAAAQALLEQRQSETRAAQSLVNQRQAELDSVAKRHTRSRSLAQRGAISAQQLDDDRAAAESARAALESAKAQVSASKAAIEAARTNIIQAQTRVEAAQATERRIAADIDDSELKAPRDGRVQYRVAEPGEVLAAGGRVLNMVDLSDVYMTFFLPTEQAGTLKLGGEARLILDAAPDLRIPATISFVASVAQFTPKTVETSDERLKLMFRVKARIPPELLQQHLEYVKTGLPGVAWVRVNEELPWPDDLVVRLPQ" "i" "Han et al., 2011" -"EG12225-MONOMER" "MKIGTVAGTNDSTTTIATNDMVQEHVTNFTKELFGYIANGIGDDISSIARTMLGEVVEKIDDWQIERFQQSIQDDKISFTIQTDHSEKYSMLSGMRAHILRRNNNYQFIVTINSKNYGCSLDNTDINWCSIVYLLNNMTVNDNANDVAVTESYKPIWNWKISQYNVSDIKFETMIKPQFADRIYFSNCLPVDPTSTRPTYFGDTDGSVGAVLFALFATGHLGIMAEGENFLSQLLNIEDEVLNVLLRENFNEQLNTNVNTIISILNRRDIILESLQPYLVINKDAVTPCTFLGDQTGDRFSNICGDQFIIDLLKRIMSINENVHVLAGNHETNCNGNYMQNFTRMKPLDEDTYSGIKDYPVCFYDPKYKIMANHHGITFDDQRKRYIIGPITVSIDEMTNALDPVELAAIINKKHHAIINGKKFKTSRAISCRSFNRYFSVSTDYRPKLEALLACSQMLGINQVVAHNGNGGRERIGETGTVLGLNARDSKHAGRMFSMHNCQINPGAGPEITTPWKSYQHEKNRNGLMPLIRRRTMLQL" "c" "Han et al., 2011" -"EG12226-MONOMER" "LQVPFNQMKNPTDPEELANIFNKKHKEHMDDPLFHLIRSNTLKPTPVYANYFDNTTDFRPARERIFICGETLKGEDPSKYIRQKYGHHGPGVDHNQQFDNGIMGLNSLKEARDKNNKIIYSSGLSCFQLH" "c" "Han et al., 2011" -"EG12227-MONOMER" "MKAIDNQIRNISSSHQDKHSDKVNSHQHHGKVDKTHRAKIVEFDKLDNDSQIDNDFGLHIIYFLQHGHWKVNDRSHQMEKVWFYNSEPSIDIQEYNRFADNTTDTFIFTIIPDNNHVLKLSSPITVTVECKGGYYFINSSGDKSDIIYKVDGLSIIARNFFTLLSGNFKPDWRWDVSKETFTKEKFDSYVKSVFSKIDFYKQCGVINPQNANTAYFGDTDGRVGAVLYALLVSGHIGIREKGWSLLCELLKHEEMASSAYKHKNNKVLYDLLNTRDMILNELHQHVFLKDDAITPCIFLGDHTGDRFSTIFGDKYILTLLNSMRNMEGNKDSRINKNVVVLAGNHEINFNGNYTARLANHKLSAGDTYNLIKTLDVCNYDSERQVLTSHHGIIRDEEKNVIVSVLCRFHLIR" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"EG12229-MONOMER" "VERFDAIIIGAGAAGMFCSALAGQAGRRVLLIDNGKKPGRKILMSGGGRCNFTNLYVEPGAYLSQNPHFCKSALARFTQWDFIDLVNKHGIAWHEKTLGQLFCDDSAQQIVDMLVDECEKGNVTFRLRSEVLSVAKDETGFTLDLNGMTVGCEKLVIATGGLSMPGLGASPFGYKIAEQFGLNVLPTRAGLVPFTLHKPLLEELQVLAGVAVPSVITAENGTVFRENLLFTHRGLSGPAVLQISSYWQPGEFVSINLLPDVDLETFLNEQRNAHPNQSLKNTLAVHLPKRLVERLQQLGQIPDVSLKQLNVRDQQALISTLTDWRVQPNGTEGYRTAEVTLGGVDTNELSSRTMEARKVPGLYFIGEVMDVTGWLGGYNFQWAWSSAWACAQDLIAAKSS" "p" "Han et al., 2011" -"EG12231-MONOMER" "MISTVALFWALCVVCIVNMARYFSSLRALLVVLRNCDPLLYQYVDGGGFFTSHGQPNKQVRLVWYIYAQRYRDHHDDEFIRRCERVRRQFILTSALCGLVVVSLIALMIWH" "i" "Han et al., 2011" -"EG12233-MONOMER" "VKICLIDETGTGDGALSVLAARWGLEHDEDNLMALVLTPEHLELRKRDEPKLGGIFVDFVGGAMAHRRKFGGGRGEAVAKAVGIKGDYLPDVVDATAGLGRDAFVLASVGCRVRMLERNPVVAALLDDGLARGYADAEIGGWLQERLQLIHASSLTALTDITPRPQVVYLDPMFPHKQKSALVKKEMRVFQSLVGPDLDADGLLEPARLLATKRVVVKRPDYAPPLANVATPNAVVTKGHRFDIYAGTPV" "c" "Han et al., 2011" -"EG12234-MONOMER" "MLSYRHSFHAGNHADVLKHTVQSLIIESLKEKDKPFLYLDTHAGAGRYQLGSEHAERTGEYLEGIARIWQQDDLPAELEAYINVVKHFNRSGQLRYYPGSPLIARLLLREQDSLQLTELHPSDYPLLRSEFQKDSRARVEKADGFQQLKAKLPPVSRRGLILIDPPYEMKTDYQAVVSGIAEGYKRFATGIYALWYPVVLRQQIKRMIHDLEATGIRKILQIELAVLPDSDRRGMTASGMIVINPPWKLEQQMNNVLPWLHSKLVPAGTGHATVSWIVPE" "c" "Han et al., 2011" -"EG12235-MONOMER" "MSFLLPIQLFKILADETRLGIVLLLSELGELCVCDLCTALDQSQPKISRHLALLRESGLLLDRKQGKWVHYRLSPHIPAWAAKIIDEAWRCEQEKVQAIVRNLARQNCSGDSKNICS" "c" "Han et al., 2011" -"EG12237-MONOMER" "MSNITIYHNPACGTSRNTLEMIRNSGTEPTIIHYLETPPTRDELVKLIADMGISVRALLRKNVEPYEELGLAEDKFTDDRLIDFMLQHPILINRPIVVTPLGTRLCRPSEVVLEILPDAQKGAFSKEDGEKVVDEAGKRLK" "c" "Han et al., 2011" -"EG12238-MONOMER" "MSIDFTPGIINTYHGDIYNCTTNTDNAKTPDTPKWPCDNWEEQQPINSTFSGEGYISDQYDLAQHQLQQINACHTNTTYTNADYSKVVAQLVSLITNIETISSTQLTQQTQSILNQINNIRYEKNKSAECRIIVIANPKPDKAIITKISVEEGIPITFSVQTMFSDTNFIAEQRADLPTNIKDIQSLYQKMTKLYIEHSENKNRMKVFAGTNFIDFNMTGQNLSGFVLTLSRFYFEDLLNINFTDANLGKVRISGEILLG" "c" "Han et al., 2011" -"EG12240-MONOMER" "MNRRRKLLIPLLFCGAMLTACDDKSAENAAAMTPEVGVVTLSPGSVNVLSELPGRTVPYEVAEIRPQVGGIIIKRNFIEGDKVNQGDSLYQIDPAPLQAELNSAKGSLAKALSTASNARITFNRQASLLKTNYVSRQDYDTARTQLNEAEANVTVAKAAVEQATINLQYANVTSPITGVSGKSSVTVGALVTANQADSLVTVQRLDPIYVDLTQSVQDFLRMKEEVASGQIKQVQGSTPVQLNLENGKRYSQTGTLKFSDPTVDETTGSVTLRAIFPNPNGDLLPGMYVTALVDEGSRQNVLLVPQEGVTHNAQGKATALILDKDDVVQLREIEASKAIGDQWVVTSGLQAGDRVIVSGLQRIRPGIKARAISSSQENASTESKQ" "i" "Han et al., 2011" -"EG12242-MONOMER" "MTHVCSVILIRRSFDIYHEQQKISLHNESILLLEKNLADDFAFCSPDTRRLDIDELTVCHYLQNIRQLPRNLGLHSKDRLLINQSPPMPLVTAIFDSFNESGVNSPILSNMLYLSCLSMFSHKKELIPLLFNSISTVSGKVERLISFDIAKRWYLRDIAERMYTSESLIKKKLQDENTCFSKILLASRMSMARRLLELRQIPLHTIAEKCGYSSTSYFINTFRQYYGVTPHQFAQHSPGTFS" "c" "Han et al., 2011" -"EG12243-MONOMER" "MQSLHGNCLIAYARHKYILTMVNGEYRYFNGGDLVFADASQIRVDKCVENFVFVSRDTLSLFLPMLKEEALNLHAHKKVSSLLVHHCSRDIPVFQEVAQLSQNKNLRYAEMLRKRALIFALLSVFLEDEHFIPLLLNVLQPNMRTRVCTVINNNIAHEWTLARIASELLMSPSLLKKKLREEETSYSQLLTECRMQRALQLIVIHGFSIKRVAVSCGYHSVSYFIYVFRNYYGMTPTEYQERSAQRLSNRDSAASIVAQGNFYGTDRSAEGIRL" "c" "Han et al., 2011" -"EG12244-MONOMER" "MKMVSRITAIGLAGVAICYLGLSGYVWYHDNKRSKQADVQASAVSENNKVLGFLREKGCDYCHTPSAELPAYYYIPGAKQLMDYDIKLGYKSFNLEAVRAALLADKPVSQSDLNKIEWVMQYETMPPTRYTALHWAGKVSDEERAEILAWIAKQRAEYYASNDTAPEHRNEPVQPIPQKLPTDAQKVALGFALYHDPRLSADSTISCAHCHALNAGGVDGRKTSIGVGGAVGPINAPTVFNSVFNVEQFWDGRAATLQDQAGGPPLNPIEMASKSWDEIIAKLEKDPQLKTQFLEVYPQGFSGENITDAIAEFEKTLITPDSPFDKWLRGDENALTAQQKKGYQLFKDNKCATCHGGIILGGRSFEPLGLKKDFNFGEITAADIGRMNVTKEERDKLRQKVPGLRNVALTAPYFHRGDVPTLDGAVKLMLRYQVGKELPQEDVDDIVAFLHSLNGVYTPYMQDKQ" "p" "Han et al., 2011" -"EG12246-MONOMER" "MQIVMFDRQSIFIHGMKISLQQRIPGVSIQGASQADELWQKLESYPEALVMLDGDQDGEFCYWLLQKTVVQFPEVKVLITATDCNKRWLQEVIHFNVLAIVPRDSTVETFALAVNSAAMGMMFLPGDWRTTPEKDIKDLKSLSARQREILTMLAAGESNKEIGRALNISTGTVKAHLESLYRRLEVKNRTQAAMMLNISS" "c" "Han et al., 2011" -"EG12247-MONOMER" "MLEKTINNAICALLFRCEQQSVKEMDKIHAMQLFIKVAELESFSRAADFFALPKGSVSRQIQALEHQLGTQLLQRTTRRVKLTPEGMTYYQRAKDVLSNLSELDGLFQQDATSISGKLRIDIPPGIAKSLLLPRLSEFLYLHPGIELELSSHDRPVDILHDGFDCVIRTGALPEDGVIARPLGKLTMVNCASPHYLTRFGYPQSPDDLTSHAIVRYTPHLGVHPLGFEVASVNGVQWFKSGGMLTVNSSENYLTAGLAGLGIIQIPRIAVREALRAGRLIEVLPGYRAEPLSLSLVYPQRRELSRRVNLFMQWLAGVMKEYLD" "c" "Han et al., 2011" -"EG12248-MONOMER" "MTQENEIKRPIQDLEHEPIKPLDNSEKGSKVSQALETVTTTAEKVQRQPVIAHLIRATERFNDRLGNQFGAAITYFSFLSMIPILMVSFAAGGFVLASHPMLLQDIFDKILQNISDPTLAATLKNTINTAVQQRTTVGLVGLAVALYSGINWMGNLREAIRAQSRDVWERSPQDQEKFWVKYLRDFISLIGLLIALIVTLSITSVAGSAQQMIISALHLNSIEWLKPTWRLIGLAISIFANYLLFFWIFWRLPRHRPRKKALIRGTFLAAIGFEVIKIVMTYTLPSLMKSPSGAAFGSVLGLMAFFYFFARLTLFCAAWIATAEYKDDPRMPGKTQP" "i" "Han et al., 2011" -"EG12251-MONOMER" "MRKRTMSKAGKITAAISGAFLLLIVVAIILIATFDWNRLKPTINQKVSAELNRPFAIRGDLGVVWERQKQETGWRSWVPWPHVHAEDIILGNPPDIPEVTMVHLPRVEATLAPLALLTKTVWLPWIKLEKPDARLIRLSEKNNNWTFNLANDDNKDANAKPSAWSFRLDNILFDQGRIAIDDKVSKADLEIFVDPLGKPLPFSEVTGSKGKADKEKVGDYVFGLKAQGRYNGEPLTGTGKIGGMLALRGEGTPFPVQADFRSGNTRVAFDGVVNDPMKMGGVDLRLKFSGDSLGDLYELTGVLLPDTPPFETDGRLVAKIDTEKSSVFDYRGFNGRIGDSDIHGSLVYTTGKPRPKLEGDVESRQLRLADLGPLIGVDSGKGAEKSKRSEQKKGEKSVQPAGKVLPYDRFETDKWDVMDADVRFKGRRIEHGSSLPISDLSTHIILKNADLRLQPLKFGMAGGSIAANIHLEGDKKPMQGRADIQARRLKLKELMPDVELMQKTLGEMNGDAELRGSGNSVAALLGNSNGNLKLLMNDGLVSRNLMEIVGLNVGNYIVGAIFGDDEVRVNCAAANLNIANGVARPQIFAFDTENALINVTGTASFASEQLDLTIDPESKGIRIITLRSPLYVRGTFKNPQAGVKAGPLIARGAVAAALATLVTPAAALLALISPSEGEANQCRTILSQMKK" "i" "Han et al., 2011" -"EG12252-MONOMER" "MIRQVIQRISNPEASIESLQERRFWLQCERAYTWQPIYQTCGRLMAVELLTVVTHPLNPSQRLPPDRYFTEITVSHRMEVVKEQIDLLAQKADFFIEHGLLASVNIDGPTLIALRQQPKILRQIERLPWLRFELVEHIRLPKDSTFASMCEFGPLWLDDFGTGMANFSALSEVRYDYIKIARELFVMLRQSPEGRTLFSQLLHLMNRYCRGVIVEGVETPEEWRDVQNSPAFAAQGWFLSRPAPIETLNTAVLAL" "c" "Han et al., 2011" -"EG12254-MONOMER" "MQGTKIRLLAGGLLMMATAGYVQADALQPDPAWQQGTLSNGLQWQVLTTPQRPSDRVEIRLLVNTGSLAESTQQSGYSHAIPRIALTQSGGLDAAQARSLWQQGIDPKRPMPPVIVSYDTTLFNLSLPNNRNDLLKEALSYLANATGKLTITPETINHALQSQDMVATWPADTKEGWWRYRLKGSTLLGHDPADPLKQPVEAEKIKDFYQKWYTPDAMTLLVVGNVDARSVVDQINKTFGELKGKRETPAPVPTLSPLRAEAVSIMTDAVRQDRLSIMWDTPWQPIRESAALLRYWRADLAREALFWHVQQALSASNSKDIGLGFDCRVLYLRAQCAINIESPNDKLNSNLNLVARELAKVRDKGLPEEEFNALVAQKKLELQKLFAAYARADTDILMGQRMRSLQNQVVDIAPEQYQKLRQDFLNSLTVEMLNQDLRQQLSNDMALILLQPKGEPEFNMKALQAVWDQIMAPSTAAATTSVATDDVHPEVTDIPPAQ" "p" "Han et al., 2011" -"EG12256-MONOMER" "MVAAVVLVFVFIFCTVLLFHLVQQNRYNTATQLESIARSVREPLSSAILKGDIPEAEAILASIKPAGVVSRADVVLPNQFQALRKSFIPERPVPVMVTRLFELPVQISLGVYSLERPANPQPIAYLVLQADSFRMYKFVMSTLSTLVTIYLLLSLILTVAISWCINRLILHPLRNIARELNAIPAKELVGHQLALPRLHQDDEIGMLVRSYNLNQQLLQRHYEEQNENAMRFPVSDLPNKALLMEMLEQVVARKQTTALMIITCETLRDTAGVLKEAQREILLLTLVEKLKSVLSPRMILAQISGYDFAVIANGVQEPWHAITLGQQVLTIMSERLPIERIQLRPHCSIGVAMFYGDLTAEQLYSRAISAAFTARHKGKNQIQFFDPQQMEAAQKRLTEESDILNALENHQFAIWLQPQVEMTSGKLVSAEVLLRIQQPDGSWDLPDGLIDRIECCGLMVTVGHWVLEESCRLLAAWQERGIMLPLSVNLSALQLMHPNMVADMLELLTRYRIQPGTLILEVTESRRIDDPHAAVAILRPLRNAGVRVALDDFGMGYAGLRQLQHMKSLPIDVLKIDKMFVEGLPGDSSMIAAIIMLAQSLNLQMIAEGVETEAQRDWLAKAGVGIAQGFLFARPLPIEIFEESYLEEK" "i" "Han et al., 2011" -"EG12257-MONOMER" "MRKFTLNIFTLSLGLAVMPMVEAAPTAQQQLLEQVRLGEATHREDLVQQSLYRLELIDPNNPDVVAARFRSLLRQGDIDGAQKQLDRLSQLAPSSNAYKSSRTTMLLSTPDGRQALQQARLQATTGHAEEAVASYNKLFNGAPPEGDIAVEYWSTVAKIPARRGEAINQLKRINADAPGNTGLQNNLALLLFSSDRRDEGFAVLEQMAKSNAGREGASKIWYGQIKDMPVSDASVSALKKYLSIFSDGDSVAAAQSQLAEQQKQLADPAFRARAQGLAAVDSGMAGKAIPELQQAVRANPKDSEALGALGQAYSQKGDRANAVANLEKALALDPHSSNNDKWNSLLKVNRYWLAIQQGDAALKANNPDRAERLFQQARNVDNTDSYAVLGLGDVAMARKDYPAAERYYQQTLRMDSGNTNAVRGLANIYRQQSPEKAEAFIASLSASQRRSIDDIERSLQNDRLAQQAEALENQGKWAQAAALQRQRLALDPGSVWITYRLSQDLWQAGQRSQADTLMRNLAQQKSNDPEQVYAYGLYLSGHDQDRAALAHINSLPRAQWNSNIQELVNRLQSDQVLETANRLRESGKEAEAEAMLRQQPPSTRIDLTLADWAQQRRDYTAARAAYQNVLTREPANADAILGLTEVDIAAGDKAAARSQLAKLPATDNASLNTQRRVALAQAQLGDTAAAQRTFNKLIPQAKSQPPSMESAMVLRDGAKFEAQAGDPTQALETYKDAMVASGVTTTRPQDNDTFTRLTRNDEKDDWLKRGVRSDAADLYRQQDLNVTLEHDYWGSSGTGGYSDLKAHTTMLQVDAPYSDGRMFFRSDFVNMNVGSFSTNADGKWDDNWGTCTLQDCSGNRSQSDSGASVAVGWRNDVWSWDIGTTPMGFNVVDVVGGISYSDDIGPLGYTVNAHRRPISSSLLAFGGQKDSPSNTGKKWGGVRADGVGLSLSYDKGEANGVWASLSGDQLTGKNVEDNWRVRWMTGYYYKVINQNNRRVTIGLNNMIWHYDKDLSGYSLGQGGYYSPQEYLSFAIPVMWRERTENWSWELGASGSWSHSRTKTMPRYPLMNLIPTDWQEEAARQSNDGGSSQGFGYTARALLERRVTSNWFVGTAIDIQQAKDYAPSHFLLYVRYSAAGWQGDMDLPPQPLIPYADW" "p" "Han et al., 2011" -"EG12258-MONOMER" "MNVLRSGIVTMLLLAAFSVQAACTWPAWEQFKKDYISQEGRVIDPSDARKITTSEGQSYGMFSALAANDRAAFDNILDWTQNNLAQGSLKERLPAWLWGKKENSKWEVLDSNSASDGDVWMAWSLLEAGRLWKEQRYTDIGSALLKRIAREEVVTVPGLGSMLLPGKVGFAEDNSWRFNPSYLPPTLAQYFTRFGAPWTTLRETNQRLLLETAPKGFSPDWVRYEKDKGWQLKAEKTLISSYDAIRVYMWVGMMPDSDPQKARMLNRFKPMATFTEKNGYPPEKVDVATGKAQGKGPVGFSAAMLPFLQNRDAQAVQRQRVADNFPGSDAYYNYVLTLFGQGWDQHRFRFSTKGELLPDWGQECANSH" "e" "Han et al., 2011" -"EG12259-MONOMER" "MKRKLFWICAVAMGMSAFPSFMTQATPATQPLINAEPAVAAQTEQNPQVGQVMPGVQGADAPVVAQNGPSRDVKLTFAQIAPPPGSMVLRGINPNGSIEFGMRSDEVVTKAMLNLEYTPSPSLLPVQSQLKVYLNDELMGVLPVTKEQLGKKTLAQMPINPLFISDFNRVRLEFVGHYQDVCEKPASTTLWLDVGRSSGLDLTYQTLNVKNDLSHFPVPFFDPSDNRTNTLPMVFAGAPDVGLQQASAIVASWFGSRSGWRGQNFPVLYNQLPDRNAIVFATNDKRPDFLRDHPAVKAPVIEMINHPQNPYVKLLVVFGRDDKDLLQAAKGIAQGNILFRGESVVVNEVKPLLPRKPYDAPNWVRTDRPVTFGELKTYEEQLQSSGLEPAAINVSLNLPPDLYLMRSTGIDMDINYRYTMPPVKDSSRMDISLNNQFLQSFNLSSKQEANRLLLRIPVLQGLLDGKTDVSIPALKLGATNQLRFDFEYMNPMPGGSVDNCITFQPVQNHVVIGDDSTIDFSKYYHFIPMPDLRAFANAGFPFSRMADLSQTITVMPKAPNEAQMETLLNTVGFIGAQTGFPAINLTVTDDGSTIQGKDADIMIIGGIPDKLKDDKQIDLLVQATESWVKTPMRQTPFPGIVPDESDRAAETRSTLTSSGAMAAVIGFQSPYNDQRSVIALLADSPRGYEMLNDAVNDSGKRATMFGSVAVIRESGINSLRVGDVYYVGHLPWFERVWYALANHPILLAVLAAISVILLAWVLWRLLRIISRRRLNPDNE" "i" "Han et al., 2011" -"EG12260-MONOMER" "MSILTRWLLIPPVNARLIGRYRDYRRHGASAFSATLGCFWMILAWIFIPLEHPRWQRIRAEHKNLYPHINASRPRPLDPVRYLIQTCWLLIGASRKETPKPRRRAFSGLQNIRGRYHQWMNELPERVSHKTQHLDEKKELGHLSAGARRLILGIIVTFSLILALICVTQPFNPLAQFIFLMLLWGVALIVRRMPGRFSALMLIVLSLTVSCRYIWWRYTSTLNWDDPVSLVCGLILLFAETYAWIVLVLGYFQVVWPLNRQPVPLPKDMSLWPSVDIFVPTYNEDLNVVKNTIYASLGIDWPKDKLNIWILDDGGREEFRQFAQNVGVKYIARTTHEHAKAGNINNALKYAKGEFVSIFDCDHVPTRSFLQMTMGWFLKEKQLAMMQTPHHFFSPDPFERNLGRFRKTPNEGTLFYGLVQDGNDMWDATFFCGSCAVIRRKPLDEIGGIAVETVTEDAHTSLRLHRRGYTSAYMRIPQAAGLATESLSAHIGQRIRWARGMVQIFRLDNPLTGKGLKFAQRLCYVNAMFHFLSGIPRLIFLTAPLAFLLLHAYIIYAPALMIALFVLPHMIHASLTNSKIQGKYRHSFWSEIYETVLAWYIAPPTLVALINPHKGKFNVTAKGGLVEEEYVDWVISRPYIFLVLLNLVGVAVGIWRYFYGPPTEMLTVVVSMVWVFYNLIVLGGAVAVSVESKQVRRSHRVEMTMPAAIAREDGHLFSCTVQDFSDGGLGIKINGQAQILEGQKVNLLLKRGQQEYVFPTQVARVMGNEVGLKLMPLTTQQHIDFVQCTFARADTWALWQDSYPEDKPLESLLDILKLGFRGYRHLAEFAPSSVKGIFRVLTSLVSWVVSFIPRRPERSETAQPSDQALAQQ" "i" "Han et al., 2011" -"EG12261-MONOMER" "VRGGVGTTTITAALAWSLQMLGENVLVVDACPDNLLRLSFNVDFTHRQGWARAMLDGQDWRDAGLRYTSQLDLLPFGQLSIEEQENPQHWQTRLSDICSGLQQLKASGRYQWILIDLPRDASQITHQLLSLCDHSLAIVNVDANCHIRLHQQALPDGAHILINDFRIGSQVQDDIYQLWLQSQRRLLPMLIHRDEAMAECLAAKQPVGEYRSDALAAEEILTLANWCLLNYSGLKTPVGSAS" "c" "Unambiguous EcoCyc data" -"EG12262-MONOMER" "MNNNEPDTLPDPAIGYIFQNDIVALKQAFSLPDIDYADISQREQLAAALKRWPLLAEFAQQK" "c" "Han et al., 2011" -"EG12263-MONOMER" "MRDIVDPVFSIGISSLWDELRHMPAGGVWWFNVDRHEDAISLANQTIASQAETAHVAVISMDSDPAKIFQLDDSQGPEKIKLFSMLNHEKGLYYLTRDLQCSIDPHNYLFILVCANNAWQNIPAERLRSWLDKMNKWSRLNHCSLLVINPGNNNDKQFSLLLEEYRSLFGLASLRFQGDQHLLDIAFWCNEKGVSARQQLSVQQQNGIWTLVQSEEAEIQPRSDEKRILSNVAVLEGAPPLSEHWQLFNNNEVLFNEARTAQAATVVFSLQQNAQIEPLARSIHTLRRQRGSAMKILVRENTASLRATDERLLLACGANMVIPWNAPLSRCLTMIESVQGQKFSRYVPEDITTLLSMTQPLKLRGFQKWDVFCNAVNNMMNNPLLPAHGKGVLVALRPVPGIRVEQALTLCRPNRTGDIMTIGGNRLVLFLSFCRINDLDTALNHIFPLPTGDIFSNRMVWFEDDQISAELVQMRLLAPEQWGMPLPLTQSSKPVINAEHDGRHWRRIPEPMRLLDDAVERSS" "c" "Han et al., 2011" -"EG12264-MONOMER" "MMTISDIIEIIVVCALIFFPLGYLARHSLRRIRDTLRLFFAKPRYVKPAGTLRRTEKARATKK" "i" "Han et al., 2011" -"EG12265-MONOMER" "MTQFTQNTAMPSSLWQYWRGLSGWNFYFLVKFGLLWAGYLNFHPLLNLVFAAFLLMPLPRYSLHRLRHWIALPIGFALFWHDTWLPGPESIMSQGSQVAGFSTDYLIDLVTRFINWQMIGAIFVLLVAWLFLSQWIRITVFVVAILLWLNVLTLAGPSFSLWPAGQPTTTVTTTGGNAAATVAATGGAPVVGDMPAQTAPPTTANLNAWLNNFYNAEAKRKSTFPSSLPADAQPFELLVINICSLSWSDIEAAGLMSHPLWSHFDIEFKNFNSATSYSGPAAIRLLRASCGQTSHTNLYQPANNDCYLFDNLSKLGFTQHLMMGHNGQFGGFLKEVRENGGMQSELMDQTNLPVILLGFDGSPVYDDTAVLNRWLDVTEKDKNSRSATFYNTLPLHDGNHYPGVSKTADYKARAQKFFDELDAFFTELEKSGRKVMVVVVPEHGGALKGDRMQVSGLRDIPSPSITDVPVGVKFFGMKAPHQGAPIVIEQPSSFLAISDLVVRVLDGKIFTEDNVDWKKLTSGLPQTAPVSENSNAVVIQYQDKPYVRLNGGDWVPYPQ" "i" "Han et al., 2011" -"EG12267-MONOMER" "MRYIKSITQQKLSFLLAIYIGLFMNGAVFYRRFGSYAHDFTVWKGISAVVELAATVLVTFFLLRLLSLFGRRSWRILASLVVLFSAGASYYMTFLNVVIGYGIIASVMTTDIDLSKEVVGLNFILWLIAVSALPLILIWNNRCRYTLLRQLRTPGQRIRSLAVVVLAGIMVWAPIRLLDIQQKKVERATGVDLPSYGGVVANSYLPSNWLSALGLYAWARVDESSDNNSLLNPAKKFTYQAPQNVDDTYVVFIIGETTRWDHMGIFGYERNTTPKLAQEKNLAAFRGYSCDTATKLSLRCMFVRQGGAEDNPQRTLKEQNIFAVLKQLGFSSDLYAMQSEMWFYSNTMADNIAYREQIGAEPRNRGKPVDDMLLVDEMQQSLGRNPDGKHLIILHTKGSHFNYTQRYPRSFAQWKPECIGVDSGCTKAQMINSYDNSVTYVDHFISSVIDQVRDKKAIVFYAADHGESINEREHLHGTPRELAPPEQFRVPMMVWMSDKYLENPANAQAFAQLKKEADMKVPRRHVELYDTIMGCLGYTSPDGGINENNNWCHIPQAKEAAAN" "i" "Han et al., 2011" -"EG12269-MONOMER" "MIIKKSGGRWQLSLLASVVISAFFLNTAYAWQQEYIVDTQPGLSTERYTWDSDHQPDYNDILSQRIQSSQRALGLEVNLAEETPVDVTSSMSMGWNFPLYEQVTTGPVAALHYDGTTTSMYNEFGDSTTTLTDPLWHASVSTLGWRVDSRLGDLRPWAQISYNQQFGENIWKAQSGLSRMTATNQNGNWLDVTVGADMLLNQNIAAYAALTQAENTTNNSDYLYTMGVSARF" "o" "Han et al., 2011" -"EG12270-MONOMER" "MIREAQRSELPAILELWLESTTWGHPFIKANYWRDCIPLVRDAYLANAQNWVWEEDGKLLGFVSIMEGRFLAAMFVAPKAVRRGIGKALMQYVQQRHPHLMLEVYQKNQPAINFYQAQGFHIVDCAWQDETQLPTWIMSWPVVQTL" "c" "Han et al., 2011" -"EG12271-MONOMER" "MKKRVYLIAAVVSGALAVSGCTTNPYTGEREAGKSAIGAGLGSLVGAGIGALSSSKKDRGKGALIGAAAGAALGGGVGYYMDVQEAKLRDKMRGTGVSVTRSGDNIILNMPNNVTFDSSSATLKPAGANTLTGVAMVLKEYPKTAVNVIGYTDSTGGHDLNMRLSQQRADSVASALITQGVDASRIRTQGLGPANPIASNSTAEGKAQNRRVEITLSPL" "o" "Han et al., 2011" -"EG12273-MONOMER" "MATGKSCSRWFAPLAALLMVVSLSGCFDKEGDQRKAFIDFLQNTVMRSGERLPTLTADQKKQFGPFVSDYAILYGYSQQVNQAMDSGLRPVVDSVNAIRVPQDYVTQSGPLREMNGSLGVLAQQLQNAKLQADAAHSALKQSDDLKPVFDQAFTKVVTTPADALQPLIPAAQTFTQQLVMVGDYIAQQGTQVSFVANGIQFPTSQQASEYNKLIAPLPAQHQAFNQAWTTAVTATQ" "i" "Han et al., 2011" -"EG12274-MONOMER" "MQPKIYWIDNLRGIACLMVVMIHTTTWYVTNAHSVSPVTWDIANVLNSASRVSVPLFFMISGYLFFGERSAQPRHFLRIGLCLIFYSAIALLYIALFTSINMELALKNLLQKPVFYHLWFFFAIAVIYLVSPLIQVKNVGGKMLLVLMAVIGIIANPNTVPQKIDGFEWLPINLYINGDTFYYILYGMLGRAIGMMDTQHKALSWVSAALFATGVFIISRGTLYELQWRGNFADTWYLYCGPMVFICAIALLTLVKNTLDTRTIRGLGLISRHSLGIYGFHALIIHALRTRGIELKNWPILDIIWIFCATLAASLLLSMLVQRIDRNRLVS" "i" "Han et al., 2011" -"EG12277-MONOMER" "MNRFIIADATKCIGCRTCEVACAVSHHENQDCAALSPDEFISRIRVIKDHCWTTAVACHQCEDAPCANVCPVDAISREHGHIFVEQTRCIGCKSCMLACPFGAMEVVSSRKKARAIKCDLCWHRETGPACVEACPTKALQCMDVEKVQRHRLRQQPV" "i" "Han et al., 2011" -"EG12278-MONOMER" "MGKEVMGKKENEMAQEKERPAGSQSLFRGLMLIEILSNYPNGCPLAHLSELAGLNKSTVHRLLQGLQSCGYVTTAPAAGSYRLTTKFIAVGQKALSSLNIIHIAAPHLEALNIATGETINFSSREDDHAILIYKLEPTTGMLRTRAYIGQHMPLYCSAMGKIYMAFGHPDYVKSYWESHQHEIQPLTRNTITELPAMFDELAHIRESGAAMDREENELGVSCIAVPVFDIHGRVPYAVSISLSTSRLKQVGEKNLLKPLRETAQAISNELGFTVRDDLGAIT" "c" "Han et al., 2011" -"EG12279-MONOMER" "MKVTFEQLKAAFNRVLISRGVDSETADACAEMFARTTESGVYSHGVNRFPRFIQQLENGDIIPDAQPKRITSLGAIEQWDAQRSIGNLTAKKMMDRAIELAADHGIGLVALRNANHWMRGGSYGWQAAEKGYIGICWTNSIAVMPPWGAKECRIGTNPLIVAIPSTPITMVDMSMSMFSYGMLEVNRLAGRQLPVDGGFDDEGNLTKEPGVIEKNRRILPMGYWKGSGMSIVLDMIATLLSDGASVAEVTQDNSDEYGISQIFIAIEVDKLIDGPTRDAKLQRIMDYVTSAERADENQAIRLPGHEFTTLLAENRRNGITVDDSVWAKIQAL" "c" "Han et al., 2011" -"EG12280-MONOMER" "MIFGHIAQPNPCRLPAAIEKALDFLRATDFNALEPGVVEIDGKNIYTQIIDLTTREAVVNRPEVHRRYIDIQFLAWGEEKIGIAIDTGNNKVSESLLEQRNIIFYHDSEHESFIEMIPGSYAIFFPQDVHRPGCIMQTASEIRKIVVKVALTALN" "c" "Han et al., 2011" -"EG12282-MONOMER" "MAVLIFLGCLLGGIAIGLPIAWALLLCGAALMFWLDMFDVQIMAQTLVNGADSFSLLAIPFFVLAGEIMNAGGLSKRIVDLPMKLVGHKPGGLGYVGVLAAMIMASLSGSAVADTAAVAALLVPMMRSANYPVNRAAGLIASGGIIAPIIPPSIPFIIFGVSSGLSISKLFMAGIAPGMMMGATLMLTWWWQASRLNLPRQQKATMQEIWHSFVSGIWALFLPVIIIGGFRSGLFTPTEAGAVAAFYALFVATVIYREMTFATLWHVLIGAAKTTSVVMFLVASAQVSAWLITIAELPMMVSDLLQPLVDSPRLLFIVIMVAILIVGMVMDLTPTVLILTPVLMPLVKEAGIDPIYFGVMFIINCSIGLITPPIGNVLNVISGVAKLKFDDAVRGVFPYVLVLYSLLVVFVFIPDLIILPLKWIN" "i" "Han et al., 2011" -"EG12283-MONOMER" "MKLRSVTYALFIAGLAAFSTSSLAAQSLRFGYETSQTDSQHIAAKKFNDLLQERTKGELKLKLFPDSTLGNAQAMISGVRGGTIDMEMSGSNNFAGLSPVMNLLDVPFLFRDTAHAHKTLDGKVGDDLKASLEGKGLKVLAYWENGWRDVTNSRAPVKTPADLKGLKIRTNNSPMNIAAFKVFGANPIPMPFAEVYTGLETRTIDAQEHPINVVWSAKFFEVQKFLSLTHHAYSPLLVVINKAKFDGLSPEFQQALVSSAQEAGNYQRKLVAEDQQKIIDGMKEAGVEVITDLDRKAFSDALGNQVRDMFVKDVPQGADLLKAVDEVQ" "p" "Han et al., 2011" -"EG12285-MONOMER" "MSRPLLQLALDHSSLEAAQRDVTLLKDSVDIVEAGTILCLNEGLGAVKALREQCPDKIIVADWKVADAGETLAQQAFGAGANWMTIICAAPLATVEKGHAMAQRCGGEIQIELFGNWTLDDARDWHRIGVRQAIYHRGRDAQASGQQWGEADLARMKALSDIGLELSITGGITPADLPLFKDIRVKAFIAGRALAGAANPAQVAGDFHAQIDAIWGGARA" "c" "Han et al., 2011" -"EG12286-MONOMER" "VRNHQLGIYEKALAKDLSWPERLVLAKSCGFDFVEMSVDETDERLSRLDWSAAQRTSLVAAMIETGVGIPSMCLSAHRRFPFGSRDEAVRERAREIMSKAIRLARDLGIRTIQLAGYDVYYEDHDEGTRQRFAEGLAWAVEQAAASQVMLAVEIMDTAFMNSISKWKKWDEMLASPWFTVYPDVGNLSAWGNDVPAELKLGIDRIAAIHLKDTQPVTGQSPGQFRDVPFGEGCVDFVGIFKTLHKLNYRGSFLIEMWTEKAKEPVLEIIQARRWIEARMQEAGFIC" "c" "Han et al., 2011" -"EG12287-MONOMER" "MLEQLKADVLAANLALPAHHLVTFTWGNVSAVDETRQWMVIKPSGVEYDVMTADDMVVVEIASGKVVEGSKKPSSDTPTHLALYRRYAEIGGIVHTHSRHATIWSQAGLDLPAWGTTHADYFYGAIPCTRQMTAEEINGEYEYQTGEVIIETFEERGRSPAQIPAVLVHSHGPFAWGKNAADAVHNAVVLEECAYMGLFSRQLAPQLPAMQNELLDKHYLRKHGANAYYGQ" "c" "Han et al., 2011" -"EG12288-MONOMER" "MLINRNIVALFALPFMASATASELSIGAGAAYNESPYRGYNENTKAIPLISYEGDTFYVRQTTLGFILSQSEKNELSLTASWMPLEFDPTDNDDYAMQQLDKRDSTAMAGVAWYHHERWGTVKASAAADVLDNSNGWVGELSVFHKMQIGRLSLTPALGVLYYDENFSDYYYGISESESRRSGLASYSAQDAWVPYVSLTAKYPIGEHVVLMASAGYSELPEEITDSPMIDRNESFTFVTGVSWRF" "o" "Han et al., 2011" -"EG12289-MONOMER" "MTKLQLKYRELKIISVIAASENISHAATVLGIAQANVSKYLADFESKVGLKVFDRTTRQLMLTPFGTALLPYINDMLDRNEQLNNFIADYKHEKRGRVTIYAPTGIITYLSKHVIDKIKDIGDITLSLKTCNLERNAFYEGVEFPDDCDVLISYAPPKDESLVASFITQYAVTAYASQRYLEKHPISRPDELEHHSCILIDSMMIDDANIWRFNVAGSKEVRDYRVKGNYVCDNTQSALELARNHLGIVFAPDKSVQSDLQDGTLVPCFQQPYEWWLDLVAIFRKREYQPWRVQYVLDEMLREIRHQLAQSQQLRPEQAAESED" "c" "Han et al., 2011" -"EG12290-MONOMER" "MDLLIILTYVAFAWAMFKIFKIPVNKWTIPTAALGGIFIVSGLILLMNYNHPYTFKAQKAVISIPVVPQVTGVVIEVTDKKNTLIKKGEVLFRLDPTRYQARVDRLMADIVTAEHKQRALGAELDEMAANTQQAKATRDKFAKEYQRYARGSQAKVNPFSERDIDVARQNYLAQEASVKSSAAEQKQIQSQLDSLVLGEHSQIASLKAQLAEAKYNLEQTIVRAPSDGYVTQVLIRPGTYAASLPLRPVMVFIPDQKRQIVAQFRQNSLLRLAPGDDAEVVFNALPGKVFSGKLAAISPAVPGGAYQSTGTLQTLNTAPGSDGVIATIELDEHTDLSALPDGIYAQVAVYSDHFSHVSVMRKVLLRMTSWVHYLYLDH" "i" "Han et al., 2011" -"EG12291-MONOMER" "MFLDYFALGVLIFVFLVIFYGIIILHDIPYLIAKKRNHPHADAIHVAGWVSLFTLHVIWPFLWIWATLYRPERGWGMQSHDSSVMQLQQRIAGLEKQLADIKSSSAE" "i" "Han et al., 2011" -"EG12293-MONOMER" "MAASTFFIPSVNVIGADSLTDAMNMMADYGFTRTLIVTDNMLTKLGMAGDVQKALEERNIFSVIYDGTQPNPTTENVAAGLKLLKENNCDSVISLGGGSPHDCAKGIALVAANGGDIRDYEGVDRSAKPQLPMIAINTTAGTASEMTRFCIITDEARHIKMAIVDKHVTPLLSVNDSSLMIGMPKSLTAATGMDALTHAIEAYVSIAATPITDACALKAVTMIAENLPLAVEDGSNAKAREAMAYAQFLAGMAFNNASLGYVHAMAHQLGGFYNLPHGVCNAVLLPHVQVFNSKVAAARLRDCAAAMGVNVTGKNDAEGAEACINAIRELAKKVDIPAGLRDLNVKEEDFAVLATNALKDACGFTNPIQATHEEIVAIYRAAM" "c" "Han et al., 2011" -"EG12295-MONOMER" "MQEIMQFVGRHPILSIAWIALLVAVLVTTFKSLTSKVKVITRGEATRLINKEDAVVVDLRQRDDFRKGHIAGSINLLPSEIKANNVGELEKHKDKPVIVVDGSGMQCQEPANALTKAGFAQVFVLKEGVAGWAGENLPLVRGK" "i" "Han et al., 2011" -"EG12297-MONOMER" "MTRAVKPRRFAIRPIIYASVLSAGVLLCAFSAHADERDQLKSIQADIAAKERAVRQKQQQRASLLAQLKKQEEAISEATRKLRETQNTLNQLNKQIDEMNASIAKLEQQKAAQERSLAAQLDAAFRQGEHTGIQLILSGEESQRGQRLQAYFGYLNQARQETIAQLKQTREEVAMQRAELEEKQSEQQTLLYEQRAQQAKLTQALNERKKTLAGLESSIQQGQQQLSELRANESRLRNSIARAEAAAKARAEREAREAQAVRDRQKEATRKGTTYKPTESEKSLMSRTGGLGAPRGQAFWPVRGPTLHRYGEQLQGELRWKGMVIGASEGTEVKAIADGRVILADWLQGYGLVVVVEHGKGDMSLYGYNQSALVSVGSQVRAGQPIALVGSSGGQGRPSLYFEIRRQGQAVNPQPWLGR" "i" "Han et al., 2011" -"EG12298-MONOMER" "LFPFRRNVLAFAALLALSSPVLAGKLAIVIDDFGYRPHNENQVLAMPSAISVAVLPDSPHAREMATKAHNSGHEVLIHLPMAPLSKQPLEKNTLRPEMSSDEIERIIRSAVNNVPYAVGINNHMGSKMTSNLFGMQKVMQALERYNLYFLDSVTIGNTQAMRAAQGTGVKVIKRKVFLDDSQNEADIRVQFNRAIDLARRNGSTIAIGHPHPATVRVLQQMVYNLPPDITLVKASSLLNEPQVDTSTPPKNAVPDAPRNPFRGVKLCKPKKPIEPVYANRFFEVLSESISQSTLIVYFQHQWQGWGKQPEAAKFNASAN" "p" "Han et al., 2011" -"EG12303-MONOMER" "MFLVDSHCHLDGLDYESLHKDVDDVLAKAAARDVKFCLAVATTLPGYLHMRDLVGERDNVVFSCGVHPLNQNDPYDVEDLRRLAAEEGVVALGETGLDYYYTPETKVRQQESFIHHIQIGRELNKPVIVHTRDARADTLAILREEKVTDCGGVLHCFTEDRETAGKLLDLGFYISFSGIVTFRNAEQLRDAARYVPLDRLLVETDSPYLAPVPHRGKENQPAMVRDVAEYMAVLKGVAVEELAQVTTDNFARLFHIDASRLQSIR" "c" "Han et al., 2011" -"EG12308-MONOMER" "MNGLLRIRQRYQGLAQSDKKLADYLLLQPDTARHLSSQQLANEAGVSQSSVVKFAQKLGYKGFPALKLALSEALASQPESPSVPIHNQIRGDDPLRLVGEKLIKENTAAMYATLNVNSEEKLHECVTMLRSARRIILTGIGASGLVAQNFAWKLMKIGFNAAAVRDMHALLATVQASSPDDLLLAISYTGVRRELNLAADEMLRVGGKVLAITGFTPNALQQRASHCLYTIAEEQATNSASISACHAQGMLTDLLFIALIQQDLELAPERIRHSEALVKKLV" "c" "Han et al., 2011" -"EG12309-MONOMER" "MRITIILVAPARAENIGAAARAMKTMGFSDLRIVDSQAHLEPATRWVAHGSGDIIDNIKVFPTLAESLHDVDFTVATTARSRAKYHYYATPVELVPLLEEKSSWMSHAALVFGREDSGLTNEELALADVLTGVPMVADYPSLNLGQAVMVYCYQLATLIQQPAKSDATADQHQLQALRERAMTLLTTLAVADDIKLVDWLQQRLGLLEQRDTAMLHRLLHDIEKNITK" "c" "Han et al., 2011" -"EG12310-MONOMER" "MTEAMKITLSTQPADARWGEKATYSINNDGITLHLNGADDLGLIQRAARKIDGLGIKHVQLSGEGWDADRCWAFWQGYKAPKGTRKVVWPDLDDAQRQELDNRLMIIDWVRDTINAPAEELGPSQLAQRAVDLISNVAGDRVTYRITKGEDLREQGYMGLHTVGRGSERSPVLLALDYNPTGDKEAPVYACLVGKGITFDSGGYSIKQTAFMDSMKSDMGGAATVTGALAFAITRGLNKRVKLFLCCADNLISGNAFKLGDIITYRNGKKVEVMNTDAEGRLVLADGLIDASAQKPEMIIDAATLTGAAKTALGNDYHALFSFDDALAGRLLASAAQENEPFWRLPLAEFHRSQLPSNFAELNNTGSAAYPAGASTAAGFLSHFVENYQQGWLHIDCSATYRKAPVEQWSAGATGLGVRTIANLLTA" "c" "Han et al., 2011" -"EG12311-MONOMER" "MGLKWTDSREIGEALYDAYPDLDPKTVRFTDMHQWICDLEDFDDDPQASNEKILEAILLVWLDEAE" "c" "Han et al., 2011" -"EG12312-MONOMER" "MRYIVALTGGIGSGKSTVANAFADLGINVIDADIIARQVVEPGAPALHAIADHFGANMIAADGTLQRRALRERIFANPEEKNWLNALLHPLIQQETQHQIQQATSPYVLWVVPLLVENSLYKKANRVLVVDVSPETQLKRTMQRDDVTREHVEQILAAQATREARLAVADDVIDNNGAPDAIASDVARLHAHYLQLASQFVSQEKP" "c" "Han et al., 2011" -"EG12313-MONOMER" "MQTQVLFEHPLNEKMRTWLRIEFLIQQLTVNLPIVDHAGALHFFRNVSELLDVFERGEVRTELLKELDRQQRKLQTWIGVPGVDQSRIEALIQQLKAAGSVLISAPRIGQFLREDRLIALVRQRLSIPGGCCSFDLPTLHIWLHLPQAQRDSQVETWIASLNPLTQALTMVLDLIRQSAPFRKQTSLNGFYQDNGGDADLLRLNLSLDSQLYPQISGHKSRFAIRFMPLDTENGQVPERLDFELACC" "c" "Han et al., 2011" -"EG12314-MONOMER" "MSETITVNCPTCGKTVVWGEISPFRPFCSKRCQLIDLGEWAAEEKRIPSSGDLSESDDWSEEPKQ" "c" "Han et al., 2011" -"EG12315-MONOMER" "MKMTLPFKPHVLALICSAGLCAASTGLYIKSRTVEAPVEPQSTQLAVSDAAAVTFPATVSAPPVTPAVVKSAFSTAQIDQWVAPVALYPDALLSQVLMASTYPTNVAQAVQWSHDNPLKQGDAAIQAVSDQPWDASVKSLVAFPQLMALMGENPQWVQNLGDAFLAQPQDVMDSVQRLRQLAQQTGSLKSSTEQKVITTTKKAVPVKQTVTAPVIPSNTVLTANPVITEPATTVISIEPANPDVVYIPNYNPTVVYGNWANTAYPPVYLPPPAGEPFVDSFVRGFGYSMGVATTYALFSSIDWDDDDHDHHHHDNDDYHHHDGGHRDGNGWQHNGDNINIDVNNFNRITGEHLTDKNMAWRHNPNYRNGVPYHDQDMAKRFHQTDVNGGMSATQLPAPTRDSQRQAAANQFQQRTHAAPVITRDTQRQAAAQRFNEAEHYGSYDDFHDFSRRQPLTQQQKDAARQRYQSASPEQRQAVRERMQTNPKIQQRREAARERIQSASPEQRQAVREKMQTNPQNQQRRDAARERIQSASPEQRQVFKEKVQQRPLNQQQRDNARQRVQSASPEQRQVFREKVQESRPQRLNDSNHTVRLNNEQRSAVCERLSERGARRLER" "i" "Han et al., 2011" -"EG12318-MONOMER" "MQRRDFLKYSVALGVASALPLWSRAVFAAERPTLPIPDLLTTDARNRIQLTIGAGQSTFGGKTATTWGYNGNLLGPAVKLQRGKAVTVDIYNQLTEETTLHWHGLEVPGEVDGGPQGIIPPGGKRSVTLNVDQPAATCWFHPHQHGKTGRQVAMGLAGLVVIEDDEILKLMLPKQWGIDDVPVIVQDKKFSADGQIDYQLDVMTAAVGWFGDTLLTNGAIYPQHAAPRGWLRLRLLNGCNARSLNFATSDNRPLYVIASDGGLLPEPVKVSELPVLMGERFEVLVEVNDNKPFDLVTLPVSQMGMAIAPFDKPHPVMRIQPIAISASGALPDTLSSLPALPSLEGLTVRKLQLSMDPMLDMMGMQMLMEKYGDQAMAGMDHSQMMGHMGHGNMNHMNHGGKFDFHHANKINGQAFDMNKPMFAAAKGQYERWVISGVGDMMLHPFHIHGTQFRILSENGKPPAAHRAGWKDTVKVEGNVSEVLVKFNHDAPKEHAYMAHCHLLEHEDTGMMLGFTV" "p" "Han et al., 2011" -"EG12319-MONOMER" "MKDIDTLISNNALWSKMLVEEDPGFFEKLAQAQKPRFLWIGCSDSRVPAERLTGLEPGELFVHRNVANLVIHTDLNCLSVVQYAVDVLEVEHIIICGHYGCGGVQAAVENPELGLINNWLLHIRDIWFKHSSLLGEMPQERRLDTLCELNVMEQVYNLGHSTIMQSAWKRGQKVTIHGWAYGIHDGLLRDLDVTATNRETLEQRYRHGISNLKLKHANHK" "c" "Han et al., 2011" -"EG12323-MONOMER" "MTESTTSSPHDAVFKTFMFTPETARDFLEIHLPEPLRKLCNLQTLRLEPTSFIEKSLRAYYSDVLWSVETSDGDGYIYCVIEHQSSAEKNMAFRLMRYATAAMQRHQDKGYDRVPLVVPLLFYHGETSPYPYSLNWLDEFDDPQLARQLYTEAFLLVDITIVPDDEIMQHRRIALLELIQKHIRDRDLIGMVDRITTLLVRGFTNDSQLQTLFNYLLQCGDTSRFTRFIEEIAERSPLQKERLMTIAERLRQEGHQIGWQEGMHEQAIKIALRMLEQGFEREIVLATTQLTDADIPNCH" "c" "Han et al., 2011" -"EG12325-MONOMER" "MHPTQRKLMKRIILFLSLLFCIACPAIAGQDIDLVANVKNSTCKSGISNQGNIDLGVVGVGYFSGNVTPESYQPGGKEFTITVSDCALQGTGDVLNQLHIDFRALSGVMAAGSRQIFANEISSGASNVGVVIFSTQDSANTFNVLNASGGSRSVYPVMSDDMNGSSWKFSTRMQKIDPALSVTSGQLMSHVLVDIYYE" "j" "Han et al., 2011" -"EG12326-MONOMER" "MMTFKNLRYGLSSSVVLAASLFSVLSYAATDSIGLTVITTVEMGTCTATLVNDSDQDISVVDFGDVYISEINAKTKVKTFKLKFKDCAGIPNKKAQIKLTKRATCEGTANDGAGFANGSTAADKASAVAVEVWSTVTPATGSATQFSCVTPASQEVTISTAANAVVYYPMSARLVVEKNKTVNNVTAGKFSAPATFTVTYN" "j" "Han et al., 2011" -"EG12327-MONOMER" "MIKTTPHKIVILMGILLSPSVFATDINVEFTATVKATTCNITLTGNNVTNDGNNNYTLRIPKMGLDKIANKTTESQADFKLVASGCSSGISWIDTTLTGNASSSSPKLIIPQSGDSSSTTSNIGMGFKKRTTDDATFLKPNSAEKIRWSTDEMQPDKGLEMTVALRETDAGQGVPGNFRALATFNFIYQ" "j" "Han et al., 2011" -"EG12328-MONOMER" "MSKKLGFALSGLMLAMVAGTASADMDGGQLNISGLVVDNTCETRVDGGNKDGLILLQTATVGEIDAGVLNDTVGAKAKPFSITVDCSKANPNPGSTAKMTFGSVFFGNSKGTLNNDMSINNPSDGVNIALHNIDGSTIKQVQINNPGDVYTKALDATTKSAVYDFKASYVRAVADQTATAGYVKTNTAYTITYQ" "j" "Han et al., 2011" -"EG12329-MONOMER" "VSSLPVAAVLPELLTALDCAPQVLLSAPTGAGKSTWLPLQLLAHPGINGKIILLEPRRLAARNVAQRLAELLNEKPGDTVGYRMRAQNCVGPNTRLEVVTEGVLTRMIQRDPELSGVGLVILDEFHERSLQADLALALLLDVQQGLRDDLKLLIMSATLDNDRLQQMLPEAPVVISEGRSFPVERRYLPLPAHQRFDDAVAVATAEMLRQESGSLLLFLPGVGEIQRVQEQLASRIGSDVLLCPLYGALSLNDQRKAILPAPQGMRKVVLATNIAETSLTIEGIRLVVDCAQERVARFDPRTGLTRLITQRVSQASMTQRAGRAGRLEPGISLHLIAKEQAERAAAQSEPEILQSDLSGLLMELLQWGCSDPAQMSWLDQPPVVNLLAAKRLLQMLGALEGERLSAQGQKMAALGNDPRLAAMLVSAKNDDEAATAAKIAAILEEPPRMGNSDLGVAFSRNQPAWQQRSQQLLKRLNVRGGEADSSLIAPLLAGAFADRIARRRGQDGRYQLANGMGAMLDANDALSRHEWLIAPLLLQGSASPDARILLALLVDIDELVQRCPQLVQQSDTVEWDDAQGTLKAWRRLQIGQLTVKVQPLAKPSEDELHQAMLNGIRDKGLSVLNWTAEAEQLRLRLLCAAKWLPEYDWPAVDDESLLAALETWLLPHMTGVHSLRGLKSLDIYQALRGLLDWGMQQRLDSELPAHYTVPTGSRIAIRYHEDNPPALAVRMQEMFGEATNPTIAQGRVPLVLELLSPAQRPLQITRDLSDFWKGAYREVQKEMKGRYPKHVWPDDPANTAPTRRTKKYS" "i" "Han et al., 2011" -"EG12330-MONOMER" "MSEPQRLFFAIDLPAEIREQIIHWRATHFPPEAGRPVAADNLHLTLAFLGEVSAEKEKALSLLAGRIRQPGFTLTLDDAGQWLRSRVVWLGMRQPPRGLIQLANMLRSQAARSGCFQSNRPFHPHITLLRDASEAVTIPPPGFNWSYAVTEFTLYASSFARGRTRYTPLKRWALTQ" "c" "Han et al., 2011" -"EG12332-MONOMER" "MSDDVALPLEFTDAAANKVKSLIADEDNPNLKLRVYITGGGCSGFQYGFTFDDQVNEGDMTIEKQGVGLVVDPMSLQYLVGGSVDYTEGLEGSRFIVTNPNAKSTCGCGSSFSI" "c" "Lopez-Campistrous et al., 2005" -"EG12333-MONOMER" "MLVYWLDIVGTAVFAISGVLLAGKLRMDPFGVLVLGVVTAVGGGTIRDMALDHGPVFWVKDPTDLVVAMVTSMLTIVLVRQPRRLPKWMLPVLDAVGLAVFVGIGVNKAFNAEAGPLIAVCMGVITGVGGGIIRDVLAREIPMILRTEIYATACIIGGIVHATAYYTFSVPLETASMMGMVVTLLIRLAAIRWHLKLPTFALDENGR" "i" "Han et al., 2011" -"EG12334-MONOMER" "MAKSLFRALVALSFLAPLWLNAAPRVITLSPANTELAFAAGITPVGVSSYSDYPPQAQKIEQVSTWQGMNLERIVALKPDLVIAWRGGNAERQVDQLASLGIKVMWVDATSIEQIANALRQLAPWSPQPDKAEQAAQSLLDQYAQLKAQYADKPKKRVFLQFGINPPFTSGKESIQNQVLEVCGGENIFKDSRVPWPQVSREQVLARSPQAIVITGGPDQIPKIKQYWGEQLKIPVIPLTSDWFERASPRIILAAQQLCNALSQVD" "p" "Han et al., 2011" -"EG12335-MONOMER" "MAGWHLDTKMAQDIVARTMRIIDTNINVMDARGRIIGSGDRERIGELHEGALLVLSQGRVVDIDDAVARHLHGVRQGINLPLRLEGEIVGVIGLTGEPENLRKYGELVCMTAEMMLEQSRLMHLLAQDSRLREELVMNLIQAEENTPALTEWAQRLGIDLNQPRVVAIVEVDSGQLGVDSAMAELQQLQNALTTPERNNLVAIVSLTEMVVLKPALNSFGRWDAEDHRKRVEQLITRMKEYGQLRFRVSLGNYFTGPGSIARSYRTAKTTMVVGKQRMPESRCYFYQDLMLPVLLDSLRGDWQANELARPLARLKTMDNNGLLRRTLAAWFRHNVQPLATSKALFIHRNTLEYRLNRISELTGLDLGNFDDRLLLYVALQLDEER" "c" "Han et al., 2011" -"EG12336-MONOMER" "MYDNLKSLGITNPEEIDRYSLRQEANNDILKIYFQKDKGEFFAKSVKFKYPRQRKTVVADGVGQGYKEVQEISPNLRYIIDELDQICQRDRSEVDLKRKILDDLRHLESVVTNKISEIEADLEKLTRK" "c" "Han et al., 2011" -"EG12337-MONOMER" "MISRRRFLQATAATIATSSGFGYMHYCEPGWFELIRHRLAFFKDNAAPFKILFLADLHYSRFVPLSLISDAIALGIEQKPDLILLGGDYVLFDMSLNFSAFSDVLSPLAECAPTFACFGNHDRPVGTEKNHLIGETLKSAGITVLFNQATVIATPNRQFELVGTGDLWAGQCKPPPASEANLPRLVLAHNPDSKEVMRDEPWDLMLCGHTHGGQLRVPLVGEPFAPVEDKRYVAGLNAFGERHIYTTRGVGSLYGLRLNCRPEVTMLELV" "i" "Han et al., 2011" -"EG12338-MONOMER" "MESLMPWDARDTMSLRTEFVLFASQDGANIRSLCRRFGISPATGYKWLQRWAQEGAAGLQDRPRIPHHSPNRSSDDITALLRMAHDRHERWGARKIKRWLEDQGHTMPAFSTVHNLMARHGLLPGASPGIPATGRFEHDAPNRLWQMDFKGHFPFGGGRCHPLTLLDDHSRFSLCLAHCTDERRETVQQQLVSVFERYGLPDRMTMDNGSPWGDTTGTWTALELWLMRLGIRVGHSRPYHPQTQGKLERFHRSLKAEVLQGKWFADSGELQRAFDHWRTVYNLERPHEALDMAVPGSRYQPSARQYSGNTTPPEYDEGVMVRKVDISGKLSVKGVSLSAGKAFRGERVGLKEMQEDGSYEVWWYSTKVGVIDLKKKSITMGKGC" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"EG12339-MONOMER" "MNKDSTQTWGLKRDITPCFGARLVQEGHRLHFLADRAGFTGSFSEVQTLQLDEAFPHFVAHLELMLLSCELNPRYAHCVTLYRNGLTGEADTLGSHGYVYIAILNRHGFNRHLRVI" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"EG12341-MONOMER" "MQKEQLSALMDGETLDSELLNELAHNPEMQKTWESYHLIRDSMRGDTPEVLHFDISSRVMAAIEEEPVRQPATLIPEAQPAPHQWQKMPFWQKVRPWAAQLTQMGVAACVSLAVIVGVQHYNGQSETSQQPETPVFNTLPMMGKASPVSLGVPSEATANNGQQQQVQEQRRRINAMLQDYELQRRLHSEQLQFEQAQTQQAAVQVPGIQTLGTQSQ" "c" "Han et al., 2011" -"EG12342-MONOMER" "MSELTDLLLQGPRSAPELRQRLAISQATFSRLVAREDRVIRFGKARATRYALLRPYRGIERIPVWRVDDTGKAHKFADIRLCWPQGSCLVTGADGDEQWFDGLPWYLTDLRPQGFLGRAWGRKLAAQLNLTDDIRLWQEEDVLYALTVFNGEYTGGWLVGEGNYQRWITAQHPAEIPLDQKLTHYEQLASDALAGEIVGSSAGGEQPKFTYYAQTPSGNKHVLVKFTVPQQTAVSQRWGDLLIAESIAAQILRDGGIHAIESTVLVTSNRQVFLEAERFDCKGNDGRLPIVSLEAVQSEFISSPGSWPQAMRRLCEQQLVTHQSVAQTEVIWAFGRLIANSDMHAGNLSFYLSEPPFALTPVYDMLPMVYAPNSAGMLRDAAIEVKFDLNVSKSAWLTAIPLAQQFWQTVARDPRISEAFRHIAQEMPEKIRQIEEKVARMGG" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"EG12344-MONOMER" "MAEYKDNLLGEANSFLEVLEQVSHLAPLDKPVLIIGERGTGKELIASRLHYLSSRWQGPFISLNCAALNENLLDSELFGHEAGAFTGAQKRHPGRFERADGGTLFLDELATAPMMVQEKLLRVIEYGELERVGGSQPLQVNVRLVCATNADLPAMVNEGTFRADLLDRLAFDVVQLPPLRERESDIMLMAEYFAIQMCREIKLPLFPGFTERARETLLNYRWPGNIRELKNVVERSVYRHGTSDYPLDDIIIDPFKRRPPEDAIAVSETTSLPTLPLDLREFQMQQEKELLQLSLQQGKYNQKRAAELLGLTYHQFRALLKKHQI" "c" "Han et al., 2011" -"EG12345-MONOMER" "MIVLVTGATAGFGECITRRFIQQGHKVIATGRRQERLQELKDELGDNLYIAQLDVRNRAAIEEMLASLPAEWCNIDILVNNAGLALGMEPAHKASVEDWETMIDTNNKGLVYMTRAVLPGMVERNHGHIINIGSTAGSWPYAGGNVYGATKAFVRQFSLNLRTDLHGTAVRVTDIEPGLVGGTEFSNVRFKGDDGKAEKTYQNTVALTPEDVSEAVWWVSTLPAHVNINTLEMMPVTQSYAGLNVHRQ" "c" "Han et al., 2011" -"EG12347-MONOMER" "MSAIEVKNLVKKFHGQTVLHGIDLEVKPGEVVAIIGPSGSGKTTLLRSINLLEQPEAGTITVGDITIDTARSLSQQKSLIRQLRQHVGFVFQNFNLFPHRTVLENIIEGPVIVKGEPKEEATARARELLAKVGLAGKETSYPRRLSGGQQQRVAIARALAMRPEVILFDEPTSALDPELVGEVLNTIRQLAQEKRTMVIVTHEMSFARDVADRAIFMDQGRIVEQGAAKALFADPEQPRTRQFLEKFLLQ" "i" "Unambiguous EcoCyc data" -"EG12352-MONOMER" "MAKTAAALHILVKEEKLALDLLEQIKNGADFGKLAKKHSICPSGKRGGDLGEFRQGQMVPAFDKVVFSCPVLEPTGPLHTQFGYHIIKVLYRN" "c" "Han et al., 2011" -"EG12354-MONOMER" "MIVISRHVAIPDGELEITAIRAQGAGGQHVNKTSTAIHLRFDIRASSLPEYYKERLLAASHHLISSDGVIVIKAQEYRSQELNREAALARLVAMIKELTTEKKARRPTRPTRASKERRLASKAQKSSVKAMRGKVRSGRE" "c" "Han et al., 2011" -"EG12356-MONOMER" "MRKTVAFGFVGTVLDYAGRGSQRWSKWRPTLCLCQQESLVIDRLELLHDARSRSLFETLKRDIASVSPETEVVSVEIELHNPWDFEEVYACLHDFARGYEFQPEKEDYLIHITTGTHVAQICWFLLAEARYLPARLIQSSPPRKKEQPRGPGEVTIIDLDLSRYNAIASRFAEERQQTLDFLKSGIATRNPHFNRMIEQIEKVAIKSRAPILLNGPTGAGKSFLARRILELKQARHQFSGAFVEVNCATLRGDTAMSTLFGHVKGAFTGARESREGLLRSANGGMLFLDEIGELGADEQAMLLKAIEEKTFYPFGSDRQVSSDFQLIAGTVRDLRQLVAEGKFREDLYARINLWTFTLPGLRQRQEDIEPNLDYEVERHASLTGDSVRFNTEARRAWLAFATSPQATWRGNFRELSASVTRMATFATSGRITLDVVEDEINRLRYNWQESRPSALTALLGAEAENIDLFDRMQLEHVIAICRQAKSLSAAGRQLFDVSRQGKASVNDADRLRKYLARFGLTWEAVQDQHSSS" "c" "Han et al., 2011" -"EG12357-MONOMER" "MHPTGPHLGPDVLFRESNMKVTLTFNEQRRAAYRQQGLWGDASLADYWQQTARAMPDKIAVVDNHGASYTYSALDHAASCLANWMLAKGIESGDRIAFQLPGWCEFTVIYLACLKIGAVSVPLLPSWREAELVWVLNKCQAKMFFAPTLFKQTRPVDLILPLQNQLPQLQQIVGVDKLAPATSSLSLSQIIADNTSLTTAITTHGDELAAVLFTSGTEGLPKGVMLTHNNILASERAYCARLNLTWQDVFMMPAPLGHATGFLHGVTAPFLIGARSVLLDIFTPDACLALLEQQRCTCMLGATPFVYDLLNVLEKQPADLSALRFFLCGGTTIPKKVARECQQRGIKLLSVYGSTESSPHAVVNLDDPLSRFMHTDGYAAAGVEIKVVDDARKTLPPGCEGEEASRGPNVFMGYFDEPELTARALDEEGWYYSGDLCRMDEAGYIKITGRKKDIIVRGGENISSREVEDILLQHPKIHDACVVAMSDERLGERSCAYVVLKAPHHSLSLEEVVAFFSRKRVAKYKYPEHIVVIEKLPRTTSGKIQKFLLRKDIMRRLTQDVCEEIE" "c" "Han et al., 2011" -"EG12359-MONOMER" "MFKGQKTLAALAVSLLFTAPVYAADEGSGEIHFKGEVIEAPCEIHPEDIDKNIDLGQVTTTHINREHHSNKVAVDIRLINCDLPASDNGSGMPVSKVGVTFDSTAKTTGATPLLSNTSAGEATGVGVRLMDKNDGNIVLGSAAPDLDLDASSSEQTLNFFAWMEQIDNAVDVTAGEVTANATYVLDYK" "e" "Han et al., 2011" -"EG12360-MONOMER" "MARVTLRITGTQLLCQDEHPSLLAALESHNVAVEYQCREGYCGSCRTRLVAGQVDWIAEPLAFIQPGEILPCCCRAKGDIEIEM" "c" "Han et al., 2011" -"EG12363-MONOMER" "MSAFKKSLLVAGVAMILSNNVFADEGHGIVKFKGEVISAPCSIKPGDEDLTVNLGEVADTVLKSDQKSLAEPFTIHLQDCMLSQGGTTYSKAKVTFTTANTMTGQSDLLKNTKETEIGGATGVGVRILDSQSGEVTLGTPVVITFNNTNSYQELNFKARMESPSKDATPGNVYAQADYKIAYE" "e" "Han et al., 2011" -"EG12364-MONOMER" "MHLLVHPNGSKYWRLQYRYEGKQKMLALGVYPEITLADARVRRDEARKLLANGVDPGDKKKNDKVEQSKARTFKEVAIEWHGTNKKWSEDHAHRVLKSLEDNLFAALGERNIAELKTRDLLAPIKAVEMSGRLEVAARLQQRTTAIMRYAVQSGLIDYNPAQEMAGAVASCNRQHRPALELKRIPELLTKIDSYTGRPLTRWAIELTLLIFIRSSELRFARWSEIDFEASIWTIPPEREPIPGVKHSHRGSKMRTTHLVPLSTQALAILKQIKQFYGAHDLIFIGDHDSHKPMSENTVNSALRVMGYDTKVEVCGHGFRTMACSSLVESGLWSRDAVERQMSHMARNSVRAAYIHKAEHLEERRLMLQWWADFLDVNRERFISPFEYAKINNPLKQ" "c" "Han et al., 2011" -"EG12365-MONOMER" "MSAKHPVIAVTGSSGAGTTTTSLAFRKIFAQLNLHAAEVEGDSFHRYTRPEMDMAIRKARDAGRHISYFGPEANDFGLLEQTFIEYGQSGKGKSRKYLHTYDEAVPWNQVPGTFTPWQPLPEPTDVLFYEGLHGGVVTPQHNVAQHVDLLVGVVPIVNLEWIQKLIRDTSERGHSREAVMDSVVRSMEDYINYITPQFSRTHLNFQRVPTVDTSNPFAAKGIPSLDESFVVIHFRNLEGIDFPWLLAMLQGSFISHINTLVVPGGKMGLAMELIMLPLVQRLMEGKKIE" "c" "Han et al., 2011" -"EG12366-MONOMER" "MRIPRIYHPEPLTSHSHIALCEDAANHIGRVLRMGPGQALQLFDGSNQVFDAEITSASKKSVEVKVLEGQIDDRESPLHIHLGQVMSRGEKMEFTIQKSIELGVSLITPLFSERCGVKLDSERLNKKLQQWQKIAIAACEQCGRNRVPEIRPAMDLEAWCAEQDEGLKLNLHPRASNSINTLPLPVERVRLLIGPEGGLSADEIAMTARYQFTDILLGPRVLRTETTALTAITALQVRFGDLG" "c" "Han et al., 2011" -"EG12370-MONOMER" "MAARPRKNNVSVPNLYPLYSRKVNKVYWRYKHPVTGKFHALGTNEAEAIAIATEANTRLAEQRTRQILAISDRIATSKGKAITTSTWLDRYQAIQDDRLKSGDIRLNTYKQKAKPVSLLRERAGMKLISAVDVRDIAQLLDEYIAAGRPRMAQVVRSVLIDVFKEAQHYGEVPPGYNPALATKQPRRKITRQRLSLEEWKKIFDIADATHRYMGNAMLLALVTGQRLGDISRMKFSDIWDDHLHVIQEKTGSKIAIPLSLRLNAINWSLRDVVARCRDYAVSAYLVHFFRSTSQAERGAQVKANTLTMNFSKARDLARIDWGEGSPATFHEQRSLSERLYKEQGLDTQKLLGHKTQQQTDRYHDDRGKGWSKVAL" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"EG12371-MONOMER" "MKPFLRWCFVATALTLAGCSNTSWRKSEVLAVPLQPTLQQEVILARMEQILASRALTDDERAQLLYERGVLYDSLGLRALARNDFSQALAIRPDMPEVFNYLGIYLTQAGNFDAAYEAFDSVLELDPTYNYAHLNRGIALYYGGRDKLAQDDLLAFYQDDPNDPFRSLWLYLAEQKLDEKQAKEVLKQHFEKSDKEQWGWNIVEFYLGNISEQTLMERLKADATDNTSLAEHLSETNFYLGKYYLSLGDLDSATALFKLAVANNVHNFVEHRYALLELSLLGQDQDDLAESDQQ" "s" "EcoCyc dump" -"EG12372-MONOMER" "LRGLFPISHPAVACSGIECYPYRLIFKGVIVAVHLLIVDALNLIRRIHAVQGSPCVETCQHALDQLIMHSQPTHAVAVFDDENRSSGWRHQRLPDYKAGRPPMPEELHDEMPALRAAFEQRGVPCWSTSGNEADDLAATLAVKVTQAGHQATIVSTDKGYCQLLSPTLRIRDYFQKRWLDAPFIDKEFGVQPQQLPDYWGLAGISSSKVPGVAGIGPKSATQLLVEFQSLEGIYENLDAVAEKWRKKLETHKEMAFLCRDIARLQTDLHIDGNLQQLRLVR" "c" "Han et al., 2011" -"EG12373-MONOMER" "LITHISPLGSMDMLSQLEVDMLKRTASSDLYQLFRNCSLAVLNSGSLTDNSKELLSRFENFDINVLRRERGVKLELINPPEEAFVDGRIIRALQANLFAVLRDILFVYGQIHNTVRFPNLNLDNSVHITNLVFSILRNARALHVGEAPNMVVCWGGHSINENEYLYARRVGNQLGLRELNICTGCGPGAMEAPMKGAAVGHAQQRYKDSRFIGMTEPSIIAAEPPNPLVNELIIMPDIEKRLEAFVRIAHGIIIFPGGVGTAEELLYLLGILMNPANKDQVLPLILTGPKESADYFRVLDEFVVHTLGENARRHYRIIIDDAAEVARQMKKSMPLVKENRRDTGDAYSFNWSMRIAPDLQMPFEPSHENMANLKLYPDQPVEVLAADLRRAFSGIVAGNVKEVGIRAIEEFGPYKINGDKEIMRRMDDLLQGFVAQHRMKLPGSAYIPCYEICT" "c" "Han et al., 2011" -"EG12374-MONOMER" "VKKLTDKQKSRLWELQRNRNFQASRRLEGVEMPLVTLTAAEALARLEELRSHYER" "c" "Han et al., 2011" -"EG12375-MONOMER" "MKITTVGVCIISGIFPLLILPQLPGTLTLAFLTLFACVLAFIPVKTVRYIALTLLFFVWGILSAKQILWAGETLTGATQDAIVEITATDGMTTHYGQITHLQGRRIFPASGLVMYGEYLPQAVCAGQQWSMKLKVRAVHGQLNDGGFDSQRYAIAQHQPLTGRFLQASVIEPNCSLRAQYLASLQTTLQPYPWNAVILGLGMGERLSVPKEIKNIMRDTGTAHLMAISGLHIAFAALLAAGLIRSGQIFLPGRWIHWQIPLIGGICCAAFYAWLTGMQPPALRTMVALATWGMLKLSGRQWSGWDVWICCLAAILLMDPVAILSQSLWLSAAAVAALIFWYQWFPCPEWQLPPVLRAVVSLIHLQLGITLLLMPVQIVIFHGISLTSFIANLLAIPLVTFITVPLILAAMVVHLSGPLILEQGLWFLADRSLALLFWGLKSLPEGWINIAECWQWLSFSPWFLLVVWRLNAWRTLPAMCVAGGLLMCWPLWQKPRPDEWQLYMLDVGQGLAMVIARNGKAILYDTGLAWPEGDSGQQLIIPWLHWHNLEPEGVILSHEHLDHRGGLDSILHIWPMLWIRSPLNWEHHQPCVRGEAWQWQGLRFSAHWPLQGSNDKGNNHSCVVKVDDGTNSILLTGDIEAPAEQKMLSRYWQQVQATLLQVPHHGSNTSSSLPLIQRVNGKVALASASRYNAWRLPSNKVKHRYQLQGYQWIDTPHQGQTTVNFSAQGWRISSLREQILPRWYHQWFGVPVDNG" "i" "Han et al., 2011" -"EG12376-MONOMER" "MKLFRILDPFTLTLITVVLLASFFPARGDFVPFFENLTTAAIALLFFMHGAKLSREAIIAGGGHWRLHLWVMCSTFVLFPILGVLFAWWKPVNVDPMLYSGFLYLCILPATVQSAIAFTSMAGGNVAAAVCSASASSLLGIFLSPLLVGLVMNVHGAGGSLEQVGKIMLQLLLPFVLGHLSRPWIGDWVSRNKKWIAKTDQTSILLVVYTAFSEAVVNGIWHKVGWGSLLFIVVVSCVLLAIVIVVNVFMARRLSFNKADEITIVFCGSKKSLANGIPMANILFPTSVIGMMVLPLMIFHQIQLMVCAVLARRYKRQTEQLQAQQESSADKA" "i" "Han et al., 2011" -"EG12378-MONOMER" "MLELNAKTTALVVIDLQEGILPFAGGPHTADEVVNRAGKLAAKFRASGQPVFLVRVGWSADYAEALKQPVDAPSPAKVLPENWWQHPAALGATDSDIEIIKRQWGAFYGTDLELQLRRRGIDTIVLCGISTNIGVESTARNAWELGFNLVIAEDACSAASAEQHNNSINHIYPRIARVRSVEEILNAL" "c" "Han et al., 2011" -"EG12379-MONOMER" "MIYIGLPQWSHPKWVRLGITSLEEYARHFNCVEGNTTLYALPKPEVVLRWREQTTDDFRFCFKFPATISHQAALRHCDDLVTEFLTRMSPLAPRIGQYWLQLPATFGPRELPALWHFLDSLPGEFNYGVEVRHPQFFAKGEEEQTLNRGLHQRGVNRVILDSRPVHAARPHSEAIRDAQRKKPKVPVHAVLTATNPLIRFIGSDDMTQNRELFQVWLQKLAQWHQTTTPYLFLHTPDIAQAPELVHTLWEDLRKTLPEIGAVPAIPQQSSLF" "c" "Han et al., 2011" -"EG12384-MONOMER" "MKTLVVALGGNALLQRGEALTAENQYRNIASAVPALARLARSYRLAIVHGNGPQVGLLALQNLAWKEVEPYPLDVLVAESQGMIGYMLAQSLSAQPQMPPVTTVLTRIEVSPDDPAFLQPEKFIGPVYQPEEQEALEAAYGWQMKRDGKYLRRVVASPQPRKILDSEAIELLLKEGHVVICSGGGGVPVTDDGAGSEAVIDKDLAAALLAEQINADGLVILTDADAVYENWGTPQQRAIRHATPDELAPFAKADGSMGPNVTAVSGYVRSRGKPAWIGALSRIEETLAGEAGTCISL" "c" "Han et al., 2011" -"EG12385-MONOMER" "MRQKETTATTRFSLLPGSITRFFLLLIIVLLVTMGVMVQSAVNAWLKDKSYQIVDITHAIQKRVDNWRYVTWQIYDNIAATTSPSSGEGLQETRLKQDVYYLEKPRRKTEALIFGSHDNSTLEMTQRMSTYLDTLWGAENVPWSMYYLNGQDNSLVLISTLPLKDLTSGFKESTVSDIVDSRRAEMLQQANALDERESFSNMRRLAWQNGHYFTLRTTFNQPGHLATVVAFDLPINDLIPPGMPLDSFRLEPDATATGNNDNEKEGTDSVSIHFNSTKIEISSALNSTDMRLVWQVPYGTLLLDTLQNILLPLLLNIGLLALALFGYTTFRHFSSRSTENVPSTAVNNELRILRAINEEIVSLLPLGLLVHDQESNRTVISNKIADHLLPHLNLQNITTMAEQHQGIIQATINNELYEIRMFRSQVAPRTQIFIIRDQDREVLVNKKLKQAQRLYEKNQQGRMIFMKNIGDALKEPAQSLAESAAKLNAPESKQLANQADVLVRLVDEIQLANMLADDSWKSETVLFSVQDLIDEVVPSVLPAIKRKGLQLLINNHLKAHDMRRGDRDALRRILLLLMQYAVTSTQLGKITLEVDQDESSEDRLTFRILDTGEGVSIHEMDNLHFPFINQTQNDRYGKADPLAFWLSDQLARKLGGHLNIKTRDGLGTRYSVHIKMLAADPEVEEEEERLLDDVCVMVDVTSAEIRNIVTRQLENWGATCITPDERLISQDYDIFLTDNPSNLTASGLLLSDDESGVREIGPGQLCVNFNMSNAMQEAVLQLIEVQLAQEEVTESPLGGDENAQLHASGYYALFVDTVPDDVKRLYTEAATSDFAALAQTAHRLKGVFAMLNLVPGKQLCETLEHLIREKDVPGIEKYISDIDSYVKSLL" "i" "Unambiguous EcoCyc data" -"EG12386-MONOMER" "MTITSLDGYRWLKNDIIRGNFQPDEKLRMSLLTSRYALGVGPLREALSQLVAERLVTVVNQKGYRVASMSEQELLDIFDARANMEAMLVSLAIARGGDEWEADVLAKAHLLSKLEACDASEKMLDEWDLRHQAFHTAIVAGCGSHYLLQMRERLFDLAARYRFIWLRRTVLSVEMLEDKHDQHQTLTAAVLARDTARASELMRQHLLTPIPIIQQAMAGN" "c" "Han et al., 2011" -"EG12387-MONOMER" "MYDFVIIGGGIIGMSTAMQLIDVYPDARIALLEKESAPACHQTGHNSGVIHAGVYYTPGSLKAQFCLAGNRATKAFCDQNGIRYDNCGKMLVATSDLEMERMRALWERTAANGIEREWLNADELREREPNITGLGGIFVPSSGIVSYRDVTAAMAKIFQSRGGEIIYNAEVSGLNEHKNGVVIRTRQGGEYEASTLISCSGLMADRLVKMLGLEPGFIICPFRGEYFRLAPEHNQIVNHLIYPIPDPAMPFLGVHLTRMIDGSVTVGPNAVLAFKREGYRKRDFSFSDTLEILGSSGIRRVLQNHLRSGLGEMKNSLCKSGYLRLVQKYCPRLSLSDLQPWPAGVRAQAVSPDGKLIDDFLFVTTPRTIHTCNAPSPAATSAIPIGAHIVSKVQTLLASQSNPGRTLRAARSVDALHAAFNQ" "c" "Han et al., 2011" -"EG12388-MONOMER" "MRRVLFSCFCGLLWSSSGWAVDPLGTININLHGNVVDFSCTVNTADIDKTVDLGRWPTTQLLNAGDTTALVPFSLRLEGCPPGSVAILFTGTPASDTNLLALDDPAMAQTVAIELRNSDRSRLALGEASPTEEVDANGNVTLNFFANYRALASGVRPGVAKADAIFMINYN" "e" "Han et al., 2011" -"EG12391-MONOMER" "MRYTDSRKLTPETDANHKTASPQPIRRISSQTLLGPDGKLIIDHDGQEYLLRKTQAGKLLLTK" "c" "EcoCyc dump" -"EG12394-MONOMER" "MANKPSAEELKKNLSEMQFYVTQNHGTEPPFTGRLLHNKRDGVYHCLICDAPLFHSQTKYDSGCGWPSFYEPVSEESIRYIKDLSHGMQRIEIRCGNCDAHLGHVFPDGPQPTGERYCVNSASLRFTDGENGEEING" "c" "Han et al., 2011" -"EG12395-MONOMER" "MSKIIATLYAVMDKRPLRALSFVMALLLAGCMFWDPSRFAAKTSELEIWHGLLLMWAVCAGVIHGVGFRPQKVLWQGIFCPLLADIVLIVGLIFFFF" "i" "Han et al., 2011" -"EG12396-MONOMER" "MSKQSQHVLIALPHPLLHLVSLGLVSFIFTLFSLELSQFGTQLAPLWFPTSIMMVAFYRHAGRMWPGIALSCSLGNIAASILLFSTSSLNMTWTTINIVEAVVGAVLLRKLLPWYNPLQNLADWLRLALGSAIVPPLLGGVLVVLLTPGDDPLRAFLIWVLSESIGALALVPLGLLFKPHYLLRHRNPRLLFESLLTLAITLTLSWLSMLYLPWPFTFIIVLLMWSAVRLPRMEAFLIFLTTVMMVSLMMAADPSLLATPRTYLMSHMPWLPFLLILLPANIMTMVMYAFRAERKHISESETHFRNAMEYSAIGMALVGTEGQWLQTNKALCQFLGYSQEELRGLTFQQLTWPEDLNKDLQQVEKLISGEINTYSMEKRYYNRNGDVVWALLAVSLVRHTDGTPLYFIAQIEDINELKRTEQVNQQLMERITLANEAGGIGIWEWELKPNIFSWDKRMFELYEIPPHIKPNWQVWYECVLPEDRQHAEKVIRDSLQSRSPFKLEFRITVKDGIRHIRALANRVLNKEGEVERLLGINMDMTEVKQLNEALFQEKERLHITLDSIGEAVVCIDMAMKITFMNPVAEKMSGWTQEEALGVPLLTVLHITFGDNGPLMENIYSADTSRSAIEQDVVLHCRSGGSYDVHYSITPLSTLDGSNIGSVLVIQDVTESRKMLRQLSYSASHDALTHLANRASFEKQLRILLQTVNSTHQRHALVFIDLDRFKAVNDSAGHAAGDALLRELASLMLSMLRSSDVLARLGGDEFGLLLPDCNVESARFIATRIISAVNDYHFIWEGRVHRVGASAGITLIDDNNHQAAEVMSQADIACYASKNGGRGRVTVYEPQQAAAHSERAAMSLDEQWRMIKENQLMMLAHGVASPRIPEARNLWLISLKLWSCEGEIIDEQTFRRSFSDPALSHALDRRVFHEFFQQAAKAVASKGISISLPLSVAGLSSATLVNDLLEQLENSPLPPRLLHLIIPAEAILDHAESVQKLRLAGCRIVLSQVGRDLQIFNSLKANMADYLLLDGELCANVQGNLMDEMLITIIQGHAQRLGMKTIAGPVVLPLVMDTLSGIGVDLIYGEVIADAQPLDLLVNSSYFAIN" "i" "Han et al., 2011" -"EG12397-MONOMER" "MTNTWNRLALLIFAVLSLLVAGELQAGVVVGGTRFIFPADRESISILLTNTSQESWLINSKINRPTRWAGGEASTVPAPLLAAPPLILLKPGTTGTLRLLRTESDILPVDRETLFELSIASVPSGKVENQSVKVAMRSVFKLFWRPEGLPGDPLEAYQQLRWTRNSQGVQLTNPTPYYINLIQVSVNGKALSNVGVVPPKSQRQTSWCQAIAPCHVAWRAINDYGGLSAKKEQNLP" "p" "Han et al., 2011" -"EG12399-MONOMER" "MVNLVIVSHSSRLGEGVGELARQMLMSDSCKIAIAAGIDDPQNPIGTDAVKVMEAIESVADADHVLVMMDMGSALLSAETALELLAPEIAAKVRLCAAPLVEGTLAATVSAASGADIDKVIFDAMHALEAKREQLGLPSSDTEISDTCPAYDEEARSLAVVIKNRNGLHVRPASRLVYTLSTFNADMLLEKNGKCVTPESINQIALLQVRYNDTLRLIAKGPEAEEALIAFRQLAEDNFGETEEVAPPTLRPVPPVSGKAFYYQPVLCTVQAKSTLTVEEEQDRLRQAIDFTLLDLMTLTAKAEASGLDDIAAIFSGHHTLLDDPELLAAASELLQHEHCTAEYAWQQVLKELSQQYQQLDDEYLQARYIDVDDLLHRTLVHLTQTKEELPQFNSPTILLAENIYPSTVLQLDPAVVKGICLSAGSPVSHSALIARELGIGWICQQGEKLYAIQPEETLTLDVKTQRFNRQG" "c" "Lopez-Campistrous et al., 2005" -"EG12401-MONOMER" "MSEQLVTPENVTTKDGKINLLDLNRQQMREFFKDLGEKPFRADQVMKWMYHYCCDNFDEMTDINKVLRGKLKEVAEIRAPEVVEEQRSSDGTIKWAIAVGDQRVETVYIPEDDRATLCVSSQVGCALECKFCSTAQQGFNRNLRVSEIIGQVWRAAKIVGAAKVTGQRPITNVVMMGMGEPLLNLNNVVPAMEIMLDDFGFGLSKRRVTLSTSGVVPALDKLGDMIDVALAISLHAPNDEIRDEIVPINKKYNIETFLAAVRRYLEKSNANQGRVTIEYVMLDHVNDGTEHAHQLAELLKDTPCKINLIPWNPFPGAPYGRSSNSRIDRFSKVLMSYGFTTIVRKTRGDDIDAACGQLAGDVIDRTKRTLRKRMQGEAIDIKAV" "c" "Han et al., 2011" -"EG12402-MONOMER" "MPYKTKSDLPESVKHVLPSHAQDIYKEAFNSAWDQYKDKEDRRDDASREETAHKVAWAAVKHEYAKGDDDKWHKKS" "c" "Han et al., 2011" -"EG12403-MONOMER" "MQWRKCKVITRDFLMNADCKTAFGAIEESLLWSAEQRAASLAATLACRPDEGPVWIFGYGSLMWNPALEFTESCTGTLVGWHRAFCLRLTAGRGTAHQPGRMLALKEGGRTTGVAYRLPEETLEQELTLLWKREMITGCYLPTWCQLDLDDGRTVNAIVFIMDPRHPEYESDTRAQVIAPLIAAASGPLGTNAQYLFSLEQELIKLGMQDDGLNDLLVSVKKLLAENFPDGVLRPGFA" "c" "Han et al., 2011" -"EG12404-MONOMER" "MQKIVIVANGAPYGSESLFNSLRLAIALREQESNLDLRLFLMSDAVTAGLRGQKPGEGYNIQQMLEILTAQNVPVKLCKTCTDGRGISTLPLIDGVEIGTLVELAQWTLSADKVLTF" "c" "Han et al., 2011" -"EG12405-MONOMER" "MAPENHDGEKHFAEIVKDFGETSMNDNGLDTGEQAKAFALGKVRDALSQQVNQHVESWLSPWGNASVDVKVDNEGHFTGSRGSWFVPLQDNDRYLTWSQLGLTQQDNGLVSNVGVGQRWARGNWLVGYNTFYDNLLDENLQRAGFGAEAWGEYLRLSANFYQPFAAWHEQTATQEQRMARGYDLTARMRMPFYQHLNTSVSLEQYFGDRVDLFNSGTGYHNPVALSLGLNYTPVPLVTVTAQHKQGESGENQNNLGLNLNYRFGVPLKKQLSAGEVAESQSLRGSRYDNPQRNNLPTLEYRQRKTLTVFLATPPWDLKPGETVPLKLQIRSRYGIRQLIWQGDTQILSLTPGAQANSAEGWTLIMPDWQNGEGASNHWRLSVVVEDNQGQRVSSNEITLTLVEPFDALSNDELRWEP" "o" "Han et al., 2011" -"EG12406-MONOMER" "MNNPAMTIKGEQAKKQLIAAALAQFGEYGMNATTREIAAQAGQNIAAITYYFGSKEDLYLACAQWIADFIGEQFRPHAEEAERLFAQPQPDRAAIRELILRACRNMIKLLTQDDTVNLSKFISREQLSPTAAYHLVHEQVISPLHSHLTRLIAAWTGCDANDTRMILHTHALIGEILAFRLGKETILLRTGWTAFDEEKTELINQTVTCHIDLILQGLSQRSL" "c" "Han et al., 2011" -"EG12407-MONOMER" "MGKAVIAIHGGAGAISRAQMSLQQELRYIEALSAIVETGQKMLEAGESALDVVTEAVRLLEECPLFNAGIGAVFTRDETHELDACVMDGNTLKAGAVAGVSHLRNPVLAARLVMEQSPHVMMIGEGAENFAFARGMERVSPEIFSTSLRYEQLLAARKEGATVLDHSGAPLDEKQKMGTVGAVALDLDGNLAAATSTGGMTNKLPGRVGDSPLVGAGCYANNASVAVSCTGTGEVFIRALAAYDIAALMDYGGLSLAEACERVVMEKLPALGGSGGLIAIDHEGNVALPFNTEGMYRAWGYAGDTPTTGIYREKGDTVATQ" "c" "Han et al., 2011" -"EG12409-MONOMER" "MNRFIMANSQQCLGCHACEIACVMAHNDEQHVLSQHHFHPRITVIKHQQQRSAVTCHHCEDAPCARSCPNGAISHVDDSIQVNQQKCIGCKSCVVACPFGTMQIVLTPVAAGKVKATAHKCDLCAGRENGPACVENCPADALQLVTDVALSGMAKSRRLRTARQEHQPWHASTAAQEMPVMSKVEQMQATPARGEPDKLAIEARKTGFDEIYLPFRADQAQREASRCLKCGEHSVCEWTCPLHNHIPQWIELVKAGNIDAAVELSHQTNTLPEITGRVCPQDRLCEGACTIRDEHGAVTIGNIERYISDQALAKGWRPDLSHVTKVDKRVAIIGAGPAGLACADVLTRNGVGVTVYDRHPEIGGLLTFGIPSFKLDKSLLARRREIFSAMGIHFELNCEVGKDVSLDSLLEQYDAVFVGVGTYRSMKAGLPNEDAPGVYDALPFLIANTKQVMGLEELPEEPFINTAGLNVVVLGGGDTAMDCVRTALRHGASNVTCAYRRDEANMPGSKKEVKNAREEGANFEFNVQPVALELNEQGHVCGIRFLRTRLGEPDAQGRRRPVPVEGSEFVMPADAVIMAFGFNPHGMPWLESHGVTVDKWGRIIADVESQYRYQTTNPKIFAGGDAVRGADLVVTAMAEGRHAAQGIIDWLGVKSVKSH" "c" "Han et al., 2011" -"EG12410-MONOMER" "MTQQITLIKDKILSDNYFTLHNITYDLTRKDGEVIRHKREVYDRGNGATILLYNTKKKTVVLIRQFRVATWVNGNESGQLIESCAGLLDNDEPEVCIRKEAIEETGYEVGEVRKLFELYMSPGGVTELIHFFIAEYSDNQRANAGGGVEDEDIEVLELPFSQALEMIKTGEIRDGKTVLLLNYLQTSHLMD" "c" "Han et al., 2011" -"EG12421-MONOMER" "MASGWANDDAVNEQINSTIEDAIARARGEIPRGESLDECEECGAPIPQARREAIPGVRLCIHCQQEKDLQKPAYTGYNRRGSKDSQLR" "c" "Han et al., 2011" -"EG12422-MONOMER" "MKTINTVVAAMALSTLSFGVFAAEPVTASQAQNMNKIGVVSADGASTLDALEAKLAEKAAAAGASGYSITSATNNNKLSGTAVIYK" "p" "Han et al., 2011" -"EG12424-MONOMER" "MEYQHWLREAISQLQASESPRRDAEILLEHVTGRGRTFILAFGETQLTDEQCQQLDALLTRRRDGEPIAHLTGVREFWSLPLFVSPATLIPRPDTECLVEQALARLPEQPCRILDLGTGTGAIALALASERPDCEIIAVDRMPDAVSLAQRNAQHLAIKNIHILQSDWFSALAGQQFAMIVSNPPYIDEQDPHLQQGDVRFEPLTALVAADSGMADIVHIIEQSRNALVSGGFLLLEHGWQQGEAVRQAFILAGYHDVETCRDYGDNERVTLGRYYQ" "c" "Han et al., 2011" -"EG12428-MONOMER" "MRSEQISGSSLNPSCRFSSAYSPVTRQRKDMSR" "c" "Han et al., 2011" -"EG12429-MONOMER" "MDEYSPKRHDIAQLKFLCETLYHDCLANLEESNHGWVNDPTSAINLQLNELIEHIATFALNYKIKYNEDNKLIEQIDEYLDDTFMLFSSYGINMQDLQKWRKSGNRLFRCFVNATKENPASLSC" "c" "Han et al., 2011" -"EG12431-MONOMER" "MSDEGLAPGKRLSEIRQQQGLSQRRAAELSGLTHSAISTIEQDKVSPAISTLQKLLKVYGLSLSEFFSEPEKPDEPQVVINQDDLIEMGSQGVSMKLVHNGNPNRTLAMIFETYQPGTTTGERIKHQGEEIGTVLEGEIVLTINGQDYHLVAGQSYAINTGIPHSFSNTSAGICRIISAHTPTTF" "c" "Han et al., 2011" -"EG12432-MONOMER" "MKPVKPPRINGRVPVLSAQEAVNYIPDEATLCVLGAGGGILEATTLITALADKYKQTQTPRNLSIISPTGLGDRADRGISPLAQEGLVKWALCGHWGQSPRISELAEQNKIIAYNYPQGVLTQTLRAAAAHQPGIISDIGIGTFVDPRQQGGKLNEVTKEDLIKLVEFDNKEYLYYKAIAPDIAFIRATTCDSEGYATFEDEVMYLDALVIAQAVHNNGGIVMMQVQKMVKKATLHPKSVRIPGYLVDIVVVDPDQTQLYGGAPVNRFISGDFTLDDSTKLSLPLNQRKLVARRALFEMRKGAVGNVGVGIADGIGLVAREEGCADDFILTVETGPIGGITSQGIAFGANVNTRAILDMTSQFDFYHGGGLDVCYLSFAEVDQHGNVGVHKFNGKIMGTGGFIDISATSKKIIFCGTLTAGSLKTEITDGKLNIVQEGRVKKFIRELPEITFSGKIALERGLDVRYITERAVFTLKEDGLHLIEIAPGVDLQKDILDKMDFTPVISPELKLMDERLFIDAAMGFVLPEAAH" "c" "Han et al., 2011" -"EG12433-MONOMER" "MSEKLQKVLARAGHGSRREIESIIEAGRVSVDGKIAKLGDRVEVTPGLKIRIDGHLISVRESAEQICRVLAYYKPEGELCTRNDPEGRPTVFDRLPKLRGARWIAVGRLDVNTCGLLLFTTDGELANRLMHPSREVEREYAVRVFGQVDDAKLRDLSRGVQLEDGPAAFKTIKFSGGEGINQWYNVTLTEGRNREVRRLWEAVGVQVSRLIRVRYGDIPLPKGLPRGGWTELDLAQTNYLRELVELPPETSSKVAVEKDRRRMKANQIRRAVKRHSQVSGGRRSGGRNNNG" "c" "Han et al., 2011" -"EG12434-MONOMER" "MPKLRLIGLTLLALSATAVSHAEETRYVSDELNTWVRSGPGDHYRLVGTVNAGEEVTLLQTDANTNYAQVKDSSGRTAWIPLKQLSTEPSLRSRVPDLENQVKTLTDKLTNIDNTWNQRTAEMQQKVAQSDSVINGLKEENQKLKNELIVAQKKVDAASVQLDDKQRTIIMQWFMYGGGVLGLGLLLGLVLPHLIPSRKRKDRWMN" "o" "Han et al., 2011" -"EG12436-MONOMER" "MLSFLWDLASFIVALGVLITVHEFGHFWVARRCGVRVERFSIGFGKALWRRTDKLGTEYVIALIPLGGYVKMLDERAEPVVPELRHHAFNNKSVGQRAAIIAAGPVANFIFAIFAYWLVFIIGVPGVRPVVGEIAANSIAAEAQIAPGTELKAVDGIETPDWDAVRLQLVDKIGDESTTITVAPFGSDQRRDVKLDLRHWAFEPDKEDPVSSLGIRPRGPQIEPVLENVQPNSAASKAGLQAGDRIVKVDGQPLTQWVTFVMLVRDNPGKSLALEIERQGSPLSLTLIPESKPGNGKAIGFVGIEPKVIPLPDEYKVVRQYGPFNAIVEATDKTWQLMKLTVSMLGKLITGDVKLNNLSGPISIAKGAGMTAELGVVYYLPFLALISVNLGIINLFPLPVLDGGHLLFLAIEKIKGGPVSERVQDFCYRIGSILLVLLMGLALFNDFSRL" "i" "Han et al., 2011" -"EG12438-MONOMER" "MILHAQAKHGKPGLPWLVFLHGFSGDCHEWQEVGEAFADYSRLYVDLPGHGGSAAISVDGFDDVTDLLRKTLVSYNILDFWLVGYSLGGRVAMMAACQGLAGLCGVIVEGGHPGLQNAEQRAERQRSDRQWVQRFLTEPLTAVFADWYQQPVFASLNDDQRRELVALRSNNNGATLAAMLEATSLAVQPDLRANLSARTFAFYYLCGERDSKFRALAAELAADCHVIPRAGHNAHRENPAGVIASLAQILRF" "c" "Han et al., 2011" -"EG12440-MONOMER" "MRIHILGICGTFMGGLAMLARQLGHEVTGSDANVYPPMSTLLEKQGIELIQGYDASQLEPQPDLVIIGNAMTRGNPCVEAVLEKNIPYMSGPQWLHDFVLRDRWVLAVAGTHGKTTTAGMATWILEQCGYKPGFVIGGVPGNFEVSAHLGESDFFVIEADEYDCAFFDKRSKFVHYCPRTLILNNLEFDHADIFDDLKAIQKQFHHLVRIVPGQGRIIWPENDINLKQTMAMGCWSEQELVGEQGHWQAKKLTTDASEWEVLLDGEKVGEVKWSLVGEHNMHNGLMAIAAARHVGVAPADAANALGSFINARRRLELRGEANGVTVYDDFAHHPTAILATLAALRGKVGGTARIIAVLEPRSNTMKMGICKDDLAPSLGRADEVFLLQPAHIPWQVAEVAEACVQPAHWSGDVDTLADMVVKTAQPGDHILVMSNGGFGGIHQKLLDGLAKKAEAAQ" "c" "Han et al., 2011" -"EG12443-MONOMER" "MAKNRSRRLRKKMHIDEFQELGFSVAWRFPEGTSEEQIDKTVDDFINEVIEPNKLAFDGSGYLAWEGLICMQEIGKCTEEHQAIVRKWLEERKLDEVRTSELFDVWWD" "c" "Han et al., 2011" -"EG12444-MONOMER" "VNKSMLAGIGIGVAAALGVAAVASLNVFERGPQYAQVVSATPIKETVKTPRQECRNVTVTHRRPVQDENRITGSVLGAVAGGVIGHQFGGGRGKDVATVVGALGGGYAGNQIQGSLQESDTYTTTQQRCKTVYDKSEKMLGYDVTYKIGDQQGKIRMDRDPGTQIPLDSNGQLILNNKV" "o" "Han et al., 2011" -"EG12445-MONOMER" "VTPTLLSAFWTYTLITAMTPGPNNILALSSATSHGFRQSTRVLAGMSLGFLIVMLLCAGISFSLAVIDPAAVHLLSWAGAAYIVWLAWKIATSPTKEDGLQAKPISFWASFALQFVNVKIILYGVTALSTFVLPQTQALSWVVGVSVLLAMIGTFGNVCWALAGHLFQRLFRQYGRQLNIVLALLLVYCAVRIFY" "i" "Han et al., 2011" -"EG12446-MONOMER" "MMKKFIAPLLALLVSGCQIDPYTHAPTLTSTDWYDVGMEDAISGSAIKDDDAFSDSQADRGLYLKGYAEGQKKTCQTDFTYARGLSGKSFPASCNNVENASQLHEVWQKGADENASTIRLN" "c" "Han et al., 2011" -"EG12448-MONOMER" "MRKFIFVLLTLLLVSPFSFAMKGIIWQPQNRDSQVTDTQWQGLMSQLRLQGFDTLVLQWTRYGDAFTQPEQRTLLFKRAAAAQQAGLKLIVGLNADPEFFMHQKQSSAALESYLNRLLAADLQQARLWSAAPGITPDGWYISAEIDDLNWRSEAARQPLLTWLNNAQRLISDVSAKPVYISSFFAGNMSPDGYRQLLEHVKATGVNVWVQDGSGVDKLTAEQRERYLQASADCQSPAPASGVVYELFVAGKGKTFTAKPKPDAEIASLLAKRSSCGKDTLYFSLRYLPVAHGILEY" "p" "Han et al., 2011" -"EG12449-MONOMER" "VDKIFVDEAVNELQTIQDMLRWSVSRFSAANIWYGHGTDNPWDEAVQLVLPSLYLPLDIPEDMRTARLTSSEKHRIVERVIRRVNERIPVAYLTNKAWFCGHEFYVDERVLVPRSPIGELINNKFAGLISKQPQHILDMCTGSGCIAIACAYAFPDAEVDAVDISPDALAVAEQNIEEHGLIHNVIPIRSDLFRDLPKVQYDLIVTNPPYVDAEDMSDLPNEYRHEPELGLASGTDGLKLTRRILGNAADYLADDGVLICEVGNSMVHLMEQYPDVPFTWLEFDNGGDGVFMLTKEQLIAAREHFAIYKD" "c" "Lopez-Campistrous et al., 2005" -"EG12450-MONOMER" "MSNGIVIIGSGFAARQLVKNIRKQDATIPLTLIAADSMDEYNKPDLSHVISQGQRADDLTRQTAGEFAEQFNLHLFPQTWVTDIDAEARVVKSQNNQWQYDKLVLATGASAFVPPVPGRELMLTLNSQQEYRACETQLRDARRVLIVGGGLIGSELAMDFCRAGKAVTLIDNAASILASLMPPEVSSRLQHRLTEMGVHLLLKSQLQGLEKTDSGIQATLDRQRNIEVDAVIAATGLRPETALARRAGLTINRGVCVDSYLQTSNTDIYALGDCAEINGQVLPFLQPIQLSAMVLAKNLLGNNTPLKLPAMLVKIKTPELPLHLAGETQRQDLRWQINTERQGMVARGVDDADQLRAFVVSEDRMKEAFGLLKTLPM" "c" "Han et al., 2011" -"EG12454-MONOMER" "MTPAVKLLEKNKISFQIHTYEHDPAETNFGDEVVKKLGLNPDQVYKTLLVAVNGDMKHLAVAVTPVAGQLDLKKVAKALGAKKVEMADPMVAQRSTGYLVGGISPLGQKKRLPTIIDAPAQEFATIYVSGGKRGLDIELAAGDLAKILDAKFADIARRD" "c" "Han et al., 2011" -"EG12455-MONOMER" "MSESVHTNTSLWSKGMKAVIVAQFLSAFGDNALLFATLALLKAQFYPEWSQPILQMVFVGAYILFAPFVGQVADSFAKGRVMMFANGLKLLGAASICFGINPFLGYTLVGVGAAAYSPAKYGILGELTTGSKLVKANGLMEASTIAAILLGSVAGGVLADWHVLVALAACALAYGGAVVANIYIPKLAAARPGQSWNLINMTRSFLNACTSLWRNGETRFSLVGTSLFWGAGVTLRFLLVLWVPVALGITDNATPTYLNAMVAIGIVVGAGAAAKLVTLETVSRCMPAGILIGVVVLIFSLQHELLPAYALLMLIGVMGGFFVVPLNALLQERGKKSVGAGNAIAVQNLGENSAMLLMLGIYSLAVMIGIPVVPIGIGFGALFALAITALWIWQRRH" "i" "Han et al., 2011" -"EG12600-MONOMER" "MHQVVCATTNPAKIQAILQAFHEIFGEGSCHIASVAVESGVPEQPFGSEETRAGARNRVANARRLLPEADFWVAIEAGIDGDSTFSWVVIENASQRGEARSATLPLPAVILEKVREGEALGPVMSRYTGIDEIGRKEGAIGVFTAGKLTRASVYHQAVILALSPFHNAVY" "c" "Han et al., 2011" -"EG12605-MONOMER" "MDYEFLRDITGVVKVRMSMGHEVVGHWFNEEVKENLALLDEVEQAAHALKGSERSWQRAGHEYTLWMDGEEVMVRANQLEFAGDEMEEGMNYYDEESLSLCGVEDFLQVVAAYRNFVQQK" "c" "Han et al., 2011" -"EG12609-MONOMER" "MGMENYNPPQEPWLVILYQDDHIMVVNKPSGLLSVPGRLEEHKDSVMTRIQRDYPQAESVHRLDMATSGVIVVALTKAAERELKRQFREREPKKQYVARVWGHPSPAEGLVDLPLICDWPNRPKQKVCYETGKPAQTEYEVVEYAADNTARVVLKPITGRSHQLRVHMLALGHPILGDRFYASPEARAMAPRLLLHAEMLTITHPAYGNSMTFKAPADF" "c" "Han et al., 2011" -"EG12610-MONOMER" "MKVSVPGMPVTLLNMSKNDIYKMVSGDKMDVKMNIFQRLWETLRHLFWSDKQTEAYKLLFNFVNNQTGNINASEYFTGAINENEREKFINSLELFNKLKTCAKNPDELVAKGNMRWVAQTFGDIELSVTFFIEKNKICTQTLQLHKGQGNLGVDLRKAYLPGVDMRDCYLGKKTMKGSNDILYERPGWNANLGVLPRTVLPRTVLTRTVLTWTVLP" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"EG12611-MONOMER" "VNGATSLYDEVIIINKIPPKKIDTKGVATEEVATKKVLLNKLLTTQLLNEPE" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"EG12624-MONOMER" "MEYKDPMHELLSSLEQIVFKDETQKITLTHRTTSCTEIEQLRKGTGLKIDDFARVLGVSVAMVKEWESRRVKPSSAELKLMRLIQANPALSKQLME" "c" "Han et al., 2011" -"EG12633-MONOMER" "MLKPDNLPVTFGKNDVEIIARETLYRGFFSLDLYRFRHRLFNGQMSHEVRREIFERGHAAVLLPFDPVRDEVVLIEQIRIAAYDTSETPWLLEMVAGMIEEGESVEDVARREAIEEAGLIVKRTKPVLSFLASPGGTSERSSIMVGEVDATTASGIHGLADENEDIRVHVVSREQAYQWVEEGKIDNAASVIALQWLQLHHQALKNEWA" "c" "Han et al., 2011" -"EG12634-MONOMER" "MEPFKYICHYWGKSSKSLTKGNDIHLLIYHCLDVAAVADCWWDQSVVLQNTFCRNEMLSKQRVKAWLLFFIALHDIGKFDIRFQYKSAESWLKLNPATPSLNGPSTQMCRKFNHGAAGLYWFNQDSLSEQSLGDFFSFFDAAPHPYESWFPWVEAVTGHHGFILHSQDQDKSRWEMPASLASYAAQDKQAREEWISVLEALFLTPAGLSINDIPPDCSSLLAGFCSLADWLGSWTTTNTFLFNEDAPSDINALRTYFQDRQQDASRVLELSGLVSNKRCYEGVHALLDNGYQPRQLQVLVDALPVAPGLTVIEAPTGSGKTETALAYAWKLIDQQIADSVIFALPTQATANAMLTRMEASASHLFSSPNLILAHGNSRFNHLFQSIKSRAITEQGQEEAWVQCCQWLSQSNKKVFLGQIGVCTIDQVLISVLPVKHRFIRGLGIGRSVLIVDEVHAYDTYMNGLLEAVLKAQADVGGSVILLSATLPMKQKQKLLDTYGLHTDPVENNSAYPLINWRGVNGAQRFDLLAHPEQLPPRFSIQPEPICLADMLPDLTMLERMIAAANAGAQVCLICNLVDVAQVCYQRLKELNNTQVDIDLFHARFTLNDRREKENRVISNFGKNGKRNVGRILVATQVVEQSLDVDFDWLITQHCPADLLFQRLGRLHRHHRKYRPAGFEIPVATILLPDGEGYGRHEHIYSNVRVMWRTQQHIEELNGASLFFPDAYRQWLDSIYDDAEMDEPEWVGNGMDKFESAECEKRFKARKVLQWAEEYSLQDNDETILAVTRDGEMSLPLLPYVQTSSGKQLLDGQVYEDLSHEQQYEALALNRVNVPFTWKRSFSEVVDEDGLLWLEGKQNLDGWVWQGNSIVITYTGDEGMTRVIPANPK" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"EG12656-MONOMER" "MSNILIINGAKKFAHSNGQLNDTLTEVADGTLRDLGHDVRIVRADSDYDVKAEVQNFLWADVVIWQMPGWWMGAPWTVKKYIDDVFTEGHGTLYASDGRTRKDPSKKYGSGGLVQGKKYMLSLTWNAPMEAFTEKDQFFHGVGVDGVYLPFHKANQFLGMEPLPTFIANDVIKMPDVPRYTEEYRKHLVEIFG" "c" "Han et al., 2011" -"EG12657-MONOMER" "MLTVIAEIRTRPGQHHRQAVLDQFAKIVPTVLKEEGCHGYAPMVDCAAGVSFQSMAPDSIVMIEQWESIAHLEAHLQTPHMKAYSEAVKGDVLEMNIRILQPGI" "c" "Han et al., 2011" -"EG12658-MONOMER" "MKFTQRLSLRVRLTLIFLILASVTWLLSSFVAWKQTTDNVDELFDTQLMLFAKRLSTLDLNEINAADRMAQTPNRLKHGHVDDDALTFAIFTHDGRMVLNDGDNGEDIPYSYQREGFADGQLVGEDDPWRFVWMTSPDGKYRIVVGQEWEYREDMALAIVAGQLIPWLVALPIMLIIMMVLLGRELAPLNKLALALRMRDPDSEKPLNATGVPSEVRPLVESLNQLFARTHAMMVRERRFTSDAAHELRSPLTALKVQTEVAQLSDDDPQARKKALLQLHSGIDRATRLVDQLLTLSRLDSLDNLQDVAEIPLEDLLQSSVMDIYHTAQQAKIDVRLTLNAHSIKRTGQPLLLSLLVRNLLDNAVRYSPQGSVVDVTLNADNFIVRDNGPGVTPEALARIGERFYRPPGQTATGSGLGLSIVQRIAKLHGMNVEFGNAEQGGFEAKVSW" "i" "Han et al., 2011" -"EG12666-MONOMER" "VATLFIADLHLCVEEPAITAGFLRFLAGEARKADALYILGDLFEAWIGDDDPNPLHRKMAAAIKAVSDSGVPCYFIHGNRDFLLGKRFARESGMTLLPEEKVLELYGRRVLIMHGDTLCTDDAGYQAFRAKVHKPWLQTLFLALPLFVRKRIAARMRANSKEANSSKSLAIMDVNQNAVVSAMEKHQVQWLIHGHTHRPAVHELIANQQPAFRVVLGAWHTEGSMVKVTADDVELIHFPF" "c" "Han et al., 2011" -"EG12689-MONOMER" "MRLIVVSIMVTLLSGCGSIISRTIPGQGHGNQYYPGVQWDVRDSAWRYVTILDLPFSLVFDTLLLPIDIHHGPYE" "c" "Han et al., 2011" -"EG12690-MONOMER" "VSNLSLDFSDNTFQPLAARMRPENLAQYIGQQHLLAAGKPLPRAIEAGHLHSMILWGPPGTGKTTLAEVIARYANADVERISAVTSGVKEIREAIERARQNRNAGRRTILFVDEVHRFNKSQQDAFLPHIEDGTITFIGATTENPSFELNSALLSRARVYLLKSLSTEDIEQVLTQAMEDKTRGYGGQDIVLPDETRRAIAELVNGDARRALNTLEMMADMAEVDDSGKRVLKPELLTEIAGERSARFDNKGDRFYDLISALHKSVRGSAPDAALYWYARIITAGGDPLYVARRCLAIASEDVGNADPRAMQVAIAAWDCFTRVGPAEGERAIAQAIVYLACAPKSNAVYTAFKAALADARERPDYDVPVHLRNAPTKLMKEMGYGQEYRYAHDEANAYAAGEVYFPPEIAQTRYYFPTNRGLEGKIGEKLAWLAEQDQNSPIKRYR" "c" "Han et al., 2011" -"EG12691-MONOMER" "MLELLFLLLPVAAAYGWYMGRRSAQQNKQDEANRLSRDYVAGVNFLLSNQQDKAVDLFLDMLKEDTGTVEAHLTLGNLFRSRGEVDRAIRIHQTLMESASLTYEQRLLAIQQLGRDYMAAGLYDRAEDMFNQLTDETDFRIGALQQLLQIYQATSEWQKAIDVAERLVKLGKDKQRVEIAHFYCELALQHMASDDLDRAMTLLKKGAAADKNSARVSIMMGRVFMAKGEYAKAVESLQRVISQDRELVSETLEMLQTCYQQLGKTAEWAEFLQRAVEENTGADAELMLADIIEARDGSEAAQVYITRQLQRHPTMRVFHKLMDYHLNEAEEGRAKESLMVLRDMVGEKVRSKPRYRCQKCGFTAYTLYWHCPSCRAWSTIKPIRGLDGL" "c" "Han et al., 2011" -"EG12692-MONOMER" "MPHNPIRVVVGPANYFSHPGSFNHLHDFFTDEQLSRAVWIYGKRAIAAAQTKLPPAFGLPGAKHILFRGHCSESDVQQLAAESGDDRSVVIGVGGGALLDTAKALARRLGLPFVAVPTIAATCAAWTPLSVWYNDAGQALHYEIFDDANFMVLVEPEIILNAPQQYLLAGIGDTLAKWYEAVVLAPQPETLPLTVRLGINNAQAIRDVLLNSSEQALSDQQNQQLTQSFCDVVDAIIAGGGMVGGLGDRFTRVAAAHAVHNGLTVLPQTEKFLHGTKVAYGILVQSALLGQDDVLAQLTGAYQRFHLPTTLAELEVDINNQAEIDKVIAHTLRPVESIHYLPVTLTPDTLRAAFKKVESFKA" "c" "Han et al., 2011" -"EG12693-MONOMER" "VEYRSLTLDDFLSRFQLLRPQINRETLNHRQAAVLIPIVRRPQPGLLLTQRSIHLRKHAGQVAFPGGAVDDTDASAIAAALREAEEEVAIPPSAVEVIGVLPPVDSVTGYQVTPVVGIIPPDLPYRASEDEVSAVFEMPLAQALHLGRYHPLDIYRRGDSHRVWLSWYEQYFVWGMTAGIIRELALQIGVKP" "c" "Han et al., 2011" -"EG12694-MONOMER" "MLNSWPLAKDLQVLVEIVHSGSFSAAAATLGQTPAFVTKRIQILENTLATTLLNRSARGVALTESGQRCYEHALEILTQYQRLVDDVTQIKTRPEGMIRIGCSFGFGRSHIAPAITELMRNYPELQVHFELFDRQIDLVQDNIDLDIRINDEIPDYYIAHLLTKNKRILCAAPEYLQKYPQPQSLQELSRHDCLVTKERDMTHGIWELGNGQEKKSVKVSGHLSSNSGEIVLQWALEGKGIMLRSEWDVLPFLESGKLVQVLPEYAQSANIWAVYREPLYRSMKLRVCVEFLAAWCQQRLGKPDEGYQVM" "c" "Han et al., 2011" -"EG12702-MONOMER" "MQSERIYLVWAHPRHDSLTAHIADAIHQRAMERKIQVTELDLYRRNFNPVMTPEDEPDWKNMDKRYSPEVHQLYSELLEHDTLVVVFPLWWYSFPAMLKGYIDRVWNNGLAYGDGHKLPFNKVRWVALVGGDKESFVQMGWEKNISDYLKNMCSYLGIEDADVTFLCNTVVFDGEELHASYYQSLLSQVRDMVDAL" "c" "Han et al., 2011" -"EG12703-MONOMER" "MPTQEAKAHHVGEWASLRNTSPEIAEAIFEVAGYDEKMAEKIWEEGSDEVLVKAFAKTDKDSLFWGEQTIERKNV" "c" "Han et al., 2011" -"EG12704-MONOMER" "VKKQWIVGTALLMLMTGNAWADGEPPTENILKDQFKKQYHGILKLDAITLKNLDAKGNQATWSAEGDVSSSDDLYTWVGQLADYELLEQTWTKDKPVKFSAMLTSKGTPASGWSVNFYSFQAAASDRGRVVDDIKTNNKYLIVNSEDFNYRFSQLESALNTQKNSIPALEKEVKALDKQMVAAQKAADAYWGKDANGKQMTREDAFKKIHQQRDEFNKQNDSEAFAVKYDKEVYQPAIAACHKQSEECYEVPIQQKRDFDINEQRRQTFLQSQKLSRKLQDDWVTLEKGQYPLTMKVSEINSKKVAILMKIDDINQANERWKKDTEQLRRNGVIK" "p" "Han et al., 2011" -"EG12705-MONOMER" "MMRKMLLAAALSVTAMTAHADYQCSVTPRDDVIVSPQTVQVKGENGNLVITPDGNVMYNGKQYSLNAAQREQAKDYQAELRSTLPWIDEGAKSRVEKARIALDKIIVQEMGESSKMRSRLTKLDAQLKEQMNRIIETRSDGLTFHYKAIDQVRAEGQQLVNQAMGGILQDSINEMGAKAVLKSGGNPLQNVLGSLGGLQSSIQTEWKKQEKDFQQFGKDVCSRVVTLEDSRKALVGNLK" "p" "Han et al., 2011" -"EG12707-MONOMER" "MRNSHNITLTNNDSLTEDEETTWSLPGAVVGFISWLFALAMPMLIYGSNTLFFFIYTWPFFLALMPVAVVVGIALHSLMDGKLRYSIVFTLVTVGIMFGALFMWLLG" "i" "Han et al., 2011" -"EG12708-MONOMER" "MPTVITHAAVPLCIGLGLGSKVIPPRLLFAGIILAMLPDADVLSFKFGVAYGNVFGHRGFTHSLVFAFVVPLLCVFIGRRWFRAGLIRCWLFLTVSLLSHSLLDSVTTGGKGVGWLWPWSDERFFAPWQVIKVAPFALSRYTTPYGHQVIISELMWVWLPGMLLMGMLWWRRR" "i" "Han et al., 2011" -"EG12709-MONOMER" "MLLAGSSLLTLLDDIATLLDDISVMGKLAAKKTAGVLGDDLSLNAQQVSGVRANRELPVVWGVAKGSLINKVILVPLALIISAFIPWAITPLLMIGGAFLCFEGVEKVLHMLEARKHKEDPAQSQQRLEKLAAQDPLKFEKDKIKGAIRTDFILSAEIVAITLGIVAEAPLLNQVLVLSGIALVVTVGVYGLVGVIVKIDDLGYWLAEKSSALMQALGKGLLIIAPWLMKALSIVGTLAMFLVGGGIVVHGIAPLHHAIEHFAGQQSAVVAMILPTVLNLILGFIIGGIVVLGVKAVEKMRGQAH" "i" "Unambiguous EcoCyc data" -"EG12710-MONOMER" "MDLQHWQAQFENWLKNHHQHQDAAHDVCHFRRVWATAQKLAADDDVDMLVILTACYFHDIVSLAKNHPQRQRSSILAAEETRRLLREEFEQFPAEKIEAVCHAIAAHSFSAQIAPLTTEAKIVQDADRLEALGAIGLARVFAVSGALGVALFDGEDPFAQHRPLDDKRYALDHFQTKLLKLPQTMQTARGKQLAQHNAHFLVEFMAKLSAELAGENEGVDHKVIDAFSSAG" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"EG12712-MONOMER" "MPLLDSFTVDHTRMEAPAVRVAKTMNTPHGDAITVFDLRFCVPNKEVMPERGIHTLEHLFAGFMRNHLNGNGVEIIDISPMGCRTGFYMSLIGTPDEQRVADAWKAAMEDVLKVQDQNQIPELNVYQCGTYQMHSLQEAQDIARSILERDVRINSNEELALPKEKLQELHI" "c" "Lopez-Campistrous et al., 2005" -"EG12713-MONOMER" "MTRQKATLIGLIAIVLWSTMVGLIRGVSEGLGPVGGAAAIYSLSGLLLIFTVGFPRIRQIPKGYLLAGSLLFVSYEICLALSLGYAATHHQAIEVGMVNYLWPSLTILFAILFNGQKTNWLIVPGLLLALVGVCWVLGGDNGLHYDEIINNITTSPLSYFLAFIGAFIWAAYCTVTNKYARGFNGITVFVLLTGASLWVYYFLTPQPEMIFSTPVMIKLISAAFTLGFAYAAWNVGILHGNVTIMAVGSYFTPVLSSALAAVLLSAPLSFSFWQGALMVCGGSLLCWLATRRG" "i" "Han et al., 2011" -"EG12717-MONOMER" "MVEDILAPGLRVVFCGINPGLSSAGTGFPFAHPANRFWKVIYQAGFTDRQLKPQEAQHLLDYRCGVTKLVDRPTVQANEVSKQELHAGGRKLIEKIEDYQPQALAILGKQAYEQGFSQRGAQWGKQTLTIGSTQIWVLPNPSGLSRVSLEKLVEAYRELDQALVVRGR" "c" "Han et al., 2011" -"EG12794-MONOMER" "MNLSTKQKQHLKGLAHPLKPVVLLGSNGLTEGVLAEIEQALEHHELIKVKIATEDRETKTLIVEAIVRETGACNVQVIGKTLVLYRPTKERKISLPR" "c" "Han et al., 2011" -"EG12799-MONOMER" "MQTKKNEIWVGIFLLAALLAALFVCLKAANVTSIRTEPTYTLYATFDNIGGLKARSPVSIGGVVVGRVADITLDPKTYLPRVTLEIEQRYNHIPDTSSLSIRTSGLLGEQYLALNVGFEDPELGTAILKDGDTIQDTKSAMVLEDLIGQFLYGSKGDDNKNSGDAPAAAPGNNETTEPVGTTK" "i" "Han et al., 2011" -"EG12830-MONOMER" "MSLENAPDDVKLAVDLIVLLEENQIPASTVLRALDIVKRDYEKKLTRDDEAEK" "c" "Han et al., 2011" -"EG12842-MONOMER" "MRAIGKLPKGVLILEFIGMMLLAVALLSVSDSLSLPEPFSRPEVQILMIFLGVLLMLPAAVVVILQVAKRLAPQLMNRPPQYSRSEREKDNDANH" "i" "Han et al., 2011" -"EG12843-MONOMER" "MQRIILIIIGWLAVVLGTLGVVLPVLPTTPFILLAAWCFARSSPRFHAWLLYRSWFGSYLRFWQKHHAMPRGVKPRAILLILLTFAISLWFVQMPWVRIMLLVILACLLFYMWRIPVIDEKQEKH" "i" "Han et al., 2011" -"EG12844-MONOMER" "MRTISYSEARQNLSATMMKAVEDHAPILITRQNGEACVLMSLEEYNSLEETAYLLRSPANARRLMDSIDSLKSGKGTEKDIIE" "c" "EcoCyc dump" -"EG12845-MONOMER" "MSMLVVVTENVPPRLRGRLAIWLLEVRAGVYVGDVSAKIREMIWEQIAGLAEEGNVVMAWATNTETGFEFQTFGLNRRTPVDLDGLRLVSFLPV" "c" "EcoCyc dump" -"EG12850-MONOMER" "MRIIFLRKEYLSLLPSMIASLFSANGVAAVTDSCQGYDVKASCQASRQSLSGITQDWSIADGQWLVFSDMTNNASGGAVFLQQGAEFSLLPENETGMTLFANNTVTGEYNNGGAIFAKENSTLNLTDVIFSGNVAGGYGGAIYSSGTNDTGAVDLRVTNAMFRNNIANDGKGGAIYTINNDVYLSDVIFDNNQAYTSTSYSDGDGGAIDVTDNNSDSKHPSGYTIVNNTAFTNNTAEGYGGAIYTNSVTAPYLIDISVDDSYSQNGGVLVDENNSAAGYGDGPSSAAGGFMYLGLSEVTFDIADGKTLVIGNTENDGAVDSIAGTGLITKTGSGDLVLNADNNDFTGEMQIENGEVTLGRSNSLMNVGDTHCQDDPQDCYGLTIGSIDQYQNQAELNVGSTQQTFVHALTGFQNGTLNIDAGGNVTVNQGSFAGIIEGAGQLTIAQNGSYVLAGAQSMALTGDIVVDDGAVLSLEGDAADLTALQDDPQSIVLNGGVLDLSDFSTWQSGTSYNDGLEVSGSSGTVIGSQDVVDLAGGDNLHIGGDGKDGVYVVVDASDGQVSLANNNSYLGTTQIASGTLMVSDNSQLGDTHYNRQVIFTDKQQESVMEITSDVDTRSDAAGHGRDIEMRADGEVAVDAGVDTQWGALMADSSGQHQDEGSTLTKTGAGTLELTASGTTQSAVRVEEGTLKGDVADILPYASSLWVGDGATFVTGADQDIQSIDAISSGTIDISDGTVLRLTGQDTSVALNASLFNGDGTLVNATDGVTLTGELNTNLETDSLTYLSNVTVNGNLTNTSGAVSLQNGVAGDTLTVNGDYTGGGTLLLDSELNGDDSVSDQLVMNGNTAGNTTVVVNSITGIGEPTSTGIKVVDFAADPTQFQNNAQFSLAGSGYVNMGAYDYTLVEDNNDWYLRSQEVTPPSPPDPDPTPDPDPTPDPDPTPDPEPTPAYQPVLNAKVGGYLNNLRAANQAFMMERRDHAGGDGQTLNLRVIGGDYHYTAAGQLAQHEDTSTVQLSGDLFSGRWGTDGEWMLGIVGGYSDNQGDSRSNMTGTRADNQNHGYAVGLTSSWFQHGNQKQGAWLDSWLQYAWFSNDVSEQEDGTDHYHSSGIIASLEAGYQWLPGRGVVIEPQAQVIYQGVQQDDFTAANRARVSQSQGDDIQTRLGLHSEWRTAVHVIPTLDLNYYHDPHSTEIEEDGSTISDDAVKQRGEIKVGVTGNISQRVSLRGSVAWQKGSDDFAQTAGFLSMTVKW" "o" "Han et al., 2011" -"EG12851-MONOMER" "MNKVAQYYRELVASLSERLRNGERDIDALVEQARERVIKTGELTRTEVDELTRAVRRDLEEFAMSYEESLKEESDSVFMRVIKESLWQELADITDKTQLEWREVFQDLNHHGVYHSGEVVGLGNLVCEKCHFHLPIYTPEVLTLCPKCGHDQFQRRPFEP" "c" "Han et al., 2011" -"EG12854-MONOMER" "MSSNFRHQLLSLSLLVGIAAPWAAFAQAPISSVGSGSVEDRVTQLERISNAHSQLLTQLQQQLSDNQSDIDSLRGQIQENQYQLNQVVERQKQILLQIDSLSSGGAAAQSTSGDQSGAAASTTPTADAGTANAGAPVKSGNANTDYNAAIALVQDKSRQDDAMVAFQNFIKNYPDSTYLPNANYWLGQLNYNKGKKDDAAYYFASVVKNYPKSPKAADAMFKVGVIMQDKGDTAKAKAVYQQVISKYPGTDGAKQAQKRLNAM" "p" "Han et al., 2011" -"EG12855-MONOMER" "MKYQQLENLESGWKWKYLVKKHREGELITRYIEASAAQEAVDVLLSLENEPVLVNGWIDKHMNPELVNRMKQTIRARRKRHFNAEHQHTRKKSIDLEFIVWQRLAGLAQRRGKTLSETIVQLIEDAENKEKYANKMSSLKQDLQALLGKE" "c" "Han et al., 2011" -"EG12857-MONOMER" "MANDSWSGQDKAQHFIASAMLSAAGNEYSQHQGMSRDRSAMFGLMFSVSLGASKELWDSRPEGSGWSWKDLAWDVAGASTGYTVWQLTRH" "c" "Han et al., 2011" -"EG12859-MONOMER" "MDRRRFIKGSMAMAAVCGTSGIASLFSQAAFAADSDIADGQTQRFDFSILQSMAHDLAQTAWRGAPRPLPDTLATMTPQAYNSIQYDAEKSLWHNVENRQLDAQFFHMGMGFRRRVRMFSVDPATHLAREIHFRPELFKYNDAGVDTKQLEGQSDLGFAGFRVFKAPELARRDVVSFLGASYFRAVDDTYQYGLSARGLAIDTYTDSKEEFPDFTAFWFDTVKPGATTFTVYALLDSASITGAYKFTIHCEKSQVIMDVENHLYARKDIKQLGIAPMTSMFSCGTNERRMCDTIHPQIHDSDRLSMWRGNGEWICRPLNNPQKLQFNAYTDNNPKGFGLLQLDRDFSHYQDIMGWYNKRPSLWVEPRNKWGKGTIGLMEIPTTGETLDNIVCFWQPEKAVKAGDEFAFQYRLYWSAQPPVHCPLARVMATRTGMGGFSEGWAPGEHYPEKWARRFAVDFVGGDLKAAAPKGIEPVITLSSGEAKQIEILYIEPIDGYRIQFDWYPTSDSTDPVDMRMYLRCQGDAISETWLYQYFPPAPDKRQYVDDRVMS" "p" "Han et al., 2011" -"EG12860-MONOMER" "MNMLEKIQSQLEHLSKSERKVAEVILASPDNAIHSSIAAMALEANVSEPTVNRFCRSMDTRGFPDFKLHLAQSLANGTPYVNRNVNEDDSVESYTGKIFESAMATLDHVRHSLDKSAINRAVDLLTQAKKIAFFGLGSSAAVAHDAMNKFFRFNVPVVYSDDIVLQRMSCMNCSDGDVVVLISHTGRTKNLVELAQLARENDAMVIALTSAGTPLAREATLAITLDVPEDTDIYMPMVSRLAQLTVIDVLATGFTLRRGAKFRDNLKRVKEALKESRFDKQLLNLSDDR" "c" "Han et al., 2011" -"EG12861-MONOMER" "MSTPDFSTAENNQELANEVSCLKAMLTLMLQAMGQADAGRVMLKMEKQLALIEDETQAAVFSKTVKQIKQAYRQ" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"EG12865-MONOMER" "MFPEYRDLISRLKNENPRFMSLFDKHNKLDHEIARKEGSDGRGYNAEVVRMKKQKLQLKDEMLKILQQESVKEV" "c" "Han et al., 2011" -"EG12866-MONOMER" "MENQPKLNSSKEVIAFLAERFPHCFSAEGEARPLKIGIFQDLVDRVAGEMNLSKTQLRSALRLYTSSWRYLYGVKPGATRVDLDGNPCGELDEQHVEHARKQLEEAKARVQAQRAEQQAKKREAAATAGEKEDAPRRERKPRPTTPRRKEGAERKPRAQKPVEKAPKTVKAPREEQHTPVSDISALTVGQALKVKAGQNAMDATVLEITKDGVRVQLNSGMSLIVRAEHLVF" "c" "Han et al., 2011" -"EG12867-MONOMER" "LKRSLLFSAVLCAASLTSVHAAQPITEPEFASDIVDRYADHIFYGSGATGMALVVIDGNQRVFRSYGETRPGNNVRPQLDSVVRIASLTKLMTSEMLVKLLDQGTVKLNDPLSKYAPPGARVPTYNGTPITLVNLATHTSALPREQPGGAAHRPVFVWPTREQRWKYLSTAKLKAAPGSQAAYSNLAFDLLADALANASGKPYTQLFEEQITRPLGMKDTTYTPSPDQCRRLMVAERGASPCNNTLAAIGSGGVYSTPGDMMRWMQQYLSSDFYQRSNQADRMQTLIYQRAQFTKVIGMDVPGKADALGLGWVYMAPKEGRPGIIQKTGGGGGFITYMAMIPQKNIGAFVVVTRSPLTRFKNMSDGINDLVTELSGNKPLVIPAS" "p" "Han et al., 2011" -"EG12868-MONOMER" "MNKETQPIDRETLLKEANKIIREHEDTLAGIEATGVTQRNGVLVFTGDYFLDEQGLPTAKSTAVFNMFKHLAHVLSEKYHLVD" "c" "Han et al., 2011" -"EG12870-MONOMER" "MTEPLKPRIDFDGPLEVDQNPKFRAQQTFDENQAQNFAPATLDEAQEEEGQVEAVMDAALRPKRSLWRKMVMGGLALFGASVVGQGVQWTMNAWQTQDWVALGGCAAGALIIGAGVGSVVTEWRRLWRLRQRAHERDEARDLLHSHGTGKGRAFCEKLAQQAGIDQSHPALQRWYASIHETQNDREVVSLYAHLVQPVLDAQARREISRSAAESTLMIAVSPLALVDMAFIAWRNLRLINRIATLYGIELGYYSRLRLFKLVLLNIAFAGASELVREVGMDWMSQDLAARLSTRAAQGIGAGLLTARLGIKAMELCRPLPWIDDDKPRLGDFRRQLIGQVKETLQKGKTPSEK" "i" "Han et al., 2011" -"EG12874-MONOMER" "MNTNVFRLLLLGSLFSLSACVQQSEVRQMKHSVSTLNQEMTQLNQETVKITQQNRLNAKSSSGVYLLPGAKTPARLESQIGTLRMSLVNITPDADGTTLTLRIQGESNDPLPAFSGTVEYGQIQGTIDNFQEINVQNQLINAPASVLAPSDVDIPLQLKGISVDQLGFVRIHDIQPVMQ" "o" "Han et al., 2011" -"EG12875-MONOMER" "VNTFSVSRLALALAFGVTLTACSSTPPDQRPSDQTAPGTSSRPILSAKEAQNFDAQHYFASLTPGAAAWNPSPITLPAQPDFVVGPAGTQGVTHTTIQAAVDAAIIKRTNKRQYIAVMPGEYQGTVYVPAAPGGITLYGTGEKPIDVKIGLSLDGGMSPADWRHDVNPRGKYMPGKPAWYMYDSCQSKRSDSIGVLCSAVFWSQNNGLQLQNLTIENTLGDSVDAGNHPAVALRTDGDQVQINNVNILGRQNTFFVTNSGVQNRLETNRQPRTLVTNSYIEGDVDIVSGRGAVVFDNTEFRVVNSRTQQEAYVFAPATLSNIYYGFLAVNSRFNAFGDGVAQLGRSLDVDANTNGQVVIRDSAINEGFNTAKPWADAVISNRPFAGNTGSVDDNDEIQRNLNDTNYNRMWEYNNRGVGSKVVAEAKK" "e" "Han et al., 2011" -"EG12876-MONOMER" "MLIFEGKEIETDTEGYLKESSQWSEPLAVVIAENEGISLSPEHWEVVRFVRDFYLEFNTSPAIRMLVKAMANKFGEEKGNSRYLYRLFPKGPAKQATKIAGLPKPVKCI" "c" "Han et al., 2011" -"EG12877-MONOMER" "MHRIDTKTAQKDKFGAGKNGFTRGNPQTGTPATDLDDDYFDMLQEELCSVVEASGASLEKGRHDQLLTALRALLLSRKNPFGDIKSDGTVQTALENLGLGEGAKLNAATATLGRTGFIAIPVMIGGIEQSVIIQWGWNAAKASASGGDGNTVVFPVAFNNACVAVVANYDNVSAPINAVATGGYTTTSFLLRCAAQTGSYYYNWIAIGY" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"EG12878-MONOMER" "MSAQPVDIQIFGRSLRVNCPPDQRDALNQAADDLNQRLQDLKERTRVTNTEQLVFIAALNISYELAQEKAKTRDYAASMEQRIRMLQQTIEQALLEQGRITEKTNQNFE" "i" "EcoCyc dump" -"EG12879-MONOMER" "MATFSLGKHPHVELCDLLKLEGWSESGAQAKIAIAEGQVKVDGAVETRKRCKIVAGQTVSFAGHSVQVVA" "c" "Han et al., 2011" -"EG12880-MONOMER" "MMDNDNSLNKRPTFKRALRNISMTSIFITMMLIWLLLSVTSVLTLKQYAQKNLALTAATMTYSLEAAVVFADGPAATETLAALGQQGQFSTAEVRDKQQNILASWHYTRKDPGDTFSNFISHWLFPAPIIQPIRHNGETIGEVRLTARDSSISHFIWFSLAVLTGCILLASGIAITLTRHLHNGLVEALKNITDVVHDVRSNRNFSRRVSEERIAEFHRFALDFNSLLDEMEEWQLRLQAKNAQLLRTALHDPLTGLANRAAFRSGINTLMNNSDARKTSALLFLDGDNFKYINDTWGHATGDRVLIEIAKRLAEFGGLRHKAYRLGGDEFAMVLYDVQSESEVQQICSALTQIFNLPFDLHNGHQTTMTLSIGYAMTIEHASAEKLQELADHNMYQAKHQRAEKLVR" "i" "Han et al., 2011" -"EG12881-MONOMER" "MNFIRQGLGIALQPELTLKSIAGELCSVPLEPTFYRQISLLAKEKPVEGSPLFLLQMCMEQLVAIGKI" "c" "Han et al., 2011" -"EG12933-MONOMER" "MASLIQVRDLLALRGRMEAAQISQTLNTPQPMINAMLQQLESMGKAVRIQEEPDGCLSGSCKSCPEGKACLREWWALR" "i" "Han et al., 2011" -"EG13217-MONOMER" "MRLLNRLNQYQRLWQPSAGKPQTVTVSELAERCFCSERHVRTLLRQAQEAGWLEWQAQSGRGKRGQLRFLVTPESLRNAMMEQALETGKQQDVLELAQLAPGELRTLLQPFMGGQWQNDTPTLRIPYYRPLEPLQPGFLPGRAEQHLAGQIFSGLTRFDNNTQRPIGDLAHHWETSTDGLRWDFYLRSTLHWHNGDAVKASHLHQRLLMLLQLPALDQLFISVKRIEVTHPQCLTFFLHRPDYWLAHRLASYCSHLAHPQFPLIGTGPFRLTQFTAELVRLESHDYYHLRHPLLKAVEYWITPPLFEKDLGTSCRHPVQITIGKPEELQRVSQVSSGISLGFCYLTLRKSPRLSLWQARKVISIIHQSGLLQTLEVGENLITASHALLPGWTIPHWQVPDEVKLPKTLTLVYHLPIELHTMAERLQATLAAEGCELTIIFHNAKNWDDTTLQAHADLMMGDRLIGEAPEYTLEQWLRCDPLWPHVFDAPAYAHLQSTLDAVQIMPDEENRFNALKAVFSQLMTDATLTPLFNYHYRISAPPGVNGVRLTPRGWFEFTEAWLPAPSQ" "p" "Han et al., 2011" -"EG13236-MONOMER" "MKAVSRVHITPHMHWDREWYFTTEESRILLVNNMEEILCRLEQDNEYKYYVLDGQTAILEDYFAVKPENKDRVKKQVEAGKLIIGPWYTQTDTTIVSAESIVRNLMYGMRDCLAFGEPMKIGYLPDSFGMSGQLPHIYNGFGITRTMFWRGCSERHGTDKTEFLWQSSDGSEVTAQVLPLGYAIGKYLPADENGLRKRLDSYFDVLEKASVTKEILLPNGHDQMPLQQNIFEVMDKLREIYPQRKFVMSRFEEVFEKIEAQRDNLATLKGEFIDGKYMRVHRTIGSTRMDIKIAHARIENKIVNLLEPLATLAWTLGFEYHHGLLEKMWKEILKNHAHDSIGCCCSDKVHREIVARFELAEDMADNLIRFYMRKIADNMPQSDADKLVLFNLMPWPREEVINTTVRLRASQFNLRDDRGQPVPYFIRHAREIDPGLIDRQIVHYGNYDPFMEFDIQINQIVPSMGYRTLYIEANQPGNVIAAKSDAEGILENAFWQIALNEDGSLQLVDKDSGVRYDRVLQIEESSDDGDEYDYSPAKEEWVITAANAKPQCDIIHEAWQSRAVIRYDMAVPLNLSERSARQSTGRVGVVLVVTLSHNSRRIDVDINLDNQADDHRLRVLVPTPFNTDSVLADTQFGSLTRPVNDSAMNNWQQEGWKEAPVPVWNMLNYVALQEGRNGMAVFSEGLREFEVIGEEKKTFAITLLRGVGLLGKEDLLLRPGRPSGIKMPVPDSQLRGLLSCRLSLLSYTGTPTAAGVAQQARAWLTPVQCYNKIPWDVMKLNKAGFNVPESYSLLKMPPVGCLISALKKAEDRQEVILRLFNPAESATCDATVAFSREVISCSETMMDEHITTEENQGSNLSGPFLPGQSRTFSYRLA" "c" "Han et al., 2011" -"EG20249-MONOMER" "MKSATSAQRPYQEVGAMIRDLIIKTPYNPGERLPPEREIAEMLDVTRTVVREALIMLEIKGLVEVRRGAGIYVLDNSGSQNTDSPDANVCNDAGPFELLQARQLLESNIAEFAALQATREDIVKMRQALQLEERELASSAPGSSESGDMQFHLAIAEATHNSMLVELFRQSWQWRENNPMWIQLHSHLDDSLYRKEWLGDHKQILAALIKKDARAAKLAMWQHLENVKQRLLEFSNVDDIYFDGYLFDSWPLDKVDA" "c" "Han et al., 2011" -"EG20253-MONOMER" "MFTKRHRITLLFNANKAYDRQVVEGVGEYLQASQSEWDIFIEEDFRARIDKIKDWLGDGVIADFDDKQIEQALADVDVPIVGVGGSYHLAESYPPVHYIATDNYALVESAFLHLKEKGVNRFAFYGLPESSGKRWATEREYAFRQLVAEEKYRGVVYQGLETAPENWQHAQNRLADWLQTLPPQTGIIAVTDARARHILQVCEHLHIPVPEKLCVIGIDNEELTRYLSRVALSSVAQGARQMGYQAAKLLHRLLDKEEMPLQRILVPPVRVIERRSTDYRSLTDPAVIQAMHYIRNHACKGIKVDQVLDAVGISRSNLEKRFKEEVGETIHAMIHAEKLEKARSLLISTTLSINEISQMCGYPSLQYFYSVFKKAYDTTPKEYRDVNSEVML" "c" "Han et al., 2011" -"EG50001-MONOMER" "MYAVFQSGGKQHRVSEGQTVRLEKLDIATGETVEFAEVLMIANGEEVKIGVPFVDGGVIKAEVVAHGRGEKVKIVKFRRRKHYRKQQGHRQWFTDVKITGISA" "c" "Han et al., 2011" -"EG50002-MONOMER" "MAHKKAGGSTRNGRDSEAKRLGVKRFGGESVLAGSIIVRQRGTKFHAGANVGCGRDHTLFAKADGKVKFEVKGPKNRKFISIEAE" "c" "Han et al., 2011" -"EG50003-MONOMER" "MSTIEERVKKIIGEQLGVKQEEVTNNASFVEDLGADSLDTVELVMALEEEFDTEIPDEEAEKITTVQAAIDYINGHQA" "c" "Han et al., 2011" -"EG50004-MONOMER" "MKRQKRDRLERAHQRGYQAGIAGRSKEMCPYQTLNQRSQWLGGWREAMADRVVMA" "c" "Han et al., 2011" -"EMRB-MONOMER" "MQQQKPLEGAQLVIMTIALSLATFMQVLDSTIANVAIPTIAGNLGSSLSQGTWVITSFGVANAISIPLTGWLAKRVGEVKLFLWSTIAFAIASWACGVSSSLNMLIFFRVIQGIVAGPLIPLSQSLLLNNYPPAKRSIALALWSMTVIVAPICGPILGGYISDNYHWGWIFFINVPIGVAVVLMTLQTLRGRETRTERRRIDAVGLALLVIGIGSLQIMLDRGKELDWFSSQEIIILTVVAVVAICFLIVWELTDDNPIVDLSLFKSRNFTIGCLCISLAYMLYFGAIVLLPQLLQEVYGYTATWAGLASAPVGIIPVILSPIIGRFAHKLDMRRLVTFSFIMYAVCFYWRAYTFEPGMDFGASAWPQFIQGFAVACFFMPLTTITLSGLPPERLAAASSLSNFTRTLAGSIGTSITTTMWTNRESMHHAQLTESVNPFNPNAQAMYSQLEGLGMTQQQASGWIAQQITNQGLIISANEIFWMSAGIFLVLLGLVWFAKPPFGAGGGGGGAH" "i" "Han et al., 2011" -"EMRD-MONOMER" "MKRQRNVNLLLMLVLLVAVGQMAQTIYIPAIADMARDLNVREGAVQSVMGAYLLTYGVSQLFYGPISDRVGRRPVILVGMSIFMLATLVAVTTSSLTVLIAASAMQGMGTGVGGVMARTLPRDLYERTQLRHANSLLNMGILVSPLLAPLIGGLLDTMWNWRACYLFLLVLCAGVTFSMARWMPETRPVDAPRTRLLTSYKTLFGNSGFNCYLLMLIGGLAGIAAFEACSGVLMGAVLGLSSMTVSILFILPIPAAFFGAWFAGRPNKRFSTLMWQSVICCLLAGLLMWIPDWFGVMNVWTLLVPAALFFFGAGMLFPLATSGAMEPFPFLAGTAGALVGGLQNIGSGVLASLSAMLPQTGQGSLGLLMTLMGLLIVLCWLPLATRMSHQGQPV" "i" "Han et al., 2011" -"EMRE-MONOMER" "MNPYIYLGGAILAEVIGTTLMKFSEGFTRLWPSVGTIICYCASFWLLAQTLAYIPTGIAYAIWSGVGIVLISLLSWGFFGQRLDLPAIIGMMLICAGVLIINLLSRSTPH" "i" "Han et al., 2011" -"EMRY-MONOMER" "MAITKSTPAPLTGGTLWCVTIALSLATFMQMLDSTISNVAIPTISGFLGASTDEGTWVITSFGVANAIAIPVTGRLAQRIGELRLFLLSVTFFSLSSLMCSLSTNLDVLIFFRVVQGLMAGPLIPLSQSLLLRNYPPEKRTFALALWSMTVIIAPICGPILGGYICDNFSWGWIFLINVPMGIIVLTLCLTLLKGRETETSPVKMNLPGLTLLVLGVGGLQIMLDKGRDLDWFNSSTIIILTVVSVISLISLVIWESTSENPILDLSLFKSRNFTIGIVSITCAYLFYSGAIVLMPQLLQETMGYNAIWAGLAYAPIGIMPLLISPLIGRYGNKIDMRLLVTFSFLMYAVCYYWRSVTFMPTIDFTGIILPQFFQGFAVACFFLPLTTISFSGLPDNKFANASSMSNFFRTLSGSVGTSLTMTLWGRRESLHHSQLTATIDQFNPVFNSSSQIMDKYYGSLSGVLNEINNEITQQSLSISANEIFRMAAIAFILLTVLVWFAKPPFTAKGVG" "i" "Han et al., 2011" -"ENOLASE-MONOMER" "MSKIVKIIGREIIDSRGNPTVEAEVHLEGGFVGMAAAPSGASTGSREALELRDGDKSRFLGKGVTKAVAAVNGPIAQALIGKDAKDQAGIDKIMIDLDGTENKSKFGANAILAVSLANAKAAAAAKGMPLYEHIAELNGTPGKYSMPVPMMNIINGGEHADNNVDIQEFMIQPVGAKTVKEAIRMGSEVFHHLAKVLKAKGMNTAVGDEGGYAPNLGSNAEALAVIAEAVKAAGYELGKDITLAMDCAASEFYKDGKYVLAGEGNKAFTSEEFTHFLEELTKQYPIVSIEDGLDESDWDGFAYQTKVLGDKIQLVGDDLFVTNTKILKEGIEKGIANSILIKFNQIGSLTETLAAIKMAKDAGYTAVISHRSGETEDATIADLAVGTAAGQIKTGSMSRSDRVAKYNQLIRIEEALGEKAPYNGRKEIKGQA" "c" "Lopez-Campistrous et al., 2005" -"ENOYL-ACP-REDUCT-NADH-MONOMER" "MGFLSGKRILVTGVASKLSIAYGIAQAMHREGAELAFTYQNDKLKGRVEEFAAQLGSDIVLQCDVAEDASIDTMFAELGKVWPKFDGFVHSIGFAPGDQLDGDYVNAVTREGFKIAHDISSYSFVAMAKACRSMLNPGSALLTLSYLGAERAIPNYNVMGLAKASLEANVRYMANAMGPEGVRVNAISAGPIRTLAASGIKDFRKMLAHCEAVTPIRRTVTIEDVGNSAAFLCSDLSAGISGEVVHVDGGFSIAAMNELELK" "c" "Han et al., 2011" -"ENTA-MONOMER" "MDFSGKNVWVTGAGKGIGYATALAFVEAGAKVTGFDQAFTQEQYPFATEVMDVADAAQVAQVCQRLLAETERLDALVNAAGILRMGATDQLSKEDWQQTFAVNVGGAFNLFQQTMNQFRRQRGGAIVTVASDAAHTPRIGMSAYGASKAALKSLALSVGLELAGSGVRCNVVSPGSTDTDMQRTLWVSDDAEEQRIRGFGEQFKLGIPLGKIARPQEIANTILFLASDLASHITLQDIVVDGGSTLGA" "c" "Han et al., 2011" -"ENTB-MONOMER" "MAIPKLQAYALPESHDIPQNKVDWAFEPQRAALLIHDMQDYFVSFWGENCPMMEQVIANIAALRDYCKQHNIPVYYTAQPKEQSDEDRALLNDMWGPGLTRSPEQQKVVDRLTPDADDTVLVKWRYSAFHRSPLEQMLKESGRNQLIITGVYAHIGCMTTATDAFMRDIKPFMVADALADFSRDEHLMSLKYVAGRSGRVVMTEELLPAPIPASKAALREVILPLLDESDEPFDDDNLIDYGLDSVRMMALAARWRKVHGDIDFVMLAKNPTIDAWWKLLSREVK" "c" "Han et al., 2011" -"ENTC-MONOMER" "MDTSLAEEVQQTMATLAPNRFFFMSPYRSFTTSGCFARFDEPAVNGDSPDSPFQQKLAALFADAKAQGIKNPVMVGAIPFDPRQPSSLYIPESWQSFSRQEKQASARRFTRSQSLNVVERQAIPEQTTFEQMVARAAALTATPQVDKVVLSRLIDITTDAAIDSGVLLERLIAQNPVSYNFHVPLADGGVLLGASPELLLRKDGERFSSIPLAGSARRQPDEVLDREAGNRLLASEKDRHEHELVTQAMKEVLRERSSELHVPSSPQLITTPTLWHLATPFEGKANSQENALTLACLLHPTPALSGFPHQAATQVIAELEPFDRELFGGIVGWCDSEGNGEWVVTIRCAKLRENQVRLFAGAGIVPASSPLGEWRETGVKLSTMLNVFGLH" "c" "Han et al., 2011" -"ENTD-MONOMER" "MKTTHTSLPFAGHTLHFVEFDPANFCEQDLLWLPHYAQLQHAGRKRKTEHLAGRIAAVYALREYGYKCVPAIGELRQPVWPAEVYGSISHCGTTALAVVSRQPIGIDIEEIFSVQTARELTDNIITPAEHERLADCGLAFSLALTLAFSAKESAFKASEIQTDAGFLDYQIISWNKQQVIIHRENEMFAVHWQIKEKIVITLCQHD" "i" "EcoCyc dump" -"ENTE-MONOMER" "MSIPFTRWPEEFARRYREKGYWQDLPLTDILTRHAASDSIAVIDGERQLSYRELNQAADNLACSLRRQGIKPGETALVQLGNVAELYITFFALLKLGVAPVLALFSHQRSELNAYASQIEPALLIADRQHALFSGDDFLNTFVTEHSSIRVVQLLNDSGEHNLQDAINHPAEDFTATPSPADEVAYFQLSGGTTGTPKLIPRTHNDYYYSVRRSVEICQFTQQTRYLCAIPAAHNYAMSSPGSLGVFLAGGTVVLAADPSATLCFPLIEKHQVNVTALVPPAVSLWLQALIEGESRAQLASLKLLQVGGARLSATLAARIPAEIGCQLQQVFGMAEGLVNYTRLDDSAEKIIHTQGYPMCPDDEVWVADAEGNPLPQGEVGRLMTRGPYTFRGYYKSPQHNASAFDANGFYCSGDLISIDPEGYITVQGREKDQINRGGEKIAAEEIENLLLRHPAVIYAALVSMEDELMGEKSCAYLVVKEPLRAVQVRRFLREQGIAEFKLPDRVECVDSLPLTAVGKVDKKQLRQWLASRASA" "i" "EcoCyc dump" -"ENTF-MONOMER" "MSQHLPLVAAQPGIWMAEKLSELPSAWSVAHYVELTGEVDSPLLARAVVAGLAQADTLRMRFTEDNGEVWQWVDDALTFELPEIIDLRTNIDPHGTAQALMQADLQQDLRVDSGKPLVFHQLIQVADNRWYWYQRYHHLLVDGFSFPAITRQIANIYCTWLRGEPTPASPFTPFADVVEEYQQYRESEAWQRDAAFWAEQRRQLPPPASLSPAPLPGRSASADILRLKLEFTDGEFRQLATQLSGVQRTDLALALAALWLGRLCNRMDYAAGFIFMRRLGSAALTATGPVLNVLPLGIHIAAQETLPELATRLAAQLKKMRRHQRYDAEQIVRDSGRAAGDEPLFGPVLNIKVFDYQLDIPDVQAQTHTLATGPVNDLELALFPDVHGDLSIEILANKQRYDEPTLIQHAERLKMLIAQFAADPALLCGDVDIMLPGEYAQLAQLNATQVEIPETTLSALVAEQAAKTPDAPALADARYLFSYREMREQVVALANLLRERGVKPGDSVAVALPRSVFLTLALHAIVEAGAAWLPLDTGYPDDRLKMMLEDARPSLLITTDDQLPRFSDVPNLTSLCYNAPLTPQGSAPLQLSQPHHTAYIIFTSGSTGRPKGVMVGQTAIVNRLLWMQNHYPLTGEDVVAQKTPCSFDVSVWEFFWPFIAGAKLVMAEPEAHRDPLAMQQFFAEYGVTTTHFVPSMLAAFVASLTPQTARQSCATLKQVFCSGEALPADLCREWQQLTGAPLHNLYGPTEAAVDVSWYPAFGEELAQVRGSSVPIGYPVWNTGLRILDAMMHPVPPGVAGDLYLTGIQLAQGYLGRPDLTASRFIADPFAPGERMYRTGDVARWLDNGAVEYLGRSDDQLKIRGQRIELGEIDRVMQALPDVEQAVTHACVINQAAATGGDARQLVGYLVSQSGLPLDTSALQAQLRETLPPHMVPVVLLQLPQLPLSANGKLDRKALPLPELKAQAPGRAPKAGSETIIAAAFSSLLGCDVQDADADFFALGGHSLLAMKLAAQLSRQVARQVTPGQVMVASTVAKLATIIDAEEDSTRRMGFETILPLREGNGPTLFCFHPASGFAWQFSVLSRYLDPQWSIIGIQSPRPNGPMQTAANLDEVCEAHLATLLEQQPHGPYYLLGYSLGGTLAQGIAARLRARGEQVAFLGLLDTWPPETQNWQEKEANGLDPEVLAEINREREAFLAAQQGSTSTELFTTIEGNYADAVRLLTTAHSVPFDGKATLFVAERTLQEGMSPERAWSPWIAELDIYRQDCAHVDIISPGTFEKIGPIIRATLNR" "c" "Han et al., 2011" -"ENVZ-MONOMER" "MRRLRFSPRSSFARTLLLIVTLLFASLVTTYLVVLNFAILPSLQQFNKVLAYEVRMLMTDKLQLEDGTQLVVPPAFRREIYRELGISLYSNEAAEEAGLRWAQHYEFLSHQMAQQLGGPTEVRVEVNKSSPVVWLKTWLSPNIWVRVPLTEIHQGDFSPLFRYTLAIMLLAIGGAWLFIRIQNRPLVDLEHAALQVGKGIIPPPLREYGASEVRSVTRAFNHMAAGVKQLADDRTLLMAGVSHDLRTPLTRIRLATEMMSEQDGYLAESINKDIEECNAIIEQFIDYLRTGQEMPMEMADLNAVLGEVIAAESGYEREIETALYPGSIEVKMHPLSIKRAVANMVVNAARYGNGWIKVSSGTEPNRAWFQVEDDGPGIAPEQRKHLFQPFVRGDSARTISGTGLGLAIVQRIVDNHNGMLELGTSERGGLSIRAWLPVPVTRAQGTTKEG" "i" "Han et al., 2011" -"ERYTH4PDEHYDROG-MONOMER" "MTVRVAINGFGRIGRNVVRALYESGRRAEITVVAINELADAAGMAHLLKYDTSHGRFAWEVRQERDQLFVGDDAIRVLHERSLQSLPWRELGVDVVLDCTGVYGSREHGEAHIAAGAKKVLFSHPGSNDLDATVVYGVNQDQLRAEHRIVSNASCTTNCIIPVIKLLDDAYGIESGTVTTIHSAMHDQQVIDAYHPDLRRTRAASQSIIPVDTKLAAGITRFFPQFNDRFEAIAVRVPTINVTAIDLSVTVKKPVKANEVNLLLQKAAQGAFHGIVDYTELPLVSVDFNHDPHSAIVDGTQTRVSGAHLIKTLVWCDNEWGFANRMLDTTLAMATVAFR" "c" "Han et al., 2011" -"ERYTHRON4PDEHYDROG-MONOMER" "VKILVDENMPYARDLFSRLGEVTAVPGRPIPVAQLADADALMVRSVTKVNESLLAGKPIKFVGTATAGTDHVDEAWLKQAGIGFSAAPGCNAIAVVEYVFSSLLMLAERDGFSLYDRTVGIVGVGNVGRRLQARLEALGIKTLLCDPPRADRGDEGDFRSLDELVQRADILTFHTPLFKDGPYKTLHLADEKLIRSLKPGAILINACRGAVVDNTALLTCLNEGQKLSVVLDVWEGEPELNVELLKKVDIGTSHIAGYTLEGKARGTTQVFEAYSKFIGHEQHVALDTLLPAPEFGRITLHGPLDQPTLKRLVHLVYDVRRDDAPLRKVAGIPGEFDKLRKNYLERREWSSLYVICDDASAASLLCKLGFNAVHHPAR" "c" "Lopez-Campistrous et al., 2005" -"EUTB-MONOMER" "MKLKTTLFGNVYQFKDVKEVLAKANELRSGDVLAGVAAASSQERVAAKQVLSEMTVADIRNNPVIAYEDDCVTRLIQDDVNETAYNQIKNWSISELREYVLSDETSVDDIAFTRKGLTSEVVAAVAKICSNADLIYGAKKMPVIKKANTTIGIPGTFSARLQPNDTRDDVQSIAAQIYEGLSFGVGDAVIGVNPVTDDVENLSRVLDTIYGVIDKFNIPTQGCVLAHVTTQIEAIRRGAPGGLIFQSICGSEKGLKEFGVELAMLDEARAVGAEFNRIAGENCLYFETGQGSALSAGANFGADQVTMEARNYGLARHYDPFIVNTVVGFIGPEYLYNDRQIIRAGLEDHFMGKLSGISMGCDCCYTNHADADQNLNENLMILLATAGCNYIMGMPLGDDIMLNYQTTAFHDTATVRQLLNLRPSPEFERWLESMGIMANGRLTKRAGDPSLFF" "c" "Han et al., 2011" -"EUTC-MONOMER" "MDQKQIEEIVRSVMASMGQAAPAPSEAKCATTNCAAPVTSESCALDLGSAEAKAWIGVENPHRADVLTELRRSTVARVCTGRAGPRPRTQALLRFLADHSRSKDTVLKEVPEEWVKAQGLLEVRSEISDKNLYLTRPDMGRRLCAEAVEALKAQCVANPDVQVVISDGLSTDAITVNYEEILPPLMAGLKQAGLKVGTPFFVRYGRVKIEDQIGEILGAKVVILLVGERPGLGQSESLSCYAVYSPRMATTVEADRTCISNIHQGGTPPVEAAAVIVDLAKRMLEQKASGINMTR" "c" "Han et al., 2011" -"EVGA-MONOMER" "MNAIIIDDHPLAIAAIRNLLIKNDIEILAELTEGGSAVQRVETLKPDIVIIDVDIPGVNGIQVLETLRKRQYSGIIIIVSAKNDHFYGKHCADAGANGFVSKKEGMNNIIAAIEAAKNGYCYFPFSLNRFVGSLTSDQQKLDSLSKQEISVMRYILDGKDNNDIAEKMFISNKTVSTYKSRLMEKLECKSLMDLYTFAQRNKIG" "c" "Han et al., 2011" -"EVGS-MONOMER" "MKFLPYIFLLCCGLWSTISFADEDYIEYRGISSNNRVTLDPLRLSNKELRWLASKKNLVIAVHKSQTATLLHTDSQQRVRGINADYLNLLKRALNIKLTLREYADHQKAMDALAEGEVDIVLSHLVTSPPLNNDIAATKPLIITFPALVTTLHDSMRPLTSPKPVNIARVANYPPDEVIHQSFPKATIISFTNLYQALASVSAGHNDYFIGSNIITSSMISRYFTHSLNVVKYYNSPRQYNFFLTRKESVILNEVLNRFVDALTNEVRYEVSQNWLDTGNLAFLNKPLELTEHEKQWIKQHPNLKVLENPYSPPYSMTDENGSVRGVMGDILNIITLQTGLNFSPITVSHNIHAGTQLSPGGWDIIPGAIYSEDRENNVLFAEAFITTPYVFVMQKAPDSEQTLKKGMKVAIPYYYELHSQLKEMYPEVEWIQVDNASAAFHKVKEGELDALVATQLNSRYMIDHYYPNELYHFLIPGVPNASLSFAFPRGEPELKDIINKALNAIPPSEVLRLTEKWIKMPNVTIDTWDLYSEQFYIVTTLSVLLVGSSLLWGFYLLRSVRRRKVIQGDLENQISFRKALSDSLPNPTYVVNWQGNVISHNSAFEHYFTADYYKNAMLPLENSDSPFKDVFSNAHEVTAETKENRTIYTQVFEIDNGIEKRCINHWHTLCNLPASDNAVYICGWQDITETRDLINALEVEKNKAIKATVAKSQFLATMSHEIRTPISSIMGFLELLSGSGLSKEQRVEAISLAYATGQSLLGLIGEILDVDKIESGNYQLQPQWVDIPTLVQNTCHSFGAIAASKSIALSCSSTFPEHYLVKIDPQAFKQVLSNLLSNALKFTTEGAVKITTSLGHIDDNHAVIKMTIMDSGSGLSQEEQQQLFKRYSQTSAGRQQTGSGLGLMICKELIKNMQGDLSLESHPGIGTTFTITIPVEISQQVATVEAKAEQPITLPEKLSILIADDHPTNRLLLKRQLNLLGYDVDEATDGVQALHKVSMQHYDLLITDVNMPNMDGFELTRKLREQNSSLPIWGLTANAQANEREKGLSCGMNLCLFKPLTLDVLKTHLSQLHQVAHIAPQYRHLDIEALKNNTANDLQLMQEILMTFQHETHKDLPAAFQALEAGDNRTFHQCIHRIHGAANILNLQKLINISHQLEITPVSDDSKPEILQLLNSVKEHIAELDQEIAVFCQKND" "i" "Han et al., 2011" -"EXUT-MONOMER" "MATFGACRFFFGYPVVTNIFSLWRDDGRASCGYNKTMRFYMRKIKGLRWYMIALVTLGTVLGYLTRNTVAAAAPTLMEELNISTQQYSYIIAAYSAAYTVMQPVAGYVLDVLGTKIGYAMFAVLWAVFCGATALAGSWGGLAVARGAVGAAEAAMIPAGLKASSEWFPAKERSIAVGYFNVGSSIGAMIAPPLVVWAIVMHSWQMAFIISGALSFIWAMAWLIFYKHPRDQKHLTDEERDYIINGQEAQHQVSTAKKMSVGQILRNRQFWGIALPRFLAEPAWGTFNAWIPLFMFKVYGFNLKEIAMFAWMPMLFADLGCILGGYLPPLFQRWFGVNLIVSRKMVVTLGAVLMIGPGMIGLFTNPYVAIMLLCIGGFAHQALSGALITLSSDVFGRNEVATANGLTGMSAWLASTLFALVVGALADTIGFSPLFAVLAVFDLLGALVIWTVLQNKPAIEVAQETHNDPAPQH" "i" "Han et al., 2011" -"F16B-MONOMER" "MKTLGEFIVEKQHEFSHATGELTALLSAIKLGAKIIHRDINKAGLVDILGASGAENVQGEVQQKLDLFANEKLKAALKARDIVAGIASEEEDEIVVFEGCEHAKYVVLMDPLDGSSNIDVNVSVGTIFSIYRRVTPVGTPVTEEDFLQPGNKQVAAGYVVYGSSTMLVYTTGCGVHAFTYDPSLGVFCLCQERMRFPEKGKTYSINEGNYIKFPNGVKKYIKFCQEEDKSTNRPYTSRYIGSLVADFHRNLLKGGIYLYPSTASHPDGKLRLLYECNPMAFLAEQAGGKASDGKERILDIIPETLHQRRSFFVGNDHMVEDVERFIREFPDA" "c" "Lopez-Campistrous et al., 2005" -"FABA-MONOMER" "MVDKRESYTKEDLLASGRGELFGAKGPQLPAPNMLMMDRVVKMTETGGNFDKGYVEAELDINPDLWFFGCHFIGDPVMPGCLGLDAMWQLVGFYLGWLGGEGKGRALGVGEVKFTGQVLPTAKKVTYRIHFKRIVNRRLIMGLADGEVLVDGRLIYTASDLKVGLFQDTSAF" "c" "Han et al., 2011" -"FABB-MONOMER" "MKRAVITGLGIVSSIGNNQQEVLASLREGRSGITFSQELKDSGMRSHVWGNVKLDTTGLIDRKVVRFMSDASIYAFLSMEQAIADAGLSPEAYQNNPRVGLIAGSGGGSPRFQVFGADAMRGPRGLKAVGPYVVTKAMASGVSACLATPFKIHGVNYSISSACATSAHCIGNAVEQIQLGKQDIVFAGGGEELCWEMACEFDAMGALSTKYNDTPEKASRTYDAHRDGFVIAGGGGMVVVEELEHALARGAHIYAEIVGYGATSDGADMVAPSGEGAVRCMKMAMHGVDTPIDYLNSHGTSTPVGDVKELAAIREVFGDKSPAISATKAMTGHSLGAAGVQEAIYSLLMLEHGFIAPSINIEELDEQAAGLNIVTETTDRELTTVMSNSFGFGGTNATLVMRKLKD" "c" "Lopez-Campistrous et al., 2005" -"FABH-MONOMER" "MYTKIIGTGSYLPEQVRTNADLEKMVDTSDEWIVTRTGIRERHIAAPNETVSTMGFEAATRAIEMAGIEKDQIGLIVVATTSATHAFPSAACQIQSMLGIKGCPAFDVAAACAGFTYALSVADQYVKSGAVKYALVVGSDVLARTCDPTDRGTIIIFGDGAGAAVLAASEEPGIISTHLHADGSYGELLTLPNADRVNPENSIHLTMAGNEVFKVAVTELAHIVDETLAANNLDRSQLDWLVPHQANLRIISATAKKLGMSMDNVVVTLDRHGNTSAASVPCALDEAVRDGRIKPGQLVLLEAFGGGFTWGSALVRF" "c" "Lopez-Campistrous et al., 2005" -"FABZ-MONOMER" "LTTNTHTLQIEEILELLPHRFPFLLVDRVLDFEEGRFLRAVKNVSVNEPFFQGHFPGKPIFPGVLILEAMAQATGILAFKSVGKLEPGELYYFAGIDEARFKRPVVPGDQMIMEVTFEKTRRGLTRFKGVALVDGKVVCEATMMCARSREA" "c" "EcoCyc dump" -"FADA-MONOMER" "MEQVVIVDAIRTPMGRSKGGAFRNVRAEDLSAHLMRSLLARNPALEAAALDDIYWGCVQQTLEQGFNIARNAALLAEVPHSVPAVTVNRLCGSSMQALHDAARMIMTGDAQACLVGGVEHMGHVPMSHGVDFHPGLSRNVAKAAGMMGLTAEMLARMHGISREMQDAFAARSHARAWAATQSAAFKNEIIPTGGHDADGVLKQFNYDEVIRPETTVEALATLRPAFDPVNGMVTAGTSSALSDGAAAMLVMSESRAHELGLKPRARVRSMAVVGCDPSIMGYGPVPASKLALKKAGLSASDIGVFEMNEAFAAQILPCIKDLGLIEQIDEKINLNGGAIALGHPLGCSGARISTTLLNLMERKDVQFGLATMCIGLGQGIATVFERV" "c" "Han et al., 2011" -"FADB-MONOMER" "MLYKGDTLYLDWLEDGIAELVFDAPGSVNKLDTATVASLGEAIGVLEQQSDLKGLLLRSNKAAFIVGADITEFLSLFLVPEEQLSQWLHFANSVFNRLEDLPVPTIAAVNGYALGGGCECVLATDYRLATPDLRIGLPETKLGIMPGFGGSVRMPRMLGADSALEIIAAGKDVGADQALKIGLVDGVVKAEKLVEGAKAVLRQAINGDLDWKAKRQPKLEPLKLSKIEATMSFTIAKGMVAQTAGKHYPAPITAVKTIEAAARFGREEALNLENKSFVPLAHTNEARALVGIFLNDQYVKGKAKKLTKDVETPKQAAVLGAGIMGGGIAYQSAWKGVPVVMKDINDKSLTLGMTEAAKLLNKQLERGKIDGLKLAGVISTIHPTLDYAGFDRVDIVVEAVVENPKVKKAVLAETEQKVRQDTVLASNTSTIPISELANALERPENFCGMHFFNPVHRMPLVEIIRGEKSSDETIAKVVAWASKMGKTPIVVNDCPGFFVNRVLFPYFAGFSQLLRDGADFRKIDKVMEKQFGWPMGPAYLLDVVGIDTAHHAQAVMAAGFPQRMQKDYRDAIDALFDANRFGQKNGLGFWRYKEDSKGKPKKEEDAAVEDLLAEVSQPKRDFSEEEIIARMMIPMVNEVVRCLEEGIIATPAEADMALVYGLGFPPFHGGAFRWLDTLGSAKYLDMAQQYQHLGPLYEVPEGLRNKARHNEPYYPPVEPARPVGDLKTA" "c" "EcoCyc dump" -"FCL-MONOMER" "MSKQRVFIAGHRGMVGSAIRRQLEQRGDVELVLRTRDELNLLDSRAVHDFFASERIDQVYLAAAKVGGIVANNTYPADFIYQNMMIESNIIHAAHQNDVNKLLFLGSSCIYPKLAKQPMAESELLQGTLEPTNEPYAIAKIAGIKLCESYNRQYGRDYRSVMPTNLYGPHDNFHPSNSHVIPALLRRFHEATAQNAPDVVVWGSGTPMREFLHVDDMAAASIHVMELAHEVWLENTQPMLSHINVGTGVDCTIRELAQTIAKVVGYKGRVVFDASKPDGTPRKLLDVTRLHQLGWYHEISLEAGLASTYQWFLENQDRFRG" "c" "Han et al., 2011" -"FDNG-MONOMER" "MDVSRRQFFKICAGGMAGTTVAALGFAPKQALAQARNYKLLRAKEIRNTCTYCSVGCGLLMYSLGDGAKNAREAIYHIEGDPDHPVSRGALCPKGAGLLDYVNSENRLRYPEYRAPGSDKWQRISWEEAFSRIAKLMKADRDANFIEKNEQGVTVNRWLSTGMLCASGASNETGMLTQKFARSLGMLAVDNQARVUHGPTVASLAPTFGRGAMTNHWVDIKNANVVMVMGGNAAEAHPVGFRWAMEAKNNNDATLIVVDPRFTRTASVADIYAPIRSGTDITFLSGVLRYLIENNKINAEYVKHYTNASLLVRDDFAFEDGLFSGYDAEKRQYDKSSWNYQLDENGYAKRDETLTHPRCVWNLLKEHVSRYTPDVVENICGTPKADFLKVCEVLASTSAPDRTTTFLYALGWTQHTVGAQNIRTMAMIQLLLGNMGMAGGGVNALRGHSNIQGLTDLGLLSTSLPGYLTLPSEKQVDLQSYLEANTPKATLADQVNYWSNYPKFFVSLMKSFYGDAAQKENNWGYDWLPKWDQTYDVIKYFNMMDEGKVTGYFCQGFNPVASFPDKNKVVSCLSKLKYMVVIDPLVTETSTFWQNHGESNDVDPASIQTEVFRLPSTCFAEEDGSIANSGRWLQWHWKGQDAPGEARNDGEILAGIYHHLRELYQSEGGKGVEPLMKMSWNYKQPHEPQSDEVAKENNGYALEDLYDANGVLIAKKGQLLSSFAHLRDDGTTASSCWIYTGSWTEQGNQMANRDNSDPSGLGNTLGWAWAWPLNRRVLYNRASADINGKPWDPKRMLIQWNGSKWTGNDIPDFGNAAPGTPTGPFIMQPEGMGRLFAINKMAEGPFPEHYEPIETPLGTNPLHPNVVSNPVVRLYEQDALRMGKKEQFPYVGTTYRLTEHFHTWTKHALLNAIAQPEQFVEISETLAAAKGINNGDRVTVSSKRGFIRAVAVVTRRLKPLNVNGQQVETVGIPIHWGFEGVARKGYIANTLTPNVGDANSQTPEYKAFLVNIEKA" "p" "Han et al., 2011" -"FDNH-MONOMER" "MAMETQDIIKRSATNSITPPSQVRDYKAEVAKLIDVSTCIGCKACQVACSEWNDIRDEVGHCVGVYDNPADLSAKSWTVMRFSETEQNGKLEWLIRKDGCMHCEDPGCLKACPSAGAIIQYANGIVDFQSENCIGCGYCIAGCPFNIPRLNKEDNRVYKCTLCVDRVSVGQEPACVKTCPTGAIHFGTKKEMLELAEQRVAKLKARGYEHAGVYNPEGVGGTHVMYVLHHADQPELYHGLPKDPKIDTSVSLWKGALKPLAAAGFIATFAGLIFHYIGIGPNKEVDDDEEDHHE" "i" "Han et al., 2011" -"FDNI-MONOMER" "MSKSKMIVRTKFIDRACHWTVVICFFLVALSGISFFFPTLQWLTQTFGTPQMGRILHPFFGIAIFVALMFMFVRFVHHNIPDKKDIPWLLNIVEVLKGNEHKVADVGKYNAGQKMMFWSIMSMIFVLLVTGVIIWRPYFAQYFPMQVVRYSLLIHAAAGIILIHAILIHMYMAFWVKGSIKGMIEGKVSRRWAKKHHPRWYREIEKAEAKKESEEGI" "i" "Han et al., 2011" -"FDOG-MONOMER" "MQVSRRQFFKICAGGMAGTTAAALGFAPSVALAETRQYKLLRTRETRNTCTYCSVGCGLLMYSLGDGAKNAKASIFHIEGDPDHPVNRGALCPKGAGLVDFIHSESRLKFPEYRAPGSDKWQQISWEEAFDRIAKLMKEDRDANYIAQNAEGVTVNRWLSTGMLCASASSNETGYLTQKFSRALGMLAVDNQARVUHGPTVASLAPTFGRGAMTNHWVDIKNANLVVVMGGNAAEAHPVGFRWAMEAKIHNGAKLIVIDPRFTRTAAVADYYAPIRSGTDIAFLSGVLLYLLNNEKFNREYTEAYTNASLIVREDYGFEDGLFTGYDAEKRKYDKSSWTYELDENGFAKRDTTLQHPRCVWNLLKQHVSRYTPDVVENICGTPKDAFLKVCEYIAETSAHDKTASFLYALGWTQHSVGAQNIRTMAMIQLLLGNMGMAGGGVNALRGHSNIQGLTDLGLLSQSLPGYMTLPSEKQTDLQTYLTANTPKPLLEGQVNYWGNYPKFFVSMMKAFFGDKATAENSWGFDWLPKWDKGYDVLQYFEMMKEGKVNGYICQGFNPVASFPNKNKVIGCLSKLKFLVTIDPLNTETSNFWQNHGELNEVDSSKIQTEVFRLPSTCFAEENGSIVNSGRWLQWHWKGADAPGIALTDGEILSGIFLRLRKMYAEQGGANPDQVLNMTWNYAIPHEPSSEEVAMESNGKALADITDPATGAVIVKKGQQLSSFAQLRDDGTTSCGCWIFAGSWTPEGNQMARRDNADPSGLGNTLGWAWAWPLNRRILYNRASADPQGNPWDPKRQLLKWDGTKWTGWDIPDYSAAPPGSGVGPFIMQQEGMGRLFALDKMAEGPFPEHYEPFETPLGTNPLHPNVISNPAARIFKDDAEALGKADKFPYVGTTYRLTEHFHYWTKHALLNAILQPEQFVEIGESLANKLGIAQGDTVKVSSNRGYIKAKAVVTKRIRTLKANGKDIDTIGIPIHWGYEGVAKKGFIANTLTPFVGDANTQTPEFKSFLVNVEKV" "c" "EcoCyc dump" -"FDOH-MONOMER" "MAYQSQDIIRRSATNGLTPAPQARDFQEEVAKLIDVTTCIGCKACQVACSEWNDIRDTVGNNIGVYDNPNDLSAKSWTVMRFSEVEQNDKLEWLIRKDGCMHCSDPGCLKACPAEGAIIQYANGIVDFQSEQCIGCGYCIAGCPFDIPRLNPEDNRVYKCTLCVDRVVVGQEPACVKTCPTGAIHFGTKESMKTLASERVAELKTRGYDNAGLYDPAGVGGTHVMYVLHHADKPNLYHGLPENPEISETVKFWKGIWKPLAAVGFAATFAASIFHYVGVGPNRADEEENNLHEEKDEERK" "i" "Han et al., 2011" -"FDOI-MONOMER" "MKRRDTIVRYTAPERINHWITAFCFILAAVSGLGFLFPSFNWLMQIMGTPQLARILHPFVGVVMFASFIIMFFRYWHHNLINRDDIFWAKNIRKIVVNEEVGDTGRYNFGQKCVFWAAIIFLVLLLVSGVIIWRPYFAPAFSIPVIRFALMLHSFAAVALIVVIMVHIYAALWVKGTITAMVEGWVTSAWAKKHHPRWYREVRKTTEKKAE" "i" "Han et al., 2011" -"FECB-MONOMER" "MLAFIRFLFAGLLLVISHAFAATVQDEHGTFTLEKTPQRIVVLELSFADALAAVDVIPIGIADDNDAKRILPEVRAHLKPWQSVGTRAQPSLEAIAALKPDLIIADSSRHAGVYIALQQIAPVLLLKSRNETYAENLQSAAIIGEMVGKKREMQARLEQHKERMAQWASQLPKGTRVAFGTSREQQFNLHTQETWTGSVLASLGLNVPAAMAGASMPSIGLEQLLAVNPAWLLVAHYREESIVKRWQQDPLWQMLTAAQKQQVASVDSNTWARMRGIFAAERIAADTVKIFHHQPLTVVK" "p" "Han et al., 2011" -"FECC-MONOMER" "MTAIKHPVLLWGLPVAALIIIFWLSLFCYSAIPVSGADATRALLPGHTPTLPEALVQNLRLPRSLVAVLIGASLALAGTLLQTLTHNPMASPSLLGINSGAALAMALTSALSPTPIAGYSLSFIAACGGGVSWLLVMTAGGGFRHTHDRNKLILAGIALSAFCMGLTRITLLLAEDHAYGIFYWLAGGVSHARWQDVWQLLPVVVTAVPVVLLLANQLNLLNLSDSTAHTLGVNLTRLRLVINMLVLLLVGACVSVAGPVAFIGLLVPHLARFWAGFDQRNVLPVSMLLGATLMLLADVLARALAFPGDLPAGAVLALIGSPCFVWLVRRRG" "i" "Han et al., 2011" -"FECD-MONOMER" "MKIALVIFITLALAGCALLSLHMGVIPVPWRALLTDWQAGHEHYYVLMEYRLPRLLLALFVGAALAVAGVLIQGIVRNPLASPDILGVNHAASLASVGALLLMPSLPVMVLPLLAFAGGMAGLILLKMLAKTHQPMKLALTGVALSACWASLTDYLMLSRPQDVNNALLWLTGSLWGRDWSFVKIAIPLMILFLPLSLSFCRDLDLLALGDARATTLGVSVPHTRFWALLLAVAMTSTGVAACGPISFIGLVVPHMMRSITGGRHRRLLPVSALTGALLLVVADLLARIIHPPLELPVGVLTAIIGAPWFVWLLVRMR" "i" "Han et al., 2011" -"FECE-MONOMER" "MTLRTENLTVSYGTDKVLNDVSLSLPTGKITALIGPNGCGKSTLLNCFSRLLMPQSGTVFLGDNPINMLSSRQLARRLSLLPQHHLTPEGITVQELVSYGRNPWLSLWGRLSAEDNARVNVAMNQTRINHLAVRRLTELSGGQRQRAFLAMVLAQNTPVVLLDEPTTYLDINHQVDLMRLMGELRTQGKTVVAVLHDLNQASRYCDQLVVMANGHVMAQGTPEEVMTPGLLRTVFSVEAEIHPEPVSGRPMCLMR" "i" "EcoCyc dump" -"FEOB-MONOMER" "MKKLTIGLIGNPNSGKTTLFNQLTGSRQRVGNWAGVTVERKEGQFSTTDHQVTLVDLPGTYSLTTISSQTSLDEQIACHYILSGDADLLINVVDASNLERNLYLTLQLLELGIPCIVALNMLDIAEKQNIRIEIDALSARLGCPVIPLVSTRGRGIEALKLAIDRYKANENVELVHYAQPLLNEADSLAKVMPSDIPLKQRRWLGLQMLEGDIYSRAYAGEASQHLDAALARLRNEMDDPALHIADARYQCIAAICDVVSNTLTAEPSRFTTAVDKIVLNRFLGLPIFLFVMYLMFLLAINIGGALQPLFDVGSVALFVHGIQWIGYTLHFPDWLTIFLAQGLGGGINTVLPLVPQIGMMYLFLSFLEDSGYMARAAFVMDRLMQALGLPGKSFVPLIVGFGCNVPSVMGARTLDAPRERLMTIMMAPFMSCGARLAIFAVFAAAFFGQNGALAVFSLYMLGIVMAVLTGLMLKYTIMRGEATPFVMELPVYHVPHVKSLIIQTWQRLKGFVLRAGKVIIIVSIFLSAFNSFSLSGKIVDNINDSALASVSRVITPVFKPIGVHEDNWQATVGLFTGAMAKEVVVGTLNTLYTAENIQDEEFNPAEFNLGEELFSAIDETWQSLKDTFSLSVLMNPIEASKGDGEMGTGAMGVMDQKFGSAAAAYSYLIFVLLYVPCISVMGAIARESSRGWMGFSILWGLNIAYSLATLFYQVASYSQHPTYSLVCILAVILFNIVVIGLLRRARSRVDIELLATRKSVSSCCAASTTGDCH" "i" "Han et al., 2011" -"FEPB-MONOMER" "VRLAPLYRNALLLTGLLLSGIAAVQAADWPRQITDSRGTHTLESQPQRIVSTSVTLTGSLLAIDAPVIASGATTPNNRVADDQGFLRQWSKVAKERKLQRLYIGEPSAEAVAAQMPDLILISATGGDSALALYDQLSTIAPTLIINYDDKSWQSLLTQLGEITGHEKQAAERIAQFDKQLAAAKEQIKLPPQPVTAIVYTAAAHSANLWTPESAQGQMLEQLGFTLAKLPAGLNASQSQGKRHDIIQLGGENLAAGLNGESLFLFAGDQKDADAIYANPLLAHLPAVQNKQVYALGTETFRLDYYSAMQVLDRLKALF" "i" "EcoCyc dump" -"FEPC-MONOMER" "MTESVARLRGEQLTLGYGKYTVAENLTVEIPDGHFTAIIGPNGCGKSTLLRTLSRLMTPAHGHVWLDGEHIQHYASKEVARRIGLLAQNATTPGDITVQELVARGRYPHQPLFTRWRKEDEEAVTKAMQATGITHLADQSVDTLSGGQRQRAWIAMVLAQETAIMLLDEPTTWLDISHQIDLLELLSELNREKGYTLAAVLHDLNQACRYASHLIALREGKIVAQGAPKEIVTAELIERIYGLRCMIIDDPVAGTPLVVPLGRTAPSTANS" "i" "EcoCyc dump" -"FEPD-MONOMER" "MSGSVAVTRAIAVPGLLLLLIIATALSLLIGAKSLPASVVLEAFSGTCQSADCTIVLDARLPRTLAGLLAGGALGLAGALMQTLTRNPLADPGLLGVNAGASFAIVLGAALFGYSSAQEQLAMAFAGALVASLIVAFTGSQGGGQLSPVRLTLAGVALAAVLEGLTSGIALLNPDVYDQLRFWQAGSLDIRNLHTLKVVLIPVLIAGATALLLSRALNSLSLGSDTATALGSRVARTQLIGLLAITVLCGSATAIVGPIAFIGLMMPHMARWLVGADHRWSLPVTLLATPALLLFADIIGRVIVPGELRVSVVSAFIGAPVLIFLVRRKTRGGA" "i" "Han et al., 2011" -"FEPG-MONOMER" "MIYVSRRLLITCLLLVSACVVAGIWGLRSGAVTLETSQVFAALMGDAPRSMTMVVTEWRLPRVLMALLIGAALGVSGAIFQSLMRNPLGSPDVMGFNTGAWSGVLVAMVLFGQDLTAIALSAMVGGIVTSLLVWLLAWRNGIDTFRLIIIGIGVRAMLVAFNTWLLLKASLETALTAGLWNAGSLNGLTWAKTSPSAPIIILMLIAAALLVRRMRLLEMGDDTACALGVSVERSRLLMMLVAVVLTAAATALAGPISFIALVAPHIARRISGTARWGLTQAALCGALLLLAADLCAQQLFMPYQLPVGVVTVSLGGIYLIVLLIQESRKK" "i" "Han et al., 2011" -"FERREDOXIN-MONOMER" "MPKIVILPHQDLCPDGAVLEANSGETILDAALRNGIEIEHACEKSCACTTCHCIVREGFDSLPESSEQEDDMLDKAWGLEPESRLSCQARVTDEDLVVEIPRYTINHAREH" "c" "Han et al., 2011" -"FGAMSYN-MONOMER" "MMEILRGSPALSAFRINKLLARFQAARLPVHNIYAEYVHFADLNAPLNDDEHAQLERLLKYGPALASHAPQGKLLLVTPRPGTISPWSSKATDIAHNCGLQQVNRLERGVAYYIEAGTLTNEQWQQVTAELHDRMMETVFFALDDAEQLFAHHQPTPVTSVDLLGQGRQALIDANLRLGLALAEDEIDYLQDAFTKLGRNPNDIELYMFAQANSEHCRHKIFNADWVIDGEQQPKSLFKMIKNTFETTPDHVLSAYKDNAAVMEGSEVGRYFADHETGRYDFHQEPAHILMKVETHNHPTAISPWPGAATGSGGEIRDEGATGRGAKPKAGLVGFSVSNLRIPGFEQPWEEDFGKPERIVTALDIMTEGPLGGAAFNNEFGRPALNGYFRTYEEKVNSHNGEELRGYHKPIMLAGGIGNIRADHVQKGEINVGAKLVVLGGPAMNIGLGGGAASSMASGQSDADLDFASVQRDNPEMERRCQEVIDRCWQLGDANPILFIHDVGAGGLSNAMPELVSDGGRGGKFELREILSDEPGMSPLEIWCNESQERYVLAVAADQLPLFDELCKRERAPYAVIGEATEELHLSLHDRHFDNQPIDLPLDVLLGKTPKMTRDVQTLKAKGDALAREGITIADAVKRVLHLPTVAEKTFLVTIGDRSVTGMVARDQMVGPWQVPVANCAVTTASLDSYYGEAMAIGERAPVALLDFAASARLAVGEALTNIAATQIGDIKRIKLSANWMAAAGHPGEDAGLYEAVKAVGEELCPALGLTIPVGKDSMSMKTRWQEGNEEREMTSPLSLVISAFARVEDVRHTITPQLSTEDNALLLIDLGKGNNALGATALAQVYRQLGDKPADVRDVAQLKGFYDAIQALVAQRKLLAYHDRSDGGLLVTLAEMAFAGHCGIDADIATLGDDRLAALFNEELGAVIQVRAADREAVESVLAQHGLADCVHYVGQAVSGDRFVITANGQTVFSESRTTLRVWWAETTWQMQRLRDNPECADQEHQAKSNDADPGLNVKLSFDINEDVAAPYIATGARPKVAVLREQGVNSHVEMAAAFHRAGFDAIDVHMSDLLTGRTGLEDFHALVACGGFSYGDVLGAGEGWAKSILFNDRVRDEFATFFHRPQTLALGVCNGCQMMSNLRELIPGSELWPRFVRNTSDRFEARFSLVEVTQSPSLLLQGMVGSQMPIAVSHGEGRVEVRDAAHLAALESKGLVALRYVDNFGKVTETYPANPNGSPNGITAVTTESGRVTIMMPHPERVFRTVSNSWHPENWGEDGPWMRIFRNARKQLG" "c" "Han et al., 2011" -"FHUB-MONOMER" "VSKRIALFPALLLALLVIVATALTWMNFSQALPRSQWAQAAWSPDIDVIEQMIFHYSLLPRLAISLLVGAGLGLVGVLFQQVLRNPLAEPTTLGVATGAQLGITVTTLWAIPGAMASQFAAQAGACVVGLIVFGVAWGKRLSPVTLILAGLVVSLYCGAINQLLVIFHHDQLQSMFLWSTGTLTQTDWGGVERLWPQLLGGVMLTLLLLRPLTLMGLDDGVARNLGLALSLARLAALSLAIVISALLVNAVGIIGFIGLFAPLLAKMLGARRLLPRLMLASLIGALILWLSDQIILWLTRVWMEVSTGSVTALIGAPLLLWLLPRLRSISAPDMKVNDRVAAERQHVLAFALAGGVLLLMAVVVALSFGRDAHGWTWASGALLEDLMPWRWPRIMAALFAGVMLAVAGCIIQRLTGNPMASPEVLGISSGAAFGVVLMLFLVPGNAFGWLLPAGSLGAAVTLLIIMIAAGRGGFSPHRMLLAGMALSTAFTMLLMMLQASGDPRMAQVLTWISGSTYNATDAQVWRTGIVMVILLAITPLCRRWLTILPLGGDTARAVGMALTPTRIALLLLAACLTATATMTIGPLSFVGLMAPHIARMMGFRRTMPHIVISALVGGLLLVFADWCGRMVLFPFQIPAGLLSTFIGAPYFIYLLRKQSR" "i" "Han et al., 2011" -"FHUC-MONOMER" "MQEYTNHSDTTFALRNISFRVPGRTLLHPLSLTFPAGKVTGLIGHNGSGKSTLLKMLGRHQPPSEGEILLDAQPLESWSSKAFARKVAYLPQQLPPAEGMTVRELVAIGRYPWHGALGRFGAADREKVEEAISLVGLKPLAHRLVDSLSGGERQRAWIAMLVAQDSRCLLLDEPTSALDIAHQVDVLSLVHRLSQERGLTVIAVLHDINMAARYCDYLVALRGGEMIAQGTPAEIMRGETLEMIYGIPMGILPHPAGAAPVSFVY" "i" "EcoCyc dump" -"FHUD-MONOMER" "MSGLPLISRRRLLTAMALSPLLWQMNTAHAAAIDPNRIVALEWLPVELLLALGIVPYGVADTINYRLWVSEPPLPDSVIDVGLRTEPNLELLTEMKPSFMVWSAGYGPSPEMLARIAPGRGFNFSDGKQPLAMARKSLTEMADLLNLQSAAETHLAQYEDFIRSMKPRFVKRGARPLLLTTLIDPRHMLVFGPNSLFQEILDEYGIPNAWQGETNFWGSTAVSIDRLAAYKDVDVLCFDHDNSKDMDALMATPLWQAMPFVRAGRFQRVPAVWFYGATLSAMHFVRVLDNAIGGKA" "p" "Han et al., 2011" -"FLAVODOXIN1-MONOMER" "MAITGIFFGSDTGNTENIAKMIQKQLGKDVADVHDIAKSSKEDLEAYDILLLGIPTWYYGEAQCDWDDFFPTLEEIDFNGKLVALFGCGDQEDYAEYFCDALGTIRDIIEPRGATIVGHWPTAGYHFEASKGLADDDHFVGLAIDEDRQPELTAERVEKWVKQISEELHLDEILNA" "c" "Lopez-Campistrous et al., 2005" -"FLAVODOXIN2-MONOMER" "MNMGLFYGSSTCYTEMAAEKIRDIIGPELVTLHNLKDDSPKLMEQYDVLILGIPTWDFGEIQEDWEAVWDQLDDLNLEGKIVALYGLGDQLGYGEWFLDALGMLHDKLSTKGVKFVGYWPTEGYEFTSPKPVIADGQLFVGLALDETNQYDLSDERIQSWCEQILNEMAEHYA" "c" "Han et al., 2011" -"FLAVONADPREDUCT-MONOMER" "MADWVTGKVTKVQNWTDALFSLTVHAPVLPFTAGQFTKLGLEIDGERVQRAYSYVNSPDNPDLEFYLVTVPDGKLSPRLAALKPGDEVQVVSEAAGFFVLDEVPHCETLWMLATGTAIGPYLSILQLGKDLDRFKNLVLVHAARYAADLSYLPLMQELEKRYEGKLRIQTVVSRETAAGSLTGRIPALIESGELESTIGLPMNKETSHVMLCGNPQMVRDTQQLLKETRQMTKHLRRRPGHMTAEHYW" "c" "Han et al., 2011" -"FLGB-FLAGELLAR-MOTOR-ROD-PROTEIN" "MLDKLDAALRFQQEALNLRAQRQEVLAANIANADTPGYQARDIDFASELKKVMQRGRDATSVVALTMTSTQHIPAQALTPPTAELQYRIPDQPSLDGNTVDMDRERTQFADNSLQYQMSLSALSGQIKGMMNVLQSGN" "s" "EcoCyc dump" -"FLGC-FLAGELLAR-MOTOR-ROD-PROTEIN" "MALLNIFDIAGSALTAQSQRLNVAASNLANADSVTGPDGQPYRAKQVVFQVNAAPGAATGGVKVADVIESQAPDKLVYEPGNPLADAKGYVKMPNVDVVGEMVNTMSASRSYQANVEVLNTVKSMMLKTLTLGQ" "s" "EcoCyc dump" -"FLGF-FLAGELLAR-MOTOR-ROD-PROTEIN" "MDHAIYTAMGAASQTLNQQAVTASNLANASTPGFRAQLNALRAVPVEGLSLPTRTLVTASTPGADMTPGKMDYTSRPLDVALQQDGWLAVQTADGSEGYTRNGSIQVDPTGQLTIQGHPVIGEAGPIAVPEGAEITIAADGTISALNPGDPANTVAPVGRLKLVKATGSEVQRGDDGIFRLSAETQATRGPVLQADPTLRVMSGVLEGSNVNAVAAMSDMIASARRFEMQMKVISSVDDNAGRANQLLSMS" "s" "EcoCyc dump" -"FLGG-FLAGELLAR-MOTOR-ROD-PROTEIN" "MISSLWIAKTGLDAQQTNMDVIANNLANVSTNGFKRQRAVFEDLLYQTIRQPGAQSSEQTTLPSGLQIGTGVRPVATERLHSQGNLSQTNNSKDVAIKGQGFFQVMLPDGSSAYTRDGSFQVDQNGQLVTAGGFQVQPAITIPANALSITIGRDGVVSVTQQGQAAPVQVGQLNLTTFMNDTGLESIGENLYTETQSSGAPNESTPGLNGAGLLYQGYVETSNVNVAEELVNMIQVQRAYEINSKAVSTTDQMLQKLTQL" "s" "EcoCyc dump" -"FLGH-FLAGELLAR-L-RING" "MQKNAAHTYAISSLLVLSLTGCAWIPSTPLVQGATSAQPVPGPTPVANGSIFQSAQPINYGYQPLFEDRRPRNIGDTLTIVLQENVSASKSSSANASRDGKTNFGFDTVPRYLQGLFGNARADVEASGGNTFNGKGGANASNTFSGTLTVTVDQVLVNGNLHVVGEKQIAINQGTEFIRFSGVVNPRTISGSNTVPSTQVADARIEYVGNGYINEAQNMGWLQRFFLNLSPM" "s" "EcoCyc dump" -"FLGI-FLAGELLAR-P-RING" "VIKFLSALILLLVTTAAQAERIRDLTSVQGVRQNSLIGYGLVVGLDGTGDQTTQTPFTTQTLNNMLSQLGITVPTGTNMQLKNVAAVMVTASLPPFGRQGQTIDVVVSSMGNAKSLRGGTLLMTPLKGVDSQVYALAQGNILVGGAGASAGGSSVQVNQLNGGRITNGAVIERELPSQFGVGNTLNLQLNDEDFSMAQQIADTINRVRGYGSATALDARTIQVRVPSGNSSQVRFLADIQNMQVNVTPQDAKVVINSRTGSVVMNREVTLDSCAVAQGNLSVTVNRQANVSQPDTPFGGGQTVVTPQTQIDLRQSGGSLQSVRSSASLNNVVRALNALGATPMDLMSILQSMQSAGCLRAKLEII" "s" "EcoCyc dump" -"FLIF-FLAGELLAR-MS-RING" "MNATAAQTKSLEWLNRLRANPKIPLIVAGSAAVAVMVALILWAKAPDYRTLFSNLSDQDGGAIVSQLTQMNIPYRFSEASGAIEVPADKVHELRLRLAQQGLPKGGAVGFELLDQEKFGISQFSEQVNYQRALEGELSRTIETIGPVKGARVHLAMPKPSLFVREQKSPSASVTVNLLPGRALDEGQISAIVHLVSSAVAGLPPGNVTLVDQGGHLLTQSNTSGRDLNDAQLKYASDVEGRIQRRIEAILSPIVGNGNIHAQVTAQLDFASKEQTEEQYRPNGDESHAALRSRQLNESEQSGSGYPGGVPGALSNQPAPANNAPISTPPANQNNRQQQASTTSNSGPRSTQRNETSNYEVDRTIRHTKMNVGDVQRLSVAVVVNYKTLPDGKPLPLSNEQMKQIEDLTREAMGFSEKRGDSLNVVNSPFNSSDESGGELPFWQQQAFIDQLLAAGRWLLVLLVAWLLWRKAVRPQLTRRAEAMKAVQQQAQAREEVEDAVEVRLSKDEQLQQRRANQRLGAEVMSQRIREMSDNDPRVVALVIRQWINNDHE" "s" "EcoCyc dump" -"FLIG-FLAGELLAR-SWITCH-PROTEIN" "MSNLTGTDKSVILLMTIGEDRAAEVFKHLSQREVQTLSAAMANVTQISNKQLTDVLAEFEQEAEQFAALNINANDYLRSVLVKALGEERAASLLEDILETRDTASGIETLNFMEPQSAADLIRDEHPQIIATILVHLKRAQAADILALFDERLRHDVMLRIATFGGVQPAALAELTEVLNGLLDGQNLKRSKMGGVRTAAEIINLMKTQQEEAVITAVREFDGELAQKIIDEMFLFENLVDVDDRSIQRLLQEVDSESLLIALKGAEQPLREKFLRNMSQRAADILRDDLANRGPVRLSQVENEQKAILLIVRRLAETGEMVIGSGEDTYV" "s" "EcoCyc dump" -"FLIM-FLAGELLAR-C-RING-SWITCH" "MGDSILSQAEIDALLNGDSEVKDEPTASVSGESDIRPYDPNTQRRVVRERLQALEIINERFARHFRMGLFNLLRRSPDITVGAIRIQPYHEFARNLPVPTNLNLIHLKPLRGTGLVVFSPSLVFIAVDNLFGGDGRFPTKVEGREFTHTEQRVINRMLKLALEGYSDAWKAINPLEVEYVRSEMQVKFTNITTSPNDIVVNTPFHVEIGNLTGEFNICLPFSMIEPLRELLVNPPLENSRNEDQNWRDNLVRQVQHSQLELVANFADISLRLSQILKLNPGDVLPIEKPDRIIAHVDGVPVLTSQYGTLNGQYALRIEHLINPILNSLNEEQPK" "s" "EcoCyc dump" -"FLIN-FLAGELLAR-C-RING-SWITCH" "MSDMNNPADDNNGAMDDLWAEALSEQKSTSSKSAAETVFQQFGGGDVSGTLQDIDLIMDIPVKLTVELGRTRMTIKELLRLTQGSVVALDGLAGEPLDILINGYLIAQGEVVVVADKYGVRITDIITPSERMRRLSR" "s" "EcoCyc dump" -"FMNREDUCT-MONOMER" "MTTLSCKVTSVEAITDTVYRVRIVPDAAFSFRAGQYLMVVMDERDKRPFSMASTPDEKGFIELHIGASEINLYAKAVMDRILKDHQIVVDIPHGEAWLRDDEERPMILIAGGTGFSYARSILLTALARNPNRDITIYWGGREEQHLYDLCELEALSLKHPGLQVVPVVEQPEAGWRGRTGTVLTAVLQDHGTLAEHDIYIAGRFEMAKIARDLFCSERNAREDRLFGDAFAFI" "c" "Han et al., 2011" -"FOCA-MONOMER" "VKADNPFDLLLPAAMAKVAEEAGVYKATKHPLKTFYLAITAGVFISIAFVFYITATTGTGTMPFGMAKLVGGICFSLGLILCVVCGADLFTSTVLIVVAKASGRITWGQLAKNWLNVYFGNLVGALLFVLLMWLSGEYMTANGQWGLNVLQTADHKVHHTFIEAVCLGILANLMVCLAVWMSYSGRSLMDKAFIMVLPVAMFVASGFEHSIANMFMIPMGIVIRDFASPEFWTAVGSAPENFSHLTVMNFITDNLIPVTIGNIIGGGLLVGLTYWVIYLRENDHH" "i" "Han et al., 2011" -"FOCB-MONOMER" "MRNKLSFDLQLSARKAAIAERIAAHKIARSKVSVFLMAMSAGVFMAIGFTFYLSVIADAPSSQALTHLVGGLCFTLGFILLAVCGTSLFTSSVMTVMAKSRGVISWRTWLINALLVACGNLAGIACFSLLIWFSGLVMSENAMWGVAVLHCAEGKMHHTFTESVSLGIMCNLMVCLALWMSYCGRSLCDKIVAMILPITLFVASGFEHCIANLFVIPFAIAIRHFAPPPFWQLAHSSADNFPALTVSHFITANLLPVMLGNIIGGAVLVSMCYRAIYLRQEP" "i" "Han et al., 2011" -"FOLC-MONOMER" "MIIKRTPQAASPLASWLSYLENLHSKTIDLGLERVSLVAARLGVLKPAPFVFTVAGTNGKGTTCRTLESILMAAGYKVGVYSSPHLVRYTERVRVQGQELPESAHTASFAEIESARGDISLTYFEYGTLSALWLFKQAQLDVVILEVGLGGRLDATNIVDADVAVVTSIALDHTDWLGPDRESIGREKAGIFRSEKPAIVGEPEMPSTIADVAQEKGALLQRRGVEWNYSVTDHDWAFSDAHGTLENLPLPLVPQPNAATALAALRASGLEVSENAIRDGIASAILPGRFQIVSESPRVIFDVAHNPHAAEYLTGRMKALPKNGRVLAVIGMLHDKDIAGTLAWLKSVVDDWYCAPLEGPRGATAEQLLEHLGNGKSFDSVAQAWDAAMADAKAEDTVLVCGSFHTVAHVMEVIDARRSGGK" "c" "Han et al., 2011" -"FOLD-MONOMER" "MAAKIIDGKTIAQQVRSEVAQKVQARIAAGLRAPGLAVVLVGSNPASQIYVASKRKACEEVGFVSRSYDLPETTSEAELLELIDTLNADNTIDGILVQLPLPAGIDNVKVLERIHPDKDVDGFHPYNVGRLCQRAPRLRPCTPRGIVTLLERYNIDTFGLNAVVIGASNIVGRPMSMELLLAGCTTTVTHRFTKNLRHHVENADLLIVAVGKPGFIPGDWIKEGAIVIDVGINRLENGKVVGDVVFEDAAKRASYITPVPGGVGPMTVATLIENTLQACVEYHDPQDE" "c" "Han et al., 2011" -"FORMATEDEHYDROGH-MONOMER" "MKKVVTVCPYCASGCKINLVVDNGKIVRAEAAQGKTNQGTLCLKGYYGWDFINDTQILTPRLKTPMIRRQRGGKLEPVSWDEALNYVAERLSAIKEKYGPDAIQTTGSSRGTGNETNYVMQKFARAVIGTNNVDCCARVUHGPSVAGLHQSVGNGAMSNAINEIDNTDLVFVFGYNPADSHPIVANHVINAKRNGAKIIVCDPRKIETARIADMHIALKNGSNIALLNAMGHVIIEENLYDKAFVASRTEGFEEYRKIVEGYTPESVEDITGVSASEIRQAARMYAQAKSAAILWGMGVTQFYQGVETVRSLTSLAMLTGNLGKPHAGVNPVRGQNNVQGACDMGALPDTYPGYQYVKDPANREKFAKAWGVESLPAHTGYRISELPHRAAHGEVRAAYIMGEDPLQTDAELSAVRKAFEDLELVIVQDIFMTKTASAADVILPSTSWGEHEGVFTAADRGFQRFFKAVEPKWDLKTDWQIISEIATRMGYPMHYNNTQEIWDELRHLCPDFYGATYEKMGELGFIQWPCRDTSDADQGTSYLFKEKFDTPNGLAQFFTCDWVAPIDKLTDEYPMVLSTVREVGHYSCRSMTGNCAALAALADEPGYAQINTEDAKRLGIEDEALVWVHSRKGKIITRAQVSDRPNKGAIYMTYQWWIGACNELVTENLSPITKTPEYKYCAVRVEPIADQRAAEQYVIDEYNKLKTRLREAALA" "c" "EcoCyc dump" -"FORMYLTHFDEFORMYL-MONOMER" "MHSLQRKVLRTICPDQKGLIARITNICYKHELNIVQNNEFVDHRTGRFFMRTELEGIFNDSTLLADLDSALPEGSVRELNPAGRRRIVILVTKEAHCLGDLLMKANYGGLDVEIAAVIGNHDTLRSLVERFDIPFELVSHEGLTRNEHDQKMADAIDAYQPDYVVLAKYMRVLTPEFVARFPNKIINIHHSFLPAFIGARPYHQAYERGVKIIGATAHYVNDNLDEGPIIMQDVIHVDHTYTAEDMMRAGRDVEKNVLSRALYKVLAQRVFVYGNRTIIL" "c" "Han et al., 2011" -"FPPSYN-MONOMER" "MDFPQQLEACVKQANQALSRFIAPLPFQNTPVVETMQYGALLGGKRLRPFLVYATGHMFGVSTNTLDAPAAAVECIHAYSLIHDDLPAMDDDDLRRGLPTCHVKFGEANAILAGDALQTLAFSILSDADMPEVSDRDRISMISELASASGIAGMCGGQALDLDAEGKHVPLDALERIHRHKTGALIRAAVRLGALSAGDKGRRALPVLDKYAESIGLAFQVQDDILDVVGDTATLGKRQGADQQLGKSTYPALLGLEQARKKARDLIDDARQSLKQLAEQSLDTSALEALADYIIQRNK" "c" "Han et al., 2011" -"FRUA-MONOMER" "MKTLLIIDANLGQARAYMAKTLLGAAARKAKLEIIDNPNDAEMAIVLGDSIPNDSALNGKNVWLGDISRAVAHPELFLSEAKGHAKPYTAPVAATAPVAASGPKRVVAVTACPTGVAHTFMAAEAIETEAKKRGWWVKVETRGSVGAGNAITPEEVAAADLVIVAADIEVDLAKFAGKPMYRTSTGLALKKTAQELDKAVAEATPYEPAGKAQTATTESKKESAGAYRHLLTGVSYMLPMVVAGGLCIALSFAFGIEAFKEPGTLAAALMQIGGGSAFALMVPVLAGYIAFSIADRPGLTPGLIGGMLAVSTGSGFIGGIIAGFLAGYIAKLISTQLKLPQSMEALKPILIIPLISSLVVGLAMIYLIGKPVAGILEGLTHWLQTMGTANAVLLGAILGGMMCTDMGGPVNKAAYAFGVGLLSTQTYGPMAAIMAAGMVPPLAMGLATMVARRKFDKAQQEGGKAALVLGLCFISEGAIPFAARDPMRVLPCCIVGGALTGAISMAIGAKLMAPHGGLFVLLIPGAITPVLGYLVAIIAGTLVAGLAYAFLKRPEVDAVAKAA" "i" "Han et al., 2011" -"FRUB-MONOMER" "MFQLSVQDIHPGEKAGDKEEAIRQVAAALVQAGNVAEGYVNGMLAREQQTSTFLGNGIAIPHGTTDTRDQVLKTGVQVFQFPEGVTWGDGQVAYVAIGIAASSDEHLGLLRQLTHVLSDDSVAEQLKSATTAEELRALLMGEKQSEQLKLDNEMLTLDIVASDLLTLQALNAARLKEAGAVDATFVTKAINEQPLNLGQGIWLSDSAEGNLRSAIAVSRAANAFDVDGETAAMLVSVAMNDDQPIAVLKRLADLLLDNKADRLLKADAATLLALLTSDDAPTDDVLSAEFVVRNEHGLHARPGTMLVNTIKQFNSDITVTNLDGTGKPANGRSLMKVVALGVKKGHRLRFTAQGADAEQALKAIGDAIAAGLGEGA" "i" "EcoCyc dump" -"FRUCBISALD-CLASSI-MONOMER" "MTDIAQLLGKDADNLLQHRCMTIPSDQLYLPGHDYVDRVMIDNNRPPAVLRNMQTLYNTGRLAGTGYLSILPVDQGVEHSAGASFAANPLYFDPKNIVELAIEAGCNCVASTYGVLASVSRRYAHRIPFLVKLNHNETLSYPNTYDQTLYASVEQAFNMGAVAVGATIYFGSEESRRQIEEISAAFERAHELGMVTVLWAYLRNSAFKKDGVDYHVSADLTGQANHLAATIGADIVKQKMAENNGGYKAINYGYTDDRVYSKLTSENPIDLVRYQLANCYMGRAGLINSGGAAGGETDLSDAVRTAVINKRAGGMGLILGRKAFKKSMADGVKLINAVQDVYLDSKITIA" "c" "Han et al., 2011" -"FRUCTBISALD-CLASSII-MONOMER" "MSKIFDFVKPGVITGDDVQKVFQVAKENNFALPAVNCVGTDSINAVLETAAKVKAPVIVQFSNGGASFIAGKGVKSDVPQGAAILGAISGAHHVHQMAEHYGVPVILHTDHCAKKLLPWIDGLLDAGEKHFAATGKPLFSSHMIDLSEESLQENIEICSKYLERMSKIGMTLEIELGCTGGEEDGVDNSHMDASALYTQPEDVDYAYTELSKISPRFTIAASFGNVHGVYKPGNVVLTPTILRDSQEYVSKKHNLPHNSLNFVFHGGSGSTAQEIKDSVSYGVVKMNIDTDTQWATWEGVLNYYKANEAYLQGQLGNPKGEDQPNKKYYDPRVWLRAGQTSMIARLEKAFQELNAIDVL" "c" "Han et al., 2011" -"FRVA-MONOMER" "MAALTASCIDLNIQGNGAYSVLKQLATIALQNGFITDSHQFLQTLLLREKMHSTGFGSGVAVPHGKSACVKQPFVLFARKAQAIDWKASDGEDVNCWICLGVPQSGEEDQVKIIGTLCRKIIHKEFIHQLQQGDTDQVLALLNQTLSS" "c" "Han et al., 2011" -"FRVB-MONOMER" "MESSLRIVAITNCPAGIAHTYMVAEALEQKARSLGHTIKVETQGSSGVENRLSSEEIAAADYVILATGRGLSGDDRARFAGKKVYEIAISQALKNIDQIFSELPTNSQLFAADSGVKLGKQEVQSGSVMSHLMAGVSAALPFVIGGGILVALANMLVQFGLPYTDMSKGAPSFTWVVESIGYLGFTFMIPIMGAYIASSIADKPAFAPAFLVCYLANDKALLGTQSGAGFLGAVVLGLAIGYFVFWFRKVRLGKALQPLLGSMLIPFVTLLVFGVLTYYVIGPVMSDLMGGLLHFLNTIPPSMKFAAAFLVGAMLAFDMGGPINKTAWFFCFSLLEKHIYDWYAIVGVVALMPPVAAGLATFIAPKLFTRQEKEAASSAIVVGATVATEPAIPYALAAPLPMITANTLAGGITGVLVIAFGIKRLAPGLGIFDPLIGLMSPVGSFYLVLAIGLALNISFIIVLKGLWLRRKAKAAQQELVHEH" "i" "Han et al., 2011" -"FRWB-MONOMER" "MTKIIAVTACPSGVAHTYMAAEALESAAKAKGWEVKVETQGSIGLENELTAEDVASADMVILTKDIGIKFEERFAGKTIVRVNISDAVKRADAIMSKIEAHLAQTA" "c" "Han et al., 2011" -"FRWC-MONOMER" "MNELVQILKNTRQHLMTGVSHMIPFVVSGGILLAVSVMLYGKGAVPDAVADPNLKKLFDIGVAGLTLMVPFLAAYIGYSIAERSALAPCAIGAWVGNSFGAGFFGALIAGIIGGIVVHYLKKIPVHKVLRSVMPIFIIPIVGTLITAGIMMWGLGEPVGALTNSLTQWLQGMQQGSIVMLAVIMGLMLAFDMGGPVNKVAYAFMLICVAQGVYTVVAIAAVGICIPPLGMGLATLIGRKNFSAEERETGKAALVMGCVGVTEGAIPFAAADPLRVIPSIMVGSVCGAVTAALVGAQCYAGWGGLIVLPVVEGKLGYIAAVAVGAVVTAVCVNVLKSLARKNGSSTDEKEDDLDLDFEIN" "i" "Han et al., 2011" -"FSR-MONOMER" "MAMSEQPQPVAGAAASTTKARTSFGILGAISLSHLLNDMIQSLILAIYPLLQSEFSLTFMQIGMITLTFQLASSLLQPVVGYWTDKYPMPWSLPIGMCFTLSGLVLLALAGSFGAVLLAAALVGTGSSVFHPESSRVARMASGGRHGLAQSIFQVGGNFGSSLGPLLAAVIIAPYGKGNVAWFVLAALLAIVVLAQISRWYSAQHRMNKGKPKATIINPLPRNKVVLAVSILLILIFSKYFYMASISSYYTFYLMQKFGLSIQNAQLHLFAFLFAVAAGTVIGGPVGDKIGRKYVIWGSILGVAPFTLILPYASLHWTGVLTVIIGFILASAFSAILVYAQELLPGRIGMVSGLFFGFAFGMGGLGAAVLGLIADHTSIELVYKICAFLPLLGMLTIFLPDNRHKD" "i" "Han et al., 2011" -"FTSE-MONOMER" "MIRFEHVSKAYLGGRQALQGVTFHMQPGEMAFLTGHSGAGKSTLLKLICGIERPSAGKIWFSGHDITRLKNREVPFLRRQIGMIFQDHHLLMDRTVYDNVAIPLIIAGASGDDIRRRVSAALDKVGLLDKAKNFPIQLSGGEQQRVGIARAVVNKPAVLLADEPTGNLDDALSEGILRLFEEFNRVGVTVLMATHDINLISRRSYRMLTLSDGHLHGGVGHE" "i" "Han et al., 2011" -"FTSX-MONOMER" "MNKRDAINHIRQFGGRLDRFRKSVGGSGDGGRNAPKRAKSSPKPVNRKTNVFNEQVRYAFHGALQDLKSKPFATFLTVMVIAISLTLPSVCYMVYKNVNQAATQYYPSPQITVYLQKTLDDDAAAGVVAQLQAEQGVEKVNYLSREDALGEFRNWSGFGGALDMLEENPLPAVAVVIPKLDFQGTESLNTLRDRITQINGIDEVRMDDSWFARLAALTGLVGRVSAMIGVLMVAAVFLVIGNSVRLSIFARRDSINVQKLIGATDGFILRPFLYGGALLGFSGALLSLILSEILVLRLSSAVAEVAQVFGTKFDINGLSFDECLLLLLVCSMIGWVAAWLATVQHLRHFTPE" "i" "Han et al., 2011" -"FUC4NACTRANS-MONOMER" "MSLLQFSGLFVVWLLCTLFIATLTWFEFRRVRFNFNVFFSLLFLLTFFFGFPLTSVLVFRFDVGVAPPEILLQALLSAGCFYAVYYVTYKTRLRKRVADVPRRPLFTMNRVETNLTWVILMGIALVSVGIFFMHNGFLLFRLNSYSQIFSSEVSGVALKRFFYFFIPAMLVVYFLRQDSKAWLFFLVSTVAFGLLTYMIVGGTRANIIIAFAIFLFIGIIRGWISLWMLAAAGVLGIVGMFWLALKRYGMNVSGDEAFYTFLYLTRDTFSPWENLALLLQNYDNIDFQGLAPIVRDFYVFIPSWLWPGRPSMVLNSANYFTWEVLNNHSGLAISPTLIGSLVVMGGALFIPLGAIVVGLIIKWFDWLYELGNREPNRYKAAILHSFCFGAIFNMIVLAREGLDSFVSRVVFFIVVFGACLMIAKLLYWLFESAGLIHKRTKSSLRTQVEG" "i" "Unambiguous EcoCyc data" -"FUCISOM-MONOMER" "MKKISLPKIGIRPVIDGRRMGVRESLEEQTMNMAKATAALLTEKLRHACGAAVECVISDTCIAGMAEAAACEEKFSSQNVGLTITVTPCWCYGSETIDMDPTRPKAIWGFNGTERPGAVYLAAALAAHSQKGIPAFSIYGHDVQDADDTSIPADVEEKLLRFARAGLAVASMKGKSYLSLGGVSMGIAGSIVDHNFFESWLGMKVQAVDMTELRRRIDQKIYDEAELEMALAWADKNFRYGEDENNKQYQRNAEQSRAVLRESLLMAMCIRDMMQGNSKLADIGRVEESLGYNAIAAGFQGQRHWTDQYPNGDTAEAILNSSFDWNGVREPFVVATENDSLNGVAMLMGHQLTGTAQVFADVRTYWSPEAIERVTGHKLDGLAEHGIIHLINSGSAALDGSCKQRDSEGNPTMKPHWEISQQEADACLAATEWCPAIHEYFRGGGYSSRFLTEGGVPFTMTRVNIIKGLGPVLQIAEGWSVELPKDVHDILNKRTNSTWPTTWFAPRLTGKGPFTDVYSVMANWGANHGVLTIGHVGADFITLASMLRIPVCMHNVEETKVYRPSAWAAHGMDIEGQDYRACQNYGPLYKR" "c" "Han et al., 2011" -"FUCP-MONOMER" "MGNTSIQTQSYRAVDKDAGQSRSYIIPFALLCSLFFLWAVANNLNDILLPQFQQAFTLTNFQAGLIQSAFYFGYFIIPIPAGILMKKLSYKAGIITGLFLYALGAALFWPAAEIMNYTLFLVGLFIIAAGLGCLETAANPFVTVLGPESSGHFRLNLAQTFNSFGAIIAVVFGQSLILSNVPHQSQDVLDKMSPEQLSAYKHSLVLSVQTPYMIIVAIVLLVALLIMLTKFPALQSDNHSDAKQGSFSASLSRLARIRHWRWAVLAQFCYVGAQTACWSYLIRYAVEEIPGMTAGFAANYLTGTMVCFFIGRFTGTWLISRFAPHKVLAAYALIAMALCLISAFAGGHVGLIALTLCSAFMSIQYPTIFSLGIKNLGQDTKYGSSFIVMTIIGGGIVTPVMGFVSDAAGNIPTAELIPALCFAVIFIFARFRSQTATN" "i" "Unambiguous EcoCyc data" -"FUCPALDOL-MONOMER" "MERNKLARQIIDTCLEMTRLGLNQGTAGNVSVRYQDGMLITPTGIPYEKLTESHIVFIDGNGKHEEGKLPSSEWRFHMAAYQSRPDANAVVHNHAVHCTAVSILNRSIPAIHYMIAAAGGNSIPCAPYATFGTRELSEHVALALKNRKATLLQHHGLIACEVNLEKALWLAHEVEVLAQLYLTTLAITDPVPVLSDEEIAVVLEKFKTYGLRIEE" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"FUCULOKIN-MONOMER" "MLSGYIAGAIMKQEVILVLDCGATNVRAIAVNRQGKIVARASTPNASDIAMENNTWHQWSLDAILQRFADCCRQINSELTECHIRGIAVTTFGVDGALVDKQGNLLYPIISWKCPRTAAVMDNIERLISAQRLQAISGVGAFSFNTLYKLVWLKENHPQLLERAHAWLFISSLINHRLTGEFTTDITMAGTSQMLDIQQRDFSPQILQATGIPRRLFPRLVEAGEQIGTLQNSAAAMLGLPVGIPVISAGHDTQFALFGAGAEQNEPVLSSGTWEILMVRSAQVDTSLLSQYAGSTCELDSQAGLYNPGMQWLASGVLEWVRKLFWTAETPWQMLIEEARLIAPGADGVKMQCDLLSCQNAGWQGVTLNTTRGHFYRAALEGLTAQLQRNLQMLEKIGHFKASELLLVGGGSRNTLWNQIKANMLDIPVKVLDDAETTVAGAALFGWYGVGEFNSPEEARAQIHYQYRYFYPQTEPEFIEEV" "c" "Han et al., 2011" -"FUM-FE-S" "MAEMKNLKIEVVRYNPEVDTAPHSAFYEVPYDATTSLLDALGYIKDNLAPDLSYRWSCRMAICGSCGMMVNNVPKLACKTFLRDYTDGMKVEALANFPIERDLVVDMTHFIESLEAIKPYIIGNSRTADQGTNIQTPAQMAKYHQFSGCINCGLCYAACPQFGLNPEFIGPAAITLAHRYNEDSRDHGKKERMAQLNSQNGVWSCTFVGYCSEVCPKHVDPAAAIQQGKVESSKDFLIATLKPR" "i" "Han et al., 2011" -"FUM-FLAVO" "VQTFQADLAIVGAGGAGLRAAIAAAQANPNAKIALISKVYPMRSHTVAAEGGSAAVAQDHDSFEYHFHDTVAGGDWLCEQDVVDYFVHHCPTEMTQLELWGCPWSRRPDGSVNVRRFGGMKIERTWFAADKTGFHMLHTLFQTSLQFPQIQRFDEHFVLDILVDDGHVRGLVAMNMMEGTLVQIRANAVVMATGGAGRVYRYNTNGGIVTGDGMGMALSHGVPLRDMEFVQYHPTGLPGSGILMTEGCRGEGGILVNKNGYRYLQDYGMGPETPLGEPKNKYMELGPRDKVSQAFWHEWRKGNTISTPRGDVVYLDLRHLGEKKLHERLPFICELAKAYVGVDPVKEPIPVRPTAHYTMGGIETDQNCETRIKGLFAVGECSSVGLHGANRLGSNSLAELVVFGRLAGEQATERAATAGNGNEAAIEAQAAGVEQRLKDLVNQDGGENWAKIRDEMGLAMEEGCGIYRTPELMQKTIDKLAELQERFKRVRITDTSSVFNTDLLYTIELGHGLNVAECMAHSAMARKESRGAHQRLDEGCTERDDVNFLKHTLAFRDADGTTRLEYSDVKITTLPPAKRVYGGEADAADKAEAANKKEKANG" "i" "Han et al., 2011" -"FUM-MEMB1" "MTTKRKPYVRPMTSTWWKKLPFYRFYMLREGTAVPAVWFSIELIFGLFALKNGPEAWAGFVDFLQNPVIVIINLITLAAALLHTKTWFELAPKAANIIVKDEKMGPEPIIKSLWAVTVVATIVILFVALYW" "i" "Han et al., 2011" -"FUM-MEMB2" "MINPNPKRSDEPVFWGLFGAGGMWSAIIAPVMILLVGILLPLGLFPGDALSYERVLAFAQSFIGRVFLFLMIVLPLWCGLHRMHHAMHDLKIHVPAGKWVFYGLAAILTVVTLIGVVTI" "i" "Han et al., 2011" -"FUMA-MONOMER" "MSNKPFHYQAPFPLKKDDTEYYLLTSEHVSVSEFEGQEILKVAPEALTLLARQAFHDASFMLRPAHQQQVADILRDPEASENDKYVALQFLRNSDIAAKGVLPTCQDTGTAIIVGKKGQRVWTGGGDEAALARGVYNTYIEDNLRYSQNAPLDMYKEVNTGTNLPAQIDLYAVDGDEYKFLCIAKGGGSANKTYLYQETKALLTPGKLKNYLVEKMRTLGTAACPPYHIAFVIGGTSAETNLKTVKLASAKYYDELPTEGNEHGQAFRDVELEKELLIEAQNLGLGAQFGGKYFAHDIRVIRLPRHGASCPVGMGVSCSADRNIKAKINRQGIWIEKLEHNPGKYIPEELRKAGEGEAVRVDLNRPMKEILAQLSQYPVSTRLSLNGTIIVGRDIAHAKLKERMDNGEGLPQYIKDHPIYYAGPAKTPEGYASGSLGPTTAGRMDSYVDQLQAQGGSMIMLAKGNRSQQVTDACKKHGGFYLGSIGGPAAVLAQGSIKSLECVEYPELGMEAIWKIEVEDFPAFILVDDKGNDFFQQIQLTQCTRCVK" "c" "Han et al., 2011" -"FUMB-MONOMER" "MSNKPFIYQAPFPMGKDNTEYYLLTSDYVSVADFDGETILKVEPEALTLLAQQAFHDASFMLRPAHQKQVAAILHDPEASENDKYVALQFLRNSEIAAKGVLPTCQDTGTAIIVGKKGQRVWTGGGDEETLSKGVYNTYIEDNLRYSQNAALDMYKEVNTGTNLPAQIDLYAVDGDEYKFLCVAKGGGSANKTYLYQETKALLTPGKLKNFLVEKMRTLGTAACPPYHIAFVIGGTSAETNLKTVKLASAHYYDELPTEGNEHGQAFRDVQLEQELLEEAQKLGLGAQFGGKYFAHDIRVIRLPRHGASCPVGMGVSCSADRNIKAKINREGIWIEKLEHNPGQYIPQELRQAGEGEAVKVDLNRPMKEILAQLSQYPVSTRLSLTGTIIVGRDIAHAKLKELIDAGKELPQYIKDHPIYYAGPAKTPAGYPSGSLGPTTAGRMDSYVDLLQSHGGSMIMLAKGNRSQQVTDACHKHGGFYLGSIGGPAAVLAQQSIKHLECVAYPELGMEAIWKIEVEDFPAFILVDDKGNDFFQQIVNKQCANCTK" "c" "Han et al., 2011" -"FUMC-MONOMER" "MNTVRSEKDSMGAIDVPADKLWGAQTQRSLEHFRISTEKMPTSLIHALALTKRAAAKVNEDLGLLSEEKASAIRQAADEVLAGQHDDEFPLAIWQTGSGTQSNMNMNEVLANRASELLGGVRGMERKVHPNDDVNKSQSSNDVFPTAMHVAALLALRKQLIPQLKTLTQTLNEKSRAFADIVKIGRTHLQDATPLTLGQEISGWVAMLEHNLKHIEYSLPHVAELALGGTAVGTGLNTHPEYARRVADELAVITCAPFVTAPNKFEALATCDALVQAHGALKGLAASLMKIANDVRWLASGPRCGIGEISIPENEPGSSIMPGKVNPTQCEALTMLCCQVMGNDVAINMGGASGNFELNVFRPMVIHNFLQSVRLLADGMESFNKHCAVGIEPNRERINQLLNESLMLVTALNTHIGYDKAAEIAKKAHKEGLTLKAAALALGYLSEAEFDSWVRPEQMVGSMKAGR" "c" "Han et al., 2011" -"G357-MONOMER" "MLIIKRSVAIIAILFSPLSTASNLTSQLHNFFSAQLAGVSDEVRVSIRTAPNLLPPCEQPLLSMSNNSRLWGNVNVLARCGNDKRYLQVNVQATGNYVVAAMPIARGGKLEAGNVKLKRGRLDTLPPRTVLDINQLVDAISLRDLSPDQPIQLTQFRQAWRVKAGQRVNVIASGDGFSANAEGQALNNAAVAQNARVRMVSGQVVSGVVDADGNILINL" "p" "Han et al., 2011" -"G360-MONOMER" "MSIAVTTTDPTNTGVSTTSSSSLTGSNAADLQSSFLTLLVAQLKNQDPTNPMENNELTSQLAQISTVSGIEKLNTTLGSISGQIDNSQSLQASNLIGHGVMIPGTTVLAGTGSEEGAVTTTTPFGVELQQAADKVTATITDKNGAVVRTIDIGELTAGVHSFTWDGTLTDGSTAPNGSYNVAISASNGGTQLVAQPLQFALVQGVIRGNSGNTLDLGTYGTTTLDEVRQII" "o" "Han et al., 2011" -"G361-MONOMER" "MAFSQAVSGLNAAATNLDVIGNNIANSATYGFKSGTASFADMFAGSKVGLGVKVAGITQDFTDGTTTNTGRGLDVAISQNGFFRLVDSNGSVFYSRNGQFKLDENRNLVNMQGLQLTGYPATGTPPTIQQGANPTNISIPNTLMAAKTTTTASMQINLNSSDPLPTVTPFSASNADSYNKKGSVTVFDSQGNAHDMSVYFVKTGDNNWQVYTQDSSDPNSIAKTATTLEFNANGTLVDGAMANNIATGAINGAEPATFSLSFLNSMQQNTGANNIVATTQNGYKPGDLVSYQINDDGTVVGNYSNEQTQLLGQIVLANFANNEGLASEGDNVWSATQSSGVALLGTAGTGNFGTLTNGALEASNVDLSKELVNMIVAQRNYQSNAQTIKTQDQILNTLVNLR" "s" "EcoCyc dump" -"G366-MONOMER" "MISDSKLLASAAWDAQSLNELKAKAGEDPAANIRPVARQVEGMFVQMMLKSMRDALPKDGLFSSEHTRLYTSMYDQQIAQQMTAGKGLGLAEMMVKQMTPEQPLPEESTPAAPMKFPLETVVRYQNQALSQLVQKAVPRNYDDSLPGDSKAFLAQLSLPAQLASQQSGVPHHLILAQAALESGWGQRQIRRENGEPSYNLFGVKASGNWKGPVTEITTTEYENGEAKKVKAKFRVYSSYLEALSDYVGLLTRNPRYAAVTTAASAEQGAQALQDAGYATDPHYARKLTNMIQQMKSISDKVSKTYSMNIDNLF" "p" "Han et al., 2011" -"G369-MONOMER" "MSIDRTSPLKPVSTVQPRETTDAPVTNSRAAKTTASTSTSVTLSDAQAKLMQPGSSDINLERVEALKLAIRNGELKMDTGKIADALINEAQQDLQSN" "c" "Han et al., 2011" -"G370-MONOMER" "MSNLAAMLRLPANLKSTQWQILAGPILILLILSMMVLPLPAFILDLLFTFNIALSIMVLLVAMFTQRTLEFAAFPTILLFTTLLRLALNVASTRIILMEGHTGAAAAGKVVEAFGHFLVGGNFAIGIVVFVILVIINFMVITKGAGRIAEVGARFVLDGMPGKQMAIDADLNAGLIGEDEAKKRRSEVTQEADFYGSMDGASKFVRGDAIAGILIMVINIVGGLLVGVLQHGMSMGHAAESYTLLTIGDGLVAQIPALVISTAAGVIVTRVSTDQDVGEQMVNQLFSNPSVMLLSAAVLGLLGLVPGMPNLVFLLFTAGLLGLAWWIRGREQKAPAEPKPVKMAENNTVVEATWNDVQLEDSLGMEVGYRLIPMVDFQQDGELLGRIRSIRKKFAQEMGFLPPVVHIRDNMDLQPARYRILMKGVEIGSGDAYPGRWLAINPGTAAGTLPGEATVDPAFGLNAIWIESALKEQAQIQGYTVVEASTVVATHLNHLISQHAAELFGRQEAQQLLDRVAQEMPKLTEDLVPGVVTLTTLHKVLQNLLDEKVPIRDMRTILETLAEHAPIQSDPHELTAVVRVALGRAITQQWFPGKDEVHVIGLDTPLERLLLQALQGGGGLEPGLADRLLAQTQEALSRQEMLGAPPVLLVNHALRPLLSRFLRRSLPQLVVLSNLELSDNRHIRMTATIGGK" "i" "Han et al., 2011" -"G377-MONOMER" "MTTRLTRWLTTLDNFEAKMAQLPAVRRYGRLTRATGLVLEATGLQLPLGATCVIERQNGSETHEVESEVVGFNGQRLFLMPLEEVEGVLPGARVYAKNISAEGLQSGKQLPLGPALLGRVLDGSGKPLDGLPSPDTTETGALITPPFNPLQRTPIEHVLDTGVRPINALLTVGRGQRMGLFAGSGVGKSVLLGMMARYTRADVIVVGLIGERGREVKDFIENILGAEGRARSVVIAAPADVSPLLRMQGAAYATRIAEDFRDRGQHVLLIMDSLTRYAMAQREIALAIGEPPATKGYPPSVFAKLPALVERAGNGISGGGSITAFYTVLTEGDDQQDPIADSARAILDGHIVLSRRLAEAGHYPAIDIEASISRAMTALISEQHYARVRTFKQLLSSFQRNRDLVSVGAYAKGSDPMLDKAIALWPQLEGYLQQGIFERADWEASLQGLERIFPTVS" "i" "EcoCyc dump" -"G378-MONOMER" "MAEHGALATLKDLAEKEVEDAARLLGEMRRGCQQAEEQLKMLIDYQNEYRNNLNSDMSAGITSNRWINYQQFIQTLEKAITQHRQQLNQWTQKVDIALNSWREKKQRLQAWQTLQERQSTAALLAENRLDQKKMDEFAQRAAMRKPE" "s" "EcoCyc dump" -"G379-MONOMER" "MIRLAPLITADVDTTTLPGGKASDAAQDFLALLSEALAGETTTDKAAPQLLVATDKPTTKGEPLISDIVSDAQQANLLIPVDETPPVINDEQSTSTPLTTAQTMALAAVADKNTTKDEKADDLNEDVTASLSALFAMLPGFDNTPKVTDAPSTVLPTEKPTLFTKLTSEQLTTAQPDDAPGTPAQPLTPLVAEAQSKAEVISTPSPVTAAASPLITPHQTQPLPTVAAPVLSAPLGSHEWQQSLSQHISLFTRQGQQSAELRLHPQDLGEVQISLKVDDNQAQIQMVSPHQHVRAALEAALPVLRTQLAESGIQLGQSNISGESFSGQQQAASQQQQSQRTANHEPLAGEDDDTLPVPVSLQGRVTGNSGVDIFA" "j" "Unambiguous EcoCyc data" -"G495-MONOMER" "MIVKKLTLPKDFLWGGAVAAHQVEGGWNKGGKGPSICDVLTGGAHGVPREITKEVLPGKYYPNHEAVDFYGHYKEDIKLFAEMGFKCFRTSIAWTRIFPKGDEAQPNEEGLKFYDDMFDELLKYNIEPVITLSHFEMPLHLVQQYGSWTNRKVVDFFVRFAEVVFERYKHKVKYWMTFNEINNQRNWRAPLFGYCCSGVVYTEHENPEETMYQVLHHQFVASALAVKAARRINPEMKVGCMLAMVPLYPYSCNPDDVMFAQESMRERYVFTDVQLRGYYPSYVLNEWERRGFNIKMEDGDLDVLREGTCDYLGFSYYMTNAVKAEGGTGDAISGFEGSVPNPYVKASDWGWQIDPVGLRYALCELYERYQRPLFIVENGFGAYDKVEEDGSINDDYRIDYLRAHIEEMKKAVTYDGVDLMGYTPWGCIDCVSFTTGQYSKRYGFIYVNKHDDGTGDMSRSRKKSFNWYKEVIASNGEKL" "c" "Han et al., 2011" -"G6081-MONOMER" "VKKMQSIVLALSLVLVAPMAAQAAEITLVPSVKLQIGDRDNRGYYWDGGHWRDHGWWKQHYEWRGNRWHLHGPPPPPRHHKKAPHDHHGGHGPGKHHR" "p" "Han et al., 2011" -"G6082-MONOMER" "MNVNYLNDSDLDFLQHCSEEQLANFARLLTHNEKGKTRLSSVLMRNELFKSMEGHPEQHRRNWQLIAGELQHFGGDSIANKLRGHGKLYRAILLDVSKRLKLKADKEMSTFEIEQQLLEQFLRNTWKKMDEEHKQEFLHAVDARVNELEELLPLLMKDKLLAKGVSHLLSSQLTRILRTHAAMSVLGHGLLRGAGLGGPVGAALNGVKAVSGSAYRVTIPAVLQIACLRRMVSATQV" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6083-MONOMER" "MNYSHDNWSAILAHIGKPEELDTSARNAGALTRRREIRDAATLLRLGLAYGPGGMSLREVTAWAQLHDVATLSDVALLKRLRNAADWFGILAAQTLAVRAAVTGCTSGKRLRLVDGTAISAPGGGSAEWRLHMGYDPHTCQFTDFELTDSRDAERLDRFAQTADEIRIADRGFGSRPECIRSLAFGEADYIVRVHWRGLRWLTAEGMRFDMMGFLRGLDCGKNGETTVMIGNSGNKKAGAPFPARLIAVSLPPEKALISKTRLLSENRRKGRVVQAETLEAAGHVLLLTSLPEDEYSAEQVADCYRLRWQIELAFKRLKSLLHLDALRAKEPELAKAWIFANLLAAFLIDDIIQPSLDFPPRSAGSEKKN" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6086-MONOMER" "VASVSISCPSCSATDGVVRNGKSTAGHQRYLCSHCRKTWQLQFTYTASQPGTHQKIIDMAMNGVGCRATARIMGVGLNTILRHLKNSGRSR" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6087-MONOMER" "MCRHSLRSDGAGFYQLAGCEYSFSAIKIAAGGQFLPVICAMAMKSHFFLISVLNRRLTLTAVQGILGRFSLF" "c" "Han et al., 2011" -"G6088-MONOMER" "MCEGYVEKPLYLLIAEWMMAENRWVIAREISIHFDIEHSKAVNTLTYILSEVTEISCEVKMIPNKLEGRGCQCQRLVKVVDIDEQIYARLRNNSREKLVGVRKTPRIPAVPLTELNREQKWQMMLSKSMRR" "c" "Han et al., 2011" -"G6093-MONOMER" "MAMKKLLIASLLFSSATVYGAEGFVVKDIHFEGLQRVAVGAALLSMPVRTGDTVNDEDISNTIRALFATGNFEDVRVLRDGDTLLVQVKERPTIASITFSGNKSVKDDMLKQNLEASGVRVGESLDRTTIADIEKGLEDFYYSVGKYSASVKAVVTPLPRNRVDLKLVFQEGVSAEIQQINIVGNHAFTTDELISHFQLRDEVPWWNVVGDRKYQKQKLAGDLETLRSYYLDRGYARFNIDSTQVSLTPDKKGIYVTVNITEGDQYKLSGVEVSGNLAGHSAEIEQLTKIEPGELYNGTKVTKMEDDIKKLLGRYGYAYPRVQSMPEINDADKTVKLRVNVDAGNRFYVRKIRFEGNDTSKDAVLRREMRQMEGAWLGSDLVDQGKERLNRLGFFETVDTDTQRVPGSPDQVDVVYKVKERNTGSFNFGIGYGTESGVSFQAGVQQDNWLGTGYAVGINGTKNDYQTYAELSVTNPYFTVDGVSLGGRLFYNDFQADDADLSDYTNKSYGTDVTLGFPINEYNSLRAGLGYVHNSLSNMQPQVAMWRYLYSMGEHPSTSDQDNSFKTDDFTFNYGWTYNKLDRGYFPTDGSRVNLTGKVTIPGSDNEYYKVTLDTATYVPIDDDHKWVVLGRTRWGYGDGLGGKEMPFYENFYAGGSSTVRGFQSNTIGPKAVYFPHQASNYDPDYDYECATQDGAKDLCKSDDAVGGNAMAVASLEFITPTPFISDKYANSVRTSFFWDMGTVWDTNWDSSQYSGYPDYSDPSNIRMSAGIALQWMSPLGPLVFSYAQPFKKYDGDKAEQFQFNIGKTW" "e" "EcoCyc dump" -"G6095-MONOMER" "MLGLKQVHHIAIIATDYAVSKAFYCDILGFTLQSEVYREARDSWKGDLALNGQYVIELFSFPFPPERPSRPEACGLRHLAFSVDDIDAAVAHLESHNVKCETIRVDPYTQKRFTFFNDPDGLPLELYEQ" "c" "Han et al., 2011" -"G6096-MONOMER" "MTLTLNRQLLTSRQILVAFSGGLDSTVLLHQLVQWRTENPGVALRAIHVHHGLSANADAWVTHCENVCQQWQVPLVVERVQLAQEGLGIEAQARQARYQAFARTLLPGEVLVTAQHLDDQCETFLLALKRGSGPAGLSAMAEVSEFAGTRLIRPLLARTRGELVQWARQYDLRWIEDESNQDDSYDRNFLRLRVVPLLQQRWPHFAEATARSAALCAEQESLLDELLADDLAHCQSPQGTLQIVPMLAMSDARRAAIIRRWLAGQNAPMPSRDALVRIWQEVALAREDASPCLRLGAFEIRRYQSQLWWIKSVTGQSENIVPWQTWLQPLELPAGLGSVQLNAGGDIRPPRADEAVSVRFKAPGLLHIVGRNGGRKLKKIWQELGVPPWLRDTTPLLFYGETLIAAAGVFVTQEGVAEGENGVSFVWQKTLS" "c" "Han et al., 2011" -"G6097-MONOMER" "MNDTYQPINCDDYDNLELACQHHLMLTLELKDGEKLQAKASDLVSRKNVEYLVVEAAGETRELRLDKITSFSHPEIGTVVVSES" "c" "Han et al., 2011" -"G6098-MONOMER" "MALKATIYKATVNVADLDRNQFLDASLTLARHPSETQERMMLRLLAWLKYADERLQFTRGLCADDEPEAWLRNDHLGIDLWIELGLPDERRIKKACTQAAEVALFTYNSRAAQIWWQQNQSKCVQFANLSVWYLDDEQLAKVSAFADRTMTLQATIQDGVIWLSDDKNNLEVNLTAWQQPS" "c" "Han et al., 2011" -"G6100-MONOMER" "MKPARVPQTVVAPDCWGDLPWGKLYRKALERQLNPWFTKMYGFHLLKIGNLSAEINCEACAVSHQVNVSAQGMPVQVQADPLHLPFADKSVDVCLLAHTLPWCTDPHRLLREADRVLIDDGWLVISGFNPISFMGLRKLVPVLRKTSPYNSRMFTLMRQLDWLSLLNFEVLHASRFHVLPWNKHGGKLLNAHIPALGCLQLIVARKRTIPLTLNPMKQSKNKPRIRQAVGATRQCRKPQA" "c" "Han et al., 2011" -"G6101-MONOMER" "MNSKKLCCICVLFSLLAGCASESSIDEKKKKAQVTQSNINKNTPQQLTDKDLFGNETTLAVSEEDIQAALDGDEFRVPLNSPVILVQSGNRAPETIMQEEMRKYYTVSTFSGIPDRQKPLTCNKNKDKNENEDVASAENMNWMQALRFVAAKGHQKAIIVYQDMLQTGKYDSALKSTVWSDYKNDKLTDAISLRYLVRFTLVDVATGEWATWSPVNYEYKVLPPLPDKNEASTTDMTEQQIMQLKQKTYKAMVKDLVNRYQ" "p" "Han et al., 2011" -"G6102-MONOMER" "MSSERDLVNFLGDFSMDVAKAVIAGGVATAIGSLASFACVSFGFPVILVGGAILLTGIVCTVVLNEIDAQCHLSEKLKYAIRDGLKRQQELDKWKRENMTPFMYVLNTPPVI" "i" "Unambiguous EcoCyc data" -"G6103-MONOMER" "VPGLKITLLQQPLVWMDGPANLRHFDRQLEGITGRDVIVLPEMFTSGFAMEAAASSLAQDDVVNWMTAKAQQCNALIAGSVALQTESGSVNRFLLVEPGGTVHFYDKRHLFRMADEHLHYKAGNARVIVEWRGWRILPLVCYDLRFPVWSRNLNDYDLALYVANWPAPRSLHWQALLTARAIENQAYVAGCNRVGSDGNGCHYRGDSRVINPQGEIIATADAHQATRIDAELSMAALREYREKFPAWQDADEFRLW" "c" "Han et al., 2011" -"G6104-MONOMER" "MGRISSGGMMFKAITTVAALVIATSAMAQDDLTISSLAKGETTKAAFNQMVQGHKLPAWVMKGGTYTPAQTVTLGDETYQVMSACKPHDCGSQRIAVMWSEKSNQMTGLFSTIDEKTSQEKLTWLNVNDALSIDGKTVLFAALTGSLENHPDGFNFK" "p" "Han et al., 2011" -"G6106-MONOMER" "MYQDLIRNELNEAAETLANFLKDDANIHAIQRAAVLLADSFKAGGKVLSCGNGGSHCDAMHFAEELTGRYRENRPGYPAIAISDVSHISCVGNDFGFNDIFSRYVEAVGREGDVLLGISTSGNSANVIKAIAAAREKGMKVITLTGKDGGKMAGTADIEIRVPHFGYADRIQEIHIKVIHILIQLIEKEMVK" "c" "Lopez-Campistrous et al., 2005" -"G6107-MONOMER" "MCELLGMSANVPTDICFSFTGLVQRGGGTGPHKDGWGITFYEGKGCRTFKDPQPSFNSPIAKLVQDYPIKSCSVVAHIRQANRGEVALENTHPFTRELWGRNWTYAHNGQLTGYKSLETGNFRPVGETDSEKAFCWLLHKLTQRYPRTPGNMAAVFKYIASLADELRQKGVFNMLLSDGRYVMAYCSTNLHWITRRAPFGVATLLDQDVEIDFSSQTTPNDVVTVIATQPLTGNETWQKIMPGEWRLFCLGERVV" "c" "Han et al., 2011" -"G6108-MONOMER" "MRKIALILAMLLIPCVSFAGLLGSSSSTTPVSKEYKQQLMGSPVYIQIFKEERTLDLYVKMGEQYQLLDSYKICKYSGGLGPKQRQGDFKSPEGFYSVQRNQLKPDSRYYKAINIGFPNAYDRAHGYEGKYLMIHGDCVSIGCYAMTNQGIDEIFQFVTGALVFGQPSVQVSIYPFRMTDANMKRHKYSNFKDFWEQLKPGYDYFEQTRKPPTVSVVNGRYVVSKPLSHEVVQPQLASNYTLPEAK" "p" "Han et al., 2011" -"G6109-MONOMER" "MIQRDIEYSGQYSKDVKLAQKRHKDMNKLKYLMTLLINNTLPLPAVYKDHPLQGSWKGYRDAHVEPDWILIYKLTDKLLRFERTGTHAALFG" "c" "EcoCyc dump" -"G6110-MONOMER" "MAANAFVRARIDEDLKNQAADVLAGMGLTISDLVRITLTKVAREKALPFDLREPNQLTIQSIKNSEAGIDVHKAKDADDLFDKLGI" "c" "Han et al., 2011" -"G6111-MONOMER" "MSLPSIPSFVLSGLLLICLPFSSFASATTSHISFSYAARQRMQNRARLLKQYQTHLKKQASYIVEGNAESKRALRQHNREQIKQHPEWFPAPLKASDRRWQALAENNHFLSSDHLHNITEVAIHRLEQQLGKPYVWGGTRPDKGFDCSGLVFYAYNKILEAKLPRTANEMYHYRRATIVANNDLRRGDLLFFHIHSREIADHMGVYLGDGQFIESPRTGETIRISRLAEPFWQDHFLGARRILTEETIL" "p" "Han et al., 2011" -"G6112-MONOMER" "MSEYRRYYIKGGTWFFTVNLRNRRSQLLTTQYQMLRHAIIKVKRDRPFEINAWVVLPEHMHCIWTLPEGDDDFSSRWREIKKQFTHACGLKNIWQPRFWEHAIRNTKDYRHHVDYIYINPVKHGWVKQVSDWPFSTFHRDVARGLYPIDWAGDVTDFSAGERIIS" "c" "Han et al., 2011" -"G6113-MONOMER" "LLTINFIVVTKGAERISEVSARFTLDAMPGKQMAIDADLNAGLINQAQAQTRRKDVASEADFYGAMDGASKFVRGDAIAGMMILAINLIGGVCIGIFKYNLSADAAFQQYVLMTIGDGLVAQIPSLLLSTAAAIIVTRVSDNGDIAHDVRNQLLASPSVLYTATGIMFVLAVVPGMPHLPFLLFSALLGFTGWRMSKQPLAAEAEEKSLETLTRTITETSEQQVSWETIPLIEPISLSLGYKLVALVDKAQGNPLTQRIRGVRQVISDGNGVLLPEIRIRENFRLKPSQYAIFINGIKADEADIPADKLMALPSSETYGEIDGVQGNDPAYGMPVTWIQAAQKAKALNMGYQVIDSASVIATHVNKIVRSYIPDLFNYDDITQLHNRLSSTAPRLAEDLSAALNYSQLLKVYRALLTEGVSLRDIVTIATVLVASSTVTKDHILLAADVRLALRRSITHPFVRKQELTVYTLNNELENLLTNVVNQAQQGGKVMLDSVPVDPNMLNQFQSTMPQVKEQMKAAGKDPVLLVPPQLRPLLARYARLFAPGLHVLSYNEVPDELELKIMGALM" "i" "Unambiguous EcoCyc data" -"G6114-MONOMER" "VSKSERESIIAALHGQSIFNGGGLSPLNKISPSHPPKPATVAVPEETEKKARDVNEKTALLKKKSATELGELATSINTIARDAHMEANLEMEIVPQGLRVLIKDDQNRNMFERGSAKIMPFFKTLLVELAPVFDSLDNKIIITGHTDAMAYKNNIYNNWNLSGDRALSARRVLEEAGMPEDKVMQVSAMADQMLLDSKNPQSAGNRRIEIMVLTKSASDTLYQYFGQHGDKVVQPLVQKLDKQQVLSQRTR" "o" "Unambiguous EcoCyc data" -"G6115-MONOMER" "MRKIIHVDMDCFFAAVEMRDNPALRDIPIAIGGSRERRGVISTANYPARKFGVRSAMPTGMALKLCPHLTLLPGRFDAYKEASNHIREIFSRYTSRIEPLSLDEAYLDVTDSVHCHGSATLIAQEIRQTIFNELQLTASAGVAPVKFLAKIASDMNKPNGQFVITPAEVPAFLQTLPLAKIPGVGKVSAAKLEAMGLRTCGDVQKCDLVMLLKRFGKFGRILWERSQGIDERDVNSERLRKSVGVERTMAEDIHHWSECEAIIERLYPELERRLAKVKPDLLIARQGVKLKFDDFQQTTQEHVWPRLNKADLIATARKTWDERRGGRGVRLVGLHVTLLDPQMERQLVLGL" "c" "Han et al., 2011" -"G6116-MONOMER" "MHRILAEKSVNITELRKNPAKYFIDQPVAVLSNNRPAGYLLSASAFEALMDMLAEQEEKKPIKARFRPSAARLEEITRRAEQYLNDMTDDDFNDFKE" "c" "Han et al., 2011" -"G6117-MONOMER" "MRVFKTKLIRLQLTAEELDALTADFISYKRDGVLPDIFGRDALYDDSFTWPLIKFERVAHIHLANENNPFPPQLRQFSRTNDEAHLVYCQGAFDEQAWLLIAILKPEPHKLARDNNQMHKIGKMAEAFRMRF" "c" "Han et al., 2011" -"G6118-MONOMER" "MNNIQIRNYQPGDFQQLCAIFIRAVTMTASQHYSPQQISAWAQIDESRWKEKLAKSQVWVAIINAQPVGFISRIEHYIDMLFVDPEYTRRGVASALLKPLIKSESELTVDASITAKPFFERYGFQTVKQQRVECRGAWFTNFYMRYKPQH" "c" "Han et al., 2011" -"G6119-MONOMER" "MEWYMGKYIRPLSDAVFTIASDDLWIESLAIQQLHTTANLPNMQRVVGMPDLHPGRGYPIGAAFFSVGRFYPARRRGNGAGNRNGPLL" "c" "Han et al., 2011" -"G6120-MONOMER" "MKTLPAITQRAVKPCLSPVAVWQMLLTRLLEQHYGLTINDTPFCNEAVIKEHIDAGITLADAVNFLVEKYELVRIDRKGFSWQEQSPYLRAADILRARQATGLLRQSRNNVVR" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6121-MONOMER" "MSNPTRGLQREITLRLGARLVQEGNRLHYLADRASITGKFSDIECRKLDETFPHFILQMESMLTTGELSPHHAHCVTLYHNDLTCEADTLGSCGYVYIAIYPTQR" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6122-MONOMER" "MKQLSFLPGEMTPQDRRLIQRALRALDRHLHEPGVAFTSTHAVREWLRLHMAALEREEFRVLYLDNQNQLIAHETLFTGTINRTEVHPREVVKRALHFNAAAVILAHNHPSGETTPSQADKTLTQRLVQVLQLVDIRVPDHLIVGGRQIYSFAEHGLL" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6123-MONOMER" "MTTQTQHDLAPANQPEFELTVTPVPDEQRIDFWPQYFGAIPQWLLLEPHIFAWMDRFCEGYSGGIWSFYTLSNGGAFMSPEPDNDETWRLFNCLNGNDAQMSAEAAGIAVCLIAYSHHACRTECDAMTAHYYRLREYAMQHPEAHAILRIID" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6124-MONOMER" "MTQSVLLPPGPFTRRQAQAVTTTYSNITLEDDQGSHFRLVVRDTEGRMVWRAWNFEPDAGEGLNRYIRTSGIRTDTATR" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6125-MONOMER" "MTILSLSRFMLAGVLLASFNASAIPGFWQQGYGQGNTEYSVTEASGKTFTINCTGNPDQNGFYQHSVFLTLADDKMVSSHDDDTTITVVMDHQQYIIPSSLGWRNGDNAWFDFISNISEAGQFDVYVNDHKAGTFTADRKNAEKVLSTLGDCSND" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6126-MONOMER" "MKRKTLPLLALVATTLFLIACDDRSDDLKAISKFKDLTPPRFSDVVSHQDDVSEEWSQVDYLSGPTLQVLRTRQSPDGCEDGSYYYLVDMQEKTVQPLMNALCIADNIKLEYQEVTDPYTKEKYFEYAHDGKLMGQLLIPSNPDNQE" "i" "Unambiguous EcoCyc data" -"G6127-MONOMER" "MTRLASRFGAANLIRRDRPLTREELFRVVPSVFSEDKHESRSERYTYIPTISLLDSLQREGFQPFFACQTRVRDPGRREHTKHMLRLRREGQITGKQVPEIILLNSHDGTSSYQMLPGLFRAVCQNGLVCGESFGEVRVPHKGDVVSQVIEGAYEVLGIFDRVEEKRDAMQSLLLPPPAQQALAKAALTYRFGEDHQPVTESQILSPRRWQDESNDLWTTYQRIQENLIKGGLSGRNAKGGRSHTRAVRGIDGDVKLNRALWVMAEALLTQLQ" "c" "Han et al., 2011" -"G6128-MONOMER" "MNNSEGLKSFQQSLADLPQWVSERLLQQINQLTNYEPVIGIMGKTGVGKSSLCNALFAGDISPVSDVAACTREPLRFRLQVGDRYITLMDLPGVGESGARDTEYAALYREQLPRLDLVLWLIKADDRALTVDEHFYHQVIGEVYRHKVLFVISQSDKAEPTSGGGQLSTAQKQNISRKICLLHELFQPVHPVCAVSVRLQWGLKVMAERMIKCLPREATSPVVSQLHPSFRTTVVREQARSDFGETVGAVLDSISAFPLIPAPVRAVIQAVRTTVVSVARAVWDFFF" "m" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6129-MONOMER" "MKLLAKAPLNLLRAFEAAGRTGAFALAASELELSPSAISHAIRKLENLLDVRLFQRSTREITLTKEGEILLEHIQRGFNELQQGLALVTADESRPLRLHTAPSFAHQWLLPRLGKFIRENPSIDLRLSASTEYARFEQDDFDLDIVYGEPRPSPYEKIPLAVEELTPLCSPQLAERLKKPEDLYALTLIQCDVQLYQWKGWFEANKMTPPNNYGLRFDRSFMAIAAAVDGLGVVLESKLLAEREIASGKLVCPLVNSTSEIHYIGHYLVFPQHQHMHSALDVFKTWLLNELNLGKIR" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6130-MONOMER" "VICSPQNNTGVIMKKRNFSAEFKRESAQLVVDQNYTVADAASAMDVGLSTMTRWVKQLRDERQGKTPKASPITPEQIEIRELRKKLQRIEMENEILKKATVDSIGQRNSYVKTWGCGGFLNETNIYSRGKSLCF" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6131-MONOMER" "MRRTFTAEEKASVFELWKNGTGFSEIANILGSKPGTIFTMLRDTGGIKPHERKRAVAHLTLSEREEIRAGLSAKMSIRAIATALNRSPSTISREVQRNRGRRYYKAVDANNRANRMAKRPKPCLLDQNLPLRKLVLEKLEMKWSPEQISGWLRRTKPRQKTLRISPETIYKTLYFRSREALHHLNIQHLRRSHSLRHGRRHTRKGERGTINIVNGTPIHERSRNIDNRRSLGHWEGDLVSGTKNSHIATLVDRKSRYTIIVRLRGKDSVSVNQALTDKFLSLPSELRKSLTWDRGMELARHLEFTVSTGVKVYFCDPQSPWQRGTNENTNGLIRQYFPKKTCLAQYTQHELDLVAAQLNNRPRKTLKFKTPKEIIERGVALTD" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6132-MONOMER" "VATLCHVFGVHRSSYKYWKNRPEKPDGRRAVLRSQVLELHGISHGSAGARSIATMATQRGYQMGRWLAGRLMKELGLVSCQQPTHRYKRGGHEHVAIPNHLERQFAVTEPNQVWCGDVTYSVPGVQGGHGCLNEPRVCLEY" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6133-MONOMER" "LIISEMQRKLATWAATDPSLRIQRLLRLITQPEWLAEAARITLSSKGAHTPGVDGVNKTMLQARLAVELQILRDELLSGHYQPLPARRVYIPKSNGKLRPLGIPALRDRIVQRAMLMAMEPIWESDFHTLSYGFRPERSVHHAIRTVKLQLTDCGETRGRWVIEGDLSSYFDTVHHRLLMKAVRRRISDARFMTLLWKTIKAGHIDVGLFRAASEGVPQGGVISPLLSNIMLNEFDQYLHERYLSGKARKDRWYWNNSIQRGRSTAVRENWQWKPAVAYCRYADDFVLIVKGTKAQVEAIREECRGVLEGSLKLRLNMDKTKIPHVNDGFIFLGHRLIRKRSRYGEMRVVSTIPQEKARNFAASLTALLWKVRISGEILLG" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6137-MONOMER" "LESLPGQIDKSLDEASLSLRAGSLRTITHILLPLLRPAILSALIYSFVRAITTVSAIVFLVTPDTRVATAYILNRVEDGEYGVAIAYGSILIVVMLAIIFIFDWLIGESRTSRSKAKNQA" "i" "Unambiguous EcoCyc data" -"G6138-MONOMER" "MPGNRPHYGRWPQHDFPPFKKLRPQSVTSRIQPGSDVIVCAEMDEQWGYVGAKSRQRWLFYAYDRLRKTVVAHVFGERTMATLGRLMSLLSPFDVVIWMTDGWPLYESRLKGKLHVISKRYTQRIERHNLNLRQHLARLGRKSLSFSKSVEQHDKVIGHYLNIKHYQ" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6139-MONOMER" "VASVSISCPSCSATDGVVRNGKSTAGHQRYLCSHCRKTWQLQFTYTASQPGTHQKIIDMAMNGVGCRATARIMGVGLNTIFRHLKNSGRSR" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6140-MONOMER" "MPQSALFTGIIPPVSTIFTADGQLDKPGTAALIDDLIKAGVDGLFFLGSGGEFSQLGAEERKAIARFAIDHVDRRVPVLIGTGGTNARETIELSQHAQQAGADGIVVINPYYWKVSEANLIRYFEQVADSVTLPVMLYNFPALTGQDLTPALVKTLADSRSNIIGIKDTIDSVAHLRSMIHTVKGAHPHFTVLCGYDDHLFNTLLLGGDGAISASGNFAPQVSVNLLKAWRDGDVAKAAGYHQTLLQIPQMYQLDTPFVNVIKEAIVLCGRPVSTHVLPPASPLDEPRKAQLKTLLQQLKLC" "c" "Unambiguous EcoCyc data" -"G6141-MONOMER" "MTIEKIFTPQDDAFYAVITHAAGPQGALPLTPQMLMESPSGNLFGMTQNAGMGWDANKLTGKEVLIIGTQGGIRAGDGRPIALGYHTGHWEIGMQMQAAAKEITRNGGIPFAAFVSDPCDGRSQGTHGMFDSLPYRNDAAIVFRRLIRSLPTRRAVIGVATCDKGLPATMIALAAMHDLPTILVPGGATLPPTVGEDAGKVQTIGARFANHELSLQEAAELGCRACASPGGGCQFLGTAGTSQVVAEALGLALPHSALAPSGQAVWLEIARQSARAVSELDSRGITTRDILSDKAIENAMVIHAAFGGSTNLLLHIPAIAHAAGCTIPDVEHWTRINRKVPRLVSVLPNGPDYHPTVRAFLAGGVPEVMLHLRDLGLLHLDAMTVTGQTVGENLEWWQASERRARFRQCLREQDGVEPDDVILPPEKAKAKGLTSTVCFPTGNIAPEGSVIKATAIDPSVVGEDGVYHHTGRVRVFVSEAQAIKAIKREEIVQGDIMVVIGGGPSGTGMEETYQLTSALKHISWGKTVSLITDARFSGVSTGACFGHVSPEALAGGPIGKLRDNDIIEIAVDRLTLTGSVNFIGTADNPLTPEEGARELARRQTHPDLHAHDFLPDDTRLWAALQSVSGGTWKGCIYDTDKIIEVINAGKKALGI" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6143-MONOMER" "MEITNPILTGFNPDPSLCRQGEDYYIATSTFEWFPGVRIYHSRDLKNWSLVSTPLDRVSMLDMKGNPDSGGIWAPCLSYADGKFWLLYTDVKIVDSPWKNGRNFLVTAPSIEGPWSEPIPMGNGGFDPSLFHDDDGRKYYIYRPWGPRHHSNPHNTIVLQAFDPQTGTLSPERKTLFTGTPLCYTEGAHLYRHAGWYYLMAAEGGTSYEHAVVVLRSKNIDGPYELHPDVTMMTSWHLPENPLQKSGHGSLLQTHTGEWYMAYLTSRPLRLPGVPLLASGGRGYCPLGRETGIARIEWRDGWPYVEGGKHAQLTVKGPQVAEQPAAVPGNWRDDFDASSLDPELQTLRIPFDDTLGSLTARPGFLRLYGNDSLNSTFTQSTVARRWQHFAFRAETRMEFSPVHFQQSAGLTCYYNSKNWSYCFVDYEEGQGRTIKVIQLDHNVPSWPLHEQPIPVPEHAESVWLRVDVDTLVYRYSYSFDGETWHTVPVTYEAWKLSDDYIGGRGFFTGAFVGLHCEDISGDGCYADFDYFTYEPV" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6144-MONOMER" "MPIIQSVERALQILDLFNEQATELKITDISKLMGLSKSTLHSLLKTLQLHGYIDQNPENGKYRLGMKLVERGHFVVGSIDIRQKAKGWLTELSRRTGQTTHLGILDGREGVYIEKIEGKLAAIAYSRIGRRLPVHATAIGKVLIAWLGEAELNALLEGYQYTTFTPATLASREALMSALAQTREQGYALDSEENEQGVRCVAVPVWNHESRVIAALSLSTLTSRVDDAELANFREQLQQAGLALSRALGYPA" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6147-MONOMER" "MEARVTVAGMGLVMEVQDYFDGEADRLAKAWLAEYTPQIKSLKDERKEAYRQIVEMSTEPQDVDLVRPANKFEMTRVREGEKEADLPVWKHHLLCDESGNYPALLNHWETKVFEIETKREGFAFWYRNPQYTGQSSLGIAYVEAEQYKIVRPDFLFFAEQDGKMVVDLVDPHSLHLADALPKLEGLALYAEHHSDAYRRIESVAEVKGKLRVLDLKRQDVQDAVATAENAETLFSSGLADDYQ" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6148-MONOMER" "MKTYQGTHGVHILEYQSKINKLLCYLTNRYPRLIAVRVDLHYPKIVDNGDNICCFPNLEPGVISRMRESLRAKLEADRTRKVREDKRIYRCPLFIIWAKEYSESGKCHYHICLLFNKDAYYHLGDYDQDDNLRGMITGAWYSALRLERDDHPGLVHFPENCKYVLDTNSTDFQQNYQALLTRLDYLTKVESKVFGEGDRNFGCSQIEL" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6149-MONOMER" "MRGKILLYQLKYRWQSLSIFGCFLCKMTLFRYQKIIYDTGVHQMRSFFYTICSSEQQESITDHHSLAEICQKFNILPEHVVIEQVDIKEVVSEQRLLRQLIHHEMNRQDTLVIPDLSCLGRTVEDLQNILFFCLQKEMFIYSYHPASRIEPSAESCLSFLIARQDTIDIHNLKSTKSRYRHVKKKLGRKEGSKYRRDITILKKGGFTQAEIAKKLSISLSTVKRHWNNGIIG" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6150-MONOMER" "MSNSVTNFEMSSVLPGKKPCQGKNNESQVVQTTPIKKHSVTFKNQSSLGVIDHYARLTNKSHSSVIAEVVDLAIPILEKCNRHNWSINEIKNDLLKFSIKESINRSRGKTEVTLEEYCSLIWKTNIMSPLKIPIADYFQLNANDEFMGKDEKTVIRERLSSLRENYDMEKAIYIYNQRHFDVKHQSVSGYSNIILIHRTTFEGYYFDAGQALLLSTSQLIIFGINEVLRRKGIVMPYPVVCWIDIYHVNEMVVMLPVLRKTDVSNRVNVPDDIIINPYSQESRT" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6151-MONOMER" "MATPATVSIEPTLAAIRARWCINSSKTTQSFNDPASMEEVVEYLKGTYSALRKSVACAKLKILHLKQRMQNATNFLARLMSCKNQASRSHHSTAKSAKSALSSDSGDGSDPDPEPETFPSAFITTPTNSIMLKAFFANISITEVAK" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6152-MONOMER" "MFIPSIYLHQQLHYCKTAILNWSRKMALSRQKFTFERLRRFTLPEGKKQTFLWDADVTTLACRATSGAKAFVFQSVYAGKTLRMTIGNINDWKIDDARAEARRLQTLIDTGIDPRIAKAVKIAEAESLQAESRKTKVTFSVAWEDYLQELRTGISAKTKRPYSTRYIADHINLSSRGGESKKRGQGPTSAGPLASLLNLPLSELTPDYIAAWLSTERQNRPTVTAHAYRLLRAFIKWSNYQKKYQGIIPGDLAQDYNVRKMVPVSASKADDCLQKEQLKSWFSAVRSLNNPIASAYLQVLLLTGARREEIASLRWSDVDFKWSSMRIKDKIEGERIIPLTPYVSELLNVLAQSPNSDVNKEGWVFRSNSKSGKIIEPRSAHNRALVLAELPHISLHGLRRSFGTLAEWVEVPTGIVAQIMGHKPSALAEKHYRRRPLDLLRKWHEKIETWILNEAGITIKNNVDMR" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6153-MONOMER" "MPAPVVLILAAGRGECFLASGGNTHKCIGWRQSPEVAPYRWPFEENGRTFDLAIEPQITTNDLRLMLRLALAGGGITIATQETFRPYIESGKLVSLLDDFLPQFPGFYLYFPQRRNIAPKLRALIDYVKEWRQQLA" "c" "Han et al., 2011" -"G6154-MONOMER" "MSYPLFDKDEHWHKPEQAFLTDDHRTILRFAVEALMSGKGAVLVTLVEIRGGAARPLGAQMVVREDGRYCGFVSGGCVEAAAAFEALEMMGSGRDREIRYGEGSPWFDIVLPCGGGITLTLHKLRSAQPLLAVLNRLEQRKPVGLRYDPQAQSLVCLPTQTRTGWNLNGFEVGFRPCVRLMIYGRSLEAQATASLAAATGYDSHIFDLFPASASAQIDTDTAVILLCHDLNRELPVLQAAREAKPFYLGALGSYRTHTLRLQKLHELGWSREETTQIRAPVGIFPKARDAHTLALSVLAEVASVRLHQEEDSCLPPSS" "c" "Han et al., 2011" -"G6155-MONOMER" "MKFDKPAGENPIDQLKVVGRPHDRIDGPLKTTGTARYAYEWHEEAPNAAYGYIVGSAIAKGRLTALDTDAAQKAPGVLAVITASNAGALGKGDKNTARLLGGPTIEHYHQAIALVVAETFEQARAAASLVQAHYRRNKGAYSLADEKQAVNQPPEDTPDKNVGDFDGAFTSAAVKIDATYTTPDQSHMAMEPHASMAVWDGNKLTLWTSNQMIDWCRTDLAKTLKVPVENVRIISPYIGGGFGGKLFLRSDALLAALAARAVKRPVKVMLPRPSIPNNTTHRPATLQHLRIGADQSGKITAISHESWSGNLPGGTPETAVQQSELLYAGANRHTGLRLATLDLPEGNAMRAPGEAPGLMALEIAIDELAEKAGIDPVEFRILNDTQVDPADPTRCFSRRQLIECLRTGADKFGWKQRNATPGQVRDGEWLVGHGVAAGFRNNLLEKSGARVHLEQNGTVTVETDMTDIGTGSYTILAQTAAEMLGVPLEQVAVHLGDSSFPVSAGSGGQWGANTSTSGVYAACMKLREMIASAVGFDPEQSQFADGKITNGTRSATLHEATAGGRLTAEESIEFGTLSKEYQQSTFAGHFVEVGVHSATGEVRVRRMLAVCAAGRILNPKTARSQVIGAMTMGMGAALMEELAVDDRLGYFVNHDMAGYEVPVHADIPKQEVIFLDDTDPISSPMKAKGVGELGLCGVSAAIANAVYNATGIRVRDYPITLDKLLDKLPDVV" "c" "EcoCyc dump" -"G6156-MONOMER" "MKAFTYERVNTPAEAALSAQRVPGAKFIAGGTNLLDLMKLEIETPTHLIDVNGLGLDKIEVTDAGGLRIGALVRNTDLAAHERVRRDYAVLSRALLAGASGQLRNQATTAGNLLQRTRCPYFYDTNQPCNKRLPGSGCAALEGFSRQHAVVGVSEACIATHPSDMAVAMRLLDAVVETITPEGKTRSITLADFYHPPGKTPHIETALLPGELIVAVTLPPPLGGKHIYRKVRDRASYAFALVSVAAIIQPDGSGRVALGGVAHKPWRIEAADAQLSQGAQAVYDTLFASAHPTAENTFKLLLAKRTLASVLAEARAQA" "p" "EcoCyc dump" -"G6157-MONOMER" "MSNQGEYPEDNRVGKHEPHDLSLTRRDLIKVSAATAATAVVYPHSTLAASVPAATPAPEIMPLTLKVNGKTEQLEVDTRTTLLDTLRENLHLIGTKKGCDHGQCGACTVLVNGRRLNACLTLAVMHQGAEITTIEGLGSPDNLHPMQAAFIKHDGFQCGYCTSGQICSSVAVLKEIQDGIPSHVTVDLVSAPETTADEIRERMSGNICRCGAYANILAAIEDAAGEIKS" "p" "EcoCyc dump" -"G6158-MONOMER" "MNIFEQTPPNRRRYGLAAFIGLIAGVVSAFVKWGAEVPLPPRSPVDMFNAACGPESLIRAAGQIDCSRNFLNPPYIFLRDWLGLTDPNAAVYTFAGHVFNWVGVTHIIFSIVFAVGYCVVAEVFPKIKLWQGLLAGALAQLFVHMISFPLMGLTPPLFDLPWYENVSEIFGHLVWFWSIEIIRRDLRNRITHEPDPEIPLGSNR" "i" "Han et al., 2011" -"G6159-MONOMER" "MSNLNPCMTCGACCAFFRVSFYWAEADDAGGTIPARLTEQISPFHRCMSGTNQKNPRCIALAGTPGKNACCTIYKNRSSTCREFAMSGENGVVNEACNRARAKYGLTPL" "i" "Han et al., 2011" -"G6160-MONOMER" "MFRRRGVTLTKALLTAVCMLAAPLTQAISVGNLTFSLPSETDFVSKRVVNNNKSARIYRIAISAIDSPGSSELRTRPVDGELLFAPRQLALQAGESEYFKFYYHGPRDNRERYYRVSFREVPTRNHTRRSPTGGVVSTEPVVVMDTILVVRPRQVQFKWSFDKVTGTVSNTGNTWFKLLIKPGCDSTEEEGDAWYLRPGDVVHQPELRQPGNHYLVYNDKFIKISDSCPAKPPSAD" "i" "Han et al., 2011" -"G6161-MONOMER" "MRVNLLITMIIFALIWPVTALRAAVSKTTWADAPAREFVFVENNSDDNFFVTPGGALDPRLTGANRWTGLKYTGSGTIYQQSLGYIDNGYNTGLYTNWKFDMWLENSPVSSPLTGLRCINWYAGCNMTTSLILPQTTDASGFYGATVTSGGAKWMHGMLSDAFYQYMQQMPVGSSFTMTINACQTSVNYDASSGARCKDQASGNWYVRNVTHTKAANLRLINTHSLAEVFINSDGVPTLGEGNADCRTQTIGSRSGLSCKMVNYTLQTNGLSNTSIHIFPAIANSSLASAVGAYDMQFSLNGSSWKPVSNTAYYYTFNEMKSADSIYVFFSSNFFKQMVNLGISDINTKDLFNFRFQNTTSPESGWYEFSTSNTLIIKPRDFSISIISDEYTQTPSREGYVGSGESALDFGYIVTTSGKTAADEVLIKVTGPAQVIGGRSYCVFSSDDGKAKVPFPATLSFITRNGATKTYDAGCDDSWRDMTDALWLTTPWTDISGEVGQMDKTTVKFSIPMDNAISLRTVDDNGWFGEVSASGEIHVQATWRNIN" "p" "Han et al., 2011" -"G6162-MONOMER" "MPLRRFSPGLKAQFAFGMVFLFVQPDASAADISAQQIGGVIIPQAFSQALQDGMSVPLYIHLAGSQGRQDDQRIGSAFIWLDDGQLRIRKIQLEESEDNASVSEQTRQQLMALANAPFNEALTIPLTDNAQLDLSLRQLLLQLVVKREALGTVLRSRSEDIGQSSVNTLSSNLSYNLGVYNNQLRNGGSNTSSYLSLNNVTALREHHVVLDGSLYGIGSGQQDSELYKAMYERDFAGHRFAGGMLDTWNLQSLGPMTAISAGKIYGLSWGNQASSTIFDSSQSATPVIAFLPAAGEVHLTRDGRLLSVQNFTMGNHEVDTRGLPYGIYDVEVEVIVNGRVISKRTQRVNKLFSRGRGVGAPLAWQVWGGSFHMDRWSENGKKTRPAKESWLAGASTSGSLSTLSWAATGYGYDNQAVGETRLTLPLGGAINVNLQNMLASDSSWSSIGSISATLPGGFSSLWVNQEKTRIGNQLRRSDADNRAIGGTLNLNSLWSKLGTFSISYNDDRRYNSHYYTADYYQNVYSGTFGSLGLRAGIQRYNNGDSNANTGKYIALDLSLPLGNWFSAGMTHQNGYTMANLSARKQFDEGTIRTVGANLSRAISGDTGDDKTLSGGAYAQFDARYASGTLNVNSAADGYVNTNLTANGSVGWQGKNIAASGRTDGNAGVIFNTGLEDDGQISAKINGRIFPLNGKRNYLPLSPYGRYEVELQNSKNSLDSYDIVSGRKSRLTLYPGNVAVIEPEVKQMVTVSGRIRAEDGTLLANARINNHIGRTRTDENGEFVMDVDKKYPTIDFRYSGNKTCEVALELNQARGAVWVGDVVCSGLSSWAAVTQTGEENES" "o" "Han et al., 2011" -"G6163-MONOMER" "MKKHLLPLALLFSGISPAQALDVGDISSFMNSDSSTLSKTIKNSTDSGRLINIRLERLSSPLDDGQVISMDKPDELLLTPASLLLPAQASEVIRFFYKGPADEKERYYRIVWFDQALSDAQRDNANRSAVATASARIGTILVVAPRQANYHFQYANGSLTNTGNATLRILAYGPCLKAANGKECKENYYLMPGKSRRFTRVDTADNKGRVALWQGDKFIPVK" "p" "Han et al., 2011" -"G6164-MONOMER" "MKKKVLAIALVTVFTGMGVAQAADVTAQAVATWSATAKKDTTSKLVVTPLGSLAFQYAEGIKGFNSQKGLFDVAIEGDSTATAFKLTSRLITNTLTQLDTSGSTLNVGVDYNGAAVEKTGDTVMIDTANGVLGGNLSPLANGYNASNRTTAQDGFTFSIISGTTNGTTAVTDYSTLPEGIWSGDVSVQFDATWTS" "p" "Han et al., 2011" -"G6165-MONOMER" "VTWQSDYSRDYEVKNHMECQNRSDKYIWSPHDAYFYKGLSELIVDIDRLIYLSLEKIRKDFVFINLSTDSLSEFINRDNEWLSAVKGKQVVLIAARKSEALANYWYYNSNIRGVVYAGLSRDIRKELVYVINGRFLRKDIKKDKITDREMEIIRMTAQGMQPKSIARIENCSVKTVYTHRRNAEAKLYSKIYKLVQ" "c" "Han et al., 2011" -"G6166-MONOMER" "MQAAPQREETEWRVQSKRGLMPAYRGEAGQQVNIKIMEYSERNVRQLASNEQEEYIPRKINVGVINTPTLIRSDY" "c" "Han et al., 2011" -"G6167-MONOMER" "MKPNIHPEYRTVVFHDTSVDEYFKIGSTIKTDREIELDGVTYPYVTIDVSSKSHPFYTGKLRTVASEGNVARFTQRFGRFVSTKKGA" "c" "Han et al., 2011" -"G6170-MONOMER" "MIRQKILQQLLEWIECNLEHPISIEDIAQKSGYSRRNIQLLFRNFMHVPLGEYIRKRRLCRAAILVRLTAKSMLDIALSLHFDSQQSFSREFKKLFGCSPREYRHRDYWDLANIFPSFLIRQQQKTECRLINFPETPIFGNSFKYDIEVSNKSPDEEVKLRRHHLARCMKNFKTDIYFVSTFEPSTKSVDLLTVETFAGTVCEYADMPKEWTTTRGLYDPTHVIWTQA" "c" "Han et al., 2011" -"G6171-MONOMER" "MEKYLHLLSRGDKIGLTLIRLSIAIVFMWIGLLKFVPYEADSITPFVANSPLMSFFYEHPEDYKQYLTHEGEYKPEARAWQTANNTYGFSNGLGVVEVIIALLVLANPVNRWLGLLGGLMAFTTPLVTLSFLITTPEAWVPALGDAHHGFPYLSGAGRLVLKDTLMLAGAVMIMADSAREILKQRSNESSSTLKTEY" "i" "Han et al., 2011" -"G6173-MONOMER" "MFKKSVLFATLLSGVMAFSTNADDKIILKHISVSSVSASPTVLEDTIADIARKYNASSWKVTSMRIDNNSTATAVLYK" "p" "Han et al., 2011" -"G6174-MONOMER" "MNKYQAVIIGFGKAGKTLAVTLAKAGWRVALIEQSNAMYGGTCINIGCIPTKTLVHDAQQHTDFVRAIQRKNEVVNFLRNKNFHNLADMPNIDVIDGQAEFINNHSLRVHRPEGNLEIHGEKIFINTGAQTVVPPIPGITTTPGVYDSTGLLNLKELPGHLGILGGGYIGVEFASMFANFGSKVTILEAASLFLPREDRDIADNIATILRDQGVDIILNAHVERISHHENQVQVHSEHAQLAVDALLIASGRQPATASLHPENAGIAVNERGAIVVDKRLHTTADNIWAMGDVTGGLQFTYISLDDYRIVRDELLGEGKRSTDDRKNVPYSVFMTPPLSRVGMTEEQARESGADIQVVTLPVAAIPRARVMNDTRGVLKAIVDNKTQRMLGASLLCVDSHEMINIVKMVMDAGLPYSILRDQIFTHPSMSESLNDLFSLVK" "c" "Han et al., 2011" -"G6175-MONOMER" "MDALSRLLMLNAPQGTIDKNCVLGSDWQLPHGAGELSVIRWHALTQGAAKLEMPTGEIFTLRPGNVVLLPQNSAHRLSHVDNESTCIVCGTLRLQHSARYFLTSLPETLFLAPVNHSVEYNWLREAIPFLQQESRSAMPGVDALCSQICATFFTLAVREWIAQVNTEKNILSLLLHPRLGAVIQQMLEMPGHAWTVESLASIAHMSRASFAQLFRDVSGTTPLAVLTKLRLQIAAQMFSRETLPVVVIAESVGYASESSFHKAFVREFGCTPGEYRERVRQLAP" "c" "Han et al., 2011" -"G6176-MONOMER" "VNVNFFVTCIGDALKSRMARDSVLLLEKLGCRVNFPEKQGCCGQPAINSGYIKEAIPGMKNLIAALEDNDDPIISPAGSCTYAVKSYPTYLADEPEWASRAAKVAARMQDLTSFIVNKLGVVDVGASLQGRAVYHPSCSLARKLGVKDEPLTLLKNVRGLELLTFAEQDTCCGFGGTFSVKMAEISGEMVKEKVAHLMEVRPEYLIGADVSCLLNISGRLQREGQKVKVMHIAEVLMSR" "i" "Han et al., 2011" -"G6177-MONOMER" "MSIKTSNTDFKTRIRQQIEDPIMRKAVANAQQRIGANRQKMVDELGHWEEWRDRAAQIRDHVLSNLDAYLYQLSEKVTQNGGHVYFARTKEDATRYILQVAQRKNARKVVKSKSMVTEEIGVNHVLQDAGIQVIETDLGEYILQLDQDPPSHVVVPAIHKDRHQIRRVLHERLGYEGPETPEAMTLFIRQKIREDFLSAEIGITGCNFAVAETGSVCLVTNEGNARMCTTLPKTHIAVMGMERIAPTFAEVDVLITMLARSAVGARLTGYNTWLTGPREAGHVDGPEEFHLVIVDNGRSEVLASEFRDVLRCIRCGACMNTCPAYRHIGGHGYGSIYPGPIGAVISPLLGGYKDFKDLPYACSLCTACDNVCPVRIPLSKLILRHRRVMAEKGITAKAEQRAIKMFAYANSHPGLWKVGMMAGAHAASWFINGGKTPLKFGAISDWMEARDLPEADGESFRSWFKKHQAQEKKNG" "i" "Han et al., 2011" -"G6178-MONOMER" "MDNRGEFLNNVAQALGRPLRLEPQAEDAPLNNYANERLTQLNQQQRCDAFIQFASDVMLTRCELTSEAKAAEAAIRLCKELGDQSVVISGDTRLEELGISERLQQECNAVVWDPAKGAENISQAEQAKVGVVYAEYGLTESGGVVLFSAAERGRSLSLLPEYSLFILRKSTILPRVAQLAEKLHQKAQAGERMPSCINIISGPSSTADIELIKVVGVHGPVKAVYLIIEDC" "c" "Han et al., 2011" -"G6180-MONOMER" "MREQIKQDIDLIEILFYLKKKIRVILFIMAICMAMVLLFLYINKDNIKVIYSLKINQTTPGILVSCDSNNNFACQTTMTEDVIQRITTFFHTSPDVKNREIRLEWSGDKRALPTAEEEISRVQASIIKWYASEYHNGRQVLDEIQTPSAINSELYTKMIYLTRNWSLYPNGDGCVTISSPEIKNKYPAAICLALGFFLSIVISVMFCLVKKMVDEYQQNSGQ" "i" "Han et al., 2011" -"G6181-MONOMER" "MNSIFTEENLLAFTTAARFGSFSKAAEELGLTTSAISYTIKRMETGLDVVLFTRSTRSIELTESGRYFFRKATDLLNDFYAIKRRIDTISQGIEARVRICINQLLYTPKHTARLLQVLKKQFPTCQITVTTEVYNGVWDAIINNQANIAIGAPDTLLDGGGIDYTEIGAIRWAFAIAPDHPLAFVPEPIAESQLRLYPNIMVEDTAHTINKKVGWLLHGQESILVPDFNTKCQCQILGEGIGFLPDYMVREAMTQSLLVTRQIHNPRQDSRMLLATQHSATGQVTQWIKKQFAPNGILTGIYQDLLHREN" "c" "Han et al., 2011" -"G6182-MONOMER" "MNGLTATGVTVGICAGLWQLVSSHVGLSQGWELLGTIGFVAFCSFYAAGGGKSGFIRSLAVNYSGMVWAFFAALTAGWLASVSGLSAFWASVITTVPFSAVVVWQGRFWLLSFIPGGFLGMTLFFASGMNWTVTLLGFLAGNCVGVISEYGGQKLSEATTKRDGY" "i" "Han et al., 2011" -"G6183-MONOMER" "MSIKNLPADYLLAAQQGDIDKVKTCLALGVDINTCDRQGKTAITLASLYQQYACVQALIDAGADINKQDHTCLNPFLISCLNDDLTLLRIILPAKPDLNCVTRFGGVGLTPACEKGHLSIVKELLAHTEINVNQTNHVGWTPLLEAIVLNDGGIKQQAIVQLLLEHGASPHLTDKYGKTPLELARERGFEEIAQLLIAAGA" "c" "Han et al., 2011" -"G6184-MONOMER" "VWALTADADFLAQRGQGQVEQVFARAVNIALPARQQLLTLLCEEYDNAPNSCRLALTHFDDLFRHGDKVQFDDQGITVGQHLHIEMSRCRRWLSPTLQMTAVNFHLIAWLQWHDIIHQHLGENETLFNYRGDNPFYQALNKELHIKRRAVIQAVNDKQNIASAVASMMGLGIGLTPSADDYLTGLALILFIPGHPAEKYKEEFYLGLQRGKNNTTLLSAITLEAALQQRCRENIHRFIHNIIYDIPGNATQAIEKIKHIGSSSGCDMLYGMADGCALSQTYGGNYVS" "c" "Han et al., 2011" -"G6185-MONOMER" "MSVKIVIKPNTYFDSVSLMSISTRANKLDGVEQAFVAMATEMNKGVLKNLGLLTPELEQAKNGDLMIVINGKSGADNEQLLVEIEELFNTKAQSGSHEARYATIGSAKKHIPESNLAVISVNGLFAAREARQALQNDLNVMLFSDNVSVEDELALKQLAHEKGLLMMGPDCGTAIINGAALCFGNAVRRGNIGIVGASGTGSQELSVRIHEFGGGVSQLIGTGGRDLSEKIGGLMMLDAIGMLENDPQTEIIALISKPPAPAVARKVLERARACRKPVVVCFLDRGETPVDEQGLQFARGTKEAALKAVMLSGVKQENLDLHTLNQPLIADVRARLQPQQKYIRGLFCGGTLCDETMFAVMEKHGDVYSNIQPDPEFRLKDINRSIKHTFLDFGDDDFTNGKPHPMIDPTNRISRLIEEARDPEVAVIVMDFVLGFGSHEDPVGSTIETIKEAKAIAAAEGRELIILAYVLGTDLDTPSLEQQSQMLLDAGVILASSSTNTGLLAREFICKGEEA" "c" "Han et al., 2011" -"G6186-MONOMER" "MSQSLFSQPLNVINVGIAMFSDDLKKQHVEVTQLDWTPPGQGNMQVVQALDNIADSPLADKIAAANQQALERIIQSHPVLIGFDQAINVVPGMTAKTILHAGPPITWEKMCGAMKGAVTGALVFEGLAKDLDEAAELAASGEITFSPCHEHDCVGSMAGVTSASMFMHIVKNKTYGNIAYTNMSEQMAKILRMGANDQSVIDRLNWMRDVQGPILRDAMKIIGEIDLRLMLAQALHMGDECHNRNNAGTTLLIQALTPGIIQAGYSVEQQREVFEFVASSDYFSGPTWMAMCKAAMDAAHGIEYSTVVTTMARNGVEFGLRVSGLPGQWFTGPAQQVIGPMFAGYKPEDSGLDIGDSAITETYGIGGFAMATAPAIVALVGGTVEEAIDFSRQMREITLGENPNVTIPLLGFMGVPSAIDITRVGSSGILPVINTAIAHKDAGVGMIGAGIVHPPFACFEKAILGWCERYGV" "c" "Han et al., 2011" -"G6188-MONOMER" "MKELVVVAIGGNSIIKDNASQSIEHQAEAVKAVADTVLEMLASDYDIVLTHGNGPQVGLDLRRAEIAHKREGLPLTPLANCVADTQGGIGYLIQQALNNRLARHGEKKAVTVVTQVEVDKNDPGFAHPTKPIGAFFSDSQRDELQKANPDWCFVEDAGRGYRRVVASPEPKRIVEAPAIKALIQQGFVVIGAGGGGIPVVRTDAGDYQSVDAVIDKDLSTALLAREIHADILVITTGVEKVCIHFGKPQQQALDRVDIATMTRYMQEGHFPPGSMLPKIIASLTFLEQGGKEVIITTPECLPAALRGETGTHIIKT" "c" "Han et al., 2011" -"G6189-MONOMER" "MKESNSRREFLSQSGKMVTAAALFGTSVPLAHAAVAGTLNCEANNTMKITDPHYYLDNVLLETGFDYENGVAVQTRTARQTVEIQDGKIVALRENKLHPDATLPHYDAGGKLMLPTTRDMHIHLDKTFYGGPWRSLNRPAGTTIQDMIKLEQKMLPELQPYTQERAEKLIDLLQSKGTTIARSHCNIEPVSGLKNLQNLQAVLARRQAGFECEIVAFPQHGLLLSKSEPLMREAMQAGAHYVGGLDPTSVDGAMEKSLDTMFQIALDYDKGVDIHLHETTPAGVAAINYMVETVEKTPQLKGKLTISHAFALATLNEQQVDELANRMVVQQISIASTVPIGTLHMPLKQLHDKGVKVMTGTDSVIDHWSPYGLGDMLEKANLYAQLYIRPNEQNLSRSLFLATGDVLPLNEKGERVWPKAQDDASFVLVDASCSAEAVARISPRTATFHKGQLVWGSVAG" "p" "Han et al., 2011" -"G6190-MONOMER" "MKIKAVGAYSAKQPLEPMDITRREPGPNDVKIEIAYCGVCHSDLHQVRSEWAGTVYPCVPGHEIVGRVVAVGDQVEKYAPGDLVGVGCIVDSCKHCEECEDGLENYCDHMTGTYNSPTPDEPGHTLGGYSQQIVVHERYVLRIRHPQEQLAAVAPLLCAGITTYSPLRHWQAGPGKKVGVVGIGGLGHMGIKLAHAMGAHVVAFTTSEAKREAAKALGADEVVNSRNADEMAAHLKSFDFILNTVAAPHNLDDFTTLLKRDGTMTLVGAPATPHKSPEVFNLIMKRRAIAGSMIGGIPETQEMLDFCAEHGIVADIEMIRADQINEAYERMLRGDVKYRFVIDNRTLTD" "c" "Han et al., 2011" -"G6191-MONOMER" "MISLKAPHNNLMPYTQQSILNTVKNNQLPEDIKSSLVSCVDIFKVLIKQYYDYPYDCRDDLVDDDKLIHLMAAVRDCEWSDDNALTINVQFNDFPGFYDWMDYPDHPVKFVFHILENQKGTVWVYDQDDAFLDIKANVQAGRFTGLKKLVQFIDSVRTDCKCILLEYHMPLLRIFPKGKECMHVEKWLREMSSIPETDAPIKQALAHGLLLHLKNIYPVFPESLVMLLLSVLDVKTYRDDARLNEWISNRVQELGDRYYPVNKHVKIRYTL" "c" "Han et al., 2011" -"G6192-MONOMER" "MAVQLFKTLLNQIPLLSSLQSGTLPLFGYSGWGRPMKKAHTGESGLKWEAKDSSKLIGNKDHALRGLSSPMAVIRQIRLIT" "c" "Han et al., 2011" -"G6193-MONOMER" "MMQLVHLFMDEITMDPLHAVYLTVGLFVITFFNPGANLFVVVQTSLASGRRAGVLTGLGVALGDAFYSGLGLFGLATLITQCEEIFSLIRIVGGAYLLWFAWCSMRRQSTPQMSTLQQPISAPWYVFFRRGLITDLSNPQTVLFFISIFSVTLNAETPTWARLMAWAGIVLASIIWRVFLSQAFSLPAVRRAYGRMQRVASRVIGAIIGVFALRLIYEGVTQR" "i" "Han et al., 2011" -"G6194-MONOMER" "MKIISKMLVGALALAVTNVYAAELMTKAEFEKVESQYEKIGDISTSNEMSTADAKEDLIKKADEKGADVLVLTSGQTDNKIHGTANIYKKK" "p" "Han et al., 2011" -"G6195-MONOMER" "MAHPPRLNDDKPVIWTVSVTRLFELFRDISLEFDHLANITPIQLGFEKAVTYIRKKLANERCDAIIAAGSNGAYLKSRLSVPVILIKPSGYDVLQALAKAGKLTSSIGVVTYQETIPALVAFQKTFNLRLDQRSYITEEDARGQINELKANGTEAVVGAGLITDLAEEAGMTGIFIYSAATVRQAFSDALDMTRMSLRHNTHDATRNALRTRYVLGDMLGQSPQMEQVRQTILLYARSSAAVLIEGETGTGKELAAQAIHREYFARHDARQGKKSHPFVAVNCGAIAESLLEAELFGYEEGAFTGSRRGGRAGLFEIAHGGTLFLDEIGEMPLPLQTRLLRVLEEKEVTRVGGHQPVPVDVRVISATHCNLEEDMQQGRFRRDLFYRLSILRLQLPPLRERVADILPLAESFLKVSLAALSAPFSAALRQGLQASETVLLHYDWPGNIRELRNMMERLALFLSVEPTPDLTPQFMQLLLPELARESAKTPAPRLLTPQQALEKFNGDKTAAANYLGISRTTFWRRLKS" "c" "Han et al., 2011" -"G6196-MONOMER" "MSLHSPGKAFRAALTKENPLQIVGTINANHALLAQRAGYQAIYLSGGGVAAGSLGLPDLGISTLDDVLTDIRRITDVCSLPLLVDADIGFGSSAFNVARTVKSMIKAGAAGLHIEDQVGAKRCGHRPNKAIVSKEEMVDRIRAAVDAKTDPDFVIMARTDALAVEGLDAAIERAQAYVEAGAEMLFPEAITELAMYRQFADAVQVPILANITEFGATPLFTTDELRSAHVAMALYPLSAFRAMNRAAEHVYNVLRQEGTQKSVIDTMQTRNELYESINYYQYEEKLDNLFARSQVK" "c" "Han et al., 2011" -"G6198-MONOMER" "MSDTTILQNSTHVIKPKKSVALSGVPAGNTALCTVGKSGNDLHYRGYDILDLAKHCEFEEVAHLLIHGKLPTRDELAAYKTKLKALRGLPANVRTVLEALPAASHPMDVMRTGVSALGCTLPEKEGHTVSGARDIADKLLASLSSILLYWYHYSHNGERIQPETDDDSIGGHFLHLLHGEKPSQSWEKAMHISLVLYAEHEFNASTFTSRVIAGTGSDMYSAIIGAIGALRGPKHGGANEVSLEIQQRYETPDEAEADIRKRVENKEVVIGFGHPVYTIADPRHQVIKRVAKQLSQEGGSLKMYNIADRLETVMWESKKMFPNLDWFSAVSYNMMGVPTEMFTPLFVIARVTGWAAHIIEQRQDNKIIRPSANYVGPEDRPFVALDKRQ" "c" "Han et al., 2011" -"G6199-MONOMER" "MSAQINNIRPEFDREIVDIVDYVMNYEISSKVAYDTAHYCLLDTLGCGLEALEYPACKKLLGPIVPGTVVPNGVRVPGTQFQLDPVQAAFNIGAMIRWLDFNDTWLAAEWGHPSDNLGGILATADWLSRNAVASGKAPLTMKQVLTAMIKAHEIQGCIALENSFNRVGLDHVLLVKVASTAVVAEMLGLTREEILNAVSLAWVDGQSLRTYRHAPNTGTRKSWAAGDATSRAVRLALMAKTGEMGYPSALTAPVWGFYDVSFKGESFRFQRPYGSYVMENVLFKISFPAEFHSQTAVEAAMTLYEQMQAAGKTAADIEKVTIRTHEACIRIIDKKGPLNNPADRDHCIQYMVAIPLLFGRLTAADYEDNVAQDKRIDALREKINCFEDPAFTADYHDPEKRAIANAITLEFTDGTRFEEVVVEYPIGHARRRQDGIPKLVDKFKINLARQFPTRQQQRILEVSLDRARLEQMPVNEYLDLYVI" "c" "Han et al., 2011" -"G6200-MONOMER" "MSFSEFYQRSINEPEQFWAEQARRIDWQTPFTQTLDHSNPPFARWFCEGRTNLCHNAIDRWLEKQPEALALIAVSSETEEERTFTFRQLHDEVNAVASMLRSLGVQRGDRVLVYMPMIAEAHITLLACARIGAIHSVVFGGFASHSVAARIDDAKPVLIVSADAGARGGKIIPYKKLLDDAISQAQHQPRHVLLVDRGLAKMARVSGRDVDFASLRHQHIGARVPVAWLESNETSCILYTSGTTGKPKGVQRDVGGYAVALATSMDTIFGGKAGSVFFCASDIGWVVGHSYIVYAPLLAGMATIVYEGLPTWPDCGVWWTIVEKYQVSRMFSAPTAIRVLKKFPTAEIRKHDLSSLEVLYLAGEPLDEPTASWVSNTLDVPVIDNYWQTESGWPIMAIARGLDDRPTRLGSPGVPMYGYNVQLLNEVTGEPCGVNEKGMLVVEGPLPPGCIQTIWGDDGRFVKTYWSLFSRPVYATFDWGIRDADGYHFILGRTDDVINVAGHRLGTREIEESISSHPGVAEVAVVGVKDALKGQVAVAFVIPKESDSLEDRDVAHSQEKAIMALVDSQIGNFGRPAHVWFVSQLPKTRSGKMLRRTIQAICEGRDPGDLTTIDDPASLDQIRQAMEE" "c" "Han et al., 2011" -"G6201-MONOMER" "MQNNEQTEYKTVRGLTRGLMLLNMLNKLDGGASVGLLAELSGLHRTTVRRLLETLQEEGYVRRSPSDDSFRLTIKVRQLSEGFRDEQWISALAAPLLGDLLREVVWPTDVSTLDVDAMVVRETTHRFSRLSFHRAMVGRRLPLLKTASGLTWLAFCPEQDRKELIEMLASRPGDDYQLAREPLKLEAILARARKEGYGQNYRGWDQEEKIASIAVPLRSEQRVIGCLNLVYMASAMTIEQAAEKHLPALQRVAKQIEEGVESQAILVAGRRSGMHLR" "c" "Han et al., 2011" -"G6207-MONOMER" "MAKLTLQEQLLKAGLVTSKKAAKVERTAKKSRVQAREARAAVEENKKAQLERDKQLSEQQKQAALAKEYKAQVKQLIEMNRITIANGDIGFNFTDGNLIKKIFVDKLTQAQLINGRLAIARLLVDNNSEGEYAIIPASVADKIAQRDASSIVLHSALSAEEQDEDDPYADFKVPDDLMW" "c" "Han et al., 2011" -"G6208-MONOMER" "MELIEKHVSFGGWQNMYRHYSQSLKCEMNVGVYLPPKAANEKLPVLYWLSGLTCNEQNFITKSGMQRYAAEHNIIVVAPDTSPRGSHVADADRYDLGQGAGFYLNATQAPWNEHYKMYDYIRNELPDLVMHHFPATAKKSISGHSMGGLGALVLALRNPDEYVSVSAFSPIVSPSQVPWGQQAFAAYLAENKDAWLDYDPVSLISQGQRVAEIMVDQGLSDDFYAEQLRTPNLEKICQEMNIKTLIRYHEGYDHSYYFVSSFIGEHIAYHANKLNMR" "c" "Han et al., 2011" -"G6209-MONOMER" "MPSTPEEKKKVLTRVRRIRGQIDALERSLEGDAECRAILQQIAAVRGAANGLMAEVLESHIRETFDRNDCYSREVSQSVDDTIELVRAYLK" "c" "Han et al., 2011" -"G6210-MONOMER" "MIKRTLLAAAIFSALPAYAGLTSITAGYDFTDYSGDHGNRNLAYAELVAKVENATLLFNLSQGRRDYETEHFNATRGQGAVWYKWNNWLTTRTGIAFADNTPVFARQDFRQDINLALLPKTLFTTGYRYTKYYDDVEVDAWQGGVSLYTGPVITSYRYTHYDSSDAGGSYSNMISVRLNDPRGTGYTQLWLSRGTGAYTYDWTPETRYGSMKSVSLQRIQPLTEQLNLGLTAGKVWYDTPTDDFNGLQLAARLTWKF" "p" "Han et al., 2011" -"G6211-MONOMER" "VSVRTPEGIIATGCDKLGCYIGQRSRLGVQVIILPGRIISPNTQLGPRVIVERNLPTGTYSLRQELIRTGD" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6212-MONOMER" "VIVLILVFRLVIGEQMIDVLGPEKRRRRTTQEKIAIVQQSFEPGMTVSLVARQHGVAASQLFLWRKQYQEGSLTAVAAGEQVVPASELAAAMKQIKELQRLLGKKTMENELLKEAVEYGRAKKWIAHAPLLPGDGE" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6214-MONOMER" "MPSGLFMDLLPFLLDANLSATNPPAIPHWWKRQPLIPNLLSQELKNYLKLNVKEKNIQIADQVIIDETAGEVVIGANTRICHGAVIQGPVVIGANCLIGNWICPYISRHLLSLNPLQARCRRYSRGER" "m" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6215-MONOMER" "MKTWIFICMSIAMLLWFLSTLRRKPSQKKGCIDAIIPAYNEGPCLAQSLDNLLRNPYFCRVICVNDGSTDNTEAVMAEVKRKWGDRFVAVTQKNTGKGGALMNGLNYATCDQVFLSDADTYVPPDQDGMGYMLAEIERGADAVGGIPSTALKGAGLLPHIRATVKLPMIVMKRTLQQLLGGAPFIISGACGMFRTDVLRKFGFSDRTKVEDLDLTWTLVANGYRIRQANRCIVYPQECNSPREEWRRWRRWIVGYAVCMRLHKRLLFSRFGIFSIFPMLLVVLYGVGIYLTTWFNEFITTGPHGVVLAMFPLIWVGVVCVIGAFSAWFHRCWLLVPLAPLSVVYVLLAYAIWIIYGLIAFFTGREPQRDKPTRYSALVEASTAYSQPSVTGTEKLSEA" "m" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6216-MONOMER" "VDKVLDSALLSSANKRKGILAIGAHPDDIELGCGASLARLAQKGIYIAAVVMTTGNSGTDGIIDRHEESRNALKILGCHQTIHLNFADTRAHLQLNDMISALEDIIKNQIPSDVEIMRVYTMHDADRHQDHLAVYQASMVACRTIPQILGYETPSTWLSFMPQVFESVKEEYFTVKLAALKKHKS" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6222-MONOMER" "MHSWKKKLVVSQLALACTLAITSQANAANYDTWTYIDNPVTALDWDHMDKAGTVDGNYVNYSGFVYYNNTNGDFDQSFNGDTVNGTISTYYLNHDYADSTANQLDISNSVIHGSITSMLPGGYYDRFDADGNNLGGYDFYTDAVVDTHWRDGDVFTLNIANTTIDDDYEALYFTDSYKDGDVTKHTNETFDTSEGVAVNLDVESNINISNNSRVAGIALSQGNTYNETYTTESHTWDNNISVKDSTVTSGSNYILDSNTYGKTGHFGNSDEPSDYAGPGDVAMSFTASGSDYAMKNNVFLSNSTLMGDVAFTSTWNSNFDPNGHDSNGDGVKDTNGGWTDDSLNVDELNLTLDNGSKWVGQAIYNVAETSAMYDVATNSLTPDATYENNDWKRVVDDKVFQSGVFNVALNNGSEWDTTGRSIVDTLTVNNGSQVNVSESKLTSDTIDLTNGSSLNIGEDGYVDTDHLTINSYSTVALTESTGWGAD" "o" "Han et al., 2011" -"G6225-MONOMER" "LDVNVDQFDTEAFRTDKLELTSGNIADHNGNVVSGVFDIHSSDYVLNADLVNDRTWDTSKSNYGYGIVAMNSDGHLTINGNGDVDNGTELDNSSVDNVVAATGNYKVRIDNATGAGAIADYKDKEIIYVNDVNSNATFSAANKADLGAYTYQAEQRGNTVVLQQMELTDYANMALSIPSANTNIWNLEQDTVGTRLTNSRHGLADNGGAWVSYFGGNFNGDNGTINYDQDVNGIMVGVDTKIDGNNAKWIVGAAAGFAKGDMNDRSGQVDQDSQTAYIYSSAHFANNVFVDGSLSYSHFNNDLSATMSNGTYVDGSTNSDAWGFGLKAGYDFKLGDAGYVTPYGSVSGLFQSGDDYQLSNDMKVDGQSYDSMRYELGVDAGYTFTYSEDQALTPYFKLAYVYDDSNNDNDVNGDSIDNGTEGSAVRVGLGTQFSFTKNFSAYTDANYLGGGDVDQDWSANVGVKYTW" "m" "Unambiguous EcoCyc data" -"G6226-MONOMER" "MPVKDLTGITAKDAQMLSVVKPLQEFGKLDKCLSRYGTRFEFNNEKQVIFSSDVNNEDTFVILEGVISLRREENVLIGITQAPYIMGLADGLMKNDIPYKLISEGNCTGYHLPAKQTITLIEQNQLWRDAFYWLAWQNRILELRDVQLIGHNSYEQIRATLLSMIDWNEELRSRIGVMNYIHQRTRISRSVVAEVLAALRKGGYIEMNKGKLVAINRLPSEY" "c" "Han et al., 2011" -"G6227-MONOMER" "MSRVNPLSSLSLLAVLVLAGCSSQAPQPLKKGEKAIDVASVVRQKMPASVKDRDAWAKDLATTFESQGLAPTLENVCSVLAVAQQESNYQADPAVPGLSKIAWQEIDRRAERMHIPAFLVHTALKIKSPNGKSYSERLDSVRTEKQLSAIFDDLINMVPMGQTLFGSLNPVRTGGPMQVSIAFAEQHTKGYPWKMDGTVRQEVFSRRGGLWFGTYHLLNYPASYSAPIYRFADFNAGWYASRNAAFQNAVSKASGVKLALDGDLIRYDSKEPGKTELATRKLAAKLGMSDSEIRRQLEKGDSFSFEETALYKKVYQLAETKTGKSLPREMLPGIQLESPKITRNLTTAWFAKRVDERRARCMKQ" "p" "Han et al., 2011" -"G6228-MONOMER" "MADFTLSKSLFSGKYRNASSTPGNIAYALFVLFCFWAGAQLLNLLVHAPGVYERLMQVQETGRPRVEIGLGVGTIFGLIPFLVGCLIFAVVALWLHWRHRRQ" "i" "Han et al., 2011" -"G6229-MONOMER" "MNLPVKIRRDWHYYAFAIGLIFILNGVVGLLGFEAKGWQTYAVGLVTWVISFWLAGLIIRRRDEETENAQ" "i" "Han et al., 2011" -"G6230-MONOMER" "MTIWVDADACPNVIKEILYRAAERMQMPLVLVANQSLRVPPSRFIRTLRVAAGFDVADNEIVRQCEAGDLVITADIPLAAEAIEKGAAALNPRGERYTPATIRERLTMRDFMDTLRASGIQTGGPDSLSQRDRQAFAAELEKWWLEVQRSRG" "c" "Han et al., 2011" -"G6231-MONOMER" "DIVAELATIKDKSDDEWWRALLQSRNDHLRQTALRNAHTPALLLTTLTEPQDRSLAINNPQLAADVKTAWLKEDPSLLLFVEQPDLSLLRDLVKTGATRKIRSEARHRLEEKQ" "c" "Han et al., 2011" -"G6236-MONOMER" "MQYNPLGKTDLRVSRLCLGCMTFGEPDRGNHAWTLPEESSRPIIKRALEGGINFFDTANSYSDGSSEEIVGRALRDFARREDVVVATKVFHRVGDLPEGLSRAQILRSIDDSLRRLGMDYVDILQIHRWDYNTPIEETLEALNDVVKAGKARYIGASSMHASQFAQALELQKQHGWAQFVSMQDHYNLIYREEEREMLPLCYQEGVAVIPWSPLARGRLTRPWGETTARLVSDEVGKNLYKESDENDAQIAERLTGVSEELGATRAQVALAWLLSKPGIAAPIIGTSREEQLDELLNAVDITLKPEQIAELETPYKPHPVVGFK" "c" "Han et al., 2011" -"G6240-MONOMER" "MPSFDIVSEVDLQEARNAVDNASREVESRFDFRNVEASFELNDASKTIKVLSESDFQVNQLLDILRAKLLKRGIEGSSLDVPENIVHSGKTWFVEAKLKQGIESATQKKIVKMIKDSKLKVQAQIQGDEIRVTGKSRDDLQAVMAMVRGGDLGQPFQFKNFRD" "c" "Han et al., 2011" -"G6242-MONOMER" "MMDSLRTAANSLVLKIIFGIIIVSFILTGVSGYLIGGGNNYAAKVNDQEISRGQFENAFNSERNRMQQQLGDQYSELAANEGYMKTLRQQVLNRLIDEALLDQYARELKLGISDEQVKQAIFATPAFQVDGKFDNSRYNGILNQMGMTADQYAQALRNQLTTQQLINGVAGTDFMLKGETDELAALVAQQRVVREATIDVNALAAKQPVTEQEIASYYEQNKNNFMTPEQFRVSYIKLDAATMQQPVSDADIQSYYDQHQDQFTQPQRTRYSIIQTKTEDEAKAVLDELNKGGDFAALAKEKSADIISARNGGDMGWLEDATIPDELKNAGLKEKGQLSGVIKSSVGFLIVRLDDIQPAKVKSLDEVRDDIAAKVKHEKALDAYYALQQKVSDAASNDTESLAGAEQAAGVKATQTGWFSKDNLPEELNFKPVADAIFNGGLVGENGAPGINSDIITVDGDRAFVLRISEHKPEAVKPLADVQEQVKALVQHNKAEQQAKVDAEKLLVDLKAGKGAEAMQAAGLKFGEPKTLSRSGRDPISQAAFALPLPAKDKPSYGMATDMQGNVVLLALDEVKQGSMPEDQKKAMVQGITQNNAQIVFEALMSNLRKEAKIKIGDALEQQ" "p" "Han et al., 2011" -"G6243-MONOMER" "MKHGIKALLITLSLACAGMSHSALAAASVAKPTAVETKAEAPAAQSKAAVPAKASDEEGTRVSINNASAEELARAMNGVGLKKAQAIVSYREEYGPFKTVEDLKQVPGMGNSLVERNLAVLTL" "p" "Han et al., 2011" -"G6244-MONOMER" "MQTQIKVRGYHLDVYQHVNNARYLEFLEEARWDGLENSDSFQWMTAHNIAFVVVNININYRRPAVLSDLLTITSQLQQLNGKSGILSQVITLEPEGQVVADALITFVCIDLKTQKALALEGELREKLEQMVK" "c" "Han et al., 2011" -"G6245-MONOMER" "MKRAVVVFSGGQDSTTCLVQALQQYDEVHCVTFDYGQRHRAEIDVARELALKLGARAHKVLDVTLLNELAVSSLTRDSIPVPDYEPEADGIPNTFVPGRNILFLTLAAIYAYQVKAEAVITGVCETDFSGYPDCRDEFVKALNHAVSLGMAKDIRFETPLMWIDKAETWALADYYGKLDLVRNETLTCYNGFKGDGCGHCAACNLRANGLNHYLADKPTVMAAMKQKTGLR" "c" "Han et al., 2011" -"G6246-MONOMER" "MARLAAFDMDGTLLMPDHHLGEKTLSTLARLRERDITLTFATGRHALEMQHILGALSLDAYLITGNGTRVHSLEGELLHRDDLPADVAELVLYQQWDTRASMHIFNDDGWFTGKEIPALLQAFVYSGFRYQIIDVKKMPLGSVTKICFCGDHDDLTRLQIQLYEALGERAHLCFSATDCLEVLPVGCNKGAALTVLTQHLGLSLRDCMAFGDAMNDREMLVSVGSGFIMGNAMPQLRAELPHLPVIGHCRNQAVSHYLTHWLDYPHLPYSPE" "c" "Han et al., 2011" -"G6247-MONOMER" "MLDKIDRKLLALLQQDCTLSLQALAEAVNLTTTPCWKRLKRLEDDGILIGKVALLDPEKIGLGLTAFVLIKTQHHSSEWYCRFVTVVTEMPEVLGFWRMAGEYDYLMRVQVADMKRYDEFYKRLVNSVPGLSDVTSSFAMEQIKYTTSLPIE" "c" "Han et al., 2011" -"G6250-MONOMER" "MKLVHMASGLAVAIALAACADKSADIQTPAPAANTSISATQQPAIQQPNVSGTVWIRQKVALPPDAVLTVTLSDASLADAPSKVLAQKAVRTEGKQSPFSFVLSFNPADVQPNARILLSAAITVNDKLVFITDTVQPVINQGGTKADLTLVPVQQTAVPVQASGGATTTVPSTSPTQVNPSSAVPAPTQY" "p" "Han et al., 2011" -"G6251-MONOMER" "MLVSCAMRLHSGVFPDYAEKLPQEEKMEKEDSFPQRVWQIVAAIPEGYVTTYGDVAKLAGSPRAARQVGGVLKRLPEGSTLPWHRVVNRHGTISLTGPDLQRQRQALLAEGVMVSGSGQIDLQRYRWNY" "c" "Han et al., 2011" -"G6252-MONOMER" "VRTRHLVGLISGVLILSVLLPVGLSIWLAHQQVETSFIEELDTYSSRVAIRANKVATQGKDALQELERWQGAACSEAHLMEMRRVSYSYRYIQEVAYIDNNVPQCSSLEHESPPDTFPEPGKISKDGYRVWLTSHNDLGIIRYMVAMGTAHYVVMIDPASFIDVIPYSSWQIDAAIIGNAHNVVITSSDEIAQGIITRLQKTPGEHIENNGIIYDILPLPEMNISIITWASTKMLQKGWHRQVFIWLPLGLVIGLLAAMFVLRILRRIQSPHHRLQDAIENRDICVHYQPIVSLANGKIVGAEALARWPQTDGSWLSPDSFIPLAQQTGLSEPLTLLIIRSVFEDMGDWLRQHPQQHISINLESPVLTSEKIPQLLRDMINHYQVNPRQIALELTEREFADPKTSAPIISRYREAGHEIYLDDFGTGYSSLSYLQDLDVDILKIDKSFVDALEYKNVTPHIIEMAKTLKLKMVAEGIETSKQEEWLRQHGVHYGQGWLYSKALPKEDFLRWAEQHL" "i" "Han et al., 2011" -"G6253-MONOMER" "MTEIQRLLTETIESLNTREKRDNKPRFSISFIRKHPGLFIGMYVAFFATLAVMLQSETLSGSVWLLVVLFILLNGFFFFDVYPRYRYEDIDVLDFRVCYNGEWYNTRFVPAALVEAILNSPRVADVHKEQLQKMIVRKGELSFYDIFTLARAESTS" "i" "Han et al., 2011" -"G6255-MONOMER" "MTMFQYYKRSRHFVFSAFIAFVFVLLCQNTAFARASSNGDLPTKADLQAQLDSLNKQKDLSAQDKLVQQDLTDTLATLDKIDRIKEETVQLRQKVAEAPEKMRQATAALTALSDVDNDEETRKILSTLSLRQLETRVAQALDDLQNAQNDLASYNSQLVSLQTQPERVQNAMYNASQQLQQIRSRLDGTDVGETALRPSQKVLMQAQQALLNAEIDQQRKSLEGNTVLQDTLQKQRDYVTANSARLEHQLQLLQEAVNSKRLTLTEKTAQEAVSPDEAARIQANPLVKQELEINQQLSQRLITATENGNQLMQQNIKVKNWLERALQSERNIKEQIAVLKGSLLLSRILYQQQQTLPSADELENMTNRIADLRLEQFEVNQQRDALFQSDAFVNKLEEGHTNEVNSEVHDALLQVVDMRRELLDQLNKQLGNQLMMAINLQINQQQLMSVSKNLKSILTQQIFWVNSNRPMDWDWIKAFPQSLKDEFKSMKITVNWQKAWPAVFIAFLAGLPLLLIAGLIHWRLGWLKAYQQKLASAVGSLRNDSQLNTPKAILIDLIRALPVCLIILAVGLILLTMQLNISELLWSFSKKLAIFWLVFGLCWKVLEKNGVAVRHFGMPEQQTSHWRRQIVRISLALLPIHFWSVVAELSPLHLMDDVLGQAMIFFNLLLIAFLVWPMCRESWRDKESHTMRLVTITVLSIIPIALMVLTATGYFYTTLRLAGRWIETVYLVIIWNLLYQTVLRGLSVAARRIAWRRALARRQNLVKEGAEGAEPPEEPTIALEQVNQQTLRITMLLMFALFGVMFWAIWSDLITVFSYLDSITLWHYNGTEAGAAVVKNVTMGSLLFAIIASMVAWALIRNLPGLLEVLVLSRLNMRQGASYAITTILNYIIIAVGAMTVFGSLGVSWDKLQWLAAALSVGLGFGLQEIFGNFVSGLIILFERPVRIGDTVTIGSFSGTVSKIRIRATTITDFDRKEVIIPNKAFVTERLINWSLTDTTTRLVIRLGVAYGSDLEKVRKVLLKAATEHPRVMHEPMPEVFFTAFGASTLDHELRLYVRELRDRSRTVDELNRTIDQLCRENDINIAFNQLEVHLHNEKGDEVTEVKRDYKGDDPTPAVG" "i" "Han et al., 2011" -"G6258-MONOMER" "MDLLYRVKTLWAALRGNHYTWPAIDITLPGNRHFHLIGSIHMGSHDMAPLPTRLLKKLKNADALIVEADVSTSDTPFANLPACEALEERISEEQLQNLQHISQEMGISPSLFSTQPLWQIAMVLQATQAQKLGLRAEYGIDYQLLQAAKQQHKPVIELEGAENQIAMLLQLPDKGLALLDDTLTHWHTNARLLQQMMSWWLNAPPQNNDITLPNTFSQSLYDVLMHQRNLAWRDKLRAMPPGRYVVAVGALHLYGEGNLPQMLR" "c" "Han et al., 2011" -"G6259-MONOMER" "MKQATRKPTTPGDILLYEYLEPLDLKINELAELLHVHRNSVSALINNNRKLTTEMAFRLAKVFDTTVDFWLNLQAAVDLWEVENNMRTQEELGRIETVAEYLARREERAKKVA" "c" "Han et al., 2011" -"G6260-MONOMER" "MSQTIDLTLDGLSCGHCVKRVKESLEQRPDVEQADVSITEAHVTGTASAEQLIETIKQAGYDASVSHPKAKPLAESSIPSEALTAVSEALPAATADDDDSQQLLLSGMSCASCVTRVQNALQSVPGVTQARVNLAERTALVMGSASPQDLVQAVEKAGYGAEAIEDDAKRRERQQETAVATMKRFRWQAIVALAVGIPVMVWGMIGDNMMVTADNRSLWLVIGLITLAVMVFAGGHFYRSAWKSLLNGAATMDTLVALGTGVAWLYSMSVNLWPQWFPMEARHLYYEASAMIIGLINLGHMLEARARQRSSKALEKLLDLTPPTARLVTDEGEKSVPLAEVQPGMLLRLTTGDRVPVDGEITQGEAWLDEAMLTGEPIPQQKGEGDSVHAGTVVQDGSVLFRASAVGSHTTLSRIIRMVRQAQSSKPEIGQLADKISAVFVPVVVVIALVSAAIWYFFGPAPQIVYTLVIATTVLIIACPCALGLATPMSIISGVGRAAEFGVLVRDADALQRASTLDTVVFDKTGTLTEGKPQVVAVKTFADVDEAQALRLAAALEQGSSHPLARAILDKAGDMQLPQVNGFRTLRGLGVSGEAEGHALLLGNQALLNEQQVGTKAIEAEITAQASQGATPVLLAVDGKAVALLAVRDPLRSDSVAALQRLHKAGYRLVMLTGDNPTTANAIAKEAGIDEVIAGVLPDGKAEAIKHLQSEGRQVAMVGDGINDAPALAQADVGIAMGGGSDVAIETAAITLMRHSLMGVADALAISRATLHNMKQNLLGAFIYNSIGIPVAAGILWPFTGTLLNPVVAGAAMALSSITVVSNANRLLRFKPKE" "i" "Han et al., 2011" -"G6261-MONOMER" "MLDANKLQQAVDQAYTQFHSLNGGQNADYIPFLANVPGQLAAVAIVTCDGNVYSAGDSDYRFALESISKVCTLALALEDVGPQAVQDKIGADPTGLPFNSVIALELHGGKPLSPLVNAGAIATTSLINAENVEQRWQRILHIQQQLAGEQVALSDEVNQSEQTTNFHNRAIAWLLYSAGYLYCDAMEACDVYTRQCSTLLNTIELATLGATLAAGGVNPLTHKRVLQADNVPYILAEMMMEGLYGRSGDWAYRVGLPGKSGVGGGILAVVPGVMGIAAFSPPLDEDGNSVRGQKMVASVAKQLGYNVFKG" "c" "EcoCyc dump" -"G6263-MONOMER" "MNISDVAKITGLTSKAIRFYEEKGLVTPPMRSENGYRTYTQQHLNELTLLRQARQVGFNLEESGELVNLFNDPQRHSADVKRRTLEKVAEIERHIEELQSMRDQLLALANACPGDDSADCPIIENLSGCCHHRAG" "c" "Han et al., 2011" -"G6264-MONOMER" "MMELMVVHPHIFWLSLGGLLLAAEMLGGNGYLLWSGVAAVITGLVVWLVPLGWEWQGVMFAILTLLAAWLWWKWLSRRVREQKHSDSHLNQRGQQLIGRRFVLESPLVNGRGHMRVGDSSWPVSASEDLGAGTHVEVIAIEGITLHIRAVSS" "i" "Han et al., 2011" -"G6265-MONOMER" "MLIFIPILIFVALVIVGAGVKIVPQGYQWTVERFGRYTKTLQPGLSLVVPFMDRIGRKINMMEQVLDIPSQEVISKDNANVTIDAVCFIQVIDAPRAAYEVSNLELAIINLTMTNIRTVLGSMELDEMLSQRDSINSRLLRIVDEATNPWGIKVTRIEIRDVRPPAELISSMNAQMKAERTKRAYILEAEGIRQAEILKAEGEKQSQILKAEGERQSAFLQAEARERSAEAEARATKMVSEAIASGDIQAVNYFVAQKYTEALQQIGSSSNSKVVMMPLEASSLMGSIAGIAELVKDSANKRTQP" "c" "Han et al., 2011" -"G6267-MONOMER" "MNSHNITNESLALALMLVVVAILISHKEKLALEKDILWSVGRAIIQLIIVGYVLKYIFSVDDASLTLLMVLFICFNAAWNAQKRSKYIAKAFISSFIAITVGAGITLAVLILSGSIEFIPMQVIPIAGMIAGNAMVAVGLCYNNLGQRVISEQQQIQEKLSLGATPKQASAILIRDSIRAALIPTVDSAKTVGLVSLPGMMSGLIFAGIDPVKAIKYQIMVTFMLLSTASLSTIIACYLTYRKFYNSRHQLVVTQLKKK" "i" "Han et al., 2011" -"G6268-MONOMER" "MSVENIVNINESNLQQVLEQSMTTPVLFYFWSERSQHCLQLTPILESLAAQYNGQFILAKLDCDAEQMIAAQFGLRAIPTVYLFQNGQPVDGFQGPQPEEAIRALLDKVLPREEELKAQQAMQLMQESNYTDALPLLKDAWQLSNQNGEIGLLLAETLIALNRSEDAEAVLKTIPLQDQDTRYQGLVAQIELLKQAADTPEIQQLQQQVAENPEDAALATQLALQLHQVGRNEEALELLFGHLRKDLTAADGQTRKTFQEILAALGTGDALASKYRRQLYALLY" "c" "Lopez-Campistrous et al., 2005" -"G6269-MONOMER" "MTHKATEILTGKVMQKSVLITGCSSGIGLESALELKRQGFHVLAGCRKPDDVERMNSMGFTGVLIDLDSPESVDRAADEVIALTDNCLYGIFNNAGFGMYGPLSTISRAQMEQQFSANFFGAHQLTMRLLPAMLPHGEGRIVMTSSVMGLISTPGRGAYAASKYALEAWSDALRMELRHSGIKVSLIEPGPIRTRFTDNVNQTQSDKPVENPGIAARFTLGPEAVVDKVRHAFISEKPKMRYPVTLVTWAVMVLKRLLPGRVMDKILQG" "c" "Han et al., 2011" -"G6271-MONOMER" "MLALMDADGNIAWSGEYDEWGNQLNEENPHHLHQPYRLPGQQYDKESGLYYNRNRYYDPLQGRYITQDPIGLEGGWSLYAYPLNPVNGIDPLGLSPADVALIRRKDQLNHQRAWDILSDTYEDMKRLNLGGTDQFFHCMAFCRVSKLNDAGVSRSAKGLGYEKEIRDYGLNLFGMYGRKVKLSHSEMIEDNKKDLAVNDHGLTCPSTTDCSDRCSDYINPEHKKTIKALQDAGYLK" "c" "Han et al., 2011" -"G6273-MONOMER" "MLHTANPVIKHKAGLLNLAEELSNVSKACKIMGVSRDTFYRYRELVAEGGVDAQINRSRRAPNLKNRTDEATEQAVVDYAVAFPTHGQHRASNELRKQGVFISDSGVRSVWLLHNLENLKRRY" "c" "Han et al., 2011" -"G6274-MONOMER" "MFDPETLRTFIAVAETGSFSKAAERLCKTTATISYRIKLLEENTGVALFFRTTRSVTLTAAGEHLLSQARDWLSWLESMPSELQQVNDGVERQVNIVINNLLYNPQAVAQLLAWLNERYPFTQFHISRQIYMGVWDSLLYEGFSLAIGVTGTEALANTFSLDPLGSVQWRFVMAADHPLANVEEPLTEAQLRRFPAVNIEDSARTLTKRVAWRLPGQKEIIVPDMETKIAAHLAGVGIGFLPKSLCQSMIDNQQLVSRVIPTMRPPSPLSLAWRKFGSGKAVEDIVTLFTQRRPEISGFLEIFGNPRS" "c" "EcoCyc dump" -"G6275-MONOMER" "MKLQVLPLSQEAFSAYGDVIETQQRDFFHINNGLVERYHDLALVEILEQDCTLISINRAQPANLPLTIHELERHPLGTQAFIPMKGEVFVVVVALGDDKPDLSTLRAFITNGEQGVNYHRNVWHHPLFAWQRVTDFLTIDRGGSDNCDVESIPEQELCFA" "c" "Han et al., 2011" -"G6276-MONOMER" "MTEVRRRGRPGQAEPVAQKGAQALERGIAILQYLEKSGGSSSVSDISLNLDLPLSTTFRLLKVLQAADFVYQDSQLGWWHIGLGVFNVGAAYIHNRDVLSVAGPFMRRLMLLSGETVNVAIRNGNEAVLIGQLECKSMVRMCAPLGSRLPLHASGAGKALLYPLAEEELMSIILQTGLQQFTPTTLVDMPTLLKDLEQARELGYTVDKEEHVVGLNCIASAIYDDVGSVVAAISISGPSSRLTEDRFVSQGELVRDTARDISTALGLKAHP" "c" "Han et al., 2011" -"G6277-MONOMER" "MLRFSANLSMLFGEYDFLARFEKAAQCGFRGVEFMFPYDYDIEELKHVLASNKLEHTLHNLPAGDWAAGERGIACIPGREEEFRDGVAAAIRYARALGNKKINCLVGKTPAGFSSEQIHATLVENLRYAANMLMKEDILLLIEPINHFDIPGFHLTGTRQALKLIDDVGCCNLKIQYDIYHMQRMEGELTNTMTQWADKIGHLQIADNPHRGEPGTGEINYDYLFKVIENSDYNGWVGCEYKPQTTTEAGLRWMDPYR" "c" "Han et al., 2011" -"G6278-MONOMER" "MKLGFIGLGIMGTPMAINLARAGHQLHVTTIGPVADELLSLGAVSVETARQVTEASDIIFIMVPDTPQVEEVLFGENGCTKASLKGKTIVDMSSISPIETKRFARQVNELGGDYLDAPVSGGEIGAREGTLSIMVGGDEAVFERVKPLFELLGKNITLVGGNGDGQTCKVANQIIVALNIEAVSEALLFASKAGADPVRVRQALMGGFASSRILEVHGERMIKRTFNPGFKIALHQKDLNLALQSAKALALNLPNTATCQELFNTCAANGGSQLDHSALVQALELMANHKLA" "c" "Han et al., 2011" -"G6281-MONOMER" "MSFDLIIKNGTVILENEARVVDIAVKGGKIAAIGQDLGDAKEVMDASGLVVSPGMVDAHTHISEPGRSHWEGYETGTRAAAKGGITTMIEMPLNQLPATVDRASIELKFDAAKGKLTIDAAQLGGLVSYNIDRLHELDEVGVVGFKCFVATCGDRGIDNDFRDVNDWQFFKGAQKLGELGQPVLVHCENALICDELGEEAKREGRVTAHDYVASRPVFTEVEAIRRVLYLAKVAGCRLHVCHVSSPEGVEEVTRARQEGQDVTCESCPHYFVLDTDQFEEIGTLAKCSPPIRDLENQKGMWEKLFNGEIDCLVSDHSPCPPEMKAGNIMKAWGGIAGLQSCMDVMFDEAVQKRGMSLPMFGKLMATNAADIFGLQQKGRIAPGKDADFVFIQPNSSYVLTNDDLEYRHKVSPYVGRTIGARITKTILRGDVIYDIEQGFPVAPKGQFILKHQQ" "c" "Han et al., 2011" -"G6282-MONOMER" "MFNFAVSRESLLSGFQWFFFIFCNTVVVPPTLLSAFQLPQSSLLTLTQYAFLATALACFAQAFCGHRRAIMEGPGGLWWGTILTITLGEASRGTPINDIATSLAVGIALSGVLTMLIGFSGLGHRLARLFTPSVMVLFMLMLGAQLTTIFFKGMLGLPFGIADPNFKIQLPPFALSVAVMCLVLAMIIFLPQRFARYGLLVGTITGWLLWYFCFPSSHSLSGELHWQWFPLGSGGALSPGIILTAVITGLVNISNTYGAIRGTDVFYPQQGAGNTRYRRSFVATGFMTLITVPLAVIPFSPFVSSIGLLTQTGDYTRRSFIYGSVICLLVALVPALTRLFCSIPLPVSSAVMLVSYLPLLFSALVFSQQITFTARNIYRLALPLFVGIFLMALPPVYLQDLPLTLRPLLSNGLLVGILLAVLMDNLIPWERIE" "i" "Han et al., 2011" -"G6284-MONOMER" "MGYLNNVTGYREDLLANRAIVKHGNFALLTPDGLVKNIIPGFENCDATILSTPKLGASFVDYLVTLHQNGGNQQGFGGEGIETFLYVISGNITAKAEGKTFALSEGGYLYCPPGSLMTFVNAQAEDSQIFLYKRRYVPVEGYAPWLVSGNASELERIHYEGMDDVILLDFLPKELGFDMNMHILSFAPGASHGYIETHVQEHGAYILSGQGVYNLDNNWIPVKKGDYIFMGAYSLQAGYGVGRGEAFSYIYSKDCNRDVEI" "c" "Han et al., 2011" -"G6285-MONOMER" "MITHFRQAIEETLPWLSSFGADPAGGMTRLLYSPEWLETQQQFKKRMAASGLETRFDEVGNLYGRLNGTEYPQEVVLSGSHIDTVVNGGNLDGQFGALAAWLAIDWLKTQYGAPLRTVEVVAMAEEEGSRFPYVFWGSKNIFGLANPDDVRNICDAKGNSFVDAMKACGFTLPNAPLTPRQDIKAFVELHIEQGCVLESNGQSIGVVNAIVGQRRYTVTLNGESNHAGTTPMGYRRDTVYAFSRICHQSVEKAKRMGDPLVLTFGKVEPRPNTVNVVPGKTTFTIDCRHTDAAVLRDFTQQLENDMRAICDEMDIGIDIDLWMDEEPVPMNKELVATLTELCEREKLNYRVMHSGAGHDAQIFAPRVPTCMIFIPSINGISHNPAERTNITDLAEGVKTLALMLYQLAWQK" "c" "Han et al., 2011" -"G6286-MONOMER" "MKISRETLHQLIENKLCQAGLKREHAATVAEVLVYADARGIHSHGAVRVEYYAERISKGGTNREPEFRLEETGPCSAILHADNAAGQVAAKMGMEHAIKTAQQNGVAVVGISRMGHSGAISYFVQQAARAGFIGISMCQSDPMVVPFGGAEIYYGTNPLAFAAPGEGDEILTFDMATTVQAWGKVLDARSRNMSIPDTWAVDKNGVPTTDPFAVHALLPAAGPKGYGLMMMIDVLSGVLLGLPFGRQVSSMYDDLHAGRNLGQLHIVINPNFFSSSELFRQHLSQTMRELNAITPAPGFNQVYYPGQDQDIKQRKAAVEGIEIVDDIYQYLISDALYNTSYETKNPFAQ" "c" "Han et al., 2011" -"G6287-MONOMER" "MIHAFIKKGCFQDSVSLMIISRKLSESENVDDVSVMMGTPANKALLDTTGFWHDDFNNATPNDICVAIRSEAADAGIAQAIMQQLEEALKQLAQGSGSSQALTQVRRWDSACQKLPDANLALISVAGEYAAELANQALDRNLNVMMFSDNVTLEDEIQLKTRAREKGLLVMGPDCGTSMIAGTPLAFANVMPEGNIGVIGASGTGIQELCSQIALAGEGITHAIGLGGRDLSREVGGISALTALEMLSADEKSEVLAFVSKPPAEAVRLKIVNAMKATGKPTVALFLGYTPAVARDENVWFASSLDEAARLACLLSRVTARRNAIAPVSSGFICGLYTGGTLAAEAAGLLAGHLGVEADDTHQHGMMLDADSHQIIDLGDDFYTVGRPHPMIDPTLRNQLIADLGAKPQVRVLLLDVVIGFGATADPAASLVSAWQKACAARLDNQPLYAIATVTGTERDPQCRSQQIATLEDAGIAVVSSLPEATLLAAALIHPLSPAAQQHTPSLLENVAVINIGLRSFALELQSASKPVVHYQWSPVAGGNKKLARLLERLQ" "c" "Han et al., 2011" -"G6288-MONOMER" "VNFIPCHHVNAVGPMGGITSASMPMLVVENVTDGNRAYCNLNEGIGKVMRFGAYGEDVLTRHRWMRDVLMPVLSAALGRMERGIDLTAMMAQGITMGDEFHQRNIASSALLMRALAPQIARLDHDKQHIAEVMDFLSVTDQFFLNLAMAYCKAAMDAGAMIRAGSIVTAMTRNGNMFGIRVSGLGERWFTAPVNTPQGLFFTGFSQEQANPDMGDSAITETFGIGGAAMIAAPGVTRFVGAGGMEAARAVSEEMAEIYLERNMQLQIPSWDFQGACLGLDIRRVVETGITPLINTGIAHKEAGIGQIGAGTVRAPLACFEQALEALAESMGIG" "m" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6289-MONOMER" "MTIIHPLLASSSAPNYRQSWRLAGVWRRAINLMTESGELLTLHRQGSGFGPGGWVLRRAQFDALCGGLCGNERPQVVAQGIRLGRFTVKQPQRYCLLRITPPAHPQPLAAAWMQRAEETGLFGPLALAASDPLPAELRQFRHCFQAALNGVKTDWRHWLGKGPGLTPSHDDTLSGMLLAAWYYGALDARSGRPFFACSDNLQLVTTAVSVSYLRYAAQGYFASPLLHFVHALSCPKRTAVAIDSLLALGHTSGADTLLGFWLGQQLLQGKP" "c" "Han et al., 2011" -"G6290-MONOMER" "MKLRFISSALAAALFAATGSYAAVVDGGTIHFEGELVNAACSVNTDSADQVVTLGQYRTDIFNAVGNTSALIPFTIQLNDCDPVVAANAAVAFSGQADAINDNLLAIASSTNTTTATGVGIEILDNTSAILKPDGNSFSTNQNLIPGTNVLHFSARYKGTGTSASAGQANADATFIMRYE" "e" "Han et al., 2011" -"G6291-MONOMER" "MMTKIKLLMLIIFYLIISASAHAAGGIALGATRIIYPADAKQTAVWIRNSHTNERFLVNSWIENSSGVKEKSFIITPPLFVSEPKSENTLRIIYTGPPLAADRESLFWMNVKTIPSVDKNALNGRNVLQLAILSRMKLFLRPIQLQELPAEAPDTLKFSRSGNYINVHNPSPFYVTLVNLQVGSQKLGNAMAAPRVNSQIPLPSGVQGKLKFQTVNDYGSVTPVREVNLN" "p" "Han et al., 2011" -"G6292-MONOMER" "MKIPTTTDIPQRYTWCLAGICYSSLAILPSFLSYAESYFNPAFLLENGTSVADLSRFERGNHQPAGVYRVDLWRNDEFIGSQDIVFESTTENTGDKSGGLMPCFNQVLLERIGLNSSAFPELAQQQNNKCINLLKAVPDATINFDFAAMRLNITIPQIALLSSAHGYIPPEEWDEGIPALLLNYNFTGNRGNGNDSYFFSELSGINIGPWRLRNNGSWNYFRGNGYHSEQWNNIGTWVQRAIIPLKSELVMGDGNTGSDIFDGVGFRGVRLYSSDNMYPDSQQGFAPTVRGIARTAAQLTIRQNGFIIYQSYVSPGAFEITDLHPTSSNGDLDVTIDERDGNQQNYTIPYSTVPILQREGRFKFDLTAGDFRSGNSQQSSPFFFQGTALGGLPQEFTAYGGTQLSANYTAFLLGLGRNLGNWGAVSLDVTHARSQLADASRHEGDSIRFLYAKSMNTFGTNFQLMGYRYSTQGFYTLDDVAYRRMEGYEYDYDGEHRDEPIIVNYHNLRFSRKDRLQLNVSQSLNDFGSLYISGTHQKYWNTSDSDTWYQVGYTSSWVGISYSLSFSWNESVGIPDNERIVGLNVSVPFNVLTKRRYTRENALDRAYASFNANRNSNGQNSWLAGVGGTLLEGHNLSYHVSQGDTSNNGYTGSATANWQAAYGTLGGGYNYDRDQHDVNWQLSGGVVGHENGITLSQPLGDTNVLIKAPGAGGVRIENQTGILTDWRGYAVMLYATVYRYNRIALDTNTMGNSIDVEKNISSVVPTQGALVRANFDTRIGVRALITVTQGGKPVPFGSLVRENSTGITSMVGDDGQVYLSGAPLSGELLVQWGDGANSRCIAHYVLPKQSLQQAVTVISAVCTHPGS" "o" "Han et al., 2011" -"G6293-MONOMER" "MACLCLANISWATVCANSTGVAEDEHYDLSNIFNSTNNQPGQIVVLPEKSGWVGVSAICPPGTLVNYTYRSYVTNFIVQETIDNYKYMQLHDYLLGAMSLVDSVMDIQFPPQNYIRMGTDPNVSQNLPFGVMDSRLIFRLKVIRPFINMVEIPRQVMFTVYVTSTPYDPLVTPVYTISFGGRVEVPQNCELNAGQIVEFDFGDIGASLFSAAGPGNRPAGVMPQTKSIAVKCTNVAAQAYLTMRLEASAVSGQAMVSDNQDLGFIVADQNDTPITPNDLNSVIPFRLDAAAAANVTLRAWPISITGQKPTEGPFSALGYLRVDYQ" "j" "Han et al., 2011" -"G6295-MONOMER" "MKFRLGGFEAIKSAYMAQVQYSMWVTRKDAWYFANYDPRMKREGLHYVVIERNEKYMASFDEMVPEFIEKMDEALAEIGFVFGEQWR" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6298-MONOMER" "MARAGILVVDGKVWRTVYYRFATREEWEGKVSTNLIFKECRQSAAMKRVLRVYKRTSMGTQ" "c" "Han et al., 2011" -"G6300-MONOMER" "MKKAIAYMRFSSPGQMSGDSLNRQRRLIAEWLKVNSDYYLDTITYEDLGLSAFKGKHAQSGAFSEFLDAIEHGYILPGTTLLVESLDRLSREKVGEAIERLKLILNHGIDVITLCDNTVYNIDSLNEPYSLIKAILIAQRANEESEIKSSRVKLSWKKKRQDALESGTIMTASCPRWLSLDDKRTAFVPDPDRVKTIELIFKLRMERRSLNAIAKYLNDHAVKNFSGKESAWGPSVIEKLLANKALIGICVPSYRARGKGISEIAGYYPRVISDDLFYAVQEIRLAPFGISNSSKNPMLINLLRTVMKCEACGNTMIVHAVSGSLHGYYVCPMRRLHRCDRPSIKRDLVDYNIINELLFNCSKIQPVENKKDANETLELKIIELQMKINNLIVALSVAPEVTAIAEKIRLLDKELRRASVSLKTLKSKGVNSFSDFYAIDLTSKNGRELCRTLAYKTFEKIIINTDNKTCDIYFMNGIVFKHYPLMKVISAQQAISALKYMVDGEIYF" "c" "Han et al., 2011" -"G6301-MONOMER" "MKTLIVSTVLAFITFSAQAAAFQVTSNEIKTGEQLTTSHVFSGFGCEGGNTSPSLTWSGVPEGTKSFAVTVYDPDAPTGSGWWHWTVVNIPATVTYLPVDAGRRDGTKLPTGAVQGRNDFGYAGFGGACPPKGDKPHHYQFKVWALKTEKIPVDSNSSGALVGYMLNANKIATAEITPVYEIK" "p" "Han et al., 2011" -"G6302-MONOMER" "MLARGKTNLKIEEIRMHKHHEIHRVKPLMPALCRIRQGKKVINWETHTLTVDNNQIILFPCGYEFYIENYPEAGLYLAEMLYLPIDLIESFQKLYTVTDQIRNKTSFFLPQNPELIYCWEQLKTSVSRGFSTKIQEHLAMGVLLSLGVNHVNHLLLSYSKQSLISRCYNLLLSEPGTKWTANKVARYLYISVSTLHRRLASEGVSFQSILDDVRLNNALSAIQTTVKPISEIARENGYKCPSRFTERFHNRFNITPREIRKASRE" "c" "Han et al., 2011" -"G6303-MONOMER" "VNLSQDGIKLHRGNFTAIGRQIQPYLEEGKCFRMVLKPWREKRSLSQNALSHMWYSEISEYLISRGKTFATPAWVKDALKHTYLGYETKDLVDVVTGDITTIQSLRHTSDLDTGEMYVFLCKVEAWAMNIGCHLTIPQSCEFQLLRDKQEA" "c" "EcoCyc dump" -"G6304-MONOMER" "MATPLIRVMNGHIYRVPNRRKRKPELKPSEIPTLLGYTASLVDKKWLRLAARRSHG" "c" "Han et al., 2011" -"G6305-MONOMER" "MADLRKAARGRECQVRIPGVCNGNPETSVLAHIRLTGLCGTGTKPPDLIATIACSACHDEIDRRTHFVDAGYAKECALEGMARTQVIWLKEGVIKA" "c" "Han et al., 2011" -"G6306-MONOMER" "VNTYSITLPWPPSNNRYYRHNRGRTHVSAEGQAYRDNVARIIKNAMLDIGLAMPVKIRIECHMPDRRRRDLDNLQKAAFDALTKAGFWLDDAQVVDYRVVKMPVTKGGRLELTITEMGNE" "c" "Han et al., 2011" -"G6307-MONOMER" "MRDIQMVLERWGAWAANNHEDVTWSSIAAGFKGLITSKVKSRPQCCDDDAMIICGCMARLKKNNSDLHDLLVDYYVVGMTFMSLAGKHCCSDGYIGKRLQKAEGIIEGMLMALDIRLEMDIVVNNSN" "c" "Han et al., 2011" -"G6309-MONOMER" "MKSMDKLTTGVAYGTSAGSAGYWFLQLLDKVTPSQWAAIGVLGSLVFGLLTYLTNLYFKIKEDKRKAARGE" "i" "Han et al., 2011" -"G6310-MONOMER" "MPPSLRKAVAAAIGGGAIAIASVLITGPSGNDGLEGVSYIPYKDIVGVWTVCHGHTGKDIMLGKTYTKAECKALLNKDLATVARQINPYIKVDIPETTRGALYSFVYNVGAGNFRTSTLLRKINQGDIKGACDQLRRWTYAGGKQWKGLMTRREIEREVCLWGQQ" "i" "Han et al., 2011" -"G6311-MONOMER" "VSRVTAIISALIICIIVSLSWAVNHYRDNAIAYKVQRDKNARELKLANAAITDMQMRQRDVAALDAKYTKELADAKAENDALRDDVAAGRRRLHIKAVCQSVREATTASGVDNAASPRLADTAERDYFTLRERLITMQKQLEGTQKYINEQCR" "i" "Han et al., 2011" -"G6312-MONOMER" "MKKMLLATALALLITGCAQQTFTVQNKQTAVAPKETITHHFFVSGIGQKKTVDAAKICGGAENVVKTETQQTFVNGLLGFITLGIYTPLEARVYCSK" "i" "Han et al., 2011" -"G6313-MONOMER" "MAQVAIFKEIFDQVRKDLNCELFYSELKRHNVSHYIYYLATDNIHIVLENDNTVLIKGLKKVVNVKFSRNTHLIETSYDRLKSREITFQQYRENLAKAGVFRWITNIHEHKRYYYTFDNSLLFTESIQNTTQIFPR" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6314-MONOMER" "MNKEQSADDPSVDLIRVKNMLNSTISMSYPDVVIACIEHKVSLEAFRAIEAALVKHDNNMKDYSLVVD" "c" "Han et al., 2011" -"G6315-MONOMER" "MNAMGSDYIREVNVVKSARVGYSKMLLGVYAYFIEHKQRNTLIPAGFVAVFNSDESSWHLVEDHRGKTVYDVASGDALFISELGPLPENVTWLSPEGEFQKWNGTAWVKDAEAEKLFRIREAEETKNSLMQVASEHIAPLQDAVDLEIATEEETSLLEAWKKYRVLLNRVDTSTAPDIEWPTNPVRE" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6316-MONOMER" "LGVSNRLAWGCPTKEHLLPHFLEHLGNNHLDIGVGTGFYLTHVPESSLISLMDLNEASLNAASTRAGESKIKHKISHDVFEPYPAALHGQFDSISMSYLLHCLPGNISTKSCVIRNAAQALTDDGTLYGATILGDGVVHNSFGQKLMRIYNQKGIFSNTKDSEEGLTHILSEHFENVKTKVQGTVVMFSASGKK" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6317-MONOMER" "MLPQHSDIEIAWYASIQQEPNGWKTVTTQFYIQEFSEYIAPLQDAVDLEIATEEERSLLEA" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6318-MONOMER" "MVSKPFQRPFSLATRLTFFISLATIAAFFAFAWIMIHSVKVHFAEQDINDLKEISATLERVLNHPDETQARRLMTLEDIVSGYSNVLISLADSQGKTVYHSPGAPDIREFTRDAIPDKDAQGGEVYLLSGPTMMMPGHGHGHMEHSNWRMINLPVGPLVDGKPIYTLYIALSIDFHLHYINDLMNKLIMTASVISILIVFIVLLAVHKGHAPIRSVSRQIQNITSKDLDVRLDPQTVPIELEQLVLSFNHMIERIEDVFTRQSNFSADIAHEIRTPITNLITQTEIALSQSRSQKELEDVLYSNLEELTRMAKMVSDMLFLAQADNNQLIPEKKMLNLADEVGKVFDFFEALAEDRGVELRFVGDKCQVAGDPLMLRRALSNLLSNALRYTPTGETIVVRCQTVDHLVQVIVENPGTPIAPEHLPRLFDRFYRVDPSRQRKGEGSGIGLAIVKSIVVAHKGTVAVTSDARGTRFVITLPA" "i" "Han et al., 2011" -"G6319-MONOMER" "MKLLIVEDEKKTGEYLTKGLTEAGFVVDLADNGLNGYHLAMTGDYDLIILDIMLPDVNGWDIVRMLRSANKGMPILLLTALGTIEHRVKGLELGADDYLVKPFAFAELLARVRTLLRRGAAVIIESQFQVADLMVDLVSRKVTRSGTRITLTSKEFTLLEFFLRHQGEVLPRSLIASQVWDMNFDSDTNAIDVAVKRLRGKIDNDFEPKLIQTVRGVGYMLEVPDGQ" "c" "Han et al., 2011" -"G6320-MONOMER" "MSPCKLLPFCVALALTGCSLAPDYQRPAMPVPQQFSLSQNGLVNAADNYQNAGWRTFFVDNQVKTLISEALVNNRDLRMATLKVQEARAQYRLTDADRYPQLNGEGSGSWSGNLKGNTATTREFSTGLNASFDLDFFGRLKNMSEAERQNYLATEEAQRAVHILLVSNVAQSYFNQQLAYAQLQIAEETLRNYQQSYAFVEKQLLTGSSNVLALEQARGVIESTRSDIAKRQGELAQANNALQLLLGSYGKLPQAQTVNSDSLQSVKLPAGLSSQILLQRPDIMEAEHALMAANANIGAARAAFFPSISLTSGISTASSDLSSLFNASSGMWNFIPKIEIPIFNAGRNQANLDIAEIRQQQSVVNYEQKIQNAFKEVADALALRQSLNDQISAQQRYLASLQITLQRARALYQHGAVSYLEVLDAERSLFATRQTLLDLNYARQVNEISLYTALGGG" "e" "EcoCyc dump" -"G6321-MONOMER" "MKKALQVAMFSLFTVIGFNAQANEHHHETMSEAQPQVISATGVVKGIDLESKKITIHHDPIAAVNWPEMTMRFTITPQTKMSEIKTGDKVAFNFVQQGNLSLLQDIKVSQ" "p" "Han et al., 2011" -"G6322-MONOMER" "MKKIALIIGSMIAGGIISAAGFTWVAKAEPPAEKTSTAERKILFWYDPMYPNTRFDKPGKSPFMDMDLVPKYADEESSASGVRIDPTQTQNLGVKTATVTRGPLTFAQSFPANVSYNEYQYAIVQARAAGFIDKVYPLTVGDKVQKGTPLLDLTIPDWVEAQSEYLLLRETGGTATQTEGILERLRLAGMPEADIRRLIATQKIQTRFTLKAPIDGVITAFDLRAGMNIAKDNVVAKIQGMDPVWVTAAIPESIAWLVKDASQFTLTVPARPDKTLTIRKWTLLPGVDAATRTLQLRLEVDNADEALKPGMNAWLQLNTASEPMLLIPSQALIDTGSEQRVITVDADGRFVPKRVAVFQASQGVTALRSGLAEGEKVVSSGLFLIDSEANISGALERMRSESATHAH" "p" "EcoCyc dump" -"G6323-MONOMER" "MQDLISQVEDLAGIEIDHTTSMVMIFGIIFLTAVVVHIILHWVVLRTFEKRAIASSRLWLQIITQNKLFHRLAFTLQGIIVNIQAVFWLQKGTEAADILTTCAQLWIMMYALLSVFSLLDVILNLAQKFPAASQLPLKGIFQGIKLIGAILVGILMISLLIGQSPAILISGLGAMAAVLMLVFKDPILGLVAGIQLSANDMLKLGDWLEMPKYGADGAVIDIGLTTVKVRNWDNTITTIPTWSLVSDSFKNWSGMSASGGRRIKRSISIDVTSIRFLDEDEMQRLNKAHLLKPYLTSRHQEINEWNRQQGSTESVLNLRRMTNIGTFRAYLNEYLRNHPRIRKDMTLMVRQLAPGDNGLPLEIYAFTNTVVWLEYESIQADIFDHIFAIVEEFGLRLHQSPTGNDIRSLAGAFKQ" "i" "Han et al., 2011" -"G6324-MONOMER" "MDKQSLHETAKRLALELPFVELCWPFGPEFDVFKIGGKIFMLSSELRGVPFINLKSDPQKSLLNQQIYPSIKPGYHMNKKHWISVYPGEEISEALLRDLINDSWNLVVDGLAKRDQKRVRPG" "c" "Han et al., 2011" -"G6325-MONOMER" "MKHPLETLTTAAGILLMAFLSCLLLPAPALGLALAQKLVTMFHLMDLSQLYTLLFCLWFLVLGAIEYFVLRFIWRRWFSLAD" "i" "Han et al., 2011" -"G6326-MONOMER" "MPLPDFHVSEPFTLGIELEMQVVNPPGYDLSQDSSMLIDAVKNKITAGEVKHDITESMLELATDVCRDINQAAGQFSAMQKVVLQAATDHHLEICGGGTHPFQKWQRQEVCDNERYQRTLENFGYLIQQATVFGQHVHVGCASGDDAIYLLHGLSRFVPHFIALSAASPYMQGTDTRFASSRPNIFSAFPDNGPMPWVSNWQQFEALFRCLSYTTMIDSIKDLHWDIRPSPHFGTVEVRVMDTPLTLSHAVNMAGLIQATAHWLLTERPFKHQEKDYLLYKFNRFQACRYGLEGVITDPHTGDRRPLTEDTLRLLEKIAPSAHKIGASSAIEALHRQVVSGLNEAQLMRDFVADGGSLIGLVKKHCEIWAGD" "c" "Han et al., 2011" -"G6329-MONOMER" "MTNNPLIPQSKLPQLGTTIFTQMSALAQQHQAINLSQGFPDFDGPRYLQERLAHHVAQGANQYAPMTGVQALREAIAQKTERLYGYQPDADSDITVTAGATEALYAAITALVRNGDEVICFDPSYDSYAPAIALSGGIVKRMALQPPHFRVDWQEFAALLSERTRLVILNTPHNPSATVWQQADFAALWQAIAGHEIFVISDEVYEHINFSQQGHASVLAHPQLRERAVAVSSFGKTYHMTGWKVGYCVAPAPISAEIRKVHQYLTFSVNTPAQLALADMLRAEPEHYLALPDFYRQKRDILVNALNESRLEILPCEGTYFLLVDYSAVSTLDDVEFCQWLTQEHGVAAIPLSVFCADPFPHKLIRLCFAKKESTLLAAAERLRQL" "c" "Han et al., 2011" -"G6330-MONOMER" "MGDTMQQRLTQDLTQFLASLPEDDRIKAINEIRMAIHQVSPFREEPVDCVLWVKNSQLMPNDYNPNNVAPPEKKLLQKSIEIDGFTQPIVVTHTDKNAMEIVDGFHRHEIGKGSSSLKLRLKGYLPVTCLEGTRNQRIAATIRHNRARGRHQITAMSEIVRELSQLGWDDNKIGKELGMDSDEVLRLKQINGLQELFADRQYSRAWTVK" "c" "Han et al., 2011" -"G6331-MONOMER" "MSIYKIPLPLNILEAARERITWTLNTLPRVCVSFSGGKDSGLMLHLTAELARQMGKKICVLFIDWEAQFSCTINYVQSLRELYTDVIEEFYWVALPLTTQNSLSQYQPEWQCWEPDVEWVRQPPQDAITDPDFFCFYQPGMTFEQFVREFAEWFSQKRPAAMMIGIRADESYNRFVAIASLNKQRFADDKPWTTAAPGGHSWYIYPIYDWKVADIWTWYANHQSLCNPLYNLMYQAGVPLRHMRICEPFGPEQRQGLWLYHVIEPDRWAAMCARVSGVKSGGIYAGHDNHFYGHRKILKPEHLDWQEYALLLLNSMPEKTAEHYRNKIAIYLHWYQKKGIEVPQTQQGDIGAKDIPSWRRICKVLLNNDYWCRALSFSPTKSKNYQRYNERIKGKRQEWGILCNND" "c" "Han et al., 2011" -"G6332-MONOMER" "MANLYDLKKFDLNLLVIFECIYQHLSISKAAESLYITPSAVSQSLQRLRAQFNDPLFIRSGKGIAPTTTGLNLHHHLEKNLRGLEQTINIVNKSELKKNFIIYGPQLISCSNNSMLIRCLRQDSSVEIECHDILMSAENAEELLVHRKADLVITQMPVISRSVICMPLHTIRNTLICSNRHPRITDNSTYEQIMAEEFTQLISKSAGVDDIQMEIDERFMNRKISFRGSSLLTIINSIAVTDLLGIVPYELYNSYRDFLNLKEIKLEHPLPSIKLYISYNKSSLNNLVFSRFIDRLNESF" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6334-MONOMER" "MYKTIIMPVDVFEMELSDKAVRHAEFLAQDDGVIHLLHVLPGSASLSLHRFAADVRRFEEHLQHEAQERLQTMVSHFTIDPSRIKQHVRFGSVRDEVNELAEELGADVVVIGSRNPSISTHLLGSNASSVIRHANLPVLVVR" "c" "Han et al., 2011" -"G6335-MONOMER" "MKALTYHGPHHVQVENVPDPGVEQADDIILRITATAICGSDLHLYRGKIPQVKHGDIFGHEFMGEVVETGKDVKNLQKGDRVVIPFVIACGDCFFCRLQQYAACENTNAGKGAALNKKQIPAPAALFGYSHLYGGVPGGQAEYVRVPKGNVGPFKVPPLLSDDKALFLSDILPTAWQAAKNAQIQQGSSVAVYGAGPVGLLTIACARLLGAEQIFVVDHHPYRLHFAADRYGAIPINFDEDSDPAQSIIEQTAGHRGVDAVIDAVGFEAKGSTTETVLTNLKLEGSSGKALRQCIAAVRRGGIVSVPGVYAGFIHGFLFGDAFDKGLSFKMGQTHVHAWLGELLPLIEKGLLKPEEIVTHYMPFEEAARGYEIFEKREEECRKVILVPGAQSAEAAQKAVSGLVNAMPGGTI" "c" "Han et al., 2011" -"G6337-MONOMER" "MSRPTIIINDLDAERIDILLEQPAYAGLPIADALNAELDRAQMCSPEEMPHDVVTMNSRVKFRNLSDGEVRVRTLVYPAKMTDSNTQLSVMAPVGAALLGLRVGDSIHWELPGGVATHLEVLELEYQPEAAGDYLL" "c" "Han et al., 2011" -"G6339-MONOMER" "MSMPATSTKTTKLATSLIDEYALLGWRAMLTEVNLSPKPGLVDRINCGAHKDMALEDFHRSALAIQGWLPRFIEFGACSAEMAPEAVLHGLRPIGMACEGDMFRATAGVNTHKGSIFSLGLLCAAIGRLLQLNQPVTPTTVCSTAASFCRGLTDRELRTNNSQLTAGQRLYQQLGLTGARGEAEAGYPLVINHALPHYLTLLDQGLDPELALLDTLLLLMAINGDTNVASRGGEGGLRWLQREAQTLLQKGGIRTPADLDYLRQFDRECIERNLSPGGSADLLILTWFLAQI" "c" "Han et al., 2011" -"G6340-MONOMER" "MHLLPELASHHAVSIPELLVSRDERQARQHVWLKRHPVPLVSFTVVAPGPIKDSEVTRRIFNHGVTALRALAAKQGWQIQEQAALVSASGPEGMLSIAAPARDLKLATIELEHSHPLGRLWDIDVLTPEGEILSRRDYSLPPRRCLLCEQSAAVCARGKTHQLTDLLNRMEALLNDVDACNVN" "c" "Han et al., 2011" -"G6345-MONOMER" "MLQLNENKQFAFFQRLAFPLRIFLLILVFSIFVIAALAQYFTASFEDYLTLHVRDMAMNQAKIIASNDSVISAVKTRDYKRLATIANKLQRDTDFDYVVIGDRHSIRLYHPNPEKIGYPMQFTKQGALEKGESYFITGKGSMGMAMRAKTPIFDDDGKVIGVVSIGYLVSKIDSWRAEFLLPMAGVFVVLLGILMLLSWFLAAHIRRQMMGMEPKQIARVVRQQEALFSSVYEGLIAVDPHGYITAINRNARKMLGLSSPGRQWLGKPIVEVVRPADFFTEQIDEKRQDVVANFNGLSVIANREAIRSGDDLLGAIISFRSKDEISTLNAQLTQIKQYVESLRTLRHEHLNWMSTLNGLLQMKEYDRVLAMVQGESQAQQQLIDSLREAFADRQVAGLLFGKVQRARELGLKMIIVPGSQLSQLPPGLDSTEFAAIVGNLLDNAFEASLRSDEGNKIVELFLSDEGDDVVIEVADQGCGVPESLRDKIFEQGVSTRADEPGEHGIGLYLIASYVTRCGGVITLEDNDPCGTLFSIYIPKVKPNDSSINPIDR" "i" "Han et al., 2011" -"G6346-MONOMER" "MTAPLTLLIVEDETPLAEMHAEYIRHIPGFSQILLAGNLAQARMMIERFKPGLILLDNYLPDGRGINLLHELVQAHYPGDVVFTTAASDMETVSEAVRCGVFDYLIKPIAYERLGQTLTRFRQRKHMLESIDSASQKQIDEMFNAYARGEPKDELPTGIDPLTLNAVRKLFKEPGVQHTAETVAQALTISRTTARRYLEYCASRHLIIAEIVHGKVGRPQRIYHSG" "c" "Han et al., 2011" -"G6348-MONOMER" "MMTTILTIHVPSTPGRAWNMLVALQAGNIVARYAKLHLYDAFAIQESRRVDAGNEIAPLLEVEGMKVGLMTCYDLRFPELALAQALQGAEILVLPAAWVRGPLKEHHWSTLLAARALDTTCYMVAAGECGNKNIGQSRIIDPFGVTIAAASEMPALIMAEVTPERVRQVRAQLPVLNNRRFAPPQLL" "m" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6351-MONOMER" "MIFTSSCCDNLSIDEIIERAEKGDCEAQYIVGFYYNRDSAIDSPDDEKAFYWLKLAAEQGHCEAQYSLGQKYTEDKSRHKDNEQAIFWLKKAALQGHTFASNALGWTLDRGEAPNYKEAVVWYQIAAESGMSYAQNNLGWMYRNGNGVAKDYALAFFWYKQAALQGHSDAQNNLADLYEDGKGVAQNKTLAAFWYLKSAQQGNRHAQFQIAWDYNAGEGVDQDYKQAMYWYLKAAAQGSVGAYVNIGYMYKHGQGVEKDYQAAFEWFTKAAECNDATAWYNLAIMYHYGEGRPVDLRQALDLYRKVQSSGTRDVSQEIRETEDLL" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6352-MONOMER" "MDMESQKILFALSTPMEIRNECCLPSHSSPKMYLGTCFFDLSSSWGIDDRDDLLRTIHRMIDNGHAARLAGFYHRWFRYSPCEWRDYLAELNEQGQAYAQFVASTAECCGEGGIKAWDYVRMGFLSRMGVLNNWLSEEESLWIQSRIHLRALRYYSNWRQYFAGYTFGRQYWQSPEDDHLPLLREFLARKEYDDSGNDMFYQLFASDDAYYPTLSWQPLAYYSACPETLKDMSDL" "c" "Han et al., 2011" -"G6353-MONOMER" "MKNCWKILDIEETTDVDIIRRAYLALLPSFHPETDPQGFKQLRQAYEEALRIAQSPAKSVWQPEEYEVAEHEILLAFRALLASDSERFLPSAWQRFIQQLNYCSMEEIDELRWSLCTIAMNTAHLSFECVVLLAERLRWLQEENTGEIDEEELESFLYAIAKGNVFNFQTILHLPVAVQNDTIDFYQMFARIWSSHPQWLTLYLAQHRAVIIPDDAKLHRNLLRWYSAGRLDIPELLDYAQSWRETEPDNEDAPYYEYAQRVYCGEGESLLAELCDYWREYPSTQADALMLQWCRQHRVDYYPLLVMMIEARDLVNDQGKPLLYVPGDSARTRFHLYEILSDEKLSALGRSLVEMVLHKGRKPRISLTRDTEHTLWPLYLVAKQLVQACQPTEESLMPIVSRLDAENRCPLEALIIRRLLIQAANFTEKQTVEPEPQPQPMPVDDGGPGCLGIIKIIFYIFIFAGLIGKILHLFG" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6354-MONOMER" "MNKKLMYIFAIFIVAAITCISQPKKTTLRDKAMVNYAFDYLSSPGSLPFTTAATELSAIHGHSTSQYRLGEFYLHGSDGKPLDYTQARYWYEQSAEQENPRAQSKLGWIYLKGLGVKPDTRKAILWYKEAAEQGYAHAQYTLGLIYRNGSGINVNHYESQKWLKLTAKQHYKNAERLLAGLPAH" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6355-MONOMER" "MNKEEQYLLFALSAPMEILNQGCKPAHDSPKMYTGIKEFELSSSWGINNRDDLIQTIYQMTDDGHANDLAGLYLTWHRSSPEEWKALIAGGSERGLIYTQFVAQTAMCCGEGGIKAWDYVRMGFLSRVGVLNKWLTEEESLWLQSRVYVRAHHYYHSWMHYFSAYSLGRLYWQSSQCEDNTSLREALTLYKYDSAGSRMFEELAAGSDRFYATLPWQPLTVQSECPVTLKDVSDL" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6356-MONOMER" "MKTCWQILEIESTTQIDIIRQAYLARLPLCHPETDPQGFKALRQAYEEALRLAVNPVEEADDEEKDAAAEHEILRAFRTLLDSESDRFQPSAWQKFIQQLNTWNMEDVDQLRWPLCAIAIEARYLSLNCASLLAERLNWHSFNDSEGMDEEEREAFLEAIQAGDCFDFLSLLEYPIALQNQTVEYYFALERCCRYHPDYVTAFLAMEGPWLIPDDAKLHRKLLRWYSSVQTGMAELIPVAQQWQTEEPESEDARYYLCAQRLYCGEGESLLADLCAYWESYPSTQADNLLLQWSKRHCPDYFALLVMVIEARSMVDAQGQPLKYVPGESARTRLLWAEILHSGKLSPLGQSFIESLFFKRKAWAWWKSRVGSETEQDSPFLDLYRVAEQVVLEAFPKQEMLARLNTRLEGGDAHPLEAIVTRMLLTKVKLEPEDEDVDEPTPENHEEKNDEGEKPQSITSIIKISLTVLVIGYALGKIAMLFS" "c" "Han et al., 2011" -"G6357-MONOMER" "MDNAELAIGIDLGTTNSLIAVWKDGAAQLIPNKFGEYLTPSIISMDENNHILVGKPAVSRRTSHPDKTAALFKRAMGSNTNWRLGSDTFNAPELSSLVLRSLKEDAEEFLQRPIKDVVISVPAYFSDEQRKHTRLAAELAGLNAVRLINEPTAAAMAYGLHTQQNTRSLVFDLGGGTFDVTVLEYATPVIEVHASAGDNFLGGEDFTHMLVDEVLKRADVARTTLNESELAALYACVEAAKCSNQSPLHIRWQYQEETRECEFYENELEDLWLPLLNRLRVPIEQALRDARLKPSQIDSLVLVGGASQMPLVQRIAVRLFGKLPYQSYDPSTIVALGAAIQAACRLRSEDIEEVILTDICPYSLGVEVNRQGVSGIFSPIIERNTTVPVSRVETYSTMHPEQDSITVNVYQGENHKVKNNILVESFDVPLKKTGAYQSIDIRFSYDINGLLEVDVLLEDGSVKSRVINHSPVTLSAQQIEESRTRLSALKIYPRDMLINRTFKAKLEELWARALGDEREEIGRVITDFDAALQSNDMARVDEVRRRASDYLAIEIP" "c" "Han et al., 2011" -"G6358-MONOMER" "MALPILLDCDPGHDDAIAIVLALASPELDVKAITSSAGNQTPEKTLRNVLRMLTLLNRTDIPVAGGAVKPLMRELIIADNVHGESGLDGPALPEPTFAPQNCTAVELMAKTLRESAEPVTIVSTGPQTNVALLLNSHPELHSKIARIVIMGGAMGLGNWTPAAEFNIYVDPEAAEIVFQSGIPVVMAGLDVTHKAQIHVEDTERFRAIGNPVSTIVAELLDFFLEYHKDEKWGFVGAPLHDPCTIAWLLKPELFTSVERWVGVETQGKYTQGMTVVDYYYLTGNKPNATVMVDVDRQGFVDLLADRLKFYA" "c" "Han et al., 2011" -"G6359-MONOMER" "MQLRKPATAILALALSAGLAQADDAAPAAGSTLDKIAKNGVIVVGHRESSVPFSYYDNQQKVVGYSQDYSNAIVEAVKKKLNKPDLQVKLIPITSQNRIPLLQNGTFDFECGSTTNNVERQKQAAFSDTIFVVGTRLLTKKGGDIKDFANLKDKAVVVTSGTTSEVLLNKLNEEQKMNMRIISAKDHGDSFRTLESGRAVAFMMDDALLAGERAKAKKPDNWEIVGKPQSQEAYGCMLRKDDPQFKKLMDDTIAQVQTSGEAEKWFDKWFKNPIPPKNLNMNFELSDEMKALFKEPNDKALN" "p" "Lopez-Campistrous et al., 2005" -"G6361-MONOMER" "MSDDNSHSSDTISNKKGFFSLLLSQLFHGEPKNRDELLALIRDSGQNDLIDEDTRDMLEGVMDIADQRVRDIMIPRSQMITLKRNQTLDECLDVIIESAHSRFPVISEDKDHIEGILMAKDLLPFMRSDAEAFSMDKVLRQAVVVPESKRVDRMLKEFRSQRYHMAIVIDEFGGVSGLVTIEDILELIVGEIEDEYDEEDDIDFRQLSRHTWTVRALASIEDFNEAFGTHFSDEEVDTIGGLVMQAFGHLPARGETIDIDGYQFKVAMADSRRIIQVHVKIPDDSPQPKLDE" "c" "Han et al., 2011" -"G6362-MONOMER" "MSQVILDLQLACEDNSGLPEESQFQTWLNAVIPQFQEESEVTIRVVDTAESHSLNLTYRGKDKPTNVLSFPFEVPPGMEMSLLGDLVICRQVVEKEAQEQGKPLEAHWAHMVVHGSLHLLGYDHIEDDEAEEMEALETEIMLALGYEDPYIAEKE" "c" "Han et al., 2011" -"G6363-MONOMER" "MFSFRRHTDKRNGLNIDTREITLEPADNARLLSLCGPFDDNIKQLERRLGIEINRRDNHFKLTGRPICVTAAADILRSLYVDTAPMRGQIQDIEPEQIHLAIKEARVLEQSAESVPEYGKAVNIKTKRGVIKPRTPNQAQYIANILDHDITFGVGPAGTGKTYLAVAAAVDALERQEIRRILLTRPAVEAGEKLGFLPGDLSQKVDPYLRPLYDALFEMLGFEKVEKLIERNVIEVAPLAYMRGRTLNDAFIILDESQNTTIEQMKMFLTRIGFNSKAVITGDVTQIDLPRNTKSGLRHAIEVLADVEEISFNFFHSEDVVRHPVVARIVNAYEAWEEAEQKRKAALAAERKREEQEQK" "c" "Han et al., 2011" -"G6364-MONOMER" "MTKKLHIKTWGCQMNEYDSSKMADLLDATHGYQLTDVAEEADVLLLNTCSIREKAQEKVFHQLGRWKLLKEKNPDLIIGVGGCVASQEGEHIRQRAHYVDIIFGPQTLHRLPEMINSVRGDRSPVVDISFPEIEKFDRLPEPRAEGPTAFVSIMEGCNKYCTYCVVPYTRGEEVSRPSDDILFEIAQLAAQGVREVNLLGQNVNAWRGENYDGTTGSFADLLRLVAAIDGIDRIRFTTSHPIEFTDDIIEVYRDTPELVSFLHLPVQSGSDRILNLMGRTHTALEYKAIIRKLRAARPDIQISSDFIVGFPGETTEDFEKTMKLIADVNFDMSYSFIFSARPGTPAADMVDDVPEEEKKQRLYILQERINQQAMAWSRRMLGTTQRILVEGTSRKSIMELSGRTENNRVVNFEGTPDMIGKFVDVEITDVYPNSLRGKVVRTEDEMGLRVAETPESVIARTRKENDLGVGYYQP" "c" "Han et al., 2011" -"G6370-MONOMER" "MRTFSGKRSTLALAIAGVTAMSGFMAMPEARAEGFIDDSTLTGGIYYWQRERDRKDVTDGDKYKTNLSHSTWNANLDFQSGYAADMFGLDIAAFTAIEMAENGDSSHPNEIAFSKSNKAYDEDWSGDKSGISLYKAAAKFKYGPVWARAGYIQPTGQTLLAPHWSFMPGTYQGAEAGANFDYGDAGALSFSYMWTNEYKAPWHLEMDEFYQNDKTTKVDYLHSFGAKYDFKNNFVLEAAFGQAEGYIDQYFAKASYKFDIAGSPLTTSYQFYGTRDKVDDRSVNDLYDGTAWLQALTFGYRAADVVDLRLEGTWVKADGQQGYFLQRMTPTYASSNGRLDIWWDNRSDFNANGEKAVFFGAMYDLKNWNLPGFAIGASYVYAWDAKPATWQSNPDAYYDKNRTIEESAYSLDAVYTIQDGRAKGTMFKLHFTEYDNHSDIPSWGGGYGNIFQDERDVKFMVIAPFTIF" "o" "Han et al., 2011" -"G6371-MONOMER" "MKKLILIAIMASGLVACAQSTAPQEDSRLKEAYSACINTAQGSPEKIEACQSVLNVLKKEKQHQQFADQESVRVLDYQQCLRATQTGNDQAVKADCDKVWQEIRSNNK" "p" "Han et al., 2011" -"G6374-MONOMER" "MKTNRSLVVIVSLITATLLLTACAQPEQSSLAGDWLLTPKDKTRGLTGSIAVNIAPFRCKTNCRGDNLPDNTRRWQLSGGNEKELTYLHNMSAQEKVGLNPGWQCYTSFFMRVCQGKPGTRPIVNEDYVSESGFFGSMMHVGIIELRRCQSENCQQELKAINTH" "p" "Han et al., 2011" -"G6376-MONOMER" "MWPDNRIARDAHYLYRYDRHGRLTEKTDLIPEGVIRTDDERTHRYHYDSQHRLVHYTRTQYAEPLVESRYLYDPLGRRVAKRVWRRERDLTGWMSLSRKPQVTWYGWDGDRLTTIQNDRTRIQTIYQPGSFTPLIRVETATGELAKTQRRSLADTLQQSGGEDGGSVVFPPVLVQMLDRLESEILADRVSEESRRWLASCGLTVEQMQNQMDPVYTPARKIHLYHCDHRGLPLALVSTEGATEWCAEYDEWGNLLNEENPHQLQQLIRLPGQQYDEESGLYYNRHRYYDPLQGRYITQDPIGLKGGWNFYQYPLNPVQYIDSMGLASKYGHLNNGGYGARPNKPPTPDPSKLPDIAKQLRLPYPIDQASSAPNVFKTFFRALSPYDYTLYCRKWVKPNLTCTPQDDSQYPGMDTKTASDYLPQTNWPTTQLPPGYTCAEPYLFPDINKPDGPATAGIDDLGEILAKMKQRTSRGIRK" "c" "Han et al., 2011" -"G6377-MONOMER" "LSGILLLTIFAVISGAESWEDIEDFGETHLDFLKQYGDFENGIPVHDTIARVVSCISPAKFHECFINWMRDCHSSNDKDVIAIDGKTLRHSYDKSRRRGAIHVISAFSTMHSLVIGQIKTDKKSNEITAIPELLNMLDIKGKIITTDAMGCQKDIAEKIQKQGGDYLFAVKGNQGRLNKAFEEKFPLKELNNPEHDSYAMSEKSHGREEIRLHIVCDVPDELIDFTFEWKGLKKLCVAVSFRSIIAEQKKEPEMTVRYYISSADLTAEKFATAIRNHWHVENKLHWRLDVVMNEDDCKIRRGNAAELFSGIRHIAINILTNDKVFKAGLRRKMRKAAMDRNYLASVLAGSGLS" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6379-MONOMER" "MKNTELEQLINEKLNSAAISDYAPNGLQVEGKETVQKIVTGVTASQALLDEAVRLGADAVIVHHGYFWKGESPVIRGMKRNRLKTLLANDINLYGWHLPLDAHPELGNNAQLAALLGITVMGEIEPLVPWGELTMPVPGLELASWIEARLGRKPLWCGDTGPEVVQRVAWCTGGGQSFIDSAARFGVDAFITGEVSEQTIHSAREQGLHFYAAGHHATERGGIRALSEWLNENTDLDVTFIDIPNPA" "c" "Lopez-Campistrous et al., 2005" -"G6380-MONOMER" "VQRARCYLIGETAVVLELEPPVTLASQKRIWRLAQRLVDMPNVVEAIPGMNNITVILRNPESLALDAIERLQRWWEESEALEPESRFIEIPVVYGGAGGPDLAVVAAHCGLSEKQVVELHSSVEYVVWFLGFQPGFPYLGSLPEQLHTPRRAEPRLLVPAGSVGIGGPQTGVYPLATPGGWQLIGHTSLSLFDPARDEPILLRPGDSVRFVPQKEGVC" "c" "Han et al., 2011" -"G6381-MONOMER" "MLKIIRAGMYTTVQDGGRHGFRQSGISHCGALDMPALRIANLLVGNDANAPALEITLGQLTVEFETDGWFALTGAGCEARLDDNAVWTGWRLPMKAGQRLTLKRPQHGMRSYLAVAGGIDVPPVMGSCSTDLKVGIGGLEGRLLKDGDRLPIGKSKRDSMEAQGVKQLLWGNRIRALPGPEYHEFDRASQDAFWRSPWQLSSQSNRMGYRLQGQILKRTTDRELLSHGLLPGVVQVPHNGQPIVLMNDAQTTGGYPRIACIIEADMYHLAQIPLGQPIHFVQCSLEEALKARQDQQRYFEQLAWRLHNEN" "c" "Han et al., 2011" -"G6382-MONOMER" "MKIDLNADLGEGCASDAELLTLVSSANIACGFHAGDAQIMQACVREAIKNGVAIGAHPSFPDRENFGRSAMQLPPETVYAQTLYQIGALATIARAQGGVMRHVKPHGMLYNQAAKEAQLADAIARAVYACDPALILVGLAGSELIRAGKQYGLTTREEVFADRGYQADGSLVPRSQSGALIENEEQALAQTLEMVQHGRVKSITGEWATVAAQTVCLHGDGEHALAFARRLRSAFAEKGIVVAA" "c" "Han et al., 2011" -"G6383-MONOMER" "MPEGPEIRRAADNLEAAIKGKPLTDVWFAFPQLKPYQSQLIGQHVTHVETRGKALLTHFSNDLTLYSHNQLYGVWRVVDTGEEPQTTRVLRVKLQTADKTILLYSASDIEMLTPEQLTTHPFLQRVGPDVLDPNLTPEVVKERLLSPRFRNRQFAGLLLDQAFLAGLGNYLRVEILWQVGLTGNHKAKDLNAAQLDALAHALLEIPRFSYATRGQVDENKHHGALFRFKVFHRDGEPCERCGSIIEKTTLSSRPFYWCPGCQH" "c" "Han et al., 2011" -"G6384-MONOMER" "MPVLQWGMLCVLSLLLSIGFLAVHLPAALLLGPMIAGIIFSMRGITLQLPRSAFLAAQAILGCMIAQNLTGSILTTLAVNWPIVLAILLVTLLSSAIVGWLLVRYSSLPGNTGAWGSSPGGAAAMVAMAQDYGADIRLVAFMQYLRVLFVAGAAVLVTRMMLGDNAEAVNQHIVWFPPVSINLLLTILLAVVAGTVGCLLRLPSGTMLIPMLAGAVLQSGQLITIELPEWLLAMAYMAIGWRIGLGFDKQILLRALRPLPQILLSIFALLAICAGMAWGLTRFMHIDFMTAYLATSPGGLDTVAVIAAGSNADMALIMAMQTLRLFSILLTGPAIARFISTYAPKRSA" "i" "Han et al., 2011" -"G6385-MONOMER" "MSAGKGLLLVICLLFLPLKSAMALNCYFGTSGGAVEKSEAIQPFAVPGNAKPGDKIWESDDIKIPVYCDNNTNGNFESEHVYAWVNPYPGVQDRYYQLGVTYNGVDYDASLGKSRIDTNQCIDSKNIDIYTPEQIIAMGWQNKICSGDPANIHMSRTFLARMRLYVKIREMPPHDYQSTLSDYIVVQFDGAGSVNEDPTAQNLKYHITGLENIRVLDCSVNFSISPETQVIDFGKFNLLDIRRHTMSKTFSIKTTKSQNDQCTDGFKVSSSFYTEETLVEEDKALLIGNGLKLRLLDENASPYTFNKYAEYADFTSDMLVYEKTYTAELSSIPGTPIEAGPFDTVVLFKINYN" "i" "Han et al., 2011" -"G6386-MONOMER" "MTFIKGLPLMLLTISLGCNAAVQPDRTRIVFNANDKATSLRIENQSDKLPYLAYSWIENEKGEKSDALLVALPPIQRLEPKATSQVRVVKQASTTQLPGDRETLFFYNMREIPPAPDKSSDHAILQVAIQSRIKLFWRPAALRKKAGEKVELQLQVSQQGNQLTLKNPTAYYLTIAYLGRNEKGVLPGFKTVMVAPFSTVNTNTGSYSGSQFYLGYMDDYGALRMTTLNCSGQCRLQAVEAK" "p" "Han et al., 2011" -"G6387-MONOMER" "VNIYRLSFVSCLVMAMPCAMAVEFNLNVLDKSMRDRIDISLLKEKGVIAPGEYFVSVAVNNNKISNGQKINWQKKGDKTIPCINDSLVDKFGLKPDIRQSLPQIDRCIDFSSRPEMLFNFDQANQQLNISIPQAWLAWHSENWAPPSTWKEGVAGVLMDYNLFASSYRPQDGSSSTNLNAYGTAGINAGAWRLRSDYQLNKTDSEDNHDQSGGISRTYLFRPLPQLGSKLTLGETDFSSNIFDGFSYTGAALASDDRMLPWELRGYAPQISGIAQTNATVTISQSGRVIYQKKVPPGPFIIDDLNQSVQGTLDVKVTEEDGRVNNFQVSAASTPFLTRQGQVRYKLAAGQPRPSMSHQTENETFFSNEVSWGMLSNTSLYGGLLISDDDYHSAAMGIGQNMLWLGALSFDVTWASSHFDTQQDERGLSYRFNYSKQVDATNSTISLAAYRFSDRHFHSYANYLDHKYNDSDAQDEKQTISLSVGQPITPLNLNLYANLLHQTWWNADASTTANITAGFNVDIGDWRDISISTSFNTTHYEDKDRDNQIYLSISLPFGNGGRVGYDMQNSSHSTIHRMSWNDTLDERNSWGMSAGLQSDRPDNGAQVSGNYQHLSSAGEWDISGTYAASDYSSVSSSWSGSFTATQYGAAFHRRSSTNEPRLMVSTDGVADIPVQGNLDYTNHFGIAVVPLISSYQPSTVAVNMNDLPDGVTVAENVIKETWIEGAIGYKSLASRSGKDVNVIIRNASGQFPPLGADIRQDDSGISVGMVGEEGHAWLSGVAENQLFTVVWGEQSCIIHLPERLEDTTKRLILPCH" "o" "Han et al., 2011" -"G6394-MONOMER" "MKMTKLATLFLTATLSLASGAALAADSGAQTNNGQANAAADAGQVAPDARENVAPNNVDNNGVNTGSGGTMLHSDGSSMNNDGMTKDEEHKNTMCKDGRCPDINKKVQTGDGINNDVDTKTDGTTQ" "o" "Han et al., 2011" -"G6396-MONOMER" "MLELLKSLVFAVIMVPVVMAIILGLIYGLGEVFNIFSGVGKKDQPGQNH" "i" "Han et al., 2011" -"G6398-MONOMER" "MQLKFLTASHPKSSLPFSGVIMKHELSSMKAFVILAESSSFNNAAKLLNITQPALTRRIKKMEEDLHVQLFERTTRKVTLTKAGKRLLPEARELIKKFDETLFNIRDMNAYHRGMVTLACIPTAVFYFLPLAIGKFNELYPNIKVRILEQGTNNCMESVLCNESDFGINMNNVTNSSIDFTPLVNEPFVLACRRDHPLAKKQLVEWQELVGYKMIGVRSSSGNRLLIEQQLADKPWKLDWFYEVRHLSTSLGLVEAGLGISALPGLAMPHAPYSSIIGIPLVEPVIRRTLGIIRRKDAVLSPAAERFFALLINLWTDDKDNLWTNIVERQRHALQEIG" "c" "Han et al., 2011" -"G6399-MONOMER" "MKKIPCVMMRGGTSRGAFLLAEHLPEDQTQRDKILMAIMGSGNDLEIDGIGGGNPLTSKVAIISRSSDPRADVDYLFAQVIVHEQRVDTTPNCGNMLSGVGAFAIENGLIAATSPVTRVRIRNVNTGTFIEADVQTPNGVVEYEGSARIDGVPGTAAPVALTFLNAAGTKTGKVFPTDNQIDYFDDVPVTCIDMAMPVVIIPAEYLGKTGYELPAELDADKALLARIESIRLQAGKAMGLGDVSNMVIPKPVLISPAQKGGAINVRYFMPHSCHRALAITGAIAISSSCALEGTVTRQIVPSVGYGNINIEHPSGALDVHLSNEGQDATTLRASVIRTTRKIFSGEVYLP" "c" "Han et al., 2011" -"G6401-MONOMER" "MIKLSEKGVFLASNNEIIAEEHFTGEIKKEEAKKGTIAWSILSSHNTSGNMDKLKIKFDSLASHDITFVGIVQTAKASGMERFPLPYVLTNCHNSLCAVGGTINGDDHVFGLSAAQRYGGIFVPPHIAVIHQYMREMMAGGGKMILGSDSHTRYGALGTMAVGEGGGELVKQLLNDTWDIDYPGVVAVHLTGKPAPYVGPQDVALAIIGAVFKNGYVKNKVMEFVGPGVSALSTDFRNSVDVMTTETTCLSSVWQTDEEVHNWLALHGRGQDYCQLNPQPMAYYDGCISVDLSAIKPMIALPFHPSNVYEIDTLNQNLTDILREIEIESERVAHGKAKLSLLDKVENGRLKVQQGIIAGCSGGNYENVIAAANALRGQSCGNDTFSLAVYPSSQPVFMDLAKKGVVADLIGAGAIIRTAFCGPCFGAGDTPINNGLSIRHTTRNFPNREGSKPANGQMSAVALMDARSIAATAANGGYLTSASELDCWDNVPEYAFDVTPYKNRVYQGFVKGATQQPLIYGPNIKDWPELGALTDNIVLKVCSKILDEVTTTDELIPSGETSSYRSNPIGLAEFTLSRRDPGYVSRSKATAELENQRLAGNVSELTEVFARIKQIAGQEHIDPLQTEIGSMVYAVKPGDGSAREQAASCQRVIGGLANIAEEYATKRYRSNVINWGMLPLQMAEVPTFEVGDYIYIPGIKAALDNPGTTFKGYVIHEDAPVTEITLYMESLTAEEREIIKAGSLINFNKNRQM" "c" "Han et al., 2011" -"G6402-MONOMER" "MRNRTLADLDRVVALGGGHGLGRVLSSLSSLGSRLTGIVTTTDNGGSTGRIRRSEGGIAWGDMRNCLNQLITEPSVASAMFEYRFGGNGELSGHNLGNLMLKALDHLSVRPLEAINLIRNLLKVDTHLIPMSEHPVDLMAIDDQGHEVYGEVNIDQLTTPIQELLLTPNVPATREAVHAINEADLIIIGPGSFYTSLMPILLLKEIAQALRRTPAPMVYIGNLGRELSLPAANLKLESKLAIMEQYVGKKVIDAVIVGPKVDVSAVKERIVIQEVLEASDIPYRHDRQLLHNALEKALQALG" "c" "Han et al., 2011" -"G6403-MONOMER" "MDRFPRSDSIVQPRAGLQTYMAQVYGWMTVGLLLTAFVAWYAANSAAVMELLFTNRVFLIGLIIAQLALVIVLSAMIQKLSAGVTTMLFMLYSALTGLTLSSIFIVYTAASIASTFVVTAGMFGAMSLYGYTTKRDLSGFGNMLFMALIGIVLASLVNFWLKSEALMWAVTYIGVIVFVGLTAYDTQKLKNMGEQIDTRDTSNLRKYSILGALTLYLDFINLFLMLLRIFGNRR" "i" "Han et al., 2011" -"G6404-MONOMER" "MESYSQNSNKLDFQHEARILNGIWLITALGLVATAGLAWGAKYIEITATKYDSPPMYVAIGLLLLCMYGLSKDINKINAAIAGVIYLFLLSLVAIVVASLVPVYAIIIVFSTAGAMFLISMLAGLLFNVDPGSHRFIIMMTLTGLALVIIVNAALMSERPIWIISCLMIVLWSGIISHGRNKLLELAGKCHSEELWSPVRCAFTGALTLYYYFIGFFGILAAIAITLVWQRHTRFFH" "i" "Han et al., 2011" -"G6405-MONOMER" "MSKSHPRWRLAKKILTWLFFIAVIVLLVVYAKKVDWEEVWKVIRDYNRVALLSAVGLVVVSYLIYGCYDLLARFYCGHKLAKRQVMLVSFICYAFNLTLSTWVGGIGMRYRLYSRLGLPGSTITRIFSLSITTNWLGYILLAGIIFTAGVVELPDHWYVDQTTLRILGIGLLMIIAVYLWFCAFAKHRHMTIKGQKLVLPSWKFALAQMLISSVNWMVMGAIIWLLLGQSVNYFFVLGVLLVSSIAGVIVHIPAGIGVLEAVFIALLAGEHTSKGTIIAALLAYRVLYYFIPLLLALICYLLLESQAKKLRAKNEAAM" "i" "Han et al., 2011" -"G6406-MONOMER" "MKCSWREGNKIQLLENGEQYYPAVFKAIGEAQERIILETFIWFEDDVGKQLHAALLAAAQRGVKAEVLLDGYGSPDLSDEFVNELTAAGVVFRYYDPRPRLFGMRTNVFRRMHRKIVVIDARIAFIGGLNYSAEHMSSYGPEAKQDYAVRLEGPIVEDILQFELENLPGQSAARRWWRRHHKAEENRQPGEAQVLLVWRDNEEHRDDIERHYLKMLTQARREVIIANAYFFPGYRFLHALRKAARRGVRIKLIIQGEPDMPIVRVGARLLYNYLVKGGVQVFEYRRRPLHGKVALMDDHWATVGSSNLDPLSLSLNLEANVIIHDRHFNQTLRDNLNGIIAADCQQVDETMLPKRTWWNLTKSVLAFHFLRHFPALVGWLPAHTPRLAQVDPPAQPTMETQDRVETENTGVKP" "i" "Han et al., 2011 (location manually reset)" -"G6407-MONOMER" "MPDQTQQFSFKVLTINIHKGFTAFNRRFILPELRDAVRTVSADIVCLQEVMGAHEVHPLHVENWPDTSHYEFLADTMWSDFAYGRNAVYPEGHHGNAVLSRYPIEHYENRDVSVDGAEKRGVLYCRIVPPMTGKAIHVMCVHLGLREAHRQAQLAMLAEWVNELPDGEPVLVAGDFNDWRQKANHPLKVQAGLDEIFTRAHGRPARTFPVQFPLLRLDRIYVKNASASAPTALPLRTWRHLSDHAPLSAEIHL" "c" "Han et al., 2011" -"G6408-MONOMER" "MKWQQRVRVATGLSCWQIMLHLLVVALLVVGWMSKTLVHVGVGLCALYCVTVVMMLVFQRHPEQRWREVADVLEELTTTWYFGAALIVLWLLSRVLENNFLLAIAGLAILAGPAVVSLLAKDKKLHHLTSKHRVRR" "i" "Han et al., 2011" -"G6412-MONOMER" "VMKKPVVIGLAVVVLAAVVAGGYWWYQSRQDNGLTLYGNVDIRTVNLSFRVGGRVESLAVDEGDAIKAGQVLGELDHKPYEIALMQAKAGVSVAQAQYDLMLAGYRNEEIAQAAAAVKQAQAAYDYAQNFYNRQQGLWKSRTISANDLENARSSRDQAQATLKSAQDKLRQYRSGNREQDIAQAKASLEQAQAQLAQAELNLQDSTLIAPSDGTLLTRAVEPGTVLNEGGTVFTVSLTRPVWVRAYVDERNLDQAQPGRKVLLYTDGRPDKPYHGQIGFVSPTAEFTPKTVETPDLRTDLVYRLRIVVTDADDALRQGMPVTVQFGDEAGHE" "i" "Han et al., 2011" -"G6413-MONOMER" "MMYHIPGVLSPQDVARFREQLEQAEWVDGRVTTGAQGAQVKNNQQVDTRSTLYAALQNEVLNAVNQHALFFAAALPRTLSTPLFNRYQNNETYGFHVDGAVRSHPQNGWMRTDLSATLFLSDPQSYDGGELVVNDTFGQHRVKLPAGDLVLYPSSSLHCVTPVTRGVRVASFMWIQSMIRDDKKRAMLFELDNNIQSLKSRYGESEEILSLLNLYHNLLREWSEI" "c" "Han et al., 2011" -"G6414-MONOMER" "MENNRNFPARQFHSLTFFAGLCIGITPVAQALAAEGQTNADDTLVVEASTPSLYAPQQSADPKFSRPVADTTRTMTVISEQVIKDQGATNLTDALKNVPGVGAFFAGENGNSTTGDAIYMRGADTSNSIYIDGIRDIGSVSRDTFNTEQVEVIKGPSGTDYGRSAPTGSINMISKQPRNDSGIDASASIGSAWFRRGTLDVNQVIGDTTAVRLNVMGEKTHDAGRDKVKNERYGVAPSVAFGLGTANRLYLNYLHVTQHNTPDGGIPTIGLPGYSAPSAGTAALNHSGKVDTHNFYGTDSDYDDSTTDTATMRFEHDINDNTTIRNTTRWSRVKQDYLMTAIMGGASNITQPTSDVNSWTWSRTANTKDVSNKILTNQTNLTSTFYTGSIGHDVSTGVEFTRETQTNYGVNPVTLPAVNIYHPDSSIHPGGLTRNGANANGQTDTFAIYAFDTLQITRDFELNGGIRLDNYHTEYDSATACGGSGRGAITCPTGVAKGSPVTTVDTAKSGNLMNWKAGALYHLTENGNVYINYAVSQQPPGGNNFALAQSGSGNSANRTDFKPQKANTSEIGTKWQVLDKRLLLTAALFRTDIENEVEQNDDGTYSQYGKKRVEGYEISVAGNITPAWQVIGGYTQQKATIKNGKDVAQDGSSSLPYTPEHAFTLWSQYQATDDISVGAGARYIGSMHKGSDGAVGTPAFTEGYWVADAKLGYRVNRNLDFQLNVYNLFDTDYVASINKSGYRYHPGEPRTFLLTANMHF" "o" "Han et al., 2011" -"G6415-MONOMER" "MKKCLTLLIATVLSGISLTAYAAQPMSNLDSGQLRPAGTVSATGASNLSDLEDKLAEKAREQGAKGYVINSAGGNDQMFGTATIYK" "p" "Han et al., 2011" -"G6416-MONOMER" "MSAQKPGLHPRNRHHSRYDLATLCQVNPELRQFLTLTPAGEQSVDFANPLAVKALNKALLAHFYAVANWDIPDGFLCPPVPGRADYIHHLADLLAEASGTIPANASILDIGVGANCIYPLIGVHEYGWRFTGSETSSQALSSAQAIISSNPGLNRAIRLRRQKESGAIFNGIIHKNEQYDATLCNPPFHDSAAAARAGSERKRRNLGLNKDDALNFGGQQQELWCEGGEVTFIKKMIEESKGFAKQVMWFTSLVSRGENLPPLYRALTDVGAVKVVKKEMAQGQKQSRFIAWTFMNDEQRRRFVNRQR" "c" "Han et al., 2011" -"G6417-MONOMER" "MRWILFILFCLLGAPAHAVSIPGVTTTTTTDSTTEPAPEPDIEQKKAAYGALADVLDNDTSRKELIDQLRTVAATPPAEPVPKIVPPTLVEEQTVLQKVTEVSRHYGEALSARFGQLYRNITGSPHKPFNPQTFSNALTHFSMLAVLVFGFYWLIRLCALPLYRKMGQWARQKNRERSNWLQLPAMIIGAFIIDLLLLALTLFVGQVLSDNLNAGSRTIAFQQSLFLNAFALIEFFKAVLRLIFCPNVAELRPFTIQDESARYWSRRLSWLSSLIGYGLIVAVPIISNQVNVQIGALANVIIMLCMTVWALYLIFRNKKEITQHLLNFAEHSLAFFSLFIRAFALVWHWLASAYFIVLFFFSLFDPGNSLKFMMGATVRSLAIIGIAAFVSGMFSRWLAKTITLSPHTQRNYPELQKRLNGWLSAALKTARILTVCVAVMLLLSAWGLFDFWNWLQNGAGQKTVDILIRIALILFFSAVGWTVLASLIENRLASDIHGRPLPSARTRTLLTLFRNALAVIISTITIMIVLSEIGVNIAPLLAGAGALGLAISFGSQTLVKDIITGVFIQFENGMNTGDLVTIGPLTGTVERMSIRSVGVRQDTGAYHIIPWSSITTFANFVRGIGSVVANYDVDRHEDADKANQALKDAVAELMENEEIRGLIIGEPNFAGIVGLSNTAFTLRVSFTTLPLKQWTVRFALDSQVKKHFDLAGVRAPVQTYQVLPAPGATPAEPLPPGEPTL" "i" "Han et al., 2011" -"G6418-MONOMER" "MNLTLKESLVTRSRVFSPWTAFYFLQSLLINLGLGYPFSLLYTAAFTAILLLLWRTLPRVQKVLVGVSSLVAACYFPFAQAYGAPNFNTLLALHSTNMEESTEILTIFPWYSYLVGLFIFALGVIAIRRKKENEKARWNTFDSLCLVFSVATFFVAPVQNLAWGGVFKLKDTGYPVFRFAKDVIVNNNEVIEEQERMAKLSGMKDTWTVTAVKPKYQTYVVVIGESARRDALGAFGGHWDNTPFASSVNGLIFADYIAASGSTQKSLGLTLNRVVDGKPQFQDNFVTLANRAGFQTWWFSNQGQIGEYDTAIASIAKRADEVYFLKEGNFEADKNTKDEALLDMTAQVLAQEHSQPQLIVLHLMGSHPQACDRTQGKYETFVQSKETSCYLYTMTQTDDLLRKLYDQLRNSGSSFSLVYFSDHGLAFKERGKDVQYLAHDDKYQQNFQVPFMVISSDDKAHRVIKARRSANDFLGFFSQWTGIKAKEINIKYPFISEKKAGPIYITNFQLQKVDYNHLGTDIFDPKP" "i" "Han et al., 2011" -"G6420-MONOMER" "MSRRAGTPTAKKVTQLVNVEEHVEGFRQVREAHRRELIDDYVELISDLIREVGEARQVDMAARLGVSQPTVAKMLKRLATMGLIEMIPWRGVFLTAEGEKLAQESRERHQIVENFLLVLGVSPEIARRDAEGMEHHVSEETLDAFRLFTQKHGAK" "c" "Han et al., 2011" -"G6421-MONOMER" "MSLPFLRTLQGDRFFQLLILVGIGLSFFVPFAPKSWPAAIDWHTIITLSGLMLLTKGVELSGYFDVLGRKMVRRFATERRLAMFMVLAAALLSTFLTNDVALFIVVPLTITLKRLCEIPVNRLIIFEALAVNAGSLLTPIGNPQNILIWGRSGLSFAGFIAQMAPLAGAMMLTLLLLCWCCFPGKAMQYHTGVQTPEWKPRLVWSCLGLYIVFLTALEFKQELWGLVIVAAGFALLARRVVLSVDWTLLLVFMAMFIDVHLLTQLPALQGVLGNVSHLSEPGLWLTAIGLSQVISNVPSTILLLNYVPPSLLLVWAVNVGGFGLLPGSLANLIALRMANDRRIWWRFHLYSIPMLLWAALVGYVLLVILPAN" "i" "Han et al., 2011" -"G6422-MONOMER" "MNMKLKTLFAAAFAVVGFCSTASAVTYPLPTDGSRLVGQNQVITIPEGNTQPLEYFAAEYQMGLSNMMEANPGVDTFLPKGGTVLNIPQQLILPDTVHEGIVINSAEMRLYYYPKGTNTVIVLPIGIGQLGKDTPINWTTKVERKKAGPTWTPTAKMHAEYRAAGEPLPAVVPAGPDNPMGLYALYIGRLYAIHGTNANFGIGLRVSHGCVRLRNEDIKFLFEKVPVGTRVQFIDEPVKATTEPDGSRYIEVHNPLSTTEAQFEGQEIVPITLTKSVQTVTGQPDVDQVVLDEAIKNRSGMPVRLN" "p" "Han et al., 2011" -"G6423-MONOMER" "VLVSSNVTMQFGSKPLFENISVKFGGGNRYGLIGANGSGKSTFMKILGGDLEPTLGNVSLDPNERIGKLRQDQFAFEEFTVLDTVIMGHKELWEVKQERDRIYALPEMSEEDGYKVADLEVKYGEMDGYSAEARAGELLLGVGIPVEQHYGPMSEVAPGWKLRVLLAQALFADPDILLLDEPTNNLDIDTIRWLEQVLNERDSTMIIISHDRHFLNMVCTHMADLDYGELRVYPGNYDEYMTAATQARERLLADNAKKKAQIAELQSFVSRFSANASKSRQATSRARQIDKIKLEEVKASSRQNPFIRFEQDKKLFRNALEVEGLTKGFDNGPLFKNLNLLLEVGEKLAVLGTNGVGKSTLLKTLVGDLQPDSGTVKWSENARIGYYAQDHEYEFENDLTVFEWMSQWKQEGDDEQAVRSILGRLLFSQDDIKKPAKVLSGGEKGRMLFGKLMMQKPNILIMDEPTNHLDMESIESLNMALELYQGTLIFVSHDREFVSSLATRILEITPERVIDFSGNYEDYLRSKGIE" "c" "Han et al., 2011" -"G6424-MONOMER" "MASTFTSDTLPADHKAAIRQMKHALRAQLGDVQQIFNQLSDDIATRVAEINALKAQGDAVWPVLSYADIKAGHVTAEQREQIKRRGCAVIKGHFPREQALGWDQSMLDYLDRNRFDEVYKGPGDNFFGTLSASRPEIYPIYWSQAQMQARQSEEMANAQSFLNRLWTFESDGKQWFNPDVSVIYPDRIRRRPPGTTSKGLGAHTDSGALERWLLPAYQRVFANVFNGNLAQYDPWHAAHRTEVEEYTVDNTTKCSVFRTFQGWTALSDMLPGQGLLHVVPIPEAMAYVLLRPLLDDVPEDELCGVAPGRVLPVSEQWHPLLIEALTSIPKLEAGDSVWWHCDVIHSVAPVENQQGWGNVMYIPAAPMCEKNLAYAHKVKAALEKGASPGDFPREDYETNWEGRFTLADLNIHGKRALGMDV" "c" "Han et al., 2011" -"G6425-MONOMER" "MSVKVIVTDMDGTFLNDAKTYNQPRFMAQYQELKKRGIKFVVASGNQYYQLISFFPELKDEISFVAENGALVYEHGKQLFHGELTRHESRIVIGELLKDKQLNFVACGLQSAYVSENAPEAFVALMAKHYHRLKPVKDYQEIDDVLFKFSLNLPDEQIPLVIDKLHVALDGIMKPVTSGFGFIDLIIPGLHKANGISRLLKRWDLSPQNVVAIGDSGNDAEMLKMARYSFAMGNAAENIKQIARYATDDNNHEGALNVIQAVLDNTSPFNS" "c" "Han et al., 2011" -"G6426-MONOMER" "MTTLKLDTLSDRIKAHKNALVHIVKPPVCTERAQHYTEMYQQHLDKPIPVRRALALAHHLANRTIWIKHDELIIGNQASEVRAAPIFPEYTVSWIEKEIDDLADRPGAGFAVSEENKRVLHEVCPWWRGQTVQDRCYGMFTDEQKGLLATGIIKAEGNMTSGDAHLAVNFPLLLEKGLDGLREEVAERRSRINLTVLEDLHGEQFLKAIDIVLVAVSEHIERFAALAREMAATETRESRRDELLAMAENCDLIAHQPPQTFWQALQLCYFIQLILQIESNGHSVSFGRMDQYLYPYYRRDVELNQTLDREHAIEMLHSCWLKLLEVNKIRSGSHSKASAGSPLYQNVTIGGQNLVDGQPMDAVNPLSYAILESCGRLRSTQPNLSVRYHAGMSNDFLDACVQVIRCGFGMPAFNNDEIVIPEFIKLGIEPQDAYDYAAIGCIETAVGGKWGYRCTGMSFINFARVMLAALEGGHDATSGKVFLPQEKALSAGNFNNFDEVMDAWDTQIRYYTRKSIEIEYVVDTMLEENVHDILCSALVDDCIERAKSIKQGGAKYDWVSGLQVGIANLGNSLAAVKKLVFEQGAIGQQQLAAALADDFDGLTHEQLRQRLINGAPKYGNDDDTVDTLLARAYQTYIDELKQYHNPRYGRGPVGGNYYAGTSSISANVPFGAQTMATPDGRKAHTPLAEGASPASGTDHLGPTAVIGSVGKLPTAAILGGVLLNQKLNPATLENESDKQKLMILLRTFFEVHKGWHIQYNIVSRETLLDAKKHPDQYRDLVVRVAGYSAFFTALSPDAQDDIIARTEHML" "c" "Han et al., 2011" -"G6427-MONOMER" "MLERNREATMIFNIQRYSTHDGPGIRTVVFLKGCSLGCRWCQNPESRARTQDLLYDARLCLEGCELCAKAAPEVIERALNGLLIHREKLTPEHLTALTDCCPTQALTVCGEVKSVEEIMTTVLRDKPFYDRSGGGLTLSGGEPFMQPEMAMALLQASHEAGIHTAVETCLHVPWKYIAPSLPYIDLFLADLKHVADAPFKQWTDGNAARVLDNLKKLAAAGKKIIIRVPLIQGFNADETSVKAITDFAADELHVGEIHFLPYHTLGINKYHLLNLPYDAPEKPLDAPELLDFAQQYACQKGLTATLRG" "c" "Han et al., 2011" -"G6428-MONOMER" "MELYLDTSDVVAVKALSRIFPLAGVTTNPSIIAAGKKPLDVVLPQLHEAMGGQGRLFAQVMATTAEGMVNDALKLRSIIADIVVKVPVTAEGLAAIKMLKAEGIPTLGTAVYGAAQGLLSALAGAEYVAPYVNRIDAQGGSGIQTVTDLHQLLKMHAPQAKVLAASFKTPRQALDCLLAGCESITLPLDVAQQMISYPAVDAAVAKFEQDWQGAFGRTSI" "c" "Han et al., 2011" -"G6433-MONOMER" "MLSLYEKIKIRLIILFLLAALSFIGLFFIINYQLVSERAVKRADSRFELIQKNVGYFFKDIERSALTLKDSLYLLKNTEEIQRAVILKMEMMPFLDSVGLVLDDNKYYLFSRRANDKIVVYHQEQVNGPLVDESGRVIFADFNPSKRPWSVASDDSNNSWNPAYNCFDRPGKKCISFTLHINGKDHDLLAVDKIHVDLNWRYLNEYLDQISANDEVLFLKQGHEIIAKNQLAREKLIIYNSEGNYNIIDSVDTEYIEKTSAVPNNALFEIYFYYPGGNLLNASDKLFYLPFAFIIIVLLVVYLMTTRVFRRQFSEMTELVNTLAFLPDSTDQIEALKIREGDAKEIISIKNSIAEMKDAEIERSNKLLSLISYDQESGFIKNMAIIESNNNQYLAVGIIKLCGLEAVEAVFGVDERNKIVRKLCQRIAEKYAQCCDIVTFNADLYLLLCRENVQTFTRKIAMVNDFDSSFGYRNLRIHKSAICEPLQGENAWSYAEKLKLAISSIRDHMFSEFIFCDDAKLNEIEENIWIARNIRHAMEIGELFLVYQPIVDINTRAILGAEALCRWVSAERGIISPLKFITIAEDIGFINELGYQIIKTAMGEFRHFSQRASLKDDFLLHINVSPWQLNEPHFHERFTTIMKENGLKANSLCVEITETVIERINEHFYLNIEQLRKQGVRISIDDFGTGLSNLKRFYEINPDSIKVDSQFTGDIFGTAGKIVRIIFDLARYNRIPVIAEGVESEDVARELIKLGCVQAQGYLYQKPMPFSAWDKSGKLVKE" "c" "Han et al., 2011" -"G6434-MONOMER" "MSRINKFVLTVSLLIFIMISAVACGIYTQMVKERVYSLKQSVIDTAFAVANIAEYRRSVAIDLINTLNPTEEQLLVGLRTAYADSVSPSYLYDVGPYLISSDECIQVKEFEKNYCADIMQVVKYRHVKNTGFISFDGKTFVYYLYPVTHNRSLIFLLGLERFSLLSKSLAMDSENLMFSLFKNGKPVTGDEYNAKNAIFTVSEAMEHFAYLPTGLYVFAYKKDVYLRVCTLIIFFAALVAVISGASCLYLVRRVINRGIVEKEAIINNHFERVLDGGLFFSAADVKKLYSMYNSAFLDDLTKAMGRKSFDEDLKALPEKGGYLCLFDVDKFKNINDTFGHLLGDEVLMKVVKILKSQIPVDKGKVYRFGGDEFAVIYTGGTLEELLSILKEIVHFQVGSINLSTSIGVAHSNECPTVERLKMLADERLYKSKKNGRAQISWQ" "i" "Han et al., 2011" -"G6435-MONOMER" "MSKVTPQPKIGFVSLGCPKNLVDSERILTELRTEGYDVVPSYDDADMVIVNTCGFIDSAVQESLEAIGEALNENGKVIVTGCLGAKEDQIREVHPKVLEITGPHSYEQVLEHVHHYVPKPKHNPFLSLVPEQGVKLTPRHYAYLKISEGCNHRCTFCIIPSMRGDLVSRPIGEVLSEAKRLVDAGVKEILVISQDTSAYGVDVKHRTGFHNGEPVKTSMVSLCEQLSKLGIWTRLHYVYPYPHVDDVIPLMAEGKILPYLDIPLQHASPRILKLMKRPGSVDRQLARIKQWREICPELTLRSTFIVGFPGETEEDFQMLLDFLKEARLDRVGCFKYSPVEGADANALPDQVPEEVKEERWNRFMQLQQQISAERLQEKVGREILVIIDEVDEEGAIGRSMADAPEIDGAVYLNGETNVKPGDILRVKVEHADEYDLWGSRV" "c" "Han et al., 2011" -"G6436-MONOMER" "MFVDRQRIDLLNRLIDARVDLAAYVQLRKAKGYMSVSESNHLRDNFFKLNRELHDKSLRLNLHLDQEEWSALHHAEEALATAAVCLMSGHHDCPTVITVNADKLENCLMSLTLSIQSLQKHAMLEKA" "c" "Han et al., 2011" -"G6437-MONOMER" "MHRQSFFLVPLICLSSALWAAPATVNVEVLQDKLDHPWALAFLPDNHGMLITLRGGELRHWQAGKGLSAPLSGVPDVWAHGQGGLLDVVLAPDFAQSRRIWLSYSEVGDDGKAGTAVGYGRLSDDLSKVTDFRTVFRQMPKLSTGNHFGGRLVFDGKGYLFIALGENNQRPTAQDLDKLQGKLVRLTDQGEIPDDNPFIKESGARAEIWSYGIRNPQGMAMNPWSNALWLNEHGPRGGDEINIPQKGKNYGWPLATWGINYSGFKIPEAKGEIVAGTEQPVFYWKDSPAVSGMAFYNSDKFPQWQQKLFIGALKDKDVIVMSVNGDKVTEDGRILTDRGQRIRDVRTGPDGYLYVLTDESSGELLKVSPRN" "p" "Han et al., 2011" -"G6438-MONOMER" "MITLWGRNNSTNVKKVLLTLEELELPYEQILAGREFGINHDADFLAMNPNGLVPLLRDDESDLILWESNAIVRYLAAQYGQKRLWIDSPARRAEAEKWMDWANQTLSNAHRGILMGLVRTPPEERDQAAIDASCKECDALFALLDAELAKVKWFSGDEFGVGDIAIAPFIYNLFNVGLTWTPRPNLQRWYQQLTERPAVRKVVMIPVS" "c" "Han et al., 2011" -"G6439-MONOMER" "MLENLNLSLFSLINATPDSAPWMISLAIFIAKDLITVVPLLAVVLWLWGLTAQRQLVIKIAIALAVSLFVSWTMGHLFPHDRPFVENIGYNFLHHAADDSFPSDHGTVIFTFALAFLCWHRLWSGSLLMVLAVVIAWSRVYLGVHWPLDMLGGLLAGMIGCLSAQIIWQAMGHKLYQRLQSWYRVCFALPIRKGWVRD" "i" "Han et al., 2011" -"G6441-MONOMER" "MIMKNCLLLGALLMGFTGVAMAQSVTVDVPSGYKVVVVPDSVSVPQAVSVATVPQTVYVAPAPAPAYRPHPYVRHLASVGEGMVIEHQIDDHHH" "p" "Han et al., 2011" -"G6442-MONOMER" "MSIKLIAVDMDGTFLSDQKTYNRERFMAQYQQMKAQGIRFVVASGNQYYQLISFFPEIANEIAFVAENGGWVVSEGKDVFNGELSKDAFATVVEHLLTRPEVEIIACGKNSAYTLKKYDDAMKTVAEMYYHRLEYVDNFDNLEDIFFKFGLNLSDELIPQVQKALHEAIGDIMVSVHTGNGSIDLIIPGVHKANGLRQLQKLWGIDDSEVVVFGDGGNDIEMLRQAGFSFAMENAGSAVVAAAKYRAGSNNREGVLDVIDKVLKHEAPFDQ" "c" "Han et al., 2011" -"G6443-MONOMER" "MTVNSSRNALKRRTWALFMFFFLPGLLMASWATRTPAIRDILSVSIAEMGGVLFGLSIGSMSGILCSAWLVKRFGTRNVILVTMSCALIGMMILSLALWLTSPLLFAVGLGVFGASFGSAEVAINVEGAAVEREMNKTVLPMMHGFYSLGTLAGAGVGMALTAFGVPATVHILLAALVGIAPIYIAIQAIPDGTGKNAADGTQHGEKGVPFYRDIQLLLIGVVVLAMAFAEGSANDWLPLLMVDGHGFSPTSGSLIYAGFTLGMTVGRFTGGWFIDRYSRVAVVRASALMGALGIGLIIFVDSAWVAGVSVVLWGLGASLGFPLTISAASDTGPDAPTRVSVVATTGYLAFLVGPPLLGYLGEHYGLRSAMLVVLALVILAAIVAKAVAKPDTKTQTAMENS" "i" "Han et al., 2011" -"G6444-MONOMER" "MRRANDPQRREKIIQATLEAVKLYGIHAVTHRKIATLAGVPLGSMTYYFSGIDELLLEAFSSFTEIMSRQYQAFFSDVSDAPGACQAITDMIYSSQVATPDNMELMYQLYALASRKPLLKTVMQNWMQRSQQTLEQWFEPGTARALDAFIEGMTLHFVTDRKPLSREEILRMVERVAG" "c" "Han et al., 2011" -"G6445-MONOMER" "VNINVAELLNGNYILLLFVVLALGLCLGKLRLGSIQLGNSIGVLVVSLLLGQQHFSINTDALNLGFMLFIFCVGVEAGPNFFSIFFRDGKNYLMLALVMVGSALVIALGLGKLFGWDIGLTAGMLAGSMTSTPVLVGAGDTLRHSGMESRQLSLALDNLSLGYALTYLIGLVSLIVGARYLPKLQHQDLQTSAQQIARERGLDTDANRKVYLPVIRAYRVGPELVAWTDGKNLRELGIYRQTGCYIERIRRNGILANPDGDAVLQMGDEIALVGYPDAHARLDPSFRNGKEVFDRDLLDMRIVTEEVVVKNHNAVGKRLAQLKLTDHGCFLNRVIRSQIEMPIDDNVVLNKGDVLQVSGDARRVKTIADRIGFISIHSQVTDLLAFCAFFVIGLMIGMITFQFSTFSFGMGNAAGLLFAGIMLGFMRANHPTFGYIPQGALSMVKEFGLMVFMAGVGLSAGSGINNGLGAIGGQMLIAGLIVSLVPVVICFLFGAYVLRMNRALLFGAMMGARTCAPAMEIISDTARSNIPALGYAGTYAIANVLLTLAGTIIVMVWPGLG" "i" "Han et al., 2011" -"G6446-MONOMER" "VKHKQRWAGAICCFVLFIVVCLFLATHMKGAFRAAGHPEIGLLFFILPGAVASFFSQRREVLKPLFGAMLAAPCSMLIMRLFFSPTRSFWQELAWLLSAVFWCALGALCFLFISSLFKPQHRKNQ" "i" "Han et al., 2011" -"G6447-MONOMER" "MTSLVVPGLDTLRQWLDDLGMSFFECDNCQALHLPHMQNFDGVFDAKIDLIDNTILFSAMAEVRPSAVLPLAADLSAINASSLTVKAFLDMQDDNLPKLVVCQSLSVMQGVTYEQFAWFVRQSEEQISMVILEANAHQLLLPTDDEGQNNVTENYFLH" "c" "Han et al., 2011" -"G6448-MONOMER" "MEDETLGFFKKTSSSHARLNVPALVQVAALAIIMIRGLDVLMIFNTLGVRGIGEFIHRSVQTWSLTLVFLSSLVLVFIEIWCAFSLVKGRRWARWLYLLTQITAASYLWAASLGYGYPELFSIPGESKREIFHSLMLQKLPDMLILMLLFVPSTSRRFFQLQ" "i" "Han et al., 2011" -"G6449-MONOMER" "MQCALYDAGRCRSCQWIMQPIPEQLSAKTADLKNLLADFPVEEWCAPVSGPEQGFRNKAKMVVSGSVEKPLLGMLHRDGTPEDLCDCPLYPASFAPVFAALKPFIARAGLTPYNVARKRGELKYILLTESQSDGGMMLRFVLRSDTKLAQLRKALPWLHEQLPQLKVITVNIQPVHMAIMEGETEIYLTEQQALAERFNDVPLWIRPQSFFQTNPAVASQLYATARDWVRQLPVKHMWDLFCGVGGFGLHCATPDMQLTGIEIASEAIACAKQSAAELGLTRLQFQALDSTQFATAQGDVPELVLVNPPRRGIGKPLCDYLSTMAPRFIIYSSCNAQTMAKDIRELPGFRIERVQLFDMFPHTAHYEVLTLLVKQ" "c" "Han et al., 2011" -"G6450-MONOMER" "MRYSKLTMLIPCALLLSACTTVTPAYKDNGTRSGPCVEGGPDNVAQQFYDYRILHRSNDITALRPYLSDKLATLLSDASRDNNHRELLTNDPFSSRTTLPDSAHVASASTIPNRDARNIPLRVDLKQGDQGWQDEVLMIQEGQCWVIDDVRYLGGSVHATAGTLRQSIENR" "i" "Han et al., 2011" -"G6451-MONOMER" "MQFSTTPTLEGQTIVEYCGVVTGEAILGANIFRDFFAGIRDIVGGRSGAYEKELRKAREIAFEELGSQARALGADAVVGIDIDYETVGQNGSMLMVSVSGTAVKTRR" "c" "Han et al., 2011" -"G6452-MONOMER" "MRRFFWLVAAALLLAGCAGEKGIVEKEGYQLDTRRQAQAAYPRIKVLVIHYTADDFDSSLATLTDKQVSSHYLVPAVPPRYNGKPRIWQLVPEQELAWHAGISAWRGATRLNDTSIGIELENRGWQKSAGVKYFAPFEPAQIQALIPLAKDIIARYHIKPENVVAHADIAPQRKDDPGPLFPWQQLAQQGIGAWPDAQRVNFYLAGRAPHTPVDTASLLELLARYGYDVKPDMTPREQRRVIMAFQMHFRPTLYNGEADAETQAIAEALLEKYGQD" "p" "Han et al., 2011" -"G6453-MONOMER" "MKVLVTGATSGLGRNAVEFLCQKGISVRATGRNEAMGKLLEKMGAEFVPADLTELVSSQAKVMLAGIDTLWHCSSFTSPWGTQQAFDLANVRATRRLGEWAVAWGVRNFIHISSPSLYFDYHHHRDIKEDFRPHRFANEFARSKAASEEVINMLSQANPQTRFTILRPQSLFGPHDKVFIPRLAHMMHHYGSILLPHGGSALVDMTYYENAVHAMWLASQEACDKLPSGRVYNITNGEHRTLRSIVQKLIDELNIDCRIRSVPYPMLDMIARSMERLGRKSAKEPPLTHYGVSKLNFDFTLDITRAQEELGYQPVITLDEGIEKTAAWLRDHGKLPR" "c" "Han et al., 2011" -"G6454-MONOMER" "VPQRILVLGASGYIGQHLVRTLSQQGHQILAAARHVDRLAKLQLANVSCHKVDLSWPDNLPALLQDIDTVYFLVHSMGEGGDFIAQERQVALNVRDALREVPVKQLIFLSSLQAPPHEQSDHLRARQATADILREANVPVTELRAGIIVGAGSAAFEVMRDMVYNLPVLTPPRWVRSRTTPIALENLLHYLVALLDHPASEHRIFEAAGPEVLSYQQQFEHFMAVSGKRRWLIPIPLPTRWISVWFLNVITSVPPTTARALIQGLKHDLLADDTALRALIPQRLIAFDDAVRSTLKEEEKLVNSSDWGYDAQAFARWRPEYGYFAKQAGFTVKTSASLAALWQVVNQIGGKERYFFGNILWQTRALMDRAIGHKLAKGRPEREYLQTGDAVDSWKVIVVEPEKQLTLLFGMKAPGLGRLCFSLEDKGDYRTIDVRAFWHPHGMPGLFYWLLMIPAHLFIFRGMAKQIARLAEQSTD" "c" "Han et al., 2011" -"G6456-MONOMER" "MTMPTNQCPWRMQVHHITQETPDVWTISLICHDYYPYRAGQYALVSVRNSAETLRAYTISSTPGVSEYITLTVRRIDDGVGSQWLTRDVKRGDYLWLSDAMGEFTCDDKAEDKFLLLAAGCGVTPIMSMRRWLAKNRPQADVRVIYNVRTPQDVIFADEWRNYPVTLVAENNVTEGFIAGRLTRELLAGVPDLASRTVMTCGPAPYMDWVEQEVKALGVTRFFKEKFFTPVAEAATSGLKFTKLQPAREFYAPVGTTLLEALESNNVPVVAACRAGVCGCCKTKVVSGEYTVSSTMTLTDAEIAEGYVLACSCHPQGDLVLA" "c" "Han et al., 2011" -"G6457-MONOMER" "MFCVQCEQTIRTPAGNGCSYAQGMCGKTAETSDLQDLLIAALQGLSAWAVKAREYGIINHDVDSFAPRAFFSTLTNVNFDSPRIVGYAREAIALREALKAQCLAVDANARVDNPMADLQLVSDDLGELQRQAAEFTPNKDKAAIGENILGLRLLCLYGLKGAAAYMEHAHVLGQYDNDIYAQYHKIMAWLGTWPADMNALLECSMEIGQMNFKVMSILDAGETGKYGHPTPTQVNVKATAGKCILISGHDLKDLYNLLEQTEGTGVNVYTHGEMLPAHGYPELRKFKHLVGNYGSGWQNQQVEFARFPGPIVMTSNCIIDPTVGAYDDRIWTRSIVGWPGVRHLDGDDFSAVITQAQQMAGFPYSEIPHLITVGFGRQTLLGAADTLIDLVSREKLRHIFLLGGCDGARGERHYFTDFATSVPDDCLILTLACGKYRFNKLEFGDIEGLPRLVDAGQCNDAYSAIILAVTLAEKLGCGVNDLPLSLVLSWFEQKAIVILLTLLSLGVKNIVTGPTAPGFLTPDLLAVLNEKFGLRSITTVEEDMKQLLSA" "c" "Han et al., 2011" -"G6458-MONOMER" "MFSGLLIILVPLIVGYLIPLRQQAALKVINQLLSWMVYLILFFMGISLAFLDNLASNLLAILHYSAVSITVILLCNIAALMWLERGLPWRNHHQQEKLPSRIAMALESLKLCGVVVIGFAIGLSGLAFLQHATEASEYTLILLLFLVGIQLRNNGMTLKQIVLNRRGMIVAVVVVVSSLIGGLINAFILDLPINTALAMASGFGWYSLSGILLTESFGPVIGSAAFFNDLARELIAIMLIPGLIRRSRSTALGLCGATSMDFTLPVLQRTGGLDMVPAAIVHGFILSLLVPILIAFFSA" "i" "Han et al., 2011" -"G6459-MONOMER" "MILERVEIVGFRGINRLSLMLEQNNVLIGENAWGKSSLLDALTLLLSPESDLYHFERDDFWFPPGDINGREHHLHIILTFRESLPGRHRVRRYRPLEACWTPCTDGYHRIFYRLEGESAEDGSVMTLRSFLDKDGHPIDVEDINDQARHLVRLMPVLRLRDARFMRRIRNGTVPNVPNVEVTARQLDFLARELSSHPQNLSDGQIRQGLSAMVQLLEHYFSEQGAGQARYRLMRRRASNEQRSWRYLDIINRMIDRPGGRSYRVILLGLFATLLQAKGTLRLDKDARPLLLIEDPETRLHPIMLSVAWHLLNLLPLQRIATTNSGELLSLTPVEHVCRLVRESSRVAAWRLGPSGLSTEDSRRISFHIRFNRPSSLFARCWLLVEGETETWVINELARQCGHHFDAEGIKVIEFAQSGLKPLVKFARRMGIEWHVLVDGDEAGKKYAATVRSLLNNDREAEREHLTALPALDMEHFMYRQGFSDVFHRMAQIPENVPMNLRKIISKAIHRSSKPDLAIEVAMEAGRRGVDSVPTLLKKMFSRVLWLARGRAD" "c" "Han et al., 2011" -"G6460-MONOMER" "MNMSQLTERTFTPSESLSSLSLFLSLARGQCRPGKFWHRRSFRQKFLLRSLIMPRLSVEWMNELSHWPNLNVLLTRQPRLPVRLHRPYLAANLSRKQLLEALRYHYALLRECMSAEEFSLYLNTPGLQLAKLEGKNGEQFTLELTMMISMDKEGDSTILFRNSEGIPLAEITFTLCEYQGKRTMFIGGLQGAKWEIPHQEIQNATKACHGLFPKRLVMEAACLFAQRLQVEQIIAVSNETHIYRSLRYRDKEGKIHADYNAFWESVGGVCDAERHYRLPAQIARKEIAEIASKKRAEYRRRYEMLDAIQPQMATMFRG" "c" "Han et al., 2011" -"G6463-MONOMER" "MGKTNDWLDFDQLAEEKVRDALKPPSMYKVILVNDDYTPMEFVIDVLQKFFSYDVERATQLMLAVHYQGKAICGVFTAEVAETKVAMVNKYARENEHPLLCTLEKA" "c" "Han et al., 2011" -"G6464-MONOMER" "LSQEYIEDKEVTLTKLSSGRRLLEALLILIVLFAVWLMAALLSFNPSDPSWSQTAWHEPIHNLGGMPGAWLADTLFFIFGVMAYTIPVIIVGGCWFAWRHQSSDEYIDYFAVSLRIIGVLALILTSCGLAAINADDIWYFASGGVIGSLLSTTLQPLLHSSGGTIALLCVWAAGLTLFTGWSWVTIAEKLGGWILNILTFASNRTRRDDTWVDEDEYEDDEEYEDENHGKQHESRRARILRGALARRKRLAEKFINPMGRQTDAALFSGKRMDDDEEITYTARGVAADPDDVLFSGNRATQPEYDEYDPLLNGAPITEPVAVAAAATTATQSWAAPVEPVTQTPPVASVDVPPAQPTVAWQPVPGPQTGEPVIAPAPEGYPQQSQYAQPAVQYNEPLQQPVQPQQPYYAPAAEQPAQQPYYAPAPEQPVAGNAWQAEEQQSTFAPQSTYQTEQTYQQPAAQEPLYQQPQPVEQQPVVEPEPVVEETKPARPPLYYFEEVEEKRAREREQLAAWYQPIPEPVKEPEPIKSSLKAPSVAAVPPVEAAAAVSPLASGVKKATLATGAAATVAAPVFSLANSGGPRPQVKEGIGPQLPRPKRIRVPTRRELASYGIKLPSQRAAEEKAREAQRNQYDSGDQYNDDEIDAMQQDELARQFAQTQQQRYGEQYQHDVPVNAEDADAAAEAELARQFAQTQQQRYSGEQPAGANPFSLDDFEFSPMKALLDDGPHEPLFTPIVEPVQQPQQPVAPQQQYQQPQQPVPPQPQYQQPQQPVAPQPQYQQPQQPVAPQQQYQQPQQPVAPQQQYQQPQQPVAPQPQDTLLHPLLMRNGDSRPLHKPTTPLPSLDLLTPPPSEVEPVDTFALEQMARLVEARLADFRIKADVVNYSPGPVITRFELNLAPGVKAARISNLSRDLARSLSTVAVRVVEVIPGKPYVGLELPNKKRQTVYLREVLDNAKFRDNPSPLTVVLGKDIAGEPVVADLAKMPHLLVAGTTGSGKSVGVNAMILSMLYKAQPEDVRFIMIDPKMLELSVYEGIPHLLTEVVTDMKDAANALRWCVNEMERRYKLMSALGVRNLAGYNEKIAEADRMMRPIPDPYWKPGDSMDAQHPVLKKEPYIVVLVDEFADLMMTVGKKVEELIARLAQKARAAGIHLVLATQRPSVDVITGLIKANIPTRIAFTVSSKIDSRTILDQAGAESLLGMGDMLYSGPNSTLPVRVHGAFVRDQEVHAVVQDWKARGRPQYVDGITSDSESEGGAGGFDGAEELDPLFDQAVQFVTEKRKASISGVQRQFRIGYNRAARIIEQMEAQGIVSEQGHNGNREVLAPPPFD" "i" "Han et al., 2011" -"G6465-MONOMER" "MMKKIAITCALLSSLVASSVWADAASDLKSRLDKVSSFHASFTQKVTDGSGAAVQEGQGDLWVKRPNLFNWHMTQPDESILVSDGKTLWFYNPFVEQATATWLKDATGNTPFMLIARNQSSDWQQYNIKQNGDDFVLTPKASNGNLKQFTINVGRDGTIHQFSAVEQDDQRSSYQLKSQQNGAVDAAKFTFTPPQGVTVDDQRK" "p" "Han et al., 2011" -"G6467-MONOMER" "MRMNMSDFATFFAVARNQSFRAAGDELGLSSSAISHSIKTLEQRLKIRLFNRTTRSVSLTEAGSNLYERLRPAFDEIQIMLDEMNDFRLTPTGTLKINAARVAARIFLMSLLVGFTREYPDIKVELTTDDSLVDIVQQGFDAGVRLSCIVEKDMISVAIGPPVKLCVAATPEYFARYGKPRHPHDLLNHQCVVFRYPSGKPFHWQFAKELEIAVAGNIILDDVDAELEAVLMGAGIGYLLYEQIKEYLDTGRLECVLEDWSTERPGFQIYYPNRQYMSCGLRAFLDYVKTGQICQSQRHRPQ" "c" "Han et al., 2011" -"G6468-MONOMER" "MTQTFIPGKDAALEDSIARFQQKLSDLGFQIEEASWLNPVPNVWSVHIRDKECALCFTNGKGATKKAALASALGEYFERLSTNYFFADFWLGETIANGPFVHYPNEKWFPLTENDDVPEGLLDDRLRAFYDPENELTGSMLIDLQSGNEDRGICGLPFTRQSDNQTVYIPMNIIGNLYVSNGMSAGNTRNEARVQGLSEVFERYVKNRIIAESISLPEIPADVLARYPAVVEAIETLEAEGFPIFAYDGSLGGQYPVICVVLFNPANGTCFASFGAHPDFGVALERTVTELLQGRGLKDLDVFTPPTFDDEEVAEHTNLETHFIDSSGLISWDLFKQDADYPFVDWNFSGTTEEEFATLMAIFNKEDKEVYIADYEHLGVYACRIIVPGMSDIYPAEDLWLANNSMGSHLRETILSLPGSEWEKEDYLNLIEQLDEEGFDDFTRVRELLGLATGSDNGWYTLRIGELKAMLALAGGDLEQALVWTEWTMEFNSSVFSPERANYYRCLQTLLLLAQEEDRQPLQYLNAFVRMYGADAVEAASAAMSGEAAFYGLQPVDSDLHAFAAHQSLLKAYEKLQRAKAAFWAK" "c" "Han et al., 2011" -"G6469-MONOMER" "MKAFDLHRMAFDKVPFDFLGEVALRSLYTFVLVFLFLKMTGRRGVRQMSLFEVLIILTLGSAAGDVAFYDDVPMVPVLIVFITLALLYRLVMWLMAHSEKLEDLLEGKPVVIIEDGELAWSKLNNSNMTEFEFFMELRLRGVEQLGQVRLAILETNGQISVYFFEDDKVKPGLLILPSDCTQRYKVVPESADYACIRCSEIIHMKAGEKQLCPRCANPEWTKASRAKRVT" "i" "Han et al., 2011" -"G6470-MONOMER" "MKNTKLLLAIATSAALLTGCQNTHGIDTNMAISSGLNAYKAATLSDADAKAIANQGCAEMDSGNQVASKSSKYGKRLAKIAKALGNNINGTPVNYKVYMTSDVNAWAMANGCVRVYSGLMDMMNDNEIEGVLGHELGHVALGHSLAEMKASYAIVAARDAISATSGVASQLSRSQLGDIAEGAINAKYSRDKESEADDFSFDLLKKRGISTQGLVGSFETLASLDGGRTQSMFDSHPPSTERAQHIRDRIASGK" "o" "Han et al., 2011" -"G6471-MONOMER" "MSLPHLSLADARNLHLAAQGLLNKPRRRASLEDIPATISRMSLLQIDTINIVARSPYLVLFSRLGNYPAQWLDESLARGELMEYWAHEACFMPRSDFRLIRHRMLAPEKMGWKYKDAWMQEHEAEIAQLIQHIHDKGPVRSADFEHPRKGASGWWEWKPHKRHLEGLFTAGKVMVIERRNFQRVYDLTHRVMPDWDDERDLVSQTEAEIIMLDNSARSLGIFREQWLADYYRLKRPALAAWREARAEQQQIIAVHVEKLGNLWLHDDLLPLLERALAGKLTATHSAVLSPFDPVVWDRKRAEQLFDFSYRLECYTPAPKRQYGYFVLPLLHRGQLVGRMDAKMHRQTGILEVISLWLQEGIKPTTTLQKGLRQAITDFANWQQATRVTLGCCPQGLFTDCRTGWEIDPVA" "c" "Han et al., 2011" -"G6472-MONOMER" "MDHRLLEIIACPVCNGKLWYNQEKQELICKLDNLAFPLRDGIPVLLETEARVLTADESKS" "c" "Han et al., 2011" -"G6473-MONOMER" "MEQLRAELSHLLGEKLSRIECVNEKADTALWALYDSQGNPMPLMARSFSTPGKARQLAWKTTMLARSGTVRMPTIYGVMTHEEHPGPDVLLLERMRGVSVEAPARTPERWEQLKDQIVEALLAWHRQDSRGCVGAVDNTQENFWPSWYRQHVEVLWTTLNQFNNTGLTMQDKRILFRTRECLPALFEGFNDNCVLIHGNFCLRSMLKDSRSDQLLAMVGPGLMLWAPREYELFRLMDNSLAEDLLWSYLQRAPVAESFIWRRWLYVLWDEVAQLVNTGRFSRRNFDLASKSLLPWLA" "c" "Han et al., 2011" -"G6474-MONOMER" "MDKFDANRRKLLALGGVALGAAILPTPAFATLSTPRPRILTLNNLHTGESIKAEFFDGRGYIQEELAKLNHFFRDYRANKIKSIDPGLFDQLYRLQGLLGTRKPVQLISGYRSIDTNNELRARSRGVAKKSYHTKGQAMDFHIEGIALSNIRKAALSMRAGGVGYYPRSNFVHIDTGPARHW" "e" "Han et al., 2011" -"G6475-MONOMER" "MNYRIIPVTAFSQNCSLIWCEQTRLAALVDPGGDAEKIKQEVDDSGLTLMQILLTHGHLDHVGAAAELAQHYGVPVFGPEKEDEFWLQGLPAQSRMFGLEECQPLTPDRWLNEGDTISIGNVTLQVLHCPGHTPGHVVFFDDRAKLLISGDVIFKGGVGRSDFPRGDHNQLISSIKDKLLPLGDDVIFIPGHGPLSTLGYERLHNPFLQDEMPVW" "c" "Lopez-Campistrous et al., 2005" -"G6478-MONOMER" "MRNIIKLALAGLLSVSTFAVAAESSPEALRIGYQKGSIGMVLAKSHQLLEKRYPESKISWVEFPAGPQMLEALNVGSIDLGSTGDIPPIFAQAAGADLVYVGVEPPKPKAEVILVAENSPIKTVADLKGHKVAFQKGSSSHNLLLRALRQAGLKFTDIQPTYLTPADARAAFQQGNVDAWAIWDPYYSAALLQGGVRVLKDGTDLNQTGSFYLAARPYAEKNGAFIQGVLATFSEADALTRSQREQSIALLAKTMGLPAPVIASYLDHRPPTTIKPVNAEVAALQQQTADLFYENRLVPKKVDIRQRIWQPTQLEGKQL" "i" "EcoCyc dump" -"G6480-MONOMER" "MKKSVLTAFITVVCATSSVMAADDNAITDGSVTFNGKVIAPACTLVAATKDSVVTLPDVSATKLQTNGQVSGVQIDVPIELKDCDTTVTKNATFTFNGTADTTQITAFANQASSDAATNVALQMYMNDGTTAITPDTETGNILLQDGDQTLTFKVDYIATGKATSGNVNAVTNFHINYY" "e" "Han et al., 2011" -"G6481-MONOMER" "MKTCITKGIVTVSLTAILLSCSSAWAAGKGGIGLAATRLVYSEGEEQISLGVRNTSPDVPYLIQSWVMTPDNKKSADFIITPPLFVLNPANENLLRIMYIGAPLAKDRETLFFTSVRAVPSTTKRKEGNTLKIATQSVIKLFWRPKGLAYPLGEAPAKLRCTSSADMVTVSNPTPYFITLTDLKIGGKVVKNQMISPFDKYQFSLPKGAKNSSVTYRTINDYGAETPQLNCKS" "p" "Han et al., 2011" -"G6482-MONOMER" "MYRTHRQHSLLSSGGVPSFIGGLVVFVSAAFNAQAETWFDPAFFKDDPSMVADLSRFEKGQKITPGVYRVDIVLNQTIVDTRNVNFVEITPEKGIAACLTTESLDAMGVNTDAFPAFKQLDKQACVPLAEIIPDASVTFNVNKLRLEISVPQIAIKSNARGYVPPERWDEGINALLLGYSFSGANSIHSSADSDSGDSYFLNLNSGVNLGPWRLRNNSTWSRSSGQTAEWKNLSSYLQRAVIPLKGELTVGDDYTAGDFFDSVSFRGVQLASDDNMLPDSLKGFAPVVRGIAKSNAQITIKQNGYTIYQTYVSPGAFEISDLYSTSSSGDLLVEIKEADGSVNSYSVPFSSVPLLQRQGRIKYAVTLAKYRTNSNEQQESKFAQATLQWGGPWGTTWYGGGQYAEYYRAAMFGLGFNLGDFGAISFDATQAKSTLADQSEHKGQSYRFLYAKTLNHLGTNFQLMGYRYSTSGFYTLSDTMYKHMDGYEFNDGDDEDTPMWSRYYNLFYTKRGKLQVNISQQLGEYGSFYLSGSQQTYWHTDQQDRLLQFGYNTQIKDLSLGISWNYSKSRGQPDADQVFALNFSLPLNLLLPRSNDSYTRKKNYAWMTSNTSIDNEGHTTQNLGLTETLLDDGNLSYSVQQGYNSEGKTANGSASMDYKGAFADARVGYNYSDNGSQQQLNYALSGSLVAHSQGITLGQSLGETNVLIAAPGAENTRVANSTGLKTDWRGYTVVPYATSYRENRIALDAASLKRNVDLENAVVNVVPTKGALVLAEFNAHAGARVLMKTSKQGIPLRFGAIATLDGVQANSGIIDDDGSLYMAGLPAKGTISVRWGEAPDQICHINYELTEQQINSAITRMDAICR" "o" "Han et al., 2011" -"G6483-MONOMER" "MQIIFGEKCVSLLRLFFAAVLMLWCAQTAAYSGQCHTTQGNPYIGVNFGVKTLEEEANTAGVVKDKFYQWNESNDYYVSCDCDKDNVRSGRWAFAADSPLVYLGDNWYKINDYLAAKVLLQVKGSSPTAVPFENVGTGGDTRWHICDPGGQRLGGQGASGNSGSFSLKILQPFVGSVVIPPMALARLYECYNIPAGDSCTTTGTPVLVYYLSGTINSLGSCSVNAGETIEVDLGDVFAANFRVVGHKPLGARTAELAIPVRCNTGNAGLVNVNLSLTATTDPSYPQAIKTSRPGVGVVVTDSQNNIISPAGGTLPLSIPDDADSIARMNVYPVSTTGVPPETGRFEATATVRINFD" "j" "Han et al., 2011" -"G6484-MONOMER" "MKKKTIFQCVILFFSILNIHVGMAGPEQVSMHIYGNVVDQGCDVATKSALQNIHIGDFNISDFQAANTVSTAADLNIDITGCAAGITGADVLFSGEADTLAPTLLKLTDTGGSGGMATGIAVQILDAQSQQEIPLNQVQPLTPLKAGDNTLKYQLRYKSTKAGATGGNATAVLYFDLVYQ" "e" "Han et al., 2011" -"G6485-MONOMER" "MLKRIIWILFLLGLTWGCELFAHDGTVNISGSFRRNTCVLAQDSKQINVQLGDVSLTRFSHGNYGPEKSFIINLQDCGTDVSTVDVTFSGTPDGVQSEMLSIESGTDAASGLAIAILDDAKILIPLNQASKDYSLHSGKVPLTFYAQLRPVNSDVQSGKVNASATFVLHYD" "e" "Han et al., 2011" -"G6486-MONOMER" "MRIKPDDNWRWYYDEEHDRMMLDLANGMLFRSRFARKMLTPDAFSPAGFCVDDAALYFSFEEKCRDFNLSKEQKAELVLNALVAIRYLKPQMPKSWHFVSHGEMWVPMPGDAACVWLSDTHEQVNLLVVESGENAALCLLAQPCVVIAGRAMQLGDAIKIMNDRLKPQVNVDSFSLEQAV" "c" "Han et al., 2011" -"G6487-MONOMER" "VATLIRLFIHPVKSMRGIGLTHALADVSGLAFDRIFMITEPDGTFITARQFPQMVRFTPSPVHDGLHLTAPDGSSAYVRFADFATQDAPTEVWGTHFTARIAPDAINKWLSGFFSREVQLRWVGPQMTRRVKRHNTVPLSFADGYPYLLANEASLRDLQQRCPASVKMEQFRPNLVVSGASAWEEDRWKVIRIGDVVFDVVKPCSRCIFTTVSPEKGQKHPAGEPLKTLQSFRTAQDNGDVDFGQNLIARNSGVIRVGDEVEILATAPAKIYGAAAADDTANITQQPDANVDIDWQGQAFRGNNQQVLLEQLENQGIRIPYSCRAGICGSCRVQLLEGEVTPLKKSAMGDDGTILCCSCVPKTALKLAR" "c" "Han et al., 2011" -"G6488-MONOMER" "MNSLFASTARGLEELLKTELENLGAVECQVVQGGVHFKGDTRLVYQSLMWSRLASRIMLPLGECKVYSDLDLYLGVQAINWTEMFNPGATFAVHFSGLNDTIRNSQYGAMKVKDAIVDAFTRKNLPRPNVDRDAPDIRVNVWLHKETASIALDLSGDGLHLRGYRDRAGIAPIKETLAAAIVMRSGWQPGTPLLDPMCGSGTLLIEAAMLATDRAPGLHRGRWGFSGWAQHDEAIWQEVKAEAQTRARKGLAEYSSHFYGSDSDARVIQRARTNARLAGIGELITFEVKDVAQLTNPLPKGPYGTVLSNPPYGERLDSEPALIALHSLLGRIMKNQFGGWNLSLFSASPDLLSCLQLRADKQYKAKNGPLDCVQKNYHVAESTPDSKPAMVAEDYTNRLRKNLKKFEKWARQEGIECYRLYDADLPEYNVAVDRYADWVVVQEYAPPKTIDAHKARQRLFDIIAATISVLGIAPNKLVLKTRERQKGKNQYQKLGEKGEFLEVTEYNAHLWVNLTDYLDTGLFLDHRIARRMLGQMSKGKDFLNLFSYTGSATVHAGLGGARSTTTVDMSRTYLEWAERNLRLNGLTGRAHRLIQADCLAWLREANEQFDLIFIDPPTFSNSKRMEDAFDVQRDHLALMKDLKRLLRAGGTIMFSNNKRGFRMDLDGLAKLGLKAQEITQKTLSQDFARNRQIHNCWLITAA" "c" "Han et al., 2011" -"G6490-MONOMER" "MCEHHHAAKHILCSQCDMLVALPRLEHGQKAACPRCGTTLTVAWDAPRQRPTAYALAALFMLLLSNLFPFVNMNVAGVTSEITLLEIPGVLFSEDYASLGTFFLLFVQLVPAFCLITILLLVNRAELPVRLKEQLARVLFQLKTWGMAEIFLAGVLVSFVKLMAYGSIGVGSSFLPWCLFCVLQLRAFQCVDRRWLWDDIAPMPELRQPLKPGVTGIRQGLRSCSCCTAILPADEPVCPRCSTKGYVRRRNSLQWTLALLVTSIMLYLPANILPIMVTDLLGSKMPSTILAGVILLWSEGSYPVAAVIFLASIMVPTLKMIAIAWLCWDAKGHGKRDSERMHLIYEVVEFVGRWSMIDVFVIAVLSALVRMGGLMSIYPAMGALMFALVVIMTMFSAMTFDPRLSWDRQPESEHEES" "i" "Han et al., 2011" -"G6491-MONOMER" "MESNNGEAKIQKVKNWSPVWIFPIVTALIGAWVLFYHYSHQGPEVTLITANAEGIEGGKTTIKSRSVDVGVVESATLADDLTHVEIKARLNSGMEKLLHKDTVFWVVKPQIGREGISGLGTLLSGVYIELQPGAKGSKMDKYDLLDSPPLAPPDAKGIRVILDSKKAGQLSPGDPVLFRGYRVGSVETSTFDTQKRNISYQLFINAPYDRLVTNNVRFWKDSGIAVDLTSAGMRVEMGSLTTLLSGGVSFDVPEGLDLGQPVAPKTAFVLYDDQKSIQDSLYTDHIDYLMFFKDSVRGLQPGAPVEFRGIRLGTVSKVPFFAPNMRQTFNDDYRIPVLIRIEPERLKMQLGENADVVEHLGELLKRGLRGSLKTGNLVTGALYVDLDFYPNTPAITGIREFNGYQIIPTVSGGLAQIQQRLMEALDKINKLPLNPMIEQATSTLSESQRTMKNLQTTLDSMNKILASQSMQQLPTDMQSTLRELNRSMQGFQPGSAAYNKMVADMQRLDQVLRELQPVLKTLNEKSNALVFEAKDKKDPEPKRAKQ" "i" "Han et al., 2011" -"G6492-MONOMER" "VTIAALWLAGCSSGEINKNYYQLPVVQSGTQSTASQGNRLLWVEQVTVPDYLAGNGVVYQTSDVKYVIANNNLWASPLDQQLRNTLVANLSTQLPGWVVASQPLGSAQDTLNVTVTEFNGRYDGKVIVSGEWLLNHQGQLIKRPFRLEGVQTQDGYDEMVKVLAGVWSQEAASIAQEIKRLP" "c" "Han et al., 2011" -"G6493-MONOMER" "LTITKLAWRDLVPDTDSYQEIFAQPHLIDENDPLFSDTQPRLQFALEQLLHTRASSSFMLAKAPEESEYLNLIANAARTLQSDAGQLVGGHYEVSGHSIRLRHAVSADDNFATLTQVVAADWVEAEQLFGCLRQFNGDITLQPGLVHQANGGILIISLRTLLAQPLLWMRLKNIVNRERFDWVAFDESRPLPVSVPSMPLKLKVILVGERESLADFQEMEPELSEQAIYSEFEDTLQIVDAESVTQWCRWVTFTARHNHLPAPGADAWPILIREAARYTGEQETLPLSPQWILRQCKEVASLCDGDTFSGEQLNLMLQQREWREGFLAERMQDEILQEQILIETEGERIGQINALSVIEFPGHPRAFGEPSRISCVVHIGDGEFTDIERKAELGGNIHAKGMMIMQAFLMSELQLEQQIPFSASLTFEQSYSEVDGDSASMAELCALISALADVPVNQSIAITGSVDQFGRAQPVGGLNEKIEGFFAICQQRELTGKQGVIIPTANVRHLSLHSELVKAVEEGKFTIWAVDDVTDALPLLLNLVWDGEGQTTLMQTIQERIAQASQQEGRHRFPWPLRWLNWFIPN" "c" "Han et al., 2011" -"G6494-MONOMER" "MKSLSYKRIYKSQEYLATLGTIEYRSLFGSYSLTVDDTVFAMVSDGELYLRACEQSAQYCVKHPPVWLTYKKCGRSVTLNYYRVDESLWRNQLKLVRLSKYSLDAALKEKSTRNTRERLKDLPNMSFHLEAILGEVGIKDVRALRILGAKMCWLRLRQQNSLVTEKILFMLEGAIIGIHEAALPVARRQELAEWADSLTPKQEFPAELE" "c" "Han et al., 2011" -"G6495-MONOMER" "MLSPLLKRYTWNSAWLYYARIFIALCGTTAFPWWLGDVKLTIPLTLGMVAAALTDLDDRLAGRLRNLIITLFCFFIASASVELLFPWPWLFAIGLTLSTSGFILLGGLGQRYATIAFGALLIAIYTMLGTSLYEHWYQQPMYLLAGAVWYNVLTLIGHLLFPVRPLQDNLARCYEQLARYLELKSRMFDPDIEDQSQAPLYDLALANGLLMATLNQTKLSLLTRLRGDRGQRGTRRTLHYYFVAQDIHERASSSHIQYQTLREHFRHSDVLFRFQRLMSMQGQACQQLSRCILLRQPYQHDPHFERAFTHIDAALERMRDNGAPADLLKTLGFLLNNLRAIDAQLATIESEQAQALPHNNDENELADDSPHGLSDIWLRLSRHFTPESALFRHAVRMSLVLCFGYAIIQITGMHHGYWILLTSLFVCQPNYNATRHRLKLRIIGTLVGIAIGIPVLWFVPSLEGQLVLLVITGVLFFAFRNVQYAHATMFITLLVLLCFNLLGEGFEVALPRVIDTLIGCAIAWAAVSYIWPDWQFRNLPRMLERATEANCRYLDAILEQYHQGRDNRLAYRIARRDAHNRDAELASVVSNMSSEPNVTPQIREAAFRLLCLNHTFTSYISALGAHREQLTNPEILAFLDDAVCYVDDALHHQPADEERVNEALASLKQRMQQLEPRADSKEPLVVQQVGLLIALLPEIGRLQRQITQVPQETPVSA" "i" "Han et al., 2011" -"G6496-MONOMER" "MRTVLNILNFVLGGFATTLGWLLATLVSIVLIFTLPLTRSCWEITKLSLVPYGNEAIHVDELNPAGKNVLLNTGGTVLNIFWLIFFGWWLCLMHIATGIAQCISIIGIPVGIANFKIAAIALWPVGRRVVSVETAQAAREANARRRFE" "i" "Han et al., 2011" -"G6498-MONOMER" "MKTGIVTTLIALCLPVSVFATTLRLSTDVDLLVLDGKKVSSSLLRGADSIELDNGPHQLVFRVEKTIHLSNSEERLYISPPLVVSFNTQLINQVNFRLPRLENEREANHFDAAPRLELLDGDATPIPVKLDILAITSTAKTIDYEVEVERYNKSAKRASLPQFATMMADDSTLLSGVSELDAIPPQSQVLTEQRLKYWFKLADPQTRNTFLQWAEKQPSS" "p" "Han et al., 2011" -"G6499-MONOMER" "MKETDIAGILTSTHTIALVGASDKPDRPSYRVMKYLLDQGYHVIPVSPKVAGKTLLGQKGYGTLADVPEKVDMVDVFRNSEAAWGVAQEAIAIGAKTLWMQLGVINEQAAVLARDAGLNVVMDRCPAIEIPRLGLAK" "c" "Han et al., 2011" -"G6500-MONOMER" "MIASKFGIGQQVRHSLLGYLGVVVDIDPVYSLSEPSPDELAVNDELRAAPWYHVVMEDDNGLPVHTYLAEAQLSSELQDEHPEQPSMDELAQTIRKQLQAPRLRN" "c" "Han et al., 2011" -"G6501-MONOMER" "MSVRLVLAKGREKSLLRRHPWVFSGAVARMEGKASLGETIDIVDHQGKWLARGAYSPASQIRARVWTFDPSESIDIAFFSRRLQQAQKWRDWLAQKDGLDSYRLIAGESDGLPGITIDRFGNFLVLQLLSAGAEYQRAALISALQTLYPECSIYDRSDVAVRKKEGMELTQGPVTGELPPALLPIEEHGMKLLVDIQHGHKTGYYLDQRDSRLATRRYVENKRVLNCFSYTGGFAVSALMGGCSQVVSVDTSQEALDIARQNVELNKLDLSKAEFVRDDVFKLLRTYRDRGEKFDVIVMDPPKFVENKSQLMGACRGYKDINMLAIQLLNEGGILLTFSCSGLMTSDLFQKIIADAAIDAGRDVQFIEQFRQAADHPVIATYPEGLYLKGFACRVM" "c" "Han et al., 2011" -"G6502-MONOMER" "MSKVCIIAWVYGRVQGVGFRYTTQYEAKRLGLTGYAKNLDDGSVEVVACGEEGQVEKLMQWLKSGGPRSARVERVLSEPHHPSGELTDFRIR" "c" "Han et al., 2011" -"G6503-MONOMER" "MAQLKFNSILVVCTGNICRSPIGERLLRKRLPGVKVKSAGVHGLVKHPADATAADVAANHGVSLEGHAGRKLTAEMARNYDLILAMESEHIAQVTAIAPEVRGKTMLFGQWLEQKEIPDPYRKSQDAFEHVYGMLERASQEWAKRLSR" "c" "Han et al., 2011" -"G6504-MONOMER" "MKKNIFKFSVLTLAVLSLTACTLVPGQNLSTSNKDVIELPDNQYDLDKMVNIYPVTPGLIDQLRAKPIMSQANPELEQQIANYEYRIGIGDVLMVTVWDHPELTTPAGQYRSASDTGNWVNADGAIFYPYIGRLKVAGKTLTQVRNEITARLDSVIESPQVDVSVAAFRSQKAYVTGEVSKSGQQPITNIPLTIMDAINAAGGLTADADWRNVVLTQNGVKTKVNLYALMQRGDLRQNKLLHPGDILFIPRNDDLKVFVMGEVGKQSTLKMDRSGMTLAEALGNAEGMNQDVADATGIFVIRATQNKQNGKIANIYQLNAKDASAMILGTEFQLEPYDIVYVTTAPLARWNRVISLLVPTISGVHDLTETSRWIQTWPN" "o" "Han et al., 2011" -"G6505-MONOMER" "MKKNSYLLSCLAIAVSSACHAEVLTYPDPLGSSQSDFGGTGLLQMPNARIAPEGEFSVNYRDNDQYRFYSTSVALFPWLEGTIRYTDVRTRKYSQWEDFSGDQSYKDKSFDFKLRLWEEGYWLPQVAFGKRDIAGTGLFDGEYLVASKQAGPFDFTLGMAWGYAGNAGNITNPFCRVSDKYCHRAESHDAGDISFSDIFRGPASIFGGIEYQTPWNPLRLKLEYDGNNYQNDFAGKLPQASHFNVGAVYRAASWADLNLSYERGNTLMFGFTLRTNFNDLRPALRDTPKPAYQPAPESEGLQYTTVANQLTALKYNAGFDAPEIQLRDKTLYMSGQQYKYRDSREAVDRANRILVNNLPQGVEKISVTQKREHMAMVTTETDVASLRKQLAGTAPGQSEPLQQQRVEAEDLSAFGRGYRIREDRFSYSFNPTLSQSLGGPEDFYMFQLGLMSSARYWFTDHLLLDGGIFTNIYNNYDKFKSSLLPADSTLPRVRTHIRDYVRNDVYLNNLQANYFADLGNGFYGQVYGGYLETMYAGVGSELLYRPLDACWALGVDVNYVKQRDWDNMMRFTDYSTPTGFVTAYWNPPTLNGVLMKLSVGQYLAKDKGATIDVAKRFDSGVAVGVWAAISNVSKDDYGEGGFSKGFYISIPFDLMTIGPNRNRAVVSWTPLTRDGGQMLSRKYQLYPMTAEREVPVGQ" "o" "Han et al., 2011" -"G6506-MONOMER" "MNKLQSYFIASVLYVMTPHAFAQGTVTIYLPGEQQTLSVGPVENVVQLVTQPQLRDRLWWPGALLTDSAAKAKALKDYQHVMAQLASWEAEADDDVAATIKSVRQQLLNLNITGRLPVKLDPDFVRVDENSNPPLVGDYTLYTVQRPVTITLLGAVSGAGQLPWQAGRSVTDYLQDHPRLAGADKNNVMVITPEGETVVAPVALWNKRHVEPPPGSQLWLGFSAHVLPEKYADLNDQIVSVLTQRVPD" "p" "Han et al., 2011" -"G6507-MONOMER" "VRPLILSIFALFLAGCTHSQQSMVDTFRASLFDNQDITVADQQIQALPYSTMYLRLNEGQRIFVVLGYIEQEQSKWLSQDNAMLVTHNGRLLKTVKLNNNLLEVTNSGQDPLRNALAIKDGSRWTRDILWSEDNHFRSATLSSTFSFAGLETLNIAGRNVLCNVWQEEVTSTRPEKQWQNTFWVDSATGQVRQSRQMLGAGVIPVEMTFLKPAP" "i" "Han et al., 2011" -"G6508-MONOMER" "MKHKLSAILMAFMLTTPAAFAAPEATNGTEATTGTTGTTTTTTGATTTATTTGGVAAGAVGTATVVGVATAVGVATLAVVAANDSGDGGSHNTSTTTSTTR" "i" "Han et al., 2011" -"G6509-MONOMER" "MPGNSPHYGRWPQHDFPPFKKLRPQSVTSRIQPGSDVIVCAEMDEQWGYVGAKSRQRWLFYAYDRLRKTVVAHVFGERTMATLGRLMSLLSPFDVVIWMTDGWPLYESRLKGKLHVISKRYTQRIERYNLNLRQHLARLGRKSLSFSKSVELHDKVIGHYLNIKHYQ" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6510-MONOMER" "LSRKMTGIVKTFDRKSGKGFIIPSDGRKEVQVHISAFTPRDAEVLIPGLRVEFCRVNGLRGPTAANVYLS" "c" "Han et al., 2011" -"G6511-MONOMER" "MSNKMTGLVKWFNADKGFGFITPDDGSKDVFVHFTAIQSNEFRTLNENQKVEFSIEQGQRGPAAANVVTL" "c" "Han et al., 2011" -"G6512-MONOMER" "MRRWISQNNIRLPRGAFFISALFFFNAVCIVSDNLLIIESFGEMAYNISYLTRVPGTNTLLACCCLLRPEEVNSEY" "i" "Han et al., 2011" -"G6513-MONOMER" "MAENKRTRWQRRPGTTGGKLPWNDWRNATTWRKATQLLLLAMNIYIAITFWYWVRYYETASSTTFVARPGGIEGWLPIAGLMNLKYSLVTGQLPSVHAAAMLLLVAFIVISLLLKKAFCSWLCPVGTLSELIGDLGNKLFGRQCVLPRWLDIPLRGVKYLLLSFFIYIALLMPAQAIHYFMLSPYSVVMDVKMLDFFRHMGTATLISVTVLLIASLFIRHAWCRYLCPYGALMGVVSLLSPFKIRRNAESCIDCGKCAKNCPSRIPVDKLIQVRTVECTGCMTCVESCPVASTLTFSLQKPAANKKAFALSGWLMTLLVLGIMFAVIGYAMYAGVWQSPVPEELYRRLIPQAPMIGH" "i" "Han et al., 2011" -"G6518-MONOMER" "MNIVDQQTFRDAMSCMGAAVNIITTDGPAGRAGFTASAVCSVTDTPPTLLVCLNRGASVWPAFNENRTLCVNTLSAGQEPLSNLFGGKTPMEHRFAAARWQTGVTGCPQLEEALVSFDCRISQVVSVGTHDILFCAIEAIHRHTTPYGLVWFDRSYHALMRPAC" "c" "Han et al., 2011" -"G6519-MONOMER" "MNEAVSPGALSTLFTDARTHNGWRETPVSDETLREIYALMKWGPTSANCSPARIVFTRTAEGKERLRPALSSGNLQKTLTAPVTAIVAWDSEFYERLPLLFPHGDARSWFTSSPQLAEETAFRNSSMQAAYLIVACRALGLDTGPMSGFDRQHVDDAFFTGSTLKSNLLINIGYGDSSKLYARLPRLSFEEACGLL" "c" "Han et al., 2011" -"G6520-MONOMER" "MKLSLSPPPYADAPVVVLISGLGGSGSYWLPQLAVLEQEYQVVCYDQRGTGNNPDTLAEDYSIAQMAAELHQALVAAGIEHYAVVGHALGALVGMQLALDYPASVTVLISVNGWLRINAHTRRCFQVRERLLYSGGAQAWVEAQPLFLYPADWMAARAPRLEAEDALALAHFQGKNNLLRRLNALKRADFSHHADRIRCPVQIICASDDLLVPTACSSELHAALPDSQKMVMPYGGHACNVTDPETFNALLLNGLASLLHHREAAL" "c" "Han et al., 2011" -"G6521-MONOMER" "MPKSVIIPAGSSAPLAPFVPGTLADGVVYVSGTLAFDQHNNVLFADDPKAQTRHVLETIRKVIETAGGTMADVTFNSIFITDWKNYAAINEIYAEFFPGDKPARFCIQCGLVKPDALVEIATIAHIAK" "c" "Han et al., 2011" -"G6522-MONOMER" "MTTLTARPEAITFDPQQSALIVVDMQNAYATPGGYLDLAGFDVSTTRPVIANIQTAVTAARAAGMLIIWFQNGWDEQYVEAGGPGSPNFHKSNALKTMRKQPQLQGKLLAKGSWDYQLVDELVPQPGDIVLPKPRYSGFFNTPLDSILRSRGIRHLVFTGIATNVCVESTLRDGFFLEYFGVVLEDATHQAGPKFAQKAALFNIETFFGWVSDVETFCDALSPTSFAHIA" "c" "Han et al., 2011" -"G6523-MONOMER" "MQDAAPRLTFTLRDEERLMMKIGVFVPIGNNGWLISTHAPQYMPTFELNKAIVQKAEHYHFDFALSMIKLRGFGGKTEFWDHNLESFTLMAGLAAVTSRIQIYATAATLTLPPAIVARMAATIDSISGGRFGVNLVTGWQKPEYEQMGIWPGDDYFSRRYDYLTEYVQVLRDLWGTGKSDFKGDFFTMNDCRVSPQPSVPMKVICAGQSDAGMAFSARYADFNFCFGKGVNTPTAFAPTAARMKQAAEQTGRDVGSYVLFMVIADETDDAARAKWEHYKAGADEEALSWLTEQSQKDTRSGTDTNVRQMADPTSAVNINMGTLVGSYASVARMLDEVASVPGAEGVLLTFDDFLSGIETFGERIQPLMQCRAHLPALTQEVA" "c" "Han et al., 2011" -"G6525-MONOMER" "MFVPFLIMLREGLEAALIVSLIASYLKRTQRGRWIV" "i" "Han et al., 2011" -"G6527-MONOMER" "MTINFRRNALQLSVAALFSSAFMANAADVPQVKVTVTDKQCEPMTITVNAGKTQFIIQNHSQKALEWEILKGVMVVEERENIAPGFSQKMTANLQPGEYDMTCGLLTNPKGKLIVKGEATADAAQSDALLSLGGAITAYKAYVMAETTQLVTDTKAFTDAIKAGDIEKAKALYAPTRQHYERIEPIAELFSDLDGSIDAREDDYEQKAADPKFTGFHRLEKALFGDNTTKGMDQYAEQLYTDVVDLQKRISELAFPPSKVVGGAAGLIEEVAASKISGEEDRYSHTDLWDFQANVEGSQKIVDLLRPQLQKANPELLAKVDANFKKVDTILAKYRTKDGFETYDKLTDADRNALKGPITALAEDLAQLRGVLGLD" "p" "Lopez-Campistrous et al., 2005" -"G6528-MONOMER" "MNNLIITTRQSPVRLLVDYVATTILWTLFALFIFLFAMDLLTGYYWQSEARSRLQFYFLLAVANAVVLIVWALYNKLRFQKQQHHAAYQYTPQEYAESLAIPDELYQQLQKSHRMSVHFTSQGQIKMVVSEKALVRA" "i" "Han et al., 2011" -"G6529-MONOMER" "MINRIVSFFILCLVLCIPLCVAYFHSGELMMRFVFFWPFFMSIMWIVGGVYFWVYRERHWPWGENAPAPQLKDNPSISIIIPCFNEEKNVEETIHAALAQRYENIEVIAVNDGSTDKTRAILDRMAAQIPHLRVIHLAQNQGKAIALKTGAAAAKSEYLVCIDGDALLDRDAAAYIVEPMLYNPRVGAVTGNPRIRTRSTLVGKIQVGEYSSIIGLIKRTQRIYGNVFTVSGVIAAFRRSALAEVGYWSDDMITEDIDISWKLQLNQWTIFYEPRALCWILMPETLKGLWKQRLRWAQGGAEVFLKNMTRLWRKENFRMWPLFFEYCLTTIWAFTCLVGFIIYAVQLAGVPLNIELTHIAATHTAGILLCTLCLLQFIVSLMIENRYEHNLTSSLFWIIWFPVIFWMLSLATTLVSFTRVMLMPKKQRARWVSPDRGILRG" "i" "Han et al., 2011" -"G6530-MONOMER" "MLRNGNKYLLMLVSIIMLTACISQSRTSFIPPQDRESLLAEQPWPHNGFVAISWHNVEDEAADQRFMSVRTSALREQFAWLRENGYQPVSIAQIREAHRGGKPLPEKAVVLTFDDGYQSFYTRVFPILQAFQWPAVWAPVGSWVDTPADKQVKFGDELVDREYFATWQQVREVARSRLVELASHTWNSHYGIQANATGSLLPVYVNRAYFTDHARYETAAEYRERIRLDAVKMTEYLRTKVEVNPHVFVWPYGEANGIAIEELKKLGYDMFFTLESGLANASQLDSIPRVLIANNPSLKEFAQQIITVQEKSPQRIMHIDLDYVYDENLQQMDRNIDVLIQRVKDMQISTVYLQAFADPDGDGLVKEVWFPNRLLPMKADIFSRVAWQLRTRSGVNIYAWMPVLSWDLDPTLTRVKYLPTGEKKAQIHPEQYHRLSPFDDRVRAQVGMLYEDLAGHAAFDGILFHDDALLSDYEDASAPAITAYQQAGFSGSLSEIRQNPEQFKQWARFKSRALTDFTLELSARVKAIRGPHIKTARNIFALPVIQPESEAWFAQNYADFLKSYDWTAIMAMPYLEGVAEKSADQWLIQLTNQIKNIPQAKDKSILELQAQNWQKNGQHQAISSQQLAHWMSLLQLNGVKNYGYYPDNFLHNQPEIDLIRPEFSTAWYPKND" "p" "Han et al., 2011" -"G6531-MONOMER" "MYSSSRKRCPKTKWALKLLTAAFLAASPAAKSAVNNAYDALIIEARKGNTQPALSWFALKSALSNNQIADWLQIALWAGQDKQVITVYNRYRHQQLPARGYAAVAVAYRNLQQWQNSLTLWQKALSLEPQNKDYQRGQILTLADAGHYDTALVKLKQLNSGAPDKANLLAEAYIYKLAGRHQDELRAMTESLPENASTQQYPTEYVQALRNNQLAAAIDDANLTPDIRADIHAELVRLSFMPTRSESERYAIADRALAQYAALEILWHDNPDRTAQYQRIQVDHLGALLTRDRYKDVISHYQRLKKTGQIIPPWGQYWVASAYLKDHQPKKAQSIMTELFYHKETIAPDLSDEELADLFYSHLESENYPGALTVTQHTINTSPPFLRLMGTPTSIPNDTWLQGHSFLSTVAKYSNDLPQAEMTARELAYNAPGNQGLRIDYASVLQARGWPRAAENELKKAEVIEPRNINLEVEQAWTALTLQEWQQAAVLTHDVVEREPQDPGVVRLKRAVDVHNLAELRIAGSTGIDAEGPDSGKHDVDLTTIVYSPPLKDNWRGFAGFGYADGQFSEGKGIVRDWLAGVEWRSRNIWLEAEYAERVFNHEHKPGARLSGWYDFNDNWRIGSQLERLSHRVPLRAMKNGVTGNSAQAYVRWYQNERRKYGVSWAFTDFSDSNQRHEVSLEGQERIWSSPYLIVDFLPSLYYEQNTEHDTPYYNPIKTFDIVPAFEASHLLWRSYENSWEQIFSAGVGASWQKHYGTDVVTQLGYGQRISWNDVIDAGATLRWEKRPYDGDREHNLYVEFDMTFRF" "o" "Han et al., 2011" -"G6532-MONOMER" "MEKDYLRISSTVLVSLLFGLALVLVNSWFNQPGVEEVVPRSTYLMVMIALFFIDTVAFIFMQLYFIYDRRQFSNCVLSLAFLSCLIYFVITVIIIQQIIEERLTSSVVQNDIAIYYLFRQMSLCILIFLALVNKVSENTKQRNLFSKKMTLCISLFFVFGGPIVAHILSSHYESYNLHIAELTNENGQVVWKASYVTIMIFMWLTLLSVNLYFNGLRYDIWNGVTVIAFCAVLYNISLLFMSRYSVSTWYISRTIEVVSKLTVMVIFMCHIFSALRVTKNIAHRDPLTNIFNRNYFFNELTVQSASAQKTPYCVMIMDIDHFKKVNDTWGHPVGDQVIKTVVNIIGKSIRPDDLLARVGGEEFGVLLTDIDTERAKALAERIRENVERLTGDNPEYAIPQKVTISIGAVVTQENALNPNEIYRLADNALYEAKETGRNKVVVRDVVNFCESP" "i" "Han et al., 2011" -"G6534-MONOMER" "VTHMTKTVSTSKKPRKQHSPEFRSEALKLAERIGVTAAARELSLYESQLYNWRSKQQNQQTSSERELEMSTEIARLKRQLAERDEELAILQKAATYFAKRLK" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6535-MONOMER" "MRDYLAGLDIASPEHQVLMNVTAKSEVAPSIIKENLSLHLTHTVKWTESLDTFLNMPTPVAFLEISNKPYLGNMLNDFAGVDQQRVMHCRKAFSDAKVFK" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6536-MONOMER" "MIPDYLTFIRFQDKRNLIYIYAIGLILIGFYWKNAGFTFPSEDIGVVSGILALVLYNFIFDLKAYWAYKCVTKNIDFSWFKKKQNHKIELFLTQPLVAGFLSLIMLSAMSWGLYQLLPSLYALFLISLLGPLVIFLLFRMIRTSYVKQVAISVAKKVKYKSLTRYVLLSVCISTVVNLLTISPLRNSDSFVTEGQWLTFKSIIALLILCGVVLAINLFFLRFSKRYAFLGRLFLQEIDLFFSSENALSTFFAKPLWLRLFILLVIEVMWITLVSVLATLVEWRIWFEAYFLLCYVPCLIYYFFYCRFLWHNDFMMACDMYFRWGHFNK" "i" "Unambiguous EcoCyc data" -"G6539-MONOMER" "MDIIFYHPTFDTQWWIEALRKAIPQARVRAWKSGDNDSADYALVWHPPVEMLAGRDLKAVFALGAGVDSILSKLQAHPEMLNPSVPLFRLEDTGMGEQMQEYAVSQVLHWFRRFDDYRIQQNSSHWQPLPEYHREDFTIGILGAGVLGSKVAQSLQTWRFPLRCWSRTRKSWPGVQSFAGREELSAFLSQCRVLINLLPNTPETVGIINQQLLEKLPDGAYLLNLARGVHVVEDDLLAALDSGKVKGAMLDVFNREPLPPESPLWQHPRVTITPHVAAITRPAEAVEYISRTIAQLEKGERVCGQVDRARGY" "c" "Han et al., 2011" -"G6540-MONOMER" "MYPVDLHMHTVASTHAYSTLSDYIAQAKQKGIKLFAITDHGPDMEDAPHHWHFINMRIWPRVVDGVGILRGIEANIKNVDGEIDCSGKMFDSLDLIIAGFHEPVFAPHDKATNTQAMIATIASGNVHIISHPGNPKYEIDVKAVAEAAAKHQVALEINNSSFLHSRKGSEDNCREVAAAVRDAGGWVALGSDSHTAFTMGEFEECLKILDAVDFPPERILNVSPRRLLNFLESRGMAPIAEFADL" "c" "Han et al., 2011" -"G6541-MONOMER" "MNEFSILCRVLGSLYYRQPQDPLLVPLFTLIREGKLAANWPLEQDELLTRLQKSCDMTQVSADYNALFIGDECAVPPYRSAWVEGATEAEVRAFLSERGMPLADTPADHIGTLLLAASWLEDQSTEDESEALETLFSEYLLPWCGAFLGKVEAHATTPFWRTMAPLTRDAISAMWDELEEDSEE" "c" "Han et al., 2011" -"G6542-MONOMER" "MNILLSIAITTGILSGIWGWVAVSLGLLSWAGFLGCTAYFACPQGGLKGLAISAATLLSGVVWAMVIIYGSALAPHLEILGYVITGIVAFLMCIQAKQLLLSFVPGTFIGACATFAGQGDWKLVLPSLALGLIFGYAMKNSGLWLAARSAKTAHREQEIKNKA" "i" "Han et al., 2011" -"G6543-MONOMER" "MQRLFLLVAVMLLSGCLTAPPKEAARPTLMPRAQSYKDLTHLPAPTGKIFVSVYNIQDETGQFKPYPASNFSTAVPQSATAMLVTALKDSRWFIPLERQGLQNLLNERKIIRAAQENGTVAINNRIPLQSLTAANIMVEGSIIGYESNVKSGGVGARYFGIGADTQYQLDQIAVNLRVVNVSTGEILSSVNTSKTILSYEVQAGVFRFIDYQRLLEGEVGYTSNEPVMLCLMSAIETGVIFLINDGIDRGLWDLQNKAERQNDILVKYRHMSVPPES" "s" "EcoCyc dump" -"G6544-MONOMER" "MRVKHAVVLLMLISPLSWAGTMTFQFRNPNFGGNPNNGAFLLNSAQAQNSYKDPSYNDDFGIETPSALDNFTQAIQSQILGGLLSNINTGKPGRMVTNDYIVDIANRDGQLQLNVTDRKTGQTSTIQVSGLQNNSTDF" "p" "Han et al., 2011" -"G6545-MONOMER" "MKRYLRWIVAAEFLFAAGNLHAVEVEVPGLLTDHTVSSIGHDFYRAFSDKWESDYTGNLTINERPSARWGSWITITVNQDVIFQTFLFPLKRDFEKTVVFALIQTEEALNRRQINQALLSTGDLAHDEF" "e" "EcoCyc dump" -"G6547-MONOMER" "MKNKLLFMMLTILGAPGIAAAAGYDLANSEYNFAVNELSKSSFNQAAIIGQAGTNNSAQLRQGGSKLLAVVAQEGSSNRAKIDQTGDYNLAYIDQAGSANDASISQGAYGNTAMIIQKGSGNKANITQYGTQKTAIVVQRQSQMAIRVTQR" "j" "Han et al., 2011" -"G6548-MONOMER" "MNTLLLLAALSSQITFNTTQQGDVYTIIPEVTLTQSCLCRVQILSLREGSSGQSQTKQEKTLSLPANQPIALTKLSLNISPDDRVKIVVTVSDGQSLHLSQQWPPSSEKS" "c" "Han et al., 2011" -"G6549-MONOMER" "MFRPFLNSLMLGSLFFPFIAIAGSTVQGGVIHFYGQIVEPACDVSTQSSPVEMNCPQNGSIPGKTYSSKALMSGNVKNAQIASVKVQYLDKQKKLAVMNIEYN" "p" "Han et al., 2011" -"G6550-MONOMER" "MKTRIHVVQGDITKLAVDVIVNAANPSLMGGGGVDGAIHRAAGPALLDACLKVRQQQGDCPTGHAVITLAGDLPAKAVVHTVGPVWRGGEQNEDQLLQDAYLNSLRLVAANSYTSVAFPAISTGVYGYPRAAAAEIAVKTVSEFITRHALPEQVYFVCYDEENAHLYERLLTQQGDE" "c" "Han et al., 2011" -"G6551-MONOMER" "LPRLASAVLPLCSQHPGQCGLFPLEKSLDAFAARYRLAEMAEHTLDVQYYIWQDDMSGRLLFSALLAAAKRGVRVRLLLDDNNTPGLDDILRLLDSHPRIEVRLFNPFSFRLLRPLGYITDFSRLNRRMHNKSFTVDGVVTLVGGRNIGDAYFGAGEEPLFSDLDVMAIGPVVEDVADDFARYWYCKSVSPLQQVLDVPEGEMADRIELPASWHNDAMTHRYLRKMESSPFINHLVDGTLPLIWAKTRLLSDDPAKGEGKAKRHSLLPQRLFDIMGSPSERIDIISSYFVPTRAGVAQLLRMVRKGVKIAILTNSLAANDVAVVHAGYARWRKKLLRYGVELYELKPTREQSSTLHDRGITGNSGASLHAKTFSIDGKTVFIGSFNFDPRSTLLNTEMGFVIESETLAQLIDKRFIQSQYDAAWQLRLDRWGRINWVDRHAKKEIILKKEPATSFWKRVMVRLASILPVEWLL" "c" "Han et al., 2011" -"G6552-MONOMER" "MNPVPAQREYFLDSIRAWLMLLGIPFHISLIYSSHTWHVNSAESSLWLTLFNDFIHSFRMQVFFVISGYFSYMLFLRYPLKKWWKVRVERVGIPMLTAIPLLTLPQFIMLQYVKGKAESWPGLSLYDKYNTLAWELISHLWFLLVLVVMTTLCVWIFKRIRNNLENSDKTNKKFSMVKLSVIFLCLGIGYAVIRRTIFIVYPPILSNGMFNFIVMQTLFYLPFFILGALAFIFPHLKALFTTPSRGCTLAAALAFVAYLLNQRYGSGDAWMYETESVITMVLGLWMVNVVFSFGHRLLNFQSARVTYFVNASLFIYLVHHPLTLFFGAYITPHITSNWLGFLCGLIFVVGIAIILYEIHLRIPLLKFLFSGKPVVKRENDKAPAR" "i" "Han et al., 2011" -"G6554-MONOMER" "MSFTNTPERYGVISAAFHWLSAIIVYGMFALGLWMVTLSYYDGWYHKAPELHKSIGILLMMGLVIRVLWRVISPPPGPLPSYSPMTRLAARAGHLALYLLLFAIGISGYLISTADGKPISVFGWFDVPATLADAGAQADFAGALHFWLAWSVVVLSVMHGFMALKHHFIDKDDTLKRMLGKSSSDYGV" "i" "Han et al., 2011" -"G6555-MONOMER" "MRPFLQEYLMRRLLHYLINNIREHLMLYLFLWGLLAIMDLIYVFYF" "i" "Han et al., 2011" -"G6557-MONOMER" "MEKNNEVIQTHPLVGWDISTVDSYDALMLRLHYQTPNKSEQEGTEVGQTLWLTTDVARQFISILEAGIAKIESGDFQVNEYRRH" "c" "Han et al., 2011" -"G6558-MONOMER" "MRIEVTIAKTSPLPAGAIDALAGELSRRIQYAFPDNEGHVSVRYAAANNLSVIGATKEDKQRISEILQETWESADDWFVSE" "c" "Han et al., 2011" -"G6560-MONOMER" "VKKLRIGVVGLGGIAQKAWLPVLAAASDWTLQGAWSPTRAKALPICESWRIPYADSLSSLAASCDAVFVHSSTASHFDVVSTLLNAGVHVCVDKPLAENLRDAERLVELAARKKLTLMVGFNRRFAPLYGELKTQLATAASLRMDKHRSNSVGPHDLYFTLLDDYLHVVDTALWLSGGKASLDGGTLLTNDAGEMLFAEHHFSAGPLQITTCMHRRAGSQRETVQAVTDGALIDITDMREWREERGQGVVHKPIPGWQSTLEQRGFVGCARHFIECVQNQTVPQTAGEQAVLAQRIVDKIWRDAMSE" "c" "Han et al., 2011" -"G6561-MONOMER" "MNLLKSLAAVSSMTMFSRVLGFARDAIVARIFGAGMATDAFFVAFKLPNLLRRIFAEGAFSQAFVPILAEYKSKQGEDATRVFVSYVSGLLTLALAVVTVAGMLAAPWVIMVTAPGFADTADKFALTSQLLKITFPYILLISLASLVGAILNTWNRFSIPAFAPTLLNISMIGFALFAAPYFNPPVLALAWAVTVGGVLQLVYQLPHLKKIGMLVLPRINFHDAGAMRVVKQMGPAILGVSVSQISLIINTIFASFLASGSVSWMYYADRLMEFPSGVLGVALGTILLPSLSKSFASGNHDEYNRLMDWGLRLCFLLALPSAVALGILSGPLTVSLFQYGKFTAFDALMTQRALIAYSVGLIGLIVVKVLAPGFYSRQDIKTPVKIAIVTLILTQLMNLAFIGPLKHAGLSLSIGLAACLNASLLYWQLRKQKIFTPQPGWMAFLLRLVVAVLVMSGVLLGMLHIMPEWSLGTMPWRLLRLMAVVLAGIAAYFAALAVLGFKVKEFARRTV" "i" "Han et al., 2011" -"G6562-MONOMER" "MTRLAEILDQMSAVLNDLKTVMDQEQQHLSMGQINGSQLQWITEQKSSLLATLDYLEQLRRKEPNTANSVDISQRWQEITVKTQQLRQMNQHNGWLLEGQIERNQQALEMLKPHQEPTLYGANGQTSTTHRGGKKISI" "c" "Han et al., 2011" -"G6563-MONOMER" "VSVARFSCGKTAQLSKKQTGYYSPEIFPSTGKDCNPQPANCLKDQYVLRHCCVDDRSGKMGYSVKFLVLTRMDTETASLFHCKPCYSKMTFTIYHPLTHSFFTSCW" "c" "Han et al., 2011" -"G6564-MONOMER" "MRKGCFGLVSLVLLLLVGCRSHPEIPVNDEQSLVMESSLLAAGISAEKPFLSTSDIQPSASSTLYNERQEPVTVHYRFYWYDARGLEMHPLERPRSVTIPAHSAVTLYGSANFLGAHKVRLYLYL" "p" "Han et al., 2011" -"G6565-MONOMER" "MTKMSRYALITALAMFLAGCVGQREPAPVEEVKPAPEQPAEPQQPVPTVPSVPTIPQQPGPIEHEDQTAPPAPHIRHYDWNGAMQPMVSKMLGADGVTAGSVLLVDSVNNRTNGSLNAAEATETLRNALANNGKFTLVSAQQLSMAKQQLGLSPQDSLGTRSKAIGIARNVGAHYVLYSSASGNVNAPTLQMQLMLVQTGEIIWSGKGAVSQQ" "e" "EcoCyc dump" -"G6567-MONOMER" "VGPVMLDVEGYELDAEEREILAHPLVGGLILFTRNYHDPAQLRELVRQIRAASRNRLVVAVDQEGGRVQRFREGFTRLPAAQSFAALSGMEEGGKLAQEAGWLMASEMIAMDIDISFAPVLDVGHISAAIGERSYHADPQKALAIASRFIDGMHEAGMKTTGKHFPGHGAVTADSHKETPCDPRPQAEIRAKDMSVFSSLIRENKLDAIMPAHVIYSDVDPRPASGSPYWLKTVLRQELGFDGVIFSDDLSMEGAAIMGSYAERGQASLDAGCDMILVCNNRKGAVSVLDNLSPIKAERVTRLYHKGSFSRQELMDSARWKAISTRLNQLHERWQEEKAGH" "c" "Han et al., 2011" -"G6568-MONOMER" "MIIYLHGFDSNSPGNHEKVLQLQFIDPDVRLISYSTRHPKHDMQHLLKEVDKMLQLNVDERPLICGVGLGGYWAERIGFLCDIRQVIFNPNLFPYENMEGKIDRPEEYADIATKCVTNFREKNRDRCLVILSRNDEALNSQRTSEELHHYYEIVWDEEQTHKFKNISPHLQRIKAFKTLG" "c" "Lopez-Campistrous et al., 2005" -"G6569-MONOMER" "MATDSTQCVKKSRGRPKVFDRDAALDKAMKLFWQHGYEATSLADLVEATGAKAPTLYAEFTNKEGLFRAVLDRYIDRFAAKHEAQLFCEEKSVESALADYFAAIANCFTSKDTPAGCFMINNCTTLSPDSGDIANTLKSRHAMQERTLQQFLCQRQARGEIPPHCDVTHLAEFLNCIIQGMSISAREGASLEKLMQIAGTTLRLWPELVK" "c" "Han et al., 2011" -"G6570-MONOMER" "MKNVKTLIAAAILSSMSFASFAAVEVQSTPEGQQKVGTISANAGTNLGSLEEQLAQKADEMGAKSFRITSVTGPNTLHGTAVIYK" "p" "Han et al., 2011" -"G6571-MONOMER" "VMIKTRFSRWLTFFTFAAAVALALPAKANTWPLPPAGSRLVGENKFHVVENDGGSLEAIAKKYNVGFLALLQANPGVDPYVPRAGSVLTIPLQTLLPDAPREGIVINIAELRLYYYPPGKNSVTVYPIGIGQLGGDTLTPTMVTTVSDKRANPTWTPTANIRARYKAQGIELPAVVPAGLDNPMGHHAIRLAAYGGVYLLHGTNADFGIGMRVSSGCIRLRDDDIKTLFSQVTPGTKVNIINTPIKVSAEPNGARLVEVHQPLSEKIDDDPQLLPITLNSAMQSFKDAAQTDAEVMQHVMDVRSGMPVDVRRHQVSPQTL" "o" "Han et al., 2011" -"G6572-MONOMER" "MKQKELWINQIKGLCICLVVIYHSVITFYPHLTTFQHPLSEVLSKCWIYFNLYLAPFRMPVFFFISGYLIRRYIDSVPWGNCLDKRIWNIFWVLALWGVVQWLALSALNQWLAPERDLSNASNAAYADSTGEFLHGMITASTSLWYLYALIVYFVVCKIFSRLALPLFALFVLLSVAVNFVPTPWWGMNSVIRNLPYYSLGAWFGATIMTCVKEVPLRRHLLMASLLTVLAVGAWLFTISLLLSLVSIVVIMKLFYQYEQRFGMRSTSLLNVIGSNTIAIYTTHRILVEIFSLTLLAQMNAARWSPQVELTLLLVYPFVSLFICTVAGLLVRKLSQRAFSDLLFSPPSLPAAVSYSR" "i" "Han et al., 2011" -"G6576-MONOMER" "MYYGFDIGGTKIALGVFDSGRQLQWEKRVPTPRDSYDAFLDAVCELVAEADQRFGCKGSVGIGIPGMPETEDGTLYAANVPAASGKPLRADLSARLDRDVRLDNDANCFALSEAWDDEFTQYPLVMGLILGTGVGGGLIFNGKPITGKSYITGEFGHMRLPVDALTMMGLDFPLRRCGCGQHGCIENYLSGRGFAWLYQHYYHQPLQAPEIIALYDQGDEQARAHVERYLDLLAVCLGNILTIVDPDLVVIGGGLSNFPAITTQLADRLPRHLLPVARVPRIERARHGDAGGMRGAAFLHLTD" "c" "Unambiguous EcoCyc data" -"G6577-MONOMER" "MLSRRGHRLSRFRKNKRRLRERLRQRIFFRDKVVPEAMEKPRVLVLTGAGISAESGIRTFRAADGLWEEHRVEDVATPEGFDRDPELVQAFYNARRRQLQQPEIQPNAAHLALAKLQDALGDRFLLVTQNIDNLHERAGNTNVIHMHGELLKVRCSQSGQVLDWTGDVTPEDKCHCCQFPAPLRPHVVWFGEMPLGMDEIYMALSMADIFIAIGTSGHVYPAAGFVHEAKLHGAHTVELNLEPSQVGNEFAEKYYGPASQVVPEFVEKLLKGLKAGSIA" "c" "Han et al., 2011" -"G6578-MONOMER" "MKKFIILLSLLILLPLTAASKPLIPIMKTLFTDVTGTVPDAEEIAHKAELFRQQTGIAPFIVVLPDINNEASLRQNGKAMLAHASSSLSDVKGSVLLLFTTREPRLIMITNGQVESGLDDKHLGLLIENHTLAYLNADLWYQGINNALAVLQAQILKQSTPPLTYYPHPGQQHENAPPGSTNTLGFIAWAATFILFSRIFYYTTRFIYALKFAVAMTIANMGYQALCLYIDNSFAITRISPLWAGLIGVCTFIAALLLTSKR" "i" "Han et al., 2011" -"G6579-MONOMER" "MSQDSKVFFRIFLGIGLVLILISVVVFYNQFTYSKDAIHTEGVIVDTVWHSSHSHRTGKDGSWYPVVAFRPTPDYTLIFNSSIGSDFYEDSEGDKVNVYYSPGHPEKAEINNPWVNFFKWGFIGIMGVIFIAVGLLISMPSSKKSRRKRKSRP" "i" "Han et al., 2011" -"G6580-MONOMER" "MFKPHVTVACVVHAEGKFLVVEETINGKALWNQPAGHLEADETLVEAAARELWEETGISAQPQHFIRMHQWIAPDKTPFLRFLFAIELEQICPTQPHDSDIDCCRWVSAEEILQASNLRSPLVAESIRCYQSGQRYPLEMIGDFNWPFTKGVI" "c" "Han et al., 2011" -"G6581-MONOMER" "MRQFIISENTMQKTSFRNHQVKRFSSQRSTRRKPENQPTRVILFNKPYDVLPQFTDEAGRKTLKEFIPVQGVYAAGRLDRDSEGLLVLTNNGALQARLTQPGKRTGKIYYVQVEGIPTQDALEALRNGVTLNDGPTLPAGAELVDEPAWLWPRNPPIRERKSIPTSWLKITLYEGRNRQVRRMTAHVGFPTLRLIRYAMGDYSLDNLANGEWREVTD" "c" "Han et al., 2011" -"G6582-MONOMER" "MVLALNYNMHGVNIRSENAAKPHTMPSRYLCEYIRSIEKNGHALDFGCGKLRYSDELISKFDEVTFLDSKRQLEREQIIRGIKTKIIDYVPRYYKNANTVAFEDVDKIIGGYDFILCSNVLSAVPCRDTIDKIVLSIKRLLKSGGETLIVNQYKSSYFKKYETGRKHLYGYIYKNSKSVSYYGLLDELAVQEICSSHGLEILKSWSKAGSSYVTVGSCNAI" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6583-MONOMER" "VNNMFEPPKNYNEMLPKLHKATFLNTLIYCILLVIYEYIPLITLPTKYVPPIKDHESFINWALSFGILPCAFAIFAYLISGALDLHNNAAKLLRVRYLWDKHLIIKPLSRRAGVNRKLNKDEAHNVMSNLYYPEVRKIEDKHYIELFWNKVYYFWIFFEFSIIALISFLIIFFCKQMDIFHVEGSLLSLFFFVILSFSVSGIIFALTVKPRTESQVGKIPDDKIKEFFTKNNIN" "i" "Unambiguous EcoCyc data" -"G6585-MONOMER" "MLQMLTLEEWAAEKYRSNPPSVSTLRRYAKQNLFCPPAMKQGRLWRVREDAELVGELVTPVIKKNDSLLLQRILSNGSQTA" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6586-MONOMER" "VVNAAQRTRVKVEADNRPSVDTHPPGVQPSPGTGGTRHHNFMLCVVLAVPVFSLVLSGTALFTKQRRVSPDDGLITRPILIAVATGALLCFVEKLTDRAGSIC" "i" "Unambiguous EcoCyc data" -"G6587-MONOMER" "MNQFYVHVRLFEDTAEQTKKFEELMLNFLYQKTVKESDDSCCRLIPEGYILKSTMNCQQILDQTFSIANSAGVDANIFVCKFEQSACLLPSASLVGNDFVHYDLTPKPIKLDS" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6588-MONOMER" "MNEQNLKHVIALLLEDAKRLQQIEPNAGTEARILLAKQALKTCGAQAPGRTEFMNFMANTLTPLPCNGEKVSRVYHDTMVKALRIELDGLRRKIVMNEIVTN" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6589-MONOMER" "MKTIHDIRRSNARKLRDGVGGNSSFATMIDREPTQTSRFMGDGATKNIGDSMARHIEKCFDLPVGWLDQEHQTTNITKKPDVSITNKQITLVPVISWVQAGAWKEVGYSEVDLSTAETYPCPVPCGEMTYILRVIGDSMIDEYRPGDMIFVDPEVPACHGDDVIALMHDTGETTFKRLIEDGTQRYLKALNPNWPEPYIKINGNCSIIGTVIFSGKPRRYKIKA" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6590-MONOMER" "MKAYWDSLTKEQQGELAGKVGSTPGYLRLVFNGYKKASFVLAKKLEQYTSGAITKSDLRPDIYPKD" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6591-MONOMER" "MRLIVGKHHWKIEKQPEWYVKAVRKTIAALPSGYAEAADWLDVTENALFNRLRADGDQIFPLGWAMVLQRAGGTHFIADAVAQSANGVFVSLPDVEDVDNADINQRLLEVIEQIGSYSKQIRSAIEDGVVEPHEKTAINDELYLSISKLQEHAALVYKIFCISESNDARECAAPGVVASIASGCGETNA" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6592-MONOMER" "MNSLTTHYRRSQLIALPVPGGKAKVEYCYAVNVPGDREIVTHSFAEWAVGDFNRQKETVLCDKLTAGSKITTECPSESFVGSRKHNGLSTSAKVMSMNASARSNSFVVNSGK" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6593-MONOMER" "MSTKLTGYVWDGCAASGMKLSSVAIMARLADFSNDEGVCWPSIETIARQIGAGMSTVRTAIARLEAEGWLTRKARRQGDGSSPHCAVVDEYHEHATDALYTTMLTGMGARRQPLMWAITTAGYNIEGPCYDKRREVIEMLNGSVPNDELFGIIYTVDEGDDWTDPQVLEKANPNIGVSVYREFLLSQQQRAKNNARLANVFKTKHLNIWASARSAYFNLVSWQSCEDKSLTLEQFEGQPCILAFDLARKLDMNSMARLYTREIDGKTHYYSVAPRFWVPYDTVYSVEKNEDRRTAERFQKWVEMGVLTVTDGAEVDYRYILEEAKAANKISPVSESPIDPFGATGLSHDLADEDLNPVTIIQNYTNMSDPMKELEAAIESGRFHHDGNPIMTWCIGNVVGKTIPGNDDVVKPVKEQAENKIDGAVALIMAVGRAMLYEKEDTLSDHIESYGIRSL" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6594-MONOMER" "MIMLILAPLVGVLGALLLAYGAWLIYPPAGFVVAGALCLFWSWLVARYLDRTQSSVGGGK" "i" "Unambiguous EcoCyc data" -"G6595-MONOMER" "VFFSGLFQRKSDAPVTTPAELADAIGLSYDTYTGKQISSQRAMRLTAVFSCVRVLAESVGMLPCNLYHLNGSLKQRATGERLHKLISTHPNGYMTPQEFWELVVTCLCLRGNFYAYKVKAFGEVAELLPVDPGCVVYALGRCQRWPEGDRRECYSAR" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6596-MONOMER" "VPIACSSAGAVGNADDGTALILVTPVNGLPSSGVADTLTGGFDTEELETWRARVIERYYWTPQGGADGDYVVWAKEVPGITRAWTYRHLMGTGTVGVMIASSDLINPIPEESTETAARQHIGPLAPVAGSDLYVFRPVAHTVDFHIRVTPDTPEIRAAITAELRSFLLRDGYPQGELKVSRISEAISGANGEYSHQLLAPVDNISIAKNELAVLGTISWT" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6597-MONOMER" "MDVTNDDYIRLLSALLPPGPVWSASDPAIAGAAPSLTRVHQRADALMRELDPRTTTELINRWERLCGLPDECIPAGTQTLRQRQQRLDAKVNLAGGINEDFYLAQLAALGRPDATITRYDKSTFTCSSACTDAVNAPEWRYYWQVNMPATTNSTWMTCGDPCDSALRIWGDTVVECVLNKLCPSHTYVIFKYPE" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6598-MONOMER" "MKIYCCLNTVGFFMDGCGVIPPDSKEITAEHWQSLLKSQAEGGVIDFSVFPPSIKEVIRTHDDEVADANFQKQMLISDATDFINSRQWQGKAALGRLKEDELKQYNLWLDYLEALELVDTSSAPDIEWPTPPAVQAR" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6599-MONOMER" "MPFACYFFIFINVGLGEGSALPVGVPVPWPSATPPTGWLKCNGAAFSAEEYPELAKAYPTNKLPDLRGEFIRGWDDGRGIDTGRSILSIQGYATEDHAHGLPSRSTIVTDATINFYFDEIWVNSGTDIIKRGNTNDAGLPAPDYGTFKTYKQSVDGLGAAASETRPRNIAFNYIVRAA" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6600-MONOMER" "MKWIVIDTVIQPTCGISFSAIWGNMKMIIWYQSTIFLPPGSIFTPVKSGIILKDKEYPITIYHIAPFNKDLWSLLKSSQECPPGESKITNKCLHNSCIIKICPYGLK" "c" "Han et al., 2011" -"G6601-MONOMER" "MDQVVVFQKMFEQVRKEQNFSWFYSELKHHRIAHYIYYLATDNIRIITHDDTVLLLRGTRNLLKVSTTKNPAKIKEAALLHICGKSTFREYCSTLAGAGVFRWVTDVNHNKRSYYAIDNTLLYIEDVENNKPLI" "c" "Han et al., 2011" -"G6602-MONOMER" "VAYYSIGDVAERCGINPVTLRAWQRRYGLLKPQRSEGGHRLFDEEDIQRIEEIKRWISNGVPVGKVKALLETTSQDTEDDWSRLQEEMMSILRMANPAKLRARIISLGREYPVDQLINHVYLPVRQRLVLDHNTSRIMSSMFDGALIEYAATSLFEMRRKPGKEAILMAWNVEERARLWLEAWRLSLSGWHISVLADPIESPRPELFPTQTLIVWTGMAPTRRQNELLQHWGEQGYKVIFHAP" "c" "Han et al., 2011" -"G6603-MONOMER" "MLTTLIYRSHIRDDEPVKKIEEMVSIANRRNMQSDVTGILLFNGSHFFQLLEGPEEQVKMIYRAICQDPRHYNIVELLCDYAPARRFGKAGMELFDLRLHERDDVLQAVFDKGTSKFQLTYDDRALQFFRTFVLATEQSTYFEIPAEDSWLFIADGSDKELDSCALSPTINDHFAFHPIVDPLSRRIIAFEAIVQKNEDSPSAIAVGQRKDGEIYTADLKSKALAFTMAHALELGDKMISINLLPMTLVNEPDAVSFLLNEIKANALVPEQIIVEFTESEVISRFDEFAEAIKSLKAAGISVAIDHFGAGFAGLLLLSRFQPDRIKISQELITNVHKSGPRQAIIQAIIKCCTSLEIQVSAMGVATPEEWMWLESAGIEMFQGDLFAKAKLNGIPSIAWPEKK" "c" "Han et al., 2011" -"G6604-MONOMER" "MHQNSVTLDSAGAITRYFAKANLHTQQETLGEIVTEILKDGRNLSRKSLCAKLLCRLEHATGEEEQKHYNALIGLLFE" "c" "Han et al., 2011" -"G6605-MONOMER" "MKTSDNERIKYEITGQAVLQILRMKINFSLQTLIKQLLVMKSAEEDAFRRDLIDSIIRDFSNSDSGGPNRRTATADNKSMFNGKKINRIH" "c" "Han et al., 2011" -"G6606-MONOMER" "MLEDTTIHNAITDKALASYFRSSGNLLEEESAVLGQAVTNLMLSGDNVNNKNIILSLIHSLETTSDILKADVIRKTLEIVLRYTADDM" "c" "Han et al., 2011" -"G6607-MONOMER" "MNNSIPERFIFQCALFKNLEREVFMTHGYVDSHIIDQALRLRLKDETSVILSDLYLQILQYIEMHKTTLTDIIINDRESVLS" "c" "Han et al., 2011" -"G6608-MONOMER" "MRNTLIPILVAICLFITGVAILNIQLWYSAKAEYLAGARYAANNINHILEEASQATQTAVNIAGKECNLEEQYQLGTEAALKPHLRTIIILKQGIVWCTSLPGNRVLLSRIPVFPDSNLLLAPAIDTVNRLPILLYQNQFADTRILVTISDQHIRGALNVPLKGVRYVLRVADDIIGPTGDVMTLNGHYPYTEKVHSTKYHFTIIFNPPPLFSFYRLIDKGFGILIFILLIACAAAFLLDRYFNKSATPEEILRRAINNGEIVPFYQPVVNGREGTLRGVEVLARWKQPHGGYISPAAFIPLAEKSGLIVPLTQSLMNQVARQMNAIASKLPEGFHIGINFSASHIISPTFVDECLNFRDSFTRRDLNLVLEVTEREPLNVDESLVQRLNILHENGFVIALDDFGTGYSGLSYLHDLHIDYIKIDHSFVGRVNADPESTRILDCVLDLARKLSISIVAEGVETKEQLDYLNQNYITFQQGYYFYKPVTYIDLVKIILSKPKVKVVVE" "i" "Han et al., 2011" -"G6609-MONOMER" "MKDDSVVTHLTNSDSIINLSYDDGQTFTQGKTLTVKGNYVGNNGQLNIRTVLGDDKSATDRLIVEGNTSGSTTVYVKNAGGSGAATLNGIELITVNGDESPADAFR" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6610-MONOMER" "VNEEDNSSEGNSESTETPTPVLRPEAGSYVANLAAANTLFVMRLNDRAGETRYIDPVTEQERSSRLWLRQIGGHNAWRDSNGQLRTTSHRYVSQLGGDLLTGGFTDSDSWRLGVMAGYARDYNLTHSSVSDYRSKGSVRGYSAGLYATWFADDISKKGAYIDSWAQYSWFKNSVKGDELAYESYSAKGATVSLEAGYGFALNKSFGLEAAKYTWIFQPQAQAIWMGVDHNAHTEANGSRIENDANNNIQTRLGFRTFIRTQEKNSGPHGDDFEPFVEMNWIHNSKDFAVSMNGVKVEQDGASNLGEIKLGVNGNLNPAASVWGMWACSWVIMATMTPQ" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6611-MONOMER" "MKKFALLAGLFVFAPMTWAQDYNIKNGLPSETYITCAEANEMAKTDSAQVAEIVAVMGNASVASRDLKIEQSPELSAKVVEKLNQVCAKDPQMLLITAIDDTMRAIGKK" "p" "Han et al., 2011" -"G6612-MONOMER" "MNRTTKGALLGAGVGLLTGNGVNGVLKGAAVGAGVGAVTEKGRDGKNARKGAKVGAAVGAVTGVLTGNGLEGAIKGAVIGGTGGAILGKMK" "i" "Han et al., 2011" -"G6613-MONOMER" "VRKEFVDDNRVKVNNDGNFVNDLSGRRGIYQAAIKASFSSTFSGHLGVGYSHGAGVESPWNAVAGVNWSF" "o" "Han et al., 2011" -"G6614-MONOMER" "MNMMRIFYIGLSGVGMMFSSMASGNDAGGLQSPACGVVCDPYICVNSDGISPELTRKYLGEKAAENLQSLQGYDPSEFTFANGVFCDVKEKLCRDDRYFGVDGKRSGKINQTTTKMLFMCRE" "p" "Han et al., 2011" -"G6615-MONOMER" "MKIKSIRKAVLLLALLTSTSFAAGKNVNVEFRKGHSSAQYSGEIKGYDYDTYTFYAKKGQKVHVSISNEGADTYLFGPGIDDSVDLSRYSPELDSHGQYSLPASGKYELRVLQTRNDARKNKTKKYNVDIQIK" "o" "Han et al., 2011" -"G6616-MONOMER" "MPKPGILKSKSMFCVIYRSSKRDQTYLYVEKKDDFSRVPEELMKGFGQPQLAMILPLDGRKKLVNADIEKVKQALTEQGYYLQLPPPPEDLLKQHLSVMGQKTDDTNK" "c" "Han et al., 2011" -"G6617-MONOMER" "MYQHHNWQGALLDYPVSKVVCVGSNYAKHIKEMGSAVPEEPVLFIKPETALCDLRQPLAIPSDFGSVHHEVELAVLIGATLRQATEEHVRKAIAGYGVALDLTLRDVQGKMKKAGQPWEKAKAFDNSCPLSGFIPAAEFTGDPQNTTLSLSVNGEQRQQGTTADMIHKIVPLIAYMSKFFTLKAGDVVLTGTPDGVGPLQSGDELTVTFDGHSLTTRVL" "c" "Han et al., 2011" -"G6618-MONOMER" "MSDVPFWQSKTLDEMSDAEWESLCDGCGQCCLHKLMDEDTDEIYFTNVACRQLNIKTCQCRNYERRFEFEPDCIKLTRENLPTFEWLPMTCAYRLLAEGKDLPAWHPLLTGSKAAMHGERISVRHIAVKESEVIDWQDHILNKPDWAQ" "c" "Han et al., 2011" -"G6619-MONOMER" "MTEIVADKTVEVVKNAIETADGALDLYNKYLDQVIPWQTFDETIKELSRFKQEYSQAASVLVGDIKTLLMDSQDKYFEATQTVYEWCGVATQLLAAYILLFDEYNEKKASAQKDILIKVLDDGITKLNEAQKSLLVSSQSFNNASGKLLALDSQLTNDFSEKSSYFQSQVDKIRKEAYAGAAAGVVAGPFGLIISYSIAAGVVEGKLIPELKNKLKSVQNFFTTLSNTVKQANKDIDAAKLKLTTEIAAIGEIKTETETTRFYVDYDDLMLSLLKEAAKKMINTCNEYQKRHGKKTLFEVPEV" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6621-MONOMER" "MSLFHLIAPSGYCIKQHAALRGIQRLTDAGHQVNNVEVIARRCERFAGTETERLEDLNSLARLTTPNTIVLAVRGGYGASRLLADIDWQALVARQQHDPLLICGHSDFTAIQCGLLAHGNVITFSGPMLVANFGADELNAFTEHHFWLALRNETFTIEWQGEGPTCRAEGTLWGGNLAMLISLIGTPWMPKIENGILVLEDINEHPFRVERMLLQLYHAGILPRQKAIILGSFSGSTPNDYDAGYNLESVYAFLRSRLSIPLITGLDFGHEQRTVTLPLGAHAILNNTREGTQLTISGHPVLKM" "c" "Han et al., 2011" -"G6622-MONOMER" "VKLRWFAFLIVLLAGCSSKHDYTNPPWNAKVPVQRAMQWMPISQKAGAAWGVDPQLITAIIAIESGGNPNAVSKSNAIGLMQLKASTSGRDVYRRMGWSGEPTTSELKNPERNISMGAAYLNILETGPLAGIEDPKVLQYALVVSYANGAGALLRTFSSDRKKAISKINDLDADEFLEHVARNHPAPQAPRYIYKLEQALDAM" "o" "Han et al., 2011" -"G6623-MONOMER" "VSHYHEQFLKQNPLAVLGVLRDLHKAAIPLRLSWNGGQLISKLLAITPDKLVLDFGSQAEDNIAVLKAQHITITAETQGAKVEFTVEQLQQSEYLQLPAFITVPPPTLWFVQRRRYFRISAPLHPPYFCQTKLADNSTLRFRLYDLSLGGMGALLETAKPAELQEGMRFAQIEVNMGQWGVFHFDAQLISISERKVIDGKNETITTPRLSFRFLNVSPTVERQLQRIIFSLEREAREKADKVRD" "c" "Han et al., 2011" -"G6624-MONOMER" "MGIIAWIIFDLIAGIIAKLIMPGRDGGGFFLTCILGIVGAVVGGWLATMFGIGGSISGFNLHSFLVAVVGAILVLGIFRLLRRE" "i" "Han et al., 2011" -"G6625-MONOMER" "VIQKINILDSSQSGVKNGADSEAVLAALIEHLELINPSGRLSQNTRSAMLQLREEEWSEFFFWLLNSLECLDYVIINLTPESKKTLMSEHRNNIQVAIDALYSQRRRKSPGDESETLTRRNDAIFGNHVWQTFAQYFPPGLEKPSV" "c" "Han et al., 2011" -"G6627-MONOMER" "MKKLINDVQDVLDEQLAGLAKAHPSLTLHQDPVYVTRADAPVAGKVALLSGGGSGHEPMHCGYIGQGMLSGACPGEIFTSPTPDKIFECAMQVDGGEGVLLIIKNYTGDILNFETATELLHDSGVKVTTVVIDDDVAVKDSLYTAGRRGVANTVLIEKLVGAAAERGDSLDACAELGRKLNNQGHSIGIALGACTVPAAGKPSFTLADNEMEFGVGIHGEPGIDRRPFSSLDQTVDEMFDTLLVNGSYHRTLRFWDYQQGSWQEEQQTKQPLQSGDRVIALVNNLGATPLSELYGVYNRLTTRCQQAGLTIERNLIGAYCTSLDMTGFSITLLKVDDETLALWDAPVHTPALNWGK" "c" "Han et al., 2011" -"G6628-MONOMER" "MSGAFNNDGRGISPLIATSWERCNKLMKRETWNVPHQAQGVTFASIYRRKKAMLTLGQAALEDAWEYMAPRECALFILDETACILSRNGDPQTLQQLSALGFNDGTYCAEGIIGTCALSLAAISGQAVKTMADQHFKQVLWNWAFCATPLFDSKGRLTGTIALACPVEQTTAADLPLTLAIAREVGNLLLTDSLLAETNRHLNQLNALLESMDDGVISWDEQGNLQFINAQAARVLRLDATASQGRAITELLTLPAVLQQAIKQAHPLKHVEATFESQHQFIDAVITLKPIIETQGTSFILLLHPVEQMRQLMTSQLGKVSHTFAHMPQDDPQTRRLIHFGRQAARSSFPVLLCGEEGVGKALLSQAIHNESERAAGPYIAVNCELYGDAALAEEFIGGDRTDNENGRLSRLELAHGGTLFLEKIEYLAVELQSALLQVIKQGVITRLDARRLIPIDVKVIATTTADLAMLVEQNRFSRQLYYALHAFEITIPPLRMRRGSIPALVNNKLRSLEKRFSTRLKIDDDALARLVSCAWPGNDFELYSVIENLALSSDNGRIRVSDLPEHLFTEQATDDVSATRLSTSLSFAEVEKEAIINAAQVTGGRIQEMSALLGIGRTTLWRKMKQHGIDAGQFKRRV" "c" "Han et al., 2011" -"G6629-MONOMER" "MGIKQHNGNTKADRLAELKIRSPSIQLIKFGAIGLNAIIFSPLLIAADTGSQYGTNITINDGDRITGDTADPSGNLYGVMTPAGNTPGNINLGNDVTVNVNDASGYAKGIIIQGKNSSLTANRLTVDVVGQTSAIGINLIGDYTHADLGTGSTIKSNDDGIIIGHSSTLTATQFTIENSNGIGLTINDYGTSVDLGSGSKITTDGSTGVYIGGLNGNNANGAARFTATDLTIDVQGYSAMGINVQKNSVVDLGTNSTIKTNGDNAHGLWSFGQVSANALTVDVTGAAANGVEVRGGTTTIGADSHISSAQGGGLVTSGSDAIINFTGTAAQRNSIFSGGSYGASAQTATAVVNMQNTDITVDRNGSLALGLWALSGGRITGDSLAITGAAGARGIYAMTNSQIDLTSDLVIDMSTPDQMAIATQHDDGYAASRINASGRMLINGSVLSKGGLINLDMHPGSVWTGSSLSDNVNGGKLDVAMNNSVWNVTSNSNLDTLALSHSTVDFASHGSTAGTFATLNVENLSGNSTFIMRADVVGEGNGVNNKGDLLNISGSSAGNHVLAIRNQGSEATTGNEVLTVVKTTDGAASFSASSQVELGGYLYDVRKNGTNWELYASGTVPEPTPNPEPTPAPAQPPIVNPDPTPEPAPTPKPTTTADAGGNYLNVGYLLNYVENRTLMQRMGDLRNQSKDGNIWLRSYGGSLDSFASGKLSGFDMGYSGIQFGGDKRLSDVMPLYVGLYIGSTHASPDYSGGDGTARSDYMGMYASYMAQNGFYSDLVIKASRQKNSFHVLDSQNNGVNANGTANGMSISLEAGQRFNLSPTGYGFYIEPQTQLTYSHQNEMTMKASNGLNIHLNHYESLLGRASMILGYDITAGNSQLNVYVKTGAIREFSGDTEYLLNNSREKYSFKGNGWNNGVGVSAQYNKQHTFYLEADYTQGNLFDQKQVNGGYRFSF" "o" "Han et al., 2011" -"G6630-MONOMER" "MTSFSTLLSVHLISIALSVGLLTLRFWLRYQKHPQAFARWTRIVPPVVDTLLLLSGIALMAKAHILPFSGQAQWLTEKLFGVIIYIVLGFIALDYRRMHSQQARIIAFPLALVVLYIIIKLATTKVPLLG" "i" "Han et al., 2011" -"G6631-MONOMER" "MVVGEGLLSAARFALRVVACGNALSLALKSNLGRSFSSFPAWAEYLIADSFENSGAFESDGGGGRITQRCALRPSGRCLRQRSLADARAEP" "m" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6632-MONOMER" "MRPFAAVVYRGTWLSGWWCNEPITDVVRRLNLSADGEAGMNLLARSAVTQARQRVGAAPVEWLFRQTAQTGARNVT" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6633-MONOMER" "MDMDLNNRLTEDETLEQAYDIFLELAADNLDPADVLLFNLQFEERGGAELFDPAEDWQEHVDFDLNPDFFAEVVIGLADSEDGEINDVFARILLCREKDHKLCHIIWRE" "c" "Han et al., 2011" -"G6634-MONOMER" "LSDTNYAVIYDLHSHTTASDGCLTPEALVHRAVEMRVGTLAITDHDTTAAIAPAREEISRSGLALNLIPGVEISTVWENHEIHIVGLNIDITHPLMCEFLAQQTERRNQRAQLIAERLEKAQIPGALEGAQRLAQGGAVTRGHFARFLVECGKASSMADVFKKYLARGKTGYVPPQWCTIEQAIDVIHHSGGKAVLAHPGRYNLSAKWLKRLVAHFAEHHGDAMEVAQCQQSPNERTQLAALARQHHLWASQGSDFHQPCPWIELGRKLWLPAGVEGVWQLWEQPQNTTEREL" "c" "Han et al., 2011" -"G6635-MONOMER" "MSQFFYIHPDNPQQRLINQAVEIVRKGGVIVYPTDSGYALGCKIEDKNAMERICRIRQLPDGHNFTLMCRDLSELSTYSFVDNVAFRLMKNNTPGNYTFILKGTKEVPRRLLQEKRKTIGMRVPSNPIAQALLEALGEPMLSTSLMLPGSEFTESDPEEIKDRLEKQVDLIIHGGYLGQKPTTVIDLTDDTPVVVREGVGDVKPFL" "c" "Han et al., 2011" -"G6636-MONOMER" "MAGKFRCILLLIAGLFVSSLSYAENTEIPSYEEGISLFDVEATLQPDGVLDIKENIHFQARNQQIKHGFYRDLPRLWMQPDGDAALLNYHIVGVTRDGIPEPWHLDWHIGLMSIVVGDKQRFLPQGDYHYQIHYQVKNAFLREGDSDLLIWNVTGNHWPFEIYKTRFSLQFSNIAGNPFSEIDLFTGEEGDTYRNGRILEDGRIESRDPFYREDFTVLYRWPHALLSNASAPQTTNIFSHLLLPSTSSLLIWFPCLFLVCGWLYLWKRRPQFTPVDVIETDVIPPDYTPGMLRLDAKLVYDDKGFCADIVNLIVKGKIHLEDQSDKNQQILIRVNEGATRNNAVLLPAEQLLLEALFRKGDKVVLTGRRNRVLRRAFLRMQKFYLPRKKSSFYRSDTFLQWGGLAILAVILYGNLSPVGWAGMSLVGDMFIMICWIIPFLFCSLELLFARDDDKPCVNRVIITLFLPLICSGVAFYSLYINVGDVFFYWYMPAGYFTAVCLTGYLTGMGYIFLPKFTQTGQQRYAHGEAIVNYLARKEAATHSGRRRKGETRKLDYALLGWAISANLGREWALRIAPSLSSAIRAPEIARNGVLFSLQTHLSCGANTSLLGRSYSGGGAGGGAGGGGGGGW" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6637-MONOMER" "VKYLLIFLLVLAIFVISVTLGAQNDQQVTFNYLLAQGEYRISTLLAVLFAAGFAIGWLICGLFWLRVRVSLARAERKIKRLENQLSPATDVAVVPHSSAAKE" "i" "Han et al., 2011" -"G6638-MONOMER" "MNSRQQTILQMVIDQGQVSVTDLAKATGVSEVTIRQDLNTLEKLSYLRRAHGFAVSLDSDDVETRMMSNYTLKRELAEFAASLVQPGETIFIENGSSNALLARTLGEQKKNVTIITVSSYIAHLLKDAPCEVILLGGVYQKKSESMVGPLTRQCIQQVHFSKAFIGIDGWQPETGFTGRDMMRTDVVNAVLEKECEAIVLTDSSKFGAVHSYSIGPVERFNRVITDSKIRASDLMHLEHSKLTIHVVDI" "c" "Lopez-Campistrous et al., 2005" -"G6639-MONOMER" "MKTVRESTTLYNFLGSHNPYWRLTESSDVLRFSTTETTEPDRTLQLSAEQAARIREMTVITSSLMMSLTVDESDLSVHLVGRKINKREWAGNASAWHDTPAVARDLSHGLSFAEQVVSEAHSAIVILDSRGNIQRFNRLCEDYTGLKEHDVIGQSVFKLFMSRREAAASRRNNRVFFRSGNAYEVELWIPTCKGQRLFLFRNKFVHSGSGKNEIFLICSGTDITEERRAQERLRILANTDSITGLPNRNAMQDLIDHAINHADNNKVGVVYLDLDNFKKVNDAYGHLFGDQLLRDVSLAILSCLEHDQVLARPGGDEFLVLASNTSQSALEAMASRILTRLRLPFRIGLIEVYTSCSVGIALSPEHGSDSTAIIRHADTAMYTAKEGGRGQFCVFTPEMNQRVFEYLWLDTNLRKALENDQLVIHYQPKITWRGEVRSLEALVRWQSPERGLIPPLDFISYAEESGLIVPLGRWVILDVVRQVAKWRDKGINLRVAVNISARQLADQTIFTALKQVLQELNFEYCPIDVELTESCLIENDELALSVIQQFSQLGAQVHLDDFGTGYSSLSQLARFPIDAIKLDQVFVRDIHKQPVSQSLVRAIVAVAQALNLQVIAEGVESAKEDAFLTKNGINERQGFLFAKPMPAVAFERWYKRYLKRA" "c" "Han et al., 2011" -"G6640-MONOMER" "MEQRHITGKSHWYHETQSSTTEYDVLPLVPEAAKVSDPFLLDVILEKETLAPFLSWLDPARVLAVDLFPDQLTVTRSQTFTAYERLSTALTVAQVCGVQRLCNYYSARLTPLPGPDSTRESNHRLAQITQYARQLASSPSIIDNRSRQHLNDVGLTAWDCVIISQIIGFIGFQARTIATFQAYLGHPVRWLPGLEIQNYADASLFADESLRWRSSYEVEKLPEEHTKSSTAELCQLAEILSLHPISLSLLEKLLNSTRGNTQPDNQLAALLCARINGSPACFATCMDSSNEYKKISTLMRKGENEINQWADRHSVERATVQAIQWLTRAPDRFSAAQFSPLLEHEKSSTQIINLLVWSGLCGWINRLKIALGETY" "c" "Han et al., 2011" -"G6641-MONOMER" "VIDKIKSNARDLRRNLTLQERKLWRYLRSRRFSDFKFRRQHPVGSYILDFACCSARVVVELDGGQHDLAVAYDSRRTSWLESQGWTVLRFWNNEIDCNEETVLENILQELNRRSPSP" "c" "Han et al., 2011" -"G6642-MONOMER" "MNHDIPLKYFDIADEYATECAEPVAEAERTPLAHYFQLLLTRLMNNEEISEEAQHEMAAEAGINPVRIDEIAEFLNQWGNE" "c" "Han et al., 2011" -"G6644-MONOMER" "METNIVEVENFVQQSEERRGSAFTQEVKRYLERYPNTQYVDVLLTDLNGCFRGKRIPVSSLKKLEKGCYFPASVFAMDILGNVVEEAGLGQEMGEPDRTCVPVLGSLTPSAADPEFIGQMLLTMVDEDGAPFDVEPRNVLNRLWQQLRQRGLFPVVAVELEFYLLDRQRDAEGYLQPPCAPGTDDRNTQSQVYSVDNLNHFADVLNDIDELAQLQLIPADGAVAEASPGQFEINLYHTDNVLEACDDALALKRLVRLMAEKHKMHATFMAKPYEEHAGSGMHIHISMQNNRGENVLSDAEGEDSPLLKKMLAGMIDLMPSSMALLAPNVNSYRRFQPGMYVPTQASWGHNNRTVALRIPCGDRHNHRVEYRVAGADANPYLVMAAIFAGILHGLDNELPLQEEVEGNGLEQEGLPFPIRQSDALGEFIENDHLRRYLGERFCHVYHACKNDELLQFERLITETEIEWMLKNA" "c" "Han et al., 2011" -"G6645-MONOMER" "MENIMNNPVIGVVMCRNRLKGHATQTLQEKYLNAIIHAGGLPIALPHALAEPSLLEQLLPKLDGIYLPGSPSNVQPHLYGENGDEPDADPGRDLLSMAIINAALERRIPIFAICRGLQELVVATGGSLHRKLCEQPELLEHREDPELPVEQQYAPSHEVQVEEGGLLSALLPECSNFWVNSLHGQGAKVVSPRLRVEARSPDGLVEAVSVINHPFALGVQWHPEWNSSEYALSRILFEGFITACQHHIAEKQRL" "c" "Han et al., 2011" -"G6646-MONOMER" "MSNNEFHQRRLSATPRGVGVMCNFFAQSAENATLKDVEGNEYIDFAAGIAVLNTGHRHPDLVAAVEQQLQQFTHTAYQIVPYESYVTLAEKINALAPVSGQAKTAFFTTGAEAVENAVKIARAHTGRPGVIAFSGGFHGRTYMTMALTGKVAPYKIGFGPFPGSVYHVPYPSDLHGISTQDSLDAIERLFKSDIEAKQVAAIIFEPVQGEGGFNVAPKELVAAIRRLCDEHGIVMIADEVQSGFARTGKLFAMDHYADKPDLMTMAKSLAGGMPLSGVVGNANIMDAPAPGGLGGTYAGNPLAVAAAHAVLNIIDKESLCERANQLGQRLKNTLIDAKESVPAIAAVRGLGSMIAVEFNDPQTGEPSAAIAQKIQQRALAQGLLLLTCGAYGNVIRFLYPLTIPDAQFDAAMKILQDALSD" "c" "Han et al., 2011" -"G6647-MONOMER" "MKQKITDYLDEIYGGTFTATHLQKLVTRLESAKRLITQRRKKHWDESDVVLITYADQFHSNDLKPLPTFNQFYHQWLQSIFSHVHLLPFYPWSSDDGFSVIDYHQVASEAGEWQDIQQLGECSHLMFDFVCNHMSAKSEWFKNYLQQHPGFEDFFIAVDPQTDLSAVTRPRALPLLTPFQMRDHSTRHLWTTFSDDQIDLNYRSPEVLLAMVDVLLCYLAKGAEYVRLDAVGFMWKEPGTSCIHLEKTHLIIKLLRSIIDNVAPGTVIITETNVPHKDNIAYFGAGDDEAHMVYQFSLPPLVLHAVQKQNVEALCAWAQNLTLPSSNTTWFNFLASHDGIGLNPLRGLLPESEILELVEALQQEGALVNWKNNPDGTRSPYEINVTYMDALSRRESSDEERCARFILAHAILLSFPGVPAIYIQSILGSRNDYAGVEKLGYNRAINRKKYHSKEITRELNDEATLRHAVYHELSRLITLRRSHNEFHPDNNFTIDTINSSVMRIPRSNADGNCLTGLFNVSKNIQHVNITNLHGRDLISEVDILGNEITLRPWQVMWIK" "c" "Han et al., 2011" -"G6651-MONOMER" "MKKLVATAPRVAALVEYEDRAILANEVKIRVRFGAPKHGTEVVDFRAASPFIDEDFNGEWQMFTPRPADAPRGIEFGKFQLGNMVVGDIIECGSDVTDYAVGDSVCGYGPLSETVIINAVNNYKLRKMPQGSSWKNAVCYDPAQFAMSGVRDANVRVGDFVVVVGLGAIGQIAIQLAKRAGASVVIGVDPIAHRCDIARRHGADFCLNPIGTDVGKEIKTLTGKQGADVIIETSGYADALQSALRGLAYGGTISYVAFAKPFAEGFNLGREAHFNNAKIVFSRACSEPNPDYPRWSRKRIEETCWELLMNGYLNCEDLIDPVVTFANSPESYMQYVDQHPEQSIKMGVTF" "c" "Han et al., 2011" -"G6652-MONOMER" "MKIGTQNQAFFPENILEKFRYIKEMGFDGFEIDGKLLVNNIEEVKAAIKETGLPVTTACGGYDGWIGDFIEERRLNGLKQIERILEALAEVGGKGIVVPAAWGMFTFRLPPMTSPRSLDGDRKMVSDSLRVLEQVAARTGTVVYLEPLNRYQDHMINTLADARRYIVENDLKHVQIIGDFYHMNIEEDNLAQALHDNRDLLGHVHIADNHRYQPGSGTLDFHALFEQLRADNYQGYVVYEGRIRAEDPAQAYRDSLAWLRTC" "c" "Han et al., 2011" -"G6653-MONOMER" "VKSAMTSSPLRVAIIGAGQVADKVHASYYCTRNDLELVAVCDSRLSQAQALAEKYGNASVWDDPQAMLLAVKPDVVSVCSPNRFHYEHTLMALEAGCHVMCEKPPAMTPEQAREMCDTARKLGKVLAYDFHHRFALDTQQLREQVTNGVLGEIYVTTARALRRCGVPGWGVFTNKELQGGGPLIDIGIHMLDAAMYVLGFPAVKSVNAHSFQKIGTQKSCGQFGEWDPATYSVEDSLFGTIEFHNGGILWLETSFALNIREQSIMNVSFCGDKAGATLFPAHIYTDNNGELMTLMQREIADDNRHLRSMEAFINHVQGKPVMIADAEQGYIIQQLVAALYQSAETGTRVEL" "p" "Han et al., 2011" -"G6654-MONOMER" "MTRPVTLSEPHFSQHTLNKYASLMAQGNGYLGLRASHEEDYTRQTRGMYLAGLYHRAGKGEINELVNLPDVVGMEIAINGEVFSLSHEAWQRELDFASGELRRNVVWRTSNGSGYTIASRRFVSADQLPLIALEITITPLDADASVLISTGIDATQTNHGRQHLDETQVRVFGQHLMQGSYTTQDGRSDVAISCCCKVSGDVQQCYTAKERRLLQHTSAQLHAGETMTLQKLVWIDWRDDRQAALDEWGSASLRQLEMCAQQSYDQLLAASTENWRQWWQKRRITVNGGEAHDQQALDYALYHLRIMTPAHDERSSIAAKGLTGEGYKGHVFWDTEVFLLPFHLFSDPTVARSLLRYRWHNLPGAQEKARRNGWQGALFPWESARSGEEETPEFAAINIRTGLRQKVASAQAEHHLVADIAWAVIQYWQTTGDESFIAHEGMALLLETAKFWISRAVRVNDRLEIHDVIGPDEYTEHVNNNAYTSYMARYNVQQALNIARQFGCSDDAFIHRAEMFLKELWMPEIQPDGVLPQDDSFMAKPAINLAKYKAAAGKQTILLDYSRAEVNEMQILKQADVVMLNYMLPEQFSAASCLANLQFYEPRTIHDSSLSKAIHGIVAARCGLLTQSYQFWREGTEIDLGADPHSCDDGIHAAATGAIWLGAIQGFAGVSVRDGELHLNPALPEQWQQLSFPLFWQGCELQVTLDAQRIAIRTSAPVSLRLNGQLITVAEESVFCLGDFILPFNGTATKHQEDE" "c" "Han et al., 2011" -"G6655-MONOMER" "MKLQGVIFDLDGVITDTAHLHFQAWQQIAAEIGISIDAQFNESLKGISRDESLRRILQHGGKEGDFNSQERAQLAYRKNLLYVHSLRELTVNAVLPGIRSLLADLRAQQISVGLASVSLNAPTILAALELREFFTFCADASQLKNSKPDPEIFLAACAGLGVPPQACIGIEDAQAGIDAINASGMRSVGIGAGLTGAQLLLPSTESLTWPRLSAFWQNV" "c" "Han et al., 2011" -"G6657-MONOMER" "MKKLLPCTALVMCAGMACAQAEERNDWHFNIGAMYEIENVEGYGEDMDGLAEPSVYFNAANGPWRIALAYYQEGPVDYSAGKRGTWFDRPELEVHYQFLENDDFSFGLTGGFRNYGYHYVDEPGKDTANMQRWKIAPDWDVKLTDDLRFNGWLSMYKFANDLNTTGYADTRVETETGLQYTFNETVALRVNYYLERGFNMDDSRNNGEFSTQEIRAYLPLTLGNHSVTPYTRIGLDRWSNWDWQDDIEREGHDFNRVGLFYGYDFQNGLSVSLEYAFEWQDHDEGDSDKFHYAGVGVNYSF" "o" "Han et al., 2011" -"G6658-MONOMER" "MSPTIYDIARVAGVSKSTVSRVLNKQTNISPEAREKVLRAIEELQYQPNKLARALTSSGFDAIMVISTRSTKTTAGNPFFSEVLHAITAKAEEEGFDVILQTSHNPAEDLQKCESKIKQKMIKGIIMLSSPADESFFAQLDKYDIPVVVIGKVEGQYAHVYSVDTDNFGDSIALTDALIESGHQNIACLHAPLDVHVSVDRVNGYKQSLAAHNIAVRDEWIVDGGYTHETALKAARQLLSQSPLPEAVFATDSLKLMSIYRAAAEKNIAIPQQLAVVGYSNETLSFILTPAPGGIDVPTQELGQQSCELLFRLISGKPSPQNITVATHMTLK" "c" "Han et al., 2011" -"G6659-MONOMER" "MKRLKNELNALVNRGVDRHLRLAVTGLSRSGKTAFITAMVNQLLNIHAGARLPLLSAVREERLLGVKRIPQRDFGIPRFTYDEGLAQLYGDPPAWPTPTRGVSEIRLALRFKSNDSLLRHFKDTSTLYLEIVDYPGEWLLDLPMLAQDYLSWSRQMTGLLNGQRGEWSAKWRMMSEGLDPLAPADENRLADIAAAWTDYLHHCKEQGLHFIQPGRFVLPGDMAGAPALQFFPWPDVDTWGESKLAQADKHTNAGMLRERFNYYCEKVVKGFYKNHFLRFDRQIVLVDCLQPLNSGPQAFNDMRLALTQLMQSFHYGQRTLFRRLFSPVIDKLLFAATKADHVTIDQHANMVSLLQQLIQDAWQNAAFEGISMDCLGLASVQATTSGIIDVNGEKIPALRGNRLSDGAPLTVYPGEVPARLPGQAFWDKQGFQFEAFRPQVMDVDKPLPHIRLDAALEFLIGDKLR" "c" "Han et al., 2011" -"G6660-MONOMER" "MSQTVHFQGNPVTVANSIPQAGSKAQTFTLVAKDLSDVTLGQFAGKRKVLNIFPSIDTGVCAASVRKFNQLATEIDNTVVLCISADLPFAQSRFCGAEGLNNVITLSTFRNAEFLQAYGVAIADGPLKGLAARAVVVIDENDNVIFSQLVDEITTEPDYEAALAVLKA" "c" "EcoCyc dump" -"G6661-MONOMER" "MRTVKVFEEAWPLHTPFVIARGSRSEARVVVVELEEEGIKGTGECTPYPRYGESDASVMAQIMSVVPQLEKGLTREELQKILPAGAARNALDCALWDLAARRQQQSLADLIGITLPETVITAQTVVIGTPDQMANSASTLWQAGAKLLKVKLDNHLISERMVAIRTAVPDATLIVDANESWRAEGLAARCQLLADLGVAMLEQPLPAQDDAALENFIHPLPICADESCHTRSNLKALKGRYEMVNIKLDKTGGLTEALALATEARAQGFSLMLGCMLCTSRAISAALPLVPQVSFADLDGPTWLAVDVEPALQFTTGELHL" "c" "Han et al., 2011" -"G6662-MONOMER" "MTVTRPRAERGAFPPGTEHYGRSLLGAPLIWFPAPAASRESGLILAGTHGDENSSVVTLSCALRTLTPSLRRHHVVLCVNPDGCQLGLRANANGVDLNRNFPAANWKEGETVYRWNSAAEERDVVLLTGDKPGSEPETQALCQLIHRIQPAWVVSFHDPLACIEDPRHSELGEWLAQAFELPLVTSVGYETPGSFGSWCADLNLHCITAEFPPISSDEASEKYLFAMANLLRWHPKDAIRPS" "c" "Han et al., 2011" -"G6663-MONOMER" "MRNGMMNNKVSFTNSNNPTISLSAVIYFPPKFDETRQYQAIVLSHPGGGVKEQTAGTYAKKLAEKGFVTIAYDASYQGESGGEPRQLENPYIRTEDISAVIDYLTTLSYVDNTRIGAMGICAGAGYTANAAIQDRRIKAIGTVSAVNIGSIFRNGWENNVKSIDALPYVEAGSNARTSDISSGEYAIMPLAPMKESDAPNEELRQAWEYYHTPRAQYPTAPGYATLRSLNQIITYDAYHMAEVYLTQPTQIVAGSQAGSKWMSDDLYDRASSQDKRYHIVEGANHMDLYDGKAYVAEAISVLAPFFEETL" "c" "Han et al., 2011" -"G6664-MONOMER" "MKREEIADLMAFVVVAEERSFTRAAARLSMAQSALSQIVRRIEERLGLRLLTRTTRSVVPTEAGEHLLSVLGPMLHDIDSAMASLSDLQNRPSGTIRITTVEHAAKTILLPAMRTFLKSHPEIDIQLTIDYGLTDVVSERFDAGVRLGGEMDKDMIAIRIGPDIPMAIVGSPDYFSRRSVPTSVSQLIDHQAINLYLPTSGTANRWRLIRGGREVRVRMEGQLLLNTIDLIIDAAIDGHGLAYLPYDQVERAIKEKKLIRVLDKFTPDLPGYHLYYPHRRHAGSAFSLFIDRLKYKGAV" "c" "Han et al., 2011" -"G6665-MONOMER" "MKHSVSVTCCALLVSSISLSYAAEVPSGTVLAEKQELVRHIKDEPASLDPAKAVGLPEIQVIRDLFEGLVNQNEKGEIVPGVATQWKSNDNRIWTFTLRDNAKWADGTPVTAQDFVYSWQRLVDPKTLSPFAWFAALAGINNAQAIIDGKATPDQLGVTAVDAHTLKIQLDKPLPWFVNLTANFAFFPVQKANVESGKEWTKPGNLIGNGAYVLKERVVNEKLVVVPNTHYWDNAKTVLQKVTFLPINQESAATKRYLAGDIDITESFPKNMYQKLLKDIPGQVYTPPQLGTYYYAFNTQKGPTADQRVRLALSMTIDRRLMTEKVLGTGEKPAWHFTPDVTAGFTPEPSPFEQMSQEELNAQAKTLLSAAGYGPQKPLKLTLLYNTSENHQKIAIAVASMWKKNLGVDVKLQNQEWKTYIDSRNTGNFDVIRASWVGDYNEPSTFLTLLTSTHSGNISRFNNPAYDKVLAQASTENTVKARNADYNAAEKILMEQAPIAPIYQYTNGRLIKPWLKGYPINNPEDVAYSRTMYIVKH" "i" "EcoCyc dump" -"G6668-MONOMER" "MIMAKLKSAKGKKFLFGLLAVFIIAASVVTRATIGGVIEQYNIPLSEWTTSMYVIQSSMIFVYSLVFTVLLAIPLGIYFLGGEEQ" "i" "Han et al., 2011" -"G6669-MONOMER" "MQEIYRFIDDAIEADRQRYTDIADQIWDHPETRFEEFWSAEHLASALESAGFTVTRNVGNIPNAFIASFGQGKPVIALLGEYDALAGLSQQAGCAQPTSVTPGENGHGCGHNLLGTAAFAAAIAVKKWLEQYGQGGTVRFYGCPGEEGGSGKTFMVREGVFDDVDAALTWHPEAFAGMFNTRTLANIQASWRFKGIAAHAANSPHLGRSALDAVTLMTTGTNFLNEHIIEKARVHYAITNSGGISPNVVQAQAEVLYLIRAPEMTDVQHIYDRVAKIAEGAALMTETTVECRFDKACSSYLPNRTLENAMYQALSHFGTPEWNSEELAFAKQIQATLTSNDRQNSLNNIAATGGENGKVFALRHRETVLANEVAPYAATDNVLAASTDVGDVSWKLPVAQCFSPCFAVGTPLHTWQLVSQGRTSIAHKGMLLAAKTMAATTVNLFLDSGLLQECQQEHQQVTDTQPYHCPIPKNVTPSPLK" "c" "Han et al., 2011" -"G6670-MONOMER" "MESLNQFVNSLAPKLSHWRRDFHHYAESGWVEFRTATLVAEELHQLGYSLALGREVVNESSRMGLPDEFTLQREFERARQQGALAQWIAAFEGGFTGIVATLDTGRPGPVMAFRVDMDALDLSEEQDVSHRPYRDGFASCNAGMMHACGHDGHTAIGLGLAHTLKQFESGLHGVIKLIFQPAEEGTRGARAMVDAGVVDDVDYFTAVHIGTGVPAGTVVCGSDNFMATTKFDAHFTGTAAHAGAKPEDGHNALLAAAQATLALHAIAPHSEGASRVNVGVMQAGSGRNVVPASALLKVETRGASDVINQYVFDRAQQAIQGAATMYGVGVETRLMGAATASSPSPQWVAWLQSQAAQVAGVNQAIERVEAPAGSEDATLMMARVQQHQGQASYVVFGTQLAAGHHNEKFDFDEQVLAIAVETLARTALNFPWTRGI" "c" "Han et al., 2011" -"G6671-MONOMER" "MAFQVKIHQIRAFVEVARQGSIRGASRMLNMSQPALSKSIQELEEGLAAQLFFRRSKGVTLTDAGESFYQHASLILEELRAAQEDIRQRQGQLAGQINIGMGASISRSLMPAVISRFHQQHPQVKVRIMEGQLVSMINELRQGELDFTINTYYQGPYDHEFTFEKLLEKQFAIFCRPGHPAIGARSIKQLLDYSWTMPTPHGSYYKQLSELLDDQAQTPQVGVVCETFSACISLVAKSDFLSKLPEEMGCDPLHGQGLVMLPVSEILPKAAYYLIQRRDSRQTPLTASLITQFRRECGYLQS" "c" "Han et al., 2011" -"G6672-MONOMER" "MNLDDKSLFLDAMEDVQPLKRATDVHWHPTRNQRAPQRIDTLQLDNFLTTGFLDIIPLSQPLEFRREGLQHGVLDKLRSGKYPQQASLNLLRQPVEECRKMVFSFIQQALADGLRNVLIIHGKGRDDKSHANIVRSYVARWLTEFDDVQAYCTALPHHGGSGACYVALRKTAQAKQENWERHAKRSR" "c" "Han et al., 2011" -"G6673-MONOMER" "MITHNFNTLDLLTSPVWIVSPFEEQLIYANSAAKLLMQDLTFSQLRTGPYSVSSQKELPKYLSDLQNQHDIIEILTVQRKEEETALSCRLVLRKLTETEPVIIFEGIEAPATLGLKASRSANYQRKKQGFYARFFLTNSAPMLLIDPSRDGQIVDANLAALNFYGYNHETMCQKHTWEINMLGRRVMPIMHEISHLPGGHKPLNFVHKLADGSTRHVQTYAGPIEIYGDKLMLCIVHDITEQKRLEEQLEHAAHHDAMTGLLNRRQFYHITEPGQMQHLAIAQDYSLLLIDTDRFKHINDLYGHSKGDEVLCALARTLESCARKGDLVFRWGGEEFVLLLPRTPLDTALSLAETIRVSVAKVSISGLPRFTVSIGVAHHEGNESIDELFKRVDDALYRAKNDGRNRVLAA" "c" "EcoCyc dump" -"G6674-MONOMER" "VEAIKGSDVNVPDAVFAWMLDGRGGVKPLENTDVIDEAHPCWLHLNYVHHDSAQWLATTPLLPNNVRDALAGESTRPRVSRLGEGTLITLRCINGSTDERPDQLVAMRVYMDGRLIVSTRQRKVLALDDVVSDLEEGTGPTDCGGWLVDVCDALTDHSSEFIEQLHDKIIDLEDNLLDQQIPPRGFLALLRKQLIVMRRYMAPQRDVYARLASERLPWMSDDQRRRMQDIADRLGRGLDEIDACIARTGVMADEIAQVMQENLARRTYTMSLMAMVFLPSTFLTGLFGVNLGGIPGGGWQFGFSIFCILLVVLIGGVALWLHRSKWL" "c" "Han et al., 2011" -"G6675-MONOMER" "MQENQQITKKEQYNLNKLQKRLRRNVGEAIADFNMIEEGDRIMVCLSGGKDSYTMLEILRNLQQSAPINFSLVAVNLDQKQPGFPEHVLPEYLEKLGVEYKIVEENTYGIVKEKIPEGKTTCSLCSRLRRGILYRTATELGATKIALGHHRDDILQTLFLNMFYGGKMKGMPPKLMSDDGKHIVIRPLAYCREKDIQRFADAKAFPIIPCNLCGSQPNLQRQVIADMLRDWDKRYPGRIETMFSAMQNVVPSHLCDTNLFDFKGITHGSEVVNGGDLAFDREEIPLQPACWQPEEDENQLDELRLNVVEVK" "c" "Han et al., 2011" -"G6676-MONOMER" "MSKLPTGVEIRGRYIRIWFMFRGKRCRETLKGWEITNSNIKKAGNLRALIVHEINSGEFEYLRRFPQSSTGAKMVTTRVIKTFGELCDIWTKIKETELTTNTMKKTKSQLKTLRIIICESTPISHIRYSDILNYRNELLHGETLYLDNPRSNKKGRTVRTVDNYIALLCSLLRFAYQSGFISTKPFEGVKKLQRNRIKPDPLSKTEFNALMESEKGQSQNLWKFAVYSGLRHGELAALAWEDVDLEKGIVNVRRNLTILDMFGPPKTNAGIRTVTLLQPALEALKEQYKLTGHHRKSEITFYHREYGRTEKQKLHFVFMPRVCNGKQKPYYSVSSLGARWNAAVKRAGIRRRNPYHTRHTFACWLLTAGANPAFIASQMGHETAQMVYEIYGMWIDDMNDEQIAMLNARLS" "c" "Han et al., 2011" -"G6677-MONOMER" "MAQVIFNEEWMVEYGLMLRTGLGARQIEAYRQNCWVEGFHFKRVSPLGKPDSKRGIIWYNYPKINQFIKDS" "c" "Han et al., 2011" -"G6679-MONOMER" "MVHYEVVQYLMDCCGITYNQAVQALRSNDWDLWQAEVAIRSNKM" "c" "Han et al., 2011" -"G6680-MONOMER" "MLSGKDLGRAIEQAINKKIASGSVKSKAEVARHFKVQPPSIYDWIKKGSISKDKLPELWRFFSDVVGPEHWGLNEYPIPTPTNSDTKSELLDINNLYQAASDEIRAIVAFLLSGNATEPDWVDHDVRAYIAAMEMKVGKYLKALESERKSQNITKTGT" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6681-MONOMER" "MKKENYSFKQACAVVGGQSAMARLLGVSPPSVNQWIKGVRQLPAERCPAIERATRGEVLCEELRPDIDWSYLRRSACCSQNMSVKQLNDSNKSSFDHT" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6682-MONOMER" "MKIKHEHIESVLFALAAEKGQAWVANAITEEYLRQGGGELPLVPGKDWNNQQNIYHRWLKGETKTQREKIQKLIPAILAILPRELRHRLCIFDTLERRALLAAQEALSTAIDAHDDAVQAVYRKAHFSGGGSSDDSVIVH" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6683-MONOMER" "MLFVLILSHRAASYGAIMAALPYMQLYIADYLADTMHLSAEEHGAYLLLMFNYWQTGKPIPKNRLAKIARLTNERWADVEPSLQEFFCDNGEEWVHLRIEEDLASVREKLTKKSAAGKASVQARRSRKEADVQTKQERNLTGVQTDVEVVFEHDVNTKATNKDTDKDLKTDPPLNPPRGNRGVKKFDPLDITLPNWISVSLWREWVEFRQALRKPIRTEQGANGAIRELEKFRQQGFSPEQVIRHSIANEYQGLFAPKGVRPETLLRQVNTVSLPDSAIPPGFRG" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6684-MONOMER" "MKNIATGDVLERIRRLAPSHVTAPFKTVAEWREWQLSEGQKRCEEINRQNRQLRVEKILNRSGIQPLHRKCSFSNYQVQNEGQRYALSQAKSIADELMTGCTNFAFSGKPGTGKNHLAAAIGNRLLKDGQTVIVVTVADVMSALHASYDDGQSGEKFLRELCEVDLLVLDEIGIQRETKNEQVVLHQIVDRRTASMRSVGMLTNLNYEAMKTLLGERIMDRMTMNGGRWVNFNWESWRPNVVQPGIAK" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6685-MONOMER" "METVFDALKAMGKATSIELAARLDISREEVLNELWELKKAGFVDKSAYTWRVADNNVQQEQPAQAELPEEITTATVAKISECDLTATIEQRGPQTADELATLFGTTSRKVASTLAMAISKGRLIRVNQGGKFRYCIPGDNLPAEPKAASVSPLWLSASSSACHGVLIITVITPSPTKNSATKMPEN" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6686-MONOMER" "MRQRDVAALDAKYTKELADAKAENDALRDDVAAGRRRLHIKAVCQSVREATTASGVDNAASPRLADTAERDYFTLRERLVMMQAQLEGAQQYITEQCLK" "c" "Han et al., 2011" -"G6688-MONOMER" "MSEKLKIVYRPLQELSPYAHNARTHSTEQVAQLVESIKQFGWTNPVLIDEKGEIIAGHGRVMAAEMLKMDSVPVIVLSGLTDEQKQR" "c" "Han et al., 2011" -"G6689-MONOMER" "MSRSSDNDQYRSRNALIRRHIEKMDASLHVGTKEFDISKVSEVDSVDDLLIDNAARYLLKDWKGVGELVNGVEVALEYTAERGIALLKQNPELYWQILAEAASIAQGKEQQKQDTIKKP" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6691-MONOMER" "MAEQTSRLAIIIDSTGAKNNADNLTSSLVKMTQAGETAANSAGKVTKATEDEKNALAKLKAAIDPVGAAIDTVGRRYSELKKFFDKGLIDKEEYEFLVRKLNETTEELSGVAQAQREAEKAGKLAAAQQEAQAQAFQRMLDKIDPLAAALRNLEQQHDELNAAFASGKINGSQFENYSRKIQETRRELTGEAQAEREAAKAHDEQVVALQRLIAQLDPVGTAFNRLVEQQKQLNEAKAKGMLSPEMYEELSGKLRAMRSELEVTQSQLSKTGMSAKQTAFAMRMLPAQMTDIVVGLSTGQSPFMVLMQQGGHSAMQETRIASLPVTAIPAGMKIPCVTAGSA" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6692-MONOMER" "VRNRWFSVMVGPSVRVNEWFSAYAMAGMAYSRVSTFSGDYLRVTDNKGRCE" "o" "Han et al., 2011" -"G6693-MONOMER" "MSHQLTFADSEFSTKRRQTRKEIFLSRMEQILPWQNMTAVIEPFYPKAGNGRRPYPLETMLRIHCMQHWYNLSDGAMEDALYEIASMRLFARLSLDSALPDRTTIMNFRHLLEQHQLARQLFKTINRWLAEAGVMMTQGTLVDATIIEAPSSTKNKEQQRDPEMHQTKKGNQWHFGMKAHIGVDAKSGLTHSLVTTAANEHDLNQLGNLLHGEEQFVSADAGYQGAPQREELAEVDVDWLIAERPGKVKTLKQNPRKNKTAINIEYMKASIRARVEHPFRIIKRQFGFVKARYKGLLKNDNQLAMLFTLANLFRVDQMIRQWERSQ" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6694-MONOMER" "VLTGSDDGRHSNTSLAWGAGVQFNPTESVAIDIAYEGPGSGDWRTDGFIVGVGYKF" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6695-MONOMER" "MAVKISGVLKDGTGKPVQNCTIQLKAKRNSTTVVVNTLASENPDEAGRYSMDVEYGQYSVILLVEGFPPSHAGTITVYEDSQPGTLNDFLGAMTEDDARPEALRRFELMVEEVARNASAVAQNTAAAKKSASDASTSAREAATHAADAADSARAASTSAGQAASSAQSASSSAGTASTKATEASKSAAAAESSKSAAATSAGAAKTSETNASASLQSAATSASTATTKASEAATSARDAAASKEAAKSSETNASSSASSAASSATAAGNSAKAAKTSETNARSSETAAGQSASAAAGSKTAAASSASAASTSAGQASASATAAGKSAESAASSASTATTKAGEATEQASAAARSASAAKTSETNAKASETSAESSKTAAASSASSAASSASSASASKDEATRQASAAKSSATTASTKATEAAGSATAAAQSKSTAESAATRAETAAKRAEDIASAVALEDASTTKKGIVQLSSATNSTSETLAATPKAVKSAYDNAEKRLQKDQNGADIPDKGCFLNNINAVSKTDFADKRGMRYVRVNAPAGATSGKYYPVVVMRSAGSVSELASRVIITTATRTAGDPMNNCEFNGFVMPGGWTDRGRYAYGMFWQYQNNERAIHSIMMSNKGDDLRSVFYVDGAAFPVFAFIEDGLSISAPGADLVVNDTTYKFGATNPATECIAADVILDFKSGRGFYESHSLIVNDNLSCKKLFATDEIVARGGNQIRMIGGEYGALWRNDGAKTYLLLTNQGDVYGGWNTLRPFAIDNATGELVIGTKLSASLNGNALTATKLQTPRRVSGVEFDGSKDITLTAAHVAAFARRATDTYADADGGVPWNAESGAYNVTRSGDSYILVNFYTGVGSCRTLQMKAHYRNGGLFYRSSRDGYGFEEDWAEVYTSKNLPPESYPVGAPIPWPSDTVPSGYALMQGQAFDKSAYPKLAAAYPSGVIPDMRGWTIKGKPASGRAVLSQEQDGIKSHTHSASASSTDLGTKTTSSFDYGTKSTNNTGAHTHSVSGSTNSAGAHTHSLANVNTASANSGAGSASTRLSVVHNQNYATSSAGAHTHSLSGTAASAGAHAHTVGIGAHTHSVAIGSHGHTITVNAAGNAENTVKNIAFNYIVRLA" "c" "Han et al., 2011" -"G6696-MONOMER" "MAFRMSEQPRTIKIYNLLAGTNEFIGEGDAYIPPHTGLPANSTDIAPPDIPAGFVAVFNSDESSWHLVEDHRGKTVYDVASGNALFISELGPLPENVTWLSPEGEFQKWNGTAWVKDTEAEKLFRIREAEETKNNLMQVASEHIAPLQDAADLEIATEEEISLLEAWKKYRVLLNRVDTSTAQDIEWPALP" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6697-MONOMER" "MSRIFAYCRISTLDQTTENQRREIESAGFKIKPQQIIEEHISGSAATSERPGFNRLLARLKCGDQLIVTKLDRLGCNAMDIRKTVEQLTETGIRVHCLALGGIDLTSPTGKMMMQVISAVAEFERDLLLERTHSGIVRARGAGKRFGRPPVLNEEQKQVVFERIKSGVSISAIAREFKTSRQTILRAKAKLQTPDI" "c" "Han et al., 2011" -"G6698-MONOMER" "MKSKDTLKWFPAQLPEVRIILGDAVVEVAKQGRPINTRTLLDYIEGNIKKTSWLDNKELLQTAISVLKDNQNLNGKM" "c" "Han et al., 2011" -"G6699-MONOMER" "MNRTILVPIDISDSELTQRVISHVEEEAKIDDAEVHFLTVIPSLPYYASLGLAYSAELPAMDDLKAEAKSQLEEIIKKFKLPTDRVHVHVEEGSPKDRILELAKKIPAHMIIIASHRPDITTYLLGSNAAAVVRHAECSVLVVR" "c" "Han et al., 2011" -"G6700-MONOMER" "MKSKVLALLIPALLAAGAAHAAEVYNKDGNKLDLYGKVDGLHYFSDNSAKDGDQSYARLGFKGETQINDQLTGYGQWEYNIQANNTESSKNQSWTRLAFAGLKFADYGSFDYGRNYGVMYDIEGWTDMLPEFGGDSYTNADNFMTGRANGVATYRNTDFFGLVNGLNFAVQYQGNNEGASNGQEGTNNGRDVRHENGDGWGLSTTYDLGMGFSAGAAYTSSDRTNDQVNHTAAGGDKADAWTAGLKYDANNIYLATMYSETRNMTPFGDSDYAVANKTQNFEVTAQYQFDFGLRPAVSFLMSKGRDLHAAGGADNPAGVDDKDLVKYADIGATYYFNKNMSTYVDYKINLLDEDDSFYAANGISTDDIVALGLVYQF" "o" "Han et al., 2011" -"G6701-MONOMER" "MITIDGNGAVASVAFRTSEVIAIYPITPSSTMAEQADAWAGNGLKNVWGDTPRVVEMQSEAGAIATVHGALQTGALSTSFTSSQGLLLMIPTLYKLAGELTPFVLHVAARTVATHALSIFGDHSDVMAVRQTGCAMLCAANVQEAQDFALISQIATLKSRVPFIHFFDGFRTSHEINKIVPLADDTILDLMPQVEIDAHRARALNPEHPVIRGTSANPDTYFQSREATNPWYNAVYDHVEQAMNDFSAATGRQYQPFEYYGHPQAERVIILMGSAIGTCEEVVDELLTRGEKVGVLKVRLYRPFSAKHLLQALPGSVRSVAVLDRTKEPGAQAEPLYLDVMTALAEAFNNGERETLPRVIGGRYGLSSKEFGPDCVLAVFAELNAAKPKARFTVGIYDDVTNLSLPLPENTLPNSAKLEALFYGLGSDGSVSATKNNIKIIGNSTPWYAQGYFVYDSKKAGGLTVSHLRVSEQPIRSAYLISQADFVGCHQLQFIDKYQMAERLKPGGIFLLNTPYSADEVWSRLPQEVQAVLNQKKARFYVINAAKIARECGLAARINTVMQMAFFHLTQILPGDSALAELQGAIAKSYSSKGQDLVERNWQALALARESVEEVPLQPVNPHSANRPPVVSDAAPDFVKTVTAAMLAGLGDALPVSALPPDGTWPMGTTRWEKRNIAEEIPIWKEELCTQCNHCVAACPHSAIRAKVVPPEAMENAPASLHSLDVKSRDMRGQKYVLQVAPEDCTGCNLCVEVCPAKDRQNPEIKAINMMSRLEHVEEEKINYDFFLNLPEIDRSKLERIDIRTSQLITPLFEYSGACSGCGETPYIKLLTQLYGDRMLIANATGCSSIYGGNLPSTPYTTDANGRGPAWANSLFEDNAEFGLGFRLTVDQHRVRVLRLLDQFADKIPAELLTALKSDATPEVRREQVAALRQQLNDVAEAHELLRDADALVEKSIWLIGGDGWAYDIGFGGLDHVLSLTENVNILVLDTQCYSNTGGQASKATPLGAVTKFGEHGKRKARKDLGVSMMMYGHVYVAQISLGAQLNQTVKAIQEAEAYPGPSLIIAYSPCEEHGYDLALSHDQMRQLTATGFWPLYRFDPRRADEGKLPLALDSRPPSEAPEETLLHEQRFRRLNSQQPEVAEQLWKDAAADLQKRYDFLAQMAGKAEKSNTD" "c" "Han et al., 2011" -"G6702-MONOMER" "MKKVAAFVALSLLMAGCVSNDKIAVTPEQLQHHRFVLESVNGKPVTSDKNPPEISFGEKMMISGSMCNRFSGEGKLSNGELTAKGLAMTRMMCANPQLNELDNTISEMLKEGAQVDLTANQLTLATAKQTLTYKLADLMN" "p" "Han et al., 2011" -"G6703-MONOMER" "MLGKYKAVLALLLLIILVPLTLLMTLGLWVPTLAGIWLPLGTRIALDESPRITRKGLIIPDLRYLVGDCQLAHITNASLSHPSRWLLNVGTVELDSACLAKLPQTEQSPAAPKTLAQWQAMLPNTWINIDKLIFSPWQEWQGKLSLALTSDIQQLRYQGEKVKFQGQLKGQQLTVSELDVVAFENQPPVKLVGEFAMPLVPDGLPVSGHATATLNLPQEPSLVDAELDWQENSGQLIVLARDNGDPLLDLPWQITRQQLTVSDGRWSWPYAGFPLSGRLGVKVDNWQAGLENALVSGRLSVLTQGQAGKGNAVLNFGPGKLSMDNSQLPLQLTGEAKQADLILYARLPAQLSGSLSDPTLTFEPGALLRSKGRVIDSLDIDEIRWPLAGVKVTQRGVDGRLQAILQAHENELGDFVLHMDGLANDFLPDAGRWQWRYWGKGSFTPMNATWDVAGKGEWHDSTITLTDLSTGFDQLQYGTMTVEKPRLILDKPIVWVRDAQHPSFSGALSLDAGQTLFTGGSVLPPSTLKFSVDGRDPTYFLFKGDLHAGEIGPVRVNGRWDGIRLRGNAWWPKQSLTVFQPLVPPDWKMNLRDGELYAQVAFSAAPEQGFRAGGHGVLKGGSAWMPDNQVNGVDFVLPFRFADGAWHLGTRGPVTLRIAEVINLVTAKNITADLQGRYPWTEEEPLLLTDVSVDVLGGNVLMKQLRMPQHDPALLRLNNLSSSELVSAVNPKQFAMSGAFSGALPLWLNNEKWIVKDGWLANSGPMTLRLDKDTADAVVKDNMTAGSAINWLRYMEISRSSTKINLDNLGLLTMQANITGTSRVDGKSGTVNLNYHHEENIFTLWRSLRFGDNLQAWLEQNARLPGNDCPQGKECEEKQ" "i" "Han et al., 2011" -"G6704-MONOMER" "MKILLAALTSSFMLVGCTPRIEVAAPKEPITINMNVKIEHEIIIKADKDVEELLETRSDLF" "c" "Han et al., 2011" -"G6705-MONOMER" "MKKTLLLCAFLVGLVSSNVMALTLDEARTQGRVGETFYGYLVALKTDAETEKLVADINAERKASYQQLAKQNNVSVDDIAKLAGQKLVARAKPGEYVQGINGKWVRKF" "p" "Han et al., 2011" -"G6706-MONOMER" "MNPAVDNEFQQWLSQINQVCGNFTGRLLTERYTGVLDTHFAKGLKLSTVTTSGVNLSRTWQEVKGSDDAWFYTVFQLSGQAIMEQDERQVQIGAGDITLLDASRPCSLYWQESSKQISLLLPRTLLEQYFPHQKPICAERLDADLPMVQLSHRLLQESMNNPALSETESEAALQAMVCLLRPVLHQRESVQPRRERQFQKVVTLIDDNIREEILRPEWIAGETGMSVRSLYRMFADKGLVVAQYIRNRRLDFCADAIRHAADDEKLAGIGFHWGFSDQSHFSTVFKQRFGMTPGEYRRKFR" "c" "Han et al., 2011" -"G6708-MONOMER" "MQQLASFLSGTWQSGRGRSRLIHHAISGEALWEVTSEGLDMAAARQFAIEKGAPALRAMTFIERAAMLKAVAKHLLSEKERFYALSAQTGATRADSWVDIEGGIGTLFTYASLGSRELPDDTLWPEDELIPLSKEGGFAARHLLTSKSGVAVHINAFNFPCWGMLEKLAPTWLGGMPAIIKPATATAQLTQAMVKSIVDSGLVPEGAISLICGSAGDLLDHLDSQDVVTFTGSAATGQMLRVQPNIVAKSIPFTMEADSLNCCVLGEDVTPDQPEFALFIREVVREMTTKAGQKCTAIRRIIVPQALVNAVSDALVARLQKVVVGDPAQEGVKMGALVNAEQRADVQEKVNILLAAGCEIRLGGQADLSAAGAFFPPTLLYCPQPDETPAVHATEAFGPVATLMPAQNQRHALQLACAGGGSLAGTLVTADPQIARQFIADAARTHGRIQILNEESAKESTGHGSPLPQLVHGGPGRAGGGEELGGLRAVKHYMQRTAVQGSPTMLAAISKQWVRGAKVEEDRIHPFRKYFEELQPGDSLLTPRRTMTEADIVNFACLSGDHFYAHMDKIAAAESIFGERVVHGYFVLSAAAGLFVDAGVGPVIANYGLESLRFIEPVKPGDTIQVRLTCKRKTLKKQRSAEEKPTGVVEWAVEVFNQHQTPVALYSILTLVARQHGDFVD" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6709-MONOMER" "VTQEERFEQRIAQETAIEPQDWMPDAYRKTLIRQIGQHAHSEIVGMLPEGNWITRAPTLRRKAILLAKVQDEAGHGLYLYSAAETLGCAREDIYQKMLDGRMKYSSIFNYPTLSWADIGVIGWLVDGAAIVNQVALCRTSYGPYARAMVKICKEESFHQRQGFEACMALAQGSEAQKQMLQDAINRFWWPALMMFGPNDDNSPNSARSLTWKIKRFTNDELRQRFVDNTVPQVEMLGMTVPDPDLHFDTESGHYRFGEIDWQEFNEVINGRGICNQERLDAKRKAWEEGTWVREAALAHAQKQHARKVA" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6710-MONOMER" "MSNVYWPLYEVFVRGKQGLSHRHVGSLHAADERMALENARDAYTRRSEGCSIWVVKASEIVASQPEERGEFFDPAESKVYRHPTFYTIPDGIEHM" "c" "EcoCyc dump" -"G6711-MONOMER" "MNQLTAYTLRLGDNCLVLSQRLGEWCGHAPELEIDLALANIGLDLLGQARNFLSYAAELAGEGDEDTLAFTRDERQFSNLLLVEQPNGNFADTIARQYFIDAWHVALFTRLMESRDPQLAAISAKAIKEARYHLRFSRGWLERLGNGTDVSGQKMQQAINKLWRFTAELFDADEIDIALSEEGIAVDPRTLRAAWEAEVFAGINEATLNVPQEQAYRTGGKKGLHTEHLGPMLAEMQYLQRVLPGQQW" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6712-MONOMER" "MQRLATIAPPQVHEIWALLSQIPDPEIPVLTITDLGMVRNVTQMGEGWVIGFTPTYSGCPATEHLIGAIREAMTTNGFTPVQVVLQLDPAWTTDWMTPDARERLREYGISPPAGHSCHAHLPPEVRCPRCASVHTTLISEFGSTACKALYRCDSCREPFDYFKCI" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6713-MONOMER" "MTTFHSLTVAKVESETRDAVTITFAVPQPLQEAYRFRPGQHLTLKASFDGEELRRCYSICRSYLPGEISVAVKAIEGGRFSRYAREHIRQGMTLEVMVPQGHFGYQPQAERQGRYLAIAAGSGITPMLAIIATTLQTEPESQFTLIYGNRTSQSMMFRQALADLKDKYPQRLQLLCIFSQETLDSDLLHGRIDGEKLQSLGASLINFRLYDEAFICGPAAMMDDAETALKALGMPDKTIHLERFNTPGTRVKRSVNVQSDGQKVTVRQDGRDREIVLNADDESILDAALRQGADLPYACKGGVCATCKCKVLRGKVAMETNYSLEPDELAAGYVLSCQALPLTSDVVVDFDAKGMA" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6714-MONOMER" "MSELIVSRQQRVLLLTLNRPAARNALNNALLMQLVNELEAAATDTSISVCVITGNARFFAAGADLNEMAEKDLAATLNDTRPQLWARLQAFNKPLIAAVNGYALGAGCELALLCDVVVAGENARFGLPEITLGIMPGAGGTQRLIRSVGKSLASKMVLSGESITAQQAQQAGLVSDVFPSDLTLEYALQLASKMARHSPLALQAAKQALRQSQEVALQAGLAQERQLFTLLAATEDRHEGISAFLQKRTPDFKGR" "i" "EcoCyc dump" -"G6715-MONOMER" "MMEFILSHVEKGVMTLTLNRPERLNSFNDEMHAQLAECLKQVERDDTIRCLLLTGAGRGFCAGQDLNDRNVDPTGPAPDLGMSVERFYNPLVRRLAKLPKPVICAVNGVAAGAGATLALGGDIVIAARSAKFVMAFSKLGLIPDCGGTWLLPRVAGRARAMGLALLGNQLSAEQAHEWGMIWQVVDDETLADTAQQLARHLATQPTFGLGLIKQAINSAETNTLDTQLDLERDYQRLAGRSADYREGVSAFLAKRSPQFTGK" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6716-MONOMER" "MMINVQTVAVIGSGTMGAGIAEVAASHGHQVLLYDISAEALTRAIDGIHARLNSRVTRGKLTAETCERTLKRLIPVTDIHALAAADLVIEAASERLEVKKALFAQLAEVCPPQTLLTTNTSSISITAIAAEIKNPERVAGLHFFNPAPVMKLVEVVSGLATAAEVVEQLCELTLSWGKQPVRCHSTPGFIVNRVARPYYSEAWRALEEQVAAPEVIDAALRDGAGFPMGPLELTDLIGQDVNFAVTCSVFNAFWQERRFLPSLVQQELVIGGRLGKKSGLGVYDWRAEREAVVGLEAVSDSFSPMKVEKKSDGVTEIDDVLLIETQGETAQALAIRLARPVVVIDKMAGKVVTIAAAAVNPDSATRKAIYYLQQQGKTVLQIADYPGMLIWRTVAMIINEALDALQKGVASEQDIDTAMRLGVNYPYGPLAWGAQLGWQRILRLLENLQHHYGEERYRPCSLLRQRALLESGYES" "m" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6717-MONOMER" "MSHKAWQNAHAMYENDACAKALGIDIISMDEGFAVVTMTVTAQMLNGHQSCHGGQLFSLADTAFAYACNSQGLAAVASACTIDFLRPGFAGDTLTATAQVRHQGKQTGVYDIEIVNQQQKTVALFRGKSHRIGGTITGEA" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6718-MONOMER" "MREAFICDGIRTPIGRYGGALSSVRADDLAAIPLRELLVRNPRLDAECIDDVILGCANQAGEDNRNVARMATLLAGLPQSVSGTTINRLCGSGLDALGFAARAIKAGDGDLLIAGGVESMSRAPFVMGKAASAFSRQAEMFDTTIGWRFVNPLMAQQFGTDSMPETAENVAELLKISREDQDSFALRSQQRTAKAQSSGILAEEIVPVVLKNKKGVVTEIQHDEHLRPETTLEQLRGLKAPFRANGVITAGNASGVNDGAAALIIASEQMAAAQGLTPRARIVAMATAGVEPRLMGLGPVPATRRVLERAGLSIHDMDVIELNEAFAAQALGVLRELGLPDDAPHVNPNGGAIALGHPLGMSGARLALAASHELHRRNGRYALCTMCIGVGQGIAMILERV" "m" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6719-MONOMER" "MITNTKLDPIETASVDELQALQTQRLKWTLKHAYENVPMYRRKFDAAGVHPDDFRELSDLRKFPCTTKQDLRDNYPFDTFAVPMEQVVRIHASSGTTGKPTVVGYTQNDIDNWANIVARSLRAAGGSPKDKIHVAYGYGLFTGGLGAHYGAERLGATVIPMSGGQTEKQAQLIRDFQPDMIMVTPSYCLNLIEELERQLGGDASGCSLRVGVFGAEPWTQAMRKEIERRLGITALDIYGLSEVMGPGVAMECLETTDGPTIWEDHFYPEIVNPHDGTPLADGEHGELLFTTLTKEALPVIRYRTRDLTRLLPGTARTMRRMDRISGRSDDMLIIRGVNVFPSQLEEEIVKFEHLSPHYQLEVNRRGHLDSLSVKVELKESSLTLTHEQRCQVCHQLRHRIKSMVGISTDVMIVNCGSIPRSEGKACRVFDLRNIVGA" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6720-MONOMER" "MSKLDTFIQHAVNAVPVSGTSLISSLYGDSLSHRGGEIWLGSLAALLEGLGFGERFVRTALFRLNKEGWLDVSRIGRRSFYSLSDKGLRLTRRAESKIYRAEQPAWDGKWLLLLSEGLDKSTLADVKKQLIWQGFGALAPSLMASPSQKLADVQTLLHEAGVADNVICFEAQIPLALSRAALRARVEECWHLTEQNAMYETFIQSFRPLVPLLKEAADELTPERAFHIQLLLIHFYRRVVLKDPLLPEELLPAHWAGHTARQLCINIYQRVAPAALAFVSEKGETSVGELPAPGSLYFQRFGGLNIEQEALCQFIR" "c" "EcoCyc dump" -"G6721-MONOMER" "MPIYQIDGLTPVVPEESFVHPTAVLIGDVILGKGVYVGPNASLRGDFGRIVVKDGANIQDNCVMHGFPEQDTVVGEDGHIGHSAILHGCIIRRNALVGMNAVVMDGAVIGENSIVGASAFVKAKAEMPANYLIVGSPAKAIRELSEQELAWKKQGTHEYQVLVTRCKQTLHQVEPLREIEPGRKRLVFDENLRPKQ" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6722-MONOMER" "MQRKTLLSACIALALSGQGWAADITEVETTTGEKKNTNVTCPADPGKLSPEELKRLPSECSPLVEQNLMPWLSTGAAALITALAVVELNDDDDHHHRNNSPLPPTPPDDESDDTPVPPTPGGDEIIPDDPDDTPTPPKPVSFNNDVILDKTEKTLTIRDSVFTYTENADGTISLQDSNGRKATINLWQIDEANNTVALEGVSADGATKWQYNHNGELVITGDNATVNNNGKTTVDGKDSTGTEINGNNGKVIQDGDLDVSGGGHGIDITGDSATVDNKGTMTVTDPESMGIQIDGDKAIVNNEGESTITNGGTGTQINGDDATANNNGKTTVDGKDSTGTEINGNNGKVIQDGDLDVSGGGHGIDITGDSATVDNKGTMTVTDPESIGIQVDGDQAVVNNEGESAITNGGTGTQINGDDATANNNGKTTVDGKDSTGTEIAGNNGKVIQDGDLDVSGGGHGIDITGDSATVDNKGTMTVTDPESIGIQIDGDQAIVNNEGESTITNGGTGTQINGNDATANNSGKTTVDGKDSTGTKIAGNIGIVNLDGSLTVTGGAHGVENIGDNGTVNNKGDIVVSDTGSIGVLINGEGATVSNTGDVNVSNEATGFSITTNSGKVSLAGSMQVGDFSTGVDLNGNNNSVTLAAKDLKVVGQKATGINVSGDANTVNITGNVLVDKDKTADNAAEYFFDPSVGINVYGSDNNVTLDGKLTVVSDSEVTSRQSNLFDGSAEKTSGLVVIGDGNTVNMNGGLELIGEKNALADGSQVTSLRTGYSYTSVIVVSGESSVYLNGDTTISGEFPLGFAGVIRVQDKALLEIGSGATLTMQDIDSFEHHGTRTLDLPLYFQTSVIT" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6725-MONOMER" "MRRTFTAEEKASVFELWKNGTGFSEIANILGSKPGTIFTMLRDTGGIKPHERKRAVAHLTLSEREEIRAGLSAKMSIRAIATALNRSPSTISREVQRNRGRRYYKAVDANNRANRMAKRPKPCLLDQNLPLRKLVLEKLEMKWSPEQISGWLRRTKPRQKTLRISPETIYKTLYFRSREALHHLNIQHLRRSHSLRHGRRHTRKGERGTINIVNGTPIHERSRNIDNRRSLGHWEGDLVSGTKNSHIATLVDRKSRYTIILRLRGKDSVSVNQALTDKFLSLPSELRKSLTWDRGMELARHLEFTVSTGVKVYFCDPQSPWQRGTNENTNGLIRQYFPKKTCLAQYTQHELDLVAAQLNNRPRKTLKFKTPKEIIERGVALTD" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6727-MONOMER" "MTLYQIKPLFQSLLRPTMFWLYKHHVTANHITLAALALSLLTGLLLMLAAQPILFLLLPIVLFIRMALNALDGMLARECNQQTRLGAILNETGDVISDIALYLPFLFLPESNASLVILMLFCTILTEFCGLLAQTINGVRSYAGPFGKSDRALIFGLWGLAVAIYPQWMQWNNLLWSIASILLLWTAINRCRSVLLMSAEI" "i" "Han et al., 2011" -"G6728-MONOMER" "MLEKSLATLFALLILATLINRFLLWRLPERKGGEVTLRIRTWWGIVICFSMVISGPRWMTLTFFALISFLALKEYCTLISVHFPRWLYWGIPLNYLLIGFNCFELFLLFIPLAGFLILATGQVLVGDPSGFLHTVSAIFWGWIMTVFALSHAAWLLMLPTTNIQGGALLVLFLLALTESNDIAQYLWGKSCGRRKVVPKVSPGKTLEGLMGGVITIMIASLIIGPLLTPLNTLQALLAGLLIGISGFCGDVVMSAIKRDIGVKDSGKLLPGHGGLLDRIDSLIFTAPVFFYFIRYCCY" "i" "Han et al., 2011" -"G6729-MONOMER" "MENSRIPGEHFFTTSDNTALFYRHWPALQPGAKKVIVLFHRGHEHSGRLQHLVDELAMPDTAFYAWDARGHGKSSGPRGYSPSLARSVRDVDEFVRFAASDSQVGLEEVVVIAQSVGAVLVATWIHDYAPAIRGLVLASPAFKVKLYVPLARPALALWHRLRGLFFINSYVKGRYLTHDRQRGASFNNDPLITRAIAVNILLDLYKTSERIIRDAAAITLPTQLLISGDDYVVHRQPQIDFYQRLRSPLKELHLLPGFYHDTLGEENRALAFEKMQSFISRLYANKSQKFDYQHEDCTGPSADRWRLLSGGPVPLSPVDLAYRFMRKAMKLFGTHSSGLHLGMSTGFDSGSSLDYVYQNQPQGSNAFGRLVDKIYLNSVGWRGIRQRKTHLQILIKQAVADLHAKGLAVRVVDIAAGHGRYVLDALANEPAVSDILLRDYSELNVAQGQEMIAQRGMSGRVRFEQGDAFNPEELSALTPRPTLAIVSGLYELFPENEQVKNSLAGLANAIEPGGILIYTGQPWHPQLEMIAGVLTSHKDGKPWVMRVRSQGEMDSLVRDAGFDKCTQRIDEWGIFTVSMAVRRDN" "c" "Han et al., 2011" -"G6730-MONOMER" "LLQGAGWLLLLAPFFFFTYGSLNQFTAVQDLNSHDIPSQVFGWETAIPFLPWTIVPYWSLDLLYGFSLFVCSTTFEQRRLVHRLILATVMACCGFLLYPLKFSFIRPEVSGVTGWLFSQLELFDLPYNQSPSLHIILCWLLWRHFRQHLAERWRKVCGGWFLLIAISTLTTWQHHFIDVITGLAVGMLIDWMVPVDRRWNYQKPDQRRIKIALPYVVGAGSCIVLMELMMMIQLWWSVWLCWPVLSLLIIGRGYGGLGAITTGKDSQGKLPPAVYWLTLPCRIGMWLSMRWFCRRLEPVSKMTAGVYLGAFPRHIPAQNAVLDVTFEFPRGRATKDRLYFCVPMLDLVVPEEGELRQAVAMLETLREEQGSVLVHCALGLSRSALVVAAWLLCYGHCKTVNEAISYIRARRPQIVLTDEHKAMLRLWENR" "i" "Han et al., 2011" -"G6731-MONOMER" "MSKVLVLKSSILAGYSQSNQLSDYFVEQWREKHSADEITVRDLAANPIPVLDGELVGALRPSDAPLTPRQQEALALSDELIAELKAHDVIVIAAPMYNFNISTQLKNYFDLVARAGVTFRYTENGPEGLVTGKKAIVITSRGGIHKDGPTDLVTPYLSTFLGFIGITDVKFVFAEGIAYGPEMAAKAQSDAKAAIDSIVSA" "c" "Han et al., 2011" -"G6732-MONOMER" "MLRDRLRFSRRLHGVKKVKNPDAQQAIFQEMAKEIDQAAGKVLLREAARPEITYPDNLPVSQKKQDILEAIRDHQVVIVAGETGSGKTTQLPKICMELGRGIKGLIGHTQPRRLAARTVANRIAEELKTEPGGCIGYKVRFSDHVSDNTMVKLMTDGILLAEIQQDRLLMQYDTIIIDEAHERSLNIDFLLGYLKELLPRRPDLKIIITSATIDPERFSRHFNNAPIIEVSGRTYPVEVRYRPIVEEADDTERDQLQAIFDAVDELSQESHGDILIFMSGEREIRDTADALNKLNLRHTEILPLYARLSNSEQNRVFQSHSGRRIVLATNVAETSLTVPGIKYVIDPGTARISRYSYRTKVQRLPIEPISQASANQRKGRCGRVSEGICIRLYSEDDFLSRPEFTDPEILRTNLASVILQMTALGLGDIAAFPFVEAPDKRNIQDGVRLLEELGAITTDEQASAYKLTPLGRQLSQLPVDPRLARMVLEAQKHGCVREAMIITSALSIQDPRERPMDKQQASDEKHRRFHDKESDFLAFVNLWNYLGEQQKALSSNAFRRLCRTDYLNYLRVREWQDIYTQLRQVVKELGIPVNSEPAEYREIHIALLTGLLSHIGMKDADKQEYTGARNARFSIFPGSGLFKKPPKWVMVAELVETSRLWGRIAARIDPEWVEPVAQHLIKRTYSEPHWERAQGAVMATEKVTVYGLPIVAARKVNYSQIDPALCRELFIRHALVEGDWQTRHAFFRENLKLRAEVEELEHKSRRRDILVDDETLFEFYDQRISHDVISARHFDSWWKKVSRETPDLLNFEKSMLIKEGAEKISKLDYPNFWHQGNLKLRLSYQFEPGADADGVTVHIPLPLLNQVEESGFEWQIPGLRRELVIALIKSLPKPVRRNFVPAPNYAEAFLGRVKPLELPLLDSLERELRRMTGVTVDREDWHWDQVPDHLKITFRVVDDKNKKLKEGRSLQDLKDALKGKVQETLSAVADDGIEQSGLHIWSFGQLPESYEQKRGNYKVKAWPALVDERDSVAIKLFDNPLEQKQAMWNGLRRLLLLNIPSPIKYLHEKLPNKAKLGLYFNPYGKVLELIDDCISCGVDKLIDANGGPVWTEEGFAALHEKVRAELNDTVVDIAKQVEQILTAVFNINKRLKGRVDMTMALGLSDIKAQMGGLVYRGFVTGNGFKRLGDTLRYLQAIEKRLEKLAVDPHRDRAQMLKVENVQQAWQQWINKLPPARREDEDVKEIRWMIEELRVSYFAQQLGTPYPISDKRILQAMEQISG" "c" "Han et al., 2011" -"G6736-MONOMER" "MNLAIQILASYPPSGKEKGYEAQPSGGVSAHYLHYDSDIHTPDPTNALRTAVPGR" "c" "Han et al., 2011" -"G6737-MONOMER" "MEKNSLFSQRIRLRHLHTFVAVAQQGTLGRAAETLNLSQPALSKTLNELEQLTGARLFERGRQGAQLTLPGEQFLTHAVRVLDAINTAGRSLHRKEGLNNDVVRVGALPTAALGILPSVIGQFHQQQKETTLQVATMSNPMILAGLKTGEIDIGIGRMSDPELMTGLNYELLFLESLKLVVRPNHPLLQENVTLSRVLEWPVVVSPEGTAPRQHSDALVQSQGCKIPSGCIETLSASLSRQLTVEYDYVWFVPSGAVKDDLRHATLVALPVPGHGAGEPIGILTRVDATFSSGCQLMINAIRKSMPF" "c" "Han et al., 2011" -"G6738-MONOMER" "MANSITADEIREQFSQAMSAMYQQEVPQYGTLLELVADVNLAVLENNPQLHEKMVNADELARLNVERHGAIRVGTAQELATLRRMFAIMGMYPVSYYDLSQAGVPVHSTAFRPIDDASLARNPFRVFTSLLRLELIENEILRQKAAEILRQRDIFTPRCRQLLEEYEQQGGFNETQAQEFVQEALETFRWHQSATVDEETYRALHNEHRLIADVVCFPGCHINHLTPRTLDIDRVQSMMPECGIEPKILIEGPPRREVPILLRQTSFKALEETVLFAGQKQGTHTARFGEIEQRGVALTPKGRQLYDDLLRNAGTGQDNLTHQMHLQETFRTFPDSEFLMRQQGLAWFRYRLTPSGEAHRQAIHPGDDPQPLIERGWVVAQPITYEDFLPVSAAGIFQSNLGNETQTRSHGNASREAFEQALGCPVLDEFQLYQEAEERSKRRCGLL" "c" "Han et al., 2011" -"G6741-MONOMER" "MRKYRLSEEQRAFSYQEDGTKKNVLLRQIIAISDFNDVIAGTAGGWIDRETVLAQEGNCWIYDQNAIAFGGAVISGNTRITGTSVLWGEVYATDNVWIDNSEISQGAYISDSVTIHDSLVYGQCRIFGHALIDQHSMIVAAQGLTPDHQLLLQIYDRARVSASRIVHQAQIYGDAVVRYAFIEHRAEVFDFASIEGNEENNVWLCDCAKVYGHAQVKAGIEEDAIPTIHYSSQVAEYAIVEGNCVLKHHVLVGGNAVVRGGPILLDEHVVIQGESRITGAVIIENHVELTDHAVVEAFDGDTVHVRGPKVINGEERITRTPLAGLL" "c" "Han et al., 2011" -"G6742-MONOMER" "MRTTSFAKVAALCGLLALSGCASKITQPDKYSGFLNNYSDLKETTSATGKPVLRWVDPSFDQSKYDSIVWNPITYYPVPKPSTQVGQKVLDKILNYTNTEMKEAIAQRKPLVTTAGPRSLIFRGAITGVDTSKEGLQFYEVVPVALVVAGTQMATGHRTMDTRLYFEGELIDAATNKPVIKVVRQGEGKDLNNESTPMAFENIKQVIDDMATDATMFDVNKK" "p" "Han et al., 2011" -"G6743-MONOMER" "VKRLQAFKFQLRPGGQQECEMRRFAGACRFVFNRALARQNENHEAGNKYIPYGKMASWLVEWKNATETQWLKDSPSQPLQQSLKDLERAYKNFFRKRAAFPRFKKRGQNDAFRYPQGVKLDQENSRIFLPKLGWMRYRNSRQVTGVVKNVTVSQSCGKWYISIQTESEVSTPVHPSASMVGLDAGVAKLATLSDGTVFEPVNSFQKNQKKLARLQRQLSRKVKFSNNWQKQKRKIQRLHSCIANIRRDYLHKVTTAVSKNHAMIVIEDLKVSNMSKSAAGTVSQPGRNVRAKSGLNRSILDQGWYEMRRQLAYKQLWRGGQVLAVPPAYTSQRCAYCGHTAKENRLSQSKFRCQVCGYTANADVNGARNILAAGHAVLACGEMVQSGRPLKQEPTEMIQATA" "c" "Han et al., 2011" -"G6745-MONOMER" "MENLARFLSTTLKQLRQQRGWSLSRLAEATGVSKAMLGQIERNESSPTVATLWKIATGLNVPFSTFISPPQSATPSVYDPQQQAMVITSLFPYDPQLCFEHFSIQMASGAISESTPHEKGVIEHVVVIDGQLDLCVDGEWQTLNCGEGVRFAADVTHIYRNGGEQTVHFHSLIHYPRS" "c" "Han et al., 2011" -"G6746-MONOMER" "VTVSSHRLELLSPARDAAIAREAILHGADAVYIGGPGFGARHNASNSLKDIAELVPFAHRYGAKIFVTLNTILHDDELEPAQRLITDLYQTGVDALIVQDMGILELDIPPIELHASTQCDIRTVEKAKFLSDVGFTQIVLARELNLDQIRAIHQATDATIEFFIHGALCVAYSGQCYISHAQTGRSANRGDCSQACRLPYTLKDDQGRVVSYEKHLLSMKDNDQTANLGALIDAGVRSFKIEGRYKDMSYVKNITAHYRQMLDAIIEERGDLARASSGRTEHFFVPSTEKTFHRGSTDYFVNARKGDIGAFDSPKFIGLPVGEVVKVAKDHLDVAVTEPLANGDGLNVLIKREVVGFRANTVEKTGENQYRVWPNEMPADLHKIRPHHPLNRNLDHNWQQALTKTSSERRVAVDIELGGWQEQLILTLTSEEGVSITHTLDGQFDEANNAEKAMNNLKDGLAKLGQTLYYARDVQINLPGALFVPNSLLNQFRREAADMLDAARLASYQRGSRKPVADPAPVYPQTHLSFLANVYNQKAREFYHRYGVQLIDAAYEAHEEKGEVPVMITKHCLRFAFNLCPKQAKGNIKSWKATPMQLVNGDEVLTLKFDCRPCEMHVIGKIKNHILKMPLPGSVVASVSPDELLKTLPKRKG" "c" "Han et al., 2011" -"G6747-MONOMER" "MFTKALSVVLLTCALFSGQLMAGHKGHEFVWVKNVDHQLRHEADSDELRAVAEESAEGLREHFYWQKSRKPEAGQR" "p" "Han et al., 2011" -"G6749-MONOMER" "MRETVEIMRYPVTLTPAPEGGYMVSFVDIPEALTQGETVAEAMEAAKDALLTAFDFYFEDNELIPLPSPLNSHDHFIEVPLSVASKVLLLNAFLQSEITQQELARRIGKPKQEITRLFNLHHATKIDAVQLAAKALGKELSLVMV" "c" "Han et al., 2011" -"G6750-MONOMER" "MKKYQQLAEQLREQIASGIWQPGDRLPSLRDQVALSGMSFMTVSHAYQLLESQGYIIARPQSGYYVAPQAIKMPKAPVIPVTRDEAVDINTYIFDMLQASRDPSVVPFASAFPDPRLFPLQQLNRSLAQVSKTATAMSVIENLPPGNAELRQAIARRYALQGITISPDEIVITAGALEALNLSLQAVTEPGDWVIVENPCFYGALQALERLRLKALSVATDVKEGIDLQALELALQEYPVKACWLMTNSQNPLGFTLTPQKKAQLVALLNQYNVTLIEDDVYSELYFGREKPLPAKAWDRHDGVLHCSSFSKCLVPGFRIGWVAAGKHARKIQRLQLMSTLSTSSPMQLALVDYLSTRRYDAHLRRLRRQLAERKQRAWQALLRYLPAEVKIHHNDSGYFLWLELPEPLDAGELSLAALTHHISIAPGKMFSTGENWSRFFRFNTAWQWGEREEQAVKQLGKLIQERL" "c" "Han et al., 2011" -"G6755-MONOMER" "MQHKLLINGELVSGEGEKQPVYNPATGDVLLEIAEASAEQVDAAVRAADAAFAEWGQTTPKVRAECLLKLADVIEENGQVFAELESRNCGKPLHSAFNDEIPAIVDVFRFFAGAARCLNGLAAGEYLEGHTSMIRRDPLGVVASIAPWNYPLMMAAWKLAPALAAGNCVVLKPSEITPLTALKLAELAKDIFPAGVINILFGRGKTVGDPLTGHPKVRMVSLTGSIATGEHIISHTASSIKRTHMELGGKAPVIVFDDADIEAVVEGVRTFGYYNAGQDCTAACRIYAQKGIYDTLVEKLGAAVATLKSGAPDDESTELGPLSSLAHLERVGKAVEEAKATGHIKVITGGEKRKGNGYYYAPTLLAGALQDDAIVQKEVFGPVVSVTPFDNEEQVVNWANDSQYGLASSVWTKDVGRAHRVSARLQYGCTWVNTHFMLVSEMPHGGQKLSGYGKDMSLYGLEDYTVVRHVMVKH" "c" "Han et al., 2011" -"G6756-MONOMER" "MSLYQHMLVFYAVMAAIAFLITWFLSHDKKRIRFLSAFLVGATWPMSFPVALLFSLF" "i" "Han et al., 2011" -"G6757-MONOMER" "MSHLDEVIARVDAAIEESVIAHMNELLIALSDDAELSREDRYTQQQRLRTAIAHHGRKHKEDMEARHEQLTKGGTIL" "c" "Han et al., 2011" -"G6758-MONOMER" "MNQSLTLAFLIAAGIGLVVQNTLMVRITQTSSTILIAMLLNSLVGIVLFVSILWFKQGMAGFGELVSSVRWWTLIPGLLGSFFVFASISGYQNVGAATTIAVLVASQLIGGLMLDIFRSHGVPLRALFGPICGAILLVVGAWLVARRSF" "i" "Han et al., 2011" -"G6759-MONOMER" "MSIRFARKADCAAIAEIYNHAVLYTAAIWNDQTVDADNRIAWFEARTLAGYPVLVSEENGVVTGYASFGDWRSFDGFRHTVEHSVYVHPDHQGKGLGRKLLSRLIDEARDCGKHVMVAGIESQNQASLHLHQSLGFVVTAQMPQVGTKFGRWLDLTFMQLQLDERTEPDAIG" "c" "Han et al., 2011" -"G6760-MONOMER" "MGQQKQRNRRWVLASRPHGAPVPENFRLEEDDVATPGEGQVLLRTVYLSLDPYMRGRMSDEPSYSPPVDIGGVMVGGTVSRVVESNHPDYQSGDWVLGYSGWQDYDISSGDDLVKLGDHPQNPSWSLGVLGMPGFTAYMGLLDIGQPKEGETLVVAAATGPVGATVGQIGKLKGCRVVGVAGGAEKCRHATEVLGFDVCLDHHADDFAEQLAKACPKGIDIYYENVGGKVFDAVLPLLNTSARIPVCGLVSSYNATELPPGPDRLPLLMATVLKKRIRLQGFIIAQDYGHRIHEFQREMGQWVKEDKIHYREEITDGLENAPQTFIGLLKGKNFGKVVIRVAGDD" "c" "Han et al., 2011" -"G6761-MONOMER" "MPGTGKMKHVSLTLQVENDLKHQLSIGALKPGARLITKNLAEQLGMSITPVREALLRLVSVNALSVAPAQAFTVPEVGKRQLDEINRIRYELELMAVALAVENLTPQDLAELQELLEKLQQAQEKGDMEQIINVNRLFRLAIYHRSNMPILCEMIEQLWVRMGPGLHYLYEAINPAELREHIENYHLLLAALKAKDKEGCRHCLAEIMQQNIAILYQQYNR" "c" "Han et al., 2011" -"G6762-MONOMER" "MKIFSVRQTVLPALLVLSPVVFAADEQTMIVSAAPQVVSELDTPAAVSVVDGEEMRLATPRINLSESLTGVPGLQVQNRQNYAQDLQLSIRGFGSRSTYGIRGIRLYVDGIPATMPDGQGQTSNIDLSSVQNVEVLRGPFSALYGNASGGVMNVTTQTGQQPPTIEASSYYGSFGSWRYGLKATGATGDGTQPGDVDYTVSTTRFTTHGYRDHSGAQKNLANAKLGVRIDEASKLSLIFNSVDIKADDPGGLTKAEWKANPQQAPRAEQYDTRKTIKQTQAGLRYERSLSSRDDMSVMMYAGERETTQYQSIPMAPQLNPSHAGGVITLQRHYQGIDSRWTHRGELGVPVTFTTGLNYENMSENRKGYNNFRLNSGMPEYGQKGELRRDERNLMWNIDPYLQTQWQLSEKLSLDAGVRYSSVWFDSNDHYVTPGNGDDSGDASYHKWLPAGSLKYAMTDAWNIYLAAGRGFETPTINELSYRADGQSGMNLGLKPSTNDTIEIGSKTRIGDGLLSLALFQTDTDDEIVVDSSSGGRTTYKNAGKTRRQGAELAWDQRFAGDFRVNASWTWLDATYRSNVCNEQDCNGNRMPGIARNMGFASIGYVPEDGWYAGTEARYMGDIMADDENTAKAPSYTLVGLFTGYKYNYHNLTVDLFGRVDNLFDKEYVGSVIVNESNGRYYEPSPGRNYGVGMNIAWRFE" "o" "Han et al., 2011" -"G6763-MONOMER" "MHLRHLFSSRLRGSLLLGSLLVVSSFSTQAAEEMLRKAVGKGAYEMAYSQQENALWLATSQSRKLDKGGVVYRLDPVTLEVTQAIHNDLKPFGATINNTTQTLWFGNTVNSAVTAIDAKTGEVKGRLVLDDRKRTEEVRPLQPRELVADDATNTVYISGIGKESVIWVVDGGNIKLKTAIQNTGKMSTGLALDSEGKRLYTTNADGELITIDTADNKILSRKKLLDDGKEHFFINISLDTARQRAFITDSKAAEVLVVDTRNGNILAKVAAPESLAVLFNPARNEAYVTHRQAGKVSVIDAKSYKVVKTFDTPTHPNSLALSADGKTLYVSVKQKSTKQQEATQPDDVIRIAL" "p" "Lopez-Campistrous et al., 2005" -"G6765-MONOMER" "MIKVYGVPGWGSTISELMLTLADIPYQFVDVSGFDHEGASRELLKTLNPLCQVPTLALENDEIMTETAAIALMVLDRRPDLAPPVGRAERQLFQRLLVWLVANVYPTFTFADYPERWAPDAPEQLKKNVIEYRKSLYIWLNSQLTAEPYAFGEQLTLVDCYLCTMRTWGPGHEWFQDNATNISAIADAVCQLPKLQEVLKRNEII" "c" "Han et al., 2011" -"G6766-MONOMER" "MVCFLIYITLLFIQRVYFISSEKKLTIHIVQMFQLLSQAFYNLKMFLMMDMLGVGDAININTNKNIRQVC" "c" "Han et al., 2011" -"G6767-MONOMER" "VSIQSLLDYISVTPDIRQQGKVKHKLSAILFLTVCAVIAGADEWQEIEDFGHERLEWLKKYGDFDNGIPVDDTIARVVSNIDSLAFEKMFIEWMQECHEITDGEIIAIDGKTIRGSFDKGKRKGAIHMVSAFSNENGVVLGQVKTEAKSNEITAIPELLNLLYLKKNLITIDAMGCQKDIASKIKDKKADYLLAVKGNQGKLHHAFEEKFPVNVFSNYKGDSFSTQEISHGRKETRLHIVSNVTPELL" "c" "Han et al., 2011" -"G6768-MONOMER" "LSFRQKKEDKSAEGVSIRYYISSKDMDAKEFAHAIRAHWLIEHSLHWVLDVKMNEDASRIRRGNAA" "c" "Han et al., 2011" -"G6769-MONOMER" "MSRFIPIELHHASRLLNHGPTVLITSFDEQSQRRNIMAAAWSMPVEFEPPRVAIVVDKSTWTRELIEHNGKFGIVIPGVAATNWTWAVGSVSGRDEDKFNCYGIPVVRGPVFGLPLVEEKCLAWMECRLLPATSAQEEYDTLFGEVVSAAADARVFVEGRWQFDDDKLNTLHHLGAGTFVTSGKRVTAG" "c" "Han et al., 2011" -"G6770-MONOMER" "MTPILNHYFARINWSGAAAVNIDTLRALHLKHNCTIPFENLDVLLPREIQLDNQSPEEKLVIARRGGYCFEQNGVFERVLRELGFNVRSLLGRVVLSNPPALPPRTHRLLLVELEEEKWIADVGFGGQTLTAPIRLVSDLVQTTPHGEYRLLQEGDDWVLQFNHHQHWQSMYRFDLCEQQQSDYVMGNFWSAHWPQSHFRHHLLMCRHLPDGGKLTLTNFHFTHYENGHAVEQRNLPDVASLYAVMQEQFGLGVDDAKHGFTVDELALVMAAFDTHPEAGK" "c" "Han et al., 2011" -"G6771-MONOMER" "MQLMLFNLFSPALKLNTGLAILSPGAFEVHSDGIDVDNELFHYPIKKAYTPYNIHTYKTEEVVNQMNIKVKNMTLDEINNTYCNNDYYNQAIREEPIDLLDRSFSSSSWPF" "c" "Han et al., 2011" -"G6772-MONOMER" "MITDLILHNHPRMKTITLNDNHIAHLNAKNTTKLEYLNLSNNNLLPTNDIDQLISSKHLWHVLVNGINNDPLAQMQYWTAVRNIIDDTNEVTIDLSGLNLTTQPPGLQNFTSINLDNNQFTHFDATNYDRLVKLSLNSNALESINFPQGRNVSITHISMNNNALRNIDIDRLSSVTYFSAAHNQLEFVQLESCEWLQYLNLSHNQLTDIVAGNKNELLLLDLSHNKLTSLHNDLFPNLNTLLINNNLLSEIKIFYSNFCNVQTLNAANNQLKYINLDFLTYLPSIKSLRLDNNKITHIDTNNTSDIGTLFPIIKQSKT" "c" "Han et al., 2011" -"G6773-MONOMER" "MKLKIVAVVVTGLLAANVAHAAEVYNKDGNKLDLYGKVTALRYFTDDKRDDGDKTYARLGFKGETQINDQMIGFGHWEYDFKGYNDEANGSRGKNL" "o" "Han et al., 2011" -"G6774-MONOMER" "MDYCCVGRNNNDSVPSEGTLLRVKTLMKMANHPRPGDIIQESLDELNVSLREFARAMEIAPSTASRLLTGKAALTPEMAIKLSVVIGSSPQMWLNLQNAWSLAEAEKTVDVSRLRRLVTQ" "c" "Han et al., 2011" -"G6776-MONOMER" "MFTYYQAENSTAEPALVNAIEQGLRAQHGVVTEDDILMELTKWVEASDNDILSDIYQQTINYVVSGQHPTL" "c" "Han et al., 2011" -"G6782-MONOMER" "MSDTTELVDLAVIFPDLEIELKYACADNITGKAIYQQARCLLHKDAITALAKSISIAQLSGLQLVIYDAYRPQQAQAMLWQACPDPQYVVDVTVGSNHSRGTAIDLTLRDEHGNILDMGAGFDEMHERSHAYHPSVPPAAQRNRLLLNAIMTGGGFVGISSEWWHFELPQAASYPLLADQFSCFISPGTQHVS" "e" "Han et al., 2011" -"G6783-MONOMER" "MKLTDADNAADGIFFPALEQNMMGAVLINENDEVMFFNPAAEKLWGYKREEVIGNNIDMLIPRDLRPAHPEYIRHNREGGKARVEGMSRELQLEKKDGSKIWTRFALSKVSAEGKVYYLALVRDASVEMAQKEQTRQLIIAVDHLDRPVIVLDPERHIVQCNRAFTEMFGYCISEASGMQPDTLLNIPEFPADNRIRLQQLLWKTARDQDEFLLLTRTGEKIWIKASISPVYDVLAHLQNLVMTFSDITEERQIRQLEGNILAAMCSSPPFHEMGEIICRNIESVLNESHVSLFALRNGMPIHWASSSHGAEIQNAQSWSATIRQRDGAPAGILQIKTSSGAETSAFIERVADISQHMAALALEQEKSRQHIEQLIQFDPMTGLPNRNNLHNYLDDLVDKAVSPVVYLIGVDHIQDVIDSLGYAWADQALLEVVNRFREKLKPDQYLCRIEGTQFVLVSLENDVSNITQIADELRNVVSKPIMIDDKPFPLTLSIGISYDLGKNRDYLLSTAHNAMDYIRKNGGNGWQFFSPAMNEMVKERLVLGAALKEAISNNQLKLVYQPQIFAETGELYGIEALARWHDPLHGHVPPSRFIPLAEEIGEIENIGRWVIAEACRQLAEWRSQNIHIPALSVNLSALHFRSNQLPNQVSDAMHAWGIDGHQLTVEITESMMMEHDTEIFKRIQILRDMGVGLSVDDFGTGFSGLSRLVSLPVTEIKIDKSFVDRCLTEKRILALLEAITSIGQSLNLTVVAEGVETKEQFEMLRKIHCRVIQGYFFSRPLPAEEIPGWMSSVLPLKI" "i" "Han et al., 2011" -"G6784-MONOMER" "MEMYFKRMKDEWTGLVEQADPPIRAKAAEIAVAHAHYLSIEFYRIVRIDPHAEEFLSNEQVERQLKSAMERWIINVLSAQVDDVERLIQIQHTVAEVHARIGIPVEIVEMGFRVLKKILYPVIFSSDYSAAEKLQVYHFSINSIDIAMEVMTRAFTFSDSSASKEDENYRIFSLLENAEEEKERQIASILSWEIDIIYKILLDSDLGSSLPLSQADFGLWFNHKGRHYFSGIAEVGHISRLIQDFDGIFNQTMRNTRNLNNRSLRVKFLLQIRNTVSQIITLLRELFEEVSRHEVGMDVLTKLLNRRFLPTIFKREIAHANRTGTPLSVLIIDVDKFKEINDTWGHNTGDEILRKVSQAFYDNVRSSDYVFRYGGDEFIIVLTEASENETLRTAERIRSRVEKTKLKAANGEDIALSLSIGAAMFNGHPDYERLIQIADEALYIAKRRGRNRVELWKASL" "c" "Han et al., 2011" -"G6785-MONOMER" "MDICSRNKKLTIRRPAILVALALLLCSCKSTPPESMVTPPAGSKPPATTQQSSQPMRGIWLATVSRLDWPPVSSVNISNPTSRARVQQQAMIDKLDHLQRLGINTVFFQVKPDGTALWPSKILPWSDLMTGKIGENPGYDPLQFMLDEAHKRGMKVHAWFNPYRVSVNTKPGTIRELNSTLSQQPASVYVQHRDWIRTSGDRFVLDPGIPEVQDWITSIVAEVVSRYPVDGVQFDDYFYTESPGSRLNDNETYRKYGGAFASKADWRRNNTQQLIAKVSHTIKSIKPGVEFGVSPAGVWRNRSHDPLGSDTRGAAAYDESYADTRRWVEQGLLDYIAPQIYWPFSRSAARYDVLAKWWADVVKPTRTRLYIGIAFYKVGEPSKIEPDWMINGGVPELKKQLDLNDAVPEISGTILFREDYLNKPQTQQAVSYLQSRWGS" "c" "Han et al., 2011" -"G6787-MONOMER" "MHVTAKPSSFQCNLKCDYCFYLEKESQFTHEKWMDDSTLKEFIKQYIAASGNQVYFTWQGGEPTLAGLDFFRKVIHYQQRYAGQKRIFNALQTNGILLNNEWCAFLKEHEFLVGISIDGPQELHDRYRRSNSGNGTFAKVIAAIERLKSYQVEFNTLTVINNVNVHYPLEVYHFLKSIGSKHMQFIELLETGTPNIDFSGHSENTFRIIDFSVPPTAYGKFMSTIFMQWVKNDVGEIFIRQFESFVSRFLGNGHTSCIFQESCKDNLVVESNGDIYECDHFVYPQYKIGNINKSELKTMNSVQLTAQKKRIPAKCQQCAYKPICNGGCPKHRITKVNNETVSYFCEGYKILFSTMVPYMNAMVELAKNRVPLYHIMDVAKQMENN" "c" "Han et al., 2011" -"G6788-MONOMER" "MKSALKKSVVSTSISLILASGMAAFAAHAADDVKLKATKTNVAFSDFTPTEYSTKGKPNIIVLTMDDLGYGQLPFDKGSFDPKTMENREVVDTYKIGIDKAIEAAQKSTPTLLSLMDEGVRFTNGYVAHGVSGPSRAAIMTGRAPARFGVYSNTDAQDGIPLTETFLPELFQNHGYYTAAVGKWHLSKISNVPVPEDKQTRDYHDNFTTFSAEEWQPQNRGFDYFMGFHAAGTAYYNSPSLFKNRERVPAKGYISDQLTDEAIGVVDRAKTLDQPFMLYLAYNAPHLPNDNPAPDQYQKQFNTGSQTADNYYASVYSVDQGVKRILEQLKKNGQYDNTIILFTSDNGAVIDGPLPLNGAQKGYKSQTYPGGTHTPMFMWWKGKLQPGNYDKLISAMDFYPTALDAADISIPKDLKLDGVSLLPWLQDKKQGEPHKNLTWITSYSHWFDEENIPFWDNYHKFVRHQSDDYPHNPNTEDLSQFSYTVRNNDYSLVYTVENNQLGLYKLTDLQQKDNLAAANPQVVKEMQGVVREFIDSSQPPLSEVNQEKFNNIKKALSEAK" "c" "Han et al., 2011" -"G6789-MONOMER" "MSLVCSVIFIHHAFNANILDKDYAFSDGEILMVDNAVRTHFEPYERHFKEIGFTENTIKKYLQCTNIQTVTVPVPAKFLRASNVPTGLLNEMIAYLNSEERNHHNFSELLLFSCLSIFAACKGFITLLTNGVLSVSGKVRNIVNMKPAHPWKLKDICDCLYISESLLKKKLKQEQTTFSQILLDARMQHAKNLIRVEGSVNKIAEQCGYASTSYFIYAFRKHFGNSPKRVSKEYRCQSHTGMNTGNTMNALAI" "c" "Han et al., 2011" -"G6791-MONOMER" "MKKKIESYQGAAGGWGAVKSVANAVRKQMDIRQDVIAMFDMNKPEGFDCPGCAWPDPKHSASFDICENGAKAIAWEVTDKQVNASFFAENTVQSLLTWGDHELEAAGRLTQPLKYDAVSDCYKPLSWQQAFDEIGARLQSYSDPNQVEFYTSGRTSNEAAFLYQLFAREYGSNNFPDCSNMCHEPTSVGLAASIGVGKGTVLLEDFEKCDLVICIGHNPGTNHPRMLTSLRALVKRGAKMIAINPLQERGLERFTAPQNPFEMLTNSETQLASAYYNVRIGGDMALLKGMMRLLIERDDAASAAGRPSLLDDEFIQTHTVGFDELRRDVLNSEWKDIERISGLSQTQIAELADAYAAAERTIICYGMGITQHEHGTQNVQQLVNLLLMKGNIGKPGAGICPLRGHSNVQGDRTVGITEKPSAEFLARLGERYGFTPPHAPGHAAIASMQAICTGQARALICMGGNFALAMPDREASAVPLTQLDLAVHVATKLNRSHLLTARHSYILPVLGRSEIDMQKNGAQAVTVEDSMSMIHASRGVLKPAGVMLKSECAVVAGIAQAALPQSVVAWEYLVEDYDRIRNDIEAVLPEFADYNQRIRHPGGFHLINAAAERRWMTPSGKANFITSKGLLEDPSSAFNSKLVMATVRSHDQYNTTIYGMDDRYRGVFGQRDVVFMSAKQAKICRVKNGERVNLIALTPDGKRSSRRMDRLKVVIYPMADRSLVTYFPESNHMLTLDNHDPLSGIPGYKSIPVELEPSN" "p" "Han et al., 2011" -"G6792-MONOMER" "MGKTISIKVLFGIYLLLMAGKVFAFSCNVDGGSSIGAGTTSVYVNLDPVIQPGQNLVVDLSQHISCWNDYGGWYDTDHINLVQGSAFAGSLQSYKGSLYWNNVTYPFPLTTNTNVLDIGDKTPMPLPLKLYITPVGAAGGVVIKAGEVIARIHMYKIATLGSGNPRNFTWNIISNNNVVMPTGGCTVDSRNVTVDLPDFPGSAEIPLGVYCSSEQKLSFYLSGATTDSSRQVFANTAPDATKASGVGVTLMRNGKILATGENVSLGTVNKSKVPLGLSATYGQTGNKVSAGTVQSVIGVTFIYE" "j" "Han et al., 2011" -"G6793-MONOMER" "MKRLHKRFLLATFCALFTATLQAADVTITVNGRVVAKPCTIQTKEANVNLGDLYTRNLQQPGSASGWHNITLSLTDCPVETSAVTAIVTGSTDNTGYYKNEGTAENIQIELRDDQDAALKNGDSKTVIVDEITRNAQFPLKARAITVNGNASQGTIEALINVIYTWQ" "j" "Han et al., 2011" -"G6794-MONOMER" "MKYNNIIFLGLCLGLTTYSALSADSVIKISGRVLDYGCTVSSDSLNFTVDLQKNSARQFPTTGSTSPAVPFQITLSECSKGTTGVRVAFNGIEDAENNTLLKLDEGSNTASGLGIEILDANMRPVKLNDLHAGMQWIPLVPEQNNILPYSARLKSTQKSVNPGLVRASATFTLEFQ" "e" "Han et al., 2011" -"G6795-MONOMER" "MSGYTVKPPTGDTNEQTQFIDYFNLFYSKRGQEQISISQQLGNYGTTFFSASRQSYWNTSRSDQQISFGLNVPFGDITTSLNYSYSNNIWQNDRDHLLAFTLNVPFSHWMRTDSQSAFRNSNASYSMSNDLKGGMTNLSGVYGTLLPDNNLNYSVQVGNTHGGNTSSGTSGYSSLNYRGAYGNTNVGYSRSGDSSQIYYGMSGGIIAHADGITFGQPLGDTMVLVKAPGADNVKIENQTGIHTDWRGYAILPFATEYRENRVALNANSLADNVELDETVVTVIPTHGAIARATFNAQIGGKVLMTLKYGNKSVPFGAIVTHGENKNGSIVAENGQVYLTGLPQSGQLQVSWGKDKNSNCIVEYKLPEVSPGTLLNQQTAICR" "o" "Han et al., 2011" -"G6796-MONOMER" "MSPLRYQKWLRLNEVRRQMLNEHYDVTTAAYAVGYESYPISVGNIRGCLESHPREILPG" "e" "Han et al., 2011" -"G6797-MONOMER" "MNSEGGKPGNVLTVNGNYTGNNGLMTFNATLGGDNSPTDKMNVKGDTQGNTRVRVDNIGGVGAQTVNGIELIEVGGNSAGNFALTTGTVEAGAYVYTLAKGKGNDEKNWYLTSKWDGVTPADTPDPINNPPVVDPEGPSVYRPEAGSYISNIAAANSLFSHRLHDRLGEPQYTDSLHSQGSASSMWMRHVGGHERSRAGDGQLNTQANRYVLQLGGDLAQWSSNAQDRWHLGVMAGYANQHSNTQSNRVGYKSDGRISGYSAGLYATWYQNDANKTGAYVDSWALYNWFDNSVSSDNRSADDYDSRGVTASVEGGYTFEAGTFSGSEGTLNTWYVQPQAQITWMGVKDSDHTRKDGTRIETEGDGNVQTRLGVKTYLNSHHQRDDGKQREFQPYIEANWINNSKVYAVKMNGQTVGREGARNLGEVRTGVEAKVNNNLSLWGNVGVQLGDKGYSDTQGMLGVKYSW" "m" "Unambiguous EcoCyc data" -"G6798-MONOMER" "MARLFTLSESKYYLMALDAGTGSIRAVIFDLEGNQIAVGQAEWRHLAVPDVPGSMEFDLNKNWQLACECMRQALHNAGIAPEYIAAVSACSMREGIVLYNNEGAPIWACANVDARAAREVSELKELHNNTFENEVYRATGQTLALSAIPRLLWLAHHRSDIYRQASTITMISDWLAYMLSGELAVDPSNAGTTGLLDLTTRDWKPALLDMAGLRADILSPVKETGTLLGVVSSQAAELCGLKAGTPVVVGGGDVQLGCLGLGVVRPAQTAVLGGTFWQQVVNLAAPVTDPEMNVRVNPHVIPGMVQAESISFFTGLTMRWFRDAFCAEEKLIAERLGIDTYTLLEEMASRVPPGSWGVMPIFSDRMRFKTWYHAAPSFINLSIDPDKCNKATLFRALEENAAIVSACNLQQIADFSNIHPSSLVFAGGGSKGKLWSQILADVSGLPVNIPVVKEATALGCAIAAGVGAGIFSSMAETGERLVRWERTHTPDPEKHELYQDSRDKWQAVYQDQLGLVDHGLTTSLWKAPGL" "c" "Unambiguous EcoCyc data" -"G6799-MONOMER" "MTINDSAISEQGMCEEEQVARIAWFYYHDGLTQSEISDRLGLTRLKVSRLLEKGHQSGIIRVQINSRFEGCLEYETQLRRQFSLQHVRVIPGLADADVGGRLGIGAAHMLMSLLQPQQMLAIGFGEATMNTLQRLSGFISSQQIRLVTLSGGVGSYMTGIGQLNAACSVNIIPAPLRASSADIARTLKNENCVKDVLLAAQAADVAIVGIGAVSQQDDATIIRSGYISQGEQLMIGRKGAVGDILGYFFDAKGDVVTNIKIHNELIGLPLSALKTIPVRVGVAGGENKAEAIAAAMKGGYINALVTDQDTAAAILRS" "c" "Unambiguous EcoCyc data" -"G6804-MONOMER" "MADLDDIKDGKDFRTDQPQKNIPFTLKGCGALDWGMQSRLSRIFNPKTGKTVMLAFDHGYFQGPTTGLERIDINIAPLFEHADVLMCTRGILRSVVPPATNRPVVLRASGANSILAELSNEAVALSMDDAVRLNSCAVAAQVYIGSEYEHQSIKNIIQLVDAGMKVGMPTMAVTGVGKDMVRDQRYFSLATRIAAEMGAQIIKTYYVEKGFERIVAGCPVPIVIAGGKKLPEREALEMCWQAIDQGASGVDMGRNIFQSDHPVAMMKAVQAVVHHNETADRAYELYLSEKQ" "c" "Han et al., 2011" -"G6805-MONOMER" "MHVTLVEINVHEDKVDEFIEVFRQNHLGSVQEEGNLRFDVLQDPEVNSRFYIYEAYKDEDAVAFHKTTPHYKTCVAKLESLMTGPRKKRLFNGLMP" "c" "Han et al., 2011" -"G6806-MONOMER" "MSDWNPSLYLHFSAERSRPAVELLARVPLENVEYVADLGCGPGNSTALLQQRWPAARITGIDSSPAMIAEARSALPDCQFVEADIRNWQPVQALDLIFANASLQWLPDHYELFPHLVSLLNPQGVLAVQMPDNWLEPTHVLMREVAWEQNYPDRGREPLAGVHAYYDILSEAGCEVDIWRTTYYHQMPSHQAIIDWVTATGLRPWLQDLTESEQQLFLKRYHQMLEEQYPLQENGQILLAFPRLFIVARRME" "c" "Han et al., 2011" -"G6807-MONOMER" "MIVRPQQHWLRRIFVWHGSVLSKISSRLLLNFLFSIAVIFMLPWYTHLGIKFTLAPFSILGVAIAIFLGFRNNAGYARYVEARKLWGQLMIASRSLLREVKTTLPDSASVREFARLQIAFAHCLRMTLRKQPQAEVLAHYLKTEDLQRVLASNSPANRILLIMGEWLAVQRRNGQLSDILFISLNDRLNDISAVLAGCERIAYTPIPFAYTLILHRTVYLFCIMLPFALVVDLHYMTPFISVLISYTFISLDCLAEELEDPFGTENNDLPLDAICNAIEIDLLQMNDEAEIPAKILPDRHYQLT" "i" "Han et al., 2011" -"G6808-MONOMER" "LLADWFSEQFSTGVLIVPCMLTLAIPGVLPRFKAEQMMPAIALIVSVIASVVIGGAGSLAFPLPALIWCAVRYTPQVTCLLTFVTGAVEIVLVANSVIDISVGSPFSIPQMFSARLGIATMAICPIMVSFSVAAINSLMKQVALRADFDFLTQVYSRSGLYEALKSPSLKQTQHLTVMLLDIDYFKSINDNYGHECGDKVLSVFARHIQKIVGDKGLVARMGGEEFAVAVPSVNPVDGLLMAEKIRKGVELQPFTWQQKTLYLTVSIGVGSGRASYLTLTDDFNKLMVEADTCLYRSKKDGRNRTSTMRYGEEVV" "i" "Han et al., 2011" -"G6809-MONOMER" "MQSLDPLFARLSRSKFRSRFRLGMKERQYCLEKGAPVIEQHAADFVAKRLAPALPANDGKQTPMRGHPVFIAQHATATCCRGCLAKWHNIPQGVSLSEEQQRYIVAVIYHWLVVQMNQP" "c" "Han et al., 2011" -"G6810-MONOMER" "VAVAMDNAILENILRQVRPLIGQGKVADYIPALATVDGSRLGIAICTVDGQLFQAGDAQERFSIQSISKVLSLVVAMRHYSEEEIWQRVGKDPSGSPFNSLVQLEMEQGIPRNPFINAGALVVCDMLQGRLSAPRQRMLEVVRGLSGVSDISYDTVVARSEFEHSARNAAIAWLMKSFGNFHHDVTTVLQNYFHYCALKMSCVELARTFVFLANQGKAIHIDEPVVTPMQARQINALMATSGMYQNAGEFAWRVGLPAKSGVGGGIVAIVPHEMAIAVWSPELDDAGNSLAGIAVLEQLTKQLGRSVY" "c" "EcoCyc dump" -"G6811-MONOMER" "MTITPATHAISINPATGEQLSVLPWAGADDIENALQLAAAGFRDWRETNIDYRAEKLRDIGKALRARSEEMAQMITREMGKPINQARAEVAKSANLCDWYAEHGPAMLKAEPTLVENQQAVIEYRPLGTILAIMPWNFPLWQVMRGAVPIILAGNGYLLKHAPNVMGCAQLIAQVFKDAGIPQGVYGWLNADNDGVSQMIKDSRIAAVTVTGSVRAGAAIGAQAGAALKKCVLELGGSDPFIVLNDADLELAVKAAVAGRYQNTGQVCAAAKRFIIEEGIASAFTERFVAAAAALKMGDPRDEENALGPMARFDLRDELHHQVEKTLAQGARLLLGGEKMAGAGNYYPPTVLANVTPEMTAFREEMFGPVAAITIAKDAEHALELANDSEFGLSATIFTTDETQARQMAARLECGGVFINGYCASDARVAFGGVKKSGFGRELSHFGLHEFCNIQTVWKDRI" "c" "Han et al., 2011" -"G6812-MONOMER" "MDLTQLEMFNAVAEAGSITQAAAKVHRVPSNLTTRLRQLETELGVDLFIRENQRLRLSPAGHNFLRYSQQILALVDEARSVVAGDEPQGLFSLGSLESTAAVRIPATLAEFNRRYPKIQFSLSTGPSGTMLDGVLEGKLNAAFIDGPINHTAIDGIPVYREELMIVTPQGYAPVTRASQVNGSNIYAFRANCSYRRHFESWFHADGAAPGTIHEMESYHGMLACVIAGAGIALIPRSMLESMPGHHQVEAWPLAEQWRWLTTWLVWRRGAKTRPLEAFIQLLDVPDSARQGYQ" "c" "Han et al., 2011" -"G6813-MONOMER" "MVTPVSISNYISLPDDFPVRNIAPQVKEVLKDFIDALSTIICNEEWRTSLNINSATKKIFNNLDNLSYIQRTSFRGNDTLYNEKVQFKLTYPARNGRHKENIEFQVVINLSPIYLDNFRHDGEINIFCAPNPKPVTMGRVFQTGVERVLFLFLNDFIEQFPMINPGVPIKRAHTPHIEPLPSDHHTAADYLRQFDLLVLNFISRGNFVILPRLWNNSEVHRWFVNKDPNLITAILDITDSELKEDLLQSLMDSLGSNKHVLPEVCICFLSLLAEQESPHFQNLFLFFANMLLHYHQFMNPNESDLNDVLMPASLSDDKIIKHMARRTLKLFVKNETPPKVTHEDLVKNRPRSPVRPPIPATAKTPDLPERH" "c" "Han et al., 2011" -"G6814-MONOMER" "MTVETQLNPTQPVNQQIYRILRRDIVHCLIAPGTPLSEKEVSVRFNVSRQPVREAFIKLAENGLIQIRPQRGSYVNKISMAQVRNGSFIRQAIECAVARRAASMITESQCYQLEQNLHQQRIAIERKQLDDFFELDDNFHQLLTQIADCQLAWDTIENLKATVDRVRYMSFDHVSPPEMLLRQHLDIFSALQKRDGDAVERAMTQHLQEISESVRQIRQENSDWFSEE" "c" "Han et al., 2011" -"G6815-MONOMER" "MTTYDRNRNAITTGSRVMVSGTGHTGKILSIDTEGLTAEQIRRGKTVVVEGCEEKLAPLDLIRLGMN" "c" "Han et al., 2011" -"G6816-MONOMER" "MGNNLLSAKATLPVYDLNNLAPRIVHLGFGAFHRAHQGVYADILATEHFSDWGYYEVNLIGGEQQIADLQQQDNLYTVAEMSADVWTARVVGVVKKALHVQIDGLETVLAAMCEPQIAIVSLTITEKGYFHSPATGQLMLDHPMVAADVQNPHQPKTATGVIVEALARRKAAGLPAFTVMSCDNMPENGHVMRDVVTSYAQAVDVKLAQWIEDNVTFPSTMVDRIVPAVTEDTLAKIEQLTGVRDPAGVACEPFRQWVIEDNFVAGRPEWEKAGAELVSDVLPYEEMKLRMLNGSHSFLAYLGYLAGYQHINDCMEDEHYRYAAYGLMLQEQAPTLKVQGVDLQDYANRLIARYSNPALRHRTWQIAMDGSQKLPQRMLDSVRWHLAHDSKFDLLALGVAGWMRYVGGVDEQGNPIEISDPLLPVIQKAVQSSAEGKARVQSLLAIKAIFGDDLPDNSLFTARVTETYLSLLAHGAKATVAKYSVK" "c" "Han et al., 2011" -"G6818-MONOMER" "MKSKDTLKWFPAQLPEVRIILGDAVVEVAKQGRPINTRTLLDYIEGNIKKKSWLDNKELLQTAISVLKDNQNLNGKM" "c" "Han et al., 2011" -"G6819-MONOMER" "MSQIFAYCRISTLDQTTENQRREIESAGFKIKPQQIIEEHISGSAATSERPGFNRLLARLKCGDQLIVTKLDRLGCNAMDIRKTVEQLTETGIRVHCLALGGIDLTSPTGKMMMQVISAVAEFERDLLLERTHSGIVRARGAGKRFGRPPVLNEEQKQAVFERIKSGVSISAIAREFKTSRQTILRAKAKLQTPDI" "c" "Han et al., 2011" -"G6820-MONOMER" "MAFRMSEQPRTIKIYNLLAGTNEFIGEGDAYIPPHTGLPANSTDIAPPDIPAGFVAVFNSDESSWHLVEDHRGKTVYDVASGDALFISELGPLPENVTWLSPEGEFQKWNGTAWVKDTEAEKLFRIREAEETKNNLMQVASEHIAPLQDAADLEIATEEEISLLEAWKKYRVLLNRVDTSTAQDIEWPALP" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6821-MONOMER" "VNITALTDNTQGAAGLELYEVYNNGYPTAYGNIIHLKGMTAVGEGELLIGWSGTSGAHAPAFIRSRRDTTDANWSPWAQLYTSAHPPAEFYPVGAPIPWPSDTVPSGYALMQGQTFDKSAYPKLAVAYPSGVIPDMRGWTIKGKPASGRAVLSQEQDGIKSHTHSASASSTDLGTETTSSFDYGTKSTNNTGAHTHSISGTANSAGAHQHKSSGAFGGTNTSIFPNGYTAISNLSAGIMSTTSGSGQTRNAGKTSSDGAHTHSLSGTAASAGAHAHTVGIGAHTHSVAIGSHGHTITVNAAGNAENTVKNIAFNYIVRLA" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6822-MONOMER" "MDQVVIFKQIFDKVRNDLNYQWFYSELKRHNVSHYIYYLATENVHIVLKNDNTVLLKGLKNIVSVKFSKDRHLIETTSNKLKSREITFQEYRRNLAKAGVFRWVTNIHEQKRYYYTFDNSLLFTESIQKTTQILPR" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6823-MONOMER" "MNIENLKTKAEADISEYITKKIIELKKKTGKEVTSIQFTAREKMTGLESYDVKINLI" "c" "Han et al., 2011" -"G6824-MONOMER" "MREYPNGEKTHLTVMAAGFPSLTGDHKVIYVAADRHVTSEEILEAAIRLLS" "c" "Han et al., 2011" -"G6825-MONOMER" "MSNKMTGLVKWFNPEKGFGFITPKDGSKDVFVHFSAIQSNDFKTLTENQEVEFGIENGPKGPAAVHVVAL" "c" "Han et al., 2011" -"G6826-MONOMER" "VNQIFMVIFLVLSGFIVGNVWSDRGWQKKWAERDAAALSQEVNAQFAARIIEQGRTIARDEAVKDAQQKSAEISARAAYLSDSVNQLRAEAKKYAIRLDAAKHTADLAAAVRGKTTKTAEGMLTNMLGDIAAEAQLYAEIADERYIAGVTCQQIYESLRDKKHQM" "i" "Han et al., 2011" -"G6827-MONOMER" "MNTKIRYGLSAAVLALIGAGASAPQILDQFLDEKEGNHTMAYRDGSGIWTICRGATVVDGKTVFPNMKLSKEKCDQVNAIERDKALAWVERNIKVPLTEPQKAGIASFCPYNIGPGKCFPSTFYKRLNAGDRKGACEAIRWWIKDGGRDCRIRSNNCYGQVIRRDQESALTCWGIEQ" "i" "Han et al., 2011" -"G6828-MONOMER" "MTQDYELVVKGVRNFENKVTVTVALQDKERFDGEIFDLDVAMDRVEGAALEFYEAAARRSVRQVFLEVAEKLSEKVESYLQHQYSFKIENPANKHERPHHKYL" "c" "Han et al., 2011" -"G6829-MONOMER" "MKSMDKLTTGVAYGTSAGNAGFWALQLLDKVTPSQWAAIGVLGSLVFGLLTYLTNLYFKIKEDRRKAARGE" "i" "Han et al., 2011" -"G6830-MONOMER" "MNLEALPKYYSPKSPKLSDDAPATGTGCLTITDVMAAQGMVQSKAPLGLALFLAKVGVQDPQFAIEGLLNYAMALDNPTLNKLSEEIRLQIIPYLVSFAFADYSRSAASKARCEHCSGTGFYNVLREVVKHYRRGESVIKEEWVKELCQHCHGKGEASTACRGCKGKGIVLDEKRTRFHGVPVYKICGRCNGNRFSRLPTTLARRHVQKLVPDLTDYQWYKGYADVIGKLVTKCWQEEAYAEAQLRKVTR" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6831-MONOMER" "VRVLLRPVLVPELGLVVLKPGRESIQIFHNPRVLVEPEPKSMRNLPSGVVPAVRQPLAEDKTLLPFFSNERVIRAAGGVGALSDWLLRHVTSCQWPNGDYHHTETVIHRYGTGAMVLCWHCDNQLRDQTSESLELLAQQNLTAWVIDVIRHAISGTQERELSLAELSWWAVCNQVVDALPEAVSRRSLGLPAEKICSVYRESDIVPGELTATSILKQRTKNLAPLPYAHQQQKSPQEKTVVSITVDPESPESFMKLPKRRRWVKEKYTRWVKTQPCACCGMPADDPHHLIGHGQGGMGTKAHDLFVLPLCRKHHNELHTDTVAFEDKYGSQLELIFRFIDRALAIGVLA" "c" "Han et al., 2011" -"G6832-MONOMER" "MSLQVSHYNMLRASHEGSQKVVVRTVITVRFVPGAAIAKSILYCAGQLVFKESGHHLTGTDTIYFVTVRLHMHNSTYSSIFCFSMSVLLSRRRVSGDLTCR" "m" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6833-MONOMER" "MSVTIQGNTSTVISNNSAPEGTSEIAKITRQIQVLTEKLGKISSEEGMTTQQKKEMAALVQKQIESLWAQLEQLLRQQAEKKNEDATVQPDKKEEKKDDTNTAGTIDIYV" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6834-MONOMER" "VDNARIDLRSKYYVKPKADHPWLTRRTQSHQQVKPPKLPKKKPDPDKKD" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6835-MONOMER" "MKITPEQAREALDAWICRPGMTQEQATILITEAFWALKERPNIDVQRVTYEGGAIDQRALGVNRVKIFERWKAIDTRDKREKFTALVPAIMEATTG" "c" "Han et al., 2011" -"G6836-MONOMER" "MPAINAKRVYRIMRQNALLLERKPAVPPSKRAHTGRVAVKESNQRWCSDGFEFCCDNGERLRVTFALDCCDREALHWAVTTGGFNSETVQDVMLGAVERRFGNDLPSSPVEWLTDNGSCYRANETRQFARMLGLEPKNTAVRSPESNGIAESFVKTIKRDYISIMPKPDGLTAAKNLAEAFEHYNEWHPHSALGYRSPREYLRQRACNGLSDNRCLEI" "c" "Han et al., 2011" -"G6837-MONOMER" "VITDVWKYRGKSTGELRSSVCYAIKTGVFDYAKQFPSSRNLEKFGEARQDLTIKELAEKFLALKETEVAKTSLNTYRAVIKNILSIIGEKNLASSINKEKLLEVRKELLTGYQIPKSNYIVTQPGRSAVTVNNYMTNLNAVFQFGVDNGYLADNPFKGISPLKESRTIPDPLSREEFIRLIDACRNQQAKNLWCVSVYTGVRPGELCALGWEDIDLKNGTMMIRRNLAKDRFTVPKTQAGTNRVIHLIKPAIDALRSQMTLTRLSKEHIIDVHFREYGRTEKQKCTFVFQPEVSARVKNYGDHFTVDSIRQMWDAAIKRAGLRHRKSYQSRHTYACWSLTAGANPAFIANQMGHADAQMVFQVYGKWMSENNNAQVALLNTQLSEFAPTMPHNEAMKN" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6838-MONOMER" "MKSILIEKPNQLAIVEREIPTPSAGEVRVKVKLAGICGSDSHIYRGHNPFAKYPRVIGHEFFGVIDAVGEGVESARVGERVAVDPVVSCGHCYPCSIGKPNVCTTLAVLGVHADGGFSEYAVVPAKNAWKIPEAVADQYAVMIEPFTIAANVTGHGQPTENDTVLVYGAGPIGLTIVQVLKGVYNVKNVIVADRIDERLEKAKESGADWAINNSQTPLGEIFTEKGIKPTLIIDAACHPSILKEAVTLASPAARIVLMGFSSEPSEVIQQGITGKELSIFSSRLNANKFPIVIDWLSKGLIKPEKLITHTFDFQHVADAISLFEQDQKHCCKVLLTFSE" "c" "Han et al., 2011" -"G6839-MONOMER" "MKIVKAEVFVTCPGRNFVTLKITTEDGITGLGDATLNGRELSVASYLQDHLCPQLIGRDAHRIEDIWQFFYKGAYWRRGPVTMSAISAVDMALWDIKAKAANMPLYQLLGGASREGVMVYCHTTGHSIDEALDDYARHQELGFKAIRVQCGIPGMKTTYGMSKGKGLAYEPATKGQWPEEQLWSTEKYLDFMPKLFDAVRNKFGFNEHLLHDMHHRLTPIEAARFGKSIEDYRMFWMEDPTPAENQECFRLIRQHTVTPIAVGEVFNSIWDCKQLIEEQLIDYIRTTLTHAGGITGMRRIADFASLYQVRTGSHGPSDLSPVCMAAALHFDLWVPNFGVQEYMGYSEQMLEVFPHNWTFDNGYMHPGDKPGLGIEFDEKLAAKYPYEPAYLPVARLEDGTLWNW" "c" "Han et al., 2011" -"G6840-MONOMER" "MIKTTLLFFATALCEIIGCFLPWLWLKRNASIWLLLPAGISLALFVWLLTLHPAASGRVYAAYGGVYVCTALMWLRVVDGVKLTLYDWTGALIALCGMLIIVAGWGRT" "i" "Han et al., 2011" -"G6841-MONOMER" "MKITLSKRIGLLAILLPCALALSTTVHAETNKLVIESGDSAQSRQHAAMEKEQWNDTRNLRQKVNKRTEKEWDKADAAFDNRDKCEQSANINAYWEPNTLRCLDRRTGRVITP" "p" "Han et al., 2011" -"G6843-MONOMER" "VKYKLLPCLLAIFLTGCDRTEVTLSFTPEMASFSNEFDFDPLRGPVKDFTQTLMDEQGEVTKRVSGTLSEEGCFDSLELLDLENNTVVALVLDANYYRDAETLEKRVRLQGKCQLAELPSAGVSWETDDNGFVIKASSKQMQMEYRYDDQGYPLGKTTKSNDKTLSVSATPSTDPIKKLDYTAVTLLNNQRVGNVKQSCEYDSHANPVDCQLIIVDEGVKPAVERVYTIKNTIDYY" "c" "Han et al., 2011" -"G6844-MONOMER" "MKLSTCCAALLLALASPAVLAAPGSCERIQSDISQRIINNGVPESSFTLSIVPNDQVDQPDSQVVGHCANDTHKILYTRTTSGNVSAPAQSSQDGAPAEPQ" "p" "Han et al., 2011" -"G6845-MONOMER" "MSKNERMVGISRRTLVKSTAIGSLALAAGGFSLPFTLRNAAAAVQQAREKVVWGACSVNCGSRCALRLHVKDNEVTWVETDNTGSDEYGNHQVRACLRGRSIRRRINHPDRLNYPMKRVGKRGEGKFERISWDEALDTIASSLKKTVEQYGNEAVYIQYSSGIVGGNMTRSSPSASAVKRLMNCYGGSLNQYGSYSTAQISCAMPYTYGSNDGNSTTDIENSKLVVMFGNNPAETRMSGGGITYLLEKAREKSNAKMIVIDPRYTDTAAGREDEWLPIRPGTDAALVAGIAWVLINENLVDQPFLDKYCVGYDEKTLPADAPKNGHYKAYILGEGDDKTAKTPQWASQITGIPEDRIIKLAREIGTAKPAYICQGWGPQRQANGELTARAIAMLPILTGNVGISGGNSGARESTYTITIERLPVLDNPVKTSISCFSWTDAIDHGPQMTAIRDGVRGKDKLDVPIKFIWNYAGNTLVNQHSDINKTHEILQDESKCEMIVVIENFMTSSAKYADILLPDLMTVEQEDIIPNDYAGNMGYLIFLQPVTSEKFERKPIYWILSEVAKRLGPDVYQKFTEGRTQEQWLQHLYAKMLAKDPALPSYDELKKMGIYKRKDPNGHFVAYKAFRDDPEANPLKTPSGKIEIYSSRLAEIARTWELEKDEVISPLPVYASTFEGWNSPERRTFPLQLFGFHYKSRTHSTYGNIDLLKAACRQEVWINPIDAQKRGIANGDMVRVFNHRGEVRLPAKVTPRILPGVSAMGQGAWHEANMSGDKIDHGGCVNTLTTLRPSPLAKGNPQHTNLVEIEKI" "i" "EcoCyc dump" -"G6846-MONOMER" "MKIHTTEALMKAEISRRSLMKTSALGSLALASSAFTLPFSQMVRAAEAPVEEKAVWSSCTVNCGSRCLLRLHVKDDTVYWVESDTTGDDVYGNHQVRACLRGRSIRRRMNHPDRLKYPMKRVGKRGEGKFERISWDEALDTISDNLRRILKDYGNEAVHVLYGTGVDGGNITNSNVPYRLMNSCGGFLSRYGSYSTAQISAAMSYMFGANDGNSPDDIANTKLVVMFGNNPAETRMSGGGVTYYVEQARERSNARMIVIDPRYNDTAAGREDEWLPIRPGTDGALACAIAWVLITENMVDQPFLDKYCVGYDEKTLPANAPRNAHYKAYILGEGPDGIAKTPEWAAKITSIPAEKIIQLAREIGSAKPAYICQGWGPQRHSNGEQTSRAIAMLSVLTGNVGINGGNSGVREGSWDLGVEWFPMLENPVKTQISVFTWTDAIDHGTEMTATRDGVRGKEKLDVPIKFLWCYASNTLINQHGDINHTHEVLQDDSKCEMIVGIDHFMTASAKYCDILLPDLMPTEQEDLISHESAGNMGYVILAQPATSAKFERKPIYWMLSEVAKRLGPDVYQTFTEGRSQHEWIKYLHAKTKERNPEMPDYEEMKTTGIFKKKCPEEHYVAFRAFREDPQANPLKTPSGKIEIYSERLAKIADTWELKKDEIIHPLPAYTPGFDGWDDPLRKTYPLQLTGFHYKARTHSSYGNIDVLQQACPQEVWINPIDAQARGIRHGDTVRVFNNNGEMLIAAKVTPRILPGVTAIGQGAWLKADMFGDRVDHGGSINILTSHRPSPLAKGNPSHSNLVQIEKV" "i" "EcoCyc dump" -"G6847-MONOMER" "MTTQYGFFIDSSRCTGCKTCELACKDFKDLGPEVSFRRIYEYAGGDWQEDNGVWHQNVFAYYLSISCNHCDDPACTKVCPSGAMHKREDGFVVVDEDVCIGCRYCHMACPYGAPQYNAEKGHMTKCDGCYSRVAEGKQPICVESCPLRALEFGPIEELRQKHGTLAAVAPLPRAHFTKPNIVIKPNANSRPTGDTTGYLANPEEV" "c" "EcoCyc dump" -"G6848-MONOMER" "MGNGWHEWPLVIFTVLGQCVVGALIVSGIGWFAAKNDADRQRIVRGMFFLWLLMGVGFIASVMHLGSPLRAFNSLNRIGASGLSNEIAAGSIFFAVGGLWWLVAVIGKMPQALGKLWLLFSMALGVIFVWMMTCVYQIDTVPTWHNGYTTLAFFLTVLLSGPILAAAILRAARVTFNTTPFAIISVLALIACAGVIVLQGLSLASIHSSVQQASALVPDYASLQVWRVVLLCAGLGCWLCPLIRRREPHVAGLILGLILILGGEMIGRVLFYGLHMTVGMAIAG" "i" "Han et al., 2011" -"G6849-MONOMER" "MTHFSQQDNFSVAARVLGALFYYAPESAEAAPLVAVLTSDGWETQWPLPEASLAPLVTAFQTQCEETHAQAWQRLFVGPWALPSPPWGSVWLDRESVLFGDSTLALRQWMREKGIQFEMKQNEPEDHFGSLLLMAAWLAENGRQTECEELLAWHLFPWSTRFLDVFIEKAEHPFYRALGELARLTLAQWQSQLLIPVAVKPLFR" "c" "Han et al., 2011" -"G6851-MONOMER" "MLKRFFITGTDTSVGKTVVSRALLQALASQGKTVAGYKPVAKGSKETPEGLRNKDALVLQSVSTIELPYEAVNPIALSEEESSVAHSCPINYTLISNGLANLTEKVDHVVVEGTGGWRSLMNDLRPLSEWVVQEQLPVLMVVGIQEGCINHALLTAQAIANDGLPLIGWVANRINPGLAHYAEIIDVLGKKLPAPLIGELPYLPRAEQRELGQYIRLAMLRSVLAVDRVTV" "c" "Han et al., 2011" -"G6853-MONOMER" "MNIELRHLRYFVAVAEELHFGRAAARLNISQPPLSQQIQALEQQIGARLLARTNRSVLLTAAGKQFLADSRQILSMVDDAAARAERLHQGEAGELRIGFTSSAPFIRAVSDTLSLFRRDYPDVHLQTREMNTREQIAPLIEGTLDMGLLRNTALPESLEHAVIVHEPLMAMIPHDHPLANNPNVTLAELAKEPFVFFDPHVGTGLYDDILGLMRRYHLTPVITQEVGEAMTIIGLVSAGLGVSILPASFKRVQLNEMRWVPIAEEDAVSEMWLVWPKHHEQSPAARNFRIHLLNALR" "c" "Han et al., 2011" -"G6855-MONOMER" "MKKVLALVVAAAMGLSSAAFAAETTTTPAPTATTTKAAPAKTTHHKKQHKAAPAQKAQAAKKHHKNTKAEQKAPEQKAQAAKKHAKKHSHQQPAKPAAQPAA" "p" "Han et al., 2011" -"G6856-MONOMER" "MRTTIAVVLGAISLTSAFVFADKPDVARSANDEVSTLFFGHDDRVPVNDTTQSPWDAVGQLETASGNLCTATLIAPNLALTAGHCLLTPPKGKADKAVALRFVSNKGLWRYEIHDIEGRVDPTLGKRLKADGDGWIVPPAAAPWDFGLIVLRNPPSGITPLPLFEGDKAALTAALKAAGRKVTQAGYPEDHLDTLYSHQNCEVTGWAQTSVMSHQCDTLPGDSGSPLMLHTDDGWQLIGVQSSAPAAKDRWRADNRAISVTGFRDKLDQLSQK" "p" "Han et al., 2011" -"G6859-MONOMER" "MAKPIITLNGLKIVIMLGMLVIILCGIRFAAEIIVPFILALFIAVILNPLVQHMVRWRVPRVLAVSILMTIIVMAMVLLLAYLGSALNELTRTLPQYRNSIMTPLQALEPLLQRVGIDVSVDQLAHYIDPNAAMTLLTNLLTQLSNAMSSIFLLLLTVLFMLLEVPQLPGKFQQMMARPVEGMAAIQRAIDSVSHYLVLKTAISIITGLVAWAMLAALDVRFAFVWGLLAFALNYIPNIGSVLAAIPPIAQVLVFNGFYEALLVLAGYLLINLVFGNILEPRIMGRGLGLSTLVVFLSLIFWGWLLGPVGMLLSVPLTIIVKIALEQTAGGQSIAVLLSDLNKE" "i" "Han et al., 2011" -"G6860-MONOMER" "MKLKNTLLASALLSAMAFSVNAATELTPEQAAAVKPFDRVVVTGRFNAIGEAVKAVSRRADKEGAASFYVVDTSDFGNSGNWRVVADLYKADAEKAEETSNRVINGVVELPKDQAVLIEPFDTVTVQGFYRSQPEVNDAITKAAKAKGAYSFYIVRQIDANQGGNQRITAFIYKKDAKKRIVQSPDVIPADSEAGRAALAAGGEAAKKVEIPGVATTASPSSEVGRFFETQSSKGGRYTVTLPDGTKVEELNKATAAMMVPFDSIKFSGNYGNMTEVSYQVAKRAAKKGAKYYHITRQWQERGNNLTVSADLYK" "c" "Lopez-Campistrous et al., 2005" -"G6862-MONOMER" "MGKTQPLPILITGGGRRIGLALAWHFINQKQPVIVSYRTHYPAIDGLINAGAQCIQADFSTNDGVMAFADEVLKSTHGLRAILHNASAWMAEKPGAPLADVLACMMQIHVNTPYLLNHALERLLRGHGHAASDIIHFTDYVVERGSDKHIAYAASKAALDNMTRSFARKLAPEVKVNSIAPSLILFNEHDDAEYRQQALNKSLMKTAPGEKEVIDLVDYLLTSCFVTGRSFPLDGGRHLR" "c" "Han et al., 2011" -"G6863-MONOMER" "MGLVIKAALGALVVLLIGVLAKTKNYYIAGLIPLFPTFALIAHYIVASERGIEALRATIIFSMWSIIPYFVYLVSLWYFTGMMRLPAAFVGSVACWGISAWVLIICWIKLH" "i" "Han et al., 2011" -"G6865-MONOMER" "MNKSLVAVGVIVALGVVWTGGAWYTGKKIETHLEDMVAQANAQLKLTAPESNLEVSYQNYHRGVFSSQLQLLVKPIAGKENPWIKSGQSVIFNESVDHGPFPLAQLKKLNLIPSMASIQTTLVNNEVSKPLFDMAKGETPFEINSRIGYSGDSSSDISLKPLNYEQKDEKVAFSGGEFQLNADRDGKAISLSGEAQSGRIDAVNEYNQKVQLTFNNLKTDGSSTLASFGERVGNQKLSLEKMTISVEGKELALLEGMEISGKSDLVNDGKTINSQLDYSLNSLKVQNQDLGSGKLTLKVGQIDGEAWHQFSQQYNAQTQALLAQPEIANNPELYQEKVTEAFFSALPLMLKGDPVITIAPLSWKNSQGESALNLSLFLKDPATTKEAPQTLAQEVDRSVKSLDAKLTIPVDMATEFMTQVAKLEGYQEDQAKKLAKQQVEGASAMGQMFRLTTLQDNTITTSLQYANGQITLNGQKMSLEDFVGMFAMPALNVPAVPAIPQQ" "i" "Han et al., 2011" -"G6866-MONOMER" "MRKIVAMAVICLTAASGLTSAYAAQLADDEAGLRIRLKNELRRADKPSAGAGRDIYAWVQGGLLDFNSGYYSNIIGVEGGAYYVYKLGARADMSTRWYLDGDKSFGFALGAVKIKPSENSLLKLGRFGTDYSYGSLPYRIPLMAGSSQRTLPTVSEGALGYWALTPNIDLWGMWRSRVFLWTDSTTGIRDEGVYNSQTGKYDKHRARSFLAASWHDDTSRYSLGASVQKDVSNQIQSILEKSIPLDPNYTLKGELLGFYAQLEGLSRNTSQPNETALVSGQLTWNAPWGSVFGSGGYLRHAMNGAVVDTDIGYPFSLSLDRNREGMQSWQLGVNYRLTPQFTLTFAPIVTRGYESSKRDVRIEGTGILGGMNYRVSEGPLQGMNFFLAADKGREKRDGSTLGDRLNYWDVKMSIQYDFMLK" "o" "Han et al., 2011" -"G6867-MONOMER" "MMDNMQTEAQPTRTRILNAAREIFSENGFHSASMKAICKSCAISPGTLYHHFISKEALIQAIILQDQERALARFREPIEGIHFVDYMVESIVSLTHEAFGQRALVVEIMAEGMRNPQVAAMLKNKHMTITEFVAQRMRDAQQKGEISPDINTAMTSRLLLDLTYGVLADIEAEDLAREASFAQGLRAMIGGILTAS" "c" "Han et al., 2011" -"G6868-MONOMER" "MSDNIRVGLIGYGYASKTFHAPLIAGTPGQELAVISSSDETKVKADWPTVTVVSEPKHLFNDPNIDLIVIPTPNDTHFPLAKAALEAGKHVVVDKPFTVTLSQARELDALAKSLGRVLSVFHNRRWDSDFLTLKGLLAEGVLGEVAYFESHFDRFRPQVRDRWREQGGPGSGIWYDLAPHLLDQAITLFGLPVSMTVDLAQLRPGAQSTDYFHAILSYPQRRVILHGTMLAAAESARYIVHGSRGSYVKYGLDPQEERLKNGERLPQEDWGYDMRDGVLTRVEGEERVEETLLTVPGNYPAYYAAIRDALNGDGENPVPASQAIQVMELIELGIESAKHRATLCLA" "c" "Han et al., 2011" -"G6869-MONOMER" "MTVQDYLLKFRKISSLESLEKLYDHLNYTLTDDQELINMYRAADHRRAELVSGGRLFDLGQVPKSVWHYVQ" "c" "Han et al., 2011" -"G6870-MONOMER" "MTTTTPQRIGGWLLGPLAWLLVALLSTTLALLLYTAALSSPQTFQTLGGQALTTQILWGVSFITAIALWYYTLWLTIAFFKRRRCVPKHYIIWLLISVLLAVKAFAFSPVEDGIAVRQLLFTLLATALIVPYFKRSSRVKATFVNP" "i" "Han et al., 2011" -"G6871-MONOMER" "MTDYLLLFVGTVLVNNFVLVKFLGLCPFMGVSKKLETAMGMGLATTFVMTLASICAWLIDTWILIPLNLIYLRTLAFILVIAVVVQFTEMVVRKTSPVLYRLLGIFLPLITTNCAVLGVALLNINLGHNFLQSALYGFSAAVGFSLVMVLFAAIRERLAVADVPAPFRGNAIALITAGLMSLAFMGFSGLVKL" "i" "Han et al., 2011" -"G6872-MONOMER" "MNAIWIAVAAVSLLGLAFGAILGYASRRFAVEDDPVVEKIDEILPQSQCGQCGYPGCRPYAEAISCNGEKINRCAPGGEAVMLKIAELLNVEPQPLDGEAQEITPARMVAVIDENNCIGCTKCIQACPVDAIVGATRAMHTVMSDLCTGCNLCVDPCPTHCISLQPVAETPDSWKWDLNTIPVRIIPVEHHA" "i" "Han et al., 2011" -"G6873-MONOMER" "MLKLFSAFRKNKIWDFNGGIHPPEMKTQSNGTPLRQVPLAQRFVIPLKQHIGAEGELCVSVGDKVLRGQPLTRGRGKMLPVHAPTSGTVTAIAPHSTAHPSALAELSVIIDADGEDCWIPRDGWADYRTRSREELIERIHQFGVAGLGGAGFPTGVKLQGGGDKIETLIINAAECEPYITADDRLMQDCAAQVVEGIRILAHILQPREILIGIEDNKPQAISMLRAVLADSNDISLRVIPTKYPSGGAKQLTYILTGKQVPHGGRSSDIGVLMQNVGTAYAVKRAVIDGEPITERVVTLTGEAIARPGNVWARLGTPVRHLLNDAGFCPSADQMVIMGGPLMGFTLPWLDVPVVKITNCLLAPSANELGEPQEEQSCIRCSACADACPADLLPQQLYWFSKGQQHDKATTHNIADCIECGACAWVCPSNIPLVQYFRQEKAEIAAIRQEEKRAAEAKARFEARQARLEREKAARLERHKSAAVQPAAKDKDAIAAALARVKEKQAQATQPIVIKAGERPDNSAIIAAREARKAQARAKQAELQQTNDAATVADPRKTAVEAAIARAKARKLEQQQANAEPEQQVDPRKAAVEAAIARAKARKLEQQQANAEPEEQVDPRKAAVEAAIARAKARKLEQQQANAEPEQQVDPRKAAVEAAIARAKARKREQQPANAEPEEQVDPRKAAVEAAIARAKARKLEQQQANAVPEEQVDPRKAAVAAAIARAQAKKAAQQKVVNED" "i" "Han et al., 2011" -"G6874-MONOMER" "MVFRIASSPYTHNQRQTSRIMLLVLLAAVPGIAAQLWFFGWGTLVQILLASVSALLAEALVLKLRKQSVAATLKDNSALLTGLLLAVSIPPLAPWWMVVLGTVFAVIIAKQLYGGLGQNPFNPAMIGYVVLLISFPVQMTSWLPPHEIAVNIPGFIDAIQVIFSGHTASGGDMNTLRLGIDGISQATPLDTFKTSVRAGHSVEQIMQYPIYSGILAGAGWQWVNLAWLAGGVWLLWQKAIRWHIPLSFLVTLALCAMLGWLFSPETLAAPQIHLLSGATMLGAFFILTDPVTASTTNRGRLIFGALAGLLVWLIRSFGGYPDGVAFAVLLANITVPLIDYYTRPRVYGHRKG" "i" "Han et al., 2011" -"G6875-MONOMER" "MLKTIRKHGITLALFAAGSTGLTAAINQMTKTTIAEQASLQQKALFDQVLPAERYNNALAQSCYLVTAPELGKGEHRVYIAKQDDKPVAAVLEATAPDGYSGAIQLLVGADFNGTVLGTRVTEHHETPGLGDKIELRLSDWITHFAGKKISGADDAHWAVKKDGGDFDQFTGATITPRAVVNAVKRAGLYAQTLPAQLSQLPACGE" "i" "Han et al., 2011" -"G6876-MONOMER" "VSEIKDVIVQGLWKNNSALVQLLGLCPLLAVTSTATNALGLGLATTLVLTLTNLTISTLRHWTPAEIRIPIYVMIIASVVSAVQMLINAYAFGLYQSLGIFIPLIVTNCIVVGRAEAFAAKKGPALSALDGFSIGMGATCAMFVLGSLREIIGNGTLFDGADALLGSWAKVLRVEIFHTDSPFLLAMLPPGAFIGLGLMLAGKYLIDERMKKRRAEAAAERALPNGETGNV" "i" "Han et al., 2011" -"G6880-MONOMER" "MKSGRFIGVMSGTSLDGVDVVLATIDEHRVAQLASLSWPIPVSLKQAVLDICQGQQLTLSQFGQLDTQLGQLFADAVNALLKEQNLQARDIVAIGCHGQTVWHEPTGVAPHTLQIGDNNQIVARTGITVVGDFRRRDIALGGQGAPLVPAFHHALLAHPTERRMVLNIGGIANLSLLIPGQPVGGYDTGPGNMLMDAWIWRQAGKPYDKDAEWARAGKVILPLLQNMLSDPYFSQPAPKSTGREYFNYGWLERHLRHFPGVDPRDVQATLAELTAVTISEQVLLSGGCERLMVCGGGSRNPLLMARLAALLPGTEVTTTDAVGISGDDMEALAFAWLAWRTLAGLPGNLPSVTGASQETVLGAIFPANP" "c" "Han et al., 2011" -"G6881-MONOMER" "MIKRVLVVSMVGLSLVGCVNNDTLSGDVYTASEAKQVQNVSYGTIVNVRPVQIQGGDDSNVIGAIGGAVLGGFLGNTVGGGTGRSLATAAGAVAGGVAGQGVQSAMNKTQGVELEIRKDDGNTIMVVQKQGNTRFSPGQRVVLASNGSQVTVSPR" "i" "Lopez-Campistrous et al., 2005" -"G6882-MONOMER" "LESPLGSDLARLVRIWRALIDHRLKPLELTQTHWVTLHNIHQLPPDQSQIQLAKAIGIEQPSLVRTLDQLEEKGLISRQTCASDRRAKRIKLTEKAEPLISEMEAVINKTRAEILHGISAEELEQLITLIAKLEHNIIELQAKG" "c" "Han et al., 2011" -"G6883-MONOMER" "VKFMLNATGLPLQDLVFGASVYFPPFFKAFAFGFVIWLVVHRLLRGWIYAGDIWHPLLMDLSLFAICVCLALAILIAW" "i" "Han et al., 2011" -"G6884-MONOMER" "MSIKTIKYFSTIIVAVVAVLAGWWLWNYYMQSPWTRDGKIRAEQVSITPQVSGRIVELNIKDNQLVNAGDLLLTIDKTPFQIAELNAQAQLAKAQSDLAKANNEANRRRHLSQNFISAEELDTANLNVKAMQASVDAAQATLKQAQWQLAQTEIRAPVSGWVTNLTTRIGDYADTGKPLFALVDSHSFYVIGYFEETKLRHIREGAPAQITLYSDNKTLQGHVSSIGRAIYDQSVESDSSLIPDVKPNVPWVRLAQRVPVRFALDKVPGDVTLVSGTTCSIAVGQ" "i" "Han et al., 2011" -"G6885-MONOMER" "MNASSWSLRNLPWFRATLAQWRYALRNTIAMCLALTVAYYLNLDEPYWAMTSAAVVSFPTVGGVISKSLGRIAGSLLGAIAALLLAGHTLNEPWFFLLSMSAWLGFCTWACAHFTNNVAYAFQLAGYTAAIIAFPMVNITEASQLWDIAQARVCEVIVGILCGGMMMMILPSSSDATALLTALKNMHARLLEHASLLWQPETTDAIRAAHEGVIGQILTMNLLRIQAFWSHYRFRQQNARLNALLHQQLRMTSVISSLRRMLLNWPSPPGATREILEQLLTALASSQTDVYTVARIIAPLRPTNVADYRHVAFWQRLRYFCRLYLQSSQELHRLQSGVDDHTRLPRTSGLARHTDNAEAMWSGLRTFCTLMMIGAWSIASQWDAGANALTLAAISCVLYSAVAAPFKSLSLLMRTLVLLSLFSFVVKFGLMVQISDLWQFLLFLFPLLATMQLLKLQMPKFAALWGQLIVFMGSFIAVTNPPVYDFADFLNDNLAKIVGVALAWLAFAILRPGSDARKSRRHIRALRRDFVDQLSRHPTLSESEFESLTYHHVSQLSNSQDALARRWLLRWGVVLLNCSHVVWQLRDWESRSDPLSRVRDNCISLLRGVMSERGVQQKSLAATLEELQRICDSLARHHQPAARELAAIVWRLYCSLSQLEQAPPQGTLAS" "i" "Han et al., 2011" -"G6886-MONOMER" "MKRFSLAILALVVATGAQAASEKVEMNLVTSQGVGQSIGSVTITETDKGLEFSPDLKALPPGEHGFHIHAKGSCQPATKDGKASAAESAGGHLDPQNTGKHEGPEGAGHLGDLPALVVNNDGKATDAVIAPRLKSLDEIKDKALMVHVGGDNMSDQPKPLGGGGERYACGVIK" "p" "Han et al., 2011" -"G6887-MONOMER" "MVQRITIAPQGPEFSRFVMGYWRLMDWNMSARQLVSFIEEHLDLGVTTVDHADIYGGYQCEAAFGEALKLAPHLRERMEIVSKCGIATTAREENVIGHYITDRDHIIKSAEQSLINLATDHLDLLLIHRPDPLMDADEVADAFKHLHQSGKVRHFGVSNFTPAQFALLQSRLPFTLATNQVEISPVHQPLLLDGTLDQLQQLRVRPMAWSCLGGGRLFNDDYFQPLRDELAVVAEELNAGSIEQVVYAWVLRLPSQPLPIIGSGKIERVRAAVEAETLKMTRQQWFRIRKAALGYDVP" "c" "Han et al., 2011" -"G6888-MONOMER" "VAEQLEFFPVQSPCRGICQSDERGFCRGCFRSRDERFNWNKMSDGEKQEVLRLCRQRLMRKLRANKPASSDEPEQPSLF" "c" "Han et al., 2011" -"G6889-MONOMER" "MNKHTEHDTREHLLATGEQLCLQRGFTGMGLSELLKTAEVPKGSFYHYFRSKEAFGVAMLERHYAAYHQRLTELLQSGEGNYRDRILAYYQQTLNQFCQHGTISGCLTVKLSAEVCDLSEDMRSAMDKGARGVIALLSQALENGRENHCLTFCGEPLQQAQVLYALWLGANLQAKISRSFEPLENALAHVKNIIATPAV" "c" "Han et al., 2011" -"G6890-MONOMER" "MSSEKLYSPLKVGAITAANRIFMAPLTRLRSIEPGDIPTPLMAEYYRQRASAGLIISEATQISAQAKGYAGAPGIHSPEQIAAWKKITAGVHAENGHMAVQLWHTGRISHASLQPGGQAPVAPSALSAGTRTSLRDENGQAIRVETSMPRALELEEIPGIVNDFRQAIANAREAGFDLVELHSAHGYLLHQFLSPSSNHRTDQYGGSVENRARLVLEVVDAGIEEWGADRIGIRVSPIGTFQNTDNGPNEEADALYLIEQLGKRGIAYLHMSEPDWAGGEPYTDAFREKVRARFHGPIIGAGAYTVEKAETLIGKGLIDAVAFGRDWIANPDLVARLQRKAELNPQRAESFYGGGAEGYTDYPTL" "c" "Han et al., 2011" -"G6892-MONOMER" "VARINRISITLCALLFTTLPLTPMAHASKQARESSATTHITKKADKKKSTATTKKTQKTAKKAASKSTTKSKTASSVKKSSITASKNAKTRSKHAVNKTASASFTEKCTKRKGYKSHCVKVKNAASGTLADAHKAKVQKATKVAMNKLMQQIGKPYRWGGSSPRTGFDCSGLVYYAYKDLVKIRIPRTANEMYHLRDAAPIERSELKNGDLVFFRTQGRGTADHVGVYVGNGKFIQSPRTGQEIQITSLSEDYWQRHYVGARRVMTPKTLR" "p" "Han et al., 2011" -"G6894-MONOMER" "MGSDAKNLMSDGNVQIVKTGEVIGATQLTEGELIVEAGGRAENTVVTGAGWLKVATGGIAKCTQYGNNGTLSVSDGAIATDIVQSEGGAISLSTLATVNGRHPEGEFSVDKGYACGLLLENGGNLRVLEGHRAEKIILDQEGGLLVNGTTSAVVVDEGGELLVYPGGEASNCEINQGGVFMLAGKASDTLLAGGTMNNLGGEDSDTIVENGSIYRLGTDGLQLYSSGKTQNLSVNVGGRAEVHAGTLENAVIQGGTVILLSPTSADENFVVEEDRAPVELTGSVALLDGASMIIGYGAELQQSTITVQQGGVLILDGSTVKGDSVTFIVGNINLNGGKLWLITDAATHVQLKVKRLRGEGAICLQTSAKEISPDFINVKGEVTGDIHVEITDASRQTLCNALKLQPDEDGIGATLQPA" "o" "Han et al., 2011" -"G6895-MONOMER" "MATLLQLHFAFNGPFGDAMAEQLKPLAESINQEPGFLWKVWTESEKNHEAGGIYLFTDEKSALAYLEKHTARLKNLGVEEVVAKVFDVNEPLSQINQAKLA" "c" "Han et al., 2011" -"G6896-MONOMER" "MKKIAIVGAGPTGIYTLFSLLQQQTPLSISIFEQADEAGVGMPYSDEENSKMMLANIASIEIPPIYCTYLEWLQKQEDSHLQRYGVKKETLHDRQFLPRILLGEYFRDQFLRLVDQARQQKFAVAVYESCQVTDLQITNAGVMLATNQDLPSETFDLAVIATGHVWPDEEEATRTYFPSPWSGLMEAKVDACNVGIMGTSLSGLDAAMAVAIQHGSFIEDDKQHVVFHRDNASEKLNITLLSRTGILPEADFYCPIPYEPLHIVTDQALNAEIQKGEEGLLDRVFRLIVEEIKFADPDWSQRIALESLNVDSFAQAWFAERKQRDPFDWAEKNLQEVERNKREKHTVPWRYVILRLHEAVQEIVPHLNEHDHKRFSKGLARVFIDNYAAIPSESIRRLLALREAGIIHILALGEDYKMEINESRTVLKTEDNSYSFDVFIDARGQRPLKVKDIPFPGLREQLQKTGDEIPDVGEDYTLQQPEDIRGRVAFGALPWLMHDQPFVQGLTACAEIGEAMARAVVKPASRARRRLSFD" "c" "Han et al., 2011" -"G6897-MONOMER" "MIITQADLREWRIGAVMYRWFLRHFPRGGSYADIHHALIEEGYTDWAESLVEYAWKKWLADENFAHQEVSSMQKLATDPGERPFCSQFARSDDHARIGCCEDNARIATAGYAAQIASMGYSVRIGSVGFNSHIGSSGERARVAVTGNSSRISSAGDSSRIANTGMRVRVCTLGERCHVASNGDLVQIASFGANARIANSGDNVHIIASGENSTVVSTGVVDSIILGPGGSAALAYHDGERVRFAVAIEGENNIRAGVRYRLNEQHQFVEC" "c" "Han et al., 2011" -"G6898-MONOMER" "MNPSQHAEQFQSQLANYVPQFTPEFWPVWLIIAGVLLVGMWLVLGLHALLRARGVKKSATDHGEKIYLYSKAVRLWHWSNALLFVLLLASGLINHFAMVGATAVKSLVAVHEVCGFLLLACWLGFVLINAVGDNGHHYRIRRQGWLERAAKQTRFYLFGIMQGEEHPFPATTQSKFNPLQQVAYVGVMYGLLPLLLLTGLLCLYPQAVGDVFPGVRYWLLQTHFALAFISLFFIFGHLYLCTTGRTPHETFKSMVDGYHRH" "i" "Han et al., 2011" -"G6899-MONOMER" "MSWIGWTVAATALGDNQMSFTRRKFVLGMGTVIFFTGSASSLLANTRQEKEVRYAMIHDESRCNGCNICARACRKTNHVPAQGSRLSIAHIPVTDNDNETQYHFFRQSCQHCEDAPCIDVCPTGASWRDEQGIVRVEKSQCIGCSYCIGACPYQVRYLNPVTKVADKCDFCAESRLAKGFPPICVSACPEHALIFGREDSPEIQAWLQQNKYYQYQLPGAGKPHLYRRFGQHLIKKENV" "i" "Han et al., 2011" -"G6900-MONOMER" "MGKMNHQDELPLAKVSEVDEAKRQWLQGMRHPVDTVTEPEPAEILAEFIRQHSAAGQLVARAVFLSPPYLVAEEELSVLLESIKQNGDYADIACLTGSKDDYYYSTQAMSENYAAMSLQVVEQDICRAIAHAVRFECQTYPRPYKVAMLMQAPYYFQEAQIEAAIAAMDVAPEYADIRQVESSTAVLYLFSERFMTYGKAYGLCEWFEVEQFQNP" "c" "Han et al., 2011" -"G6901-MONOMER" "MANGWTGNILRVNLTTGNITLEDSSKFKSFVGGMGFGYKIMYDEVPPGTKPFDEANKLVFATGPLTGSGAPCSSRVNITSLSTFTKGNLVVDAHMGGFFAAQMKFAGYDVIIIEGKAKSPVWLKIKDDKVSLEKADFLWGKGTRATTEEICRLTSPETCVAAIGQAGENLVPLSGMLNSRNHSGGAGTGAIMGSKNLKAIAVEGTKGVNIADRQEMKRLNDYMMTELIGANNNHVVPSTPQSWAEYSDPKSRWTARKGLFWGAAEGGPIETGEIPPGNQNTVGFRTYKSVFDLGPAAEKYTVKMSGCHSCPIRCMTQMNIPRVKEFGVPSTGGNTCVANFVHTTIFPNGPKDFEDKDDGRVIGNLVGLNLFDDYGLWCNYGQLHRDFTYCYSKGVFKRVLPAEEYAEIRWDQLEAGDVNFIKDFYYRLAHRVGELSHLADGSYAIAERWNLGEEYWGYAKNKLWSPFGYPVHHANEASAQVGSIVNCMFNRDCMTHTHINFIGSGLPLKLQREVAKELFGSEDAYDETKNYTPINDAKIKYAKWSLLRVCLHNAVTLCNWVWPMTVSPLKSRNYRGDLALEAKFFKAITGEEMTQEKLDLAAERIFTLHRAYTVKLMQTKDMRNEHDLICSWVFDKDPQIPVFTEGTDKMDRDDMHASLTMFYKEMGWDPQLGCPTRETLQRLGLEDIAADLAAHNLLPA" "c" "Han et al., 2011" -"G6902-MONOMER" "MNPVDRPLLDIGLTRLEFLRISGKGLAGLTIAPALLSLLGCKQEDIDSGTVGLINTPKGVLVTQRARCTGCHRCEISCTNFNDGSVGTFFSRIKIHRNYFFGDNGVGSGGGLYGDLNYTADTCRQCKEPQCMNVCPIGAITWQQKEGCITVDHKRCIGCSACTTACPWMMATVNTESKKSSKCVLCGECANACPTGALKIIEWKDITV" "i" "Han et al., 2011" -"G6903-MONOMER" "MGNRTKEDELYREMCRVVGKVVLEMRDLGQEPKHIVIAGVLRTALANKRIQRSELEKQAMETVINALVK" "c" "Han et al., 2011" -"G6904-MONOMER" "MKRASLLTLTLIGAFSAIQAAWAVDYPLPPTGSRLVGQNQTYTVQEGDKNLQAIARRFDTAAMLILEANNTIAPVPKPGTTITIPSQLLLPDAPRQGIIVNLAELRLYYYPPGENIVQVYPIGIGLQGLETPVMETRVGQKIPNPTWTPTAGIRQRSLERGIKLPPVVPAGPNNPLGRYALRLAHGNGEYLIHGTSAPDSVGLRVSSGCIRMNAPDIKALFSSVRTGTPVKVINEPVKYSVEPNGMRYVEVHRPLSAEEQQNVQTMPYTLPAGFTQFKDNKAVDQKLVDKALYRRAGYPVSVSSGATPAASNAPSVESAQNGEPEQGNMLRVTQ" "o" "Han et al., 2011" -"G6905-MONOMER" "MALLPDKEKLLRNFLRCANWEEKYLYIIELGQRLPELRDEDRSPQNSIQGCQSQVWIVMRQNAQGIIELQGDSDAAIVKGLIAVVFILYDQMTPQDIVNFDVRPWFEKMALTQHLTPSRSQGLEAMIRAIRAKAAALS" "c" "Han et al., 2011" -"G6906-MONOMER" "MIFSVDKVRADFPVLSREVNGLPLAYLDSAASAQKPSQVIDAEAEFYRHGYAAVHRGIHTLSAQATEKMENVRKRASLFINARSAEELVFVRGTTEGINLVANSWGNSNVRAGDNIIISQMEHHANIVPWQMLCARVGAELRVIPLNPDGTLQLETLPTLFDEKTRLLAITHVSNVLGTENPLAEMITLAHQHGAKVLVDGAQAVMHHPVDVQALDCDFYVFSGHKLYGPTGIGILYVKEALLQEMPPWEGGGSMIATVSLSEGTTWTKAPWRFEAGTPNTGGIIGLGAALEYVSALGLNNIAEYEQNLMHYALSQLESVPDLTLYGPQNRLGVIAFNLGKHHAYDVGSFLDNYGIAVRTGHHCAMPLMAYYNVPAMCRASLAMYNTHEEVDRLVTGLQRIHRLLG" "c" "Han et al., 2011" -"G6907-MONOMER" "MAGLPNSSNALQQWHHLFEAEGTKRSPQAQQHLQQLLRTGLPTRKHENWKYTPLEGLINSQFVSIAGEISPQQRDALALTLDSVRLVFVDGRYVPALSDATEGSGYEVSINDDRQGLPDAIQAEVFLHLTESLAQSVTHIAVKRGQRPAKPLLLMHITQGVAGEEVNTAHYRHHLDLAEGAEATVIEHFVSLNDARHFTGARFTINVAANAHLQHIKLAFENPLSHHFAHNDLLLAEDATAFSHSFLLGGAVLRHNTSTQLNGENSTLRINSLAMPVKNEVCDTRTWLEHNKGFCNSRQLHKTIVSDKGRAVFNGLINVAQHAIKTDGQMTNNNLLMGKLAEVDTKPQLEIYADDVKCSHGATVGRIDDEQIFYLRSRGINQQDAQQMIIYAFAAELTEALRDEGLKQQVLARIGQRLPGGAR" "c" "Han et al., 2011" -"G6908-MONOMER" "MLSIKDLHVSVEDKAILRGLSLDVHPGEVHAIMGPNGSGKSTLSATLAGREDYEVTGGTVEFKGKDLLALSPEDRAGEGIFMAFQYPVEIPGVSNQFFLQTALNAVRSYRGQETLDRFDFQDLMEEKIALLKMPEDLLTRSVNVGFSGGEKKRNDILQMAVLEPELCILDESDSGLDIDALKVVADGVNSLRDGKRSFIIVTHYQRILDYIKPDYVHVLYQGRIVKSGDFTLVKQLEEQGYGWLTEQQ" "c" "Han et al., 2011" -"G6909-MONOMER" "MSRNTEATDDVKTWTGGPLNYKEGFFTQLATDELAKGINEEVVRAISAKRNEPEWMLEFRLNAYRAWLEMEEPHWLKAHYDKLNYQDYSYYSAPSCGNCDDTCASEPGAVQQTGANAFLSKEVEAAFEQLGVPVREGKEVAVDAIFDSVSVATTYREKLAEQGIIFCSFGEAIHDHPELVRKYLGTVVPGNDNFFAALNAAVASDGTFIYVPKGVRCPMELSTYFRINAEKTGQFERTILVADEDSYVSYIEGCSAPVRDSYQLHAAVVEVIIHKNAEVKYSTVQNWFPGDNNTGGILNFVTKRALCEGENSKMSWTQSETGSAITWKYPSCILRGDNSIGEFYSVALTSGHQQADTGTKMIHIGKNTKSTIISKGISAGHSQNSYRGLVKIMPTATNARNFTQCDSMLIGANCGAHTFPYVECRNNSAQLEHEATTSRIGEDQLFYCLQRGISEEDAISMIVNGFCKDVFSELPLEFAVEAQKLLAISLEHSVG" "c" "Han et al., 2011" -"G6911-MONOMER" "VTHIAFGHYLHSKRWYTVQVLSKSEDAMSTQLDPTQLAIEFLRRDQSNLSPAQYLKRLKQLELEFADLLTLSSAELKEEIYFAWRLGVH" "c" "Han et al., 2011" -"G6912-MONOMER" "MIWKRKITLEALNAMGEGNMVGFLDIRFEHIGDDTLEATMPVDSRTKQPFGLLHGGASVVLAESIGSVAGYLCTEGEQKVVGLEINANHVRSAREGRVRGVCKPLHLGSRHQVWQIEIFDEKGRLCCSSRLTTAIL" "c" "Han et al., 2011" -"G6913-MONOMER" "MIPQISQAPGVVQLVLNFLQELEQQGFTGDTATSYADRLTMSTDNSIYQLLPDAVVFPRSTADVALIARLAAQERYSSLIFTPRGGGTGTNGQALNQGIIVDMSRHMNRIIEINPEEGWVRVEAGVIKDQLNQYLKPFGYFFAPELSTSNRATLGGMINTDASGQGSLVYGKTSDHVLGVRAVLLGGDILDTQPLPVELAETLGKSNTTIGRIYNTVYQRCRQQRQLIIDNFPKLNRFLTGYDLRHVFNDEMTEFDLTRILTGSEGTLAFITEARLDITRLPKVRRLVNVKYDSFDSALRNAPFMVEARALSVETVDSKVLNLAREDIVWHSVSELITDVPDQEMLGLNIVEFAGDDEALIDERVNALCARLDELIASHQAGVIGWQVCRELAGVERIYAMRKKAVGLLGNAKGAAKPIPFAEDTCVPPEHLADYIAEFRALLDSHGLSYGMFGHVDAGVLHVRPALDMCDPQQEILMKQISDDVVALTAKYGGLLWGEHGKGFRAEYSPAFFGEELFAELRKVKAAFDPHNRLNPGKICPPEGLDAPMMKVDAVKRGTFDRQIPIAVRQQWRGAMECNGNGLCFNFDARSPMCPSMKITQNRIHSPKGRATLVREWLRLLADRGVDPLKLEQELPESGVSLRTLIARTRNSWHANKGEYDFSHEVKEAMSGCLACKACSTQCPIKIDVPEFRSRFLQLYHTRYLRPLRDHLVATVESYAPLMARAPKTFNFFINQPLVRKLSEKHIGMVDLPLLSVPSLQQQMVGHRSANMTLEQLESLNAEQKARTVLVVQDPFTSYYDAQVVADFVRLVEKLGFQPVLLPFSPNGKAQHIKGFLNRFAKTAKKTADFLNRMAKLGMPMVGVDPALVLCYRDEYKLALGEERGEFNVLLANEWLASALESQPVATVSGESWYFFGHCTEVTALPGAPAQWAAIFARFGAKLENVSVGCCGMAGTYGHEAKNHENSLGIYELSWHQAMQRLPRNRCLATGYSCRSQVKRVEGTGVRHPVQALLEIIK" "c" "Han et al., 2011" -"G6914-MONOMER" "MVNVRQPRDVAQILLSVLFLAIMIVACLWIVQPFILGFAWAGTVVIATWPVLLRLQKIMFGRRSLAVLVMTLLLVMVFIIPIALLVNSIVDGSGPLIKAISSGDMTLPDLAWLNTIPVIGAKLYAGWHNLLDMGGTAIMAKVRPYIGTTTTWFVGQAAHIGRFMVHCALMLLFSALLYWRGEQVAQGIRHFATRLAGVRGDAAVLLAAQAIRAVALGVVVTALVQAVLGGIGLAVSGVPYATLLTVLMILSCLVQLGPLPVLIPAIIWLYWTGDTTWGTVLLVWSGVVGTLDNVIRPMLIRMGADLPLILILSGVIGGLIAFGMIGLFIGPVLLAVSWRLFAAWVEEVPPPTDQPEEILEELGEIEKPNK" "i" "Han et al., 2011" -"G6915-MONOMER" "MNAYELQALRHIFAMTIDECATWIAQTGDSESWRQWENGKCAIPDRVVEQLLAMRQQRKKHLHAIIEKINNRIGNNTMRFFPDLTAFQRVYPDGNFIDWKIYQSVAAELYAHDLERLC" "c" "Han et al., 2011" -"G6918-MONOMER" "MDFSLTEEQELLLASIRELITTNFPEEYFRTCDQNGTYPREFMRALADNGISMLGVPEEFGGIPADYVTQMLALMEVSKCGAPAFLITNGQCIHSMRRFGSAEQLRKTAESTLETGDPAYALALTEPGAGSDNNSATTTYTRKNGKVYINGQKTFITGAKEYPYMLVLARDPQPKDPKKAFTLWWVDSSKPGIKINPLHKIGWHMLSTCEVYLDNVEVEESDMVGEEGMGFLNVMYNFEMERLINAARSTGFAECAFEDAARYANQRIAFGKPIGHNQMIQEKLALMAIKIDNMRNMVLKVAWQADQHQSLRTSAALAKLYCARTAMEVIDDAIQIMGGLGYTDEARVSRFWRDVRCERIGGGTDEIMIYVAGRQILKDYQNK" "c" "Han et al., 2011" -"G6919-MONOMER" "MYQRCFDNASETLFVAGKTPRLSRFAFSDDPKWESGHHVHDNETELIYVKKGVARFTIDSSLYVAHADDIVVIERGRLHAVASDVNDPATTCTCALYGFQFQGAEENQLLQPHSCPVIAAGQGKEVIKTLFNELSVILPQSKNSQTSSLWDAFAYTLAILYYENFKNAYRSEQGYIKKDVLIKDILFYLNNNYREKITLEQLSKKFRASVSYICHEFTKEYRISPINYVIQRRMTEAKWSLTNTELSQAEISWRVGYENVDHFAKLFLRHVGCSPSDYRRQFKNCFAEQEILSEFPQPVSLVG" "c" "Han et al., 2011" -"G6920-MONOMER" "MKIITCFKLVPEEQDIVVTPEYTLNFDNADAKISQFDLNAIEAASQLATDDDEIAALTVGGSLLQNSKVRKDVLSRGPHSLYLVQDAQLEHALPLDTAKALAAAIEKIGFDLLIFGEGSGDLYAQQVGLLVGEILQLPVINAVSAIQRQGNTLVIERTLEDDVEVIELSVPAVLCVTSDINVPRIPSMKAILGAGKKPVNQWQASDIDWSQSAPLAELVGIRVPPQTERKHIIIDNDSPEAIAELAEHLKKALN" "c" "Han et al., 2011" -"G6921-MONOMER" "MSQLNSVWVFSDNPERYAELFGGAQQWGQQVYAIVQNTDQAQAVMPYGPKCLYVLAQNDALQRTENYAESIAALLKDKHPAMLLLAATKRGKALAARLSVQLNAALVNDATAVDIVDGHICAEHRMYGGLAFAQEKINSPLAIITLAPGVQEPCTSDTSHQCPTETVPYVAPRHEILCRERRAKAASSVDLSKAKRVVGVGRGLAAQDDLKMVHELAAVLNAEVGCSRPIAEGENWMERERYIGVSGVLLKSDLYLTLGISGQIQHMVGGNGAKVIVAINKDKNAPIFNYADYGLVGDIYKVVPALISQLSR" "c" "Han et al., 2011" -"G6922-MONOMER" "MSDDKFDAIVVGAGVAGSVAALVMARAGLDVLVIERGDSAGCKNMTGGRLYAHTLEAIIPGFAVSAPVERKVTREKISFLTEESAVTLDFHREQPDVPQHASYTVLRNRLDPWLMEQAEQAGAQFIPGVRVDALVREGNKVTGVQAGDDILEANVVILADGVNSMLGRSLGMVPASDPHHYAVGVKEVIGLTPEQINDRFNITGEEGAAWLFAGSPSDGLMGGGFLYTNKDSISLGLVCGLGDIAHAQKSVPQMLEDFKQHPAIRPLISGGKLLEYSAHMVPEGGLAMVPQLVNEGVMIVGDAAGFCLNLGFTVRGMDLAIASAQAAATTVIAAKERADFSASSLAQYKRELEQSCVMRDMQHFRKIPALMENPRLFSQYPRMVADIMNEMFTIDGKPNQPVRKMIMGHAKKIGLINLLKDGIKGATAL" "c" "Han et al., 2011" -"G6923-MONOMER" "MSQNATVNVDIKLGVNKFHVDEGHPHIILAENPDINEFHKLMKACPAGLYKQDDAGNIHFDSAGCLECGTCRVLCGNTILEQWQYPAGTFGIDFRYG" "c" "Han et al., 2011" -"G6924-MONOMER" "MTLSFVTRWRDELPETYTALSPTPLNNARLIWHNTELANTLSIPSSLFKNGAGVWGGEALLPGMSPLAQVYSGHQFGVWAGQLGDGRGILLGEQLLADGTTMDWHLKGAGLTPYSRMGDGRAVLRSTIRESLASEAMHYLGIPTTRALSIVTSDSPVYRETAEPGAMLMRVAPSHLRFGHFEHFYYRRESEKVRQLADFAIRHYWSHLADDEDKYRLWFSDVVARTASLIAQWQTVGFAHGVMNTDNMSLLGLTLDYGPFGFLDDYEPGFICNHSDHQGRYSFDNQPAVALWNLQRLAQTLSPFVAVDALNEALDSYQQVLLTHYGERMRQKLGFMTEQKEDNALLNELFSLMARERSDYTRTFRMLSLTEQHSAASPLRDEFIDRAAFDDWFARYRGRLQQDEVSDSERQQLMQSVNPALVLRNWLAQRAIEAAEKGDMTELHRLHEALRNPFSDRDDDYVSRPPDWGKRLEVSCSS" "c" "Han et al., 2011" -"G6925-MONOMER" "MKIFLENLYHSDCYFLPIRDNQQVLVGVELITHFSSEDGTVRIPTSRVIAQLTEEQHWQLFSEQLELLKSCQHFFIQHKLFAWLNLTPQVATLLLERDNYAGELLKYPFIELLINENYPHLNEGKDNRGLLSLSQVYPLVLGNLGAGNSTMKAVFDGLFTRVMLDKSFIQQQITHRSFEPFIRAIQAQISPCCNCIIAGGIDTAEILAQITPFDFHALQGCLWPAVPINQITTLVQR" "c" "Han et al., 2011" -"G6926-MONOMER" "MSQNDIIIRTHYKSPHRLHIDSDIPTPSSEPINQFARQLITLLDTSDLSSMLSYCVTQEFTANCRKISQNCYSTALFTINFATSPIHTENILITLHYKKEIISLLLETTPIKANHLRSILDYIEQEQLTAEDRNHCMKLSKKIHREKNYTPNSKSQW" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6927-MONOMER" "LQSPSDAIFCRHLSLQYALDSLRNGKGKVNLIKHYSSVESIQQHVPLVRDAEFRALLRHPPAGSRVIASKDFGFALDIFFCRMMANNVSHMSAILYIDNHTLSVRLRIKQSVYGQLNYVVSVYDPNDTNVAVRDTHRTARGFLSLDKFISSGPDAQTWADRYVRNCAIAILPLLPVGVPGAIFAGIASRMPFAPIHPSAMLLIMATGQSQQLITLFKQLPILPEKEIIEIITAQNSVGTPALFLAMMNGHTDNVKIFMQEIQSLVDNHIIHEDNLVKLLQTKSANETPGLYISMLYGFDEIIDIFLNALTTPIAQELLNKKLVMSILAMKIHDGEPGLYAAMENNHPLCVTRFLSKINGIAFKYKLSKANIMDLLKGATAQGTPALYIAMSKGNEDVVLSYISTLGAFAKKHSFSQHQLFTLLAAKNHDNMSAVHIAIHHKHYKTVETYYAAINAISQSLSFSADEIKTYL" "m" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6928-MONOMER" "MKLLKTVPAIVMLAGGMFASLNAAADDSVFTVMDDPASAKKPFEGNLNAGYLAQSGNTKSSSLTADTTMTWYGHTTAWSLWGNASNTSSNDERSSEKYAAGGRSRFNLTDYDYLFGQASWLTDRYNGYRERDVLTAGYGRQFLNGPVHSFRFEFGPGVRYDKYTDNASETQPLGYASGAYAWQLTDNAKFTQGVSVFGAEDTTLNSESALNVAINEHFGLKVAYNVTWNSEPPESAPEHTDRRTTLSLGYSM" "o" "Han et al., 2011" -"G6929-MONOMER" "MASGDLVRYVITVMLHEDTLTEINELNNYLTRDGFLLTMTDDEGNIHELGTNTFGLISTQSEEEIRELVSGLTQSATGKDPEITITTWEEWNSNRK" "c" "Han et al., 2011" -"G6930-MONOMER" "MWQAISRLLSEQLGEGEIELRNELPGGEVHAAWHLRYAGHDFFVKCDERELLPGFTAEADQLELLSRSKTVTVPKVWAVGADRDYSFLVMDYLPPRPLDAHSAFILGQQIARLHQWSDQPQFGLDFDNALSTTPQPNTWQRRWSTFFAEQRIGWQLELAAEKGIAFGNIDAIVEHIQQRLASHQPQPSLLHGDLWSGNCALGPDGPYIFDPACYWGDRECDLAMLPLHTEQPPQIYDGYQSVSPLPADFLERQPVYQLYTLLNRARLFGGQHLVIAQQSLDRLLAA" "c" "Han et al., 2011" -"G6931-MONOMER" "MTYQQAGRIAVLKRILGWVIFIPALISTLISLLKFMNTRQENKEGINAVMLDFTHVMIDMMQANTPFLNLFWYNSPTPNFNGGVNVMFWVIFILIFVGLALQDSGARMSRQARFLREGVEDQLILEKAKGEEGLTREQIESRIVVPHHTIFLQFFSLYILPVICIAAGYVFFSLLGFI" "i" "Han et al., 2011" -"G6932-MONOMER" "MSTPRQILAAIFDMDGLLIDSEPLWDRAELDVMASLGVDISRRNELPDTLGLRIDMVVDLWYARQPWNGPSRQEVVERVIARAISLVEETRPLLPGVREAVALCKEQGLLVGLASASPLHMLEKVLTMFDLRDSFDALASAEKLPYSKPHPQVYLDCAAKLGVDPLTCVALEDSVNGMIASKAARMRSIVVPAPEAQNDPRFVLADVKLSSLTELTAKDLLG" "c" "Han et al., 2011" -"G6933-MONOMER" "MTAEGHLLFSIACAVFAKNAELTPVLAQGDWWHIVPSAILTCLLPDIDHPKSFLGQRLKWISKPIARAFGHRGFTHSLLAVFALLATFYLKVPEGWFIPADALQGMVLGYLSHILADMLTPAGVPLLWPCRWRFRLPILVPQKGNQLERFICMALFVWSVWMPHSLPENSAVRWSSQMINTLQIQFHRLIKHQVEY" "c" "Han et al., 2011" -"G6934-MONOMER" "MNFPLIANIVVFVVLLFALAQTRHKQWSLAKKVLVGLVMGVVFGLALHTIYGSDSQVLKDSVQWFNIVGNGYVQLLQMIVMPLVFASILSAVARLHNASQLGKISFLTIGTLLFTTLIAALVGVLVTNLFGLTAEGLVQGGAETARLNAIESNYVGKVSDLSVPQLVLSFIPKNPFADLTGANPTSIISVVIFAAFLGVAALKLLKDDAPKGERVLAAIDTLQSWVMKLVRLVMQLTPYGVLALMTKVVAGSNLQDIIKLGSFVVASYLGLLIMFAVHGILLGINGVSPLKYFRKVWPVLTFAFTSRSSAASIPLNVEAQTRRLGVPESIASFAASFGATIGQNGCAGLYPAMLAVMVAPTVGINPLDPMWIATLVGIVTVSSAGVAGVGGGATFAALIVLPAMGLPVTLVALLISVEPLIDMGRTALNVSGSMTAGTLTSQWLKQTDKAILDSEDDAELAHH" "i" "Han et al., 2011" -"G6935-MONOMER" "MRREMFSTNLIQSNYGDLNIKSLAFDSFKERLQSTMTALTFFISTGQCDCDEIAESNFNYMIAYMSNINYDASKPGAPALSFDTYLQDNVKYRVIINNLYGSEIRIRGINKDFIGMDVTSVFRPEKMTNLISIKNRLVIHYLRTIYYEQNYIHPVGSIFAAIQKNESLLKFPSIISMLNINLLFNPLNLPGMGSGVLEDIMSIPDSSLRKRLGYEVLSFSLQAHSLSQECIDKLDIFFADDLFKYESVCIAAMEHLKSKATAPIQNGPLPA" "c" "Han et al., 2011" -"G6936-MONOMER" "MKKPLRQQNRQIISYVPRTEPAPPEHAIKMDSFRDVWMLRGKYVAFVLMGESFLRSPAFTVPESAQRWANQIRQEGEVTE" "c" "Han et al., 2011" -"G6937-MONOMER" "VVRRLTSPRLEFEAAAIYEYPEHLRSFLNDLPTRPGVYLFHGESDTMPLYIGKSVNIRSRVLSHLRTPDEAAMLRQSRRISWICTAGEIGALLLEARLIKEQQPLFNKRLRRNRQLCALQLNEKRVDVVYAKEVDFSRAPNLFGLFANRRAALQALQTIADEQKLCYGLLGLEPLSRGRACFRSALKRCAGACCGKESHEEHALRLRQSLERLRVVCWPWQGAVALKEQHPEMTQYHIIQNWLWLGAVNSLEEATTLIRTPAGFDHDGYKILCKPLLSGNYEITELDPANDQRAS" "c" "Han et al., 2011" -"G6938-MONOMER" "MEYFDMRKMSVNLWRNAAGETREICTFPPAKRDFYWRASIASIAANGEFSLFPGMERIVTLLEGGEMLLESADRFNHTLKPFQPFAFAADQVVKAKLTAGQMSMDFNIMTRLDVCKAKVRIAERTFTTFGSRGGVVFVINGAWQLGDKLLTTDQGACWFDGRHTLRLLQPQGKLLFSEINWLAGHSPDQVQ" "c" "Han et al., 2011" -"G6939-MONOMER" "MRKLTALFVASTLALGAANLAHAADTTTAAPADAKPMMHHKGKFGPHQDMMFKDLNLTDAQKQQIREIMKGQRDQMKRPPLEERRAMHDIIASDTFDKVKAEAQIAKMEEQRKANMLAHMETQNKIYNILTPEQKKQFNANFEKRLTERPAAKGKMPATAE" "p" "Han et al., 2011" -"G6945-MONOMER" "MNAERKFLFACLIFALVIYAIHAFGLFDLLTDLPHLQTLIRQSGFFGYSLYILLFIIATLLLLPGSILVIAGGIVFGPLLGTLLSLIAATLASSCSFLLARWLGRDLLLKYVGHSNTFQAIEKGIARNGIDFLILTRLIPLFPYNIQNYAYGLTTIAFWPYTLISALTTLPGIVIYTVMASDLANEGITLRFILQLCLAGLALFILVQLAKLYARHKHVDLSASRRSPLTHPKNEG" "i" "Han et al., 2011" -"G6946-MONOMER" "MLQHYSVSWKKGLAALCLLAVAGLSGCDQQENAAAKVEYDGLSNSQPLRVDANNHTVTMLVQINGRFLTDDTRHGIVFKDGSNGHKSLFMGYATPKAFYEALKEAGGTPGENMTMDNKETTHVTGSKLDISVNWQGAAKAYSFDEVIVDSNGKKLDMRFGGNLTAAEEKKTGCLVCLDSCPVGIVSNATYTYGAVEKRGEVKFKGNASVLPADNTLATVTFKIAE" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G6947-MONOMER" "MMMMQSRKIWYYRITLIILLFAMLLAWALLPGVHEFINRSVAAFAAVDQQGIERFIQSYGALAAVVSFLLMILQAIAAPLPAFLITFANASLFGAFWGGLLSWTSSMAGAALCFFIARVMGREVVEKLTGKTVLDSMDGFFTRYGKHTILVCRLLPFVPFDPISYAAGLTSIRFRSFFIATGLGQLPATIVYSWAGSMLTGGTFWFVTGLFILFALTVVIFMAKKIWLERQKRNA" "i" "Han et al., 2011" -"G6948-MONOMER" "MGLPPLSKIPLILRPQAWLHRRHYGEVLSPIRWWGRIPFIFYLVSMFVGWLERKRSPLDPVVRSLVSARIAQMCLCEFCVDITSMKVAERTGSSDKLLAVADWRQSPLFSDEERLALEYAEAASVTPPTVDDALRTRLAAHFDAQALTELTALIGLQNLSARFNSAMDIPAQGLCRIPEKRS" "c" "Han et al., 2011" -"G6949-MONOMER" "MRHCGWLLGLLSLFSLATHASDWQEIKNEAKGQTVWFNAWGGDTAINRYLDWVSGEMKTHYAINLKIVRLADAADAVKRIQTEAAAGRKTGGSVDLLWVNGENFRTLKEANLLQTGWAETLPNWRYVDTQLPVREDFSVPTQGAESPWGGAQLTFIARRDVTPQPPQTPQALLEFAKANPGTVTYPRPPDFTGTAFLEQLLIMLTPDPAALKEAPDDATFARVTAPLWQYLDVLHPYLWREGKDFPPSPARMDALLKAGTLRLSLTFNPAHAQQKIASGDLPASSYSFGFREGMIGNVHFVTIPANANASAAAKVVANFLLSPDAQLRKADPAVWGDPSVLDPQKLPDGQRESLQSRMPQDLPPVLAEPHAGWVNALEQEWLHRYGTH" "p" "Han et al., 2011" -"G6952-MONOMER" "MKRVSQMTALAMALGLACASSWAAELAKPLTLDQLQQQNGKAIDTRPSAFYNGWPQTLNGPSGHELAALNLSASWLDKMSTEQLNAWIKQHNLKTDAPVALYGNDKDVDAVKTRLQKAGLTHISILSDALSEPSRLQKLPHFEQLVYPQWLHDLQQGKEVTAKPAGDWKVIEAAWGAPKLYLISHIPGADYIDTNEVESEPLWNKVSDEQLKAMLAKHGIRHDTTVILYGRDVYAAARVAQIMLYAGVKDVRLLDGGWQTWSDAGLPVERGTPPKVKAEPDFGVKIPAQPQLMLDMEQARGLLHRQDASLVSIRSWPEFIGTTSGYSYIKPKGEIAGARWGHAGSDSTHMEDFHNPDGTMRSADDITAMWKAWNIKPEQQVSFYCGTGWRASETFMYARAMGWKNVSVYDGGWYEWSSDPKNPVATGERGPDSSK" "c" "Han et al., 2011" -"G6953-MONOMER" "VLDRHLHPRIKPLLHQCVRVLDKPGITPDGLTLVGFAIGVLALPFLALGWYLAALVVILLNRLLDGLDGALARRRELTDAGGFLDISLDFLFYALVPFGFILAAPEQNALAGGWLLFAFIGTGSSFLAFAALAAKHQIDNPGYAHKSFYYLGGLTEGTETILLFVLGCLFPAWFAWFAWIFGALCWMTTFTRVWSGYLTLKSLQRQ" "i" "Han et al., 2011" -"G6954-MONOMER" "MKMIEVVAAIIERDGKILLAQRPAQSDQAGLWEFAGGKVEPDESQRQALVRELREELGIEATVGEYVASHQREVSGRIIHLHAWHVPDFHGTLQAHEHQALVWCSPEEALQYPLAPADIPLLEAFMALRAARPAD" "c" "Han et al., 2011" -"G6955-MONOMER" "VSRALFAVVLAFPLIALANPHYRPDVEVNVPPEVFSSGGQSAQPCTQCCVYQDQNYSEGAVIKAEGILLQCQRDDKTLSTNPLVWRRVKP" "p" "Han et al., 2011" -"G6956-MONOMER" "MKKVLLQNHPGSEKYSFNGWEIFNSNFERMIKENKAMLLCKWGFYLTCVVAVMFVFAAITSNGLNERGLITAGCSFLYLLIMMGLIVRAGFKAKKEQLHYYQAKGIEPLSIEKLQALQLIAPYRFYHKQWSETLEFWPRKPEPGKDTFQYHVLPFDSIDIISKRRESLEDQWGIEDSESYCALMEHFLSGDHGANTFKANMEEAPEQVIALLNKFAVFPSDYISDCANHSSGKSSAKLIWAAELSWMISISSTAFQNGTIEEELAWHYIMLASRKAHELFESEEDYQKNSQMGFLYWHICCYRRKLTDAELEACYRYDKQFWEHYSKKCRWPIRNVPWGASSVKYS" "i" "Han et al., 2011" -"G6957-MONOMER" "VAAKDRIQAIKQMVANDKKVTVSNLSGIFQVTEETIRRDLEKLEDEGFLTRTYGGAVLNTAMLTENIHFYKRASSFYEEKQLIARKALPFIDNKTTMAADSSSTVMELLKLLQDRSGLTLLTNSAEAIHVLAQSEIKVVSTGGELNKNTLSLQGRITKEIIRRYHVDIMVMSCKGLDINSGALDSNEAEAEIKKTMIRQATEVALLVDHSKFDRKAFVQLADFSHINYIITDKSPGAEWIAFCKDNNIQLVW" "c" "Han et al., 2011" -"G6958-MONOMER" "MKKIPLGTTDITLSRMGLGTWAIGGGPAWNGDLDRQICIDTILEAHRCGINLIDTAPGYNFGNSEVIVGQALKKLPREQVVVETKCGIVWERKGSLFNKVGDRQLYKNLSPESIREEVAASLQRLGIDYIDIYMTHWQSVPPFFTPIAETVAVLNELKSEGKIRAIGAANVDADHIREYLQYGELDIIQAKYSILDRAMENELLPLCRDNGIVVQVYSPLEQGLLTGTITRDYVPGGARANKVWFQRENMLKVIDMLEQWQPLCARYQCTIPTLALAWILKQSDLISILSGATAPEQVRENVAALNINLSDADATLMREMAEALER" "c" "Han et al., 2011" -"G6959-MONOMER" "MDNLDVICIGAAIVDIPLQPVSKNIFDVDSYPLERIAMTTGGDAINEATIISRLGHRTALMSRIGKDAAGQFILDHCRKENIDIQSLKQDVSIDTSINVGLVTEDGERTFVTNRNGSLWKLNIDDVDFARFSQAKLLSLASIFNSPLLDGKALTEIFTQAKARQMIICADMIKPRLNETLDDICEALSYVDYLFPNFAEAKLLTGKETLDEIADCFLACGVKTVVIKTGKDGCFIKRGDMTMKVPAVAGITAIDTIGAGDNFASGFIAALLEGKNLRECARFANATAAISVLSVGATTGVKNRKLVEQLLEEYEG" "c" "Han et al., 2011" -"G6960-MONOMER" "MLADIRYWENDATNKHYAIAHFNVWNAEMLMGVIDAAEEAKSPVIISFGTGFVGNTSFEDFSHMMVSMAQKATVPVITHWDHGRSMEIIHNAWTHGMNSLMRDASAFDFEENIRLTKEAVDFFHPLGIPVEAELGHVGNETVYEEALAGYHYTDPDQAAEFVERTGCDSLAVAIGNQHGVYTSEPQLNFEVVKRVRDAVSVPLVLHGASGISDADIKTAISLGIAKINIHTELCQAAMVAVKENQDQPFLHLEREVRKAVKERALEKIKLFGSDGKAE" "c" "Han et al., 2011" -"G6961-MONOMER" "MKNSKAILQVPGTMKIISAEIPVPKEDEVLIKVEYVGICGSDVHGFESGPFIPPKDPNQEIGLGHECAGTVVAVGSRVRKFKPGDRVNIEPGVPCGHCRYCLEGKYNICPDVDFMATQPNYRGALTHYLCHPESFTYKLPDNMDTMEGALVEPAAVGMHAAMLADVKPGKKIIILGAGCIGLMTLQACKCLGATEIAVVDVLEKRLAMAEQLGATVVINGAKEDTIARCQQFTEDMGADIVFETAGSAVTVKQAPYLVMRGGKIMIVGTVPGDSAINFLKINREVTIQTVFRYANRYPVTIEAISSGRFDVKSMVTHIYDYRDVQQAFEESVNNKRDIIKGVIKISD" "c" "Han et al., 2011" -"G6963-MONOMER" "MKALARFGKAFGGYKMIDVPQPMCGPEDVVIEIKAAAICGADMKHYNVDSGSDEFNSIRGHEFAGCIAQVGEKVKDWKVGQRVVSDNSGHVCGVCPACEQGDFLCCTEKVNLGLDNNTWGGGFSKYCLVPGEILKIHRHALWEIPDGVDYEDAAVLDPICNAYKSIAQQSKFLPGQDVVVIGTGPLGLFSVQMARIMGAVNIVVVGLQEDVAVRFPVAKELGATAVVNGSTEDVVARCQQICGKDNLGLVIECSGANIALKQAIEMLRPNGEVVRVGMGFKPLDFSINDITAWNKSIIGHMAYDSTSWRNAIRLLASGAIKVKPMITHRIGLSQWREGFDAMVDKTAIKVIMTYDFDE" "c" "Han et al., 2011" -"G6964-MONOMER" "MNLDDIINSMMPEVYQRLSTAVELGKWPDGVALTEEQKENCLQLVMLWQARHNIEAQHMTIDTNGQMVMKSKQQLKEDFGISAKPIAMFK" "c" "Han et al., 2011" -"G6966-MONOMER" "MIKKIFALPVIEQISPVLSRRKLDELDLIVVDHPQVKASFALQGAHLLSWKPAGEEEVLWLSNNTPFKNGVAIRGGVPVCWPWFGPAAQQGLPAHGFARNLPWTLKSHHEDADGVALTFELTQSEETKKFWPHDFTLLAHFRVGKTCEIDLESHGEFETTSALHTYFNVGDIAKVSVSGLGDRFIDKVNDAKENVLTDGIQTFPDRTDRVYLNPQDCSVINDEALNRIIAVGHQHHLNVVGWNPGPALSISMGDMPDDGYKTFVCVETAYASETQKVTKEKPAHLAQSIRVAKR" "c" "Lopez-Campistrous et al., 2005" -"G6967-MONOMER" "MQQKMIQFSGDVSLPAVGQGTWYMGEDASQRKTEVAALRAGIELGLTLIDTAEMYADGGAEKVVGEALTGLREKVFLVSKVYPWNAGGQKAINACEASLRRLNTDYLDLYLLHWSGSFAFEETVAAMEKLIAQGKIRRWGVSNLDYADMQELWQLPGGNQCATNQVLYHLGSRGIEYDLLPWCQQQQMPVMAYSPLAQAGRLRNGLLKNAVVNEIAHAHNISAAQVLLAWVISHQGVMAIPKAATIAHVQQNAAVLEVELSSAELAMLDKAYPAPKGKTALDMV" "c" "Han et al., 2011" -"G6968-MONOMER" "VTKLKLLALGVLIATSAGVAHAEGKFSLGAGVGVVEHPYKDYDTDVYPVPVINYEGDNFWFRGLGGGYYLWNDATDKLSITAYWSPLYFKAKDSGDHQMRHLDDRKSTMMAGLSYAHFTQYGYLRTTLAGDTLDNSNGIVWDMAWLYRYTNGGLTVTPGIGVQWNSENQNEYYYGVSRKESARSGLRGYNPNDSWSPYLELSASYNFLGDWSVYGTARYTRLSDEVTDSPMVDKSWTGLISTGITYKF" "o" "Lopez-Campistrous et al., 2005" -"G6969-MONOMER" "MNIFDHYRQRYEAAKDEEFTLQEFLTTCRQDRSAYANAAERLLMAIGEPVMVDTAQEPRLSRLFSNRVIARYPAFEEFYGMEDAIEQIVSYLKHAAQGLEEKKQILYLLGPVGGGKSSLAERLKSLMQLVPIYVLSANGERSPVNDHPFCLFNPQEDAQILEKEYGIPRRYLGTIMSPWAAKRLHEFGGDITKFRVVKVWPSILQQIAIAKTEPGDENNQDISALVGKVDIRKLEHYAQNDPDAYGYSGALCRANQGIMEFVEMFKAPIKVLHPLLTATQEGNYNGTEGISALPFNGIILAHSNESEWVTFRNNKNNEAFLDRVYIVKVPYCLRISEEIKIYEKLLNHSELTHAPCAPGTLETLSRFSILSRLKEPENSSIYSKMRVYDGESLKDTDPKAKSYQEYRDYAGVDEGMNGLSTRFAFKILSRVFNFDHVEVAANPVHLFYVLEQQIEREQFPQEQAERYLEFLKGYLIPKYAEFIGKEIQTAYLESYSEYGQNIFDRYVTYADFWIQDQEYRDPDTGQLFDRESLNAELEKIEKPAGISNPKDFRNEIVNFVLRARANNSGRNPNWTSYEKLRTVIEKKMFSNTEELLPVISFNAKTSTDEQKKHDDFVDRMMEKGYTRKQVRLLCEWYLRVRKSS" "c" "Han et al., 2011" -"G6970-MONOMER" "MTWFIDRRLNGKNKSMVNRQRFLRRYKAQIKQSISEAINKRSVTDVDSGESVSIPTEDISEPMFHQGRGGLRHRVHPGNDHFVQNDRIERPQGGGGGSGSGQGQASQDGEGQDEFVFQISKDEYLDLLFEDLALPNLKQNQQRQLTEYKTHRAGYTANGVPANISVVRSLQNSLARRTAMTAGKRRELHALEENLAIISNSEPAQLLEEERLRKEIAELRAKIERVPFIDTFDLRYKNYEKRPDPSSQAVMFCLMDVSGSMDQSTKDMAKRFYILLYLFLSRTYKNVEVVYIRHHTQAKEVDEHEFFYSQETGGTIVSSALKLMDEVVKERYNPAQWNIYAAQASDGDNWADDSPLCHEILAKKLLPVVRYYSYIEITRRAHQTLWREYEHLQSTFDNFAMQHIRDQDDIYPVFRELFHKQNATAKG" "c" "Han et al., 2011" -"G6971-MONOMER" "MIQSTRISMGLFFKYFLSLTKIDPGQNYISLPSIKSSTHIALLFMVSMGTQKLKAQSFFIFSLLLTLILFCITTLYNENTNVKLIPQMNYLMVVVALFFLNAVIFLFMLMKYFTNKQILPTLILSLAFLSGLIYLVETIVIIHKPINGSTLIQTKSNDVSIFYIFRQLSFICLTSLALFCYGKDNILDNNKKKTGILLLALIPFLVFPLLAHNLSSYNADYSLYVVDYCPDNHTATWGINYTKILVCLWAFLLFFIIMRTRLASELWPLIALLCLASLCCNLLLLTLDEYNYTIWYISRGIEVSSKLFVVSFLIYNIFQELQLSSKLAVHDVLTNIYNRRYFFNSVESLLSRPVVKDFCVMLVDINQFKRINAQWGHRVGDKVLVSIVDIIQQSIRPDDILARLEGEVFGLLFTELNSAQAKIIAERMRKNVELLTGFSNRYDVPEQMTISIGTVFSTGDTRNISLVMTEADKALREAKSEGGNKVIIHHI" "i" "Han et al., 2011" -"G6972-MONOMER" "MKLHHRMLRHFIAASVIVLTSSFLIFELVASDRAMSAYLRYIVQKADSSFLYDKYQNQSIAAHVMRALAAEQSEVSPEQRRAICEAFESANNTHGLNLTAHKYPGLRGTLQTASTDCDTIVEAAALLPAFDQAVEGNRHQDDYGSGLGMAEEKFHYYLDLNDRYVYFYEPVNVEYFAMNNWSFLQSGSIGIDRKDIEKVFTGRTVLSSIYQDQRTKQNVMSLLTPVYVAGQLKGIVLLDINKNNLRNIFYTHDRPLLWRFLNVTLTDTDSGRDIIINQSEDNLFQYVSYVHDLPGGIRVSLSIDILYFITSSWKSVLFWILTALILLNMVRMHFRLYQNVSRENISDAMTGLYNRKILTPELEQRLQKLVQSGSSVMFIAIDMDKLKQINDTLGHQEGDLAITLLAQAIKQSIRKSDYAIRLGGDEFCIILVDSTPQIAAQLPERIEKRLQHIAPQKEIGFSSGIYAMKENDTLHDAYKASDERLYVNKQNKNSRS" "i" "Han et al., 2011" -"G6973-MONOMER" "MTEMAKGSVTHQRLIALLSQEGADFRVVTHEAVGKCEAVSEIRGTALGQGAKALVCKVKGNGVNQHVLAILAADQQADLSQLASHIGGLRASLASPAEVDELTGCVFGAIPPFSFHPKLKLVADPLLFERFDEIAFNAGMLDKSVILKTADYLRIAQPELVNFRRTA" "c" "Han et al., 2011" -"G6974-MONOMER" "MNDQMFVETLIITSSFFAIAVVLVLSVLLIERTG" "i" "Han et al., 2011" -"G6975-MONOMER" "MFDVTLLILLGLAALGFISHNTTVAVSILVLIIVRVTPLSTFFPWIEKQGLSIGIIILTIGVMAPIASGTLPPSTLIHSFLNWKSLVAIAVGVIVSWLGGRGVTLMGSQPQLVAGLLVGTVLGVALFRGVPVGPLIAAGLVSLIVGKQ" "i" "Han et al., 2011" -"G6976-MONOMER" "MMHRLNLNGYEPDRHHEAAVAFCIHAGTDELTSPVHQHRKGQLILALHGAITCTVENALWMVPPQYAVWIPGGVEHSNQVTANAELCFLFIEPSAVTMPTTCCTLKISPLCRELILTLANRTTTQRAEPMTRRLIQVLFDELPQQPQQQLHLPVSSHPKIRTMVEMMAKGPVEWGALGQWAGFFAMSERNLARLIVKETGLSFRQWRQQLQLIMALQGLVKGDTVQKVAHTLGYDSTTAFITMFKKGLGQTPGRYIARLTTVSPQSAKPDPRQ" "c" "Han et al., 2011" -"G6978-MONOMER" "MNIQCKRVYDPAEQSDGYRILVDRLWPRGIKKTDLALDEWDKEITPSTELRKAFHGEVVDYATFREQYLAELAQHEQEGKRLADIAKKQPLTLLYSAKNTTQNHALVLADWLRSL" "c" "Han et al., 2011" -"G6979-MONOMER" "MKIISFVLPCLLVLAGCSTPSQPEAPKPPQIGMANPASVYCQQKGGTLIPVQTAQGVSNNCKLPGGETIDEWALWRRDHPAGEK" "p" "Han et al., 2011" -"G6980-MONOMER" "VSDQIIARVSQSLAKEQSLESLVRQLLEMLEMVTDMESTYLTKVDVEARLQHIMFARNSQKMYIPENFTVSWDYSLCKRAIDENCFFSDEVPDRWGDCIAARNLGITTFLSTPIHLPDGSFYGTLCAASSEKRQWSERAEQVLQLFAGLIAQYIQKEALVEQLREANAALIAQSYTDSLTGLPNRRAIFENLTTLFSLARHLNHKIMIAFIDLDNFKLINDRFGHNSGDLFLIQVGERLNTLQQNGEVIGRLGGDEFLVVSLNNENADISSLRERIQQQIRGEYHLGDVDLYYPGASLGIVEVDPETTDADSALHAADIAMYQEKKHKQKTPFVAHPALHS" "c" "Han et al., 2011" -"G6981-MONOMER" "MGILSWIIFGLIAGILAKWIMPGKDGGGFFMTILLGIVGAVVGGWISTLFGFGKVDGFNFGSFVVAVIGAIVVLFIYRKIKS" "i" "Han et al., 2011" -"G6982-MONOMER" "MGKATYTVTVTNNSNGVSVDYETETPMTLLVPEVAAEVIKDLVNTVRSYDTENEHDVCGW" "c" "Han et al., 2011" -"G6983-MONOMER" "MLQIPQNYIHTRSTPFWNKQTAPAGIFERHLDKGTRPGVYPRLSVMHGAVKYLGYADEHSAEPDQVILIEAGQFAVFPPEKWHNIEAMTDDTYFNIDFFVAPEVLMEGAQQRKVIHNGK" "c" "Han et al., 2011" -"G6984-MONOMER" "VFAEYGVLNYWTYLVGAIFIVLVPGPNTLFVLKNSVSSGMKGGYLAACGVFIGDAVLMFLAWAGVATLIKTTPILFNIVRYLGAFYLLYLGSKILYATLKGKNSEAKSDEPQYGAIFKRALILSLTNPKAILFYVSFFVQFIDVNAPHTGISFFILAATLELVSFCYLSFLIISGAFVTQYIRTKKKLAKVGNSLIGLMFVGFAARLATLQS" "i" "Han et al., 2011" -"G6985-MONOMER" "MNNLPLLNDLRVFMLVARRAGFAAVAEELGVSPAFVSKRIALLEQTLNVVLLHRTTRRVTITEEGERIYEWAQRILQDVGQMMDELSDVRQVPQGMLRIISSFGFGRQVVAPALLALAKAYPQLELRFDVEDRLVDLVNEGVDLDIRIGDDIAPNLIARKLATNYRILCASPEFIAQHGAPKHLTDLSALPCLVIKERDHPFGVWQLRNKEGPHAIKVTGPLSSNHGEIVHQWCLDGQGIALRSWWDVSENIASGHLVQVLPEYYQPANVWAVYVSRLATSAKVRITVEFLRQYFAEHYPNFSLEHA" "c" "Han et al., 2011" -"G6986-MONOMER" "MMKTMRIAAIPGDGIGKEVLPEGIRVLQAAAERWGFALSFEQMEWASCEYYSHHGKMMPDDWHEQLSRFDAIYFGAVGWPDTVPDHISLWGSLLKFRREFDQYVNLRPVRLFPGVPCPLAGKQPGDIDFYVVRENTEGEYSSLGGRVNEGTEHEVVIQESVFTRRGVDRILRYAFELAQSRPRKTLTSATKSNGLAISMPYWDERVEAMAENYPEIRWDKQHIDILCARFVMQPERFDVVVASNLFGDILSDLGPACTGTIGIAPSANLNPERTFPSLFEPVHGSAPDIYGKNIANPIATIWAGAMMLDFLGNGDERFQQAHNGILAAIEEVIAHGPKTPDMKGNATTPQVADAICKIILR" "c" "Han et al., 2011" -"G6988-MONOMER" "MSNLSPDFVLPENFCANPQEAWTIPARFYTDQNAFEHEKENVFAKSWICVAHSSELANANDYVTREIIGESIVLVRGRDKVLRAFYNVCPHRGHQLLSGEGKAKNVITCPYHAWAFKLDGNLAHARNCENVANFDSDKAQLVPVRLEEYAGFVFINMDPNATSVEDQLPGLGAKVLEACPEVHDLKLAARFTTRTPANWKNIVDNYLECYHCGPAHPGFSDSVQVDRYWHTMHGNWTLQYGFAKPSEQSFKFEEGTDAAFHGFWLWPCTMLNVTPIKGMMTVIYEFPVDSETTLQNYDIYFTNEELTDEQKSLIEWYRDVFRPEDLRLVESVQKGLKSRGYRGQGRIMADSSGSGISEHGIAHFHNLLAQVFKD" "c" "Han et al., 2011" -"G6989-MONOMER" "MSDYQMFEVQVSQVEPLTEQVKRFTLVATDGKPLPAFTGGSHVIVQMSDGDNQYSNAYSLLSSPHDTSCYQIAVRLEENSRGGSRFLHQQVKVGDRLTISTPNNLFALIPSARKHLFIAGGIGITPFLSHMAELQHSDVDWQLHYCSRNPESCAFRDELVQHPQAEKVHLHHSSTGTRLELARLLADIEPGTHVYTCGPEALIEAVRSEAARLDIAADTLHFEQFAIEDKTGDAFTLVLARSGKEFVVPEEMTILQVIENNKAAKVECLCREGVCGTCETAILEGEADHRDQYFSDEERASQQSMLICCSRAKGKRLVLDL" "c" "Han et al., 2011" -"G6990-MONOMER" "MAVQKNVIKGILAGTFALMLSGCVTVPDAIKGSSPTPQQDLVRVMSAPQLYVGQEARFGGKVVAVQNQQGKTRLEIATVPLDSGARPTLGEPSRGRIYADVNGFLDPVDFRGQLVTVVGPITGAVDGKIGNTPYKFMVMQVTGYKRWHLTQQVIMPPQPIDPWFYGGRGWPYGYGGWGWYNPGPARVQTVVTE" "o" "Han et al., 2011" -"G6991-MONOMER" "MRILAIDTATEACSVALWNDGTVNAHFELCPREHTQRILPMVQDILTTSGTSLTDINALAYGRGPGSFTGVRIGIGIAQGLALGAELPMIGVSTLMTMAQGAWRKNGATRVLAAIDARMGEVYWAEYQRDENGIWHGEETEAVLKPEIVHERMQQLSGEWVTVGTGWQAWPDLGKESGLVLRDGEVLLPAAEDMLPIACQMFAEGKTVAVEHAEPVYLRNNVAWKKLPGKE" "c" "Han et al., 2011" -"G6992-MONOMER" "VTDDFAPDGQLAKAIPGFKPREPQRQMAVAVTQAIEKGQPLVVEAGTGTGKTYAYLAPALRAKKKVIISTGSKALQDQLYSRDLPTVSKALKYTGNVALLKGRSNYLCLERLEQQALAGGDLPVQILSDVILLRSWSNQTVDGDISTCVSVAEDSQAWPLVTSTNDNCLGSDCPMYKDCFVVKARKKAMDADVVVVNHHLFLADMVVKESGFGELIPEADVMIFDEAHQLPDIASQYFGQSLSSRQLLDLAKDITIAYRTELKDTQQLQKCADRLAQSAQDFRLQLGEPGYRGNLRELLANPQIQRAFLLLDDTLELCYDVAKLSLGRSALLDAAFERATLYRTRLKRLKEINQPGYSYWYECTSRHFTLALTPLSVADKFKELMAQKPGSWIFTSATLSVNDDLHHFTSRLGIEQAESLLLPSPFDYSRQALLCVLRNLPQTNQPGSARQLAAMLRPIIEANNGRCFMLCTSHAMMRDLAEQFRATMTLPVLLQGETSKGQLLQQFVSAGNALLVATSSFWEGVDVRGDTLSLVIIDKLPFTSPDDPLLKARMEDCRLRGGDPFDEVQLPDAVITLKQGVGRLIRDADDRGVLVICDNRLVMRPYGATFLASLPPAPRTRDIARAVRFLAIPSSR" "c" "Han et al., 2011" -"G6993-MONOMER" "MTIVRIDAEARWSDVVIHNNTLYYTGVPENLDADAFEQTANTLAQIDAVLEKQGSNKSSILDATIFLADKNDFAAMNKAWDAWVVAGHAPVRCTVQAGLMNPKYKVEIKIVAAV" "c" "Han et al., 2011" -"G6994-MONOMER" "MQIKVIYSLIDNMVNFKDKNMPAVIDKALDFIGAMDVSAPTPSSMNESTAKGIFKYLKELGVPASAADITARADQEGWNPGFTEKMVGWAKKMETGERSVIKNPEYFSTYMQEELKALV" "c" "Han et al., 2011" -"G6995-MONOMER" "MFAGLPSLTHEQQQKAVERIQELMAQGMSSGQAIALVAEELRANHSGERIVARFEDEDE" "c" "Han et al., 2011" -"G6996-MONOMER" "MQKAQRIIKTYRRNRMIVCTICALVTLASTLSVRFISQRNLNQQRVVQFANHAVEELDKVLLPLQAGSEVLLPLIGLPCSVAHLPLRKQAAKLQTVRSIGLVQDGTLYCSSIFGYRNVPVVDILAELPAPQPLLRLTIDRALIKGSPVLIQWTPAAGSSNAGVMEMINIDLLTAMLLEPQLPQISSASLTVDKRHLLYGNGLVDSLPQPEDNENYQVSSQRFPFTINVNGPGATALAWHYLPTQLPLAVLLSLLVGYIAWLATAYRMSFSREINLGLAQHEFELFCQPLLNARSQQCIGVEILLRWNNPRQGWISPDVFIPIAEEHHLIVPLTRYVMAETIRQRHVFPMSSQFHVGINVAPSHFRRGVLIKDLNQYWFSAHPIQQLILEITERDALLDVDYRIARELHRKNVKLAIDDFGTGNSSFSWLETLRPDVLKIDKSFTAAIGSDAVNSTVTDIIIALGQRLNIELVAEGVETQEQAKYLRRHGVHILQGYLYAQPMPLRDFPKWLAGSQPPPARHNGHITPIMPLR" "i" "Han et al., 2011" -"G6997-MONOMER" "MEFLMDPSIWAGLLTLVVLEIVLGIDNLVFIAILADKLPPKQRDKARLLGLSLALIMRLGLLSLISWMVTLTKPLFTVMDFSFSGRDLIMLFGGIFLLFKATTELHERLENRDHDSGHGKGYASFWVVVTQIVILDAVFSLDAVITAVGMVNHLPVMMAAVVIAMAVMLLASKPLTRFVNQHPTVVVLCLSFLLMIGLSLVAEGFGFHIPKGYLYAAIGFSIIIEVFNQIARRNFIRHQSTLPLRARTADAILRLMGGKRQANVQHDADNPMPMPIPEGAFAEEERYMINGVLTLASRSLRGIMTPRGEISWVDANLGVDEIREQLLSSPHSLFPVCRGELDEIIGIVRAKELLVALEEGVDVAAIASASPAIIVPETLDPINLLGVLRRARGSFVIVTNEFGVVQGLVTPLDVLEAIAGEFPDADETPEIITDGDGWLVKGGTDLHALQQALDVEHLADDDDIATVAGLVISANGHIPRVGDVIDVGPLHITIIEANDYRVDLVRIVKEQPAHDEDE" "i" "Han et al., 2011" -"G6998-MONOMER" "MTITDLVLILFIAALLAFAIYDQFIMPRRNGPTLLAIPLLRRGRIDSVIFVGLIVILIYNNVTNHGALITTWLLSALALMGFYIFWIRVPKIIFKQKGFFFANVWIEYSRIKAMNLSEDGVLVMQLEQRRLLIRVRNIDDLEKIYKLLVSTQ" "i" "Han et al., 2011" -"G6999-MONOMER" "MNITATVLLAFGMSMDAFAASIGKGATLHKPKFSEALRTGLIFGAVETLTPLIGWGMGMLASRFVLEWNHWIAFVLLIFLGGRMIIEGFRGADDEDEEPRRRHGFWLLVTTAIATSLDAMAVGVGLAFLQVNIIATALAIGCATLIMSTLGMMVGRFIGSIIGKKAEILGGLVLIGIGVQILWTHFHG" "i" "Han et al., 2011" -"G7000-MONOMER" "MCGIFSKEVLSKHVDVEYRFSAEPYIGASCSNVSVLSMLCLRAKKTI" "c" "Han et al., 2011" -"G7001-MONOMER" "MNEVVNSGVMNIASLVVSVVVLLIGLILWFFINRASSRTNEQIELLEALLDQQKRQNALLRRLCEANEPEKADKKTVESQKSVEDEDIIRLVAER" "i" "Han et al., 2011" -"G7002-MONOMER" "VKKFRWVVLVVVVLACLLLWAQVFNMMCDQDVQFFSGICAINQFIPW" "i" "Han et al., 2011" -"G7003-MONOMER" "MANADLDKQPDSVSSVLKVFGILQALGEEREIGITELSQRVMMSKSTVYRFLQTMKTLGYVAQEGESEKYSLTLKLFELGARALQNVDLIRSADIQMRELSRLTKETIHLGALDEDSIVYIHKIDSMYNLRMYSRIGRRNPLYSTAIGKVLLAWRDRDEVKQILEGVEYKRSTERTITSTEALLPVLDQVREQGYGEDNEEQEEGLRCIAVPVFDRFGVVIAGLSISFPTLRFSEERLQEYVAMLHTAARKISAQMGYHDYPF" "c" "Han et al., 2011" -"G7005-MONOMER" "MLILIGWQIQVRQPSDYIMNKTEFYADLNRDFNALMAGETSFLATLANTSALLYERLTDINWAGFYLLEDDTLVLGPFQGKIACVRIPVGRGVCGTAVARNQVQRIEDVHVFDGHIACDAASNSEIVLPLVVKNQIIGVLDIDSTVFGRFTDEDEQGLRQLVAQLEKVLATTDYKKFFASVAG" "c" "Han et al., 2011" -"G7006-MONOMER" "MALNTPQITPTKKITVRAIGEELPRGDYQRCPQCDMLFSLPEINSHQSAYCPRCQAKIRDGRDWSLTRLAAMAFTMLLLMPFAWGEPLLHIWLLGIRIDANVMQGIWQMTKQGDAITGSMVFFCVIGAPLILVTSIAYLWFGNRLGMNLRPVLLMLERLKEWVMLDIYLVGIGVASIKVQDYAHIQAGVGLFSFVALVILTTVTLSHLNVEELWERFYPQRPATRRDEKLRVCLGCHFTGYPDQRGRCPRCHIPLRLRRRHSLQKCWAALLASIVLLLPANLLPISIIYLNGGRQEDTILSGIMSLASSNIAVAGIVFIASILVPFTKVIVMFTLLLSIHFKCQQGLRTRILLLRMVTWIGRWSMLDLFVISLTMSLINRDQILAFTMGPAAFYFGAAVILTILAVEWLDSRLLWDAHESGNARFDD" "i" "Han et al., 2011" -"G7007-MONOMER" "MSQETPASTTEAQIKNKRRISPFWLLPFIALMIASWLIWDSYQDRGNTVTIDFMSADGIVPGRTPVRYQGVEVGTVQDISLSDDLRKIEVKVSIKSDMKDALREETQFWLVTPKASLAGVSGLDALVGGNYIGMMPGKGKEQDHFVALDTQPKYRLDNGDLMIHLQAPDLGSLNSGSLVYFRKIPVGKVYDYAINPNKQGVVIDVLIERRFTDLVKKGSRFWNVSGVDANVSISGAKVKLESLAALVNGAIAFDSPEESKPAEAEDTFGLYEDLAHSQRGVIIKLELPSGAGLTADSTPLMYQGLEVGQLTKLDLNPGGKVTGEMTVDPSVVTLLRENTRIELRNPKLSLSDANLSALLTGKTFELVPGDGEPRKEFVVVPGEKALLHEPDVLTLTLTAPESYGIDAGQPLILHGVQVGQVIDRKLTSKGVTFTVAIEPQHRELVKGDSKFVVNSRVDVKVGLDGVEFLGASASEWINGGIRILPGDKGEMKASYPLYANLEKALENSLSDLPTTTVSLSAETLPDVQAGSVVLYRKFEVGEVITVRPRANAFDIDLHIKPEYRNLLTSNSVFWAEGGAKVQLNGSGLTVQASPLSRALKGAISFDNLSGASASQRKGDKRILYASETAARAVGGQITLHAFDAGKLAVGMPIRYLGIDIGQIQTLDLITARNEVQAKAVLYPEYVQTFARGGTRFSVVTPQISAAGVEHLDTILQPYINVEPGRGNPRRDFELQEATITDSRYLDGLSIIVEAPEAGSLGIGTPVLFRGLEVGTVTGMTLGTLSDRVMIAMRISKRYQHLVRNNSVFWLASGYSLDFGLTGGVVKTGTFNQFIRGGIAFATPPGTPLAPKAQEGKHFLLQESEPKEWREWGTALPK" "i" "Han et al., 2011" -"G7008-MONOMER" "VAQHTVYFPDAFLTQMREAMPSTLSFDDFLAACQRPLRRSIRVNTLKISVADFLQLTAPYGWTLTPIPWCEEGFWIERDNEDALPLGSTAEHLSGLFYIQEASSMLPVAALFADGNAPQRVMDVAAAPGSKTTQISARMNNEGAILANEFSASRVKVLHANISRCGISNVALTHFDGRVFGAAVPEMFDAILLDAPCSGEGVVRKDPDALKNWSPESNQEIAATQRELIDSAFHALRPGGTLVYSTCTLNQEENEAVCLWLKETYPDAVEFLPLGDLFPGANKALTEEGFLHVFPQIYDCEGFFVARLRKTQAIPALPAPKYKVGNFPFSPVKDREAGQIRQAATGVGLNWDENLRLWQRDKELWLFPVGIEALIGKVRFSRLGIKLAETHNKGYRWQHEAVIALASPDNMNAFELTPQEAEEWYRGRDVYPQAAPVADDVLVTFQHQPIGLAKRIGSRLKNSYPRELVRDGKLFTGNA" "c" "Han et al., 2011" -"G7009-MONOMER" "MKTSVRIGAFEIDDGELHGESPGDRTLTIPCKSDPDLCMQLDAWDAETSIPALLNGEHSVLYRTRYDQQSDAWIMRLA" "c" "Han et al., 2011" -"G7010-MONOMER" "MFALVLFVCYLDGGCEDIVVDVYNTEQQCLYSMSDQRIRQGGCFPIEDFIDGFWRPAQEYGDF" "c" "Han et al., 2011" -"G7011-MONOMER" "MKQPAPVYQRIAGHQWRHIWLSGDIHGCLEQLRRKLWHCRFDPWRDLLISVGDVIDRGPQSLRCLQLLEQHWVCAVRGNHEQMAMDALASQQMSLWLMNGGDWFIALADNQQKQAKTALEKCQHLPFILEVHSRTGKHVIAHADYPDDVYEWQKDVDLHQVLWSRSRLGERQKGQGITGADHFWFGHTPLRHRVDIGNLHYIDTGAVFGGELTLVQLQ" "c" "Han et al., 2011" -"G7012-MONOMER" "MMKKSILAFLLLTSSAAALAAPQVITVSRFEVGKDKWAFNREEVMLTCRPGNALYVINPSTLVQYPLNDIAQKEVASGKTNAQPISVIQIDDPNNPGEKMSLAPFIERAEKLC" "p" "Han et al., 2011" -"G7013-MONOMER" "MLAFTWIALRFIHFTSLMLVFGFAMYGAWLAPLTIRRLLAKRFLRLQQHAAVWSLISATAMLAVQGGLMGTGWTDVFSPNIWQAVLQTQFGGIWLWQIVLALVTLIVALMQPRNMPRLLFMLTTAQFILLAGVGHATLNEGVTAKIHQTNHAIHLICAAAWFGGLLPVLWCMQLIKGRWRHQAIQALMRFSWCGHFAVIGVLASGVLNALLITGFPPTLTTYWGQLLLLKAILVMIMVVIALANRYVLVPRMRQDEDRAAPWFVWMTKLEWAIGAVVLVIISLLATLEPF" "i" "Han et al., 2011" -"G7014-MONOMER" "MASTARSLRYALAILTTSLVTPSVWAHAHLTHQYPAANAQVTAAPQAITLNFSEGVETGFSGAKITGPKNENIKTLPAKRNEQDQKQLIVPLADSLKPGTYTVDWHVVSVDGHKTKGHYTFSVK" "p" "Han et al., 2011" -"G7015-MONOMER" "MSFWKVAAAQYEPRKTSLTEQVAHHLEFVRAAARQQCQLLVFPSLSLLGCDYSRRALPAPPDLSLLDPLCYAATTWRMTIIAGLPVEYNDRFIRGIAVFAPWRKTPGIYHQSHGACLGRRSRTITVVDEQPQGMDMDPTCSLFTTGQCLGEPDLLASARRLQFFSHQYSIAVLMANARGNSALWDEYGRLIVRADRGSLLLVGQRSSQGWQGDIIPLR" "c" "Han et al., 2011" -"G7016-MONOMER" "MLRIIDTETCGLQGGIVEIASVDVIDGKIVNPMSHLVRPDRPISPQAMAIHRITEAMVADKPWIEDVIPHYYGSEWYVAHNASFDRRVLPEMPGEWICTMKLARRLWPGIKYSNMALYKTRKLNVQTPPGLHHHRALYDCYITAALLIDIMNTSGWTAEQMADITGRPSLMTTFTFGKYRGKAVSDVAERDPGYLRWLFNNLDSMSPELRLTLKHYLENT" "c" "Han et al., 2011" -"G7019-MONOMER" "MVSALYAVLSALLLMKFSFDVVRLRMQYRVAYGDGGFSELQSAIRIHGNAVEYIPIAIVLMLFMEMNGAETWMVHICGIVLLAGRLMHYYGFHHRLFRWRRSGMSATWCALLLMVLANLWYMPWELVFSLR" "i" "Han et al., 2011" -"G7020-MONOMER" "MSHRDTLFSAPIARLGDWTFDERVAEVFPDMIQRSVPGYSNIISMIGMLAERFVQPGTQVYDLGCSLGAATLSVRRNIHHDNCKIIAIDNSPAMIERCRRHIDAYKAPTPVDVIEGDIRDIAIENASMVVLNFTLQFLEPSERQALLDKIYQGLNPGGALVLSEKFSFEDAKVGELLFNMHHDFKRANGYSELEISQKRSMLENVMLTDSVETHKARLHNAGFEHSELWFQCFNFGSLVALKAEDAA" "c" "Han et al., 2011" -"G7021-MONOMER" "MIDFGNFYSLIAKNHLSHWLETLPAQIANWQREQQHGLFKQWSNAVEFLPEIKPYRLDLLHSVTAESEEPLSAGQIKRIETLMRNLMPWRKGPFSLYGVNIDTEWRSDWKWDRVLPHLSDLTGRTILDVGCGSGYHMWRMIGAGAHLAVGIDPTQLFLCQFEAVRKLLGNDQRAHLLPLGIEQLPALKAFDTVFSMGVLYHRRSPLEHLWQLKDQLVNEGELVLETLVIDGDENTVLVPGDRYAQMRNVYFIPSALALKNWLKKCGFVDIRIADVSVTTTEEQRRTEWMVTESLADFLDPHDPGKTVEGYPAPKRAVLIARKP" "c" "Han et al., 2011" -"G7022-MONOMER" "MTLTRREFIKHSGIAAGALVVTSAAPLPAWAEEKGGKILTAGRWGAMNVEVKDGKIVSSTGALAKTIPNSLQSTAADQVHTTARIQHPMVRKSYLDNPLQPAKGRGEDTYVQVSWEQALKLIHEQHDRIRKANGPSAIFAGSYGWRSSGVLHKAQTLLQRYMNLAGGYSGHSGDYSTGAAQVIMPHVVGSVEVYEQQTSWPLILENSQVVVLWGMNPLNTLKIAWSSTDEQGLEYFHQLKKSGKPVIAIDPIRSETIEFFDDNATWIAPNMGTDVALMLGIAHTLMTQGKHDKVFLEKYTTGYPQFEEYLTGKSDNTPKSAVWAAEITGVPEAQIVKLAELMAANRTMLMAGWGIQRQQYGEQKHWMLVTLAAMLGQIGTPGGGFGFSYHYSNGGNPTRVGGVLPEMSAAIAGHASEAADDGGMTAIPVARIVDALENPGGKYQHNGKEQTYPNIKMIWWAGGGNFTHHQDTNRLIKAWQKPEMIVVSECYWTAAAKHADIVLPITTSFERNDLTMTGDYSNQHIVPMKQAVAPQFEARNDFDVFADLAELLKPGGKEIYTEGKDEMAWLKFFYDAAQKGARAQRVTMPMFNAFWQQNKLIEMRHSEKNEQYVRYGDFRADPVKNALGTPSGKIEIYSKTLEKFGYKDCPAHPTWLAPDEWKGTADEKQLQLLTAHPAHRLHSQLNYAELRKKYAIADREPITIHTEDAARFGIANGDLVRVWNKRGQILTGAVVTDGIKKGVVCVHEGAWPDLENGLCKNGSANVLTADIPSSQLANACAGNSALVYIEKYTGNAPKLTAFDQPAVQA" "p" "Han et al., 2011" -"G7023-MONOMER" "MRGKKRIGLLFLLIAVVVGGGGLLLAQKVLHKTSDTAFCLSCHSMSKPFEEYQGTVHFSNQKGIRAECADCHIPKSGMDYLFAKLKASKDIYHEFVSGKIDSDDKFEAHRQEMAETVWKELKATDSATCRSCHSFDAMDIASQSESAQKMHNKAQKDSETCIDCHKGIAHFPPEIKMDDNAAHELESQAATSVTNGAHIYPFKTSHIGELATVNPGTDLTVVDASGKQPIVLLQGYQMQGSENTLYLAAGQRLALATLSEEGIKALTVNGEWQADEYGNQWRQASLQGALTDPALADRKPLWQYAEKLDDTYCAGCHAPIAADHYTVNAWPSIAKGMGARTSMSENELDILTRYFQYNAKDITEKQ" "i" "Han et al., 2011" -"G7024-MONOMER" "MPRMEKIMAAAGPLAVTFHRAFDMCANPLYTLNNLAELGIARVLTSGQKSDALQGLSKIMELIAHRDAPIIMAGAGVRAENLHHFLDAGVLEVHSSAGAWQASPMRYRNQGLSMSSDEHADEYSRYIVDGAAVAEMKGIIERHQAK" "c" "Han et al., 2011" -"G7025-MONOMER" "MANWQSIDELQDIASDLPRFIHALDELSRRLGLNITPLTADHISLRCHQNATAERWRRGFEQCGELLSENMINGRPICLFKLHEPVQVAHWQFSIVELPWPGEKRYPHEGWEHIEIVLPGDPETLNARALALLSDEGLSLPGISVKTSSPKGEHERLPNPTLAVTDGKTTIKFHPWSIEEIVASEQSA" "c" "Han et al., 2011" -"G7026-MONOMER" "VFKFLVLTLGIISCQAYAEDTVIVNDHDISAIKDCWQKNSDDDTDVNVIKSCLRQEYNLVDAQLNKAYGEAYRYIEQVPRTGVKKPDTEQLNLLKKSQRAWLDFRDKECELILSNEDVQDLSDPYSESEWLSCMIIQTNTRTRQLQLYRNSEDFYPSPLTRG" "p" "Han et al., 2011" -"G7027-MONOMER" "MRTLLAILLFPLLVQAAGEGMWQASSVGITLNHRGESMSSAPLSTRQPASGLMTLVAWRYQLIGPTPSGLRVRLCSQSRCVELEGQSGTTVAFSGIAAAEPLRFIWEVPGGGRLIPPLKVQRNEVIVNYR" "c" "Han et al., 2011" -"G7028-MONOMER" "VSDESDDKTEAPTPHRLEKAREEGQIPRSRELTSLLILLVGVSVIWFGGVSLARRLSGMLSAGLHFDHSIINDPNLILGQIILLIREAMLALLPLISGVVLVALISPVMLGGLVFSGKSLQPKFSKLNPLPGIKRMFSAQTGAELLKAILKTILVGSVTGFFLWHHWPQMMRLMAESPITAMGNAMDLVGLCALLVVLGVIPMVGFDVFFQIFSHLKKLRMSRQDIRDEFKQSEGDPHVKGRIRQMQRAAARRRMMADVPKADVIVNNPTHYSVALQYDENKMSAPKVVAKGAGLVALRIREIGAENNVPTLEAPPLARALYRHAEIGQQIPGQLYAAVAEVLAWVWQLKRWRLAGGQRPVQPTHLPVPEALDFINEKPTHE" "i" "Han et al., 2011" -"G7031-MONOMER" "MSYSNILVAVAVTPESQQLLAKAVSIARPVKGHISLITLASDPEMYNQLAAPMLEDLRSVMHEETQSFLDKLIQDAGYPVDKTFIAYGELSEHILEVCHKHHFDLVICGNHNHSFFSRASCSAKRVIASSEVDVLLVPLTGD" "c" "Han et al., 2011" -"G7033-MONOMER" "MATAGMLLKLNSQMNREFYASNLYLHLSNWCSEQSLNGTATFLRAQAQSNVTQMMRMFNFMKSVGATPIVKAIDVPGEKLNSLEELFQKTMEEYEQRSSTLAQLADEAKELNDDSTVNFLRDLEKEQQHDGLLLQTILDEVRSAKLAGMCPVQTDQHVLNVVSHQLH" "c" "Han et al., 2011" -"G7035-MONOMER" "MRLLILTLSLITLAGCTVTRQAHVSEVDAATGIVRLVYDQAFLQHAHTDRYVSRGIADRACQQEGYTHAVPFGQPVGNCSLFAGSLCLNTEFTLSYQCHHSAFPVFL" "c" "Han et al., 2011" -"G7036-MONOMER" "MDSIHGHEVLNMMIESGEQYTHASLEAAIKARFGEQARFHTCSAEGMTAGELVAFLAAKGKFIPSKDGFSTDQSKICRH" "c" "Han et al., 2011" -"G7037-MONOMER" "MQESIQLVIDSLPFLLKGAGYTLQLSIGGMFFGLLLGFILALMRLSPIWPVRWLARFYISIFRGTPLIAQLFMIYYGLPQFGIELDPIPSAMIGLSLNTAAYAAETLRAAISSIDKGQWEAAASIGMTPWQTMRRAILPQAARVALPPLSNSFISLVKDTSLAATIQVPELFRQAQLITSRTLEVFTMYLAASLIYWIMATVLSTLQNHFENQLNRQEREPK" "i" "Unambiguous EcoCyc data" -"G7039-MONOMER" "MKLAHLGRQALMGVMAVALVAGMSVKSFADEGLLNKVKERGTLLVGLEGTYPPFSFQGDDGKLTGFEVEFAQQLAKHLGVEASLKPTKWDGMLASLDSKRIDVVINQVTISDERKKKYDFSTPYTISGIQALVKKGNEGTIKTADDLKGKKVGVGLGTNYEEWLRQNVQGVDVRTYDDDPTKYQDLRVGRIDAILVDRLAALDLVKKTNDTLAVTGEAFSRQESGVALRKGNEDLLKAVNDAIAEMQKDGTLQALSEKWFGADVTK" "i" "EcoCyc dump" -"G7040-MONOMER" "MFTIKTDDLTHPAVQALVAYHISGMLQQSPPESSHALDVQKLRNPTVTFWSVWEGEQLAGIGALKLLDDKHGELKSMRTAPNYLRRGVASLILRHILQVAQDRCLHRLSLETGTQAGFTACHQLYLKHGFADCEPFADYRLDPHSRFLSLTLCENNELP" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7041-MONOMER" "MPETTKLFNCGDNKIKEIQYFPNHLEKARMECDIEVVSAIYSNKELLFKECNSFEETFLYHGL" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7042-MONOMER" "VDIALVRLFKCVELHNSKLDLTDLHLGSLPPLPSWIEVLYLRHNGLATIQIPKFCKELELDFNNYMVFPKVSDGITQVSVDNNLISRVDSSPSKAMTISIYRNKIW" "m" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7043-MONOMER" "MFPLNDLSLKTQPVQLNKVTSNTESTIKQHELVSDDAIINELSSELVSCLGNGKFTPISEDSKLFNMLSEFKLLHSEYFEWGDYSLWFQDFSIYNKIGFIMIEKIRELVTHPFGIN" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7044-MONOMER" "VVVTTSDVVMCQMRRSDVQGGYRVYGSWMAENVQDQVSILNQKLSEFAPSMPHAVRSDVINNRLQNLHLHAHHFLIRRHQLITHLNPHLHRN" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7045-MONOMER" "MKVNDRVTVKTDGGPRRPGVVLAVEEFSEGTMYLVSLEDYPLGIWFFNEAGHQDGIFVEKAE" "c" "Unambiguous EcoCyc data" -"G7046-MONOMER" "MKTAKEYSDTAKREVSVDVDALLAAINEISESEVHRSQNDSEHVSVDGREYHTWRELADAFELDIHDFSVSEVNR" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7048-MONOMER" "MFSIQQPLLVFSDLDGTLLDSHSYDWQPAAPWLTRLREANVPVILCSSKTSAEMLYLQKTLGLQGLPLIAENGAVIQLAEQWQEIDGFPRIISGISHGEISLVLNTLREKEHFKFTTFDDVDDATIAEWTGLSRSQAALTQLHEASVTLIWRDSDERMAQFTARLNELGLQFMQGARFWHVLDASAGKDQAANWIIATYQQLSGKRPTTLGLGDGPNDAPLLEVMDYAVIVKGLNREGVHLHDEDPARVWRTQREGPEGWREGLDHFFSAR" "c" "Unambiguous EcoCyc data" -"G7049-MONOMER" "VQHETKMENQSWLKKLARRLGPGHVVNLCFIVVLLFSTLLTWREVVVLEDAYISSQRNHLENVANALDKHLQYNVDKLIFLRNGMREALVAPLDFTSLRDAVTEFEQHRDEHAWKIELNRRRTLPVNGVSDALVSEGNLLSRENESLDNEITAALEVGYLLRLAHNSSSMVEQAMYVSRAGFYVSTQPTLFTRNVPTRYYGYVTQPWFIGHSQRENRHRAVRWFTSQPEHASNTEPQVTVSVPVDSNNYWYGVLGMSIPVRTMQQFLRNAIDKNLDGEYQLYDSKLRFLTSSNPDHPTGNIFDPRELALLAQAMEHDTRGGIRMDSRYVSWERLDHFDGVLVRVHTLSEGVRGDFGSISIALTLLWALFTTMLLISWYVIRRMVSNMYVLQSSLQWQAWHDTLTRLYNRGALFEKARPLAKLCQTHQHPFSVIQVDLDHFKAINDRFGHQAGDRVLSHAAGLISSSLRAQDVAGRVGGEEFCVILPGASLTEAAEVAERIRLKLNEKEMLIAKSTTIRISASLGVSSSEETGDYDFEQLQSLADRRLYLAKQAGRNRVFASDNA" "i" "Unambiguous EcoCyc data" -"G7050-MONOMER" "MSFMVSEEVTVKEGGPRMIVTGYSSGMVECRWYDGYGVKREAFHETELVPGEGSRSAEEV" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7051-MONOMER" "VEKCDFYHIIVLSLNFPGYLKMEYGSTKMEERLSRSPGGKLALWAFYTWCGYFVWAMARYIWVMSRIPDAPVSGFESDLGSTAGKWLGALVGFLFMALVGALLGSIAWYTRPRPARSRRYE" "i" "Unambiguous EcoCyc data" -"G7052-MONOMER" "MKRKVLAMLVPALLVAGAANAAEVYNKDGNKLDLYGKVVGLHYFSDDSGSDGDMSYARIGFKGETQIADQFTGYGQWEFNIGANGPESDKGNTATRLAFAGLGFGQNGTFDYGRNYGVVYDVEAWTDMLPEFGGDTYAGADNFMNGRANGVATYRNNGFFG" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7053-MONOMER" "LNFALQYQGNNESGGPFGQEGSGSGDGRSLSKENGDGFGMSTSYDFDFGLSLGAAYQTLIVQIVRLELV" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7054-MONOMER" "VYLAAMYAETRNMTPYGGGEFDNGESRSAIANKTQNFEVVAQYQFDFGLRPSIAYLQSKGKDLGGWAHDGNGDPRYTNKDLVKYVDIGATYYFNKNMSTYVDYKINLLDNDDDFYEANGIATDDIVAVGLVYQF" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7055-MONOMER" "MTVQTSKNPQVDIAEDNAFFPSEYSLSQYTSPVSDLDGVDYPKPYRGKHKILVIAADERYLPTDNGKLFSTGNHPIETLLPLYHLHAAGFEFEVATISGLMTKFEYWAMPHKDEKVMPFFEQHKSLFRNPKKLADVVASLNADSEYAAIFVPGGHGALIGLPESQDVAAALQWAIKNDRFVISLCHGPAAFLALRHGDNPLNGYSICAFPDAADKQTPEIGYMPGHLTWYFGEELKKMGMNIINDDITGRVHKDRKLLTGDSPFAANALGKLAAQEMLAAYAG" "c" "Han et al., 2011" -"G7056-MONOMER" "MKRLSITVRLTLLFILLLSVAGAGIVWTLYNGLASELKWRDDTTLINRTAQIKQLLIDGVNPDTLPVYFNRMMDVSQDILIIHGDSINKIVNRTNVSDGMLNNIPASETISAAGIYRSIINDTEIDALRINIDEVSPSLTVTVAKLASARHNMLEQYKINSIIICIVAIVLCSVLSPLLIRTGLREIKKLSGVTEALNYNDSREPVEVSALPRELKPLGQALNKMHHALVKDFERLSQFADDLAHELRTPINALLGQNQVTLSQTRSIAEYQKTIAGNIEELENISRLTENILFLARADKNNVLVKLDSLSLNKEVENLLDYLEYLSDEKEICFKVECNQQIFADKILLQRMLSNLIVNAIRYSPEKSRIHITSFLDTNSYLNIDIASPGTKINEPEKLFRRFWRGDNSRHSVGQGLGLSLVKAIAELHGGSATYHYLNKHNVFRITLPQRN" "i" "Han et al., 2011" -"G7057-MONOMER" "MKILLIEDNQRTQEWVTQGLSEAGYVIDAVSDGRDGLYLALKDDYALIILDIMLPGMDGWQILQTLRTAKQTPVICLTARDSVDDRVRGLDSGANDYLVKPFSFSELLARVRAQLRQHHALNSTLEISGLRMDSVSHSVSRDNISITLTRKEFQLLWLLASRAGEIIPRTVIASEIWGINFDSDTNTVDVAIRRLRAKVDDPFPEKLIATIRGMGYSFVAVKK" "c" "Han et al., 2011" -"G7058-MONOMER" "MLKRYLVLSVATAAFSLPSLVNAAQQNILSVHILNQQTGKPAADVTVTLEKKADNGWLQLNTAKTDKDGRIKALWPEQTATTGDYRVVFKTGDYFKKQNLESFFPEIPVEFHINKVNEHYHVPLLLSQYGYSTYRGS" "p" "EcoCyc dump" -"G7059-MONOMER" "MKKNQFLKESDVTAESVFFMKRRQVLKALGISATALSLPHAAHADLLSWFKGNDRPPAPAGKALEFSKPAAWQNNLPLTPADKVSGYNNFYEFGLDKADPAANAGSLKTDPWTLKISGEVAKPLTLDHDDLTRRFPLEERIYRMRCVEAWSMVVPWIGFPLHKLLALAEPTSNAKYVAFETIYAPEQMPGQQDRFIGGGLKYPYVEGLRLDEAMHPLTLMTVGVYGKALPPQNGAPVRLIVPWKYGFKGIKSIVSIKLTRERPPTTWNLAAPDEYGFYANVNPYVDHPRWSQATERFIGSGGILDVQRQPTLLFNGYAAQVASLYRGLDLRENF" "p" "Han et al., 2011" -"G7060-MONOMER" "MRLTAKQVTWLKVCLHLAGLLPFLWLVWAINHGGLGADPVKDIQHFTGRTALKFLLATLLITPLARYAKQPLLIRTRRLLGLWCFAWATLHLTSYALLELGVNNLALLGKELITRPYLTLGIISWVILLALAFTSTQAMQRKLGKHWQQLHNFVYLVAILAPIHYLWSVKIISPQPLIYAGLAVLLLALRYKKLRSLFNRLRKQVHNKLSV" "i" "Han et al., 2011" -"G7061-MONOMER" "LAIRLYKLAVALGVFIVSAPAFSHGHHSHGKPLTEVEQKAANGVFDDANVQNRTLSDWDGVWQSVYPLLQSGKLDPVFQKKADADKTKTFAEIKDYYHKGYATDIEMIGIEDGIVEFHRNNETTSCKYDYDGYKILTYKSGKKGVRYLFECKDPESKAPKYIQFSDHIIAPRKSSHFHIFMGNDSQQSLLNEMENWPTYYPYQLSSEEVVEEMMSH" "p" "Han et al., 2011" -"G7062-MONOMER" "MNRFSKTQIYLHWITLLFVAITYAAMELRGWFPKGSSTYLLMRETHYNAGIFVWVLMFSRLIIKHRYSDPSIVPPPPAWQMKAASLMHIMLYITFLALPLLGIALMAYSGKSWSFLGFNVSPFVTPNSEIKALIKNIHETWANIGYFLIAAHAGAALFHHYIQKDNTLLRMMPRRK" "i" "Han et al., 2011" -"G7063-MONOMER" "MIKWPWKVQESAHQTALPWQEALSIPLLTCLTEQEQSKLVTLAERFLQQKRLVPLQGFELDSLRSCRIALLFCLPVLELGLEWLDGFHEVLIYPAPFVVDDEWEDDIGLVHNQRIVQSGQSWQQGPIVLNWLDIQDSFDASGFNLIIHEVAHKLDTRNGDRASGVPFIPLREVAGWEHDLHAAMNNIQEEIELVGENAASIDAYAASDPAECFAVLSEYFFSAPELFAPRFPSLWQRFCQFYQQDPLQRLHHANDTDSFSATNVH" "c" "Han et al., 2011" -"G7064-MONOMER" "MLARSGKVSMATKKRSGEEINDRQILCGMGIKLRRLTAGICLITQLAFPMAAAAQGVVNAATQQPVPAQIAIANANTVPYTLGALESAQSVAERFGISVAELRKLNQFRTFARGFDNVRQGDELDVPAQVSEKKLTPPPGNSSDNLEQQIASTSQQIGSLLAEDMNSEQAANMARGWASSQASGAMTDWLSRFGTARITLGVDEDFSLKNSQFDFLHPWYETPDNLFFSQHTLHRTDERTQINNGLGWRHFTPTWMSGINFFFDHDLSRYHSRAGIGAEYWRDYLKLSSNGYLRLTNWRSAPELDNDYEARPANGWDVRAESWLPAWPHLGGKLVYEQYYGDEVALFDKDDRQSNPHAITAGLNYTPFPLMTFSAEQRQGKQGENDTRFAVDFTWQPGSAMQKQLDPNEVAARRSLAGSRYDLVDRNNNIVLEYRKKELVRLTLTDPVTGKSGEVKSLVSSLQTKYALKGYNVEATALEAAGGKVVTTGKDILVTLPAYRFTSTPETDNTWPIEVTAEDVKGNLSNREQSMVVVQAPTLSQKDSSVSLSTQTLNADSHSTATLTFIAHDAAGNPVVGLVLSTRHEGVQDITLSDWKDNGDGSYTQILTTGAMSGTLTLMPQLNGVDAAKAPAVVNIISVSSSRTHSSIKIDKDRYLSGNPIEVTVELRDENDKPVKEQKQQLNNAVSIDNVKPGVTTDWKETADGVYKATYTAYTKGSGLTAKLLMQNWNEDLHTAGFIIDANPQSAKIATLSASNNGVLANENAANTVSVNVADEGSNPINDHTVTFAVLSGSATSFNNQNTAKTDVNGLATFDLKSSKQEDNTVEVTLENGVKQTLIVSFVGDSSTAQVDLQKSKNEVVADGNDSVTMTATVRDAKGNLLNDVMVTFNVNSAEAKLSQTEVNSHDGIATATLTSLKNGDYRVTASVSSGSQANQQVNFIGDQSTAALTLSVPSGDITVTNTAPQYMTATLQDKNGNPLKDKEITFSVPNDVASKFSISNGGKGMTDSNGVAIASLTGTLAGTHMIMARLANSNVSDAQPMTFVADKDRAVVVLQTSKAEIIGNGVDETTLTATVKDPSNHPVAGITVNFTMPQDVAANFTLENNGIAITQANGEAHVTLKGKKAGTHTVTATLGNNNTSDSQPVTFVADKASAQVVLQISKDEITGNGVDSATLTATVKDQFDNEVNNLPVTFSSASSGLTLTPGVSNTNESGIAQATLAGVAFGEKTVTASLANNGASDNKTVHFIGDTAAAKIIELAPVPDSIIAGTPQNSSGSVITATVVDNNGFPVKGVTVNFTSNAATAEMTNGGQAVTNEQGKATVTYTNTRSSIESGARPDTVEASLENGSSTLSTSINVNADASTAHLTLLQALFDTVSAGETTSLYIEVKDNYGNGVPQQEVTLSVSPSEGVTPSNNAIYTTNHDGNFYASFTATKAGVYQLTATLENGDSMQQTVTYVPNVANAEITLAASKDPVIADNNDLTTLTATVADTEGNAIANTEVTFTLPEDVKANFTLSDGGKVITDAEGKAKVTLKGTKAGAHTVTASMTGGKSEQLVVNFIADTLTAQVNLNVTEDNFIANNVGMTRLQATVTDGNGNPLANEAVTFTLPADVSASFTLGQGGSAITDINGKAEVTLSGTKSGTYPVTVSVNNYGVSDTKQVTLIADAGTAKLASLTSVYSFVVSTTEGATMTASVTDANGNPVEGIKVNFRGTSVTLSSTSVETDDRGFAEILVTSTEVGLKTVSASLADKPTEVISRLLNASADVNSATITSLEIPEGQVMVAQDVAVKAHVNDQFGNPVAHQPVTFSAEPSSQMIISQNTVSTNTQGVAEVTMTPERNGSYMVKASLPNGASLEKQLEAIDEKLTLTASSPLIGVYAPTGATLTATLTSANGTPVEGQVINFSVTPEGATLSGGKVRTNSSGQAPVVLTSNKVGTYTVTASFHNGVTIQTQTTVKVTGNSSTAHVASFIADPSTIAATNTDLSTLKATVEDGSGNLIEGLTVYFALKSGSATLTSLTAVTDQNGIATTSVKGAMTGSVTVSAVTTAGGMQTVDITLVAGPADTSQSVLKSNRSSLKGDYTDSAELRLVLHDISGNPIKVSEGMEFVQSGTNVPYIKISAIDYSLNINGDYKATVTGGGEGIATLIPVLNGVHQAGLSTTIQFTRAEDKIMSGTVSVNGTDLPTTTFPSQGFTGAYYQLNNDNFAPGKTAADYEFSSSASWVDVDATGKVTFKNVGSNSERITATPKSGGPSYVYEIRVKSWWVNAGEAFMIYSLAENFCSSNGYTLPRANYLNHCSSRGIGSLYSEWGDMGHYTTDAGFQSNMYWSSSPANSSEQYVVSLATGDQSVFEKLGFAYATCYKNL" "o" "Han et al., 2011" -"G7065-MONOMER" "VIVHGPKGEDKARALVDCYNNVYRLSLPPSIKRSAAIIKDAYIAITPDTSILHMASAYNTPVVAIYADYKTRWPAMADVSESVVVGQKIDNISLDEFAKALKSVLARI" "m" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7066-MONOMER" "MFLASLLRRIAFSYYDYKAYNFNIEKTDFVVIHIPDQIGDAMAIFPVIRALELHKIKHLLIVTSTINLEVFNALKLEQTKLTLVTMTMQDHATLKEIKDLAKNITQQYGTPDLCIEGMRKKNLKTMLFISQLKAKTNFQVVGITMNCFSPLCKNASSMDQKLRAPVPMTWAFMMREAGFPAVRPIYELPLSEDVLDEVREEMRSLGSYIAFNLEGSSQERTFSLSIAENLIAKI" "m" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7068-MONOMER" "VGRKWANIVAKKTAKDGATSKIYAKFGVEIYAAAKQGEPDPELNTSLKFVIERAKQAQVPKHVIDKAIDKAKGGGDETFVQGRYEGFGPNGSMIIAETLTSNVNRTIANVRTIFNKKGGNIGAAGSVSYMFDNTGVIVFKGTDPDHIFEILLEAEVDVRDVTEEEGNIVIYTEPTDLHKGIAALKAAGITEFSTTELEMIAQSEVELSPEDLEIFEGLVDALEDDDDVQKVYHNVANL" "c" "Han et al., 2011" -"G7071-MONOMER" "VNFQQLKIIREAARQDYNLTEVANMLFTSQSGVSRHIRELEDELGIEIFVRRGKRLLGMTEPGKALLVIAERILNEASNVRRLADLFTNDTSGVLTIATTHTQARYSLPEVIKAFRELFPEVRLELIQGTPQEIATLLQNGEADIGIASERLSNDPQLVAFPWFRWHHSLLVPHDHPLTQISPLTLESIAKWPLITYRQGITGRSRIDDAFARKGLLADIVLSAQDSDVIKTYVALGLGIGLVAEQSSGEQEEENLIRLDTRHLFDANTVWLGLKRGQLQRNYVWRFLELCNAGLSVEDIKRQVMESSEEEIDYQI" "c" "Han et al., 2011" -"G7072-MONOMER" "MNFRRLKYFVKIVDIGSLTQAAEVLHIAQPALSQQVATLEGELNQQLLIRTKRGVTPTDAGKILYTHARAILRQCEQAQLAVHNVGQALSGQVSIGFAPGTAASSITMPLLQAVRAEFPEIVIYLHENSGAVLNEKLINHQLDMAVIYEHSPVAGVSSQALLKEDLFLVGTQDCPGQSVDVNAIAQMNLFLPSDYSAIRLRVDEAFSLRRLTAKVIGEIESIATLTAAIASGMGVAVLPESAARSLCGAVNGWMSRITTPSMSLSLSLNLPARANLSPQAQAVKELLMSVISSPVMEKRQWQLVS" "c" "Han et al., 2011" -"G7073-MONOMER" "MRRVNILCSFALLFASHTSLAVTYPLPPEGSRLVGQSFTVTVPDHNTQPLETFAAQYGQGLSNMLEANPGADVFLPKSGSQLTIPQQLILPDTVRKGIVVNVAEMRLYYYPPDSNTVEVFPIGIGQAGRETPRNWVTTVERKQEAPTWTPTPNTRREYAKRGESLPAFVPAGPDNPMGLYAIYIGRLYAIHGTNANFGIGLRVSQGCIRLRNDDIKYLFDNVPVGTRVQIIDQPVKYTTEPDGSNWLEVHEPLSRNRAEYESDRKVPLPVTPSLRAFINGQEVDVNRANAALQRRSGMPVQISSGSRQMF" "p" "Han et al., 2011" -"G7074-MONOMER" "MFVIWSHGTGFIMSHQLTFADSEFSSKRRQTRKEIFLSRMEQILPWQNMVEVIEPFYPKAGNGRRPYPLETMLRIHCMQHWYNLSDGAMEDALYEIASMRLFARLSLDSALPDRTTIMNFRHLLEQHQLARQLFKTINRWLAEAGVMMTQGTLVDATIIEAPSSTKNKEQQRDPEMHQTKKGNQWHFGMKAHIGVDAKSGLTHSLVTTAANEHDLNQLGNLLHGEEQFVSADAGYQGAPQREELAEVDVDWLIAERPGKVRTLKQHPRKNKTAINIEYMKASIRAKVEHPFRIIKRQFGFVKARYKGLLKNDNQLAMLFTLANLFRADQMIRQWERSH" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7075-MONOMER" "MLYNIPCRIYILSTLSLCISGIVSTATATSSETKISNEETLVVTTNRSASNLWESPATIQVIDQQTLQNSTNASIADNLQDIPGVEITDNSLAGRKQIRIRGWICPYISRHLLSLNPLQARCRRYSRGER" "m" "Unambiguous EcoCyc data" -"G7078-MONOMER" "LSGDSGGQSSGEASSRVLILIDGQEVTYQRAGDNYGVGLLIDESALERVEVVKGPYSVLYGSQAIGGIVNFITKKGESPDSLYHLN" "m" "Unambiguous EcoCyc data" -"G7079-MONOMER" "VVTQADKTEPCHEWDMAGIQPSPAQAQNIREKTEAVFRLFRPVHPVVAVSARTGWELDTLVSALMTALPDHAASPLMTRLQDELRTESVRSQAREQFTGAVDRIFDTAESVCIASVARTVLRAVRDTVVSVARAVWNWIFF" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7080-MONOMER" "MKRHLNTCYRLVWNHMTGAFVVASELARARGKRGGVAVALSLAAVTSLPVLAADIVVHPGETVNGGTLANHDNQIVFGTTNGMTISTGLEYGPDNEANTGGQWVQDGGTANKTTVTSGGLQRVNPGGSVSDTVISAGGGQSLQGRAVNTTLNGGEQWMHEGAIATGTVINDKGWQVVKPGTVATDTVVNTGAEGGPDAENGDTGQFVRGDAVRTTINKNGRQIVRAEGTANTTVVYAGGDQTVHGHALDTTLNGGYQYVHNGGTASDTVVNSDGWQIVKNGGVAGNTTVNQKGRLQVDAGGTATNVTLKQGGALVTSTAATVTGINRLGAFSVVEGKADNVVLENGGRLDVLTGHTATNTRVDDGGTLDVRNGGTATTVSMGNGGVLLADSGAAVSGTRSDGKAFSIGGGQADALMLEKGSSFTLNAGDTATDTTVNGGLFTARGGTLAGTTTLNNGAILTLSGKTVNNDTLTIREGDALLQGGSLTGNGSVEKSGSGTLTVSNTTLTQKAVNLNEGTLTLNDSTVTTDVIAQRGTALKLTGSTVLNGAIDPTNVTLASGATWNIPDNATVQSVVDDLSHAGQIHFTSTRTGKFVPATLKVKNLNGQNGTISLRVRPDMAQNNADRLVIDGGRATGKTILNLVNAGNSASGLATSGKGIQVVEAINGATTEEGAFVQGNRLQAGAFNYSLNRDSDESWYLRSENAYRAEVPLYASMLTQAMDYDRIVAGSRSHQTGVNGENNSVRLSIQGGHLGHDNNGGIARGATPESSGSYGFVRLEGDLMRTEVAGMSVTAGVYGAAGHSSVDVKDDDGSRAGTVRDDAGSLGGYLNLVHTSSGLWADIVAQGTRHSMKASSDNNDFRARGWGWLGSLETGLPFSITDNLMLEPQLQYTWQGLSLDDGKDNAGYVKFGHGSAQHVRAGFRLGSHNDMTFGEGTSSRAPLRDSAKHSVSELPVNWWVQPSVIRTFSSRGDMRVGTSTAGSGMTFSPSQNGTSLDLQAGLEARVRENITLGVQAGYAHSVSGSSAEGYNGQATLNVTF" "o" "Lopez-Campistrous et al., 2005" -"G7081-MONOMER" "MLQIVGALILLIAGFAILRLLFRALISTASALAGLILLCLFGPALLAGYITERITRLFHIRWLAGVFLTIAGMIISFMWGLDGKHIALEAHTFDSVKFILTTALAGGLLAVPLQIKNIQQNGITPEDISKEINGYYCCFYTAFFLMACSACAPLIALQYDISPSLMWWGGLLYWLAALVTLLWAASQIQALKKLTCAISQTLEEQPVLNSKSWLTSLQNDYSLPDSLTERIWLTLISQRISRGELREFELADGNWLLNNAWYERNMAGFNEQLKENLSFTPDELKTLFRNRLNLSPEANDDFLDRCLDGGDWYPFSEGRRFVSFHHVDELRICASCGLTEVHHAPENHKPDPEWYCSSLCRETETLCQEIYERPYNSFISDATANGLILMKLPETWSTNEKMFASGGQGHGFAAERGNHIVDRVRLKNARILGDNNARNGADRLVSGTEIQTKYCSTAARSVGAAFDGQNGQYRYMGNNGPMQLEVPRDQYAGAVETMRNKIREGKVEER" "i" "Han et al., 2011" -"G7082-MONOMER" "MTPGERSLIQRALKTLDRHLHEPGVAFTSTRAAREWLILNMAGLEREEFRVLYLNNQNQLIAGETLFTGTINRTEVHPREVIKRALYHNAAAVVLAHNHPSGEVTPSKADRLITERLVQALGLVDIRVPDHLIVGGNQVFSFAEHGLL" "c" "Han et al., 2011" -"G7083-MONOMER" "MKIITRGEAMRIHQQHPTSRLFPFCTGKYRWHGSAEAYTGREVQDIPGVLAVFAERRKDSFGPYVRLMSVTLN" "c" "Han et al., 2011" -"G7084-MONOMER" "VSDTLPGTTLPDDNHDRPWWGLPCTVTPCFGARLVQEGNRLHYLADRAGIRGLFSDADAYHLDQAFPLLMKQLELMLTSGELNPRHQHTVTLYAKGLTCKADTLSSCDYVYLAVYPTPEMKN" "c" "Han et al., 2011" -"G7085-MONOMER" "MKTLPVLPGQAASSRPSPVEIWQILLSRLLDQHYGLTLNDTPFADERVIEQHIEAGISLCDAVNFLVEKYALVRTDQPGFSACTRSQLINSIDILRARRATGLMTRDNYRTVNNITLGKYPEAK" "c" "Han et al., 2011" -"G7086-MONOMER" "MMTLEADSVNVQALDMGHIVVDIDGVNITELINKAAENGYSLRVVDDRDSTETPATYASPHQLL" "c" "Han et al., 2011" -"G7087-MONOMER" "METTKPSFQDVLEFVRLFRRKNKLQREIQDVEKKIRDNQKRVLLLDNLSDYIKPGMSVEAIQGIIASMKGDYEDRVDDYIIKNAELSKERRDISKKLKAMGEMKNGEAK" "c" "Han et al., 2011" -"G7088-MONOMER" "MKPLLDVLMILDALEKEGSFAAASAKLYKTPSALSYTVHKLESDLNIQLLDRSGHRAKFTRTGKMLLEKGREVLHTVRELEKQAIKLHEGWENELVIGVDDTFPFSLLAPLIEAFYQHHSVTRLKFINGVLGGSWDALTQGRADIIVGAMHEPPSSSEFGFSRLGDLEQVFAVAPHHPLALEEEPLNRRIIKRYRAIVVGDTAQAGASTASQLLDEQEAITVFDFKTKLELQISGLGCGYLPRYLAQRFLDSGALIEKKVVAQTLFEPVWIGWNEQTAGLASGWWRDEILANSAIAGVYAKSDDGKSAI" "c" "Han et al., 2011" -"G7089-MONOMER" "MKKVAIVGLGWLGMPLAMSLSARGWQVTGSKTTQDGVEAARMSGIDSYLLRMEPELVCDSDDLDALMDADALVITLPARRSGPGDEFYLQAVQELVDSALAHRIPRIIFTSSTSVYGDAQGTVKETTPRNPVTNSGRVLEELEDWLHNLPGTSVDILRLAGLVGPGRHPGRFFAGKTAPDGEHGVNLVHLEDVIGAITLLLQAPKGGHIYNICAPAHPARNVFYPQMARLLGLEPPQFRNSLDSGKGKIIDGSRICNELGFEYQYPDPLVMPLE" "c" "Han et al., 2011" -"G7090-MONOMER" "MRVENNNVSGQNHDPEQIDLIDLLVQLWRGKMTIIISVIVAIALAIGYLAVAKEKWTSTAIITQPDVGQIAGYNNAMNVIYGQAAPKVSDLQETLIGRFSSAFSALAETLDNQEEREKLTIEPSVKNQQLPLTVSYVGQTAEGAQMKLAQYIQQVDDKVNQELEKDLKDNIALGRKNLQDSLRTQEVVAQEQKDLRIRQIQEALQYANQAQVTKPQIQQTGEDITQDTLFLLGSEALESMIKHEATRPLVFSPNYYQTRQNLLDIESLKVDDLDIHAYRYVMKPMLPIRRDSPKKAITLILAVLLGGMVGAGIVLGRNALRNYNAK" "i" "Han et al., 2011" -"G7093-MONOMER" "MTNLKAVIPVAGLGMHMLPATKAIPKEMLPIVDKPMIQYIVDEIVAAGIKEILLVTHASKNAVENHFDTSYELESLLEQRVKRQLLAEVQSICPPGVTIMNVRQGEPLGLGHSILCARPAIGDNPFVVVLPDVVIDDASADPLRYNLAAMIARFNETGRSQVLAKRMPGDLSEYSVIQTKEPLDREGKVSRIVEFIEKPDQPQTLDSDIMAVGRYVLSADIWPELERTQPGAWGRIQLTDAIAELAKKQSVDAMLMTGDSYDCGKKMGYMQAFVKYGLRNLKEGAKFRKGIEKLLSE" "c" "Han et al., 2011" -"G7094-MONOMER" "MPFKKLSRRTFLTASSALAFLHTPFARALPARQSVNINDYNPHDWIASFKQAFSEGQTVVVPAGLVCDNINTGIFIPPGKTLHILGSLRGNGRGRFVLQDGSQVTGEDGGSMHNITLDVRGSDCTIKGLTMSGFGPVTQIYIGGKNKRVMRNLIIDNLTVSHANYAILRQGFHNQIIGANITNCKFSDLQGDAIEWNVAINDRDILISDHVIERINCTNGKINWGIGIGLAGSTYDNNYPEDQAVKNFVVANITGSDCRQLIHVENGKHFVIRNIKARNITPDFSKKAGIDNATVAIYGCDNFVIDNIEMINSAGMLIGYGVIKGKYLSIPQNFRVNDIQLDNTHLAYKLRGIQISAGNAVSFVALTNIEMKRASLELHNKPQHFFMRNINVMQESSVGPALSMNFDMRKDVRGVFMAKKETLLSLANVHAVNEKGQSSVDIDRINHHIVNVEKINFRLPELRE" "p" "Han et al., 2011" -"G7095-MONOMER" "MKVGFFLLKFPLSSETFVLNQITAFIDMGFEVEILALQKGDTQNTHAAWTKYNLAARTRWLQDEPTGKVAKLRHRASQTLRGIHRKNTWQALNLKRYGAESRNLILSAICGQVATPFRADVFIAHFGPAGVTAAKLRELGVIRGKIATIFHGIDISSREVLNHYTPEYQQLFRRGDLMLPISDLWAGRLQKMGCPREKIAVSRMGVDMTRFSPRPVKAPATPLEIISVARLTEKKGLHVAIEACRQLKEQGVAFRYRILGIGPWERRLRTLIEQYQLEDVVEMPGFKPSHEVKAMLDDADVFLLPSVTGADGDMEGIPVALMEAMAVGIPVVSTLHSGIPELVEADKSGWLVPENDARALAQRLAAFSQLDTDELAPVVKRAREKVEHDFNQQVINRELASLLQAL" "c" "Han et al., 2011" -"G7096-MONOMER" "MKLLILGNHTCGNRGDSAILRGLLDAINILNPHAEVDVMSRYPVSSSWLLNRPVMGDPLFLQMKQHNSAAGVVGRVKKVLRRRYQHQVLLSRVTDTGKLRNIAIAQGFTDFVRLLSGYDAIIQVGGSFFVDLYGVPQFEHALCTFMAKKPLFMIGHSVGPFQDEQFNQLANYVFGHCDALILRESVSFDLMKRSNITTAKVEHGVDTAWLVDHHTEDFTASYAVQHWLDVAAQQKTVAITLRELAPFDKRLGTTQQAYEKAFAGVVNRILDEGYQVIALSTCTGIDSYNKDDRMVALNLRQHISDPARYHVVMDELNDLEMGKILGACELTVGTRLHSAIISMNFATPAIAINYEHKSAGIMQQLGLPEMAIDIRHLLDGSLQAMVADTLGQLPALNARLSEAVSRERQTGMQMVQSVLERIGEVK" "c" "Han et al., 2011" -"G7097-MONOMER" "MSLREKTISGAKWSAIATVIIIGLGLVQMTVLARIIDNHQFGLLTVSLVIIALADTLSDFGIANSIIQRKEISHLELTTLYWLNVGLGIVVCVAVFLLSDLIGDVLNNPDLAPLIKTLSLAFVVIPHGQQFRALMQKELEFNKIGMIETSAVLAGFTCTVVSAHFWPLAMTAILGYLVNSAVRTLLFGYFGRKIYRPGLHFSLASVAPNLRFGAWLTADSIINYLNTNLSTLVLARILGAGVAGGYNLAYNVAVVPPMKLNPIITRVLFPAFAKIQDDTEKLRVNFYKLLSVVGIINFPALLGLMVVSNNFVPLVFGEKWNSIIPVLQLLCVVGLLRSVGNPIGSLLMAKARVDISFKFNVFKTFLFIPAIVIGGQMAGAIGVTLGFLLVQIINTILSYFVMIKPVLGSSYRQYILSLWLPFYLSLPTLVVSYALGIVLKGQLALGMLLAVQIATGVLAFVVMIVLSRHPLVVEVKRQFCRSEKMKMLLRAG" "i" "Han et al., 2011" -"G7098-MONOMER" "MTNLKKRERAKTNASLISMVQRFSDITIMFAGLWLVCEVSGLSFLYMHLLVALITLVVFQMLGGITDFYRSWRGVRAATEFALLLQNWTLSVIFSAGLVAFNNDFDTQLKIWLAWYALTSIGLVVCRSCIRIGAGWLRNHGYNKRMVAVAGDLAAGQMLMESFRNQPWLGFEVVGVYHDPKPGGVSNDWAGNLQQLVEDAKAGKIHNVYIAMQMCDGARVKKLVHQLADTTCSVLLIPDVFTFNILHSRLEEMNGVPVVPLYDTPLSGVNRLLKRAEDIVLATLILLLISPVLCCIALAVKLSSPGPVIFRQTRYGMDGKPIKVWKFRSMKVMENDKVVTQATQNDPRVTKVGNFLRRTSLDELPQFINVLTGGMSIVGPRPHAVAHNEQYRQLIEGYMLRHKVKPGITGWAQINGWRGETDTLEKMEKRVEFDLEYIREWSVWFDIKIVFLTVFKGFVNKAAY" "i" "Han et al., 2011" -"G7099-MONOMER" "MQDLSGFSVPKGFRGGNAIKVQLWWAVQATIFAWSPQVLYRWRAFLLRLFGAKIGKNVVIRPSVKITYPWKLTLGDYAWVGDDVNLYTLGEITIGAHSVISQKSYLCTGSHDHASQHFTINATPIVIGEKCWLATDVFVAPGVTIGDGTVVGARSSVFKSLPANVVCRGNPAVVIRERVETE" "c" "Han et al., 2011" -"G7100-MONOMER" "MLLSIITVAFRNLEGIVKTHASLAHLAQVEDISFEWIVVDGGSNDGTREYLENLNGIFNLRFVSEPDNGIYDAMNKGIAMAQGKFALFLNSGDIFHQNAANFVRKLKMQKDNVMITGDALLDFGDGHKIKRSAKPGWYIYHSLPASHQAIFFPVSGLKKWRYDLEYKVSSDYALAAKMYKAGYAFKKLNGLVSEFSMGGVSTTNNMELCADAKKVQRQILHVPGFWAELSWHLRQRTTSKTKALYNKV" "c" "Han et al., 2011" -"G7101-MONOMER" "MSTSIRICSYLLLPLIYLLVNVKIAQLGESFPITIVTFLPVLLLLFLERISVKKLMIALGIGAGLTAFNYLFGQSLDASKYVTSTMLFVYIVIIIGMVWSIRFKTISPHNHRKILRFFYLVVGLVVALAAVEMAQIILTGGSSIMESISKYLIYSNSYVLNFIKFGGKRTTALYFEPAFFALALISIWLSIKQFGIKTPKTDAMILAGIILSGSFSGVMTFILFYLLEWAFQYLNKEAIKKKLPLALISLAVFLVGVVIAFPYISTRLGDLGTEGSSSYYRIVGPLVMVGYSLTHIDGVVRFGSLYEYVASFGIFNGADVGKTIDNGLYLLIIYFSWFAVFLSLWYMGKVIKMMINAFGDNRNFRVQLYLFTPVSLFFTGSIFSPEYAFLIVCPFILRKALNITR" "i" "Han et al., 2011" -"G7102-MONOMER" "MNILQFNVRLAEGGAAGVALDLHQRALQQGLASHFVYGYGKGGKESVSHQNYPQVIKHTPRMTAMANIALFRLFNRDLFGNFNELYRTITRTAGPVVLHFHVLHSYWLNLKSVVRFCEKVKNHKPDVTLVWTLHDHWSVTGRCAFTDGCEGWKTGCQKCPTLNNYPPVKIDRAHQLVAGKRQLFREMLALGCQFISPSQHVADAFNSLYGPGRCRIINNGIDMATEAILADLPPVRETQGKPKIAVVAHDLRYDGKTNQQLVREMMALGDKIELHTFGKFSPFTAGNVVNHGFETDKRKLMSALNQMDALVFSSRVDNYPLILCEALSIGVPVIATHSDAAREVLQKSGGKTVSEEEVLQLVQLSKPEIAQAIFGTTLAEFSQRSRAAYSGQQMLEEYVNFYQNL" "c" "Han et al., 2011" -"G7103-MONOMER" "MLEDLRANSWSLRPCCMVLAYRVAHFCSVWRKKNVLNNLWAAPLLVLYRIITECFFGYEIQAAATIGRRFTIHHGYAVVINKNVVAGDDFTIRHGVTIGNRGADNMACPHIGNGVELGANVIILGDITLGNNVTVGAGSVVLDSVPDNALVVGEKARVKVIK" "c" "Han et al., 2011" -"G7104-MONOMER" "MKNNPLISIYMPTWNRQQLAIRAIKSVLRQDYSNWEMIIVDDCSTSWEQLQQYVTALNDPRITYIHNDINSGACAVRNQAIMLAQGEYITGIDDDDEWTPNRLSVFLAHKQQLVTHAFLYANDYVCQGEVYSQPASLPLYPKSPYSRRLFYKRNIIGNQVFTWAWRFKECLFDTELKAAQDYDIFLRMVVEYGEPWKVEEATQILHINHGEMQITSSPKKFSGYFHFYRKHKDKFDRASKKYQLFTLYQIRNKRMTWRTLLTLLSVRNGKRLADGIRGR" "c" "Han et al., 2011" -"G7105-MONOMER" "MTEKVKQHAAPVTGSDEIDIGRLVGTVIEARWWVIGITTVFALCAVVYTFFATPIYSADALVQIEQNSGNSLVQDIGSALANKPPASDAEIQLIRSRLVLGKTVDDLDLDIAVSKNTFPIFGAGWDRLMGRQNETVKVTTFNRPKEMADQVFTLNVLDNKNYTLSSDGGFSARGQAGQMLKKEGVTLMVEAIHASPGSEFTVTKYSTLGMINQLQNSLTVTENGKDAGVLSLTYTGEDREQIRDILNSIARNYQEQNIERKSAEASKSLAFLAQQLPEVRSRLDVAENKLNAFRQDKDSVDLPLEAKAVLDSMVNIDAQLNELTFKEAEISKLYTKVHPAYRTLLEKRQALEDEKAKLNGRVTAMPKTQQEIVRLTRDVESGQQVYMQLLNKEQELKITEASTVGDVRIVDPAITQPGVLKPKKGLIILGAIILGLMLSIVGVLLRSLFNRGIESPQVLEEHGISVYASIPLSEWQKARDSVKTIKGIKRYKQSQLLAVGNPTDLAIEAIRSLRTSLHFAMMQAQNNVLMMTGVSPSIGKTFVCANLAAVISQTNKRVLLIDCDMRKGYTHELLGTNNVNGLSEILIGQGDITTAAKPTSIAKFDLIPRGQVPPNPSELLMSERFAELVNWASKNYDLVLIDTPPILAVTDAAIVGRHVGTTLMVARYAVNTLKEVETSLSRFEQNGIPVKGVILNSIFRRASAYQDYGYYEYEYKSDAK" "i" "Han et al., 2011" -"G7106-MONOMER" "MFNNILVVCVGNICRSPTAERLLQRYHPELKVESAGLGALVGKGADPTAISVAAEHQLSLEGHCARQISRRLCRNYDLILTMEKRHIERLCEMAPEMRGKVMLFGHWDNECEIPDPYRKSRETFAAVYTLLERSARQWAQALNAEQV" "c" "Han et al., 2011" -"G7107-MONOMER" "MMKSKMKLMPLLVSVTLISGCTVLPGSNMSTMGKDVIKQQDADFDLDKMVNVYPLTPRLIDQLRPRPNVARPNMTLESEIANYQYRVGPGDVLNVTVWDHPELTTPAGQYRSSSDTGNWVQPDGTMFYPYIGKVHVVGKTLAEIRSDITGRLATYIADPQVDVNIAAFRSQKAYISGQVNKSGQQAITNVPLTILDAINAAGGLTDTADWRNVVLTHNGREERISLQALMQNGDLNQNRLLYPGDILYVPRNDDLKVFVMGEVKKQSTLKMDFSGMTLTEALGNAEGIDMTTSNASGIFVIRPLKGEGGRNGKIANIYQLDMSDATSLVMATEFRLQPYDVVYVTTAPVSRWNRLINQLLPTISGVRYMTDTASDIHNW" "e" "EcoCyc dump" -"G7108-MONOMER" "MEWIADPSIWAGLITLIVIELVLGIDNLVFIAILAEKLPPKQRDRARVTGLLLAMLMRLLLLASISWLVTLTQPLFSFRSFTFSARDLIMLFGGFFLLFKATMELNERLEGKDSNNPTQRKGAKFWGVVTQIVVLDAIFSLDSVITAVGMVDHLLVMMAAVVIAISLMLMASKPLTQFVNSHPTIVILCLSFLLMIGFSLVAEGFGFVIPKGYLYAAIGFSVMIEALNQLAIFNRRRFLSANQTLRQRTTEAVMRLLSGQKEDAELDAETASMLVDHGNQQIFNPQERRMIERVLNLNQRTVSSIMTSRHDIEHIDLNAPEEEIRQLLERNQHTRLVVTDGDDAEDLLGVVHVIDLLQQSLRGEPLNLRVLIRQPLVFPETLPLLPALEQFRNARTHFAFVVDEFGSVEGIVTLSDVTETIAGNLPNEVEEIDARHDIQKNADGSWTANGHMPLEDLVQYVPLPLDEKREYHTIAGLLMEYLQRIPKPGEEVQVGDYLLKTLQVESHRVQKVQIIPLRKDGEMEYEV" "i" "Han et al., 2011" -"G7109-MONOMER" "MKTNIKVFTSTGELTTLGRELGKGGEGAVYDIEEFVDSVAKIYHTPPPALKQDKLAFMAATADAQLLNYVAWPQATLHGGRGGKVIGFMMPKVSGKEPIHMIYSPAHRRQSYPHCAWDFLLYVARNIASSFATVHEHGHVVGDVNQNSFMVGRDSKVVLIDSDSFQINANGTLHLCEVGVSHFTPPELQTLPSFVGFERTENHDNFGLALLIFHVLFGGRHPYSGVPLISDAGNALETDITHFRYAYASDNQRRGLKPPPRSIPLSMLPSDVEAMFQQAFTESGVATGRPTAKAWVAALDSLRQQLKKCIVSAMHVYPAHLTDCPWCALDNQGVIYFIDLGEEVITTGGNFVLAKVWAMVMASVAPPALQLPLPDHFQPTGRPLPLGLLRREYIILLEIALSALSLLLCGLQAEPRYIILVPVLAAIWIIGSLTSKAYKAEVQQRREAFNRAKMDYDHLVRQIQQVGGLEGFIAKRTMLEKMKDEILGLPEEEKRALAALHDTARERQKQKFLEGFFIDVASIPGVGPARKAALRSFGIETAADVTRRGVKQVKGFGDHLTQAVIDWKASCERRFVFRPNEAITPADRQAVMAKMTAKRHRLESALTVGATELQRFRLHAPARTMPLMEPLRQAAEKLAQAQADLSRC" "c" "Han et al., 2011" -"G7110-MONOMER" "MKKILLMLSLLFFTTAGFSEVSDTLVTGGYDKQAMSDAIKHARKETDKFIEVMNKKDADTFAVKAPITDHGRTEHFWLTDVTYSNGMFIGVISNDPGIVTNVEYGQEWKIKKEDISDWMYTRGDKIYGGYTIDPLLVTYPKEEADELRAKLVR" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7111-MONOMER" "VSWRLVYASTVGTSHISADLPCQDACQMQIAWLNDQQPLLSVFVADGAGSVSQGGEGAMLAVNEAMAYMSQKVQGGELGLNDVLATNMVLTIRQRLFAEAEAKELAVRDFACTFLGLISSPDGTLIMQIGDGGVVVDLGHGLQLPLTPMAGEYANMTHFITDEDAVSRLETFTSTGRAHKVAAFTDGIQRLALNMLDNSPHVPFFTPFFNGLAAATQEQLDLLPELLKQFLSSPAVNERTDDDKTLALALWAE" "c" "Han et al., 2011" -"G7112-MONOMER" "MSEQITFATSDFASNPEPRCPCILLLDVSGSMNGRPINELNAGLVTFRDELLADPLALKRVELGIVTFGPVHVEQPFTSAANFFPPILFAQGDTPMGAAITKALDMVEERKREYRANGISYYRPWIFLITDGAPTDEWQAAANKVFRGEEDKRFAFFSIGVQGADMKTLAQISVRQPLPLQGLQFRELFSWLSSSLRSVSRSTPGTEVVLEAPKGWTSV" "c" "Han et al., 2011" -"G7117-MONOMER" "MAGWFELSKSSDNQFRFVLKAGNGETILTSELYTSKTSAEKGIASVRSNSPQEERYEKKTASNGKFYFNLKAANHQIIGSSQMYATAQSRETGIASVKANGTSQTVKDNT" "c" "Han et al., 2011" -"G7118-MONOMER" "MFKPELLSPAGTLKNMRYAFAYGADAVYAGQPRYSLRVRNNEFNHENLQLGINEAHALGKKFYVVVNIAPHNAKLKTFIRDLKPVVEMGPDALIMSDPGLIMLVREHFPEMPIHLSVQANAVNWATVKFWQQMGLTRVILSRELSLEEIEEIRNQVPDMEIEIFVHGALCMAYSGRCLLSGYINKRDPNQGTCTNACRWEYNVQEGKEDDVGNIVHKYEPIPVQNVEPTLGIGAPTDKVFMIEEAQRPGEYMTAFEDEHGTYIMNSKDLRAIAHVERLTKMGVHSLKIEGRTKSFYYCARTAQVYRKAIDDAAAGKPFDTSLLETLEGLAHRGYTEGFLRRHTHDDYQNYEYGYSVSDRQQFVGEFTGERKGDLAAVAVKNKFSVGDSLELMTPQGNINFTLEHMENAKGEAMPIAPGDGYTVWLPVPQDLELNYALLMRNFSGETTRNPHGK" "c" "Han et al., 2011" -"G7119-MONOMER" "MFHCPLCQHAAHARTSRYITDTTKERYHQCQNVNCSATFITYESVQRYIVKPGEVHVVRPHPLPSGQQIMWM" "c" "Han et al., 2011" -"G7120-MONOMER" "ARVAEFSISLATGRADIYTETPVKVSGFKRVIDEQDWTITKVTHFLNNSGFTTSLELEVRLSDVGYETEDNE" "c" "Han et al., 2011" -"G7122-MONOMER" "MKKIAAISLISIFIMSGCAVHNDETSIGKFGLAYKSNIQRKLDNQYYTEAEASLARGRISGAENIVKNDATHFCVTQGKKMQIVELKTEGVGLHGVARLTFKCGE" "p" "Han et al., 2011" -"G7123-MONOMER" "MAEFPASLLILNGKSTDNLPLREAIMLLREEGMTIHVRVTWEKGDAARYVEEARKFGVATVIAGGGDGTINEVSTALIQCEGDDIPALGILPLGTANDFATSVGIPEALDKALKLAIAGDAIAIDMAQVNKQTCFINMATGGFGTRITTETPEKLKAALGSVSYIIHGLMRMDTLQPDRCEIRGENFHWQGDALVIGIGNGRQAGGGQQLCPNALINDGLLQLRIFTGDEILPALVSTLKSDEDNPNIIEGASSWFDIQAPHDITFNLDGEPLSGQNFHIEILPAALRCRLPPDCPLLR" "c" "Han et al., 2011" -"G7126-MONOMER" "MKYVFIEKHQAEFSIKAMCRVLRVARSGWYTWCQRRTRISTRQQFRQHCDSVVLAAFTRSKQRYGAPRLTDELRAQGYPFNVKTVAASLRRQGLRAKASRKFSPVSYRAHGLPVSENLLEQDFYASGPNQKWAGDITYLRTDEGWLYLAVVIDLWSRAVIGWSMSPRMTAQLACDALQMALWRRKRPRNVIVHTDRGGQYCSADYQAQLKRHNLRGSMSAKGCCYDNACVESFFHSLKVECIHGEHFISREIMRATVFNYIECDYNRWRRHSWCGGLSPEQFENKNLA" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7128-MONOMER" "MKTLIARHKAGEHIGICSVCSAHPLVIEAALAFDRNSTRKVLIEATSNQVNQFGGYTGMTPADFREFVFTIADKVGFARERIILGGDHLGPNCWQQENADAAMEKSVELVKEYVRAGFSKIHLDASMSCAGDPIPLAPETVAERAAVLCFAAESVATDCQREQLSYVIGTEVPVPGGEASAIQSVHITHVEDAANTLRTHQKAFIARGLTEALTRVIAIVVQPGVEFDHSNIIHYQPQEAQPLAQWIENTRMVYEAHSTDYQTRTAYWELVRDHFAILKVGPALTFALREAIFALAQIEQELIAPENRSGCLAVIEEVMLDEPQYWKKYYRTGFNDSLLDIRYSLSDRIRYYWPHSRIKNSVETMMVNLEGVDIPLGMISQYLPKQFERIQSGELSAIPHQLIMDKIYDVLRAYRYGCAE" "c" "EcoCyc dump" -"G7131-MONOMER" "MKTERILGALYGQALGDAMGMPSELWPRSRVKAHFGWIDRFLPGPKENNAACYFNRAEFTDDTSMALCLADALLEREGKIDPDLIGRNILDWALRFDAFNKNVLGPTSKIALNAIRDGKPVAELENNGVTNGAAMRVSPLGCLLPARDVDSFIDDVALASSPTHKSDLAVAGAVVIAWAISRAIDGESWSAIVDSLPSIARHAQQKRITTFSASLAARLEIALKIVRNADGTESASEQLYQVVGAGTSTIESVPCAIALVELAQTDPNRCAVLCANLGGDTDTIGAMATAICGALHGVNAIDPALKAELDAVNQLDFNRYATALAKYRQQREAV" "c" "Han et al., 2011" -"G7132-MONOMER" "MSGARLHTLLPELTTRQSVMVVGAAVIDVIADAYALPWRGCDIELKQQSVNVGGCALNIAVALKRLGIEAGNALPLGQGVWAEMIRNRMAKEGLISLIDNAEGDNGWCLALVEPDGERTFMSFSGVENQWNRQWLARLTVAPGSLLYFSGYQLASPCGELLVEWLEELQDVTPFIDFGPRIGDIPDALLARIMACRPLVSLNRQEAEIAAERFALSAEITTLGKQWQEKFAAPLIVRLDKEGAWYFSNDASGCIPAFPTQVVDTIGAGDSHAGGVLAGLASGLPLADAVLLGNAVASWVVGHRGGDCAPTREELLLAHKNV" "c" "Han et al., 2011" -"G7133-MONOMER" "MEQAHTQLIAQLNERILAADNTPLYIKFAETVKNAVRSGVLEHGNILPGERDLSQLTGVSRITVRKAMQALEEEGVVTRSRGYGTQINNIFEYSLKEARGFSQQVVLRGKKPDTLWVNKRVVKCPEEVAQQLAVEAGSDVFLLKRIRYVDEEAVSIEESWVPAHLIHDVDAIGISLYDYFRSQHIYPQRTRSRVSARMPDAEFQSHIQLDSKIPVLVIKQVALDQQQRPIEYSISHCRSDLYVFVCEE" "c" "Han et al., 2011" -"G7134-MONOMER" "MQLRITSRKKLTSLLCALGLISIVAIYPRQTVNFFYSTAVQITDYIHFYGYRPVKSFAIRIPASYTIHGIDVSRWQERIDWQRVAKMRDNGIRLQFAFIKATEGEKLVDPYFSRNWQLSRENGLLRGAYHYFSPSVSASVQARLFLQTVDFSQGDFPAVLDVEERGKLSAKELRKRVSQWLKMVEKSTGKKPIIYSGAVFYHTNLAGYFNEYPWWVAHYYQRRPDNDGMAWRFWQHSDRGQVDGINGPVDFNVFNGTVEELQAFVDGIKETP" "i" "Han et al., 2011" -"G7137-MONOMER" "MSHTIRDKQKLKARASKIQGQVVALKKMLDEPHECAAVLQQIAAIRGAVNGLMREVIKGHLTEHIVHQGDELKREEDLDVVLKVLDSYIK" "c" "Unambiguous EcoCyc data" -"G7138-MONOMER" "MTEFTTLLQQGNAWFFIPSAILLGALHGLEPGHSKTMMAAFIIAIKGTIKQAVMLGLAATISHTAVVWLIAFGGMVISKRFTAQSAEPWLQLISAVIIISTAFWMFWRTWRGERNWLENMHGHDYEHHHHDHEHHHDHGHHHHHEHGEYQDAHARAHANDIKRRFDGREVTNWQILLFGLTGGLIPCPAAITVLLICIQLKALTLGATLVVSFSIGLALTLVTVGVGAAISVQQVAKRWSGFNTLAKRAPYFSSLLIGLVGVYMGVHGFMGIMR" "i" "Unambiguous EcoCyc data" -"G7139-MONOMER" "MTIKNKMLLGALLLVTSAAWAAPATAGSTNTSGISKYELSSFIADFKHFKPGDTVPEMYRTDEYNIKQWQLRNLPAPDAGTHWTYMGGAYVLISDTDGKIIKAYDGEIFYHR" "p" "Unambiguous EcoCyc data" -"G7144-MONOMER" "MDVQQFFVVAVFFLIPIFCFREAWKGWRAGAIDKRVKNAPEPVYVWRAKNPGLFFAYMVAYIGFGILSIGMIVYLIFYR" "i" "Han et al., 2011" -"G7145-MONOMER" "MPQQNYLDELTPAFTSLLAIKEASRCLLCHDAPCSQACPAQTDPGKFIRSIYFRNFKGAAETIRENNALGAVCARVCPTEKLCQSGCTRAGVDAPIDIGRLQRFVTDFEQQTGMEIYQPGTKTLGKVAIIGAGPAGLQASVTLTNQGYDVTIYEKEAHPGGWLRNGIPQFRLPQSVLDAEIARIEKMGVTIKCNNEVGNTLTLEQLKAENRAVLVTVGLSSGSGLPLFEHSDVEIAVDFLQRARQAQGDISIPQSALIIGGGDVAMDVASTLKVLGCQAVTCVAREELDEFPASEKEFTSARELGVSIIDGFTPVAVEGNKVTFKHVRLSGELTMAADKIILAVGQHARLDAFAELEPQRNTIKTQNYQTRDPQVFAAGDIVEGDKTVVYAVKTGKEAAEAIHHYLEGACSC" "c" "Han et al., 2011" -"G7146-MONOMER" "MIKNLPQIVLLNIVGLALFLSWYIPVNHGFWLPIDADIFYFFNQKLVESKAFLWLVALTNNRAFDGCSLLAMGMLMLSFWLKENAPGRRRIVIIGLVMLLTAVVLNQLGQALIPVKRASPTLTFTDINRVSELLSVPTKDASRDSFPGDHGMMLLIFSAFMWRYFGKVAGLIALIIFVVFAFPRVMIGAHWFTDIIVGSMTVILIGLPWVLLTPLSDRLITFFDKSLPGKNKHFQNK" "i" "Han et al., 2011" -"G7147-MONOMER" "MVKSQPILRYILRGIPAIAVAVLLSACSANNTAKNMHPETRAVGSETSSLQASQDEFENLVRNVDVKSRIMDQYADWKGVRYRLGGSTKKGIDCSGFVQRTFREQFGLELPRSTYEQQEMGKSVSRSNLRTGDLVLFRAGSTGRHVGIYIGNNQFVHASTSSGVIISSMNEPYWKKRYNEARRVLSRS" "i" "Han et al., 2011" -"G7148-MONOMER" "MFIRAPNFGRKLLLTCIVAGVMIAILVSCLQFLVAWHKHEVKYDTLITDVQKYLDTYFADLKSTTDRLQPLTLDTCQQANPELTARAAFSMNVRTFVLVKDKKTFCSSATGEMDIPLNELIPALDINKNVDMAILPGTPMVPNKPAIVIWYRNPLLKNSGVFAALNLNLTPSLFYSSRQEDYDGVALIIGNTALSTFSSRLMNVNELTDMPVRETKIAGIPLTVRLYADDWTWNDVWYAFLLGGMSGTVVGLLCYYLMSVRMRPGREIMTAIKREQFYVAYQPVVDTQALRVTGLEVLLRWRHPVAGEIPPDAFINFAESQKMIVPLTQHLFELIARDAAELEKVLPVGVKFGINIAPDHLHSESFKADIQKLLTSLPAHHFQIVLEITERDMLKEQEATQLFAWLHSVGVEIAIDDFGTGHSALIYLERFTLDYLKIDRGFINAIGTETITSPVLDAVLTLAKRLNMLTVAEGVETPEQARWLSERGVNFMQGYWISRPLPLDDFVRWLKKPYTPQW" "i" "Han et al., 2011" -"G7152-MONOMER" "MRKIFLPLLLVALSPVAHSEGVQEVEIDAPLSGWHPAEGEDASFSQSINYPASSVNMADDQNISAQIRGKIKNYAAAGKVQQGRLVVNGASMPQRIESDGSFARPYIFTEGSNSVQVISPDGQSRQKMQFYSTPGTGTIRARLRLVLSWDTDNTDLDLHVVTPDGEHAWYGNTVLKNSGALDMDVTTGYGPEIFAMPAPIHGRYQVYINYYGGRSETELTTAQLTLITDEGSVNEKQETFIVPMRNAGELTLVKSFDW" "o" "Han et al., 2011" -"G7153-MONOMER" "VNWRRIVWLLALVTLPTLAEETPLQLVLRGAQHDQLYQLSSSGVTKVSALPDSLTTPLGSLWKLYVYAWLEDTHQPEQPYQCRGNSPEEVYCCQAGESITRDTALVRSCGLYFAPQRLHIGADVWGQYWQQRQAPAWLASLTTLKPETSVTVKSLLDSLATLPAQNKAQEVLLDVVLDEAKIGVASMLGSRVRVKTWSWFADDKQEIRQGGFAGWLTDGTPLWVTGSGTSKTVLTRYATVLNRVLPVPTQVASGQCVEVELFARYPLKKITAEKSTTAVNPGVLNGRYRVTFTNGNHITFVSHGETTLLSEKGKLKLQSHLDREEYVARVLDREAKSTPPEAAKAMTVAIRTFLQQNANREGDCLTIPDSSATQRVSASPATTGARTMTAWTQDLIYAGDPVHYHGSRATEGTLSWRQATAQAGQGERYDQILAFAYPDNSLSRWGAPRSTCQLLPKAKAWLAKKMPQWRRILQAETGYNEPDVFAVCRLVSGFPYTDRQQKRLFIRNFFTLQDRLDLTHEYLHLAFDGYPTGLDENYIETLTRQLLMD" "p" "Han et al., 2011" -"G7154-MONOMER" "MAQQSNIPVTVERQLYRLIPGEEEMSFILQPVTSNEIDSDALYLDEITLTSEQDAVLRYGQVEVPLPPGADVERTTWGISVNKPNAAKQQGQLLEKARNEMGELAYMVPVKELTGTVTFRHLLRFSQKGQFVLPPARYVRSYAPAQQSVAAGSEWTGMQVK" "e" "Han et al., 2011" -"G7155-MONOMER" "MDTQRFQSQFHWHLSFKFSGAIAACLSLSLVGTGLANADDSLPSSNYAPPAGGTFFLLADSSFSSSEEAKVRLEAPGRDYRRYQMEEYGGVDVRLYRIPDPMAFLRQQKNLHRIVVQPQYLGDGLNNTLTWLWDNWYGKSRRVMQRTFSSQSRQNVTQALPELQLGNAIIKPSRYVQNNQFSPLKKYPLVKQFRYPLWQAKPFEPQQGVKLEGASSNFISPQPGNIYIPLGQQEPGLYLVEAMVGGYRATTVVFVSDTVALSKVSGKELLVWTAGKKQGEAKPGSEILWTDGLGVMTRGVTDDSGTLQLQHISPERSYILGKDAEGGVFVSENFFYESEIYNTRLYIFTDRPLYRAGDRVDVKVIGREFHDPLHSSPIVSAPAKLSVLDANGSLLQTVNVTLDARNGGQGSFRLPENAVAGGYELRLAYRNQVYSSSFRVANYIKPHFEIGLALAKKEFKTGEAVSGKLQLLYPDGEPVKNARVQLSLRAQQLSMVGNDLRYAGRFPVSLEGSETVSDASGHVALNLPAADKPSRYLLTVSASDGAAYRVTTTKEILIERGLAHYSLSTAAQYSNSGESVVFRYAALESSKQVPVTYEWLRLEDRTSHSGELPSGGKSFTVNFAKPGNYNLTLRDKDGLILAGLSHAVSGKGSTAHTGTVDIVADKTLYQPGETAKMLITFPEPIDEALLTLERDRVEQQSLLSHPANWLTLQRLNDTQYEARVPVSNSFAPNITFSVLYTRNGQYSFQNAGIKVAVPQLDIRVKTDKTHYQPGELVNVELTSSLKGKPVSAQLTVGVVDEMIYALQPEIAPNIGKFFYPLGRNNVRTSSSLSFISYDQALSSEPVAPGATNRSERRVKMLERPRREEVDTAAWMPSLTTDKQGKAYFTFLMPDSLTRWRITARGMNGDGLVGQGRAYLRSEKNLYMKWSMPTVYRVGDKPAAGLFIFSQQDNEPVALVTKFAGAEMRQTLTLHKGANYISLTQNIQQSGLLSAELQQNGQVQDSISTKLSFVDNSWPVEQQKNVMLGGGDNALMLPEQASNIRLQSSETPQEIFRNNLDALVDEPWGGVINTGSRLIPLSLAWRSLADHQSAAANDIRQMIQDNRLRLMQLAGPGARFTWWGEDGNGDAFLTAWAWYADWQASQAIGVTQQPEYWQHMLDSYAEQADNMPLLHRALVLAWAQEMNLPCKTLLKGLDEAIARRGTKTEDFSEEDTRDINDSLILDTPESPLADAVANVLTMTLLKKAQLKSTVMPQVQQYAWDKAANSNQPLAHTVVLLNSGGDATQTAAILSGLTAEQSTIERALAMNWLAKYMATMPPVVLPAPAGAWAKHKLTGGGEDWRWVGQGVPDILSFGDELSPQNVQVR" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7156-MONOMER" "MRHGLLALICWLCCVVAHSEMLNVEQSGLFRAWFVRIAQEQLRQGPSPRWYQQDCAGLVRFAANETLKVHDSKWLKSNGLSSQYLPPEMTLTPEQRQLAQNWNQGNGKTGPYVTAINLIQYNSQFIGQDINQALPGDMIFFDQGDAQHLMVWMGRYVIYHTGSATKTDNGMRAVSLQQLMTWKDTRWIPNDSNPNFIGIYRLNFLAR" "c" "Han et al., 2011" -"G7158-MONOMER" "MNALLSNPFKERLRKGEVQIGLWLSSTTAYMAEIAATSGYDWLLIDGEHAPNTIQDLYHQLQAVAPYASQPVIRPVEGSKPLIKQVLDIGAQTLLIPMVDTAEQARQVVSATRYPPYGERGVGASVARAARWGRIENYMAQVNDSLCLLVQVESKTALDNLDEILDVEGIDGVFIGPADLSASLGYPDNAGHPEVQRIIETSIRRIRAAGKAAGFLAVAPDMAQQCLAWGANFVAVGVDTMLYSDALDQRLAMFKSGKNGPRIKGSY" "c" "Han et al., 2011" -"G7160-MONOMER" "MENIMTLPKIKQVRAWFTGGATAEKGAGGGDYHDQGANHWIDDHIATPMSKYRDYEQSRQSFGINVLGTLVVEVEAENGQTGFAVSTAGEMGCFIVEKHLNRFIEGKCVSDIKLIHDQMLSATLYYSGSGGLVMNTISCVDLALWDLFGKVVGLPVYKLLGGAVRDEIQFYATGARPDLAKEMGFIGGKMPTHWGPHDGDAGIRKDAAMVADMREKCGEDFWLMLDCWMSQDVNYATKLAHACAPYNLKWIEECLPPQQYESYRELKRNAPVGMMVTSGEHHGTLQSFRTLSETGIDIMQPDVGWCGGLTTLVEIAAIAKSRGQLVVPHGSSVYSHHAVITFTNTPFSEFLMTSPDCSTMRPQFDPILLNEPVPVNGRIHKSVLDKPGFGVELNRDCNLKRPYSH" "c" "Han et al., 2011" -"G7161-MONOMER" "MLESSKVPALTRAIDILNLIARIGPCSAATIIDTLGIPKSTAYLLLNELRRQRFLSLDHQENFCLWTRLVELSGHALSKMDLRELARPRLTQLMDTTGLLCHLGIIDNGSAYYILKVESSATISVRSHEGKSLSLYRSGIGKCLLAWQPAAVQQSIIEGLVWEQATPTTITHPQQLHEELARIRRQGWSYDNGEDYADVRCVAAPVFNANNELTAAISVVGTRLQINEEYRDYLAGKAIACARDISRLLGWKSPFDLQAS" "c" "Han et al., 2011" -"G7162-MONOMER" "MLKVEMLSTGDEVLHGQIVDTNAAWLADFFFHQGLPLSRRNTVGDNLDDLVTILRERSQHADVLIVNGGLGPTSDDLSALAAATAKGEGLVLHEAWLKEMERYFHERGRVMAPSNRKQAELPASAEFINNPVGTACGFAVQLNRCLMFFTPGVPSEFKVMVEHEILPRLRERFSLPQPPVCLRLTTFGRSESDLAQSLDTLQLPPGVTMGYRSSMPIIELKLTGPASEQQAMEKLWLDVKRVAGQSVIFEGTEGLPAQISRELQNRQFSLTLSEQFTGGLLALQLSRAGAPLLACEVVPSQEETLAQTAHWITERRANHFAGLALAVSGFENEHLNFALATPDGTFALRVRFSTTRYSLAIRQEVCAMMALNMLRRWLNGQDIASEHGWIEVVESMTLSV" "c" "Han et al., 2011" -"G7163-MONOMER" "MKKIALAGLAGMLLVSASVNAMSISGQAGKEYTNIGVGFGTETTGLALSGNWTHNDDDGDVAGVGLGLNLPLGPLMATVGGKGVYTNPNYGDEGYAAAVGGGLQWKIGNSFRLFGEYYYSPDSLSSGIQSYEEANAGARYTIMRPVSIEAGYRYLNLSGKDGNRDNAVADGPYVGVNASF" "o" "Han et al., 2011" -"G7164-MONOMER" "VRQRTIVCPLIQNDGAYLLCKMADDRGVFPGQWAISGGGVEPGERIEEALRREIREELGEQLLLTEITPWTFSDDIRTKTYADGRKEEIYMIYLIFDCVSANREVKINEEFQDYAWVKPEDLVHYDLNVATRKTLRLKGLL" "c" "Han et al., 2011" -"G7165-MONOMER" "VLAFCRSSLKSKKYIIILLALAAIAGLGTHAAWSSNGLPRIDNKTLARLAQQHPVVVLFRHAERCDRSTNQCLSDKTGITVKGTQDARELGNAFSADIPDFDLYSSNTVRTIQSATWFSAGKKLTVDKRLLQCGNEIYSAIKDLQSKAPDKNIVIFTHNHCLTYIAKDKRDATFKPDYLDGLVMHVEKGKVYLDGEFVNH" "i" "Han et al., 2011" -"G7166-MONOMER" "MAEGKAMSEFLPFSRPAMGVEELAAVKEVLESGWITTGPKNQALEQAFCQLTGNQHAIAVSSATAGMHITLMALKIGKGDEVITPSLTWVSTLNMISLLGATPVMVDVDRDTLMVTPEAIESAITPRTKAIIPVHYAGAPADIDAIRAIGERYGIAVIEDAAHAVGTYYKGRHIGAKGTAIFSFHAIKNITCAEGGLIVTDNENLARQLRMLKFHGLGVDAYDRQTWGRAPQAEVLTPGYKYNLTDINAAIALTQLVKLEHLNTRRREIAQQYQQALAALPFQPLSLPAWPHVHAWHLFIIRVDEQRCGISRDALMEALKERGIGTGLHFRAAHTQKYYRERFPTLSLPNTEWNSERICSLPLFPDMTTADADHVITALQQLAGQ" "c" "Han et al., 2011" -"G7167-MONOMER" "MFEIHPVKKVSVVIPVYNEQESLPELIRRTTTACESLGKEYEILLIDDGSSDNSAHMLVEASQAENSHIVSILLNRNYGQHSAIMAGFSHVTGDLIITLDADLQNPPEEIPRLVAKADEGYDVVGTVRQNRQDSWFRKTASKMINRLIQRTTGKAMGDYGCMLRAYRRHIVDAMLHCHERSTFIPILANIFARRAIEIPVHHAEREFGESKYSFMRLINLMYDLVTCLTTTPLRMLSLLGSIIAIGGFSIAVLLVILRLTFGPQWAAEGVFMLFAVLFTFIGAQFIGMGLLGEYIGRIYTDVRARPRYFVQQVIRPSSKENE" "c" "Han et al., 2011" -"G7168-MONOMER" "MKTVVFAYHDMGCLGIEALLAAGYEISAIFTHTDNPGEKAFYGSVARLAAERGIPVYAPDNVNHPLWVERIAQLSPDVIFSFYYRHLIYDEILQLAPAGAFNLHGSLLPKYRGRAPLNWVLVNGETETGVTLHRMVKRADAGAIVAQLRIAIAPDDIAITLHHKLCHAARQLLEQTLPAIKHGNILEIAQRENEATCFGRRTPDDSFLEWHKPASVLHNMVRAVADPWPGAFSYVGNQKFTVWSSRVHPHASKAQPGSVISVAPLLIACGDGALEIVTGQAGDGITMQGSQLAQTLGLVQGSRLNSQPACTARRRTRVLILGVNGFIGNHLTERLLREDHYEVYGLDIGSDAISRFLNHPHFHFVEGDISIHSEWIEYHVKKCDVVLPLVAIATPIEYTRNPLRVFELDFEENLRIIRYCVKYRKRIIFPSTSEVYGMCSDKYFDEDHSNLIVGPVNKPRWIYSVSKQLLDRVIWAYGEKEGLQFTLFRPFNWMGPRLDNLNAARIGSSRAITQLILNLVEGSPIKLIDGGKQKRCFTDIRDGIEALYRIIENAGNRCDGEIINIGNPENEASIEELGEMLLASFEKHPLRHHFPPFAGFRVVESSSYYGKGYQDVEHRKPSIRNAHRCLDWEPKIDMQETIDETLDFFLRTVDLTDKPS" "c" "Han et al., 2011" -"G7169-MONOMER" "MTKVGLRIDVDTFRGTREGVPRLLEILSKHNIQASIFFSVGPDNMGRHLWRLVKPQFLWKMLRSNAASLYGWDILLAGTAWPGKEIGHANADIIREAAKHHEVGLHAWDHHAWQARSGNWDRQTMIDDIARGLRTLEEIIGQPVTCSAAAGWRADQKVIEAKEAFHLRYNSDCRGAMPFRPLLESGNPGTAQIPVTLPTWDEVIGRDVKAEDFNGWLLNRILRDKGTPVYTIHAEVEGCAYQHNFVDLLKRAAQEGVTFCPLSELLSETLPLGQVVRGNIAGREGWLGCQQIAGSR" "c" "Han et al., 2011" -"G7170-MONOMER" "MKSVRYLIGLFAFIACYYLLPISTRLLWQPDETRYAEISREMLASGDWIVPHLLGLRYFEKPIAGYWINSIGQWLFGANNFGVRAGVIFATLLTAALVTWFTLRLWRDKRLALLATVIYLSLFIVYAIGTYAVLDPFIAFWLVAGMCSFWLAMQAQTWKGKSAGFLLLGITCGMGVMTKGFLALAVPVLSVLPWVATQKRWKDLFIYGWLAVISCVLTVLPWGLAIAQREPNFWHYFFWVEHIQRFALDDAQHRAPFWYYVPVIIAGSLPWLGLLPGALYTGWKNRKHSATVYLLSWTIMPLLFFSVAKGKLPTYILSCFASLAMLMAHYALLAAKNNPLALRINGWINIAFGVTGIIATFVVSPWGPMNTPVWQTFESYKVFCAWSIFSLWAFFGWYTLTNVEKTWPFAALCPLGLALLVGFSIPDRVMEGKHPQFFVEMTQESLQPSRYILTDSVGVAAGLAWSLQRDDIIMYRQTGELKYGLNYPDAKGRFVSGDEFANWLNQHRQEGIITLVLSVDRDEDINSLAIPPADAIDRQERLVLIQYRPK" "i" "Han et al., 2011" -"G7171-MONOMER" "MGLMWGLFSVIIASVAQLSLGFAASHLPPMTHLWDFIAALLAFGLDARILLLGLLGYLLSVFCWYKTLHKLALSKAYALLSMSYVLVWIASMVLPGWEGTFSLKALLGVACIMSGLMLIFLPTTKQRY" "i" "Han et al., 2011" -"G7172-MONOMER" "MEWLVKKSCCNKQDNRHVLMLCDAGGAIKMIAEVKSDFAVKVGDLLSPLQNALYCINREKLHTVKVLSASSYSPDEWERQCKVAGKTQ" "c" "Han et al., 2011" -"G7173-MONOMER" "MSNQFGDTRIDDDLTLLSETLEEVLRSSGDPADQKYVELKARAEKALDDVKKRVSQASDSYYYRAKQAVYRADDYVHEKPWQGIGVGAAVGLVLGLLLARR" "e" "Han et al., 2011" -"G7174-MONOMER" "MIEWQDLHHSELSVSQLYALLQLRCAVFVVEQNCPYQDIDGDDLTGDNRHILGWKNDELVAYARILKSDDDLEPVVIGRVIVSEALRGEKVGQQLMSKTLETCTHHWPDKPVYLGAQAHLQNFYQSFGFIPVTEVYEEDGIPHIGMAREVIQA" "c" "Han et al., 2011" -"G7175-MONOMER" "MELIFLGTSAGVPTRTRNVTAILLNLQHPTQSGLWLFDCGEGTQHQLLHTAFNPGKLDKIFISHLHGDHLFGLPGLLCSRSMSGIIQPLTIYGPQGIREFVETALRISGSWTDYPLEIVEIGAGEILDDGLRKVTAYPLEHPLECYGYRIEEHDKPGALNAQALKAAGVPPGPLFQELKAGKTITLEDGRQINGADYLAAPVPGKALAIFGDTGPCDAALDLAKGVDVMVHEATLDITMEAKANSRGHSSTRQAATLAREAGVGKLIITHVSSRYDDKGCQHLLRECRSIFPATELANDFTVFNV" "c" "Han et al., 2011" -"G7176-MONOMER" "MMVTVVSNYCQLSQTQLSQTFAEKFTVTEELLQSLKKTALSGDEESIELLHNIALGYDKFGKEAEDILYHIVRTPTNETLSIIRLIKNACLKLYNLAHIATNSPLKSHDSDDLLFKKLFSPSKLMTIIGDEIPLISEKQSLSKVLLNDENNELSDGTNFWDKNRQLTTDEIACYLQKIAANAKNTQVNYPTGLYVPYSTRTHLEDALNENIKSDPSWPNEVQLFPINTGGHWILVSLQKIVNKKNNKLQIKCVIFNSLRALGYDKENSLKRVINSFNSELMGEMSNNNIKVHLNEPEIIFLHADLQQYLSQSCGAFVCMAAQEVIEQRESNSDSAPYTLLKNHADRFKKYSAEEQYEIDFQHRLANRNCYLDKYGDANINHYYRNLEIKHSQPKNRASGKRVS" "c" "Han et al., 2011" -"G7177-MONOMER" "MRNKNIIMLLMSSLILSGCGPQPENKESQQQQPSTPTEQQVLAAQQAAIKEAEQSAAAAKALAQQEVQQYSDKQALQGRLQEAPTFARAAKAKATHIANPGTARYQQFDDNPVKQVAQNPLATFSLDVDTGSYANVRRFLNQGLLPPPDAVRVEEIVNYFPSDWDIKDKQSIPASKPIPFAMRYELAPAPWNEQRTLLKVDILAKDRKSEELPASNLVFLIDTSGSMISDERLPLIQSSLKLLVKELREQDNIAIVTYAGDSRIALPSISGSHKAEINAAIDSLDAEGSTNGGAGLELAYQQATKGFIKGGINRILLATDGDFNVGIDDPKSIESMVKKQRESGVTLSTFGVGNSNYNEAMMVRIADVGNGNYSYIDTLSEAQKVLNSEMRQMLITVAKDVKAQIEFNPAWVTEYRQIGYEKRQLRVEHFNNDNVDAGDIGAGKHITLLFELTLNGQKASIDKLRYAPDNKLAKSDKTKELAWLKIRWKYPQGKESQLVEFPLGPTINAPSEDMRFRAAVAAYGQKLRGSEYLNNTSWQQIKQWAQQAKGEDPQGYRAEFIRLIELADGVTDISQ" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7178-MONOMER" "MKKIIFAFIILFVFLLPMIIFYQPWVNALPSTPRHASPEQLEKTVRYLTQTVHPRSADNIDNLNRSAEYIKEVFVSSGARVTSQDVPITGGPYKNIVADYGPADGPLIIIGAHYDSASSYENDQLTYTPGADDNASGVAGLLELARLLHQQVPKTGVQLVAYASEEPPFFRSDEMGSAVHAASLERPVKLMIALEMIGYYDSAPGSQNYPYPAMSWLYPDRGDFIAVVGRIQDINAVRQVKAALLSSQDLSVYSMNTPGFIPGIDFSDHLNYWQHDIPAIMITDTAFYRNKQYHLPGDTADRLNYQKMAQVVDGVITLLYNSK" "m" "Unambiguous EcoCyc data" -"G7179-MONOMER" "MGMIGYFAEIDSEKINQLLESTEKPLMDNIHDTLSGLRRLDIDKRWDFLHFGLTGTSAFDPAKNDPLSRAVLGEHSLEDGIDGFLGLTWNQELAATIDRLESLDRNELRKQFSIKRLNEMEIYPGVTFSEELEGQLFASIMLDMEKLISAYRRMLRQGNHALTVIVG" "c" "Han et al., 2011" -"G7180-MONOMER" "MEWLSEIRKLRKNVPVGIQVARRLLERTGGDVDEAIKLFHIDQINILTAKADVTHQEAENVLLATNYDIAEALRRIDEQRYTLTELILRKNKDAGDALNNIALAIEYEWDLKRKFWFGFADIQLLPPVLQTFMLVYEWHEYVGWEGMECGIFFESDHTHQQLQALGLLELAQKMVTARIRYDELKDKAENFHEITEDDIFKMLIIHCDQLAREVDSILLQFVKDNIDVFPCRHNRHEL" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7181-MONOMER" "MNSNNVIRLMNILFQGIIMTPLERITQLVNINGDVNNPDTPRPLLSLEDFFIDNNIHGSICCNVIPEQSPQAIYHHFLKIRERNNVSDVLVEITMFDDPDWPFSESILVITTASPEEVQSWFVEEIAPDECWEGWSEDTEHGWVEVPVGMHPVTCWWD" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7182-MONOMER" "MKLIPRSSDISPGIDGICPGPFPPNGFTVLTDAAYGNGDCFGLYWPIGQEHKLPIVCETYHDEWRIVPAFSSIKKFEEWLEVNDDDPHENGISIEDQDFAANLFRVARKCLSTGRLDDALPLLQRATEQLPEVSEYWLALAIQYRRCKKTEAAAQAALNAYLGNWAFGVPDNKVIHLLSQAADVPNFQDDPVIQCIKEQGLDLSFGGTKENNNYPLMQMCVDTYFAQRKPLQALTLLHNYAWIMSSETTAFQERYDFNIDEWRAKFRQLCLEYFGDSRTQFT" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7184-MONOMER" "MSPIEKSSKLENVCYDIRGPVLKEAKRLEEEGNKVLKLNIGNPAPFGFDAPDEILVDVIRNLPTAQGYCDSKGLYSARKAIMQHYQARGMRDVTVEDIYIGNGVSELIVQAMQALLNSGDEMLVPAPDYPLWTAAVSLSSGKAVHYLCDESSDWFPDLDDIRAKITPRTRGIVIINPNNPTGAVYSKELLMEIVEIARQHNLIIFADEIYDKILYDDAEHHSIAPLAPDLLTITFNGLSKTYRVAGFRQGWMVLNGPKKHAKGYIEGLEMLASMRLCANVPAQHAIQTALGGYQSISEFITPGGRLYEQRNRAWELINDIPGVSCVKPRGALYMFPKIDAKRFNIHDDQKMVLDFLLQEKVLLVQGTAFNWPWPDHFRIVTLPRVDDIELSLSKFARFLSGYHQL" "c" "Han et al., 2011" -"G7185-MONOMER" "MKQSHFFAHLSRLKLINRWPLMRNVRTENVSEHSLQVAMVAHALAAIKNRKFGGNVNAERIALLAMYHDASEVLTGDLPTPVKYFNSQIAQEYKAIEKIAQQKLVDMVPEELRDIFAPLIDEHAYSDEEKSLVKQADALCAYLKCLEELAAGNNEFLLAKTRLEATLEARRSQEMDYFMEIFVPSFHLSLDEISQDSPL" "c" "Han et al., 2011" -"G7186-MONOMER" "VNGELIWVLSLLAVAIVLFATGRVRMDAVALFVIVAFALSGTLTVPEVFSGFSDPNVVLIAALFIIGDGLVRTGVATVMGTWLVKVAGNSEIKMLVLLMLTVAGLGAFMSSTGVVAIFIPVVLSVAMRMQTSPSRLMMPLSFAGLISGMMTLVATPPNLVVNSELLREGYHGFSFFSVTPIGLVVLVLGILYMLVMRFMLKGDTQTPQREGWTRRTFRDLIREYRLTGRARRLAIRPGSPMIGQRLDDLKLRERYGANVIGVERWRRFRRVIVNVNGVSEFRARDVLLIDMSAADVDLRQFCSEQLLEPMVLRGEYFSDQALDVGMAEISLIPESELIGKSVREIGFRTRYGLNVVGLKRNGVALEGSLADEPLLLGDIILVVGNWKLIGMLAKQGRDFVALNLPEEVSEASPAHSQAPHAIFCLVLMVALMLTDEIPNPVAAIIACLLMGKFRCIDAESAYKSIHWPSIILIVGMMPFAVALQKTGGVALAVKGLMDIGGGYGPHMMLGCLFVLSAVIGLFISNTATAVLMAPIALAAAKTMGVSPYPFAMVVAMAASAAFMTPVSSPVNTLVLGPGNYSFSDFVKLGVPFTIIVMAVCVVMIPMLFPF" "i" "Han et al., 2011" -"G7187-MONOMER" "VRCKGFLFDLDGTLVDSLPAVERAWSNWARRHGLAPEEVLAFIHGKQAITSLRHFMAGKSEADIAAEFTRLEHIEATETEGITALPGAIALLSHLNKAGIPWAIVTSGSMPVARARHKIAGLPAPEVFVTAERVKRGKPEPDAYLLGAQLLGLAPQECVVVEDAPAGVLSGLAAGCHVIAVNAPADTPRLNEVDLVLHSLEQITVTKQPNGDVIIQ" "c" "Han et al., 2011" -"G7188-MONOMER" "MEMTNAQRLILSNQYKMMTMLDPANAERYRRLQTIIERGYGLQMRELDREFGELKEETCRTIIDIMEMYHALHVSWSNLQDQQSIDERRVTFLGFDAATEARYLGYVRFMVNVEGRYTHFDAGTHGFNAQTPMWEKYQRMLNVWHACPRQYHLSANEINQIINA" "c" "Han et al., 2011" -"G7189-MONOMER" "MSTPDNRSVNFFSLFRRGQHYSKTWPLEKRLAPVFVENRVIKMTRYAIRFMPPIAVFTLCWQIALGGQLGPAVATALFALSLPMQGLWWLGKRSVTPLPPAILNWFYEVRGKLQESGQVLAPVEGKPDYQALADTLKRAFKQLDKTFLDDL" "i" "Han et al., 2011" -"G7190-MONOMER" "MSAITESKPTRRWAMPDTLVIIFFVAILTSLATWVVPVGMFDSQEVQYQVDGQTKTRKVVDPHSFRILTNEAGEPEYHRVQLFTTGDERPGLMNFPFEGLTSGSKYGTAVGIIMFMLVIGGAFGIVMRTGTIDNGILALIRHTRGNEILFIPALFILFSLGGAVFGMGEEAVAFAIIIAPLMVRLGYDSITTVLVTYIATQIGFASSWMNPFCVVVAQGIAGVPVLSGSGLRIVVWVIATLIGLIFTMVYASRVKKNPLLSRVHESDRFFREKQADVEQRPFTFGDWLVLIVLTAVMVWVIWGVIVNAWFIPEIASQFFTMGLVIGIIGVVFRLNGMTVNTMASSFTEGARMMIAPALLVGFAKGILLLVGNGEAGDASVLNTILNSIANAISGLDNAVAAWFMLLFQAVFNFFVTSGSGQAALTMPLLAPLGDLVGVNRQVTVLAFQFGDGFSHIIYPTSASLMATLGVCRVDFRNWLKVGATLLGLLFIMSSVVVIGAQLMGYH" "i" "Han et al., 2011" -"G7191-MONOMER" "MEQRRLASTEWVDIVNEENEVIAQASREQMRAQCLRHRATYIVVHDGMGKILVQRRTETKDFLPGMLDATAGGVVQADEQLLESARREAEEELGIAGVPFAEHGQFYFEDKNCRVWGALFSCVSHGPFALQEDEVSEVCWLTPEEITARCDEFTPDSLKALALWMKRNAKNEAVETETAE" "c" "Han et al., 2011" -"G7192-MONOMER" "VMKLMFASDIHGSLPATERVLELFAQSGAQWLVILGDVLNHGPRNALPEGYAPAKVAERLNEVAHKVIAVRGNCDSEVDQMLLHFPITAPWQQVLLEKQRLFLTHGHLFGPENLPALNQNDVLVYGHTHLPVAEQRGEIFHFNPGSVSIPKGGNPASYGMLDNDVLSVIALNDQSIIAQVAINP" "c" "Han et al., 2011" -"G7193-MONOMER" "MSKPAITLWSDAHFFSPYVLSAWVALQEKGLSFHIKTIDLDSGEHLQPTWQGYGQTRRVPLLQIDDFELSESSAIAEYLEDRFAPPTWERIYPLDLENRARARQIQAWLRSDLMPIREERPTDVVFAGAKKAPLTAEGKASAEKLFAMAEHLLVLGQPNLFGEWCIADTDLALMINRLVLHGDEVPERLVDYATFQWQRASVQRFIALSAKQSG" "c" "Han et al., 2011" -"G7194-MONOMER" "MIDLYFAPTPNGHKITLFLEEAELDYRLIKVDLGKGGQFRPEFLRISPNNKIPAIVDHSPADGGEPLSLFESGAILLYLAEKTGLFLSHETRERAATLQWLFWQVGGLGPMLGQNHHFNHAAPQTIPYAIERYQVETQRLYHVLNKRLENSPWLGGENYSIADIACWPWVNAWTRQRIDLAMYPAVKNWHERIRSRPATGQALLKAQLGDERSDS" "c" "Han et al., 2011" -"G7196-MONOMER" "MNIVITGGTGLIGRHLIPRLLELGHQITVVTRNPQKASSVLGPRVTLWQGLADQSNLNGVDAVINLAGEPIADKRWTHEQKERLCQSRWNITQKLVDLINASDTPPSVLISGSATGYYGDLGEVVVTEEEPPHNEFTHKLCARWEEIACRAQSDKTRVCLLRTGVVLAPDGGILGKMLPPFRLGLGGPIGSGRQYLAWIHIDDMVNGILWLLDNELRGPFNMVSPYPVRNEQFAHALGHALHRPAILRVPATAIRLLMGESSVLVLGGQRALPKRLEEAGFAFRWYDLEEALADVVR" "c" "Han et al., 2011" -"G7197-MONOMER" "MTISTTSTPHDAVFKSFLRHPDTARDFIDIHLPAPLRKLCDLTTLKLEPNSFIDEDLRQYYSDLLWSVKTQEGVGYIYVVIEHQSKPEELMAFRMMRYSIAAMQNHLDAGYKELPLVLPMLFYHGCRSPYPYSLCWLDEFAEPAIARKIYSSAFPLVDITVVPDDEIMQHRKMALLELIQKHIRQRDLLGLVDQIVSLLVTGNTNDRQLKALFNYVLQTGDAQRFRAFIGEIAERAPQEKEKLMTIADRLREEGAMQGKHEEALRIAQEMLDRGLDRELVMMVTRLSPDDLIAQSH" "c" "Han et al., 2011" -"G7199-MONOMER" "VKHYSIQPANLEFNAEGTPVSRDFDDVYFSNDNGLEETRYVFLGGNQLEVRFPEHPHPLFVVAESGFGTGLNFLTLWQAFDQFREAHPQAQLQRLHFISFEKFPLTRADLALAHQHWPELAPWAEQLQAQWPMPLPGCHRLLLDEGRVTLDLWFGDINELTSQLDDSLNQKVDAWFLDGFAPAKNPDMWTQNLFNAMARLARPGGTLATFTSAGFVRRGLQDAGFTMQKRKGFGRKREMLCGVMEQTLPLPCSAPWFNRTGSSKREAAIIGGGIASALLSLALLRRGWQVTLYCADEAPALGASGNRQGALYPLLSKHDEALNRFFSNAFTFARRFYDQLPVKFDHDWCGVTQLGWDEKSQHKIAQMLSMDLPAELAVAVEANAVEQITGVATNCSGITYPQGGWLCPAELTRNVLELAQQQGLQIYYQYQLQNLSRKDDCWLLNFAGDQQATHSVVVLANGHQISRFSQTSTLPVYSVAGQVSHIPTTPELAELKQVLCYDGYLTPQNPANQHHCIGASYHRGSEDTAYSEDDQQQNRQRLIDCFPQAQWAKEVDVSDKEARCGVRCATRDHLPMVGNVPDYEATLVEYASLAEQKDEAVSAPVFDDLFMFAALGSRGLCSAPLCAEILAAQMSDEPIPMDASTLAALNPNRLWVRKLLKGKAVKAG" "c" "Han et al., 2011" -"G7200-MONOMER" "MIAEFESRILALIDGMVDHASDDELFASGYLRGHLTLAIAELESGDDHSAQAVHTTVSQSLEKAIGAGELSPRDQALVTDMWENLFQQASQQ" "c" "Han et al., 2011" -"G7201-MONOMER" "MNSTHHYEQLIEIFNSCFADDFNTRLIKGDDEPIYLPADAEVPYNRIVFAHGFYASAIHEISHWCIAGKARRELVDFGYWYCPDGRDAQTQSQFEDVEVKPQALDWLFCVAAGYPFNVSCDNLEGDFEPDRVVFQRRVHAQVMDYLTNGIPERPARFIKALQNYYHTPELTAEQFPWPEALN" "c" "Han et al., 2011" -"G7202-MONOMER" "MKKKTTLSEEDQALFRQLMAGTRKIKQDTIVHRPQRKKISEVPVKRLIQEQADASHYFSDEFQPLLNTEGPVKYVRPDVSHFEAKKLRRGDYSPELFLDLHGLTQLQAKQELGALIAACRREHVFCACVMHGHGKHILKQQTPLWLAQHPHVMAFHQAPKEYGGDAALLVLIEVEEWLPPELP" "c" "Han et al., 2011" -"G7203-MONOMER" "MKILRWLFALVMLIATTEAMAAGHSVDVYYGYNGDSRNIATFNLKIMMPSAVYVGEYKSSQWLMTGEILQNVSWSGPPPAPSVKLIGYHQNINKASCPGLPSGWNCGYYTFEVIVSAEIESYFSCPWLVIMNDSEASPGGVTYQGPDSHDTICPSVSVQPYDVSWNENYVSKSKLLTLQSTGGVVEKTLSTYLMKDGKLCDSTQMNETGGYCRWVAQMITFTASGCDKAEVSVTPNRHPITDKQLHDMVVRVDTSSMQPIDSTCRFQYILNEL" "c" "Han et al., 2011" -"G7204-MONOMER" "MNKSMIQSGGYVLLAGLILAMSSTLFAADNNLHFSGNLLSKSCALVVDGQYLAEVRFPTVSRQDLNVAGQSARVPVVFKLKDCKGPAGYNVKVTLTGVEDSEQPGFLALDTSSTAQGVGIGMEKTDGMQVAINNTNGATFALTNGNNDINFRAWLQAKSGRDVTIGEFTASLTATFEYI" "e" "Han et al., 2011" -"G7205-MONOMER" "MRKTFLTLLCVSSAIAHAADEDITFHGTLLSPPTCSISGGKTIEVEFRDLIIDDINGNYGRKEVPYELTCDSTTRHPDWEMTLTWTGTQTSFNDAAIETDVPGFGIELQHDGQRFKLNTPLAINATDFTQKPKLEAVPVKASDAVLSDTNFSAYATLRVDYQ" "j" "Han et al., 2011" -"G7206-MONOMER" "MTGGVMSQKFVVGAGLLVCSVCSLSAMAGSKPVDLILRVLVDAPPPCSIKGSQVEFGNMIADNVDGTNYRQDAKYTLNCTNSLANDLRMQLKGNTSTINGETVLSTNITGLGIRIENSADNSLFAVGENSWTPFNINNQPQLKAVPVKASGAQLAAGEFNASLTMVVDYQ" "e" "Han et al., 2011" -"G7207-MONOMER" "MSDLLCSAKLGAMTLALLLSATSLSALASVTPDRTRLIFNESDKSISVTLRNNDPKLPYLAQSWIEDEKGNKITSPLTVLPPVQRIDSMMNGQVKVQGMPDINKLPADRESMFYFNVREIPPKSNKPNTLQIALQTRIKLFWRPKALEKVSMKSPWQHKVTLTRSGQAFTVNNPTPYYVIISNASAQKNGNPAAGFSPLVIEPKTTVPLNVKMDSVPVLTYVNDFGARMPLFFQCNGNSCQVDEEQSRKG" "p" "Han et al., 2011" -"G7208-MONOMER" "MPWGDNSTVSYNGNYGSGTDSSQVGYFSRVDDATHYQLNIGTSDKHTSVDGYYSHDGSLAQVDLSANYHEGQYTSAGLSLQGGATLTTHGGALHRTQNMGGTRLLIDADGVADVPVEGNGAAVYTNMFGKAVVSDVNNYYRNQAYIDLNKLPENAEATQSVVQATLTEGAIGYRKFAVISGQKAMAVLRLQDGSHPPFGAEVKNDNEQTVGLVDDDGSVYLAGVKPGEHMSVFWSGVAHCDINLPDPLPADLFNGLLLPCQHKGNVAPVVPDDIKPVIQEQTQQVTPTDPPVSVSANQ" "o" "Han et al., 2011" -"G7209-MONOMER" "MPDHSLFRLRILPWCIALAMSGSYSSVWAEDDIQFDSRFLELKGDTKIDLKRFSSQGYVEPGKYNLQVQLNKQPLAEEYDIYWYAGEDDVSKSYACLTPELVAQFGLKEDVAKNLQWSHDGKCLKPGQLEGVEIKADLSQSALVISLPQAYLEYTWPDWDPPSRWDDGISGIIADYSITAQTRHEENGGDDSNEISGNGTVGVNLGPWRMRADWQTNYQHTRSNDDDDEFGGDDTQKKWEWSRYYAWRALPSLKAKLALGEDYLNSDIFDGFNYVGGSVSTDDQMLPPNLRGYAPDISGVAHTTAKVTVSQMGRVIYETQVPAGPFRIQDLGDSVSGTLHIRIEEQNGQVQEYDISTASMPYLTRPGQVRYKIMMGRPQEWGHHVEGGFFSGAEASWGIANGWSLYGGALGDENYQSAALGVGRDLSTFGAVAFDVTHSHTKLDKDTAYGKGSLDGNSFRVSYSKDFDQLNSRVTFAGYRFSEENFMTMSEYLDASDSEMVRTGNDKEMYTATYNQNFRDAGVSVYLNYTRHTYWDREEQTNYNIMLSHYFNMGSIRNMSVSLTGYRYEYDNRADKGM" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7210-MONOMER" "MSKFVKTAIAAAMVMGAFTSTATIAAGNNGTARFYGTIEDSVCSIVPDDHKLEVDMGDIGAEKLKNNGTTTPKNFQIRLQDCVFDTQETMTTTFTGTVSSANSGNYYTIFNTDTGAAFNNVSLAIGDSLGTSYKSGMGIDQKIVKDTATNKGKAKQTLNFKAWLVGAADAPDLGNFEANTTFQITYL" "e" "Han et al., 2011" -"G7211-MONOMER" "MQVFIMRHGDAALDAASDSVRPLTTNGCDESRLMANWLKGQKVEIERVLVSPFLRAEQTLEEVGDCLNLPSSAEVLPELTPCGDVGLVSAYLQALTNEGVASVLVISHLPLVGYLVAELCPGETPPMFTTSAIASVTLDESGNGTFNWQMSPCNLKMAKAI" "c" "Han et al., 2011" -"G7212-MONOMER" "MEMTSAFTLNVRLDNIAVITIDVPGEKMNTLKAEFASQVRAIIKQLRENKELRGVVFVSAKPDNFIAGADINMIGNCKTAQEAEALARQGQQLMAEIHALPIQVIAAIHGACLGGGLELALACHGRVCTDDPKTVLGLPEVQLGLLPGSGGTQRLPRLIGVSTALEMILTGKQLRAKQALKLGLVDDVVPHSILLEAAVELAKKERPSSRPLPVRERILAGPLGRALLFKMVGKKTEHKTQGNYPATERILEVVETGLAQGTSSGYDAEARAFGELAMTPQSQALRSIFFASTDVKKDPGSDAPPAPLNSVGILGGGLMGGGIAYVTACKAGIPVRIKDINPQGINHALKYSWDQLEGKVRRRHLKASERDKQLALISGTTDYRGFAHRDLIIEAVFENLELKQQMVAEVEQNCAAHTIFASNTSSLPIGDIAAHATRPEQVIGLHFFSPVEKMPLVEIIPHAGTSAQTIATTVKLAKKQGKTPIVVRDKAGFYVNRILAPYINEAIRMLTQGERVEHIDAALVKFGFPVGPIQLLDEVGIDTGTKIIPVLEAAYGERFSAPANVVSSILNDDRKGRKNGRGFYLYGQKGRKSKKQVDPAIYPLIGTQGQGRISAPQVAERCVMLMLNEAVRCVDEQVIRSVRDGDIGAVFGIGFPPFLGGPFRYIDSLGAGEVVAIMQRLATQYGSRFTPCERLVEMGARGESFWKTTATDLQ" "c" "Han et al., 2011" -"G7213-MONOMER" "MGQVLPLVTRQGDRIAIVSGLRTPFARQATAFHGIPAVDLGKMVVGELLARSEIPAEVIEQLVFGQVVQMPEAPNIAREIVLGTGMNVHTDAYSVSRACATSFQAVANVAESLMAGTIRAGIAGGADSSSVLPIGVSKKLARVLVDVNKARTMSQRLKLFSRLRLRDLMPVPPAVAEYSTGLRMGDTAEQMAKTYGITREQQDALAHRSHQRAAQAWSDGKLKEEVMTAFIPPYKQPLVEDNNIRGNSSLADYAKLRPAFDRKHGTVTAANSTPLTDGAAAVILMTESRAKELGLVPLGYLRSYAFTAIDVWQDMLLGPAWSTPLALERAGLTMSDLTLIDMHEAFAAQTLANIQLLGSERFAREALGRAHATGEVDDSKFNVLGGSIAYGHPFAATGARMITQTLHELRRRGGGFGLVTACAAGGLGAAMVLEAE" "c" "Han et al., 2011" -"G7214-MONOMER" "MSKCSADETPVCCCMDVGTIMDNSDCTASYSRVFANRAEAEQTLAALTEKARSVESEPCKITPTFTEESDGVRLDIDFTFACEAEMLIFQLGLR" "c" "Han et al., 2011" -"G7215-MONOMER" "MLPSISINNTSAAYPESINENNNDEVNGLVQEFKNLFNGKEGISTCIKHLLELIKNAIRVNDDPYRFNINNSSVTYIDIDSNDTDHITIGIDNQEPIELPANYKDKELVRTIINDNIVEKTHDINNKEMIFSALKEIYDGDPGFIFDKISHKLRHTVTEFDESGKSEPTDLFTWYGKDKKGDSLAIVIKNKNGNDYLSLGYYDQDDYHIQRGIRINGDSLTQYCSENARSASAWFESSKAIMAESFATGSDHQVVNELNGERLREPNDVFKRYGRAIRYDFQVDDAKYKCDHLKEIVSTLVGNKINVGHSQKIYKHFKDLEGKIEERLQNRQAEYQNEINQPSAPGVNFDDI" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7216-MONOMER" "MKLRLSALALGTTLLVGCASSGTDQQGRSDPLEGFNRTMYNFNFNVLDPYIVRPVAVAWRDYVPQPARNGLSNFTGNLEEPAVMVNYFLQGDPYQGMVHFTRFFLNTILGMGGFIDVAGMANPKLQRTEPHRFGSTLGHYGVGYGPYVQLPFYGSFTLRDDGGDMADGFYPVLSWLTWPMSVGKWTLEGIETRAQLLDSDGLLRQSSDPYIMVREAYFQRHDFIANGGELKPQENPNAQAIQDDLKDIDSE" "o" "Han et al., 2011" -"G7217-MONOMER" "MDNDKIDQHSDEIEVESEEKERGKKIEIDEDRLPSRAMAIHEHIRQDGEKELERDAMALLWSAIAAGLSMGASLLAKGIFQVELEGVPGSFLLENLGYTFGFIIVIMARQQLFTENTVTAVLPVMQKPTMSNVGLLIRLWGVVLLGNILGTGIAAWAFEYMPIFNEETRDAFVKIGMDVMKNTPSEMFANAIISGWLIATMVWMFPAAGAAKIVVIILMTWLIALGDTTHIVVGSVEILYLVFNGTLHWSDFIWPFALPTLAGNICGGTFIFALMSHAQIRNDMSNKRKAEARQKAERAENIKKNYKNPA" "i" "Han et al., 2011" -"G7218-MONOMER" "MLTVKQIEAAKPKEKPYRLLDGNGLYLYVPVSGKKVWQLRYKIDGKEKILTVGKYPLMTLQEARDKAWTARKDISVGIDPVKAKKASSNNNSFSAIYKEWYEHKKQVWSVGYATELAKMFDDDILPIIGGLEIQDIEPMQLLEVIRRFEDRGAMERANKARRRCGEVFRYAIVTGRAKYNPAPDLADAMKGYRKKNFPFLPADQIPAFNKALATFSGSIVSLIATKVLRYTALRTKELRSMLWKNVDFENRIITIDASVMKGRKIHVVPMSDQVVELLTTLSSITKPVSEFVFAGRNDKKKPICENAVLLVIKQIGYEGLESGHGFRHEFSTIMNEHEWPADAIEVQLAHANGGSVRGIYNHAQYLDKRREMMQWWADWLDEKVE" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7219-MONOMER" "MLKLFAKYTSIGVLNTLIHWVVFGVCIYVAHTNQALANFAGFVVAVSFSFFANAKFTFKASTTTMRYMLYVGFMGTLSATVGWAADRCALPPMITLVTFSAISLVCGFVYSKFIVFRDAK" "i" "Unambiguous EcoCyc data" -"G7220-MONOMER" "MKISLVVPVFNEEEAIPIFYKTVREFEELKSYEVEIVFINDGSKDATESIINALAVSDPLVVPLSFTRNFGKEPALFAGLDHATGDAIIPIDVDLQDPIEVIPHLIEKWQAGADMVLAKRSDRSTDGRLKRKTAEWFYKLHNKISNPKIEENVGDFRLMSRDVVENIKLMPERNLFMKGILSWVGGKTDIVEYVRAERIAGDTKFNGWKLWNLALEGITSFSTFPLRIWTYIGLVVASVAFIYGAWMILDTIIFGNAVRGYPSLLVSILFLGGIQMIGIGVLGEYIGRTYIETKKRPKYIIKRVKK" "i" "Unambiguous EcoCyc data" -"G7221-MONOMER" "MNKAIKVSLYISFVLIICALSKNIMMLNTSDFGRAIKPLIEDIPAFTYDLPLLYKLKGHIDSIDSYEYISSYSYILYTYVLFISIFTEYLDARVLSLFLKVIYIYSLYAIFTSYIKTERYVTLFTFFILAFLMCSSSTLSMFASFYQEQIVIIFLPFLVYSLTCKNNKSMLLLFFSLLIISTAKNQFILTPLIVYSYYIFFDRHKLIIKSVICVVCLLASIFAISYSKGVVELNKYHATYFGSYLYMKNNGYKMPSYVDDKCVGLDAWGNKFDISFGATPTEVGTECFESHKDETFSNALFLLVSKPSTIFKLPFDDGVMSQYKENYFHVYKKLHVIYGESNILTTITNIKDNIFKNIRFISLLLFFIASIFIRNNKIKASLFVVSLFGISQFYVSFFGEGYRDLSKHLFGMYFSFDLCLYITVVFLIYKIIQRNQDNSDVKH" "i" "Unambiguous EcoCyc data" -"G7222-MONOMER" "MRPATIAPLTPYDKWDGEKWVTDTEAQHSVAVDAAEAQRQSLIDTAMASISLIQLKLQAGRKLMQAETSRLNTVLDYIDAVTATDTSTAPDVIWPELPEE" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7223-MONOMER" "MNYIYSATTNSFYPLEMKEDYTQAGSWPDDAVEVDEQVYIEFSGLPPKGKIRIAGENGFPAWSEIPPPTHEEQIAAAELKKQQLINQANDYMNSKQWAGKAAIGRLKGEELAQYNLWLDYLDALELVDTSSAPDIEWPTPPAVQAR" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7224-MONOMER" "MLQEELCSVVEASGASLEKGRHDQLLTALRALLLSRKNPFGDIKLDGTVQKALENLGLGEAAKRNVGTGANQIPDMGSFMLSASVPGYQKLPSGLIIQWGPIDVPLTSQDTVTYFPIAFPNRCLRVFATQDYTPGSANVGYIACAGYNQDPVKFISRAGVPGIGASFFALGC" "m" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7225-MONOMER" "MSNKYCQALVELRNKPAHELKEVGDQWRTPDNIFWGINTLFGPFVLDLFTDGDNAKCAAYYTAEDNALAHDWSERLAELKGAAFGNPPYPW" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7226-MONOMER" "VSMSLLNDVQKFIEAHPGCTSGDIADAFAGYSRQRVLQSASKLRQSGRVAHRCEGDTHRHFPRLTERAQDPEPQPVRETRPVRNFYVGTNDPRVILCLTRQAEELESRGLYRRAATVWMAAFRESHSQPERNNFLARRERCLRKSSKRAASGEEWYLSGNYVGA" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7227-MONOMER" "LTCAQWLWKKIIALYEQAAECDGEVVRPKEPNWTAWANEIRLMCVQDGRTHKQICEMYSRVSRDPFWCRNVLSPSKLREKWDELSLRLSPSVSTYTEKREDPYFKASYDNVDYSQIPAGFRG" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7228-MONOMER" "LRKCRCLKLRNVKLINIRRIAVMMRSSKMASERSTDVQAFIGELDGGVFETKIGAVLSEVASGVMNTKTKGKVSLNLEIEPFDENRLKIKHKLSYVRPTNRGKISEEDTTETPMYVNRGGRLTILQEDQGQLLTLAGEPDGKLRAAGH" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7229-MONOMER" "MSQNLDATAINQIHALISAQGVNEIISKIGADAVALPENFRIHDLEKFNLNRFRFRGALSTASIDDFTRYSKDLADEGTRCFIDADNMRAVSVLNLGTIDEPGHADNTATLKLKKTAPFSALLSVNGERNSQKSLAEWIEDWADYLVGFDANGDAIQATKAAAAIRKITIEANQTADFEDNDFSGKRSLMESVEAKTKDIMPVAFEFKCVPFEGLKERPFKLRLSIITGDRPVLVLRIIQLEAVQEDMANEFRDLLVEKFKDSKVETFIGTFTA" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7230-MONOMER" "MSFIKTFSGKHFYYDKINKDDIVINDIAVSLSNICRFAGHLSHFYSVAQHAVLCSQLVPQEFAFEALMHDATEAYCQDIPAPLKRLLPDYKRMEEKIDAVIREKYGLPPVMSTPVKYADLIMLATERRDLGLDDGSFWPVLEGIPATEMFNVIPLAPGHAYGMFMERFNDLSELRKCA" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7231-MONOMER" "MRMNVFEMEGFLRGKCVPRDLKVNETNAEYLVRKFDALEAKCAALENKIIPVSAELPPANESVLLFDANGEGWLIGWRSLWYTWGQKETGEWQWTFQVGDLENVNITHWAVMPKAPEAGA" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7232-MONOMER" "MTTFTNKELIKEIKERISSLEVRDDIERRAYEIALVSLEVEPDEREAYELFMEKRFGDLVDRRRAKNGDNEYMAWDMTLGWIIWQQRAGIHFSTMSQQEVK" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7233-MONOMER" "VEQINSNKKHSNRRKYFSLLAVVLFIAFSGAYAYWSMELEDMISTDDAYVTGNADPISAQVSGSVTVVNHKDTNYVRQGDILVSLDKTDATIALNKAKNNLANIVRQTNKLYLQDKQYSAEVASARIQYQQSLEDYNRRVPLAKQGVISKETLEHTKDTLISSKAALNAAIQAYKANKALVMNTPLNRQPQVVEAADATKEAWLALKRTDIKSPVTGYIAQRSVQVGETVSPGQSLMAVVPARQMWVNANFKETQLTDVRIGQSVNIISDLYGENVVFHGRVTGINMGTGNAFSLLPAQNATGNWIKIVQRVPVEVSLDPKELMEHPLRIGLSMTATIDTKNEDIAEMPELASTVTSMPAYTSKALVIDTSPIEKEISNIISHNGQL" "i" "Han et al., 2011" -"G7234-MONOMER" "MTNNESKGPFEGLLVIDMTHVLNGPFGTQLLCNMGARVIKVEPPGHGDDTRTFGPYVDGQSLYYSFINHGKESVVLDLKNDHDKSIFINMLKQADVLAENFRPGTMEKLGFSWETLQEINPRLIYASSSGFGHTGPLKDAPAYDTIIQAMSGIMMETGYPDAPPVRVGTSLADLCGGVYLFSGIVSALYGREKSQRGAHVDIAMFDATLSFLEHGLMAYIATGKSPQRLGNRHPYMAPFDVFNTQDKPITICCGNDKLFSALCQALELTELVNDPRFSSNILRVQNQAILKQYIERTLKTQAAEVWLARIHEVGVPVAPLLSVAEAIKLPQTQARNMLIEAGGIMMPGNPIKISGCADPHVMPGAATLDQHGEQIRQEFSS" "c" "Han et al., 2011" -"G7236-MONOMER" "MSDQLQMTDGMHIIVEALKQNNIDTIYGVVGIPVTDMARHAQAEGIRYIGFRHEQSAGYAAAASGFLTQKPGICLTVSAPGFLNGLTALANATVNGFPMIMISGSSDRAIVDLQQGDYEELDQMNAAKPYAKAAFRVNQPQDLGIALARAIRVSVSGRPGGVYLDLPANVLAATMEKDEALTTIVKVENPSPALLPCPKSVTSAISLLAKAERPLIILGKGAAYSQADEQLREFIESAQIPFLPMSMAKGILEDTHPLSAAAARSFALANADVVMLVGARLNWLLAHGKKGWAADTQFIQLDIEPQEIDSNRPIAVPVVGDIASSMQGMLAELKQNTFTTPLVWRDILNIHKQQNAQKMHEKLSTDTQPLNYFNALSAVRDVLRENQDIYLVNEGANTLDNARNIIDMYKPRRRLDCGTWGVMGIGMGYAIGASVTSGSPVVAIEGDSAFGFSGMEIETICRYNLPVTIVIFNNGGIYRGDGVDLSGAGAPSPTDLLHHARYDKLMDAFRGVGYNVTTTDELRHALTTGIQSRKPTIINVVIDPAAGTESGHITKLNPKQVAGN" "c" "EcoCyc dump" -"G7237-MONOMER" "MSTPLQGIKVLDFTGVQSGPSCTQMLAWFGADVIKIERPGVGDVTRHQLRDIPDIDALYFTMLNSNKRSIELNTKTAEGKEVMEKLIREADILVENFHPGAIDHMGFTWEHIQEINPRLIFGSIKGFDECSPYVNVKAYENVAQAAGGAASTTGFWDGPPLVSAAALGDSNTGMHLLIGLLAALLHREKTGRGQRVTMSMQDAVLNLCRVKLRDQQRLDKLGYLEEYPQYPNGTFGDAVPRGGNAGGGGQPGWILKCKGWETDPNAYIYFTIQEQNWENTCKAIGKPEWITDPAYSTAHARQPHIFDIFAEIEKYTVTIDKHEAVAYLTQFDIPCAPVLSMKEISLDPSLRQSGSVVEVEQPLRGKYLTVGCPMKFSAFTPDIKAAPLLGEHTAAVLQELGYSDDEIAAMKQNHAI" "c" "Han et al., 2011" -"G7238-MONOMER" "MKRLIMATMVTAILASSTVWAADNAPVAAQQQTQQVQQTQKTAAAAERISEQGLYAMRDVQVARLALFHGDPEKAKELTNEASALLSDDSTEWAKFAKPGKKTNLNDDQYIVINASVGISESYVATPEKEAAIKIANEKMAKGDKKGAMEELRLAGVGVMENQYLMPLKQTRNALADAQKLLDKKQYYEANLALKGAEDGIIVDSEALFVN" "p" "Han et al., 2011" -"G7239-MONOMER" "MKVNLILFSLFLLVSIMACNVFAFSISGGGSERSYKETEKTSAMTTTHSTKLQPSQAILFKMREDAPPLNLTEEMPPPFPTKANYLIHPVR" "p" "Han et al., 2011" -"G7240-MONOMER" "MINLWMFLALCIVCVSGYIGQVLNVVSAVSSFFGMVILAALIYYFTMWLTGGNELVTGIFMFLAPACGLMIRFMVGYGRR" "i" "Han et al., 2011" -"G7242-MONOMER" "MADTRPERRFTRIDRLPPYVFNITAELKMAARRRGEDIIDFSMGNPDGATPPHIVEKLCTVAQRPDTHGYSTSRGIPRLRRAISRWYQDRYDVEIDPESEAIVTIGSKEGLAHLMLATLDHGDTVLVPNPSYPIHIYGAVIAGAQVRSVPLVEGVDFFNELERAIRESYPKPKMMILGFPSNPTAQCVELEFFEKVVALAKRYDVLVVHDLAYADIVYDGWKAPSIMQVPGARDVAVEFFTLSKSYNMAGWRIGFMVGNKTLVSALARIKSYHDYGTFTPLQVAAIAALEGDQQCVRDIAEQYKRRRDVLVKGLHEAGWMVEMPKASMYVWAKIPEPYAAMGSLEFAKKLLNEAKVCVSPGIGFGDYGDTHVRFALIENRDRIRQAIRGIKAMFRADGLLPASSKHIHENAE" "c" "Han et al., 2011" -"G7243-MONOMER" "VHEIFNMLLAVFDRAALMLICLFFLIRIRLFRELLHKSAHSPKELLAVTAIFSLFALFSTWSGVPVEGSLVNVRIIAVMSGGILFGPWVGIITGVIAGIHRYLIDIGGVTAIPCFITSILAGCISGWINLKIPKAQRWRVGILGGMLCETLTMILVIVWAPTTALGIDIVSKIGIPMILGSVCIGFIVLLVQSVEGEKEASAARQAKLALDIANKTLPLFRHVNSESLRKVCEIIRDDIHADAVAITNTDHVLAYVGVGEHNYQNGDDFISPTTRQAMNYGKIIIKNNDEAHRTPEIHSMLVIPLWEKGVVTGTLKIYYCHAHQITSSLQEMAVGLSQIISTQLEVSRAEQLREMANKAELRALQSKINPHFLFNALNAISSSIRLNPDTARQLIFNLSRYLRYNIELKDDEQIDIKKELYQIKDYIAIEQARFGDKLTVIYDIDEEVNCCIPSLLIQPLVENAIVHGIQPCKGKGVVTISVAECGNRVRIAVRDTGHGIDPKVIERVEANEMPGNKIGLLNVHHRVKLLYGEGLHIRRLEPGTEIAFYIPNQRTPVASQATLLL" "i" "Han et al., 2011" -"G7244-MONOMER" "VKVIIVEDEFLAQQELSWLIKEHSQMEIVGTFDDGLDVLKFLQHNRVDAIFLDINIPSLDGVLLAQNISQFAHKPFIVFITAWKEHAVEAFELEAFDYILKPYQESRITGMLQKLEAAWQQQQTSSTPAATVTRENDTINLVKDERIIVTPINDIYYAEAHEKMTFVYTRRESYVMPMNITEFCSKLPPSHFFRCHRSFCVNLNKIREIEPWFNNTYILRLKDLDFEVPVSRSKVKEFRQLMHL" "c" "Han et al., 2011" -"G7245-MONOMER" "MKAPGLPADQQFFADLFSGLVLNPQLLGRVWFASQPASLPVGSLCIDFPRLDIVLRGEYGNLLEAKQQRLVEGEMLFIPARAANLPVNNKPVMLLSLVFAPTWLGLSFYDSRTTSLLHPARQIQLPSLQRGEGEAMLTALTHLSRSPLEQNIIQPLVLSLLHLCRSVVNMPPGNSQPRGDFLYHSICNWVQDNYAQPLTRESVAQFFNITPNHLSKLFAQHGTMRFIEYVRWVRMAKARMILQKYHLSIHEVAQRCGFPDSDYFCRVFRRQFGLTPGEYSARFQG" "c" "Han et al., 2011" -"G7246-MONOMER" "MLTIQFLCPLPNGLHARPAWELKEQCSQWQSEITFINHRQNAKADAKSSLALIGTGTLFNDSCSLNISGSDEEQARRVLEEYIQVRFIDSDSVQPTQAELTAHPLPRSLSRLNPDLLYGNVLASGVGVGTLTLLQSDSLDSYRAIPASAQDSTRLEHSLATLAEQLNQQLRERDGESKTILSAHLSLIQDDEFAGNIRRLMTEQHQGLGAAIISNMEQVCAKLSASASDYLRERVSDIRDISEQLLHITWPELKPRNKLVLEKPTILVAEDLTPSQFLSLDLKNLAGMILEKTGRTSHTLILARASAIPVLSGLPLDAIARYAGQPAVLDAQCGVLAINPNDAVSGYYQVAQTLADKRQKQQAQAAAQLAYSRDNKRIDIAANIGTALEAPGAFANGAEGVGLFRTEMLYMDRDSAPDEQEQFEAYQQVLLAAGDKPIIFRTMDIGGDKSIPYLNIPQEENPFLGYRAVRIYPEFAGLFRTQLRAILRAASFGNAQLMIPMVHSLDQILWVKGEIQKAIVELKRDGLRHAETITLGIMVEVPSVCYIIDHFCDEVDFFSIGSNDMTQYLYAVDRNNPRVSPLYNPITPSFLRMLQQIVTTAHQRGKWVGICGELGGESRYLPLLLGLGLDELSMSSPRIPAVKSQLRQLDSEACRELARQACECRSAQEIEALLTAFTPEEDVRPLLALENIFVDQDFSNKEQAIQFLCGNLGVNGRTEHPFELEEDVWQREEIVTTGVGFGVAIPHTKSQWIRHSSISIARLAKPIGWQSEMGEVELVIMLTLGANEGMNHVKVFSQLARKLVNKNFRQSLFAAQDAQSILTLLETELTF" "c" "Han et al., 2011" -"G7247-MONOMER" "MDLSLLKALSEADAIASSEQEVRQILLEEADRLQKEVRFDGLGSVLIRLNESTGPKVMICAHMDEVGFMVRSISREGAIDVLPVGNVRMAARQLQPVRITTREECKIPGLLDGDRQGNDVSAMRVDIGARSYDEVMQAGIRPGDRVTFDTTFQVLPHQRVMGKAFDDRLGCYLLVTLLRELHDAELPAEVWLVASSSEEVGLRGGQTATRAVSPDVAIVLDTACWAKNFDYGAANHRQIGNGPMLVLSDKSLIAPPKLTAWVETVAAEIGVPLQADMFSNGGTDGGAVHLTGTGVPTVVMGPATRHGHCAASIADCRDILQMQQLLSALIQRLTRETVVQLTDFR" "c" "Han et al., 2011" -"G7248-MONOMER" "MTLLASLRDWLKAQQLDAVLLSSRQNKQPHLGISTGSGYVVISRESAHILVDSRYYVEVEARAQGYQLHLLDATNTLTTIVNQIIADEQLQTLGFEGQQVSWETAHRWQSELNAKLVSATPDVLRQIKTPEEVEKIRLACGIADRGAEHIRRFIQAGMSEREIAAELEWFMRQQGAEKASFDTIVASGWRGALPHGKASDKIVAAGEFVTLDFGALYQGYCSDMTRTLLVNGEGVSAESHLLFNVYQIVLQAQLAAISAIRPGVRCQQVDDAARRVITEAGYGDYFGHNTGHAIGIEVHEDPRFSPRDTTTLQPGMLLTVEPGIYLPGQGGVRIEDVVLVTPQGAEVLYAMPKTVLLTGEA" "c" "Han et al., 2011" -"G7250-MONOMER" "MSKKLIALCACPMGLAHTFMAAQALEEAAVEAGYEVKIETQGADGIQNRLTAQDIAEATIIIHSVAVTPEDNERFESRDVYEITLQDAIKNAAGIIKEIEEMIASEQQ" "c" "EcoCyc dump" -"G7251-MONOMER" "MLHPRARTMLLLSLPAVAIGIASSLILIVVMKIASVLQNLLWQRLPGTLGIAQDSPLWIIGVLTLTGIAVGLVIRFSQGHAGPDPACEPLIGAPVPPSALPGLIVALILGLAGGVSLGPEHPIMTVNIALAVAIGARLLPRVNRMEWTILASAGTIGALFGTPVAAALIFSQTLNGSSEVPLWDRLFAPLMAAAAGALTTGLFFHPHFSLPIAHYGQMEMTDILSGAIVAAIAIAAGMVAVWCLPRLHAMMHQMKNPVLVLGIGGFILGILGVIGGPVSLFKGLDEMQQMVANQAFSTSDYFLLAVIKLAALVVAAASGFRGGRIFPAVFVGVALGLMLHEHVPAVPAAITVSCAILGIVLVVTRDGWLSLFMAAVVVPNTTLLPLLCIVMLPAWLLLAGKPMMMVNRPKQQPPHDNV" "i" "Han et al., 2011" -"G7252-MONOMER" "MFRSLFLAAALMAFTPLAANAGEITLLPSIKLQIGDRDHYGNYWDGGHWRDRDYWHRNYEWRKNRWWRHDNGYHRGWDKRKAYERGYREGWRDRDDHRGKGRGHGHRH" "p" "Han et al., 2011" -"G7255-MONOMER" "MNYSHDNWSAILAHIGKPEELDTSARNAGALTRRREIRDAATLLRLGLAYGPGGMSLREVTAWAQLHDVATLSDVALLKRLRNAADWFGILAAQTLAVRAAVTGCTSGKRLRLVDGTAISAPGGGSAEWRLHMGYDPHTCQFTDFELTDSRDAERLDRFAQTADEIRIADRGFGSRPECIRSLAFGEADYIVRVHWRGLRWLTAEGMRFDMMGFLRGLDCGKNGETTVMIGNSGNKKAGAPFPARLIAVSLPPEKALISKTRLLSENRRKGRVVQAETLEAAGHVLLLTSLPEDEYSAEQVADCYRLRWQIELAFKRLKSLLHLDALRAKEPELAKAWIFANLLAAFLIDDIIQPSLDFPPRSAGSEKKN" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7256-MONOMER" "MKKHLLTLTLSSILAIPVVSHAEFKGGFADIGVHYLDWTSRTTEKSSTKSHKDDFGYLEFEGGANFSWGEMYGFFDWENFYNGRHNKPGSEQRYTFKNTNRIYLGDTGFNLYLHAYGTYGSANRVNFHDDMFLYGIGYNFTGSGWWFKPFFAKRYTDQTYYTGDNGYVAGWVAGYNFMLGSEKFTLTNWNEYEFDRDATYAAGNGGKEGLNGAVALWWNATSHITTGIQYRYADDKLGEDFYQDAIIYSIKFNF" "o" "Unambiguous EcoCyc data" -"G7257-MONOMER" "MNYSLKQLKVFVTVAQEKSFSRAGERIGLSQSAVSHSVKELENHTGVRLLDRTTREVVLTDAGQQLALRLERLLDELNSTLRDTGRMGQQLSGKVRVAASQTISAHLIPQCIAESHRRYPDIQFVLHDRPQQWVMESIRQGDVDFGIVIDPGPVGDLQCEAILSEPFFLLCHRDSALAVEDYVPWQALQGAKLVLQDYASGSRPLIDAALARNGIQANIVQEIGHPATLFPMVAAGIGISILPALALPLPEGSPLVVKRITPVVERQLMLVRRKNRSLSTAAEALWDVVRDQGNALMAGREGDPLYQI" "c" "Han et al., 2011" -"G7258-MONOMER" "MMQDLRLILIIVGAIAIIALLVHGFWTSRKERSSMFRDRPLKRMKSKRDDDSYDEDVEDDEGVGEVRVHRVNHAPANAQEHEAARPSPQHQYQPPYASAQPRQPVQQPPEAQVPPQHAPHPAQPVQQPAYQPQPEQPLQQPVSPQVAPAPQPVHSAPQPAQQAFQPAEPVAAPQPEPVAEPAPVMDKPKRKEAVIIMNVAAHHGSELNGELLLNSIQQAGFIFGDMNIYHRHLSPDGSGPALFSLANMVKPGTFDPEMKDFTTPGVTIFMQVPSYGDELQNFKLMLQSAQHIADEVGGVVLDDQRRMMTPQKLREYQDIIREVKDANA" "i" "Han et al., 2011" -"G7260-MONOMER" "MKKIICLVITLLMTLPVYAKLTAHEEARINAMLEGLAQKKDLIFVRNGDEHTCYEAVSHLRLKLGNTRNRIDTAEQFIDKVASSSSITGKPYIVKIPGKSDENAQPFLHALIAQTDKTVPAEGN" "c" "Han et al., 2011" -"G7261-MONOMER" "MKKRFIYHDEKSNKFWWIDYEGDSLAVNYGKVGSIGKFQTKEFDNEEQCLKEASKLIAAKMKKGYQEDPKFNFMDRYYFDDEEIGLHVKTSHPNFQCHFTDPLYMCCWDEESPFGSDEGADALNVLENSLRKEPDLDCADFPQMLIETMWGMKYIAMDSILEEDVRAQLLVDEMSTIQSNMITYATAFGQIKVMGKISHKLKKMGLNALARHQLTAKILQWGDGQDSPILQKMIDDLTAFPHEN" "c" "Han et al., 2011" -"G7262-MONOMER" "MLYLTKISNAGSEFTENEQKIADFLQANVSELQSVSSRQMAKQLGISQSSIVKFAQKLGAQGFTELRMALIGEYSASREKTNATALHLHSSITSDDSLEVIARKLNREKELALEQTCALLDYARLQKIIEVISKAPFIQITGLGGSALVGRDLSFKLMKIGYRVACEADTHVQATVSQALKKGDVQIAISYSGSKKEIVLCAEAARKQGATVIAITSLTDSPLRRLAHFTLDTVSGETEWRSSSMSTRTAQNSVTDLLFVGLVQLNDVESLKMIQRSSELTQRLK" "c" "EcoCyc dump" -"G7263-MONOMER" "MQFEKMITEGSNTASAEIDRVSTLEMCRIINDEDKTVPLAVERVLPDIAAAIDVIHAQVSGGGRLIYLGAGTSGRLGILDASECPPTYGVKPGLVVGLIAGGEYAIQHAVEGAEDSREGGVNDLKNINLTAQDVVVGIAASGRTPYVIAGLEYARQLGCRTVGISCNPGSAVSTTAEFAITPIVGAEVVTGSSRMKAGTAQKLVLNMLSTGLMIKSGKVFGNLMVDVVATNEKLHVRQVNIVKNATGCSAEQAEAALIACERNCKTAIVMVLKNLDAAEAKKRLDQHGGFIRQVLDKE" "c" "Han et al., 2011" -"G7265-MONOMER" "MKRTMLYLSLLAVSCSVSAAKYPVLTESSPEKAGFNVERLNQMDRWISQQVDVGYPSVNLLIIKDNQIVYRKAWGAAKKYDGSVLMEQPVKATTGTLYDLASNTKMYATNFALQKLMSEGKLHPDDRIAKYIPGFADSPNDTIKGKNTLRISDLLHHSGGFPADPQYPNKAVAGALYSQDKGQTLEMIKRTPLEYQPGSKHIYSDVDYMLLGFIVESVTGQPLDRYVEESIYRPLGLTHTVFNPLLKGFKPQQIAATELNGNTRDGVIHFPNIRTSTLWGQVHDEKAFYSMGGVSGHAGLFSNTGDIAVLMQTMLNGGGYGDVQLFNAETVKMFTTSSKEDATFGLGWRVNGNATMTPTFGTLASPQTYGHTGWTGTVTVIDPVNHMTIVMLSNKPHSPVADPQKNPNMFESGQLPIATYGWVVDQVYAALKQK" "i" "Han et al., 2011" -"G7266-MONOMER" "MSQVQSGILPEHCRAAIWIEANVKGEVDALRAASKTFADKLATFEAKFPDAHLGAVVAFGNNTWRALSGGVGAEELKDFPGYGKGLAPTTQFDVLIHILSLRHDVNFSVAQAAMEAFGDCIEVKEEIHGFRWVEERDLSGFVDGTENPAGEETRREVAVIKDGVDAGGSYVFVQRWEHNLKQLNRMSVHDQEMVIGRTKEANEEIDGDERPETSHLTRVDLKEDGKGLKIVRQSLPYGTASGTHGLYFCAYCARLHNIEQQLLSMFGDTDGKRDAMLRFTKPVTGGYYFAPSLDKLMAL" "c" "Han et al., 2011" -"G7267-MONOMER" "MKSLRLMLCAMPLMLTGCSTMSSVNWSAANPWNWFGSSTKVSEQGVGELTASTPLQEQAIADALDGDYRLRSGMKTANGNVVRFFEVMKGDNVAMVINGDQGTISRIDVLDSDIPADTGVKIGTPFSDLYSKAFGNCQKADGDDNRAVECKAEGSQHISYQFSGEWRGPEGLMPSDDTLKNWKVSKIIWRR" "p" "Han et al., 2011" -"G7268-MONOMER" "MKSTEFHPVHYDAHGRLRLPLLFWLVLLLQARTWVLFVIAGASREQGTALLNLFYPDHDNFWLGLIPGIPAVLAFLLSGRRATFPRTWRVLYFLLLLAQVVLLCWQPWLWLNGESVSGIGLALVVADIVALIWLLTNRRLRACFYEVKE" "i" "Han et al., 2011" -"G7269-MONOMER" "MEIRVFRQEDFEEVITLWERCDLLRPWNDPEMDIERKMNHDVSLFLVAEVNGDVVGTVMGGYDGHRGSAYYLGVHPEFRGRGIANALLNRLEKKLIARGCPKIQINVPEDNDMVLGMYERLGYEHADVLSLGKRLIEDEEY" "c" "Han et al., 2011" -"G7270-MONOMER" "MINALGLLEVDGMVAAIDAADAMLKAANVRLLSHEVLDPGRLTLVVEGDLAACRAALDAGCAAAMRTGRVISRKEIGRPDDDTQWLVTGFNRQPKQPVREPDAPVIVAESADELLALLTSVRQGMTAGEVAAHFGWPLEKARNALEQLFSAGTLRKRSSRYRLKPH" "c" "Han et al., 2011" -"G7271-MONOMER" "MPALDLIRPSVTAMRVIASVNADFARELKLPPHIRSLGLISADSDDVTYIAADEATKQAMVEVVYGRSLYAGAAHGPSPTAGEVLIMLGGPNPAEVRAGLDAMIAHIENGAAFQWANDAQDTAFLAHVVSRTGSYLSSTAGITLGDPMAYLVAPPLEATYGIDAALKSADVQLATYVPPPSETNYSAAFLTGSQAACKAACNAFTDAVLEIARNPIQRA" "c" "EcoCyc dump" -"G7272-MONOMER" "LPKHARYSSRRTRRIHDRGYPVVKSRYPVLSKTPLTAKAIDAAQPQDKPYKLTDSLTPGLFLLVHPNGSKYWRFRYWLNKREFLQAIGVYPLITLKEARRRATESRSLIANGINPVEQARKEKAIDALNMAAGFKKVAEDWFATRVGGWSESYAKQVRSALEKDVYPVLGKRSIVDITARDVLALLQKKERTAPEQARKLRRRIGEIFKFAVITELVTRNPVADLDTALKARRPGHNAWIPISEIPAFYKALERAGSVQIQTAIRLLILTALRTAELRLCRWEWINLEDATITLPAEVMKARRPHVVPLSRQAVELLQDQFTRSGYSAFVFPGRFMDKPLSASAILKALERIGYKSIATGHGWRTTFSTALNESGRYSPDWIEIQLAHVPKGIRGVYNQAAYLKQRRAMMQDYADAIDSILAGNGNPLEPE" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7273-MONOMER" "MFATKDPEFENRINTNKSPRNAATCRGRYEKQAKGEFLMSDMLAVEQETNNDVRQFLNKINELRNKAPKNEETKHEEHTPDNHEETDHHEAKQQEQAWRGNLRYLDTLNRLDEVLPRKLYERWEKEHTVNDEAVLRALCYFAGTGKNSQLGWCRVGRGTIDKRARLSKNTVKKCLDRLVNHFKLVERTEGYIPGSAERECNEYQLLFKPYNMK" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7274-MONOMER" "VMVIRHECPSYCIAQKRVALREFSELVLGTLSLLLEQKTNGKCSASLYDCSEEEKLFVKRLKLIKADIHAQLKACDCDISE" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7275-MONOMER" "MTGGIMKHVFKYLDFAEDREHAESVATKELKLDHVEKFAIRDLANDIKERGCVELVQPGGFDELVQIYEAGGDGIEPLNCGIESRKVAIAALLRVMREPDFQCLEMVHEIIRIARDLEAPVDAPLDC" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7276-MONOMER" "MEGELIENNGLDIYDTSETPKKRGRPAKYNEKIATQIVLLVSEGYSLRKISMMPGMPSHRQMMRWQLEHMDFREGIAWMSWLWCAEAGRRAVEIIDEVDINAEDGPKQLRKAEAKAKALLAAAKLNSLKHSPFGDDKQ" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7277-MONOMER" "MSLIRTETRDTKRAADPLHDLRSKPFSEWGEDEIRRFNLIDALLEFVYTDTSSPFGIGMTFDYTECWEIGVRDDCLVMTRVKPVHPEYAKHWNMKGVMNDKTRFHADKWVGYSKVLAWVSLSHKDTFTGAKRFQYFQTMYDMERQINANLPVGGLPNVDTERTGKLFQRDDFSEDSHANDPKLVGDDYVPQAPEQIN" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7278-MONOMER" "VKEDAMKLLIAIILMVLTGVCFADVGDYRLNGEDNARIESVVTDNCEKTAVLVGGDRLARVEIEYIATLCKPVALVIIYDRFDDIAAIPLKVTLKKVLKENSDEKINLLNKMGDLAGRIVAEQYLGMSFE" "m" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7279-MONOMER" "MKVLGNILWWAFVGFMAYATLIKPDNTDPAVVNYEEPLPMELANYGEPGEGAKIMNAAKIMGRDYAWKHVKEDRLPCLFAAGVVADNILVKYHFSNETEFKLKAAAVRECANVAENNGFVLVGRVFEKRN" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7280-MONOMER" "MDSMRWEIKIMSYEIKICDILKGAAMEGQYKGAQRGAKCEEIANELTRRGVKNNKGEVITKGGVSHWLEGRREPNFDTLAELCDMFGVYALMPMRGGKWIRVHPEDRGEMELREAVAERDAIIDDLKARIAELEAALANKQVPAEAEEMGGEKVEEVAAEQAPNDEKEMGAKEWVNPNPKKYSVGMLCQVLAAMGGEYLGNNAGLQQKITVLDNDGNRKPISNGAFYRLIEQAKGRGLISVEQEIKHKKDENGNQIGKGKKGDKLITLLPNWIDKLGDE" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7281-MONOMER" "VNTRQLLSVGIDIGTTTTQVIFSRLELVNRAAVSQVPRYEFIKREISWQSPVFFTPVDKQGGLKEAELKTLILEQYHAAGIEPESVDSGAIIITGESAKTRNARPAVMALSQSLGDFVVASAGPHLESVIAGHGAGAQTLSEQRLCRVLNIDIGGGTANYALFDAGKISGTACLNVGGRLLETDSHGRVVYAHKPGQMIVDECFGAGTDARSLTGAQLVQVTRRMAELIVEVIDGTLSPLAQALMQTGLLPAGVTPEIITLSGGVGECYRHQPADPFCFADIGPLLATALHDHPRLREMNVQFPAQTVRATVIGAGAHTLSLSGSTIWLEGVQLPLRNLPVAIPIDETDLVGAWQQALIQLDLDPKTDAYVLALPASLPVRYAAVLTVINALVDFVARFPNPHPLLVVAGQDFGKALGMLLRPQLQQLPLAVIDEVIVRAGDYIDIGTPLFGGSVVPVTVKSLAFPS" "c" "Han et al., 2011" -"G7282-MONOMER" "MGINEIIMYIMMFFMLIAAVDRILSQFGGSARFLGKFGKSIEGSGGQFEEGFMAMGALGLAMVGMTALAPVLAHVLGPVIIPVYEMLGANPSMFAGTLLACDMGGFFLAKELAGGDVAAWLYSGLILGSMMGPTIVFSIPVALGIIEPSDRRYLALGVLAGIVTIPIGCIAGGLVAMYSGVQINGQPVEFTFALILMNMIPVIIVAILVALGLKFIPEKMINGFQIFAKFLVALITLGLAAAVVKFLLGWELIPGLDPIFMAPGDKPGEVMRAIEVIGSISCVLLGAYPMVLLLTRWFEKPLMSVGKVLNMNNIAAAGMVATLANNIPMFGMMKQMDTRGKVINCAFAVSAAFALGDHLGFAAANMNAMIFPMIVGKLIGGVTAIGVAMMLVPKEDATATKTEAEAQS" "i" "Han et al., 2011" -"G7283-MONOMER" "MQNELQTALFQAFDTLNLQRVKTFSVPPVTLCGPGSVSSCGQQAQTRGLKHLFVMADSFLHQAGMTAGLTRSLTVKGIAMTLWPCPVGEPCITDVCAAVAQLRESGCDGVIAFGGGSVLDAAKAVTLLVTNPDSTLAEMSETSVLQPRLPLIAIPTTAGTGSETTNVTVIIDAVSGRKQVLAHASLMPDVAILDAALTEGVPSHVTAMTGIDALTHAIEAYSALNATPFTDSLAIGAIAMIGKSLPKAVGYGHDLAARESMLLASCMAGMAFSSAGLGLCHAMAHQPGAALHIPHGLANAMLLPTVMEFNRMVCRERFSQIGRALRTKKSDDRDAINAVSELIAEVGIGKRLGDVGATSAHYGAWAQAALEDICLRSNPRTASLEQIVGLYAAAQ" "c" "Han et al., 2011" -"G7284-MONOMER" "MAHDEQWLTPRLQTAATLCNQTPAATESPLWLGVDLGTCDVVSMVVDRDGQPVAVCLDWADVVRDGIVWDFFGAVTIVRRHLDTLEQQFGRRFSHAATSFPPGTDPRISINVLESAGLEVSHVLDEPTAVADLLQLDNAGVVDIGGGTTGIAIVKKGKVTYSADEATGGHHISLTLAGNRRISLEEAEQYKRGHGEEIWPAVKPVYEKMADIVARHIEGQGITDLWLAGGSCMQPGVAELFRKQFPALQVHLPQHSLFMTPLAIASSGREKAEGLYAK" "c" "Han et al., 2011" -"G7285-MONOMER" "MNQQDIEQVVKAVLLKMQSSDTPSAAVHEMGVFASLDDAVAAAKVAQQGLKSVAMRQLAIAAIREAGEKHARDLAELAVSETGMGRVEDKFAKNVAQARGTPGVECLSPQVLTGDNGLTLIENAPWGVVASVTPSTNPAATVINNAISLIAAGNSVIFAPHPAAKKVSQRAITLLNQAIVAAGGPENLLVTVANPDIETAQRLFKFPGIGLLVVTGGEAVVEAARKHTNKRLIAAGAGNPPVVVDETADLARAAQSIVKGASFDNNIICADEKVLIVVDSVADELMRLMEGQHAVKLTAEQAQQLQPVLLKNIDERGKGTVSRDWVGRDAGKIAAAIGLKVPQETRLLFVETTAEHPFAVTELMMPVLPVVRVANVADAIALAVKLEGGCHHTAAMHSRNIENMNQMANAIDTSIFVKNGPCIAGLGLGGEGWTTMTITTPTGEGVTSARTFVRLRRCVLVDAFRIV" "c" "Han et al., 2011" -"G7286-MONOMER" "MKLAVVTGQIVCTVRHHGLAHDKLLMVEMIDPQGNPDGQCAVAIDNIGAGTGEWVLLVSGSSARQAHKSETSPVDLCVIGIVDEVVSGGQVIFHK" "c" "Han et al., 2011" -"G7287-MONOMER" "MEALGMIETRGLVALIEASDAMVKAARVKLVGVKQIGGGLCTAMVRGDVAACKAATDAGAAAAQRIGELVSVHVIPRPHGDLEEVFPIGLKGDSSNL" "c" "Han et al., 2011" -"G7288-MONOMER" "MIIERCRELALRAPARVVFPDALDQRVLKAAQYLHQQGLATPILVANPFELRQFALSHGVAMDGLQVIDPHGNLAMREEFAHRWLARAGEKTPPDALEKLTDPLMFAAAMVSAGKADVCIAGNLSSTANVLRAGLRIIGLQPGCKTLSSIFLMLPQYSGPALGFADCSVVPQPTAAQLADIALASAETWRAITGEEPRVAMLSFSSNGSARHPCVANVQQATEIVRERAPKLVVDGELQFDAAFVPEVAAQKAPASPLQGKANVMVFPSLEAGNIGYKIAQRLGGYRAVGPLIQGLAAPMHDLSRGCSVQEIIELALVAAVPRQTEVNRESSLQTLVE" "c" "Han et al., 2011" -"G7289-MONOMER" "MKDFITEAWLRANHTLSEGAEIHLPADSRLTPSARELLESRHLRIKFIDEQGRLFVDDEQQQPQPVHGLTSSDEHPQACCELCRQPVAKKPDTLTHLSAEKMVAKSDPRLGFRAVLDSTIALAVWLQIELAEPWQPWLADIRSRLGNIMRADALGEPLGCQAIVGLSDEDLHRLSHQPLRYLDHDHLVPEASHGRDAALLNLLRTKVRETETVAAQVFITRSFEVLRPDILQALNRLSSTVYVMMILSVTKQPLTVKQIQQRLGETQ" "c" "Han et al., 2011" -"G7290-MONOMER" "VKKLITANDIREAHARGEQAMSVVLRASIITPEAREVADLLGFTITECDESIPVTASVPASVPADKTESQRIRETIIAQLPEGQFTESLVAQLMEKVMKEKQSLEQGAMQPSFKSVTGKGGIKVIDGSSVKFGRFDGAEPHCVGLTDLVTGDDGSSMAAGFMQWENAFFPWTLNYDEIDMVLEGELHVRHEGQTMIAKAGDVMFIPKGSSIEFGTTSSVKFLYVAWPANWQSL" "c" "Han et al., 2011" -"G7291-MONOMER" "MKRIAFVGSVGAGKTTLFNALQGNYTLARKTQAVEFNDKGDIDTPGEYFNHPRWYHALITTLQDVDMLIYVHGANDPESRLPAGLLDIGVSKRQIAVISKTDMPDADVAATRKLLLETGFEEPMFELNSHDPQSVQQLVDYLASLTKQEEAGEKTHHSE" "c" "Han et al., 2011" -"G7292-MONOMER" "MDKERIIQEFVPGKQVTLAHLIAHPGEELAKKIGVPDAGAIGIMTLTPGETAMIAGDLALKAADVHIGFLDRFSGALVIYGSVGAVEEALSQTVSGLGRLLNYTLCEMTKS" "c" "EcoCyc dump" -"G7295-MONOMER" "MRYRIFLLFFFALLPTSLVWAAPAQRAFSDWQVTCNNQNFCVARNTGDHNGLVMTLSRSAGAHTDAVLRIERGGLKSPEASEGEIAPRLLLDGEPLALSGDKWRISPWLLVTDDTATITAFLQMIQEGKAITLRDGDQTISLSGLKAALLFIDAQQKRVGSETAWIKKGDEPPLSVPPAPALKEVAVVNPTPTPLSLEERNDLLDYGNWRMNGLRCSLDPLRREVNVTALTDDKALMMISCEAGAYNTIDLAWIVSRKKPLASRPVRLRLPFNNGQETNELELMNATFDEKSRELVTLAKGRGLSDCGIQARWRFDGQRFRLVRYAAEPTCDNWHGPDAWPTLWITR" "p" "Han et al., 2011" -"G7296-MONOMER" "MKHDHFVVQSPDKPAQQLLLLFHGVGDNPVAMGEIGNWFAPLFPDALVVSVGGAEPSGNPAGRQWFSVQGITEDNRQARVDAIMPTFIETVRYWQKQSGVGANATALIGFSQGAIMVLESIKAEPGLASRVIAFNGRYASLPETASTATTIHLIHGGEDPVIDLAHAVAAQEALISAGGDVTLDIVEDLGHAIDNRSMQFALDHLRYTIPKHYFDEALSGGKPGDDDVIEMM" "c" "Han et al., 2011" -"G7297-MONOMER" "MAELTALHTLTAQMKREGIRRLLVLSGEEGWCFEHTLKLRDALPGDWLWISPRPDAENHCSPSALQTLLGREFRHAVFDARHGFDAAAFAALSGTLKAGSWLVLLLPVWEEWENQPDADSLRWSDCPDPIATPHFVQHLKRVLTADNEAILWRQNQPFSLAHFTPRTDWYPATGAPQPEQQQLLKQLMTMPPGVAAVTAARGRGKSALAGQLISRIAGRAIVTAPAKASTDVLAQFAGEKFRFIAPDALLASDEQADWLVVDEAAAIPAPLLHQLVSRFPRTLLTTTVQGYEGTGRGFLLKFCARFPHLHRFELQQPIRWAQGCPLEKMVSEALVFDDENFTHTPQGNIVISAFEQTLWQSDPETPLKVYQLLSGAHYRTSPLDLRRMMDAPGQHFLQAAGENEIAGALWLVDEGGLSQQLSQAVWAGFRRPRGNLVAQSLAAHGNNPLAATLRGRRVSRIAVHPARQREGTGRQLIAGALQYTQDLDYLSVSFGYTGELWRFWQRCGFVLVRMGNHREASSGCYTAMALLPMSDAGKQLAEREHYRLRRDAQALAQWNGETLPVDPLNDAVLSDDDWLELAGFAFAHRPLLTSLGCLLRLLQTSELALPALRGRLQKNASDAQLCTTLKLSGRKMLLVRQREEAAQALFALNDVRTERLRDRITQWQLFH" "c" "Han et al., 2011" -"G7298-MONOMER" "MRWQGRRESDNVEDRRNSSGGPSMGGPGFRLPSGKGGLILLIVVLVAGYYGVDLTGLMTGQPVSQQQSTRSISPNEDEAAKFTSVILATTEDTWGQQFEKMGKTYQQPKLVMYRGMTRTGCGAGQSIMGPFYCPADGTVYIDLSFYDDMKDKLGADGDFAQGYVIAHEVGHHVQKLLGIEPKVRQLQQNATQAEVNRLSVRMELQADCFAGVWGHSMQQQGVLETGDLEEALNAAQAIGDDRLQQQSQGRVVPDSFTHGTSQQRYSWFKRGFDSGDPAQCNTFGKSI" "i" "Han et al., 2011" -"G7307-MONOMER" "MTEECGEIVFWTLRKKFVASSDEMPEHSSQVMYYSLAIGHHVGVIDCLNVAFRCPLTEYEDWLALVEEEQARRKMLGVMTFGEIVIDASHTALLTRAFAPLADDATSVWQARSIQFIHLLDEIVQEPAIYLMARKIA" "c" "Han et al., 2011" -"G7308-MONOMER" "MAMSDEAMFAPPQGITIEAVNGMLAERLAQKHGKASLLRAFIPLPPPFSPVQLIELHVLKSNFYYRYHDDGSDVTATTEYQGEMVDYSRHAVLLGSSGMAELRFIRTHGSRFTSQDCTLFNWLARIITPVLQSWLNDEEQQVALRLLEKDRDHHRVLVDITNAVLSHLDLDDLIADVAREIHHFFGLASVSMVLGDHRKNEKFSLWCSDLSASHCACLPRCMPGESVLLTQTLQTRQPTLTHRADDLFLWQRDPLLLLLASNGCESALLIPLTFGNHTPGALLLAHTSSTLFSEENCQLLQHIADRIAIAVGNADAWRSMTDLQESLQQENHQLSEQLLSNLGIGDIIYQSQAMEDLLQQVDIVAKSDSTVLICGETGTGKEVIARAIHQLSPRRDKPLVKINCAAIPASLLESELFGHDKGAFTGAINTHRGRFEIADGGTLFLDEIGDLPLELQPKLLRVLQEREIERLGGSRTIPVNVRVIAATNRDLWQMVEDRQFRSDLFYRLNVFPLELPPLRDRPEDIPLLAKHFTQKMARHMNRAIDAIPTEALRQLMSWDWPGNVRELENVIERAVLLTRGNSLNLHLNVRQSRLLPTLNEDSALRSSMAQLLHPTTPENDEEERQRIVQVLRETNGIVAGPRGAATRLGMKRTTLLSRMQRLGISVREVL" "c" "Han et al., 2011" -"G7310-MONOMER" "MLEMLMQWYRRRFSDPEAIALLVILVAGFGIIFFFSGLLAPLLVAIVLAYLLEWPTVRLQSIGCSRRWATSIVLVVFVGILLLMAFVVLPIAWQQGIYLIRDMPGMLNKLSDFAATLPRRYPALMDAGIIDAMAENMRSRMLTMGDSVVKISLASLVGLLTIAVYLVLVPLMVFFLLKDKEQMLNAVRRVLPRNRGLAGQVWKEMNQQITNYIRGKVLEMIVVGIATWLGFLLFGLNYSLLLAVLVGFSVLIPYIGAFVVTIPVVGVALFQFGAGTEFWSCFAVYLIIQALDGNLLVPVLFSEAVNLHPLVIILSVVIFGGLWGFWGVFFAIPLATLIKAVIHAWPDGQIAQE" "i" "Han et al., 2011" -"G7311-MONOMER" "MFRQLKKNLVATLIAAMTIGQVAPAFADSADTLPDMGTSAGSTLSIGQEMQMGDYYVRQLRGSAPLINDPLLTQYINSLGMRLVSHANSVKTPFHFFLINNDEINAFAFFGGNVVLHSALFRYSDNESQLASVMAHEISHVTQRHLARAMEDQQRSAPLTWVGALGSILLAMASPQAGMAALTGTLAGTRQGMISFTQQNEQEADRIGIQVLQRSGFDPQAMPTFLEKLLDQARYSSRPPEILLTHPLPESRLADARNRANQMRPMVVQSSEDFYLAKARTLGMYNSGRNQLTSDLLDEWAKGNVRQQRAAQYGRALQAMEANKYDEARKTLQPLLAAEPGNAWYLDLATDIDLGQNKANEAINRLKNARDLRTNPVLQLNLANAYLQGGQPQEAANILNRYTFNNKDDSNGWDLLAQAEAALNNRDQELAARAEGYALAGRLDQAISLLSSASSQVKLGSLQQARYDARIDQLRQLQERFKPYTKM" "o" "Han et al., 2011" -"G7312-MONOMER" "MTKQVKIYHNPRCSKSRETLNLLKENGVEPEVVLYLETPADAATLRDLLKILGMNSARELMRQKEDLYKELNLADSSLSEEALIQAMVDNPKLMERPIVVANGKARIGRPPEQVLEIVG" "c" "Han et al., 2011" -"G7313-MONOMER" "LNTPAQLSLPLYLPDDETFASFWPGDNSSLLAALQNVLRQEHSGYIYLWAREGAGRSHLLHAACAELSQRGDAVGYVPLDKRTWFVPEVLDGMEHLSLVCIDNIECIAGDELWEMAIFDLYNRILESGKTRLLITGDRPPRQLNLGLPDLASRLDWGQIYKLQPLSDEDKLQALQLRARLRGFELPEDVGRFLLKRLDREMRTLFMTLDQLDRASITAQRKLTIPFVKEILKL" "c" "Han et al., 2011" -"G7314-MONOMER" "MKLNATYIKIRDKWWGLPLFLPSLILPIFAHINTFAHISSGEVFLFYLPLALMISMMMFFSWAALPGIALGIFVRKYAELGFYETLSLTANFIIIIILCWGGYRVFTPRRNNVSHGDTRLISQRIFWQIVFPATLFLILFQFAAFVGLLASRENLVGVMPFNLGTLINYQALLVGNLIGVPLCYFIIRVVRNPFYLRSYYSQLKQQVDAKVTKKEFALWLLALGALLLLLCMPLNEKSTIFSTNYTLSLLLPLMMWGAMRYGYKLISLLWAVVLMISIHSYQNYIPIYPGYTTQLTITSSSYLVFSFIVNYMAVLATRQRAVVRRIQRLAYVDPVVHLPNVRALNRALRDAPWSALCYLRIPGMEMLVKNYGIMLRIQYKQKLSHWLSPLLEPGEDVYQLSGNDLALRLNTESHQERITALDSHLKQFRFFWDGMPMQPQIGVSYCYVRSPVNHIYLLLGELNTVAELSIVTNAPENMQRRGAMYLQRELKDKVAMMNRLQQALEHNHFFLMAQPITGMRGDVYHEILLRMKGENDELISPDSFLPVAHEFGLSSSIDMWVIEHTLQFMAENRAKMPAHRFAINLSPTSVCQARFPVEVSQLLAKYQIEAWQLIFEVTESNALTNVKQAQITLQHLQELGCQIAIDDFGTGYASYARLKNVNADLLKIDGSFIRNIVSNSLDYQIVASICHLARMKKMLVVAEYVENEEIREAVLSLGIDYMQGYLIGKPQPLIDTLNEIEPIRESA" "i" "Han et al., 2011" -"G7315-MONOMER" "VSQATSMRKRHRFNSRMTRIVLLISFIFFFGRFIYSSVGAWQHHQSKKEAQQSTLSVESPVQR" "i" "Han et al., 2011" -"G7316-MONOMER" "VMKFKKCLLPVAMLASFTLAGCQSNADDHAADVYQTDQLNTKQETKTVNIISILPAKVAVDNSQNKRNAQAFGALIGAVAGGVIGHNVGSGSNSGTTAGAVGGGAVGAAAGSMVNDKTLVEGVSLTYKEGTKVYTSTQVGKECQFTTGLAVVITTTYNETRIQPNTKCPEKS" "o" "Han et al., 2011" -"G7317-MONOMER" "MKKVFLCAILASLSYPAIASSLQDQLSAVAEAEQQGKNEEQRQHDEWVAERNREIQQEKQRRANAQAAANKRAATAAANKKARQDKLDAEASADKKRDQSYEDELRSLEIQKQKLALAKEEARVKRENEFIDQELKHKAAQTDVVQSEADANRNMTEGGRDLMKSVGKAEENKSDSWFN" "p" "Han et al., 2011" -"G7318-MONOMER" "MELHCPQCQHVLDQDNGHARCRSCGEFIEMKALCPDCHQPLQVLKACGAVDYFCQHGHGLISKKRVEFVLA" "c" "Han et al., 2011" -"G7319-MONOMER" "MVPVVALVGRPNVGKSTLFNRLTRTRDALVADFPGLTRDRKYGRAEIEGREFICIDTGGIDGTEDGVETRMAEQSLLAIEEADVVLFMVDARAGLMPADEAIAKHLRSREKPTFLVANKTDGLDPDQAVVDFYSLGLGEIYPIAASHGRGVLSLLEHVLLPWMEDLAPQEEVDEDAEYWAQFEAEENGEEEEEDDFDPQSLPIKLAIVGRPNVGKSTLTNRILGEERVVVYDMPGTTRDSIYIPMERDGREYVLIDTAGVRKRGKITDAVEKFSVIKTLQAIEDANVVMLVIDAREGISDQDLSLLGFILNSGRSLVIVVNKWDGLSQEVKEQVKETLDFRLGFIDFARVHFISALHGSGVGNLFESVREAYDSSTRRVGTSMLTRIMTMAVEDHQPPLVRGRRVKLKYAHAGGYNPPIVVIHGNQVKDLPDSYKRYLMNYFRKSLDVMGSPIRIQFKEGENPYANKRNTLTPTQMRKRKRLMKHIKKNK" "c" "Han et al., 2011" -"G7320-MONOMER" "MQLRKLLLPGLLSVTLLSGCSLFNSEEDVVKMSPLPTVENQFTPTTAWSTSVGSGIGNFYSNLHPALADNVVYAADRAGLVKALNADDGKEIWSVSLAEKDGWFSKEPALLSGGVTVSGGHVYIGSEKAQVYALNTSDGTVAWQTKVAGEALSRPVVSDGLVLIHTSNGQLQALNEADGAVKWTVNLDMPSLSLRGESAPTTAFGAAVVGGDNGRVSAVLMEQGQMIWQQRISQATGSTEIDRLSDVDTTPVVVNGVVFALAYNGNLTALDLRSGQIMWKRELGSVNDFIVDGNRIYLVDQNDRVMALTIDGGVTLWTQSDLLHRLLTSPVLYNGNLVVGDSEGYLHWINVEDGRFVAQQKVDSSGFQTEPVAADGKLLIQAKDGTVYSITR" "e" "EcoCyc dump" -"G7321-MONOMER" "VEIYENENDQVEAVKRFFAENGKALAVGVILGVGALIGWRYWNSHQVDSARSASLAYQNAVTAVSEGKPDSIPAAEKFAAENKNTYGALASLELAQQFVDKNELEKAAAQLQQGLADTSDENLKAVINLRLARVQVQLKQADAALKTLDTIKGEGWAAIVADLRGEALLSKGDKQGARSAWEAGVKSDVTPALSEMMQMKINNLSI" "i" "Lopez-Campistrous et al., 2005" -"G7322-MONOMER" "MPRLLTKRGCWITLAAAPFLLFLAAWGADKLWPLPLHEVNPARVVVAQDGTPLWRFADADGIWRYPVTIEDVSPRYLEALINYEDRWFWKHPGVNPFSVARAAWQDLTSGRVISGGSTLTMQVARLLDPHPKTFGGKIRQLWRALQLEWHLSKREILTLYLNRAPFGGTLQGIGAASWAYLGKSPANLSYSEAAMLAVLPQAPSRLRPDRWPERAEAARNKVLERMAVQGVWSREQVKESREEPIWLAPRQMPQLAPLFSRMMLGKSKSDKITTTLDAGLQRRLEELAQNWKGRLPPRSSLAMIVVDHTDMRVRGWVGSVDLNDDSRFGHVDMVNSIRSPGSVLKPFVYGLALDEGLIHPASLLQDVPRRTGDYRPGNFDSGFHGPISMSEALVRSLNLPAVQVLEAYGPKRFAAKLRNVGLPLYLPNGAAPNLSLILGGAGAKLEDMAAAYTAFARHGKAGKLRLQPDDPLLERPLMSSGAAWIIRRIMADEAQPLPDSALPRVAPLAWKTGTSYGYRDAWAIGVNARYVIGIWTGRPDGTPVVGQFGFASAVPLLNQVNNILLSRSANLPEDPRPNSVTRGVICWPGGQSLPEGDGNCRRRLATWLLDGSQPPTLLLPEQEGINGIRFPIWLDENGKRVAADCPQARQEMINVWPLPLEPWLPASERRAVRLPPASTSCPPYGHDAQLPLQLTGVRDGAIIKRLPGAAEATLPLQSSGGAGERWWFLNGEPLTERGRNVTLHLTDKGDYQLLVMDDVGQIATVKFVMQ" "i" "Han et al., 2011" -"G7323-MONOMER" "MKKLRVAACMLMLALAGCDNNDNAPTAVKKDAPSEVTKAASSENASSAKLSVPERQKLAQQSAGKVLTLLDLSEVQLDGAATLVLTFSIPLDPDQDFSRVIHVVDKKSGKVDGAWELSDNLKELRLRHLEPKRDLIVTIGKEVKALNNATFSKDYEKTITTRDIQPSVGFASRGSLLPGKVVEGLPVMALNVNNVDVNFFRVKPESLPAFISQWEYRNSLANWQSDKLLQMADLVYTGRFDLNPARNTREKLLLPLGDIKPLQQAGVYLAVMNQAGRYDYSNPATLFTLSDIGVSAHRYHNRLDIFTQSLENGAAQQGIEVSLLNEKGQTLTQATSDAQGHVQLENDKNAALLLARKDGQTTLLDLKLPALDLAEFNIAGAPGYSKQFFMFGPRDLYRPGETVILNGLLRDADGKALPNQPIKLDVIKPDGQVLRSVVSQPENGLYHFTWPLDSNAATGMWHIRANTGDNQYRMWDFHVEDFMPERMALNLTGEKTPLTPKDEVKFSVVGYYLYGAPANGNTLQGQLFLRPLREAVSALPGFEFGDIAAENLSRTLDEVQLTLDDKGRGEVSTESQWKETHSPLQVIFQGSLLESGGRPVTRRAEQAIWPADALPGIRPQFASKSVYDYRTDSTVKQPIVDEGSNAAFDIVYSDAQGVKKAVSGLQVRLIRERRDYYWNWSEDEGWQSQFDQKDLIENEQTLDLKADETGKVSFPVEWGAYRLEVKAPNEAVSSVRFWAGYSWQDNSDGSGAVRPDRVTLKLDKASYRPGDTIKLHIAAPTAGKGYAMVESSEGPLWWQEIDVRAQGLDLTIPVDKTWNRHDLYLSTLVVRPGDKSRSATPKRAVGVLHLPLGDENRRLDLALETPAKMRPNQPLTVKIKASTKNGEKPKQVNVLVSAVDSGVLNITDYVTPDPWQAFFGQKRYGADIYDIYGQVIEGQGRLAALRFGGDGDELKRGGKPPVNHVNIVVQQALPVTLNEQGEGSVTLPIGDFNGELRVMAQAWTADDFGSNESKVIVAAPVIAELNMPRFMASGDTSRLTLDITNLTDKPQKLNVALTASGLLELVSDSPAAVELAPGVRTTLFIPVRALPGYGDGEIQATISGLALPGETVADQHKQWKIGVRPAFPAQTVNYGTALQPGETWAIPADGLQNFSPVTLEGQLLLSGKPPLNIARYIKELKAYPYGCLEQTASGLFPSLYTNAAQLQALGIKGDSDEKRRASVDIGISRLLQMQRDNGGFALWDKNGDEEYWLTAYVMDFLVRAGEQGYSVPTDAINRGNERLLRYLQDPGMMSIPYADNLKASKFAVQSYAALVLARQQKAPLGALREIWEHRADAASGLPLLQLGVALKTMGDATRGEEAIALALKTPRNSDERIWLGDYGSSLRDNALMLSLLEENKLLPDEQYTLLNTLSQQAFGERWLSTQESNALFLAARTIQDLPGKWQAQTSFSAEQLTGEKAQNSNLNSDQLVTLQVSNSGDQPLWLRMDASGYPQSAPLPANNVLQIERHILGTDGKSKSLDSLRSGDLVLVWLQVKASNSVPDALVVDLLPAGLELENQNLANGSASLEQSGGEVQNLLNQMQQASIKHIEFRDDRFVAAVAVDEYQPVTLVYLARAVTPGTYQVPQPMVESMYVPQWRATGAAEDLLIVRP" "i" "Han et al., 2011" -"G7324-MONOMER" "MAYSEKVIDHYENPRNVGSFDNNDENVGSGMVGAPACGDVMKLQIKVNDEGIIEDARFKTYGCGSAIASSSLVTEWVKGKSLDEAQAIKNTDIAEELELPPVKIHCSILAEDAIKAAIADYKSKREAK" "c" "Lopez-Campistrous et al., 2005" -"G7325-MONOMER" "MKLPIYLDYSATTPVDPRVAEKMMQFMTMDGTFGNPASRSHRFGWQAEEAVDIARNQIADLVGADPREIVFTSGATESDNLAIKGAANFYQKKGKHIITSKTEHKAVLDTCRQLEREGFEVTYLAPQRNGIIDLKELEAAMRDDTILVSIMHVNNEIGVVQDIAAIGEMCRARGIIYHVDATQSVGKLPIDLSQLKVDLMSFSGHKIYGPKGIGALYVRRKPRVRIEAQMHGGGHERGMRSGTLPVHQIVGMGEAYRIAKEEMATEMERLRGLRNRLWNGIKDIEEVYLNGDLEHGAPNILNVSFNYVEGESLIMALKDLAVSSGSACTSASLEPSYVLRALGLNDELAHSSIRFSLGRFTTEEEIDYTIELVRKSIGRLRDLSPLWEMYKQGVDLNSIEWAHH" "c" "Han et al., 2011" -"G7326-MONOMER" "MRLTSKGRYAVTAMLDVALNSEAGPVPLADISERQGISLSYLEQLFSRLRKNGLVSSVRGPGGGYLLGKDASSIAVGEVISAVDESVDATRCQGKGGCQGGDKCLTHALWRDLSDRLTGFLNNITLGELVNNQEVLDVSGRQHTHDAPRTRTQDAIDVKLRA" "c" "Han et al., 2011" -"G7327-MONOMER" "MLQNIRIVLVETSHTGNMGSVARAMKTMGLTNLWLVNPLVKPDSQAIALAAGASDVIGNAHIVDTLDEALAGCSLVVGTSARSRTLPWPMLDPRECGLKSVAEAANTPVALVFGRERVGLTNEELQKCHYHVAIAANPEYSSLNLAMAVQVIAYEVRMAWLATQENGEQVEHEETPYPLVDDLERFYGHLEQTLLATGFIRENHPGQVMNKLRRLFTRARPESQELNILRGILASIEQQNKGNKAE" "c" "Han et al., 2011" -"G7328-MONOMER" "MIKKSQGKVMALPVNKRVPKILFILFVVAFCVYLVPRVAINFFYYPDDKIYGPDPWSAESVEFTAKDGTRLQGWFIPSSTGPADNAIATIIHAHGNAGNMSAHWPLVSWLPERNFNVFMFDYRGFGKSKGTPSQAGLLDDTQSAINVVRHRSDVNPQRLVLFGQSIGGANILDVIGRGDREGIRAVILDSTFASYATIANQMIPGSGYLLDESYSGENYIASVSPIPLLLIHGKADHVIPWQHSEKLYSLAKEPKRLILIPDGEHIDAFSDRHGDVYREQMVDFILSALNPQN" "i" "Han et al., 2011" -"G7329-MONOMER" "MMPTLAPPSVLSAPQRRCQILLTLFQPGLTATMATFSELNGVDDDIASLDISETGREILRYHQLTLTTGYDGSYRVEGTVLNQRLCLFHWLRRGFRLCPSFITSQFTPALKSELKRRGIARNFYDDTNLQALVNLCSRRLQKRFESRDIHFLCLYLQYCLLQHHAGITPQFNPLQRRWAESCLEFQVAQEIGRHWQRRALQPVPPDEPLFMALLFSMLRVPDPLRDAHQRDRQLRQSIKRLVNHFRELGNVRFYDEQGLCDQLYTHLAQALNRSLFAIGIDNTLPEEFARLYPRLVRTTRAALAGFESEYGVHLSDEESGLVAVIFGAWLMQENDLHEKQIILLTGNDSEREAQIEQQLRELTLLPLNIKHMSVKAFLQTGAPRGAALIIAPYTMPLPLFSPPLIYTDLTLTTHQQEQIRKMLESA" "c" "Han et al., 2011" -"G7331-MONOMER" "MELRHLRYFVAVAQALNFTRAAEKLHTSQPSLSSQIRDLENCVGVPLLVRDKRKVALTAAGECFLQDALAILEQAENAKLRARKIVQEDRQLTIGFVPSAEVNLLPKVLPMFRLRQPDTLIELVSLITTQQEEKIRRGELDVGLMRHPVYSPEIDYLELFDEPLVVVLPVDHPLAHEKEITAAQLDGVNFVSTDPVYSGSLAPIVKAWFAQENSQPNIVQVATNILVTMNLVGMGLGVTLIPGYMNNFNTGQVVFRPIAGNVPSIALLMAWKKGEMKPALRDFIAIVQERLASVTA" "c" "Han et al., 2011" -"G7337-MONOMER" "MPGAWRGARVCITFKSHYLAKGLVMNTLRYFDFGAARPVLLLIARIAVVLIFIIFGFPKMMGFDGTVQYMASLGAPMPMLAAIIAVVMEVPAAILIVLGFFTRPLAVLFIFYTLGTAVIGHHYWDMTGDAVGPNMINFWKNVSIAGAFLLLAITGPGAISLDRR" "i" "Han et al., 2011" -"G7338-MONOMER" "MTIYTLSHGSLKLDVSDQGGVIEGFWRDTTPLLRPGKKSGVATDASCFPLVPFANRVSGNRFVWQGREYQLQPNVEWDAHYLHGDGWLGEWQCVSHSDDSLCLVYEHRSGVYHYRVSQAFHLTADTLTVTLSVTNQGAETLPFGTGWHPYFPLSPQTRIQAQASGYWLEREQWLAGEFCEQLPQELDFNQPAPLPRQWVNNGFAGWNGQARIEQPQEGYAIIMETTPPAPCYFIFVSDPAFDKGYAFDFFCLEPMSHAPDDHHRPEGGDLIALAPGESTTSEMSLRVEWL" "c" "Han et al., 2011" -"G7342-MONOMER" "MPTKMRTTRNLLLMATLLGSALFARAAEKEMTIGAIYLDTQGYYAGVRQGVQDAAKDSSVQVQLIETNAQGDISKESTFVDTLVARNVDAIILSAVSENGSSRTVRRASEAGIPVICYNTCINQKGVDKYVSAYLVGDPLEFGKKLGNAAADYFIANKIDQPKIAVINCEAFEVCVQRRKGFEEVLKSRVPGAQIVANQEGTVLDKAISVGEKLIISTPDLNAIMGESGGATLGAVKAVRNQNQAGKIAVFGSDMTTEIAQELENNQVLKAVVDISGKKMGNAVFAQTLKVINKQADGEKVIQVPIDLYTKTEDGKQWLATHVDGLP" "p" "Han et al., 2011" -"G7343-MONOMER" "MTPVKVWQERVEIPTYETGPQDIHPMFLENRVYQGSSGAVYPYGVTDTLSEQKTLKSWQAVWLENDYIKVMILPELGGRVHRAWDKVKQRDFVYHNEVIKPALVGLLGPWISGGIEFNWPQHHRPTTFMPVDFTLEAHEDGAQTVWVGETEPMHGLQVMTGFTLRPDRAALEIASRVYNGNATPRHFLWWANPAVKGGEGHQSVFPPDVTAVFDHGKRAVSAFPIATGTYYKVDYSAGVDISRYKNVPVPTSYMAEKSQYDFVGAWCHDEDGGLLHVANHHIAPGKKQWSWGHSEFGQAWDKSLTDNNGPYIELMTGIFADNQPDFTWLDAYEEKRFEQYFLPYHSLGMVQNASRDAVIKLQRSKRGIEWGLYAISPLNGYRLAIREIGKCNALLDDAVALMPATAIQGVLHGINPERLTIELSDADGNIVLSYQEHQPQALPLPDVAKAPLAAQDITSTDEAWFIGQHLEQYHHASRSPFDYYLRGVALDPLDYRCNLALAMLEYNRADFPQAVAYATQALKRAHALNKNPQCGQASLIRASAYERQGQYQQAEEDFWRAVWSGNSKAGGYYGLARLAARNGNFDAGLDFCQQSLRACPTNQEVLCLHNLLLVLSGRQDNARVQREKLLRDYPLNATLWWLNWFDGRSESALAQWRGLCQGRDVNALMTAGQLINWGMPTLAAEMLNALDCQRTLPLYLQASLLPKAERGELVAKAIDVFPQFVRFPNTLEEVAALESIEECWFARHLLACFYYNKRSYNKAIAFWQRCVEMSPEFADGWRGLAIHAWNKQHDYELAARYLDNAYQLAPQDARLLFERDLLDKLSGATPEKRLARLENNLEIALKRDDMTAELLNLWHLTGQADKAADILATRKFHPWEGGEGKVTSQFILNQLLRAWQHLDARQPQQACELLHAALHYPENLSEGRLPGQTDNDIWFWQAICANAQGDETEATRCLRLAATGDRTINIHSYYNDQPVDYLFWQGMALRLLGEQQTAQQLFSEMKQWAQEMAKTSIEADFFAVSQPDLLSLYGDLQQQHKEKCLMVAMLASAGLGEVAQYESARAELTAINPAWPKAALFTTVMPFIFNRVH" "c" "Han et al., 2011" -"G7344-MONOMER" "MRACINNQQIRHHNKCVILELLYRQKRANKSTLARLAQISIPAVSNILQELESEKRVVNIDDESQTRGHSSGTWLIAPEGDWTLCLNVTPTSIECQVANACLSPKGEFEYLQIDAPTPQALLSEIEKCWHRHRKLWPDHTINLALAIHGQVDPVTGVSQTMPQAPWTTPVEVKYLLEEKLGIRVMVDNDCVMLALAEKWQNNSQERDFCVINVDYGIGSSFVINEQIYRGSLYGSGQIGHTIVNPDGVVCDCGRYGCLETVASLSALKKQARVWLKSQPVSTQLDPEKLTTAQLIAAWQSGEPWITSWVDRSANAIGLSLYNFLNILNINQIWLYGRSCAFGENWLNTIIRQTGFNPFDRDEGPSVKATQIGFGQLSRAQQVLGIGYLYVEAQLRQI" "c" "Han et al., 2011" -"G7345-MONOMER" "LKRWPVFPRSLRQLVMLAFLLILLPLLVLAWQAWQSLNALSDQAALVNRTTLIDARRSEAMTNAALEMERSYRQYCVLDDPTLAKVYQSQRKRYSEMLDAHAGVLPDDKLYQALRQDLHNLAQLQCNNSGPDAAAAARLEAFASANTEMVQATRTVVFSRGQQLQREIAERGQYFGWQSLVLFLVSLVMVLLFTRMIIGPVKNIERMINRLGEGRSLGNSVSFSGPSELRSVGQRILWLSERLSWLESQRHQFLRHLSHELKTPLASMREGTELLADQVVGPLTPEQKEVVSILDSSSRNLQKLIEQLLDYNRKQADSAVELENVELAPLVETVVSAHSLPARAKMMHTDVDLKATACLAEPMLLMSVLDNLYSNAVHYGAESGNICLRSSLHGARVYIDVINTGTPIPQEERAMIFEPFFQGSHQRKGAVKGSGLGLSIARDCIRRMQGELYLVDESGQDVCFRIELPSSKNTK" "i" "Han et al., 2011" -"G7346-MONOMER" "MALLITKKCINCDMCEPECPNEAISMGDHIYEINSDKCTECVGHYETPTCQKVCPIPNTIVKDPAHVETEEQLWDKFVLMHHADKI" "c" "Han et al., 2011" -"G7347-MONOMER" "MIKEWATVVSWQNGQALVSCDVKASCSSCASRAGCGSRVLNKLGPQTTHTIVVPCDEPLVPGQKVELGIAEGSLLSSALLVYMSPLVGLFLIASLFQLLFASDVAALCGAILGGIGGFLIARGYSRKFAARAEWQPIILSVALPPGLVRFETSSEDASQ" "c" "Han et al., 2011" -"G7348-MONOMER" "MKQLWFAMSLVTGSLLFSANASATPASGALLQQMNLASQSLNYELSFISINKQGVESLRYRHARLDNRPLAQLLQMDGPRREVVQRGNEISYFEPGLEPFTLNGDYIVDSLPSLIYTDFKRLSPYYDFISVGRTRIADRLCEVIRVVARDGTRYSYIVWMDTESKLPMRVDLLDRDGETLEQFRVIAFNVNQDISSSMQTLAKANLPPLLSVPVGEKAKFSWTPTWLPQGFSEVSSSRRPLPTMDNMPIESRLYSDGLFSFSVNVNRATPSSTDQMLRTGRRTVSTSVRDNAEITIVGELPPQTAKRIAENIKFGAAQ" "p" "EcoCyc dump" -"G7349-MONOMER" "MTENAVLQLRAERIARATRPFLARGNRVRRCQRCLLPEKLCLCSTITPAQAKSRFCLLMFDTEPMKPSNTGRLIADILPDTVAFQWSRTEPSQDLLELVQNPDYQPMVVFPASYADEQREVIFTPPAGKPPLFIMLDGTWPEARKMFRKSPYLDNLPVISVDLSRLSAYRLREAQAEGQYCTAEVAIALLDMAGDTGAAAGLGEHFTRFKTRYLAGKTQHLGSITAEQLESV" "c" "Han et al., 2011" -"G7350-MONOMER" "MSQRGLEALLRPKSIAVIGASMKPNRAGYLMMRNLLAGGFNGPVLPVTPAWKAVLGVLAWPDIASLPFTPDLAVLCTNASRNLALLEELGEKGCKTCIILSAPASQHEDLRACALRHNMRLLGPNSLGLLAPWQGLNASFSPVPIKRGKLAFISQSAAVSNTILDWAQQRKMGFSYFIALGDSLDIDVDELLDYLARDSKTSAILLYLEQLSDARRFVSAARSASRNKPILVIKSGRSPAAQRLLNTTAGMDPAWDAAIQRAGLLRVQDTHELFSAVETLSHMRPLRGDRLMIISNGAAPAALALDALWSRNGKLATLSEETCQKLRDALPEHVAISNPLDLRDDASSEHYIKTLDILLHSQDFDALMVIHSPSAAAPATESAQVLIEAVKHHPRSKYVSLLTNWCGEHSSQEARRLFSEAGLPTYRTPEGTITAFMHMVEYRRNQKQLRETPALPSNLTSNTAEAHLLLQQAIAEGATSLDTHEVQPILQAYGMNTLPTWIASDSTEAVHIAEQIGYPVALKLRSPDIPHKSEVQGVMLYLRTANEVQQAANAIFDRVKMAWPQARVHGLLVQSMANRAGAQELRVVVEHDPVFGPLIMLGEGGVEWRPEDQAVVALPPLNMNLARYLVIQGIKSKKIRARSALRPLDVAGLSQLLVQVSNLIVDCPEIQRLDIHPLLASGSEFTALDVTLDISPFEGDNESRLAVRPYPHQLEEWVELKNGERCLFRPILPEDEPQLQQFISRVTKEDLYYRYFSEINEFTHEDLANMTQIDYDREMAFVAVRRIDQTEEILGVTRAISDPDNIDAEFAVLVRSDLKGLGLGRRLMEKLITYTRDHGLQRLNGITMPNNRGMVALARKLGFNVDIQLEEGIVGLTLNLAQREES" "i" "EcoCyc dump" -"G7352-MONOMER" "MTRMKYLVAAATLSLFLAGCSGSKEEVPDNPPNEIYATAQQKLQDGNWRQAITQLEALDNRYPFGPYSQQVQLDLIYAYYKNADLPLAQAAIDRFIRLNPTHPNIDYVMYMRGLTNMALDDSALQGFFGVDRSDRDPQHARAAFSDFSKLVRGYPNSQYTTDATKRLVFLKDRLAKYEYSVAEYYTERGAWVAVVNRVEGMLRDYPDTQATRDALPLMENAYRQMQMNAQAEKVAKIIAANSSNT" "e" "EcoCyc dump" -"G7354-MONOMER" "MRFSHRLFLLLILLLTGAPILAQEPSDVAKNVRMMVSGIVSYTRWPALSGPPKLCIFSSSRFSTALQENAATSLPYLPVIIHTQQEAMISGCNGFYFGNESPTFQMELTEQYPSKALLLIAEQNTECIIGSAFCLIIHNNDVRFAVNLDALSRSGVKVNPDVLMLARKKNDG" "c" "Han et al., 2011" -"G7355-MONOMER" "MQRLEQRSPDAILLLFLIAQTVDITMPVFALLALVAYSVSLALIVPGLLQKNGGWRRMAIISAVIALVCHAIALEARILPDGDSGQNLSLLNVGSLVSLMICTVMTIVASRNRGWLLLPIVYAFALINLALATFMPNEYITHLEATPGMLVHIGLSLFSYATLIIAALYALQLAWIDYQLKNKKLAFNQEMPPLMSIERKMFHITQIGVVLLTLTLCTGLFYMHNLFSMENIDKAVLSIVAWFVYIVLLWGHYHEGWRGRRVVWFNVAGAVILTLAYFGSRIVQQLIS" "i" "Han et al., 2011" -"G7356-MONOMER" "LEHISTTTLIIILIIMVVISAYFSGSETGMMTLNRYRLRHMAKQGNRSAKRVEKLLRKPDRLISLVLIGNNLVNILASALGTIVGMRLYGDAGVAIATGVLTFVVLVFAEVLPKTIAALYPEKVAYPSSFLLAPLQILMMPLVWLLNAITRMLMRMMGIKTDIVVSGSLSKEELRTIVHESRSQISRRNQDMLLSVLDLEKMTVDDIMVPRSEIIGIDINDDWKSILRQLSHSPHGRIVLYRDSLDDAISMLRVREAWRLMSEKKEFTKETMLRAADEIYFVPEGTPLSTQLVKFQRNKKKVGLVVNEYGDIQGLVTVEDILEEIVGDFTTSMSPTLAEEVTPQNDGSVIIDGTANVREINKAFNWHLPEDDARTVNGVILEALEEIPVAGTRVRIGEYDIDILDVQDNMIKQVKVFPVKPLRESVAE" "i" "Han et al., 2011" -"G7357-MONOMER" "VPGKIAVEVAYALPEKQYLQRVTLQEGATVEEAIRASGLLELRTDIDLTKNKVGIYSRPAKLSDSVHDGDRVEIYRPLIADPKELRRQRAEKSANK" "c" "Han et al., 2011" -"G7358-MONOMER" "MILFVGFLLMEIVMPQISRTALVPYSAEQMYQLVNDVQSYPQFLPGCTGSRILESTPGQMTAAVDVSKAGISKTFTTRNQLTSNQSILMNLVDGPFKKLIGGWKFTPLSQEACRIEFHLDFEFTNKLIELAFGRVFKELAANMVQAFTVRAKEVYSAR" "c" "Han et al., 2011" -"G7359-MONOMER" "MGIFKAKNPCTKNTIFTTSNTLIYGGFMISLNDFYEQICRKRRDLAYHMSECEWAVDTDVLEEDHPEIRIELGRMREQFWSSEKIGTRVRLYSCDVPWETRHHTVNGQLEIKEEYTELYDPAQECWKNLSSNLTKETFLPLVIEPFSINDIFKAHLMFASISFFWGKSIMSENENVAFKAFHRAAELFDKCIGMTWFNISVCNQKKLSEVRRSAGKKGGKSKAEVYHIIQLKLVELINDSVPNDGWKNKVVAVNELIEPLWDFIQMSEFEINNQNKKYRVATMSQDALVDTILNQWSLKNEDVKQAFDSAVRRKKRSK" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7360-MONOMER" "MFNGRPFPVDAFPKIIRNAIYEVEQHTQAPQGLIAASALGVISLACQNRIDVCRLNNLRGPVSLFLMTLAESGERKSTVDKLLMKPLYQLEEDLFEKYTHDLTAWRNDEAIFNIEKKALMSKLKSDIRRNKDHLATNERLKELLTTNPKAPVRFKFLFNDATPAAIKAHLCGHWRSVGIMSDEAGIIFNGYTLNELPFINKMWDGSIFTVERKNEPEKLIRDARITLSLMVQPNVFKGYIDRKGDMAKGIGFFARCLMCQPASTQGNRKISNPIFSNEHLPVFHQRLMEIVNESIIKINENNRICLRFSAEAERHWIEFYNQVESEMRMIGLLYDFKDYASKMAENMARLAALLHYFSGDGGDISVTAVKAAVEIVAWYIEEYIRLFSKKEEFSLDVSEADELYCWIKDYCTQKFSSCIKKNIILQFGPNKFRNRDKANELIRILISQNKIFISSWGKTKIINITHCVF" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7361-MONOMER" "MTYDSEFGSHVSLYRDRIKQVIDDSLNEHLNSMILRVDLHDPIDTENMDNPFFQPRVDSGAISRFTSALKAKLKHDKHIKTQRKDWPDSRHSTLRYAWVREYTKNRKRHYHLILCFNQDAYYHLGDYDLNRNTLRTMITTAWYSALGIPIDSSGKLVNYPPNGKYLLNRKRDNFEQTYSDLMNRVDYMTKVRTKIVGDGDRNFGCSRG" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7362-MONOMER" "MTEIYEQAKHSLQGEDFSSFNYLFAVNKLLSNPVSYDLGRDLIVRALDSRERFSEHTTILKNMVRKSGLFPYLKKEFTSLTPDDLRVLELYRTPFSDGYVFHSMQFHIFDLLKSGQNVVLSAPTSMGKSAIVDSLLGMGTLKRLVLVVPTVALADETRRRLQERFGDRYQIIHHSSQVCHSDQAVYVLTQERVNERDDIVDIDLFVIDEFYKLAFRQLKSGDIDHQDERVIELNIALSKLLKVSRQFYLTGPFVNSIRGLEKLGYPHTFVSTDFNTVALDVKTFGIKANDDKAKLKALGEIAHACVDATIIYCKSPTVAGLVARELIRLGHGTPTENPHVDWVSEEFDADWDYTVALRNGIGLHFGALPRALQQYTADQFNAGKLRFLLCTSTIIEGVNTIAKNVVIYDNRDGTRSIDKFTHGNIKGRAGRMGVHFVGKIFCLEEIPEDNLNQEVDIPLGIQGIDTPINLLASVQPDHLSEFSQDRFDEVFINDRVSIDLVKKHSYFRVEQFEMLQSMFEMMDDNEFSSLVFHWTPATNFLKTFAKIIARLVPHTFSRNGVPVKPTDVMIAKLAGYLSAESYSEYLKNQIDYARQWISEGEKRTLSIALNNDLKLITNTFGYTLPKVLSLMEDVVKHHAVKRGIRSKVDYTHVKLAFESFHLPPGVNALEEIGIPIQTLHRLVDLLEFSDEADVDELSQYLRDTQDIWSRSIGYVDQMFIRRALGIRRH" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7363-MONOMER" "MESNDSGGVAAKHGFLFQDCVAAYHVTRMLRDKTIRSVRCEVTDDIDIVSDGYIDFVQVKSTGKTRWNISDIVQNSKGADKKTIPCSSILHKSMQCESDLSLGRRYSIVTEEKVNKTLEYLTISPNARLDKPGRQELIDDLNKRTDNFLTDSGISVSDWIDAATWEVFSSLRELELLGIKNIRLASQDLHGVILSSETVAEDIWCRILDTVTRKGEHSRRIHSADDKSYLRPDLLEWFKQRVEDDQSRSGRKIYVKRDLPHILTPFRAPMASVCAKRKGQVLHQQYSLKKYRYKHIADNVCQWLDEVFLRPKEMSDIHKLTFIEKRERLKNSVFKSLHDVSEFLGRVLLHATIRQHHESQPIPCMLYVEKAGAEKILENVHIVRRDPEGDQLWIGFSELVTDINIAVRLPEIRDQLYEDISDCIDTARKKILDIKDDNYLLRHDIDEILDGSQPFDAHLDRFTFVLFVGYDSNLLTEPETPGFEDDLEKETAVLFEKFAADLIEDSPFANLCIHVFIYPAPSLERLTQLVDEKVREVV" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7364-MONOMER" "MGDDVHRFGNLFLISPSSNSILSNYSPADKKKFYVETERAESPKQAIMMSYKEWGPDGQGINNIESHEHAMLTLLKEHRDMTLPTRK" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7365-MONOMER" "MTIRSYKNLNLVRANIETESRQFIENKNYSIQSIGPMPGSRAGLRVVFTRPGVNLATVDIFYNGDGSTTIQYLTGANRSLGQELADHLFETINPAEFEQVNMVLQGFVETSVLPVLELSADESHIEFREHSRNAHTVVWKIISTSYQDELTVSLHITTGKLQIQGRPLSCYRVFTFNLAALLDLQGLEKVLIRQEDGKANIVQQEVARTYLQTVMADAYPHLHVTAEKLLVSGLCVKLAAPDLPDYCMLLYPELRTIEGVLKSKMSGLGMPVQQPAGFGTYFDKPAAHYILKPQFAATLRPEQINIISTAYTFFNVERHSLFHMETVVDASRMISDMARLMGKATRAWGIIKDLYIV" "c" "EcoCyc dump" -"G7366-MONOMER" "LFEITGINVSGALKAVVMATGFENPLSSVNEIETKLSALLGSETTGEILFDLLCANGPEWNRFVTLEMKYGRIMLDTAKIIDEQDVPTHILSKLTFTLRNHPEYLEASVLSPDDVRQVLSMDF" "c" "EcoCyc dump" -"G7367-MONOMER" "MKNFEVLQPLQNSLSGLPLWVSERILQQINQLTHYEPVIGIMGKTGAGKSSLCNALFAGEVSPVSDVAACTRDPLRFRLQIGEHFMTIVDLPGVGESGVRDTEYAALYREQLPRLDLILWLIKADDRALATDEHFYRQVIGEAYRHKMLFVISQSDKAEPTSGGNILSTEQKQNISRKICLLHELFQPVHPVCAVSVRLQWGLRVMAERMIKCLPREASSPVVALLQHPFRTTVAREQARDDFGETVGAILDTVSTFPLIPAPVRTIIQAVRSSVVSVARAVWDFFF" "c" "Unambiguous EcoCyc data" -"G7368-MONOMER" "MTRLASRFGAANLIRRDRPLTREELFRVVPSVFSEDKHESRSERYTYIPTISLLDSLQREGFQPFFACQTRVRDPRRREHTKHMLRLRREGQITGKQVPEIILLNSHDGTSSYQMLPGMFRAVCQNGLVCGESFGEVRVPHKGDVVSQVIEGAYEVLGIFERVEEKRDAMQSLLLPPPVQQALAKAALTYRFGEDHQPVTESQILSPRRWQDESNDLWTTYQRIQENLIKGGLSGRNAKGGRTHTRAVRGIDGDVKLNRALWVMAETLLTQLQ" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7369-MONOMER" "MTQAERRHDRLAVRLSLIISRLVAGETLSVRKLAAEFGVSVRTLRRDFRERLMYLDLEYQSGYCRLRTAGSEMQMVPDVLIFAHRSGLAGLFPGLDRRLVNALLMCDESPCVIAPANPVPSPSGALSFWRLIQAITGRRRVTLIAEGRRCERLAPCRLLIHQQTWYLVAEHEGHIAVFTLDEIHLIQPLQETFRRNDSLCRLVEDPVFIQALPHFRFIQHSLLTFVPADSPPE" "m" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7370-MONOMER" "VPVIAIIAIVIIVIILNKTGVSDSLTALTLATVAALLTGGGAAGAASVALTPFVGVPVGIFVGIYVFAKVVRLISGKK" "m" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7371-MONOMER" "MKRKTLPLLALVATSLFLSACDDRSDDLKAISKFKDLTPPRFSDVVSRQDDVSEEWSQVGFSSGLTLQVLRTRESPDGCEGGSYYYLVDMEEKTVQPLMNALCIADNIKLEYHEVTDPYTKEKYFEYSHDGKLMGRLLIPSNPDNRE" "i" "Unambiguous EcoCyc data" -"G7372-MONOMER" "MKIRSLSRFVLASTMFASFTASAVPGLWQQGYGQGNAEYSVTDASGKMFTINCTGNPDQNGIYQHSVFLILAGDKTVSSHDDSTGITVVMDHKQYAIPSTLGWRNGDNAWFSFIMDIRKARQFDVYVNDQKVGSFNPDVRNAQKVLPTLADCTND" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7373-MONOMER" "MSNITIYHNPACGTSRNTLEMLHNNGNEPTIINYLDMPPTRDELIKLISDIFSDKIIECIREQCHLMPALSLNVIGHVDIRSIHSYLFNFNEKVSPSHGFIKNG" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7374-MONOMER" "VLFVVAKRGHSINTGKVLRGAPWQIVIFSLGMYIVVYGLRNAGFTEYLSGVLNLLADKGLWAATFGTGFLTAFLSSVMNNMPTVLIGALSIDGSTATGVVKEAMIYANVIGCDLGPKITPIGSLATLLWLHVLAQKNMTITWGYYFRTGIVMTVPVLFVTLAALAWRLSVTL" "i" "Unambiguous EcoCyc data" -"G7375-MONOMER" "MAAGFIADTASLPLIVSNLVNIVSADFFGLSFAQYASVMISVDAAAIAATLIMLYLFFRRVIPATY" "i" "Unambiguous EcoCyc data" -"G7376-MONOMER" "LLGAAVDALFANDGAALILTPIVIAMLIALGSARARHWPLSWLQDLLQIRPACRSLFLTW" "i" "Unambiguous EcoCyc data" -"G7377-MONOMER" "MAFVSEREIVRKIFSKKIDFTILAFFYISSIFFLLCSGVLFQYFTAAFTKGNCYECSMKLDYIKQFYFSLETAWYLISAVAVFIASVFIQHRIKAYLTLLAITWIVLTITDVALIHALDNIAMNNILLNILYNLFGAILLSLFMCLSNSLLFHLNKIKHIPMILSAMIPLVSAIIIAILITAVIYLLFARQAVEIEMDISEGSDIAYVGVKDNEESFGFLNDKKTDTPTYLDVIKNGSLIYNDTQGLSGADIYIVSGCYALPDLLRNVPLDAKKSFLNVKKLEITQKLPMMGFIQGESADVMPKAASRLSLSKQDDKFMLASSVTDSQIKFKSNNAQLMVAFAFMPITTNGILHDYTYDIIINDKKYKIENHVAPLSRLDKNKKMKCEYQQISDLTNTYNINANYLTGFLLVLKPDDIINYNNSPSVLLKTDFAFYKKTYQKLDKIYDDISNGKLSSLRATGISQFSINGKHLSLRPESEIIISEGSLYGLVNKSKKIKIYGTADLVFVDNKIMNLRKITYLQSKLEIFGSSIMDILKYIFGLGLLAISIKFIHSYFKNDVNENLFL" "i" "Unambiguous EcoCyc data" -"G7378-MONOMER" "MTTQTQYDLVPANGSEFELSVTQVPDEQHIRFWPQHFGTIPQWITLEPRIFAWMDRFCDEYCGGIWSFYTLSNGGAFMAPDADGDDKWHLLNGMNGNGAEMSAEAAGIAVCLIEYSHHACLTECDAMTEHYYRLRDYALQHPESSAIMRIID" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7379-MONOMER" "MMEQSLIPQTPVLPLTAQRTVKRALTLLDRHLRETGVAFTSTQAARDWLKLKMAGLEREEFMMLYLNQQNQLIAHETLFAGSISSTEVHPREVVKRALYFNAAAVILAHNHPSGDTTPSQADKTITQRLVQALQLVDIRVPDHLIVGGRQIYSFAEHGLL" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7380-MONOMER" "MSNTTWGLQRDITPRLGARLVQEGNQLHYLADRASITGKFSDAECPKLDVVFPHFISQIESMLTTGELNPRHAQCVTLYHNGFTCEADTLGSCGYVYIAVYPTQR" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7381-MONOMER" "MNTLPATISQAAKPCLSPVAVWQMLLTRLLEQHYGLTLNDTPFSDETVIKEHIDAGITLADAVNFLVEKYELVRIDHRGFSWQQQSPYISVVDILRARRSTGLLKTNVK" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7382-MONOMER" "MNRTSPYYCRRSVLSLLISALIYAPPGMAAFTTNVIGVVNDETVDGNQKVDERGTTNNTHIINHGQQNVHGGVSNGSLIESGGYQDIGSHNNFVGQANNTTINGGRQSIHDGGISTGTTIESGNQDVYKGGISNGTTIKGGASRVEGGSANGILIDGGSQIVKVQGHADGTTINKSGSQDVVQGSLATNTTINGGRQYVEQSTVETTTIKNGGEQRVYESRALDTTIEGGTQSLNSKSTAKNTHIYSGGTQIVDNTSTSDVIEVYSGGVLDVRGGTATNVTQHDGAILKTNTNGTTVSGTNSEGAFSIHNHVADNVLLENGGHLDINAYGSANKTIIKDKGTMSVLTNAKADATRIDNGGVMDVAGNATNTIINGGTQNINNYGIATGTNINSGTQNIKSGGKADTTIISSGSRQVVEKDGTAIGSNISAGGSLIVYTGGIAHGVNQETGSALVANTGAGTDIEGYNKLSHFTITGGEANYVVLENTGELTVVAKTSAKNTTIDTGGKLIVQKEAKTDSTRLNNGGVLEVQDGGEAKHVEQQSGGALIASTTSGTLIEGTNSYGDAFYIRNSEAKNVVLENAGSLTVVTGSRAVDTIINANGKMDVYGKDVGTVLNSAGTQTIYASATSDKANIKGGKQTVYGLATEANIESGEQIVDGGSTEKTHINGGTQTVQNYGKAINTDIVSGLQQIMANGTAEGSIINGGSQVVNEGGLAENSVLNDGGTLDVREKGSATGIQQSSQGALVATTRATRVTGTRADGVAFSIEQGAANNILLANGGVLTVESDTSSDKTQVNMGGREIVKTKATATGTTLTGGEQIVEGVANETTINDGGIQTVSANGEAIKTKINEGGTLTVNDNGKATDIVQNSGAALQTSTANGIEISGTHQYGTFSISGNLATNMLLENGGNLLVLAGTEARDSTVGKGGAMQNLGQDSATKVNSGGQYTLGRSKDEFQALARAEDLQVAGGTAIVYAGTLADASVSGATGSLSLMTPRDNVTPVKLEGAVRITDSATLTLGNGVDTTLADLTAASRGSVWLNSNNSCAGTSNCEYRVNSLLLNDGDVYLSAQTAAPATTNGIYNTLTTNELSGSGNFYLHTNVAGSRGDQLVVNNNATGNFKIFVQDTGVSPQSDDAMTLVKTGGGDASFTLGNTGGFVDLGTYEYVLKSDGNSNWNLTNDVKPNPDPIPNPKPDPKPDPKPDPNPKPDPTPDPTPTPVPEKRITPSTAAVLNMAATLPLVFDAELNSIRERLNIMKASPHNNNVWGATYNTRNNVTTDAGAGFEQTLTGMTVGIDSRNDIPEGITTLGAFMGYSHSHIGFDRGGHGSVGSYSLGGYASWEHESGFYLDGVVKLNRFKSNVAGKMSSGGAANGSYHSNGLGGHIETGMRFTDGNWNLTPYASLTGFTADNPEYHLSNGMKSKSVDTRSIYRELGATLSYNMRLGNGMEVEPWLKAAVRKEFVDDNRVKVNSDGNFVNYLSGRRGIYQAGIKASFSSTLSGHLGVGYSHSAGVESPWNAVAGVNWSF" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7383-MONOMER" "MWHLVVLLEELCERGINFRALAQSIFAQQWGDECCKSKTICDLKVIV" "m" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7384-MONOMER" "MESRNSYENKIDEISSLSESKEHPIDIQEKKDAFVNEFKGVLFDKNTRSSELLFNFYECCYKFLPRAQPQDKIDSYNSALQAFSIFCSSTLTHNNIGFDFKLFPEVKLSGEHLETVFKYKNGDDVREIAKINITLQKEEGGLYNLRGLDFKGCFFSGQNFSNYDIQYVNWGTSLFDVDTPCIFNAPAYNKSNEKSLKPVSENGLSGVLTDRNNKIKLITGVAPFDDILFMDDDFDDSSSEDDPVENSPVVTSPVVSSSKSSFQ" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7385-MONOMER" "MLVSKSNGFNASAVLGSGSYNENKSSKHMELLAHSILKLICKEAASETYRGALETLQKMMSECIYQEGNAFVIMGAGEQLKRIKYEVGENNLKVFNVHFNNNHELVSSGEPDVICLSKQVWENLLIKLKLENNENVFSETKKLSNKNNADQFFECAKRNE" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7389-MONOMER" "MFSIKPGPRNLPIDNPTLLSWNITDGDLNSKLNTLEYLNCITNIINSCGVYPQGLKDREIISTFHAEKVINDLLKNDYKISLSPDTTYRELNKAAQRSITAPDRIGERKT" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7390-MONOMER" "MIERGDNSGVYQYGRAEHFTHIISDKPSPKDKYVAYAINIPDYELAADVYNINVTSPSGQQETFKILINLEHLRQTLERKSLTAVQKSQCEIITPKKPGEAILHAFNATYQQIRENMSEFARCHYGYIQIPPVTTFRADGPETPEEEKGYWFHAYQPEDLCTIHNPMGDLQDFIALVKDAKKFGIDIIPDYTFNFMGIGGSGKNDLDYPSADIRAKISKDIEGGIPGY" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7392-MONOMER" "MLQNQYVREMRKYGVRGLRYDAAKHSKHEQIERSITPPLKNYNERLHNTNLFNPKYHKKAVMNYMEYLVTCQLDEQQMSSLLYERDDLSAIDFSLLMKTIKAFSFGGDLQTLASKPGSTISSIPSERRILININHDFPNNGNLFNDFLFNHQQDEQLAMAYIAALPFSRPLVYWDGQVLKSTTEIKNYDGSTRVGGEA" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7393-MONOMER" "VNINHSPHDGLVIINKGNEEVEGTWPNKLQPGIYKNMGSNSVNIIINNTRKIIPPGKVFTLRGGTLNINIPGRSALLLGKTGEPPNYLYL" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7394-MONOMER" "MNALTAVQNNAVDSGQDYSGFTLTPSAQSPRLLELTFTEQTTKQFLEQVAEWPVQALEYKSFLRFRVAKILDDLCANQLQPLLLKTLLNRAEGALLINAVGVDDVKQADEMVKLATAVAHLIGRSNFDAMSGQYYARFVVKNVDNSDSYLRQPHRVMELHNDGTYVEEITDYVLMMKIDEQNMQGGNSLLLHLDDWEHLDNYFRHPLARRPMRFAAPPSKNVSKDVFHPVFDVDQQGRPVMRYIDQFVQPKDFEEGVWLSELSDAIETSKGILSVPVPVGKFLLINNLFWLHGRDRFTPHPDLRRELMRQRGYFAYASNHYQTHQ" "c" "Han et al., 2011" -"G7395-MONOMER" "MGLFNFVKDAGEKLWDAVTGQHDKDDQAKKVQEHLNKTGIPDADKVNIQIADGKATVTGDGLSQEAKEKILVAVGNISGIASVDDQVKTATPATASQFYTVKSGDTLSAISKQVYGNANLYNKIFEANKPMLKSPDKIYPGQVLRIPEE" "i" "Han et al., 2011" -"G7396-MONOMER" "MGFWRIVITIILPPLGVLLGKGFGWAFIINILLTLLGYIPGLIHAFWVQTRD" "i" "Han et al., 2011" -"G7397-MONOMER" "MTELAQLQASAEQAAALLKAMSHPKRLLILCMLSGSPGTSAGELTRITGLSASATSQHLARMRDEGLIDSQRDAQRILYSIKNEAVNAIIATLKNVYCP" "c" "Han et al., 2011" -"G7398-MONOMER" "MALTTISPHDAQELIARGAKLIDIRDADEYLREHIPEADLAPLSVLEQSGLPAKLRHEQIIFHCQAGKRTSNNADKLAAIAAPAEIFLLEDGIDGWKKAGLPVAVNKSQPLPLMRQVQIAAGGLILIGVVLGYTVNSGFFLLSGFVGAGLLFAGISGFCGMARLLDKMPWNQRA" "c" "Han et al., 2011" -"G7399-MONOMER" "MFSPQSRLRHAVADTFAMVVYCSVVNMCIEVFLSGMSFEQSFYSRLVAIPVNILIAWPYGMYRDLFMRAARKVSPSGWIKNLADILAYVTFQSPVYVAILLVVGADWHQIMAAVSSNIVVSMLMGAVYGYFLDYCRRLFKVSRYQQVKA" "i" "Han et al., 2011" -"G7401-MONOMER" "MRITIYTRNDCVQCHATKRAMENRGFDFEMINVDRVPEAAEALRAQGFRQLPVVIAGDLSWSGFRPDMINRLHPAPHAASA" "c" "Han et al., 2011" -"G7402-MONOMER" "MSQLVYFSSSSENTQRFIERLGLPAVRIPLNERERIQVDEPYILIVPSYGGGGTAGAVPRQVIRFLNDEHNRALLRGVIASGNRNFGEAYGRAGDVIARKCGVPWLYRFELMGTQSDIENVRKGVTEFWQRQPQNA" "c" "Han et al., 2011" -"G7404-MONOMER" "MILGTALTGLFSVVAQILVPLAATLASPDKRGKVVGTIMSGLLLGILLARTVAGLLANLGGWRTVFWVASVLMALMALALWRGLPQMKSETHLNYPQLLGSVFSMFISDKILRTRALLGCLTFANFSILWTSMAFLLAAPPFNYSDGVIGLFGLAGAAGALGARPAGGFADKGKSHHTTTFGLLLLLLSWLAIWFGHTSVLALIIGILVLDLTVQGVHITNQTVIYRIHPDARNRLTAGYMTSYFIGGAAGSLISASAWQHGGWAGVCLAGATIALVNLLVWWRGFHRQEAAN" "i" "Unambiguous EcoCyc data" -"G7405-MONOMER" "MESPTPQPAPGSATFMEGCKDSLPIVISYIPVAFAFGLNATRLGFSPLESVFFSCIIYAGASQFVITAMLAAGSSLWIAALTVMAMDVRHVLYGPSLRSRIIQRLQKSKTALWAFGLTDEVFAAATAKLVRNNRRWSENWMIGIAFSSWSSWVFGTVIGAFSGSGLLQGYPAVEAALGFMLPALFMSFLLASFQRKQSLCVTAALVGALAGVTLFSIPVAILAGIVCGCLTALIQAFWQGAPDEL" "i" "Han et al., 2011" -"G7406-MONOMER" "MSYEVLLLGLLVGVANYCFRYLPLRLRVGNARPTKRGAVGILLDTIGIASICALLVVSTAPEVMHDTRRFVPTLVGFAVLGASFYKTRSIIIPTLLSALAYGLAWKVMAII" "i" "Han et al., 2011" -"G7407-MONOMER" "VSEALSLFSLFASSFLSATLLPGNSEVVLVAMLLSGISHPWVLVLTATMGNSLGGLTNVILGRFFPLRKTSRWQEKATGWLKRYGAVTLLLSWMPVVGDLLCLLAGWMRISWGPVIFFLCLGKALRYVAVAAATVQGMMWWH" "i" "Han et al., 2011" -"G7408-MONOMER" "MYERYAGLIFDMDGTILDTEPTHRKAWREVLGHYGLQYDIQAMIALNGSPTWRIAQAIIELNQADLDPHALAREKTEAVRSMLLDSVEPLPLVDVVKSWHGRRPMAVGTGSESAIAEALLAHLGLRHYFDAVVAADHVKHHKPAPDTFLLCAQRMGVQPTQCVVFEDADFGIQAARAAGMDAVDVRLL" "c" "Han et al., 2011" -"G7409-MONOMER" "MTDSELMQLSEQVGQALKARGATVTTAESCTGGWVAKVITDIAGSSAWFERGFVTYSNEAKAQMIGVREETLAQHGAVSEPVVVEMAIGALKAARADYAVSISGIAGPDGGSEEKPVGTVWFAFATARGEGITRRECFSGDRDAVRRQATAYALQTLWQQFLQNT" "c" "Han et al., 2011" -"G7410-MONOMER" "MFKRRYVTLLPLFVLLAACSSKPKPTETDTTTGTPSGGFLLEPQHNVMQMGGDFANNPNAQQFIDKMVNKHGFDRQQLQEILSQAKRLDSVLRLMDNQAPTTSVKPPSGPNGAWLRYRKKFITPDNVQNGVVFWNQYEDALNRAWQVYGVPPEIIVGIIGVETRWGRVMGKTRILDALATLSFNYPRRAEYFSGELETFLLMARDEQDDPLNLKGSFAGAMGYGQFMPSSYKQYAVDFSGDGHINLWDPVDAIGSVANYFKAHGWVKGDQVAVMANGQAPGLPNGFKTKYSISQLAAAGLTPQQPLGNHQQASLLRLDVGTGYQYWYGLPNFYTITRYNHSTHYAMAVWQLGQAVALARVQ" "o" "Han et al., 2011" -"G7413-MONOMER" "MSIVVKNNIHWVGQRDWEVRDFHGTEYKTLRGSSYNSYLIREEKNVLIDTVDHKFSREFVQNLRNEIDLADIDYIVINHAEEDHAGALTELMAQIPDTPIYCTANAIDSINGHHHHPEWNFNVVKTGDTLDIGNGKQLIFVETPMLHWPDSMMTYLTGDAVLFSNDAFGQHYCDEHLFNDEVDQTELFEQCQRYYANILTPFSRLVTPKITEILGFNLPVDMIATSHGVVWRDNPTQIVELYLKWAADYQEDRITIFYDTMSNNTRMMADAIAQGIAETDPRVAVKIFNVARSDKNEILTNVFRSKGVLVGTSTMNNVMMPKIAGLVEEMTGLRFRNKRASAFGSHGWSGGAVDRLSTRLQDAGFEMSLSLKAKWRPDQDALKLCREHGREIARQWALAPLPQSTVNTVVKEETSATTTADLGPRMQCSVCQWIYDPAKGEPMQDVAPGTPWSEVPDNFLCPECSLGKDVFEELASEAK" "c" "Han et al., 2011" -"G7414-MONOMER" "VTDVLLCVGNSMMGDDGAGPLLAEKCAAAPKGNWVVIDGGSAPENDIVAIRELRPTRLLIVDATDMGLNPGEIRIIDPDDIAEMFMMTTHNMPLNYLIDQLKEDIGEVIFLGIQPDIVGFYYPMTQPIKDAVETVYQRLEGWEGNGGFAQLAVEEE" "c" "Han et al., 2011" -"G7415-MONOMER" "MPSTRYQKINAHHYRHIWVVGDIHGEYQLLQSRLHQLSFFPKIDLLISVGDNIDRGPESLDVLRLLNQPWFTSVKGNHEAMALEAFETGDGNMWLASGGDWFFDLNDSEQQEAIDLLLKFHHLPHIIEITNDNIKYAIAHADYPGSEYLFGKEIAESELLWPVDRVQKSLNGELQQINGADYFIFGHMMFDNIQTFANQIYIDTGSPNSGRLSFYKIK" "c" "Han et al., 2011" -"G7416-MONOMER" "MSAGQRKEQKLIPVERRQIILEMVAEKGIVSIAELTDRMNVSHMTIRRDLQKLEQQGAVVLVSGGVQSPGRVAHEPSHQVKTALAMTQKAAIGKLAASLVQPGSCIYLDAGTTTLAIAQHLIHMESLTVVTNDFVIADYLLDNSNCTIIHTGGAVCRENRSCVGEAAATMLRSLMIDQAFISASSWSVRGISTPAEDKVTVKRAIASASRQRVLVCDATKYGQVATWLALPLSEFDQIITDDGLPESASRALVKQDLSLLVAKNE" "c" "Han et al., 2011" -"G7417-MONOMER" "MKTGSEFHVGIVGLGSMGMGAALSYVRAGLSTWGADLNSNACATLKEAGACGVSDNAATFAEKLDALLVLVVNAAQVKQVLFGETGVAQHLKPGTAVMVSSTIASADAQEIATALAGFDLEMLDAPVSGGAVKAANGEMTVMASGSDIAFERLAPVLEAVAGKVYRIGAEPGLGSTVKIIHQLLAGVHIAAGAEAMALAARAGIPLDVMYDVVTNAAGNSWMFENRMRHVVDGDYTPHSAVDIFVKDLGLVADTAKALHFPLPLASTALNMFTSASNAGYGKEDDSAVIKIFSGITLPGAKS" "c" "Han et al., 2011" -"G7418-MONOMER" "MIKIGVIADDFTGATDIASFLVENGLPTVQINGVPTGKMPEAIDALVISLKTRSCPVVEATQQSLAALSWLQQQGCKQIYFKYCSTFDSTAKGNIGPVTDALMDALDTPFTVFSPALPVNGRTVYQGYLFVMNQLLAESGMRHHPVNPMTDSYLPRLVEAQSTGRCGVVSAHVFEQGVDAVRQELARLQQEGYRYAVLDALTEHHLEIQGEALRDAPLVTGGSGLAIGLARQWAQENGNQARKAGRPLAGRGVVLSGSCSQMTNRQVAHYRQIAPAREVDVARCLSIETLAAYAHELAEWVLGQESVLAPLVFATASTDALAAIQQQYGAQKASQAVETLFSQLAARLAAEGVTRFIVAGGETSGVVTQSLGIKGFHIGPTISPACRG" "c" "Han et al., 2011" -"G7419-MONOMER" "MSDFAKVEQSLREEMTRIASSFFQRGYATGSAGNLSLLLPDGNLLATPTGSCLGNLDPQRLSKVAADGEWLSGDKPSKEVLFHLALYRNNPRCKAVVHLHSTWSTALSCLQGLDSSNVIRPFTPYVVMRMGNVPLVPYYRPGDKRIAQDLAELAADNQAFLLANHGPVVCGESLQEAANNMEELEETAKLIFILGDRPIRYLTAGEIAELRS" "c" "Han et al., 2011" -"G7420-MONOMER" "MPRFAANLSMMFTEVPFIERFAAARKAGFDAVEFLFPYNYSTLQIQKQLEQNHLTLALFNTAPGDINAGEWGLSALPGREHEAHADIDLALEYALALNCEQVHVMAGVVPAGEDAERYRAVFIDNIRYAADRFAPHGKRILVEALSPGVKPHYLFSSQYQALAIVEEVARDNVFIQLDTFHAQKVDGNLTHLIRDYAGKYAHVQIAGLPDRHEPDDGEINYPWLFRLFDEVGYQGWIGCEYKPRGLTEEGLGWFDAWR" "c" "Han et al., 2011" -"G7422-MONOMER" "MIEFDNLTYLHGKPQGTGLLKANPEDFVVVEDLGFEPDGEGEHILVRILKNGCNTRFVADALAKFLKIHAREVSFAGQKDKHAVTEQWLCARVPGKEMPDLSAFQLEGCQVLEYARHKRKLRLGALKGNAFTLVLREVSNRDDVEQRLIDICVKGVPNYFGAQRFGIGGSNLQGAQRWAQTNTPVRDRNKRSFWLSAARSALFNQIVAERLKKADVNQVVDGDALQLAGRGSWFVATTEELAELQRRVNDKELMITAALPGSGEWGTQREALAFEQAAVAAETELQALLVREKVEAARRAMLLYPQQLSWNWWDDVTVEIRFWLPAGSFATSVVRELINTTGDYAHIAE" "c" "Han et al., 2011" -"G7423-MONOMER" "MATTHLDVCAVVPAAGFGRRMQTECPKQYLSIGNQTILEHSVHALLAHPRVKRVVIAISPGDSRFAQLPLANHPQITVVDGGDERADSVLAGLKAAGDAQWVLVHDAARPCLHQDDLARLLALSETSRTGGILAAPVRDTMKRAEPGKNAIAHTVDRNGLWHALTPQFFPRELLHDCLTRALNEGATITDEASALEYCGFHPQLVEGRADNIKVTRPEDLALAEFYLTRTIHQENT" "c" "Han et al., 2011" -"G7424-MONOMER" "MGKLTLLLLAILVWLQYSLWFGKNGIHDYTRVNDDVAAQQATNAKLKARNDQLFAEIDDLNGGQEALEERARNELSMTRPGETFYRLVPDASKRAQSAGQNNR" "i" "Han et al., 2011" -"G7425-MONOMER" "MTWLPLNPIPLKDRVSMIFLQYGQIDVIDGAFVLIDKTGIRTHIPVGSVACIMLEPGTRVSHAAVRLAAQVGTLLVWVGEAGVRVYASGQPGGARSDKLLYQAKLALDEDLRLKVVRKMFELRFGEPAPARRSVEQLRGIEGSRVRATYALLAKQYGVTWNGRRYDPKDWEKGDTINQCISAATSCLYGVTEAAILAAGYAPAIGFVHTGKPLSFVYDIADIIKFDTVVPKAFEIARRNPGEPDREVRLACRDIFRSSKTLAKLIPLIEDVLAAGEIQPPAPPEDAQPVAIPLPVSLGDAGHRSS" "c" "Unambiguous EcoCyc data" -"G7426-MONOMER" "MYLSKVIIARAWSRDLYQLHQGLWHLFPNRPDAARDFLFHVEKRNTPEGCHVLLQSAQMPVSTAVATVIKTKQVEFQLQVGVPLYFRLRANPIKTILDNQKRLDSKGNIKRCRVPLIKEAEQIAWLQRKLGNAARVEDVHPISERPQYFSGDGKSGKIQTVCFEGVLTINDAPALIDLVQQGIGPAKSMGCGLLSLAPL" "c" "EcoCyc dump" -"G7427-MONOMER" "MRSYLILRLAGPMQAWGQPTFEGTRPTGRFPTRSGLLGLLGACLGIQRDDTSSLQALSESVQFAVRCDELILDDRRVSVTGLRDYHTVLGAREDYRGLKSHETIQTWREYLCDASFTVALWLTPHATMVISELEKAVLKPRYTPYLGRRSCPLTHPLFLGTCQASDPQKALLNYEPVGGDIYSEESVTGHHLKFTARDEPMITLPRQFASREWYVIKGGMDVSQ" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7428-MONOMER" "MSNFINIHVLISHSPSCLNRDDMNMQKDAIFGGKRRVRISSQSLKRAMRKSGYYAQNIGESSLRTIHLAQLRDVLRQKLGERFDQKIIDKTLALLSGKSVDEAEKISADAVTPWVVGEIAWFCEQVAKAEADNLDDKKLLKVLKEDIAAIRVNLQQGVDIALSGRMATSGMMTELGKVDGAMSIAHAITTHQVDSDIDWFTAVDDLQEQGSAHLGTQEFSSGVFYRYANINLAQLQENLGGASREQALEIATHVVHMLATEVPGAKQRTYAAFNPADMVMVNFSDMPLSMANAFEKAVKAKDGFLQPSIQAFNQYWDRVANGYGLNGAAAQFSLSDVDPITAQVKQMPTLEQLKSWVRNNGEA" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7429-MONOMER" "MADEIDAMALYRAWQQLDNGSCAQIRRVSEPDELRDIPAFYRLVQPFGWENPRHQQALLRMVFCLSAGKNVIRHQDKKSEQTTGISLGRALANSGRINERRIFQLIRADRTADMVQLRRLLTHAEPVLDWPLMARMLTWWGKRERQQLLEDFVLTTNKNA" "c" "EcoCyc dump" -"G7430-MONOMER" "MNLLIDNWIPVRPRNGGKVQIINLQSLYCSRDQWRLSLPRDDMELAALALLVCIGQIIAPAKDDVEFRHRIMNPLTEDEFQQLIAPWIDMFYLNHAEHPFMQTKGVKANDVTPMEKLLAGVSGATNCAFVNQPGQGEALCGGCTAIALFNQANQAPGFGGGFKSGLRGGTPVTTFVRGIDLRSTVLLNVLTLPRLQKQFPNESHTENQPTWIKPIKSNESIPASSIGFVRGLFWQPAHIELCDPIGIGKCSCCGQESNLRYTGFLKEKFTFTVNGLWPHPHSPCLVTVKKGEVEEKFLAFTTSAPSWTQISRVVVDKIIQNENGNRVAAVVNQFRNIAPQSPLELIMGGYRNNQASILERRHDVLMFNQGWQQYGNVINEIVTVGLGYKTALRKALYTFAEGFKNKDFKGAGVSVHETAERHFYRQSELLIPDVLANVNFSQADEVIADLRDKLHQLCEMLFNQSVAPYAHHPKLISTLALARATLYKHLRELKPQGGPSNG" "c" "EcoCyc dump" -"G7431-MONOMER" "MMSTTLFKDFTFEAAHRLPHVPEGHKCGRLHGHSFMVRLEITGEVDPHTGWIIDFAELKAAFKPTYERLDHHYLNDIPGLENPTSEVLAKWIWDQVKPVVPLLSAVMVKETCTAGCIYRGE" "c" "Han et al., 2011" -"G7432-MONOMER" "MEDDCDIIIIGAGIAGTACALRCARAGLSVLLLERAEIPGSKNLSGGRLYTHALAELLPQFHLTAPLERRITHESLSLLTPDGVTTFSSLQPGGESWSVLRARFDPWLVAEAEKEGVECIPGATVDALYEENGRVCGVICGDDILRARYVVLAEGANSVLAERHGLVTRPAGEAMALGIKEVLSLETSAIEERFHLENNEGAALLFSGRICDDLPGGAFLYTNQQTLSLGIVCPLSSLTQSRVPASELLTRFKAHPAVRPLIKNTESLEYGAHLVPEGGLHSMPVQYAGNGWLLVGDALRSCVNTGISVRGMDMALTGAQAAAQTLISACQHREPQNLFPLYHHNVERSLLWDVLQRYQHVPALLQRPGWYRTWPALMQDISRDLWDQGDKPVPPLRQLFWHHLRRHGLWHLAGDVIRSLRCL" "c" "Han et al., 2011" -"G7433-MONOMER" "MSVARNLWRVADAPHIVPADSVERQTAERLINACPAGLFSLTPEGNLRIDYRSCLECGTCRLLCDESTLQQWRYPPSGFGITYRFG" "c" "Han et al., 2011" -"G7434-MONOMER" "MPLLHLLRQNPVIAAVKDNASLQLAIDSECQFISVLYGNICTISNIVKKIKNAGKYAFIHVDLLEGASNKEVVIQFLKLVTEADGIISTKASMLKAARAEGFFCIHRLFIVDSISFHNIDKQVAQSNPDCIEILPGCMPKVLGWVTEKIRQPLIAGGLVCDEEDARNAINAGVVALSTTNTGVWTLAKKLL" "c" "Han et al., 2011" -"G7435-MONOMER" "MNIAIVTINQENAAIASWLAAQDFSGCTLAHWQIEPQPVVAEQVLDALVEQWQRTPADVVLFPPGTFGDELSTRLAWRLHGASICQVTSLDIPTVSVRKSHWGNALTATLQTEKRPLCLSLARQAGAAKNATLPSGMQQLNIVPGALPDWLVSTEDLKNVTRDPLAEARRVLVVGQGGEADNQEIAMLAEKLGAEVGYSRARVMNGGVDAEKVIGISGHLLAPEVCIVVGASGAAALMAGVRNSKFVVAINHDASAAVFSQADVGVVDDWKVVLEALVTNIHADCQ" "c" "Han et al., 2011" -"G7436-MONOMER" "MNILLAFKAEPDAGMLAEKEWQAAAQGKSGPDISLLRSLLGADEQAAAALLLAQRKNGTPMSLTALSMGDERALHWLRYLMALGFEEAVLLETAADLRFAPEFVARHIAEWQHQNPLDLIITGCQSSEGQNGQTPFLLAEMLGWPCFTQVERFTLDALFITLEQRTEHGLRCCRVRLPAVIAVRQCGEVALPVPGMRQRMAAGKAEIIRKTVAAEMPAMQCLQLARAEQRRGATLIDGQTVAEKAQKLWQDYLRQRMQP" "c" "Han et al., 2011" -"G7439-MONOMER" "MSLSRAAIVDQLKEIVGADRVITDETVLKKNSIDRFRKFPDIHGIYTLPIPAAVVKLGSTEQVSRVLNFMNAHKINGVPRTGASATEGGLETVVENSVVLDGSAMNQIINIDIENMQATAQCGVPLEVLENALREKGYTTGHSPQSKPLAQMGGLVATRSIGQFSTLYGAIEDMVVGLEAVLADGTVTRIKNVPRRAAGPDIRHIIIGNEGALCYITEVTVKIFKFTPENNLFYGYILEDMKTGFNILREIMVEGYRPSIARLYDAEDGTQHFTHFADGKCVLIFMAEGNPRIAKVTGEGIAEIVARYPQCQRVDSKLIETWFNNLNWGPDKVAAERVQILKTGNMGFTTEVSGCWSCIHEIYESVINRIRTEFPHADDITMLGGHSSHSYQNGTNMYFVYDYNVVDCKPEEEIDKYHNPLNKIICEETIRLGGSMVHHHGIGKHRVHWSKLEHGSAWALLEGLKKQFDPNGIMNTGTIYPIEK" "c" "Han et al., 2011" -"G7440-MONOMER" "MSIESLNAFSMDFFSLKGKTAIVTGGNSGLGQAFAMALAKAGANIFIPSFVKDNGETKEMIEKQGVEVDFMQVGITAEGAPQKIIAACCERFGTVDILVNNAGICKLNKVLDFGRADWDPMIDVNLTAAFELSYEAAKIMIPQKSGKIINICSLFSYLGGQWSPAYSATKHALAGFTKAYCDELGQYNIQVNGIAPGYYATDITLATRSNPETNQRVLDHIPANRWGDTQDLMGAAVFLASPASNYVNGHLLVVDGGYLVR" "c" "Han et al., 2011" -"G7442-MONOMER" "MSKKYIIGIDGGSQSTKVVMYDLEGNVVCEGKGLLQPMHTPDADTAEHPDDDLWASLCFAGHDLMSQFAGNKEDIVGIGLGSIRCCRALLKADGTPAAPLISWQDARVTRPYEHTNPDVAYVTSFSGYLTHRLTGEFKDNIANYFGQWPVDYKSWAWSEDAAVMDKFNIPRHMLFDVQMPGTVLGHITPQAALATHFPAGLPVVCTTSDKPVEALGAGLLDDETAVISLGTYIALMMNGKALPKDPVAYWPIMSSIPQTLLYEGYGIRKGMWTVSWLRDMLGESLIQDARAQDLSPEDLLNKKASCVPPGCNGLMTVLDWLTNPWEPYKRGIMIGFDSSMDYAWIYRSILESVALTLKNNYDNMCNEMNHFAKHVIITGGGSNSDLFMQIFADVFNLPARRNAINGCASLGAAINTAVGLGLYPDYATAVDNMVRVKDIFIPIESNAKRYDAMNKGIFKDLTKHTDVILKKSYEVMHGELGNVDSIQSWSNA" "c" "Han et al., 2011" -"G7443-MONOMER" "MQYPINEMFQTLQGEGYFTGVPAIFIRLQGCPVGCAWCDTKHTWEKLEDREVSLFSILAKTKESDKWGAASSEDLLAVIGRQGYTARHVVITGGEPCIHDLLPLTDLLEKNGFSCQIETSGTHEVRCTPNTWVTVSPKLNMRGGYEVLSQALERANEIKHPVGRVRDIEALDELLATLTDDKPRVIALQPISQKDDATRLCIETCIARNWRLSMQTHKYLNIA" "c" "Han et al., 2011" -"G7444-MONOMER" "MRYFILMFTFVCSFVAAQPTIVPQLQQQVTDLTSSLNSQEKKELTHKLESIFNNTQVQIAVLIVPTTKDETIEQYATRVFDNWRLGDAKRNDGILIVVAWSDRTVRIQVGYGLEEKVTDALAGDIIRSNMIPAFKQQKLAKGLELAINALNNQLTSQHQYPTNPSESESASSSDHYYFAIFWVFAVMFFPFWFFHQGSNFCRACKSGVCISAIYLLDLFLFSDKIFSIAVFSFFFTFTIFMVFTCLCVLQKRASGRSYHSDNSGSAGGSDSGGFSGGGGSSGGGGASGRW" "i" "Han et al., 2011" -"G7446-MONOMER" "MATQSSPVITDMKVIPVAGHDSMLLNIGGAHNAYFTRNIVVLTDNAGHTGIGEAPGGDVIYQTLVDAIPMVLGQEVARLNKVVQQVHKGNQAADFDTFGKGAWTFELRVNAVAALEAALLDLLGKALNVPVCELLGPGKQREAITVLGYLFYIGDRTKTDLPYVENTPGNHEWYQLRHQKAMNSEAVVRLAEASQDRYGFKDFKLKGGVLPGEQEIDTVRALKKRFPDARITVDPNGAWLLDEAISLCKGLNDVLTYAEDPCGAEQGFSGREVMAEFRRATGLPVATNMIATNWREMGHAVMLNAVDIPLADPHFWTLSGAVRVAQLCDDWGLTWGCHSNNHFDISLAMFTHVGAAAPGNPTAIDTHWIWQEGDCRLTQNPLEIKNGKIAVPDAPGLGVELDWEQVQKAHEAYKRLPGGARNDAGPMQYLIPGWTFDRKRPVFGRH" "c" "Han et al., 2011" -"G7448-MONOMER" "MAEIGIFVGTMYGNSLLVAEEAEAILTAQGHKATVFEDPELSDWLPYQDKYVLVVTSTTGQGDLPDSIVPLFQGIKDSLGFQPNLRYGVIALGDSSYVNFCNGGKQFDALLQEQSAQRVGEMLLIDASENPEPETESNPWVEQWGTLLS" "c" "Han et al., 2011" -"G7449-MONOMER" "MLEILYQDEWLVAVNKPSGWLVHRSWLDRDEKVVVMQTVRDQIGQHVFTAHRLDRPTSGVLLMGLSSEAGRLLAQQFEQHQIQKRYHAIVRGWLMEEAVLDYPLVEELDKIADKFAREDKGPQPAVTHYRGLATVEMPVATGRYPTTRYGLVELEPKTGRKHQLRRHLAHLRHPIIGDSKHGDLRQNRSGAEHFGLQRLMLHASQLSLTHPFTGEPLTIHAGLDDTWMQALSQFGWRGLLPENERVEFSAPSGQDGEISS" "c" "Han et al., 2011" -"G7450-MONOMER" "MTTHDRVRLQLQALEALLREHQHWRNDEPQPHQFNSTQPFFMDTMEPLEWLQWVLIPRMHDLLDNKQPLPGAFAVAPYYEMALATDHPQRALILAELEKLDALFADDAS" "c" "Han et al., 2011" -"G7451-MONOMER" "VDDLTAQALKDFTARYCDAWHEEHKSWPLSEELYGVPSPCIISTTEDAVYWQPQPFTGEQNVNAVERAFDIVIQPTIHTFYTTQFAGDMHAQFGDIKLTLLQTWSEDDFRRVQENLIGHLVTQKRLKLPPTLFIATLEEELEVISVCNLSGEVCKETLGTRKRTHLASNLAEFLNQLKPLL" "c" "Han et al., 2011" -"G7452-MONOMER" "MSSYANHQALAGLTLGKSTDYRDTYDASLLQGVPRSLNRDPLGLKADNLPFHGTDIWTLYELSWLNAKGLPQVAVGHVELDYTSVNLIESKSFKLYLNSFNQTRFNNWDEVRQTLERDLSTCAQGKISVALYRLDELEGQPIGHFNGTCIDDQDITIDNYEFTTDYLENATCGEKVVEETLVSHLLKSNCLITHQPDWGSLQIQYRGRQIDREKLLRYLVSFRHHNEFHEQCVERIFNDLLRFCQPEKLSVYARYTRRGGLDINPWRSNSDFVPSTTRLVRQ" "c" "Han et al., 2011" -"G7453-MONOMER" "MKKTAAIISACMLTFALSACSGSNYVMHTNDGRTIVSDGKPQTDNDTGMISYKDANGNKQQINRTDVKEMVELDQ" "i" "Han et al., 2011" -"G7454-MONOMER" "MNVFNPAQFRAQFPALQDAGVYLDSAATALKPEAVVEATQQFYSLSAGNVHRSQFAEAQRLTARYEAAREKVAQLLNAPDDKTIVWTRGTTESINMVAQCYARPRLQPGDEIIVSVAEHHANLVPWLMVAQQTGAKVVKLPLNAQRLPDVDLLPELITPRSRILALGQMSNVTGGCPDLARAITFAHSAGMVVMVDGAQGAVHFPADVQQLDIDFYAFSGHKLYGPTGIGVLYGKSELLEAMSPWLGGGKMVHEVSFDGFTTQSAPWKLEAGTPNVAGVIGLSAALEWLADYDINQAESWSRSLATLAEDALAKRPGFRSFRCQDSSLLAFDFAGVHHSDMVTLLAEYGIALRAGQHCAQPLLAELGVTGTLRASFAPYNTKSDVDALVNAVDRALELLVD" "c" "Han et al., 2011" -"G7455-MONOMER" "MTNPQFAGHPFGTTVTAETLRNTFAPLTQWEDKYRQLIMLGKQLPALPDELKAQAKEIAGCENRVWLGYTVAENGKMHFFGDSEGRIVRGLLAVLLTAVEGKTAAELQAQSPLALFDELGLRAQLSASRSQGLNALSEAIIAATKQV" "c" "Han et al., 2011" -"G7456-MONOMER" "MSVVISDAWRQRFGGTARLYGEKALQLFADAHICVVGIGGVGSWAAEALARTGIGAITLIDMDDVCVTNTNRQIHALRDNVGLAKAEVMAERIRQINPECRVTVVDDFVTPDNVAQYMSVGYSYVIDAIDSVRPKAALIAYCRRNKIPLVTTGGAGGQIDPTQIQVTDLAKTIQDPLAAKLRERLKSDFGVVKNSKGKLGVDCVFSTEALVYPQSDGTVCAMKATAEGPKRMDCASGFGAATMVTATFGFVAVSHALKKMMAKAARQG" "c" "Han et al., 2011" -"G7457-MONOMER" "MKGRWVKYLLMGTVVAMLAACSSKPTDRGQQYKDGKFTQPFSLVNQPDAVGAPINAGDFAEQINHIRNSSPRLYGNQSNVYNAVQEWLRAGGDTRNMRQFGIDAWQMEGADNYGNVQFTGYYTPVIQARHTRQGEFQYPIYRMPPKRGRLPSRAEIYAGALSDKYILAYSNSLMDNFIMDVQGSGYIDFGDGSPLNFFSYAGKNGHAYRSIGKVLIDRGEVKKEDMSMQAIRHWGETHSEAEVRELLEQNPSFVFFKPQSFAPVKGASAVPLVGRASVASDRSIIPPGTTLLAEVPLLDNNGKFNGQYELRLMVALDVGGAIKGQHFDIYQGIGPEAGHRAGWYNHYGRVWVLKTAPGAGNVFSG" "o" "Han et al., 2011" -"G7458-MONOMER" "MSGSNTAISRRRLLQGAGAMWLLSVSQVSLAAVSQVVAVRVWPASSYTRVTVESNRQLKYKQFALSNPERVVVDIEDVNLNSVLKGMAAQIRADDPFIKSARVGQFDPQTVRMVFELKQNVKPQLFALAPVAGFKERLVMDLYPANAQDMQDPLLALLEDYNKGDLEKQVPPAQSGPQPGKAGRDRPIVIMLDPGHGGEDSGAVGKYKTREKDVVLQIARRLRSLIEKEGNMKVYMTRNEDIFIPLQVRVAKAQKQRADLFVSIHADAFTSRQPSGSSVFALSTKGATSTAAKYLAQTQNASDLIGGVSKSGDRYVDHTMFDMVQSLTIADSLKFGKAVLNKLGKINKLHKNQVEQAGFAVLKAPDIPSILVETAFISNVEEERKLKTATFQQEVAESILAGIKAYFADGATLARRG" "p" "Han et al., 2011 (location manually reset)" -"G7459-MONOMER" "VIDDDGYRPNVGIVICNRQGQVMWARRFGQHSWQFPQGGINPGESAEQAMYRELFEEVGLSRKDVRILASTRNWLRYKLPKRLVRWDTKPVCIGQKQKWFLLQLVSGDAEINMQTSSTPEFDGWRWVSYWYPVRQVVSFKRDVYRRVMKEFASVVMSLQENTPKPQNASAYRRKRG" "c" "Han et al., 2011" -"G7460-MONOMER" "MLFAWITDPNAWLALGTLTLLEIVLGIDNIIFLSLVVAKLPTAQRAHARRLGLAGAMVMRLALLASIAWVTRLTNPLFTIFSQEISARDLILLLGGLFLIWKASKEIHESIEGEEEGLKTRVSSFLGAIVQIMLLDIIFSLDSVITAVGLSDHLFIMMAAVVIAVGVMMFAARSIGDFVERHPSVKMLALSFLILVGFTLILESFDIHVPKGYIYFAMFFSIAVESLNLIRNKKNPL" "i" "Han et al., 2011" -"G7461-MONOMER" "MKKWAVIISAVGLAFAVSGCSSDYVMATKDGRMILTDGKPEIDDDTGLVSYHDQQGNAMQINRDDVSQIIER" "i" "Han et al., 2011" -"G7462-MONOMER" "MQYHRIPHSSLEVSTLGLGTMTFGEQNSEADAHAQLDYAVAQGINLIDVAEMYPVPPRPETQGLTETYVGNWLAKHGSREKLIIASKVSGPSRNNDKGIRPDQALDRKNIREALHDSLKRLQTDYLDLYQVHWPQRPTNCFGKLGYSWTDSAPAVSLLDTLDALAEYQRAGKIRYIGVSNETAFGVMRYLHLADKHDLPRIVTIQNPYSLLNRSFEVGLAEVSQYEGVELLAYSCLGFGTLTGKYLNGAKPAGARNTLFSRFTRYSGEQTQKAVAAYVDIARRHGLDPAQMALAFVRRQPFVASTLLGATTMDQLKTNIESLHLELSEDVLAEIEAVHQVYTYPAP" "c" "Han et al., 2011" -"G7463-MONOMER" "VDVRQSIHSAHAKTLDTQGLRNEFLVEKVFVADEYTMVYSHIDRIIVGGIMPITKTVSVGGEVGKQLGVSYFLERRELGVINIGGAGTITVDGQCYEIGHRDALYVGKGAKEVVFASIDTGTPAKFYYNCAPAHTTYPTKKVTPDEVSPVTLGDNLTSNRRTINKYFVPDVLETCQLSMGLTELAPGNLWNTMPCHTHERRMEVYFYFNMDDDACVFHMMGQPQETRHIVMHNEQAVISPSWSIHSGVGTKAYTFIWGMVGENQVFDDMDHVAVKDLR" "c" "Han et al., 2011" -"G7464-MONOMER" "MKDVVIVGALRTPIGCFRGALAGHSAVELGSLVVKALIERTGVPAYAVDEVILGQVLTAGAGQNPARQSAIKGGLPNSVSAITINDVCGSGLKALHLATQAIQCGEADIVIAGGQENMSRAPHVLTDSRTGAQLGNSQLVDSLVHDGLWDAFNDYHIGVTAENLAREYGISRQLQDAYALSSQQKARAAIDAGRFKDEIVPVMTQSNGQTLVVDTDEQPRTDASAEGLARLNPSFDSLGSVTAGNASSINDGAAAVMMMSEAKARALNLPVLARIRAFASVGVDPALMGIAPVYATRRCLERVGWQLAEVDLIEANEAFAAQALSVGKMLEWDERRVNVNGGAIALGHPIGASGCRILVSLVHEMVKRNARKGLATLCIGGGQGVALTIERDE" "c" "Han et al., 2011" -"G7466-MONOMER" "MGLCSRYKSLTCNSCSMHCQIMPEESPRLQYCANSCFCMWPEESSYFNRGVVEGILTKNHNARLSGYIFVDFSVSFLRLFLEKDWIDYLASTDMGIVLVSDRNMQSLANYWRKHNSAISAVIYNDDGLDVANEKIRQLFIGRYLSFTGGNTLTQMEFTIMGYMVSGYNPYQIAEVLDMDIRSIYAYKQRIEKRMGGKINELFIRSHSVQH" "c" "Han et al., 2011" -"G7467-MONOMER" "MYWIINDNIEFWPEHRKLISVHNADLNVVLTTPASRCLSLLLEAFPDVVAQQDFFTRVWEEEGMRVPTNTLYQNISIIRRGFRAVGDTTHSLIATVPRRGFKIHNDINIQNHVINSSTDAHTHNAPPAIKVNAGYKESIGGAKNFNNKILKHIKSHLIMLSAFVIGAYSAYWLWNNNQPKPFFKDYKTVAEINGCHFNVTEDTIDGLKEFDKYKTRILDSGINCKKHPWLYFPLAKSSPGMIVMACNKNYNQHEVANCLTLSYREVNRD" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7468-MONOMER" "VIDYKKNLLFILVFISGFILFTVYSYTAEKMIYNETCTANWVIFNDQGRANLTIDFMYNKKNKTGTVALSGTWQQGNRESKSIRRNIEYTWIENYDTAHLTSKKVNKFEIMDQVDDDRLAQLIPDFYVFPEKSVSYNILKQGKHAFILSIGNRAIMHCAR" "m" "Unambiguous EcoCyc data" -"G7469-MONOMER" "MDIEFSQIHEMVYMHDIVNSDSKKKPRIPLKKFLNAENVLTQTTSWTLNSRYVNVNSVNKVNVKSKVKNSYISRSVNDEFSLTDDEINSFKETLVLSSIDSLSKLVLNNPLSVLFTSTVRRNNNRAKMNVEFDSWICTRCC" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7470-MONOMER" "MKPRNINNSLPLQPLVPDQENKNKKNEEKSVNPVKITMGSGLNYIEQESLGGKYLTHDLSIKIADISEEIIQQAILSAMSIYKFSITDDLMSMAVNELIKLTKIENNVDLNKFTTICTDVLSPRVTRHNKEKNKRHSTLLKNPLFNFH" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7471-MONOMER" "MSTETIEIFNNSDEWANQLKHALSKGENLALLHGLTPDILDRIYAYAFDYHEKGNITDAEIYYKFLCIYAFENHEYLKDFASVCQPKKKYQQAYDLYKLSYNYFPYDDYSVIYRMGQCQIGAKNIDNAMQCFYHIINNCEDDSVKSKAQAYIELLNDNSEDNG" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7472-MONOMER" "MDLENKFSYHFLEGLTLTEDGILTQGNEQVYIPQKELGVLIVLLESAGHVVLKDMIIESVWKNIIVSDESLTRCIYSLRCIFEKIGYDRCIETIYRKGYRFSGQVFKTKINEDNTSDYSIAIFPFTTSLNTLDPLILNQELVQIISNKKIDGLYTYPMAATNFCNDHISQNSFLSRFKPDYFVTGRINQNNAVNTLYIELIDAKNLFLIASNHLPVDELHNTSQFIIDNILQTVHKPERSVRLAKQDQGYKNHYLSDEMLAGKKELYDFTPESIYRAMTIFDRLQNKSDIQTLKTECYCLLAECHMSLALHGKSELELAAQKALELLDYVSDITTVDGKILAIMGLITGLSGQAKVSHILFEQAKIHSTDIASLYYYRALVHFHNEKIEEARICIDKSLQLEPRRRKAVVIKECVDMYVPNPLKNNIKLYYKETESESHRVIIDNILKLKQLTRICMR" "c" "Unambiguous EcoCyc data" -"G7473-MONOMER" "MTNPIGINNLSQSSNIANATGDEVVSLDKHINTSATDTDQIQAFIVSTWMAPFQNDMYSEDNPISPYYKIEW" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7474-MONOMER" "MFRIEPNLIKAIALVESNLKKDSIGKNRDKNNNIKSLDYWLMQINQMHIPLLKKRGIIKDERDLLDNPCLNIKIGTEILYNHFSRCGVTWQCLGTYNAGFAMDNQKKRQQYAPKYILYIPGLMN" "p" "Unambiguous EcoCyc data" -"G7475-MONOMER" "MGAELVKWVKSHKIDAHIITFVAKMPYIDSIKLLEAGAKGCVWKTSHPAKLNRAIDSISNGYTYFDSVHMDCEKISSRYSSDNQLTNRESEILQLIADGKTNKEIANFLQLSRKTVETHRLNIMKKLDVHSGIELIKTALRMGVCTI" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7476-MONOMER" "MGKIKIVVSDQQPFMIDGIIGFLGHYPDLYEVVGGYKDLKKAIAECNKSTA" "m" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7477-MONOMER" "MINDLKSILLKPSEEVDVFIKIFESWVTKLPSISGPVNLHIPTSFKDKSLEVESYFVDKSIWNVHITFHDDKRFVFFTDQFIAEFSPQEFVDNCEQYLINNHCFSPDKVNEICEQARHYLVEKMFETHSLDMNNSVLASPEDL" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7478-MONOMER" "MRKKIEMSLIKSPANGVVIKRKISDGLKEIVSLKEKILLETTAKIQSIEEKREEKFIQGYYDGYTKGIIDEMDNFIPLISLLCSELEKKE" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7479-MONOMER" "MSGNIGANPINNWNLLPLICLLSGCHFYRERFAERGFFYKVPDVLRDYLSAIPLEINEKARYKPGIANYHNIITCGFSTLLPYIRQQPLAMQQRFNLLFPDFVDHIQSPLPLASTLLERITFYAKKNRDELDKISCKWCCD" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7480-MONOMER" "VDSARALIARGWGVSLVSRCLRVSRAQLHVILRRTDDWMDGRRSRHTDDTDVLLRIHHVIGELPTYGYRRVWALLRRQAELDGMPAINAKRVYRIMRQNALLLERKPAVPPSKRAHTGRVAVKESNQRWCSDGFEFCCDNGERLRVTFALDCCDREALHWAVTTGGFNSETVQDVMLGAVERRFGNDLPSSPVEWLTDNGSCYRANETRQFARMLGLEPKNTAVRSPESNGIAESFVKTIKRDYISIMPKPDGLTAAKNLAEAFEHYNEWHPHSALGYRSPREYLRQRACNGLSDNRCLEI" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7482-MONOMER" "VTSGLERLSNLLSKKDSVFVSDLLREAKVNELDETLSTTRLNHLIDKGYERITLQLDLGGESPGYLEKDKHYREADAALLNVIYPTNLSKINTRRKEQV" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7483-MONOMER" "MKGKSALTLLLAGIFSCGTCQATGAEVTSESVFNILNSTGAATDKSYLSLNPDKYPNYRLLIHSAKLQNEIKSHYTKDEIQGLLTLTENTRKLTLTEKPWGTFILASTFEDDKTAAETHYDAVWLRDSLWGYMALVSDQGNSVAAKKVLLTLWDYMSTPDQIKRMQDVISNPKRLDGIPVQMNAVHIRFDSNSPVMADVQEEGKPQLWNHKQNDALGLYLDLLIQAINTGTINAEDWQKGDRLKSVALLIAYLDKANFYVMEDS" "p" "Han et al., 2011" -"G7484-MONOMER" "LSAGRLNKKSLGIVMLLSVGLLLAGCSGSKSSDTGTYSGSVYTVKRGDTLYRISRTTGTSVKELARLNGISPPYTIEVGQKLKLGGAKSSSITRKSTAKSTTKTASVTPSSAVPKSSWPPVGQRCWLWPTTGKVIMPYSTADGGNKGIDISAPRGTPIYAAGAGKVVYVGNQLRGYGNLIMIKHSEDYITAYAHNDTMLVNNGQSVKAGQKIATMGSTDAASVRLHFQIRYRATAIDPLRYLPPQGSKPKC" "p" "Han et al., 2011" -"G7485-MONOMER" "MRVDAIAKVTGRARYTDDYVMAGMCYAKYVRSPIAHGYAVSINDEQARSLPGVLAIFTWEDVPDIPFATAGHAWTLDENKRDTADRALLTRHVRHHGDAVAIVVARDELTAEKAAQLVSIEWQELPVITTPEAALAEDAAPIHNGGNLLKQSTMSTGNVQQTIDAADYQVQGHYQTPVIQHCHMESVTSLAWMEDDSRITIVSSTQIPHIVRRVVGQALDIPWSCVRVIKPFVGGGFGNKQDVLEEPMAAFLTSKLGGIPVKVSLSREECFLATRTRHAFTIDGQMGVNRDGTLKGYSLDVLSNTGAYASHGHSIASAGGNKVAYLYPRCAYAYSSKTCYTNLPSAGAMRGYGAPQVVFAVESMLDDAATALGIDPVEIRLRNAAREGDANPLTGKRIYSAGLPECLEKGRKIFEWEKRRAECQNQQGNLRRGVGVACFSYTSNTWPVGVEIAGARLLMNQDGTINVQSGATEIGQGADTVFSQMVAETVGVPVSDVRVISTQDTDVTPFDPGAFASRQSYVAAPALRSAALLLKEKIIAHAAVMLHQSAMNLTLIKGHIVLVERPEEPLMSLKDLAMDAFYHPERGGQLSAESSIKTTTNPPAFGCTFVDLTVDIALCKVTINRILNVHDSGHILNPLLAEGQVHGGMGMGIGWALFEEMIIDAKSGVVRNPNLLDYKMPTMPDLPQLESAFVEINEPQSAYGHKSLGEPPIIPVAAAIRNAVKMATGVAINTLPLTPKRLYEEFHLAGLI" "c" "EcoCyc dump" -"G7486-MONOMER" "MFDFASYHRAATLADAINLLADNPQAKLLAGGTDVLIQLHHHNDRYRHIVDIHNLAELRGITLAEDGSLRIGSATTFTQLIEDPITQRHLPALCAAATSIAGPQIRNVATYGGNICNGATSADSATPTLIYDAKLEIHSPRGVRFVPINGFHTGPGKVSLEHDEILVAFHFPPQPKEHAGSAHFKYAMRDAMDISTIGCAAHCRLDNGNFSELRLAFGVAAPTPIRCQHAEQTAQNAPLNLQTLEAISESVLQDVAPRSSWRASKEFRLHLIQTMTKKVISEAVAAAGGKLQ" "c" "Han et al., 2011" -"G7487-MONOMER" "MNHSETITIECTINGMPFQLHAAPGTPLSELLREQGLLSVKQGCCVGECGACTVLVDGTAIDSCLYLAAWAEGKEIRTLEGEAKGGKLSHVQQAYAKSGAVQCGFCTPGLIMATTAMLAKPREKPLTITEIRRGLAGNLCRCTGYQMIVNTVLDCEKTK" "c" "Han et al., 2011" -"G7488-MONOMER" "MELATTQSVLMQIQPTIQRFARMLASVLQLEVEIVDENLCRVAGTGAYGKFLGRQLSGNSRLLRHVLETKTEKVVTQSRFDPLCEGCDSKENCREKAFLGTPVILQDRCVGVISLIAVTHEQQEHISDNLREFSDYVRHISTIFVSKLLEDQGPGDNISKIFATMIDNMDQGVLVVDDENRVQFVNQTALKTLGVVQNNIIGKPIRFRPLTFESNFTHGHMQHIVSWDDKSELIIGQLHNIQGRQLFLMAFHQSHTSFSVANAPDEPHIEQLVGECRVMRQLKRLISRIAPSPSSVMVVGESGTGKEVVARAIHKLSGRRNKPFIAINCAAIPEQLLESELFGYVKGAFTGASANGKTGLIQAANTGTLFLDEIGDMPLMLQAKLLRAIEAREILPIGASSPIQVDIRIISATNQNLAQFIAEGKFREDLFYRLNVIPITLPPLRERQEDIELLVHYFLHLHTRRLGSVYPGIAPDVVEILRKHRWPGNLRELSNLMEYLVNVVPSGEVIDSTLLPPNLLNNGTTEQSDVTEVSEAHLSLDDAGGTALEEMEKQMIREALSRHNSKKQVADELGIGIATLYRKIKKYELLNT" "c" "Han et al., 2011" -"G7489-MONOMER" "MMKTVNELIKDINSLTSHLHEKDFLLTWEQTPDELKQVLDVAAALKALRAENISTKVFNSGLGISVFRDNSTRTRFSYASALNLLGLAQQDLDEGKSQIAHGETVRETANMISFCADAIGIRDDMYLGAGNAYMREVGAALDDGYKQGVLPQRPALVNLQCDIDHPTQSMADLAWLREHFGSLENLKGKKIAMTWAYSPSYGKPLSVPQGIIGLMTRFGMDVTLAHPEGYDLIPDVVEVAKNNAKASGGSFRQVTSMEEAFKDADIVYPKSWAPYKVMEERTELLRANDHEGLKALEKQCLAQNAQHKDWHCTEEMMELTRDGEALYMHCLPADISGVSCKEGEVTEGVFEKYRIATYKEASWKPYIIAAMILSRKYAKPGALLEQLLKEAQERVK" "c" "Han et al., 2011" -"G7490-MONOMER" "MSVFSLKIDIADNKFFNGETSPLFSQSQAKLARQFHQKIAGYRPTPLCALDDLANLFGVKKILVKDESKRFGLNAFKMLGGAYAIAQLLCEKYHLDIETLSFEHLKNAIGEKMTFATTTDGNHGRGVAWAAQQLGQNAVIYMPKGSAQERVDAILNLGAECIVTDMNYDDTVRLTMQHAQQHGWEVVQDTAWEGYTKIPTWIMQGYATLADEAVEQMREMGVTPTHVLLQAGVGAMAGGVLGYLVDVYSPQNLHSIIVEPDKADCIYRSGVKGDIVNVGGDMATIMAGLACGEPNPLGWEILRNCATQFISCQDSVAALGMRVLGNPYGNDPRIISGESGAVGLGVLAAVHYHPQRQSLMEKLALNKDAVVLVISTEGDTDVKHYREVVWEGKHAVAP" "c" "Han et al., 2011" -"G7491-MONOMER" "MAKNIPFKLILEKAKDYQADMTRFLRDMVAIPSESCDEKRVVHRIKEEMEKVGFDKVEIDPMGNVLGYIGHGPRLVAMDAHIDTVGIGNIKNWDFDPYEGMETDELIGGRGTSDQEGGMASMVYAGKIIKDLGLEDEYTLLVTGTVQEEDCDGLCWQYIIEQSGIRPEFVVSTEPTDCQVYRGQRGRMEIRIDVQGVSCHGSAPERGDNAIFKMGPILGELQELSQRLGYDEFLGKGTLTVSEIFFTSPSRCAVADSCAVSIDRRLTWGETWEGALDEIRALPAVQKANAVVSMYNYDRPSWTGLVYPTECYFPTWKVEEDHFTVKALVNAYEGLFGKAPVVDKWTFSTNGVSIMGRHGIPVIGFGPGKEPEAHAPNEKTWKSHLVTCAAMYAAIPLSWLATE" "c" "Han et al., 2011" -"G7492-MONOMER" "MRVLIKNGTVVNADGQAKQDLLIESGIVRQLGNNISPQLPYEEIDATGCYVFPGGVDVHTHFNIDVGIARSCDDFFTGTRAAACGGTTTIIDHMGFGPNGCRLRHQLEVYRGYAAHKAVIDYSFHGVIQHINHAILDEIPMIVEEGLSSFKLYLTYQYKLNDDEVLQALRRLHESGALTTVHPENDAAIASKRAEFIAAGLTAPRYHALSRPLECEAEAIARMINLAQIAGNAPLYIVHLSNGLGLDYLRLARANHQPVWVETCPQYLLLDERSYDTEDGMKFILSPPLRNVREQDKLWCGISDGAIDVVATDHCTFSMAQRLQISKGDFSRCPNGLPGVENRMQLLFSSGVMTGRITPERFVELTSAMPARLFGLWPQKGLLAPGSDGDVVIIDPRQSQQIQHRHLHDNADYSPWEGFTCQGAIVRTLSRGETIFCDGTFTGKAGRGRFLRRKPFVPPVL" "c" "Han et al., 2011" -"G7493-MONOMER" "MSKKIVLALGGNALGDDLAGQMKAVKITSQAIVDLIAQGHEVIVTHGNGPQVGMINQAFEAAAKTEAHSPMLPMSVCVALSQGYIGYDLQNALREELLSRGINKPVATLVTQVEVDANDPAFLNPTKPIGSFFTEQEAEQLTKQGYTLKEDAGRGYRRVVASPKPVDIIEKETVKALVDAGQVVITVGGGGIPVIREGNHLRGASAVIDKDWASARLAEMIDADMLIILTAVEKVAINFGKENEQWLDRLSLSDAERFIEEGHFAKGSMLPKVEAAASFARSRAGREALITVLSKAKEGIEGKTGTVICQ" "c" "Han et al., 2011" -"G7494-MONOMER" "MNIFTEAAKLEEQNCPFAMAQIVDSRGSTPRHSAQMLVRADGSIVGTIGGGMVERKVIEESLQALQERKPRLFHGRMARNGADAVGSDCGGAMSVFISVHGMRPRLVLIGAGHVNRAIAQSAALLGFDIAVADIYRESLNPELFPPSTTLLHAESFGAAVEALDIRPDNFVLIATNNQDREALDKLIEQPIAWLGLLASRRKVQLFLRQLREKGVAEEHIARLHAPVGYNIGAETPQEIAISVLAEILQVKNNAPGGLMMKPSHPSGHQLVVIRGAGDIASGVALRLYHAGFKVIMLEVEKPTVIRCTVAFAQAVFDGEMTVEGVTARLATSSAEAMKLTERGFIPVMVDPACSLLDELKPLCVVDAILAKQNLGTRADMAPVTIALGPGFTAGKDCHAVIETNRGHWLGQVIYSGCAQENTGVPGNIMGHTTRRVIRAPAAGIMRSNVKLGDLVKEGDVIAWIGEHEIKAPLTGMVRGLLNDGLAVVGGFKIGDIDPRGETADFTSVSDKARAIGGGVLEALMMLMHQGVKATKEVLEVA" "c" "Han et al., 2011" -"G7495-MONOMER" "VKSIVDPSALVIDLGAQKRPTVISVVGAGGKTSLLFWLAELLQASGRRVLITTTTHMFMPTSHWPVVFCRDPAMLPHASLTSPISFCFHSWKANQGKVQGFTPEAIDALVQRPECDVILIEADGSRGMPLKAPDEHEPCIPKSSCCVIAVMGGHTLGAKVSTENVHRWSQFADITGLTPDATLQLSDLVALVRHPQGAFKNVPQGCRRVWFINRFSQCENAIAQSELLQPLQQHDVEAIWLGDIQEHPAIARRFVN" "c" "Han et al., 2011" -"G7496-MONOMER" "MSAIDCIITAAGLSSRMGQWKMMLPWEQGTILDTSIKNALQFCSRIILVTGYRGNELHERYANQSNITIIHNPDYAQGLLTSVKAAVPAVQTEHCFLTHGDMPTLTIDIFRKIWSLRNDGAILPLHNGIPGHPILVSKPCLMQAIQRPNVTNMRQALLMGDHYSVEIENAEIILDIDTPDDFITAKERYTEI" "c" "Han et al., 2011" -"G7497-MONOMER" "MGDIMRPIPFEELLTRIFDEYQQQRSIFGIPEQQFYSPVKGKTVSVFGETCATPVGPAAGPHTQLAQNIVTSWLTGGRFIELKTVQILDRLELEKPCIDAEDECFNTEWSTEFTLLKAWDEYLKAWFALHLLEAMFQPSDSGKSFIFNMSVGYNLEGIKQPPMQQFIDNMMDASDHPKFAQYRDTLNKLLQDDAFLARHGLQEKRESLQALPARIPTSMVHGVTLSTMHGCPPHEIEAICRYMLEEKGLNTFVKLNPTLLGYARVREILDVCGFGYIGLKEESFDHDLKLTQALEMLERLMALAKEKSLGFGVKLTNTLGTINNKGALPGEEMYMSGRALFPLSINVAAVLSRAFDGKLPISYSGGASQLTIRDIFDTGIRPITMATDLLKPGGYLRLSACMRELEGSDAWGLDHVDVERLNRLAADALTMEYTQKHWKPEERIEVAEDLPLTDCYVAPCVTACAIKQDIPEYIRLLGEHRYADALELIYQRNALPAITGHICDHQCQYNCTRLDYDSALNIRELKKVALEKGWDEYKQRWHKPAGSGSRHPVAVIGAGPAGLAAGYFLARAGHPVTLFEREANAGGVVKNIIPQFRIPAELIQHDIDFVAAHGVKFEYGCSPDLTIEQLKNQGFHYVLIATGTDKNSGVKLAGDNQNVWKSLPFLREYNKGTALKLGKHVVVVGAGNTAMDCARAALRVPGVEKATIVYRRSLQEMPAWREEYEEALHDGVEFRFLNNPERFDADGTLTLRVMSLGEPDEKGRRRPVETNETVTLLVDSLITAIGEQQDTEALNAMGVPLDKNGWPDVDHNGETRLTDVFMIGDVQRGPSSIVAAVGTARRATDAILSRENIRSHQNDKYWNNVNPAEIYQRKGDISITLVNSDDRDAFVAQEAARCLECNYVCSKCVDVCPNRANVSIAVPGFQNRFQTLHLDAYCNECGNCAQFCPWNGKPYKDKITVFSLAQDFDNSSNPGFLVEDCRVRVRLNNQSWVLNIDSKGQFNNVPPELNDMCRIISHVHQHHHYLLGRVEV" "c" "Han et al., 2011" -"G7498-MONOMER" "MLILKNVTAVQLHPAKVQEGVDIAIENDVIVAIGDALTQRYPDASFKEMHGRIVMPGIVCSHNHFYSGLSRGIMANIAPCPDFISTLKNLWWRLDRALDEESLYYSGLICSLEAIKSGCTSVIDHHASPAYIGGSLSTLRDAFLKVGLRAMTCFETTDRNNGIKELQEGVEENIRFARLIDEAKKATSEPYLVEAHIGAHAPFTVPDAGLEMLREAVKATGRGLHIHAAEDLYDVSYSHHWYGKDLLARLAQFDLIDSKTLVAHGLYLSKDDITLLNQRDAFLVHNARSNMNNHVGYNHHLSDIRNLALGTDGIGSDMFEEMKFAFFKHRDAGGPLWPDSFAKALTNGNELMSRNFGAKFGLLEAGYKADLTICDYNSPTPLLADNIAGHIAFGMGSGSVHSVMVNGVMVYEDRQFNFDCDSIYAQARKAAASMWRRMDALA" "c" "Han et al., 2011" -"G7499-MONOMER" "MIEQFFRPDSVEQALELKRRYQDEAVWFAGGSKLNATPTRTDKKIAISLQDLELDWVDWDNGALRIGAMSRLQPLRDARFIPAALREALGFVYSRHVRNQSTIGGEIAARQEESVLLPVLLALDAELVFGNGETLSIEDYLACPCDRLLTEIIIKDPYRTCATRKISRSQAGLTVVTAAVAMTDHDGMRIALDGVASKALRLHDVEKQNLEGNALEQAVANAIFPQEDLRGSVAYKRYITGVLVADLYADCQQAGEEAV" "c" "EcoCyc dump" -"G7500-MONOMER" "MIIHFTLNGAPQELTVNPGENVQKLLFNMGMHSVRNSDDGFGFAGSDAIIFNGNIVNASLLIAAQLEKADIRTAESLGKWNELSLVQQAMVDVGVVQSGYNDPAAALIITDLLDRIAAPTREEIDDALSGLFSRDAGWQQYYQVIELAVARKNNPQATIDIAPTFRDDLEVIGKHYPKTDAAKMVQAKPCYVEDRVTADACVIKMLRSPHAHALITHLDVSKAEALPGVVHVITHLNCPDIYYTPGGQSAPEPSPLDRRMFGKKMRHVGDRVAAVVAESEEIALEALKLIDVEYEVLKPVMSIDEAMAEDAPVVHDEPVVYVAGAPDTLEDDNSHAAQRGEHMIINFPIGSRPRKNIAASIHGHIGDMDKGFADADVIIERTYNSTQAQQCPTETHICFTRMDGDRLVIHASTQVPWHLRRQVARLVGMKQHKVHVIKERVGGGFGSKQDILLEEVCAWATCVTGRPVLFRYTREEEFIANTSRHVAKVTVKLGAKKDGRLTAVKMDFRANTGPYGNHSLTVPCNGPALSLPLYPCDNVDFQVTTYYSNICPNGAYQGYGAPKGNFAITMALAELAEQLQIDQLEIIERNRVHEGQELKILGAIGEGKAPTSVPSAASCALEEILRQGREMIQWSSPKPQNGDWHIGRGVAIIMQKSGIPDIDQANCMIKLESDGTFIVHSGGADIGTGLDTVVTKLAAEVLHCPPQDVHVISGDTDHALFDKGAYASSGTCFSGNAARLAAENLREKILFHGAQMLGEPVADVQLATPGVVRGKKGEVSFGDIAHKGETGTGFGSLVGTGSYITPDFAFPYGANFAEVAVNTRTGEIRLDKFYALLDCGTPVNPELALGQIYGATLRAIGHSMSEEIIYDAEGHPLTRDLRSYGAPKIGDIPRDFRAVLVPSDDKVGPFGAKSISEIGVNGAAPAIATAIHDACGIWLREWHFTPEKILTALEKI" "c" "EcoCyc dump" -"G7502-MONOMER" "MMSGEHTLKAVRGSFIDVTRTIDNPEEIASALRFIEDGLLLIKQGKVEWFGEWENGKHQIPDTIRVRDYRGKLIVPGFVDTHIHYPQSEMVGAYGEQLLEWLNKHTFPTERRYEDLEYAREMSAFFIKQLLRNGTTTALVFGTVHPQSVDALFEAASHINMRMIAGKVMMDRNAPDYLLDTAESSYHQSKELIERWHKNGRLLYAITPRFAPTSSPEQMAMAQRLKEEYPDTWVHTHLCENKDEIAWVKSLYPDHDGYLDVYHQYGLTGKNCVFAHCVHLEEKEWDRLSETKSSIAFCPTSNLYLGSGLFNLKKAWQKKVKVGMGTDIGAGTTFNMLQTLNEAYKVLQLQGYRLSAYEAFYLATLGGAKSLGLDDLIGNFLPGKEADFVVMEPTATPLQQLRYDNSVSLVDKLFVMMTLGDDRSIYRTYVDGRLVYERN" "c" "Han et al., 2011" -"G7504-MONOMER" "MSGDILQTPDAPKPQGALDNYFKITARGSTVRQEVLAGLTTFLAMVYSVIVVPGMLGKAGFPPAAVFVATCLVAGFGSLLMGLWANLPMAIGCAISLTAFTAFSLVLGQQISVPVALGAVFLMGVIFTAISVTGVRTWILRNLPMGIAHGTGIGIGLFLLLIAANGVGMVIKNPIEGLPVALGAFTSFPVMMSLLGLAVIFGLEKCRVPGGILLVIIAISIIGLIFDPAVKYHGLVAMPSLTGEDGKSLIFSLDIMGALQPTVLPSVLALVMTAVFDATGTIRAVAGQANLLDKDNQIINGGKALTSDSVSSIFSGLVGAAPAAVYIESAAGTAAGGKTGLTATVVGALFLLILFLSPLSFLIPGYATAPALMYVGLLMLSNVSKLDFNDFIDAMAGLVCAVFIVLTCNIVTGIMLGFVTLVVGRVFAREWQKLNIGTVIITAALVAFYAGGWAI" "i" "Han et al., 2011" -"G7505-MONOMER" "MKSLIIVNPADCIGCRTCEVACVVAHPSEQELNADVFLPRLKVQRLDSISAPVMCHQCENAPCVGACPVGALTMGEQVVQTNSARCIGCQSCVSACPFGMITIQSLPGDTRQQIVKCDLCEQREEGPACVESCPTQALQLLTERELRRVRQQRIVASGENPL" "i" "Han et al., 2011" -"G7506-MONOMER" "MNKFIAAEAAECIGCHACEIACAVAHNQENWPLSHSDFRPRIHVVGKGQAANPVACHHCNNAPCVTACPVNALTFQSDSVQLDEQKCIGCKRCAIACPFGVVEMVDTIAQKCDLCNQRSSGTQACIEVCPTQALRLMDDKGLQQIKVARQRKTAAGKASSDAQPSRSAALLPVNSRKGADKISASERKTHFGEIYCGLDPQQATYESDRCVYCAEKANCNWHCPLHNAIPDYIRLVQEGKIIEAAELCHQTSSLPEICGRVCPQDRLCEGACTLKDHSGAVSIGNLERYITDTALAMGWRPDVSKVVPRSEKVAVIGAGPAGLGCADILARAGVQVDVFDRHPEIGGMLTFGIPPFKLDKTVLSQRREIFTAMGIDFHLNCEIGRDITFSDLTSEYDAVFIGVGTYGMMRADLPHEDAPGVIQALPFLTAHTRQLMGLPESEEYPLTDVEGKRVVVLGGGDTTMDCLRTSIRLNAASVTCAYRRDEVSMPGSRKEVVNAREEGVEFQFNVQPQYIACDEDGRLTAVGLIRTAMGEPGPDGRRRPRPVAGSEFELPADVLIMAFGFQAHAMPWLQGSGIKLDKWGLIQTGDVGYLPTQTHLKKVFAGGDAVHGADLVVTAMAAGRQAARDMLTLFDTKAS" "c" "Han et al., 2011" -"G7509-MONOMER" "VVLWQSDLRVSWRAQWLSLLIHGLVAAVILLMPWPLSYTPLWMVLLSLVVFDCVRSQRRINARQGEIRLLMDGRLRWQGQEWSIVKAPWMIKSGMMLRLRSDGGKRQHLWLAADSMDEAEWRDLRRILLQQETQR" "i" "Han et al., 2011" -"G7510-MONOMER" "MDINNKARIHWACRRGMRELDISIMPFFEHEYDSLSDDEKRIFIRLLECDDPDLFNWLMNHGKPADAELEMMVRLIQTRNRERGPVAI" "c" "Han et al., 2011" -"G7511-MONOMER" "MAFTPFPPRQPTASARLPLTLMTLDDWALATITGADSEKYMQGQVTADVSQMAEDQHLLAAHCDAKGKMWSNLRLFRDGDGFAWIERRSVREPQLTELKKYAVFSKVTIAPDDERVLLGVAGFQARAALANLFSELPSKEKQVVKEGATTLLWFEHPAERFLIVTDEATANMLTDKLRGEAELNNSQQWLALNIEAGFPVIDAANSGQFIPQATNLQALGGISFKKGCYTGQEMVARAKFRGANKRALWLLAGSASRLPEAGEDLELKMGENWRRTGTVLAAVKLEDGQVVVQVVMNNDMEPDSIFRVRDDANTLHIEPLPYSLEE" "c" "Lopez-Campistrous et al., 2005" -"G7512-MONOMER" "MVQKPLIKQGYSLAEEIANSVSHGIGLVFGIVGLVLLLVQAVDLNASATAITSYSLYGGSMILLFLASTLYHAIPHQRAKMWLKKFDHCAIYLLIAGTYTPFLLVGLDSPLARGLMIVIWSLALLGILFKLTIAHRFKILSLVTYLAMGWLSLVVIYEMAVKLAAGSVTLLAVGGVVYSLGVIFYVCKRIPYNHAIWHGFVLGGSVCHFLAIYLYIGQA" "i" "Han et al., 2011" -"G7513-MONOMER" "MQPNDITFFQRFQDDILAGRKTITIRDESESHFKTGDVLRVGRFEDDGYFCTIEVTATSTVTLDTLTEKHAEQENMTLTELKKVIADIYPGQTQFYVIEFKCL" "c" "Han et al., 2011" -"G7514-MONOMER" "MAIALVTGGSRGIGRATALLLAQEGYTVAVNYQQNLHAAQEVMNLITQAGGKAFVLQADISDENQVVAMFTAIDQHDEPLAALVNNAGILFTQCTVENLTAERINRVLSTNVTGYFLCCREAVKRMALKNGGSGGAIVNVSSVASRLGSPGEYVDYAASKGAIDTLTTGLSLEVAAQGIRVNCVRPGFIYTEMHASGGEPGRVDRVKSNIPMQRGGQAEEVAQAIVWLLSDKASYVTGSFIDLAGGK" "c" "Han et al., 2011" -"G7515-MONOMER" "MHFAQRVRALVVLNGVALLPQFACKQGLANGELVRLFAPWSGIPRPLYALFAGRKGMPAIARYFMDELTTRLANGV" "c" "Han et al., 2011" -"G7516-MONOMER" "MSYQYVNVVTINKVAVIEFNYGRKLNALSKVFIDDLMQALSDLNRPEIRCIILRAPSGSKVFSAGHDIHELPSGGRDPLSYDDPLRQITRMIQKFPKPIISMVEGSVWGGAFEMIMSSDLIIAASTSTFSMTPVNLGVPYNLVGIHNLTRDAGFHIVKELIFTASPITAQRALAVGILNHVVEVEELEDFTLQMAHHISEKAPLAIAVIKEELRVLGEAHTMNSDEFERIQGMRRAVYDSEDYQEGMNAFLEKRKPNFVGH" "c" "Han et al., 2011" -"G7517-MONOMER" "METQWTRMTANEAAEIIQHNDMVAFSGFTPAGSPKALPTAIARRANEQHEAKKPYQIRLLTGASISAAADDVLSDADAVSWRAPYQTSSGLRKKINQGAVSFVDLHLSEVAQMVNYGFFGDIDVAVIEASALAPDGRVWLTSGIGNAPTWLLRAKKVIIELNHYHDPRVAELADIVIPGAPPRRNSVSIFHAMDRVGTRYVQIDPKKIVAVVETNLPDAGNMLDKQNPMCQQIADNVVTFLLQEMAHGRIPPEFLPLQSGVGNINNAVMARLGENPVIPPFMMYSEVLQESVVHLLETGKISGASASSLTISADSLRKIYDNMDYFASRIVLRPQEISNNPEIIRRLGVIALNVGLEFDIYGHANSTHVAGVDLMNGIGGSGDFERNAYLSIFMAPSIAKEGKISTVVPMCSHVDHSEHSVKVIITEQGIADLRGLSPLQRARTIIDNCAHPMYRDYLHRYLENAPGGHIHHDLSHVFDLHRNLIATGSMLG" "c" "Han et al., 2011" -"G7518-MONOMER" "MDIFISKKMRNFILLAQTNNIARAAEKIHMTASPFGKSIAALEEQIGYTLFTRKDNNISLNKAGQELYQKLFPVYQRLSAIDNEIHNSGRRSREIVIGIDNTYPTIIFDQLISLGDKYEGVTAQPVEFSENGVIDNLFDRQLDFIISPQHVSARVQELENLTISELPPLRLGFLVSRRYEERQEQELLQELPWLQMRFQNRANFEAMIDANMRPCGINPTIIYRPYSFMAKISAVERGHFLTVIPHFAWRLVNPATLKYFDAPHRPMYMQEYLYSIRNHRYTATMLQHIAEDRDGTSH" "c" "Han et al., 2011" -"G7520-MONOMER" "MKTKVAAIYGKRDVRLRVFELPEITDNELLVSVISDSVCLSTWKAALLGSEHKRVPDDLENHPVITGHECAGVIVEVGKNLTGKYKKGQRFVLQPAMGLPSGYSAGYSYEYFGGNATYMIIPEIAINLGCVLPYHGSYFAAASLAEPMCCIIGAYHANYHTTQYVYEHRMGVKPGGNIALLACAGPMGIGAIDYAINGGIQPSRVVVVDIDDKRLAQVQKLLPVELAASKGIELVYVNTKGMSDPVQMLRALTGDAGFDDIFVYAAVPAVVEMADELLAEDGCLNFFAGPTDKNFKVPFNFYNVHYNSTHVVGTSGGSTDDMKEAIALSATGQLQPSFMVTHIGGLDAVPETVLNLPDIPGGKKLIYNGVTMPLTAIADFAEKGKTDPLFKELARLVEETHGIWNEQAEKYLLAQFGVDIGEAAQ" "c" "Han et al., 2011" -"G7521-MONOMER" "MKKKPVAQLERQHSLLENPCAYGLLSQFQAAIVVNCFTLNKII" "c" "Han et al., 2011" -"G7522-MONOMER" "MGITSAGMQSRDAECGERIFTRTVRQVKQQTTVHYFVSPPRPPVKTNPQAKTLISTRLEVATRKKRRVLFI" "c" "Han et al., 2011" -"G7523-MONOMER" "VVADPTTTLQVKNTGSLSVNRYGWINIWMAILGQFFTLFPLFFESCLILLKTWLEIFPDNAGILRIYLLQFSAIVGYKTRRAA" "c" "Han et al., 2011" -"G7524-MONOMER" "MNLQHHFLIAMPALQDPIFRRSVVYICEHNTNGAMGIIVNKPLENLKIEGILEKLKITPEPRDESIRLDKPVMLGGPLAEDRGFILHTPPSNFASSIRISDNTVMTTSRDVLETLGTDKQPSDVLVALGYASWEKGQLEQEILDNAWLTAPADLNILFKTPIADRWREAAKLIGVDILTMPGVAGHA" "c" "Lopez-Campistrous et al., 2005" -"G7525-MONOMER" "MSGTLLAFDFGTKSIGVAVGQRITGTARPLPAIKAQDGTPDWNIIERLLKEWQPDEIIVGLPLNMDGTEQPLTARARKFANRIHGRFGVEVKLHDERLSTVEARSGLFEQGGYRALNKGKVDSASAVIILESYFEQGY" "c" "Han et al., 2011" -"G7526-MONOMER" "MNMEEIVALSVKHNVSDLHLCSAWPARWRIRGRMEAAPFDTPDVEELLREWLDDDQRAILLENGQLDFAVSLAENQRLRGSAFAQRHGISLALRLLPSHCPQLEQLGAPTVLPELLKSENGLILVTGATGSGKSTTLAAMVGYLNQHADAHILTLEDPVEYLYASQRCLIQQREIGLHCMTFASGLRAALREDPDVILLGELRDSETIRLALTAAETGHLVLATLHTRGAAQAVERLVDSFPAQEKDPVRNQLAGSLRAVLSQKLEVDKQEGRVALFELLINTPAVGNLIREGKTHQLPHVIQTGQQVGMITFQQSYQHRVGEGRL" "c" "Han et al., 2011" -"G7527-MONOMER" "MNDIAHNLAQVRDKISAAATRCGRSPEEITLLAVSKTKPASAIAEAIDAGQRQFGENYVQEGVDKIRHFQELGVTGLEWHFIGPLQSNKSRLVAEHFDWCHTIDRLRIATRLNDQRPAELPPLNVLIQINISDENSKSGIQLAELDELAAAVAELPRLRLRGLMAIPAPESEYVRQFEVARQMAVAFAGLKTRYPHIDTLSLGMSDDMEAAIAAGSTMVRIGTAIFGARDYSKK" "c" "Han et al., 2011" -"G7528-MONOMER" "MNTLTFLLSTVIELYTMVLLLRIWMQWAHCDFYNPFSQFVVKVTQPIIGPLRRVIPAMGPIDSASLLVAYILSFIKAIVLFKVVTFLPIIWIAGLLILLKTIGLLIFWVLLVMAIMSWVSQGRSPIEYVLIQLADPLLRPIRRLLPAMGGIDFSPMILVLLLYVINMGVAEVLQATGNMLLPGLWMAL" "i" "Han et al., 2011" -"G7529-MONOMER" "MNAVTVNDDGLVLRLYIQPKASRDSIVGLHGDEVKVAITAPPVDGQANSHLVKFLGKQFRVAKSQVVIEKGELGRHKQIKIINPQQIPPEIAALIN" "c" "Han et al., 2011" -"G7530-MONOMER" "MQKVVLATGNVGKVRELASLLSDFGLDIVAQTDLGVDSAEETGLTFIENAILKARHAAKVTALPAIADDSGLAVDVLGGAPGIYSARYSGEDATDQKNLQKLLETMKDVPDDQRQARFHCVLVYLRHAEDPTPLVCHGSWPGVITREPAGTGGFGYDPIFFVPSEGKTAAELTREEKSAISHRGQALKLLLDALRNG" "c" "Han et al., 2011" -"G7531-MONOMER" "MVKLPPLSLYIHIPWCVQKCPYCDFNSHALKGEVPHDDYVQHLLNDLDNDVAYAQGREVKTIFIGGGTPSLLSGPAMQTLLDGVRARLPLAADAEITMEANPGTVEADRFVDYQRAGVNRISIGVQSFSEEKLKRLGRIHGPQEAKRAAKLASGLGLRSFNLDLMHGLPDQSLEEALGDLRQAIELNPPHLSWYQLTIEPNTLFGSRPPVLPDDDALWDIFEQGHQLLTAAGYQQYETSAYAKPGYQCQHNLNYWRFGDYIGIGCGAHGKVTFPDGRILRTTKTRHPRGFMQGRYLESQRDVEATDKPFEFFMNRFRLLEAAPRVEFIAYTGLCEDVIRPQLDEAIAQGYLTECADYWQITEHGKLFLNSLLELFLAE" "c" "Han et al., 2011" -"G7532-MONOMER" "MSRTIFCTFLQREAEGQDFQLYPGELGKRIYNEISKEAWAQWQHKQTMLINEKKLNMMNAEHRKLLEQEMVNFLFEGKEVHIEGYTPEDKK" "c" "Han et al., 2011" -"G7533-MONOMER" "MKKYLALALIAPLLISCSTTKKGDTYNEAWVKDTNGFDILMGQFAHNIENIWGFKEVVIAGPKDYVKYTDQYQTRSHINFDDGTITIETIAGTEPAAHLRRAIIKTLLMGDDPSSVDLYSDVDDITISKEPFLYGQVVDNTGQPIRWEGRASNFADYLLKNRLKSRSNGLRIIYSVTINMVPNHLDKRAHKYLGMVRQASRKYGVDESLILAIMQTESSFNPYAVSRSDALGLMQVVQHTAGKDVFRSQGKSGTPSRSFLFDPASNIDTGTAYLAMLNNVYLGGIDNPTSRRYAVITAYNGGAGSVLRVFSNDKIQAANIINTMTPGDVYQTLTTRHPSAESRRYLYKVNTAQKSYRRR" "o" "Han et al., 2011" -"G7534-MONOMER" "VVIGPFINASAVLLGGVLGALLSQRLPERIRVSMTSIFGLASLGIGILLVVKCANLPAMVLATLLGALIGEICLLEKGVNTAVAKAQNLFRHSRKKPAHESFIQNYVAIIVLFCASGTGIFGAMNEGMTGDPSILIAKSFLDFFTAMIFACSLGIAVSVISIPLLIIQLTLAWAAALILPLTTPSMMADFSAVGGLLLLATGLRICGIKMFPVVNMLPALLLAMPLSAAWTAWFA" "i" "Han et al., 2011" -"G7535-MONOMER" "MLRDKFIHYFQQWRERQLSRGEHWLAQHLAGRSPREKGMLLAAVVFLFSVGYYVLIWQPLSERIEQQETILQQLVAMNTRLKNAAPDIIAARKSATTTPAQVSRVISDSASAHSVVIRRIADRGENIQVWIEPVVFNDLLKWLNALDEKYALRVTQIDVSAAEKPGMVNVQRLEFGRG" "c" "Han et al., 2011" -"G7536-MONOMER" "VIHQQHMRNIAQWLQENGITRATVAPDWMSIPCGFMACDAQRVICRIDECRGWSAGLALAPVMFRAQLNEQDLPLSLTVVGIAPEKLSAWAGADAERLTVTALPAITTYGEPEGNLLTGPWQPRVSYRKQWARWRVMILPILLILVALAVERGVTLWSVSEQVAQSRTQAEEQFLTLFPEQKRIVNLRSQVTMALKKYRPQADDTRLLAELSAIASTLKSASLSDIEMRGFTFDQKRQILHLQLRAANFASFDKLRSVLATDYVVQQDALQKEGDAVSGGVTLRRK" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7537-MONOMER" "MFWLMLLIISAKMAHSLWRYISFSAEYTAVSQPVNKPSRVDAKTFDKNDVQLISQQNWFGKYQPVAAQVKQPEPVPVAETRLNVVLRGIAFGARPGAVIEEGGKQQVYLQGETLGSHNAVIEEINRDHVMLRYQGKIERLSLAEEERSTVAVTNKKAVSDEAKQAVAEPAVSVPVEIPAAVRQALAKDPQKIFNYIQLTPVRKEGIVGYAAKPGADRSLFDASGFKEGDIAIALNQQDFTDPRAMIALMRQLPSMDSIQLTVLRKGARHDISIALRYRLFCPPYWKKS" "i" "Han et al., 2011" -"G7538-MONOMER" "MSIKQMPGRVLISLLLSVTGLLSGCASHNENASLLAKKQAQNISQNLPIKSAGYTLVLAQSSGTTVKMTIISEAGTQTTQTPDAFLTSYQRQMCADPTVKLMITEGINYSITINDTRTGNQYQRKLDRTTCGIVKA" "o" "Han et al., 2011" -"G7539-MONOMER" "MLFDVFQQYPTAMPVLATVGGLIIGSFLNVVIWRYPIMLRQQMAEFHGEMSSAQSKISLALPRSHCPHCQQTIRIRDNIPLFSWLMLKGRCRDCQAKISKRYPLVELLTALAFLLASLVWPESGWGLAVMILSAWLIAASVIDLDHQWLPDVFTQGVLWTGLIAAWAQQSPLTLQDAVTGVLVGFITFYSLRWIAGIVLRKEALGMGDVLLFAALGGWVGALSLPNVALIASCCGLIYAVITKRGSTTLPFGPCLSLGGIATLYLQALF" "i" "Han et al., 2011" -"G7541-MONOMER" "MNKKFKYKKSLLAAILSATLLAGCDGGGSGSSSDTPPVDSGTGSLPEVKPDPTPNPEPTPEPTPDPEPTPEPIPDPEPTPEPEPEPVPTKTGYLTLGGSQRVTGATCNGESSDGFTFKPGEDVTCVAGNTTIATFNTQSEAARSLRAVEKVSFSLEDAQELAGSDDKKSNAVSLVTSSNSCPANTEQVCLTFSSVIESKRFDSLYKQIDLAPEEFKKLVNEEVENNAATDKAPSTHTSPVVPVTTPGTKPDLNASFVSANAEQFYQYQPTEIILSEGRLVDSQGYGVAGVNYYTNSGRGVTGENGEFSFSWGETISFGIDTFELGSVRGNKSTIALTELGDEVRGANIDQLIHRYSTTGQNNTRVVPDDVRKVFAEYPNVINEIINLSLSNGATLGEGEQVVNLPNEFIEQFNTGQAKEIDTAICAKTDGCNEARWFSLTTRNVNDGQIQGVINKLWGVDTNYKSVSKFHVFHDSTNFYGSTGNARGQAVVNISNAAFPILMARNDKNYWLAFGEKRAWDKNELAYITEAPSLVEPENVTRDTATFNLPFISLGQVGEGKLMVIGNPHYNSILRCPNGYSWNGGVNKDGQCTLNSDPDDMKNFMENVLRYLSDDKWKPDAKASMTVGTNLDTVYFKRHGQVTGNSAAFDFHPDFAGISVEHLSSYGDLDPQEMPLLILNGFEYVTQVGNDPYAIPLRADTSKPKLTQQDVTDLIAYLNKGGSVLIMENVMSNLKEESASGFVRLLDAAGLSMALNKSVVNNDPQGYPNRVRQQRATGIWVYERYPAVDGALPYTIDSKTGEVKWKYQVENKPDDKPKLEVASWLEDVDGKQETRYAFIDEADHKTEDSLKAAKEKIFAAFPGLKECTNPAYHYEVNCLEYRPGTGVPVTGGMYVPQYTQLSLNADTAKAMVQAADLGTNIQRLYQHELYFRTNGRKGERLSSVDLERLYQNMSVWLWNDTSYRYEEGKNDELGFKTFTEFLNCYANDAYAGGTKCSADLKKSLVDNNMIYGDGSSKAGMMNPSYPLNYMEKPLTRLMLGRSWWDLNIKVDVEKYPGAVSEEGQNVTETISLYSNPTKWFAGNMQSTGLWAPAQKEVTIKSNANVPVTVTVALADDLTGREKHEVALNRPPRVTKTYSLDASGTVKFKVPYGGLIYIKGNSSTNESASFTFTGVVKAPFYKDGAWKNDLNSPAPLGELESDAFVYTTPKKNLNASNYTGGLEQFANDLDTFASSMNDFYGRDSEDGKHRMFTYKNLPGHKHRFTNDVQISIGDAHSGYPVMNSSFSPNSTTLPTTPLNDWLIWHEVGHNAAETPLTVPGATEVANNVLALYMQDRYLGKMNRVADDITVAPEYLEESNNQAWARGGAGDRLLMYAQLKEWAEKNFDIKKWYPDGTPLPEFYSEREGMKGWNLFQLMHRKARGDEVSNDKFGGKNYCAESNGNAADTLMLCASWVAQTDLSEFFKKWNPGANAYQLPGASEMSFEGGVSQSAYNTLASLDLPKPEQGPETINQVTEHKMSAE" "i" "Han et al., 2011" -"G7543-MONOMER" "MKTKVILSQQMASAIIAAGQEEAQKNNWSVSIAVADDGGHLLALSRMDDCAPIAAYISQEKARTAALGRRETKGYEEMVNNGRTAFVTAPLLTSLEGGVPVVVDGQIIGAVGVSGLTGAQDAQVAKAAAAVLAK" "c" "Han et al., 2011" -"G7544-MONOMER" "MLRECDYSQALLEQVNQAISDKTPLVIQGSNSKAFLGRPVTGQTLDVRCHRGIVNYDPTELVITARVGTPLVTIEAALESAGQMLPCEPPHYGEEATWGGMVACGLAGPRRPWSGSVRDFVLGTRIITGAGKHLRFGGEVMKNVAGYDLSRLMVGSYGCLGVLTEISMKVLPRPRASLSLRREISLQEAMSEIAEWQLQPLPISGLCYFDNALWIRLEGGEGSVKAARELLGGEEVAGQFWQQLREQQLPFFSLPGTLWRISLPSDAPMMDLPGEQLIDWGGALRWLKSTAEDNQIHRIARNAGGHATRFSAGDGGFAPLSAPLFRYHQQLKQQLDPCGVFNPGRMYAEL" "c" "EcoCyc dump" -"G7545-MONOMER" "MSILYEERLDGALPDVDRTSVLMALREHVPGLEILHTDEEIIPYECDGLSAYRTRPLLVVLPKQMEQVTAILAVCHRLRVPVVTRGAGTGLSGGALPLEKGVLLVMARFKEILDINPVGRRARVQPGVRNLAISQAVAPHNLYYAPDPSSQIACSIGGNVAENAGGVHCLKYGLTVHNLLKIEVQTLDGEALTLGSDALDSPGFDLLALFTGSEGMLGVTTEVTVKLLPKPPVARVLLASFDSVEKAGLAVGDIIANGIIPGGLEMMDNLSIRAAEDFIHAGYPVDAEAILLCELDGVESDVQEDCERVNDILLKAGATDVRLAQDEAERVRFWAGRKNAFPAVGRISPDYYCMDGTIPRRALPGVLEGIARLSQQYDLRVANVFHAGDGNMHPLILFDANEPGEFARAEELGGKILELCVEVGGSISGEHGIGREKINQMCAQFNSDEITTFHAVKAAFDPDGLLNPGKNIPTLHRCAEFGAMHVHHGHLPFPELERF" "c" "Han et al., 2011" -"G7546-MONOMER" "MKDERRPICEVVAESIERLIIDGVLKVGQPLPSERRLCEKLGFSRSALREGLTVLRGRGIIETAQGRDSRVARLNRVQDTSPLIHLFSTQPRTLYDLLDVRALLEGESARLAATLGTQADFVVITRCYEKMLAASENNKEISLIEHAQLDHAFHLAICQASHNQVLVFTLQSLTDLMFNSVFASVNNLYHRPQQKKQIDRQHARIYNAVLQRLPHVAQRAARDHVRTVKKNLHDIELEGHHLIRSAVPLEMNLS" "c" "Han et al., 2011" -"G7547-MONOMER" "MMNPVLWLQMTNMISYQGLVRTFLNKNDLKAFIAFPSSLYPDDPNWIPPLFIERNEHLSAKNPGTDHIIWQAWVAKKAGQIVGRITAQIDTLHRERYGKDTGHFGMIDAIDDPQVFAALFGAAEAWLKSQGASKISGPFSLNINQESGLLIEGFDTPPCAMMPHGKPWYAAHIEQLGYHKGIDLLAWWMQRTDLTFSPALKKLMDQVRKKVTIRCINRQRFAEEMQILREIFNSGWQHNWGFVPFTEHEFATMGDQLKYLVPDDMIYIAEIDSAPCAFIVGLPNINEAIADLNGSLFPFGWAKLLWRLKVSGVRTARVPLMGVRDEYQFSRIGPVIALLLIEALRDPFARRKIDALEMSWILETNTGMNNMLERIGAEPYKRYRLYEKQI" "c" "Han et al., 2011" -"G7549-MONOMER" "LAGFNIKHWFADGAFRTIIRNSAWLGSSNVVSALLGLLALSCAGKGMTPAMFGVLVIVQSYAKSISDFIKFQTWQLVVQYGTPALTNNNPQQFRNVVSFSFSLDIVSGAVAIVGGIALLPFLSHSLGLDDQSFWLAALYCTLIPSMASSTPTGILRAVDRFDLIAVQQATKPFLRAAGSVVAWYFDFGFAGFVIAWYVSNLVGGTMYWWFAARELRRRNIHNAFKLNLFESARYIKGAWSFVWSTNIAHSIWSARNSCSTVLVGIVLGPAAAGLFKIAMTFFDAAGTPAGLLGKSFYPEVMRLDPRTTRPWLLGVKSGLLAGGIGILVALAVLIVGKPLISLVFGVKYLEAYDLI" "i" "Han et al., 2011" -"G7550-MONOMER" "MDALQTQTVNSTTAPQPNYIPGLIAVVGCDGTGKSTLTTDLVKSLQQHWQTERRYLGLLSGEDGDKIKRLPLVGVWLERRLAAKSSKTQSMKTKSPALWAAVIMYCFSLRRMANLRKVQRLAQSGVLVVSDRFPQAEISGFYYDGPGIGVERATGKISMFLAQRERRLYQQMAQYRPELIIRLGIDIETAISRKPDHDYAELQDKIGVMSKIGYNGTKILEIDSRAPYSEVLEQAQKAVSLVAIVSDRRSLT" "c" "Han et al., 2011" -"G7551-MONOMER" "VNQRNMSIINSTPVRVIAIVGCDGSGKSTLTASLVNELAARMPTEHIYLGQSSGRIGEWISQLPVIGAPFGRYLRSKAAHVHEKPSTPPGNITALVIYLLSCWRAYKFRKMLCKSQQGFLLITDRYPQVEVPGFRFDGPQLAKTTGGNGWIKMLRQRELKLYQWMASYLPVLLIRLGIDEQTAFARKPDHQLAALQEKIAVTPQLTFNGAKILELDGRHPADEILQASLRAIHAALS" "c" "Han et al., 2011" -"G7552-MONOMER" "MQSITPPLIAVIGSDGSGKSTVCEHLITVVEKYGAAERVHLGKQAGNVGRAVTKLPLMGKSLHKTIERNQVKTAKKLPGPVPALVITAFVARRLLRFRHMLACRRRGLIVLTDRYPQDQIPGAYDGTVFPPNVEGGRFVSWLASQERKAFHWMASHKPDLVIKLNVDLEVACARKPDHKRESLARKIAITPQLTFGGAQLVDIDANQPLEQVLVDAEKAITDFMTARGYH" "c" "Han et al., 2011" -"G7553-MONOMER" "MTDNTYQPAKVWTWDKSAGGAFANINRPVSGPTHEKTLPVGKHPLQLYSLGTPNGQKVTIMLEELLALGVTGAEYDAWLIRIGDGDQFSSGFVEVNPNSKIPALRDHTHNPPIRVFESGSILLYLAEKFGYFLPQDLAKRTETMNWLFWLQGAAPFLGGGFGHFYHYAPVKIEYAINRFTMEAKRLLDVLDKQLAQHKFVAGDEYTIADMAIWPWFGNVVLGGVYDAAEFLDAGSYKHVQRWAKEVGERPAVKRGRIVNRTNGPLNEQLHERHDASDFETNTEDKRQG" "c" "Han et al., 2011" -"G7555-MONOMER" "MNNHFGKGLMAGLKATHADSAVNVTKFCADYKRGFVLGYSHRMYEKTGDRQLSAWEAGILTRRYGLDKEMVMDFFRENNSCSTLRFFMAGYRLEN" "c" "Han et al., 2011" -"G7556-MONOMER" "MNDFFAAIEFMQRYPQATGKVGITGFCYGGGVSNAAAVAYPELACAVPFYGRQAPTADVAKIEAPLLLHFAELDTRINEGWPAYEAALKANNKVYEAYIYPGVNHGFHNDSTPRYDKSAADLAWQRTLKWFDKYLS" "c" "Han et al., 2011" -"G7557-MONOMER" "MTALALFDLLKPNYALATQVEFTDPEIVAEYITYPSPNGHGEVRGYLVKPAKMSGKTPAVVVVHENRGLNPYIEDVARRVAKAGYIALAPDGLSSVGGYPGNDDKGRELQQQVDPTN" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7558-MONOMER" "MVWLANPERYGQMQYRYCGKSGLRLPALSLGLWHNFGHVNALESQRAILRKAFDLGITHFDLANNYGPPPGSAEENFGRLLREDFAAYRDELIISTKAGYDMWPGPYGSGGSRKYLLASLDQSLKRMGLEYVDIFYSHRVDENTPMEETASALAHAVQSGKALYVGISSYSPERTQKMVELLREWKIPLLIHQPSYNLLNRWVDKSGLLDTLQNNGVGCIAFTPLAQGLLTGKYLNGIPQDSRMHREGNKVRGLTPKMLTEANLNSLRLLNEMAQQRGQSMAQMALSWLLKDDRVTSVLIGASRAEQLEENVQALNNLTFSTKELAQIDQHIADGELNLWQASSDK" "c" "Han et al., 2011" -"G7559-MONOMER" "MERFLENAMYASRWLLAPVYFGLSLALVALALKFFQEIIHVLPNIFSMAESDLILVLLSLVDMTLVGGLLVMVMFSGYENFVSQLDISENKEKLNWLGKMDATSLKNKVAASIVAISSIHLLRVFMDAKNVPDNKLMWYVIIHLTFVLSAFVMGYLDRLTRHNH" "i" "Han et al., 2011" -"G7563-MONOMER" "MLQNCAQSNCRIIPKKLRDMKREEICRLLADKVNKLKNKENSLSGLLPDVRLLYGETPFARTPVMYEPGIIILFSGHKIGYINERVFRYDANEYLLLTVPLPFECETYATSEVPLAGLRLNVDILQLQELLMDIGEDEHFQPSMAASGINSATLSEEILCAAERLLDVMERPLDARILGKQIIREILYYVLTGPCGGALLALVSRQTHFSLISRVLKRIENKYTENLSVEQLAAEANMSVSAFHHNFKSVTSTSPLQYLKNYRLHKARMMIIHDGMKASAAAMRVGYESASQFSREFKRYFGVTPGEDAARMRAMQGN" "c" "Han et al., 2011" -"G7564-MONOMER" "MNNFNLHTPTRILFGKGAIAGLREQIPHDARVLITYGGGSVKKTGVLDQVLDALKGMDVLEFGGIEPNPAYETLMNAVKLVREQKVTFLLAVGGGSVLDGTKFIAAAANYPENIDPWHILQTGGKEIKSAIPMGCVLTLPATGSESNAGAVISRKTTGDKQAFHSAHVQPVFAVLDPVYTYTLPPRQVANGVVDAFVHTVEQYVTKPVDAKIQDRFAEGILLTLIEDGPKALKEPENYDVRANVMWAATQALNGLIGAGVPQDWATHMLGHELTAMHGLDHAQTLAIVLPALWNEKRDTKRAKLLQYAERVWNITEGSDDERIDAAIAATRNFFEQLGVPTHLSDYGLDGSSIPALLKKLEEHGMTQLGENHDITLDVSRRIYEAAR" "c" "Han et al., 2011" -"G7566-MONOMER" "MKIILLFLAALASFTVHAQPPSQTVEQTVRHIYQNYKSDATAPYFGETGERAITSARIQQALTLNDNLTLPGNIGWLDYDPVCDCQDFGDLVLESVAITQTDADHADAVVRFRIFKDDKEKTTQTLKMVAENGRWVIDDIVSNHGSVLQAVNSENEKTLAALASLQKEQPEAFVAELFEHIADYSWPWTWVVSDSYRQAVNAFYKTTFKTANNPDEDMQIERQFIYDNPICFGEESLFSRVDEIRVLEKTADSARIHVRFTLTNGNNEEQELVLQRREGKWEIADFIRPNSGSLLKQIEAKTAARLKQ" "p" "Han et al., 2011" -"G7567-MONOMER" "MKTIFTVGAVVLATCLLSGCVNEQKVNQLASNVQTLNAKIARLEQDMKALRPQIYAAKSEANRANTRLDAQDYFDCLRCLRMYAE" "o" "Han et al., 2011" -"G7568-MONOMER" "MSSISLIQPDRDLFSWPQYWAACFGPAPFLPMSREEMDQLGWDSCDIILVTGDAYVDHPSFGMAICGRMLEAQGFRVGIIAQPDWSSKDDFMRLGKPNLFFGVTAGNMDSMINRYTADRRLRHDDAYTPDNVAGKRPDRATLVYTQRCKEAWKDVPVILGGIEASLRRTAHYDYWSDTVRRSVLVDSKADMLMFGNGERPLVEVAHRLAMGEPISEIRDVRNTAIIVKEALPGWSGVDSTRLDTPGKIDPIPHPYGEDLPCADNKPVAPKKQEAKAVTVQPPRPKPWEKTYVLLPSFEKVKGDKVLYAHASRILHHETNPGCARALMQKHGDRYVWINPPAIPLSTEEMDSVFALPYKRVPHPAYGNARIPAYEMIRFSVNIMRGCFGGCSFCSITEHEGRIIQSRSEDSIINEIEAIRDTVPGFTGVISDLGGPTANMYMLRCKSPRAEQTCRRLSCVYPDICPHMDTNHEPTINLYRRARDLKGIKKILIASGVRYDIAVEDPRYIKELATHHVGGYLKIAPEHTEEGPLSKMMKPGMGSYDRFKELFDTYSKQAGKEQYLIPYFISAHPGTRDEDMVNLALWLKKHRFRLDQVQNFYPSPLANSTTMYYTGKNPLAKIGYKSEDVFVPKGDKQRRLHKALLRYHDPANWPLIRQALEAMGKKHLIGSRRDCLVPAPTIEEMREARRQNRNTRPALTKHTPMATQRQTPATAKKASSTQSRPVNAGAKKRPKAAVGR" "c" "Han et al., 2011" -"G7571-MONOMER" "MKCPVCHQGEMVSGIKDIPYTFRGRKTVLKGIHGLYCVHCEESIMNKEESDAFMAQVKAFRASVNAETVAPEFIVKVRKKLSLTQKEASEIFGGGVNAFSRYEKGNAQPHPSTIKLLRVLDKHPELLNEIR" "c" "Han et al., 2011" -"G7572-MONOMER" "MEKRTPHTRLSQVKKLVNAGQVRTTRSALLNADELGLDFDGMCNVIIGLSESDFYKSMTTYSDHTIWQDVYRPRLVTGQVYLKITVIHDVLIVSFKEK" "c" "EcoCyc dump" -"G7573-MONOMER" "MTNLTLDVNIIDFPSIPVAMLPHRCSPELLNYSVAKFIMWRKETGLSPVNQSQTFGVAWDDPATTAPEAFRFDICGSVSEPIPDNRYGVSNGELTGGRYAVARHVGELDDISHTVWGIIRHWLPASGEKMRKAPILFHYTNLAEGVTEQRLETDVYVPLA" "c" "Han et al., 2011" -"G7574-MONOMER" "MKKFAAVIAVMALCSAPVMAAEQGGFSGPSATQSQAGGFQGPNGSVTTVESAKSLRDDTWVTLRGNIVERISDDLYVFKDASGTINVDIDHKRWNGVTVTPKDTVEIQGEVDKDWNSVEIDVKQIRKVNP" "o" "Han et al., 2011" -"G7575-MONOMER" "MRILLIEDDMLIGDGIKTGLSKMGFSVDWFTQGRQGKEALYSAPYDAVILDLTLPGMDGRDILREWREKGQREPVLILTARDALAERVEGLRLGADDYLCKPFALIEVAARLEALMRRTNGQASNELRHGNVMLDPGKRIATLAGEPLTLKPKEFALLELLMRNAGRVLSRKLIEEKLYTWDEEVTSNAVEVHVHHLRRKLGSDFIRTVHGIGYTLGEK" "c" "Han et al., 2011" -"G7577-MONOMER" "MLKQKIKTIFEALLYIMLTYWLIDSFFAFNKYDWMLESGGNICSIPSVSGEDRILQAMIAAFFLLTPLIILILRKLFMREMFEFWVYVFSLGICLVCGWWLFWGRFIFCY" "i" "Han et al., 2011" -"G7578-MONOMER" "MSTLLYLHGFNSSPRSAKASLLKNWLAEHHPDVEMIIPQLPPYPSDAAELLESIVLEHGGDSLGIVGSSLGGYYATWLSQCFMLPAVVVNPAVRPFELLTDYLGQNENPYTGQQYVLESRHIYDLKVMQIDPLEAPDLIWLLQQTGDEVLDYRQAVAYYASCRQTVIEGGNHAFTGFEDYFNPIVDFLGLHHL" "c" "Han et al., 2011" -"G7579-MONOMER" "LESLLTLPLAGEARVRILQITDTHLFAQKHEALLGVNTWESYQAVLEAIRPHQHEFDLIVATGDLAQDQSSAAYQHFAEGIASFRAPCVWLPGNHDFQPAMYSALQDAGISPAKRVFIGEQWQILLLDSQVFGVPHGELSEFQLEWLERKLADAPERHTLLLLHHHPLPAGCSWLDQHSLRNAGELDTVLAKFPHVKYLLCGHIHQELDLDWNGRRLLATPSTCVQFKPHCSNFTLDTIAPGWRTLELHADGTLTTEVHRLADTRFQPDTASEGY" "c" "Han et al., 2011" -"G7580-MONOMER" "MKRYTPDFPEMMRLCEMNFSQLRRLLPRNDAPGETVSYQVANAQYRLTIVESTRYTTLVTIEQTAPAISYWSLPSMTVRLYHDAMVAEVCSSQQIFRFKARYDYPNKKLHQRDEKHQINQFLADWLRYCLAHGAMAIPVY" "c" "Han et al., 2011" -"G7582-MONOMER" "MIDPKKIEQIARQVHESMPKGIREFGEDVEKKIRQTLQAQLTRLDLVSREEFDVQTQVLLRTREKLALLEQRISELENRSTEIKKQPDPETLPPTL" "c" "Han et al., 2011" -"G7585-MONOMER" "MSGNIGANPVIIIGCASAYAVEFNKDLIEAEDRENVNLSQFETDGQLPVGKYSLSTLINNKRTPIHLDLQWVLIDNQTAVCVTPEQLTLLGFTDEFIEKTQQNLIDGCYPIEKEKQITTYLDKGKMQLSISAPQAWLKYKDANWTPPELWNHGIAGAFLDYNLYASHYAPHQGDNSQNISSYGQAGVNLGAWRLRTDYQYDQSFNNGKSQATNLDFPRIYLFRPIPAMNAKLTIGQYDTESSIFDSFHFSGISLKSDENMLPPDLRGYAPQITGVAQTNAKVTVSQNNRIIYQENVPPGPFAITNLFNTLQGQLDVKVEEEDGRVTQWQVASNSIPYLTRKGQIRYTTAMGKPTSVGGDSLQQPFFWTGEFSWGWLNNVSLYGGSVLTNRDYQSLAAGVGFNLNSLGSLSFDVTRSDAQLHNQDKETGYSYRANYSKRFESTGSQLTFAGYRFSDKNFVTMNEYINDTNHYTNYQNEKESYIVTFNQYLESLRLNTYVSLARNTYWDASSNVNYSLSLSRDFDIGPLKNVSTSLTFSRINWEEDNQDQLYLNISIPWGTSRTLSYGMQRNQDNEISHTASWYDSSDRNNSWSVSASGDNDEFKDMKASLRASYQHNTENGRLYLSGTSQRDSYYSLNASWNGSFTATRHGAAFHDYSGSADSRFMIDADGTEDIPLNNKRAVTNRYGIGVIPSVSSYITTSLSVDTRNLPENVDIENSVITTTLTEGAIGYAKLDTRKGYQIIGVIRLADGSHPPLGISVKDETSHKELGLVADGGFVYLNGIQDDNKLALRWGDKSCFIQPPNSSNLTTGTAILPCISQN" "o" "Han et al., 2011" -"G7586-MONOMER" "MRYLNTKNIIAAGVLLSCMSSIAWGAIIPDRTRIIMNESDKGEALKLTNQSKNLPYLAQTWIEDTKGNKSRDFIVTVPPMVRLNPSEQIQIRMITQEKIAQLPKDRETLFYFNVREIPPKTDKKNVMQVTMQHALKLFWRPKAIELEDDGVMTYEKVEIIRRNDGSIRFNNKMPYHVTLGYIGTNGVTMLPQTQSLMVTPFSYANTQFKNVPSTFQVGYINDFGGLSFYEINCPVVNNICNISVANRDQ" "p" "Han et al., 2011" -"G7587-MONOMER" "MRYLLIVITFFMGFSSLPAWAMDCYAEHEGGNTVVIGYVPRISIPSDGKKGDKIWQSSEYFMNVFCNNALPGPSPGEEYPSAWANIMMLLASGQDFYNQNSYTFGVTYNGVDYDSTSPLPIAAPVCIDIKGAGTFGNGYKKPAVCSGGPEPQLSVTFPVRVQLYIKLAKNANKVNKKLVLPDEYIALEFKGMSGAGAIEVDKNLTFRIRGLNNIHVLDCFVNVDLEPADGVVDFGKINSRTIKNTSVSETFSVVMTKDPGAACTEQFNILGSFFTTDILSDYSHLDIGNGLLLKIFHNDGTATEFNRFSQFASFSSSSAPSVTAPFRAELSANPAETVVEGPFSKDVILKITYN" "p" "Han et al., 2011" -"G7588-MONOMER" "MILFADYNTPYLFAISFVLLIGLLEIFALICGHMLSGALDAHLDHYDSITTGHISQALHYLNIGRLPALVVLCLLAGFFGLIGILLQHACIMVWQSPLSNLFVVPVSLLFTIIAVHYTGKIVAPWIPRDHSSAITEEEYIGSMALITGHQATSGNPCEGKLTDQFGQIHYLLLEPEEGKIFTKGDKVLIICRLSATRYLAENNPWPQIL" "i" "Han et al., 2011" -"G7589-MONOMER" "MDDIVNSVPSWMFTAIIAVCILFIIGIIFARLYRRASAEQAFVRTGLGGQKVVMSGGAIVMPIFHEIIPINMNTLKLEVSRSTIDSLITKDRMRVDVVVAFFVRVKPSVEGIATAAQTLGQRTLSPEDLRMLVEDKFVDALRATAAQMTMHELQDTRENFVQGVQNTVAEDLSKNGLELESVSLTNFNQTSKEHFNPNNAFDAEGLTKLTQETERRRRERNEVEQDVEVAVREKNRDALSRKLEIEQQEAFMTLEQEQQVKTRTAEQNARIAAFEAERRREAEQTRILAERQIQETEIDREQAVRSRKVEAEREVRIKEIEQQQVTEIANQTKSIAIAAKSEQQSQAEARANLALAEAVSAQQNVETTRQTAEADRAKQVALIAAAQDAETKAVELTVRAKAEKEAAEMQAAAIVELAEATRKKGLAEAEAQRALNDAINVLSDEQTSLKFKLALLQALPAVIEKSVEPMKSIDGIKIIQVDGLNRGGAAGDANTGNVGGGNLAEQALSAALSYRTQAPLIDSLLNEIGVSGGSLAALTSPLTSTTPVEEKAE" "i" "Han et al., 2011" -"G7590-MONOMER" "MKVTLPEFERAGVMVVGDVMLDRYWYGPTSRISPEAPVPVVKVNTIEERPGGAANVAMNIASLGANARLVGLTGIDDAARALSKSLADVNVKCDFVSVPTHPTITKLRVLSRNQQLIRLDFEEGFEGVDPQPLHERINQALSSIGALVLSDYAKGALASVQQMIQLARKAGVPVLIDPKGTDFERYRGATLLTPNLSEFEAVVGKCKTEEEIVERGMKLIADYELSALLVTRSEQGMSLLQPGKAPLHMPTQAQEVYDVTGAGDTVIGVLAATLAAGNSLEEACFFANAAAGVVVGKLGTSTVSPIELENAVRGRADTGFGVMTEEELKLAVAAARKRGEKVVMTNGVFDILHAGHVSYLANARKLGDRLIVAVNSDASTKRLKGDSRPVNPLEQRMIVLGALEAVDWVVSFEEDTPQRLIAGILPDLLVKGGDYKPEEIAGSKEVWANGGEVLVLNFEDGCSTTNIIKKIQQDKKG" "c" "Han et al., 2011" -"G7593-MONOMER" "MNNTPRYPQRVRNDLRFRELTVLRVERISAGFQRIVLGGEALDGFTSRGFDDHSKLFFPQPDAHFVPPTVTEEGIVWPEGPRPPSRDYTPLYDELRHELAIDFFIHDGGVASGWAMQAQPGDKLTVAGPRGSLVVPEDYAYQLYVCDESGMPALRRRLETLSKLAVKPQVSALVSVRDNACQDYLAHLDGFNIEWLAHDEQAVDARLAQMQIPADDYFIWITGEGKVVKNLSRRFEAEQYDPQRVRAAAYWHAK" "c" "Han et al., 2011" -"G7594-MONOMER" "MSHHHEGCCKHEGQPRHEGCCKGEKSEHEHCGHGHQHEHGQCCGGRHGRGGGRRQRFFGHGELRLVILDILSRDDSHGYELIKAIENLTQGNYTPSPGVIYPTLDFLQEQSLITIREEEGGKKQIALTEQGAQWLEENREQVEMIEERIKARCVGAALRQNPQMKRALDNFKAVLDLRVNQSDISDAQIKKIIAVIDRAAFDITQLD" "c" "Han et al., 2011" -"G7595-MONOMER" "MSSHPYVTQQNTPLADDTTLMSTTDLQSYITHANDTFVQVSGYTLQELQGQPHNMVRHPDMPKAAFADMWFTLKKGEPWSGIVKNRRKNGDHYWVRANAVPMVREGKISGYMSIRTRATDEEIAAVEPLYKALNAGRTSKRIHKGLVVRKGWLGKLPSLPLRWRARGVMTLMFILLAAMLWFVAAPVVTYILCALVVLLASACFEWQIVRPIENVAHQALKVATGERNSVEHLNRSDELGLTLRAVGQLGLMCRWLINDVSSQVSSVRNGSETLAKGTDELNEHTQQTVDNVQQTVATMNQMAASVKQNSATASAADKLSITASNAAVQGGEAMTTVIKTMDDIADSTQRIGTITSLINDIAFQTNILALNAAVEAARAGEQGKGFAVVAGEVRHLASRSANAANDIRKLIDASADKVQSGSQQVHAAGRTMEDIVAQVKNVTQLIAQISHSTLEQADGLSSLTRAVDELNLITQKNAELVEESAQVSAMVKHRASRLEDAVTVLH" "i" "Han et al., 2011" -"G7596-MONOMER" "LNRLPSSASALACSAHALNLIEKRTLDHEEMKALNREVIEYFKEHVNPGFLEYRKSVTAGGDYGAVEWQAGSLNTLVDTQGQEFIDCLGGFGIFNVGHRNPVVVSAVQNQLAKQPLHSQELLDPLRAMLAKTLAALTPGKLKYSFFCNSGTESVEAALKLAKAYQSPRGKFTFIATSGAFHGKSLGALSATAKSTFRKPFMPLLPGFRHVPFGNIEAMRTALNECKKTGDDVAAVILEPIQGEGGVILPPPGYLTAVRKLCDEFGALMILDEVQTGMGRTGKMFACEHENVQPDILCLAKALGGGVMPIGATIATEEVFSVLFDNPFLHTTTFGGNPLACAAALATINVLLEQNLPAQAEQKGDMLLDGFRQLAREYPDLVQEARGKGMLMAIEFVDNEIGYNFASEMFRQRVLVAGTLNNAKTIRIEPPLTLTIEQCELVIKAARKALAAMRVSVEEA" "c" "Han et al., 2011" -"G7597-MONOMER" "METVAYADFARLEMRVGKIVEVKRHENADKLYIVQVDVGQKTLQTVTSLVPYYSEEELMGKTVVVLCNLQKAKMRGETSECMLLCAETDDGSESVLLTPERMMPAGVRVV" "c" "Han et al., 2011" -"G7598-MONOMER" "MKLITAPCRALLALPFCYAFSAAGEEARPAEHDDTKTPAITSTSSPSFRFYGELGVGGYMDLEGENKHKYSDGTYIEGGLEMKYGSWFGLIYGEGWTVQADHDGNAWVPDHSWGGFEGGINRFYGGYRTNDGTEIMLSLRQDSSLDDLQWWGDFTPDLGYVIPNTRDIMTALKVQNLSGNFRYSVTATPAGHHDESKAWLHFGKYDRYDDKYTYPAMMNGYIQYDLAEGITWMNGLEITDGTGQLYLTGLLTPNFAARAWHHTGRADGLDVPGSESGMMVSAMYEALKGVYLSTAYTYAKHRPDHADDETTSFMQFGIWYEYGGGRFATAFDSRFYMKNASHDPSDQIFLMQYFYW" "o" "Han et al., 2011" -"G7599-MONOMER" "MKIKTILTPVTCALLISFSAHAANADNYKNVINRTGAPQYMKDYDYDDHQRFNPFFDLGAWHGHLLPDGPNTMGGFPGVALLTEEYINFMASNFDRLTVWQDGKKVDFTLEAYSIPGALVQKLTAKDVQVEMTLRFATPRTSLLETKITSNKPLDLVWDGELLEKLEAKEGKPLSDKTIAGEYPDYQRKISATRDGLKVTFGKVRATWDLLTSGESEYQVHKSLPVQTEINGNRFTSKAHINGSTTLYTTYSHLLTAQEVSKEQMQIRDILARPAFYLTASQQRWEEYLKKGLTNPDATPEQTRVAVKAIETLNGNWRSPGGAVKFNTVTPSVTGRWFSGNQTWPWDTWKQAFAMAHFNPDIAKENIRAVFSWQIQPGDSVRPQDVGFVPDLIAWNLSPERGGDGGNWNERNTKPSLAAWSVMEVYNVTQDKTWVAEMYPKLVAYHDWWLRNRDHNGNGVPEYGATRDKAHNTESGEMLFTVKKGDKEETQSGLNNYARVVEKGQYDSLEIPAQVAASWESGRDDAAVFGFIDKEQLDKYVANGGKRSDWTVKFAENRSQDGTLLGYSLLQESVDQASYMYSDNHYLAEMATILGKPEEAKRYRQLAQQLADYINTCMFDPTTQFYYDVRIEDKPLANGCAGKPIVERGKGPEGWSPLFNGAATQANADAVVKVMLDPKEFNTFVPLGTAALTNPAFGADIYWRGRVWVDQFWFGLKGMERYGYRDDALKLADTFFRHAKGLTADGPIQENYNPLTGAQQGAPNFSWSAAHLYMLYNDFFRKQ" "p" "Han et al., 2011" -"G7601-MONOMER" "MIAIADILQAGEKLTAVAPFLAGIQNEEQYTQALELVDHLLLNDPENPLLDLVCAKITAWEESAPEFAEFNAMAQAMPGGIAVIRTLMDQYGLTLSDLPEIGSKSMVSRVLSGKRKLTLEHAKKLATRFGISPALFID" "c" "Han et al., 2011" -"G7602-MONOMER" "MHLITQKALKDAAEKYPQHKTELVALGNTIAKGYFKKPESLKAVFPSLDNFKYLDKHYVFNVGGNELRVVAMVFFESQKCYIREVMTHKEYDFFTAVHRTKGKK" "c" "Han et al., 2011" -"G7603-MONOMER" "MSHLDNGFRSLTLQRFPATDDVNPLQAWEAADEYLLQQLDDTEIRGPVLILNDAFGALSCALAEHKPYSIGDSYISELATRENLRLNGIDESSVKFLDSTADYPQQPGVVLIKVPKTLALLEQQLRALRKVVTSDTRIIAGAKARDIHTSTLELFEKVLGPTTTTLAWKKARLINCTFNEPQLADAPQTVSWKLEGTDWTIHNHANVFSRTGLDIGARFFMQHLPENLEGEIVDLGCGNGVIGLTLLDKNPQAKVVFVDESPMAVASSRLNVETNMPEALDRCEFMINNALSGVEPFRFNAVLCNPPFHQQHALTDNVAWEMFHHARRCLKINGELYIVANRHLDYFHKLKKIFGNCTTIATNNKFVVLKAVKLGRRR" "c" "Han et al., 2011" -"G7604-MONOMER" "MSNLTYLQGYPEQLLSQVRTLINEQRLGDVLAKRYPGTHDYATDKALWQYTQDLKNQFLRNAPPINKVMYDNKIHVLKNALGLHTAVSRVQGGKLKAKVEIRVATVFRNAPEPFLRMIVVHELAHLKEKEHNKAFYQLCCHMEPQYHQLEFDTRLWLTQLSLGQNKI" "c" "Han et al., 2011" -"G7605-MONOMER" "MLRAFARLLLRICFSRRTLKIACLLLLVAGATILIADRVMVNASKQLTWSDVNAVPARNVGLLLGARPGNRYFTRRIDTAAALYHAGKVKWLLVSGDNGRKNYDEASGMQQALIAKGVPAKVIFCDYAGFSTLDSVVRAKKVFGENHITIISQEFHNQRAIWLAKQYGIDAIGFNAPDLNMKHGFYTQLREKLARVSAVIDAKILHRQPKYLGPSVMIGPFSEHGCPAQK" "i" "Han et al., 2011" -"G7606-MONOMER" "MEYPRVMIRFAVIGTNWITRQFVEAAHESGKYKLTAVYSRSLEQAQHFANDFSVEHLFTSLEAMAESDAIDAVYIASPNSLHFSQTQLFLSHKINVICEKPLASNLAEVDAAIACARENQVVLFEAFKTACLPNFHLLRQALPKVGKLRKVFFNYCQYSSRYQRYLDGENPNTFNPAFSNGSIMDIGFYCLASAVALFGEPKSVQATASLLASGVDAQGVVVMDYGDFSVTLQHSKVSDSVLASEIQGEAGSLVIEKLSECQKVCFVPRGSQMQDLTQPQHINTMLYEAELFATLVDEHLVDHPGLAVSRITAKLLTEIRRQTGVIFPADSVKL" "p" "Han et al., 2011" -"G7607-MONOMER" "MNTVGTPLLWGGFAVVVAIMLAIDLLLQGRRGAHAMTMKQAAAWSLVWVTLSLLFNAAFWWYLVQTEGRAVADPQALAFLTGYLIEKSLAVDNVFVWLMLFSYFSVPAALQRRVLVYGVLGAIVLRTIMIFTGSWLISQFDWILYIFGAFLLFTGVKMALAHEDESGIGDKPLVRWLRGHLRMTDTIDNEHFFVRKNGLLYATPLMLVLILVELSDVIFAVDSIPAIFAVTTDPFIVLTSNLFAILGLRAMYFLLAGVAERFSMLKYGLAVILVFIGIKMLIVDFYHIPIAVSLGVVFGILVMTFIINAWVNYRHDKQRGG" "i" "Han et al., 2011" -"G7608-MONOMER" "MTAYWLAQGVGVIAFLIGITTFFNRDERRFKKQLSVYSAVIGVHFFLLGTYPAGASAILNAIRTLITLRTRSLWVMAIFIVLTGGIGLAKFHHPVELLPVIGTIVSTWALFCCKGLTMRCVMWFSTCCWVIHNFWAGSIGGTMIEGSFLLMNGLNIIRFWRMQKRGIDPFKVEKTPSAVDERG" "i" "Han et al., 2011" -"G7609-MONOMER" "MELLTQLLQALWAQDFETLANPSMIGMLYFVLFVILFLENGLLPAAFLPGDSLLVLVGVLIAKGAMGYPQTILLLTVAASLGCWVSYIQGRWLGNTRTVQNWLSHLPAHYHQRAHHLFHKHGLSALLIGRFIAFVRTLLPTIAGLSGLNNARFQFFNWMSGLLWVLILTTLGYMLGKTPVFLKYEDQLMSCLMLLPVVLLVFGLAGSLVVLWKKKYGNRG" "i" "Han et al., 2011" -"G7610-MONOMER" "MQIPRMSLRQLAWSGAVLLLVGTLLLAWSAVRQQESTLAIRAVHQGTTMPDGFSIWHHLDAHGIPFKSITPKNDTLLITFDSSDQSAAAKAVLDRTLPHGYIIAQQDNNSQAMQWLTRLRDNSHRFG" "i" "Han et al., 2011" -"G7611-MONOMER" "MKYRIALAVSLFALSAGSYATTLCQEKEQNILKEISYAEKHQNQNRIDGLNKALSEVRANCSDSQLRADHQKKIAKQKDEVAERQQDLAEAKQKGDADKIAKRERKLAEAQEELKKLEARDY" "p" "Han et al., 2011" -"G7612-MONOMER" "MSKEHTTEHLRAELKSLSDTLEEVLSSSGEKSKEELSKIRSKAEQALKQSRYRLGETGDAIAKQTRVAAARADEYVRENPWTGVGIGAAIGVVLGVLLSRR" "c" "Han et al., 2011" -"G7613-MONOMER" "MADTHHAQGPGKSVLGIGQRIVSIMVEMVETRLRLAVVELEEEKANLFQLLLMLGLTMLFAAFGLMSLMVLIIWAVDPQYRLNAMIATTVVLLLLALIGGIWTLRKSRKSTLLRHTRHELANDRQLLEEESREQ" "c" "Han et al., 2011" -"G7614-MONOMER" "VSSKVERERRKAQLLSQIQQQRLDLSASRREWLETTGAYDRRWNMLLSLRSWALVGSSVMAIWTIRHPNMLVRWARRGFGVWSAWRLVKTTLKQQQLRG" "c" "Han et al., 2011" -"G7615-MONOMER" "MKKLEDVGVLVARILMPILFITAGWGKITGYAGTQQYMEAMGVPGFMLPLVILLEFGGGLAILFGFLTRTTALFTAGFTLLTAFLFHSNFAEGVNSLMFMKNLTISGGFLLLAITGPGAYSIDRLLNKKW" "i" "Han et al., 2011" -"G7616-MONOMER" "MGQLIDGVWHDTWYDTKSTGGKFQRSASAFRNWLTADGAPGPTGTGGFIAEKDRYHLYVSLACPWAHRTLIMRKLKGLEPFISVSVVNPLMLENGWTFDDSFPGATGDTLYQNEFLYQLYLHADPHYSGRVTVPVLWDKKNHTIVSNESAEIIRMFNTAFDALGAKAGDYYPPALQTKIDELNGWIYDTVNNGVYKAGFATSQEAYDEAVAKVFESLARLEQILGQHRYLTGNQLTEADIRLWTTLVRFDPVYVTHFKCDKHRISDYLNLYGFLRDIYQMPGIAETVNFDHIRNHYFRSHKTINPTGIISIGPWQDLDEPHGRDVRFG" "c" "Han et al., 2011" -"G7617-MONOMER" "MDWYLKVLKNYVGFRGRARRKEYWMFILVNIIFTFVLGLLDKMLGWQRAGGEGILTTIYGILVFLPWWAVQFRRLHDTDRSAWWALLFLIPFIGWLIIIVFNCQAGTPGENRFGPDPKLEP" "i" "Han et al., 2011" -"G7618-MONOMER" "MQWYLSVLKNYVGFSGRARRKEYWMFTLINAIVGAIINVIQLILGLELPYLSMLYLLATFLPVLALAIRRLHDTDRSGAWALLFFVPFIGWLVLLVFFCTEGTSGSNRYGNDPKFGSN" "i" "Han et al., 2011" -"G7619-MONOMER" "MAKERALTLEALRVMDAIDRRGSFAAAADELGRVPSALSYTMQKLEEELDVVLFDRSGHRTKFTNVGRMLLERGRVLLEAADKLTTDAEALARGWETHLTIVTEALVPTPAFFPLIDKLAAKANTQLAIITEVLAGAWERLEQGRADIVIAPDMHFRSSSEINSRKLYTLMNVYVAAPDHPIHQEPEPLSEVTRVKYRGIAVADTARERPVLTVQLLDKQPRLTVSTIEDKRQALLAGLGVATMPYPMVEKDIAEGRLRVVSPESTSEIDIIMAWRRDSMGEAKSWCLREIPKLFNGK" "c" "Han et al., 2011" -"G7620-MONOMER" "MITTRTARQCGQADYGWLQARYTFSFGHYFDPKLLGYASLRVLNQEVLAPGAAFQPRTYPKVDILNVILDGEAEYRDSEGNHVQASAGEALLLSTQPGVSYSEHNLSKDKPLTRMQLWLDACPQRENPLIQKLALNMGKQQLIASPEGAMGSLQLRQQVWLHHIVLDKGESANFQLHGPRAYLQSIHGKFHALTHHEEKAALTCGDGAFIRDEANITLVADSPLRALLIDLPV" "c" "Han et al., 2011" -"G7621-MONOMER" "MSKKLAKKRQPVKPVVAKEPARTAKNFGYEEMLSELEAIVADAETRLAEDEATA" "c" "Han et al., 2011" -"G7622-MONOMER" "MFDSTLNPLWQRYILAVQEEVKPALGCTEPISLALAAAVAAAELEGPVERVEAWVSPNLMKNGLGVTVPGTGMVGLPIAAALGALGGNANAGLEVLKDATAQAIADAKALLAAGKVSVKIQEPCDEILFSRAKVWNGEKWACVTIVGGHTNIVHIETHDGVVFTQQACVAEGEQESPLTVLSRTTLAEILKFVNEVPFAAIRFILDSAKLNCALSQEGLSGKWGLHIGATLEKQCERGLLAKDLSSSIVIRTSAASDARMGGATLPAMSNSGSGNQGITATMPVVVVAEHFGADDERLARALMLSHLSAIYIHNQLPRLSALCAATTAAMGAAAGMAWLVDGRYETISMAISSMIGDVSGMICDGASNSCAMKVSTSASAAWKAVLMALDDTAVTGNEGIVAHDVEQSIANLCALASHSMQQTDRQIIEIMASKAR" "c" "Han et al., 2011" -"G7626-MONOMER" "MKKIIETQRAPGAIGPYVQGVDLGSMVFTSGQIPVCPQTGEIPADVQDQARLSLENVKAIVVAAGLSVGDIIKMTVFITDLNDFATINEVYKQFFDEHQATYPTRSCVQVARLPKDVKLEIEAIAVRSA" "c" "Han et al., 2011" -"G7629-MONOMER" "MDFPQRVNGWALYAHPCFQETYDALVAEVETLKGKDPENYQRKAATKLLAVVHKVIEEHITVNPSSPAFRHGKSLGSGKNKDWSRVKFGAGRYRLFFRYSEKEKVIILGWMNDENTLRTYGKKTDAYTVFSKMLKRGHPPADWETLTRETEETH" "c" "EcoCyc dump" -"G7630-MONOMER" "MSNTDASGEKRVTGTSERREQIIQRLRQQGSVQVNDLSALYGVSTVTIRNDLAFLEKQGIAVRAYGGALICDSTTPSVEPSVEDKSALNTAMKRSVAKAAVELIQPGHRVILDSGTTTFEIARLMRKHTDVIAMTNGMNVANALLEAEGVELLMTGGHLRRQSQSFYGDQAEQSLQNYHFDMLFLGVDAIDLERGVSTHNEDEARLNRRMCEVAERIIVVTDSSKFNRSSLHKIIDTQRIDMIIVDEGIPADSLEGLRKAGVEVILVGE" "c" "Han et al., 2011" -"G7631-MONOMER" "VKHLTEMVRQHKAGKTNGIYAVCSAHPLVLEAAIRYASANQTPLLIEATSNQVDQFGGYTGMTPADFRGFVCQLADSLNFPQDALILGGDHLGPNRWQNLPAAQAMANADDLIKSYVAAGFKKIHLDCSMSCQDDPIPLTDDIVAERAARLAKVAEETCLEHFGEADLEYVIGTEVPVPGGAHETLSELAVTTPDAARATLEAHRHAFEKQGLNAIWPRIIALVVQPGVEFDHTNVIDYQPAKASALSQMVENYETLIFEAHSTDYQTPQSLRQLVIDHFAILKVGPALTFALREALFSLAAIEEELVPAKACSGLRQVLEDVMLDRPEYWQSHYHGDGNARRLARGYSYSDRVRYYWPDSQIDDAFAHLVRNLADSPIPLPLISQYLPLQYVKVRSGELQPTPRELIINHIQDILAQYHTACEGQ" "c" "Han et al., 2011" -"G7632-MONOMER" "MPNIVLSRIDERLIHGQVGVQWVGFAGANLVLVANDEVAEDPVQQNLMEMVLAEGIAVRFWTLQKVIDNIHRAADRQKILLVCKTPADFLTLVKGGVPVNRINVGNMHYANGKQQIAKTVSVDAGDIAAFNDLKTAGVECFVQGVPTEPAVDLFKLL" "c" "Han et al., 2011" -"G7633-MONOMER" "MEISLLQAFALGIIAFIAGLDMFNGLTHMHRPVVLGPLVGLVLGDLHTGILTGGTLELVWMGLAPLAGAQPPNVIIGTIVGTAFAITTGVKPDVAVGVAVPFAVAVQMGITFLFSVMSGVMSRCDLATNPRRI" "i" "Han et al., 2011" -"G7634-MONOMER" "MPENYTPAAAATGTWTEEEIRHQPRAWIRSLTNIDALRSALNNFLEPLLRKENLRIILTGAGTSAFIGDIIAPWLASHTGKNFSAVPTTDLVTNPMDYLNPAHPLLLISFGRSGNSPESVAAVELANQFVPECYHLPITCNEAGALYQNAINSDNAFALLMPAETHDRGFAMTSSITTMMASCLAVFAPETINSQTFRDVADRCQAILTSLGDFSEGVFGYAPWKRIVYLGSGGLQGAARESALKVLELTAGKLAAFYDSPTGFRHGPKSLVDDETLVVVFVSSHPYTRQYDLDLLAELRRDNQAMRVIAIAAESSDIVAAGPHIILPPSRHFIDVEQAFCFLMYAQTFALMQSLHMGNTPDTPSASGTVNRVVQGVIIHPWQA" "c" "Han et al., 2011" -"G7636-MONOMER" "MERGTASGGASLLKEFHPVQTLQQVENYTALSERASEYLLAVIRSKPNAVICLATGATPLLTYHYLVEKIHQQQVDVSQLTFVKLDEWVDLPLTMPGTCETFLQQHIVQPLGLREDQLISFRSEEINETECERVTNLIARKGGLDLCVLGLGKNGHLGLNEPGESLQPACHISQLDARTQQHEMLKTAGRPVTRGITLGLKDILNAREVLLLVTGEGKQDATDRFLTAKVSTAIPASFLWLHSNFICLINT" "c" "Han et al., 2011" -"G7637-MONOMER" "MNKVTKTAIAGLLALFAGNAAATDGEIVFDGEILKSACEINDSDKKIEVALGHYNAEQFRNIGERSPKIPFTIPLVNCPMTGWEHDNGNVEASFRLWLETRDNGTVPNFPNLAKVGSFAGIAATGVGIRIDDAESGNIMPLNAMGNDNTVYQIPAESNGIVNVDLIAYYVSTVVPSEITPGEADAIVNVTLDYR" "e" "Han et al., 2011" -"G7638-MONOMER" "MSKRTFAVILTLLCSFCIGQALAGGIVLQRTRVIYDASRKEAALPVANKGAETPYLLQSWVDNIDGKSRAPFIITPPLFRLEAGDDSSLRIIKTADNLPENKESLFYINVRAIPAKKKSDDVNANELTLVFKTRIKMFYRPAHLKGRVNDAWKSLEFKRSDHSLNIYNPTEYYVVFAGLAVDKTDLTSKIEYIAPGEHKQLPLPASGGKNVKWAAINDYGGSSGTETRPLQ" "p" "Han et al., 2011" -"G7639-MONOMER" "MPQRHHQGHKRTPKQLALIIKRCLPMVLTGSGMLCTTANAEEYYFDPIMLETTKSGMQTTDLSRFSKKYAQLPGTYQVDIWLNKKKVSQKKITFTANAEQLLQPQFTVEQLRELGIKVDEIPALAEKDDDSVINSLEQIIPGTAAEFDFNHQQLNLSIPQIALYRDARGYVSPSRWDDGIPTLFTNYSFTGSDNRYRQGNRSQRQYLNMQNGANFGPWRLRNYSTWTRNDQTSSWNTISSYLQRDIKALKSQLLLGESATSGSIFSSYTFTGVQLASDDNMLPNSQRGFAPTVRGIANSSAIVTIRQNGYVIYQSNVSAGAFEINDLYPSSNSGDLEVTIEESDGTQRRFIQPYSSLPMMQRPGHLKYSATAGRYRADANSDSKEPEFAEATAIYGLNNTFTLYGGLLGSEDYYALGIGIGGTLGALGALSMDINRADTQFDNQHSFHGYQWRTQYIKDIPETNTNIAVSYYRYTNDGYFSFNEANTRNWDYNSRQKSEIQFNISQTIFDGVSLYASGSQQDYWGNNDKNRNISVGVSGQQWGVGYSLNYQYSRYTDQNNDRALSLNLSIPLERWLPRSRVSYQMTSQKDRPTQHEMRLDGSLLDDGRLSYSLEQSLDDDNNHNSSLNASYRSPYGTFSAGYSYGNDSSQYNYGVTGGVVIHPHGVTLSQYLGNAFALIDANGASGVRIQNYPGIATDPFGYAVVPYLTTYQENRLSVDTTQLPDNVDLEQTTQFVVPNRGAMVAARFNANIGYRVLVTVSDRNGKPLPFGALASNDDTGQQSIVDEGGILYLSGISSKSQSWTVRWGNQADQQCQFAFSTPDSEPTTSVLQGTAQCH" "o" "Han et al., 2011" -"G7640-MONOMER" "MKRAPLITGLLLISTSCAYASSGGCGADSTSGATNYSSVVDDVTVNQTDNVTGREFTSATLSSTNWQYACSCSAGKAVKLVYMVSPVLTTTGHQTGYYKLNDSLDIKTTLQANDIPGLTTDQVVSVNTRFTQIKNNTVYSAATQTGVCQGDTSRYGPVNIGANTTFTLYVTKPFLGSMTIPKTDIAVIKGAWVDGMGSPSTGDFHDLVKLSIQGNLTAPQSCKINQGDVIKVNFGFINGQKFTTRNAMPDGFTPVDFDITYDCGDTSKIKNSLQMRIDGTTGVVDQYNLVARRRSSDNVPDVGIRIENLGGGVANIPFQNGILPVDPSGHGTVNMRAWPVNLVGGELETGKFQGTATITVIVR" "j" "Han et al., 2011" -"G7641-MONOMER" "MKQHQSADNSQGQLYIVPTPIGNLADITQRALEVLQAVDLIAAEDTRHTGLLLQHFGINARLFALHDHNEQQKAETLLAKLQEGQNIALVSDAGTPLINDPGYHLVRTCREAGIRVVPLPGPCAAITALSAAGLPSDRFCYEGFLPAKSKGRRDALKAIEAEPRTLIFYESTHRLLDSLEDIVAVLGESRYVVLARELTKTWETIHGAPVGELLAWVKEDENRRKGEMVLIVEGHKAQEEDLPADALRTLALLQAELPLKKAAALAAEIHGVKKNALYKYALEQQG" "c" "Han et al., 2011" -"G7642-MONOMER" "MVPSTFSRLKAARCLPVVLAALIFAGCGTHTPDQSTAYMQGTAQADSAFYLQQMQQSSDDTRINWQLLAIRALVKEGKTGQAVELFNQLPQELNDAQRREKTLLAVEIKLAQKDFAGAQNLLAKITPADLEQNQQARYWQAKIDASQGRPSIDLLRALIAQEPLLGAKEKQQNIDATWQALSSMTQEQANTLVINADENILQGWLDLQRVWFDNRNDPDMMKAGIADWQKRYPNNPGAKMLPTQLVNVKAFKPASTNKIALLLPLNGQAAVFGRTIQQGFEAAKNIGTQPVAAQVAAAPAADVAEQPQPQTVDGVASPAQASVSDLTGEQPAAQPVPVSAPATSTAAVSAPANPSAELKIYDTSSQPLSQILSQVQQDGASIVVGPLLKNNVEELLKSNTPLNVLALNQPENIENRVNICYFALSPEDEARDAARHIRDQGKQAPLVLIPRSSLGDRVANAFAQEWQKLGGGTVLQQKFGSTSELRAGVNGGSGIALTGSPITLRATTDSGMTTNNPTLQTTPTDDQFTNNGGRVDAVYIVATPGEIAFIKPMIAMRNGSQSGATLYASSRSAQGTAGPDFRLEMEGLQYSEIPMLAGGNLPLMQQALSAVNNDYSLARMYAMGVDAWSLANHFSQMRQVQGFEINGNTGSLTANPDCVINRNLSWLQYQQGQVVPVS" "e" "EcoCyc dump" -"G7643-MONOMER" "MATVPTRSGSPRQLTTKQTGDAWEAQARRWLEGKGLRFIAANVNERGGEIDLIMREGRTTIFVEVRYRRSALYGGAAASVTRSKQHKLLQTARLWLARHNGSFDTVDCRFDVVAFTGNEVEWIKDAFNDHS" "c" "Han et al., 2011" -"G7644-MONOMER" "MKALSPIAVLISALLLQGCVAAAVVGTAAVGTKAATDPRSVGTQVDDGTLEVRVNSALSKDEQIKKEARINVTAYQGKVLLVGQSPNAELSARAKQIAMGVDGANEVYNEIRQGQPIGLGEASNDTWITTKVRSQLLTSDLVKSSNVKVTTENGEVFLMGLVTEREAKAAADIASRVSGVKRVTTAFTFIK" "p" "Han et al., 2011" -"G7645-MONOMER" "MTGQSSSQAATPIQWWKPALFFLVVIAGLWYVKWEPYYGKAFTAAETHSIGKSILAQADANPWQAALDYAMIYFLAVWKAAVLGVILGSLIQVLIPRDWLLRTLGQSRFRGTLLGTLFSLPGMMCTCCAAPVAAGMRRQQVSMGGALAFWMGNPVLNPATLVFMGFVLGWGFAAIRLVAGLVMVLLIATLVQKWVRETPQTQAPVEIDIPEAQGGFFSRWGRALWTLFWSTIPVYILAVLVLGAARVWLFPHADGAVDNSLMWVVAMAVAGCLFVIPTAAEIPIVQTMMLAGMGTAPALALLMTLPAVSLPSLIMLRKAFPAKALWLTGAMVAVSGVIVGGLALLF" "i" "Han et al., 2011" -"G7646-MONOMER" "MSQVLITGATGLVGGHLLRMLINEPKVNAIAAPTRRPLGDMPGVFNPHDPQLSDALAQVTDPIDIVFCCLGTTRREAGSKEAFIHADYTLVVDTALTGRRLGAQHMLVVSAMGANAHSPFFYNRVKGEMEEALIAQNWPKLTIARPSMLLGDRSKQRMNETLFAPLFRLLPGNWKSIDARDVARVMLAESMRPEHEGVTILSSSELRKRAE" "c" "Han et al., 2011" -"G7647-MONOMER" "MSKKIAVLITDEFEDSEFTSPADEFRKAGHEVITIEKQAGKTVKGKKGEASVTIDKSIDEVTPAEFDALLLPGGHSPDYLRGDNRFVTFTRDFVNSGKPVFAICHGPQLLISADVIRGRKLTAVKPIIIDVKNAGAEFYDQEVVVDKDQLVTSRTPDDLPAFNREALRLLGA" "c" "Han et al., 2011" -"G7648-MONOMER" "METLIAISRWLAKQHVVTWCVQQEGELWCANAFYLFDAQKVAFYILTEEKTRHAQMSGPQAAVAGTVNGQPKTVALIRGVQFKGEIRRLEGEESDLARKAYNRRFPVARMLSAPVWEIRLDEIKFTDNTLGFGKKMIWLRDSGTEQA" "c" "Han et al., 2011" -"G7649-MONOMER" "MTPWFLYLIRTADNKLYTGITTDVERRYQQHQSGKGAKALRGKGELTLVFSAPVGDRSLALRAEYRVKQLTKRQKERLVAEGAGFAELLSSLQTPEIKSD" "c" "Han et al., 2011" -"G7650-MONOMER" "MLIRVEIPIDAPGIDALLRRSFESDAEAKLVHDLREDGFLTLGLVATDDEGQVIGYVAFSPVDVQGEDLQWVGMAPLAVDEKYRGQGLARQLVYEGLDSLNEFGYAAVVTLGDPALYSRFGFELAAHHDLRCRWPGTESAFQVHRLADDALNGVTGLVEYHEHFNRF" "c" "Han et al., 2011" -"G7651-MONOMER" "VLDKLRSRIVHLGPSLLSVPVKLTPFALKRQVLEQVLSWQFRQALDDGELEFLEGRWLSIHVRDIDLQWFTSVVNGKLVVSQNAQADVSFSADASDLLMIAARKQDPDTLFFQRRLVIEGDTELGLYVKNLMDAIELEQMPKALRMMLLQLADFVEAGMKTAPETKQTSVGEPC" "c" "Han et al., 2011" -"G7652-MONOMER" "MELLCPAGNLPALKAAIENGADAVYIGLKDDTNARHFAGLNFTEKKLQEAVSFVHQHRRKLHIAINTFAHPDGYARWQRAVDMAAQLGADALILADLAMLEYAAERYPHIERHVSVQASATNEEAINFYHRHFDVARVVLPRVLSIHQVKQLARVTPVPLEVFAFGSLCIMSEGRCYLSSYLTGESPNTIGACSPARFVRWQQTPQGLESRLNEVLIDRYQDGENAGYPTLCKGRYLVDGERYHALEEPTSLNTLELLPELMAANIASVKIEGRQRSPAYVSQVAKVWRQAIDRCKADPQNFVPQSAWMETLGSMSEGTQTTLGAYHRKWQ" "c" "Han et al., 2011" -"G7653-MONOMER" "MKYSLGPVLWYWPKETLEEFYQQAATSSADVIYLGEAVCSKRRATKVGDWLEMAKSLAGSGKQIVLSTLALVQASSELGELKRYVENGEFLIEASDLGVVNMCAERKLPFVAGHALNCYNAVTLKILLKQGMMRWCMPVELSRDWLVNLLNQCDELGIRNQFEVEVLSYGHLPLAYSARCFTARSEDRPKDECETCCIKYPNGRNVLSQENQQVFVLNGIQTMSGYVYNLGNELASMQGLVDVVRLSPQGTDTFAMLDAFRANENGAAPLPLTANSDCNGYWRRLAGLELQA" "c" "Han et al., 2011" -"G7654-MONOMER" "MTDKTIAFSLLDLAPIPEGSSAREAFSHSLDLARLAEKRGYHRYWLAEHHNMTGIASAATSVLIGYLAANTTTLHLGSGGVMLPNHSPLVIAEQFGTLNTLYPGRIDLGLGRAPGSDQRTMMALRRHMSGDIDNFPRDVAELVDWFDARDPNPHVRPVPGYGEKIPVWLLGSSLYSAQLAAQLGLPFAFASHFAPDMLFQALHLYRSNFKPSARLEKPYAMVCINIIAADSNRDAEFLFTSMQQAFVKLRRGETGQLPPPIQNMDQFWSPSEQYGVQQALSMSLVGDKAKVRHGLQSILRETDADEIMVNGQIFDHQARLHSFELAMDVKEELLG" "c" "Han et al., 2011" -"G7655-MONOMER" "MTVFNKFARTFKSHWLLYLCVIVFGITNLVASSGAHMVQRLLFFVLTILVVKRISSLPLRLLVAAPFVLLTAADMSISLYSWCTFGTTFNDGFAISVLQSDPDEVVKMLGMYIPYLCAFAFLSLLFLAVIIKYDVSLPTKKVTGILLLIVISGSLFSACQFAYKDAKNKKAFSPYILASRFATYTPFFNLNYFALAAKEHQRLLSIANTVPYFQLSVRDTGIDTYVLIVGESVRVDNMSLYGYTRSTTPQVEAQRKQIKLFNQAISGAPYTALSVPLSLTADSVLSHDIHNYPDNIINMANQAGFQTFWLSSQSAFRQNGTAVTSIAMRAMETVYVRGFDELLLPHLSQALQQNTQQKKLIVLHLNGSHEPACSAYPQSSAVFQPQDDQDACYDNSIHYTDSLLGQVFELLKDRRASVMYFADHGLERDPTKKNVYFHGGREASQQAYHVPMFIWYSPVLGDGVDRTTENNIFSTAYNNYLINAWMGVTKPEQPQTLEEVIAHYKGDSRVVDANHDVFDYVMLRKEFTEDKQGNPTPEGQG" "i" "Han et al., 2011" -"G7656-MONOMER" "MKFVDEASILVVAGDGGNGCVSFRREKYIPKGGPDGGDGGDGGDVWMEADENLNTLIDYRFEKSFRAERGQNGASRDCTGKRGKDVTIKVPVGTRVIDQGTGETMGDMTKHGQRLLVAKGGWHGLGNTRFKSSVNRTPRQKTNGTPGDKRELLLELMLLADVGMLGMPNAGKSTFIRAVSAAKPKVADYPFTTLVPSLGVVRMDNEKSFVVADIPGLIEGAAEGAGLGIRFLKHLERCRVLLHLIDIDPIDGTDPVENARIIISELEKYSQDLATKPRWLVFNKIDLLDKVEAEEKAKAIAEALGWEDKYYLISAASGLGVKDLCWDVMTFIIENPVVQAEEAKQPEKVEFMWDDYHRQQLEEIAEEDDEDWDDDWDEDDEEGVEFIYKR" "c" "Han et al., 2011" -"G7657-MONOMER" "MENNEIQSVLMNALSLQEVHVSGDGSHFQVIAVGELFDGMSRVKKQQTVYGPLMEYIADNRIHAVSIKAYTPAEWARDRKLNGF" "c" "Han et al., 2011" -"G7658-MONOMER" "MSESLSWMQTGDTLALSGELDQDVLLPLWEMREEAVKGITCIDLSRVSRVDTGGLALLLHLIDLAKKQGNNVTLQGVNDKVYTLAKLYNLPADVLPR" "i" "EcoCyc dump" -"G7659-MONOMER" "MFKRLMMVALLVIAPLSAATAADQTNPYKLMDEAAQKTFDRLKNEQPQIRANPDYLRTIVDQELLPYVQVKYAGALVLGQYYKSATPAQREAYFAAFREYLKQAYGQALAMYHGQTYQIAPEQPLGDKTIVPIRVTIIDPNGRPPVRLDFQWRKNSQTGNWQAYDMIAEGVSMITTKQNEWGTLLRTKGIDGLTAQLKSISQQKITLEEKK" "i" "EcoCyc dump" -"G7662-MONOMER" "MSHVELQPGFDFQQAGKEVLAIERECLAELDQYINQNFTLACEKMFWCKGKVVVMGMGKSGHIGRKMAATFASTGTPSFFVHPGEAAHGDLGMVTPQDVVIAISNSGESSEITALIPVLKRLHVPLICITGRPESSMARAADVHLCVKVAKEACPLGLAPTSSTTATLVMGDALAVALLKARGFTAEDFALSHPGGALGRKLLLRVNDIMHTGDEIPHVKKTASLRDALLEVTRKNLGMTVICDDNMMIEGIFTDGDLRRVFDMGVDVRQLSIADVMTPGGIRVRPGILAVEALNLMQSRHITSVMVADGDHLLGVLHMHDLLRAGVV" "c" "Han et al., 2011" -"G7663-MONOMER" "MSKAGASLATCYGPVSADVIAKAENIRLLILDVDGVLSDGLIYMGNNGEELKAFNVRDGYGIRCALTSDIEVAIITGRKAKLVEDRCATLGITHLYQGQSNKLIAFSDLLEKLAIAPENVAYVGDDLIDWPVMEKVGLSVAVADAHPLLIPRADYVTRIAGGRGAVREVCDLLLLAQGKLDEAKGQSI" "c" "Han et al., 2011" -"G7664-MONOMER" "MSKARRWVIIVLSLAVLVMIGINMAEKDDTAQVVVNNNDPTYKSEHTDTLVYNPEGALSYRLIAQHVEYYSDQAVSWFTQPVLTTFDKDKIPTWSVKADKAKLTNDRMLYLYGHVEVNALVPDSQLRRITTDNAQINLVTQDVTSEDLVTLYGTTFNSSGLKMRGNLRSKNAELIEKVRTSYEIQNKQTQP" "i" "Han et al., 2011" -"G7667-MONOMER" "MIRLSEQSPLGTGRHRKCYAHPEDAQRCIKIVYHRGDGGDKEIRRELKYYAHLGRRLKDWSGIPRYHGTVETDCGTGYVYDVIADFDGKPSITLTEFAEQCRYEEDIAQLRQLLKQLKRYLQDNRIVTMSLKPQNILCHRISESEVIPVVCDNIGESTLIPLATWSKWCCLRKQERLWKRFIAQPALAIALQKDLQPRESKTLALTSREA" "c" "Han et al., 2011" -"G7668-MONOMER" "MSKSRLTVFSFVRRFLLRLMVVLAVFWGGGIALFSVAPVPFSAVMVERQVSAWLHGNFRYVAHSDWVSMDQISPWMGLAVIAAEDQKFPEHWGFDVASIEKALAHNERNENRIRGASTISQQTAKNLFLWDGRSWVRKGLEAGLTLGIETVWSKKRILTVYLNIAEFGDGVFGVEAAAQRYFHKPASKLTRSEAALLAAVLPNPLRFKVSSPSGYVRSRQAWILRQMYQLGGEPFMQQHQLD" "i" "Han et al., 2011" -"G7669-MONOMER" "MQLQKLVNMFGGDLTRRYGQKVHKLTLHGGFSCPNRDGTIGRGGCTFCNVASFADEAQQHRSIAEQLAHQANLVNRAKRYLAYFQAYTSTFAEVQVLRSMYQQAVSQANIVGLCVGTRPDCVPDAVLDLLCEYKDQGYEVWLELGLQTAHDKTLHRINRGHDFACYQRTTQLARQRGLKVCSHLIVGLPGEGQAECLQTLERVVETGVDGIKLHPLHIVKGSIMAKAWEAGRLNGIELEDYTLTAGEMIRHTPPEVIYHRISASARRPTLLAPLWCENRWTGMVELDRYLNEHGVQGSALGRPWLPPTE" "c" "Han et al., 2011" -"G7670-MONOMER" "MLKKTLLAYTIGFAFSPPANADGIEIAAVDFDRETLKSLGVDPNISHYFSRSARFLPGEYSLIVSVNGEKKGNIATRFDENGDICLDQAFLQQAGLKIPSEEKNGCYDYILSYPGTTITPLPNQEALDIIVSPQAIIPIGLDLTNAATGGTAALLNYSLMSSRAEFSNGSSDYSQAALEGGININDWMLRSHQFLTQTNGTFSNQNSSTYLQRTFTDLKTLMRAGEVNLNNSVLEGASIYGIEIAPDNALQTSGSGVQVTGIANTSQARVEIRQQGVLIHSILVPAGAFTIPDVPVRNGNSDLNVTVVETDGSSHNYIVPSTLFNQHVESFQGYRFAIGRVDDDYDESPWVISASSGWNLTRWSAMNGGVIVAENYQAASIRSSLVPLPDLTVSSQISTSQDTKDSLQGQKYRLDANYNLPFSLGLTTSLTRSDRHYRELSEAIDDDYTDPTKSTYALGLNWSNSILGGFNISGYKTYSYDGDNDSSNLNINWNKAFKHATVSVNWQHQLSASENNEDDGDLFYVNISIPFGRSNTATLYTRHDDHKTHYGTGVMGVVSDEMSYYVNAERDHDERETSLNGSISSNLHYTQVSLAAGASGSDSRTYNGTMSGGIAVHDQGVTFSPWTINDTFAIAKMDNNIAGVRITSQAGPVWTDFRGNAVIPSIQPWRTSGVEIDTASLPKNVDIGNGTKMIKQGRGAVGKVGFSAITQRRALLNITLSDGKKLPRGVAIEDSEGNYLTTSVDDGVVFLNNIKPDMVLDIKDEQQSCRIHLTFPEDAPKDVFYETATGECQ" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7671-MONOMER" "MKRIITGCLLLNFAMAAQAECNISSSIQNIDYGKRSAAMRQVDRGKTTQLADRTITLVMQCDQDAHIRVQLNTANISNNGFGFGPNGSLNLIASDAFSGSNNLDLALASGKNDNPGSTGTASIREGANKRGNSSRLTQSFHFFMFEPIFSPVNALNQPI" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7673-MONOMER" "MNNVKLLIAGSAFFAMSAQAADRVSIDVKVTLEAAACTPILSNGGVVNFGSHSVNRLSTQHYTQIGTRNINMTITCESATGIAITARDTRMDSMTTGKDSGGQSGVKYTLNGGGYISQTTRLFGLGKTKDNKNIGSYAVLIDSNNISASNGSQTLAVSIAGADAVITGQKRAWQTLTAYPLAVDQSYYYTFVKPGETTPTPVTNAIIPLQVSASIANDLGGSEKIELDGKAVISVVYL" "m" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7674-MONOMER" "MESLSEGTTAGYQQIHDGIIHLVDSARTETVRSVNALMTATYQEIGRRIVEFEQGGEARAAYGAQLIKRLSKDLCLRYKRGFSAKNLRQMRLFYLFFQHVEIHQTMSGELTPLGIPQTPSAEFPSAKIWQTLSAKSFPLPRSTYVRLLSVKNADARSFYEKETLRCGWSVRQLERQIATQFYERTLLSHDKSAMLQQHAPAETHILPQQAIRDPFVLEFLELKDEYSESDFEEALINHLMDFMLELGDDFAFVGRQRRLRIDDNWFRVDLLFFHRRLRCLLIVDLKVGKFSYSDAGQMNMYLNYAKEHWTLPDENPPIGLVLCAEKGAGEAHYALAGLPNTVLASEYKMQLPDEKRLADELVRTQAVLEEGYRRR" "c" "Han et al., 2011" -"G7675-MONOMER" "MMMGEVQSLPSAGLHPALQDALTLALAARPQEKAPGRYELQGDNIFMNVMTFNTQSPVEKKAELHEQYIDIQLLLNGEERILFGMAGTARQCEEFHHEDDYQLCSTIDNEQAIILKPGMFAVFMPGEPHKPGCVVGEPGEIKKVVVKVKADLMA" "c" "Han et al., 2011" -"G7678-MONOMER" "MGLMNAFDSQTEDSSPAIGRNLRSRPLARKKLSEMVEEELEQMIRRREFGEGEQLPSERELMAFFNVGRPSVREALAALKRKGLVQINNGERARVSRPSADTIIGELSGMAKDFLSHPGGIAHFEQLRLFFESSLVRYAAEHATDEQIDLLAKALEINSQSLDNNAAFIRSDVDFHRVLAEIPGNPIFMAIHVALLDWLIAARPTVTDQALHEHNNVSYQQHIAIVDAIRRHDPDEADRALQSHLNSVSATWHAFGQTTNKKK" "c" "Han et al., 2011" -"G7680-MONOMER" "MQSVTPTSQYLKALNEGSHQPDDVQKEAVSRLEIIYQELINSTPPAPRTSGLMARVGKLWGKREDTKHTPVRGLYMWGGVGRGKTWLMDLFYQSLPGERKQRLHFHRFMLRVHEELTALQGQTDPLEIIADRFKAETDVLCFDEFFVSDITDAMLLGGLMKALFARGITLVATSNIPPDELYRNGLQRARFLPAIDAIKQHCDVMNVDAGVDYRLRTLTQAHLWLSPLHDETRAQMDKLWLALAGGKRENSPTLEINHRPLATMGVENQTLAVSFTTLCVDARSQHDYIALSRLFHTVMLFDVPVMTRLMESEARRFIALVDEFYERHVKLVVSAEVPLYEIYQGDRLKFEFQRCLSRLQEMQSEEYLKREHLAG" "c" "Han et al., 2011" -"G7681-MONOMER" "MTWEYALIGLVVGIIIGAVAMRFGNRKLRQQQALQYELEKNKAELDEYREELVSHFARSAELLDTMAHDYRQLYQHMAKSSSSLLPELSAEANPFRNRLAESEASNDQAPVQMPRDYSEGASGLLRTGAKRD" "c" "Han et al., 2011" -"G7682-MONOMER" "MKKQTQLLSALALSVGLTLSASFQAVASIPGQVADQAPLPSLAPMLEKVLPAVVSVRVEGTASQGQKIPEEFKKFFGDDLPDQPAQPFEGLGSGVIINASKGYVLTNNHVINQAQKISIQLNDGREFDAKLIGSDDQSDIALLQIQNPSKLTQIAIADSDKLRVGDFAVAVGNPFGLGQTATSGIVSALGRSGLNLEGLENFIQTDASINRGNSGGALLNLNGELIGINTAILAPGGGSVGIGFAIPSNMARTLAQQLIDFGEIKRGLLGIKGTEMSADIAKAFNLDVQRGAFVSEVLPGSGSAKAGVKAGDIITSLNGKPLNSFAELRSRIATTEPGTKVKLGLLRNGKPLEVEVTLDTSTSSSASAEMITPALEGATLSDGQLKDGGKGIKIDEVVKGSPAAQAGLQKDDVIIGVNRDRVNSIAEMRKVLAAKPAIIALQIVRGNESIYLLMR" "i" "EcoCyc dump" -"G7683-MONOMER" "MKIKTTVAALSVLSVLSFGAFAADSIDAAQAQNREAIGTVSVSGVASSPMDMREMLNKKAEEKGATAYQITEARSGDTWHATAELYK" "p" "Han et al., 2011" -"G7684-MONOMER" "MNIYTFDFDEIESQEDFYRDFSQTFGLAKDKVRDLDSLWDVLMNDVLPLPLEIEFVHLGEKTRRRFGALILLFDEAEEELEGHLRFNVRH" "c" "Han et al., 2011" -"G7685-MONOMER" "MGIFSIANQHIRFAVKLATAIVLALFVGFHFQLETPRWAVLTAAIVAAGTAFAAGGEPYSGAIRYRGFLRIIGTFIGCIAGLVIIIAMIRAPLLMILVCCIWAGFCTWISSLVRIENSYAWGLAGYTALIIVITIQPEPLLTPQFAVERCSEIVIGIVCAIMADLLFSPRSIKQEVDRELESLLVAQYQLMQLCIKHGDGEVVDKAWGDLVRRTTALQGMRSNLNMESSRWARANRRLKAINTLSLTLITQSCETYLIQNTRPELITDTFREFFDTPVETAQDVHKQLKRLRRVIAWTGERETPVTIYSWVAAATRYQLLKRGVISNTKINATEEEILQGEPEVKVESAERHHAMVNFWRTTLSCILGTLFWLWTGWTSGSGAMVMIAVVTSLAMRLPNPRMVAIDFIYGTLAALPLGLLYFLVIIPNTQQSMLLLCISLAVLGFFLGIEVQKRRLGSMGALASTINIIVLDNPMTFHFSQFLDSALGQIVGCVLAFTVILLVRDKSRDRTGRVLLNQFVSAAVSAMTTNVARRKENHLPALYQQLFLLMNKFPGDLPKFRLALTMIIAHQRLRDAPIPVNEDLSAFHRQMRRTADHVISARSDDKRRRYFGQLLEELEIYQEKLRIWQAPPQVTEPVNRLAGMLHKYQHALTDS" "i" "Han et al., 2011" -"G7686-MONOMER" "VKTLIRKFSRTAITVVLVILAFIAIFNAWVYYTESPWTRDARFSADVVAIAPDVSGLITQVNVHDNQLVKKGQILFTIDQPRYQKALEEAQADVAYYQVLAQEKRQEAGRRNRLGVQAMSREEIDQANNVLQTVLHQLAKAQATRDLAKLDLERTVIRAPADGWVTNLNVYTGEFITRGSTAVALVKQNSFYVLAYMEETKLEGVRPGYRAEITPLGSNKVLKGTVDSVAAGVTNASSTRDDKGMATIDSNLEWVRLAQRVPVRIRLDNQQENIWPAGTTATVVVTGKQDRDESQDSFFRKMAHRLREFG" "i" "Han et al., 2011" -"G7687-MONOMER" "MSLFPVIVVFGLSFPPIFFELLLSLAIFWLVRRVLVPTGIYDFVWHPALFNTALYCCLFYLISRLFV" "i" "Han et al., 2011" -"G7688-MONOMER" "MERLKRMSVFAKVVEFGSFTAAARQLQMSVSSISQTVSKLEDELQVKLLNRSTRSIGLTEAGRIYYQGCRRMLHEVQDVHEQLYAFNNTPIGTLRIGCSSTMAQNVLAGLTAKMLKEYPGLSVNLVTGIPAPDLIADGLDVVIRVGALQDSSLFSRRLGAMPMVVCAAKSYLTQYGIPEKPADLSSHSWLEYSVRPDNEFELIAPEGISTRLIPQGRFVTNDPMTLVRWLTAGAGIAYVPLMWVINEINRGELEILLPRYQSDPRPVYALYTEKDKLPLKVQVVINSLTDYFVEVGKLFQEMHGRGKEK" "c" "Han et al., 2011" -"G7689-MONOMER" "MSLNLVSEQLLAANGLKHQDLFAILGQLAERRLDYGDLYFQSSYHESWVLEDRIIKDGSYNIDQGVGVRAISGEKTGFAYADQISLLALEQSAQAARTIVRDSGDGKVQTLGAVEHSPLYTSVDPLQSMSREEKLDILRRVDKVAREADKRVQEVTASLSGVYELILVAATDGTLAADVRPLVRLSVSVLVEEDGKRERGASGGGGRFGYEFFLADLDGEVRADAWAKEAVRMALVNLSAVAAPAGTMPVVLGAGWPGVLLHEAVGHGLEGDFNRRGTSVFSGQVGELVASELCTVVDDGTMVDRRGSVAIDDEGTPGQYNVLIENGILKGYMQDKLNARLMGMTPTGNGRRESYAHLPMPRMTNTYMLPGKSTPQEIIESVEYGIYAPNFGGGQVDITSGKFVFSTSEAYLIENGKVTKPVKGATLIGSGIETMQQISMVGNDLKLDNGVGVCGKEGQSLPVGVGQPTLKVDNLTVGGTA" "c" "Lopez-Campistrous et al., 2005" -"G7690-MONOMER" "VRRLPGILLLTGAALVVIAALLVSGLRIALPHLDAWRPEILNKIESATGMPVEASQLSASWQNFGPTLEAHDIRAELKDGGEFSVKRVTLALDVWQSLLHMRWQFRDLTFWQLRFRTNTPITSGGSDDSLEASHISDLFLRQFDHFDLRDSEVSFLTPSGQRAELAIPQLTWLNDPRRHRAEGLVSLSSLTGQHGVMQVRMDLRDDEGLLSNGRVWLQADDIDLKPWLGKWMQDNIALETAQFSLEGWMTIDKGDVTGGDVWLKQGGASWLGEKQTHTLSVDNLTAHITRENPGWQFSIPDTRITMDGKPWPSGALTLAWIPEQDVGGKDNKRSDELRIRASNLELAGLEGIRPLAAKLSPALGDVWRSTQPSGKINTLALDIPLQAADKTRFQASWSDLAWKQWKLLPGAEHFSGTLSGSVENGLLTASMKQAKMPYETVFRAPLEIADGQATISWLNNNKGFQLDGRNIDVKAKAVHARGGFRYLQPANDEPWLGILAGISTDDGSQAWRYFPENLMGKDLVDYLSGAIQGGEADNATLVYGGNPQLFPYKHNEGQFEVLVPLRNAKFAFQPDWPALTNLDIELDFINDGLWMKTDGVNLGGVRASNLTAVIPDYSKEKLLIDADIKGPGKAVGPYFDETPLKDSLGATLQELQLDGDVNARLHLDIPLNGELVTAKGEVTLRNNSLFIKPLDSTLKNLSGKFSFINSDLQSEPLTASWFNQPLNVDFSTKEGAKAYQVAVNLNGNWQPAKTGVLPEAVNEALSGSVAWDGKVGIDLPYHAGATYNIELNGDLKNVSSHLPSPLAKPAGEPLAVNVKVDGNLNSFELTGQAGADNHFNSRWLLGQKLTLDRAIWAADSKTLPPLPEQSGVELNMPPMNGAEWLALFQKGAAESVGGAASFPQHITLRTPMLSLGNQQWNNLSIVSQPTANGTLVEAQGREINATLAMRNNAPWLANIKYLYYNPSVAKTRGDSTPSSPFPTTERINFRGWPDAQIRCTECWFWGQKFGRIDSDITISGDTLTLTNGLIDTGFSRLTADGEWVNNPGNERTSLKGKLRGQKIDAAAEFFGVTTPIRQSSFNVDYDLHWRKAPWQPDEATLNGIIHTQLGKGEITEINTGHAGQLLRLLSVDALMRKLRFDFRDTFGEGFYFDSIRSTAWIKDGVMHTDDTLVDGLEADIAMKGSVNLVRRDLNMEAVVAPEISATVGVAAAFAVNPIVGAAVFAASKVLGPLWSKVSILRYHISGPLDDPQINEVLRQPRKEKAQ" "i" "Han et al., 2011" -"G7693-MONOMER" "MDTRFVQAHKEARWALGLTLLYLAVWLVAAYLSGVAPGFTGFPRWFEMACILTPLLFIGLCWAMVKFIYRDIPLEDDDAA" "i" "Han et al., 2011" -"G7694-MONOMER" "MIRKYWWLVVFAVFVFLFDTLLMQWIELLATETDKCRNMNSVNPLKLVNCDELNFQDRM" "i" "Han et al., 2011" -"G7695-MONOMER" "MKRLIPVALLTALLAGCAHDSPCVPVYDDQGRLVHTNTCMKGTTQDNWETAGAIAGGAAAVAGLTMGIIALSK" "i" "Han et al., 2011" -"G7696-MONOMER" "MSDVLRPYRDLFPQIGQRVMIDDSSVVIGDVRLADDVGIWPLVVIRGDVHYVQIGARTNIQDGSMLHVTHKSSYNPDGNPLTIGEDVTVGHKVMLHGCTIGNRVLVGMGSILLDGAIVEDDVMIGAGSLVPQNKRLESGYLYLGSPVKQIRPLSDEEKAGLRYSANNYVKWKDEYLDQGNQTQP" "c" "Han et al., 2011" -"G7697-MONOMER" "VNQAIQFPDREEWDENKKCVCFPALVNGMQLTCAISGESLAYRFTGDTPEQWLASFRQHRWDLEEEAENLIQEQSEDDQGWVWLP" "c" "Han et al., 2011" -"G7698-MONOMER" "VNNNLQRDAIAAAIDVLNEERVIAYPTEAVFGVGCDPDSETAVMRLLELKQRPVDKGLILIAANYEQLKPYIDDTMLTDVQRETIFSRWPGPVTFVFPAPATTPRWLTGRFDSLAVRVTDHPLVVALCQAYGKPLVSTSANLSGLPPCRTVDEVRAQFGAAFPVVPGETGGRLNPSEIRDALTGELFRQG" "c" "Han et al., 2011" -"G7699-MONOMER" "MAKSALFTVRNNESCPKCGAELVIRSGKHGPFLGCSQYPACDYVRPLKSSADGHIVKVLEGQVCPACGANLVLRQGRFGMFIGCINYPECEHTELIDKPDETAITCPQCRTGHLVQRRSRYGKTFHSCDRYPECQFAINFKPIAGECPECHYPLLIEKKTAQGVKHFCASKQCGKPVSAE" "c" "Han et al., 2011" -"G7701-MONOMER" "MSTRREVILSWLCEKRQTWRLCYLLGEAGSGKTWLAQQLQKDKHRRVITLSLVVSWQGKAAWIVTDDNAAEQGCRDSAWTRDEMAGQLLHALHRTDSRCPLIIIENAHLNHRRILDDLQRAISLIPDGQFLLIGRPDRKVERDFKKQGIELVSIGRLTEHELKASILEGQNIDQPDLLLTARVLKRIALLCRGDRRKLALAGETIRLLQQAEQTSVFTAKQWRMIYRILGDNRPRKMQLAVVMSGTIIALTCGWLLLSSFTATLPVPAWLIPVTPVVKQDMTKDIAHVVMRDSEALSVLYGVWGYEVPADSAWCDQAVRAGLACKSGNASLQTLVDQNLPWIASLKVGDKKLPVVVVRVGEASVDVLVGQQTWTLTHKWFESVWTGDYLLLWKMSPEGESTITRDSSEEEILWLETMLNRALHISTEPSAEWRPLLVEKIKQFQKSHHLKTDGVVGFSTLVHLWQVAGESAYLYRDEANISPETTVKGK" "c" "Han et al., 2011" -"G7702-MONOMER" "VPTLRFPFHLANHNKDAAINILIIFISIGSIIFNVNYFHTTIVKNGQIINQPTNAFQSDFSLAALWRNENHAGVKDANPVAVNQETPKLSIALNGIVLTSNDETSFVLINEGSEQKRYSLNEALESAPGTFIRKINKTSVVFETHGHYEKVTLHPGLPDIIKQPDSESQNVLADYIIATPIRDGEQIYGLRLNPRKGLNAFTTSLLQPGDIALRINNLSLTHPDEVSQALSLLLTQQSAQFTIRRNGVPRLINVSVGELTGMNGLRHERTQ" "i" "Han et al., 2011" -"G7703-MONOMER" "MKGLNKITCCLLAALLMPCAGHAENEQYGANFNNADIRQFVEIVGQHLGKTILIDPSVQGTISVRSNDTFSQQEYYQFFLSILDLYGYSVITLDNGFLKVVRSANVKTSPGMIADSSRPGVGDELVTRIVPLENVPARDLAPLLRQMMDAGSVGNVVHYEPSNVLILTGRASTINKLIEVIKRVDVIGTEKQQIIHLEYASAEDLAEILNQLISESHGKSQMPALLSAKIVADKRTNSLIISGPEKARQRITSLLKSLDVEESEEGNTRVYYLKYAKATNLVEVLTGVSEKLKDEKGNARKPSSSGAMDNVAITADEQTNSLVITADQSVQEKLATVIARLDIRRAQVLVEAIIVEVQDGNGLNLGVQWANKNVGAQQFTNTGLPIFNAAQGVADYKKNGGITSANPAWDMFSAYNGMAAGFFNGDWGVLLTALASNNKNDILATPSIVTLDNKLASFNVGQDVPVLSGSQTTSGDNVFNTVERKTVGTKLKVTPQVNEGDAVLLEIEQEVSSVDSSSNSTLGPTFNTRTIQNAVLVKTGETVVLGGLLDDFSKEQVSKVPLLGDIPLVGQLFRYTSTERAKRNLMVFIRPTIIRDDDVYRSLSKEKYTRYRQEQQQRIDGKSKALVGSEDLPVLDENTFNSHAPAPSSR" "e" "EcoCyc dump" -"G7704-MONOMER" "MRIHSPYPASWALAQRIGYLYSEGEIIYLADTPFERLLDIQRQVGQCQTMTSLSQADFEARLEAVFHQNTGESQQIAQDIDQSVDLLSLSEEMPANEDLLNEDSAAPVIRLINAILSEAIKETASDIHIETYEKTMSIRFRIDGVLRTILQPNKKLAALLISRIKVMARLDIAEKRIPQDGRISLRIGRRNIDVRVSTLPSIYGERAVLRLLDKNSLQLSLNNLGMTAADKQDLENLIQLPHGIILVTGPTGSGKSTTLYAILSALNTPGRNILTVEDPVEYELEGIGQTQVNTRVDMSFARGLRAILRQDPDVVMVGEIRDTETAQIAVQASLTGHLVLSTLHTNSASGAVTRLRDMGVESFLLSSSLAGIIAQRLVRRLCPQCRQFTPVSPQQAQMFKYHQLAVTTIGTPVGCPHCHQSGYQGRMAIHEMMVVTPELRAAIHENVDEQALERLVRQQHKALIKNGLQKVISGDTSWDEVMRVASATLESEA" "c" "Han et al., 2011" -"G7705-MONOMER" "MNYRYRAMTQDGQKLQGIIDANDERQARLRLREEGLFLLDIRPQKSSGVKTRRPRISHSELTLFTRQLATLSAAALPLEESLAVIGQQSSNKRLGDVLNQVRSAILEGHPLSDALQHFPTLFDSLYRTLVKAGEKSGLLAPVLEKLADYNENRQKIRSKLIQSLIYPCMLTTVAIGVVIILLTAVVPKITEQFVHMKQQLPLSTRILLGLSDTLQRTGPTLLATVFIVAVGFWLWLKRGNNRHRFHAMLLRVALIGPLICAINSARYLRTLSILQSSGVPLLDGMNLSTESLNNLEIRQRLANAAENVRQGNSIHLSLEQTAIFPPMMLYMVASGEKSGQLGTLMVRAADNQETLQQNRIALTLSIFEPALIITMALIVLFIVVSVLQPLLQLNSMIN" "i" "Han et al., 2011" -"G7706-MONOMER" "MRATDKQRGFTLLEIMVVIVIIGVLASLVVPNLMGNKEKADKQKAVSDIVALENALDMYKLDNHHYPTTNQGLESLVEAPTLPPLAANYNKEGYIKRLPADPWGNDYVLVNPGEHGAYDLLSAGPDGEMGTEDDITNWGLSKKKK" "c" "EcoCyc dump" -"G7707-MONOMER" "MNQQRGFTLLEMMLVLALVAITASVVLFTYGREDVASTRARETAARFTAALELAIDRATLSGQPVGIHFSDSAWRIMVPGKTPSAWRWVPLQEDAADESQNDWDEELSIHLQPFKPDDSNQPQVVILADGQITPFSLLMANAGTGEPLLTLVCSGSWPLDQTLARDTRP" "c" "EcoCyc dump" -"G7708-MONOMER" "MNKQSGMTLLEVLLAMSIFTAVALTLMSSMQGQRNAIERMRNETLALWIADNQLQSQDSFGEENTSSSGKELINGEEWNWRSDIHSSKDGTLLERTITVTLPSGQTTSLTRYQSIDNKSGQAQDD" "c" "EcoCyc dump" -"G7709-MONOMER" "MINRQQGFTLLEVMAALAIFSMLSVLAFMIFSQASELHQRSQKEIQQFNQLQRTITILDNDLLQLVARRNRSTDKIMVLGEEAIFTTQSRDPLAPLSEAQTLLTVHWYLRNHTLYRAVRTSVDGRKDQPAQAMLEHVESFLLESNSGESQELPLSVTLHLQTQQYGGLQRRFALPEQLAREESPAQTQAGNNNHE" "i" "Han et al., 2011" -"G7710-MONOMER" "MNNEQRGVALLIVLMLLALMAALAADMTLSFHSQLQRTRQVNHHLQRQYDIELAEKLALASLTQDVKDNDRQTTLQQYWAQPQQLQLEDGNTVKWQLRDAQHCFNLNALAKISDDPLASPDFPAQVFSALLINAGIDRGNTDEIVQSIADYIDVDDSPRFHGAEDSFYQSQTPPRHSANQMLFLTGELRQIKGITENIYQRLIPYVCVLPTTELSINLNMLTENDIPLFRALFLNNITDADARVLLQKRPREGWLTTDAFLYWAQQDFSGVKPLVAQVKRHLFPYSRYFTLSTESISDEQSQGWQSHIFFNRKQQSAQIYRRTLQLY" "i" "Han et al., 2011" -"G7711-MONOMER" "MPESLMVIRSSSTLRKHWEWMTFSADSVSSVHTLTDDLPLESLADQPGAGNVHLLIPPEGLLYRSLTLPNAKYKLTAQTLQWLAEETLPDNTQDWHWTVVDKQNESVEVIGIQSEKLSRYLERLHTAGLNVTRVLPDGCYLPWEVDSWTLVNQQTSWLIRSAAHAFNELDEHWLQHLAAQFPPENMLCYGVVPHGVAAANPLIQHPEIPSLSLYSADIAFQRYDMLHGIFRKQKTVSKSGKWLARLAVSCLVLAILSFVGSRSIALWHTLKIEDQLQQQQQETWQRYFPQIKRTHNFRFYFKQQLAQQYPEAVPLLYHLQTLLLEHPELQLMEANYSQKQKSLTLKMSAKSEANIDRFCELTQSWLPMEKTEKDPVSGVWTVRNSGK" "i" "EcoCyc dump" -"G7712-MONOMER" "MLHTLHRSPWLTDFAALLRLLSEGDELLLLQDGVTAAVDGNRYLESLRNAPIKVYALNEDLIARGLTGQISNDIILIDYTDFVRLTVKHPSQMAW" "c" "Han et al., 2011" -"G7713-MONOMER" "MKRIAFVFSTAPHGTAAGREGLDALLATSALTDDLAVFFIADGVFQLLPGQKPDAVLARDYIATFKLLGLYDIEQCWVCAASLRERGLDPQTPFVVEATPLEADALRRELANYDVILRF" "c" "Han et al., 2011" -"G7714-MONOMER" "MRFAIVVTGPAYGTQQASSAFQFAQALIADGHELSSVFFYREGVYNANQLTSPASDEFDLVRAWQQLNAQHGVALNICVAAALRRGVVDETEAGRLGLASSNLQQGFTLSGLGALAEASLTCDRVVQF" "c" "Han et al., 2011" -"G7715-MONOMER" "MSRSLLTNETSELDLLDQRPFDQTDFDILKSYEAVVDGLAMLIGSHCEIVLHSLQDLKCSAIRIANGEHTGRKIGSPITDLALRMLHDMTGADSSVSKCYFTRAKSGVLMKSLTIAIRNREQRVIGLLCINMNLDVPFSQIMSTFVPPETPDVGSSVNFASSVEDLVTQTLEFTIEEVNADRNVSNNAKNRQIVLNLYEKGIFDIKDAINQVADRLNISKHTVYLYIRQFKSGDFQGQDK" "c" "Han et al., 2011" -"G7716-MONOMER" "MKSLFKVTLLATTMAVALHAPITFAAEAAKPATAADSKAAFKNDDQKSAYALGASLGRYMENSLKEQEKLGIKLDKDQLIAGVQDAFADKSKLSDQEIEQTLQAFEARVKSSAQAKMEKDAADNEAKGKEYREKFAKEKGVKTSSTGLVYQVVEAGKGEAPKDSDTVVVNYKGTLIDGKEFDNSYTRGEPLSFRLDGVIPGWTEGLKNIKKGGKIKLVIPPELAYGKAGVPGIPPNSTLVFDVELLDVKPAPKADAKPEADAKAADSAKK" "p" "Lopez-Campistrous et al., 2005" -"G7717-MONOMER" "MMSQPAKVLLLYAHPESQDSVANRVLLKPATQLSNVTVHDLYAHYPDFFIDIPREQALLREHEVIVFQHPLYTYSCPALLKEWLDRVLSRGFASGPGGNQLAGKYWRSVITTGEPESAYRYDALNRYPMSDVLRPFELAAGMCRMHWLSPIIIYWARRQSAQELASHARAYGDWLANPLSPGGR" "c" "Han et al., 2011" -"G7718-MONOMER" "MAQITTTDANEFSSSAEFIPMRGFSNCHLQTMLPRLFRRQVKFTPYWQRLELPDGDFVDLAWSENPAQAQHKPRLVVFHGLEGSLNSPYAHGLVEAAQKRGWLGVVMHFRGCSGEPNRMHRIYHSGETEDASWFLRWLQREFGHAPTAAVGYSLGGNMLACLLAKEGNDLPVDAAVIVSAPFMLEACSYHMEKGFSRVYQRYLLNLLKANAARKLAAYPGTLPINLAQLKSVRRIREFDDLITARIHGYADAIDYYRQCSAMPMLNRIAKPTLIIHAKDDPFMDHQVIPKPESLPPQVEYQLTEHGGHVGFIGGTLLHPQMWLESRIPDWLTTYLEAKSC" "c" "Han et al., 2011" -"G7719-MONOMER" "MLIPWQDLSPETLENLIESFVLREGTDYGEHERTLEQKVADVKRQLQCGEAVLVWSELHETVNIMPRSQFRE" "c" "Han et al., 2011" -"G7721-MONOMER" "LFPPMWRRLIYHPDINYALRQTLVLCLPVAVGLMLGELRFGLLFSLVPACCNIAGLDTPHKRFFKRLIIGASLFATCSLLTQLLLAKDVPLPFLLTGLTLVLGVTAELGPLHAKLLPASLLAAIFTLSLAGYMPVWEPLLIYALGTLWYGLFNWFWFWIWREQPLRESLSLLYRELADYCEAKYSLLTQHTDPEKALPPLLVRQQKAVDLITQCYQQMHMLSAQNNTDYKRMLRIFQEALDLQEHISVSLHQPEEVQKLVERSHAEEVIRWNAQTVAARLRVLADDILYHRLPTRFTMEKQIGALEKIARQHPDNPVGQFCYWHFSRIARVLRTQKPLYARDLLADKQRRMPLLPALKSYLSLKSPALRNAGRLSVMLSVASLMGTALHLPKSYWILMTVLLVTQNGYGATRLRIVNRSVGTVVGLIIAGVALHFKIPEGYTLTLMLITTLASYLILRKNYGWATVGFTITAVYTLQLLWLNGEQYILPRLIDTIIGCLIAFGGTVWLWPQWQSGLLRKNAHDALEAYQEAIRLILSEDPQPTPLAWQRMRVNQAHNTLYNSLNQAMQEPAFNSHYLADMKLWVTHSQFIVEHINAMTTLAREHRALPPELAQEYLQSCEIAIQRCQQRLEYDEPGSSGDANIMDAPEMQPHEGAAGTLEQHLQRVIGHLNTMHTISSMAWRQRPHHGIWLSRKLRDSKA" "i" "Han et al., 2011" -"G7722-MONOMER" "MNKFIKVALVGAVLATLTACTGHIENRDKNCSYDYLLHPAISISKIIGGCGPTAQ" "i" "Han et al., 2011" -"G7723-MONOMER" "MLDIDKSTVDFLVTENMVQEVEKVLSHDVPLVHAIVEEMVKRDIDRIYFVACGSPLNAAQTAKHLADRFSDLQVYAISGWEFCDNTPYRLDDRCAVIGVSDYGKTEEVIKALELGRACGALTAAFTKRADSPITSAAEFSIDYQADCIWEIHLLLCYSVVLEMITRLAPNAEIGKIKNDLKQLPNALGHLVRTWEEKGRQLGELASQWPMIYTVAAGPLRPLGYKEGIVTLMEFTWTHGCVIESGEFRHGPLEIVEPGVPFLFLLGNDESRHTTERAINFVKQRTDNVIVIDYAEISQGLHPWLAPFLMFVPMEWLCYYLSIYKDHNPDERRYYGGLVEY" "c" "Han et al., 2011" -"G7724-MONOMER" "MKTGMFTCGHQRLPIEHAFRDASELGYDGIEIWGGRPHAFAPDLKAGGIKQIKALAQTYQMPIIGYTPETNGYPYNMMLGDEHMRRESLDMIKLAMDMAKEMNAGYTLISAAHAGYLTPPNVIWGRLAENLSELCEYAENIGMDLILEPLTPYESNVVCNANDVLHALALVPSPRLFSMVDICAPYVQAEPVMSYFDKLGDKLRHLHIVDSDGASDTHYIPGEGKMPLRELMRDIIERGYEGYCTVELVTMYMNEPRLYARQALERFRALLPEDER" "c" "Han et al., 2011" -"G7726-MONOMER" "MKTLATIGDNCVDIYPQLNKAFSGGNAVNVAVYCTRYGIQPGCITWVGDDDYGTKLKQDLARMGVDISHVHTKHGVTAQTQVELHDNDRVFGDYTEGVMADFALSEEDYAWLAQYDIVHAAIWGHAEDAFPQLHAAGKLTAFDFSDKWDSPLWQTLVPHLDFAFASAPQEDETLRLKMKAIVARGAGTVIVTLGENGSIAWDGAQFWRQAPEPVTVIDTMGAGDSFIAGFLCGWSAGMTLPQAIAQGTACAAKTIQYHGAW" "c" "Han et al., 2011" -"G7727-MONOMER" "MSATDRYSHQLLYATVRQRLLDDIAQGVYQAGQQIPTENELCTQYNVSRITIRKAISDLVADGVLIRWQGKGTFVQSQKVENALLTVSGFTDFGVSQGKATKEKVIEQERVSAAPFCEKLNIPGNSEVFHLCRVMYLDKEPLFIDSSWIPLSRYPDFDEIYVEGSSTYQLFQERFDTRVVSDKKTIDIFAATRPQAKWLKCELGEPLFRISKIAFDQNDKPVHVSELFCRANRITLTIDNKRH" "c" "Han et al., 2011" -"G7728-MONOMER" "MKTFPLQSLTIIEAQQKQFALVDSICRHFPGSEFLTGGDLGLTPGLNQPRVTQRVEQVLADAFHAQAAALVQGAGTGAIRAGLAALLKPGQRLLVHDAPVYPTTRVIIEQMGLTLITVDFNDLSALKQVVDEQQPDAALVQHTRQQPQDSYVLADVLATLRAAGVPALTDDNYAVMKVARIGCECGANVSTFSCFKLFGPEGVGAVVGDADVINRIRATLYSGGSQIQGAQALEVLRGLVFAPVMHAVQAGVSERLLALLNGGAVPEVKSAVIANAQSKVLIVEFHQPIAARVLEEAQKRGALPYPVGAESKYEIPPLFYRLSGTFRQANPQSEHCAIRINPNRSGEETVLRILRESIASI" "m" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7729-MONOMER" "MDLYIQIIVVACLTGMTSLLAHRSAAVFHDGIRPILPQLIEGYMNRREAGSIAFGLSIGFVASVGISFTLKTGLLNAWLLFLPTDILGVLAINSLMAFGLGAIWGVLILTCLLPVNQLLTALPVDVLGSLGELSSPVVSAFALFPLVAIFYQFGWKQSLIAAVVVLMTRVVVVRYFPHLNPESIEIFIGMVMLLGIAITHDLRHRDENDIDASGLSVFEERTSRIIKNLPYIAIVGALIAAVASMKIFAGSEVSIFTLEKAYSAGVTPEQSQTLINQAALAEFMRGLGFVPLIATTALATGVYAVAGFTFVYAVDYLSPNPMVAAVLGAVVISAEVLLLRSIGKWLGRYPSVRNASDNIRNAMNMLMEVALLVGSIFAAIKMAGYTGFSIAVAIYFLNESLGRPVQKMAAPVVAVMITGILLNVLYWLGLFVPA" "i" "Han et al., 2011" -"G7730-MONOMER" "MKKIGVAGLQREQIKKTIEATAPGCFEVFIHNDMEAAMKVKSGQLDYYIGACNTGAGAALSIAIAVIGYNKSCTIAKPGIKAKDEHIAKMIAEGKVAFGLSVEHVEHAIPMLINHLK" "c" "Han et al., 2011" -"G7731-MONOMER" "MSFDPTGYTLAHEHLHIDLSGFKNNVDCRLDQYAFICQEMNDLMTRGVRNVIEMTNRYMGRNAQFMLDVMRETGINVVACTGYYQDAFFPEHVATRSVQELAQEMVDEIEQGIDGTELKAGIIAEIGTSEGKITPLEEKVFIAAALAHNQTGRPISTHTSFSTMGLEQLALLQAHGVDLSRVTVGHCDLKDNLDNILKMIDLGAYVQFDTIGKNSYYPDEKRIAMLHALRDRGLLNRVMLSMDITRRSHLKANGGYGYDYLLTTFIPQLRQSGFSQADVDVMLRENPSQFFQ" "c" "Han et al., 2011" -"G7732-MONOMER" "MARFVVLVIDSFGVGAMKDVTLVRPQDAGANTCGHILSQLPHLQLPTLETLGLINALGYAPGDMQPSDSATWGVAELQHEGGDTFMGHQEILGTRPLPPLRMPFRDVIDRVEQALVSAGWQVERRGDDLQFLWVNQAVAIGDNLEADLGQVYNITANLSVISFDDAIKIGRIVREQVQVGRVITFGGLLTDSQRILDAAESKEGRFIGINAPRSGAYDNGFQVVHMGYGVDEKVQVPQKLYEAGVPTVLVGKVADIVNNPYGVSWQNLVDSQRIMDITLNEFNTHPTAFICTNIQETDLAGHAEDVARYAERLQVVDRNLARLVEAMQPDDCLVVMADHGNDPTIGHSHHTREVVPVLVYQQGMIATQLGVRTTLSDVGATVCEFFRAPPPQNGRSFLSSLRFAGDTL" "c" "Han et al., 2011" -"G7733-MONOMER" "MFVEALKRQNPALISAALSLWQQGKIAPDSWVIDVDQILENGKRLIETARLYGIELYLMTKQFGRNPWLAEKLLALGYSGIVAVDYKEARVMRRAGLPVAHQGHLVQIPCHQVADAVEQGTDVITVFTLDKAREVSAAAVKAGRIQSVLLKVYSDDDFLYPGQESGFALKVLPEIVAEIQNLPGLHLAGLTHFPCLLWDEAVGKVLPTPNLHTLIQARDQLAKSGIALEQLNAPSATSCTSLPLLAQYGVTHAEPGHALTGTIPANQQGDQPERIAMLWLSEISHHFRGDSYCYGGGYYRRGHAQHALVFTPENQKITETNLKTVDDSSIDYTLPLAGEFPVSSAVVLCFRTQIFVTRSDVVLVSGIHRGEPEIVGRYDSLGNSLGA" "c" "Han et al., 2011" -"G7734-MONOMER" "METRLNLLCEAGVIDKDICKGMMQVVNVLETECHLPVRSEQGTMAMTHMASALMRSRRGEEIEPLDNELLAELAQSSHWQAVVQLHQVLLKEFALEVNPCEEGYLLANLYGLWMAANEEV" "c" "Han et al., 2011" -"G7735-MONOMER" "MRRTFIKKEGVVITTLARYLLGEKCGNRLKTIDELANECRSSVGLTQAALKTLESSGAIRIERRGRNGSYLVEMDNKALLTHVDINNVVCAMPLPYTRLYEGLASGLKAQFDGIPFYYAHMRGADIRVECLLNGVYDMAVVSRLAAESYLTQKGLCLALELGPHTYVGEHQLICRKGESANVKRVGLDNRSADQKIMTDVFFGGSDVERVDLSYHESLQRIVKGDVDAVIWNVVAENELTMLGLEATPLTDDPRFLQATEAVVLTRVDDYPMQQLLRAVVDKHALLAHQQRVVSGEQEPSY" "c" "Han et al., 2011" -"G7736-MONOMER" "MRVKRWLLAGIALCLLTGMRDPFKPPEDLCRISELSQWRYQGMVGRGERIIGVIKDGQKKWRRVQQNDVLENGWTILQLTPDVLTLGTGTNCEPPQWLWQRQGDTNEAMDSRTTVDADTRRTGGKAAKSDADGG" "c" "Han et al., 2011" -"G7737-MONOMER" "MNMFFDWWFATSPRLRQLCWAFWLLMLVTLIFLSSTHHEERDALIRLRASHHQQWAALYRLVDTAPFSEEKTLPFSPLDFQLSGAQLVSWHPSAQGGELALKTLWEAVPSAFTRLAERNVSVSRFSLSVEGDDLLFTLQLETPHEG" "i" "Han et al., 2011" -"G7738-MONOMER" "MNPPINFLPWRQQRRTAFLRFWLLMFVAPLLLAVGITLILRLTGSAEARIDAVLLQAEQQLARSLQITKPRLLEQQQLREQRSQRQRQRQFTRDWQSALEALAALLPEHAWLTTISWQQGTLEIKGLTTSITALNALETSLRQDASFHLNQRGATQQDAQGRWQFEYQLTRKVSDEHVL" "i" "Han et al., 2011" -"G7739-MONOMER" "MAFKIWQIGLHLQQQEAVAVAIVRGAKECFLQRWWRLPLENDIIKDGRIVDAQQLAKTLLPWSRELPQRHHIMLAFPASRTLQRSFPRPSMSLGEREQTAWLSGTMARELDMDPDSLRFDYSEDSLSPAYNVTAAQSKELATLLTLAERLRVHVSAITPDASALQRFLPFLPSHQQCLAWRDNEQWLWATRYSWGRKLAVGMTSAKELAAALSVDPESVAICGEGGFDPWEAVSVRQPPLPPPGGDFAIALGLALGKAY" "c" "Han et al., 2011" -"G7740-MONOMER" "MSKSLQKPTILNVETVARSRLFTVESVDLEFSNGVRRVYERMRPTNREAVMIVPIVDDHLILIREYAVGTESYELGFSKGLIDPGESVYEAANRELKEEVGFGANDLTFLKKLSMAPSYFSSKMNIVVAQDLYPESLEGDEPEPLPQVRWPLAHMMDLLEDPDFNEARNVSALFLVREWLKGQGRV" "c" "Han et al., 2011" -"G7741-MONOMER" "MSTIVIFLAALLACSLLAGWLIKVRSRRRQLPWTNAFADAQTRKLTPEERSAVENYLESLTQVLQVPGPTGASAAPISLALNAESNNVMMLTHAITRYGISTDDPNKWRYYLDSVEVHLPPFWEQYINDENTVELIHTDSLPLVISLNGHTLQEYMQETRSYALQPVPSTQASIRGEESEQIELLNIRKETHEEYALSRPRGLREALLIVASFLMFFFCLITPDVFVPWLAGGALLLLGAGLWGLFAPPAKSSLREIHCLRGTPRRWGLFGENDQEQINNISLGIIDLVYPAHWQPYIAQDLGQQTDIDIYLDRHVVRQGRYLSLHDEVKNFPLQHWLRSTIIAAGSLLVLFMLLFWIPLDMPLKFTLSWMKGAQTIEATSVKQLADAGVRVGDTLRISGTGMCNIRTSGTWSAKTNSPFLPFDCSQIIWNDARSLPLPESELVNKATALTEAVNRQLHPKPEDESRVSASLRSAIQKSGMVLLDDFGDIVLKTADLCSAKDDCVRLKNALVNLGNSKDWDALVKRANAGKLDGVNVLLRPVSAESLDNLVATSTAPFITHETARAAQSLNSPAPGGFLIVSDEGSDFVDQPWPSASLYDYPPQEQWNAFQKLAQMLMHTPFNAEGIVTKIFTDANGTQHIGLHPIPDRSGLWRYLSTTLLLLTMLGSAIYNGVQAWRRYQRHRTRMMEIQAYYESCLNPQLITPSESLIE" "i" "Han et al., 2011" -"G7742-MONOMER" "MHINIAWQDVDTVLLDMDGTLLDLAFDNYFWQKLVPETWGAKNGVTPQEAMEYMRQQYHDVQHTLNWYCLDYWSEQLGLDICAMTTEMGPRAVLREDTIPFLEALKASGKQRILLTNAHPHNLAVKLEHTGLDAHLDLLLSTHTFGYPKEDQRLWHAVAEATGLKAERTLFIDDSEAILDAAAQFGIRYCLGVTNPDSGIAEKQYQRHPSLNDYRRLIPSLM" "c" "Han et al., 2011" -"G7743-MONOMER" "MKEKPAVEVRLDKWLWAARFYKTRALAREMIEGGKVHYNGQRSKPSKIVELNATLTLRQGNDERTVIVKAITEQRRPASEAALLYEETAESVEKREKMALARKLNALTMPHPDRRPDKKERRDLLRFKHGDSE" "c" "Han et al., 2011" -"G7744-MONOMER" "MPQHDQLHRYLFENFAVRGELVTVSETLQQILENHDYPQPVKNVLAELLVATSLLTATLKFDGDITVQLQGDGPMNLAVINGNNNQQMRGVARVQGEIPENADLKTLVGNGYVVITITPSEGERYQGVVGLEGDTLAACLEDYFMRSEQLPTRLFIRTGDVDGKPAAGGMLLQVMPAQNAQQDDFDHLATLTETIKTEELLTLPANEVLWRLYHEEEVTVYDPQDVEFKCTCSRERCADALKTLPDEEVDSILAEDGEIDMHCDYCGNHYLFNAMDIAEIRNNASPADPQVH" "c" "Lopez-Campistrous et al., 2005" -"G7745-MONOMER" "MDNVELSPATRWGMIATGLLQGLVCYLLIAWLSGKNHSWIVYGVPATVAFSSVLLFSVISFKQKRLWGWLALVFIATLGMSGWLKWQTDGMNPWRAEKALWDFGCYLLLMAMLLLPWIQQSLRIRNDSSRYRYFYQSVWHNVLILLVIFLANGLTWLVLLLWSELFKLVGITFFNTLFFATDWFIYLTLGLVTALAVILARTQSRLIDSIQKLFTLIATGLLPLVSLLTLMFIITLPFTGLSAISRHISAAGLLLTLAFLQLILMAIVRDPQKASLPWTGPLRCLIKTALLVAPLYVFVAAWALWLRVAQYGWTVDRLQGVLAVLVLLVWSLGYFVSIVWRKGQNPVVLQGKVNLAVSLLVLVILVLLNSPVLDSMRISVNSHMARYQSGKNTSDQVTIYMLEQSGRYGRAALESLKSDAGFMKDPKRARDLLMALDGEQHLQQQVSEKVLADNVLIAPGSVKPDATFWSALIQDRYNVMTCIEKDACVLVEQDLNSDGQAERILFAFNDDRVIVYGFDSDRKEWDALDMSLLPNEITKEKLLTAAKDGKLGTKPKAWRDLVVDGERLNVNLNE" "i" "Han et al., 2011" -"G7746-MONOMER" "MMNDSFCRIIAGEIQARPEQVDAAVRLLDEGNTVPFIARYRKEITGGLDDTQLRNLETRLSYLRELEERRQAILKSISEQGKLTDDLAKAINATLSKTELEDLYLPYKPKRRTRGQIAIEAGLEPLADLLWSDPSHTPEVAAAQYVYADKGVADTKAALDGARYILMERFAEDAALLAKVRDYLWKNAHLVSTVVSGKEEEGAKFRDYFDHHEPLSTVPSHRALAMFRGRNEGVLQLSLNADPQFDEPPKESYCEQIIMDHLGLRLNNAPADSWRKGVVSWTWRIKVLMHLETELMGTVRERAEDEAINVFARNLHDLLMAAPAGLRATMGLDPGLRTGVKVAVVDATGKLVATDTIYPHTGQAAKAAMTVAALCEKHNVELVAIGNGTASRETERFYLDVQKQFPKVTAQKVIVSEAGASVYSASELAAQEFPDLDVSLRGAVSIARRLQDPLAELVKIDPKSIGVGQYQHDVSQTQLARKLDAVVEDCVNAVGVDLNTASVPLLTRVAGLTRMMAQNIVAWRDENGQFQNRQQLLKVSRLGPKAFEQCAGFLRINHGDNPLDASTVHPEAYPVVERILAATQQALKDLMGNSSELRNLKASDFTDEKFGVPTVTDIIKELEKPGRDPRPEFKTAQFADGVETMNDLQPGMILEGAVTNVTNFGAFVDIGVHQDGLVHISSLSNKFVEDPHTVVKAGDIVKVKVLEVDLQRKRIALTMRLDEQPGETNARRGGGNERPQNNRPAAKPRGREAQPAGNSAMMDALAAAMGKKR" "c" "Han et al., 2011" -"G7747-MONOMER" "MLTVPGLCWLCRMPLALGHWGICSVCSRATRTDKTLCPQCGLPATHSHLPCGRCLQKPPPWQRLVTVADYAPPLSPLIHQLKFSRRSEIASALSRLLLLEVLHARRTTGLQLPDRIVSVPLWQRRHWRRGFNQSDLLCQPLSRWLHCQWDSEAVTRTRATATQHFLSARLRKRNLKNAFRLELPVQGRHMVIVDDVVTTGSTVAEIAQLLLRNGAAAVQVWCLCRTL" "c" "Han et al., 2011" -"G7748-MONOMER" "MIRISDAAQAHFAKLLANQEEGTQIRVFVINPGTPNAECGVSYCPPDAVEATDTALKFDLLTAYVDELSAPYLEDAEIDFVTDQLGSQLTLKAPNAKMRKVADDAPLMERVEYMLQSQINPQLAGHGGRVSLMEITEDGYAILQFGGGCNGCSMVDVTLKEGIEKQLLNEFPELKGVRDLTEHQRGEHSYY" "c" "Lopez-Campistrous et al., 2005" -"G7750-MONOMER" "MKRMIALDGAQGEGGGQILRSALSLSMITGQPFTITSIRAGRAKPGLLRQHLTAVKAATEICGATVEGAELGSQRLLFRPGTVRGGDYRFAIGSAGSCTLVLQTVLPALWFADGPSRVEVSGGTDNPSAPPADFIRRVLEPLLAKIGIHQQTTLLRHGFYPAGGGVVATEVSPVASFNTLQLGERGNIVQMRGEVLLAGVPRHVAEREIATLAGSFSLHEQNIHNLPRDQGPGNTVSLEVESENITERFFVVGEKRVSAEVVAAQLVKEVKRYLASTAAVGEYLADQLVLPMALAGAGEFTVAHPSCHLLTNIAVVERFLPVRFSLIETDGVTRVSIE" "c" "Han et al., 2011" -"G7751-MONOMER" "MNYELLTTENAPVKMWTKGVPVEADARQQLINTAKMPFIFKHIAVMPDVHLGKGSTIGSVIPTKGAIIPAAVGVDIGCGMNALRTALTAEDLPENLAELRQAIETAVPHGRTTGRCKRDKGAWENPPVNVDAKWAELEAGYQWLTQKYPRFLNTNNYKHLGTLGTGNHFIEICLDESDQVWIMLHSGSRGIGNAIGTYFIDLAQKEMQETLETLPSRDLAYFMEGTEYFDDYLKAVAWAQLFASLNRDAMMENVVTALQSITQKTVRQPQTLAMEEINCHHNYVQKEQHFGEEIYVTRKGAVSARAGQYGIIPGSMGAKSFIVRGLGNEESFCSCSHGAGRVMSRTKAKKLFSVEDQIRATAHVECRKDAEVIDEIPMAYKDIDAVMAAQSDLVEVIYTLRQVVCVKG" "c" "Han et al., 2011" -"G7752-MONOMER" "MQNRKWILTSLVMTFFGIPILAQFLAVVIAMLGVGLAGIIEVCNILITPTIYLLLKIFMLALGALMLFFSGRVGNVPEFCYVGYDGVGFAVIP" "m" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7753-MONOMER" "MNEIISAAVLLILIMDPLGNLPIFMSVLKHTEPKRRRAIMVRELLIALLVMLVFLFAGEKILAFLSLRAETVSISGGIILFLIAIKMIFPSASGNSSGLPAGEEPFIVPLAIPLVAGPTILATLMLLSHQYPNQMGHLVIALLLAWGGTFVILLQSSLFLRLLGEKGVNALERLMGLILVMMATQMFLDGIRMWMKG" "i" "Han et al., 2011" -"G7756-MONOMER" "MIYLRKANERGHANHGWLDSWHTFSFANYYDPNFMGFSALRVINDDVIEAGQGFGTHPHKDMEILTYVLEGTVEHQDSMGNKEQVPAGEFQIMSAGTGIRHSEYNPSSTERLHLYQIWIMPEENGITPRYEQRRFDAVQGKQLVLSPDARDGSLKVHQDMELYRWALLKDEQSVHQIAAERRVWIQVVKGNVTINGVKASTSDGLAIWDEQAISIHADSDSEVLLFDLPPV" "c" "Han et al., 2011" -"G7757-MONOMER" "MVINCAFIGFGKSTTRYHLPYVLNRKDSWHVAHIFRRHAKPEEQAPIYSHIHFTSDLDEVLNDPDVKLVVVCTHADSHFEYAKRALEAGKNVLVEKPFTPTLAQAKELFALAKSKGLTVTPYQNRRFDSCFLTAKKAIESGKLGEIVEVESHFDYYRPVAETKPGLPQDGAFYGLGVHTMDQIISLFGRPDHVAYDIRSLRNKANPDDTFEAQLFYGDLKAIVKTSHLVKIDYPKFIVHGKKGSFIKYGIDQQETSLKANIMPGEPGFAADDSVGVLEYVNDEGVTVREEMKPEMGDYGRVYDALYQTITHGAPNYVKESEVLTNLEILERGFEQASPSTVTLAK" "p" "Han et al., 2011" -"G7758-MONOMER" "MSEIVIRHAETRDYEAIRQIHAQPEVYCNTLQVPHPSDHMWQERLADRPGIKQLVACIDGDVVGHLTIDVQQRPRRSHVADFGICVDSRWKNRGVASALMREMIEMCDNWLRVDRIELTVFVDNAPAIKVYKKYGFEIEGTGKKYALRNGEYVDAYYMARVK" "c" "Han et al., 2011" -"G7759-MONOMER" "MSNIVYLTVTGEQQGSISAGCGTSESTGNRWQSGHEDEIFTFSLLNNINNTGLGSQFHGITFCKLIDKSTPLFINSINNNEQLFMGFDFYRINRFGRLEKYYYIQLRGAFLSAIHHQIIENQLDTETITISYEFILCQHLIANTEFSYLALPENYNRLFLPNSKNQTNNRFKTLNSKAIGRLLAAGGVYNGNIEGFRDTAEKLGGDAIKGYDQILNEKTAGIAIATASILLTKRSNVDTYTEINSYLGKLRGQQKLLDGIDIIEIIYIKRPSKDLANLRKEFNKTVRKNFLIKLAKTSEASGRFNAEDLLRMRKGNVPLNYNVHHKLSLDDGGTNDFENLVLIENEPYHKVFTNMQSRIAKGILVGESKITPWAIPSGSIYPPMKNIMDHTK" "c" "Han et al., 2011" -"G7760-MONOMER" "MTKTQINKLIKMMNDLDYPFEAPLKESFIESIIQIEFNSNSTNCLEKLCNEVSILFKNQPDYLTFLRAMDGFEVNGLRLFSLSIPEPSVKNLFAVNEFYRNNDDFINPDLQERLVIGDYSISIFTYDIKGDAANLLI" "c" "Han et al., 2011" -"G7762-MONOMER" "MPGNSPHYGRWPQHDFTSLKKLRPQSVTSRIQPGSDVIVCAEMDEQWGYVGAKSRQRWLFYAYDSLRKTVVAHVFGERTMATLGRLMSLLSPFDVVIWMTDGWPLYESRLKGKLHVISKRYTQRIERHNLNLRQHLARLGRKSLSFSKSVELHDKVIGHYLNIKHYQ" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7763-MONOMER" "MITYHDAFAKANHYLDDADLPVVITLHGRFSQGWYFCFEAREFLETGDEAARLAGNAPFIIDKDSGEIHSLGTAKPLEEYLQDYEIKKATFGLP" "c" "Han et al., 2011" -"G7767-MONOMER" "MRNLVKYVGIGLLVMGLAACDDKDTNATAQGSVAESNATGNPVNLLDGKLSFSLPADMTDQSGKLGTQANNMHVWSDATGQKAVIVIMGDDPKEDLAVLAKRLEDQQRSRDPQLQVVTNKAIELKGHKMQQLDSIISAKGQTAYSSVILGNVGNQLLTMQITLPADDQQKAQTTAENIINTLVIQ" "o" "Han et al., 2011" -"G7769-MONOMER" "MFVIWSHRTGFIMSHQLTFADSEFSSKRRQTRKEIFLSRMEQILPWQNMVEVIEPFYPKAGNGRRPYPLETMLRIHCMQHWYNLSDGAMEDALYEIASMRLFARLSLDSALPDRTTIMNFRHLLEQHQLARQLFKTINRWLAEAGVMMTQGTLVDATIIEAPSSTKNKEQQRDPEMHQTKKGNQWHFGMKAHIGVDAKSGLTHSLVTTAANEHDLNQLGNLLHGEEQFVSADAGYQGAPQREELAEVDVDWLIAERPGKVRTLKQHPRKNKTAINIEYMKASIRARVEHPFRIIKRQFGFVKARYKGLLKNDNQLAMLFTLANLFRADQMIRQWERSH" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7776-MONOMER" "MSKPKYPFEKRLEVVNHYFTTDDGYRIISARFGVPRTQVRTWVALYEKHGEKGLIPKPKGVSADPELRIKVVKAVIEQHMSLNQAAAHFMLAGSGSVARWLKVYEERGEAGLRALKIGTKRNIAISVDPEKAASALELSKDRRIEDLERQVRFLETRLMYLKKLKALAHPTKK" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7777-MONOMER" "MYLKKAESLSSSHEKVKVLNELRQFYPLDELLRAAEIPRSTFYYHLKALSKPDKYADVKKRISEIYHENRGRYGYRRVTLSLHREGKQINHKAVQRLMGTLSLKAAIKVKRYRSYRGEVGQTAPNVLQRDFKATRPNEKWVTDVTEFAVNGRKLYLSPVIDLFNNEVISYSLSERPVMNMVENMLDQAFKKLNPHEHPVLHSDQGWQYRMRRYQNILKEHGIKQSMSRKGNCLDNAVVECFFGTLKSECFYLDEFSNISELKDAVTEYIEYYNSRRISLKLKGLTPIEYRNQTYMPRV" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7790-MONOMER" "MTLNKTDRIVITLGKQIVHGKYVPGSPLPAEAELCEEFATSRNIIREVFRSLMAKRLIEMKRYRGAFVAPRNQWNYLDTDVLQWVLENDYDPRLISAMSEVRNLVEPAIARWAAERATSSDLAQIESALNEMIANNQDREAFNEADIRYHEAVLQSVHNPVLQQLSIAISSLQRAVFERTWMGDEANMPQTLQEHKALFDAIRHQDGDAAEQAALTMIASSTRRLKEIT" "c" "Han et al., 2011" -"G7797-MONOMER" "MHRRSIINHSRPDKLKRGMHVEIASNVINDLQFFDQQIRWAKADLVQQVSRNRLNRARTYRGYLNQCLPHELVADIQRAVIKSINAISLIN" "c" "Han et al., 2011" -"G7798-MONOMER" "VAINFSPKVGEILECNFGNYPVSQNGPFSTTYYDGRIPPEMIKNRLVVVLNGKINGNACIVVPLSTTRDQTS" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7800-MONOMER" "MTVLIHVLGSDIPHHNRTVLRFFNDALAATSEHAREFMVVGKDDGLSDSCPALSVQFFPGKKSLAEAVIAKAKANRQQRFFFHGQFNPTLWLALLSGGIKPSQFFWHIWGADLYELSSGLRYKLFYPLRRLAQKRVGCVFATRGDLSFFAKTHPKVRGELLFFPTRMDPSLNTMANDRQREGKMTILVGNSGDRSNEHIAALRAVHQQFGDTVKVVVPMGYPPNNEAYIEEVRQAGLELFSEENLQILSEKLEFDAYLALLRQCDLGYFIFARQQGIGTLCLLIQAGIPCVLNRENPFWQDMTEQHLPVLFTTDDLNEDIVREAQRQLASVDKNTIAFFSPNYLQGWQRALAIAAREVA" "c" "Han et al., 2011" -"G7802-MONOMER" "MVAALFGCQPYLVQRLLAVDNDFAAILKGNGQYAAVDFAVDIAVAIPVVQAFFNGQPELISQAMKFTVVHCCILFLSDGGSIAAWGQGFKVCTSAAAFRHDSSVTGIMMSLCSERFVSSLGRSYTTSFPVSGKHYDQVYRASILTLTELKKTTNKPHCDSA" "c" "Han et al., 2011" -"G7804-MONOMER" "MATTQQSGFAPAASPLASTIVQTPDDAIVAGFTSIPSQGDNMPAYHARPKQSDGPLPVVIVVQEIFGVHEHIRDICRRLALEGYLAIAPELYFREGDPNDFADIPTLLSGLVAKVPDSQVLADLDHVASWASRNGGDVHRLMITGFCWGGRITWLYAAHNPQLKAAVAWYGKLTGDKSLNSPKQPVDIATDLNAPILGLYGGQDNSIPQESVETMRQALRAANAKAEIIVYPDAGHAFNADYRPSYHAASAEDGWQRMLEWFKQYGGKKSL" "c" "Han et al., 2011" -"G7808-MONOMER" "VFDIGFSELLLVFIIGLVVLGPQRLPVAVKTVAGWIRALRSLATTVQNELTQELKLQEFQDSLKKVEKASLTNLTPELKASMDELRQAAESMKRSYVANDPEKASDEAHTIHNPVVKDNEAAHEGVTPAAAQTQASSPEQKPETTPEPVVKPAADAEPKTAAPSPSSSDKP" "i" "Han et al., 2011" -"G7814-MONOMER" "MKKINAIILLSSLTSASVFAGAYVENREAYNLASDQGEVMLRVGYNFDMGAGIMLTNTYNFQREDELKHGYNEIEGWYPLFKPTDKLTIQPGGLINDKSIGSGGAVYLDVNYKFVPWFNLTVRNRYNHNNYSSTDLSGELDNNDTYEIGTYWNFKITDKFSYTFEPHYFMRVNDFNSSNGKDHHWEITNTFRYRINEHWLPYFELRWLDRNVEPYHREQNQIRIGTKYFF" "o" "Han et al., 2011" -"G7816-MONOMER" "MRIVTAAVMASTLAVSSLSHAAEVGSGDNWHPGEELTQRSTQSHMFDGISLTEHQRQQMRDLMQQARHEQPPVNVSELETMHRLVTAENFDENAVRAQAEKMANEQIARQVEMAKVRNQMYRLLTPEQQAVLNEKHQQRMEQLRDVTQWQKSSSLKLLSSSNSRSQ" "c" "Han et al., 2011" -"G7821-MONOMER" "MSQSEFDSALPNGIGLAPYLRMKQEGMTENESRIVEWLLKPGNLSCAPAIKDVAEALAVSEAMIVKVSKLLGFSGFRNLRSALEDYFSQSEQVLPSELAFDEAPQDVVNKVFNITLRTIMEGQSIVNVDEIHRAARFFYQARQRDLYGAGGSNAICADVQHKFLRIGVRCQAYPDAHIMMMSASLLQEGDVVLVVTHSGRTSDVKAAVELAKKNGAKIICITHSYHSPIAKLADYIICSPAPETPLLGRNASARILQLTLLDAFFVSVAQLNIEQANINMQKTGAIVDFFSPGALK" "c" "Han et al., 2011" -"G7822-MONOMER" "VLALFIHTTGVLSKLLSEAVEAIEPGPVEGIRATGANKLEEILYGVLPQVMPLLISYSLYRFESNVRSATVVGMVGAGGIGVTLWEAIRGFQFQQTCALMVLIIVTVSLLDFLSQRLRKHFI" "i" "Han et al., 2011" -"G7823-MONOMER" "LTKTLLDGPGRVLESVYPRFLVDLAQGDDARLPQAHQQQFRERLMQELLSRVQLQTWTNGGMLNAPLSLRLTLVEKLASMLDPGHLALTQIAQHLALLQKMDHRQHSAFPELPQQIAALYEWFSARCRWKEKALTQRGLLVQAGDQSEQIFTRWRAGAYNAWSLPGRCFIVLEELRWGAFGDACRLGSPQAVALLLGDLLEKATQHLAESINAAPTTRHYYHQWFASSTVPTGGEHADFLSWLGKWTTADKQPVCWSVTQRWQTVALGMPRLCSAQRLAGAMLEEIFSVNLA" "c" "Han et al., 2011" -"G7825-MONOMER" "MTRTLKPLILNTSALTLTLILIYTGISAHDKLTWLMEVTPVIIVVQLLLATARRYPLTPLLYTLIFLHAIILMVGGQYTYAKVPVGFEVQEWLGLSRNPYDKLGHFFQGLVPALVAREILVRGMYVRGRKMVAFLVCCVALAISAMYELIEWWAALAMGQGADDFLGTQGDQWDTQSDMFCALLGALTTVIFLARFHCRQLRRFGLITG" "i" "Han et al., 2011" -"G7828-MONOMER" "MDQALLDGGYRCYTGEKIDVYFNTAICQHSGNCVRGNGKLFNLKRKPWIMPDEVDVATVVKVIDTCPSGALKYRHK" "c" "Han et al., 2011" -"G7829-MONOMER" "MEIREGHNKFYINDKQGKQIAEIVFVPTGENLAIIEHTDVDESLKGQGIGKQLVAKVVEKMRREKRKIIPLCPFAKHEFDKTREYDDIRS" "c" "Han et al., 2011" -"G7830-MONOMER" "MEGKNKFNTYVVSFDYPSSYSSVFLRLRSLMYDMNFSSIVADEYGIPRQLNENSFAITTSLAASEIEDLIRLKCLDLPDIDFDLNIMTVDDYFRQFYK" "c" "Han et al., 2011" -"G7832-MONOMER" "LRWLPFIAIFLYVYIEISIFIQVAHVLGVLLTLVLVIFTSVIGMSLVRNQGFKNFVLMQQKMAAGENPAAEMIKSVSLIIAGLLLLLPGFFTDFLGLLLLLPPVQKHLTVKLMPHLRFSRMPGGGFSAGTGGGNTFDGEYQRKDDERDRLDHKDDRQD" "i" "Han et al., 2011" -"G7834-MONOMER" "MHVKYLAGIVGAALLMAGCSSSNELSAAGQSVRIVDEQPGAECQLIGTATGKQSNWLSGQHGEEGGSMRGAANDLRNQAAAMGGNVIYGISSPSQGMLSSFVPTDSQIIGQVYKCPN" "p" "Han et al., 2011" -"G7835-MONOMER" "MAISIKGVNTGVIRKSNNFIALALKIKEPRNKESLFFMSVMELRDLLIALESRLHQKHKLDAAAHLQYEQARDKVIKKMAENIPEILVDELKNADINRRVNTLELTDNQGENLTFVLTLHDGSKCELVVNELQIEMLARAIIHAINNAEMRELALRITSLLDFLPLYDVDCQDNGNLEYDTYSQPEWKHNLFDHYLAVLYRFKDESGKEQFSGAVVKTREATPGKEIEAITRRMLDFSPRLKKLAGVPCQVYVRTVAANNAQPLTQDQCLRALHHLRVQSTSKTAPQAK" "c" "Han et al., 2011" -"G7836-MONOMER" "MAHIVTLNTPSREDWLTQLADVVTDPDELLRLLNIDAEEKLLAGRSAKKLFALRVPRSFIDRMEKGNPDDPLLRQVLTSQDEFVIAPGFSTDPLEEQHSVVPGLLHKYHNRALLLVKGGCAVNCRYCFRRHFPYAENQGNKRNWQTALEYVAAHPELDEMIFSGGDPLMAKDHELDWLLTQLEAIPHIKRLRIHSRLPIVIPARITEALVECFARSTLQILLVNHINHANEVDETFRQAMAKLRRVGVTLLNQSVLLRDVNDNAQTLANLSNALFDAGVMPYYLHVLDKVQGAAHFMVSDDEARQIMRELLTLVSGYLVPKLAREIGGEPSKTPLDLQLRQQ" "c" "Han et al., 2011" -"G7837-MONOMER" "MRLLPLVAAATAAFLVVACSSPTPPRGVTVVNNFDAKRYLGTWYEIARFDHRFERGLEKVTATYSLRDDGGLNVINKGYNPDRGMWQQSEGKAYFTGAPTRAALKVSFFGPFYGGYNVIALDREYRHALVCGPDRDYLWILSRTPTISDEVKQEMLAVATREGFDVSKFIWVQQPGS" "o" "Han et al., 2011" -"G7838-MONOMER" "MDDTSRDPAITEDEIRALQFSAGDVAEIEQTILSFVDACHTRKVAMVVGSTINTLKDRDGKRWGNLPDIYCAYLIRCLVFRGELVGYGDLFRMRYSEIKRPVTL" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7839-MONOMER" "MSARMFVLCCIWFIVAFLWITITSALDKEWMIDGRGINNVCDVLMYLEEDDTRDVGVIMTLPLFFPFLWFALWRKKRGWFMYATALAIFGYWLWQFFLRYQFCL" "i" "Unambiguous EcoCyc data" -"G7840-MONOMER" "VRLIITFLMAWCLSWGAYAATAPDSKQITQELEQAKAAKPAQPEVVEALQSALNALEERKGSLERIKQYQQVIDNYPKLSATLRAQLNNMRDEPRSVSPGMSTDALNQEILQVSSQLLDKSRQAQQEQERAREIADSLNQLPQQQTDARRQLNEIERRLGTLTGNTPLNQAQNFALQSDSARLKALVDELELAQLSANNRQELARLRSELAEKESQQLDAYLQALRNQLNSQRQLEAERALESTELLAENSADLPKDIVAQFKINRELSAALNQQAQRMDLVASQQRQAASQTLQVRQALNTLREQSQWLGSSNLLGEALRAQVARLPEMPKPQQLDTEMAQLRVQRLRYEDLLNKQPLLRQIHQADGQPLTAEQNRILEAQLRTQRELLNSLLQGGDTLLLELTKLKVSNGQLEDALKEVNEATHRYLFWTSDVRPMTIAWPLEIAQDLRRLISLDTFSQLGKASVMMLTSKETILPLFGALILVGCSIYSRRYFTRFLERSAAKVGKVTQDHFWLTLRTLFWSILVASPLPVLWMTLGYGLREAWPYPLAVAIGDGVTATVPLLWVVMICATFARPNGLFIAHFGWPRERVSRGMRYYLMSIGLIVPLIMALMMFDNLDDREFSGSLGRLCFILICGALAVVTLSLKKAGIPLYLNKEGSGDNITNHMLWNMMIGAPLVAILASAVGYLATAQALLARLETSVAIWFLLLVVYHVIRRWMLIQRRRLAFDRAKHRRAEMLAQRARGEEEAHHHSSPEGAIEVDESEVDLDAISAQSLRLVRSILMLIALLSVIVLWSEIHSAFGFLENISLWDVTSTVQGVESLEPITLGAVLIAILVFIITTQLVRNLPALLELAILQHLDLTPGTGYAITTITKYLLMLIGGLVGFSMIGIEWSKLQWLVAALGVGLGFGLQEIFANFISGLIILFEKPIRIGDTVTIRDLTGSVTKINTRATTISDWDRKEIIVPNKAFITEQFINWSLSDSVTRVVLTIPAPADANSEEVTEILLTAARRCSLVIDNPAPEVFLVDLQQGIQIFELRIYAAEMGHRMPLRHEIHQLILAGFHAHGIDMPFPPFQMRLESLNGKQTGRTLTSAGKGRQAGSL" "i" "Han et al., 2011" -"G7841-MONOMER" "LSKNKLSKGQQRRVNANHQRRLKTSKEKPDYDDNLFGEPDEGIVISRFGMHADVESADGDVHRCNIRRTIRSLVTGDRVVWRPGKPAAEGVNVKGIVEAVHERTSVLTRPDFYDGVKPIAANIDQIVIVSAILPELSLNIIDRYLVACETLQIEPIIVLNKIDLLDDEGMAFVNEQMDIYRNIGYRVLMVSSHTQDGLKPLEEALTGRISIFAGQSGVGKSSLLNALLGLQKEILTNDISDNSGLGQHTTTAARLYHFPHGGDVIDSPGVREFGLWHLEPEQITQGFVEFHDYLGLCKYRDCKHDTDPGCAIREAVEEGKIAETRFENYHRILESMAQVKTRKNFSDTDD" "c" "Han et al., 2011" -"G7842-MONOMER" "MSANENNLIWIDLEMTGLDPERDRIIEIATLVTDANLNILAEGPTIAVHQSDEQLALMDDWNVRTHTASGLVERVKASTMGDREAELATLEFLKQWVPAGKSPICGNSIGQDRRFLFKYMPELEAYFHYRYLDVSTLKELARRWKPEILDGFTKQGTHQAMDDIRESVAELAYYREHFIKL" "c" "Lopez-Campistrous et al., 2005" -"G7843-MONOMER" "MSEPLDLNQLAQKIKQWGLELGFQQVGITDTDLSESEPKLQAWLDKQYHGEMDWMARHGMLRARPHELLPGTLRVISVRMNYLPANAAFASTLKNPKLGYVSRYALGRDYHKLLRNRLKKLGEMIQQHCVSLNFRPFVDSAPILERPLAEKAGLGWTGKHSLILNREAGSFFFLGELLVDIPLPVDQPVEEGCGKCVACMTICPTGAIVEPYTVDARRCISYLTIELEGAIPEELRPLMGNRIYGCDDCQLICPWNRYSQLTTEEDFSPRKPLHAPELIELFAWSEEKFLKVTEGSAIRRIGHLRWLRNIAVALGNAPWDETILTALESRKGEHPLLDEHIAWAIAQQIERRNACIVEVQLPKKQRLVRVIEKGLPRDA" "c" "Han et al., 2011" -"G7844-MONOMER" "MNSTIWLALALVLVLEGLGPMLYPKAWKKMISAMTNLPDNILRRFGGGLVVAGVVVYYMLRKTIG" "i" "Han et al., 2011" -"G7845-MONOMER" "MSEMIYGIHAVQALLERAPERFQEVFILKGREDKRLLPLIHALESQGVVIQLANRQYLDEKSDGAVHQGIIARVKPGRQYQENDLPDLIASLDQPFLLILDGVTDPHNLGACLRSADAAGVHAVIVPKDRSAQLNATAKKVACGAAESVPLIRVTNLARTMRMLQEENIWIVGTAGEADHTLYQSKMTGRLALVMGAEGEGMRRLTREHCDELISIPMAGSVSSLNVSVATGICLFEAVRQRS" "c" "Han et al., 2011" -"G7846-MONOMER" "MTWNPLALATALQTVPEQNIDVTNSENALIIKMNDYGDLQINILFTSRQMIIETFICPVSSISNPDEFNTFLLRNQKMMPLSSVGISSVQQEEYYIVFGALSLKSSLEDILLEITSLVDNALDLAEITEEYSH" "c" "Han et al., 2011" -"G7847-MONOMER" "MGILKSLFTLGKSFISQAEESIEETQGVRMLEQHIRDAKAELDKAGKSRVDLLARVKLSHDKLKDLRERKASLEARALEALSKNVNPSLINEVAEEIARLENLITAEEQVLSNLEVSRDGVEKAVTATAQRIAQFEQQMEVVKATEAMQRAQQAVTTSTVGASSSVSTAAESLKRLQTRQAERQARLDAAAQLEKVADGRDLDEKLAEAGIGGSNKSSAQDVLARLQRQQGE" "c" "Han et al., 2011" -"G7848-MONOMER" "MSGFFQRLFGKDNKPAIARGPLGLHLNSGFTLDTLAFRLLEDELLIALPGEEFTVAAVSHIDLGGGSQIFRYYTSGDEFLQINTTGGEDIDDIDDIKLFVYEESYGISKESHWREAINAKAMGAMTLNWQEKRWQRFFNSEEPGNIEPVYMLEKVENQNHAKWEVHNFTMGYQRQVTEDTYEYLLLNGEESFNDLGEPEWLFSRALGVDIPLTSLHIIG" "c" "Han et al., 2011" -"G7849-MONOMER" "MHILDSLLAFSAYFFIGVAMVIIFLFIYSKITPHNEWQLIKNNNTAASLAFSGTLLGYVIPLSSAAINAVSIPDYFAWGGIALVIQLLVFAGVRLYMPALSEKIINHNTAAGMFMGTAALAGGIFNAACMTW" "i" "Han et al., 2011" -"G7850-MONOMER" "MARKRKSRNNSKIGHGAISRIGRPNNPFEPCRNRYAQKYLTLALMGGAAFFVLKGCSDSSDVDNDGDGTFYATVQDCIDDGNNADICARGWNNAKTAFYADVPKNMTQQNCQSKYENCYYDNVEQSWIPVVSGFLLSRVIRKDRDEPFVYNSGGSSFASRPVWRSTSGDYSWRSGSGKKESYSSGGFTTKKASTVSRGGYGRSSSARGHWGG" "i" "Han et al., 2011" -"G7851-MONOMER" "MKQLLASPSLQLVTYPASATAQSAEFASADCVTGLNEIGQISVSNISGDPQDVERIVALKADEQGASWYRIITMYEDQQPDNWRVQAILYA" "p" "Han et al., 2011" -"G7852-MONOMER" "MVSRKRNSVIYRFASLLLVLMLSACSALQGTPQPAPPVTDHPQEIRRDQTQGLQRIGSVSTMVRGSPDDALAEIKAKAVAAKADYYVVVMVDETIVTGQWYSQAILYRK" "i" "Han et al., 2011" -"G7853-MONOMER" "MIEIESRELADIPVLHAYPVGQKDTPLPCVIFYHGFTSSSLVYSYFAVALAQAGLRVIMPDAPDHGSRFSGDAARRLNQFWQILLQSMQEFTTLRAAIAEENWLLDDRLAVGGASMGAMTALGITARHPTVRCTASMMGSGYFTSLARSLFPPLIPETAAQQNEFNNIVAPLAEWEATNHLEQLSDRPLLLWHGLDDDVVPADESLRLQQALSETGRDKLLTCSWQPGVRHRITPEALDAAVTFFRQHL" "c" "Han et al., 2011" -"G7854-MONOMER" "MTEAQRHQILLEMLAQLGFVTVEKVVERLGISPATARRDINKLDESGKLKKVRNGAEAITQQRPRWTPMNLHQAQNHDEKVRIAKAASQLVNPGESVVINCGSTAFLLGREMCGKPVQIITNYLPLANYLIDQEHDSVIIMGGQYNKSQSITLSPQGSENSLYAGHWMFTSGKGLTAEGLYKTDMLTAMAEQKMLSVVGKLVVLVDSSKIGERAGMLFSRADQIDMLITGKNANPEILQQLEAQGVSILRV" "c" "Han et al., 2011" -"G7855-MONOMER" "MSKVKSITRESWILSTFPEWGSWLNEEIEQEQVAPGTFAMWWLGCTGIWLKSEGGTNVCVDFWCGTGKQSHGNPLMKQGHQMQRMAGVKKLQPNLRTTPFVLDPFAIRQIDAVLATHDHNDHIDVNVAAAVMQNCADDVPFIGPKTCVDLWIGWGVPKERCIVVKPGDVVKVKDIEIHALDAFDRTALITLPADQKAAGVLPDGMDDRAVNYLFKTPGGSLYHSGDSHYSNYYAKHGNEHQIDVALGSYGENPRGITDKMTSADMLRMGEALNAKVVIPFHHDIWSNFQADPQEIRVLWEMKKDRLKYGFKPFIWQVGGKFTWPLDKDNFEYHYPRGFDDCFTIEPDLPFKSFL" "c" "Han et al., 2011" -"G7858-MONOMER" "MSLPMLQVALDNQTMDSAYETTRLIAEEVDIIEVGTILCVGEGVRAVRDLKALYPHKIVLADAKIADAGKILSRMCFEANADWVTVICCADINTAKGALDVAKEFNGDVQIELTGYWTWEQAQQWRDAGIGQVVYHRSRDAQAAGVAWGEADITAIKRLSDMGFKVTVTGGLALEDLPLFKGIPIHVFIAGRSIRDAASPVEAARQFKRSIAELWG" "c" "Han et al., 2011" -"G7859-MONOMER" "MLSKQIPLGIYEKALPAGECWLERLQLAKTLGFDFVEMSVDETDDRLSRLNWSREQRLALVNAIVETGVRVPSMCLSAHRRFPLGSEDDAVRAQGLEIMRKAIQFAQDVGIRVIQLAGYDVYYQEANNETRRRFRDGLKESVEMASRAQVTLAMEIMDYPLMSSISKALGYAHYLNNPWFQLYPDIGNLSAWDNDVQMELQAGIGHIVAVHVKDTKPGVFKNVPFGEGVVDFERCFETLKQSGYCGPYLIEMWSETAEDPAAEVAKARDWVKARMAKAGMVEAA" "c" "Han et al., 2011" -"G7860-MONOMER" "MQKLKQQVFEANMELPRYGLVTFTWGNVSAIDRERGLVVIKPSGVAYETMKAADMVVVDMSGKVVEGEYRPSSDTATHLELYRRYPSLGGIVHTHSTHATAWAQAGLAIPALGTTHADYFFGDIPCTRGLSEEEVQGEYELNTGKVIIETLGNAEPLHTPGIVVYQHGPFAWGKDAHDAVHNAVVMEEVAKMAWIARGINPQLNHIDSFLMNKHFMRKHGPNAYYGQK" "c" "Han et al., 2011" -"G7861-MONOMER" "MFSRVLALLAVLLLSANTWAAIEINNHQARNMDDVQSLGVIYINHNFATESEARQALNEETDAQGATYYHVILMREPGSNGNMHASADIYR" "p" "Han et al., 2011" -"G7862-MONOMER" "MTLPTTIYSFPAYLSRFSSTDKPVKLKFHQYARATLLSNRGRDHNCDGRRTVEIHKLDLSDWQAFNKLATRCNAYDGITMNGDNSFGWNHEATLDNIHAQKYNKAYAGARLTAELKYLLQDVESFEPNSKYTIHEVVLGPGYGTPDYTGQTIGYVVTLPAQMPNCWSSELPTIDLYIDQLRTVTGVSNALGFIIAALLNAYSDLPHDLKIGLRSLSSSAAIYSGLGFERVPQERDISCARMYLTPANHPDLWTQENGEWIYLRN" "m" "Unambiguous EcoCyc data" -"G7863-MONOMER" "VHSENQSKGVHYAKSQRLLEINHAHLQLMESLLDEGKKHNIFKPDIDPLQVNINIAALGGYYLINQHTLGLVYHISMVSPQALEARRKVIKETILSWLLVDPSSTAHE" "c" "Han et al., 2011" -"G7864-MONOMER" "MPGRFELKPTLEKVWHAPDNFRFMDPLPPMHRRGIIIAAIVLVVGFLLPSDDTPNAPVVTREAQLDIQSQSQPPTEEQLRAQLVTPQNDPDQVAPVAPEPIQEGQPEEQPQTTQTQPFQPDSGIDNQWRSYRVEPGKTMAQLFRDHGLPATDVYAMAQVEGAGKPLSNLQNGQMVKIRQNASGVVTGLTIDTGNNQQVLFTRQPDGSFIRAR" "e" "Han et al., 2011" -"G7865-MONOMER" "MTTPTFDTIEAQASYGIGLQVGQQLSESGLEGLLPEALVAGIADALEGKHPAVPVDVVHRALREIHERADAVRRQRFQAMAAEGVKYLEENAKKEGVNSTESGLQFRVINQGEGAIPARTDRVRVHYTGKLIDGTVFDSSVARGEPAEFPVNGVIPGWIEALTLMPVGSKWELTIPQELAYGERGAGASIPPFSTLVFEVELLEIL" "c" "EcoCyc dump" -"G7866-MONOMER" "MAYRDQPLGELALSIPRASALFRKYDMDYCCGGKQTLARAAARKELDVEVIEAELAKLAEQPIEKDWRSAPLAEIIDHIIVRYHDRHREQLPELILQATKVERVHADKPSVPKGLTKYLTMLHEELSSHMMKEEQILFPMIKQGMGSQAMGPISVMESEHDEAGELLEVIKHTTNNVTPPPEACTTWKAMYNGINELIDDLMDHISLENNVLFPRALAGE" "c" "Han et al., 2011" -"G7867-MONOMER" "MPVMISGVLYALLAGLMWGLIFVGPLIVPEYPAMLQSMGRYLALGLIALPIAWLGRVRLRQLARRDWLTALMLTMMGNLIYYFCLASAIQRTGAPVSTMIIGTLPVVIPVFANLLYSQRDGKLAWGKLAPALICIGIGLACVNIAELNHGLPDFDWARYTSGIVLALVSVVCWAWYALRNARWLRENPDKHPMMWATAQALVTLPVSLIGYLVACYWLNTQTPDFSLPFGPRPLVFISLMVAIAVLCSWVGALCWNVASQLLPTVILGPLIVFETLAGLLYTFLLRQQMPPLMTLSGIALLVIGVVIAVRAKPEKPLTESVSES" "i" "Han et al., 2011" -"G7868-MONOMER" "MIAITGATGQLGHYVIESLMKTVPASQIVAIVRNPAKAQALAAQGITVRQADYGDEAALTSALQGVEKLLLISSSEVGQRAPQHRNVINAAKAAGVKFIAYTSLLHADTSPLGLADEHIETEKMLADSGIVYTLLRNGWYSENYLASAPAALEHGVFIGAAGDGKIASATRADYAAAAARVISEAGHEGKVYELAGDSAWTLTQLAAELTKQSGKQVTYQNLSEADFAAALKSVGLPDGLADMLADSDVGASKGGLFDDSKTLSKLIGHPTTTLAESVSHLFNVNN" "c" "Han et al., 2011" -"G7869-MONOMER" "MSQVSLSQQLKEGNLFAEQCPSREVLKHVTSRWGVLILVALREGTHRFSDLRRKIGGVSEKMLAQSLQALEQDGFLNRIAYPVVPPHVEYSLTPLGEQVSEKVAALADWIELNLPEVLAVRDERAA" "c" "Han et al., 2011" -"G7870-MONOMER" "MLPRIRHNNFIGAVELFVKSSYTKTHSNNFFNNIHHAFKKKDWISNYDSLLTLREFFRCATQIDKSGYQVLSSKNETVHAMDKFLISFSLKDNGAEYTMTLRGSGFEYEEIPITINEYNSFMDFKNREFPLEQNRRLYAWDILQKKQSDIPKRIKGYIHQAIGDVSLGYALLEDIVSKLKRGKFELQIPGGGIKECDGWYIYEKIIDDNFAIVIESLGFALKIYGGDERFRNGSSVVLEDEDYSLIYNFLVNAGCQQVELAEQVDAIVSANLAADSDITKEKICEKYKSTIEAFKKEQLALPVLVRRKNSET" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7871-MONOMER" "MTLRKILALTCLLLPMMASAHQFETGQRVPPIGITDRGELVLDKDQFSYKTWNSAQLVGKVRVLQHIAGRTSAKEKNATLIEAIKSAKLPHDRYQTTTIVNTDDAIPGSGMFVRSSLESNKKLYPWSQFIVDSNGVALGAWQLDEESSAVVVLDKDGRVQWAKDGALTPEEVQQVMDLLQKLLK" "e" "Han et al., 2011" -"G7872-MONOMER" "MKIFQRYNPLQVAKYVKILFRGRLYIKDVGAFEFDKGKILIPKVKDKLHLSVMSEVNRQVMRLQTEMA" "c" "Han et al., 2011" -"G7873-MONOMER" "MLNSILVILCLIAVSAFFSMSEISLAASRKIKLKLLADEGNINAQRVLNMQENPGMFFTVVQIGLNAVAILGGIVGDAAFSPAFHSLFSRYMSAELSEQLSFILSFSLVTGMFILFADLTPKRIGMIAPEAVALRIINPMRFCLYVCTPLVWFFNGLANIIFRIFKLPMVRKDDITSDDIYAVVEAGALAGVLRKQEHELIENVFELESRTVPSSMTPRENVIWFDLHEDEQSLKNKVAEHPHSKFLVCNEDIDHIIGYVDSKDLLNRVLANQSLALNSGVQIRNTLIVPDTLTLSEALESFKTAGEDFAVIMNEYALVVGIITLNDVMTTLMGDLVGQGLEEQIVARDENSWLIDGGTPIDDVMRVLDIDEFPQSGNYETIGGFMMFMLRKIPKRTDSVKFAGYKFEVVDIDNYRIDQLLVTRIDSKATALSPKLPDAKDKEESVA" "i" "Han et al., 2011" -"G7874-MONOMER" "VRYIRQLCCVSLLCLSGSAVAANVRLQVEGLSGQLEKNVRAQLSTIESDEVTPDRRFRARVDDAIREGLKALGYYQPTIEFDLRPPPKKGRQVLIAKVTPGVPVLIGGTDVVLRGGARTDKDYLKLLDTRPAIGTVLNQGDYENFKKSLTSIALRKGYFDSEFTKAQLGIALGLHKAFWDIDYNSGERYRFGHVTFEGSQIRDEYLQNLVPFKEGDEYESKDLAELNRRLSATGWFNSVVVAPQFDKARETKVLPLTGVVSPRTENTIETGVGYSTDVGPRVKATWKKPWMNSYGHSLTTSTSISAPEQTLDFSYKMPLLKNPLEQYYLVQGGFKRTDLNDTESDSTTLVASRYWDLSSGWQRAINLRWSLDHFTQGEITNTTMLFYPGVMISRTRSRGGLMPTWGDSQRYSIDYSNTAWGSDVDFSVFQAQNVWIRTLYDRHRFVTRGTLGWIETGDFDKVPPDLRFFAGGDRSIRGYKYKSIAPKYANGDLKGASKLITGSLEYQYNVTGKWWGAVFVDSGEAVSDIRRSDFKTGTGVGVRWESPVGPIKLDFAVPVADKDEHGLQFYIGLGPEL" "e" "EcoCyc dump" -"G7875-MONOMER" "MSLWKKISLGVVIVILLLLGSVAFLVGTTSGLHLVFKAADRWVPGLDIGKVTGGWRDLTLSDVRYEQPGVAVKAGNLHLAVGLECLWNSSVCINDLALKDIQVNIDSKKMPPSEQVEEEEDSGPLDLSTPYPITLTRVALDNVNIKIDDTTVSVMDFTSGLNWQEKTLTLKPTSLKGLLIALPKVAEVAQEEVVEPKIENPQPDEKPLGETLKDLFSRPVLPEMTDVHLPLNLNIEEFKGEQLRVTGDTDITVSTMLLKVSSIDGNTKLDALDIDSSQGIVNASGTAQLSDNWPVDITLNSTLNVEPLKGEKVKLKMGGALREQLEIGVNLSGPVDMDLRAQTRLAEAGLPLNVEVNSKQLYWPFTGEKQYQADDLKLKLTGKMTDYTLSMRTAVKGQEIPPATITLDAKGNEQQVNLDKLTVAALEGKTELKALLDWQQAISWRGELTLNGINTAKEFPDWPSKLNGLIKTRGSLYGGTWQMDVPELKLTGNVKQNKVNVDGTLKGNSYMQWMIPGLHLELGPNSAEVKGELGVKDLNLDATINAPGLDNALPGLGGTAKGLVKVRGTVEAPQLLADITARGLRWQELSVAQVRVEGDIKSTDQIAGKLDVRVEQISQPDVNINLVTLNAKGSEKQHELQLRIQGEPVSGQLNLAGSFDRKEERWKGTLSNTRFQTPVGPWSLTRDIALDYRNKEQKISIGPHCWLNPNAELCVPQTIDAGAEGRAVVNLNRFDLAMLKPFMPETTQASGIFTGKADVAWDTTKEGLPQGSITLSGRNVQVTQTVNDAALPVAFQTLNLTAELRNNRAELGWTIRLTNNGQFDGQVQVTDPQGRRNLGGNVNIRNFNLAMINPIFTRGEKAAGMVSANLRLGGDVQSPQLFGQLQVTGVDIDGNFMPFDMQPSQLAVNFNGMRSTLAGTVRTQQGEIYLNGDADWSQIENWRARVTAKGSKVRITVPPMVRMDVSPDVVFEATPNLFTLDGRVDVPWARIVVHDLPESAVGVSSDVVMLNDNLQPEEPKTASIPINSNLIVHVGNNVRIDAFGLKARLTGDLNVVQDKQGLGLNGQINIPEGRFHAYGQDLIVRKGELLFSGPPDQPYLNIEAIRNPDATEDDVIAGVRVTGLADEPKAEIFSDPAMSQQAALSYLLRGQGLESDQSDSAAMTSMLIGLGVAQSGQIVGKIGETFGVSNLALDTQGVGDSSQVVVSGYVLPGLQVKYGVGIFDSIATLTLRYRLMPKLYLEAVSGVDQALDLLYQFEF" "s" "EcoCyc dump" -"G7876-MONOMER" "MRIFVYGSLRHKQGNSHWMTNAQLLGDFSIDNYQLYSLGHYPGAVPGNGTVHGEVYRIDNATLAELDALRTRGGEYARQLIQTPYGSAWMYVYQRPVDGLKLIESGDWLDRDK" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7877-MONOMER" "MSKTIATENAPAAIGPYVQGVDLGNMIITSGQIPVNPKTGEVPADVAAQARQSLDNVKAIVEAAGLKVGDIVKTTVFVKDLNDFATVNATYEAFFTEHNATFPARSCVEVARLPKDVKIEIEAIAVRR" "c" "Han et al., 2011" -"G7879-MONOMER" "MVERTAVFPAGRHSLYAEHRYSAAIRSGDLLFVSGQVGSREDGTPEPDFQQQVRLAFDNLHATLAAAGCTFDDIIDVTSFHTDPENQFEDIMTVKNEIFSAPPYPNWTAVGVTWLAGFDFEIKVIARIPEQ" "c" "Han et al., 2011" -"G7880-MONOMER" "MGAFTGKTVLILGGSRGIGAAIVRRFVTDGANVRFTYAGSKDAAKRLAQETGATAVFTDSADRDAVIDVVRKSGALDILVVNAGIGVFGEALELNADDIDRLFKINIHAPYHASVEAARQMPEGGRILIIGSVNGDRMPVAGMAAYAASKSALQGMARGLARDFGPRGITINVVQPGPIDTDANPANGPMRDMLHSLMAIKRHGQPEEVAGMVAWLAGPEASFVTGAMHTIDGAFGA" "c" "Han et al., 2011" -"G7882-MONOMER" "MVTKKQSRVPGRPRRFAPEQAISAAKVLFHQKGFDAVSVAEVTDYLGINPPSLYAAFGSKAGLFSRVLNEYVGTEAIPLADILRDDRPVGECLVEVLKEAARRYSQNGGCAGCMVLEGIHSHDPQARDIAVQYYHAAETTIYDYIARRHPQRAQCVTDFMSTVMSGLSAKAREGHSIEQLCATAAMAGEAIKTILEE" "c" "Han et al., 2011" -"G7883-MONOMER" "MIIGNIHNLQPWLPQELRQAIEHIKAHVTAETPKGKHDIEGNRLFYLISEDMTEPYEARRAEYHARYLDIQIVLKGQEGMTFSTQPAGAPDTDWLADKDIAFLPEGVDEKTVILNEGDFVVFYPGEVHKPLCAVGAPAQVRKAVVKMLMA" "c" "Han et al., 2011" -"G7884-MONOMER" "MSKISDLNYSQHITLADNFKQKSEVLNTWRVGMNDFARIAGGQDNRRNILSPGAFLEFLAKIFTLGYVDFSKRSNEAGRNMMAHIKSSSYSKDTNGNEKMKFYMNNPVGERADSPKVIIEISLSTITTMGTRQGHTAIIFPQPDGSTNRYEGKSFERKDESSLHLITNKVLACYQSEANKKIARLLNNNQELNNLQKLNNLQKLNNLLKLNNIQGLNNPQELNNPQNLNDSQELNNSQELNSPQELNDPQELNNSQDLNNSKVSCTVSVDSTITGLLKEPLNNALLAIRNEHLLLMPHVCDESISYLLGEKGILEEIDKLYALNDHGIDNDKVGNNEINDIKVNLSHILIDSLDDAKVNLTPVIDSILETFSKSPYINDVRILDWCFNKSMQYFDDTKKIKHACSVINHINLRSDQSKIAETLFFNLDKEPYKNSPELQGLIWNKLVVYVNEFNLSNREKTNLIQRLFDNVESIFNEVPVSILVNDIFMNDFFMKNPEMINWYFPQLLKSYEGEKIYFDNLKYDLNDNDKESNKEILKNQPDNVIKEKLNNEYKLRFRMMQTILQSRVNVLPYINEQRLNKLNPPENLRIAIEHFGWKNRPITA" "c" "Han et al., 2011" -"G7885-MONOMER" "MANPEQLEEQREETRLIIEELLEDGSDPDALYTIEHHLSADDLETLEKAAVEAFKLGYEVTDPEELEVEDGDIVICCDILSECALNADLIDAQVEQLMTLAEKFDVEYDGWGTYFEDPNGEDGDDEDFVDEDDDGVRH" "c" "Han et al., 2011" -"G7886-MONOMER" "MNNIAPQSPVMRRLTLQDNPAIARVIRQVSAEYGLTADKGYTVADPNLDELYQVYSQPGHAYWVVEYEGEVVGGGGIAPLTGSESDICELQKMYFLPAIRGKGLAKKLALMAMEQAREMGFKRCYLETTAFLKEAIALYEHLGFEHIDYALGCTGHVDCEVRMLREL" "c" "Han et al., 2011" -"G7887-MONOMER" "MAQVINEMDVPSHSFVFHGTGERYFLICVVNVLLTIITLGIYLPWALMKCKRYLYANMEVNGQRFSYGITGGNVFVSCLFFVFFYFAILMTVSADMPLVGCVLTLLLLVLLIFMAAKGLRHQALMTSLNGVRFSFNCSMKGFWWVTFFLPILMAIGMGTVFFISTKMLPANSSSSVIISMVLMAIVGIVSIGIFNGTLYSLVMSFLWSNTSFGIHRFKVKLDTTYCIKYAILAFLALLPFLAVAGYIIFDQILNAYDSSVYANDDIENLQQFMEMQRKMIIAQLIYYFGIAVSTSYLTVSLRNHFMSNLSLNDGRIRFRLTLTYHGMLYRMCALVVISGITGGLAYPLLKIWMIDWQAKNTYLLGDLDDLPLINKEEQPDKGFLASISRGVMPSLPFL" "i" "Han et al., 2011" -"G7888-MONOMER" "VIIIRYLVRETLKSQLAILFILLLIFFCQKLVRILGAAVDGDIPANLVLSLLGLGVPEMAQLILPLSLFLGLLMTLGKLYTESEITVMHACGLSKAVLVKAAMILAVFTAIVAAVNVMWAGPWSSRHQDEVLAEAKANPGMAALAQGQFQQATNGSSVLFIESVDGSDFKDVFLAQIRPKGNARPSVVVADSGHLTQLRDGSQVVTLNQGTRFEGTALLRDFRITDFQDYQAIIGHQAVALDPNDTDQMDMRTLWNTDTDRARAELNWRITLVFTVFMMALMVVPLSVVNPRQGRVLSMLPAMLLYLLFFLIQTSLKSNGGKGKLDPTLWMWTVNLIYLALAIVLNLWDTVPVRRLRASFSRKGAV" "i" "Han et al., 2011" -"G7889-MONOMER" "MQPFGVLDRYIGKTIFTTIMMTLFMLVSLSGIIKFVDQLKKAGQGSYDALGAGMYTLLSVPKDVQIFFPMAALLGALLGLGMLAQRSELVVMQASGFTRMQVALSVMKTAIPLVLLTMAIGEWVAPQGEQMARNYRAQAMYGGSLLSTQQGLWAKDGNNFVYIERVKGDEELGGISIYAFNENRRLQSVRYAATAKFDPEHKVWRLSQVDESDLTNPKQITGSQTVSGTWKTNLTPDKLGVVALDPDALSISGLHNYVKYLKSSGQDAGRYQLNMWSKIFQPLSVAVMMLMALSFIFGPLRSVPMGVRVVTGISFGFVFYVLDQIFGPLTLVYGIPPIIGALLPSASFFLISLWLLMRKS" "i" "Han et al., 2011" -"G7890-MONOMER" "MSEPLLIARTPDTELFLLPGMANRHGLITGATGTGKTVTLQKLAESLSEIGVPVFMADVKGDLTGVAQAGTVSEKLLARLKNIGVNDWQPHANPVVVWDIFGEKGHPVRATVSDLGPLLLARLLNLNDVQSGVLNIIFRIADDQGLLLLDFKDLRAITQYIGDNAKSFQNQYGNISSASVGAIQRGLLSLEQQGAAHFFGEPMLDIKDWMRTDANGKGVINILSAEKLYQMPKLYAASLLWMLSELYEQLPEAGDLEKPKLVFFFDEAHLLFNDAPQVLLDKIEQVIRLIRSKGVGVWFVSQNPSDIPDNVLGQLGNRVQHALRAFTPKDQKAVKAAAQTMRANPAFDTEKAIQELGTGEALISFLDAKGSPSVVERAMVIAPCSRMGPVTEDERNGLINHSPVYGKYEDEVDRESAYEMLQKGFQASTEQQNNPPAKGKEVAVDDGILGGLKDILFGTTGPRGGKKDGVVQTMAKSAARQVTNQIVRGMLGSLLGGRRR" "c" "Han et al., 2011" -"G7891-MONOMER" "MRNHRISLQDIATLAGVTKMTVSRYIRSPKKVAKETGERIAKIMEEINYIPNRAPGMLLNAQSYTLGILIPSFQNQLFADILAGIESVTSEHNYQTLIANYNYDRDSEEESVINLLSYNIDGIILSEKYHTIRTVKFLRSATIPVVELMDVQGERLDMEVGFDNRQAAFDMVCTMLEKRVRHKILYLGSKDDTRDEQRYQGYCDAMMLHNLSPLRMNPRAISSIHLGMQLMRDALSANPDLDGVFCTNDDIAMGALLLCRERNLAVPEQISIAGFHGLEIGRQMIPSLASVITPRFDIGRMAAQMLLSKIKNNDHNHNTVDLGYQIYHGNTL" "c" "Han et al., 2011" -"G7896-MONOMER" "VIRKNKWLRFQTVCRYIPLSLKNHNRLVIFVCQRIEWRYIFSTNTGHPLKNTCEMTGTDFSTDGLMRRYVTGGNNQWHTVASLHMTIMMNRIGTVADRQPKARKVKHGEMT" "c" "Han et al., 2011" -"G7897-MONOMER" "VRRDYMSVYDYPVPTTPWLNTAPGLFIDDYTSTASSTVSSLSRTLIYDYEQNPDSGNNVVALAAKAGYSTWWISNQGKLGEHDTRISVIASDAEHATFLKKGSFASRKTDDKLLLQETERALADTSSPKIIFLHMMGSHPNPCDSLNS" "i" "Unambiguous EcoCyc data" -"G7898-MONOMER" "VNRPVFPVYHFLVSAAILVFVVIFWRTHHRDHRNWLALRLFVLCSVNRWPLRMVKGTVVGTTDTLREMQRYEQLSSTGLTTGKSSREHRYMIRLLLSLVRVCAGIICQCMTIPYQPHRG" "i" "Unambiguous EcoCyc data" -"G7899-MONOMER" "LLPPGPLLVLPVGARVSRGGLSPTERSCISRHTQQYLRACYPSGRYGTKGLVVRWFTGGREPRGTDNEPSGNRSLEPHAWLTDVLTRLPEWPEERLAELLPLEGFTFFG" "c" "Han et al., 2011" -"G7900-MONOMER" "MHIGQALDLVSRYDSLRNPLTSLGDYLDPELISRCLAESGTVTLRKRRLPLEMMVWCIVGMALERKEPLHQIVNRLDIMLPGNRPFVAPSAVIQARQRLGSEAVRRVFTKTAQLWHNATPHPHWCGLTLLAIDGVFWRTPDTPENDAAFPRQTHAGNPALYPQVKMVCQMELTSHLLTAAAFGTMKNSENELAEQLIEQTGDNTLTLMDKGYYSLGLLNAWSLAGEHRHWMIPLRKGAQYEEIRKLGKGDHLVKLKTSPQARKKWPGLGNEVTARLLTVTRKGKVCHLLTSMTDAMRFPGGEMGDLYSHRWEIELGYREIKQTMQRSRLTLRSKKPELVEQELWGVLLAYNLVRYQMIKMAEHLKGYWPNQLSFSESCGMVMRMLMTLQGASPGRIPELMRDLASMGQLVKLPTRRERAFPRVVKERPWKYPTAPKKSQSVA" "c" "Han et al., 2011" -"G7901-MONOMER" "MINYGVVGVGYFGAELARFMNMHDNAKITCVYDPENGENIARELQCINMSSLDALVSSKLVDCVIVATPNYLHKEPVIKAAKNKKHVFCEKPIALSYEDCVDMVKACKEAGVTFMAGHIMNFFNGVQYARKLIKEGVIGEILSCHTKRNGWENKQERLSWKKMKEQSGGHLYHHIHELDCVQHLLGEIPETVTMIGGNLAHSGPGFGNEDDMLFMTLEFPSGKLATLEWGSAFNWPEHYVIINGTKGSIKIDMQETAGSLRIGGQTKHFLVHETQEEDDDRRKGNMTSEMDGAIAYGHPGKKTPLWLASLIRKETLFLHNILCGAKPEEDYIDLLNGEAAMSAIATADAATLSRSQDRKVKISEIIKHTSVM" "p" "Han et al., 2011" -"G7902-MONOMER" "VNCETKQRTQFECIYFSQYWAKGDFIAKRAPIGQWEPYSEESLLGIIVTSVCRIKVAMLKPEPPRDPHIPLMGDFN" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7903-MONOMER" "LLADELTIGPIRAVPMDITPKYVGIASGLMNAGSAVADIISPIAFGIIIDKTGNWSLPFYGSVALLVIGIFLTFFMRPDKSL" "i" "Unambiguous EcoCyc data" -"G7904-MONOMER" "MKKRNFSAEFKRESAQLVVDQKYTVADAAKAMDVGLSTMTRWVKQLRDERQGKTPKASPITPEQIEIRKLRKKLQRIEMENEILKRLL" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7906-MONOMER" "MPFYFRKECPLNSGYLRKNRPEKPDGRRAVLRSQVLELHGISHGSAGARSIATMATRRGYQMGRWLAGRLMKELGLVSCQQPTHRYKRGGHEHVAIPNYLERQFAVTEPNQVWCGDVTYIWTGKRWAYLAVVLDLFARKPVGWAMSFSPDSRLTMKALEMAWETRGKPVGVMFQAIKAVIIRAGSSGSYCGDTGSGRV" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7907-MONOMER" "MVGYHQTNQKTDTGKTLTRRPVLVDHNRLPEGSRGRLAVAVAGDHPAAVQVTMTLVNDTGFDPVFSGSIAESWRQQPCTPSYCCDWEAATMLRAFPLAKKGEGRARLPSLYASFGKLGETPTHEDIIDNNRSINWPV" "c" "Han et al., 2011" -"G7908-MONOMER" "VASISIRCPSCSATEGVVRNGKSTAGHQRYLCSPCRKTWQLQFTYTASQPGKHQKIIDMAMNGVGCRASARIMGVGLNTVLRHLKNSGRSR" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7909-MONOMER" "VDRDQTNSSLFNDDPVLHATWLYYQEGKSQTEVAAIMGVSRVTVVKYLQTARENGLVHINLDVNVFGSIDAALQIRDKFNLQRVIIVPDGEHAGKRDDTKLMRTRLSRAGGMYLNQVIENGDVLGVAWGRTIHQMSKTMTPKSCKNVTVIQMLGSMPSQPDLTIIESSSQIAYKLSGRVASLHVPAVVSSARLAMELQAEPIIRSNFDVLTRCTKAFFVVGNALDENPLIRVGVLNKKEMQTYRDLGAVGVICGRFYDKEGMPVVADVDQRILGISLAQLRQIERKIFLAGGERGYDATLGALLGGYVTDLIVDEGTAEFLLACELPH" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7910-MONOMER" "MSVRNIFADESHDIYTVRTHADGPDGELPLTAEMLINRPSGDLFGMTMNAGMGWSPDELDRDGILLLSTLGGLRGADGKPVALALHQGHYELDIQMKAAAEVIKANHALPYAVYVSDPCDGRTQGTTGMFDSLPYRNDASMVMRRLIRSLPDAKAVIGVASCDKGLPATMMALAAQHNIATVLVPGGATLPAKDGEDNGKVQTIGARFANGELSLQDARRAGCKACASSGGGCQFLGTAGTSQVVAEGLGLAIPHSALAPSGEPVWREIARASARAALNLSQKGITTREILTDKAIENAMTVHAAFGGSTNLLLHIPAIAHQAGCHIPTVDDWIRINKRVPRLVSVLPNGPVYHPTVNAFMAGGVPEVMLHLRSLGLLHEDVMTVTGSTLKENLDWWEHSERRQRFKQLLLDQEQINADEVIMSPQQAKARGLTSTITFPVGNIAPEGSVIKSTAIDPSMIDEQGIYYHKGVAKVYLSEKSAIYDIKHDKIKAGDILVIIGVGPSGTGMEETYQVTSALKHLSYGKHVSLITDARFSGVSTGACIGHVGPEALAGGPIGKLRTGDLIEIKIDCRELHGEVNFLGTRSDEQLPSQEEATAILNARPSHQDLLPDPELPDDTRLWAMLQAVSGGTWTGCIYDVNKIGAALRDFMNKN" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7911-MONOMER" "MKKFSGIIPPVSSTFHRDGTLDKKAMREVADFLINKGVDGLFYLGTGGEFSQMNTAQRMALAEEAVTIVDGRVPVLIGVGSPSTDEAVKLAQHAQAYGADGIVAINPYYWKVAPRNLDDYYQQIARSVTLPVILYNFPDLTGQDLTPETVTRLALQNENIVGIKDTIDSVGHLRTMINTVKSVRPSFSVFCGYDDHLLNTMLLGGDGAITASANFAPELSVGIYRAWREGDLATAATLNKKLLQLPAIYALETPFVSLIKYSMQCVGLPVETYCLPPILEASEEAKDKVHVLLTAQGILPV" "c" "Unambiguous EcoCyc data" -"G7912-MONOMER" "MVRKGCNSLVRAEKILTHIAWVGMASYMELLNKFQYPKSSLLNLLNVMVDCGFLIKNKNGYYSLGIKNYELGCQALHRQNIFEVTKRPMQELSLKSGLVCHLGAMESISAIYLDKIESPDSVPTSKSWIGKKLELHITALGKALLAWKTREELDYFLEALTLTPHTRNTFTDKKLFLEELQKTRLRGWAIDNEESTYGAVCLSMPVFNMYNRVNYAISLSGDPVVYSGNKIDSYLELLRKCAEQISYGLGYRNENEHLRKGN" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7913-MONOMER" "MSQQRPDRIKQMLHYLWQHRHLSTQQAMELFGYAEATVRRDFQYIVNQYPGMIRGHGCLDFDDSTDDKEYVFDVKRTLQSVAKREIAALARTMIKDGDCFFLDSGSTCLELAKCLADARVKVICNDIKIANELGCFPHVESYIIGGLIRPGYFSVGESLALEMINAFSVERAFISCDALSLETGITNATMFEVGVKTRIIQRSREVILMADHSKFDAVEPHAVATLSCIKTIISDSGLPETIAQRYQRAGCQLFLPHSIK" "c" "Han et al., 2011" -"G7914-MONOMER" "MILHPSLASANPLHYGRELTALDNLDFGSLHLDIEDSSFINNITFGMKTVQAVARQTPHPLSFHFMLARPQRWFNALAEIRPAWIFVHAETLDYPSETLTEIRHTGARAGLVFNPATPIDAWRYLASELDGVMVMTSEPDGQGQRFIPSMCEKIQKVRTAFPQTECWADGGITLAAAQQLAAAGAQHMVIGRALFSSSDYRATLAQFATL" "c" "Han et al., 2011" -"G7915-MONOMER" "MSWLKEVIGTEKAVIAMCHLRALPGDPSFDAQLGMNWVIDKAWDDLMALQNGGVDAVMFSNEFSLPYLTKVRPETTAAMARIIGQLMSDIRIPFGVNVLWDPVASFDLAMATGAKFIREIFTGAYASDFGVWDTNVGETIRHQHRIGAGEVKTLFNIVPEAAVYLGNRDICSIAKSTVFNNHPDALCVSGLTAGTRTDSALLKRVKETVPDTVVLANTGVCLENVEEQLSIADGCVTATTFKKDGVFANFVDQARVSQFMEKVHHIRR" "c" "Han et al., 2011" -"G7916-MONOMER" "MDIPRIFTISESEHRIHNPFTEEKYATLGRVLRMKPGTRILDLGSGSGEMLCTWARDHGITGTGIDMSSLFTAQAKRRAEELGVSERVHFIHNDAAGYVANEKCDVAACVGATWIAGGFAGAEELLAQSLKPGGIMLIGEPYWRQLPATEEIAQACGVSSTSDFLTLPGLVGAFDDLGYDVVEMVLADQEGWDRYEAAKWLTMRRWLEANPDDDFAAEVRAELNIAPKRYVTYARECFGWGVFALIAR" "c" "Han et al., 2011" -"G7917-MONOMER" "MTVHHFTFHITDKSDASDIREVETRAFGFSKEADLVASLLEDESARPALSLLARYEGKAVGHILFTRATFKGEMDSPLMHILAPLAVIPEYQGMGVGGRLIRTGIEHLRLMGCQTVFVLGHATYYPRHGFEPCAGDKGYPAPYPIPEEHKACWMMQSLTAQPMTLTGHIRCADPDETGALT" "c" "Han et al., 2011" -"G7918-MONOMER" "MGYLHIDGRGMKPNGGSRHNPLEAETIAAWLVAHKDDIERHYGEPLYKVVGVVTPFSAQVNAIKMSLRKLEINGKDEQGLLTVGTVHSLQGAERAIVLFSPVYSKHEDGRFLDSNSTILNVAVSRAKDSFLVFGDMDLIEMQPAFSPRGLLAKYLFSSDNNALQFEFQKRQDLISAHTQISTLHGVEQHDEFLNKTLAGAQKKITIISPWLSWQKVEQTGFLASMALARSRGIDITVVTDKNCNIAHVDDDKRQEKQHLLNDAVEKLNKMGIATKLVNRVHSKIVIEDEELLCVGSFNWFSATREDKYQRYDTSLVYRGEGVKNEIKAIYGSLDQRQL" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7919-MONOMER" "MNAIISPDYYYVLTVAGQSNAMAYGEGLPLPDREDAPHPRIKQLARFAHTHPGGPPCHFNDIIPLTHCPHDVQDMQGYHHPLATNHQTQYGTVGQALHIARKLLPFIPDNAGILIVPCCRGGSAFTAGSEGTYSERHGASHDACRWGTDTPLYQDLVSRTRAALAKNPQNKFLGACWMQGEFDLMTSDYASHPQHFNHMVEAFRRDLKQYHSQLNNITDAPWFCGDTTWYWKENFPHSYEAIYGNYQNNVLANIIFVDFQQQGERGLTNAPDEDPDDLSTGYYGSAYRSPENWTTALRSSHFSTAARRGIISDRFVEAILQFWRER" "c" "Han et al., 2011" -"G7920-MONOMER" "MNKTITALAIMMASFAANASVLPETPVPFKSGTGAIDNDTVYIGLGSAGTAWYKLDTQAKDKKWTALAAFPGGPRDQATSAFIDGNLYVFGGIGKNSEGLTQVFNDVHKYNPKTNSWVKLMSHAPMGMAGHVTFVHNGKAYVTGGVNQNIFNGYFEDLNEAGKDSTAIDKINAHYFDKKAEDYFFNKFLLSFDPSTQQWSYAGESPWYGTAGAAVVNKGDKTWLINGEAKPGLRTDAVFELDFTGNNLKWNKLAPVSSPDGVAGGFAGISNDSLIFAGGAGFKGSRENYQNGKNYAHEGLKKSYSTDIHLWHNGKWDKSGELSQGRAYGVSLPWNNSLLIIGGETAGGKAVTDSVLITVKDNKVTVQN" "p" "Han et al., 2011" -"G7921-MONOMER" "MKKAKILSGVLLLCFSSPLISQAATLDVRGGYRSGSHAYETRLKVSEGWQNGWWASMESNTWNTIHDNKKENAALNDVQVEVNYAIKLDDQWTVRPGMLTHFSSNGTRYGPYVKLSWDATKDLNFGIRYRYDWKAYRQQDLSGDMSRDNVHRWDGYVTYHINSDFTFAWQTTLYSKQNDYRYANHKKWATENAFVLQYHMTPDITPYIEYDYLDRQGVYNGRDNLSENSYRIGVSFKL" "o" "Han et al., 2011" -"G7922-MONOMER" "MSMPLSNALQSQIITDAHFLHHPIVDSEFTRKLKYARMDSENIYLPPLTRGNNHNYDGKSVVEIRKLDISKEPWPFNYVTGACRESDGITTTGRMLYRNLKITSALDEIYGGICKKAHATTELAEGLRLNLFMKSPFDPVEDYTVHEITLGPGCNVPGYAGTTIGYISTLPASQAKRWTNEQPRIDIYIDQIMTVTGVANSSGFALAALLNANIELGNDPIIGIEAYPGTAEIHAKMGYKVIPGDENAPLKRMTLQPSSLPELFELKNGEWNYIGK" "c" "Han et al., 2011" -"G7923-MONOMER" "MMRQSLQAVLPEISGNKTSSLRKSVCSDLLTLFNSPHSALPSLLVSGMPEWQVHNPSDKHLQSWYCRQLRSALLFHEPRIAALQVNLKEAYCHTLAISLEIMLYHDDEPLTFDLVWDNGGWRSATLENVS" "c" "Han et al., 2011" -"G7924-MONOMER" "MDDCGAILHNIETKWLYDFLTLEKCRNFSQAAVSRNVSQPAFSRRIRALEQAIGVELFNRQVTPLQLSEQGKIFHSQIRHLLQQLESNLAELRGGSDYAQRKIKIAAAHSLSLGLLPSIISQMPPLFTWAIEAIDVDEAVDKLREGQSDCIFSFHDEDLLEAPFDHIRLFESQLFPVCASDEHGEALFNLAQPHFPLLNYSRNSYMGRLINRTLTRHSELSFSTFFVSSMSELLKQVALDGCGIAWLPEYAIQQEIRSGKLVVLNRDELVIPIQAYAYRMNTRMNPVAERFWRELRELEIVLS" "c" "Han et al., 2011" -"G7925-MONOMER" "MIDYTAAGFTLLQGAHLYAPEDRGICDVLVANGKIIAVASNIPSDIVPNCTVVDLSGQILCPGFIDQHVHLIGGGGEAGPTTRTPEVALSRLTEAGVTSVVGLLGTDSISRHPESLLAKTRALNEEGISAWMLTGAYHVPSRTITGSVEKDVAIIDRVIGVKCAISDHRSAAPDVYHLANMAAESRVGGLLGGKPGVTVFHMGDSKKALQPIYDLLENCDVPISKLLPTHVNRNVPLFEQALEFARKGGTIDITSSIDEPVAPAEGIARAVQAGIPLARVTLSSDGNGSQPFFDDEGNLTHIGVAGFETLLETVQVLVKDYDFSISDALRPLTSSVAGFLNLTGKGEILPGNDADLLVMTPELRIEQVYARGKLMVKDGKACVKGTFETA" "c" "Han et al., 2011" -"G7926-MONOMER" "MTTQVRKNVMDMFIDGARRGFTIATTNLLPNVVMAFVIIQALKITGLLDWVGHICEPVMALWGLPGEAATVLLAALMSMGGAVGVAASLATAGALTGHDVTVLLPAMYLMGNPVQNVGRCLGTAEVNAKYYPHIITVCVINALLSIWVMQLIV" "i" "Han et al., 2011" -"G7927-MONOMER" "MTQQGDAVAGELATEKVGIKGYLAFFLTIIFFSGVFSGTDSWWRVFDFSVLNGSFGQLPGANGATTSFRGAGGAGAKDGFLFALELAPSVILSLGIISITDGLGGLRAAQQLMTPVLKPLLGIPGICSLALIANLQNTDAAAGMTKELAQEGEITERDKVIFAAYQTSGSAIITNYFSSGVAVFAFLGTSVIVPLAVILVFKFVGANILRVWLNFEERRNPTQGAQA" "i" "Han et al., 2011" -"G7928-MONOMER" "MAKYNEKELADTSKFLSFVLRHKPEAIGIVLDREGWADIDKLILCAQKAGKRLTRALLDTVVATSDKKRFSYSSDGRCIRAVQGHSTSQVAISFAEKTPPQFLYHGTASRFLDEIKKQGLIAGERHYVHLSADEATARKVGARHGSPVILTVKAQEMAKRGLPFWQAENGVWLTSTVAVEFLEW" "c" "Han et al., 2011" -"G7929-MONOMER" "MPSSTHPVERFSFSTALFGMLVLTLGMGLGRFLYTPMLPVMMAEGSFSFSQLSWIASGNYAGYLAGSLLFSFGAFHQPSRLRPFLLASALASGLLILAMAWLPPFILVLLIRVLAGVASAGMLIFGSTLIMQHTRHPFVLAALFSGVGIGIALGNEYVLAGLHFDLSSQTLWQGAGALSGMMLIALTLLMPSKKHAITPMPLAKTEQQIMSWWLLAILYGLAGFGYIIVATYLPLMAKDAGSPLLTAHLWTLVGLSIVPGCFGWLWAAKRWGALPCLTANLLVQAICVLLTLASDSPLLLIISSLGFGGTFMGTTSLVMTIARQLSVPGNLNLLGFVTLIYGIGQILGPALTSMLSNGTSALASATLCGAAALFIAALISTVQLFKLQVVTS" "i" "Han et al., 2011" -"G7930-MONOMER" "VSGAALHITGFLRVKDSLRSLRILLDILLICLKGITVTKSISLSKRISIIVILFAIVAVCTFFVQSCARKSNHAASFQNYHATIDGKEIAGITNNISSLTWSAQSNTLFSTINKPAAIVEMTTNGDFIRTIPLDFVKDLETIEYIGDNQFVISDERDYAIYVISLTPNSEVKILKKIKIPLQDSPTNCGFEGLAYSRQDHTFWFFKEKNPIEVYKVNGLLSSNELHISKDEALQRQFTLDDVSGAEFNQQKNTLLVLSHESRALQEVTLVGEVIGEMSLTKGSRGLSHNIKQAEGVAMDASGNIYIVSEPNRFYRFTPQSSH" "i" "Han et al., 2011" -"G7931-MONOMER" "VAYSIGIDSGSTATKGILLADGVITRRFLVPTPFRPATAITEAWETLREGLETTPFLTLTGYGRQLVDFADKQVTEISCHGLGARFLAPATRAVIDIGGQDSKVIQLDDDGNLCDFLMNDKCAAGTGRFLEVISRTLGTSVEQLDSITENVTPHAITSMCTVFAESEAISLRSAGVAPEAILAGVINAMARRSANFIARLSCEAPILFTGGVSHCQKFARMLESHLRMPVNTHPDAQFAGAIGAAVIGQRVRTRR" "c" "Han et al., 2011" -"G7932-MONOMER" "MSLVTDLPAIFDQFSEARQTGFLTVMDLKERGIPLVGTYCTFMPQEIPMAAGAVVVSLCSTSDETIEEAEKDLPRNLCPLIKSSYGFGKTDKCPYFYFSDLVVGETTCDGKKKMYEYMAEFKPVHVMQLPNSVKDDASRALWKAEMLRLQKTVEERFGHEISEDALRDAIALKNRERRALANFYHLGQLNPPALSGSDILKVVYGATFRFDKEALINELDAMTARVRQQWEEGQRLDPRPRILITGCPIGGAAEKVVRAIEENGGWVVGYENCTGAKATEQCVAETGDVYDALADKYLAIGCSCVSPNDQRLKMLSQMVEEYQVDGVVDVILQACHTYAVESLAIKRHVRQQHNIPYIAIETDYSTSDVGQLSTRVAAFIEML" "c" "Han et al., 2011" -"G7933-MONOMER" "MNKLIELRRAKRLALSLLLIAAATFVVTLFLPPNFWVSGVKAIAEAAMVGALADWFAVVALFRRVPIPIISRHTAIIPRNKDRIGENLGQFVQEKFLDTQSLVALIRRHEPALLIGNWFSQPENARRVGQHLLQIMSGFLELTDDARIQRLLKRAVHRAIDKVDLSGTSALMLESMTKNDRHQVLLDTLIAQLIALLQRDKSRKFIAQQIVRWLESEHPLKAKILPTEWLGEHSAELVSDAVNSLLDDISRDRAHQIRHAFDRATFALIDKLKNDPEMAARADAVKSYLKEDEAFNRYLSELWGDLREWLKVDINSEDSRVKERIARAGQWFGETLIADDALRASLNGHLEQAAHRVAPEFSAFLTRHISDTVKSWDARDMSRQIELNIGKDLQFIRVNGTLVGGCIGLILYLLSQLPALFPLGNF" "i" "Han et al., 2011" -"G7934-MONOMER" "MTNFTTSTPHDALFKTFLTHPDTARDFMEIHLPKDLRELCDLDSLKLESASFVDEKLRALHSDILWSVKTREGDGYIYVVIEHQSREDIHMAFRLMRYSMAVM" "c" "Han et al., 2011" -"G7935-MONOMER" "MLFYHGSRSPYPWSLCWLDEFADPTTARKLYNAAFPLVDVTVVPDDEIVQHRRVALLELIQKHIRQRDLMGLIDQLVVLLVTECANDSQITALLNYILLTGDEARFNEFISELTRRMPQHRERIMTIAERIHNDGYIKGEQRILRLLLQNGADPEWIQKITGLSAEQMQALRQPLPERERYSWLKS" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7936-MONOMER" "MTRYQHLATLLAERIEQGLYRHGEKLPSVRSLSQEHGVSISTVQQAYQTLETMKLITPQPRSGYFVAQRKAQPPVPPMTRPVQRPVEITQWDQVLDMLEAHSDSSIVPLSKSTPDVEAPSLKPLWRELSRVVQHNLQTVLGYDLLAGQRVLREQIARLMLDSGSVVTADDIIITSGCHNSMSLALMAVCKPGDIVAVESPCYYGSMQMLRGMGVKVIEIPTDPETGISVEALELALEQWPIKGIILVPNCNNPLGFIMPDARKRAVLSLAQRHDIVIFEDDVYGELATEYPRPRTIHSWDIDGRVLLCSSFSKSIAPGLRVGWVAPGRYHDKLMHMKYAISSFNVPSTQMAAATFVLEGHYHRHIRRMRQIYQRNLALYTCWIREYFPCEICITRPKGGFLLWIELPEQVDMVCVARQLCRMKIQVAAGSIFSASGKYRNCLRINCALPLSETYREALKQIGEAVYRAME" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7937-MONOMER" "MEFHENRAKAPFIGLVQLWQAVRRWRRQMQTRRVLQQMSDERLKDIGLRREDVE" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7938-MONOMER" "LGQSEYISWVKCTSWLSNFVNLRGLRQPDGRPLYEYHATNDEYTQLTQLLRAVGQSQSNICNRDFAACFVLFCSEWYRRDYERQCGWTWDPIYKKIGISFTATELGTIVPKGMEDYWLRPIRFYESERRNFLGTLFSEGGLPFRLLKESDSRFLAVFSRILGQYEQAKQSGFSALSLARAVIEKSALPTVFSEDTSVELISHMADNLNSLVLTHNLINHKEPVQQLEKVHPTWRSEFPIPLDDETGTHFLNGLLCAASVEAKPRLQKNKSTRCQFYWSEKHPDELRVIVSLPDEVSFPVTSEPSTTRFELAICEDGEEVSGLGPAYASLENRQATVRLRKSEVRFGRQNPSAGLSLVARAGGMIVGSIKLDDSEIAIGEVPLTFIVDADQWLLQGQASCSVRSSDVLIVLPRDNSNVAGFDGQSRAVNVLGLKALPVKGCQDVTVTANETYRIRTGREQISIGRFALNGKRASWVCHPDETFIGVPKVISTLPDIQSIDVTRYTC" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7940-MONOMER" "MTDTHSIAQPFEAEVSPANNRHVTVGYASRYPDYSRIPAITLKGQWLEAAGFATGTAVDVKVMEGCIVLTAQPPAAEESELMQSLRQVCKLSARKQKQVQAFIGVIAGKQKVA" "c" "Han et al., 2011" -"G7941-MONOMER" "MFGNLGQAKKYLGQAAKMLIGIPDYDNYVEHMKTNHPDKPYMSYEEFFRERQNARYGGDGKGGMRCC" "c" "Han et al., 2011" -"G7942-MONOMER" "MDTKKIFKHIPWVILGIIGAFCLAVVALRRGEHISALWIVVASVSVYLVAYRYYSLYIAQKVMKLDPTRATPAVINNDGLNYVPTNRYVLFGHHFAAIAGAGPLVGPVLAAQMGYLPGTLWLLAGVVLAGAVQDFMVLFISSRRNGASLGEMIKEEMGPVPGTIALFGCFLIMIIILAVLALIVVKALAESPWGVFTVCSTVPIALFMGIYMRFIRPGRVGEVSVIGIVLLVASIYFGGVIAHDPYWGPALTFKDTTITFALIGYAFVSALLPVWLILAPRDYLATFLKIGVIVGLALGIVVLNPELKMPAMTQYIDGTGPLWKGALFPFLFITIACGAVSGFHALISSGTTPKLLANETDARFIGYGAMLMESFVAIMALVAASIIEPGLYFAMNTPPAGLGITMPNLHEMGGENAPIIMAQLKDVTAHAAATVSSWGFVISPEQILQTAKDIGEPSVLNRAGGAPTLAVGIAHVFHKVLPMADMGFWYHFGILFEALFILTALDAGTRSGRFMLQDLLGNFIPFLKKTDSLVAGIIGTAGCVGLWGYLLYQGVVDPLGGVKSLWPLFGISNQMLAAVALVLGTVVLIKMKRTQYIWVTVVPAVWLLICTTWALGLKLFSTNPQMEGFFYMASQYKEKIANGTDLTAQQIANMNHIVVNNYTNAGLSILFLIVVYSIIFYGFKTWLAVRNSDKRTDKETPYVPIPEGGVKISSHH" "i" "Han et al., 2011" -"G7944-MONOMER" "MSRSQNLRHNVINQVIDDMARGHIPSPLPSQSALAEMYNISRTTVRHILSHLRECGVLTQVGNDYVIARKPDHDDGFACTTASMSEQNKVFEQAFFTMINQRQLRPGETFSELQLARAAGVSPVVVREYLLKFGRYNLIHSEKRGQWSMKQFDQSYAEQLFELREMLETHSLQHFLNLPDHDPRWLQAKTMLERHRLLRDNIGNSFRMFSQLDRDFHSLLLSAADNIFFDQSLEIISVIFHFHYQWDESDLKQRNIIAVDEHMTILSALICRSDLDATLALRNHLNSAKQSMIRSINENTRYAH" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G7945-MONOMER" "MSTMNVLICQQPKELVWKQREIPIPGDNEALIKIKSVGICGTDIHAWGGNQPFFSYPRVLGHEICGEIVGLGKNIADLKNGQQVAVIPYVACQQCPACKSGRTNCCEKISVIGVHQDGGFSEYLSVPVANILPADGIDPQAAALIEPFAISAHAVRRAAIAPGEQVLVVGAGPIGLGAAAIAKADGAQVVVADTSPARREHVATRLELPLLDPSAEDFDAQLRAQFGGSLAQKVIDATGNQHAMNNTVNLIRHGGTVVFVGLFKGELQFSDPEFHKKETTMMGSRNATPEDFAKVGRLMAEGKITADMMLTHRYPFATLAETYERDVINNRELIKGVITF" "c" "Han et al., 2011" -"G7946-MONOMER" "MQTEQQRAVTRLCIQCGLFLLQHGAESALVDELSSRLGRALGMDSVESSISSNAIVLTTIKDGQCLTSTRKNHDRGINMHVVTEVQHIVILAEHHLLDYKGVEKRFSQIQPLRYPRWLVALMVGLSCACFCKLNNGGWDGAVITFFASTTAMYIRQLLAQRHLHPQINFCLTAFAATTISGLLLQLPTFSNTPTIAMAASVLLLVPGFPLINAVADMFKGHINTGLARWAIASLLTLATCVGVVMALTIWGLRGWV" "i" "Han et al., 2011" -"G7947-MONOMER" "MLPGCCKNGIVISKIPVMQAGLKEVMRTHFPEYEIISSASAEDLTLLQLRRSGLVIADLAGESEDPRSVCEHYYSLISQYREIHWVFMVSRSWYSQAVELLMCPTATLLSDVEPIENLVKTVRSGNTHAERISAMLTSPAMTETHDFSYRSVILTLSERKVLRLLGKGWGINQIASLLKKSNKTISAQKNSAMRRLAIHSNAEMYAWINSAQGARELNLPSVYGDAAEWNTAELRREMSHS" "c" "Han et al., 2011" -"G7948-MONOMER" "MEHSRIKKRNVALIEKCVMSSIGIESLFRKFAGNPYKLHTYTSQESFQDAMSRISFAAVIFSFSAMRSERREGLSCLTELAIKFPRTRRLVIADDDIEARLIGSLSPSPLDGVLSKASTLEIFHQELFLSLNGVRQATDRLNNQWYINQSRTLSPTEREILRFMSRGYSMTQIAEQLKRNIKTIRAHKFNVMSKLGVSSDAGLLEAADILLCMRHCETSNVLHPY" "c" "Han et al., 2011" -"G7949-MONOMER" "MAYRSAPLYEDVIWRTHLQPQDPTLAQAVRATIAKHREHLLEFIRLDEPAPLNAMTLAQWSSPNVLSSLLAVYSDHIYRNQPMMIRENKPLISLWAQWYIGLMVPPLMLALLTQEKALDVSPEHFHAEFHETGRVACFWVDVCEDKNATPHSPQHRMETLISQALVPVVQALEATGEINGKLIWSNTGYLINWYLTEMKQLLGEATVESLRHALFFEKTLTNGEDNPLWRTVVLRDGLLVRRTCCQRYRLPDVQQCGDCTLK" "c" "Han et al., 2011" -"G7950-MONOMER" "MSAFTPASEVLLRHSDDFEQSRILFAGDLQDDLPARLDTAASRAHTQQFHHWQVLSRQMGDNARFSLVATADDVADCDTLIYYWPKNKPEAQFQLMNLLSLLPVGTDIFVVGENRSGVRSAEQMLADYAPLNKVDSARRCGLYFGRLEKQPVFDAEKFWGEYSVDGLTVKTLPGVFSRDGLDVGSQLLLSTLTPHTKGKVLDVGCGAGVLSVAFARHSPKIRLTLCDVSAPAVEASRATLAANGVEGEVFASNVFSEVKGRFDMIISNPPFHDGMQTSLDAAQTLIRGAVRHLNSGGELRIVANAFLPYPDVLDETFGFHEVIAQTGRFKVYRAIMTRQAKKG" "c" "Han et al., 2011" -"G7951-MONOMER" "VGQRIPVTLGNIAPLSLRPFQPGRIALVCEGGGQRGIFTAGVLDEFMRAQFNPFDLYLGTSAGAQNLSAFICNQPGYARKVIMRYTTKREFFDPLRFVRGGNLIDLDWLVEATASQMPLQMDTAARLFDSGKSFYMCACRQDDYAPNYFLPTKQNWLDVIRASSAIPGFYRSGVSLEGINYLDGGISDAIPVKEAARQGAKTLVVIRTVPSQMYYTPQWFKRMERWLGDSSLQPLVNLVQHHETSYRDIQQFIEKPPGKLRIFEIYPPKPLHSIALGSRIPALREDYKLGRLCGRYFLATVGKLLTEKAPLTRHLVPVVTPESIVIPPAPVANDTLVAEVSDAPQANDPTFNNEDLA" "c" "Han et al., 2011" -"G7952-MONOMER" "LICRFIDTHCHFDFPPFSGDEEASLQRAAQAGVGKIIVPATEAENFARVLALAENYQPLYAALGLHPGMLEKHSDVSLEQLQQALERRPAKVVAVGEIGLDLFGDDPQFERQQWLLDEQLKLAKRYDLPVILHSRRTHDKLAMHLKRHDLPRTGVVHGFSGSLQQAERFVQLGYKIGVGGTITYPRASKTRDVIAKLPLASLLLETDAPDMPLNGFQGQPNRPEQAARVFAVLCELRREPADEIAQALLNNTYTLFNVP" "c" "Han et al., 2011" -"G7953-MONOMER" "MNSRCALVSKIIPFSCVDGPGSRLALFLQGCNLRCKNCHNPWTMGRCNDCGECVPQCPHQALQIVDGKVVWNAVVCEQCDTCLKRCPQHATPMAQSMSVDEVLSHVRKAVLFIEGITVSGGEATTQLPFVVALFTAIKNDPQLRHLTCLVDSNGMLSETGWEKLLPVCDGAMLDLKAWGSECHQQLTGRDNQQIKRSIYLLAERGKLAELRLLVIPGQVDYLQHIEELAAFIKGLGDVPVRLNAFHAHGVYGEAQSWASATPEDVEPLADALKVRGVSRLIFPALYL" "c" "Han et al., 2011" -"G7954-MONOMER" "MTKVRNCVLDALSINVNNIISLVVGTFPQDPTVSKTAVILTILTAT" "c" "Han et al., 2011" -"G8202-MONOMER" "MKSVFTISASLAISLMLCCTAQANDHKLLGAIAMPRNETNDLALKLPVCRIVKRIQLSADHGDLQLSGASVYFKAARSASQSLNIPSEIKEGQTTDWININSDNDNKRCVSKITFSGHTVNSSDMATLKIIGDD" "p" "Han et al., 2011" -"G8204-MONOMER" "VTEQHSVFNKYSTGTSNSFIFNNDVSSITGLVAQSNSTIINTDSGIIDLYGRGSVGMLAIADSTAENQGKITLDSMWVDANDTTAMRDIASNSAIDFGTGVGVGTDSYSGAGKNATAINQLGGVITIYNAGAGMAAYGASNTVINQGTINLEKNGNYDDSLAANTLVGMAVYEHGTAINDQTGVININVGTGQAFYNDGTGTIVNYGTICTFGVCQSGNEYNNTDDFTSLIYTGGDTITRSGETVTLNKSAAVTDKLAGNVVNSGTLSGDQITVSSGLLENTSGGIINNLVKLDKGAVIKNAGVMTNNVDVSGGILNNAGEMTAQITMNAGADSSLVNNTGTINKIVQNAGVFNNSGSVTGRMMSAGGVFNNQTDGAIMRGAALTGTAVANNEGTWNLGSSSEGNNTGMLEVNNNSAFNNRGEFILDNDKNAVHINQSGTLYNTGHMNISNSSHNGAVNMWGGNGRFINDGTIDVSAKSLVVSANNAGDQNAFFWNQDNGVINFDHDSASAVKVTHSNFIAQNDGIMNISGTGAVAMEGDKNAQLVNNGTINLGTAGTTDTGMIGMQLDANATADAVIENNGTINIFANDSFAFSVLGTVGHVVNNGTVVIADGVTGSGLIKQGDSINVEGMNGNNGNSSEVHYGDYTLPDVPKPNTVSVTSGSDEAGGSMNNLNGYVVGTNVNGSAGKLKVNNASMNGVEINTGFTAGTADTTVSFDNVVEGSNLTDADAITSTSVVWTAKGSTDASGNVDVTMSKNAYTDVATDASVNDIAKALDAGYTNNELFTSLNVGTTAELNSALKQVSGSQATTVFREARVLSNRFSMLADAAPKVGNGLAFNVVAKGDPRAELGNNTEYDMLALRKTIDLSESQTMSLEYGIARLDGDGAQKAGDNGVTGGYSQFFGLKHQMSFDNGMNWNNALRYDVHNLDSSRSIAFGNTNKTADTDVKQQYLEFRSEGAKTFEPSEGLKVTPYAGVKLRHTLEGGYQERNAGDFNLNMNSGSETAVDSIVGLKLDYAGKDGWSASATLEGGPNLSYAKSQRTASLAGAGSQHFNVDDGQKGGGINSLTSVGVKYSSKESSLNLDAYNWKEDGISDKGVMLNFKKTF" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G8205-MONOMER" "MSKVGINGFGRIGRLVLGRLLEVKSNIDVVAINDLTSPYILAYLLKHDSNYGPFPWSVDFTEDSLIVDGKSIAVYAEKEAKNIPWKAKGAEIIVECTGFYTSAEKSQAHLDAGAKKVLISAPAGEMKTIVYNVNDDTLDGNDTIVSVASCTTNCLAPMAKALHDSFGIEVGTMTTIHAYTGTQSLVDGPRGKDLRASRAAAENIIPHTTGAAKAIGLVIPELSGKLKGHAQRVPVKTGSVTELVSILGKK" "c" "Unambiguous EcoCyc data" -"G8208-MONOMER" "LLLPEKPEIAHEIAQRLLGQKKLPSLEWLKIVATDEHILASLEKYHEPYAIFDDYYCGAIWSATVLQEQGVAALPRFAPYAASDYCADVLRHINHPFALTLLIRVAGQTKRCHDRMTKAIAAFPHAAMAALTELLGQKEENSWRIMLMTMLISQPALAEQVIPWLSTPAVAVLKSCQQQLTQPSNHASADLLPAVVVSPPWLSKKKKSPIPVLDLAPLGIEPICYLTEEISNQLLAKYIWYSKHITVSHEESTTNLLARMGFQRRIAGTYIKAPEAVVEAWLNEDYSTLLSEFKVFHSPTGHYWQLGILTTLPLEKAVKAWNALTLSPHTDTEYSMLHFGLKGLPGLVNSLARYPQEALPITNYFAASELAPAVARAFNKLKTLRENARSWLLKYPEHALTGLLPAALGKAGEAQDNARAALRMLTENGHQPLLQEIARRYNQPEVTDAVNALLALDPLDNHPTKIPTLPAFYQPSLWTRPVLKANAQSLPDSALLHLGEMLRFPQEEALYPGLLQVKDVCSADSLAGFAWDLFTAWQTAGAPSKESWAFTALGVLGNDDTARKLTPLIRAWPGESQHKRATVGLDILAAIGSDIALMQLNGIAQKLKFKALQERAKEKIADIAESRELTVAELEDRVSTGSRSG" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G8209-MONOMER" "LAPDLGLDDNGSLLLDFGPRQFTVSFDETLKPFVRDVSGSRLKDLPKPNKSDDETRANDAVNRYKLLKKDARTIAAQQVARLESAMCLRRRWSLENFQLFLVEHPLVRHLTRRLIWGVYSAENQLLACFRVAEDNSSSTADDDLFTLPEGDISIGTPHVLEISPTDAAAFGQLFADYELLPPFRQLDRNSYALTEAERNASELTRWAGRKCPSGRVMGLANKGWIKGEPQDGGWIGWMIKPLGRWSLIMEIDEGFAVGMSPAELSAEQLLSKLWLWEGKAERYGWGSNSTQEAQFSVIDAITASELINDIEALFE" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"G8210-MONOMER" "MIETITHGAEWFIGLFQKGGEVFTGMVTGILPLLISLLVIMNALINFIGQHRIERFAQRCAGNPVSRYLLLPCIGTFVFCNPMTLSLGRFMPEKYKPSYYAAASYSCHSMNGLFPHINPGELFVYLGIASGLTTLNLPLGPLAVSYLLVGLVTNFFRGWVTDLTTAIFEKKMGIQLEQKVHLAGATS" "i" "Han et al., 2011" -"G8221-MONOMER" "MNGAQWVVHALRAQGVNTVFGYPGGAIMPVYDALYDGGVEHLLCRHEQGAAMAAIGYARATGKTGVCIATSGPGATNLITGLADALLDSIPVVAITGQVSAPFIGTDAFQEVDVLGLSLACTKHSFLVQSLEELPRIMAEAFDVACSGRPGPVLVDIPKDIQLASGDLEPWFTTVENEVTFPHAEVEQARQMLAKAQKPMLYVGGGVGMAQAVPALREFLAATKMPATCTLKGLGAVEADYPYYLGMLGMHGTKAANFAVQECDLLIAVGARFDDRVTGKLNTFAPHASVIHMDIDPAEMNKLRQAHVALQGDLNALLPALQQPLNQ" "c" "EcoCyc dump" -"GABATRANSAM-MONOMER" "MNSNKELMQRRSQAIPRGVGQIHPIFADRAENCRVWDVEGREYLDFAGGIAVLNTGHLHPKVVAAVEAQLKKLSHTCFQVLAYEPYLELCEIMNQKVPGDFAKKTLLVTTGSEAVENAVKIARAATKRSGTIAFSGAYHGRTHYTLALTGKVNPYSAGMGLMPGHVYRALYPCPLHGISEDDAIASIHRIFKNDAAPEDIAAIVIEPVQGEGGFYASSPAFMQRLRALCDEHGIMLIADEVQSGAGRTGTLFAMEQMGVAPDLTTFAKSIAGGFPLAGVTGRAEVMDAVAPGGLGGTYAGNPIACVAALEVLKVFEQENLLQKANDLGQKLKDGLLAIAEKHPEIGDVRGLGAMIAIELFEDGDHNKPDAKLTAEIVARARDKGLILLSCGPYYNVLRILVPLTIEDAQIRQGLEIISQCFDEAKQ" "c" "Han et al., 2011" -"GABP-MONOMER" "MGQSSQPHELGGGLKSRHVTMLSIAGVIGASLFVGSSVAIAEAGPAVLLAYLFAGLLVVMIMRMLAEMAVATPDTGSFSTYADKAIGRWAGYTIGWLYWWFWVLVIPLEANIAAMILHSWVPGIPIWLFSLVITLALTGSNLLSVKNYGEFEFWLALCKVIAILAFIFLGAVAISGFYPYAEVSGISRLWDSGGFMPNGFGAVLSAMLITMFSFMGAEIVTIAAAESDTPEKHIVRATNSVIWRISIFYLCSIFVVVALIPWNMPGLKAVGSYRSVLELLNIPHAKLIMDCVILLSVTSCLNSALYTASRMLYSLSRRGDAPAVMGKINRSKTPYVAVLLSTGAAFLTVVVNYYAPAKVFKFLIDSSGAIALLVYLVIAVSQLRMRKILRAEGSEIRLRMWLYPWLTWLVIGFITFVLVVMLFRPAQQLEVISTGLLAIGIICTVPIMARWKKLVLWQKTPVHNTR" "i" "Han et al., 2011" -"GALACTARDEHYDRA-MONOMER" "MANIEIRQETPTAFYIKVHDTDNVAIIVNDNGLKAGTRFPDGLELIEHIPQGHKVALLDIPANGEIIRYGEVIGYAVRAIPRGSWIDESMVVLPEAPPLHTLPLATKVPEPLPPLEGYTFEGYRNADGSVGTKNLLGITTSVHCVAGVVDYVVKIIERDLLPKYPNVDGVVGLNHLYGCGVAINAPAAVVPIRTIHNISLNPNFGGEVMVIGLGCEKLQPERLLTGTDDVQAIPVESASIVSLQDEKHVGFQSMVEDILQIAERHLQKLNQRQRETCPASELVVGMQCGGSDAFSGVTANPAVGYASDLLVRCGATVMFSEVTEVRDAIHLLTPRAVNEEVGKRLLEEMEWYDNYLNMGKTDRSANPSPGNKKGGLANVVEKALGSIAKSGKSAIVEVLSPGQRPTKRGLIYAATPASDFVCGTQQVASGITVQVFTTGRGTPYGLMAVPVIKMATRTELANRWFDLMDINAGTIATGEETIEEVGWKLFHFILDVASGKKKTFSDQWGLHNQLAVFNPAPVT" "c" "Han et al., 2011" -"GALACTITOLPDEHYD-MONOMER" "MKSVVNDTDGIVRVAESVIPEIKHQDEVRVKIASSGLCGSDLPRIFKNGAHYYPITLGHEFSGYIDAVGSGVDDLHPGDAVACVPLLPCFTCPECLKGFYSQCAKYDFIGSRRDGGFAEYIVVKRKNVFALPTDMPIEDGAFIEPITVGLHAFHLAQGCENKNVIIIGAGTIGLLAIQCAVALGAKSVTAIDISSEKLALAKSFGAMQTFNSSEMSAPQMQSVLRELRFNQLILETAGVPQTVELAVEIAGPHAQLALVGTLHQDLHLTSATFGKILRKELTVIGSWMNYSSPWPGQEWETASRLLTERKLSLEPLIAHRGSFESFAQAVRDIARNAMPGKVLLIP" "c" "Han et al., 2011" -"GALACTOACETYLTRAN-MONOMER" "LNMPMTERIRAGKLFTDMCEGLPEKRLRGKTLMYEFNHSHPSEVEKRESLIKEMFATVGENAWVEPPVYFSYGSNIHIGRNFYANFNLTIVDDYTVTIGDNVLIAPNVTLSVTGHPVHHELRKNGEMYSFPITIGNNVWIGSHVVINPGVTIGDNSVIGAGSIVTKDIPPNVVAAGVPCRVIREINDRDKHYYFKDYKVESSV" "c" "Han et al., 2011" -"GALACTOKIN-MONOMER" "MSLKEKTQSLFANAFGYPATHTIQAPGRVNLIGEHTDYNDGFVLPCAIDYQTVISCAPRDDRKVRVMAADYENQLDEFSLDAPIVAHENYQWANYVRGVVKHLQLRNNSFGGVDMVISGNVPQGAGLSSSASLEVAVGTVLQQLYHLPLDGAQIALNGQEAENQFVGCNCGIMDQLISALGKKDHALLIDCRSLGTKAVSMPKGVAVVIINSNFKRTLVGSEYNTRREQCETGARFFQQPALRDVTIEEFNAVAHELDPIVAKRVRHILTENARTVEAASALEQGDLKRMGELMAESHASMRDDFEITVPQIDTLVEIVKAVIGDKGGVRMTGGGFGGCIVALIPEELVPAVQQAVAEQYEAKTGIKETFYVCKPSQGAGQC" "c" "Han et al., 2011" -"GALACTONATE-DEHYDRATASE-MONOMER" "MKITKITTYRLPPRWMFLKIETDEGVVGWGEPVIEGRARTVEAAVHELGDYLIGQDPSRINDLWQVMYRAGFYRGGPILMSAIAGIDQALWDIKGKVLNAPVWQLMGGLVRDKIKAYSWVGGDRPADVIDGIKTLREIGFDTFKLNGCEELGLIDNSRAVDAAVNTVAQIREAFGNQIEFGLDFHGRVSAPMAKVLIKELEPYRPLFIEEPVLAEQAEYYPKLAAQTHIPLAAGERMFSRFDFKRVLEAGGISILQPDLSHAGGITECYKIAGMAEAYDVTLAPHCPLGPIALAACLHIDFVSYNAVLQEQSMGIHYNKGAELLDFVKNKEDFSMVGGFFKPLTKPGLGVEIDEAKVIEFSKNAPDWRNPLWRHEDNSVAEW" "c" "Han et al., 2011" -"GALACTURIDYLYLTRANS-MONOMER" "MTQFNPVDHPHRRYNPLTGQWILVSPHRAKRPWQGAQETPAKQVLPAHDPDCFLCAGNVRVTGDKNPDYTGTYVFTNDFAALMSDTPDAPESHDPLMRCQSARGTSRVICFSPDHSKTLPELSVAALTEIVKTWQEQTAELGKTYPWVQVFENKGAAMGCSNPHPHGQIWANSFLPNEAEREDRLQKEYFAEQKSPMLVDYVQRELADGSRTVVETEHWLAVVPYWAAWPFETLLLPKAHVLRITDLTDAQRSDLALALKKLTSRYDNLFQCSFPYSMGWHGAPFNGEENQHWQLHAHFYPPLLRSATVRKFMVGYEMLAETQRDLTAEQAAERLRAVSDIHFRESGV" "c" "Han et al., 2011" -"GALP-MONOMER" "MPDAKKQGRSNKAMTFFVCFLAALAGLLFGLDIGVIAGALPFIADEFQITSHTQEWVVSSMMFGAAVGAVGSGWLSFKLGRKKSLMIGAILFVAGSLFSAAAPNVEVLILSRVLLGLAVGVASYTAPLYLSEIAPEKIRGSMISMYQLMITIGILGAYLSDTAFSYTGAWRWMLGVIIIPAILLLIGVFFLPDSPRWFAAKRRFVDAERVLLRLRDTSAEAKRELDEIRESLQVKQSGWALFKENSNFRRAVFLGVLLQVMQQFTGMNVIMYYAPKIFELAGYTNTTEQMWGTVIVGLTNVLATFIAIGLVDRWGRKPTLTLGFLVMAAGMGVLGTMMHIGIHSPSAQYFAIAMLLMFIVGFAMSAGPLIWVLCSEIQPLKGRDFGITCSTATNWIANMIVGATFLTMLNTLGNANTFWVYAALNVLFILLTLWLVPETKHVSLEHIERNLMKGRKLREIGAHD" "i" "Han et al., 2011" -"GALPMUT-MONOMER" "MYDYIIVGSGLFGAVCANELKKLNKKVLVIEKRNHIGGNAYTEDCEGIQIHKYGAHIFHTNDKYIWDYVNDLVEFNRFTNSPLAIYKDKLFNLPFNMNTFHQMWGVKDPQEAQNIINAQKKKYGDKVPENLEEQAISLVGEDLYQALIKGYTEKQWGRSAKELPAFIIKRIPVRFTFDNNYFSDRYQGIPVGGYTKLIEKMLEGVDVKLGIDFLKDKDSLASKAHRIIYTGPIDQYFDYRFGALEYRSLKFETERHEFPNFQGNAVINFTDANVPYTRIIEHKHFDYVETKHTVVTKEYPLEWKVGDEPYYPVNDNKNMELFKKYRELASREDKVIFGGRLAEYKYYDMHQVISAALYQVKNIMSTD" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"GAPDH-A-MONOMER" "MTIKVGINGFGRIGRIVFRAAQKRSDIEIVAINDLLDADYMAYMLKYDSTHGRFDGTVEVKDGHLIVNGKKIRVTAERDPANLKWDEVGVDVVAEATGLFLTDETARKHITAGAKKVVMTGPSKDNTPMFVKGANFDKYAGQDIVSNASCTTNCLAPLAKVINDNFGIIEGLMTTVHATTATQKTVDGPSHKDWRGGRGASQNIIPSSTGAAKAVGKVLPELNGKLTGMAFRVPTPNVSVVDLTVRLEKAATYEQIKAAVKAAAEGEMKGVLGYTEDDVVSTDFNGEVCTSVFDAKAGIALNDNFVKLVSWYDNETGYSNKVLDLIAHISK" "c" "Lopez-Campistrous et al., 2005" -"GART-MONOMER" "MNIVVLISGNGSNLQAIIDACKTNKIKGTVRAVFSNKADAFGLERARQAGIATHTLIASAFDSREAYDRELIHEIDMYAPDVVVLAGFMRILSPAFVSHYAGRLLNIHPSLLPKYPGLHTHRQALENGDEEHGTSVHFVTDELDGGPVILQAKVPVFAGDSEDDITARVQTQEHAIYPLVISWFADGRLKMHENAAWLDGQRLPPQGYAADE" "c" "Han et al., 2011" -"GARTRANSFORMYL2-MONOMER" "MTLLGTALRPAATRVMLLGSGELGKEVAIECQRLGVEVIAVDRYADAPAMHVAHRSHVINMLDGDALRRVVELEKPHYIVPEIEAIATDMLIQLEEEGLNVVPCARATKLTMNREGIRRLAAEELQLPTSTYRFADSESLFREAVADIGYPCIVKPVMSSSGKGQTFIRSAEQLAQAWKYAQQGGRAGAGRVIVEGVVKFDFEITLLTVSAVDGVHFCAPVGHRQEDGDYRESWQPQQMSPLALERAQEIARKVVLALGGYGLFGVELFVCGDEVIFSEVSPRPHDTGMVTLISQDLSEFALHVRAFLGLPVGGIRQYGPAASAVILPQLTSQNVTFDNVQNAVGADLQIRLFGKPEIDGSRRLGVALATAESVVDAIERAKHAAGQVKVQG" "c" "Han et al., 2011" -"GATA-MONOMER" "MTNLFVRSGISFVDRSEVLTHIGNEMLAKGVVHDTWPQALIAREAEFPTGIMLEQHAIAIPHCEAIHAKSSAIYLLRPTNKVHFQQADDDNDVAVSLVIALIVENPQQQLKLLRCLFGKLQQPDIVETLITLPETQLKEYFTKYVLDSDE" "c" "Han et al., 2011" -"GATB-MONOMER" "MKRKIIVACGGAVATSTMAAEEIKELCQNHNIPVELIQCRVNEIETYMDGVHLICTTAKVDRSFGDIPLVHGMPFISGIGIEALQNKILTILQG" "c" "Han et al., 2011" -"GATC-MONOMER" "MFSEVMRYILDLGPTVMLPIVIIIFSKILGMKAGDCFKAGLHIGIGFVGIGLVIGLMLDSIGPAAKAMAENFDLNLHVVDVGWPGSSPMTWASQIALVAIPIAILVNVAMLLTRMTRVVNVDIWNIWHMTFTGALLHLATGSWMIGMAGVVIHAAFVYKLGDWFARDTRNFFELEGIAIPHGTSAYMGPIAVLVDAIIEKIPGVNRIKFSADDIQRKFGPFGEPVTVGFVMGLIIGILAGYDVKGVLQLAVKTAAVMLLMPRVIKPIMDGLTPIAKQARSRLQAKFGGQEFLIGLDPALLLGHTAVVSASLIFIPLTILIAVCVPGNQVLPFGDLATIGFFVAMAVAVHRGNLFRTLISGVIIMSITLWIATQTIGLHTQLAANAGALKAGGMVASMDQGGSPITWLLIQVFSPQNIPGFIIIGAIYLTGIFMTWRRARGFIKQEKVVLAE" "i" "Han et al., 2011" -"GCVH-MONOMER" "MSNVPAELKYSKEHEWLRKEADGTYTVGITEHAQELLGDMVFVDLPEVGATVSAGDDCAVAESVKAASDIYAPVSGEIVAVNDALSDSPELVNSEPYAGGWIFKIKASDESELESLLDATAYEALLEDE" "c" "Han et al., 2011" -"GCVP-MONOMER" "MTQTLSQLENSGAFIERHIGPDAAQQQEMLNAVGAQSLNALTGQIVPKDIQLATPPQVGAPATEYAALAELKAIASRNKRFTSYIGMGYTAVQLPPVILRNMLENPGWYTAYTPYQPEVSQGRLEALLNFQQVTLDLTGLDMASASLLDEATAAAEAMAMAKRVSKLKNANRFFVASDVHPQTLDVVRTRAETFGFEVIVDDAQKVLDHQDVFGVLLQQVGTTGEIHDYTALISELKSRKIVVSVAADIMALVLLTAPGKQGADIVFGSAQRFGVPMGYGGPHAAFFAAKDEYKRSMPGRIIGVSKDAAGNTALRMAMQTREQHIRREKANSNICTSQVLLANIASLYAVYHGPVGLKRIANRIHRLTDILAAGLQQKGLKLRHAHYFDTLCVEVADKAGVLTRAEAAEINLRSDILNAVGITLDETTTRENVMQLFNVLLGDNHGLDIDTLDKDVAHDSRSIQPAMLRDDEILTHPVFNRYHSETEMMRYMHSLERKDLALNQAMIPLGSCTMKLNAAAEMIPITWPEFAELHPFCPPEQAEGYQQMIAQLADWLVKLTGYDAVCMQPNSGAQGEYAGLLAIRHYHESRNEGHRDICLIPASAHGTNPASAHMAGMQVVVVACDKNGNIDLTDLRAKAEQAGDNLSCIMVTYPSTHGVYEETIREVCEVVHQFGGQVYLDGANMNAQVGITSPGFIGADVSHLNLHKTFCIPHGGGGPGMGPIGVKAHLAPFVPGHSVVQIEGMLTRQGAVSAAPFGSASILPISWMYIRMMGAEGLKKASQVAILNANYIASRLQDAFPVLYTGRDGRVAHECILDIRPLKEETGISELDIAKRLIDYGFHAPTMSFPVAGTLMVEPTESESKVELDRFIDAMLAIRAEIDQVKAGVWPLEDNPLVNAPHIQSELVAEWAHPYSREVAVFPAGVADKYWPTVKRLDDVYGDRNLFCSCVPISEYQ" "c" "Han et al., 2011" -"GCVT-MONOMER" "MAQQTPLYEQHTLCGARMVDFHGWMMPLHYGSQIDEHHAVRTDAGMFDVSHMTIVDLRGSRTREFLRYLLANDVAKLTKSGKALYSGMLNASGGVIDDLIVYYFTEDFFRLVVNSATREKDLSWITQHAEPFGIEITVRDDLSMIAVQGPNAQAKAATLFNDAQRQAVEGMKPFFGVQAGDLFIATTGYTGEAGYEIALPNEKAADFWRALVEAGVKPCGLGARDTLRLEAGMNLYGQEMDETISPLAANMGWTIAWEPADRDFIGREALEVQREHGTEKLVGLVMTEKGVLRNELPVRFTDAQGNQHEGIITSGTFSPTLGYSIALARVPEGIGETAIVQIRNREMPVKVTKPVFVRNGKAVA" "c" "Lopez-Campistrous et al., 2005" -"GDHA-MONOMER" "MDQTYSLESFLNHVQKRDPNQTEFAQAVREVMTTLWPFLEQNPKYRQMSLLERLVEPERVIQFRVVWVDDRNQIQVNRAWRVQFSSAIGPYKGGMRFHPSVNLSILKFLGFEQTFKNALTTLPMGGGKGGSDFDPKGKSEGEVMRFCQALMTELYRHLGADTDVPAGDIGVGGREVGFMAGMMKKLSNNTACVFTGKGLSFGGSLIRPEATGYGLVYFTEAMLKRHGMGFEGMRVSVSGSGNVAQYAIEKAMEFGARVITASDSSGTVVDESGFTKEKLARLIEIKASRDGRVADYAKEFGLVYLEGQQPWSLPVDIALPCATQNELDVDAAHQLIANGVKAVAEGANMPTTIEATELFQQAGVLFAPGKAANAGGVATSGLEMAQNAARLGWKAEKVDARLHHIMLDIHHACVEHGGEGEQTNYVQGANIAGFVKVADAMLAQGVI" "c" "Lopez-Campistrous et al., 2005" -"GDPMANDEHYDRA-MONOMER" "MSKVALITGVTGQDGSYLAEFLLEKGYEVHGIKRRASSFNTERVDHIYQDPHTCNPKFHLHYGDLSDTSNLTRILREVQPDEVYNLGAMSHVAVSFESPEYTADVDAMGTLRLLEAIRFLGLEKKTRFYQASTSELYGLVQEIPQKETTPFYPRSPYAVAKLYAYWITVNYRESYGMYACNGILFNHESPRRGETFVTRKITRAIANIAQGLESCLYLGNMDSLRDWGHAKDYVKMQWMMLQQEQPEDFVIATGVQYSVRQFVEMAAAQLGIKLRFEGTGVEEKGIVVSVTGHDAPGVKPGDVIIAVDPRYFRPAEVETLLGDPTKAHEKLGWKPEITLREMVSEMVANDLEAAKKHSLLKSHGYDVAIALES" "c" "Han et al., 2011" -"GDPMANMANHYDRO-MONOMER" "MFLRQEDFATVVRSTPLVSLDFIVENSRGEFLLGKRTNRPAQGYWFVPGGRVQKDETLEAAFERLTMAELGLRLPITAGQFYGVWQHFYDDNFSGTDFTTHYVVLGFRFRVSEEELLLPDEQHDDYRWLTSDALLASDNVHANSRAYFLAEKRTGVPGL" "c" "Han et al., 2011" -"GKI-MONOMER" "MAYCNPGLESRPNKRNALRRHVVTGIGMKIVIAPDSYKESLSASEVAQAIEKGFREIFPDAQYVSVPVADGGEGTVEAMIAATQGAERHAWVTGPLGEKVNASWGISGDGKTAFIEMAAASGLELVPAEKRDPLVTTSRGTGELILQALESGATNIIIGIGGSATNDGGAGMVQALGAKLCDANGNEIGFGGGSLNTLNDIDISGLDPRLKDCVIRVACDVTNPLVGDNGASRIFGPQKGASEAMIVELDNNLSHYAEVIKKALHVDVKDVPGAGAAGGMGAALMAFLGAELKSGIEIVTTALNLEEHIHDCTLVITGEGRIDSQSIHGKVPIGVANVAKKYHKPVIGIAGSLTDDVGVVHQHGIDAVFSVLTSIGTLDEAFRGAYDNICRASRNIAATLAIGMRNAG" "c" "Han et al., 2011" -"GLCNACPTRANS-MONOMER" "VNLLTVSTDLISIFLFTTLFLFFARKVAKKVGLVDKPNFRKRHQGLIPLVGGISVYAGICFTFGIVDYYIPHASLYLACAGVLVFIGALDDRFDISVKIRATIQAAVGIVMMVFGKLYLSSLGYIFGSWEMVLGPFGYFLTLFAVWAAINAFNMVDGIDGLLGGLSCVSFAAIGMILWFDGQTSLAIWCFAMIAAILPYIMLNLGILGRRYKVFMGDAGSTLIGFTVIWILLETTQGKTHPISPVTALWIIAIPLMDMVAIMYRRLRKGMSPFSPDRQHIHHLIMRAGFTSRQAFVLITLAAALLASIGVLAEYSHFVPEWVMLVLFLLAFFLYGYCIKRAWKVARFIKRVKRRLRRNRGGSPNLTK" "i" "Han et al., 2011" -"GLND-MONOMER" "MNTLPEQYANTALPTLPGQPQNPCVWPRDELTVGGIKAHIDTFQRWLGDAFDNGISAEQLIEARTEFIDQLLQRLWIEAGFSQIADLALVAVGGYGRGELHPLSDVDLLILSRKKLPDDQAQKVGELLTLLWDVKLEVGHSVRTLEECMLEGLSDLTVATNLIESRLLIGDVALFLELQKHIFSEGFWPSDKFYAAKVEEQNQRHQRYHGTSYNLEPDIKSSPGGLRDIHTLQWVARRHFGATSLDEMVGFGFLTSAERAELNECLHILWRIRFALHLVVSRYDNRLLFDRQLSVAQRLNYSGEGNEPVERMMKDYFRVTRRVSELNQMLLQLFDEAILALPADEKPRPIDDEFQLRGTLIDLRDETLFMRQPEAILRMFYTMVHNSAITGIYSTTLRQLRHARRHLQQPLCNIPEARKLFLSILRHPGAVRRGLLPMHRHSVLGAYMPQWSHIVGQMQFDLFHAYTVDEHTIRVMLKLESFASEETRQRHPLCVDVWPRLPSTELIFIAALFHDIAKGRGGDHSILGAQDVVHFAELHGLNSRETQLVAWLVRQHLLMSVTAQRRDIQDPEVIKQFAEEVQTENRLRYLVCLTVADICATNETLWNSWKQSLLRELYFATEKQLRRGMQNTPDMRERVRHHQLQALALLRMDNIDEEALHQIWSRCRANYFVRHSPNQLAWHARHLLQHDLSKPLVLLSPQATRGGTEIFIWSPDRPYLFAAVCAELDRRNLSVHDAQIFTTRDGMAMDTFIVLEPDGNPLSADRHEVIRFGLEQVLTQSSWQPPQPRRQPAKLRHFTVETEVTFLPTHTDRKSFLELIALDQPGLLARVGKIFADLGISLHGARITTIGERVEDLFIIATADRRALNNELQQEVHQRLTEALNPNDKG" "c" "Han et al., 2011" -"GLNE-MONOMER" "MKPLSSPLQQYWQTVVERLPEPLAEESLSAQAKSVLTFSDFVQDSVIAHPEWLTELESQPPQADEWQHYAAWLQEALCNVSDEAGLMRELRLFRRRIMVRIAWAQTLALVTEESILQQLSYLAETLIVAARDWLYDACCREWGTPCNAQGEAQPLLILGMGKLGGGELNFSSDIDLIFAWPEHGCTQGGRRELDNAQFFTRMGQRLIKVLDQPTQDGFVYRVDMRLRPFGESGPLVLSFAALEDYYQEQGRDWERYAMVKARIMGDSEGVYANELRAMLRPFVFRRYIDFSVIQSLRNMKGMIAREVRRRGLTDNIKLGAGGIREIEFIVQVFQLIRGGREPSLQSRSLLPTLSAIAELHLLSENDAEQLRVAYLFLRRLENLLQSINDEQTQTLPSDELNRARLAWAMDFADWPQLTGALTAHMTNVRRVFNELIGDDESETQEESLSEQWRELWQDALQEDDTTPVLAHLSEDDRKQVLTLIADFRKELDKRTIGPRGRQVLDHLMPHLLSDVCAREDAAVTLSRITALLVGIVTRTTYLELLSEFPAALKHLISLCAASPMIASQLARYPLLLDELLDPNTLYQPTATDAYRDELRQYLLRVPEDDEEQQLEALRQFKQAQLLRIAAADIAGTLPVMKVSDHLTWLAEAMIDAVVQQAWVQMVARYGKPNHLNEREGRGFAVVGYGKLGGWELGYSSDLDLIFLHDCPMDAMTDGEREIDGRQFYLRLAQRIMHLFSTRTSSGILYEVDARLRPSGAAGMLVTSAEAFADYQKNEAWTWEHQALVRARVVYGDPQLTAHFDAVRREIMTLPREGKTLQTEVREMREKMRAHLGNKHRDRFDIKADEGGITDIEFITQYLVLRYAHEKPKLTRWSDNVRILELLAQNDIMEEQEAMALTRAYTTLRDELHHLALQELPGHVSEDCFTAERELVRASWQKWLVEE" "c" "Han et al., 2011" -"GLNH-MONOMER" "MKSVLKVSLAALTLAFAVSSHAADKKLVVATDTAFVPFEFKQGDKYVGFDVDLWAAIAKELKLDYELKPMDFSGIIPALQTKNVDLALAGITITDERKKAIDFSDGYYKSGLLVMVKANNNDVKSVKDLDGKVVAVKSGTGSVDYAKANIKTKDLRQFPNIDNAYMELGTNRADAVLHDTPNILYFIKTAGNGQFKAVGDSLEAQQYGIAFPKGSDELRDKVNGALKTLRENGTYNEIYKKWFGTEPK" "p" "Lopez-Campistrous et al., 2005" -"GLNP-MONOMER" "MQFDWSAIWPAIPLLIEGAKMTLWISVLGLAGGLVIGLLAGFARTFGGWIANHVALVFIEVIRGTPIVVQVMFIYFALPMAFNDLRIDPFTAAVVTIMINSGAYIAEITRGAVLSIHKGFREAGLALGLSRWETIRYVILPLALRRMLPPLGNQWIISIKDTSLFIVIGVAELTRQGQEIIAGNFRALEIWSAVAVFYLIITLVLSFILRRLERRMKIL" "i" "Han et al., 2011" -"GLNQ-MONOMER" "VIEFKNVSKHFGPTQVLHNIDLNIAQGEVVVIIGPSGSGKSTLLRCINKLEEITSGDLIVDGLKVNDPKVDERLIRQEAGMVFQQFYLFPHLTALENVMFGPLRVRGANKEEAEKLARELLAKVGLAERAHHYPSELSGGQQQRVAIARALAVKPKMMLFDEPTSALDPELRHEVLKVMQDLAEEGMTMVIVTHEIGFAEKVASRLIFIDKGRIAEDGNPQVLIKNPPSQRLQEFLQHVS" "i" "Lopez-Campistrous et al., 2005" -"GLNS-MONOMER" "MSEAEARPTNFIRQIIDEDLASGKHTTVHTRFPPEPNGYLHIGHAKSICLNFGIAQDYKGQCNLRFDDTNPVKEDIEYVESIKNDVEWLGFHWSGNVRYSSDYFDQLHAYAIELINKGLAYVDELTPEQIREYRGTLTQPGKNSPYRDRSVEENLALFEKMRAGGFEEGKACLRAKIDMASPFIVMRDPVLYRIKFAEHHQTGNKWCIYPMYDFTHCISDALEGITHSLCTLEFQDNRRLYDWVLDNITIPVHPRQYEFSRLNLEYTVMSKRKLNLLVTDKHVEGWDDPRMPTISGLRRRGYTAASIREFCKRIGVTKQDNTIEMASLESCIREDLNENAPRAMAVIDPVKLVIENYQGEGEMVTMPNHPNKPEMGSRQVPFSGEIWIDRADFREEANKQYKRLVLGKEVRLRNAYVIKAERVEKDAEGNITTIFCTYDADTLSKDPADGRKVKGVIHWVSAAHALPVEIRLYDRLFSVPNPGAADDFLSVINPESLVIKQGFAEPSLKDAVAGKAFQFEREGYFCLDSRHSTAEKPVFNRTVGLRDTWAKVGE" "c" "Lopez-Campistrous et al., 2005" -"GLPF-MONOMER" "MSQTSTLKGQCIAEFLGTGLLIFFGVGCVAALKVAGASFGQWEISVIWGLGVAMAIYLTAGVSGAHLNPAVTIALWLFACFDKRKVIPFIVSQVAGAFCAAALVYGLYYNLFFDFEQTHHIVRGSVESVDLAGTFSTYPNPHINFVQAFAVEMVITAILMGLILALTDDGNGVPRGPLAPLLIGLLIAVIGASMGPLTGFAMNPARDFGPKVFAWLAGWGNVAFTGGRDIPYFLVPLFGPIVGAIVGAFAYRKLIGRHLPCDICVVEEKETTTPSEQKASL" "i" "Han et al., 2011" -"GLPT-MONOMER" "MLSIFKPAPHKARLPAAEIDPTYRRLRWQIFLGIFFGYAAYYLVRKNFALAMPYLVEQGFSRGDLGFALSGISIAYGFSKFIMGSVSDRSNPRVFLPAGLILAAAVMLFMGFVPWATSSIAVMFVLLFLCGWFQGMGWPPCGRTMVHWWSQKERGGIVSVWNCAHNVGGGIPPLLFLLGMAWFNDWHAALYMPAFCAILVALFAFAMMRDTPQSCGLPPIEEYKNDYPDDYNEKAEQELTAKQIFMQYVLPNKLLWYIAIANVFVYLLRYGILDWSPTYLKEVKHFALDKSSWAYFLYEYAGIPGTLLCGWMSDKVFRGNRGATGVFFMTLVTIATIVYWMNPAGNPTVDMICMIVIGFLIYGPVMLIGLHALELAPKKAAGTAAGFTGLFGYLGGSVAASAIVGYTVDFFGWDGGFMVMIGGSILAVILLIVVMIGEKRRHEQLLQERNGG" "i" "Han et al., 2011" -"GLTJ-MONOMER" "MSIDWNWGIFLQQAPFGNTTYLGWIWSGFQVTIALSICAWIIAFLVGSFFGILRTVPNRFLSGLGTLYVELFRNVPLIVQFFTWYLVIPELLPEKIGMWFKAELDPNIQFFLSSMLCLGLFTAARVCEQVRAAIQSLPRGQKNAALAMGLTLPQAYRYVLLPNAYRVIVPPMTSEMMNLVKNSAIASTIGLVDMAAQAGKLLDYSAHAWESFTAITLAYVLINAFIMLVMTLVERKVRLPGNMGGK" "i" "Han et al., 2011" -"GLTK-MONOMER" "MYEFDWSSIVPSLPYLLDGLVITLKITVTAVVIGILWGTMLAVMRLSSFAPVAWFAKAYVNVFRSIPLVMVLLWFYLIVPGFLQNVLGLSPKNDIRLISAMVAFSMFEAAYYSEIIRAGIQSISRGQSSAALALGMTHWQSMKLIILPQAFRAMVPLLLTQGIVLFQDTSLVYVLSLADFFRTASTIGERDGTQVEMILFAGFVYFVISLSASLLVSYLKRRTA" "i" "Han et al., 2011" -"GLTL-MONOMER" "MITLKNVSKWYGHFQVLTDCSTEVKKGEVVVVCGPSGSGKSTLIKTVNGLEPVQQGEITVDGIVVNDKKTDLAKLRSRVGMVFQHFELFPHLSIIENLTLAQVKVLKRDKAPAREKALKLLERVGLSAHANKFPAQLSGGQQQRVAIARALCMDPIAMLFDEPTSALDPEMINEVLDVMVELANEGMTMMVVTHEMGFARKVANRVIFMDEGKIVEDSPKDAFFDDPKSDRAKDFLAKILH" "i" "EcoCyc dump" -"GLTP-MONOMER" "MKNIKFSLAWQILFAMVLGILLGSYLHYHSDSRDWLVVNLLSPAGDIFIHLIKMIVVPIVISTLVVGIAGVGDAKQLGRIGAKTIIYFEVITTVAIILGITLANVFQPGAGVDMSQLATVDISKYQSTTEAVQSSSHGIMGTILSLVPTNIVASMAKGEMLPIIFFSVLFGLGLSSLPATHREPLVTVFRSISETMFKVTHMVMRYAPVGVFALIAVTVANFGFSSLWPLAKLVLLVHFAILFFALVVLGIVARLCGLSVWILIRILKDELILAYSTASSESVLPRIIEKMEAYGAPVSITSFVVPTGYSFNLDGSTLYQSIAAIFIAQLYGIDLSIWQEIILVLTLMVTSKGIAGVPGVSFVVLLATLGSVGIPLEGLAFIAGVDRILDMARTALNVVGNALAVLVIAKWEHKFDRKKALAYEREVLGKFDKTADQ" "i" "Han et al., 2011" -"GLTS-MONOMER" "MFHLDTLATLVAATLTLLLGRKLVHSVSFLKKYTIPEPVAGGLLVALALLVLKKSMGWEVNFDMSLRDPLMLAFFATIGLNANIASLRAGGRVVGIFLIVVVGLLVMQNAIGIGMASLLGLDPLMGLLAGSITLSGGHGTGAAWSKLFIERYGFTNATEVAMACATFGLVLGGLIGGPVARYLVKHSTTPNGIPDDQEVPTAFEKPDVGRMITSLVLIETIALIAICLTVGKIVAQLLAGTAFELPTFVCVLFVGVILSNGLSIMGFYRVFERAVSVLGNVSLSLFLAMALMGLKLWELASLALPMLAILVVQTIFMALYAIFVTWRMMGKNYDAAVLAAGHCGFGLGATPTAIANMQAITERFGPSHMAFLVVPMVGAFFIDIVNALVIKLYLMLPIFAG" "i" "Han et al., 2011" -"GLU6PDEHYDROG-MONOMER" "MAVTQTAQACDLVIFGAKGDLARRKLLPSLYQLEKAGQLNPDTRIIGVGRADWDKAAYTKVVREALETFMKETIDEGLWDTLSARLDFCNLDVNDTAAFSRLGAMLDQKNRITINYFAMPPSTFGAICKGLGEAKLNAKPARVVMEKPLGTSLATSQEINDQVGEYFEECQVYRIDHYLGKETVLNLLALRFANSLFVNNWDNRTIDHVEITVAEEVGIEGRWGYFDKAGQMRDMIQNHLLQILCMIAMSPPSDLSADSIRDEKVKVLKSLRRIDRSNVREKTVRGQYTAGFAQGKKVPGYLEEEGANKSSNTETFVAIRVDIDNWRWAGVPFYLRTGKRLPTKCSEVVVYFKTPELNLFKESWQDLPQNKLTIRLQPDEGVDIQVLNKVPGLDHKHNLQITKLDLSYSETFNQTHLADAYERLLLETMRGIQALFVRRDEVEEAWKWVDSITEAWAMDNDAPKPYQAGTWGPVASVAMITRDGRSWNEFE" "c" "Han et al., 2011" -"GLUC1PADENYLTRANS-MONOMER" "MVSLEKNDHLMLARQLPLKSVALILAGGRGTRLKDLTNKRAKPAVHFGGKFRIIDFALSNCINSGIRRMGVITQYQSHTLVQHIQRGWSFFNEEMNEFVDLLPAQQRMKGENWYRGTADAVTQNLDIIRRYKAEYVVILAGDHIYKQDYSRMLIDHVEKGARCTVACMPVPIEEASAFGVMAVDENDKIIEFVEKPANPPSMPNDPSKSLASMGIYVFDADYLYELLEEDDRDENSSHDFGKDLIPKITEAGLAYAHPFPLSCVQSDPDAEPYWRDVGTLEAYWKANLDLASVVPELDMYDRNWPIRTYNESLPPAKFVQDRSGSHGMTLNSLVSGGCVISGSVVVQSVLFSRVRVNSFCNIDSAVLLPEVWVGRSCRLRRCVIDRACVIPEGMVIGENAEEDARRFYRSEEGIVLVTREMLRKLGHKQER" "c" "Han et al., 2011" -"GLUC1PURIDYLTRANS-MONOMER" "MAAINTKVKKAVIPVAGLGTRMLPATKAIPKEMLPLVDKPLIQYVVNECIAAGITEIVLVTHSSKNSIENHFDTSFELEAMLEKRVKRQLLDEVQSICPPHVTIMQVRQGLAKGLGHAVLCAHPVVGDEPVAVILPDVILDEYESDLSQDNLAEMIRRFDETGHSQIMVEPVADVTAYGVVDCKGVELAPGESVPMVGVVEKPKADVAPSNLAIVGRYVLSADIWPLLAKTPPGAGDEIQLTDAIDMLIEKETVEAYHMKGKSHDCGNKLGYMQAFVEYGIRHNTLGTEFKAWLEEEMGIKK" "c" "Han et al., 2011" -"GLUCARDEHYDRA-MONOMER" "MSSQFTTPVVTEMQVIPVAGHDSMLMNLSGAHAPFFTRNIVIIKDNSGHTGVGEIPGGEKIRKTLEDAIPLVVGKTLGEYKNVLTLVRNTFADRDAGGRGLQTFDLRTTIHVVTGIEAAMLDLLGQHLGVNVASLLGDGQQRSEVEMLGYLFFVGNRKATPLPYQSQPDDSCDWYRLRHEEAMTPDAVVRLAEAAYEKYGFNDFKLKGGVLAGEEEAESIVALAQRFPQARITLDPNGAWSLNEAIKIGKYLKGSLAYAEDPCGAEQGFSGREVMAEFRRATGLPTATNMIATDWRQMGHTLSLQSVDIPLADPHFWTMQGSVRVAQMCHEFGLTWGSHSNNHFDISLAMFTHVAAAAPGKITAIDTHWIWQEGNQRLTKEPFEIKGGLVQVPEKPGLGVEIDMDQVMKAHELYQKHGLGARDDAMGMQYLIPGWTFDNKRPCMVR" "c" "Han et al., 2011" -"GLUCDEHYDROG-MONOMER" "MAINNTGSRRLLVTLTALFAALCGLYLLIGGGWLVAIGGSWYYPIAGLVMLGVAWMLWRSKRAALWLYAALLLGTMIWGVWEVGFDFWALTPRSDILVFFGIWLILPFVWRRLVIPASGAVAALVVALLISGGILTWAGFNDPQEINGTLSADATPAEAISPVADQDWPAYGRNQEGQRFSPLKQINADNVHNLKEAWVFRTGDVKQPNDPGEITNEVTPIKVGDTLYLCTAHQRLFALDAASGKEKWHYDPELKTNESFQHVTCRGVSYHEAKAETASPEVMADCPRRIILPVNDGRLIAINAENGKLCETFANKGVLNLQSNMPDTKPGLYEPTSPPIITDKTIVMAGSVTDNFSTRETSGVIRGFDVNTGELLWAFDPGAKDPNAIPSDEHTFTFNSPNSWAPAAYDAKLDLVYLPMGVTTPDIWGGNRTPEQERYASSILALNATTGKLAWSYQTVHHDLWDMDLPAQPTLADITVNGQKVPVIYAPAKTGNIFVLDRRNGELVVPAPEKPVPQGAAKGDYVTPTQPFSELSFRPTKDLSGADMWGATMFDQLVCRVMFHQMRYEGIFTPPSEQGTLVFPGNLGMFEWGGISVDPNREVAIANPMALPFVSKLIPRGPGNPMEQPKDAKGTGTESGIQPQYGVPYGVTLNPFLSPFGLPCKQPAWGYISALDLKTNEVVWKKRIGTPQDSMPFPMPVPVPFNMGMPMLGGPISTAGNVLFIAATADNYLRAYNMSNGEKLWQGRLPAGGQATPMTYEVNGKQYVVISAGGHGSFGTKMGDYIVAYALPDDVK" "p" "Han et al., 2011" -"GLUCOKIN-MONOMER" "MTKYALVGDVGGTNARLALCDIASGEISQAKTYSGLDYPSLEAVIRVYLEEHKVEVKDGCIAIACPITGDWVAMTNHTWAFSIAEMKKNLGFSHLEIINDFTAVSMAIPMLKKEHLIQFGGAEPVEGKPIAVYGAGTGLGVAHLVHVDKRWVSLPGEGGHVDFAPNSEEEAIILEILRAEIGHVSAERVLSGPGLVNLYRAIVKADNRLPENLKPKDITERALADSCTDCRRALSLFCVIMGRFGGNLALNLGTFGGVFIAGGIVPRFLEFFKASGFRAAFEDKGRFKEYVHDIPVYLIVHDNPGLLGSGAHLRQTLGHIL" "c" "Han et al., 2011" -"GLUCONOKINI-MONOMER" "MAGESFILMGVSGSGKTLIGSKVAALLSAKFIDGDDLHPAKNIDKMSQGIPLSDEDRLPWLERLNDASYSLYKKNETGFIVCSSLKKQYRDILRKGSPHVHFLWLDGDYETILARMQRRAGHFMPVALLKSQFEALERPQADEQDIVRIDINHDIANVTEQCRQAVLAIRQNRICAKEGSASDQRCE" "c" "Han et al., 2011" -"GLUCONOKINII-MONOMER" "LSTTNHDHHIYVLMGVSGSGKSAVASEVAHQLHAAFLDGDFLHPRRNIEKMASGEPLNDDDRKPWLQALNDAAFAMQRTNKVSLIVCSALKKHYRDLLREGNPNLSFIYLKGDFDVIESRLKARKGHFFKTQMLVTQFETLQEPGADETDVLVVDIDQPLEGVVASTIEVIKKGK" "c" "Han et al., 2011" -"GLUCONREDUCT-MONOMER" "MNDLFSLAGKNILITGSAQGIGFLLATGLGKYGAQIIINDITAERAELAVEKLHQEGIQAVAAPFNVTHKHEIDAAVEHIEKDIGPIDVLVNNAGIQRRHPFTEFPEQEWNDVIAVNQTAVFLVSQAVTRHMVERKAGKVINICSMQSELGRDTITPYAASKGAVKMLTRGMCVELARHNIQVNGIAPGYFKTEMTKALVEDEAFTAWLCKRTPAARWGDPQELIGAAVFLSSKASDFVNGHLLFVDGGMLVAV" "c" "Han et al., 2011" -"GLUCOSAMINE-6-P-DEAMIN-MONOMER" "MRLIPLTTAEQVGKWAARHIVNRINAFKPTADRPFVLGLPTGGTPMTTYKALVEMHKAGQVSFKHVVTFNMDEYVGLPKEHPESYYSFMHRNFFDHVDIPAENINLLNGNAPDIDAECRQYEEKIRSYGKIHLFMGGVGNDGHIAFNEPASSLASRTRIKTLTHDTRVANSRFFDNDVNQVPKYALTVGVGTLLDAEEVMILVLGSQKALALQAAVEGCVNHMWTISCLQLHPKAIMVCDEPSTMELKVKTLRYFNELEAENIKGL" "c" "Han et al., 2011" -"GLUCOSE-1-PHOSPHAT-MONOMER" "MNKTLIAAAVAGIVLLASNAQAQTVPEGYQLQQVLMMSRHNLRAPLANNGSVLEQSTPNKWPEWDVPGGQLTTKGGVLEVYMGHYMREWLAEQGMVKSGECPPPYTVYAYANSLQRTVATAQFFITGAFPGCDIPVHHQEKMGTMDPTFNPVITDDSAAFSEQAVAAMEKELSKLQLTDSYQLLEKIVNYKDSPACKEKQQCSLVDGKNTFSAKYQQEPGVSGPLKVGNSLVDAFTLQYYEGFPMDQVAWGEIKSDQQWKVLSKLKNGYQDSLFTSPEVARNVAKPLVSYIDKALVTDRTSAPKITVLVGHDSNIASLLTALDFKPYQLHDQNERTPIGGKIVFQRWHDSKANRDLMKIEYVYQSAEQLRNADALTLQAPAQRVTLELSGCPIDADGFCPMDKFDSVLNEAVK" "p" "Han et al., 2011" -"GLURS-MONOMER" "MKIKTRFAPSPTGYLHVGGARTALYSWLFARNHGGEFVLRIEDTDLERSTPEAIEAIMDGMNWLSLEWDEGPYYQTKRFDRYNAVIDQMLEEGTAYKCYCSKERLEALREEQMAKGEKPRYDGRCRHSHEHHADDEPCVVRFANPQEGSVVFDDQIRGPIEFSNQELDDLIIRRTDGSPTYNFCVVVDDWDMEITHVIRGEDHINNTPRQINILKALKAPVPVYAHVSMINGDDGKKLSKRHGAVSVMQYRDDGYLPEALLNYLVRLGWSHGDQEIFTREEMIKYFTLNAVSKSASAFNTDKLLWLNHHYINALPPEYVATHLQWHIEQENIDTRNGPQLADLVKLLGERCKTLKEMAQSCRYFYEDFAEFDADAAKKHLRPVARQPLEVVRDKLAAITDWTAENVHHAIQATADELEVGMGKVGMPLRVAVTGAGQSPALDVTVHAIGKTRSIERINKALDFIAERENQQ" "c" "Lopez-Campistrous et al., 2005" -"GLUSYNLARGE-MONOMER" "MTRKPRRHALSVPVRSGSEVGFPQSLGEVHDMLYDKSLERDNCGFGLIAHIEGEPSHKVVRTAIHALARMQHRGAILADGKTGDGCGLLLQKPDRFFRIVAQERGWRLAKNYAVGMLFLNKDPELAAAARRIVEEELQRETLSIVGWRDVPTNEGVLGEIALSSLPRIEQIFVNAPAGWRPRDMERRLFIARRRIEKRLEADKDFYVCSLSNLVNIYKGLCMPTDLPRFYLDLADLRLESAICLFHQRFSTNTVPRWPLAQPFRYLAHNGEINTITGNRQWARARTYKFQTPLIPDLHDAAPFVNETGSDSSSMDNMLELLLAGGMDIIRAMRLLVPPAWQNNPDMDPELRAFFDFNSMHMEPWDGPAGIVMSDGRFAACNLDRNGLRPARYVITKDKLITCASEVGIWDYQPDEVVEKGRVGPGELMVIDTRSGRILHSAETDDDLKSRHPYKEWMEKNVRRLVPFEDLPDEEVGSRELDDDTLASYQKQFNYSAEELDSVIRVLGENGQEAVGSMGDDTPFAVLSSQPRIIYDYFRQQFAQVTNPPIDPLREAHVMSLATSIGREMNVFCEAEGQAHRLSFKSPILLYSDFKQLTTMKEEHYRADTLDITFDVTKTTLEATVKELCDKAEKMVRSGTVLLVLSDRNIAKDRLPVPAPMAVGAIQTRLVDQSLRCDANIIVETASARDPHHFAVLLGFGATAIYPYLAYETLGRLVDTHAIAKDYRTVMLNYRNGINKGLYKIMSKMGISTIASYRCSKLFEAVGLHDDVVGLCFQGAVSRIGGASFEDFQQDLLNLSKRAWLARKPISQGGLLKYVHGGEYHAYNPDVVRTLQQAVQSGEYSDYQEYAKLVNERPATTLRDLLAITPGENAVNIADVEPASELFKRFDTAAMSIGALSPEAHEALAEAMNSIGGNSNSGEGGEDPARYGTNKVSRIKQVASGRFGVTPAYLVNADVIQIKVAQGAKPGEGGQLPGDKVTPYIAKLRYSVPGVTLISPPPHHDIYSIEDLAQLIFDLKQVNPKAMISVKLVSEPGVGTIATGVAKAYADLITIAGYDGGTGASPLSSVKYAGCPWELGLVETQQALVANGLRHKIRLQVDGGLKTGVDIIKAAILGAESFGFGTGPMVALGCKYLRICHLNNCATGVATQDDKLRKNHYHGLPFKVTNYFEFIARETRELMAQLGVTRLVDLIGRTDLLKELDGFTAKQQKLALSKLLETAEPHPGKALYCTENNPPFDNGLLNAQLLQQAKPFVDERQSKTFWFDIRNTDRSVGASLSGYIAQTHGDQGLAADPIKAYFNGTAGQSFGVWNAGGVELYLTGDANDYVGKGMAGGLIAIRPPVGSAFRSHEASIIGNTCLYGATGGRLYAAGRAGERFGVRNSGAITVVEGIGDNGCEYMTGGIVCILGKTGVNFGAGMTGGFAYVLDESGDFRKRVNPELVEVLSVDALAIHEEHLRGLITEHVQHTGSQRGEEILANWSTFATKFALVKPKSSDVKALLGHRSRSAAELRVQAQ" "c" "Han et al., 2011" -"GLUSYNSMALL-MONOMER" "MSQNVYQFIDLQRVDPPKKPLKIRKIEFVEIYEPFSEGQAKAQADRCLSCGNPYCEWKCPVHNYIPNWLKLANEGRIFEAAELSHQTNTLPEVCGRVCPQDRLCEGSCTLNDEFGAVTIGNIERYINDKAFEMGWRPDMSGVKQTGKKVAIIGAGPAGLACADVLTRNGVKAVVFDRHPEIGGLLTFGIPAFKLEKEVMTRRREIFTGMGIEFKLNTEVGRDVQLDDLLSDYDAVFLGVGTYQSMRGGLENEDADGVYAALPFLIANTKQLMGFGETRDEPFVSMEGKRVVVLGGGDTAMDCVRTSVRQGAKHVTCAYRRDEENMPGSRREVKNAREEGVEFKFNVQPLGIEVNGNGKVSGVKMVRTEMGEPDAKGRRRAEIVAGSEHIVPADAVIMAFGFRPHNMEWLAKHSVELDSQGRIIAPEGSDNAFQTSNPKIFAGGDIVRGSDLVVTAIAEGRKAADGIMNWLEV" "c" "Han et al., 2011" -"GLUTAMIDOTRANS-MONOMER" "MNVVILDTGCANLNSVKSAIARHGYEPKVSRDPDVVLLADKLFLPGVGTAQAAMDQVRERELFDLIKACTQPVLGICLGMQLLGRRSEESNGVDLLGIIDEDVPKMTDFGLPLPHMGWNRVYPQAGNRLFQGIEDGAYFYFVHSYAMPVNPWTIAQCNYGEPFTAAVQKDNFYGVQFHPERSGAAGAKLLKNFLEM" "c" "Han et al., 2011" -"GLUTAMINESYN-MONOMER" "MSAEHVLTMLNEHEVKFVDLRFTDTKGKEQHVTIPAHQVNAEFFEEGKMFDGSSIGGWKGINESDMVLMPDASTAVIDPFFADSTLIIRCDILEPGTLQGYDRDPRSIAKRAEDYLRSTGIADTVLFGPEPEFFLFDDIRFGSSISGSHVAIDDIEGAWNSSTQYEGGNKGHRPAVKGGYFPVPPVDSAQDIRSEMCLVMEQMGLVVEAHHHEVATAGQNEVATRFNTMTKKADEIQIYKYVVHNVAHRFGKTATFMPKPMFGDNGSGMHCHMSLSKNGVNLFAGDKYAGLSEQALYYIGGVIKHAKAINALANPTTNSYKRLVPGYEAPVMLAYSARNRSASIRIPVVSSPKARRIEVRFPDPAANPYLCFAALLMAGLDGIKNKIHPGEAMDKNLYDLPPEEAKEIPQVAGSLEEALNELDLDREFLKAGGVFTDEAIDAYIALRREEDDRVRMTPHPVEFELYYSV" "c" "Lopez-Campistrous et al., 2005" -"GLUTATHIONE-REDUCT-NADPH-MONOMER" "MTKHYDYIAIGGGSGGIASINRAAMYGQKCALIEAKELGGTCVNVGCVPKKVMWHAAQIREAIHMYGPDYGFDTTINKFNWETLIASRTAYIDRIHTSYENVLGKNNVDVIKGFARFVDAKTLEVNGETITADHILIATGGRPSHPDIPGVEYGIDSDGFFALPALPERVAVVGAGYIAVELAGVINGLGAKTHLFVRKHAPLRSFDPMISETLVEVMNAEGPQLHTNAIPKAVVKNTDGSLTLELEDGRSETVDCLIWAIGREPANDNINLEAAGVKTNEKGYIVVDKYQNTNIEGIYAVGDNTGAVELTPVAVAAGRRLSERLFNNKPDEHLDYSNIPTVVFSHPPIGTVGLTEPQAREQYGDDQVKVYKSSFTAMYTAVTTHRQPCRMKLVCVGSEEKIVGIHGIGFGMDEMLQGFAVALKMGATKKDFDNTVAIHPTAAEEFVTMR" "c" "Han et al., 2011" -"GLUTATHIONE-SYN-MONOMER" "MIKLGIVMDPIANINIKKDSSFAMLLEAQRRGYELHYMEMGDLYLINGEARAHTRTLNVKQNYEEWFSFVGEQDLPLADLDVILMRKDPPFDTEFIYATYILERAEEKGTLIVNKPQSLRDCNEKLFTAWFSDLTPETLVTRNKAQLKAFWEKHSDIILKPLDGMGGASIFRVKEGDPNLGVIAETLTEHGTRYCMAQNYLPAIKDGDKRVLVVDGEPVPYCLARIPQGGETRGNLAAGGRGEPRPLTESDWKIARQIGPTLKEKGLIFVGLDIIGDRLTEINVTSPTCIREIEAEFPVSITGMLMDAIEARLQQQ" "c" "Lopez-Campistrous et al., 2005" -"GLUTCYSLIG-MONOMER" "LIPDVSQALAWLEKHPQALKGIQRGLERETLRVNADGTLATTGHPEALGSALTHKWITTDFAEALLEFITPVDGDIEHMLTFMRDLHRYTARNMGDERMWPLSMPCYIAEGQDIELAQYGTSNTGRFKTLYREGLKNRYGALMQTISGVHYNFSLPMAFWQAKCGDISGADAKEKISAGYFRVIRNYYRFGWVIPYLFGASPAICSSFLQGKPTSLPFEKTECGMYYLPYATSLRLSDLGYTNKSQSNLGITFNDLYEYVAGLKQAIKTPSEEYAKIGIEKDGKRLQINSNVLQIENELYAPIRPKRVTRSGESPSDALLRGGIEYIEVRSLDINPFSPIGVDEQQVRFLDLFMVWCALADAPEMSSSELACTRVNWNRVILEGRKPGLTLGIGCETAQFPLPQVGKDLFRDLKRVAQTLDSINGGEAYQKVCDELVACFDNPDLTFSARILRSMIDTGIGGTGKAFAEAYRNLLREEPLEILREEDFVAEREASERRQQEMEAADTEPFAVWLEKHA" "c" "Han et al., 2011" -"GLUTDECARBOXA-MONOMER" "MDQKLLTDFRSELLDSRFGAKAISTIAESKRFPLHEMRDDVAFQIINDELYLDGNARQNLATFCQTWDDENVHKLMDLSINKNWIDKEEYPQSAAIDLRCVNMVADLWHAPAPKNGQAVGTNTIGSSEACMLGGMAMKWRWRKRMEAAGKPTDKPNLVCGPVQICWHKFARYWDVELREIPMRPGQLFMDPKRMIEACDENTIGVVPTFGVTYTGNYEFPQPLHDALDKFQADTGIDIDMHIDAASGGFLAPFVAPDIVWDFRLPRVKSISASGHKFGLAPLGCGWVIWRDEEALPQELVFNVDYLGGQIGTFAINFSRPAGQVIAQYYEFLRLGREGYTKVQNASYQVAAYLADEIAKLGPYEFICTGRPDEGIPAVCFKLKDGEDPGYTLYDLSERLRLRGWQVPAFTLGGEATDIVVMRIMCRRGFEMDFAELLLEDYKASLKYLSDHPKLQGIAQQNSFKHT" "c" "Han et al., 2011" -"GLUTDECARBOXB-MONOMER" "MDKKQVTDLRSELLDSRFGAKSISTIAESKRFPLHEMRDDVAFQIINDELYLDGNARQNLATFCQTWDDENVHKLMDLSINKNWIDKEEYPQSAAIDLRCVNMVADLWHAPAPKNGQAVGTNTIGSSEACMLGGMAMKWRWRKRMEAAGKPTDKPNLVCGPVQICWHKFARYWDVELREIPMRPGQLFMDPKRMIEACDENTIGVVPTFGVTYTGNYEFPQPLHDALDKFQADTGIDIDMHIDAASGGFLAPFVAPDIVWDFRLPRVKSISASGHKFGLAPLGCGWVIWRDEEALPQELVFNVDYLGGQIGTFAINFSRPAGQVIAQYYEFLRLGREGYTKVQNASYQVAAYLADEIAKLGPYEFICTGRPDEGIPAVCFKLKDGEDPGYTLYDLSERLRLRGWQVPAFTLGGEATDIVVMRIMCRRGFEMDFAELLLEDYKASLKYLSDHPKLQGIAQQNSFKHT" "c" "Han et al., 2011" -"GLUTKIN-MONOMER" "MSDSQTLVVKLGTSVLTGGSRRLNRAHIVELVRQCAQLHAAGHRIVIVTSGAIAAGREHLGYPELPATIASKQLLAAVGQSRLIQLWEQLFSIYGIHVGQMLLTRADMEDRERFLNARDTLRALLDNNIVPVINENDAVATAEIKVGDNDNLSALAAILAGADKLLLLTDQKGLYTADPRSNPQAELIKDVYGIDDALRAIAGDSVSGLGTGGMSTKLQAADVACRAGIDTIIAAGSKPGVIGDVMEGISVGTLFHAQATPLENRKRWIFGAPPAGEITVDEGATAAILERGSSLLPKGIKSVTGNFSRGEVIRICNLEGRDIAHGVSRYNSDALRRIAGHHSQEIDAILGYEYGPVAVHRDDMITR" "c" "Han et al., 2011" -"GLUTRACE-MONOMER" "MATKLQDGNTPCLAATPSEPRPTVLVFDSGVGGLSVYDEIRHLLPDLHYIYAFDNVAFPYGEKSEAFIVERVVAIVTAVQERYPLALAVVACNTASTVSLPALREKFDFPVVGVVPAIKPAARLTANGIVGLLATRGTVKRSYTHELIARFANECQIEMLGSAEMVELAEAKLHGEDVSLDALKRILRPWLRMKEPPDTVVLGCTHFPLLQEELLQVLPEGTRLVDSGAAIARRTAWLLEHEAPDAKSADANIAFCMAMTPGAEQLLPVLQRYGFETLEKLAVLG" "c" "Han et al., 2011" -"GLUTRNAREDUCT-MONOMER" "MTLLALGINHKTAPVSLRERVSFSPDKLDQALDSLLAQPMVQGGVVLSTCNRTELYLSVEEQDNLQEALIRWLCDYHNLNEEDLRKSLYWHQDNDAVSHLMRVASGLDSLVLGEPQILGQVKKAFADSQKGHMKASELERMFQKSFSVAKRVRTETDIGASAVSVAFAACTLARQIFESLSTVTVLLVGAGETIELVARHLREHKVQKMIIANRTRERAQILADEVGAEVIALSDIDERLREADIIISSTASPLPIIGKGMVERALKSRRNQPMLLVDIAVPRDVEPEVGKLANAYLYSVDDLQSIISHNLAQRKAAAVEAETIVAQETSEFMAWLRAQSASETIREYRSQAEQVRDELTAKALAALEQGGDAQAIMQDLAWKLTNRLIHAPTKSLQQAARDGDNERLNILRDSLGLE" "c" "Han et al., 2011" -"GLUTSEMIALDEHYDROG-MONOMER" "MLEQMGIAAKQASYKLAQLSSREKNRVLEKIADELEAQSEIILNANAQDVADARANGLSEAMLDRLALTPARLKGIADDVRQVCNLADPVGQVIDGGVLDSGLRLERRRVPLGVIGVIYEARPNVTVDVASLCLKTGNAVILRGGKETCRTNAATVAVIQDALKSCGLPAGAVQAIDNPDRALVSEMLRMDKYIDMLIPRGGAGLHKLCREQSTIPVITGGIGVCHIYVDESVEIAEALKVIVNAKTQRPSTCNTVETLLVNKNIADSFLPALSKQMAESGVTLHADAAALAQLQAGPAKVVAVKAEEYDDEFLSLDLNVKIVSDLDDAIAHIREHGTQHSDAILTRDMRNAQRFVNEVDSSAVYVNASTRFTDGGQFGLGAEVAVSTQKLHARGPMGLEALTTYKWIGIGDYTIRA" "c" "Lopez-Campistrous et al., 2005" -"GLVB-MONOMER" "MFSNHADMMLTQIAIGLCFTLLYFVVFRTLILQFNMCTPGREDAEVKLYSKAEYKASRGQTTAAEPKKELDQAAGILQALGGVGNISSINNCATRLRIALHDMSQTLDDEVFKKLGAHGVFRSGDAIQVIIGLHVSQLREQLDSLINSHQSAENVAITEAV" "i" "Han et al., 2011" -"GLVC-MONOMER" "MLSQIQRFGGAMFTPVLLFPFAGIVVGLAILLQNPMFVGESLTDPNSLFAQIVHIIEEGGWTVFRNMPLIFAVGLPIGLAKQAQGRACLAVMVSFLTWNYFINAMGMTWGSYFGVDFTQDAVAGSGLTMMAGIKTLDTSIIGAIIISGIVTALHNRLFDKKLPVFLGIFQGTSYVVIIAFLVMIPCAWLTLLGWPKVQMGIESLQAFLRSAGALGVWVYTFLERILIPTGLHHFIYGQFIFGPAAVEGGIQMYWAQHLQEFSLSAEPLKSLFPEGGFALHGNSKIFGAVGISLAMYFTAAPENRVKVAGLLIPATLTAMLVGITEPLEFTFLFISPLLFAVHAVLAASMSTVMYLFGVVGNMGGGLID" "i" "Unambiguous EcoCyc data" -"GLY3KIN-MONOMER" "MKIVIAPDSFKESLSAEKCCQAIKAGFSTLFPDANYICLPIADGGEGTVDAMVAATGGNIVTLEVCGPMGEKVNAFYGLTGDGKTAVIEMAAASGLMLVAPEKRNPLLASSFGTGELIRHALDNDIRHIILGIGGSATVDGGMGMAQALGVRFLDADGQALAANGGNLARVASIEMDECDPRLANCHIEVACDVDNPLVGARGAAAVFGPQKGATPEMVEELEQGLQNYARVLQQQTEINVCQMAGGGAAGGMGIAAAVFLNADIKPGIEIVLNAVNLAQAVQGAALVITGEGRIDSQTAGGKAPLGVASVAKQFNVPVIGIAGVLGDGVEVVHQYGIDAVFSILPRLAPLAEVLASGETNLFNSARNIACAIKIGQGIKN" "c" "Han et al., 2011" -"GLYC3PDEHYDROGBIOSYN-MONOMER" "MNQRNASMTVIGAGSYGTALAITLARNGHEVVLWGHDPEHIATLERDRCNAAFLPDVPFPDTLHLESDLATALAASRNILVVVPSHVFGEVLRQIKPLMRPDARLVWATKGLEAETGRLLQDVAREALGDQIPLAVISGPTFAKELAAGLPTAISLASTDQTFADDLQQLLHCGKSFRVYSNPDFIGVQLGGAVKNVIAIGAGMSDGIGFGANARTALITRGLAEMSRLGAALGADPATFMGMAGLGDLVLTCTDNQSRNRRFGMMLGQGMDVQSAQEKIGQVVEGYRNTKEVRELAHRFGVEMPITEEIYQVLYCGKNAREAALTLLGRARKDERSSH" "c" "Han et al., 2011" -"GLYCDEH-MONOMER" "MDRIIQSPGKYIQGADVINRLGEYLKPLAERWLVVGDKFVLGFAQSTVEKSFKDAGLVVEIAPFGGECSQNEIDRLRGIAETAQCGAILGIGGGKTLDTAKALAHFMGVPVAIAPTIASTDAPCSALSVIYTDEGEFDRYLLLPNNPNMVIVDTKIVAGAPARLLAAGIGDALATWFEARACSRSGATTMAGGKCTQAALALAELCYNTLLEEGEKAMLAAEQHVVTPALERVIEANTYLSGVGFESGGLAAAHAVHNGLTAIPDAHHYYHGEKVAFGTLTQLVLENAPVEEIETVAALSHAVGLPITLAQLDIKEDVPAKMRIVAEAACAEGETIHNMPGGATPDQVYAALLVADQYGQRFLQEWE" "c" "Han et al., 2011" -"GLYCEROL-3-P-ACYLTRANSFER-MONOMER" "MSGWPRIYYKLLNLPLSILVKSKSIPADPAPELGLDTSRPIMYVLPYNSKADLLTLRAQCLAHDLPDPLEPLEIDGTLLPRYVFIHGGPRVFTYYTPKEESIKLFHDYLDLHRSNPNLDVQMVPVSVMFGRAPGREKGEVNPPLRMLNGVQKFFAVLWLGRDSFVRFSPSVSLRRMADEHGTDKTIAQKLARVARMHFARQRLAAVGPRLPARQDLFNKLLASRAIAKAVEDEARSKKISHEKAQQNAIALMEEIAANFSYEMIRLTDRILGFTWNRLYQGINVHNAERVRQLAHDGHELVYVPCHRSHMDYLLLSYVLYHQGLVPPHIAAGINLNFWPAGPIFRRLGAFFIRRTFKGNKLYSTVFREYLGELFSRGYSVEYFVEGGRSRTGRLLDPKTGTLSMTIQAMLRGGTRPITLIPIYIGYEHVMEVGTYAKELRGATKEKESLPQMLRGLSKLRNLGQGYVNFGEPMPLMTYLNQHVPDWRESIDPIEAVRPAWLTPTVNNIAADLMVRINNAGAANAMNLCCTALLASRQRSLTREQLTEQLNCYLDLMRNVPYSTDSTVPSASASELIDHALQMNKFEVEKDTIGDIIILPREQAVLMTYYRNNIAHMLVLPSLMAAIVTQHRHISRDVLMEHVNVLYPMLKAELFLRWDRDELPDVIDALANEMQRQGLITLQDDELHINPAHSRTLQLLAAGARETLQRYAITFWLLSANPSINRGTLEKESRTVAQRLSVLHGINAPEFFDKAVFSSLVLTLRDEGYISDSGDAEPAETMKVYQLLAELITSDVRLTIESATQGEG" "c" "Han et al., 2011" -"GLYCEROL-KIN-MONOMER" "MTEKKYIVALDQGTTSSRAVVMDHDANIISVSQREFEQIYPKPGWVEHDPMEIWATQSSTLVEVLAKADISSDQIAAIGITNQRETTIVWEKETGKPIYNAIVWQCRRTAEICEHLKRDGLEDYIRSNTGLVIDPYFSGTKVKWILDHVEGSRERARRGELLFGTVDTWLIWKMTQGRVHVTDYTNASRTMLFNIHTLDWDDKMLEVLDIPREMLPEVRRSSEVYGQTNIGGKGGTRIPISGIAGDQQAALFGQLCVKEGMAKNTYGTGCFMLMNTGEKAVKSENGLLTTIACGPTGEVNYALEGAVFMAGASIQWLRDEMKLINDAYDSEYFATKVQNTNGVYVVPAFTGLGAPYWDPYARGAIFGLTRGVNANHIIRATLESIAYQTRDVLEAMQADSGIRLHALRVDGGAVANNFLMQFQSDILGTRVERPEVREVTALGAAYLAGLAVGFWQNLDELQEKAVIEREFRPGIETTERNYRYAGWKKAVKRAMAWEEHDE" "c" "Han et al., 2011" -"GLYCOGEN-BRANCH-MONOMER" "MSDRIDRDVINALIAGHFADPFSVLGMHKTTAGLEVRALLPDATDVWVIEPKTGRKLAKLECLDSRGFFSGVIPRRKNFFRYQLAVVWHGQQNLIDDPYRFGPLIQEMDAWLLSEGTHLRPYETLGAHADTMDGVTGTRFSVWAPNARRVSVVGQFNYWDGRRHPMRLRKESGIWELFIPGAHNGQLYKYEMIDANGNLRLKSDPYAFEAQMRPETASLICGLPEKVVQTEERKKANQFDAPISIYEVHLGSWRRHTDNNFWLSYRELADQLVPYAKWMGFTHLELLPINEHPFDGSWGYQPTGLYAPTRRFGTRDDFRYFIDAAHAAGLNVILDWVPGHFPTDDFALAEFDGTNLYEHSDPREGYHQDWNTLIYNYGRREVSNFLVGNALYWIERFGIDALRVDAVASMIYRDYSRKEGEWIPNEFGGRENLEAIEFLRNTNRILGEQVSGAVTMAEESTDFPGVSRPQDMGGLGFWYKWNLGWMHDTLDYMKLDPVYRQYHHDKLTFGILYNYTENFVLPLSHDEVVHGKKSILDRMPGDAWQKFANLRAYYGWMWAFPGKKLLFMGNEFAQGREWNHDASLDWHLLEGGDNWHHGVQRLVRDLNLTYRHHKAMHELDFDPYGFEWLVVDDKERSVLIFVRRDKEGNEIIVASNFTPVPRHDYRFGINQPGKWREILNTDSMHYHGSNAGNGGTVHSDEIASHGRQHSLSLTLPPLATIWLVREAE" "c" "Han et al., 2011" -"GLYCOGENSYN-MONOMER" "MQVLHVCSEMFPLLKTGGLADVIGALPAAQIADGVDARVLLPAFPDIRRGVTDAQVVSRRDTFAGHITLLFGHYNGVGIYLIDAPHLYDRPGSPYHDTNLFAYTDNVLRFALLGWVGAEMASGLDPFWRPDVVHAHDWHAGLAPAYLAARGRPAKSVFTVHNLAYQGMFYAHHMNDIQLPWSFFNIHGLEFNGQISFLKAGLYYADHITAVSPTYAREITEPQFAYGMEGLLQQRHREGRLSGVLNGVDEKIWSPETDLLLASRYTRDTLEDKAENKRQLQIAMGLKVDDKVPLFAVVSRLTSQKGLDLVLEALPGLLEQGGQLALLGAGDPVLQEGFLAAAAEYPGQVGVQIGYHEAFSHRIMGGADVILVPSRFEPCGLTQLYGLKYGTLPLVRRTGGLADTVSDCSLENLADGVASGFVFEDSNAWSLLRAIRRAFVLWSRPSLWRFVQRQAMAMDFSWQVAAKSYRELYYRLK" "c" "Han et al., 2011" -"GLYCOPHOSPHORYL-MONOMER" "MNAPFTYSSPTLSVEALKHSIAYKLMFTIGKDPVVANKHEWLNATLFAVRDRLVERWLRSNRAQLSQETRQVYYLSMEFLIGRTLSNAMLSLGIYEDVQGALEAMGLNLEELIDEENDPGLGNGGLGRLAACFLDSLATLGLPGRGYGIRYDYGMFKQNIVNGSQKESPDYWLEYGNPWEFKRHNTRYKVRFGGRIQQEGKKTRWIETEEILGVAYDQIIPGYDTDATNTLRLWSAQASSEINLGKFNQGDYFAAVEDKNHSENVSRVLYPDDSTYSGRELRLRQEYFLVSSTIQDILSRHYQLHKTYDNLADKIAIHLNDTHPVLSIPEMMRLLIDEHQFSWDDAFEVCCQVFSYTNHTLMSEALETWPVDMLGKILPRHLQIIFEINDYFLKTLQEQYPNDTDLLGRASIIDESNGRRVRMAWLAVVVSHKVNGVSELHSNLMVQSLFADFAKIFPGRFTNVTNGVTPRRWLAVANPSLSAVLDEHLGRNWRTDLSLLNELQQHCDFPMVNHAVHQAKLENKKRLAEYIAQQLNVVVNPKALFDVQIKRIHEYKRQLMNVLHVITRYNRIKADPDAKWVPRVNIFGGKAASAYYMAKHIIHLINDVAKVINNDPQIGDKLKVVFIPNYSVSLAQLIIPAADLSEQISLAGTEASGTSNMKFALNGALTIGTLDGANVEMLDHVGADNIFIFGNTAEEVEELRRQGYKPREYYEKDEELHQVLTQIGSGVFSPEDPGRYRDLVDSLINFGDHYQVLADYRSYVDCQDKVDELYELQEEWTAKAMLNIANMGYFSSDRTIKEYADHIWHIDPVRL" "c" "Han et al., 2011" -"GLYCPDIESTER-CYTO-MONOMER" "MSNWPYPRIVAHRGGGKLAPENTLASIDVGAKYGHKMIEFDAKLSKDGEIFLLHDDNLERTSNGWGVAGELNWQDLLRVDAGSWYSKMFKGEPLPLLSQVAERCREHGMMANIEIKPTTGTGPLTGKMVALAARELWAGMTPPLLSSFEIDALEAAQQAAPELPRGLLLDEWRDDWRELTARLGCVSIHLNHKLLNKARVMQLKDAGLRILVYTVNKPQRAAELLRWGVDCICTDAIDVIGPNFTAQ" "c" "Han et al., 2011" -"GLYCPDIESTER-PERI-MONOMER" "MKLTLKNLSMAIMMSTIVMGSSAMAADSNEKIVIAHRGASGYLPEHTLPAKAMAYAQGADYLEQDLVMTKDDNLVVLHDHYLDRVTDVADRFPDRARKDGRYYAIDFTLDEIKSLKFTEGFDIENGKKVQTYPGRFPMGKSDFRVHTFEEEIEFVQGLNHSTGKNIGIYPEIKAPWFHHQEGKDIAAKTLEVLKKYGYTGKDDKVYLQCFDADELKRIKNELEPKMGMELNLVQLIAYTDWNETQQKQPDGSWVNYNYDWMFKPGAMKQVAEYADGIGPDYHMLIEETSQPGNIKLTGMVQDAQQNKLVVHPYTVRSDKLPEYTPDVNQLYDALYNKAGVNGLFTDFPDKAVKFLNKE" "p" "EcoCyc dump" -"GLYCRIBONUCSYN-MONOMER" "MKVLVIGNGGREHALAWKAAQSPLVETVFVAPGNAGTALEPALQNVAIGVTDIPALLDFAQNEKIDLTIVGPEAPLVKGVVDTFRAAGLKIFGPTAGAAQLEGSKAFTKDFLARHKIPTAEYQNFTEVEPALAYLREKGAPIVIKADGLAAGKGVIVAMTLEEAEAAVHDMLAGNAFGDAGHRIVIEEFLDGEEASFIVMVDGEHVLPMATSQDHKRVGDKDTGPNTGGMGAYSPAPVVTDDVHQRTMERIIWPTVKGMAAEGNTYTGFLYAGLMIDKQGNPKVIEFNCRFGDPETQPIMLRMKSDLVELCLAACESKLDEKTSEWDERASLGVVMAAGGYPGDYRTGDVIHGLPLEEVAGGKVFHAGTKLADDEQVVTNGGRVLCVTALGHTVAEAQKRAYALMTDIHWDDCFCRKDIGWRAIEREQN" "c" "Lopez-Campistrous et al., 2005 (location manually reset)" -"GLYOCARBOLIG-MONOMER" "MAKMRAVDAAMYVLEKEGITTAFGVPGAAINPFYSAMRKHGGIRHILARHVEGASHMAEGYTRATAGNIGVCLGTSGPAGTDMITALYSASADSIPILCITGQAPRARLHKEDFQAVDIEAIAKPVSKMAVTVREAALVPRVLQQAFHLMRSGRPGPVLVDLPFDVQVAEIEFDPDMYEPLPVYKPAASRMQIEKAVEMLIQAERPVIVAGGGVINADAAALLQQFAELTSVPVIPTLMGWGCIPDDHELMAGMVGLQTAHRYGNATLLASDMVFGIGNRFANRHTGSVEKYTEGRKIVHIDIEPTQIGRVLCPDLGIVSDAKAALTLLVEVAQEMQKAGRLPCRKEWVADCQQRKRTLLRKTHFDNVPVKPQRVYEEMNKAFGRDVCYVTTIGLSQIAAAQMLHVFKDRHWINCGQAGPLGWTIPAALGVCAADPKRNVVAISGDFDFQFLIEELAVGAQFNIPYIHVLVNNAYLGLIRQSQRAFDMDYCVQLAFENINSSEVNGYGVDHVKVAEGLGCKAIRVFKPEDIAPAFEQAKALMAQYRVPVVVEVILERVTNISMGSELDNVMEFEDIADNAADAPTETCFMHYE" "c" "EcoCyc dump" -"GLYOHMETRANS-MONOMER" "MLKREMNIADYDAELWQAMEQEKVRQEEHIELIASENYTSPRVMQAQGSQLTNKYAEGYPGKRYYGGCEYVDIVEQLAIDRAKELFGADYANVQPHSGSQANFAVYTALLEPGDTVLGMNLAHGGHLTHGSPVNFSGKLYNIVPYGIDATGHIDYADLEKQAKEHKPKMIIGGFSAYSGVVDWAKMREIADSIGAYLFVDMAHVAGLVAAGVYPNPVPHAHVVTTTTHKTLAGPRGGLILAKGGSEELYKKLNSAVFPGGQGGPLMHVIAGKAVALKEAMEPEFKTYQQQVAKNAKAMVEVFLERGYKVVSGGTDNHLFLVDLVDKNLTGKEADAALGRANITVNKNSVPNDPKSPFVTSGIRVGTPAITRRGFKEAEAKELAGWMCDVLDSINDEAVIERIKGKVLDICARYPVYA" "c" "Lopez-Campistrous et al., 2005" -"GLYOXI-MONOMER" "MRLLHTMLRVGDLQRSIDFYTKVLGMKLLRTSENPEYKYSLAFVGYGPETEEAVIELTYNWGVDKYELGTAYGHIALSVDNAAEACEKIRQNGGNVTREAGPVKGGTTVIAFVEDPDGYKIELIEEKDAGRGLGN" "c" "Han et al., 2011" -"GLYOXII-MONOMER" "MNLNSIPAFDDNYIWVLNDEAGRCLIVDPGDAEPVLNAIAANNWQPEAIFLTHHHHDHVGGVKELVEKFPQIVVYGPQETQDKGTTQVVKDGETAFVLGHEFSVIATPGHTLGHICYFSKPYLFCGDTLFSGGCGRLFEGTASQMYQSLKKLSALPDDTLVCCAHEYTLSNMKFALSILPHDLSINDYYRKVKELRAKNQITLPVILKNERQINVFLRTEDIDLINVINEETLLQQPEERFAWLRSKKDRF" "c" "Han et al., 2011" -"GLYQ-MONOMER" "MQKFDTRTFQGLILTLQDYWARQGCTIVQPLDMEVGAGTSHPMTCLRELGPEPMAAAYVQPSRRPTDGRYGENPNRLQHYYQFQVVIKPSPDNIQELYLGSLKELGMDPTIHDIRFVEDNWENPTLGAWGLGWEVWLNGMEVTQFTYFQQVGGLECKPVTGEITYGLERLAMYIQGVDSVYDLVWSDGPLGKTTYGDVFHQNEVEQSTYNFEYADVDFLFTCFEQYEKEAQQLLALENPLPLPAYERILKAAHSFNLLDARKAISVTERQRYILRIRTLTKAVAEAYYASREALGFPMCNKDK" "c" "Han et al., 2011" -"GLYS-MONOMER" "MSEKTFLVEIGTEELPPKALRSLAESFAANFTAELDNAGLAHGTVQWFAAPRRLALKVANLAEAQPDREIEKRGPAIAQAFDAEGKPSKAAEGWARGCGITVDQAERLTTDKGEWLLYRAHVKGESTEALLPNMVATSLAKLPIPKLMRWGASDVHFVRPVHTVTLLLGDKVIPATILGIQSDRVIRGHRFMGEPEFTIDNADQYPEILRERGKVIADYEERKAKIKADAEEAARKIGGNADLSESLLEEVASLVEWPVVLTAKFEEKFLAVPAEALVYTMKGDQKYFPVYANDGKLLPNFIFVANIESKDPQQIISGNEKVVRPRLADAEFFFNTDRKKRLEDNLPRLQTVLFQQQLGTLRDKTDRIQALAGWIAEQIGADVNHATRAGLLSKCDLMTNMVFEFTDTQGVMGMHYARHDGEAEDVAVALNEQYQPRFAGDDLPSNPVACALAIADKMDTLAGIFGIGQHPKGDKDPFALRRAALGVLRIIVEKNLNLDLQTLTEEAVRLYGDKLTNANVVDDVIDFMLGRFRAWYQDEGYTVDTIQAVLARRPTRPADFDARMKAVSHFRTLDAAAALAAANKRVSNILAKSDEVLSDRVNASTLKEPEEIKLAMQVVVLRDKLEPYFTEGRYQDALVELAELREPVDAFFDKVMVMVDDKELRINRLTMLEKLRELFLRVADISLLQ" "c" "Lopez-Campistrous et al., 2005" -"GMP-REDUCT-MONOMER" "MRIEEDLKLGFKDVLIRPKRSTLKSRSDVELERQFTFKHSGQSWSGVPIIAANMDTVGTFSMASALASFDILTAVHKHYSVEEWQAFINNSSADVLKHVMVSTGTSDADFEKTKQILDLNPALNFVCIDVANGYSEHFVQFVAKAREAWPTKTICAGNVVTGEMCEELILSGADIVKVGIGPGSVCTTRVKTGVGYPQLSAVIECADAAHGLGGMIVSDGGCTTPGDVAKAFGGGADFVMLGGMLAGHEESGGRIVEENGEKFMLFYGMSSESAMKRHVGGVAEYRAAEGKTVKLPLRGPVENTARDILGGLRSACTYVGASRLKELTKRTTFIRVQEQENRIFNNL" "c" "Han et al., 2011" -"GMP-SYN-MONOMER" "MTENIHKHRILILDFGSQYTQLVARRVRELGVYCELWAWDVTEAQIRDFNPSGIILSGGPESTTEENSPRAPQYVFEAGVPVFGVCYGMQTMAMQLGGHVEASNEREFGYAQVEVVNDSALVRGIEDALTADGKPLLDVWMSHGDKVTAIPSDFITVASTESCPFAIMANEEKRFYGVQFHPEVTHTRQGMRMLERFVRDICQCEALWTPAKIIDDAVARIREQVGDDKVILGLSGGVDSSVTAMLLHRAIGKNLTCVFVDNGLLRLNEAEQVLDMFGDHFGLNIVHVPAEDRFLSALAGENDPEAKRKIIGRVFVEVFDEEALKLEDVKWLAQGTIYPDVIESAASATGKAHVIKSHHNVGGLPKEMKMGLVEPLKELFKDEVRKIGLELGLPYDMLYRHPFPGPGLGVRVLGEVKKEYCDLLRRADAIFIEELRKADLYDKVSQAFTVFLPVRSVGVMGDGRKYDWVVSLRAVETIDFMTAHWAHLPYDFLGRVSNRIINEVNGISRVVYDISGKPPATIEWE" "c" "Han et al., 2011" -"GNTP-MONOMER" "MHVLNILWVVFGIGLMLVLNLKFKINSMVALLVAALSVGMLAGMDLMSLLHTMKAGFGNTLGELAIIVVFGAVIGKLMVDSGAAHQIAHTLLARLGLRYVQLSVIIIGLIFGLAMFYEVAFIMLAPLVIVIAAEAKIPFLKLAIPAVAAATTAHSLFPPQPGPVALVNAYGADMGMVYIYGVLVTIPSVICAGLILPKFLGNLERPTPSFLKADQPVDMNNLPSFGVSILVPLIPAIIMISTTIANIWLVKDTPAWEVVNFIGSSPIAMFIAMVVAFVLFGTARGHDMQWVMNAFESAVKSIAMVILIIGAGGVLKQTIIDTGIGDTIGMLMSHGNISPYIMAWLITVLIRLATGQGVVSAMTAAGIISAAILDPATGQLVGVNPALLVLATAAGSNTLTHINDASFWLFKGYFDLSVKDTLKTWGLLELVNSVVGLIIVLIISMVA" "i" "Han et al., 2011" -"GNTT-MONOMER" "MPLVIVAIGVILLLLLMIRFKMNGFIALVLVALAVGLMQGMPLDKVIGSIKAGVGGTLGSLALIMGFGAMLGKMLADCGGAQRIATTLIAKFGKKHIQWAVVLTGFTVGFALFYEVGFVLMLPLVFTIAASANIPLLYVGVPMAAALSVTHGFLPPHPGPTAIATIFNADMGKTLLYGTILAIPTVILAGPVYARVLKGIDKPIPEGLYSAKTFSEEEMPSFGVSVWTSLVPVVLMAMRAIAEMILPKGHAFLPVAEFLGDPVMATLIAVLIAMFTFGLNRGRSMDQINDTLVSSIKIIAMMLLIIGGGGAFKQVLVDSGVDKYIASMMHETNISPLLMAWSIAAVLRIALGSATVAAITAGGIAAPLIATTGVSPELMVIAVGSGSVIFSHVNDPGFWLFKEYFNLTIGETIKSWSMLETIISVCGLVGCLLLNMVI" "i" "Han et al., 2011" -"GNTU-MONOMER" "VTTLTLVLTAVGSVLLLLFLVMKARMHAFLALMVVSMGAGLFSGMPLDKIAATMEKGMGGTLGFLAVVVALGAMFGKILHETGAVDQIAVKMLKSFGHSRAHYAIGLAGLVCALPLFFEVAIVLLISVAFSMARHTGTNLVKLVIPLFAGVAAAAAFLVPGPAPMLLASQMNADFGWMILIGLCAAIPGMIIAGPLWGNFISRYVELHIPDDISEPHLGEGKMPSFGFSLSLILLPLVLVGLKTIAARFVPEGSTAYEWFEFIGHPFTAILVACLVAIYGLAMRQGMPKDKVMEICGHALQPAGIILLVIGAGGVFKQVLVDSGVGPALGEALTGMGLPIAITCFVLAAAVRIIQGSATVACLTAVGLVMPVIEQLNYSGAQMAALSICIAGGSIVVSHVNDAGFWLFGKFTGATEAETLKTWTMMETILGTVGAIVGMIAFQLLS" "i" "Han et al., 2011" -"GPH-MONOMER" "MNKFEDIRGVAFDLDGTLVDSAPGLAAAVDMALYALELPVAGEERVITWIGNGADVLMERALTWARQERATQRKTMGKPPVDDDIPAEEQVRILRKLFDRYYGEVAEEGTFLFPHVADTLGALQAKGLPLGLVTNKPTPFVAPLLEALDIAKYFSVVIGGDDVQNKKPHPDPLLLVAERMGIAPQQMLFVGDSRNDIQAAKAAGCPSVGLTYGYNYGEAIDLSQPDVIYQSINDLLPALGLPHSENQESKND" "c" "Han et al., 2011" -"GPMA-MONOMER" "MAVTKLVLVRHGESQWNKENRFTGWYDVDLSEKGVSEAKAAGKLLKEEGYSFDFAYTSVLKRAIHTLWNVLDELDQAWLPVEKSWKLNERHYGALQGLNKAETAEKYGDEQVKQWRRGFAVTPPELTKDDERYPGHDPRYAKLSEKELPLTESLALTIDRVIPYWNETILPRMKSGERVIIAAHGNSLRALVKYLDNMSEEEILELNIPTGVPLVYEFDENFKPLKRYYLGNADEIAAKAAAVANQGKAK" "c" "Lopez-Campistrous et al., 2005" -"GPT-MONOMER" "MSEKYIVTWDMLQIHARKLASRLMPSEQWKGIIAVSRGGLVPGALLARELGIRHVDTVCISSYDHDNQRELKVLKRAEGDGEGFIVIDDLVDTGGTAVAIREMYPKAHFVTIFAKPAGRPLVDDYVVDIPQDTWIEQPWDMGVVFVPPISGR" "i" "EcoCyc dump" -"GRXB-MONOMER" "VKLYIYDHCPYCLKARMIFGLKNIPVELHVLLNDDAETPTRMVGQKQVPILQKDDSRYMPESMDIVHYVDKLDGKPLLTGKRSPAIEEWLRKVNGYANKLLLPRFAKSAFDEFSTPAARKYFVDKKEASAGNFADLLAHSDGLIKNISDDLRALDKLIVKPNAVNGELSEDDIQLFPLLRNLTLVAGINWPSRVADYRDNMAKQTQINLLSSMAI" "c" "Han et al., 2011" -"GRXC-MONOMER" "MANVEIYTKETCPYCHRAKALLSSKGVSFQELPIDGNAAKREEMIKRSGRTTVPQIFIDAQHIGGCDDLYALDARGGLDPLLK" "c" "Han et al., 2011" -"GSAAMINOTRANS-MONOMER" "MSKSENLYSAARELIPGGVNSPVRAFTGVGGTPLFIEKADGAYLYDVDGKAYIDYVGSWGPMVLGHNHPAIRNAVIEAAERGLSFGAPTEMEVKMAQLVTELVPTMDMVRMVNSGTEATMSAIRLARGFTGRDKIIKFEGCYHGHADCLLVKAGSGALTLGQPNSPGVPADFAKYTLTCTYNDLASVRAAFEQYPQEIACIIVEPVAGNMNCVPPLPEFLPGLRALCDEFGALLIIDEVMTGFRVALAGAQDYYGVVPDLTCLGKIIGGGMPVGAFGGRRDVMDALAPTGPVYQAGTLSGNPIAMAAGFACLNEVAQPGVHETLDELTTRLAEGLLEAAEEAGIPLVVNHVGGMFGIFFTDAESVTCYQDVMACDVERFKRFFHMMLDEGVYLAPSAFEAGFMSVAHSMEDINNTIDAARRVFAKL" "c" "Han et al., 2011" -"GSK-MONOMER" "MKFPGKRKSKHYFPVNARDPLLQQFQPENETSAAWVVGIDQTLVDIEAKVDDEFIERYGLSAGHSLVIEDDVAEALYQELKQKNLITHQFAGGTIGNTMHNYSVLADDRSVLLGVMCSNIEIGSYAYRYLCNTSSRTDLNYLQGVDGPIGRCFTLIGESGERTFAISPGHMNQLRAESIPEDVIAGASALVLTSYLVRCKPGEPMPEATMKAIEYAKKYNVPVVLTLGTKFVIAENPQWWQQFLKDHVSILAMNEDEAEALTGESDPLLASDKALDWVDLVLCTAGPIGLYMAGFTEDEAKRKTQHPLLPGAIAEFNQYEFSRAMRHKDCQNPLRVYSHIAPYMGGPEKIMNTNGAGDGALAALLHDITANSYHRSNVPNSSKHKFTWLTYSSLAQVCKYANRVSYQVLNQHSPRLTRGLPEREDSLEESYWDR" "c" "Han et al., 2011" -"GSP-MONOMER" "MSKGTTSQDAPFGTLLGYAPGGVAIYSSDYSSLDPQEYEDDAVFRSYIDDEYMGHKWQCVEFARRFLFLNYGVVFTDVGMAWEIFSLRFLREVVNDNILPLQAFPNGSPRAPVAGALLIWDKGGEFKDTGHVAIITQLHGNKVRIAEQNVIHSPLPQGQQWTRELEMVVENGCYTLKDTFDDTTILGWMIQTEDTEYSLPQPEIAGELLKISGARLENKGQFDGKWLDEKDPLQNAYVQANGQVINQDPYHYYTITESAEQELIKATNELHLMYLHATDKVLKDDNLLALFDIPKILWPRLRLSWQRRRHHMITGRMDFCMDERGLKVYEYNADSASCHTEAGLILERWAEQGYKGNGFNPAEGLINELAGAWKHSRARPFVHIMQDKDIEENYHAQFMEQALHQAGFETRILRGLDELGWDAAGQLIDGEGRLVNCVWKTWAWETAFDQIREVSDREFAAVPIRTGHPQNEVRLIDVLLRPEVLVFEPLWTVIPGNKAILPILWSLFPHHRYLLDTDFTVNDELVKTGYAVKPIAGRCGSNIDLVSHHEEVLDKTSGKFAEQKNIYQQLWCLPKVDGKYIQVCTFTVGGNYGGTCLRGDESLVIKKESDIEPLIVVKK" "c" "Han et al., 2011" -"GST-MONOMER" "MKLFYKPGACSLASHITLRESGKDFTLVSVDLMKKRLENGDDYFAVNPKGQVPALLLDDGTLLTEGVAIMQYLADSVPDRQLLAPVNSISRYKTIEWLNYIATELHKGFTPLFRPDTPEEYKPTVRAQLEKKLQYVNEALKDEHWICGQRFTIADAYLFTVLRWAYAVKLNLEGLEHIAAFMQRMAERPEVQDALSAEGLK" "c" "Han et al., 2011" -"GTP-CYCLOHYDRO-I-MONOMER" "MPSLSKEAALVHEALVARGLETPLRPPVHEMDNETRKSLIAGHMTEIMQLLNLDLADDSLMETPHRIAKMYVDEIFSGLDYANFPKITLIENKMKVDEMVTVRDITLTSTCEHHFVTIDGKATVAYIPKDSVIGLSKINRIVQFFAQRPQVQERLTQQILIALQTLLGTNNVAVSIDAVHYCVKARGIRDATSATTTTSLGGLFKSSQNTRHEFLRAVRHHN" "c" "Han et al., 2011" -"GTP-CYCLOHYDRO-II-MONOMER" "MQLKRVAEAKLPTPWGDFLMVGFEELATGHDHVALVYGDISGHTPVLARVHSECLTGDALFSLRCDCGFQLEAALTQIAEEGRGILLYHRQEGRNIGLLNKIRAYALQDQGYDTVEANHQLGFAADERDFTLCADMFKLLGVNEVRLLTNNPKKVEILTEAGINIVERVPLIVGRNPNNEHYLDTKAEKMGHLLNK" "c" "EcoCyc dump" -"GUANYL-KIN-MONOMER" "MAQGTLYIVSAPSGAGKSSLIQALLKTQPLYDTQVSVSHTTRQPRPGEVHGEHYFFVNHDEFKEMISRDAFLEHAEVFGNYYGTSREAIEQVLATGVDVFLDIDWQGAQQIRQKMPHARSIFILPPSKIELDRRLRGRGQDSEEVIAKRMAQAVAEMSHYAEYDYLIVNDDFDTALTDLKTIIRAERLRMSRQKQRHDALISKLLAD" "c" "Han et al., 2011" -"GUTA-MONOMER" "MTHIRIEKGTGGWGGPLELKATPGKKIVYITAGTRPAIVDKLAQLTGWQAIDGFKEGEPAEAEIGVAVIDCGGTLRCGIYPKRRIPTINIHSTGKSGPLAQYIVEDIYVSGVKEENITVVGDATPQPSSVGRDYDTSKKITEQSDGLLAKVGMGMGSTVAVLFQSGRDTIDTVLKTILPFMAFVSALIGIIMASGLGDWIAHGLAPLASHPLGLVMLALICSFPLLSPFLGPGAVIAQVIGVLIGVQIGLGNIPPHLALPALFAINAQAACDFIPVGLSLAEARQDTVRVGVPSVLVSRFLTGAPTVLIAWFVSGFIYQ" "i" "Han et al., 2011" -"GUTB-MONOMER" "MTVIYQTTITRIGASAIDALSDQMLITFREGAPADLEEYCFIHCHGELKGALHPGLQFSLGQHRYPVTAVGSVAEDNLRELGHVTLRFDGLNEAEFPGTVHVAGPVPDDIAPGSVLKFESVKE" "c" "Han et al., 2011" -"H2NEOPTERINALDOL-MONOMER" "MDIVFIEQLSVITTIGVYDWEQTIEQKLVFDIEMAWDNRKAAKSDDVADCLSYADIAETVVSHVEGARFALVERVAEEVAELLLARFNSPWVRIKLSKPGAVARAANVGVIIERGNNLKENN" "c" "Han et al., 2011" -"H2NEOPTERINP3PYROPHOSPHOHYDRO-MONOMER" "VKDKVYKRPVSILVVIYAQDTKRVLMLQRRDDPDFWQSVTGSVEEGETAPQAAMREVKEEVTIDVVAEQLTLIDCQRTVEFEIFSHLRHRYAPGVTRNTESWFCLALPHERQIVFTEHLAYKWLDAPAAAALTKSWSNRQAIEQFVINAA" "c" "Han et al., 2011" -"H2NTPEPIM-MONOMER" "MAQPAAIIRIKNLRLRTFIGIKEEEINNRQDIVINVTIHYPADKARTSEDINDALNYRTVTKNIIQHVENNRFSLLEKLTQDVLDIAREHHWVTYAEVEIDKLHALRYADSVSMTLSWQR" "c" "Han et al., 2011" -"H2PTERIDINEPYROPHOSPHOKIN-MONOMER" "MTVAYIAIGSNLASPLEQVNAALKALGDIPESHILTVSSFYRTPPLGPQDQPDYLNAAVALETSLAPEELLNHTQRIELQQGRVRKAERWGPRTLDLDIMLFGNEVINTERLTVPHYDMKNRGFMLWPLFEIAPELVFPDGEMLRQILHTRAFDKLNKW" "c" "Han et al., 2011" -"H2PTEROATESYNTH-MONOMER" "MKLFAQGTSLDLSHPHVMGILNVTPDSFSDGGTHNSLIDAVKHANLMINAGATIIDVGGESTRPGAAEVSVEEELQRVIPVVEAIAQRFEVWISVDTSKPEVIRESAKVGAHIINDIRSLSEPGALEAAAETGLPVCLMHMQGNPKTMQEAPKYDDVFAEVNRYFIEQIARCEQAGIAKEKLLLDPGFGFGKNLSHNYSLLARLAEFHHFNLPLLVGMSRKSMIGQLLNVGPSERLSGSLACAVIAAMQGAHIIRVHDVKETVEAMRVVEATLSAKENKRYE" "c" "Han et al., 2011" -"HCAA2-MONOMER" "MSAQVSLELHHRISQFLFHEASLLDDWKFRDWLAQLDEEIRYTMRTTVNAQTRDRRKGVQPPTTWIFNDTKDQLERRIARLETGMAWAEEPPSRTRHLISNCQISETDIPNVFAVRVNYLLYRAQKERDETFYVGTRFDKVRRLEDDNWRLLERDIVLDQAVITSHNLSVLF" "c" "Han et al., 2011" -"HCAC-MONOMER" "MNRIYACPVADVPEGEALRIDTSPVIALFNVGGEFYAINDRCSHGNASMSEGYLEDDATVECPLHAASFCLKTGKALCLPATDPLTTYPVHVEGGDIFIDLPEAQP" "c" "EcoCyc dump" -"HCAD-MONOMER" "MKEKTIIIVGGGQAAAMAAASLRQQGFTGELHLFSDERHLPYERPPLSKSMLLEDSPQLQQVLPANWWQENNVHLHSGVTIKTLGRDTRELVLTNGESWHWDQLFIATGAAARPLPLLDALGERCFTLRHAGDAARLREVLQPERSVVIIGAGTIGLELAASATQRRCKVTVIELAATVMGRNAPPPVQRYLLQRHQQAGVRILLNNAIEHVVDGEKVELTLQSGETLQADVVIYGIGISANEQLAREANLDTANGIVIDEACRTCDPAIFAGGDVAITRLDNGALHRCESWENANNQAQIAAAAMLGLPLPLLPPPWFWSDQYSDNLQFIGDMRGDDWLCRGNPETQKAIWFNLQNGVLIGAVTLNQGREIRPIRKWIQSGKTFDAKLLIDENIALKSL" "c" "Han et al., 2011" -"HCAT-MONOMER" "MVLQSTRWLALGYFTYFFSYGIFLPFWSVWLKGIGLTPETIGLLLGAGLVARFLGSLLIAPRVSDPSRLISALRVLALLTLLFAVAFWAGAHVAWLMLVMIGFNLFFSPLVPLTDALANTWQKQFPLDYGKVRLWGSVAFVIGSALTGKLVTMFDYRVILALLTLGVASMLLGFLIRPTIQPQGASRQQESTGWSAWLALVRQNWRFLACVCLLQGAHAAYYGFSAIYWQAAGYSASAVGYLWSLGVVAEVIIFALSNKLFRRCSARDMLLISAICGVVRWGIMGATTALPWLIVVQILHCGTFTVCHLAAMRYIAARQGSEVIRLQAVYSAVAMGGSIAIMTVFAGFLYQYLGHGVFWVMALVALPAMFLRPKVVPSC" "i" "Han et al., 2011" -"HEMEOSYN-MONOMER" "MMFKQYLQVTKPGIIFGNLISVIGGFLLASKGSIDYPLFIYTLVGVSLVVASGCVFNNYIDRDIDRKMERTKNRVLVKGLISPAVSLVYATLLGIAGFMLLWFGANPLACWLGVMGFVVYVGVYSLYMKRHSVYGTLIGSLSGAAPPVIGYCAVTGEFDSGAAILLAIFSLWQMPHSYAIAIFRFKDYQAANIPVLPVVKGISVAKNHITLYIIAFAVATLMLSLGGYAGYKYLVVAAAVSVWWLGMALRGYKVADDRIWARKLFGFSIIAITALSVMMSVDFMVPDSHTLLAAVW" "i" "Han et al., 2011" -"HEMN-MONOMER" "MSVQQIDWDLALIQKYNYSGPRYTSYPTALEFSEDFGEQAFLQAVARYPERPLSLYVHIPFCHKLCYFCGCNKIVTRQQHKADQYLDALEQEIVHRAPLFAGRHVSQLHWGGGTPTYLNKAQISRLMKLLRENFQFNADAEISIEVDPREIELDVLDHLRAEGFNRLSMGVQDFNKEVQRLVNREQDEEFIFALLNHAREIGFTSTNIDLIYGLPKQTPESFAFTLKRVAELNPDRLSVFNYAHLPTIFAAQRKIKDADLPSPQQKLDILQETIAFLTQSGYQFIGMDHFARPDDELAVAQREGVLHRNFQGYTTQGDTDLLGMGVSAISMIGDCYAQNQKELKQYYQQVDEQGNALWRGIALTRDDCIRRDVIKSLICNFRLDYAPIEKQWDLHFADYFAEDLKLLAPLAKDGLVDVDEKGIQVTAKGRLLIRNICMCFDTYLRQKARMQQFSRVI" "c" "Han et al., 2011" -"HEMX-MONOMER" "MTEQEKTSAVVEETREAVDTTSQPVATEKKSKNNTALILSAVAIAIALAAGIGLYGWGKQQAVNQTATSDALANQLTALQKAQESQKAELEGIIKQQAAQLKQANRQQETLAKQLDEVQQKVATISGSDAKTWLLAQADFLVKLAGRKLWSDQDVTTAAALLKSADASLADMNDPSLITVRRAITDDIASLSAVSQVDYDGIILKLNQLSNQVDNLRLADNDSDGSPMDSDGEELSSSISEWRINLQKSWQNFMDNFITIRRRDDTAVPLLAPNQDIYLRENIRSRLLVAAQAVPRHQEETYRQALENVSTWVRAYYDTDDATTKAFLDEVDQLSQQNISMDLPETLQSQAMLEKLMQTRVRNLLAQPAAGTTEAKPAPAPQADTPAAAPQGE" "i" "Lopez-Campistrous et al., 2005" -"HISJ-MONOMER" "MKKLVLSLSLVLAFSSATAAFAAIPQNIRIGTDPTYAPFESKNSQGELVGFDIDLAKELCKRINTQCTFVENPLDALIPSLKAKKIDAIMSSLSITEKRQQEIAFTDKLYAADSRLVVAKNSDIQPTVESLKGKRVGVLQGTTQETFGNEHWAPKGIEIVSYQGQDNIYSDLTAGRIDAAFQDEVAASEGFLKQPVGKDYKFGGPSVKDEKLFGVGTGMGLRKEDNELREALNKAFAEMRADGTYEKLAKKYFDFDVYGG" "p" "Lopez-Campistrous et al., 2005" -"HISM-MONOMER" "VIEILHEYWKPLLWTDGYRFTGVAITLWLLILSVVIGGVLALFLAIGRVSSNKYIQFPIWLFTYIFRGTPLYVQLLVFYSGMYTLEIVKGTEFLNAFFRSGLNCTVLALTLNTCAYTTEIFAGAIRSVPHGEIEAARAYGFSTFKMYRCIILPSALRIALPAYSNEVILMLHSTALAFTATVPDLLKIARDINAATYQPFTAFGIAAVLYLIISYVLISLFRRAEKRWLQHVKPSSTH" "i" "Han et al., 2011" -"HISP-MONOMER" "MSENKLNVIDLHKRYGEHEVLKGVSLQANAGDVISIIGSSGSGKSTFLRCINFLEKPSEGSIVVNGQTINLVRDKDGQLKVADKNQLRLLRTRLTMVFQHFNLWSHMTVLENVMEAPIQVLGLSKQEARERAVKYLAKVGIDERAQGKYPVHLSGGQQQRVSIARALAMEPEVLLFDEPTSALDPELVGEVLRIMQQLAEEGKTMVVVTHEMGFARHVSTHVIFLHQGKIEEEGAPEQLFGNPQSPRLQRFLKGSLK" "i" "Han et al., 2011" -"HISQ-MONOMER" "MLYGFSGVILQGALVTLELAISSVVLAVIIGLIGAGGKLSQNRLSGLIFEGYTTLIRGVPDLVLMLLIFYGLQIALNTVTEAMGVGQIDIDPMVAGIITLGFIYGAYFTETFRGAFMAVPKGHIEAATAFGFTRGQVFRRIMFPSMMRYALPGIGNNWQVILKSTALVSLLGLEDVVKATQLAGKSTWEPFYFAIVCGVIYLVFTTVSNGVLLFLERRYSVGVKRADL" "i" "Han et al., 2011" -"HISS-MONOMER" "VAKNIQAIRGMNDYLPGETAIWQRIEGTLKNVLGSYGYSEIRLPIVEQTPLFKRAIGEVTDVVEKEMYTFEDRNGDSLTLRPEGTAGCVRAGIEHGLLYNQEQRLWYIGPMFRHERPQKGRYRQFHQLGCEVFGLQGPDIDAELIMLTARWWRALGISEHVTLELNSIGSLEARANYRDALVAFLEQHKEKLDEDCKRRMYTNPLRVLDSKNPEVQALLNDAPALGDYLDEESREHFAGLCKLLESAGIAYTVNQRLVRGLDYYNRTVFEWVTNSLGSQGTVCAGGRYDGLVEQLGGRATPAVGFAMGLERLVLLVQAVNPEFKADPVVDIYLVASGADTQSAAMALAERLRDELPGVKLMTNHGGGNFKKQFARADKWGARVAVVLGESEVANGTAVVKDLRSGEQTAVAQDSVAAHLRTLLG" "c" "Lopez-Campistrous et al., 2005" -"HISTCYCLOPRATPPHOS" "MLTEQQRRELDWEKTDGLMPVIVQHAVSGEVLMLGYMNPEALDKTLESGKVTFFSRTKQRLWTKGETSGNFLNVVSIAPDCDNDTLLVLANPIGPTCHKGTSSCFGDTAHQWLFLYQLEQLLAERKSADPETSYTAKLYASGTKRIAQKVGEEGVETALAATVHDRFELTNEASDLMYHLLVLLQDQGLDLTTVIENLRKRHQ" "c" "Han et al., 2011" -"HISTDEHYD-MONOMER" "MSFNTIIDWNSCTAEQQRQLLMRPAISASESITRTVNDILDNVKARGDEALREYSAKFDKTTVTALKVSAEEIAAASERLSDELKQAMAVAVKNIETFHTAQKLPPVDVETQPGVRCQQVTRPVASVGLYIPGGSAPLFSTVLMLATPASIAGCKKVVLCSPPPIADEILYAAQLCGVQDVFNVGGAQAIAALAFGTESVPKVDKIFGPGNAFVTEAKRQVSQRLDGAAIDMPAGPSEVLVIADSGATPDFVASDLLSQAEHGPDSQVILLTPAADMARRVAEAVERQLAELPRAETARQALNASRLIVTKDLAQCVEISNQYGPEHLIIQTRNARELVDSITSAGSVFLGDWSPESAGDYASGTNHVLPTYGYTATCSSLGLADFQKRMTVQELSKEGFSALASTIETLAAAERLTAHKNAVTLRVNALKEQA" "c" "Lopez-Campistrous et al., 2005" -"HISTPHOSTRANS-MONOMER" "MSTVTITDLARENVRNLTPYQSARRLGGNGDVWLNANEYPTAVEFQLTQQTLNRYPECQPKAVIENYAQYAGVKPEQVLVSRGADEGIELLIRAFCEPGKDAILYCPPTYGMYSVSAETIGVECRTVPTLDNWQLDLQGISDKLDGVKVVYVCSPNNPTGQLINPQDFRTLLELTRGKAIVVADEAYIEFCPQASLAGWLAEYPHLAILRTLSKAFALAGLRCGFTLANEEVINLLMKVIAPYPLSTPVADIAAQALSPQGIVAMRERVAQIIAEREYLIAALKEIPCVEQVFDSETNYILARFKASSAVFKSLWDQGIILRDQNKQPSLSGCLRITVGTREESQRVIDALRAEQV" "c" "Han et al., 2011" -"HMP-KIN-MONOMER" "MSASALVCLAPGSEETEAVTTIDLLVRGGIKVTTASVASDGNLAITCSRGVKLLADAPLVEVADGEYDVIVLPGGIKGAECFRDSTLLVETVKQFHRSGRIVAAICAAPATVLVPHDIFPIGNMTGFPTLKDKIPAEQWLDKRVVWDARVKLLTSQGPGTAIDFGLKIIDLLVGREKAHEVASQLVMAAGIYNYYE" "c" "EcoCyc dump" -"HMP-P-KIN-MONOMER" "MKRINALTIAGTDPSGGAGIQADLKTFSALGAYGCSVITALVAQNTRGVQSVYRIEPDFVAAQLDSVFSDVRIDTTKIGMLAETDIVEAVAERLQRYQIQNVVLDTVMLAKSGDPLLSPSAVATLRSRLLPQVSLITPNLPEAAALLDAPHARTEQEMLEQGRSLLAMGCGAVLMKGGHLDDEQSPDWLFTREGEQRFTAPRIMTKNTHGTGCTLSAALAALRPRHTNWADTVQEAKSWLSSALAQADTLEVGHGIGPVHHFHAWW" "c" "Han et al., 2011" -"HOLO-ACP-SYNTH-MONOMER" "MAILGLGTDIVEIARIEAVIARSGDRLARRVLSDNEWAIWKTHHQPVRFLAKRFAVKEAAAKAFGTGIRNGLAFNQFEVFNDELGKPRLRLWGEALKLAEKLGVANMHVTLADERHYACATVIIES" "c" "Han et al., 2011" -"HOMOCYSMET-MONOMER" "MTILNHTLGFPRVGLRRELKKAQESYWAGNSTREELLAVGRELRARHWDQQKQAGIDLLPVGDFAWYDHVLTTSLLLGNVPARHQNKDGSVDIDTLFRIGRGRAPTGEPAAAAEMTKWFNTNYHYMVPEFVKGQQFKLTWTQLLDEVDEALALGHKVKPVLLGPVTWLWLGKVKGEQFDRLSLLNDILPVYQQVLAELAKRGIEWVQIDEPALVLELPQAWLDAYKPAYDALQGQVKLLLTTYFEGVTPNLDTITALPVQGLHVDLVHGKDDVAELHKRLPSDWLLSAGLINGRNVWRADLTEKYAQIKDIVGKRDLWVASSCSLLHSPIDLSVETRLDAEVKSWFAFALQKCHELALLRDALNSGDTAALAEWSAPIQARRHSTRVHNPAVEKRLAAITAQDSQRANVYEVRAEAQRARFKLPAWPTTTIGSFPQTTEIRTLRLDFKKGNLDANNYRTGIAEHIKQAIVEQERLGLDVLVHGEAERNDMVEYFGEHLDGFVFTQNGWVQSYGSRCVKPPIVIGDISRPAPITVEWAKYAQSLTDKPVKGMLTGPVTILCWSFPREDVSRETIAKQIALALRDEVADLEAAGIGIIQIDEPALREGLPLRRSDWDAYLQWGVEAFRINAAVAKDDTQIHTHMCYCEFNDIMDSIAALDADVITIETSRSDMELLESFEEFDYPNEIGPGVYDIHSPNVPSVEWIEALLKKAAKRIPAERLWVNPDCGLKTRGWPETRAALANMVQAAQNLRRG" "c" "Han et al., 2011" -"HOMOCYSMETB12-MONOMER" "VSSKVEQLRAQLNERILVLDGGMGTMIQSYRLNEADFRGERFADWPCDLKGNNDLLVLSKPEVIAAIHNAYFEAGADIIETNTFNSTTIAMADYQMESLSAEINFAAAKLARACADEWTARTPEKPRYVAGVLGPTNRTASISPDVNDPAFRNITFDGLVAAYRESTKALVEGGADLILIETVFDTLNAKAAVFAVKTEFEALGVELPIMISGTITDASGRTLSGQTTEAFYNSLRHAEALTFGLNCALGPDELRQYVQELSRIAECYVTAHPNAGLPNAFGEYDLDADTMAKQIREWAQAGFLNIVGGCCGTTPQHIAAMSRAVEGLAPRKLPEIPVACRLSGLEPLNIGEDSLFVNVGERTNVTGSAKFKRLIKEEKYSEALDVARQQVENGAQIIDINMDEGMLDAEAAMVRFLNLIAGEPDIARVPIMIDSSKWDVIEKGLKCIQGKGIVNSISMKEGVDAFIHHAKLLRRYGAAVVVMAFDEQGQADTRARKIEICRRAYKILTEEVGFPPEDIIFDPNIFAVATGIEEHNNYAQDFIGACEDIKRELPHALISGGVSNVSFSFRGNDPVREAIHAVFLYYAIRNGMDMGIVNAGQLAIYDDLPAELRDAVEDVILNRRDDGTERLLELAEKYRGSKTDDTANAQQAEWRSWEVNKRLEYSLVKGITEFIEQDTEEARQQATRPIEVIEGPLMDGMNVVGDLFGEGKMFLPQVVKSARVMKQAVAYLEPFIEASKEQGKTNGKMVIATVKGDVHDIGKNIVGVVLQCNNYEIVDLGVMVPAEKILRTAKEVNADLIGLSGLITPSLDEMVNVAKEMERQGFTIPLLIGGATTSKAHTAVKIEQNYSGPTVYVQNASRTVGVVAALLSDTQRDDFVARTRKEYETVRIQHGRKKPRTPPVTLEAARDNDFAFDWQAYTPPVAHRLGVQEVEASIETLRNYIDWTPFFMTWSLAGKYPRILEDEVVGVEAQRLFKDANDMLDKLSAEKTLNPRGVVGLFPANRVGDDIEIYRDETRTHVINVSHHLRQQTEKTGFANYCLADFVAPKLSGKADYIGAFAVTGGLEEDALADAFEAQHDDYNKIMVKALADRLAEAFAEYLHERVRKVYWGYAPNENLSNEELIRENYQGIRPAPGYPACPEHTEKATIWELLEVEKHTGMKLTESFAMWPGASVSGWYFSHPDSKYYAVAQIQRDQVEDYARRKGMSVTEVERWLAPNLGYDAD" "c" "Han et al., 2011" -"HOMOSERKIN-MONOMER" "MVKVYAPASSANMSVGFDVLGAAVTPVDGALLGDVVTVEAAETFSLNNLGRFADKLPSEPRENIVYQCWERFCQELGKQIPVAMTLEKNMPIGSGLGSSACSVVAALMAMNEHCGKPLNDTRLLALMGELEGRISGSIHYDNVAPCFLGGMQLMIEENDIISQQVPGFDEWLWVLAYPGIKVSTAEARAILPAQYRRQDCIAHGRHLAGFIHACYSRQPELAAKLMKDVIAEPYRERLLPGFRQARQAVAEIGAVASGISGSGPTLFALCDKPETAQRVADWLGKNYLQNQEGFVHICRLDTAGARVLEN" "c" "Lopez-Campistrous et al., 2005" -"HOMSUCTRAN-MONOMER" "MPIRVPDELPAVNFLREENVFVMTTSRASGQEIRPLKVLILNLMPKKIETENQFLRLLSNSPLQVDIQLLRIDSRESRNTPAEHLNNFYCNFEDIQDQNFDGLIVTGAPLGLVEFNDVAYWPQIKQVLEWSKDHVTSTLFVCWAVQAALNILYGIPKQTRTEKLSGVYEHHILHPHALLTRGFDDSFLAPHSRYADFPAALIRDYTDLEILAETEEGDAYLFASKDKRIAFVTGHPEYDAQTLAQEFFRDVEAGLDPDVPYNYFPHNDPQNTPRASWRSHGNLLFTNWLNYYVYQITPYDLRHMNPTLD" "c" "Han et al., 2011" -"HRSA-MONOMER" "MVLFYRAHWRDYKNDQVRIMMNLTTLTHRDALCLNARFTSREEAIHALTQRLAALGKISSTEQFLEEVYRRESLGPTALGEGLAVPHGKTAAVKEAAFAVATLSEPLQWEGVDGPEAVDLVVLLAIPPNEAGTTHMQLLTALTTRLADDEIRARIQSATTPDELLSALDDKGGTQPSASFSNAPTIVCVTACPAGIAHTYMAAEYLEKAGRKLGVNVYVEKQGANGIEGRLTADQLNSATACIFAAEVAIKESERFNGIPALSVPVAEPIRHAEALIQQALTLKRSDETRTVQQDTQPVKSVKTELKQALLSGISFAVPLIVAGGTVLAVAVLLSQIFGLQDLFNEENSWLWMYRKLGGGLLGILMVPVLAAYTAYSLADKPALAPGFAAGLAANMIGSGFLGAVVGGLIAGYLMRWVKNHLRLSSKFNGFLTFYLYPVLGTLGAGSLMLFVVGEPVAWINNSLTAWLNGLSGSNALLLGAILGFMCSFDLGGPVNKAAYAFCLGAMANGVYGPYAIFASVKMVSAFTVTASTMLAPRLFKEFEIETGKSTWLLGLAGITEGAIPMAIEDPLRVIGSFVLGSMVTGAIVGAMNIGLSTPGAGIFSLFLLHDNGAGGVMAAIGWFGAALVGAAISTAILLMWRRHAVKHGNYLTDGVMP" "i" "Han et al., 2011" -"HYAA-MONOMER" "MNNEETFYQAMRRQGVTRRSFLKYCSLAATSLGLGAGMAPKIAWALENKPRIPVVWIHGLECTCCTESFIRSAHPLAKDVILSLISLDYDDTLMAAAGTQAEEVFEDIITQYNGKYILAVEGNPPLGEQGMFCISSGRPFIEKLKRAAAGASAIIAWGTCASWGCVQAARPNPTQATPIDKVITDKPIIKVPGCPPIPDVMSAIITYMVTFDRLPDVDRMGRPLMFYGQRIHDKCYRRAHFDAGEFVQSWDDDAARKGYCLYKMGCKGPTTYNACSSTRWNDGVSFPIQSGHGCLGCAENGFWDRGSFYSRVVDIPQMGTHSTADTVGLTALGVVAAAVGVHAVASAVDQRRRHNQQPTETEHQPGNEDKQA" "i" "Han et al., 2011" -"HYAB-MONOMER" "MSTQYETQGYTINNAGRRLVVDPITRIEGHMRCEVNINDQNVITNAVSCGTMFRGLEIILQGRDPRDAWAFVERICGVCTGVHALASVYAIEDAIGIKVPDNANIIRNIMLATLWCHDHLVHFYQLAGMDWIDVLDALKADPRKTSELAQSLSSWPKSSPGYFFDVQNRLKKFVEGGQLGIFRNGYWGHPQYKLPPEANLMGFAHYLEALDFQREIVKIHAVFGGKNPHPNWIVGGMPCAINIDESGAVGAVNMERLNLVQSIITRTADFINNVMIPDALAIGQFNKPWSEIGTGLSDKCVLSYGAFPDIANDFGEKSLLMPGGAVINGDFNNVLPVDLVDPQQVQEFVDHAWYRYPNDQVGRHPFDGITDPWYNPGDVKGSDTNIQQLNEQERYSWIKAPRWRGNAMEVGPLARTLIAYHKGDAATVESVDRMMSALNLPLSGIQSTLGRILCRAHEAQWAAGKLQYFFDKLMTNLKNGNLATASTEKWEPATWPTECRGVGFTEAPRGALGHWAAIRDGKIDLYQCVVPTTWNASPRDPKGQIGAYEAALMNTKMAIPEQPLEILRTLHSFDPCLACSTHVLGDDGSELISVQVR" "i" "EcoCyc dump" -"HYAC-MONOMER" "MQQKSDNVVSHYVFEAPVRIWHWLTVLCMAVLMVTGYFIGKPLPSVSGEATYLFYMGYIRLIHFSAGMVFTVVLLMRIYWAFVGNRYSRELFIVPVWRKSWWQGVWYEIRWYLFLAKRPSADIGHNPIAQAAMFGYFLMSVFMIITGFALYSEHSQYAIFAPFRYVVEFFYWTGGNSMDIHSWHRLGMWLIGAFVIGHVYMALREDIMSDDTVISTMVNGYRSHKFGKISNKERS" "i" "Han et al., 2011" -"HYBA-MONOMER" "VNRRNFIKAASCGALLTGALPSVSHAAAENRPPIPGSLGMLYDSTLCVGCQACVTKCQDINFPERNPQGEQTWSNNDKLSPYTNNIIQVWTSGTGVNKDQEENGYAYIKKQCMHCVDPNCVSVCPVSALKKDPKTGIVHYDKDVCTGCRYCMVACPYNVPKYDYNNPFGALHKCELCNQKGVERLDKGGLPGCVEVCPAGAVIFGTREELMAEAKKRLALKPGSEYHYPRQTLKSGDTYLHTVPKYYPHLYGEKEGGGTQVLVLTGVPYENLDLPKLDDLSTGARSENIQHTLYKGMMLPLAVLAGLTVLVRRNTKNDHHDGGDDHES" "i" "Han et al., 2011" -"HYBC-MONOMER" "MSQRITIDPVTRIEGHLRIDCEIENGVVSKAWASGTMWRGMEEIVKNRDPRDAWMIVQRICGVCTTTHALSSVRAAESALNIDVPVNAQYIRNIILAAHTTHDHIVHFYQLSALDWVDITSALQADPTKASEMLKGVSTWHLNSPEEFTKVQNKIKDLVASGQLGIFANGYWGHPAMKLPPEVNLIAVAHYLQALECQRDANRVVALLGGKTPHIQNLAVGGVANPINLDGLGVLNLERLMYIKSFIDKLSDFVEQVYKVDTAVIAAFYPEWLTRGKGAVNYLSVPEFPTDSKNGSFLFPGGYIENADLSSYRPITSHSDEYLIKGIQESAKHSWYKDEAPQAPWEGTTIPAYDGWSDDGKYSWVKSPTFYGKTVEVGPLANMLVKLAAGRESTQNKLNEIVAIYQKLTGNTLEVAQLHSTLGRIIGRTVHCCELQDILQNQYSALITNIGKGDHTTFVKPNIPATGEFKGVGFLEAPRGMLSHWMVIKDGIISNYQAVVPSTWNSGPRNFNDDVGPYEQSLVGTPVADPNKPLEVVRTIHSFDPCMACAVHVVDADGNEVVSVKVL" "i" "Han et al., 2011" -"HYCBSMALL-MONOMER" "VNRFVIADSTLCIGCHTCEAACSETHRQHGLQSMPRLRVMLNEKESAPQLCHHCEDAPCAVVCPVNAITRVDGAVQLNESLCVSCKLCGIACPFGAIEFSGSRPLDIPANANTPKAPPAPPAPARVSTLLDWVPGIRAIAVKCDLCSFDEQGPACVRMCPTKALHLVDNTDIARVSKRKRELTFNTDFGDLTLFQQAQSGEAK" "c" "EcoCyc dump" -"HYCC-MONOMER" "MSAISLINSGVAWFVAAAVLAFLFSFQKALSGWIAGIGGAVGSLYTAAAGFTVLTGAVGVSGALSLVSYDVQISPLNAIWLITLGLCGLFVSLYNIDWHRHAQVKCNGLQINMLMAAAVCAVIASNLGMFVVMAEIMALCAVFLTSNSKEGKLWFALGRLGTLLLAIACWLLWQRYGTLDLRLLDMRMQQLPLGSDIWLLGVIGFGLLAGIIPLHGWVPQAHANASAPAAALFSTVVMKIGLLGILTLSLLGGNAPLWWGIALLVLGMITAFVGGLYALVEHNIQRLLAYHTLENIGIILLGLGAGVTGIALEQPALIALGLVGGLYHLLNHSLFKSVLFLGAGSVWFRTGHRDIEKLGGIGKKMPVISIAMLVGLMAMAALPPLNGFAGEWVIYQSFFKLSNSGAFVARLLGPLLAVGLAITGALAVMCMAKVYGVTFLGAPRTKEAENATCAPLLMSVSVVALAICCVIGGVAAPWLLPMLSAAVPLPLEPANTTVSQPMITLLLIACPLLPFIIMAICKGDRLPSRSRGAAWVCGYDHEKSMVITAHGFAMPVKQAFAPVLKLRKWLNPVSLVPGWQCEGSALLFRRMALVELAVLVVIIVSRGA" "i" "Han et al., 2011" -"HYCD-MONOMER" "MSVLYPLIQALVLFAVAPLLSGITRVARARLHNRRGPGVLQEYRDIIKLLGRQSVGPDASGWVFRLTPYVMVGVMLTIATALPVVTVGSPLPQLGDLITLLYLFAIARFFFAISGLDTGSPFTAIGASREAMLGVLVEPMLLLGLWVAAQVAGSTNISNITDTVYHWPLSQSIPLVLALCACAFATFIEMGKLPFDLAEAEQELQEGPLSEYSGSGFGVMKWGISLKQLVVLQMFVGVFIPWGQMETFTAGGLLLALVIAIVKLVVGVLVIALFENSMARLRLDITPRITWAGFGFAFLAFVSLLAA" "i" "Han et al., 2011" -"HYCELARGE-MONOMER" "MSEEKLGQHYLAALNEAFPGVVLDHAWQTKDQLTVTVKVNYLPEVVEFLYYKQGGWLSVLFGNDERKLNGHYAVYYVLSMEKGTKCWITVRVEVDANKPEYPSVTPRVPAAVWGEREVRDMYGLIPVGLPDERRLVLPDDWPDELYPLRKDSMDYRQRPAPTTDAETYEFINELGDKKNNVVPIGPLHVTSDEPGHFRLFVDGENIIDADYRLFYVHRGMEKLAETRMGYNEVTFLSDRVCGICGFAHSTAYTTSVENAMGIQVPERAQMIRAILLEVERLHSHLLNLGLACHFTGFDSGFMQFFRVRETSMKMAEILTGARKTYGLNLIGGIRRDLLKDDMIQTRQLAQQMRREVQELVDVLLSTPNMEQRTVGIGRLDPEIARDFSNVGPMVRASGHARDTRADHPFVGYGLLPMEVHSEQGCDVISRLKVRINEVYTALNMIDYGLDNLPGGPLMVEGFTYIPHRFALGFAEAPRGDDIHWSMTGDNQKLYRWRCRAATYANWPTLRYMLRGNTVSDAPLIIGSLDPCYSCTDRMTVVDVRKKKSKVVPYKELERYSIERKNSPLK" "c" "EcoCyc dump" -"HYCF-MONOMER" "MFTFIKKVIKTGTATSSYPLEPIAVDKNFRGKPEQNPQQCIGCAACVNACPSNALTVETDLATGELAWEFNLGHCIFCGRCEEVCPTAAIKLSQEYELAVWKKEDFLQQSRFALCNCRVCNRPFAVQKEIDYAIALLKHNGDSRAENHRESFETCPECKRQKCLVPSDRIELTRHMKEAI" "c" "EcoCyc dump" -"HYCG-MONOMER" "MSNLLGPRDANGIPVPMTVDESIASMKASLLKKIKRSAYVYRVDCGGCNGCEIEIFATLSPLFDAERFGIKVVPSPRHADILLFTGAVTRAMRSPALRAWQSAPDPKICISYGACGNSGGIFHDLYCVWGGTDKIVPVDVYIPGCPPTPAATLYGFAMALGLLEQKIHARGPGELDEQPAEILHGDMVQPLRVKVDREARRLAGYRYGRQIADDYLTQLGQGEEQVARWLEAENDPRLNEIVSHLNHVVEEARIR" "c" "EcoCyc dump" -"HYDG-MONOMER" "MTHDNIDILVVDDDISHCTILQALLRGWGYNVALANSGRQALEQVREQVFDLVLCDVRMAEMDGIATLKEIKALNPAIPVLIMTAYSSVETAVEALKTGALDYLIKPLDFDNLQATLEKALAHTHSIDAETPAVTASQFGMVGKSPAMQHLLSEIALVAPSEATVLIHGDSGTGKELVARAIHASSARSEKPLVTLNCAALNESLLESELFGHEKGAFTGADKRREGRFVEADGGTLFLDEIGDISPMMQVRLLRAIQEREVQRVGSNQIISVDVRLIAATHRDLAAEVNAGRFRQDLYYRLNVVAIEVPSLRQRREDIPLLAGHFLQRFAERNRKAVKGFTPQAMDLLIHYDWPGNIRELENAVERAVVLLTGEYISERELPLAIASTPIPLGQSQDIQPLVEVEKEVILAALEKTGGNKTEAARQLGITRKTLLAKLSR" "c" "Han et al., 2011" -"HYDH-MONOMER" "MRFMQRSKDSLAKWLSAILPVVIVGLVGLFAVTVIRDYGRASEADRQALLEKGNVLIRALESGSRVGMGMRMHHVQQQALLEEMAGQPGVLWFAVTDAQGIIILHSDPDKVGRALYSPDEMQKLKPEENSRWRLLGKTETTPALEVYRLFQPMSAPWRHGMHNMPRCNGKAVPQVDAQQAIFIAVDASDLVATQSGEKRNTLIILFALATVLLASVLSFFWYRRYLRSRQLLQDEMKRKEKLVALGHLAAGVAHEIRNPLSSIKGLAKYFAERAPAGGEAHQLAQVMAKEADRLNRVVSELLELVKPTHLALQAVDLNTLINHSLQLVSQDANSREIQLRFTANDTLPEIQADPDRLTQVLLNLYLNAIQAIGQHGVISVTASESGAGVKISVTDSGKGIAADQLDAIFTPYFTTKAEGTGLGLAVVHNIVEQHGGTIQVASQEGKGSTFTLWLPVNITRKDPQG" "i" "Han et al., 2011" -"HYDROPEROXIDI-MONOMER" "MSTSDDIHNTTATGKCPFHQGGHDQSAGAGTTTRDWWPNQLRVDLLNQHSNRSNPLGEDFDYRKEFSKLDYYGLKKDLKALLTESQPWWPADWGSYAGLFIRMAWHGAGTYRSIDGRGGAGRGQQRFAPLNSWPDNVSLDKARRLLWPIKQKYGQKISWADLFILAGNVALENSGFRTFGFGAGREDVWEPDLDVNWGDEKAWLTHRHPEALAKAPLGATEMGLIYVNPEGPDHSGEPLSAAAAIRATFGNMGMNDEETVALIAGGHTLGKTHGAGPTSNVGPDPEAAPIEEQGLGWASTYGSGVGADAITSGLEVVWTQTPTQWSNYFFENLFKYEWVQTRSPAGAIQFEAVDAPEIIPDPFDPSKKRKPTMLVTDLTLRFDPEFEKISRRFLNDPQAFNEAFARAWFKLTHRDMGPKSRYIGPEVPKEDLIWQDPLPQPIYNPTEQDIIDLKFAIADSGLSVSELVSVAWASASTFRGGDKRGGANGARLALMPQRDWDVNAAAVRALPVLEKIQKESGKASLADIIVLAGVVGVEKAASAAGLSIHVPFAPGRVDARQDQTDIEMFELLEPIADGFRNYRARLDVSTTESLLIDKAQQLTLTAPEMTALVGGMRVLGANFDGSKNGVFTDRVGVLSNDFFVNLLDMRYEWKATDESKELFEGRDRETGEVKFTASRADLVFGSNSVLRAVAEVYASSDAHEKFVKDFVAAWVKVMNLDRFDLL" "c" "Han et al., 2011" -"HYDROPEROXIDII-MONOMER" "MSQHNEKNPHQHQSPLHDSSEAKPGMDSLAPEDGSHRPAAEPTPPGAQPTAPGSLKAPDTRNEKLNSLEDVRKGSENYALTTNQGVRIADDQNSLRAGSRGPTLLEDFILREKITHFDHERIPERIVHARGSAAHGYFQPYKSLSDITKADFLSDPNKITPVFVRFSTVQGGAGSADTVRDIRGFATKFYTEEGIFDLVGNNTPIFFIQDAHKFPDFVHAVKPEPHWAIPQGQSAHDTFWDYVSLQPETLHNVMWAMSDRGIPRSYRTMEGFGIHTFRLINAEGKATFVRFHWKPLAGKASLVWDEAQKLTGRDPDFHRRELWEAIEAGDFPEYELGFQLIPEEDEFKFDFDLLDPTKLIPEELVPVQRVGKMVLNRNPDNFFAENEQAAFHPGHIVPGLDFTNDPLLQGRLFSYTDTQISRLGGPNFHEIPINRPTCPYHNFQRDGMHRMGIDTNPANYEPNSINDNWPRETPPGPKRGGFESYQERVEGNKVRERSPSFGEYYSHPRLFWLSQTPFEQRHIVDGFSFELSKVVRPYIRERVVDQLAHIDLTLAQAVAKNLGIELTDDQLNITPPPDVNGLKKDPSLSLYAIPDGDVKGRVVAILLNDEVRSADLLAILKALKAKGVHAKLLYSRMGEVTADDGTVLPIAATFAGAPSLTVDAVIVPCGNIADIADNGDANYYLMEAYKHLKPIALAGDARKFKATIKIADQGEEGIVEADSADGSFMDELLTLMAAHRVWSRIPKIDKIPA" "c" "Han et al., 2011 (location manually reset)" -"HYPOXANPRIBOSYLTRAN-MONOMER" "MKHTVEVMIPEAEIKARIAELGRQITERYKDSGSDMVLVGLLRGSFMFMADLCREVQVSHEVDFMTASSYGSGMSTTRDVKILKDLDEDIRGKDVLIVEDIIDSGNTLSKVREILSLREPKSLAICTLLDKPSRREVNVPVEFIGFSIPDEFVVGYGIDYAQRYRHLPYIGKVILLDE" "c" "Lopez-Campistrous et al., 2005" -"ICITDEHASE-KIN-PHOSPHA" "MPRGLELLIAQTILQGFDAQYGRFLEVTSGAQQRFEQADWHAVQQAMKNRIHLYDHHVGLVVEQLRCITNGQSTDAAFLLRVKEHYTRLLPDYPRFEIAESFFNSVYCRLFDHRSLTPERLFIFSSQPERRFRTIPRPLAKDFHPDHGWESLLMRVISDLPLRLRWQNKSRDIHYIIRHLTETLGTDNLAESHLQVANELFYRNKAAWLVGKLITPSGTLPFLLPIHQTDDGELFIDTCLTTTAEASIVFGFARSYFMVYAPLPAALVEWLREILPGKTTAELYMAIGCQKHAKTESYREYLVYLQGCNEQFIEAPGIRGMVMLVFTLPGFDRVFKVIKDRFAPQKEMSAAHVRACYQLVKEHDRVGRMADTQEFENFVLEKRHISPALMELLLQEAAEKITDLGEQIVIRHLYIERRMVPLNIWLEQVEGQQLRDAIEEYGNAIRQLAAANIFPGDMLFKNFGVTRHGRVVFYDYDEICYMTEVNFRDIPPPRYPEDELASEPWYSVSPGDVFPEEFRHWLCADPRIGPLFEEMHADLFRADYWRALQNRIREGHVEDVYAYRRRQRFSVRYGEMLF" "c" "Han et al., 2011" -"IDONDEHYD-MONOMER" "MQVKTQSCVVAGKKTVAVTEQTIDWNNNGTLVQITRGGICGSDLHYYQEGKVGNFMIKAPMVLGHEVIGKVIHSDSSELHEGQTVAINPSKPCGHCKYCIEHNENQCTDMRFFGSAMYFPHVDGGFTRYKMVETSQCVPYPAKADEKVMAFAEPLAVAIHAAHQAGELQGKRVFISGVGPIGCLIVSAVKTLGAAEIVCADVSPRSLSLGKEMGADVLVNPQNDDMDHWKAEKGYFDVSFEVSGHPSSVNTCLEVTRARGVMVQVGMGGAMAEFPMMTLIGKEISLRGSFRFTSEFNTAVSWLANGVINPLPLLSAEYPFTDLEEALRFAGDKTQAAKVQLVF" "c" "Han et al., 2011" -"ILES-MONOMER" "MSDYKSTLNLPETGFPMRGDLAKREPGMLARWTDDDLYGIIRAAKKGKKTFILHDGPPYANGSIHIGHSVNKILKDIIVKSKGLSGYDSPYVPGWDCHGLPIELKVEQEYGKPGEKFTAAEFRAKCREYAATQVDGQRKDFIRLGVLGDWSHPYLTMDFKTEANIIRALGKIIGNGHLHKGAKPVHWCVDCRSALAEAEVEYYDKTSPSIDVAFQAVDQDALKAKFAVSNVNGPISLVIWTTTPWTLPANRAISIAPDFDYALVQIDGQAVILAKDLVESVMQRIGVTDYTILGTVKGAELELLRFTHPFMGFDVPAILGDHVTLDAGTGAVHTAPGHGPDDYVIGQKYGLETANPVGPDGTYLPGTYPTLDGVNVFKANDIVVALLQEKGALLHVEKMQHSYPCCWRHKTPIIFRATPQWFVSMDQKGLRAQSLKEIKGVQWIPDWGQARIESMVANRPDWCISRQRTWGVPMSLFVHKDTEELHPRTLELMEEVAKRVEVDGIQAWWDLDAKEILGDEADQYVKVPDTLDVWFDSGSTHSSVVDVRPEFAGHAADMYLEGSDQHRGWFMSSLMISTAMKGKAPYRQVLTHGFTVDGQGRKMSKSIGNTVSPQDVMNKLGADILRLWVASTDYTGEMAVSDEILKRAADSYRRIRNTARFLLANLNGFDPAKDMVKPEEMVVLDRWAVGCAKAAQEDILKAYEAYDFHEVVQRLMRFCSVEMGSFYLDIIKDRQYTAKADSVARRSCQTALYHIAEALVRWMAPILSFTADEVWGYLPGEREKYVFTGEWYEGLFGLADSEAMNDAFWDELLKVRGEVNKVIEQARADKKVGGSLEAAVTLYAEPELSAKLTALGDELRFVLLTSGATVADYNDAPADAQQSEVLKGLKVALSKAEGEKCPRCWHYTQDVGKVAEHAEICGRCVSNVAGDGEKRKFA" "c" "Han et al., 2011" -"IMIDPHOSPHADEHYDHISTIDPHOSPHA-MONOMER" "MSQKYLFIDRDGTLISEPPSDFQVDRFDKLAFEPGVIPELLKLQKAGYKLVMITNQDGLGTQSFPQADFDGPHNLMMQIFTSQGVQFDEVLICPHLPADECDCRKPKVKLVERYLAEQAMDRANSYVIGDRATDIQLAENMGITGLRYDRETLNWPMIGEQLTRRDRYAHVVRNTKETQIDVQVWLDREGGSKINTGVGFFDHMLDQIATHGGFRMEINVKGDLYIDDHHTVEDTGLALGEALKIALGDKRGICRFGFVLPMDECLARCALDISGRPHLEYKAEFTYQRVGDLSTEMIEHFFRSLSYTMGVTLHLKTKGKNDHHRVESLFKAFGRTLRQAIRVEGDTLPSSKGVL" "c" "Han et al., 2011" -"IMP-DEHYDROG-MONOMER" "MLRIAKEALTFDDVLLVPAHSTVLPNTADLSTQLTKTIRLNIPMLSAAMDTVTEARLAIALAQEGGIGFIHKNMSIERQAEEVRRVKKHESGVVTDPQTVLPTTTLREVKELTERNGFAGYPVVTEENELVGIITGRDVRFVTDLNQPVSVYMTPKERLVTVREGEAREVVLAKMHEKRVEKALVVDDEFHLIGMITVKDFQKAERKPNACKDEQGRLRVGAAVGAGAGNEERVDALVAAGVDVLLIDSSHGHSEGVLQRIRETRAKYPDLQIIGGNVATAAGARALAEAGCSAVKVGIGPGSICTTRIVTGVGVPQITAVADAVEALEGTGIPVIADGGIRFSGDIAKAIAAGASAVMVGSMLAGTEESPGEIELYQGRSYKSYRGMGSLGAMSKGSSDRYFQSDNAADKLVPEGIEGRVAYKGRLKEIIHQQMGGLRSCMGLTGCGTIDELRTKAEFVRISGAGIQESHVHDVTITKESPNYRLGS" "c" "Lopez-Campistrous et al., 2005" -"INORGPYROPHOSPHAT-MONOMER" "MSLLNVPAGKDLPEDIYVVIEIPANADPIKYEIDKESGALFVDRFMSTAMFYPCNYGYINHTLSLDGDPVDVLVPTPYPLQPGSVIRCRPVGVLKMTDEAGEDAKLVAVPHSKLSKEYDHIKDVNDLPELLKAQIAHFFEHYKDLEKGKWVKVEGWENAEAAKAEIVASFERAKNK" "c" "Han et al., 2011" -"IPPISOM-MONOMER" "MQTEHVILLNAQGVPTGTLEKYAAHTADTRLHLAFSSWLFNAKGQLLVTRRALSKKAWPGVWTNSVCGHPQLGESNEDAVIRRCRYELGVEITPPESIYPDFRYRATDPSGIVENEVCPVFAARTTSALQINDDEVMDYQWCDLADVLHGIDATPWAFSPWMVMQATNREARKRLSAFTQLK" "c" "Han et al., 2011" -"ISOCIT-LYASE-MONOMER" "MKTRTQQIEELQKEWTQPRWEGITRPYSAEDVVKLRGSVNPECTLAQLGAAKMWRLLHGESKKGYINSLGALTGGQALQQAKAGIEAVYLSGWQVAADANLAASMYPDQSLYPANSVPAVVERINNTFRRADQIQWSAGIEPGDPRYVDYFLPIVADAEAGFGGVLNAFELMKAMIEAGAAAVHFEDQLASVKKCGHMGGKVLVPTQEAIQKLVAARLAADVTGVPTLLVARTDADAADLITSDCDPYDSEFITGERTSEGFFRTHAGIEQAISRGLAYAPYADLVWCETSTPDLELARRFAQAIHAKYPGKLLAYNCSPSFNWQKNLDDKTIASFQQQLSDMGYKFQFITLAGIHSMWFNMFDLANAYAQGEGMKHYVEKVQQPEFAAAKDGYTFVSHQQEVGTGYFDKVTTIIQGGTSSVTALTGSTEESQF" "c" "Han et al., 2011" -"ISOCITDEH-SUBUNIT" "MESKVVVPAQGKKITLQNGKLNVPENPIIPYIEGDGIGVDVTPAMLKVVDAAVEKAYKGERKISWMEIYTGEKSTQVYGQDVWLPAETLDLIREYRVAIKGPLTTPVGGGIRSLNVALRQELDLYICLRPVRYYQGTPSPVKHPELTDMVIFRENSEDIYAGIEWKADSADAEKVIKFLREEMGVKKIRFPEHCGIGIKPCSEEGTKRLVRAAIEYAIANDRDSVTLVHKGNIMKFTEGAFKDWGYQLAREEFGGELIDGGPWLKVKNPNTGKEIVIKDVIADAFLQQILLRPAEYDVIACMNLNGDYISDALAAQVGGIGIAPGANIGDECALFEATHGTAPKYAGQDKVNPGSIILSAEMMLRHMGWTEAADLIVKGMEGAINAKTVTYDFERLMDGAKLLKCSEFGDAIIENM" "c" "Lopez-Campistrous et al., 2005" -"KCH-MONOMER" "VSHWATFKQTATNLWVTLRHDILALAVFLNGLLIFKTIYGMSVNLLDIFHIKAFSELDLSLLANAPLFMLGVFLVLNSIGLLFRAKLAWAISIILLLIALIYTLHFYPWLKFSIGFCIFTLVFLLILRKDFSHSSAAAGTIFAFISFTTLLFYSTYGALYLSEGFNPRIESLMTAFYFSIETMSTVGYGDIVPVSESARLFTISVIISGITVFATSMTSIFGPLIRGGFNKLVKGNNHTMHRKDHFIVCGHSILAINTILQLNQRGQNVTVISNLPEDDIKQLEQRLGDNADVIPGDSNDSSVLKKAGIDRCRAILALSDNDADNAFVVLSAKDMSSDVKTVLAVSDSKNLNKIKMVHPDIILSPQLFGSEILARVLNGEEINNDMLVSMLLNSGHGIFSDNDELETKADSKESAQK" "i" "Han et al., 2011" -"KDGALDOL-MONOMER" "MNNDVFPNKFKAALAAKQVQIGCWSALSNPISTEVLGLAGFDWLVLDGEHAPNDISTFIPQLMALKGSASAPVVRVPTNEPVIIKRLLDIGFYNFLIPFVETKEEAELAVASTRYPPEGIRGVSVSHRANMFGTVADYFAQSNKNITILVQIESQQGVDNVDAIAATEGVDGIFVGPSDLAAALGHLGNASHPDVQKAIQHIFNRASAHGKPSGILAPVEADARRYLEWGATFVAVGSDLGVFRSATQKLADTFKK" "c" "Han et al., 2011" -"KDGT-MONOMER" "MQIKRSIEKIPGGMMLVPLFLGALCHTFSPGAGKYFGSFTNGMITGTVPILAVWFFCMGASIKLSATGTVLRKSGTLVVTKIAVAWVVAAIASRIIPEHGVEVGFFAGLSTLALVAAMDMTNGGLYASIMQQYGTKEEAGAFVLMSLESGPLMTMIILGTAGIASFEPHVFVGAVLPFLVGFALGNLDPELREFFSKAVQTLIPFFAFALGNTIDLTVIAQTGLLGILLGVAVIIVTGIPLIIADKLIGGGDGTAGIAASSSAGAAVATPVLIAEMVPAFKPMAPAATSLVATAVIVTSILVPILTSIWSRKVKARAAKIEILGTVK" "i" "Han et al., 2011" -"KDO-8PSYNTH-MONOMER" "MKQKVVSIGDINVANDLPFVLFGGMNVLESRDLAMRICEHYVTVTQKLGIPYVFKASFDKANRSSIHSYRGPGLEEGMKIFQELKQTFGVKIITDVHEPSQAQPVADVVDVIQLPAFLARQTDLVEAMAKTGAVINVKKPQFVSPGQMGNIVDKFKEGGNEKVILCDRGANFGYDNLVVDMLGFSIMKKVSGNSPVIFDVTHALQCRDPFGAASGGRRAQVAELARAGMAVGLAGLFIEAHPDPEHAKCDGPSALPLAKLEPFLKQMKAIDDLVKGFEELDTSK" "c" "Lopez-Campistrous et al., 2005" -"KDOTRANS-MONOMER" "MLELLYTALLYLIQPLIWIRLWVRGRKAPAYRKRWGERYGFYRHPLKPGGIMLHSVSVGETLAAIPLVRALRHRYPDLPITVTTMTPTGSERVQSAFGKDVQHVYLPYDLPDALNRFLNKVDPKLVLIMETELWPNLIAALHKRKIPLVIANARLSARSAAGYAKLGKFVRRLLRRITLIAAQNEEDGARFVALGAKNNQVTVTGSLKFDISVTPQLAAKAVTLRRQWAPHRPVWIATSTHEGEESVVIAAHQALLQQFPNLLLILVPRHPERFPDAINLVRQAGLSYITRSSGEVPSTSTQVVVGDTMGELMLLYGIADLAFVGGSLVERGGHNPLEAAAHAIPVLMGPHTFNFKDICARLEQASGLITVTDATTLAKEVSSLLTDADYRSFYGRHAVEVLYQNQGALQRLLQLLEPYLPPKTH" "c" "Han et al., 2011" -"KDPB-MONOMER" "MSRKQLALFEPTLVVQALKEAVKKLNPQAQWRNPVMFIVWIGSLLTTCISIAMASGAMPGNALFSAAISGWLWITVLFANFAEALAEGRSKAQANSLKGVKKTAFARKLREPKYGAAADKVPADQLRKGDIVLVEAGDIIPCDGEVIEGGASVDESAITGESAPVIRESGGDFASVTGGTRILSDWLVIECSVNPGETFLDRMIAMVEGAQRRKTPNEIALTILLIALTIVFLLATATLWPFSAWGGNAVSVTVLVALLVCLIPTTIGGLLSAIGVAGMSRMLGANVIATSGRAVEAAGDVDVLLLDKTGTITLGNRQASEFIPAQGVDEKTLADAAQLASLADETPEGRSIVILAKQRFNLRERDVQSLHATFVPFTAQSRMSGINIDNRMIRKGSVDAIRRHVEANGGHFPTDVDQKVDQVARQGATPLVVVEGSRVLGVIALKDIVKGGIKERFAQLRKMGIKTVMITGDNRLTAAAIAAEAGVDDFLAEATPEAKLALIRQYQAEGRLVAMTGDGTNDAPALAQADVAVAMNSGTQAAKEAGNMVDLDSNPTKLIEVVHIGKQMLMTRGSLTTFSIANDVAKYFAIIPAAFAATYPQLNALNIMCLHSPDSAILSAVIFNALIIVFLIPLALKGVSYKPLTASAMLRRNLWIYGLGGLLVPFIGIKVIDLLLTVCGLV" "i" "Han et al., 2011" -"KDPD-MONOMER" "MNNEPLRPDPDRLLEQTAAPHRGKLKVFFGACAGVGKTWAMLAEAQRLRAQGLDIVVGVVETHGRKDTAAMLEGLAVLPLKRQAYRGRHISEFDLDAALARRPALILMDELAHSNAPGSRHPKRWQDIEELLEAGIDVFTTVNVQHLESLNDVVSGVTGIQVRETVPDPFFDAADDVVLVDLPPDDLRQRLKEGKVYIAGQAERAIEHFFRKGNLIALRELALRRTADRVDEQMRAWRGHPGEEKVWHTRDAILLCIGHNTGSEKLVRAAARLASRLGSVWHAVYVETPALHRLPEKKRRAILSALRLAQELGAETATLSDPAEEKAVVRYAREHNLGKIILGRPASRRWWRRETFADRLARIAPDLDQVLVALDEPPARTINNAPDNRSFKDKWRVQIQGCVVAAALCAVITLIAMQWLMAFDAANLVMLYLLGVVVVALFYGRWPSVVATVINVVSFDLFFIAPRGTLAVSDVQYLLTFAVMLTVGLVIGNLTAGVRYQARVARYREQRTRHLYEMSKALAVGRSPQDIAATSEQFIASTFHARSQVLLPDDNGKLQPLTHPQGMTPWDDAIAQWSFDKGLPAGAGTDTLPGVPYQILPLKSGEKTYGLVVVEPGNLRQLMIPEQQRLLETFTLLVANALERLTLTASEEQARMASEREQIRNALLAALSHDLRTPLTVLFGQAEILTLDLASEGSPHARQASEIRQHVLNTTRLVNNLLDMARIQSGGFNLKKEWLTLEEVVGSALQMLEPGLSSPINLSLPEPLTLIHVDGPLFERVLINLLENAVKYAGAQAEIGIDAHVEGENLQLDVWDNGPGLPPGQEQTIFDKFARGNKESAVPGVGLGLAICRAIVDVHGGTITAFNRPEGGACFRVTLPQQTAPELEEFHEDM" "i" "Han et al., 2011" -"KDPE-MONOMER" "VTNVLIVEDEQAIRRFLRTALEGDGMRVFEAETLQRGLLEAATRKPDLIILDLGLPDGDGIEFIRDLRQWSAVPVIVLSARSEESDKIAALDAGADDYLSKPFGIGELQARLRVALRRHSATTAPDPLVKFSDVTVDLAARVIHRGEEEVHLTPIEFRLLAVLLNNAGKVLTQRQLLNQVWGPNAVEHSHYLRIYMGHLRQKLEQDPARPRHFITETGIGYRFML" "c" "Han et al., 2011" -"KDPGALDOL-4OH2OXOGLUTARALDOL-MONOMER" "MKNWKTSAESILTTGPVVPVIVVKKLEHAVPMAKALVAGGVRVLEVTLRTECAVDAIRAIAKEVPEAIVGAGTVLNPQQLAEVTEAGAQFAISPGLTEPLLKAATEGTIPLIPGISTVSELMLGMDYGLKEFKFFPAEANGGVKALQAIAGPFSQVRFCPTGGISPANYRDYLALKSVLCIGGSWLVPADALEAGDYDRITKLAREAVEGAKL" "c" "Lopez-Campistrous et al., 2005" -"KDUD-MONOMER" "MILSAFSLEGKVAVVTGCDTGLGQGMALGLAQAGCDIVGINIVEPTETIEQVTALGRRFLSLTADLRKIDGIPALLDRAVAEFGHIDILVNNAGLIRREDALEFSEKDWDDVMNLNIKSVFFMSQAAAKHFIAQGNGGKIINIASMLSFQGGIRVPSYTASKSGVMGVTRLMANEWAKHNINVNAIAPGYMATNNTQQLRADEQRSAEILDRIPAGRWGLPSDLMGPIVFLASSASDYVNGYTIAVDGGWLAR" "c" "Han et al., 2011" -"KEFB-MONOMER" "MEGSDFLLAGVLFLFAAVAAVPLASRLGIGAVLGYLLAGIAIGPWGLGFISDVDEILHFSELGVVFLMFIIGLELNPSKLWQLRRSIFGVGAAQVLLSAALLAGLLMLTDFAWQAAVVGGIGLAMSSTAMALQLMREKGMNRSESGQLGFSVLLFQDLAVIPALALVPLLAGSADEHFDWMKVGMKVLAFVGMLIGGRYLLRPVFRFIAASGVREVFTAATLLLVLGSALFMDALGLSMALGTFIAGVLLAESEYRHELETAIDPFKGLLLGLFFISVGMSLNLGVLYTHLLWVVISVVVLVAVKILVLYLLARLYGVRSSERMQFAGVLSQGGEFAFVLFSTASSQRLFQGDQMALLLVTVTLSMMTTPLLMKLVDKWLSRQFNGPEEEDEKPWVNDDKPQVIVVGFGRFGQVIGRLLMANKMRITVLERDISAVNLMRKYGYKVYYGDATQVDLLRSAGAEAAESIVITCNEPEDTMKLVEICQQHFPHLHILARARGRVEAHELLQAGVTQFSRETFSSALELGRKTLVTLGMHPHQAQRAQLHFRRLDMRMLRELIPMHADTVQISRAREARRELEEIFQREMQQERRQLDGWDEFE" "i" "Han et al., 2011" -"KEFC-MONOMER" "MDSHTLIQALIYLGSAALIVPIAVRLGLGSVLGYLIAGCIIGPWGLRLVTDAESILHFAEIGVVLMLFIIGLELDPQRLWKLRAAVFGCGALQMVICGGLLGLFCMLLGLRWQVAELIGMTLALSSTAIAMQAMNERNLMVTQMGRSAFAVLLFQDIAAIPLVAMIPLLATSSASTTMGAFALSALKVAGALVLVVLLGRYVTRPALRFVARSGLREVFSAVALFLVFGFGLLLEEVGLSMAMGAFLAGVLLASSEYRHALESDIEPFKGLLLGLFFIGVGMSIDFGTLLENPLRIVILLLGFLIIKIAMLWLIARPLQVPNKQRRWFAVLLGQGSEFAFVVFGAAQMANVLEPEWAKSLTLAVALSMAATPILLVILNRLEQSSTEEAREADEIDEEQPRVIIAGFGRFGQITGRLLLSSGVKMVVLDHDPDHIETLRKFGMKVFYGDATRMDLLESAGAAKAEVLINAIDDPQTNLQLTEMVKEHFPHLQIIARARDVDHYIRLRQAGVEKPERETFEGALKTGRLALESLGLGPYEARERADVFRRFNIQMVEEMAMVENDTKARAAVYKRTSAMLSEIITEDREHLSLIQRHGWQGTEEGKHTGNMADEPETKPSS" "i" "Han et al., 2011" -"KETOBUTFORMLY-INACT-MONOMER" "MKVDIDTSDKLYADAWLGFKGTDWKNEINVRDFIQHNYTPYEGDESFLAEATPATTELWEKVMEGIRIENATHAPVDFDTNIATTITAHDAGYINQPLEKIVGLQTDAPLKRALHPFGGINMIKSSFHAYGREMDSEFEYLFTDLRKTHNQGVFDVYSPDMLRCRKSGVLTGLPDGYGRGRIIGDYRRVALYGISYLVRERELQFADLQSRLEKGEDLEATIRLREELAEHRHALLQIQEMAAKYGFDISRPAQNAQEAVQWLYFAYLAAVKSQNGGAMSLGRTASFLDIYIERDFKAGVLNEQQAQELIDHFIMKIRMVRFLRTPEFDSLFSGDPIWATEVIGGMGLDGRTLVTKNSFRYLHTLHTMGPAPEPNLTILWSEELPIAFKKYAAQVSIVTSSLQYENDDLMRTDFNSDDYAIACCVSPMVIGKQMQFFGARANLAKTLLYAINGGVDEKLKIQVGPKTAPLMDDVLDYDKVMDSLDHFMDWLAVQYISALNIIHYMHDKYSYEASLMALHDRDVYRTMACGIAGLSVATDSLSAIKYARVKPIRDENGLAVDFEIDGEYPQYGNNDERVDSIACDLVERFMKKIKALPTYRNAVPTQSILTITSNVVYGQKTGNTPDGRRAGTPFAPGANPMHGRDRKGAVASLTSVAKLPFTYAKDGISYTFSIVPAALGKEDPVRKTNLVGLLDGYFHHEADVEGGQHLNVNVMNREMLLDAIEHPEKYPNLTIRVSGYAVRFNALTREQQQDVISRTFTQAL" "c" "Han et al., 2011" -"KETOLREDUCTOISOM-MONOMER" "MANYFNTLNLRQQLAQLGKCRFMGRDEFADGASYLQGKKVVIVGCGAQGLNQGLNMRDSGLDISYALRKEAIAEKRASWRKATENGFKVGTYEELIPQADLVINLTPDKQHSDVVRTVQPLMKDGAALGYSHGFNIVEVGEQIRKDITVVMVAPKCPGTEVREEYKRGFGVPTLIAVHPENDPKGEGMAIAKAWAAATGGHRAGVLESSFVAEVKSDLMGEQTILCGMLQAGSLLCFDKLVEEGTDPAYAEKLIQFGWETITEALKQGGITLMMDRLSNPAKLRAYALSEQLKEIMAPLFQKHMDDIISGEFSSGMMADWANDDKKLLTWREETGKTAFETAPQYEGKIGEQEYFDKGVLMIAMVKAGVELAFETMVDSGIIEESAYYESLHELPLIANTIARKRLYEMNVVISDTAEYGNYLFSYACVPLLKPFMAELQPGDLGKAIPEGAVDNGQLRDVNEAIRSHAIEQVGKKLRGYMTDMKRIAVAG" "c" "Han et al., 2011" -"KGTP-MONOMER" "MAESTVTADSKLTSSDTRRRIWAIVGASSGNLVEWFDFYVYSFCSLYFAHIFFPSGNTTTQLLQTAGVFAAGFLMRPIGGWLFGRIADKHGRKKSMLLSVCMMCFGSLVIACLPGYETIGTWAPALLLLARLFQGLSVGGEYGTSATYMSEVAVEGRKGFYASFQYVTLIGGQLLALLVVVVLQHTMEDAALREWGWRIPFALGAVLAVVALWLRRQLDETSQQETRALKEAGSLKGLWRNRRAFIMVLGFTAAGSLCFYTFTTYMQKYLVNTAGMHANVASGIMTAALFVFMLIQPLIGALSDKIGRRTSMLCFGSLAAIFTVPILSALQNVSSPYAAFGLVMCALLIVSFYTSISGILKAEMFPAQVRALGVGLSYAVANAIFGGSAEYVALSLKSIGMETAFFWYVTLMAVVAFLVSLMLHRKGKGMRL" "i" "Han et al., 2011" -"KUP-MONOMER" "MSTDNKQSLPAITLAAIGVVYGDIGTSPLYTLRECLSGQFGFGVERDAVFGFLSLIFWLLIFVVSIKYLTFVMRADNAGEGGILTLMSLAGRNTSARTTSMLVIMGLIGGSFFYGEVVITPAISVMSAIEGLEIVAPQLDTWIVPLSIIVLTLLFMIQKHGTAMVGKLFAPIMLTWFLILAGLGLRSIIANPEVLHALNPMWAVHFFLEYKTVSFIALGAVVLSITGVEALYADMGHFGKFPIRLAWFTVVLPSLTLNYFGQGALLLKNPEAIKNPFFLLAPDWALIPLLIIAALATVIASQAVISGVFSLTRQAVRLGYLSPMRIIHTSEMESGQIYIPFVNWMLYVAVVIVIVSFEHSSNLAAAYGIAVTGTMVLTSILSTTVARQNWHWNKYFVALILIAFLCVDIPLFTANLDKLLSGGWLPLSLGTVMFIVMTTWKSERFRLLRRMHEHGNSLEAMIASLEKSPPVRVPGTAVYMSRAINVIPFALMHNLKHNKVLHERVILLTLRTEDAPYVHNVRRVQIEQLSPTFWRVVASYGWRETPNVEEVFHRCGLEGLSCRMMETSFFMSHESLILGKRPWYLRLRGKLYLLLQRNALRAPDQFEIPPNRVIELGTQVEI" "i" "Han et al., 2011" -"L-ASPARTATE-OXID-MONOMER" "MNTLPEHSCDVLIIGSGAAGLSLALRLADQHQVIVLSKGPVTEGSTFYAQGGIAAVFDETDSIDSHVEDTLIAGAGICDRHAVEFVASNARSCVQWLIDQGVLFDTHIQPNGEESYHLTREGGHSHRRILHAADATGREVETTLVSKALNHPNIRVLERSNAVDLIVSDKIGLPGTRRVVGAWVWNRNKETVETCHAKAVVLATGGASKVYQYTTNPDISSGDGIAMAWRAGCRVANLEFNQFHPTALYHPQARNFLLTEALRGEGAYLKRPDGTRFMPDFDERGELAPRDIVARAIDHEMKRLGADCMFLDISHKPADFIRQHFPMIYEKLLGLGIDLTQEPVPIVPAAHYTCGGVMVDDHGRTDVEGLYAIGEVSYTGLHGANRMASNSLLECLVYGWSAAEDITRRMPYAHDISTLPPWDESRVENPDERVVIQHNWHELRLFMWDYVGIVRTTKRLERALRRITMLQQEIDEYYAHFRVSNNLLELRNLVQVAELIVRCAMMRKESRGLHFTLDYPELLTHSGPSILSPGNHYINR" "c" "Han et al., 2011" -"L-GLN-FRUCT-6-P-AMINOTRANS-MONOMER" "MCGIVGAIAQRDVAEILLEGLRRLEYRGYDSAGLAVVDAEGHMTRLRRLGKVQMLAQAAEEHPLHGGTGIAHTRWATHGEPSEVNAHPHVSEHIVVVHNGIIENHEPLREELKARGYTFVSETDTEVIAHLVNWELKQGGTLREAVLRAIPQLRGAYGTVIMDSRHPDTLLAARSGSPLVIGLGMGENFIASDQLALLPVTRRFIFLEEGDIAEITRRSVNIFDKTGAEVKRQDIESNLQYDAGDKGIYRHYMQKEIYEQPNAIKNTLTGRISHGQVDLSELGPNADELLSKVEHIQILACGTSYNSGMVSRYWFESLAGIPCDVEIASEFRYRKSAVRRNSLMITLSQSGETADTLAGLRLSKELGYLGSLAICNVPGSSLVRESDLALMTNAGTEIGVASTKAFTTQLTVLLMLVAKLSRLKGLDASIEHDIVHGLQALPSRIEQMLSQDKRIEALAEDFSDKHHALFLGRGDQYPIALEGALKLKEISYIHAEAYAAGELKHGPLALIDADMPVIVVAPNNELLEKLKSNIEEVRARGGQLYVFADQDAGFVSSDNMHIIEMPHVEEVIAPIFYTVPLQLLAYHVALIKGTDVDQPRNLAKSVTVE" "c" "Han et al., 2011" -"L-LACTDEHYDROGFMN-MONOMER" "MIISAASDYRAAAQRILPPFLFHYMDGGAYSEYTLRRNVEDLSEVALRQRILKNMSDLSLETTLFNEKLSMPVALAPVGLCGMYARRGEVQAAKAADAHGIPFTLSTVSVCPIEEVAPAIKRPMWFQLYVLRDRGFMRNALERAKAAGCSTLVFTVDMPTPGARYRDAHSGMSGPNAAMRRYLQAVTHPQWAWDVGLNGRPHDLGNISAYLGKPTGLEDYIGWLGNNFDPSISWKDLEWIRDFWDGPMVIKGILDPEDARDAVRFGADGIVVSNHGGRQLDGVLSSARALPAIADAVKGDIAILADSGIRNGLDVVRMIALGADTVLLGRAFLYALATAGQAGVANLLNLIEKEMKVAMTLTGAKSISEITQDSLVQGLGKELPAALAPMAKGNAA" "c" "Han et al., 2011" -"LACTALDDEHYDROG-MONOMER" "MSVPVQHPMYIDGQFVTWRGDAWIDVVNPATEAVISRIPDGQAEDARKAIDAAERAQPEWEALPAIERASWLRKISAGIRERASEISALIVEEGGKIQQLAEVEVAFTADYIDYMAEWARRYEGEIIQSDRPGENILLFKRALGVTTGILPWNFPFFLIARKMAPALLTGNTIVIKPSEFTPNNAIAFAKIVDEIGLPRGVFNLVLGRGETVGQELAGNPKVAMVSMTGSVSAGEKIMATAAKNITKVCLELGGKAPAIVMDDADLELAVKAIVDSRVINSGQVCNCAERVYVQKGIYDQFVNRLGEAMQAVQFGNPAERNDIAMGPLINAAALERVEQKVARAVEEGARVAFGGKAVEGKGYYYPPTLLLDVRQEMSIMHEETFGPVLPVVAFDTLEDAISMANDSDYGLTSSIYTQNLNVAMKAIKGLKFGETYINRENFEAMQGFHAGWRKSGIGGADGKHGLHEYLQTQVVYLQS" "c" "Lopez-Campistrous et al., 2005" -"LACTALDREDUCT-MONOMER" "MANRMILNETAWFGRGAVGALTDEVKRRGYQKALIVTDKTLVQCGVVAKVTDKMDAAGLAWAIYDGVVPNPTITVVKEGLGVFQNSGADYLIAIGGGSPQDTCKAIGIISNNPEFADVRSLEGLSPTNKPSVPILAIPTTAGTAAEVTINYVITDEEKRRKFVCVDPHDIPQVAFIDADMMDGMPPALKAATGVDALTHAIEGYITRGAWALTDALHIKAIEIIAGALRGSVAGDKDAGEEMALGQYVAGMGFSNVGLGLVHGMAHPLGAFYNTPHGVANAILLPHVMRYNADFTGEKYRDIARVMGVKVEGMSLEEARNAAVEAVFALNRDVGIPPHLRDVGVRKEDIPALAQAALDDVCTGGNPREATLEDIVELYHTAW" "c" "Han et al., 2011" -"LACY-MONOMER" "MYYLKNTNFWMFGLFFFFYFFIMGAYFPFFPIWLHDINHISKSDTGIIFAAISLFSLLFQPLFGLLSDKLGLRKYLLWIITGMLVMFAPFFIFIFGPLLQYNILVGSIVGGIYLGFCFNAGAPAVEAFIEKVSRRSNFEFGRARMFGCVGWALCASIVGIMFTINNQFVFWLGSGCALILAVLLFFAKTDAPSSATVANAVGANHSAFSLKLALELFRQPKLWFLSLYVIGVSCTYDVFDQQFANFFTSFFATGEQGTRVFGYVTTMGELLNASIMFFAPLIINRIGGKNALLLAGTIMSVRIIGSSFATSALEVVILKTLHMFEVPFLLVGCFKYITSQFEVRFSATIYLVCFCFFKQLAMIFMSVLAGNMYESIGFQGAYLVLGLVALGFTLISVFTLSGPGPLSLLRRQVNEVA" "i" "Han et al., 2011" -"LARGEILVB-MONOMER" "MASSGTTSTRKRFTGAEFIVHFLEQQGIKIVTGIPGGSILPVYDALSQSTQIRHILARHEQGAGFIAQGMARTDGKPAVCMACSGPGATNLVTAIADARLDSIPLICITGQVPASMIGTDAFQEVDTYGISIPITKHNYLVRHIEELPQVMSDAFRIAQSGRPGPVWIDIPKDVQTAVFEIETQPAMAEKAAAPAFSEESIRDAAAMINAAKRPVLYLGGGVINAPARVRELAEKAQLPTTMTLMALGMLPKAHPLSLGMLGMHGVRSTNYILQEADLLIVLGARFDDRAIGKTEQFCPNAKIIHVDIDRAELGKIKQPHVAIQADVDDVLAQLIPLVEAQPRAEWHQLVADLQREFPCPIPKACDPLSHYGLINAVAACVDDNAIITTDVGQHQMWTAQAYPLNRPRQWLTSGGLGTMGFGLPAAIGAALANPDRKVLCFSGDGSLMMNIQEMATASENQLDVKIILMNNEALGLVHQQQSLFYEQGVFAATYPGKINFMQIAAGFGLETCDLNNEADPQASLQEIINRPGPALIHVRIDAEEKVYPMVPPGAANTEMVGE" "c" "Han et al., 2011" -"LARGEILVG-MONOMER" "LLLKQLSDRKPADCVVTTDVGQHQMWAAQHIAHTRPENFITSSGLGTMGFGLPAAVGAQVARPNDTVVCISGDGSFMMNVQELGTVKRKQLPLKIVLLDNQRLGMVRQWQQLFFQERYSETTLTDNPDFLMLASAFGIHGQHITRKDQVEAALDTMLNSDGPYLLHVSIDELENVWPLVPPGASNSEMLEKLS" "c" "EcoCyc dump" -"LAUROYLACYLTRAN-MONOMER" "MTNLPKFSTALLHPRYWLTWLGIGVLWLVVQLPYPVIYRLGCGLGKLALRFMKRRAKIVHRNLELCFPEMSEQERRKMVVKNFESVGMGLMETGMAWFWPDRRIARWTEVIGMEHIRDVQAQKRGILLVGIHFLTLELGARQFGMQEPGIGVYRPNDNPLIDWLQTWGRLRSNKSMLDRKDLKGMIKALKKGEVVWYAPDHDYGPRSSVFVPLFAVEQAATTTGTWMLARMSGACLVPFVPRRKPDGKGYQLIMLPPECSPPLDDAETTAAWMNKVVEKCIMMAPEQYMWLHRRFKTRPEGVPSRY" "i" "Han et al., 2011" -"LCTP-MONOMER" "MNLWQQNYDPAGNIWLSSLIASLPILFFFFALIKLKLKGYVAASWTVAIALAVALLFYKMPVANALASVVYGFFYGLWPIAWIIIAAVFVYKISVKTGQFDIIRSSILSITPDQRLQMLIVGFCFGAFLEGAAGFGAPVAITAALLVGLGFKPLYAAGLCLIVNTAPVAFGAMGIPILVAGQVTGIDSFEIGQMVGRQLPFMTIIVLFWIMAIMDGWRGIKETWPAVVVAGGSFAIAQYLSSNFIGPELPDIISSLVSLLCLTLFLKRWQPVRVFRFGDLGASQVDMTLAHTGYTAGQVLRAWTPFLFLTATVTLWSIPPFKALFASGGALYEWVINIPVPYLDKLVARMPPVVSEATAYAAVFKFDWFSATGTAILFAALLSIVWLKMKPSDAISTFGSTLKELALPIYSIGMVLAFAFISNYSGLSSTLALALAHTGHAFTFFSPFLGWLGVFLTGSDTSSNALFAALQATAAQQIGVSDLLLVAANTTGGVTGKMISPQSIAIACAAVGLVGKESDLFRFTVKHSLIFTCIVGVITTLQAYVLTWMIP" "i" "Han et al., 2011" -"LDC2-MONOMER" "MNIIAIMGPHGVFYKDEPIKELESALVAQGFQIIWPQNSVDLLKFIEHNPRICGVIFDWDEYSLDLCSDINQLNEYLPLYAFINTHSTMDVSVQDMRMALWFFEYALGQAEDIAIRMRQYTDEYLDNITPPFTKALFTYVKERKYTFCTPGHMGGTAYQKSPVGCLFYDFFGGNTLKADVSISVTELGSLLDHTGPHLEAEEYIARTFGAEQSYIVTNGTSTSNKIVGMYAAPSGSTLLIDRNCHKSLAHLLMMNDVVPVWLKPTRNALGILGGIPRREFTRDSIEEKVAATTQAQWPVHAVITNSTYDGLLYNTDWIKQTLDVPSIHFDSAWVPYTHFHPIYQGKSGMSGERVAGKVIFETQSTHKMLAALSQASLIHIKGEYDEEAFNEAFMMHTTTSPSYPIVASVETAAAMLRGNPGKRLINRSVERALHFRKEVQRLREESDGWFFDIWQPPQVDEAECWPVAPGEQWHGFNDADADHMFLDPVKVTILTPGMDEQGNMSEEGIPAALVAKFLDERGIVVEKTGPYNLLFLFSIGIDKTKAMGLLRGLTEFKRSYDLNLRIKNMLPDLYAEDPDFYRNMRIQDLAQGIHKLIRKHDLPGLMLRAFDTLPEMIMTPHQAWQRQIKGEVETIALEQLVGRVSANMILPYPPGVPLLMPGEMLTKESRTVLDFLLMLCSVGQHYPGFETDIHGAKQDEDGVYRVRVLKMAG" "c" "Han et al., 2011" -"LEUC-MONOMER" "MAKTLYEKLFDAHVVYEAENETPLLYIDRHLVHEVTSPQAFDGLRAHGRPVRQPGKTFATMDHNVSTQTKDINACGEMARIQMQELIKNCKEFGVELYDLNHPYQGIVHVMGPEQGVTLPGMTIVCGDSHTATHGAFGALAFGIGTSEVEHVLATQTLKQGRAKTMKIEVQGKAAPGITAKDIVLAIIGKTGSAGGTGHVVEFCGEAIRDLSMEGRMTLCNMAIEMGAKAGLVAPDETTFNYVKGRLHAPKGKDFDDAVAYWKTLQTDEGATFDTVVTLQAEEISPQVTWGTNPGQVISVNDNIPDPASFADPVERASAEKALAYMGLKPGIPLTEVAIDKVFIGSCTNSRIEDLRAAAEIAKGRKVAPGVQALVVPGSGPVKAQAEAEGLDKIFIEAGFEWRLPGCSMCLAMNNDRLNPGERCASTSNRNFEGRQGRGGRTHLVSPAMAAAAAVTGHFADIRNIK" "c" "Lopez-Campistrous et al., 2005" -"LEUD-MONOMER" "MAEKFIKHTGLVVPLDAANVDTDAIIPKQFLQKVTRTGFGAHLFNDWRFLDEKGQQPNPDFVLNFPQYQGASILLARENFGCGSSREHAPWALTDYGFKVVIAPSFADIFYGNSFNNQLLPVKLSDAEVDELFALVKANPGIHFDVDLEAQEVKAGEKTYRFTIDAFRRHCMMNGLDSIGLTLQHDDAIAAYEAKQPAFMN" "c" "Lopez-Campistrous et al., 2005" -"LEUS-MONOMER" "MQEQYRPEEIESKVQLHWDEKRTFEVTEDESKEKYYCLSMLPYPSGRLHMGHVRNYTIGDVIARYQRMLGKNVLQPIGWDAFGLPAEGAAVKNNTAPAPWTYDNIAYMKNQLKMLGFGYDWSRELATCTPEYYRWEQKFFTELYKKGLVYKKTSAVNWCPNDQTVLANEQVIDGCCWRCDTKVERKEIPQWFIKITAYADELLNDLDKLDHWPDTVKTMQRNWIGRSEGVEITFNVNDYDNTLTVYTTRPDTFMGCTYLAVAAGHPLAQKAAENNPELAAFIDECRNTKVAEAEMATMEKKGVDTGFKAVHPLTGEEIPVWAANFVLMEYGTGAVMAVPGHDQRDYEFASKYGLNIKPVILAADGSEPDLSQQALTEKGVLFNSGEFNGLDHEAAFNAIADKLTAMGVGERKVNYRLRDWGVSRQRYWGAPIPMVTLEDGTVMPTPDDQLPVILPEDVVMDGITSPIKADPEWAKTTVNGMPALRETDTFDTFMESSWYYARYTCPQYKEGMLDSEAANYWLPVDIYIGGIEHAIMHLLYFRFFHKLMRDAGMVNSDEPAKQLLCQGMVLADAFYYVGENGERNWVSPVDAIVERDEKGRIVKAKDAAGHELVYTGMSKMSKSKNNGIDPQVMVERYGADTVRLFMMFASPADMTLEWQESGVEGANRFLKRVWKLVYEHTAKGDVAALNVDALTENQKALRRDVHKTIAKVTDDIGRRQTFNTAIAAIMELMNKLAKAPTDGEQDRALMQEALLAVVRMLNPFTPHICFTLWQELKGEGDIDNAPWPVADEKAMVEDSTLVVVQVNGKVRAKITVPVDATEEQVRERAGQEHLVAKYLDGVTVRKVIYVPGKLLNLVVG" "c" "Han et al., 2011" -"LIPIDADISACCHARIDESYNTH-MONOMER" "MTEQRPLTIALVAGETSGDILGAGLIRALKEHVPNARFVGVAGPRMQAEGCEAWYEMEELAVMGIVEVLGRLRRLLHIRADLTKRFGELKPDVFVGIDAPDFNITLEGNLKKQGIKTIHYVSPSVWAWRQKRVFKIGRATDLVLAFLPFEKAFYDKYNVPCRFIGHTMADAMPLDPDKNAARDVLGIPHDAHCLALLPGSRGAEVEMLSADFLKTAQLLRQTYPDLEIVVPLVNAKRREQFERIKAEVAPDLSVHLLDGMGREAMVASDAALLASGTAALECMLAKCPMVVGYRMKPFTFWLAKRLVKTDYVSLPNLLAGRELVKELLQEECEPQKLAAALLPLLANGKTSHAMHDTFRELHQQIRCNADEQAAQAVLELAQ" "i" "EcoCyc dump" -"LIVF-MONOMER" "MEKVMLSFDKVSAHYGKIQALHEVSLHINQGEIVTLIGANGAGKTTLLGTLCGDPRATSGRIVFDDKDITDWQTAKIMREAVAIVPEGRRVFSRMTVEENLAMGGFFAERDQFQERIKWVYELFPRLHERRIQRAGTMSGGEQQMLAIGRALMSNPRLLLLDEPSLGLAPIIIQQIFDTIEQLREQGMTIFLVEQNANQALKLADRGYVLENGHVVLSDTGDALLANEAVRSAYLGG" "i" "EcoCyc dump" -"LIVG-MONOMER" "MSQPLLSVNGLMMRFGGLLAVNNVNLELYPQEIVSLIGPNGAGKTTVFNCLTGFYKPTGGTILLRDQHLEGLPGQQIARMGVVRTFQHVRLFREMTVIENLLVAQHQQLKTGLFSGLLKTPSFRRAQSEALDRAATWLERIGLLEHANRQASNLAYGDQRRLEIARCMVTQPEILMLDEPAAGLNPKETKELDELIAELRNHHNTTILLIEHDMKLVMGISDRIYVVNQGTPLANGTPEQIRNNPDVIRAYLGEA" "i" "EcoCyc dump" -"LIVH-MONOMER" "MSEQFLYFLQQMFNGVTLGSTYALIAIGYTMVYGIIGMINFAHGEVYMIGSYVSFMIIAALMMMGIDTGWLLVAAGFVGAIVIASAYGWSIERVAYRPVRNSKRLIALISAIGMSIFLQNYVSLTEGSRDVALPSLFNGQWVVGHSENFSASITTMQAVIWIVTFLAMLALTIFIRYSRMGRACRACAEDLKMASLLGINTDRVIALTFVIGAAMAAVAGVLLGQFYGVINPYIGFMAGMKAFTAAVLGGIGSIPGAMIGGLILGIAEALSSAYLSTEYKDVVSFALLILVLLVMPTGILGRPEVEKV" "i" "Han et al., 2011" -"LIVJ-MONOMER" "MNIKGKALLAGCIALAFSNMALAEDIKVAVVGAMSGPVAQYGDQEFTGAEQAVADINAKGGIKGNKLQIVKYDDACDPKQAVAVANKVVNDGIKYVIGHLCSSSTQPASDIYEDEGILMITPAATAPELTARGYQLILRTTGLDSDQGPTAAKYILEKVKPQRIAIVHDKQQYGEGLARAVQDGLKKGNANVVFFDGITAGEKDFSTLVARLKKENIDFVYYGGYHPEMGQILRQARAAGLKTQFMGPEGVANVSLSNIAGESAEGLLVTKPKNYDQVPANKPIVDAIKAKKQDPSGAFVWTTYAALQSLQAGLNQSDDPAEIAKYLKANSVDTVMGPLTWDEKGDLKGFEFGVFDWHANGTATDAK" "p" "Lopez-Campistrous et al., 2005" -"LIVK-MONOMER" "MKRNAKTIIAGMIALAISHTAMADDIKVAVVGAMSGPIAQWGDMEFNGARQAIKDINAKGGIKGDKLVGVEYDDACDPKQAVAVANKIVNDGIKYVIGHLCSSSTQPASDIYEDEGILMISPGATNPELTQRGYQHIMRTAGLDSSQGPTAAKYILETVKPQRIAIIHDKQQYGEGLARSVQDGLKAANANVVFFDGITAGEKDFSALIARLKKENIDFVYYGGYYPEMGQMLRQARSVGLKTQFMGPEGVGNASLSNIAGDAAEGMLVTMPKRYDQDPANQGIVDALKADKKDPSGPYVWITYAAVQSLATALERTGSDEPLALVKDLKANGANTVIGPLNWDEKGDLKGFDFGVFQWHADGSSTAAK" "p" "Lopez-Campistrous et al., 2005" -"LIVM-MONOMER" "MKPMHIAMALLSAAMFFVLAGVFMGVQLELDGTKLVVDTASDVRWQWVFIGTAVVFFFQLLRPAFQKGLKSVSGPKFILPAIDGSTVKQKLFLVALLVLAVAWPFMVSRGTVDIATLTMIYIILGLGLNVVVGLSGLLVLGYGGFYAIGAYTFALLNHYYGLGFWTCLPIAGLMAAAAGFLLGFPVLRLRGDYLAIVTLGFGEIVRILLLNNTEITGGPNGISQIPKPTLFGLEFSRTAREGGWDTFSNFFGLKYDPSDRVIFLYLVALLLVVLSLFVINRLLRMPLGRAWEALREDEIACRSLGLSPRRIKLTAFTISAAFAGFAGTLFAARQGFVSPESFTFAESAFVLAIVVLGGMGSQFAVILAAILLVVSRELMRDFNEYSMLMLGGLMVLMMIWRPQGLLPMTRPQLKLKNGAAKGEQA" "i" "Han et al., 2011" -"LSERINEDEAM1-MONOMER" "VISLFDMFKVGIGPSSSHTVGPMKAGKQFVDDLVEKGLLDSVTRVAVDVYGSLSLTGKGHHTDIAIIMGLAGNEPATVDIDSIPGFIRDVEERERLLLAQGRHEVDFPRDNGMRFHNGNLPLHENGMQIHAYNGDEVVYSKTYYSIGGGFIVDEEHFGQDAANEVSVPYPFKSATELLAYCNETGYSLSGLAMQNELALHSKKEIDEYFAHVWQTMQACIDRGMNTEGVLPGPLRVPRRASALRRMLVSSDKLSNDPMNVIDWVNMFALAVNEENAAGGRVVTAPTNGACGIVPAVLAYYDHFIESVSPDIYTRYFMAAGAIGALYKMNASISGAEVGCQGEVGVACSMAAAGLAELLGGSPEQVCVAAEIGMEHNLGLTCDPVAGQVQVPCIERNAIASVKAINAARMALRRTSAPRVSLDKVIETMYETGKDMNAKYRETSRGGLAIKVQCD" "c" "Han et al., 2011" -"LSERINEDEAM2-MONOMER" "MISVFDIFKIGIGPSSSHTVGPMKAGKQFTDDLIARNLLKDVTRVVVDVYGSLSLTGKGHHTDIAIIMGLAGNLPDTVDIDSIPSFIQDVNTHGRLMLANGQHEVEFPVDQCMNFHADNLSLHENGMRITALAGDKVVYSQTYYSIGGGFIVDEEHFGQQDSAPVEVPYPYSSAADLQKHCQETGLSLSGLMMKNELALHSKEELEQHLANVWEVMRGGIERGISTEGVLPGKLRVPRRAAALRRMLVSQDKTTTDPMAVVDWINMFALAVNEENAAGGRVVTAPTNGACGIIPAVLAYYDKFIREVNANSLARYLLVASAIGSLYKMNASISGAEVGCQGEVGVACSMAAAGLAELLGASPAQVCIAAEIAMEHNLGLTCDPVAGQVQVPCIERNAIAAVKAVNAARMALRRTSEPRVCLDKVIETMYETGKDMNAKYRETSRGGLAMKIVACD" "c" "Han et al., 2011" -"LSERINEDEAM3-MONOMER" "MISAFDIFKIGIGPSSSHTVGPMNAGKSFIDRLESSGLLTATSHIVVDLYGSLSLTGKGHATDVAIIMGLAGNSPQDVVIDEIPAFIELVTRSGRLPVASGAHIVDFPVAKNIIFHPEMLPRHENGMRITAWKGQEELLSKTYYSVGGGFIVEEEHFGLSHDVETSVPYDFHSAGELLKMCDYNGLSISGLMMHNELALRSKAEIDAGFARIWQVMHDGIERGMNTEGVLPGPLNVPRRAVALRRQLVSSDNISNDPMNVIDWINMYALAVSEENAAGGRVVTAPTNGACGIIPAVLAYYDKFRRPVNERSIARYFLAAGAIGALYKMNASISGAEVGCQGEIGVACSMAAAGLTELLGGSPAQVCNAAEIAMEHNLGLTCDPVAGQVQIPCIERNAINAVKAVNAARMAMRRTSAPRVSLDKVIETMYETGKDMNDKYRETSRGGLAIKVVCG" "c" "EcoCyc dump" -"LTAA-MONOMER" "MIDLRSDTVTRPSRAMLEAMMAAPVGDDVYGDDPTVNALQDYAAELSGKEAAIFLPTGTQANLVALLSHCERGEEYIVGQAAHNYLFEAGGAAVLGSIQPQPIDAAADGTLPLDKVAMKIKPDDIHFARTKLLSLENTHNGKVLPREYLKEAWEFTRERNLALHVDGARIFNAVVAYGCELKEITQYCDSFTICLSKGLGTPVGSLLVGNRDYIKRAIRWRKMTGGGMRQSGILAAAGIYALKNNVARLQEDHDNAAWMAEQLREAGADVMRQDTNMLFVRVGEENAAALGEYMKARNVLINASPIVRLVTHLDVSREQLAEVAAHWRAFLAR" "c" "Han et al., 2011" -"LUMAZINESYN-MONOMER" "MNIIEANVATPDARVAITIARFNNFINDSLLEGAIDALKRIGQVKDENITVVWVPGAYELPLAAGALAKTGKYDAVIALGTVIRGGTAHFEYVAGGASNGLAHVAQDSEIPVAFGVLTTESIEQAIERAGTKAGNKGAEAALTALEMINVLKAIKA" "c" "Lopez-Campistrous et al., 2005" -"LYSDECARBOX-MONOMER" "MNVIAILNHMGVYFKEEPIRELHRALERLNFQIVYPNDRDDLLKLIENNARLCGVIFDWDKYNLELCEEISKMNENLPLYAFANTYSTLDVSLNDLRLQISFFEYALGAAEDIANKIKQTTDEYINTILPPLTKALFKYVREGKYTFCTPGHMGGTAFQKSPVGSLFYDFFGPNTMKSDISISVSELGSLLDHSGPHKEAEQYIARVFNADRSYMVTNGTSTANKIVGMYSAPAGSTILIDRNCHKSLTHLMMMSDVTPIYFRPTRNAYGILGGIPQSEFQHATIAKRVKETPNATWPVHAVITNSTYDGLLYNTDFIKKTLDVKSIHFDSAWVPYTNFSPIYEGKCGMSGGRVEGKVIYETQSTHKLLAAFSQASMIHVKGDVNEETFNEAYMMHTTTSPHYGIVASTETAAAMMKGNAGKRLINGSIERAIKFRKEIKRLRTESDGWFFDVWQPDHIDTTECWPLRSDSTWHGFKNIDNEHMYLDPIKVTLLTPGMEKDGTMSDFGIPASIVAKYLDEHGIVVEKTGPYNLLFLFSIGIDKTKALSLLRALTDFKRAFDLNLRVKNMLPSLYREDPEFYENMRIQELAQNIHKLIVHHNLPDLMYRAFEVLPTMVMTPYAAFQKELHGMTEEVYLDEMVGRINANMILPYPPGVPLVMPGEMITEESRPVLEFLQMLCEIGAHYPGFETDIHGAYRQADGRYTVKVLKEESKK" "c" "Han et al., 2011" -"LYSP-MONOMER" "MVSETKTTEAPGLRRELKARHLTMIAIGGSIGTGLFVASGATISQAGPGGALLSYMLIGLMVYFLMTSLGELAAYMPVSGSFATYGQNYVEEGFGFALGWNYWYNWAVTIAVDLVAAQLVMSWWFPDTPGWIWSALFLGVIFLLNYISVRGFGEAEYWFSLIKVTTVIVFIIVGVLMIIGIFKGAQPAGWSNWTIGEAPFAGGFAAMIGVAMIVGFSFQGTELIGIAAGESEDPAKNIPRAVRQVFWRILLFYVFAILIISLIIPYTDPSLLRNDVKDISVSPFTLVFQHAGLLSAAAVMNAVILTAVLSAGNSGMYASTRMLYTLACDGKAPRIFAKLSRGGVPRNALYATTVIAGLCFLTSMFGNQTVYLWLLNTSGMTGFIAWLGIAISHYRFRRGYVLQGHDINDLPYRSGFFPLGPIFAFILCLIITLGQNYEAFLKDTIDWGGVAATYIGIPLFLIIWFGYKLIKGTHFVRYSEMKFPQNDKK" "i" "Han et al., 2011" -"LYSS-MONOMER" "MSEQHAQGADAVVDLNNELKTRREKLANLREQGIAFPNDFRRDHTSDQLHAEFDGKENEELEALNIEVAVAGRMMTRRIMGKASFVTLQDVGGRIQLYVARDDLPEGVYNEQFKKWDLGDILGAKGKLFKTKTGELSIHCTELRLLTKALRPLPDKFHGLQDQEARYRQRYLDLISNDESRNTFKVRSQILSGIRQFMVNRGFMEVETPMMQVIPGGAAARPFITHHNALDLDMYLRIAPELYLKRLVVGGFERVFEINRNFRNEGISVRHNPEFTMMELYMAYADYKDLIELTESLFRTLAQDILGKTEVTYGDVTLDFGKPFEKLTMREAIKKYRPETDMADLDNFDSAKAIAESIGIHVEKSWGLGRIVTEIFEEVAEAHLIQPTFITEYPAEVSPLARRNDVNPEITDRFEFFIGGREIGNGFSELNDAEDQAQRFLDQVAAKDAGDDEAMFYDEDYVTALEHGLPPTAGLGIGIDRMVMLFTNSHTIRDVILFPAMRPVK" "c" "Han et al., 2011" -"LYSU-MONOMER" "MSEQETRGANEAIDFNDELRNRREKLAALRQQGVAFPNDFRRDHTSDQLHEEFDAKDNQELESLNIEVSVAGRMMTRRIMGKASFVTLQDVGGRIQLYVARDSLPEGVYNDQFKKWDLGDIIGARGTLFKTQTGELSIHCTELRLLTKALRPLPDKFHGLQDQEVRYRQRYLDLIANDKSRQTFVVRSKILAAIRQFMVARGFMEVETPMMQVIPGGASARPFITHHNALDLDMYLRIAPELYLKRLVVGGFERVFEINRNFRNEGISVRHNPEFTMMELYMAYADYHDLIELTESLFRTLAQEVLGTTKVTYGEHVFDFGKPFEKLTMREAIKKYRPETDMADLDNFDAAKALAESIGITVEKSWGLGRIVTEIFDEVAEAHLIQPTFITEYPAEVSPLARRNDVNPEITDRFEFFIGGREIGNGFSELNDAEDQAERFQEQVNAKAAGDDEAMFYDEDYVTALEYGLPPTAGLGIGIDRMIMLFTNSHTIRDVILFPAMRPQK" "c" "Han et al., 2011" -"LYXK-MONOMER" "MTQYWLGLDCGGSWLKAGLYDREGREAGVQRLPLCALSPQPGWAERDMAELWQCCMAVIRALLTHSGVSGEQIVGIGISAQGKGLFLLDKNDKPLGNAILSSDRRAMEIVRRWQEDGIPEKLYPLTRQTLWTGHPVSLLRWLKEHEPERYAQIGCVMMTHDYLRWCLTGVKGCEESNISESNLYNMSLGEYDPCLTDWLGIAEINHALPPVVGSAEICGEITAQTAALTGLKAGTPVVGGLFDVVSTALCAGIEDEFTLNAVMGTWAVTSGITRGLRDGEAHPYVYGRYVNDGEFIVHEASPTSSGNLEWFTAQWGEISFDEINQAVASLPKAGGDLFFLPFLYGSNAGLEMTSGFYGMQAIHTRAHLLQAIYEGVVFSHMTHLNRMRERFTDVHTLRVTGGPAHSDVWMQMLADVSGLRIELPQVEETGCFGAALAARVGTGVYHNFSEAQRDLRHPVRTLLPDMTAHQLYQKKYQRYQHLIAALQGFHARIKEHTL" "c" "Han et al., 2011" -"MACA" "MKKRKTVKKRYVIALVIVIAGLITLWRILNAPVPTYQTLIVRPGDLQQSVLATGKLDALRKVDVGAQVSGQLKTLSVAIGDKVKKDQLLGVIDPEQAENQIKEVEATLMELRAQRQQAEAELKLARVTYSRQQRLAQTKAVSQQDLDTAATEMAVKQAQIGTIDAQIKRNQASLDTAKTNLDYTRIVAPMAGEVTQITTLQGQTVIAAQQAPNILTLADMSAMLVKAQVSEADVIHLKPGQKAWFTVLGDPLTRYEGQIKDVLPTPEKVNDAIFYYARFEVPNPNGLLRLDMTAQVHIQLTDVKNVLTIPLSALGDPVGDNRYKVKLLRNGETREREVTIGARNDTDVEIVKGLEAGDEVVIGEAKPGAAQ" "i" "Han et al., 2011" -"MACB" "MTPLLELKDIRRSYPAGDEQVEVLKGISLDIYAGEMVAIVGASGSGKSTLMNILGCLDKATSGTYRVAGQDVATLDADALAQLRREHFGFIFQRYHLLSHLTAEQNVEVPAVYAGLERKQRLLRAQELLQRLGLEDRTEYYPAQLSGGQQQRVSIARALMNGGQVILADEPTGALDSHSGEEVMAILHQLRDRGHTVIIVTHDPQVAAQAERVIEIRDGEIVRNPPAIEKVNVTGGTEPVVNTVSGWRQFVSGFNEALTMAWRALAANKMRTLLTMLGIIIGIASVVSIVVVGDAAKQMVLADIRSIGTNTIDVYPGKDFGDDDPQYQQALKYDDLIAIQKQPWVASATPAVSQNLRLRYNNVDVAASANGVSGDYFNVYGMTFSEGNTFNQEQLNGRAQVVVLDSNTRRQLFPHKADVVGEVILVGNMPARVIGVAEEKQSMFGSSKVLRVWLPYSTMSGRVMGQSWLNSITVRVKEGFDSAEAEQQLTRLLSLRHGKKDFFTWNMDGVLKTVEKTTRTLQLFLTLVAVISLVVGGIGVMNIMLVSVTERTREIGIRMAVGARASDVLQQFLIEAVLVCLVGGALGITLSLLIAFTLQLFLPGWEIGFSPLALLLAFLCSTVTGILFGWLPARNAARLDPVDALARE" "i" "Han et al., 2011" -"MALATE-DEHASE-MONOMER" "MKVAVLGAAGGIGQALALLLKTQLPSGSELSLYDIAPVTPGVAVDLSHIPTAVKIKGFSGEDATPALEGADVVLISAGVARKPGMDRSDLFNVNAGIVKNLVQQVAKTCPKACIGIITNPVNTTVAIAAEVLKKAGVYDKNKLFGVTTLDIIRSNTFVAELKGKQPGEVEVPVIGGHSGVTILPLLSQVPGVSFTEQEVADLTKRIQNAGTEVVEAKAGGGSATLSMGQAAARFGLSLVRALQGEQGVVECAYVEGDGQYARFFSQPLLLGKNGVEERKSIGTLSAFEQNALEGMLDTLKKDIALGEEFVNK" "c" "Han et al., 2011" -"MALATE-SYNTHASE" "MTEQATTTDELAFTRPYGEQEKQILTAEAVEFLTELVTHFTPQRNKLLAARIQQQQDIDNGTLPDFISETASIRDADWKIRGIPADLEDRRVEITGPVERKMVINALNANVKVFMADFEDSLAPDWNKVIDGQINLRDAVNGTISYTNEAGKIYQLKPNPAVLICRVRGLHLPEKHVTWRGEAIPGSLFDFALYFFHNYQALLAKGSGPYFYLPKTQSWQEAAWWSEVFSYAEDRFNLPRGTIKATLLIETLPAVFQMDEILHALRDHIVGLNCGRWDYIFSYIKTLKNYPDRVLPDRQAVTMDKPFLNAYSRLLIKTCHKRGAFAMGGMAAFIPSKDEEHNNQVLNKVKADKSLEANNGHDGTWIAHPGLADTAMAVFNDILGSRKNQLEVMREQDAPITADQLLAPCDGERTEEGMRANIRVAVQYIEAWISGNGCVPIYGLMEDAATAEISRTSIWQWIHHQKTLSNGKPVTKALFRQMLGEEMKVIASELGEERFSQGRFDDAARLMEQITTSDELIDFLTLPGYRLLA" "c" "Han et al., 2011" -"MALDEXPHOSPHORYL-MONOMER" "MSQPIFNDKQFQEALSRQWQRYGLNSAAEMTPRQWWLAVSEALAEMLRAQPFAKPVANQRHVNYISMEFLIGRLTGNNLLNLGWYQDVQDSLKAYDINLTDLLEEEIDPALGNGGLGRLAACFLDSMATVGQSATGYGLNYQYGLFRQSFVDGKQVEAPDDWHRSNYPWFRHNEALDVQVGIGGKVTKDGRWEPEFTITGQAWDLPVVGYRNGVAQPLRLWQATHAHPFDLTKFNDGDFLRAEQQGINAEKLTKVLYPNDNHTAGKKLRLMQQYFQCACSVADILRRHHLAGRKLHELADYEVIQLNDTHPTIAIPELLRVLIDEHQMSWDDAWAITSKTFAYTNHTLMPEALERWDVKLVKGLLPRHMQIINEINTRFKTLVEKTWPGDEKVWAKLAVVHDKQVHMANLCVVGGFAVNGVAALHSDLVVKDLFPEYHQLWPNKFHNVTNGITPRRWIKQCNPALAALLDKSLQKEWANDLDQLINLEKFADDAKFRQQYREIKQANKVRLAEFVKVRTGIEINPQAIFDIQIKRLHEYKRQHLNLLHILALYKEIRENPQADRVPRVFLFGAKAAPGYYLAKNIIFAINKVADVINNDPLVGDKLKVVFLPDYCVSAAEKLIPAADISEQISTAGKEASGTGNMKLALNGALTVGTLDGANVEIAEKVGEENIFIFGHTVEQVKAILAKGYDPVKWRKKDKVLDAVLKELESGKYSDGDKHAFDQMLHSIGKQGGDPYLVMADFAAYVEAQKQVDVLYRDQEAWTRAAILNTARCGMFSSDRSIRDYQARIWQAKR" "c" "Han et al., 2011" -"MALE-MONOMER" "MKIKTGARILALSALTTMMFSASALAKIEEGKLVIWINGDKGYNGLAEVGKKFEKDTGIKVTVEHPDKLEEKFPQVAATGDGPDIIFWAHDRFGGYAQSGLLAEITPDKAFQDKLYPFTWDAVRYNGKLIAYPIAVEALSLIYNKDLLPNPPKTWEEIPALDKELKAKGKSALMFNLQEPYFTWPLIAADGGYAFKYENGKYDIKDVGVDNAGAKAGLTFLVDLIKNKHMNADTDYSIAEAAFNKGETAMTINGPWAWSNIDTSKVNYGVTVLPTFKGQPSKPFVGVLSAGINAASPNKELAKEFLENYLLTDEGLEAVNKDKPLGAVALKSYEEELAKDPRIAATMENAQKGEIMPNIPQMSAFWYAVRTAVINAASGRQTVDEALKDAQTRITK" "i" "EcoCyc dump" -"MALF-MONOMER" "MDVIKKKHWWQSDALKWSVLGLLGLLVGYLVVLMYAQGEYLFAITTLILSSAGLYIFANRKAYAWRYVYPGMAGMGLFVLFPLVCTIAIAFTNYSSTNQLTFERAQEVLLDRSWQAGKTYNFGLYPAGDEWQLALSDGETGKNYLSDAFKFGGEQKLQLKETTAQPEGERANLRVITQNRQALSDITAILPDGNKVMMSSLRQFSGTQPLYTLDGDGTLTNNQSGVKYRPNNQIGFYQSITADGNWGDEKLSPGYTVTTGWKNFTRVFTDEGIQKPFLAIFVWTVVFSLITVFLTVAVGMVLACLVQWEALRGKAVYRVLLILPYAVPSFISILIFKGLFNQSFGEINMMLSALFGVKPAWFSDPTTARTMLIIVNTWLGYPYMMILCMGLLKAIPDDLYEASAMDGAGPFQNFFKITLPLLIKPLTPLMIASFAFNFNNFVLIQLLTNGGPDRLGTTTPAGYTDLLVNYTYRIAFEGGGGQDFGLAAAIATLIFLLVGALAIVNLKATRMKFD" "i" "Han et al., 2011" -"MALG-MONOMER" "MAMVQPKSQKARLFITHLLLLLFIAAIMFPLLMVVAISLRQGNFATGSLIPEQISWDHWKLALGFSVEQADGRITPPPFPVLLWLWNSVKVAGISAIGIVALSTTCAYAFARMRFPGKATLLKGMLIFQMFPAVLSLVALYALFDRLGEYIPFIGLNTHGGVIFAYLGGIALHVWTIKGYFETIDSSLEEAAALDGATPWQAFRLVLLPLSVPILAVVFILSFIAAITEVPVASLLLRDVNSYTLAVGMQQYLNPQNYLWGDFAAAAVMSALPITIVFLLAQRWLVNGLTAGGVKG" "i" "Han et al., 2011" -"MALIC-NAD-MONOMER" "MEPKTKKQRSLYIPYAGPVLLEFPLLNKGSAFSMEERRNFNLLGLLPEVVETIEEQAERAWIQYQGFKTEIDKHIYLRNIQDTNETLFYRLVNNHLDEMMPVIYTPTVGAACERFSEIYRRSRGVFISYQNRHNMDDILQNVPNHNIKVIVVTDGERILGLGDQGIGGMGIPIGKLSLYTACGGISPAYTLPVVLDVGTNNQQLLNDPLYMGWRNPRITDDEYYEFVDEFIQAVKQRWPDVLLQFEDFAQKNAMPLLNRYRNEICSFNDDIQGTAAVTVGTLIAASRAAGGQLSEKKIVFLGAGSAGCGIAEMIISQTQREGLSEEAARQKVFMVDRFGLLTDKMPNLLPFQTKLVQKRENLSDWDTDSDVLSLLDVVRNVKPDILIGVSGQTGLFTEEIIREMHKHCPRPIVMPLSNPTSRVEATPQDIIAWTEGNALVATGSPFNPVVWKDKIYPIAQCNNAFIFPGIGLGVIASGASRITDEMLMSASETLAQYSPLVLNGEGMVLPELKDIQKVSRAIAFAVGKMAQQQGVAVKTSAEALQQAIDDNFWQAEYRDYRRTSI" "c" "Han et al., 2011" -"MALIC-NADP-MONOMER" "MDDQLKQSALDFHEFPVPGKIQVSPTKPLATQRDLALAYSPGVAAPCLEIEKDPLKAYKYTARGNLVAVISNGTAVLGLGNIGALAGKPVMEGKGVLFKKFAGIDVFDIEVDELDPDKFIEVVAALEPTFGGINLEDIKAPECFYIEQKLRERMNIPVFHDDQHGTAIISTAAILNGLRVVEKNISDVRMVVSGAGAAAIACMNLLVALGLQKHNIVVCDSKGVIYQGREPNMAETKAAYAVVDDGKRTLDDVIEGADIFLGCSGPKVLTQEMVKKMARAPMILALANPEPEILPPLAKEVRPDAIICTGRSDYPNQVNNVLCFPFIFRGALDVGATAINEEMKLAAVRAIAELAHAEQSEVVASAYGDQDLSFGPEYIIPKPFDPRLIVKIAPAVAKAAMESGVATRPIADFDVYIDKLTEFVYKTNLFMKPIFSQARKAPKRVVLPEGEEARVLHATQELVTLGLAKPILIGRPNVIEMRIQKLGLQIKAGVDFEIVNNESDPRFKEYWTEYFQIMKRRGVTQEQAQRALISNPTVIGAIMVQRGEADAMICGTVGDYHEHFSVVKNVFGYRDGVHTAGAMNALLLPSGNTFIADTYVNDEPDAEELAEITLMAAETVRRFGIEPRVALLSHSNFGSSDCPSSSKMRQALELVRERAPELMIDGEMHGDAALVEAIRNDRMPDSSLKGSANILVMPNMEAARISYNLLRVSSSEGVTVGPVLMGVAKPVHVLTPIASVRRIVNMVALAVVEAQTQPL" "c" "Han et al., 2011" -"MALK-MONOMER" "MASVQLQNVTKAWGEVVVSKDINLDIHEGEFVVFVGPSGCGKSTLLRMIAGLETITSGDLFIGEKRMNDTPPAERGVGMVFQSYALYPHLSVAENMSFGLKLAGAKKEVINQRVNQVAEVLQLAHLLDRKPKALSGGQRQRVAIGRTLVAEPSVFLLDEPLSNLDAALRVQMRIEISRLHKRLGRTMIYVTHDQVEAMTLADKIVVLDAGRVAQVGKPLELYHYPADRFVAGFIGSPKMNFLPVKVTATAIDQVQVELPMPNRQQVWLPVESRDVQVGANMSLGIRPEHLLPSDIADVILEGEVQVVEQLGNETQIHIQIPSIRQNLVYRQNDVVLVEEGATFAIGLPPERCHLFREDGTACRRLHKEPGV" "i" "Han et al., 2011" -"MALONYL-COA-ACP-TRANSACYL-MONOMER" "MTQFAFVFPGQGSQTVGMLADMAASYPIVEETFAEASAALGYDLWALTQQGPAEELNKTWQTQPALLTASVALYRVWQQQGGKAPAMMAGHSLGEYSALVCAGVIDFADAVRLVEMRGKFMQEAVPEGTGAMAAIIGLDDASIAKACEEAAEGQVVSPVNFNSPGQVVIAGHKEAVERAGAACKAAGAKRALPLPVSVPSHCALMKPAADKLAVELAKITFNAPTVPVVNNVDVKCETNGDAIRDALVRQLYNPVQWTKSVEYMAAQGVEHLYEVGPGKVLTGLTKRIVDTLTASALNEPSAMAAALEL" "c" "Lopez-Campistrous et al., 2005" -"MALSYNG-MONOMER" "MSQTITQSRLRIDANFKRFVDEEVLPGTGLDAAAFWRNFDEIVHDLAPENRQLLAERDRIQAALDEWHRSNPGPVKDKAAYKSFLRELGYLVPQPERVTVETTGIDSEITSQAGPQLVVPAMNARYALNAANARWGSLYDALYGSDIIPQEGAMVSGYDPQRGEQVIAWVRRFLDESLPLENGSYQDVVAFKVVDKQLRIQLKNGKETTLRTPAQFVGYRGDAAAPTCILLKNNGLHIELQIDANGRIGKDDPAHINDVIVEAAISTILDCEDSVAAVDAEDKILLYRNLLGLMQGTLQEKMEKNGRQIVRKLNDDRHYTAADGSEISLHGRSLLFIRNVGHLMTIPVIWDSEGNEIPEGILDGVMTGAIALYDLKVQKNSRTGSVYIVKPKMHGPQEVAFANKLFTRIETMLGMAPNTLKMGIMDEERRTSLNLRSCIAQARNRVAFINTGFLDRTGDEMHSVMEAGPMLRKNQMKSTPWIKAYERNNVLSGLFCGLRGKAQIGKGMWAMPDLMADMYSQKGDQLRAGANTAWVPSPTAATLHALHYHQTNVQSVQANIAQTEFNAEFEPLLDDLLTIPVAENANWSAQEIQQELDNNVQGILGYVVRWVEQGIGCSKVPDIHNVALMEDRATLRISSQHIANWLRHGILTKEQVQASLENMAKVVDQQNAGDPAYRPMAGNFANSCAFKAASDLIFLGVKQPNGYTEPLLHAWRLREKESH" "c" "Han et al., 2011" -"MALTACETYLTRAN-MONOMER" "MSTEKEKMIAGELYRSADETLSRDRLRARQLIHRYNHSLAEEHTLRQQILADLFGQVTEAYIEPTFRCDYGYNIFLGNNFFANFDCVMLDVCPIRIGDNCMLAPGVHIYTATHPIDPVARNSGAELGKPVTIGNNVWIGGRAVINPGVTIGDNVVVASGAVVTKDVPDNVVVGGNPARIIKKL" "c" "Han et al., 2011" -"MALTODEXGLUCOSID-MONOMER" "MLNAWHLPVPPFVKQSKDQLLITLWLTGEDPPQRIMLRTEHDNEEMSVPMHKQRSQPQPGVTAWRAAIDLSSGQPRRRYSFKLLWHDRQRWFTPQGFSRMPPARLEQFAVDVPDIGPQWAADQIFYQIFPDRFARSLPREAEQDHVYYHHAAGQEIILRDWDEPVTAQAGGSTFYGGDLDGISEKLPYLKKLGVTALYLNPVFKAPSVHKYDTEDYRHVDPQFGGDGALLRLRHNTQQLGMRLVLDGVFNHSGDSHAWFDRHNRGTGGACHNPESPWRDWYSFSDDGTALDWLGYASLPKLDYQSESLVNEIYRGEDSIVRHWLKAPWNMDGWRLDVVHMLGEAGGARNNMQHVAGITEAAKETQPEAYIVGEHFGDARQWLQADVEDAAMNYRGFTFPLWGFLANTDISYDPQQIDAQTCMAWMDNYRAGLSHQQQLRMFNQLDSHDTARFKTLLGRDIARLPLAVVWLFTWPGVPCIYYGDEVGLDGKNDPFCRKPFPWQVEKQDTALFALYQRMIALRKKSQALRHGGCQVLYAEDNVVVFVRVLNQQRVLVAINRGEACEVVLPASPFLNAVQWQCKEGHGQLTDGILALPAISATVWMN" "c" "Han et al., 2011" -"MALX-MONOMER" "MTAKTAPKVTLWEFFQQLGKTFMLPVALLSFCGIMLGIGSSLSSHDVITLIPVLGNPVLQAIFTWMSKIGSFAFSFLPVMFCIAIPLGLARENKGVAAFAGFIGYAVMNLAVNFWLTNKGILPTTDAAVLKANNIQSILGIQSIDTGILGAVIAGIIVWMLHERFHNIRLPDALAFFGGTRFVPIISSLVMGLVGLVIPLVWPIFAMGISGLGHMINSAGDFGPMLFGTGERLLLPFGLHHILVALIRFTDAGGTQEVCGQTVSGALTIFQAQLSCPTTHGFSESATRFLSQGKMPAFLGGLPGAALAMYHCARPENRHKIKGLLISGLIACVVGGTTEPLEFLFLFVAPVLYVIHALLTGLGFTVMSVLGVTIGNTDGNIIDFVVFGILHGLSTKWYMVPVVAAIWFVVYYVIFRFAITRFNLKTPGRDSEVASSIEKAVAGAPGKSGYNVPAILEALGGADNIVSLDNCITRLRLSVKDMSLVNVQALKDNRAIGVVQLNQHNLQVVIGPQVQSVKDEMAGLMHTVQA" "i" "Han et al., 2011" -"MANNONDEHYDRAT-MONOMER" "MEQTWRWYGPNDPVSLADVRQAGATGVVTALHHIPNGEVWSVEEILKRKAIIEDAGLVWSVVESVPIHEDIKTHTGNYEQWIANYQQTLRNLAQCGIRTVCYNFMPVLDWTRTDLEYVLPDGSKALRFDQIEFAAFEMHILKRPGAEADYTEEEIAQAAERFATMSDEDKARLTRNIIAGLPGAEEGYTLDQFRKHLELYKDIDKAKLRENFAVFLKAIIPVAEEVGVRMAVHPDDPPRPILGLPRIVSTIEDMQWMVDTVNSMANGFTMCTGSYGVRADNDLVDMIKQFGPRIYFTHLRSTMREDNPKTFHEAAHLNGDVDMYEVVKAIVEEEHRRKAEGKEDLIPMRPDHGHQMLDDLKKKTNPGYSAIGRLKGLAEVRGVELAIQRAFFSR" "c" "Han et al., 2011" -"MANNONOXIDOREDUCT-MONOMER" "MTTIVDSNLPVARPSWDHSRLESRIVHLGCGAFHRAHQALYTHHLLESTDSDWGICEVNLMPGNDRVLIENLKKQQLLYTVAEKGAESTELKIIGSMKEALHPEIDGCEGILNAMARPQTAIVSLTVTEKGYCADAASGQLDLNNPLIKHDLENPTAPKSAIGYIVEALRLRREKGLKAFTVMSCDNVRENGHVAKVAVLGLAQARDPQLAAWIEENVTFPCTMVDRIVPAATPETLQEIADQLGVYDPCAIACEPFRQWVIEDNFVNGRPDWDKVGAQFVADVVPFEMMKLRMLNGSHSFLAYLGYLGGYETIADTVTNPAYRKAAFALMMQEQAPTLSMPEGTDLNAYATLLIERFSNPSLRHRTWQIAMDGSQKLPQRLLDPVRLHLQNGGSWRHLALGVAGWMRYTQGVDEQGNAIDVVDPMLAEFQKINAQYQGADRVKALLGLSGIFADDLPQNADFVGAVTAAYQQLCERGARECVAAL" "c" "Han et al., 2011" -"MANNPDEHYDROG-MONOMER" "MKALHFGAGNIGRGFIGKLLADAGIQLTFADVNQVVLDALNARHSYQVHVVGETEQVDTVSGVNAVSSIGDDVVDLIAQVDLVTTAVGPVVLERIAPAIAKGQVKRKEQGNESPLNIIACENMVRGTTQLKGHVMNALPEDAKAWVEEHVGFVDSAVDRIVPPSASATNDPLEVTVETFSEWIVDKTQFKGALPNIPGMELTDNLMAFVERKLFTLNTGHAITAYLGKLAGHQTIRDAILDEKIRAVVKGAMEESGAVLIKRYGFDADKHAAYIQKILGRFENPYLKDDVERVGRQPLRKLSAGDRLIKPLLGTLEYGLPHKNLIEGIAAAMHFRSEDDPQAQELAALIADKGPQAALAQISGLDANSEVVSEAVTAYKAMQ" "c" "Han et al., 2011" -"MANNPGUANYLTRANGDP-MONOMER" "MAQSKLYPVVMAGGSGSRLWPLSRVLYPKQFLCLKGDLTMLQTTICRLNGVECESPVVICNEQHRFIVAEQLRQLNKLTENIILEPAGRNTAPAIALAALAAKRHSPESDPLMLVLAADHVIADEDAFRAAVRNAMPYAEAGKLVTFGIVPDLPETGYGYIRRGEVSAGEQDMVAFEVAQFVEKPNLETAQAYVASGEYYWNSGMFLFRAGRYLEELKKYRPDILDACEKAMSAVDPDLNFIRVDEEAFLACPEESVDYAVMERTADAVVVPMDAGWSDVGSWSSLWEISAHTAEGNVCHGDVINHKTENSYVYAESGLVTTVGVKDLVVVQTKDAVLIADRNAVQDVKKVVEQIKADGRHEHRVHREVYRPWGKYDSIDAGDRYQVKRITVKPGEGLSVQMHHHRAEHWVVVAGTAKVTIDGDIKLLGENESIYIPLGATHCLENPGKIPLDLIEVRSGSYLEEDDVVRFADRYGRV" "c" "Han et al., 2011" -"MANNPISOM-MONOMER" "MQKLINSVQNYAWGSKTALTELYGMENPSSQPMAELWMGAHPKSSSRVQNAAGDIVSLRDVIESDKSTLLGEAVAKRFGELPFLFKVLCAAQPLSIQVHPNKHNSEIGFAKENAAGIPMDAAERNYKDPNHKPELVFALTPFLAMNAFREFSEIVSLLQPVAGAHPAIAHFLQQPDAERLSELFASLLNMQGEEKSRALAILKSALDSQQGEPWQTIRLISEFYPEDSGLFSPLLLNVVKLNPGEAMFLFAETPHAYLQGVALEVMANSDNVLRAGLTPKYIDIPELVANVKFEAKPANQLLTQPVKQGAELDFPIPVDDFAFSLHDLSDKETTISQQSAAILFCVEGDATLWKGSQQLQLKPGESAFIAANESPVTVKGHGRLARVYNKL" "c" "Han et al., 2011" -"MANX-MONOMER" "VTIAIVIGTHGWAAEQLLKTAEMLLGEQENVGWIDFVPGENAETLIEKYNAQLAKLDTTKGVLFLVDTWGGSPFNAASRIVVDKEHYEVIAGVNIPMLVETLMARDDDPSFDELVALAVETGREGVKALKAKPVEKAAPAPAAAAPKAAPTPAKPMGPNDYMVIGLARIDDRLIHGQVATRWTKETNVSRIIVVSDEVAADTVRKTLLTQVAPPGVTAHVVDVAKMIRVYNNPKYAGERVMLLFTNPTDVERLVEGGVKITSVNVGGMAFRQGKTQVNNAVSVDEKDIEAFKKLNARGIELEVRKVSTDPKLKMMDLISKIDK" "i" "Lopez-Campistrous et al., 2005" -"MANY-MONOMER" "MEITTLQIVLVFIVACIAGMGSILDEFQFHRPLIACTLVGIVLGDMKTGIIIGGTLEMIALGWMNIGAAVAPDAALASIISTILVIAGHQSIGAGIALAIPLAAAGQVLTIIVRTITVAFQHAADKAADNGNLTAISWIHVSSLFLQAMRVAIPAVIVALSVGTSEVQNMLNAIPEVVTNGLNIAGGMIVVVGYAMVINMMRAGYLMPFFYLGFVTAAFTNFNLVALGVIGTVMAVLYIQLSPKYNRVAGAPAQAAGNNDLDNELD" "i" "Han et al., 2011" -"MANZ-MONOMER" "MVDTTQTTTEKKLTQSDIRGVFLRSNLFQGSWNFERMQALGFCFSMVPAIRRLYPENNEARKQAIRRHLEFFNTQPFVAAPILGVTLALEEQRANGAEIDDGAINGIKVGLMGPLAGVGDPIFWGTVRPVFAALGAGIAMSGSLLGPLLFFILFNLVRLATRYYGVAYGYSKGIDIVKDMGGGFLQKLTEGASILGLFVMGALVNKWTHVNIPLVVSRITDQTGKEHVTTVQTILDQLMPGLVPLLLTFACMWLLRKKVNPLWIIVGFFVIGIAGYACGLLGL" "i" "Han et al., 2011" -"MDLA-MONOMER" "VRLFAQLSWYFRREWRRYLGAVALLVIIAMLQLVPPKVVGIVVDGVTEQHFTTGQILMWIATMVLIAVVVYLLRYVWRVLLFGASYQLAVELREDYYRQLSRQHPEFYLRHRTGDLMARATNDVDRVVFAAGEGVLTLVDSLVMGCAVLIMMSTQISWQLTLFSLLPMPVMAIMIKRNGDALHERFKLAQAAFSSLNDRTQESLTSIRMIKAFGLEDRQSALFAADAEDTGKKNMRVARIDARFDPTIYIAIGMANLLAIGGGSWMVVQGSLTLGQLTSFMMYLGLMIWPMLALAWMFNIVERGSAAYSRIRAMLAEAPVVNDGSEPVPEGRGELDVNIHQFTYPQTDHPALENVNFALKPGQMLGICGPTGSGKSTLLSLIQRHFDVSEGDIRFHDIPLTKLQLDSWRSRLAVVSQTPFLFSDTVANNIALGCPNATQQEIEHVARLASVHDDILRLPQGYDTEVGERGVMLSGGQKQRISIARALLVNAEILILDDALSAVDGRTEHQILHNLRQWGQGRTVIISAHRLSALTEASEIIVMQHGHIAQRGNHDVLAQQSGWYRDMYRYQQLEAALDDAPENREEAVDA" "i" "Han et al., 2011" -"MDLB-MONOMER" "MRSFSQLWPTLKRLLAYGSPWRKPLGIAVLMMWVAAAAEVSGPLLISYFIDNMVAKNNLPLKVVAGLAAAYVGLQLFAAGLHYAQSLLFNRAAVGVVQQLRTDVMDAALRQPLSEFDTQPVGQVISRVTNDTEVIRDLYVTVVATVLRSAALVGAMLVAMFSLDWRMALVAIMIFPVVLVVMVIYQRYSTPIVRRVRAYLADINDGFNEIINGMSVIQQFRQQARFGERMGEASRSHYMARMQTLRLDGFLLRPLLSLFSSLILCGLLMLFGFSASGTIEVGVLYAFISYLGRLNEPLIELTTQQAMLQQAVVAGERVFELMDGPRQQYGNDDRPLQSGTIEVDNVSFAYRDDNLVLKNINLSVPSRNFVALVGHTGSGKSTLASLLMGYYPLTEGEIRLDGRPLSSLSHSALRQGVAMVQQDPVVLADTFLANVTLGRDISEERVWQALETVQLAELARSMSDGIYTPLGEQGNNLSVGQKQLLALARVLVETPQILILDEATASIDSGTEQAIQHALAAVREHTTLVVIAHRLSTIVDADTILVLHRGQAVEQGTHQQLLAAQGRYWQMYQLQLAGEELAASVREEESLSA" "i" "Han et al., 2011" -"MDTA" "MKGSYKSRWVIVIVVVIAAIAAFWFWQGRNDSRSAAPGATKQAQQSPAGGRRGMRSGPLAPVQAATAVEQAVPRYLTGLGTITAANTVTVRSRVDGQLIALHFQEGQQVKAGDLLAEIDPSQFKVALAQAQGQLAKDKATLANARRDLARYQQLAKTNLVSRQELDAQQALVSETEGTIKADEASVASAQLQLDWSRITAPVDGRVGLKQVDVGNQISSGDTTGIVVITQTHPIDLVFTLPESDIATVVQAQKAGKPLVVEAWDRTNSKKLSEGTLLSLDNQIDATTGTIKVKARFNNQDDALFPNQFVNARMLVDTEQNAVVIPTAALQMGNEGHFVWVLNSENKVSKHLVTPGIQDSQKVVIRAGISAGDRVVTDGIDRLTEGAKVEVVEAQSATTPEEKATSREYAKKGARS" "i" "Han et al., 2011" -"MELB-MONOMER" "MSISMTTKLSYGFGAFGKDFAIGIVYMYLMYYYTDVVGLSVGLVGTLFLVARIWDAINDPIMGWIVNATRSRWGKFKPWILIGTLANSVILFLLFSAHLFEGTTQIVFVCVTYILWGMTYTIMDIPFWSLVPTITLDKREREQLVPYPRFFASLAGFVTAGVTLPFVNYVGGGDRGFGFQMFTLVLIAFFIVSTIITLRNVHEVFSSDNQPSAEGSHLTLKAIVALIYKNDQLSCLLGMALAYNVASNIITGFAIYYFSYVIGDADLFPYYLSYAGAANLVTLVFFPRLVKSLSRRILWAGASILPVLSCGVLLLMALMSYHNVVLIVIAGILLNVGTALFWVLQVIMVADIVDYGEYKLHVRCESIAYSVQTMVVKGGSAFAAFFIAVVLGMIGYVPNVEQSTQALLGMQFIMIALPTLFFMVTLILYFRFYRLNGDTLRRIQIHLLDKYRKVPPEPVHADIPVGAVSDVKA" "i" "Han et al., 2011" -"MEND-MONOMER" "MSVSAFNRRWAAVILEALTRHGVRHICIAPGSRSTPLTLAAAENSAFIHHTHFDERGLGHLALGLAKVSKQPVAVIVTSGTAVANLYPALIEAGLTGEKLILLTADRPPELIDCGANQAIRQPGMFASHPTHSISLPRPTQDIPARWLVSTIDHALGTLHAGGVHINCPFAEPLYGEMDDTGLSWQQRLGDWWQDDKPWLREAPRLESEKQRDWFFWRQKRGVVVAGRMSAEEGKKVALWAQTLGWPLIGDVLSQTGQPLPCADLWLGNAKATSELQQAQIVVQLGSSLTGKRLLQWQASCEPEEYWIVDDIEGRLDPAHHRGRRLIANIADWLELHPAEKRQPWCVEIPRLAEQAMQAVIARRDAFGEAQLAHRICDYLPEQGQLFVGNSLVVRLIDALSQLPAGYPVYSNRGASGIDGLLSTAAGVQRASGKPTLAIVGDLSALYDLNALALLRQVSAPLVLIVVNNNGGQIFSLLPTPQSERERFYLMPQNVHFEHAAAMFELKYHRPQNWQELETAFADAWRTPTTTVIEMVVNDTDGAQTLQQLLAQVSHL" "c" "EcoCyc dump" -"MENF-MONOMER" "VQSLTTALENLLRHLSQEIPATPGIRVIDIPFPLKDAFDALSWLASQQTYPQFYWQQRNGDEEAVVLGAITRFTSLDQAQRFLRQHPEHADLRIWGLNAFDPSQGNLLLPRLEWRRCGGKATLRLTLFSESSLQHDAIQAKEFIATLVSIKPLPGLHLTTTREQHWPDKTGWTQLIELATKTIAEGELDKVVLARATDLHFASPVNAAAMMAASRRLNLNCYHFYMAFDGENAFLGSSPERLWRRRDKALRTEALAGTVANNPDDKQAQQLGEWLMADDKNQRENMLVVEDICQRLQADTQTLDVLPPQVLRLRKVQHLRRCIWTSLNKADDVICLHQLQPTAAVAGLPRDLARQFIARHEPFTREWYAGSAGYLSLQQSEFCVSLRSAKISGNVVRLYAGAGIVRGSDPEQEWQEIDNKAAGLRTLLQME" "c" "Han et al., 2011" -"METG-MONOMER" "MTQVAKKILVTCALPYANGSIHLGHMLEHIQADVWVRYQRMRGHEVNFICADDAHGTPIMLKAQQLGITPEQMIGEMSQEHQTDFAGFNISYDNYHSTHSEENRQLSELIYSRLKENGFIKNRTISQLYDPEKGMFLPDRFVKGTCPKCKSPDQYGDNCEVCGATYSPTELIEPKSVVSGATPVMRDSEHFFFDLPSFSEMLQAWTRSGALQEQVANKMQEWFESGLQQWDISRDAPYFGFEIPNAPGKYFYVWLDAPIGYMGSFKNLCDKRGDSVSFDEYWKKDSTAELYHFIGKDIVYFHSLFWPAMLEGSNFRKPSNLFVHGYVTVNGAKMSKSRGTFIKASTWLNHFDADSLRYYYTAKLSSRIDDIDLNLEDFVQRVNADIVNKVVNLASRNAGFINKRFDGVLASELADPQLYKTFTDAAEVIGEAWESREFGKAVREIMALADLANRYVDEQAPWVVAKQEGRDADLQAICSMGINLFRVLMTYLKPVLPKLTERAEAFLNTELTWDGIQQPLLGHKVNPFKALYNRIDMRQVEALVEASKEEVKAAAAPVTGPLADDPIQETITFDDFAKVDLRVALIENAEFVEGSDKLLRLTLDLGGEKRNVFSGIRSAYPDPQALIGRHTIMVANLAPRKMRFGISEGMVMAAGPGGKDIFLLSPDAGAKPGHQVK" "c" "EcoCyc dump" -"METHGLYSYN-MONOMER" "MELTTRTLPARKHIALVAHDHCKQMLMSWVERHQPLLEQHVLYATGTTGNLISRATGMNVNAMLSGPMGGDQQVGALISEGKIDVLIFFWDPLNAVPHDPDVKALLRLATVWNIPVATNVATADFIIQSPHFNDAVDILIPDYQRYLADRLK" "c" "Han et al., 2011" -"METHYLENETHFREDUCT-MONOMER" "MSFFHASQRDALNQSLAEVQGQINVSFEFFPPRTSEMEQTLWNSIDRLSSLKPKFVSVTYGANSGERDRTHSIIKGIKDRTGLEAAPHLTCIDATPDELRTIARDYWNNGIRHIVALRGDLPPGSGKPEMYASDLVTLLKEVADFDISVAAYPEVHPEAKSAQADLLNLKRKVDAGANRAITQFFFDVESYLRFRDRCVSAGIDVEIIPGILPVSNFKQAKKFADMTNVRIPAWMAQMFDGLDDDAETRKLVGANIAMDMVKILSREGVKDFHFYTLNRAEMSYAICHTLGVRPGL" "c" "Han et al., 2011" -"METHYLMALONYL-COA-MUT-MONOMER" "MSNVQEWQQLANKELSRREKTVDSLVHQTAEGIAIKPLYTEADLDNLEVTGTLPGLPPYVRGPRATMYTAQPWTIRQYAGFSTAKESNAFYRRNLAAGQKGLSVAFDLATHRGYDSDNPRVAGDVGKAGVAIDTVEDMKVLFDQIPLDKMSVSMTMNGAVLPVLAFYIVAAEEQGVTPDKLTGTIQNDILKEYLCRNTYIYPPKPSMRIIADIIAWCSGNMPRFNTISISGYHMGEAGANCVQQVAFTLADGIEYIKAAISAGLKIDDFAPRLSFFFGIGMDLFMNVAMLRAARYLWSEAVSGFGAQDPKSLALRTHCQTSGWSLTEQDPYNNVIRTTIEALAATLGGTQSLHTNAFDEALGLPTDFSARIARNTQIIIQEESELCRTVDPLAGSYYIESLTDQIVKQARAIIQQIDEAGGMAKAIEAGLPKRMIEEASAREQSLIDQGKRVIVGVNKYKLDHEDETDVLEIDNVMVRNEQIASLERIRATRDDAAVTAALNALTHAAQHNENLLAAAVNAARVRATLGEISDALEVAFDRYLVPSQCVTGVIAQSYHQSEKSASEFDAIVAQTEQFLADNGRRPRILIAKMGQDGHDRGAKVIASAYSDLGFDVDLSPMFSTPEEIARLAVENDVHVVGASSLAAGHKTLIPELVEALKKWGREDICVVAGGVIPPQDYAFLQERGVAAIYGPGTPMLDSVRDVLNLISQHHD" "c" "Han et al., 2011" -"METI-MONOMER" "MSEPMMWLLVRGVWETLAMTFVSGFFGFVIGLPVGVLLYVTRPGQIIANAKLYRTVSAIVNIFRSIPFIILLVWMIPFTRVIVGTSIGLQAAIVPLTVGAAPFIARMVENALLEIPTGLIEASRAMGATPMQIVRKVLLPEALPGLVNAATITLITLVGYSAMGGAVGAGGLGQIGYQYGYIGYNATVMNTVLVLLVILVYLIQFAGDRIVRAVTRK" "i" "Han et al., 2011" -"METQ-MONOMER" "MAFKFKTFAAVGALIGSLALVGCGQDEKDPNHIKVGVIVGAEQQVAEVAQKVAKDKYGLDVELVTFNDYVLPNEALSKGDIDANAFQHKPYLDQQLKDRGYKLVAVGNTFVYPIAGYSKKIKSLDELQDGSQVAVPNDPTNLGRSLLLLQKVGLIKLKDGVGLLPTVLDVVENPKNLKIVELEAPQLPRSLDDAQIALAVINTTYASQIGLTPAKDGIFVEDKESPYVNLIVTREDNKDAENVKKFVQAYQSDEVYEAANKVFNGGAVKGW" "i" "Lopez-Campistrous et al., 2005" -"MGLA-MONOMER" "MVSSTTPSSGEYLLEMSGINKSFPGVKALDNVNLKVRPHSIHALMGENGAGKSTLLKCLFGIYQKDSGTILFQGKEIDFHSAKEALENGISMVHQELNLVLQRSVMDNMWLGRYPTKGMFVDQDKMYRETKAIFDELDIDIDPRARVGTLSVSQMQMIEIAKAFSYNAKIVIMDEPTSSLTEKEVNHLFTIIRKLKERGCGIVYISHKMEEIFQLCDEVTVLRDGQWIATEPLAGLTMDKIIAMMVGRSLNQRFPDKENKPGEVILEVRNLTSLRQPSIRDVSFDLHKGEILGIAGLVGAKRTDIVETLFGIREKSAGTITLHGKQINNHNANEAINHGFALVTEERRSTGIYAYLDIGFNSLISNIRNYKNKVGLLDNSRMKSDTQWVIDSMRVKTPGHRTQIGSLSGGNQQKVIIGRWLLTQPEILMLDEPTRGIDVGAKFEIYQLIAELAKKGKGIIIISSEMPELLGITDRILVMSNGLVSGIVDTKTTTQNEILRLASLHL" "i" "Han et al., 2011" -"MGLB-MONOMER" "MNKKVLTLSAVMASMLFGAAAHAADTRIGVTIYKYDDNFMSVVRKAIEQDAKAAPDVQLLMNDSQNDQSKQNDQIDVLLAKGVKALAINLVDPAAAGTVIEKARGQNVPVVFFNKEPSRKALDSYDKAYYVGTDSKESGIIQGDLIAKHWAANQGWDLNKDGQIQFVLLKGEPGHPDAEARTTYVIKELNDKGIKTEQLQLDTAMWDTAQAKDKMDAWLSGPNANKIEVVIANNDAMAMGAVEALKAHNKSSIPVFGVDALPEALALVKSGALAGTVLNDANNQAKATFDLAKNLADGKGAADGTNWKIDNKVVRVPYVGVDKDNLAEFSKK" "p" "Lopez-Campistrous et al., 2005" -"MGLC-MONOMER" "MSALNKKSFLTYLKEGGIYVVLLVLLAIIIFQDPTFLSLLNLSNILTQSSVRIIIALGVAGLIVTQGTDLSAGRQVGLAAVVAATLLQSMDNANKVFPEMATMPIALVILIVCAIGAVIGLINGLIIAYLNVTPFITTLGTMIIVYGINSLYYDFVGASPISGFDSGFSTFAQGFVALGSFRLSYITFYALIAVAFVWVLWNKTRFGKNIFAIGGNPEAAKVSGVNVGLNLLMIYALSGVFYAFGGMLEAGRIGSATNNLGFMYELDAIAACVVGGVSFSGGVGTVIGVVTGVIIFTVINYGLTYIGVNPYWQYIIKGAIIIFAVALDSLKYARKK" "i" "Han et al., 2011" -"MGTA-MONOMER" "MFKEIFTRLIRHLPSRLVHRDPLPGAQQTVNTVVPPSLSAHCLKMAVMPEEELWKTFDTHPEGLNQAEVESAREQHGENKLPAQQPSPWWVHLWVCYRNPFNILLTILGAISYATEDLFAAGVIALMVAISTLLNFIQEARSTKAADALKAMVSNTATVLRVINDKGENGWLEIPIDQLVPGDIIKLAAGDMIPADLRILQARDLFVAQASLTGESLPVEKAATTRQPEHSNPLECDTLCFMGTTVVSGTAQAMVIATGANTWFGQLAGRVSEQESEPNAFQQGISRVSMLLIRFMLVMAPVVLLINGYTKGDWWEAALFALSVAVGLTPEMLPMIVTSTLARGAVKLSKQKVIVKHLDAIQNFGAMDILCTDKTGTLTQDKIVLENHTDISGKTSERVLHSAWLNSHYQTGLKNLLDTAVLEGTDEESARSLASRWQKIDEIPFDFERRRMSVVVAENTEHHQLVCKGALQEILNVCSQVRHNGEIVPLDDIMLRKIKRVTDTLNRQGLRVVAVATKYLPAREGDYQRADESDLILEGYIAFLDPPKETTAPALKALKASGITVKILTGDSELVAAKVCHEVGLDAGEVVIGSDIETLSDDELANLAQRTTLFARLTPMHKERIVTLLKREGHVVGFMGDGINDAPALRAADIGISVDGAVDIAREAADIILLEKSLMVLEEGVIEGRRTFANMLKYIKMTASSNFGNVFSVLVASAFLPFLPMLPLHLLIQNLLYDVSQVAIPFDNVDDEQIQKPQRWNPADLGRFMIFFGPISSIFDILTFCLMWWVFHANTPETQTLFQSGWFVVGLLSQTLIVHMIRTRRVPFIQSCASWPLMIMTVIVMIVGIALPFSPLASYLQLQALPLSYFPWLVAILAGYMTLTQLVKGFYSRRYGWQ" "i" "Han et al., 2011" -"MHPCHYDROL-MONOMER" "MSYQPQTEAATSRFLNVEEAGKTLRIHFNDCGQGDETVVLLHGSGPGATGWANFSRNIDPLVEAGYRVILLDCPGWGKSDSVVNSGSRSDLNARILKSVVDQLDIAKIHLLGNSMGGHSSVAFTLKWPERVGKLVLMGGGTGGMSLFTPMPTEGIKRLNQLYRQPTIENLKLMMDIFVFDTSDLTDALFEARLNNMLSRRDHLENFVKSLEANPKQFPDFGPRLAEIKAQTLIVWGRNDRFVPMDAGLRLLSGIAGSELHIFRDCGHWAQWEHADAFNQLVLNFLARP" "c" "Han et al., 2011" -"MHPDHYDROL-MONOMER" "MTKHTLEQLAADLRRAAEQGEAIAPLRDLIGIDNAEAAYAIQHINVQHDVAQGRRVVGRKVGLTHPKVQQQLGVDQPDFGTLFADMCYGDNEIIPFSRVLQPRIEAEIALVLNRDLPATDITFDELYNAIEWVLPALEVVGSRIRDWSIQFVDTVADNASCGVYVIGGPAQRPAGLDLKNCAMKMTRNNEEVSSGRGSECLGHPLNAAVWLARKMASLGEPLRTGDIILTGALGPMVAVNAGDRFEAHIEGIGSVAATFSSAAPKGSLS" "c" "Han et al., 2011" -"MHPELY-MONOMER" "MNGKKLYISDVTLRDGMHAIRHQYSLENVRQIAKALDDARVDSIEVAHGDGLQGSSFNYGFGAHSDLEWIEAAADVVKHAKIATLLLPGIGTIHDLKNAWQAGARVVRVATHCTEADVSAQHIQYARELGMDTVGFLMMSHMTTPENLAKQAKLMEGYGATCIYVVDSGGAMNMSDIRDRFRALKAELKPETQTGMHAHHNLSLGVANSIAAVEEGCDRIDASLAGMGAGAGNAPLEVFIAAADKLGWQHGTDLYALMDAADDLVRPLQDRPVRVDRETLALGYAGVYSSFLRHCETAAARYGLSAVDILVELGKRRMVGGQEDMIVDVALDLRNNK" "c" "Han et al., 2011" -"MHPF-MONOMER" "MSKRKVAIIGSGNIGTDLMIKILRHGQHLEMAVMVGIDPQSDGLARARRMGVATTHEGVIGLMNMPEFADIDIVFDATSAGAHVKNDAALREAKPDIRLIDLTPAAIGPYCVPVVNLEANVDQLNVNMVTCGGQATIPMVAAVSRVARVHYAEIIASIASKSAGPGTRANIDEFTETTSRAIEVVGGAAKGKAIIVLNPAEPPLMMRDTVYVLSDEASQDDIEASINEMAEAVQAYVPGYRLKQRVQFEVIPQDKPVNLPGVGQFSGLKTAVWLEVEGAAHYLPAYAGNLDIMTSSALATAEKMAQSLARKAGEAA" "c" "Han et al., 2011" -"MHPHYDROXY-MONOMER" "MAIQHPDIQPAVNHSVQVAIAGAGPVGLMMANYLGQMGIDVLVVEKLDKLIDYPRAIGIDDEALRTMQSVGLVDDVLPHTTPWHAMRFLTPKGRCFADIQPMTDEFGWPRRNAFIQPQVDAVMLEGVSRFPNVRCLFSRELEAFSQQDDEVTLHLKTAEGQREIVKAQWLVACDGGASFVRRTLNVPFEGKTAPNQWIVVDIANDPLSTPHIYLCCDPVRPYVSAALPHAVRRFEFMVMPGETEEQLREPQNMRKLLSKVLPNPDNVELIRQRVYTHNARLAQRFRIDRVLLAGDAAHIMPVWQGQGYNSGMRDAFNLAWKLALVIQGKARDALLDTYQQERRDHAKAMIDLSVTAGNVLAPPKRWQGTLRDGVSWLLNYLPPVKRYFLEMRFKPMPQYYGGALMREGEAKHSPVGKMFIQPKVTLENGDVTLLDNAIGANFAVIGWGCNPLWGMSDEQIQQWRALGTRFIQVVPEVQIHTAQDNHDGVLRVGDTQGRLRSWFAQHNASLVVMRPDRFVAATAIPQTLGKTLNKLASVMTLTRPDADVSVEKVA" "c" "Han et al., 2011" -"MHPT-MONOMER" "MSTRTPSSSSSRLMLTIGLCFLVALMEGLDLQAAGIAAGGIAQAFALDKMQMGWIFSAGILGLLPGALVGGMLADRYGRKRILIGSVALFGLFSLATAIAWDFPSLVFARLMTGVGLGAALPNLIALTSEAAGPRFRGTAVSLMYCGVPIGAALAATLGFAGANLAWQTVFWVGGVVPLILVPLLMRWLPESAVFAGEKQSAPPLRALFAPETATATLLLWLCYFFTLLVVYMLINWLPLLLVEQGFQPSQAAGVMFALQMGAASGTLMLGALMDKLRPVTMSLLIYSGMLASLLALGTVSSFNGMLLAGFVAGLFATGGQSVLYALAPLFYSSQIRATGVGTAVAVGRLGAMSGPLLAGKMLALGTGTVGVMAASAPGILVAGLAVFILMSRRSRIQPCADA" "i" "Han et al., 2011" -"MMUM-MONOMER" "MSQNNPLRALLDKQDILLLDGAMATELEARGCNLADSLWSAKVLVENPELIREVHLDYYRAGAQCAITASYQATPAGFAARGLDEAQSKALIGKSVELARKAREAYLAENPQAGTLLVAGSVGPYGAYLADGSEYRGDYHCSVEAFQAFHRPRVEALLDAGADLLACETLPNFSEIEALAELLTAYPRARAWFSFTLRDSEHLSDGTPLRDVVALLAGYPQVVALGINCIALENTTAALQHLHGLTVLPLVVYPNSGEHYDAVSKTWHHHGEHCAQLADYLPQWQAAGARLIGGCCRTTPADIAALKARS" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MODA-MONOMER" "MARKWLNLFAGAALSFAVAGNALADEGKITVFAAASLTNAMQDIATQFKKEKGVDVVSSFASSSTLARQIEAGAPADLFISADQKWMDYAVDKKAIDTATRQTLLGNSLVVVAPKASVQKDFTIDSKTNWTSLLNGGRLAVGDPEHVPAGIYAKEALQKLGAWDTLSPKLAPAEDVRGALALVERNEAPLGIVYGSDAVASKGVKVVATFPEDSHKKVEYPVAVVEGHNNATVKAFYDYLKGPQAAEIFKRYGFTIK" "p" "Han et al., 2011" -"MODB-MONOMER" "MILTDPEWQAVLLSLKVSSLAVLFSLPFGIFFAWLLVRCTFPGKALLDSVLHLPLVLPPVVVGYLLLVSMGRRGFIGERLYDWFGITFAFSWRGAVLAAAVMSFPLMVRAIRLALEGVDVKLEQAARTLGAGRWRVFFTITLPLTLPGIIVGTVLAFARSLGEFGATITFVSNIPGETRTIPSAMYTLIQTPGGESGAARLCIISIALAMISLLISEWLARISRERAGR" "i" "Han et al., 2011" -"MODC-MONOMER" "MLELNFSQTLGNHCLTINETLPANGITAIFGVSGAGKTSLINAISGLTRPQKGRIVLNGRVLNDAEKGICLTPEKRRVGYVFQDARLFPHYKVRGNLRYGMSKSMVDQFDKLVALLGIEPLLDRLPGSLSGGEKQRVAIGRALLTAPELLLLDEPLASLDIPRKRELLPYLQRLTREINIPMLYVSHSLDEILHLADRVMVLENGQVKAFGALEEVWGSSVMNPWLPKEQQSSILKVTVLEHHPHYAMTALALGDQHLWVNKLDEPLQAALRIRIQASDVSLVLQPPQQTSIRNVLRAKVVNSYDDNGQVEVELEVGGKTLWARISPWARDELAIKPGLWLYAQIKSVSITA" "i" "EcoCyc dump" -"MODF-MONOMER" "MSSLQILQGTFRLSDTKTLQLPQLTLNAGDSWAFVGSNGSGKSALARALAGELPLLKGERQSQFSHITRLSFEQLQKLVSDEWQRNNTDMLGPGEDDTGRTTAEIIQDEVKDAPRCMQLAQQFGITALLDRRFKYLSTGETRKTLLCQALMSEPDLLILDEPFDGLDVASRQQLAERLASLHQSGITLVLVLNRFDEIPEFVQFAGVLADCTLAETGAKEELLQQALVAQLAHSEQLEGVQLPEPDEPSARHALPANEPRIVLNNGVVSYNDRPILNNLSWQVNPGEHWQIVGPNGAGKSTLLSLVTGDHPQGYSNDLTLFGRRRGSGETIWDIKKHIGYVSSSLHLDYRVSTTVRNVILSGYFDSIGIYQAVSDRQQKLVQQWLDILGIDKRTADAPFHSLSWGQQRLALIVRALVKHPTLLILDEPLQGLDPLNRQLIRRFVDVLISEGETQLLFVSHHAEDAPACITHRLEFVPDGGLYRYVLTKIY" "i" "Han et al., 2011" -"MONOMER-162" "MSLNMFWFLPTHGDGHYLGTEEGSRPVDHGYLQQIAQAADRLGYTGVLIPTGRSCEDAWLVAASMIPVTQRLKFLVALRPSVTSPTVAARQAATLDRLSNGRALFNLVTGSDPQELAGDGVFLDHSERYEASAEFTQVWRRLLQRETVDFNGKHIHVRGAKLLFPAIQQPYPPLYFGGSSDVAQELAAEQVDLYLTWGEPPELVKEKIEQVRAKAAAHGRKIRFGIRLHVIVRETNDEAWQAAERLISHLDDETIAKAQAAFARTDSVGQQRMAALHNGKRDNLEISPNLWAGVGLVRGGAGTALVGDGPTVAARINEYAALGIDSFVLSGYPHLEEAYRVGELLFPLLDVAIPEIPQPQPLNPQGEAVANDFIPRKVAQS" "c" "EcoCyc dump" -"MONOMER-43" "MKPSVILYKALPDDLLQRLQEHFTVHQVANLSPQTVEQNAAIFAEAEGLLGSNENVNAALLEKMPKLRATSTISVGYDNFDVDALTARKILLMHTPTVLTETVADTLMALVLSTARRVVEVAERVKAGEWTASIGPDWYGTDVHHKTLGIVGMGRIGMALAQRAHFGFNMPILYNARRHHKEAEERFNARYCDLDTLLQESDFVCLILPLTDETHHLFGAEQFAKMKSSAIFINAGRGPVVDENALIAALQKGEIHAAGLDVFEQEPLSVDSPLLSMANVVAVPHIGSATHETRYGMAACAVDNLIDALQGKVEKNCVNPHVAD" "i" "EcoCyc dump" -"MONOMER0-1001" "MTKKIKCAYHLCKKDVEESKAIERMLHFMHGILSKDEPRKYCSEACAEKDQMAHEL" "c" "Han et al., 2011" -"MONOMER0-1041" "VKLIWSEESWDDYLYWQETDKRIVKKINELIKDTRRTPFEGKGKPEPLKHNLSGFWSRRITEEHRLVYAVTDDSLLIAACRYHY" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-12" "VSAGVITGVLLVFLLLGYLVYALINAEAF" "i" "Han et al., 2011" -"MONOMER0-1261" "MSLSRTQIVNWLTRCGDIFSTESEYLTGLDREIGDADHGLNMNRGFSKVVEKLPAIADKDIGFILKNTGMTLLSSVGGASGPLFGTFFIRAAQATQARQSLTLEELYQMFRDGADGVISRGKAEPGDKTMCDVWVPVVESLRQSSEQNLSVPVALEAASSIAESAAQSTITMQARKGRASYLGERSIGHQDPGATSVMFMMQMLALAAKE" "c" "Han et al., 2011" -"MONOMER0-141" "MENLALTTLLLPFIGALVVSFSPQRRAAEWGVLFAALTTLCMLSLISAFYQADKVAVTLTLVNVGDVALFGLVIDRVSTLILFVVVFLGLLVTIYSTGYLTDKNREHPHNGTNRYYAFLLVFIGAMAGLVLSSTLLGQLLFFEITGGCSWALISYYQSDKAQRSALKALLITHIGSLGLYLAAATLFLQTGTFALSAMSELHGDARYLVYGGILFAAWGKSAQLPMQAWLPDAMEAPTPISAYLHAASMVKVGVYIFARAIIDGGNIPHVIGGVGMVMALVTILYGFLMYLPQQDMKRLLAWSTITQLGWMFFGLSLSIFGSRLALEGSIAYIVNHAFAKSLFFLVAGALSYSCGTRLLPRLRGVLHTLPLPGVGFCVAALAITGVPPFNGFFSKFPLFAAGFALSVEYWILLPAMILLMIESVASFAWFIRWFGRVVPGKPSEAVADAAPLPGSMRLVLIVLIVMSLISSVIAATWLQ" "i" "Han et al., 2011" -"MONOMER0-142" "MTGSMIVNNLAGLMMLTSLFVISVKSYRLSCGFYACQSLVLVSIFATLSCLFAAEQLLIWSASAFITKVLLVPLIMTYAARNIPQNIPEKALFGPAMMALLAALIVLLCAFVVQPVKLPMATGLKPALAVALGHFLLGLLCIVSQRNILRQIFGYCLMENGSHLVLALLAWRAPELVEIGIATDAIFAVIVMVLLARKIWRTHGTLDVNNLTALKG" "i" "Han et al., 2011" -"MONOMER0-143" "MSYSVMFALLLLTPLLFSLLCFACRKRRLSATRTVTVLHSLGITLLLILALWVVQTAADAGEIFAAGLWLHIDGLGGLFLAILGVIGFLTGIYSIGYMRHEVAHGELSPVTLCDYYGFFHLFLFTMLLVVTSNNLIVMWAAIEATTLSSAFLVGIYGQRSSLEAAWKYIIICTVGVAFGLFGTVLVYANAASVMPQAEMAIFWSEVLKQSSLLDPTLMLLAFVFLLIGFGTKTGLFPMHAWLPDAHSEAPSPVSALLSAVLLNCALLVLIRYYIIICQAIGSDFPNRLLLIFGMLSVAVAAFFILVQRDIKRLLAYSSVENMGLVAVELGIGGPLGIFAALLHILNHSLAKTLLFCGSGNVLLKYGTRDLNVVCGMLKIMPFTAVLFGGGALALAGMPPFNIFLSEFMTITAGLARNHLLIIVLLLLLLTLVLAGLVRMAARVLMAKPPQAVNRGDLGWLTTSPMVILLVMMLAMGTHIPQPVIRILAGASTIVLSGTHDLPAQRSTWHDFLPSGTASVSEKHSER" "i" "Han et al., 2011" -"MONOMER0-144" "MLKLLKTIMRAGTATVKYPFAPLEVSPGFRGKPDLMPSQCIACGACACACPANALTIQTDDQQNSRTWQLYLGRCIYCGRCEEVCPTRAIQLTNNFELTVTNKADLYTRATFHLQRCSRCERPFAPQKTIALAAELLAQQQNAPQNREMLWAQASVCPECKQRATLINDDTDVLLVAKEQL" "p" "EcoCyc dump" -"MONOMER0-145" "MTGDNTLIHSHGINRRDFMKLCAALAATMGLSSKAAAEMAESVTNPQRPPVIWIGAQECTGCTESLLRATHPTVENLVLETISLEYHEVLSAAFGHQVEENKHNALEKYKGQYVLVVDGSIPLKDNGIYCMVAGEPIVDHIRKAAEGAAAIIAIGSCSAWGGVAAAGVNPTGAVSLQEVLPGKTVINIPGCPPNPHNFLATVAHIITYGKPPKLDDKNRPTFAYGRLIHEHCERRPHFDAGRFAKEFGDEGHREGWCLYHLGCKGPETYGNCSTLQFCDVGGVWPVAIGHPCYGCNEEGIGFHKGIHQLANVENQTPRSQKPDVNAKEGGNVSAGAIGLLGGVVGLVAGVSVMAVRELGRQQKKDNADSRGE" "i" "EcoCyc dump" -"MONOMER0-146" "MRVITLAGSPRFPSRSSSLLEYAREKLNGLDVEVYHWNLQNFAPEDLLYARFDSPALKTFTEQLQQADGLIVATPVYKAAYSGALKTLLDLLPERALQGKVVLPLATGGTVAHLLAVDYALKPVLSALKAQEILHGVFADDSQVIDYHHRPQFTPNLQTRLDTALETFWQALHRRDVQVPDLLSLRGNAHA" "c" "Han et al., 2011" -"MONOMER0-147" "MSERLSITPLGPYIGAQISGADLTRPLSDNQFEQLYHAVLRHQVVFLRDQAITPQQQRALAQRFGELHIHPVYPHAEGVDEIIVLDTHNDNPPDNDNWHTDVTFIETPPAGAILAAKELPSTGGDTLWTSGIAAYEALSVPFRQLLSGLRAEHDFRKSFPEYKYRKTEEEHQRWREAVAKNPPLLHPVVRTHPVSGKQALFVNEGFTTRIVDVSEKESEALLSFLFAHITKPEFQVRWRWQPNDIAIWDNRVTQHYANADYLPQRRIMHRATILGDKPFYRAG" "c" "Han et al., 2011" -"MONOMER0-148" "MANPTVIKLQDGNVMPQLGLGVWQASNEEVITAIQKALEVGYRSIDTAAAYKNEEGVGKALKNASVNREELFITTKLWNDDHKRPREALLDSLKKLQLDYIDLYLMHWPVPAIDHYVEAWKGMIELQKEGLIKSIGVCNFQIHHLQRLIDETGVTPVINQIELHPLMQQRQLHAWNATHKIQTESWSPLAQGGKGVFDQKVIRDLADKYGKTPAQIVIRWHLDSGLVVIPKSVTPSRIAENFDVWDFRLDKDELGEIAKLDQGKRLGPDPDQFGG" "c" "Han et al., 2011" -"MONOMER0-149" "MAIPAFGLGTFRLKDDVVISSVITALELGYRAIDTAQIYDNEAAVGQAIAESGVPRHELYITTKIWIENLSKDKLIPSLKESLQKLRTDYVDLTLIHWPSPNDEVSVEEFMQALLEAKKQGLTREIGISNFTIPLMEKAIAAVGAENIATNQIELSPYLQNRKVVAWAKQHGIHITSYMTLAYGKALKDEVIARIAAKHNATPAQVILAWAMGEGYSVIPSSTKRKNLESNLKAQNLQLDAEDKKAIAALDCNDRLVSPEGLAPEWD" "c" "Han et al., 2011" -"MONOMER0-150" "VNVNSSSNRGEAILAALKTQFPGAVLDEERQTPEQVTITVKINLLPDVVQYLYYQHDGWLPVLFGNDERTLNGHYAVYYALSMEGAEKCWIVVKALVDADSREFPSVTPRVPAAVWGEREIRDMYGLIPVGLPDQRRLVLPDDWPEDMHPLRKDAMDYRLRPEPTTDSETYPFINEGNSDARVIPVGPLHITSDEPGHFRLFVDGEQIVDADYRLFYVHRGMEKLAETRMGYNEVTFLSDRVCGICGFAHSVAYTNSVENALGIEVPQRAHTIRSILLEVERLHSHLLNLGLSCHFVGFDTGFMQFFRVREKSMTMAELLIGSRKTYGLNLIGGVRRDILKEQRLQTLKLVREMRADVSELVEMLLATPNMEQRTQGIGILDRQIARDLRFDHPYADYGNIPKTLFTFTGGDVFSRVMVRVKETFDSLAMLEFALDNMPDTPLLTEGFSYKPHAFALGFVEAPRGEDVHWSMLGDNQKLFRWRCRAATYANWPVLRYMLRGNTVSDAPLIIGSLDPCYSCTDRVTLVDVRKRQSKTVPYKEIERYGIDRNRSPLK" "c" "EcoCyc dump" -"MONOMER0-1501" "MSQVSTEFIPTRIAILTVSNRRGEEDDTSGHYLRDSAQEAGHHVVDKAIVKENRYAIRAQVSAWIASDDVQVVLITGGTGLTEGDQAPEALLPLFDREVEGFGEVFRMLSFEEIGTSTLQSRAVAGVANKTLIFAMPGSTKACRTAWENIIAPQLDARTRPCNFHPHLKK" "c" "Han et al., 2011" -"MONOMER0-151" "MSPVLTQHVSQPITLDEQTQKMKRHLLQDIRRSAYVYRVDCGGCNACEIEIFAAITPVFDAERFGIKVVSSPRHADILLFTGAVTRAMRMPALRAYESAPDHKICVSYGACGVGGGIFHDLYSVWGGSDTIVPIDVWIPGCPPTPAATIHGFAVALGLLQQKIHAVDYRDPTGVTMQPLWPQIPPSQRIAIEREARRLAGYRQGREICDRLLRHLSDDPTGNRVNTWLRDADDPRLNSIVQQLFRVLRGLHD" "c" "EcoCyc dump" -"MONOMER0-152" "MNRFVVAEPLWCTGCNTCLAACSDVHKTQGLQQHPRLALAKTSTITAPVVCHHCEEAPCLQVCPVNAISQRDDAIQLNESLCIGCKLCAVVCPFGAISASGSRPVNAHAQYVFQAEGSLKDGEENAPTQHALLRWEPGVQTVAVKCDLCDFLPEGPACVRACPNQALRLITGDSLQRQMKEKQRLAASWFANGGEDPLSLTQEQR" "c" "EcoCyc dump" -"MONOMER0-153" "MDALQLLTWSLILYLFASLASLFLLGLDRLAIKLSGITSLVGGVIGIISGITQLHAGVTLVARFAPPFEFADLTLRMDSLSAFMVLVISLLVVVCSLYSLTYMREYEGKGAAAMGFFMNIFIASMVALLVMDNAFWFIVLFEMMSLSSWFLVIARQDKTSINAGMLYFFIAHAGSVLIMIAFLLMGRESGSLDFASFRTLSLSPGLASAVFLLAFFGFGAKAGMMPLHSWLPRAHPAAPSHASALMSGVMVKIGIFGILKVAMDLLAQTGLPLWWGILVMAIGAISALLGVLYALAEQDIKRLLAWSTVENVGIILLAVGVAMVGLSLHDPLLTVVGLLGALFHLLNHALFKGLLFLGAGAIISRLHTHDMEKMGALAKRMPWTAAACLIGCLAISAIPPLNGFISEWYTWQSLFSLSRVEAVALQLAGPIAMVMLAVTGGLAVMCFVKMYGITFCGAPRSTHAEEAQEVPNTMIVAMLLLAALCVLIALSASWLAPKIMHIAHAFTNTPPATVASGIALVPGTFHTQVTPSLLLLLLLAMPLLPGLYWLWCRSRRAAFRRTGDAWACGYGWENAMAPSGNGVMQPLRVVFSALFRLRQQLDPTLRLNKGLAHVTARAQSTEPFWDERVIRPIVSATQRLAKEIQHLQSGDFRLYCLYVVAALVVLLIAIAV" "i" "Han et al., 2011" -"MONOMER0-154" "MRQTLCDGYLVIFALAQAVILLMLTPLFTGISRQIRARMHSRRGPGIWQDYRDIHKLFKRQEVAPTSSGLMFRLMPWVLISSMLVLAMALPLFITVSPFAGGGDLITLIYLLALFRFFFALSGLDTGSPFAGVGASRELTLGILVEPMLILSLLVLALIAGSTHIEMISNTLAMGWNSPLTTVLALLACGFACFIEMGKIPFDVAEAEQELQEGPLTEYSGAGLALAKWGLGLKQVVMASLFVALFLPFGRAQELSLACLLTSLVVTLLKVLLIFVLASIAENTLARGRFLLIHHVTWLGFSLAALAWVFWLTGL" "i" "Unambiguous EcoCyc data" -"MONOMER0-1541" "MKRFPLFLLFTLLTLSTVPAQADIIDDTIGNIQQAINDAYNPDRGRDYEDSRDDGWQREVSDDRRRQYDDRRRQFEDRRRQLDDRQRQLDQERRQLEDEERRMEDEYGR" "p" "Han et al., 2011" -"MONOMER0-1561" "MNRLIELTGWIVLVVSVILLGVASHIDNYQPPEQSASVQHK" "i" "Han et al., 2011" -"MONOMER0-1562" "MMKRLIVLVLLASTLLTGCNTARGFGEDIKHLGNSISRAAS" "i" "Han et al., 2011" -"MONOMER0-1563" "MVKKTIAAIFSVLVLSTVLTACNTTRGVGEDISDGGNAISGAATKAQQ" "p" "Han et al., 2011" -"MONOMER0-1564" "MKQHKAMIVALIVICITAVVAALVTRKDLCEVHIRTGQTEVAVFTAYESE" "i" "Han et al., 2011" -"MONOMER0-1581" "MLTKYALAAVIVLCLTVLGFTLLVGDSLCEFTVKERNIEFKAVLAYEPKK" "i" "Han et al., 2011" -"MONOMER0-1601" "MTLAQFAMIFWHDLAAPILAGIITAAIVSWWRNRK" "i" "Han et al., 2011" -"MONOMER0-1602" "MTLAQFAMTFWHDLAAPILAGIITAAIVGWWRNRK" "i" "Han et al., 2011" -"MONOMER0-1603" "MTLAQFAMIFWHDLAAPILAGIITAAIVSWWRNRK" "i" "Han et al., 2011" -"MONOMER0-1604" "MKHNPLVVCLLIICITILTFTLLTRQTLYELRFRDGDKEVAALMACTSR" "i" "Han et al., 2011" -"MONOMER0-1605" "MPQKYRLLSLIVICFTLLFFTWMIRDSLCELHIKQESYELAAFLACKLKE" "i" "Han et al., 2011" -"MONOMER0-1641" "MQHELQPDSLVDLKFIMADTGFGKTFIYDRIKSGDLPKAKVIHGRARWLYRDHCEFKNKLLSRANG" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-1701" "VNIEELKKQAETEIADFIAQKIAELNKNTGKEVSEIRFTAREKMTGLESYDVKIKIM" "c" "Han et al., 2011" -"MONOMER0-185" "MQAEILLTLKLQQKLFADPRRISLLKHIALSGSISQGAKDAGISYKSAWDAINEMNQLSEHILVERATGGKGGGGAVLTRYGQRLIQLYDLLAQIQQKAFDVLSDDDALPLNSLLAAISRFSLQTSARNQWFGTITARDHDDVQQHVDVLLADGKTRLKVAITAQSGARLGLDEGKEVLILLKAPWVGITQDEAVAQNADNQLPGIISHIERGAEQCEVLMALPDGQTLCATVPVNEATSLQQGQNVTAYFNADSVIIATLC" "i" "EcoCyc dump" -"MONOMER0-1922" "MNLVDIAILILKLIVAALQLLDAVLKYLK" "i" "Unambiguous EcoCyc data" -"MONOMER0-1941" "VIDKAIIVLGALIALLELIRFLLQLLN" "m" "Unambiguous EcoCyc data" -"MONOMER0-1981" "MSCPVIELTQQLIRRPSLSPDDAGCQALLIERLQAIGFTVERMDFADTQNFWAWRGQGETLAFAGHTDVVPPGDADRWINPPFEPTIRDGMLFGRGAADMKGSLAAMVVAAERFVAQHPNHTGRLAFLITSDEEASAHNGTVKVVEALMARNERLDYCLVGEPSSIEVVGDVVKNGRRGSLTCNLTIHGVQGHVAYPHLADNPVHRAAPFLNELVAIEWDQGNEFFPATSMQIANIQAGTGSNNVIPGELFVQFNFRFSTELTDEMIKAQVLALLEKHQLRYTVDWWLSGQPFLTARGKLVDAVVNAVEHYNEIKPQLLTTGGTSDGRFIARMGAQVVELGPVNATIHKINECVNAADLQLLARMYQRIMEQLVA" "c" "Han et al., 2011" -"MONOMER0-2001" "MQQLQNIIETAFERRAEITPANADTVTREAVNQVIALLDSGALRVAEKIDGQWVTHQWLKKAVLLSFRINDNQVIEGAESRYFDKVPMKFADYDEARFQKEGFRVVPPAAVRQGAFIARNTVLMPSYVNIGAYVDEGTMVDTWATVGSCAQIGKNVHLSGGVGIGGVLEPLQANPTIIEDNCFIGARSEVVEGVIVEEGSVISMGVYIGQSTRIYDRETGEIHYGRVPAGSVVVSGNLPSKDGKYSLYCAVIVKKVDAKTRGKVGINELLRTID" "c" "Lopez-Campistrous et al., 2005" -"MONOMER0-2121" "MKKILVACGTGMSTSTMIAHKLQEFLTEQGISATTAQCCLNEIPLNCNGMDLIVTSMRTNSDYGIPTLNGAALLTGINDDALKQQIKALLTQ" "c" "Han et al., 2011" -"MONOMER0-2141" "MNNSNNLDYFTLYIIFSIAFMLITLLVILIAKPSTGLGEVLVTINLLNALVWLAINLVNRLRERLVNHRDQQ" "i" "Han et al., 2011" -"MONOMER0-2383" "MSYQVLARKWRPQTFADVVGQEHVLTALANGLSLGRIHHAYLFSGTRGVGKTSIARLLAKGLNCETGITATPCGVCDNCREIEQGRFVDLIEIDAASRTKVEDTRDLLDNVQYAPARGRFKVYLIDEVHMLSRHSFNALLKTLEEPPEHVKFLLATTDPQKLPVTILSRCLQFHLKALDVEQIRHQLEHILNEEHIAHEPRALQLLARAAEGSLRDALSLTDQAIASGDGQVSTQAVSAMLGTLDDDQALSLVEAMVEANGERVMALINEAAARGIEWEALLVEMLGLLHRIAMVQLSPAALGNDMAAIELRMRELARTIPPTDIQLYYQTLLIGRKELPYAPDRRMGVEMTLLRALAFHPRMPLPEPEVPRQSFAPVAPTAVMTPTQVPPQPQSAPQQAPTVPLPETTSQVLAARQQLQRVQGATKAKKE" "c" "Unambiguous EcoCyc data" -"MONOMER0-2488" "MSEKSIVQEARDIQLAMELITLGARLQMLESETQLSRGRLIKLYKELRGSPPPKGMLPFSTDWFMTWEQNVHASMFCNAWQFLLKTGLCNGVDAVIKAYRLYLEQCPQAEEGPLLALTRAWTLVRFVESGLLQLSSCNCCGGNFITHAHQPVGSFACSLCQPPSRAVKRRKLSQNPADIIPQLLDEQRVQAV" "c" "Han et al., 2011" -"MONOMER0-2489" "VNIYIGWLFKLIPLIMGLICIALGGFVLESSGQSEYFVAGHVLISLAAICLALFTTAFIIISQLTRGVNTFYNTLFPIIGYAGSIITMIWGWALLAGNDVMADEFVAGHVIFGVGMIAACVSTVAASSGHFLLIPKNAAGSKSDGTPVQAYSSLIGNCLIAVPVLLTLLGFIWSITLLRSADITPHYVAGHVLLGLTAICACLIGLVATIVHQTRNTFSTKEHWLWCYWVIFLGSITVLQGIYVLVSSDASARLAPGIILICLGMICYSIFSKVWLLALVWRRTCSLANRIPMIPVFTCLFCLFLASFLAEMAQTDMGYFIPSRVLVGLGAVCFTLFSIVSILEAGSAKK" "i" "Han et al., 2011" -"MONOMER0-2653" "MNEDDYKIRRGNAAELFSGIRHIAINILTNEKVFKAGLRRKMRKAAMDRNYLASVLAGSGLS" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-2654" "MKIISKRRAMTIYRQHPESRIFRYCTGKYQWHGSVCHYTGRDVPDIAGVLAVYAERRQDRNGPYTCLMSITLN" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-2655" "MSGKRYPEEFKTEAVKQVVDLGYSVASVATRLDITTHSLYAWIKKYGPDSSTNKEQSDAQAEIRRLQKELKRVTDERDILKKAAVDSICQCNTPFNYLFRCFELQCLSRSVV" "c" "Han et al., 2011" -"MONOMER0-2656" "MKVLNSLRTAKERHPDCQIVKRKGRLYVICKSNPRFKAVQGRKKKR" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-2657" "MMFEFNMAELLRHRWGRLRLYRFPGSVLTDYRILKNYAKTLTGAGV" "c" "Han et al., 2011" -"MONOMER0-2658" "MRKLKMMLCVMMLPLVVVGCTSKQSVSQCVKPPRPPAWIMQPPPDWQTPLNGIISPSERG" "m" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-2659" "MAFSNPFDDPQGAFYILRNAQGQFSLWPQQCVLPAGWDIVCQPQSQASCQQWLEAHWRTLTPTNFTQLQEAQ" "c" "Han et al., 2011" -"MONOMER0-2660" "MFDSLAKAGKYLGQAAKLMIGMPDYDNYVEHMRVNHPDQTPMTYEEFFRERQDARYGGKGGARCC" "c" "Han et al., 2011" -"MONOMER0-2662" "MELKKLMEHISITPDYRQAWKVVHKLSDILLLTICAVISGAEGWEDIEDFGETHLDFLKQYGDFENGIPVHDTIARVVSQGKIT" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-2663" "MWYFAWILGTLLACSFGVITALALEHVESGKAGQEDI" "i" "Han et al., 2011" -"MONOMER0-2665" "MANHRGGSGNFAEDRERASEAGKKGGQHSGGNFKNDPQRASEAGKKGGKSSHGKSDN" "c" "Han et al., 2011" -"MONOMER0-2666" "VNTIHLRCLFRMNPLVWCLRADVAAELRSLRRYYHLSNGMESKSVDTRSIYRELGATLSYNMRLGNGMEMNPG" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-2667" "VVRAGALNDYHAGENITIHFDMTKCHFFDAETEIAIR" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-2668" "MKNVLILGAGGQIARHVINQLADKQTIKQTLFARQPAKIHKPYPTNKMQTTSGKKVIQDR" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-2670" "MQKIDLGNNESLVCGVFPNQDGTFTAMTYTKSKTFKTETGARRWLEKHTVS" "c" "Han et al., 2011" -"MONOMER0-2671" "MRKLKMMLCVMMLPLVVVGCTSKQSVSQCVKPPPPPAWIMQPPPDWQTPLNGIISPSGNDW" "m" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-2672" "MRAAFWVGCAALLLSACSSEPVQQATAAHVAPGLKASMSSSGEANCAMIGGSLSVARQLDGTAIGMCALPNGKRCSEQSLAAGSCGSY" "p" "Han et al., 2011" -"MONOMER0-2673" "VKQSEFRRWLESQGVDVANGSNHLKLRFHGRRSVMPRHPCDEIKEPLRKAILKQLGLS" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-2674" "MSTKNRTRRTTTRNIRFPNQMIEQINIALEQKGSGNFSAWVIEACRRRLCSEKRVSSEANKEKSDITELLRKQVRPD" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-2675" "MPTKRFDKKHWKMVVVLLAICGAMLLLRWAAMIWG" "i" "Han et al., 2011" -"MONOMER0-2676" "MRFIIRTVMLIALVWIGLLLSGYGVLIGSKENAAGLGLQCTYLTARGTSTVQYLHTKSGFLGITDCPLLRKSNIVVDNG" "i" "Han et al., 2011" -"MONOMER0-2677" "MSQPLNADQELVSDVVACQLVIKQILDVLDVIAPVEVREKMSSQLKNIDFTNHPAAADPVTMRAIQKAIALIELKFTPQGESH" "c" "Han et al., 2011" -"MONOMER0-2678" "MAGVRQHGWRAIPAVCSEYGADTLPDRYRSDGRCLLFWQQAGISALKQELEVKTPYRAMNHPVIGVVTKADLASMEQISLVKSWLREAGAHNVLVTSAVNNNGVTELFALLHTEEGCC" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-2680" "MIVQKELVAIYDYEVPVPEDPFSFRLEIHKCSELFTGSVYRLERFRLRPTFHQRDREDADPLINDALIYIRDECIDERKLRGESPETVIAIFNRELQNIFNQEIE" "c" "Han et al., 2011" -"MONOMER0-2681" "MRIAKIGVIALFLFMALGGIGGVMLAGYTFILRAG" "i" "Han et al., 2011" -"MONOMER0-2682" "MIWLTLVFASLLSVAGQLCQKQATCFVAINKRRKHIVLWLGLALACLGLAMVLWLLVLQNVPVGIAYPMLSLNFVWVTLAAVKLWHEPVSPRHWCGVAFIIGGIVILGSTV" "i" "Han et al., 2011" -"MONOMER0-2683" "MGYDSRLDHLAATSWYPFFNNVTTRGEIIEPYSLTLDEACQFLKIS" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-2684" "MEKEQLIEIANTIMPFGKYKGRRLIDLPEEYLLWFARKDEFPAGKLGELMQITLLIKTEGLTQLVQPLKRPL" "c" "Han et al., 2011" -"MONOMER0-2685" "MDWLAKYWWILVIVFLVGVLLNVIKDLKRVDHKKFLANKPELPPHRDFNDKWDDDDDWPKKDQPKK" "i" "Han et al., 2011" -"MONOMER0-2686" "MRIISKRRAMTIYRQHPESRIFRYCTGKYQWHGSVCHYTGRDVPDITGVLAVYAERRRTAADRMLD" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-2687" "MSRYQHTKGQIKDNAIEALLHDPLFRQRVEKNKKGKGSYMRKGKHGNRGNWEASGKKVNHFFTTGLLLSGAC" "c" "Han et al., 2011" -"MONOMER0-2688" "MAIRKRFIAGAKCPACQAQDSMAMWRENNIDIVECVKCGHQMREADKEARDHVRKDEQVIGIFHPD" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-2689" "MMMNAFFPAMALMVLVGCSIPSPVQKAQRVKVDPLRSLNMEALCKDQAAKRYNTGEQKIDVTAFEQFQGSYEMRGYTFRKEQFVCSFDADGHFLHLSMR" "p" "Han et al., 2011" -"MONOMER0-2690" "MGKLGENVPLLIDKAVDFMASSQAFREYLKKLPPRNAIPSGIPDESVPLYLQRLEYYRRLYRPKQVEGQ" "c" "Han et al., 2011" -"MONOMER0-2691" "MKPTTLLLIFTFFAMPGIVYAESPFSSLQSAKEKTTVLQDLRKICTPQASLSDEAWEKLMLSDENNKQHIREAIVAMERNNQSNYWEALGKVECPDM" "p" "Han et al., 2011" -"MONOMER0-2692" "MAPPLSPGSRVLIALIRVYQRLISPLLGPHCRFTPTCSSYGIEALRRFGVIKGSWLTVKRVLKCHPLHPGGDDPVPPGPFDTREH" "c" "Han et al., 2011" -"MONOMER0-2693" "MKNVFKALTVLLTLFSLTGCGLKGPLYFPPADKNAPPPTKPVETQTQSTVPDKNDRATGDGPSQVNY" "i" "Han et al., 2011" -"MONOMER0-2694" "MALFSKILIFYVIGVNISFVIIWFISHEKTHIRLLSAFLVGITWPMSLPVALLFSLF" "i" "Unambiguous EcoCyc data" -"MONOMER0-2695" "MNLSRQEQHTLHVLAKGRRIAHVRDSSGRVTSVECYSREGLLLTDCTLAVFKKLKTKKLIKSVNGQPYRINTTELNKVRAQLDNR" "c" "Han et al., 2011" -"MONOMER0-2696" "MLQRTLGSGWGVLLPGLLIAGLMYADLSSDQWRIVILMGLVLTPMMLYHKQLRHYILLPSCLALIAGIMLMIMNLNQG" "i" "Han et al., 2011" -"MONOMER0-2697" "MVKETLMFRWGIIFLVIALIAAALGFGGLAGTAAGAAKIVFVVGIILFLVSLFMGRKRP" "i" "Han et al., 2011" -"MONOMER0-2726" "MECRPGCGACCTAPSISSPIPGMPDGKPANTPCIQLDEQQRCKIFTSPLRPKVCAGLQASAEMCGNSRQQAMTWLIDLEMLTAP" "c" "Han et al., 2011" -"MONOMER0-2748" "VTHMTKTVSTSKKPRKQHSPEFRSEALKLAERIGVTAAARELSLYESQLYNWRSKQQNQQTSSERELEMSTEIARLKRQLAERDEELAILQKGRDILREAPEMKYVFIEKHQAEFSIKAMCRVLRVARSGWYTWCQRRTRISTRQQFRQHCDSVVLAAFTRSKQRYGAPRLTDELRAQGYPFNVKTVAASLRRQGLRAKASRKFSPVSYRAHGLPVSENLLEQDFYASGPNQKWAGDITYLRTDEGWLYLAVVIDLWSRAVIGWSMSPRMTAQLACDALQMALWRRKRPRNVIVHTDRGGQYCSADYQAQLKRHNLRGSMSAKGCCYDNACVESFFHSLKVECIHGEHFISREIMRATVFNYIECDYNRWRRHSWCGGLSPEQFENKNLA" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-2755" "VASVSISCPSCSATDGVVRNGKSTAGHQRYLCSHCRKTWQLQFTYTASQPGTHQKIIDMAMNGVGCRATARIMGVGLNTILRHLKKLRPQSVTSRIQPGSDVIVCAEMDEQWGYVGAKSRQRWLFYAYDSLRKTVVAHVFGERTMATLGRLMSLLSPFDVVIWMTDGWPLYESRLKGKLHVISKRYTQRIERHNLNLRQHLARLGRKSLSFSKSVELHDKVIGHYLNIKHYQ" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-2756" "VASVSISCPSCSATDGVVRNGKSTAGHQRYLCSHCRKTWQLQFTYTASQPGTHQKIIDMAMNGVGCRATARIMGVGLNTIFRHLKKLRPQSVTSRIQPGSDVIVCAEMDEQWGYVGAKSRQRWLFYAYDRLRKTVVAHVFGERTMATLGRLMSLLSPFDVVIWMTDGWPLYESRLKGKLHVISKRYTQRIERYNLNLRQHLARLGRKSLSFSKSVELHDKVIGHYLNIKHYQ" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-2757" "VASVSISCPSCSATDGVVRNGKSTAGHQRYLCSHCRKTWQLQFTYTASQPGTHQKIIDMAMNGVGCRATARIMGVGLNTIFRHLKKLRPQSVTSRIQPGSDVIVCAEMDEQWGYVGAKSRQRWLFYAYDRLRKTVVAHVFGERTMATLGRLMSLLSPFDVVIWMTDGWPLYESRLKGKLHVISKRYTQRIERHNLNLRQHLARLGRKSLSFSKSVEQHDKVIGHYLNIKHYQ" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-2761" "VIVLILVFRLVIGEQMIDVLGPEKRRRRTTQEKIAIVQQSFEPGMTVSLVARQHGVAASQLFLWRKQYQEGSLTAVAAGEQVVPASELAAAMKQIKELQRLLGKKTMENELLKEAVEYGRAKKVDSARALIARGWGVSLVSRCLRVSRAQLHVILRRTDDWMDGRRSRHTDDTDVLLRIHHVIGELPTYGYRRVWALLRRQAELDGMPAINAKRVYRIMRQNALLLERKPAVPPSKRAHTGRVAVKESNQRWCSDGFEFCCDNGERLRVTFALDCCDREALHWAVTTGGFNSETVQDVMLGAVERRFGNDLPSSPVEWLTDNGSCYRANETRQFARMLGLEPKNTAVRSPESNGIAESFVKTIKRDYISIMPKPDGLTAAKNLAEAFEHYNEWHPHSALGYRSPREYLRQRACNGLSDNRCLEI" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-2772" "MAQESVGLISVAHQAFVTIAGCGVNALSGLRMAQESVGLISVAHQAFATTAGCGVDALSGLRVARESVGLISVAHQAFVTIAGCGVNALSGLRVAREL" "m" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-2776" "MFTSVAQANAAVIEQIRRARPHWLDVQPASSLISELNEGKTLLHAGPPMRWQEMTGPMKGACVGACLFEGWAKDEAQALAILEQGK" "c" "Han et al., 2011" -"MONOMER0-2777" "LVTNLYQNMRANALADAELRRKAADELTCMTARINRGETIPEPVKQLPVMGGRPLNRAQALAKIAEIKAKFGLKGASV" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-2778" "MGWTEAADLIVKGMEGAINAKTVTYDFERLMEGAKLLKCSEFGEAIIENM" "m" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-2779" "MILWSVKKETDIRRGRHCVFLMHVHLLFVTRYRRQIFDHDATEKLRTYFSNVCADFEAELVEMDGEPDHVHLLINYPPKLAISSLVNSLKGVSGR" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-2780" "LWSPGYFASSCGGAPISVIRQYIEQQQTPGQVENRALYPRPEGWGFTAHRIKSAI" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-2781" "MTIEKHERSTKDLVKAAVSGWLGTALEFMDFKSHAC" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-2801" "MIRIISRANSVTSSNEVNRLVTGQIPHD" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-2812" "MRLHVKLKEFLSMFFMAILFFPAFNASLFFTGVKPLYSIIKCSTEIFYDWRMLILCFGFMSFSFLNIHVILLTIIKSFLIKKTKVVNFATDITIQLTLIFLLIAIVIAPLIAPFVTGYVNTNYHPCGNNTGIFPGAIYIKNGMKCNNGYISRKEDSAVK" "m" "Unambiguous EcoCyc data" -"MONOMER0-2813" "MRTYNPNSLLPSQMQKCTCNSLHLAFDLCGGEA" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-2814" "MSTKNRTRRTTTRNIRFPNQMIEQINIALEQKGSGNFSAWVIEACRRRLTSEKRAYTSIKSDEE" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-2815" "MQKPLPVRWLIIQGLTENEHCGIQAYACNTESQEDLYAEVPLVGRLTGIEEVKVEAIAMSKLHNMSCPPYMGHSAAVIFHLIYLS" "m" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-2817" "MWYLLWFVGILLMCSLSTLVLVWLDPRLKS" "o" "Unambiguous EcoCyc data" -"MONOMER0-2818" "MSYSSFKIILIHVKNIIPIITATLILNYLNNSERSLVKQILIEDEIIVCATYLIPDI" "m" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-2819" "VSRRYSSATITLVILFCRRPHCRKISVRQYYQKRVIFYPTTLQRTACKKCLFLMRDIIISS" "m" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-282" "MKKSTLALVVMGIVASASVQAAEIYNKDGNKLDVYGKVKAMHYMSDNASKDGDQSYIRFGFKGETQINDQLTGYGRWEAEFAGNKAESDTAQQKTRLAFAGLKYKDLGSFDYGRNLGALYDVEAWTDMFPEFGGDSSAQTDNFMTKRASGLATYRNTDFFGVIDGLNLTLQYQGKNENRDVKKQNGDGFGTSLTYDFGGSDFAISGAYTNSDRTNEQNLQSRGTGKRAEAWATGLKYDANNIYLATFYSETRKMTPITGGFANKTQNFEAVAQYQFDFGLRPSLGYVLSKGKDIEGIGDEDLVNYIDVGATYYFNKNMSAFVDYKINQLDSDNKLNINNDDIVAVGMTYQF" "e" "EcoCyc dump" -"MONOMER0-2820" "MSEFDAQRVAERIDIVLDILVAGDYHSAIHNLEILKAELLRQVAESTPDIPKAPWEI" "m" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-2821" "MVGRYRFEFILIILILCALITARFYLS" "m" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-2822" "MSTDLKFSLVTTIIVLGLIVAVGLTAALH" "m" "Unambiguous EcoCyc data" -"MONOMER0-2823" "MHTPIGVKPVAGSKEWREAWQKRAFAHISNGYKYIYIAIDSPEIFLLVCSLIRI" "m" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-2824" "MTLLQVHNFVDNSGRKKWLSRTLGQTRCPGKSMGREKFVKNNCSAIS" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-2825" "MLSTESWDNCEKPPLLFPFTALTCDETPVFSGSVLNLVAHSVDKYGIG" "m" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-2826" "MEKLTTELHSLSEMDRRHVVSILAEIANGYDDFNDMLIYLEFYPNHKILIS" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-2827" "LADKAILWALISASTKEGRKACSLSYFACKAAEAELGLAYMAANDNKEFLTSLSNIMRYKIDAGLSESYTCYLLSKGKIIRPYLKNLNPLQLAADCIETVNKIKDKNKKNH" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-2828" "MKRNLIKVVKMKPYFAALMLSVSVLPAYAGPLGTADKADLPQSNVSSPMMAQSLRQPDLQPISTDRKTECFRLYTPDRKPGVNCVPDGSTGH" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-2829" "MNISYVNSNKTTSLPVELDALNNKDISYAKDFFLYIETQLKIAKDFLDLEKKYQVLLQVKFFTHLLI" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-2830" "MPTVLSRMAMQLKKTAWIIPVFMVSGCSLSPAIPVIGAYYPSWFFCAIASLILTLITRRVIQRANINLAFVGIIYTALFALYAMLFWLAFF" "i" "Unambiguous EcoCyc data" -"MONOMER0-2840" "MIKNFIFDNLIILAVPFMIKTSLKTNLIFFFLCVFVPHMAS" "i" "Unambiguous EcoCyc data" -"MONOMER0-2841" "MHATTVKNKITQRDNYKEIMSAIVVVLLLTLTLIAIFSAIDQLSISEMGRIARDLTHFIINSLQG" "i" "Han et al., 2011" -"MONOMER0-2842" "MRQFYQHYFTATAKLCWLRWLSVPQRLTMLEGLMQWDDRNSES" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-2851" "MSKPKYPFEKRLEVVNHYFTTDDGYRIISARFGVPRTQVRTWVALYEKHGEKGLIPKPKGVSADPELRIKVVKAVIEQHMSLNQAAAHFMLAGSGSVARWLKVYEERGEAGLRALKIGTKRNIAISVDPEKAASALELSKDRRIEDLERQVRFLETRLMYLKKAESLSSSHEKVKVLNELRQFYPLDELLRAAEIPRSTFYYHLKALSKPDKYADVKKRISEIYHENRGRYGYRRVTLSLHREGKQINHKAVQRLMGTLSLKAAIKVKRYRSYRGEVGQTAPNVLQRDFKATRPNEKWVTDVTEFAVNGRKLYLSPVIDLFNNEVISYSLSERPVMNMVENMLDQAFKKLNPHEHPVLHSDQGWQYRMRRYQNILKEHGIKQSMSRKGNCLDNAVVECFFGTLKSECFYLDEFSNISELKDAVTEYIEYYNSRRISLKLKGLTPIEYRNQTYMPR" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-2855" "MMKLVIILVVLLLLSFPTY" "m" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-2856" "MMKLVIILIVLLLVSFAAY" "m" "Unambiguous EcoCyc data" -"MONOMER0-2857" "MMRLVIILIVLLLISFSAY" "m" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-2858" "MMKLLIIVVLLVISFPAY" "m" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-2859" "MMKHVIILVILLVISFQAY" "m" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-2860" "MTDCRYLIKRVIKIIIAVLQLILLFL" "m" "Unambiguous EcoCyc data" -"MONOMER0-2868" "MNNSTKFCFSRFRTGN" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-2869" "MRFYFYSQAVDESGVTR" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-2870" "MGQFFAYATVITVKENDHVA" "m" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-2871" "MYIFITHFFTEYVILKYLLPI" "m" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-2872" "MKHIQIRNSDMDWHIAANNLG" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-2873" "MKYINCVYNINYKLKPHSHYK" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-2874" "VKYFFMGISFMVIVWAGTFALMI" "i" "Unambiguous EcoCyc data" -"MONOMER0-2875" "MKKTTIIMMGVAIIVVLGTELGWW" "i" "Unambiguous EcoCyc data" -"MONOMER0-2876" "MRIGIIFPVVIFITAVVFLAWFFIGGYAAPGA" "i" "Unambiguous EcoCyc data" -"MONOMER0-2877" "MKDVDQIFDALDCHILREYLILLFYD" "m" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-2878" "MKIADQFHDELCRLAAINFEAHVLHG" "m" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-2879" "MKIILWAVLIIFLIGLLVVTGVFKMIF" "i" "Unambiguous EcoCyc data" -"MONOMER0-2880" "MKLRKILKSMFNNYCKTFKDVPPGNMFR" "i" "Unambiguous EcoCyc data" -"MONOMER0-2881" "MKENKVQQISHKLINIVVFVAIVEYAYLFLHFY" "i" "Unambiguous EcoCyc data" -"MONOMER0-2882" "MSEENKENGFNHVKTFTKIIFIFSVLVFNDNEYKITDAAVNLFIQI" "m" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-2883" "MNFLMRAIFSLLLLFTLSIPVISDCVAMAIESRFKYMMLLF" "m" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-2884" "MLESIINLVSSGAVDSHTPQTAVAAVLCAAMIGLFS" "m" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-2885" "MPSGNQEPRRDPELKRKAWLAVFLGSALFWVVVALLIWKVWG" "m" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-2886" "MVGQEQLESSPLCQHSDNETETKRECSVVIPDDWQLTSQQQAFIELFAEDDQPKQ" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-341" "MRTLQGWLLPVFMLPMAVYAQEATVKEVHDAPAVRGSIIANMLQEHDNPFTLYPYDTNYLIYTQTSDLNKEAIASYDWAENARKDEVKFQLSLAFPLWRGILGPNSVLGASYTQKSWWQLSNSEESSPFRETNYEPQLFLGFATDYRFAGWTLRDVEMGYNHDSNGRSDPTSRSWNRLYTRLMAENGNWLVEVKPWYVVGNTDDNPDITKYMGYYQLKIGYHLGDAVLSAKGQYNWNTGYGGAELGLSYPITKHVRLYTQVYSGYGESLIDYNFNQTRVGVGVMLNDLF" "e" "EcoCyc dump" -"MONOMER0-4201" "MEPDPTPLPRRRLKLFR" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-4214" "MKNRVYESLTTVFSVLVVSSFLYIWFATY" "m" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-4216" "MNEFKRCMRVFSHSPFKVRLMLLSMLCDMVNNKPQQDKPSDK" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-422" "MKKILEAILAINLAVLSCIVFINIILRYGFQTSILSVDELSRYLFVWLTFIGAIVAFMDNAHVQVTFLVEKLSPAWQRRVALVTHSLILFICGALAWGATLKTIQDWSDYSPILGLPIGLMYAACLPTSLVIAFFELRHLYQLITRSNSLTSPPQGA" "i" "Han et al., 2011" -"MONOMER0-4224" "MKPALRDFIAIVQERLASVTA" "m" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-4225" "VASVSISCPSCSATDGVVRNGKSTAGHQRYLCSHCRKTWQLQFTYTASQPGTHQKIIDMAMNGVGCRATARIMGVGLNTILRHLKNSGRSR" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-4226" "VASVSISCPSCSATDGVVRNGKSTAGHQRYLCSHCRKTWQLQFTYTASQPGTHQKIIDMAMNGVGCRATARIMGVGLNTILRHLKNSGRSR" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-4227" "VASVSISCPSCSATDGVVRNGKSTAGHQRYLCSHCRKTWQLQFTYTASQPGTHQKIIDMAMNGVGCRATARIMGVGLNTIFRHLKNSGRSR" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-4228" "VASVSISCPSCSATDGVVRNGKSTAGHQRYLCSHCRKTWQLQFTYTASQPGTHQKIIDMAMNGVGCRATARIMGVGLNTIFRHLKNSGRSR" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-4229" "VASVSISCPSCSATDGVVRNGKSTAGHQRYLCSHCRKTWQLQFTYTASQPGTHQKIIDMAMNGVGCRATARIMGVGLNTILRHLKKLRPQSVTSRIQPGSDVIVCAEMDEQWGYVGAKSRQRWLFYAYDSLRKTVVAHVFGERTMATLGRLMSLLSPFDVVIWMTDGWPLYESRLKGKLHVISKRYTQRIERHNLNLRQHLARLGRKSLSFSKSVELHDKVIGHYLNIKHYQ" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-4230" "VASVSISCPSCSATDGVVRNGKSTAGHQRYLCSHCRKTWQLQFTYTASQPGTHQKIIDMAMNGVGCRATARIMGVGLNTILRHLKKLRPQSVTSRIQPGSDVIVCAEMDEQWGYVGAKSRQRWLFYAYDSLRKTVVAHVFGERTMATLGRLMSLLSPFDVVIWMTDGWPLYESRLKGKLHVISKRYTQRIERHNLNLRQHLARLGRKSLSFSKSVELHDKVIGHYLNIKHYQ" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-4231" "VASVSISCPSCSATDGVVRNGKSTAGHQRYLCSHCRKTWQLQFTYTASQPGTHQKIIDMAMNGVGCRATARIMGVGLNTIFRHLKKLRPQSVTSRIQPGSDVIVCAEMDEQWGYVGAKSRQRWLFYAYDRLRKTVVAHVFGERTMATLGRLMSLLSPFDVVIWMTDGWPLYESRLKGKLHVISKRYTQRIERHNLNLRQHLARLGRKSLSFSKSVEQHDKVIGHYLNIKHYQ" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-4232" "MNYSHDNWSAILAHIGKPEELDTSARNAGALTRRREIRDAATLLRLGLAYGPGGMSLREVTAWAQLHDVATLSDVALLKRLRNAADWFGILAAQTLAVRAAVTGCTSGKRLRLVDGTAISAPGGGSAEWRLHMGYDPHTCQFTDFELTDSRDAERLDRFAQTADEIRIADRGFGSRPECIRSLAFGEADYIVRVHWRGLRWLTAEGMRFDMMGFLRGLDCGKNGETTVMIGNSGNKKAGAPFPARLIAVSLPPEKALISKTRLLSENRRKGRVVQAETLEAAGHVLLLTSLPEDEYSAEQVADCYRLRWQIELAFKRLKSLLHLDALRAKEPELAKAWIFANLLAAFLIDDIIQPSLDFPPRSAGSEKKN" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-4233" "MRRTFTAEEKASVFELWKNGTGFSEIANILGSKPGTIFTMLRDTGGIKPHERKRAVAHLTLSEREEIRAGLSAKMSIRAIATALNRSPSTISREVQRNRGRRYYKAVDANNRANRMAKRPKPCLLDQNLPLRKLVLEKLEMKWSPEQISGWLRRTKPRQKTLRISPETIYKTLYFRSREALHHLNIQHLRRSHSLRHGRRHTRKGERGTINIVNGTPIHERSRNIDNRRSLGHWEGDLVSGTKNSHIATLVDRKSRYTIILRLRGKDSVSVNQALTDKFLSLPSELRKSLTWDRGMELARHLEFTVSTGVKVYFCDPQSPWQRGTNENTNGLIRQYFPKKTCLAQYTQHELDLVAAQLNNRPRKTLKFKTPKEIIERGVALTD" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-4234" "MFVIWSHRTGFIMSHQLTFADSEFSSKRRQTRKEIFLSRMEQILPWQNMVEVIEPFYPKAGNGRRPYPLETMLRIHCMQHWYNLSDGAMEDALYEIASMRLFARLSLDSALPDRTTIMNFRHLLEQHQLARQLFKTINRWLAEAGVMMTQGTLVDATIIEAPSSTKNKEQQRDPEMHQTKKGNQWHFGMKAHIGVDAKSGLTHSLVTTAANEHDLNQLGNLLHGEEQFVSADAGYQGAPQREELAEVDVDWLIAERPGKVRTLKQHPRKNKTAINIEYMKASIRARVEHPFRIIKRQFGFVKARYKGLLKNDNQLAMLFTLANLFRADQMIRQWERSH" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-4235" "MFVIWSHRTGFIMSHQLTFADSEFSSKRRQTRKEIFLSRMEQILPWQNMVEVIEPFYPKAGNGRRPYPLETMLRIHCMQHWYNLSDGAMEDALYEIASMRLFARLSLDSALPDRTTIMNFRHLLEQHQLARQLFKTINRWLAEAGVMMTQGTLVDATIIEAPSSTKNKEQQRDPEMHQTKKGNQWHFGMKAHIGVDAKSGLTHSLVTTAANEHDLNQLGNLLHGEEQFVSADAGYQGAPQREELAEVDVDWLIAERPGKVRTLKQHPRKNKTAINIEYMKASIRARVEHPFRIIKRQFGFVKARYKGLLKNDNQLAMLFTLANLFRADQMIRQWERSH" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-4236" "MFVIWSHRTGFIMSHQLTFADSEFSSKRRQTRKEIFLSRMEQILPWQNMVEVIEPFYPKAGNGRRPYPLETMLRIHCMQHWYNLSDGAMEDALYEIASMRLFARLSLDSALPDRTTIMNFRHLLEQHQLARQLFKTINRWLAEAGVMMTQGTLVDATIIEAPSSTKNKEQQRDPEMHQTKKGNQWHFGMKAHIGVDAKSGLTHSLVTTAANEHDLNQLGNLLHGEEQFVSADAGYQGAPQREELAEVDVDWLIAERPGKVRTLKQHPRKNKTAINIEYMKASIRARVEHPFRIIKRQFGFVKARYKGLLKNDNQLAMLFTLANLFRADQMIRQWERSH" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-4237" "MFVIWSHRTGFIMSHQLTFADSEFSSKRRQTRKEIFLSRMEQILPWQNMVEVIEPFYPKAGNGRRPYPLETMLRIHCMQHWYNLSDGAMEDALYEIASMRLFARLSLDSALPDRTTIMNFRHLLEQHQLARQLFKTINRWLAEAGVMMTQGTLVDATIIEAPSSTKNKEQQRDPEMHQTKKGNQWHFGMKAHIGVDAKSGLTHSLVTTAANEHDLNQLGNLLHGEEQFVSADAGYQGAPQREELAEVDVDWLIAERPGKVRTLKQHPRKNKTAINIEYMKASIRARVEHPFRIIKRQFGFVKARYKGLLKNDNQLAMLFTLANLFRADQMIRQWERSH" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-4238" "MFVIWSHRTGFIMSHQLTFADSEFSSKRRQTRKEIFLSRMEQILPWQNMVEVIEPFYPKAGNGRRPYPLETMLRIHCMQHWYNLSDGAMEDALYEIASMRLFARLSLDSALPDRTTIMNFRHLLEQHQLARQLFKTINRWLAEAGVMMTQGTLVDATIIEAPSSTKNKEQQRDPEMHQTKKGNQWHFGMKAHIGVDAKSGLTHSLVTTAANEHDLNQLGNLLHGEEQFVSADAGYQGAPQREELAEVDVDWLIAERPGKVRTLKQHPRKNKTAINIEYMKASIRARVEHPFRIIKRQFGFVKARYKGLLKNDNQLAMLFTLANLFRADQMIRQWERSH" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-4239" "MFVIWSHRTGFIMSHQLTFADSEFSSKRRQTRKEIFLSRMEQILPWQNMVEVIEPFYPKAGNGRRPYPLETMLRIHCMQHWYNLSDGAMEDALYEIASMRLFARLSLDSALPDRTTIMNFRHLLEQHQLARQLFKTINRWLAEAGVMMTQGTLVDATIIEAPSSTKNKEQQRDPEMHQTKKGNQWHFGMKAHIGVDAKSGLTHSLVTTAANEHDLNQLGNLLHGEEQFVSADAGYQGAPQREELAEVDVDWLIAERPGKVRTLKQHPRKNKTAINIEYMKASIRARVEHPFRIIKRQFGFVKARYKGLLKNDNQLAMLFTLANLFRADQMIRQWERSH" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-4240" "MFVIWSHRTGFIMSHQLTFADSEFSSKRRQTRKEIFLSRMEQILPWQNMVEVIEPFYPKAGNGRRPYPLETMLRIHCMQHWYNLSDGAMEDALYEIASMRLFARLSLDSALPDRTTIMNFRHLLEQHQLARQLFKTINRWLAEAGVMMTQGTLVDATIIEAPSSTKNKEQQRDPEMHQTKKGNQWHFGMKAHIGVDAKSGLTHSLVTTAANEHDLNQLGNLLHGEEQFVSADAGYQGAPQREELAEVDVDWLIAERPGKVRTLKQHPRKNKTAINIEYMKASIRARVEHPFRIIKRQFGFVKARYKGLLKNDNQLAMLFTLANLFRADQMIRQWERSH" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-4241" "MFVIWSHRTGFIMSHQLTFADSEFSSKRRQTRKEIFLSRMEQILPWQNMVEVIEPFYPKAGNGRRPYPLETMLRIHCMQHWYNLSDGAMEDALYEIASMRLFARLSLDSALPDRTTIMNFRHLLEQHQLARQLFKTINRWLAEAGVMMTQGTLVDATIIEAPSSTKNKEQQRDPEMHQTKKGNQWHFGMKAHIGVDAKSGLTHSLVTTAANEHDLNQLGNLLHGEEQFVSADAGYQGAPQREELAEVDVDWLIAERPGKVRTLKQHPRKNKTAINIEYMKASIRARVEHPFRIIKRQFGFVKARYKGLLKNDNQLAMLFTLANLFRADQMIRQWERSH" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-4242" "VTHMTKTVSTSKKPRKQHSPEFRSEALKLAERIGVTAAARELSLYESQLYNWRSKQQNQQTSSERELEMSTEIARLKRQLAERDEELAILQKAATYFAKRLK" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-4243" "VTHMTKTVSTSKKPRKQHSPEFRSEALKLAERIGVTAAARELSLYESQLYNWRSKQQNQQTSSERELEMSTEIARLKRQLAERDEELAILQKAATYFAKRLK" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-4244" "VTHMTKTVSTSKKPRKQHSPEFRSEALKLAERIGVTAAARELSLYESQLYNWRSKQQNQQTSSERELEMSTEIARLKRQLAERDEELAILQKAATYFAKRLK" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-4245" "VTHMTKTVSTSKKPRKQHSPEFRSEALKLAERIGVTAAARELSLYESQLYNWRSKQQNQQTSSERELEMSTEIARLKRQLAERDEELAILQKAATYFAKRLK" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-4246" "VTHMTKTVSTSKKPRKQHSPEFRSEALKLAERIGVTAAARELSLYESQLYNWRSKQQNQQTSSERELEMSTEIARLKRQLAERDEELAILQKGRDILREAPEMKYVFIEKHQAEFSIKAMCRVLRVARSGWYTWCQRRTRISTRQQFRQHCDSVVLAAFTRSKQRYGAPRLTDELRAQGYPFNVKTVAASLRRQGLRAKASRKFSPVSYRAHGLPVSENLLEQDFYASGPNQKWAGDITYLRTDEGWLYLAVVIDLWSRAVIGWSMSPRMTAQLACDALQMALWRRKRPRNVIVHTDRGGQYCSADYQAQLKRHNLRGSMSAKGCCYDNACVESFFHSLKVECIHGEHFISREIMRATVFNYIECDYNRWRRHSWCGGLSPEQFENKNLA" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-4247" "VTHMTKTVSTSKKPRKQHSPEFRSEALKLAERIGVTAAARELSLYESQLYNWRSKQQNQQTSSERELEMSTEIARLKRQLAERDEELAILQKGRDILREAPEMKYVFIEKHQAEFSIKAMCRVLRVARSGWYTWCQRRTRISTRQQFRQHCDSVVLAAFTRSKQRYGAPRLTDELRAQGYPFNVKTVAASLRRQGLRAKASRKFSPVSYRAHGLPVSENLLEQDFYASGPNQKWAGDITYLRTDEGWLYLAVVIDLWSRAVIGWSMSPRMTAQLACDALQMALWRRKRPRNVIVHTDRGGQYCSADYQAQLKRHNLRGSMSAKGCCYDNACVESFFHSLKVECIHGEHFISREIMRATVFNYIECDYNRWRRHSWCGGLSPEQFENKNLA" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-4248" "VTHMTKTVSTSKKPRKQHSPEFRSEALKLAERIGVTAAARELSLYESQLYNWRSKQQNQQTSSERELEMSTEIARLKRQLAERDEELAILQKGRDILREAPEMKYVFIEKHQAEFSIKAMCRVLRVARSGWYTWCQRRTRISTRQQFRQHCDSVVLAAFTRSKQRYGAPRLTDELRAQGYPFNVKTVAASLRRQGLRAKASRKFSPVSYRAHGLPVSENLLEQDFYASGPNQKWAGDITYLRTDEGWLYLAVVIDLWSRAVIGWSMSPRMTAQLACDALQMALWRRKRPRNVIVHTDRGGQYCSADYQAQLKRHNLRGSMSAKGCCYDNACVESFFHSLKVECIHGEHFISREIMRATVFNYIECDYNRWRRHSWCGGLSPEQFENKNLA" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-4249" "VTHMTKTVSTSKKPRKQHSPEFRSEALKLAERIGVTAAARELSLYESQLYNWRSKQQNQQTSSERELEMSTEIARLKRQLAERDEELAILQKGRDILREAPEMKYVFIEKHQAEFSIKAMCRVLRVARSGWYTWCQRRTRISTRQQFRQHCDSVVLAAFTRSKQRYGAPRLTDELRAQGYPFNVKTVAASLRRQGLRAKASRKFSPVSYRAHGLPVSENLLEQDFYASGPNQKWAGDITYLRTDEGWLYLAVVIDLWSRAVIGWSMSPRMTAQLACDALQMALWRRKRPRNVIVHTDRGGQYCSADYQAQLKRHNLRGSMSAKGCCYDNACVESFFHSLKVECIHGEHFISREIMRATVFNYIECDYNRWRRHSWCGGLSPEQFENKNLA" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-4250" "VIVLILVFRLVIGEQMIDVLGPEKRRRRTTQEKIAIVQQSFEPGMTVSLVARQHGVAASQLFLWRKQYQEGSLTAVAAGEQVVPASELAAAMKQIKELQRLLGKKTMENELLKEAVEYGRAKKWIAHAPLLPGDGE" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-4251" "VIVLILVFRLVIGEQMIDVLGPEKRRRRTTQEKIAIVQQSFEPGMTVSLVARQHGVAASQLFLWRKQYQEGSLTAVAAGEQVVPASELAAAMKQIKELQRLLGKKTMENELLKEAVEYGRAKKWIAHAPLLPGDGE" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-4252" "VIVLILVFRLVIGEQMIDVLGPEKRRRRTTQEKIAIVQQSFEPGMTVSLVARQHGVAASQLFLWRKQYQEGSLTAVAAGEQVVPASELAAAMKQIKELQRLLGKKTMENELLKEAVEYGRAKKWIAHAPLLPGDGE" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-4253" "VIVLILVFRLVIGEQMIDVLGPEKRRRRTTQEKIAIVQQSFEPGMTVSLVARQHGVAASQLFLWRKQYQEGSLTAVAAGEQVVPASELAAAMKQIKELQRLLGKKTMENELLKEAVEYGRAKKWIAHAPLLPGDGE" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-4254" "VIVLILVFRLVIGEQMIDVLGPEKRRRRTTQEKIAIVQQSFEPGMTVSLVARQHGVAASQLFLWRKQYQEGSLTAVAAGEQVVPASELAAAMKQIKELQRLLGKKTMENELLKEAVEYGRAKKWIAHAPLLPGDGE" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-4255" "VIVLILVFRLVIGEQMIDVLGPEKRRRRTTQEKIAIVQQSFEPGMTVSLVARQHGVAASQLFLWRKQYQEGSLTAVAAGEQVVPASELAAAMKQIKELQRLLGKKTMENELLKEAVEYGRAKKVDSARALIARGWGVSLVSRCLRVSRAQLHVILRRTDDWMDGRRSRHTDDTDVLLRIHHVIGELPTYGYRRVWALLRRQAELDGMPAINAKRVYRIMRQNALLLERKPAVPPSKRAHTGRVAVKESNQRWCSDGFEFCCDNGERLRVTFALDCCDREALHWAVTTGGFNSETVQDVMLGAVERRFGNDLPSSPVEWLTDNGSCYRANETRQFARMLGLEPKNTAVRSPESNGIAESFVKTIKRDYISIMPKPDGLTAAKNLAEAFEHYNEWHPHSALGYRSPREYLRQRACNGLSDNRCLEI" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-4256" "VIVLILVFRLVIGEQMIDVLGPEKRRRRTTQEKIAIVQQSFEPGMTVSLVARQHGVAASQLFLWRKQYQEGSLTAVAAGEQVVPASELAAAMKQIKELQRLLGKKTMENELLKEAVEYGRAKKVDSARALIARGWGVSLVSRCLRVSRAQLHVILRRTDDWMDGRRSRHTDDTDVLLRIHHVIGELPTYGYRRVWALLRRQAELDGMPAINAKRVYRIMRQNALLLERKPAVPPSKRAHTGRVAVKESNQRWCSDGFEFCCDNGERLRVTFALDCCDREALHWAVTTGGFNSETVQDVMLGAVERRFGNDLPSSPVEWLTDNGSCYRANETRQFARMLGLEPKNTAVRSPESNGIAESFVKTIKRDYISIMPKPDGLTAAKNLAEAFEHYNEWHPHSALGYRSPREYLRQRACNGLSDNRCLEI" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-4257" "VIVLILVFRLVIGEQMIDVLGPEKRRRRTTQEKIAIVQQSFEPGMTVSLVARQHGVAASQLFLWRKQYQEGSLTAVAAGEQVVPASELAAAMKQIKELQRLLGKKTMENELLKEAVEYGRAKKVDSARALIARGWGVSLVSRCLRVSRAQLHVILRRTDDWMDGRRSRHTDDTDVLLRIHHVIGELPTYGYRRVWALLRRQAELDGMPAINAKRVYRIMRQNALLLERKPAVPPSKRAHTGRVAVKESNQRWCSDGFEFCCDNGERLRVTFALDCCDREALHWAVTTGGFNSETVQDVMLGAVERRFGNDLPSSPVEWLTDNGSCYRANETRQFARMLGLEPKNTAVRSPESNGIAESFVKTIKRDYISIMPKPDGLTAAKNLAEAFEHYNEWHPHSALGYRSPREYLRQRACNGLSDNRCLEI" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-4258" "VIVLILVFRLVIGEQMIDVLGPEKRRRRTTQEKIAIVQQSFEPGMTVSLVARQHGVAASQLFLWRKQYQEGSLTAVAAGEQVVPASELAAAMKQIKELQRLLGKKTMENELLKEAVEYGRAKKVDSARALIARGWGVSLVSRCLRVSRAQLHVILRRTDDWMDGRRSRHTDDTDVLLRIHHVIGELPTYGYRRVWALLRRQAELDGMPAINAKRVYRIMRQNALLLERKPAVPPSKRAHTGRVAVKESNQRWCSDGFEFCCDNGERLRVTFALDCCDREALHWAVTTGGFNSETVQDVMLGAVERRFGNDLPSSPVEWLTDNGSCYRANETRQFARMLGLEPKNTAVRSPESNGIAESFVKTIKRDYISIMPKPDGLTAAKNLAEAFEHYNEWHPHSALGYRSPREYLRQRACNGLSDNRCLEI" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-4259" "VIVLILVFRLVIGEQMIDVLGPEKRRRRTTQEKIAIVQQSFEPGMTVSLVARQHGVAASQLFLWRKQYQEGSLTAVAAGEQVVPASELAAAMKQIKELQRLLGKKTMENELLKEAVEYGRAKKVDSARALIARGWGVSLVSRCLRVSRAQLHVILRRTDDWMDGRRSRHTDDTDVLLRIHHVIGELPTYGYRRVWALLRRQAELDGMPAINAKRVYRIMRQNALLLERKPAVPPSKRAHTGRVAVKESNQRWCSDGFEFCCDNGERLRVTFALDCCDREALHWAVTTGGFNSETVQDVMLGAVERRFGNDLPSSPVEWLTDNGSCYRANETRQFARMLGLEPKNTAVRSPESNGIAESFVKTIKRDYISIMPKPDGLTAAKNLAEAFEHYNEWHPHSALGYRSPREYLRQRACNGLSDNRCLEI" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-5" "MAKEISSELLNTILTRVGGPGNIASCGNCMTRLRLGVHDSSLVDPNIKTLEGVKGVILTSDQVQVVFGPGKAHRAAKAMSELLGEAPVQDAAEIAAQNKRQLKAKQTSGVQQFLAKFATIFTPLIPGFIAAGLLLGIATLIATVMHVPADAQGTLPDALNFMKVFSKGLFTFLVILVGYNAAQAFGGTGVNGAIIAALFLLGYNPAATTGYYAGFHDFFGLPIDPRGNIIGVLIAAWACARIEGMVRRFMPDDLDMLLTSLITLLITATLAYLIIMPLGGWLFEGMSWLFMHLNSNPFGCAVLAGLFLIAVVFGVHQGFIPVYLALMDSQGFNSLFPILSMAGAGQVGAALALYWRAQPHSALRSQVRGAIIPGLLGVGEPLIYGVTLPRMKPFVTACLGGAAGGLFIGLIAWWGLPMGLNSAFGPSGLVALPLMTSAQGILPAMAVYAGGILVAWVCGFIFTTLFGCRNVNLD" "i" "Han et al., 2011" -"MONOMER0-541" "MNNHFKCIGIVGHPRHPTALTTHEMLYRWLCTKGYEVIVEQQIAHELQLKNVKTGTLAEIGQLADLAVVVGGDGNMLGAARTLARYDIKVIGINRGNLGFLTDLDPDNAQQQLADVLEGHYISEKRFLLEAQVCQQDCQKRISTAINEVVLHPGKVAHMIEFEVYIDEIFAFSQRSDGLIISTPTGSTAYSLSAGGPILTPSLDAITLVPMFPHTLSARPLVINSSSTIRLRFSHRRNDLEISCDSQIALPIQEGEDVLIRRCDYHLNLIHPKDYSYFNTLSTKLGWSKKLF" "c" "Han et al., 2011" -"MONOMER0-561" "MQTQLTEEMRQNARALEADSILRACVHCGFCTATCPTYQLLGDELDGPRGRIYLIKQVLEGNEVTLKTQEHLDRCLTCRNCETTCPSGVRYHNLLDIGRDIVEQKVKRPLPERILREGLRQVVPRPAVFRALTQVGLVLRPFLPEQVRAKLPAETVKAKPRPPLRHKRRVLMLEGCAQPTLSPNTNAATARVLDRLGISVMPANEAGCCGAVDYHLNAQEKGLARARNNIDAWWPAIEAGAEAILQTASGCGAFVKEYGQMLKNDALYADKARQVSELAVDLVELLREEPLEKLAIRGDKKLAFHCPCTLQHAQKLNGEVEKVLLRLGFTLTDVPDSHLCCGSAGTYALTHPDLARQLRDNKMNALESGKPEMIVTANIGCQTHLASAGRTSVRHWIEIVEQALEKE" "i" "Han et al., 2011" -"MONOMER0-6" "MAIKKRSATVVPGASGAAAAVKNPQASKTSFWGELPQHVMSGISRMVPTLIMGGVILAFSQLIAYSWLKIPAEIGIMDALNSGKFSGFDLSLLKFAWLSQSFGGVLFGFAIPMFAAFVANSIGGKLAFPAGFIGGLMSTQPTQLLNFDPSTMQWATSSPVPSTFIGALIISIVAGYLVKWMNQKIQLPDFLLAFKTTFLLPILSAIFVMLAMYYVITPFGGWINGGIRTVLTAAGEKGALMYAMGIAAATAIDLGGPINKAAGFVAFSFTTDHVLPVTARSIAIVIPPIGLGLATIIDRRLTGKRLFNAQLYPQGKTAMFLAFMGISEGAIPFALESPITAIPSYMVGAIVGSTAAVWLGAVQWFPESAIWAWPLVTNLGVYMAGIALGAVITALMVVFLRLMMFRKGKLLIDSL" "i" "Han et al., 2011" -"MONOMER0-741" "VEKYCELIRKRYAEIASGDLGYVPDALGCVLKVLNEMAADDALSEAVREKAAYAAANLLVSDYVNE" "c" "Han et al., 2011" -"MONOMER0-761" "MNVSSRTVVLINFFAAVGLFTLISMRFGWFI" "i" "Unambiguous EcoCyc data" -"MONOMER0-762" "MIERELGNWKDFIEVMLRK" "c" "Unambiguous EcoCyc data" -"MONOMER0-765" "MKRSRTEVGRWRMQRQASRRKSRWLEGQSRRNMRIHSIRKCILNKQRNSLLFAIYNI" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"MONOMER0-766" "MLGNMNVFMAVLGIILFSGFLAAYFSHKWDD" "i" "Unambiguous EcoCyc data" -"MONOMER0-82" "MIAELFTNNALNLVIIFGSCAALILMSFWFRRGNRKRKGFLFHAVQFLIYTIIISAVGSIINYVIENYKLKFITPGVIDFICTSLIAVILTIKLFLLINQFEKQQIKKGRDITSARIMSRIIKITIIVVLVLLYGEHFGMSLSGLLTFGGIGGLAVGMAGKDILSNFFSGIMLYFDRPFSIGDWIRSPDRNIEGTVAEIGWRITKITTFDNRPLYVPNSLFSSISVENPGRMTNRRITTTIGLRYEDAAKVGVIVEAVREMLKNHPAIDQRQTLLVYFNQFADSSLNIMVYCFTKTTVWAEWLAAQQDVYLKIIDIVQSHGADFAFPSQTLYMDNITPPEQGR" "i" "Han et al., 2011" -"MONOMER0-921" "MTFAELGMAFWHDLAAPVIAGILASMIVNWLNKRK" "i" "Han et al., 2011" -"MOTA-FLAGELLAR-MOTOR-STATOR-PROTEIN" "VLILLGYLVVLGTVFGGYLMTGGSLGALYQPAELVIIAGAGIGSFIVGNNGKAIKGTLKALPLLFRRSKYTKAMYMDLLALLYRLMAKSRQMGMFSLERDIENPRESEIFASYPRILADSVMLDFIVDYLRLIISGHMNTFEIEALMDEEIETHESEAEVPANSLALVGDSLPAFGIVAAVMGVVHALGSADRPAAELGALIAHAMVGTFLGILLAYGFISPLATVLRQKSAETSKMMQCVKVTLLSNLNGYAPPIAVEFGRKTLYSSERPSFIELEEHVRAVKNPQQQTTTEEA" "i" "Han et al., 2011" -"MOTB-FLAGELLAR-MOTOR-STATOR-PROTEIN" "MKNQAHPIIVVKRRKAKSHGAAHGSWKIAYADFMTAMMAFFLVMWLISISSPKELIQIAEYFRTPLATAVTGGDRISNSESPIPGGGDDYTQSQGEVNKQPNIEELKKRMEQSRLRKLRGDLDQLIESDPKLRALRPHLKIDLVQEGLRIQIIDSQNRPMFRTGSADVEPYMRDILRAIAPVLNGIPNRISLSGHTDDFPYASGEKGYSNWELSADRANASRRELMVGGLDSGKVLRVVGMAATMRLSDRGPDDAVNRRISLLVLNKQAEQAILHENAESQNEPVSALEKPEVAPQVSVPTMPSAEPR" "i" "Han et al., 2011" -"MTLA-MONOMER" "MSSDIKIKVQSFGRFLSNMVMPNIGAFIAWGIITALFIPTGWLPNETLAKLVGPMITYLLPLLIGYTGGKLVGGERGGVVGAITTMGVIVGADMPMFLGSMIAGPLGGWCIKHFDRWVDGKIKSGFEMLVNNFSAGIIGMILAILAFLGIGPIVEALSKMLAAGVNFMVVHDMLPLASIFVEPAKILFLNNAINHGIFSPLGIQQSHELGKSIFFLIEANPGPGMGVLLAYMFFGRGSAKQSAGGAAIIHFLGGIHEIYFPYVLMNPRLILAVILGGMTGVFTLTILGGGLVSPASPGSILAVLAMTPKGAYFANIAGVCAAMAVSFVVSAILLKTSKVKEEDDIEAATRRMQDMKAESKGASPLSAGDVTNDLSHVRKIIVACDAGMGSSAMGAGVLRKKIQDAGLSQISVTNSAINNLPPDVDLVITHRDLTERAMRQVPQAQHISLTNFLDSGLYTSLTERLVAAQRHTANEEKVKDSLKDSFDDSSANLFKLGAENIFLGRKAATKEEAIRFAGEQLVKGGYVEPEYVQAMLDREKLTPTYLGESIAVPHGTVEAKDRVLKTGVVFCQYPEGVRFGEEEDDIARLVIGIAARNNEHIQVITSLTNALDDESVIERLAHTTSVDEVLELLAGRK" "i" "Han et al., 2011" -"MTR-MONOMER" "MATLTTTQTSPSLLGGVVIIGGTIIGAGMFSLPVVMSGAWFFWSMAALIFTWFCMLHSGLMILEANLNYRIGSSFDTITKDLLGKGWNVVNGISIAFVLYILTYAYISASGSILHHTFAEMSLNVPARAAGFGFALLVAFVVWLSTKAVSRMTAIVLGAKVITFFLTFGSLLGHVQPATLFNVAESNASYAPYLLMTLPFCLASFGYHGNVPSLMKYYGKDPKTIVKCLVYGTLMALALYTIWLLATMGNIPRPEFIGIAEKGGNIDVLVQALSGVLNSRSLDLLLVVFSNFAVASSFLGVTLGLFDYLADLFGFDDSAVGRLKTALLTFAPPVVGGLLFPNGFLYAIGYAGLAATIWAAIVPALLARASRKRFGSPKFRVWGGKPMIALILVFGVGNALVHILSSFNLLPVYQ" "i" "Han et al., 2011" -"MYRISTOYLACYLTRAN-MONOMER" "METKKNNSEYIPEFDKSFRHPRYWGAWLGVAAMAGIALTPPKFRDPILARLGRFAGRLGKSSRRRALINLSLCFPERSEAEREAIVDEMFATAPQAMAMMAELAIRGPEKIQPRVDWQGLEIIEEMRRNNEKVIFLVPHGWAVDIPAMLMASQGQKMAAMFHNQGNPVFDYVWNTVRRRFGGRLHARNDGIKPFIQSVRQGYWGYYLPDQDHGPEHSEFVDFFATYKATLPAIGRLMKVCRARVVPLFPIYDGKTHRLTIQVRPPMDDLLEADDHTIARRMNEEVEIFVGPRPEQYTWILKLLKTRKPGEIQPYKRKDLYPIK" "i" "Han et al., 2011" -"N-ACETYLGLUTPREDUCT-MONOMER" "MLNTLIVGASGYAGAELVTYVNRHPHMNITALTVSAQSNDAGKLISDLHPQLKGIVDLPLQPMSDISEFSPGVDVVFLATAHEVSHDLAPQFLEAGCVVFDLSGAFRVNDATFYEKYYGFTHQYPELLEQAAYGLAEWCGNKLKEANLIAVPGCYPTAAQLALKPLIDADLLDLNQWPVINATSGVSGAGRKAAISNSFCEVSLQPYGVFTHRHQPEIATHLGADVIFTPHLGNFPRGILETITCRLKSGVTQAQVAQVLQQAYAHKPLVRLYDKGVPALKNVVGLPFCDIGFAVQGEHLIIVATEDNLLKGAAAQAVQCANIRFGYAETQSLI" "c" "Han et al., 2011" -"N-ACETYLTRANSFER-MONOMER" "VVKERKTELVEGFRHSVPYINTHRGKTFVIMLGGEAIEHENFSSIVNDIGLLHSLGIRLVVVYGARPQIDANLAAHHHEPLYHKNIRVTDAKTLELVKQAAGTLQLDITARLSMSLNNTPLQGAHINVVSGNFIIAQPLGVDDGVDYCHSGRIRRIDEDAIHRQLDSGAIVLMGPVAVSVTGESFNLTSEEIATQLAIKLKAEKMIGFCSSQGVTNDDGDIVSELFPNEAQARVEAQEEKGDYNSGTVRFLRGAVKACRSGVRRCHLISYQEDGALLQELFSRDGIGTQIVMESAEQIRRATINDIGGILELIRPLEQQGILVRRSREQLEMEIDKFTIIQRDNTTIACAALYPFPEEKIGEMACVAVHPDYRSSSRGEVLLERIAAQAKQSGLSKLFVLTTRSIHWFQERGFTPVDIDLLPESKKQLYNYQRKSKVLMADLG" "c" "Han et al., 2011" -"NACGLCTRANS-MONOMER" "MSGQGKRLMVMAGGTGGHVFPGLAVAHHLMAQGWQVRWLGTADRMEADLVPKHGIEIDFIRISGLRGKGIKALIAAPLRIFNAWRQARAIMKAYKPDVVLGMGGYVSGPGGLAAWSLGIPVVLHEQNGIAGLTNKWLAKIATKVMQAFPGAFPNAEVVGNPVRTDVLALPLPQQRLAGREGPVRVLVVGGSQGARILNQTMPQVAAKLGDSVTIWHQSGKGSQQSVEQAYAEAGQPQHKVTEFIDDMAAAYAWADVVVCRSGALTVSEIAAAGLPALFVPFQHKDRQQYWNALPLEKAGAAKIIEQPQLSVDAVANTLAGWSRETLLTMAERARAASIPDATERVANEVSRVARA" "c" "Han et al., 2011" -"NACMURLALAAMI1-MONOMER" "MSTFKPLKTLTSRRQVLKAGLAALTLSGMSQAIAKDELLKTSNGHSKPKAKKSGGKRVVVLDPGHGGIDTGAIGRNGSKEKHVVLAIAKNVRSILRNHGIDARLTRSGDTFIPLYDRVEIAHKHGADLFMSIHADGFTNPKAAGASVFALSNRGASSAMAKYLSERENRADEVAGKKATDKDHLLQQVLFDLVQTDTIKNSLTLGSHILKKIKPVHKLHSRNTEQAAFVVLKSPSVPSVLVETSFITNPEEERLLGTAAFRQKIATAIAEGVISYFHWFDNQKAHSKKR" "p" "Han et al., 2011 (location manually reset)" -"NACMURLALAAMI2-MONOMER" "MMYRIRNWLVATLLLLCTPVGAATLSDIQVSNGNQQARITLSFIGDPDYAFSHQSKRTVALDIKQTGVIQGLPLLFSGNNLVKAIRSGTPKDAQTLRLVVDLTENGKTEAVKRQNGSNYTVVFTINADVPPPPPPPPVVAKRVETPAVVAPRVSEPARNPFKTESNRTTGVISSNTVTRPAARATANTGDKIIIAIDAGHGGQDPGAIGPGGTREKNVTIAIARKLRTLLNDDPMFKGVLTRDGDYFISVMGRSDVARKQNANFLVSIHADAAPNRSATGASVWVLSNRRANSEMASWLEQHEKQSELLGGAGDVLANSQSDPYLSQAVLDLQFGHSQRVGYDVATSMISQLQRIGEIHKRRPEHASLGVLRSPDIPSVLVETGFISNNSEERLLASDDYQQQLAEAIYKGLRNYFLAHPMQSAPQGATAQTASTVTTPDRTLPN" "p" "Han et al., 2011 (location manually reset)" -"NAD-SYNTH-MONOMER" "MTLQQQIIKALGAKPQINAEEEIRRSVDFLKSYLQTYPFIKSLVLGISGGQDSTLAGKLCQMAINELRLETGNESLQFIAVRLPYGVQADEQDCQDAIAFIQPDRVLTVNIKGAVLASEQALREAGIELSDFVRGNEKARERMKAQYSIAGMTSGVVVGTDHAAEAITGFFTKYGDGGTDINPLYRLNKRQGKQLLAALACPEHLYKKAPTADLEDDRPSLPDEVALGVTYDNIDDYLEGKNVPQQVARTIENWYLKTEHKRRPPITVFDDFWKK" "c" "Han et al., 2011" -"NADH-DHII-MONOMER" "LTTPLKKIVIVGGGAGGLEMATQLGHKLGRKKKAKITLVDRNHSHLWKPLLHEVATGSLDEGVDALSYLAHARNHGFQFQLGSVIDIDREAKTITIAELRDEKGELLVPERKIAYDTLVMALGSTSNDFNTPGVKENCIFLDNPHQARRFHQEMLNLFLKYSANLGANGKVNIAIVGGGATGVELSAELHNAVKQLHSYGYKGLTNEALNVTLVEAGERILPALPPRISAAAHNELTKLGVRVLTQTMVTSADEGGLHTKDGEYIEADLMVWAAGIKAPDFLKDIGGLETNRINQLVVEPTLQTTRDPDIYAIGDCASCPRPEGGFVPPRAQAAHQMATCAMNNILAQMNGKPLKNYQYKDHGSLVSLSNFSTVGSLMGNLTRGSMMIEGRIARFVYISLYRMHQIALHGYFKTGLMMLVGSINRVIRPRLKLH" "c" "Han et al., 2011" -"NAG1P-URIDYLTRANS-MONOMER" "MLNNAMSVVILAAGKGTRMYSDLPKVLHTLAGKAMVQHVIDAANELGAAHVHLVYGHGGDLLKQALKDDNLNWVLQAEQLGTGHAMQQAAPFFADDEDILMLYGDVPLISVETLQRLRDAKPQGGIGLLTVKLDDPTGYGRITRENGKVTGIVEHKDATDEQRQIQEINTGILIANGADMKRWLAKLTNNNAQGEYYITDIIALAYQEGREIVAVHPQRLSEVEGVNNRLQLSRLERVYQSEQAEKLLLAGVMLRDPARFDLRGTLTHGRDVEIDTNVIIEGNVTLGHRVKIGTGCVIKNSVIGDDCEISPYTVVEDANLAAACTIGPFARLRPGAELLEGAHVGNFVEMKKARLGKGSKAGHLTYLGDAEIGDNVNIGAGTITCNYDGANKFKTIIGDDVFVGSDTQLVAPVTVGKGATIAAGTTVTRNVGENALAISRVPQTQKEGWRRPVKKK" "c" "Lopez-Campistrous et al., 2005" -"NAG6PDEACET-MONOMER" "MYALTQGRIFTGHEFLDDHAVVIADGLIKSVCPVAELPPEIEQRSLNGAILSPGFIDVQLNGCGGVQFNDTAEAVSVETLEIMQKANEKSGCTNYLPTLITTSDELMKQGVRVMREYLAKHPNQALGLHLEGPWLNLVKKGTHNPNFVRKPDAALVDFLCENADVITKVTLAPEMVPAEVISKLANAGIVVSAGHSNATLKEAKAGFRAGITFATHLYNAMPYITGREPGLAGAILDEADIYCGIIADGLHVDYANIRNAKRLKGDKLCLVTDATAPAGANIEQFIFAGKTIYYRNGLCVDENGTLSGSSLTMIEGVRNLVEHCGIALDEVLRMATLYPARAIGVEKRLGTLAAGKVANLTAFTPDFKITKTIVNGNEVVTQ" "c" "Han et al., 2011" -"NAGE-MONOMER" "MNILGFFQRLGRALQLPIAVLPVAALLLRFGQPDLLNVAFIAQAGGAIFDNLALIFAIGVASSWSKDSAGAAALAGAVGYFVLTKAMVTINPEINMGVLAGIITGLVGGAAYNRWSDIKLPDFLSFFGGKRFVPIATGFFCLVLAAIFGYVWPPVQHAIHAGGEWIVSAGALGSGIFGFINRLLIPTGLHQVLNTIAWFQIGEFTNAAGTVFHGDINRFYAGDGTAGMFMSGFFPIMMFGLPGAALAMYFAAPKERRPMVGGMLLSVAVTAFLTGVTEPLEFLFMFLAPLLYLLHALLTGISLFVATLLGIHAGFSFSAGAIDYALMYNLPAASQNVWMLLVMGVIFFAIYFVVFSLVIRMFNLKTPGREDKEDEIVTEEANSNTEEGLTQLATNYIAAVGGTDNLKAIDACITRLRLTVADSARVNDTMCKRLGASGVVKLNKQTIQVIVGAKAESIGDAMKKVVARGPVAAASAEATPATAAPVAKPQAVPNAVSIAELVSPITGDVVALDQVPDEAFASKAVGDGVAVKPTDKIVVSPAAGTIVKIFNTNHAFCLETEKGAEIVVHMGIDTVALEGKGFKRLVEEGAQVSAGQPILEMDLDYLNANARSMISPVVCSNIDDFSGLIIKAQGHIVAGQTPLYEIKK" "i" "Han et al., 2011" -"NANE-MONOMER" "MSLLAQLDQKIAANGGLIVSCQPVPDSPLDKPEIVAAMALAAEQAGAVAIRIEGVANLQATRAVVSVPIIGIVKRDLEDSPVRITAYIEDVDALAQAGADIIAIDGTDRPRPVPVETLLARIHHHGLLAMTDCSTPEDGLACQKLGAEIIGTTLSGYTTPETPEEPDLALVKTLSDAGCRVIAEGRYNTPAQAADAMRHGAWAVTVGSAITRLEHICQWYNTAMKKAVL" "c" "Han et al., 2011" -"NANK-MONOMER" "MTTLAIDIGGTKLAAALIGADGQIRDRRELPTPASQTPEALRDALSALVSPLQAHAQRVAIASTGIIRDGSLLALNPHNLGGLLHFPLVKTLEQLTNLPTIAINDAQAAAWAEFQALDGDITDMVFITVSTGVGGGVVSGCKLLTGPGGLAGHIGHTLADPHGPVCGCGRTGCVEAIASGRGIAAAAQGELAGADAKTIFTRAGQGDEQAQQLIHRSARTLARLIADIKATTDCQCVVVGGSVGLAEGYLALVETYLAQEPAAFHVDLLAAHYRHDAGLLGAALLAQGEKL" "c" "Han et al., 2011" -"NANT-MONOMER" "MSTTTQNIPWYRHLNRAQWRAFSAAWLGYLLDGFDFVLIALVLTEVQGEFGLTTVQAASLISAAFISRWFGGLMLGAMGDRYGRRLAMVTSIVLFSAGTLACGFAPGYITMFIARLVIGMGMAGEYGSSATYVIESWPKHLRNKASGFLISGFSVGAVVAAQVYSLVVPVWGWRALFFIGILPIIFALWLRKNIPEAEDWKEKHAGKAPVRTMVDILYRGEHRIANIVMTLAAATALWFCFAGNLQNAAIVAVLGLLCAAIFISFMVQSAGKRWPTGVMLMVVVLFAFLYSWPIQALLPTYLKTDLAYNPHTVANVLFFSGFGAAVGCCVGGFLGDWLGTRKAYVCSLLASQLLIIPVFAIGGANVWVLGLLLFFQQMLGQGIAGILPKLIGGYFDTDQRAAGLGFTYNVGALGGALAPIIGALIAQRLDLGTALASLSFSLTFVVILLIGLDMPSRVQRWLRPEALRTHDAIDGKPFSGAVPFGSAKNDLVKTKS" "i" "Han et al., 2011" -"NAPA-MONOMER" "MKLSRRSFMKANAVAAAAAAAGLSVPGVARAVVGQQEAIKWDKAPCRFCGTGCGVLVGTQQGRVVACQGDPDAPVNRGLNCIKGYFLPKIMYGKDRLTQPLLRMKNGKYDKEGEFTPITWDQAFDVMEEKFKTALKEKGPESIGMFGSGQWTIWEGYAASKLFKAGFRSNNIDPNARHCMASAVVGFMRTFGMDEPMGCYDDIEQADAFVLWGANMAEMHPILWSRITNRRLSNQNVTVAVLSTYQHRSFELADNGIIFTPQSDLVILNYIANYIIQNNAINQDFFSKHVNLRKGATDIGYGLRPTHPLEKAAKNPGSDASEPMSFEDYKAFVAEYTLEKTAEMTGVPKDQLEQLAQLYADPNKKVISYWTMGFNQHTRGVWANNLVYNLHLLTGKISQPGCGPFSLTGQPSACGTAREVGTFAHRLPADMVVTNEKHRDICEKKWNIPSGTIPAKIGLHAVAQDRALKDGKLNVYWTMCTNNMQAGPNINEERMPGWRDPRNFIIVSDPYPTVSALAADLILPTAMWVEKEGAYGNAERRTQFWRQQVQAPGEAKSDLWQLVQFSRRFKTEEVWPEDLLAKKPELRGKTLYEVLYATPEVSKFPVSELAEDQLNDESRELGFYLQKGLFEEYAWFGRGHGHDLAPFDDYHKARGLRWPVVNGKETQWRYSEGNDPYVKAGEGYKFYGKPDGKAVIFALPFEPAAEAPDEEYDLWLSTGRVLEHWHTGSMTRRVPELHRAFPEAVLFIHPLDAKARDLRRGDKVKVVSRRGEVISIVETRGRNRPPQGLVYMPFFDAAQLVNKLTLDATDPLSKETDFKKCAVKLEKV" "p" "Han et al., 2011" -"NAPB-MONOMER" "MKSHDLKKALCQWTAMLALVVSGAVWAANGVDFSQSPEVSGTQEGAIRMPKEQDRMPLNYVNQPPMIPHSVEGYQVTTNTNRCLQCHGVESYRTTGAPRISPTHFMDSDGKVGAEVAPRRYFCLQCHVPQADTAPIVGNTFTPSKGYGK" "p" "Han et al., 2011" -"NAPC-MONOMER" "MGNSDRKPGLIKRLWKWWRTPSRLALGTLLLIGFVGGIVFWGGFNTGMEKANTEEFCISCHEMRNTVYQEYMDSVHYNNRSGVRATCPDCHVPHEFVPKMIRKLKASKELYGKIFGVIDTPQKFEAHRLTMAQNEWRRMKDNNSQECRNCHNFEYMDTTAQKSVAAKMHDQAVKDGQTCIDCHKGIAHKLPDMREVEPGF" "i" "Han et al., 2011" -"NAPD-MONOMER" "MHTNWQVCSLVVQAKSERISDISTQLNAFPGCEVAVSDAPSGQLIVVVEAEDSETLIQTIESVRNVEGVLAVSLVYHQQEEQGEETP" "c" "Han et al., 2011" -"NAPF-MONOMER" "VKIDASRRGILTGRWRKASNGIRPPWSGDESHFLTHCTRCDACINACENNILQRGAGGYPSVNFKNNECSFCYACAQACPESLFSPRHTRAWDLQFTIGDACLAYQSVECRRCQDSCEPMAIIFRPTLSGIYQPQLNSQLCNGCGACAASCPVSAITAEYLHAH" "i" "Han et al., 2011" -"NAPG-MONOMER" "MSRSAKPQNGRRRFLRDVVRTAGGLAAVGVALGLQQQTARASGVRLRPPGAINENAFASACVRCGQCVQACPYDTLKLATLASGLSAGTPYFVARDIPCEMCEDIPCAKVCPSGALDREIESIDDARMGLAVLVDQENCLNFQGLRCDVCYRECPKIDEAITLELERNTRTGKHARFLPTVHSDACTGCGKCEKVCVLEQPAIKVLPLSLAKGELGHHYRFGWLEGNNGKS" "i" "EcoCyc dump" -"NAPH-MONOMER" "MANRKRDAGREALEKKGWWRSHRWLVLRRLCQFFVLGMFLSGPWFGVWILHGNYSSSLLFDTVPLTDPLMTLQSLASGHLPATVALTGAVIITVLYALAGKRLFCSWVCPLNPITDLANWLRRRFDLNQSATIPRHIRYVLLVVILVGSALTGTLIWEWINPVSLMGRSLVMGFGSGALLILALFLFDLLVVEHGWCGHICPVGALYGVLGSKGVITVAATDRQKCNRCMDCFHVCPEPHVLRAPVLDEQSPVQVTSRDCMTCGRCVDVCSEDVFTITTRWSSGAKS" "i" "Han et al., 2011" -"NAPHTHOATE-SYN-MONOMER" "MIYPDEAMLYAPVEWHDCSEGFEDIRYEKSTDGIAKITINRPQVRNAFRPLTVKEMIQALADARYDDNIGVIILTGAGDKAFCSGGDQKVRGDYGGYKDDSGVHHLNVLDFQRQIRTCPKPVVAMVAGYSIGGGHVLHMMCDLTIAADNAIFGQTGPKVGSFDGGWGASYMARIVGQKKAREIWFLCRQYDAKQALDMGLVNTVVPLADLEKETVRWCREMLQNSPMALRCLKAALNADCDGQAGLQELAGNATMLFYMTEEGQEGRNAFNQKRQPDFSKFKRNP" "c" "Han et al., 2011" -"NARG-MONOMER" "MSKFLDRFRYFKQKGETFADGHGQLLNTNRDWEDGYRQRWQHDKIVRSTHGVNCTGSCSWKIYVKNGLVTWETQQTDYPRTRPDLPNHEPRGCPRGASYSWYLYSANRLKYPMMRKRLMKMWREAKALHSDPVEAWASIIEDADKAKSFKQARGRGGFVRSSWQEVNELIAASNVYTIKNYGPDRVAGFSPIPAMSMVSYASGARYLSLIGGTCLSFYDWYCDLPPASPQTWGEQTDVPESADWYNSSYIIAWGSNVPQTRTPDAHFFTEVRYKGTKTVAVTPDYAEIAKLCDLWLAPKQGTDAAMALAMGHVMLREFHLDNPSQYFTDYVRRYTDMPMLVMLEERDGYYAAGRMLRAADLVDALGQENNPEWKTVAFNTNGEMVAPNGSIGFRWGEKGKWNLEQRDGKTGEETELQLSLLGSQDEIAEVGFPYFGGDGTEHFNKVELENVLLHKLPVKRLQLADGSTALVTTVYDLTLANYGLERGLNDVNCATSYDDVKAYTPAWAEQITGVSRSQIIRIAREFADNADKTHGRSMIIVGAGLNHWYHLDMNYRGLINMLIFCGCVGQSGGGWAHYVGQEKLRPQTGWQPLAFALDWQRPARHMNSTSYFYNHSSQWRYETVTAEELLSPMADKSRYTGHLIDFNVRAERMGWLPSAPQLGTNPLTIAGEAEKAGMNPVDYTVKSLKEGSIRFAAEQPENGKNHPRNLFIWRSNLLGSSGKGHEFMLKYLLGTEHGIQGKDLGQQGGVKPEEVDWQDNGLEGKLDLVVTLDFRLSSTCLYSDIILPTATWYEKDDMNTSDMHPFIHPLSAAVDPAWEAKSDWEIYKAIAKKFSEVCVGHLGKETDIVTLPIQHDSAAELAQPLDVKDWKKGECDLIPGKTAPHIMVVERDYPATYERFTSIGPLMEKIGNGGKGIAWNTQSEMDLLRKLNYTKAEGPAKGQPMLNTAIDAAEMILTLAPETNGQVAVKAWAALSEFTGRDHTHLALNKEDEKIRFRDIQAQPRKIISSPTWSGLEDEHVSYNAGYTNVHELIPWRTLSGRQQLYQDHQWMRDFGESLLVYRPPIDTRSVKEVIGQKSNGNQEKALNFLTPHQKWGIHSTYSDNLLMLTLGRGGPVVWLSEADAKDLGIADNDWIEVFNSNGALTARAVVSQRVPAGMTMMYHAQERIVNLPGSEITQQRGGIHNSVTRITPKPTHMIGGYAHLAYGFNYYGTVGSNRDEFVVVRKMKNIDWLDGEGNDQVQESVK" "i" "Han et al., 2011" -"NARH-MONOMER" "MKIRSQVGMVLNLDKCIGCHTCSVTCKNVWTSREGVEYAWFNNVETKPGQGFPTDWENQEKYKGGWIRKINGKLQPRMGNRAMLLGKIFANPHLPGIDDYYEPFDFDYQNLHTAPEGSKSQPIARPRSLITGERMAKIEKGPNWEDDLGGEFDKLAKDKNFDNIQKAMYSQFENTFMMYLPRLCEHCLNPACVATCPSGAIYKREEDGIVLIDQDKCRGWRMCITGCPYKKIYFNWKSGKSEKCIFCYPRIEAGQPTVCSETCVGRIRYLGVLLYDADAIERAASTENEKDLYQRQLDVFLDPNDPKVIEQAIKDGIPLSVIEAAQQSPVYKMAMEWKLALPLHPEYRTLPMVWYVPPLSPIQSAADAGELGSNGILPDVESLRIPVQYLANLLTAGDTKPVLRALKRMLAMRHYKRAETVDGKVDTRALEEVGLTEAQAQEMYRYLAIANYEDRFVVPSSHRELAREAFPEKNGCGFTFGDGCHGSDTKFNLFNSRRIDAIDVTSKTEPHP" "i" "Han et al., 2011" -"NARI-MONOMER" "MQFLNMFFFDIYPYIAGAVFLIGSWLRYDYGQYTWRAASSQMLDRKGMNLASNLFHIGILGIFVGHFFGMLTPHWMYEAWLPIEVKQKMAMFAGGASGVLCLIGGVLLLKRRLFSPRVRATTTGADILILSLLVIQCALGLLTIPFSAQHMDGSEMMKLVGWAQSVVTFHGGASQHLDGVAFIFRLHLVLGMTLFLLFPFSRLIHIWSVPVEYLTRKYQLVRARH" "i" "Han et al., 2011" -"NARJ-MONOMER" "MIELVIVSRLLEYPDAALWQHQQEMFEAIAASKNLPKEDAHALGIFLRDLTTMDPLDAQAQYSELFDRGRATSLLLFEHVHGESRDRGQAMVDLLAQYEQHGLQLNSRELPDHLPLYLEYLAQLPQSEAVEGLKDIAPILALLSARLQQRESRYAVLFDLLLKLANTAIDSDKVAEKIADEARDDTPQALDAVWEEEQVKFFADKGCGDSAITAHQRRFAGAVAPQYLNITTGGQH" "c" "Han et al., 2011" -"NARK-MONOMER" "MSHSSAPERATGAVITDWRPEDPAFWQQRGQRIASRNLWISVPCLLLAFCVWMLFSAVAVNLPKVGFNFTTDQLFMLTALPSVSGALLRVPYSFMVPIFGGRRWTAFSTGILIIPCVWLGFAVQDTSTPYSVFIIISLLCGFAGANFASSMANISFFFPKQKQGGALGLNGGLGNMGVSVMQLVAPLVVSLSIFAVFGSQGVKQPDGTELYLANASWIWVPFLAIFTIAAWFGMNDLATSKASIKEQLPVLKRGHLWIMSLLYLATFGSFIGFSAGFAMLSKTQFPDVQILQYAFFGPFIGALARSAGGALSDRLGGTRVTLVNFILMAIFSGLLFLTLPTDGQGGSFMAFFAVFLALFLTAGLGSGSTFQMISVIFRKLTMDRVKAEGGSDERAMREAATDTAAALGFISAIGAIGGFFIPKAFGSSLALTGSPVGAMKVFLIFYIACVVITWAVYGRHSKK" "i" "Han et al., 2011" -"NARL-MONOMER" "MSNQEPATILLIDDHPMLRTGVKQLISMAPDITVVGEASNGEQGIELAESLDPDLILLDLNMPGMNGLETLDKLREKSLSGRIVVFSVSNHEEDVVTALKRGADGYLLKDMEPEDLLKALHQAAAGEMVLSEALTPVLAASLRANRATTERDVNQLTPRERDILKLIAQGLPNKMIARRLDITESTVKVHVKHMLKKMKLKSRVEAAVWVHQERIF" "c" "Han et al., 2011" -"NARP-MONOMER" "MPEATPFQVMIVDDHPLMRRGVRQLLELDPGSEVVAEAGDGASAIDLANRLDIDVILLDLNMKGMSGLDTLNALRRDGVTAQIIILTVSDASSDVFALIDAGADGYLLKDSDPEVLLEAIRAGAKGSKVFSERVNQYLREREMFGAEEDPFSVLTERELDVLHELAQGLSNKQIASVLNISEQTVKVHIRNLLRKLNVRSRVAATILFLQQRGAQ" "c" "Han et al., 2011" -"NARQ-MONOMER" "VIVKRPVSASLARAFFYIVLLSILSTGIALLTLASSLRDAEAINIAGSLRMQSYRLGYDLQSGSPQLNAHRQLFQQALHSPVLTNLNVWYVPEAVKTRYAHLNANWLEMNNRLSKGDLPWYQANINNYVNQIDLFVLALQHYAERKMLLVVAISLAGGIGIFTLVFFTLRRIRHQVVAPLNQLVTASQRIEHGQFDSPPLDTNLPNELGLLAKTFNQMSSELHKLYRSLEASVEEKTRDLHEAKRRLEVLYQCSQALNTSQIDVHCFRHILQIVRDNEAAEYLELNVGENWRISEGQPNPELPMQILPVTMQETVYGELHWQNSHVSSSEPLLNSVSSMLGRGLYFNQAQKHFQQLLLMEERATIARELHDSLAQVLSYLRIQLTLLKRSIPEDNATAQSIMADFSQALNDAYRQLRELLTTFRLTLQQADLPSALREMLDTLQNQTSAKLTLDCRLPTLALDAQMQVHLLQIIREAVLNAMKHANASEIAVSCVTAPDGNHTVYIRDNGIGIGEPKEPEGHYGLNIMRERAERLGGTLTFSQPSGGGTLVSISFRSAEGEESQLM" "i" "Han et al., 2011" -"NARU-MONOMER" "MALQNEKNSRYLLRDWKPENPAFWENKGKHIARRNLWISVSCLLLAFCVWMLFSAVTVNLNKIGFNFTTDQLFLLTALPSVSGALLRVPYSFMVPIFGGRRWTVFSTAILIIPCVWLGIAVQNPNTPFGIFIVIALLCGFAGANFASSMGNISFFFPKAKQGSALGINGGLGNLGVSVMQLVAPLVIFVPVFAFLGVNGVPQADGSVMSLANAAWIWVPLLAIATIAAWSGMNDIASSRASIADQLPVLQRLHLWLLSLLYLATFGSFIGFSAGFAMLAKTQFPDVNILRLAFFGPFIGAIARSVGGAISDKFGGVRVTLINFIFMAIFSALLFLTLPGTGSGNFIAFYAVFMGLFLTAGLGSGSTFQMIAVIFRQITIYRVKMKGGSDEQAHKEAVTETAAALGFISAIGAVGGFFIPQAFGMSLNMTGSPVGAMKVFLIFYIVCVLLTWLVYGRRKFSQK" "i" "Han et al., 2011" -"NARV-MONOMER" "MIQYLNVFFYDIYPYICATVFFLGSWLRYDYGQYTWRASSSQMLDKRGMVIWSNLFHIGILGIFFGHLFGMLTPHWMYAWFLPVAAKQLMAMVLGGICGVLTLIGGAGLLWRRLTNQRVRATSTTPDIIIMSILLIQCLLGLSTIPFSAQYPDGSEMMKLVGWAQSIVTFRGGSSEMLNGVAFVFRLHLVLGMTIFLLFPFTRLVHVWSAPFEYFTRRYQIVRSRR" "i" "Han et al., 2011" -"NARW-MONOMER" "MQILKVIGLLMEYPDELLWECKEDALALIRRDAPMLTDFTHNLLNAPLLDKQAEWCEVFDRGRTTSLLLFEHVHAESRDRGQAMVDLLAEYEKVGLQLDCRELPDYLPLYLEYLSVLPDDQAKEGLLNVAPILALLGGRLKQREAPWYALFDALLQLAGSSLSSDSVTKQVNSEERDDTRQALDAVWEEEQVKFIEDNATACDSSPLNQYQRRFSQDVAPQYVDISAGGGK" "c" "Han et al., 2011" -"NARX-MONOMER" "MLKRCLSPLTLVNQVALIVLLSTAIGLAGMAVSGWLVQGVQGSAHAINKAGSLRMQSYRLLAAVPLSEKDKPLIKEMEQTAFSAELTRAAERDGQLAQLQGLQDYWRNELIPALMRAQNRETVSADVSQFVAGLDQLVSGFDRTTEMRIETVVLVHRVMAVFMALLLVFTIIWLRARLLQPWRQLLAMASAVSHRDFTQRANISGRNEMAMLGTALNNMSAELAESYAVLEQRVQEKTAGLEHKNQILSFLWQANRRLHSRAPLCERLSPVLNGLQNLTLLRDIELRVYDTDDEENHQEFTCQPDMTCDDKGCQLCPRGVLPVGDRGTTLKWRLADSHTQYGILLATLPQGRHLSHDQQQLVDTLVEQLTATLALDRHQERQQQLIVMEERATIARELHDSIAQSLSCMKMQVSCLQMQGDALPESSRELLSQIRNELNASWAQLRELLTTFRLQLTEPGLRPALEASCEEYSAKFGFPVKLDYQLPPRLVPSHQAIHLLQIAREALSNALKHSQASEVVVTVAQNDNQVKLTVQDNGCGVPENAIRSNHYGMIIMRDRAQSLRGDCRVRRRESGGTEVVVTFIPEKTFTDVQGDTHE" "i" "Han et al., 2011" -"NARY-MONOMER" "MKIRSQVGMVLNLDKCIGCHTCSVTCKNVWTGREGMEYAWFNNVETKPGIGYPKNWEDQEEWQGGWVRDVNGKIRPRLGNKMGVITKIFANPVVPQIDDYYEPFTFDYEHLHSAPEGKHIPTARPRSLIDGKRMDKVIWGPNWEELLGGEFEKRARDRNFEAMQKEMYGQFENTFMMYLPRLCEHCLNPSCVATCPSGAIYKREEDGIVLIDQDKCRGWRLCISGCPYKKIYFNWKSGKSEKCIFCYPRIESGQPTVCSETCVGRIRYLGVLLYDADRIEEAASTEREVDLYERQCEVFLDPHDPSVIEEALKQGIPQNVIDAAQRSPVYKMAMDWKLALPLHPEYRTLPMVWYVPPLSPIQSYADAGGLPKSEGVLPAIESLRIPVQYLANMLSAGDTGPVLRALKRMMAMRHYMRSQTVEGVTDTRAIDEVGLSVAQVEEMYRYLAIANYEDRFVIPTSHREMAGDAFAERNGCGFTFGDGCHGSDSKFNLFNSSRIDAINITEVRDKAEGE" "i" "Han et al., 2011" -"NARZ-MONOMER" "MSKLLDRFRYFKQKGETFADGHGQVMHSNRDWEDSYRQRWQFDKIVRSTHGVNCTGSCSWKIYVKNGLVTWEIQQTDYPRTRPDLPNHEPRGCPRGASYSWYLYSANRLKYPLIRKRLIELWREALKQHSDPVLAWASIMNDPQKCLSYKQVRGRGGFIRSNWQELNQLIAAANVWTIKTYGPDRVAGFSPIPAMSMVSYAAGTRYLSLLGGTCLSFYDWYCDLPPASPMTWGEQTDVPESADWYNSSYIIAWGSNVPQTRTPDAHFFTEVRYKGTKTIAITPDYSEVAKLCDQWLAPKQGTDSALAMAMGHVILKEFHLDNPSDYFINYCRRYSDMPMLVMLEPRDDGSYVPGRMIRASDLVDGLGESNNPQWKTVAVNTAGELVVPNGSIGFRWGEKGKWNLESIAAGTETELSLTLLGQHDAVAGVAFPYFGGIENPHFRSVKHNPVLVRQLPVKNLTLVDGNTCPVVSVYDLVLANYGLDRGLEDENSAKDYAEIKPYTPAWGEQITGVPRQYIETIAREFADTAHKTHGRSMIILGAGVNHWYHMDMNYRGMINMLIFCGCVGQSGGGWAHYVGQEKLRPQTGWLPLAFALDWNRPPRQMNSTSFFYNHSSQWRYEKVSAQELLSPLADASKYSGHLIDFNVRAERMGWLPSAPQLGRNPLGIKAEADKAGLSPTEFTAQALKSGDLRMACEQPDSSSNHPRNLFVWRSNLLGSSGKGHEYMQKYLLGTESGIQGEELGASDGIKPEEVEWQTAAIEGKLDLLVTLDFRMSSTCLFSDIVLPTATWYEKDDMNTSDMHPFIHPLSAAVDPAWESRSDWEIYKGIAKAFSQVCVGHLGKETDVVLQPLLHDSPAELSQPCEVLDWRKGECDLIPGKTAPNIVAVERDYPATYERFTSLGPLMDKLGNGGKGISWNTQDEIDFLGKLNYTKRDGPAQGRPLIDTAIDASEVILALAPETNGHVAVKAWQALGEITGREHTHLALHKEDEKIRFRDIQAQPRKIISSPTWSGLESDHVSYNAGYTNVHELIPWRTLSGRQQLYQDHPWMRAFGESLVAYRPPIDTRSVSEMRQIPPNGFPEKALNFLTPHQKWGIHSTYSENLLMLTLSRGGPIVWISETDARELTIVDNDWVEVFNANGALTARAVVSQRVPPGMTMMYHAQERIMNIPGSEVTGMRGGIHNSVTRVCPKPTHMIGGYAQLAWGFNYYGTVGSNRDEFIMIRKMKNVNWLDDEGRDQVQEAKK" "i" "Han et al., 2011" -"NHAA-MONOMER" "VKHLHRFFSSDASGGIILIIAAILAMIMANSGATSGWYHDFLETPVQLRVGSLEINKNMLLWINDALMAVFFLLVGLEVKRELMQGSLASLRQAAFPVIAAIGGMIVPALLYLAFNYADPITREGWAIPAATDIAFALGVLALLGSRVPLALKIFLMALAIIDDLGAIIIIALFYTNDLSMASLGVAAVAIAVLAVLNLCGARRTGVYILVGVVLWTAVLKSGVHATLAGVIVGFFIPLKEKHGRSPAKRLEHVLHPWVAYLILPLFAFANAGVSLQGVTLDGLTSILPLGIIAGLLIGKPLGISLFCWLALRLKLAHLPEGTTYQQIMVVGILCGIGFTMSIFIASLAFGSVDPELINWAKLGILVGSISSAVIGYSWLRVRLRPSV" "i" "Han et al., 2011" -"NHAB-MONOMER" "MEISWGRALWRNFLGQSPDWYKLALIIFLIVNPLIFLISPFVAGWLLVAEFIFTLAMALKCYPLLPGGLLAIEAVFIGMTSAEHVREEVAANLEVLLLLMFMVAGIYFMKQLLLFIFTRLLLSIRSKMLLSLSFCVAAAFLSAFLDALTVVAVVISVAVGFYGIYHRVASSRTEDTDLQDDSHIDKHYKVVLEQFRGFLRSLMMHAGVGTALGGVMTMVGEPQNLIIAKAAGWHFGDFFLRMSPVTVPVLICGLLTCLLVEKLRWFGYGETLPEKVREVLQQFDDQSRHQRTRQDKIRLIVQAIIGVWLVTALALHLAEVGLIGLSVIILATSLTGVTDEHAIGKAFTESLPFTALLTVFFSVVAVIIDQQLFSPIIQFVLQASEHAQLSLFYIFNGLLSSISDNVFVGTIYINEAKAAMESGAITLKQYELLAVAINTGTNLPSVATPNGQAAFLFLLTSALAPLIRLSYGRMVWMALPYTLVLTLVGLLCVEFTLAPVTEWFMQMGWIATL" "i" "Han et al., 2011" -"NICONUCADENYLYLTRAN-MONOMER" "MKSLQALFGGTFDPVHYGHLKPVETLANLIGLTRVTIIPNNVPPHRPQPEANSVQRKHMLELAIADKPLFTLDERELKRNAPSYTAQTLKEWRQEQGPDVPLAFIIGQDSLLTFPTWYEYETILDNAHLIVCRRPGYPLEMAQPQYQQWLEDHLTHNPEDLHLQPAGKIYLAETPWFNISATIIRERLQNGESCEDLLPEPVLTYINQQGLYR" "c" "Han et al., 2011" -"NICOTINAMID-MONOMER" "MPPRALLLVDLQNDFCAGGALAVPEGDSTVDVANRLIDWCQSRGEAVIASQDWHPANHGSFASQHGVEPYTPGQLDGLPQTFWPDHCVQNSEGAQLHPLLHQKAIAAVFHKGENPLVDSYSAFFDNGRRQKTSLDDWLRDHEIDELIVMGLATDYCVKFTVLDALQLGYKVNVITDGCRGVNIQPQDSAHAFMEMSAAGATLYTLADWEETQG" "c" "Han et al., 2011" -"NICOTINATEPRIBOSYLTRANS-MONOMER" "MTQFASPVLHSLLDTDAYKLHMQQAVFHHYYDVHVAAEFRCRGDDLLGIYADAIREQVQAMQHLRLQDDEYQWLSALPFFKADYLNWLREFRFNPEQVTVSNDNGKLDIRLSGPWREVILWEVPLLAVISEMVHRYRSPQADVAQALDTLESKLVDFSALTAGLDMSRFHLMDFGTRRRFSREVQETIVKRLQQESWFVGTSNYDLARRLSLTPMGTQAHEWFQAHQQISPDLANSQRAALAAWLEEYPDQLGIALTDCITMDAFLRDFGVEFASRYQGLRHDSGDPVEWGEKAIAHYEKLGIDPQSKTLVFSDNLDLRKAVELYRHFSSRVQLSFGIGTRLTCDIPQVKPLNIVIKLVECNGKPVAKLSDSPGKTICHDKAFVRALRKAFDLPHIKKAS" "c" "Han et al., 2011" -"NIKA-MONOMER" "MLSTLRRTLFALLACASFIVHAAAPDEITTAWPVNVGPLNPHLYTPNQMFAQSMVYEPLVKYQADGSVIPWLAKSWTHSEDGKTWTFTLRDDVKFSNGEPFDAEAAAENFRAVLDNRQRHAWLELANQIVDVKALSKTELQITLKSAYYPFLQELALPRPFRFIAPSQFKNHETMNGIKAPIGTGPWILQESKLNQYDVFVRNENYWGEKPAIKKITFNVIPDPTTRAVAFETGDIDLLYGNEGLLPLDTFARFSQNPAYHTQLSQPIETVMLALNTAKAPTNELAVREALNYAVNKKSLIDNALYGTQQVADTLFAPSVPYANLGLKPSQYDPQKAKALLEKAGWTLPAGKDIREKNGQPLRIELSFIGTDALSKSMAEIIQADMRQIGADVSLIGEEESSIYARQRDGRFGMIFHRTWGAPYDPHAFLSSMRVPSHADFQAQQGLADKPLIDKEIGEVLATHDETQRQALYRDILTRLHDEAVYLPISYISMMVVSKPELGNIPYAPIATEIPFEQIKPVKP" "i" "EcoCyc dump" -"NIKB-MONOMER" "MLRYVLRRFLLLIPMVLAASVIIFLMLRLGTGDPALDYLRLSNLPPTPEMLASTRTMLGLDQPLYVQYGTWLWKALHLDFGISFASQRPVLDDMLNFLPATLELAGAALVLILLTSVPLGIWAARHRDRLPDFAVRFIAFLGVSMPNFWLAFLLVMAFSVYLQWLPAMGYGGWQHIILPAVSIAFMSLAINARLLRASMLDVAGQRHVTWARLRGLNDKQTERRHILRNASLPMITAVGMHIGELIGGTMIIENIFAWPGVGRYAVSAIFNRDYPVIQCFTLMMVVVFVVCNLIVDLLNAALDPRIRRHEGAHA" "i" "Han et al., 2011" -"NIKC-MONOMER" "VNFFLSSRWSVRLALIIIALLALIALTSQWWLPYDPQAIDLPSRLLSPDAQHWLGTDHLGRDIFSRLMAATRVSLGSVMACLLLVLTLGLVIGGSAGLIGGRVDQATMRVADMFMTFPTSILSFFMVGVLGTGLTNVIIAIALSHWAWYARMVRSLVISLRQREFVLASRLSGAGHVRVFVDHLAGAVIPSLLVLATLDIGHMMLHVAGMSFLGLGVTAPTAEWGVMINDARQYIWTQPLQMFWPGLALFISVMAFNLVGDALRDHLDPHLVTEHAH" "i" "Han et al., 2011" -"NIKD-MONOMER" "MPQQIELRNIALQAAQPLVHGVSLTLQRGRVLALVGGSGSGKSLTCAATLGILPAGVRQTAGEILADGKPVSPCALRGIKIATIMQNPRSAFNPLHTMHTHARETCLALGKPADDATLTAAIEAVGLENAARVLKLYPFEMSGGMLQRMMIAMAVLCESPFIIADEPTTDLDVVAQARILDLLESIMQKQAPGMLLVTHDMGVVARLADDVAVMSDGKIVEQGDVETLFNAPKHTVTRSLVSAHLALYGMELAS" "i" "EcoCyc dump" -"NIKE-MONOMER" "MTLLNISGLSHHYAHGGFNGKHQHQAVLNNVSLTLKSGETVALLGRSGCGKSTLARLLVGLESPAQGNISWRGEPLAKLNRAQRKAFRRDIQMVFQDSISAVNPRKTVREILREPMRHLLSLKKSEQLARASEMLKAVDLDDSVLDKRPPQLSGGQLQRVCLARALAVEPKLLILDEAVSNLDLVLQAGVIRLLKKLQQQFGTACLFITHDLRLVERFCQRVMVMDNGQIVETQVVGEKLTFSSDAGRVLQNAVLPAFPVRRRTTEKV" "i" "EcoCyc dump" -"NIRB-MONOMER" "MSKVRLAIIGNGMVGHRFIEDLLDKSDAANFDITVFCEEPRIAYDRVHLSSYFSHHTAEELSLVREGFYEKHGIKVLVGERAITINRQEKVIHSSAGRTVFYDKLIMATGSYPWIPPIKGSDTQDCFVYRTIEDLNAIESCARRSKRGAVVGGGLLGLEAAGALKNLGIETHVIEFAPMLMAEQLDQMGGEQLRRKIESMGVRVHTSKNTLEIVQEGVEARKTMRFADGSELEVDFIVFSTGIRPRDKLATQCGLDVAPRGGIVINDSCQTSDPDIYAIGECASWNNRVFGLVAPGYKMAQVAVDHILGSENAFEGADLSAKLKLLGVDVGGIGDAHGRTPGARSYVYLDESKEIYKRLIVSEDNKTLLGAVLVGDTSDYGNLLQLVLNAIELPENPDSLILPAHSGSGKPSIGVDKLPDSAQICSCFDVTKGDLIAAINKGCHTVAALKAETKAGTGCGGCIPLVTQVLNAELAKQGIEVNNNLCEHFAYSRQELFHLIRVEGIKTFEELLAKHGKGYGCEVCKPTVGSLLASCWNEYILKPEHTPLQDSNDNFLANIQKDGTYSVIPRSPGGEITPEGLMAVGRIAREFNLYTKITGSQRLAMFGAQKDDLPEIWRQLIEAGFETGHAYAKALRMAKTCVGSTWCRYGVGDSVGLGVELENRYKGIRTPHKMKFGVSGCTRECSEAQGKDVGIIATEKGWNLYVCGNGGMKPRHADLLAADIDRETLIKYLDRFMMFYIRTADKLTRTAPWLENLEGGIDYLKAVIIDDKLGLNAHLEEEMARLREAVLCEWTETVNTPSAQTRFKHFINSDKRDPNVQMVPEREQHRPATPYERIPVTLVEDNA" "c" "Han et al., 2011" -"NIRC-MONOMER" "MFTDTINKCAANAARIARLSANNPLGFWVSSAMAGAYVGLGIILIFTLGNLLDPSVRPLVMGATFGIALTLVIIAGSELFTGHTMFLTFGVKAGSISHGQMWAILPQTWLGNLVGSVFVAMLYSWGGGSLLPVDTSIVHSVALAKTTAPAMVLFFKGALCNWLVCLAIWMALRTEGAAKFIAIWWCLLAFIASGYEHSIANMTLFALSWFGNHSEAYTLAGIGHNLLWVTLGNTLSGAVFMGLGYWYATPKANRPVADKFNQTETAAG" "i" "Han et al., 2011" -"NIRD-MONOMER" "MSQWKDICKIDDILPETGVCALLGDEQVAIFRPYHSDQVFAISNIDPFFESSVLSRGLIAEHQGELWVASPLKKQRFRLSDGLCMEDEQFSVKHYEARVKDGVVQLRG" "c" "Han et al., 2011" -"NRDA-MONOMER" "MNQNLLVTKRDGSTERINLDKIHRVLDWAAEGLHNVSISQVELRSHIQFYDGIKTSDIHETIIKAAADLISRDAPDYQYLAARLAIFHLRKKAYGQFEPPALYDHVVKMVEMGKYDNHLLEDYTEEEFKQMDTFIDHDRDMTFSYAAVKQLEGKYLVQNRVTGEIYESAQFLYILVAACLFSNYPRETRLQYVKRFYDAVSTFKISLPTPIMSGVRTPTRQFSSCVLIECGDSLDSINATSSAIVKYVSQRAGIGINAGRIRALGSPIRGGEAFHTGCIPFYKHFQTAVKSCSQGGVRGGAATLFYPMWHLEVESLLVLKNNRGVEGNRVRHMDYGVQINKLMYTRLLKGEDITLFSPSDVPGLYDAFFADQEEFERLYTKYEKDDSIRKQRVKAVELFSLMMQERASTGRIYIQNVDHCNTHSPFDPAIAPVRQSNLCLEIALPTKPLNDVNDENGEIALCTLSAFNLGAINNLDELEELAILAVRALDALLDYQDYPIPAAKRGAMGRRTLGIGVINFAYYLAKHGKRYSDGSANNLTHKTFEAIQYYLLKASNELAKEQGACPWFNETTYAKGILPIDTYKKDLDTIANEPLHYDWEALRESIKTHGLRNSTLSALMPSETSSQISNATNGIEPPRGYVSIKASKDGILRQVVPDYEHLHDAYELLWEMPGNDGYLQLVGIMQKFIDQSISANTNYDPSRFPSGKVPMQQLLKDLLTAYKFGVKTLYYQNTRDGAEDAQDDLVPSIQDDGCESGACKI" "c" "Han et al., 2011" -"NRDB-MONOMER" "MAYTTFSQTKNDQLKEPMFFGQPVNVARYDQQKYDIFEKLIEKQLSFFWRPEEVDVSRDRIDYQALPEHEKHIFISNLKYQTLLDSIQGRSPNVALLPLISIPELETWVETWAFSETIHSRSYTHIIRNIVNDPSVVFDDIVTNEQIQKRAEGISSYYDELIEMTSYWHLLGEGTHTVNGKTVTVSLRELKKKLYLCLMSVNALEAIRFYVSFACSFAFAERELMEGNAKIIRLIARDEALHLTGTQHMLNLLRSGADDPEMAEIAEECKQECYDLFVQAAQQEKDWADYLFRDGSMIGLNKDILCQYVEYITNIRMQAVGLDLPFQTRSNPIPWINTWLVSDNVQVAPQEVEVSSYLVGQIDSEVDTDDLSNFQL" "c" "Han et al., 2011" -"NRDE-MONOMER" "LATTTAECLTQETMDYHALNAMLNLYDSAGRIQFDKDRQAVDAFIATHVRPNSVTFSSQQQRLNWLVNEGYYDESVLNRYSRDFVITLFTHAHTSGFRFQTFLGAWKFYTSYTLKTFDGKRYLEDFADRVTMVALTLAQGDETLALQLTDEMLSGRFQPATPTFLNCGKQQRGELVSCFLLRIEDNMESIGRAVNSALQLSKRGGGVAFLLSNLREAGAPIKRIENQSSGVIPVMKMLEDAFSYANQLGARQGAGAVYLHAHHPDILRFLDTKRENADEKIRIKTLSLGVVIPDITFHLAKENAQMALFSPYDVERVYGKPFADVAISQHYDELVADERIRKKYLNARDFFQRLAEIQFESGYPYIMYEDTVNRANPIAGRINMSNLCSEILQVNSASEYDENLDYTRTGHDISCNLGSLNIAHTMDSPDFARTVETAVRGLTAVSDMSHIRSVPSIEAGNAASHAIGLGQMNLHGYLAREGIAYGSPEALDFTNLYFYAITWHALRTSMLLARERGETFAGFKQSRYASGEYFSQYLQGNWQPKTAKVGELFTRSGITLPTREMWAQLRDDVMRYGIYNQNLQAVPPTGSISYINHATSSIHPIVAKVEIRKEGKTGRVYYPAPFMTNENLALYQDAYEIGAEKIIDTYAEATRHVDQGLSLTLFFPDTATTRDINKAQIYAWRKGIKTLYYIRLRQMALEGTEIEGCVSCAL" "c" "Han et al., 2011" -"NRDF-MONOMER" "MKLSRISAINWNKISDDKDLEVWNRLTSNFWLPEKVPLSNDIPAWQTLTVVEQQLTMRVFTGLTLLDTLQNVIGAPSLMPDALTPHEEAVLSNISFMEAVHARSYSSIFSTLCQTKDVDAAYAWSEENAPLQRKAQIIQQHYRGDDPLKKKIASVFLESFLFYSGFWLPMYFSSRGKLTNTADLIRLIIRDEAVHGYYIGYKYQKNMEKISLGQREELKSFAFDLLLELYDNELQYTDELYAETPWADDVKAFLCYNANKALMNLGYEPLFPAEMAEVNPAILAALSPNADENHDFFSGSGSSYVMGKAVETEDEDWNF" "c" "Han et al., 2011" -"NRFC-MONOMER" "MTWSRRQFLTGVGVLAAVSGTAGRVVAKTLNINGVRYGMVHDESLCIGCTACMDACREVNKVPEGVSRLTIIRSEPQGEFPDVKYRFFRKSCQHCDHAPCVDVCPTGASFRDAASGIVDVNPDLCVGCQYCIAACPYRVRFIHPVTKTADKCDFCRKTNLQAGKLPACVEACPTKALTFGNLDDPNSEISQLLRQKPTYRYKLALGTKPKLYRVPFKYGEVSQ" "i" "Han et al., 2011" -"NRFD-MONOMER" "MTQTSAFHFESLVWDWPIAIYLFLIGISAGLVTLAVLLRRFYPQAGGADSTLLRTTLIVGPGAVILGLLILVFHLTRPWTFWKLMFHYSFTSVMSMGVMLFQLYMVVLVLWLAKIFEHDLLALQQRWLPKLGIVQKVLSLLTPVHRGLETLMLVLAVLLGAYTGFLLSALKSYPFLNNPILPVLFLFSGISSGAAVALIAMAIRQRSNPHSTEAQFVHRMEIPVVWGEIFLLVAFFVGLALGDDGKVRALVAALGGGFWTWWFWLGVAGLGLIVPMLLKPWVNRSSGIPAVLAACGASLVGVLMLRFFILYAGQLTVA" "i" "Han et al., 2011" -"NUCLEOSIDE-DIP-KIN-MONOMER" "MAIERTFSIIKPNAVAKNVIGNIFARFEAAGFKIVGTKMLHLTVEQARGFYAEHDGKPFFDGLVEFMTSGPIVVSVLEGENAVQRHRDLLGATNPANALAGTLRADYADSLTENGTHGSDSVESAAREIAYFFGEGEVCPRTR" "c" "Han et al., 2011" -"NUOA-MONOMER" "MSMSTSTEVIAHHWAFAIFLIVAIGLCCLMLVGGWFLGGRARARSKNVPFESGIDSVGSARLRLSAKFYLVAMFFVIFDVEALYLFAWSTSIRESGWVGFVEAAIFIFVLLAGLVYLVRIGALDWTPARSRRERMNPETNSIANRQR" "i" "Han et al., 2011" -"NUOB-MONOMER" "MDYTLTRIDPNGENDRYPLQKQEIVTDPLEQEVNKNVFMGKLNDMVNWGRKNSIWPYNFGLSCCYVEMVTSFTAVHDVARFGAEVLRASPRQADLMVVAGTCFTKMAPVIQRLYDQMLEPKWVISMGACANSGGMYDIYSVVQGVDKFIPVDVYIPGCPPRPEAYMQALMLLQESIGKERRPLSWVVGDQGVYRANMQSERERKRGERIAVTNLRTPDEI" "i" "Lopez-Campistrous et al., 2005" -"NUOC-MONOMER" "MTDLTAQEPAWQTRDHLDDPVIGELRNRFGPDAFTVQATRTGVPVVWIKREQLLEVGDFLKKLPKPYVMLFDLHGMDERLRTHREGLPAADFSVFYHLISIDRNRDIMLKVALAENDLHVPTFTKLFPNANWYERETWDLFGITFDGHPNLRRIMMPQTWKGHPLRKDYPARATEFSPFELTKAKQDLEMEALTFKPEEWGMKRGTENEDFMFLNLGPNHPSAHGAFRIVLQLDGEEIVDCVPDIGYHHRGAEKMGERQSWHSYIPYTDRIEYLGGCVNEMPYVLAVEKLAGITVPDRVNVIRVMLSELFRINSHLLYISTFIQDVGAMTPVFFAFTDRQKIYDLVEAITGFRMHPAWFRIGGVAHDLPRGWDRLLREFLDWMPKRLASYEKAALQNTILKGRSQGVAAYGAKEALEWGTTGAGLRATGIDFDVRKARPYSGYENFDFEIPVGGGVSDCYTRVMLKVEELRQSLRILEQCLNNMPEGPFKADHPLTTPPPKERTLQHIETLITHFLQVSWGPVMPANESFQMIEATKGINSYYLTSDGSTMSYRTRVRTPSFAHLQQIPAAIRGSLVSDLIVYLGSIDFVMSDVDR" "i" "EcoCyc dump" -"NUOE-MONOMER" "MHENQQPQTEAFELSAAEREAIEHEMHHYEDPRAASIEALKIVQKQRGWVPDGAIHAIADVLGIPASDVEGVATFYSQIFRQPVGRHVIRYCDSVVCHINGYQGIQAALEKKLNIKPGQTTFDGRFTLLPTCCLGNCDKGPNMMIDEDTHAHLTPEAIPELLERYK" "i" "EcoCyc dump" -"NUOF-MONOMER" "MKNIIRTPETHPLTWRLRDDKQPVWLDEYRSKNGYEGARKALTGLSPDEIVNQVKDAGLKGRGGAGFSTGLKWSLMPKDESMNIRYLLCNADEMEPGTYKDRLLMEQLPHLLVEGMLISAFALKAYRGYIFLRGEYIEAAVNLRRAIAEATEAGLLGKNIMGTGFDFELFVHTGAGRYICGEETALINSLEGRRANPRSKPPFPATSGAWGKPTCVNNVETLCNVPAILANGVEWYQNISKSKDAGTKLMGFSGRVKNPGLWELPFGTTAREILEDYAGGMRDGLKFKAWQPGGAGTDFLTEAHLDLPMEFESIGKAGSRLGTALAMAVDHEINMVSLVRNLEEFFARESCGWCTPCRDGLPWSVKILRALERGEGQPGDIETLEQLCRFLGPGKTFCAHAPGAVEPLQSAIKYFREEFEAGIKQPFSNTHLINGIQPNLLKERW" "i" "EcoCyc dump" -"NUOG-MONOMER" "MATIHVDGKEYEVNGADNLLEACLSLGLDIPYFCWHPALGSVGACRQCAVKQYQNAEDTRGRLVMSCMTPASDGTFISIDDEEAKQFRESVVEWLMTNHPHDCPVCEEGGNCHLQDMTVMTGHSFRRYRFTKRTHRNQDLGPFISHEMNRCIACYRCVRYYKDYADGTDLGVYGAHDNVYFGRPEDGTLESEFSGNLVEICPTGVFTDKTHSERYNRKWDMQFAPSICQQCSIGCNISPGERYGELRRIENRYNGTVNHYFLCDRGRFGYGYVNLKDRPRQPVQRRGDDFITLNAEQAMQGAADILRQSKKVIGIGSPRASVESNFALRELVGEENFYTGIAHGEQERLQLALKVLREGGIYTPALREIESYDAVLVLGEDVTQTGARVALAVRQAVKGKAREMAAAQKVADWQIAAILNIGQRAKHPLFVTNVDDTRLDDIAAWTYRAPVEDQARLGFAIAHALDNSAPAVDGIEPELQSKIDVIVQALAGAKKPLIISGTNAGSLEVIQAAANVAKALKGRGADVGITMIARSVNSMGLGIMGGGSLEEALTELETGRADAVVVLENDLHRHASAIRVNAALAKAPLVMVVDHQRTAIMENAHLVLSAASFAESDGTVINNEGRAQRFFQVYDPAYYDSKTVMLESWRWLHSLHSTLLSREVDWTQLDHVIDAVVAKIPELAGIKDAAPDATFRIRGQKLAREPHRYSGRTAMRANISVHEPRQPQDIDTMFTFSMEGNNQPTAHRSQVPFAWAPGWNSPQAWNKFQDEVGGKLRFGDPGVRLFETSENGLDYFTSVPARFQPQDGKWRIAPYYHLFGSDELSQRAPVFQSRMPQPYIKLNPADAAKLGVNAGTRVSFSYDGNTVTLPVEIAEGLTAGQVGLPMGMSGIAPVLAGAHLEDLKEAQQ" "i" "EcoCyc dump" -"NUOH-MONOMER" "MSWISPELIEILLTILKAVVILLVVVTCGAFMSFGERRLLGLFQNRYGPNRVGWGGSLQLVADMIKMFFKEDWIPKFSDRVIFTLAPMIAFTSLLLAFAIVPVSPGWVVADLNIGILFFLMMAGLAVYAVLFAGWSSNNKYSLLGAMRASAQTLSYEVFLGLSLMGVVAQAGSFNMTDIVNSQAHVWNVIPQFFGFITFAIAGVAVCHRHPFDQPEAEQELADGYHIEYSGMKFGLFFVGEYIGIVTISALMVTLFFGGWQGPLLPPFIWFALKTAFFMMMFILIRASLPRPRYDQVMSFGWKICLPLTLINLLVTAAVILWQAQ" "i" "Han et al., 2011" -"NUOI-MONOMER" "MTLKELLVGFGTQVRSIWMIGLHAFAKRETRMYPEEPVYLPPRYRGRIVLTRDPDGEERCVACNLCAVACPVGCISLQKAETKDGRWYPEFFRINFSRCIFCGLCEEACPTTAIQLTPDFEMGEYKRQDLVYEKEDLLISGPGKYPEYNFYRMAGMAIDGKDKGEAENEAKPIDVKSLLP" "i" "Han et al., 2011" -"NUOJ-MONOMER" "MEFAFYICGLIAILATLRVITHTNPVHALLYLIISLLAISGVFFSLGAYFAGALEIIVYAGAIMVLFVFVVMMLNLGGSEIEQERQWLKPQVWIGPAILSAIMLVVIVYAILGVNDQGIDGTPISAKAVGITLFGPYVLAVELASMLLLAGLVVAFHVGREERAGEVLSNRKDDSAKRKTEEHA" "i" "Han et al., 2011" -"NUOK-MONOMER" "MIPLQHGLILAAILFVLGLTGLVIRRNLLFMLIGLEIMINASALAFVVAGSYWGQTDGQVMYILAISLAAAEASIGLALLLQLHRRRQNLNIDSVSEMRG" "i" "Han et al., 2011" -"NUOL-MONOMER" "MNMLALTIILPLIGFVLLAFSRGRWSENVSAIVGVGSVGLAALVTAFIGVDFFANGEQTYSQPLWTWMSVGDFNIGFNLVLDGLSLTMLSVVTGVGFLIHMYASWYMRGEEGYSRFFAYTNLFIASMVVLVLADNLLLMYLGWEGVGLCSYLLIGFYYTDPKNGAAAMKAFVVTRVGDVFLAFALFILYNELGTLNFREMVELAPAHFADGNNMLMWATLMLLGGAVGKSAQLPLQTWLADAMAGPTPVSALIHAATMVTAGVYLIARTHGLFLMTPEVLHLVGIVGAVTLLLAGFAALVQTDIKRVLAYSTMSQIGYMFLALGVQAWDAAIFHLMTHAFFKALLFLASGSVILACHHEQNIFKMGGLRKSIPLVYLCFLVGGAALSALPLVTAGFFSKDEILAGAMANGHINLMVAGLVGAFMTSLYTFRMIFIVFHGKEQIHAHAVKGVTHSLPLIVLLILSTFVGALIVPPLQGVLPQTTELAHGSMLTLEITSGVVAVVGILLAAWLWLGKRTLVTSIANSAPGRLLGTWWYNAWGFDWLYDKVFVKPFLGIAWLLKRDPLNSMMNIPAVLSRFAGKGLLLSENGYLRWYVASMSIGAVVVLALLMVLR" "i" "Han et al., 2011" -"NUOM-MONOMER" "MLLPWLILIPFIGGFLCWQTERFGVKVPRWIALITMGLTLALSLQLWLQGGYSLTQSAGIPQWQSEFDMPWIPRFGISIHLAIDGLSLLMVVLTGLLGVLAVLCSWKEIEKYQGFFHLNLMWILGGVIGVFLAIDMFLFFFFWEMMLVPMYFLIALWGHKASDGKTRITAATKFFIYTQASGLVMLIAILALVFVHYNATGVWTFNYEELLNTPMSSGVEYLLMLGFFIAFAVKMPVVPLHGWLPDAHSQAPTAGSVDLAGILLKTAAYGLLRFSLPLFPNASAEFAPIAMWLGVIGIFYGAWMAFAQTDIKRLIAYTSVSHMGFVLIAIYTGSQLAYQGAVIQMIAHGLSAAGLFILCGQLYERIHTRDMRMMGGLWSKMKWLPALSLFFAVATLGMPGTGNFVGEFMILFGSFQVVPVITVISTFGLVFASVYSLAMLHRAYFGKAKSQIASQELPGMSLRELFMILLLVVLLVLLGFYPQPILDTSHSAIGNIQQWFVNSVTTTRP" "i" "Han et al., 2011" -"NUON-MONOMER" "MTITPQNLIALLPLLIVGLTVVVVMLSIAWRRNHFLNATLSVIGLNAALVSLWFVGQAGAMDVTPLMRVDGFAMLYTGLVLLASLATCTFAYPWLEGYNDNKDEFYLLVLIAALGGILLANANHLASLFLGIELISLPLFGLVGYAFRQKRSLEASIKYTILSAAASSFLLFGMALVYAQSGDLSFVALGKNLGDGMLNEPLLLAGFGLMIVGLGFKLSLVPFHLWTPDVYQGAPAPVSTFLATASKIAIFGVVMRLFLYAPVGDSEAIRVVLAIIAFASIIFGNLMALSQTNIKRLLGYSSISHLGYLLVALIALQTGEMSMEAVGVYLAGYLFSSLGAFGVVSLMSSPYRGPDADSLFSYRGLFWHRPILAAVMTVMMLSLAGIPMTLGFIGKFYVLAVGVQAHLWWLVGAVVVGSAIGLYYYLRVAVSLYLHAPEQPGRDAPSNWQYSAGGIVVLISALLVLVLGVWPQPLISIVRLAMPLM" "i" "Han et al., 2011" -"NUPC-MONOMER" "MDRVLHFVLALAVVAILALLVSSDRKKIRIRYVIQLLVIEVLLAWFFLNSDVGLGFVKGFSEMFEKLLGFANEGTNFVFGSMNDQGLAFFFLKVLCPIVFISALIGILQHIRVLPVIIRAIGFLLSKVNGMGKLESFNAVSSLILGQSENFIAYKDILGKISRNRMYTMAATAMSTVSMSIVGAYMTMLEPKYVVAALVLNMFSTFIVLSLINPYRVDASEENIQMSNLHEGQSFFEMLGEYILAGFKVAIIVAAMLIGFIALIAALNALFATVTGWFGYSISFQGILGYIFYPIAWVMGVPSSEALQVGSIMATKLVSNEFVAMMDLQKIASTLSPRAEGIISVFLVSFANFSSIGIIAGAVKGLNEEQGNVVSRFGLKLVYGSTLVSVLSASIAALVL" "i" "Han et al., 2011" -"NUPG-MONOMER" "MNLKLQLKILSFLQFCLWGSWLTTLGSYMFVTLKFDGASIGAVYSSLGIAAVFMPALLGIVADKWLSAKWVYAICHTIGAITLFMAAQVTTPEAMFLVILINSFAYMPTLGLINTISYYRLQNAGMDIVTDFPPIRIWGTIGFIMAMWVVSLSGFELSHMQLYIGAALSAILVLFTLTLPHIPVAKQQANQSWTTLLGLDAFALFKNKRMAIFFIFSMLLGAELQITNMFGNTFLHSFDKDPMFASSFIVQHASIIMSISQISETLFILTIPFFLSRYGIKNVMMISIVAWILRFALFAYGDPTPFGTVLLVLSMIVYGCAFDFFNISGSVFVEKEVSPAIRASAQGMFLMMTNGFGCILGGIVSGKVVEMYTQNGITDWQTVWLIFAGYSVVLAFAFMAMFKYKHVRVPTGTQTVSH" "i" "Han et al., 2011" -"O-SUCCHOMOSERLYASE-MONOMER" "MTRKQATIAVRSGLNDDEQYGCVVPPIHLSSTYNFTGFNEPRAHDYSRRGNPTRDVVQRALAELEGGAGAVLTNTGMSAIHLVTTVFLKPGDLLVAPHDCYGGSYRLFDSLAKRGCYRVLFVDQGDEQALRAALAEKPKLVLVESPSNPLLRVVDIAKICHLAREVGAVSVVDNTFLSPALQNPLALGADLVLHSCTKYLNGHSDVVAGVVIAKDPDVVTELAWWANNIGVTGGAFDSYLLLRGLRTLVPRMELAQRNAQAIVKYLQTQPLVKKLYHPSLPENQGHEIAARQQKGFGAMLSFELDGDEQTLRRFLGGLSLFTLAESLGGVESLISHAATMTHAGMAPEARAAAGISETLLRISTGIEDGEDLIADLENGFRAANKG" "c" "Han et al., 2011" -"O-SUCCINYLBENZOATE-COA-LIG-MONOMER" "MIFSDWPWRHWRQVRGETIALRLNDEQLNWRELCARVDELASGFAVQGVVEGSGVMLRAWNTPQTLLAWLALLQCGARVLPVNPQLPQPLLEELLPNLTLQFALVPDGENTFPALTSLHIQLVEGAHAATWQPTRLCSMTLTSGSTGLPKAAVHTYQAHLASAQGVLSLIPFGDHDDWLLSLPLFHVSGQGIMWRWLYAGARMTVRDKQPLEQMLAGCTHASLVPTQLWRLLVNRSSVSLKAVLLGGAAIPVELTEQAREQGIRCFCGYGLTEFASTVCAKEADGLADVGSPLPGREVKIVNNEVWLRAASMAEGYWRNGQLVSLVNDEGWYATRDRGEMHNGKLTIVGRLDNLFFSGGEGIQPEEVERVIAAHPAVLQVFIVPVADKEFGHRPVAVMEYDHESVDLSEWVKDKLARFQQPVRWLTLPPELKNGGIKISRQALKEWVQRQQ" "c" "Han et al., 2011" -"O-SUCCINYLBENZOATE-COA-SYN-MONOMER" "MRSAQVYRWQIPMDAGVVLRDRRLKTRDGLYVCLREGEREGWGEISPLPGFSQETWEEAQSVLLAWVNNWLAGDCELPQMPSVAFGVSCALAELTDTLPQAANYRAAPLCNGDPDDLILKLADMPGEKVAKVKVGLYEAVRDGMVVNLLLEAIPDLHLRLDANRAWTPLKGQQFAKYVNPDYRDRIAFLEEPCKTRDDSRAFARETGIAIAWDESLREPDFAFVAEEGVRAVVIKPTLTGSLEKVREQVQAAHALGLTAVISSSIESSLGLTQLARIAAWLTPDTIPGLDTLDLMQAQQVRRWPGSTLPVVEVDALERLL" "c" "Han et al., 2011" -"OCTAPRENYL-METHOXYPHENOL-OH-MONOMER" "MSVIIVGGGMAGATLALAISRLSHGALPVHLIEATAPESHAHPGFDGRAIALAAGTCQQLARIGVWQSLADCATAITTVHVSDRGHAGFVTLAAEDYQLAALGQVVELHNVGQRLFALLRKAPGVTLHCPDRVANVARTQSHVEVTLESGETLTGRVLVAADGTHSALATACGVDWQQEPYEQLAVIANVATSVAHEGRAFERFTQHGPLAMLPMSDGRCSLVWCHPLERREEVLSWSDEKFCRELQSAFGWRLGKITHAGKRSAYPLALTHAARSITHRTVLVGNAAQTLHPIAGQGFNLGMRDVMSLAETLTQAQERGEDMGDYGVLCRYQQRRQSDREATIGVTDSLVHLFANRWAPLVVGRNIGLMTMELFTPARDVLAQRTLGWVAR" "c" "Han et al., 2011" -"OCTAPRENYL-METHYL-METHOXY-BENZOQ-OH-MON" "MTNQPTEIAIVGGGMVGGALALGLAQHGFAVTVIEHAEPAPFVADSQPDVRISAISAASVSLLKGLGVWDAVQAMRCHPYRRLETWEWETAHVVFDAAELKLPLLGYMVENTVLQQALWQALEAHPKVTLRVPGSLIALHRHDDLQELELKGGEVIRAKLVIGADGANSQVRQMAGIGVHAWQYAQSCMLISVQCENDPGDSTWQQFTPDGPRAFLPLFDNWASLVWYDSPARIRQLQNMNMAQLQAEIAKHFPSRLGYVTPLAAGAFPLTRRHALQYVQPGLALVGDAAHTIHPLAGQGVNLGYRDVDALIDVLVNARSYGEAWASYPVLKRYQMRRMADNFIMQSGMDLFYAGFSNNLPPLRFMRNLGLMAAERAGVLKRQALKYALGL" "c" "Han et al., 2011" -"OHMETHYLBILANESYN-MONOMER" "MLDNVLRIATRQSPLALWQAHYVKDKLMASHPGLVVELVPMVTRGDVILDTPLAKVGGKGLFVKELEVALLENRADIAVHSMKDVPVEFPQGLGLVTICEREDPRDAFVSNNYDSLDALPAGSIVGTSSLRRQCQLAERRPDLIIRSLRGNVGTRLSKLDNGEYDAIILAVAGLKRLGLESRIRAALPPEISLPAVGQGAVGIECRLDDSRTRELLAALNHHETALRVTAERAMNTRLEGGCQVPIGSYAELIDGEIWLRALVGAPDGSQIIRGERRGAPQDAEQMGISLAEELLNNGAREILAEVYNGDAPA" "c" "Han et al., 2011" -"OMPR-MONOMER" "MQENYKILVVDDDMRLRALLERYLTEQGFQVRSVANAEQMDRLLTRESFHLMVLDLMLPGEDGLSICRRLRSQSNPMPIIMVTAKGEEVDRIVGLEIGADDYIPKPFNPRELLARIRAVLRRQANELPGAPSQEEAVIAFGKFKLNLGTREMFREDEPMPLTSGEFAVLKALVSHPREPLSRDKLMNLARGREYSAMERSIDVQISRLRRMVEEDPAHPRYIQTVWGLGYVFVPDGSKA" "c" "Han et al., 2011" -"OPPA-MONOMER" "MTNITKRSLVAAGVLAALMAGNVALAADVPAGVTLAEKQTLVRNNGSEVQSLDPHKIEGVPESNISRDLFEGLLVSDLDGHPAPGVAESWDNKDAKVWTFHLRKDAKWSDGTPVTAQDFVYSWQRSVDPNTASPYASYLQYGHIAGIDEILEGKKPITDLGVKAIDDHTLEVTLSEPVPYFYKLLVHPSTSPVPKAAIEKFGEKWTQPGNIVTNGAYTLKDWVVNERIVLERSPTYWNNAKTVINQVTYLPIASEVTDVNRYRSGEIDMTNNSMPIELFQKLKKEIPDEVHVDPYLCTYYYEINNQKPPFNDVRVRTALKLGMDRDIIVNKVKAQGNMPAYGYTPPYTDGAKLTQPEWFGWSQEKRNEEAKKLLAEAGYTADKPLTINLLYNTSDLHKKLAIAASSLWKKNIGVNVKLVNQEWKTFLDTRHQGTFDVARAGWCADYNEPTSFLNTMLSNSSMNTAHYKSPAFDSIMAETLKVTDEAQRTALYTKAEQQLDKDSAIVPVYYYVNARLVKPWVGGYTGKDPLDNTYTRNMYIVKH" "i" "EcoCyc dump" -"OPPB-MONOMER" "MLKFILRRCLEAIPTLFILITISFFMMRLAPGSPFTGERTLPPEVMANIEAKYHLNDPIMTQYFSYLKQLAHGDFGPSFKYKDYSVNDLVASSFPVSAKLGAAAFFLAVILGVSAGVIAALKQNTKWDYTVMGLAMTGVVIPSFVVAPLLVMIFAIILHWLPGGGWNGGALKFMILPMVALSLAYIASIARITRGSMIEVLHSNFIRTARAKGLPMRRIILRHALKPALLPVLSYMGPAFVGIITGSMVIETIYGLPGIGQLFVNGALNRDYSLVLSLTILVGALTILFNAIVDVLYAVIDPKIRY" "i" "Han et al., 2011" -"OPPC-MONOMER" "MMLSKKNSETLENFSEKLEVEGRSLWQDARRRFMHNRAAVASLIVLVLIALFVILAPMLSQFAYDDTDWAMMSSAPDMESGHYFGTDSSGRDLLVRVAIGGRISLMVGVAAALVAVVVGTLYGSLSGYLGGKVDSVMMRLLEILNSFPFMFFVILLVTFFGQNILLIFVAIGMVSWLDMARIVRGQTLSLKRKEFIEAAQVGGVSTSGIVIRHIVPNVLGVVVVYASLLVPSMILFESFLSFLGLGTQEPLSSWGALLSDGANSMEVSPWLLLFPAGFLVVTLFCFNFIGDGLRDALDPKDR" "i" "Han et al., 2011" -"OPPD-MONOMER" "MSVIETATVPLAQQQADALLNVKDLRVTFSTPDGDVTAVNDLNFSLRAGETLGIVGESGSGKSQTAFALMGLLAANGRIGGSATFNGREILNLPEHELNKLRAEQISMIFQDPMTSLNPYMRVGEQLMEVLMLHKNMSKAEAFEESVRMLDAVKMPEARKRMKMYPHEFSGGMRQRVMIAMALLCRPKLLIADEPTTALDVTVQAQIMTLLNELKREFNTAIIMITHDLVVVAGICDKVLVMYAGRTMEYGNARDVFYQPVHPYSIGLLNAVPRLDAEGETMLTIPGNPPNLLRLPKGCPFQPRCPHAMEICSSAPPLEEFTPGRLRACFKPVEELL" "i" "EcoCyc dump" -"OPPF-MONOMER" "MNAVTEGRKVLLEIADLKVHFEIKDGKQWFWQPPKTLKAVDGVTLRLYEGETLGVVGESGCGKSTFARAIIGLVKATDGHVAWLGKELLGMKPDEWRAVRSDIQMIFQDPLASLNPRMTIGEIIAEPLRTYHPKMSRQEVRERVKAMMLKVGLLPNLINRYPHEFSGGQCQRIGIARALILEPKLIICDEPVSALDVSIQAQVVNLLQQLQREMGLSLIFIAHDLAVVKHISDRVLVMYLGHAVELGTYDEVYHNPLHPYTRALMSAVPIPDPDLEKNKTIQLLEGELPSPINPPSGCVFRTRCPIAGPECAKTRPVLEGSFRHSVSCLKVDPL" "i" "Han et al., 2011" -"OPPSYN-MONOMER" "MNLEKINELTAQDMAGVNAAILEQLNSDVQLINQLGYYIVSGGGKRIRPMIAVLAARAVGYEGNAHVTIAALIEFIHTATLLHDDVVDESDMRRGKATANAAFGNAASVLVGDFIYTRAFQMMTSLGSLKVLEVMSEAVNVIAEGEVLQLMNVNDPDITEENYMRVIYSKTARLFEAAAQCSGILAGCTPEEEKGLQDYGRYLGTAFQLIDDLLDYNADGEQLGKNVGDDLNEGKPTLPLLHAMHHGTPEQAQMIRTAIEQGNGRHLLEPVLEAMNACGSLEWTRQRAEEEADKAIAALQVLPDTPWREALIGLAHIAVQRDR" "c" "Han et al., 2011" -"ORNDECARBOX-BIO-MONOMER" "MKSMNIAASSELVSRLSSHRRVVALGDTDFTDVAAVVITAADSRSGILALLKRTGFHLPVFLYSEHAVELPAGVTAVINGNEQQWLELESAACQYEENLLPPFYDTLTQYVEMGNSTFACPGHQHGAFFKKHPAGRHFYDFFGENVFRADMCNADVKLGDLLIHEGSAKDAQKFAAKVFHADKTYFVLNGTSAANKVVTNALLTRGDLVLFDRNNHKSNHHGALIQAGATPVYLEASRNPFGFIGGIDAHCFNEEYLRQQIRDVAPEKADLPRPYRLAIIQLGTYDGTVYNARQVIDTVGHLCDYILFDSAWVGYEQFIPMMADSSPLLLELNENDPGIFVTQSVHKQQAGFSQTSQIHKKDNHIRGQARFCPHKRLNNAFMLHASTSPFYPLFAALDVNAKIHEGESGRRLWAECVEIGIEARKAILARCKLFRPFIPPVVDGKLWQDYPTSVLASDRRFFSFEPGAKWHGFEGYAADQYFVDPCKLLLTTPGIDAETGEYSDFGVPATILAHYLRENGIVPEKCDLNSILFLLTPAESHEKLAQLVAMLAQFEQHIEDDSPLVEVLPSVYNKYPVRYRDYTLRQLCQEMHDLYVSFDVKDLQKAMFRQQSFPSVVMNPQDAHSAYIRGDVELVRIRDAEGRIAAEGALPYPPGVLCVVPGEVWGGAVQRYFLALEEGVNLLPGFSPELQGVYSETDADGVKRLYGYVLK" "c" "Han et al., 2011" -"ORNDECARBOXDEG-MONOMER" "MSKLKIAVSDSCPDCFTTQRECIYINESRNIDVAAIVLSLNDVTCGKLDEIDATGYGIPVFIATENQERVPAEYLPRISGVFENCESRREFYGRQLETAASHYETQLRPPFFRALVDYVNQGNSAFDCPGHQGGEFFRRHPAGNQFVEYFGEALFRADLCNADVAMGDLLIHEGAPCIAQQHAAKVFNADKTYFVLNGTSSSNKVVLNALLTPGDLVLFDRNNHKSNHHGALLQAGATPVYLETARNPYGFIGGIDAHCFEESYLRELIAEVAPQRAKEARPFRLAVIQLGTYDGTIYNARQVVDKIGHLCDYILFDSAWVGYEQFIPMMADCSPLLLDLNENDPGILVTQSVHKQQAGFSQTSQIHKKDSHIKGQQRYVPHKRMNNAFMMHASTSPFYPLFAALNINAKMHEGVSGRNMWMDCVVNGINARKLILDNCQHIRPFVPELVDGKPWQSYETAQIAVDLRFFQFVPGEHWHSFEGYAENQYFVDPCKLLLTTPGIDARNGEYEAFGVPATILANFLRENGVVPEKCDLNSILFLLTPAEDMAKLQQLVALLVRFEKLLESDAPLAEVLPSIYKQHEERYAGYTLRQLCQEMHDLYARHNVKQLQKEMFRKEHFPRVSMNPQEANYAYLRGEVELVRLPDAEGRIAAEGALPYPPGVLCVVPGEIWGGAVLRYFSALEEGINLLPGFAPELQGVYIEEHDGRKQVWCYVIKPRDAQSTLLKGEKL" "c" "Han et al., 2011" -"OROPRIBTRANS-MONOMER" "MKPYQRQFIEFALSKQVLKFGEFTLKSGRKSPYFFNAGLFNTGRDLALLGRFYAEALVDSGIEFDLLFGPAYKGIPIATTTAVALAEHHDLDLPYCFNRKEAKDHGEGGNLVGSALQGRVMLVDDVITAGTAIRESMEIIQANGATLAGVLISLDRQERGRGEISAIQEVERDYNCKVISIITLKDLIAYLEEKPEMAEHLAAVKAYREEFGV" "c" "Han et al., 2011" -"OROTPDECARB-MONOMER" "MTLTASSSSRAVTNSPVVVALDYHNRDDALAFVDKIDPRDCRLKVGKEMFTLFGPQFVRELQQRGFDIFLDLKFHDIPNTAAHAVAAAADLGVWMVNVHASGGARMMTAAREALVPFGKDAPLLIAVTVLTSMEASDLVDLGMTLSPADYAERLAALTQKCGLDGVVCSAQEAVRFKQVFGQEFKLVTPGIRPQGSEAGDQRRIMTPEQALSAGVDYMVIGRPVTQSVDPAQTLKAINASLQRSA" "c" "Han et al., 2011" -"PABASYN-COMPI-MONOMER" "MKTLSPAVITLLWRQDAAEFYFSRLSHLPWAMLLHSGYADHPYSRFDIVVAEPICTLTTFGKETVVSESEKRTTTTDDPLQVLQQVLDRADIRPTHNEDLPFQGGALGLFGYDLGRRFESLPEIAEQDIVLPDMAVGIYDWALIVDHQRHTVSLLSHNDVNARRAWLESQQFSPQEDFTLTSDWQSNMTREQYGEKFRQVQEYLHSGDCYQVNLAQRFHATYSGDEWQAFLQLNQANRAPFSAFLRLEQGAILSLSPERFILCDNSEIQTRPIKGTLPRLPDPQEDSKQAVKLANSAKDRAENLMIVDLMRNDIGRVAVAGSVKVPELFVVEPFPAVHHLVSTITAQLPEQLHASDLLRAAFPGGSITGAPKVRAMEIIDELEPQRRNAWCGSIGYLSFCGNMDTSITIRTLTAINGQIFCSAGGGIVADSQEEAEYQETFDKVNRILKQLEK" "c" "Han et al., 2011" -"PABASYN-COMPII-MONOMER" "MILLIDNYDSFTWNLYQYFCELGADVLVKRNDALTLADIDALKPQKIVISPGPCTPDEAGISLDVIRHYAGRLPILGVCLGHQAMAQAFGGKVVRAAKVMHGKTSPITHNGEGVFRGLANPLTVTRYHSLVVEPDSLPACFDVTAWSETREIMGIRHRQWDLEGVQFHPESILSEQGHQLLANFLHR" "c" "Han et al., 2011" -"PALMITOTRANS-MONOMER" "MFPQCKFSREFLHPRYWLTWFGLGVLWLWVQLPYPVLCFLGTRIGAMARPFLKRRESIARKNLELCFPQHSAEEREKMIAENFRSLGMALVETGMAWFWPDSRVRKWFDVEGLDNLKRAQMQNRGVMVVGVHFMSLELGGRVMGLCQPMMATYRPHNNQLMEWVQTRGRMRSNKAMIGRNNLRGIVGALKKGEAVWFAPDQDYGRKGSSFAPFFAVENVATTNGTYVLSRLSGAAMLTVTMVRKADYSGYRLFITPEMEGYPTDENQAAAYMNKIIEKEIMRAPEQYLWIHRRFKTRPVGESSLYI" "i" "Han et al., 2011" -"PANF-MONOMER" "MQLEVILPLVAYLVVVFGISVYAMRKRSTGTFLNEYFLGSRSMGGIVLAMTLTATYISASSFIGGPGAAYKYGLGWVLLAMIQLPAVWLSLGILGKKFAILARRYNAVTLNDMLFARYQSRLLVWLASLSLLVAFVGAMTVQFIGGARLLETAAGIPYETGLLIFGISIALYTAFGGFRASVLNDTMQGLVMLIGTVVLLIGVVHAAGGLSNAVQTLQTIDPQLVTPQGADDILSPAFMTSFWVLVCFGVIGLPHTAVRCISYKDSKAVHRGIIIGTIVVAILMFGMHLAGALGRAVIPDLTVPDLVIPTLMVKVLPPFAAGIFLAAPMAAIMSTINAQLLQSSATIIKDLYLNIRPDQMQNETRLKRMSAVITLVLGALLLLAAWKPPEMIIWLNLLAFGGLEAVFLWPLVLGLYWERANAKGALSAMIVGGVLYAVLATLNIQYLGFHPIVPSLLLSLLAFLVGNRFGTSVPQATVLTTDK" "i" "Han et al., 2011" -"PANTEPADENYLYLTRAN-MONOMER" "MQKRAIYPGTFDPITNGHIDIVTRATQMFDHVILAIAASPSKKPMFTLEERVALAQQATAHLGNVEVVGFSDLMANFARNQHATVLIRGLRAVADFEYEMQLAHMNRHLMPELESVFLMPSKEWSFISSSLVKEVARHQGDVTHFLPENVHQALMAKLA" "c" "Han et al., 2011" -"PANTOATE-BETA-ALANINE-LIG-MONOMER" "VLIIETLPLLRQQIRRLRMEGKRVALVPTMGNLHDGHMKLVDEAKARADVVVVSIFVNPMQFDRPEDLARYPRTLQEDCEKLNKRKVDLVFAPSVKEIYPNGTETHTYVDVPGLSTMLEGASRPGHFRGVSTIVSKLFNLVQPDIACFGEKDFQQLALIRKMVADMGFDIEIVGVPIMRAKDGLALSSRNGYLTAEQRKIAPGLYKVLSSIADKLQAGERDLDEIITIAGQELNEKGFRADDIQIRDADTLLEVSETSKRAVILVAAWLGDARLIDNKMVELA" "c" "Han et al., 2011" -"PANTOTHENATE-KIN-MONOMER" "MSIKEQTLMTPYLQFDRNQWAALRDSVPMTLSEDEIARLKGINEDLSLEEVAEIYLPLSRLLNFYISSNLRRQAVLEQFLGTNGQRIPYIISIAGSVAVGKSTTARVLQALLSRWPEHRRVELITTDGFLHPNQVLKERGLMKKKGFPESYDMHRLVKFVSDLKSGVPNVTAPVYSHLIYDVIPDGDKTVVQPDILILEGLNVLQSGMDYPHDPHHVFVSDFVDFSIYVDAPEDLLQTWYINRFLKFREGAFTDPDSYFHNYAKLTKEEAIKTAMTLWKEINWLNLKQNILPTRERASLILTKSANHAVEEVRLRK" "c" "Han et al., 2011" -"PAPSSULFOTRANS-MONOMER" "MSKLDLNALNELPKVDRILALAETNAELEKLDAEGRVAWALDNLPGEYVLSSSFGIQAAVSLHLVNQIRPDIPVILTDTGYLFPETYRFIDELTDKLKLNLKVYRATESAAWQEARYGKLWEQGVEGIEKYNDINKVEPMNRALKELNAQTWFAGLRREQSGSRANLPVLAIQRGVFKVLPIIDWDNRTIYQYLQKHGLKYHPLWDEGYLSVGDTHTTRKWEPGMAEEETRFFGLKRECGLHEG" "c" "Han et al., 2011" -"PD00194" "MRSSAKQEELVKAFKALLKEEKFSSQGEIVAALQEQGFDNINQSKVSRMLTKFGAVRTRNAKMEMVYCLPAELGVPTTSSPLKNLVLDIDYNDAVVVIHTSPGAAQLIARLLDSLGKAEGILGTIAGDDTIFTTPANGFTVKDLYEAILELFDQEL" "c" "Han et al., 2011" -"PD00196" "MFEQRVNSDVLTVSTVNSQDQVTQKPLRDSVKQALKNYFAQLNGQDVNDLYELVLAEVEQPLLDMVMQYTRGNQTRAALMMGINRGTLRKKLKKYGMN" "c" "Han et al., 2011" -"PD00197" "MIPEKRIIRRIQSGGCAIHCQDCSISQLCIPFTLNEHELDQLDNIIERKKPIQKGQTLFKAGDELKSLYAIRSGTIKSYTITEQGDEQITGFHLAGDLVGFDAIGSGHHPSFAQALETSMVCEIPFETLDDLSGKMPNLRQQMMRLMSGEIKGDQDMILLLSKKNAEERLAAFIYNLSRRFAQRGFSPREFRLTMTRGDIGNYLGLTVETISRLLGRFQKSGMLAVKGKYITIENNDALAQLAGHTRNVA" "c" "Han et al., 2011" -"PD00200" "VDLRDLKTFLHLAESRHFGRSARAMHVSPSTLSRQIQRLEEDLGQPLFVRDNRTVTLTEAGEELRVFAQQTLLQYQQLRHTIDQQGPSLSGELHIFCSVTAAYSHLPPILDRFRAEHPSVEIKLTTGDAADAMEKVVTGEADLAIAGKPETLPGAVAFSMLENLAVVLIAPALPCPVRNQVSVEKPDWSTVPFIMADQGPVRRRIELWFRRNKISNPMIYATVGGHEAMVSMVALGCGVALLPEVVLENSPEPVRNRVMILERSDEKTPFELGVCAQKKRLHEPLIEAFWKILPNHK" "c" "Han et al., 2011" -"PD00205" "MKALTARQQEVFDLIRDHISQTGMPPTRAEIAQRLGFRSPNAAEEHLKALARKGVIEIVSGASRGIRLLQEEEEGLPLVGRVAAGEPLLAQQHIEGHYQVDPSLFKPNADFLLRVSGMSMKDIGIMDGDLLAVHKTQDVRNGQVVVARIDDEVTVKRLKKQGNKVELLPENSEFKPIVVDLRQQSFTIEGLAVGVIRNGDWL" "c" "Han et al., 2011" -"PD00208" "MNTDTFMCSSDEKQTRSPLSLYSEYQRMEIEFRAPHIMPTSHWHGQVEVNVPFDGDVEYLINNEKVNINQGHITLFWACTPHQLTDTGTCQSMAIFNLPMHLFLSWPLDKDLINHVTHGMVIKSLATQQLSPFEVRRWQQELNSPNEQIRQLAIDEIGLMLKRFSLSGWEPILVNKTSRTHKNSVSRHAQFYVSQMLGFIAENYDQALTINDVAEHVKLNANYAMGIFQRVMQLTMKQYITAMRINHVRALLSDTDKSILDIALTAGFRSSSRFYSTFGKYVGMSPQQYRKLSQQRRQTFPG" "c" "Han et al., 2011" -"PD00214" "MNIRDLEYLVALAEHRHFRRAADSCHVSQPTLSGQIRKLEDELGVMLLERTSRKVLFTQAGMLLVDQARTVLREVKVLKEMASQQGETMSGPLHIGLIPTVGPYLLPHIIPMLHQTFPKLEMYLHEAQTHQLLAQLDSGKLDCVILALVKESEAFIEVPLFDEPMLLAIYEDHPWANRECVPMADLAGEKLLMLEDGHCLRDQAMGFCFEAGADEDTHFRATSLETLRNMVAAGSGITLLPALAVPPERKRDGVVYLPCIKPEPRRTIGLVYRPGSPLRSRYEQLAEAIRARMDGHFDKVLKQAV" "c" "Han et al., 2011" -"PD00219" "MATIKDVAKRANVSTTTVSHVINKTRFVAEETRNAVWAAIKELHYSPSAVARSLKVNHTKSIGLLATSSEAAYFAEIIEAVEKNCFQKGYTLILGNAWNNLEKQRAYLSMMAQKRVDGLLVMCSEYPEPLLAMLEEYRHIPMVVMDWGEAKADFTDAVIDNAFEGGYMAGRYLIERGHREIGVIPGPLERNTGAGRLAGFMKAMEEAMIKVPESWIVQGDFEPESGYRAMQQILSQPHRPTAVFCGGDIMAMGALCAADEMGLRVPQDVSLIGYDNVRNARYFTPALTTIHQPKDSLGETAFNMLLDRIVNKREEPQSIEVHPRLIERRSVADGPFRDYRR" "c" "Han et al., 2011" -"PD00221" "MTVLHSVDFFPSGNASVAIEPRLPQADFPEHHHDFHEIVIVEHGTGIHVFNGQPYTITGGTVCFVRDHDRHLYEHTDNLCLTNVLYRSPDRFQFLAGLNQLLPQELDGQYPSHWRVNHSVLQQVRQLVAQMEQQEGENDLPSTASREILFMQLLLLLRKSSLQENLENSASRLNLLLAWLEDHFADEVNWDAVADQFSLSLRTLHRQLKQQTGLTPQRYLNRLRLMKARHLLRHSEASVTDIAYRCGFSDSNHFSTLFRREFNWSPRDIRQGRDGFLQ" "c" "Han et al., 2011" -"PD00222" "VAHQLKLLKDDFFASDQQAVAVADRYPQDVFAEHTHDFCELVIVWRGNGLHVLNDRPYRITRGDLFYIHADDKHSYASVNDLVLQNIIYCPERLKLNLDWQGAIPGFNASAGQPHWRLGSMGMAQARQVIGQLEHESSQHVPFANEMAELLFGQLVMLLNRHRYTSDSLPPTSSETLLDKLITRLAASLKSPFALDKFCDEASCSERVLRQQFRQQTGMTINQYLRQVRVCHAQYLLQHSRLLISDISTECGFEDSNYFSVVFTRETGMTPSQWRHLNSQKD" "c" "Han et al., 2011" -"PD00230" "MKKATCLTDDQRWQSVLARDPNADGEFVFAVRTTGIFCRPSCRARHALRENVSFYANASEALAAGFRPCKRCQPEKANAQQHRLDKITHACRLLEQETPVTLEALADQVAMSPFHLHRLFKATTGMTPKAWQQAWRARRLRESLAKGESVTTSILNAGFPDSSSYYRKADETLGMTAKQFRHGGENLAVRYALADCELGRCLVAESERGICAILLGDDDATLISELQQMFPAADNAPADLMFQQHVREVIASLNQRDTPLTLPLDIRGTAFQQQVWQALRTIPCGETVSYQQLANAIGKPKAVRAVASACAANKLAIIIPCHRVVRGDGTLSGYRWGVSRKAQLLRREAENEER" "c" "Han et al., 2011" -"PD00232" "MKLQQLRYIVEVVNHNLNVSSTAEGLYTSQPGISKQVRMLEDELGIQIFSRSGKHLTQVTPAGQEIIRIAREVLSKVDAIKSVAGEHTWPDKGSLYIATTHTQARYALPNVIKGFIERYPRVSLHMHQGSPTQIADAVSKGNADFAIATEALHLYEDLVMLPCYHWNRAIVVTPDHPLAGKKAITIEELAQYPLVTYTFGFTGRSELDTAFNRAGLTPRIVFTATDADVIKTYVRLGLGVGVIASMAVDPVADPDLVRVDAHDIFSHSTTKIGFRRSTFLRSYMYDFIQRFAPHLTRDVVDAAVALRSNEEIEVMFKDIKLPEK" "c" "Han et al., 2011" -"PD00237" "MLIPSKLSRPVRLDHTVVRERLLAKLSGANNFRLALITSPAGYGKTTLISQWAAGKNDIGWYSLDEGDNQQERFASYLIAAVQQATNGHCAICETMAQKRQYASLTSLFAQLFIELAEWHSPLYLVIDDYHLITNPVIHESMRFFIRHQPENLTLVVLSRNLPQLGIANLRVRDQLLEIGSQQLAFTHQEAKQFFDCRLSSPIEAAESSRICDDVSGWATALQLIALSARQNTHSAHKSARRLAGINASHLSDYLVDEVLDNVDLATRHFLLKSAILRSMNDALITRVTGEENGQMRLEEIERQGLFLQRMDDTGEWFCYHPLFGNFLRQRCQWELAAELPEIHRAAAESWMAQGFPSEAIHHALAAGDALMLRDILLNHAWSLFNHSELSLLEESLKALPWDSLLENPQLVLLQAWLMQSQHRYGEVNTLLARAEHEIKDIREDTMHAEFNALRAQVAINDGNPDEAERLAKLALEELPPGWFYSRIVATSVLGEVLHCKGELTRSLALMQQTEQMARQHDVWHYALWSLIQQSEILFAQGFLQTAWETQEKAFQLINEQHLEQLPMHEFLVRIRAQLLWAWARLDEAEASARSGIEVLSSYQPQQQLQCLAMLIQCSLARGDLDNARSQLNRLENLLGNGKYHSDWISNANKVRVIYWQMTGDKAAAANWLRHTAKPEFANNHFLQGQWRNIARAQILLGEFEPAEIVLEELNENARSLRLMSDLNRNLLLLNQLYWQAGRKSDAQRVLLDALKLANRTGFISHFVIEGEAMAQQLRQLIQLNTLPELEQHRAQRILREINQHHRHKFAHFDENFVERLLNHPEVPELIRTSPLTQREWQVLGLIYSGYSNEQIAGELEVAATTIKTHIRNLYQKLGVAHRQDAVQHAQQLLKMMGYGV" "c" "Han et al., 2011" -"PD00242" "MAEAQNDPLLPGYSFNAHLVAGLTPIEANGYLDFFIDRPLGMKGYILNLTIRGQGVVKNQGREFVCRPGDILLFPPGEIHHYGRHPEAREWYHQWVYFRPRAYWHEWLNWPSIFANTGFFRPDEAHQPHFSDLFGQIINAGQGEGRYSELLAINLLEQLLLRRMEAINESLHPPMDNRVREACQYISDHLADSNFDIASVAQHVCLSPSRLSHLFRQQLGISVLSWREDQRISQAKLLLSTTRMPIATVGRNVGFDDQLYFSRVFKKCTGASPSEFRAGCEEKVNDVAVKLS" "c" "Han et al., 2011" -"PD00250" "MENYLIDNLDRGILEALMGNARTAYAELAKQFGVSPGTIHVRVEKMKQAGIITGARIDVSPKQLGYDVGCFIGIILKSAKDYPSALAKLESLDEVTEAYYTTGHYSIFIKVMCRSIDALQHVLINKIQTIDEIQSTETLIVLQNPIMRTIKP" "c" "Han et al., 2011" -"PD00251" "MPKLGMQSIRRRQLIDATLEAINEVGMHDATIAQIARRAGVSTGIISHYFRDKNGLLEATMRDITSQLRDAVLNRLHALPQGSAEQRLQAIVGGNFDETQVSSAAMKAWLAFWASSMHQPMLYRLQQVSSRRLLSNLVSEFRRELPREQAQEAGYGLAALIDGLWLRAALSGKPLDKTRANSLTRHFITQHLPTD" "c" "Han et al., 2011" -"PD00257" "MVLGKPQTDPTLEWFLSHCHIHKYPSKSTLIHQGEKAETLYYIVKGSVAVLIKDEEGKEMILSYLNQGDFIGELGLFEEGQERSAWVRAKTACEVAEISYKKFRQLIQVNPDILMRLSAQMARRLQVTSEKVGNLAFLDVTGRIAQTLLNLAKQPDAMTHPDGMQIKITRQEIGQIVGCSRETVGRILKMLEDQNLISAHGKTIVVYGTR" "c" "Han et al., 2011" -"PD00260" "MTDNNTALKKAGLKVTLPRLKILEVLQEPDNHHVSAEDLYKRLIDMGEEIGLATVYRVLNQFDDAGIVTRHNFEGGKSVFELTQQHHHDHLICLDCGKVIEFSDDSIEARQREIAAKHGIRLTNHSLYLYGHCAEGDCREDEHAHEGK" "c" "Han et al., 2011" -"PD00261" "MITIRDVARQAGVSVATVSRVLNNSTLVSADTREAVMKAVSELDYRPNANAQALATQVSDTIGVVVMDVSDAFFGALVKAVDLVAQQHQKYVLIGNSYHEAEKERHAIEVLIRQRCNALIVHSKALSDDELAQFMDNIPGMVLINRVVPGYAHRCVCLDNLSGARMATRMLLNNGHQRIGYLSSSHGIEDDAMRKAGWMSALKEQDIIPPESWIGAGTPDMPGGEAAMVELLGRNLQLTAVFAYNDNMAAGALTALKDNGIAIPLHLSIIGFDDIPIARYTDPQLTTVRYPIASMAKLATELALQGAAGNIDPRASHCFMPTLVRRHSVATRQNAAAITNSTNQAM" "c" "Han et al., 2011" -"PD00266" "MTPGGQAQIGNVDLVKQLNSAAVYRLIDQYGPISRIQIAEQSQLAPASVTKITRQLIERGLIKEVDQQASTGGRRAISIVTETRNFHAIGVRLGRHDATITLFDLSSKVLAEEHYPLPERTQQTLEHALLNAIAQFIDSYQRKLRELIAISVILPGLVDPDSGKIHYMPHIQVENWGLVEALEERFKVTCFVGHDIRSLALAEHYFGASQDCEDSILVRVHRGTGAGIISNGRIFIGRNGNVGEIGHIQVEPLGERCHCGNFGCLETIAANAAIEQRVLNLLKQGYQSRVPLDDCTIKTICKAANKGDSLASEVIEYVGRHLGKTIAIAINLFNPQKIVIAGEITEADKVLLPAIESCINTQALKAFRTNLPVVRSELDHRSAIGAFALVKRAMLNGILLQHLLEN" "c" "Han et al., 2011" -"PD00268" "MSTILLPKTQHLVVFQEVIRSGSIGSAAKELGLTQPAVSKIINDIEDYFGVELVVRKNTGVTLTPAGQLLLSRSESITREMKNMVNEISGMSSEAVVEVSFGFPSLIGFTFMSGMINKFKEVFPKAQVSMYEAQLSSFLPAIRDGRLDFAIGTLSAEMKLQDLHVEPLFESEFVLVASKSRTCTGTTTLESLKNEQWVLPQTNMGYYSELLTTLQRNGISIENIVKTDSVVTIYNLVLNADFLTVIPCDMTSPFGSNQFITIPVEETLPVAQYAAVWSKNYRIKKAASVLVELAKEYSSYNGCRRRQLIEVG" "c" "Han et al., 2011" -"PD00283" "MKPRQRQAAILEYLQKQGKCSVEELAQYFDTTGTTIRKDLVILEHAGTVIRTYGGVVLNKEESDPPIDHKTLINTHKKELIAEAAVSFIHDGDSIILDAGSTVLQMVPLLSRFNNITVMTNSLHIVNALSELDNEQTILMPGGTFRKKSASFHGQLAENAFEHFTFDKLFMGTDGIDLNAGVTTFNEVYTVSKAMCNAAREVILMADSSKFGRKSPNVVCSLESVDKLITDAGIDPAFRQALEEKGIDVIITGESNE" "c" "Han et al., 2011" -"PD00288" "MSEALKILNNIRTLRAQARECTLETLEEMLEKLEVVVNERREEESAAAAEVEERTRKLQQYREMLIADGIDPNELLNSLAAVKSGTKAKRAQRPAKYSYVDENGETKTWTGQGRTPAVIKKAMDEQGKSLDDFLIKQ" "c" "Han et al., 2011" -"PD00291" "MLSRHINYFLAVAEHGSFTRAASALHVSQPALSQQIRQLEESLGVPLFDRSGRTIRLTDAGEVWRQYASRALQELGAGKRAIHDVADLTRGSLRIAVTPTFTSYFIGPLMADFYARYPSITLQLQEMSQEKIEDMLCRDELDVGIAFAPVHSPELEAIPLLTESLALVVAQHHPLAVHEQVALSRLHDEKLVLLSAEFATREQIDHYCEKAGLHPQVVIEANSISAVLELIRRTSLSTLLPAAIATQHDGLKAISLAPPLLERTAVLLRRKNSWQTAAAKAFLHMALDKCAVVGGNESR" "c" "Han et al., 2011" -"PD00297" "MEPLREIRNRLLNGWQLSKMHTFEVAARHQSFALAAEELSLSPSAVSHRINQLEEELGIQLFVRSHRKVELTHEGKRVYWALKSSLDTLNQEILDIKNQELSGTLTLYSRPSIAQCWLVPALGDFTRRYPSISLTVLTGNDNVNLQRAGIDLAIYFDDAPSAQLTHHFLMDEEILPVCSPEYAQRHALTNTVINLCHCTLLHDRQAWSNDSGTDEWHSWAQHYAVNLPTSSGIGFDRSDLAVIAAMNHIGVAMGRKRLVQKRLASGELVAPFGDMTVKCHQHYYITTLPGRQWPKIEAFIIWLREQVKTTS" "c" "Han et al., 2011" -"PD00338" "MTMNSFERRNKIIQLVNEQGTVLVQDLAGVFAASEATIRADLRFLEQKGVVTRFHGGAAKIMSGNSETETQEVGFKERFQLASAPKNRIAQAAVKMIHEGMTDPTHVIWTQA" "c" "EcoCyc dump" -"PD00339" "MSKRLPPLNALRVFDAAARHLSFTRAAEELFVTQAAVSHQIKSLEDFLGLKLFRRRNRSLLLTEEGQSYFLDIKEIFSQLTEATRKLQARSAKGALTVSLLPSFAIHWLVPRLSSFNSAYPGIDVRIQAVDRQEDKLADDVDVAIFYGRGNWPGLRVEKLYAEYLLPVCSPLLLTGEKPLKTPEDLAKHTLLHDASRRDWQTYTRQLGLNHINVQQGPIFSHSAMVLQAAIHGQGVALANNVMAQSEIEAGRLVCPFNDVLVSKNAFYLVCHDSQAELGKIAAFRQWILAKAAAEQEKFRFRYEQ" "c" "Han et al., 2011" -"PD00345" "MVSALITVAVIAWCAQLALGGWQISRFNRAFDTLCQQGRVGVGRSSGRFKPRVVVAIALDDQQRIVDTLFMKGLTVFARPQKIPAITGMHAGDLQPDVIFPHDPLSQNALSLALKLKRG" "i" "Han et al., 2011" -"PD00347" "MALTKAEMSEYLFDKLGLSKRDAKELVELFFEEIRRALENGEQVKLSGFGNFDLRDKNQRPGRNPKTGEDIPITARRVVTFRPGQKLKSRVENASPKDE" "c" "Han et al., 2011" -"PD00348" "MTKSELIERLATQQSHIPAKTVEDAVKEMLEHMASTLAQGERIEIRGFGSFSLHYRAPRTGRNPKTGDKVELEGKYVPHFKPGKELRDRANIYG" "c" "Han et al., 2011" -"PD00353" "MVDSKKRPGKDLDRIDRNILNELQKDGRISNVELSKRVGLSPTPCLERVRRLERQGFIQGYTALLNPHYLDASLLVFVEITLNRGAPDVFEQFNTAVQKLEEIQECHLVSGDFDYLLKTRVPDMSAYRKLLGETLLRLPGVNDTRTYVVMEEVKQSNRLVIKTR" "c" "Han et al., 2011" -"PD00360" "MAAVNLRHIEIFHAVMTAGSLTEAAHLLHTSQPTVSRELARFEKVIGLKLFERVRGRLHPTVQGLRLFEEVQRSWYGLDRIVSAAESLREFRQGELSIACLPVFSQSFLPQLLQPFLARYPDVSLNIVPQESPLLEEWLSAQRHDLGLTETLHTPAGTERTELLSLDEVCVLPPGHPLAVKKVLTPDDFQGENYISLSRTDSYRQLLDQLFTEHQVKRRMIVETHSAASVCAMVRAGVGISVVNPLTALDYAASGLVVRRFSIAVPFTVSLIRPLHRPSSALVQAFSGHLQAGLPKLVTSLDAILSSATTA" "c" "Han et al., 2011" -"PD00361" "MATAKKITIHDVALAAGVSVSTVSLVLSGKGRISTATGERVNAAIEELGFVRNRQASALRGGQSGVIGLIVRDLSAPFYAELTAGLTEALEAQGRMVFLLHGGKDGEQLAQRFSLLLNQGVDGVVIAGAAGSSDDLRRMAEEKAIPVIFASRASYLDDVDTVRPDNMQAAQLLTEHLIRNGHQRIAWLGGQSSSLTRAERVGGYCATLLKFGLPFHSDWVLECTSSQKQAAEAITALLRHNPTISAVVCYNETIAMGAWFGLLKAGRQSGESGVDRYFEQQVSLAAFTDATPTTLDDIPVTWASTPARELGITLADRMMQKITHEETHSRNLIIPARLIAAK" "c" "Han et al., 2011" -"PD00364" "VKSTSDLFNEIIPLGRLIHMVNQKKDRLLNEYLSPLDITAAQFKVLCSIRCAACITPVELKKVLSVDLGALTRMLDRLVCKGWVERLPNPNDKRGVLVKLTTGGAAICEQCHQLVGQDLHQELTKNLTADEVATLEYLLKKVLP" "c" "Han et al., 2011" -"PD00365" "MSRRNTDAITIHSILDWIEDNLESPLSLEKVSERSGYSKWHLQRMFKKETGHSLGQYIRSRKMTEIAQKLKESNEPILYLAERYGFESQQTLTRTFKNYFDVPPHKYRMTNMQGESRFLHPLNHYNS" "c" "Han et al., 2011" -"PD00369" "MVDQAQDTLRPNNRLSDMQATMEQTQAFENRVLERLNAGKTVRSFLITAVELLTEAVNLLVLQVFRKDDYAVKYAVEPLLDGDGPLGDLSVRLKLIYGLGVINRQEYEDAELLMALREELNHDGNEYAFTDDEILGPFGELHCVAALPPPPQFEPADSSLYAMQIQRYQQAVRSTMVLSLTELISKISLKKAFQK" "c" "Han et al., 2011" -"PD00406" "MSHQKIIQDLIAWIDEHIDQPLNIDVVAKKSGYSKWYLQRMFRTVTHQTLGDYIRQRRLLLAAVELRTTERPIFDIAMDLGYVSQQTFSRVFRRQFDRTPSDYRHRL" "c" "Han et al., 2011" -"PD00413" "MRLEVFCEDRLGLTRELLDLLVLRGIDLRGIEIDPIGRIYLNFAELEFESFSSLMAEIRRIAGVTDVRTVPWMPSEREHLALSALLEALPEPVLSVDMKSKVDMANPASCQLFGQKLDRLRNHTAAQLINGFNFLRWLESEPQDSHNEHVVINGQNFLMEITPVYLQDENDQHVLTGAVVMLRSTIRMGRQLQNVAAQDVSAFSQIVAVSPKMKHVVEQAQKLAMLSAPLLITGDTGTGKDLFAYACHQASPRAGKPYLALNCASIPEDAVESELFGHAPEGKKGFFEQANGGSVLLDEIGEMSPRMQAKLLRFLNDGTFRRVGEDHEVHVDVRVICATQKNLVELVQKGMFREDLYYRLNVLTLNLPPLRDCPQDIMPLTELFVARFADEQGVPRPKLAADLNTVLTRYAWPGNVRQLKNAIYRALTQLDGYELRPQDILLPDYDAATVAVGEDAMEGSLDEITSRFERSVLTQLYRNYPSTRKLAKRLGVSHTAIANKLREYGLSQKKNEE" "c" "Han et al., 2011" -"PD00423" "MAQQSPYSAAMAEQRHQEWLRFVDLLKNAYQNDLHLPLLNLMLTPDEREALGTRVRIVEELLRGEMSQRELKNELGAGIATITRGSNSLKAAPVELRQWLEEVLLKSD" "c" "Han et al., 2011" -"PD00436" "MQQPVVRVGEWLVTPSINQISRNGRQLTLEPRLIDLLVFFAQHSGEVLSRDELIDNVWKRSIVTNHVVTQSISELRKSLKDNDEDSPVYIATVPKRGYKLMVPVIWYSEEEGEEIMLSSPPPIPEAVPATDSPSHSLNIQNTATPPEQSPVKSKRFTTFWVWFFFLLSLGICVALVAFSSLDTRLPMSKSRILLNPRDIDINMVNKSCNSWSSPYQLSYAIGVGDLVATSLNTFSTFMVHDKINYNIDEPSSSGKTLSIAFVNQRQYRAQQCFMSIKLVDNADGSTMLDKRYVITNGNQLAIQNDLLESLSKALNQPWPQRMQETLQKILPHRGALLTNFYQAHDYLLHGDDKSLNRASELLGEIVQSSPEFTYARAEKALVDIVRHSQHPLDEKQLAALNTEIDNIVTLPELNNLSIIYQIKAVSALVKGKTDESYQAINTGIDLEMSWLNYVLLGKVYEMKGMNREAADAYLTAFNLRPGANTLYWIENGIFQTSVPYVVPYLDKFLASE" "c" "Han et al., 2011" -"PD00440" "MSDRATTTASLTFESLYGTHHGWLKSWLTRKLQSAFDADDIAQDTFLRVMVSETLSTIRDPRSFLCTIAKRVMVDLFRRNALEKAYLEMLALMPEGGAPSPEERESQLETLQLLDSMLDGLNGKTREAFLLSQLDGLTYSEIAHKLGVSISSVKKYVAKAVEHCLLFRLEYGL" "c" "Han et al., 2011" -"PD00444" "MKAARQQAIVDLLLNHTSLTTEALSEQLKVSKETIRRDLNELQTQGKILRNHGRAKYIHRQNQDSGDPFHIRLKSHYAHKADIAREALAWIEEGMVIALDASSTCWYLARQLPDINIQVFTNSHPICHELGKRERIQLISSGGTLERKYGCYVNPSLISQLKSLEIDLFIFSCEGIDSSGALWDSNAINADYKSMLLKRAAQSLLLIDKSKFNRSGEARIGHLDEVTHIISDERQVATSLVTA" "c" "Han et al., 2011" -"PD00474" "MSMSHINYNHLYYFWHVYKEGSVVGAAEALYLTPQTITGQIRALEERLQGKLFKRKGRGLEPSELGELVYRYADKMFTLSQEMLDIVNYRKESNLLFDVGVADALSKRLVSSVLNAAVVEGEPIHLRCFESTHEMLLEQLSQHKLDMIISDCPIDSTQQEGLFSVRIGECGVSFWCTNPPPEKPFPACLEERRLLIPGRRSMLGRKLLNWFNSQGLNVEILGEFDDAALMKAFGAMHNAIFVAPTLYAYDFYADKTVVEIGRVENVMEEYHAIFAERMIQHPAVQRICNTDYSALFSPAVR" "c" "Han et al., 2011" -"PD00519" "MPEVQTDHPETAELSKPQLRMVDLNLLTVFDAVMQEQNITRAAHVLGMSQPAVSNAVARLKVMFNDELFVRYGRGIQPTARAFQLFGSVRQALQLVQNELPGSGFEPASSERVFHLCVCSPLDSILTSQIYNHIEQIAPNIHVMFKSSLNQNTEHQLRYQETEFVISYEDFHRPEFTSVPLFKDEMVLVASKNHPTIKGPLLKHDVYNEQHAAVSLDRFASFSQPWYDTVDKQASIAYQGMAMMSVLSVVSQTHLVAIAPRWLAEEFAESLELQVLPLPLKQNSRTCYLSWHEAAGRDKGHQWMEEQLVSICKR" "c" "Han et al., 2011" -"PD00521" "VKLDEIARLAGVSRTTASYVINGKAKQYRVSDKTVEKVMAVVREHNYHPNAVAAGLRAGRTRSIGLVIPDLENTSYTRIANYLERQARQRGYQLLIACSEDQPDNEMRCIEHLLQRQVDAIIVSTSLPPEHPFYQRWANDPFPIVALDRALDREHFTSVVGADQDDAEMLAEELRKFPAETVLYLGALPELSVSFLREQGFRTAWKDDPREVHFLYANSYEREAAAQLFEKWLETHPMPQALFTTSFALLQGVMDVTLRRDGKLPSDLAIATFGDNELLDFLQCPVLAVAQRHRDVAERVLEIVLASLDEPRKPKPGLTRIKRNLYRRGVLSRS" "c" "EcoCyc dump" -"PD00763" "VKPVTLYDVAEYAGVSYQTVSRVVNQASHVSAKTREKVEAAMAELNYIPNRVAQQLAGKQSLLIGVATSSLALHAPSQIVAAIKSRADQLGASVVVSMVERSGVEACKAAVHNLLAQRVSGLIINYPLDDQDAIAVEAACTNVPALFLDVSDQTPINSIIFSHEDGTRLGVEHLVALGHQQIALLAGPLSSVSARLRLAGWHKYLTRNQIQPIAEREGDWSAMSGFQQTMQMLNEGIVPTAMLVANDQMALGAMRAITESGLRVGADISVVGYDDTEDSSCYIPPLTTIKQDFRLLGQTSVDRLLQLSQGQAVKGNQLLPVSLVKRKTTLAPNTQTASPRALADSLMQLARQVSRLESGQ" "c" "EcoCyc dump" -"PD00967" "MDYVCSVVFICQSFDLIINRRVISFKKNSLFIVSDKIRRELPVCPSKLRIVDIDKKTCLSFFIDVNNELPGKFTLDKNGYIAEEEPPLSLVFSLFEGIKIADSHSLWLKERLCISLLAMFKKRESVNSFILTNINTFTCKITGIISFNIERQWHLKDIAELIYTSESLIKKRLRDEGTSFTEILRDTRMRYAKKLITSNSYSINVVAQKCGYNSTSYFICAFKDYYGVTPSHYFEKIIGVTDGINKTID" "c" "Han et al., 2011" -"PD00969" "MQLSSSEPCVVILTEKEVEVSVNNHATFTLPKNYLAAFACNNNVIELSTLNHVLITHINRNIINDYLLFLNKNLTCVKPWSRLATPVIACHSRTPEVFRLAANHSKQQPSRPCEAELTRALLFTVLSNFLEQSRFIALLMYILRSSVRDSVCRIIQSDIQHYWNLRIVASSLCLSPSLLKKKLKNENTSYSQIVTECRMRYAVQMLLMDNKNITQVAQLCGYSSTSYFISVFKAFYGLTPLNYLAKQRQKVMW" "c" "Han et al., 2011" -"PD01103" "MGHKPLYRQIADRIREQIARGELKPGDALPTESALQTEFGVSRVTVRQALRQLVEQQILESIQGSGTYVKEERVNYDIFQLTSFDEKLSDRHVDTHSEVLIFEVIPADDFLQQQLQITPQDRVWHVKRVRYRKQKPMALEETWMPLALFPDLTWQVMENSKYHFIEEVKKMVIDRSEQEIIPLMPTEEMSRLLNISQTKPILEKVSRGYLVDGRVFEYSRNAFNTDDYKFTLIAQRKSSR" "c" "Han et al., 2011" -"PD01196" "METRREERIGQLLQELKRSDKLHLKDAAALLGVSEMTIRRDLNNHSAPVVLLGGYIVLEPRSASHYLLSDQKSRLVEEKRRAAKLAATLVEPDQTLFFDCGTTTPWIIEAIDNEIPFTAVCYSLNTFLALKEKPHCRAFLCGGEFHASNAIFKPIDFQQTLNNFCPDIAFYSAAGVHVSKGATCFNLEELPVKHWAMSMAQKHVLVVDHSKFGKVRPARMGDLKRFDIVVSDCCPEDEYVKYAQTQRIKLMY" "c" "Han et al., 2011" -"PD01343" "MAKVLVLYYSMYGHIETMARAVAEGASKVDGAEVVVKRVPETMPPQLFEKAGGKTQTAPVATPQELADYDAIIFGTPTRFGNMSGQMRTFLDQTGGLWASGALYGKLASVFSSTGTGGGQEQTITSTWTTLAHHGMVIVPIGYAAQELFDVSQVRGGTPYGATTIAGGDGSRQPSQEELSIARYQGEYVAGLAVKLNG" "c" "Han et al., 2011" -"PD01352" "MTQGAVKTTGKRSRAVSAKKKAILSAALDTFSQFGFHGTRLEQIAELAGVSKTNLLYYFPSKEALYIAVLRQILDIWLAPLKAFREDFAPLAAIKEYIRLKLEVSRDYPQASRLFCMEMLAGAPLLMDELTGDLKALIDEKSALIAGWVKSGKLAPIDPQHLIFMIWASTQHYADFAPQVEAVTGATLRDEVFFNQTVENVQRIIIEGIRPR" "c" "Han et al., 2011" -"PD01379" "MFNEVHSIHGHTLLLITKSSLQATALLQHLKQSLAITGKLHNIQRSLDDISSGSIILLDMMEADKKLIHYWQDTLSRKNNNIKILLLNTPEDYPYRDIENWPHINGVFYSMEDQERVVNGLQGVLRGECYFTQKLASYLITHSGNYRYNSTESALLTHREKEILNKLRIGASNNEIARSLFISENTVKTHLYNLFKKIAVKNRTQAVSWANDNLRR" "c" "Han et al., 2011" -"PD01520" "MVIKAQSPAGFAEEYIIESIWNNRFPPGTILPAERELSELIGVTRTTLREVLQRLARDGWLTIQHGKPTKVNNFWETSGLNILETLARLDHESVPQLIDNLLSVRTNISTIFIRTAFRQHPDKAQEVLATANEVADHADAFAELDYNIFRGLAFASGNPIYGLILNGMKGLYTRIGRHYFANPEARSLALGFYHKLSALCSEGAHDQVYETVRRYGHESGEIWHRMQKNLPGDLAIQGR" "c" "Han et al., 2011" -"PD01896" "VVAENQPGHIDQIKQTNAGAVYRLIDQLGPVSRIDLSRLAQLAPASITKIVREMLEAHLVQELEIKEAGNRGRPAVGLVVETEAWHYLSLRISRGEIFLALRDLSSKLVVEESQELALKDDLPLLDRIISHIDQFFIRHQKKLERLTSIAITLPGIIDTENGIVHRMPFYEDVKEMPLGEALEQHTGVPVYIQHDISAWTMAEALFGASRGARDVIQVVIDHNVGAGVITDGHLLHAGSSSLVEIGHTQVDPYGKRCYCGNHGCLETIASVDSILELAQLRLNQSMSSMLHGQPLTVDSLCQAALRGDLLAKDIITGVGAHVGRILAIMVNLFNPQKILIGSPLSKAADILFPVISDSIRQQALPAYSQHISVESTQFSNQGTMAGAALVKDAMYNGSLLIRLLQG" "c" "Han et al., 2011" -"PD02198" "MQDKDFFSWRRTMLLRFQRMETAEEVYHEIELQAQQLEYDYYSLCVRHPVPFTRPKVAFYTNYPEAWVSYYQAKNFLAIDPVLNPENFSQGHLMWNDDLFSEAQPLWEAARAHGLRRGVTQYLMLPNRALGFLSFSRCSAREIPILSDELQLKMQLLVRESLMALMRLNDEIVMTPEMNFSKREKEILRWTAEGKTSAEIAMILSISENTVNFHQKNMQKKINAPNKTQVACYAAATGLI" "c" "Unambiguous EcoCyc data" -"PD02233" "MSTIIMDLCSYTRLGLTGYLLSRGVKKREINDIETVDDLAIACDSQRPSVVFINEDCFIHDASNSQRIKLIINQHPNTLFIVFMAIANVHFDEYLLVRKNLLISSKSIKPESLDDILGDILKKETTITSFLNMPTLSLSRTESSMLRMWMAGQGTIQISDQMNIKAKTVSSHKGNIKRKIKTHNKQVIYHVVRLTDNVTNGIFVNMR" "c" "Unambiguous EcoCyc data" -"PD02366" "MLIAEGLMTAKNITVITNSLPAAFALSENKDITLVVCGGTVRHKTRSMHGSIAERSLQDINADLMFVGADGIDAVNGITTFNEGYSISGAMVTAANKVIAVLDSSKFNRRGFNQVLPIEKIDIIITDDAVSEVDKLALQKTRVKLITV" "c" "EcoCyc dump" -"PD02850" "MNNRSAVRILRLPAVIQKTGMARATIYDWLNPKSPRYDATFPKKRMLGVKSVGWIEAEIDEWLSQRCKLI" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"PD02936" "MSYTPMSDLGQQGLFDITRTLLQQPDLASLCEALSQLVKRSALADNAAIVLWQAQTQRASYYASREKDTPIKYEDETVLAHGPVRSILSRPDTLHCSYEEFCETWPQLDAGGLYPKFGHYCLMPLAAEGHIFGGCEFIRYDDRPWSEKEFNRLQTFTQIVSVVTEQIQSRVVNNVDYELLCRERDNFRILVAITNAVLSRLDMDELVSEVAKEIHYYFDIDDISIVLRSHRKNKLNIYSTHYLDKQHPAHEQSEVDEAGTLTERVFKSKEMLLINLHERDDLAPYERMLFDTWGNQIQTLCLLPLMSGDTMLGVLKLAQCEEKVFTTTNLNLLRQIAERVAIAVDNALAYQEIHRLKERLVDENLALTEQLNNVDSEFGEIIGRSEAMYSVLKQVEMVAQSDSTVLILGETGTGKELIARAIHNLSGRNNRRMVKMNCAAMPAGLLESDLFGHERGAFTGASAQRIGRFELADKSSLFLDEVGDMPLELQPKLLRVLQEQEFERLGSNKIIQTDVRLIAATNRDLKKMVADREFRSDLYYRLNVFPIHLPPLRERPEDIPLLAKAFTFKIARRLGRNIDSIPAETLRTLSNMEWPGNVRELENVIERAVLLTRGNVLQLSLPDIVLPEPETPPAATVVALEGEDEYQLIVRVLKETNGVVAGPKGAAQRLGLKRTTLLSRMKRLGIDKSALI" "c" "Han et al., 2011" -"PD03028" "MATIKDVARLAGVSVATVSRVINNSPKASEASRLAVHSAMESLSYHPNANARALAQQTTETVGLVVGDVSDPFFGAMVKAVEQVAYHTGNFLLIGNGYHNEQKERQAIEQLIRHRCAALVVHAKMIPDADLASLMKQMPGMVLINRILPGFENRCIALDDRYGAWLATRHLIQQGHTRIGYLCSNHSISDAEDRLQGYYDALAESGIAANDRLVTFGEPDESGGEQAMTELLGRGRNFTAVACYNDSMAAGAMGVLNDNGIDVPGEISLIGFDDVLVSRYVRPRLTTVRYPIVTMATQAAELALALADNRPLPEITNVFSPTLVRRHSVSTPSLEASHHATSD" "c" "Han et al., 2011" -"PD03254" "MATLKDIAIEAGVSLATVSRVLNDDPTLNVKEETKHRILEIAEKLEYKTSSARKLQTGAVNQHHILAIYSYQQELEINDPYYLAIRHGIETQCEKLGIELTNCYEHSGLPDIKNVTGILIVGKPTPALRAAASALTDNICFIDFHEPGSGYDAVDIDLARISKEIIDFYINQGVNRIGFIGGEDEPGKADIREVAFAEYGRLKQVVREEDIWRGGFSSSSGYELAKQMLAREDYPKALFVASDSIAIGVLRAIHERGLNIPQDISLISVNDIPTARFTFPPLSTVRIHSEMMGSQGVNLVYEKARDGRALPLLVFVPSKLKLRGTTR" "c" "Han et al., 2011" -"PD03270" "MEITEPRRLYQQLAADLKERIEQGVYLVGDKLPAERFIADEKNVSRTVVREAIIMLEVEGYVEVRKGSGIHVVSNQPRHQQAADNNMEFANYGPFELLQARQLIESNIAEFAATQVTKQDIMKLMAIQEQARGEQCFRDSEWDLQFHIQVALATQNSALAAIVEKMWTQRSHNPYWKKLHEHIDSRTVDNWCDDHDQILKALIRKDPHAAKLAMWQHLENTKIMLFNETSDDFEFNADRYLFAENPVVHLDTATSGSK" "c" "Han et al., 2011" -"PD03292" "MSKFSNFIINKPFSVINNAACHIFSRYLLENKHLFYQYFKISNTCIDHLEQLINVNFFSSDRTSFCECNRFP" "c" "Han et al., 2011" -"PD03576" "MKQTQRHNGIIELVKQQGYVSTEELVEHFSVSPQTIRRDLNELAEQNLILRHHGGAALPSSSVNTPWHDRKATQTEEKERIARKVAEQIPNGSTLFIDIGTTPEAVAHALLNHSNLRIVTNNLNVANTLMVKEDFRIILAGGELRSRDGGIIGEATLDFISQFRLDFGILGISGIDSDGSLLEFDYHEVRTKRAIIENSRHVMLVVDHSKFGRNAMVNMGSISMVDAVYTDAPPPVSVMQVLTDHHIQLELC" "c" "Han et al., 2011" -"PD03585" "MKKKRPVLQDVADRVGVTKMTVSRFLRNPEQVSVALRGKIAAALDELGYIPNRAPDILSNATSRAIGVLLPSLTNQVFAEVLRGIESVTDAHGYQTMLAHYGYKPEMEQERLESMLSWNIDGLILTERTHTPRTLKMIEVAGIPVVELMDSKSPCLDIAVGFDNFEAARQMTTAIIARGHRHIAYLGARLDERTIIKQKGYEQAMLDAGLVPYSVMVEQSSSYSSGIELIRQARREYPQLDGVFCTNDDLAVGAAFECQRLGLKVPDDMAIAGFHGHDIGQVMEPRLASVLTPRERMGSIGAERLLARIRGESVTPKMLDLGFTLSPGGSI" "c" "Han et al., 2011" -"PD03695" "MSGKMTGIVKWFNADKGFGFITPDDGSKDVFVHFSAIQNDGYKSLDEGQKVSFTIESGAKGPAAGNVTSL" "c" "Han et al., 2011" -"PD03831" "VSLSLWQQCLARLQDELPATEFSMWIRPLQAELSDNTLALYAPNRFVLDWVRDKYLNNINGLLTSFCGADAPQLRFEVGTKPVTQTPQAAVTSNVAAPAQVAQTQPQRAAPSTRSGWDNVPAPAEPTYRSNVNVKHTFDNFVEGKSNQLARAAARQVADNPGGAYNPLFLYGGTGLGKTHLLHAVGNGIMARKPNAKVVYMHSERFVQDMVKALQNNAIEEFKRYYRSVDALLIDDIQFFANKERSQEEFFHTFNALLEGNQQIILTSDRYPKEINGVEDRLKSRFGWGLTVAIEPPELETRVAILMKKADENDIRLPGEVAFFIAKRLRSNVRELEGALNRVIANANFTGRAITIDFVREALRDLLALQEKLVTIDNIQKTVAEYYKIKVADLLSKRRSRSVARPRQMAMALAKELTNHSLPEIGDAFGGRDHTTVLHACRKIEQLREESHDIKEDFSNLIRTLSS" "c" "EcoCyc dump" -"PD03867" "LATMKDVARLAGVSTSTVSHVINKDRFVSEAITAKVEAAIKELNYAPSALARSLKLNQTHTIGMLITASTNPFYSELVRGVERSCFERGYSLVLCNTEGDEQRMNRNLETLMQKRVDGLLLLCTETHQPSREIMQRYPTVPTVMMDWAPFDGDSDLIQDNSLLGGDLATQYLIDKGHTRIACITGPLDKTPARLRLEGYRAAMKRAGLNIPDGYEVTGDFEFNGGFDAMRQLLSHPLRPQAVFTGNDAMAVGVYQALYQAELQVPQDIAVIGYDDIELASFMTPPLTTIHQPKDELGELAIDVLIHRITQPTLQQQRLQLTPILMERGSA" "c" "Han et al., 2011" -"PD03938" "MIEVKHLKTLQALRNCGSLAAAAATLHQTQSALSHQFSDLEQRLGFRLFVRKSQPLRFTPQGEILLQLANQVLPQISQALQACNEPQQTRLRIAIECHSCIQWLTPALENFHKNWPQVEMDFKSGVTFDPQPALQQGELDLVMTSDILPRSGLHYSPMFDYEVRLVLAPDHPLAAKTRITPEDLASETLLIYPVQRSRLDVWRHFLQPAGVSPSLKSVDNTLLLIQMVAARMGIAALPHWVVESFERQGLVVTKTLGEGLWSRLYAAVRDGEQRQPVTEAFIRSARNHACDHLPFVKSAERPTYDAPTVRPGSPARL" "c" "Han et al., 2011" -"PD04028" "VKAKKQETAATMKDVALKAKVSTATVSRALMNPDKVSQATRNRVEKAAREVGYLPQPMGRNVKRNESRTILVIVPDICDPFFSEIIRGIEVTAANHGYLVLIGDCAHQNQQEKTFIDLIITKQIDGMLLLGSRLPFDASIEEQRNLPPMVMANEFAPELELPTVHIDNLTAAFDAVNYLYEQGHKRIGCIAGPEEMPLCHYRLQGYVQALRRCGIMVDPQYIARGDFTFEAGSKAMQQLLDLPQPPTAVFCHSDVMALGALSQAKRQGLKVPEDLSIIGFDNIDLTQFCDPPLTTIAQPRYEIGREAMLLLLDQMQGQHVGSGSRLMDCELIIRGSTRALP" "c" "Han et al., 2011" -"PD04032" "MAEWSGEYISPYAEHGKKSEQVKKITVSIPLKVLKILTDERTRRQVNNLRHATNSELLCEAFLHAFTGQPLPDDADLRKERSDEIPEAAKEIMREMGINPETWEY" "c" "Han et al., 2011" -"PD04099" "MVAPIPAKRGRKPAVATAPATGQVQSLTRGLKLLEWIAESNGSVALTELAQQAGLPNSTTHRLLTTMQQQGFVRQVGELGHWAIGAHAFMVGSSFLQSRNLLAIVHPILRNLMEESGETVNMAVLDQSDHEAIIIDQVQCTHLMRMSAPIGGKLPMHASGAGKAFLAQLSEEQVTKLLHRKGLHAYTHATLVSPVHLKEDLAQTRKRGYSFDDEEHALGLRCLAACIFDEHREPFAAISISGPISRITDDRVTEFGAMVIKAAKEVTLAYGGMR" "c" "Han et al., 2011" -"PD04132" "MEKKLPRIKALLTPGEVAKRSGVAVSALHFYESKGLITSIRNSGNQRRYKRDVLRYVAIIKIAQRIGIPLATIGEAFGVLPEGHTLSAKEWKQLSSQWREELDRRIHTLVALRDELDGCIGCGCLSRSDCPLRNPGDRLGEEGTGARLLEDEQN" "c" "Han et al., 2011" -"PD04413" "MSSFDYLKTAIKQQGCTLQQVADASGMTKGYLSQLLNAKIKSPSAQKLEALHRFLGLEFPRQKKTIGVVFGKFYPLHTGHIYLIQRACSQVDELHIIMGFDDTRDRALFEDSAMSQQPTVPDRLRWLLQTFKYQKNIRIHAFNEEGMEPYPHGWDVWSNGIKKFMAEKGIQPDLIYTSEEADAPQYMEHLGIETVLVDPKRTFMSISGAQIRENPFRYWEYIPTEVKPFFVRTVAILGGESSGKSTLVNKLANIFNTTSAWEYGRDYVFSHLGGDEIALQYSDYDKIALGHAQYIDFAVKYANKVAFIDTDFVTTQAFCKKYEGREHPFVQALIDEYRFDLVILLENNTPWVADGLRSLGSSVDRKEFQNLLVEMLEENNIEFVRVEEEDYDSRFLRCVELVREMMGEQR" "i" "EcoCyc dump" -"PD04418" "MDQAGIIRDLLIWLEGHLDQPLSLDNVAAKAGYSKWHLQRMFKDVTGHAIGAYIRARRLSKSAVALRLTARPILDIALQYRFDSQQTFTRAFKKQFAQTPALYRRSPEWSAFGIRPPLRLGEFTMPEHKFVTLEDTPLIGVTQSYSCSLEQISDFRHEMRYQFWHDFLGNAPTIPPVLYGLNETRPSQDKDDEQEVFYTTALAQDQADGYVLTGHPVMLQGGEYVMFTYEGLGTGVQEFILTVYGTCMPMLNLTRRKGQDIERYYPAEDAKAGDRPINLRCELLIPIRR" "c" "Han et al., 2011" -"PDXA-MONOMER" "MVKTQRVVITPGEPAGIGPDLVVQLAQREWPVELVVCADATLLTNRAAMLGLPLTLRPYSPNSPAQPQTAGTLTLLPVALRAPVTAGQLAVENGHYVVETLARACDGCLNGEFAALITGPVHKGVINDAGIPFTGHTEFFEERSQAKKVVMMLATEELRVALATTHLPLRDIADAITPALLHEVIAILHHDLRTKFGIAEPRILVCGLNPHAGEGGHMGTEEIDTIIPVLNELRAQGMKLNGPLPADTLFQPKYLDNADAVLAMYHDQGLPVLKYQGFGRGVNITLGLPFIRTSVDHGTALELAGRGKADVGSFITALNLAIKMIVNTQ" "c" "Han et al., 2011" -"PDXH-MONOMER" "MSDNDELQQIAHLRREYTKGGLRRRDLPADPLTLFERWLSQACEAKLADPTAMVVATVDEHGQPYQRIVLLKHYDEKGMVFYTNLGSRKAHQIENNPRVSLLFPWHTLERQVMVIGKAERLSTLEVMKYFHSRPRDSQIGAWVSKQSSRISARGILESKFLELKQKFQQGEVPLPSFWGGFRVSLEQIEFWQGGEHRLHDRFLYQRENDAWKIDRLAP" "c" "Han et al., 2011" -"PDXJ-MONOMER" "MAELLLGVNIDHIATLRNARGTAYPDPVQAAFIAEQAGADGITVHLREDRRHITDRDVRILRQTLDTRMNLEMAVTEEMLAIAVETKPHFCCLVPEKRQEVTTEGGLDVAGQRDKMRDACKRLADAGIQVSLFIDADEEQIKAAAEVGAPFIEIHTGCYADAKTDAEQAQELARIAKAATFAASLGLKVNAGHGLTYHNVKAIAAIPEMHELNIGHAIIGRAVMTGLKDAVAEMKRLMLEARG" "c" "Han et al., 2011" -"PDXK-MONOMER" "MSSLLLFNDKSRALQADIVAVQSQVVYGSVGNSIAVPAIKQNGLNVFAVPTVLLSNTPHYDTFYGGAIPDEWFSGYLRALQERDALRQLRAVTTGYMGTASQIKILAEWLTALRKDHPDLLIMVDPVIGDIDSGIYVKPDLPEAYRQYLLPLAQGITPNIFELEILTGKNCRDLDSAIAAAKSLLSDTLKWVVVTSASGNEENQEMQVVVVTADSVNVISHSRVKTDLKGTGDLFCAQLISGLLKGKALTDAVHRAGLRVLEVMRYTQQHESDELILPPLAEA" "c" "Han et al., 2011" -"PDXY-MONOMER" "MMKNILAIQSHVVYGHAGNSAAEFPMRRLGANVWPLNTVQFSNHTQYGKWTGCVMPPSHLTEIVQGIAAIDKLHTCDAVLSGYLGSAEQGEHILGIVRQVKAANPQAKYFCDPVMGHPEKGCIVAPGVAEFHVRHGLPASDIIAPNLVELEILCEHAVNNVEEAVLAARELIAQGPQIVLVKHLARAGYSRDRFEMLLVTADEAWHISRPLVDFGMRQPVGVGDVTSGLLLVKLLQGATLQEALEHVTAAVYEIMVTTKAMQEYELQVVAAQDRIAKPEHYFSATKL" "c" "Han et al., 2011" -"PEPCARBOX-MONOMER" "MNEQYSALRSNVSMLGKVLGETIKDALGEHILERVETIRKLSKSSRAGNDANRQELLTTLQNLSNDELLPVARAFSQFLNLANTAEQYHSISPKGEAASNPEVIARTLRKLKNQPELSEDTIKKAVESLSLELVLTAHPTEITRRTLIHKMVEVNACLKQLDNKDIADYEHNQLMRRLRQLIAQSWHTDEIRKLRPSPVDEAKWGFAVVENSLWQGVPNYLRELNEQLEENLGYKLPVEFVPVRFTSWMGGDRDGNPNVTADITRHVLLLSRWKATDLFLKDIQVLVSELSMVEATPELLALVGEEGAAEPYRYLMKNLRSRLMATQAWLEARLKGEELPKPEGLLTQNEELWEPLYACYQSLQACGMGIIANGDLLDTLRRVKCFGVPLVRIDIRQESTRHTEALGELTRYLGIGDYESWSEADKQAFLIRELNSKRPLLPRNWQPSAETREVLDTCQVIAEAPQGSIAAYVISMAKTPSDVLAVHLLLKEAGIGFAMPVAPLFETLDDLNNANDVMTQLLNIDWYRGLIQGKQMVMIGYSDSAKDAGVMAASWAQYQAQDALIKTCEKAGIELTLFHGRGGSIGRGGAPAHAALLSQPPGSLKGGLRVTEQGEMIRFKYGLPEITVSSLSLYTGAILEANLLPPPEPKESWRRIMDELSVISCDVYRGYVRENKDFVPYFRSATPEQELGKLPLGSRPAKRRPTGGVESLRAIPWIFAWTQNRLMLPAWLGAGTALQKVVEDGKQSELEAMCRDWPFFSTRLGMLEMVFAKADLWLAEYYDQRLVDKALWPLGKELRNLQEEDIKVVLAIANDSHLMADLPWIAESIQLRNIYTDPLNVLQAELLHRSRQAEKEGQEPDPRVEQALMVTIAGIAAGMRNTG" "c" "Han et al., 2011" -"PEPCARBOXYKIN-MONOMER" "MRVNNGLTPQELEAYGISDVHDIVYNPSYDLLYQEELDPSLTGYERGVLTNLGAVAVDTGIFTGRSPKDKYIVRDDTTRDTFWWADKGKGKNDNKPLSPETWQHLKGLVTRQLSGKRLFVVDAFCGANPDTRLSVRFITEVAWQAHFVKNMFIRPSDEELAGFKPDFIVMNGAKCTNPQWKEQGLNSENFVAFNLTERMQLIGGTWYGGEMKKGMFSMMNYLLPLKGIASMHCSANVGEKGDVAVFFGLSGTGKTTLSTDPKRRLIGDDEHGWDDDGVFNFEGGCYAKTIKLSKEAEPEIYNAIRRDALLENVTVREDGTIDFDDGSKTENTRVSYPIYHIDNIVKPVSKAGHATKVIFLTADAFGVLPPVSRLTADQTQYHFLSGFTAKLAGTERGITEPTPTFSACFGAAFLSLHPTQYAEVLVKRMQAAGAQAYLVNTGWNGTGKRISIKDTRAIIDAILNGSLDNAETFTLPMFNLAIPTELPGVDTKILDPRNTYASPEQWQEKAETLAKLFIDNFDKYTDTPAGAALVAAGPKL" "c" "Lopez-Campistrous et al., 2005" -"PEPSYNTH-MONOMER" "MSNNGSSPLVLWYNQLGMNDVDRVGGKNASLGEMITNLSGMGVSVPNGFATTADAFNQFLDQSGVNQRIYELLDKTDIDDVTQLAKAGAQIRQWIIDTPFQPELENAIREAYAQLSADDENASFAVRSSATAEDMPDASFAGQQETFLNVQGFDAVLVAVKHVFASLFNDRAISYRVHQGYDHRGVALSAGVQRMVRSDLASSGVMFSIDTESGFDQVVFITSAWGLGEMVVQGAVNPDEFYVHKPTLAANRPAIVRRTMGSKKIRMVYAPTQEHGKQVKIEDVPQEQRDIFSLTNEEVQELAKQAVQIEKHYGRPMDIEWAKDGHTGKLFIVQARPETVRSRGQVMERYTLHSQGKIIAEGRAIGHRIGAGPVKVIHDISEMNRIEPGDVLVTDMTDPDWEPIMKKASAIVTNRGGRTCHAAIIARELGIPAVVGCGDATERMKDGENVTVSCAEGDTGYVYAELLEFSVKSSSVETMPDLPLKVMMNVGNPDRAFDFACLPNEGVGLARLEFIINRMIGVHPRALLEFDDQEPQLQNEIREMMKGFDSPREFYVGRLTEGIATLGAAFYPKRVIVRLSDFKSNEYANLVGGERYEPDEENPMLGFRGAGRYVSDSFRDCFALECEAVKRVRNDMGLTNVEIMIPFVRTVDQAKAVVEELARQGLKRGENGLKIIMMCEIPSNALLAEQFLEYFDGFSIGSNDMTQLALGLDRDSGVVSELFDERNDAVKALLSMAIRAAKKQGKYVGICGQGPSDHEDFAAWLMEEGIDSLSLNPDTVVQTWLSLAELKK" "c" "Han et al., 2011" -"PFLACTENZ-MONOMER" "MSVIGRIHSFESCGTVDGPGIRFITFFQGCLMRCLYCHNRDTWDTHGGKEVTVEDLMKEVVTYRHFMNASGGGVTASGGEAILQAEFVRDWFRACKKEGIHTCLDTNGFVRRYDPVIDELLEVTDLVMLDLKQMNDEIHQNLVGVSNHRTLEFAKYLANKNVKVWIRYVVVPGWSDDDDSAHRLGEFTRDMGNVEKIELLPYHELGKHKWVAMGEEYKLDGVKPPKKETMERVKGILEQYGHKVMF" "c" "Han et al., 2011" -"PGAM2-MONOMER" "MLQVYLVRHGETQWNAERRIQGQSDSPLTAKGEQQAMQVATRAKELGITHIISSDLGRTRRTAEIIAQACGCDIIFDSRLRELNMGVLEKRHIDSLTEEEENWRRQLVNGTVDGRIPEGESMQELSDRVNAALESCRDLPQGSRPLLVSHGIALGCLVSTILGLPAWAERRLRLRNCSISRVDYQESLWLASGWVVETAGDISHLDAPALDELQR" "c" "Han et al., 2011" -"PGK" "MSVIKMTDLDLAGKRVFIRADLNVPVKDGKVTSDARIRASLPTIELALKQGAKVMVTSHLGRPTEGEYNEEFSLLPVVNYLKDKLSNPVRLVKDYLDGVDVAEGELVVLENVRFNKGEKKDDETLSKKYAALCDVFVMDAFGTAHRAQASTHGIGKFADVACAGPLLAAELDALGKALKEPARPMVAIVGGSKVSTKLTVLDSLSKIADQLIVGGGIANTFIAAQGHDVGKSLYEADLVDEAKRLLTTCNIPVPSDVRVATEFSETAPATLKSVNDVKADEQILDIGDASAQELAEILKNAKTILWNGPVGVFEFPNFRKGTEIVANAIADSEAFSIAGGGDTLAAIDLFGIADKISYISTGGGAFLEFVEGKVLPAVAMLEERAKK" "c" "Han et al., 2011" -"PGLUCISOM" "MKNINPTQTAAWQALQKHFDEMKDVTIADLFAKDGDRFSKFSATFDDQMLVDYSKNRITEETLAKLQDLAKECDLAGAIKSMFSGEKINRTENRAVLHVALRNRSNTPILVDGKDVMPEVNAVLEKMKTFSEAIISGEWKGYTGKAITDVVNIGIGGSDLGPYMVTEALRPYKNHLNMHFVSNVDGTHIAEVLKKVNPETTLFLVASKTFTTQETMTNAHSARDWFLKAAGDEKHVAKHFAALSTNAKAVGEFGIDTANMFEFWDWVGGRYSLWSAIGLSIVLSIGFDNFVELLSGAHAMDKHFSTTPAEKNLPVLLALIGIWYNNFFGAETEAILPYDQYMHRFAAYFQQGNMESNGKYVDRNGNVVDYQTGPIIWGEPGTNGQHAFYQLIHQGTKMVPCDFIAPAITHNPLSDHHQKLLSNFFAQTEALAFGKSREVVEQEYRDQGKDPATLDYVVPFKVFEGNRPTNSILLREITPFSLGALIALYEHKIFTQGVILNIFTFDQWGVELGKQLANRILPELKDDKEISSHDSSTNGLINRYKAWRG" "c" "Han et al., 2011" -"PGLUCONDEHYDRAT-MONOMER" "MNPQLLRVTNRIIERSRETRSAYLARIEQAKTSTVHRSQLACGNLAHGFAACQPEDKASLKSMLRNNIAIITSYNDMLSAHQPYEHYPEIIRKALHEANAVGQVAGGVPAMCDGVTQGQDGMELSLLSREVIAMSAAVGLSHNMFDGALFLGVCDKIVPGLTMAALSFGHLPAVFVPSGPMASGLPNKEKVRIRQLYAEGKVDRMALLESEAASYHAPGTCTFYGTANTNQMVVEFMGMQLPGSSFVHPDSPLRDALTAAAARQVTRMTGNGNEWMPIGKMIDEKVVVNGIVALLATGGSTNHTMHLVAMARAAGIQINWDDFSDLSDVVPLMARLYPNGPADINHFQAAGGVPVLVRELLKAGLLHEDVNTVAGFGLSRYTLEPWLNNGELDWREGAEKSLDSNVIASFEQPFSHHGGTKVLSGNLGRAVMKTSAVPVENQVIEAPAVVFESQHDVMPAFEAGLLDRDCVVVVRHQGPKANGMPELHKLMPPLGVLLDRCFKIALVTDGRLSGASGKVPSAIHVTPEAYDGGLLAKVRDGDIIRVNGQTGELTLLVDEAELAAREPHIPDLSASRVGTGRELFSALREKLSGAEQGATCITF" "c" "Han et al., 2011" -"PGLYCDEHYDROG-MONOMER" "MAKVSLEKDKIKFLLVEGVHQKALESLRAAGYTNIEFHKGALDDEQLKESIRDAHFIGLRSRTHLTEDVINAAEKLVAIGCFCIGTNQVDLDAAAKRGIPVFNAPFSNTRSVAELVIGELLLLLRGVPEANAKAHRGVWNKLAAGSFEARGKKLGIIGYGHIGTQLGILAESLGMYVYFYDIENKLPLGNATQVQHLSDLLNMSDVVSLHVPENPSTKNMMGAKEISLMKPGSLLINASRGTVVDIPALCDALASKHLAGAAIDVFPTEPATNSDPFTSPLCEFDNVLLTPHIGGSTQEAQENIGLEVAGKLIKYSDNGSTLSAVNFPEVSLPLHGGRRLMHIHENRPGVLTALNKIFAEQGVNIAAQYLQTSAQMGYVVIDIEADEDVAEKALQAMKAIPGTIRARLLY" "c" "Han et al., 2011" -"PGLYCEROLTRANSI-MONOMER" "LSELLSFALFLASVLIYAWKAGRNTWWFAATLTVLGLFVVLNITLFASDYFTGDGINDAVLYTLTNSLTGAGVSKYILPGIGIVLGLTAVFGALGWILRRRRHHPHHFGYSLLALLLALGSVDASPAFRQITELVKSQSRDGDPDFAAYYKEPSKTIPDPKLNLVYIYGESLERTYFDNEAFPDLTPELGALKNEGLDFSHTQQLPGTDYTIAGMVASQCGIPLFAPFEGNASASVSSFFPQNICLGDILKNSGYQNYFVQGANLRFAGKDVFLKSHGFDHLYGSEELKSVVADPHYRNDWGFYDDTVLDEAWKKFEELSRSGQRFSLFTLTVDTHHPDGFISRTCNRKKYDFDGKPNQSFSAVSCSQENIATFINKIKASPWFKDTVIVVSSDHLAMNNTAWKYLNKQDRNNLFFVIRGDKPQQETLAVKRNTMDNGATVLDILGGDNYLGLGRSSLSGQSMSEIFLNIKEKTLAWKPDIIRLWKFPKEMKEFTIDQQKNMIAFSGSHFRLPLLLRVSDKRVEPLPESEYSAPLRFQLADFAPRDNFVWVDRCYKMAQLWAPELALSTDWCVSQGQLGGQQIVQHVDKTTWQGKTAFKDTVIDMARYKGNVDTLKIVDNDIRYKADSFIFNVAGAPEEVKQFSGISRPESWGRWSNAQLGDEVKIEYKHPLPKKFDLVITAKAYGNNASRPIPVRVGNEEQTLVLGNEVTTTTLHFDNPTDADTLVIVPPEPVSTNEGNILGHSPRKLGIGMVEIKVVEREG" "i" "Han et al., 2011" -"PGMI-MONOMER" "MLVSKKPMVLVILDGYGYREEQQDNAIFSAKTPVMDALWANRPHTLIDASGLEVGLPDRQMGNSEVGHVNLGAGRIVYQDLTRLDVEIKDRAFFANPVLTGAVDKAKNAGKAVHIMGLLSAGGVHSHEDHIMAMVELAAERGAEKIYLHAFLDGRDTPPRSAESSLKKFEEKFAALGKGRVASIIGRYYAMDRDNRWDRVEKAYDLLTLAQGEFQADTAVAGLQAAYARDENDEFVKATVIRAEGQPDAAMEDGDALIFMNFRADRAREITRAFVNADFDGFARKKVVNVDFVMLTEYAADIKTAVAYPPASLVNTFGEWMAKNDKTQLRISETEKYAHVTFFFNGGVEESFKGEDRILINSPKVATYDLQPEMSSAELTEKLVAAIKSGKYDTIICNYPNGDMVGHTGVMEAAVKAVEALDHCVEEVAKAVESVGGQLLITADHGNAEQMRDPATGQAHTAHTNLPVPLIYVGDKNVKAVEGGKLSDIAPTMLSLMGMEIPQEMTGKPLFIVE" "c" "Han et al., 2011" -"PGPPHOSPHAA-MONOMER" "MTILPRHKDVAKSRLKMSNPWHLLAVGFGSGLSPIVPGTMGSLAAIPFWYLMTFLPWQLYSLVVMLGICIGVYLCHQTAKDMGVHDHGSIVWDEFIGMWITLMALPTNDWQWVAAGFVIFRILDMWKPWPIRWFDRNVHGGMGIMIDDIVAGVISAGILYFIGHHWPLGILS" "i" "Han et al., 2011" -"PGPPHOSPHAB-MONOMER" "MRSIARRTAVGAALLLVMPVAVWISGWRWQPGEQSWLLKAAFWVTETVTQPWGVITHLILFGWFLWCLRFRIKAAFVLFAILAAAILVGQGVKSWIKDKVQEPRPFVIWLEKTHHIPVDEFYTLKRAERGNLVKEQLAEEKNIPQYLRSHWQKETGFAFPSGHTMFAASWALLAVGLLWPRRRTLTIAILLVWATGVMGSRLLLGMHWPRDLVVATLISWALVAVATWLAQRICGPLTPPAEENREIAQREQES" "i" "Han et al., 2011" -"PHENDEHYD-MONOMER" "MTEPHVAVLSQVQQFLDRQHGLYIDGRPGPAQSEKRLAIFDPATGQEIASTADANEADVDNAVMSAWRAFVSRRWAGRLPAERERILLRFADLVEQHSEELAQLETLEQGKSIAISRAFEVGCTLNWMRYTAGLTTKIAGKTLDLSIPLPQGARYQAWTRKEPVGVVAGIVPWNFPLMIGMWKVMPALAAGCSIVIKPSETTPLTMLRVAELASEAGIPDGVFNVVTGSGAVCGAALTSHPHVAKISFTGSTATGKGIARTAADHLTRVTLELGGKNPAIVLKDADPQWVIEGLMTGSFLNQGQVCAASSRIYIEAPLFDTLVSGFEQAVKSLQVGPGMSPVAQINPLVSRAHCDKVCSFLDDAQAQQAELIRGSNGPAGEGYYVAPTLVVNPDAKLRLTREEVFGPVVNLVRVADGEEALQLANDTEYGLTASVWTQNLSQALEYSDRLQAGTVWVNSHTLIDANLPFGGMKQSGTGRDFGPDWLDGWCETKSVCVRY" "c" "Han et al., 2011" -"PHENPRODIOLDEHYDROG-MONOMER" "MSDLHNESIFITGGGSGLGLALVERFIEEGAQVATLELSAAKVASLRQRFGEHILAVEGNVTCYADYQRAVDQILTRSGKLDCFIGNAGIWDHNASLVNTPAETLETGFHELFNVNVLGYLLGAKACAPALIASEGSMIFTLSNAAWYPGGGGPLYTASKHAATGLIRQLAYELAPKVRVNGVGPCGMASDLRGPQALGQSETSIMQSLTPEKIAAILPLQFFPQPADFTGPYVMLTSRRNNRALSGVMINADAGLAIRGIRHVAAGLDL" "c" "Han et al., 2011" -"PHENYLPRODIOXY-MONOMER" "MTTPSDLNIYQLIDTQNGRVTPRIYTDPDIYQLELERIFGRCWLFLAHESQIPKPGDFFNTYMGEDAVVVVRQKDGSIKAFLNQCRHRAMRVSYADCGNTRAFTCPYHGWSYGINGELIDVPLEPRAYPQGLCKSHWGLNEVPCVESYKGLIFGNWDTSAPGLRDYLGDIAWYLDGMLDRREGGTEIVGGVQKWVINCNWKFPAEQFASDQYHALFSHASAVQVLGAKDDGSDKRLGDGQTARPVWETAKDALQFGQDGHGSGFFFTEKPDANVWVDGAVSSYYRETYAEAEQRLGEVRALRLAGHNNIFPTLSWLNGTATLRVWHPRGPDQVEVWAFCITDKAASDEVKAAFENSATRAFGPAGFLEQDDSENWCEIQKLLKGHRARNSKLCLEMGLGQEKRRDDGIPGITNYIFSETAARGMYQRWADLLSSESWQEVLDKTAAYQQEVMK" "c" "EcoCyc dump" -"PHEP-MONOMER" "VKNASTVSEDTASNQEPTLHRGLHNRHIQLIALGGAIGTGLFLGIGPAIQMAGPAVLLGYGVAGIIAFLIMRQLGEMVVEEPVSGSFAHFAYKYWGPFAGFLSGWNYWVMFVLVGMAELTAAGIYMQYWFPDVPTWIWAAAFFIIINAVNLVNVRLYGETEFWFALIKVLAIIGMIGFGLWLLFSGHGGEKASIDNLWRYGGFFATGWNGLILSLAVIMFSFGGLELIGITAAEARDPEKSIPKAVNQVVYRILLFYIGSLVVLLALYPWVEVKSNSSPFVMIFHNLDSNVVASALNFVILVASLSVYNSGVYSNSRMLFGLSVQGNAPKFLTRVSRRGVPINSLMLSGAITSLVVLINYLLPQKAFGLLMALVVATLLLNWIMICLAHLRFRAAMRRQGRETQFKALLYPFGNYLCIAFLGMILLLMCTMDDMRLSAILLPVWIVFLFMAFKTLRRK" "i" "Han et al., 2011" -"PHES-MONOMER" "MSHLAELVASAKAAISQASDVAALDNVRVEYLGKKGHLTLQMTTLRELPPEERPAAGAVINEAKEQVQQALNARKAELESAALNARLAAETIDVSLPGRRIENGGLHPVTRTIDRIESFFGELGFTVATGPEIEDDYHNFDALNIPGHHPARADHDTFWFDTTRLLRTQTSGVQIRTMKAQQPPIRIIAPGRVYRNDYDQTHTPMFHQMEGLIVDTNISFTNLKGTLHDFLRNFFEEDLQIRFRPSYFPFTEPSAEVDVMGKNGKWLEVLGCGMVHPNVLRNVGIDPEVYSGFAFGMGMERLTMLRYGVTDLRSFFENDLRFLKQFK" "c" "Han et al., 2011" -"PHET-MONOMER" "MKFSELWLREWVNPAIDSDALANQITMAGLEVDGVEPVAGSFHGVVVGEVVECAQHPNADKLRVTKVNVGGDRLLDIVCGAPNCRQGLRVAVATIGAVLPGDFKIKAAKLRGEPSEGMLCSFSELGISDDHSGIIELPADAPIGTDIREYLKLDDNTIEISVTPNRADCLGIIGVARDVAVLNQLPLVQPEIVPVGATIDDTLPITVEAPEACPRYLGRVVKGINVKAPTPLWMKEKLRRCGIRSIDAVVDVTNYVLLELGQPMHAFDKDRIEGGIVVRMAKEGETLVLLDGTEAKLNADTLVIADHNKALAMGGIFGGEHSGVNDETQNVLLECAFFSPLSITGRARRHGLHTDASHRYERGVDPALQHKAMERATRLLIDICGGEAGPVIDITNEATLPKRATITLRRSKLDRLIGHHIADEQVTDILRRLGCEVTEGKDEWQAVAPSWRFDMEIEEDLVEEVARVYGYNNIPDEPVQASLIMGTHREADLSLKRVKTLLNDKGYQEVITYSFVDPKVQQMIHPGVEALLLPSPISVEMSAMRLSLWTGLLATVVYNQNRQQNRVRIFESGLRFVPDTQAPLGIRQDLMLAGVICGNRYEEHWNLAKETVDFYDLKGDLESVLDLTGKLNEVEFRAEANPALHPGQSAAIYLKGERIGFVGVVHPELERKLDLNGRTLVFELEWNKLADRVVPQAREISRFPANRRDIAVVVAENVPAADILSECKKVGVNQVVGVNLFDVYRGKGVAEGYKSLAISLILQDTSRTLEEEEIAATVAKCVEALKERFQASLRD" "c" "Han et al., 2011" -"PHNC-MONOMER" "MQTIIRVEKLAKTFNQHQALHAVDLNIHHGEMVALLGPSGSGKSTLLRHLSGLITGDKSVGSHIELLGRTVQREGRLARDIRKSRAHTGYIFQQFNLVNRLSVLENVLIGALGSTPFWRTCFSWFTGEQKQRALQALTRVGMVHFAHQRVSTLSGGQQQRVAIARALMQQAKVILADEPIASLDPESARIVMDTLRDINQNDGITVVVTLHQVDYALRYCERIVALRQGHVFYDGSSQQFDNERFDHLYRSINRVEENAKAA" "i" "Han et al., 2011" -"PHND-MONOMER" "MNAKIIASLAFTSMFSLSTLLSPAHAEEQEKALNFGIISTESQQNLKPQWTPFLQDMEKKLGVKVNAFFAPDYAGIIQGMRFNKVDIAWYGNLSAMEAVDRANGQVFAQTVAADGSPGYWSVLIVNKDSPINNLNDLLAKRKDLTFGNGDPNSTSGFLVPGYYVFAKNNISASDFKRTVNAGHETNALAVANKQVDVATNNTENLDKLKTSAPEKLKELKVIWKSPLIPGDPIVWRKNLSETTKDKIYDFFMNYGKTPEEKAVLERLGWAPFRASSDLQLVPIRQLALFKEMQGVKSNKGLNEQDKLAKTTEIQAQLDDLDRLNNALSAMSSVSKAVQ" "i" "EcoCyc dump" -"PHNE-MONOMER" "MPDAVQAPYPAYRPEPNMQTITIAPPKRSWFSLLSWAVVLAVLVVSWQGAEMAPLTLIKDGGNMATFAADFFPPDFSQWQDYLTEMAVTLQIAVWGTALAVVLSIPFGLMSAENLVPWWVYQPVRRLMDACRAINEMVFAMLFVVAVGLGPFAGVLACWRCLSTPPACSPSCFPKRWKRLSPARWKAFAPPVPTSSKRSSTACCHR" "c" "EcoCyc dump" -"PHNK-MONOMER" "MNQPLLSVNNLTHLYAPGKGFSDVSFDLWPGEVLGIVGESGSGKTTLLKSISARLTPQQGEIHYENRSLYAMSEADRRRLLRTEWGVVHQHPLDGLRRQVSAGGNIGERLMATGARHYGDIRATAQKWLEEVEIPANRIDDLPTTFSGGMQQRLQIARNLVTHPKLVFMDEPTGGLDVSVQARLLDLLRGLVVELNLAVVIVTHDLGVARLLADRLLVMKQGQVVESGLTDRVLDDPHHPYTQLLVSSVLQN" "c" "Han et al., 2011" -"PHNL-MONOMER" "MINVQNVSKTFILHQQNGVRLPVLNRASLTVNAGECVVLHGHSGSGKSTLLRSLYANYLPDEGQIQIKHGDEWVDLVTAPARKVVEIRKTTVGWVSQFLRVIPRISALEVVMQPLLDTGVPREACAAKAARLLTRLNVPERLWHLAPSTFSGGEQQRVNIARGFIVDYPILLLDEPTASLDAKNSAAVVELIREAKTRGAAIVGIFHDEAVRNDVADRLHPMGASS" "i" "Han et al., 2011" -"PHOB-MONOMER" "MARRILVVEDEAPIREMVCFVLEQNGFQPVEAEDYDSAVNQLNEPWPDLILLDWMLPGGSGIQFIKHLKRESMTRDIPVVMLTARGEEEDRVRGLETGADDYITKPFSPKELVARIKAVMRRISPMAVEEVIEMQGLSLDPTSHRVMAGEEPLEMGPTEFKLLHFFMTHPERVYSREQLLNHVWGTNVYVEDRTVDVHIRRLRKALEPGGHDRMVQTVRGTGYRFSTRF" "c" "Han et al., 2011" -"PHOP-MONOMER" "MRVLVVEDNALLRHHLKVQIQDAGHQVDDAEDAKEADYYLNEHIPDIAIVDLGLPDEDGLSLIRRWRSNDVSLPILVLTARESWQDKVEVLSAGADDYVTKPFHIEEVMARMQALMRRNSGLASQVISLPPFQVDLSRRELSINDEVIKLTAFEYTIMETLIRNNGKVVSKDSLMLQLYPDAELRESHTIDVLMGRLRKKIQAQYPQEVITTVRGQGYLFELR" "c" "Han et al., 2011" -"PHOQ-MONOMER" "MKKLLRLFFPLSLRVRFLLATAAVVLVLSLAYGMVALIGYSVSFDKTTFRLLRGESNLFYTLAKWENNKLHVELPENIDKQSPTMTLIYDENGQLLWAQRDVPWLMKMIQPDWLKSNGFHEIEADVNDTSLLLSGDHSIQQQLQEVREDDDDAEMTHSVAVNVYPATSRMPKLTIVVVDTIPVELKSSYMVWSWFIYVLSANLLLVIPLLWVAAWWSLRPIEALAKEVRELEEHNRELLNPATTRELTSLVRNLNRLLKSERERYDKYRTTLTDLTHSLKTPLAVLQSTLRSLRSEKMSVSDAEPVMLEQISRISQQIGYYLHRASMRGGTLLSRELHPVAPLLDNLTSALNKVYQRKGVNISLDISPEISFVGEQNDFVEVMGNVLDNACKYCLEFVEISARQTDEHLYIVVEDDGPGIPLSKREVIFDRGQRVDTLRPGQGVGLAVAREITEQYEGKIVAGESMLGGARMEVIFGRQHSAPKDE" "i" "Han et al., 2011" -"PHOR-MONOMER" "VLERLSWKRLVLELLLCCLPAFILGAFFGYLPWFLLASVTGLLIWHFWNLLRLSWWLWVDRSMTPPPGRGSWEPLLYGLHQMQLRNKKRRRELGNLIKRFRSGAESLPDAVVLTTEEGGIFWCNGLAQQILGLRWPEDNGQNILNLLRYPEFTQYLKTRDFSRPLNLVLNTGRHLEIRVMPYTHKQLLMVARDVTQMHQLEGARRNFFANVSHELRTPLTVLQGYLEMMNEQPLEGAVREKALHTMREQTQRMEGLVKQLLTLSKIEAAPTHLLNEKVDVPMMLRVVEREAQTLSQKKQTFTFEIDNGLKVSGNEDQLRSAISNLVYNAVNHTPEGTHITVRWQRVPHGAEFSVEDNGPGIAPEHIPRLTERFYRVDKARSRQTGGSGLGLAIVKHAVNHHESRLNIESTVGKGTRFSFVIPERLIAKNSD" "i" "Han et al., 2011" -"PHOSACETYLTRANS-MONOMER" "VSRIIMLIPTGTSVGLTSVSLGVIRAMERKGVRLSVFKPIAQPRTGGDAPDQTTTIVRANSSTTTAAEPLKMSYVEGLLSSNQKDVLMEEIVANYHANTKDAEVVLVEGLVPTRKHQFAQSLNYEIAKTLNAEIVFVMSQGTDTPEQLKERIELTRNSFGGAKNTNITGVIVNKLNAPVDEQGRTRPDLSEIFDDSSKAKVNNVDPAKLQESSPLPVLGAVPWSFDLIATRAIDMARHLNATIINEGDINTRRVKSVTFCARSIPHMLEHFRAGSLLVTSADRPDVLVAACLAAMNGVEIGALLLTGGYEMDARISKLCERAFATGLPVFMVNTNTWQTSLSLQSFNLEVPVDDHERIEKVQEYVANYINADWIESLTATSERSRRLSPPAFRYQLTELARKAGKRIVLPEGDEPRTVKAAAICAERGIATCVLLGNPAEINRVAASQGVELGAGIEIVDPEVVRESYVGRLVELRKNKGMTETVAREQLEDNVVLGTLMLEQDEVDGLVSGAVHTTANTIRPPLQLIKTAPGSSLVSSVFFMLLPEQVYVYGDCAINPDPTAEQLAEIAIQSADSAAAFGIEPRVAMLSYSTGTSGAGSDVEKVREATRLAQEKRPDLMIDGPLQYDAAVMADVAKSKAPNSPVAGRATVFIFPDLNTGNTTYKAVQRSADLISIGPMLQGMRKPVNDLSRGALVDDIVYTIALTAIQSAQQQ" "c" "EcoCyc dump" -"PHOSGLUCOSAMINEMUT-MONOMER" "MSNRKYFGTDGIRGRVGDAPITPDFVLKLGWAAGKVLARHGSRKIIIGKDTRISGYMLESALEAGLAAAGLSALFTGPMPTPAVAYLTRTFRAEAGIVISASHNPFYDNGIKFFSIDGTKLPDAVEEAIEAEMEKEISCVDSAELGKASRIVDAAGRYIEFCKATFPNELSLSELKIVVDCANGATYHIAPNVLRELGANVIAIGCEPNGVNINAEVGATDVRALQARVLAEKADLGIAFDGDGDRVIMVDHEGNKVDGDQIMYIIAREGLRQGQLRGGAVGTLMSNMGLELALKQLGIPFARAKVGDRYVLEKMQEKGWRIGAENSGHVILLDKTTTGDGIVAGLQVLAAMARNHMSLHDLCSGMKMFPQILVNVRYTAGSGDPLEHESVKAVTAEVEAALGNRGRVLLRKSGTEPLIRVMVEGEDEAQVTEFAHRIADAVKAV" "c" "Lopez-Campistrous et al., 2005" -"PHOSMANMUT-MONOMER" "MKKLTCFKAYDIRGKLGEELNEDIAWRIGRAYGEFLKPKTIVLGGDVRLTSETLKLALAKGLQDAGVDVLDIGMSGTEEIYFATFHLGVDGGIEVTASHNPMDYNGMKLVREGARPISGDTGLRDVQRLAEANDFPPVDETKRGRYQQINLRDAYVDHLFGYINVKNLTPLKLVINSGNGAAGPVVDAIEARFKALGAPVELIKVHNTPDGNFPNGIPNPLLPECRDDTRNAVIKHGADMGIAFDGDFDRCFLFDEKGQFIEGYYIVGLLAEAFLEKNPGAKIIHDPRLSWNTVDVVTAAGGTPVMSKTGHAFIKERMRKEDAIYGGEMSAHHYFRDFAYCDSGMIPWLLVAELVCLKDKTLGELVRDRMAAFPASGEINSKLAQPVEAINRVEQHFSREALAVDRTDGISMTFADWRFNLRTSNTEPVVRLNVESRGDVPLMEARTRTLLTLLNE" "c" "Han et al., 2011" -"PHOSNACMURPENTATRANS-MONOMER" "MLVWLAEHLVKYYSGFNVFSYLTFRAIVSLLTALFISLWMGPRMIAHLQKLSFGQVVRNDGPESHFSKRGTPTMGGIMILTAIVISVLLWAYPSNPYVWCVLVVLVGYGVIGFVDDYRKVVRKDTKGLIARWKYFWMSVIALGVAFALYLAGKDTPATQLVVPFFKDVMPQLGLFYILLAYFVIVGTGNAVNLTDGLDGLAIMPTVFVAGGFALVAWATGNMNFASYLHIPYLRHAGELVIVCTAIVGAGLGFLWFNTYPAQVFMGDVGSLALGGALGIIAVLLRQEFLLVIMGGVFVVETLSVILQVGSFKLRGQRIFRMAPIHHHYELKGWPEPRVIVRFWIISLMLVLIGLATLKVR" "i" "Han et al., 2011" -"PHOSPHAGLYPSYN-MONOMER" "MQFNIPTLLTLFRVILIPFFVLVFYLPVTWSPFAAALIFCVAAVTDWFDGFLARRWNQSTRFGAFLDPVADKVLVAIAMVLVTEHYHSWWVTLPAATMIAREIIISALREWMAELGKRSSVAVSWIGKVKTTAQMVALAWLLWRPNIWVEYAGIALFFVAAVLTLWSMLQYLSAARADLLDQ" "i" "Han et al., 2011" -"PHOSPHASERSYN-MONOMER" "MLSKFKRNKHQQHLAQLPKISQSVDDVDFFYAPADFRETLLEKIASAKQRICIVALYLEQDDGGKGILNALYEAKRQRPELDVRVLVDWHRAQRGRIGAAASNTNADWYCRMAQENPGVDVPVYGVPINTREALGVLHFKGFIIDDSVLYSGASLNDVYLHQHDKYRYDRYHLIRNRKMSDIMFEWVTQNIMNGRGVNRLDDVNRPKSPEIKNDIRLFRQELRDAAYHFQGDADNDQLSVTPLVGLGKSSLLNKTIFHLMPCAEQKLTICTPYFNLPAILVRNIIQLLREGKKVEIIVGDKTANDFYIPEDEPFKIIGALPYLYEINLRRFLSRLQYYVNTDQLVVRLWKDDDNTYHLKGMWVDDKWMLITGNNLNPRAWRLDLENAILIHDPQLELAPQREKELELIREHTTIVKHYRDLQSIADYPVKVRKLIRRLRRIRIDRLISRIL" "i" "EcoCyc dump" -"PHOSPHOGLUCMUT-MONOMER" "MAIHNRAGQPAQQSDLINVAQLTAQYYVLKPEAGNAEHAVKFGTSGHRGSAARHSFNEPHILAIAQAIAEERAKNGITGPCYVGKDTHALSEPAFISVLEVLAANGVDVIVQENNGFTPTPAVSNAILVHNKKGGPLADGIVITPSHNPPEDGGIKYNPPNGGPADTNVTKVVEDRANALLADGLKGVKRISLDEAMASGHVKEQDLVQPFVEGLADIVDMAAIQKAGLTLGVDPLGGSGIEYWKRIGEYYNLNLTIVNDQVDQTFRFMHLDKDGAIRMDCSSECAMAGLLALRDKFDLAFANDPDYDRHGIVTPAGLMNPNHYLAVAINYLFQHRPQWGKDVAVGKTLVSSAMIDRVVNDLGRKLVEVPVGFKWFVDGLFDGSFGFGGEESAGASFLRFDGTPWSTDKDGIIMCLLAAEITAVTGKNPQEHYNELAKRFGAPSYNRLQAAATSAQKAALSKLSPEMVSASTLAGDPITARLTAAPGNGASIGGLKVMTDNGWFAARPSGTEDAYKIYCESFLGEEHRKQIEKEAVEIVSEVLKNA" "c" "Lopez-Campistrous et al., 2005" -"PITA-MONOMER" "MLHLFAGLDLHTGLLLLLALAFVLFYEAINGFHDTANAVATVIYTRAMRSQLAVVMAAVFNFLGVLLGGLSVAYAIVHMLPTDLLLNMGSSHGLAMVFSMLLAAIIWNLGTWYFGLPASSSHTLIGAIIGIGLTNALMTGTSVVDALNIPKVLSIFGSLIVSPIVGLVFAGGLIFLLRRYWSGTKKRARIHLTPAEREKKDGKKKPPFWTRIALILSAIGVAFSHGANDGQKGIGLVMLVLIGVAPAGFVVNMNATGYEITRTRDAINNVEAYFEQHPALLKQATGADQLVPAPEAGATQPAEFHCHPSNTINALNRLKGMLTTDVESYDKLSLDQRSQMRRIMLCVSDTIDKVVKMPGVSADDQRLLKKLKSDMLSTIEYAPVWIIMAVALALGIGTMIGWRRVATTIGEKIGKKGMTYAQGMSAQMTAAVSIGLASYTGMPVSTTHVLSSSVAGTMVVDGGGLQRKTVTSILMAWVFTLPAAVLLSGGLYWLSLQFL" "i" "Han et al., 2011" -"PITB-MONOMER" "MLNLFVGLDIYTGLLLLLALAFVLFYEAINGFHDTANAVAAVIYTRAMQPQLAVVMAAFFNFFGVLLGGLSVAYAIVHMLPTDLLLNMGSTHGLAMVFSMLLAAIIWNLGTWFFGLPASSSHTLIGAIIGIGLTNALLTGSSVMDALNLREVTKIFSSLIVSPIVGLVIAGGLIFLLRRYWSGTKKRDRIHRIPEDRKKKKGKRKPPFWTRIALIVSAAGVAFSHGANDGQKGIGLVMLVLVGIAPAGFVVNMNASGYEITRTRDAVTNFEHYLQQHPELPQKLIAMEPPLPAASTDGTQVTEFHCHPANTFDAIARVKTMLPGNMESYEPLSVSQRSQLRRIMLCISDTSAKLAKLPGVSKEDQNLLKKLRSDMLSTIEYAPVWIIMAVALALGIGTMIGWRRVAMTIGEKIGKRGMTYAQGMAAQMTAAVSIGLASYIGMPVSTTHVLSSAVAGTMVVDGGGLQRKTVTSILMAWVFTLPAAIFLSGGLYWIALQLI" "i" "Han et al., 2011" -"PKI-MONOMER" "MKKTKIVCTIGPKTESEEMLAKMLDAGMNVMRLNFSHGDYAEHGQRIQNLRNVMSKTGKTAAILLDTKGPEIRTMKLEGGNDVSLKAGQTFTFTTDKSVIGNSEMVAVTYEGFTTDLSVGNTVLVDDGLIGMEVTAIEGNKVICKVLNNGDLGENKGVNLPGVSIALPALAEKDKQDLIFGCEQGVDFVAASFIRKRSDVIEIREHLKAHGGENIHIISKIENQEGLNNFDEILEASDGIMVARGDLGVEIPVEEVIFAQKMMIEKCIRARKVVITATQMLDSMIKNPRPTRAEAGDVANAILDGTDAVMLSGESAKGKYPLEAVSIMATICERTDRVMNSRLEFNNDNRKLRITEAVCRGAVETAEKLDAPLIVVATQGGKSARAVRKYFPDATILALTTNEKTAHQLVLSKGVVPQLVKEITSTDDFYRLGKELALQSGLAHKGDVVVMVSGALVPSGTTNTASVHVL" "c" "Lopez-Campistrous et al., 2005" -"PKII-MONOMER" "MSRRLRRTKIVTTLGPATDRDNNLEKVIAAGANVVRMNFSHGSPEDHKMRADKVREIAAKLGRHVAILGDLQGPKIRVSTFKEGKVFLNIGDKFLLDANLGKGEGDKEKVGIDYKGLPADVVPGDILLLDDGRVQLKVLEVQGMKVFTEVTVGGPLSNNKGINKLGGGLSAEALTEKDKADIKTAALIGVDYLAVSFPRCGEDLNYARRLARDAGCDAKIVAKVERAEAVCSQDAMDDIILASDVVMVARGDLGVEIGDPELVGIQKALIRRARQLNRAVITATQMMESMITNPMPTRAEVMDVANAVLDGTDAVMLSAETAAGQYPSETVAAMARVCLGAEKIPSINVSKHRLDVQFDNVEEAIAMSAMYAANHLKGVTAIITMTESGRTALMTSRISSGLPIFAMSRHERTLNLTALYRGVTPVHFDSANDGVAAASEAVNLLRDKGYLMSGDLVIVTQGDVMSTVGSTNTTRILTVE" "c" "Han et al., 2011" -"PNTA-MONOMER" "MRIGIPRERLTNETRVAATPKTVEQLLKLGFTVAVESGAGQLASFDDKAFVQAGAEIVEGNSVWQSEIILKVNAPLDDEIALLNPGTTLVSFIWPAQNPELMQKLAERNVTVMAMDSVPRISRAQSLDALSSMANIAGYRAIVEAAHEFGRFFTGQITAAGKVPPAKVMVIGAGVAGLAAIGAANSLGAIVRAFDTRPEVKEQVQSMGAEFLELDFKEEAGSGDGYAKVMSDAFIKAEMELFAAQAKEVDIIVTTALIPGKPAPKLITREMVDSMKAGSVIVDLAAQNGGNCEYTVPGEIFTTENGVKVIGYTDLPGRLPTQSSQLYGTNLVNLLKLLCKEKDGNITVDFDDVVIRGVTVIRAGEITWPAPPIQVSAQPQAAQKAAPEVKTEEKCTCSPWRKYALMALAIILFGWMASVAPKEFLGHFTVFALACVVGYYVVWNVSHALHTPLMSVTNAISGIIVVGALLQIGQGGWVSFLSFIAVLIASINIFGGFTVTQRMLKMFRKN" "i" "Han et al., 2011" -"PNTB-MONOMER" "MSGGLVTAAYIVAAILFIFSLAGLSKHETSRQGNNFGIAGMAIALIATIFGPDTGNVGWILLAMVIGGAIGIRLAKKVEMTEMPELVAILHSFVGLAAVLVGFNSYLHHDAGMAPILVNIHLTEVFLGIFIGAVTFTGSVVAFGKLCGKISSKPLMLPNRHKMNLAALVVSFLLLIVFVRTDSVGLQVLALLIMTAIALVFGWHLVASIGGADMPVVVSMLNSYSGWAAAAAGFMLSNDLLIVTGALVGSSGAILSYIMCKAMNRSFISVIAGGFGTDGSSTGDDQEVGEHREITAEETAELLKNSHSVIITPGYGMAVAQAQYPVAEITEKLRARGINVRFGIHPVAGRLPGHMNVLLAEAKVPYDIVLEMDEINDDFADTDTVLVIGANDTVNPAAQDDPKSPIAGMPVLEVWKAQNVIVFKRSMNTGYAGVQNPLFFKENTHMLFGDAKASVDAILKAL" "i" "Han et al., 2011" -"PNUC-MONOMER" "MDFFSVQNILVHIPIGAGGYDLSWIEAVGTIAGLLCIGLASLEKISNYFFGLINVTLFGIIFFQIQLYASLLLQVFFFAANIYGWYAWSRQTSQNEAELKIRWLPLPKALSWLAVCVVSIGLMTVFINPVFAFLTRVAVMIMQALGLQVVMPELQPDAFPFWDSCMMVLSIVAMILMTRKYVENWLLWVIINVISVVIFALQGVYAMSLEYIILTFIALNGSRMWINSARERGSRALSH" "i" "Han et al., 2011" -"PORPHOBILSYNTH-MONOMER" "MTDLIQRPRRLRKSPALRAMFEETTLSLNDLVLPIFVEEEIDDYKAVEAMPGVMRIPEKHLAREIERIANAGIRSVMTFGISHHTDETGSDAWREDGLVARMSRICKQTVPEMIVMSDTCFCEYTSHGHCGVLCEHGVDNDATLENLGKQAVVAAAAGADFIAPSAAMDGQVQAIRQALDAAGFKDTAIMSYSTKFASSFYGPFREAAGSALKGDRKSYQMNPMNRREAIRESLLDEAQGADCLMVKPAGAYLDIVRELRERTELPIGAYQVSGEYAMIKFAALAGAIDEEKVVLESLGSIKRAGADLIFSYFALDLAEKKILR" "c" "Han et al., 2011" -"POTA-MONOMER" "MGQSKKLNKQPSSLSPLVQLAGIRKCFDGKEVIPQLDLTINNGEFLTLLGPSGCGKTTVLRLIAGLETVDSGRIMLDNEDITHVPAENRYVNTVFQSYALFPHMTVFENVAFGLRMQKTPAAEITPRVMEALRMVQLETFAQRKPHQLSGGQQQRVAIARAVVNKPRLLLLDESLSALDYKLRKQMQNELKALQRKLGITFVFVTHDQEEALTMSDRIVVMRDGRIEQDGTPREIYEEPKNLFVAGFIGEINMFNATVIERLDEQRVRANVEGRECNIYVNFAVEPGQKLHVLLRPEDLRVEEINDDNHAEGLIGYVRERNYKGMTLESVVELENGKMVMVSEFFNEDDPDFDHSLDQKMAINWVESWEVVLADEEHK" "i" "EcoCyc dump" -"POTB-MONOMER" "VIVTIVGWLVLFVFLPNLMIIGTSFLTRDDASFVKMVFTLDNYTRLLDPLYFEVLLHSLNMALIATLACLVLGYPFAWFLAKLPHKVRPLLLFLLIVPFWTNSLIRIYGLKIFLSTKGYLNEFLLWLGVIDTPIRIMFTPSAVIIGLVYILLPFMVMPLYSSIEKLDKPLLEAARDLGASKLQTFIRIIIPLTMPGIIAGCLLVMLPAMGLFYVSDLMGGAKNLLIGNVIKVQFLNIRDWPFGAATSITLTIVMGLMLLVYWRASRLLNKKVELE" "i" "Han et al., 2011" -"POTC-MONOMER" "MIGRLLRGGFMTAIYAYLYIPIIILIVNSFNSSRFGINWQGFTTKWYSLLMNNDSLLQAAQHSLTMAVFSATFATLIGSLTAVALYRYRFRGKPFVSGMLFVVMMSPDIVMAISLLVLFMLLGIQLGFWSLLFSHITFCLPFVVVTVYSRLKGFDVRMLEAAKDLGASEFTILRKIILPLAMPAVAAGWVLSFTLSMDDVVVSSFVTGPSYEILPLKIYSMVKVGVSPEVNALATILLVLSLVMVIASQLIARDKTKGNTGDVK" "i" "Han et al., 2011" -"POTD-MONOMER" "MKKWSRHLLAAGALALGMSAAHADDNNTLYFYNWTEYVPPGLLEQFTKETGIKVIYSTYESNETMYAKLKTYKDGAYDLVVPSTYYVDKMRKEGMIQKIDKSKLTNFSNLDPDMLNKPFDPNNDYSIPYIWGATAIGVNGDAVDPKSVTSWADLWKPEYKGSLLLTDDAREVFQMALRKLGYSGNTTDPKEIEAAYNELKKLMPNVAAFNSDNPANPYMEGEVNLGMIWNGSAFVARQAGTPIDVVWPKEGGIFWMDSLAIPANAKNKEGALKLINFLLRPDVAKQVAETIGYPTPNLAARKLLSPEVANDKTLYPDAETIKNGEWQNDVGAASSIYEEYYQKLKAGR" "p" "Lopez-Campistrous et al., 2005" -"POTE-MONOMER" "MSQAKSNKMGVVQLTILTMVNMMGSGIIMLPTKLAEVGTISIISWLVTAVGSMALAWAFAKCGMFSRKSGGMGGYAEYAFGKSGNFMANYTYGVSLLIANVAIAISAVGYGTELLGASLSPVQIGLATIGVLWICTVANFGGARITGQISSITVWGVIIPVVGLCIIGWFWFSPTLYVDSWNPHHAPFFSAVGSSIAMTLWAFLGLESACANTDVVENPERNVPIAVLGGTLGAAVIYIVSTNVIAGIVPNMELANSTAPFGLAFAQMFTPEVGKVIMALMVMSCCGSLLGWQFTIAQVFKSSSDEGYFPKIFSRVTKVDAPVQGMLTIVIIQSGLALMTISPSLNSQFNVLVNLAVVTNIIPYILSMAALVIIQKVANVPPSKAKVANFVAFVGAMYSFYALYSSGEEAMLYGSIVTFLGWTLYGLVSPRFELKNKHG" "i" "Han et al., 2011" -"POTF-MONOMER" "MTALNKKWLSGLVAGALMAVSVGTLAAEQKTLHIYNWSDYIAPDTVANFEKETGIKVVYDVFDSNEVLEGKLMAGSTGFDLVVPSASFLERQLTAGVFQPLDKSKLPEWKNLDPELLKLVAKHDPDNKFAMPYMWATTGIGYNVDKVKAVLGENAPVDSWDLILKPENLEKLKSCGVSFLDAPEEVFATVLNYLGKDPNSTKADDYTGPATDLLLKLRPNIRYFHSSQYINDLANGDICVAIGWAGDVWQASNRAKEAKNGVNVSFSIPKEGAMAFFDVFAMPADAKNKDEAYQFLNYLLRPDVVAHISDHVFYANANKAATPLVSAEVRENPGIYPPADVRAKLFTLKVQDPKIDRVRTRAWTKVKSGK" "i" "EcoCyc dump" -"POTG-MONOMER" "VNDAIPRPQAKTRKALTPLLEIRNLTKSYDGQHAVDDVSLTIYKGEIFALLGASGCGKSTLLRMLAGFEQPSAGQIMLDGVDLSQVPPYLRPINMMFQSYALFPHMTVEQNIAFGLKQDKLPKAEIASRVNEMLGLVHMQEFAKRKPHQLSGGQRQRVALARSLAKRPKLLLLDEPMGALDKKLRDRMQLEVVDILERVGVTCVMVTHDQEEAMTMAGRIAIMNRGKFVQIGEPEEIYEHPTTRYSAEFIGSVNVFEGVLKERQEDGLVLDSPGLVHPLKVDADASVVDNVPVHVALRPEKIMLCEEPPANGCNFAVGEVIHIAYLGDLSVYHVRLKSGQMISAQLQNAHRHRKGLPTWGDEVRLCWEVDSCVVLTV" "i" "EcoCyc dump" -"POTH-MONOMER" "MSTLEPAAQSKPPGGFKLWLSQLQMKHGRKLVIALPYIWLILLFLLPFLIVFKISLAEMARAIPPYTELMEWADGQLSITLNLGNFLQLTDDPLYFDAYLQSLQVAAISTFCCLLIGYPLAWAVAHSKPSTRNILLLLVILPSWTSFLIRVYAWMGILKNNGVLNNFLLWLGVIDQPLTILHTNLAVYIGIVYAYVPFMVLPIYTALIRIDYSLVEAALDLGARPLKTFFTVIVPLTKGGIIAGSMLVFIPAVGEFVIPELLGGPDSIMIGRVLWQEFFNNRDWPVASAVAIIMLLLLIVPIMWFHKHQQKSVGEHG" "i" "Han et al., 2011" -"POTI-MONOMER" "MNNLPVVRSPWRIVILLLGFTFLYAPMLMLVIYSFNSSKLVTVWAGWSTRWYGELLRDDAMMSAVGLSLTIAACAATAAAILGTIAAVVLVRFGRFRGSNGFAFMITAPLVMPDVITGLSLLLLFVALAHAIGWPADRGMLTIWLAHVTFCTAYVAVVISSRLRELDRSIEEAAMDLGATPLKVFFVITLPMIMPAIISGWLLAFTLSLDDLVIASFVSGPGATTLPMLVFSSVRMGVNPEINALATLILGAVGIVGFIAWYLMARAEKQRIRDIQRARRG" "i" "Han et al., 2011" -"PPENTOMUT-MONOMER" "MKRAFIMVLDSFGIGATEDAERFGDVGADTLGHIAEACAKGEADNGRKGPLNLPNLTRLGLAKAHEGSTGFIPAGMDGNAEVIGAYAWAHEMSSGKDTPSGHWEIAGVPVLFEWGYFSDHENSFPQELLDKLVERANLPGYLGNCHSSGTVILDQLGEEHMKTGKPIFYTSADSVFQIACHEETFGLDKLYELCEIAREELTNGGYNIGRVIARPFIGDKAGNFQRTGNRHDLAVEPPAPTVLQKLVDEKHGQVVSVGKIADIYANCGITKKVKATGLDALFDATIKEMKEAGDNTIVFTNFVDFDSSWGHRRDVAGYAAGLELFDRRLPELMSLLRDDDILILTADHGCDPTWTGTDHTREHIPVLVYGPKVKPGSLGHRETFADIGQTLAKYFGTSDMEYGKAMF" "c" "Han et al., 2011" -"PPK-MONOMER" "MGQEKLYIEKELSWLSFNERVLQEAADKSNPLIERMRFLGIYSNNLDEFYKVRFAELKRRIIISEEQGSNSHSRHLLGKIQSRVLKADQEFDGLYNELLLEMARNQIFLINERQLSVNQQNWLRHYFKQYLRQHITPILINPDTDLVQFLKDDYTYLAVEIIRGDTIRYALLEIPSDKVPRFVNLPPEAPRRRKPMILLDNILRYCLDDIFKGFFDYDALNAYSMKMTRDAEYDLVHEMEASLMELMSSSLKQRLTAEPVRFVYQRDMPNALVEVLREKLTISRYDSIVPGGRYHNFKDFINFPNVGKANLVNKPLPRLRHIWFDKAQFRNGFDAIRERDVLLYYPYHTFEHVLELLRQASFDPSVLAIKINIYRVAKDSRIIDSMIHAAHNGKKVTVVVELQARFDEEANIHWAKRLTEAGVHVIFSAPGLKIHAKLFLISRKENGEVVRYAHIGTGNFNEKTARLYTDYSLLTADARITNEVRRVFNFIENPYRPVTFDYLMVSPQNSRRLLYEMVDREIANAQQGLPSGITLKLNNLVDKGLVDRLYAASSSGVPVNLLVRGMCSLIPNLEGISDNIRAISIVDRYLEHDRVYIFENGGDKKVYLSSADWMTRNIDYRIEVATPLLDPRLKQRVLDIIDILFSDTVKARYIDKELSNRYVPRGNRRKVRAQLAIYDYIKSLEQPE" "s" "EcoCyc dump" -"PPPGPPHYDRO-MONOMER" "MGSTSSLYAAIDLGSNSFHMLVVREVAGSIQTLTRIKRKVRLAAGLNSENALSNEAMERGWQCLRLFAERLQDIPPSQIRVVATATLRLAVNAGDFIAKAQEILGCPVQVISGEEEARLIYQGVAHTTGGADQRLVVDIGGASTELVTGTGAQTTSLFSLSMGCVTWLERYFADRNLGQENFDAAEKAAREVLRPVADELRYHGWKVCVGASGTVQALQEIMMAQGMDERITLEKLQQLKQRAIHCGRLEELEIDGLTLERALVFPSGLAILIAIFTELNIQCMTLAGGALREGLVYGMLHLAVEQDIRSRTLRNIQRRFMIDIDQAQRVAKVAANFFDQVENEWHLEAISRDLLISACQLHEIGLSVDFKQAPQHAAYLVRNLDLPGFTPAQKKLLATLLLNQTNPVDLSSLHQQNAVPPRVAEQLCRLLRLAIIFASRRRDDLVPEMTLQANHELLTLTLPQGWLTQHPLGKEIIAQESQWQSYVHWPLEVH" "c" "Han et al., 2011" -"PPX-MONOMER" "MPIHDKSPRPQEFAAVDLGSNSFHMVIARVVDGAMQIIGRLKQRVHLADGLGPDNMLSEEAMTRGLNCLSLFAERLQGFSPASVCIVGTHTLRQALNATDFLKRAEKVIPYPIEIISGNEEARLIFMGVEHTQPEKGRKLVIDIGGGSTELVIGENFEPILVESRRMGCVSFAQLYFPGGVINKENFQRARMAAAQKLETLTWQFRIQGWNVAMGASGTIKAAHEVLMEMGEKDGIITPERLEKLVKEVLRHRNFASLSLPGLSEERKTVFVPGLAILCGVFDALAIRELRLSDGALREGVLYEMEGRFRHQDVRSRTASSLANQYHIDSEQARRVLDTTMQMYEQWREQQPKLAHPQLEALLRWAAMLHEVGLNINHSGLHRHSAYILQNSDLPGFNQEQQLMMATLVRYHRKAIKLDDLPRFTLFKKKQFLPLIQLLRLGVLLNNQRQATTTPPTLTLITDDSHWTLRFPHDWFSQNALVLLDLEKEQEYWEGVAGWRLKIEEESTPEIAA" "i" "EcoCyc dump" -"PRAI-IGPS" "MQTVLAKIVADKAIWVEARKQQQPLASFQNEVQPSTRHFYDALQGARTAFILECKKASPSKGVIRDDFDPARIAAIYKHYASAISVLTDEKYFQGSFNFLPIVSQIAPQPILCKDFIIDPYQIYLARYYQADACLLMLSVLDDDQYRQLAAVAHSLEMGVLTEVSNEEEQERAIALGAKVVGINNRDLRDLSIDLNRTRELAPKLGHNVTVISESGINTYAQVRELSHFANGFLIGSALMAHDDLHAAVRRVLLGENKVCGLTRGQDAKAAYDAGAIYGGLIFVATSPRCVNVEQAQEVMAAAPLQYVGVFRNHDIADVVDKAKVLSLAAVQLHGNEEQLYIDTLREALPAHVAIWKALSVGETLPAREFQHVDKYVLDNGQGGSGQRFDWSLLNGQSLGNVLLAGGLGADNCVEAAQTGCAGLDFNSAVESQPGIKDARLLASVFQTLRAY" "c" "Han et al., 2011" -"PRIBFAICARPISOM-MONOMER" "MIIPALDLIDGTVVRLHQGDYGKQRDYGNDPLPRLQDYAAQGAEVLHLVDLTGAKDPAKRQIPLIKTLVAGVNVPVQVGGGVRSEEDVAALLEAGVARVVVGSTAVKSQDMVKGWFERFGADALVLALDVRIDEQGNKQVAVSGWQENSGVSLEQLVETYLPVGLKHVLCTDISRDGTLAGSNVSLYEEVCARYPQVAFQSSGGIGDIDDVAALRGTGVRGVIVGRALLEGKFTVKEAIACWQNA" "c" "Lopez-Campistrous et al., 2005" -"PROP-MONOMER" "MLKRKKVKPITLRDVTIIDDGKLRKAITAASLGNAMEWFDFGVYGFVAYALGKVFFPGADPSVQMVAALATFSVPFLIRPLGGLFFGMLGDKYGRQKILAITIVIMSISTFCIGLIPSYDTIGIWAPILLLICKMAQGFSVGGEYTGASIFVAEYSPDRKRGFMGSWLDFGSIAGFVLGAGVVVLISTIVGEANFLDWGWRIPFFIALPLGIIGLYLRHALEETPAFQQHVDKLEQGDREGLQDGPKVSFKEIATKYWRSLLTCIGLVIATNVTYYMLLTYMPSYLSHNLHYSEDHGVLIIIAIMIGMLFVQPVMGLLSDRFGRRPFVLLGSVALFVLAIPAFILINSNVIGLIFAGLLMLAVILNCFTGVMASTLPAMFPTHIRYSALAAAFNISVLVAGLTPTLAAWLVESSQNLMMPAYYLMVVAVVGLITGVTMKETANRPLKGATPAASDIQEAKEILVEHYDNIEQKIDDIDHEIADLQAKRTRLVQQHPRIDE" "i" "Han et al., 2011" -"PROPKIN-MONOMER" "MRKEMNEFPVVLVINCGSSSIKFSVLDASDCEVLMSGIADGINSENAFLSVNGGEPAPLAHHSYEGALKAIAFELEKRNLNDSVALIGHRIAHGGSIFTESAIITDEVIDNIRRVSPLAPLHNYANLSGIESAQQLFPGVTQVAVFDTSFHQTMAPEAYLYGLPWKYYEELGVRRYGFHGTSHRYVSQRAHSLLNLAEDDSGLVVAHLGNGASICAVRNGQSVDTSMGMTPLEGLMMGTRSGDVDFGAMSWVASQTNQSLGDLERVVNKESGLLGISGLSSDLRVLEKAWHEGHERAQLAIKTFVHRIARHIAGHAASLRRLDGIIFTGGIGENSSLIRRLVMEHLAVLGLEIDTEMNNRSNSCGERIVSSENARVICAVIPTNEEKMIALDAIHLGKVNAPAEFA" "c" "Han et al., 2011" -"PROS-MONOMER" "MRTSQYLLSTLKETPADAEVISHQLMLRAGMIRKLASGLYTWLPTGVRVLKKVENIVREEMNNAGAIEVSMPVVQPADLWQESGRWEQYGPELLRFVDRGERPFVLGPTHEEVITDLIRNELSSYKQLPLNFYQIQTKFRDEVRPRFGVMRSREFLMKDAYSFHTSQESLQETYDAMYAAYSKIFSRMGLDFRAVQADTGSIGGSASHEFQVLAQSGEDDVVFSDTSDYAANIELAEAIAPKEPRAAATQEMTLVDTPNAKTIAELVEQFNLPIEKTVKTLLVKAVEGSSFPQVALLVRGDHELNEVKAEKLPQVASPLTFATEEEIRAVVKAGPGSLGPVNMPIPVVIDRTVAAMSDFAAGANIDGKHYFGINWDRDVATPEVADIRNVVAGDPSPDGQGRLLIKRGIEVGHIFQLGTKYSEALKASVQGEDGRNQILTMGCYGIGVTRVVAAAIEQNYDERGIVWPDAIAPFQVAILPMNMHKSFRVQELAEKLYSELRAQGIEVLLDDRKERPGVMFADMELIGIPHTIVLGDRNLDNDDIEYKYRRNGEKQLIKTGDIVEYLVKQIKG" "c" "Lopez-Campistrous et al., 2005" -"PROTEIN-CHEA" "VSMDISDFYQTFFDEADELLADMEQHLLVLQPEAPDAEQLNAIFRAAHSIKGGAGTFGFSVLQETTHLMENLLDEARRGEMQLNTDIINLFLETKDIMQEQLDAYKQSQEPDAASFDYICQALRQLALEAKGETPSAVTRLSVVAKSEPQDEQSRSQSPRRIILSRLKAGEVDLLEEELGHLTTLTDVVKGADSLSAILPGDIAEDDITAVLCFVIEADQITFETVEVSPKISTPPVLKLAAEQAPTGRVEREKTTRSNESTSIRVAVEKVDQLINLVGELVITQSMLAQRSSELDPVNHGDLITSMGQLQRNARDLQESVMSIRMMPMEYVFSRYPRLVRDLAGKLGKQVELTLVGSSTELDKSLIERIIDPLTHLVRNSLDHGIELPEKRLAAGKNSVGNLILSAEHQGGNICIEVTDDGAGLNRERILAKAASQGLTVSENMSDDEVAMLIFAPGFSTAEQVTDVSGRGVGMDVVKRNIQKMGGHVEIQSKQGTGTTIRILLPLTLAILDGMSVRVADEVFILPLNAVMESLQPREADLHPLAGGERVLEVRGEYLPIVELWKVFNVAGAKTEATQGIVVILQSGGRRYALLVDQLIGQHQVVVKNLESNYRKVPGISAATILGDGSVALIVDVSALQAINREQRMANTAA" "i" "EcoCyc dump" -"PROTEIN-NRI" "MQRGIVWVVDDDSSIRWVLERALAGAGLTCTTFENGAEVLEALASKTPDVLLSDIRMPGMDGLALLKQIKQRHPMLPVIIMTAHSDLDAAVSAYQQGAFDYLPKPFDIDEAVALVERAISHYQEQQQPRNVQLNGPTTDIIGEAPAMQDVFRIIGRLSRSSISVLINGESGTGKELVAHALHRHSPRAKAPFIALNMAAIPKDLIESELFGHEKGAFTGANTIRQGRFEQADGGTLFLDEIGDMPLDVQTRLLRVLADGQFYRVGGYAPVKVDVRIIAATHQNLEQRVQEGKFREDLFHRLNVIRVHLPPLRERREDIPRLARHFLQVAARELGVEAKLLHPETEAALTRLAWPGNVRQLENTCRWLTVMAAGQEVLIQDLPGELFESTVAESTSQMQPDSWATLLAQWADRALRSGHQNLLSEAQPELERTLLTTALRHTQGHKQEAARLLGWGRNTLTRKLKELGME" "c" "Han et al., 2011" -"PROTEIN-NRII" "MATGTQPDAGQILNSLINSILLIDDNLAIHYANPAAQQLLAQSSRKLFGTPLPELLSYFSLNIELMQESLEAGQGFTDNEVTLVIDGRSHILSVTAQRMPDGMILLEMAPMDNQRRLSQEQLQHAQQVAARDLVRGLAHEIKNPLGGLRGAAQLLSKALPDPSLLEYTKVIIEQADRLRNLVDRLLGPQLPGTRVTESIHKVAERVVTLVSMELPDNVRLIRDYDPSLPELAHDPDQIEQVLLNIVRNALQALGPEGGEIILRTRTAFQLTLHGERYRLAARIDVEDNGPGIPPHLQDTLFYPMVSGREGGTGLGLSIARNLIDQHSGKIEFTSWPGHTEFSVYLPIRK" "i" "Han et al., 2011" -"PROTEIN-PII" "MKKIDAIIKPFKLDDVREALAEVGITGMTVTEVKGFGRQKGHTELYRGAEYMVDFLPKVKIEIVVPDDIVDTCVDTIIRTAQTGKIGDGKIFVFDVARVIRIRTGEEDDAAI" "c" "Lopez-Campistrous et al., 2005" -"PROTEIN-PII2" "MKLVTVIIKPFKLEDVREALSSIGIQGLTVTEVKGFGRQKGHAELYRGAEYSVNFLPKVKIDVAIADDQLDEVIDIVSKAAYTGKIGDGKIFVAELQRVIRIRTGEADEAAL" "c" "EcoCyc dump" -"PROTOHEME-FERROCHELAT-MONOMER" "MRQTKTGILLANLGTPDAPTPEAVKRYLKQFLSDRRVVDTSRLLWWPLLRGVILPLRSPRVAKLYASVWMEGGSPLMVYSRQQQQALAQRLPEMPVALGMSYGSPSLESAVDELLAEHVDHIVVLPLYPQFSCSTVGAVWDELARILARKRSIPGISFIRDYADNHDYINALANSVRASFAKHGEPDLLLLSYHGIPQRYADEGDDYPQRCRTTTRELASALGMAPEKVMMTFQSRFGREPWLMPYTDETLKMLGEKGVGHIQVMCPGFAADCLETLEEIAEQNREVFLGAGGKKYEYIPALNATPEHIEMMANLVAAYR" "c" "Han et al., 2011" -"PROTOPORGENOXI-MONOMER" "VKTLILFSTRDGQTREIASYLASELKELGIQADVANVHRIEEPQWENYDRVVIGASIRYGHYHSAFQEFVKKHATRLNSMPSAFYSVNLVARKPEKRTPQTNSYARKFLMNSQWRPDRCAVIAGALRYPRYRWYDRFMIKLIMKMSGGETDTRKEVVYTDWEQVANFAREIAHLTDKPTLK" "c" "Han et al., 2011" -"PROV-MONOMER" "MAIKLEIKNLYKIFGEHPQRAFKYIEQGLSKEQILEKTGLSLGVKDASLAIEEGEIFVIMGLSGSGKSTMVRLLNRLIEPTRGQVLIDGVDIAKISDAELREVRRKKIAMVFQSFALMPHMTVLDNTAFGMELAGINAEERREKALDALRQVGLENYAHSYPDELSGGMRQRVGLARALAINPDILLMDEAFSALDPLIRTEMQDELVKLQAKHQRTIVFISHDLDEAMRIGDRIAIMQNGEVVQVGTPDEILNNPANDYVRTFFRGVDISQVFSAKDIARRTPNGLIRKTPGFGPRSALKLLQDEDREYGYVIERGNKFVGAVSIDSLKTALTQQQGLDAALIDAPLAVDAQTPLSELLSHVGQAPCAVPVVDEDQQYVGIISKGMLLRALDREGVNNG" "i" "EcoCyc dump" -"PROW-MONOMER" "MADQNNPWDTTPAADSAAQSADAWGTPTTAPTDGGGADWLTSTPAPNVEHFNILDPFHKTLIPLDSWVTEGIDWVVTHFRPVFQGVRVPVDYILNGFQQLLLGMPAPVAIIVFALIAWQISGVGMGVATLVSLIAIGAIGAWSQAMVTLALVLTALLFCIVIGLPLGIWLARSPRAAKIIRPLLDAMQTTPAFVYLVPIVMLFGIGNVPGVVVTIIFALPPIIRLTILGINQVPADLIEASRSFGASPRQMLFKVQLPLAMPTIMAGVNQTLMLALSMVVIASMIAVGGLGQMVLRGIGRLDMGLATVGGVGIVILAIILDRLTQAVGRDSRSRGNRRWYTTGPVGLLTRPFIK" "i" "Han et al., 2011" -"PROX-MONOMER" "MRHSVLFATAFATLISTQTFAADLPGKGITVNPVQSTITEETFQTLLVSRALEKLGYTVNKPSEVDYNVGYTSLASGDATFTAVNWTPLHDNMYEAAGGDKKFYREGVFVNGAAQGYLIDKKTADQYKITNIAQLKDPKIAKLFDTNGDGKADLTGCNPGWGCEGAINHQLAAYELTNTVTHNQGNYAAMMADTISRYKEGKPVFYYTWTPYWVSNELKPGKDVVWLQVPFSALPGDKNADTKLPNGANYGFPVSTMHIVANKAWAEKNPAAAKLFAIMQLPVADINAQNAIMHDGKASEGDIQGHVDGWIKAHQQQFDGWVNEALAAQK" "p" "Han et al., 2011" -"PROY-MONOMER" "MESKNKLKRGLSTRHIRFMALGSAIGTGLFYGSADAIKMAGPSVLLAYIIGGIAAYIIMRALGEMSVHNPAASSFSRYAQENLGPLAGYITGWTYCFEILIVAIADVTAFGIYMGVWFPTVPHWIWVLSVVLIICAVNLMSVKVFGELEFWFSFFKVATIIIMIVAGFGIIIWGIGNGGQPTGIHNLWSNGGFFSNGWLGMVMSLQMVMFAYGGIEIIGITAGEAKDPEKSIPRAINSVPMRILVFYVGTLFVIMSIYPWNQVGTAGSPFVLTFQHMGITFAASILNFVVLTASLSAINSDVFGVGRMLHGMAEQGSAPKIFSKTSRRGIPWVTVLVMTTALLFAVYLNYIMPENVFLVIASLATFATVWVWIMILLSQIAFRRRLPPEEVKALKFKVPGGVATTIGGLIFLLFIIGLIGYHPDTRISLYVGFAWIVVLLIGWMFKRRHDRQLAENQ" "i" "Han et al., 2011" -"PRPPAMIDOTRANS-MONOMER" "MCGIVGIAGVMPVNQSIYDALTVLQHRGQDAAGIITIDANNCFRLRKANGLVSDVFEARHMQRLQGNMGIGHVRYPTAGSSSASEAQPFYVNSPYGITLAHNGNLTNAHELRKKLFEEKRRHINTTSDSEILLNIFASELDNFRHYPLEADNIFAAIAATNRLIRGAYACVAMIIGHGMVAFRDPNGIRPLVLGKRDIDENRTEYMVASESVALDTLGFDFLRDVAPGEAIYITEEGQLFTRQCADNPVSNPCLFEYVYFARPDSFIDKISVYSARVNMGTKLGEKIAREWEDLDIDVVIPIPETSCDIALEIARILGKPYRQGFVKNRYVGRTFIMPGQQLRRKSVRRKLNANRAEFRDKNVLLVDDSIVRGTTSEQIIEMAREAGAKKVYLASAAPEIRFPNVYGIDMPSATELIAHGREVDEIRQIIGADGLIFQDLNDLIDAVRAENPDIQQFECSVFNGVYVTKDVDQGYLDFLDTLRNDDAKAVQRQNEVENLEMHNEG" "c" "Han et al., 2011" -"PRPPSYN-MONOMER" "VPDMKLFAGNATPELAQRIANRLYTSLGDAAVGRFSDGEVSVQINENVRGGDIFIIQSTCAPTNDNLMELVVMVDALRRASAGRITAVIPYFGYARQDRRVRSARVPITAKVVADFLSSVGVDRVLTVDLHAEQIQGFFDVPVDNVFGSPILLEDMLQLNLDNPIVVSPDIGGVVRARAIAKLLNDTDMAIIDKRRPRANVSQVMHIIGDVAGRDCVLVDDMIDTGGTLCKAAEALKERGAKRVFAYATHPIFSGNAANNLRNSVIDEVVVCDTIPLSDEIKSLPNVRTLTLSGMLAEAIRRISNEESISAMFEH" "c" "Lopez-Campistrous et al., 2005" -"PSD-MONOMER" "LLNSFKLSLQYILPKLWLTRLAGWGASKRAGWLTKLVIDLFVKYYKVDMKEAQKPDTASYRTFNEFFVRPLRDEVRPIDTDPNVLVMPADGVISQLGKIEEDKILQAKGHNYSLEALLAGNYLMADLFRNGTFVTTYLSPRDYHRVHMPCNGILREMIYVPGDLFSVNHLTAQNVPNLFARNERVICLFDTEFGPMAQILVGATIVGSIETVWAGTITPPREGIIKRWTWPAGENDGSVALLKGQEMGRFKLGSTVINLFAPGKVNLVEQLESLSVTKIGQPLAVSTETFVTPDAEPAPLPAEEIEAEHDASPLVDDKKDQV" "c" "Han et al., 2011" -"PSERPHOSPHA-MONOMER" "MPNITWCDLPEDVSLWPGLPLSLSGDEVMPLDYHAGRSGWLLYGRGLDKQRLTQYQSKLGAAMVIVAAWCVEDYQVIRLAGSLTARATRLAHEAQLDVAPLGKIPHLRTPGLLVMDMDSTAIQIECIDEIAKLAGTGEMVAEVTERAMRGELDFTASLRSRVATLKGADANILQQVRENLPLMPGLTQLVLKLETLGWKVAIASGGFTFFAEYLRDKLRLTAVVANELEIMDGKFTGNVIGDIVDAQYKAKTLTRLAQEYEIPLAQTVAIGDGANDLPMIKAAGLGIAYHAKPKVNEKAEVTIRHADLMGVFCILSGSLNQK" "c" "Han et al., 2011" -"PSERTRANSAM-MONOMER" "MAQIFNFSSGPAMLPAEVLKQAQQELRDWNGLGTSVMEVSHRGKEFIQVAEEAEKDFRDLLNVPSNYKVLFCHGGGRGQFAAVPLNILGDKTTADYVDAGYWAASAIKEAKKYCTPNVFDAKVTVDGLRAVKPMREWQLSDNAAYMHYCPNETIDGIAIDETPDFGADVVVAADFSSTILSRPIDVSRYGVIYAGAQKNIGPAGLTIVIVREDLLGKANIACPSILDYSILNDNGSMFNTPPTFAWYLSGLVFKWLKANGGVAEMDKINQQKAELLYGVIDNSDFYRNDVAKANRSRMNVPFQLADSALDKLFLEESFAAGLHALKGHRVVGGMRASIYNAMPLEGVKALTDFMVEFERRHG" "c" "Lopez-Campistrous et al., 2005" -"PSTA-MONOMER" "MAMVEMQTTAALAESRRKMQARRRLKNRIALTLSMATMAFGLFWLIWILMSTITRGIDGMSLALFTEMTPPPNTEGGGLANALAGSGLLILWATVFGTPLGIMAGIYLAEYGRKSWLAEVIRFINDILLSAPSIVVGLFVYTIVVAQMEHFSGWAGVIALALLQVPIVIRTTENMLKLVPYSLREAAYALGTPKWKMISAITLKASVSGIMTGILLAIARIAGETAPLLFTALSNQFWSTDMMQPIANLPVTIFKFAMSPFAEWQQLAWAGVLIITLCVLLLNILARVVFAKNKHG" "i" "Han et al., 2011" -"PSTB-MONOMER" "MSMVETAPSKIQVRNLNFYYGKFHALKNINLDIAKNQVTAFIGPSGCGKSTLLRTFNKMFELYPEQRAEGEILLDGDNILTNSQDIALLRAKVGMVFQKPTPFPMSIYDNIAFGVRLFEKLSRADMDERVQWALTKAALWNETKDKLHQSGYSLSGGQQQRLCIARGIAIRPEVLLLDEPCSALDPISTGRIEELITELKQDYTVVIVTHNMQQAARCSDHTAFMYLGELIEFSNTDDLFTKPAKKQTEDYITGRYG" "i" "Han et al., 2011" -"PSTC-MONOMER" "MAATKPAFNPPGKKGDIIFSVLVKLAALIVLLMLGGIIVSLIISSWPSIQKFGLAFLWTKEWDAPNDIYGALVPIYGTLVTSFIALLIAVPVSFGIALFLTELAPGWLKRPLGIAIELLAAIPSIVYGMWGLFIFAPLFAVYFQEPVGNIMSNIPIVGALFSGPAFGIGILAAGVILAIMIIPYIAAVMRDVFEQTPVMMKESAYGIGCTTWEVIWRIVLPFTKNGVIGGIMLGLGRALGETMAVTFIIGNTYQLDSASLYMPGNSITSALANEFAEAESGLHVAALMELGLILFVITFIVLAASKFMIMRLAKNEGAR" "i" "Han et al., 2011" -"PSTS-MONOMER" "MKVMRTTVATVVAATLSMSAFSVFAEASLTGAGATFPAPVYAKWADTYQKETGNKVNYQGIGSSGGVKQIIANTVDFGASDAPLSDEKLAQEGLFQFPTVIGGVVLAVNIPGLKSGELVLDGKTLGDIYLGKIKKWDDEAIAKLNPGLKLPSQNIAVVRRADGSGTSFVFTSYLAKVNEEWKNNVGTGSTVKWPIGLGGKGNDGIAAFVQRLPGAIGYVEYAYAKQNNLAYTKLISADGKPVSPTEENFANAAKGADWSKTFAQDLTNQKGEDAWPITSTTFILIHKDQKKPEQGTEVLKFFDWAYKTGAKQANDLDYASLPDSVVEQVRAAWKTNIKDSSGKPLY" "i" "EcoCyc dump" -"PTSG-MONOMER" "MFKNAFANLQKVGKSLMLPVSVLPIAGILLGVGSANFSWLPAVVSHVMAEAGGSVFANMPLIFAIGVALGFTNNDGVSALAAVVAYGIMVKTMAVVAPLVLHLPAEEIASKHLADTGVLGGIISGAIAAYMFNRFYRIKLPEYLGFFAGKRFVPIISGLAAIFTGVVLSFIWPPIGSAIQTFSQWAAYQNPVVAFGIYGFIERCLVPFGLHHIWNVPFQMQIGEYTNAAGQVFHGDIPRYMAGDPTAGKLSGGFLFKMYGLPAAAIAIWHSAKPENRAKVGGIMISAALTSFLTGITEPIEFSFMFVAPILYIIHAILAGLAFPICILLGMRDGTSFSHGLIDFIVLSGNSSKLWLFPIVGIGYAIVYYTIFRVLIKALDLKTPGREDATEDAKATGTSEMAPALVAAFGGKENITNLDACITRLRVSVADVSKVDQAGLKKLGAAGVVVAGSGVQAIFGTKSDNLKTEMDEYIRNH" "i" "Han et al., 2011" -"PTSH-MONOMER" "MFQQEVTITAPNGLHTRPAAQFVKEAKGFTSEITVTSNGKSASAKSLFKLQTLGLTQGTVVTISAEGEDEQKAVEHLVKLMAELE" "c" "Han et al., 2011" -"PTSI-MONOMER" "MISGILASPGIAFGKALLLKEDEIVIDRKKISADQVDQEVERFLSGRAKASAQLETIKTKAGETFGEEKEAIFEGHIMLLEDEELEQEIIALIKDKHMTADAAAHEVIEGQASALEELDDEYLKERAADVRDIGKRLLRNILGLKIIDLSAIQDEVILVAADLTPSETAQLNLKKVLGFITDAGGRTSHTSIMARSLELPAIVGTGSVTSQVKNDDYLILDAVNNQVYVNPTNEVIDKMRAVQEQVASEKAELAKLKDLPAITLDGHQVEVCANIGTVRDVEGAERNGAEGVGLYRTEFLFMDRDALPTEEEQFAAYKAVAEACGSQAVIVRTMDIGGDKELPYMNFPKEENPFLGWRAIRIAMDRREILRDQLRAILRASAFGKLRIMFPMIISVEEVRALRKEIEIYKQELRDEGKAFDESIEIGVMVETPAAATIARHLAKEVDFFSIGTNDLTQYTLAVDRGNDMISHLYQPMSPSVLNLIKQVIDASHAEGKWTGMCGELAGDERATLLLLGMGLDEFSMSAISIPRIKKIIRNTNFEDAKVLAEQALAQPTTDELMTLVNKFIEEKTIC" "c" "Lopez-Campistrous et al., 2005" -"PURE-MONOMER" "MSSRNNPARVAIVMGSKSDWATMQFAAEIFEILNVPHHVEVVSAHRTPDKLFSFAESAEENGYQVIIAGAGGAAHLPGMIAAKTLVPVLGVPVQSAALSGVDSLYSIVQMPRGIPVGTLAIGKAGAANAALLAAQILATHDKELHQRLNDWRKAQTDEVLENPDPRGAA" "c" "Lopez-Campistrous et al., 2005" -"PURK-MONOMER" "MKQVCVLGNGQLGRMLRQAGEPLGIAVWPVGLDAEPAAVPFQQSVITAEIERWPETALTRELARHPAFVNRDVFPIIADRLTQKQLFDKLHLPTAPWQLLAERSEWPAVFDRLGELAIVKRRTGGYDGRGQWRLRANETEQLPAECYGECIVEQGINFSGEVSLVGARGFDGSTVFYPLTHNLHQDGILRTSVAFPQANAQQQAQAEEMLSAIMQELGYVGVMAMECFVTPQGLLINELAPRVHNSGHWTQNGASISQFELHLRAITDLPLPQPVVNNPSVMINLIGSDVNYDWLKLPLVHLHWYDKEVRPGRKVGHLNLTDSDTSRLTATLEALIPLLPPEYASGVIWAQSKFG" "c" "Han et al., 2011" -"PUTA-MONOMER" "MGTTTMGVKLDDATRERIKSAATRIDRTPHWLIKQAIFSYLEQLENSDTLPELPALLSGAANESDEAPTPAEEPHQPFLDFAEQILPQSVSRAAITAAYRRPETEAVSMLLEQARLPQPVAEQAHKLAYQLADKLRNQKNASGRAGMVQGLLQEFSLSSQEGVALMCLAEALLRIPDKATRDALIRDKISNGNWQSHIGRSPSLFVNAATWGLLFTGKLVSTHNEASLSRSLNRIIGKSGEPLIRKGVDMAMRLMGEQFVTGETIAEALANARKLEEKGFRYSYDMLGEAALTAADAQAYMVSYQQAIHAIGKASNGRGIYEGPGISIKLSALHPRYSRAQYDRVMEELYPRLKSLTLLARQYDIGINIDAEESDRLEISLDLLEKLCFEPELAGWNGIGFVIQAYQKRCPLVIDYLIDLATRSRRRLMIRLVKGAYWDSEIKRAQMDGLEGYPVYTRKVYTDVSYLACAKKLLAVPNLIYPQFATHNAHTLAAIYQLAGQNYYPGQYEFQCLHGMGEPLYEQVTGKVADGKLNRPCRIYAPVGTHETLLAYLVRRLLENGANTSFVNRIADTSLPLDELVADPVTAVEKLAQQEGQTGLPHPKIPLPRDLYGHGRDNSAGLDLANEHRLASLSSALLNSALQKWQALPMLEQPVAAGEMSPVINPAEPKDIVGYVREATPREVEQALESAVNNAPIWFATPPAERAAILHRAAVLMESQMQQLIGILVREAGKTFSNAIAEVREAVDFLHYYAGQVRDDFANETHRPLGPVVCISPWNFPLAIFTGQIAAALAAGNSVLAKPAEQTPLIAAQGIAILLEAGVPPGVVQLLPGRGETVGAQLTGDDRVRGVMFTGSTEVATLLQRNIASRLDAQGRPIPLIAETGGMNAMIVDSSALTEQVVVDVLASAFDSAGQRCSALRVLCLQDEIADHTLKMLRGAMAECRMGNPGRLTTDIGPVIDSEAKANIERHIQTMRSKGRPVFQAVRENSEDAREWQSGTFVAPTLIELDDFAELQKEVFGPVLHVVRYNRNQLPELIEQINASGYGLTLGVHTRIDETIAQVTGSAHVGNLYVNRNMVGAVVGVQPFGGEGLSGTGPKAGGPLYLYRLLANRPESALAVTLARQDAKYPVDAQLKAALTQPLNALREWAANRPELQALCTQYGELAQAGTQRLLPGPTGERNTWTLLPRERVLCIADDEQDALTQLAAVLAVGSQVLWPDDALHRQLVKALPSAVSERIQLAKAENITAQPFDAVIFHGDSDQLRALCEAVAARDGTIVSVQGFARGESNILLERLYIERSLSVNTAAAGGNASLMTIG" "c" "EcoCyc dump" -"PUTP-MONOMER" "MAISTPMLVTFCVYIFGMILIGFIAWRSTKNFDDYILGGRSLGPFVTALSAGASDMSGWLLMGLPGAVFLSGISESWIAIGLTLGAWINWKLVAGRLRVHTEYNNNALTLPDYFTGRFEDKSRILRIISALVILLFFTIYCASGIVAGARLFESTFGMSYETALWAGAAATILYTFIGGFLAVSWTDTVQASLMIFALILTPVIVIISVGGFGDSLEVIKQKSIENVDMLKGLNFVAIISLMGWGLGYFGQPHILARFMAADSHHSIVHARRISMTWMILCLAGAVAVGFFGIAYFNDHPALAGAVNQNAERVFIELAQILFNPWIAGILLSAILAAVMSTLSCQLLVCSSAITEDLYKAFLRKHASQKELVWVGRVMVLVVALVAIALAANPENRVLGLVSYAWAGFGAAFGPVVLFSVMWSRMTRNGALAGMIIGALTVIVWKQFGWLGLYEIIPGFIFGSIGIVVFSLLGKAPSAAMQKRFAEADAHYHSAPPSRLQES" "i" "Han et al., 2011" -"PYRROLINECARBREDUCT-MONOMER" "MEKKIGFIGCGNMGKAILGGLIASGQVLPGQIWVYTPSPDKVAALHDQFGINAAESAQEVAQIADIIFAAVKPGIMIKVLSEITSSLNKDSLVVSIAAGVTLDQLARALGHDRKIIRAMPNTPALVNAGMTSVTPNALVTPEDTADVLNIFRCFGEAEVIAEPMIHPVVGVSGSSPAYVFMFIEAMADAAVLGGMPRAQAYKFAAQAVMGSAKMVLETGEHPGALKDMVCSPGGTTIEAVRVLEEKGFRAAVIEAMTKCMEKSEKLSKS" "c" "Han et al., 2011" -"PYRUVFORMLY-MONOMER" "MSELNEKLATAWEGFTKGDWQNEVNVRDFIQKNYTPYEGDESFLAGATEATTTLWDKVMEGVKLENRTHAPVDFDTAVASTITSHDAGYINKQLEKIVGLQTEAPLKRALIPFGGIKMIEGSCKAYNRELDPMIKKIFTEYRKTHNQGVFDVYTPDILRCRKSGVLTGLPDAYGRGRIIGDYRRVALYGIDYLMKDKLAQFTSLQADLENGVNLEQTIRLREEIAEQHRALGQMKEMAAKYGYDISGPATNAQEAIQWTYFGYLAAVKSQNGAAMSFGRTSTFLDVYIERDLKAGKITEQEAQEMVDHLVMKLRMVRFLRTPEYDELFSGDPIWATESIGGMGLDGRTLVTKNSFRFLNTLYTMGPSPEPNMTILWSEKLPLNFKKFAAKVSIDTSSLQYENDDLMRPDFNNDDYAIACCVSPMIVGKQMQFFGARANLAKTMLYAINGGVDEKLKMQVGPKSEPIKGDVLNYDEVMERMDHFMDWLAKQYITALNIIHYMHDKYSYEASLMALHDRDVIRTMACGIAGLSVAADSLSAIKYAKVKPIRDEDGLAIDFEIEGEYPQFGNNDPRVDDLAVDLVERFMKKIQKLHTYRDAIPTQSVLTITSNVVYGKKTGNTPDGRRAGAPFGPGANPMHGRDQKGAVASLTSVAKLPFAYAKDGISYTFSIVPNALGKDDEVRKTNLAGLMDGYFHHEASIEGGQHLNVNVMNREMLLDAMENPEKYPQLTIRVSGYAVRFNSLTKEQQQDVITRTFTQSM" "c" "Lopez-Campistrous et al., 2005" -"PYRUVOXID-MONOMER" "MKQTVAAYIAKTLESAGVKRIWGVTGDSLNGLSDSLNRMGTIEWMSTRHEEVAAFAAGAEAQLSGELAVCAGSCGPGNLHLINGLFDCHRNHVPVLAIAAHIPSSEIGSGYFQETHPQELFRECSHYCELVSSPEQIPQVLAIAMRKAVLNRGVSVVVLPGDVALKPAPEGATMHWYHAPQPVVTPEEEELRKLAQLLRYSSNIALMCGSGCAGAHKELVEFAGKIKAPIVHALRGKEHVEYDNPYDVGMTGLIGFSSGFHTMMNADTLVLLGTQFPYRAFYPTDAKIIQIDINPASIGAHSKVDMALVGDIKSTLRALLPLVEEKADRKFLDKALEDYRDARKGLDDLAKPSEKAIHPQYLAQQISHFAADDAIFTCDVGTPTVWAARYLKMNGKRRLLGSFNHGSMANAMPQALGAQATEPERQVVAMCGDGGFSMLMGDFLSVVQMKLPVKIVVFNNSVLGFVAMEMKAGGYLTDGTELHDTNFARIAEACGITGIRVEKASEVDEALQRAFSIDGPVLVDVVVAKEELAIPPQIKLEQAKGFSLYMLRAIISGRGDEVIELAKTNWLR" "i" "EcoCyc dump" -"QOR-MONOMER" "MATRIEFHKHGGPEVLQAVEFTPADPAENEIQVENKAIGINFIDTYIRSGLYPPPSLPSGLGTEAAGIVSKVGSGVKHIKAGDRVVYAQSALGAYSSVHNIIADKAAILPAAISFEQAAASFLKGLTVYYLLRKTYEIKPDEQFLFHAAAGGVGLIACQWAKALGAKLIGTVGTAQKAQSALKAGAWQVINYREEDLVERLKEITGGKKVRVVYDSVGRDTWERSLDCLQRRGLMVSFGNSSGAVTGVNLGILNQKGSLYVTRPSLQGYITTREELTEASNELFSLIASGVIKVDVAEQQKYPLKDAQRAHEILESRATQGSSLLIP" "c" "Han et al., 2011" -"QUINOLINATE-SYNTHA-MONOMER" "MSVMFDPDTAIYPFPPKPTPLSIDEKAYYREKIKRLLKERNAVMVAHYYTDPEIQQLAEETGGCISDSLEMARFGAKHPASTLLVAGVRFMGETAKILSPEKTILMPTLQAECSLDLGCPVEEFNAFCDAHPDRTVVVYANTSAAVKARADWVVTSSIAVELIDHLDSLGEKIIWAPDKHLGRYVQKQTGGDILCWQGACIVHDEFKTQALTRLQEEYPDAAILVHPESPQAIVDMADAVGSTSQLIAAAKTLPHQRLIVATDRGIFYKMQQAVPDKELLEAPTAGEGATCRSCAHCPWMAMNGLQAIAEALEQEGSNHEVHVDERLRERALVPLNRMLDFAATLRG" "c" "Han et al., 2011" -"QUINOPRIBOTRANS-MONOMER" "MPPRRYNPDTRRDELLERINLDIPGAVAQALREDLGGTVDANNDITAKLLPENSRSHATVITRENGVFCGKRWVEEVFIQLAGDDVTIIWHVDDGDVINANQSLFELEGPSRVLLTGERTALNFVQTLSGVASKVRHYVELLEGTNTQLLDTRKTLPGLRSALKYAVLCGGGANHRLGLSDAFLIKENHIIASGSVRQAVEKASWLHPDAPVEVEVENLEELDEALKAGADIIMLDNFETEQMREAVKRTNGKALLEVSGNVTDKTLREFAETGVDFISVGALTKHVQALDLSMRFR" "c" "Han et al., 2011" -"RBSA-MONOMER" "MEALLQLKGIDKAFPGVKALSGAALNVYPGRVMALVGENGAGKSTMMKVLTGIYTRDAGTLLWLGKETTFTGPKSSQEAGIGIIHQELNLIPQLTIAENIFLGREFVNRFGKIDWKTMYAEADKLLAKLNLRFKSDKLVGDLSIGDQQMVEIAKVLSFESKVIIMDEPTDALTDTETESLFRVIRELKSQGRGIVYISHRMKEIFEICDDVTVFRDGQFIAEREVASLTEDSLIEMMVGRKLEDQYPHLDKAPGDIRLKVDNLCGPGVNDVSFTLRKGEILGVSGLMGAGRTELMKVLYGALPRTSGYVTLDGHEVVTRSPQDGLANGIVYISEDRKRDGLVLGMSVKENMSLTALRYFSRAGGSLKHADEQQAVSDFIRLFNVKTPSMEQAIGLLSGGNQQKVAIARGLMTRPKVLILDEPTRGVDVGAKKEIYQLINQFKADGLSIILVSSEMPEVLGMSDRIIVMHEGHLSGEFTREQATQEVLMAAAVGKLNRVNQE" "i" "Han et al., 2011" -"RBSB-MONOMER" "MNMKKLATLVSAVALSATVSANAMAKDTIALVVSTLNNPFFVSLKDGAQKEADKLGYNLVVLDSQNNPAKELANVQDLTVRGTKILLINPTDSDAVGNAVKMANQANIPVITLDRQATKGEVVSHIASDNVLGGKIAGDYIAKKAGEGAKVIELQGIAGTSAARERGEGFQQAVAAHKFNVLASQPADFDRIKGLNVMQNLLTAHPDVQAVFAQNDEMALGALRALQTAGKSDVMVVGFDGTPDGEKAVNDGKLAATIAQLPDQIGAKGVETADKVLKGEKVQAKYPVDLKLVVKQ" "i" "EcoCyc dump" -"RBSC-MONOMER" "MTTQTVSGRRYFTKAWLMEQKSLIALLVLIAIVSTLSPNFFTINNLFNILQQTSVNAIMAVGMTLVILTSGIDLSVGSLLALTGAVAASIVGIEVNALVAVAAALALGAAIGAVTGVIVAKGRVQAFIATLVMMLLLRGVTMVYTNGSPVNTGFTENADLFGWFGIGRPLGVPTPVWIMGIVFLAAWYMLHHTRLGRYIYALGGNEAATRLSGINVNKIKIIVYSLCGLLASLAGIIEVARLSSAQPTAGTGYELDAIAAVVLGGTSLAGGKGRIVGTLIGALILGFLNNGLNLLGVSSYYQMIVKAVVILLAVLVDNKKQ" "i" "Han et al., 2011" -"RCSB-MONOMER" "MNNMNVIIADDHPIVLFGIRKSLEQIEWVNVVGEFEDSTALINNLPKLDAHVLITDLSMPGDKYGDGITLIKYIKRHFPSLSIIVLTMNNNPAILSAVLDLDIEGIVLKQGAPTDLPKALAALQKGKKFTPESVSRLLEKISAGGYGDKRLSPKESEVLRLFAEGFLVTEIAKKLNRSIKTISSQKKSAMMKLGVENDIALLNYLSSVTLSPADKD" "c" "Unambiguous EcoCyc data" -"RCSC-MONOMER" "MFRALALVLWLLIAFSSVFYIVNALHQRESEIRQEFNLSSDQAQRFIQRTSDVMKELKYIAENRLSAENGVLSPRGRETQADVPAFEPLFADSDCSAMSNTWRGSLESLAWFMRYWRDNFSAAYDLNRVFLIGSDNLCMANFGLRDMPVERDTALKALHERINKYRNAPQDDSGSNLYWISEGPRPGVGYFYALTPVYLANRLQALLGVEQTIRMENFFLPGTLPMGVTILDENGHTLISLTGPESKIKGDPRWMQERSWFGYTEGFRELVLKKNLPPSSLSIVYSVPVDKVLERIRMLILNAILLNVLAGAALFTLARMYERRIFIPAESDALRLEEHEQFNRKIVASAPVGICILRTADGVNILSNELAHTYLNMLTHEDRQRLTQIICGQQVNFVDVLTSNNTNLQISFVHSRYRNENVAICVLVDVSSRVKMEESLQEMAQAAEQASQSKSMFLATVSHELRTPLYGIIGNLDLLQTKELPKGVDRLVTAMNNSSSLLLKIISDILDFSKIESEQLKIEPREFSPREVMNHITANYLPLVVRKQLGLYCFIEPDVPVALNGDPMRLQQVISNLLSNAIKFTDTGCIVLHVRADGDYLSIRVRDTGVGIPAKEVVRLFDPFFQVGTGVQRNFQGTGLGLAICEKLISMMDGDISVDSEPGMGSQFTVRIPLYGAQYPQKKGVEGLSGKRCWLAVRNASLCQFLETSLQRSGIVVTTYEGQEPTPEDVLITDEVVSKKWQGRAVVTFCRRHIGIPLEKAPGEWVHSVAAPHELPALLARIYLIEMESDDPANALPSTDKAVSDNDDMMILVVDDHPINRRLLADQLGSLGYQCKTANDGVDALNVLSKNHIDIVLSDVNMPNMDGYRLTQRIRQLGLTLPVIGVTANALAEEKQRCLESGMDSCLSKPVTLDVIKQTLTLYAERVRKSRDS" "i" "Han et al., 2011" -"RCSF-MONOMER" "MRALPICLVALMLSGCSMLSRSPVEPVQSTAPQPKAEPAKPKAPRATPVRIYTNAEELVGKPFRDLGEVSGDSCQASNQDSPPSIPTARKRMQINASKMKANAVLLHSCEVTSGTPGCYRQAVCIGSALNITAK" "i" "Han et al., 2011" -"RED-GLUTAREDOXIN" "MQTVIFGRSGCPYCVRAKDLAEKLSNERDDFQYQYVDIRAEGITKEDLQQKAGKPVETVPQIFVDQQHIGGYTDFAAWVKENLDA" "c" "Han et al., 2011" -"RED-THIOREDOXIN-MONOMER" "MSDKIIHLTDDSFDTDVLKADGAILVDFWAEWCGPCKMIAPILDEIADEYQGKLTVAKLNIDQNPGTAPKYGIRGIPTLLLFKNGEVAATKVGALSKGQLKEFLDANLA" "c" "Lopez-Campistrous et al., 2005" -"RED-THIOREDOXIN2-MONOMER" "MNTVCTHCQAINRIPDDRIEDAAKCGRCGHDLFDGEVINATGETLDKLLKDDLPVVIDFWAPWCGPCRNFAPIFEDVAQERSGKVRFVKVNTEAERELSSRFGIRSIPTIMIFKNGQVVDMLNGAVPKAPFDSWLNESL" "i" "Han et al., 2011" -"RELA-MONOMER" "MVAVRSAHINKAGEFDPEKWIASLGITSQKSCECLAETWAYCLQQTQGHPDASLLLWRGVEMVEILSTLSMDIDTLRAALLFPLADANVVSEDVLRESVGKSVVNLIHGVRDMAAIRQLKATHTDSVSSEQVDNVRRMLLAMVDDFRCVVIKLAERIAHLREVKDAPEDERVLAAKECTNIYAPLANRLGIGQLKWELEDYCFRYLHPTEYKRIAKLLHERRLDREHYIEEFVGHLRAEMKAEGVKAEVYGRPKHIYSIWRKMQKKNLAFDELFDVRAVRIVAERLQDCYAALGIVHTHYRHLPDEFDDYVANPKPNGYQSIHTVVLGPGGKTVEIQIRTKQMHEDAELGVAAHWKYKEGAAAGGARSGHEDRIAWLRKLIAWQEEMADSGEMLDEVRSQVFDDRVYVFTPKGDVVDLPAGSTPLDFAYHIHSDVGHRCIGAKIGGRIVPFTYQLQMGDQIEIITQKQPNPSRDWLNPNLGYVTTSRGRSKIHAWFRKQDRDKNILAGRQILDDELEHLGISLKEAEKHLLPRYNFNDVDELLAAIGGGDIRLNQMVNFLQSQFNKPSAEEQDAAALKQLQQKSYTPQNRSKDNGRVVVEGVGNLMHHIARCCQPIPGDEIVGFITQGRGISVHRADCEQLAELRSHAPERIVDAVWGESYSAGYSLVVRVVANDRSGLLRDITTILANEKVNVLGVASRSDTKQQLATIDMTIEIYNLQVLGRVLGKLNQVPDVIDARRLHGS" "c" "Han et al., 2011" -"RFBX-MONOMER" "MNTNKLSLRRNVIYLAVVQGSNYLLPLLTFPYLVRTLGPENFGIFGFCQATMLYMIMFVEYGFNLTATQSIAKAADSKDKVTSIFWAVIFSKIVLIVITLIFLTSMTLLVPEYNKHAVIIWSFVPALVGNLIYPIWLFQGKEKMKWLTLSSILSRLAIIPLTFIFVNTKSDIAIAGFIQSSANLVAGIIALAIVVHEGWIGKVTLSLHNVRRSLADGFHVFISTSAISLYSTGIVIILGFISGPTSVGNFNAANTIRNALQGLLNPITQAIYPRISSTLVLNRVKGVILIKKSLTCLSLIGGAFSLILLLGASILVKISIGPGYDNAVIVLMIISPLPFLISLSNVYGIQVMLTHNYKKEFSKILIAAGLLSLLLIFPLTTLFKEIGAAITLLATECLVTSLMLMFVRNNKLLVC" "i" "Han et al., 2011" -"RFFTRANS-MONOMER" "MIPFNAPPVVGTELDYMQSAMGSGKLCGDGGFTRRCQQWLEQRFGSAKVLLTPSCTASLEMAALLLDIQPGDEVIMPSYTFVSTANAFVLRGAKIVFVDVRPDTMNIDETLIEAAITDKTRVIVPVHYAGVACEMDTIMALAKKHNLFVVEDAAQGVMSTYKGRALGTIGHIGCFSFHETKNYTAGGEGGATLINDKALIERAEIIREKGTNRSQFFRGQVDKYTWRDIGSSYLMSDLQAAYLWAQLEAADRINQQRLALWQNYYDALAPLAKAGRIELPSIPDGCVQNAHMFYIKLRDIDDRSALINFLKEAEIMAVFHYIPLHGCPAGEHFGEFHGEDRYTTKESERLLRLPLFYNLSPVNQRTVIATLLNYFS" "c" "Han et al., 2011" -"RHAMNISOM-MONOMER" "MTTQLEQAWELAKQRFAAVGIDVEEALRQLDRLPVSMHCWQGDDVSGFENPEGSLTGGIQATGNYPGKARNASELRADLEQAMRLIPGPKRLNLHAIYLESDTPVSRDQIKPEHFKNWVEWAKANQLGLDFNPSCFSHPLSADGFTLSHADDSIRQFWIDHCKASRRVSAYFGEQLGTPSVMNIWIPDGMKDITVDRLAPRQRLLAALDEVISEKLNPAHHIDAVESKLFGIGAESYTVGSNEFYMGYATSRQTALCLDAGHFHPTEVISDKISAAMLYVPQLLLHVSRPVRWDSDHVVLLDDETQAIASEIVRHDLFDRVHIGLDFFDASINRIAAWVIGTRNMKKALLRALLEPTAELRKLEAAGDYTARLALLEEQKSLPWQAVWEMYCQRHDTPAGSEWLESVRAYEKEILSRRG" "c" "Han et al., 2011" -"RHAMNULOKIN-MONOMER" "MTFRNCVAVDLGASSGRVMLARYERECRSLTLREIHRFNNGLHSQNGYVTWDVDSLESAIRLGLNKVCEEGIRIDSIGIDTWGVDFVLLDQQGQRVGLPVAYRDSRTNGLMAQAQQQLGKRDIYQRSGIQFLPFNTLYQLRALTEQQPELIPHIAHALLMPDYFSYRLTGKMNWEYTNATTTQLVNINSDDWDESLLAWSGANKAWFGRPTHPGNVIGHWICPQGNEIPVVAVASHDTASAVIASPLNGSRAAYLSSGTWSLMGFESQTPFTNDTALAANITNEGGAEGRYRVLKNIMGLWLLQRVLQEQQINDLPALISATQALPACRFIINPNDDRFINPETMCSEIQAACRETAQPIPESDAELARCIFDSLALLYADVLHELAQLRGEDFSQLHIVGGGCQNTLLNQLCADACGIRVIAGPVEASTLGNIGIQLMTLDELNNVDDFRQVVSTTANLTTFTPNPDSEIAHYVAQIHSTRQTKELCA" "c" "Han et al., 2011" -"RHAMNULPALDOL-MONOMER" "MQNITQSWFVQGMIKATTDAWLKGWDERNGGNLTLRLDDADIAPYHDNFHQQPRYIPLSQPMPLLANTPFIVTGSGKFFRNVQLDPAANLGIVKVDSDGAGYHILWGLTNEAVPTSELPAHFLSHCERIKATNGKDRVIMHCHATNLIALTYVLENDTAVFTRQLWEGSTECLVVFPDGVGILPWMVPGTDEIGQATAQEMQKHSLVLWPFHGVFGSGPTLDETFGLIDTAEKSAQVLVKVYSMGGMKQTISREELIALGKRFGVTPLASALAL" "c" "Han et al., 2011" -"RHAT-MONOMER" "MSNAITMGIFWHLIGAASAACFYAPFKKVKKWSWETMWSVGGIVSWIILPWAISALLLPNFWAYYSSFSLSTRLPVFLFGAMWGIGNINYGLTMRYLGMSMGIGIAIGITLIVGTLMTPIINGNFDVLISTEGGRMTLLGVLVALIGVGIVTRAGQLKERKMGIKAEEFNLKKGLVLAVMCGIFSAGMSFAMNAAKPMHEAAAALGVDPLYVALPSYVVIMGGGAIINLGFCFIRLAKVKDLSLKADFSLAKSLIIHNVLLSTLGGLMWYLQFFFYAWGHARIPAQYDYISWMLHMSFYVLCGGIVGLVLKEWNNAGRRPVTVLSLGCVVIIVAANIVGIGMAN" "i" "Han et al., 2011" -"RHTB-MONOMER" "MTLEWWFAYLLTSIILSLSPGSGAINTMTTSLNHGYRGAVASIAGLQTGLAIHIVLVGVGLGTLFSRSVIAFEVLKWAGAAYLIWLGIQQWRAAGAIDLKSLASTQSRRHLFQRAVFVNLTNPKSIVFLAALFPQFIMPQQPQLMQYIVLGVTTIVVDIIVMIGYATLAQRIALWIKGPKQMKALNKIFGSLFMLVGALLASARHA" "i" "Han et al., 2011" -"RHTC-MONOMER" "MLMLFLTVAMVHIVALMSPGPDFFFVSQTAVSRSRKEAMMGVLGITCGVMVWAGIALLGLHLIIEKMAWLHTLIMVGGGLYLCWMGYQMLRGALKKEAVSAPAPQVELAKSGRSFLKGLLTNLANPKAIIYFGSVFSLFVGDNVGTTARWGIFALIIVETLAWFTVVASLFALPQMRRGYQRLAKWIDGFAGALFAGFGIHLIISR" "i" "Han et al., 2011" -"RIB5PISOMA-MONOMER" "MTQDELKKAVGWAALQYVQPGTIVGVGTGSTAAHFIDALGTMKGQIEGAVSSSDASTEKLKSLGIHVFDLNEVDSLGIYVDGADEINGHMQMIKGGGAALTREKIIASVAEKFICIADASKQVDILGKFPLPVEVIPMARSAVARQLVKLGGRPEYRQGVVTDNGNVILDVHGMEILDPIAMENAINAIPGVVTVGLFANRGADVALIGTPDGVKTIVK" "c" "Lopez-Campistrous et al., 2005" -"RIB5PISOMB-MONOMER" "MKKIAFGCDHVGFILKHEIVAHLVERGVEVIDKGTWSSERTDYPHYASQVALAVAGGEVDGGILICGTGVGISIAANKFAGIRAVVCSEPYSAQLSRQHNDTNVLAFGSRVVGLELAKMIVDAWLGAQYEGGRHQQRVEAITAIEQRRN" "c" "Han et al., 2011" -"RIBAZOLEPHOSPHAT-MONOMER" "MRLWLIRHGETQANIDGLYSGHAPTPLTARGIEQAQNLHTLLHGVSFDLVLCSELERAQHTARLVLSDRQLPVQIIPELNEMFFGDWEMRHHRDLMQEDAENYSAWCNDWQHAIPTNGEGFQAFSQRVERFIARLSEFQHYQNILVVSHQGVLSLLIARLIGMPAEAMWHFRVDQGCWSAIDINQKFATLRVLNSRAIGVENA" "c" "Han et al., 2011" -"RIBF-MONOMER" "MKLIRGIHNLSQAPQEGCVLTIGNFDGVHRGHRALLQGLQEEGRKRNLPVMVMLFEPQPLELFATDKAPARLTRLREKLRYLAECGVDYVLCVRFDRRFAALTAQNFISDLLVKHLRVKFLAVGDDFRFGAGREGDFLLLQKAGMEYGFDITSTQTFCEGGVRISSTAVRQALADDNLALAESLLGHPFAISGRVVHGDELGRTIGFPTANVPLRRQVSPVKGVYAVEVLGLGEKPLPGVANIGTRPTVAGIRQQLEVHLLDVAMDLYGRHIQVVLRKKIRNEQRFASLDELKAQIARDELTAREFFGLTKPA" "c" "Han et al., 2011" -"RIBOFLAVIN-SYN-MONOMER" "MFTGIVQGTAKLVSIDEKPNFRTHVVELPDHMLDGLETGASVAHNGCCLTVTEINGNHVSFDLMKETLRITNLGDLKVGDWVNVERAAKFSDEIGGHLMSGHIMTTAEVAKILTSENNRQIWFKVQDSQLMKYILYKGFIGIDGISLTVGEVTPTRFCVHLIPETLERTTLGKKKLGARVNIEIDPQTQAVVDTVERVLAARENAMNQPGTEA" "c" "Han et al., 2011" -"RIBOFLAVINSYNDEAM-MONOMER" "VQDEYYMARALKLAQRGRFTTHPNPNVGCVIVKDGEIVGEGYHQRAGEPHAEVHALRMAGEKAKGATAYVTLEPCSHHGRTPPCCDALIAAGVARVVASMQDPNPQVAGRGLYRLQQAGIDVSHGLMMSEAEQLNKGFLKRMRTGFPYIQLKLGASLDGRTAMASGESQWITSPQARRDVQLLRAQSHAILTSSATVLADDPALTVRWSELDEQTQALYPQQNLRQPIRIVIDSQNRVTPVHRIVQQPGETWFARTQEDSREWPETVRTLLIPEHKGHLDLVVLMMQLGKQQINSIWVEAGPTLAGALLQAGLVDELIVYIAPKLLGSDARGLCTLPGLEKLADAPQFKFKEIRHVGPDVCLHLVGA" "c" "Han et al., 2011" -"RIBOKIN-MONOMER" "MQNAGSLVVLGSINADHILNLQSFPTPGETVTGNHYQVAFGGKGANQAVAAGRSGANIAFIACTGDDSIGESVRQQLATDNIDITPVSVIKGESTGVALIFVNGEGENVIGIHAGANAALSPALVEAQRERIANASALLMQLESPLESVMAAAKIAHQNKTIVALNPAPARELPDELLALVDIITPNETEAEKLTGIRVENDEDAAKAAQVLHEKGIRTVLITLGSRGVWASVNGEGQRVPGFRVQAVDTIAAGDTFNGALITALLEEKPLPEAIRFAHAAAAIAVTRKGAQPSVPWREEIDAFLDRQR" "c" "Han et al., 2011" -"RIBONUCLEOSIDE-TRIP-REDUCT-MONOMER" "MTPHVMKRDGCKVPFKSERIKEAILRAAKAAEVDDADYCATVAAVVSEQMQGRNQVDINEIQTAVENQLMSGPYKQLARAYIEYRHDRDIEREKRGRLNQEIRGLVEQTNASLLNENANKDSKVIPTQRDLLAGIVAKHYARQHLLPRDVVQAHERGDIHYHDLDYSPFFPMFNCMLIDLKGMLTQGFKMGNAEIEPPKSISTATAVTAQIIAQVASHIYGGTTINRIDEVLAPFVTASYNKHRKTAEEWNIPDAEGYANSRTIKECYDAFQSLEYEVNTLHTANGQTPFVTFGFGLGTSWESRLIQESILRNRIAGLGKNRKTAVFPKLVFAIRDGLNHKKGDPNYDIKQLALECASKRMYPDILNYDQVVKVTGSFKTPMGCRSFLGVWENENGEQIHDGRNNLGVISLNLPRIALEAKGDEATFWKLLDERLVLARKALMTRIARLEGVKARVAPILYMEGACGVRLNADDDVSEIFKNGRASISLGYIGIHETINALFGGEHVYDNEQLRAKGIAIVERLRQAVDQWKEETGYGFSLYSTPSENLCDRFCRLDTAEFGVVPGVTDKGYYTNSFHLDVEKKVNPYDKIDFEAPYPPLANGGFICYGEYPNIQHNLKALEDVWDYSYQHVPYYGTNTPIDECYECGFTGEFECTSKGFTCPKCGNHDASRVSVTRRVCGYLGSPDARPFNAGKQEEVKRRVKHLGNGQIG" "c" "Han et al., 2011" -"RIBULOKIN-MONOMER" "MAIAIGLDFGSDSVRALAVDCATGEEIATSVEWYPRWQKGQFCDAPNNQFRHHPRDYIESMEAALKTVLAELSVEQRAAVVGIGVDSTGSTPAPIDADGNVLALRPEFAENPNAMFVLWKDHTAVEEAEEITRLCHAPGNVDYSRYIGGIYSSEWFWAKILHVTRQDSAVAQSAASWIELCDWVPALLSGTTRPQDIRRGRCSAGHKSLWHESWGGLPPASFFDELDPILNRHLPSPLFTDTWTADIPVGTLCPEWAQRLGLPESVVISGGAFDCHMGAVGAGAQPNALVKVIGTSTCDILIADKQSVGERAVKGICGQVDGSVVPGFIGLEAGQSAFGDIYAWFGRVLGWPLEQLAAQHPELKTQINASQKQLLPALTEAWAKNPSLDHLPVVLDWFNGRRTPNANQRLKGVITDLNLATDAPLLFGGLIAATAFGARAIMECFTDQGIAVNNVMALGGIARKNQVIMQACCDVLNRPLQIVASDQCCALGAAIFAAVAAKVHADIPSAQQKMASAVEKTLQPCSEQAQRFEQLYRRYQQWAMSAEQHYLPTSAPAQAAQAVATL" "c" "Han et al., 2011" -"RIBULP3EPIM-MONOMER" "MKQYLIAPSILSADFARLGEDTAKALAAGADVVHFDVMDNHYVPNLTIGPMVLKSLRNYGITAPIDVHLMVKPVDRIVPDFAAAGASIITFHPEASEHVDRTLQLIKENGCKAGLVFNPATPLSYLDYVMDKLDVILLMSVNPGFGGQSFIPQTLDKLREVRRRIDESGFDIRLEVDGGVKVNNIGEIAAAGADMFVAGSAIFDQPDYKKVIDEMRSELAKVSHE" "c" "Lopez-Campistrous et al., 2005" -"RIBULPEPIM-MONOMER" "MLEDLKRQVLEANLALPKHNLVTLTWGNVSAVDRERGVFVIKPSGVDYSVMTADDMVVVSIETGEVVEGTKKPSSDTPTHRLLYQAFPSIGGIVHTHSRHATIWAQAGQSIPATGTTHADYFYGTIPCTRKMTDAEINGEYEWETGNVIVETFEKQGIDAAQMPGVLVHSHGPFAWGKNAEDAVHNAIVLEEVAYMGIFCRQLAPQLPDMQQTLLDKHYLRKHGAKAYYGQ" "c" "Han et al., 2011" -"RNTRACTIV-MONOMER" "MNYHQYYPVDIVNGPGTRCTLFVSGCVHECPGCYNKSTWRVNSGQPFTKAMEDQIINDLNDTRIKRQGISLSGGDPLHPQNVPDILKLVQRIRAECPGKDIWVWTGYKLDELNAAQMQVVDLINVLVDGKFVQDLKDPSLIWRGSSNQVVHHLR" "c" "Han et al., 2011" -"RPOA-MONOMER" "LKRRLIIAASLFVFNLSSGFAAENIPFSPQPPEIHAGSWVLMDYTTGQILTAGNEHQQRNPASLTKLMTGYVVDRAIDSHRITPDDIVTVGRDAWAKDNPVFVGSSLMFLKEGDRVSVRDLSRGLIVDSGNDACVALADYIAGGQRQFVEMMNNYAEKLHLKDTHFETVHGLDAPGQHSSAYDLAVLSRAIIHGEPEFYHMYSEKSLTWNGITQQNRNGLLWDKTMNVDGLKTGHTSGAGFNLIASAVDGQRRLIAVVMGADSAKGREEEARKLLRWGQQNFTTVQILHRGKKVGTERIWYGDKENIDLGTEQEFWMVLPKAEIPHIKAKYTLDGKELTAPISAHQRVGEIELYDRDKQVAHWPLVTLESVGEGSMFSRLSDYFHHKA" "i" "Han et al., 2011" -"RPOB-MONOMER" "MVYSYTEKKRIRKDFGKRPQVLDVPYLLSIQLDSFQKFIEQDPEGQYGLEAAFRSVFPIQSYSGNSELQYVSYRLGEPVFDVQECQIRGVTYSAPLRVKLRLVIYEREAPEGTVKDIKEQEVYMGEIPLMTDNGTFVINGTERVIVSQLHRSPGVFFDSDKGKTHSSGKVLYNARIIPYRGSWLDFEFDPKDNLFVRIDRRRKLPATIILRALNYTTEQILDLFFEKVIFEIRDNKLQMELVPERLRGETASFDIEANGKVYVEKGRRITARHIRQLEKDDVKLIEVPVEYIAGKVVAKDYIDESTGELICAANMELSLDLLAKLSQSGHKRIETLFTNDLDHGPYISETLRVDPTNDRLSALVEIYRMMRPGEPPTREAAESLFENLFFSEDRYDLSAVGRMKFNRSLLREEIEGSGILSKDDIIDVMKKLIDIRNGKGEVDDIDHLGNRRIRSVGEMAENQFRVGLVRVERAVKERLSLGDLDTLMPQDMINAKPISAAVKEFFGSSQLSQFMDQNNPLSEITHKRRISALGPGGLTRERAGFEVRDVHPTHYGRVCPIETPEGPNIGLINSLSVYAQTNEYGFLETPYRKVTDGVVTDEIHYLSAIEEGNYVIAQANSNLDEEGHFVEDLVTCRSKGESSLFSRDQVDYMDVSTQQVVSVGASLIPFLEHDDANRALMGANMQRQAVPTLRADKPLVGTGMERAVAVDSGVTAVAKRGGVVQYVDASRIVIKVNEDEMYPGEAGIDIYNLTKYTRSNQNTCINQMPCVSLGEPVERGDVLADGPSTDLGELALGQNMRVAFMPWNGYNFEDSILVSERVVQEDRFTTIHIQELACVSRDTKLGPEEITADIPNVGEAALSKLDESGIVYIGAEVTGGDILVGKVTPKGETQLTPEEKLLRAIFGEKASDVKDSSLRVPNGVSGTVIDVQVFTRDGVEKDKRALEIEEMQLKQAKKDLSEELQILEAGLFSRIRAVLVAGGVEAEKLDKLPRDRWLELGLTDEEKQNQLEQLAEQYDELKHEFEKKLEAKRRKITQGDDLAPGVLKIVKVYLAVKRRIQPGDKMAGRHGNKGVISKINPIEDMPYDENGTPVDIVLNPLGVPSRMNIGQILETHLGMAAKGIGDKINAMLKQQQEVAKLREFIQRAYDLGADVRQKVDLSTFSDEEVMRLAENLRKGMPIATPVFDGAKEAEIKELLKLGDLPTSGQIRLYDGRTGEQFERPVTVGYMYMLKLNHLVDDKMHARSTGSYSLVTQQPLGGKAQFGGQRFGEMEVWALEAYGAAYTLQEMLTVKSDDVNGRTKMYKNIVDGNHQMEPGMPESFNVLLKEIRSLGINIELEDE" "c" "Lopez-Campistrous et al., 2005" -"RPOC-MONOMER" "VKDLLKFLKAQTKTEEFDAIKIALASPDMIRSWSFGEVKKPETINYRTFKPERDGLFCARIFGPVKDYECLCGKYKRLKHRGVICEKCGVEVTQTKVRRERMGHIELASPTAHIWFLKSLPSRIGLLLDMPLRDIERVLYFESYVVIEGGMTNLERQQILTEEQYLDALEEFGDEFDAKMGAEAIQALLKSMDLEQECEQLREELNETNSETKRKKLTKRIKLLEAFVQSGNKPEWMILTVLPVLPPDLRPLVPLDGGRFATSDLNDLYRRVINRNNRLKRLLDLAAPDIIVRNEKRMLQEAVDALLDNGRRGRAITGSNKRPLKSLADMIKGKQGRFRQNLLGKRVDYSGRSVITVGPYLRLHQCGLPKKMALELFKPFIYGKLELRGLATTIKAAKKMVEREEAVVWDILDEVIREHPVLLNRAPTLHRLGIQAFEPVLIEGKAIQLHPLVCAAYNADFDGDQMAVHVPLTLEAQLEARALMMSTNNILSPANGEPIIVPSQDVVLGLYYMTRDCVNAKGEGMVLTGPKEAERLYRSGLASLHARVKVRITEYEKDANGELVAKTSLKDTTVGRAILWMIVPKGLPYSIVNQALGKKAISKMLNTCYRILGLKPTVIFADQIMYTGFAYAARSGASVGIDDMVIPEKKHEIISEAEAEVAEIQEQFQSGLVTAGERYNKVIDIWAAANDRVSKAMMDNLQTETVINRDGQEEKQVSFNSIYMMADSGARGSAAQIRQLAGMRGLMAKPDGSIIETPITANFREGLNVLQYFISTHGARKGLADTALKTANSGYLTRRLVDVAQDLVVTEDDCGTHEGIMMTPVIEGGDVKEPLRDRVLGRVTAEDVLKPGTADILVPRNTLLHEQWCDLLEENSVDAVKVRSVVSCDTDFGVCAHCYGRDLARGHIINKGEAIGVIAAQSIGEPGTQLTMRTFHIGGAASRAAAESSIQVKNKGSIKLSNVKSVVNSSGKLVITSRNTELKLIDEFGRTKESYKVPYGAVLAKGDGEQVAGGETVANWDPHTMPVITEVSGFVRFTDMIDGQTITRQTDELTGLSSLVVLDSAERTAGGKDLRPALKIVDAQGNDVLIPGTDMPAQYFLPGKAIVQLEDGVQISSGDTLARIPQESGGTKDITGGLPRVADLFEARRPKEPAILAEISGIVSFGKETKGKRRLVITPVDGSDPYEEMIPKWRQLNVFEGERVERGDVISDGPEAPHDILRLRGVHAVTRYIVNEVQDVYRLQGVKINDKHIEVIVRQMLRKATIVNAGSSDFLEGEQVEYSRVKIANRELEANGKVGATYSRDLLGITKASLATESFISAASFQETTRVLTEAAVAGKRDELRGLKENVIVGRLIPAGTGYAYHQDRMRRRAAGEAPAAPQVTAEDASASLAELLNAGLGGSDNE" "c" "Han et al., 2011" -"RPOD-MONOMER" "MEQNPQSQLKLLVTRGKEQGYLTYAEVNDHLPEDIVDSDQIEDIIQMINDMGIQVMEEAPDADDLMLAENTADEDAAEAAAQVLSSVESEIGRTTDPVRMYMREMGTVELLTREGEIDIAKRIEDGINQVQCSVAEYPEAITYLLEQYDRVEAEEARLSDLITGFVDPNAEEDLAPTATHVGSELSQEDLDDDEDEDEEDGDDDSADDDNSIDPELAREKFAELRAQYVVTRDTIKAKGRSHATAQEEILKLSEVFKQFRLVPKQFDYLVNSMRVMMDRVRTQERLIMKLCVEQCKMPKKNFITLFTGNETSDTWFNAAIAMNKPWSEKLHDVSEEVHRALQKLQQIEEETGLTIEQVKDINRRMSIGEAKARRAKKEMVEANLRLVISIAKKYTNRGLQFLDLIQEGNIGLMKAVDKFEYRRGYKFSTYATWWIRQAITRSIADQARTIRIPVHMIETINKLNRISRQMLQEMGREPTPEELAERMLMPEDKIRKVLKIAKEPISMETPIGDDEDSHLGDFIEDTTLELPLDSATTESLRAATHDVLAGLTAREAKVLRMRFGIDMNTDYTLEEVGKQFDVTRERIRQIEAKALRKLRHPSRSEVLRSFLDD" "c" "Han et al., 2011" -"RPOE-MONOMER" "MSEQLTDQVLVERVQKGDQKAFNLLVVRYQHKVASLVSRYVPSGDVPDVVQEAFIKAYRALDSFRGDSAFYTWLYRIAVNTAKNYLVAQGRRPPSSDVDAIEAENFESGGALKEISNPENLMLSEELRQIVFRTIESLPEDLRMAITLRELDGLSYEEIAAIMDCPVGTVRSRIFRAREAIDNKVQPLIRR" "c" "Han et al., 2011" -"RPOH-MONOMER" "MTDKMQSLALAPVGNLDSYIRAANAWPMLSADEERALAEKLHYHGDLEAAKTLILSHLRFVVHIARNYAGYGLPQADLIQEGNIGLMKAVRRFNPEVGVRLVSFAVHWIKAEIHEYVLRNWRIVKVATTKAQRKLFFNLRKTKQRLGWFNQDEVEMVARELGVTSKDVREMESRMAAQDMTFDLSSDDDSDSQPMAPVLYLQDKSSNFADGIEDDNWEEQAANRLTDAMQGLDERSQDIIRARWLDEDNKSTLQELADRYGVSAERVRQLEKNAMKKLRAAIEA" "i" "EcoCyc dump" -"RPON-MONOMER" "MKQGLQLRLSQQLAMTPQLQQAIRLLQLSTLELQQELQQALESNPLLEQIDTHEEIDTRETQDSETLDTADALEQKEMPEELPLDASWDTIYTAGTPSGTSGDYIDDELPVYQGETTQTLQDYLMWQVELTPFSDTDRAIATSIVDAVDETGYLTVPLEDILESIGDEEIDIDEVEAVLKRIQRFDPVGVAAKDLRDCLLIQLSQFDKTTPWLEEARLIISDHLDLLANHDFRTLMRVTRLKEDVLKEAVNLIQSLDPRPGQSIQTGEPEYVIPDVLVRKHNGHWTVELNSDSIPRLQINQHYASMCNNARNDGDSQFIRSNLQDAKWLIKSLESRNDTLLRVSRCIVEQQQAFFEQGEEYMKPMVLADIAQAVEMHESTISRVTTQKYLHSPRGIFELKYFFSSHVNTEGGGEASSTAIRALVKKLIAAENPAKPLSDSKLTSLLSEQGIMVARRTVAKYRESLSIPPSNQRKQLV" "c" "Han et al., 2011" -"RPOS-MONOMER" "MSQNTLKVHDLNEDAEFDENGVEVFDEKALVEQEPSDNDLAEEELLSQGATQRVLDATQLYLGEIGYSPLLTAEEEVYFARRALRGDVASRRRMIESNLRLVVKIARRYGNRGLALLDLIEEGNLGLIRAVEKFDPERGFRFSTYATWWIRQTIERAIMNQTRTIRLPIHIVKELNVYLRTARELSHKLDHEPSAEEIAEQLDKPVDDVSRMLRLNERITSVDTPLGGDSEKALLDILADEKENGPEDTTQDDDMKQSIVKWLFELNAKQREVLARRFGLLGYEAATLEDVGREIGLTRERVRQIQVEGLRRLREILQTQGLNIEALFRE" "c" "Han et al., 2011" -"RSTA-MONOMER" "VNVMNTIVFVEDDAEVGSLIAAYLAKHDMQVTVEPRGDQAEETILRENPDLVLLDIMLPGKDGMTICRDLRAKWSGPIVLLTSLDSDMNHILALEMGACDYILKTTPPAVLLARLRLHLRQNEQATLTKGLQETSLTPYKALHFGTLTIDPINRVVTLANTEISLSTADFELLWELATHAGQIMDRDALLKNLRGVSYDGLDRSVDVAISRLRKKLLDNAAEPYRIKTVRNKGYLFAPHAWE" "c" "Han et al., 2011" -"RSTB-MONOMER" "MKKLFIQFYLLLFVCFLVMSLLVGLVYKFTAERAGKQSLDDLMNSSLYLMRSELREIPPHDWGKTLKEMDLNLSFDLRVEPLSKYHLDDISMHRLRGGEIVALDDQYTFLQRIPRSHYVLAVGPVPYLYYLHQMRLLDIALIAFIAISLAFPVFIWMRPHWQDMLKLEAAAQRFGDGHLNERIHFDEGSSFERLGVAFNQMADNINALIASKKQLIDGIAHELRTPLVRLRYRLEMSDNLSAAESQALNRDISQLEALIEELLTYARLDRPQNELHLSEPDLPLWLSTHLADIQAVTPDKTVRIKTLVQGHYAALDMRLMERVLDNLLNNALRYCHSTVETSLLLSGNRATLIVEDDGPGIAPENREHIFEPFVRLDPSRDRSTGGCGLGLAIVHSIALAMGGTVNCDTSELGGARFSFSWPLWHNIPQFTSA" "i" "Han et al., 2011" -"S-ADENMETSYN-MONOMER" "MAKHLFTSESVSEGHPDKIADQISDAVLDAILEQDPKARVACETYVKTGMVLVGGEITTSAWVDIEEITRNTVREIGYVHSDMGFDANSCAVLSAIGKQSPDINQGVDRADPLEQGAGDQGLMFGYATNETDVLMPAPITYAHRLVQRQAEVRKNGTLPWLRPDAKSQVTFQYDDGKIVGIDAVVLSTQHSEEIDQKSLQEAVMEEIIKPILPAEWLTSATKFFINPTGRFVIGGPMGDCGLTGRKIIVDTYGGMARHGGGAFSGKDPSKVDRSAAYAARYVAKNIVAAGLADRCEIQVSYAIGVAEPTSIMVETFGTEKVPSEQLTLLVREFFDLRPYGLIQMLDLLHPIYKETAAYGHFGREHFPWEKTDKAQLLRDAAGLK" "c" "Lopez-Campistrous et al., 2005" -"SAICARSYN-MONOMER" "MQKQAELYRGKAKTVYSTENPDLLVLEFRNDTSAGDGARIEQFDRKGMVNNKFNYFIMSKLAEAGIPTQMERLLSDTECLVKKLDMVPVECVVRNRAAGSLVKRLGIEEGIELNPPLFDLFLKNDAMHDPMVNESYCETFGWVSKENLARMKELTYKANDVLKKLFDDAGLILVDFKLEFGLYKGEVVLGDEFSPDGSRLWDKETLEKMDKDRFRQSLGGLIEAYEAVARRLGVQLD" "c" "Lopez-Campistrous et al., 2005" -"SAPA-MONOMER" "MRQVLSSLLVIAGLVSGQAIAAPESPPHADIRDSGFVYCVSGQVNTFNPSKASSGLIVDTLAAQFYDRLLDVDPYTYRLMPELAESWEVLDNGATYRFHLRRDVPFQKTDWFTPTRKMNADDVVFTFQRIFDRNNPWHNVNGSNFPYFDSLQFADNVKSVRKLDNHTVEFRLAQPDASFLWHLATHYASVMSAEYARKLEKEDRQEQLDRQPVGTGPYQLSEYRAGQFIRLQRHDDFWRGKPLMPQVVVDLGSGGTGRLSKLLTGECDVLAWPAASQLSILRDDPRLRLTLRPGMNVAYLAFNTAKPPLNNPAVRHALALAINNQRLMQSIYYGTAETAASILPRASWAYDNEAKITEYNPAKSREQLKSLGLENLTLKLWVPTRSQAWNPSPLKTAELIQADMAQVGVKVVIVPVEGRFQEARLMDMSHDLTLSGWATDSNDPDSFFRPLLSCAAIHSQTNLAHWCDPKFDSVLRKALSSQQLAARIEAYDEAQSILAQELPILPLASSLRLQAYRYDIKGLVLSPFGNASFAGVYREKQDEVKKP" "i" "EcoCyc dump" -"SAPB-MONOMER" "MIIFTLRRILLLIVTLFLLTFVGFSLSYFTPHAPLQGASLWNAWVFWFNGLIHWDFGVSSINGQPIAEQLKEVFPATMELCILAFGFALIVGIPVGMIAGITRHKWQDNLINAIALLGFSIPVFWLALLLTLFCSLTLGWLPVSGRFDLLYEVKPITGFALIDAWLSDSPWRDEMIMSAIRHMILPVITLSVAPTTEVIRLMRISTIEVYDQNYVKAAATRGLSRFTILRRHVLHNALPPVIPRLGLQFSTMLTLAMITEMVFSWPGLGRWLINAIRQQDYAAISAGVMVCGSLVIIVNVISDILGAMANPLKHKEWYALR" "i" "Han et al., 2011" -"SAPC-MONOMER" "MPYDSVYSEKRPPGTLRTAWRKFYSDASAMVGLYGCAGLAVLCIFGGWFAPYGIDQQFLGYQLLPPSWSRYGEVSFFLGTDDLGRDVLSRLLSGAAPTVGGAFVVTLAATICGLVLGTFAGATHGLRSAVLNHILDTLLAIPSLLLAIIVVAFAGPSLSHAMFAVWLALLPRMVRSIYSMVHDELEKEYVIAARLDGASTLNILWFAVMPNITAGLVTEITRALSMAILDIAALGFLDLGAQLPSPEWGAMLGDALELIYVAPWTVMLPGAAIMISVLLVNLLGDGVRRAIIAGVE" "i" "Han et al., 2011" -"SAPD-MONOMER" "MPLLDIRNLTIEFKTGDEWVKAVDRVSMTLTEGEIRGLVGESGSGKSLIAKAICGVNKDNWRVTADRMRFDDIDLLRLSARERRKLVGHNVSMIFQEPQSCLDPSERVGRQLMQNIPAWTYKGRWWQRFGWRKRRAIELLHRVGIKDHKDAMRSFPYELTEGECQKVMIAIALANQPRLLIADEPTNSMEPTTQAQIFRLLTRLNQNSNTTILLISHDLQMLSQWADKINVLYCGQTVETAPSKELVTMPHHPYTQALIRAIPDFGSAMPHKSRLNTLPGAIPLLEQLPIGCRLGPRCPYAQRECIVTPRLTGAKNHLYACHFPLNMEKE" "i" "Han et al., 2011" -"SAPF-MONOMER" "MIETLLEVRNLSKTFRYRTGWFRRQTVEAVKPLSFTLREGQTLAIIGENGSGKSTLAKMLAGMIEPTSGELLIDDHPLHFGDYSFRSQRIRMIFQDPSTSLNPRQRISQILDFPLRLNTDLEPEQRRKQIIETMRMVGLLPDHVSYYPHMLAPGQKQRLGLARALILRPKVIIADEALASLDMSMRSQLINLMLELQEKQGISYIYVTQHIGMMKHISDQVLVMHQGEVVERGSTADVLASPLHELTKRLIAGHFGEALTADAWRKDR" "i" "EcoCyc dump" -"SARCOX-MONOMER" "MKYDLIIIGSGSVGAAAGYYATRAGLNVLMTDAHMPPHQHGSHHGDTRLIRHAYGEGEKYVPLVLRAQTLWDELSRHNEEDPIFVRSGVINLGPADSTFLANVAHSAEQWQLNVEKLDAQGIMARWPEIRVPDNYIGLFETDSGFLRSELAIKTWIQLAKEAGCAQLFNCPVTAIRHDDDGVTIETADGEYQAKKAIVCAGTWVKDLLPELPVQPVRKVFAWYQADGRYSVKNKFPAFTGELPNGDQYYGFPAENDALKIGKHNGGQVIHSADERVPFAEVASDGSEAFPFLRNVLPGIGCCLYGAACTYDNSPDEDFIIDTLPGHDNTLLITGLSGHGFKFASVLGEIAADFAQDKKSDFDLTPFRLSRFQ" "c" "Han et al., 2011" -"SBMA-MONOMER" "MFKSFFPKPGTFFLSAFVWALIAVIFWQAGGGDWVARITGASGQIPISAARFWSLDFLIFYAYYIVCVGLFALFWFIYSPHRWQYWSILGTALIIFVTWFLVEVGVAVNAWYAPFYDLIQTALSSPHKVTIEQFYREVGVFLGIALIAVVISVLNNFFVSHYVFRWRTAMNEYYMANWQQLRHIEGAAQRVQEDTMRFASTLENMGVSFINAIMTLIAFLPVLVTLSAHVPELPIIGHIPYGLVIAAIVWSLMGTGLLAVVGIKLPGLEFKNQRVEAAYRKELVYGEDDATRATPPTVRELFSAVRKNYFRLYFHYMYFNIARILYLQVDNVFGLFLLFPSIVAGTITLGLMTQITNVFGQVRGAFQYLINSWTTLVELMSIYKRLRSFEHELDGDKIQEVTHTLS" "i" "Han et al., 2011" -"SBP-MONOMER" "MNKWGVGLTFLLAATSVMAKDIQLLNVSYDPTRELYEQYNKAFSAHWKQQTGDNVVIRQSHGGSGKQATSVINGIEADVVTLALAYDVDAIAERGRIDKEWIKRLPDNSAPYTSTIVFLVRKGNPKQIHDWNDLIKPGVSVITPNPKSSGGARWNYLAAWGYALHHNNNDQAKAQDFVRALYKNVEVLDSGARGSTNTFVERGIGDVLIAWENEALLAANELGKDKFEIVTPSESILAEPTVSVVDKVVEKKGTKEVAEAYLKYLYSPEGQEIAAKNYYRPRDAEVAKKYENAFPKLKLFTIDEEFGGWTKAQKEHFANGGTFDQISKR" "p" "Han et al., 2011" -"SDAC-MONOMER" "METTQTSTIASKDSRSAWRKTDTMWMLGLYGTAIGAGVLFLPINAGVGGMIPLIIMAILAFPMTFFAHRGLTRFVLSGKNPGEDITEVVEEHFGIGAGKLITLLYFFAIYPILLVYSVAITNTVESFMSHQLGMTPPPRAILSLILIVGMMTIVRFGEQMIVKAMSILVFPFVGVLMLLALYLIPQWNGAALETLSLDTASATGNGLWMTLWLAIPVMVFSFNHSPIISSFAVAKREEYGDMAEQKCSKILAFAHIMMVLTVMFFVFSCVLSLTPADLAAAKEQNISILSYLANHFNAPVIAWMAPIIAIIAITKSFLGHYLGAREGFNGMVIKSLRGKGKSIEINKLNRITALFMLVTTWIVATLNPSILGMIETLGGPIIAMILFLMPMYAIQKVPAMRKYSGHISNVFVVVMGLIAISAIFYSLFS" "i" "Han et al., 2011" -"SDH-FE-S" "MRLEFSIYRYNPDVDDAPRMQDYTLEADEGRDMMLLDALIQLKEKDPSLSFRRSCREGVCGSDGLNMNGKNGLACITPISALNQPGKKIVIRPLPGLPVIRDLVVDMGQFYAQYEKIKPYLLNNGQNPPAREHLQMPEQREKLDGLYECILCACCSTSCPSFWWNPDKFIGPAGLLAAYRFLIDSRDTETDSRLDGLSDAFSVFRCHSIMNCVSVCPKGLNPTRAIGHIKSMLLQRNA" "i" "Lopez-Campistrous et al., 2005" -"SDH-FLAVO" "MKLPVREFDAVVIGAGGAGMRAALQISQSGQTCALLSKVFPTRSHTVSAQGGITVALGNTHEDNWEWHMYDTVKGSDYIGDQDAIEYMCKTGPEAILELEHMGLPFSRLDDGRIYQRPFGGQSKNFGGEQAARTAAAADRTGHALLHTLYQQNLKNHTTIFSEWYALDLVKNQDGAVVGCTALCIETGEVVYFKARATVLATGGAGRIYQSTTNAHINTGDGVGMAIRAGVPVQDMEMWQFHPTGIAGAGVLVTEGCRGEGGYLLNKHGERFMERYAPNAKDLAGRDVVARSIMIEIREGRGCDGPWGPHAKLKLDHLGKEVLESRLPGILELSRTFAHVDPVKEPIPVIPTCHYMMGGIPTKVTGQALTVNEKGEDVVVPGLFAVGEIACVSVHGANRLGGNSLLDLVVFGRAAGLHLQESIAEQGALRDASESDVEASLDRLNRWNNNRNGEDPVAIRKALQECMQHNFSVFREGDAMAKGLEQLKVIRERLKNARLDDTSSEFNTQRVECLELDNLMETAYATAVSANFRTESRGAHSRFDFPDRDDENWLCHSLYLPESESMTRRSVNMEPKLRPAFPPKIRTY" "i" "EcoCyc dump" -"SDH-MEMB1" "MIRNVKKQRPVNLDLQTIRFPITAIASILHRVSGVITFVAVGILLWLLGTSLSSPEGFEQASAIMGSFFVKFIMWGILTALAYHVVVGIRHMMMDFGYLEETFEAGKRSAKISFVITVVLSLLAGVLVW" "i" "Han et al., 2011" -"SDH-MEMB2" "MVSNASALGRNGVHDFILVRATAIVLTLYIIYMVGFFATSGELTYEVWIGFFASAFTKVFTLLALFSILIHAWIGMWQVLTDYVKPLALRLMLQLVIVVALVVYVIYGFVVVWGV" "i" "Han et al., 2011" -"SECA" "MLIKLLTKVFGSRNDRTLRRMRKVVNIINAMEPEMEKLSDEELKGKTAEFRARLEKGEVLENLIPEAFAVVREASKRVFGMRHFDVQLLGGMVLNERCIAEMRTGEGKTLTATLPAYLNALTGKGVHVVTVNDYLAQRDAENNRPLFEFLGLTVGINLPGMPAPAKREAYAADITYGTNNEYGFDYLRDNMAFSPEERVQRKLHYALVDEVDSILIDEARTPLIISGPAEDSSEMYKRVNKIIPHLIRQEKEDSETFQGEGHFSVDEKSRQVNLTERGLVLIEELLVKEGIMDEGESLYSPANIMLMHHVTAALRAHALFTRDVDYIVKDGEVIIVDEHTGRTMQGRRWSDGLHQAVEAKEGVQIQNENQTLASITFQNYFRLYEKLAGMTGTADTEAFEFSSIYKLDTVVVPTNRPMIRKDLPDLVYMTEAEKIQAIIEDIKERTAKGQPVLVGTISIEKSELVSNELTKAGIKHNVLNAKFHANEAAIVAQAGYPAAVTIATNMAGRGTDIVLGGSWQAEVAALENPTAEQIEKIKADWQVRHDAVLEAGGLHIIGTERHESRRIDNQLRGRSGRQGDAGSSRFYLSMEDALMRIFASDRVSGMMRKLGMKPGEAIEHPWVTKAIANAQRKVESRNFDIRKQLLEYDDVANDQRRAIYSQRNELLDVSDVSETINSIREDVFKATIDAYIPPQSLEEMWDIPGLQERLKNDFDLDLPIAEWLDKEPELHEETLRERILAQSIEVYQRKEEVVGAEMMRHFEKGVMLQTLDSLWKEHLAAMDYLRQGIHLRGYAQKDPKQEYKRESFSMFAAMLESLKYEVISTLSKVQVRMPEEVEELEQQRRMEAERLAQMQQLSHQDDDSAAAAALAAQTGERKVGRNDPCPCGSGKKYKQCHGRLQ" "i" "EcoCyc dump" -"SECB" "MSEQNNTEMTFQIQRIYTKDISFEAPNAPHVFQKDWQPEVKLDLDTASSQLADDVYEVVLRVTVTASLGEETAFLCEVQQGGIFSIAGIEGTQMAHCLGAYCPNILFPYARECITSMVSRGTFPQLNLAPVNFDALFMNYLQQQAGEGTEEHQDA" "c" "Han et al., 2011" -"SECD" "VLNRYPLWKYVMLIVVIVIGLLYALPNLFGEDPAVQITGARGVAASEQTLIQVQKTLQEEKITAKSVALEEGAILARFDSTDTQLRAREALMGVMGDKYVVALNLAPATPRWLAAIHAEPMKLGLDLRGGVHFLMEVDMDTALGKLQEQNIDSLRSDLREKGIPYTTVRKENNYGLSITFRDAKARDEAIAYLSKRHPDLVISSQGSNQLRAVMSDARLSEAREYAVQQNINILRNRVNQLGVAEPVVQRQGADRIVVELPGIQDTARAKEILGATATLEFRLVNTNVDQAAAASGRVPGDSEVKQTREGQPVVLYKRVILTGDHITDSTSSQDEYNQPQVNISLDSAGGNIMSNFTKDNIGKPMATLFVEYKDSGKKDANGRAVLVKQEEVINIANIQSRLGNSFRITGINNPNEARQLSLLLRAGALIAPIQIVEERTIGPTLGMQNIEQGLEACLAGLLVSILFMIIFYKKFGLIATSALIANLILIVGIMSLLPGATLSMPGIAGIVLTLAVAVDANVLINERIKEELSNGRTVQQAIDEGYRGAFSSIFDANITTLIKVIILYAVGTGAIKGFAITTGIGVATSMFTAIVGTRAIVNLLYGGKRVKKLSI" "i" "Han et al., 2011" -"SECE" "MSANTEAQGSGRGLEAMKWVVVVALLLVAIVGNYLYRDIMLPLRALAVVILIAAAGGVALLTTKGKATVAFAREARTEVRKVIWPTRQETLHTTLIVAAVTAVMSLILWGLDGILVRLVSFITGLRF" "i" "Han et al., 2011" -"SECF" "VAQEYTVEQLNHGRKVYDFMRWDYWAFGISGLLLIAAIVIMGVRGFNWGLDFTGGTVIEITLEKPAEIDVMRDALQKAGFEEPMLQNFGSSHDIMVRMPPAEGETGGQVLGSQVLKVINESTNQNAAVKRIEFVGPSVGADLAQTGAMALMAALLSILVYVGFRFEWRLAAGVVIALAHDVIITLGILSLFHIEIDLTIVASLMSVIGYSLNDSIVVSDRIRENFRKIRRGTPYEIFNVSLTQTLHRTLITSGTTLMVILMLYLFGGPVLEGFSLTMLIGVSIGTASSIYVASALALKLGMKREHMLQQKVEKEGADQPSILP" "i" "Han et al., 2011" -"SECG" "MYEALLVVFLIVAIGLVGLIMLQQGKGADMGASFGAGASATLFGSSGSGNFMTRMTALLATLFFIISLVLGNINSNKTNKGSEWENLSAPAKTEQTQPAAPAKPTSDIPN" "i" "Han et al., 2011" -"SECY" "MAKQPGLDFQSAKGGLGELKRRLLFVIGALIVFRIGSFIPIPGIDAAVLAKLLEQQRGTIIEMFNMFSGGALSRASIFALGIMPYISASIIIQLLTVVHPTLAEIKKEGESGRRKISQYTRYGTLVLAIFQSIGIATGLPNMPGMQGLVINPGFAFYFTAVVSLVTGTMFLMWLGEQITERGIGNGISIIIFAGIVAGLPPAIAHTIEQARQGDLHFLVLLLVAVLVFAVTFFVVFVERGQRRIVVNYAKRQQGRRVYAAQSTHLPLKVNMAGVIPAIFASSIILFPATIASWFGGGTGWNWLTTISLYLQPGQPLYVLLYASAIIFFCFFYTALVFNPRETADNLKKSGAFVPGIRPGEQTAKYIDKVMTRLTLVGALYITFICLIPEFMRDAMKVPFYFGGTSLLIVVVVIMDFMAQVQTLMMSSQYESALKKANLKGYGR" "i" "Han et al., 2011" -"SERINE-O-ACETTRAN-MONOMER" "MSCEELEIVWNNIKAEARTLADCEPMLASFYHATLLKHENLGSALSYMLANKLSSPIMPAIAIREVVEEAYAADPEMIASAACDIQAVRTRDPAVDKYSTPLLYLKGFHALQAYRIGHWLWNQGRRALAIFLQNQVSVTFQVDIHPAAKIGRGIMLDHATGIVVGETAVIENDVSILQSVTLGGTGKSGGDRHPKIREGVMIGAGAKILGNIEVGRGAKIGAGSVVLQPVPPHTTAAGVPARIVGKPDSDKPSMDMDQHFNGINHTFEYGDGI" "c" "Han et al., 2011" -"SERS-MONOMER" "MLDPNLLRNEPDAVAEKLARRGFKLDVDKLGALEERRKVLQVKTENLQAERNSRSKSIGQAKARGEDIEPLRLEVNKLGEELDAAKAELDALQAEIRDIALTIPNLPADEVPVGKDENDNVEVSRWGTPREFDFEVRDHVTLGEMHSGLDFAAAVKLTGSRFVVMKGQIARMHRALSQFMLDLHTEQHGYSENYVPYLVNQDTLYGTGQLPKFAGDLFHTRPLEEEADTSNYALIPTAEVPLTNLVRGEIIDEDDLPIKMTAHTPCFRSEAGSYGRDTRGLIRMHQFDKVEMVQIVRPEDSMAALEEMTGHAEKVLQLLGLPYRKIILCTGDMGFGACKTYDLEVWIPAQNTYREISSCSNVWDFQARRMQARCRSKSDKKTRLVHTLNGSGLAVGRTLVAVMENYQQADGRIEVPEVLRPYMNGLEYIG" "c" "Han et al., 2011" -"SFUA-MONOMER" "VLKKCLPLLLLCTAPVFAKPVLTVYTYDSFAADWGPGPVVKKAFEADCNCELKLVALEDGVSLLNRLRMEGKNSKADVVLGLDNNLLDAASKTGLFAKSGVAADAVNVPGGWNNDTFVPFDYGYFAFVYDKNKLKNPPQSLKELVESDQNWRVIYQDPRTSTPGLGLLLWMQKVYGDDAPQAWQKLAKKTVTVTKGWSEAYGLFLKGESDLVLSYTTSPAYHILEEKKDNYAAANFSEGHYLQVEVAARTAASKQPELAQKFLQFMVSPAFQNAIPTGNWMYPVANVTLPAGFEKLTKPATTLEFTPAEVAAQRQAWISEWQRAVSR" "p" "Han et al., 2011" -"SFUB-MONOMER" "MATRRQPLIPGWLIPGVSATTLVVAVALAAFLALWWNAPQDDWVAVWQDSYLWHVVRFSFWQAFLSALLSVIPAIFLARALYRRRFPGRLALLRLCAMTLILPVLVAVFGILSVYGRQGWLATLCQSLGLEWTFSPYGLQGILLAHVFFNLPMASRLLLQALENIPGEQRQLAAQLGMRSWHFFRFVEWPWLRRQIPPVAALIFMLCFASFATVLSLGGGPQATTIELAIYQALSYDYDPARAAMLALLQMVCCLGLVLLSQRLSKAIAPGTTLLQGWRDPDDRLHSRICDTVLIVLALLLLLPPLLAVIVDGVNRQLPEVLAQPVLWQALWTSLRIALAAGVLCVVLTMMLLWSSRELRARQKMLAGQVLEMSGMLILAMPGIVLATGFFLLLNNTIGLPQSADGIVIFTNALMAIPYALKVLENPMRDITARYSMLCQSLGIEGWSRLKVVELRALKRPLAQALAFACVLSIGDFGVVALFGNDDFRTLPFYLYQQIGSYRSQDGAVTALILLLLCFLLFTVIEKLPGRNVKTD" "i" "Han et al., 2011" -"SFUC-MONOMER" "MLKLTDITWLYHHLPMRFSLTVERGEQVAILGPSGAGKSTLLNLIAGFLTPASGSLTIDGVDHTTMPPSRRPVSMLFQENNLFSHLTVAQNIGLGLNPGLKLNAVQQGKMHAIARQMGIDNLMARLPGELSGGQRQRVALARCLVREQPILLLDEPFSALDPALRQEMLTLVSTSCQQQKMTLLMVSHSVEDAARIATRSVVVADGRIAWQGMTNELLSGKASASALLGITG" "i" "EcoCyc dump" -"SGAT-MONOMER" "MEILYNIFTVFFNQVMTNAPLLLGIVTCLGYILLRKSVSVIIKGTIKTIIGFMLLQAGSGILTSTFKPVVAKMSEVYGINGAISDTYASMMATIDRMGDAYSWVGYAVLLALALNICYVLLRRITGIRTIMLTGHIMFQQAGLIAVTLFIFGYSMWTTIICTAILVSLYWGITSNMMYKPTQEVTDGCGFSIGHQQQFASWIAYKVAPFLGKKEESVEDLKLPGWLNIFHDNIVSTAIVMTIFFGAILLSFGIDTVQAMAGKVHWTVYILQTGFSFAVAIFIITQGVRMFVAELSEAFNGISQRLIPGAVLAIDCAAIYSFAPNAVVWGFMWGTIGQLIAVGILVACGSSILIIPGFIPMFFSNATIGVFANHFGGWRAALKICLVMGMIEIFGCVWAVKLTGMSAWMGMADWSILAPPMMQGFFSIGIAFMAVIIVIALAYMFFAGRALRAEEDAEKQLAEQSA" "i" "Han et al., 2011" -"SGCA-MONOMER" "MINDIKWVQAQRKATDWRQAVEIATRPLVAYGAAQPCYVNGIIENTLNWGPYYLIAPGIALPHARPEQGANYNQVSITTLRTPVAFGNEECDPVWLLLCVSATDANAHILTIQRISQFIDSPQRLTAVGNASTDDALFALVSG" "c" "Han et al., 2011" -"SGCB-MONOMER" "MSFSVQETLFSLLQHNAISGHENAVADVMLCEFRRQAKEVWRDRLGNVVARYGSDKPDALRLMIFAHMDEVGFMVRKIEPSGFLRFERVGGPAQVTMAGSIVTLTGDKGPVMGCIGIKSYHFAKGDERTQSPSVDKLWIDIGAKDKDDAIRMGIQVGTPVTLYNPPQLLANDLVCSKALDDRLGCTALLGVADAISTMELDIAVYLVASVQEEFNIRGIVPVLRRVKPDLAIGIDITPSCDTPDLHDYSEVRINQGVGITCLNYHGRGTLAGLITPPRLIRMLEQTALEHNIPVQREVAPGVITETGYIQVEQDGIPCASLSIPCRYTHSPAEVASLRDLTDCIRLLTALAGMSAAHFPVEPDSGTTQEAHPL" "c" "Han et al., 2011" -"SGCC-MONOMER" "MFDYILSLGGTVFVPIIMIVIGLIFRIPWLQAIKAGVTVGIGFVGMGLVIVMAIDSLSPPIKVMIERFGLALHVFDVGAGPASGVGYATAIGAMIIPVIFLLNVAMLVTRLTKTMNVDIYNYWHYAITGTVVQLMTGSLIYGVLGAICHAALSLKMADWTAKRVQNIVGLEGISIPQGYGSSSVPLFVLLDAIYEKIPFMKGRNIDAQEIQKRYGMVGDPVIIGVVLGLIFGLAAGEGFKGCASLMITVAAIMVLFPRMIRLIVEGLLPISDGARKFFQKYFKGREVYIGLDTAVTLGHPTTIAVGLLLIPIMLILASILPGNKVLPLADLPVAPFFICMATVIHRGDLVRTLISGVIVMITVLLIATQFAPYFTEMALKGGFSFAGESAQISALSVGNMFGWSISELMSLGIIGVVVAVGIVASVVLFLRKRELSE" "i" "Han et al., 2011" -"SHIA-MONOMER" "MDSTLISTRPDEGTLSLSRARRAALGSFAGAVVDWYDFLLYGITAALVFNREFFPQVSPAMGTLAAFATFGVGFLFRPLGGVIFGHFGDRLGRKRMLMLTVWMMGIATALIGILPSFSTIGWWAPILLVTLRAIQGFAVGGEWGGAALLSVESAPKNKKAFYSSGVQVGYGVGLLLSTGLVSLISMMTTDEQFLSWGWRIPFLFSIVLVLGALWVRNGMEESAEFEQQQHYQAAAKKRIPVIEALLRHPGAFLKIIALRLCELLTMYIVTAFALNYSTQNMGLPRELFLNIGLLVGGLSCLTIPCFAWLADRFGRRRVYITGTLIGTLSAFPFFMALEAQSIFWIVFFSIMLANIAHDMVVCVQQPMFTEMFGASYRYSGAGVGYQVASVVGGGFTPFIAAALITYFAGNWHSVAIYLLAGCLISAMTALLMKDSQRA" "i" "Han et al., 2011" -"SIROHEMESYN-MONOMER" "VDHLPIFCQLRDRDCLIVGGGDVAERKARLLLDAGARLTVNALAFIPQFTAWADAGMLTLVEGPFDESLLDTCWLAIAATDDDALNQRVSEAAEARRIFCNVVDAPKAASFIMPSIIDRSPLMVAVSSGGTSPVLARLLREKLESLLPLHLGQVAKYAGQLRGRVKQQFATMGERRRFWEKLFVNDRLAQSLANNDQKAITETTEQLINEPLDHRGEVVLVGAGPGDAGLLTLKGLQQIQQADVVVYDRLVSDDIMNLVRRDADRVFVGKRAGYHCVPQEEINQILLREAQKGKRVVRLKGGDPFIFGRGGEELETLCNAGIPFSVVPGITAASGCSAYSGIPLTHRDYAQSVRLITGHLKTGGELDWENLAAEKQTLVFYMGLNQAATIQQKLIEHGMPGEMPVAIVENGTAVTQRVIDGTLTQLGELAQQMNSPSLIIIGRVVGLRDKLNWFSNH" "c" "Han et al., 2011" -"SMALLILVM-MONOMER" "MMQHQVNVSARFNPETLERVLRVVRHRGFHVCSMNMAAASDAQNINIELTVASPRSVDLLFSQLNKLVDVAHVAICQSTTTSQQIRA" "c" "Han et al., 2011" -"SMALLILVN-MONOMER" "MQNTTHDNVILELTVRNHPGVMTHVCGLFARRAFNVEGILCLPIQDSDKSHIWLLVNDDQRLEQMISQIDKLEDVVKVQRNQSDPTMFNKIAVFFQ" "c" "Han et al., 2011" -"SORB6PDEHYDROG-MONOMER" "MNQVAVVIGGGQTLGAFLCHGLAAEGYRVAVVDIQSDKAANVAQEINAEYGESMAYGFGADATSEQSVLALSRGVDEIFGRVDLLVYSAGIAKAAFISDFQLGDFDRSLQVNLVGYFLCAREFSRLMIRDGIQGRIIQINSKSGKVGSKHNSGYSAAKFGGVGLTQSLALDLAEYGITVHSLMLGNLLKSPMFQSLLPQYATKLGIKPDQVEQYYIDKVPLKRGCDYQDVLNMLLFYASPKASYCTGQSINVTGGQVMF" "c" "Han et al., 2011" -"SPED-MONOMER" "LKKLKLHGFNNLTKSLSFCIYDICYAKTAEERDGYIAYIDELYNANRLTEILSETCSIIGANILNIARQDYEPQGASVTILVSEEPVDPKLIDKTEHPGPLPETVVAHLDKSHICVHTYPESHPEGGLCTFRADIEVSTCGVISPLKALNYLIHQLESDIVTIDYRVRGFTRDINGMKHFIDHEINSIQNFMSDDMKALYDMVDVNVYQENIFHTKMLLKEFDLKHYMFHTKPEDLTDSERQEITAALWKEMREIYYGRNMPAV" "c" "Han et al., 2011" -"SPERMACTRAN-MONOMER" "MPSAHSVKLRPLEREDLRYVHQLDNNASVMRYWFEEPYEAFVELSDLYDKHIHDQSERRFVVECDGEKAGLVELVEINHVHRRAEFQIIISPEYQGKGLATRAAKLAMDYGFTVLNLYKLYLIVDKENEKAIHIYRKLGFSVEGELMHEFFINGQYRNAIRMCIFQHQYLAEHKTPGQTLLKPTAQ" "c" "Han et al., 2011" -"SPERMIDINESYN-MONOMER" "MAEKKQWHETLHDQFGQYFAVDNVLYHEKTDHQDLIIFENAAFGRVMALDGVVQTTERDEFIYHEMMTHVPLLAHGHAKHVLIIGGGDGAMLREVTRHKNVESITMVEIDAGVVSFCRQYLPNHNAGSYDDPRFKLVIDDGVNFVNQTSQTFDVIISDCTDPIGPGESLFTSAFYEGCKRCLNPGGIFVAQNGVCFLQQEEAIDSHRKLSHYFSDVGFYQAAIPTYYGGIMTFAWATDNDALRHLSTEIIQARFLASGLKCRYYNPAIHTAAFALPQYLQDALASQPS" "c" "Lopez-Campistrous et al., 2005" -"SPOT-MONOMER" "LYLFESLNQLIQTYLPEDQIKRLRQAYLVARDAHEGQTRSSGEPYITHPVAVACILAEMKLDYETLMAALLHDVIEDTPATYQDMEQLFGKSVAELVEGVSKLDKLKFRDKKEAQAENFRKMIMAMVQDIRVILIKLADRTHNMRTLGSLRPDKRRRIARETLEIYSPLAHRLGIHHIKTELEELGFEALYPNRYRVIKEVVKAARGNRKEMIQKILSEIEGRLQEAGIPCRVSGREKHLYSIYCKMVLKEQRFHSIMDIYAFRVIVNDSDTCYRVLGQMHSLYKPRPGRVKDYIAIPKANGYQSLHTSMIGPHGVPVEVQIRTEDMDQMAEMGVAAHWAYKEHGETSTTAQIRAQRWMQSLLELQQSAGSSFEFIESVKSDLFPDEIYVFTPEGRIVELPAGATPVDFAYAVHTDIGHACVGARVDRQPYPLSQPLTSGQTVEIITAPGARPNAAWLNFVVSSKARAKIRQLLKNLKRDDSVSLGRRLLNHALGGSRKLNEIPQENIQRELDRMKLATLDDLLAEIGLGNAMSVVVAKNLQHGDASIPPATQSHGHLPIKGADGVLITFAKCCRPIPGDPIIAHVSPGKGLVIHHESCRNIRGYQKEPEKFMAVEWDKETAQEFITEIKVEMFNHQGALANLTAAINTTTSNIQSLNTEEKDGRVYSAFIRLTARDRVHLANIMRKIRVMPDVIKVTRNRN" "c" "Han et al., 2011" -"SUCCARGDIHYDRO-MONOMER" "MNAWEVNFDGLVGLTHHYAGLSFGNEASTRHRFQVSNPRLAAKQGLLKMKALADAGFPQAVIPPHERPFIPVLRQLGFSGSDEQVLEKVARQAPHWLSSVSSASPMWVANAATIAPSADTLDGKVHLTVANLNNKFHRSLEAPVTESLLKAIFNDEEKFSVHSALPQVALLGDEGAANHNRLGGHYGEPGMQLFVYGREEGNDTRPSRYPARQTREASEAVARLNQVNPQQVIFAQQNPDVIDQGVFHNDVIAVSNRQVLFCHQQAFARQSQLLANLRARVNGFMAIEVPATQVSVSDTVSTYLFNSQLLSRDDGSMMLVLPQECREHAGVWGYLNELLAADNPISELKVFDLRESMANGGGPACLRLRVVLTEEERRAVNPAVMMNDTLFNALNDWVDRYYRDRLTAADLADPQLLREGREALDVLSQLLNLGSVYPFQREGGGNG" "c" "Han et al., 2011" -"SUCCCOASYN-ALPHA" "MSILIDKNTKVICQGFTGSQGTFHSEQAIAYGTKMVGGVTPGKGGTTHLGLPVFNTVREAVAATGATASVIYVPAPFCKDSILEAIDAGIKLIITITEGIPTLDMLTVKVKLDEAGVRMIGPNCPGVITPGECKIGIQPGHIHKPGKVGIVSRSGTLTYEAVKQTTDYGFGQSTCVGIGGDPIPGSNFIDILEMFEKDPQTEAIVMIGEIGGSAEEEAAAYIKEHVTKPVVGYIAGVTAPKGKRMGHAGAIIAGGKGTADEKFAALEAAGVKTVRSLADIGEALKTVLK" "c" "Lopez-Campistrous et al., 2005" -"SUCCCOASYN-BETA" "MNLHEYQAKQLFARYGLPAPVGYACTTPREAEEAASKIGAGPWVVKCQVHAGGRGKAGGVKVVNSKEDIRAFAENWLGKRLVTYQTDANGQPVNQILVEAATDIAKELYLGAVVDRSSRRVVFMASTEGGVEIEKVAEETPHLIHKVALDPLTGPMPYQGRELAFKLGLEGKLVQQFTKIFMGLATIFLERDLALIEINPLVITKQGDLICLDGKLGADGNALFRQPDLREMRDQSQEDPREAQAAQWELNYVALDGNIGCMVNGAGLAMGTMDIVKLHGGEPANFLDVGGGATKERVTEAFKIILSDDKVKAVLVNIFGGIVRCDLIADGIIGAVAEVGVNVPVVVRLEGNNAELGAKKLADSGLNIIAAKGLTDAAQQVVAAVEGK" "c" "Han et al., 2011" -"SUCCGLUALDDEHYD-MONOMER" "MTLWINGDWITGQGASRVKRNPVSGEVLWQGNDADAAQVEQACRAARAAFPRWARLSFAERHAVVERFAALLESNKAELTAIIARETGKPRWEAATEVTAMINKIAISIKAYHVRTGEQRSEMPDGAASLRHRPHGVLAVFGPYNFPGHLPNGHIVPALLAGNTIIFKPSELTPWSGEAVMRLWQQAGLPPGVLNLVQGGRETGQALSALEDLDGLLFTGSANTGYQLHRQLSGQPEKILALEMGGNNPLIIDEVADIDAAVHLTIQSAFVTAGQRCTCARRLLLKSGAQGDAFLARLVAVSQRLTPGNWDDEPQPFIGGLISEQAAQQVVTAWQQLEAMGGRPLLAPRLLQAGTSLLTPGIIEMTGVAGVPDEEVFGPLLRVWRYDTFDEAIRMANNTRFGLSCGLVSPEREKFDQLLLEARAGIVNWNKPLTGAASTAPFGGIGASGNHRPSAWYAADYCAWPMASLESDSLTLPATLNPGLDFSDEVVR" "c" "Han et al., 2011" -"SUCCGLUDESUCC-MONOMER" "MDNFLALTLTGKKPVITEREINGVRWRWLGDGVLELTPLTPPQGALVISAGIHGNETAPVEMLDALLGAISHGEIPLRWRLLVILGNPPALKQGKRYCHSDMNRMFGGRWQLFAESGETCRARELEQCLEDFYDQGKESVRWHLDLHTAIRGSLHPQFGVLPQRDIPWDEKFLTWLGAAGLEALVFHQEPGGTFTHFSARHFGALACTLELGKALPFGQNDLRQFAVTASAIAALLSGESVGIVRTPPLRYRVVSQITRHSPSFEMHMASDTLNFMPFEKGTLLAQDGEERFTVTHDVEYVLFPNPLVALGLRAGLMLEKIS" "c" "Han et al., 2011" -"SUCCORNTRANSAM-MONOMER" "MSQPITRENFDEWMIPVYAPAPFIPVRGEGSRLWDQQGKEYIDFAGGIAVNALGHAHPELREALNEQASKFWHTGNGYTNEPVLRLAKKLIDATFADRVFFCNSGAEANEAALKLARKFAHDRYGSHKSGIVAFKNAFHGRTLFTVSAGGQPAYSQDFAPLPADIRHAAYNDINSASALIDDSTCAVIVEPIQGEGGVVPASNAFLQGLRELCNRHNALLIFDEVQTGVGRTGELYAYMHYGVTPDLLTTAKALGGGFPVGALLATEECARVMTVGTHGTTYGGNPLASAVAGKVLELINTPEMLNGVKQRHDWFVERLNTINHRYGLFSEVRGLGLLIGCVLNADYAGQAKQISQEAAKAGVMVLIAGGNVVRFAPALNVSEEEVTTGLDRFAAACEHFVSRGSS" "c" "Han et al., 2011" -"SUCCSEMIALDDEHYDROG-MONOMER" "MKLNDSNLFRQQALINGEWLDANNGEAIDVTNPANGDKLGSVPKMGADETRAAIDAANRALPAWRALTAKERATILRNWFNLMMEHQDDLARLMTLEQGKPLAEAKGEISYAASFIEWFAEEGKRIYGDTIPGHQADKRLIVIKQPIGVTAAITPWNFPAAMITRKAGPALAAGCTMVLKPASQTPFSALALAELAIRAGVPAGVFNVVTGSAGAVGNELTSNPLVRKLSFTGSTEIGRQLMEQCAKDIKKVSLELGGNAPFIVFDDADLDKAVEGALASKFRNAGQTCVCANRLYVQDGVYDRFAEKLQQAVSKLHIGDGLDNGVTIGPLIDEKAVAKVEEHIADALEKGARVVCGGKAHERGGNFFQPTILVDVPANAKVSKEETFGPLAPLFRFKDEADVIAQANDTEFGLAAYFYARDLSRVFRVGEALEYGIVGINTGIISNEVAPFGGIKASGLGREGSKYGIEDYLEIKYMCIGL" "c" "Han et al., 2011" -"SUGE-MONOMER" "MSWIILVIAGLLEVVWAVGLKYTHGFSRLTPSVITVTAMIVSMALLAWAMKSLPVGTAYAVWTGIGAVGAAITGIVLLGESANPMRLASLALIVLGIIGLKLSTH" "i" "Han et al., 2011" -"SUPEROX-DISMUTFE-MONOMER" "MSFELPALPYAKDALAPHISAETIEYHYGKHHQTYVTNLNNLIKGTAFEGKSLEEIIRSSEGGVFNNAAQVWNHTFYWNCLAPNAGGEPTGKVAEAIAASFGSFADFKAQFTDAAIKNFGSGWTWLVKNSDGKLAIVSTSNAGTPLTTDATPLLTVDVWEHAYYIDYRNARPGYLEHFWALVNWEFVAKNLAA" "c" "Han et al., 2011" -"SUPEROX-DISMUTMN-MONOMER" "MSYTLPSLPYAYDALEPHFDKQTMEIHHTKHHQTYVNNANAALESLPEFANLPVEELITKLDQLPADKKTVLRNNAGGHANHSLFWKGLKKGTTLQGDLKAAIERDFGSVDNFKAEFEKAAASRFGSGWAWLVLKGDKLAVVSTANQDSPLMGEAISGASGFPIMGLDVWEHAYYLKFQNRRPDYIKEFWNVVNWDEAAARFAAKK" "c" "Han et al., 2011" -"TAGAALDOL1-MONOMER" "MSIISTKYLLQDAQANGYAVPAFNIHNAETIQAILEVCSEMRSPVILAGTPGTFKHIALEEIYALCSAYSTTYNMPLALHLDHHESLDDIRRKVHAGVRSAMIDGSHFPFAENVKLVKSVVDFCHSQDCSVEAELGRLGGVEDDMSVDAESAFLTDPQEAKRFVELTGVDSLAVAIGTAHGLYSKTPKIDFQRLAEIREVVDVPLVLHGASDVPDEFVRRTIELGVTKVNVATELKIAFAGAVKAWFAENPQGNDPRYYMRVGMDAMKEVVRNKINVCGSANRISA" "c" "Han et al., 2011" -"TAGAALDOL2-MONOMER" "MYVVSTKQMLNNAQRGGYAVPAFNIHNLETMQVVVETAANLHAPVIIAGTPGTFTHAGTENLLALVSAMAKQYHHPLAIHLDHHTKFDDIAQKVRSGVRSVMIDASHLPFAQNISRVKEVVDFCHRFDVSVEAELGQLGGQEDDVQVNEADALYTNPAQAREFAEATGIDSLAVAIGTAHGMYASAPALDFSRLENIRQWVNLPLVLHGASGLSTKDIQQTIKLGICKINVATELKNAFSQALKNYLTEHPEATDPRDYLQSAKSAMRDVVSKVIADCGCEGRA" "c" "EcoCyc dump" -"TAP-MONOMER" "MFNRIRISTTLFLILILCGILQIGSNGMSFWAFRDDLQRLNQVEQSNQQRAALAQTRAVMLQASTALNKAGTLTALSYPADDIKTLMTTARASLTQSTTLFKSFMAMTAGNEHVRGLQKETEKSFARWHNDLEHQATWLESNQLSDFLTAPVQGSQNAFDVNFEAWQLEINHVLEAASAQSQRNYQISALVFISMIIVAAIYISSALWWTRKMIVQPLAIIGSHFDSIAAGNLARPIAVYGRNEITAIFASLKTMQQALRGTVSDVRKGSQEMHIGIAEIVAGNNDLSSRTEQQAASLAQTAASMEQLTATVGQNADNARQASELAKNAATTAQAGGVQVSTMTHTMQEIATSSQKIGDIISVIDGIAFQTNILALNAAVEAARAGEQGRGFAVVAGEVRNLASRSAQAAKEIKGLIEESVNRVQQGSKLVNNAAATMIDIVSSVTRVNDIMGEIASASEEQQRGIEQVAQAVSQMDQVTQQNASLVEEAAVATEQLANQADHLSSRVAVFTLEEHEVARHESVQLQIAPVVS" "i" "Han et al., 2011" -"TAR-MONOMER" "MINRIRVVTLLVMVLGVFALLQLISGSLFFSSLHHSQKSFVVSNQLREQQGELTSTWDLMLQTRINLSRSAVRMMMDSSNQQSNAKVELLDSARKTLAQAATHYKKFKSMAPLPEMVATSRNIDEKYKNYYTALTELIDYLDYGNTGAYFAQPTQGMQNAMGEAFAQYALSSEKLYRDIVTDNADDYRFAQWQLAVIALVVVLILLVAWYGIRRMLLTPLAKIIAHIREIAGGNLANTLTIDGRSEMGDLAQSVSHMQRSLTDTVTHVREGSDAIYAGTREIAAGNTDLSSRTEQQASALEETAASMEQLTATVKQNADNARQASQLAQSASDTAQHGGKVVDGVVKTMHEIADSSKKIADIISVIDGIAFQTNILALNAAVEAARAGEQGRGFAVVAGEVRNLASRSAQAAKEIKALIEDSVSRVDTGSVLVESAGETMNNIVNAVTRVTDIMGEIASASDEQSRGIDQVALAVSEMDRVTQQNASLVQESAAAAAALEEQASRLTQAVSAFRLAASPLTNKPQTPSRPASEQPPAQPRLRIAEQDPNWETF" "i" "Han et al., 2011" -"TATA" "MGGISIWQLLIIAVIVVLLFGTKKLGSIGSDLGASIKGFKKAMSDDEPKQDKTSQDADFTAKTIADKQADTNQEQAKTEDAKRHDKEQV" "i" "Han et al., 2011" -"TAUA-MONOMER" "MAISSRNTLLAALAFIAFQAQAVNVTVAYQTSAEPAKVAQADNTFAKESGATVDWRKFDSGASIVRALASGDVQIGNLGSSPLAVAASQQVPIEVFLLASKLGNSEALVVKKTISKPEDLIGKRIAVPFISTTHYSLLAALKHWGIKPGQVEIVNLQPPAIIAAWQRGDIDGAYVWAPAVNALEKDGKVLTDSEQVGQWGAPTLDVWVVRKDFAEKHPEVVKAFAKSAIDAQQPYIANPDVWLKQPENISKLARLSGVPEGDVPGLVKGNTYLTPQQQTAELTGPVNKAIIDTAQFLKEQGKVPAVANDYSQYVTSRFVQ" "p" "Han et al., 2011" -"TAUB-MONOMER" "MLQISHLYADYGGKPALEDINLTLESGELLVVLGPSGCGKTTLLNLIAGFVPYQHGSIQLAGKRIEGPGAERGVVFQNEGLLPWRNVQDNVAFGLQLAGIEKMQRLEIAHQMLKKVGLEGAEKRYIWQLSGGQRQRVGIARALAANPQLLLLDEPFGALDAFTRDQMQTLLLKLWQETGKQVLLITHDIEEAVFMATELVLLSSGPGRVLERLPLNFARRFVAGESSRSIKSDPQFIAMREYVLSRVFEQREAFS" "i" "EcoCyc dump" -"TAUC-MONOMER" "MSVLINEKLHSRRLKWRWPLSRQVTLSIGTLAVLLTVWWTVATLQLISPLFLPPPQQVLEKLLTIAGPQGFMDATLWQHLAASLTRIMLALFAAVLFGIPVGIAMGLSPTVRGILDPIIELYRPVPPLAYLPLMVIWFGIGETSKILLIYLAIFAPVAMSALAGVKSVQQVRIRAAQSLGASRAQVLWFVILPGALPEILTGLRIGLGVGWSTLVAAELIAATRGLGFMVQSAGEFLATDVVLAGIAVIAIIAFLLELGLRALQRRLTPWHGEVQ" "i" "Han et al., 2011" -"TDCC-MONOMER" "MSTSDSIVSSQTKQSSWRKSDTTWTLGLFGTAIGAGVLFFPIRAGFGGLIPILLMLVLAYPIAFYCHRALARLCLSGSNPSGNITETVEEHFGKTGGVVITFLYFFAICPLLWIYGVTITNTFMTFWENQLGFAPLNRGFVALFLLLLMAFVIWFGKDLMVKVMSYLVWPFIASLVLISLSLIPYWNSAVIDQVDLGSLSLTGHDGILITVWLGISIMVFSFNFSPIVSSFVVSKREEYEKDFGRDFTERKCSQIISRASMLMVAVVMFFAFSCLFTLSPANMAEAKAQNIPVLSYLANHFASMTGTKTTFAITLEYAASIIALVAIFKSFFGHYLGTLEGLNGLVLKFGYKGDKTKVSLGKLNTISMIFIMGSTWVVAYANPNILDLIEAMGAPIIASLLCLLPMYAIRKAPSLAKYRGRLDNVFVTVIGLLTILNIVYKLF" "i" "Han et al., 2011" -"TDK-MONOMER" "MAQLYFYYSAMNAGKSTALLQSSYNYQERGMRTVVYTAEIDDRFGAGKVSSRIGLSSPAKLFNQNSSLFDEIRAEHEQQAIHCVLVDECQFLTRQQVYELSEVVDQLDIPVLCYGLRTDFRGELFIGSQYLLAWSDKLVELKTICFCGRKASMVLRLDQAGRPYNEGEQVVIGGNERYVSVCRKHYKEALQVDSLTAIQERHRHD" "c" "Han et al., 2011" -"TDPFUCACTRANS-MONOMER" "VQAKIAASNTGELDALQQLGFSLVEGEVDLALPVNNASDSGAVVAQETDIPALRQLASAAFAQSRFRAPWYAPDASSRFYAQWIENAVRGTFDHQCLILRAASGDIRGYVSLRELNATDARIGLLAGRGAGAELMQTALNWAYARGKTTLRVATQMGNTAALKRYIQSGANVESTAYWLYR" "c" "Han et al., 2011" -"TEHA-MONOMER" "MQSDKVLNLPAGYFGIVLGTIGMGFAWRYASQVWQVSHWLGDGLVILAMIIWGLLTSAFIARLIRFPHSVLAEVRHPVLSSFVSLFPATTMLVAIGFVPWFRPLAVCLFSFGVVVQLAYAAWQTAGLWRGSHPEEATTPGLYLPTVANNFISAMACGALGYTDAGLVFLGAGVFSWLSLEPVILQRLRSSGELPTALRTSLGIQLAPALVACSAWLSVNGGEGDTLAKMLFGYGLLQLLFMLRLMPWYLSQPFNASFWSFSFGVSALATTGLHLGSGSDNGFFHTLAVPLFIFTNFIIAILLIRTFALLMQGKLLVRTERAVLMKAEDKE" "i" "Han et al., 2011" -"TETRAACYLDISACC4KIN-MONOMER" "MIEKIWSGESPLWRLLLPLSWLYGLVSGAIRLCYKLKLKRAWRAPVPVVVVGNLTAGGNGKTPVVVWLVEQLQQRGIRVGVVSRGYGGKAESYPLLLSADTTTAQAGDEPVLIYQRTDAPVAVSPVRSDAVKAILAQHPDVQIIVTDDGLQHYRLARDVEIVVIDGVRRFGNGWWLPAGPMRERAGRLKSVDAVIVNGGVPRSGEIPMHLLPGQAVNLRTGTRCDVAQLEHVVAMAGIGHPPRFFATLKMCGVQPEKCVPLADHQSLNHADVSALVSAGQTLVMTEKDAVKCRAFAEENWWYLPVDAQLSGDEPAKLLTQLTLLASGN" "i" "Han et al., 2011" -"THI-P-KIN-MONOMER" "MACGEFSLIARYFDRVRSSRLDVELGIGDDCALLNIPEKQTLAISTDTLVAGNHFLPDIDPADLAYKALAVNLSDLAAMGADPAWLTLALTLPDVDEAWLESFSDSLFDLLNYYDMQLIGGDTTRGPLSMTLGIHGFVPMGRALTRSGAKPGDWIYVTGTPGDSAAGLAILQNRLQVADAKDADYLIKRHLRPSPRILQGQALRDLANSAIDLSDGLISDLGHIVKASDCGARIDLALLPFSDALSRHVEPEQALRWALSGGEDYELCFTVPELNRGALDVALGHLGVPFTCIGQMTADIEGLCFIRDGEPVTLDWKGYDHFATP" "c" "Han et al., 2011" -"THIC-MONOMER" "MSATKLTRREQRARAQHFIDTLEGTAFPNSKRIYITGTHPGVRVPMREIQLSPTLIGGSKEQPQYEENEAIPVYDTSGPYGDPQIAINVQQGLAKLRQPWIDARGDTEELTVRSSDYTKARLADDGLDELRFSGVLTPKRAKAGRRVTQLHYARQGIITPEMEFIAIRENMGRERIRSEVLRHQHPGMSFGAHLPENITAEFVRDEVAAGRAIIPANINHPESEPMIIGRNFLVKVNANIGNSAVTSSIEEEVEKLVWSTRWGADTVMDLSTGRYIHETREWILRNSPVPIGTVPIYQALEKVNGIAEDLTWEAFRDTLLEQAEQGVDYFTIHAGVLLRYVPMTAKRLTGIVSRGGSIMAKWCLSHHQENFLYQHFREICEICAAYDVSLSLGDGLRPGSIQDANDEAQFAELHTLGELTKIAWEYDVQVMIEGPGHVPMQMIRRNMTEELEHCHEAPFYTLGPLTTDIAPGYDHFTSGIGAAMIGWFGCAMLCYVTPKEHLGLPNKEDVKQGLITYKIAAHAADLAKGHPGAQIRDNAMSKARFEFRWEDQFNLALDPFTARAYHDETLPQESGKVAHFCSMCGPKFCSMKISQEVRDYAATQTIEMGMADMSENFRARGGEIYLRKEEA" "c" "Han et al., 2011" -"THIE-MONOMER" "MYQPDFPPVPFRSGLYPVVDSVQWIERLLDAGVRTLQLRIKDRRDEEVEADVVAAIALGRRYNARLFINDYWRLAIKHQAYGVHLGQEDLQATDLNAIRAAGLRLGVSTHDDMEIDVALAARPSYIALGHVFPTQTKQMPSAPQGLEQLARHVERLADYPTVAIGGISLARAPAVIATGVGSIAVVSAITQAADWRLATAQLLEIAGVGDE" "c" "Lopez-Campistrous et al., 2005" -"THIF-MONOMER" "MNDRDFMRYSRQILLDDIALDGQQKLLDSQVLIIGLGGLGTPAALYLAGAGVGTLVLADDDDVHLSNLQRQILFTTEDIDRPKSQVSQQRLTQLNPDIQLTALQQRLTGEALKDAVARADVVLDCTDNMATRQEINAACVALNTPLITASAVGFGGQLMVLTPPWEQGCYRCLWPDNQEPERNCRTAGVVGPVVGVMGTLQALEAIKLLSGIETPAGELRLFDGKSSQWRSLALRRASGCPVCGGSNADPV" "i" "Han et al., 2011" -"THIG-MONOMER" "MLRIADKTFDSHLFTGTGKFASSQLMVEAIRASGSQLVTLAMKRVDLRQHNDAILEPLIAAGVTLLPNTSGAKTAEEAIFAAHLAREALGTNWLKLEIHPDARWLLPDPIETLKAAETLVQQGFVVLPYCGADPVLCKRLEEVGCAAVMPLGAPIGSNQGLETRAMLEIIIQQATVPVVVDAGIGVPSHAAQALEMGADAVLVNTAIAVADDPVNMAKAFRLAVEAGLLARQSGPGSRSYFAHATSPLTGFLEASA" "c" "Lopez-Campistrous et al., 2005" -"THIH-MONOMER" "MKTFSDRWRQLDWDDIRLRINGKTAADVERALNASQLTRDDMMALLSPAASGYLEQLAQRAQRLTRQRFGNTVSFYVPLYLSNLCANDCTYCGFSMSNRIKRKTLDEADIARESAAIREMGFEHLLLVTGEHQAKVGMDYFRRHLPALREQFSSLQMEVQPLAETEYAELKQLGLDGVMVYQETYHEATYARHHLKGKKQDFFWRLETPDRLGRAGIDKIGLGALIGLSDNWRVDSYMVAEHLLWLQQHYWQSRYSVSFPRLRPCTGGIEPASIMDERQLVQTICAFRLLAPEIELSLSTRESPWFRDRVIPLAINNVSAFSKTQPGGYADNHPELEQFSPHDDRRPEAVAAALTAQGLQPVWKDWDSYLGRASQRL" "c" "Han et al., 2011" -"THII-MONOMER" "MKFIIKLFPEITIKSQSVRLRFIKILTGNIRNVLKHYDETLAVVRHWDNIEVRAKDENQRLAIRDALTRIPGIHHILEVEDVPFTDMHDIFEKALVQYRDQLEGKTFCVRVKRRGKHDFSSIDVERYVGGGLNQHIESARVKLTNPDVTVHLEVEDDRLLLIKGRYEGIGGFPIGTQEDVLSLISGGFDSGVSSYMLMRRGCRVHYCFFNLGGAAHEIGVRQVAHYLWNRFGSSHRVRFVAINFEPVVGEILEKIDDGQMGVILKRMMVRAASKVAERYGVQALVTGEALGQVSSQTLTNLRLIDNVSDTLILRPLISYDKEHIINLARQIGTEDFARTMPEYCGVISKSPTVKAVKSKIEAEEEKFDFSILDKVVEEANNVDIREIAQQTEQEVVEVETVNGFGPNDVILDIRSIDEQEDKPLKVEGIDVVSLPFYKLSTKFGDLDQNKTWLLWCERGVMSRLQALYLREQGFNNVKVYRP" "c" "Han et al., 2011" -"THIKIN-MONOMER" "VPFRSNNPITRDELLSRFFPQYHPVTTFNSGLSGGSFLIEHQGQRFVVRQPHDPDAPQSAFLRQYRALSQLPACIAPKPHLYLRDWMVVDYLPGAVKTYLPDTNELAGLLYYLHQQPRFGWRITLLPLLELYWQQSDPARRTVGWLRMLKRLRKAREPRPLRLSPLHMDVHAGNLVHSASGLKLIDWEYAGDGDIALELAAVWVENTEQHRQLVNDYATRAKIYPAQLWRQVRRWFPWLLMLKAGWFEYRWRQTGDQQFIRLADDTWRQLLIKQ" "c" "Han et al., 2011" -"THIOESTERI-MONOMER" "MMNFNNVFRWHLPFLFLVLLTFRAAAADTLLILGDSLSAGYRMSASAAWPALLNDKWQSKTSVVNASISGDTSQQGLARLPALLKQHQPRWVLVELGGNDGLRGFQPQQTEQTLRQILQDVKAANAEPLLMQIRLPANYGRRYNEAFSAIYPKLAKEFDVPLLPFFMEEVYLKPQWMQDDGIHPNRDAQPFIADWMAKQLQPLVNHDS" "p" "Han et al., 2011" -"THIOESTERII-MONOMER" "MSQALKNLLTLLNLEKIEEGLFRGQSEDLGLRQVFGGQVVGQALYAAKETVPEERLVHSFHSYFLRPGDSKKPIIYDVETLRDGNSFSARRVAAIQNGKPIFYMTASFQAPEAGFEHQKTMPSAPAPDGLPSETQIAQSLAHLLPPVLKDKFICDRPLEVRPVEFHNPLKGHVAEPHRQVWIRANGSVPDDLRVHQYLLGYASDLNFLPVALQPHGIGFLEPGIQIATIDHSMWFHRPFNLNEWLLYSVESTSASSARGFVRGEFYTQDGVLVASTVQEGVMRNHN" "c" "Han et al., 2011" -"THIOREDOXIN-REDUCT-NADPH-MONOMER" "MGTTKHSKLLILGSGPAGYTAAVYAARANLQPVLITGMEKGGQLTTTTEVENWPGDPNDLTGPLLMERMHEHATKFETEIIFDHINKVDLQNRPFRLNGDNGEYTCDALIIATGASARYLGLPSEEAFKGRGVSACATCDGFFYRNQKVAVIGGGNTAVEEALYLSNIASEVHLIHRRDGFRAEKILIKRLMDKVENGNIILHTNRTLEEVTGDQMGVTGVRLRDTQNSDNIESLDVAGLFVAIGHSPNTAIFEGQLELENGYIKVQSGIHGNATQTSIPGVFAAGDVMDHIYRQAITSAGTGCMAALDAERYLDGLADAK" "c" "Lopez-Campistrous et al., 2005" -"THIS-MONOMER" "MQILFNDQAMQCAAGQTVHELLEQLDQRQAGAALAINQQIVPREQWAQHIVQDGDQILLFQVIAGG" "c" "Han et al., 2011" -"THREDEHYDCAT-MONOMER" "MHITYDLPVAIDDIIEAKQRLAGRIYKTGMPRSNYFSERCKGEIFLKFENMQRTGSFKIRGAFNKLSSLTDAEKRKGVVACSAGNHAQGVSLSCAMLGIDGKVVMPKGAPKSKVAATCDYSAEVVLHGDNFNDTIAKVSEIVEMEGRIFIPPYDDPKVIAGQGTIGLEIMEDLYDVDNVIVPIGGGGLIAGIAVAIKSINPTIRVIGVQSENVHGMAASFHSGEITTHRTTGTLADGCDVSRPGNLTYEIVRELVDDIVLVSEDEIRNSMIALIQRNKVVTEGAGALACAALLSGKLDQYIQNRKTVSIISGGNIDLSRVSQITGFVDA" "c" "Han et al., 2011" -"THREDEHYDSYN-MONOMER" "MADSQPLSGAPEGAEYLRAVLRAPVYEAAQVTPLQKMEKLSSRLDNVILVKREDRQPVHSFKLRGAYAMMAGLTEEQKAHGVITASAGNHAQGVAFSSARLGVKALIVMPTATADIKVDAVRGFGGEVLLHGANFDEAKAKAIELSQQQGFTWVPPFDHPMVIAGQGTLALELLQQDAHLDRVFVPVGGGGLAAGVAVLIKQLMPQIKVIAVEAEDSACLKAALDAGHPVDLPRVGLFAEGVAVKRIGDETFRLCQEYLDDIITVDSDAICAAMKDLFEDVRAVAEPSGALALAGMKKYIALHNIRGERLAHILSGANVNFHGLRYVSERCELGEQREALLAVTIPEEKGSFLKFCQLLGGRSVTEFNYRFADAKNACIFVGVRLSRGLEERKEILQMLNDGGYSVVDLSDDEMAKLHVRYMVGGRPSHPLQERLYSFEFPESPGALLRFLNTLGTYWNISLFHYRSHGTDYGRVLAAFELGDHEPDFETRLNELGYDCHDETNNPAFRFFLAG" "c" "Han et al., 2011" -"THREODEHYD-MONOMER" "MKALSKLKAEEGIWMTDVPVPELGHNDLLIKIRKTAICGTDVHIYNWDEWSQKTIPVPMVVGHEYVGEVVGIGQEVKGFKIGDRVSGEGHITCGHCRNCRGGRTHLCRNTIGVGVNRPGCFAEYLVIPAFNAFKIPDNISDDLAAIFDPFGNAVHTALSFDLVGEDVLVSGAGPIGIMAAAVAKHVGARNVVITDVNEYRLELARKMGITRAVNVAKENLNDVMAELGMTEGFDVGLEMSGAPPAFRTMLDTMNHGGRIAMLGIPPSDMSIDWTKVIFKGLFIKGIYGREMFETWYKMAALIQSGLDLSPIITHRFSIDDFQKGFDAMRSGQSGKVILSWD" "c" "Han et al., 2011" -"THRESYN-MONOMER" "MKLYNLKDHNEQVSFAQAVTQGLGKNQGLFFPHDLPEFSLTEIDEMLKLDFVTRSAKILSAFIGDEIPQEILEERVRAAFAFPAPVANVESDVGCLELFHGPTLAFKDFGGRFMAQMLTHIAGDKPVTILTATSGDTGAAVAHAFYGLPNVKVVILYPRGKISPLQEKLFCTLGGNIETVAIDGDFDACQALVKQAFDDEELKVALGLNSANSINISRLLAQICYYFEAVAQLPQETRNQLVVSVPSGNFGDLTAGLLAKSLGLPVKRFIAATNVNDTVPRFLHDGQWSPKATQATLSNAMDVSQPNNWPRVEELFRRKIWQLKELGYAAVDDETTQQTMRELKELGYTSEPHAAVAYRALRDQLNPGEYGLFLGTAHPAKFKESVEAILGETLDLPKELAERADLPLLSHNLPADFAALRKLMMNHQ" "c" "Han et al., 2011" -"THRS-MONOMER" "MPVITLPDGSQRHYDHAVSPMDVALDIGPGLAKACIAGRVNGELVDACDLIENDAQLSIITAKDEEGLEIIRHSCAHLLGHAIKQLWPHTKMAIGPVIDNGFYYDVDLDRTLTQEDVEALEKRMHELAEKNYDVIKKKVSWHEARETFANRGESYKVSILDENIAHDDKPGLYFHEEYVDMCRGPHVPNMRFCHHFKLMKTAGAYWRGDSNNKMLQRIYGTAWADKKALNAYLQRLEEAAKRDHRKIGKQLDLYHMQEEAPGMVFWHNDGWTIFRELEVFVRSKLKEYQYQEVKGPFMMDRVLWEKTGHWDNYKDAMFTTSSENREYCIKPMNCPGHVQIFNQGLKSYRDLPLRMAEFGSCHRNEPSGSLHGLMRVRGFTQDDAHIFCTEEQIRDEVNGCIRLVYDMYSTFGFEKIVVKLSTRPEKRIGSDEMWDRAEADLAVALEENNIPFEYQLGEGAFYGPKIEFTLYDCLDRAWQCGTVQLDFSLPSRLSASYVGEDNERKVPVMIHRAILGSMERFIGILTEEFAGFFPTWLAPVQVVIMNITDSQSEYVNELTQKLSNAGIRVKADLRNEKIGFKIREHTLRRVPYMLVCGDKEVESGKVAVRTRRGKDLGSMDVNEVIEKLQQEIRSRSLKQLEE" "c" "Han et al., 2011" -"THYMIDYLATESYN-MONOMER" "MKQYLELMQKVLDEGTQKNDRTGTGTLSIFGHQMRFNLQDGFPLVTTKRCHLRSIIHELLWFLQGDTNIAYLHENNVTIWDEWADENGDLGPVYGKQWRAWPTPDGRHIDQITTVLNQLKNDPDSRRIIVSAWNVGELDKMALAPCHAFFQFYVADGKLSCQLYQRSCDVFLGLPFNIASYALLVHMMAQQCDLEVGDFVWTGGDTHLYSNHMDQTHLQLSREPRPLPKLIIKRKPESIFDYRFEDFEIEGYDPHPGIKAPVAI" "c" "Han et al., 2011" -"THZ-KIN-MONOMER" "MQVDLLGSAQSAHALHLFHQHSPLVHCMTNDVVQTFTANTLLALGASPAMVIETEEASQFAAIASALLINVGTLTQPRAQAMRAAVEQAKSSQTPWTLDPVAVGALDYRRHFCHELLSFKPAAIRGNASEIMALAGIANGGRGVDTTDAAANAIPAAQTLARETGAIVVVTGEMDYVTDGHRIIGIHGGDPLMTKVVGTGCALSAVVAACCALPGDTLENVASACHWMKQAGERAVARSEGPGSFVPHFLDALWQLTQEVQA" "c" "Han et al., 2011" -"TNAB-MONOMER" "MTDQAEKKHSAFWGVMVIAGTVIGGGMFALPVDLAGAWFFWGAFILIIAWFSMLHSGLLLLEANLNYPVGSSFNTITKDLIGNTWNIISGITVAFVLYILTYAYISANGAIISETISMNLGYHANPRIVGICTAIFVASVLWLSSLAASRITSLFLGLKIISFVIVFGSFFFQVDYSILRDATSSTAGTSYFPYIFMALPVCLASFGFHGNIPSLIICYGKRKDKLIKSVVFGSLLALVIYLFWLYCTMGNIPRESFKAIISSGGNVDSLVKSFLGTKQHGIIEFCLLVFSNLAVASSFFGVTLGLFDYLADLFKIDNSHGGRFKTVLLTFLPPALLYLIFPNGFIYGIGGAGLCATIWAVIIPAVLAIKARKKFPNQMFTVWGGNLIPAIVILFGITVILCWFGNVFNVLPKFG" "i" "Han et al., 2011" -"TORA-MONOMER" "MNNNDLFQASRRRFLAQLGGLTVAGMLGPSLLTPRRATAAQAATDAVISKEGILTGSHWGAIRATVKDGRFVAAKPFELDKYPSKMIAGLPDHVHNAARIRYPMVRVDWLRKRHLSDTSQRGDNRFVRVSWDEALDMFYEELERVQKTHGPSALLTASGWQSTGMFHNASGMLAKAIALHGNSVGTGGDYSTGAAQVILPRVVGSMEVYEQQTSWPLVLQNSKTIVLWGSDLLKNQQANWWCPDHDVYEYYAQLKAKVAAGEIEVISIDPVVTSTHEYLGREHVKHIAVNPQTDVPLQLALAHTLYSENLYDKNFLANYCVGFEQFLPYLLGEKDGQPKDAAWAEKLTGIDAETIRGLARQMAANRTQIIAGWCVQRMQHGEQWAWMIVVLAAMLGQIGLPGGGFGFGWHYNGAGTPGRKGVILSGFSGSTSIPPVHDNSDYKGYSSTIPIARFIDAILEPGKVINWNGKSVKLPPLKMCIFAGTNPFHRHQQINRIIEGLRKLETVIAIDNQWTSTCRFADIVLPATTQFERNDLDQYGNHSNRGIIAMKQVVPPQFEARNDFDIFRELCRRFNREEAFTEGLDEMGWLKRIWQEGVQQGKGRGVHLPAFDDFWNNKEYVEFDHPQMFVRHQAFREDPDLEPLGTPSGLIEIYSKTIADMNYDDCQGHPMWFEKIERSHGGPGSQKYPLHLQSVHPDFRLHSQLCESETLRQQYTVAGKEPVFINPQDASARGIRNGDVVRVFNARGQVLAGAVVSDRYAPGVARIHEGAWYDPDKGGEPGALCKYGNPNVLTIDIGTSQLAQATSAHTTLVEIEKYNGTVEQVTAFNGPVEMVAQCEYVPASQVKS" "p" "Han et al., 2011" -"TORR-MONOMER" "MPHHIVIVEDEPVTQARLQSYFTQEGYTVSVTASGAGLREIMQNQSVDLILLDINLPDENGLMLTRALRERSTVGIILVTGRSDRIDRIVGLEMGADDYVTKPLELRELVVRVKNLLWRIDLARQAQPHTQDNCYRFAGYCLNVSRHTLERDGEPIKLTRAEYEMLVAFVTNPGEILSRERLLRMLSARRVENPDLRTVDVLIRRLRHKLSADLLVTQHGEGYFLAADVC" "c" "Han et al., 2011" -"TORS-MONOMER" "VNLTLTRRLWMGFALMALLTLTSTLVGWYNLRFISQVEKDNTQALIPTMNMARQLSEASAWELFAAQNLTSADNEKMWQAQGRMLTAQSLKINALLQALREQGFDTTAIEQQEQEISRSLRQQGELVGQRLQLRQQQQQLSQQIVAAADEIARLAQGQANNATTSAGATQAGIYDLIEQDQRQAAESALDRLIDIDLEYVNQMNELRLSALRVQQMVMNLGLEQIQKNAPTLEKQLNNAVKILQRRQIRIEDPGVRAQVATTLTTVSQYSDLLALYQQDSEISNHLQTLAQNNIAQFAQFSSEVSQLVDTIELRNQHGLAHLEKASARGQYSLLLLGMVSLCALILILWRVVYRSVTRPLAEQTQALQRLLDGDIDSPFPETAGVRELDTIGRLMDAFRSNVHALNRHREQLAAQVKARTAELQELVIEHRQARAEAEKASQAKSAFLAAMSHEIRTPLYGILGTAQLLADNPALNAQRDDLRAITDSGESLLTILNDILDYSAIEAGGKNVSVSDEPFEPRPLLESTLQLMSGRVKGRPIRLATAIADDMPCALMGDPRRIRQVITNLLSNALRFTDEGYIILRSRTDGEQWLVEVEDSGCGIDPAKLAEIFQPFVQVSGKRGGTGLGLTISSRLAQAMGGELSATSTPEVGSCFCLRLPLRVATAPVPKTVNQAVRLDGLRLLLIEDNPLTQRITIEMLKTSGAQIVAVGNAAQALETLQNSEPFAAALVDFDLPDIDGITLARQLAQQYPSLVLIGFSAHVIDETLRQRTSSLFRGIIPKPVPREVLGQLLAHYLQLQVNNDQSLDVSQLNEDAQLMGTEKIHEWLVLFTQHALPLLDEIDIARASQDSEKIKRAAHQLKSSCSSLGMHIASQLCAQLEQQPLSAPLPHEEITRSVAALEAWLHKKDLNAI" "i" "Han et al., 2011" -"TORT-MONOMER" "MRVLLFLLLSLFMLPAFSADNLLRWHDAQHFTVQASTPLKAKRAWKLCALYPSLKDSYWLSLNYGMQEAARRYGVDLKVLEAGGYSQLATQQAQIDQCKQWGAEAILLGSSTTSFPDLQKQVASLPVIELVNAIDAPQVKSRVGVPWFQMGYQPGRYLVQWAHGKPLNVLLMPGPDNAGGSKEMVEGFRAAIAGSPVRIVDIALGDNDIEIQRNLLQEMLERHPEIDVVAGTAIAAEAAMGEGRNLKTPLTVVSFYLSHQVYRGLKRGRVIMAASDQMVWQGELAVEQAIRQLQGQSVSDNVSPPILVLTPKNADREHIRRSLSPGGFRPVYFYQHTSAAKK" "p" "Han et al., 2011" -"TPI-MONOMER" "MRHPLVMGNWKLNGSRHMVHELVSNLRKELAGVAGCAVAIAPPEMYIDMAKREAEGSHIMLGAQNVDLNLSGAFTGETSAAMLKDIGAQYIIIGHSERRTYHKESDELIAKKFAVLKEQGLTPVLCIGETEAENEAGKTEEVCARQIDAVLKTQGAAAFEGAVIAYEPVWAIGTGKSATPAQAQAVHKFIRDHIAKVDANIAEQVIIQYGGSVNASNAAELFAQPDIDGALVGGASLKADAFAVIVKAAEAAKQA" "c" "Han et al., 2011" -"TRANSALDOLA-MONOMER" "MNELDGIKQFTTVVADSGDIESIRHYHPQDATTNPSLLLKAAGLSQYEHLIDDAIAWGKKNGKTQEQQVVAACDKLAVNFGAEILKIVPGRVSTEVDARLSFDKEKSIEKARHLVDLYQQQGVEKSRILIKLASTWEGIRAAEELEKEGINCNLTLLFSFAQARACAEAGVFLISPFVGRIYDWYQARKPMDPYVVEEDPGVKSVRNIYDYYKQHHYETIVMGASFRRTEQILALTGCDRLTIAPNLLKELQEKVSPVVRKLIPPSQTFPRPAPMSEAEFRWEHNQDAMAVEKLSEGIRLFAVDQRKLEDLLAAKL" "c" "Han et al., 2011" -"TRANSALDOLB-MONOMER" "MTDKLTSLRQYTTVVADTGDIAAMKLYQPQDATTNPSLILNAAQIPEYRKLIDDAVAWAKQQSNDRAQQIVDATDKLAVNIGLEILKLVPGRISTEVDARLSYDTEASIAKAKRLIKLYNDAGISNDRILIKLASTWQGIRAAEQLEKEGINCNLTLLFSFAQARACAEAGVFLISPFVGRILDWYKANTDKKEYAPAEDPGVVSVSEIYQYYKEHGYETVVMGASFRNIGEILELAGCDRLTIAPALLKELAESEGAIERKLSYTGEVKARPARITESEFLWQHNQDPMAVDKLAEGIRKFAIDQEKLEKMIGDLL" "c" "Lopez-Campistrous et al., 2005" -"TRANSKETOI-MONOMER" "MSSRKELANAIRALSMDAVQKAKSGHPGAPMGMADIAEVLWRDFLKHNPQNPSWADRDRFVLSNGHGSMLIYSLLHLTGYDLPMEELKNFRQLHSKTPGHPEVGYTAGVETTTGPLGQGIANAVGMAIAEKTLAAQFNRPGHDIVDHYTYAFMGDGCMMEGISHEVCSLAGTLKLGKLIAFYDDNGISIDGHVEGWFTDDTAMRFEAYGWHVIRDIDGHDAASIKRAVEEARAVTDKPSLLMCKTIIGFGSPNKAGTHDSHGAPLGDAEIALTREQLGWKYAPFEIPSEIYAQWDAKEAGQAKESAWNEKFAAYAKAYPQEAAEFTRRMKGEMPSDFDAKAKEFIAKLQANPAKIASRKASQNAIEAFGPLLPEFLGGSADLAPSNLTLWSGSKAINEDAAGNYIHYGVREFGMTAIANGISLHGGFLPYTSTFLMFVEYARNAVRMAALMKQRQVMVYTHDSIGLGEDGPTHQPVEQVASLRVTPNMSTWRPCDQVESAVAWKYGVERQDGPTALILSRQNLAQQERTEEQLANIARGGYVLKDCAGQPELIFIATGSEVELAVAAYEKLTAEGVKARVVSMPSTDAFDKQDAAYRESVLPKAVTARVAVEAGIADYWYKYVGLNGAIVGMTTFGESAPAELLFEEFGFTVDNVVAKAKELL" "c" "Lopez-Campistrous et al., 2005" -"TRANSKETOII-MONOMER" "MSRKDLANAIRALSMDAVQKANSGHPGAPMGMADIAEVLWNDFLKHNPTDPTWYDRDRFILSNGHASMLLYSLLHLTGYDLPLEELKNFRQLHSKTPGHPEIGYTPGVETTTGPLGQGLANAVGLAIAERTLAAQFNQPDHEIVDHFTYVFMGDGCLMEGISHEVCSLAGTLGLGKLIGFYDHNGISIDGETEGWFTDDTAKRFEAYHWHVIHEIDGHDPQAVKEAILEAQSVKDKPSLIICRTVIGFGSPNKAGKEEAHGAPLGEEEVALARQKLGWHHPPFEIPKEIYHAWDAREKGEKAQQSWNEKFAAYKKAHPQLAEEFTRRMSGGLPKDWEKTTQKYINELQANPAKIATRKASQNTLNAYGPMLPELLGGSADLAPSNLTIWKGSVSLKEDPAGNYIHYGVREFGMTAIANGIAHHGGFVPYTATFLMFVEYARNAARMAALMKARQIMVYTHDSIGLGEDGPTHQAVEQLASLRLTPNFSTWRPCDQVEAAVGWKLAVERHNGPTALILSRQNLAQVERTPDQVKEIARGGYVLKDSGGKPDIILIATGSEMEITLQAAEKLAGEGRNVRVVSLPSTDIFDAQDEEYRESVLPSNVAARVAVEAGIADYWYKYVGLKGAIVGMTGYGESAPADKLFPFFGFTAENIVAKAHKVLGVKGA" "c" "Han et al., 2011" -"TRE6PHYDRO-MONOMER" "MTHLPHWWQNGVIYQIYPKSFQDTTGSGTGDLRGVIQHLDYLHKLGVDAIWLTPFYVSPQVDNGYDVANYTAIDPTYGTLDDFDELVTQAKSRGIRIILDMVFNHTSTQHAWFREALNKESPYRQFYIWRDGEPETPPNNWRSKFGGSAWRWHAESEQYYLHLFAPEQADLNWENPAVRAELKKVCEFWADRGVDGLRLDVVNLISKDPRFPEDLDGDGRRFYTDGPRAHEFLHEMNRDVFTPRGLMTVGEMSSTSLEHCQRYAALTGSELSMTFNFHHLKVDYPGGEKWTLAKPDFVALKTLFRHWQQGMHNVAWNALFWCNHDQPRIVSRFGDEGEYRVPAAKMLAMVLHGMQGTPYIYQGEEIGMTNPHFTRITDYRDVESLNMFAELRNDGRDADELLAILASKSRDNSRTPMQWSNGDNAGFTAGEPWIGLGDNYQQINVEAALADDSSVFYTYQKLIALRKQEAILTWGNYQDLLPNSPVLWCYRREWKGQTLLVIANLSREIQPWQAGQMRGNWQLVMHNYEEASPQPCAMNLRPFEAVWWLQK" "c" "Han et al., 2011" -"TREB-MONOMER" "MMSKINQTDIDRLIELVGGRGNIATVSHCITRLRFVLNQPANARPKEIEQLPMVKGCFTNAGQFQVVIGTNVGDYYQALIASTGQAQVDKEQVKKAARHNMKWHEQLISHFAVIFFPLLPALISGGLILGFRNVIGDLPMSNGQTLAQMYPSLQTIYDFLWLIGEAIFFYLPVGICWSAVKKMGGTPILGIVLGVTLVSPQLMNAYLLGQQLPEVWDFGMFSIAKVGYQAQVIPALLAGLALGVIETRLKRIVPDYLYLVVVPVCSLILAVFLAHALIGPFGRMIGDGVAFAVRHLMTGSFAPIGAALFGFLYAPLVITGVHQTTLAIDLQMIQSMGGTPVWPLIALSNIAQGSAVIGIIISSRKHNEREISVPAAISAWLGVTEPAMYGINLKYRFPMLCAMIGSGLAGLLCGLNGVMANGIGVGGLPGILSIQPSYWQVFALAMAIAIIIPIVLTSFIYQRKYRLGTLDIV" "i" "Han et al., 2011" -"TREHALACYTO-MONOMER" "MLNQKIQNPNPDELMIEVDLCYELDPYELKLDEMIEAEPEPEMIEGLPASDALTPADRYLELFEHVQSAKIFPDSKTFPDCAPKMDPLDILIRYRKVRRHRDFDLRKFVENHFWLPEVYSSEYVSDPQNSLKEHIDQLWPVLTREPQDHIPWSSLLALPQSYIVPGGRFSETYYWDSYFTMLGLAESGREDLLKCMADNFAWMIENYGHIPNGNRTYYLSRSQPPVFALMVELFEEDGVRGARRYLDHLKMEYAFWMDGAESLIPNQAYRHVVRMPDGSLLNRYWDDRDTPRDESWLEDVETAKHSGRPPNEVYRDLRAGAASGWDYSSRWLRDTGRLASIRTTQFIPIDLNAFLFKLESAIANISALKGEKETEALFRQKASARRDAVNRYLWDDENGIYRDYDWRREQLALFSAAAIVPLYVGMANHEQADRLANAVRSRLLTPGGILASEYETGEQWDKPNGWAPLQWMAIQGFKMYGDDLLGDEIARSWLKTVNQFYLEQHKLIEKYHIADGVPREGGGGEYPLQDGFGWTNGVVRRLIGLYGEP" "c" "Han et al., 2011" -"TREHALAPERI-MONOMER" "MKSPAPSRPQKMALIPACIFLCFAALSVQAEETPVTPQPPDILLGPLFNDVQNAKLFPDQKTFADAVPNSDPLMILADYRMQQNQSGFDLRHFVNVNFTLPKEGEKYVPPEGQSLREHIDGLWPVLTRSTENTEKWDSLLPLPEPYVVPGGRFREVYYWDSYFTMLGLAESGHWDKVADMVANFAHEIDTYGHIPNGNRSYYLSRSQPPFFALMVELLAQHEGDAALKQYLPQMQKEYAYWMDGVENLQAGQQEKRVVKLQDGTLLNRYWDDRDTPRPESWVEDIATAKSNPNRPATEIYRDLRSAAASGWDFSSRWMDNPQQLNTLRTTSIVPVDLNSLMFKMEKILARASKAAGDNAMANQYETLANARQKGIEKYLWNDQQGWYADYDLKSHKVRNQLTAAALFPLYVNAAAKDRANKMATATKTHLLQPGGLNTTSVKSGQQWDAPNGWAPLQWVATEGLQNYGQKEVAMDISWHFLTNVQHTYDREKKLVEKYDVSTTGTGGGGGEYPLQDGFGWTNGVTLKMLDLICPKEQPCDNVPATRPTVKSATTQPSTKEAQPTP" "p" "Han et al., 2011" -"TREHALOSE6PSYN-MONOMER" "MSRLVVVSNRIAPPDEHAASAGGLAVGILGALKAAGGLWFGWSGETGNEDQPLKKVKKGNITWASFNLSEQDLDEYYNQFSNAVLWPAFHYRLDLVQFQRPAWDGYLRVNALLADKLLPLLQDDDIIWIHDYHLLPFAHELRKRGVNNRIGFFLHIPFPTPEIFNALPTYDTLLEQLCDYDLLGFQTENDRLAFLDCLSNLTRVTTRSAKSHTAWGKAFRTEVYPIGIEPKEIAKQAAGPLPPKLAQLKAELKNVQNIFSVERLDYSKGLPERFLAYEALLEKYPQHHGKIRYTQIAPTSRGDVQAYQDIRHQLENEAGRINGKYGQLGWTPLYYLNQHFDRKLLMKIFRYSDVGLVTPLRDGMNLVAKEYVAAQDPANPGVLVLSQFAGAANELTSALIVNPYDRDEVAAALDRALTMSLAERISRHAEMLDVIVKNDINHWQECFISDLKQIVPRSAESQQRDKVATFPKLA" "c" "Han et al., 2011" -"TREHALOSEPHOSPHASYN-MONOMER" "VTEPLTETPELSAKYAWFFDLDGTLAEIKPHPDQVVVPDNILQGLQLLATASDGALALISGRSMVELDALAKPYRFPLAGVHGAERRDINGKTHIVHLPDAIARDISVQLHTVIAQYPGAELEAKGMAFALHYRQAPQHEDALMTLAQRITQIWPQMALQQGKCVVEIKPRGTSKGEAIAAFMQEAPFIGRTPVFLGDDLTDESGFAVVNRLGGMSVKIGTGATQASWRLAGVPDVWSWLEMITTALQQKRENNRSDDYESFSRSI" "c" "Han et al., 2011" -"TRG-MONOMER" "MNTTPSQRLGFLHHIRLVPLFACILGGILVLFALSSALAGYFLWQADRDQRDVTAEIEIRTGLANSSDFLRSARINMIQAGAASRIAEMEAMKRNIAQAESEIKQSQQGYRAYQNRPVKTPADEALDTELNQRFQAYITGMQPMLKYAKNGMFEAIINHESEQIRPLDNAYTDILNKAVKIRSTRANQLAELAHQRTRLGGMFMIGAFVLALVMTLITFMVLRRIVIRPLQHAAQRIEKIASGDLTMNDEPAGRNEIGRLSRHLQQMQHSLGMTVGTVRQGAEEIYRGTSEISAGNADLSSRTEEQAAAIEQTAASMEQLTATVKQNADNAHHASKLAQEASIKASDGGQTVSGVVKTMGAISTSSKKISEITAVINSIAFQTNILALNAAVEAARAGEQGRGFAVVASEVRTLASRSAQAAKEIEGLISESVRLIDLGSDEVATAGKTMSTIVDAVASVTHIMQEIAAASDEQSRGITQVSQAISEMDKVTQQNASLVEEASAAAVSLEEQAARLTEAVDVFRLHKHSVSAEPRGAGEPVSFATV" "i" "Han et al., 2011" -"TRKA-MONOMER" "MKIIILGAGQVGGTLAENLVGENNDITVVDTNGERLRTLQDKFDLRVVQGHGSHPRVLREAGADDADMLVAVTSSDETNMVACQVAYSLFNTPNRIARIRSPDYVRDADKLFHSDAVPIDHLIAPEQLVIDNIYRLIEYPGALQVVNFAEGKVSLAVVKAYYGGPLIGNALSTMREHMPHIDTRVAAIFRHDRPIRPQGSTIVEAGDEVFFIAASQHIRAVMSELQRLEKPYKRIMLVGGGNIGAGLARRLEKDYSVKLIERNQQRAAELAEKLQNTIVFFGDASDQELLAEEHIDQVDLFIAVTNDDEANIMSAMLAKRMGAKKVMVLIQRRAYVDLVQGSVIDIAISPQQATISALLSHVRKADIVGVSSLRRGVAEAIEAVAHGDESTSRVVGRVIDEIKLPPGTIIGAVVRGNDVMIANDNLRIEQGDHVIMFLTDKKFITDVERLFQPSPFFL" "c" "Han et al., 2011" -"TRKG-MONOMER" "MNTSHVRVVTHMCGFLVWLYSLSMLPPMVVALFYKEKSLFVFFITFVIFFCIGGGAWYTTKKSGIQLRTRDGFIIIVMFWILFSVISAFPLWIDSELNLTFIDALFEGVSGITTTGATVIDDVSSLPRAYLYYRSQLNFIGGLGVIVLAVAVLPLLGIGGAKLYQSEMPGPFKDDKLTPRLADTSRTLWITYSLLGIACIVCYRLAGMPLFDAICHGISTVSLGGFSTHSESIGYFNNYLVELVAGSFSLLSAFNFTLWYIVISRKTIKPLIRDIELRFFLLIALGVIIVTSFQVWHIGMYDLHGSFIHSFFLASSMLTDNGLATQDYASWPTHTIVFLLLSSFFGGCIGSTCGGIKSLRFLILFKQSKHEINQLSHPRALLSVNVGGKIVTDRVMRSVWSFFFLYTLFTVFFILVLNGMGYDFLTSFATVAACINNMGLGFGATASSFGVLNDIAKCLMCIAMILGRLEIYPVIILFSGFFWRS" "i" "Han et al., 2011" -"TRKH-MONOMER" "MHFRAITRIVGLLVILFSGTMIIPGLVALIYRDGAGRAFTQTFFVALAIGSMLWWPNRKEKGELKSREGFLIVVLFWTVLGSVGALPFIFSESPNLTITDAFFESFSGLTTTGATTLVGLDSLPHAILFYRQMLQWFGGMGIIVLAVAILPILGVGGMQLYRAEMPGPLKDNKMRPRIAETAKTLWLIYVLLTVACALALWFAGMDAFDAIGHSFATIAIGGFSTHDASIGYFDSPTINTIIAIFLLISGCNYGLHFSLLSGRSLKVYWRDPEFRMFIGVQFTLVVICTLVLWFHNVYSSALMTINQAFFQVVSMATTAGFTTDSIARWPLFLPVLLLCSAFIGGCAGSTGGGLKVIRILLLFKQGNRELKRLVHPNAVYSIKLGNRALPERILEAVWGFFSAYALVFIVSMLAIIATGVDDFSAFASVVATLNNLGPGLGVVADNFTSMNPVAKWILIANMLFGRLEVFTLLVLFTPTFWRE" "i" "Han et al., 2011" -"TRPS-MONOMER" "MTKPIVFSGAQPSGELTIGNYMGALRQWVNMQDDYHCIYCIVDQHAITVRQDAQKLRKATLDTLALYLACGIDPEKSTIFVQSHVPEHAQLGWALNCYTYFGELSRMTQFKDKSARYAENINAGLFDYPVLMAADILLYQTNLVPVGEDQKQHLELSRDIAQRFNALYGEIFKVPEPFIPKSGARVMSLLEPTKKMSKSDDNRNNVIGLLEDPKSVVKKIKRAVTDSDEPPVVRYDVQNKAGVSNLLDILSAVTGQSIPELEKQFEGKMYGHLKGEVADAVSGMLTELQERYHRFRNDEAFLQQVMKDGAEKASAHASRTLKAVYEAIGFVAKP" "c" "Lopez-Campistrous et al., 2005" -"TRYPSYN-APROTEIN" "MERYESLFAQLKERKEGAFVPFVTLGDPGIEQSLKIIDTLIEAGADALELGIPFSDPLADGPTIQNATLRAFAAGVTPAQCFEMLALIRQKHPTIPIGLLMYANLVFNKGIDEFYAQCEKVGVDSVLVADVPVEESAPFRQAALRHNVAPIFICPPNADDDLLRQIASYGRGYTYLLSRAGVTGAENRAALPLNHLVAKLKEYNAAPPLQGFGISAPDQVKAAIDAGAAGAISGSAIVKIIEQHINEPEKMLAALKVFVQPMKAATRS" "c" "Lopez-Campistrous et al., 2005" -"TRYPSYN-BPROTEIN" "MTTLLNPYFGEFGGMYVPQILMPALRQLEEAFVSAQKDPEFQAQFNDLLKNYAGRPTALTKCQNITAGTNTTLYLKREDLLHGGAHKTNQVLGQALLAKRMGKTEIIAETGAGQHGVASALASALLGLKCRIYMGAKDVERQSPNVFRMRLMGAEVIPVHSGSATLKDACNEALRDWSGSYETAHYMLGTAAGPHPYPTIVREFQRMIGEETKAQILEREGRLPDAVIACVGGGSNAIGMFADFINETNVGLIGVEPGGHGIETGEHGAPLKHGRVGIYFGMKAPMMQTEDGQIEESYSISAGLDFPSVGPQHAYLNSTGRADYVSITDDEALEAFKTLCLHEGIIPALESSHALAHALKMMRENPDKEQLLVVNLSGRGDKDIFTVHDILKARGEI" "c" "Lopez-Campistrous et al., 2005" -"TRYPTOPHAN-MONOMER" "MENFKHLPEPFRIRVIEPVKRTTRAYREEAIIKSGMNPFLLDSEDVFIDLLTDSGTGAVTQSMQAAMMRGDEAYSGSRSYYALAESVKNIFGYQYTIPTHQGRGAEQIYIPVLIKKREQEKGLDRSKMVAFSNYFFDTTQGHSQINGCTVRNVYIKEAFDTGVRYDFKGNFDLEGLERGIEEVGPNNVPYIVATITSNSAGGQPVSLANLKAMYSIAKKYDIPVVMDSARFAENAYFIKQREAEYKDWTIEQITRETYKYADMLAMSAKKDAMVPMGGLLCMKDDSFFDVYTECRTLCVVQEGFPTYGGLEGGAMERLAVGLYDGMNLDWLAYRIAQVQYLVDGLEEIGVVCQQAGGHAAFVDAGKLLPHIPADQFPAQALACELYKVAGIRAVEIGSFLLGRDPKTGKQLPCPAELLRLTIPRATYTQTHMDFIIEAFKHVKENAANIKGLTFTYEPKVLRHFTAKLKEV" "c" "Han et al., 2011" -"TSA-REDUCT-MONOMER" "MTMKVGFIGLGIMGKPMSKNLLKAGYSLVVADRNPEAIADVIAAGAETASTAKAIAEQCDVIITMLPNSPHVKEVALGENGIIEGAKPGTVLIDMSSIAPLASREISEALKAKGIDMLDAPVSGGEPKAIDGTLSVMVGGDKAIFDKYYDLMKAMAGSVVHTGEIGAGNVTKLANQVIVALNIAAMSEALTLATKAGVNPDLVYQAIRGGLAGSTVLDAKAPMVMDRNFKPGFRIDLHIKDLANALDTSHGVGAQLPLTAAVMEMMQALRADGLGTADHSALACYYEKLAKVEVTR" "c" "Han et al., 2011" -"TSR-MONOMER" "MLKRIKIVTSLLLVLAVFGLLQLTSGGLFFNALKNDKENFTVLQTIRQQQSTLNGSWVALLQTRNTLNRAGIRYMMDQNNIGSGSTVAELMESASISLKQAEKNWADYEALPRDPRQSTAAAAEIKRNYDIYHNALAELIQLLGAGKINEFFDQPTQGYQDGFEKQYVAYMEQNDRLHDIAVSDNNASYSQAMWILVGVMIVVLAVIFAVWFGIKASLVAPMNRLIDSIRHIAGGDLVKPIEVDGSNEMGQLAESLRHMQGELMRTVGDVRNGANAIYSGASEIATGNNDLSSRTEQQAASLEETAASMEQLTATVKQNAENARQASHLALSASETAQRGGKVVDNVVQTMRDISTSSQKIADIISVIDGIAFQTNILALNAAVEAARAGEQGRGFAVVAGEVRNLAQRSAQAAREIKSLIEDSVGKVDVGSTLVESAGETMAEIVSAVTRVTDIMGEIASASDEQSRGIDQVGLAVAEMDRVTQQNAALVEESAAAAAALEEQASRLTEAVAVFRIQQQQRETSAVVKTVTPAAPRKMAVADSEENWETF" "i" "Han et al., 2011" -"TTDA-MONOMER" "MMSESNKQQAVNKLTEIVANFTAMISTRMPDDVVDKLKQLKDAETSSMGKIIYHTMFDNMQKAIDLNRPACQDTGEIMFFVKVGSRFPLLGELQSILKQAVEEATVKAPLRHNAVEIFDEVNTGKNTGSGVPWVTWDIIPDNDDAEIEVYMAGGGCTLPGRSKVLMPSEGYEGVVKFVFENISTLAVNACPPVLVGVGIATSVETAAVLSRKAILRPIGSRHPNPKAAELELRLEEGLNRLGIGPQGLTGNSSVMGVHIESAARHPSTIGVAVSTGCWAHRRGTLLVHADLTFENLSHTRSAL" "c" "Han et al., 2011" -"TTDB-MONOMER" "MKKILTTPIKAEDLQDIRVGDVIYLTGTLVTCRDVCHRRLIELKRPIPYDLNGKAIFHAGPIVRKNGDKWEMVSVGPTTSMRMESFEREFIEQTGVKLVVGKGGMGPLTEEGCQKFKALHVIFPAGCAVLAATQVEEIEEVHWTELGMPESLWVCRVKEFGPLIVSIDTHGNNLIAENKKLFAERRDPIVEEICEHVHYIK" "c" "Han et al., 2011" -"TYRB-MONOMER" "VFQKVDAYAGDPILTLMERFKEDPRSDKVNLSIGLYYNEDGIIPQLQAVAEAEARLNAQPHGASLYLPMEGLNCYRHAIAPLLFGADHPVLKQQRVATIQTLGGSGALKVGADFLKRYFPESGVWVSDPTWENHVAIFAGAGFEVSTYPWYDEATNGVRFNDLLATLKTLPARSIVLLHPCCHNPTGADLTNDQWDAVIEILKARELIPFLDIAYQGFGAGMEEDAYAIRAIASAGLPALVSNSFSKIFSLYGERVGGLSVMCEDAEAAGRVLGQLKATVRRNYSSPPNFGAQVVAAVLNDEALKASWLAEVEEMRTRILAMRQELVKVLSTEMPERNFDYLLNQRGMFSYTGLSAAQVDRLREEFGVYLIASGRMCVAGLNTANVQRVAKAFAAVM" "c" "Han et al., 2011" -"TYRP-MONOMER" "VKNRTLGSVFIVAGTTIGAGMLAMPLAAAGVGFSVTLILLIGLWALMCYTALLLLEVYQHVPADTGLGTLAKRYLGRYGQWLTGFSMMFLMYALTAAYISGAGELLASSISDWTGISMSATAGVLLFTFVAGGVVCVGTSLVDLFNRFLFSAKIIFLVVMLVLLLPHIHKVNLLTLPLQQGLALSAIPVIFTSFGFHGSVPSIVSYMDGNIRKLRWVFIIGSAIPLVAYIFWQVATLGSIDSTTFMGLLANHAGLNGLLQALREMVASPHVELAVHLFADLALATSFLGVALGLFDYLADLFQRSNTVGGRLQTGAITFLPPLAFALFYPRGFVMALGYAGVALAVLALIIPSLLTWQSRKHNPQAGYRVKGGRPALVVVFLCGIAVIGVQFLIAAGLLPEVG" "i" "Han et al., 2011" -"TYRS-MONOMER" "MASSNLIKQLQERGLVAQVTDEEALAERLAQGPIALYCGFDPTADSLHLGHLVPLLCLKRFQQAGHKPVALVGGATGLIGDPSFKAAERKLNTEETVQEWVDKIRKQVAPFLDFDCGENSAIAANNYDWFGNMNVLTFLRDIGKHFSVNQMINKEAVKQRLNREDQGISFTEFSYNLLQGYDFACLNKQYGVVLQIGGSDQWGNITSGIDLTRRLHQNQVFGLTVPLITKADGTKFGKTEGGAVWLDPKKTSPYKFYQFWINTADADVYRFLKFFTFMSIEEINALEEEDKNSGKAPRAQYVLAEQVTRLVHGEEGLQAAKRITECLFSGSLSALSEADFEQLAQDGVPMVEMEKGADLMQALVDSELQPSRGQARKTIASNAITINGEKQSDPEYFFKEEDRLFGRFTLLRRGKKNYCLICWK" "c" "Han et al., 2011" -"UBIX-MONOMER" "MKRLIVGISGASGAIYGVRLLQVLRDVTDIETHLVMSQAARQTLSLETDFSLREVQALADVTHDARDIAASISSGSFQTLGMVILPCSIKTLSGIVHSYTDGLLTRAADVVLKERRPLVLCVRETPLHLGHLRLMTQAAEIGAVIMPPVPAFYHRPQSLDDVINQTVNRVLDQFAITLPEDLFARWQGA" "c" "Han et al., 2011" -"UDHA-MONOMER" "MPHSYDYDAIVIGSGPGGEGAAMGLVKQGARVAVIERYQNVGGGCTHWGTIPSKALRHAVSRIIEFNQNPLYSDHSRLLRSSFADILNHADNVINQQTRMRQGFYERNHCEILQGNARFVDEHTLALDCPDGSVETLTAEKFVIACGSRPYHPTDVDFTHPRIYDSDSILSMHHEPRHVLIYGAGVIGCEYASIFRGMDVKVDLINTRDRLLAFLDQEMSDSLSYHFWNSGVVIRHNEEYEKIEGCDDGVIMHLKSGKKLKADCLLYANGRTGNTDSLALQNIGLETDSRGQLKVNSMYQTAQPHVYAVGDVIGYPSLASAAYDQGRIAAQALVKGEATAHLIEDIPTGIYTIPEISSVGKTEQQLTAMKVPYEVGRAQFKHLARAQIVGMNVGTLKILFHRETKEILGIHCFGERAAEIIHIGQAIMEQKGGGNTIEYFVNTTFNYPTMAEAYRVAALNGLNRLF" "c" "Han et al., 2011" -"UDK-MONOMER" "MTDQSHQCVIIGIAGASASGKSLIASTLYRELREQVGDEHIGVIPEDCYYKDQSHLSMEERVKTNYDHPSAMDHSLLLEHLQALKRGSAIDLPVYSYVEHTRMKETVTVEPKKVIILEGILLLTDARLRDELNFSIFVDTPLDICLMRRIKRDVNERGRSMDSVMAQYQKTVRPMFLQFIEPSKQYADIIVPRGGKNRIAIDILKAKISQFFE" "c" "Han et al., 2011" -"UDP-NACMUR-ALA-LIG-MONOMER" "MNTQQLAKLRSIVPEMRRVRHIHFVGIGGAGMGGIAEVLANEGYQISGSDLAPNPVTQQLMNLGATIYFNHRPENVRDASVVVVSSAISADNPEIVAAHEARIPVIRRAEMLAELMRFRHGIAIAGTHGKTTTTAMVSSIYAEAGLDPTFVNGGLVKAAGVHARLGHGRYLIAEADESDASFLHLQPMVAIVTNIEADHMDTYQGDFENLKQTFINFLHNLPFYGRAVMCVDDPVIRELLPRVGRQTTTYGFSEDADVRVEDYQQIGPQGHFTLLRQDKEPMRVTLNAPGRHNALNAAAAVAVATEEGIDDEAILRALESFQGTGRRFDFLGEFPLEPVNGKSGTAMLVDDYGHHPTEVDATIKAARAGWPDKNLVMLFQPHRFTRTRDLYDDFANVLTQVDTLLMLEVYPAGEAPIPGADSRSLCRTIRGRGKIDPILVPDPARVAEMLAPVLTGNDLILVQGAGNIGKIARSLAEIKLKPQTPEEEQHD" "c" "Han et al., 2011" -"UDP-NACMURALA-GLU-LIG-MONOMER" "MADYQGKNVVIIGLGLTGLSCVDFFLARGVTPRVMDTRMTPPGLDKLPEAVERHTGSLNDEWLMAADLIVASPGIALAHPSLSAAADAGIEIVGDIELFCREAQAPIVAITGSNGKSTVTTLVGEMAKAAGVNVGVGGNIGLPALMLLDDECELYVLELSSFQLETTSSLQAVAATILNVTEDHMDRYPFGLQQYRAAKLRIYENAKVCVVNADDALTMPIRGADERCVSFGVNMGDYHLNHQQGETWLRVKGEKVLNVKEMKLSGQHNYTNALAALALADAAGLPRASSLKALTTFTGLPHRFEVVLEHNGVRWINDSKATNVGSTEAALNGLHVDGTLHLLLGGDGKSADFSPLARYLNGDNVRLYCFGRDGAQLAALRPEVAEQTETMEQAMRLLAPRVQPGDMVLLSPACASLDQFKNFEQRGNEFARLAKELG" "c" "Han et al., 2011" -"UDP-NACMURALGLDAPAALIG-MONOMER" "MISVTLSQLTDILNGELQGADITLDAVTTDTRKLTPGCLFVALKGERFDAHDFADQAKAGGAGALLVSRPLDIDLPQLIVKDTRLAFGELAAWVRQQVPARVVALTGSSGKTSVKEMTAAILSQCGNTLYTAGNLNNDIGVPMTLLRLTPEYDYAVIELGANHQGEIAWTVSLTRPEAALVNNLAAAHLEGFGSLAGVAKAKGEIFSGLPENGIAIMNADNNDWLNWQSVIGSRKVWRFSPNAANSDFTATNIHVTSHGTEFTLQTPTGSVDVLLPLPGRHNIANALAAAALSMSVGATLDAIKAGLANLKAVPGRLFPIQLAENQLLLDDSYNANVGSMTAAVQVLAEMPGYRVLVVGDMAELGAESEACHVQVGEAAKAAGIDRVLSVGKQSHAISTASGVGEHFADKTALITRLKLLIAEQQVITILVKGSRSAAMEEVVRALQENGTC" "c" "Han et al., 2011" -"UDP-NACMURALGLDAPLIG-MONOMER" "VADRNLRDLLAPWVPDAPSRALREMTLDSRVAAAGDLFVAVVGHQADGRRYIPQAIAQGVAAIIAEAKDEATDGEIREMHGVPVIYLSQLNERLSALAGRFYHEPSDNLRLVGVTGTNGKTTTTQLLAQWSQLLGEISAVMGTVGNGLLGKVIPTENTTGSAVDVQHELAGLVDQGATFCAMEVSSHGLVQHRVAALKFAASVFTNLSRDHLDYHGDMEHYEAAKWLLYSEHHCGQAIINADDEVGRRWLAKLPDAVAVSMEDHINPNCHGRWLKATEVNYHDSGATIRFSSSWGDGEIESHLMGAFNVSNLLLALATLLALGYPLADLLKTAARLQPVCGRMEVFTAPGKPTVVVDYAHTPDALEKALQAARLHCAGKLWCVFGCGGDRDKGKRPLMGAIAEEFADVAVVTDDNPRTEEPRAIINDILAGMLDAGHAKVMEGRAEAVTCAVMQAKENDVVLVAGKGHEDYQIVGNQRLDYSDRVTVARLLGVIA" "c" "Han et al., 2011" -"UDPACYLGLCNACDEACETYL-MONOMER" "MIKQRTLKRIVQATGVGLHTGKKVTLTLRPAPANTGVIYRRTDLNPPVDFPADAKSVRDTMLCTCLVNEHDVRISTVEHLNAALAGLGIDNIVIEVNAPEIPIMDGSAAPFVYLLLDAGIDELNCAKKFVRIKETVRVEDGDKWAEFKPYNGFSLDFTIDFNHPAIDSSNQRYAMNFSADAFMRQISRARTFGFMRDIEYLQSRGLCLGGSFDCAIVVDDYRVLNEDGLRFEDEFVRHKMLDAIGDLFMCGHNIIGAFTAYKSGHALNNKLLQAVLAKQEAWEYVTFQDDAELPLAFKAPSAVLA" "c" "Han et al., 2011" -"UDPGLCNACEPIM-MONOMER" "VKVLTVFGTRPEAIKMAPLVHALAKDPFFEAKVCVTAQHREMLDQVLKLFSIVPDYDLNIMQPGQGLTEITCRILEGLKPILAEFKPDVVLVHGDTTTTLATSLAAFYQRIPVGHVEAGLRTGDLYSPWPEEANRTLTGHLAMYHFSPTETSRQNLLRENVADSRIFITGNTVIDALLWVRDQVMSSDKLRSELAANYPFIDPDKKMILVTGHRRESFGRGFEEICHALADIATTHQDIQIVYPVHLNPNVREPVNRILGHVKNVILIDPQEYLPFVWLMNHAWLILTDSGGIQEEAPSLGKPVLVMRDTTERPEAVTAGTVRLVGTDKQRIVEEVTRLLKDENEYQAMSRAHNPYGDGQACSRILEALKNNRISL" "c" "Han et al., 2011" -"UDPGLUCEPIM-MONOMER" "MRVLVTGGSGYIGSHTCVQLLQNGHDVIILDNLCNSKRSVLPVIERLGGKHPTFVEGDIRNEALMTEILHDHAIDTVIHFAGLKAVGESVQKPLEYYDNNVNGTLRLISAMRAANVKNFIFSSSATVYGDQPKIPYVESFPTGTPQSPYGKSKLMVEQILTDLQKAQPDWSIALLRYFNPVGAHPSGDMGEDPQGIPNNLMPYIAQVAVGRRDSLAIFGNDYPTEDGTGVRDYIHVMDLADGHVVAMEKLANKPGVHIYNLGAGVGNSVLDVVNAFSKACGKPVNYHFAPRREGDLPAYWADASKADRELNWRVTRTLDEMAQDTWHWQSRHPQGYPD" "c" "Han et al., 2011" -"UDPHYDROXYMYRGLUCOSAMNACETYLTRANS-MONO" "MPSIRLADLAQQLDAELHGDGDIVITGVASMQSAQTGHITFMVNPKYREHLGLCQASAVVMTQDDLPFAKSAALVVKNPYLTYARMAQILDTTPQPAQNIAPSAVIDATAKLGNNVSIGANAVIESGVELGDNVIIGAGCFVGKNSKIGAGSRLWANVTIYHEIQIGQNCLIQSGTVVGADGFGYANDRGNWVKIPQIGRVIIGDRVEIGACTTIDRGALDDTIIGNGVIIDNQCQIAHNVVIGDNTAVAGGVIMAGSLKIGRYCMIGGASVINGHMEICDKVTVTGMGMVMRPITEPGVYSSGIPLQPNKVWRKTAALVMNIDDMSKRLKSLERKVNQQD" "c" "Han et al., 2011" -"UDPMANACATRANS-MONOMER" "MNNNTTAPTYTLRGLQLIGWRDMQHALDYLFADGQLKQGTLVAINAEKMLTIEDNAEVRELINAAEFKYADGISVVRSVRKKYPQAQVSRVAGADLWEELMARAGKEGTPVFLVGGKPEVLAQTEAKLRNQWNVNIVGSQDGYFKPEQRQALFERIHASGAQIVTVAMGSPKQEIIMRDCRLVHPDALYMGVGGTYDVFTGHVKRAPKIWQTLGLEWLYRLLSQPSRIKRQLRLLRYLRWHYTGNL" "c" "Han et al., 2011" -"UDPMANNACADEHYDROG-MONOMER" "MSFATISVIGLGYIGLPTAAAFASRQKQVIGVDINQHAVDTINRGEIHIVEPDLASVVKTAVEGGFLRASTTPVEADAWLIAVPTPFKGDHEPDMTYVESAARSIAPVLKKGALVILESTSPVGSTEKMAEWLAEMRPDLTFPQQVGEQADVNIAYCPERVLPGQVMVELIKNDRVIGGMTPVCSARASELYKIFLEGECVVTNSRTAEMCKLTENSFRDVNIAFANELSLICADQGINVWELIRLANRHPRVNILQPGPGVGGHCIAVDPWFIVAQNPQQARLIRTAREVNDHKPFWVIDQVKAAVADCLAATDKRASELKIACFGLAFKPNIDDLRESPAMEIAELIAQWHSGETLVVEPNIHQLPKKLTGLCTLAQLDEALATADVLVMLVDHSQFKVINGDNVHQQYVVDAKGVWR" "c" "Han et al., 2011" -"UDPNACETYLGLUCOSAMACYLTRANS-MONOMER" "VIDKSAFVHPTAIVEEGASIGANAHIGPFCIVGPHVEIGEGTVLKSHVVVNGHTKIGRDNEIYQFASIGEVNQDLKYAGEPTRVEIGDRNRIRESVTIHRGTVQGGGLTKVGSDNLLMINAHIAHDCTVGNRCILANNATLAGHVSVDDFAIIGGMTAVHQFCIIGAHVMVGGCSGVAQDVPPYVIAQGNHATPFGVNIEGLKRRGFSREAITAIRNAYKLIYRSGKTLDEVKPEIAELAETYPEVKAFTDFFARSTRGLIR" "c" "Han et al., 2011" -"UDPNACETYLGLUCOSAMENOLPYRTRANS-MONOMER" "MDKFRVQGPTKLQGEVTISGAKNAALPILFAALLAEEPVEIQNVPKLKDVDTSMKLLSQLGAKVERNGSVHIDARDVNVFCAPYDLVKTMRASIWALGPLVARFGQGQVSLPGGCTIGARPVDLHISGLEQLGATIKLEEGYVKASVDGRLKGAHIVMDKVSVGATVTIMCAATLAEGTTIIENAAREPEIVDTANFLITLGAKISGQGTDRIVIEGVERLGGGVYRVLPDRIETGTFLVAAAISRGKIICRNAQPDTLDAVLAKLRDAGADIEVGEDWISLDMHGKRPKAVNVRTAPHPAFPTDMQAQFTLLNLVAEGTGFITETVFENRFMHVPELSRMGAHAEIESNTVICHGVEKLSGAQVMATDLRASASLVLAGCIAEGTTVVDRIYHIDRGYERIEDKLRALGANIERVKGE" "c" "Han et al., 2011" -"UDPNACETYLMURAMATEDEHYDROG-MONOMER" "MNHSLKPWNTFGIDHNAQHIVCAEDEQQLLNAWQYATAEGQPVLILGEGSNVLFLEDYRGTVIINRIKGIEIHDEPDAWYLHVGAGENWHRLVKYTLQEGMPGLENLALIPGCVGSSPIQNIGAYGVELQRVCAYVDSVELATGKQVRLTAKECRFGYRDSIFKHEYQDRFAIVAVGLRLPKEWQPVLTYGDLTRLDPTTVTPQQVFNAVCHMRTTKLPDPKVNGNAGSFFKNPVVSAETAKALLSQFPTAPNYPQADGSVKLAAGWLIDQCQLKGMQIGGAAVHRQQALVLINEDNAKSEDVVQLAHHVRQKVGEKFNVWLEPEVRFIGASGEVSAVETIS" "c" "Han et al., 2011" -"UGD-MONOMER" "MKITISGTGYVGLSNGLLIAQNHEVVALDILPSRVAMLNDRISPIVDKEIQQFLQSDKIHFNATLDKNEAYRDADYVIIATPTDYDPKTNYFNTSSVESVIKDVVEINPYAVMVIKSTVPVGFTAAMHKKYRTENIIFSPEFLREGKALYDNLHPSRIVIGERSERAERFAALLQEGAIKQNIPMLFTDSTEAEAIKLFANTYLAMRVAYFNELDSYAESLGLNSRQIIEGVCLDPRIGNHYNNPSFGYGGYCLPKDTKQLLANYQSVPNNLISAIVDANRTRKDFIADAILSRKPQVVGIYRLIMKSGSDNFRASSIQGIMKRIKAKGVEVIIYEPVMKEDSFFNSRLERDLATFKQQADVIISNRMAEELKDVADKVYTRDLFGSD" "c" "Han et al., 2011" -"UGPA-MONOMER" "MSSSRPVFRSRWLPYLLVAPQLIITVIFFIWPAGEALWYSLQSVDPFGFSSQFVGLDNFVTLFHDSYYLDSFWTTIKFSTFVTVSGLLVSLFFAALVEYIVRGSRFYQTLMLLPYAVAPAVAAVLWIFLFNPGRGLITHFLAEFGYDWNHAQNSGQAMFLVVFASVWKQISYNFLFFYAALQSIPRSLIEAAAIDGAGPIRRFFKIALPLIAPVSFFLLVVNLVYAFFDTFPVIDAATSGGPVQATTTLIYKIYREGFTGLDLASSAAQSVVLMFLVIVLTVVQFRYVESKVRYQ" "i" "Han et al., 2011" -"UGPB-MONOMER" "MKPLHYTASALALGLALMGNAQAVTTIPFWHSMEGELGKEVDSLAQRFNAENPDYKIVPTYKGNYEQNLSAGIAAFRTGNAPAILQVYEVGTATMMASKAIKPVYDVFKEAGIQFDESQFVPTVSGYYSDSKTGHLLSQPFNSSTPVLYYNKDAFKKAGLDPEQPPKTWQDLADYAAKLKASGMKCGYASGWQGWIQLENFSAWNGLPFASKNNGFDGTDAVLEFNKPEQVKHIAMLEEMNKKGDFSYVGRKDESTEKFYNGDCAMTTASSGSLANIREYAKFNYGVGMMPYDADAKDAPQNAIIGGASLWVMQGKDKETYTGVAKFLDFLAKPENAAEWHQKTGYLPITKAAYDLTREQGFYEKNPGADTATRQMLNKPPLPFTKGLRLGNMPQIRVIVDEELESVWTGKKTPQQALDTAVERGNQLLRRFEKSTKS" "i" "EcoCyc dump" -"UGPC-MONOMER" "MAGLKLQAVTKSWDGKTQVIKPLTLDVADGEFIVMVGPSGCGKSTLLRMVAGLERVTEGDIWINDQRVTEMEPKDRGIAMVFQNYALYPHMSVEENMAWGLKIRGMGKQQIAERVKEAARILELDGLLKRRPRELSGGQRQRVAMGRAIVRDPAVFLFDEPLSNLDAKLRVQMRLELQQLHRRLKTTSLYVTHDQVEAMTLAQRVMVMNGGVAEQIGTPVEVYEKPASLFVASFIGSPAMNLLTGRVNNEGTHFELDGGIELPLNGGYRQYAGRKMTLGIRPEHIALSSQAEGGVPMVMDTLEILGADNLAHGRWGEQKLVVRLAHQERPTAGSTLWLHLAENQLHLFDGETGQRV" "i" "EcoCyc dump" -"UGPE-MONOMER" "MIENRPWLTIFSHTMLILGIAVILFPLYVAFVAATLDKQAVYAAPMTLIPGTHLLENIHNIWVNGVGTNSAPFWRMLLNSFVMAFSITLGKITVSMLSAFAIVWFRFPLRNLFFWMIFITLMLPVEVRIFPTVEVIANLQMLDSYAGLTLPLMASATATFLFRQFFMTLPDELVEAARIDGASPMRFFCDIVFPLSKTNLAALFVITFIYGWNQYLWPLLIITDVDLGTTVAGIKGMIATGEGTTEWNSVMVAMLLTLIPPVVIVLVMQRAFVRGLVDSEK" "i" "Han et al., 2011" -"UHPA-MONOMER" "MITVALIDDHLIVRSGFAQLLGLEPDLQVVAEFGSGREALAGLPGRGVQVCICDISMPDISGLELLSQLPKGMATIMLSVHDSPALVEQALNAGARGFLSKRCSPDELIAAVHTVATGGCYLTPDIAIKLASGRQDPLTKRERQVAEKLAQGMAVKEIAAELGLSPKTVHVHRANLMEKLGVSNDVELARRMFDGW" "c" "Han et al., 2011" -"UHPB-MONOMER" "MKTLFSRLITVIACFFIFSAAWFCLWSISLHLVERPDMAVLLFPFGLRLGLMLQCPRGYWPVLLGAEWLLIYWLTQAVGLTHFPLLMIGSLLTLLPVALISRYRHQRDWRTLLLQGAALTAAALLQSLPWLWHGKESWNALLLTLTGGLTLAPICLVFWHYLANNTWLPLGPSLVSQPINWRGRHLVWYLLLFVISLWLQLGLPDELSRFTPFCLALPIIALAWHYGWQGALIATLMNAIALIASQTWRDHPVDLLLSLLVQSLTGLLLGAGIQRLRELNQSLQKELARNQHLAERLLETEESVRRDVARELHDDIGQTITAIRTQAGIVQRLAADNASVKQSGQLIEQLSLGVYDAVRRLLGRLRPRQLDDLTLEQAIRSLMREMELEGRGIVSHLEWRIDESALSENQRVTLFRVCQEGLNNIVKHADASAVTLQGWQQDERLMLVIEDDGSGLPPGSGQQGFGLTGMRERVTALGGTLHISCLHGTRVSVSLPQRYV" "i" "Han et al., 2011" -"UHPC-MONOMER" "MLPFLKAPADAPLMTDKYEIDARYRYWRRHILLTIWLGYALFYFTRKSFNAAVPEILANGVLSRSDIGLLATLFYITYGVSKFVSGIVSDRSNARYFMGIGLIATGIINILFGFSTSLWAFAVLWVLNAFFQGWGSPVCARLLTAWYSRTERGGWWALWNTAHNVGGALIPIVMAAAALHYGWRAGMMIAGCMAIVVGIFLCWRLRDRPQALGLPAVGEWRHDALEIAQQQEGAGLTRKEILTKYVLLNPYIWLLSFCYVLVYVVRAAINDWGNLYMSETLGVDLVTANTAVTMFELGGFIGALVAGWGSDKLFNGNRGPMNLIFAAGILLSVGSLWLMPFASYVMQATCFFTIGFFVFGPQMLIGMAAAECSHKEAAGAATGFVGLFAYLGASLAGWPLAKVLDTWHWSGFFVVISIAAGISALLLLPFLNAQTPREA" "i" "Han et al., 2011" -"UHPT-MONOMER" "MLAFLNQVRKPTLDLPLEVRRKMWFKPFMQSYLVVFIGYLTMYLIRKNFNIAQNDMISTYGLSMTQLGMIGLGFSITYGVGKTLVSYYADGKNTKQFLPFMLILSAICMLGFSASMGSGSVSLFLMIAFYALSGFFQSTGGSCSYSTITKWTPRRKRGTFLGFWNISHNLGGAGAAGVALFGANYLFDGHVIGMFIFPSIIALIVGFIGLRYGSDSPESYGLGKAEELFGEEISEEDKETESTDMTKWQIFVEYVLKNKVIWLLCFANIFLYVVRIGIDQWSTVYAFQELKLSKAVAIQGFTLFEAGALVGTLLWGWLSDLANGRRGLVACIALALIIATLGVYQHASNEYIYLASLFALGFLVFGPQLLIGVAAVGFVPKKAIGAADGIKGTFAYLIGDSFAKLGLGMIADGTPVFGLTGWAGTFAALDIAAIGCICLMAIVAVMEERKIRREKKIQQLTVA" "i" "Han et al., 2011" -"UIDB-MONOMER" "MNQQLSWRTIVGYSLGDVANNFAFAMGALFLLSYYTDVAGVGAAAAGTMLLLVRVFDAFADVFAGRVVDSVNTRWGKFRPFLLFGTAPLMIFSVLVFWVLTDWSHGSKVVYAYLTYMGLGLCYSLVNIPYGSLATAMTQQPQSRARLGAARGIAASLTFVCLAFLIGPSIKNSSPEEMVSVYHFWTIVLAIAGMVLYFICFKSTRENVVRIVAQPSLNISLQTLKRNRPLFMLCIGALCVLISTFAVSASSLFYVRYVLNDTGLFTVLVLVQNLVGTVASAPLVPGMVARIGKKNTFLIGALLGTCGYLLFFWVSVWSLPVALVALAIASIGQGVTMTVMWALEADTVEYGEYLTGVRIEGLTYSLFSFTRKCGQAIGGSIPAFILGLSGYIANQVQTPEVIMGIRTSIALVPCGFMLLAFVIIWFYPLTDKKFKEIVVEIDNRKKVQQQLISDITN" "i" "Han et al., 2011" -"UMPKI-MONOMER" "MATNAKPVYKRILLKLSGEALQGTEGFGIDASILDRMAQEIKELVELGIQVGVVIGGGNLFRGAGLAKAGMNRVVGDHMGMLATVMNGLAMRDALHRAYVNARLMSAIPLNGVCDSYSWAEAISLLRNNRVVILSAGTGNPFFTTDSAACLRGIEIEADVVLKATKVDGVFTADPAKDPTATMYEQLTYSEVLEKELKVMDLAAFTLARDHKLPIRVFNMNKPGALRRVVMGEKEGTLITE" "c" "Lopez-Campistrous et al., 2005" -"UPPSYN-MONOMER" "VMLSATQPLSEKLPAHGCRHVAIIMDGNGRWAKKQGKIRAFGHKAGAKSVRRAVSFAANNGIEALTLYAFSSENWNRPAQEVSALMELFVWALDSEVKSLHRHNVRLRIIGDTSRFNSRLQERIRKSEALTAGNTGLTLNIAANYGGRWDIVQGVRQLAEKVQQGNLQPDQIDEEMLNQHVCMHELAPVDLVIRTGGEHRISNFLLWQIAYAELYFTDVLWPDFDEQDFEGALNAFANRERRFGGTEPGDETA" "c" "Han et al., 2011" -"URAA-MONOMER" "MTRRAIGVSERPPLLQTIPLSLQHLFAMFGATVLVPVLFHINPATVLLFNGIGTLLYLFICKGKIPAYLGSSFAFISPVLLLLPLGYEVALGGFIMCGVLFCLVSFIVKKAGTGWLDVLFPPAAMGAIVAVIGLELAGVAAGMAGLLPAEGQTPDSKTIIISITTLAVTVLGSVLFRGFLAIIPILIGVLVGYALSFAMGIVDTTPIINAHWFALPTLYTPRFEWFAILTILPAALVVIAEHVGHLVVTANIVKKDLLRDPGLHRSMFANGLSTVISGFFGSTPNTTYGENIGVMAITRVYSTWVIGGAAIFAILLSCVGKLAAAIQMIPLPVMGGVSLLLYGVIGASGIRVLIESKVDYNKAQNLILTSVILIIGVSGAKVNIGAAELKGMALATIVGIGLSLIFKLISVLRPEEVVLDAEDADITDK" "i" "Han et al., 2011" -"URACIL-PRIBOSYLTRANS-MONOMER" "MKIVEVKHPLVKHKLGLMREQDISTKRFRELASEVGSLLTYEATADLETEKVTIEGWNGPVEIDQIKGKKITVVPILRAGLGMMDGVLENVPSARISVVGMYRNEETLEPVPYFQKLVSNIDERMALIVDPMLATGGSVIATIDLLKKAGCSSIKVLVLVAAPEGIAALEKAHPDVELYTASIDQGLNEHGYIIPGLGDAGDKIFGTK" "c" "Han et al., 2011" -"UROGENDECARBOX-MONOMER" "MTELKNDRYLRALLRQPVDVTPVWMMRQAGRYLPEYKATRAQAGDFMSLCKNAELACEVTLQPLRRYPLDAAILFSDILTVPDAMGLGLYFEAGEGPRFTSPVTCKADVDKLPIPDPEDELGYVMNAVRTIRRELKGEVPLIGFSGSPWTLATYMVEGGSSKAFTVIKKMMYADPQALHALLDKLAKSVTLYLNAQIKAGAQAVMIFDTWGGVLTGRDYQQFSLYYMHKIVDGLLRENDGRRVPVTLFTKGGGQWLEAMAETGCDALGLDWTTDIADARRRVGNKVALQGNMDPSMLYAPPARIEEEVATILAGFGHGEGHVFNLGHGIHQDVPPEHAGVFVEAVHRLSEQYHR" "c" "Han et al., 2011" -"UROGENIIISYN-MONOMER" "MSILVTRPSPAGEELVSRLRTLGQVAWHFPLIEFSPGQQLPQLADQLAALGESDLLFALSQHAVAFAQSQLHQQDRKWPRLPDYFAIGRTTALALHTVSGQKILYPQDREISEVLLQLPELQNIAGKRALILRGNGGRELIGDTLTARGAEVTFCECYQRCAIHYDGAEEAMRWQAREVTMVVVTSGEMLQQLWSLIPQWYREHWLLHCRLLVVSERLAKLARELGWQDIKVADNADNDALLRALQ" "c" "Han et al., 2011" -"URPHOS-MONOMER" "MSKSDVFHLGLTKNDLQGATLAIVPGDPDRVEKIAALMDKPVKLASHREFTTWRAELDGKPVIVCSTGIGGPSTSIAVEELAQLGIRTFLRIGTTGAIQPHINVGDVLVTTASVRLDGASLHFAPLEFPAVADFECTTALVEAAKSIGATTHVGVTASSDTFYPGQERYDTYSGRVVRHFKGSMEEWQAMGVMNYEMESATLLTMCASQGLRAGMVAGVIVNRTQQEIPNAETMKQTESHAVKIVVEAARRLL" "c" "Lopez-Campistrous et al., 2005" -"USHA-MONOMER" "MKLLQRGVALALLTTFTLASETALAYEQDKTYKITVLHTNDHHGHFWRNEYGEYGLAAQKTLVDGIRKEVAAEGGSVLLLSGGDINTGVPESDLQDAEPDFRGMNLVGYDAMAIGNHEFDNPLTVLRQQEKWAKFPLLSANIYQKSTGERLFKPWALFKRQDLKIAVIGLTTDDTAKIGNPEYFTDIEFRKPADEAKLVIQELQQTEKPDIIIAATHMGHYDNGEHGSNAPGDVEMARALPAGSLAMIVGGHSQDPVCMAAENKKQVDYVPGTPCKPDQQNGIWIVQAHEWGKYVGRADFEFRNGEMKMVNYQLIPVNLKKKVTWEDGKSERVLYTPEIAENQQMISLLSPFQNKGKAQLEVKIGETNGRLEGDRDKVRFVQTNMGRLILAAQMDRTGADFAVMSGGGIRDSIEAGDISYKNVLKVQPFGNVVVYADMTGKEVIDYLTAVAQMKPDSGAYPQFANVSFVAKDGKLNDLKIKGEPVDPAKTYRMATLNFNATGGDGYPRLDNKPGYVNTGFIDAEVLKAYIQKSSPLDVSVYEPKGEVSWQ" "p" "Han et al., 2011" -"UUP-MONOMER" "MSLISMHGAWLSFSDAPLLDNAELHIEDNERVCLVGRNGAGKSTLMKILNREQGLDDGRIIYEQDLIVARLQQDPPRNVEGSVYDFVAEGIEEQAEYLKRYHDISRLVMNDPSEKNLNELAKVQEQLDHHNLWQLENRINEVLAQLGLDPNVALSSLSGGWLRKAALGRALVSNPRVLLLDEPTNHLDIETIDWLEGFLKTFNGTIIFISHDRSFIRNMATRIVDLDRGKLVTYPGNYDQYLLEKEEALRVEELQNAEFDRKLAQEEVWIRQGIKARRTRNEGRVRALKAMRRERGERREVMGTAKMQVEEASRSGKIVFEMEDVCYQVNGKQLVKDFSAQVLRGDKIALIGPNGCGKTTLLKLMLGQLQADSGRIHVGTKLEVAYFDQHRAELDPDKTVMDNLAEGKQEVMVNGKPRHVLGYLQDFLFHPKRAMTPVRALSGGERNRLLLARLFLKPSNLLILDEPTNDLDVETLELLEELIDSYQGTVLLVSHDRQFVDNTVTECWIFEGGGKIGRYVGGYHDARGQQEQYVALKQPAVKKTEEAAAAKAETVKRSSSKLSYKLQRELEQLPQLLEDLEAKLEALQTQVADASFFSQPHEQTQKVLADMAAAEQELEQAFERWEYLEALKNGG" "c" "Han et al., 2011" -"UXAC-MONOMER" "MTPFMTEDFLLDTEFARRLYHDYAKDQPIFDYHCHLPPQQIAEDYRFKNLYDIWLKGDHYKWRAMRTNGVAERLCTGDASDREKFDAWAATVPHTIGNPLYHWTHLELRRPFGITGKLLSPSTADEIWNECNELLAQDNFSARGIMQQMNVKMVGTTDDPIDSLEHHAEIAKDGSFTIKVLPSWRPDKAFNIEQATFNDYMAKLGEVSDTDIRRFADLQTALTKRLDHFAAHGCKVSDHALDVVMFAEANEAELDSILARRLAGETLSEHEVAQFKTAVLVFLGAEYARRGWVQQYHIGALRNNNLRQFKLLGPDVGFDSINDRPMAEELSKLLSKQNEENLLPKTILYCLNPRDNEVLGTMIGNFQGEGMPGKMQFGSGWWFNDQKDGMERQMTQLAQLGLLSRFVGMLTDSRSFLSYTRHEYFRRILCQMIGRWVEAGEAPADINLLGEMVKNICFNNARDYFAIELN" "c" "Han et al., 2011" -"VALINE-PYRUVATE-AMINOTRANSFER-MONOMER" "MTFSLFGDKFTRHSGITLLMEDLNDGLRTPGAIMLGGGNPAQIPEMQDYFQTLLTDMLESGKATDALCNYDGPQGKTELLTLLAGMLREKLGWDIEPQNIALTNGSQSAFFYLFNLFAGRRADGRVKKVLFPLAPEYIGYADAGLEEDLFVSARPNIELLPEGQFKYHVDFEHLHIGEETGMICVSRPTNPTGNVITDEELLKLDALANQHGIPLVIDNAYGVPFPGIIFSEARPLWNPNIVLCMSLSKLGLPGSRCGIIIANEKIITAITNMNGIISLAPGGIGPAMMCEMIKRNDLLRLSETVIKPFYYQRVQETIAIIRRYLPENRCLIHKPEGAIFLWLWFKDLPITTKQLYQRLKARGVLMVPGHNFFPGLDKPWPHTHQCMRMNYVPEPEKIEAGVKILAEEIERAWAESH" "c" "Han et al., 2011" -"VALS-MONOMER" "MEKTYNPQDIEQPLYEHWEKQGYFKPNGDESQESFCIMIPPPNVTGSLHMGHAFQQTIMDTMIRYQRMQGKNTLWQVGTDHAGIATQMVVERKIAAEEGKTRHDYGREAFIDKIWEWKAESGGTITRQMRRLGNSVDWERERFTMDEGLSNAVKEVFVRLYKEDLIYRGKRLVNWDPKLRTAISDLEVENRESKGSMWHIRYPLADGAKTADGKDYLVVATTRPETLLGDTGVAVNPEDPRYKDLIGKYVILPLVNRRIPIVGDEHADMEKGTGCVKITPAHDFNDYEVGKRHALPMINILTFDGDIRESAQVFDTKGNESDVYSSEIPAEFQKLERFAARKAVVAAVDALGLLEEIKPHDLTVPYGDRGGVVIEPMLTDQWYVRADVLAKPAVEAVENGDIQFVPKQYENMYFSWMRDIQDWCISRQLWWGHRIPAWYDEAGNVYVGRNEDEVRKENNLGADVVLRQDEDVLDTWFSSALWTFSTLGWPENTDALRQFHPTSVMVSGFDIIFFWIARMIMMTMHFIKDENGKPQVPFHTVYMTGLIRDDEGQKMSKSKGNVIDPLDMVDGISLPELLEKRTGNMMQPQLADKIRKRTEKQFPNGIEPHGTDALRFTLAALASTGRDINWDMKRLEGYRNFCNKLWNASRFVLMNTEGQDCGFNGGEMTLSLADRWILAEFNQTIKAYREALDSFRFDIAAGILYEFTWNQFCDWYLELTKPVMNGGTEAELRGTRHTLVTVLEGLLRLAHPIIPFITETIWQRVKVLCGITADTIMLQPFPQYDASQVDEAALADTEWLKQAIVAVRNIRAEMNIAPGKPLELLLRGCSADAERRVNENRGFLQTLARLESITVLPADDKGPVSVTKIIDGAELLIPMAGLINKEDELARLAKEVAKIEGEISRIENKLANEGFVARAPEAVIAKEREKLEGYAEAKAKLIEQQAVIAAL" "c" "Han et al., 2011" -"XANTHOSINEPHOSPHORY-MONOMER" "MSQVQFSHNPLFCIDIIKTYKPDFTPRVAFILGSGLGALADQIENAVAISYEKLPGFPVSTVHGHAGELVLGHLQGVPVVCMKGRGHFYEGRGMTIMTDAIRTFKLLGCELLFCTNAAGSLRPEVGAGSLVALKDHINTMPGTPMVGLNDDRFGERFFSLANAYDAEYRALLQKVAKEEGFPLTEGVFVSYPGPNFETAAEIRMMQIIGGDVVGMSVVPEVISARHCDLKVVAVSAITNMAEGLSDVKLSHAQTLAAAELSKQNFINLICGFLRKIA" "c" "Unambiguous EcoCyc data" -"XAPB-MONOMER" "MSIAMRLKVMSFLQYFIWGSWLVTLGSYMINTLHFTGANVGMVYSSKGIAAIIMPGIMGIIADKWLRAERAYMLCHLVCAGVLFYAASVTDPDMMFWVMLVNAMAFMPTIALSNSVSYSCLAQAGLDPVTAFPPIRVFGTVGFIVAMWAVSLLHLELSSLQLYIASGASLLLSAYALTLPKIPVAEKKATTSLASKLGLDAFVLFKNPRMAIFFLFAMMLGAVLQITNVFGNPFLHDFARNPEFADSFVVKYPSILLSVSQMAEVGFILTIPFFLKRFGIKTVMLMSMVAWTLRFGFFAYGDPSTTGFILLLLSMIVYGCAFDFFNISGSVFVEQEVDSSIRASAQGLFMTMVNGVGAWVGSILSGMAVDYFSVDGVKDWQTIWLVFAGYALFLAVIFFFGFKYNHDPEKIKHRAVTH" "i" "Unambiguous EcoCyc data" -"XASA-MONOMER" "MATSVQTGKAKQLTLLGFFAITASMVMAVYEYPTFATSGFSLVFFLLLGGILWFIPVGLCAAEMATVDGWEEGGVFAWVSNTLGPRWGFAAISFGYLQIAIGFIPMLYFVLGALSYILKWPALNEDPITKTIAALIILWALALTQFGGTKYTARIAKVGFFAGILLPAFILIALAAIYLHSGAPVAIEMDSKTFFPDFSKVGTLVVFVAFILSYMGVEASATHVNEMSNPGRDYPLAMLLLMVAAICLSSVGGLSIAMVIPGNEINLSAGVMQTFTVLMSHVAPEIEWTVRVISALLLLGVLAEIASWIVGPSRGMYVTAQKNLLPAAFAKMNKNGVPVTLVISQLVITSIALIILTNTGGGNNMSFLIALALTVVIYLCAYFMLFIGYIVLVLKHPDLKRTFNIPGGKGVKLVVAIVGLLTSIMAFIVSFLPPDNIQGDSTDMYVELLVVSFLVVLALPFILYAVHDRKGKANTGVTLEPINSQNAPKGHFFLHPRARSPHYIVMNDKKH" "i" "Han et al., 2011" -"XYLE-MONOMER" "MNTQYNSSYIFSITLVATLGGLLFGYDTAVISGTVESLNTVFVAPQNLSESAANSLLGFCVASALIGCIIGGALGGYCSNRFGRRDSLKIAAVLFFISGVGSAWPELGFTSINPDNTVPVYLAGYVPEFVIYRIIGGIGVGLASMLSPMYIAELAPAHIRGKLVSFNQFAIIFGQLLVYCVNYFIARSGDASWLNTDGWRYMFASECIPALLFLMLLYTVPESPRWLMSRGKQEQAEGILRKIMGNTLATQAVQEIKHSLDHGRKTGGRLLMFGVGVIVIGVMLSIFQQFVGINVVLYYAPEVFKTLGASTDIALLQTIIVGVINLTFTVLAIMTVDKFGRKPLQIIGALGMAIGMFSLGTAFYTQAPGIVALLSMLFYVAAFAMSWGPVCWVLLSEIFPNAIRGKALAIAVAAQWLANYFVSWTFPMMDKNSWLVAHFHNGFSYWIYGCMGVLAALFMWKFVPETKGKTLEELEALWEPETKKTQQTATL" "i" "Han et al., 2011" -"XYLF-MONOMER" "MKIKNILLTLCTSLLLTNVAAHAKEVKIGMAIDDLRLERWQKDRDIFVKKAESLGAKVFVQSANGNEETQMSQIENMINRGVDVLVIIPYNGQVLSNVVKEAKQEGIKVLAYDRMINDADIDFYISFDNEKVGELQAKALVDIVPQGNYFLMGGSPVDNNAKLFRAGQMKVLKPYVDSGKIKVVGDQWVDGWLPENALKIMENALTANNNKIDAVVASNDATAGGAIQALSAQGLSGKVAISGQDADLAGIKRIAAGTQTMTVYKPITLLANTAAEIAVELGNGQEPKADTTLNNGLKDVPSRLLTPIDVNKNNIKDTVIKDGFHKESEL" "p" "Han et al., 2011" -"XYLG-MONOMER" "MPYLLEMKNITKTFGSVKAIDNVCLRLNAGEIVSLCGENGSGKSTLMKVLCGIYPHGSYEGEIIFAGEEIQASHIRDTERKGIAIIHQELALVKELTVLENIFLGNEITHNGIMDYDLMTLRCQKLLAQVSLSISPDTRVGDLGLGQQQLVEIAKALNKQVRLLILDEPTASLTEQETSILLDIIRDLQQHGIACIYISHKLNEVKAISDTICVIRDGQHIGTRDAAGMSEDDIITMMVGRELTALYPNEPHTTGDEILRIEHLTAWHPVNRHIKRVNDVSFSLKRGEILGIAGLVGAGRTETIQCLFGVWPGQWEGKIYIDGKQVDIRNCQQAIAQGIAMVPEDRKRDGIVPVMAVGKNITLAALNKFTGGISQLDDAAEQKCILESIQQLKVKTSSPDLAIGRLSGGNQQKAILARCLLLNPRILILDEPTRGIDIGAKYEIYKLINQLVQQGIAVIVISSELPEVLGLSDRVLVMHEGKLKANLINHNLTQEQVMEAALRSEHHVEKQSV" "i" "EcoCyc dump" -"XYLH-MONOMER" "MSKSNPSEVKLAVPTSGGFSGLKSLNLQVFVMIAAIIAIMLFFTWTTDGAYLSARNVSNLLRQTAITGILAVGMVFVIISAEIDLSVGSMMGLLGGVAAICDVWLGWPLPLTIIVTLVLGLLLGAWNGWWVAYRKVPSFIVTLAGMLAFRGILIGITNGTTVSPTSAAMSQIGQSYLPASTGFIIGALGLMAFVGWQWRGRMRRQALGLQSPASTAVVGRQALTAIIVLGAIWLLNDYRGVPTPVLLLTLLLLGGMFMATRTAFGRRIYAIGGNLEAARLSGINVERTKLAVFAINGLMVAIAGLILSSRLGAGSPSAGNIAELDAIAACVIGGTSLAGGVGSVAGAVMGAFIMASLDNGMSMMDVPTFWQYIVKGAILLLAVWMDSATKRRS" "i" "Han et al., 2011" -"XYLISOM-MONOMER" "MQAYFDQLDRVRYEGSKSSNPLAFRHYNPDELVLGKRMEEHLRFAACYWHTFCWNGADMFGVGAFNRPWQQPGEALALAKRKADVAFEFFHKLHVPFYCFHDVDVSPEGASLKEYINNFAQMVDVLAGKQEESGVKLLWGTANCFTNPRYGAGAATNPDPEVFSWAATQVVTAMEATHKLGGENYVLWGGREGYETLLNTDLRQEREQLGRFMQMVVEHKHKIGFQGTLLIEPKPQEPTKHQYDYDAATVYGFLKQFGLEKEIKLNIEANHATLAGHSFHHEIATAIALGLFGSVDANRGDAQLGWDTDQFPNSVEENALVMYEILKAGGFTTGGLNFDAKVRRQSTDKYDLFYGHIGAMDTMALALKIAARMIEDGELDKRIAQRYSGWNSELGQQILKGQMSLADLAKYAQEHHLSPVHQSGRQEQLENLVNHYLFDK" "c" "Han et al., 2011" -"XYLULOKIN-MONOMER" "MYIGIDLGTSGVKVILLNEQGEVVAAQTEKLTVSRPHPLWSEQDPEQWWQATDRAMKALGDQHSLQDVKALGIAGQMHGATLLDAQQRVLRPAILWNDGRCAQECTLLEARVPQSRVITGNLMMPGFTAPKLLWVQRHEPEIFRQIDKVLLPKDYLRLRMTGEFASDMSDAAGTMWLDVAKRDWSDVMLQACDLSRDQMPALYEGSEITGALLPEVAKAWGMATVPVVAGGGDNAAGAVGVGMVDANQAMLSLGTSGVYFAVSEGFLSKPESAVHSFCHALPQRWHLMSVMLSAASCLDWAAKLTGLSNVPALIAAAQQADESAEPVWFLPYLSGERTPHNNPQAKGVFFGLTHQHGPNELARAVLEGVGYALADGMDVVHACGIKPQSVTLIGGGARSEYWRQMLADISGQQLDYRTGGDVGPALGAARLAQIAANPEKSLIELLPQLPLEQSHLPDAQRYAAYQPRRETFRRLYQQLLPLMA" "c" "Han et al., 2011" -"YAAJ-MONOMER" "MPDFFSFINSVLWGSVMIYLLFGAGCWFTFRTGFVQFRYIRQFGKSLKNSIHPQPGGLTSFQSLCTSLAARVGSGNLAGVALAITAGGPGAVFWMWVAAFIGMATSFAECSLAQLYKERDVNGQFRGGPAWYMARGLGMRWMGVLFAVFLLIAYGIIFSGVQANAVARALSFSFDFPPLVTGIILAVFTLLAITRGLHGVARLMQGFVPLMAIIWVLTSLVICVMNIGQLPHVIWSIFESAFGWQEAAGGAAGYTLSQAITNGFQRSMFSNEAGMGSTPNAAAAAASWPPHPAAQGIVQMIGIFIDTLVICTASAMLILLAGNGTTYMPLEGIQLIQKAMRVLMGSWGAEFVTLVVILFAFSSIVANYIYAENNLFFLRLNNPKAIWCLRICTFATVIGGTLLSLPLMWQLADIIMACMAITNLTAILLLSPVVHTIASDYLRQRKLGVRPVFDPLRYPDIGRQLSPDAWDDVSQE" "i" "Han et al., 2011" -"YAAU-MONOMER" "MQPSRNFDDLKFSSIHRRILLWGSGGPFLDGYVLVMIGVALEQLTPALKLDADWIGLLGAGTLAGLFVGTSLFGYISDKVGRRKMFLIDIIAIGVISVATMFVSSPVELLVMRVLIGIVIGADYPIATSMITEFSSTRQRAFSISFIAAMWYVGATCADLVGYWLYDVEGGWRWMLGSAAIPCLLILIGRFELPESPRWLLRKGRVKECEEMMIKLFGEPVAFDEEQPQQTRFRDLFNRRHFPFVLFVAAIWTCQVIPMFAIYTFGPQIVGLLGLGVGKNAALGNVVISLFFMLGCIPPMLWLNTAGRRPLLIGSFAMMTLALAVLGLIPDMGIWLVVMAFAVYAFFSGGPGNLQWLYPNELFPTDIRASAVGVIMSLSRIGTIVSTWALPIFINNYGISNTMLMGAGISLFGLLISVAFAPETRGMSLAQTSNMTIRGQRMG" "i" "Han et al., 2011" -"YADG-MONOMER" "MTIALELQQLKKTYPGGVQALRGIDLQVEAGDFYALLGPNGAGKSTTIGIISSLVNKTSGRVSVFGYDLEKDVVNAKRQLGLVPQEFNFNPFETVQQIVVNQAGYYGVERKEAYIRSEKYLKQLDLWGKRNERARMLSGGMKRRLMIARALMHEPKLLILDEPTAGVDIELRRSMWGFLKDLNDKGTTIILTTHYLEEAEMLCRNIGIIQHGELVENTSMKALLAKLKSETFILDLAPKSPLPKLDGYQYRLVDTATLEVEVLREQGINSVFTQLSEQGIQVLSMRNKANRLEELFVSLVNEKQGDRA" "i" "Han et al., 2011" -"YADH-MONOMER" "MMHLYWVALKSIWAKEIHRFMRIWVQTLVPPVITMTLYFIIFGNLIGSRIGDMHGFSYMQFIVPGLIMMSVITNAYANVASSFFGAKFQRNIEELLVAPVPTHVIIAGYVGGGVARGLFVGILVTAISLFFVPFQVHSWVFVALTLVLTAVLFSLAGLLNGVFAKTFDDISLVPTFVLTPLTYLGGVFYSLTLLPPFWQGLSHLNPIVYMISGFRYGFLGINDVPLVTTFGVLVVFIVAFYLICWSLIQRGRGLRS" "i" "Han et al., 2011" -"YADQ-MONOMER" "MKTDTPSLETPQAARLRRRQLIRQLLERDKTPLAILFMAAVVGTLVGLAAVAFDKGVAWLQNQRMGALVHTADNYPLLLTVAFLCSAVLAMFGYFLVRKYAPEAGGSGIPEIEGALEDQRPVRWWRVLPVKFFGGLGTLGGGMVLGREGPTVQIGGNIGRMVLDIFRLKGDEARHTLLATGAAAGLAAAFNAPLAGILFIIEEMRPQFRYTLISIKAVFIGVIMSTIMYRIFNHEVALIDVGKLSDAPLNTLWLYLILGIIFGIFGPIFNKWVLGMQDLLHRVHGGNITKWVLMGGAIGGLCGLLGFVAPATSGGGFNLIPIATAGNFSMGMLVFIFVARVITTLLCFSSGAPGGIFAPMLALGTVLGTAFGMVAVELFPQYHLEAGTFAIAGMGALLAASIRAPLTGIILVLEMTDNYQLILPMIITGLGATLLAQFTGGKPLYSAILARTLAKQEAEQLARSKAASASENT" "i" "Han et al., 2011" -"YAGC-MONOMER" "MTQKNFVELRNVTKRFGSNTVIDNINLTIPQGQMVTLLGPSGCGKTTILRLVAGLEKPSEGQIFIDGEDVTHRSIQQRDICMVFQSYALFPHMSLGENVGYGLKMLGVPRAELKARVKEALAMVDLEGFEDRFVDQISGGQQQRVALARALILKPKVLLFDEPLSNLDANLRRSMRDKIRELQKQFDITSLYVTHDQSEAFAVSDTVLVMNKGHIMQIGSPQDLYRQPASRFMASFMGDANLFPATFSDGYVDIYGYHLPRPLHFGTQGEGMVGVRPEAITLSDRGEESQRCVIRHVAYMGPQYEVTVEWHGQEILLQVNATRLQPDVGEQYYLEIHPYGMFVLADAA" "c" "GRAVY (CCO-CYTOSOL or CCO-MEMBRANE)" -"YBAL-MONOMER" "MHHATPLITTIVGGLVLAFILGMLANKLRISPLVGYLLAGVLAGPFTPGFVADTKLAPELAELGVILLMFGVGLHFSLKDLMAVKAIAIPGAIAQIAVATLLGMALSAVLGWSLMTGIVFGLCLSTASTVVLLRALEERQLIDSQRGQIAIGWLIVEDLVMVLTLVLLPAVAGMMEQGDVGFATLAVDMGITIGKVIAFIAIMMLVGRRLVPWIMARSAATGSRELFTLSVLALALGVAFGAVELFDVSFALGAFFAGMVLNESELSHRAAHDTLPLRDAFAVLFFVSVGMLFDPLILIQQPLAVLATLAIILFGKSLAAFFLVRLFGHSQRTALTIAASLAQIGEFAFILAGLGMALNLLPQAGQNLVLAGAILSIMLNPVLFALLEKYLAKTETLEEQTLEEAIEEEKQIPVDICNHALLVGYGRVGSLLGEKLLASDIPLVVIETSRTRVDELRERGVRAVLGNAANEEIMQLAHLECAKWLILTIPNGYEAGEIVASARAKNPDIEIIARAHYDDEVAYITERGANQVVMGEREIARTMLELLETPPAGEVVTG" "i" "Han et al., 2011" -"YBBA-MONOMER" "MPAENIVEVHHLKKSVGQGEHELSILTGVELVVKRGETIALVGESGSGKSTLLAILAGLDDGSSGEVSLVGQPLHNMDEEARAKLRAKHVGFVFQSFMLIPTLNALENVELPALLRGESSAESRNGAKALLEQLGLGKRLDHLPAQLSGGEQQRVALARAFNGRPDVLFADEPTGNLDRQTGDKIADLLFSLNREHGTTLIMVTHDLQLAARCDRCLRLVNGQLQEEA" "i" "EcoCyc dump" -"YBBL-MONOMER" "MQENSPLLQLQNVGYLAGDAKILNNINFSLRAGEFKLITGPSGCGKSTLLKIVASLISPTSGTLLFEGEDVSTLKPEIYRQQVSYCAQTPTLFGDTVYDNLIFPWQIRNRQPDPAIFLDFLERFALPDSILTKNIAELSGGEKQRISLIRNLQFMPKVLLLDEITSALDESNKHNVNEMIHRYVREQNIAVLWVTHDKDEINHADKVITLQPHAGEMQEARYELA" "i" "Han et al., 2011" -"YBBP-MONOMER" "MIARWFWREWRSPSLLIVWLALSLAVACVLALGNISDRMEKGLSQQSREFMAGDRALRSSREVPQAWLEEAQKRGLKVGKQLTFATMTFAGDTPQLANVKAVDDIYPMYGDLQTNPPGLKPQAGSVLLAPRLMALLNLKTGDTIDVGDATLRIAGEVIQEPDSGFNPFQMAPRLMMNLADVDKTGAVQPGSRVTWRYKFGGNENQLDGYEKWLLPQLKPEQRWYGLEQDEGALGRSMERSQQFLLLSALLTLLLAVAAVAVAMNHYCRSRYDLVAILKTLGAGRAQLRKLIVGQWLMVLTLSAVTGGAIGLLFENVLMVLLKPVLPAALPPASLWPWLWALGTMTVISLLVGLRPYRLLLATQPLRVLRNDVVANVWPLKFYLPIVSVVVVLLLAGLMGGSMLLWAVLAGAVVLALLCGVLGWMLLNVLRRMTLKSLPLRLAVSRLLRQPWSTLSQLSAFSLSFMLLALLLVLRGDLLDRWQQQLPPESPNYFLINIATEQVAPLKAFLAEHQIVPESFYPVVRARLTAINDKPTEGNEDEALNRELNLTWQNTRPDHNPIVAGNWPPKADEVSMEEGLAKRLNVALGDTVTFMGDTQEFRAKVTSLRKVDWESLRPNFYFIFPEGALDGQPQSWLTSFRWENGNGMLTQLNRQFPTISLLDIGAILKQVGQVLEQVSRALEVMVVLVTACGMLLLLAQVQVGMRQRHQELVVWRTLGAGKKLLRTTLWCEFAMLGFVSGLVAAIGAETALAVLQAKVFDFPWEPDWRLWIVLPCSGALLLSLFGGWLGARLVKGKALFRQFAG" "i" "Han et al., 2011" -"YBDA-MONOMER" "MNKQSWLLNLSLLKTHPAFRAVFLARFISIVSLGLLGVAVPVQIQMMTHSTWQVGLSVTLTGGAMFVGLMVGGVLADRYERKKVILLARGTCGIGFIGLCLNALLPEPSLLAIYLLGLWDGFFASLGVTALLAATPALVGRENLMQAGAITMLTVRLGSVISPMIGGLLLATGGVAWNYGLAAAGTFITLLPLLSLPALPPPPQPREHPLKSLLAGFRFLLASPLVGGIALLGGLLTMASAVRVLYPALADNWQMSAAQIGFLYAAIPLGAAIGALTSGKLAHSARPGLLMLLSTLGSFLAIGLFGLMPMWILGVVCLALFGWLSAVSSLLQYTMLQTQTPEAMLGRINGLWTAQNVTGDAIGAALLGGLGAMMTPVASASASGFGLLIIGVLLLLVLVELRHFRQTPPQVTASDS" "i" "Han et al., 2011" -"YBDE-MONOMER" "MIEWIIRRSVANRFLVLMGALFLSIWGTWTIINTPVDALPDLSDVQVIIKTSYPGQAPQIVENQVTYPLTTTMLSVPGAKTVRGFSQFGDSYVYVIFEDGTDPYWARSRVLEYLNQVQGKLPAGVSAELGPDATGVGWIYEYALVDRSGKHDLADLRSLQDWFLKYELKTIPDVAEVASVGGVVKEYQVVIDPQRLAQYGISLAEVKSALDASNQEAGGSSIELAEAEYMVRASGYLQTLDDFNHIVLKASENGVPVYLRDVAKVQIGPEMRRGIAELNGEGEVAGGVVILRSGKNAREVIAAVKDKLETLKSSLPEGVEIVTTYDRSQLIDRAIDNLSGKLLEEFIVVAVVCALFLWHVRSALVAIISLPLGLCIAFIVMHFQGLNANIMSLGGIAIAVGAMVDAAIVMIENAHKRLEEWQHQHPDATLDNKTRWQVITDASVEVGPALFISLLIITLSFIPIFTLEGQEGRLFGPLAFTKTYAMAGAALLAIVVIPILMGYWIRGKIPPESSNPLNRFLIRVYHPLLLKVLHWPKTTLLVAALSVLTVLWPLNKVGGEFLPQINEGDLLYMPSTLPGISAAEAASMLQKTDKLIMSVPEVARVFGKTGKAETATDSAPLEMVETTIQLKPQEQWRPGMTMDKIIEELDNTVRLPGLANLWVPPIRNRIDMLSTGIKSPIGIKVSGTVLADIDAMAEQIEEVARTVPGVASALAERLEGGRYINVEINREKAARYGMTVADVQLFVTSAVGGAMVGETVEGIARYPINLRYPQSWRDSPQALRQLPILTPMKQQITLADVADIKVSTGPSMLKTENARPTSWIYIDARDRDMVSVVHDLQKAIAEKVQLKPGTSVAFSGQFELLERANHKLKLMVPMTLMIIFVLLYLAFRRVGEALLIISSVPFALVGGIWLLWWMGFHLSVATGTGFIALAGVAAEFGVVMLMYLRHAIEAVPSLNNPQTFSEQKLDEALYHGAVLRVRPKAMTVAVIIAGLLPILWGTGAGSEVMSRIAAPMIGGMITAPLLSLFIIPAAYKLMWLHRHRVRK" "i" "Han et al., 2011" -"YBHF-MONOMER" "MNDAVITLNGLEKRFPGMDKPAVAPLDCTIHAGYVTGLVGPDGAGKTTLMRMLAGLLKPDSGSATVIGFDPIKNDGALHAVLGYMPQKFGLYEDLTVMENLNLYADLRSVTGEARKQTFARLLEFTSLGPFTGRLAGKLSGGMKQKLGLACTLVGEPKVLLLDEPGVGVDPISRRELWQMVHELAGEGMLILWSTSYLDEAEQCRDVLLMNEGELLYQGEPKALTQTMAGRSFLMTSPHEGNRKLLQRALKLPQVSDGMIQGKSVRLILKKEATPDDIRHADGMPEININETTPRFEDAFIDLLGGAGTSESPLGAILHTVEGTPGETVIEAKELTKKFGDFAATDHVNFAVKRGEIFGLLGPNGAGKSTTFKMMCGLLVPTSGQALVLGMDLKESSGKARQHLGYMAQKFSLYGNLTVEQNLRFFSGVYGLRGRAQNEKISRMSEAFGLKSIASHATDELPLGFKQRLALACSLMHEPDILFLDEPTSGVDPLTRREFWLHINSMVEKGVTVMVTTHFMDEAEYCDRIGLVYRGKLIASGTPDDLKAQSANDEQPDPTMEQAFIQLIHDWDKEHSNE" "i" "EcoCyc dump" -"YBHR-MONOMER" "MFHRLWTLIRKELQSLLREPQTRAILILPVLIQVILFPFAATLEVTNATIAIYDEDNGEHSVELTQRFARASAFTHVLLLKSPQEIRPTIDTQKALLLVRFPADFSRKLDTFQTAPLQLILDGRNSNSAQIAANYLQQIVKNYQQELLEGKPKPNNSELVVRNWYNPNLDYKWFVVPSLIAMITTIGVMIVTSLSVAREREQGTLDQLLVSPLTTWQIFIGKAVPALIVATFQATIVLAIGIWAYQIPFAGSLALFYFTMVIYGLSLVGFGLLISSLCSTQQQAFIGVFVFMMPAILLSGYVSPVENMPVWLQNLTWINPIRHFTDITKQIYLKDASLDIVWNSLWPLLVITATTGSAAYAMFRRKVM" "i" "Han et al., 2011" -"YBHS-MONOMER" "MSNPILSWRRVRALCVKETRQIVRDPSSWLIAVVIPLLLLFIFGYGINLDSSKLRVGILLEQRSEAALDFTHTMTGSPYIDATISDNRQELIAKMQAGKIRGLVVIPVDFAEQMERANATAPIQVITDGSEPNTANFVQGYVEGIWQIWQMQRAEDNGQTFEPLIDVQTRYWFNPAAISQHFIIPGAVTIIMTVIGAILTSLVVAREWERGTMEALLSTEITRTELLLCKLIPYYFLGMLAMLLCMLVSVFILGVPYRGSLLILFFISSLFLLSTLGMGLLISTITRNQFNAAQVALNAAFLPSIMLSGFIFQIDSMPAVIRAVTYIIPARYFVSTLQSLFLAGNIPVVLVVNVLFLIASAVMFIGLTWLKTKRRLD" "i" "Han et al., 2011" -"YCAD-MONOMER" "MSTYTQPVMLLLSGLLLLTLAIAVLNTLVPLWLAQEHMSTWQVGVVSSSYFTGNLVGTLLTGYVIKRIGFNRSYYLASFIFAAGCAGLGLMIGFWSWLAWRFVAGVGCAMIWVVVESALMCSGTSRNRGRLLAAYMMVYYVGTFLGQLLVSKVSTELMSVLPWVTGLTLAGILPLLFTRVLNQQAENHDSTSITSMLKLRQARLGVNGCIISGIVLGSLYGLMPLYLNHKGVSNASIGFWMAVLVSAGILGQWPIGRLADKFGRLLVLRVQVFVVILGSIAMLSQAAMAPALFILGAAGFTLYPVAMAWACEKVEHHQLVAMNQALLLSYTVGSLLGPSFTAMLMQNFSDNLLFIMIASVSFIYLLMLLRNAGHTPKPVAHV" "i" "Han et al., 2011" -"YCAM" "MAGNVQEKQLRWYNIALMSFITVWGFGNVVNNYANQGLVVVFSWVFIFALYFTPYALIVGQLGSTFKDGKGGVSTWIKHTMGPGLAYLAAWTYWVVHIPYLAQKPQAILIALGWAMKGDGSLIKEYSVVALQGLTLVLFIFFMWVASRGMKSLKIVGSVAGIAMFVMSLLYVAMAVTAPAITEVHIATTNITWETFIPHIDFTYITTISMLVFAVGGAEKISPYVNQTRNPGKEFPKGMLCLAVMVAVCAILGSLAMGMMFDSRNIPDDLMTNGQYYAFQKLGEYYNMGNTLMVIYAIANTLGQVAALVFSIDAPLKVLLGDADSKYIPASLCRTNASGTPVNGYFLTLVLVAILIMLPTLGIGDMNNLYKWLLNLNSVVMPLRYLWVFVAFIAVVRLAQKYKPEYVFIRNKPLAMTVGIWCFAFTAFACLTGIFPKMEAFTAEWTFQLALNVATPFVLVGLGLIFPLLARKANSK" "i" "Han et al., 2011" -"YCBE-MONOMER" "MNTARLNQGTPLLLNAVSKHYAENIVLNQLDLHIPAGQFVAVVGRSGGGKSTLLRLLAGLETPTAGDVLAGTTPLAEIQEDTRMMFQDARLLPWKSVIDNVGLGLKGQWRDAARRALAAVGLENRAGEWPAALSGGQKQRVALARALIHRPGLLLLDEPLGALDALTRLEMQDLIVSLWQEHGFTVLLVTHDVSEAVAMADRVLLIEEGKIGLDLTVDIPRPRRLGSVRLAELEAEVLQRVMQRGESETRLRKQG" "i" "EcoCyc dump" -"YCBM-MONOMER" "MATPVKKWLLRVAPWFLPVGIVAVWQLASSVGWLSTRILPSPEGVVTAFWTLSASGELWQHLAISSWRALIGFSIGGSLGLILGLISGLSRWGERLLDTSIQMLRNVPHLALIPLVILWFGIDESAKIFLVALGTLFPIYINTWHGIRNIDRGLVEMARSYGLSGIPLFIHVILPGALPSIMVGVRFALGLMWLTLIVAETISANSGIGYLAMNAREFLQTDVVVVAIILYALLGKLADVSAQLLERLWLRWNPAYHLKEATV" "i" "Han et al., 2011" -"YCEE-MONOMER" "MSPCENDTPINWKRNLIVAWLGCFLTGAAFSLVMPFLPLYVEQLGVTGHSALNMWSGIVFSITFLFSAIASPFWGGLADRKGRKLMLLRSALGMGIVMVLMGLAQNIWQFLILRALLGLLGGFVPNANALIATQVPRNKSGWALGTLSTGGVSGALLGPMAGGLLADSYGLRPVFFITASVLILCFFVTLFCIREKFQPVSKKEMLHMREVVTSLKNPKLVLSLFVTTLIIQVATGSIAPILTLYVRELAGNVSNVAFISGMIASVPGVAALLSAPRLGKLGDRIGPEKILITALIFSVLLLIPMSYVQTPLQLGILRFLLGAADGALLPAVQTLLVYNSSNQIAGRIFSYNQSFRDIGNVTGPLMGAAISANYGFRAVFLVTAGVVLFNAVYSWNSLRRRRIPQVSN" "i" "Han et al., 2011" -"YCFU-MONOMER" "MYQPVALFIGLRYMRGRAADRFGRFVSWLSTIGITLGVMALVTVLSVMNGFERELQNNILGLMPQAILSSEHGSLNPQQLPETAVKLDGVNRVAPITTGDVVLQSARSVAVGVMLGIDPAQKDPLTPYLVNVKQTDLEPGKYNVILGEQLASQLGVNRGDQIRVMVPSASQFTPMGRIPSQRLFNVIGTFAANSEVDGYEMLVNIEDASRLMRYPAGNITGWRLWLDEPLKVDSLSQQKLPEGSKWQDWRDRKGELFQAVRMEKNMMGLLLSLIVAVAAFNIITSLGLMVMEKQGEVAILQTQGLTPRQIMMVFMVQGASAGIIGAILGAALGALLASQLNNLMPIIGVLLDGAALPVAIEPLQVIVIALVAMAIALLSTLYPSWRAAATQPAEALRYE" "i" "Han et al., 2011" -"YCFV-MONOMER" "MNKILLQCDNLCKRYQEGSVQTDVLHNVSFSVGEGEMMAIVGSSGSGKSTLLHLLGGLDTPTSGDVIFNGQPMSKLSSAAKAELRNQKLGFIYQFHHLLPDFTALENVAMPLLIGKKKPAEINSRALEMLKAVGLDHRANHRPSELSGGERQRVAIARALVNNPRLVLADEPTGNLDARNADSIFQLLGELNRLQGTAFLVVTHDLQLAKRMSRQLEMRDGRLTAELSLMGAE" "i" "Han et al., 2011" -"YCFW-MONOMER" "MAMPLSLLIGLRFSRGRRRGGMVSLISVISTIGIALGVAVLIVGLSAMNGFERELNNRILAVVPHGEIEAVDQPWTNWQEALDHVQKVPGIAAAAPYINFTGLVESGANLRAIQVKGVNPQQEQRLSALPSFVQGDAWRNFKAGEQQIIIGKGVADALKVKQGDWVSIMIPNSNPEHKLMQPKRVRLHVAGILQLSGQLDHSFAMIPLADAQQYLDMGSSVSGIALKMTDVFNANKLVRDAGEVTNSYVYIKSWIGTYGYMYRDIQMIRAIMYLAMVLVIGVACFNIVSTLVMAVKDKSGDIAVLRTLGAKDGLIRAIFVWYGLLAGLFGSLCGVIIGVVVSLQLTPIIEWIEKLIGHQFLSSDIYFIDFLPSELHWLDVFYVLVTALLLSLLASWYPARRASNIDPARVLSGQ" "i" "Han et al., 2011" -"YCGO-MONOMER" "LDATTIISLFILGSILVTSSILLSSFSSRLGIPILVIFLAIGMLAGVDGVGGIPFDNYPFAYMVSNLALAIILLDGGMRTQASSFRVALGPALSLATLGVLITSGLTGMMAAWLFNLDLIEGLLIGAIVGSTDAAAVFSLLGGKGLNERVGSTLEIESGSNDPMAVFLTITLIAMIQHHESNISWMFIVDILQQFGLGIVIGLGGGYLLLQMINRIALPAGLYPLLALSGGILIFSLTTALEGSGILAVYLCGFLLGNRPIRNRYGILQNFDGLAWLAQIAMFLVLGLLVNPSDLLPIAIPALILSAWMIFFARPLSVFAGLLPFRGFNLRERVFISWVGLRGAVPIILAVFPMMAGLENARLFFNVAFFVVLVSLLLQGTSLSWAAKKAKVVVPPVGRPVSRVGLDIHPENPWEQFVYQLSADKWCVGAALRDLHMPKETRIAALFRDNQLLHPTGSTRLREGDVLCVIGRERDLPALGKLFSQSPPVALDQRFFGDFILEASAKYADVALIYGLEDGREYRDKQQTLGEIVQQLLGAAPVVGDQVEFAGMIWTVAEKEDNEVLKIGVRVAEEEAES" "i" "Han et al., 2011" -"YCHM-MONOMER" "VNKIFSSHVMPFRALIDACWKEKYTAARFTRDLIAGITVGIIAIPLAMALAIGSGVAPQYGLYTAAVAGIVIALTGGSRFSVSGPTAAFVVILYPVSQQFGLAGLLVATLLSGIFLILMGLARFGRLIEYIPVSVTLGFTSGIGITIGTMQIKDFLGLQMAHVPEHYLQKVGALFMALPTINVGDAAIGIVTLGILVFWPRLGIRLPGHLPALLAGCAVMGIVNLLGGHVATIGSQFHYVLADGSQGNGIPQLLPQLVLPWDLPNSEFTLTWDSIRTLLPAAFSMAMLGAIESLLCAVVLDGMTGTKHKANSELVGQGLGNIIAPFFGGITATAAIARSAANVRAGATSPISAVIHSILVILALLVLAPLLSWLPLSAMAALLLMVAWNMSEAHKVVDLLRHAPKDDIIVMLLCMSLTVLFDMVIAISVGIVLASLLFMRRIARMTRLAPVVVDVPDDVLVLRVIGPLFFAAAEGLFTDLESRLEGKRIVILKWDAVPVLDAGGLDAFQRFVKRLPEGCELRVCNVEFQPLRTMARAGIQPIPGRLAFFPNRRAAMADL" "i" "Han et al., 2011" -"YCJN-MONOMER" "MIKSKIVLLSALVSCALISGCKEENKTNVSIEFMHSSVEQERQAVISKLIARFEKENPGITVKQVPVEEDAYNTKVITLSRSGSLPEVIETSHDYAKVMDKEQLIDRKAVATVISNVGEGAFYDGVLRIVRTEDGSAWTGVPVSAWIGGIWYRKDVLAKAGLEEPKNWQQLLDVAQKLNDPANKKYGIALPTAESVLTEQSFSQFALSNQANVFNAEGKITLDTPEMMQALTYYRDLTANTMPGSNDIMEVKDAFMNGTAPMAIYSTYILPAVIKEGDPKNVGFVVPTEKNSAVYGMLTSLTITAGQKTEETEAAEKFVTFMEQADNIADWVMMSPGAALPVNKAVVTTATWKDNDVIKALGELPNQLIGELPNIQVFGAVGDKNFTRMGDVTGSGVVSSMVHNVTVGKADLSTTLQASQKKLDELIEQH" "p" "Han et al., 2011" -"YCJO-MONOMER" "MNRLFSGRSDMPFALLLLAPSLLLLGGLVAWPMVSNIEISFLRLPLNPNIESTFVGVSNYVRILSDPGFWHSLWMTVWYTALVVAGSTVLGLAVAMFFNREFRLRKTARSLVILSYVTPSISLVFAWKYMFNNGYGIVNYLGVDLLHLYEQAPLWFDNPGSSFVLVVLFAIWRYFPYAFISFLAILQTIDKSLYEAAEMDGANAWQRFRIVTLPAIMPVLATVVTLRTIWMFYMFADVYLLTTKVDILGVYLYKTAFAFNDLGKAAAISVVLFIIIFAVILLTRKRVNLNGNK" "i" "Han et al., 2011" -"YCJP-MONOMER" "MATNKRTLSRIGFYCGLALFLIITLFPFFVMLMTSFKGAKEAISLHPTLLPQQWTLEHYVDIFNPMIFPFVDYFRNSLVVSVVSSVVAVFLGILGAYALSRLRFKGRMTINASFYTVYMFSGILLVVPLFKIITALGIYDTEMALIITMVTQTLPTAVFMLKSYFDTIPDEIEEAAMMDGLNRLQIIFRITVPLAMSGLISVFVYCFMVAWNDYLFASIFLSSASNFTLPVGLNALFSTPDYIWGRMMAASLVTALPVVIMYALSERFIKSGLTAGGVKG" "i" "Han et al., 2011" -"YCJV-MONOMER" "MAQLSLQHIQKIYDNQVHVVKDFNLEIADKEFIVFVGPSGCGKSTTLRMIAGLEEISGGDLLIDGKRMNDVPAKARNIAMVFQNYALYPHMTVYDNMAFGLKMQKIAKEVIDERVNWAAQILGLREYLKRKPGALSGGQRQRVALGRAIVREAGVFLMDEPLSNLDAKLRVQMRAEISKLHQKLNTTMIYVTHDQTEAMTMATRIVIMKDGIVQQVGAPKTVYNQPANMFVSGFIGSPAMNFIRGTIDGDKFVTETLKLTIPEEKLAVLKTQESLHKPIVMGIRPEDIHPDAQEENNISAKISVAELTGAEFMLYTTVGGTS" "c" "Han et al., 2011" -"YDCS-MONOMER" "MSKTFARSSLCALSMTIMTAHAAEPPTNLDKPEGRLDIIAWPGYIERGQTDKQYDWVTQFEKETGCAVNVKTAATSDEMVSLMTKGGYDLVTASGDASLRLIMGKRVQPINTALIPNWKTLDPRVVKGDWFNVGGKVYGTPYQWGPNLLMYNTKTFPTPPDSWQVVFVEQNLPDGKSNKGRVQAYDGPIYIADAALFVKATQPQLGISDPYQLTEEQYQAVLKVLRAQHSLIHRYWHDTTVQMSDFKNEGVVASSAWPYQANALKAEGQPVATVFPKEGVTGWADTTMLHSEAKHPVCAYKWMNWSLTPKVQGDVAAWFGSLPVVPEGCKASPLLGEKGCETNGFNYFDKIAFWKTPIAEGGKFVPYSRWTQDYIAIMGGR" "p" "Han et al., 2011" -"YDCT-MONOMER" "MTYAVEFDNVSRLYGDVRAVDGVSIAIKDGEFFSMLGPSGSGKTTCLRLIAGFEQLSGGAISIFGKPASNLPPWERDVNTVFQDYALFPHMSILDNVAYGLMVKGVNKKQRHAMAQEALEKVALGFVHQRKPSQLSGGQRQRVAIARALVNEPRVLLLDEPLGALDLKLREQMQLELKKLQQSLGITFIFVTHDQGEALSMSDRVAVFNNGRIEQVDSPRDLYMRPRTPFVAGFVGTSNVFDGLMAEKLCGMTGSFALRPEHIRLNTPGELQANGTIQAVQYQGAATRFELKLNGGEKLLVSQANMTGEELPATLTPGQQVMVSWSRDVMVPLVEER" "i" "EcoCyc dump" -"YDCU-MONOMER" "MAMNVLQSPSRPGLGKVSGFFWHNPGLGLFLLLLGPLMWFGIVYFGSLLTLLWQGFYTFDDFTMSVTPELTLANIRALFNPANYDIILRTLTMAVAVTIASAILAFPMAWYMARYTSGKMKAFFYIAVMLPMWASYIVKAYAWTLLLAKDGVAQWFLQHLGLEPLLTAFLTLPAVGGNTLSTSGLGRFLVFLYIWLPFMILPVQAALERLPPSLLQASADLGARPRQTFRYVVLPLAIPGIAAGSIFTFSLTLGDFIVPQLVGPPGYFIGNMVYSQQGAIGNMPMAAAFTLVPIILIALYLAFVKRLGAFDAL" "i" "Han et al., 2011" -"YDCV-MONOMER" "MHSERAPFFLKLAAWGGVVFLHFPILIIAAYAFNTEDAAFSFPPQGLTLRWFSVAAQRSDILDAVTLSLKVAALATLIALVLGTLAAAALWRRDFFGKNAISLLLLLPIALPGIVTGLALLTAFKTINLEPGFFTIVVGHATFCVVVVFNNVIARFRRTSWSLVEASMDLGANGWQTFRYVVLPNLSSALLAGGMLAFALSFDEIIVTTFTAGHERTLPLWLLNQLGRPRDVPVTNVVALLVMLVTTLPILGAWWLTREGDNGQ" "i" "Han et al., 2011" -"YDDA-MONOMER" "MITIPITLRMLIAKYLCLLKPFWLRKNNKTSVLLIIIILAMILGVVKIQVWLNDWNNDFFNALSQKETDKLWQLVLWFPALLGIFVLISVNKTWLIKLLTIRWREWLTDYYLNRWFADKNYYFTQIYGEHKNTDNPDQRIAEDILLLISKTLSLSFGFIQSLSMLITFTVILWESAGTLSFTVGGTEWNIQGYMVYTVVLIVIGGTLFTHKVGKRIRPLNVEKQRSEATFRTNLVQHNKQAELIALSNAESLQRQELSDNFHTIKENWHRLMNRQRWLDYWQNIYSRSLSVLPYFLLLPQFISGQINLGGLMKSRQAFMLVSNNLSWFIYKYDELAELAAVIDRLYEFHQLTEQRPTNKPKNCQHAVQVADASIRTPDNKIILENLNFHVSPGKWLLLKGYSGAGKTTLLKTLSHCWPWFKGDISSPADSWYVSQTPLIKTGLLKEIICKALPLPVDDKSLSEVLHQVGLGKLAARIHDHDRWGDILSSGEKQRIALARLILRRPKWIFLDETTSHLEEQEAIRLLRLVREKLPTSGVIMVTHQPGVWNLADDICDISAVL" "i" "Han et al., 2011" -"YDDO-MONOMER" "VSDTLLTLRDVHINFPARKNWLGKTTEHVHAINGIDLQIRRGETLGIVGESGCGKSTLAQLLMGMLQPSHGQYIRSGSQRIMQMVFQDPLSSLNPRLPVWRIITEPLWIAKRSSEQQRRALAEELAVQVGIRPEYLDRLPHAFSGGQRQRIAIARALSSQPDVIVLDEPTSALDISVQAQILNLLVTLQENHGLTYVLISHNVSVIRHMSDRVAVMYLGQIVELGDAQQVLTAPAHPYTRLLLDSLPAIDKPLEEEWALRKTDLPGNRTLPQGCFFYERCPLATHGCEVRQSLAIREDGRELRCWRAL" "i" "EcoCyc dump" -"YDDP-MONOMER" "MTQPVLDIQQLHLSFPGFNGDVHALNNVSLQINRGEIVGLVGESGSGKSVTAMLIMRLLPTGSYCVHRGQISLLGEDVLNAREKQLRQWRGARVAMIFQEPMTALNPTRRIGLQMMDVIRHHQPISRREARAKAIDLLEEMQIPDAVEVMSRYPFELSGGMRQRVMIALAFSCEPQLIIADEPTTALDVTVQLQVLRLLKHKARASGTAVLFISHDMAVVSQLCDSVYVMYAGSVIESGVTADVIHHPRHPYTIGLLQCAPEHGVPRQLLPAIPGTVPNLTHLPDGCAFRDRCYAAGAQCENVPALTACGDNNQRCACWYPQQEVISV" "i" "EcoCyc dump" -"YDDQ-MONOMER" "MMLSEETSAVRPQKQTRFNGAKLVWMLKGSPLTVTSAVIIVLMLLMMIFSPWLATHDPNAIDLTARLLPPSAAHWFGTDEVGRDLFSRVLVGSQQSILAGLVVVAIAGMIGSLLGCLSGVLGGRADAIIMRIMDIMLSIPSLVLTMALAAALGPSLFNAMLAIAIVRIPFYVRLARGQALVVRQYTYVQAAKTFGASRWHLINWHILRNSLPPLIVQASLDIGSAILMAATLGFIGLGAQQPSAEWGAMVANGRNYVLDQWWYCAFPGAAILLTAVGFNLFGDGIRDLLDPKAGGKQS" "i" "Han et al., 2011" -"YDDR-MONOMER" "VTFWSILRQRCWGLVLVVAGVCVITFIISHLIPGDPARLLAGDRASDAIVENIRQQLGLDQPLYVQFYRYVSDLFHGDLGTSIRTGRPVLEELRIFFPATLELAFGALLLALLIGIPLGILSAVWRNRWLDHLVRIMAITGISTPAFWLGLGVIVLFYGHLQILPGGGRLDDWLDPPTHVTGFYLLDALLEGNGEVFFNALQHLILPALTLAFVHLGIVARQIRSAMLEQLSEDYIRTARASGLPGWYIVLCYALPNALIPSITVLGLALGDLLYGAVLTETVFAWPGMGAWVVTSIQALDFPAVMGFAVVVSFAYVLVNLVVDLLYLWIDPRIGRGGGE" "i" "Han et al., 2011" -"YDDS-MONOMER" "MKRSISFRPTLLALVLATNFPVAHAAVPKDMLVIGKAADPQTLDPAVTIDNNDWTVTYPSYQRLVQYKTDGDKGSTDVEGDLASSWKASDDQKEWTFTLKDNAKFADGTPVTAEAVKLSFERLLKIGQGPAEAFPKDLKIDAPDEHTVKFTLSQPFAPFLYTLANDGASIINPAVLKEHAADDARGFLAQNTAGSGPFMLKSWQKGQQLVLVPNPHYPGNKPNFKRVSVKIIGESASRRLQLSRGDIDIADALPVDQLNALKQENKVNVAEYPSLRVTYLYLNNSKAPLNQADLRRAISWSTDYQGMVNGILSGNGKQMRGPIPEGMWGYDATAMQYNHDETKAKAEWDKVTSKPTSLTFLYSDNDPNWEPIALATQSSLNKLGIIVKLEKLANATMRDRVGKGDYDIAIGNWSPDFADPYMFMNYWFESDKKGLPGNRSFYENSEVDKLLRNALATTDQTQRTRDYQQAQKIVIDDAAYVYLFQKNYQLAMNKEVKGFVFNPMLEQVFNINTMSK" "i" "Han et al., 2011" -"YDEA-MONOMER" "MTTNTVSRKVAWLRVVTLAVAAFIFNTTEFVPVGLLSDIAQSFHMQTAQVGIMLTIYAWVVALMSLPFMLMTSQVERRKLLICLFVVFIASHVLSFLSWSFTVLVISRIGVAFAHAIFWSITASLAIRMAPAGKRAQALSLIATGTALAMVLGLPLGRIVGQYFGWRMTFFAIGIGALITLLCLIKLLPLLPSEHSGSLKSLPLLFRRPALMSIYLLTVVVVTAHYTAYSYIEPFVQNIAGFSANFATALLLLLGGAGIIGSVIFGKLGNQYASALVSTAIALLLVCLALLLPAANSEIHLGVLSIFWGIAMMIIGLGMQVKVLALAPDATDVAMALFSGIFNIGIGAGALVGNQVSLHWSMSMIGYVGAVPAFAALIWSIIIFRRWPVTLEEQTQ" "i" "Han et al., 2011" -"YDEF-MONOMER" "MNLSLRRSTSALLASSLLLTIGRGATLPFMTIYLSRQYSLSVDLIGYAMTIALTIGVVFSLGFGILADKFDKKRYMLLAITAFASGFIAITLVNNVTLVVLFFALINCAYSVFATVLKAWFADNLSSTSKTKIFSINYTMLNIGWTIGPPLGTLLVMQSINLPFWLAAICSAFPMLFIQIWVKRSEKIIATETGSVWSPKVLLQDKALLWFTCSGFLASFVSGAFASCISQYVMVIADGDFAEKVVAVVLPVNAAMVVTLQYSVGRRLNPANIRALMTAGTLCFVIGLVGFIFSGNSLLLWGMSAAVFTVGEIIYAPGEYMLIDHIAPPEMKASYFSAQSLGWLGAAINPLVSGVVLTSLPPSSLFVILALVIIAAWVLMLKGIRARPWGQPALC" "i" "Han et al., 2011" -"YDEX-MONOMER" "MQTSDTRALPLLCARSVYKQYSGVNVLKGIDFTLHQGEVHALLGGNGAGKSTLMKIIAGITPADSGTLEIEGNNYVRLTPVHAHQLGIYLVPQEPLLFPSLSIKENILFGLAKKQLSMQKMKNLLAALGCQFDLHSLAGSLDVADRQMVEILRGLMRDSRILILDEPTASLTPAETERLFSRLQELLATGVGIVFISHKLPEIRQIADRISVMRDGTIALSGKTSELSTDDIIQAITPAVREKSLSASQKLWLELPGNRPQHAAGTPVLTLENLTGEGFRNVSLTLNAGEILGLAGLVGAGRTELAETLYGLRTLRGGRIMLNGKEINKLSTGERLLRGLVYLPEDRQSSGLNLDASLAWNVCALTHNLRGFWAKTAKDNATLERYRRALNIKFNQPEQAARTLSGGNQQKILIAKCLEASPQVLIVDEPTRGVDVSARNDIYQLLRSIAAQNVAVLLISSDLEEIELMADRVYVMHQGEITHSALTERDINVETIMRVAFGDSQRQEASC" "i" "Unambiguous EcoCyc data" -"YDEY-MONOMER" "MLKFIQNNREITALLAVVLLFVLPGFLDRQYLSVQTLTMVYSSAQILILLAMGATLVMLTRNIDVSVGSITGMCAVLLGMLLNAGYSLPVACVATLLLGLLAGFFNGVLVAWLKIPAIVATLGTLGLYRGIMLLWTGGKWIEGLPAELKQLSAPLLLGVSAIGWLTIILVAFMAWLLAKTAFGRSFYATGDNLQGARQLGVRTEAIRIVAFSLNGCMAALAGIVFASQIGFIPNQTGTGLEMKAIAACVLGGISLLGGSGAIIGAVLGAWFLTQIDSVLVLLRIPAWWNDFIAGLVLLAVLVFDGRLRCALERNLRRQKYARFMTPPPSVKPASSGKKREAA" "i" "Unambiguous EcoCyc data" -"YDEZ-MONOMER" "MRIRYGWELALAALLVIEIVAFGAINPRMLDLNMLLFSTSDFICIGIVALPLTMVIVSGGIDISFGSTIGLCAIALGVLFQSGVPMPLAILLTLLLGALCGLINAGLIIYTKVNPLVITLGTLYLFAGSALLLSGMAGATGYEGIGGFPMAFTDFANLDVLGLPVPLIIFLICLLVFWLWLHKTHAGRNVFLIGQSPRVALYSAIPVNRTLCALYAMTGLASAVAAVLLVSYFGSARSDLGASFLMPAITAVVLGGANIYGGSGSIIGTAIAVLLVGYLQQGLQMAGVPNQVSSALSGALLIVVVVGRSVSLHRQQIKEWLARRANNPLP" "i" "Han et al., 2011" -"YDHC-MONOMER" "MQPGKRFLVWLAGLSVLGFLATDMYLPAFAAIQADLQTPASAVSASLSLFLAGFAAAQLLWGPLSDRYGRKPVLLIGLTIFALGSLGMLWVENAATLLVLRFVQAVGVCAAAVIWQALVTDYYPSQKVNRIFAAIMPLVGLSPALAPLLGSWLLVHFSWQAIFATLFAITVVLILPIFWLKPTTKARNNSQDGLTFTDLLRSKTYRGNVLIYAACSASFFAWLTGSPFILSEMGYSPAVIGLSYVPQTIAFLIGGYGCRAALQKWQGKQLLPWLLVLFAVSVIATWAAGFISHVSLVEILIPFCVMAIANGAIYPIVVAQALRPFPHATGRAAALQNTLQLGLCFLASLVVSWLISISTPLLTTTSVMLSTVVLVALGYMMQRCEEVGCQNHGNAEVAHSESH" "i" "Han et al., 2011" -"YDHE-MONOMER" "VQKYISEARLLLALAIPVILAQIAQTAMGFVDTVMAGGYSATDMAAVAIGTSIWLPAILFGHGLLLALTPVIAQLNGSGRRERIAHQVRQGFWLAGFVSVLIMLVLWNAGYIIRSMENIDPALADKAVGYLRALLWGAPGYLFFQVARNQCEGLAKTKPGMVMGFIGLLVNIPVNYIFIYGHFGMPELGGVGCGVATAAVYWVMFLAMVSYIKRARSMRDIRNEKGTAKPDPAVMKRLIQLGLPIALALFFEVTLFAVVALLVSPLGIVDVAGHQIALNFSSLMFVLPMSLAAAVTIRVGYRLGQGSTLDAQTAARTGLMVGVCMATLTAIFTVSLREQIALLYNDNPEVVTLAAHLMLLAAVYQISDSIQVIGSGILRGYKDTRSIFYITFTAYWVLGLPSGYILALTDLVVEPMGPAGFWIGFIIGLTSAAIMMMLRMRFLQRLPSAIILQRASR" "i" "Han et al., 2011" -"YDJE-MONOMER" "MEQYDQIGARLDRLPLARFHYRIFGIISFSLLLTGFLSYSGNVVLAKLVSNGWSNNFLNAAFTSALMFGYFIGSLTGGFIGDYFGRRRAFRINLLIVGIAATGAAFVPDMYWLIFFRFLMGTGMGALIMVGYASFTEFIPATVRGKWSARLSFVGNWSPMLSAAIGVVVIAFFSWRIMFLLGGIGILLAWFLSGKYFIESPRWLAGKGQIAGAECQLREVEQQIEREKSIRLPPLTSYQSNSKVKVIKGTFWLLFKGEMLRRTLVAITVLIAMNISLYTITVWIPTIFVNSGIDVDKSILMTAVIMIGAPVGIFIAALIIDHFPRRLFGSTLLIIIAVLGYIYSIQTTEWAILIYGLVMIFFLYMYVCFASAVYIPELWPTHLRLRGSGFVNAVGRIVAVFTPYGVAALLTHYGSITVFMVLGVMLLLCALVLSIFGIETRKVSLEEISEVN" "i" "Han et al., 2011" -"YEAV-MONOMER" "LVLLAMGLVIYLATSKYGNIRLGEGKPEYSTLSWLFMFICAGLGSSTLYWGVAEWAYYYQTPGLNIAPRSQQALEFSVPYSFFHWGISAWATYTLASLIMAYHFHVRKNKGLSLSGIIAAITGVRPQGPWGKLVDLMFLIATVGALTISLVVTAATFTRGLSALTGLPDNFTVQAFVILLSGGIFCLSSWIGINNGLQRLSKMVGWGAFLLPLLVLIVGPTEFITNSIINAIGLTTQNFLQMSLFTDPLGDGSFTRNWTVFYWLWWISYTPGVAMFVTRVSRGRKIKEVIWGLILGSTVGCWFFFGVMESYAIHQFINGVINVPQVLETLGGETAVQQVLMSLPAGKLFLAAYLGVMIIFLASHMDAVAYTMAATSTRNLQEGDDPDRGLRLFWCVVITLIPLSILFTGASLETMKTTVVLTALPFLVILLVKVGGFIRWLKQDYADIPAHQVEHYLPQTPVEALEKTPVLPAGTVFKGDN" "i" "Han et al., 2011" -"YEEF-MONOMER" "MSHNVTPNTSRVELRKTLTLVPVVMMGLAYMQPMTLFDTFGIVSGLTDGHVPTAYAFALIAILFTALSYGKLVRRYPSAGSAYTYAQKSISPTVGFMVGWSSLLDYLFAPMINILLAKIYFEALVPSIPSWMFVVALVAFMTAFNLRSLKSVANFNTVIVVLQVVLIAVILGMVVYGVFEGEGAGTLASTRPFWSGDAHVIPMITGATILCFSFTGFDGISNLSEETKDAERVIPRAIFLTALIGGMIFIFATYFLQLYFPDISRFKDPDASQPEIMLYVAGKAFQVGALIFSTITVLASGMAAHAGVARLMYVMGRDGVFPKSFFGYVHPKWRTPAMNIILVGAIALLAINFDLVMATALINFGALVAFTFVNLSVISQFWIREKRNKTLKDHFQYLFLPMCGALTVGALWVNLEESSMVLGLIWAAIGLIYLACVTKSFRNPVPQYEDVA" "i" "Han et al., 2011" -"YEEO-MONOMER" "LLRHILTAKNLLSNPIFKFPNCLPFLSTVCCICRQFVGENLCSFADSPSLFEMWFHFLQLRSALNISSALRQVVHGTRWHAKRKSYKVLFWREITPLAVPIFMENACVLLMGVLSTFLVSWLGKDAMAGVGLADSFNMVIMAFFAAIDLGTTVVVAFSLGKRDRRRARVATRQSLVIMTLFAVLLATLIHHFGEQIIDFVAGDATTEVKALALTYLELTVLSYPAAAITLIGSGALRGAGNTKIPLLINGSLNILNIIISGILIYGLFSWPGLGFVGAGLGLTISRYIGAVAILWVLAIGFNPALRISLKSYFKPLNFSIIWEVMGIGIPASVESVLFTSGRLLTQMFVAGMGTSVIAGNFIAFSIAALINLPGSALGSASTIITGRRLGVGQIAQAEIQLRHVFWLSTLGLTAIAWLTAPFAGVMASFYTQDPQVKHVVVILIWLNALFMPIWSASWVLPAGFKGARDARYAMWVSMLSMWGCRVVVGYVLGIMLGWGVVGVWMGMFADWAVRAVLFYWRMVTGRWLWKYPRPEPQKCEKKPVVSE" "i" "Han et al., 2011" -"YEHW-MONOMER" "MKMLRDPLFWLIALFVALIFWLPYSQPLFAALFPQLPRPVYQQESFAALALAHFWLVGISSLFAVIIGTGAGIAVTRPWGAEFRPLVETIAAVGQTFPPVAVLAIAVPVIGFGLQPAIIALILYGVLPVLQATLAGLGAIDASVTEVAKGMGMSRGQRVRKVELPLAAPVILAGVRTSVIINIGTATIASTVGASTLGTPIIIGLSGFNTAYVIQGALLVALAAIIADRLFERLVQALSQHAK" "i" "Han et al., 2011" -"YEHX-MONOMER" "MIEFSHVSKLFGAQKAVNDLNLNFQEGSFSVLIGTSGSGKSTTLKMINRLVEHDSGEIRFAGEEIRSLPVLELRRRMGYAIQSIGLFPHWSVAQNIATVPQLQKWSRARIDDRIDELMALLGLESNLRERYPHQLSGGQQQRVGVARALAADPQVLLMDEPFGALDPVTRGALQQEMTRIHRLLGRTIVLVTHDIDEALRLAEHLVLMDHGEVVQQGNPLTMLTRPANDFVRQFFGRSELGVRLLSLRSVADYVRREERADGEALAEEMTLRDALSLFVARGCEVLPVVNMQGQPCGTLHFQDLLVEA" "i" "EcoCyc dump" -"YEHY-MONOMER" "VTYFRINPVLALLLLLTAIAAALPFISYAPNRLVSGEGRHLWQLWPQTIWMLVGVGCAWLTACFIPGKKGSICALILAQFVFVLLVWGAGKAATQLAQNGSALARTSLGSGFWLAAALALLACSDAIRRISTHPLWRWLLHMQIAIIPLWLLYSGTLNDLSLMKEYANRQDVFDDALAQHLTLLFGAVLPALVIGVPLGIWCYFSTARQGAIFSLLNVIQTVPSVALFGLLIAPLAALVTAFPWLGTLGIAGTGMTPALIALVLYALLPLVRGVVVGLNQIPRDVLESARAMGMSGAQRFLHVQLPLALPVFLRSLRVVMVQTVGMAVIAALIGAGGFGALVFQGLLSSAIDLVLLGVIPVIVLAVLTDALFDLLIALLKVKRND" "i" "Han et al., 2011" -"YEHZ-MONOMER" "MPLLKLWAGSLVMLAAVSLPLQAASPVKVGSKIDTEGALLGNIILQVLESHGVPTVNKVQLGTTPVVRGAITSGELDIYPEYTGNGAFFFKDENDAAWKNAQQGYEKVKKLDSEHNKLIWLTPAPANNTWTIAVRQDVAEKNKLTSLADLSRYLQEGGTFKLAASAEFIERADALPAFEKAYGFKLGQDQLLSLAGGDTAVTIKAAAQQTSGVNAAMAYGTDGPVAALGLQTLSDPQGVQPIYAPAPVVRESVLREYPQMAQWLQPVFASLDAKTLQQLNASIAVEGLDAKKVAADYLKQKGWTK" "i" "EcoCyc dump" -"YEIJ-MONOMER" "MDVMRSVLGMVVLLTIAFLLSVNKKKISLRTVGAALVLQVVIGGIMLWLPPGRWVAEKVAFGVHKVMAYSDAGSAFIFGSLVGPKMDTLFDGAGFIFGFRVLPAIIFVTALVSILYYIGVMGILIRILGGIFQKALNISKIESFVAVTTIFLGQNEIPAIVKPFIDRLNRNELFTAICSGMASIAGSTMIGYAALGVPVEYLLAASLMAIPGGILFARLLSPATESSQVSFNNLSFTETPPKSIIEAAATGAMTGLKIAAGVATVVMAFVAIIALINGIIGGVGGWFGFEHASLESILGYLLAPLAWVMGVDWSDANLAGSLIGQKLAINEFVAYLNFSPYLQTAGTLDAKTVAIISFALCGFANFGSIGVVVGAFSAVAPHRAPEIAQLGLRALAAATLSNLMSATIAGFFIGLA" "i" "Han et al., 2011" -"YEIM-MONOMER" "MDIMRSVVGMVVLLAIAFLLSVNKKSISLRTVGAALLLQIAIGGIMLYFPPGKWAVEQAALGVHKVMSYSDAGSAFIFGSLVGPKMDVLFDGAGFIFAFRVLPAIIFVTALISLLYYIGVMGLLIRILGSIFQKALNISKIESFVAVTTIFLGQNEIPAIVKPFIDRMNRNELFTAICSGMASIAGSMMIGYAGMGVPIDYLLAASLMAIPGGILFARILSPATEPSQVTFENLSFSETPPKSFIEAAASGAMTGLKIAAGVATVVMAFVAIIALINGIIGGIGGWFGFANASLESIFGYVLAPLAWIMGVDWSDANLAGSLIGQKLAINEFVAYLSFSPYLQTGGTLEVKTIAIISFALCGFANFGSIGVVVGAFSAISPKRAPEIAQLGLRALAAATLSNLMSATIAGFFIGLA" "i" "Han et al., 2011" -"YEJA-MONOMER" "MIVRILLLFIALFTFGVQAQAIKESYAFAVLGEPRYAFNFNHFDYVNPAAPKGGQITLSALGTFDNFNRYALRGNPGARTEQLYDTLFTTSDDEPGSYYPLIAESARYADDYSWVEVAINPRARFHDGSPITARDVEFTFQKFMTEGVPQFRLVYKGTTVKAIAPLTVRIELAKPGKEDMLSLFSLPVFPEKYWKDHKLSDPLATPPLASGPYRVTSWKMGQNIVYSRVKDYWAANLPVNRGRWNFDTIRYDYYLDDNVAFEAFKAGAFDLRMENDAKNWATRYTGKNFDKKYIIKDEQKNESAQDTRWLAFNIQRPVFSDRRVREAITLAFDFEWMNKALFYNAWSRTNSYFQNTEYAARNYPDAAELVLLAPMKKDLPSEVFTQIYQPPVSKGDGYDRDNLLKADKLLNEAGWVLKGQQRVNATTGQPLSFELLLPASSNSQWVLPFQHSLQRLGINMDIRKVDNSQITNRMRSRDYDMMPRVWRAMPWPSSDLQISWSSEYINSTYNAPGVQSPVIDSLINQIIAAQGNKEKLLPLGRALDRVLTWNYYMLPMWYMAEDRLAWWDKFSQPAVRPIYSLGIDTWWYDVNKAAKLPSASKQGE" "i" "EcoCyc dump" -"YEJB-MONOMER" "MGAYLIRRLLLVIPTLWAIITINFFIVQIAPGGPVDQAIAAIEFGNAGVLPGAGGEGVRASHAQTGVGNISDSNYRGGRGLDPEVIAEITHRYGFDKPIHERYFKMLWDYIRFDFGDSLFRSASVLTLIKDSLPVSITLGLWSTLIIYLVSIPLGIRKAVYNGSRFDVWSSAFIIIGYAIPAFLFAILLIVFFAGGSYFDLFPLRGLVSANFDSLPWYQKITDYLWHITLPVLATVIGGFAALTMLTKNSFLDEVRKQYVVTARAKGVSEKNILWKHVFRNAMLLVIAGFPATFISMFFTGSLLIEVMFSLNGLGLLGYEATVSRDYPVMFGTLYIFTLIGLLLNIVSDISYTLVDPRIDFEGR" "i" "Han et al., 2011" -"YEJE-MONOMER" "MSRLSPVNQARWARFRHNRRGYWSLWIFLVLFGLSLCSELIANDKPLLVRYDGSWYFPLLKNYSESDFGGPLASQADYQDPWLKQRLENNGWVLWAPIRFGATSINFATNKPFPSPPSRQNWLGTDANGGDVLARILYGTRISVLFGLMLTLCSSVMGVLAGALQGYYGGKVDLWGQRFIEVWSGMPTLFLIILLSSVVQPNFWWLLAITVLFGWMSLVGVVRAEFLRTRNFDYIRAAQALGVSDRSIILRHMLPNAMVATLTFLPFILCSSITTLTSLDFLGFGLPLGSPSLGELLLQGKNNLQAPWLGITAFLSVAILLSLLIFIGEAVRDAFDPNKAV" "i" "Han et al., 2011" -"YEJF-MONOMER" "MTQTLLAIENLSVGFRHQQTVRTVVNDVSLQIEAGETLALVGESGSGKSVTALSILRLLPSPPVEYLSGDIRFHGESLLHASDQTLRGVRGNKIAMIFQEPMVSLNPLHTLEKQLYEVLSLHRGMRREAARGEILNCLDRVGIRQAAKRLTDYPHQLSGGERQRVMIAMALLTRPELLIADEPTTALDVSVQAQILQLLRELQGELNMGMLFITHNLSIVRKLAHRVAVMQNGRCVEQNYAATLFASPTHPYTQKLLNSEPSGDPVPLPEPASTLLDVEQLQVAFPIRKGILKRIVDHNVVVKNISFTLRAGETLGLVGESGSGKSTTGLALLRLINSQGSIIFDGQPLQNLNRRQLLPIRHRIQVVFQDPNSSLNPRLNVLQIIEEGLRVHQPTLSAAQREQQVIAVMHEVGLDPETRHRYPAEFSGGQRQRIAIARALILKPSLIILDEPTSSLDKTVQAQILTLLKSLQQKHQLAYLFISHDLHVVRALCHQVIILRQGEVVEQGPCARVFATPQQEYTRQLLALS" "i" "Han et al., 2011" -"YFEP-MONOMER" "MTNYRVESSSGRAARKMRLALMGPAFIAAIGYIDPGNFATNIQAGASFGYQLLWVVVWANLMAMLIQILSAKLGIATGKNLAEQIRDHYPRPVVWFYWVQAEIIAMATDLAEFIGAAIGFKLILGVSLLQGAVLTGIATFLILMLQRRGQKPLEKVIGGLLLFVAAAYIVELIFSQPNLAQLGKGMVIPSLPTSEAVFLAAGVLGATIMPHVIYLHSSLTQHLHGGSRQQRYSATKWDVAIAMTIAGFVNLAMMATAAAAFHFSGHTGVADLDEAYLTLQPLLSHAAATVFGLSLVAAGLSSTVVGTLAGQVVMQGFIRFHIPLWVRRTVTMLPSFIVILMGLDPTRILVMSQVLLSFGIALALVPLLIFTSDSKLMGDLVNSKRVKQTGWVIVVLVVALNIWLLVGTALGL" "i" "Han et al., 2011" -"YGAY-MONOMER" "MTKPNHELSPALIVLMSIATGLAVASNYYAQPLLDTIARNFSLSASSAGFIVTAAQLGYAAGLLFLVPLGDMFERRRLIVSMTLLAAC" "i" "Han et al., 2011" -"YGFO-MONOMER" "MSDINHAGSDLIFELEDRPPFHQALVGAITHLLAIFVPMVTPALIVGAALQLSAETTAYLVSMAMIASGIGTWLQVNRYGIVGSGLLSIQSVNFSFVTVMIALGSSMKSDGFHEELIMSSLLGVSFVGAFLVVGSSFILPYLRRVITPTVSGIVVLMIGLSLIKVGIIDFGGGFAAKSSGTFGNYEHLGVGLLVLIVVIGFNCCRSPLLRMGGIAIGLCVGYIASLCLGMVDFSSMRNLPLITIPHPFKYGFSFSFHQFLVVGTIYLLSVLEAVGDITATAMVSRRPIQGEEYQSRLKGGVLADGLVSVIASAVGSLPLTTFAQNNGVIQMTGVASRYVGRTIAVMLVILGLFPMIGGFFTTIPSAVLGGAMTLMFSMIAIAGIRIIITNGLKRRETLIVATSLGLGLGVSYDPEIFKILPASIYVLVENPICAGGLTAILLNIILPGGYRQENVLPGITSAEEMD" "i" "Han et al., 2011" -"YGFU-MONOMER" "MSAIDSQLPSSSGQDRPTDEVDRILSPGKLIILGLQHVLVMYAGAVAVPLMIGDRLGLSKEAIAMLISSDLFCCGIVTLLQCIGIGRFMGIRLPVIMSVTFAAVTPMIAIGMNPDIGLLGIFGATIAAGFITTLLAPLIGRLMPLFPPLVTGVVITSIGLSIIQVGIDWAAGGKGNPQYGNPVYLGISFAVLIFILLITRYAKGFMSNVAVLLGIVFGFLLSWMMNEVNLSGLHDASWFAIVTPMSFGMPIFDPVSILTMTAVLIIVFIESMGMFLALGEIVGRKLSSHDIIRGLRVDGVGTMIGGTFNSFPHTSFSQNVGLVSVTRVHSRWVCISSGIILILFGMVPKMAVLVASIPQFVLGGAGLVMFGMVLATGIRILSRCNYTTNRYNLYIVAISLGVGMTPTLSHDFFSKLPAVLQPLLHSGIMLATLSAVVLNVFFNGYQHHADLVKESVSDKDLKVRTVRMWLLMRKLKKNEHGE" "i" "Han et al., 2011" -"YGGA-MONOMER" "VFSYYFQGLALGAAMILPLGPQNAFVMNQGIRRQYHIMIALLCAISDLVLICAGIFGGSALLMQSPWLLALVTWGGVAFLLWYGFGAFKTAMSSNIELASAEVMKQGRWKIIATMLAVTWLNPHVYLDTFVVLGSLGGQLDVEPKRWFALGTISASFLWFFGLALLAAWLAPRLRTAKAQRIINLVVGCVMWFIALQLARDGIAHAQALFS" "i" "Han et al., 2011" -"YGIS-MONOMER" "MYTRNLLWLVSLVSAAPLYAADVPANTPLAPQQVFRYNNHSDPGTLDPQKVEENTAAQIVLDLFEGLVWMDGEGQVQPAQAERWEILDGGKRYIFHLRSGLQWSDGQPLTAEDFVLGWQRAVDPKTASPFAGYLAQAHINNAAAIVAGKADVTSLGVKATDDRTLEVTLEQPVPWFTTMLAWPTLFPVPHHVIAKHGDSWSKPENMVYNGAFVLDQWVVNEKITARKNPKYRDAQHTVLQQVEYLALDNSVTGYNRYRAGEVDLTWVPAQQIPAIEKSLPGELRIIPRLNSEYYNFNLEKPPFNDVRVRRALYLTVDRQLIAQKVLGLRTPATTLTPPEVKGFSATTFDELQKPMSERVAMAKALLKQAGYDASHPLRFELFYNKYDLHEKTAIALSSEWKKWLGAQVTLRTMEWKTYLDARRAGDFMLSRQSWDATYNDASSFLNTLKSDSEENVGHWKNAQYDALLNQATQITDATKRNALYQQAEVIINQQAPLIPIYYQPLIKLLKPYVGGFPLHNPQDYVYSKELYIKAH" "p" "Han et al., 2011" -"YGJE-MONOMER" "MKPSTEWWRYLAPLAVIAIIALLPVPAGLENHTWLYFAVFTGVIVGLILEPVPGAVVAMVGISIIAILSPWLLFSPEQLAQPGFKFTAKSLSWAVSGFSNSVIWLIFAAFMFGTGYEKTGLGRRIALILVKKMGHRTLFLGYAVMFSELILAPVTPSNSARGAGIIYPIIRNLPPLYQSQPNDSSSRSIGSYIMWMGIVADCVTSAIFLTAMAPNLLLIGLMKSASHATLSWGDWFLGMLPLSILLVLLVPWLAYVLYPPVLKSGDQVPRWAETELQAMGPLCSREKRMLGLMVGALVLWIFGGDYIDAAMVGYSVVALMLLLRIISWDDIVSNKAAWNVFFWLASLITLATGLNNTGFISWFGKLLAGSLSGYSPTMVMVALIVVFYLLRYFFASATAYTSALAPMMIAAALAMPEIPLPVFCLMVGAAIGLGSILTPYATGPSPIYYGSGYLPTADYWRLGAIFGLIFLVLLVITGLLWMPVVLL" "i" "Han et al., 2011" -"YGJI-MONOMER" "MSDTKRNTIGKFGLLSLTFAAVYSFNNVINNNIELGLASAPMFFLATIFYFIPFCLIIAEFVSLNKNSEAGVYAWVKSSLGGRWAFITAYTYWFVNLFFFTSLLPRVIAYASYAFLGYEYIMTPVATTIISMVLFAFSTWVSTNGAKMLGPITSVTSTLMLLLTLSYILLAGTALVGGVQPADAITVDAMIPNFNWAFLGVTTWIFMAAGGAESVAVYVNDVKGGSKSFVKVIILAGIFIGVLYSVSSVLINVFVSSKELKFTGGSVQVFHGMAAYFGLPEALMNRFVGLVSFTAMFGSLLMWTATPVKIFFSEIPEGIFGKKTVELNENGVPARAAWIQFLIVIPLMIIPMLGSNTVQDLMNTIINMTAAASMLPPLFIMLAYLNLRAKLDHLPRDFRMGSRRTGIIVVSMLIAIFAVGFVASTFPTGANILTIIFYNVGGIVIFLGFAWWKYSKYIKGLTAEERHIEATPASNVD" "i" "Han et al., 2011" -"YGJU-MONOMER" "MTTQRSPGLFRRLAHGSLVKQILVGLVLGILLAWISKPAAEAVGLLGTLFVGALKAVAPILVLMLVMASIANHQHGQKTNIRPILFLYLLGTFSAALAAVVFSFAFPSTLHLSSSAGDISPPSGIVEVMRGLVMSMVSNPIDALLKGNYIGILVWAIGLGFALRHGNETTKNLVNDMSNAVTFMVKLVIRFAPIGIFGLVSSTLATTGFSTLWGYAQLLVVLVGCMLLVALVVNPLLVWWKIRRNPFPLVLLCLRESGVYAFFTRSSAANIPVNMALCEKLNLDRDTYSVSIPLGATINMAGAAITITVLTLAAVNTLGIPVDLPTALLLSVVASLCACGASGVAGGSLLLIPLACNMFGISNDIAMQVVAVGFIIGVLQDSCETALNSSTDVLFTAAACQAEDDRLANSALRN" "i" "Han et al., 2011" -"YHAO-MONOMER" "MSESEWREAIKFDSTDTGWVIMSIGMAIGAGIVFLPVQVGLMGLWVFLLSSVIGYPAMYLFQRLFINTLAESPECKDYPSVISGYLGKNWGILLGALYFVMLVIWMFVYSTAITNDSASYLHTFGVTEGLLSDSPFYGLVLICILVAISSRGEKLLFKISTGMVLTKLLVVAALGVSMVGMWHLYNVGSLPPLGLLVKNAIITLPFTLTSILFIQTLSPMVISYRSREKSIEVARHKALRAMNIAFGILFVTVFFYAVSFTLAMGHDEAVKAYEQNISALAIAAQFISGDGAAWVKVVSVILNIFAVMTAFFGVYLGFREATQGIVMNILRRKMPAEKINENLVQRGIMIFAILLAWSAIVLNAPVLSFTSICSPIFGMVGCLIPAWLVYKVPALHKYKGMSLYLIIVTGLLLCVSPFLAFS" "i" "Han et al., 2011" -"YHAU-MONOMER" "MILDTVDEKKKGVHTRYLILLIIFIVTAVNYADRATLSIAGTEVAKELQLSAVSMGYIFSAFGWAYLLMQIPGGWLLDKFGSKKVYTYSLFFWSLFTFLQGFVDMFPLAWAGISMFFMRFMLGFSEAPSFPANARIVAAWFPTKERGTASAIFNSAQYFSLALFSPLLGWLTFAWGWEHVFTVMGVIGFVLTALWIKLIHNPTDHPRMSAEELKFISENGAVVDMDHKKPGSAAASGPKLHYIKQLLSNRMMLGVFFGQYFINTITWFFLTWFPIYLVQEKGMSILKVGLVASIPALCGFAGGVLGGVFSDYLIKRGLSLTLARKLPIVLGMLLASTIILCNYTNNTTLVVMLMALAFFGKGFGALGWPVISDTAPKEIVGLCGGVFNVFGNVASIVTPLVIGYLVSELHSFNAALVFVGCSALMAMVCYLFVVGDIKRMELQK" "i" "Han et al., 2011" -"YHBG-MONOMER" "MATLTAKNLAKAYKGRRVVEDVSLTVNSGEIVGLLGPNGAGKTTTFYMVVGIVPRDAGNIIIDDDDISLLPLHARARRGIGYLPQEASIFRRLSVYDNLMAVLQIRDDLSAEQREDRANELMEEFHIEHLRDSMGQSLSGGERRRVEIARALAANPKFILLDEPFAGVDPISVIDIKRIIEHLRDSGLGVLITDHNVRETLAVCERAYIVSQGHLIAHGTPTEILQDEHVKRVYLGEDFRL" "i" "EcoCyc dump" -"YHBN-MONOMER" "MKFKTNKLSLNLVLASSLLAASIPAFAVTGDTDQPIHIESDQQSLDMQGNVVTFTGNVIVTQGTIKINADKVVVTRPGGEQGKEVIDGYGKPATFYQMQDNGKPVEGHASQMHYELAKDFVVLTGNAYLQQVDSNIKGDKITYLVKEQKMQAFSDKGKRVTTVLVPSQLQDKNNKGQTPAQKKGN" "e" "EcoCyc dump" -"YHCL-MONOMER" "MFGIIISVIVLITMGYLILKNYKPQVVLAAAGIFLMMCGVWLGFGGVLDPTKSSGYLIVDIYNEILRMLSNRIAGLGLSIMAVGGYARYMERIGASRAMVSLLSRPLKLIRSPYIILSATYVIGQIMAQFITSASGLGMLLMVTLFPTLVSLGVSRLSAVAVIATTMSIEWGILETNSIFAAQVAGMKIATYFFHYQLPVASCVIISVAISHFFVQRAFDKKDKNINHEQAEQKALDNVPPLYYAILPVMPLILMLGSLFLAHVGLMQSELHLVVVMLLSLTVTMFVEFFRKHNLRETMDDVQAFFDGMGTQFANVVTLVVAGEIFAKGLTTIGTVDAVIRGAEHSGLGGIGVMIIMALVIAICAIVMGSGNAPFMSFASLIPNIAAGLHVPAVVMIMPMHFATTLARAVSPITAVVVVTSGIAGVSPFAVVKRTAIPMAVGFVVNMIATITLFY" "i" "Han et al., 2011" -"YHDW-MONOMER" "VQCGISDGLPGFSYADADGKFSGIDVDICRGVAAAVFGDDTKVKYTPLTAKERFTALQSGEVDLLSRNTTWTSSRDAGMGMAFTGVTYYDGIGFLTHDKAGLKSAKELDGATVCIQAGTDTELNVADYFKANNMKYTPVTFDRSDESAKALESGRCDTLASDQSQLYALRIKLSNPAEWIVLPEVISKEPLGPVVRRGDDEWFSIVRWTLFAMLNAEEMGINSQNVDEKAANPATPDMAHLLGKEGDYGKDLKLDNKWAYNIIKQVGNYSEIFERNVGSESPLKIKRGQNNLWNNGGIQYAPPVR" "i" "EcoCyc dump" -"YHDX-MONOMER" "MSHRRSTVKGSLSFANPTVRAWLFQILAVVAVVGIVGWLFHNTVTNLNNRGITSGFAFLDRGAGFGIVQHLIDYQQGDTYGRVFIVGLLNTLLVSALCIVFASVLGFFIGLARLSDNWLLRKLSTIYIEIFRNIPPLLQIFFWYFAVLRNLPGPRQAVSAFDLAFLSNRGLYIPSPQLGDGFIAFILAVVMAIVLSVGLFRFNKTYQIKTGQLRRTWPIAAVLIIGLPLLAQWLFGAALHWDVPALRGFNFRGGMVLIPELAALTLALSVYTSAFIAEIIRAGIQAVPYGQHEAARSLGLPNPVTLRQVIIPQALRVIIPPLTSQYLNIVKNSSLAAAIGYPDMVSLFAGTVLNQTGQAIETIAMTMSVYLIISLTISLLMNIYNRRIAIVER" "i" "Han et al., 2011" -"YHDY-MONOMER" "MTKVLLSHPPRPASHNSSRAMVWVRKNLFSSWSNSLLTIGCIWLMWELIPPLLNWAFLQANWVGSTRADCTKAGACWVFIHERFGQFMYGLYPHDQRWRINLALLIGLVSIAPMFWKILPHRGRYIAAWAVIYPLIVWWLMYGGFFALERVETRQWGGLTLTLIIASVGIAGALPWGILLALGRRSHMPIVRILSVIFIEFWRGVPLITVLFMSSVMLPLFMAEGTSIDKLIRALVGVILFQSAYVAEVVRGGLQALPKGQYEAAESLALGYWKTQGLVILPQALKLVIPGLVNTIIALFKDTSLVIIIGLFDLFSSVQQATVDPAWLGMSTEGYVFAALIYWIFCFSMSRYSQYLEKRFNTGRTPH" "i" "Han et al., 2011" -"YHDZ-MONOMER" "MSQILLQPANAMITLENVNKWYGQFHVLKNINLTVQPGERIVLCGPSGSGKSTTIRCINHLEEHQQGRIVVDGIELNEDIRNIERVRQEVGMVFQHFNLFPHLTVLQNCTLAPIWVRKMPKKEAEDLAVHYLERVRIAEHAHKFPGQISGGQQQRVAIARSLCMKPKIMLFDEPTSALDPEMVKEVLDTMIGLAQSGMTMLCVTHEMGFARTVADRVIFMDRGEIVEQAAPDEFFAHPKSERTRAFLSQVIH" "i" "EcoCyc dump" -"YHES-MONOMER" "MIVFSSLQIRRGVRVLLDNATATINPGQKVGLVGKNGCGKSTLLALLKNEISADGGSYTFPGSWQLAWVNQETPALPQAALEYVIDGDREYRQLEAQLHDANERNDGHAIATIHGKLDAIDAWSIRSRAASLLHGLGFSNEQLERPVSDFSGGWRMRLNLAQALICRSDLLLLDEPTNHLDLDAVIWLEKWLKSYQGTLILISHDRDFLDPIVDKIIHIEQQSMFEYTGNYSSFEVQRATRLAQQQAMYESQQERVAHLQSYIDRFRAKATKAKQAQSRIKMLERMELIAPAHVDNPFRFSFRAPESLPNPLLKMEKVSAGYGDRIILDSIKLNLVPGSRIGLLGRNGAGKSTLIKLLAGELAPVSGEIGLAKGIKLGYFAQHQLEYLRADESPIQHLARLAPQELEQKLRDYLGGFGFQGDKVTEETRRFSGGEKARLVLALIVWQRPNLLLLDEPTNHLDLDMRQALTEALIEFEGALVVVSHDRHLLRSTTDDLYLVHDRKVEPFDGDLEDYQQWLSDVQKQENQTDEAPKENANSAQARKDQKRREAELRAQTQPLRKEIARLEKEMEKLNAQLAQAEEKLGDSELYDQSRKAELTACLQQQASAKSGLEECEMAWLEAQEQLEQMLLEGQSN" "c" "Han et al., 2011" -"YHFC-MONOMER" "MTNSNRIKLTWISFLSYALTGALVIVTGMVMGNIADYFNLPVSSMSNTFTFLNAGILISIFLNAWLMEIVPLKTQLRFGFLLMVLAVAGLMFSHSLALFSAAMFILGVVSGITMSIGTFLVTQMYEGRQRGSRLLFTDSFFSMAGMIFPMIAAFLLARSIEWYWVYACIGLVYVAIFILTFGCEFPALGKHAPKTDAPVEKEKWGIGVLFLSVAALCYILGQLGFISWVPEYAKGLGMSLNDAGTLVSNFWMSYMVGMWAFSFILRFFDLQRILTVLAGLAAILMYVFNTGTPAHMAWSILALGFFSSAIYTTIITLGSQQTKVPSPKLVNFVLTCGTIGTMLTFVVTGPIVEHSGPQAALLTANGLYAVVFVMCFLLGFVSRHRQHNTLTSH" "i" "Han et al., 2011" -"YHFM-MONOMER" "MGSQELQRKLGFWAVLAIAVGTTVGSGIFVSVGEVAKAAGTPWLTVLAFVIGGLIVIPQMCVYAELSTAYPENGADYVYLKNAGSRPLAFLSGWASFWANDAPSLSIMALAIVSNLGFLTPIDPLLGKFIAAGLIIAFMLLHLRSVEGGAAFQTLITIAKIIPFTIVIGLGIFWFKAENFAAPTTTAIGATGSFMALLAGISATSWSYTGMASICYMTGEIKNPGKTMPRALIGSCLLVLVLYTLLALVISGLMPFDKLANSETPISDALTWIPALGSTAGIFVAITAMIVILGSLSSCVMYQPRLEYAMAKDNLFFKCFGHVHPKYNTPDVSIILQGALGIFFIFVSDLTSLLGYFTLVMCFKNTLTFGSIIWCRKRDDYKPLWRTPAFGLMTTLAIASSLILVASTFVWAPIPGLICAVIVIATGLPAYAFWAKRSRQLNALS" "i" "Han et al., 2011" -"YHHJ-MONOMER" "MRHLRNIFNLGIKELRSLLGDKAMLTLIVFSFTVSVYSSATVTPGSLNLAPIAIADMDQSQLSNRIVNSFYRPWFLPPEMITADEMDAGLDAGRYTFAINIPPNFQRDVLAGRQPDIQVNVDATRMSQAFTGNGYIQNIINGEVNSFVARYRDNSEPLVSLETRMRFNPNLDPAWFGGVMAIINNITMLAIVLTGSALIREREHGTVEHLLVMPITPFEIMMAKIWSMGLVVLVVSGLSLVLMVKGVLGVPIEGSIPLFMLGVALSLFATTSIGIFMGTIARSMPQLGLLVILVLLPLQMLSGGSTPRESMPQMVQDIMLTMPTTHFVSLAQAILYRGAGFEIVWPQFLTLMAIGGAFFTIALLRFRKTIGTMA" "i" "Han et al., 2011" -"YHHO-MONOMER" "MSTPDNHGKKAPQFAAFKPLTTVQNANDCCCDGACSSTPTLSENVSGTRYSWKVSGMDCAACARKVENAVRQLAGVNQVQVLFATEKLVVDADNDIRAQVESALQKAGYSLRDEQAAEEPQASRLKENLPLITLIVMMAISWGLEQFNHPFGQLAFIATTLVGLYPIARQALRLIKSGSYFAIETLMSVAAIGALFIGATAEAAMVLLLFLIGERLEGWAASRARQGVSALMALKPETATRLRKGEREEVAINSLRPGDVIEVAAGGRLPADGKLLSPFASFDESALTGESIPVERATGDKVPAGATSVDRLVTLEVLSEPGASAIDRILKLIEEAEERRAPIERFIDRFSRIYTPAIMAVALLVTLVPPLLFAASWQEWIYKGLTLLLIGCPCALVISTPAAITSGLAAAARRGALIKGGAALEQLGRVTQVAFDKTGTLTVGKPRVTAIHPATGISESELLTLAAAVEQGATHPLAQAIVREAQVAELAIPTAESQRALVGSGIEAQVNGERVLICAAGKHPADAFTGLINELESAGQTVVLVVRNDDVLGVIALQDTLRADAATAISELNALGVKGVILTGDNPRAAAAIAGELGLEFKAGLLPEDKVKAVTELNQHAPLAMVGDGINDAPAMKAAAIGIAMGSGTDVALETADAALTHNHLRGLVQMIELARATHANIRQNITIALGLKGIFLVTTLLGMTGLWLAVLADTGATVLVTANALRLLRRR" "i" "Han et al., 2011" -"YHHS-MONOMER" "MPEPVAEPALNGLRLNLRIVSIVMFNFASYLTIGLPLAVLPGYVHDVMGFSAFWAGLVISLQYFATLLSRPHAGRYADSLGPKKIVVFGLCGCFLSGLGYLTAGLTASLPVISLLLLCLGRVILGIGQSFAGTGSTLWGVGVVGSLHIGRVISWNGIVTYGAMAMGAPLGVVFYHWGGLQALALIIMGVALVAILLAIPRPTVKASKGKPLPFRAVLGRVWLYGMALALASAGFGVIATFITLFYDAKGWDGAAFALTLFSCAFVGTRLLFPNGINRIGGLNVAMICFSVEIIGLLLVGVATMPWMAKIGVLLAGAGFSLVFPALGVVAVKAVPQQNQGAALATYTVFMDLSLGVTGPLAGLVMSWAGVPVIYLAAAGLVAIALLLTWRLKKRPPEHVPEAASSS" "i" "Han et al., 2011" -"YHIH-MONOMER" "MTHLELVPVPPVAQLAGVSQHYGKTVALNNITLDIPARCMVGLIGPDGVGKSSLLSLISGARVIEQGNVMVLGGDMRDPKHRRDVCPRIAWMPQGLGKNLYHTLSVYENVDFFARLFGHDKAEREVRINELLTSTGLAPFRDRPAGKLSGGMKQKLGLCCALIHDPELLILDEPTTGVDPLSRSQFWDLIDSIRQRQSNMSVLVATAYMEEAERFDWLVAMNAGEVLATGSAEELRQQTQSATLEEAFINLLPQAQRQAHQAVVIPPYQPENAEIAIEARDLTMRFGSFVAVDHVNFRIPRGEIFGFLGSNGCGKSTTMKMLTGLLPASEGEAWLFGQPVDPKDIDTRRRVGYMSQAFSLYNELTVRQNLELHARLFHIPEAEIPARVAEMSERFKLNDVEDILPESLPLGIRQRLSLAVAVIHRPEMLILDEPTSGVDPVARDMFWQLMVDLSRQDKVTIFISTHFMNEAERCDRISLMHAGKVLASGTPQELVEKRGAASLEEAFIAYLQEAAGQSNEAEAPPVVHDTTHAPRQGFSLRRLFSYSRREALELRRDPVRSTLALMGTVILMLIMGYGISMDVENLRFAVLDRDQTVSSQAWTLNLSGSRYFIEQPPLTSYDELDRRMRAGDITVAIEIPPNFGRDIARGTPVELGVWIDGAMPSRAETVKGYVQAMHQSWLQDVASRQSTPASQSGLMNIETRYRYNPDVKSLPAIVPAVIPLLLMMIPSMLSALSVVREKELGSIINLYVTPTTRSEFLLGKQLPYIALGMLNFFLLCGLSVFVFGVPHKGSFLTLTLAALLYIIIATGMGLLISTFMKSQIAAIFGTAIITLIPATQFSGMIDPVASLEGPGRWIGEVYPTSHFLTIARGTFSKALDLTDLWQLFIPLLIAIPLVMGLSILLLKKQEG" "i" "Han et al., 2011" -"YHIP-MONOMER" "MNTTTPMGMLQQPRPFFMIFFVELWERFGYYGVQGVLAVFFVKQLGFSQEQAFVTFGAFAALVYGLISIGGYVGDHLLGTKRTIVLGALVLAIGYFMTGMSLLKPDLIFIALGTIAVGNGLFKANPASLLSKCYPPKDPRLDGAFTLFYMSINIGSLIALSLAPVIADRFGYSVTYNLCGAGLIIALLVYIACRGMVKDIGSEPDFRPMSFSKLLYVLLGSVVMIFVCAWLMHNVEVANLVLIVLSIVVTIIFFRQAFKLDKTGRNKMFVAFVLMLEAVVFYILYAQMPTSLNFFAINNVHHEILGFSINPVSFQALNPFWVVLASPILAGIYTHLGNKGKDLSMPMKFTLGMFMCSLGFLTAAAAGMWFADAQGLTSPWFIVLVYLFQSLGELFISALGLAMIAALVPQHLMGFILGMWFLTQAAAFLLGGYVATFTAVPDNITDPLETLPVYTNVFGKIGLVTLGVAVVMLLMVPWLKRMIATPESH" "i" "Han et al., 2011" -"YHIV-MONOMER" "MANYFIDRPVFAWVLAIIMMLAGGLAIMNLPVAQYPQIAPPTITVSATYPGADAQTVEDSVTQVIEQNMNGLDGLMYMSSTSDAAGNASITLTFETGTSPDIAQVQVQNKLQLAMPSLPEAVQQQGISVDKSSSNILMVAAFISDNGSLNQYDIADYVASNIKDPLSRTAGVGSVQLFGSEYAMRIWLDPQKLNKYNLVPSDVISQIKVQNNQISGGQLGGMPQAADQQLNASIIVQTRLQTPEEFGKILLKVQQDGSQVLLRDVARVELGAEDYSTVARYNGKPAAGIAIKLAAGANALDTSRAVKEELNRLSAYFPASLKTVYPYDTTPFIEISIQEVFKTLVEAIILVFLVMYLFLQNFRATIIPTIAVPVVILGTFAILSAVGFTINTLTMFGMVLAIGLLVDDAIVVVENVERVIAEDKLPPKEATHKSMGQIQRALVGIAVVLSAVFMPMAFMSGATGEIYRQFSITLISSMLLSVFVAMSLTPALCATILKAAPEGGHKPNALFARFNTLFEKSTQHYTDSTRSLLRCTGRYMVVYLLICAGMAVLFLRTPTSFLPEEDQGVFMTTAQLPSGATMVNTTKVLQQVTDYYLTKEKDNVQSVFTVGGFGFSGQGQNNGLAFISLKPWSERVGEENSVTAIIQRAMIALSSINKAVVFPFNLPAVAELGTASGFDMELLDNGNLGHEKLTQARNELLSLAAQSPNQVTGVRPNGLEDTPMFKVNVNAAKAEAMGVALSDINQTISTAFGSSYVNDFLNQGRVKKVYVQAGTPFRMLPDNINQWYVRNASGTMAPLSAYSSTEWTYGSPRLERYNGIPSMEILGEAAAGKSTGDAMKFMADLVAKLPAGVGYSWTGLSYQEALSSNQAPALYAISLVVVFLALAALYESWSIPFSVMLVVPLGVVGALLATDLRGLSNDVYFQVGLLTTIGLSAKNAILIVEFAVEMMQKEGKTPIEAIIEAARMRLRPILMTSLAFILGVLPLVISHGAGSGAQNAVGTGVMGGMFAATVLAIYFVPVFFVVVEHLFARFKKA" "i" "Han et al., 2011" -"YHJE-MONOMER" "MQATATTLDHEQEYTPINSRNKVLVASLIGTAIEFFDFYIYATAAVIVFPHIFFPQGDPTAATLQSLATFAIAFVARPIGSAVFGHFGDRVGRKATLVASLLTMGISTVVIGLLPGYATIGIFAPLLLALARFGQGLGLGGEWGGAALLATENAPPRKRALYGSFPQLGAPIGFFFANGTFLLLSWLLTDEQFMSWGWRVPFIFSAVLVIIGLYVRVSLHESPVFEKVAKAKKQVKIPLGTLLTKHVRVTVLGTFIMLATYTLFYIMTVYSMTFSTAAAPVGLGLPRNEVLWMLMMAVIGFGVMVPVAGLLADAFGRRKSMVIITTLIILFALFAFNPLLGSGNPILVFAFLLLGLSLMGLTFGPMGALLPELFPTEVRYTGASFSYNVASILGASVAPYIAAWLQTNYGLGAVGLYLAAMAGLTLIALLLTHETRHQSL" "i" "Han et al., 2011" -"YHJV-MONOMER" "MQHNTLSKHNQKLPFTRYDFGWVLLCIGMAIGAGTVLMPVQIGLKGIWVFITAAIIAYPATWVVQDIYLKTLSESDSCNDYTDIISHYLGKNWGIFLGVIYFLMIIHGIFIYSLSVVFDSASYLKTFGLTDADLSQSLLYKVAIFAVLVAIASGGERLLFKISGPMVVVKVGIIVVFGFAMIPHWNFANITAFPQASVFFRDVLLTIPFCFFSAVFIQVLNPMNIAYRKREADKVLATRLALRTHRISYITLIAVILFFAFSFTFSISHEEAVSAFEQNISALALAAQVIPGHIIHITSTVLNIFAVLTAFFGIYLGFHEAIKGIILNLLSRIIDTKKINSRVLTLAICAFIVITLTIWVSFRVSVLVFFQLGSPLYGIVSCLIPFFLIYKVAQLEKLRGFKAWLILLYGILLCLSPLLKLIE" "i" "Han et al., 2011" -"YHJX-MONOMER" "MTPSNYQRTRWLTLIGTIITQFALGSVYTWSLFNGALSAKLDAPVSQVAFSFGLLSLGLAISSSVAGKLQERFGVKRVTMASGILLGLGFFLTAHSDNLMMLWLSAGVLVGLADGAGYLLTLSNCVKWFPERKGLISAFAIGSYGLGSLGFKFIDTQLLETVGLEKTFVIWGAIALLMIVFGATLMKDAPKQEVKTSNGVVEKDYTLAESMRKPQYWMLAVMFLTACMSGLYVIGVAKDIAQSLAHLDVVSAANAVTVISIANLSGRLVLGILSDKIARIRVITIGQVISLVGMAALLFAPLNAVTFFAAIACVAFNFGGTITVFPSLVSEFFGLNNLAKNYGVIYLGFGIGSICGSIIASLFGGFYVTFYVIFALLILSLALSTTIRQPEQKMLREAHGSL" "i" "Han et al., 2011" -"YICE-MONOMER" "MSVSTLESENAQPVAQTQNSELIYRLEDRPPLPQTLFAACQHLLAMFVAVITPALLICQALGLPAQDTQHIISMSLFASGVASIIQIKAWGPVGSGLLSIQGTSFNFVAPLIMGGTALKTGGADVPTMMAALFGTLMLASCTEMVISRVLHLARRIITPLVSGVVVMIIGLSLIQVGLTSIGGGYAAMSDNTFGAPKNLLLAGVVLALIILLNRQRNPYLRVASLVIAMAAGYALAWFMGMLPESNEPMTQELIMVPTPLYYGLGIEWSLLLPLMLVFMITSLETIGDITATSDVSEQPVSGPLYMKRLKGGVLANGLNSFVSAVFNTFPNSCFGQNNGVIQLTGVASRYVGFVVALMLIVLGLFPAVSGFVQHIPEPVLGGATLVMFGTIAASGVRIVSREPLNRRAILIIALSLAVGLGVSQQPLILQFAPEWLKNLLSSGIAAGGITAIVLNLIFPPEKQ" "i" "Han et al., 2011" -"YICJ-MONOMER" "MKSEVLSVKEKIGYGMGDAASHIIFDNVMLYMMFFYTDIFGIPAGFVGTMFLVARALDAISDPCMGLLADRTRSRWGKFRPWVLFGALPFGIVCVLAYSTPDLSMNGKMIYAAITYTLLTLLYTVVNIPYCALGGVITNDPTQRISLQSWRFVLATAGGMLSTVLMMPLVNLIGGDNKPLGFQGGIAVLSVVAFMMLAFCFFTTKERVEAPPTTTSMREDLRDIWQNDQWRIVGLLTIFNILAVCVRGGAMMYYVTWILGTPEVFVAFLTTYCVGNLIGSALAKPLTDWKCKVTIFWWTNALLAVISLAMFFVPMQASITMFVFIFVIGVLHQLVTPIQWVMMSDTVDYGEWCNGKRLTGISFAGTLFVLKLGLAFGGALIGWMLAYGGYDAAEKAQNSATISIIIALFTIVPAICYLLSAIIAKRYYSLTTHNLKTVMEQLAQGKRRCQQQFTSQEVQN" "i" "Han et al., 2011" -"YICM-MONOMER" "MSEFIAENRGADAITRPNWSAVFSVAFCVACLIIVEFLPVSLLTPMAQDLGISEGVAGQSVTVTAFVAMFASLFITQTIQATDRRYVVILFAVLLTLSCLLVSFANSFSLLLIGRACLGLALGGFWAMSASLTMRLVPPRTVPKALSVIFGAVSIALVIAAPLGSFLGELIGWRNVFNAAAVMGVLCIFWIIKSLPSLPGEPSHQKQNTFRLLQRPGVMAGMIAIFMSFAGQFAFFTYIRPVYMNLAGFGVDGLTLVLLSFGIASFIGTSLSSFILKRSVKLALAGAPLILAVSALVLTLWGSDKIVATGVAIIWGLTFALVPVGWSTWITRSLADQAEKAGSIQVAVIQLANTCGAAIGGYALDNIGLTSPLMLSGTLMLLTALLVTAKVKMKKS" "i" "Han et al., 2011" -"YIDC" "MDSQRNLLVIALLFVSFMIWQAWEQDKNPQPQAQQTTQTTTTAAGSAADQGVPASGQGKLISVKTDVLDLTINTRGGDVEQALLPAYPKELNSTQPFQLLETSPQFIYQAQSGLTGRDGPDNPANGPRPLYNVEKDAYVLAEGQNELQVPMTYTDAAGNTFTKTFVLKRGDYAVNVNYNVQNAGEKPLEISSFGQLKQSITLPPHLDTGSSNFALHTFRGAAYSTPDEKYEKYKFDTIADNENLNISSKGGWVAMLQQYFATAWIPHNDGTNNFYTANLGNGIAAIGYKSQPVLVQPGQTGAMNSTLWVGPEIQDKMAAVAPHLDLTVDYGWLWFISQPLFKLLKWIHSFVGNWGFSIIIITFIVRGIMYPLTKAQYTSMAKMRMLQPKIQAMRERLGDDKQRISQEMMALYKAEKVNPLGGCFPLLIQMPIFLALYYMLMGSVELRQAPFALWIHDLSAQDPYYILPILMGVTMFFIQKMSPTTVTDPMQQKIMTFMPVIFTVFFLWFPSGLVLYYIVSNLVTIIQQQLIYRGLEKRGLHSREKKKS" "i" "Han et al., 2011" -"YIDK-MONOMER" "MNSLQILSFVGFTLLVAVITWWKVRKTDTGSQQGYFLAGRSLKAPVIAASLMLTNLSTEQLVGLSGQAYKSGMSVMGWEVTSAVTLIFLALIFLPRYLKRGIATIPDFLEERYDKTTRIIIDFCFLIATGVCFLPIVLYSGALALNSLFHVGESLQISHGAAIWLLVILLGLAGILYAVIGGLRAMAVADSINGIGLVIGGLMVPVFGLIAMGKGSFMQGIEQLTTVHAEKLNSIGGPTDPLPIGAAFTGLILVNTFYWCTNQGIVQRTLASKSLAEGQKGALLTAVLKMLDPLVLVLPGLIAFHLYQDLPKADMAYPTLVNNVLPVPMVGFFGAVLFGAVISTFNGFLNSASTLFSMGIYRRIINQNAEPQQLVTVGRKFGFFIAIVSVLVAPWIANAPQGLYSWMKQLNGIYNVPLVTIIIMGFFFPRIPALAAKVAMGIGIISYITINYLVKFDFHFLYVLACTFCINVVVMLVIGFIKPRATPFTFKDAFAVDMKPWKNVKIASIGILFAMIGVYAGLAEFGGYGTRWLAMISYFIAAVVIVYLIFDSWRHRHDPAVTFTPDGKDSL" "i" "Han et al., 2011" -"YIDT-MONOMER" "MDIPVNAAKPGRRRYLTLVMIFITVVICYVDRANLAVASAHIQEEFGITKAEMGYVFSAFAWLYTLCQIPGGWFLDRVGSRVTYFIAIFGWSVATLFQGFATGLMSLIGLRAITGIFEAPAFPTNNRMVTSWFPEHERASAVGFYTSGQFVGLAFLTPLLIWIQEMLSWHWVFIVTGGIGIIWSLIWFKVYQPPRLTKGISKAELDYIRDGGGLVDGDAPVKKEARQPLTAKDWKLVFHRKLIGVYLGQFAVASTLWFFLTWFPNYLTQEKGITALKAGFMTTVPFLAAFVGVLLSGWVADLLVRKGFSLGFARKTPIICGLLISTCIMGANYTNDPMMIMCLMALAFFGNGFASITWSLVSSLAPMRLIGLTGGVFNFAGGLGGITVPLVVGYLAQGYGFAPALVYISAVALIGALSYILLVGDVKRVG" "i" "Han et al., 2011" -"YIDY-MONOMER" "MSRFLICSFALVLLYPAGIDMYLVGLPRIAADLNASEAQLHIAFSVYLAGMAAAMLFAGKVADRSGRKPVAIPGAALFIIASVFCSLAETSTLFLAGRFLQGLGAGCCYVVAFAILRDTLDDRRRAKVLSLLNGITCIIPVLAPVLGHLIMLKFPWQSLFWAMAMMGIAVLMLSLFILKETRPAAPAASDKPRENSESLLNRFFLSRVVITTLSVSVILTFVNTSPVLLMEIMGFERGEYATIMALTAGVSMTVSFSTPFALGIFKPRTLMITSQVLFLAAGITLAVSPSHAVSLFGITLICAGFSVGFGVAMSQALGPFSLRAGVASSTLGIAQVCGSSLWIWLAAVVGIGAWNMLIGILIACSIVSLLLIMFVAPGRPVAAHEEIHHHA" "i" "Han et al., 2011" -"YIEO-MONOMER" "MSDKKKRSMAGLPWIAAMAFFMQALDATILNTALPAIAHSLNRSPLAMQSAIISYTLTVAMLIPVSGWLADRFGTRRIFTLAVSLFTLGSLACALSNSLPQLVVFRVIQGIGGAMMMPVARLALLRAYPRNELLPVLNFVAMPGLVGPILGPVLGGVLVTWATWHWIFLINIPIGIAGLLYARKHMPNFTTARRRFDITGFLLFGLSLVLFSSGIELFGEKIVASWIALTVIVTSIGLLLLYILHARRTPNPLISLDLFKTRTFSIGIVGNIATRLGTGCVPFLMPLMLQVGFGYQAFIAGCMMAPTALGSIIAKSMVTQVLRRLGYRHTLVGITVIIGLMIAQFSLQSPAMAIWMLILPLFILGMAMSTQFTAMNTITLADLTDDNASSGNSVLAVTQQLSISLGVAVSAAVLRVYEGMEGTTTVEQFHYTFITMGIITVASAAMFMLLKTTDGNNLIKRQRKSKPNRVPSESE" "i" "Han et al., 2011" -"YIFK-MONOMER" "MADNKPELQRGLEARHIELIALGGTIGVGLFMGAASTLKWAGPSVLLAYIIAGLFVFFIMRSMGEMLFLEPVTGSFAVYAHRYMSPFFGYLTAWSYWFMWMAVGISEITAIGVYVQFWFPEMAQWIPALIAVALVALANLAAVRLYGEIEFWFAMIKVTTIIVMIVIGLGVIFFGFGNGGQSIGFSNLTEHGGFFAGGWKGFLTALCIVVASYQGVELIGITAGEAKNPQVTLRSAVGKVLWRILIFYVGAIFVIVTIFPWNEIGSNGSPFVLTFAKIGITAAAGIINFVVLTAALSGCNSGMYSCGRMLYALAKNRQLPAAMAKVSRHGVPVAGVAVSIAILLIGSCLNYIIPNPQRVFVYVYSASVLPGMVPWFVILISQLRFRRAHKAAIASHPFRSILFPWANYVTMAFLICVLIGMYFNEDTRMSLFVGIIFMLAVTAIYKVFGLNRHGKAHKLEE" "i" "Han et al., 2011" -"YIHN-MONOMER" "MLTKKKWALFSLLTLCGGTIYKLPSLKDAFYIPMQEYFHLTNGQIGNAMSVNSFVTTVGFFLSIYFADKLPRRYTMSFSLIATGLLGVYLTTMPGYWGILFVWALFGVTCDMMNWPVLLKSVSRLGNSEQQGRLFGFFETGRGIVDTVVAFSALAVFTWFGSGLLGFKAGIWFYSLIVIAVGIIIFFVLNDKEEAPSVEVKKEDGASKNTSMTSVLKDKTIWLIAFNVFFVYAVYCGLTFFIPFLKNIYLLPVALVGAYGIINQYCLKMIGGPIGGMISDKILKSPSKYLCYTFIISTAALVLLIMLPHESMPVYLGMACTLGFGAIVFTQRAVFFAPIGEAKIAENKTGAAMALGSFIGYAPAMFCFSLYGYILDLNPGIIGYKIVFGIMACFAFSGAVVSVMLVKRISQRKKEMLAAEA" "i" "Han et al., 2011" -"YIHO-MONOMER" "MSDHNPLTLKLNLREKIAYGMGDVGSNLMLCIGTLYLLKFYTDELGMPAYYGGIIFLVAKFFTAFTDMLTGFLLDSRKNIGPKGKFRPFILYAAVPAALIATLQFIATTFCLPVKTTIATALFMMFGLSYSLMNCSYGAMIPAITKNPNERAQLAAYRQGGATIGLLICTVAFIPLQSLFSDSTVGYACAALMFSIGGFIFMMLCYRGVKEHYVDTTPTGHKASILKSFCAIFRNPPLLVLCIANLCTLAAFNIKLAIQVYYTQYVLNDINLLSWMGFFSMGCILIGVLLVPLTVKCFGKKQVYLAGMVLWAVGDILNYFWGSNSFTFVMFSCVAFFGTAFVNSLNWALVPDTVDYGEWKTGIRAEGSVYTGYTFFRKISAALAGFLPGIMLTQIGYVPNIAQSDATLQGLRQLIFIWPCALAIIAALTMGFFYTLNEKRFALIIEEINQRKNKEMATEEKTASVTL" "i" "Han et al., 2011" -"YIHP-MONOMER" "MGKGRTSMSHITTEDPATLRLPFKEKLSYGIGDLASNILLDIGTLYLLKFYTDVLGLPGTYGGIIFLISKFFTAFTDMGTGIMLDSRRKIGPKGKFRPFILYASFPVTLLAIANFVGTPFDVTGKTVMATILFMLYGLFFSMMNCSYGAMVPAITKNPNERASLAAWRQGGATLGLLLCTVGFVPVMNLIEGNQQLGYIFAATLFSLFGLLFMWICYSGVKERYVETQPANPAQKPGLLQSFRAIAGNRPLFILCIANLCTLGAFNVKLAIQVYYTQYVLNDPILLSYMGFFSMGCIFIGVFLMPASVRRFGKKKVYIGGLLIWVLGDLLNYFFGGGSVSFVAFSCLAFFGSAFVNSLNWALVSDTVEYGEWRTGVRSEGTVYTGFTFFRKVSQALAGFFPGWMLTQIGYVPNVAQADHTIEGLRQLIFIYPSALAVVTIVAMGCFYSLNEKMYVRIVEEIEARKRTA" "i" "Han et al., 2011" -"YIIP-MONOMER" "MNQSYGRLVSRAAIAATAMASLLLLIKIFAWWYTGSVSILAALVDSLVDIGASLTNLLVVRYSLQPADDNHSFGHGKAESLAALAQSMFISGSALFLFLTGIQHLISPTPMTDPGVGVIVTIVALICTIILVSFQRWVVRRTQSQAVRADMLHYQSDVMMNGAILLALGLSWYGWHRADALFALGIGIYILYSALRMGYEAVQSLLDRALPDEERQEIIDIVTSWPGVSGAHDLRTRQSGPTRFIQIHLEMEDSLPLVQAHMVADQVEQAILRRFPGSDVIIHQDPCSVVPREGKRSMLS" "i" "Han et al., 2011" -"YJCE-MONOMER" "MEIFFTILIMTLVVSLSGVVTRVMPFQIPLPLMQIAIGALLAWPTFGLHVEFDPELFLVLFIPPLLFADGWKTPTREFLEHGREIFGLALALVVVTVVGIGFLIYWVVPGIPLIPAFALAAVLSPTDAVALSGIVGEGRIPKKIMGILQGEALMNDASGLVSLKFAVAVAMGTMIFTVGGATVEFMKVAIGGILAGFVVSWLYGRSLRFLSRWGGDEPATQIVLLFLLPFASYLIAEHIGVSGILAAVAAGMTITRSGVMRRAPLAMRLRANSTWAMLEFVFNGMVFLLLGLQLPGILETSLMAAEIDPNVEIWMLFTNIILIYAALMLVRFGWLWTMKKFSNRFLKKKPMEFGSWTTREILIASFAGVRGAITLAGVLSIPLLLPDGNVFPARYELVFLAAGVILFSLFVGVVMLPILLQHIEVADHSQQLKEERIARAATAEVAIVAIQKMEERLAADTEENIDNQLLTEVSSRVIGNLRRRADGRNDVESSVQEENLERRFRLAALRSERAELYHLRATREISNETLQKLLHDLDLLEALLIEENQ" "i" "Han et al., 2011" -"YJCG-MONOMER" "MKRVLTALAATLPFAANAADAISGAVERQPTNWQAIIMFLIFVVFTLGITYWASKRVRSRSDYYTAGGNITGFQNGLAIAGDYMSAASFLGISALVFTSGYDGLIYSLGFLVGWPIILFLIAERLRNLGRYTFADVASYRLKQGPIRILSACGSLVVVALYLIAQMVGAGKLIELLFGLNYHIAVVLVGVLMMMYVLFGGMLATTWVQIIKAVLLLFGASFMAFMVMKHVGFSFNNLFSEAMAVHPKGVDIMKPGGLVKDPISALSLGLGLMFGTAGLPHILMRFFTVSDAREARKSVFYATGFMGYFYILTFIIGFGAIMLVGANPEYKDAAGHLIGGNNMAAVHLANAVGGNLFLGFISAVAFATILAVVAGLTLAGASAVSHDLYANVFKKGATEREELRVSKITVLILGVIAIILGVLFENQNIAFMVGLAFAIAASCNFPIILLSMYWSKLTTRGAMMGGWLGLITAVVLMILGPTIWVQILGHEKAIFPYEYPALFSITVAFLGIWFFSATDNSAEGARERELFRAQFIRSQTGFGVEQGRAH" "i" "Han et al., 2011" -"YJCH-MONOMER" "MNGTIYQRIEDNAHFRELVEKRQRFATILSIIMLAVYIGFILLIAFAPGWLGTPLNPNTSVTRGIPIGVGVIVISFVLTGIYIWRANGEFDRLNNEVLHEVQAS" "i" "Han et al., 2011" -"YJCQ-MONOMER" "MSALNSLPLPVVRLLAFFHEELSERRPGRVPQTVQLWVGCLLVILISMTFEIPFVALSLAVLFYGIQSNAFYTKFVAILFVVATVLEIGSLFLIYKWSYGEPLIRLIIAGPILMGCMFLMRTHRLGLVFFAVAIVAIYGQTFPAMLDYPEVVVRLTLWCIVVGLYPTLLMTLIGVLWFPSRAISQMHQALNDRLDDAISHLTDSLAPLPETRIEREALALQKLNVFCLADDANWRTQNAWWQSCVATVTYIYSTLNRYDPTSFADSQAIIEFRQKLASEINKLQHAVAEGQCWQSDWRISESEAMAARECNLENICQTLLQLGQMDPNTPPTPAAKPPSMAADAFTNPDYMRYAVKTLLACLICYTFYSGVDWEGIHTCMLTCVIVANPNVGSSYQKMVLRFGGAFCGAILALLFTLLVMPWLDNIVELLFVLAPIFLLGAWIATSSERSSYIGTQMVVTFALATLENVFGPVYDLVEIRDRALGIIIGTVVSAVIYTFVWPESEARTLPQKLAGTLGMLSKVMRIPRQQEVTALRTYLQIRIGLHAAFNACEEMCQRVALERQLDSEERALLIERSQTVIRQGRDLLHAWDATWNSAQALDNALQPDRAGQFADALEKYAAGLATALSRSPQITLEETPASQAILPTLLKQEQHVCQLFARLPDWTAPALTPATEQAQGATQ" "i" "Han et al., 2011" -"YJCV-MONOMER" "MGFTTRVKSEASEKKPFNFALFWDKYGTFFILAIIVAIFGSLSPEYFLTTNNITQIFVQSSVTVLIGMGEFFAILVAGIDLSVGAILALSGMVTAKLMLAGVDPFLAAMIGGVLVGGALGAINGCLVNWTGLHPFIITLGTNAIFRGITLVISDANSVYGFSFDFVNFFAASVIGIPVPVIFSLIVALILWFLTTRMRLGRNIYALGGNKNSAFYSGIDVKFHILVVFIISGVCAGLAGVVSTARLGAAEPLAGMGFETYAIASAIIGGTSFFGGKGRIFSVVIGGLIIGTINNGLNILQVQTYYQLVVMGGLIIAAVALDRLISK" "i" "Han et al., 2011" -"YJCW-MONOMER" "MATPYISMAGIGKSFGPVHALKSVNLTVYPGEIHALLGENGAGKSTLMKVLSGIHEPTKGTITINNISYNKLDHKLAAQLGIGIIYQELSVIDELTVLENLYIGRHLTKKICGVNIIDWREMRVRAAMMLLRVGLKVDLDEKVANLSISHKQMLEIAKTLMLDAKVIIMDEPTSSLTNKEVDYLFLIMNQLRKEGTAIVYISHKLAEIRRICDRYTVMKDGSSVCSGIVSDVSNDDIVRLMVGRELQNRFNAMKENVSNLAHETVFEVRNVTSRDRKKVRDISFSVCRGEILGFAGLVGSGRTELMNCLFGVDKRAGGEIRLNGKDISPRSPLDAVKKGMAYITESRRDNGFFPNFSIAQNMAISRSLKDGGYKGAMGLFHEVDEQRTAENQRELLALKCHSVNQNITELSGGNQQKVLISKWLCCCPEVIIFDEPTRGIDVGAKAEIYKVMRQLADDGKVILMVSSELPEIITVCDRIAVFCEGRLTQILTNRDDMSEEEIMAWALPQE" "i" "Han et al., 2011" -"YJCX-MONOMER" "MNKYLKYFSGTLVGLMLSTSAFAAAEYAVVLKTLSNPFWVDMKKGIEDEAKTLGVSVDIFASPSEGDFQSQLQLFEDLSNKNYKGIAFAPLSSVNLVMPVARAWKKGIYLVNLDEKIDMDNLKKAGGNVEAFVTTDNVAVGAKGASFIIDKLGAEGGEVAIIEGKAGNASGEARRNGATEAFKKASQIKLVASQPADWDRIKALDVATNVLQRNPNIKAIYCANDTMAMGVAQAVANAGKTGKVLVVGTDGIPEARKMVEAGQMTATVAQNPADIGATGLKLMVDAEKSGKVIPLDKAPEFKLVDSILVTQ" "i" "EcoCyc dump" -"YJDE-MONOMER" "MSSDADAHKVGLIPVTLMVSGNIMGSGVFLLPANLASTGGIAIYGWLVTIIGALGLSMVYAKMSFLDPSPGGSYAYARRCFGPFLGYQTNVLYWLACWIGNIAMVVIGVGYLSYFFPILKDPLVLTITCVVVLWIFVLLNIVGPKMITRVQAVATVLALIPIVGIAVFGWFWFRGETYMAAWNVSGLGTFGAIQSTLNVTLWSFIGVESASVAAGVVKNPKRNVPIATIGGVLIAAVCYVLSTTAIMGMIPNAALRVSASPFGDAARMALGDTAGAIVSFCAAAGCLGSLGGWTLLAGQTAKAAADDGLFPPIFARVNKAGTPVAGLIIVGILMTIFQLSSISPNATKEFGLVSSVSVIFTLVPYLYTCAALLLLGHGHFGKARPAYLAVTTIAFLYCIWAVVGSGAKEVMWSFVTLMVITAMYALNYNRLHKNPYPLDAPISKD" "i" "Han et al., 2011" -"YJDL-MONOMER" "MKTPSQPRAIYYIVAIQIWEYFSFYGMRALLILYLTHQLGFDDNHAISLFSAYASLVYVTPILGGWLADRLLGNRTAVIAGALLMTLGHVVLGIDTNSTFSLYLALAIIICGYGLFKSNISCLLGELYDENDHRRDGGFSLLYAAGNIGSIAAPIACGLAAQWYGWHVGFALAGGGMFIGLLIFLSGHRHFQSTRSMDKKALTSVKFALPVWSWLVVMLCLAPVFFTLLLENDWSGYLLAIVCLIAAQIIARMMIKFPEHRRALWQIVLLMFVGTLFWVLAQQGGSTISLFIDRFVNRQAFNIEVPTALFQSVNAIAVMLAGVVLAWLASPESRGNSTLRVWLKFAFGLLLMACGFMLLAFDARHAAADGQASMGVMISGLALMGFAELFIDPVAIAQITRLKMSGVLTGIYMLATGAVANWLAGVVAQQTTESQISGMAIAAYQRFFSQMGEWTLACVAIIVVLAFATRFLFSTPTNMIQESND" "i" "Han et al., 2011" -"YJEM-MONOMER" "MPHTIKKMSLIGLILMIFTSVFGFANSPSAYYLMGYSAIPFYIFSALLFFIPFALMMAEMGAAYRKEEGGIYSWMNNSVGPRFAFIGTFMWFSSYIIWMVSTSAKVWVPFSTFLYGSDMTQHWRIAGLEPTQVVGLLAVAWMILVTVVASKGINKIARITAVGGIAVMCLNLVLLLVSITILLLNGGHFAQDINFLASPNPGYQSGLAMLSFVVFAIFAYGGIEAVGGLVDKTENPEKNFAKGIVFAAIVISIGYSLAIFLWGVSTNWQQVLSNGSVNLGNITYVLMKSLGMTLGNALHLSPEASLSLGVWFARITGLSMFLAYTGAFFTLCYSPLKAIIQGTPKALWPEPMTRLNAMGMPSIAMWMQCGLVTVFILLVSFGGGTASAFFNKLTLMANVSMTLPYLFLALAFPFFKARQDLDRPFVIFKTHLSAMIATVVVVLVVTFANVFTIIQPVVEAGDWDSTLWMIGGPVFFSLLAMAIYQNYCSRVAKNPQWAVE" "i" "Han et al., 2011" -"YJFF-MONOMER" "VIKRNLPLMITIGVFVLGYLYCLTQFPGFASTRVICNILTDNAFLGIIAVGMTFVILSGGIDLSVGSVIAFTGVFLAKVIGDFGLSPLLAFPLVLVMGCAFGAFMGLLIDALKIPAFIITLAGMFFLRGVSYLVSEESIPINHPIYDTLSSLAWKIPGGGRLSAMGLLMLAVVVIGIFLAHRTRFGNQVYAIGGNATSANLMGISTRSTTIRIYMLSTGLATLAGIVFSIYTQAGYALAGVGVELDAIASVVIGGTLLSGGVGTVLGTLFGVAIQGLIQTYINFDGTLSSWWTKIAIGILLFIFIALQRGLTVLWENRQSSPVTRVNIAQQ" "i" "Han et al., 2011" -"YJFT-MONOMER" "MTVRILAVCGNGQGSSMIMKMKVDQFLTQSNIDHTVNSCAVGEYKSELSGADIIIASTHIAGEITVTGNKYVVGVRNMLSPADFGPKLLEVIKEHFPQDVK" "c" "Han et al., 2011" -"YJFU-MONOMER" "MKLRDSLAENKSIRLQAEAETWQEAVKIGVDLLVAADVVEPRYYQAILDGVEQFGPYFVIAPGLAMPHGRPEEGVKKTGFSLVTLKKPLEFNHDDNDPVDILITMAAVDANTHQEVGIMQIVNLFEDEENFDRLRACRTEQEVLDLIDRTNAAA" "c" "Han et al., 2011" -"YJGT-MONOMER" "MPLIIIAAGVALLLILMIGFKVNGFIALVLVAAVVGFAEGMDAQAVLHSIQNGIGSTLGGLAMILGFGAMLGKLISDTGAAQRIATTLIATFGKKRVQWALVITGLVVGLAMFFEVGFVLLLPLVFTIVASSGLPLLYVGVPMVAALSVTHCFLPPHPGPTAIATIFEANLGTTLLYGFIITIPTVIVAGPLFSKLLTRFEKAPPEGLFNPHLFSEEEMPSFWNSIFAAVIPVILMAIAAVCEITLPKTNTVRLFFEFVGNPAVALFIAIVIAIFTLGRRNGRTIEQIMDIIGDSIGAIAMIVFIIAGGGAFKQVLVDSGVGHYISHLMTGTTLSPLLMCWTVAALLRIALGSATVAAITTAGVVLPIINVTHADPALMVLATGAGSVIASHVNDPGFWLFKGYFNLTVGETLRTWTVMETLISIMGLLGVLAINAVLH" "i" "Han et al., 2011" -"YJHB-MONOMER" "MATAWYKQVNPPQRKALFSAWLGYVFDGFDFMMIFYILHIIKADLGITDIQATLIGTVAFIARPIGGGFFGAMADKYGRKPMMMWAIFIYSVGTGLSGIATNLYMLAVCRFIVGLGMSGEYACASTYAVESWPKNLQSKASAFLVSGFSVGNIIAAQIIPQFAEVYGWRNSFFIGLLPVLLVLWIRKSAPESQEWIEDKYKDKSTFLSVFRKPHLSISMIVFLVCFCLFGANWPINGLLPSYLADNGVNTVVISTLMTIAGLGTLTGTIFFGFVGDKIGVKKAFVVGLITSFIFLCPLFFISVKNSSLIGLCLFGLMFTNLGIAGLVPKFIYDYFPTKLRGLGTGLIYNLGATGGMAAPVLATYISGYYGLGVSLFIVTVAFSALLILLVGFDIPGKIYKLSVAK" "i" "Han et al., 2011" -"YJHF-MONOMER" "MPLIIVVAGIALLLLLTIKIKLNTFVSLIIVSIAVAIASGMDLSKVVTSVESGLGGTLGHIGLIFGFGVMLGRLLADAGGAQRIALTMLNYFGKNKLDWAVVCSAFIVGIALFFEVGLILLVPILFAIAREAKISPMFMCVPMLSGLLVAHGFLPPHPGPTVIAREYGADVGLVLIYGIIVGIPTFILCGPVLNKFCQRIIPDAFKKEGNIASLGATRRFSESEMPGFGISFLTAMLPVILMAVVTIIQMTHAKSAADSGLFYNVILFLGNSTIAMLISLLFAIYTMGLGRGKTIPDLMDSCGKAIAGIAGLLLIIGGGGAFKQVLIDSGVGQYISTLVSGMDINPILMAWGVAAFLRICLGSATVAAISTAGLVIPLLAVHPNTNLALITLATGAGSCICSHVNDASFWMIKDFFGLTTKETLLSWTLMSTLLSISGLIFILLASLVL" "i" "Unambiguous EcoCyc data" -"YJIO-MONOMER" "MPRFFTRHAATLFFPMALILYDFAAYLSTDLIQPGIINVVRDFNADVSLAPAAVSLYLAGGMALQWLLGPLSDRIGRRPVLITGALIFTLACAATMFTTSMTQFLIARAIQGTSICFIATVGYVTVQEAFGQTKGIKLMAIITSIVLIAPIIGPLSGAALMHFMHWKVLFAIIAVMGFISFVGLLLAMPETVKRGAVPFSAKSVLRDFRNVFCNRLFLFGAATISLSYIPMMSWVAVSPVILIDAGSLTTSQFAWTQVPVFGAVIVANAIVARFVKDPTEPRFIWRAVPIQLVGLSLLIVGNLLSPHVWLWSVLGTSLYAFGIGLIFPTLFRFTLFSNKLPKGTVSASLNMVILMVMSVSVEIGRWLWFNGGRLPFHLLAVVAGVIVVFTLAGLLNRVRQHQAAELVEEQ" "i" "Han et al., 2011" -"YJIZ-MONOMER" "VEKENITIDPRSSFTPSSSADIPVPPDGLVQRSTRIKRIQTTAMLLLFFAAVINYLDRSSLSVANLTIREELGLSATEIGALLSVFSLAYGIAQLPCGPLLDRKGPRLMLGLGMFFWSLFQAMSGMVHNFTQFVLVRIGMGIGEAPMNPCGVKVINDWFNIKERGRPMGFFNAASTIGVAVSPPILAAMMLVMGWRGMFITIGVLGIFLAIGWYMLYRNREHVELTAVEQAYLNAGSVNARRDPLSFAEWRSLFRNRTMWGMMLGFSGINYTAWLYLAWLPGYLQTAYNLDLKSTGLMAAIPFLFGAAGMLVNGYVTDWLVKGGMAPIKSRKICIIAGMFCSAAFTLIVPQATTSMTAVLLIGMALFCIHFAGTSCWGLIHVAVASRMTASVGSIQNFASFICASFAPIITGFIVDTTHSFRLALIICGCVTAAGALAYIFLVRQPINDPRKD" "i" "Han et al., 2011" -"YJJK-MONOMER" "VAQFVYTMHRVGKVVPPKRHILKNISLSFFPGAKIGVLGLNGAGKSTLLRIMAGIDKDIEGEARPQPDIKIGYLPQEPQLNPEHTVRESIEEAVSEVVNALKRLDEVYALYADPDADFDKLAAEQGRLEEIIQAHDGHNLNVQLERAADALRLPDWDAKIANLSGGERRRVALCRLLLEKPDMLLLDEPTNHLDAESVAWLERFLHDFEGTVVAITHDRYFLDNVAGWILELDRGEGIPWEGNYSSWLEQKDQRLAQEASQEAARRKSIEKELEWVRQGTKGRQSKGKARLARFEELNSTEYQKRNETNELFIPPGPRLGDKVLEVSNLRKSYGDRLLIDDLSFSIPKGAIVGIIGPNGAGKSTLFRMISGQEQPDSGTITLGETVKLASVDQFRDSMDNSKTVWEEVSGGLDIMKIGNTEMPSRAYVGRFNFKGVDQGKRVGELSGGERGRLHLAKLLQVGGNMLLLDEPTNDLDIETLRALENALLEFPGCAMVISHDRWFLDRIATHILDYQDEGKVEFFEGNFTEYEEYKKRTLGADALEPKRIKYKRIAK" "c" "Han et al., 2011" -"YLIA-MONOMER" "VLAVENLNIAFMQDQQKIAAVRNLSFSLQRGETLAIVGESGSGKSVTALALMRLLEQAGGLVQCDKMLLQRRSREVIELSEQNAAQMRHVRGADMAMIFQEPMTSLNPVFTVGEQIAESIRLHQNASREEAMVEAKRMLDQVRIPEAQTILSRYPHQLSGGMRQRVMIAMALSCRPAVLIADEPTTALDVTIQAQILQLIKVLQKEMSMGVIFITHDMGVVAEIADRVLVMYQGEAVETGTVEQIFHAPQHPYTRALLAAVPQLGAMKGLDYPRRFPLISLEHPAKQAPPIEQKTVVDGEPVLRVRNLVTRFPLRSGLLNRVTREVHAVEKVSFDLWPGETLSLVGESGSGKSTTGRALLRLVESQGGEIIFNGQRIDTLSPGKLQALRRDIQFIFQDPYASLDPRQTIGDSIIEPLRVHGLLPGKDAAARVAWLLERVGLLPEHAWRYPHEFSGGQRQRICIARALALNPKVIIADEAVSALDVSIRGQIINLLLDLQRDFGIAYLFISHDMAVVERISHRVAVMYLGQIVEIGPRRAVFENPQHPYTRKLLAAVPVAEPSRQRPQRVLLSDDLPSNIHLRGEEVAAVSLQCVGPGHYVAQPQSEYAFMRR" "i" "EcoCyc dump" -"YLIB-MONOMER" "MARAVHRSGLVALGIATALMASCAFAAKDVVVAVGSNFTTLDPYDANDTLSQAVAKSFYQGLFGLDKEMKLKNVLAESYTVSDDGITYTVKLREGIKFQDGTDFNAAAVKANLDRASDPANHLKRYNLYKNIAKTEAIDPTTVKITLKQPFSAFINILAHPATAMISPAALEKYGKEIGFYPVGTGPYELDTWNQTDFVKVKKFAGYWQPGLPKLDSITWRPVADNNTRAAMLQTGEAQFAFPIPYEQATLLEKNKNIELMASPSIMQRYISMNVTQKPFDNPKVREALNYAINRPALVKVAFAGYATPATGVVPPSIAYAQSYKPWPYDPVKARELLKEAGYPNGFSTTLWSSHNHSTAQKVLQFTQQQLAQVGIKAQVTAMDAGQRAAEVEGKGQKESGVRMFYTGWSASTGEADWALSPLFASQNWPPTLFNTAFYSNKQVDDFLAQALKTNDPAEKTRLYKAAQDIIWQESPWIPLVVEKLVSAHSKNLTGFWIMPDTGFSFEDADLQ" "i" "EcoCyc dump" -"YLIC-MONOMER" "MLNYVIKRLLGLIPTLFIVSVLVFLFVHMLPGDPARLIAGPEADAQVIELVRQQLGLDQPLYHQFWHYISNAVQGDFGLSMVSRRPVADEIASRFMPTLWLTITSMVWAVIFGMAAGIIAAVWRNRWPDRLSMTIAVSGISFPAFALGMLLIQVFSVELGWLPTVGADSWQHYILPSLTLGAAVAAVMARFTRASFVDVLSEDYMRTARAKGVSETWVVLKHGLRNAMIPVVTMMGLQFGFLLGGSIVVEKVFNWPGLGRLLVDSVEMRDYPVIQAEILLFSLEFILINLVVDVLYAAINPAIRYK" "i" "Han et al., 2011" -"YLID-MONOMER" "MRLFNWRRQAVLNAMPLVKPDQVRTPWHEFWRRFRRQHMAMTAALFVILLIVVAIFARWIAPYDAENYFDYDNLNNGPSLQHWFGVDSLGRDIFSRVLVGAQISLAAGVFAVFIGAAIGTLLGLLAGYYEGWWDRLIMRICDVLFAFPGILLAIAVVAVLGSGIANVIIAVAIFSIPAFARLVRGNTLVLKQQTFIESARSIGASDMTVLLRHILPGTVSSIVVFFTMRIGTSIISAASLSFLGLGAQPPTPEWGAMLNEARADMVIAPHVAVFPALAIFLTVLAFNLLGDGLRDALDPKIKG" "i" "Han et al., 2011" -"YNEA-MONOMER" "MTLHRFKKIALLSALGIAAISMNVQAAERIAFIPKLVGVGFFTSGGNGAQQAGKELGVDVTYDGPTEPSVSGQVQLINNFVNQGYNAIIVSAVSPDGLCPALKRAMQRGVRVLTWDSDTKPECRSYYINQGTPAQLGGMLVDMAARQVNKDKAKVAFFYSSPTVTDQNQWVKEAKAKIAKEHPGWEIVTTQFGYNDATKSLQTAEGILKAYSDLDAIIAPDANALPAAAQAAENLKNDKVAIVGFSTPNVMRPYVERGTVKEFGLWDVVQQGKISVYVADALLKKGSMKTGDKLDIKGVGQVEVSPNSVQGYDYEADGNGIVLLPERVIFNKENIGKYDF" "i" "EcoCyc dump" -"YNFJ-MONOMER" "MFHRLLIATVVGILAAFAVAGFRHAMLLLEWLFLNNDSGSLVNAATNLSPWRRLLTPALGGLAAGLLLMGWQKFTQQRPHAPTDYMEALQTDGQFDYAASLVKSLASLLVVTSGSAIGREGAMILLAALAASCFAQRFTPRQEWKLWIACGAAAGMAAAYRAPLAGSLFIAEVLFGTMMLASLGPVIISAVVALLVSNLINHSDALLYNVQLSVTVQARDYALIISTGVLAGLCGPLLLTLMNACHRGFVSLKLAPPWQLALGGLIVGLLSLFTPAVWGNGYSTVQSFLTAPPLLMIIAGIFLCKLCAVLASSGSGAPGGVFTPTLFIGLAIGMLYGRSLGLWFPDGEEITLLLGLTGMATLLAATTHAPIMSTLMICEMTGEYQLLPGLLIACVIASVISRTLHRDSIYRQHTAQHS" "i" "Han et al., 2011" -"YNJC-MONOMER" "MVAVIYAPLIPAALTLISPALSLTHWQALFADPQLPQALLATLVSTTIAAVGALLIALLVIVALWPGPKWQRMCARLPWLLAIPHVAFATSALLLFADGGLLYDYFPYFTPPMDRFGIGLGLTLAVKESAFLLWILAAVLSEKWLLQQVIVLDSLGYSRWQCLNWLLLPSVAPALAMAMLAIVAWSLSVVDVAIILGPGNPPTLAVISWQWLTQGDIDQQTKGALASLLLMLLLAAYVLLSYLLWRSWRRTIPRVDGVRKPATPLLPGNTLAIFLPLTGVLCVVLLAILADQSTINSEALINSLTMGLVATFIALLLLLLWLEWGPQRRQLWLWLPILLPALPLVAGQYTLALWLKLDGSWTAVVWGHLLWVMPWMLFILQPAWQRIDSRLILIAQTLGWSRAKIFFYVKCPLMLRPVLIAFAVGFAVGIAQYMPTLWLGAGRFPTLTTEAVALSSGGSNGILAAQALWQLLLPLIIFALTALVAKWVGYVRQGLR" "i" "Han et al., 2011" -"YNJD-MONOMER" "MLCVKNVSLRLPESRLLTNVNFTVDKGDIVTLMGPSGCGKSTLFSWMIGALAEQFSCTGELWLNEQRIDILPTAQRQIGILFQDALLFDQFSVGQNLLLALPATLKGNARRNAVNDALERSGLEGAFHQDPATLSGGQRARVALLRALLAQPKALLLDEPFSRLDVALRDNFRQWVFSEVRALAIPVVQVTHDLQDVPADSSVLDMAQWSENYNKLR" "i" "EcoCyc dump" -"YOJI-MONOMER" "MELLVLVWRQYRWPFISVMALSLASAALGIGLIAFINQRLIETADTSLLVLPEFLGLLLLLMAVTLGSQLALTTLGHHFVYRLRSEFIKRILDTHVERIEQLGSASLLAGLTSDVRNITIAFVRLPELVQGIILTIGSAAYLWMLSGKMLLVTAIWMAITIWGGFVLVARVYKHMATLRETEDKLYTDFQTVLEGRKELTLNRERAEYVFNNLYIPDAQEYRHHIIRADTFHLSAVNWSNIMMLGAIGLVFWMANSLGWADTNVAATYSLTLLFLRTPLLSAVGALPTLLTAQVAFNKLNKFALAPFKAEFPRPQAFPNWQTLELRNVTFAYQDNAFSVGPINLTIKRGELLFLIGGNGSGKSTLAMLLTGLYQPQSGEILLDGKPVSGEQPEDYRKLFSAVFTDVWLFDQLLGPEGKPANPQLVEKWLAQLKMAHKLELSNGRIVNLKLSKGQKKRVALLLALAEERDIILLDEWAADQDPHFRREFYQVLLPLMQEMGKTIFAISHDDHYFIHADRLLEMRNGQLSELTGEERDAASRDAVARTA" "i" "Han et al., 2011" -"YPHC-MONOMER" "MKTMLAAYLPGNSTVDLREVAVPTPGINQVLIKMKSSGICGSDVHYIYHQHRATAAAPDKPLYQGFINGHEPCGQIVAMGQGCRHFKEGDRVLVYHISGCGFCPNCRRGFPISCTGEGKAAYGWQRDGGHAEYLLAEEKDLILLPDALSYEDGAFISCGVGTAYEGILRGEVSGSDNVLVVGLGPVGMMAMMLAKGRGAKRIIGVDMLPERLAMAKQLGVMDHGYLATTEGLPQIIAELTHGGADVALDCSGNAAGRLLALQSTADWGRVVYIGETGKVEFEVSADLMHHQRRIIGSWVTSLFHMEKCAHDLTDWKLWPRNAITHRFSLEQAGDAYALMASGKCGKVVINFPD" "c" "Han et al., 2011" -"YPHD-MONOMER" "MSASSLPLPQGKSVSLKQFVSRHINEIGLLVVIAILYLVFSLNAPGFISLNNQMNVLRDAATIGIAAWAMTLIIISGEIDVSVGPMVAFVSVCLAFLLQFEVPLAVACLLVLLLGALMGTLAGVLRGVFNVPSFVATLGLWSALRGMGLFMTNALPVPIDENEVLDWLGGQFLGVPVSALIMIVLFALFVFISRKTAFGRSVFAVGGNATAAQLCGINVRRVRILIFTLSGLLAAVTGILLAARLGSGNAGAANGLEFDVIAAVVVGGTALSGGRGSLFGTLLGVLVITLIGNGLVLLGINSFFQQVVRGVIIVVAVLANILLTQRSSKAKR" "i" "Han et al., 2011" -"YPHE-MONOMER" "MFTATEAVPVAKVVAGNKRYPGVVALDNVNFTLNKGEVRALLGKNGAGKSTLIRMLTGSERPDSGDIWIGETRLEGDEATLTRRAAELGVRAVYQELSLVEGLTVAENLCLGQWPRRNGMIDYLQMAQDAQRCLQALGVDVSPEQLVSTLSPAQKQLVEIARVMKGEPRVVILDEPTSSLASAEVELVISAVKKMSALGVAVIYVSHRMEEIRRIASCATVMRDGQVAGDVMLENTSTHHIVSLMLGRDHVDIAPVAPQEIVDQAVLEVRALRHKPKLEDISFTLRRGEVLGIAGLLGAGRSELLKAIVGLEEYEQGEIVINGEKITRPDYGDMLKRGIGYTPENRKEAGIIPWLGVDENTVLTNRQKISANGVLQWSTIRRLTEEVMQRMTVKAASSETPIGTLSGGNQQKVVIGRWVYAASQILLLDEPTRGVDIEAKQQIYRIVRELAAEGKSVVFISSEVEELPLVCDRILLLQHGTFSQEFHAPVNVDELMSAILSVH" "i" "Han et al., 2011" -"YRAO-MONOMER" "VQERIKACFTESIQTQIAAAEALPDAISRAAMTLVQSLLNGNKILCCGNGTSAANAQHFAASMINRFETERPSLPAIALNTDNVVLTAIANDRLHDEVYAKQVRALGHAGDVLLAISTRGNSRDIVKAVEAAVTRDMTIVALTGYDGGELAGLLGPQDVEIRIPSHRSARIQEMHMLTVNCLCDLIDNTLFPHQDD" "c" "Han et al., 2011" -"YRBE-MONOMER" "MLLNALASLGHKGIKTLRTFGRAGLMLFNALVGKPEFRKHAPLLVRQLYNVGVLSMLIIVVSGVFIGMVLGLQGYLVLTTYSAETSLGMLVALSLLRELGPVVAALLFAGRAGSALTAEIGLMRATEQLSSMEMMAVDPLRRVISPRFWAGVISLPLLTVIFVAVGIWGGSLVGVSWKGIDSGFFWSAMQNAVDWRMDLVNCLIKSVVFAITVTWISLFNGYDAIPTSAGISRATTRTVVHSSLAVLGLDFVLTALMFGN" "i" "Han et al., 2011" -"YRBF-MONOMER" "MEQSVANLVDMRDVSFTRGNRCIFDNISLTVPRGKITAIMGPSGIGKTTLLRLIGGQIAPDHGEILFDGENIPAMSRSRLYTVRKRMSMLFQSGALFTDMNVFDNVAYPLREHTQLPAPLLHSTVMMKLEAVGLRGAAKLMPSELSGGMARRAALARAIALEPDLIMFDEPFVGQDPITMGVLVKLISELNSALGVTCVVVSHDVPEVLSIADHAWILADKKIVAHGSAQALQANPDPRVRQFLDGIADGPVPFRYPAGDYHADLLPGS" "i" "EcoCyc dump" -"YRBG-MONOMER" "MLLATALLIVGLLLVVYSADRLVFAASILCRTFGIPPLIIGMTVVSIGTSLPEVIVSLAASLHEQRDLAVGTALGSNIINILLILGLAALVRPFTVHSDVLRRELPLMLLVSVVAGSVLYDGQLSRSDGIFLLFLAVLWLLFIVKLARQAERQGTDSLTREQLAELPRDGGLPVAFLWLGIALIIMPVATRMVVDNATVLANYFAISELTMGLTAIAIGTSLPELATAIAGVRKGENDIAVGNIIGANIFNIVIVLGLPALITPGEIDPLAYSRDYSVMLLVSIIFALLCWRRSPQPGRGVGVLLTGGFIVWLAMLYWLSPILVE" "i" "Han et al., 2011" -"YTFQ-MONOMER" "MWKRLLIVSAVSAAMSSMALAAPLTVGFSQVGSESGWRAAETNVAKSEAEKRGITLKIADGQQKQENQIKAVRSFVAQGVDAIFIAPVVATGWEPVLKEAKDAEIPVFLLDRSIDVKDKSLYMTTVTADNILEGKLIGDWLVKEVNGKPCNVVELQGTVGASVAIDRKKGFAEAIKNAPNIKIIRSQSGDFTRSKGKEVMESFIKAENNGKNICMVYAHNDDMVIGAIQAIKEAGLKPGKDILTGSIDGVPDIYKAMMDGEANASVELTPNMAGPAFDALEKYKKDGTMPEKLTLTKSTLYLPDTAKEELEKKKNMGY" "i" "EcoCyc dump" -"YTFR-MONOMER" "MTTDQHQEILRTEGLSKFFPGVKALDNVDFSLRRGEIMALLGENGAGKSTLIKALTGVYHADRGTIWLEGQAISPKNTAHAQQLGIGTVYQEVNLLPNMSVADNLFIGREPKRFGLLRRKEMEKRATELMASYGFSLDVREPLNRFSVAMQQIVAICRAIDLSAKVLILDEPTASLDTQEVELLFDLMRQLRDRGVSLIFVTHFLDQVYQVSDRITVLRNGSFVGCRETCELPQIELVKMMLGRELDTHALQRAGRTLLSDKPVAAFKNYGKKGTIAPFDLEVRPGEIVGLAGLLGSGRTETAEVIFGIKPADSGTALIKGKPQNLRSPHQASVLGIGFCPEDRKTDGIIAAASVRENIILALQAQRGWLRPISRKEQQEIAERFIRQLGIRTPSTEQPIEFLSGGNQQKVLLSRWLLTRPQFLILDEPTRGIDVGAHAEIIRLIETLCADGLALLVISSELEELVGYADRVIIMRDRKQVAEIPLAELSVPAIMNAIAA" "i" "Han et al., 2011" -"YTFT-MONOMER" "MPQSLPDTTTPKRRFRWPTGMPQLVALLLVLLVDSLVAPHFWQVVLQDGRLFGSPIDILNRAAPVALLAIGMTLVIATGGIDLSVGAVMAIAGATTAAMTVAGFSLPIVLLSALGTGILAGLWNGILVAILKIQPFVATLILMVAGRGVAQLITAGQIVTFNSPDLSWFGSGSLLFLPTPVIIAVLTLILFWLLTRKTALGMFIEAVGINIRAAKNAGVNTRIIVMLTYVLSGLCAAIAGIIVAADIRGADANNAGLWLELDAILAVVIGGGSLMGGRFNLLLSVVGALIIQGMNTGILLSGFPPEMNQVVKAVVVLCVLIVQSQRFISLIKGVRSRDKT" "i" "Han et al., 2011" -"ZNUA-MONOMER" "MLHKKTLLFAALSAALWGGATQAADAAVVASLKPVGFIASAIADGVTETEVLLPDGASEHDYSLRPSDVKRLQNADLVVWVGPEMEAFMQKPVSKLPGAKQVTIAQLEDVKPLLMKSIHGDDDDHDHAEKSDEDHHHGDFNMHLWLSPEIARATAVAIHGKLVELMPQSRAKLDANLKDFEAQLASTETQVGNELAPLKGKGYFVFHDAYGYFEKQFGLTPLGHFTVNPEIQPGAQRLHEIRTQLVEQKATCVFAEPQFRPAVVESVARGTSVRMGTLDPLGTNIKLGKTSYSEFLSQLANQYASCLKGD" "p" "Han et al., 2011" -"ZNUB-MONOMER" "MIELLFPGWLAGIMLACAAGPLGSFVVWRRMSYFGDTLAHASLLGVAFGLLLDVNPFYAVIAVTLLLAGGLVWLEKRPQLAIDTLLGIMAHSALSLGLVVVSLMSNIRVDLMAYLFGDLLAVTPEDLISIAIGVVIVVAILFWQWRNLLSMTISPDLAFVDGVKLQRVKLLLMLVTALTIGVAMKFVGALIITSLLIIPAATARRFARTPEQMAGVAVLVGMVAVTGGLTFSAVYDTPAGPSVVLCAALLFILSMMKKQAS" "i" "Han et al., 2011" -"ZNUC-MONOMER" "MTSLVSLENVSVSFGQRRVLSDVSLELKPGKILTLLGPNGAGKSTLVRVVLGLVTPDEGVIKRNGKLRIGYVPQKLYLDTTLPLTVNRFLRLRPGTHKEDILPALKRVQAGHLINAPMQKLSGGETQRVLLARALLNRPQLLVLDEPTQGVDVNGQVALYDLIDQLRRELDCGVLMVSHDLHLVMAKTDEVLCLNHHICCSGTPEVVSLHPEFISMFGPRGAEQLGIYRHHHNHRHDLQGRIVLRRGNDRS" "i" "EcoCyc dump" +"id" "common_name" "synonyms" "seq" "exp_location" "comp_location" +"1-ACYLGLYCEROL-3-P-ACYLTRANSFER-MONOMER" "1-acylglycerol-3-phosphate O-acyltransferase PlsC" ["ParF", "PlsC"] "MLYIFRLIITVIYSILVCVFGSIYCLFSPRNPKHVATFGHMFGRLAPLFGLKVECRKPTDAESYGNAIYIANHQNNYDMVTASNIVQPPTVTVGKKSLLWIPFFGQLYWLTGNLLIDRNNRTKAHGTIAEVVNHFKKRRISIWMFPEGTRSRGRGLLPFKTGAFHAAIAAGVPIIPVCVSTTSNKINLNRLHNGLVIVEMLPPIDVSQYGKDQVRELAAHCRSIMEQKIAELDKEVAEREAAGKV" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"1-PFK-MONOMER" "1-phosphofructokinase" ["Fpk", "FruK"] "MSRRVATITLNPAYDLVGFCPEIERGEVNLVKTTGLHAAGKGINVAKVLKDLGIDVTVGGFLGKDNQDGFQQLFSELGIANRFQVVQGRTRINVKLTEKDGEVTDFNFSGFEVTPADWERFVTDSLSWLGQFDMVCVSGSLPSGVSPEAFTDWMTRLRSQCPCIIFDSSREALVAGLKAAPWLVKPNRRELEIWAGRKLPEMKDVIEAAHALREQGIAHVVISLGAEGALWVNASGEWIAKPPSVDVVSTVGAGDSMVGGLIYGLLMRESSEHTLRLATAVAALAVSQSNVGITDRPQLAAMMARVDLQPFN" [] ["CCO-CYTOSOL"] +"2-DEHYDROPANTOATE-REDUCT-MONOMER" "2-dehydropantoate 2-reductase" ["PanE", "ApbA"] "MKITVLGCGALGQLWLTALCKQGHEVQGWLRVPQPYCSVNLVETDGSIFNESLTANDPDFLATSDLLLVTLKAWQVSDAVKSLASTLPVTTPILLIHNGMGTIEELQNIQQPLLMGTTTHAARRDGNVIIHVANGITHIGPARQQDGDYSYLADILQTVLPDVAWHNNIRAELWRKLAVNCVINPLTAIWNCPNGELRHHPQEIMQICEEVAAVIEREGHHTSAEDLRDYVMQVIDATAENISSMLQDIRALRHTEIDYINGFLLRRARAHGIAVPENTRLFEMVKRKESEYERIGTGLPRPW" [] ["CCO-CYTOSOL"] +"2-ISOPROPYLMALATESYN-MONOMER" "2-isopropylmalate synthase" ["LeuA"] "MSQQVIIFDTTLRDGEQALQASLSVKEKLQIALALERMGVDVMEVGFPVSSPGDFESVQTIARQVKNSRVCALARCVEKDIDVAAESLKVAEAFRIHTFIATSPMHIATKLRSTLDEVIERAIYMVKRARNYTDDVEFSCEDAGRTPIADLARVVEAAINAGATTINIPDTVGYTMPFEFAGIISGLYERVPNIDKAIISVHTHDDLGLAVGNSLAAVHAGARQVEGAMNGIGERAGNCSLEEVIMAIKVRKDILNVHTAINHQEIWRTSQLVSQICNMPIPANKAIVGSGAFAHSSGIHQDGVLKNRENYEIMTPESIGLNQIQLNLTSRSGRAAVKHRMDEMGYKESEYNLDNLYDAFLKLADKKGQVFDYDLEALAFIGKQQEEPEHFRLDYFSVQSGSNDIATAAVKLACGEEVKAEAANGNGPVDAVYQAINRITEYNVELVKYSLTAKGHGKDALGQVDIVANYNGRRFHGVGLATDIVESSAKAMVHVLNNIWRAAEVEKELQRKAQHNENNKETV" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"2-OCTAPRENYL-METHOXY-BENZOQ-METH-MONOMER" "bifunctional 2-octaprenyl-6-methoxy-1,4-benzoquinol methylase and demethylmenaquinone methyltransferase" ["YigO", "UbiE", "bifunctional 2-octaprenyl-6-methoxy-1,4-benzoquinol methylase and S-adenosylmethionine:2-DMK methyltransferase", "bifunctional 2-octaprenyl-6-methoxy-1,4-benzoquinone methylase/ S-adenosylmethionine:2-DMK methyltransferase"] "MVDKSQETTHFGFQTVAKEQKADMVAHVFHSVASKYDVMNDLMSFGIHRLWKRFTIDCSGVRRGQTVLDLAGGTGDLTAKFSRLVGETGKVVLADINESMLKMGREKLRNIGVIGNVEYVQANAEALPFPDNTFDCITISFGLRNVTDKDKALRSMYRVLKPGGRLLVLEFSKPIIEPLSKAYDAYSFHVLPRIGSLVANDADSYRYLAESIRMHPDQDTLKAMMQDAGFESVDYYNLTAGVVALHRGYKF" [] ["CCO-CYTOSOL"] +"2-OCTAPRENYLPHENOL-HYDROX-MONOMER" "ubiquinone biosynthesis protein UbiB" ["YigQ", "YigS", "AarF", "YigR", "UbiB", "putative protein kinase involved in ubiquinone biosynthesis"] "MTPGEVRRLYFIIRTFLSYGLDELIPKMRITLPLRLWRYSLFWMPNRHKDKLLGERLRLALQELGPVWIKFGQMLSTRRDLFPPHIADQLALLQDKVAPFDGKLAKQQIEAAMGGLPVEAWFDDFEIKPLASASIAQVHTARLKSNGKEVVIKVIRPDILPVIKADLKLIYRLARWVPRLLPDGRRLRPTEVVREYEKTLIDELNLLRESANAIQLRRNFEDSPMLYIPEVYPDYCSEGMMVMERIYGIPVSDVAALEKNGTNMKLLAERGVQVFFTQVFRDSFFHADMHPGNIFVSYEHPENPKYIGIDCGIVGSLNKEDKRYLAENFIAFFNRDYRKVAELHVDSGWVPPDTNVEEFEFAIRTVCEPIFEKPLAEISFGHVLLNLFNTARRFNMEVQPQLVLLQKTLLYVEGVGRQLYPQLDLWKTAKPFLESWIKDQVGIPALVRAFKEKAPFWVEKMPELPELVYDSLRQGKYLQHSVDKIARELQSNHVRQGQSRYFLGIGATLVLSGTFLLVSRPEWGLMPGWLMAGGLIAWFVGWRKTR" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"3-CH3-2-OXOBUTANOATE-OH-CH3-XFER-MONOMER" "3-methyl-2-oxobutanoate hydroxymethyltransferase" ["PanB"] "MKPTTISLLQKYKQEKKRFATITAYDYSFAKLFADEGLNVMLVGDSLGMTVQGHDSTLPVTVADIAYHTAAVRRGAPNCLLLADLPFMAYATPEQAFENAATVMRAGANMVKIEGGEWLVETVQMLTERAVPVCGHLGLTPQSVNIFGGYKVQGRGDEAGDQLLSDALALEAAGAQLLVLECVPVELAKRITEALAIPVIGIGAGNVTDGQILVMHDAFGITGGHIPKFAKNFLAETGDIRAAVRQYMAEVESGVYPGEEHSFH" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"3-ISOPROPYLMALDEHYDROG-MONOMER" "3-isopropylmalate dehydrogenase" ["LeuB"] "MSKNYHIAVLPGDGIGPEVMTQALKVLDAVRNRFAMRITTSHYDVGGAAIDNHGQPLPPATVEGCEQADAVLFGSVGGPKWEHLPPDQQPERGALLPLRKHFKLFSNLRPAKLYQGLEAFCPLRADIAANGFDILCVRELTGGIYFGQPKGREGSGQYEKAFDTEVYHRFEIERIARIAFESARKRRHKVTSIDKANVLQSSILWREIVNEIATEYPDVELAHMYIDNATMQLIKDPSQFDVLLCSNLFGDILSDECAMITGSMGMLPSASLNEQGFGLYEPAGGSAPDIAGKNIANPIAQILSLALLLRYSLDADDAACAIERAINRALEEGIRTGDLARGAAAVSTDEMGDIIARYVAEGV" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"3-OXOACYL-ACP-REDUCT-MONOMER" "3-oxoacyl-[acyl-carrier-protein] reductase FabG" ["FabG", "3-oxoacyl-[acyl-carrier-protein] reductase subunit"] "MNFEGKIALVTGASRGIGRAIAETLAARGAKVIGTATSENGAQAISDYLGANGKGLMLNVTDPASIESVLEKIRAEFGEVDILVNNAGITRDNLLMRMKDEEWNDIIETNLSSVFRLSKAVMRAMMKKRHGRIITIGSVVGTMGNGGQANYAAAKAGLIGFSKSLAREVASRGITVNVVAPGFIETDMTRALSDDQRAGILAQVPAGRLGGAQEIANAVAFLASDEAAYITGETLHVNGGMYMV" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"3-OXOACYL-ACP-SYNTHII-MONOMER" "3-oxoacyl-[acyl carrier protein] synthase 2" ["Vtr", "Cvc", "VtrB", "FabJ", "FabF", "β-ketoacyl-ACP synthase II", "β-ketoacyl-[acyl carrier protein] synthase II"] "MSKRRVVVTGLGMLSPVGNTVESTWKALLAGQSGISLIDHFDTSAYATKFAGLVKDFNCEDIISRKEQRKMDAFIQYGIVAGVQAMQDSGLEITEENATRIGAAIGSGIGGLGLIEENHTSLMNGGPRKISPFFVPSTIVNMVAGHLTIMYGLRGPSISIATACTSGVHNIGHAARIIAYGDADVMVAGGAEKASTPLGVGGFGAARALSTRNDNPQAASRPWDKERDGFVLGDGAGMLVLEEYEHAKKRGAKIYAELVGFGMSSDAYHMTSPPENGAGAALAMANALRDAGIEASQIGYVNAHGTSTPAGDKAEAQAVKTIFGEAASRVLVSSTKSMTGHLLGAAGAVESIYSILALRDQAVPPTINLDNPDEGCDLDFVPHEARQVSGMEYTLCNSFGFGGTNGSLIFKKI" [] ["CCO-CYTOSOL"] +"4OHBENZOATE-OCTAPRENYLTRANSFER-MONOMER" null ["Cyr", "UbiA"] "MEWSLTQNKLLAFHRLMRTDKPIGALLLLWPTLWALWVATPGVPQLWILAVFVAGVWLMRAAGCVVNDYADRKFDGHVKRTANRPLPSGAVTEKEARALFVVLVLISFLLVLTLNTMTILLSIAALALAWVYPFMKRYTHLPQVVLGAAFGWSIPMAFAAVSESVPLSCWLMFLANILWAVAYDTQYAMVDRDDDVKIGIKSTAILFGQYDKLIIGILQIGVLALMAIIGELNGLGWGYYWSILVAGALFVYQQKLIANREREACFKAFMNNNYVGLVLFLGLAMSYWHF" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"6PFK-1-MONOMER" "6-phosphofructokinase 1" ["PfkA", "6-phosphofructokinase I"] "MIKKIGVLTSGGDAPGMNAAIRGVVRSALTEGLEVMGIYDGYLGLYEDRMVQLDRYSVSDMINRGGTFLGSARFPEFRDENIRAVAIENLKKRGIDALVVIGGDGSYMGAMRLTEMGFPCIGLPGTIDNDIKGTDYTIGFFTALSTVVEAIDRLRDTSSSHQRISVVEVMGRYCGDLTLAAAIAGGCEFVVVPEVEFSREDLVNEIKAGIAKGKKHAIVAITEHMCDVDELAHFIEKETGRETRATVLGHIQRGGSPVPYDRILASRMGAYAIDLLLAGYGGRCVGIQNEQLVHHDIIDAIENMKRPFKGDWLDCAKKLY" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"6PFK-2-MONOMER" "6-phosphofructokinase 2" ["PfkB", "6-phosphofructokinase II"] "MVRIYTLTLAPSLDSATITPQIYPEGKLRCTAPVFEPGGGGINVARAIAHLGGSATAIFPAGGATGEHLVSLLADENVPVATVEAKDWTRQNLHVHVEASGEQYRFVMPGAALNEDEFRQLEEQVLEIESGAILVISGSLPPGVKLEKLTQLISAAQKQGIRCIVDSSGEALSAALAIGNIELVKPNQKELSALVNRELTQPDDVRKAAQEIVNSGKAKRVVVSLGPQGALGVDSENCIQVVPPPVKSQSTVGAGDSMVGAMTLKLAENASLEEMVRFGVAAGSAATLNQGTRLCSHDDTQKIYAYLSR" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"6PGLUCONDEHYDROG-MONOMER" "6-phosphogluconate dehydrogenase, decarboxylating" ["Gnd"] "MSKQQIGVVGMAVMGRNLALNIESRGYTVSIFNRSREKTEEVIAENPGKKLVPYYTVKEFVESLETPRRILLMVKAGAGTDAAIDSLKPYLDKGDIIIDGGNTFFQDTIRRNRELSAEGFNFIGTGVSGGEEGALKGPSIMPGGQKEAYELVAPILTKIAAVAEDGEPCVTYIGADGAGHYVKMVHNGIEYGDMQLIAEAYSLLKGGLNLTNEELAQTFTEWNNGELSSYLIDITKDIFTKKDEDGNYLVDVILDEAANKGTGKWTSQSALDLGEPLSLITESVFARYISSLKDQRVAASKVLSGPQAQPAGDKAEFIEKVRRALYLGKIVSYAQGFSQLRAASEEYNWDLNYGEIAKIFRAGCIIRAQFLQKITDAYAENPQIANLLLAPYFKQIADDYQQALRDVVAYAVQNGIPVPTFSAAVAYYDSYRAAVLPANLIQAQRDYFGAHTYKRIDKEGVFHTEWLD" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"6PGLUCONOLACT-MONOMER" null ["Pgl", "YbhE"] "MKQTVYIASPESQQIHVWNLNHEGALTLTQVVDVPGQVQPMVVSPDKRYLYVGVRPEFRVLAYRIAPDDGALTFAAESALPGSPTHISTDHQGQFVFVGSYNAGNVSVTRLEDGLPVGVVDVVEGLDGCHSANISPDNRTLWVPALKQDRICLFTVSDDGHLVAQDPAEVTTVEGAGPRHMVFHPNEQYAYCVNELNSSVDVWELKDPHGNIECVQTLDMMPENFSDTRWAADIHITPDGRHLYACDRTASLITVFSVSEDGSVLSKEGFQPTETQPRGFNVDHSGKYLIAAGQKSHHISVYEIVGEQGLLHEKGRYAVGQGPMWVVVNAH" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"7-ALPHA-HYDROXYSTEROID-DEH-MONOMER" "7-α-hydroxysteroid dehydrogenase" ["HdhA", "Hsd", "HsdH"] "MFNSDNLRLDGKCAIITGAGAGIGKEIAITFATAGASVVVSDINADAANHVVDEIQQLGGQAFACRCDITSEQELSALADFAISKLGKVDILVNNAGGGGPKPFDMPMADFRRAYELNVFSFFHLSQLVAPEMEKNGGGVILTITSMAAENKNINMTSYASSKAAASHLVRNMAFDLGEKNIRVNGIAPGAILTDALKSVITPEIEQKMLQHTPIRRLGQPQDIANAALFLCSPAASWVSGQILTVSGGGVQELN" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"7KAPSYN-MONOMER" "8-amino-7-oxononanoate synthase" ["BioF"] "MSWQEKINAALDARRAADALRRRYPVAQGAGRWLVADDRQYLNFSSNDYLGLSHHPQIIRAWQQGAEQFGIGSGGSGHVSGYSVVHQALEEELAEWLGYSRALLFISGFAANQAVIAAMMAKEDRIAADRLSHASLLEAASLSPSQLRRFAHNDVTHLARLLASPCPGQQMVVTEGVFSMDGDSAPLAEIQQVTQQHNGWLMVDDAHGTGVIGEQGRGSCWLQKVKPELLVVTFGKGFGVSGAAVLCSSTVADYLLQFARHLIYSTSMPPAQAQALRASLAVIRSDEGDARREKLAALITRFRAGVQDLPFTLADSCSAIQPLIVGDNSRALQLAEKLRQQGCWVTAIRPPTVPAGTARLRLTLTAAHEMQDIDRLLEVLHGNG" [] ["CCO-CYTOSOL"] +"AAS-MONOMER" "fused 2-acylglycerophospho-ethanolamine acyltransferase/acyl-acyl carrier protein synthetase" ["Aas", "acyltransferase"] "MLFSFFRNLCRVLYRVRVTGDTQALKGERVLITPNHVSFIDGILLGLFLPVRPVFAVYTSISQQWYMRWLKSFIDFVPLDPTQPMAIKHLVRLVEQGRPVVIFPEGRITTTGSLMKIYDGAGFVAAKSGATVIPVRIEGAELTHFSRLKGLVKRRLFPQITLHILPPTQVAMPDAPRARDRRKIAGEMLHQIMMEARMAVRPRETLYESLLSAMYRFGAGKKCVEDVNFTPDSYRKLLTKTLFVGRILEKYSVEGERIGLMLPNAGISAAVIFGAIARRRMPAMMNYTAGVKGLTSAITAAEIKTIFTSRQFLDKGKLWHLPEQLTQVRWVYLEDLKADVTTADKVWIFAHLLMPRLAQVKQQPEEEALILFTSGSEGHPKGVVHSHKSILANVEQIKTIADFTTNDRFMSALPLFHSFGLTVGLFTPLLTGAEVFLYPSPLHYRIVPELVYDRSCTVLFGTSTFLGHYARFANPYDFYRLRYVVAGAEKLQESTKQLWQDKFGLRILEGYGVTECAPVVSINVPMAAKPGTVGRILPGMDARLLSVPGIEEGGRLQLKGPNIMNGYLRVEKPGVLEVPTAENVRGEMERGWYDTGDIVRFDEQGFVQIQGRAKRFAKIAGEMVSLEMVEQLALGVSPDKVHATAIKSDASKGEALVLFTTDNELTRDKLQQYAREHGVPELAVPRDIRYLKQMPLLGSGKPDFVTLKSWVDEAEQHDE" ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"ABC-MONOMER" "L-methionine/D-methionine ABC transporter ATP binding subunit" ["MetD", "Abc"] "MIKLSNITKVFHQGTRTIQALNNVSLHVPAGQIYGVIGASGAGKSTLIRCVNLLERPTEGSVLVDGQELTTLSESELTKARRQIGMIFQHFNLLSSRTVFGNVALPLELDNTPKDEVKRRVTELLSLVGLGDKHDSYPSNLSGGQKQRVAIARALASNPKVLLCDEATSALDPATTRSILELLKDINRRLGLTILLITHEMDVVKRICDCVAVISNGELIEQDTVSEVFSHPKTPLAQKFIQSTLHLDIPEDYQERLQAEPFTDCVPMLRLEFTGQSVDAPLLSETARRFNVNNNIISAQMDYAGGVKFGIMLTEMHGTQQDTQAAIAWLQEHHVKVEVLGYV" [] ["CCO-CW-BAC-NEG", "CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"ABGT-MONOMER" "p-aminobenzoyl glutamate:H+ symporter" ["YdaH", "AbgT"] "MSMSSIPSSSQSGKLYGWVERIGNKVPHPFLLFIYLIIVLMVTTAILSAFGVSAKNPTDGTPVVVKNLLSVEGLHWFLPNVIKNFSGFAPLGAILALVLGAGLAERVGLLPALMVKMASHVNARYASYMVLFIAFFSHISSDAALVIMPPMGALIFLAVGRHPVAGLLAAIAGVGCGFTANLLIVTTDVLLSGISTEAAAAFNPQMHVSVIDNWYFMASSVVVLTIVGGLITDKIIEPRLGQWQGNSDEKLQTLTESQRFGLRIAGVVSLLFIAAIALMVIPQNGILRDPINHTVMPSPFIKGIVPLIILFFFVVSLAYGIATRTIRRQADLPHLMIEPMKEMAGFIVMVFPLAQFVAMFNWSNMGKFIAVGLTDILESSGLSGIPAFVGLALLSSFLCMFIASGSAIWSILAPIFVPMFMLLGFHPAFAQILFRIADSSVLPLAPVSPFVPLFLGFLQRYKPDAKLGTYYSLVLPYPLIFLVVWLLMLLAWYLVGLPIGPGIYPRLS" ["CCO-PM-BAC-NEG"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"ACETATEKINA-MONOMER" "acetate kinase" ["AckA", "propionate kinase 2", "acetate kinase A"] "MSSKLVLVLNCGSSSLKFAIIDAVNGEEYLSGLAECFHLPEARIKWKMDGNKQEAALGAGAAHSEALNFIVNTILAQKPELSAQLTAIGHRIVHGGEKYTSSVVIDESVIQGIKDAASFAPLHNPAHLIGIEEALKSFPQLKDKNVAVFDTAFHQTMPEESYLYALPYNLYKEHGIRRYGAHGTSHFYVTQEAAKMLNKPVEELNIITCHLGNGGSVSAIRNGKCVDTSMGLTPLEGLVMGTRSGDIDPAIIFHLHDTLGMSVDAINKLLTKESGLLGLTEVTSDCRYVEDNYATKEDAKRAMDVYCHRLAKYIGAYTALMDGRLDAVVFTGGIGENAAMVRELSLGKLGVLGFEVDHERNLAARFGKSGFINKEGTRPAVVIPTNEELVIAQDASRLTA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"ACETOLACTSYNIII-HCHAIN-MONOMER" "acetolactate synthase / acetohydroxybutanoate synthase, regulatory subunit" ["BrnP", "IlvH"] "MRRILSVLLENESGALSRVIGLFSQRGYNIESLTVAPTDDPTLSRMTIQTVGDEKVLEQIEKQLHKLVDVLRVSELGQGAHVEREIMLVKIQASGYGRDEVKRNTEIFRGQIIDVTPSLYTVQLAGTSGKLDAFLASIRDVAKIVEVARSGVVGLSRGDKIMR" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"ACETOLACTSYNIII-ICHAIN-MONOMER" "acetolactate synthase / acetohydroxybutanoate synthase, catalytic subunit" ["IlvI"] "MEMLSGAEMVVRSLIDQGVKQVFGYPGGAVLDIYDALHTVGGIDHVLVRHEQAAVHMADGLARATGEVGVVLVTSGPGATNAITGIATAYMDSIPLVVLSGQVATSLIGYDAFQECDMVGISRPVVKHSFLVKQTEDIPQVLKKAFWLAASGRPGPVVVDLPKDILNPANKLPYVWPESVSMRSYNPTTTGHKGQIKRALQTLVAAKKPVVYVGGGAITAGCHQQLKETVEALNLPVVCSLMGLGAFPATHRQALGMLGMHGTYEANMTMHNADVIFAVGVRFDDRTTNNLAKYCPNATVLHIDIDPTSISKTVTADIPIVGDARQVLEQMLELLSQESAHQPLDEIRDWWQQIEQWRARQCLKYDTHSEKIKPQAVIETLWRLTKGDAYVTSDVGQHQMFAALYYPFDKPRRWINSGGLGTMGFGLPAALGVKMALPEETVVCVTGDGSIQMNIQELSTALQYELPVLVVNLNNRYLGMVKQWQDMIYSGRHSQSYMQSLPDFVRLAEAYGHVGIQISHPHELESKLSEALEQVRNNRLVFVDVTVDGSEHVYPMQIRGGGMDEMWLSKTERT" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"ACETYL-COA-ACETYLTRANSFER-MONOMER" "acetyl-CoA acetyltransferase" ["AtoB"] "MKNCVIVSAVRTAIGSFNGSLASTSAIDLGATVIKAAIERAKIDSQHVDEVIMGNVLQAGLGQNPARQALLKSGLAETVCGFTVNKVCGSGLKSVALAAQAIQAGQAQSIVAGGMENMSLAPYLLDAKARSGYRLGDGQVYDVILRDGLMCATHGYHMGITAENVAKEYGITREMQDELALHSQRKAAAAIESGAFTAEIVPVNVVTRKKTFVFSQDEFPKANSTAEALGALRPAFDKAGTVTAGNASGINDGAAALVIMEESAALAAGLTPLARIKSYASGGVPPALMGMGPVPATQKALQLAGLQLADIDLIEANEAFAAQFLAVGKNLGFDSEKVNVNGGAIALGHPIGASGARILVTLLHAMQARDKTLGLATLCIGGGQGIAMVIERLN" [] ["CCO-CYTOSOL"] +"ACETYLGLUTKIN-MONOMER" "acetylglutamate kinase" ["ArgB"] "MMNPLIIKLGGVLLDSEEALERLFSALVNYRESHQRPLVIVHGGGCVVDELMKGLNLPVKKKNGLRVTPADQIDIITGALAGTANKTLLAWAKKHQIAAVGLFLGDGDSVKVTQLDEELGHVGLAQPGSPKLINSLLENGYLPVVSSIGVTDEGQLMNVNADQAATALAATLGADLILLSDVSGILDGKGQRIAEMTAAKAEQLIEQGIITDGMIVKVNAALDAARTLGRPVDIASWRHAEQLPALFNGMPMGTRILA" [] ["CCO-CYTOSOL"] +"ACETYLORNDEACET-MONOMER" "acetylornithine deacetylase" ["ArgE"] "MKNKLPPFIEIYRALIATPSISATEEALDQSNADLITLLADWFKDLGFNVEVQPVPGTRNKFNMLASIGQGAGGLLLAGHTDTVPFDDGRWTRDPFTLTEHDGKLYGLGTADMKGFFAFILDALRDVDVTKLKKPLYILATADEETSMAGARYFAETTALRPDCAIIGEPTSLQPVRAHKGHISNAIRIQGQSGHSSDPARGVNAIELMHDAIGHILQLRDNLKERYHYEAFTVPYPTLNLGHIHGGDASNRICACCELHMDIRPLPGMTLNELNGLLNDALAPVSERWPGRLTVDELHPPIPGYECPPNHQLVEVVEKLLGAKTEVVNYCTEAPFIQTLCPTLVLGPGSINQAHQPDEYLETRFIKPTRELITQVIHHFCWH" [] ["CCO-CYTOSOL"] +"ACETYLORNTRANSAM-MONOMER" "N-acetylornithine aminotransferase / N-succinyldiaminopimelate aminotransferase" ["Dtu", "DapC", "ArgD"] "MAIEQTAITRATFDEVILPIYAPAEFIPVKGQGSRIWDQQGKEYVDFAGGIAVTALGHCHPALVNALKTQGETLWHISNVFTNEPALRLGRKLIEATFAERVVFMNSGTEANETAFKLARHYACVRHSPFKTKIIAFHNAFHGRSLFTVSVGGQPKYSDGFGPKPADIIHVPFNDLHAVKAVMDDHTCAVVVEPIQGEGGVTAATPEFLQGLRELCDQHQALLVFDEVQCGMGRTGDLFAYMHYGVTPDILTSAKALGGGFPISAMLTTAEIASAFHPGSHGSTYGGNPLACAVAGAAFDIINTPEVLEGIQAKRQRFVDHLQKIDQQYDVFSDIRGMGLLIGAELKPQYKGRARDFLYAGAEAGVMVLNAGPDVMRFAPSLVVEDADIDEGMQRFAHAVAKVVGA" [] ["CCO-CYTOSOL"] +"ACNEULY-MONOMER" "N-acetylneuraminate lyase" ["Npl", "NanA"] "MATNLRGVMAALLTPFDQQQALDKASLRRLVQFNIQQGIDGLYVGGSTGEAFVQSLSEREQVLEIVAEEAKGKIKLIAHVGCVSTAESQQLAASAKRYGFDAVSAVTPFYYPFSFEEHCDHYRAIIDSADGLPMVVYNIPALSGVKLTLDQINTLVTLPGVGALKQTSGDLYQMEQIRREHPDLVLYNGYDEIFASGLLAGADGGIGSTYNIMGWRYQGIVKALKEGDIQTAQKLQTECNKVIDLLIKTGVFRGLKTVLHYMDVVSVPLCRKPFGPVDEKYLPELKALAQQLMQERG" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"ACONITASE-MONOMER" "aconitate hydratase 1" ["Acn", "AcnA"] "MSSTLREASKDTLQAKDKTYHYYSLPLAAKSLGDITRLPKSLKVLLENLLRWQDGNSVTEEDIHALAGWLKNAHADREIAYRPARVLMQDFTGVPAVVDLAAMREAVKRLGGDTAKVNPLSPVDLVIDHSVTVDRFGDDEAFEENVRLEMERNHERYVFLKWGKQAFSRFSVVPPGTGICHQVNLEYLGKAVWSELQDGEWIAYPDTLVGTDSHTTMINGLGVLGWGVGGIEAEAAMLGQPVSMLIPDVVGFKLTGKLREGITATDLVLTVTQMLRKHGVVGKFVEFYGDGLDSLPLADRATIANMSPEYGATCGFFPIDAVTLDYMRLSGRSEDQVELVEKYAKAQGMWRNPGDEPIFTSTLELDMNDVEASLAGPKRPQDRVALPDVPKAFAASNELEVNATHKDRQPVDYVMNGHQYQLPDGAVVIAAITSCTNTSNPSVLMAAGLLAKKAVTLGLKRQPWVKASLAPGSKVVSDYLAKAKLTPYLDELGFNLVGYGCTTCIGNSGPLPDPIETAIKKSDLTVGAVLSGNRNFEGRIHPLVKTNWLASPPLVVAYALAGNMNINLASEPIGHDRKGDPVYLKDIWPSAQEIARAVEQVSTEMFRKEYAEVFEGTAEWKGINVTRSDTYGWQEDSTYIRLSPFFDEMQATPAPVEDIHGARILAMLGDSVTTDHISPAGSIKPDSPAGRYLQGRGVERKDFNSYGSRRGNHEVMMRGTFANIRIRNEMVPGVEGGMTRHLPDSDVVSIYDAAMRYKQEQTPLAVIAGKEYGSGSSRDWAAKGPRLLGIRVVIAESFERIHRSNLIGMGILPLEFPQGVTRKTLGLTGEEKIDIGDLQNLQPGATVPVTLTRADGSQEVVPCRCRIDTATELTYYQNDGILHYVIRNMLK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"ACONITATEDEHYDRB-MONOMER" "AcnB" ["YacI", "YacJ"] "MLEEYRKHVAERAAEGIAPKPLDANQMAALVELLKNPPAGEEEFLLDLLTNRVPPGVDEAAYVKAGFLAAIAKGEAKSPLLTPEKAIELLGTMQGGYNIHPLIDALDDAKLAPIAAKALSHTLLMFDNFYDVEEKAKAGNEYAKQVMQSWADAEWFLNRPALAEKLTVTVFKVTGETNTDDLSPAPDAWSRPDIPLHALAMLKNAREGIEPDQPGVVGPIKQIEALQQKGFPLAYVGDVVGTGSSRKSATNSVLWFMGDDIPHVPNKRGGGLCLGGKIAPIFFNTMEDAGALPIEVDVSNLNMGDVIDVYPYKGEVRNHETGELLATFELKTDVLIDEVRAGGRIPLIIGRGLTTKAREALGLPHSDVFRQAKDVAESDRGFSLAQKMVGRACGVKGIRPGAYCEPKMTSVGSQDTTGPMTRDELKDLACLGFSADLVMQSFCHTAAYPKPVDVNTHHTLPDFIMNRGGVSLRPGDGVIHSWLNRMLLPDTVGTGGDSHTRFPIGISFPAGSGLVAFAAATGVMPLDMPESVLVRFKGKMQPGITLRDLVHAIPLYAIKQGLLTVEKKGKKNIFSGRILEIEGLPDLKVEQAFELTDASAERSAAGCTIKLNKEPIIEYLNSNIVLLKWMIAEGYGDRRTLERRIQGMEKWLANPELLEADADAEYAAVIDIDLADIKEPILCAPNDPDDARPLSAVQGEKIDEVFIGSCMTNIGHFRAAGKLLDAHKGQLPTRLWVAPPTRMDAAQLTEEGYYSVFGKSGARIEIPGCSLCMGNQARVADGATVVSTSTRNFPNRLGTGANVFLASAELAAVAALIGKLPTPEEYQTYVAQVDKTAVDTYRYLNFNQLSQYTEKADGVIFQTAV" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"ACPSUB-MONOMER" "citrate lyase acyl carrier protein" ["YbdX", "CitD", "citrate lyase, acyl carrier γ subunit"] "MKINQPAVAGTLESGDVMIRIAPLDTQDIDLQINSSVEKQFGDAIRTTILDVLARYNVRGVQLNVDDKGALDCILRARLEALLARASGIPALPWEDCQ" [] ["CCO-CYTOSOL"] +"ACRB-MONOMER" "multidrug efflux pump RND permease AcrB" ["AcrE", "AcrB", "AcrB RND permease", "acriflavine resistance protein B"] "MPNFFIDRPIFAWVIAIIIMLAGGLAILKLPVAQYPTIAPPAVTISASYPGADAKTVQDTVTQVIEQNMNGIDNLMYMSSNSDSTGTVQITLTFESGTDADIAQVQVQNKLQLAMPLLPQEVQQQGVSVEKSSSSFLMVVGVINTDGTMTQEDISDYVAANMKDAISRTSGVGDVQLFGSQYAMRIWMNPNELNKFQLTPVDVITAIKAQNAQVAAGQLGGTPPVKGQQLNASIIAQTRLTSTEEFGKILLKVNQDGSRVLLRDVAKIELGGENYDIIAEFNGQPASGLGIKLATGANALDTAAAIRAELAKMEPFFPSGLKIVYPYDTTPFVKISIHEVVKTLVEAIILVFLVMYLFLQNFRATLIPTIAVPVVLLGTFAVLAAFGFSINTLTMFGMVLAIGLLVDDAIVVVENVERVMAEEGLPPKEATRKSMGQIQGALVGIAMVLSAVFVPMAFFGGSTGAIYRQFSITIVSAMALSVLVALILTPALCATMLKPIAKGDHGEGKKGFFGWFNRMFEKSTHHYTDSVGGILRSTGRYLVLYLIIVVGMAYLFVRLPSSFLPDEDQGVFMTMVQLPAGATQERTQKVLNEVTHYYLTKEKNNVESVFAVNGFGFAGRGQNTGIAFVSLKDWADRPGEENKVEAITMRATRAFSQIKDAMVFAFNLPAIVELGTATGFDFELIDQAGLGHEKLTQARNQLLAEAAKHPDMLTSVRPNGLEDTPQFKIDIDQEKAQALGVSINDINTTLGAAWGGSYVNDFIDRGRVKKVYVMSEAKYRMLPDDIGDWYVRAADGQMVPFSAFSSSRWEYGSPRLERYNGLPSMEILGQAAPGKSTGEAMELMEQLASKLPTGVGYDWTGMSYQERLSGNQAPSLYAISLIVVFLCLAALYESWSIPFSVMLVVPLGVIGALLAATFRGLTNDVYFQVGLLTTIGLSAKNAILIVEFAKDLMDKEGKGLIEATLDAVRMRLRPILMTSLAFILGVMPLVISTGAGSGAQNAVGTGVMGGMVTATVLAIFFVPVFFVVVRRRFSRKNEDIEHSHTVDHH" ["CCO-PERI-BAC", "CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"ACRD-MONOMER" "multidrug efflux pump RND permease AcrD" ["YffA"] "MANFFIDRPIFAWVLAILLCLTGTLAIFSLPVEQYPDLAPPNVRVTANYPGASAQTLENTVTQVIEQNMTGLDNLMYMSSQSSGTGQASVTLSFKAGTDPDEAVQQVQNQLQSAMRKLPQAVQNQGVTVRKTGDTNILTIAFVSTDGSMDKQDIADYVASNIQDPLSRVNGVGDIDAYGSQYSMRIWLDPAKLNSFQMTAKDVTDAIESQNAQIAVGQLGGTPSVDKQALNATINAQSLLQTPEQFRDITLRVNQDGSEVRLGDVATVEMGAEKYDYLSRFNGKPASGLGVKLASGANEMATAELVLNRLDELAQYFPHGLEYKVAYETTSFVKASIEDVVKTLLEAIALVFLVMYLFLQNFRATLIPTIAVPVVLMGTFSVLYAFGYSVNTLTMFAMVLAIGLLVDDAIVVVENVERIMSEEGLTPREATRKSMGQIQGALVGIAMVLSAVFVPMAFFGGTTGAIYRQFSITIVAAMVLSVLVAMILTPALCATLLKPLKKGEHHGQKGFFAWFNQMFNRNAERYEKGVAKILHRSLRWIVIYVLLLGGMVFLFLRLPTSFLPLEDRGMFTTSVQLPSGSTQQQTLKVVEQIEKYYFTHEKDNIMSVFATVGSGPGGNGQNVARMFIRLKDWSERDSKTGTSFAIIERATKAFNQIKEARVIASSPPAISGLGSSAGFDMELQDHAGAGHDALMAARNQLLALAAENPELTRVRHNGLDDSPQLQIDIDQRKAQALGVAIDDINDTLQTAWGSSYVNDFMDRGRVKKVYVQAAAPYRMLPDDINLWYVRNKDGGMVPFSAFATSRWETGSPRLERYNGYSAVEIVGEAAPGVSTGTAMDIMESLVKQLPNGFGLEWTAMSYQERLSGAQAPALYAISLLVVFLCLAALYESWSVPFSVMLVVPLGVIGALLATWMRGLENDVYFQVGLLTVIGLSAKNAILIVEFANEMNQKGHDLFEATLHACRQRLRPILMTSLAFIFGVLPMATSTGAGSGGQHAVGTGVMGGMISATILAIYFVPLFFVLVRRRFPLKPRPE" ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"ACRF-MONOMER" "multidrug efflux pump RND permease AcrF" ["EnvD", "AcrF"] "MANFFIRRPIFAWVLAIILMMAGALAILQLPVAQYPTIAPPAVSVSANYPGADAQTVQDTVTQVIEQNMNGIDNLMYMSSTSDSAGSVTITLTFQSGTDPDIAQVQVQNKLQLATPLLPQEVQQQGISVEKSSSSYLMVAGFVSDNPGTTQDDISDYVASNVKDTLSRLNGVGDVQLFGAQYAMRIWLDADLLNKYKLTPVDVINQLKVQNDQIAAGQLGGTPALPGQQLNASIIAQTRFKNPEEFGKVTLRVNSDGSVVRLKDVARVELGGENYNVIARINGKPAAGLGIKLATGANALDTAKAIKAKLAELQPFFPQGMKVLYPYDTTPFVQLSIHEVVKTLFEAIMLVFLVMYLFLQNMRATLIPTIAVPVVLLGTFAILAAFGYSINTLTMFGMVLAIGLLVDDAIVVVENVERVMMEDKLPPKEATEKSMSQIQGALVGIAMVLSAVFIPMAFFGGSTGAIYRQFSITIVSAMALSVLVALILTPALCATLLKPVSAEHHENKGGFFGWFNTTFDHSVNHYTNSVGKILGSTGRYLLIYALIVAGMVVLFLRLPSSFLPEEDQGVFLTMIQLPAGATQERTQKVLDQVTDYYLKNEKANVESVFTVNGFSFSGQAQNAGMAFVSLKPWEERNGDENSAEAVIHRAKMELGKIRDGFVIPFNMPAIVELGTATGFDFELIDQAGLGHDALTQARNQLLGMAAQHPASLVSVRPNGLEDTAQFKLEVDQEKAQALGVSLSDINQTISTALGGTYVNDFIDRGRVKKLYVQADAKFRMLPEDVDKLYVRSANGEMVPFSAFTTSHWVYGSPRLERYNGLPSMEIQGEAAPGTSSGDAMALMENLASKLPAGIGYDWTGMSYQERLSGNQAPALVAISFVVVFLCLAALYESWSIPVSVMLVVPLGIVGVLLAATLFNQKNDVYFMVGLLTTIGLSAKNAILIVEFAKDLMEKEGKGVVEATLMAVRMRLRPILMTSLAFILGVLPLAISNGAGSGAQNAVGIGVMGGMVSATLLAIFFVPVFFVVIRRCFKG" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"ACS-MONOMER" "acetyl-CoA synthetase (AMP-forming)" ["AcsA", "YfaC", "Acs"] "MSQIHKHTIPANIADRCLINPQQYEAMYQQSINVPDTFWGEQGKILDWIKPYQKVKNTSFAPGNVSIKWYEDGTLNLAANCLDRHLQENGDRTAIIWEGDDASQSKHISYKELHRDVCRFANTLLELGIKKGDVVAIYMPMVPEAAVAMLACARIGAVHSVIFGGFSPEAVAGRIIDSNSRLVITSDEGVRAGRSIPLKKNVDDALKNPNVTSVEHVVVLKRTGGKIDWQEGRDLWWHDLVEQASDQHQAEEMNAEDPLFILYTSGSTGKPKGVLHTTGGYLVYAALTFKYVFDYHPGDIYWCTADVGWVTGHSYLLYGPLACGATTLMFEGVPNWPTPARMAQVVDKHQVNILYTAPTAIRALMAEGDKAIEGTDRSSLRILGSVGEPINPEAWEWYWKKIGNEKCPVVDTWWQTETGGFMITPLPGATELKAGSATRPFFGVQPALVDNEGNPLEGATEGSLVITDSWPGQARTLFGDHERFEQTYFSTFKNMYFSGDGARRDEDGYYWITGRVDDVLNVSGHRLGTAEIESALVAHPKIAEAAVVGIPHNIKGQAIYAYVTLNHGEEPSPELYAEVRNWVRKEIGPLATPDVLHWTDSLPKTRSGKIMRRILRKIAAGDTSNLGDTSTLADPGVVEKLLEEKQAIAMPS" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"ACSERLYA-MONOMER" "cysteine synthase A" ["Ssi5", "CysK", "O-acetylserine sulfhydrylase A"] "MSKIFEDNSLTIGHTPLVRLNRIGNGRILAKVESRNPSFSVKCRIGANMIWDAEKRGVLKPGVELVEPTSGNTGIALAYVAAARGYKLTLTMPETMSIERRKLLKALGANLVLTEGAKGMKGAIQKAEEIVASNPEKYLLLQQFSNPANPEIHEKTTGPEIWEDTDGQVDVFIAGVGTGGTLTGVSRYIKGTKGKTDLISVAVEPTDSPVIAQALAGEEIKPGPHKIQGIGAGFIPANLDLKLVDKVIGITNEEAISTARRLMEEEGILAGISSGAAVAAALKLQEDESFTNKNIVVILPSSGERYLSTALFADLFTEKELQQ" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"ACSERLYB-MONOMER" "cysteine synthase B" ["CysM"] "MSTLEQTIGNTPLVKLQRMGPDNGSEVWLKLEGNNPAGSVKDRAALSMIVEAEKRGEIKPGDVLIEATSGNTGIALAMIAALKGYRMKLLMPDNMSQERRAAMRAYGAELILVTKEQGMEGARDLALEMANRGEGKLLDQFNNPDNPYAHYTTTGPEIWQQTGGRITHFVSSMGTTGTITGVSRFMREQSKPVTIVGLQPEEGSSIPGIRRWPTEYLPGIFNASLVDEVLDIHQRDAENTMRELAVREGIFCGVSSGGAVAGALRVAKANPDAVVVAIICDRGDRYLSTGVFGEEHFSQGAGI" [] ["CCO-CYTOSOL"] +"ACYLCOADEHYDROG-MONOMER" "acyl-CoA dehydrogenase" ["FadE", "YafH"] "MMILSILATVVLLGALFYHRVSLFISSLILLAWTAALGVAGLWSAWVLVPLAIILVPFNFAPMRKSMISAPVFRGFRKVMPPMSRTEKEAIDAGTTWWEGDLFQGKPDWKKLHNYPQPRLTAEEQAFLDGPVEEACRMANDFQITHELADLPPELWAYLKEHRFFAMIIKKEYGGLEFSAYAQSRVLQKLSGVSGILAITVGVPNSLGPGELLQHYGTDEQKDHYLPRLARGQEIPCFALTSPEAGSDAGAIPDTGIVCMGEWQGQQVLGMRLTWNKRYITLAPIATVLGLAFKLSDPEKLLGGAEDLGITCALIPTTTPGVEIGRRHFPLNVPFQNGPTRGKDVFVPIDYIIGGPKMAGQGWRMLVECLSVGRGITLPSNSTGGVKSVALATGAYAHIRRQFKISIGKMEGIEEPLARIAGNAYVMDAAASLITYGIMLGEKPAVLSAIVKYHCTHRGQQSIIDAMDITGGKGIMLGQSNFLARAYQGAPIAITVEGANILTRSMMIFGQGAIRCHPYVLEEMEAAKNNDVNAFDKLLFKHIGHVGSNKVRSFWLGLTRGLTSSTPTGDATKRYYQHLNRLSANLALLSDVSMAVLGGSLKRRERISARLGDILSQLYLASAVLKRYDDEGRNEADLPLVHWGVQDALYQAEQAMDDLLQNFPNRVVAGLLNVVIFPTGRHYLAPSDKLDHKVAKILQVPNATRSRIGRGQYLTPSEHNPVGLLEEALVDVIAADPIHQRICKELGKNLPFTRLDELAHNALVKGLIDKDEAAILVKAEESRLRSINVDDFDPEELATKPVKLPEKVRKVEAA" ["CCO-CYTOSOL"] ["CCO-PM-BAC-NEG"] +"ACYLCOASYN-MONOMER" "long-chain-fatty-acid—CoA ligase" ["OldD", "FadD", "fatty acyl-CoA synthetase"] "MKKVWLNRYPADVPTEINPDRYQSLVDMFEQSVARYADQPAFVNMGEVMTFRKLEERSRAFAAYLQQGLGLKKGDRVALMMPNLLQYPVALFGILRAGMIVVNVNPLYTPRELEHQLNDSGASAIVIVSNFAHTLEKVVDKTAVQHVILTRMGDQLSTAKGTVVNFVVKYIKRLVPKYHLPDAISFRSALHNGYRMQYVKPELVPEDLAFLQYTGGTTGVAKGAMLTHRNMLANLEQVNATYGPLLHPGKELVVTALPLYHIFALTINCLLFIELGGQNLLITNPRDIPGLVKELAKYPFTAITGVNTLFNALLNNKEFQQLDFSSLHLSAGGGMPVQQVVAERWVKLTGQYLLEGYGLTECAPLVSVNPYDIDYHSGSIGLPVPSTEAKLVDDDDNEVPPGQPGELCVKGPQVMLGYWQRPDATDEIIKNGWLHTGDIAVMDEEGFLRIVDRKKDMILVSGFNVYPNEIEDVVMQHPGVQEVAAVGVPSGSSGEAVKIFVVKKDPSLTEESLVTFCRRQLTGYKVPKLVEFRDELPKSNVGKILRRELRDEARGKVDNKA" ["CCO-CYTOSOL", "CCO-PM-BAC-NEG"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE", "CCO-CYTOSOL"] +"ADCLY-MONOMER" "aminodeoxychorismate lyase" ["PabC"] "MFLINGHKQESLAVSDRATQFGDGCFTTARVIDGKVSLLSAHIQRLQDACQRLMISCDFWPQLEQEMKTLAAEQQNGVLKVVISRGSGGRGYSTLNSGPATRILSVTAYPAHYDRLRNEGITLALSPVRLGRNPHLAGIKHLNRLEQVLIRSHLEQTNADEALVLDSEGWVTECCAANLFWRKGNVVYTPRLDQAGVNGIMRQFCIRLLAQSSYQLVEVQASLEESLQADEMVICNALMPVMPVCACGDVSFSSATLYEYLAPLCERPN" [] ["CCO-CYTOSOL"] +"ADENODEAMIN-MONOMER" "adenosine deaminase" ["Add"] "MIDTTLPLTDIHRHLDGNIRPQTILELGRQYNISLPAQSLETLIPHVQVIANEPDLVSFLTKLDWGVKVLASLDACRRVAFENIEDAARHGLHYVELRFSPGYMAMAHQLPVAGVVEAVIDGVREGCRTFGVQAKLIGIMSRTFGEAACQQELEAFLAHRDQITALDLAGDELGFPGSLFLSHFNRARDAGWHITVHAGEAAGPESIWQAIRELGAERIGHGVKAIEDRALMDFLAEQQIGIESCLTSNIQTSTVAELAAHPLKTFLEHGIRASINTDDPGVQGVDIIHEYTVAAPAAGLSREQIRQAQINGLEMAFLSAEEKRALREKVAAK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"ADENPRIBOSYLTRAN-MONOMER" "adenine phosphoribosyltransferase" ["Apt"] "MTATAQQLEYLKNSIKSIQDYPKPGILFRDVTSLLEDPKAYALSIDLLVERYKNAGITKVVGTEARGFLFGAPVALGLGVGFVPVRKPGKLPRETISETYDLEYGTDQLEIHVDAIKPGDKVLVVDDLLATGGTIEATVKLIRRLGGEVADAAFIINLFDLGGEQRLEKQGITSYSLVPFPGH" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"ADENYL-KIN-MONOMER" "adenylate kinase" ["PlsA", "DnaW", "Adk"] "MRIILLGAPGAGKGTQAQFIMEKYGIPQISTGDMLRAAVKSGSELGKQAKDIMDAGKLVTDELVIALVKERIAQEDCRNGFLLDGFPRTIPQADAMKEAGINVDYVLEFDVPDELIVDRIVGRRVHAPSGRVYHVKFNPPKVEGKDDVTGEELTTRKDDQEETVRKRLVEYHQMTAPLIGYYSKEAEAGNTKYAKVDGTKPVAEVRADLEKILG" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"ADENYLATECYC-MONOMER" null ["Cya", "CyaA"] "MYLYIETLKQRLDAINQLRVDRALAAMGPAFQQVYSLLPTLLHYHHPLMPGYLDGNVPKGICLYTPDETQRHYLNELELYRGMSVQDPPKGELPITGVYTMGSTSSVGQSCSSDLDIWVCHQSWLDSEERQLLQRKCSLLENWAASLGVEVSFFLIDENRFRHNESGSLGGEDCGSTQHILLLDEFYRTAVRLAGKRILWNMVPCDEEEHYDDYVMTLYAQGVLTPNEWLDLGGLSSLSAEEYFGASLWQLYKSIDSPYKAVLKTLLLEAYSWEYPNPRLLAKDIKQRLHDGEIVSFGLDPYCMMLERVTEYLTAIEDFTRLDLVRRCFYLKVCEKLSRERACVGWRRAVLSQLVSEWGWDEARLAMLDNRANWKIDQVREAHNELLDAMMQSYRNLIRFARRNNLSVSASPQDIGVLTRKLYAAFEALPGKVTLVNPQISPDLSEPNLTFIYVPPGRANRSGWYLYNRAPNIESIISHQPLEYNRYLNKLVAWAWFNGLLTSRTRLYIKGNGIVDLPKLQEMVADVSHHFPLRLPAPTPKALYSPCEIRHLAIIVNLEYDPTAAFRNQVVHFDFRKLDVFSFGENQNCLVGSVDLLYRNSWNEVRTLHFNGEQSMIEALKTILGKMHQDAAPPDSVEVFCYSQHLRGLIRTRVQQLVSECIELRLSSTRQETGRFKALRVSGQTWGLFFERLNVSVQKLENAIEFYGAISHNKLHGLSVQVETNHVKLPAVVDGFASEGIIQFFFEETQDENGFNIYILDESNRVEVYHHCEGSKEELVRDVSRFYSSSHDRFTYGSSFINFNLPQFYQIVKVDGREQVIPFRTKSIGNMPPANQDHDTPLLQQYFS" [] ["CCO-CYTOSOL"] +"ADENYLOSUCCINATE-SYN-MONOMER" "adenylosuccinate synthetase" ["AdeK", "PurA"] "MGNNVVVLGTQWGDEGKGKIVDLLTERAKYVVRYQGGHNAGHTLVINGEKTVLHLIPSGILRENVTSIIGNGVVLSPAALMKEMKELEDRGIPVRERLLLSEACPLILDYHVALDNAREKARGAKAIGTTGRGIGPAYEDKVARRGLRVGDLFDKETFAEKLKEVMEYHNFQLVNYYKAEAVDYQKVLDDTMAVADILTSMVVDVSDLLDQARQRGDFVMFEGAQGTLLDIDHGTYPYVTSSNTTAGGVATGSGLGPRYVDYVLGILKAYSTRVGAGPFPTELFDETGEFLCKQGNEFGATTGRRRRTGWLDTVAVRRAVQLNSLSGFCLTKLDVLDGLKEVKLCVAYRMPDGREVTTTPLAADDWKGVEPIYETMPGWSESTFGVKDRSGLPQAALNYIKRIEELTGVPIDIISTGPDRTETMILRDPFDA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"ADENYLYLSULFKIN-MONOMER" "adenylyl-sulfate kinase" ["CysC"] "MALHDENVVWHSHPVTVQQRELHHGHRGVVLWFTGLSGSGKSTVAGALEEALHKLGVSTYLLDGDNVRHGLCSDLGFSDADRKENIRRVGEVANLMVEAGLVVLTAFISPHRAERQMVRERVGEGRFIEVFVDTPLAICEARDPKGLYKKARAGELRNFTGIDSVYEAPESAEIHLNGEQLVTNLVQQLLDLLRQNDIIRS" [] ["CCO-CYTOSOL"] +"ADHC-MONOMER" "S-(hydroxymethyl)glutathione dehydrogenase" ["AdhC", "FrmA", "formaldehyde dehydrogenase"] "MKSRAAVAFAPGKPLEIVEIDVAPPKKGEVLIKVTHTGVCHTDAFTLSGDDPEGVFPVVLGHEGAGVVVEVGEGVTSVKPGDHVIPLYTAECGECEFCRSGKTNLCVAVRETQGKGLMPDGTTRFSYNGQPLYHYMGCSTFSEYTVVAEVSLAKINPEANHEHVCLLGCGVTTGIGAVHNTAKVQPGDSVAVFGLGAIGLAVVQGARQAKAGRIIAIDTNPKKFDLARRFGATDCINPNDYDKPIKDVLLDINKWGIDHTFECIGNVNVMRAALESAHRGWGQSVIIGVAVAGQEISTRPFQLVTGRVWKGSAFGGVKGRSQLPGMVEDAMKGDIDLEPFVTHTMSLDEINDAFDLMHEGKSIRTVIRY" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"ADHE-MONOMER" "fused acetaldehyde-CoA dehydrogenase and iron-dependent alcohol dehydrogenasealdehyde/alcohol dehydrogenase AdhE" ["AdhE", "AdhC", "Ana", "aldehyde/alcohol dehydrogenase AdhE"] "MAVTNVAELNALVERVKKAQREYASFTQEQVDKIFRAAALAAADARIPLAKMAVAESGMGIVEDKVIKNHFASEYIYNAYKDEKTCGVLSEDDTFGTITIAEPIGIICGIVPTTNPTSTAIFKSLISLKTRNAIIFSPHPRAKDATNKAADIVLQAAIAAGAPKDLIGWIDQPSVELSNALMHHPDINLILATGGPGMVKAAYSSGKPAIGVGAGNTPVVIDETADIKRAVASVLMSKTFDNGVICASEQSVVVVDSVYDAVRERFATHGGYLLQGKELKAVQDVILKNGALNAAIVGQPAYKIAELAGFSVPENTKILIGEVTVVDESEPFAHEKLSPTLAMYRAKDFEDAVEKAEKLVAMGGIGHTSCLYTDQDNQPARVSYFGQKMKTARILINTPASQGGIGDLYNFKLAPSLTLGCGSWGGNSISENVGPKHLINKKTVAKRAENMLWHKLPKSIYFRRGSLPIALDEVITDGHKRALIVTDRFLFNNGYADQITSVLKAAGVETEVFFEVEADPTLSIVRKGAELANSFKPDVIIALGGGSPMDAAKIMWVMYEHPETHFEELALRFMDIRKRIYKFPKMGVKAKMIAVTTTSGTGSEVTPFAVVTDDATGQKYPLADYALTPDMAIVDANLVMDMPKSLCAFGGLDAVTHAMEAYVSVLASEFSDGQALQALKLLKEYLPASYHEGSKNPVARERVHSAATIAGIAFANAFLGVCHSMAHKLGSQFHIPHGLANALLICNVIRYNANDNPTKQTAFSQYDRPQARRRYAEIADHLGLSAPGDRTAAKIEKLLAWLETLKAELGIPKSIREAGVQEADFLANVDKLSEDAFDDQCTGANPRYPLISELKQILLDTYYGRDYVEGETAAKKEAAPAKAEKKAKKSA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"ADHP-MONOMER" "ethanol dehydrogenase / alcohol dehydrogenase" ["YddN", "AdhP"] "MKAAVVTKDHHVDVTYKTLRSLKHGEALLKMECCGVCHTDLHVKNGDFGDKTGVILGHEGIGVVAEVGPGVTSLKPGDRASVAWFYEGCGHCEYCNSGNETLCRSVKNAGYSVDGGMAEECIVVADYAVKVPDGLDSAAASSITCAGVTTYKAVKLSKIRPGQWIAIYGLGGLGNLALQYAKNVFNAKVIAIDVNDEQLKLATEMGADLAINSHTEDAAKIVQEKTGGAHAAVVTAVAKAAFNSAVDAVRAGGRVVAVGLPPESMSLDIPRLVLDGIEVVGSLVGTRQDLTEAFQFAAEGKVVPKVALRPLADINTIFTEMEEGKIRGRMVIDFRH" [] ["CCO-CYTOSOL"] +"AERGLYC3PDEHYDROG-MONOMER" "aerobic glycerol 3-phosphate dehydrogenase" ["GlyD", "GlpD"] "METKDLIVIGGGINGAGIAADAAGRGLSVLMLEAQDLACATSSASSKLIHGGLRYLEHYEFRLVSEALAEREVLLKMAPHIAFPMRFRLPHRPHLRPAWMIRIGLFMYDHLGKRTSLPGSTGLRFGANSVLKPEIKRGFEYSDCWVDDARLVLANAQMVVRKGGEVLTRTRATSARRENGLWIVEAEDIDTGKKYSWQARGLVNATGPWVKQFFDDGMHLPSPYGIRLIKGSHIVVPRVHTQKQAYILQNEDKRIVFVIPWMDEFSIIGTTDVEYKGDPKAVKIEESEINYLLNVYNTHFKKQLSRDDIVWTYSGVRPLCDDESDSPQAITRDYTLDIHDENGKAPLLSVFGGKLTTYRKLAEHALEKLTPYYQGIGPAWTKESVLPGGAIEGDRDDYAARLRRRYPFLTESLARHYARTYGSNSELLLGNAGTVSDLGEDFGHEFYEAELKYLVDHEWVRRADDALWRRTKQGMWLNADQQSRVSQWLVEYTQQRLSLAS" ["CCO-PM-BAC-NEG"] ["CCO-CYTOSOL"] +"AGAA-MONOMER" "putative truncated N-acetylgalactosamine-6-phosphate deacetylase" ["YraA", "AgaA"] "MHCYNGMTGLHHREPGMVGAGLTDKRAWLELIADGHHVHPAAMSLCCCCAKERIVLITDAMQAAGMPDGRYTLCGEEVQMHGGVVRTASGGLAGSTLSVDAAVRNMVELTGVTPAEAIHMASLHPARMLGVDGVLGSLKPGKRASVVALDSGLHVQQIWIQGQLASF" [] ["CCO-CYTOSOL"] +"AGAB-MONOMER" "galactosamine-specific PTS enzyme IIB component" ["AgaB", "YraD"] "MTSPNILLTRIDNRLVHGQVGVTWTSTIGANLLVVVDDVVANDDIQQKLMGITAETYGFGIRFFTIEKTINVIGKAAPHQKIFLICRTPQTVRKLVEGGIDLKDVNVGNMHFSEGKKQISSKVYVDDQDLTDLRFIKQRGVNVFIQDVPGDQKEQIPD" [] ["CCO-CYTOSOL"] +"AGAC-MONOMER" "galactosamine-specific PTS enzyme IIC component" ["AgaC", "YraE"] "MHEITLLQGLSLAALVFVLGIDFWLEALFLFRPIIVCTLTGAILGDIQTGLITGGLTELAFAGLTPAGGVQPPNPIMAGLMTTVIAWSTGVDAKTAIGLGLPFSLLMQYVILFFYSAFSLFMTKADKCAKEADTAAFSRLNWTTMLIVASAYAVIAFLCTYLAQGAMQALVKAMPAWLTHGFEVAGGILPAVGFGLLLRVMFKAQYIPYLIAGFLFVCYIQVSNLLPVAVLGAGFAVYEFFNAKSRQQAQPQPVASKNEEEDYSNGI" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"AGAD-MONOMER" "galactosamine-specific PTS enzyme IID component" ["YraF", "AgaD"] "MGSEISKKDITRLGFRSSLLQASFNYERMQAGGFTWAMLPILKKIYKDDKPGLSAAMKDNLEFINTHPNLVGFLMGLLISMEEKGENRDTIKGLKVALFGPIAGIGDAIFWFTLLPIMAGICSSFASQGNLLGPILFFAVYLLIFFLRVGWTHVGYSVGVKAIDKVRENSQMIARSATILGITVIGGLIASYVHINVVTSFAIDNTHSVALQQDFFDKVFPNILPMAYTLLMYYFLRVKKAHPVLLIGVTFVLSIVCSAFGIL" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"AGAX-MONOMER" "putative PTS enzyme IIA component YadI" ["AgaX", "YadI"] "MLGWVITCHDDRAQEILDALEKKHGALLQCRAVNFWRGLSSNMLSRMMCDALHEADSGEGVIFLTDIAGAPPYRVASLLSHKHSRCEVISGVTLPLIEQMMACRETMTSSEFRERIVELGAPEVSSLWHQQQKNPPFVLKHNLYEY" [] ["CCO-MEMBRANE", "CCO-CYTOSOL"] +"AGMATIN-MONOMER" "agmatinase" ["SpeB"] "MSTLGHQYDNSLVSNAFGFLRLPMNFQPYDSDADWVITGVPFDMATSGRAGGRHGPAAIRQVSTNLAWEHNRFPWNFDMRERLNVVDCGDLVYAFGDAREMSEKLQAHAEKLLAAGKRMLSFGGDHFVTLPLLRAHAKHFGKMALVHFDAHTDTYANGCEFDHGTMFYTAPKEGLIDPNHSVQIGIRTEFDKDNGFTVLDACQVNDRSVDDVIAQVKQIVGDMPVYLTFDIDCLDPAFAPGTGTPVIGGLTSDRAIKLVRGLKDLNIVGMDVVEVAPAYDQSEITALAAATLALEMLYIQAAKKGE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"AICARTRANSIMPCYCLO-CPLX" "bifunctional AICAR transformylase/IMP cyclohydrolase" ["PurH"] "MQQRRPVRRALLSVSDKAGIVEFAQALSARGVELLSTGGTARLLAEKGLPVTEVSDYTGFPEMMDGRVKTLHPKVHGGILGRRGQDDAIMEEHQIQPIDMVVVNLYPFAQTVAREGCSLEDAVENIDIGGPTMVRSAAKNHKDVAIVVKSSDYDAIIKEMDDNEGSLTLATRFDLAIKAFEHTAAYDSMIANYFGSMVPAYHGESKEAAGRFPRTLNLNFIKKLDMRYGENSHQQAAFYIEENVKEASVATATQVQGKALSYNNIADTDAALECVKEFAEPACVIVKHANPCGVAIGNSILDAYDRAYKTDPTSAFGGIIAFNRELDAETAQAIISRQFVEVIIAPSASEEALKITAAKQNVRVLTCGQWGERVPGLDFKRVNGGLLVQDRDLGMVGAEELRVVTKRQPSEQELRDALFCWKVAKFVKSNAIVYAKNNMTIGIGAGQMSRVYSAKIAGIKAADEGLEVKGSSMASDAFFPFRDGIDAAAAAGVTCVIQPGGSIRDDEVIAAADEHGIAMLFTDMRHFRH" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"AIRS-MONOMER" "phosphoribosylformylglycinamide cyclo-ligase" ["PurI", "PurG", "PurM"] "MTDKTSLSYKDAGVDIDAGNALVGRIKGVVKKTRRPEVMGGLGGFGALCALPQKYREPVLVSGTDGVGTKLRLAMDLKRHDTIGIDLVAMCVNDLVVQGAEPLFFLDYYATGKLDVDTASAVISGIAEGCLQSGCSLVGGETAEMPGMYHGEDYDVAGFCVGVVEKSEIIDGSKVSDGDVLIALGSSGPHSNGYSLVRKILEVSGCDPQTTELDGKPLADHLLAPTRIYVKSVLELIEKVDVHAIAHLTGGGFWENIPRVLPDNTQAVIDESSWQWPEVFNWLQTAGNVEHHEMYRTFNCGVGMIIALPAPEVDKALALLNANGENAWKIGIIKASDSEQRVVIE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"AKBLIG-MONOMER" "2-amino-3-ketobutyrate CoA ligase" ["Kbl"] "MRGEFYQQLTNDLETARAEGLFKEERIITSAQQADITVADGSHVINFCANNYLGLANHPDLIAAAKAGMDSHGFGMASVRFICGTQDSHKELEQKLAAFLGMEDAILYSSCFDANGGLFETLLGAEDAIISDALNHASIIDGVRLCKAKRYRYANNDMQELEARLKEAREAGARHVLIATDGVFSMDGVIANLKGVCDLADKYDALVMVDDSHAVGFVGENGRGSHEYCDVMGRVDIITGTLGKALGGASGGYTAARKEVVEWLRQRSRPYLFSNSLAPAIVAASIKVLEMVEAGSELRDRLWANARQFREQMSAAGFTLAGADHAIIPVMLGDAVVAQKFARELQKEGIYVTGFFYPVVPKGQARIRTQMSAAHTPEQITRAVEAFTRIGKQLGVIA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"ALARACEBIOSYN-MONOMER" "alanine racemase 1" ["Alr", "alanine racemase 1, PLP-binding, biosynthetic", "biosynthetic alanine racemase"] "MQAATVVINRRALRHNLQRLRELAPASKMVAVVKANAYGHGLLETARTLPDADAFGVARLEEALRLRAGGITKPVLLLEGFFDARDLPTISAQHFHTAVHNEEQLAALEEASLDEPVTVWMKLDTGMHRLGVRPEQAEAFYHRLTQCKNVRQPVNIVSHFARADEPKCGATEKQLAIFNTFCEGKPGQRSIAASGGILLWPQSHFDWVRPGIILYGVSPLEDRSTGADFGCQPVMSLTSSLIAVREHKAGEPVGYGGTWVSERDTRLGVVAMGYGDGYPRAAPSGTPVLVNGREVPIVGRVAMDMICVDLGPQAQDKAGDPVILWGEGLPVERIAEMTKVSAYELITRLTSRVAMKYVD" [] ["CCO-CYTOSOL"] +"ALARACECAT-MONOMER" "alanine racemase 2" ["DadB", "AlnB", "AlnA", "DadX", "alanine racemase 2, PLP-binding"] "MTRPIQASLDLQALKQNLSIVRQAATHARVWSVVKANAYGHGIERIWSAIGATDGFALLNLEEAITLRERGWKGPILMLEGFFHAQDLEIYDQHRLTTCVHSNWQLKALQNARLKAPLDIYLKVNSGMNRLGFQPDRVLTVWQQLRAMANVGEMTLMSHFAEAEHPDGISGAMARIEQAAEGLECRRSLSNSAATLWHPEAHFDWVRPGIILYGASPSGQWRDIANTGLRPVMTLSSEIIGVQTLKAGERVGYGGRYTARDEQRIGIVAAGYADGYPRHAPTGTPVLVDGVRTMTVGTVSMDMLAVDLTPCPQAGIGTPVELWGKEIKIDDVAAAAGTVGYELMCALALRVPVVTV" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"ALAS-MONOMER" "alanine—tRNA ligase/DNA-binding transcriptional repressor" ["Act", "LovB", "AlaS", "ala-act"] "MSKSTAEIRQAFLDFFHSKGHQVVASSSLVPHNDPTLLFTNAGMNQFKDVFLGLDKRNYSRATTSQRCVRAGGKHNDLENVGYTARHHTFFEMLGNFSFGDYFKHDAIQFAWELLTSEKWFALPKERLWVTVYESDDEAYEIWEKEVGIPRERIIRIGDNKGAPYASDNFWQMGDTGPCGPCTEIFYDHGDHIWGGPPGSPEEDGDRYIEIWNIVFMQFNRQADGTMEPLPKPSVDTGMGLERIAAVLQHVNSNYDIDLFRTLIQAVAKVTGATDLSNKSLRVIADHIRSCAFLIADGVMPSNENRGYVLRRIIRRAVRHGNMLGAKETFFYKLVGPLIDVMGSAGEDLKRQQAQVEQVLKTEEEQFARTLERGLALLDEELAKLSGDTLDGETAFRLYDTYGFPVDLTADVCRERNIKVDEAGFEAAMEEQRRRAREASGFGADYNAMIRVDSASEFKGYDHLELNGKVTALFVDGKAVDAINAGQEAVVVLDQTPFYAESGGQVGDKGELKGANFSFAVEDTQKYGQAIGHIGKLAAGSLKVGDAVQADVDEARRARIRLNHSATHLMHAALRQVLGTHVSQKGSLVNDKVLRFDFSHNEAMKPEEIRAVEDLVNTQIRRNLPIETNIMDLEAAKAKGAMALFGEKYDERVRVLSMGDFSTELCGGTHASRTGDIGLFRIISESGTAAGVRRIEAVTGEGAIATVHADSDRLSEVAHLLKGDSNNLADKVRSVLERTRQLEKELQQLKEQAAAQESANLSSKAIDVNGVKLLVSELSGVEPKMLRTMVDDLKNQLGSTIIVLATVVEGKVSLIAGVSKDVTDRVKAGELIGMVAQQVGGKGGGRPDMAQAGGTDAAALPAALASVKGWVSAKLQ" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"ALDDEHYDROGB-MONOMER" "aldehyde dehydrogenase B" ["YiaX", "AldB"] "MTNNPPSAQIKPGEYGFPLKLKARYDNFIGGEWVAPADGEYYQNLTPVTGQLLCEVASSGKRDIDLALDAAHKVKDKWAHTSVQDRAAILFKIADRMEQNLELLATAETWDNGKPIRETSAADVPLAIDHFRYFASCIRAQEGGISEVDSETVAYHFHEPLGVVGQIIPWNFPLLMASWKMAPALAAGNCVVLKPARLTPLSVLLLMEIVGDLLPPGVVNVVNGAGGVIGEYLATSKRIAKVAFTGSTEVGQQIMQYATQNIIPVTLELGGKSPNIFFADVMDEEDAFFDKALEGFALFAFNQGEVCTCPSRALVQESIYERFMERAIRRVESIRSGNPLDSVTQMGAQVSHGQLETILNYIDIGKKEGADVLTGGRRKLLEGELKDGYYLEPTILFGQNNMRVFQEEIFGPVLAVTTFKTMEEALELANDTQYGLGAGVWSRNGNLAYKMGRGIQAGRVWTNCYHAYPAHAAFGGYKQSGIGRETHKMMLEHYQQTKCLLVSYSDKPLGLF" [] ["CCO-CYTOSOL"] +"ALDHDEHYDROG-MONOMER" "γ-glutamyl-γ-aminobutyraldehyde dehydrogenase" ["AldH", "PuuC"] "MNFHHLAYWQDKALSLAIENRLFINGEYTAAAENETFETVDPVTQAPLAKIARGKSVDIDRAMSAARGVFERGDWSLSSPAKRKAVLNKLADLMEAHAEELALLETLDTGKPIRHSLRDDIPGAARAIRWYAEAIDKVYGEVATTSSHELAMIVREPVGVIAAIVPWNFPLLLTCWKLGPALAAGNSVILKPSEKSPLSAIRLAGLAKEAGLPDGVLNVVTGFGHEAGQALSRHNDIDAIAFTGSTRTGKQLLKDAGDSNMKRVWLEAGGKSANIVFADCPDLQQAASATAAGIFYNQGQVCIAGTRLLLEESIADEFLALLKQQAQNWQPGHPLDPATTMGTLIDCAHADSVHSFIREGESKGQLLLDGRNAGLAAAIGPTIFVDVDPNASLSREEIFGPVLVVTRFTSEEQALQLANDSQYGLGAAVWTRDLSRAHRMSRRLKAGSVFVNNYNDGDMTVPFGGYKQSGNGRDKSLHALEKFTELKTIWISLEA" [] ["CCO-CYTOSOL"] +"ALDOSE1EPIM-MONOMER" "galactose-1-epimerase" ["GalM"] "MLNETPALAPDGQPYRLLTLRNNAGMVVTLMDWGATLLSARIPLSDGSVREALLGCASPECYQDQAAFLGASIGRYANRIANSRYTFDGETVTLSPSQGVNQLHGGPEGFDKRRWQIVNQNDRQVLFALSSDDGDQGFPGNLGATVQYRLTDDNRISITYRATVDKPCPVNMTNHVYFNLDGEQSDVRNHKLQILADEYLPVDEGGIPHDGLKSVAGTSFDFRSAKIIASEFLADDDQRKVKGYDHAFLLQAKGDGKKVAAHVWSADEKLQLKVYTTAPALQFYSGNFLGGTPSRGTEPYADWQGLALESEFLPDSPNHPEWPQPDCFLRPGEEYSSLTEYQFIAE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"ALKAPHOSPHA-MONOMER" "alkaline phosphatase" ["PsiA", "PhoA"] "MKQSTIALALLPLLFTPVTKARTPEMPVLENRAAQGDITAPGGARRLTGDQTAALRDSLSDKPAKNIILLIGDGMGDSEITAARNYAEGAGGFFKGIDALPLTGQYTHYALNKKTGKPDYVTDSAASATAWSTGVKTYNGALGVDIHEKDHPTILEMAKAAGLATGNVSTAELQDATPAALVAHVTSRKCYGPSATSEKCPGNALEKGGKGSITEQLLNARADVTLGGGAKTFAETATAGEWQGKTLREQAQARGYQLVSDAASLNSVTEANQQKPLLGLFADGNMPVRWLGPKATYHGNIDKPAVTCTPNPQRNDSVPTLAQMTDKAIELLSKNEKGFFLQVEGASIDKQDHAANPCGQIGETVDLDEAVQRALEFAKKEGNTLVIVTADHAHASQIVAPDTKAPGLTQALNTKDGAVMVMSYGNSEEDSQEHTGSQLRIAAYGPHAANVVGLTDQTDLFYTMKAALGLK" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"ALPHA-AMYL-CYTO-MONOMER" null ["YedC", "AmyA"] "MRNPTLLQCFHWYYPEGGKLWPELAERADGFNDIGINMVWLPPAYKGASGGYSVGYDSYDLFDLGEFDQKGSIPTKYGDKAQLLAAIDALKRNDIAVLLDVVVNHKMGADEKEAIRVQRVNADDRTQIDEEIIECEGWTRYTFPARAGQYSQFIWDFKCFSGIDHIENPDEDGIFKIVNDYTGEGWNDQVDDELGNFDYLMGENIDFRNHAVTEEIKYWARWVMEQTQCDGFRLDAVKHIPAWFYKEWIEHVQEVAPKPLFIVAEYWSHEVDKLQTYIDQVEGKTMLFDAPLQMKFHEASRMGRDYDMTQIFTGTLVEADPFHAVTLVANHDTQPLQALEAPVEPWFKPLAYALILLRENGVPSVFYPDLYGAHYEDVGGDGQTYPIDMPIIEQLDELILARQRFAHGVQTLFFDHPNCIAFSRSGTDEFPGCVVVMSNGDDGEKTIHLGENYGNKTWRDFLGNRQERVVTDENGEATFFCNGGSVSVWVIEEVI" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"ALPHA-AMYL-PERI-MONOMER" null ["MalS"] "MKLAACFLTLLPGFAVAASWTSPGFPAFSEQGTGTFVSHAQLPKGTRPLTLNFDQQCWQPADAIKLNQMLSLQPCSNTPPQWRLFRDGEYTLQIDTRSGTPTLMISIQNAAEPVASLVRECPKWDGLPLTVDVSATFPEGAAVRDYYSQQIAIVKNGQIMLQPAATSNGLLLLERAETDTSAPFDWHNATVYFVLTDRFENGDPSNDQSYGRHKDGMAEIGTFHGGDLRGLTNKLDYLQQLGVNALWISAPFEQIHGWVGGGTKGDFPHYAYHGYYTQDWTNLDANMGNEADLRTLVDSAHQRGIRILFDVVMNHTGYATLADMQEYQFGALYLSGDEVKKSLGERWSDWKPAAGQTWHSFNDYINFSDKTGWDKWWGKNWIRTDIGDYDNPGFDDLTMSLAFLPDIKTESTTASGLPVFYKNKMDTHAKAIDGYTPRDYLTHWLSQWVRDYGIDGFRVDTAKHVELPAWQQLKTEASAALREWKKANPDKALDDKPFWMTGEAWGHGVMQSDYYRHGFDAMINFDYQEQAAKAVDCLAQMDTTWQQMAEKLQGFNVLSYLSSHDTRLFREGGDKAAELLLLAPGAVQIFYGDESSRPFGPTGSDPLQGTRSDMNWQDVSGKSAASVAHWQKISQFRARHPAIGAGKQTTLLLKQGYGFVREHGDDKVLVVWAGQQ" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"ALPHACOMP-MONOMER" "sulfite reductase, flavoprotein subunit" ["CysJ", "SiR-FP", "α subunit"] "MTTQVPPSALLPLNPEQLARLQAATTDLTPTQLAWVSGYFWGVLNQQPAALAATPAPAAEMPGITIISASQTGNARRVAEALRDDLLAAKLNVKLVNAGDYKFKQIASEKLLIVVTSTQGEGEPPEEAVALHKFLFSKKAPKLENTAFAVFSLGDSSYEFFCQSGKDFDSKLAELGGERLLDRVDADVEYQAAASEWRARVVDALKSRAPVAAPSQSVATGAVNEIHTSPYSKDAPLVASLSVNQKITGRNSEKDVRHIEIDLGDSGMRYQPGDALGVWYQNDPALVKELVELLWLKGDEPVTVEGKTLPLNEALQWHFELTVNTANIVENYATLTRSETLLPLVGDKAKLQHYAATTPIVDMVRFSPAQLDAEALINLLRPLTPRLYSIASSQAEVENEVHVTVGVVRYDVEGRARAGGASSFLADRVEEEGEVRVFIEHNDNFRLPANPETPVIMIGPGTGIAPFRAFMQQRAADEAPGKNWLFFGNPHFTEDFLYQVEWQRYVKDGVLTRIDLAWSRDQKEKVYVQDKLREQGAELWRWINDGAHIYVCGDANRMAKDVEQALLEVIAEFGGMDTEAADEFLSELRVERRYQRDVY" [] ["CCO-CYTOSOL"] +"ALPHAGALACTOSID-MONOMER" "α-galactosidase" ["MelA"] "MMSAPKITFIGAGSTIFVKNILGDVFHREALKTAHIALMDIDPTRLEESHIVVRKLMDSAGASGKITCHTQQKEALEDADFVVVAFQIGGYEPCTVTDFEVCKRHGLEQTIADTLGPGGIMRALRTIPHLWQICEDMTEVCPDATMLNYVNPMAMNTWAMYARYPHIKQVGLCHSVQGTAEELARDLNIDPATLRYRCAGINHMAFYLELERKTADGSYVNLYPELLAAYEAGQAPKPNIHGNTRCQNIVRYEMFKKLGYFVTESSEHFAEYTPWFIKPGREDLIERYKVPLDEYPKRCVEQLANWHKELEEYKKASRIDIKPSREYASTIMNAIWTGEPSVIYGNVRNDGLIDNLPQGCCVEVACLVDANGIQPTKVGTLPSHLAALMQTNINVQTLLTEAILTENRDRVYHAAMMDPHTAAVLGIDEIYALVDDLIAAHGDWLPGWLHR" ["CCO-CYTOSOL"] [] +"ALTRO-OXIDOREDUCT-MONOMER" null ["UxaB"] "MKTLNRRDFPGAQYPERIIQFGEGNFLRAFVDWQIDLLNEHTDLNSGVVVVRPIETSFPPSLSTQDGLYTTIIRGLNEKGEAVSDARLIRSVNREISVYSEYDEFLKLAHNPEMRFVFSNTTEAGISYHAGDKFDDAPAVSYPAKLTRLLFERFSHFNGALDKGWIIIPCELIDYNGDALRELVLRYAQEWALPEAFIQWLDQANSFCSTLVDRIVTGYPRDEVAKLEEELGYHDGFLDTAEHFYLFVIQGPKSLATELRLDKYPLNVLIVDDIKPYKERKVAILNGAHTALVPVAFQAGLDTVGEAMNDAEICAFVEKAIYEEIIPVLDLPRDELESFASAVTGRFRNPYIKHQLLSIALNGMTKFRTRILPQLLAGQKANGTLPARLTFALAALIAFYRGERNGETYPVQDDAHWLERYQQLWSQHRDRVIGTQELVAIVLAEKDHWEQDLTQVPGLVEQVANDLDAILEKGMREAVRPLC" [] ["CCO-CYTOSOL"] +"ALTRODEHYDRAT-MONOMER" null ["YgjW", "UxaA"] "MQYIKIHALDNVAVALADLAEGTEVSVDNQTVTLRQDVARGHKFALTDIAKGANVIKYGLPIGYALADIAAGVHVHAHNTRTNLSDLDQYRYQPDFQDLPAQAADREVQIYRRANGDVGVRNELWILPTVGCVNGIARQIQNRFLKETNNAEGTDGVFLFSHTYGCSQLGDDHINTRTMLQNMVRHPNAGAVLVIGLGCENNQVAAFRETLGDIDPERVHFMICQQQDDEIEAGIEHLHQLYNVMRNDKREPGKLSELKFGLECGGSDGLSGITANPMLGRFSDYVIANGGTTVLTEVPEMFGAEQLLMDHCRDEATFEKLVTMVNDFKQYFIAHDQPIYENPSPGNKAGGITTLEDKSLGCTQKAGSSVVVDVLRYGERLKTPGLNLLSAPGNDAVATSALAGAGCHMVLFSTGRGTPYGGFVPTVKIATNSELAAKKKHWIDFDAGQLIHGKAMPQLLEEFIDTIVEFANGKQTCNERNDFRELAIFKSGVTL" [] ["CCO-CYTOSOL"] +"AMINEOXID-MONOMER" "copper-containing amine oxidase" ["MaoA", "FeaA", "TynA"] "MGSPSLYSARKTTLALAVALSFAWQAPVFAHGGEAHMVPMDKTLKEFGADVQWDDYAQLFTLIKDGAYVKVKPGAQTAIVNGQPLALQVPVVMKDNKAWVSDTFINDVFQSGLDQTFQVEKRPHPLNALTADEIKQAVEIVKASADFKPNTRFTEISLLPPDKEAVWAFALENKPVDQPRKADVIMLDGKHIIEAVVDLQNNKLLSWQPIKDAHGMVLLDDFASVQNIINNSEEFAAAVKKRGITDAKKVITTPLTVGYFDGKDGLKQDARLLKVISYLDVGDGNYWAHPIENLVAVVDLEQKKIVKIEEGPVVPVPMTARPFDGRDRVAPAVKPMQIIEPEGKNYTITGDMIHWRNWDFHLSMNSRVGPMISTVTYNDNGTKRKVMYEGSLGGMIVPYGDPDIGWYFKAYLDSGDYGMGTLTSPIARGKDAPSNAVLLNETIADYTGVPMEIPRAIAVFERYAGPEYKHQEMGQPNVSTERRELVVRWISTVGNYDYIFDWIFHENGTIGIDAGATGIEAVKGVKAKTMHDETAKDDTRYGTLIDHNIVGTTHQHIYNFRLDLDVDGENNSLVAMDPVVKPNTAGGPRTSTMQVNQYNIGNEQDAAQKFDPGTIRLLSNPNKENRMGNPVSYQIIPYAGGTHPVAKGAQFAPDEWIYHRLSFMDKQLWVTRYHPGERFPEGKYPNRSTHDTGLGQYSKDNESLDNTDAVVWMTTGTTHVARAEEWPIMPTEWVHTLLKPWNFFDETPTLGALKKDK" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"AMP-NUCLEOSID-MONOMER" "AMP nucleosidase" ["Amn"] "MNNKGSGLTPAQALDKLDALYEQSVVALRNAIGNYITSGELPDENARKQGLFVYPSLTVTWDGSTTNPPKTRAFGRFTHAGSYTTTITRPTLFRSYLNEQLTLLYQDYGAHISVQPSQHEIPYPYVIDGSELTLDRSMSAGLTRYFPTTELAQIGDETADGIYHPTEFSPLSHFDARRVDFSLARLRHYTGTPVEHFQPFVLFTNYTRYVDEFVRWGCSQILDPDSPYIALSCAGGNWITAETEAPEEAISDLAWKKHQMPAWHLITADGQGITLVNIGVGPSNAKTICDHLAVLRPDVWLMIGHCGGLRESQAIGDYVLAHAYLRDDHVLDAVLPPDIPIPSIAEVQRALYDATKLVSGRPGEEVKQRLRTGTVVTTDDRNWELRYSASALRFNLSRAVAIDMESATIAAQGYRFRVPYGTLLCVSDKPLHGEIKLPGQANRFYEGAISEHLQIGIRAIDLLRAEGDRLHSRKLRTFNEPPFR" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"AMPG-MONOMER" "muropeptide:H+ symporter" ["AmpG"] "MSSQYLRIFQQPRSAILLILGFASGLPLALTSGTLQAWMTVENIDLKTIGFFSLVGQAYVFKFLWSPLMDRYTPPFFGRRRGWLLATQILLLVAIAAMGFLEPGTQLRWMAALAVVIAFCSASQDIVFDAWKTDVLPAEERGAGAAISVLGYRLGMLVSGGLALWLADKWLGWQGMYWLMAALLIPCIIATLLAPEPTDTIPVPKTLEQAVVAPLRDFFGRNNAWLILLLIVLYKLGDAFAMSLTTTFLIRGVGFDAGEVGVVNKTLGLLATIVGALYGGILMQRLSLFRALLIFGILQGASNAGYWLLSITDKHLYSMGAAVFFENLCGGMGTSAFVALLMTLCNKSFSATQFALLSALSAVGRVYVGPVAGWFVEAHGWSTFYLFSVAAAVPGLILLLVCRQTLEYTRVNDNFISRTAYPAGYAFAMWTLAAGVSLLAVWLLLLTMDALDLTHFSFLPALLEVGVLVALSGVVLGGLLDYLALRKTHLT" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"AMTB-MONOMER" "ammonium transporter" ["YbaG", "AmtB ammonium Amt transporter", "AmtB"] "MKIATIKTGLASLAMLPGLVMAAPAVADKADNAFMMICTALVLFMTIPGIALFYGGLIRGKNVLSMLTQVTVTFALVCILWVVYGYSLAFGEGNNFFGNINWLMLKNIELTAVMGSIYQYIHVAFQGSFACITVGLIVGALAERIRFSAVLIFVVVWLTLSYIPIAHMVWGGGLLASHGALDFAGGTVVHINAAIAGLVGAYLIGKRVGFGKEAFKPHNLPMVFTGTAILYIGWFGFNAGSAGTANEIAALAFVNTVVATAAAILGWIFGEWALRGKPSLLGACSGAIAGLVGVTPACGYIGVGGALIIGVVAGLAGLWGVTMLKRLLRVDDPCDVFGVHGVCGIVGCIMTGIFAASSLGGVGFAEGVTMGHQLLVQLESIAITIVWSGVVAFIGYKLADLTVGLRVPEEQEREGLDVNSHGENAYNA" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"AMYLOMALT-MONOMER" "4-α-glucanotransferase" ["MalA", "MalQ", "amylomaltase"] "MESKRLDNAALAAGISPNYINAHGKPQSISAETKRRLLDAMHQRTATKVAVTPVPNVMVYTSGKKMPMVVEGSGEYSWLLTTEEGTQYKGHVTGGKAFNLPTKLPEGYHTLTLTQDDQRAHCRVIVAPKRCYEPQALLNKQKLWGACVQLYTLRSEKNWGIGDFGDLKAMLVDVAKRGGSFIGLNPIHALYPANPESASPYSPSSRRWLNVIYIDVNAVEDFHLSEEAQAWWQLPTTQQTLQQARDADWVDYSTVTALKMTALRMAWKGFAQRDDEQMAAFRQFVAEQGDSLFWQAAFDALHAQQVKEDEMRWGWPAWPEMYQNVDSPEVRQFCEEHRDDVDFYLWLQWLAYSQFAACWEISQGYEMPIGLYRDLAVGVAEGGAETWCDRELYCLKASVGAPPDILGPLGQNWGLPPMDPHIITARAYEPFIELLRANMQNCGALRIDHVMSMLRLWWIPYGETADQGAYVHYPVDDLLSILALESKRHRCMVIGEDLGTVPVEIVGKLRSSGVYSYKVLYFENDHEKTFRAPKAYPEQSMAVAATHDLPTLRGYWECGDLTLGKTLGLYPDEVVLRGLYQDRELAKQGLLDALHKYGCLPKRAGHKASLMSMTPTLNRGLQRYIADSNSALLGLQPEDWLDMAEPVNIPGTSYQYKNWRRKLSATLESMFADDGVNKLLKDLDRRRRAAAKKK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"ANGLYC3PDEHYDROGSUBUNITA-MONOMER" "anaerobic glycerol-3-phosphate dehydrogenase subunit A" ["GlpA"] "MKTRDSQSSDVIIIGGGATGAGIARDCALRGLRVILVERHDIATGATGRNHGLLHSGARYAVTDAESARECISENQILKRIARHCVEPTNGLFITLPEDDLSFQATFIRACEEAGISAEAIDPQQARIIEPAVNPALIGAVKVPDGTVDPFRLTAANMLDAKEHGAVILTAHEVTGLIREGATVCGVRVRNHLTGETQALHAPVVVNAAGIWGQHIAEYADLRIRMFPAKGSLLIMDHRINQHVINRCRKPSDADILVPGDTISLIGTTSLRIDYNEIDDNRVTAEEVDILLREGEKLAPVMAKTRILRAYSGVRPLVASDDDPSGRNVSRGIVLLDHAERDGLDGFITITGGKLMTYRLMAEWATDAVCRKLGNTRPCTTADLALPGSQEPAEVTLRKVISLPAPLRGSAVYRHGDRTPAWLSEGRLHRSLVCECEAVTAGEVQYAVENLNVNSLLDLRRRTRVGMGTCQGELCACRAAGLLQRFNVTTSAQSIEQLSTFLNERWKGVQPIAWGDALRESEFTRWVYQGLCGLEKEQKDAL" ["CCO-CYTOSOL"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"ANGLYC3PDEHYDROGSUBUNITB-MONOMER" "anaerobic glycerol-3-phosphate dehydrogenase subunit B" ["GlpB"] "MRFDTVIMGGGLAGLLCGLQLQKHGLRCAIVTRGQSALHFSSGSLDLLSHLPDGQPVTDIHSGLESLRQQAPAHPYSLLEPQRVLDLACQAQALIAESGAQLQGSVELAHQRVTPLGTLRSTWLSSPEVPVWPLPAKKICVVGISGLMDFQAHLAAASLRELGLAVETAEIELPELDVLRNNATEFRAVNIARFLDNEENWPLLLDALIPVANTCEMILMPACFGLADDKLWRWLNEKLPCSLMLLPTLPPSVLGIRLQNQLQRQFVRQGGVWMPGDEVKKVTCKNGVVNEIWTRNHADIPLRPRFAVLASGSFFSGGLVAERNGIREPILGLDVLQTATRGEWYKGDFFAPQPWQQFGVTTDETLRPSQAGQTIENLFAIGSVLGGFDPIAQGCGGGVCAVSALHAAQQIAQRAGGQQ" ["CCO-CYTOSOL"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE", "CCO-CYTOSOL"] +"ANGLYC3PDEHYDROGSUBUNITC-MONOMER" "anaerobic glycerol-3-phosphate dehydrogenase subunit C" ["GlpC"] "MNDTSFENCIKCTVCTTACPVSRVNPGYPGPKQAGPDGERLRLKDGALYDEALKYCINCKRCEVACPSDVKIGDIIQRARAKYDTTRPSLRNFVLSHTDLMGSVSTPFAPIVNTATSLKPVRQLLDAALKIDHRRTLPKYSFGTFRRWYRSVAAQQAQYKDQVAFFHGCFVNYNHPQLGKDLIKVLNAMGTGVQLLSKEKCCGVPLIANGFTDKARKQAITNVESIREAVGVKGIPVIATSSTCTFALRDEYPEVLNVDNKGLRDHIELATRWLWRKLDEGKTLPLKPLPLKVVYHTPCHMEKMGWTLYTLELLRNIPGLELTVLDSQCCGIAGTYGFKKENYPTSQAIGAPLFRQIEESGADLVVTDCETCKWQIEMSTSLRCEHPITLLAQALA" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"ANSA-MONOMER" "L-asparaginase 1" ["AnsA", "asparaginase I"] "MQKKSIYVAYTGGTIGMQRSEQGYIPVSGHLQRQLALMPEFHRPEMPDFTIHEYTPLMDSSDMTPEDWQHIAEDIKAHYDDYDGFVILHGTDTMAYTASALSFMLENLGKPVIVTGSQIPLAELRSDGQINLLNALYVAANYPINEVTLFFNNRLYRGNRTTKAHADGFDAFASPNLPPLLEAGIHIRRLNTPPAPHGEGELIVHPITPQPIGVVTIYPGISADVVRNFLRQPVKALILRSYGVGNAPQNKAFLQELQEASDRGIVVVNLTQCMSGKVNMGGYATGNALAHAGVIGGADMTVEATLTKLHYLLSQELDTETIRKAMSQNLRGELTPDD" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"ANSB-MONOMER" "L-asparaginase 2" ["AnsB", "asparaginase II"] "MEFFKKTALAALVMGFSGAALALPNITILATGGTIAGGGDSATKSNYTVGKVGVENLVNAVPQLKDIANVKGEQVVNIGSQDMNDNVWLTLAKKINTDCDKTDGFVITHGTDTMEETAYFLDLTVKCDKPVVMVGAMRPSTSMSADGPFNLYNAVVTAADKASANRGVLVVMNDTVLDGRDVTKTNTTDVATFKSVNYGPLGYIHNGKIDYQRTPARKHTSDTPFDVSKLNELPKVGIVYNYANASDLPAKALVDAGYDGIVSAGVGNGNLYKSVFDTLATAAKTGTAVVRSSRVPTGATTQDAEVDDAKYGFVASGTLNPQKARVLLQLALTQTKDPQQIQQIFNQY" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"ANSP-MONOMER" null ["YncF", "AnsP", "L-asparagine permease"] "MSKHDTDTSDQHAAKRRWLNAHEEGYHKAMGNRQVQMIAIGGAIGTGLFLGAGARLQMAGPALALVYLICGLFSFFILRALGELVLHRPSSGSFVSYAREFLGEKAAYVAGWMYFINWAMTGIVDITAVALYMHYWGAFGGVPQWVFALAALTIVGTMNMIGVKWFAEMEFWFALIKVLAIVTFLVVGTVFLGSGQPLDGNTTGFHLITDNGGFFPHGLLPALVLIQGVVFAFASIEMVGTAAGECKDPQTMVPKAINSVIWRIGLFYVGSVVLLVMLLPWSAYQAGQSPFVTFFSKLGVPYIGSIMNIVVLTAALSSLNSGLYCTGRILRSMAMGGSAPSFMAKMSRQHVPYAGILATLVVYVVGVFLNYLVPSRVFEIVLNFASLGIIASWAFIIVCQMRLRKAIKEGKAADVSFKLPGAPFTSWLTLLFLLSVLVLMAFDYPNGTYTIAALPIIGILLVIGWFGVRKRVAEIHSTAPVVEEDEEKQEIVFKPETAS" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"ANTHRANSYNCOMPI-MONOMER" "anthranilate synthase subunit TrpE" ["TryD", "TrpE", "α subunit", "anthranilate synthase component I"] "MQTQKPTLELLTCEGAYRDNPTALFHQLCGDRPATLLLESADIDSKDDLKSLLLVDSALRITALGDTVTIQALSGNGEALLALLDNALPAGVESEQSPNCRVLRFPPVSPLLDEDARLCSLSVFDAFRLLQNLLNVPKEEREAMFFGGLFSYDLVAGFEDLPQLSAENNCPDFCFYLAETLMVIDHQKKSTRIQASLFAPNEEEKQRLTARLNELRQQLTEAAPPLPVVSVPHMRCECNQSDEEFGGVVRLLQKAIRAGEIFQVVPSRRFSLPCPSPLAAYYVLKKSNPSPYMFFMQDNDFTLFGASPESSLKYDATSRQIEIYPIAGTRPRGRRADGSLDRDLDSRIELEMRTDHKELSEHLMLVDLARNDLARICTPGSRYVADLTKVDRYSYVMHLVSRVVGELRHDLDALHAYRACMNMGTLSGAPKVRAMQLIAEAEGRRRGSYGGAVGYFTAHGDLDTCIVIRSALVENGIATVQAGAGVVLDSVPQSEADETRNKARAVLRAIATAHHAQETF" [] ["CCO-CYTOSOL"] +"ANTHRANSYNCOMPII-MONOMER" "anthranilate synthase subunit TrpD" ["TrpD", "TrpGD", "anthranilate synthase component II"] "MADILLLDNIDSFTYNLADQLRSNGHNVVIYRNHIPAQTLIERLATMSNPVLMLSPGPGVPSEAGCMPELLTRLRGKLPIIGICLGHQAIVEAYGGYVGQAGEILHGKASSIEHDGQAMFAGLTNPLPVARYHSLVGSNIPAGLTINAHFNGMVMAVRHDADRVCGFQFHPESILTTQGARLLEQTLAWAQQKLEPANTLQPILEKLYQAQTLSQQESHQLFSAVVRGELKPEQLAAALVSMKIRGEHPNEIAGAATALLENAAPFPRPDYLFADIVGTGGDGSNSINISTASAFVAAACGLKVAKHGNRSVSSKSGSSDLLAAFGINLDMNADKSRQALDELGVCFLFAPKYHTGFRHAMPVRQQLKTRTLFNVLGPLINPAHPPLALIGVYSPELVLPIAETLRVLGYQRAAVVHSGGMDEVSLHAPTIVAELHDGEIKSYQLTAEDFGLTPYHQEQLAGGTPEENRDILTRLLQGKGDAAHEAAVAANVAMLMRLHGHEDLQANAQTVLEVLRSGSAYDRVTALAARG" [] ["CCO-CYTOSOL"] +"APHA-MONOMER" "acid phosphatase / phosphotransferase" ["HobH", "YjbP", "AphA"] "MRKITQAISAVCLLFALNSSAVALASSPSPLNPGTNVARLAEQAPIHWVSVAQIENSLAGRPPMAVGFDIDDTVLFSSPGFWRGKKTFSPESEDYLKNPVFWEKMNNGWDEFSIPKEVARQLIDMHVRRGDAIFFVTGRSPTKTETVSKTLADNFHIPATNMNPVIFAGDKPGQNTKSQWLQDKNIRIFYGDSDNDITAARDVGARGIRILRASNSTYKPLPQAGAFGEEVIVNSEY" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"APPA-MONOMER" "periplasmic phosphoanhydride phosphatase/multiple inositol-polyphosphate phosphatase" ["AppA"] "MKAILIPFLSLLIPLTPQSAFAQSEPELKLESVVIVSRHGVRAPTKATQLMQDVTPDAWPTWPVKLGWLTPRGGELIAYLGHYQRQRLVADGLLAKKGCPQSGQVAIIADVDERTRKTGEAFAAGLAPDCAITVHTQADTSSPDPLFNPLKTGVCQLDNANVTDAILSRAGGSIADFTGHRQTAFRELERVLNFPQSNLCLKREKQDESCSLTQALPSELKVSADNVSLTGAVSLASMLTEIFLLQQAQGMPEPGWGRITDSHQWNTLLSLHNAQFYLLQRTPEVARSRATPLLDLIKTALTPHPPQKQAYGVTLPTSVLFIAGHDTNLANLGGALELNWTLPGQPDNTPPGGELVFERWRRLSDNSQWIQVSLVFQTLQQMRDKTPLSLNTPPGEVKLTLAGCEERNAQGMCSLAGFTQIVNEARIPACSL" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"APPB-MONOMER" "cytochrome bd-II ubiquinol oxidase subunit II" ["CyxB", "AppB", "CbdB"] "MFDYETLRFIWWLLIGVILVVFMISDGFDMGIGCLLPLVARNDDERRIVINSVGAHWEGNQVWLILAGGALFAAWPRVYAAAFSGFYVAMILVLCSLFFRPLAFDYRGKIADARWRKMWDAGLVIGSLVPPVVFGIAFGNLLLGVPFAFTPQLRVEYLGSFWQLLTPFPLLCGLLSLGMVILQGGVWLQLKTVGVIHLRSQLATKRAALLVMLCFLLAGYWLWVGIDGFVLLAQDANGPSNPLMKLVAVLPGAWMNNFVESPVLWIFPLLGFFCPLLTVMAIYRGRPGWGFLMASLMQFGVIFTAGITLFPFVMPSSVSPISSLTLWDSTSSQLTLSIMLVIVLIFLPIVLLYTLWSYYKMWGRMTTETLRRNENELY" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"APPC-MONOMER" "cytochrome bd-II ubiquinol oxidase subunit I" ["CyxA", "CbdA", "AppC"] "MWDVIDLSRWQFALTALYHFLFVPLTLGLIFLLAIMETIYVVTGKTIYRDMTRFWGKLFGINFALGVATGLTMEFQFGTNWSFYSNYVGDIFGAPLAMEALMAFFLESTFVGLFFFGWQRLNKYQHLLVTWLVAFGSNLSALWILNANGWMQYPTGAHFDIDTLRMEMTSFSELVFNPVSQVKFVHTVMAGYVTGAMFIMAISAWYLLRGRERNVALRSFAIGSVFGTLAIIGTLQLGDSSAYEVAQVQPVKLAAMEGEWQTEPAPAPFHVVAWPEQDQERNAFALKIPALLGILATHSLDKPVPGLKNLMAETYPRLQRGRMAWLLMQEISQGNREPHVLQAFRGLEGDLGYGMLLSRYAPDMNHVTAAQYQAAMRGAIPQVAPVFWSFRIMVGCGSLLLLVMLIALVQTLRGKIDQHRWVLKMALWSLPLPWIAIEAGWFMTEFGRQPWAIQDILPTYSAHSALTTGQLAFSLIMIVGLYTLFLIAEVYLMQKYARLGPSAMQSEQPTQQQG" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"AQPZ-MONOMER" "water channel AqpZ" ["BniP", "AqpZ"] "MFRKLAAECFGTFWLVFGGCGSAVLAAGFPELGIGFAGVALAFGLTVLTMAFAVGHISGGHFNPAVTIGLWAGGRFPAKEVVGYVIAQVVGGIVAAALLYLIASGKTGFDAAASGFASNGYGEHSPGGYSMLSALVVELVLSAGFLLVIHGATDKFAPAGFAPIAIGLALTLIHLISIPVTNTSVNPARSTAVAIFQGGWALEQLWFFWVVPIVGGIIGGLIYRTLLEKRD" ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"ARABISOM-MONOMER" "L-arabinose isomerase" ["AraA"] "MTIFDNYEVWFVIGSQHLYGPETLRQVTQHAEHVVNALNTEAKLPCKLVLKPLGTTPDEITAICRDANYDDRCAGLVVWLHTFSPAKMWINGLTMLNKPLLQFHTQFNAALPWDSIDMDFMNLNQTAHGGREFGFIGARMRQQHAVVTGHWQDKQAHERIGSWMRQAVSKQDTRHLKVCRFGDNMREVAVTDGDKVAAQIKFGFSVNTWAVGDLVQVVNSISDGDVNALVDEYESCYTMTPATQIHGKKRQNVLEAARIELGMKRFLEQGGFHAFTTTFEDLHGLKQLPGLAVQRLMQQGYGFAGEGDWKTAALLRIMKVMSTGLQGGTSFMEDYTYHFEKGNDLVLGSHMLEVCPSIAAEEKPILDVQHLGIGGKDDPARLIFNTQTGPAIVASLIDLGDRYRLLVNCIDTVKTPHSLPKLPVANALWKAQPDLPTASEAWILAGGAHHTVFSHALNLNDMRQFAEMHDIEITVIDNDTRLPAFKDALRWNEVYYGFRR" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"ARAE-MONOMER" "arabinose:H+ symporter" ["AraE", "arabinose MFS transporter"] "MVTINTESALTPRSLRDTRRMNMFVSVAAAVAGLLFGLDIGVIAGALPFITDHFVLTSRLQEWVVSSMMLGAAIGALFNGWLSFRLGRKYSLMAGAILFVLGSIGSAFATSVEMLIAARVVLGIAVGIASYTAPLYLSEMASENVRGKMISMYQLMVTLGIVLAFLSDTAFSYSGNWRAMLGVLALPAVLLIILVVFLPNSPRWLAEKGRHIEAEEVLRMLRDTSEKAREELNEIRESLKLKQGGWALFKINRNVRRAVFLGMLLQAMQQFTGMNIIMYYAPRIFKMAGFTTTEQQMIATLVVGLTFMFATFIAVFTVDKAGRKPALKIGFSVMALGTLVLGYCLMQFDNGTASSGLSWLSVGMTMMCIAGYAMSAAPVVWILCSEIQPLKCRDFGITCSTTTNWVSNMIIGATFLTLLDSIGAAGTFWLYTALNIAFVGITFWLIPETKNVTLEHIERKLMAGEKLRNIGV" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"ARAF-MONOMER" "arabinose ABC transporter periplasmic binding protein" [] "MHKFTKALAAIGLAAVMSQSAMAENLKLGFLVKQPEEPWFQTEWKFADKAGKDLGFEVIKIAVPDGEKTLNAIDSLAASGAKGFVICTPDPKLGSAIVAKARGYDMKVIAVDDQFVNAKGKPMDTVPLVMMAATKIGERQGQELYKEMQKRGWDVKESAVMAITANELDTARRRTTGSMDALKAAGFPEKQIYQVPTKSNDIPGAFDAANSMLVQHPEVKHWLIVGMNDSTVLGGVRATEGQGFKAADIIGIGINGVDAVSELSKAQATGFYGSLLPSPDVHGYKSSEMLYNWVAKDVEPPKFTEVTDVVLITRDNFKEELEKKGLGGK" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"ARAG-MONOMER" "arabinose ABC transporter ATP binding subunit" [] "MQQSTPYLSFRGIGKTFPGVKALTDISFDCYAGQVHALMGENGAGKSTLLKILSGNYAPTTGSVVINGQEMSFSDTTAALNAGVAIIYQELHLVPEMTVAENIYLGQLPHKGGIVNRSLLNYEAGLQLKHLGMDIDPDTPLKYLSIGQWQMVEIAKALARNAKIIAFDEPTSSLSAREIDNLFRVIRELRKEGRVILYVSHRMEEIFALSDAITVFKDGRYVKTFTDMQQVDHDALVQAMVGRDIGDIYGWQPRSYGEERLRLDAVKAPGVRTPISLAVRSGEIVGLFGLVGAGRSELMKGMFGGTQITAGQVYIDQQPIDIRKPSHAIAAGMMLCPEDRKAEGIIPVHSVRDNINISARRKHVLGGCVINNGWEENNADHHIRSLNIKTPGAEQLIMNLSGGNQQKAILGRWLSEEMKVILLDEPTRGIDVGAKHEIYNVIYALAAQGVAVLFASSDLPEVLGVADRIVVMREGEIAGELLHEQADERQALSLAMPKVSQAVA" ["CCO-CYTOSOL", "CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"ARAH-MONOMER" "arabinose ABC transporter membrane subunit" ["AraH"] "MSSVSTSGSGAPKSSFSFGRIWDQYGMLVVFAVLFIACAIFVPNFATFINMKGLGLAISMSGMVACGMLFCLASGDFDLSVASVIACAGVTTAVVINLTESLWIGVAAGLLLGVLCGLVNGFVIAKLKINALITTLATMQIVRGLAYIISDGKAVGIEDESFFALGYANWFGLPAPIWLTVACLIIFGLLLNKTTFGRNTLAIGGNEEAARLAGVPVVRTKIIIFVLSGLVSAIAGIILASRMTSGQPMTSIGYELIVISACVLGGVSLKGGIGKISYVVAGILILGTVENAMNLLNISPFAQYVVRGLILLAAVIFDRYKQKAKRTV" ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"ARAJ-MONOMER" "putative transport protein AraJ" ["AraT", "AraJ", "AraJ MFS transporter"] "MKKVILSLALGTFGLGMAEFGIMGVLTELAHNVGISIPAAGHMISYYALGVVVGAPIIALFSSRYSLKHILLFLVALCVIGNAMFTLSSSYLMLAIGRLVSGFPHGAFFGVGAIVLSKIIKPGKVTAAVAGMVSGMTVANLLGIPLGTYLSQEFSWRYTFLLIAVFNIAVMASVYFWVPDIRDEAKGNLREQFHFLRSPAPWLIFAATMFGNAGVFAWFSYVKPYMMFISGFSETAMTFIMMLVGLGMVLGNMLSGRISGRYSPLRIAAVTDFIIVLALLMLFFCGGMKTTSLIFAFICCAGLFALSAPLQILLLQNAKGGELLGAAGGQIAFNLGSAVGAYCGGMMLTLGLAYNYVALPAALLSFAAMSSLLLYGRYKRQQAADTPVLAKPLG" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"ARCA-MONOMER" "DNA-binding transcriptional dual regulator ArcA" ["CpxC", "Dye", "FexA", "Msp", "Seg", "SfrA", "ArcA", "dye resistance protein", "ArcA response regulator"] "MQTPHILIVEDELVTRNTLKSIFEAEGYDVFEATDGAEMHQILSEYDINLVIMDINLPGKNGLLLARELREQANVALMFLTGRDNEVDKILGLEIGADDYITKPFNPRELTIRARNLLSRTMNLGTVSEERRSVESYKFNGWELDINSRSLIGPDGEQYKLPRSEFRAMLHFCENPGKIQSRAELLKKMTGRELKPHDRTVDVTIRRIRKHFESTPDTPEIIATIHGEGYRFCGDLED" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"ARCB-MONOMER" "sensor histidine kinase ArcB" ["ArcB"] "MKQIRLLAQYYVDLMMKLGLVRFSMLLALALVVLAIVVQMAVTMVLHGQVESIDVIRSIFFGLLITPWAVYFLSVVVEQLEESRQRLSRLVQKLEEMRERDLSLNVQLKDNIAQLNQEIAVREKAEAELQETFGQLKIEIKEREETQIQLEQQSSFLRSFLDASPDLVFYRNEDKEFSGCNRAMELLTGKSEKQLVHLKPADVYSPEAAAKVIETDEKVFRHNVSLTYEQWLDYPDGRKACFEIRKVPYYDRVGKRHGLMGFGRDITERKRYQDALERASRDKTTFISTISHELRTPLNGIVGLSRILLDTELTAEQEKYLKTIHVSAVTLGNIFNDIIDMDKMERRKVQLDNQPVDFTSFLADLENLSALQAQQKGLRFNLEPTLPLPHQVITDGTRLRQILWNLISNAVKFTQQGQVTVRVRYDEGDMLHFEVEDSGIGIPQDELDKIFAMYYQVKDSHGGKPATGTGIGLAVSRRLAKNMGGDITVTSEQGKGSTFTLTIHAPSVAEEVDDAFDEDDMPLPALNVLLVEDIELNVIVARSVLEKLGNSVDVAMTGKAALEMFKPGEYDLVLLDIQLPDMTGLDISRELTKRYPREDLPPLVALTANVLKDKQEYLNAGMDDVLSKPLSVPALTAMIKKFWDTQDDEESTVTTEENSKSEALLDIPMLEQYLELVGPKLITDGLAVFEKMMPGYVSVLESNLTAQDKKGIVEEGHKIKGAAGSVGLRHLQQLGQQIQSPDLPAWEDNVGEWIEEMKEEWRHDVEVLKAWVAKATKK" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"ARCD-MONOMER" "putative arginine:ornithine antiporter" ["YdgI", "ArcD"] "MEKKLGLSALTALVLSSMLGAGVFSLPQNMAAVASPAALLIGWGITGAGILLLAFAMLILTRIRPELDGGIFTYAREGFGELIGFCSAWGYWLCAVIANVSYLVIVFSALSFFTDTPELRLFGDGNTWQSIVGASALLWIVHFLILRGVQTAASINLVATLAKLLPLGLFVVLAMMMFKLDTFKLDFTGLALGVPVWEQVKNTMLITLWVFIGVEGAVVVSARARNKRDVGKATLLAVLSALGVYLLVTLLSLGVVARPELAEIRNPSMAGLMVEMMGPWGEIIIAAGLIVSVCGAYLSWTIMAAEVPFLAATHKAFPRIFARQNAQAAPSASLWLTNICVQICLVLIWLTGSDYNTLLTIASEMILVPYFLVGAFLLKIATRPLHKAVGVGACIYGLWLLYASGPMHLLLSVVLYAPGLLVFLYARKTHTHDNVLNRQEMVLIGMLLIASVPATWMLVG" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"ARGDECARBOXBIO-MONOMER" "arginine decarboxylase, biosynthetic" ["SpeA"] "MSDDMSMGLPSSAGEHGVLRSMQEVAMSSQEASKMLRTYNIAWWGNNYYDVNELGHISVCPDPDVPEARVDLAQLVKTREAQGQRLPALFCFPQILQHRLRSINAAFKRARESYGYNGDYFLVYPIKVNQHRRVIESLIHSGEPLGLEAGSKAELMAVLAHAGMTRSVIVCNGYKDREYIRLALIGEKMGHKVYLVIEKMSEIAIVLDEAERLNVVPRLGVRARLASQGSGKWQSSGGEKSKFGLAATQVLQLVETLREAGRLDSLQLLHFHLGSQMANIRDIATGVRESARFYVELHKLGVNIQCFDVGGGLGVDYEGTRSQSDCSVNYGLNEYANNIIWAIGDACEENGLPHPTVITESGRAVTAHHTVLVSNIIGVERNEYTVPTAPAEDAPRALQSMWETWQEMHEPGTRRSLREWLHDSQMDLHDIHIGYSSGIFSLQERAWAEQLYLSMCHEVQKQLDPQNRAHRPIIDELQERMADKMYVNFSLFQSMPDAWGIDQLFPVLPLEGLDQVPERRAVLLDITCDSDGAIDHYIDGDGIATTMPMPEYDPENPPMLGFFMVGAYQEILGNMHNLFGDTEAVDVFVFPDGSVEVELSDEGDTVADMLQYVQLDPKTLLTQFRDQVKKTDLDAELQQQFLEEFEAGLYGYTYLEDE" [] ["CCO-PERI-BAC"] +"ARGDECARBOXDEG-MONOMER" "arginine decarboxylase, degradative" ["AdiA", "Adi"] "MKVLIVESEFLHQDTWVGNAVERLADALSQQNVTVIKSTSFDDGFAILSSNEAIDCLMFSYQMEHPDEHQNVRQLIGKLHERQQNVPVFLLGDREKALAAMDRDLLELVDEFAWILEDTADFIAGRAVAAMTRYRQQLLPPLFSALMKYSDIHEYSWAAPGHQGGVGFTKTPAGRFYHDYYGENLFRTDMGIERTSLGSLLDHTGAFGESEKYAARVFGADRSWSVVVGTSGSNRTIMQACMTDNDVVVVDRNCHKSIEQGLMLTGAKPVYMVPSRNRYGIIGPIYPQEMQPETLQKKISESPLTKDKAGQKPSYCVVTNCTYDGVCYNAKEAQDLLEKTSDRLHFDEAWYGYARFNPIYADHYAMRGEPGDHNGPTVFATHSTHKLLNALSQASYIHVREGRGAINFSRFNQAYMMHATTSPLYAICASNDVAVSMMDGNSGLSLTQEVIDEAVDFRQAMARLYKEFTADGSWFFKPWNKEVVTDPQTGKTYDFADAPTKLLTTVQDCWVMHPGESWHGFKDIPDNWSMLDPIKVSILAPGMGEDGELEETGVPAALVTAWLGRHGIVPTRTTDFQIMFLFSMGVTRGKWGTLVNTLCSFKRHYDANTPLAQVMPELVEQYPDTYANMGIHDLGDTMFAWLKENNPGARLNEAYSGLPVAEVTPREAYNAIVDNNVELVSIENLPGRIAANSVIPYPPGIPMLLSGENFGDKNSPQVSYLRSLQSWDHHFPGFEHETEGTEIIDGIYHVMCVKA" [] ["CCO-CYTOSOL"] +"ARGS-MONOMER" "arginine—tRNA ligase" ["Lov", "ArgS", "ArgRS"] "MNIQALLSEKVRQAMIAAGAPADCEPQVRQSAKVQFGDYQANGMMAVAKKLGMAPRQLAEQVLTHLDLNGIASKVEIAGPGFINIFLDPAFLAEHVQQALASDRLGVATPEKQTIVVDYSAPNVAKEMHVGHLRSTIIGDAAVRTLEFLGHKVIRANHVGDWGTQFGMLIAWLEKQQQENAGEMELADLEGFYRDAKKHYDEDEEFAERARNYVVKLQSGDEYFREMWRKLVDITMTQNQITYDRLNVTLTRDDVMGESLYNPMLPGIVADLKAKGLAVESEGATVVFLDEFKNKEGEPMGVIIQKKDGGYLYTTTDIACAKYRYETLHADRVLYYIDSRQHQHLMQAWAIVRKAGYVPESVPLEHHMFGMMLGKDGKPFKTRAGGTVKLADLLDEALERARRLVAEKNPDMPADELEKLANAVGIGAVKYADLSKNRTTDYIFDWDNMLAFEGNTAPYMQYAYTRVLSVFRKAEIDEEQLAAAPVIIREDREAQLAARLLQFEETLTVVAREGTPHVMCAYLYDLAGLFSGFYEHCPILSAENEEVRNSRLKLAQLTAKTLKLGLDTLGIETVERM" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"ARGSUCCINLYA-MONOMER" null ["ArgH"] "MALWGGRFTQAADQRFKQFNDSLRFDYRLAEQDIVGSVAWSKALVTVGVLTAEEQAQLEEALNVLLEDVRARPQQILESDAEDIHSWVEGKLIDKVGQLGKKLHTGRSRNDQVATDLKLWCKDTVSELLTANRQLQSALVETAQNNQDAVMPGYTHLQRAQPVTFAHWCLAYVEMLARDESRLQDALKRLDVSPLGCGALAGTAYEIDREQLAGWLGFASATRNSLDSVSDRDHVLELLSAAAIGMVHLSRFAEDLIFFNTGEAGFVELSDRVTSGSSLMPQKKNPDALELIRGKCGRVQGALTGMMMTLKGLPLAYNKDMQEDKEGLFDALDTWLDCLHMAALVLDGIQVKRPRCQEAAQQGYANATELADYLVAKGVPFREAHHIVGEAVVEAIRQGKPLEDLPLSELQKFSQVIDEDVYPILSLQSCLDKRAAKGGVSPQQVAQAIAFAQARLG" [] ["CCO-CYTOSOL"] +"ARGSUCCINSYN-MONOMER" "argininosuccinate synthetase" ["ArgG"] "MTTILKHLPVGQRIGIAFSGGLDTSAALLWMRQKGAVPYAYTANLGQPDEEDYDAIPRRAMEYGAENARLIDCRKQLVAEGIAAIQCGAFHNTTGGLTYFNTTPLGRAVTGTMLVAAMKEDGVNIWGDGSTYKGNDIERFYRYGLLTNAELQIYKPWLDTDFIDELGGRHEMSEFMIACGFDYKMSVEKAYSTDSNMLGATHEAKDLEYLNSSVKIVNPIMGVKFWDESVKIPAEEVTVRFEQGHPVALNGKTFSDDVEMMLEANRIGGRHGLGMSDQIENRIIEAKSRGIYEAPGMALLHIAYERLLTGIHNEDTIEQYHAHGRQLGRLLYQGRWFDSQALMLRDSLQRWVASQITGEVTLELRRGNDYSILNTVSENLTYKPERLTMEKGDSVFSPDDRIGQLTMRNLDITDTREKLFGYAKTGLLSSSAASGVPQVENLENKGQ" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"ARGSUCCTRAN-MONOMER" null ["YdjV", "AstA"] "MMVIRPVERSDVSALMQLASKTGGGLTSLPANEATLSARIERAIKTWQGELPKSEQGYVFVLEDSETGTVAGICAIEVAVGLNDPWYNYRVGTLVHASKELNVYNALPTLFLSNDHTGSSELCTLFLDPDWRKEGNGYLLSKSRFMFMAAFRDKFNDKVVAEMRGVIDEHGYSPFWQSLGKRFFSMDFSRADFLCGTGQKAFIAELMPKHPIYTHFLSQEAQDVIGQVHPQTAPARAVLEKEGFRYRNYIDIFDGGPTLECDIDRVRAIRKSRLVEVAEGQPAQGDFPACLVANENYHHFRVVLVRTDPATERLILTAAQLDALKCHAGDRVRLVRLCAEEKTA" [] ["CCO-CYTOSOL"] +"ARGT-MONOMER" "lysine/arginine/ornithine ABC transporter periplasmic binding protein" [] "MKKSILALSLLVGLSTAASSYAALPETVRIGTDTTYAPFSSKDAKGDFVGFDIDLGNEMCKRMQVKCTWVASDFDALIPSLKAKKIDAIISSLSITDKRQQEIAFSDKLYAADSRLIAAKGSPIQPTLDSLKGKHVGVLQGSTQEAYANETWRSKGVDVVAYANQDLVYSDLAAGRLDAALQDEVAASEGFLKQPAGKDFAFAGSSVKDKKYFGDGTGVGLRKDDAELTAAFNKALGELRQDGTYDKMAKKYFDFNVYGD" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"AROA-MONOMER" null ["AroA"] "MESLTLQPIARVDGTINLPGSKSVSNRALLLAALAHGKTVLTNLLDSDDVRHMLNALTALGVSYTLSADRTRCEIIGNGGPLHAEGALELFLGNAGTAMRPLAAALCLGSNDIVLTGEPRMKERPIGHLVDALRLGGAKITYLEQENYPPLRLQGGFTGGNVDVDGSVSSQFLTALLMTAPLAPEDTVIRIKGDLVSKPYIDITLNLMKTFGVEIENQHYQQFVVKGGQSYQSPGTYLVEGDASSASYFLAAAAIKGGTVKVTGIGRNSMQGDIRFADVLEKMGATICWGDDYISCTRGELNAIDMDMNHIPDAAMTIATAALFAKGTTTLRNIYNWRVKETDRLFAMATELRKVGAEVEEGHDYIRITPPEKLNFAEIATYNDHRMAMCFSLVALSDTPVTILDPKCTAKTFPDYFEQLARISQAA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"AROB-MONOMER" null ["AroB"] "MERIVVTLGERSYPITIASGLFNEPASFLPLKSGEQVMLVTNETLAPLYLDKVRGVLEQAGVNVDSVILPDGEQYKSLAVLDTVFTALLQKPHGRDTTLVALGGGVVGDLTGFAAASYQRGVRFIQVPTTLLSQVDSSVGGKTAVNHPLGKNMIGAFYQPASVVVDLDCLKTLPPRELASGLAEVIKYGIILDGAFFNWLEENLDALLRLDGPAMAYCIRRCCELKAEVVAADERETGLRALLNLGHTFGHAIEAEMGYGNWLHGEAVAAGMVMAARTSERLGQFSSAETQRIITLLKRAGLPVNGPREMSAQAYLPHMLRDKKVLAGEMRLILPLAIGKSEVRSGVSHELVLNAIADCQSA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"AROC-MONOMER" "chorismate synthase" ["AroC"] "MAGNTIGQLFRVTTFGESHGLALGCIVDGVPPGIPLTEADLQHDLDRRRPGTSRYTTQRREPDQVKILSGVFEGVTTGTSIGLLIENTDQRSQDYSAIKDVFRPGHADYTYEQKYGLRDYRGGGRSSARETAMRVAAGAIAKKYLAEKFGIEIRGCLTQMGDIPLDIKDWSQVEQNPFFCPDPDKIDALDELMRALKKEGDSIGAKVTVVASGVPAGLGEPVFDRLDADIAHALMSINAVKGVEIGDGFDVVALRGSQNRDEITKDGFQSNHAGGILGGISSGQQIIAHMALKPTSSITVPGRTINRFGEEVEMITKGRHDPCVGIRAVPIAEAMLAIVLMDHLLRQRAQNADVKTDIPRW" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"AROD-MONOMER" "3-dehydroquinate dehydratase" ["AroD"] "MKTVTVKDLVIGTGAPKIIVSLMAKDIASVKSEALAYREADFDILEWRVDHYADLSNVESVMAAAKILRETMPEKPLLFTFRSAKEGGEQAISTEAYIALNRAAIDSGLVDMIDLELFTGDDQVKETVAYAHAHDVKVVMSNHDFHKTPEAEEIIARLRKMQSFDADIPKIALMPQSTSDVLTLLAATLEMQEQYADRPIITMSMAKTGVISRLAGEVFGSAATFGAVKKASAPGQISVNDLRTVLTILHQA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"AROE-MONOMER" null ["AroE"] "METYAVFGNPIAHSKSPFIHQQFAQQLNIEHPYGRVLAPINDFINTLNAFFSAGGKGANVTVPFKEEAFARADELTERAALAGAVNTLMRLEDGRLLGDNTDGVGLLSDLERLSFIRPGLRILLIGAGGASRGVLLPLLSLDCAVTITNRTVSRAEELAKLFAHTGSIQALSMDELEGHEFDLIINATSSGISGDIPAIPSSLIHPGIYCYDMFYQKGKTPFLAWCEQRGSKRNADGLGMLVAQAAHAFLLWHGVLPDVEPVIKQLQEELSA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"AROF-MONOMER" "3-deoxy-7-phosphoheptulonate synthase, Tyr-sensitive" ["AroF", "2-dehydro-3-deoxyphosphoheptonate aldolase"] "MQKDALNNVHITDEQVLMTPEQLKAAFPLSLQQEAQIADSRKSISDIIAGRDPRLLVVCGPCSIHDPETALEYARRFKALAAEVSDSLYLVMRVYFEKPRTTVGWKGLINDPHMDGSFDVEAGLQIARKLLLELVNMGLPLATEALDPNSPQYLGDLFSWSAIGARTTESQTHREMASGLSMPVGFKNGTDGSLATAINAMRAAAQPHRFVGINQAGQVALLQTQGNPDGHVILRGGKAPNYSPADVAQCEKEMEQAGLRPSLMVDCSHGNSNKDYRRQPAVAESVVAQIKDGNRSIIGLMIESNIHEGNQSSEQPRSEMKYGVSVTDACISWEMTDALLREIHQDLNGQLTARVA" [] ["CCO-CYTOSOL"] +"AROG-MONOMER" "3-deoxy-7-phosphoheptulonate synthase, Phe-sensitive" ["AroG", "2-dehydro-3-deoxyphosphoheptonate aldolase"] "MNYQNDDLRIKEIKELLPPVALLEKFPATENAANTVAHARKAIHKILKGNDDRLLVVIGPCSIHDPVAAKEYATRLLALREELKDELEIVMRVYFEKPRTTVGWKGLINDPHMDNSFQINDGLRIARKLLLDINDSGLPAAGEFLDMITPQYLADLMSWGAIGARTTESQVHRELASGLSCPVGFKNGTDGTIKVAIDAINAAGAPHCFLSVTKWGHSAIVNTSGNGDCHIILRGGKEPNYSAKHVAEVKEGLNKAGLPAQVMIDFSHANSSKQFKKQMDVCADVCQQIAGGEKAIIGVMVESHLVEGNQSLESGEPLAYGKSITDACIGWEDTDALLRQLANAVKARRG" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"AROH-MONOMER" "3-deoxy-7-phosphoheptulonate synthase, Trp-sensitive" ["2-dehydro-3-deoxyphosphoheptonate aldolase", "AroH"] "MNRTDELRTARIESLVTPAELALRYPVTPGVATHVTDSRRRIEKILNGEDKRLLVIIGPCSIHDLTAAMEYATRLQSLRNQYQSRLEIVMRTYFEKPRTVVGWKGLISDPDLNGSYRVNHGLELARKLLLQVNELGVPTATEFLDMVTGQFIADLISWGAIGARTTESQIHREMASALSCPVGFKNGTDGNTRIAVDAIRAARASHMFLSPDKNGQMTIYQTSGNPYGHIIMRGGKKPNYHADDIAAACDTLHEFDLPEHLVVDFSHGNCQKQHRRQLEVCEDICQQIRNGSTAIAGIMAESFLREGTQKIVGSQPLTYGQSITDPCLGWEDTERLVEKLASAVDTRF" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"AROK-MONOMER" "shikimate kinase 1" ["AroK", "shikimic acid kinase I", "shikimate kinase I"] "MAEKRNIFLVGPMGAGKSTIGRQLAQQLNMEFYDSDQEIEKRTGADVGWVFDLEGEEGFRDREEKVINELTEKQGIVLATGGGSVKSRETRNRLSARGVVVYLETTIEKQLARTQRDKKRPLLHVETPPREVLEALANERNPLYEEIADVTIRTDDQSAKVVANQIIHMLESN" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"AROL-MONOMER" "shikimate kinase 2" ["AroL", "shikimate kinase II"] "MTQPLFLIGPRGCGKTTVGMALADSLNRRFVDTDQWLQSQLNMTVAEIVEREEWAGFRARETAALEAVTAPSTVIATGGGIILTEFNRHFMQNNGIVVYLCAPVSVLVNRLQAAPEEDLRPTLTGKPLSEEVQEVLEERDALYREVAHIIIDATNEPSQVISEIRSALAQTINC" [] ["CCO-CYTOSOL"] +"AROP-MONOMER" "aromatic amino acid:H+ symporter AroP" ["AroR", "AroP", "AroP phenylalanine/tyrosine/tryptophan APC transporter"] "MMEGQQHGEQLKRGLKNRHIQLIALGGAIGTGLFLGSASVIQSAGPGIILGYAIAGFIAFLIMRQLGEMVVEEPVAGSFSHFAYKYWGSFAGFASGWNYWVLYVLVAMAELTAVGKYIQFWYPEIPTWVSAAVFFVVINAINLTNVKVFGEMEFWFAIIKVIAVVAMIIFGGWLLFSGNGGPQATVSNLWDQGGFLPHGFTGLVMMMAIIMFSFGGLELVGITAAEADNPEQSIPKATNQVIYRILIFYIGSLAVLLSLMPWTRVTADTSPFVLIFHELGDTFVANALNIVVLTAALSVYNSCVYCNSRMLFGLAQQGNAPKALASVDKRGVPVNTILVSALVTALCVLINYLAPESAFGLLMALVVSALVINWAMISLAHMKFRRAKQEQGVVTRFPALLYPLGNWICLLFMAAVLVIMLMTPGMAISVYLIPVWLIVLGIGYLFKEKTAKAVKAH" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"ARSF-MONOMER" "arsenite/antimonite:H+ antiporter" ["ArsF", "ArsB"] "MLLAGAIFVLTIVLVIWQPKGLGIGWSATLGAVLALVTGVVHPGDIPVVWNIVWNATAAFIAVIIISLLLDESGFFEWAALHVSRWGNGRGRLLFTWIVLLGAAVAALFANDGAALILTPIVIAMLLALGFSKGTTLAFVMAAGFIADTASLPLIVSNLVNIVSADFFGLGFREYASVMVPVDIAAIVATLVMLHLYFRKDIPQNYDMALLKSPAEAIKDPATFKTGWVVLLLLLVGFFVLEPLGIPVSAIAAVGALILFVVAKRGHAINTGKVLRGAPWQIVIFSLGMYLVVYGLRNAGLTEYLSGVLNVLADNGLWAATLGTGFLTAFLSSIMNNMPTVLVGALSIDGSTASGVIKEAMVYANVIGCDLGPKITPIGSLATLLWLHVLSQKNMTISWGYYFRTGIIMTLPVLFVTLAALALRLSFTL" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"ARTI-MONOMER" "putative ABC transporter periplasmic binding protein ArtI" [] "MKKVLIAALIAGFSLSATAAETIRFATEASYPPFESIDANNQIVGFDVDLAQALCKEIDATCTFSNQAFDSLIPSLKFRRVEAVMAGMDITPEREKQVLFTTPYYDNSALFVGQQGKYTSVDQLKGKKVGVQNGTTHQKFIMDKHPEITTVPYDSYQNAKLDLQNGRIDGVFGDTAVVTEWLKDNPKLAAVGDKVTDKDYFGTGLGIAVRQGNTELQQKLNTALEKVKKDGTYETIYNKWFQK" ["CCO-PERI-BAC"] ["CCO-MEMBRANE", "CCO-PERI-BAC"] +"ARTJ-MONOMER" "L-arginine ABC transporter periplasmic binding protein" [] "MKKLVLAALLASFTFGASAAEKINFGVSATYPPFESIGANNEIVGFDIDLAKALCKQMQAECTFTNHAFDSLIPSLKFRKYDAVISGMDITPERSKQVSFTTPYYENSAVVIAKKDTYKTFADLKGKRIGMENGTTHQKYIQDQHPEVKTVSYDSYQNAFIDLKNGRIDGVFGDTAVVNEWLKTNPQLGVATEKVTDPQYFGTGLGIAVRPDNKALLEKLNNALAAIKADGTYQKISDQWFPQ" ["CCO-PERI-BAC"] ["CCO-MEMBRANE", "CCO-PERI-BAC"] +"ARTM-MONOMER" "L-arginine ABC transporter membrane subunit ArtM" [] "MFEYLPELMKGLHTSLTLTVASLIVALILALIFTIILTLKTPVLVWLVRGYITLFTGTPLLVQIFLIYYGPGQFPTLQEYPALWHLLSEPWLCALIALSLNSAAYTTQLFYGAIRAIPEGQWQSCSALGMSKKDTLAILLPYAFKRSLSSYSNEVVLVFKSTSLAYTITLMEVMGYSQLLYGRTYDVMVFGAAGIIYLVVNGLLTLMMRLIERKALAFERRN" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"ARTP-MONOMER" "L-arginine ABC transporter ATP binding subunit" [] "MSIQLNGINCFYGAHQALFDITLDCPQGETLVLLGPSGAGKSSLLRVLNLLEMPRSGTLNIAGNHFDFTKTPSDKAIRDLRRNVGMVFQQYNLWPHLTVQQNLIEAPCRVLGLSKDQALARAEKLLERLRLKPYSDRYPLHLSGGQQQRVAIARALMMEPQVLLFDEPTAALDPEITAQIVSIIRELAETNITQVIVTHEVEVARKTASRVVYMENGHIVEQGDASCFTEPQTEAFKNYLSH" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"ARTQ-MONOMER" "L-arginine ABC transporter membrane subunit ArtQ" [] "MNEFFPLASAAGMTVGLAVCALIVGLALAMFFAVWESAKWRPVAWAGSALVTILRGLPEILVVLFIYFGSSQLLLTLSDGFTINLGFVQIPVQMDIENFDVSPFLCGVIALSLLYAAYASQTLRGALKAVPVGQWESGQALGLSKSAIFFRLVMPQMWRHALPGLGNQWLVLLKDTALVSLISVNDLMLQTKSIATRTQEPFTWYIVAAAIYLVITLLSQYILKRIDLRATRFERRPS" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"ARYLSULFAT-MONOMER" "putative sulfatase AslA" ["GppB", "AtsA", "AslA"] "MEFSFSPKRLVVAVAAALPLMASAADTPSTATARKGFAGYDHPNQYLVKPATTIADNMMPVMQHPAQDKETQQKLAELEKKTGKKPNVVVFLLDDVGWMDVGFNGGGVAVGNPTPDIDAVASQGLILTSAYSQPSSSPTRATILTGQYSIHHGILMPPMYGQPGGLQGLTTLPQLLHDQGYVTQAIGKWHMGENKESQPQNVGFDDFRGFNSVSDMYTEWRDVHVNPEVALSPDRSEYIKQLPFSKDDVHAVRGGEQQAIADITPKYMEDLDQRWMDYGVKFLDKMAKSDKPFFLYYGTRGCHFDNYPNAKYAGSSPARTSYGDCMVEMNDVFANLYKTLEKNGQLDNTLIVFTSDNGPEAEVPPHGRTPFRGAKGSTWEGGVRVPTFVYWKGMIQPRKSDGIVDLADLFPTALDLAGHPGAKVANLVPKTTFIDGVDQTSFFLGTNGQSNRKAEHYFLNGKLAAVRMDEFKYHVLIQQPYAYTQSGYQGGFTGTVMQTAGSSVFNLYTDPQESDSIGVRHIPMGVPLQTEMHAYMEILKKYPPRAQIKSD" [] ["CCO-PERI-BAC"] +"ASCF-MONOMER" "β-glucoside specific PTS enzyme IIBC component" ["Sac", "AscF"] "MAKNYAALARSVIAALGGVDNISAVTHCMTRLRFVIKDDALIDSPTLKTIPGVLGVVRSDNQCQVIIGNTVSQAFQEVVSLLPGDMQPAQPVGKPKLTLRRIGAGILDALIGTMSPLIPAIIGGSMVKLLAMILEMSGVLTKGSPTLTILNVIGDGAFFFLPLMVAASAAIKFKTNMSLAIAIAGVLVHPSFIELMAKAAQGEHVEFALIPVTAVKYTYTVIPALVMTWCLSYIERWVDSITPAVTKNFLKPMLIVLIAAPLAILLIGPIGIWIGSAISALVYTIHGYLGWLSVAIMGALWPLLVMTGMHRVFTPTIIQTIAETGKEGMVMPSEIGANLSLGGSSLAVAWKTKNPELRQTALAAAASAIMAGISEPALYGVAIRLKRPLIASLISGFICGAVAGMAGLASHSMAAPGLFTSVQFFDPANPMSIVWVFAVMALAVVLSFILTLLLGFEDIPVEEAAAQARKYQSVQPTVAKEVSLN" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"ASL-MONOMER" "adenylosuccinate lyase" ["Ade", "PurB"] "MELSSLTAVSPVDGRYGDKVSALRGIFSEYGLLKFRVQVEVRWLQKLAAHAAIKEVPAFAADAIGYLDAIVASFSEEDAARIKTIERTTNHDVKAVEYFLKEKVAEIPELHAVSEFIHFACTSEDINNLSHALMLKTARDEVILPYWRQLIDGIKDLAVQYRDIPLLSRTHGQPATPSTIGKEMANVAYRMERQYRQLNQVEILGKINGAVGNYNAHIAAYPEVDWHQFSEEFVTSLGIQWNPYTTQIEPHDYIAELFDCVARFNTILIDFDRDVWGYIALNHFKQKTIAGEIGSSTMPHKVNPIDFENSEGNLGLSNAVLQHLASKLPVSRWQRDLTDSTVLRNLGVGIGYALIAYQSTLKGVSKLEVNRDHLLDELDHNWEVLAEPIQTVMRRYGIEKPYEKLKELTRGKRVDAEGMKQFIDGLALPEEEKARLKAMTPANYIGRAITMVDELK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"ASNS-MONOMER" "asparagine—tRNA ligase" ["Tss", "Lcs", "AsnS", "AsnRS"] "MSVVPVADVLQGRVAVDSEVTVRGWVRTRRDSKAGISFLAVYDGSCFDPVQAVINNSLPNYNEDVLRLTTGCSVIVTGKVVASPGQGQQFEIQASKVEVAGWVEDPDTYPMAAKRHSIEYLREVAHLRPRTNLIGAVARVRHTLAQALHRFFNEQGFFWVSTPLITASDTEGAGEMFRVSTLDLENLPRNDQGKVDFDKDFFGKESFLTVSGQLNGETYACALSKIYTFGPTFRAENSNTSRHLAEFWMLEPEVAFANLNDIAGLAEAMLKYVFKAVLEERADDMKFFAERVDKDAVSRLERFIEADFAQVDYTDAVTILENCGRKFENPVYWGVDLSSEHERYLAEEHFKAPVVVKNYPKDIKAFYMRLNEDGKTVAAMDVLAPGIGEIIGGSQREERLDVLDERMLEMGLNKEDYWWYRDLRRYGTVPHSGFGLGFERLIAYVTGVQNVRDVIPFPRTPRNASF" [] ["CCO-CYTOSOL"] +"ASNSYNA-MONOMER" "asparagine synthetase A" ["AsnA"] "MKTAYIAKQRQISFVKSHFSRQLEERLGLIEVQAPILSRVGDGTQDNLSGCEKAVQVKVKALPDAQFEVVHSLAKWKRQTLGQHDFSAGEGLYTHMKALRPDEDRLSPLHSVYVDQWDWERVMGDGERQFSTLKSTVEAIWAGIKATEAAVSEEFGLAPFLPDQIHFVHSQELLSRYPDLDAKGRERAIAKDLGAVFLVGIGGKLSDGHRHDVRAPDYDDWSTPSELGHAGLNGDILVWNPVLEDAFELSSMGIRVDADTLKHQLALTGDEDRLELEWHQALLRGEMPQTIGGGIGQSRLTMLLLQLPHIGQVQCGVWPAAVRESVPSLL" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"ASNSYNB-MONOMER" "asparagine synthetase B" ["AsnB"] "MCSIFGVFDIKTDAVELRKKALELSRLMRHRGPDWSGIYASDNAILAHERLSIVDVNAGAQPLYNQQKTHVLAVNGEIYNHQALRAEYGDRYQFQTGSDCEVILALYQEKGPEFLDDLQGMFAFALYDSEKDAYLIGRDHLGIIPLYMGYDEHGQLYVASEMKALVPVCRTIKEFPAGSYLWSQDGEIRSYYHRDWFDYDAVKDNVTDKNELRQALEDSVKSHLMSDVPYGVLLSGGLDSSIISAITKKYAARRVEDQERSEAWWPQLHSFAVGLPGSPDLKAAQEVANHLGTVHHEIHFTVQEGLDAIRDVIYHIETYDVTTIRASTPMYLMSRKIKAMGIKMVLSGEGSDEVFGGYLYFHKAPNAKELHEETVRKLLALHMYDCARANKAMSAWGVEARVPFLDKKFLDVAMRINPQDKMCGNGKMEKHILRECFEAYLPASVAWRQKEQFSDGVGYSWIDTLKEVAAQQVSDQQLETARFRFPYNTPTSKEAYLYREIFEELFPLPSAAECVPGGPSVACSSAKAIEWDEAFKKMDDPSGRAVGVHQSAYK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"ASP-SEMIALDEHYDE-DEHYDROGENASE-MONOMER" "aspartate-semialdehyde dehydrogenase" ["Dap", "Hom", "Asd"] "MKNVGFIGWRGMVGSVLMQRMVEERDFDAIRPVFFSTSQLGQAAPSFGGTTGTLQDAFDLEALKALDIIVTCQGGDYTNEIYPKLRESGWQGYWIDAASSLRMKDDAIIILDPVNQDVITDGLNNGIRTFVGGNCTVSLMLMSLGGLFANDLVDWVSVATYQAASGGGARHMRELLTQMGHLYGHVADELATPSSAILDIERKVTTLTRSGELPVDNFGVPLAGSLIPWIDKQLDNGQSREEWKGQAETNKILNTSSVIPVDGLCVRVGALRCHSQAFTIKLKKDVSIPTVEELLAAHNPWAKVVPNDREITMRELTPAAVTGTLTTPVGRLRKLNMGPEFLSAFTVGDQLLWGAAEPLRRMLRQLA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"ASPAMINOTRANS-MONOMER" "aspartate aminotransferase" ["AspC"] "MFENITAAPADPILGLADLFRADERPGKINLGIGVYKDETGKTPVLTSVKKAEQYLLENETTKNYLGIDGIPEFGRCTQELLFGKGSALINDKRARTAQTPGGTGALRVAADFLAKNTSVKRVWVSNPSWPNHKSVFNSAGLEVREYAYYDAENHTLDFDALINSLNEAQAGDVVLFHGCCHNPTGIDPTLEQWQTLAQLSVEKGWLPLFDFAYQGFARGLEEDAEGLRAFAAMHKELIVASSYSKNFGLYNERVGACTLVAADSETVDRAFSQMKAAIRANYSNPPAHGASVVATILSNDALRAIWEQELTDMRQRIQRMRQLFVNTLQEKGANRDFSFIIKQNGMFSFSGLTKEQVLRLREEFGVYAVASGRVNVAGMTPDNMAPLCEAIVAVL" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"ASPARTASE-MONOMER" "aspartate ammonia-lyase" ["AspA"] "MSNNIRIEEDLLGTREVPADAYYGVHTLRAIENFYISNNKISDIPEFVRGMVMVKKAAAMANKELQTIPKSVANAIIAACDEVLNNGKCMDQFPVDVYQGGAGTSVNMNTNEVLANIGLELMGHQKGEYQYLNPNDHVNKCQSTNDAYPTGFRIAVYSSLIKLVDAINQLREGFERKAVEFQDILKMGRTQLQDAVPMTLGQEFRAFSILLKEEVKNIQRTAELLLEVNLGATAIGTGLNTPKEYSPLAVKKLAEVTGFPCVPAEDLIEATSDCGAYVMVHGALKRLAVKMSKICNDLRLLSSGPRAGLNEINLPELQAGSSIMPAKVNPVVPEVVNQVCFKVIGNDTTVTMAAEAGQLQLNVMEPVIGQAMFESVHILTNACYNLLEKCINGITANKEVCEGYVYNSIGIVTYLNPFIGHHNGDIVGKICAETGKSVREVVLERGLLTEAELDDIFSVQNLMHPAYKAKRYTDESEQ" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"ASPCARBCAT-MONOMER" "aspartate carbamoyltransferase catalytic subunit" ["PyrB"] "MANPLYQKHIISINDLSRDDLNLVLATAAKLKANPQPELLKHKVIASCFFEASTRTRLSFETSMHRLGASVVGFSDSANTSLGKKGETLADTISVISTYVDAIVMRHPQEGAARLATEFSGNVPVLNAGDGSNQHPTQTLLDLFTIQETQGRLDNLHVAMVGDLKYGRTVHSLTQALAKFDGNRFYFIAPDALAMPQYILDMLDEKGIAWSLHSSIEEVMAEVDILYMTRVQKERLDPSEYANVKAQFVLRASDLHNAKANMKVLHPLPRVDEIATDVDKTPHAWYFQQAGNGIFARQALLALVLNRDLVL" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"ASPCARBREG-MONOMER" "aspartate carbamoyltransferase, PyrI subunit" ["PyrI"] "MTHDNKLQVEAIKRGTVIDHIPAQIGFKLLSLFKLTETDQRITIGLNLPSGEMGRKDLIKIENTFLSEDQVDQLALYAPQATVNRIDNYEVVGKSRPSLPERIDNVLVCPNSNCISHAEPVSSSFAVRKRANDIALKCKYCEKEFSHNVVLAN" [] ["CCO-CYTOSOL"] +"ASPDECARBOX-MONOMER" "aspartate 1-decarboxylase proenzyme" ["PanD", "PanD proenzyme, π protein"] "MIRTMLQGKLHRVKVTHADLHYEGSCAIDQDFLDAAGILENEAIDIWNVTNGKRFSTYAIAAERGSRIISVNGAAAHCASVGDIVIIASFVTMPDEEARTWRPNVAYFEGDNEMKRTAKAIPVQVA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"ASPKINIHOMOSERDEHYDROGI-MONOMER" "fused aspartate kinase/homoserine dehydrogenase 1" ["ThrD", "ThrA"] "MRVLKFGGTSVANAERFLRVADILESNARQGQVATVLSAPAKITNHLVAMIEKTISGQDALPNISDAERIFAELLTGLAAAQPGFPLAQLKTFVDQEFAQIKHVLHGISLLGQCPDSINAALICRGEKMSIAIMAGVLEARGHNVTVIDPVEKLLAVGHYLESTVDIAESTRRIAASRIPADHMVLMAGFTAGNEKGELVVLGRNGSDYSAAVLAACLRADCCEIWTDVDGVYTCDPRQVPDARLLKSMSYQEAMELSYFGAKVLHPRTITPIAQFQIPCLIKNTGNPQAPGTLIGASRDEDELPVKGISNLNNMAMFSVSGPGMKGMVGMAARVFAAMSRARISVVLITQSSSEYSISFCVPQSDCVRAERAMQEEFYLELKEGLLEPLAVTERLAIISVVGDGMRTLRGISAKFFAALARANINIVAIAQGSSERSISVVVNNDDATTGVRVTHQMLFNTDQVIEVFVIGVGGVGGALLEQLKRQQSWLKNKHIDLRVCGVANSKALLTNVHGLNLENWQEELAQAKEPFNLGRLIRLVKEYHLLNPVIVDCTSSQAVADQYADFLREGFHVVTPNKKANTSSMDYYHQLRYAAEKSRRKFLYDTNVGAGLPVIENLQNLLNAGDELMKFSGILSGSLSYIFGKLDEGMSFSEATTLAREMGYTEPDPRDDLSGMDVARKLLILARETGRELELADIEIEPVLPAEFNAEGDVAAFMANLSQLDDLFAARVAKARDEGKVLRYVGNIDEDGVCRVKIAEVDGNDPLFKVKNGENALAFYSHYYQPLPLVLRGYGAGNDVTAAGVFADLLRTLSWKLGV" [] ["CCO-CYTOSOL"] +"ASPKINIIHOMOSERDEHYDROGII-MONOMER" "fused aspartate kinase/homoserine dehydrogenase 2" ["MetM", "MetL"] "MSVIAQAGAKGRQLHKFGGSSLADVKCYLRVAGIMAEYSQPDDMMVVSAAGSTTNQLINWLKLSQTDRLSAHQVQQTLRRYQCDLISGLLPAEEADSLISAFVSDLERLAALLDSGINDAVYAEVVGHGEVWSARLMSAVLNQQGLPAAWLDAREFLRAERAAQPQVDEGLSYPLLQQLLVQHPGKRLVVTGFISRNNAGETVLLGRNGSDYSATQIGALAGVSRVTIWSDVAGVYSADPRKVKDACLLPLLRLDEASELARLAAPVLHARTLQPVSGSEIDLQLRCSYTPDQGSTRIERVLASGTGARIVTSHDDVCLIEFQVPASQDFKLAHKEIDQILKRAQVRPLAVGVHNDRQLLQFCYTSEVADSALKILDEAGLPGELRLRQGLALVAMVGAGVTRNPLHCHRFWQQLKGQPVEFTWQSDDGISLVAVLRTGPTESLIQGLHQSVFRAEKRIGLVLFGKGNIGSRWLELFAREQSTLSARTGFEFVLAGVVDSRRSLLSYDGLDASRALAFFNDEAVEQDEESLFLWMRAHPYDDLVVLDVTASQQLADQYLDFASHGFHVISANKLAGASDSNKYRQIHDAFEKTGRHWLYNATVGAGLPINHTVRDLIDSGDTILSISGIFSGTLSWLFLQFDGSVPFTELVDQAWQQGLTEPDPRDDLSGKDVMRKLVILAREAGYNIEPDQVRVESLVPAHCEGGSIDHFFENGDELNEQMVQRLEAAREMGLVLRYVARFDANGKARVGVEAVREDHPLASLLPCDNVFAIESRWYRDNPLVIRGPGAGRDVTAGAIQSDINRLAQLL" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"ASPKINIII-MONOMER" "aspartate kinase III" ["Apk", "LysC"] "MSEIVVSKFGGTSVADFDAMNRSADIVLSDANVRLVVLSASAGITNLLVALAEGLEPGERFEKLDAIRNIQFAILERLRYPNVIREEIERLLENITVLAEAAALATSPALTDELVSHGELMSTLLFVEILRERDVQAQWFDVRKVMRTNDRFGRAEPDIAALAELAALQLLPRLNEGLVITQGFIGSENKGRTTTLGRGGSDYTAALLAEALHASRVDIWTDVPGIYTTDPRVVSAAKRIDEIAFAEAAEMATFGAKVLHPATLLPAVRSDIPVFVGSSKDPRAGGTLVCNKTENPPLFRALALRRNQTLLTLHSLNMLHSRGFLAEVFGILARHNISVDLITTSEVSVALTLDTTGSTSTGDTLLTQSLLMELSALCRVEVEEGLALVALIGNDLSKACGVGKEVFGVLEPFNIRMICYGASSHNLCFLVPGEDAEQVVQKLHSNLFE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"ASPS-MONOMER" "aspartate—tRNA ligase" ["Tls", "AspS", "AspRS"] "MRTEYCGQLRLSHVGQQVTLCGWVNRRRDLGSLIFIDMRDREGIVQVFFDPDRADALKLASELRNEFCIQVTGTVRARDEKNINRDMATGEIEVLASSLTIINRADVLPLDSNHVNTEEARLKYRYLDLRRPEMAQRLKTRAKITSLVRRFMDDHGFLDIETPMLTKATPEGARDYLVPSRVHKGKFYALPQSPQLFKQLLMMSGFDRYYQIVKCFRDEDLRADRQPEFTQIDVETSFMTAPQVREVMEALVRHLWLEVKGVDLGDFPVMTFAEAERRYGSDKPDLRNPMELTDVADLLKSVEFAVFAGPANDPKGRVAALRVPGGASLTRKQIDEYGNFVKIYGAKGLAYIKVNERAKGLEGINSPVAKFLNAEIIEDILDRTAAQDGDMIFFGADNKKIVADAMGALRLKVGKDLGLTDESKWAPLWVIDFPMFEDDGEGGLTAMHHPFTSPKDMTAAELKAAPENAVANAYDMVINGYEVGGGSVRIHNGDMQQTVFGILGINEEEQREKFGFLLDALKYGTPPHAGLAFGLDRLTMLLTGTDNIRDVIAFPKTTAAACLMTEAPSFANPTALAELSIQVVKKAENN" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"ATOA-MONOMER" "acetyl-CoA:acetoacetyl-CoA transferase subunit β" ["AtoA"] "MDAKQRIARRVAQELRDGDIVNLGIGLPTMVANYLPEGIHITLQSENGFLGLGPVTTAHPDLVNAGGQPCGVLPGAAMFDSAMSFALIRGGHIDACVLGGLQVDEEANLANWVVPGKMVPGMGGAMDLVTGSRKVIIAMEHCAKDGSAKILRRCTMPLTAQHAVHMLVTELAVFRFIDGKMWLTEIADGCDLATVRAKTEARFEVAADLNTQRGDL" [] ["CCO-CYTOSOL"] +"ATOC-MONOMER" "DNA-binding transcriptional activator/ornithine decarboxylase inhibitor AtoC" ["AtoC", "AtoC response regulator", "AtoC transcriptional activator; Az protein inhibitor of ODC"] "MTAINRILIVDDEDNVRRMLSTAFALQGFETHCANNGRTALHLFADIHPDVVLMDIRMPEMDGIKALKEMRSHETRTPVILMTAYAEVETAVEALRCGAFDYVIKPFDLDELNLIVQRALQLQSMKKEIRHLHQALSTSWQWGHILTNSPAMMDICKDTAKIALSQASVLISGESGTGKELIARAIHYNSRRAKGPFIKVNCAALPESLLESELFGHEKGAFTGAQTLRQGLFERANEGTLLLDEIGEMPLVLQAKLLRILQEREFERIGGHQTIKVDIRIIAATNRDLQAMVKEGTFREDLFYRLNVIHLILPPLRDRREDISLLANHFLQKFSSENQRDIIDIDPMAMSLLTAWSWPGNIRELSNVIERAVVMNSGPIIFSEDLPPQIRQPVCNAGEVKTAPVGERNLKEEIKRVEKRIIMEVLEQQEGNRTRTALMLGISRRALMYKLQEYGIDPADV" [] ["CCO-CYTOSOL"] +"ATOD-MONOMER" "acetyl-CoA:acetoacetyl-CoA transferase subunit α" ["AtoD"] "MKTKLMTLQDATGFFRDGMTIMVGGFMGIGTPSRLVEALLESGVRDLTLIANDTAFVDTGIGPLIVNGRVRKVIASHIGTNPETGRRMISGEMDVVLVPQGTLIEQIRCGGAGLGGFLTPTGVGTVVEEGKQTLTLDGKTWLLERPLRADLALIRAHRCDTLGNLTYQLSARNFNPLIALAADITLVEPDELVETGELQPDHIVTPGAVIDHIIVSQESK" [] ["CCO-CYTOSOL"] +"ATOS-MONOMER" "sensor histidine kinase AtoS" ["AtoS"] "MHYMKWIYPRRLRNQMILMAILMVIVPTLTIGYIVETEGRSAVLSEKEKKLSAVVNLLNQALGDRYDLYIDLPREERIRALNAELAPITENITHAFPGIGAGYYNKMLDAIITYAPSALYQNNVGVTIAADHPGREVMRTNTPLVYSGRQVRGDILNSMLPIERNGEILGYIWANELTEDIRRQAWKMDVRIIIVLTAGLLISLLLIVLFSRRLSANIDIITDGLSTLAQNIPTRLPQLPGEMGQISQSVNNLAQALRETRTLNDLIIENAADGVIAIDRQGDVTTMNPAAEVITGYQRHELVGQPYSMLFDNTQFYSPVLDTLEHGTEHVALEISFPGRDRTIELSVTTSRIHNTHGEMIGALVIFSDLTARKETQRRMAQAERLATLGELMAGVAHEVRNPLTAIRGYVQILRQQTSDPIHQEYLSVVLKEIDSINKVIQQLLEFSRPRHSQWQQVSLNALVEETLVLVQTAGVQARVDFISELDNELSPINADRELLKQVLLNILINAVQAISARGKIRIQTWQYSDSQQAISIEDNGCGIDLSLQKKIFDPFFTTKASGTGLGLALSQRIINAHQGDIRVASLPGYGATFTLILPINPQGNQTV" ["CCO-PM-BAC-NEG"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"ATPA-MONOMER" "ATP synthase F1 complex subunit α" ["UncA", "PapA", "AtpA"] "MQLNSTEISELIKQRIAQFNVVSEAHNEGTIVSVSDGVIRIHGLADCMQGEMISLPGNRYAIALNLERDSVGAVVMGPYADLAEGMKVKCTGRILEVPVGRGLLGRVVNTLGAPIDGKGPLDHDGFSAVEAIAPGVIERQSVDQPVQTGYKAVDSMIPIGRGQRELIIGDRQTGKTALAIDAIINQRDSGIKCIYVAIGQKASTISNVVRKLEEHGALANTIVVVATASESAALQYLAPYAGCAMGEYFRDRGEDALIIYDDLSKQAVAYRQISLLLRRPPGREAFPGDVFYLHSRLLERAARVNAEYVEAFTKGEVKGKTGSLTALPIIETQAGDVSAFVPTNVISITDGQIFLETNLFNAGIRPAVNPGISVSRVGGAAQTKIMKKLSGGIRTALAQYRELAAFSQFASDLDDATRKQLDHGQKVTELLKQKQYAPMSVAQQSLVLFAAERGYLADVELSKIGSFEAALLAYVDRDHAPLMQEINQTGGYNDEIEGKLKGILDSFKATQSW" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"ATPB-MONOMER" "ATP synthase Fo complex subunit a" ["UncB", "PapD", "AtpB", "protein 6", "chain A", "ATP synthase Fo complex - a subunit"] "MASENMTPQDYIGHHLNNLQLDLRTFSLVDPQNPPATFWTINIDSMFFSVVLGLLFLVLFRSVAKKATSGVPGKFQTAIELVIGFVNGSVKDMYHGKSKLIAPLALTIFVWVFLMNLMDLLPIDLLPYIAEHVLGLPALRVVPSADVNVTLSMALGVFILILFYSIKMKGIGGFTKELTLQPFNHWAFIPVNLILEGVSLLSKPVSLGLRLFGNMYAGELIFILIAGLLPWWSQWILNVPWAIFHILIITLQAFIFMVLTIVYLSMASEEH" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"ATPC-MONOMER" "ATP synthase F1 complex subunit ε" ["UncC", "PapG", "AtpC", "ATP synthase F1 complex - epsilon subunit"] "MAMTYHLDVVSAEQQMFSGLVEKIQVTGSEGELGIYPGHAPLLTAIKPGMIRIVKQHGHEEFIYLSGGILEVQPGNVTVLADTAIRGQDLDEARAMEAKRKAEEHISSSHGDVDYAQASAELAKAIAQLRVIELTKKAM" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"ATPD-MONOMER" "ATP synthase F1 complex subunit β" ["UncD", "PapB", "AtpD", "ATP synthase F1 complex - beta subunit"] "MATGKIVQVIGAVVDVEFPQDAVPRVYDALEVQNGNERLVLEVQQQLGGGIVRTIAMGSSDGLRRGLDVKDLEHPIEVPVGKATLGRIMNVLGEPVDMKGEIGEEERWAIHRAAPSYEELSNSQELLETGIKVIDLMCPFAKGGKVGLFGGAGVGKTVNMMELIRNIAIEHSGYSVFAGVGERTREGNDFYHEMTDSNVIDKVSLVYGQMNEPPGNRLRVALTGLTMAEKFRDEGRDVLLFVDNIYRYTLAGTEVSALLGRMPSAVGYQPTLAEEMGVLQERITSTKTGSITSVQAVYVPADDLTDPSPATTFAHLDATVVLSRQIASLGIYPAVDPLDSTSRQLDPLVVGQEHYDTARGVQSILQRYQELKDIIAILGMDELSEEDKLVVARARKIQRFLSQPFFVAEVFTGSPGKYVSLKDTIRGFKGIMEGEYDHLPEQAFYMVGSIEEAVEKAKKL" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"ATPE-MONOMER" "ATP synthase Fo complex subunit c" ["UncE", "PapH", "AtpE", "dicyclohexylcarbodiimide-binding protein", "ATP synthase Fo complex - subunit c", "Fo-c"] "MENLNMDLLYMAAAVMMGLAAIGAAIGIGILGGKFLEGAARQPDLIPLLRTQFFIVMGLVDAIPMIAVGLGLYVMFAVA" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"ATPF-MONOMER" "ATP synthase Fo complex subunit b" ["UncF", "PapF", "AtpF", "B chain", "ATP synthase Fo complex - b subunit"] "MNLNATILGQAIAFVLFVLFCMKYVWPPLMAAIEKRQKEIADGLASAERAHKDLDLAKASATDQLKKAKAEAQVIIEQANKRRSQILDEAKAEAEQERTKIVAQAQAEIEAERKRAREELRKQVAILAVAGAEKIIERSVDEAANSDIVDKLVAEL" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"ATPG-MONOMER" "ATP synthase F1 complex subunit γ" ["UncG", "PapC", "AtpG", "ATP synthase F1 complex - gamma subunit"] "MAGAKEIRSKIASVQNTQKITKAMEMVAASKMRKSQDRMAASRPYAETMRKVIGHLAHGNLEYKHPYLEDRDVKRVGYLVVSTDRGLCGGLNINLFKKLLAEMKTWTDKGVQCDLAMIGSKGVSFFNSVGGNVVAQVTGMGDNPSLSELIGPVKVMLQAYDEGRLDKLYIVSNKFINTMSQVPTISQLLPLPASDDDDLKHKSWDYLYEPDPKALLDTLLRRYVESQVYQGVVENLASEQAARMVAMKAATDNGGSLIKELQLVYNKARQASITQELTEIVSGAAAV" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"ATPH-MONOMER" "ATP synthase F1 complex subunit δ" ["UncH", "PapE", "AtpH", "ATP synthase F1 complex - delta subunit"] "MSEFITVARPYAKAAFDFAVEHQSVERWQDMLAFAAEVTKNEQMAELLSGALAPETLAESFIAVCGEQLDENGQNLIRVMAENGRLNALPDVLEQFIHLRAVSEATAEVDVISAAALSEQQLAKISAAMEKRLSRKVKLNCKIDKSVMAGVIIRAGDMVIDGSVRGRLERLADVLQS" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"ATPPHOSRIBOSTRANS-MONOMER" "ATP phosphoribosyltransferase" ["HisG"] "MTDNTRLRIAMQKSGRLSDDSRELLARCGIKINLHTQRLIAMAENMPIDILRVRDDDIPGLVMDGVVDLGIIGENVLEEELLNRRAQGEDPRYFTLRRLDFGGCRLSLATPVDEAWDGPLSLNGKRIATSYPHLLKRYLDQKGISFKSCLLNGSVEVAPRAGLADAICDLVSTGATLEANGLREVEVIYRSKACLIQRDGEMEESKQQLIDKLLTRIQGVIQARESKYIMMHAPTERLDEVIALLPGAERPTILPLAGDQQRVAMHMVSSETLFWETMEKLKALGASSILVLPIEKMME" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"B0070-MONOMER" null ["SetA", "YabM"] "MIWIMTMARRMNGVYAAFMLVAFMMGVAGALQAPTLSLFLSREVGAQPFWIGLFYTVNAIAGIGVSLWLAKRSDSQGDRRKLIIFCCLMAIGNALLFAFNRHYLTLITCGVLLASLANTAMPQLFALAREYADNSAREVVMFSSVMRAQLSLAWVIGPPLAFMLALNYGFTVMFSIAAGIFTLSLVLIAFMLPSVARVELPSENALSMQGGWQDSNVRMLFVASTLMWTCNTMYIIDMPLWISSELGLPDKLAGFLMGTAAGLEIPAMILAGYYVKRYGKRRMMVIAVAAGVLFYTGLIFFNSRMALMTLQLFNAVFIGIVAGIGMLWFQDLMPGRAGAATTLFTNSISTGVILAGVIQGAIAQSWGHFAVYWVIAVISVVALFLTAKVKDV" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"B0260-MONOMER" "CP4-6 prophage; S-methyl-L-methionine transporter" ["MmuP", "YkfD"] "MQTTQQNAPLKRTMKTRHLIMLSLGGVIGTGLFFNTGYIISTTGAAGTLLAYLIGALVVWLVMQCLGELSVAMPETGAFHVYAARYLGPATGYTVAWLYWLTWTVALGSSFTAAGFCMQYWFPQVPVWVWCVVFCAIIFGLNVISTRFFAEGEFWFSLVKVVTIIAFIILGGAAIFGFIPMQDGSPAPGLSNITAEGWFPHGGLPILMTMVAVNFAFSGTELIGIAAGETENPRKVIPVAIRTTIARLIIFFIGTVFVLAALIPMQQVGVEKSPFVLVFEKVGIPYAADIFNFVILTAILSAANSGLYASGRMLWSLSNERTLPACFARVTKNGVPLTALSVSMLGGVLALFSSVVAPDTVFVALSAISGFAVVAVWLSICASHFVFRRRHLQQGKALSELHYRAPWYPLVPVLGFVLCLVACVGLAFDPAQRIALWCGLPFVALCYGAYFLTQPRNAKQEPEHVAE" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"B0270-MONOMER" "CP4-6 prophage; putative D-xylonate transporter YagG" ["YagG"] "MTQLTMKDKIGYGLGDTACGFVWQATMFLLAYFYTDVFGLSAGIMGTLFLVSRVLDAVTDPLMGLLVDRTRTRHGQFRPFLLWGAIPFGIVCVLTFYTPDFSAQGKIIYACVTYILLTLVYTFVNVPYCAMPGVITADPKERHALQSWRFFLAAAGSLAISGIALPLVSIIGKGDEQVGYFGAMCVLGLSGVVLLYVCFFTTKERYTFEVQPGSSVAKDLKLLLGNSQWRIMCAFKMMATCSNVVRGGATLYFVKYVMDHPELATQFLLYGSLATMFGSLCSSRLLGRFDRVTAFKWIIVAYSLISLLIFVTPAEHIALIFALNILFLFVFNTTTPLQWLMASDVVDYEESRSGRRLDGLVFSTYLFSLKIGLAIGGAVVGWILAYVNYSASSSVQPVEVLTTIKILFCVVPVVLYAGMFIMLSLYKLTDARVEAISRQLIKHRAAQGEAVPDAATAASH" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"B0427-MONOMER" "putative transport protein YajR" ["YajR"] "MNDYKMTPGERRATWGLGTVFSLRMLGMFMVLPVLTTYGMALQGASEALIGIAIGIYGLTQAVFQIPFGLLSDRIGRKPLIVGGLAVFAAGSVIAALSDSIWGIILGRALQGSGAIAAAVMALLSDLTREQNRTKAMAFIGVSFGITFAIAMVLGPIITHKLGLHALFWMIAILATTGIALTIWVVPNSSTHVLNRESGMVKGSFSKVLAEPRLLKLNFGIMCLHILLMSTFVALPGQLADAGFPAAEHWKVYLATMLIAFGSVVPFIIYAEVKRKMKQVFVFCVGLIVVAEIVLWNAQTQFWQLVVGVQLFFVAFNLMEALLPSLISKESPAGYKGTAMGVYSTSQFLGVAIGGSLGGWINGMFDGQGVFLAGAMLAAVWLTVASTMKEPPYVSSLRIEIPANIAANEALKVRLLETEGIKEVLIAEEEHSAYVKIDSKVTNRFEIEQAIRQA" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"B0486-MONOMER" "putative transporter YbaT" ["YbaT"] "MMNTEGNNGNKPLGLWNVVSIGIGAMVGAGIFALLGQAALLMEASTWVAFAFGGIVAMFSGYAYARLGASYPSNGGIIDFFRRGLGNGVFSLALSLLYLLTLAVSIAMVARAFGAYAVQFLHEGSQEEHLILLYALGIIAVMTLFNSLSNHAVGRLEVILVGIKMMILLLLIIAGVWSLQPAHISVSAPPSSGAFFSCIGITFLAYAGFGMMANAADKVKDPQVIMPRAFLVAIGVTTLLYISLALVLLSDVSALELEKYADTAVAQAASPLLGHVGYVIVVIGALLATASAINANLFAVFNIMDNMGSERELPKLMNKSLWRQSTWGNIIVVVLIMLMTAALNLGSLASVASATFLICYLAVFVVAIRLRHDIHASLPILIVGTLVMLLVIVGFIYSLWSQGSRALIWIIGSLLLSLIVAMVMKRNKTV" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"B0511-MONOMER" "putative allantoin transporter" ["AllP", "YbbW"] "MEHQRKLFQQRGYSEDLLPKTQSQRTWKTFNYFTLWMGSVHNVPNYVMVGGFFILGLSTFSIMLAIILSAFFIAAVMVLNGAAGSKYGVPFAMILRASYGVRGALFPGLLRGGIAAIMWFGLQCYAGSLACLILIGKIWPGFLTLGGDFTLLGLSLPGLITFLIFWLVNVGIGFGGGKVLNKFTAILNPCIYIVFGGMAIWAISLVGIGPIFDYIPSGIQKAENGGFLFLVVINAVVAVWAAPAVSASDFTQNAHSFREQALGQTLGLVVAYILFAVAGVCIIAGASIHYGADTWNVLDIVQRWDSLFASFFAVLVILMTTISTNATGNIIPAGYQIAAIAPTKLTYKNGVLIASIISLLICPWKLMENQDSIYLFLDIIGGMLGPVIGVMMAHYFVVMRGQINLDELYTAPGDYKYYDNGFNLTAFSVTLVAVILSLGGKFIHFMEPLSRVSWFVGVIVAFAAYALLKKRTTAEKTGEQKTIG" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"B0612-MONOMER" null ["YbdS", "CitT", "CitT citrate DASS Transporter"] "MSLAKDNIWKLLAPLVVMGVMFLIPVPDGMPPQAWHYFAVFVAMIVGMILEPIPATAISFIAVTICVIGSNYLLFDAKELADPAFNAQKQALKWGLAGFSSTTVWLVFGAFIFALGYEVSGLGRRIALFLVKFMGKRTLTLGYAIVIIDILLAPFTPSNTARTGGTVFPVIKNLPPLFKSFPNDPSARRIGGYLMWMMVISTSLSSSMFVTGAAPNVLGLEFVSKIAGIQISWLQWFLCFLPVGVILLIIAPWLSYVLYKPEITHSEEVATWAGDELKTMGALTRREWTLIGLVLLSLGLWVFGSEVINATAVGLLAVSLMLALHVVPWKDITRYNSAWNTLVNLATLVVMANGLTRSGFIDWFAGTMSTHLEGFSPNATVIVLVLVFYFAHYLFASLSAHTATMLPVILAVGKGIPGVPMEQLCILLVLSIGIMGCLTPYATGPGVIIYGCGYVKSKDYWRLGAIFGVIYISMLLLVGWPILAMWN" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"B0709-MONOMER" "dipeptide:H+ symporter DtpD" ["DtpD", "YbgH"] "MNKHASQPRAIYYVVALQIWEYFSFYGMRALLILYLTNQLKYNDTHAYELFSAYCSLVYVTPILGGFLADKVLGNRMAVMLGALLMAIGHVVLGASEIHPSFLYLSLAIIVCGYGLFKSNVSCLLGELYEPTDPRRDGGFSLMYAAGNVGSIIAPIACGYAQEEYSWAMGFGLAAVGMIAGLVIFLCGNRHFTHTRGVNKKVLRATNFLLPNWGWLLVLLVATPALITILFWKEWSVYALIVATIIGLGVLAKIYRKAENQKQRKELGLIVTLTFFSMLFWAFAQQGGSSISLYIDRFVNRDMFGYTVPTAMFQSINAFAVMLCGVFLAWVVKESVAGNRTVRIWGKFALGLGLMSAGFCILTLSARWSAMYGHSSLPLMVLGLAVMGFAELFIDPVAMSQITRIEIPGVTGVLTGIYMLLSGAIANYLAGVIADQTSQASFDASGAINYSINAYIEVFDQITWGALACVGLVLMIWLYQALKFRNRALALES" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"B0752-MONOMER" "Zn2+/Cd2+/Ni2+/Cu2+ exporter" ["ZitB", "YbgR", "ZitB zinc CDF transporter"] "MAHSHSHTSSHLPEDNNARRLLYAFGVTAGFMLVEVVGGFLSGSLALLADAGHMLTDTAALLFALLAVQFSRRPPTIRHTFGWLRLTTLAAFVNAIALVVITILIVWEAIERFRTPRPVEGGMMMAIAVAGLLANILSFWLLHHGSEEKNLNVRAAALHVLGDLLGSVGAIIAALIIIWTGWTPADPILSILVSLLVLRSAWRLLKDSVNELLEGAPVSLDIAELKRRMCREIPEVRNVHHVHVWMVGEKPVMTLHVQVIPPHDHDALLDQIQHYLMDHYQIEHATIQMEYQPCHGPDCHLNEGVSGHSHHHH" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"B0770-MONOMER" "putative tricarboxylate transporter" ["YbhI"] "MNKKSLWKLILILAIPCIIGFMPAPAGLSELAWVLFGIYLAAIVGLVIKPFPEPVVLLIAVAASMVVVGNLSDGAFKTTAVLSGYSSGTTWLVFSAFTLSAAFVTTGLGKRIAYLLIGKIGNTTLGLGYVTVFLDLVLAPATPSNTARAGGIVLPIINSVAVALGSEPEKSPRRVGHYLMMSIYMVTKTTSYMFFTAMAGNILALKMINDILHLQISWGGWALAAGLPGIIMLLVTPLVIYTMYPPEIKKVDNKTIAKAGLAELGPMKIREKMLLGVFVLALLGWIFSKSLGVDESTVAIVVMATMLLLGIVTWEDVVKNKGGWNTLIWYGGIIGLSSLLSKVKFFEWLAEVFKNNLAFDGHGNVAFFVIIFLSIIVRYFFASGSAYIVAMLPVFAMLANVSGAPLMLTALALLFSNSYGGMVTHYGGAAGPVIFGVGYNDIKSWWLVGAVLTILTFLVHITLGVWWWNMLIGWNML" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"B0899-MONOMER" "DUF883 domain-containing protein YgaM" ["YgaM"] "MFNRPNRNDVDDGVQDIQNDVNQLADSLESVLKSWGSDAKGEAEAARSKAQALLKETRARMHGRTRVQQAARDAVGCADSFVRERPWCSVGTAAAVGIFIGALLSMRKS" ["CCO-CYTOSOL"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"B1006-MONOMER" "pyrimidine:H+ symporter" ["YcdG", "RutG"] "MAMFGFPHWQLKSTSTESGVVAPDERLPFAQTAVMGVQHAVAMFGATVLMPILMGLDPNLSILMSGIGTLLFFFITGGRVPSYLGSSAAFVGVVIAATGFNGQGINPNISIALGGIIACGLVYTVIGLVVMKIGTRWIERLMPPVVTGAVVMAIGLNLAPIAVKSVSASAFDSWMAVMTVLCIGLVAVFTRGMIQRLLILVGLIVACLLYGVMTNVLGLGKAVDFTLVSHAAWFGLPHFSTPAFNGQAMMLIAPVAVILVAENLGHLKAVAGMTGRNMDPYMGRAFVGDGLATMLSGSVGGSGVTTYAENIGVMAVTKVYSTLVFVAAAVIAMLLGFSPKFGALIHTIPAAVIGGASIVVFGLIAVAGARIWVQNRVDLSQNGNLIMVAVTLVLGAGDFALTLGGFTLGGIGTATFGAILLNALLSRKLVDVPPPEVVHQEP" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"B1065-MONOMER" "multidrug efflux pump MdtH" ["MdtH", "YceL"] "MSRVSQARNLGKYFLLIDNMLVVLGFFVVFPLISIRFVDQMGWAAVMVGIALGLRQFIQQGLGIFGGAIADRFGAKPMIVTGMLMRAAGFATMGIAHEPWLLWFSCLLSGLGGTLFDPPRSALVVKLIRPQQRGRFFSLLMMQDSAGAVIGALLGSWLLQYDFRLVCATGAVLFVLCAAFNAWLLPAWKLSTVRTPVREGMTRVMRDKRFVTYVLTLAGYYMLAVQVMLMLPIMVNDVAGAPSAVKWMYAIEACLSLTLLYPIARWSEKHFRLEHRLMAGLLIMSLSMMPVGMVSGLQQLFTLICLFYIGSIIAEPARETLSASLADARARGSYMGFSRLGLAIGGAIGYIGGGWLFDLGKSAHQPELPWMMLGIIGIFTFLALGWQFSQKRAARRLLERDA" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"B1296-MONOMER" null ["YcjJ", "PuuP"] "MAINSPLNIAAQPGKTRLRKSLKLWQVVMMGLAYLTPMTVFDTFGIVSGISDGHVPASYLLALAGVLFTAISYGKLVRQFPEAGSAYTYAQKSINPHVGFMVGWSSLLDYLFLPMINVLLAKIYLSALFPEVPPWVWVVTFVAILTAANLKSVNLVANFNTLFVLVQISIMVVFIFLVVQGLHKGEGVGTVWSLQPFISENAHLIPIITGATIVCFSFLGFDAVTTLSEETPDAARVIPKAIFLTAVYGGVIFIAASFFMQLFFPDISRFKDPDAALPEIALYVGGKLFQSIFLCTTFVNTLASGLASHASVSRLLYVMGRDNVFPERVFGYVHPKWRTPALNVIMVGIVALSALFFDLVTATALINFGALVAFTFVNLSVFNHFWRRKGMNKSWKDHFHYLLMPLVGALTVGVLWVNLESTSLTLGLVWASLGGAYLWYLIRRYRKVPLYDGDRTPVSET" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"B1433-MONOMER" "putative transport protein YdcO" ["YdcO"] "MRLFSIPPPTLLAGFLAVLIGYASSAAIIWQAAIVAGATTAQISGWMTALGLAMGVSTLTLTLWYRVPVLTAWSTPGAALLVTGLQGLTLNEAIGVFIVTNALIVLCGITGLFARLMRIIPHSLAAAMLAGILLRFGLQAFASLDGQFTLCGSMLLVWLATKAVAPRYAVIAAMIIGIVIVIAQGDVVTTDVVFKPVLPTYITPDFSFAHSLSVALPLFLVTMASQNAPGIAAMKAAGYSAPVSPLIVFTGLLALVFSPFGVYSVGIAAITAAICQSPEAHPDKDQRWLAAAVAGIFYLLAGLFGSAITGMMAALPVSWIQMLAGLALLSTIGGSLYQALHNERERDAAVVAFLVTASGLTLVGIGSAFWGLIAGGVCYVVLNLIADRNRY" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"B1543-MONOMER" "putative transporter YdfJ" ["YdfJ"] "MDFQLYSLGAALVFHEIFFPESSTAMALILAMGTYGAGYVARIVGAFIFGKMGDRIGRKKVLFITITMMGICTTLIGVLPTYAQIGVFAPILLVTLRIIQGLGAGAEISGAGTMLAEYAPKGKRGIISSFVAMGTNCGTLSATAIWAFMFFILSKEELLAWGWRIPFLASVVVMVFAIWLRMNLKESPVFEKVNDSNQPTAKPAPAGSMFQSKSFWLATGLRFGQAGNSGLIQTFLAGYLVQTLLFNKAIPTDALMISSILGFMTIPFLGWLSDKIGRRIPYIIMNTSAIVLAWPMLSIIVDKSYAPSTIMVALIVIHNCAVLGLFALENITMAEMFGCKNRFTRMAISKEIGGLIASGFGPILAGIFCTMTESWYPIAIMIMAYSVIGLISALKMPEVKDRDLSALEDAAEDQPRVVRAAQPSRSL" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"B1596-MONOMER" "putative transporter YnfM" ["YzyC", "YnfM"] "MSRTTTVDGAPASDTDKQSISQPNQFIKRGTPQFMRVTLALFSAGLATFALLYCVQPILPVLSQEFGLTPANSSISLSISTAMLAIGLLFTGPLSDAIGRKPVMVTALLLASICTLLSTMMTSWHGILIMRALIGLSLSGVAAVGMTYLSEEIHPSFVAFSMGLYISGNSIGGMSGRLISGVFTDFFNWRIALAAIGCFALASALMFWKILPESRHFRPTSLRPKTLFINFRLHWRDRGLPLLFAEGFLLMGSFVTLFNYIGYRLMLSPWHVSQAVVGLLSLAYLTGTWSSPKAGTMTTRYGRGPVMLFSTGVMLFGLLMTLFSSLWLIFAGMLLFSAGFFAAHSVASSWIGPRAKRAKGQASSLYLFSYYLGSSIAGTLGGVFWHNYGWNGVGAFIALMLVIALLVGTRLHRRLHA" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"B1599-MONOMER" "multidrug/spermidine efflux pump membrane subunit MdtI" ["MdtI", "YdgE", "Em109"] "MAQFEWVHAAWLALAIVLEIVANVFLKFSDGFRRKIFGLLSLAAVLAAFSALSQAVKGIDLSVAYALWGGFGIAATLAAGWILFGQRLNRKGWIGLVLLLAGMIMVKLA" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"B1600-MONOMER" "multidrug/spermidine efflux pump membrane subunit MdtJ" ["MdtJ", "YdgF", "Em121"] "MYIYWILLGLAIATEITGTLSMKWASVSEGNGGFILMLVMISLSYIFLSFAVKKIALGVAYALWEGIGILFITLFSVLLFDESLSLMKIAGLTTLVAGIVLIKSGTRKARKPELEVNHGAV" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"B1634-MONOMER" "dipeptide/tripeptide:H+ symporter DtpA" ["TppB", "YdgR", "DtpA", "TppB peptide POT transporter"] "MSTANQKPTESVSLNAFKQPKAFYLIFSIELWERFGYYGLQGIMAVYLVKQLGMSEADSITLFSSFSALVYGLVAIGGWLGDKVLGTKRVIMLGAIVLAIGYALVAWSGHDAGIVYMGMAAIAVGNGLFKANPSSLLSTCYEKNDPRLDGAFTMYYMSVNIGSFFSMIATPWLAAKYGWSVAFALSVVGLLITIVNFAFCQRWVKQYGSKPDFEPINYRNLLLTIIGVVALIAIATWLLHNQEVARMALGVVAFGIVVIFGKEAFAMKGAARRKMIVAFILMLEAIIFFVLYSQMPTSLNFFAIRNVEHSILGLAVEPEQYQALNPFWIIIGSPILAAIYNKMGDTLPMPTKFAIGMVMCSGAFLILPLGAKFASDAGIVSVSWLVASYGLQSIGELMISGLGLAMVAQLVPQRLMGFIMGSWFLTTAGANLIGGYVAGMMAVPDNVTDPLMSLEVYGRVFLQIGVATAVIAVLMLLTAPKLHRMTQDDAADKAAKAAVA" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"B1657-MONOMER" "putative transporter YdhP" ["YdhP"] "MKINYPLLALAIGAFGIGTTEFSPMGLLPVIARGVDVSIPAAGMLISAYAVGVMVGAPLMTLLLSHRARRSALIFLMAIFTLGNVLSAIAPDYMTLMLSRILTSLNHGAFFGLGSVVAASVVPKHKQASAVATMFMGLTLANIGGVPAATWLGETIGWRMSFLATAGLGVISMVSLFFSLPKGGAGARPEVKKELAVLMRPQVLSALLTTVLGAGAMFTLYTYISPVLQSITHATPVFVTAMLVLIGVGFSIGNYLGGKLADRSVNGTLKGFLLLLMVIMLAIPFLARNEFGAAISMVVWGAATFAVVPPLQMRVMRVASEAPGLSSSVNIGAFNLGNALGAAAGGAVISAGLGYSFVPVMGAIVAGLALLLVFMSARKQPETVCVANS" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"B1690-MONOMER" "putative exporter YdiM" ["YdiM"] "MKNPYFPTALGLYFNYLVHGMGVLLMSLNMASLETLWQTNAAGVSIVISSLGIGRLSVLLFAGLLSDRFGRRPFIMLGMCCYMAFFFGILQTNNIIIAYVFGFLAGMANSFLDAGTYPSLMEAFPRSPGTANILIKAFVSSGQFLLPLIISLLVWAELWFGWSFMIAAGIMFINALFLYRCTFPPHPGRRLPVIKKTTSSTEHRCSIIDLASYTLYGYISMATFYLVSQWLAQYGQFVAGMSYTMSIKLLSIYTVGSLLCVFITAPLIRNTVRPTTLLMLYTFISFIALFTVCLHPTFYVVIIFAFVIGFTSAGGVVQIGLTLMAERFPYAKGKATGIYYSAGSIATFTIPLITAHLSQRSIADIMWFDTAIAAIGFLLALFIGLRSRKKTRHHSLKENVAPGG" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"B1691-MONOMER" "putative transporter YdiN" ["YdiN"] "MSQNKAFSTPFILAVLCIYFSYFLHGISVITLAQNMSSLAEKFSTDNAGIAYLISGIGLGRLISILFFGVISDKFGRRAVILMAVIMYLLFFFGIPACPNLTLAYGLAVCVGIANSALDTGGYPALMECFPKASGSAVILVKAMVSFGQMFYPMLVSYMLLNNIWYGYGLIIPGILFVLITLMLLKSKFPSQLVDASVTNELPQMNSKPLVWLEGVSSVLFGVAAFSTFYVIVVWMPKYAMAFAGMSEAEALKTISYYSMGSLVCVFIFAALLKKMVRPIWANVFNSALATITAAIIYLYPSPLVCNAGAFVIGFSAAGGILQLGVSVMSEFFPKSKAKVTSIYMMMGGLANFVIPLITGYLSNIGLQYIIVLDFTFALLALITAIIVFIRYYRVFIIPENDVRFGERKFCTRLNTIKHRG" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"B1775-MONOMER" "putative transporter YdjK" ["YdjK"] "MEQITKPHCGARLDRLPDCRWHSSMFAIVAFGLLVCWSNAVGGLILAQLKALGWTDNSTTATFSAITTAGMFLGALVGGIIGDKTGRRNAFILYEAIHIASMVVGAFSPNMDFLIACRFVMGVGLGALLVTLFAGFTEYMPGRNRGTWSSRVSFIGNWSYPLCSLIAMGLTPLISAEWNWRVQLLIPAILSLIATALAWRYFPESPRWLESRGRYQEAEKVMRSIEEGVIRQTGKPLPPVVIADDGKAPQAVPYSALLTGVLLKRVILGSCVLIAMNVVQYTLINWLPTIFMTQGINLKDSIVLNTMSMFGAPFGIFIAMLVMDKIPRKTMGVGLLILIAVLGYIYSLQTSMLLITLIGFFLITFVYMYVCYASAVYVPEIWPTEAKLRGSGLANAVGRISGIAAPYAVAVLLSSYGVTGVFILLGAVSIIVAIAIATIGIETKGVSVESLSIDAVANK" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"B1791-MONOMER" "2-nitroimidazole exporter" ["NimT", "YeaN"] "MTCSTSLSGKNRIVLIAGILMIATTLRVTFTGAAPLLDTIRSAYSLTTAQTGLLTTLPLLAFALISPLAAPVARRFGMERSLFAALLLICAGIAIRSLPSPYLLFGGTAVIGGGIALGNVLLPGLIKRDFPHSVARLTGAYSLTMGAAAALGSAMVVPLALNGFGWQGALLMLMCFPLLALFLWLPQWRSQQHANLSTSRALHTRGIWRSPLAWQVTLFLGINSLVYYVIIGWLPAILISHGYSEAQAGSLHGLLQLATAAPGLLIPLFLHHVKDQRGIAAFVALMCAVGAVGLCFMPAHAITWTLLFGFGSGATMILGLTFIGLRASSAHQAAALSGMAQSVGYLLAACGPPLMGKIHDANGNWSVPLMGVAILSLLMAIFGLCAGRDKEIR" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"B1828-MONOMER" "putative transporter YebQ" ["YebQ"] "MPKVQADGLPLPQRYGAILTIVIGISMAVLDGAIANVALPTIATDLHATPASSIWVVNAYQIAIVISLLSFSFLGDMFGYRRIYKCGLVVFLLSSLFCALSDSLQMLTLARVIQGFGGAALMSVNTALIRLIYPQRFLGRGMGINSFIVAVSSAAGPTIAAAILSIASWKWLFLINVPLGIIALLLAMRFLPPNGSRASKPRFDLPSAVMNALTFGLLITALSGFAQGQSLTLIAAELVVMVVVGIFFIRRQLSLPVPLLPVDLLRIPLFSLSICTSVCSFCAQMLAMVSLPFYLQTVLGRSEVETGLLLTPWPLATMVMAPLAGYLIERVHAGLLGALGLFIMAAGLFSLVLLPASPADINIIWPMILCGAGFGLFQSPNNHTIITSAPRERSGGASGMLGTARLLGQSSGAALVALMLNQFGDNGTHVSLMAAAILAVIAACVSGLRITQPRSRA" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"B2075-MONOMER" "multidrug efflux pump RND permease subunit MdtB" ["YegN"] "MQVLPPSSTGGPSRLFIMRPVATTLLMVAILLAGIIGYRALPVSALPEVDYPTIQVVTLYPGASPDVMTSAVTAPLERQFGQMSGLKQMSSQSSGGASVITLQFQLTLPLDVAEQEVQAAINAATNLLPSDLPNPPVYSKVNPADPPIMTLAVTSTAMPMTQVEDMVETRVAQKISQISGVGLVTLSGGQRPAVRVKLNAQAIAALGLTSETVRTAITGANVNSAKGSLDGPSRAVTLSANDQMQSAEEYRQLIIAYQNGAPIRLGDVATVEQGAENSWLGAWANKEQAIVMNVQRQPGANIISTADSIRQMLPQLTESLPKSVKVTVLSDRTTNIRASVDDTQFELMMAIALVVMIIYLFLRNIPATIIPGVAVPLSLIGTFAVMVFLDFSINNLTLMALTIATGFVVDDAIVVIENISRYIEKGEKPLAAALKGAGEIGFTIISLTFSLIAVLIPLLFMGDIVGRLFREFAITLAVAILISAVVSLTLTPMMCARMLSQESLRKQNRFSRASEKMFDRIIAAYGRGLAKVLNHPWLTLSVALSTLLLSVLLWVFIPKGFFPVQDNGIIQGTLQAPQSSSFANMAQRQRQVADVILQDPAVQSLTSFVGVDGTNPSLNSARLQINLKPLDERDDRVQKVIARLQTAVDKVPGVDLFLQPTQDLTIDTQVSRTQYQFTLQATSLDALSTWVPQLMEKLQQLPQLSDVSSDWQDKGLVAYVNVDRDSASRLGISMADVDNALYNAFGQRLISTIYTQANQYRVVLEHNTENTPGLAALDTIRLTSSDGGVVPLSSIAKIEQRFAPLSINHLDQFPVTTISFNVPDNYSLGDAVQAIMDTEKTLNLPVDITTQFQGSTLAFQSALGSTVWLIVAAVVAMYIVLGILYESFIHPITILSTLPTAGVGALLALLIAGSELDVIAIIGIILLIGIVKKNAIMMIDFALAAEREQGMSPREAIYQACLLRFRPILMTTLAALLGALPLMLSTGVGAELRRPLGIGMVGGLIVSQVLTLFTTPVIYLLFDRLALWTKSRFARHEEEA" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"B2076-MONOMER" "multidrug efflux pump RND permease subunit MdtC" ["YegO"] "MKFFALFIYRPVATILLSVAITLCGILGFRMLPVAPLPQVDFPVIIVSASLPGASPETMASSVATPLERSLGRIAGVSEMTSSSSLGSTRIILQFDFDRDINGAARDVQAAINAAQSLLPSGMPSRPTYRKANPSDAPIMILTLTSDTYSQGELYDFASTQLAPTISQIDGVGDVDVGGSSLPAVRVGLNPQALFNQGVSLDDVRTAVSNANVRKPQGALEDGTHRWQIQTNDELKTAAEYQPLIIHYNNGGAVRLGDVATVTDSVQDVRNAGMTNAKPAILLMIRKLPEANIIQTVDSIRAKLPELQETIPAAIDLQIAQDRSPTIRASLEEVEQTLIISVALVILVVFLFLRSGRATIIPAVSVPVSLIGTFAAMYLCGFSLNNLSLMALTIATGFVVDDAIVVLENIARHLEAGMKPLQAALQGTREVGFTVLSMSLSLVAVFLPLLLMGGLPGRLLREFAVTLSVAIGISLLVSLTLTPMMCGWMLKASKPREQKRLRGFGRMLVALQQGYGKSLKWVLNHTRLVGVVLLGTIALNIWLYISIPKTFFPEQDTGVLMGGIQADQSISFQAMRGKLQDFMKIIRDDPAVDNVTGFTGGSRVNSGMMFITLKPRDERSETAQQIIDRLRVKLAKEPGANLFLMAVQDIRVGGRQSNASYQYTLLSDDLAALREWEPKIRKKLATLPELADVNSDQQDNGAEMNLVYDRDTMARLGIDVQAANSLLNNAFGQRQISTIYQPMNQYKVVMEVDPRYTQDISALEKMFVINNEGKAIPLSYFAKWQPANAPLSVNHQGLSAASTISFNLPTGKSLSDASAAIDRAMTQLGVPSTVRGSFAGTAQVFQETMNSQVILIIAAIATVYIVLGILYESYVHPLTILSTLPSAGVGALLALELFNAPFSLIALIGIMLLIGIVKKNAIMMVDFALEAQRHGNLTPQEAIFQACLLRFRPIMMTTLAALFGALPLVLSGGDGSELRQPLGITIVGGLVMSQLLTLYTTPVVYLFFDRLRLRFSRKPKQTVTE" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"B2077-MONOMER" "putative multidrug efflux pump MdtD" ["IceT", "YegB", "MdtD"] "MTDLPDSTRWQLWIVAFGFFMQSLDTTIVNTALPSMAQSLGESPLHMHMVIVSYVLTVAVMLPASGWLADKVGVRNIFFTAIVLFTLGSLFCALSGTLNELLLARALQGVGGAMMVPVGRLTVMKIVPREQYMAAMTFVTLPGQVGPLLGPALGGLLVEYASWHWIFLINIPVGIIGAIATLLLMPNYTMQTRRFDLSGFLLLAVGMAVLTLALDGSKGTGLSPLTIAGLVAVGVVALVLYLLHARNNNRALFSLKLFRTRTFSLGLAGSFAGRIGSGMLPFMTPVFLQIGLGFSPFHAGLMMIPMVLGSMGMKRIVVQVVNRFGYRRVLVATTLGLSLVTLLFMTTALLGWYYVLPFVLFLQGMVNSTRFSSMNTLTLKDLPDNLASSGNSLLSMIMQLSMSIGVTIAGLLLGLFGSQHVSVDSGTTQTVFMYTWLSMALIIALPAFIFARVPNDTHQNVAISRRKRSAQ" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"B2098-MONOMER" "putative transporter YegT" ["YegT"] "MKTTAKLSFMMFVEWFIWGAWFVPLWLWLSKSGFSAGEIGWSYACTAIAAILSPILVGSITDRFFSAQKVLAVLMFAGALLMYFAAQQTTFAGFFPLLLAYSLTYMPTIALTNSIAFANVPDVERDFPRIRVMGTIGWIASGLACGFLPQILGYADISPTNIPLLITAGSSALLGVFAFFLPDTPPKSTGKMDIKVMLGLDALILLRDKNFLVFFFCSFLFAMPLAFYYIFANGYLTEVGMKNATGWMTLGQFSEIFFMLALPFFTKRFGIKKVLLLGLVTAAIRYGFFIYGSADEYFTYALLFLGILLHGVSYDFYYVTAYIYVDKKAPVHMRTAAQGLITLCCQGFGSLLGYRLGGVMMEKMFAYQEPVNGLTFNWSGMWTFGAVMIAIIAVLFMIFFRESDNEITAIKVDDRDIALTQGEVK" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"B2170-MONOMER" null ["YeiO", "SetB", "SetB MFS transporter"] "MHNSPAVSSAKSFDLTSTAFLIVAFLTGIAGALQTPTLSIFLTDEVHARPAMVGFFFTGSAVIGILVSQFLAGRSDKRGDRKSLIVFCCLLGVLACTLFAWNRNYFVLLFVGVFLSSFGSTANPQMFALAREHADKTGREAVMFSSFLRAQVSLAWVIGPPLAYALAMGFSFTVMYLSAAVAFIVCGVMVWLFLPSMRKELPLATGTIEAPRRNRRDTLLLFVICTLMWGSNSLYIINMPLFIINELHLPEKLAGVMMGTAAGLEIPTMLIAGYFAKRLGKRFLMRVAAVGGVCFYAGMLMAHSPVILLGLQLLNAIFIGILGGIGMLYFQDLMPGQAGSATTLYTNTSRVGWIIAGSVAGIVAEIWNYHAVFWFAMVMIIATLFCLLRIKDV" ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"B2246-MONOMER" "putative transporter YfaV" ["YfaV", "RhmT"] "MSTALLDAVVKKNRVRLIPFMLALYVLAFLDRSNIGFAKQTYQIDTGLSNEAYALGAGIFFVVYAFLGVPANLLMRKLGARTWIGTTTLLWGFLSAAMAWADTEAKFLIVRTLLRAAEAGFFPGMIYLTSQWFPQRNRASIMGLFYMGAPLALTLGSPLSGALLEMHGFMGHPGWFWMFVIEGLLAVGAGVFTFFWLDDTPEQARFLSKQEKTLLINQLASEEQQKVTSRLSDALRNGRVWQLAIIYLTIQVAVYGLIFFLPTQVAALLGTKVGFTASVVTAIPWVAALFGTWLIPRYSDKTGERRNVAALTLLAAGIGIGLSGLLSPVMAIVALCVAAIGFIAVQPVFWTMPTQLLSGTALAAGIGFVNLFGAVGGFIAPILRVKAETLFASDAAGLLTLAAVAVIGSLIIFTLRVNRTVAQTDVAHH" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"B2322-MONOMER" "putative transporter YfcJ" ["YfcJ"] "MTAVSQTETRSSANFSLFRIAFAVFLTYMTVGLPLPVIPLFVHHELGYGNTMVGIAVGIQFLATVLTRGYAGRLADQYGAKRSALQGMLACGLAGGALLLAAILPVSAPFKFALLVVGRLILGFGESQLLTGALTWGLGIVGPKHSGKVMSWNGMAIYGALAVGAPLGLLIHSHYGFAALAITTMVLPVLAWACNGTVRKVPALAGERPSLWSVVGLIWKPGLGLALQGVGFAVIGTFVSLYFASKGWAMAGFTLTAFGGAFVVMRVMFGWMPDRFGGVKVAIVSLLVETVGLLLLWQAPGAWVALAGAALTGAGCSLIFPALGVEVVKRVPSQVRGTALGGYAAFQDIALGVSGPLAGMLATTFGYSSVFLAGAISAVLGIIVTILSFRRG" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"B2372-MONOMER" "putative transport protein YfdV" ["YfdV"] "MLTFFIGDLLPIIVIMLLGYFSGRRETFSEDQARAFNKLVLNYALPAALFVSITRANREMIFADTRLTLVSLVVIVGCFFFSWFGCYKFFKRTHAEAAVCALIAGSPTIGFLGFAVLDPIYGDSVSTGLVVAIISIIVNAITIPIGLYLLNPSSGADGKKNSNLSALISAAKEPVVWAPVLATILVLVGVKIPAAWDPTFNLIAKANSGVAVFAAGLTLAAHKFEFSAEIAYNTFLKLILMPLALLLVGMACHLNSEHLQMMVLAGALPPAFSGIIIASRFNVYTRTGTASLAVSVLGFVVTAPLWIYVSRLVS" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"B2740-MONOMER" "putative transporter YgbN" ["YgbN"] "MSTITLLCIALAGVIMLLLLVIKAKVQPFVALLLVSLLVALAAGIPAGEVGKVMIAGMGGVLGSVTIIIGLGAMLGRMIEHSGGAESLANYFSRKLGDKRTIAALTLAAFFLGIPVFFDVGFIILAPIIYGFAKVAKISPLKFGLPVAGIMLTVHVAVPPHPGPVAAAGLLHADIGWLTIIGIAISIPVGVVGYFAAKIINKRQYAMSVEVLEQMQLAPASEEGATKLSDKINPPGVALVTSLIVIPIAIIMAGTVSATLMPPSHPLLGTLQLIGSPMVALMIALVLAFWLLALRRGWSLQHTSDIMGSALPTAAVVILVTGAGGVFGKVLVESGVGKALANMLQMIDLPLLPAAFIISLALRASQGSATVAILTTGGLLSEAVMGLNPIQCVLVTLAACFGGLGASHINDSGFWIVTKYLGLSVADGLKTWTVLTTILGFTGFLITWCVWAVI" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"B2771-MONOMER" "putative transporter YgcS" ["YgcS"] "MNTSPVRMDDLPLNRFHCRIAALTFGAHLTDGYVLGVIGYAIIQLTPAMQLTPFMAGMIGGSALLGLFLGSLVLGWISDHIGRQKIFTFSFLLITLASFLQFFATTPEHLIGLRILIGIGLGGDYSVGHTLLAEFSPRRHRGILLGAFSVVWTVGYVLASIAGHHFISENPEAWRWLLASAALPALLITLLRWGTPESPRWLLRQGRFAEAHAIVHRYFGPHVLLGDEVVTATHKHIKTLFSSRYWRRTAFNSVFFVCLVIPWFVIYTWLPTIAQTIGLEDALTASLMLNALLIVGALLGLVLTHLLAHRKFLLGSFLLLAATLVVMACLPSGSSLTLLLFVLFSTTISAVSNLVGILPAESFPTDIRSLGVGFATAMSRLGAAVSTGLLPWVLAQWGMQVTLLLLATVLLVGFVVTWLWAPETKALPLVAAGNVGGANEHSVSV" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"B2775-MONOMER" "putative transport protein YqcE" ["YqcF", "YqcE"] "MQHNSYRRWITLAIISFSGGVSFDLAYLRYIYQIPMAKFMGFSNTEIGLIMSTFGIAAIILYAPSGVIADKFSHRKMITSAMIITGLLGLLMATYPPLWVMLCIQIAFAITTILMLWSVSIKAASLLGDHSEQGKIMGWMEGLRGVGVMSLAVFTMWVFSRFAPDDSTSLKTVIIIYSVVYILLGILCWFFVSDNNNLRSANNEEKQSFQLSDILAVLRISTTWYCSMVIFGVFTIYAILSYSTNYLTEMYGMSLVAASYMGIVINKIFRALCGPLGGIITTYSKVKSPTRVIQILSVLGLLTLTALLVTNSNPQSVAMGIGLILLLGFTCYASRGLYWACPGEARTPSYIMGTTVGICSVIGFLPDVFVYPIIGHWQDTLPAAEAYRNMWLMGMAALGMVIVFTFLLFQKIRTADSAPAMASSK" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"B2789-MONOMER" "galactarate/D-glucarate transporter GudP" ["GudP", "GudT", "YgcZ"] "MSSLSQAASSVEKRTNARYWIVVMLFIVTSFNYGDRATLSIAGSEMAKDIGLDPVGMGYVFSAFSWAYVIGQIPGGWLLDRFGSKRVYFWSIFIWSMFTLLQGFVDIFSGFGIIVALFTLRFLVGLAEAPSFPGNSRIVAAWFPAQERGTAVSIFNSAQYFATVIFAPIMGWLTHEVGWSHVFFFMGGLGIVISFIWLKVIHEPNQHPGVNKKELEYIAAGGALINMDQQNTKVKVPFSVKWGQIKQLLGSRMMIGVYIGQYCINALTYFFITWFPVYLVQARGMSILKAGFVASVPAVCGFIGGVLGGIISDWLMRRTGSLNIARKTPIVMGMLLSMVMVFCNYVNVEWMIIGFMALAFFGKGIGALGWAVMADTAPKEISGLSGGLFNMFGNISGIVTPIAIGYIVGTTGSFNGALIYVGVHALIAVLSYLVLVGDIKRIELKPVAGQ" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"B2845-MONOMER" "putative transporter YqeG" ["YqeG"] "MSNIWSKEETLWSFALYGTAVGAGTLFLPIQLGSAGAVVLFITALVAWPLTYWPHKALCQFILSSKTSAGEGITGAVTHYYGKKIGNLITTLYFIAFFVVVLIYAVAITNSLTEQLAKHMVIDLRIRMLVSLGVVLILNLIFLMGRHATIRVMGFLVFPLIAYFLFLSIYLVGSWQPDLLTTQVEFNQNTLHQIWISIPVMVFAFSHTPIISTFAIDRREKYGEHAMDKCKKIMKVAYLIICISVLFFVFSCLLSIPPSYIEAAKEEGVTILSALSMLPNAPAWLSISGIIVAVVAMSKSFLGTYFGVIEGATEVVKTTLQQVGVKKSRAFNRALSIMLVSLITFIVCCINPNAISMIYAISGPLIAMILFIMPTLSTYLIPALKPWRSIGNLITLIVGILCVSVMFFS" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"B2975-MONOMER" "glycolate/lactate:H+ symporter GlcA" ["GlcA", "YghK"] "MVTWTQMYMPMGGLGLSALVALIPIIFFFVALAVLRLKGHVAGAITLILSILIAIFAFKMPIDMAFAAAGYGFIYGLWPIAWIIVAAVFLYKLTVASGQFDIIRSSVISITDDQRLQVLLIGFSFGALLEGAAGFGAPVAITGALLVGLGFKPLYAAGLCLIANTAPVAFGALGVPILVAGQVTGIDPFHIGAMAGRQLPFLSVLVPFWLVAMMDGWKGVKETWPAALVAGGSFAVTQFFTSNYIGPELPDITSALVSIVSLALFLKVWRPKNTETAISMGQSAGAMVVNKPSSGGPVPSEYSLGQIIRAWSPFLILTVLVTIWTMKPFKALFAPGGAFYSLVINFQIPHLHQQVLKAAPIVAQPTPMDAVFKFDPLSAGGTAIFIAAIISIFILGVGIKKGIGVFAETLISLKWPILSIGMVLAFAFVTNYSGMSTTLALVLAGTGVMFPFFSPFLGWLGVFLTGSDTSSNALFGSLQSTTAQQINVSDTLLVAANTSGGVTGKMISPQSIAVACAATGMVGRESELFRYTVKHSLIFASVIGIITLLQAYVFTGMLVS" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"B3659-MONOMER" "putative arabinose exporter" ["SetC", "YicK", "YicK MFS Transporter"] "MQKTATTPSKILDLTAAAFLLVAFLTGIAGALQTPTLSIFLADELKARPIMVGFFFTGSAIMGILVSQFLARHSDKQGDRKLLILLCCLFGVLACTLFAWNRNYFILLSTGVLLSSFASTANPQMFALAREHADRTGRETVMFSTFLRAQISLAWVIGPPLAYELAMGFSFKVMYLTAAIAFVVCGLIVWLFLPSIQRNIPVVTQPVEILPSTHRKRDTRLLFVVCSMMWAANNLYMINMPLFIIDELHLTDKLTGEMIGIAAGLEIPMMLIAGYYMKRIGKRLLMLIAIVSGMCFYASVLMATTPAVELELQILNAIFLGILCGIGMLYFQDLMPEKIGSATTLYANTSRVGWIIAGSVDGIMVEIWSYHALFWLAIGMLGIAMICLLFIKDI" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"B4141-MONOMER" "L-methionine/branched chain amino acid exporter" ["YjeH"] "MSGLKQELGLAQGIGLLSTSLLGTGVFAVPALAALVAGNNSLWAWPVLIILVFPIAIVFAILGRHYPSAGGVAHFVGMAFGSRLERVTGWLFLSVIPVGLPAALQIAAGFGQAMFGWHSWQLLLAELGTLALVWYIGTRGASSSANLQTVIAGLIVALIVAIWWAGDIKPANIPFPAPGNIELTGLFAALSVMFWCFVGLEAFAHLASEFKNPERDFPRALMIGLLLAGLVYWGCTVVVLHFDAYGEKMAAAASLPKIVVQLFGVGALWIACVIGYLACFASLNIYIQSFARLVWSQAQHNPDHYLARLSSRHIPNNALNAVLGCCVVSTLVIHALEINLDALIIYANGIFIMIYLLCMLAGCKLLQGRYRLLAVVGGLLCVLLLAMVGWKSLYALIMLAGLWLLLPKRKTPENGITT" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"BADH-MONOMER" "betaine aldehyde dehydrogenase" ["BetB"] "MSRMAEQQLYIHGGYTSATSGRTFETINPANGNVLATVQAAGREDVDRAVKSAQQGQKIWASMTAMERSRILRRAVDILRERNDELAKLETLDTGKAYSETSTVDIVTGADVLEYYAGLIPALEGSQIPLRETSFVYTRREPLGVVAGIGAWNYPIQIALWKSAPALAAGNAMIFKPSEVTPLTALKLAEIYSEAGLPDGVFNVLPGVGAETGQYLTEHPGIAKVSFTGGVASGKKVMANSAASSLKEVTMELGGKSPLIVFDDADLDLAADIAMMANFFSSGQVCTNGTRVFVPAKCKAAFEQKILARVERIRAGDVFDPQTNFGPLVSFPHRDNVLRYIAKGKEEGARVLCGGDVLKGDGFDNGAWVAPTVFTDCSDDMTIVREEIFGPVMSILTYESEDEVIRRANDTDYGLAAGIVTADLNRAHRVIHQLEAGICWINTWGESPAEMPVGGYKHSGIGRENGVMTLQSYTQVKSIQVEMAKFQSIF" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"BAER-MONOMER" "DNA-binding transcriptional activator BaeR" ["BaeR", "BaeR response regulator"] "MTELPIDENTPRILIVEDEPKLGQLLIDYLRAASYAPTLISHGDQVLPYVRQTPPDLILLDLMLPGTDGLTLCREIRRFSDIPIVMVTAKIEEIDRLLGLEIGADDYICKPYSPREVVARVKTILRRCKPQRELQQQDAESPLIIDEGRFQASWRGKMLDLTPAEFRLLKTLSHEPGKVFSREQLLNHLYDDYRVVTDRTIDSHIKNLRRKLESLDAEQSFIRAVYGVGYRWEADACRIV" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"BAES-MONOMER" "sensor histidine kinase BaeS" ["BaeS"] "MKFWRPGITGKLFLAIFATCIVLLISMHWAVRISFERGFIDYIKHGNEQRLQLLSDALGEQYAQHGNWRFLRNNDRFVFQILRSFEHDNSEDKPGPGMPPHGWRTQFWVVDQNNKVLVGPRAPIPPDGTRRPILVNGAEVGAVIASPVERLTRNTDINFDKQQRQTSWLIVALATLLAALATFLLARGLLAPVKRLVDGTHKLAAGDFTTRVTPTSEDELGKLAQDFNQLASTLEKNQQMRRDFMADISHELRTPLAVLRGELEAIQDGVRKFTPETVASLQAEVGTLTKLVDDLHQLSMSDEGALAYQKAPVDLIPLLEVAGGAFRERFASRGLKLQFSLPDSITVFGDRDRLMQLFNNLLENSLRYTDSGGSLQISAGQRDKTVRLTFADSAPGVSDDQLQKLFERFYRTEGSRNRASGGSGLGLAICLNIVEAHNGRIIAAHSPFGGVSITVELPLERDLQREV" ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"BARA-MONOMER" "sensor histidine kinase BarA" ["AirS", "BarA"] "MTNYSLRARMMILILAPTVLIGLLLSIFFVVHRYNDLQRQLEDAGASIIEPLAVSTEYGMSLQNRESIGQLISVLHRRHSDIVRAISVYDENNRLFVTSNFHLDPSSMQLGSNVPFPRQLTVTRDGDIMILRTPIISESYSPDESPSSDAKNSQNMLGYIALELDLKSVRLQQYKEIFISSVMMLFCIGIALIFGWRLMRDVTGPIRNMVNTVDRIRRGQLDSRVEGFMLGELDMLKNGINSMAMSLAAYHEEMQHNIDQATSDLRETLEQMEIQNVELDLAKKRAQEAARIKSEFLANMSHELRTPLNGVIGFTRLTLKTELTPTQRDHLNTIERSANNLLAIINDVLDFSKLEAGKLILESIPFPLRSTLDEVVTLLAHSSHDKGLELTLNIKSDVPDNVIGDPLRLQQIITNLVGNAIKFTENGNIDILVEKRALSNTKVQIEVQIRDTGIGIPERDQSRLFQAFRQADASISRRHGGTGLGLVITQKLVNEMGGDISFHSQPNRGSTFWFHINLDLNPNIIIEGPSTQCLAGKRLAYVEPNSAAAQCTLDILSETPLEVVYSPTFSALPPAHYDMMLLGIAVTFREPLTMQHERLAKAVSMTDFLMLALPCHAQVNAEKLKQDGIGACLLKPLTPTRLLPALTEFCHHKQNTLLPVTDESKLAMTVMAVDDNPANLKLIGALLEDMVQHVELCDSGHQAVERAKQMPFDLILMDIQMPDMDGIRACELIHQLPHQQQTPVIAVTAHAMAGQKEKLLGAGMSDYLAKPIEEERLHNLLLRYKPGSGISSRVVTPEVNEIVVNPNATLDWQLALRQAAGKTDLARDMLQMLLDFLPEVRNKVEEQLVGENPEGLVDLIHKLHGSCGYSGVPRMKNLCQLIEQQLRSGTKEEDLEPELLELLDEMDNVAREASKILG" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"BASR-MONOMER" "DNA-binding transcriptional dual regulator BasR" ["PmrA", "BasR", "BasR response regulator"] "MKILIVEDDTLLLQGLILAAQTEGYACDSVTTARMAEQSLEAGHYSLVVLDLGLPDEDGLHFLARIRQKKYTLPVLILTARDTLTDKIAGLDVGADDYLVKPFALEELHARIRALLRRHNNQGESELIVGNLTLNMGRRQVWMGGEELILTPKEYALLSRLMLKAGSPVHREILYNDIYNWDNEPSTNTLEVHIHNLRDKVGKARIRTVRGFGYMLVANEEN" [] ["CCO-CYTOSOL"] +"BASS-MONOMER" "sensor histidine kinase BasS" ["DgkR", "BasS", "PmrB"] "MHFLRRPISLRQRLILTIGAILLVFELISVFWLWHESTEQIQLFEQALRDNRNNDRHIMREIREAVASLIVPGVFMVSLTLFICYQAVRRITRPLAELQKELEARTADNLTPIAIHSATLEIEAVVSALNDLVSRLTSTLDNERLFTADVAHELRTPLAGVRLHLELLAKTHHIDVAPLVARLDQMMESVSQLLQLARAGQSFSSGNYQHVKLLEDVILPSYDELSTMLDQRQQTLLLPESAADITVQGDATLLRMLLRNLVENAHRYSPQGSNIMIKLQEDDGAVMAVEDEGPGIDESKCGELSKAFVRMDSRYGGIGLGLSIVSRITQLHHGQFFLQNRQETSGTRAWVRLKKDQYVANQI" ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"BCCP-MONOMER" "biotin carboxyl carrier protein" ["FabE", "AccB", "apo-[acetyl-CoA:carbon-dioxide ligase (ADP forming)]", "biotin carboxyl carrier protein", "BCCP"] "MDIRKIKKLIELVEESGISELEISEGEESVRISRAAPAASFPVMQQAYAAPMMQQPAQSNAAAPATVPSMEAPAAAEISGHIVRSPMVGTFYRTPSPDAKAFIEVGQKVNVGDTLCIVEAMKMMNQIEADKSGTVKAILVESGQPVEFDEPLVVIE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"BCR-MONOMER" "multidrug efflux pump Bcr" ["Sur", "SuxA", "BicR", "BicA", "Bcr"] "MTTRQHSSFAIVFILGLLAMLMPLSIDMYLPALPVISAQFGVPAGSTQMTLSTYILGFALGQLIYGPMADSFGRKPVVLGGTLVFAAAAVACALANTIDQLIVMRFFHGLAAAAASVVINALMRDIYPKEEFSRMMSFVMLVTTIAPLMAPIVGGWVLVWLSWHYIFWILALAAILASAMIFFLIKETLPPERRQPFHIRTTIGNFAALFRHKRVLSYMLASGFSFAGMFSFLSAGPFVYIEINHVAPENFGYYFALNIVFLFVMTIFNSRFVRRIGALNMFRSGLWIQFIMAAWMVISALLGLGFWSLVVGVAAFVGCVSMVSSNAMAVILDEFPHMAGTASSLAGTFRFGIGAIVGALLSLATFNSAWPMIWSIAFCATSSILFCLYASRPKKR" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"BETA-GLUCURONID-MONOMER" "β-glucuronidase" ["GusA", "GurA", "UidA"] "MLRPVETPTREIKKLDGLWAFSLDRENCGIDQRWWESALQESRAIAVPGSFNDQFADADIRNYAGNVWYQREVFIPKGWAGQRIVLRFDAVTHYGKVWVNNQEVMEHQGGYTPFEADVTPYVIAGKSVRITVCVNNELNWQTIPPGMVITDENGKKKQSYFHDFFNYAGIHRSVMLYTTPNTWVDDITVVTHVAQDCNHASVDWQVVANGDVSVELRDADQQVVATGQGTSGTLQVVNPHLWQPGEGYLYELCVTAKSQTECDIYPLRVGIRSVAVKGEQFLINHKPFYFTGFGRHEDADLRGKGFDNVLMVHDHALMDWIGANSYRTSHYPYAEEMLDWADEHGIVVIDETAAVGFNLSLGIGFEAGNKPKELYSEEAVNGETQQAHLQAIKELIARDKNHPSVVMWSIANEPDTRPQGAREYFAPLAEATRKLDPTRPITCVNVMFCDAHTDTISDLFDVLCLNRYYGWYVQSGDLETAEKVLEKELLAWQEKLHQPIIITEYGVDTLAGLHSMYTDMWSEEYQCAWLDMYHRVFDRVSAVVGEQVWNFADFATSQGILRVGGNKKGIFTRDRKPKSAAFLLQKRWTGMNFGEKPQQGGKQ" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"BETACOMP-MONOMER" "sulfite reductase, hemoprotein subunit" ["CysI", "SiR-HP", "β subunit"] "MSEKHPGPLVVEGKLTDAERMKHESNYLRGTIAEDLNDGLTGGFKGDNFLLIRFHGMYQQDDRDIRAERAEQKLEPRHAMLLRCRLPGGVITTKQWQAIDKFAGENTIYGSIRLTNRQTFQFHGILKKNVKPVHQMLHSVGLDALATANDMNRNVLCTSNPYESQLHAEAYEWAKKISEHLLPRTRAYAEIWLDQEKVATTDEEPILGQTYLPRKFKTTVVIPPQNDIDLHANDMNFVAIAENGKLVGFNLLVGGGLSIEHGNKKTYARTASEFGYLPLEHTLAVAEAVVTTQRDWGNRTDRKNAKTKYTLERVGVETFKAEVERRAGIKFEPIRPYEFTGRGDRIGWVKGIDDNWHLTLFIENGRILDYPARPLKTGLLEIAKIHKGDFRITANQNLIIAGVPESEKAKIEKIAKESGLMNAVTPQRENSMACVSFPTCPLAMAEAERFLPSFIDNIDNLMAKHGVSDEHIVMRVTGCPNGCGRAMLAEVGLVGKAPGRYNLHLGGNRIGTRIPRMYKENITEPEILASLDELIGRWAKEREAGEGFGDFTVRAGIIRPVLDPARDLWD" [] [] +"BETAGALACTOSID-MONOMER" "β-galactosidase" ["LacZ"] "MTMITDSLAVVLQRRDWENPGVTQLNRLAAHPPFASWRNSEEARTDRPSQQLRSLNGEWRFAWFPAPEAVPESWLECDLPEADTVVVPSNWQMHGYDAPIYTNVTYPITVNPPFVPTENPTGCYSLTFNVDESWLQEGQTRIIFDGVNSAFHLWCNGRWVGYGQDSRLPSEFDLSAFLRAGENRLAVMVLRWSDGSYLEDQDMWRMSGIFRDVSLLHKPTTQISDFHVATRFNDDFSRAVLEAEVQMCGELRDYLRVTVSLWQGETQVASGTAPFGGEIIDERGGYADRVTLRLNVENPKLWSAEIPNLYRAVVELHTADGTLIEAEACDVGFREVRIENGLLLLNGKPLLIRGVNRHEHHPLHGQVMDEQTMVQDILLMKQNNFNAVRCSHYPNHPLWYTLCDRYGLYVVDEANIETHGMVPMNRLTDDPRWLPAMSERVTRMVQRDRNHPSVIIWSLGNESGHGANHDALYRWIKSVDPSRPVQYEGGGADTTATDIICPMYARVDEDQPFPAVPKWSIKKWLSLPGETRPLILCEYAHAMGNSLGGFAKYWQAFRQYPRLQGGFVWDWVDQSLIKYDENGNPWSAYGGDFGDTPNDRQFCMNGLVFADRTPHPALTEAKHQQQFFQFRLSGQTIEVTSEYLFRHSDNELLHWMVALDGKPLASGEVPLDVAPQGKQLIELPELPQPESAGQLWLTVRVVQPNATAWSEAGHISAWQQWRLAENLSVTLPAASHAIPHLTTSEMDFCIELGNKRWQFNRQSGFLSQMWIGDKKQLLTPLRDQFTRAPLDNDIGVSEATRIDPNAWVERWKAAGHYQAEAALLQCTADTLADAVLITTAHAWQHQGKTLFISRKTYRIDGSGQMAITVDVEVASDTPHPARIGLNCQLAQVAERVNWLGLGPQENYPDRLTAACFDRWDLPLSDMYTPYVFPSENGLRCGTRELNYGPHQWRGDFQFNISRYSQQQLMETSHRHLLHAEEGTWLNIDGFHMGIGGDDSWSPSVSAEFQLSAGRYHYQLVWCQK" [] [] +"BETT-MONOMER" null ["BetT"] "MTDLSHSREKDKINPVVFYTSAGLILLFSLTTILFRDFSALWIGRTLDWVSKTFGWYYLLAATLYIVFVVCIACSRFGSVKLGPEQSKPEFSLLSWAAMLFAAGIGIDLMFFSVAEPVTQYMQPPEGAGQTIEAARQAMVWTLFHYGLTGWSMYALMGMALGYFSYRYNLPLTIRSALYPIFGKRINGPIGHSVDIAAVIGTIFGIATTLGIGVVQLNYGLSVLFDIPDSMAAKAALIALSVIIATISVTSGVDKGIRVLSELNVALALGLILFVLFMGDTSFLLNALVLNVGDYVNRFMGMTLNSFAFDRPVEWMNNWTLFFWAWWVAWSPFVGLFLARISRGRTIRQFVLGTLIIPFTFTLLWLSVFGNSALYEIIHGGAAFAEEAMVHPERGFYSLLAQYPAFTFSASVATITGLLFYVTSADSGALVLGNFTSQLKDINSDAPGWLRVFWSVAIGLLTLGMLMTNGISALQNTTVIMGLPFSFVIFFVMAGLYKSLKVEDYRRESANRDTAPRPLGLQDRLSWKKRLSRLMNYPGTRYTKQMMETVCYPAMEEVAQELRLRGAYVELKSLPPEEGQQLGHLDLLVHMGEEQNFVYQIWPQQYSVPGFTYRARSGKSTYYRLETFLLEGSQGNDLMDYSKEQVITDILDQYERHLNFIHLHREAPGHSVMFPDA" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"BGLF-MONOMER" "β-glucoside specific PTS enzyme II / BglG kinase / BglG phosphatase" ["BglS", "BglF"] "MTELARKIVAGVGGADNIVSLMHCATRLRFKLKDESKAQAEVLKKTPGIIMVVESGGQFQVVIGNHVADVFLAVNSVAGLDEKAQQAPENDDKGNLLNRFVYVISGIFTPLIGLMAATGILKGMLALALTFQWTTEQSGTYLILFSASDALFWFFPIILGYTAGKRFGGNPFTAMVIGGALVHPLILTAFENGQKADALGLDFLGIPVTLLNYSSSVIPIIFSAWLCSILERRLNAWLPSAIKNFFTPLLCLMVITPVTFLLVGPLSTWISELIAAGYLWLYQAVPAFAGAVMGGFWQIFVMFGLHWGLVPLCINNFTVLGYDTMIPLLMPAIMAQVGAALGVFLCERDAQKKVVAGSAALTSLFGITEPAVYGVNLPRKYPFVIACISGALGATIIGYAQTKVYSFGLPSIFTFMQTIPSTGIDFTVWASVIGGVIAIGCAFVGTVMLHFITAKRQPAQGAPQEKTPEVITPPEQGGICSPMTGEIVPLIHVADTTFASGLLGKGIAILPSVGEVRSPVAGRIASLFATLHAIGIESDDGVEILIHVGIDTVKLDGKFFSAHVNVGDKVNTGDRLISFDIPAIREAGFDLTTPVLISNSDDFTDVLPHGTAQISAGEPLLSIIR" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"BIOTIN-CARBOXYL-MONOMER" "biotin carboxylase" ["AccC", "FabG"] "MLDKIVIANRGEIALRILRACKELGIKTVAVHSSADRDLKHVLLADETVCIGPAPSVKSYLNIPAIISAAEITGAVAIHPGYGFLSENANFAEQVERSGFIFIGPKAETIRLMGDKVSAIAAMKKAGVPCVPGSDGPLGDDMDKNRAIAKRIGYPVIIKASGGGGGRGMRVVRGDAELAQSISMTRAEAKAAFSNDMVYMEKYLENPRHVEIQVLADGQGNAIYLAERDCSMQRRHQKVVEEAPAPGITPELRRYIGERCAKACVDIGYRGAGTFEFLFENGEFYFIEMNTRIQVEHPVTEMITGVDLIKEQLRIAAGQPLSIKQEEVHVRGHAVECRINAEDPNTFLPSPGKITRFHAPGGFGVRWESHIYAGYTVPPYYDSMIGKLICYGENRDVAIARMKNALQELIIDGIKTNVDLQIRIMNDENFQHGGTNIHYLEKKLGLQEK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"BIOTIN-SYN-MONOMER" "biotin synthase" ["BioB"] "MAHRPRWTLSQVTELFEKPLLDLLFEAQQVHRQHFDPRQVQVSTLLSIKTGACPEDCKYCPQSSRYKTGLEAERLMEVEQVLESARKAKAAGSTRFCMGAAWKNPHERDMPYLEQMVQGVKAMGLEACMTLGTLSESQAQRLANAGLDYYNHNLDTSPEFYGNIITTRTYQERLDTLEKVRDAGIKVCSGGIVGLGETVKDRAGLLLQLANLPTPPESVPINMLVKVKGTPLADNDDVDAFDFIRTIAVARIMMPTSYVRLSAGREQMNEQTQAMCFMAGANSIFYGCKLLTTPNPEEDKDLQLFRKLGLNPQQTAVLAGDNEQQQRLEQALMTPDTDEYYNAAAL" [] ["CCO-CYTOSOL"] +"BIOTINLIG-MONOMER" "DNA-binding transcriptional repressor/biotin-[acetyl-CoA-carboxylase] ligase BirA" ["BirA", "BioR", "DhbB", "biotin-[acetylCoA carboxylase] holoenzyme synthetase and biotin operon repressor"] "MKDNTVPLKLIALLANGEFHSGEQLGETLGMSRAAINKHIQTLRDWGVDVFTVPGKGYSLPEPIQLLNAKQILGQLDGGSVAVLPVIDSTNQYLLDRIGELKSGDACIAEYQQAGRGRRGRKWFSPFGANLYLSMFWRLEQGPAAAIGLSLVIGIVMAEVLRKLGADKVRVKWPNDLYLQDRKLAGILVELTGKTGDAAQIVIGAGINMAMRRVEESVVNQGWITLQEAGINLDRNTLAAMLIRELRAALELFEQEGLAPYLSRWEKLDNFINRPVKLIIGDKEIFGISRGIDKQGALLLEQDGIIKPWMGGEISLRSAEK" [] ["CCO-CYTOSOL"] +"BRANCHED-CHAINAMINOTRANSFER-MONOMER" "branched-chain-amino-acid aminotransferase" ["IlvE"] "MTTKKADYIWFNGEMVRWEDAKVHVMSHALHYGTSVFEGIRCYDSHKGPVVFRHREHMQRLHDSAKIYRFPVSQSIDELMEACRDVIRKNNLTSAYIRPLIFVGDVGMGVNPPAGYSTDVIIAAFPWGAYLGAEALEQGIDAMVSSWNRAAPNTIPTAAKAGGNYLSSLLVGSEARRHGYQEGIALDVNGYISEGAGENLFEVKDGVLFTPPFTSSALPGITRDAIIKLAKELGIEVREQVLSRESLYLADEVFMSGTAAEITPVRSVDGIQVGEGRCGPVTKRIQQAFFGLFTGETEDKWGWLDQVNQ" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"BRNQ-MONOMER" "branched chain amino acid transporter BrnQ" ["HrbA", "LIV-II", "BrnQ", "BrnQ branched chain amino acid LIVCS transporter"] "MTHQLRSRDIIALGFMTFALFVGAGNIIFPPMVGLQAGEHVWTAAFGFLITAVGLPVLTVVALAKVGGGVDSLSTPIGKVAGVLLATVCYLAVGPLFATPRTATVSFEVGIAPLTGDSALPLFIYSLVYFAIVILVSLYPGKLLDTVGNFLAPLKIIALVILSVAAIVWPAGSISTATEAYQNAAFSNGFVNGYLTMDTLGAMVFGIVIVNAARSRGVTEARLLTRYTVWAGLMAGVGLTLLYLALFRLGSDSASLVDQSANGAAILHAYVQHTFGGGGSFLLAALIFIACLVTAVGLTCACAEFFAQYVPLSYRTLVFILGGFSMVVSNLGLSQLIQISVPVLTAIYPPCIALVVLSFTRSWWHNSSRVIAPPMFISLLFGILDGIKASAFSDILPSWAQRLPLAEQGLAWLMPTVVMVVLAIIWDRAAGRQVTSSAH" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"BTUC-MONOMER" "vitamin B12 ABC transporter membrane subunit" [] "MLTLARQQQRQNIRWLLCLSVLMLLALLLSLCAGEQWISPGDWFTPRGELFVWQIRLPRTLAVLLVGAALAISGAVMQALFENPLAEPGLLGVSNGAGVGLIAAVLLGQGQLPNWALGLCAIAGALIITLILLRFARRHLSTSRLLLAGVALGIICSALMTWAIYFSTSVDLRQLMYWMMGGFGGVDWRQSWLMLALIPVLLWICCQSRPMNMLALGEISARQLGLPLWFWRNVLVAATGWMVGVSVALAGAIGFIGLVIPHILRLCGLTDHRVLLPGCALAGASALLLADIVARLALAAAELPIGVVTATLGAPVFIWLLLKAGR" ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"BTUD-MONOMER" "vitamin B12 ABC transporter ATP binding subunit" [] "MSIVMQLQDVAESTRLGPLSGEVRAGEILHLVGPNGAGKSTLLARMAGMTSGKGSIQFAGQPLEAWSATKLALHRAYLSQQQTPPFATPVWHYLTLHQHDKTRTELLNDVAGALALDDKLGRSTNQLSGGEWQRVRLAAVVLQITPQANPAGQLLLLDEPMNSLDVAQQSALDKILSALCQQGLAIVMSSHDLNHTLRHAHRAWLLKGGKMLASGRREEVLTPPNLAQAYGMNFRRLDIEGHRMLISTI" ["CCO-MEMBRANE"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"BTUE-MONOMER" "thioredoxin/glutathione peroxidase" ["BtuE"] "MQDSILTTVVKDIDGEVTTLEKFAGNVLLIVNVASKCGLTPQYEQLENIQKAWVDRGFMVLGFPCNQFLEQEPGSDEEIKTYCTTTWGVTFPMFSKIEVNGEGRHPLYQKLIAAAPTAVAPEESGFYARMVSKGRAPLYPDDILWNFEKFLVGRDGKVIQRFSPDMTPEDPIVMESIKLALAK" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"CADB-MONOMER" "lysine:cadaverine antiporter" ["CadB"] "MSSAKKIGLFACTGVVAGNMMGSGIALLPANLASIGGIAIWGWIISIIGAMSLAYVYARLATKNPQQGGPIAYAGEISPAFGFQTGVLYYHANWIGNLAIGITAVSYLSTFFPVLNDPVPAGIACIAIVWVFTFVNMLGGTWVSRLTTIGLVLVLIPVVMTAIVGWHWFDAATYAANWNTADTTDGHAIIKSILLCLWAFVGVESAAVSTGMVKNPKRTVPLATMLGTGLAGIVYIAATQVLSGMYPSSVMAASGAPFAISASTILGNWAAPLVSAFTAFACLTSLGSWMMLVGQAGVRAANDGNFPKVYGEVDSNGIPKKGLLLAAVKMTALMILITLMNSAGGKASDLFGELTGIAVLLTMLPYFYSCVDLIRFEGVNIRNFVSLICSVLGCVFCFIALMGASSFELAGTFIVSLIILMFYARKMHERQSHSMDNHTASNAH" ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"CAIC-MONOMER" "carnitine—CoA ligase" ["YaaM", "CaiC"] "MDIIGGQHLRQMWDDLADVYGHKTALICESSGGVVNRYSYLELNQEINRTANLFYTLGIRKGDKVALHLDNCPEFIFCWFGLAKIGAIMVPINARLLCEESAWILQNSQACLLVTSAQFYPMYQQIQQEDATQLRHICLTDVALPADDGVSSFTQLKNQQPATLCYAPPLSTDDTAEILFTSGTTSRPKGVVITHYNLRFAGYYSAWQCALRDDDVYLTVMPAFHIDCQCTAAMAAFSAGATFVLVEKYSARAFWGQVQKYRATVTECIPMMIRTLMVQPPSANDQQHRLREVMFYLNLSEQEKDAFCERFGVRLLTSYGMTETIVGIIGDRPGDKRRWPSIGRVGFCYEAEIRDDHNRPLPAGEIGEICIKGIPGKTIFKEYFLNPQATAKVLEADGWLHTGDTGYRDEEDFFYFVDRRCNMIKRGGENVSCVELENIIAAHPKIQDIVVVGIKDSIRDEAIKAFVVLNEGETLSEEEFFRFCEQNMAKFKVPSYLEIRKDLPRNCSGKIIRKNLK" [] ["CCO-CYTOSOL"] +"CAIE-MONOMER" "putative transferase CaiE" ["CaiE"] "MSYYAFEGLIPVVHPTAFVHPSAVLIGDVIVGAGVYIGPLASLRGDYGRLIVQAGANIQDGCIMHGYCDTDTIVGENGHIGHGAILHGCLIGRDALVGMNSVIMDGAVIGEESIVAAMSFVKAGFRGEKRQLLMGTPARAVRNVSDDELHWKRLNTKEYQDLVGRCHVSLHETQPLRQMEENRPRLQGTTDVTPKR" [] ["CCO-CYTOSOL"] +"CAIT-MONOMER" "L-carnitine:γ-butyrobetaine antiporter" ["YaaP", "CaiT"] "MKNEKRKTGIEPKVFFPPLIIVGILCWLTVRDLDAANVVINAVFSYVTNVWGWAFEWYMVVMLFGWFWLVFGPYAKKRLGNEPPEFSTASWIFMMFASCTSAAVLFWGSIEIYYYISTPPFGLEPNSTGAKELGLAYSLFHWGPLPWATYSFLSVAFAYFFFVRKMEVIRPSSTLVPLVGEKHAKGLFGTIVDNFYLVALIFAMGTSLGLATPLVTECMQWLFGIPHTLQLDAIIITCWIILNAICVACGLQKGVRIASDVRSYLSFLMLGWVFIVSGASFIMNYFTDSVGMLLMYLPRMLFYTDPIAKGGFPQGWTVFYWAWWVIYAIQMSIFLARISRGRTVRELCFGMVLGLTASTWILWTVLGSNTLLLIDKNIINIPNLIEQYGVARAIIETWAALPLSTATMWGFFILCFIATVTLVNACSYTLAMSTCREVRDGEEPPLLVRIGWSILVGIIGIVLLALGGLKPIQTAIIAGGCPLFFVNIMVTLSFIKDAKQNWKD" ["CCO-PM-BAC-NEG"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"CARBODEHYDRAT-MONOMER" "carbonic anhydrase 1" ["CynT"] "MKEIIDGFLKFQREAFPKREALFKQLATQQSPRTLFISCSDSRLVPELVTQREPGDLFVIRNAGNIVPSYGPEPGGVSASVEYAVAALRVSDIVICGHSNCGAMTAIASCQCMDHMPAVSHWLRYADSARVVNEARPHSDLPSKAAAMVRENVIAQLANLQTHPSVRLALEEGRIALHGWVYDIESGSIAAFDGATRQFVPLAANPRVCAIPLRQPTAA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"CARBOXYL-TRANSFERASE-ALPHA-MONOMER" "acetyl-CoA carboxyltransferase subunit α" ["AccA"] "MSLNFLDFEQPIAELEAKIDSLTAVSRQDEKLDINIDEEVHRLREKSVELTRKIFADLGAWQIAQLARHPQRPYTLDYVRLAFDEFDELAGDRAYADDKAIVGGIARLDGRPVMIIGHQKGRETKEKIRRNFGMPAPEGYRKALRLMQMAERFKMPIITFIDTPGAYPGVGAEERGQSEAIARNLREMSRLGVPVVCTVIGEGGSGGALAIGVGDKVNMLQYSTYSVISPEGCASILWKSADKAPLAAEAMGIIAPRLKELKLIDSIIPEPLGGAHRNPEAMAASLKAQLLADLADLDVLSTEDLKNRRYQRLMSYGYA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"CARBOXYL-TRANSFERASE-BETA-MONOMER" "acetyl-CoA carboxyltransferase subunit β" ["Usg", "DedB", "AccD"] "MSWIERIKSNITPTRKASIPEGVWTKCDSCGQVLYRAELERNLEVCPKCDHHMRMTARNRLHSLLDEGSLVELGSELEPKDVLKFRDSKKYKDRLASAQKETGEKDALVVMKGTLYGMPVVAAAFEFAFMGGSMGSVVGARFVRAVEQALEDNCPLICFSASGGARMQEALMSLMQMAKTSAALAKMQERGLPYISVLTDPTMGGVSASFAMLGDLNIAEPKALIGFAGPRVIEQTVREKLPPGFQRSEFLIEKGAIDMIVRRPEMRLKLASILAKLMNLPAPNPEAPREGVVVPPVPDQEPEA" [] ["CCO-CYTOSOL"] +"CARBPSYN-LARGE" "carbamoyl phosphate synthetase subunit β" ["CarB", "Cap", "PyrA", "β chain", "large chain", "carbamoyl phosphate synthetase, β chain"] "MPKRTDIKSILILGAGPIVIGQACEFDYSGAQACKALREEGYRVILVNSNPATIMTDPEMADATYIEPIHWEVVRKIIEKERPDAVLPTMGGQTALNCALELERQGVLEEFGVTMIGATADAIDKAEDRRRFDVAMKKIGLETARSGIAHTMEEALAVAADVGFPCIIRPSFTMGGSGGGIAYNREEFEEICARGLDLSPTKELLIDESLIGWKEYEMEVVRDKNDNCIIVCSIENFDAMGIHTGDSITVAPAQTLTDKEYQIMRNASMAVLREIGVETGGSNVQFAVNPKNGRLIVIEMNPRVSRSSALASKATGFPIAKVAAKLAVGYTLDELMNDITGGRTPASFEPSIDYVVTKIPRFNFEKFAGANDRLTTQMKSVGEVMAIGRTQQESLQKALRGLEVGATGFDPKVSLDDPEALTKIRRELKDAGADRIWYIADAFRAGLSVDGVFNLTNIDRWFLVQIEELVRLEEKVAEVGITGLNADFLRQLKRKGFADARLAKLAGVREAEIRKLRDQYDLHPVYKRVDTCAAEFATDTAYMYSTYEEECEANPSTDREKIMVLGGGPNRIGQGIEFDYCCVHASLALREDGYETIMVNCNPETVSTDYDTSDRLYFEPVTLEDVLEIVRIEKPKGVIVQYGGQTPLKLARALEAAGVPVIGTSPDAIDRAEDRERFQHAVERLKLKQPANATVTAIEMAVEKAKEIGYPLVVRPSYVLGGRAMEIVYDEADLRRYFQTAVSVSNDAPVLLDHFLDDAVEVDVDAICDGEMVLIGGIMEHIEQAGVHSGDSACSLPAYTLSQEIQDVMRQQVQKLAFELQVRGLMNVQFAVKNNEVYLIEVNPRAARTVPFVSKATGVPLAKVAARVMAGKSLAEQGVTKEVIPPYYSVKEVVLPFNKFPGVDPLLGPEMRSTGEVMGVGRTFAEAFAKAQLGSNSTMKKHGRALLSVREGDKERVVDLAAKLLKQGFELDATHGTAIVLGEAGINPRLVNKVHEGRPHIQDRIKNGEYTYIINTTSGRRAIEDSRVIRRSALQYKVHYDTTLNGGFATAMALNADATEKVISVQEMHAQIK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"CARBPSYN-SMALL" "carbamoyl phosphate synthetase subunit α" ["CarA", "Arg", "Cap", "PyrA", "α chain", "small chain", "carbamoyl phosphate synthetase, α chain"] "MIKSALLVLEDGTQFHGRAIGATGSAVGEVVFNTSMTGYQEILTDPSYSRQIVTLTYPHIGNVGTNDADEESSQVHAQGLVIRDLPLIASNFRNTEDLSSYLKRHNIVAIADIDTRKLTRLLREKGAQNGCIIAGDNPDAALALEKARAFPGLNGMDLAKEVTTAEAYSWTQGSWTLTGGLPEAKKEDELPFHVVAYDFGAKRNILRMLVDRGCRLTIVPAQTSAEDVLKMNPDGIFLSNGPGDPAPCDYAITAIQKFLETDIPVFGICLGHQLLALASGAKTVKMKFGHHGGNHPVKDVEKNVVMITAQNHGFAVDEATLPANLRVTHKSLFDGTLQGIHRTDKPAFSFQGHPEASPGPHDAAPLFDHFIELIEQYRKTAK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"CARDIOLIPSYN-MONOMER" "cardiolipin synthase A" ["ClsA", "YciJ", "Nov", "Cls", "cardiolipin synthase 1"] "MTTVYTLVSWLAILGYWLLIAGVTLRILMKRRAVPSAMAWLLIIYILPLVGIIAYLAVGELHLGKRRAERARAMWPSTAKWLNDLKACKHIFAEENSSVAAPLFKLCERRQGIAGVKGNQLQLMTESDDVMQALIRDIQLARHNIEMVFYIWQPGGMADQVAESLMAAARRGIHCRLMLDSAGSVAFFRSPWPELMRNAGIEVVEALKVNLMRVFLRRMDLRQHRKMIMIDNYIAYTGSMNMVDPRYFKQDAGVGQWIDLMARMEGPIATAMGIIYSCDWEIETGKRILPPPPDVNIMPFEQASGHTIHTIASGPGFPEDLIHQALLTAAYSAREYLIMTTPYFVPSDDLLHAICTAAQRGVDVSIILPRKNDSMLVGWASRAFFTELLAAGVKIYQFEGGLLHTKSVLVDGELSLVGTVNLDMRSLWLNFEITLAIDDKGFGADLAAVQDDYISRSRLLDARLWLKRPLWQRVAERLFYFFSPLL" ["CCO-MEMBRANE"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"CARNDEHYDRA-MONOMER" "γ-butyrobetainyl-CoA:carnitine CoA transferase" ["YaaN", "CaiB"] "MDHLPMPKFGPLAGLRVVFSGIEIAGPFAGQMFAEWGAEVIWIENVAWADTIRVQPNYPQLSRRNLHALSLNIFKDEGREAFLKLMETTDIFIEASKGPAFARRGITDEVLWQHNPKLVIAHLSGFGQYGTEEYTNLPAYNTIAQAFSGYLIQNGDVDQPMPAFPYTADYFSGLTATTAALAALHKVRETGKGESIDIAMYEVMLRMGQYFMMDYFNGGEMCPRMSKGKDPYYAGCGLYKCADGYIVMELVGITQIEECFKDIGLAHLLGTPEIPEGTQLIHRIECPYGPLVEEKLDAWLATHTIAEVKERFAELNIACAKVLTVPELESNPQYVARESITQWQTMDGRTCKGPNIMPKFKNNPGQIWRGMPSHGMDTAAILKNIGYSENDIQELVSKGLAKVED" [] ["CCO-CYTOSOL"] +"CARNRACE-MONOMER" null ["YaaL", "CaiD"] "MSESLHLTRNGSILEITLDRPKANAIDAKTSFEMGEVFLNFRDDPQLRVAIITGAGEKFFSAGWDLKAAAEGEAPDADFGPGGFAGLTEIFNLDKPVIAAVNGYAFGGGFELALAADFIVCADNASFALPEAKLGIVPDSGGVLRLPKILPPAIVNEMVMTGRRMGAEEALRWGIVNRVVSQAELMDNARELAQQLVNSAPLAIAALKEIYRTTSEMPVEEAYRYIRSGVLKHYPSVLHSEDAIEGPLAFAEKRDPVWKGR" [] ["CCO-CYTOSOL"] +"CCMA-MONOMER" "cytochrome c maturation protein A" ["YejW", "heme trafficking system protein A"] "MGMLEARELLCERDERTLFSGLSFTLNAGEWVQITGSNGAGKTTLLRLLTGLSRPDAGEVLWQGQPLHQVRDSYHQNLLWIGHQPGIKTRLTALENLHFYHRDGDTAQCLEALAQAGLAGFEDIPVNQLSAGQQRRVALARLWLTRATLWILDEPFTAIDVNGVDRLTQRMAQHTEQGGIVILTTHQPLNVAESKIRRISLTQTRAA" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-CYTOSOL", "CCO-PM-BAC-NEG"] +"CCMB-MONOMER" "cytochrome c maturation protein B" ["YejV", "heme trafficking system protein B"] "MMFWRIFRLELRVAFRHSAEIANPLWFFLIVITLFPLSIGPEPQLLARIAPGIIWVAALLSSLLALERLFRDDLQDGSLEQLMLLPLPLPAVVLAKVMAHWMVTGLPLLILSPLVAMLLGMDVYGWQVMALTLLLGTPTLGFLGAPGVALTVGLKRGGVLLSILVLPLTIPLLIFATAAMDAASMHLPVDGYLAILGALLAGTATLSPFATAAALRISIQ" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"CCMC-MONOMER" "cytochrome c maturation protein C" ["YejU", "YejT", "heme trafficking system protein C"] "MWKTLHQLAIPPRLYQICGWFIPWLAIASVVVLTVGWIWGFGFAPADYQQGNSYRIIYLHVPAAIWSMGIYASMAVAAFIGLVWQMKMANLAVAAMAPIGAVFTFIALVTGSAWGKPMWGTWWVWDARLTSELVLLFLYVGVIALWHAFDDRRLAGRAAGILVLIGVVNLPIIHYSVEWWNTLHQGSTRMQQSIDPAMRSPLRWSIFGFLLLSATLTLMRMRNLILLMEKRRPWVSELILKRGRK" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"CCME-MONOMER" "periplasmic heme chaperone" ["YejS", "cyctochrome c maturation protein E"] "MNIRRKNRLWIACAVLAGLALTIGLVLYALRSNIDLFYTPGEILYGKRETQQMPEVGQRLRVGGMVMPGSVQRDPNSLKVTFTIYDAEGSVDVSYEGILPDLFREGQGVVVQGELEKGNHILAKEVLAKHDENYTPPEVEKAMEANHRRPASVYKDPAS" ["CCO-PM-BAC-NEG"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"CDPDIGLYPYPHOSPHA-MONOMER" null ["Cdh"] "MKKAGLLFLVMIVIAVVAAGIGYWKLTGEESDTLRKIVLEECLPNQQQNQNPSPCAEVKPNAGYVVLKDLNGPLQYLLMPTYRINGTESPLLTDPSTPNFFWLAWQARDFMSKKYGQPVPDRAVSLAINSRTGRTQNHFHIHISCIRPDVRKQLDNNLANISSRWLPLPGGLRGHEYLARRVTESELVQRSPFMMLAEEVPEAREHMGRYGLAMVRQSDNSFVLLATQRNLLTLNRASAEEIQDHQCEILR" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"CDPDIGLYSYN-MONOMER" "CDP-diglyceride synthetase" ["Cds", "CdsA"] "MLKYRLISAFVLIPVVIAALFLLPPVGFAIVTLVVCMLAAWEWGQLSGFTTRSQRVWLAVLCGLLLALMLFLLPEYHRNIHQPLVEISLWASLGWWIVALLLVLFYPGSAAIWRNSKTLRLIFGVLTIVPFFWGMLALRAWHYDENHYSGAIWLLYVMILVWGADSGAYMFGKLFGKHKLAPKVSPGKTWQGFIGGLATAAVISWGYGMWANLDVAPVTLLICSIVAALASVLGDLTESMFKREAGIKDSGHLIPGHGGILDRIDSLTAAVPVFACLLLLVFRTL" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"CELA-MONOMER" "N,N'-diacetylchitobiose-specific PTS enzyme IIB component" ["CelA", "Enzyme IIBcel", "EIIBcel", "EIIchb", "Enzyme IIBchb"] "MEKKHIYLFCSAGMSTSLLVSKMRAQAEKYEVPVIIEAFPETLAGEKGQNADVVLLGPQIAYMLPEIQRLLPNKPVEVIDSLLYGKVDGLGVLKAAVAAIKKAAAN" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"CELB-MONOMER" "N,N'-diacetylchitobiose-specific PTS enzyme IIC component" ["Hic", "CelB", "EIICcel", "Enzyme IICcel", "EIICchb", "Enzyme IICchb"] "MSNVIASLEKVLLPFAVKIGKQPHVNAIKNGFIRLMPLTLAGAMFVLINNVFLSFGEGSFFYSLGIRLDASTIETLNGLKGIGGNVYNGTLGIMSLMAPFFIGMALAEERKVDALAAGLLSVAAFMTVTPYSVGEAYAVGANWLGGANIISGIIIGLVVAEMFTFIVRRNWVIKLPDSVPASVSRSFSALIPGFIILSVMGIIAWALNTWGTNFHQIIMDTISTPLASLGSVVGWAYVIFVPLLWFFGIHGALALTALDNGIMTPWALENIATYQQYGSVEAALAAGKTFHIWAKPMLDSFIFLGGSGATLGLILAIFIASRRADYRQVAKLALPSGIFQINEPILFGLPIIMNPVMFIPFVLVQPILAAITLAAYYMGIIPPVTNIAPWTMPTGLGAFFNTNGSVAALLVALFNLGIATLIYLPFVVVANKAQNAIDKEESEEDIANALKF" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"CELC-MONOMER" "N,N'-diacetylchitobiose-specific PTS enzyme IIA component" ["CelC", "EIIAchb", "Enzyme IIAchb", "EIIIchb", "Enzyme IIIchb"] "MMDLDNIPDTQTEAEELEEVVMGLIINSGQARSLAYAALKQAKQGDFAAAKAMMDQSRMALNEAHLVQTKLIEGDAGEGKMKVSLVLVHAQDHLMTSMLARELITELIELHEKLKA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"CFA-MONOMER" "cyclopropane fatty acyl phospholipid synthase" ["Cfa", "CdfA"] "MSSSCIEEVSVPDDNWYRIANELLSRAGIAINGSAPADIRVKNPDFFKRVLQEGSLGLGESYMDGWWECDRLDMFFSKVLRAGLENQLPHHFKDTLRIAGARLFNLQSKKRAWIVGKEHYDLGNDLFSRMLDPFMQYSCAYWKDADNLESAQQAKLKMICEKLQLKPGMRVLDIGCGWGGLAHYMASNYDVSVVGVTISAEQQKMAQERCEGLDVTILLQDYRDLNDQFDRIVSVGMFEHVGPKNYDTYFAVVDRNLKPEGIFLLHTIGSKKTDLNVDPWINKYIFPNGCLPSVRQIAQSSEPHFVMEDWHNFGADYDTTLMAWYERFLAAWPEIADNYSERFKRMFTYYLNACAGAFRARDIQLWQVVFSRGVENGLRVAR" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"CHAA-MONOMER" "Na+/K+:H+ antiporter ChaA" ["ChaA"] "MSNAQEAVKTRHKETSLIFPVLALVVLFLWGSSQTLPVVIAINLLALIGILSSAFSVVRHADVLAHRLGEPYGSLILSLSVVILEVSLISALMATGDAAPTLMRDTLYSIIMIVTGGLVGFSLLLGGRKFATQYMNLFGIKQYLIALFPLAIIVLVFPMALPAANFSTGQALLVALISAAMYGVFLLIQTKTHQSLFVYEHEDDSDDDDPHHGKPSAHSSLWHAIWLIIHLIAVIAVTKMNASSLETLLDSMNAPVAFTGFLVALLILSPEGLGALKAVLNNQVQRAMNLFFGSVLATISLTVPVVTLIAFMTGNELQFALGAPEMVVMVASLVLCHISFSTGRTNVLNGAAHLALFAAYLMTIFA" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"CHAINF-MONOMER" "CP4-6 prophage; ornithine carbamoyltransferase ArgF" ["ArgF", "ornithine carbamoyltransferase chain F"] "MSDLYKKHFLKLLDFTPAQFTSLLTLAAQLKADKKNGKEVQKLTGKNIALIFEKDSTRTRCSFEVAAFDQGARVTYLGPSGSQIGHKESIKDTARVLGRMYDGIQYRGHGQEVVETLAQYAGVPVWNGLTNEFHPTQLLADLMTMQEHLPGKAFNEMTLVYAGDARNNMGNSMLEAAALTGLDLRLLAPKACWPEESLVAECSALAEKHGGKITLTEDVAAGVKGADFIYTDVWVSMGEAKEKWAERIALLRGYQVNAQMMALTDNPNVKFLHCLPAFHDDQTTLGKQMAKEFDLHGGMEVTDEVFESAASIVFDQAENRMHTIKAVMMATLGE" [] ["CCO-CYTOSOL"] +"CHAINI-MONOMER" "ornithine carbamoyltransferase ArgI" ["ArgI", "ornithine carbamoyltransferase chain I"] "MSGFYHKHFLKLLDFTPAELNSLLQLAAKLKADKKSGKEEAKLTGKNIALIFEKDSTRTRCSFEVAAYDQGARVTYLGPSGSQIGHKESIKDTARVLGRMYDGIQYRGYGQEIVETLAEYASVPVWNGLTNEFHPTQLLADLLTMQEHLPGKAFNEMTLVYAGDARNNMGNSMLEAAALTGLDLRLVAPQACWPEAALVTECRALAQQNGGNITLTEDVAKGVEGADFIYTDVWVSMGEAKEKWAERIALLREYQVNSKMMQLTGNPEVKFLHCLPAFHDDQTTLGKKMAEEFGLHGGMEVTDEVFESAASIVFDQAENRMHTIKAVMVATLSK" [] ["CCO-CYTOSOL"] +"CHD-MONOMER" "choline dehydrogenase" ["BetA"] "MQFDYIIIGAGSAGNVLATRLTEDPNTSVLLLEAGGPDYRFDFRTQMPAALAFPLQGKRYNWAYETEPEPFMNNRRMECGRGKGLGGSSLINGMCYIRGNALDLDNWAQEPGLENWSYLDCLPYYRKAETRDMGENDYHGGDGPVSVTTSKPGVNPLFEAMIEAGVQAGYPRTDDLNGYQQEGFGPMDRTVTPQGRRASTARGYLDQAKSRPNLTIRTHAMTDHIIFDGKRAVGVEWLEGDSTIPTRATANKEVLLCAGAIASPQILQRSGVGNAELLAEFDIPLVHELPGVGENLQDHLEMYLQYECKEPVSLYPALQWWNQPKIGAEWLFGGTGVGASNHFEAGGFIRSREEFAWPNIQYHFLPVAINYNGSNAVKEHGFQCHVGSMRSPSRGHVRIKSRDPHQHPAILFNYMSHEQDWQEFRDAIRITREIMHQPALDQYRGREISPGVECQTDEQLDEFVRNHAETAFHPCGTCKMGYDEMSVVDGEGRVHGLEGLRVVDASIMPQIITGNLNATTIMIGEKIADMIRGQEALPRSTAGYFVANGMPVRAKK" ["CCO-MEMBRANE"] ["CCO-PM-BAC-NEG", "CCO-CYTOSOL", "CCO-MEMBRANE"] +"CHEA-SMALL" "chemotaxis protein CheA(S)" ["CheA", "CheA(S)", "chemotaxis protein CheA(S)", "CheAS"] "MQEQLDAYKQSQEPDAASFDYICQALRQLALEAKGETPSAVTRLSVVAKSEPQDEQSRSQSPRRIILSRLKAGEVDLLEEELGHLTTLTDVVKGADSLSAILPGDIAEDDITAVLCFVIEADQITFETVEVSPKISTPPVLKLAAEQAPTGRVEREKTTRSNESTSIRVAVEKVDQLINLVGELVITQSMLAQRSSELDPVNHGDLITSMGQLQRNARDLQESVMSIRMMPMEYVFSRYPRLVRDLAGKLGKQVELTLVGSSTELDKSLIERIIDPLTHLVRNSLDHGIELPEKRLAAGKNSVGNLILSAEHQGGNICIEVTDDGAGLNRERILAKAASQGLTVSENMSDDEVAMLIFAPGFSTAEQVTDVSGRGVGMDVVKRNIQKMGGHVEIQSKQGTGTTIRILLPLTLAILDGMSVRVADEVFILPLNAVMESLQPREADLHPLAGGERVLEVRGEYLPIVELWKVFNVAGAKTEATQGIVVILQSGGRRYALLVDQLIGQHQVVVKNLESNYRKVPGISAATILGDGSVALIVDVSALQAINREQRMANTAA" ["CCO-CYTOSOL"] [] +"CHEB-MONOMER" "protein-glutamate methylesterase/protein glutamine deamidase" ["chemotaxis protein CheB", "CheB"] "MSKIRVLSVDDSALMRQIMTEIINSHSDMEMVATAPDPLVARDLIKKFNPDVLTLDVEMPRMDGLDFLEKLMRLRPMPVVMVSSLTGKGSEVTLRALELGAIDFVTKPQLGIREGMLAYNEMIAEKVRTAAKASLAAHKPLSAPTTLKAGPLLSSEKLIAIGASTGGTEAIRHVLQPLPLSSPALLITQHMPPGFTRSFADRLNKLCQIGVKEAEDGERVLPGHAYIAPGDRHMELSRSGANYQIKIHDGPAVNRHRPSVDVLFHSVAKQAGRNAVGVILTGMGNDGAAGMLAMRQAGAWTLAQNEASCVVFGMPREAINMGGVCEVVDLSQVSQQMLAKISAGQAIRI" ["CCO-PM-BAC-NEG", "CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"CHER-MONOMER" "chemotaxis protein methyltransferase" ["CheX", "CheR", "MCP O-methyltransferase", "methyl-accepting chemotaxis protein O-methyltransferase", "S-adenosyl-L-methionine:protein-L-glutamate O-methyltransferase"] "MTSSLPCGQTSLLLQMTERLALSDAHFRRISQLIYQRAGIVLADHKRDMVYNRLVRRLRSLGLTDFGHYLNLLESNQHSGEWQAFINSLTTNLTAFFREAHHFPLLADHARRRSGEYRVWSAAASTGEEPYSIAMTLADTLGTAPGRWKVFASDIDTEVLEKARSGIYRHEELKNLTPQQLQRYFMRGTGPHEGLVRVRQELANYVDFAPLNLLAKQYTVPGPFDAIFCRNVMIYFDQTTQQEILRRFVPLLKPDGLLFAGHSENFSHLERRFTLRGQTVYALSKD" ["CCO-PM-BAC-NEG", "CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"CHEW-MONOMER" "chemotaxis protein CheW" ["purine-binding chemotaxis protein", "CheW"] "MTGMTNVTKLASEPSGQEFLVFTLGDEEYGIDILKVQEIRGYDQVTRIANTPAFIKGVTNLRGVIVPIVDLRIKFSQVDVDYNDNTVVIVLNLGQRVVGIVVDGVSDVLSLTAEQIRPAPEFAVTLSTEYLTGLGALGDRMLILVNIEKLLNSEEMALLDSAASEVA" ["CCO-PM-BAC-NEG", "CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"CHEY-MONOMER" "chemotaxis protein CheY" ["CheY", "chemotaxis response regulator protein CheY"] "MADKELKFLVVDDFSTMRRIVRNLLKELGFNNVEEAEDGVDALNKLQAGGYGFVISDWNMPNMDGLELLKTIRADGAMSALPVLMVTAEAKKENIIAAAQAGASGYVVKPFTAATLEEKLNKIFEKLGM" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"CHEZ-MONOMER" "chemotaxis protein CheZ" ["CheZ"] "MMQPSIKPADEHSAGDIIARIGSLTRMLRDSLRELGLDQAIAEAAEAIPDARDRLYYVVQMTAQAAERALNSVEASQPHQDQMEKSAKALTQRWDDWFADPIDLADARELVTDTRQFLADVPAHTSFTNAQLLEIMMAQDFQDLTGQVIKRMMDVIQEIERQLLMVLLENIPEQESRPKRENQSLLNGPQVDTSKAGVVASQDQVDDLLDSLGF" ["CCO-PM-BAC-NEG", "CCO-CYTOSOL"] ["CCO-CELL-PROJECTION", "CCO-CYTOSOL"] +"CHORISMUTPREPHENDEHYDRAT-MONOMER" "fused chorismate mutase/prephenate dehydratase" ["PheA"] "MTSENPLLALREKISALDEKLLALLAERRELAVEVGKAKLLSHRPVRDIDRERDLLERLITLGKAHHLDAHYITRLFQLIIEDSVLTQQALLQQHLNKINPHSARIAFLGPKGSYSHLAARQYAARHFEQFIESGCAKFADIFNQVETGQADYAVVPIENTSSGAINDVYDLLQHTSLSIVGEMTLTIDHCLLVSGTTDLSTINTVYSHPQPFQQCSKFLNRYPHWKIEYTESTSAAMEKVAQAKSPHVAALGSEAGGTLYGLQVLERIEANQRQNFTRFVVLARKAINVSDQVPAKTTLLMATGQQAGALVEALLVLRNHNLIMTRLESRPIHGNPWEEMFYLDIQANLESAEMQKALKELGEITRSMKVLGCYPSENVVPVDPT" [] ["CCO-CYTOSOL"] +"CHORISMUTPREPHENDEHYDROG-MONOMER" "fused chorismate mutase/prephenate dehydrogenase" ["TyrA"] "MVAELTALRDQIDEVDKALLNLLAKRLELVAEVGEVKSRFGLPIYVPEREASMLASRRAEAEALGVPPDLIEDVLRRVMRESYSSENDKGFKTLCPSLRPVVIVGGGGQMGRLFEKMLTLSGYQVRILEQHDWDRAADIVADAGMVIVSVPIHVTEQVIGKLPPLPKDCILVDLASVKNGPLQAMLVAHDGPVLGLHPMFGPDSGSLAKQVVVWCDGRKPEAYQWFLEQIQVWGARLHRISAVEHDQNMAFIQALRHFATFAYGLHLAEENVQLEQLLALSSPIYRLELAMVGRLFAQDPQLYADIIMSSERNLALIKRYYKRFGEAIELLEQGDKQAFIDSFRKVEHWFGDYAQRFQSESRVLLRQANDNRQ" [] ["CCO-CYTOSOL"] +"CHORPYRLY-MONOMER" null ["UbiC"] "MSHPALTQLRALRYCKEIPALDPQLLDWLLLEDSMTKRFEQQGKTVSVTMIREGFVEQNEIPEELPLLPKESRYWLREILLCADGEPWLAGRTVVPVSTLSGPELALQKLGKTPLGRYLFTSSTLTRDFIEIGRDAGLWGRRSRLRLSGKPLLLTELFLPASPLY" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"CITC-MONOMER" null ["YbeO", "CitC"] "MFGNDIFTRVKRSENKKMAEIAQFLHENDLSVDTTVEVFITVTRDEKLIACGGIAGNIIKCVAISESVRGEGLALTLATELINLAYERHSTHLFIYTKTEYEALFRQCGFSTLTSVPGVMVLMENSATRLKRYAESLKKFRHPGNKIGCIVMNANPFTNGHRYLIQQAAAQCDWLHLFLVKEDSSRFPYEDRLDLVLKGTADIPRLTVHRGSEYIISRATFPCYFIKEQSVINHCYTEIDLKIFRQYLAPALGVTHRFVGTEPFCRVTAQYNQDMRYWLETPTISAPPIELVEIERLRYQEMPISASRVRQLLAKNDLTAIAPLVPAVTLHYLQNLLEHSRQDAAARQKTPA" [] ["CCO-CYTOSOL"] +"CITRYLY-MONOMER" "citrate lyase β subunit" ["YbdW", "CitE", "citrate lyase, citryl-ACP lyase β subunit", "citrate lyase citryl-acyl carrier protein lyase subunit"] "MISASLQQRKTRTRRSMLFVPGANAAMVSNSFIYPADALMFDLEDSVALREKDTARRMVYHALQHPLYRDIETIVRVNALDSEWGVNDLEAVVRGGADVVRLPKTDTAQDVLDIEKEILRIEKACGREPGSTGLLAAIESPLGITRAVEIAHASERLIGIALGAEDYVRNLRTERSPEGTELLFARCSILQAARSAGIQAFDTVYSDANNEAGFLQEAAHIKQLGFDGKSLINPRQIDLLHNLYAPTQKEVDHARRVVEAAEAAAREGLGVVSLNGKMVDGPVIDRARLVLSRAELSGIREE" [] ["CCO-CYTOSOL"] +"CITSYN-MONOMER" "citrate synthase" ["GluT", "IcdB", "GltA"] "MADTKAKLTLNGDTAVELDVLKGTLGQDVIDIRTLGSKGVFTFDPGFTSTASCESKITFIDGDEGILLHRGFPIDQLATDSNYLEVCYILLNGEKPTQEQYDEFKTTVTRHTMIHEQITRLFHAFRRDSHPMAVMCGITGALAAFYHDSLDVNNPRHREIAAFRLLSKMPTMAAMCYKYSIGQPFVYPRNDLSYAGNFLNMMFSTPCEPYEVNPILERAMDRILILHADHEQNASTSTVRTAGSSGANPFACIAAGIASLWGPAHGGANEAALKMLEEISSVKHIPEFVRRAKDKNDSFRLMGFGHRVYKNYDPRATVMRETCHEVLKELGTKDDLLEVAMELENIALNDPYFIEKKLYPNVDFYSGIILKAMGIPSSMFTVIFAMARTVGWIAHWSEMHSDGMKIARPRQLYTGYEKRDFKSDIKR" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"CITTRANS-MONOMER" "citrate lyase α subunit" ["YbdV", "CitF", "citrate lyase, citrate-ACP transferase α subunit", "citrate lyase, citrate-acyl carrier protein transferase α subunit", "citrate lyase citrate-acyl carrier protein transferase subunit"] "MTQKIEQSQRQERVAAWNRRAECDLAAFQNSPKQTYQAEKARDRKLCANLEEAIRRSGLQDGMTVSFHHAFRGGDLTVNMVMDVIAKMGFKNLTLASSSLSDCHAPLVEHIRQGVVTRIYTSGLRGPLAEEISRGLLAEPVQIHSHGGRVHLVQSGELNIDVAFLGVPSCDEFGNANGYTGKACCGSLGYAIVDADNAKQVVMLTEELLPYPHNPASIEQDQVDLIVKVDRVGDAAKIGAGATRMTTNPRELLIARSAADVIVNSGYFKEGFSMQTGTGGASLAVTRFLEDKMRSRDIRADFALGGITATMVDLHEKGLIRKLLDVQSFDSHAAQSLARNPNHIEISANQYANWGSKGASVDRLDVVVLSALEIDTQFNVNVLTGSDGVLRGASGGHCDTAIASALSIIVAPLVRGRIPTLVDNVLTCITPGSSVDILVTDHGIAVNPARPELAERLQEAGIKVVSIEWLRERARLLTGEPQPIEFTDRVVAVVRYRDGSVIDVVHQVKE" [] ["CCO-CYTOSOL"] +"CMPKI-MONOMER" "cytidylate kinase" ["YcaF", "YcaG", "MssA", "Cmk"] "MTAIAPVITIDGPSGAGKGTLCKAMAEALQWHLLDSGAIYRVLALAALHHHVDVASEDALVPLASHLDVRFVSTNGNLEVILEGEDVSGEIRTQEVANAASQVAAFPRVREALLRRQRAFRELPGLIADGRDMGTVVFPDAPVKIFLDASSEERAHRRMLQLQEKGFSVNFERLLAEIKERDDRDRNRAVAPLVPAADALVLDSTTLSIEQVIEKALQYARQKLALA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"CMR-MONOMER" "multidrug efflux pump MdfA / Na+:H+ antiporter / K+:H+ antiporter" ["CmlA", "Cmr", "MdfA"] "MQNKLASGARLGRQALLFPLCLVLYEFSTYIGNDMIQPGMLAVVEQYQAGIDWVPTSMTAYLAGGMFLQWLLGPLSDRIGRRPVMLAGVVWFIVTCLAILLAQNIEQFTLLRFLQGISLCFIGAVGYAAIQESFEEAVCIKITALMANVALIAPLLGPLVGAAWIHVLPWEGMFVLFAALAAISFFGLQRAMPETATRIGEKLSLKELGRDYKLVLKNGRFVAGALALGFVSLPLLAWIAQSPIIIITGEQLSSYEYGLLQVPIFGALIAGNLLLARLTSRRTVRSLIIMGGWPIMIGLLVAAAATVISSHAYLWMTAGLSIYAFGIGLANAGLVRLTLFASDMSKGTVSAAMGMLQMLIFTVGIEISKHAWLNGGNGLFNLFNLVNGILWLSLMVIFLKDKQMGNSHEG" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"CMTA-MONOMER" "mannitol-specific PTS enzyme IICB component CmtA" ["EIICBCmt", "Enzyme IICBCmt"] "MENKSARAKVQAFGGFLTAMVIPNIGAFIAWGFITALFIPTGWLPNEHFAKIVGPMITYLLPVMIGSTGGHLVGGKRGAVMGGIGTIGVIVGAEIPMFLGSMIMGPLGGLVIKYVDKALEKRIPAGFEMVINNFSLGIAGMLLCLLGFEVIGPAVLIANTFVKECIEALVHAGYLPLLSVINEPAKVLFLNNAIDQGVYYPLGMQQASVNGKSIFFMVASNPGPGLGLLLAFTLFGKGMSKRSAPGAMIIHFLGGIHELYFPYVLMKPLTIIAMIAGGMSGTWMFNLLDGGLVAGPSPGSIFAYLALTPKGSFLATIAGVTVGTLVSFAITSLILKMEKTVETESEDEFAQSANAVKAMKQEGAFSLSRVKRIAFVCDAGMGSSAMGATTFRKRLEKAGLAIEVKHYAIENVPADADIVVTHASLEGRVKRVTDKPLILINNYIGDPKLDTLFNQLTAEHKH" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"CMTB-MONOMER" "mannitol-specific PTS enzyme IIA component CmtB" ["TolM", "Enzyme IIACmt", "EIIACmt", "Enzyme IIICmt"] "MRLSDYFPESSISVIHSAKDWQEAIDFSMVSLLDKNYISENYIQAIKDSTINNGPYYILAPGVAMPHARPECGALKTGMSLTLLEQGVYFPGNDEPIKLLIGLSAADADSHIGAIQALSELLCEEEILEQLLTASSEKQLADIISRG" [] ["CCO-CYTOSOL"] +"COBALADENOSYLTRANS-MONOMER" "cobinamide/cobalamin adenosyltransferase" ["CobA", "BtuR"] "MSDERYQQRQQRVKEKVDARVAQAQDERGIIIVFTGNGKGKTTAAFGTATRAVGHGKKVGVVQFIKGTWPNGERNLLEPHGVEFQVMATGFTWDTQNRESDTAACREVWQHAKRMLADSSLDMVLLDELTYMVAYDYLPLEEVVQALNERPHQQTVIITGRGCHRDILELADTVSELRPVKHAFDAGVKAQIGIDY" [] ["CCO-CYTOSOL"] +"COBS-MONOMER" null ["CobS"] "MSKLFWAMLSFITRLPVPRRWSQGLDFEHYSRGIITFPLIGLLLGAISGLVFMVLQAWCGAPLAALFSVLVLVLMTGGFHLDGLADTCDGVFSARSRDRMLEIMRDSRLGTHGGLALIFVVLAKILVLSELALRGESILASLAAACAVSRGTAALLMYRHRYAREEGLGNVFIGKIDGRQTCVTLGLAAIFAAVLLPGMHGVAAMVVTMVAIFILGQLLKRTLGGQTGDTLGAAIELGELVFLLALL" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"COBU-MONOMER" "cobinamide-P guanylyltransferase / cobinamide kinase" ["CobU"] "MMILVTGGARSGKSRHAEALIGDSSQVLYIATSQILDDEMAARIEHHRQGRPEHWRTVERWQHLDELIHADINPNEVVLLECVTTMVTNLLFDYGGDKDPDEWDYQAMEQAINAEIQSLIAACQRCPAKVVLVTNEVGMGIVPESRLARHFRDIAGRVNQQLAAAANEVWLVVSGIGVKIK" [] ["CCO-CYTOSOL"] +"CODB-MONOMER" null ["CodB", "CodB cytosine NCS1 transporter"] "MSQDNNFSQGPVPQSARKGVLALTFVMLGLTFFSASMWTGGTLGTGLSYHDFFLAVLIGNLLLGIYTSFLGYIGAKTGLTTHLLARFSFGVKGSWLPSLLLGGTQVGWFGVGVAMFAIPVGKATGLDINLLIAVSGLLMTVTVFFGISALTVLSVIAVPAIACLGGYSVWLAVNGMGGLDALKAVVPAQPLDFNVALALVVGSFISAGTLTADFVRFGRNAKLAVLVAMVAFFLGNSLMFIFGAAGAAALGMADISDVMIAQGLLLPAIVVLGLNIWTTNDNALYASGLGFANITGMSSKTLSVINGIIGTVCALWLYNNFVGWLTFLSAAIPPVGGVIIADYLMNRRRYEHFATTRMMSVNWVAILAVALGIAAGHWLPGIVPVNAVLGGALSYLILNPILNRKTTAAMTHVEANSVE" ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"COPROGENOXI-MONOMER" "coproporphyrinogen III oxidase" ["Sec", "PopB", "HemF"] "MKPDAHQVKQFLLNLQDTICQQLTAVDGAEFVEDSWQREAGGGGRSRVLRNGGVFEQAGVNFSHVHGEAMPASATAHRPELAGRSFEAMGVSLVVHPHNPYVPTSHANVRFFIAEKPGADPVWWFGGGFDLTPFYGFEEDAIHWHRTARDLCLPFGEDVYPRYKKWCDEYFYLKHRNEQRGIGGLFFDDLNTPDFDRCFAFMQAVGKGYTDAYLPIVERRKAMAYGERERNFQLYRRGRYVEFNLVWDRGTLFGLQTGGRTESILMSMPPLVRWEYDYQPKDGSPEAALSEFIKVRDWV" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"CORA-MONOMER" "Ni2+/Co2+/Mg2+ transporter" ["CorA", "CorA magnesium ion MIT transporter", "nickel/cobalt/magnesium transporter"] "MLSAFQLENNRLTRLEVEESQPLVNAVWIDLVEPDDDERLRVQSELGQSLATRPELEDIEASARFFEDDDGLHIHSFFFFEDAEDHAGNSTVAFTIRDGRLFTLRERELPAFRLYRMRARSQSMVDGNAYELLLDLFETKIEQLADEIENIYSDLEQLSRVIMEGHQGDEYDEALSTLAELEDIGWKVRLCLMDTQRALNFLVRKARLPGGQLEQAREILRDIESLLPHNESLFQKVNFLMQAAMGFINIEQNRIIKIFSVVSVVFLPPTLVASSYGMNFEFMPELKWSFGYPGAIIFMILAGLAPYLYFKRKNWL" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"CPDB-MONOMER" "2'3' cyclic nucleotide phosphodiesterase/3' nucleotidase" ["CpdB"] "MIKFSATLLATLIAASVNAATVDLRIMETTDLHSNMMDFDYYKDTATEKFGLVRTASLINDARNEVKNSVLVDNGDLIQGSPLADYMSAKGLKAGDIHPVYKALNTLDYTVGTLGNHEFNYGLDYLKNALAGAKFPYVNANVIDARTKQPMFTPYLIKDTEVVDKDGKKQTLKIGYIGVVPPQIMGWDKANLSGKVTVNDITETVRKYVPEMREKGADVVVVLAHSGLSADPYKVMAENSVYYLSEIPGVNAIMFGHAHAVFPGKDFADIEGADIAKGTLNGVPAVMPGMWGDHLGVVDLQLSNDSGKWQVTQAKAEARPIYDIANKKSLAAEDSKLVETLKADHDATRQFVSKPIGKSADNMYSYLALVQDDPTVQVVNNAQKAYVEHYIQGDPDLAKLPVLSAAAPFKVGGRKNDPASYVEVEKGQLTFRNAADLYLYPNTLIVVKASGKEVKEWLECSAGQFNQIDPNSTKPQSLINWDGFRTYNFDVIDGVNYQIDVTQPARYDGECQMINANAERIKNLTFNGKPIDPNAMFLVATNNYRAYGGKFAGTGDSHIAFASPDENRSVLAAWIADESKRAGEIHPAADNNWRLAPIAGDKKLDIRFETSPSDKAAAFIKEKGQYPMNKVATDDIGFAIYQVDLSK" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"CPM-KDOSYNTH-MONOMER" "3-deoxy-manno-octulosonate cytidylyltransferase" ["KdsB"] "MSFVVIIPARYASTRLPGKPLVDINGKPMIVHVLERARESGAERIIVATDHEDVARAVEAAGGEVCMTRADHQSGTERLAEVVEKCAFSDDTVIVNVQGDEPMIPATIIRQVADNLAQRQVGMATLAVPIHNAEEAFNPNAVKVVLDAEGYALYFSRATIPWDRDRFAEGLETVGDNFLRHLGIYGYRAGFIRRYVNWQPSPLEHIEMLEQLRVLWYGEKIHVAVAQEVPGTGVDTPEDLERVRAEMR" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"CPXA-MONOMER" "sensor histidine kinase CpxA" ["RssE", "Ecf", "Ssd", "Eup", "EcfB"] "MIGSLTARIFAIFWLTLALVLMLVLMLPKLDSRQMTELLDSEQRQGLMIEQHVEAELANDPPNDLMWWRRLFRAIDKWAPPGQRLLLVTTEGRVIGAERSEMQIIRNFIGQADNADHPQKKKYGRVELVGPFSVRDGEDNYQLYLIRPASSSQSDFINLLFDRPLLLLIVTMLVSTPLLLWLAWSLAKPARKLKNAADEVAQGNLRQHPELEAGPQEFLAAGASFNQMVTALERMMTSQQRLLSDISHELRTPLTRLQLGTALLRRRSGESKELERIETEAQRLDSMINDLLVMSRNQQKNALVSETIKANQLWSEVLDNAAFEAEQMGKSLTVNFPPGPWPLYGNPNALESALENIVRNALRYSHTKIEVGFAVDKDGITITVDDDGPGVSPEDREQIFRPFYRTDEARDRESGGTGLGLAIVETAIQQHRGWVKAEDSPLGGLRLVIWLPLYKRS" ["CCO-PERI-BAC", "CCO-CYTOSOL", "CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"CPXR-MONOMER" "DNA-binding transcriptional dual regulator CpxR" ["YiiA", "CpxR", "CpxR response regulator"] "MNKILLVDDDRELTSLLKELLEMEGFNVIVAHDGEQALDLLDDSIDLLLLDVMMPKKNGIDTLKALRQTHQTPVIMLTARGSELDRVLGLELGADDYLPKPFNDRELVARIRAILRRSHWSEQQQNNDNGSPTLEVDALVLNPGRQEASFDGQTLELTGTEFTLLYLLAQHLGQVVSREHLSQEVLGKRLTPFDRAIDMHISNLRRKLPDRKDGHPWFKTLRGRGYLMVSAS" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"CREB-MONOMER" "DNA-binding transcriptional regulator CreB" ["CreB", "YjjE", "CreB response regulator"] "MQRETVWLVEDEQGIADTLVYMLQQEGFAVEVFERGLPVLDKARKQVPDVMILDVGLPDISGFELCRQLLALHPALPVLFLTARSEEVDRLLGLEIGADDYVAKPFSPREVCARVRTLLRRVKKFSTPSPVIRIGHFELNEPAAQISWFDTPLALTRYEFLLLKTLLKSPGRVWSRQQLMDSVWEDAQDTYDRTVDTHIKTLRAKLRAINPDLSPINTHRGMGYSLRGL" [] ["CCO-CYTOSOL"] +"CREC-MONOMER" "sensory histidine kinase CreC" ["PhoM", "CreC"] "MRIGMRLLLGYFLLVAVAAWFVLAIFVKEVKPGVRRATEGTLIDTATLLAELARPDLLSGDPTHGQLAQAFNQLQHRPFRANIGGINKVRNEYHVYMTDAQGKVLFDSANKAVGQDYSRWNDVWLTLRGQYGARSTLQNPADPESSVMYVAAPIMDGSRLIGVLSVGKPNAAMAPVIKRSERRILWASAILLGIALVIGAGMVWWINRSIARLTRYADSVTDNKPVPLPDLGSSELRKLAQALESMRVKLEGKNYIEQYVYALTHELKSPLAAIRGAAEILREGPPPEVVARFTDNILTQNARMQALVETLLRQARLENRQEVVLTAVDVAALFRRVSEARTVQLAEKKITLHVTPTEVNVAAEPALLEQALGNLLDNAIDFTPESGCITLSAEVDQEHVTLKVLDTGSGIPDYALSRIFERFYSLPRANGQKSSGLGLAFVSEVARLFNGEVTLRNVQEGGVLASLRLHRHFT" ["CCO-PM-BAC-NEG"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"CROBETREDUCT-MONOMER" null ["YaaO", "CaiA"] "MDFNLNDEQELFVAGIRELMASENWEAYFAECDRDSVYPERFVKALADMGIDSLLIPEEHGGLDAGFVTLAAVWMELGRLGAPTYVLYQLPGGFNTFLREGTQEQIDKIMAFRGTGKQMWNSAITEPGAGSDVGSLKTTYTRRNGKIYLNGSKCFITSSAYTPYIVVMARDGASPDKPVYTEWFVDMSKPGIKVTKLEKLGLRMDSCCEITFDDVELDEKDMFGREGNGFNRVKEEFDHERFLVALTNYGTAMCAFEDAARYANQRVQFGEAIGRFQLIQEKFAHMAIKLNSMKNMLYEAAWKADNGTITSGDAAMCKYFCANAAFEVVDSAMQVLGGVGIAGNHRISRFWRDLRVDRVSGGSDEMQILTLGRAVLKQYR" [] ["CCO-CYTOSOL"] +"CRR-MONOMER" "Enzyme IIAGlc" ["TreD", "Tgs", "Iex", "Gsr", "EIIAGlc", "Enzyme IIIGlc", "EIIIGlc", "IIIGlc", "Enzyme IIAGlc, Crr"] "MGLFDKLKSLVSDDKKDTGTIEIIAPLSGEIVNIEDVPDVVFAEKIVGDGIAIKPTGNKMVAPVDGTIGKIFETNHAFSIESDSGVELFVHFGIDTVELKGEGFKRIAEEGQRVKVGDTVIEFDLPLLEEKAKSTLTPVVISNMDEIKELIKLSGSVTVGETPVIRIKK" ["CCO-PM-BAC-NEG", "CCO-CYTOSOL"] ["CCO-PM-BAC-NEG", "CCO-CYTOSOL"] +"CTPSYN-MONOMER" "CTP synthetase" ["PyrG", "CTP synthase"] "MTTNYIFVTGGVVSSLGKGIAAASLAAILEARGLNVTIMKLDPYINVDPGTMSPIQHGEVFVTEDGAETDLDLGHYERFIRTKMSRRNNFTTGRIYSDVLRKERRGDYLGATVQVIPHITNAIKERVLEGGEGHDVVLVEIGGTVGDIESLPFLEAIRQMAVEIGREHTLFMHLTLVPYMAASGEVKTKPTQHSVKELLSIGIQPDILICRSDRAVPANERAKIALFCNVPEKAVISLKDVDSIYKIPGLLKSQGLDDYICKRFSLNCPEANLSEWEQVIFEEANPVSEVTIGMVGKYIELPDAYKSVIEALKHGGLKNRVSVNIKLIDSQDVETRGVEILKGLDAILVPGGFGYRGVEGMITTARFARENNIPYLGICLGMQVALIDYARHVANMENANSTEFVPDCKYPVVALITEWRDENGNVEVRSEKSDLGGTMRLGAQQCQLVDDSLVRQLYNAPTIVERHRHRYEVNNMLLKQIEDAGLRVAGRSGDDQLVEIIEVPNHPWFVACQFHPEFTSTPRDGHPLFAGFVKAASEFQKRQAK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"CYANLY-MONOMER" "cyanase" ["Cnt", "CyaN", "CynS"] "MIQSQINRNIRLDLADAILLSKAKKDLSFAEIADGTGLAEAFVTAALLGQQALPADAARLVGAKLDLDEDSILLLQMIPLRGCIDDRIPTDPTMYRFYEMLQVYGTTLKALVHEKFGDGIISAINFKLDVKKVADPEGGERAVITLDGKYLPTKPF" [] ["CCO-CYTOSOL"] +"CYCA-MONOMER" "D-serine/alanine/glycine/:H+symporter" ["DagA", "YtfD", "CycA", "CycA APC transporter"] "MVDQVKVVADDQAPAEQSLRRNLTNRHIQLIAIGGAIGTGLFMGSGKTISLAGPSIIFVYMIIGFMLFFVMRAMGELLLSNLEYKSFSDFASDLLGPWAGYFTGWTYWFCWVVTGMADVVAITAYAQFWFPDLSDWVASLAVIVLLLTLNLATVKMFGEMEFWFAMIKIVAIVSLIVVGLVMVAMHFQSPTGVEASFAHLWNDGGWFPKGLSGFFAGFQIAVFAFVGIELVGTTAAETKDPEKSLPRAINSIPIRIIMFYVFALIVIMSVTPWSSVVPEKSPFVELFVLVGLPAAASVINFVVLTSAASSANSGVFSTSRMLFGLAQEGVAPKAFAKLSKRAVPAKGLTFSCICLLGGVVMLYVNPSVIGAFTMITTVSAILFMFVWTIILCSYLVYRKQRPHLHEKSIYKMPLGKLMCWVCMAFFVFVVVLLTLEDDTRQALLVTPLWFIALGLGWLFIGKKRAAELRK" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"CYCLASE-MONOMER" "imidazole glycerol phosphate synthase subunit HisF" ["HisF"] "MLAKRIIPCLDVRDGQVVKGVQFRNHEIIGDIVPLAKRYAEEGADELVFYDITASSDGRVVDKSWVSRVAEVIDIPFCVAGGIKSLEDAAKILSFGADKISINSPALADPTLITRLADRFGVQCIVVGIDTWYDAETGKYHVNQYTGDESRTRVTQWETLDWVQEVQKRGAGEIVLNMMNQDGVRNGYDLEQLKKVREVCHVPLIASGGAGTMEHFLEAFRDADVDGALAASVFHKQIINIGELKAYLATQGVEIRIC" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"CYDA-MONOMER" "cytochrome bd-I ubiquinol oxidase subunit I" ["CydA", "Cyd-1"] "MLDIVELSRLQFALTAMYHFLFVPLTLGMAFLLAIMETVYVLSGKQIYKDMTKFWGKLFGINFALGVATGLTMEFQFGTNWSYYSHYVGDIFGAPLAIEGLMAFFLESTFVGLFFFGWDRLGKVQHMCVTWLVALGSNLSALWILVANGWMQNPIASDFNFETMRMEMVSFSELVLNPVAQVKFVHTVASGYVTGAMFILGISAWYMLKGRDFAFAKRSFAIAASFGMAAVLSVIVLGDESGYEMGDVQKTKLAAIEAEWETQPAPAAFTLFGIPDQEEETNKFAIQIPYALGIIATRSVDTPVIGLKELMVQHEERIRNGMKAYSLLEQLRSGSTDQAVRDQFNSMKKDLGYGLLLKRYTPNVADATEAQIQQATKDSIPRVAPLYFAFRIMVACGFLLLAIIALSFWSVIRNRIGEKKWLLRAALYGIPLPWIAVEAGWFVAEYGRQPWAIGEVLPTAVANSSLTAGDLIFSMVLICGLYTLFLVAELFLMFKFARLGPSSLKTGRYHFEQSSTTTQPAR" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"CYDB-MONOMER" "cytochrome bd-I ubiquinol oxidase subunit II" ["CydB", "Cyd-2"] "MIDYEVLRFIWWLLVGVLLIGFAVTDGFDMGVGMLTRFLGRNDTERRIMINSIAPHWDGNQVWLITAGGALFAAWPMVYAAAFSGFYVAMILVLASLFFRPVGFDYRSKIEETRWRNMWDWGIFIGSFVPPLVIGVAFGNLLQGVPFNVDEYLRLYYTGNFFQLLNPFGLLAGVVSVGMIITQGATYLQMRTVGELHLRTRATAQVAALVTLVCFALAGVWVMYGIDGYVVKSTMDHYAASNPLNKEVVREAGAWLVNFNNTPILWAIPALGVVLPLLTILTARMDKAAWAFVFSSLTLACIILTAGIAMFPFVMPSSTMMNASLTMWDATSSQLTLNVMTWVAVVLVPIILLYTAWCYWKMFGRITKEDIERNTHSLY" ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"CYDC-MONOMER" "glutathione/L-cysteine ABC exporter subunit CydC" ["CydC", "YcaB", "SurB", "MdrH", "MdrA", "L-cystine reductase subunit CydC"] "MRALLPYLALYKRHKWMLSLGIVLAIVTLLASIGLLTLSGWFLSASAVAGVAGLYSFNYMLPAAGVRGAAITRTAGRYFERLVSHDATFRVLQHLRIYTFSKLLPLSPAGLARYRQGELLNRVVADVDTLDHLYLRVISPLVGAFVVIMVVTIGLSFLDFTLAFTLGGIMLLTLFLMPPLFYRAGKSTGQNLTHLRGQYRQQLTAWLQGQAELTIFGASDRYRTQLENTEIQWLEAQRRQSELTALSQAIMLLIGALAVILMLWMASGGVGGNAQPGALIALFVFCALAAFEALAPVTGAFQHLGQVIASAVRISDLTDQKPEVTFPDTQTRVADRVSLTLRDVQFTYPEQSQQALKGISLQVNAGEHIAILGRTGCGKSTLLQQLTRAWDPQQGEILLNDSPIASLNEAALRQTISVVPQRVHLFSATLRDNLLLASPGSSDEALSEILRRVGLEKLLEDAGLNSWLGEGGRQLSGGELRRLAIARALLHDAPLVLLDEPTEGLDATTESQILELLAEMMREKTVLMVTHRLRGLSRFQQIIVMDNGQIIEQGTHAELLARQGRYYQFKQGL" ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"CYDD-MONOMER" "glutathione/L-cysteine ABC exporter subunit CydD" ["CydD", "HtrD", "L-cystine reductase subunit CydC"] "MNKSRQKELTRWLKQQSVISQRWLNISRLLGFVSGILIIAQAWFMARILQHMIMENIPREALLLPFTLLVLTFVLRAWVVWLRERVGYHAGQHIRFAIRRQVLDRLQQAGPAWIQGKPAGSWATLVLEQIDDMHDYYARYLPQMALAVSVPLLIVVAIFPSNWAAALILLGTAPLIPLFMALVGMGAADANRRNFLALARLSGHFLDRLRGMETLRIFGRGEAEIESIRSASEDFRQRTMEVLRLAFLSSGILEFFTSLSIALVAVYFGFSYLGELDFGHYDTGVTLAAGFLALILAPEFFQPLRDLGTFYHAKAQAVGAADSLKTFMETPLAHPQRGEAELASTDPVTIEAEELFITSPEGKTLAGPLNFTLPAGQRAVLVGRSGSGKSSLLNALSGFLSYQGSLRINGIELRDLSPESWRKHLSWVGQNPQLPAATLRDNVLLARPDASEQELQAALDNAWVSEFLPLLPQGVDTPVGDQAARLSVGQAQRVAVARALLNPCSLLLLDEPAASLDAHSEQRVMEALNAASLRQTTLMVTHQLEDLADWDVIWVMQDGRIIEQGRYAELSVAGGPFATLLAHRQEEI" ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"CYNX-MONOMER" null ["CynX", "CynX cyanate MFS transporter"] "MLLVLVLIGLNMRPLLTSVGPLLPQLRQASGMSFSVAALLTALPVVTMGGLALAGSWLHQHVSERRSVAISLLLIAVGALMRELYPQSALLLSSALLGGVGIGIIQAVMPSVIKRRFQQRTPLVMGLWSAALMGGGGLGAAITPWLVQHSETWYQTLAWWALPAVVALFAWWWQSAREVASSHKTTTTPVRVVFTPRAWTLGVYFGLINGGYASLIAWLPAFYIEIGASAQYSGSLLALMTLGQAAGALLMPAMARHQDRRKLLMLALVLQLVGFCGFIWLPMQLPVLWAMVCGLGLGGAFPLCLLLALDHSVQPAIAGKLVAFMQGIGFIIAGLAPWFSGVLRSISGNYLMDWAFHALCVVGLMIITLRFAPVRFPQLWVKEA" ["CCO-PM-BAC-NEG"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"CYOA-MONOMER" "cytochrome bo3 ubiquinol oxidase subunit 2" ["CyoA", "cytochrome bo3 terminal oxidase subunit II", "cytochrome o ubiquinol oxidase subunit II", "cytochrome bo3 ubiquinol oxidase subunit II"] "MRLRKYNKSLGWLSLFAGTVLLSGCNSALLDPKGQIGLEQRSLILTAFGLMLIVVIPAILMAVGFAWKYRASNKDAKYSPNWSHSNKVEAVVWTVPILIIIFLAVLTWKTTHALEPSKPLAHDEKPITIEVVSMDWKWFFIYPEQGIATVNEIAFPANTPVYFKVTSNSVMNSFFIPRLGSQIYAMAGMQTRLHLIANEPGTYDGISASYSGPGFSGMKFKAIATPDRAAFDQWVAKAKQSPNTMSDMAAFEKLAAPSEYNQVEYFSNVKPDLFADVINKFMAHGKSMDMTQPEGEHSAHEGMEGMDMSHAESAH" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"CYOB-MONOMER" "cytochrome bo3 ubiquinol oxidase subunit 1" ["CyoB", "cytochrome bo3 terminal oxidase subunit I", "cytochrome o ubiquinol oxidase subunit I", "cytochrome bo3 ubiquinol oxidase subunit I"] "MFGKLSLDAVPFHEPIVMVTIAGIILGGLALVGLITYFGKWTYLWKEWLTSVDHKRLGIMYIIVAIVMLLRGFADAIMMRSQQALASAGEAGFLPPHHYDQIFTAHGVIMIFFVAMPFVIGLMNLVVPLQIGARDVAFPFLNNLSFWFTVVGVILVNVSLGVGEFAQTGWLAYPPLSGIEYSPGVGVDYWIWSLQLSGIGTTLTGINFFVTILKMRAPGMTMFKMPVFTWASLCANVLIIASFPILTVTVALLTLDRYLGTHFFTNDMGGNMMMYINLIWAWGHPEVYILILPVFGVFSEIAATFSRKRLFGYTSLVWATVCITVLSFIVWLHHFFTMGAGANVNAFFGITTMIIAIPTGVKIFNWLFTMYQGRIVFHSAMLWTIGFIVTFSVGGMTGVLLAVPGADFVLHNSLFLIAHFHNVIIGGVVFGCFAGMTYWWPKAFGFKLNETWGKRAFWFWIIGFFVAFMPLYALGFMGMTRRLSQQIDPQFHTMLMIAASGAVLIALGILCLVIQMYVSIRDRDQNRDLTGDPWGGRTLEWATSSPPPFYNFAVVPHVHERDAFWEMKEKGEAYKKPDHYEEIHMPKNSGAGIVIAAFSTIFGFAMIWHIWWLAIVGFAGMIITWIVKSFDEDVDYYVPVAEIEKLENQHFDEITKAGLKNGN" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"CYOC-MONOMER" "cytochrome bo3 ubiquinol oxidase subunit 3" ["CyoC", "cytochrome bo3 terminal oxidase subunit III", "cytochrome o ubiquinol oxidase subunit III", "cytochrome bo3 ubiquinol oxidase subunit III"] "MATDTLTHATAHAHEHGHHDAGGTKIFGFWIYLMSDCILFSILFATYAVLVNGTAGGPTGKDIFELPFVLVETFLLLFSSITYGMAAIAMYKNNKSQVISWLALTWLFGAGFIGMEIYEFHHLIVNGMGPDRSGFLSAFFALVGTHGLHVTSGLIWMAVLMVQIARRGLTSTNRTRIMCLSLFWHFLDVVWICVFTVVYLMGAM" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"CYOD-MONOMER" "cytochrome bo3 ubiquinol oxidase subunit 4" ["CyoD", "cytochrome o ubiquinol oxidase subunit IV", "cytochrome bo3 terminal oxidase subunit IV", "cytochrome bo3 ubiquinol oxidase subunit IV"] "MSHSTDHSGASHGSVKTYMTGFILSIILTVIPFWMVMTGAASPAVILGTILAMAVVQVLVHLVCFLHMNTKSDEGWNMTAFVFTVLIIAILVVGSIWIMWNLNYNMMMH" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"CYSA-MONOMER" "sulfate/thiosulfate ABC transporter ATP binding subunit" [] "MSIEIANIKKSFGRTQVLNDISLDIPSGQMVALLGPSGSGKTTLLRIIAGLEHQTSGHIRFHGTDVSRLHARDRKVGFVFQHYALFRHMTVFDNIAFGLTVLPRRERPNAAAIKAKVTKLLEMVQLAHLADRYPAQLSGGQKQRVALARALAVEPQILLLDEPFGALDAQVRKELRRWLRQLHEELKFTSVFVTHDQEEATEVADRVVVMSQGNIEQADAPDQVWREPATRFVLEFMGEVNRLQGTIRGGQFHVGAHRWPLGYTPAYQGPVDLFLRPWEVDISRRTSLDSPLPVQVLEASPKGHYTQLVVQPLGWYNEPLTVVMHGDDAPQRGERLFVGLQHARLYNGDERIETRDEELALAQSA" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE", "CCO-CYTOSOL"] +"CYSD-MONOMER" "sulfate adenylyltransferase subunit 2" ["CysD", "sulfate adenylyltransferase, CysD subunit"] "MDQIRLTHLRQLEAESIHIIREVAAEFSNPVMLYSIGKDSSVMLHLARKAFYPGTLPFPLLHVDTGWKFREMYEFRDRTAKAYGCELLVHKNPEGVAMGINPFVHGSAKHTDIMKTEGLKQALNKYGFDAAFGGARRDEEKSRAKERIYSFRDRFHRWDPKNQRPELWHNYNGQINKGESIRVFPLSNWTEQDIWQYIWLENIDIVPLYLAAERPVLERDGMLMMIDDNRIDLQPGEVIKKRMVRFRTLGCWPLTGAVESNAQTLPEIIEEMLVSTTSERQGRVIDRDQAGSMELKKRQGYF" [] ["CCO-CYTOSOL"] +"CYSN-MONOMER" "sulfate adenylyltransferase subunit 1" ["CysN", "sulfate adenylyltransferase, CysN subunit"] "MNTALAQQIANEGGVEAWMIAQQHKSLLRFLTCGSVDDGKSTLIGRLLHDTRQIYEDQLSSLHNDSKRHGTQGEKLDLALLVDGLQAEREQGITIDVAYRYFSTEKRKFIIADTPGHEQYTRNMATGASTCELAILLIDARKGVLDQTRRHSFISTLLGIKHLVVAINKMDLVDYSEETFTRIREDYLTFAGQLPGNLDIRFVPLSALEGDNVASQSESMPWYSGPTLLEVLETVEIQRVVDAQPMRFPVQYVNRPNLDFRGYAGTLASGRVEVGQRVKVLPSGVESNVARIVTFDGDREEAFAGEAITLVLTDEIDISRGDLLLAADEALPAVQSASVDVVWMAEQPLSPGQSYDIKIAGKKTRARVDGIRYQVDINNLTQREVENLPLNGIGLVDLTFDEPLVLDRYQQNPVTGGLIFIDRLSNVTVGAGMVHEPVSQATAAPSEFSAFELELNALVRRHFPHWGARDLLGDK" [] ["CCO-CYTOSOL"] +"CYSP-MONOMER" "thiosulfate/sulfate ABC transporter periplasmic binding protein CysP" ["TSBP"] "MAVNLLKKNSLALVASLLLAGHVQATELLNSSYDVSRELFAALNPPFEQQWAKDNGGDKLTIKQSHAGSSKQALAILQGLKADVVTYNQVTDVQILHDKGKLIPADWQSRLPNNSSPFYSTMGFLVRKGNPKNIHDWNDLVRSDVKLIFPNPKTSGNARYTYLAAWGAADKADGGDKGKTEQFMTQFLKNVEVFDTGGRGATTTFAERGLGDVLISFESEVNNIRKQYEAQGFEVVIPKTNILAEFPVAWVDKNVQANGTEKAAKAYLNWLYSPQAQTIITDYYYRVNNPEVMDKLKDKFPQTELFRVEDKFGSWPEVMKTHFTSGGELDKLLAAGRN" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"CYSS-MONOMER" "cysteine—tRNA ligase" ["Syc", "CysS", "CysRS"] "MLKIFNTLTRQKEEFKPIHAGEVGMYVCGITVYDLCHIGHGRTFVAFDVVARYLRFLGYKLKYVRNITDIDDKIIKRANENGESFVAMVDRMIAEMHKDFDALNILRPDMEPRATHHIAEIIELTEQLIAKGHAYVADNGDVMFDVPTDPTYGVLSRQDLDQLQAGARVDVVDDKRNPMDFVLWKMSKEGEPSWPSPWGAGRPGWHIECSAMNCKQLGNHFDIHGGGSDLMFPHHENEIAQSTCAHDGQYVNYWMHSGMVMVDREKMSKSLGNFFTVRDVLKYYDAETVRYFLMSGHYRSQLNYSEENLKQARAALERLYTALRGTDKTVAPAGGEAFEARFIEAMDDDFNTPEAYSVLFDMAREVNRLKAEDMAAANAMASHLRKLSAVLGLLEQEPEAFLQSGAQADDSEVAEIEALIQQRLDARKAKDWAAADAARDRLNEMGIVLEDGPQGTTWRRK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"CYST-MONOMER" "sulfate/thiosulfate ABC transporter inner membrane subunit CysU" ["CysT"] "MFAVSSRRVLPGFTLSLGTSLLFVCLILLLPLSALVMQLAQMSWAQYWEVITNPQVVAAYKVTLLSAFVASIFNGVFGLLMAWILTRYRFPGRTLLDALMDLPFALPTAVAGLTLASLFSVNGFYGEWLAKFDIKVTYTWLGIAVAMAFTSIPFVVRTVQPVLEELGPEYEEAAETLGATRWQSFCKVVLPELSPALVAGVALSFTRSLGEFGAVIFIAGNIAWKTEVTSLMIFVRLQEFDYPAASAIASVILAASLLLLFSINTLQSRFGRRVVGH" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"CYSTATHIONINE-BETA-LYASE-MONOMER" "cystathionine β-lyase / L-cysteine desulfhydrase / alanine racemase" ["MetC"] "MADKKLDTQLVNAGRSKKYTLGAVNSVIQRASSLVFDSVEAKKHATRNRANGELFYGRRGTLTHFSLQQAMCELEGGAGCVLFPCGAAAVANSILAFIEQGDHVLMTNTAYEPSQDFCSKILSKLGVTTSWFDPLIGADIVKHLQPNTKIVFLESPGSITMEVHDVPAIVAAVRSVVPDAIIMIDNTWAAGVLFKALDFGIDVSIQAATKYLVGHSDAMIGTAVCNARCWEQLRENAYLMGQMVDADTAYITSRGLRTLGVRLRQHHESSLKVAEWLAEHPQVARVNHPALPGSKGHEFWKRDFTGSSGLFSFVLKKKLNNEELANYLDNFSLFSMAYSWGGYESLILANQPEHIAAIRPQGEIDFSGTLIRLHIGLEDVDDLIADLDAGFARIV" [] ["CCO-CYTOSOL"] +"CYSW-MONOMER" "sulfate/thiosulfate ABC transporter inner membrane subunit CysW" [] "MAEVTQLKRYDARPINWGKWFLIGIGMLVSAFILLVPMIYIFVQAFSKGLMPVLQNLADPDMLHAIWLTVMIALIAVPVNLVFGILLAWLVTRFNFPGRQLLLTLLDIPFAVSPVVAGLVYLLFYGSNGPLGGWLDEHNLQIMFSWPGMVLVTIFVTCPFVVRELVPVMLSQGSQEDEAAILLGASGWQMFRRVTLPNIRWALLYGVVLTNARAIGEFGAVSVVSGSIRGETLSLPLQIELLEQDYNTVGSFTAAALLTLMAIITLFLKSMLQWRLENQEKRAQQEEHHEH" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"CYTDEAM-MONOMER" "cytosine/isoguanine deaminase" ["CodA"] "MSNNALQTIINARLPGEEGLWQIHLQDGKISAIDAQSGVMPITENSLDAEQGLVIPPFVEPHIHLDTTQTAGQPNWNQSGTLFEGIERWAERKALLTHDDVKQRAWQTLKWQIANGIQHVRTHVDVSDATLTALKAMLEVKQEVAPWIDLQIVAFPQEGILSYPNGEALLEEALRLGADVVGAIPHFEFTREYGVESLHKTFALAQKYDRLIDVHCDEIDDEQSRFVETVAALAHHEGMGARVTASHTTAMHSYNGAYTSRLFRLLKMSGINFVANPLVNIHLQGRFDTYPKRRGITRVKEMLESGINVCFGHDDVFDPWYPLGTANMLQVLHMGLHVCQLMGYGQINDGLNLITHHSARTLNLQDYGIAAGNSANLIILPAENGFDALRRQVPVRYSVRGGKVIASTQPAQTTVYLEQPEAIDYKR" [] ["CCO-CYTOSOL"] +"CYTIDEAM-MONOMER" "cytidine/deoxycytidine deaminase" ["Cdd"] "MHPRFQTAFAQLADNLQSALEPILADKYFPALLTGEQVSSLKSATGLDEDALAFALLPLAAACARTPLSNFNVGAIARGVSGTWYFGANMEFIGATMQQTVHAEQSAISHAWLSGEKALAAITVNYTPCGHCRQFMNELNSGLDLRIHLPGREAHALRDYLPDAFGPKDLEIKTLLMDEQDHGYALTGDALSQAAIAAANRSHMPYSKSPSGVALECKDGRIFSGSYAENAAFNPTLPPLQGALILLNLKGYDYPDIQRAVLAEKADAPLIQWDATSATLKALGCHSIDRVLLA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"CYTOCHROME-B561-MONOMER" "superoxide oxidase" ["CybB", "superoxide:ubiquinone oxidoreductase"] "MENKYSRLQISIHWLVFLLVIAAYCAMEFRGFFPRSDRPLINMIHVSCGISILVLMVVRLLLRLKYPTPPIIPKPKPMMTGLAHLGHLVIYLLFIALPVIGLVMMYNRGNPWFAFGLTMPYASEANFERVDSLKSWHETLANLGYFVIGLHAAAALAHHYFWKDNTLLRMMPRKRS" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"CYTOCHROMEC-MONOMER" "periplasmic nitrite reductase penta-heme c-type cytochrome" ["YjcI", "NrfB"] "MSVLRSLLTAGVLASGLLWSLNGITATPAAQASDDRYEVTQQRNPDAACLDCHKPDTEGMHGKHASVINPNNKLPVTCTNCHGQPSPQHREGVKDVMRFNEPMYKVGEQNSVCMSCHLPEQLQKAFWPHDVHVTKVACASCHSLHPQQDTMQTLSDKGRIKICVDCHSDQRTNPNFNPASVPLLKEQP" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"CYTOCHROMEC552-MONOMER" "cytochrome c552 nitrite reductase" ["NrfA", "cytochrome c552", "aeg-93", "cytochrome c-552"] "MTRIKINARRIFSLLIPFFFFTSVHAEQTAAPAKPVTVEAKNETFAPQHPDQYLSWKATSEQSERVDALAEDPRLVILWAGYPFSRDYNKPRGHAFAVTDVRETLRTGAPKNAEDGPLPMACWSCKSPDVARLIQKDGEDGYFHGKWARGGPEIVNNLGCADCHNTASPEFAKGKPELTLSRPYAARAMEAIGKPFEKAGRFDQQSMVCGQCHVEYYFDGKNKAVKFPWDDGMKVENMEQYYDKIAFSDWTNSLSKTPMLKAQHPEYETWTAGIHGKNNVTCIDCHMPKVQNAEGKLYTDHKIGNPFDNFAQTCANCHTQDKAALQKVVAERKQSINDLKIKVEDQLVHAHFEAKAALDAGATEAEMKPIQDDIRHAQWRWDLAIASHGIHMHAPEEGLRMLGTAMDKAADARTKLARLLATKGITHEIQIPDISTKEKAQQAIGLNMEQIKAEKQDFIKTVIPQWEEQARKNGLLSQ" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"DALADALALIGA-MONOMER" "D-alanine—D-alanine ligase A" ["DdlA"] "MEKLRVGIVFGGKSAEHEVSLQSAKNIVDAIDKSRFDVVLLGIDKQGQWHVSDASNYLLNADDPAHIALRPSATSLAQVPGKHEHQLIDAQNGQPLPTVDVIFPIVHGTLGEDGSLQGMLRVANLPFVGSDVLASAACMDKDVTKRLLRDAGLNIAPFITLTRANRHNISFAEVESKLGLPLFVKPANQGSSVGVSKVTSEEQYAIAVDLAFEFDHKVIVEQGIKGREIECAVLGNDNPQASTCGEIVLTSDFYAYDTKYIDEDGAKVVVPAAIAPEINDKIRAIAVQAYQTLGCAGMARVDVFLTPENEVVINEINTLPGFTNISMYPKLWQASGLGYTDLITRLIELALERHAADNALKTTM" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"DALADALALIGB-MONOMER" "D-alanine—D-alanine ligase B" ["Ddl", "DdlB"] "MTDKIAVLLGGTSAEREVSLNSGAAVLAGLREGGIDAYPVDPKEVDVTQLKSMGFQKVFIALHGRGGEDGTLQGMLELMGLPYTGSGVMASALSMDKLRSKLLWQGAGLPVAPWVALTRAEFEKGLSDKQLAEISALGLPVIVKPSREGSSVGMSKVVAENALQDALRLAFQHDEEVLIEKWLSGPEFTVAILGEEILPSIRIQPSGTFYDYEAKYLSDETQYFCPAGLEASQEANLQALVLKAWTTLGCKGWGRIDVMLDSDGQFYLLEANTSPGMTSHSLVPMAARQAGMSFSQLVVRILELAD" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"DALADEHYDROGA-MONOMER" "D-amino acid dehydrogenase" ["DadR", "DadA"] "MRVVILGSGVVGVASAWYLNQAGHEVTVIDREPGAALETSAANAGQISPGYAAPWAAPGVPLKAIKWMFQRHAPLAVRLDGTQFQLKWMWQMLRNCDTSHYMENKGRMVRLAEYSRDCLKALRAETNIQYEGRQGGTLQLFRTEQQYENATRDIAVLEDAGVPYQLLESSRLAEVEPALAEVAHKLTGGLQLPNDETGDCQLFTQNLARMAEQAGVKFRFNTPVDQLLCDGEQIYGVKCGDEVIKADAYVMAFGSYSTAMLKGIVDIPVYPLKGYSLTIPIAQEDGAPVSTILDETYKIAITRFDNRIRVGGMAEIVGFNTELLQPRRETLEMVVRDLYPRGGHVEQATFWTGLRPMTPDGTPVVGRTRFKNLWLNTGHGTLGWTMACGSGQLLSDLLSGRTPAIPYEDLSVARYSRGFTPSRPGHLHGAHS" ["CCO-PM-BAC-NEG"] ["CCO-CYTOSOL", "CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"DAPASYN-MONOMER" "adenosylmethionine-8-amino-7-oxononanoate aminotransferase" ["BioA"] "MTTDDLAFDQRHIWHPYTSMTSPLPVYPVVSAEGCELILSDGRRLVDGMSSWWAAIHGYNHPQLNAAMKSQIDAMSHVMFGGITHAPAIELCRKLVAMTPQPLECVFLADSGSVAVEVAMKMALQYWQAKGEARQRFLTFRNGYHGDTFGAMSVCDPDNSMHSLWKGYLPENLFAPAPQSRMDGEWDERDMVGFARLMAAHRHEIAAVIIEPIVQGAGGMRMYHPEWLKRIRKICDREGILLIADEIATGFGRTGKLFACEHAEIAPDILCLGKALTGGTMTLSATLTTREVAETISNGEAGCFMHGPTFMGNPLACAAANASLAILESGDWQQQVADIEVQLREQLAPARDAEMVADVRVLGAIGVVETTHPVNMAALQKFFVEQGVWIRPFGKLIYLMPPYIILPQQLQRLTAAVNRAVQDETFFCQ" [] ["CCO-CYTOSOL"] +"DCTA-MONOMER" "C4 dicarboxylate/orotate:H+ symporter" ["DctA", "SBP2", "DctA DAACS transporter"] "MKTSLFKSLYFQVLTAIAIGILLGHFYPEIGEQMKPLGDGFVKLIKMIIAPVIFCTVVTGIAGMESMKAVGRTGAVALLYFEIVSTIALIIGLIIVNVVQPGAGMNVDPATLDAKAVAVYADQAKDQGIVAFIMDVIPASVIGAFASGNILQVLLFAVLFGFALHRLGSKGQLIFNVIESFSQVIFGIINMIMRLAPIGAFGAMAFTIGKYGVGTLVQLGQLIICFYITCILFVVLVLGSIAKATGFSIFKFIRYIREELLIVLGTSSSESALPRMLDKMEKLGCRKSVVGLVIPTGYSFNLDGTSIYLTMAAVFIAQATNSQMDIVHQITLLIVLLLSSKGAAGVTGSGFIVLAATLSAVGHLPVAGLALILGIDRFMSEARALTNLVGNGVATIVVAKWVKELDHKKLDDVLNNRAPDGKTHELSS" ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"DCTP-DEAM-MONOMER" "dCTP deaminase" ["Dus", "PaxA", "Dcd"] "MRLCDRDIEAWLDEGRLSINPRPPVERINGATVDVRLGNKFRTFRGHTAAFIDLSGPKDEVSAALDRVMSDEIVLDEGEAFYLHPGELALAVTLESVTLPADLVGWLDGRSSLARLGLMVHVTAHRIDPGWSGCIVLEFYNSGKLPLALRPGMLIGALSFEPLSGPAVRPYNRREDAKYRNQQGAVASRIDKD" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"DCUA-MONOMER" "C4-dicarboxylate transporter DcuA" ["GenA", "DcuA"] "MLVVELIIVLLAIFLGARLGGIGIGFAGGLGVLVLAAIGVKPGNIPFDVISIIMAVIAAISAMQVAGGLDYLVHQTEKLLRRNPKYITILAPIVTYFLTIFAGTGNISLATLPVIAEVAKEQGVKPCRPLSTAVVSAQIAITASPISAAVVYMSSVMEGHGISYLHLLSVVIPSTLLAVLVMSFLVTMLFNSKLSDDPIYRKRLEEGLVELRGEKQIEIKSGAKTSVWLFLLGVVGVVIYAIINSPSMGLVEKPLMNTTNAILIIMLSVATLTTVICKVDTDNILNSSTFKAGMSACICILGVAWLGDTFVSNNIDWIKDTAGEVIQGHPWLLAVIFFFASALLYSQAATAKALMPMALALNVSPLTAVASFAAVSGLFILPTYPTLVAAVQMDDTGTTRIGKFVFNHPFFIPGTLGVALAVCFGFVLGSFML" ["CCO-PM-BAC-NEG"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"DCUB-MONOMER" "anaerobic C4-dicarboxylate transporter DcuB" ["GenF", "DcuB"] "MLFTIQLIIILICLFYGARKGGIALGLLGGIGLVILVFVFHLQPGKPPVDVMLVIIAVVAASATLQASGGLDVMLQIAEKLLRRNPKYVSIVAPFVTCTLTILCGTGHVVYTILPIIYDVAIKNNIRPERPMAASSIGAQMGIIASPVSVAVVSLVAMLGNVTFDGRHLEFLDLLAITIPSTLIGILAIGIFSWFRGKDLDKDEEFQKFISVPENREYVYGDTATLLDKKLPKSNWLAMWIFLGAIAVVALLGADSDLRPSFGGKPLSMVLVIQMFMLLTGALIIILTKTNPASISKNEVFRSGMIAIVAVYGIAWMAETMFGAHMSEIQGVLGEMVKEYPWAYAIVLLLVSKFVNSQAAALAAIVPVALAIGVDPAYIVASAPACYGYYILPTYPSDLAAIQFDRSGTTHIGRFVINHSFILPGLIGVSVSCVFGWIFAAMYGFL" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"DCUC-MONOMER" "anaerobic C4-dicarboxylate transporter DcuC" ["DcuC"] "MLTFIELLIGVVVIVGVARYIIKGYSATGVLFVGGLLLLIISAIMGHKVLPSSQASTGYSATDIVEYVKILLMSRGGDLGMMIMMLCGFAAYMTHIGANDMVVKLASKPLQYINSPYLLMIAAYFVACLMSLAVSSATGLGVLLMATLFPVMVNVGISRGAAAAICASPAAIILAPTSGDVVLAAQASEMSLIDFAFKTTLPISIAAIIGMAIAHFFWQRYLDKKEHISHEMLDVSEITTTAPAFYAILPFTPIIGVLIFDGKWGPQLHIITILVICMLIASILEFLRSFNTQKVFSGLEVAYRGMADAFANVVMLLVAAGVFAQGLSTIGFIQSLISIATSFGSASIILMLVLVILTMLAAVTTGSGNAPFYAFVEMIPKLAHSSGINPAYLTIPMLQASNLGRTLSPVSGVVVAVAGMAKISPFEVVKRTSVPVLVGLVIVIVATELMVPGTAAAVTGK" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"DCUR-MONOMER" "DNA-binding transcriptional activator DcuR" ["YjdG", "DcuR response regulator", "DcuR"] "MINVLIIDDDAMVAELNRRYVAQIPGFQCCGTASTLEKAKEIIFNSDTPIDLILLDIYMQKENGLDLLPVLHNARCKSDVIVISSAADAATIKDSLHYGVVDYLIKPFQASRFEEALTGWRQKKMALEKHQYYDQAELDQLIHGSSSNEQDPRRLPKGLTPQTLRTLCQWIDAHQDYEFSTDELANEVNISRVSCRKYLIWLVNCHILFTSIHYGVTGRPVYRYRIQAEHYSLLKQYCQ" [] ["CCO-CYTOSOL"] +"DCUS-MONOMER" "sensor histidine kinase DcuS" ["YjdH", "DcuS"] "MRHSLPYRMLRKRPMKLSTTVILMVSAVLFSVLLVVHLIYFSQISDMTRDGLANKALAVARTLADSPEIRQGLQKKPQESGIQAIAEAVRKRNDLLFIVVTDMQSLRYSHPEAQRIGQPFKGDDILKALNGEENVAINRGFLAQALRVFTPIYDENHKQIGVVAIGLELSRVTQQINDSRWSIIWSVLFGMLVGLIGTCILVKVLKKILFGLEPYEISTLFEQRQAMLQSIKEGVVAVDDRGEVTLINDAAQELLNYRKSQDDEKLSTLSHSWSQVVDVSEVLRDGTPRRDEEITIKDRLLLINTVPVRSNGVIIGAISTFRDKTEVRKLMQRLDGLVNYADALRERSHEFMNKLHVILGLLHLKSYKQLEDYILKTANNYQEEIGSLLGKIKSPVIAGFLISKINRATDLGHTLILNSESQLPDSGSEDQVATLITTLGNLIENALEALGPEPGGEISVTLHYRHGWLHCEVNDDGPGIAPDKIDHIFDKGVSTKGSERGVGLALVKQQVENLGGSIAVESEPGIFTQFFVQIPWDGERSNR" ["CCO-PERI-BAC", "CCO-CYTOSOL", "CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"DCYSDESULF-MONOMER" "D-cysteine desulfhydrase" ["YedO", "DcyD"] "MPLHNLTRFPRLEFIGAPTPLEYLPRFSDYLGREIFIKRDDVTPMAMGGNKLRKLEFLAADALREGADTLITAGAIQSNHVRQTAAVAAKLGLHCVALLENPIGTTAENYLTNGNRLLLDLFNTQIEMCDALTDPNAQLEELATRVEAQGFRPYVIPVGGSNALGALGYVESALEIAQQCEGAVNISSVVVASGSAGTHAGLAVGLEHLMPESELIGVTVSRSVADQLPKVVNLQQAIAKELELTASAEILLWDDYFAPGYGVPNDEGMEAVKLLARLEGILLDPVYTGKAMAGLIDGISQKRFKDEGPILFIHTGGAPALFAYHPHV" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"DEHYDDEOXGALACTKIN-MONOMER" null ["YidV", "DgoK"] "MTARYIAIDWGSTNLRAWLYQGDHCLESRQSEAGVTRLNGKSPAAVLAEVTTDWREEKTPVVMAGMVGSNVGWKVAPYLSVPACFSSIGEQLTSVGDNIWIIPGLCVSHDDNHNVMRGEETQLIGARALAPSSLYVMPGTHCKWVQADSQQINDFRTVMTGELHHLLLNHSLIGAGLPPQENSADAFTAGLERGLNTPAILPQLFEVRASHVLGTLPREQVSEFLSGLLIGAEVASMRDYVAHQHAITLVAGTSLTARYQQAFQAMGCDVTAVAGDTAFQAGIRSIAHAVAN" [] ["CCO-CYTOSOL"] +"DEHYDDEOXPHOSGALACT-ALDOL-MONOMER" null ["YidU", "DgoA"] "MQWQTKLPLIAILRGITPDEALAHVGAVIDAGFDAVEIPLNSPQWEQSIPAIVDAYGDKALIGAGTVLKPEQVDALARMGCQLIVTPNIHSEVIRRAVGYGMTVCPGCATATEAFTALEAGAQALKIFPSSAFGPQYIKALKAVLPSDIAVFAVGGVTPENLAQWIDAGCAGAGLGSDLYRAGQSVERTAQQAAAFVKAYREAVQ" [] ["CCO-CYTOSOL"] +"DEOA-MONOMER" "thymidine phosphorylase" ["Ttg", "Tpp", "DeoA"] "MFLAQEIIRKKRDGHALSDEEIRFFINGIRDNTISEGQIAALAMTIFFHDMTMPERVSLTMAMRDSGTVLDWKSLHLNGPIVDKHSTGGVGDVTSLMLGPMVAACGGYIPMISGRGLGHTGGTLDKLESIPGFDIFPDDNRFREIIKDVGVAIIGQTSSLAPADKRFYATRDITATVDSIPLITASILAKKLAEGLDALVMDVKVGSGAFMPTYELSEALAEAIVGVANGAGVRTTALLTDMNQVLASSAGNAVEVREAVQFLTGEYRNPRLFDVTMALCVEMLISGKLAKDDAEARAKLQAVLDNGKAAEVFGRMVAAQKGPTDFVENYAKYLPTAMLTKAVYADTEGFVSEMDTRALGMAVVAMGGGRRQASDTIDYSVGFTDMARLGDQVDGQRPLAVIHAKDENNWQEAAKAVKAAIKLADKAPESTPTVYRRISE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"DEOD-MONOMER" "purine nucleoside phosphorylase" ["Pup", "DeoD"] "MATPHINAEMGDFADVVLMPGDPLRAKYIAETFLEDAREVNNVRGMLGFTGTYKGRKISVMGHGMGIPSCSIYTKELITDFGVKKIIRVGSCGAVLPHVKLRDVVIGMGACTDSKVNRIRFKDHDFAAIADFDMVRNAVDAAKALGIDARVGNLFSADLFYSPDGEMFDVMEKYGILGVEMEAAGIYGVAAEFGAKALTICTVSDHIRTHEQTTAAERQTTFNDMIKIALESVLLGDKE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"DEOXYGLUCONOKIN-MONOMER" "2-dehydro-3-deoxygluconokinase" ["YhjI", "KdgK"] "MSKKIAVIGECMIELSEKGADVKRGFGGDTLNTSVYIARQVDPAALTVHYVTALGTDSFSQQMLDAWHGENVDTSLTQRMENRLPGLYYIETDSTGERTFYYWRNEAAAKFWLESEQSAAICEELANFDYLYLSGISLAILSPTSREKLLSLLRECRANGGKVIFDNNYRPRLWASKEETQQVYQQMLECTDIAFLTLDDEDALWGQQPVEDVIARTHNAGVKEVVVKRGADSCLVSIAGEGLVDVPAVKLPKEKVIDTTAAGDSFSAGYLAVRLTGGSAEDAAKRGHLTASTVIQYRGAIIPREAMPA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"DEOXYRIBOSE-P-ALD-MONOMER" null ["Tlr", "Dra", "ThyR", "DeoC"] "MTDLKASSLRALKLMDLTTLNDDDTDEKVIALCHQAKTPVGNTAAICIYPRFIPIARKTLKEQGTPEIRIATVTNFPHGNDDIDIALAETRAAIAYGADEVDVVFPYRALMAGNEQVGFDLVKACKEACAAANVLLKVIIETGELKDEALIRKASEISIKAGADFIKTSTGKVAVNATPESARIMMEVIRDMGVEKTVGFKPAGGVRTAEDAQKYLAIADELFGADWADARHYRFGASSLLASLLKALGHGDGKSASSY" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"DETHIOBIOTIN-SYN-MONOMER" "dethiobiotin synthetase" ["BioD"] "MSKRYFVTGTDTEVGKTVASCALLQAAKAAGYRTAGYKPVASGSEKTPEGLRNSDALALQRNSSLQLDYATVNPYTFAEPTSPHIISAQEGRPIESLVMSAGLRALEQQADWVLVEGAGGWFTPLSDTFTFADWVTQEQLPVILVVGVKLGCINHAMLTAQVIQHAGLTLAGWVANDVTPPGKRHAEYMTTLTRMIPAPLLGEIPWLAENPENAATGKYINLALL" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"DGTPTRIPHYDRO-MONOMER" "dGTP triphosphohydrolase" ["Dgt", "OptA"] "MAQIDFRKKINWHRRYRSPQGVKTEHEILRIFESDRGRIINSPAIRRLQQKTQVFPLERNAAVRTRLTHSMEVQQVGRYIAKEILSRLKELKLLEAYGLDELTGPFESIVEMSCLMHDIGNPPFGHFGEAAINDWFRQRLHPEDAESQPLTDDRCSVAALRLRDGEEPLNELRRKIRQDLCHFEGNAQGIRLVHTLMRMNLTWAQVGGILKYTRPAWWRGETPETHHYLMKKPGYYLSEEAYIARLRKELNLALYSRFPLTWIMEAADDISYCVADLEDAVEKRIFTVEQLYHHLHEAWGQHEKGSLFSLVVENAWEKSRSNSLSRSTEDQFFMYLRVNTLNKLVPYAAQRFIDNLPAIFAGTFNHALLEDASECSDLLKLYKNVAVKHVFSHPDVERLELQGYRVISGLLEIYRPLLSLSLSDFTELVEKERVKRFPIESRLFHKLSTRHRLAYVEAVSKLPSDSPEFPLWEYYYRCRLLQDYISGMTDLYAWDEYRRLMAVEQ" [] ["CCO-CYTOSOL"] +"DHHB-METHYLTRANSFER-MONOMER" "bifunctional 3-demethylubiquinone-8 3-O-methyltransferase and 2-octaprenyl-6-hydroxyphenol methylase" ["PufX", "YfaB", "UbiG"] "MNAEKSPVNHNVDHEEIAKFEAVASRWWDLEGEFKPLHRINPLRLGYIAERAGGLFGKKVLDVGCGGGILAESMAREGATVTGLDMGFEPLQVAKLHALESGIQVDYVQETVEEHAAKHAGQYDVVTCMEMLEHVPDPQSVVRACAQLVKPGGDVFFSTLNRNGKSWLMAVVGAEYILRMVPKGTHDVKKFIKPAELLGWVDQTSLKERHITGLHYNPITNTFKLGPGVDVNYMLHTQNK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"DHPDIOXYGEN-MONOMER" "3-carboxyethylcatechol 2,3-dioxygenase" ["MhpB", "2,3-dihydroxyphenylpropionate/2,3-dihydroxycinnamate 1,2-dioxygenase"] "MHAYLHCLSHSPLVGYVDPAQEVLDEVNGVIASARERIAAFSPELVVLFAPDHYNGFFYDVMPPFCLGVGATAIGDFGSAAGELPVPVELAEACAHAVMKSGIDLAVSYCMQVDHGFAQPLEFLLGGLDKVPVLPVFINGVATPLPGFQRTRMLGEAIGRFTSTLNKRVLFLGSGGLSHQPPVPELAKADAHMRDRLLGSGKDLPASERELRQQRVISAAEKFVEDQRTLHPLNPIWDNQFMTLLEQGRIQELDAVSNEELSAIAGKSTHEIKTWVAAFAAISAFGNWRSEGRYYRPIPEWIAGFGSLSARTEN" [] ["CCO-PM-BAC-NEG"] +"DIACYLGLYKIN-MONOMER" "diacylglycerol kinase" ["DgkA"] "MANNTTGFTRIIKAAGYSWKGLRAAWINEAAFRQEGVAVLLAVVIACWLDVDAITRVLLISSVMLVMIVEILNSAIEAVVDRIGSEYHELSGRAKDMGSAAVLIAIIVAVITWCILLWSHFG" ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"DIAMINOPIMDECARB-MONOMER" "diaminopimelate decarboxylase" ["LysA"] "MPHSLFSTDTDLTAENLLRLPAEFGCPVWVYDAQIIRRQIAALKQFDVVRFAQKACSNIHILRLMREQGVKVDSVSLGEIERALAAGYNPQTHPDDIVFTADVIDQATLERVSELQIPVNAGSVDMLDQLGQVSPGHRVWLRVNPGFGHGHSQKTNTGGENSKHGIWYTDLPAALDVIQRHHLQLVGIHMHIGSGVDYAHLEQVCGAMVRQVIEFGQDLQAISAGGGLSVPYQQGEEAVDTEHYYGLWNAAREQIARHLGHPVKLEIEPGRFLVAQSGVLITQVRSVKQMGSRHFVLVDAGFNDLMRPAMYGSYHHISALAADGRSLEHAPTVETVVAGPLCESGDVFTQQEGGNVETRALPEVKAGDYLVLHDTGAYGASMSSNYNSRPLLPEVLFDNGQARLIRRRQTIEELLALELL" [] ["CCO-CYTOSOL"] +"DIAMINOPIMEPIM-MONOMER" "diaminopimelate epimerase" ["DapF"] "MQFSKMHGLGNDFMVVDAVTQNVFFSPELIRRLADRHLGVGFDQLLVVEPPYDPELDFHYRIFNADGSEVAQCGNGARCFARFVRLKGLTNKRDIRVSTANGRMVLTVTDDDLVRVNMGEPNFEPSAVPFRANKAEKTYIMRAAEQTILCGVVSMGNPHCVIQVDDVDTAAVETLGPVLESHERFPERANIGFMQVVKREHIRLRVYERGAGETQACGSGACAAVAVGIQQGLLAEEVRVELPGGRLDIAWKGPGHPLYMTGPAVHVYDGFIHL" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"DIENOYLCOAREDUCT-MONOMER" null ["YgjL", "FadH"] "MSYPSLFAPLDLGFTTLKNRVLMGSMHTGLEEYPDGAERLAAFYAERARHGVALIVSGGIAPDLTGVGMEGGAMLNDASQIPHHRTITEAVHQEGGKIALQILHTGRYSYQPHLVAPSALQAPINRFVPHELSHEEILQLIDNFARCAQLAREAGYDGVEVMGSEGYLINEFLTLRTNQRSDQWGGDYRNRMRFAVEVVRAVRERVGNDFIIIYRLSMLDLVEDGGTFAETVELAQAIEAAGATIINTGIGWHEARIPTIATPVPRGAFSWVTRKLKGHVSLPLVTTNRINDPQVADDILSRGDADMVSMARPFLADAELLSKAQSGRADEINTCIGCNQACLDQIFVGKVTSCLVNPRACHETKMPILPAVQKKNLAVVGAGPAGLAFAINAAARGHQVTLFDAHSEIGGQFNIAKQIPGKEEFYETLRYYRRMIEVTGVTLKLNHTVTADQLQAFDETILASGIVPRTPPIDGIDHPKVLSYLDVLRDKAPVGNKVAIIGCGGIGFDTAMYLSQPGESTSQNIAGFCNEWGIDSSLQQAGGLSPQGMQIPRSPRQIVMLQRKASKPGQGLGKTTGWIHRTTLLSRGVKMIPGVSYQKIDDDGLHVVINGETQVLAVDNVVICAGQEPNRALAQPLIDSGKTVHLIGGCDVAMELDARRAIAQGTRLALEI" [] ["CCO-CYTOSOL"] +"DIHYDRODIPICSYN-MONOMER" "4-hydroxy-tetrahydrodipicolinate synthase" ["DapA", "DHDPS", "dihydrodipicolinate synthase"] "MFTGSIVAIVTPMDEKGNVCRASLKKLIDYHVASGTSAIVSVGTTGESATLNHDEHADVVMMTLDLADGRIPVIAGTGANATAEAISLTQRFNDSGIVGCLTVTPYYNRPSQEGLYQHFKAIAEHTDLPQILYNVPSRTGCDLLPETVGRLAKVKNIIGIKEATGNLTRVNQIKELVSDDFVLLSGDDASALDFMQLGGHGVISVTANVAARDMAQMCKLAAEGHFAEARVINQRLMPLHNKLFVEPNPIPVKWACKELGLVATDTLRLPMTPITDSGRETVRAALKHAGLL" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"DIHYDROFOLATEREDUCT-MONOMER" "dihydrofolate reductase" ["Tmr", "TmrA", "FolA"] "MISLIAALAVDRVIGMENAMPWNLPADLAWFKRNTLNKPVIMGRHTWESIGRPLPGRKNIILSSQPGTDDRVTWVKSVDEAIAACGDVPEIMVIGGGRVYEQFLPKAQKLYLTHIDAEVEGDTHFPDYEPDDWESVFSEFHDADAQNSHSYCFEILERR" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"DIHYDROOROT-MONOMER" "dihydroorotase" ["PyrC"] "MTAPSQVLKIRRPDDWHLHLRDGDMLKTVVPYTSEIYGRAIVMPNLAPPVTTVEAAVAYRQRILDAVPAGHDFTPLMTCYLTDSLDPNELERGFNEGVFTAAKLYPANATTNSSHGVTSIDAIMPVLERMEKIGMPLLVHGEVTHADIDIFDREARFIESVMEPLRQRLTALKVVFEHITTKDAADYVRDGNERLAATITPQHLMFNRNHMLVGGVRPHLYCLPILKRNIHQQALRELVASGFNRVFLGTDSAPHARHRKESSCGCAGCFNAPTALGSYATVFEEMNALQHFEAFCSVNGPQFYGLPVNDTFIELVREEQQVAESIALTDDTLVPFLAGETVRWSVKQ" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"DIHYDROOROTOX-MONOMER" "dihydroorotate dehydrogenase, type 2" ["PyrD"] "MYYPFVRKALFQLDPERAHEFTFQQLRRITGTPFEALVRQKVPAKPVNCMGLTFKNPLGLAAGLDKDGECIDALGAMGFGSIEIGTVTPRPQPGNDKPRLFRLVDAEGLINRMGFNNLGVDNLVENVKKAHYDGVLGINIGKNKDTPVEQGKDDYLICMEKIYAYAGYIAINISSPNTPGLRTLQYGEALDDLLTAIKNKQNDLQAMHHKYVPIAVKIAPDLSEEELIQVADSLVRHNIDGVIATNTTLDRSLVQGMKNCDQTGGLSGRPLQLKSTEIIRRLSLELNGRLPIIGVGGIDSVIAAREKIAAGASLVQIYSGFIFKGPPLIKEIVTHI" ["CCO-CYTOSOL", "CCO-MEMBRANE"] ["CCO-CYTOSOL", "CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"DIHYDROPICRED-MONOMER" "4-hydroxy-tetrahydrodipicolinate reductase" ["DapB", "DHPR", "dihydrodipicolinate reductase"] "MHDANIRVAIAGAGGRMGRQLIQAALALEGVQLGAALEREGSSLLGSDAGELAGAGKTGVTVQSSLDAVKDDFDVFIDFTRPEGTLNHLAFCRQHGKGMVIGTTGFDEAGKQAIRDAAADIAIVFAANFSVGVNVMLKLLEKAAKVMGDYTDIEIIEAHHRHKVDAPSGTALAMGEAIAHALDKDLKDCAVYSREGHTGERVPGTIGFATVRAGDIVGEHTAMFADIGERLEITHKASSRMTFANGAVRSALWLSGKESGLFDMRDVLDLNNL" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"DIHYDROPTERIREDUCT-MONOMER" "NAD(P)H nitroreductase NfsB" ["Ntr", "NfsB", "DprA", "NfnB"] "MDIISVALKRHSTKAFDASKKLTPEQAEQIKTLLQYSPSSTNSQPWHFIVASTEEGKARVAKSAAGNYVFNERKMLDASHVVVFCAKTAMDDVWLKLVVDQEDADGRFATPEAKAANDKGRKFFADMHRKDLHDDAEWMAKQVYLNVGNFLLGVAALGLDAVPIEGFDAAILDAEFGLKEKGYTSLVVVPVGHHSVEDFNATLPKSRLPQNITLTEV" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"DIHYDROXYACIDDEHYDRAT-MONOMER" "dihydroxy-acid dehydratase" ["IlvD"] "MPKYRSATTTHGRNMAGARALWRATGMTDADFGKPIIAVVNSFTQFVPGHVHLRDLGKLVAEQIEAAGGVAKEFNTIAVDDGIAMGHGGMLYSLPSRELIADSVEYMVNAHCADAMVCISNCDKITPGMLMASLRLNIPVIFVSGGPMEAGKTKLSDQIIKLDLVDAMIQGADPKVSDSQSDQVERSACPTCGSCSGMFTANSMNCLTEALGLSQPGNGSLLATHADRKQLFLNAGKRIVELTKRYYEQNDESALPRNIASKAAFENAMTLDIAMGGSTNTVLHLLAAAQEAEIDFTMSDIDKLSRKVPQLCKVAPSTQKYHMEDVHRAGGVIGILGELDRAGLLNRDVKNVLGLTLPQTLEQYDVMLTQDDAVKNMFRAGPAGIRTTQAFSQDCRWDTLDDDRANGCIRSLEHAYSKDGGLAVLYGNFAENGCIVKTAGVDDSILKFTGPAKVYESQDDAVEAILGGKVVAGDVVVIRYEGPKGGPGMQEMLYPTSFLKSMGLGKACALITDGRFSGGTSGLSIGHVSPEAASGGSIGLIEDGDLIAIDIPNRGIQLQVSDAELAARREAQDARGDKAWTPKNRERQVSFALRAYASLATSADKGAVRDKSKLGG" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"DINF-MONOMER" "DNA damage-inducible protein F" ["DinF"] "MPPGVAVCFSSLFIRLVCMAFLTSSDKALWHLALPMIFSNITVPLLGLVDTAVIGHLDSPVYLGGVAVGATATSFLFMLLLFLRMSTTGLTAQAYGAKNPQALARTLVQPLLLALGAGALIALLRTPIIDLALHIVGGSEAVLEQARRFLEIRWLSAPASLANLVLLGWLLGVQYARAPVILLVVGNILNIVLDVWLVMGLHMNVQGAALATVIAEYATLLIGLLMVRKILKLRGISGEMLKTAWRGNFRRLLALNRDIMLRSLLLQLCFGAITVLGARLGSDIIAVNAVLMTLLTFTAYALDGFAYAVEAHSGQAYGARDGSQLLDVWRAACRQSGIVALLFSVVYLLAGEHIIALLTSLTQIQQLADRYLIWQVILPVVGVWCYLLDGMFIGATRATEMRNSMAVAAAGFALTLLTLPWLGNHALWLALTVFLALRGLSLAAIWRRHWRNGTWFAAT" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"DIOHBUTANONEPSYN-MONOMER" "3,4-dihydroxy-2-butanone-4-phosphate synthase" ["LuxH", "HtrP", "RibB"] "MNQTLLSSFGTPFERVENALAALREGRGVMVLDDEDRENEGDMIFPAETMTVEQMALTIRHGSGIVCLCITEDRRKQLDLPMMVENNTSAYGTGFTVTIEAAEGVTTGVSAADRITTVRAAIADGAKPSDLNRPGHVFPLRAQAGGVLTRGGHTEATIDLMTLAGFKPAGVLCELTNDDGTMARAPECIEFANKHNMALVTIEDLVAYRQAHERKAS" ["CCO-CYTOSOL"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE", "CCO-CYTOSOL"] +"DISULFOXRED-MONOMER" "thiol:disulfide oxidoreductase DsbA" ["Dsf", "PpfA", "IarA", "DsbA", "protein disulfide oxidoreductase DsbA"] "MKKIWLALAGLVLAFSASAAQYEDGKQYTTLEKPVAGAPQVLEFFSFFCPHCYQFEEVLHISDNVKKKLPEGVKMTKYHVNFMGGDLGKDLTQAWAVAMALGVEDKVTVPLFEGVQKTQTIRSASDIRDVFINAGIKGEEYDAAWNSFVVKSLVAQQEKAAADVQLRGVPAMFVNGKYQLNPQGMDTSNMDVFVQQYADTVKYLSEKK" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"DLACTDEHYDROGFAD-MONOMER" "quinone-dependent D-lactate dehydrogenase" ["Ldh", "Dld"] "MSSMTTTDNKAFLNELARLVGSSHLLTDPAKTARYRKGFRSGQGDALAVVFPGSLLELWRVLKACVTADKIILMQAANTGLTEGSTPNGNDYDRDVVIISTLRLDKLHVLGKGEQVLAYPGTTLYSLEKALKPLGREPHSVIGSSCIGASVIGGICNNSGGSLVQRGPAYTEMSLFARINEDGKLTLVNHLGIDLGETPEQILSKLDDDRIKDDDVRHDGRHAHDYDYVHRVRDIEADTPARYNADPDRLFESSGCAGKLAVFAVRLDTFEAEKNQQVFYIGTNQPEVLTEIRRHILANFENLPVAGEYMHRDIYDIAEKYGKDTFLMIDKLGTDKMPFFFNLKGRTDAMLEKVKFFRPHFTDRAMQKFGHLFPSHLPPRMKNWRDKYEHHLLLKMAGDGVGEAKSWLVDYFKQAEGDFFVCTPEEGSKAFLHRFAAAGAAIRYQAVHSDEVEDILALDIALRRNDTEWYEHLPPEIDSQLVHKLYYGHFMCYVFHQDYIVKKGVDVHALKEQMLELLQQRGAQYPAEHNVGHLYKAPETLQKFYRENDPTNSMNPGIGKTSKRKNWQEVE" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"DLACTDEHYDROGNAD-MONOMER" "D-lactate dehydrogenase" ["HtpH", "HslI", "HslF", "LdhA", "D-lactate dehydrogenase - fermentative"] "MKLAVYSTKQYDKKYLQQVNESFGFELEFFDFLLTEKTAKTANGCEAVCIFVNDDGSRPVLEELKKHGVKYIALRCAGFNNVDLDAAKELGLKVVRVPAYDPEAVAEHAIGMMMTLNRRIHRAYQRTRDANFSLEGLTGFTMYGKTAGVIGTGKIGVAMLRILKGFGMRLLAFDPYPSAAALELGVEYVDLPTLFSESDVISLHCPLTPENYHLLNEAAFEQMKNGVMIVNTSRGALIDSQAAIEALKNQKIGSLGMDVYENERDLFFEDKSNDVIQDDVFRRLSACHNVLFTGHQAFLTAEALTSISQTTLQNLSNLEKGETCPNELV" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"DMBPPRIBOSYLTRANS-MONOMER" "nicotinate-nucleotide—dimethylbenzimidazole phosphoribosyltransferase" ["CobT"] "MQILADLLNTIPAIDSTAMSRAQRHIDGLLKPVGSLGKLEVLAIQLAGMPGLNGIPHVGKKAVLVMCADHGVWEEGVAISPKEVTAIQAENMTRGTTGVCVLAEQAGANVHVIDVGIDTAEPIPGLINMRVARGSGNIASAPAMSRRQAEKLLLDVICYTQELAKNGVTLFGVGELGMANTTPAAAIVSTITGRDPEEVVGIGANLPTDKLANKIDVVRRAITLNQPNPQDGVDVLAKVGGFDLVGIAGVMLGAASCGLPVLLDGFLSYAAALAACQMSPAIKPYLIPSHLSAEKGARIALSHLGLEPYLNMEMRLGEGSGAALAMPIIEAACAIYNNMGELAASNIVLPGNTTSDLNS" [] ["CCO-CYTOSOL"] +"DMK-MONOMER" null ["YiiW", "MenA"] "MTEQQISRTQAWLESLRPKTLPLAFAAIIVGTALAWWQGHFDPLVALLALITAGLLQILSNLANDYGDAVKGSDKPDRIGPLRGMQKGVITQQEMKRALIITVVLICLSGLALVAVACHTLADFVGFLILGGLSIIAAITYTVGNRPYGYIGLGDISVLVFFGWLSVMGSWYLQAHTLIPALILPATACGLLATAVLNINNLRDINSDRENGKNTLVVRLGEVNARRYHACLLMGSLVCLALFNLFSLHSLWGWLFLLAAPLLVKQARYVMREMDPVAMRPMLERTVKGALLTNLLFVLGIFLSQWAA" ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"DMSA-MONOMER" "dimethyl sulfoxide reductase subunit A" ["DmsA", "dimethyl sulfoxide reductase, chain A"] "MKTKIPDAVLAAEVSRRGLVKTTAIGGLAMASSALTLPFSRIAHAVDSAIPTKSDEKVIWSACTVNCGSRCPLRMHVVDGEIKYVETDNTGDDNYDGLHQVRACLRGRSMRRRVYNPDRLKYPMKRVGARGEGKFERISWEEAYDIIATNMQRLIKEYGNESIYLNYGTGTLGGTMTRSWPPGNTLVARLMNCCGGYLNHYGDYSSAQIAEGLNYTYGGWADGNSPSDIENSKLVVLFGNNPGETRMSGGGVTYYLEQARQKSNARMIIIDPRYTDTGAGREDEWIPIRPGTDAALVNGLAYVMITENLVDQAFLDKYCVGYDEKTLPASAPKNGHYKAYILGEGPDGVAKTPEWASQITGVPADKIIKLAREIGSTKPAFISQGWGPQRHANGEIATRAISMLAILTGNVGINGGNSGAREGSYSLPFVRMPTLENPIQTSISMFMWTDAIERGPEMTALRDGVRGKDKLDVPIKMIWNYAGNCLINQHSEINRTHEILQDDKKCELIVVIDCHMTSSAKYADILLPDCTASEQMDFALDASCGNMSYVIFNDQVIKPRFECKTIYEMTSELAKRLGVEQQFTEGRTQEEWMRHLYAQSREAIPELPTFEEFRKQGIFKKRDPQGHHVAYKAFREDPQANPLTTPSGKIEIYSQALADIAATWELPEGDVIDPLPIYTPGFESYQDPLNKQYPLQLTGFHYKSRVHSTYGNVDVLKAACRQEMWINPLDAQKRGIHNGDKVRIFNDRGEVHIEAKVTPRMMPGVVALGEGAWYDPDAKRVDKGGCINVLTTQRPSPLAKGNPSHTNLVQVEKV" ["CCO-PM-BAC-NEG"] ["CCO-PERI-BAC", "CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"DMSB-MONOMER" "dimethyl sulfoxide reductase subunit B" ["DmsB", "dimethyl sulfoxide reductase, chain B"] "MTTQYGFFIDSSRCTGCKTCELACKDYKDLTPEVSFRRIYEYAGGDWQEDNGVWHQNVFAYYLSISCNHCEDPACTKVCPSGAMHKREDGFVVVDEDVCIGCRYCHMACPYGAPQYNETKGHMTKCDGCYDRVAEGKKPICVESCPLRALDFGPIDELRKKHGDLAAVAPLPRAHFTKPNIVIKPNANSRPTGDTTGYLANPKEV" ["CCO-PM-BAC-NEG"] [] +"DMSC-MONOMER" "dimethyl sulfoxide reductase subunit C" ["DmsC", "dimethyl sulfoxide reductase, chain C"] "MGSGWHEWPLMIFTVFGQCVAGGFIVLALALLKGDLRAEAQQRVIACMFGLWVLMGIGFIASMLHLGSPMRAFNSLNRVGASALSNEIASGSIFFAVGGIGWLLAMLKKLSPALRTLWLIVTMVLGVIFVWMMVRVYNSIDTVPTWYSIWTPMGFFLTMFMGGPLLGYLLLSLAGVDGWAMRLLPAISVLALVVSGVVSVMQGAELATIHSSVQQAAALVPDYGALMSWRIVLLAVALCLWIAPQLKGYQPAVPLLSVSFILLLAGELIGRGVFYGLHMTVGMAVAS" ["CCO-PM-BAC-NEG"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"DPPA-MONOMER" "dipeptide ABC transporter periplasmic binding protein" ["Dpp", "Fpp", "DppA", "Alu"] "MRISLKKSGMLKLGLSLVAMTVAASVQAKTLVYCSEGSPEGFNPQLFTSGTTYDASSVPLYNRLVEFKIGTTEVIPGLAEKWEVSEDGKTYTFHLRKGVKWHDNKEFKPTRELNADDVVFSFDRQKNAQNPYHKVSGGSYEYFEGMGLPELISEVKKVDDNTVQFVLTRPEAPFLADLAMDFASILSKEYADAMMKAGTPEKLDLNPIGTGPFQLQQYQKDSRIRYKAFDGYWGTKPQIDTLVFSITPDASVRYAKLQKNECQVMPYPNPADIARMKQDKSINLMEMPGLNVGYLSYNVQKKPLDDVKVRQALTYAVNKDAIIKAVYQGAGVSAKNLIPPTMWGYNDDVQDYTYDPEKAKALLKEAGLEKGFSIDLWAMPVQRPYNPNARRMAEMIQADWAKVGVQAKIVTYEWGEYLKRAKDGEHQTVMMGWTGDNGDPDNFFATLFSCAASEQGSNYSKWCYKPFEDLIQPARATDDHNKRVELYKQAQVVMHDQAPALIIAHSTVFEPVRKEVKGYVVDPLGKHHFENVSIE" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"DPPB-MONOMER" "dipeptide ABC transporter membrane subunit DppB" ["DppB"] "MLQFILRRLGLVIPTFIGITLLTFAFVHMIPGDPVMIMAGERGISPERHAQLLAELGLDKPMWQQYLHYIWGVMHGDLGISMKSRIPVWEEFVPRFQATLELGVCAMIFATAVGIPVGVLAAVKRGSIFDHTAVGLALTGYSMPIFWWGMMLIMLVSVHWNLTPVSGRVSDMVFLDDSNPLTGFMLIDTAIWGEDGNFIDAVAHMILPAIVLGTIPLAVIVRMTRSSMLEVLGEDYIRTARAKGLTRMRVIIVHALRNAMLPVVTVIGLQVGTLLAGAILTETIFSWPGLGRWLIDALQRRDYPVVQGGVLLVATMIILVNLLVDLLYGVVNPRIRHKK" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"DPPC-MONOMER" "dipeptide ABC transporter membrane subunit DppC" ["DppC"] "MSQVTENKVISAPVPMTPLQEFWHYFKRNKGAVVGLVYVVIVLFIAIFANWIAPYNPAEQFRDALLAPPAWQEGGSMAHLLGTDDVGRDVLSRLMYGARLSLLVGCLVVVLSLIMGVILGLIAGYFGGLVDNIIMRVVDIMLALPSLLLALVLVAIFGPSIGNAALALTFVALPHYVRLTRAAVLVEVNRDYVTASRVAGAGAMRQMFINIFPNCLAPLIVQASLGFSNAILDMAALGFLGMGAQPPTPEWGTMLSDVLQFAQSAWWVVTFPGLAILLTVLAFNLMGDGLRDALDPKLKQ" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"DPPD-MONOMER" "dipeptide ABC transporter ATP binding subunit DppD" ["DppD"] "MALLNVDKLSVHFGDESAPFRAVDRISYSVKQGEVVGIVGESGSGKSVSSLAIMGLIDYPGRVMAEKLEFNGQDLQRISEKERRNLVGAEVAMIFQDPMTSLNPCYTVGFQIMEAIKVHQGGNKSTRRQRAIDLLNQVGIPDPASRLDVYPHQLSGGMSQRVMIAMAIACRPKLLIADEPTTALDVTIQAQIIELLLELQQKENMALVLITHDLALVAEAAHKIIVMYAGQVVETGDAHAIFHAPRHPYTQALLRALPEFAQDKERLASLPGVVPGKYDRPNGCLLNPRCPYATDRCRAEEPALNMLADGRQSKCHYPLDDAGRPTL" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"DPPF-MONOMER" "dipeptide ABC transporter ATP binding subunit DppF" ["DppE"] "MSTQEATLQQPLLQAIDLKKHYPVKKGMFAPERLVKALDGVSFNLERGKTLAVVGESGCGKSTLGRLLTMIEMPTGGELYYQGQDLLKHDPQAQKLRRQKIQIVFQNPYGSLNPRKKVGQILEEPLLINTSLSKEQRREKALSMMAKVGLKTEHYDRYPHMFSGGQRQRIAIARGLMLDPDVVIADEPVSALDVSVRAQVLNLMMDLQQELGLSYVFISHDLSVVEHIADEVMVMYLGRCVEKGTKDQIFNNPRHPYTQALLSATPRLNPDDRRERIKLSGELPSPLNPPPGCAFNARCRRRFGPCTQLQPQLKDYGGQLVACFAVDQDENPQR" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"DSBBPROT-MONOMER" "protein thiol:quinone oxidoreductase DsbB" ["DsbX", "RoxB", "YcgA", "RosB", "IarB", "DsbB", "quinone reductase DsbB"] "MLRFLNQCSQGRGAWLLMAFTALALELTALWFQHVMLLKPCVLCIYERCALFGVLGAALIGAIAPKTPLRYVAMVIWLYSAFRGVQLTYEHTMLQLYPSPFATCDFMVRFPEWLPLDKWVPQVFVASGDCAERQWDFLGLEMPQWLLGIFIAYLIVAVLVVISQPFKAKKRDLFGR" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"DSBC-MONOMER" "protein disulfide isomerase DsbC" ["XprA", "DsbC", "disulfide oxidoreductase 2", "thiol:disulfide oxidoreductase DsbC", "protein disulfide oxidoreductase DsbC"] "MKKGFMLFTLLAAFSGFAQADDAAIQQTLAKMGIKSSDIQPAPVAGMKTVLTNSGVLYITDDGKHIIQGPMYDVSGTAPVNVTNKMLLKQLNALEKEMIVYKAPQEKHVITVFTDITCGYCHKLHEQMADYNALGITVRYLAFPRQGLDSDAEKEMKAIWCAKDKNKAFDDVMAGKSVAPASCDVDIADHYALGVQLGVSGTPAVVLSNGTLVPGYQPPKEMKEFLDEHQKMTSGK" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"DSBD-MONOMER" "thiol-disulfide exchange protein DsbD" ["HtrI", "DipZ", "CycZ", "DsbD", "thiol:disulfide interchange protein DsbD", "inner membrane copper tolerance protein"] "MAQRIFTLILLLCSTSVFAGLFDAPGRSQFVPADQAFAFDFQQNQHDLNLTWQIKDGYYLYRKQIRITPEHAKIADVQLPQGVWHEDEFYGKSEIYRDRLTLPVTINQASAGATLTVTYQGCADAGFCYPPETKTVPLSEVVANNAAPQPVSVPQQEQPTAQLPFSALWALLIGIGIAFTPCVLPMYPLISGIVLGGKQRLSTARALLLTFIYVQGMALTYTALGLVVAAAGLQFQAALQHPYVLIGLAIVFTLLAMSMFGLFTLQLPSSLQTRLTLMSNRQQGGSPGGVFVMGAIAGLICSPCTTAPLSAILLYIAQSGNMWLGGGTLYLYALGMGLPLMLITVFGNRLLPKSGPWMEQVKTAFGFVILALPVFLLERVIGDVWGLRLWSALGVAFFGWAFITSLQAKRGWMRIVQIILLAAALVSVRPLQDWAFGATHTAQTQTHLNFTQIKTVDELNQALVEAKGKPVMLDLYADWCVACKEFEKYTFSDPQVQKALADTVLLQANVTANDAQDVALLKHLNVLGLPTILFFDGQGQEHPQARVTGFMDAETFSAHLRDRQP" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"DSBG-MONOMER" "protein sulfenic acid reductase and chaperone DsbG" ["DsbG", "YbdP"] "MLKKILLLALLPAIAFAEELPAPVKAIEKQGITIIKTFDAPGGMKGYLGKYQDMGVTIYLTPDGKHAISGYMYNEKGENLSNTLIEKEIYAPAGREMWQRMEQSHWLLDGKKDAPVIVYVFADPFCPYCKQFWQQARPWVDSGKVQLRTLLVGVIKPESPATAAAILASKDPAKTWQQYEASGGKLKLNVPANVSTEQMKVLSDNEKLMDDLGANVTPAIYYMSKENTLQQAVGLPDQKTLNIIMGNK" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"DSDX-MONOMER" null ["DsdC", "YfdA", "YfdD", "DsdX"] "MHSQIWVVSTLLISIVLIVLTIVKFKFHPFLALLLASFFVGTMMGMGPLDMVNAIESGIGGTLGFLAAVIGLGTILGKMMEVSGAAERIGLTLQRCRWLSVDVIMVLVGLICGITLFVEVGVVLLIPLAFSIAKKTNTSLLKLAIPLCTALMAVHCVVPPHPAALYVANKLGADIGSVIVYGLLVGLMASLIGGPLFLKFLGQRLPFKPVPTEFADLKVRDEKTLPSLGATLFTILLPIALMLVKTIAELNMARESGLYILVEFIGNPITAMFIAVFVAYYVLGIRQHMSMGTMLTHTENGFGSIANILLIIGAGGAFNAILKSSSLADTLAVILSNMHMHPILLAWLVALILHAAVGSATVAMMGATAIVAPMLPLYPDISPEIIAIAIGSGAIGCTIVTDSLFWLVKQYCGATLNETFKYYTTATFIASVVALAGTFLLSFII" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"DSERDEAM-MONOMER" "D-serine ammonia-lyase" ["DsdA"] "MENAKMNSLIAQYPLVKDLVALKETTWFNPGTTSLAEGLPYVGLTEQDVQDAHARLSRFAPYLAKAFPETAATGGIIESELVAIPAMQKRLEKEYQQPISGQLLLKKDSHLPISGSIKARGGIYEVLAHAEKLALEAGLLTLDDDYSKLLSPEFKQFFSQYSIAVGSTGNLGLSIGIMSARIGFKVTVHMSADARAWKKAKLRSHGVTVVEYEQDYGVAVEEGRKAAQSDPNCFFIDDENSRTLFLGYSVAGQRLKAQFAQQGRIVDADNPLFVYLPCGVGGGPGGVAFGLKLAFGDHVHCFFAEPTHSPCMLLGVHTGLHDQISVQDIGIDNLTAADGLAVGRASGFVGRAMERLLDGFYTLSDQTMYDMLGWLAQEEGIRLEPSALAGMAGPQRVCASVSYQQMHGFSAEQLRNTTHLVWATGGGMVPEEEMNQYLAKGR" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"DTDPDEHYDRHAMEPIM-MONOMER" null ["RfbD", "RfbC", "RmlC"] "MNVIRTEIEDVLILEPRVFGDDRGFFYESFNQSAFEHILGYPVSFVQDNHSRSSKNVLRGLHFQRGEYAQDKLVRCTHGAVFDVAVDIRPNSVSFGKWVGVLLSADNKQQLWIPKGFAHGFLVLSDIAEFQYKTTNYYHPESDCGICWNDERIAIDWPQTSGLILSPKDERLFTLDELIRLKLIA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"DTDPDEHYRHAMREDUCT-MONOMER" null ["RfbD", "RmlD"] "MNILLFGKTGQVGWELQRALAPLGNLIAFDVHSTDYCGDFSNPEGVAETVRSIRPDIIVNAAAHTAVDKAESEPEFAQLINATSVEAIAKAANEVGAWVIHYSTDYVFPGNGDMPWLETDATAPLNVYGETKLAGEKALQEYCAKHLIFRTSWVYAGKGNNFAKTMLRLAKEREELAVINDQFGAPTGAELLADCTAHAIRVALNKPDVAGLYHLVASGTTTWYDYAALVFEEARKAGIPLALNKLNAVPTTAYPTPARRPHNSRLNTEKFQQNFALVLPDWQVGVKRMLNELFTTTAI" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"DTDPGLUCDEHYDRAT-MONOMER" "dTDP-glucose 4,6-dehydratase 1" ["RmlB", "Som", "RfbB"] "MKILVTGGAGFIGSAVVRHIINNTQDSVVNVDKLTYAGNRESLADVSDSERYVFEHADICDAPAMARIFAQHQPDAVMHLAAESHVDRSITGPAAFIETNIVGTYVLLEAARNYWSALDSDKKNSFRFHHISTDEVYGDLPHPDEVNNTEELPLFTETTAYAPSSPYSASKASSDHLVRAWKRTYGLPTIVTNCSNNYGPYHFPEKLIPLVILNALEGKALPIYGKGDQIRDWLYVEDHARALYTVVTEGKAGETYNIGGHNEKKNIDVVLTICDLLDEIVPKEKSYREQITYVADRPGHDRRYAIDAEKIGRALGWKPQETFESGIRKTVEWYLSNTKWVDNVKSGAYQSWIEQNYEGRQ" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"DTDPGLUCDEHYDRAT2-MONOMER" "dTDP-glucose 4,6-dehydratase 2" ["Rff", "RffG"] "MRKILITGGAGFIGSALVRYIINETSDAVVVVDKLTYAGNLMSLAPVAQSERFAFEKVDICDRAELARVFTEHQPDCVMHLAAESHVDRSIDGPAAFIETNIVGTYTLLEAARAYWNALTEDKKSAFRFHHISTDEVYGDLHSTDDFFTETTPYAPSSPYSASKASSDHLVRAWLRTYGLPTLITNCSNNYGPYHFPEKLIPLMILNALAGKSLPVYGNGQQIRDWLYVEDHARALYCVATTGKVGETYNIGGHNERKNLDVVETICELLEELAPNKPHGVAHYRDLITFVADRPGHDLRYAIDASKIARELGWLPQETFESGMRKTVQWYLANESWWKQVQDGSYQGERLGLKG" [] ["CCO-CYTOSOL"] +"DTDPGLUCOSEPP-MONOMER" "dTDP-glucose pyrophosphorylase" ["Som", "RfbA", "RmlA"] "MKMRKGIILAGGSGTRLYPVTMAVSKQLLPIYDKPMIYYPLSTLMLAGIRDILIISTPQDTPRFQQLLGDGSQWGLNLQYKVQPSPDGLAQAFIIGEEFIGGDDCALVLGDNIFYGHDLPKLMEAAVNKESGATVFAYHVNDPERYGVVEFDKNGTAISLEEKPLEPKSNYAVTGLYFYDNDVVQMAKNLKPSARGELEITDINRIYLEQGRLSVAMMGRGYAWLDTGTHQSLIEASNFIATIEERQGLKVSCPEEIAFRKGFIDVEQVRKLAVPLIKNNYGQYLYKMTKDSN" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"DTDPGLUCOSEPP2-MONOMER" "dTDP-glucose pyrophosphorylase 2" ["YifG", "RffH"] "MKGIILAGGSGTRLHPITRGVSKQLLPIYDKPMIYYPLSVLMLAGIREILIITTPEDKGYFQRLLGDGSEFGIQLEYAEQPSPDGLAQAFIIGETFLNGEPSCLVLGDNIFFGQGFSPKLRHVAARTEGATVFGYQVMDPERFGVVEFDDNFRAISLEEKPKQPKSNWAVTGLYFYDSKVVEYAKQVKPSERGELEITSINQMYLEAGNLTVELLGRGFAWLDTGTHDSLIEASTFVQTVEKRQGFKIACLEEIAWRNGWLDDEGVKRAASSLAKTGYGQYLLELLRARPRQY" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"DTMPKI-MONOMER" null ["YcfG", "Tmk"] "MRSKYIVIEGLEGAGKTTARNVVVETLEQLGIRDMVFTREPGGTQLAEKLRSLVLDIKSVGDEVITDKAEVLMFYAARVQLVETVIKPALANGTWVIGDRHDLSTQAYQGGGRGIDQHMLATLRDAVLGDFRPDLTLYLDVTPEVGLKRARARGELDRIEQESFDFFNRTRARYLELAAQDKSIHTIDATQPLEAVMDAIRTTVTHWVKELDA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"DUTP-PYROP-MONOMER" "dUTP diphosphatase" ["Sof", "DnaS", "Dut"] "MMKKIDVKILDPRVGKEFPLPTYATSGSAGLDLRACLNDAVELAPGDTTLVPTGLAIHIADPSLAAMMLPRSGLGHKHGIVLGNLVGLIDSDYQGQLMISVWNRGQDSFTIQPGERIAQMIFVPVVQAEFNLVEDFDATDRGEGGFGHSGRQ" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"DXPREDISOM-MONOMER" "1-deoxy-D-xylulose 5-phosphate reductoisomerase" ["YaeM", "IspC", "Dxr"] "MKQLTILGSTGSIGCSTLDVVRHNPEHFRVVALVAGKNVTRMVEQCLEFSPRYAVMDDEASAKLLKTMLQQQGSRTEVLSGQQAACDMAALEDVDQVMAAIVGAAGLLPTLAAIRAGKTILLANKESLVTCGRLFMDAVKQSKAQLLPVDSEHNAIFQSLPQPIQHNLGYADLEQNGVVSILLTGSGGPFRETPLRDLATMTPDQACRHPNWSMGRKISVDSATMMNKGLEYIEARWLFNASASQMEVLIHPQSVIHSMVRYQDGSVLAQLGEPDMRTPIAHTMAWPNRVNSGVKPLDFCKLSALTFAAPDYDRYPCLKLAMEAFEQGQAATTALNAANEITVAAFLAQQIRFTDIAALNLSVLEKMDMREPQCVDDVLSVDANAREVARKEVMRLAS" [] ["CCO-PM-BAC-NEG", "CCO-CYTOSOL"] +"DXS-MONOMER" "1-deoxy-D-xylulose-5-phosphate synthase" ["YajP", "Dxs"] "MSFDIAKYPTLALVDSTQELRLLPKESLPKLCDELRRYLLDSVSRSSGHFASGLGTVELTVALHYVYNTPFDQLIWDVGHQAYPHKILTGRRDKIGTIRQKGGLHPFPWRGESEYDVLSVGHSSTSISAGIGIAVAAEKEGKNRRTVCVIGDGAITAGMAFEAMNHAGDIRPDMLVILNDNEMSISENVGALNNHLAQLLSGKLYSSLREGGKKVFSGVPPIKELLKRTEEHIKGMVVPGTLFEELGFNYIGPVDGHDVLGLITTLKNMRDLKGPQFLHIMTKKGRGYEPAEKDPITFHAVPKFDPSSGCLPKSSGGLPSYSKIFGDWLCETAAKDNKLMAITPAMREGSGMVEFSRKFPDRYFDVAIAEQHAVTFAAGLAIGGYKPIVAIYSTFLQRAYDQVLHDVAIQKLPVLFAIDRAGIVGADGQTHQGAFDLSYLRCIPEMVIMTPSDENECRQMLYTGYHYNDGPSAVRYPRGNAVGVELTPLEKLPIGKGIVKRRGEKLAILNFGTLMPEAAKVAESLNATLVDMRFVKPLDEALILEMAASHEALVTVEENAIMGGAGSGVNEVLMAHRKPVPVLNIGLPDFFIPQGTQEEMRAELGLDAAGMEAKIKAWLA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"E1O-MONOMER" "subunit of E1(0) component of 2-oxoglutarate dehydrogenase" ["Lys", "SucA", "E1(o) subunit"] "MQNSALKAWLDSSYLSGANQSWIEQLYEDFLTDPDSVDANWRSTFQQLPGTGVKPDQFHSQTREYFRRLAKDASRYSSTISDPDTNVKQVKVLQLINAYRFRGHQHANLDPLGLWQQDKVADLDPSFHDLTEADFQETFNVGSFASGKETMKLGELLEALKQTYCGPIGAEYMHITSTEEKRWIQQRIESGRATFNSEEKKRFLSELTAAEGLERYLGAKFPGAKRFSLEGGDALIPMLKEMIRHAGNSGTREVVLGMAHRGRLNVLVNVLGKKPQDLFDEFAGKHKEHLGTGDVKYHMGFSSDFQTDGGLVHLALAFNPSHLEIVSPVVIGSVRARLDRLDEPSSNKVLPITIHGDAAVTGQGVVQETLNMSKARGYEVGGTVRIVINNQVGFTTSNPLDARSTPYCTDIGKMVQAPIFHVNADDPEAVAFVTRLALDFRNTFKRDVFIDLVCYRRHGHNEADEPSATQPLMYQKIKKHPTPRKIYADKLEQEKVATLEDATEMVNLYRDALDAGDCVVAEWRPMNMHSFTWSPYLNHEWDEEYPNKVEMKRLQELAKRISTVPEAVEMQSRVAKIYGDRQAMAAGEKLFDWGGAENLAYATLVDEGIPVRLSGEDSGRGTFFHRHAVIHNQSNGSTYTPLQHIHNGQGAFRVWDSVLSEEAVLAFEYGYATAEPRTLTIWEAQFGDFANGAQVVIDQFISSGEQKWGRMCGLVMLLPHGYEGQGPEHSSARLERYLQLCAEQNMQVCVPSTPAQVYHMLRRQALRGMRRPLVVMSPKSLLRHPLAVSSLEELANGTFLPAIGEIDELDPKGVKRVVMCSGKVYYDLLEQRRKNNQHDVAIVRIEQLYPFPHKAMQEVLQQFAHVKDFVWCQEEPLNQGAWYCSQHHFREVIPFGASLRYAGRPASASPAVGYMSVHQKQQQDLVNDALNVE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"E1P-MONOMER" "pyruvate dehydrogenase E1 component" ["AceE", "subunit of E1p component of pyruvate dehydrogenase complex"] "MSERFPNDVDPIETRDWLQAIESVIREEGVERAQYLIDQLLAEARKGGVNVAAGTGISNYINTIPVEEQPEYPGNLELERRIRSAIRWNAIMTVLRASKKDLELGGHMASFQSSATIYDVCFNHFFRARNEQDGGDLVYFQGHISPGVYARAFLEGRLTQEQLDNFRQEVHGNGLSSYPHPKLMPEFWQFPTVSMGLGPIGAIYQAKFLKYLEHRGLKDTSKQTVYAFLGDGEMDEPESKGAITIATREKLDNLVFVINCNLQRLDGPVTGNGKIINELEGIFEGAGWNVIKVMWGSRWDELLRKDTSGKLIQLMNETVDGDYQTFKSKDGAYVREHFFGKYPETAALVADWTDEQIWALNRGGHDPKKIYAAFKKAQETKGKATVILAHTIKGYGMGDAAEGKNIAHQVKKMNMDGVRHIRDRFNVPVSDADIEKLPYITFPEGSEEHTYLHAQRQKLHGYLPSRQPNFTEKLELPSLQDFGALLEEQSKEISTTIAFVRALNVMLKNKSIKDRLVPIIADEARTFGMEGLFRQIGIYSPNGQQYTPQDREQVAYYKEDEKGQILQEGINELGAGCSWLAAATSYSTNNLPMIPFYIYYSMFGFQRIGDLCWAAGDQQARGFLIGGTSGRTTLNGEGLQHEDGHSHIQSLTIPNCISYDPAYAYEVAVIMHDGLERMYGEKQENVYYYITTLNENYHMPAMPEGAEEGIRKGIYKLETIEGSKGKVQLLGSGSILRHVREAAEILAKDYGVGSDVYSVTSFTELARDGQDCERWNMLHPLETPRVPYIAQVMNDAPAVASTDYMKLFAEQVRTYVPADDYRVLGTDGFGRSDSRENLRHHFEVDASYVVVAALGELAKRGEIDKKVVADAIAKFNIDADKVNPRLA" [] [] +"E2O-MONOMER" "dihydrolipoyltranssuccinylase" ["E2(o) subunit", "SucB"] "MSSVDILVPDLPESVADATVATWHKKPGDAVVRDEVLVEIETDKVVLEVPASADGILDAVLEDEGTTVTSRQILGRLREGNSAGKETSAKSEEKASTPAQRQQASLEEQNNDALSPAIRRLLAEHNLDASAIKGTGVGGRLTREDVEKHLAKAPAKESAPAAAAPAAQPALAARSEKRVPMTRLRKRVAERLLEAKNSTAMLTTFNEVNMKPIMDLRKQYGEAFEKRHGIRLGFMSFYVKAVVEALKRYPEVNASIDGDDVVYHNYFDVSMAVSTPRGLVTPVLRDVDTLGMADIEKKIKELAVKGRDGKLTVEDLTGGNFTITNGGVFGSLMSTPIINPPQSAILGMHAIKDRPMAVNGQVEILPMMYLALSYDHRLIDGRESVGFLVTIKELLEDPTRLLLDV" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"E2P-MONOMER" "pyruvate dehydrogenase, E2 subunit" ["AceF", "dihydrolipoyllysine-residue acetyltransferase component of pyruvate dehydrogenase complex"] "MAIEIKVPDIGADEVEITEILVKVGDKVEAEQSLITVEGDKASMEVPSPQAGIVKEIKVSVGDKTQTGALIMIFDSADGAADAAPAQAEEKKEAAPAAAPAAAAAKDVNVPDIGSDEVEVTEILVKVGDKVEAEQSLITVEGDKASMEVPAPFAGTVKEIKVNVGDKVSTGSLIMVFEVAGEAGAAAPAAKQEAAPAAAPAPAAGVKEVNVPDIGGDEVEVTEVMVKVGDKVAAEQSLITVEGDKASMEVPAPFAGVVKELKVNVGDKVKTGSLIMIFEVEGAAPAAAPAKQEAAAPAPAAKAEAPAAAPAAKAEGKSEFAENDAYVHATPLIRRLAREFGVNLAKVKGTGRKGRILREDVQAYVKEAIKRAEAAPAATGGGIPGMLPWPKVDFSKFGEIEEVELGRIQKISGANLSRNWVMIPHVTHFDKTDITELEAFRKQQNEEAAKRKLDVKITPVVFIMKAVAAALEQMPRFNSSLSEDGQRLTLKKYINIGVAVDTPNGLVVPVFKDVNKKGIIELSRELMTISKKARDGKLTAGEMQGGCFTISSIGGLGTTHFAPIVNAPEVAILGVSKSAMEPVWNGKEFVPRLMLPISLSFDHRVIDGADGARFITIINNTLSDIRRLVM" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"E3-MONOMER" "lipoamide dehydrogenase" ["Lpd", "Dhl", "LpdA", "E3 subunit"] "MSTEIKTQVVVLGAGPAGYSAAFRCADLGLETVIVERYNTLGGVCLNVGCIPSKALLHVAKVIEEAKALAEHGIVFGEPKTDIDKIRTWKEKVINQLTGGLAGMAKGRKVKVVNGLGKFTGANTLEVEGENGKTVINFDNAIIAAGSRPIQLPFIPHEDPRIWDSTDALELKEVPERLLVMGGGIIGLEMGTVYHALGSQIDVVEMFDQVIPAADKDIVKVFTKRISKKFNLMLETKVTAVEAKEDGIYVTMEGKKAPAEPQRYDAVLVAIGRVPNGKNLDAGKAGVEVDDRGFIRVDKQLRTNVPHIFAIGDIVGQPMLAHKGVHEGHVAAEVIAGKKHYFDPKVIPSIAYTEPEVAWVGLTEKEAKEKGISYETATFPWAASGRAIASDCADGMTKLIFDKESHRVIGGAIVGTNGGELLGEIGLAIEMGCDAEDIALTIHAHPTLHESVGLAAEVFEGSITDLPNPKAKKK" ["CCO-CYTOSOL"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE", "CCO-CYTOSOL"] +"EG10003-MONOMER" null ["CysZ"] "MVSSFTSAPRSGFYYFAQGWKLVSQPGIRRFVILPLLVNILLMGGAFWWLFTQLDVWIPTLMSYVPDWLQWLSYLLWPLAVISVLLVFGYFFSTIANWIAAPFNGLLAEQLEARLTGATPPDTGIFGIMKDVPRIMKREWQKFAWYLPRAIVLLILYFIPGIGQTVAPVLWFLFSAWMLAIQYCDYPFDNHKVPFKEMRTALRTRKITNMQFGALTSLFTMIPLLNLFIMPVAVCGATAMWVDCYRDKHAMWR" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG10004-MONOMER" "fused 4'-phosphopantothenoylcysteine decarboxylase and phosphopantothenoylcysteine synthetase" ["Dfp", "CoaBC"] "MSLAGKKIVLGVSGGIAAYKTPELVRRLRDRGADVRVAMTEAAKAFITPLSLQAVSGYPVSDSLLDPAAEAAMGHIELGKWADLVILAPATADLIARVAAGMANDLVSTICLATPAPVAVLPAMNQQMYRAAATQHNLEVLASRGLLIWGPDSGSQACGDIGPGRMLDPLTIVDMAVAHFSPVNDLKHLNIMITAGPTREPLDPVRYISNHSSGKMGFAIAAAAARRGANVTLVSGPVSLPTPPFVKRVDVMTALEMEAAVNASVQQQNIFIGCAAVADYRAATVAPEKIKKQATQGDELTIKMVKNPDIVAGVAALKDHRPYVVGFAAETNNVEEYARQKRIRKNLDLICANDVSQPTQGFNSDNNALHLFWQDGDKVLPLERKELLGQLLLDEIVTRYDEKNRR" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10010-MONOMER" "RhsE protein in rhs element" ["RhsE"] "MSTRLTTLSHTSEGHRVSVHYGYDDKGRLTGERQTVENPETGELLWHHETGHAYNEQGLANRVTPDSLPPVEWLTYGSGYLAGMKLGGTPLLEFTRDRLHRETVRSFGSMAGSNAAYKLTSTYTPAGQLQSQHLNSLVYDRDYGWNDNGDLVRISGPRQTREYGYSATGRLESVRTLAPDLDIRIPYATDPAGNRLPDPELHPDSTLTVWPDNRIAEDAHYVYRHDEYGRLTEKTDRIPAGVIRTDDERTHHYHYDSQHRLVFYTRIQHGEPLVESRYLYDPLGRRMAKRVWRRERDLTGWMSLSRKPEVTWYGWDGDRLTTVQTDTTRIQTVYEPGSFTPLIRVETENGEREKAQRRSLAETLQQEGSENGHGVVFPAELVRLLDRLEEEIRADRVSSESRAWLAQCGLTVEQLARQVEPEYTPARKVHFYHCDHRGLPLALISEDGNTAWRGEYDEWGNQLNEENPHHLHQPYRLPGQQHDEESGLYYNRHRHYDPLQGRYITPDPIGLRGGWNMYQYPLNPIQVIDPMGLDAIENMTSGGLIYAVSGVPGLIAANSITNSAYQFGYDMDAIVGGAHNGAADAMRHCYLMCRMTKTFGSTIADVIGKNHEAAGDRQGQPAKERIMDLKNNTVGIACGDFSAKCSDACIEKYNTGQLFGLDGIKADNPIKAKQGSSDASNY" [] ["CCO-CYTOSOL"] +"EG10011-MONOMER" "DNA binding and peroxide stress response protein YaaA" ["YaaA"] "MLILISPAKTLDYQSPLTTTRYTLPELLDNSQQLIHEARKLTPPQISTLMRISDKLAGINAARFHDWQPDFTPANARQAILAFKGDVYTGLQAETFSEDDFDFAQQHLRMLSGLYGVLRPLDLMQPYRLEMGIRLENARGKDLYQFWGDIITNKLNEALAAQGDNVVINLASDEYFKSVKPKKLNAEIIKPVFLDEKNGKFKIISFYAKKARGLMSRFIIENRLTKPEQLTGFNSEGYFFDEDSSSNGELVFKRYEQR" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10013-MONOMER" null ["YebA"] "MQQIARSVALAFNNLPRPHRVMLGSLTVLTLAVAVWRPYVYHRDATPIVKTIELEQNEIRSLLPEASEPIDQAAQEDEAIPQDELDDKIAGEAGVHEYVVSTGDTLSSILNQYGIDMGDITQLAAADKELRNLKIGQQLSWTLTADGELQRLTWEVSRRETRTYDRTAANGFKMTSEMQQGEWVNNLLKGTVGGSFVASARNAGLTSAEVSAVIKAMQWQMDFRKLKKGDEFAVLMSREMLDGKREQSQLLGVRLRSEGKDYYAIRAEDGKFYDRNGTGLAKGFLRFPTAKQFRISSNFNPRRTNPVTGRVAPHRGVDFAMPQGTPVLSVGDGEVVVAKRSGAAGYYVAIRHGRSYTTRYMHLRKILVKPGQKVKRGDRIALSGNTGRSTGPHLHYEVWINQQAVNPLTAKLPRTEGLTGSDRREFLAQAKEIVPQLRFD" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG10015-MONOMER" "cytoskeleton protein RodZ" ["YfgA", "RodZ", "transmembrane component of cytoskeleton"] "MNTEATHDQNEALTTGARLRNAREQLGLSQQAVAERLCLKVSTVRDIEEDKAPADLASTFLRGYIRSYARLVHIPEEELLPGLEKQAPLRAAKVAPMQSFSLGKRRKKRDGWLMTFTWLVLFVVIGLSGAWWWQDRKAQQEEITTMADQSSAELSSNSEQGQSVPLNTSTTTDPATTSTPPASVDTTATNTQTPAVTAPAPAVDPQQNAVVSPSQANVDTAATPAPTAATTPDGAAPLPTDQAGVTTPVADPNALVMNFTADCWLEVTDATGKKLFSGMQRKDGNLNLTGQAPYKLKIGAPAAVQIQYQGKPVDLSRFIRTNQVARLTLNAEQSPAQ" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG10018-MONOMER" "regulator of CsrB and CsrC decay" ["YhdA", "CsrD"] "MRLTTKFSAFVTLLTGLTIFVTLLGCSLSFYNAIQYKFSHRVQAVATAIDTHLVSNDFSVLRPQITELMMSADIVRVDLLHGDKQVYTLARNGSYRPVGSSDLFRELSVPLIKHPGMSLRLVYQDPMGNYFHSLMTTAPLTGAIGFIIVMLFLAVRWLQRQLAGQELLETRATRILNGERGSNVLGTIYEWPPRTSSALDTLLREIQNAREQHSRLDTLIRSYAAQDVKTGLNNRLFFDNQLATLLEDQEKVGTHGIVMMIRLPDFNMLSDTWGHSQVEEQFFTLTNLLSTFMMRYPGALLARYHRSDFAALLPHRTLKEAESIAGQLIKAVDTLPNNKMLDRDDMIHIGICAWRSGQDTEQVMEHAESATRNAGLQGGNSWAIYDDSLPEKGRGNVRWRTLIEQMLSRGGPRLYQKPAVTREGQVHHRELMCRIFDGNEEVSSAEYMPMVLQFGLSEEYDRLQISRLIPLLRYWPEENLAIQVTVESLIRPRFQRWLRDTLMQCEKSQRKRIIIELAEADVGQHISRLQPVIRLVNALGVRVAVNQAGLTLVSTSWIKELNVELLKLHPGLVRNIEKRTENQLLVQSLVEACSGTSTQVYATGVRSRSEWQTLIQRGVTGGQGDFFASSQPLDTNVKKYSQRYSV" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG10021-MONOMER" "P-loop guanosine triphosphatase YjiA" ["YjiA"] "MNPIAVTLLTGFLGAGKTTLLRHILNEQHGYKIAVIENEFGEVSVDDQLIGDRATQIKTLTNGCICCSRSNELEDALLDLLDNLDKGNIQFDRLVIECTGMADPGPIIQTFFSHEVLCQRYLLDGVIALVDAVHADEQMNQFTIAQSQVGYADRILLTKTDVAGEAEKLHERLARINARAPVYTVTHGDIDLGLLFNTNGFMLEENVVSTKPRFHFIADKQNDISSIVVELDYPVDISEVSRVMENLLLESADKLLRYKGMLWIDGEPNRLLFQGVQRLYSADWDRPWGDEKPHSTMVFIGIQLPEEEIRAAFAGLRK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10037-MONOMER" "DNA oxidative demethylase" ["AidD", "AlkB", "α-ketoglutarate-dependent dioxygenase", "alkyladenine-DNA dioxygenase"] "MLDLFADAEPWQEPLAAGAVILRRFAFNAAEQLIRDINDVASQSPFRQMVTPGGYTMSVAMTNCGHLGWTTHRQGYLYSPIDPQTNKPWPAMPQSFHNLCQRAATAAGYPDFQPDACLINRYAPGAKLSLHQDKDEPDLRAPIVSVSLGLPAIFQFGGLKRNDPLKRLLLEHGDVVVWGGESRLFYHGIQPLKAGFHPLTIDCRYNLTFRQAGKKE" [] [] +"EG10040-MONOMER" "β-lactamase" ["AmpA", "AmpC"] "MFKTTLCALLITASCSTFAAPQQINDIVHRTITPLIEQQKIPGMAVAVIYQGKPYYFTWGYADIAKKQPVTQQTLFELGSVSKTFTGVLGGDAIARGEIKLSDPTTKYWPELTAKQWNGITLLHLATYTAGGLPLQVPDEVKSSSDLLRFYQNWQPAWAPGTQRLYANSSIGLFGALAVKPSGLSFEQAMQTRVFQPLKLNHTWINVPPAEEKNYAWGYREGKAVHVSPGALDAEAYGVKSTIEDMARWVQSNLKPLDINEKTLQQGIQLAQSRYWQTGDMYQGLGWEMLDWPVNPDSIINGSDNKIALAARPVKAITPPTPAVRASWVHKTGATGGFGSYVAFIPEKELGIVMLANKNYPNPARVDAAWQILNALQ" [] ["CCO-PERI-BAC"] +"EG10041-MONOMER" "1,6-anhydro-N-acetylmuramoyl-L-alanine amidase" ["AmpD"] "MLLEQGWLVGARRVPSPHYDCRPDDETPTLLVVHNISLPPGEFGGPWIDALFTGTIDPQAHPFFAEIAHLRVSAHCLIRRDGEIVQYVPFDKRAWHAGVSQYQGRERCNDFSIGIELEGTDTLAYTDAQYQQLAAVTRALIDCYPDIAKNMTGHCDIAPDRKTDPGPAFDWARFRVLVSKETT" [] ["CCO-CYTOSOL"] +"EG10042-MONOMER" "protein AmpE" ["AmpE"] "MTLFTTLLVLIFERLFKLGEHWQLDHRLEAFFRRVKHFSLGRTLGMTIIAMGVTFLLLRALQGVLFNVPTLLVWLLIGLLCIGAGKVRLHYHAYLTAASRNDSHARATMAGELTMIHGVPAGCDEREYLRELQNALLWINFRFYLAPLFWLIVGGTWGPVTLMGYAFLRAWQYWLARYQTPHHRLQSGIDAVLHVLDWVPVRLAGVVYALIGHGEKALPAWFASLGDFHTSQYQVLTRLAQFSLAREPHVDKVETPKAAVSMAKKTSFVVVVVIALLTIYGALV" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG10043-MONOMER" null ["Amt", "AmtA", "CysQ"] "MLDQVCQLARNAGDAIMQVYDGTKPMDVVSKADNSPVTAADIAAHTVIMDGLRTLTPDVPVLSEEDPPGWEVRQHWQRYWLVDPLDGTKEFIKRNGEFTVNIALIDHGKPILGVVYAPVMNVMYSAAEGKAWKEECGVRKQIQVRDARPPLVVISRSHADAELKEYLQQLGEHQTTSIGSSLKFCLVAEGQAQLYPRFGPTNIWDTAAGHAVAAAAGAHVHDWQGKPLDYTPRESFLNPGFRVSIY" [] ["CCO-CYTOSOL", "CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"EG10044-MONOMER" "osmotically-inducible lipoprotein OsmE" ["Anr", "OsmE"] "MNKNMAGILSAAAVLTMLAGCTAYDRTKDQFVQPVVKDVKKGMSRAQVAQIAGKPSSEVSMIHARGTCQTYILGQRDGKAETYFVALDDTGHVINSGYQTCAEYDTDPQAAK" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"EG10047-MONOMER" "DUF525 domain-containing protein ApaG" ["ApaG"] "MINSPRVCIQVQSVYIEAQSSPDNERYVFAYTVTIRNLGRAPVQLLGRYWLITNGNGRETEVQGEGVVGVQPLIAPGEEYQYTSGAIIETPLGTMQGHYEMIDENGVPFSIDIPVFRLAVPTLIH" [] ["CCO-PERI-BAC"] +"EG10048-MONOMER" "diadenosine tetraphosphatase" ["CfcB", "ApaH"] "MATYLIGDVHGCYDELIALLHKVEFTPGKDTLWLTGDLVARGPGSLDVLRYVKSLGDSVRLVLGNHDLHLLAVFAGISRNKPKDRLTPLLEAPDADELLNWLRRQPLLQIDEEKKLVMAHAGITPQWDLQTAKECARDVEAVLSSDSYPFFLDAMYGDMPNNWSPELRGLGRLRFITNAFTRMRFCFPNGQLDMYSKESPEEAPAPLKPWFAIPGPVAEEYSIAFGHWASLEGKGTPEGIYALDTGCCWGGTLTCLRWEDKQYFVQPSNRHKDLGEAAAS" [] ["CCO-CYTOSOL"] +"EG10083-MONOMER" "protein AroM" ["AroM"] "MSASLAILTIGIVPMQEVLPLLTEYIDEDNISHHSLLGKLSREEVMAEYAPEAGEDTILTLLNDNQLAHVSRRKVERDLQGVVEVLDNQGYDVILLMSTANISSMTARNTIFLEPSRILPPLVSSIVEDHQVGVIVPVEEMLPVQAQKWQILQKSPVFSLGNPIHDSEQKIIDAGKELLAKGADVIMLDCLGFHQRHRDLLQKQLDVPVLLSNVLIARLAAELLV" [] ["CCO-CYTOSOL"] +"EG10085-MONOMER" "6-phospho-β-glucosidase AscB" ["Sac", "AscB"] "MSVFPESFLWGGALAANQSEGAFREGDKGLTTVDMIPHGEHRMAVKLGLEKRFQLRDDEFYPSHEATDFYHRYKEDIALMAEMGFKVFRTSIAWSRLFPQGDEITPNQQGIAFYRSVFEECKKYGIEPLVTLCHFDVPMHLVTEYGSWRNRKLVEFFSRYARTCFEAFDGLVKYWLTFNEINIMLHSPFSGAGLVFEEGENQDQVKYQAAHHQLVASALATKIAHEVNPQNQVGCMLAGGNFYPYSCKPEDVWAALEKDRENLFFIDVQARGTYPAYSARVFREKGVTINKAPGDDEILKNTVDFVSFSYYASRCASAEMNANNSSAANVVKSLRNPYLQVSDWGWGIDPLGLRITMNMMYDRYQKPLFLVENGLGAKDEFAANGEINDDYRISYLREHIRAMGEAIADGIPLMGYTTWGCIDLVSASTGEMSKRYGFVFVDRDDAGNGTLTRTRKKSFWWYKKVIASNGEDLE" [] ["CCO-CYTOSOL"] +"EG10087-MONOMER" "DNA-binding transcriptional repressor AscG" ["Sac", "AscG"] "MTTMLEVAKRAGVSKATVSRVLSGNGYVSQETKDRVFQAVEESGYRPNLLARNLSAKSTQTLGLVVTNTLYHGIYFSELLFHAARMAEEKGRQLLLADGKHSAEEERQAIQYLLDLRCDAIMIYPRFLSVDEIDDIIDAHSQPIMVLNRRLRKNSSHSVWCDHKQTSFNAVAELINAGHQEIAFLTGSMDSPTSIERLAGYKDALAQHGIALNEKLIANGKWTPASGAEGVEMLLERGAKFSALVASNDDMAIGAMKALHERGVAVPEQVSVIGFDDIAIAPYTVPALSSVKIPVTEMIQEIIGRLIFMLDGGDFSPPKTFSGKLIRRDSLIAPSR" [] ["CCO-CYTOSOL"] +"EG10090-MONOMER" "putative anaerobic sulfatase maturation enzyme AslB" ["GppB", "AtsB", "AslB"] "MLQQVPTRAFHVMAKPSGSDCNLNCDYCFYLEKQSLYREKPVTHMDDDTLEAYVRHYIAASEPQNEVAFTWQGGEPTLLGLAFYRRAVALQAKYGAGRKISNSFQTNGVLLDDEWCAFLAEHHFLVGLSLDGPPEIHNQYRVTKGGRPTHKLVMRALTLLQKHHVDYNVLVCVNRTSAQQPLQVYDFLCDAGVEFIQFIPVVERLADETTARDGLKLHAPGDIQGELTEWSVRPEEFGEFLVAIFDHWIKRDVGKIFVMNIEWAFANFVGAPGAVCHHQPTCGRSVIVEHNGDVYACDHYVYPQYRLGNMHQQTIAEMIDSPQQQAFGEDKFKQLPAQCRSCNVLKACWGGCPKHRFMLDASGKPGLNYLCAGYQRYFRHLPPYLKAMADLLAHGRPASDIMHAHLLVVSK" [] ["CCO-CYTOSOL"] +"EG10106-MONOMER" "ATP synthase accessory factor AtpI" ["AtpI", "UncI"] "MSVSLVSRNVARKLLLVQLLVVIASGLLFSLKDPFWGVSAISGGLAVFLPNVLFMIFAWRHQAHTPAKGRVAWTFAFGEAFKVLAMLVLLVVALAVLKAVFLPLIVTWVLVLVVQILAPAVINNKG" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG10108-MONOMER" null ["Bcp"] "MNPLKAGDIAPKFSLPDQDGEQVNLTDFQGQRVLVYFYPKAMTPGCTVQACGLRDNMDELKKAGVDVLGISTDKPEKLSRFAEKELLNFTLLSDEDHQVCEQFGVWGEKSFMGKTYDGIHRISFLIDADGKIEHVFDDFKTSNHHDVVLNWLKEHA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10113-MONOMER" "bacterioferritin" ["Bfr", "cytochrome b1"] "MKGDTKVINYLNKLLGNELVAINQYFLHARMFKNWGLKRLNDVEYHESIDEMKHADRYIERILFLEGLPNLQDLGKLNIGEDVEEMLRSDLALELDGAKNLREAIGYADSVHDYVSRDMMIEILRDEEGHIDWLETELDLIQKMGLQNYLQAQIREEG" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10114-MONOMER" "6-phospho-β-glucosidase B" ["BlgA", "BglB", "phospho-β-glucosidase B, cryptic", "6-phospho-b-glucosidase", "6-phospho-b-D-glucosyl-(1,4)-D-glucose glucohydrolase", "phospho-b-glucosidase", "phosphocellobiase", "6-phospho-β-glucosidase B, cryptic"] "MKAFPETFLWGGATAANQVEGAWQEDGKGISTSDLQPHGVMGKMEPRILGKENIKDVAIDFYHRYPEDIALFAEMGFTCLRISIAWARIFPQGDEVEPNEAGLAFYDRLFDEMAQAGIKPLVTLSHYEMPYGLVKNYGGWANRAVIDHFEHYARTVFTRYQHKVALWLTFNEINMSLHAPFTGVGLAEESGEAEVYQAIHHQLVASARAVKACHSLLPEAKIGNMLLGGLVYPLTCQPQDMLQAMEENRRWMFFGDVQARGQYPGYMQRFFRDHNITIEMTESDAEDLKHTVDFISFSYYMTGCVSHDESINKNAQGNILNMIPNPHLKSSEWGWQIDPVGLRVLLNTLWDRYQKPLFIVENGLGAKDSVEADGSIQDDYRIAYLNDHLVQVNEAIADGVDIMGYTSWGPIDLVSASHSQMSKRYGFIYVDRDDNGEGSLTRTRKKSFGWYAEVIKTRGLSLKKITIKAP" [] ["CCO-CYTOSOL"] +"EG10116-MONOMER" "transcriptional antiterminator BglG" ["BglC", "BglG"] "MNMQITKILNNNVVVVIDDQQREKVVMGRGIGFQKRAGERINSSGIEKEYALSSHELNGRLSELLSHIPLEVMATCDRIISLAQERLGKLQDSIYISLTDHCQFAIKRFQQNVLLPNPLLWDIQRLYPKEFQLGEEALTIIDKRLGVQLPKDEVGFIAMHLVSAQMSGNMEDVAGVTQLMREMLQLIKFQFSLNYQEESLSYQRLVTHLKFLSWRILEHASINDSDESLQQAVKQNYPQAWQCAERIAIFIGLQYQRKISPAEIMFLAINIERVRKEH" [] ["CCO-CYTOSOL"] +"EG10119-MONOMER" "malonyl-acyl carrier protein methyltransferase" ["BioC", "malonyl-[acp] methyltransferase"] "MATVNKQAIAAAFGRAAAHYEQHADLQRQSADALLAMLPQRKYTHVLDAGCGPGWMSRHWRERHAQVTALDLSPPMLVQARQKDAADHYLAGDIESLPLATATFDLAWSNLAVQWCGNLSTALRELYRVVRPKGVVAFTTLVQGSLPELHQAWQAVDERPHANRFLPPDEIEQSLNGVHYQHHIQPITLWFDDALSAMRSLKGIGATHLHEGRDPRILTRSQLQRLQLAWPQQQGRYPLTYHLFLGVIARE" [] ["CCO-CYTOSOL"] +"EG10122-MONOMER" "pimeloyl-acyl carrier protein methyl ester esterase" ["BioB", "BioH", "pimeloyl-[acp] methyl ester esterase"] "MNNIWWQTKGQGNVHLVLLHGWGLNAEVWRCIDEELSSHFTLHLVDLPGFGRSRGFGALSLADMAEAVLQQAPDKAIWLGWSLGGLVASQIALTHPERVQALVTVASSPCFSARDEWPGIKPDVLAGFQQQLSDDFQRTVERFLALQTMGTETARQDARALKKTVLALPMPEVDVLNGGLEILKTVDLRQPLQNVSMPFLRLYGYLDGLVPRKVVPMLDKLWPHSESYIFAKAAHAPFISHPAEFCHLLVALKQRV" [] ["CCO-CYTOSOL"] +"EG10124-MONOMER" "biotin sulfoxide reductase" ["BisC"] "MANSSSRYSVLTAAHWGPMLVETDGETVFSSRGALATGMENSLQSAVRDQVHSNTRVRFPMVRKGFLASPENPQGIRGQDEFVRVSWDEALDLIHQQHKRIREAYGPASIFAGSYGWRSNGVLHKASTLLQRYMALAGGYTGHLGDYSTGAAQAIMPYVVGGSEVYQQQTSWPLVLEHSDVVVLWSANPLNTLKIAWNASDEQGLSYFSALRDSGKKLICIDPMRSETVDFFGDKMEWVAPHMGTDVALMLGIAHTLVENGWHDEAFLARCTTGYAVFASYLLGESDGIAKTAEWAAEICGVGAAKIRELAAIFHQNTTMLMAGWGMQRQQFGEQKHWMIVTLAAMLGQIGTPGGGFGLSYHFANGGNPTRRSAVLSSMQGSLPGGCDAVDKIPVARIVEALENPGGAYQHNGMNRHFPDIRFIWWAGGANFTHHQDTNRLIRAWQKPELVVISECFWTAAAKHADIVLPATTSFERNDLTMTGDYSNQHLVPMKQVVPPRYEARNDFDVFAELSERWEKGGYARFTEGKSELQWLETFYNVARQRGASQQVELPPFAEFWQANQLIEMPENPDSERFIRFADFCRDPLAHPLKTASGKIEIFSQRIADYGYPDCPGHPMWLEPDEWQGNAEPEQLQVLSAHPAHRLHSQLNYSSLRELYAVANREPVTIHPDDAQERGIQDGDTVRLWNARGQILAGAVISEGIKPGVICIHEGAWPDLDLTADGICKNGAVNVLTKDLPSSRLGNGCAGNTALAWLEKYNGPELTLTAFEPPASS" [] ["CCO-PERI-BAC"] +"EG10125-MONOMER" "DNA-binding transcriptional dual regulator BolA" ["BolA"] "MMIRERIEEKLRAAFQPVFLEVVDESYRHNVPAGSESHFKVVLVSDRFTGERFLNRHRMIYSTLAEELSTTVHALALHTYTIKEWEGLQDTVFASPPCRGAGSIA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10126-MONOMER" "cobalamin outer membrane transporter" ["Cer", "Bfe", "BtuB", "Vitamin B12 outer membrane transporter"] "MIKKASLLTACSVTAFSAWAQDTSPDTLVVTANRFEQPRSTVLAPTTVVTRQDIDRWQSTSVNDVLRRLPGVDITQNGGSGQLSSIFIRGTNASHVLVLIDGVRLNLAGVSGSADLSQFPIALVQRVEYIRGPRSAVYGSDAIGGVVNIITTRDEPGTEISAGWGSNSYQNYDVSTQQQLGDKTRVTLLGDYAHTHGYDVVAYGNTGTQAQTDNDGFLSKTLYGALEHNFTDAWSGFVRGYGYDNRTNYDAYYSPGSPLLDTRKLYSQSWDAGLRYNGELIKSQLITSYSHSKDYNYDPHYGRYDSSATLDEMKQYTVQWANNVIVGHGSIGAGVDWQKQTTTPGTGYVEDGYDQRNTGIYLTGLQQVGDFTFEGAARSDDNSQFGRHGTWQTSAGWEFIEGYRFIASYGTSYKAPNLGQLYGFYGNPNLDPEKSKQWEGAFEGLTAGVNWRISGYRNDVSDLIDYDDHTLKYYNEGKARIKGVEATANFDTGPLTHTVSYDYVDARNAITDTPLLRRAKQQVKYQLDWQLYDFDWGITYQYLGTRYDKDYSSYPYQTVKMGGVSLWDLAVAYPVTSHLTVRGKIANLFDKDYETVYGYQTAGREYTLSGSYTF" ["CCO-MEMBRANE", "CCO-OUTER-MEM"] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"EG10136-MONOMER" "fused CCA tRNA nucleotidyltransferase/phosphohydrolase" ["Cca", "CCA-adding enzyme", "fused CCA tRNA nucleotidyltransferase / 2',3'-cyclic phosphodiesterase / 2' nucleotidase and phosphatase"] "MKIYLVGGAVRDALLGLPVKDRDWVVVGSTPQEMLDAGYQQVGRDFPVFLHPQTHEEYALARTERKSGSGYTGFTCYAAPDVTLEDDLKRRDLTINALAQDDNGEIIDPYNGLGDLQNRLLRHVSPAFGEDPLRVLRVARFAARYAHLGFRIADETLALMREMTHAGELEHLTPERVWKETESALTTRNPQVFFQVLRDCGALRVLFPEIDALFGVPAPAKWHPEIDTGIHTLMTLSMAAMLSPQVDVRFATLCHDLGKGLTPPELWPRHHGHGPAGVKLVEQLCQRLRVPNEIRDLARLVAEFHDLIHTFPMLNPKTIVKLFDSIDAWRKPQRVEQLALTSEADVRGRTGFESADYPQGRWLREAWEVAQSVPTKAVVEAGFKGVEIREELTRRRIAAVASWKEQRCPKPE" [] ["CCO-CYTOSOL"] +"EG10143-MONOMER" "DNA-binding transcriptional dual regulator ChbR" ["ChbR", "CelD"] "MMQPVINAPEIATAREQQLFNGKNFHVFIYNKTESISGLHQHDYYEFTLVLTGRYFQEINGKRVLLERGDFVFIPLGSHHQSFYEFGATRILNVGISKRFFEQHYLPLLPYCFVASQVYRTNNAFLTYVETVISSLNFRETGLEEFVEMVTFYVINRLRHYREEQVIDDVPQWLKSTVEKMHDKEQFSESALENMVALSAKSQEYLTRATQRYYGKTPMQIINEIRINFAKKQLEMTNYSVTDIAFEAGYSSPSLFIKTFKKLTSFTPKSYRKKLTEFNQ" [] ["CCO-CYTOSOL"] +"EG10144-MONOMER" "monoacetylchitobiose-6-phosphate hydrolase" ["YdjD", "ChbF", "CelF"] "MSQKLKVVTIGGGSSYTPELLEGFIKRYHELPVSELWLVDVEGGKPKLDIIFDLCQRMIDNAGVPMKLYKTLDRREALKDADFVTTQLRVGQLPARELDERIPLSHGYLGQETNGAGGLFKGLRTIPVIFDIVKDVEELCPNAWVINFTNPAGMVTEAVYRHTGFKRFIGVCNIPIGMKMFIRDVLMLKDSDDLSIDLFGLNHMVFIKDVLINGKSRFAELLDGVASGQLKASSVKNIFDLPFSEGLIRSLNLLPCSYLLYYFKQKEMLAIEMGEYYKGGARAQVVQKVEKQLFELYKNPELKVKPKELEQRGGAYYSDAACEVINAIYNDKQAEHYVNIPHHGQIDNIPADWAVEMTCKLGRDGATPHPRITHFDDKVMGLIHTIKGFEIAASNAALSGEFNDVLLALNLSPLVHSDRDAELLAREMILAHEKWLPNFADCIAELKKAH" [] ["CCO-CYTOSOL"] +"EG10145-MONOMER" "putative inner membrane protein CreD" ["Cet", "CreD"] "MLKSPLFWKMTSLFGAVLLLLIPIMLIRQVIVERADYRSDVEDAIRQSTSGPQKLVGPLIAIPVTELYTVQEEDKTVERKRSFIHFWLPESLMVDGNQNVEERKIGIYTGQVWHSDLTLKADFDVSRLSELNAPNITLGKPFIVISVGDARGIGVVKAPEVNGTALTIEPGTGLEQGGQGVHIPLPEGDWRKQNLKLNMALNLSGTGDLSVVPGGRNSEMTLTSNWPHPSFLGDFLPAKREVSESGFQAHWQSSWFANNLGERFASGNDTGWENFPAFSVAVTTPADQYQLTDRATKYAILLIALTFMAFFVFETLTAQRLHPMQYLLVGLSLVMFYLLLLALSEHTGFTVAWIIASLIGAIMNGIYLQAVLKGWCNSMLFTLALLLLDGVMWGLLNSADSALLLGTSVLVVALAGMMFVTRNIDWYAFSLPKMKASKEVTTDDELRIWK" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG10153-MONOMER" "molybdopterin molybdotransferase" ["NarE", "ChlE", "BisB", "MoeA"] "MEFTTGLMSLDTALNEMLSRVTPLTAQETLPLVQCFGRILASDVVSPLDVPGFDNSAMDGYAVRLADIASGQPLPVAGKSFAGQPYHGEWPAGTCIRIMTGAPVPEGCEAVVMQEQTEQMDNGVRFTAEVRSGQNIRRRGEDISAGAVVFPAGTRLTTAELPVIASLGIAEVPVIRKVRVALFSTGDELQLPGQPLGDGQIYDTNRLAVHLMLEQLGCEVINLGIIRDDPHALRAAFIEADSQADVVISSGGVSVGEADYTKTILEELGEIAFWKLAIKPGKPFAFGKLSNSWFCGLPGNPVSATLTFYQLVQPLLAKLSGNTASGLPARQRVRTASRLKKTPGRLDFQRGVLQRNADGELEVTTTGHQGSHIFSSFSLGNCFIVLERDRGNVEVGEWVEVEPFNALFGGL" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10154-MONOMER" "molybdopterin-synthase adenylyltransferase" ["ChlN", "MoeB"] "MAELSDQEMLRYNRQIILRGFDFDGQEALKDSRVLIVGLGGLGCAASQYLASAGVGNLTLLDFDTVSLSNLQRQTLHSDATVGQPKVESARDALTRINPHIAITPVNALLDDAELAALIAEHDLVLDCTDNVAVRNQLNAGCFAAKVPLVSGAAIRMEGQITVFTYQDGEPCYRCLSRLFGENALTCVEAGVMAPLIGVIGSLQAMEAIKMLAGYGKPASGKIVMYDAMTCQFREMKLMRNPGCEVCGQ" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10155-MONOMER" "iron-catecholate outer membrane transporter CirA" ["Cir", "FeuA", "CirA", "colicin I receptor"] "MFRLNPFVRVGLCLSAISCAWPVLAVDDDGETMVVTASSVEQNLKDAPASISVITQEDLQRKPVQNLKDVLKEVPGVQLTNEGDNRKGVSIRGLDSSYTLILVDGKRVNSRNAVFRHNDFDLNWIPVDSIERIEVVRGPMSSLYGSDALGGVVNIITKKIGQKWSGTVTVDTTIQEHRDRGDTYNGQFFTSGPLIDGVLGMKAYGSLAKREKDDPQNSTTTDTGETPRIEGFSSRDGNVEFAWTPNQNHDFTAGYGFDRQDRDSDSLDKNRLERQNYSVSHNGRWDYGTSELKYYGEKVENKNPGNSSPITSESNTVDGKYTLPLTAINQFLTVGGEWRHDKLSDAVNLTGGTSSKTSASQYALFVEDEWRIFEPLALTTGVRMDDHETYGEHWSPRAYLVYNATDTVTVKGGWATAFKAPSLLQLSPDWTSNSCRGACKIVGSPDLKPETSESWELGLYYMGEEGWLEGVESSVTVFRNDVKDRISISRTSDVNAAPGYQNFVGFETGANGRRIPVFSYYNVNKARIQGVETELKIPFNDEWKLSINYTYNDGRDVSNGENKPLSDLPFHTANGTLDWKPLALEDWSFYVSGHYTGQKRADSATAKTPGGYTIWNTGAAWQVTKDVKLRAGVLNLGDKDLSRDDYSYNEDGRRYFMAVDYRF" ["CCO-OUTER-MEM"] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"EG10156-MONOMER" "ATP-dependent Clp protease ATP-binding subunit ClpA" ["LopD", "ATP-binding component of serine protease", "ClpA"] "MLNQELELSLNMAFARAREHRHEFMTVEHLLLALLSNPSAREALEACSVDLVALRQELEAFIEQTTPVLPASEEERDTQPTLSFQRVLQRAVFHVQSSGRNEVTGANVLVAIFSEQESQAAYLLRKHEVSRLDVVNFISHGTRKDEPTQSSDPGSQPNSEEQAGGEERMENFTTNLNQLARVGGIDPLIGREKELERAIQVLCRRRKNNPLLVGESGVGKTAIAEGLAWRIVQGDVPEVMADCTIYSLDIGSLLAGTKYRGDFEKRFKALLKQLEQDTNSILFIDEIHTIIGAGAASGGQVDAANLIKPLLSSGKIRVIGSTTYQEFSNIFEKDRALARRFQKIDITEPSIEETVQIINGLKPKYEAHHDVRYTAKAVRAAVELAVKYINDRHLPDKAIDVIDEAGARARLMPVSKRKKTVNVADIESVVARIARIPEKSVSQSDRDTLKNLGDRLKMLVFGQDKAIEALTEAIKMARAGLGHEHKPVGSFLFAGPTGVGKTEVTVQLSKALGIELLRFDMSEYMERHTVSRLIGAPPGYVGFDQGGLLTDAVIKHPHAVLLLDEIEKAHPDVFNILLQVMDNGTLTDNNGRKADFRNVVLVMTTNAGVRETERKSIGLIHQDNSTDAMEEIKKIFTPEFRNRLDNIIWFDHLSTDVIHQVVDKFIVELQVQLDQKGVSLEVSQEARNWLAEKGYDRAMGARPMARVIQDNLKKPLANELLFGSLVDGGQVTVALDKEKNELTYGFQSAQKHKAEAAH" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10157-MONOMER" "chaperone protein ClpB" ["HtpM", "ClpB", "F84.1", "F68.5", "E89"] "MRLDRLTNKFQLALADAQSLALGHDNQFIEPLHLMSALLNQEGGSVSPLLTSAGINAGQLRTDINQALNRLPQVEGTGGDVQPSQDLVRVLNLCDKLAQKRGDNFISSELFVLAALESRGTLADILKAAGATTANITQAIEQMRGGESVNDQGAEDQRQALKKYTIDLTERAEQGKLDPVIGRDEEIRRTIQVLQRRTKNNPVLIGEPGVGKTAIVEGLAQRIINGEVPEGLKGRRVLALDMGALVAGAKYRGEFEERLKGVLNDLAKQEGNVILFIDELHTMVGAGKADGAMDAGNMLKPALARGELHCVGATTLDEYRQYIEKDAALERRFQKVFVAEPSVEDTIAILRGLKERYELHHHVQITDPAIVAAATLSHRYIADRQLPDKAIDLIDEAASSIRMQIDSKPEELDRLDRRIIQLKLEQQALMKESDEASKKRLDMLNEELSDKERQYSELEEEWKAEKASLSGTQTIKAELEQAKIAIEQARRVGDLARMSELQYGKIPELEKQLEAATQLEGKTMRLLRNKVTDAEIAEVLARWTGIPVSRMMESEREKLLRMEQELHHRVIGQNEAVDAVSNAIRRSRAGLADPNRPIGSFLFLGPTGVGKTELCKALANFMFDSDEAMVRIDMSEFMEKHSVSRLVGAPPGYVGYEEGGYLTEAVRRRPYSVILLDEVEKAHPDVFNILLQVLDDGRLTDGQGRTVDFRNTVVIMTSNLGSDLIQERFGELDYAHMKELVLGVVSHNFRPEFINRIDEVVVFHPLGEQHIASIAQIQLKRLYKRLEERGYEIHISDEALKLLSENGYDPVYGARPLKRAIQQQIENPLAQQILSGELVPGKVIRLEVNEDRIVAVQ" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10158-MONOMER" "ATP-dependent Clp protease proteolytic subunit" ["LopP", "heat shock protein F21.5", "ClpP"] "MSYSGERDNFAPHMALVPMVIEQTSRGERSFDIYSRLLKERVIFLTGQVEDHMANLIVAQMLFLEAENPEKDIYLYINSPGGVITAGMSIYDTMQFIKPDVSTICMGQAASMGAFLLTAGAKGKRFCLPNSRVMIHQPLGGYQGQATDIEIHAREILKVKGRMNELMALHTGQSLEQIERDTERDRFLSAPEAVEYGLVDSILTHRN" [] ["CCO-CYTOSOL"] +"EG10159-MONOMER" "ATP-dependent Clp protease ATP-binding subunit ClpX" ["LopC", "ClpX"] "MTDKRKDGSGKLLYCSFCGKSQHEVRKLIAGPSVYICDECVDLCNDIIREEIKEVAPHRERSALPTPHEIRNHLDDYVIGQEQAKKVLAVAVYNHYKRLRNGDTSNGVELGKSNILLIGPTGSGKTLLAETLARLLDVPFTMADATTLTEAGYVGEDVENIIQKLLQKCDYDVQKAQRGIVYIDEIDKISRKSDNPSITRDVSGEGVQQALLKLIEGTVAAVPPQGGRKHPQQEFLQVDTSKILFICGGAFAGLDKVISHRVETGSGIGFGATVKAKSDKASEGELLAQVEPEDLIKFGLIPEFIGRLPVVATLNELSEEALIQILKEPKNALTKQYQALFNLEGVDLEFRDEALDAIAKKAMARKTGARGLRSIVEAALLDTMYDLPSMEDVEKVVIDESVIDGQSKPLLIYGKPEAQQASGE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10167-MONOMER" "carbon starvation protein A" ["YbdC", "CstA", "cst-2"] "MNKSGKYLVWTVLSVMGAFALGYIALNRGEQINALWIVVASVCIYLIAYRFYGLYIAKNVLAVDPTRMTPAVRHNDGLDYVPTDKKVLFGHHFAAIAGAGPLVGPVLAAQMGYLPGMIWLLAGVVLAGAVQDFMVLFVSTRRDGRSLGELVKEEMGPTAGVIALVACFMIMVIILAVLAMIVVKALTHSPWGTYTVAFTIPLALFMGIYLRYLRPGRIGEVSVIGLVFLIFAIISGGWVAESPTWAPYFDFTGVQLTWMLVGYGFVAAVLPVWLLLAPRDYLSTFLKIGTIVGLAVGILIMRPTLTMPALTKFVDGTGPVWTGNLFPFLFITIACGAVSGFHALISSGTTPKMLANEGQACFIGYGGMLMESFVAIMALVSACIIDPGVYFAMNSPMAVLAPAGTADVVASAAQVVSSWGFSITPDTLNQIASEVGEQSIISRAGGAPTLAVGMAYILHGALGGMMDVAFWYHFAILFEALFILTAVDAGTRAARFMLQDLLGVVSPGLKRTDSLPANLLATALCVLAWGYFLHQGVVDPLGGINTLWPLFGIANQMLAGMALMLCAVVLFKMKRQRYAWVALVPTAWLLICTLTAGWQKAFSPDAKVGFLAIANKFQAMIDSGNIPSQYTESQLAQLVFNNRLDAGLTIFFMVVVVVLALFSIKTALAALKDPKPTAKETPYEPMPENVEEIVAQAKGAH" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG10168-MONOMER" "apolipoprotein N-acyltransferase" ["CutE", "Lnt"] "MAFASLIERQRIRLLLALLFGACGTLAFSPYDVWPAAIISLMGLQALTFNRRPLQSAAIGFCWGFGLFGSGINWVYVSIATFGGMPGPVNIFLVVLLAAYLSLYTGLFAGVLSRLWPKTTWLRVAIAAPALWQVTEFLRGWVLTGFPWLQFGYSQIDGPLKGLAPIMGVEAINFLLMMVSGLLALALVKRNWRPLVVAVVLFALPFPLRYIQWFTPQPEKTIQVSMVQGDIPQSLKWDEGQLLNTLKIYYNATAPLMGKSSLIIWPESAITDLEINQQPFLKALDGELRDKGSSLVTGIVDARLNKQNRYDTYNTIITLGKGAPYSYESADRYNKNHLVPFGEFVPLESILRPLAPFFDLPMSSFSRGPYIQPPLSANGIELTAAICYEIILGEQVRDNFRPDTDYLLTISNDAWFGKSIGPWQHFQMARMRALELARPLLRSTNNGITAVIGPQGEIQAMIPQFTREVLTTNVTPTTGLTPYARTGNWPLWVLTALFGFAAVLMSLRQRRK" ["CCO-PERI-BAC", "CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG10169-MONOMER" "colicin V production protein" ["DedE", "CvpA"] "MVWIDYAIIAVIAFSSLVSLIRGFVREALSLVTWGCAFFVASHYYTYLSVWFTGFEDELVRNGIAIAVLFIATLIVGAIVNFVIGQLVEKTGLSGTDRVLGVCFGALRGVLIVAAILFFLDSFTGVSKSEDWSKSQLIPQFSFIIRCFFDYLQSSSSFLPRA" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG10201-MONOMER" "D-alanyl-D-alanine carboxypeptidase DacA" ["Pfv", "DacA", "PBP5", "penicillin-binding protein 5", "murein D,D-carboxypeptidase DacA", "D-alanine carboxypeptidase IA"] "MNTIFSARIMKRLALTTALCTAFISAAHADDLNIKTMIPGVPQIDAESYILIDYNSGKVLAEQNADVRRDPASLTKMMTSYVIGQAMKAGKFKETDLVTIGNDAWATGNPVFKGSSLMFLKPGMQVPVSQLIRGINLQSGNDACVAMADFAAGSQDAFVGLMNSYVNALGLKNTHFQTVHGLDADGQYSSARDMALIGQALIRDVPNEYSIYKEKEFTFNGIRQLNRNGLLWDNSLNVDGIKTGHTDKAGYNLVASATEGQMRLISAVMGGRTFKGREAESKKLLTWGFRFFETVNPLKVGKEFASEPVWFGDSDRASLGVDKDVYLTIPRGRMKDLKASYVLNSSELHAPLQKNQVVGTINFQLDGKTIEQRPLVVLQEIPEGNFFGKIIDYIKLMFHHWFG" ["CCO-PERI-BAC", "CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG10202-MONOMER" "peptidoglycan DD-endopeptidase DacB" ["DacB", "D-alanyl-D-alanine carboxypeptidase DacB", "PBP4", "penicillin-binding protein 4"] "MRFSRFIIGLTSCIAFSVQAANVDEYITQLPAGANLALMVQKVGASAPAIDYHSQQMALPASTQKVITALAALIQLGPDFRFTTTLETKGNVENGVLKGDLVARFGADPTLKRQDIRNMVATLKKSGVNQIDGNVLIDTSIFASHDKAPGWPWNDMTQCFSAPPAAAIVDRNCFSVSLYSAPKPGDMAFIRVASYYPVTMFSQVRTLPRGSAEAQYCELDVVPGDLNRFTLTGCLPQRSEPLPLAFAVQDGASYAGAILKDELKQAGITWSGTLLRQTQVNEPGTVVASKQSAPLHDLLKIMLKKSDNMIADTVFRMIGHARFNVPGTWRAGSDAVRQILRQQAGVDIGNTIIADGSGLSRHNLIAPATMMQVLQYIAQHDNELNFISMLPLAGYDGSLQYRAGLHQAGVDGKVSAKTGSLQGVYNLAGFITTASGQRMAFVQYLSGYAVEPADQRNRRIPLVRFESRLYKDIYQNN" ["CCO-PERI-BAC", "CCO-PM-BAC-NEG"] ["CCO-PERI-BAC"] +"EG10203-MONOMER" "D-alanyl-D-alanine carboxypeptidase DacC" ["DacC", "penicillin-binding protein 6", "PBP6", "murein DD-carboxypeptidase", "PBP6a"] "MTQYSSLLRGLAAGSAFLFLFAPTAFAAEQTVEAPSVDARAWILMDYASGKVLAEGNADEKLDPASLTKIMTSYVVGQALKADKIKLTDMVTVGKDAWATGNPALRGSSVMFLKPGDQVSVADLNKGVIIQSGNDACIALADYVAGSQESFIGLMNGYAKKLGLTNTTFQTVHGLDAPGQFSTARDMALLGKALIHDVPEEYAIHKEKEFTFNKIRQPNRNRLLWSSNLNVDGMKTGTTAGAGYNLVASATQGDMRLISVVLGAKTDRIRFNESEKLLTWGFRFFETVTPIKPDATFVTQRVWFGDKSEVNLGAGEAGSVTIPRGQLKNLKASYTLTEPQLTAPLKKGQVVGTIDFQLNGKSIEQRPLIVMENVEEGGFFGRVWDFVMMKFHQWFGSWFS" ["CCO-PERI-BAC", "CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG10204-MONOMER" "DNA adenine methyltransferase" ["Dam"] "MKKNRAFLKWAGGKYPLLDDIKRHLPKGECLVEPFVGAGSVFLNTDFSRYILADINSDLISLYNIVKMRTDEYVQAARELFVPETNCAEVYYQFREEFNKSQDPFRRAVLFLYLNRYGYNGLCRYNLRGEFNVPFGRYKKPYFPEAELYHFAEKAQNAFFYCESYADSMARADDASVVYCDPPYAPLSATANFTAYHTNSFTLEQQAHLAEIAEGLVERHIPVLISNHDTMLTREWYQRAKLHVVKVRRSISSNGGTRKKVDELLALYKPGVVSPAKK" [] ["CCO-CYTOSOL"] +"EG10210-MONOMER" "ATP-dependent RNA helicase DbpA" ["RhlC", "DbpA", "ATP-dependent RNA helicase, specific for 23S rRNA"] "MTAFSTLNVLPPAQLTNLNELGYLTMTPVQAAALPAILAGKDVRVQAKTGSGKTAAFGLGLLQQIDASLFQTQALVLCPTRELADQVAGELRRLARFLPNTKILTLCGGQPFGMQRDSLQHAPHIIVATPGRLLDHLQKGTVSLDALNTLVMDEADRMLDMGFSDAIDDVIRFAPASRQTLLFSATWPEAIAAISGRVQRDPLAIEIDSTDALPPIEQQFYETSSKGKIPLLQRLLSLHQPSSCVVFCNTKKDCQAVCDALNEVGQSALSLHGDLEQRDRDQTLVRFANGSARVLVATDVAARGLDIKSLELVVNFELAWDPEVHVHRIGRTARAGNSGLAISFCAPEEAQRANIISDMLQIKLNWQTPPANSSIATLEAEMATLCIDGGKKAKMRPGDVLGALTGDIGLDGADIGKIAVHPAHVYVAVRQAVAHKAWKQLQGGKIKGKTCRVRLLK" [] ["CCO-CYTOSOL"] +"EG10211-MONOMER" "DNA-cytosine methyltransferase" ["Mec", "Dcm"] "MQENISVTDSYSTGNAAQAMLEKLLQIYDVKTLVAQLNGVGENHWSAAILKRALANDSAWHRLSEKEFAHLQTLLPKPPAHHPHYAFRFIDLFAGIGGIRRGFESIGGQCVFTSEWNKHAVRTYKANHYCDPATHHFNEDIRDITLSHKEGVSDEAAAEHIRQHIPEHDVLLAGFPCQPFSLAGVSKKNSLGRAHGFACDTQGTLFFDVVRIIDARRPAMFVLENVKNLKSHDQGKTFRIIMQTLDELGYDVADAEDNGPDDPKIIDGKHFLPQHRERIVLVGFRRDLNLKADFTLRDISECFPAQRVTLAQLLDPMVEAKYILTPVLWKYLYRYAKKHQARGNGFGYGMVYPNNPQSVTRTLSARYYKDGAEILIDRGWDMATGEKDFDDPLNQQHRPRRLTPRECARLMGFEAPGEAKFRIPVSDTQAYRQFGNSVVVPVFAAVAKLLEPKIKQAVALRQQEAQHGRRSR" [] ["CCO-CYTOSOL"] +"EG10212-MONOMER" "peptidyl-dipeptidase Dcp" ["Dcp", "dipeptidyl carboxypeptidase II"] "MTTMNPFLVQSTLPYLAPHFDQIANHHYRPAFDEGMQQKRAEIAAIALNPQMPDFNNTILALEQSGELLTRVTSVFFAMTAAHTNDELQRLDEQFSAELAELANDIYLNGELFARVDAVWQRRESLGLDSESIRLVEVIHQRFVLAGAKLAQADKAKLKVLNTEAATLTSQFNQRLLAANKSGGLVVNDIAQLAGMSEQEIALAAEAAREKGLDNKWLIPLLNTTQQPALAEMRDRATREKLFIAGWTRAEKNDANDTRAIIQRLVEIRAQQATLLGFPHYAAWKIADQMAKTPEAALNFMREIVPAARQRASDELASIQAVIDKQQGGFSAQPWDWAFYAEQVRREKFDLDEAQLKPYFELNTVLNEGVFWTANQLFGIKFVERFDIPVYHPDVRVWEIFDHNGVGLALFYGDFFARDSKSGGAWMGNFVEQSTLNKTHPVIYNVCNYQKPAAGEPALLLWDDVITLFHEFGHTLHGLFARQRYATLSGTNTPRDFVEFPSQINEHWATHPQVFARYARHYQSGAAMPDELQQKMRNASLFNKGYEMSELLSAALLDMRWHCLEENEAMQDVDDFELRALVAENMDLPAIPPRYRSSYFAHIFGGGYAAGYYAYLWTQMLADDGYQWFVEQGGLTRENGLRFREAILSRGNSEDLERLYRQWRGKAPKIMPMLQHRGLNI" ["CCO-PERI-BAC", "CCO-CYTOSOL"] ["CCO-PERI-BAC", "CCO-CYTOSOL"] +"EG10215-MONOMER" "ATP-dependent RNA helicase DeaD" ["RhlD", "MssB", "DeaD", "CsdA", "DEAD-box RNA helicase"] "MAEFETTFADLGLKAPILEALNDLGYEKPSPIQAECIPHLLNGRDVLGMAQTGSGKTAAFSLPLLQNLDPELKAPQILVLAPTRELAVQVAEAMTDFSKHMRGVNVVALYGGQRYDVQLRALRQGPQIVVGTPGRLLDHLKRGTLDLSKLSGLVLDEADEMLRMGFIEDVETIMAQIPEGHQTALFSATMPEAIRRITRRFMKEPQEVRIQSSVTTRPDISQSYWTVWGMRKNEALVRFLEAEDFDAAIIFVRTKNATLEVAEALERNGYNSAALNGDMNQALREQTLERLKDGRLDILIATDVAARGLDVERISLVVNYDIPMDSESYVHRIGRTGRAGRAGRALLFVENRERRLLRNIERTMKLTIPEVELPNAELLGKRRLEKFAAKVQQQLESSDLDQYRALLSKIQPTAEGEELDLETLAAALLKMAQGERTLIVPPDAPMRPKREFRDRDDRGPRDRNDRGPRGDREDRPRRERRDVGDMQLYRIEVGRDDGVEVRHIVGAIANEGDISSRYIGNIKLFASHSTIELPKGMPGEVLQHFTRTRILNKPMNMQLLGDAQPHTGGERRGGGRGFGGERREGGRNFSGERREGGRGDGRRFSGERREGRAPRRDDSTGRRRFGGDA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10216-MONOMER" "DedA family protein DedA" ["DedA"] "MDLIYFLIDFILHIDVHLAELVAEYGVWVYAILFLILFCETGLVVTPFLPGDSLLFVAGALASLETNDLNVHMMVVLMLIAAIVGDAVNYTIGRLFGEKLFSNPNSKIFRRSYLDKTHQFYEKHGGKTIILARFVPIVRTFAPFVAGMGHMSYRHFAAYNVIGALLWVLLFTYAGYFFGTIPMVQDNLKLLIVGIIVVSILPGVIEIIRHKRAAARAAK" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG10218-MONOMER" "cell division protein DedD" ["DedD"] "MASKFQNRLVGTIVLVALGVIVLPGLLDGQKKHYQDEFAAIPLVPKAGDRDEPDMMPAATQALPTQPPEGAAEEVRAGDAAAPSLDPATIAANNTEFEPEPAPVAPPKPKPVEPPKPKVEAPPAPKPEPKPVVEEKAAPTGKAYVVQLGALKNADKVNEIVGKLRGAGYRVYTSPSTPVQGKITRILVGPDASKDKLKGSLGELKQLSGLSGVVMGYTPN" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG10226-MONOMER" "DNA-binding transcriptional dual regulator DicA" ["FtsT", "DicA"] "METKNLTIGERIRYRRKNLKHTQRSLAKALKISHVSVSQWERGDSEPTGKNLFALSKVLQCSPTWILFGDEDKQPTPPVEKPVALSPKELELLELFNALPESEQDTQLAEMRARVKNFNKLFEELLKARQRTNKR" [] ["CCO-CYTOSOL"] +"EG10227-MONOMER" "Qin prophage; cell division inhibition protein DicB" ["FtsT", "DicB"] "MKTLLPNVNTSEGCFEIGVTISNPVFTEDAINKRKQERELLNKICIVSMLARLRLMPKGCAQ" [] ["CCO-CYTOSOL"] +"EG10228-MONOMER" "Qin prophage; putative DNA-binding transcriptional regulator DicC" ["FtsT", "DicC"] "MLKTDALLYFGSKTKLAQAAGIRLASLYSWKGDLVPEGRAMRLQEASGGELQYDPKVYDEYRKTKRAGRLNNENHS" [] ["CCO-CYTOSOL"] +"EG10229-MONOMER" "putative flagella assembly protein" ["Flk", "Div"] "MIQPISGPPPGQPPGQGDNLPSGTGNQPLSSQQRTSLESLMTKVTSLTQQQRAELWAGIRHDIGLSGDSPLLSRHFPAAEHNLAQRLLAAQKSHSARQLLAQLGEYLRLGNNRQAVTDYIRHNFGQTPLNQLSPEQLKTILTLLQEGKMVIPQPQQREATDRPLLPAEHNALKQLVTKLAAATGEPSKQIWQSMLELSGVKDGELIPAKLFNHLVTWLQARQTLSQQNTPTLESLQMTLKQPLDASELAALSAYIQQKYGLSAQSSLSSAQAEDILNQLYQRRVKGIDPRVMQPLLNPFPPMMDTLQNMATRPALWILLVAIILMLVWLVR" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG10230-MONOMER" "RNA polymerase-binding transcription factor DksA" ["MsmA", "DksA"] "MQEGQNRKTSSLSILAIAGVEPYQEKPGEEYMNEAQLAHFRRILEAWRNQLRDEVDRTVTHMQDEAANFPDPVDRAAQEEEFSLELRNRDRERKLIKKIEKTLKKVEDEDFGYCESCGVEIGIRRLEARPTADLCIDCKTLAEIREKQMAG" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10236-MONOMER" "replicative DNA helicase" ["GrpD", "GrpA", "GroP", "DnaB"] "MAGNKPFNKQQAEPRERDPQVAGLKVPPHSIEAEQSVLGGLMLDNERWDDVAERVVADDFYTRPHRHIFTEMARLQESGSPIDLITLAESLERQGQLDSVGGFAYLAELSKNTPSAANISAYADIVRERAVVREMISVANEIAEAGFDPQGRTSEDLLDLAESRVFKIAESRANKDEGPKNIADVLDATVARIEQLFQQPHDGVTGVNTGYDDLNKKTAGLQPSDLIIVAARPSMGKTTFAMNLVENAAMLQDKPVLIFSLEMPSEQIMMRSLASLSRVDQTKIRTGQLDDEDWARISGTMGILLEKRNIYIDDSSGLTPTEVRSRARRIAREHGGIGLIMIDYLQLMRVPALSDNRTLEIAEISRSLKALAKELNVPVVALSQLNRSLEQRADKRPVNSDLRESGSIEQDADLIMFIYRDEVYHENSDLKGIAEIIIGKQRNGPIGTVRLTFNGQWSRFDNYAGPQYDDE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10237-MONOMER" "DNA replication protein DnaC" ["DnaD", "DnaC", "chromosome replication; initiation and chain elongation"] "MKNVGDLMQRLQKMMPAHIKPAFKTGEELLAWQKEQGAIRSAALERENRAMKMQRTFNRSGIRPLHQNCSFENYRVECEGQMNALSKARQYVEEFDGNIASFIFSGKPGTGKNHLAAAICNELLLRGKSVLIITVADIMSAMKDTFRNSGTSEEQLLNDLSNVDLLVIDEIGVQTESKYEKVIINQIVDRRSSSKRPTGMLTNSNMEEMTKLLGERVMDRMRLGNSLWVIFNWDSYRSRVTGKEY" [] ["CCO-CYTOSOL"] +"EG10238-MONOMER" "DNA polymerase III subunit α" ["SdgC", "PolC", "DnaE"] "MSEPRFVHLRVHSDYSMIDGLAKTAPLVKKAAALGMPALAITDFTNLCGLVKFYGAGHGAGIKPIVGADFNVQCDLLGDELTHLTVLAANNTGYQNLTLLISKAYQRGYGAAGPIIDRDWLIELNEGLILLSGGRMGDVGRSLLRGNSALVDECVAFYEEHFPDRYFLELIRTGRPDEESYLHAAVELAEARGLPVVATNDVRFIDSSDFDAHEIRVAIHDGFTLDDPKRPRNYSPQQYMRSEEEMCELFADIPEALANTVEIAKRCNVTVRLGEYFLPQFPTGDMSTEDYLVKRAKEGLEERLAFLFPDEEERLKRRPEYDERLETELQVINQMGFPGYFLIVMEFIQWSKDNGVPVGPGRGSGAGSLVAYALKITDLDPLEFDLLFERFLNPERVSMPDFDVDFCMEKRDQVIEHVADMYGRDAVSQIITFGTMAAKAVIRDVGRVLGHPYGFVDRISKLIPPDPGMTLAKAFEAEPQLPEIYEADEEVKALIDMARKLEGVTRNAGKHAGGVVIAPTKITDFAPLYCDEEGKHPVTQFDKSDVEYAGLVKFDFLGLRTLTIINWALEMINKRRAKNGEPPLDIAAIPLDDKKSFDMLQRSETTAVFQLESRGMKDLIKRLQPDCFEDMIALVALFRPGPLQSGMVDNFIDRKHGREEISYPDVQWQHESLKPVLEPTYGIILYQEQVMQIAQVLSGYTLGGADMLRRAMGKKKPEEMAKQRSVFAEGAEKNGINAELAMKIFDLVEKFAGYGFNKSHSAAYALVSYQTLWLKAHYPAEFMAAVMTADMDNTEKVVGLVDECWRMGLKILPPDINSGLYHFHVNDDGEIVYGIGAIKGVGEGPIEAIIEARNKGGYFRELFDLCARTDTKKLNRRVLEKLIMSGAFDRLGPHRAALMNSLGDALKAADQHAKAEAIGQADMFGVLAEEPEQIEQSYASCQPWPEQVVLDGERETLGLYLTGHPINQYLKEIERYVGGVRLKDMHPTERGKVITAAGLVVAARVMVTKRGNRIGICTLDDRSGRLEVMLFTDALDKYQQLLEKDRILIVSGQVSFDDFSGGLKMTAREVMDIDEAREKYARGLAISLTDRQIDDQLLNRLRQSLEPHRSGTIPVHLYYQRADARARLRFGATWRVSPSDRLLNDLRGLIGSEQVELEFD" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10239-MONOMER" "DNA primase" ["SdgA", "ParB", "DnaP", "DnaG"] "MAGRIPRVFINDLLARTDIVDLIDARVKLKKQGKNFHACCPFHNEKTPSFTVNGEKQFYHCFGCGAHGNAIDFLMNYDKLEFVETVEELAAMHNLEVPFEAGSGPSQIERHQRQTLYQLMDGLNTFYQQSLQQPVATSARQYLEKRGLSHEVIARFAIGFAPPGWDNVLKRFGGNPENRQSLIDAGMLVTNDQGRSYDRFRERVMFPIRDKRGRVIGFGGRVLGNDTPKYLNSPETDIFHKGRQLYGLYEAQQDNAEPNRLLVVEGYMDVVALAQYGINYAVASLGTSTTADHIQLLFRATNNVICCYDGDRAGRDAAWRALETALPYMTDGRQLRFMFLPDGEDPDTLVRKEGKEAFEARMEQAMPLSAFLFNSLMPQVDLSTPDGRARLSTLALPLISQVPGETLRIYLRQELGNKLGILDDSQLERLMPKAAESGVSRPVPQLKRTTMRILIGLLVQNPELATLVPPLENLDENKLPGLGLFRELVNTCLSQPGLTTGQLLEHYRGTNNAATLEKLSMWDDIADKNIAEQTFTDSLNHMFDSLLELRQEELIARERTHGLSNEERLELWTLNQELAKK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10240-MONOMER" "chaperone protein DnaJ" ["GrpC", "GroP", "DnaJ", "DnaK co-chaperone Hsp40"] "MAKQDYYEILGVSKTAEEREIRKAYKRLAMKYHPDRNQGDKEAEAKFKEIKEAYEVLTDSQKRAAYDQYGHAAFEQGGMGGGGFGGGADFSDIFGDVFGDIFGGGRGRQRAARGADLRYNMELTLEEAVRGVTKEIRIPTLEECDVCHGSGAKPGTQPQTCPTCHGSGQVQMRQGFFAVQQTCPHCQGRGTLIKDPCNKCHGHGRVERSKTLSVKIPAGVDTGDRIRLAGEGEAGEHGAPAGDLYVQVQVKQHPIFEREGNNLYCEVPINFAMAALGGEIEVPTLDGRVKLKVPGETQTGKLFRMRGKGVKSVRGGAQGDLLCRVVVETPVGLNERQKQLLQELQESFGGPTGEHNSPRSKSFFDGVKKFFDDLTR" ["CCO-MEMBRANE", "CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10241-MONOMER" "chaperone protein DnaK" ["GrpC", "GrpF", "Seg", "DnaK", "Hsp70", "heat shock protein 70"] "MGKIIGIDLGTTNSCVAIMDGTTPRVLENAEGDRTTPSIIAYTQDGETLVGQPAKRQAVTNPQNTLFAIKRLIGRRFQDEEVQRDVSIMPFKIIAADNGDAWVEVKGQKMAPPQISAEVLKKMKKTAEDYLGEPVTEAVITVPAYFNDAQRQATKDAGRIAGLEVKRIINEPTAAALAYGLDKGTGNRTIAVYDLGGGTFDISIIEIDEVDGEKTFEVLATNGDTHLGGEDFDSRLINYLVEEFKKDQGIDLRNDPLAMQRLKEAAEKAKIELSSAQQTDVNLPYITADATGPKHMNIKVTRAKLESLVEDLVNRSIEPLKVALQDAGLSVSDIDDVILVGGQTRMPMVQKKVAEFFGKEPRKDVNPDEAVAIGAAVQGGVLTGDVKDVLLLDVTPLSLGIETMGGVMTTLIAKNTTIPTKHSQVFSTAEDNQSAVTIHVLQGERKRAADNKSLGQFNLDGINPAPRGMPQIEVTFDIDADGILHVSAKDKNSGKEQKITIKASSGLNEDEIQKMVRDAEANAEADRKFEELVQTRNQGDHLLHSTRKQVEEAGDKLPADDKTAIESALTALETALKGEDKAAIEAKMQELAQVSQKLMEIAQQQHAQQQTAGADASANNAKDDDVVDAEFEEVKDKK" ["CCO-CYTOSOL"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE", "CCO-CYTOSOL"] +"EG10242-MONOMER" "β sliding clamp" ["DnaN", "DNA polymerase III subunit β"] "MKFTVEREHLLKPLQQVSGPLGGRPTLPILGNLLLQVADGTLSLTGTDLEMEMVARVALVQPHEPGATTVPARKFFDICRGLPEGAEIAVQLEGERMLVRSGRSRFSLSTLPAADFPNLDDWQSEVEFTLPQATMKRLIEATQFSMAHQDVRYYLNGMLFETEGEELRTVATDGHRLAVCSMPIGQSLPSHSVIVPRKGVIELMRMLDGGDNPLRVQIGSNNIRAHVGDFIFTSKLVDGRFPDYRRVLPKNPDKHLEAGCDLLKQAFARAAILSNEKFRGVRLYVSENQLKITANNPEQEEAEEILDVTYSGAEMEIGFNVSYVLDVLNALKCENVRMMLTDSVSSVQIEDAASQSAAYVVMPMRL" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10243-MONOMER" "DNA polymerase III subunit ε" ["MutD", "DnaQ"] "MSTAITRQIVLDTETTGMNQIGAHYEGHKIIEIGAVEVVNRRLTGNNFHVYLKPDRLVDPEAFGVHGIADEFLLDKPTFAEVADEFMDYIRGAELVIHNAAFDIGFMDYEFSLLKRDIPKTNTFCKVTDSLAVARKMFPGKRNSLDALCARYEIDNSKRTLHGALLDAQILAEVYLAMTGGQTSMAFAMEGETQQQQGEATIQRIVRQASKLRVVFATDEEIAAHEARLDLVQKKGGSCLWRA" [] ["CCO-CYTOSOL"] +"EG10244-MONOMER" "primosomal protein DnaT" ["DnaT"] "MSSRVLTPDVVGIDALVHDHQTVLAKAEGGVVAVFANNAPAFYAVTPARLAELLALEEKLARPGSDVALDDQLYQEPQAAPVAVPMGKFAMYPDWQPDADFIRLAALWGVALREPVTTEELASFIAYWQAEGKVFHHVQWQQKLARSLQIGRASNGGLPKRDVNTVSEPDSQIPPGFRG" [] [] +"EG10245-MONOMER" "DNA polymerase III subunit τ" ["DnaZ", "DnaX", "DNA elongation factor III"] "MSYQVLARKWRPQTFADVVGQEHVLTALANGLSLGRIHHAYLFSGTRGVGKTSIARLLAKGLNCETGITATPCGVCDNCREIEQGRFVDLIEIDAASRTKVEDTRDLLDNVQYAPARGRFKVYLIDEVHMLSRHSFNALLKTLEEPPEHVKFLLATTDPQKLPVTILSRCLQFHLKALDVEQIRHQLEHILNEEHIAHEPRALQLLARAAEGSLRDALSLTDQAIASGDGQVSTQAVSAMLGTLDDDQALSLVEAMVEANGERVMALINEAAARGIEWEALLVEMLGLLHRIAMVQLSPAALGNDMAAIELRMRELARTIPPTDIQLYYQTLLIGRKELPYAPDRRMGVEMTLLRALAFHPRMPLPEPEVPRQSFAPVAPTAVMTPTQVPPQPQSAPQQAPTVPLPETTSQVLAARQQLQRVQGATKAKKSEPAAATRARPVNNAALERLASVTDRVQARPVPSALEKAPAKKEAYRWKATTPVMQQKEVVATPKALKKALEHEKTPELAAKLAAEAIERDPWAAQVSQLSLPKLVEQVALNAWKEESDNAVCLHLRSSQRHLNNRGAQQKLAEALSMLKGSTVELTIVEDDNPAVRTPLEWRQAIYEEKLAQARESIIADNNIQTLRRFFDAELDEESIRPI" [] ["CCO-CYTOSOL"] +"EG10246-MONOMER" "membrane-bound lytic murein transglycosylase D" ["YafG", "MltD", "DniR"] "MKAKAILLASVLLVGCQSTGNVQQHAQSLSAAGQGEAAKFTSQARWMDDGTSIAPDGDLWAFIGDELKMGIPENDRIREQKQKYLRNKSYLHDVTLRAEPYMYWIAGQVKKRNMPMELVLLPIVESAFDPHATSGANAAGIWQIIPSTGRNYGLKQTRNYDARRDVVASTTAALNMMQRLNKMFDGDWLLTVAAYNSGEGRVMKAIKTNKARGKSTDFWSLPLPQETKQYVPKMLALSDILKNSKRYGVRLPTTDESRALARVHLSSPVEMAKVADMAGISVSKLKTFNAGVKGSTLGASGPQYVMVPKKHADQLRESLASGEIAAVQSTLVADNTPLNSRVYTVRSGDTLSSIASRLGVSTKDLQQWNKLRGSKLKPGQSLTIGAGSSAQRLANNSDSITYRVRKGDSLSSIAKRHGVNIKDVMRWNSDTANLQPGDKLTLFVKNNNMPDS" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"EG10252-MONOMER" "evolved β-D-galactosidase subunit α" ["EbgA"] "MNRWENIQLTHENRLAPRAYFFSYDSVAQARTFARETSSLFLPLSGQWNFHFFDHPLQVPEAFTSELMADWGHITVPAMWQMEGHGKLQYTDEGFPFPIDVPFVPSDNPTGAYQRIFTLSDGWQGKQTLIKFDGVETYFEVYVNGQYVGFSKGSRLTAEFDISAMVKTGDNLLCVRVMQWADSTYVEDQDMWWSAGIFRDVYLVGKHLTHINDFTVRTDFDEAYCDATLSCEVVLENLAASPVVTTLEYTLFDGERVVHSSAIDHLAIEKLTSASFAFTVEQPQQWSAESPYLYHLVMTLKDANGNVLEVVPQRVGFRDIKVRDGLFWINNRYVMLHGVNRHDNDHRKGRAVGMDRVEKDLQLMKQHNINSVRTAHYPNDPRFYELCDIYGLFVMAETDVESHGFANVGDISRITDDPQWEKVYVERIVRHIHAQKNHPSIIIWSLGNESGYGCNIRAMYHAAKALDDTRLVHYEEDRDAEVVDIISTMYTRVPLMNEFGEYPHPKPRIICEYAHAMGNGPGGLTEYQNVFYKHDCIQGHYVWEWCDHGIQAQDDHGNVWYKFGGDYGDYPNNYNFCLDGLIYSDQTPGPGLKEYKQVIAPVKIHARDLTRGELKVENKLWFTTLDDYTLHAEVRAEGETLATQQIKLRDVAPNSEAPLQITLPQLDAREAFLNITVTKDSRTRYSEAGHPIATYQFPLKENTAQPVPFAPNNARPLTLEDDRLSCTVRGYNFAITFSKMSGKPTSWQVNGESLLTREPKINFFKPMIDNHKQEYEGLWQPNHLQIMQEHLRDFAVEQSDGEVLIISRTVIAPPVFDFGMRCTYIWRIAADGQVNVALSGERYGDYPHIIPCIGFTMGINGEYDQVAYYGRGPGENYADSQQANIIDIWRSTVDAMFENYPFPQNNGNRQHVRWTALTNRHGNGLLVVPQRPINFSAWHYTQENIHAAQHCNELQRSDDITLNLDHQLLGLGSNSWGSEVLDSWRVWFRDFSYGFTLLPVSGGEATAQSLASYEFGAGFFSTNLHSENKQ" [] ["CCO-CYTOSOL"] +"EG10253-MONOMER" "DUF386 domain-containing evolved β-D-galactosidase subunit β" ["EbgC", "evolved β-D-galactosidase subunit β"] "MRIIDNLEQFRQIYASGKKWQRCVEAIENIDNIQPGVAHSIGDSLTYRVETDSATDALFTGHRRYFEVHYYLQGQQKIEYAPKETLQVVEYYRDETDREYLKGCGETVEVHEGQIVICDIHEAYRFICNNAVKKVVLKVTIEDGYFHNK" [] ["CCO-CYTOSOL"] +"EG10255-MONOMER" "serine protease inhibitor ecotin" ["Eti", "Eco"] "MKTILPAVLFAAFATTSAWAAESVQPLEKIAPYPQAEKGMKRQVIQLTPQEDESTLKVELLIGQTLEVDCNLHRLGGKLENKTLEGWGYDYYVFDKVSSPVSTMMACPDGKKEKKFVTAYLGDAGMLRYNSKLPIVVYTPDNVDVKYRVWKAEEKIDNAVVR" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"EG10266-MONOMER" "multidrug efflux pump membrane fusion lipoprotein AcrE" ["EnvC", "AcrE"] "MTKHARFFLLPSFILISAALIAGCNDKGEEKAHVGEPQVTVHIVKTAPLEVKTELPGRTNAYRIAEVRPQVSGIVLNRNFTEGSDVQAGQSLYQIDPATYQANYDSAKGELAKSEAAAAIAHLTVKRYVPLVGTKYISQQEYDQAIADARQADAAVIAAKATVESARINLAYTKVTAPISGRIGKSTVTEGALVTNGQTTELATVQQLDPIYVDVTQSSNDFMRLKQSVEQGNLHKENATSNVELVMENGQTYPLKGTLQFSDVTVDESTGSITLRAVFPNPQHTLLPGMFVRARIDEGVQPDAILIPQQGVSRTPRGDATVLIVNDKSQVEARPVVASQAIGDKWLISEGLKSGDQVIVSGLQKARPGEQVKATTDTPADTASK" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG10270-MONOMER" "30S ribosomal subunit maturation GTPase Era" ["SdgE", "RbaA", "Era"] "MSIDKSYCGFIAIVGRPNVGKSTLLNKLLGQKISITSRKAQTTRHRIVGIHTEGAYQAIYVDTPGLHMEEKRAINRLMNKAASSSIGDVELVIFVVEGTRWTPDDEMVLNKLREGKAPVILAVNKVDNVQEKADLLPHLQFLASQMNFLDIVPISAETGLNVDTIAAIVRKHLPEATHHFPEDYITDRSQRFMASEIIREKLMRFLGAELPYSVTVEIERFVSNERGGYDINGLILVEREGQKKMVIGNKGAKIKTIGIEARKDMQEMFEAPVHLELWVKVKSGWADDERALRSLGYVDDL" ["CCO-PM-BAC-NEG", "CCO-CYTOSOL"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG", "CCO-CYTOSOL"] +"EG10271-MONOMER" "Ton complex subunit ExbB" ["ExbB"] "MGNNLMQTDLSVWGMYQHADIVVKCVMIGLILASVVTWAIFFSKSVEFFNQKRRLKREQQLLAEARSLNQANDIAADFGSKSLSLHLLNEAQNELELSEGSDDNEGIKERTSFRLERRVAAVGRQMGRGNGYLATIGAISPFVGLFGTVWGIMNSFIGIAQTQTTNLAVVAPGIAEALLATAIGLVAAIPAVVIYNVFARQIGGFKAMLGDVAAQVLLLQSRDLDLEASAAAHPVRVAQKLRAG" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG10272-MONOMER" "Ton complex subunit ExbD" ["ExbD"] "MAMHLNENLDDNGEMHDINVTPFIDVMLVLLIIFMVAAPLATVDVKVNLPASTSTPQPRPEKPVYLSVKADNSMFIGNDPVTDETMITALNALTEGKKDTTIFFRADKTVDYETLMKVMDTLHQAGYLKIGLVGEETAKAK" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG10280-MONOMER" "long-chain fatty acid outer membrane channel / bacteriophage T2 receptor" ["Ttr", "FadL"] "MSQKTLFTKSALAVAVALISTQAWSAGFQLNEFSSSGLGRAYSGEGAIADDAGNVSRNPALITMFDRPTFSAGAVYIDPDVNISGTSPSGRSLKADNIAPTAWVPNMHFVAPINDQFGWGASITSNYGLATEFNDTYAGGSVGGTTDLETMNLNLSGAYRLNNAWSFGLGFNAVYARAKIERFAGDLGQLVAGQIMQSPAGQTQQGQALAATANGIDSNTKIAHLNGNQWGFGWNAGILYELDKNNRYALTYRSEVKIDFKGNYSSDLNRAFNNYGLPIPTATGGATQSGYLTLNLPEMWEVSGYNRVDPQWAIHYSLAYTSWSQFQQLKATSTSGDTLFQKHEGFKDAYRIALGTTYYYDDNWTFRTGIAFDDSPVPAQNRSISIPDQDRFWLSAGTTYAFNKDASVDVGVSYMHGQSVKINEGPYQFESEGKAWLFGTNFNYAF" ["CCO-OUTER-MEM"] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"EG10284-MONOMER" "formate dehydrogenase formation protein" ["FdhE"] "MSIRIIPQDELGSSEKRTADMIPPLLFPRLKNLYNRRAERLRELAENNPLGDYLRFAALIAHAQEVVLYDHPLEMDLTARIKEASAQGKPPLDIHVLPRDKHWQKLLMALIAELKPEMSGPALAVIENLEKASTQELEDMASALFASDFSSVSSDKAPFIWAALSLYWAQMANLIPGKARAEYGEQRQYCPVCGSMPVSSMVQIGTTQGLRYLHCNLCETEWHVVRVKCSNCEQSGKLHYWSLDDEQAAIKAESCDDCDTYLKILYQEKDPKIEAVADDLASLVLDARMEQEGYARSSINPFLFPGEGE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10286-MONOMER" "ferric citrate outer membrane transporter" ["FecA"] "MTPLRVFRKTTPLVNTIRLSLLPLAGLSFSAFAAQVNIAPGSLDKALNQYAAHSGFTLSVDASLTRGKQSNGLHGDYDVESGLQQLLDGSGLQVKPLGNNSWTLEPAPAPKEDALTVVGDWLGDARENDVFEHAGARDVIRREDFAKTGATTMREVLNRIPGVSAPENNGTGSHDLAMNFGIRGLNPRLASRSTVLMDGIPVPFAPYGQPQLSLAPVSLGNMDAIDVVRGGGAVRYGPQSVGGVVNFVTRAIPQDFGIEAGVEGQLSPTSSQNNPKETHNLMVGGTADNGFGTALLYSGTRGSDWREHSATRIDDLMLKSKYAPDEVHTFNSLLQYYDGEADMPGGLSRADYDADRWQSTRPYDRFWGRRKLASLGYQFQPDSQHKFNIQGFYTQTLRSGYLEQGKRITLSPRNYWVRGIEPRYSQIFMIGPSAHEVGVGYRYLNESTHEMRYYTATSSGQLPSGSSPYDRDTRSGTEAHAWYLDDKIDIGNWTITPGMRFEHIESYQNNAITGTHEEVSYNAPLPALNVLYHLTDSWNLYANTEGSFGTVQYSQIGKAVQSGNVEPEKARTWELGTRYDDGALTAEMGLFLINFNNQYDSNQTNDTVTARGKTRHTGLETQARYDLGTLTPTLDNVSIYASYAYVNAEIREKGDTYGNLVPFSPKHKGTLGVDYKPGNWTFNLNSDFQSSQFADNANTVKESADGSTGRIPGFMLWGARVAYDFGPQMADLNLAFGVKNIFDQDYFIRSYDDNNKGIYAGQPRTLYMQGSLKF" ["CCO-OUTER-MEM"] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"EG10292-MONOMER" "ferric citrate regulator FecR" ["FecR", "anti-sigma factor FecR"] "MNPLLTDSRRQALRSASHWYAVLSGERVSPQQEARWQQWYEQDQDNQWAWQQVENLRNQLGGVPGDVASRALHDTRLTRRHVMKGLLLLLGAGGGWQLWQSETGEGLRADYRTAKGTVSRQQLEDGSLLTLNTQSAADVRFDAHQRTVRLWYGEIAITTAKDALQRPFRVLTRQGQLTALGTEFTVRQQDNFTQLDVQQHAVEVLLASAPAQKRIVNAGESLQFSASEFGAVKPLDDESTSWTKDILSFSDKPLGEVIATLTRYRNGVLRCDPAVAGLRLSGTFPLKNTDAILNVIAQTLPVKIQSITRYWINISPL" ["CCO-PM-BAC-NEG"] ["CCO-PERI-BAC"] +"EG10293-MONOMER" "ferric enterobactin outer membrane transporter" ["Fep", "Cbt", "Cbr", "FeuB", "FepA"] "MNKKIHSLALLVNLGIYGVAQAQEPTDTPVSHDDTIVVTAAEQNLQAPGVSTITADEIRKNPVARDVSKIIRTMPGVNLTGNSTSGQRGNNRQIDIRGMGPENTLILIDGKPVSSRNSVRQGWRGERDTRGDTSWVPPEMIERIEVLRGPAAARYGNGAAGGVVNIITKKGSGEWHGSWDAYFNAPEHKEEGATKRTNFSLTGPLGDEFSFRLYGNLDKTQADAWDINQGHQSARAGTYATTLPAGREGVINKDINGVVRWDFAPLQSLELEAGYSRQGNLYAGDTQNTNSDSYTRSKYGDETNRLYRQNYALTWNGGWDNGVTTSNWVQYEHTRNSRIPEGLAGGTEGKFNEKATQDFVDIDLDDVMLHSEVNLPIDFLVNQTLTLGTEWNQQRMKDLSSNTQALTGTNTGGAIDGVSTTDRSPYSKAEIFSLFAENNMELTDSTIVTPGLRFDHHSIVGNNWSPALNISQGLGDDFTLKMGIARAYKAPSLYQTNPNYILYSKGQGCYASAGGCYLQGNDDLKAETSINKEIGLEFKRDGWLAGVTWFRNDYRNKIEAGYVAVGQNAVGTDLYQWDNVPKAVVEGLEGSLNVPVSETVMWTNNITYMLKSENKTTGDRLSIIPEYTLNSTLSWQAREDLSMQTTFTWYGKQQPKKYNYKGQPAVGPETKEISPYSIVGLSATWDVTKNVSLTGGVDNLFDKRLWRAGNAQTTGDLAGANYIAGAGAYTYNEPGRTWYMSVNTHF" ["CCO-CE-BAC", "CCO-OUTER-MEM"] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"EG10297-MONOMER" "polysaccharide co-polymerase family protein FepE" ["FepE"] "MSSLNIKQGSDAHFPDYPLASPSNNEIDLLNLISVLWRAKKTVMAVVFAFACAGLLISFILPQKWTSAAVVTPPEPVQWQELEKSFTKLRVLDLDIKIDRTEAFNLFIKKFQSVSLLEEYLRSSPYVMDQLKEAKIDELDLHRAIVALSEKMKAVDDNASKKKDEPSLYTSWTLSFTAPTSEEAQTVLSGYIDYISTLVVKESLENVRNKLEIKTQFEKEKLAQDRIKTKNQLDANIQRLNYSLDIANAAGIKKPVYSNGQAVKDDPDFSISLGADGIERKLEIEKAVTDVAELNGELRNRQYLVEQLTKAHVNDVNFTPFKYQLSPSLPVKKDGPGKAIIVILSALIGGMVACGGVLLRYAMASRKQDAMMADHLV" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG10299-MONOMER" "ferric enterobactin esterase" ["Fes", "enterochelin esterase"] "MTALKVGSESWWQSKHGPEWQRLNDEMFEVTFWWRDPQGSEEYSTIKRVWVYITGVTDHHQNSQPQSMQRIAGTNVWQWTTQLNANWRGSYCFIPTERDDIFSVPSPDRLELREGWRKLLPQAIADPLNLQSWKGGRGHAVSALEMPQAPLQPGWDCPQAPEIPAKEIIWKSERLKKSRRVWIFTTGDATAEERPLAVLLDGEFWAQSMPVWPVLTSLTHRQQLPPAVYVLIDAIDTTHRAHELPCNADFWLAVQQELLPLVKAIAPFSDRADRTVVAGQSFGGLSALYAGLHWPERFGCVLSQSGSYWWPHRGGQQEGVLLEKLKAGEVSAEGLRIVLEAGIREPMIMRANQALYAQLHPIKESIFWRQVDGGHDALCWRGGLMQGLIDLWQPLFHDRS" [] ["CCO-CYTOSOL"] +"EG10300-MONOMER" "signal recognition particle protein component" ["Ffh", "P48"] "MFDNLTDRLSRTLRNISGRGRLTEDNVKDTLREVRMALLEADVALPVVREFINRVKEKAVGHEVNKSLTPGQEFVKIVRNELVAAMGEENQTLNLAAQPPAVVLMAGLQGAGKTTSVGKLGKFLREKHKKKVLVVSADVYRPAAIKQLETLAEQVGVDFFPSDVGQKPVDIVNAALKEAKLKFYDVLLVDTAGRLHVDEAMMDEIKQVHASINPVETLFVVDAMTGQDAANTAKAFNEALPLTGVVLTKVDGDARGGAALSIRHITGKPIKFLGVGEKTEALEPFHPDRIASRILGMGDVLSLIEDIESKVDRAQAEKLASKLKKGDGFDLNDFLEQLRQMKNMGGMASLMGKLPGMGQIPDNVKSQMDDKVLVRMEAIINSMTMKERAKPEIIKGSRKRRIAAGCGMQVQDVNRLLKQFDDMQRMMKKMKKGGMAKMMRSMKGMMPPGFPGR" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10302-MONOMER" "ferrichrome outer membrane transporter/phage receptor" ["TonA", "FhuA"] "MARSKTAQPKHSLRKIAVVVATAVSGMSVYAQAAVEPKEDTITVTAAPAPQESAWGPAATIAARQSATGTKTDTPIQKVPQSISVVTAEEMALHQPKSVKEALSYTPGVSVGTRGASNTYDHLIIRGFAAEGQSQNNYLNGLKLQGNFYNDAVIDPYMLERAEIMRGPVSVLYGKSSPGGLLNMVSKRPTTEPLKEVQFKAGTDSLFQTGFDFSDSLDDDGVYSYRLTGLARSANAQQKGSEEQRYAIAPAFTWRPDDKTNFTFLSYFQNEPETGYYGWLPKEGTVEPLPNGKRLPTDFNEGAKNNTYSRNEKMVGYSFDHEFNDTFTVRQNLRFAENKTSQNSVYGYGVCSDPANAYSKQCAALAPADKGHYLARKYVVDDEKLQNFSVDTQLQSKFATGDIDHTLLTGVDFMRMRNDINAWFGYDDSVPLLNLYNPVNTDFDFNAKDPANSGPYRILNKQKQTGVYVQDQAQWDKVLVTLGGRYDWADQESLNRVAGTTDKRDDKQFTWRGGVNYLFDNGVTPYFSYSESFEPSSQVGKDGNIFAPSKGKQYEVGVKYVPEDRPIVVTGAVYNLTKTNNLMADPEGSFFSVEGGEIRARGVEIEAKAALSASVNVVGSYTYTDAEYTTDTTYKGNTPAQVPKHMASLWADYTFFDGPLSGLTLGTGGRYTGSSYGDPANSFKVGSYTVVDALVRYDLARVGMAGSNVALHVNNLFDREYVASCFNTYGCFWGAERQVVATATFRF" ["CCO-OUTER-MEM"] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"EG10306-MONOMER" "ferric coprogen/ferric rhodotorulic acid outer membrane transporter" ["FhuE", "ferric coprogen outer membrane receptor"] "MLSTQFNRDNQYQAITKPSLLAGCIALALLPSAAFAAPATEETVIVEGSATAPDDGENDYSVTSTSAGTKMQMTQRDIPQSVTIVSQQRMEDQQLQTLGEVMENTLGISKSQADSDRALYYSRGFQIDNYMVDGIPTYFESRWNLGDALSDMALFERVEVVRGATGLMTGTGNPSAAINMVRKHATSREFKGDVSAEYGSWNKERYVADLQSPLTEDGKIRARIVGGYQNNDSWLDRYNSEKTFFSGIVDADLGDLTTLSAGYEYQRIDVNSPTWGGLPRWNTDGSSNSYDRARSTAPDWAYNDKEINKVFMTLKQQFADTWQATLNATHSEVEFDSKMMYVDAYVNKADGMLVGPYSNYGPGFDYVGGTGWNSGKRKVDALDLFADGSYELFGRQHNLMFGGSYSKQNNRYFSSWANIFPDEIGSFYNFNGNFPQTDWSPQSLAQDDTTHMKSLYAATRVTLADPLHLILGARYTNWRVDTLTYSMEKNHTTPYAGLVFDINDNWSTYASYTSIFQPQNDRDSSGKYLAPITGNNYELGLKSDWMNSRLTTTLAIFRIEQDNVAQSTGTPIPGSNGETAYKAVDGTVSKGVEFELNGAITDNWQLTFGATRYIAEDNEGNAVNPNLPRTTVKMFTSYRLPVMPELTVGGGVNWQNRVYTDTVTPYGTFRAEQGSYALVDLFTRYQVTKNFSLQGNVNNLFDKTYDTNVEGSIVYGTPRNFSITGTYQF" ["CCO-OUTER-MEM"] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"EG10307-MONOMER" "putative adenosine monophosphate—protein transferase Fic" ["FicT", "Fic", "stationary-phase protein"] "MSDKFGEGRDPYLYPGLDIMRNRLNIRQQQRLEQAAYEMTALRAATIELGPLVRGLPHLRTIHRQLYQDIFDWAGQLREVDIYQGDTPFCHFAYIEKEGNALMQDLEEEGYLVGLEKAKFVERLAHYYCEINVLHPFRVGSGLAQRIFFEQLAIHAGYQLSWQGIEKEAWNQANQSGAMGDLTALQMIFSKVVSEAGESE" [] ["CCO-CYTOSOL"] +"EG10308-MONOMER" "type 1 fimbriae major subunit" ["PilA", "FimD", "FimA"] "MKIKTLAIVVLSALSLSSTAALAAATTVNGGTVHFKGEVVNAACAVDAGSVDQTVQLGQVRTASLAQEGATSSAVGFNIQLNDCDTNVASKAAVAFLGTAIDAGHTNVLALQSSAAGSATNVGVQILDRTGAALTLDGATFSSETTLNNGTNTIPFQARYFATGAATPGAANADATFKVQYQ" [] ["CCO-EXTRACELLULAR", "CCO-PILUS"] +"EG10309-MONOMER" "regulator for fimA" ["Pil", "FimB"] "MKNKADNKKRNFLTHSEIESLLKAANTGPHAARNYCLTLLCFIHGFRASEICRLRISDIDLKAKCIYIHRLKKGFSTTHPLLNKEVQALKNWLSIRTSYPHAESEWVFLSRKGNPLSRQQFYHIISTSGGNAGLSLEIHPHMLRHSCGFALANMGIDTRLIQDYLGHRNIRHTVWYTASNAGRFYGIWDRARGRQRHAVL" [] ["CCO-CYTOSOL"] +"EG10310-MONOMER" "type 1 fimbriae periplasmic chaperone" ["PilB", "FimC"] "MSNKNVNVRKSQEITFCLLAGILMFMAMMVAGRAEAGVALGATRVIYPAGQKQEQLAVTNNDENSTYLIQSWVENADGVKDGRFIVTPPLFAMKGKKENTLRILDATNNQLPQDRESLFWMNVKAIPSMDKSKLTENTLQLAIISRIKLYYRPAKLALPPDQAAEKLRFRRSANSLTLINPTPYYLTVTELNAGTRVLENALVPPMGESTVKLPSDAGSNITYRTINDYGALTPKMTGVME" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"EG10311-MONOMER" "type I fimbriae usher protein" ["FimD_1", "FimD", "FimD_2", "FimD usher"] "MSYLNLRLYQRNTQCLHIRKHRLAGFFVRLVVACAFAAQAPLSSADLYFNPRFLADDPQAVADLSRFENGQELPPGTYRVDIYLNNGYMATRDVTFNTGDSEQGIVPCLTRAQLASMGLNTASVAGMNLLADDACVPLTTMVQDATAHLDVGQQRLNLTIPQAFMSNRARGYIPPELWDPGINAGLLNYNFSGNSVQNRIGGNSHYAYLNLQSGLNIGAWRLRDNTTWSYNSSDRSSGSKNKWQHINTWLERDIIPLRSRLTLGDGYTQGDIFDGINFRGAQLASDDNMLPDSQRGFAPVIHGIARGTAQVTIKQNGYDIYNSTVPPGPFTINDIYAAGNSGDLQVTIKEADGSTQIFTVPYSSVPLLQREGHTRYSITAGEYRSGNAQQEKTRFFQSTLLHGLPAGWTIYGGTQLADRYRAFNFGIGKNMGALGALSVDMTQANSTLPDDSQHDGQSVRFLYNKSLNESGTNIQLVGYRYSTSGYFNFADTTYSRMNGYNIETQDGVIQVKPKFTDYYNLAYNKRGKLQLTVTQQLGRTSTLYLSGSHQTYWGTSNVDEQFQAGLNTAFEDINWTLSYSLTKNAWQKGRDQMLALNVNIPFSHWLRSDSKSQWRHASASYSMSHDLNGRMTNLAGVYGTLLEDNNLSYSVQTGYAGGGDGNSGSTGYATLNYRGGYGNANIGYSHSDDIKQLYYGVSGGVLAHANGVTLGQPLNDTVVLVKAPGAKDAKVENQTGVRTDWRGYAVLPYATEYRENRVALDTNTLADNVDLDNAVANVVPTRGAIVRAEFKARVGIKLLMTLTHNNKPLPFGAMVTSESSQSSGIVADNGQVYLSGMPLAGKVQVKWGEEENAHCVANYQLPPESQQQLLTQLSAECR" ["CCO-OUTER-MEM"] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"EG10312-MONOMER" "regulator for fimA" ["Hyp", "PilH", "FimE"] "MSKRRYLTGKEVQAMMQAVCYGATGARDYCLILLAYRHGMRISELLDLHYQDLDLNEGRINIRRLKNGFSTVHPLRFDEREAVERWTQERANWKGADRTDAIFISRRGSRLSRQQAYRIIRDAGIEAGTVTQTHPHMLRHACGYELAERGADTRLIQDYLGHRNIRHTVRYTASNAARFAGLWERNNLINEKLKREEV" [] ["CCO-CYTOSOL"] +"EG10313-MONOMER" "type 1 fimbriae minor subunit FimF" ["FimF"] "MRNKPFYLLCAFLWLAVSHALAADSTITIRGYVRDNGCSVAAESTNFTVDLMENAAKQFNNIGATTPVVPFRILLSPCGNAVSAVKVGFTGVADSHNANLLALENTVSAASGLGIQLLNEQQNQIPLNAPSSALSWTTLTPGKPNTLNFYARLMATQVPVTAGHINATATFTLEYQ" [] ["CCO-PILUS", "CCO-EXTRACELLULAR"] +"EG10314-MONOMER" "type 1 fimbriae minor subunit FimG" ["FimG"] "MKWCKRGYVLAAILALASATIQAADVTITVNGKVVAKPCTVSTTNATVDLGDLYSFSLMSAGAASAWHDVALELTNCPVGTSRVTASFSGAADSTGYYKNQGTAQNIQLELQDDSGNTLNTGATKTVQVDDSSQSAHFPLQVRALTVNGGATQGTIQAVISITYTYS" [] ["CCO-PILUS", "CCO-EXTRACELLULAR"] +"EG10315-MONOMER" "type 1 fimbriae D-mannose specific adhesin" ["PilE", "FimH", "type 1 fimbrin minor protein"] "MKRVITLFAVLLMGWSVNAWSFACKTANGTAIPIGGGSANVYVNLAPVVNVGQNLVVDLSTQIFCHNDYPETITDYVTLQRGSAYGGVLSNFSGTVKYSGSSYPFPTTSETPRVVYNSRTDKPWPVALYLTPVSSAGGVAIKAGSLIAVLILRQTNNYNSDDFQFVWNIYANNDVVVPTGGCDVSARDVTVTLPDYPGSVPIPLTVYCAKSQNLGYYLSGTTADAGNSIFTNTASFSPAQGVGVQLTRNGTIIPANNTVSLGAVGTSAVSLGLTANYARTGGQVTAGNVQSIIGVTFVYQ" ["CCO-PILUS"] ["CCO-EXTRACELLULAR", "CCO-PILUS"] +"EG10320-MONOMER" "DNA-binding transcriptional dual regulator FlhD" ["FlbB", "FlhD"] "MHTSELLKHIYDINLSYLLLAQRLIVQDKASAMFRLGINEEMATTLAALTLPQMVKLAETNQLVCHFRFDSHQTITQLTQDSRVDDLQQIHTGIMLSTRLLNDVNQPEEALRKKRA" [] ["CCO-CYTOSOL"] +"EG10321-MONOMER" "flagellar filament structural protein" ["Hag", "FlaF", "FliC", "flagellin"] "MAQVINTNSLSLITQNNINKNQSALSSSIERLSSGLRINSAKDDAAGQAIANRFTSNIKGLTQAARNANDGISVAQTTEGALSEINNNLQRVRELTVQATTGTNSESDLSSIQDEIKSRLDEIDRVSGQTQFNGVNVLAKNGSMKIQVGANDNQTITIDLKQIDAKTLGLDGFSVKNNDTVTTSAPVTAFGATTTNNIKLTGITLSTEAATDTGGTNPASIEGVYTDNGNDYYAKITGGDNDGKYYAVTVANDGTVTMATGATANATVTDANTTKATTITSGGTPVQIDNTAGSATANLGAVSLVKLQDSKGNDTDTYALKDTNGNLYAADVNETTGAVSVKTITYTDSSGAASSPTAVKLGGDDGKTEVVDIDGKTYDSADLNGGNLQTGLTAGGEALTAVANGKTTDPLKALDDAIASVDKFRSSLGAVQNRLDSAVTNLNNTTTNLSEAQSRIQDADYATEVSNMSKAQIIQQAGNSVLAKANQVPQQVLSLLQG" [] ["CCO-EXTRACELLULAR", "CCO-CELL-PROJECTION"] +"EG10322-MONOMER" "flagellar protein FliL" ["FliL"] "MTDYAISKKSKRSLWIPILVFITLAACASAGYSYWHSHQVAADDKAQQRVVPSPVFYALDTFTVNLGDADRVLYIGITLRLKDEATRSRLSEYLPEVRSRLLLLFSRQDAAVLATEEGKKNLIAEIKTTLSTPLVAGQPKQDVTDVLYTAFILR" [] ["CCO-CELL-PROJECTION", "CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG10329-MONOMER" "DNA-formamidopyrimidine glycosylase" ["Fpg", "MutM", "8-oxoguanine DNA glycosylase"] "MPELPEVETSRRGIEPHLVGATILHAVVRNGRLRWPVSEEIYRLSDQPVLSVQRRAKYLLLELPEGWIIIHLGMSGSLRILPEELPPEKHDHVDLVMSNGKVLRYTDPRRFGAWLWTKELEGHNVLTHLGPEPLSDDFNGEYLHQKCAKKKTAIKPWLMDNKLVVGVGNIYASESLFAAGIHPDRLASSLSLAECELLARVIKAVLLRSIEQGGTTLKDFLQSDGKPGYFAQELQVYGRKGEPCRVCGTPIVATKHAQRATFYCRQCQK" [] ["CCO-CYTOSOL"] +"EG10335-MONOMER" "ribosome-recycling factor" ["Rrf", "Frr", "ribosome release factor", "RF4", "release factor 4", "RR factor"] "MISDIRKDAEVRMDKCVEAFKTQISKIRTGRASPSLLDGIVVEYYGTPTPLRQLASVTVEDSRTLKINVFDRSMSPAVEKAIMASDLGLNPNSAGSDIRVPLPPLTEERRKDLTKIVRGEAEQARVAVRNVRRDANDKVKALLKDKEISEDDDRRSQDDVQKLTDAAIKKIEAALADKEAELMQF" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10339-MONOMER" "cell division protein FtsA" ["DivA", "FtsA", "essential cell division protein FtsA"] "MIKATDRKLVVGLEIGTAKVAALVGEVLPDGMVNIIGVGSCPSRGMDKGGVNDLESVVKCVQRAIDQAELMADCQISSVYLALSGKHISCQNEIGMVPISEEEVTQEDVENVVHTAKSVRVRDEHRVLHVIPQEYAIDYQEGIKNPVGLSGVRMQAKVHLITCHNDMAKNIVKAVERCGLKVDQLIFAGLASSYSVLTEDERELGVCVVDIGGGTMDIAVYTGGALRHTKVIPYAGNVVTSDIAYAFGTPPSDAEAIKVRHGCALGSIVGKDESVEVPSVGGRPPRSLQRQTLAEVIEPRYTELLNLVNEEILQLQEKLRQQGVKHHLAAGIVLTGGAAQIEGLAACAQRVFHTQVRIGAPLNITGLTDYAQEPYYSTAVGLLHYGKESHLNGEAEVEKRVTASVGSWIKRLNSWLRKEF" ["CCO-CYTOSOL", "CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-CYTOSOL", "CCO-PM-BAC-NEG"] +"EG10341-MONOMER" "peptidoglycan DD-transpeptidase FtsI" ["Sep", "PbpB", "FtsI", "PBP3", "essential cell division protein FtsI", "penicillin-binding protein 3"] "MKAAAKTQKPKRQEEHANFISWRFALLCGCILLALAFLLGRVAWLQVISPDMLVKEGDMRSLRVQQVSTSRGMITDRSGRPLAVSVPVKAIWADPKEVHDAGGISVGDRWKALANALNIPLDQLSARINANPKGRFIYLARQVNPDMADYIKKLKLPGIHLREESRRYYPSGEVTAHLIGFTNVDSQGIEGVEKSFDKWLTGQPGERIVRKDRYGRVIEDISSTDSQAAHNLALSIDERLQALVYRELNNAVAFNKAESGSAVLVDVNTGEVLAMANSPSYNPNNLSGTPKEAMRNRTITDVFEPGSTVKPMVVMTALQRGVVRENSVLNTIPYRINGHEIKDVARYSELTLTGVLQKSSNVGVSKLALAMPSSALVDTYSRFGLGKATNLGLVGERSGLYPQKQRWSDIERATFSFGYGLMVTPLQLARVYATIGSYGIYRPLSITKVDPPVPGERVFPESIVRTVVHMMESVALPGGGGVKAAIKGYRIAIKTGTAKKVGPDGRYINKYIAYTAGVAPASQPRFALVVVINDPQAGKYYGGAVSAPVFGAIMGGVLRTMNIEPDALTTGDKNEFVINQGEGTGGRS" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG10342-MONOMER" "cell division protein FtsQ" ["FtsQ", "essential cell division protein FtsQ"] "MSQAALNTRNSEEEVSSRRNNGTRLAGILFLLTVLTTVLVSGWVVLGWMEDAQRLPLSKLVLTGERHYTRNDDIRQSILALGEPGTFMTQDVNIIQTQIEQRLPWIKQVSVRKQWPDELKIHLVEYVPIARWNDQHMVDAEGNTFSVPPERTSKQVLPMLYGPEGSANEVLQGYREMGQMLAKDRFTLKEAAMTARRSWQLTLNNDIKLNLGRGDTMKRLARFVELYPVLQQQAQTDGKRISYVDLRYDSGAAVGWAPLPPEESTQQQNQAQAEQQ" ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG10343-MONOMER" "16S rRNA m2G966 methyltransferase" ["YhhF", "RsmD"] "MKKPNHSGSGQIRIIGGQWRGRKLPVPDSPGLRPTTDRVRETLFNWLAPVIVDAQCLDCFAGSGALGLEALSRYAAGATLIEMDRAVSQQLIKNLATLKAGNARVVNSNAMSFLAQKGTPHNIVFVDPPFRRGLLEETINLLEDNGWLADEALIYVESEVENGLPTVPANWSLHREKVAGQVAYRLYQREAQGESDAD" [] ["CCO-CYTOSOL"] +"EG10344-MONOMER" "essential cell division protein FtsW" ["FtsW", "putative lipid II flippase FtsW"] "MRLSLPRLKMPRLPGFSILVWISTALKGWVMGSREKDTDSLIMYDRTLLWLTFGLAAIGFIMVTSASMPIGQRLTNDPFFFAKRDGVYLILAFILAIITLRLPMEFWQRYSATMLLGSIILLMIVLVVGSSVKGASRWIDLGLLRIQPAELTKLSLFCYIANYLVRKGDEVRNNLRGFLKPMGVILVLAVLLLAQPDLGTVVVLFVTTLAMLFLAGAKLWQFIAIIGMGISAVVLLILAEPYRIRRVTAFWNPWEDPFGSGYQLTQSLMAFGRGELWGQGLGNSVQKLEYLPEAHTDFIFAIIGEELGYVGVVLALLMVFFVAFRAMSIGRKALEIDHRFSGFLACSIGIWFSFQALVNVGAAAGMLPTKGLTLPLISYGGSSLLIMSTAIMMLLRIDYETRLEKAQAFVRGSR" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG10346-MONOMER" "signal recognition particle receptor" ["FtsY", "SRP receptor"] "MAKEKKRGFFSWLGFGQKEQTPEKETEVQNEQPVVEEIVQAQEPVKASEQAVEEQPQAHTEAEAETFAADVVEVTEQVAESEKAQPEAEVVAQPEPVVEETPEPVAIEREELPLPEDVNAEAVSPEEWQAEAETVEIVEAAEEEAAKEEITDEELETALAAEAAEEAVMVVPPAEEEQPVEEIAQEQEKPTKEGFFARLKRSLLKTKENLGSGFISLFRGKKIDDDLFEELEEQLLIADVGVETTRKIITNLTEGASRKQLRDAEALYGLLKEEMGEILAKVDEPLNVEGKAPFVILMVGVNGVGKTTTIGKLARQFEQQGKSVMLAAGDTFRAAAVEQLQVWGQRNNIPVIAQHTGADSASVIFDAIQAAKARNIDVLIADTAGRLQNKSHLMEELKKIVRVMKKLDVEAPHEVMLTIDASTGQNAVSQAKLFHEAVGLTGITLTKLDGTAKGGVIFSVADQFGIPIRYIGVGERIEDLRPFKADDFIEALFARED" ["CCO-CYTOSOL", "CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-CYTOSOL", "CCO-PM-BAC-NEG"] +"EG10347-MONOMER" "cell division protein FtsZ" ["SulB", "SfiB", "FtsZ", "essential cell division protein FtsZ"] "MFEPMELTNDAVIKVIGVGGGGGNAVEHMVRERIEGVEFFAVNTDAQALRKTAVGQTIQIGSGITKGLGAGANPEVGRNAADEDRDALRAALEGADMVFIAAGMGGGTGTGAAPVVAEVAKDLGILTVAVVTKPFNFEGKKRMAFAEQGITELSKHVDSLITIPNDKLLKVLGRGISLLDAFGAANDVLKGAVQGIAELITRPGLMNVDFADVRTVMSEMGYAMMGSGVASGEDRAEEAAEMAISSPLLEDIDLSGARGVLVNITAGFDLRLDEFETVGNTIRAFASDNATVVIGTSLDPDMNDELRVTVVATGIGMDKRPEITLVTNKQVQQPVMDRYQQHGMAPLTQEQKPVAKVVNDNAPQTAKEPDYLDIPAFLRKQAD" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10355-MONOMER" "L-fucose mutarotase" ["FucU"] "MLKTISPLISPELLKVLAEMGHGDEIIFSDAHFPAHSMGPQVIRADGLLVSDLLQAIIPLFELDSYAPPLVMMAAVEGDTLDPEVERRYRNALSLQAPCPDIIRINRFAFYERAQKAFAIVITGERAKYGNILLKKGVTP" [] ["CCO-CYTOSOL"] +"EG10360-MONOMER" "elongation factor G" ["Fus", "Far", "FusA", "EF-G"] "MARTTPIARYRNIGISAHIDAGKTTTTERILFYTGVNHKIGEVHDGAATMDWMEQEQERGITITSAATTAFWSGMAKQYEPHRINIIDTPGHVDFTIEVERSMRVLDGAVMVYCAVGGVQPQSETVWRQANKYKVPRIAFVNKMDRMGANFLKVVNQIKTRLGANPVPLQLAIGAEEHFTGVVDLVKMKAINWNDADQGVTFEYEDIPADMVELANEWHQNLIESAAEASEELMEKYLGGEELTEAEIKGALRQRVLNNEIILVTCGSAFKNKGVQAMLDAVIDYLPSPVDVPAINGILDDGKDTPAERHASDDEPFSALAFKIATDPFVGNLTFFRVYSGVVNSGDTVLNSVKAARERFGRIVQMHANKREEIKEVRAGDIAAAIGLKDVTTGDTLCDPDAPIILERMEFPEPVISIAVEPKTKADQEKMGLALGRLAKEDPSFRVWTDEESNQTIIAGMGELHLDIIVDRMKREFNVEANVGKPQVAYRETIRQKVTDVEGKHAKQSGGRGQYGHVVIDMYPLEPGSNPKGYEFINDIKGGVIPGEYIPAVDKGIQEQLKAGPLAGYPVVDMGIRLHFGSYHDVDSSELAFKLAASIAFKEGFKKAKPVLLEPIMKVEVETPEENTGDVIGDLSRRRGMLKGQESEVTGVKIHAEVPLSEMFGYATQLRSLTKGRASYTMEFLKYDEAPSNVAQAVIEARGK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10370-MONOMER" "(E)-4-hydroxy-3-methylbut-2-enyl-diphosphate synthase (flavodoxin)" ["GcpE", "IspG", "flavodoxin-dependent (E)-4-hydroxy-3-methylbut-2-enyl-diphosphate synthase"] "MHNQAPIQRRKSTRIYVGNVPIGDGAPIAVQSMTNTRTTDVEATVNQIKALERVGADIVRVSVPTMDAAEAFKLIKQQVNVPLVADIHFDYRIALKVAEYGVDCLRINPGNIGNEERIRMVVDCARDKNIPIRIGVNAGSLEKDLQEKYGEPTPQALLESAMRHVDHLDRLNFDQFKVSVKASDVFLAVESYRLLAKQIDQPLHLGITEAGGARSGAVKSAIGLGLLLSEGIGDTLRVSLAADPVEEIKVGFDILKSLRIRSRGINFIACPTCSRQEFDVIGTVNALEQRLEDIITPMDVSIIGCVVNGPGEALVSTLGVTGGNKKSGLYEDGVRKDRLDNNDMIDQLEARIRAKASQLDEARRIDVQQVEK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10373-MONOMER" "regulatory protein MokC" ["MokC", "GefL", "regulatory peptide whose translation enables hokC (gef) expression"] "MLNTCRVPLTDRKVKEKRAMKQHKAMIVALIVICITAVVAALVTRKDLCEVHIRTGQTEVAVFTAYESE" [] ["CCO-PERI-BAC", "CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG10374-MONOMER" "glutathione hydrolase proenzyme" ["Ggt", "γ-glutamyltranspeptidase", "γ-glutamyl hydrolase"] "MIKPTFLRRVAIAALLSGSCFSAAAAPPAPPVSYGVEEDVFHPVRAKQGMVASVDATATQVGVDILKEGGNAVDAAVAVGYALAVTHPQAGNLGGGGFMLIRSKNGNTTAIDFREMAPAKATRDMFLDDQGNPDSKKSLTSHLASGTPGTVAGFSLALDKYGTMPLNKVVQPAFKLARDGFIVNDALADDLKTYGSEVLPNHENSKAIFWKEGEPLKKGDTLVQANLAKSLEMIAENGPDEFYKGTIAEQIAQEMQKNGGLITKEDLAAYKAVERTPISGDYRGYQVYSMPPPSSGGIHIVQILNILENFDMKKYGFGSADAMQIMAEAEKYAYADRSEYLGDPDFVKVPWQALTNKAYAKSIADQIDINKAKPSSEIRPGKLAPYESNQTTHYSVVDKDGNAVAVTYTLNTTFGTGIVAGESGILLNNQMDDFSAKPGVPNVYGLVGGDANAVGPNKRPLSSMSPTIVVKDGKTWLVTGSPGGSRIITTVLQMVVNSIDYGLNVAEATNAPRFHHQWLPDELRVEKGFSPDTLKLLEAKGQKVALKEAMGSTQSIMVGPDGELYGASDPRSVDDLTAGY" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"EG10375-MONOMER" "5-carboxymethylaminomethyluridine-tRNA synthase subunit MnmG" ["GidA", "MnmG", "protein involved in modification of U34 in tRNA", "TrmF"] "MFYPDPFDVIIIGGGHAGTEAAMAAARMGQQTLLLTHNIDTLGQMSCNPAIGGIGKGHLVKEVDALGGLMAKAIDQAGIQFRILNASKGPAVRATRAQADRVLYRQAVRTALENQPNLMIFQQAVEDLIVENDRVVGAVTQMGLKFRAKAVVLTVGTFLDGKIHIGLDNYSGGRAGDPPSIPLSRRLRELPLRVGRLKTGTPPRIDARTIDFSVLAQQHGDNPMPVFSFMGNASQHPQQVPCYITHTNEKTHDVIRSNLDRSPMYAGVIEGVGPRYCPSIEDKVMRFADRNQHQIFLEPEGLTSNEIYPNGISTSLPFDVQMQIVRSMQGMENAKIVRPGYAIEYDFFDPRDLKPTLESKFIQGLFFAGQINGTTGYEEAAAQGLLAGLNAARLSADKEGWAPARSQAYLGVLVDDLCTLGTKEPYRMFTSRAEYRLMLREDNADLRLTEIGRELGLVDDERWARFNEKLENIERERQRLKSTWVTPSAEAAAEVNAHLTAPLSREASGEDLLRRPEMTYEKLTTLTPFAPALTDEQAAEQVEIQVKYEGYIARQQDEIEKQLRNENTLLPATLDYRQVSGLSNEVIAKLNDHKPASIGQASRISGVTPAAISILLVWLKKQGMLRRSA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10376-MONOMER" "16S rRNA m7G527 methyltransferase" ["GidB", "RsmG", "rRNA small subunit 7-methylguanosine (m7G) methyltransferase", "ribosomal RNA small subunit methyltransferase G"] "MLNKLSLLLKDAGISLTDHQKNQLIAYVNMLHKWNKAYNLTSVRDPNEMLVRHILDSIVVAPYLQGERFIDVGTGPGLPGIPLSIVRPEAHFTLLDSLGKRVRFLRQVQHELKLENIEPVQSRVEEFPSEPPFDGVISRAFASLNDMVSWCHHLPGEQGRFYALKGQMPEDEIALLPEEYQVESVVKLQVPALDGERHLVVIKANKI" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10381-MONOMER" null ["GlgX"] "MTQLAIGKPAPLGAHYDGQGVNFTLFSAHAERVELCVFDANGQEHRYDLPGHSGDIWHGYLPDARPGLRYGYRVHGPWQPAEGHRFNPAKLLIDPCARQIDGEFKDNPLLHAGHNEPDYRDNAAIAPKCVVVVDHYDWEDDAPPRTPWGSTIIYEAHVKGLTYLHPEIPVEIRGTYKALGHPVMINYLKQLGITALELLPVAQFASEPRLQRMGLSNYWGYNPVAMFALHPAYACSPETALDEFRDAIKALHKAGIEVILDIVLNHSAELDLDGPLFSLRGIDNRSYYWIREDGDYHNWTGCGNTLNLSHPAVVDYASACLRYWVETCHVDGFRFDLAAVMGRTPEFRQDAPLFTAIQNCPVLSQVKLIAEPWDIAPGGYQVGNFPPLFAEWNDHFRDAARRFWLHYDLPLGAFAGRFAASSDVFKRNGRLPSAAINLVTAHDGFTLRDCVCFNHKHNEANGEENRDGTNNNYSNNHGKEGLGGSLDLVERRRDSIHALLTTLLLSQGTPMLLAGDEHGHSQHGNNNAYCQDNQLTWLDWSQASSGLTAFTAALIHLRKRIPALVENRWWEEGDGNVRWLNRYAQPLSTDEWQNGPKQLQILLSDRFLIAINATLEVTEIVLPAGEWHAIPPFAGEDNPVITAVWQGPAHGLCVFQR" [] ["CCO-CYTOSOL"] +"EG10395-MONOMER" "thiosulfate sulfurtransferase GlpE" ["GlpE"] "MDQFECINVADAHQKLQEKEAVLVDIRDPQSFAMGHAVQAFHLTNDTLGAFMRDNDFDTPVMVMCYHGNSSKGAAQYLLQQGYDVVYSIDGGFEAWQRQFPAEVAYGA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10397-MONOMER" "rhomboid protease GlpG" ["GlpG", "intramembrane serine protease"] "MLMITSFANPRVAQAFVDYMATQGVILTIQQHNQSDVWLADESQAERVRAELARFLENPADPRYLAASWQAGHTGSGLHYRRYPFFAALRERAGPVTWVMMIACVVVFIAMQILGDQEVMLWLAWPFDPTLKFEFWRYFTHALMHFSLMHILFNLLWWWYLGGAVEKRLGSGKLIVITLISALLSGYVQQKFSGPWFGGLSGVVYALMGYVWLRGERDPQSGIYLQRGLIIFALIWIVAGWFDLFGMSMANGAHIAGLAVGLAMAFVDSLNARKRK" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG10415-MONOMER" "transcription elongation factor GreA" ["GreA"] "MQAIPMTLRGAEKLREELDFLKSVRRPEIIAAIAEAREHGDLKENAEYHAAREQQGFCEGRIKDIEAKLSNAQVIDVTKMPNNGRVIFGATVTVLNLDSDEEQTYRIVGDDEADFKQNLISVNSPIARGLIGKEEDDVVVIKTPGGEVEFEVIKVEYL" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10416-MONOMER" "nucleotide exchange factor GrpE" ["GrpE", "heat shock protein GrpE"] "MSSKEQKTPEGQAPEEIIMDQHEEIEAVEPEASAEQVDPRDEKVANLEAQLAEAQTRERDGILRVKAEMENLRRRTELDIEKAHKFALEKFINELLPVIDSLDRALEVADKANPDMSAMVEGIELTLKSMLDVVRKFGVEVIAETNVPLDPNVHQAIAMVESDDVAPGNVLGIMQKGYTLNGRTIRAAMVTVAKAKA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10423-MONOMER" "DNA gyrase subunit A" ["ParD", "NorA", "NfxA", "NalA", "HisW", "GyrA"] "MSDLAREITPVNIEEELKSSYLDYAMSVIVGRALPDVRDGLKPVHRRVLYAMNVLGNDWNKAYKKSARVVGDVIGKYHPHGDSAVYDTIVRMAQPFSLRYMLVDGQGNFGSIDGDSAAAMRYTEIRLAKIAHELMADLEKETVDFVDNYDGTEKIPDVMPTKIPNLLVNGSSGIAVGMATNIPPHNLTEVINGCLAYIDDEDISIEGLMEHIPGPDFPTAAIINGRRGIEEAYRTGRGKVYIRARAEVEVDAKTGRETIIVHEIPYQVNKARLIEKIAELVKEKRVEGISALRDESDKDGMRIVIEVKRDAVGEVVLNNLYSQTQLQVSFGINMVALHHGQPKIMNLKDIIAAFVRHRREVVTRRTIFELRKARDRAHILEALAVALANIDPIIELIRHAPTPAEAKTALVANPWQLGNVAAMLERAGDDAARPEWLEPEFGVRDGLYYLTEQQAQAILDLRLQKLTGLEHEKLLDEYKELLDQIAELLRILGSADRLMEVIREELELVREQFGDKRRTEITANSADINLEDLITQEDVVVTLSHQGYVKYQPLSEYEAQRRGGKGKSAARIKEEDFIDRLLVANTHDHILCFSSRGRVYSMKVYQLPEATRGARGRPIVNLLPLEQDERITAILPVTEFEEGVKVFMATANGTVKKTVLTEFNRLRTAGKVAIKLVDGDELIGVDLTSGEDEVMLFSAEGKVVRFKESSVRAMGCNTTGVRGIRLGEGDKVVSLIVPRGDGAILTATQNGYGKRTAVAEYPTKSRATKGVISIKVTERNGLVVGAVQVDDCDQIMMITDAGTLVRTRVSEISIVGRNTQGVILIRTAEDENVVGLQRVAEPVDEEDLDTIDGSAAEGDDEIAPEVDVDDEPEEE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10424-MONOMER" "DNA gyrase subunit B" ["NalC", "ParA", "PcbA", "PcpA", "HopA", "Cou", "HisU", "HimB", "AcrB", "GyrB"] "MSNSYDSSSIKVLKGLDAVRKRPGMYIGDTDDGTGLHHMVFEVVDNAIDEALAGHCKEIIVTIHADNSVSVQDDGRGIPTGIHPEEGVSAAEVIMTVLHAGGKFDDNSYKVSGGLHGVGVSVVNALSQKLELVIQREGKIHRQIYEHGVPQAPLAVTGETEKTGTMVRFWPSLETFTNVTEFEYEILAKRLRELSFLNSGVSIRLRDKRDGKEDHFHYEGGIKAFVEYLNKNKTPIHPNIFYFSTEKDGIGVEVALQWNDGFQENIYCFTNNIPQRDGGTHLAGFRAAMTRTLNAYMDKEGYSKKAKVSATGDDAREGLIAVVSVKVPDPKFSSQTKDKLVSSEVKSAVEQQMNELLAEYLLENPTDAKIVVGKIIDAARAREAARRAREMTRRKGALDLAGLPGKLADCQERDPALSELYLVEGDSAGGSAKQGRNRKNQAILPLKGKILNVEKARFDKMLSSQEVATLITALGCGIGRDEYNPDKLRYHSIIIMTDADVDGSHIRTLLLTFFYRQMPEIVERGHVYIAQPPLYKVKKGKQEQYIKDDEAMDQYQISIALDGATLHTNASAPALAGEALEKLVSEYNATQKMINRMERRYPKAMLKELIYQPTLTEADLSDEQTVTRWVNALVSELNDKEQHGSQWKFDVHTNAEQNLFEPIVRVRTHGVDTDYPLDHEFITGGEYRRICTLGEKLRGLLEEDAFIERGERRQPVASFEQALDWLVKESRRGLSIQRYKGLGEMNPEQLWETTMDPESRRMLRVTVKDAIAADQLFTTLMGDAVEPRRAFIEENALKAANIDI" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10426-MONOMER" "DNA helicase IV" ["SrjB", "HelD"] "MELKATTLGKRLAQHPYDRAVILNAGIKVSGDRHEYLIPFNQLLAIHCKRGLVWGELEFVLPDEKVVRLHGTEWGETQRFYHHLDAHWRRWSGEMSEIASGVLRQQLDLIATRTGENKWLTREQTSGVQQQIRQALSALPLPVNRLEEFDNCREAWRKCQAWLKDIESARLQHNQAYTEAMLTEYADFFRQVESSPLNPAQARAVVNGEHSLLVLAGAGSGKTSVLVARAGWLLARGEASPEQILLLAFGRKAAEEMDERIRERLHTEDITARTFHALALHIIQQGSKKVPIVSKLENDTAARHELFIAEWRKQCSEKKAQAKGWRQWLTEEMQWSVPEGNFWDDEKLQRRLASRLDRWVSLMRMHGGAQAEMIASAPEEIRDLFSKRIKLMAPLLKAWKGALKAENAVDFSGLIHQAIVILEKGRFISPWKHILVDEFQDISPQRAALLAALRKQNSQTTLFAVGDDWQAIYRFSGAQMSLTTAFHENFGEGERCDLDTTYRFNSRIGEVANRFIQQNPGQLKKPLNSLTNGDKKAVTLLDESQLDALLDKLSGYAKPEERILILARYHHMRPASLEKAATRWPKLQIDFMTIHASKGQQADYVIIVGLQEGSDGFPAAARESIMEEALLPPVEDFPDAEERRLMYVALTRARHRVWALFNKENPSPFVEILKNLDVPVARKP" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10434-MONOMER" "protein HemY" ["HemY"] "MLKVLLLFVLLIAGIVVGPMIAGHQGYVLIQTDNYNIETSVTGLAIILILAMVVLFAIEWLLRRIFRTGAHTRGWFVGRKRRRARKQTEQALLKLAEGDYQQVEKLMAKNADHAEQPVVNYLLAAEAAQQRGDEARANQHLERAAELAGNDTIPVEITRVRLQLARNENHAARHGVDKLLEVTPRHPEVLRLAEQAYIRTGAWSSLLDIIPSMAKAHVGDEEHRAMLEQQAWIGLMDQARADNGSEGLRNWWKNQSRKTRHQVALQVAMAEHLIECDDHDTAQQIIIDGLKRQYDDRLLLPIPRLKTNNPEQLEKVLRQQIKNVGDRPLLWSTLGQSLMKHGEWQEASLAFRAALKQRPDAYDYAWLADALDRLHKPEEAAAMRRDGLMLTLQNNPPQ" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG10435-MONOMER" "regulator of FtsH protease" ["HflA", "HflC"] "MRKSVIAIIIIVLVVLYMSVFVVKEGERGITLRFGKVLRDDDNKPLVYEPGLHFKIPFIETVKMLDARIQTMDNQADRFVTKEKKDLIVDSYIKWRISDFSRYYLATGGGDISQAEVLLKRKFSDRLRSEIGRLDVKDIVTDSRGRLTLEVRDALNSGSAGTEDEVTTPAADNAIAEAAERVTAETKGKVPVINPNSMAALGIEVVDVRIKQINLPTEVSEAIYNRMRAEREAVARRHRSQGQEEAEKLRATADYEVTRTLAEAERQGRIMRGEGDAEAAKLFADAFSKDPDFYAFIRSLRAYENSFSGNQDVMVMSPDSDFFRYMKTPTSATR" ["CCO-PM-BAC-NEG"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"EG10436-MONOMER" "regulator of FtsH protease" ["HslY", "HflA", "HflK"] "MAWNQPGNNGQDRDPWGSSKPGGNSEGNGNKGGRDQGPPDLDDIFRKLSKKLGGLGGGKGTGSGGGSSSQGPRPQLGGRVVTIAAAAIVIIWAASGFYTIKEAERGVVTRFGKFSHLVEPGLNWKPTFIDEVKPVNVEAVRELAASGVMLTSDENVVRVEMNVQYRVTNPEKYLYSVTSPDDSLRQATDSALRGVIGKYTMDRILTEGRTVIRSDTQRELEETIRPYDMGITLLDVNFQAARPPEEVKAAFDDAIAARENEQQYIREAEAYTNEVQPRANGQAQRILEEARAYKAQTILEAQGEVARFAKLLPEYKAAPEITRERLYIETMEKVLGNTRKVLVNDKGGNLMVLPLDQMLKGGNAPAAKSDNGASNLLRLPPASSSTTSGASNTSSTSQGDIMDQRRANAQRNDYQRQGE" ["CCO-CYTOSOL", "CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG10437-MONOMER" "ribosome rescue factor HflX" ["HflA", "HslX", "HflX", "ribosome-dissociating factor, GTPase"] "MFDRYDAGEQAVLVHIYFTQDKDMEDLQEFESLVSSAGVEALQVITGSRKAPHPKYFVGEGKAVEIAEAVKATGASVVLFDHALSPAQERNLERLCECRVIDRTGLILDIFAQRARTHEGKLQVELAQLRHLATRLVRGWTHLERQKGGIGLRGPGETQLETDRRLLRNRIVQIQSRLERVEKQREQGRQSRIKADVPTVSLVGYTNAGKSTLFNRITEARVYAADQLFATLDPTLRRIDVADVGETVLADTVGFIRHLPHDLVAAFKATLQETRQATLLLHVIDAADVRVQENIEAVNTVLEEIDAHEIPTLLVMNKIDMLEDFEPRIDRDEENKPNRVWLSAQTGAGIPQLFQALTERLSGEVAQHTLRLPPQEGRLRSRFYQLQAIEKEWMEEDGSVSLQVRMPIVDWRRLCKQEPALIDYLI" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10438-MONOMER" "RNA-binding protein Hfq" ["Hfq", "HF-I", "host factor I"] "MAKGQSLQDPFLNALRRERVPVSIYLVNGIKLQGQIESFDQFVILLKNTVSQMVYKHAISTVVPSRPVSHHSNNAGGGTSSNYHHGSSAQNTSAQQDSEETE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10439-MONOMER" "haemolysin expression-modulating protein Hha" ["Hha"] "MSEKPLTKTDYLMRLRRCQTIDTLERVIEKNKYELSDNELAVFYSAADHRLAELTMNKLYDKIPSSVWKFIR" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10442-MONOMER" "antitoxin/DNA-binding transcriptional repressor HipB" ["HipB"] "MMSFQKIYSPTQLANAMKLVRQQNGWTQSELAKKIGIKQATISNFENNPDNTTLTTFFKILQSLELSMTLCDAKNASPESTEQQNLEW" [] [] +"EG10443-MONOMER" "serine/threonine-protein kinase toxin HipA" ["HipA"] "MPKLVTWMNNQRVGELTKLANGAHTFKYAPEWLASRYARPLSLSLPLQRGNITSDAVFNFFDNLLPDSPIVRDRIVKRYHAKSRQPFDLLSEIGRDSVGAVTLIPEDETVTHPIMAWEKLTEARLEEVLTAYKADIPLGMIREENDFRISVAGAQEKTALLRIGNDWCIPKGITPTTHIIKLPIGEIRQPNATLDLSQSVDNEYYCLLLAKELGLNVPDAEIIKAGNVRALAVERFDRRWNAERTVLLRLPQEDMCQTFGLPSSVKYESDGGPGIARIMAFLMGSSEALKDRYDFMKFQVFQWLIGATDGHAKNFSVFIQAGGSYRLTPFYDIISAFPVLGGTGIHISDLKLAMGLNASKGKKTAIDKIYPRHFLATAKVLRFPEVQMHEILSDFARMIPAALDNVKTSLPTDFPENVVTAVESNVLRLHGRLSREYGSK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10454-MONOMER" "tRNA pseudouridine38-40 synthase" ["LeuK", "HisT", "AsuC", "TruA"] "MSDQQQPPVYKIALGIEYDGSKYYGWQRQNEVRSVQEKLEKALSQVANEPITVFCAGRTDAGVHGTGQVVHFETTALRKDAAWTLGVNANLPGDIAVRWVKTVPDDFHARFSATARRYRYIIYNHRLRPAVLSKGVTHFYEPLDAERMHRAAQCLLGENDFTSFRAVQCQSRTPWRNVMHINVTRHGPYVVVDIKANAFVHHMVRNIVGSLMEVGAHNQPESWIAELLAAKDRTLAAATAKAEGLYLVAVDYPDRYDLPKPPMGPLFLAD" [] ["CCO-CYTOSOL"] +"EG10455-MONOMER" "periplasmic chaperone Skp" ["FirA", "Skp", "OmpH", "HlpA", "HLP-I"] "MKKWLLAAGLGLALATSAQAADKIAIVNMGSLFQQVAQKTGVSNTLENEFKGRASELQRMETDLQAKMKKLQSMKAGSDRTKLEKDVMAQRQTFAQKAQAFEQDRARRSNEERGKLVTRIQTAVKSVANSQDIDLVVDANAVAYNSSDVKDITADVLKQVK" ["CCO-PERI-BAC"] ["CCO-OUTER-MEM", "CCO-PERI-BAC"] +"EG10456-MONOMER" "nitric oxide dioxygenase" ["Hmp", "FsrB", "HmpA", "flavohemoglobin", "flavohemoprotein"] "MLDAQTIATVKATIPLLVETGPKLTAHFYDRMFTHNPELKEIFNMSNQRNGDQREALFNAIAAYASNIENLPALLPAVEKIAQKHTSFQIKPEQYNIVGEHLLATLDEMFSPGQEVLDAWGKAYGVLANVFINREAEIYNENASKAGGWEGTRDFRIVAKTPRSALITSFELEPVDGGAVAEYRPGQYLGVWLKPEGFPHQEIRQYSLTRKPDGKGYRIAVKREEGGQVSNWLHNHANVGDVVKLVAPAGDFFMAVADDTPVTLISAGVGQTPMLAMLDTLAKAGHTAQVNWFHAAENGDVHAFADEVKELGQSLPRFTAHTWYRQPSEADRAKGQFDSEGLMDLSKLEGAFSDPTMQFYLCGPVGFMQFTAKQLVDLGVKQENIHYECFGPHKVL" [] ["CCO-CYTOSOL", "CCO-PERI-BAC"] +"EG10458-MONOMER" "type I restriction enzyme EcoKI methyltransferase component" ["Hsp", "Hsm", "HsdM", "host modification, DNA methylase M", "type I restriction enzyme EcoKI M protein"] "MNNNDLVAKLWKLCDNLRDGGVSYQNYVNELASLLFLKMCKETGQEAEYLPEGYRWDDLKSRIGQEQLQFYRKMLVHLGEDDKKLVQAVFHNVSTTITEPKQITALVSNMDSLDWYNGAHGKSRDDFGDMYEGLLQKNANETKSGAGQYFTPRPLIKTIIHLLKPQPREVVQDPAAGTAGFLIEADRYVKSQTNDLDDLDGDTQDFQIHRAFIGLELVPGTRRLALMNCLLHDIEGNLDHGGAIRLGNTLGSDGENLPKAHIVATNPPFGSAAGTNITRTFVHPTSNKQLCFMQHIIETLHPGGRAAVVVPDNVLFEGGKGTDIRRDLMDKCHLHTILRLPTGIFYAQGVKTNVLFFTKGTVANPNQDKNCTDDVWVYDLRTNMPSFGKRTPFTDEHLQPFERVYGEDPHGLSPRTEGEWSFNAEETEVADSEENKNTDQHLATSRWRKFSREWIRTAKSDSLDISWLKDKDSIDADSLPEPDVLAAEAMGELVQALSELDALMRELGASDEADLQRQLLEEAFGGVKE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10459-MONOMER" "type I restriction enzyme EcoKI endonuclease component" ["Hsr", "Hsp", "HsdR", "type I restriction enzyme EcoKI R protein", "host restriction endonuclease R"] "MMNKSNFEFLKGVNDFTYAIACAAENNYPDDPNTTLIKMRMFGEATAKHLGLLLNIPPCENQHDLLRELGKIAFVDDNILSVFHKLRRIGNQAVHEYHNDLNDAQMCLRLGFRLAVWYYRLVTKDYDFPVPVFVLPERGENLYHQEVLTLKQQLEQQVREKAQTQAEVEAQQQKLVALNGYIAILEGKQQETEAQTQARLAALEAQLAEKNAELAKQTEQERKAYHKEITDQAIKRTLNLSEEESRFLIDAQLRKAGWQADSKTLRFSKGARPEPGVNKAIAEWPTGKDETGNQGFADYVLFVGLKPIAVVEAKRNNIDVPARLNESYRYSKCFDNGFLRETLLEHYSPDEVHEAVPEYETSWQDTSGKQRFKIPFCYSTNGREYRATMKTKSGIWYRDVRDTRNMSKALPEWHRPEELLEMLGSEPQKQNQWFADNPGMSELGLRYYQEDAVRAVEKAIVKGQQEILLAMATGTGKTRTAIAMMFRLIQSQRFKRILFLVDRRSLGEQALGAFEDTRINGDTFNSIFDIKGLTDKFPEDSTKIHVATVQSLVKRTLQSDEPMPVARYDCIVVDEAHRGYILDKEQTEGELQFRSQLDYVSAYRRILDHFDAVKIALTATPALHTVQIFGEPVYRYTYRTAVIDGFLIDQDPPIQIITRNAQEGVYLSKGEQVERISPQGEVINDTLEDDQDFEVADFNRGLVIPAFNRAVCNELTNYLDPTGSQKTLVFCVTNAHADMVVEELRAAFKKKYPQLEHDAIIKITGDADKDARKVQTMITRFNKERLPNIVVTVDLLTTGVDIPSICNIVFLRKVRSRILYEQMKGRATRLCPEVNKTSFKIFDCVDIYSTLESVDTMRPVVVRPKVELQTLVNEITDSETYKITEADGRSFAEHSHEQLVAKLQRIIGLATFNRDRSETIDKQVRRLDELCQDAAGVNFNGFASRLREKGPHWSAEVFNKLPGFIARLEKLKTDINNLNDAPIFLDIDDEVVSVKSLYGDYDTPQDFLEAFDSLVQRSPNAQPALQAVINRPRDLTRKGLVELQEWFDRQHFEESSLRKAWKETRNEDIAARLIGHIRRAAVGDALKPFEERVDHALTRIKGENDWSSEQLSWLDRLAQALKEKVVLDDDVFKTGNFHRRGGKAMLQRTFDDNLDTLLGKFSDYIWDELA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10460-MONOMER" "type I restriction enzyme EcoKI specificity protein" ["Hss", "Hsp", "HsdS", "specificity determinant for hsdM and hsdR"] "MSAGKLPEGWVIAPVSTVTTLIRGVTYKKEQAINYLKDDYLPLIRANNIQNGKFDTTDLVFVPKNLVKESQKISPEDIVIAMSSGSKSVVGKSAHQHLPFECSFGAFCGVLRPEKLIFSGFIAHFTKSSLYRNKISSLSAGANINNIKPASFDLINIPIPPLAEQKIIAEKLDTLLAQVDSTKARFEQIPQILKRFRQAVLGGAVNGKLTEKWRNFEPQHSVFKKLNFESILTELRNGLSSKPNESGVGHPILRISSVRAGHVDQNDIRFLECSESELNRHKLQDGDLLFTRYNGSLEFVGVCGLLKKLQHQNLLYPDKLIRARLTKDALPEYIEIFFSSPSARNAMMNCVKTTSGQKGISGKDIKSQVVLLPPVKEQAEIVRRVEQLFAYADTIEKQVNNALARVNNLTQSILAKAFRGELTAQWRAENPDLISGENSAAALLEKIKAERAASGGKKASRKKS" [] ["CCO-CYTOSOL"] +"EG10461-MONOMER" "chaperone protein HtpG" ["HtpG", "C62.5", "Hsp90", "heat shock protein 90"] "MKGQETRGFQSEVKQLLHLMIHSLYSNKEIFLRELISNASDAADKLRFRALSNPDLYEGDGELRVRVSFDKDKRTLTISDNGVGMTRDEVIDHLGTIAKSGTKSFLESLGSDQAKDSQLIGQFGVGFYSAFIVADKVTVRTRAAGEKPENGVFWESAGEGEYTVADITKEDRGTEITLHLREGEDEFLDDWRVRSIISKYSDHIALPVEIEKREEKDGETVISWEKINKAQALWTRNKSEITDEEYKEFYKHIAHDFNDPLTWSHNRVEGKQEYTSLLYIPSQAPWDMWNRDHKHGLKLYVQRVFIMDDAEQFMPNYLRFVRGLIDSSDLPLNVSREILQDSTVTRNLRNALTKRVLQMLEKLAKDDAEKYQTFWQQFGLVLKEGPAEDFANQEAIAKLLRFASTHTDSSAQTVSLEDYVSRMKEGQEKIYYITADSYAAAKSSPHLELLRKKGIEVLLLSDRIDEWMMNYLTEFDGKPFQSVSKVDESLEKLADEVDESAKEAEKALTPFIDRVKALLGERVKDVRLTHRLTDTPAIVSTDADEMSTQMAKLFAAAGQKVPEVKYIFELNPDHVLVKRAADTEDEAKFSEWVELLLDQALLAERGTLEDPNLFIRRMNQLLVS" ["CCO-CYTOSOL"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE", "CCO-CYTOSOL"] +"EG10462-MONOMER" "protease HtpX" ["HtpX", "zinc dependent endoprotease"] "MMRIALFLLTNLAVMVVFGLVLSLTGIQSSSVQGLMIMALLFGFGGSFVSLLMSKWMALRSVGGEVIEQPRNERERWLVNTVATQARQAGIAMPQVAIYHAPDINAFATGARRDASLVAVSTGLLQNMSPDEAEAVIAHEISHIANGDMVTMTLIQGVVNTFVIFISRILAQLAAGFMGGNRDEGEESNGNPLIYFAVATVLELVFGILASIITMWFSRHREFHADAGSAKLVGREKMIAALQRLKTSYEPQEATSMMALCINGKSKSLSELFMTHPPLDKRIEALRTGEYLK" ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"EG10463-MONOMER" "periplasmic serine endoprotease DegP" ["Ptd", "protease Do", "HtrA", "DegP"] "MKKTTLALSALALSLGLALSPLSATAAETSSATTAQQMPSLAPMLEKVMPSVVSINVEGSTTVNTPRMPRNFQQFFGDDSPFCQEGSPFQSSPFCQGGQGGNGGGQQQKFMALGSGVIIDADKGYVVTNNHVVDNATVIKVQLSDGRKFDAKMVGKDPRSDIALIQIQNPKNLTAIKMADSDALRVGDYTVAIGNPFGLGETVTSGIVSALGRSGLNAENYENFIQTDAAINRGNSGGALVNLNGELIGINTAILAPDGGNIGIGFAIPSNMVKNLTSQMVEYGQVKRGELGIMGTELNSELAKAMKVDAQRGAFVSQVLPNSSAAKAGIKAGDVITSLNGKPISSFAALRAQVGTMPVGSKLTLGLLRDGKQVNVNLELQQSSQNQVDSSSIFNGIEGAEMSNKGKDQGVVVNNVKTGTPAAQIGLKKGDVIIGANQQAVKNIAELRKVLDSKPSVLALNIQRGDSTIYLLMQ" ["CCO-PM-BAC-NEG", "CCO-PERI-BAC"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG10466-MONOMER" "DNA-binding protein HU-α" ["HupA", "transcriptional dual regulator HU-α (HU-2)"] "MNKTQLIDVIAEKAELSKTQAKAALESTLAAITESLKEGDAVQLVGFGTFKVNHRAERTGRNPQTGKEIKIAAANVPAFVSGKALKDAVK" ["CCO-CYTOSOL"] ["CCO-BAC-NUCLEOID", "CCO-CYTOSOL"] +"EG10467-MONOMER" "DNA-binding protein HU-β" ["DpeA", "HopD", "DbhB", "HupB", "transcriptional dual regulator HU-β, NS1 (HU-1)"] "MNKSQLIDKIAAGADISKAAAGRALDAIIASVTESLKEGDDVALVGFGTFAVKERAARTGRNPQTGKEITIAAAKVPSFRAGKALKDAVN" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10471-MONOMER" "putative hydrogenase 1 maturation protease HyaD" ["HyaD", "protein involved in processing of HyaA and HyaB proteins"] "MSEQRVVVMGLGNLLWADEGFGVRVAERLYAHYHWPEYVEIVDGGTQGLNLLGYVESASHLLILDAIDYGLEPGTLRTYAGERIPAYLSAKKMSLHQNSFSEVLALADIRGHLPAHIALVGLQPAMLDDYGGSLSELAREQLPAAEQAALAQLAAWGIVPQPANESRCLNYDCLSMENYEGVRLRQYRMTQEEQG" [] ["CCO-CYTOSOL"] +"EG10472-MONOMER" "putative HyaA chaperone" ["HyaE"] "MSNDTPFDALWQRMLARGWTPVSESRLDDWLTQAPDGVVLLSSDPKRTPEVSDNPVMIGELLREFPDYTWQVAIADLEQSEAIGDRFGVFRFPATLVFTGGNYRGVLNGIHPWAELINLMRGLVEPQQERAS" [] ["CCO-CYTOSOL"] +"EG10473-MONOMER" "protein HyaF" ["HyaF", "protein involved in nickel incorporation into hydrogenase 1 proteins"] "MSETFFHLLGPGTQPNDDSFSMNPLPITCQVNDEPSMAALEQCAHSPQVIALLNELQHQLSERQPPLGEVLAVDLLNLNADDRHFINTLLGEGEVSVRIQQADDSESEIQEAIFCGLWRVRRRRGEKLLEDKLEAGCAPLALWQAATQNLLPTDSLLPPPIDGLMNGLPLAHELLAHVRNPDAQPHSINLTQLPISEADRLFLSRLCGPGNIQIRTIGYGESYINATGLRHVWHLRCTDTLKGPLLESYEICPIPEVVLAAPEDLVDSAQRLSEVCQWLAEAAPT" [] ["CCO-CYTOSOL"] +"EG10474-MONOMER" "regulator of the transcriptional regulator FhlA" ["HevA", "HycA"] "MTIWEISEKADYIAQRHRRLQDQWHIYCNSLVQGITLSKARLHHAMSCAPDKELCFVLFEHFRIYVTLADGFNSHTIEYYVETKDGEDKQRIAQAQLSIDGMIDGKVNIRDREQVLEHYLEKIAGVYDSLYTAIENNVPVNLSQLVKGQSPAA" [] ["CCO-CYTOSOL"] +"EG10481-MONOMER" "formate hydrogenlyase assembly protein" ["HevH", "HycH"] "MSEKVVFSQLSRKFIDENDATPAEAQQVVYYSLAIGHHLGVIDCLEAALTCPWDEYLAWIATLEAGSEARRKMEGVPKYGEIVIDINHVPMLANAFDKARAAQTSQQQEWSTMLLSMLHDIHQENAIYLMVRRLRD" [] ["CCO-CYTOSOL"] +"EG10483-MONOMER" "hydrogenase 3 nickel incorporation protein HypA" ["HypA", "accessory protein for nickel incorporation into hydrogenase 3"] "MHEITLCQRALELIEQQAAKHGAKRVTGVWLKIGAFSCVETSSLAFCFDLVCRGSVAEGCKLHLEEQEAECWCETCQQYVTLLTQRVRRCPQCHGDMLQIVADDGLQIRRIEIDQE" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG", "CCO-CYTOSOL"] +"EG10484-MONOMER" "hydrogenase isoenzymes nickel incorporation protein HypB" ["HydB", "HypB", "accessory protein for nickel incorporation into hydrogenase isoenzymes"] "MCTTCGCGEGNLYIEGDEHNPHSAFRSAPFAPAARPKMKITGIKAPEFTPSQTEEGDLHYGHGEAGTHAPGMSQRRMLEVEIDVLDKNNRLAERNRARFAARKQLVLNLVSSPGSGKTTLLTETLMRLKDSVPCAVIEGDQQTVNDAARIRATGTPAIQVNTGKGCHLDAQMIADAAPRLPLDDNGILFIENVGNLVCPASFDLGEKHKVAVLSVTEGEDKPLKYPHMFAAASLMLLNKVDLLPYLNFDVEKCIACAREVNPEIEIILISATSGEGMDQWLNWLETQRCA" [] ["CCO-CYTOSOL"] +"EG10485-MONOMER" "hydrogenase 3 maturation protein HypC" ["HypC", "HypC, protein involved in hydrogenase 3 maturation"] "MCIGVPGQIRTIDGNQAKVDVCGIQRDVDLTLVGSCDENGQPRVGQWVLVHVGFAMSVINEAEARDTLDALQNMFDVEPDVGALLYGEEK" [] ["CCO-CYTOSOL"] +"EG10486-MONOMER" "Fe-(CN)2CO cofactor assembly scaffold protein HypD" ["HydF", "HypD", "HypD, scaffold protein for assembly of the Fe-(CN)2CO cofactor"] "MRFVDEYRAPEQVMQLIEHLRERASHLSYTAERPLRIMEVCGGHTHAIFKFGLDQLLPENVEFIHGPGCPVCVLPMGRIDTCVEIASHPEVIFCTFGDAMRVPGKQGSLLQAKARGADVRIVYSPMDALKLAQENPTRKVVFFGLGFETTMPTTAITLQQAKARDVQNFYFFCQHITLIPTLRSLLEQPDNGIDAFLAPGHVSMVIGTDAYNFIASDFHRPLVVAGFEPLDLLQGVVMLVQQKIAAHSKVENQYRRVVPDAGNLLAQQAIADVFCVNGDSEWRGLGVIESSGVHLTPDYQRFDAEAHFRPAPQQVCDDPRARCGEVLTGKCKPHQCPLFGNTCNPQTAFGALMVSSEGACAAWYQYRQQESEA" [] ["CCO-CYTOSOL"] +"EG10487-MONOMER" "hydrogenase maturation protein, carbamoyl dehydratase" ["HypE", "HydB"] "MNNIQLAHGSGGQAMQQLINSLFMEAFANPWLAEQEDQARLDLAQLVAEGDRLAFSTDSYVIDPLFFPGGNIGKLAICGTANDVAVSGAIPRYLSCGFILEEGLPMETLKAVVTSMAETARAAGIAIVTGDTKVVQRGAVDKLFINTAGMGAIPANIHWGAQTLTAGDVLLVSGTLGDHGATILNLREQLGLDGELVSDCAVLTPLIQTLRDIPGVKALRDATRGGVNAVVHEFAAACGCGIELSEAALPVKPAVRGVCELLGLDALNFANEGKLVIAVERNAAEQVLAALHSHPLGKDAALIGEVVERKGVRLAGLYGVKRTLDLPHAEPLPRIC" [] ["CCO-CYTOSOL"] +"EG10488-MONOMER" "alkaline phosphatase isozyme conversion protein" ["Iap"] "MFSALRHRTAALALGVCFILPVHASSPKPGDFANTQARHIATFFPGRMTGTPAEMLSADYIRQQFQQMGYRSDIRTFNSRYIYTARDNRKSWHNVTGSTVIAAHEGKAPQQIIIMAHLDTYAPLSDADADANLGGLTLQGMDDNAAGLGVMLELAERLKNTPTEYGIRFVATSGEEEGKLGAENLLKRMSDTEKKNTLLVINLDNLIVGDKLYFNSGVKTPEAVRKLTRDRALAIARSHGIAATTNPGLNKNYPKGTGCCNDAEIFDKAGIAVLSVEATNWNLGNKDGYQQRAKTPAFPAGNSWHDVRLDNHQHIDKALPGRIERRCRDVMRIMLPLVKELAKAS" ["CCO-PERI-BAC"] [] +"EG10490-MONOMER" "DNA-binding transcriptional dual regulator ArgP" ["ArgP", "IciA"] "MKRPDYRTLQALDAVIRERGFERAAQKLCITQSAVSQRIKQLENMFGQPLLVRTVPPRPTEQGQKLLALLRQVELLEEEWLGDEQTGSTPLLLSLAVNADSLATWLLPALAPVLADSPIRLNLQVEDETRTQERLRRGEVVGAVSIQHQALPSCLVDKLGALDYLFVSSKPFAEKYFPNGVTRSALLKAPVVAFDHLDDMHQAFLQQNFDLPPGSVPCHIVNSSEAFVQLARQGTTCCMIPHLQIEKELASGELIDLTPGLFQRRMLYWHRFAPESRMMRKVTDALLDYGHKVLRQD" [] ["CCO-CYTOSOL"] +"EG10504-MONOMER" "translation initiation factor IF-1" ["InfA", "IF1", "protein chain initiation factor IF-1"] "MAKEDNIEMQGTVLETLPNTMFRVELENGHVVTAHISGKMRKNYIRILTGDKVTVELTPYDLSKGRIVFRSR" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10505-MONOMER" "translation initiation factor IF-2" ["SsyG", "InfB", "IF-2", "protein chain initiation factor IF2"] "MTDVTIKTLAAERQTSVERLVQQFADAGIRKSADDSVSAQEKQTLIDHLNQKNSGPDKLTLQRKTRSTLNIPGTGGKSKSVQIEVRKKRTFVKRDPQEAERLAAEEQAQREAEEQARREAEESAKREAQQKAEREAAEQAKREAAEQAKREAAEKDKVSNQQDDMTKNAQAEKARREQEAAELKRKAEEEARRKLEEEARRVAEEARRMAEENKWTDNAEPTEDSSDYHVTTSQHARQAEDESDREVEGGRGRGRNAKAARPKKGNKHAESKADREEARAAVRGGKGGKRKGSSLQQGFQKPAQAVNRDVVIGETITVGELANKMAVKGSQVIKAMMKLGAMATINQVIDQETAQLVAEEMGHKVILRRENELEEAVMSDRDTGAAAEPRAPVVTIMGHVDHGKTSLLDYIRSTKVASGEAGGITQHIGAYHVETENGMITFLDTPGHAAFTSMRARGAQATDIVVLVVAADDGVMPQTIEAIQHAKAAQVPVVVAVNKIDKPEADPDRVKNELSQYGILPEEWGGESQFVHVSAKAGTGIDELLDAILLQAEVLELKAVRKGMASGAVIESFLDKGRGPVATVLVREGTLHKGDIVLCGFEYGRVRAMRNELGQEVLEAGPSIPVEILGLSGVPAAGDEVTVVRDEKKAREVALYRQGKFREVKLARQQKSKLENMFANMTEGEVHEVNIVLKADVQGSVEAISDSLLKLSTDEVKVKIIGSGVGGITETDATLAAASNAILVGFNVRADASARKVIEAESLDLRYYSVIYNLIDEVKAAMSGMLSPELKQQIIGLAEVRDVFKSPKFGAIAGCMVTEGVVKRHNPIRVLRDNVVIYEGELESLRRFKDDVNEVRNGMECGIGVKNYNDVRTGDVIEVFEIIEIQRTIA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10506-MONOMER" "translation initiation factor IF-3" ["Fit", "SrjA", "InfC", "IF3", "protein chain initiation factor IF-3"] "MKGGKRVQTARPNRINGEIRAQEVRLTGLEGEQLGIVSLREALEKAEEAGVDLVEISPNAEPPVCRIMDYGKFLYEKSKSSKEQKKKQKVIQVKEIKFRPGTDEGDYQVKLRSLIRFLEEGDKAKITLRFRGREMAHQQIGMEVLNRVKDDLQELAVVESFPTKIEGRQMIMVLAPKKKQ" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10507-MONOMER" "DLP12 prophage; putative integrase" ["Int", "IntD"] "MSLFRRNEIWYASYSLPGGKRIKESLGTKDKRQAQELHDKRKAELWRVEKLGDLPDVTFEEACLRWLEEKADKKSLDSDKSRIEFWLEHFEGIRLKDISEAKIYSAVSRMHNRKTKEIWKQKVQAAIRKGKELPVYEPKPVSTQTKAKHLAMIKAILRAAERDWKWLEKAPVIKIPAVRNKRVRWLEKEEAKRLIDECPEPLKSVVKFALATGLRKSNIINLEWQQIDMQRRVAWVNPEESKSNRAIGVALNDTACKVLRDQIGKHHKWVFVHTKAAKRADGTSTPAVRKMRIDSKTSWLSACRRAGIEDFRFHDLRHTWASWLIQSGVPLSVLQEMGGWESIEMVRRYAHLAPNHLTEHARKIDDIFGDNVPNMSHSEIMEDIKKA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10513-MONOMER" "K+ transporting P-type ATPase subunit KdpA" ["KdpA", "Kac"] "MAAQGFLLIATFLLVLMVLARPLGSGLARLINDIPLPGTTGVERVLFRALGVSDREMNWKQYLCAILGLNMLGLAVLFFMLLGQHYLPLNPQQLPGLSWDLALNTAVSFVTNTNWQSYSGETTLSYFSQMAGLTVQNFLSAASGIAVIFALIRAFTRQSMSTLGNAWVDLLRITLWVLVPVALLIALFFIQQGALQNFLPYQAVNTVEGAQQLLPMGPVASQEAIKMLGTNGGGFFNANSSHPFENPTALTNFVQMLAIFLIPTALCFAFGEVMGDRRQGRMLLWAMSVIFVICVGVVMWAEVQGNPHLLALGTDSSINMEGKESRFGVLVSSLFAVVTTAASCGAVIAMHDSFTALGGMVPMWLMQIGEVVFGGVGSGLYGMMLFVLLAVFIAGLMIGRTPEYLGKKIDVREMKLTALAILVTPTLVLMGAALAMMTDAGRSAMLNPGPHGFSEVLYAVSSAANNNGSAFAGLSANSPFWNCLLAFCMFVGRFGVIIPVMAIAGSLVSKKSQAASSGTLPTHGPLFVGLLIGTVLLVGALTFIPALALGPVAEYLS" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG10515-MONOMER" "K+ transporting P-type ATPase subunit KdpC" ["KdpC", "Kac"] "MSGLRPALSTFIFLLLITGGVYPLLTTVLGQWWFPWQANGSLIREGDTVRGSALIGQNFTGNGYFHGRPSATAEMPYNPQASGGSNLAVSNPELDKLIAARVAALRAANPDASASVPVELVTASASGLDNNITPQAAAWQIPRVAKARNLSVEQLTQLIAKYSQQPLVKYIGQPVVNIVELNLALDKLDE" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG10523-MONOMER" "16S rRNA m62A1518,m62A1519 dimethyltransferase" ["KsgA", "RsmA", "ribosomal RNA small subunit methyltransferase A", "rRNA small subunit methyltransferase A"] "MNNRVHQGHLARKRFGQNFLNDQFVIDSIVSAINPQKGQAMVEIGPGLAALTEPVGERLDQLTVIELDRDLAARLQTHPFLGPKLTIYQQDAMTFNFGELAEKMGQPLRVFGNLPYNISTPLMFHLFSYTDAIADMHFMLQKEVVNRLVAGPNSKAYGRLSVMAQYYCNVIPVLEVPPSAFTPPPKVDSAVVRLVPHATMPHPVKDVRVLSRITTEAFNQRRKTIRNSLGNLFSVEVLTGMGIDPAMRAENISVAQYCQMANYLAENAPLQES" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10528-MONOMER" "maltose outer membrane channel / phage lambda receptor protein" ["MalL", "MalB", "LamB"] "MMITLRKLPLAVAVAAGVMSAQAMAVDFHGYARSGIGWTGSGGEQQCFQTTGAQSKYRLGNECETYAELKLGQEVWKEGDKSFYFDTNVAYSVAQQNDWEATDPAFREANVQGKNLIEWLPGSTIWAGKRFYQRHDVHMIDFYYWDISGPGAGLENIDVGFGKLSLAATRSSEAGGSSSFASNNIYDYTNETANDVFDVRLAQMEINPGGTLELGVDYGRANLRDNYRLVDGASKDGWLFTAEHTQSVLKGFNKFVVQYATDSMTSQGKGLSQGSGVAFDNEKFAYNINNNGHMLRILDHGAISMGDNWDMMYVGMYQDINWDNDNGTKWWTVGIRPMYKWTPIMSTVMEIGYDNVESQRTGDKNNQYKITLAQQWQAGDSIWSRPAIRVFATYAKWDEKWGYDYTGNADNNANFGKAVPADFNGGSFGRGDSDEWTFGAQMEIWW" ["CCO-OUTER-MEM"] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"EG10529-MONOMER" "30S ribosomal subunit biogenesis factor LepA" ["LepA", "EF4", "elongation factor 4"] "MKNIRNFSIIAHIDHGKSTLSDRIIQICGGLSDREMEAQVLDSMDLERERGITIKAQSVTLDYKASDGETYQLNFIDTPGHVDFSYEVSRSLAACEGALLVVDAGQGVEAQTLANCYTAMEMDLEVVPVLNKIDLPAADPERVAEEIEDIVGIDATDAVRCSAKTGVGVQDVLERLVRDIPPPEGDPEGPLQALIIDSWFDNYLGVVSLIRIKNGTLRKGDKVKVMSTGQTYNADRLGIFTPKQVDRTELKCGEVGWLVCAIKDIHGAPVGDTLTLARNPAEKALPGFKKVKPQVYAGLFPVSSDDYEAFRDALGKLSLNDASLFYEPESSSALGFGFRCGFLGLLHMEIIQERLEREYDLDLITTAPTVVYEVETTSREVIYVDSPSKLPAVNNIYELREPIAECHMLLPQAYLGNVITLCVEKRGVQTNMVYHGNQVALTYEIPMAEVVLDFFDRLKSTSRGYASLDYNFKRFQASDMVRVDVLINGERVDALALITHRDNSQNRGRELVEKMKDLIPRQQFDIAIQAAIGTHIIARSTVKQLRKNVLAKCYGGDISRKKKLLQKQKEGKKRMKQIGNVELPQEAFLAILHVGKDNK" ["CCO-CYTOSOL", "CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-CYTOSOL", "CCO-PM-BAC-NEG"] +"EG10530-MONOMER" "signal peptidase I" ["Lep", "LepB", "LP1", "SPase I", "leader peptidase (signal peptidase I)"] "MANMFALILVIATLVTGILWCVDKFFFAPKRRERQAAAQAAAGDSLDKATLKKVAPKPGWLETGASVFPVLAIVLIVRSFIYEPFQIPSGSMMPTLLIGDFILVEKFAYGIKDPIYQKTLIETGHPKRGDIVVFKYPEDPKLDYIKRAVGLPGDKVTYDPVSKELTIQPGCSSGQACENALPVTYSNVEPSDFVQTFSRRNGGEATSGFFEVPKNETKENGIRLSERKETLGDVTHRILTVPIAQDQVGMYYQQPGQQLATWIVPPGQYFMMGDNRDNSADSRYWGFVPEANLVGRATAIWMSFDKQEGEWPTGLRLSRIGGIH" ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG10534-MONOMER" "DNA ligase" ["Lop", "PdeC", "DnaL", "LigA", "Lig"] "MESIEQQLTELRTTLRHHEYLYHVMDAPEIPDAEYDRLMRELRELETKHPELITPDSPTQRVGAAPLAAFSQIRHEVPMLSLDNVFDEESFLAFNKRVQDRLKNNEKVTWCCELKLDGLAVSILYENGVLVSAATRGDGTTGEDITSNVRTIRAIPLKLHGENIPARLEVRGEVFLPQAGFEKINEDARRTGGKVFANPRNAAAGSLRQLDPRITAKRPLTFFCYGVGVLEGGELPDTHLGRLLQFKKWGLPVSDRVTLCESAEEVLAFYHKVEEDRPTLGFDIDGVVIKVNSLAQQEQLGFVARAPRWAVAFKFPAQEQMTFVRDVEFQVGRTGAITPVARLEPVHVAGVLVSNATLHNADEIERLGLRIGDKVVIRRAGDVIPQVVNVVLSERPEDTREVVFPTHCPVCGSDVERVEGEAVARCTGGLICGAQRKESLKHFVSRRAMDVDGMGDKIIDQLVEKEYVHTPADLFKLTAGKLTGLERMGPKSAQNVVNALEKAKETTFARFLYALGIREVGEATAAGLAAYFGTLEALEAASIEELQKVPDVGIVVASHVHNFFAEESNRNVISELLAEGVHWPAPIVINAEEIDSPFAGKTVVLTGSLSQMSRDDAKARLVELGAKVAGSVSKKTDLVIAGEAAGSKLAKAQELGIEVIDEAEMLRLLGS" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10535-MONOMER" "e14 prophage; cell death peptidase Lit" ["Lit", "Lit, cell death peptidase; phage exclusion"] "MRSPICHLFSAINSSPFKIAPEKEQDLKTIVDDKKIIISVVSEPGFNIRVRKNESNNSHEIVLTVASLEYIWAFSNFFWVFTQEYSKSQKNNDEHFDLTGKNRLKKSDELLKWARKNLQTTGCESWPKKCPKPEAYLQGSEDSQVASEIFLCAIAWILHHEISHVVLQHPLVTTAFSTQEEREADSHATKWILGNLYESAPELKKRALGIATAVLCIQSLEVENYFCLQNTHPAAYERIYSNISCYPVGNEELIEALCTVMLQYLFHGKNINVNLDGESFSSILGDLLCDISRLTSN" [] ["CCO-MEMBRANE", "CCO-CYTOSOL", "CCO-PM-BAC-NEG"] +"EG10542-MONOMER" "Lon protease" ["Muc", "Dir", "Deg", "LopA", "CapR", "Lon", "DNA-binding, ATP-dependent protease La"] "MNPERSERIEIPVLPLRDVVVYPHMVIPLFVGREKSIRCLEAAMDHDKKIMLVAQKEASTDEPGVNDLFTVGTVASILQMLKLPDGTVKVLVEGLQRARISALSDNGEHFSAKAEYLESPTIDEREQEVLVRTAISQFEGYIKLNKKIPPEVLTSLNSIDDPARLADTIAAHMPLKLADKQSVLEMSDVNERLEYLMAMMESEIDLLQVEKRIRNRVKKQMEKSQREYYLNEQMKAIQKELGEMDDAPDENEALKRKIDAAKMPKEAKEKAEAELQKLKMMSPMSAEATVVRGYIDWMVQVPWNARSKVKKDLRQAQEILDTDHYGLERVKDRILEYLAVQSRVNKIKGPILCLVGPPGVGKTSLGQSIAKATGRKYVRMALGGVRDEAEIRGHRRTYIGSMPGKLIQKMAKVGVKNPLFLLDEIDKMSSDMRGDPASALLEVLDPEQNVAFSDHYLEVDYDLSDVMFVATSNSMNIPAPLLDRMEVIRLSGYTEDEKLNIAKRHLLPKQIERNALKKGELTVDDSAIIGIIRYYTREAGVRGLEREISKLCRKAVKQLLLDKSLKHIEINGDNLHDYLGVQRFDYGRADNENRVGQVTGLAWTEVGGDLLTIETACVPGKGKLTYTGSLGEVMQESIQAALTVVRARAEKLGINPDFYEKRDIHVHVPEGATPKDGPSAGIAMCTALVSCLTGNPVRADVAMTGEITLRGQVLPIGGLKEKLLAAHRGGIKTVLIPFENKRDLEEIPDNVIADLDIHPVKRIEEVLTLALQNEPSGMQVVTAK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10544-MONOMER" "murein lipoprotein" ["MlpA", "Lpp"] "MKATKLVLGAVILGSTLLAGCSSNAKIDQLSSDVQTLNAKVDQLSNDVNAMRSDVQAAKDDAARANQRLDNMATKYRK" ["CCO-PERI-BAC", "CCO-OUTER-MEM"] ["CCO-OUTER-MEM", "CCO-CW-BAC-NEG", "CCO-EXTRACELLULAR", "CCO-MEMBRANE"] +"EG10548-MONOMER" "lipoprotein signal peptidase" ["LspA", "Lsp", "signal peptidase II", "leader peptidase II", "SPase II", "diacylglycerol prolipoprotein signal peptidase", "premurein-leader peptidase", "prolipoprotein signal peptidase"] "MSQSICSTGLRWLWLVVVVLIIDLGSKYLILQNFALGDTVPLFPSLNLHYARNYGAAFSFLADSGGWQRWFFAGIAIGISVILAVMMYRSKATQKLNNIAYALIIGGALGNLFDRLWHGFVVDMIDFYVGDWHFATFNLADTAICVGAALIVLEGFLPSRAKKQ" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG10559-MONOMER" "maltose regulon periplasmic protein" ["MolA", "MalM"] "MKMNKSLIVLCLSAGLLASAPGISLADVNYVPQNTSDAPAIPSAALQQLTWTPVDQSKTQTTQLATGGQQLNVPGISGPVAAYSVPANIGELTLTLTSEVNKQTSVFAPNVLILDQNMTPSAFFPSSYFTYQEPGVMSADRLEGVMRLTPALGQQKLYVLVFTTEKDLQQTTQLLDPAKAYAKGVGNSIPDIPDPVARHTTDGLLKLKVKTNSSSSVLVGPLFGSSAPAPVTVGNTAAPAVAAPAPAPVKKSEPMLNDTESYFNTAIKNAVAKGDVDKALKLLDEAERLGSTSARSTFISSVKGKG" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"EG10564-MONOMER" "negative regulator of MalT activity/cystathionine β-lyase" ["MalY", "bifunctional β-cystathionase, PLP-dependent and regulator of maltose regulon"] "MFDFSKVVDRHGTWCTQWDYVADRFGTADLLPFTISDMDFATAPCIIEALNQRLMHGVFGYSRWKNDEFLAAIAHWFSTQHYTAIDSQTVVYGPSVIYMVSELIRQWSETGEGVVIHTPAYDAFYKAIEGNQRTVMPVALEKQADGWFCDMGKLEAVLAKPECKIMLLCSPQNPTGKVWTCDELEIMADLCERHGVRVISDEIHMDMVWGEQPHIPWSNVARGDWALLTSGSKSFNIPALTGAYGIIENSSSRDAYLSALKGRDGLSSPSVLALTAHIAAYQQGAPWLDALRIYLKDNLTYIADKMNAAFPELNWQIPQSTYLAWLDLRPLNIDDNALQKALIEQEKVAIMPGYTYGEEGRGFVRLNAGCPRSKLEKGVAGLINAIRAVR" [] ["CCO-CYTOSOL"] +"EG10570-MONOMER" "methionine aminopeptidase" ["Map"] "MAISIKTPEDIEKMRVAGRLAAEVLEMIEPYVKPGVSTGELDRICNDYIVNEQHAVSACLGYHGYPKSVCISINEVVCHGIPDDAKLLKDGDIVNIDVTVIKDGFHGDTSKMFIVGKPTIMGERLCRITQESLYLALRMVKPGINLREIGAAIQKFVEAEGFSVVREYCGHGIGRGFHEEPQVLHYDSRETNVVLKPGMTFTIEPMVNAGKKEIRTMKDGWTVKTKDRSLSAQYEHTIVVTDNGCEILTLRKDDTIPAIISHDE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10571-MONOMER" "antitoxin of the MazF-MazE toxin-antitoxin system MazE" ["MazE", "ChpR", "ChpAI"] "MIHSSVKRWGNSPAVRIPATLMQALNLNIDDEVKIDLVDGKLIIEPVRKEPVFTLAELVNDITPENLHENIDWGEPKDKEVW" [] ["CCO-CYTOSOL"] +"EG10572-MONOMER" "nucleoside triphosphate pyrophosphohydrolase" ["MazG"] "MNQIDRLLTIMQRLRDPENGCPWDKEQTFATIAPYTLEETYEVLDAIAREDFDDLRGELGDLLFQVVFYAQMAQEEGRFDFNDICAAISDKLERRHPHVFADSSAENSSEVLARWEQIKTEERAQKAQHSALDDIPRSLPALMRAQKIQKRCANVGFDWTTLGPVVDKVYEEIDEVMYEARQAVVDQAKLEEEMGDLLFATVNLARHLGTKAEIALQKANEKFERRFREVERIVAARGLEMTGVDLETMEEVWQQVKRQEIDL" [] ["CCO-CYTOSOL"] +"EG10573-MONOMER" "e14 prophage; 5-methylcytosine-specific restriction enzyme McrA" ["RglA", "McrA", "restriction of DNA at 5-methylcytosine residues", "EcoKMcrA"] "MHVFDNNGIELKAECSIGEEDGVYGLILESWGPGDRNKDYNIALDYIIERLVDSGVSQVVVYLASSSVRKHMHSLDERKIHPGEYFTLIGNSPRDIRLKMCGYQAYFSRTGRKEIPSGNRTKRILINVPGIYSDSFWASIIRGELSELSQPTDDESLLNMRVSKLIKKTLSQPEGSRKPVEVERLQKVYVRDPMVKAWILQQSKGICENCGKNAPFYLNDGNPYLEVHHVIPLSSGGADTTDNCVALCPNCHRELHYSKNAKELIEMLYVNINRLQK" [] ["CCO-CYTOSOL"] +"EG10574-MONOMER" "5-methylcytosine-specific restriction enzyme subunit McrB" ["RglB", "McrB", "MrcB subunit of 5-methylcytosine restriction system", "McrBL"] "MESIQPWIEKFIKQAQQQRSQSTKDYPTSYRNLRVKLSFGYGNFTSIPWFAFLGEGQEASNGIYPVILYYKDFDELVLAYGISDTNEPHAQWQFSSDIPKTIAEYFQATSGVYPKKYGQSYYACSQKVSQGIDYTRFASMLDNIINDYKLIFNSGKSVIPPMSKTESYCLEDALNDLFIPETTIETILKRLTIKKNIILQGPPGVGKTFVARRLAYLLTGEKAPQRVNMVQFHQSYSYEDFIQGYRPNGVGFRRKDGIFYNFCQQAKEQPEKKYIFIIDEINRANLSKVFGEVMMLMEHDKRGENWSVPLTYSENDEERFYVPENVYIIGLMNTADRSLAVVDYALRRRFSFIDIEPGFDTPQFRNFLLNKKAEPSFVESLCQKMNELNQEISKEATILGKGFRIGHSYFCCGLEDGTSPDTQWLNEIVMTDIAPLLEEYFFDDPYKQQKWTNKLLGDS" [] ["CCO-CYTOSOL"] +"EG10575-MONOMER" "5-methylcytosine-specific restriction enzyme subunit McrC" ["McrC", "MrcC subunit of 5-methylcytosine restriction system"] "MEQPVIPVRNIYYMLTYAWGYLQEIKQANLEAIPGNNLLDILGYVLNKGVLQLSRRGLELDYNPNTEIIPGIKGRIEFAKTIRGFHLNHGKTVSTFDMLNEDTLANRIIKSTLAILIKHEKLNSTIRDEARSLYRKLPGISTLHLTPQHFSYLNGGKNTRYYKFVISVCKFIVNNSIPGQNKGHYRFYDFERNEKEMSLLYQKFLYEFCRRELTSANTTRSYLKWDASSISDQSLNLLPRMETDITIRSSEKILIVDAKYYKSIFSRRMGTEKFHSQNLYQLMNYLWSLKPENGENIGGLLIYPHVDTAVKHRYKINGFDIGLCTVNLGQEWPCIHQELLDIFDEYLK" [] ["CCO-CYTOSOL"] +"EG10580-MONOMER" "peptidoglycan DD-endopeptidase/peptidoglycan LD-endopeptidase" ["MepA"] "MNKTAIALLALLASSASLAATPWQKITQPVPGSAQSIGSFSNGCIVGADTLPIQSEHYQVMRTDQRRYFGHPDLVMFIQRLSSQVSNLGMGTVLIGDMGMPAGGRFNGGHASHQTGLDVDIFLQLPKTRWTSAQLLRPQALDLVSRDGKHVVSTLWKPEIFSLIKLAAQDKDVTRIFVNPAIKQQLCLDAGTDRDWLRKVRPWFQHRAHMHVRLRCPADSLECEDQPLPPSGDGCGAELQSWFEPPKPGTTKPEKKTPPPLPPSCQALLDEHVI" [] ["CCO-PERI-BAC"] +"EG10595-MONOMER" "tRNA dimethylallyltransferase" ["TrpX", "MiaA", "tRNA(i6A37) synthase"] "MSDISKASLPKAIFLMGPTASGKTALAIELRKILPVELISVDSALIYKGMDIGTAKPNAEELLAAPHRLLDIRDPSQAYSAADFRRDALAEMADITAAGRIPLLVGGTMLYFKALLEGLSPLPSADPEVRARIEQQAAEQGWESLHRQLQEVDPVAAARIHPNDPQRLSRALEVFFISGKTLTELTQTSGDALPYQVHQFAIAPASRELLHQRIEQRFHQMLASGFEAEVRALFARGDLHTDLPSIRCVGYRQMWSYLEGEISYDEMVYRGVCATRQLAKRQITWLRGWEGVHWLDSEKPEQARDEVLQVVGAIAG" [] ["CCO-CYTOSOL"] +"EG10596-MONOMER" "Z-ring positioning protein MinC" ["MinB", "MinC"] "MSNTPIELKGSSFTLSVVHLHEAEPKVIHQALEDKIAQAPAFLKHAPVVLNVSALEDPVNWSAMHKAVSATGLRVIGVSGCKDAQLKAEIEKMGLPILTEGKEKAPRPAPTPQAPAQNTTPVTKTRLIDTPVRSGQRIYAPQCDLIVTSHVSAGAELIADGNIHVYGMMRGRALAGASGDRETQIFCTNLMAELVSIAGEYWLSDQIPAEFYGKAARLQLVENALTVQPLN" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10597-MONOMER" "Z-ring positioning protein MinD" ["MinB", "MinD"] "MARIIVVTSGKGGVGKTTSSAAIATGLAQKGKKTVVIDFDIGLRNLDLIMGCERRVVYDFVNVIQGDATLNQALIKDKRTENLYILPASQTRDKDALTREGVAKVLDDLKAMDFEFIVCDSPAGIETGALMALYFADEAIITTNPEVSSVRDSDRILGILASKSRRAENGEEPIKEHLLLTRYNPGRVSRGDMLSMEDVLEILRIKLVGVIPEDQSVLRASNQGEPVILDINADAGKAYADTVERLLGEERPFRFIEEEKKGFLKRLFGG" ["CCO-CYTOSOL", "CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-CYTOSOL", "CCO-PM-BAC-NEG"] +"EG10598-MONOMER" "Z-ring positioning protein MinE" ["MinB", "MinE"] "MALLDFFLSRKKNTANIAKERLQIIVAERRRSDAEPHYLPQLRKDILEVICKYVQIDPEMVTVQLEQKDGDISILELNVTLPEAEELK" ["CCO-PM-BAC-NEG", "CCO-CYTOSOL"] ["CCO-PM-BAC-NEG", "CCO-CYTOSOL"] +"EG10599-MONOMER" "chaperonin GroEL" ["GroL", "MopA", "GroEL", "cpn60"] "MAAKDVKFGNDARVKMLRGVNVLADAVKVTLGPKGRNVVLDKSFGAPTITKDGVSVAREIELEDKFENMGAQMVKEVASKANDAAGDGTTTATVLAQAIITEGLKAVAAGMNPMDLKRGIDKAVTAAVEELKALSVPCSDSKAIAQVGTISANSDETVGKLIAEAMDKVGKEGVITVEDGTGLQDELDVVEGMQFDRGYLSPYFINKPETGAVELESPFILLADKKISNIREMLPVLEAVAKAGKPLLIIAEDVEGEALATLVVNTMRGIVKVAAVKAPGFGDRRKAMLQDIATLTGGTVISEEIGMELEKATLEDLGQAKRVVINKDTTTIIDGVGEEAAIQGRVAQIRQQIEEATSDYDREKLQERVAKLAGGVAVIKVGAATEVEMKEKKARVEDALHATRAAVEEGVVAGGGVALIRVASKLADLRGQNEDQNVGIKVALRAMEAPLRQIVLNCGEEPSVVANTVKGGDGNYGYNAATEEYGNMIDMGILDPTKVTRSALQYAASVAGLMITTECMVTDLPKNDAADLGAAGGMGGMGGMGGMM" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10600-MONOMER" "cochaperonin GroES" ["GroS", "GroES", "MopB", "cpn10"] "MNIRPLHDRVIVKRKEVETKSAGGIVLTGSAAAKSTRGEVLAVGNGRILENGEVKPLDVKVGDIVIFNDGYGVKSEKIDNEEVLIMSESDILAIVEA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10603-MONOMER" "DNA-binding transcriptional repressor MprA" ["MprA", "EmrR"] "MDSSFTPIEQMLKFRASRHEDFPYQEILLTRLCMHMQSKLLENRNKMLKAQGINETLFMALITLESQENHSIQPSELSCALGSSRTNATRIADELEKRGWIERRESDNDRRCLHLQLTEKGHEFLREVLPPQHNCLHQLWSALSTTEKDQLEQITRKLLSRLDQMEQDGVVLEAMS" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10605-MONOMER" "peptidoglycan glycosyltransferase / peptidoglycan DD-transpeptidase MrcB" ["PonB", "PbpF", "PBP1B", "PBP1Bs", "MrcB", "PBP1Bα", "penicillin binding protein 1B", "penicillin binding protein 1Bα"] "MAGNDREPIGRKGKPTRPVKQKVSRRRYEDDDDYDDYDDYEDEEPMPRKGKGKGKGRKPRGKRGWLWLLLKLAIVFAVLIAIYGVYLDQKIRSRIDGKVWQLPAAVYGRMVNLEPDMTISKNEMVKLLEATQYRQVSKMTRPGEFTVQANSIEMIRRPFDFPDSKEGQVRARLTFDGDHLATIVNMENNRQFGFFRLDPRLITMISSPNGEQRLFVPRSGFPDLLVDTLLATEDRHFYEHDGISLYSIGRAVLANLTAGRTVQGASTLTQQLVKNLFLSSERSYWRKANEAYMALIMDARYSKDRILELYMNEVYLGQSGDNEIRGFPLASLYYFGRPVEELSLDQQALLVGMVKGASIYNPWRNPKLALERRNLVLRLLQQQQIIDQELYDMLSARPLGVQPRGGVISPQPAFMQLVRQELQAKLGDKVKDLSGVKIFTTFDSVAQDAAEKAAVEGIPALKKQRKLSDLETAIVVVDRFSGEVRAMVGGSEPQFAGYNRAMQARRSIGSLAKPATYLTALSQPKIYRLNTWIADAPIALRQPNGQVWSPQNDDRRYSESGRVMLVDALTRSMNVPTVNLGMALGLPAVTETWIKLGVPKDQLHPVPAMLLGALNLTPIEVAQAFQTIASGGNRAPLSALRSVIAEDGKVLYQSFPQAERAVPAQAAYLTLWTMQQVVQRGTGRQLGAKYPNLHLAGKTGTTNNNVDTWFAGIDGSTVTITWVGRDNNQPTKLYGASGAMSIYQRYLANQTPTPLNLVPPEDIADMGVDYDGNFVCSGGMRILPVWTSDPQSLCQQSEMQQQPSGNPFDQSSQPQQQPQQQPAQQEQKDSDGVAGWIKDMFGSN" ["CCO-PM-BAC-NEG", "CCO-PERI-BAC"] ["CCO-CW-BAC-NEG", "CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"EG10606-MONOMER" "peptidoglycan DD-transpeptidase MrdA" ["PbpA", "MrdA", "PBP2", "penicillin-binding protein 2"] "MKLQNSFRDYTAESALFVRRALVAFLGILLLTGVLIANLYNLQIVRFTDYQTRSNENRIKLVPIAPSRGIIYDRNGIPLALNRTIYQIEMMPEKVDNVQQTLDALRSVVDLTDDDIAAFRKERARSHRFTSIPVKTNLTEVQVARFAVNQYRFPGVEVKGYKRRYYPYGSALTHVIGYVSKINDKDVERLNNDGKLANYAATHDIGKLGIERYYEDVLHGQTGYEEVEVNNRGRVIRQLKEVPPQAGHDIYLTLDLKLQQYIETLLAGSRAAVVVTDPRTGGVLALVSTPSYDPNLFVDGISSKDYSALLNDPNTPLVNRATQGVYPPASTVKPYVAVSALSAGVITRNTTLFDPGWWQLPGSEKRYRDWKKWGHGRLNVTRSLEESADTFFYQVAYDMGIDRLSEWMGKFGYGHYTGIDLAEERSGNMPTREWKQKRFKKPWYQGDTIPVGIGQGYWTATPIQMSKALMILINDGIVKVPHLLMSTAEDGKQVPWVQPHEPPVGDIHSGYWELAKDGMYGVANRPNGTAHKYFASAPYKIAAKSGTAQVFGLKANETYNAHKIAERLRDHKLMTAFAPYNNPQVAVAMILENGGAGPAVGTLMRQILDHIMLGDNNTDLPAENPAVAAAEDH" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PERI-BAC", "CCO-PM-BAC-NEG"] +"EG10607-MONOMER" "SEDS family protein MrdB" ["RodA", "MrdB"] "MTDNPNKKTFWDKVHLDPTMLLILLALLVYSALVIWSASGQDIGMMERKIGQIAMGLVIMVVMAQIPPRVYEGWAPYLYIICIILLVAVDAFGAISKGAQRWLDLGIVRFQPSEIAKIAVPLMVARFINRDVCPPSLKNTGIALVLIFMPTLLVAAQPDLGTSILVALSGLFVLFLSGLSWRLIGVAVVLVAAFIPILWFFLMHDYQRQRVMMLLDPESDPLGAGYHIIQSKIAIGSGGLRGKGWLHGTQSQLEFLPERHTDFIFAVLAEELGLVGILILLALYILLIMRGLWIAARAQTTFGRVMAGGLMLILFVYVFVNIGMVSGILPVVGVPLPLVSYGGSALIVLMAGFGIVMSIHTHRKMLSKSV" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG10608-MONOMER" "dynamic cytoskeletal protein MreB" ["RodY", "Mon", "EnvB", "MreB_1", "MreB"] "MLKKFRGMFSNDLSIDLGTANTLIYVKGQGIVLNEPSVVAIRQDRAGSPKSVAAVGHDAKQMLGRTPGNIAAIRPMKDGVIADFFVTEKMLQHFIKQVHSNSFMRPSPRVLVCVPVGATQVERRAIRESAQGAGAREVFLIEEPMAAAIGAGLPVSEATGSMVVDIGGGTTEVAVISLNGVVYSSSVRIGGDRFDEAIINYVRRNYGSLIGEATAERIKHEIGSAYPGDEVREIEVRGRNLAEGVPRGFTLNSNEILEALQEPLTGIVSAVMVALEQCPPELASDISERGMVLTGGGALLRNLDRLLMEETGIPVVVAEDPLTCVARGGGKALEMIDMHGGDLFSEE" ["CCO-PM-BAC-NEG", "CCO-CYTOSKELETON"] ["CCO-CYTOSOL"] +"EG10609-MONOMER" "cell shape determining protein MreC" ["MreC"] "MKPIFSRGPSLQIRLILAVLVALGIIIADSRLGTFSQIRTYMDTAVSPFYFVSNAPRELLDGVSQTLASRDQLELENRALRQELLLKNSELLMLGQYKQENARLRELLGSPLRQDEQKMVTQVISTVNDPYSDQVVIDKGSVNGVYEGQPVISDKGVVGQVVAVAKLTSRVLLICDATHALPIQVLRNDIRVIAAGNGCTDDLQLEHLPANTDIRVGDVLVTSGLGGRFPEGYPVAVVSSVKLDTQRAYTVIQARPTAGLQRLRYLLLLWGADRNGANPMTPEEVHRVANERLMQMMPQVLPSPDAMGPKLPEPATGIAQPTPQQPATGNAATAPAAPTQPAANRSPQRATPPQSGAQPPARAPGGQ" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PERI-BAC", "CCO-CYTOSOL", "CCO-PM-BAC-NEG"] +"EG10610-MONOMER" "cell shape determining protein MreD" ["MreD"] "MASYRSQGRWVIWLSFLIALLLQIMPWPDNLIVFRPNWVLLILLYWILALPHRVNVGTGFVMGAILDLISGSTLGVRVLAMSIIAYLVALKYQLFRNLALWQQALVVMLLSLVVDIIVFWAEFLVINVSFRPEVFWSSVVNGVLWPWIFLLMRKVRQQFAVQ" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG10611-MONOMER" "P-loop NTPase family protein Mrp" ["Mrp"] "MNEQSQAKSPEALRAMVAGTLANFQHPTLKHNLTTLKALHHVAWMDDTLHVELVMPFVWHSAFEELKEQCSAELLRITGAKAIDWKLSHNIATLKRVKNQPGINGVKNIIAVSSGKGGVGKSSTAVNLALALAAEGAKVGILDADIYGPSIPTMLGAENQRPTSPDGTHMAPIMSHGLATNSIGYLVTDDNAMVWRGPMASKALMQMLQETLWPDLDYLVLDMPPGTGDIQLTLAQNIPVTGAVVVTTPQDIALIDAKKGIVMFEKVEVPVLGIVENMSVHICSNCGHHEPIFGTGGAEKLAEKYHTQLLGQMPLHISLREDLDKGTPTVISRPESEFTAIYRQLADRVAAQLYWQGEVIPGEISFRAV" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10612-MONOMER" "methylated adenine and cytosine restriction protein" ["Mrr"] "MTVPTYDKFIEPVLRYLATKPEGAAARDVHEAAADALGLDDSQRAKVITSGQLVYKNRAGWAHDRLKRAGLSQSLSRGKWCLTPAGFDWVASHPQPMTEQETNHLAFAFVNVKLKSRPDAVDLDPKADSPDHEELAKSSPDDRLDQALKELRDAVADEVLENLLQVSPSRFEVIVLDVLHRLGYGGHRDDLQRVGGTGDGGIDGVISLDKLGLEKVYVQAKRWQNTVGRPELQAFYGALAGQKAKRGVFITTSGFTSQARDFAQSVEGMVLVDGERLVHLMIENEVGVSSRLLKVPKLDMDYFE" ["CCO-BAC-NUCLEOID"] ["CCO-CYTOSOL", "CCO-BAC-NUCLEOID"] +"EG10613-MONOMER" "ATP-binding lipopolysaccharide transport protein" ["MsbA"] "MHNDKDLSTWQTFRRLWPTIAPFKAGLIVAGVALILNAASDTFMLSLLKPLLDDGFGKTDRSVLVWMPLVVIGLMILRGITSYVSSYCISWVSGKVVMTMRRRLFGHMMGMPVSFFDKQSTGTLLSRITYDSEQVASSSSGALITVVREGASIIGLFIMMFYYSWQLSIILIVLAPIVSIAIRVVSKRFRNISKNMQNTMGQVTTSAEQMLKGHKEVLIFGGQEVETKRFDKVSNRMRLQGMKMVSASSISDPIIQLIASLALAFVLYAASFPSVMDSLTAGTITVVFSSMIALMRPLKSLTNVNAQFQRGMAACQTLFTILDSEQEKDEGKRVIERATGDVEFRNVTFTYPGRDVPALRNINLKIPAGKTVALVGRSGSGKSTIASLITRFYDIDEGEILMDGHDLREYTLASLRNQVALVSQNVHLFNDTVANNIAYARTEQYSREQIEEAARMAYAMDFINKMDNGLDTVIGENGVLLSGGQRQRIAIARALLRDSPILILDEATSALDTESERAIQAALDELQKNRTSLVIAHRLSTIEKADEIVVVEDGVIVERGTHNDLLEHRGVYAQLHKMQFGQ" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG10618-MONOMER" "chromosome partitioning protein MukB" ["MukB", "cell division protein involved in chromosome partitioning"] "MIERGKFRSLTLINWNGFFARTFDLDELVTTLSGGNGAGKSTTMAAFVTALIPDLTLLHFRNTTEAGATSGSRDKGLHGKLKAGVCYSMLDTINSRHQRVVVGVRLQQVAGRDRKVDIKPFAIQGLPMSVQPTQLVTETLNERQARVLPLNELKDKLEAMEGVQFKQFNSITDYHSLMFDLGIIARRLRSASDRSKFYRLIEASLYGGISSAITRSLRDYLLPENSGVRKAFQDMEAALRENRMTLEAIRVTQSDRDLFKHLISEATNYVAADYMRHANERRVHLDKALEFRRELHTSRQQLAAEQYKHVDMARELAEHNGAEGDLEADYQAASDHLNLVQTALRQQEKIERYEADLDELQIRLEEQNEVVAEAIERQQENEARAEAAELEVDELKSQLADYQQALDVQQTRAIQYNQAIAALNRAKELCHLPDLTADCAAEWLETFQAKELEATEKMLSLEQKMSMAQTAHSQFEQAYQLVVAINGPLARNEAWDVARELLREGVDQRHLAEQVQPLRMRLSELEQRLREQQEAERLLADFCKRQGKNFDIDELEALHQELEARIASLSDSVSNAREERMALRQEQEQLQSRIQSLMQRAPVWLAAQNSLNQLSEQCGEEFTSSQDVTEYLQQLLEREREAIVERDEVGARKNAVDEEIERLSQPGGSEDQRLNALAERFGGVLLSEIYDDVSLEDAPYFSALYGPSRHAIVVPDLSQVTEHLEGLTDCPEDLYLIEGDPQSFDDSVFSVDELEKAVVVKIADRQWRYSRFPEVPLFGRAARESRIESLHAEREVLSERFATLSFDVQKTQRLHQAFSRFIGSHLAVAFESDPEAEIRQLNSRRVELERALSNHENDNQQQRIQFEQAKEGVTALNRILPRLNLLADDSLADRVDEIRERLDEAQEAARFVQQFGNQLAKLEPIVSVLQSDPEQFEQLKEDYAYSQQMQRDARQQAFALTEVVQRRAHFSYSDSAEMLSGNSDLNEKLRERLEQAEAERTRAREALRGHAAQLSQYNQVLASLKSSYDTKKELLNDLQRELQDIGVRADSGAEERARIRRDELHAQLSNNRSRRNQLEKALTFCEAEMDNLTRKLRKLERDYFEMREQVVTAKAGWCAVMRMVKDNGVERRLHRRELAYLSADDLRSMSDKALGALRLAVADNEHLRDVLRMSEDPKRPERKIQFFVAVYQHLRERIRQDIIRTDDPVEAIEQMEIELSRLTEELTSREQKLAISSRSVANIIRKTIQREQNRIRMLNQGLQNVSFGQVNSVRLNVNVRETHAMLLDVLSEQHEQHQDLFNSNRLTFSEALAKLYQRLNPQIDMGQRTPQTIGEELLDYRNYLEMEVEVNRGSDGWLRAESGALSTGEAIGTGMSILVMVVQSWEDESRRLRGKDISPCRLLFLDEAARLDARSIATLFELCERLQMQLIIAAPENISPEKGTTYKLVRKVFQNTEHVHVVGLRGFAPQLPETLPGTDEAPSQAS" ["CCO-CYTOSOL"] ["CCO-BAC-NUCLEOID", "CCO-CYTOSOL"] +"EG10624-MONOMER" "DNA mismatch repair protein MutH" ["Prv", "MutR", "MutH"] "MSQPRPLLSPPETEEQLLAQAQQLSGYTLGELAALVGLVTPENLKRDKGWIGVLLEIWLGASAGSKPEQDFAALGVELKTIPVDSLGRPLETTFVCVAPLTGNSGVTWETSHVRHKLKRVLWIPVEGERSIPLAQRRVGSPLLWSPNEEEDRQLREDWEELMDMIVLGQVERITARHGEYLQIRPKAANAKALTEAIGARGERILTLPRGFYLKKNFTSALLARHFLIQ" [] ["CCO-CYTOSOL"] +"EG10625-MONOMER" "DNA mismatch repair protein MutS" ["Plm", "Ant", "Fdv", "MutS"] "MSAIENFDAHTPMMQQYLRLKAQHPEILLFYRMGDFYELFYDDAKRASQLLDISLTKRGASAGEPIPMAGIPYHAVENYLAKLVNQGESVAICEQIGDPATSKGPVERKVVRIVTPGTISDEALLQERQDNLLAAIWQDSKGFGYATLDISSGRFRLSEPADRETMAAELQRTNPAELLYAEDFAEMSLIEGRRGLRRRPLWEFEIDTARQQLNLQFGTRDLVGFGVENAPRGLCAAGCLLQYAKDTQRTTLPHIRSITMEREQDSIIMDAATRRNLEITQNLAGGAENTLASVLDCTVTPMGSRMLKRWLHMPVRDTRVLLERQQTIGALQDFTAGLQPVLRQVGDLERILARLALRTARPRDLARMRHAFQQLPELRAQLETVDSAPVQALREKMGEFAELRDLLERAIIDTPPVLVRDGGVIASGYNEELDEWRALADGATDYLERLEVRERERTGLDTLKVGFNAVHGYYIQISRGQSHLAPINYMRRQTLKNAERYIIPELKEYEDKVLTSKGKALALEKQLYEELFDLLLPHLEALQQSASALAELDVLVNLAERAYTLNYTCPTFIDKPGIRITEGRHPVVEQVLNEPFIANPLNLSPQRRMLIITGPNMGGKSTYMRQTALIALMAYIGSYVPAQKVEIGPIDRIFTRVGAADDLASGRSTFMVEMTETANILHNATEYSLVLMDEIGRGTSTYDGLSLAWACAENLANKIKALTLFATHYFELTQLPEKMEGVANVHLDALEHGDTIAFMHSVQDGAASKSYGLAVAALAGVPKEVIKRARQKLRELESISPNAAATQVDGTQMSLLSVPEETSPAVEALENLDPDSLTPRQALEWIYRLKSLV" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10626-MONOMER" "8-oxo-dGTP diphosphatase" ["NudA", "MutT"] "MKKLQIAVGIIRNENNEIFITRRAADAHMANKLEFPGGKIEMGETPEQAVVRELQEEVGITPQHFSLFEKLEYEFPDRHITLWFWLVERWEGEPWGKEGQPGEWMSLVGLNADDFPPANEPVIAKLKRL" [] ["CCO-CYTOSOL"] +"EG10627-MONOMER" "adenine DNA glycosylase" ["MicA", "MutY"] "MQASQFSAQVLDWYDKYGRKTLPWQIDKTPYKVWLSEVMLQQTQVATVIPYFERFMARFPTVTDLANAPLDEVLHLWTGLGYYARARNLHKAAQQVATLHGGKFPETFEEVAALPGVGRSTAGAILSLSLGKHFPILDGNVKRVLARCYAVSGWPGKKEVENKLWSLSEQVTPAVGVERFNQAMMDLGAMICTRSKPKCSLCPLQNGCIAAANNSWALYPGKKPKQTLPERTGYFLLLQHEDEVLLAQRPPSGLWGGLYCFPQFADEESLRQWLAQRQIAADNLTQLTAFRHTFSHFHLDIVPMWLPVSSFTGCMDEGNALWYNLAQPPSVGLAAPVERLLQQLRTGAPV" [] ["CCO-PERI-BAC", "CCO-CYTOSOL"] +"EG10634-MONOMER" "UMP phosphatase" ["UmpH", "NagD"] "MTIKNVICDIDGVLMHDNVAVPGAAEFLHGIMDKGLPLVLLTNYPSQTGQDLANRFATAGVDVPDSVFYTSAMATADFLRRQEGKKAYVVGEGALIHELYKAGFTITDVNPDFVIVGETRSYNWDMMHKAAYFVANGARFIATNPDTHGRGFYPACGALCAGIEKISGRKPFYVGKPSPWIIRAALNKMQAHSEETVIVGDNLRTDILAGFQAGLETILVLSGVSSLDDIDSMPFRPSWIYPSVAEIDVI" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10651-MONOMER" "endonuclease IV" ["Nfo"] "MKYIGAHVSAAGGLANAAIRAAEIDATAFALFTKNQRQWRAAPLTTQTIDEFKAACEKYHYTSAQILPHDSYLINLGHPVTEALEKSRDAFIDEMQRCEQLGLSLLNFHPGSHLMQISEEDCLARIAESINIALDKTQGVTAVIENTAGQGSNLGFKFEHLAAIIDGVEDKSRVGVCIDTCHAFAAGYDLRTPAECEKTFADFARTVGFKYLRGMHLNDAKSTFGSRVDRHHSLGEGNIGHDAFRWIMQDDRFDGIPLILETINPDIWAEEIAWLKAQQTEKAVA" [] ["CCO-CYTOSOL"] +"EG10656-MONOMER" "putative transcriptional regulator SfsB" ["SfsB", "Nlp"] "MESNFIDWHPADIIAGLRKKGTSMAAESRRNGLSSSTLANALSRPWPKGEMIIAKALGTDPWVIWPSRYHDPQTHEFIDRTQLMRSYTKPKK" [] ["CCO-CYTOSOL"] +"EG10657-MONOMER" "lipoprotein-28" ["NlpA"] "MKLTTHHLRTGAALLLAGILLAGCDQSSSDAKHIKVGVINGAEQDVAEVAKKVAKEKYGLDVELVGFSGSLLPNDATNHGELDANVFQHRPFLEQDNQAHGYKLVAVGNTFVFPMAGYSKKIKTVAQIKEGATVAIPNDPTNLGRALLLLQKEKLITLKEGKGLLPTALDITDNPRHLQIMELEGAQLPRVLDDPKVDVAIISTTYIQQTGLSPVHDSVFIEDKNSPYVNILVAREDNKNAENVKEFLQSYQSPEVAKAAETIFNGGAVPGW" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG10658-MONOMER" "outer membrane protein assembly factor BamC" ["DapX", "NlpB", "lipoprotein-34"] "MAYSVQKSRLAKVAGVSLVLLLAACSSDSRYKRQVSGDEAYLEAAPLAELHAPAGMILPVTSGDYAIPVTNGSGAVGKALDIRPPAQPLALVSGARTQFTGDTASLLVENGRGNTLWPQVVSVLQAKNYTITQRDDAGQTLTTDWVQWNRLDEDEQYRGRYQISVKPQGYQQAVTVKLLNLEQAGKPVADAASMQRYSTEMMNVISAGLDKSATDAANAAQNRASTTMDVQSAADDTGLPMLVVRGPFNVVWQRLPAALEKVGMKVTDSTRSQGNMAVTYKPLSDSDWQELGASDPGLASGDYKLQVGDLDNRSSLQFIDPKGHTLTQSQNDALVAVFQAAFSK" [] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"EG10659-MONOMER" "DLP12 prophage; putative outer membrane porin NmpC" ["PhmA", "NmpC"] "MKKLTVAISAVAASVLMAMSAQAAEIYNKDSNKLDLYGKVNAKHYFSSNDADDGDTTYARLGFKGETQINDQLTGFGQWEYEFKGNRAESQGSSKDKTRLAFAGLKFGDYGSIDYGRNYGVAYDIGAWTDVLPEFGGDTWTQTDVFMTQRATGVATYRNNDFFGLVDGLNFAAQYQGKNDRSDFDNYTEGNGDGFGFSATYEYEGFGIGATYAKSDRTDTQVNAGKVLPEVFASGKNAEVWAAGLKYDANNIYLATTYSETQNMTVFADHFVANKAQNFEAVAQYQFDFGLRPSVAYLQSKGKDLGVWGDQDLVKYVDVGATYYFNKNMSTFVDYKINLLDKNDFTKALGVSTDDIVAVGLVYQF" [] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"EG10662-MONOMER" "endonuclease III" ["Nth", "Endo III"] "MNKAKRLEILTRLRENNPHPTTELNFSSPFELLIAVLLSAQATDVSVNKATAKLYPVANTPAAMLELGVEGVKTYIKTIGLYNSKAENIIKTCRILLEQHNGEVPEDRAALEALPGVGRKTANVVLNTAFGWPTIAVDTHIFRVCNRTQFAPGKNVEQVEEKLLKVVPAEFKVDCHHWLILHGRYTCIARKPRCGSCIIEDLCEYKEKVDI" [] ["CCO-CYTOSOL"] +"EG10665-MONOMER" "transcription termination/antitermination protein NusA" ["NusA", "transcription termination/antitermination L factor"] "MNKEILAVVEAVSNEKALPREKIFEALESALATATKKKYEQEIDVRVQIDRKSGDFDTFRRWLVVDEVTQPTKEITLEAARYEDESLNLGDYVEDQIESVTFDRITTQTAKQVIVQKVREAERAMVVDQFREHEGEIITGVVKKVNRDNISLDLGNNAEAVILREDMLPRENFRPGDRVRGVLYSVRPEARGAQLFVTRSKPEMLIELFRIEVPEIGEEVIEIKAAARDPGSRAKIAVKTNDKRIDPVGACVGMRGARVQAVSTELGGERIDIVLWDDNPAQFVINAMAPADVASIVVDEDKHTMDIAVEAGNLAQAIGRNGQNVRLASQLSGWELNVMTVDDLQAKHQAEAHAAIDTFTKYLDIDEDFATVLVEEGFSTLEELAYVPMKELLEIEGLDEPTVEALRERAKNALATIAQAQEESLGDNKPADDLLNLEGVDRDLAFKLAARGVCTLEDLAEQGIDDLADIEGLTDEKAGALIMAARNICWFGDEA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10666-MONOMER" "transcription antitermination protein NusB" ["SsyB", "SsaD", "NusB"] "MKPAARRRARECAVQALYSWQLSQNDIADVEYQFLAEQDVKDVDVLYFRELLAGVATNTAYLDGLMKPYLSRLLEELGQVEKAVLRIALYELSKRSDVPYKVAINEAIELAKSFGAEDSHKFVNGVLDKAAPVIRPNKK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10667-MONOMER" "transcription termination factor NusG" ["NusG"] "MSEAPKKRWYVVQAFSGFEGRVATSLREHIKLHNMEDLFGEVMVPTEEVVEIRGGQRRKSERKFFPGYVLVQMVMNDASWHLVRSVPRVMGFIGGTSDRPAPISDKEVDAIMNRLQQVGDKPRPKTLFEPGEMVRVNDGPFADFNGVVEEVDYEKSRLKVSVSIFGRATPVELDFSQVEKA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10668-MONOMER" "methylated-DNA—[protein]-cysteine S-methyltransferase" ["Ogt", "O-6-alkylguanine-DNA/Cysteine-protein-methyltransferase", "MTase II", "O6AG ATase", "O6-alkylguanine-DNA-alkyltransferase"] "MLRLLEEKIATPLGPLWVICDEQFRLRAVEWEEYSERMVQLLDIHYRKEGYERISATNPGGLSDKLREYFAGNLSIIDTLPTATGGTPFQREVWKTLRTIPCGQVMHYGQLAEQLGRPGAARAVGAANGSNPISIVVPCHRVIGRNGTMTGYAGGVQRKEWLLRHEGYLLL" [] ["CCO-CYTOSOL"] +"EG10669-MONOMER" "outer membrane protein A" ["Tut", "Con", "TolG", "OmpA", "outer membrane protein II*", "polypeptide II*", "protein II*", "outer membrane protein D", "outer membrane protein 3a", "outer membrane protein O-10", "outer membrane protein B", "outer membrane protein d"] "MKKTAIAIAVALAGFATVAQAAPKDNTWYTGAKLGWSQYHDTGFINNNGPTHENQLGAGAFGGYQVNPYVGFEMGYDWLGRMPYKGSVENGAYKAQGVQLTAKLGYPITDDLDIYTRLGGMVWRADTKSNVYGKNHDTGVSPVFAGGVEYAITPEIATRLEYQWTNNIGDAHTIGTRPDNGMLSLGVSYRFGQGEAAPVVAPAPAPAPEVQTKHFTLKSDVLFNFNKATLKPEGQAALDQLYSQLSNLDPKDGSVVVLGYTDRIGSDAYNQGLSERRAQSVVDYLISKGIPADKISARGMGESNPVTGNTCDNVKQRAALIDCLAPDRRVEIEVKGIKDVVTQPQA" ["CCO-PERI-BAC", "CCO-OUTER-MEM", "CCO-MEMBRANE"] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"EG10670-MONOMER" "outer membrane porin C" ["Par", "MeoA", "outer membrane protein A2", "outer membrane protein Ib", "outer membrane protein 4", "outer membrane protein 0-8", "OmpC"] "MKVKVLSLLVPALLVAGAANAAEVYNKDGNKLDLYGKVDGLHYFSDNKDVDGDQTYMRLGFKGETQVTDQLTGYGQWEYQIQGNSAENENNSWTRVAFAGLKFQDVGSFDYGRNYGVVYDVTSWTDVLPEFGGDTYGSDNFMQQRGNGFATYRNTDFFGLVDGLNFAVQYQGKNGNPSGEGFTSGVTNNGRDALRQNGDGVGGSITYDYEGFGIGGAISSSKRTDAQNTAAYIGNGDRAETYTGGLKYDANNIYLAAQYTQTYNATRVGSLGWANKAQNFEAVAQYQFDFGLRPSLAYLQSKGKNLGRGYDDEDILKYVDVGATYYFNKNMSTYVDYKINLLDDNQFTRDAGINTDNIVALGLVYQF" ["CCO-OUTER-MEM"] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"EG10671-MONOMER" "outer membrane porin F" ["NfxB", "TolF", "Cry", "CmlB", "outer membrane protein F", "colB", "outer membrane protein A1", "outer membrane protein 1a", "outer membrane protein 4", "outer membrane protein b", "outer membrane protein 0-9", "OmpF", "matrix porin"] "MMKRNILAVIVPALLVAGTANAAEIYNKDGNKVDLYGKAVGLHYFSKGNGENSYGGNGDMTYARLGFKGETQINSDLTGYGQWEYNFQGNNSEGADAQTGNKTRLAFAGLKYADVGSFDYGRNYGVVYDALGYTDMLPEFGGDTAYSDDFFVGRVGGVATYRNSNFFGLVDGLNFAVQYLGKNERDTARRSNGDGVGGSISYEYEGFGIVGAYGAADRTNLQEAQPLGNGKKAEQWATGLKYDANNIYLAANYGETRNATPITNKFTNTSGFANKTQDVLLVAQYQFDFGLRPSIAYTKSKAKDVEGIGDVDLVNYFEVGATYYFNKNMSTYVDYIINQIDSDNKLGVGSDDTVAVGIVYQF" ["CCO-OUTER-MEM", "CCO-MEMBRANE"] ["CCO-OUTER-MEM", "CCO-MEMBRANE"] +"EG10673-MONOMER" "DLP12 prophage; protease 7" ["OmpT", "omptin", "outer membrane protease VII (outer membrane protein 3b)"] "MRAKLLGIVLTTPIAISSFASTETLSFTPDNINADISLGTLSGKTKERVYLAEEGGRKVSQLDWKFNNAAIIKGAINWDLMPQISIGAAGWTTLGSRGGNMVDQDWMDSSNPGTWTDESRHPDTQLNYANEFDLNIKGWLLNEPNYRLGLMAGYQESRYSFTARGGSYIYSSEEGFRDDIGSFPNGERAIGYKQRFKMPYIGLTGSYRYEDFELGGTFKYSGWVESSDNDEHYDPGKRITYRSKVKDQNYYSVAVNAGYYVTPNAKVYVEGAWNRVTNKKGNTSLYDHNNNTSDYSKNGAGIENYNFITTAGLKYTF" ["CCO-OUTER-MEM"] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"EG10679-MONOMER" "osmotically-inducible lipoprotein OsmB" ["OsmB"] "MFVTSKKMTAAVLAITLAMSLSACSNWSKRDRNTAIGAGAGALGGAVLTDGSTLGTLGGAAVGGVIGHQVGK" ["CCO-OUTER-MEM"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE", "CCO-PERI-BAC"] +"EG10680-MONOMER" "osmotically inducible peroxiredoxin OsmC" ["OsmC", "osmotically inducible protein"] "MTIHKKGQAHWEGDIKRGKGTVSTESGVLNQQPYGFNTRFEGEKGTNPEELIGAAHAACFSMALSLMLGEAGFTPTSIDTTADVSLDKVDAGFAITKIALKSEVAVPGIDASTFDGIIQKAKAGCPVSQVLKAEITLDYQLKS" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10684-MONOMER" "peptidoglycan-associated outer membrane lipoprotein Pal" ["ExcC", "protein 21K", "Pal - outer membrane lipoprotein of the Tol-Pal system"] "MQLNKVLKGLMIALPVMAIAACSSNKNASNDGSEGMLGAGTGMDANGGNGNMSSEEQARLQMQQLQQNNIVYFDLDKYDIRSDFAQMLDAHANFLRSNPSYKVTVEGHADERGTPEYNISLGERRANAVKMYLQGKGVSADQISIVSYGKEKPAVLGHDEAAYSKNRRAVLVY" ["CCO-OUTER-MEM"] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"EG10686-MONOMER" "DNA topoisomerase IV subunit A" ["ParC", "DNA topoisomerase 4 subunit A"] "MSDMAERLALHEFTENAYLNYSMYVIMDRALPFIGDGLKPVQRRIVYAMSELGLNASAKFKKSARTVGDVLGKYHPHGDSACYEAMVLMAQPFSYRYPLVDGQGNWGAPDDPKSFAAMRYTESRLSKYSELLLSELGQGTADWVPNFDGTLQEPKMLPARLPNILLNGTTGIAVGMATDIPPHNLREVAQAAIALIDQPKTTLDQLLDIVQGPDYPTEAEIITSRAEIRKIYENGRGSVRMRAVWKKEDGAVVISALPHQVSGARVLEQIAAQMRNKKLPMVDDLRDESDHENPTRLVIVPRSNRVDMDQVMNHLFATTDLEKSYRINLNMIGLDGRPAVKNLLEILSEWLVFRRDTVRRRLNYRLEKVLKRLHILEGLLVAFLNIDEVIEIIRNEDEPKPALMSRFGLTETQAEAILELKLRHLAKLEEMKIRGEQSELEKERDQLQGILASERKMNNLLKKELQADAQAYGDDRRSPLQEREEAKAMSEHDMLPSEPVTIVLSQMGWVRSAKGHDIDAPGLNYKAGDSFKAAVKGKSNQPVVFVDSTGRSYAIDPITLPSARGQGEPLTGKLTLPPGATVDHMLMESDDQKLLMASDAGYGFVCTFNDLVARNRAGKALITLPENAHVMPPVVIEDASDMLLAITQAGRMLMFPVSDLPQLSKGKGNKIINIPSAEAARGEDGLAQLYVLPPQSTLTIHVGKRKIKLRPEELQKVTGERGRRGTLMRGLQRIDRVEIDSPRRASSGDSEE" ["CCO-PM-BAC-NEG", "CCO-CYTOSOL"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG", "CCO-CYTOSOL"] +"EG10687-MONOMER" "DNA topoisomerase IV subunit B" ["NfxD", "ParE"] "MTQTYNADAIEVLTGLEPVRRRPGMYTDTTRPNHLGQEVIDNSVDEALAGHAKRVDVILHADQSLEVIDDGRGMPVDIHPEEGVPAVELILCRLHAGGKFSNKNYQFSGGLHGVGISVVNALSKRVEVNVRRDGQVYNIAFENGEKVQDLQVVGTCGKRNTGTSVHFWPDETFFDSPRFSVSRLTHVLKAKAVLCPGVEITFKDEINNTEQRWCYQDGLNDYLAEAVNGLPTLPEKPFIGNFAGDTEAVDWALLWLPEGGELLTESYVNLIPTMQGGTHVNGLRQGLLDAMREFCEYRNILPRGVKLSAEDIWDRCAYVLSVKMQDPQFAGQTKERLSSRQCAAFVSGVVKDAFILWLNQNVQAAELLAEMAISSAQRRMRAAKKVVRKKLTSGPALPGKLADCTAQDLNRTELFLVEGDSAGGSAKQARDREYQAIMPLKGKILNTWEVSSDEVLASQEVHDISVAIGIDPDSDDLSQLRYGKICILADADSDGLHIATLLCALFVKHFRALVKHGHVYVALPPLYRIDLGKEVYYALTEEEKEGVLEQLKRKKGKPNVQRFKGLGEMNPMQLRETTLDPNTRRLVQLTIDDEDDQRTDAMMDMLLAKKRSEDRRNWLQEKGDMAEIEV" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10689-MONOMER" "L-isoaspartate protein carboxylmethyltransferase type II" ["Pcm"] "MVSRRVQALLDQLRAQGIQDEQVLNALAAVPREKFVDEAFEQKAWDNIALPIGQGQTISQPYMVARMTELLELTPQSRVLEIGTGSGYQTAILAHLVQHVCSVERIKGLQWQARRRLKNLDLHNVSTRHGDGWQGWQARAPFDAIIVTAAPPEIPTALMTQLDEGGILVLPVGEEHQYLKRVRRRGGEFIIDTVEAVRFVPLVKGELA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10690-MONOMER" "poly(A) polymerase I" ["PcnB", "PAP I"] "MFTRVANFCRKVLSREESEAEQAVARPQVTVIPREQHAISRKDISENALKVMYRLNKAGYEAWLVGGGVRDLLLGKKPKDFDVTTNATPEQVRKLFRNCRLVGRRFRLAHVMFGPEIIEVATFRGHHEGNVSDRTTSQRGQNGMLLRDNIFGSIEEDAQRRDFTINSLYYSVADFTVRDYVGGMKDLKDGVIRLIGNPETRYREDPVRMLRAVRFAAKLGMRISPETAEPIPRLATLLNDIPPARLFEESLKLLQAGYGYETYKLLCEYHLFQPLFPTITRYFTENGDSPMERIIEQVLKNTDTRIHNDMRVNPAFLFAAMFWYPLLETAQKIAQESGLTYHDAFALAMNDVLDEACRSLAIPKRLTTLTRDIWQLQLRMSRRQGKRAWKLLEHPKFRAAYDLLALRAEVERNAELQRLVKWWGEFQVSAPPDQKGMLNELDEEPSPRRRTRRPRKRAPRREGTA" ["CCO-CYTOSOL"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG", "CCO-CYTOSOL"] +"EG10694-MONOMER" "aminopeptidase A/I" ["PepA", "XerB", "CarP"] "MEFSVKSGSPEKQRSACIVVGVFEPRRLSPIAEQLDKISDGYISALLRRGELEGKPGQTLLLHHVPNVLSERILLIGCGKERELDERQYKQVIQKTINTLNDTGSMEAVCFLTELHVKGRNNYWKVRQAVETAKETLYSFDQLKTNKSEPRRPLRKMVFNVPTRRELTSGERAIQHGLAIAAGIKAAKDLGNMPPNICNAAYLASQARQLADSYSKNVITRVIGEQQMKELGMHSYLAVGQGSQNESLMSVIEYKGNASEDARPIVLVGKGLTFDSGGISIKPSEGMDEMKYDMCGAAAVYGVMRMVAELQLPINVIGVLAGCENMPGGRAYRPGDVLTTMSGQTVEVLNTDAEGRLVLCDVLTYVERFEPEAVIDVATLTGACVIALGHHITGLMANHNPLAHELIAASEQSGDRAWRLPLGDEYQEQLESNFADMANIGGRPGGAITAGCFLSRFTRKYNWAHLDIAGTAWRSGKAKGATGRPVALLAQFLLNRAGFNGEE" [] ["CCO-CYTOSOL"] +"EG10695-MONOMER" "peptidase D" ["PepD", "PepH"] "MSELSQLSPQPLWDIFAKICSIPHPSYHEEQLAEYIVGWAKEKGFHVERDQVGNILIRKPATAGMENRKPVVLQAHLDMVPQKNNDTVHDFTKDPIQPYIDGEWVKARGTTLGADNGIGMASALAVLADENVVHGPLEVLLTMTEEAGMDGAFGLQGNWLQADILINTDSEEEGEIYMGCAGGIDFTSNLHLDREAVPAGFETFKLTLKGLKGGHSGGEIHVGLGNANKLLVRFLAGHAEELDLRLIDFNGGTLRNAIPREAFATIAVAADKVDVLKSLVNTYQEILKNELAEKEKNLALLLDSVANDKAALIAKSRDTFIRLLNATPNGVIRNSDVAKGVVETSLNVGVVTMTDNNVEIHCLIRSLIDSGKDYVVSMLDSLGKLAGAKTEAKGAYPGWQPDANSPVMHLVRETYQRLFNKTPNIQIIHAGLECGLFKKPYPEMDMVSIGPTITGPHSPDEQVHIESVGHYWTLLTELLKEIPAK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10696-MONOMER" "aminopeptidase N" ["PepN", "α-aminoacylpeptide hydrolase"] "MTQQPQAKYRHDYRAPDYQITDIDLTFDLDAQKTVVTAVSQAVRHGASDAPLRLNGEDLKLVSVHINDEPWTAWKEEEGALVISNLPERFTLKIINEISPAANTALEGLYQSGDALCTQCEAEGFRHITYYLDRPDVLARFTTKIIADKIKYPFLLSNGNRVAQGELENGRHWVQWQDPFPKPCYLFALVAGDFDVLRDTFTTRSGREVALELYVDRGNLDRAPWAMTSLKNSMKWDEERFGLEYDLDIYMIVAVDFFNMGAMENKGLNIFNSKYVLARTDTATDKDYLDIERVIGHEYFHNWTGNRVTCRDWFQLSLKEGLTVFRDQEFSSDLGSRAVNRINNVRTMRGLQFAEDASPMAHPIRPDMVIEMNNFYTLTVYEKGAEVIRMIHTLLGEENFQKGMQLYFERHDGSAATCDDFVQAMEDASNVDLSHFRRWYSQSGTPIVTVKDDYNPETEQYTLTISQRTPATPDQAEKQPLHIPFAIELYDNEGKVIPLQKGGHPVNSVLNVTQAEQTFVFDNVYFQPVPALLCEFSAPVKLEYKWSDQQLTFLMRHARNDFSRWDAAQSLLATYIKLNVARHQQGQPLSLPVHVADAFRAVLLDEKIDPALAAEILTLPSVNEMAELFDIIDPIAIAEVREALTRTLATELADELLAIYNANYQSEYRVEHEDIAKRTLRNACLRFLAFGETHLADVLVSKQFHEANNMTDALAALSAAVAAQLPCRDALMQEYDDKWHQNGLVMDKWFILQATSPAANVLETVRGLLQHRSFTMSNPNRIRSLIGAFAGSNPAAFHAEDGSGYLFLVEMLTDLNSRNPQVASRLIEPLIRLKRYDAKRQEKMRAALEQLKGLENLSGDLYEKITKALA" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"EG10697-MONOMER" "Xaa-Pro aminopeptidase" ["PepP", "proline aminopeptidase P II"] "MSEISRQEFQRRRQALVEQMQPGSAALIFAAPEVTRSADSEYPYRQNSDFWYFTGFNEPEAVLVLIKSDDTHNHSVLFNRVRDLTAEIWFGRRLGQDAAPEKLGVDRALAFSEINQQLYQLLNGLDVVYHAQGEYAYADVIVNSALEKLRKGSRQNLTAPATMIDWRPVVHEMRLFKSPEEIAVLRRAGEITAMAHTRAMEKCRPGMFEYHLEGEIHHEFNRHGARYPSYNTIVGSGENGCILHYTENECEMRDGDLVLIDAGCEYKGYAGDITRTFPVNGKFTQAQREIYDIVLESLETSLRLYRPGTSILEVTGEVVRIMVSGLVKLGILKGDVDELIAQNAHRPFFMHGLSHWLGLDVHDVGVYGQDRSRILEPGMVLTVEPGLYIAPDAEVPEQYRGIGIRIEDDIVITETGNENLTASVVKKPEEIEALMVAARKQ" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10698-MONOMER" "Xaa-Pro dipeptidase" ["PepQ"] "MESLASLYKNHIATLQERTRDALARFKLDALLIHSGELFNVFLDDHPYPFKVNPQFKAWVPVTQVPNCWLLVDGVNKPKLWFYLPVDYWHNVEPLPTSFWTEDVEVIALPKADGIGSLLPAARGNIGYIGPVPERALQLGIEASNINPKGVIDYLHYYRSFKTEYELACMREAQKMAVNGHRAAEEAFRSGMSEFDINIAYLTATGHRDTDVPYSNIVALNEHAAVLHYTKLDHQAPEEMRSFLLDAGAEYNGYAADLTRTWSAKSDNDYAQLVKDVNDEQLALIATMKAGVSYVDYHIQFHQRIAKLLRKHQIITDMSEEAMVENDLTGPFMPHGIGHPLGLQVHDVAGFMQDDSGTHLAAPAKYPYLRCTRILQPGMVLTIEPGIYFIESLLAPWREGQFSKHFNWQKIEALKPFGGIRIEDNVVIHENNVENMTRDLKLA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10711-MONOMER" "zinc ribbon domain-containing protein YjdM" ["YjdM", "PhnA"] "MSLPHCPKCNSEYTYEDNGMYICPECAYEWNDAEPAQESDELIVKDANGNLLADGDSVTIIKDLKVKGSSSMLKIGTKVKNIRLVEGDHNIDCKIDGFGPMKLKSEFVKKN" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10712-MONOMER" "PF06983 family protein YjdN" ["YjdN", "PhnB"] "MPLSPYLSFAGNCSDAIAYYQRTLGAELLYKISFGEMPKSAQDSAENCPSGMQFPDTAIAHANVRIAGSDIMMSDAMPSGKASYSGFTLVLDSQQVEEGKRWFDNLAANGKIEMAWQETFWAHGFGKVTDKFGVPWMINVVKQQPTQ" [] ["CCO-CYTOSOL"] +"EG10715-MONOMER" "putative transcriptional regulator PhnF" ["PhnF"] "MHLSTHPTSYPTRYQEIAAKLEQELRQHYRCGDYLPAEQQLAARFEVNRHTLRRAIDQLVEKGWVQRRQGVGVLVLMRPFDYPLNAQARFSQNLLDQGSHPTSEKLLSVLRPASGHVADALGITEGENVIHLRTLRRVNGVALCLIDHYFADLTLWPTLQRFDSGSLHDFLREQTGIALRRSQTRISARRAQAKECQRLEIPNMSPLLCVRTLNHRDGESSPAEYSVSLTRADMIEFTMEH" [] ["CCO-CYTOSOL"] +"EG10716-MONOMER" "carbon-phosphorus lyase core complex subunit PhnG" ["PhnG", "PhnG subunit of methylphosphonate degradation complex"] "MHADTATRQHWMSVLAHSQPAELAARLNALNITADYEVIRAAETGLVQIQARMGGTGERFFAGDATLTRAAVRLTDGTLGYSWVQGRDKQHAERCALIDALMQQSRHFQNLSETLIAPLDADRMARIAARQAEVNASRVDFFTMVRGDNA" [] ["CCO-CYTOSOL"] +"EG10717-MONOMER" "carbon-phosphorus lyase core complex subunit PhnH" ["PhnH", "PhnH subunit of methylphosphonate degradation complex"] "MTLETAFMLPVQDAQHSFRRLLKAMSEPGVIVALHQLKRGWQPLNIATTSVLLTLADNDTPVWLSTPLNNDIVNQSLRFHTNAPLVSQPEQATFAVTDEAISSEQLNALSTGTAVAPEAGATLILQVASLSGGRMLRLTGAGIAEERMIAPQLPECILHELTERPHPFPLGIDLILTCGERLLAIPRTTHVEVC" [] ["CCO-CYTOSOL"] +"EG10718-MONOMER" "carbon-phosphorus lyase core complex subunit PhnI" ["PhnI", "PhnI subunit of methylphosphonate degradation complex"] "MYVAVKGGEKAIDAAHALQESRRRGDTDLPELSVAQIEQQLNLAVDRVMTEGGIADRELAALALKQASGDNVEAIFLLRAYRTTLAKLAVSEPLDTTGMRLERRISAVYKDIPGGQLLGPTYDYTHRLLDFTLLANGEAPTLTTADSEQQPSPHVFSLLARQGLAKFEEDSGAQPDDITRTPPVYPCSRSSRLQQLMRGDEGYLLALAYSTQRGYGRNHPFAGEIRSGYIDVSIVPEELGFAVNVGELLMTECEMVNGFIDPPGEPPHFTRGYGLVFGMSERKAMAMALVDRALQAPEYGEHATGPAQDEEFVLAHADNVEAAGFVSHLKLPHYVDFQAELELLKRLQQEQNHG" [] ["CCO-CYTOSOL"] +"EG10719-MONOMER" "carbon-phosphorus lyase core complex subunit PhnJ" ["PhnJ"] "MANLSGYNFAYLDEQTKRMIRRAILKAVAIPGYQVPFGGREMPMPYGWGTGGIQLTASVIGESDVLKVIDQGADDTTNAVSIRNFFKRVTGVNTTERTDDATVIQTRHRIPETPLTEDQIIIFQVPIPEPLRFIEPRETETRTMHALEEYGVMQVKLYEDIARFGHIATTYAYPVKVNGRYVMDPSPIPKFDNPKMDMMPALQLFGAGREKRIYAVPPFTRVESLDFDDHPFTVQQWDEPCAICGSTHSYLDEVVLDDAGNRMFVCSDTDYCRQQSEAKNQ" [] ["CCO-CYTOSOL"] +"EG10722-MONOMER" "RPnTP hydrolase" ["PhnM"] "MIINNVKLVLENEVVSGSLEVQNGEIRAFAESQSRLPEAMDGEGGWLLPGLIELHTDNLDKFFTPRPKVDWPAHSAMSSHDALMVASGITTVLDAVAIGDVRDGGDRLENLEKMINAIEETQKRGVNRAEHRLHLRCELPHHTTLPLFEKLVQREPVTLVSLMDHSPGQRQFANREKYREYYQGKYSLTDAQMQQYEEEQLALAARWSQPNRESIAALCRARKIALASHDDATHAHVAESHQLGSVIAEFPTTFEAAEASRKHGMNVLMGAPNIVRGGSHSGNVAASELAQLGLLDILSSDYYPASLLDAAFRVADDQSNRFTLPQAVKLVTKNPAQALNLQDRGVIGEGKRADLVLAHRKDNHIHIDHVWRQGKRVF" [] ["CCO-CYTOSOL"] +"EG10723-MONOMER" null ["PhnN"] "MMGKLIWLMGPSGSGKDSLLAELRLREQTQLLVAHRYITRDASAGSENHIALSEQEFFTRAGQNLLALSWHANGLYYGVGVEIDLWLHAGFDVLVNGSRAHLPQARARYQSALLPVCLQVSPEILRQRLENRGRENASEINARLARAARYTPQDCHTLNNDGSLRQSVDTLLTLIHQKEKHHACL" [] ["CCO-CYTOSOL"] +"EG10724-MONOMER" "aminoalkylphosphonate N-acetyltransferase" ["PhnO"] "MPACELRPATQYDTDAVYALICELKQAEFDHHAFRVGFNANLRDPNMRYHLALLDGEVVGMIGLHLQFHLHHVNWIGEIQELVVMPQARGLNVGSKLLAWAEEEARQAGAEMTELSTNVKRHDAHRFYLREGYEQSHFRFTKAL" [] ["CCO-CYTOSOL"] +"EG10725-MONOMER" "5-phospho-α-D-ribosyl 1,2-cyclic phosphate phosphodiesterase" ["PhnP"] "MSLTLTLTGTGGAQGVPAWGCECAACARARRSPQYRRQPCSGVVKFNDAITLIDAGLHDLADRWSPGSFQQFLLTHYHMDHVQGLFPLRWGVGDPIPVYGPPDEQGCDDLFKHPGLLDFSHTVEPFVVFDLQGLQVTPLPLNHSKLTFGYLLETAHSRVAWLSDTAGLPEKTLKFLRNNQPQVMVMDCSHPPRADAPRNHCDLNTVLALNQVIRSPRVILTHISHQFDAWLMENALPSGFEVGFDGMEIGVA" [] ["CCO-CYTOSOL"] +"EG10735-MONOMER" "negative regulator of the pho regulon" ["Pst", "PhoT", "PhoU"] "MDSLNLNKHISGQFNAELESIRTQVMTMGGMVEQQLSDAITAMHNQDSDLAKRVIEGDKNVNMMEVAIDEACVRIIAKRQPTASDLRLVMVISKTIAELERIGDVADKICRTALEKFSQQHQPLLVSLESLGRHTIQMLHDVLDAFARMDIDEAVRIYREDKKVDQEYEGIVRQLMTYMMEDSRTIPSVLTALFCARSIERIGDRCQNICEFIFYYVKGQDFRHVGGDELDKLLAGKDSDK" ["CCO-CYTOSOL", "CCO-PM-BAC-NEG"] ["CCO-CYTOSOL"] +"EG10736-MONOMER" "deoxyribodipyrimidine photolyase" ["Phr", "PhrB"] "MTTHLVWFRQDLRLHDNLALAAACRNSSARVLALYIATPRQWATHNMSPRQAELINAQLNGLQIALAEKGIPLLFREVDDFVASVEIVKQVCAENSVTHLFYNYQYEVNERARDVEVERALRNVVCEGFDDSVILPPGAVMTGNHEMYKVFTPFKNAWLKRLREGMPECVAAPKVRSSGSIEPSPSITLNYPRQSFDTAHFPVEEKAAIAQLRQFCQNGAGEYEQQRDFPAVEGTSRLSASLATGGLSPRQCLHRLLAEQPQALDGGAGSVWLNELIWREFYRHLITYHPSLCKHRPFIAWTDRVQWQSNPAHLQAWQEGKTGYPIVDAAMRQLNSTGWMHNRLRMITASFLVKDLLIDWREGERYFMSQLIDGDLAANNGGWQWAASTGTDAAPYFRIFNPTTQGEKFDHEGEFIRQWLPELRDVPGKVVHEPWKWAQKAGVTLDYPQPIVEHKEARVQTLAAYEAARKGK" [] ["CCO-CYTOSOL"] +"EG10737-MONOMER" "e14 prophage; site-specific DNA recombinase" ["PinE", "Pin"] "MLIGYVRVSTNDQNTDLQRNALNCAGCELIFEDKISGTKSERPGLKKLLRTLSAGDTLVVWKLDRLGRSMRHLVVLVEELRERGINFRSLTDSIDTSTPMGRFFFHVMGALAEMERELIVERTKAGLETARAQGRIGGRRPKLTPEQWAQAGRLIAAGTPRQKVAIIYDVGVSTLYKRFPAGDK" [] ["CCO-CYTOSOL"] +"EG10739-MONOMER" "lysophospholipase L2" ["PldB"] "MFQQQKDWETRENAFAAFTMGPLTDFWRQRDEAEFTGVDDIPVRFVRFRAQHHDRVVVICPGRIESYVKYAELAYDLFHLGFDVLIIDHRGQGRSGRLLADPHLGHVNRFNDYVDDLAAFWQQEVQPGPWRKRYILAHSMGGAISTLFLQRHPGVCDAIALTAPMFGIVIRMPSFMARQILNWAEAHPRFRDGYAIGTGRWRALPFAINVLTHSRQRYRRNLRFYADDPTIRVGGPTYHWVRESILAGEQVLAGAGDDATPTLLLQAEEERVVDNRMHDRFCELRTAAGHPVEGGRPLVIKGAYHEILFEKDAMRSVALHAIVDFFNRHNSPSGNRSTEV" ["CCO-MEMBRANE"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG10741-MONOMER" "metalloprotease subunit TldE" ["Mcb", "TldE", "PmbA", "protease involved in Microcin B17 maturation and in sensitivity to the DNA gyrase inhibitor LetD"] "MALAMKVISQVEAQRKILEEAVSTALELASGKSDGAEVAVSKTTGISVSTRYGEVENVEFNSDGALGITVYHQNRKGSASSTDLSPQAIARTVQAALDIARYTSPDPCAGVADKELLAFDAPDLDLFHPAEVSPDEAIELAARAEQAALQADKRITNTEGGSFNSHYGVKVFGNSHGMLQGYCSTRHSLSSCVIAEENGDMERDYAYTIGRAMSDLQTPEWVGADCARRTLSRLSPRKLSTMKAPVIFANEVATGLFGHLVGAIAGGSVYRKSTFLLDSLGKQILPDWLTIEEHPHLLKGLASTPFDSEGVRTERRDIIKDGILTQWLLTSYSARKLGLKSTGHAGGIHNWRIAGQGLSFEQMLKEMGTGLVVTELMGQGVSAITGDYSRGAAGFWVENGEIQYPVSEITIAGNLKDMWRNIVTVGNDIETRSNIQCGSVLLPEMKIAGQ" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10743-MONOMER" "polynucleotide phosphorylase" ["Bfl", "Pnp"] "MLNPIVRKFQYGQHTVTLETGMMARQATAAVMVSMDDTAVFVTVVGQKKAKPGQDFFPLTVNYQERTYAAGRIPGSFFRREGRPSEGETLIARLIDRPIRPLFPEGFVNEVQVIATVVSVNPQVNPDIVAMIGASAALSLSGIPFNGPIGAARVGYINDQYVLNPTQDELKESKLDLVVAGTEAAVLMVESEAQLLSEDQMLGAVVFGHEQQQVVIQNINELVKEAGKPRWDWQPEPVNEALNARVAALAEARLSDAYRITDKQERYAQVDVIKSETIATLLAEDETLDENELGEILHAIEKNVVRSRVLAGEPRIDGREKDMIRGLDVRTGVLPRTHGSALFTRGETQALVTATLGTARDAQVLDELMGERTDTFLFHYNFPPYSVGETGMVGSPKRREIGHGRLAKRGVLAVMPDMDKFPYTVRVVSEITESNGSSSMASVCGASLALMDAGVPIKAAVAGIAMGLVKEGDNYVVLSDILGDEDHLGDMDFKVAGSRDGISALQMDIKIEGITKEIMQVALNQAKGARLHILGVMEQAINAPRGDISEFAPRIHTIKINPDKIKDVIGKGGSVIRALTEETGTTIEIEDDGTVKIAATDGEKAKHAIRRIEEITAEIEVGRVYTGKVTRIVDFGAFVAIGGGKEGLVHISQIADKRVEKVTDYLQMGQEVPVKVLEVDRQGRIRLSIKEATEQSQPAAAPEAPAAEQGE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10746-MONOMER" "DNA polymerase I" ["ResA", "PolA", "DNA polymerase I, 5' --> 3' polymerase, 5' --> 3' and 3' --> 5' exonuclease"] "MVQIPQNPLILVDGSSYLYRAYHAFPPLTNSAGEPTGAMYGVLNMLRSLIMQYKPTHAAVVFDAKGKTFRDELFEHYKSHRPPMPDDLRAQIEPLHAMVKAMGLPLLAVSGVEADDVIGTLAREAEKAGRPVLISTGDKDMAQLVTPNITLINTMTNTILGPEEVVNKYGVPPELIIDFLALMGDSSDNIPGVPGVGEKTAQALLQGLGGLDTLYAEPEKIAGLSFRGAKTMAAKLEQNKEVAYLSYQLATIKTDVELELTCEQLEVQQPAAEELLGLFKKYEFKRWTADVEAGKWLQAKGAKPAAKPQETSVADEAPEVTATVISYDNYVTILDEETLKAWIAKLEKAPVFAFDTETDSLDNISANLVGLSFAIEPGVAAYIPVAHDYLDAPDQISRERALELLKPLLEDEKALKVGQNLKYDRGILANYGIELRGIAFDTMLESYILNSVAGRHDMDSLAERWLKHKTITFEEIAGKGKNQLTFNQIALEEAGRYAAEDADVTLQLHLKMWPDLQKHKGPLNVFENIEMPLVPVLSRIERNGVKIDPKVLHNHSEELTLRLAELEKKAHEIAGEEFNLSSTKQLQTILFEKQGIKPLKKTPGGAPSTSEEVLEELALDYPLPKVILEYRGLAKLKSTYTDKLPLMINPKTGRVHTSYHQAVTATGRLSSTDPNLQNIPVRNEEGRRIRQAFIAPEDYVIVSADYSQIELRIMAHLSRDKGLLTAFAEGKDIHRATAAEVFGLPLETVTSEQRRSAKAINFGLIYGMSAFGLARQLNIPRKEAQKYMDLYFERYPGVLEYMERTRAQAKEQGYVETLDGRRLYLPDIKSSNGARRAAAERAAINAPMQGTAADIIKRAMIAVDAWLQAEQPRVRMIMQVHDELVFEVHKDDVDAVAKQIHQLMENCTRLDVPLLVEVGSGENWDQAH" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10747-MONOMER" "DNA polymerase II" ["DinA", "PolB"] "MAQAGFILTRHWRDTPQGTEVSFWLATDNGPLQVTLAPQESVAFIPADQVPRAQHILQGEQGFRLTPLALKDFHRQPVYGLYCRAHRQLMNYEKRLREGGVTVYEADVRPPERYLMERFITSPVWVEGDMHNGTIVNARLKPHPDYRPPLKWVSIDIETTRHGELYCIGLEGCGQRIVYMLGPENGDASSLDFELEYVASRPQLLEKLNAWFANYDPDVIIGWNVVQFDLRMLQKHAERYRLPLRLGRDNSELEWREHGFKNGVFFAQAKGRLIIDGIEALKSAFWNFSSFSLETVAQELLGEGKSIDNPWDRMDEIDRRFAEDKPALATYNLKDCELVTQIFHKTEIMPFLLERATVNGLPVDRHGGSVAAFGHLYFPRMHRAGYVAPNLGEVPPHASPGGYVMDSRPGLYDSVLVLDYKSLYPSIIRTFLIDPVGLVEGMAQPDPEHSTEGFLDAWFSREKHCLPEIVTNIWHGRDEAKRQGNKPLSQALKIIMNAFYGVLGTTACRFFDPRLASSITMRGHQIMRQTKALIEAQGYDVIYGDTDSTFVWLKGAHSEEEAAKIGRALVQHVNAWWAETLQKQRLTSALELEYETHFCRFLMPTIRGADTGSKKRYAGLIQEGDKQRMVFKGLETVRTDWTPLAQQFQQELYLRIFRNEPYQEYVRETIDKLMAGELDARLVYRKRLRRPLSEYQRNVPPHVRAARLADEENQKRGRPLQYQNRGTIKYVWTTNGPEPLDYQRSPLDYEHYLTRQLQPVAEGILPFIEDNFATLMTGQLGLF" [] ["CCO-CYTOSOL"] +"EG10748-MONOMER" "peptidoglycan glycosyltransferase / peptidoglycan DD-transpeptidase MrcA" ["PonA", "MrcA", "PBP1a", "penicillin binding protein 1a"] "MKFVKYFLILAVCCILLGAGSIYGLYRYIEPQLPDVATLKDVRLQIPMQIYSADGELIAQYGEKRRIPVTLDQIPPEMVKAFIATEDSRFYEHHGVDPVGIFRAASVALFSGHASQGASTITQQLARNFFLSPERTLMRKIKEVFLAIRIEQLLTKDEILELYLNKIYLGYRAYGVGAAAQVYFGKTVDQLTLNEMAVIAGLPKAPSTFNPLYSMDRAVARRNVVLSRMLDEGYITQQQFDQTRTEAINANYHAPEIAFSAPYLSEMVRQEMYNRYGESAYEDGYRIYTTITRKVQQAAQQAVRNNVLDYDMRHGYRGPANVLWKVGESAWDNNKITDTLKALPTYGPLLPAAVTSANPQQATAMLADGSTVALSMEGVRWARPYRSDTQQGPTPRKVTDVLQTGQQIWVRQVGDAWWLAQVPEVNSALVSINPQNGAVMALVGGFDFNQSKFNRATQALRQVGSNIKPFLYTAAMDKGLTLASMLNDVPISRWDASAGSDWQPKNSPPQYAGPIRLRQGLGQSKNVVMVRAMRAMGVDYAAEYLQRFGFPAQNIVHTESLALGSASFTPMQVARGYAVMANGGFLVDPWFISKIENDQGGVIFEAKPKVACPECDIPVIYGDTQKSNVLENNDVEDVAISREQQNVSVPMPQLEQANQALVAKTGAQEYAPHVINTPLAFLIKSALNTNIFGEPGWQGTGWRAGRDLQRRDIGGKTGTTNSSKDAWFSGYGPGVVTSVWIGFDDHRRNLGHTTASGAIKDQISGYEGGAKSAQPAWDAYMKAVLEGVPEQPLTPPPGIVTVNIDRSTGQLANGGNSREEYFIEGTQPTQQAVHEVGTTIIDNGEAQELF" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG10757-MONOMER" "peptidyl-prolyl cis-trans isomerase A" ["Rot", "RotA", "PpiA", "rotamase A"] "MFKSTLAAMAAVFALSALSPAAMAAKGDPHVLLTTSAGNIELELDKQKAPVSVQNFVDYVNSGFYNNTTFHRVIPGFMIQGGGFTEQMQQKKPNPPIKNEADNGLRNTRGTIAMARTADKDSATSQFFINVADNAFLDHGQRDFGYAVFGKVVKGMDVADKISQVPTHDVGPYQNVPSKPVVILSAKVLP" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"EG10758-MONOMER" "peptidyl-prolyl cis-trans isomerase B" ["PpiB", "rotamase B"] "MVTFHTNHGDIVIKTFDDKAPETVKNFLDYCREGFYNNTIFHRVINGFMIQGGGFEPGMKQKATKEPIKNEANNGLKNTRGTLAMARTQAPHSATAQFFINVVDNDFLNFSGESLQGWGYCVFAEVVDGMDVVDKIKGVATGRSGMHQDVPKEDVIIESVTVSE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10760-MONOMER" "tail-specific protease" ["Tsp", "Prc", "c-terminal processing peptidase", "protease Re"] "MNMFFRLTALAGLLAIAGQTFAVEDITRADQIPVLKEETQHATVSERVTSRFTRSHYRQFDLDQAFSAKIFDRYLNLLDYSHNVLLASDVEQFAKKKTELGDELRSGKLDVFYDLYNLAQKRRFERYQYALSVLEKPMDFTGNDTYNLDRSKAPWPKNEAELNALWDSKVKFDELSLKLTGKTDKEIRETLTRRYKFAIRRLAQTNSEDVFSLAMTAFAREIDPHTNYLSPRNTEQFNTEMSLSLEGIGAVLQMDDDYTVINSMVAGGPAAKSKAISVGDKIVGVGQTGKPMVDVIGWRLDDVVALIKGPKGSKVRLEILPAGKGTKTRTVTLTRERIRLEDRAVKMSVKTVGKEKVGVLDIPGFYVGLTDDVKVQLQKLEKQNVSSVIIDLRSNGGGALTEAVSLSGLFIPAGPIVQVRDNNGKVREDSDTDGQVFYKGPLVVLVDRFSASASEIFAAAMQDYGRALVVGEPTFGKGTVQQYRSLNRIYDQMLRPEWPALGSVQYTIQKFYRVNGGSTQRKGVTPDIIMPTGNEETETGEKFEDNALPWDSIDAATYVKSGDLTAFEPELLKEHNARIAKDPEFQNIMKDIARFNAMKDKRNIVSLNYAVREKENNEDDATRLARLNERFKREGKPELKKLDDLPKDYQEPDPYLDETVNIALDLAKLEKARPAEQPAPVK" ["CCO-PERI-BAC"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE", "CCO-PERI-BAC"] +"EG10761-MONOMER" "peptide chain release factor RF1" ["Uar", "SueB", "PrfA"] "MKPSIVAKLEALHERHEEVQALLGDAQTIADQERFRALSREYAQLSDVSRCFTDWQQVQEDIETAQMMLDDPEMREMAQDELREAKEKSEQLEQQLQVLLLPKDPDDERNAFLEVRAGTGGDEAALFAGDLFRMYSRYAEARRWRVEIMSASEGEHGGYKEIIAKISGDGVYGRLKFESGGHRVQRVPATESQGRIHTSACTVAVMPELPDAELPDINPADLRIDTFRSSGAGGQHVNTTDSAIRITHLPTGIVVECQDERSQHKNKAKALSVLGARIHAAEMAKRQQAEASTRRNLLGSGDRSDRNRTYNFPQGRVTDHRINLTLYRLDEVMEGKLDMLIEPIIQEHQADQLAALSEQE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10762-MONOMER" "peptide chain release factor RF2" ["SupK", "PrfB", "RF2"] "MFEINPVNNRIQDLTERSDVLRGYLDYDAKKERLEEVNAELEQPDVWNEPERAQALGKERSSLEAVVDTLDQMKQGLEDVSGLLELAVEADDEETFNEAVAELDALEEKLAQLEFRRMFSGEYDSADCYLDIQAGSGGTEAQDWASMLERMYLRWAESRGFKTEIIEESEGEVAGIKSVTIKISGDYAYGWLRTETGVHRLVRKSPFDSGGRRHTSFSSAFVYPEVDDDIDIEINPADLRIDVYRTSGAGGQHVNRTESAVRITHIPTGIVTQCQNDRSQHKNKDQAMKQMKAKLYELEMQKKNAEKQAMEDNKSDIGWGSQIRSYVLDDSRIKDLRTGVETRNTQAVLDGSLDQFIEASLKAGL" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10763-MONOMER" "primosomal protein N'" ["SrgA", "replication factor Y", "PriA"] "MPVAHVALPVPLPRTFDYLLPEGMTVKAGCRVRVPFGKQQERIGIVVSVSDASELPLNELKAVVEVLDSEPVFTHSVWRLLLWAADYYHHPIGDVLFHALPILLRQGRPAANAPMWYWFATEQGQAVDLNSLKRSPKQQQALAALRQGKIWRDQVATLEFNDAALQALRKKGLCDLASETPEFSDWRTNYAVSGERLRLNTEQATAVGAIHSAADTFSAWLLAGVTGSGKTEVYLSVLENVLAQGKQALVMVPEIGLTPQTIARFRERFNAPVEVLHSGLNDSERLSAWLKAKNGEAAIVIGTRSALFTPFKNLGVIVIDEEHDSSYKQQEGWRYHARDLAVYRAHSEQIPIILGSATPALETLCNVQQKKYRLLRLTRRAGNARPAIQHVLDLKGQKVQAGLAPALITRMRQHLQADNQVILFLNRRGFAPALLCHDCGWIAECPRCDHYYTLHQAQHHLRCHHCDSQRPVPRQCPSCGSTHLVPVGLGTEQLEQTLAPLFPGVPISRIDRDTTSRKGALEQQLAEVHRGGARILIGTQMLAKGHHFPDVTLVALLDVDGALFSADFRSAERFAQLYTQVAGRAGRAGKQGEVVLQTHHPEHPLLQTLLYKGYDAFAEQALAERRMMQLPPWTSHVIVRAEDHNNQHAPLFLQQLRNLILSSPLADEKLWVLGPVPALAPKRGGRWRWQILLQHPSRVRLQHIINGTLALINTIPDSRKVKWVLDVDPIEG" [] ["CCO-CYTOSOL"] +"EG10764-MONOMER" "primosomal replication protein N" ["PriB"] "MTNRLVLSGTVCRAPLRKVSPSGIPHCQFVLEHRSVQEEAGFHRQAWCQMPVIVSGHENQAITHSITVGSRITVQGFISCHKAKNGLSKMVLHAEQIELIDSGD" [] ["CCO-CYTOSOL"] +"EG10765-MONOMER" "primosomal replication protein N''" ["PriC"] "MKTALLLEKLEGQLATLRQRCAPVSQFATLSARFDRHLFQTRATTLQACLDEAGDNLAALRHAVEQQQLPQVAWLAEHLAAQLEAIAREASAWSLREWDSAPPKIARWQRKRIQHQDFERRLREMVAERRARLARVTDLVEQQTLHREVEAYEARLARCRHALEKIENRLARLTR" [] ["CCO-CYTOSOL"] +"EG10776-MONOMER" "phage shock protein A" ["Cog", "PspA", "regulatory protein for the phage shock operon, protects membrane integrity"] "MGIFSRFADIVNANINALLEKAEDPQKLVRLMIQEMEDTLVEVRSTSARALAEKKQLTRRIEQASAREVEWQEKAELALLKEREDLARAALIEKQKLTDLIKSLEHEVTLVDDTLARMKKEIGELENKLSETRARQQALMLRHQAANSSRDVRRQLDSGKLDEAMARFESFERRIDQMEAEAESHSFGKQKSLDDQFAELKADDAISEQLAQLKAKMKQDNQ" ["CCO-PM-BAC-NEG", "CCO-CYTOSOL"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE", "CCO-CYTOSOL"] +"EG10777-MONOMER" "phage shock protein B" ["PspB", "phage shock protein B / antitoxin of a putative PspC-PspB toxin-antitoxin pair"] "MSALFLAIPLTIFVLFVLPIWLWLHYSNRSGRSELSQSEQQRLAQLADEAKRMRERIQALESILDAEHPNWRDR" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"EG10778-MONOMER" "phage shock protein C" ["PspC"] "MAGINLNKKLWRIPQQGMVRGVCAGIANYFDVPVKLVRILVVLSIFFGLALFTLVAYIILSFALDPMPDNMAFGEQLPSSSELLDEVDRELAASETRLREMERYVTSDTFTLRSRFRQL" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-CYTOSOL", "CCO-PM-BAC-NEG"] +"EG10779-MONOMER" "phage shock protein D" ["PspD"] "MNTRWQQAGQKVKPGFKLAGKLVLLTALRYGPAGVAGWAIKSVARRPLKMLLAVALEPLLSRAANKLAQRYKR" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-CYTOSOL", "CCO-PM-BAC-NEG"] +"EG10780-MONOMER" "thiosulfate sulfurtransferase PspE" ["PspE"] "MFKKGLLALALVFSLPVFAAEHWIDVRVPEQYQQEHVQGAINIPLKEVKERIATAVPDKNDTVKVYCNAGRQSGQAKEILSEMGYTHVENAGGLKDIAMPKVKG" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"EG10785-MONOMER" "peptidyl-tRNA hydrolase" ["Rap", "Pth"] "MTIKLIVGLANPGAEYAATRHNAGAWFVDLLAERLRAPLREEAKFFGYTSRVTLGGEDVRLLVPTTFMNLSGKAVAAMASFFRINPDEILVAHDELDLPPGVAKFKLGGGHGGHNGLKDIISKLGNNPNFHRLRIGIGHPGDKNKVVGFVLGKPPVSEQKLIDEAIDEAARCTEMWFTDGLTKATNRLHAFKAQ" [] ["CCO-CYTOSOL"] +"EG10786-MONOMER" "protease 3" ["PtrA", "Ptr", "Pitrilysin", "Protease pi", "protease III"] "MPRSTWFKALLLLVALWAPLSQAETGWQPIQETIRKSDKDNRQYQAIRLDNGMVVLLVSDPQAVKSLSALVVPVGSLEDPEAYQGLAHYLEHMSLMGSKKYPQADSLAEYLKMHGGSHNASTAPYRTAFYLEVENDALPGAVDRLADAIAEPLLDKKYAERERNAVNAELTMARTRDGMRMAQVSAETINPAHPGSKFSGGNLETLSDKPGNPVQQALKDFHEKYYSANLMKAVIYSNKPLPELAKMAADTFGRVPNKESKKPEITVPVVTDAQKGIIIHYVPALPRKVLRVEFRIDNNSAKFRSKTDELITYLIGNRSPGTLSDWLQKQGLVEGISANSDPIVNGNSGVLAISASLTDKGLANRDQVVAAIFSYLNLLREKGIDKQYFDELANVLDIDFRYPSITRDMDYVEWLADTMIRVPVEHTLDAVNIADRYDAKAVKERLAMMTPQNARIWYISPKEPHNKTAYFVDAPYQVDKISAQTFADWQKKAADIALSLPELNPYIPDDFSLIKSEKKYDHPELIVDESNLRVVYAPSRYFASEPKADVSLILRNPKAMDSARNQVMFALNDYLAGLALDQLSNQASVGGISFSTNANNGLMVNANGYTQRLPQLFQALLEGYFSYTATEDQLEQAKSWYNQMMDSAEKGKAFEQAIMPAQMLSQVPYFSRDERRKILPSITLKEVLAYRDALKSGARPEFMVIGNMTEAQATTLARDVQKQLGADGSEWCRNKDVVVDKKQSVIFEKAGNSTDSALAAVFVPTGYDEYTSSAYSSLLGQIVQPWFYNQLRTEEQLGYAVFAFPMSVGRQWGMGFLLQSNDKQPSFLWERYKAFFPTAEAKLRAMKPDEFAQIQQAVITQMLQAPQTLGEEASKLSKDFDRGNMRFDSRDKIVAQIKLLTPQKLADFFHQAVVEPQGMAILSQISGSQNGKAEYVHPEGWKVWENVSALQQTMPLMSEKNE" ["CCO-CYTOSOL", "CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"EG10812-MONOMER" null ["TsaA", "QueA"] "MRVTDFSFELPESLIAHYPMPERSSCRLLSLDGPTGALTHGTFTDLLDKLNPGDLLVFNNTRVIPARLFGRKASGGKIEVLVERMLDDKRILAHIRASKAPKPGAELLLGDDESINATMTARHGALFEVEFNDERSVLDILNSIGHMPLPPYIDRPDEDADRELYQTVYSEKPGAVAAPTAGLHFDEPLLEKLRAKGVEMAFVTLHVGAGTFQPVRVDTIEDHIMHSEYAEVPQDVVDAVLAAKARGNRVIAVGTTSVRSLESAAQAAKNDLIEPFFDDTQIFIYPGFQYKVVDALVTNFHLPESTLIMLVSAFAGYQHTMNAYKAAVEEKYRFFSYGDAMFITYNPQAINERVGE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10813-MONOMER" "Rac prophage; protein RacC" ["RacC", "SbcA"] "MITNYEATVVTTDDIVHEVNLEGKRIGYVIKTENKETPFTVVDIDGPSGNVKTLDEGVKKMCLVHIGKNLPAEKKAEFLATLIAMKLKGEI" [] ["CCO-CYTOSOL"] +"EG10817-MONOMER" "D-ribose pyranase" ["RbsP", "RbsD"] "MKKGTVLNSDISSVISRLGHTDTLVVCDAGLPIPKSTTRIDMALTQGVPSFMQVLGVVTNEMQVEAAIIAEEIKHHNPQLHETLLTHLEQLQKHQGNTIEIRYTTHEQFKQQTAESQAVIRSGECSPYANIILCAGVTF" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10823-MONOMER" "DNA recombination/repair protein RecA" ["Tif", "UmuB", "Zab", "Srf", "RnmB", "RecH", "LexB", "RecA"] "MAIDENKQKALAAALGQIEKQFGKGSIMRLGEDRSMDVETISTGSLSLDIALGAGGLPMGRIVEIYGPESSGKTTLTLQVIAAAQREGKTCAFIDAEHALDPIYARKLGVDIDNLLCSQPDTGEQALEICDALARSGAVDVIVVDSVAALTPKAEIEGEIGDSHMGLAARMMSQAMRKLAGNLKQSNTLLIFINQIRMKIGVMFGNPETTTGGNALKFYASVRLDIRRIGAVKEGENVVGSETRVKVVKNKIAAPFKQAEFQILYGEGINFYGELVDLGVKEKLIEKAGAWYSYKGEKIGQGKANATAWLKDNPETAKEIEKKVRELLLSNPNSTPDFSVDDSEGVAETNEDF" [] ["CCO-CYTOSOL"] +"EG10824-MONOMER" "exodeoxyribonuclease V subunit RecB" ["Ior", "RorA", "RecB"] "MSDVAETLDPLRLPLQGERLIEASAGTGKTFTIAALYLRLLLGLGGSAAFPRPLTVEELLVVTFTEAATAELRGRIRSNIHELRIACLRETTDNPLYERLLEEIDDKAQAAQWLLLAERQMDEAAVFTIHGFCQRMLNLNAFESGMLFEQQLIEDESLLRYQACADFWRRHCYPLPREIAQVVFETWKGPQALLRDINRYLQGEAPVIKAPPPDDETLASRHAQIVARIDTVKQQWRDAVGELDALIESSGIDRRKFNRSNQAKWIDKISAWAEEETNSYQLPESLEKFSQRFLEDRTKAGGETPRHPLFEAIDQLLAEPLSIRDLVITRALAEIRETVAREKRRRGELGFDDMLSRLDSALRSESGEVLAAAIRTRFPVAMIDEFQDTDPQQYRIFRRIWHHQPETALLLIGDPKQAIYAFRGADIFTYMKARSEVHAHYTLDTNWRSAPGMVNSVNKLFSQTDDAFMFREIPFIPVKSAGKNQALRFVFKGETQPAMKMWLMEGESCGVGDYQSTMAQVCAAQIRDWLQAGQRGEALLMNGDDARPVRASDISVLVRSRQEAAQVRDALTLLEIPSVYLSNRDSVFETLEAQEMLWLLQAVMTPERENTLRSALATSMMGLNALDIETLNNDEHAWDVVVEEFDGYRQIWRKRGVMPMLRALMSARNIAENLLATAGGERRLTDILHISELLQEAGTQLESEHALVRWLSQHILEPDSNASSQQMRLESDKHLVQIVTIHKSKGLEYPLVWLPFITNFRVQEQAFYHDRHSFEAVLDLNAAPESVDLAEAERLAEDLRLLYVALTRSVWHCSLGVAPLVRRRGDKKGDTDVHQSALGRLLQKGEPQDAAGLRTCIEALCDDDIAWQTAQTGDNQPWQVNDVSTAELNAKTLQRLPGDNWRVTSYSGLQQRGHGIAQDLMPRLDVDAAGVASVVEEPTLTPHQFPRGASPGTFLHSLFEDLDFTQPVDPNWVREKLELGGFESQWEPVLTEWITAVLQAPLNETGVSLSQLSARNKQVEMEFYLPISEPLIASQLDTLIRQFDPLSAGCPPLEFMQVRGMLKGFIDLVFRHEGRYYLLDYKSNWLGEDSSAYTQQAMAAAMQAHRYDLQYQLYTLALHRYLRHRIADYDYEHHFGGVIYLFLRGVDKEHPQQGIYTTRPNAGLIALMDEMFAGMTLEEA" [] ["CCO-CYTOSOL"] +"EG10825-MONOMER" "exodeoxyribonuclease V subunit RecC" ["RecC"] "MLRVYHSNRLDVLEALMEFIVERERLDDPFEPEMILVQSTGMAQWLQMTLSQKFGIAANIDFPLPASFIWDMFVRVLPEIPKESAFNKQSMSWKLMTLLPQLLEREDFTLLRHYLTDDSDKRKLFQLSSKAADLFDQYLVYRPDWLAQWETGHLVEGLGEAQAWQAPLWKALVEYTHQLGQPRWHRANLYQRFIETLESATTCPPGLPSRVFICGISALPPVYLQALQALGKHIEIHLLFTNPCRYYWGDIKDPAYLAKLLTRQRRHSFEDRELPLFRDSENAGQLFNSDGEQDVGNPLLASWGKLGRDYIYLLSDLESSQELDAFVDVTPDNLLHNIQSDILELENRAVAGVNIEEFSRSDNKRPLDPLDSSITFHVCHSPQREVEVLHDRLLAMLEEDPTLTPRDIIVMVADIDSYSPFIQAVFGSAPADRYLPYAISDRRARQSHPVLEAFISLLSLPDSRFVSEDVLALLDVPVLAARFDITEEGLRYLRQWVNESGIRWGIDDDNVRELELPATGQHTWRFGLTRMLLGYAMESAQGEWQSVLPYDESSGLIAELVGHLASLLMQLNIWRRGLAQERPLEEWLPVCRDMLNAFFLPDAETEAAMTLIEQQWQAIIAEGLGAQYGDAVPLSLLRDELAQRLDQERISQRFLAGPVNICTLMPMRSIPFKVVCLLGMNDGVYPRQLAPLGFDLMSQKPKRGDRSRRDDDRYLFLEALISAQQKLYISYIGRSIQDNSERFPSVLVQELIDYIGQSHYLPGDEALNCDESEARVKAHLTCLHTRMPFDPQNYQPGERQSYAREWLPAASQAGKAHSEFVQPLPFTLPETVPLETLQRFWAHPVRAFFQMRLQVNFRTEDSEIPDTEPFILEGLSRYQINQQLLNALVEQDDAERLFRRFRAAGDLPYGAFGEIFWETQCQEMQQLADRVIACRQPGQSMEIDLACNGVQITGWLPQVQPDGLLRWRPSLLSVAQGMQLWLEHLVYCASGGNGESRLFLRKDGEWRFPPLAAEQALHYLSQLIEGYREGMSAPLLVLPESGGAWLKTCYDAQNDAMLDDDSTLQKARTKFLQAYEGNMMVRGEGDDIWYQRLWRQLTPETMEAIVEQSQRFLLPLFRFNQS" [] ["CCO-CYTOSOL"] +"EG10826-MONOMER" "exodeoxyribonuclease V subunit RecD" ["HopE", "RecD"] "MKLQKQLLEAVEHKQLRPLDVQFALTVAGDEHPAVTLAAALLSHDAGEGHVCLPLSRLENNEASHPLLATCVSEIGELQNWEECLLASQAVSRGDEPTPMILCGDRLYLNRMWCNERTVARFFNEVNHAIEVDEALLAQTLDKLFPVSDEINWQKVAAAVALTRRISVISGGPGTGKTTTVAKLLAALIQMADGERCRIRLAAPTGKAAARLTESLGKALRQLPLTDEQKKRIPEDASTLHRLLGAQPGSQRLRHHAGNPLHLDVLVVDEASMIDLPMMSRLIDALPDHARVIFLGDRDQLASVEAGAVLGDICAYANAGFTAERARQLSRLTGTHVPAGTGTEAASLRDSLCLLQKSYRFGSDSGIGQLAAAINRGDKTAVKTVFQQDFTDIEKRLLQSGEDYIAMLEEALAGYGRYLDLLQARAEPDLIIQAFNEYQLLCALREGPFGVAGLNERIEQFMQQKRKIHRHPHSRWYEGRPVMIARNDSALGLFNGDIGIALDRGQGTRVWFAMPDGNIKSVQPSRLPEHETTWAMTVHKSQGSEFDHAALILPSQRTPVVTRELVYTAVTRARRRLSLYADERILSAAIATRTERRSGLAALFSSRE" [] ["CCO-CYTOSOL"] +"EG10827-MONOMER" "Rac prophage; exonuclease VIII, ds DNA exonuclease, 5' --> 3' specific" ["RmuB", "Rac", "SbcA", "RecE"] "MSTKPLFLLRKAKKSSGEPDVVLWASNDFESTCATLDYLIVKSGKKLSSYFKAVATNFPVVNDLPAEGEIDFTWSERYQLSKDSMTWELKPGAAPDNAHYQGNTNVNGEDMTEIEENMLLPISGQELPIRWLAQHGSEKPVTHVSRDGLQALHIARAEELPAVTALAVSHKTSLLDPLEIRELHKLVRDTDKVFPNPGNSNLGLITAFFEAYLNADYTDRGLLTKEWMKGNRVSHITRTASGANAGGGNLTDRGEGFVHDLTSLARDVATGVLARSMDLDIYNLHPAHAKRIEEIIAENKPPFSVFRDKFITMPGGLDYSRAIVVASVKEAPIGIEVIPAHVTEYLNKVLTETDHANPDPEIVDIACGRSSAPMPQRVTEEGKQDDEEKPQPSGTTAVEQGEAETMEPDATEHHQDTQPLDAQSQVNSVDAKYQELRAELHEARKNIPSKNPVDDDKLLAASRGEFVDGISDPNDPKWVKGIQTRDCVYQNQPETEKTSPDMNQPEPVVQQEPEIACNACGQTGGDNCPDCGAVMGDATYQETFDEESQVEAKENDPEEMEGAEHPHNENAGSDPHRDCSDETGEVADPVIVEDIEPGIYYGISNENYHAGPGISKSQLDDIADTPALYLWRKNAPVDTTKTKTLDLGTAFHCRVLEPEEFSNRFIVAPEFNRRTNAGKEEEKAFLMECASTGKTVITAEEGRKIELMYQSVMALPLGQWLVESAGHAESSIYWEDPETGILCRCRPDKIIPEFHWIMDVKTTADIQRFKTAYYDYRYHVQDAFYSDGYEAQFGVQPTFVFLVASTTIECGRYPVEIFMMGEEAKLAGQQEYHRNLRTLSDCLNTDEWPAIKTLSLPRWAKEYAND" [] ["CCO-CYTOSOL"] +"EG10828-MONOMER" "DNA repair protein RecF" ["UvrF", "RecF"] "MSLTRLLIRDFRNIETADLALSPGFNFLVGANGSGKTSVLEAIYTLGHGRAFRSLQIGRVIRHEQEAFVLHGRLQGEERETAIGLTKDKQGDSKVRIDGTDGHKVAELAHLMPMQLITPEGFTLLNGGPKYRRAFLDWGCFHNEPGFFTAWSNLKRLLKQRNAALRQVTRYEQLRPWDKELIPLAEQISTWRAEYSAGIAADMADTCKQFLPEFSLTFSFQRGWEKETEYAEVLERNFERDRQLTYTAHGPHKADLRIRADGAPVEDTLSRGQLKLLMCALRLAQGEFLTRESGRRCLYLIDDFASELDDERRGLLASRLKATQSQVFVSAISAEHVIDMSDENSKMFTVEKGKITD" [] ["CCO-CYTOSOL"] +"EG10829-MONOMER" "ATP-dependent DNA helicase RecG" ["SpoV", "RadC", "RecG"] "MKGRLLDAVPLSSLTGVGAALSNKLAKINLHTVQDLLLHLPLRYEDRTHLYPIGELLPGVYATVEGEVLNCNISFGGRRMMTCQISDGSGILTMRFFNFSAAMKNSLAAGRRVLAYGEAKRGKYGAEMIHPEYRVQGDLSTPELQETLTPVYPTTEGVKQATLRKLTDQALDLLDTCAIEELLPPELSQGMMTLPEALRTLHRPPPTLQLSDLETGQHPAQRRLILEELLAHNLSMLALRAGAQRFHAQPLSANDTLKNKLLAALPFKPTGAQARVVAEIERDMALDVPMMRLVQGDVGSGKTLVAALAALRAIAHGKQVALMAPTELLAEQHANNFRNWFAPLGIEVGWLAGKQKGKARLAQQEAIASGQVQMIVGTHAIFQEQVQFNGLALVIIDEQHRFGVHQRLALWEKGQQQGFHPHQLIMTATPIPRTLAMTAYADLDTSVIDELPPGRTPVTTVAIPDTRRTDIIDRVHHACITEGRQAYWVCTLIEESELLEAQAAEATWEELKLALPELNVGLVHGRMKPAEKQAVMASFKQGELHLLVATTVIEVGVDVPNASLMIIENPERLGLAQLHQLRGRVGRGAVASHCVLLYKTPLSKTAQIRLQVLRDSNDGFVIAQKDLEIRGPGELLGTRQTGNAEFKVADLLRDQAMIPEVQRLARHIHERYPQQAKALIERWMPETERYSNA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10830-MONOMER" "ssDNA-specific exonuclease RecJ" ["RecJ"] "MKQQIQLRRREVDETADLPAELPPLLRRLYASRGVRSAQELERSVKGMLPWQQLSGVEKAVEILYNAFREGTRIIVVGDFDADGATSTALSVLAMRSLGCSNIDYLVPNRFEDGYGLSPEVVDQAHARGAQLIVTVDNGISSHAGVEHARSLGIPVIVTDHHLPGDTLPAAEAIINPNLRDCNFPSKSLAGVGVAFYLMLALRTFLRDQGWFDERNIAIPNLAELLDLVALGTVADVVPLDANNRILTWQGMSRIRAGKCRPGIKALLEVANRDAQKLAASDLGFALGPRLNAAGRLDDMSVGVALLLCDNIGEARVLANELDALNQTRKEIEQGMQIEALTLCEKLERSRDTLPGGLAMYHPEWHQGVVGILASRIKERFHRPVIAFAPAGDGTLKGSGRSIQGLHMRDALERLDTLYPGMMLKFGGHAMAAGLSLEEDKFKLFQQRFGELVTEWLDPSLLQGEVVSDGPLSPAEMTMEVAQLLRDAGPWGQMFPEPLFDGHFRLLQQRLVGERHLKVMVEPVGGGPLLDGIAFNVDTALWPDNGVREVQLAYKLDINEFRGNRSLQIIIDNIWPI" [] ["CCO-CYTOSOL"] +"EG10831-MONOMER" "DNA repair protein RecN" ["RadB", "RecN"] "MLAQLTISNFAIVRELEIDFHSGMTVITGETGAGKSIAIDALGLCLGGRAEADMVRTGAARADLCARFSLKDTPAALRWLEENQLEDGHECLLRRVISSDGRSRGFINGTAVPLSQLRELGQLLIQIHGQHAHQLLTKPEHQKFLLDGYANETSLLQEMTARYQLWHQSCRDLAHHQQLSQERAARAELLQYQLKELNEFNPQPGEFEQIDEEYKRLANSGQLLTTSQNALALMADGEDANLQSQLYTAKQLVSELIGMDSKLSGVLDMLEEATIQIAEASDELRHYCDRLDLDPNRLFELEQRISKQISLARKHHVSPEALPQYYQSLLEEQQQLDDQADSQETLALAVTKHHQQALEIARALHQQRQQYAEELAQLITDSMHALSMPHGQFTIDVKFDEHHLGADGADRIEFRVTTNPGQPMQPIAKVASGGELSRIALAIQVITARKMETPALIFDEVDVGISGPTAAVVGKLLRQLGESTQVMCVTHLPQVAGCGHQHYFVSKETDGAMTETHMQSLNKKARLQELARLLGGSEVTRNTLANAKELLAA" ["CCO-BAC-NUCLEOID", "CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10832-MONOMER" "DNA repair protein RecO" ["RecO"] "MEGWQRAFVLHSRPWSETSLMLDVFTEESGRVRLVAKGARSKRSTLKGALQPFTPLLLRFGGRGEVKTLRSAEAVSLALPLSGITLYSGLYINELLSRVLEYETRFSELFFDYLHCIQSLAGVTGTPEPALRRFELALLGHLGYGVNFTHCAGSGEPVDDTMTYRYREEKGFIASVVIDNKTFTGRQLKALNAREFPDADTLRAAKRFTRMALKPYLGGKPLKSRELFRQFMPKRTVKTHYE" [] ["CCO-BAC-NUCLEOID", "CCO-CYTOSOL"] +"EG10833-MONOMER" "ATP-dependent DNA helicase RecQ" ["RecQ"] "MAQAEVLNLESGAKQVLQETFGYQQFRPGQEEIIDTVLSGRDCLVVMPTGGGKSLCYQIPALLLNGLTVVVSPLISLMKDQVDQLQANGVAAACLNSTQTREQQLEVMTGCRTGQIRLLYIAPERLMLDNFLEHLAHWNPVLLAVDEAHCISQWGHDFRPEYAALGQLRQRFPTLPFMALTATADDTTRQDIVRLLGLNDPLIQISSFDRPNIRYMLMEKFKPLDQLMRYVQEQRGKSGIIYCNSRAKVEDTAARLQSKGISAAAYHAGLENNVRADVQEKFQRDDLQIVVATVAFGMGINKPNVRFVVHFDIPRNIESYYQETGRAGRDGLPAEAMLFYDPADMAWLRRCLEEKPQGQLQDIERHKLNAMGAFAEAQTCRRLVLLNYFGEGRQEPCGNCDICLDPPKQYDGSTDAQIALSTIGRVNQRFGMGYVVEVIRGANNQRIRDYGHDKLKVYGMGRDKSHEHWVSVIRQLIHLGLVTQNIAQHSALQLTEAARPVLRGESSLQLAVPRIVALKPKAMQKSFGGNYDRKLFAKLRKLRKSIADESNVPPYVVFNDATLIEMAEQMPITASEMLSVNGVGMRKLERFGKPFMALIRAHVDGDDEE" ["CCO-BAC-NUCLEOID", "CCO-CYTOSOL"] ["CCO-BAC-NUCLEOID", "CCO-CYTOSOL"] +"EG10834-MONOMER" "DNA repair protein RecR" ["RecR"] "MQTSPLLTQLMEALRCLPGVGPKSAQRMAFTLLQRDRSGGMRLAQALTRAMSEIGHCADCRTFTEQEVCNICSNPRRQENGQICVVESPADIYAIEQTGQFSGRYFVLMGHLSPLDGIGPDDIGLDRLEQRLAEEKITEVILATNPTVEGEATANYIAELCAQYDVEASRIAHGVPVGGELEMVDGTTLSHSLAGRHKIRF" [] ["CCO-CYTOSOL"] +"EG10836-MONOMER" "Qin prophage; antitoxin/DNA-binding transcriptional repressor RelB" ["RelB", "Qin prophage, antitoxin of the RelE-RelB toxin-antitoxin system and DNA binding transcriptional repressor RelB", "Qin prophage, antitoxin RelB"] "MGSINLRIDDELKARSYAALEKMGVTPSEALRLMLEYIADNERLPFKQTLLSDEDAELVEIVKERLRNPKPVRVTLDEL" [] ["CCO-CYTOSOL"] +"EG10837-MONOMER" "ATP-dependent DNA helicase Rep" ["MmrA", "MbrA", "DasC", "Rep", "Rep helicase, a single-stranded DNA-dependent ATPase"] "MRLNPGQQQAVEFVTGPCLVLAGAGSGKTRVITNKIAHLIRGCGYQARHIAAVTFTNKAAREMKERVGQTLGRKEARGLMISTFHTLGLDIIKREYAALGMKANFSLFDDTDQLALLKELTEGLIEDDKVLLQQLISTISNWKNDLKTPSQAAASAIGERDRIFAHCYGLYDAHLKACNVLDFDDLILLPTLLLQRNEEVRKRWQNKIRYLLVDEYQDTNTSQYELVKLLVGSRARFTVVGDDDQSIYSWRGARPQNLVLLSQDFPALKVIKLEQNYRSSGRILKAANILIANNPHVFEKRLFSELGYGAELKVLSANNEEHEAERVTGELIAHHFVNKTQYKDYAILYRGNHQSRVFEKFLMQNRIPYKISGGTSFFSRPEIKDLLAYLRVLTNPDDDSAFLRIVNTPKREIGPATLKKLGEWAMTRNKSMFTASFDMGLSQTLSGRGYEALTRFTHWLAEIQRLAEREPIAAVRDLIHGMDYESWLYETSPSPKAAEMRMKNVNQLFSWMTEMLEGSELDEPMTLTQVVTRFTLRDMMERGESEEELDQVQLMTLHASKGLEFPYVYMVGMEEGFLPHQSSIDEDNIDEERRLAYVGITRAQKELTFTLCKERRQYGELVRPEPSRFLLELPQDDLIWEQERKVVSAEERMQKGQSHLANLKAMMAAKRGK" [] ["CCO-CYTOSOL"] +"EG10838-MONOMER" "ADP-L-glycero-D-mannoheptose 6-epimerase" ["HldD", "WaaD", "NbsB", "HtrM", "RfaD"] "MIIVTGGAGFIGSNIVKALNDKGITDILVVDNLKDGTKFVNLVDLNIADYMDKEDFLIQIMAGEEFGDVEAIFHEGACSSTTEWDGKYMMDNNYQYSKELLHYCLEREIPFLYASSAATYGGRTSDFIESREYEKPLNVYGYSKFLFDEYVRQILPEANSQIVGFRYFNVYGPREGHKGSMASVAFHLNTQLNNGESPKLFEGSENFKRDFVYVGDVADVNLWFLENGVSGIFNLGTGRAESFQAVADATLAYHKKGQIEYIPFPDKLKGRYQAFTQADLTNLRAAGYDKPFKTVAEGVTEYMAWLNRDA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10839-MONOMER" "transcription antiterminator RfaH" ["SfrB", "HlyT", "RfaH"] "MQSWYLLYCKRGQLQRAQEHLERQAVNCLAPMITLEKIVRGKRTAVSEPLFPNYLFVEFDPEVIHTTTINATRGVSHFVRFGASPAIVPSAVIHQLSVYKPKDIVDPATPYPGDKVIITEGAFEGFQAIFTEPDGEARSMLLLNLINKEIKHSVKNTEFRKL" [] ["CCO-CYTOSOL"] +"EG10841-MONOMER" "flagellar filament capping protein" ["Rfs", "FlbC", "FliD", "HAP2", "hook-associated protein 2"] "MASISSLGVGSGLDLSSILDSLTAAQKATLTPISNQQSSFTAKLSAYGTLKSALTTFQTANTALSKADLFSATSTTSSTTAFSATTAGNAIAGKYTISVTHLAQAQTLTTRTTRDDTKTAIATSDSKLTIQQGGDKDPITIDISAANSSLSGIRDAINNAKAGVSASIINVGNGEYRLSVTSNDTGLDNAMTLSVSGDDALQSFMGYDASASSNGMEVSVAAQNAQLTVNNVAIENSSNTISDALENITLNLNDVTTGNQTLTITQDTSKAQTAIKDWVNAYNSLIDTFSSLTKYTAVDAGADSQSSSNGALLGDSTLRTIQTQLKSMLSNTVSSSSYKTLAQIGITTDPSDGKLELDADKLTAALKKDASGVGALIVGDGKKTGITTTIGSNLTSWLSTTGIIKAATDGVSKTLNKLTKDYNAASDRIDAQVARYKEQFTQLDVLMTSLNSTSSYLTQQFENNSNSK" [] ["CCO-EXTRACELLULAR", "CCO-CELL-PROJECTION"] +"EG10844-MONOMER" "ATP-dependent RNA helicase RhlB" ["MmrA", "RhlB", "ATP-dependent RNA helicase of the RNA degradosome"] "MSKTHLTEQKFSDFALHPKVVEALEKKGFHNCTPIQALALPLTLAGRDVAGQAQTGTGKTMAFLTSTFHYLLSHPAIADRKVNQPRALIMAPTRELAVQIHADAEPLAEATGLKLGLAYGGDGYDKQLKVLESGVDILIGTTGRLIDYAKQNHINLGAIQVVVLDEADRMYDLGFIKDIRWLFRRMPPANQRLNMLFSATLSYRVRELAFEQMNNAEYIEVEPEQKTGHRIKEELFYPSNEEKMRLLQTLIEEEWPDRAIIFANTKHRCEEIWGHLAADGHRVGLLTGDVAQKKRLRILDEFTRGDLDILVATDVAARGLHIPAVTHVFNYDLPDDCEDYVHRIGRTGRAGASGHSISLACEEYALNLPAIETYIGHSIPVSKYNPDALMTDLPKPLRLTRPRTGNGPRRTGAPRNRRRSG" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10845-MONOMER" "transcription termination factor Rho" ["RnsC", "Tsu", "Sun", "NusD", "Psu", "SbaA", "PsuA", "NitA", "Rho", "transcription termination factor Rho; polarity suppressor"] "MNLTELKNTPVSELITLGENMGLENLARMRKQDIIFAILKQHAKSGEDIFGDGVLEILQDGFGFLRSADSSYLAGPDDIYVSPSQIRRFNLRTGDTISGKIRPPKEGERYFALLKVNEVNFDKPENARNKILFENLTPLHANSRLRMERGNGSTEDLTARVLDLASPIGRGQRGLIVAPPKAGKTMLLQNIAQSIAYNHPDCVLMVLLIDERPEEVTEMQRLVKGEVVASTFDEPASRHVQVAEMVIEKAKRLVEHKKDVIILLDSITRLARAYNTVVPASGKVLTGGVDANALHRPKRFFGAARNVEEGGSLTIIATALIDTGSKMDEVIYEEFKGTGNMELHLSRKIAEKRVFPAIDYNRSGTRKEELLTTQEELQKMWILRKIIHPMGEIDAMEFLINKLAMTKTNDDFFEMMKRS" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10846-MONOMER" "rhs element protein RhsA" ["RhsA"] "MSGKPAARQGDMTQYGGSIVQGSAGVRIGAPTGVACSVCPGGVTSGHPVNPLLGAKVLPGETDIALPGPLPFILSRTYSSYRTKTPAPVGSLGPGWKMPADIRLQLRDNTLILSDNGGRSLYFEHLFPGEDGYSRSESLWLVRGGVAKLDEGHRLAALWQALPEELRLSPHRYLATNSPQGPWWLLGWCERVPEADEVLPAPLPPYRVLTGLVDRFGRTQTFHREAAGEFSGEITGVTDGAWRHFRLVLTTQAQRAEEARQQAISGGTEPSAFPDTLPGYTEYGRDNGIRLSAVWLTHDPEYPENLPAAPLVRYGWTPRGELAVVYDRSGKQVRSFTYDDKYRGRMVAHRHTGRPEIRYRYDSDGRVTEQLNPAGLSYTYQYEKDRITITDSLDRREVLHTQGEAGLKRVVKKEHADGSVTQSQFDAVGRLRAQTDAAGRTTEYSPDVVTGLITRITTPDGRASAFYYNHHNQLTSATGPDGLELRREYDELGRLIQETAPDGDITRYRYDNPHSDLPCATEDATGSRKTMTWSRYGQLLSFTDCSGYVTRYDHDRFGQMTAVHREEGLSQYRAYDSRGQLIAVKDTQGHETRYEYNIAGDLTAVIAPDGSRNGTQYDAWGKAVRTTQGGLTRSMEYDAAGRVIRLTSENGSHTTFRYDVLDRLIQETGFDGRTQRYHHDLTGKLIRSEDEGLVTHWHYDEADRLTHRTVKGETAERWQYDERGWLTDISHISEGHRVAVHYRYDEKGRLTGERQTVHHPQTEALLWQHETRHAYNAQGLANRCIPDSLPAVEWLTYGSGYLAGMKLGDTPLVEYTRDRLHRETLRSFGRYELTTAYTPAGQLQSQHLNSLLSDRDYTWNDNGELIRISSPRQTRSYSYSTTGRLTGVHTTAANLDIRIPYATDPAGNRLPDPELHPDSTLSMWPDNRIARDAHYLYRYDRHGRLTEKTDLIPEGVIRTDDERTHRYHYDSQHRLVHYTRTQYEEPLVESRYLYDPLGRRVAKRVWRRERDLTGWMSLSRKPQVTWYGWDGDRLTTIQNDRTRIQTIYQPGSFTPLIRVETATGELAKTQRRSLADALQQSGGEDGGSVVFPPVLVQMLDRLESEILADRVSEESRRWLASCGLTVEQMQNQMDPVYTPARKIHLYHCDHRGLPLALISKEGTTEWCAEYDEWGNLLNEENPHQLQQLIRLPGQQYDEESGLYYNRHRYYDPLQGRYITQDPIGLKGGWNFYQYPLNPVTNTDPLGLEVFPRPFPLPIPWPKSPAQQQADDNAAKALTKWWNDTASQRIFDSLILNNPGLALDITMIASRGNVADTGITDRVNDIINDRFWSDGKKPDRCDVLQELIDCGDISAKDAKSTQKAWNCRHSRQSNDKKR" [] ["CCO-CYTOSOL"] +"EG10847-MONOMER" "rhs element protein RhsB" ["RhsB"] "MSGKPAARQGDMTQYGGSIVQGSAGVRIGAPTGVACSVCPGGVTSGHPVNPLLGAKVLPGETDIALPGPLPFILSRTYSSYRTKTPAPVGSLGPGWKMPADIRLQLRDNTLILSDNGGRSLYFEHLFPGEDGYSRSESLWLVRGGVAKLDEGHRLAALWQALPEELRLSPHRYLATNSPQGPWWLLGWCERVPEADEVLPAPLPPYRVLTGLVDRFGRTQTFHREAAGEFSGEITGVTDGAWRHFRLVLTTQAQRAEEARQQAISGGTEPSAFPDTLPGYTEYGRDNGIRLSAVWLTHDPEYPENLPAAPLVRYGWTPRGELAVVYDRSGKQVRSFTYDDKYRGRMVAHRHTGRPEIRYRYDSDGRVTEQLNPAGLSYTYQYEKDRITITDSLDRREVLHTQGEAGLKRVVKKEHADGSVTQSQFDAVGRLRAQTDAAGRTTEYSPDVVTGLITRITTPDGRASAFYYNHHNQLTSATGPDGLELRREYDELGRLIQETAPDGDITRYRYDNPHSDLPCATEDATGSRKTMTWSRYGQLLSFTDCSGYVTRYDHDRFGQMTAVHREEGLSQYRAYDSRGQLIAVKDTQGHETRYEYNIAGDLTAVIAPDGSRNGTQYDAWGKAVRTTQGGLTRSMEYDAAGRVIRLTSENGSHTTFRYDVLDRLIQETGFDGRTQRYHHDLTGKLIRSEDEGLVTHWHYDEADRLTHRTVKGETAERWQYDERGWLTDISHISEGHRVAVHYRYDEKGRLTGERQTVHHPQTEALLWQHETRHAYNAQGLANRCIPDSLPAVEWLTYGSGYLAGMKLGDTPLVEYTRDRLHRETLRSFGRYELTTAYTPAGQLQSQHLNSLLSDRDYTWNDNGELIRISSPRQTRSYSYSTTGRLTGVHTTAANLDIRIPYATDPAGNRLPDPELHPDSTLSMWPDNRIARDAHYLYRYDRHGRLTEKTDLIPEGVIRTDDERTHRYHYDSQHRLVHYTRTQYEEPLVESRYLYDPLGRRVAKRVWRRERDLTGWMSLSRKPQVTWYGWDGDRLTTIQNDRSRIQTIYQPGSFTPLIRVETATGELAKTQRRSLADALQQSGGEDGGSVVFPPVLVQMLDRLESEILADRVSEESRRWLASCGLTVEQMQNQMDPVYTPARKIHLYHCDHRGLPLALISTEGATAWCAEYDEWGNLLNEENPHQLQQLIRLPGQQYDEESGLYYNRHRYYDPLQGRYITQDPIGLKGGWNLYGYQLNPISDIDPLGLSMWEDAKSGACTNGLCGTLSAMIGPDKFDSIDSTAYDALNKINSQSICEDKEFAGLICKDNSGRYFSTAPNRGERKGSYPFNSPCPNGTEKVSAYHTHGADSHGEYWDEIFSGKDEKIVKSKDNNIKSFYLGTPSGNFKAIDNHGKEITNRKGLPNVCRVHGNM" [] ["CCO-EXTRACELLULAR", "CCO-OUTER-MEM"] +"EG10848-MONOMER" "rhs element protein RhsC" ["RhsC"] "MSGKPAARQGDMTQYGGSIVQGSAGVRIGAPTGVACSVCPGGVTSGHPVNPLLGAKVLPGETDIALPGPLPFILSRTYSSYRTKTPAPVGSLGPGWKMPADIRLQLRDNTLILSDNGGRSLYFEHLFPGEDGYSRSESLWLVRGGVAKLDEGHRLAALWQALPEELRLSPHRYLATNSPQGPWWLLGWCERVPEADEVLPAPLPPYRVLTGLVDRFGRTQTFHREAAGEFSGEITGVTDGAGRHFRLVLTTQAQRAEEARQQAISGGTEPSAFPDTLPGYTEYGRDNGIRLSAVWLTHDPEYPENLPAAPLVRYGWTPRGELAAVYDRSNTQVRSFTYDDKYRGRMVAHRHTGRPEICYRYDSDGRVTEQLNPAGLSYTYQYEKDRITITDSLNRREVLHTQGEGGLKRVVKKEHADGSVTQSQFDAVGRLRAQTDAAGRTTEYSPDVVTGLITRITTPDGRASAFYYNHHSQLTSATGPDGLEIRREYDEWGRLIQETAPDGDITRYRYDNPHSDLPCATEDATGSRKTMTWSRYGQLLSFTDCSGYVTRYDHDRFGQVTAVHREEGLSQYRAYDSRGQLIAVKDTQGHETRYEYNAAGDLTTVIAPDGSRNGTQYDAWGKAICTTQGGLTRSMEYDAAGRVIRLTSENGSHTTFRYDVLDRLIQETGFDGRTQRYHHDLTGKLIRSEDEGLVTHWHYDEADRLTHRTVNGETAERWQYDERGWLTDISHISEGHRVTVHYGYDSKGRLASEHLTVHHPQTNELLWQHETRHAYNAQGLANRCIPDSLPAVEWLTYGSGWLSGMKLGDTPLVEYTRDRLHRETLRSFGRYELTTAYTPAGQLQSQHLNSLLSDRDYTWNDNGELIRISSPRQTRSYSYSTTGRLTGVHTTAANLDIRIPYTTDPAGNRLPDPELHPDSALSMWPDNRIARDAHYLYRYDRHGRLTEKTDLIPEGVIRTDDERTHRYHYDSQHRLVHYTRTQYAEPLVESRYLYDPLGRRVAKRVWRRERDLTGWMSLSRKPQVTWYGWDGDRLTTIQNDRTRIQTIYQPGSFTPLIRVETATGELAKTQRRSLADTLQQSGGEDGGSVVFPPVLVQMLDRLESEILADRVSEESRRWLASCGLTVAQMQSQMDPVYTPARKIHLYHCDHRGLPLALISTEGTTAWYAEYDEWGNLLNEENPHQLQQLIRLPGQQYDEESGLYYNRHRYYDPLQGRYITQDPIGLKGGWNFYQYPLNPISNIDPLGLETLKCIKPLHSMGGTGERSGPDIWGNPFYHQYLCVPDGKGDYTCGGQDQRGESKGDGLWGPGKASNDTKEAAGRCDLVETDNSCVENCLKGKFKEVRPRYSVLPDIFTPINLGLFKNCQDWSNDSLETCKMKCSGNNIGRFIRFVFTGVM" [] ["CCO-CYTOSOL"] +"EG10849-MONOMER" "protein RhsD" ["RhsD"] "MSGKPAARQGDMTQYGGPIVQGSAGVRIGAPTGVACSVCPGGMTSGNPVNPLLGAKVLPGETDLALPGPLPFILSRTYSSYRTKTPAPVGVFGPGWKAPSDIRLQLRDDGLILNDNGGRSIHFEPLLPGEAVYSRSESMWLVRGGKAAQPDGHTLARLWGALPPDIRLSPHLYLATNSAQGPWWILGWSERVPGAEDVLPAPLPPYRVLTGMADRFGRTLTYRREAAGDLAGEITGVTDGAGREFRLVLTTQAQRAEEARTSSLSSSDSSRPLSASAFPDTLPGTEYGPDRGIRLSAVWLMHDPAYPESLPAAPLVRYTYTEAGELLAVYDRSNTQVRAFTYDAQHPGRMVAHRYAGRPEMRYRYDDTGRVVEQLNPAGLSYRYLYEQDRITVTDSLNRREVLHTEGGAGLKRVVKKELADGSVTRSGYDAAGRLTAQTDAAGRRTEYGLNVVSGDITDITTPDGRETKFYYNDGNQLTAVVSPDGLESRREYDEPGRLVSETSRSGETVRYRYDDAHSELPATTTDATGSTRQMTWSRYGQLLAFTDCSGYQTRYEYDRFGQMTAVHREEGISLYRRYDNRGRLTSVKDAQGRETRYEYNAAGDLTAVITPDGNRSETQYDAWGKAVSTTQGGLTRSMEYDAAGRVISLTNENGSHSVFSYDALDRLVQQGGFDGRTQRYHYDLTGKLTQSEDEGLVILWYYDESDRITHRTVNGEPAEQWQYDGHGWLTDISHLSEGHRVAVHYGYDDKGRLTGECQTVENPETGELLWQHETKHAYNEQGLANRVTPDSLPPVEWLTYGSGYLAGMKLGGTPLVEYTRDRLHRETVRSFGSMAGSNAAYELTSTYTPAGQLQSQHLNSLVYDRDYGWSDNGDLVRISGPRQTREYGYSATGRLESVRTLAPDLDIRIPYATDPAGNRLPDPELHPDSTLTVWPDNRIAEDAHYVYRHDEYGRLTEKTDRIPAGVIRTDDERTHHYHYDSQHRLVFYTRIQHGEPLVESRYLYDPLGRRMAKRVWRRERDLTGWMSLSRKPEVTWYGWDGDRLTTVQTDTTRIQTVYEPGSFTPLIRVETENGEREKAQRRSLAETLQQEGSENGHGVVFPAELVRLLDRLEEEIRADRVSSESRAWLAQCGLTVEQLARQVEPEYTPARKAHLYHCDHRGLPLALISEDGNTAWSAEYDEWGNQLNEENPHHVYQPYRLPGQQHDEESGLYYNRHRYYDPLQGRYITQDPMGLKGGWNLYQYPLNPLQQIDPMGLLQTWDDARSGACTGGVCGVLSRIIGPSKFDSTADAALDALKETQNRSLCNDMEYSGIVCKDTNGKYFASKAETDNLRKESYPLKRKCPTGTDRVAAYHTHGADSHGDYVDEFFSSSDKNLVRSKDNNLEAFYLATPDGRFEALNNKGEYIFIRNSVPGLSSVCIPYHD" [] ["CCO-EXTRACELLULAR", "CCO-OUTER-MEM"] +"EG10850-MONOMER" "protein N-acetyltransferase RimI" ["RimI"] "MNTISSLETTDLPAAYHIEQRAHAFPWSEKTFASNQGERYLNFQLTQNGKMAAFAITQVVLDEATLFNIAVDPDYQRQGLGRALLEHLIDELEKRGVATLWLEVRASNAAAIALYESLGFNEATIRRNYYPTTDGREDAIIMALPISM" [] ["CCO-CYTOSOL"] +"EG10851-MONOMER" null ["Tcp", "RimJ"] "MFGYRSNVPKVRLTTDRLVVRLVHDRDAWRLADYYAENRHFLKPWEPVRDESHCYPSGWQARLGMINEFHKQGSAFYFGLFDPDEKEIIGVANFSNVVRGSFHACYLGYSIGQKWQGKGLMFEALTAAIRYMQRTQHIHRIMANYMPHNKRSGDLLARLGFEKEGYAKDYLLIDGQWRDHVLTALTTPDWTPGR" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10852-MONOMER" "ribosomal protein S6 modification protein" ["Nek", "RimK"] "MKIAILSRDGTLYSCKRLREAAIQRGHLVEILDPLSCYMNINPAASSIHYKGRKLPHFDAVIPRIGTAITFYGTAALRQFEMLGSYPLNESVAIARARDKLRSMQLLARQGIDLPVTGIAHSPDDTSDLIDMVGGAPLVVKLVEGTQGIGVVLAETRQAAESVIDAFRGLNAHILVQEYIKEAQGCDIRCLVVGDEVVAAIERRAKEGDFRSNLHRGGAASVASITPQEREIAIKAARTMALDVAGVDILRANRGPLVMEVNASPGLEGIEKTTGIDIAGKMIRWIERHATTEYCLKTGG" [] ["CCO-CYTOSOL"] +"EG10853-MONOMER" "ribosomal-protein-L12-serine N-acetyltransferase" ["RimL"] "MTETIKVSESLELHAVAENHVKPLYQLICKNKTWLQQSLNWPQFVQSEEDTRKTVQGNVMLHQRGYAKMFMIFKEDELIGVISFNRIEPLNKTAEIGYWLDESHQGQGIISQALQALIHHYAQSGELRRFVIKCRVDNPQSNQVALRNGFILEGCLKQAEFLNDAYDDVNLYARIIDSQ" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10854-MONOMER" "rare lipoprotein RlpA" ["RlpA"] "MRKQWLGICIAAGMLAACTSDDGQQQTVSVPQPAVCNGPIVEISGADPRFEPLNATANQDYQRDGKSYKIVQDPSRFSQAGLAAIYDAEPGSNLTASGEAFDPTQLTAAHPTLPIPSYARITNLANGRMIVVRINDRGPYGNDRVISLSRAAADRLNTSNNTKVRIDPIIVAQDGSLSGPGMACTTVAKQTYALPAPPDLSGGAGTSSVSGPQGDILPVSNSTLKSEDPTGAPVTSSGFLGAPTTLAPGVLEGSEPTPAPQPVVTAPSTTPATSPAMVTPQAVSQSASGNFMVQVGAVSDQARAQQYQQQLGQKFGVPGRVTQNGAVWRIQLGPFASKAEASTLQQRLQTEAQLQSFITTAQ" ["CCO-OUTER-MEM"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE", "CCO-OUTER-MEM"] +"EG10855-MONOMER" "lipopolysaccharide assembly protein LptE" ["LptE", "RlpB"] "MRYLATLLLSLAVLITAGCGWHLRDTTQVPSTMKVMILDSGDPNGPLSRAVRNQLRLNGVELLDKETTRKDVPSLRLGKVSIAKDTASVFRNGQTAEYQMIMTVNATVLIPGRDIYPISAKVFRSFFDNPQMALAKDNEQDMIVKEMYDRAAEQLIRKLPSIRAADIRSDEEQTSTTTDTPATPARVSTTLGN" ["CCO-OUTER-MEM"] ["CCO-MEMBRANE", "CCO-PERI-BAC", "CCO-OUTER-MEM"] +"EG10856-MONOMER" "RNase I" ["RnsA", "Rna", "ribonuclease I"] "MKAFWRNAALLAVSLLPFSSANALALQAKQYGDFDRYVLALSWQTGFCQSQHDRNRNERDECRLQTETTNKADFLTVHGLWPGLPKSVAARGVDERRWMRFGCATRPIPNLPEARASRMCSSPETGLSLETAAKLSEVMPGAGGRSCLERYEYAKHGACFGFDPDAYFGTMVRLNQEIKESEAGKFLADNYGKTVSRRDFDAAFAKSWGKENVKAVKLTCQGNPAYLTEIQISIKADAINAPLSANSFLPQPHPGNCGKTFVIDKAGY" ["CCO-PERI-BAC"] ["CCO-PERI-BAC", "CCO-CYTOSOL"] +"EG10857-MONOMER" "RNase III" ["RanA", "Rnc"] "MNPIVINRLQRKLGYTFNHQELLQQALTHRSASSKHNERLEFLGDSILSYVIANALYHRFPRVDEGDMSRMRATLVRGNTLAELAREFELGECLRLGPGELKSGGFRRESILADTVEALIGGVFLDSDIQTVEKLILNWYQTRLDEISPGDKQKDPKTRLQEYLQGRHLPLPTYLVVQVRGEAHDQEFTIHCQVSGLSEPVVGTGSSRRKAEQAAAEQALKKLELE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10858-MONOMER" "RNase D" ["Rnd", "ribonuclease D"] "MNYQMITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLFDGEHLALIDPLGITDWSPLKAILRDPSITKFLHAGSEDLEVFLNVFGELPQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLARPLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVVAPEDAWRDITNAWQLRTRQLACLQLLADWRLRKARERDLAVNFVVREEHLWSVARYMPGSLGELDSLGLSGSEIRFHGKTLLALVEKAQTLPEDALPQPMLNLMDMPGYRKAFKAIKSLITDVSETHKISAELLASRRQINQLLNWHWKLKPQNNLPELISGWRGELMAEALHNLLQEYPQ" [] ["CCO-CYTOSOL"] +"EG10859-MONOMER" "ribonuclease E" ["SmbB", "Ams", "Rne"] "MKRMLINATQQEELRVALVDGQRLYDLDIESPGHEQKKANIYKGKITRIEPSLEAAFVDYGAERHGFLPLKEIAREYFPANYSAHGRPNIKDVLREGQEVIVQIDKEERGNKGAALTTFISLAGSYLVLMPNNPRAGGISRRIEGDDRTELKEALASLELPEGMGLIVRTAGVGKSAEALQWDLSFRLKHWEAIKKAAESRPAPFLIHQESNVIVRAFRDYLRQDIGEILIDNPKVLELARQHIAALGRPDFSSKIKLYTGEIPLFSHYQIESQIESAFQREVRLPSGGSIVIDSTEALTAIDINSARATRGGDIEETAFNTNLEAADEIARQLRLRDLGGLIVIDFIDMTPVRHQRAVENRLREAVRQDRARIQISHISRFGLLEMSRQRLSPSLGESSHHVCPRCSGTGTVRDNESLSLSILRLIEEEALKENTQEVHAIVPVPIASYLLNEKRSAVNAIETRQDGVRCVIVPNDQMETPHYHVLRVRKGEETPTLSYMLPKLHEEAMALPSEEEFAERKRPEQPALATFAMPDVPPAPTPAEPAAPVVAPAPKAAPATPAAPAQPGLLSRFFGALKALFSGGEETKPTEQPAPKAEAKPERQQDRRKPRQNNRRDRNERRDTRSERTEGSDNREENRRNRRQAQQQTAETRESRQQAEVTEKARTADEQQAPRRERSRRRNDDKRQAQQEAKALNVEEQSVQETEQEERVRPVQPRRKQRQLNQKVRYEQSVAEEAVVAPVVEETVAAEPIVQEAPAPRTELVKVPLPVVAQTAPEQQEENNADNRDNGGMPRRSRRSPRHLRVSGQRRRRYRDERYPTQSPMPLTVACASPELASGKVWIRYPIVRPQDVQVEEQREQEEVHVQPMVTEVPVAAAIEPVVSAPVVEEVAGVVEAPVQVAEPQPEVVETTHPEVIAAAVTEQPQVITESDVAVAQEVAEQAEPVVEPQEETADIEEVVETAEVVVAEPEVVAQPAAPVVAEVAAEVETVAAVEPEVTVEHNHATAPMTRAPAPEYVPEAPRHSDWQRPTFAFEGKGAAGGHTATHHASAAPARPQPVE" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-CYTOSOL", "CCO-PM-BAC-NEG"] +"EG10860-MONOMER" "ribonuclease HI" ["Sin", "Cer", "Rnh", "SdrA", "HerA", "DasF", "RnhA", "type I RNase H", "RNase H", "RNase HI", "RNase HI, degrades RNA of DNA-RNA hybrids, participates in DNA replication"] "MLKQVEIFTDGSCLGNPGPGGYGAILRYRGREKTFSAGYTRTTNNRMELMAAIVALEALKEHCEVILSTDSQYVRQGITQWIHNWKKRGWKTADKKPVKNVDLWQRLDAALGQHQIKWEWVKGHAGHPENERCDELARAAAMNPTLEDTGYQVEV" [] ["CCO-CYTOSOL"] +"EG10861-MONOMER" "RNase HII" ["RnhB", "type 2 RNase H", "ribonuclease HII"] "MIEFVYPHTQLVAGVDEVGRGPLVGAVVTAAVILDPARPIAGLNDSKKLSEKRRLALYEEIKEKALSWSLGRAEPHEIDELNILHATMLAMQRAVAGLHIAPEYVLIDGNRCPKLPMPAMAVVKGDSRVPEISAASILAKVTRDAEMAALDIVFPQYGFAQHKGYPTAFHLEKLAEHGATEHHRRSFGPVKRALGLAS" [] ["CCO-CYTOSOL"] +"EG10862-MONOMER" "RNase P protein component" ["RnpA", "ribonuclease P protein component", "C5 protein", "RNase P protein subunit"] "MVKLAFPRELRLLTPSQFTFVFQQPQRAGTPQITILGRLNSLGHPRIGLTVAKKNVRRAHERNRIKRLTRESFRLRQHELPAMDFVVVAKKGVADLDNRALSEALEKLWRRHCRLARGS" [] ["CCO-CYTOSOL"] +"EG10863-MONOMER" "truncated RNase PH" ["Rph", "truncated ribonuclease PH"] "MRPAGRSNNQVRPVTLTRNYTKHAEGSVLVEFGDTKVLCTASIEEGVPRFLKGQGQGWITAEYGMLPRSTHTRNAREAAKGKQGGRTMEIQRLIARALRAAVDLKALGEFTITLDCDVLQADGGTRTASITGACVALVDALQKLVENGKLKTNPMKGMVAAVSVGIVNGEAVCDLEYVEDSAAETDMNVVMTEDGRIIEVQGTAEGEPFTHEELLILLALARGESNPL" ["CCO-CYTOSOL"] [] +"EG10864-MONOMER" "50S ribosomal subunit protein L1" ["Rpy", "RplA"] "MAKLTKRMRVIREKVDATKQYDINEAIALLKELATAKFVESVDVAVNLGIDARKSDQNVRGATVLPHGTGRSVRVAVFTQGANAEAAKAAGAELVGMEDLADQIKKGEMNFDVVIASPDAMRVVGQLGQVLGPRGLMPNPKVGTVTPNVAEAVKNAKAGQVRYRNDKNGIIHTTIGKVDFDADKLKENLEALLVALKKAKPTQAKGVYIKKVSISTTMGAGVAVDQAGLSASVN" ["CCO-CYTOSOL"] ["CCO-RIBOSOME", "CCO-CYTOSOL"] +"EG10865-MONOMER" "50S ribosomal subunit protein L2" ["RplB"] "MAVVKCKPTSPGRRHVVKVVNPELHKGKPFAPLLEKNSKSGGRNNNGRITTRHIGGGHKQAYRIVDFKRNKDGIPAVVERLEYDPNRSANIALVLYKDGERRYILAPKGLKAGDQIQSGVDAAIKPGNTLPMRNIPVGSTVHNVEMKPGKGGQLARSAGTYVQIVARDGAYVTLRLRSGEMRKVEADCRATLGEVGNAEHMLRVLGKAGAARWRGVRPTVRGTAMNPVDHPHGGGEGRNFGKHPVTPWGVQTKGKKTRSNKRTDKFIVRRRSK" ["CCO-CYTOSOL"] ["CCO-RIBOSOME"] +"EG10866-MONOMER" "50S ribosomal subunit protein L3" ["RplC"] "MIGLVGKKVGMTRIFTEDGVSIPVTVIEVEANRVTQVKDLANDGYRAIQVTTGAKKANRVTKPEAGHFAKAGVEAGRGLWEFRLAEGEEFTVGQSISVELFADVKKVDVTGTSKGKGFAGTVKRWNFRTQDATHGNSLSHRVPGSIGQNQTPGKVFKGKKMAGQMGNERVTVQSLDVVRVDAERNLLLVKGAVPGATGSDLIVKPAVKA" ["CCO-CYTOSOL"] ["CCO-RIBOSOME", "CCO-CYTOSOL"] +"EG10867-MONOMER" "50S ribosomal subunit protein L4" ["EryA", "RplD"] "MELVLKDAQSALTVSETTFGRDFNEALVHQVVVAYAAGARQGTRAQKTRAEVTGSGKKPWRQKGTGRARSGSIKSPIWRSGGVTFAARPQDHSQKVNKKMYRGALKSILSELVRQDRLIVVEKFSVEAPKTKLLAQKLKDMALEDVLIITGELDENLFLAARNLHKVDVRDATGIDPVSLIAFDKVVMTADAVKQVEEMLA" ["CCO-RIBOSOME", "CCO-CYTOSOL"] ["CCO-RIBOSOME", "CCO-CYTOSOL"] +"EG10868-MONOMER" "50S ribosomal subunit protein L5" ["RplE"] "MAKLHDYYKDEVVKKLMTEFNYNSVMQVPRVEKITLNMGVGEAIADKKLLDNAAADLAAISGQKPLITKARKSVAGFKIRQGYPIGCKVTLRGERMWEFFERLITIAVPRIRDFRGLSAKSFDGRGNYSMGVREQIIFPEIDYDKVDRVRGLDITITTTAKSDEEGRALLAAFDFPFRK" ["CCO-CYTOSOL"] ["CCO-RIBOSOME", "CCO-CYTOSOL"] +"EG10869-MONOMER" "50S ribosomal subunit protein L6" ["RplF"] "MSRVAKAPVVVPAGVDVKINGQVITIKGKNGELTRTLNDAVEVKHADNTLTFGPRDGYADGWAQAGTARALLNSMVIGVTEGFTKKLQLVGVGYRAAVKGNVINLSLGFSHPVDHQLPAGITAECPTQTEIVLKGADKQVIGQVAADLRAYRRPEPYKGKGVRYADEVVRTKEAKKK" ["CCO-CYTOSOL"] ["CCO-RIBOSOME", "CCO-CYTOSOL"] +"EG10870-MONOMER" "50S ribosomal subunit protein L9" ["RplI"] "MQVILLDKVANLGSLGDQVNVKAGYARNFLVPQGKAVPATKKNIEFFEARRAELEAKLAEVLAAANARAEKINALETVTIASKAGDEGKLFGSIGTRDIADAVTAAGVEVAKSEVRLPNGVLRTTGEHEVSFQVHSEVFAKVIVNVVAE" ["CCO-CYTOSOL"] ["CCO-RIBOSOME", "CCO-CYTOSOL"] +"EG10871-MONOMER" "50S ribosomal subunit protein L10" ["RplJ"] "MALNLQDKQAIVAEVSEVAKGALSAVVADSRGVTVDKMTELRKAGREAGVYMRVVRNTLLRRAVEGTPFECLKDAFVGPTLIAYSMEHPGAAARLFKEFAKANAKFEVKAAAFEGELIPASQIDRLATLPTYEEAIARLMATMKEASAGKLVRTLAAVRDAKEAA" ["CCO-CYTOSOL"] ["CCO-RIBOSOME", "CCO-CYTOSOL"] +"EG10872-MONOMER" "50S ribosomal subunit protein L11" ["RelC", "RplK"] "MAKKVQAYVKLQVAAGMANPSPPVGPALGQQGVNIMEFCKAFNAKTDSIEKGLPIPVVITVYADRSFTFVTKTPPAAVLLKKAAGIKSGSGKPNKDKVGKISRAQLQEIAQTKAADMTGADIEAMTRSIEGTARSMGLVVED" ["CCO-CYTOSOL"] ["CCO-RIBOSOME"] +"EG10873-MONOMER" "50S ribosomal subunit protein L12" ["RplL", "50S ribosomal subunit protein L7/L12"] "MSITKDQIIEAVAAMSVMDVVELISAMEEKFGVSAAAAVAVAAGPVEAAEEKTEFDVILKAAGANKVAVIKAVRGATGLGLKEAKDLVESAPAALKEGVSKDDAEALKKALEEAGAEVEVK" ["CCO-CYTOSOL"] ["CCO-RIBOSOME", "CCO-CYTOSOL"] +"EG10874-MONOMER" "50S ribosomal subunit protein L13" ["RplM"] "MKTFTAKPETVKRDWYVVDATGKTLGRLATELARRLRGKHKAEYTPHVDTGDYIIVLNADKVAVTGNKRTDKVYYHHTGHIGGIKQATFEEMIARRPERVIEIAVKGMLPKGPLGRAMFRKLKVYAGNEHNHAAQQPQVLDI" ["CCO-CYTOSOL"] ["CCO-RIBOSOME", "CCO-CYTOSOL"] +"EG10875-MONOMER" "50S ribosomal subunit protein L14" ["RplN"] "MIQEQTMLNVADNSGARRVMCIKVLGGSHRRYAGVGDIIKITIKEAIPRGKVKKGDVLKAVVVRTKKGVRRPDGSVIRFDGNACVLLNNNSEQPIGTRIFGPVTRELRSEKFMKIISLAPEVL" ["CCO-CYTOSOL"] ["CCO-RIBOSOME", "CCO-CYTOSOL"] +"EG10876-MONOMER" "50S ribosomal subunit protein L15" ["RplO"] "MRLNTLSPAEGSKKAGKRLGRGIGSGLGKTGGRGHKGQKSRSGGGVRRGFEGGQMPLYRRLPKFGFTSRKAAITAEIRLSDLAKVEGGVVDLNTLKAANIIGIQIEFAKVILAGEVTTPVTVRGLRVTKGARAAIEAAGGKIEE" [] ["CCO-RIBOSOME"] +"EG10877-MONOMER" "50S ribosomal subunit protein L16" ["RplP"] "MLQPKRTKFRKMHKGRNRGLAQGTDVSFGSFGLKAVGRGRLTARQIEAARRAMTRAVKRQGKIWIRVFPDKPITEKPLAVRMGKGKGNVEYWVALIQPGKVLYEMDGVPEELAREAFKLAAAKLPIKTTFVTKTVM" [] ["CCO-RIBOSOME", "CCO-CYTOSOL"] +"EG10878-MONOMER" "50S ribosomal subunit protein L17" ["RplQ"] "MRHRKSGRQLNRNSSHRQAMFRNMAGSLVRHEIIKTTLPKAKELRRVVEPLITLAKTDSVANRRLAFARTRDNEIVAKLFNELGPRFASRAGGYTRILKCGFRAGDNAPMAYIELVDRSEKAEAAAE" ["CCO-CYTOSOL"] ["CCO-RIBOSOME", "CCO-CYTOSOL"] +"EG10879-MONOMER" "50S ribosomal subunit protein L18" ["RplR"] "MDKKSARIRRATRARRKLQELGATRLVVHRTPRHIYAQVIAPNGSEVLVAASTVEKAIAEQLKYTGNKDAAAAVGKAVAERALEKGIKDVSFDRSGFQYHGRVQALADAAREAGLQF" ["CCO-CYTOSOL"] ["CCO-RIBOSOME", "CCO-CYTOSOL"] +"EG10880-MONOMER" "50S ribosomal subunit protein L19" ["RplS"] "MSNIIKQLEQEQMKQDVPSFRPGDTVEVKVWVVEGSKKRLQAFEGVVIAIRNRGLHSAFTVRKISNGEGVERVFQTHSPVVDSISVKRRGAVRKAKLYYLRERTGKAARIKERLN" ["CCO-CYTOSOL"] ["CCO-RIBOSOME", "CCO-CYTOSOL"] +"EG10881-MONOMER" "50S ribosomal subunit protein L20" ["PdzA", "RplT"] "MARVKRGVIARARHKKILKQAKGYYGARSRVYRVAFQAVIKAGQYAYRDRRQRKRQFRQLWIARINAAARQNGISYSKFINGLKKASVEIDRKILADIAVFDKVAFTALVEKAKAALA" ["CCO-CYTOSOL"] ["CCO-RIBOSOME", "CCO-CYTOSOL"] +"EG10882-MONOMER" "50S ribosomal subunit protein L22" ["EryB", "RplV"] "METIAKHRHARSSAQKVRLVADLIRGKKVSQALDILTYTNKKAAVLVKKVLESAIANAEHNDGADIDDLKVTKIFVDEGPSMKRIMPRAKGRADRILKRTSHITVVVSDR" ["CCO-RIBOSOME", "CCO-CYTOSOL"] ["CCO-RIBOSOME", "CCO-CYTOSOL"] +"EG10883-MONOMER" "50S ribosomal subunit protein L23" ["RplW"] "MIREERLLKVLRAPHVSEKASTAMEKSNTIVLKVAKDATKAEIKAAVQKLFEVEVEVVNTLVVKGKVKRHGQRIGRRSDWKKAYVTLKEGQNLDFVGGAE" [] ["CCO-RIBOSOME", "CCO-CYTOSOL"] +"EG10884-MONOMER" "50S ribosomal subunit protein L24" ["RplX"] "MAAKIRRDDEVIVLTGKDKGKRGKVKNVLSSGKVIVEGINLVKKHQKPVPALNQPGGIVEKEAAIQVSNVAIFNAATGKADRVGFRFEDGKKVRFFKSNSETIK" ["CCO-CYTOSOL"] ["CCO-RIBOSOME", "CCO-CYTOSOL"] +"EG10885-MONOMER" "50S ribosomal subunit protein L25" ["RplY"] "MFTINAEVRKEQGKGASRRLRAANKFPAIIYGGKEAPLAIELDHDKVMNMQAKAEFYSEVLTIVVDGKEIKVKAQDVQRHPYKPKLQHIDFVRA" ["CCO-CYTOSOL"] ["CCO-RIBOSOME", "CCO-CYTOSOL"] +"EG10886-MONOMER" "50S ribosomal subunit protein L28" ["RpmB"] "MSRVCQVTGKRPVTGNNRSHALNATKRRFLPNLHSHRFWVESEKRFVTLRVSAKGMRVIDKKGIDTVLAELRARGEKY" ["CCO-CYTOSOL"] ["CCO-RIBOSOME", "CCO-CYTOSOL"] +"EG10887-MONOMER" "50S ribosomal subunit protein L29" ["RpmC"] "MKAKELREKSVEELNTELLNLLREQFNLRMQAASGQLQQSHLLKQVRRDVARVKTLLNEKAGA" [] ["CCO-RIBOSOME", "CCO-CYTOSOL"] +"EG10888-MONOMER" "50S ribosomal subunit protein L30" ["RpmD"] "MAKTIKITQTRSAIGRLPKHKATLLGLGLRRIGHTVEREDTPAIRGMINAVSFMVKVEE" [] ["CCO-RIBOSOME", "CCO-CYTOSOL"] +"EG10889-MONOMER" "50S ribosomal subunit protein L31" ["RpmE"] "MKKDIHPKYEEITASCSCGNVMKIRSTVGHDLNLDVCSKCHPFFTGKQRDVATGGRVDRFNKRFNIPGSK" ["CCO-CYTOSOL"] ["CCO-RIBOSOME"] +"EG10890-MONOMER" "50S ribosomal subunit protein L32" ["RpmF"] "MAVQQNKPTRSKRGMRRSHDALTAVTSLSVDKTSGEKHLRHHITADGYYRGRKVIAK" ["CCO-CYTOSOL"] ["CCO-RIBOSOME", "CCO-CYTOSOL"] +"EG10891-MONOMER" "50S ribosomal subunit protein L33" ["RpmG"] "MAKGIREKIKLVSSAGTGHFYTTTKNKRTKPEKLELKKFDPVVRQHVIYKEAKIK" ["CCO-CYTOSOL"] ["CCO-RIBOSOME", "CCO-CYTOSOL"] +"EG10892-MONOMER" "50S ribosomal subunit protein L34" ["SsaF", "RimA", "RpmH"] "MKRTFQPSVLKRNRSHGFRARMATKNGRQVLARRRAKGRARLTVSK" [] ["CCO-RIBOSOME", "CCO-CYTOSOL"] +"EG10893-MONOMER" "RNA polymerase subunit α" ["Sez", "Phs", "Pez", "RpoA"] "MQGSVTEFLKPRLVDIEQVSSTHAKVTLEPLERGFGHTLGNALRRILLSSMPGCAVTEVEIDGVLHEYSTKEGVQEDILEILLNLKGLAVRVQGKDEVILTLNKSGIGPVTAADITHDGDVEIVKPQHVICHLTDENASISMRIKVQRGRGYVPASTRIHSEEDERPIGRLLVDACYSPVERIAYNVEAARVEQRTDLDKLVIEMETNGTIDPEEAIRRAATILAEQLEAFVDLRDVRQPEVKEEKPEFDPILLRPVDDLELTVRSANCLKAEAIHYIGDLVQRTEVELLKTPNLGKKSLTEIKDVLASRGLSLGMRLENWPPASIADE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10899-MONOMER" "RNA polymerase subunit ω" ["SpoS", "RpoZ"] "MARVTVQDAVEKIGNRFDLVLVAARRARQMQVGGKDPLVPEENDKTTVIALREIEEGLINNQILDVRERQEQQEQEAAELQAVTAIAEGRR" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10900-MONOMER" "30S ribosomal subunit protein S1" ["SsyF", "RpsA"] "MTESFAQLFEESLKEIETRPGSIVRGVVVAIDKDVVLVDAGLKSESAIPAEQFKNAQGELEIQVGDEVDVALDAVEDGFGETLLSREKAKRHEAWITLEKAYEDAETVTGVINGKVKGGFTVELNGIRAFLPGSLVDVRPVRDTLHLEGKELEFKVIKLDQKRNNVVVSRRAVIESENSAERDQLLENLQEGMEVKGIVKNLTDYGAFVDLGGVDGLLHITDMAWKRVKHPSEIVNVGDEITVKVLKFDRERTRVSLGLKQLGEDPWVAIAKRYPEGTKLTGRVTNLTDYGCFVEIEEGVEGLVHVSEMDWTNKNIHPSKVVNVGDVVEVMVLDIDEERRRISLGLKQCKANPWQQFAETHNKGDRVEGKIKSITDFGIFIGLDGGIDGLVHLSDISWNVAGEEAVREYKKGDEIAAVVLQVDAERERISLGVKQLAEDPFNNWVALNKKGAIVTGKVTAVDAKGATVELADGVEGYLRASEASRDRVEDATLVLSVGDEVEAKFTGVDRKNRAISLSVRAKDEADEKDAIATVNKQEDANFSNNAMAEAFKAAKGE" [] ["CCO-RIBOSOME", "CCO-CYTOSOL"] +"EG10901-MONOMER" "30S ribosomal subunit protein S2" ["RpsB"] "MATVSMRDMLKAGVHFGHQTRYWNPKMKPFIFGARNKVHIINLEKTVPMFNEALAELNKIASRKGKILFVGTKRAASEAVKDAALSCDQFFVNHRWLGGMLTNWKTVRQSIKRLKDLETQSQDGTFDKLTKKEALMRTRELEKLENSLGGIKDMGGLPDALFVIDADHEHIAIKEANNLGIPVFAIVDTNSDPDGVDFVIPGNDDAIRAVTLYLGAVAATVREGRSQDLASQAEESFVEAE" [] ["CCO-RIBOSOME"] +"EG10902-MONOMER" "30S ribosomal subunit protein S3" ["RpsC"] "MGQKVHPNGIRLGIVKPWNSTWFANTKEFADNLDSDFKVRQYLTKELAKASVSRIVIERPAKSIRVTIHTARPGIVIGKKGEDVEKLRKVVADIAGVPAQINIAEVRKPELDAKLVADSITSQLERRVMFRRAMKRAVQNAMRLGAKGIKVEVSGRLGGAEIARTEWYREGRVPLHTLRADIDYNTSEAHTTYGVIGVKVWIFKGEILGGMAAVEQPEKPAAQPKKQQRKGRK" ["CCO-CYTOSOL"] ["CCO-RIBOSOME", "CCO-CYTOSOL"] +"EG10903-MONOMER" "30S ribosomal subunit protein S4" ["RamA", "RpsD"] "MARYLGPKLKLSRREGTDLFLKSGVRAIDTKCKIEQAPGQHGARKPRLSDYGVQLREKQKVRRIYGVLERQFRNYYKEAARLKGNTGENLLALLEGRLDNVVYRMGFGATRAEARQLVSHKAIMVNGRVVNIASYQVSPNDVVSIREKAKKQSRVKAALELAEQREKPTWLEVDAGKMEGTFKRKPERSDLSADINEHLIVELYSK" ["CCO-CYTOSOL"] ["CCO-RIBOSOME", "CCO-CYTOSOL"] +"EG10904-MONOMER" "30S ribosomal subunit protein S5" ["Spc", "Eps", "SpcA", "RpsE"] "MAHIEKQAGELQEKLIAVNRVSKTVKGGRIFSFTALTVVGDGNGRVGFGYGKAREVPAAIQKAMEKARRNMINVALNNGTLQHPVKGVHTGSRVFMQPASEGTGIIAGGAMRAVLEVAGVHNVLAKAYGSTNPINVVRATIDGLENMNSPEMVAAKRGKSVEEILGK" ["CCO-CYTOSOL"] ["CCO-RIBOSOME", "CCO-CYTOSOL"] +"EG10905-MONOMER" "30S ribosomal subunit protein S6" ["SdgH", "RpsF"] "MRHYEIVFMVHPDQSEQVPGMIERYTAAITGAEGKIHRLEDWGRRQLAYPINKLHKAHYVLMNVEAPQEVIDELETTFRFNDAVIRSMVMRTKHAVTEASPMVKAKDERRERRDDFANETADDAEAGDSEE" ["CCO-CYTOSOL"] ["CCO-RIBOSOME", "CCO-CYTOSOL"] +"EG10906-MONOMER" "30S ribosomal subunit protein S7" ["RpsG"] "MPRRRVIGQRKILPDPKFGSELLAKFVNILMVDGKKSTAESIVYSALETLAQRSGKSELEAFEVALENVRPTVEVKSRRVGGSTYQVPVEVRPVRRNALAMRWIVEAARKRGDKSMALRLANELSDAAENKGTAVKKREDVHRMAEANKAFAHYRWLSLRSFSHQAGASSKQPALGYLN" ["CCO-CYTOSOL"] ["CCO-RIBOSOME", "CCO-CYTOSOL"] +"EG10907-MONOMER" "30S ribosomal subunit protein S8" ["RpsH"] "MSMQDPIADMLTRIRNGQAANKAAVTMPSSKLKVAIANVLKEEGFIEDFKVEGDTKPELELTLKYFQGKAVVESIQRVSRPGLRIYKRKDELPKVMAGLGIAVVSTSKGVMTDRAARQAGLGGEIICYVA" ["CCO-CYTOSOL"] ["CCO-RIBOSOME", "CCO-CYTOSOL"] +"EG10908-MONOMER" "30S ribosomal subunit protein S9" ["RpsI"] "MAENQYYGTGRRKSSAARVFIKPGNGKIVINQRSLEQYFGRETARMVVRQPLELVDMVEKLDLYITVKGGGISGQAGAIRHGITRALMEYDESLRSELRKAGFVTRDARQVERKKVGLRKARRRPQFSKR" ["CCO-CYTOSOL"] ["CCO-RIBOSOME", "CCO-CYTOSOL"] +"EG10909-MONOMER" "30S ribosomal subunit protein S10" ["NusE", "RpsJ"] "MQNQRIRIRLKAFDHRLIDQATAEIVETAKRTGAQVRGPIPLPTRKERFTVLISPHVNKDARDQYEIRTHLRLVDIVEPTEKTVDALMRLDLAAGVDVQISLG" ["CCO-CYTOSOL"] ["CCO-RIBOSOME", "CCO-CYTOSOL"] +"EG10910-MONOMER" "30S ribosomal subunit protein S11" ["RpsK"] "MAKAPIRARKRVRKQVSDGVAHIHASFNNTIVTITDRQGNALGWATAGGSGFRGSRKSTPFAAQVAAERCADAVKEYGIKNLEVMVKGPGPGRESTIRALNAAGFRITNITDVTPIPHNGCRPPKKRRV" ["CCO-CYTOSOL"] ["CCO-RIBOSOME", "CCO-CYTOSOL"] +"EG10911-MONOMER" "30S ribosomal subunit protein S12" ["StrA", "AsuB", "RpsL"] "MATVNQLVRKPRARKVAKSNVPALEACPQKRGVCTRVYTTTPKKPNSALRKVCRVRLTNGFEVTSYIGGEGHNLQEHSVILIRGGRVKDLPGVRYHTVRGALDCSGVKDRKQARSKYGVKRPKA" ["CCO-CYTOSOL"] ["CCO-RIBOSOME", "CCO-CYTOSOL"] +"EG10912-MONOMER" "30S ribosomal subunit protein S13" ["RpsM"] "MARIAGINIPDHKHAVIALTSIYGVGKTRSKAILAAAGIAEDVKISELSEGQIDTLRDEVAKFVVEGDLRREISMSIKRLMDLGCYRGLRHRRGLPVRGQRTKTNARTRKGPRKPIKK" ["CCO-CYTOSOL"] ["CCO-RIBOSOME", "CCO-CYTOSOL"] +"EG10913-MONOMER" "30S ribosomal subunit protein S14" ["RpsN"] "MAKQSMKAREVKRVALADKYFAKRAELKAIISDVNASDEDRWNAVLKLQTLPRDSSPSRQRNRCRQTGRPHGFLRKFGLSRIKVREAAMRGEIPGLKKASW" [] ["CCO-RIBOSOME", "CCO-CYTOSOL"] +"EG10914-MONOMER" "30S ribosomal subunit protein S15" ["SecC", "RpsO"] "MSLSTEATAKIVSEFGRDANDTGSTEVQVALLTAQINHLQGHFAEHKKDHHSRRGLLRMVSQRRKLLDYLKRKDVARYTQLIERLGLRR" ["CCO-CYTOSOL"] ["CCO-RIBOSOME", "CCO-CYTOSOL"] +"EG10915-MONOMER" "30S ribosomal subunit protein S16" ["RpsP"] "MVTIRLARHGAKKRPFYQVVVADSRNARNGRFIERVGFFNPIASEKEEGTRLDLDRIAHWVGQGATISDRVAALIKEVNKAA" [] ["CCO-RIBOSOME", "CCO-CYTOSOL"] +"EG10916-MONOMER" "30S ribosomal subunit protein S17" ["NeaA", "RpsQ"] "MTDKIRTLQGRVVSDKMEKSIVVAIERFVKHPIYGKFIKRTTKLHVHDENNECGIGDVVEIRECRPLSKTKSWTLVRVVEKAVL" [] ["CCO-RIBOSOME", "CCO-CYTOSOL"] +"EG10917-MONOMER" "30S ribosomal subunit protein S18" ["RpsR"] "MARYFRRRKFCRFTAEGVQEIDYKDIATLKNYITESGKIVPSRITGTRAKYQRQLARAIKRARYLSLLPYTDRHQ" ["CCO-CYTOSOL"] ["CCO-RIBOSOME", "CCO-CYTOSOL"] +"EG10918-MONOMER" "30S ribosomal subunit protein S19" ["RpsS"] "MPRSLKKGPFIDLHLLKKVEKAVESGDKKPLRTWSRRSTIFPNMIGLTIAVHNGRQHVPVFVTDEMVGHKLGEFAPTRTYRGHAADKKAKKK" ["CCO-CYTOSOL"] ["CCO-RIBOSOME", "CCO-CYTOSOL"] +"EG10919-MONOMER" "30S ribosomal subunit protein S20" ["SupS", "RpsT"] "MANIKSAKKRAIQSEKARKHNASRRSMMRTFIKKVYAAIEAGDKAAAQKAFNEMQPIVDRQAAKGLIHKNKAARHKANLTAQINKLA" ["CCO-CYTOSOL"] ["CCO-RIBOSOME", "CCO-CYTOSOL"] +"EG10920-MONOMER" "30S ribosomal subunit protein S21" ["RpsU"] "MPVIKVRENEPFDVALRRFKRSCEKAGVLAEVRRREFYEKPTTERKRAKASAVKRHAKKLARENARRTRLY" ["CCO-CYTOSOL"] ["CCO-RIBOSOME", "CCO-CYTOSOL"] +"EG10921-MONOMER" "ferritin iron storage protein" ["RsgA", "FtnA", "Ftn"] "MLKPEMIEKLNEQMNLELYSSLLYQQMSAWCSYHTFEGAAAFLRRHAQEEMTHMQRLFDYLTDTGNLPRINTVESPFAEYSSLDELFQETYKHEQLITQKINELAHAAMTNQDYPTFNFLQWYVSEQHEEEKLFKSIIDKLSLAGKSGEGLYFIDKELSTLDTQN" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10923-MONOMER" "Holliday junction branch migration complex subunit RuvA" ["RuvA", "branch migration of Holliday structures, repair"] "MIGRLRGIIIEKQPPLVLIEVGGVGYEVHMPMTCFYELPEAGQEAIVFTHFVVREDAQLLYGFNNKQERTLFKELIKTNGVGPKLALAILSGMSAQQFVNAVEREEVGALVKLPGIGKKTAERLIVEMKDRFKGLHGDLFTPAADLVLTSPASPATDDAEQEAVAALVALGYKPQEASRMVSKIARPDASSETLIREALRAAL" [] ["CCO-CYTOSOL"] +"EG10924-MONOMER" "Holliday junction branch migration complex subunit RuvB" ["RuvB", "branch migration of Holliday structures, repair helicase"] "MIEADRLISAGTTLPEDVADRAIRPKLLEEYVGQPQVRSQMEIFIKAAKLRGDALDHLLIFGPPGLGKTTLANIVANEMGVNLRTTSGPVLEKAGDLAAMLTNLEPHDVLFIDEIHRLSPVVEEVLYPAMEDYQLDIMIGEGPAARSIKIDLPPFTLIGATTRAGSLTSPLRDRFGIVQRLEFYQVPDLQYIVSRSARFMGLEMSDDGALEVARRARGTPRIANRLLRRVRDFAEVKHDGTISADIAAQALDMLNVDAEGFDYMDRKLLLAVIDKFFGGPVGLDNLAAAIGEERETIEDVLEPYLIQQGFLQRTPRGRMATTRAWNHFGITPPEMP" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10925-MONOMER" "crossover junction endodeoxyribonuclease RuvC" ["RuvC", "Holliday junction nuclease, resolution of structures, repair"] "MAIILGIDPGSRVTGYGVIRQVGRQLSYLGSGCIRTKVDDLPSRLKLIYAGVTEIITQFQPDYFAIEQVFMAKNADSALKLGQARGVAIVAAVNQELPVFEYAARQVKQTVVGIGSAEKSQVQHMVRTLLKLPANPQADAADALAIAITHCHVSQNAMQMSESRLNLARGRLR" [] ["CCO-CYTOSOL"] +"EG10926-MONOMER" "exodeoxyribonuclease I" ["RmuA", "XonA", "CpeA", "SbcB", "ExoI", "exonuclease I, 3' --> 5' specific, deoxyribophosphodiesterase"] "MMNDGKQQSTFLFHDYETFGTHPALDRPAQFAAIRTDSEFNVIGEPEVFYCKPADDYLPQPGAVLITGITPQEARAKGENEAAFAARIHSLFTVPKTCILGYNNVRFDDEVTRNIFYRNFYDPYAWSWQHDNSRWDLLDVMRACYALRPEGINWPENDDGLPSFRLEHLTKANGIEHSNAHDAMADVYATIAMAKLVKTRQPRLFDYLFTHRNKHKLMALIDVPQMKPLVHVSGMFGAWRGNTSWVAPLAWHPENRNAVIMVDLAGDISPLLELDSDTLRERLYTAKTDLGDNAAVPVKLVHINKCPVLAQANTLRPEDADRLGINRQHCLDNLKILRENPQVREKVVAIFAEAEPFTPSDNVDAQLYNGFFSDADRAAMKIVLETEPRNLPALDITFVDKRIEKLLFNYRARNFPGTLDYAEQQRWLEHRRQVFTPEFLQGYADELQMLVQQYADDKEKVALLKALWQYAEEIV" [] ["CCO-CYTOSOL"] +"EG10927-MONOMER" "ATP-dependent structure-specific DNA nuclease - SbcC subunit" ["SbcC"] "MKILSLRLKNLNSLKGEWKIDFTREPFASNGLFAITGPTGAGKTTLLDAICLALYHETPRLSNVSQSQNDLMTRDTAECLAEVEFEVKGEAYRAFWSQNRARNQPDGNLQVPRVELARCADGKILADKVKDKLELTATLTGLDYGRFTRSMLLSQGQFAAFLNAKPKERAELLEELTGTEIYGQISAMVFEQHKSARTELEKLQAQASGVTLLTPEQVQSLTASLQVLTDEEKQLITAQQQEQQSLNWLTRQDELQQEASRRQQALQQALAEEEKAQPQLAALSLAQPARNLRPHWERIAEHSAALAHIRQQIEEVNTRLQSTMALRASIRHHAAKQSAELQQQQQSLNTWLQEHDRFRQWNNEPAGWRAQFSQQTSDREHLRQWQQQLTHAEQKLNALAAITLTLTADEVATALAQHAEQRPLRQHLVALHGQIVPQQKRLAQLQVAIQNVTQEQTQRNAALNEMRQRYKEKTQQLADVKTICEQEARIKTLEAQRAQLQAGQPCPLCGSTSHPAVEAYQALEPGVNQSRLLALENEVKKLGEEGATLRGQLDAITKQLQRDENEAQSLRQDEQALTQQWQAVTASLNITLQPLDDIQPWLDAQDEHERQLRLLSQRHELQGQIAAHNQQIIQYQQQIEQRQQLLLTTLTGYALTLPQEDEEESWLATRQQEAQSWQQRQNELTALQNRIQQLTPILETLPQSDELPHCEETVVLENWRQVHEQCLALHSQQQTLQQQDVLAAQSLQKAQAQFDTALQASVFDDQQAFLAALMDEQTLTQLEQLKQNLENQRRQAQTLVTQTAETLAQHQQHRPDDGLALTVTVEQIQQELAQTHQKLRENTTSQGEIRQQLKQDADNRQQQQTLMQQIAQMTQQVEDWGYLNSLIGSKEGDKFRKFAQGLTLDNLVHLANQQLTRLHGRYLLQRKASEALEVEVVDTWQADAVRDTRTLSGGESFLVSLALALALSDLVSHKTRIDSLFLDEGFGTLDSETLDTALDALDALNASGKTIGVISHVEAMKERIPVQIKVKKINGLGYSKLESTFAVK" [] ["CCO-CYTOSOL"] +"EG10941-MONOMER" "selenocysteine synthase" ["FdhA", "SelA"] "MTTETRSLYSQLPAIDRLLRDSSFLSLRDTYGHTRVVELLRQMLDEAREVIRGSQTLPAWCENWAQEVDARLTKEAQSALRPVINLTGTVLHTNLGRALQAEAAVEAVAQAMRSPVTLEYDLDDAGRGHRDRALAQLLCRITGAEDACIVNNNAAAVLLMLAATASGKEVVVSRGELVEIGGAFRIPDVMRQAGCTLHEVGTTNRTHANDYRQAVNENTALLMKVHTSNYSIQGFTKAIDEAELVALGKELDVPVVTDLGSGSLVDLSQYGLPKEPMPQELIAAGVSLVSFSGDKLLGGPQAGIIVGKKEMIARLQSHPLKRALRADKMTLAALEATLRLYLHPEALSEKLPTLRLLTRSAEVIQIQAQRLQAPLAAHYGAEFAVQVMPCLSQIGSGSLPVDRLPSAALTFTPHDGRGSHLESLAARWRELPVPVIGRIYDGRLWLDLRCLEDEQRFLEMLLK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10942-MONOMER" "selenocysteyl-tRNA-specific translation elongation factor" ["FdhA", "SelB"] "MIIATAGHVDHGKTTLLQAITGVNADRLPEEKKRGMTIDLGYAYWPQPDGRVPGFIDVPGHEKFLSNMLAGVGGIDHALLVVACDDGVMAQTREHLAILQLTGNPMLTVALTKADRVDEARVDEVERQVKEVLREYGFAEAKLFITAATEGRGMDALREHLLQLPEREHASQHSFRLAIDRAFTVKGAGLVVTGTALSGEVKVGDSLWLTGVNKPMRVRALHAQNQPTETANAGQRIALNIAGDAEKEQINRGDWLLADVPPEPFTRVIVELQTHTPLTQWQPLHIHHAASHVTGRVSLLEDNLAELVFDTPLWLADNDRLVLRDISARNTLAGARVVMLNPPRRGKRKPEYLQWLASLARAQSDADALSVHLERGAVNLADFAWARQLNGEGMRELLQQPGYIQAGYSLLNAPVAARWQRKILDTLATYHEQHRDEPGPGRERLRRMALPMEDEALVLLLIEKMRESGDIHSHHGWLHLPDHKAGFSEEQQAIWQKAEPLFGDEPWWVRDLAKETGTDEQAMRLTLRQAAQQGIITAIVKDRYYRNDRIVEFANMIRDLDQECGSTCAADFRDRLGVGRKLAIQILEYFDRIGFTRRRGNDHLLRDALLFPEK" [] ["CCO-CYTOSOL"] +"EG10943-MONOMER" "selenide, water dikinase" ["FdhB", "SelD"] "MSENSIRLTQYSHGAGCGCKISPKVLETILHSEQAKFVDPNLLVGNETRDDAAVYDLGNGTSVISTTDFFMPIVDNPFDFGRIAATNAISDIFAMGGKPIMAIAILGWPINKLSPEIAREVTEGGRYACRQAGIALAGGHSIDAPEPIFGLAVTGIVPTERVKKNSTAQAGCKLFLTKPLGIGVLTTAEKKSLLKPEHQGLATEVMCRMNIAGASFANIEGVKAMTDVTGFGLLGHLSEMCQGAGVQARVDYEAIPKLPGVEEYIKLGAVPGGTERNFASYGHLMGEMPREVRDLLCDPQTSGGLLLAVMPEAENEVKATAAEFGIELTAIGELVPARGGRAMVEIR" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10949-MONOMER" "putative DNA-binding transcriptional regulator of maltose metabolism" ["Sfs", "SfsA"] "MEFSPPLQRATLIQRYKRFLADVITPDGRELTLHCPNTGAMTGCATPGDTVWYSTSDNTKRKYPHTWELTQSQSGAFICVNTLWANRLTKEAILNESISELSGYSSLKSEVKYGAERSRIDFMLQADSRPDCYIEVKSVTLAENEQGYFPDAVTERGQKHLRELMSVAAEGQRAVIFFAVLHSAITRFSPARHIDEKYAQLLSEAQQRGVEILAYKAEISAEGMALKKSLPVTL" [] ["CCO-CYTOSOL"] +"EG10950-MONOMER" "soluble lytic murein transglycosylase" ["SltY", "Slt", "Slt70"] "MEKAKQVTWRLLAAGVCLLTVSSVARADSLDEQRSRYAQIKQAWDNRQMDVVEQMMPGLKDYPLYPYLEYRQITDDLMNQPAVTVTNFVRANPTLPPARTLQSRFVNELARREDWRGLLAFSPEKPGTTEAQCNYYYAKWNTGQSEEAWQGAKELWLTGKSQPNACDKLFSVWRASGKQDPLAYLERIRLAMKAGNTGLVTVLAGQMPADYQTIASAIISLANNPNTVLTFARTTGATDFTRQMAAVAFASVARQDAENARLMIPSLAQAQQLNEDQIQELRDIVAWRLMGNDVTDEQAKWRDDAIMRSQSTSLIERRVRMALGTGDRRGLNTWLARLPMEAKEKDEWRYWQADLLLERGREAEAKEILHQLMQQRGFYPMVAAQRIGEEYELKIDKAPQNVDSALTQGPEMARVRELMYWNLDNTARSEWANLVKSKSKTEQAQLARYAFNNQWWDLSVQATIAGKLWDHLEERFPLAYNDLFKRYTSGKEIPQSYAMAIARQESAWNPKVKSPVGASGLMQIMPGTATHTVKMFSIPGYSSPGQLLDPETNINIGTSYLQYVYQQFGNNRIFSSAAYNAGPGRVRTWLGNSAGRIDAVAFVESIPFSETRGYVKNVLAYDAYYRYFMGDKPTLMSATEWGRRY" ["CCO-CW-BAC-NEG", "CCO-PERI-BAC"] ["CCO-MEMBRANE", "CCO-PERI-BAC"] +"EG10951-MONOMER" "protein Smp" ["YtjB", "Smp"] "MARTKLKFRLHRAVIVLFCLALLVALMQGASWFSQNHQRQRNPQLEELARTLARQVTLNVAPLMRTDSPDEKRIQAILDQLTDESRILDAGVYDEQGDLIARSGESVEVRDRLALDGKKAGGYFNQQIVEPIAGKNGPLGYLRLTLDTHTLATEAQQVDNTTNILRLMLLLSLAIGVVLTRTLLQGKRTRWQQSPFLLTASKPVPEEEESEKKE" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG10952-MONOMER" "outer membrane protein assembly factor BamE" ["SmqA", "small membrane protein A", "BamE", "SmpA"] "MRCKTLTAAAAVLLMLTAGCSTLERVVYRPDINQGNYLTANDVSKIRVGMTQQQVAYALGTPLMSDPFGTNTWFYVFRQQPGHEGVTQQTLTLTFNSSGVLTNIDNKPALSGN" [] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"EG10955-MONOMER" "antitoxin PrlF" ["PrlF", "SohA"] "MPANARSHAVLTTESKVTIRGQTTIPAPVREALKLKPGQDSIHYEILPGGQVFMCRLGDEQEDHTMNAFLRFLDADIQNNPQKTRPFNIQQGKKLVAGMDVNIDDEIGDDE" [] ["CCO-CYTOSOL"] +"EG10956-MONOMER" "S49 peptidase family protein" ["SohB"] "MELLSEYGLFLAKIVTVVLAIAAIAAIIVNVAQRNKRQRGELRVNNLSEQYKEMKEELAAALMDSHQQKQWHKAQKKKHKQEAKAAKAKAKLGEVATDSKPRVWVLDFKGSMDAHEVNSLREEITAVLAAFKPQDQVVLRLESPGGMVHGYGLAASQLQRLRDKNIPLTVTVDKVAASGGYMMACVADKIVSAPFAIVGSIGVVAQMPNFNRFLKSKDIDIELHTAGQYKRTLTLLGENTEEGREKFREELNETHQLFKDFVKRMRPSLDIEQVATGEHWYGQQAVEKGLVDEINTSDEVILSLMEGREVVNVRYMQRKRLIDRFTGSAAESADRLLLRWWQRGQKPLM" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG10967-MONOMER" null ["TrmH", "SpoU"] "MNPTRYARICEMLARRQPDLTVCMEQVHKPHNVSAIIRTADAVGVHEVHAVWPGSRMRTMASAAAGSNSWVQVKTHRTIGDAVAHLKGQGMQILATHLSDNAVDFREIDYTRPTCILMGQEKTGITQEALALADQDIIIPMIGMVQSLNVSVASALILYEAQRQRQNAGMYLRENSMLPEAEQQRLLFEGGYPVLAKVAKRKGLPYPHVNQQGEIEADADWWATMQAAG" [] ["CCO-CYTOSOL"] +"EG10968-MONOMER" "protease IV, a signal peptide peptidase" ["SppA"] "MRTLWRFIAGFFKWTWRLLNFVREMVLNLFFIFLVLVGVGIWMQVSGGDSKETASRGALLLDISGVIVDKPDSSQRFSKLSRQLLGASSDRLQENSLFDIVNTIRQAKDDRNITGIVMDLKNFAGGDQPSMQYIGKALKEFRDSGKPVYAVGENYSQGQYYLASFANKIWLSPQGVVDLHGFATNGLYYKSLLDKLKVSTHVFRVGTYKSAVEPFIRDDMSPAAREADSRWIGELWQNYLNTVAANRQIPAEQVFPGAQGLLEGLTKTGGDTAKYALENKLVDALASSAEIEKALTKEFGWSKTDKNYRAISYYDYALKTPADTGDSIGVVFANGAIMDGEETQGNVGGDTTAAQIRDARLDPKVKAIVLRVNSPGGSVTASEVIRAELAAARAAGKPVVVSMGGMAASGGYWISTPANYIVANPSTLTGSIGIFGVITTVENSLDSIGVHTDGVSTSPLADVSITRALPPEAQLMMQLSIENGYKRFITLVADARHSTPEQIDKIAQGHVWTGQDAKANGLVDSLGDFDDAVAKAAELAKVKQWHLEYYVDEPTFFDKVMDNMSGSVRAMLPDAFQAMLPAPLASVASTVKSESDKLAAFNDPQNRYAFCLTCANMR" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG10973-MONOMER" "D-arabinose 5-phosphate isomerase GutQ" ["SrlQ", "GutQ"] "MSEALLNAGRQTLMLELQEASRLPERLGDDFVRAANIILHCEGKVVVSGIGKSGHIGKKIAATLASTGTPAFFVHPAEALHGDLGMIESRDVMLFISYSGGAKELDLIIPRLEDKSIALLAMTGKPTSPLGLAAKAVLDISVEREACPMHLAPTSSTVNTLMMGDALAMAVMQARGFNEEDFARSHPAGALGARLLNKVHHLMRRDDAIPQVALTASVMDAMLELSRTGLGLVAVCDAQQQVQGVFTDGDLRRWLVGGGALTTPVNEAMTVGGTTLQSQSRAIDAKEILMKRKITAAPVVDENGKLTGAINLQDFYQAGII" [] ["CCO-CYTOSOL"] +"EG10975-MONOMER" "ATP-dependent RNA helicase SrmB" ["RhlA", "RbaB", "SrmB", "DEAD-box RNA helicase"] "MTVTTFSELELDESLLEALQDKGFTRPTAIQAAAIPPALDGRDVLGSAPTGTGKTAAYLLPALQHLLDFPRKKSGPPRILILTPTRELAMQVSDHARELAKHTHLDIATITGGVAYMNHAEVFSENQDIVVATTGRLLQYIKEENFDCRAVETLILDEADRMLDMGFAQDIEHIAGETRWRKQTLLFSATLEGDAIQDFAERLLEDPVEVSANPSTRERKKIHQWYYRADDLEHKTALLVHLLKQPEATRSIVFVRKRERVHELANWLREAGINNCYLEGEMVQGKRNEAIKRLTEGRVNVLVATDVAARGIDIPDVSHVFNFDMPRSGDTYLHRIGRTARAGRKGTAISLVEAHDHLLLGKVGRYIEEPIKARVIDELRPKTRAPSEKQTGKPSKKVLAKRAEKKKAKEKEKPRVKKRHRDTKNIGKRRKPSGTGVPPQTTEE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10976-MONOMER" "ssDNA-binding protein" ["LexC", "ExrB", "Ssb"] "MASRGVNKVILVGNLGQDPEVRYMPNGGAVANITLATSESWRDKATGEMKEQTEWHRVVLFGKLAEVASEYLRKGSQVYIEGQLRTRKWTDQSGQDRYTTEVVVNVGGTMQMLGGRQGGGAPAGGNIGGGQPQGGWGQPQQPQGGNQFSGGAQSRPQQSAPAAPSNEPPMDFDDDIPF" ["CCO-CYTOSOL"] ["CCO-BAC-NUCLEOID"] +"EG10977-MONOMER" "stringent starvation protein A" ["Pog", "Ssp", "SspA"] "MAVAANKRSVMTLFSGPTDIYSHQVRIVLAEKGVSFEIEHVEKDNPPQDLIDLNPNQSVPTLVDRELTLWESRIIMEYLDERFPHPPLMPVYPVARGESRLYMHRIEKDWYTLMNTIINGSASEADAARKQLREELLAIAPVFGQKPYFLSDEFSLVDCYLAPLLWRLPQLGIEFSGPGAKELKGYMTRVFERDSFLASLTEAEREMRLGRS" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10978-MONOMER" "ClpXP protease specificity-enhancing factor" ["SspB"] "MDLSQLTPRRPYLLRAFYEWLLDNQLTPHLVVDVTLPGVQVPMEYARDGQIVLNIAPRAVGNLELANDEVRFNARFGGIPRQVSVPLAAVLAIYARENGAGTMFEPEAAYDEDTSIMNDEEASADNETVMSVIDGDKPDHDDDTHPDDEPPQPPRGGRPALRVVK" ["CCO-CYTOSOL", "CCO-RIBOSOME"] ["CCO-CYTOSOL", "CCO-RIBOSOME"] +"EG10983-MONOMER" "Nus factor SuhB" ["SsyA", "SuhB", "inositol-phosphate phosphatase"] "MHPMLNIAVRAARKAGNLIAKNYETPDAVEASQKGSNDFVTNVDKAAEAVIIDTIRKSYPQHTIITEESGELEGTDQDVQWVIDPLDGTTNFIKRLPHFAVSIAVRIKGRTEVAVVYDPMRNELFTATRGQGAQLNGYRLRGSTARDLDGTILATGFPFKAKQYATTYINIVGKLFNECADFRRTGSAALDLAYVAAGRVDGFFEIGLRPWDFAAGELLVREAGGIVSDFTGGHNYMLTGNIVAGNPRVVKAMLANMRDELSDALKR" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10984-MONOMER" "cell division inhibitor SulA" ["Suf", "SfiA", "SulA", "SOS cell division inhibitor"] "MYTSGYAHRSSSFSSAASKIARVSTENTTAGLISEVVYREDQPMMTQLLLLPLLQQLGQQSRWQLWLTPQQKLSREWVQASGLPLTKVMQISQLSPCHTVESMVRALRTGNYSVVIGWLADDLTEEEHAELVDAANEGNAMGFIMRPVSASSHATRQLSGLKIHSNLYH" [] ["CCO-PM-BAC-NEG"] +"EG10985-MONOMER" "chaperone SurA" ["SurA"] "MKNWKTLLLGIAMIANTSFAAPQVVDKVAAVVNNGVVLESDVDGLMQSVKLNAAQARQQLPDDATLRHQIMERLIMDQIILQMGQKMGVKISDEQLDQAIANIAKQNNMTLDQMRSRLAYDGLNYNTYRNQIRKEMIISEVRNNEVRRRITILPQEVESLAQQVGNQNDASTELNLSHILIPLPENPTSDQVNEAESQARAIVDQARNGADFGKLAIAHSADQQALNGGQMGWGRIQELPGIFAQALSTAKKGDIVGPIRSGVGFHILKVNDLRGESKNISVTEVHARHILLKPSPIMTDEQARVKLEQIAADIKSGKTTFAAAAKEFSQDPGSANQGGDLGWATPDIFDPAFRDALTRLNKGQMSAPVHSSFGWHLIELLDTRNVDKTDAAQKDRAYRMLMNRKFSEEAASWMQEQRASAYVKILSN" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"EG10986-MONOMER" "3-methyl-adenine DNA glycosylase I, constitutive" ["TagA", "Tag"] "MERCGWVSQDPLYIAYHDNEWGVPETDSKKLFEMICLEGQQAGLSWITVLKKRENYRACFHQFDPVKVAAMQEEDVERLVQDAGIIRHRGKIQAIIGNARAYLQMEQNGEPFVDFVWSFVNHQPQVTQATTLSEIPTSTSASDALSKALKKRGFKFVGTTICYSFMQACGLVNDHVVGCCCYPGNKP" [] ["CCO-CYTOSOL"] +"EG10996-MONOMER" "tRNA-guanine transglycosylase" ["Tgt"] "MKFELDTTDGRARRGRLVFDRGVVETPCFMPVGTYGTVKGMTPEEVEATGAQIILGNTFHLWLRPGQEIMKLHGDLHDFMQWKGPILTDSGGFQVFSLGDIRKITEQGVHFRNPINGDPIFLDPEKSMEIQYDLGSDIVMIFDECTPYPADWDYAKRSMEMSLRWAKRSRERFDSLGNKNALFGIIQGSVYEDLRDISVKGLVDIGFDGYAVGGLAVGEPKADMHRILEHVCPQIPADKPRYLMGVGKPEDLVEGVRRGIDMFDCVMPTRNARNGHLFVTDGVVKIRNAKYKSDTGPLDPECDCYTCRNYSRAYLHHLDRCNEILGARLNTIHNLRYYQRLMAGLRKAIEEGKLESFVTDFYQRQGREVPPLNVD" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG10997-MONOMER" "5-carboxymethylaminomethyluridine-tRNA synthase GTPase subunit" ["MnmE", "TrmE", "ThdF", "GTPase, involved in modification of U34 in tRNA", "5-carboxymethylaminomethyluridine-tRNA synthase subunit MnmE"] "MSDNDTIVAQATPPGRGGVGILRISGFKAREVAETVLGKLPKPRYADYLPFKDADGSVLDQGIALWFPGPNSFTGEDVLELQGHGGPVILDLLLKRILTIPGLRIARPGEFSERAFLNDKLDLAQAEAIADLIDASSEQAARSALNSLQGAFSARVNHLVEALTHLRIYVEAAIDFPDEEIDFLSDGKIEAQLNDVIADLDAVRAEARQGSLLREGMKVVIAGRPNAGKSSLLNALAGREAAIVTDIAGTTRDVLREHIHIDGMPLHIIDTAGLREASDEVERIGIERAWQEIEQADRVLFMVDGTTTDAVDPAEIWPEFIARLPAKLPITVVRNKADITGETLGMSEVNGHALIRLSARTGEGVDVLRNHLKQSMGFDTNMEGGFLARRRHLQALEQAAEHLQQGKAQLLGAWAGELLAEELRLAQQNLSEITGEFTSDDLLGRIFSSFCIGK" ["CCO-PM-BAC-NEG", "CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11003-MONOMER" "trigger factor" ["Tig", "chaperone protein Tig"] "MQVSVETTQGLGRRVTITIAADSIETAVKSELVNVAKKVRIDGFRKGKVPMNIVAQRYGASVRQDVLGDLMSRNFIDAIIKEKINPAGAPTYVPGEYKLGEDFTYSVEFEVYPEVELQGLEAIEVEKPIVEVTDADVDGMLDTLRKQQATWKEKDGAVEAEDRVTIDFTGSVDGEEFEGGKASDFVLAMGQGRMIPGFEDGIKGHKAGEEFTIDVTFPEEYHAENLKGKAAKFAINLKKVEERELPELTAEFIKRFGVEDGSVEGLRAEVRKNMERELKSAIRNRVKSQAIEGLVKANDIDVPAALIDSEIDVLRRQAAQRFGGNEKQALELPRELFEEQAKRRVVVGLLLGEVIRTNELKADEERVKGLIEEMASAYEDPKEVIEFYSKNKELMDNMRNVALEEQAVEAVLAKAKVTEKETTFNELMNQQA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11004-MONOMER" "oligopeptidase B" ["Tlp", "PtrB", "protease II", "OpdB"] "MLPKAARIPHAMTLHGDTRIDNYYWLRDDTRSQPEVLDYLQQENSYGHRVMASQQALQDRILKEIIDRIPQREVSAPYIKNGYRYRHIYEPGCEYAIYQRQSAFSEEWDEWETLLDANKRAAHSEFYSMGGMAITPDNTIMALAEDFLSRRQYGIRFRNLETGNWYPELLDNVEPSFVWANDSWIFYYVRKHPVTLLPYQVWRHAIGTPASQDKLIYEEKDDTYYVSLHKTTSKHYVVIHLASATTSEVRLLDAEMADAEPFVFLPRRKDHEYSLDHYQHRFYLRSNRHGKNFGLYRTRMRDEQQWEELIPPRENIMLEGFTLFTDWLVVEERQRGLTSLRQINRKTREVIGIAFDDPAYVTWIAYNPEPETARLRYGYSSMTTPDTLFELDMDTGERRVLKQTEVPGFYAANYRSEHLWIVARDGVEVPVSLVYHRKHFRKGHNPLLVYGYGSYGASIDADFSFSRLSLLDRGFVYAIVHVRGGGELGQQWYEDGKFLKKKNTFNDYLDACDALLKLGYGSPSLCYAMGGSAGGMLMGVAINQRPELFHGVIAQVPFVDVVTTMLDESIPLTTGEFEEWGNPQDPQYYEYMKSYSPYDNVTAQAYPHLLVTTGLHDSQVQYWEPAKWVAKLRELKTDDHLLLLCTDMDSGHGGKSGRFKSYEGVAMEYAFLVALAQGTLPATPAD" ["CCO-CYTOSOL"] [] +"EG11007-MONOMER" "Tol-Pal system protein TolA" ["Lky", "Cim", "ExcC", "TolA"] "MSKATEQNDKLKRAIIISAVLHVILFAALIWSSFDENIEASAGGGGGSSIDAVMVDSGAVVEQYKRMQSQESSAKRSDEQRKMKEQQAAEELREKQAAEQERLKQLEKERLAAQEQKKQAEEAAKQAELKQKQAEEAAAKAAADAKAKAEADAKAAEEAAKKAAADAKKKAEAEAAKAAAEAQKKAEAAAAALKKKAEAAEAAAAEARKKAATEAAEKAKAEAEKKAAAEKAAADKKAAAEKAAADKKAAEKAAAEKAAADKKAAAEKAAADKKAAAAKAAAEKAAAAKAAAEADDIFGELSSGKNAPKTGGGAKGNNASPAGSGNTKNNGASGADINNYAGQIKSAIESKFYDASSYAGKTCTLRIKLAPDGMLLDIKPEGGDPALCQAALAAAKLAKIPKPPSQAVYEVFKNAPLDFKP" ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11008-MONOMER" "Tol-Pal system periplasmic protein TolB" ["Lky", "LkyA"] "MKQALRVAFGFLILWASVLHAEVRIVIDSGVDSGRPIGVVPFQWAGPGAAPEDIGGIVAADLRNSGKFNPLDRARLPQQPGSAQEVQPAAWSALGIDAVVVGQVTPNPDGSYNVAYQLVDTGGAPGTVLAQNSYKVNKQWLRYAGHTASDEVFEKLTGIKGAFRTRIAYVVQTNGGQFPYELRVSDYDGYNQFVVHRSPQPLMSPAWSPDGSKLAYVTFESGRSALVIQTLANGAVRQVASFPRHNGAPAFSPDGSKLAFALSKTGSLNLYVMDLASGQIRQVTDGRSNNTEPTWFPDSQNLAFTSDQAGRPQVYKVNINGGAPQRITWEGSQNQDADVSSDGKFMVMVSSNGGQQHIAKQDLATGGVQVLSSTFLDETPSLAPNGTMVIYSSSQGMGSVLNLVSTDGRFKARLPATDGQVKFPAWSPYL" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"EG11009-MONOMER" "outer membrane channel TolC" ["WeeA", "Toc", "RefI", "MukA", "MtcB", "TolC"] "MKKLLPILIGLSLSGFSSLSQAENLMQVYQQARLSNPELRKSAADRDAAFEKINEARSPLLPQLGLGADYTYSNGYRDANGINSNATSASLQLTQSIFDMSKWRALTLQEKAAGIQDVTYQTDQQTLILNTATAYFNVLNAIDVLSYTQAQKEAIYRQLDQTTQRFNVGLVAITDVQNARAQYDTVLANEVTARNNLDNAVEQLRQITGNYYPELAALNVENFKTDKPQPVNALLKEAEKRNLSLLQARLSQDLAREQIRQAQDGHLPTLDLTASTGISDTSYSGSKTRGAAGTQYDDSNMGQNKVGLSFSLPIYQGGMVNSQVKQAQYNFVGASEQLESAHRSVVQTVRSSFNNINASISSINAYKQAVVSAQSSLDAMEAGYSVGTRTIVDVLDATTTLYNAKQELANARYNYLINQLNIKSALGTLNEQDLLALNNALSKPVSTNPENVAPQTPEQNAIADGYAPDSPAPVVQQTSARTTTSNGHNPFRN" ["CCO-MEMBRANE", "CCO-PERI-BAC", "CCO-OUTER-MEM"] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"EG11010-MONOMER" "Tol-Pal system protein TolQ" ["Fii", "TolP", "TolQ"] "MTDMNILDLFLKASLLVKLIMLILIGFSIASWAIIIQRTRILNAAAREAEAFEDKFWSGIELSRLYQESQGKRDNLTGSEQIFYSGFKEFVRLHRANSHAPEAVVEGASRAMRISMNRELENLETHIPFLGTVGSISPYIGLFGTVWGIMHAFIALGAVKQATLQMVAPGIAEALIATAIGLFAAIPAVMAYNRLNQRVNKLELNYDNFMEEFTAILHRQAFTVSESNKG" ["CCO-MEMBRANE", "CCO-CE-BAC", "CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11011-MONOMER" "Tol-Pal system protein TolR" [] "MARARGRGRRDLKSEINIVPLLDVLLVLLLIFMATAPIITQSVEVDLPDATESQAVSSNDNPPVIVEVSGIGQYTVVVEKDRLERLPPEQVVAEVSSRFKANPKTVFLIGGAKDVPYDEIIKALNLLHSAGVKSVGLMTQPI" ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11012-MONOMER" "Ton complex subunit TonB" ["ExbA", "TonB"] "MTLDLPRRFPWPTLLSVCIHGAVVAGLLYTSVHQVIELPAPAQPISVTMVTPADLEPPQAVQPPPEPVVEPEPEPEPIPEPPKEAPVVIEKPKPKPKPKPKPVKKVQEQPKRDVKPVESRPASPFENTAPARLTSSTATAATSKPVTSVASGPRALSRNQPQYPARAQALRIEGQVKVKFDVTPDGRVDNVQILSAKPANMFEREVKNAMRRWRYEPGKPGSGIVVNILFKINGTTEIQ" ["CCO-CE-BAC", "CCO-PERI-BAC", "CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PERI-BAC", "CCO-PM-BAC-NEG"] +"EG11013-MONOMER" "DNA topoisomerase 1" ["SupX", "TopA", "Topo I", "DNA topoisomerase I (ω protein)"] "MGKALVIVESPAKAKTINKYLGSDYVVKSSVGHIRDLPTSGSAAKKSADSTSTKTAKKPKKDERGALVNRMGVDPWHNWEAHYEVLPGKEKVVSELKQLAEKADHIYLATDLDREGEAIAWHLREVIGGDDARYSRVVFNEITKNAIRQAFNKPGELNIDRVNAQQARRFMDRVVGYMVSPLLWKKIARGLSAGRVQSVAVRLVVEREREIKAFVPEEFWEVDASTTTPSGEALALQVTHQNDKPFRPVNKEQTQAAVSLLEKARYSVLEREDKPTTSKPGAPFITSTLQQAASTRLGFGVKKTMMMAQRLYEAGYITYMRTDSTNLSQDAVNMVRGYISDNFGKKYLPESPNQYASKENSQEAHEAIRPSDVNVMAESLKDMEADAQKLYQLIWRQFVACQMTPAKYDSTTLTVGAGDFRLKARGRILRFDGWTKVMPALRKGDEDRILPAVNKGDALTLVELTPAQHFTKPPARFSEASLVKELEKRGIGRPSTYASIISTIQDRGYVRVENRRFYAEKMGEIVTDRLEENFRELMNYDFTAQMENSLDQVANHEAEWKAVLDHFFSDFTQQLDKAEKDPEEGGMRPNQMVLTSIDCPTCGRKMGIRTASTGVFLGCSGYALPPKERCKTTINLVPENEVLNVLEGEDAETNALRAKRRCPKCGTAMDSYLIDPKRKLHVCGNNPTCDGYEIEEGEFRIKGYDGPIVECEKCGSEMHLKMGRFGKYMACTNEECKNTRKILRNGEVAPPKEDPVPLPELPCEKSDAYFVLRDGAAGVFLAANTFPKSRETRAPLVEELYRFRDRLPEKLRYLADAPQQDPEGNKTMVRFSRKTKQQYVSSEKDGKATGWSAFYVDGKWVEGKK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11014-MONOMER" "DNA topoisomerase III" ["MutR", "TopB", "Topo III"] "MRLFIAEKPSLARAIADVLPKPHRKGDGFIECGNGQVVTWCIGHLLEQAQPDAYDSRYARWNLADLPIVPEKWQLQPRPSVTKQLNVIKRFLHEASEIVHAGDPDREGQLLVDEVLDYLQLAPEKRQQVQRCLINDLNPQAVERAIDRLRSNSEFVPLCVSALARARADWLYGINMTRAYTILGRNAGYQGVLSVGRVQTPVLGLVVRRDEEIENFVAKDFFEVKAHIVTPADERFTAIWQPSEACEPYQDEEGRLLHRPLAEHVVNRISGQPAIVTSYNDKRESESAPLPFSLSALQIEAAKRFGLSAQNVLDICQKLYETHKLITYPRSDCRYLPEEHFAGRHAVMNAISVHAPDLLPQPVVDPDIRNRCWDDKKVDAHHAIIPTARSSAINLTENEAKVYNLIARQYLMQFCPDAVFRKCVIELDIAKGKFVAKARFLAEAGWRTLLGSKERDEENDGTPLPVVAKGDELLCEKGEVVERQTQPPRHFTDATLLSAMTGIARFVQDKDLKKILRATDGLGTEATRAGIIELLFKRGFLTKKGRYIHSTDAGKALFHSLPEMATRPDMTAHWESVLTQISEKQCRYQDFMQPLVGTLYQLIDQAKRTPVRQFRGIVAPGSGGSADKKKAAPRKRSAKKSPPADEVGSGAIA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11016-MONOMER" "protamine-like protein" ["Tpr"] "MRSFDQGSTRAPARERCRRQRPEGRSAQR" [] [] +"EG11022-MONOMER" "tRNA m5U54 methyltransferase" ["RumT", "TrmA"] "MTPEHLPTEQYEAQLAEKVVRLQSMMAPFSDLVPEVFRSPVSHYRMRAEFRIWHDGDDLYHIIFDQQTKSRIRVDSFPAASELINQLMTAMIAGVRNNPVLRHKLFQIDYLTTLSNQAVVSLLYHKKLDDEWRQEAEALRDALRAQNLNVHLIGRATKTKIELDQDYIDERLPVAGKEMIYRQVENSFTQPNAAMNIQMLEWALDVTKGSKGDLLELYCGNGNFSLALARNFDRVLATEIAKPSVAAAQYNIAANHIDNVQIIRMAAEEFTQAMNGVREFNRLQGIDLKSYQCETIFVDPPRSGLDSETEKMVQAYPRILYISCNPETLCKNLETLSQTHKVERLALFDQFPYTHHMECGVLLTAK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11023-MONOMER" "tRNA m1G37 methyltransferase" ["TrmD"] "MWIGIISLFPEMFRAITDYGVTGRAVKNGLLSIQSWSPRDFTHDRHRTVDDRPYGGGPGMLMMVQPLRDAIHAAKAAAGEGAKVIYLSPQGRKLDQAGVSELATNQKLILVCGRYEGIDERVIQTEIDEEWSIGDYVLSGGELPAMTLIDSVSRFIPGVLGHEASATEDSFAEGLLDCPHYTRPEVLEGMEVPPVLLSGNHAEIRRWRLKQSLGRTWLRRPELLENLALTEEQARLLAEFKTEHAQQQHKHDGMA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11033-MONOMER" "protein chain elongation factor EF-Ts" ["Tsf", "EF1B"] "MAEITASLVKELRERTGAGMMDCKKALTEANGDIELAIENMRKSGAIKAAKKAGNVAADGVIKTKIDGNYGIILEVNCQTDFVAKDAGFQAFADKVLDAAVAGKITDVEVLKAQFEEERVALVAKIGENINIRRVAALEGDVLGSYQHGARIGVLVAAKGADEELVKHIAMHVAASKPEFIKPEDVSAEVVEKEYQVQLDIAMQSGKPKEIAEKMVEGRMKKFTGEVSLTGQPFVMEPSKTVGQLLKEHNAEVTGFIRFEVGEGIEKVETDFAAEVAAMSKQS" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11035-MONOMER" "nucleoside-specific channel-forming protein Tsx" ["NupA", "Tsx"] "MKKTLLAAGAVLALSSSFTVNAAENDKPQYLSDWWHQSVNVVGSYHTRFGPQIRNDTYLEYEAFAKKDWFDFYGYADAPVFFGGNSDAKGIWNHGSPLFMEIEPRFSIDKLTNTDLSFGPFKEWYFANNYIYDMGRNKDGRQSTWYMGLGTDIDTGLPMSLSMNVYAKYQWQNYGAANENEWDGYRFKIKYFVPITDLWGGQLSYIGFTNFDWGSDLGDDSGNAINGIKTRTNNSIASSHILALNYDHWHYSVVARYWHDGGQWNDDAELNFGNGNFNVRSTGWGGYLVVGYNF" ["CCO-OUTER-MEM"] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"EG11036-MONOMER" "translation elongation factor Tu 1" ["PulT", "KirT", "TufA", "EF-Tu", "elongation factor Tu"] "MSKEKFERTKPHVNVGTIGHVDHGKTTLTAAITTVLAKTYGGAARAFDQIDNAPEEKARGITINTSHVEYDTPTRHYAHVDCPGHADYVKNMITGAAQMDGAILVVAATDGPMPQTREHILLGRQVGVPYIIVFLNKCDMVDDEELLELVEMEVRELLSQYDFPGDDTPIVRGSALKALEGDAEWEAKILELAGFLDSYIPEPERAIDKPFLLPIEDVFSISGRGTVVTGRVERGIIKVGEEVEIVGIKETQKSTCTGVEMFRKLLDEGRAGENVGVLLRGIKREEIERGQVLAKPGTIKPHTKFESEVYILSKDEGGRHTPFFKGYRPQFYFRTTDVTGTIELPEGVEMVMPGDNIKMVVTLIHPIAMDDGLRFAIREGGRTVGAGVVAKVLG" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE", "CCO-CYTOSOL"] +"EG11037-MONOMER" "translation elongation factor Tu 2" ["PulT", "KirT", "TufB", "EF-Tu", "elongation factor Tu"] "MSKEKFERTKPHVNVGTIGHVDHGKTTLTAAITTVLAKTYGGAARAFDQIDNAPEEKARGITINTSHVEYDTPTRHYAHVDCPGHADYVKNMITGAAQMDGAILVVAATDGPMPQTREHILLGRQVGVPYIIVFLNKCDMVDDEELLELVEMEVRELLSQYDFPGDDTPIVRGSALKALEGDAEWEAKILELAGFLDSYIPEPERAIDKPFLLPIEDVFSISGRGTVVTGRVERGIIKVGEEVEIVGIKETQKSTCTGVEMFRKLLDEGRAGENVGVLLRGIKREEIERGQVLAKPGTIKPHTKFESEVYILSKDEGGRHTPFFKGYRPQFYFRTTDVTGTIELPEGVEMVMPGDNIKMVVTLIHPIAMDDGLRFAIREGGRTVGAGVVAKVLS" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG", "CCO-CYTOSOL"] +"EG11038-MONOMER" "DNA replication terminus site-binding protein" ["Tau", "Tus", "ter-binding protein", "TBP", "DNA-binding protein; inhibition of replication at Ter sites"] "MARYDLVDRLNTTFRQMEQELAIFAAHLEQHKLLVARVFSLPEVKKEDEHNPLNRIEVKQHLGNDAQSLALRHFRHLFIQQQSENRSSKAAVRLPGVLCYQVDNLSQAALVSHIQHINKLKTTFEHIVTVESELPTAARFEWVHRHLPGLITLNAYRTLTVLHDPATLRFGWANKHIIKNLHRDEVLAQLEKSLKSPRSVAPWTREEWQRKLEREYQDIAALPQNAKLKIKRPVKVQPIARVWYKGDQKQVQHACPTPLIALINRDNGAGVPDVGELLNYDADNVQHRYKPQAQPLRLIIPRLHLYVAD" [] ["CCO-CYTOSOL"] +"EG11056-MONOMER" "DNA polymerase V catalytic protein" ["Uvm", "UmuC"] "MFALCDVNAFYASCETVFRPDLWGKPVVVLSNNDGCVIARNAEAKALGVKMGDPWFKQKDLFRRCGVVCFSSNYELYADMSNRVMSTLEELSPRVEIYSIDEAFCDLTGVRNCRDLTDFGREIRATVLQRTHLTVGVGIAQTKTLAKLANHAAKKWQRQTGGVVDLSNLERQRKLMSALPVDDVWGIGRRISKKLDAMGIKTVLDLADTDIRFIRKHFNVVLERTVRELRGEPCLQLEEFAPTKQEIICSRSFGERITDYPSMRQAICSYAARAAEKLRSEHQYCRFISTFIKTSPFALNEPYYGNSASVKLLTPTQDSRDIINAATRSLDAIWQAGHRYQKAGVMLGDFFSQGVAQLNLFDDNAPRPGSEQLMTVMDTLNAKEGRGTLYFAGQGIQQQWQMKRAMLSPRYTTRSSDLLRVK" ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] ["CCO-CYTOSOL"] +"EG11057-MONOMER" "DNA polymerase V protein UmuD" ["UmuD"] "MLFIKPADLREIVTFPLFSDLVQCGFPSPAADYVEQRIDLNQLLIQHPSATYFVKASGDSMIDGGISDGDLLIVDSAITASHGDIVIAAVDGEFTVKKLQLRPTVQLIPMNSAYSPITISSEDTLDVFGVVIHVVKAMR" [] [] +"EG11058-MONOMER" "uracil-DNA glycosylase" ["Ung"] "MANELTWHDVLAEEKQQPYFLNTLQTVASERQSGVTIYPPQKDVFNAFRFTELGDVKVVILGQDPYHGPGQAHGLAFSVRPGIAIPPSLLNMYKELENTIPGFTRPNHGYLESWARQGVLLLNTVLTVRAGQAHSHASLGWETFTDKVISLINQHREGVVFLLWGSHAQKKGAIIDKQRHHVLKAPHPSPLSAHRGFFGCNHFVLANQWLEQRGETPIDWMPVLPAESE" [] ["CCO-CYTOSOL"] +"EG11059-MONOMER" "putative semialdehyde dehydrogenase Usg" ["Usg"] "MSEGWNIAVLGATGAVGEALLETLAERQFPVGEIYALARNESAGEQLRFGGKTITVQDAAEFDWTQAQLAFFVAGKEATAAWVEEATNSGCLVIDSSGLFALEPDVPLVVPEVNPFVLTDYRNRNVIAVPDSLTSQLLAALKPLIDQGGLSRISVTSLISASAQGKKAVDALAGQSAKLLNGIPIDEEDFFGRQLAFNMLPLLPDSEGSVREERRIVDEVRKILQDEGLMISASVVQAPVFYGHAQMVNFEALRPLAAEEARDAFVQGEDIVLSEENEFPTQVGDASGTPHLSVGCVRNDYGMPEQVQFWSVADNVRFGGALMAVKIAEKLVQEYLY" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11061-MONOMER" "excision nuclease subunit A" ["Dar", "DinE", "UvrA"] "MDKIEVRGARTHNLKNINLVIPRDKLIVVTGLSGSGKSSLAFDTLYAEGQRRYVESLSAYARQFLSLMEKPDVDHIEGLSPAISIEQKSTSHNPRSTVGTITEIHDYLRLLFARVGEPRCPDHDVPLAAQTVSQMVDNVLSQPEGKRLMLLAPIIKERKGEHTKTLENLASQGYIRARIDGEVCDLSDPPKLELQKKHTIEVVVDRFKVRDDLTQRLAESFETALELSGGTAVVADMDDPKAEELLFSANFACPICGYSMRELEPRLFSFNNPAGACPTCDGLGVQQYFDPDRVIQNPELSLAGGAIRGWDRRNFYYFQMLKSLADHYKFDVEAPWGSLSANVHKVVLYGSGKENIEFKYMNDRGDTSIRRHPFEGVLHNMERRYKETESSAVREELAKFISNRPCASCEGTRLRREARHVYVENTPLPAISDMSIGHAMEFFNNLKLAGQRAKIAEKILKEIGDRLKFLVNVGLNYLTLSRSAETLSGGEAQRIRLASQIGAGLVGVMYVLDEPSIGLHQRDNERLLGTLIHLRDLGNTVIVVEHDEDAIRAADHVIDIGPGAGVHGGEVVAEGPLEAIMAVPESLTGQYMSGKRKIEVPKKRVPANPEKVLKLTGARGNNLKDVTLTLPVGLFTCITGVSGSGKSTLINDTLFPIAQRQLNGATIAEPAPYRDIQGLEHFDKVIDIDQSPIGRTPRSNPATYTGVFTPVRELFAGVPESRARGYTPGRFSFNVRGGRCEACQGDGVIKVEMHFLPDIYVPCDQCKGKRYNRETLEIKYKGKTIHEVLDMTIEEAREFFDAVPALARKLQTLMDVGLTYIRLGQSATTLSGGEAQRVKLARELSKRGTGQTLYILDEPTTGLHFADIQQLLDVLHKLRDQGNTIVVIEHNLDVIKTADWIVDLGPEGGSGGGEILVSGTPETVAECEASHTARFLKPML" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11062-MONOMER" "excision nuclease subunit B" ["UvrB"] "MSKPFKLNSAFKPSGDQPEAIRRLEEGLEDGLAHQTLLGVTGSGKTFTIANVIADLQRPTMVLAPNKTLAAQLYGEMKEFFPENAVEYFVSYYDYYQPEAYVPSSDTFIEKDASVNEHIEQMRLSATKAMLERRDVVVVASVSAIYGLGDPDLYLKMMLHLTVGMIIDQRAILRRLAELQYARNDQAFQRGTFRVRGEVIDIFPAESDDIALRVELFDEEVERLSLFDPLTGQIVSTIPRFTIYPKTHYVTPRERIVQAMEEIKEELAARRKVLLENNKLLEEQRLTQRTQFDLEMMNELGYCSGIENYSRFLSGRGPGEPPPTLFDYLPADGLLVVDESHVTIPQIGGMYRGDRARKETLVEYGFRLPSALDNRPLKFEEFEALAPQTIYVSATPGNYELEKSGGDVVDQVVRPTGLLDPIIEVRPVATQVDDLLSEIRQRAAINERVLVTTLTKRMAEDLTEYLEEHGERVRYLHSDIDTVERMEIIRDLRLGEFDVLVGINLLREGLDMPEVSLVAILDADKEGFLRSERSLIQTIGRAARNVNGKAILYGDKITPSMAKAIGETERRREKQQKYNEEHGITPQGLNKKVVDILALGQNIAKTKAKGRGKSRPIVEPDNVPMDMSPKALQQKIHELEGLMMQHAQNLEFEEAAQIRDQLHQLRELFIAAS" [] ["CCO-CYTOSOL"] +"EG11063-MONOMER" "excision nuclease subunit C" ["UvrC"] "MSDQFDAKAFLKTVTSQPGVYRMYDAGGTVIYVGKAKDLKKRLSSYFRSNLASRKTEALVAQIQQIDVTVTHTETEALLLEHNYIKLYQPRYNVLLRDDKSYPFIFLSGDTHPRLAMHRGAKHAKGEYFGPFPNGYAVRETLALLQKIFPIRQCENSVYRNRSRPCLQYQIGRCLGPCVEGLVSEEEYAQQVEYVRLFLSGKDDQVLTQLISRMETASQNLEFEEAARIRDQIQAVRRVTEKQFVSNTGDDLDVIGVAFDAGMACVHVLFIRQGKVLGSRSYFPKVPGGTELSEVVETFVGQFYLQGSQMRTLPGEILLDFNLSDKTLLADSLSELAGRKINVQTKPRGDRARYLKLARTNAATALTSKLSQQSTVHQRLTALASVLKLPEVKRMECFDISHTMGEQTVASCVVFDANGPLRAEYRRYNITGITPGDDYAAMNQVLRRRYGKAIDDSKIPDVILIDGGKGQLAQAKNVFAELDVSWDKNHPLLLGVAKGADRKAGLETLFFEPEGEGFSLPPDSPALHVIQHIRDESHDHAIGGHRKKRAKVKNTSSLETIEGVGPKRRQMLLKYMGGLQGLRNASVEEIAKVPGISQGLAEKIFWSLKH" [] ["CCO-CYTOSOL"] +"EG11064-MONOMER" "DNA helicase II" ["UvrE", "SrjC", "Rad", "Dda", "RecL", "PdeB", "MutU", "UvrD"] "MDVSYLLDSLNDKQREAVAAPRSNLLVLAGAGSGKTRVLVHRIAWLMSVENCSPYSIMAVTFTNKAAAEMRHRIGQLMGTSQGGMWVGTFHGLAHRLLRAHHMDANLPQDFQILDSEDQLRLLKRLIKAMNLDEKQWPPRQAMWYINSQKDEGLRPHHIQSYGNPVEQTWQKVYQAYQEACDRAGLVDFAELLLRAHELWLNKPHILQHYRERFTNILVDEFQDTNNIQYAWIRLLAGDTGKVMIVGDDDQSIYGWRGAQVENIQRFLNDFPGAETIRLEQNYRSTSNILSAANALIENNNGRLGKKLWTDGADGEPISLYCAFNELDEARFVVNRIKTWQDNGGALAECAILYRSNAQSRVLEEALLQASMPYRIYGGMRFFERQEIKDALSYLRLIANRNDDAAFERVVNTPTRGIGDRTLDVVRQTSRDRQLTLWQACRELLQEKALAGRAASALQRFMELIDALAQETADMPLHVQTDRVIKDSGLRTMYEQEKGEKGQTRIENLEELVTATRQFSYNEEDEDLMPLQAFLSHAALEAGEGQADTWQDAVQLMTLHSAKGLEFPQVFIVGMEEGMFPSQMSLDEGGRLEEERRLAYVGVTRAMQKLTLTYAETRRLYGKEVYHRPSRFIGELPEECVEEVRLRATVSRPVSHQRMGTPMVENDSGYKLGQRVRHAKFGEGTIVNMEGSGEHSRLQVAFQGQGIKWLVAAYARLESV" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11068-MONOMER" "DNA mismatch endonuclease Vsr" ["Vsr", "DNA mismatch endonuclease of the very short patch (VSP) mismatch repair pathway"] "MADVHDKATRSKNMRAIATRDTAIEKRLASLLTGQGLAFRVQDASLPGRPDFVVDEYRCVIFTHGCFWHHHHCYLFKVPATRTEFWLEKIGKNVERDRRDISRLQELGWRVLIVWECALRGREKLTDEALTERLEEWICGEGASAQIDTQGIHLLA" [] ["CCO-CYTOSOL"] +"EG11069-MONOMER" "site-specific tyrosine recombinase" ["XerC"] "MTDLHTDVERYLRYLSVERQLSPITLLNYQRQLEAIINFASENGLQSWQQCDVTMVRNFAVRSRRKGLGAASLALRLSALRSFFDWLVSQNELKANPAKGVSAPKAPRHLPKNIDVDDMNRLLDIDINDPLAVRDRAMLEVMYGAGLRLSELVGLDIKHLDLESGEVWVMGKGSKERRLPIGRNAVAWIEHWLDLRDLFGSEDDALFLSKLGKRISARNVQKRFAEWGIKQGLNNHVHPHKLRHSFATHMLESSGDLRGVQELLGHANLSTTQIYTHLDFQHLASVYDAAHPRAKRGK" [] ["CCO-CYTOSOL"] +"EG11071-MONOMER" "site-specific recombinase" ["XprB", "XerD"] "MKQDLARIEQFLDALWLEKNLAENTLNAYRRDLSMMVEWLHHRGLTLATAQSDDLQALLAERLEGGYKATSSARLLSAVRRLFQYLYREKFREDDPSAHLASPKLPQRLPKDLSEAQVERLLQAPLIDQPLELRDKAMLEVLYATGLRVSELVGLTMSDISLRQGVVRVIGKGNKERLVPLGEEAVYWLETYLEHGRPWLLNGVSIDVLFPSQRAQQMTRQTFWHRIKHYAVLAGIDSEKLSPHVLRHAFATHLLNHGADLRVVQMLLGHSDLSTTQIYTHVATERLRQLHQQHHPRA" [] ["CCO-CYTOSOL"] +"EG11072-MONOMER" "exodeoxyribonuclease VII subunit XseA" ["Xse", "XseA", "exonuclease VII, large subunit"] "MLPSQSPAIFTVSRLNQTVRLLLEHEMGQVWISGEISNFTQPASGHWYFTLKDDTAQVRCAMFRNSNRRVTFRPQHGQQVLVRANITLYEPRGDYQIIVESMQPAGEGLLQQKYEQLKAKLQAEGLFDQQYKKPLPSPAHCVGVITSKTGAALHDILHVLKRRDPSLPVIIYPAAVQGDDAPGQIVRAIELANQRNECDVLIVGRGGGSLEDLWSFNDERVARAIFTSRIPVVSAVGHETDVTIADFVADLRAPTPSAAAEVVSRNQQELLRQVQSTRQRLEMAMDYYLANRTRRFTQIHHRLQQQHPQLRLARQQTMLERLQKRMSFALENQLKRTGQQQQRLTQRLNQQNPQPKIHRAQTRIQQLEYRLAETLRAQLSATRERFGNAVTHLEAVSPLSTLARGYSVTTATDGNVLKKVKQVKAGEMLTTRLEDGWIESEVKNIQPVKKSRKKVH" [] ["CCO-CYTOSOL"] +"EG11073-MONOMER" "exodeoxyribonuclease III" ["Xth", "XthA", "Endonuclease VI"] "MKFVSFNINGLRARPHQLEAIVEKHQPDVIGLQETKVHDDMFPLEEVAKLGYNVFYHGQKGHYGVALLTKETPIAVRRGFPGDDEEAQRRIIMAEIPSLLGNVTVINGYFPQGESRDHPIKFPAKAQFYQNLQNYLETELKRDNPVLIMGDMNISPTDLDIGIGEENRKRWLRTGKCSFLPEEREWMDRLMSWGLVDTFRHANPQTADRFSWFDYRSKGFDDNRGLRIDLLLASQPLAECCVETGIDYEIRSMEKPSDHAPVWATFRR" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11080-MONOMER" "peptidyl-prolyl cis-trans isomerase FkpB" ["YaaD", "FkpB", "SlpA"] "MSESVQSNSAVLVHFTLKLDDGTTAESTRNNGKPALFRLGDASLSEGLEQHLLGLKVGDKTTFSLEPDAAFGVPSPDLIQYFSRREFMDAGEPEIGAIMLFTAMDGSEMPGVIREINGDSITVDFNHPLAGQTVHFDIEVLEIDPALEA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11081-MONOMER" "1-hydroxy-2-methyl-2-(E)-butenyl 4-diphosphate reductase" ["YaaE", "LytB", "IspH"] "MQILLANPRGFCAGVDRAISIVENALAIYGAPIYVRHEVVHNRYVVDSLRERGAIFIEQISEVPDGAILIFSAHGVSQAVRNEAKSRDLTVFDATCPLVTKVHMEVARASRRGEESILIGHAGHPEVEGTMGQYSNPEGGMYLVESPDDVWKLTVKNEEKLSFMTQTTLSVDDTSDVIDALRKRFPKIVGPRKDDICYATTNRQEAVRALAEQAEVVLVVGSKNSSNSNRLAELAQRMGKRAFLIDDAKDIQEEWVKEVKCVGVTAGASAPDILVQNVVARLQQLGGGEAIPLEGREENIVFEVPKELRVDIREVD" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11082-MONOMER" "ribonucleoside hydrolase RihC" ["YaaF", "RihC", "ribonucleoside hydrolase 3"] "MRLPIFLDTDPGIDDAVAIAAAIFAPELDLQLMTTVAGNVSVEKTTRNALQLLHFWNAEIPLAQGAAVPLVRAPRDAASVHGESGMAGYDFVEHNRKPLGIPAFLAIRDALMRAPEPVTLVAIGPLTNIALLLSQCPECKPYIRRLVIMGGSAGRGNCTPNAEFNIAADPEAAACVFRSGIEIVMCGLDVTNQAILTPDYLSTLPQLNRTGKMLHALFSHYRSGSMQSGLRMHDLCAIAWLVRPDLFTLKPCFVAVETQGEFTSGTTVVDIDGCLGKPANVQVALDLDVKGFQQWVAEVLALAS" [] ["CCO-CYTOSOL"] +"EG11083-MONOMER" "RNA polymerase-binding ATPase and RNAP recycling factor" ["YabA", "RapA", "HepA", "RNA polymerase (RNAP)-binding ATPase and RNAP recycling factor"] "MPFTLGQRWISDTESELGLGTVVAVDARTVTLLFPSTGENRLYARSDSPVTRVMFNPGDTITSHDGWQMQVEEVKEENGLLTYIGTRLDTEESGVALREVFLDSKLVFSKPQDRLFAGQIDRMDRFALRYRARKYSSEQFRMPYSGLRGQRTSLIPHQLNIAHDVGRRHAPRVLLADEVGLGKTIEAGMILHQQLLSGAAERVLIIVPETLQHQWLVEMLRRFNLRFALFDDERYAEAQHDAYNPFDTEQLVICSLDFARRSKQRLEHLCEAEWDLLVVDEAHHLVWSEDAPSREYQAIEQLAEHVPGVLLLTATPEQLGMESHFARLRLLDPNRFHDFAQFVEEQKNYRPVADAVAMLLAGNKLSNDELNMLGEMIGEQDIEPLLQAANSDSEDAQSARQELVSMLMDRHGTSRVLFRNTRNGVKGFPKRELHTIKLPLPTQYQTAIKVSGIMGARKSAEDRARDMLYPERIYQEFEGDNATWWNFDPRVEWLMGYLTSHRSQKVLVICAKAATALQLEQVLREREGIRAAVFHEGMSIIERDRAAAWFAEEDTGAQVLLCSEIGSEGRNFQFASHMVMFDLPFNPDLLEQRIGRLDRIGQAHDIQIHVPYLEKTAQSVLVRWYHEGLDAFEHTCPTGRTIYDSVYNDLINYLASPDQTEGFDDLIKNCREQHEALKAQLEQGRDRLLEIHSNGGEKAQALAESIEEQDDDTNLIAFAMNLFDIIGINQDDRGDNMIVLTPSDHMLVPDFPGLSEDGITITFDREVALAREDAQFITWEHPLIRNGLDLILSGDTGSSTISLLKNKALPVGTLLVELIYVVEAQAPKQLQLNRFLPPTPVRMLLDKNGNNLAAQVEFETFNRQLNAVNRHTGSKLVNAVQQDVHAILQLGEAQIEKSARALIDAARNEADEKLSAELSRLEALRAVNPNIRDDELTAIESNRQQVMESLDQAGWRLDALRLIVVTHQ" ["CCO-CYTOSOL"] [] +"EG11084-MONOMER" "DNA-binding transcriptional repressor MraZ" ["YabB", "MraZ"] "MFRGATLVNLDSKGRLSVPTRYREQLLENAAGQMVCTIDIYHPCLLLYPLPEWEIIEQKLSRLSSMNPVERRVQRLLLGHASECQMDGAGRLLIAPVLRQHAGLTKEVMLVGQFNKFELWDETTWHQQVKEDIDAEQLATGDLSERLQDLSL" [] ["CCO-BAC-NUCLEOID", "CCO-CYTOSOL"] +"EG11085-MONOMER" "16S rRNA m4C1402 methyltransferase" ["RsmH", "YabC", "MraW"] "MMENYKHTTVLLDEAVNGLNIRPDGIYIDGTFGRGGHSRLILSQLGEEGRLLAIDRDPQAIAVAKTIDDPRFSIIHGPFSALGEYVAERDLIGKIDGILLDLGVSSPQLDDAERGFSFMRDGPLDMRMDPTRGQSAAEWLQTAEEADIAWVLKTYGEERFAKRIARAIVERNREQPMTRTKELAEVVAAATPVKDKFKHPATRTFQAVRIWVNSELEEIEQALKSSLNVLAPGGRLSIISFHSLEDRIVKRFMRENSRGPQVPAGLPMTEEQLKKLGGRQLRALGKLMPGEEEVAENPRARSSVLRIAERTNA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11086-MONOMER" "cell division protein FtsL" ["YabD", "MraR", "FtsL", "essential cell division protein FtsL"] "MISRVTEALSKVKGSMGSHERHALPGVIGDDLLRFGKLPLCLFICIILTAVTVVTTAHHTRLLTAQREQLVLERDALDIEWRNLILEENALGDHSRVERIATEKLQMQHVDPSQENIVVQK" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11087-MONOMER" "SecA translation regulator" ["SrrA", "SecM", "YacA", "secretion monitor"] "MSGILTRWRQFGKRYFWPHLLLGMVAASLGLPALSNAAEPNAPAKATTRNHEPSAKVNFGQLALLEANTRRPNSNYSVDYWHQHAIRTVIRHLSFAMAPQTLPVAEESLPLQAQHLALLDTLSALLTQEGTPSEKGYRIDYAHFTPQAKFSTPVWISQAQGIRAGPQRLT" ["CCO-PERI-BAC"] ["CCO-CYTOSOL", "CCO-PERI-BAC"] +"EG11088-MONOMER" "DNA-binding transcriptional dual regulator PdhR" ["YacB", "GenA", "PdhR", "AceC"] "MAYSKIRQPKLSDVIEQQLEFLILEGTLRPGEKLPPERELAKQFDVSRPSLREAIQRLEAKGLLLRRQGGGTFVQSSLWQSFSDPLVELLSDHPESQYDLLETRHALEGIAAYYAALRSTDEDKERIRELHHAIELAQQSGDLDAESNAVLQYQIAVTEAAHNVVLLHLLRCMEPMLAQNVRQNFELLYSRREMLPLVSSHRTRIFEAIMAGKPEEAREASHRHLAFIEEILLDRSREESRRERSLRRLEQRKN" [] ["CCO-CYTOSOL"] +"EG11089-MONOMER" "putative lipoprotein YacC" ["YacC"] "MKTFFRTVLFGSLMAVCANSYALSESEAEDMADLTAVFVFLKNDCGYQNLPNGQIRRALVFFAQQNQWDLSNYDTFDMKALGEDSYRDLSGIGIPVAKKCKALARDSLSLLAYVK" [] ["CCO-MEMBRANE"] +"EG11090-MONOMER" "5'-methylthioadenosine/S-adenosylhomocysteine nucleosidase" ["MtnN", "Mtn", "YadA", "Pfs"] "MKIGIIGAMEEEVTLLRDKIENRQTISLGGCEIYTGQLNGTEVALLKSGIGKVAAALGATLLLEHCKPDVIINTGSAGGLAPTLKVGDIVVSDEARYHDADVTAFGYEYGQLPGCPAGFKADDKLIAAAEACIAELNLNAVRGLIVSGDAFINGSVGLAKIRHNFPQAIAVEMEATAIAHVCHNFNVPFVVVRAISDVADQQSHLSFDEFLAVAAKQSSLMVESLVQKLAHG" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11091-MONOMER" "fermentation-respiration switch protein" ["YafA", "FrsA"] "MTQANLSETLFKPRFKHPETSTLVRRFNHGAQPPVQSALDGKTIPHWYRMINRLMWIWRGIDPREILDVQARIVMSDAERTDDDLYDTVIGYRGGNWIYEWATQAMVWQQKACAEDDPQLSGRHWLHAATLYNIAAYPHLKGDDLAEQAQALSNRAYEEAAQRLPGTMRQMEFTVPGGAPITGFLHMPKGDGPFPTVLMCGGLDAMQTDYYSLYERYFAPRGIAMLTIDMPSVGFSSKWKLTQDSSLLHQHVLKALPNVPWVDHTRVAAFGFRFGANVAVRLAYLESPRLKAVACLGPVVHTLLSDFKCQQQVPEMYLDVLASRLGMHDASDEALRVELNRYSLKVQGLLGRRCPTPMLSGYWKNDPFSPEEDSRLITSSSADGKLLEIPFNPVYRNFDKGLQEITDWIEKRLC" [] ["CCO-CYTOSOL"] +"EG11092-MONOMER" "RNA polymerase holoenzyme assembly factor Crl" ["Crl"] "MTLPSGHPKSRLIKKFTALGPYIREGKCKDNRFFFDCLAVCVNVKPAPEVREFWGWWMELEAQESRFTYSYQFGLFDKAGDWKSVPVKDTEVVERLEHTLREFHEKLRELLTTLNLKLEPADDFRDEPVKLTA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11093-MONOMER" "protein YaiA" ["YaiA"] "MPTKPPYPREAYIVTIEKGKPGQTVTWYQLRADHPKPDSLISEHPTAQEAMDAKKRYEDPDKE" [] ["CCO-CYTOSOL"] +"EG11094-MONOMER" "ATP-dependent structure-specific DNA nuclease - SbcD subunit" ["YajA", "SbcD", "orf-45"] "MRILHTSDWHLGQNFYSKSREAEHQAFLDWLLETAQTHQVDAIIVAGDVFDTGSPPSYARTLYNRFVVNLQQTGCHLVVLAGNHDSVATLNESRDIMAFLNTTVVASAGHAPQILPRRDGTPGAVLCPIPFLRPRDIITSQAGLNGIEKQQHLLAAITDYYQQHYADACKLRGDQPLPIIATGHLTTVGASKSDAVRDIYIGTLDAFPAQNFPPADYIALGHIHRAQIIGGMEHVRYCGSPIPLSFDECGKSKYVHLVTFSNGKLESVENLNVPVTQPMAVLKGDLASITAQLEQWRDVSQEPPVWLDIEITTDEYLHDIQRKIQALTESLPVEVLLVRRSREQRERVLASQQRETLSELSVEEVFNRRLALEELDESQQQRLQHLFTTTLHTLAGEHEA" [] ["CCO-CYTOSOL"] +"EG11095-MONOMER" null ["YajB", "AcpH"] "MNFLAHLHLAHLAESSLSGNLLADFVRGNPEESFPPDVVAGIHMHRRIDVLTDNLPEVREAREWFRSETRRVAPITLDVMWDHFLSRHWSQLSPDFPLQEFVCYAREQVMTILPDSPPRFINLNNYLWSEQWLVRYRDMDFIQNVLNGMASRRPRLDALRDSWYDLDAHYDALETRFWQFYPRMMAQASRKAL" [] ["CCO-CYTOSOL"] +"EG11096-MONOMER" "Sec translocon accessory complex subunit YajC" ["YajC"] "MSFFISDAVAATGAPAQGSPMSLILMLVVFGLIFYFMILRPQQKRTKEHKKLMDSIAKGDEVLTNGGLVGRVTKVAENGYIAIALNDTTEVVIKRDFVAAVLPKGTMKAL" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11097-MONOMER" "HNH nuclease family protein YajD" ["YajD"] "MAIIPKNYARLESGYREKALKIYPWVCGRCSREFVYSNLRELTVHHIDHDHTNNPEDGSNWELLCLYCHDHEHSKYTEADQYGTTVIAGEDAQKDVGEAKYNPFADLKAMMNKKK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11098-MONOMER" "exodeoxyribonuclease VII subunit XseB" ["YajE", "XseB", "exonuclease VII, small subunit"] "MPKKNEAPASFEKALSELEQIVTRLESGDLPLEEALNEFERGVQLARQGQAKLQQAEQRVQILLSDNEDASLTPFTPDNE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11099-MONOMER" "DUF1428 domain-containing protein YbaA" ["YbaA"] "MKYVDGFVVAVPADKKDAYREMAAKAAPLFKEFGALRIVECWASDVPDGKVTDFRMAVKAEENEEVVFSWIEYPSKEVRDAANQKMMSDPRMKEFGESMPFDGKRMIYGGFESIIDE" [] ["CCO-CYTOSOL"] +"EG11100-MONOMER" "putative nucleoid-associated protein YbaB" ["YbaB", "conserved DNA-binding protein YbaB"] "MFGKGGLGNLMKQAQQMQEKMQKMQEEIAQLEVTGESGAGLVKVTINGAHNCRRVEIDPSLLEDDKEMLEDLVAAAFNDAARRIEETQKEKMASVSSGMQLPPGFKMPF" ["CCO-CYTOSOL"] ["CCO-BAC-NUCLEOID", "CCO-CYTOSOL"] +"EG11101-MONOMER" "acetylesterase" ["YbaC", "Aes"] "MKPENKLPVLDLISAEMKTVVNTLQPDLPPWPATGTIAEQRQYYTLERRFWNAGAPEMATRAYMVPTKYGQVETRLFCPQPDSPATLFYLHGGGFILGNLDTHDRIMRLLASYSQCTVIGIDYTLSPEARFPQAIEEIVAACCYFHQQAEDYQINMSRIGFAGDSAGAMLALASALWLRDKQIDCGKVAGVLLWYGLYGLRDSVTRRLLGGVWDGLTQQDLQMYEEAYLSNDADRESPYYCLFNNDLTREVPPCFIAGAEFDPLLDDSRLLYQTLAAHQQPCEFKLYPGTLHAFLHYSRMMKTADEALRDGAQFFTAQL" [] ["CCO-CYTOSOL"] +"EG11103-MONOMER" "putative LuxR family transcriptional regulator FimZ" ["YbcA", "FimZ"] "MKPTSVIIMDTHPIIRMSIEVLLQKNSELQIVLKTDDYRITIDYLRTRPVDLIIMDIDLPGTDGFTFLKRIKQIQSTVKVLFLSSKSECFYAGRAIQAGANGFVSKCNDQNDIFHAVQMILSGYTFFPSETLNYIKSNKCSTNSSTVTVLSNREVTILRYLVSGLSNKEIADKLLLSNKTVSAHKSNIYGKLGLHSIVELIDYAKLYELI" [] ["CCO-CYTOSOL"] +"EG11105-MONOMER" "proofreading thioesterase in enterobactin biosynthesis" ["YbdB", "EntH"] "MIWKRHLTLDELNATSDNTMVAHLGIVYTRLGDDVLEAEMPVDTRTHQPFGLLHGGASAALAETLGSMAGFMMTRDGQCVVGTELNATHHRPVSEGKVRGVCQPLHLGRQNQSWEIVVFDEQGRRCCTCRLGTAVLG" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11108-MONOMER" "DUF1722 domain-containing protein YbgA" ["Tkp", "YbgA"] "MNLQRFDDSTLIRIFALHELHRLKEHGLTRGALLDYHSRYKLVFLAHSQPEYRKLGPFVADIHQWQNLDDYYNQYRQRVVVLLSHPANPRDHTNVLMHVQGYFRPHIDSTERQQLAALIDSYRRGEQPLLAPLMRIKHYMALYPDAWLSGQRYFELWPRVINLRHSGVL" [] ["CCO-CYTOSOL"] +"EG11110-MONOMER" "esterase/thioesterase" ["YbgC"] "MNTTLFRWPVRVYYEDTDAGGVVYHASYVAFYERARTEMLRHHHFSQQALMAERVAFVVRKMTVEYYAPARLDDMLEIQTEITSMRGTSLVFTQRIVNAENTLLNEAEVLVVCVDPLKMKPRALPKSIVAEFKQ" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG", "CCO-CYTOSOL"] +"EG11111-MONOMER" "DNA replication inhibitor CspD" ["YbjA", "CspH", "CspD"] "MEKGTVKWFNNAKGFGFICPEGGGEDIFAHYSTIQMDGYRTLKAGQSVQFDVHQGPKGNHASVIVPVEVEAAVA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11112-MONOMER" "leucyl/phenylalanyl-tRNA—protein transferase" ["YcaA", "Aat", "leucyl, phenylalanyl-tRNA-protein transferase"] "MRLVQLSRHSIAFPSPEGALREPNGLLALGGDLSPARLLMAYQRGIFPWFSPGDPILWWSPDPRAVLWPESLHISRSMKRFHKRSPYRVTMNYAFGQVIEGCASDREEGTWITRGVVEAYHRLHELGHAHSIEVWREDELVGGMYGVAQGTLFCGESMFSRMENASKTALLVFCEEFIGHGGKLIDCQVLNDHTASLGACEIPRRDYLNYLNQMRLGRLPNNFWVPRCLFSPQE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11113-MONOMER" "modulator of FtsH protease" ["YccA"] "MDRIVSSSHDRTSLLSTHKVLRNTYFLLSLTLAFSAITATASTVLMLPSPGLILTLVGMYGLMFLTYKTANKPTGIISAFAFTGFLGYILGPILNTYLSAGMGDVIAMALGGTALVFFCCSAYVLTTRKDMSFLGGMLMAGIVVVLIGMVANIFLQLPALHLAISAVFILISSGAILFETSNIIHGGETNYIRATVSLYVSLYNIFVSLLSILGFASRD" ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"EG11116-MONOMER" "tRNA U34 hydroxylase TrhO" ["TrhO", "YceA", "UPF0176 protein YceA", "tRNA wobble base hydroxylase TrhO"] "MPVLHNRISNDALKAKMLAESEPRTTISFYKYFHIADPKATRDALYQLFTALNVFGRVYLAHEGINAQISVPASNVETFRAQLYAFDPALEGLRLNIALDDDGKSFWVLRMKVRDRIVADGIDDPHFDASNVGEYLQAAEVNAMLDDPDALFIDMRNHYEYEVGHFENALEIPADTFREQLPKAVEMMQAHKDKKIVMYCTGGIRCEKASAWMKHNGFNKVWHIEGGIIEYARKAREQGLPVRFIGKNFVFDERMGERISDEIIAHCHQCGAPCDSHTNCKNDGCHLLFIQCPVCAEKYKGCCSEICCEESALPPEEQRRRRAGRENGNKIFNKSRGRLNTTLCIPDPTE" [] ["CCO-CYTOSOL"] +"EG11117-MONOMER" "putative lipid-binding lipoprotein YceB" ["YceB"] "MNKFLFAAALIVSGLLVGCNQLTQYTITEQEINQSLAKHNNFSKDIGLPGVADAHIVLTNLTSQIGREEPNKVTLTGDANLDMNSLFGSQKATMKLKLKALPVFDKEKGAIFLKEMEVVDATVQPEKMQTVMQTLLPYLNQALRNYFNQQPAYVLREDGSQGEAMAKKLAKGIEVKPGEIVIPFTD" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"EG11118-MONOMER" "23S rRNA pseudouridine955/2504/2580 synthase" ["YceC", "RluC", "ribosomal large subunit pseudouridine synthase C", "ribosomal large subunit (23S rRNA) pseudouridine synthase C"] "MKTETPSVKIVAITADEAGQRIDNFLRTQLKGVPKSMIYRILRKGEVRVNKKRIKPEYKLEAGDEVRIPPVRVAEREEEAVSPHLQKVAALADVILYEDDHILVLNKPSGTAVHGGSGLSFGVIEGLRALRPEARFLELVHRLDRDTSGVLLVAKKRSALRSLHEQLREKGMQKDYLALVRGQWQSHVKSVQAPLLKNILQSGERIVRVSQEGKPSETRFKVEERYAFATLVRCSPVTGRTHQIRVHTQYAGHPIAFDDRYGDREFDRQLTEAGTGLNRLFLHAAALKFTHPGTGEVMRIEAPMDEGLKRCLQKLRNAR" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11119-MONOMER" "DUF177 domain-containing protein YceD" ["YceD", "G30K"] "MQKVKLPLTLDPVRTAQKRLDYQGIYTPDQVERVAESVVSVDSDVECSMSFAIDNQRLAVLNGDAKVTVTLECQRCGKPFTHQVYTTYCFSPVRSDEQAEALPEAYEPIEVNEFGEIDLLAMVEDEIILALPVVPVHDSEHCEVSEADMVFGELPEEAQKPNPFAVLASLKRK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11120-MONOMER" "e14 prophage; putative tail fiber assembly protein TfaE" ["TfaE", "YcfA"] "MHKAILNSDLIATKAGDVTVYNYDGETREYISTSNEYLAVGVGIPACSCLDAPGTHKAGYAICRSADFNSWEYVPDHRGETVYSTKTGESKEIKAPGDYPENTTTIAPLSPYDKWDGEKWVTDTEAQHSAAVDAAEAQRQSLIDAAMASISLIQLKLQAGRKLTQAETTRLNAVLDYIDAVTATDTSTAPDVIWPELPEA" [] ["CCO-CYTOSOL"] +"EG11121-MONOMER" "acyl-CoA thioesterase YciA" ["YciA"] "MSTTHNVPQGDLVLRTLAMPADTNANGDIFGGWLMSQMDIGGAILAKEIAHGRVVTVRVEGMTFLRPVAVGDVVCCYARCVQKGTTSVSINIEVWVKKVASEPIGQRYKATEALFKYVAVDPEGKPRALPVE" [] ["CCO-CYTOSOL"] +"EG11122-MONOMER" "inner membrane protein" ["YciB"] "MKQFLDFLPLVVFFAFYKIYDIYAATAALIVATAIVLIYSWVRFRKVEKMALITFVLVVVFGGLTLFFHNDEFIKWKVTVIYALFAGALLVSQWVMKKPLIQRMLGKELTLPQPVWSKLNLAWAVFFILCGLANIYIAFWLPQNIWVNFKVFGLTALTLIFTLLSGIYIYRHMPQEDKS" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11123-MONOMER" "putative inner membrane protein" ["YciC"] "MSITAQSVYRDTGNFFRNQFMTILLVSLLCAFITVVLGHVFSPSDAQLAQLNDGVPVSGSSGLFDLVQNMSPEQQQILLQASAASTFSGLIGNAILAGGVILIIQLVSAGQRVSALRAIGASAPILPKLFILIFLTTLLVQIGIMLVVVPGIIMAILLALAPVMLVQDKMGVFASMRSSMRLTWANMRLVAPAVLSWLLAKTLLLLFASSFAALTPEIGAVLANTLSNLISAILLIYLFRLYMLIRQ" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11124-MONOMER" "outer membrane protein W" ["YciD", "OmpW"] "MKKLTVAALAVTTLLSGSAFAHEAGEFFMRAGSATVRPTEGAGGTLGSLGGFSVTNNTQLGLTFTYMATDNIGVELLAATPFRHKIGTRATGDIATVHHLPPTLMAQWYFGDASSKFRPYVGAGINYTTFFDNGFNDHGKEAGLSDLSLKDSWGAAGQVGVDYLINRDWLVNMSVWYMDIDTTANYKLGGAQQHDSVRLDPWVFMFSAGYRF" ["CCO-OUTER-MEM"] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"EG11125-MONOMER" "DUF892 domain-containing protein YciE" ["YciE"] "MNRIEHYHDWLRDAHAMEKQAESMLESMASRIDNYPELRARIEQHLSETKNQIVQLETILDRNDISRSVIKDSMSKMAALGQSIGGIFPSDEIVKGSISGYVFEQFEIACYTSLLAAAKNAGDTASIPTIEAILNEEKQMADWLIQNIPQTTEKFLIRSETDGVEAKK" [] ["CCO-CYTOSOL"] +"EG11126-MONOMER" "DUF892 domain-containing protein YciF" ["YciF"] "MNMKTIEDVFIHLLSDTYSAEKQLTRALAKLARATSNEKLSQAFHAHLEETHGQIERIDQVVESESNLKIKRMKCVAMEGLIEEANEVIESTEKNEVRDAALIAAAQKVEHYEIASYGTLATLAEQLGYRKAAKLLKETLEEEKATDIKLTDLAINNVNKKAENKA" [] ["CCO-CYTOSOL"] +"EG11127-MONOMER" "stress-induced bacterial acidophilic repeat motifs-containing protein YciG" ["YciG"] "MAEHRGGSGNFAEDREKASDAGRKGGQHSGGNFKNDPQRASEAGKKGGQQSGGNKSGKS" [] ["CCO-CYTOSOL"] +"EG11128-MONOMER" "putative translation factor" ["YciH"] "MSDSNSRLVYSTETGRIDEPKAAPVRPKGDGVVRIQRQTSGRKGKGVCLITGVDLDDAELTKLAAELKKKCGCGGAVKDGVIEIQGDKRDLLKSLLEAKGMKVKLAGG" [] ["CCO-CYTOSOL"] +"EG11129-MONOMER" "Qin prophage; protein Rem" ["Rem"] "MMNIEELRKIFCEDGLYAVCVENGNLVSHYRIMCLRKNGAALINFVDARVTDGFILREGEFVTSLQALKEIGIKAGFSAFSGE" [] ["CCO-CYTOSOL"] +"EG11130-MONOMER" "Qin prophage; toxic protein HokD" ["HokD", "RelF", "Qin prophage; small toxic polypeptide"] "MKQQKAMLIALIVICLTVIVTALVTRKDLCEVRIRTGQTEVAVFTAYEPEE" ["CCO-MEMBRANE"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"EG11131-MONOMER" "Qin prophage; mRNA interferase toxin RelE" ["RelE", "Qin prophage, toxin of the RelE-RelB toxin-antitoxin system / cofactor to enhance the repressor activity of RelB"] "MAYFLDFDERALKEWRKLGSTVREQLKKKLVEVLESPRIEANKLRGMPDCYKIKLRSSGYRLVYQVIDEKVVVFVISVGKRERSEVYSEAVKRIL" [] ["CCO-CYTOSOL"] +"EG11132-MONOMER" "phosphoenolpyruvate synthetase regulatory protein" ["PpsR", "YdiA", "PEP synthetase regulatory protein"] "MDNAVDRHVFYISDGTAITAEVLGHAVMSQFPVTISSITLPFVENESRARAVKDQIDAIYHQTGVRPLVFYSIVLPEIRAIILQSEGFCQDIVQALVAPLQQEMKLDPTPIAHRTHGLNPNNLNKYDARIAAIDYTLAHDDGISLRNLDQAQVILLGVSRCGKTPTSLYLAMQFGIRAANYPFIADDMDNLVLPASLKPLQHKLFGLTIDPERLAAIREERRENSRYASLRQCRMEVAEVEALYRKNQIPWINSTNYSVEEIATKILDIMGLSRRMY" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11133-MONOMER" "NlpC/P60 family lipoprotein NlpC" ["NlpC"] "MRFCLILITALLLAGCSHHKAPPPNARLSDSITVIAGLNDQLQSWHGTPYRYGGMTRRGVDCSGFVVVTMRDRFDLQLPRETKQQASIGTQIDKDELLPGDLVFFKTGSGQNGLHVGIYDTNNQFIHASTSKGVMRSSLDNVYWQKNFWQARRI" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE", "CCO-PERI-BAC"] +"EG11134-MONOMER" "putative oxidoreductase YdjA" ["YdjA"] "MDALELLINRRSASRLAEPAPTGEQLQNILRAGMRAPDHKSMQPWHFFVIEGEGRERFSAVLEQGAIAAGSDDKAIDKARNAPFRAPLIITVVAKCEENHKVPRWEQEMSAGCAVMAMQMAAVAQGFGGIWRSGALTESPVVREAFGCREQDKIVGFLYLGTPQLKASTSINVPDPTPFVTYF" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11136-MONOMER" "putative papain-like amidase YebB" ["YebB"] "MNINYPAEYEIGDIVFTCIGAALFGQISAASNCWSNHVGIIIGHNGEDFLVAESRVPLSTITTLSRFIKRSSNQRYAIKRLDAGLTERQKQRIVEQVPSRLRKLYHTGFKYESSRQFCSKFVFDIYKEALCIPVGEIETFGELLNSNPNAKLTFWKFWFLGSIPWERKTVTPASLWHHPGLVLIHAEGVETPQPELTEAV" [] ["CCO-CYTOSOL"] +"EG11137-MONOMER" "putative transcriptional regulator YebC" ["YebC"] "MAGHSKWANTRHRKAAQDAKRGKIFTKIIRELVTAAKLGGGDPDANPRLRAAVDKALSNNMTRDTLNRAIARGVGGDDDANMETIIYEGYGPGGTAIMIECLSDNRNRTVAEVRHAFSKCGGNLGTDGSVAYLFSKKGVISFEKGDEDTIMEAALEAGAEDVVTYDDGAIDVYTAWEEMGKVRDALEAAGLKADSAEVSMIPSTKADMDAETAPKLMRLIDMLEDCDDVQEVYHNGEISDEVAATL" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11139-MONOMER" "uncharacterized iron-binding protein YecA" ["YecA"] "MKTGPLNESELEWLDDILTKYNTDHAILDVAELDGLLTAVLSSPQEIEPEQWLVAVWGGADYVPRWASEKEMTRFMNLAFQHMADTAERLNEFPEQFEPLFGLREVDGSELTIVEEWCFGYMRGVALSDWSTLPDSLKPALEAIALHGTEENFERVEKMSPEAFEESVDAIRLAALDLHAYWMAHPQEKAVQQPIKAEEKPGRNDPCPCGSGKKFKQCCLH" [] ["CCO-CYTOSOL"] +"EG11140-MONOMER" "DNA-binding transcriptional activator UvrY" ["YecB", "UvrY", "UvrY response regulator"] "MINVLLVDDHELVRAGIRRILEDIKGIKVVGEASCGEDAVKWCRTNAVDVVLMDMSMPGIGGLEATRKIARSTADVKIIMLTVHTENPLPAKVMQAGAAGYLSKGAAPQEVVSAIRSVYSGQRYIASDIAQQMALSQIEPEKTESPFASLSERELQIMLMITKGQKVNEISEQLNLSPKTVNSYRYRMFSKLNIHGDVELTHLAIRHGLCNAETLSSQ" [] ["CCO-CYTOSOL"] +"EG11141-MONOMER" "putative transporter YedA" ["YedA"] "MRFRQLLPLFGALFALYIIWGSTYFVIRIGVESWPPLMMAGVRFLAAGILLLAFLLLRGHKLPPLRPLLNAALIGLLLLAVGNGMVTVAEHQNVPSGIAAVVVATVPLFTLCFSRLFGIKTRKLEWVGIAIGLAGIIMLNSGGNLSGNPWGAILILIGSISWAFGSVYGSRITLPVGMMAGAIEMLAAGVVLMIASMIAGEKLTALPSLSGFLAVGYLALFGSIIAINAYMYLIRNVSPALATSYAYVNPVVAVLLGTGLGGETLSKIEWLALGVIVFAVVLVTLGKYLFPAKPVVAPVIQDASSE" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11142-MONOMER" "DUF2138 domain-containing protein YfaA" ["PufY", "YfaA"] "MSGEKKAKGWRFYGLVGFGAIALLSAGVWALQYAGSGPEKTLSPLVVHNNLQIDLNEPDLFLDSDSLSQLPKDLLTIPFLHDVLSEDFVFYYQNHADRLGIEGSIRRIVYEHDLTLKDKLFSSLLDQPAQAALWHDKQGHLSHYMVLIQRSGLSKLLEPLLFAATSDSQLSKTEISSIKINSETVPVYQLRYNGNNALMFATYQDKMLVFSSTDMLFKDDQQDTEATAIAGDLLSGKKRWQASFGLEERTAEKTPVRQRIVVSARWLGFGYQRLMPSFAGVRFEMGNDGWHSFVALNDESASVDASFDFTPVWNSMPAGASFCVAVPYSHGIAEEMLSHISQENDKLNGALDGAAGLCWYEDSKLQTPLFVGQFDGTAEQAQLPGKLFTQNIGAHESKAPEGVLPVSQTQQGEAQIWRREVSSRYGQYPKAQAAQPDQLMSDYFFRVSLAMQNKTLLFSLDDTLVNNALQTLNKTRPAMVDVIPTDGIVPLYINPQGIAKLLRNETLTSLPKNLEPVFYNAAQTLLMPKLDALSQQPRYVMKLAQMEPGAAWQWLPITWQPL" ["CCO-CYTOSOL"] [] +"EG11144-MONOMER" "putative transporter YfcA" ["YfcA"] "METFNSLFMVSPLLLGVLFFVAMLAGFIDSIAGGGGLLTIPALMAAGMSPANALATNKLQACGGSISATIYFIRRKVVSLSDQKLNIAMTFVGSMSGALLVQYVQADVLRQILPILVICIGLYFLLMPKLGEEDRQRRMYGLPFALIAGGCVGFYDGFFGPAAGSFYALAFVTLCGFNLAKATAHAKLLNATSNIGGLLLFILGGKVIWATGFVMLVGQFLGARMGSRLVLSKGQKLIRPMIVIVSAVMSAKLLYDSHGQEILHWLGMN" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11145-MONOMER" "putative c-di-GMP phosphodiesterase PdeA" ["PdeA", "YfeA"] "MFVEHNLIKNIKIFTLAFTLTVVLIQLSRFISPLAIIHSSYIFLAWMPLCVMLSILFIFGWRGVVPVLCGMFCTNLWNFHLSFLQTAVMLGSQTFVVLCACAILRWQLGTRWRYGLTSRYVWQRLFWLGLVTPIGIKCSMYLVGSFFDFPLKISTFFGDADAIFTVVDLLSLFTAVLIYNMLFYYLTRMIVSPHFAQILWRRDIAPSLGKEKRAFTLSWLAALSVLLLLLCTPYENDFIAGYLVPVFFIIFTLGVGKLRYPFLNLTWAVSTLCLLNYNQNFLQGVETEYSLAFILAVLISFSVCLLYMVRIYHRSEWLNRRWHLQALTDPLTLLPNFRALEQAPEQEAGKSFCCLRIDNLEFMSRHYGLMMRVHCIRSICRTLLPLMQENEKLYQLPGSELLLVLSGPETEGRLQHMVNILNSRQIHWNNTGLDMGYGAAWGRFDGNQETLQPLLGQLSWLAEQSCAHHHVLALDSREEMVSGQTTKQVLLLNTIRTALDQGDLLLYAQPIRNKEGEGYDEILARLKYDGGIMTPDKFLPLIAQFNLSARFDLQVLESLLKWLATHPCDKKGPRFSVNLMPLTLLQKNIAGRIIRLFKRYHISPQAVILEITEEQAFSNAESSMYNIEQLHKFGFRIAIDDFGTGYANYERLKRLQADIIKIDGVFVKDIVTNTLDAMIVRSITDLAKAKSLSVVAEFVETQQQQALLHKLGVQYLQGYLIGRPQPLAD" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11146-MONOMER" "DNA-binding transcriptional activator XapR" ["YfeB", "PndR", "XapR"] "MERVYRTDLKLLRYFLAVAEELHFGRAAARLNMSQPPLSIHIKELENQLGTQLFIRHSRSVVLTHAGKILMEESRRLLVNANNVLARIEQIGRGEAGRIELGVVGTAMWGRMRPVMRRFLRENPNVDVLFREKMPAMQMALLERRELDAGIWRMATEPPTGFTSLRLHESAFLVAMPEEHHLSSFSTVPLEALRDEYFVTMPPVYTDWDFLQRVCQQVGFSPVVIREVNEPQTVLAMVSMGIGITLIADSYAQMNWPGVIFRPLKQRIPADLYIVYETQQVTPAMVKLLAALTQ" [] ["CCO-CYTOSOL"] +"EG11147-MONOMER" "putative reductase YffB" ["YffB"] "MVTLYGIKNCDTIKKARRWLEANNIDYRFHDYRVDGLDSELLNDFINELGWEALLNTRGTTWRKLDETTRNKITDAASAAALMTEMPAIIKRPLLCVPGKPMLLGFSDSSYQQFFHEV" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11149-MONOMER" "putative transcriptional regulator GcvR" ["GcvR", "YffD"] "MTLSSQHYLVITALGADRPGIVNTITRHVSSCGCNIEDSRLAMLGEEFTFIMLLSGSWNAITLIESTLPLKGAELDLLIVMKRTTARPRPPMPASVWVQVDVADSPHLIERFTALFDAHHMNIAELVSRTQPAENERAAQLHIQITAHSPASADAANIEQAFKALCTELNAQGSINVVNYSQHDEQDGVK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11151-MONOMER" "ribosome-associated inhibitor A" ["YfiA", "Urf1", "RaiA", "pY", "stationary phase translation inhibitor and ribosome stability factor"] "MTMNITSKQMEITPAIRQHVADRLAKLEKWQTHLINPHIILSKEPQGFVADATINTPNGVLVASGKHEDMYTAINELINKLERQLNKLQHKGEARRAATSVKDANFVEEVEEE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11152-MONOMER" "lipoprotein YfiB" ["YfiB"] "MIKHLVAPLVFTSLILTGCQSPQGKFTPEQVAAMQSYGFTESAGDWSLGLSDAILFAKNDYKLLPESQQQIQTMAAKLASTGLTHARMDGHTDNYGEDSYNEGLSLKRANVVADAWAMGGQIPRSNLTTQGLGKKYPIASNKTAQGRAENRRVAVVITTP" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE", "CCO-OUTER-MEM"] +"EG11153-MONOMER" "ribosome maturation factor RimM" ["YfjA", "RimM", "21K"] "MSKQLTAQAPVDPIVLGKMGSSYGIRGWLRVFSSTEDAESIFDYQPWFIQKAGQWQQVQLESWKHHNQDMIIKLKGVDDRDAANLLTNCEIVVDSSQLPQLEEGDYYWKDLMGCQVVTTEGYDLGKVVDMMETGSNDVLVIKANLKDAFGIKERLVPFLDGQVIKKVDLTTRSIEVDWDPGF" ["CCO-CYTOSOL"] ["CCO-RIBOSOME", "CCO-CYTOSOL"] +"EG11154-MONOMER" "prepilin-type N-terminal cleavage/methylation domain-containing protein PpdC" ["YgdA", "PpdC"] "MSASLKNQQGFSLPEVMLAMVLMVMIVTALSGFQRTLMNSLASRNQYQQLWRHGWQQTQLRAISPPANWQVNRMQTSQAGCVSISVTLVSPGGREGEMTRLHCPNRQ" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11155-MONOMER" "DUF2509 domain-containing protein YgdB" ["YgdB"] "MNREKGVSSLALVLMLLVLGSLLLQGMSQQDRSFASRVSMESQSLRRQAIVQSALAWGKMHCWQTQPAVQCSQYAETDAQVCLRLLADNEALLIAGYEGVSLWRTGEVIDGNIVFSPRGWSDFCPLKERALCQLP" [] ["CCO-MEMBRANE"] +"EG11156-MONOMER" "prepilin-type N-terminal cleavage/methylation domain-containing protein PpdB" ["YgdC", "PpdB"] "MPVKEQGFSLLEVLIAMAISSVLLLGAARFLPALQRESLTSTRKLALEDEIWLRVFTVAKHLQRAGYCHGICTGEGLEIVGQGDCVIVQWDANSNGIWDREPVKESDQIGFRLKEHVLETLRGATSCEGKGWDKVTNPDAIIIDTFQVVRQDVSGFSPVLTVNMRAASKSEPQTVVNASYSVTGFNL" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG", "CCO-CYTOSOL"] +"EG11157-MONOMER" "amino acid racemase YgeA" ["YgeA"] "MKTIGLLGGMSWESTIPYYRLINEGIKQRLGGLHSAQVLLHSVDFHEIEECQRRGEWDKTGDILAEAALGLQRAGAEGIVLCTNTMHKVADAIESRCTLPFLHIADATGRAITGAGMTRVALLGTRYTMEQDFYRGRLTEQFSINCLIPEADERAKINQIIFEELCLGQFTEASRAYCAQVIARLAEQGAQGVIFGCTEIGLLVPEERSVLPVFDTAAIHAEDAVAFMLS" [] ["CCO-CYTOSOL"] +"EG11158-MONOMER" "putative 5-formyltetrahydrofolate cyclo-ligase" ["Fau", "YgfA"] "MIRQRRRALTPEQQQEMGQQAATRMMTYPPVVMAHTVAVFLSFDGELDTQPLIEQLWRAGKRVYLPVLHPFSAGNLLFLNYHPQSELVMNRLKIHEPKLDVRDVLPLSRLDVLITPLVAFDEYGQRLGMGGGFYDRTLQNWQHYKTQPVGYAHDCQLVEKLPVEEWDIPLPAVVTPSKVWEW" [] ["CCO-CYTOSOL"] +"EG11160-MONOMER" "small conductance mechanosensitive channel MscS" ["MscS", "YggB"] "MEDLNVVDSINGAGSWLVANQALLLSYAVNIVAALAIIIVGLIIARMISNAVNRLMISRKIDATVADFLSALVRYGIIAFTLIAALGRVGVQTASVIAVLGAAGLAVGLALQGSLSNLAAGVLLVMFRPFRAGEYVDLGGVAGTVLSVQIFSTTMRTADGKIIVIPNGKIIAGNIINFSREPVRRNEFIIGVAYDSDIDQVKQILTNIIQSEDRILKDREMTVRLNELGASSINFVVRVWSNSGDLQNVYWDVLERIKREFDAAGISFPYPQMDVNFKRVKEDKAA" ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"EG11161-MONOMER" "P-loop NTPase domain-containing protein YggC" ["YggC"] "MKIELTVNGLKIQAQYQNEEIENVHKPLLHMLAALQTVNPQRRTVVFLCAPPGTGKSTLTTFWEYLAQQDPELPAIQTLPMDGFHHYNSWLDAHQLRPFKGAPETFDVAKLTENLRQVVEGDCTWPQYDRQKHDPVEDALHVTAPLVIVEGNWLLLDDEKWLELASFCDFSIFIHAPAQILRERLISRKIAGGLTRQVAEAFYARTDGPNVERVLMNSRQANLIVEMTEEGRYHFTS" [] ["CCO-CYTOSOL"] +"EG11162-MONOMER" "fumarase E" ["FumE", "YggD", "predicted DNA-binding transcriptional regulator"] "MATLTEDDVLEQLDAQDNLFSFMKTAHTILLQGIRQFLPSLFVDNDEEIVEYAVKPLLAQSGPLDDIDVALRLIYALGKMDKWLYADITHFSQFWHYLNEQDETPGFADDMTWDFISNVNSITRNAMLYDALKAMKFADFSVWSEARFSGMVKTALTLAVTTTLKELTP" [] ["CCO-CYTOSOL"] +"EG11164-MONOMER" "DUF1190 domain-containing protein YgiB" ["YgiB"] "MKRTKSIRHASFRKNWSARHLTPVALAVATVFMLAGCEKSDETVSLYQNADDCSAANPGKSAECTTAYNNALKEAERTAPKYATREDCVAEFGEGQCQQAPAQAGMAPENQAQAQQSSGSFWMPLMAGYMMGRLMGGGAGFAQQPLFSSKNPASPAYGKYTDATGKNYGAAQPGRTMTVPKTAMAPKPATTTTVTRGGFGESVAKQSTMQRSATGTSSRSMGG" ["CCO-OUTER-MEM"] [] +"EG11165-MONOMER" "putative acid—amine ligase YgiC" ["YgiC", "putative enzyme with ATPase activity"] "MERVSITERPDWREKAHEYGFNFHTMYGEPYWCEDAYYKLTLAQVEKLEEVTAELHQMCLKVVEKVIASDELMTKFRIPKHTWSFVRQSWLTHQPSLYSRLDLAWDGTGEPKLLENNADTPTSLYEAAFFQWIWLEDQLNAGNLPEGSDQFNSLQEKLIDRFVELREQYGFQLLHLTCCRDTVEDRGTIQYLQDCATEAEIATEFLYIDDIGLGEKGQFTDLQDQVISNLFKLYPWEFMLREMFSTKLEDAGVRWLEPAWKSIISNKALLPLLWEMFPNHPNLLPAYFAEDDHPQMEKYVVKPIFSREGANVSIIENGKTIEAAEGPYGEEGMIVQQFHPLPKFGDSYMLIGSWLVNDQPAGIGIREDRALITQDMSRFYPHIFVE" [] ["CCO-CYTOSOL"] +"EG11166-MONOMER" "4,5-DOPA dioxygenase extradiol" ["YgiD"] "MTPLVKDIIMSSTRMPALFLGHGSPMNVLEDNLYTRSWQKLGMTLPRPQAIVVVSAHWFTRGTGVTAMETPPTIHDFGGFPQALYDTHYPAPGSPALAQRLVELLAPIPVTLDKEAWGFDHGSWGVLIKMYPDADIPMVQLSIDSSKPAAWHFEMGRKLAALRDEGIMLVASGNVVHNLRTVKWHGDSSPYPWATSFNEYVKANLTWQGPVEQHPLVNYLDHEGGTLSNPTPEHYLPLLYVLGAWDGQEPITIPVEGIEMGSLSMLSVQIG" [] ["CCO-CYTOSOL"] +"EG11167-MONOMER" "heavy metal divalent cation transporter ZupT" ["ZupT", "YgiE"] "MSVPLILTILAGAATFIGAFLGVLGQKPSNRLLAFSLGFAAGIMLLISLMEMLPAALAAEGMSPVLGYGMFIFGLLGYFGLDRMLPHAHPQDLMQKSVQPLPKSIKRTAILLTLGISLHNFPEGIATFVTASSNLELGFGIALAVALHNIPEGLAVAGPVYAATGSKRTAILWAGISGLAEILGGVLAWLILGSMISPVVMAAIMAAVAGIMVALSVDELMPLAKEIDPNNNPSYGVLCGMSVMGFSLVLLQTAGIG" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11171-MONOMER" "N6-L-threonylcarbamoyladenine synthase, TsaD subunit" ["TsaD", "YgjD", "Gcp", "tRNA adenosine(37) threonylcarbamoyltransferase complex, transferase subunit"] "MRVLGIETSCDETGIAIYDDEKGLLANQLYSQVKLHADYGGVVPELASRDHVRKTVPLIQAALKESGLTAKDIDAVAYTAGPGLVGALLVGATVGRSLAFAWDVPAIPVHHMEGHLLAPMLEDNPPEFPFVALLVSGGHTQLISVTGIGQYELLGESIDDAAGEAFDKTAKLLGLDYPGGPLLSKMAAQGTAGRFVFPRPMTDRPGLDFSFSGLKTFAANTIRDNGTDDQTRADIARAFEDAVVDTLMIKCKRALDQTGFKRLVMAGGVSANRTLRAKLAEMMKKRRGEVFYARPEFCTDNGAMIAYAGMVRFKAGATADLGVSVRPRWPLAELPAA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11173-MONOMER" "protein YhaB" ["YhaB"] "MKGFPIAHIFHPSIPPMHAVVNNHNRNIDYWTVKRKFAEIVSTNDVNKIYSISNELRRVLSAITALNFYHGDVPSVMIRIQPENMSPFIIDISTGEHDDYIIQTLDVGTFAPFGEQCTCSAVNKKELECIKETISKYCAKFTRKEAILTPLVHFNKTSITSDCWQILFFSPDHFNNDFY" [] ["CCO-CYTOSOL"] +"EG11174-MONOMER" "uncharacterized protein YhaC" ["YhaC"] "MFPVSSIGNDISSDLVRRKMNDLPESPTGNNLEALAPGIEKLKQTSIEMVTLLNTLQPGGKCIITGDFQKELAYLQNVILYNVSSLRLDFLGYNAQIIQRSDNTCELTINEPLKNQEISTGNININCPLKDIYNEIRRLNVIFSCGTGDIVDLSSLDLRNVDLDYYDFTDKHMANTILNPFKLNSTNFTNANMFQVNFVSSTQNATISWDYLLKITPVLISISDMYSEEKIKFVESCLNEPGDITEEQLKIMRFAIIKSIPRATLTDKLENELTKEIYKSSSKIINCLNRIKLTEMKEFSSEKIYDYIDIIIEDYENTKENAYLVVPQINYTMDLNIEDSSSEELLSDNTLEKDENSPDNGFEVGEYNTYEAYNSEKQYFTREDYTYDYDLLNAI" [] ["CCO-CYTOSOL"] +"EG11177-MONOMER" "tRNA pseudouridine55 synthase" ["YhbA", "TruB"] "MSRPRRRGRDINGVLLLDKPQGMSSNDALQKVKRIYNANRAGHTGALDPLATGMLPICLGEATKFSQYLLDSDKRYRVIARLGQRTDTSDADGQIVEERPVTFSAEQLAAALDTFRGDIEQIPSMYSALKYQGKKLYEYARQGIEVPREARPITVYELLFIRHEGNELELEIHCSKGTYIRTIIDDLGEKLGCGAHVIYLRRLAVSKYPVERMVTLEHLRELVEQAEQQDIPAAELLDPLLMPMDSPASDYPVVNLPLTSSVYFKNGNPVRTSGAPLEGLVRVTEGENGKFIGMGEIDDEGRVAPRRLVVEYPA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11178-MONOMER" "30S ribosome binding factor" ["YhbB", "RbfA"] "MAKEFGRPQRVAQEMQKEIALILQREIKDPRLGMMTTVSGVEMSRDLAYAKVYVTFLNDKDEDAVKAGIKALQEASGFIRSLLGKAMRLRIVPELTFFYDNSLVEGMRMSNLVTSVVKHDEERRVNPDDSKED" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11179-MONOMER" "ribosome maturation factor RimP" ["YhbC", "RimP"] "MSTLEQKLTEMITAPVEALGFELVGIEFIRGRTSTLRIYIDSEDGINVDDCADVSHQVSAVLDVEDPITVAYNLEVSSPGLDRPLFTAEHYARFVGEEVTLVLRMAVQNRRKWQGVIKAVDGEMITVTVEGKDEVFALSNIQKANLVPHF" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11180-MONOMER" "large conductance mechanosensitive channel" ["YhdC", "MscL"] "MSIIKEFREFAMRGNVVDLAVGVIIGAAFGKIVSSLVADIIMPPLGLLIGGIDFKQFAVTLRDAQGDIPAVVMHYGVFIQNVFDFLIVAFAIFMAIKLINKLNRKKEEPAAAPAPTKEEVLLTEIRDLLKEQNNRS" ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11181-MONOMER" "bacterioferritin-associated ferredoxin" ["YheA", "Bfd"] "MYVCLCNGISDKKIRQAVRQFSPHSFQQLKKFIPVGNQCGKCVRAAREVMEDELMQLPEFKESA" [] ["CCO-CYTOSOL"] +"EG11182-MONOMER" "OsmC family protein YhfA" ["YhfA"] "MQARVKWVEGLTFLGESASGHQILMDGNSGDKAPSPMEMVLMAAGGCSAIDVVSILQKGRQDVVDCEVKLTSERREEAPRLFTHINLHFIVTGRDLKDAAVARAVDLSAEKYCSVALMLEKAVNITHSYEVVAA" [] ["CCO-CYTOSOL"] +"EG11183-MONOMER" "cell division protein DamX" ["YhfB", "DamX"] "MDEFKPEDELKPDPSDRRTGRSRQSSERSERTERGEPQINFDDIELDDTDDRRPTRAQKERNEEPEIEEEIDESEDETVDEERVERRPRKRKKAASKPASRQYMMMGVGILVLLLLIIGIGSALKAPSTTSSDQTASGEKSIDLAGNATDQANGVQPAPGTTSAENTQQDVSLPPISSTPTQGQTPVATDGQQRVEVQGDLNNALTQPQNQQQLNNVAVNSTLPTEPATVAPVRNGNASRDTAKTQTAERPSTTRPARQQAVIEPKKPQATVKTEPKPVAQTPKRTEPAAPVASTKAPAATSTPAPKETATTAPVQTASPAQTTATPAAGAKTAGNVGSLKSAPSSHYTLQLSSSSNYDNLNGWAKKENLKNYVVYETTRNGQPWYVLVSGVYASKEEAKKAVSTLPADVQAKNPWAKPLRQVQADLK" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11184-MONOMER" "DUF2756 domain-containing protein YhhA" ["YhhA"] "MKRLLILTALLPFVGFAQPINTLNNPNQPGYQIPSQQRMQTQMQTQQIQQKGMLNQQLKTQTQLQQQHLENQINNNSQRVLQSQPGERNPARQQMLPNTNGGMLNSNRNPDSSLNQQHMLPERRNGDMLNQPSTPQPDIPLKTIGP" [] ["CCO-CYTOSOL"] +"EG11186-MONOMER" "PF05360 family inner membrane protein YiaA" ["YiaA"] "MDNKISTYSPAFSIVSWIALVGGIVTYLLGLWNAEMQLNEKGYYFAVLVLGLFSAASYQKTVRDKYEGIPTTSIYYMTCLTVFIISVALLMVGLWNATLLLSEKGFYGLAFFLSLFGAVAVQKNIRDAGINPPKETQVTQEEYSE" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11187-MONOMER" "putative lyase containing HEAT-repeat" ["YibA"] "MSNTYQKRKASKEYGLYNQCKKLNDDELFRLLDDHNSLKRISSARVLQLRGGQDAVRLAIEFCSDKNYIRRDIGAFILGQIKICKKCEDNVFNILNNMALNDKSACVRATAIESTAQRCKKNPIYSPKIVEQSQITAFDKSTNVRRATAFAISVINDKATIPLLINLLKDPNGDVRNWAAFAININKYDNSDIRDCFVEMLQDKNEEVRIEAIIGLSYRKDKRVLSVLCDELKKNTVYDDIIEAAGELGDKTLLPVLDTMLYKFDDNEIITSAIDKLKRS" [] ["CCO-CYTOSOL"] +"EG11188-MONOMER" "protein HtrL" ["YibB", "HtrL"] "MKSSTTIITAYFDIGRGDWTANKGFREKLARSVDVYFSYFERLAALENEMIIFTSPDLKPRVEAIRNGKPTTVIVIDIKKKFRYIRSRIEKIQKDESFTNRLEPRQLKNPEYWSPEYVLVCNLKAYFVNKAINMGLVKTPLVAWIDFGYCHKPNVTRGLKIWDFPFDESKMHLFTIKKGLTVTSQQQVFDFMIGNHVYIIGGAIVGSQHKWKEFYKLVLESQKITLNNNIVDDDQGIFVMCYYKRPDLFNLNYLGRGKWFDLFRCFRSNTLGAKMQALRIFLSRK" [] ["CCO-CYTOSOL"] +"EG11189-MONOMER" "ADP-heptose:LPS heptosyltransferase 1" ["YibC", "WaaC", "RfaC", "ADP-heptose:LPS heptosyltransferase I"] "MRVLIVKTSSMGDVLHTLPALTDAQQAIPGIKFDWVVEEGFAQIPSWHAAVERVIPVAIRRWRKAWFSAPIKAERKAFREALQAENYDAVIDAQGLVKSAALVTRLAHGVKHGMDWQTAREPLASLFYNRKHHIAKQQHAVERTRELFAKSLGYSKPQTQGDYAIAQHFLTNLPTDAGEYAVFLHATTRDDKHWPEEHWRELIGLLADSGIRIKLPWGAPHEEERAKRLAEGFAYVEVLPKMSLEGVARVLAGAKFVVSVDTGLSHLTAALDRPNITVYGPTDPGLIGGYGKNQMVCRAPRENLINLNSQAVLEKLSSL" [] ["CCO-CYTOSOL"] +"EG11191-MONOMER" "nucleoid occlusion factor SlmA" ["YicB", "Ttk", "SlmA"] "MAEKQTAKRNRREEILQSLALMLESSDGSQRITTAKLAASVGVSEAALYRHFPSKTRMFDSLIEFIEDSLITRINLILKDEKDTTARLRLIVLLLLGFGERNPGLTRILTGHALMFEQDRLQGRINQLFERIEAQLRQVLREKRMREGEGYTTDETLLASQILAFCEGMLSRFVRSEFKYRPTDDFDARWPLIAAQLQ" ["CCO-BAC-NUCLEOID"] ["CCO-CYTOSOL", "CCO-BAC-NUCLEOID"] +"EG11192-MONOMER" "UPF0701 family protein YicC" ["YicC"] "MIRSMTAYARREIKGEWGSATWEMRSVNQRYLETYFRLPEQFRSLEPVVRERIRSRLTRGKVECTLRYEPDVSAQGELILNEKLAKQLVTAANWVKMQSDEGEINPVDILRWPGVMAAQEQDLDAIAAEILAALDGTLDDFIVARETEGQALKALIEQRLEGVTAEVVKVRSHMPEILQWQRERLVAKLEDAQVQLENNRLEQELVLLAQRIDVAEELDRLEAHVKETYNILKKKEAVGRRLDFMMQEFNRESNTLASKSINAEVTNSAIELKVLIEQMREQIQNIE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11193-MONOMER" "DNA damage-inducible protein D" ["YicD", "PcsA", "DinD"] "MNEHHQPFEEIKLINANGAEQWSARQLGKLLGYSEYRHFIPVLTRAKEACENSGHTIDDHFEEILDMVKIGSNAKRALKDIVLSRYACYLVVQNGDPAKPVIAAGQTYFAIQTRRQELADDEAFKQLREDEKRLFLRNELKEHNKQLVEAAQQAGVATATDFAIFQNHGYQGLYGGLDQKAIHQRKGLKKNQKILDHMGSTELAANLFRATQTEEKLKRDGVNSKQQANTTHFDVGRKVRQTIQELGGTMPEELPTPQVSIKQLENSVKITEKK" [] ["CCO-CYTOSOL"] +"EG11195-MONOMER" "sugar phosphatase YidA" ["YidA", "HAD13"] "MAIKLIAIDMDGTLLLPDHTISPAVKNAIAAARARGVNVVLTTGRPYAGVHNYLKELHMEQPGDYCITYNGALVQKAADGSTVAQTALSYDDYRFLEKLSREVGSHFHALDRTTLYTANRDISYYTVHESFVATIPLVFCEAEKMDPNTQFLKVMMIDEPAILDQAIARIPQEVKEKYTVLKSAPYFLEILDKRVNKGTGVKSLADVLGIKPEEIMAIGDQENDIAMIEYAGVGVAMDNAIPSVKEVANFVTKSNLEDGVAFAIEKYVLN" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11196-MONOMER" "DUF937 domain-containing protein YidB" ["YidB"] "MGLFDEVVGAFLKGDAGKYQAILSWVEEQGGIQVLLEKLQSGGLGAILSTWLSNQQGNQSVSGEQLESALGTNAVSDLGQKLGVDTSTASSLLAEQLPKIIDALSPQGEVSPQANNDLLSAGMELLKGKLFR" [] ["CCO-CYTOSOL"] +"EG11199-MONOMER" "flavoprotein MioC" ["YieB", "MioC", "flavoprotein involved in biotin synthesis"] "MADITLISGSTLGGAEYVAEHLAEKLEEAGFTTETLHGPLLEDLPASGIWLVISSTHGAGDIPDNLSPFYEALQEQKPDLSAVRFGAIGIGSREYDTFCGAIDKLEAELKNSGAKQTGETLKINILDHDIPEDPAEEWLGSWVNLLK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11201-MONOMER" "DUF484 domain-containing protein YigA" ["YigA"] "MKQPGEELQETLTELDDRAVVDYLIKNPEFFIRNARAVEAIRVPHPVRGTVSLVEWHMARARNHIHVLEENMALLMEQAIANEGLFYRLLYLQRSLTAASSLDDMLMRFHRWARDLGLAGASLRLFPDRWRLGAPSNHTHLALSRQSFEPLRIQRLGQEQHYLGPLNGPELLVVLPEAKAVGSVAMSMLGSDADLGVVLFTSRDASHYQQGQGTQLLHEIALMLPELLERWIERV" [] ["CCO-CYTOSOL"] +"EG11202-MONOMER" "5-amino-6-(5-phospho-D-ribitylamino)uracil phosphatase" ["YigB"] "MRFYRPLGRISALTFDLDDTLYDNRPVILRTEREALTFVQNYHPALRSFQNEDLQRLRQAVREAEPEIYHDVTRWRFRSIEQAMLDAGLSAEEASAGAHAAMINFAKWRSRIDVPQQTHDTLKQLAKKWPLVAITNGNAQPELFGLGDYFEFVLRAGPHGRSKPFSDMYFLAAEKLNVPIGEILHVGDDLTTDVGGAIRSGMQACWIRPENGDLMQTWDSRLLPHLEISRLASLTSLI" [] ["CCO-CYTOSOL"] +"EG11203-MONOMER" "GTP-binding protein YihA" ["EngB", "YihA", "cell division protein; putative checkpoint GTPase"] "MTNLNYQQTHFVMSAPDIRHLPSDTGIEVAFAGRSNAGKSSALNTLTNQKSLARTSKTPGRTQLINLFEVADGKRLVDLPGYGYAEVPEEMKRKWQRALGEYLEKRQSLQGLVVLMDIRHPLKDLDQQMIEWAVDSNIAVLVLLTKADKLASGARKAQLNMVREAVLAFNGDVQVETFSSLKKQGVDKLRQKLDTWFSEMQPVEETQDGE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11206-MONOMER" "stress response protein" ["YjaA"] "MSVLYIQIRRNQITVRDLESKREVSGDAAFSNQRLLIANFFVAEKVLQDLVLQLHPRSTWHSFLPAKRMDIVVSALEMNEGGLSQVEERILHEVVAGATLMKYRQFHIHAQSAVLSDSAVMAMLKQK" [] ["CCO-MEMBRANE"] +"EG11207-MONOMER" "peptidyl-lysine N-acetyltransferase YjaB" ["YjaB"] "MVISIRRSRHEEGEELVAIWCRSVDATHDFLSAEYRTELEDLVRSFLPEAPLWVAVNERDQPVGFMLLSGQHMDALFIDPDVRGCGVGRVLVEHALSMAPELTTNVNEQNEQAVGFYKKVGFKVTGRSEVDDLGKPYPLLNLAYVGA" [] ["CCO-CYTOSOL"] +"EG11208-MONOMER" "regulator of acetyl CoA synthetase" ["ArpA", "YjaC", "Arp"] "MITRIPRSSFSANINNTAQTNEHQTLSELFYKELEDKFSGKELATPLLKSFSENCRQNGRHIFSNKDFVIKFSTSVLQADKKEITIINKNENTTLTQTIAPIFEKYLMEILPQRSDTLDKQELNLKSDRKEKEFPRIKLNGQCYFPGRPQNRIVCRHIAAQYINDIYQNVDYKPHQDDYSSAEKFLTHFNKKCKNQTLALVSSRPEGRCVAACGDFGLVMKAYFDKMESNGISVMAAILLVDNHALTVRLRIKNTTEGCTHYVVSVYDPNVTNDKIRIMSESKENIKHYSLMDFMNVDYSLLKWSNDHVINQSVAIIPALPKEQLLMLKGSVDEITPPLSPATMNLLMAIGQNHQLTQLMIQLQKMPELHRTEMLTAYNSINLPGLYLAINYGNADIVETIFNSLSETGYEGLLSKKNLMHILEAKDKNGFSGLFLAISRKDKNVVTSILNALPKLAATHHLDNEQVYKFLSAKNRTSSHVLYHVMANGDADMLKIVLNALPLLIRTCHLTKEQVLDLLKAKDFYGCPGLYLAMQNGHSDIVKVILEALPSLAQEINISASDIVDLLTAKSLARDTGLFMAMQRGHMNVINTIFNALPTLFNTFKFDKKNMKPLLLANNSNEYPGLFSAIQHKQQNVVETVYLALSDHARLFGFTAEDIMDFWQHKAPQKYSAFELAFEFGHRVIAELILNTLNKMAESFGFTDNPRYIAEKNYMEALLKKASPHTVR" [] ["CCO-CYTOSOL"] +"EG11209-MONOMER" "putative phosphate starvation-inducible protein PsiE" ["PsiE", "YjbA"] "MTSLSRPRVEFISTILQTVLNLGLLCLGLILVVFLGKETVHLADVLFAPEQTSKYELVEGLVVYFLYFEFIALIVKYFQSGFHFPLRYFVYIGITAIVRLIIVDHKSPLDVLIYSAAILLLVITLWLCNSKRLKRE" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11210-MONOMER" "regulator of diguanylate cyclase RdcA" ["RdcA", "CrfC", "YjdA", "clamp-binding protein CrfC", "clamp-binding sister replication fork colocalization protein"] "MYTQTLYELSQEAERLLQLSRQQLQLLEKMPLSVPGDDAPQLALPWSQPNIAERHAMLNNELRKISRLEMVLAIVGTMKAGKSTTINAIVGTEVLPNRNRPMTALPTLIRHTPGQKEPVLHFSHVAPIDCLIQQLQQRLRDCDIKHLTDVLEIDKDMRALMQRIENGVAFEKYYLGAQPIFHCLKSLNDLVRLAKALDVDFPFSAYAAIEHIPVIEVEFVHLAGLESYPGQLTLLDTPGPNEAGQPHLQKMLNQQLARASAVLAVLDYTQLKSISDEEVREAILAVGQSVPLYVLVNKFDQQDRNSDDADQVRALISGTLMKGCITPQQIFPVSSMWGYLANRARYELANNGKLPPPEQQRWVEDFAHAALGRRWRHADLADLEHIRHAADQLWEDSLFAQPIQALLHAAYANASLYALRSAAHKLLNYAQQAREYLDFRAHGLNVACEQLRQNIHQIEESLQLLQLNQAQVSGEIKHEIELALTSANHFLRQQQDALKVQLAALFQDDSEPLSEIRTRCETLLQTAQNTISRDFTLRFAELESTLCRVLTDVIRPIEQQVKMELSESGFRPGFHFPVFHGVVPHFNTRQLFSEVISRQEATDEQSTRLGVVRETFSRWLNQPDWGRGNEKSPTETVDYSVLQRALSAEVDLYCQQMAKVLAEQVDESVTAGMNTFFAEFASCLTELQTRLRESLALRQQNESVVRLMQQQLQQTVMTHGWIYTDAQLLRDDIQTLFTAERY" ["CCO-BAC-NUCLEOID"] ["CCO-CYTOSOL"] +"EG11211-MONOMER" "EF-P-lysine lysyltransferase" ["EpmA", "YjeA", "GenX", "PoxA"] "MSETASWQPSASIPNLLKRAAIMAEIRRFFADRGVLEVETPCMSQATVTDIHLVPFETRFVGPGHSQGMNLWLMTSPEYHMKRLLVAGCGPVFQLCRSFRNEEMGRYHNPEFTMLEWYRPHYDMYRLMNEVDDLLQQVLDCPAAESLSYQQAFLRYLEIDPLSADKTQLREVAAKLDLSNVADTEEDRDTLLQLLFTFGVEPNIGKEKPTFVYHFPASQASLAQISTEDHRVAERFEVYYKGIELANGFHELTDAREQQQRFEQDNRKRAARGLPQHPIDQNLIEALKVGMPDCSGVALGVDRLVMLALGAETLAEVIAFSVDRA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11212-MONOMER" "DNA-binding transcriptional repressor NsrR" ["YjeB", "NsrR"] "MQLTSFTDYGLRALIYMASLPEGRMTSISEVTDVYGVSRNHMVKIINQLSRAGYVTAVRGKNGGIRLGKPASAIRIGDVVRELEPLSLVNCSSEFCHITPACRLKQALSKAVQSFLTELDNYTLADLVEENQPLYKLLLVE" [] ["CCO-CYTOSOL"] +"EG11214-MONOMER" "DUF2501 domain-containing protein YjjA" ["YjjA"] "MMKTVKHLLCCAIAASALISTGVHAASWKDALSSAASELGNQNSTTQEGGWSLASLTNLLSSGNQALSADNMNNAAGILQYCAKQKLASVTDAENIKNQVLEKLGLNSEEQKEDTNYLDGIQGLLKTKDGQQLNLDNIGTTPLAEKVKTKACDLVLKQGLNFIS" ["CCO-CYTOSOL"] [] +"EG11215-MONOMER" "putative succinate exporter YjjB" ["YjjB"] "MGVIEFLLALAQDMILAAIPAVGFAMVFNVPVRALRWCALLGSIGHGSRMILMTSGLNIEWSTFMASMLVGTIGIQWSRWYLAHPKVFTVAAVIPMFPGISAYTAMISAVKISQLGYSEPLMITLLTNFLTASSIVGALSIGLSIPGLWLYRKRPRV" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11217-MONOMER" "PF05981 family protein CreA" ["YjjD", "CreA", "conserved protein CreA"] "MKYKHLILSLSLIMLGPLAHAEEIGSVDTVFKMIGPDHKIVVEAFDDPDVKNVTCYVSRAKTGGIKGGLGLAEDTSDAAISCQQVGPIELSDRIKNGKAQGEVVFKKRTSLVFKSLQVVRFYDAKRNALAYLAYSDKVVEGSPKNAISAVPVMPWRQ" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11219-MONOMER" "protein YdcA" ["YdcA"] "MKKLALILFMGTLVSFYADAGRKPCSGSKGGISHCTAGGKFVCNDGSISASKKTCTN" [] ["CCO-MEMBRANE"] +"EG11222-MONOMER" "DNA-3-methyladenine glycosylase 2" ["AidA", "AlkA", "3-methyl-adenine DNA glycosylase II, inducible"] "MYTLNWQPPYDWSWMLGFLAARAVSSVETVADSYYARSLAVGEYRGVVTAIPDIARHTLHINLSAGLEPVAAECLAKMSRLFDLQCNPQIVNGALGRLGAARPGLRLPGCVDAFEQGVRAILGQLVSVAMAAKLTARVAQLYGERLDDFPEYICFPTPQRLAAADPQALKALGMPLKRAEALIHLANAALEGTLPMTIPGDVEQAMKTLQTFPGIGRWTANYFALRGWQAKDVFLPDDYLIKQRFPGMTPAQIRRYAERWKPWRSYALLHIWYTEGWQPDEA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11224-MONOMER" "flagellar biosynthesis protein FliO" ["FlbD", "FliO"] "MNNHATVQSSAPVSAAPLLQVSGALIAIIALILAAAWLVKRLGFAPKRTGVNGLKISASASLGARERVVVVDVEDARLVLGVTAGQINLLHKLPPSAPTEEIPQTDFQSVMKNLLKRSGRS" [] ["CCO-CELL-PROJECTION", "CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11231-MONOMER" "50S ribosomal subunit protein L35" ["RpmI", "50S ribosomal subunit protein A", "X1 protein"] "MPKIKTVRGAAKRFKKTGKGGFKHKHANLRHILTKKATKRKRHLRPKAMVSKGDLGLVIACLPYA" [] ["CCO-RIBOSOME", "CCO-CYTOSOL"] +"EG11232-MONOMER" "50S ribosomal subunit protein L36" ["SecX", "RpmJ", "50S ribosomal subunit protein B"] "MKVRASVKKLCRNCKIVKRDGVIRVICSAEPKHKQRQG" [] ["CCO-RIBOSOME", "CCO-CYTOSOL"] +"EG11234-MONOMER" "quinate/shikimate dehydrogenase" ["YdiB"] "MDVTAKYELIGLMAYPIRHSLSPEMQNKALEKAGLPFTYMAFEVDNDSFPGAIEGLKALKMRGTGVSMPNKQLACEYVDELTPAAKLVGAINTIVNDDGYLRGYNTDGTGHIRAIKESGFDIKGKTMVLLGAGGASTAIGAQGAIEGLKEIKLFNRRDEFFDKALAFAQRVNENTDCVVTVTDLADQQAFAEALASADILTNGTKVGMKPLENESLVNDISLLHPGLLVTECVYNPHMTKLLQQAQQAGCKTIDGYGMLLWQGAEQFTLWTGKDFPLEYVKQVMGFGA" [] ["CCO-CYTOSOL"] +"EG11235-MONOMER" "ATP-dependent RNA helicase RhlE" ["RhlE"] "MSFDSLGLSPDILRAVAEQGYREPTPIQQQAIPAVLEGRDLMASAQTGTGKTAGFTLPLLQHLITRQPHAKGRRPVRALILTPTRELAAQIGENVRDYSKYLNIRSLVVFGGVSINPQMMKLRGGVDVLVATPGRLLDLEHQNAVKLDQVEILVLDEADRMLDMGFIHDIRRVLTKLPAKRQNLLFSATFSDDIKALAEKLLHNPLEIEVARRNTASDQVTQHVHFVDKKRKRELLSHMIGKGNWQQVLVFTRTKHGANHLAEQLNKDGIRSAAIHGNKSQGARTRALADFKSGDIRVLVATDIAARGLDIEELPHVVNYELPNVPEDYVHRIGRTGRAAATGEALSLVCVDEHKLLRDIEKLLKKEIPRIAIPGYEPDPSIKAEPIQNGRQQRGGGGRGQGGGRGQQQPRRGEGGAKSASAKPAEKPSRRLGDAKPAGEQQRRRRPRKPAAAQ" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11236-MONOMER" "DNA-binding transcriptional activator/c-di-GMP phosphodiesterase PdeL" ["PdeL", "YahA"] "MNSCDFRVFLQEFGTTVHLSLPGSVSEKERLLLKLLMQGMSVTEISQYRNRSAKTISHQKKQLFEKLGIQSDITFWRDIFFQYNPEIISATGSNSHRYINDNHYHHIVTPEAISLALENHEFKPWIQPVFCAQTGVLTGCEVLVRWEHPQTGIIPPDQFIPLAESSGLIVIMTRQLMKQTADILMPVKHLLPDNFHIGINVSAGCFLAAGFEKECLNLVNKLGNDKIKLVLELTERNPIPVTPEARAIFDSLHQHNITFALDDFGTGYATYRYLQAFPVDFIKIDKSFVQMASVDEISGHIVDNIVELARKPGLSIVAEGVETQEQADLMIGKGVHFLQGYLYSPPVPGNKFISEWVMKAGG" [] ["CCO-PM-BAC-NEG"] +"EG11237-MONOMER" "endochitinase" ["ChiA", "YheB"] "MKLNIFTKSMIGMGLVCSALPALAMEAWNNQQGGNKYQVIFDGKIYENAWWVSSTNCPGKAKANDATNPWRLKRTATAAEISQFGNTLSCEKSGSSSSSNSNTPASNTPANGGSATPAQGTVPSNSSVVAWNKQQGGQTWYVVFNGAVYKNAWWVASSNCPGDAKSNDASNPWRYVRAATATEISETSNPQSCTSAPQPSPDVKPAPDVKPAPDVQPAPADKSNDNYAVVAWKGQEGSSTWYVIYNGGIYKNAWWVGAANCPGDAKENDASNPWRYVRAATATEISQYGNPGSCSVKPDNNGGAVTPVDPTPETPVTPTPDNSEPSTPADSVNDYSLQAWSGQEGSEIYHVIFNGNVYKNAWWVGSKDCPRGTSAENSNNPWRLERTATAAELSQYGNPTTCEIDNGGVIVADGFQASKAYSADSIVDYNDAHYKTSVDQDAWGFVPGGDNPWKKYEPAKAWSASTVYVKGDRVVVDGQAYEALFWTQSDNPALVANQNATGSNSRPWKPLGKAQSYSNEELNNAPQFNPETLYASDTLIRFNGVNYISQSKVQKVSPSDSNPWRVFVDWTGTKERVGTPKKAWPKHVYAPYVDFTLNTIPDLAALAKNHNVNHFTLAFVVSKDANTCLPTWGTAYGMQNYAQYSKIKALREAGGDVMLSIGGANNAPLAASCKNVDDLMQHYYDIVDNLNLKVLDFDIEGTWVADQASIERRNLAVKKVQDKWKSEGKDIAIWYTLPILPTGLTPEGMNVLSDAKAKGVELAGVNVMTMDYGNAICQSANTEGQNIHGKCATSAIANLHSQLKGLHPNKSDAEIDAMMGTTPMVGVNDVQGEVFYLSDARLVMQDAQKRNLGMVGIWSIARDLPGGTNLSPEFHGLTKEQAPKYAFSEIFAPFTKQ" ["CCO-PERI-BAC"] ["CCO-EXTRACELLULAR", "CCO-PERI-BAC"] +"EG11238-MONOMER" "putative kinase inhibitor" ["YbhB"] "MKLISNDLRDGDKLPHRHVFNGMGYDGDNISPHLAWDDVPAGTKSFVVTCYDPDAPTGSGWWHWVVVNLPADTRVLPQGFGSGLVAMPDGVLQTRTDFGKTGYDGAAPPKGETHRYIFTVHALDIERIDVDEGASGAMVGFNVHFHSLASASITAMFS" [] ["CCO-CYTOSOL"] +"EG11239-MONOMER" "pyridoxal phosphate/fructose-1,6-bisphosphate phosphatase" ["YbhA"] "MTTRVIALDLDGTLLTPKKTLLPSSIEALARAREAGYQLIIVTGRHHVAIHPFYQALALDTPAICCNGTYLYDYHAKTVLEADPMPVIKALQLIEMLNEHHIHGLMYVDDAMVYEHPTGHVIRTSNWAQTLPPEQRPTFTQVASLAETAQQVNAVWKFALTHDDLPQLQHFGKHVEHELGLECEWSWHDQVDIARGGNSKGKRLTKWVEAQGWSMENVVAFGDNFNDISMLEAAGTGVAMGNADDAVKARANIVIGDNTTDSIAQFIYSHLI" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11241-MONOMER" "putative hydrolase YcaC" ["YcaC"] "MTKPYVRLDKNDAAVLLVDHQAGLLSLVRDIEPDKFKNNVLALGDLAKYFNLPTILTTSFETGPNGPLVPELKAQFPDTPYIARPGNINAWDNEDFVKAVKATGKKQLIIAGVVTEVCVAFPALSAIEEGFDVFVVTDASGTFNEITRHSAWDRLSQAGAQLMTWFGVACELHRDWRNDIEGLATLFSNHIPDYRNLMTSYDTLTKQK" [] ["CCO-CYTOSOL"] +"EG11244-MONOMER" "DUF541 domain-containing protein YggE" ["YggE"] "MKFKVIALAALMGISGMAAQANELPDGPHIVTSGTASVDAVPDIATLAIEVNVAAKDAATAKKQADERVAQYISFLELNQIAKKDISSANLRTQPDYDYQDGKSILKGYRAVRTVEVTLRQLDKLNSLLDGALKAGLNEIRSVSLGVAQPDAYKDKARKAAIDNAIHQAQELANGFHRKLGPVYSVRYHVSNYQPSPMVRMMKADAAPVSAQETYEQAAIQFDDQVDVVFQLEPVDQQPAKTPAAQ" ["CCO-PM-BAC-NEG"] ["CCO-PERI-BAC", "CCO-PM-BAC-NEG"] +"EG11245-MONOMER" "fructose 1,6-bisphosphatase YggF" ["YggK", "YggF"] "MMSLAWPLFRVTEQAALAAWPQTGCGDKNKIDGLAVTAMRQALNDVAFRGRVVIGEGEIDHAPMLWIGEEVGKGDGPEVDIAVDPIEGTRMVAMGQSNALAVMAFAPRDSLLHAPDMYMKKLVVNRLAAGAIDLSLPLTDNLRNVAKALGKPLDKLRMVTLDKPRLSAAIEEATQLGVKVFALPDGDVAASVLTCWQDNPYDVMYTIGGAPEGVISACAVKALGGDMQAELIDFCQAKGDYTENRQIAEQERKRCKAMGVDVNRVYSLDELVRGNDILFSATGVTGGELVNGIQQTANGVRTQTLLIGGADQTCNIIDSLH" [] ["CCO-CYTOSOL"] +"EG11246-MONOMER" "universal stress protein E" ["UspE", "YdaA", "universal stress protein with a role cellular motility"] "MAMYQNMLVVIDPNQDDQPALRRAVYLHQRIGGKIKAFLPIYDFSYEMTTLLSPDERTAMRQGVISQRTAWIHEQAKYYLNAGVPIEIKVVWHNRPFEAIIQEVISGGHDLVLKMAHQHDRLEAVIFTPTDWHLLRKCPSPVWMVKDQPWPEGGKALVAVNLASEEPYHNALNEKLVKETIELAEQVNHTEVHLVGAYPVTPINIAIELPEFDPSVYNDAIRGQHLLAMKALRQKFGINENMTHVEKGLPEEVIPDLAEHLQAGIVVLGTVGRTGISAAFLGNTAEQVIDHLRCDLLVIKPDQYQTPVELDDEEDD" [] ["CCO-CYTOSOL"] +"EG11247-MONOMER" "23S rRNA m5U1939 methyltransferase" ["YgcA", "RumA", "RlmD"] "MAQFYSAKRRTTTRQIITVSVNDLDSFGQGVARHNGKTLFIPGLLPQENAEVTVTEDKKQYARAKVVRRLSDSPERETPRCPHFGVCGGCQQQHASVDLQQRSKSAALARLMKHDVSEVIADVPWGYRRRARLSLNYLPKTQQLQMGFRKAGSSDIVDVKQCPILAPQLEALLPKVRACLGSLQAMRHLGHVELVQATSGTLMILRHTAPLSSADREKLERFSHSEGLDLYLAPDSEILETVSGEMPWYDSNGLRLTFSPRDFIQVNAGVNQKMVARALEWLDVQPEDRVLDLFCGMGNFTLPLATQAASVVGVEGVPALVEKGQQNARLNGLQNVTFYHENLEEDVTKQPWAKNGFDKVLLDPARAGAAGVMQQIIKLEPIRIVYVSCNPATLARDSEALLKAGYTIARLAMLDMFPHTGHLESMVLFSRVK" [] ["CCO-CYTOSOL"] +"EG11249-MONOMER" "endoribonuclease toxin MazF" ["MazF", "ChpA", "ChpAK", "MazF toxin of the MazF-MazE toxin-antitoxin system that exhibits ribonuclease activity"] "MVSRYVPDMGDLIWVDFDPTKGSEQAGHRPAVVLSPFMYNNKTGMCLCVPCTTQSKGYPFEVVLSGQERDGVALADQVKSIAWRARGATKKGTVAPEELQLIKAKINVLIG" [] ["CCO-CYTOSOL"] +"EG11250-MONOMER" "ChpS antitoxin of the ChpB-ChpS toxin-antitoxin system" ["YjfB", "ChpS", "ChpBI"] "MRITIKRWGNSAGMVIPNIVMKELNLQPGQSVEAQVSNNQLILTPISRRYSLDELLAQCDMNAAELSEQDVWGKSTPAGDEIW" [] ["CCO-CYTOSOL"] +"EG11251-MONOMER" "transglutaminase-like/TPR repeat-containing protein" ["YchA"] "MRSLADFEFNKAPLCEGMILACEAIRRDFPSQDVYDELERLVSLAKEEISQLLPLEEQLEKLIALFYGDWGFKASRGVYRLSDALWLDQVLKNRQGSAVSLGAVLLWVANRLDLPLLPVIFPTQLILRIECPDGEIWLINPFNGESLSEHMLDVWLKGNISPSAELFYEDLDEADNIEVIRKLLDTLKASLMEENQMELALRTSEALLQFNPEDPYEIRDRGLIYAQLDCEHVALNDLSYFVEQCPEDPISEMIRAQINNIAHKHIVLH" [] ["CCO-CYTOSOL"] +"EG11252-MONOMER" "chromosome partitioning protein MukE" ["YcbA", "KicA", "MukE", "protein involved in chromosome partitioning"] "MSSTNIEQVMPVKLAQALANPLFPALDSALRSGRHIGLDELDNHAFLMDFQEYLEEFYARYNVELIRAPEGFFYLRPRSTTLIPRSVLSELDMMVGKILCYLYLSPERLANEGIFTQQELYDELLTLADEAKLLKLVNNRSTGSDVDRQKLQEKVRSSLNRLRRLGMVWFMGHDSSKFRITESVFRFGADVRAGDDPREAQRRLIRDGEAMPIENHLQLNDETEENQPDSGEEE" [] ["CCO-BAC-NUCLEOID", "CCO-CYTOSOL"] +"EG11253-MONOMER" "L,D-transpeptidase LdtD" ["YcbB", "LdtD"] "MLLNMMCGRQLSAISLCLAVTFAPLFNAQADEPEVIPGDSPVAVSEQGEALPQAQATAIMAGIQPLPEGAAEKARTQIESQLPAGYKPVYLNQLQLLYAARDMQPMWENRDAVKAFQQQLAEVAIAGFQPQFNKWVELLTDPGVNGMARDVVLSDAMMGYLHFIANIPVKGTRWLYSSKPYALATPPLSVINQWQLALDKGQLPTFVAGLAPQHPQYAAMHESLLALLCDTKPWPQLTGKATLRPGQWSNDVPALREILQRTGMLDGGPKITLPGDDTPTDAVVSPSAVTVETAETKPMDKQTTSRSKPAPAVRAAYDNELVEAVKRFQAWQGLGADGAIGPATRDWLNVTPAQRAGVLALNIQRLRLLPTELSTGIMVNIPAYSLVYYQNGNQVLDSRVIVGRPDRKTPMMSSALNNVVVNPPWNVPPTLARKDILPKVRNDPGYLESHGYTVMRGWNSREAIDPWQVDWSTITASNLPFRFQQAPGPRNSLGRYKFNMPSSEAIYLHDTPNHNLFKRDTRALSSGCVRVNKASDLANMLLQDAGWNDKRISDALKQGDTRYVNIRQSIPVNLYYLTAFVGADGRTQYRTDIYNYDLPARSSSQIVSKAEQLIR" [] ["CCO-MEMBRANE", "CCO-PERI-BAC", "CCO-PM-BAC-NEG"] +"EG11254-MONOMER" "23S rRNA m3Ψ1915 methyltransferase" ["YbeA", "RlmH"] "MKLQLVAVGTKMPDWVQTGFTEYLRRFPKDMPFELIEIPAGKRGKNADIKRILDKEGEQMLAAAGKNRIVTLDIPGKPWDTPQLAAELERWKLDGRDVSLLIGGPEGLSPACKAAAEQSWSLSALTLPHPLVRVLVAESLYRAWSITTNHPYHRE" [] ["CCO-CYTOSOL"] +"EG11255-MONOMER" "ribosomal silencing factor RsfS" ["RsfS", "RsfA", "YbeB"] "MQGKALQDFVIDKIDDLKGQDIIALDVQGKSSITDCMIICTGTSSRHVMSIADHVVQESRAAGLLPLGVEGENSADWIVVDLGDVIVHVMQEESRRLYELEKLWS" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11256-MONOMER" "anti-adaptor protein for σS stabilization" ["YaiB", "IraP"] "MKNLIAELLFKLAQKEEESKELCAQVEALEIIVTAMLRNMAQNDQQRLIDQVEGALYEVKPDASIPDDDTELLRDYVKKLLKHPRQ" [] ["CCO-CYTOSOL"] +"EG11257-MONOMER" "diguanylate cyclase DgcC" ["DgcC", "AdrA", "YaiC"] "MFPKIMNDENFFKKAAAHGEEPPLTPQNEHQRSGLRFARRVRLPRAVGLAGMFLPIASTLVSHPPPGWWWLVLVGWAFVWPHLAWQIASRAVDPLSREIYNLKTDAVLAGMWVGVMGVNVLPSTAMLMIMCLNLMGAGGPRLFVAGLVLMVVSCLVTLELTGITVSFNSAPLEWWLSLPIIVIYPLLFGWVSYQTATKLAEHKRRLQVMSTRDGMTGVYNRRHWETMLRNEFDNCRRHNRDATLLIIDIDHFKSINDTWGHDVGDEAIVALTRQLQITLRGSDVIGRFGGDEFAVIMSGTPAESAITAMLRVHEGLNTLRLPNTPQVTLRISVGVAPLNPQMSHYREWLKSADLALYKAKKAGRNRTEVAA" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11259-MONOMER" "RNase R" ["YjeC", "Rnr", "VacB"] "MSQDPFQEREAEKYANPIPSREFILEHLTKREKPASRDELAVELHIEGEEQLEGLRRRLRAMERDGQLVFTRRQCYALPERLDLVKGTVIGHRDGYGFLRVEGRKDDLYLSSEQMKTCIHGDQVLAQPLGADRKGRREARIVRVLVPKTSQIVGRYFTEAGVGFVVPDDSRLSFDILIPPDQIMGARMGFVVVVELTQRPTRRTKAVGKIVEVLGDNMGTGMAVDIALRTHEIPYIWPQAVEQQVAGLKEEVPEEAKAGRVDLRDLPLVTIDGEDARDFDDAVYCEKKRGGGWRLWVAIADVSYYVRPSTPLDREARNRGTSVYFPSQVIPMLPEVLSNGLCSLNPQVDRLCMVCEMTVSSKGRLTGYKFYEAVMSSHARLTYTKVWHILQGDQDLREQYAPLVKHLEELHNLYKVLDKAREERGGISFESEEAKFIFNAERRIERIEQTQRNDAHKLIEECMILANISAARFVEKAKEPALFRIHDKPSTEAITSFRSVLAELGLELPGGNKPEPRDYAELLESVADRPDAEMLQTMLLRSMKQAIYDPENRGHFGLALQSYAHFTSPIRRYPDLTLHRAIKYLLAKEQGHQGNTTETGGYHYSMEEMLQLGQHCSMAERRADEATRDVADWLKCDFMLDQVGNVFKGVISSVTGFGFFVRLDDLFIDGLVHVSSLDNDYYRFDQVGQRLMGESSGQTYRLGDRVEVRVEAVNMDERKIDFSLISSERAPRNVGKTAREKAKKGDAGKKGGKRRQVGKKVNFEPDSAFRGEKKTKPKAAKKDARKAKKPSAKTQKIAAATKAKRAAKKKVAE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11260-MONOMER" "putative magnesium chelatase YifB" ["YifB", "putative ATP-dependent protease"] "MSLSIVHTRAALGVNAPPITVEVHISKGLPGLTMVGLPETTVKEARDRVRSAIINSGYEYPAKKITINLAPADLPKEGGRYDLPIAIALLAASEQLTANKLDEYELVGELALTGALRGVPGAISSATEAIKSGRKIIVAKDNEDEVGLINGEGCLIADHLQAVCAFLEGKHALERPKPTDAVSRALQHDLSDVIGQEQGKRGLEITAAGGHNLLLIGPPGTGKTMLASRINGLLPDLSNEEALESAAILSLVNAESVQKQWRQRPFRSPHHSASLTAMVGGGAIPGPGEISLAHNGVLFLDELPEFERRTLDALREPIESGQIHLSRTRAKITYPARFQLVAAMNPSPTGHYQGNHNRCTPEQTLRYLNRLSGPFLDRFDLSLEIPLPPPGILSKTVVPGESSATVKQRVMAARERQFKRQNKLNAWLDSPEIRQFCKLESEDAMWLEGTLIHLGLSIRAWQRLLKVARTIADIDQSDIITRQHLQEAVSYRAIDRLLIHLQKLLT" [] ["CCO-CYTOSOL"] +"EG11261-MONOMER" "NADPH-dependent nitroreductase NfsA" ["YbjB", "NfsA", "MdaA"] "MTPTIELICGHRSIRHFTDEPISEAQREAIINSARATSSSSFLQCSSIIRITDKALREELVTLTGGQKHVAQAAEFWVFCADFNRHLQICPDAQLGLAEQLLLGVVDTAMMAQNALIAAESLGLGGVYIGGLRNNIEAVTKLLKLPQHVLPLFGLCLGWPADNPDLKPRLPASILVHENSYQPLDKGALAQYDEQLAEYYLTRGSNNRRDTWSDHIRRTIIKESRPFILDYLHKQGWATR" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11263-MONOMER" "putative general secretion pathway protein B" ["GspB", "PioO", "PinO", "calcium-binding protein required for initiation of chromosome replication"] "MFEFYIAAREQKETGHPGIFSRQKHSTIIYVICLLLICLWFAGMVLVGGYARQLWVLWIVKAEVTVEAETPAFKQSTQHYFFKKQPLPVVESVEEEDDPGVAVENAPSSSEDEENTVEESEEKAGLRERVKNALNELER" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG", "CCO-CYTOSOL"] +"EG11266-MONOMER" null ["YibD", "WaaH"] "MMNSTNKLSVIIPLYNAGDDFRTCMESLITQTWTALEIIIINDGSTDNSVEIAKYYAENYPHVRLLHQANAGASVARNRGIEVATGKYVAFVDADDEVYPTMYETLMTMALEDDLDVAQCNADWCFRETGETWQSIPTDRLRSTGVLTGPDWLRMGLSSRRWTHVVWMGVYRRDVIVKNNIKFIAGLHHQDIVWTTEFMFNALRARYTEQSLYKYYLHNTSVSRLHRQGNKNLNYQRHYIKITRLLEKLNRNYADKIMIYPEFHQQITYEALRVCHAVRKEPDILTRQRMIAEIFTSGMYKRLITNVRSVKVGYQALLWSFRLWQWRDKTRSHHRITRSAFNLR" ["CCO-MEMBRANE"] ["CCO-CYTOSOL"] +"EG11267-MONOMER" "PF05360 family inner membrane protein YiaB" ["YiaB"] "MKTSKTVAKLLFVVGALVYLVGLWISCPLLSGKGYFLGVLMTATFGNYAYLRAEKLGQLDDFFTHICQLVALITIGLLFIGVLNAPINTYEMVIYPIAFFVCLFGQMRLFRSA" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11268-MONOMER" "10-formyltetrahydrofolate:L-methionyl-tRNAfMet N-formyltransferase" ["Ftm", "YhdD", "Fmt"] "MSESLRIIFAGTPDFAARHLDALLSSGHNVVGVFTQPDRPAGRGKKLMPSPVKVLAEEKGLPVFQPVSLRPQENQQLVAELQADVMVVVAYGLILPKAVLEMPRLGCINVHGSLLPRWRGAAPIQRSLWAGDAETGVTIMQMDVGLDTGDMLYKLSCPITAEDTSGTLYDKLAELGPQGLITTLKQLADGTAKPEVQDETLVTYAEKLSKEEARIDWSLSAAQLERCIRAFNPWPMSWLEIEGQPVKVWKASVIDTATNAAPGTILEANKQGIQVATGDGILNLLSLQPAGKKAMSAQDLLNSRREWFVPGNRLV" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11269-MONOMER" "his operon leader peptide" ["HisL"] "MTRVQFKHHHHHHHPD" [] ["CCO-CYTOSOL"] +"EG11270-MONOMER" "ilvXGMEDA operon leader peptide" ["IlvL"] "MTALLRVISLVVISVVVIIIPPCGAALGRGKA" [] ["CCO-CYTOSOL"] +"EG11271-MONOMER" "phe operon leader peptide" ["PheL", "leader peptide of chorismate mutase-P-prephenate dehydratase"] "MKHIPFFFAFFFTFP" [] ["CCO-MEMBRANE"] +"EG11272-MONOMER" "pheST-ihfA operon leader peptide" ["PhtL", "PheM", "phenylalanyl-tRNA synthetase (pheST) operon leader peptide"] "MNAAIFRFFFYFST" [] ["CCO-MEMBRANE"] +"EG11274-MONOMER" "trp operon leader peptide" ["TrpL"] "MKAIFVLKGWWRTS" [] ["CCO-MEMBRANE"] +"EG11275-MONOMER" "ilvBN operon leader peptide" ["IvbL"] "MTTSMLNAKLLPTAPSAAVVVVRVVVVVGNAP" [] ["CCO-CYTOSOL"] +"EG11276-MONOMER" "tnaAB operon leader peptide" ["TnaC", "TnaL", "tryptophanase leader peptide", "tryptophanase operon leader peptide"] "MNILHICVTSKWFNIDNKIVDHRP" [] ["CCO-CYTOSOL"] +"EG11277-MONOMER" "thr operon leader peptide" ["ThrL"] "MKRISTTITTTITITTGNGAG" [] ["CCO-CYTOSOL"] +"EG11279-MONOMER" "pyrBI operon leader peptide" ["PyrL"] "MVQCVRHFVLPRLKKDAGLPFFFPLITHSQPLNRGAFFCPGVRR" [] ["CCO-CYTOSOL"] +"EG11280-MONOMER" "leu operon leader peptide" ["LeuL"] "MTHIVRFIGLLLLNASSLRGRRVSGIQH" [] ["CCO-CYTOSOL"] +"EG11281-MONOMER" "DNA mismatch repair protein MutL" ["MutL"] "MPIQVLPPQLANQIAAGEVVERPASVVKELVENSLDAGATRIDIDIERGGAKLIRIRDNGCGIKKDELALALARHATSKIASLDDLEAIISLGFRGEALASISSVSRLTLTSRTAEQQEAWQAYAEGRDMNVTVKPAAHPVGTTLEVLDLFYNTPARRKFLRTEKTEFNHIDEIIRRIALARFDVTINLSHNGKIVRQYRAVPEGGQKERRLGAICGTAFLEQALAIEWQHGDLTLRGWVADPNHTTPALAEIQYCYVNGRMMRDRLINHAIRQACEDKLGADQQPAFVLYLEIDPHQVDVNVHPAKHEVRFHQSRLVHDFIYQGVLSVLQQQLETPLPLDDEPQPAPRSIPENRVAAGRNHFAEPAAREPVAPRYTPAPASGSRPAAPWPNAQPGYQKQQGEVYRQLLQTPAPMQKLKAPEPQEPALAANSQSFGRVLTIVHSDCALLERDGNISLLSLPVAERWLRQAQLTPGEAPVCAQPLLIPLRLKVSAEEKSALEKAQSALAELGIDFQSDAQHVTIRAVPLPLRQQNLQILIPELIGYLAKQSVFEPGNIAQWIARNLMSEHAQWSMAQAITLLADVERLCPQLVKTPPGGLLQSVDLHPAIKALKDE" [] ["CCO-CYTOSOL"] +"EG11285-MONOMER" "DNA-binding transcriptional activator GlrR" ["QseF", "YfhA", "GlrR", "GlrR response regulator"] "MSHKPAHLLLVDDDPGLLKLLGLRLTSEGYSVVTAESGAEGLRVLNREKVDLVISDLRMDEMDGMQLFAEIQKVQPGMPVIILTAHGSIPDAVAATQQGVFSFLTKPVDKDALYQAIDDALEQSAPATDERWREAIVTRSPLMLRLLEQARLVAQSDVSVLINGQSGTGKEIFAQAIHNASPRNSKPFIAINCGALPEQLLESELFGHARGAFTGAVSNREGLFQAAEGGTLFLDEIGDMPAPLQVKLLRVLQERKVRPLGSNRDIDINVRIISATHRDLPKAMARGEFREDLYYRLNVVSLKIPALAERTEDIPLLANHLLRQAAERHKPFVRAFSTDAMKRLMTASWPGNVRQLVNVIEQCVALTSSPVISDALVEQALEGENTALPTFVEARNQFELNYLRKLLQITKGNVTHAARMAGRNRTEFYKLLSRHELDANDFKE" [] ["CCO-CYTOSOL"] +"EG11287-MONOMER" "protein YgbA" ["YgbA"] "MSGKRISREKLTIKKMIDLYQAKCPQASAEPEHYEALFVYAQKRLDKCVFGEEKPACKQCPVHCYQPAKREEMKQIMRWAGPRMLWRHPILTVRHLIDDKRPVPELPEKYRPKKPHE" [] ["CCO-CYTOSOL"] +"EG11288-MONOMER" "fructokinase" ["Mak", "YajF", "manno(fructo)kinase", "fructo(manno)kinase"] "MRIGIDLGGTKTEVIALGDAGEQLYRHRLPTPRDDYRQTIETIATLVDMAEQATGQRGTVGMGIPGSISPYTGVVKNANSTWLNGQPFDKDLSARLQREVRLANDANCLAVSEAVDGAAAGAQTVFAVIIGTGCGAGVAFNGRAHIGGNGTAGEWGHNPLPWMDEDELRYREEVPCYCGKQGCIETFISGTGFAMDYRRLSGHALKGSEIIRLVEESDPVAELALRRYELRLAKSLAHVVNILDPDVIVLGGGMSNVDRLYQTVGQLIKQFVFGGECETPVRKAKHGDSSGVRGAAWLWPQE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11289-MONOMER" "NAD-dependent dihydropyrimidine dehydrogenase subunit PreA" ["PreA", "YeiA"] "MLTKDLSITFCGVKFPNPFCLSSSPVGNCYEMCAKAYDTGWGGVVFKTIGFFIANEVSPRFDHLVKEDTGFIGFKNMEQIAEHPLEENLAALRRLKEDYPDKVLIASIMGENEQQWEELARLVQEAGADMIECNFSCPQMTSHAMGSDVGQSPELVEKYCRAVKRGSTLPMLAKMTPNIGDMCEVALAAKRGGADGIAAINTVKSITNIDLNQKIGMPIVNGKSSISGYSGKAVKPIALRFIQQMRTHPELRDFPISGIGGIETWEDAAEFLLLGAATLQVTTGIMQYGYRIVEDMASGLSHYLADQGFDSLQEMVGLANNNIVPAEDLDRSYIVYPRINLDKCVGCGRCYISCYDGGHQAMEWSEKTRTPHCNTEKCVGCLLCGHVCPVGCIELGEVKFKKGEKEHPVTL" [] ["CCO-CYTOSOL"] +"EG11290-MONOMER" "DUF418 domain-containing protein YeiB" ["YeiB"] "MERNVTLDFVRGVAILGILLLNISAFGLPKAAYLNPAWYGAITPRDAWTWAFLDLIGQVKFLTLFALLFGAGLQMLLPRGRRWIQSRLTLLVLLGFIHGLLFWDGDILLAYGLVGLICWRLVRDAPSVKSLFNTGVMLYLVGLGVLLLLGLISDSQTSRAWTPDASAILYEKYWKLHGGVEAISNRADGVGNSLLALGAQYGWQLAGMMLIGAALMRSGWLKGQFSLRHYRRTGFVLVAIGVTINLPAIALQWQLDWAYRWCAFLLQMPRELSAPFQAIGYASLFYGFWPQLSRFKLVLAIACVGRMALTNYLLQTLICTTLFYHLGLFMHFDRLELLAFVIPVWLANILFSVIWLRYFRQGPVEWLWRQLTLRAAGPAISKTSR" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11291-MONOMER" "metalloprotease LoiP" ["LoiP", "YggG"] "MKIRALLVAMSVATVLTGCQNMDSNGLLSSGAEAFQAYSLSDAQVKTLSDQACQEMDSKATIAPANSEYAKRLTTIANALGNNINGQPVNYKVYMAKDVNAFAMANGCIRVYSGLMDMMTDNEVEAVIGHEMGHVALGHVKKGMQVALGTNAVRVAAASAGGIVGSLSQSQLGNLGEKLVNSQFSQRQEAEADDYSYDLLRQRGISPAGLATSFEKLAKLEEGRQSSMFDDHPASAERAQHIRDRMSADGIK" ["CCO-OUTER-MEM"] ["CCO-OUTER-MEM", "CCO-MEMBRANE"] +"EG11292-MONOMER" "NADP+-dependent aldehyde reductase" ["YghA"] "MSHLKDPTTQYYTGEYPKQKQPTPGIQAKMTPVPDCGEKTYVGSGRLKDRKALVTGGDSGIGRAAAIAYAREGADVAISYLPVEEEDAQDVKKIIEECGRKAVLLPGDLSDEKFARSLVHEAHKALGGLDIMALVAGKQVAIPDIADLTSEQFQKTFAINVFALFWLTQEAIPLLPKGASIITTSSIQAYQPSPHLLDYAATKAAILNYSRGLAKQVAEKGIRVNIVAPGPIWTALQISGGQTQDKIPQFGQQTPMKRAGQPAELAPVYVYLASQESSYVTAEVHGVCGGEHLG" [] ["CCO-CYTOSOL"] +"EG11293-MONOMER" "outer membrane lipoprotein LolB" ["YchC", "LolB", "HemM"] "MPLPDFRLIRLLPLAALVLTACSVTTPKGPGKSPDSPQWRQHQQDVRNLNQYQTRGAFAYISDQQKVYARFFWQQTGQDRYRLLLTNPLGSTELELNAQPGNVQLVDNKGQRYTADDAEEMIGKLTGMPIPLNSLRQWILGLPGDATDYKLDDQYRLSEITYSQNGKNWKVVYGGYDTKTQPAMPANMELTDGGQRIKLKMDNWIVK" ["CCO-OUTER-MEM", "CCO-PERI-BAC"] ["CCO-OUTER-MEM", "CCO-MEMBRANE"] +"EG11294-MONOMER" "4-(cytidine 5'-diphospho)-2-C-methyl-D-erythritol kinase" ["Ipk", "YchB", "IspE"] "MRTQWPSPAKLNLFLYITGQRADGYHTLQTLFQFLDYGDTISIELRDDGDIRLLTPVEGVEHEDNLIVRAARLLMKTAADSGRLPTGSGANISIDKRLPMGGGLGGGSSNAATVLVALNHLWQCGLSMDELAEMGLTLGADVPVFVRGHAAFAEGVGEILTPVDPPEKWYLVAHPGVSIPTPVIFKDPELPRNTPKRSIETLLKCEFSNDCEVIARKRFREVDAVLSWLLEYAPSRLTGTGACVFAEFDTESEARQVLEQAPEWLNGFVAKGANLSPLHRAML" [] ["CCO-CYTOSOL"] +"EG11295-MONOMER" "enterobacterial common antigen polysaccharide co-polymerase" ["Wzz", "YifC", "WzzE"] "MTQPMPGKPAEDAENELDIRGLFRTLWAGKLWIIGMGLAFALIALAYTFFARQEWSSTAITDRPTVNMLGGYYSQQQFLRNLDVRSNMASADQPSVMDEAYKEFVMQLASWDTRREFWLQTDYYKQRMVGNSKADAALLDEMINNIQFIPGDFTRAVNDSVKLIAETAPDANNLLRQYVAFASQRAASHLNDELKGAWAARTIQMKAQVKRQEEVAKAIYDRRMNSIEQALKIAEQHNISRSATDVPAEELPDSEMFLLGRPMLQARLENLQAVGPAFDLDYDQNRAMLNTLNVGPTLDPRFQTYRYLRTPEEPVKRDSPRRAFLMIMWGIVGGLIGAGVALTRRCSK" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"EG11296-MONOMER" "DNA recombination protein" ["RadA", "Sms"] "MAKAPKRAFVCNECGADYPRWQGQCSACHAWNTITEVRLAASPMVARNERLSGYAGSAGVAKVQKLSDISLEELPRFSTGFKEFDRVLGGGVVPGSAILIGGNPGAGKSTLLLQTLCKLAQQMKTLYVTGEESLQQVAMRAHRLGLPTDNLNMLSETSIEQICLIAEEEQPKLMVIDSIQVMHMADVQSSPGSVAQVRETAAYLTRFAKTRGVAIVMVGHVTKDGSLAGPKVLEHCIDCSVLLDGDADSRFRTLRSHKNRFGAVNELGVFAMTEQGLREVSNPSAIFLSRGDEVTSGSSVMVVWEGTRPLLVEIQALVDHSMMANPRRVAVGLEQNRLAILLAVLHRHGGLQMADQDVFVNVVGGVKVTETSADLALLLAMVSSLRDRPLPQDLVVFGEVGLAGEIRPVPSGQERISEAAKHGFRRAIVPAANVPKKAPEGMQIFGVKKLSDALSVFDDL" [] ["CCO-PM-BAC-NEG", "CCO-CYTOSOL"] +"EG11298-MONOMER" "nucleoside triphosphate pyrophosphatase YhdE" ["YhdE"] "MTSLYLASGSPRRQELLAQLGVTFERIVTGIEEQRQPQESAQQYVVRLAREKARAGVAQTAKDLPVLGADTIVILNGEVLEKPRDAEHAAQMLRKLSGQTHQVMTAVALADSQHILDCLVVTDVTFRTLTDEDIAGYVASDEPLDKAGAYGIQGLGGCFVRKINGSYHAVVGLPLVETYELLSNFNALREKRDKHDG" [] ["CCO-CYTOSOL"] +"EG11299-MONOMER" "RNase G" ["AdhR", "Rng", "YhdF", "CafA"] "MTAELLVNVTPSETRVAYIDGGILQEIHIEREARRGIVGNIYKGRVSRVLPGMQAAFVDIGLDKAAFLHASDIMPHTECVAGEEQKQFTVRDISELVRQGQDLMVQVVKDPLGTKGARLTTDITLPSRYLVFMPGASHVGVSQRIESESERERLKKVVAEYCDEQGGFIIRTAAEGVGEAELASDAAYLKRVWTKVMERKKRPQTRYQLYGELALAQRVLRDFADAELDRIRVDSRLTYEALLEFTSEYIPEMTSKLEHYTGRQPIFDLFDVENEIQRALERKVELKSGGYLIIDQTEAMTTVDINTGAFVGHRNLDDTIFNTNIEATQAIARQLRLRNLGGIIIIDFIDMNNEDHRRRVLHSLEQALSKDRVKTSVNGFSALGLVEMTRKRTRESIEHVLCNECPTCHGRGTVKTVETVCYEIMREIVRVHHAYDSDRFLVYASPAVAEALKGEESHSLAEVEIFVGKQVKVQIEPLYNQEQFDVVMM" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG", "CCO-CYTOSKELETON", "CCO-CYTOSOL"] +"EG11300-MONOMER" "Qin prophage; DUF1391 domain-containing protein YdfA" ["YdfA"] "MDTIDLGNNESLVYGVFPNQDGTFTAMTYTKSKTFKTENGARRWLERNSGE" [] ["CCO-CYTOSOL"] +"EG11301-MONOMER" "Qin prophage; uncharacterized protein YdfB" ["YdfB"] "MDFDTIMEKAYEEYFEGLAEGEEALSFSEFKQALSSSAKSNG" [] ["CCO-CYTOSOL"] +"EG11302-MONOMER" "Qin prophage; uncharacterized protein YdfC" ["YdfC"] "MQKREPVIIAPDYTDDELYEWMRQKINAAQDLKWANEARAKQAENLSALEQDITNLEKAAALSIARMITYPR" [] ["CCO-CYTOSOL"] +"EG11303-MONOMER" "Qin prophage; lysis protein" ["YdfD"] "MNSAFVLVLTVFLVSGEPVDIAVSVHRTMQECMTAATEQKIPGNCYPVDKVIHQDNIEIPAGL" [] ["CCO-MEMBRANE"] +"EG11304-MONOMER" "Qin prophage; protein YdfE" ["YdfE"] "MSKVFICAAIPDELATREEGAVAVATAIEAGDERRARAKFHWQFLEHYPAAQDCAYKFIVCEDKPGIPRPALDSWDAEYMQENRWDEESASFVPVETESDPMNVTFDKLAPEVQNAVMVKFDTCENITVDMVISAQELLQEDMATFDGHIVEALMKMPEVNAMYPELKLHAIGWVKHKCIPGAKWPEIQAEMRIWKKRREGERKETGKYTSVVDLARARANQQYTENSTGKISPVIAAIHREYKQTWKTLDDELAYGRCFADRQNLMVCLRSMPNVFTGSCARMRCCLSENLLYRHRNGHIQAEWP" [] ["CCO-CYTOSOL"] +"EG11305-MONOMER" "twin arginine protein translocation system - TatE protein" ["YbeC"] "MGEISITKLLVVAALVVLLFGTKKLRTLGGDLGAAIKGFKKAMNDDDAAAKKGADVDLQAEKLSHKE" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11306-MONOMER" "lipoyl synthase" ["Lip", "LipA"] "MSKPIVMERGVKYRDADKMALIPVKNVATEREALLRKPEWMKIKLPADSTRIQGIKAAMRKNGLHSVCEEASCPNLAECFNHGTATFMILGAICTRRCPFCDVAHGRPVAPDANEPVKLAQTIADMALRYVVITSVDRDDLRDGGAQHFADCITAIREKSPQIKIETLVPDFRGRMDRALDILTATPPDVFNHNLENVPRIYRQVRPGADYNWSLKLLERFKEAHPEIPTKSGLMVGLGETNEEIIEVMRDLRRHGVTMLTLGQYLQPSRHHLPVQRYVSPDEFDEMKAEALAMGFTHAACGPFVRSSYHADLQAKGMEVK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11309-MONOMER" "pyridoxine 4-dehydrogenase" ["PdxI", "YdbC"] "MSSNTFTLGTKSVNRLGYGAMQLAGPGVFGPPRDRHVAITVLREALALGVNHIDTSDFYGPHVTNQIIREALYPYSDDLTIVTKIGARRGEDASWLPAFSPAELQKAVHDNLRNLGLDVLDVVNLRVMMGDGHGPAEGSIEASLTVLAEMQQQGLVKHIGLSNVTPTQVAEARKIAEIVCVQNEYNIAHRADDAMIDALAHDGIAYVPFFPLGGFTPLQSSTLSDVAASLGATPMQVALAWLLQRSPNILLIPGTSSVAHLRENMAAEKLHLSEEVLSTLDGISRE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11310-MONOMER" "DUF2773 domain-containing protein YdbD" ["YdbD", "protein involved in detoxification of methylglyoxal"] "MLKARNCGWIRLLPLFMLSLPVQAELRCVANAVDIESFFSAATAEDKQQVEQAINSSVNLVPFGLSASNWKVHRGDLVVEGNIESNQKLIVLGNLTVKGNISTFSLSNPWVILGNVTATNIVADSPLLITGSINASGLVFIDSYYDNPSTIKGSINARGIFINDIIAPVVASSTNSEFMVRASDKHDTENVKKALMIINPDAYYWGLINDEDALKEIFKRSNIRMAGNVCNQMKKEALFRPKPSPELVQELQMLDEGKVAAFEGRDIATFDLAVMRTLPRLKGISANLRKQLINSNDEQTIESMARYMPDNEILELTDQQLGYQPVVLGLLDREPLSVEIMTRMSRLPDGVGPLNLALRENLPLDIVMTLAKRDWDMIIQELYKDAWLLPESIIDGYIRSDDSSIRQVGAGGQLTYNQAMQLANDSSNNVVTSLAFKLAEMKHHGQLLRMTPQESDKVAGYLYQKFENDDDLIRVLFLALPDNLQFNFVKRMEKKSPAYFCCRDMQVIHSDAALQRLLTRFNDPEGWSNLAKNQYLSTSMKQKIWQRALSHRKNNPKADSDAYETSADMILSELISHGEVDDQMLLNATALIRSDDWDFLESALISWDNLPAVVLKELQQNTPRNDIWAKFFLRQENSSRAQVDEALRVYYALDPDALAQLDVLAKQPDRIWWSTLAKSNLTFFKFGALNNRHTPPAVLAAEIDPEWWIVAMNNPRFPVDVLKARLKRDPLLALELVNPELDLVRQLALNGKTRAIREQAMRKLDELY" [] ["CCO-PM-BAC-NEG"] +"EG11311-MONOMER" "tRNA-dihydrouridine synthase B" ["DusB", "YhdG"] "MRIGQYQLRNRLIAAPMAGITDRPFRTLCYEMGAGLTVSEMMSSNPQVWESDKSRLRMVHIDEPGIRTVQIAGSDPKEMADAARINVESGAQIIDINMGCPAKKVNRKLAGSALLQYPDVVKSILTEVVNAVDVPVTLKIRTGWAPEHRNCEEIAQLAEDCGIQALTIHGRTRACLFNGEAEYDSIRAVKQKVSIPVIANGDITDPLKARAVLDYTGADALMIGRAAQGRPWIFREIQHYLDTGELLPPLPLAEVKRLLCAHVRELHDFYGPAKGYRIARKHVSWYLQEHAPNDQFRRTFNAIEDASEQLEALEAYFENFA" [] ["CCO-CYTOSOL"] +"EG11312-MONOMER" "RadC-like JAB domain-containing protein YicR" ["YicR", "RadC"] "MKNNSQLLMPREKMLKFGISALTDVELLALFLRTGTRGKDVLTLAKEMLENFGSLYGLLTSEYEQFSGVHGIGVAKFAQLKGIAELARRYYNVRMREESPLLSPEMTREFLQSQLTGEEREIFMVIFLDSQHRVITHRRLFSGTLNHVEVHPREIIREAIKINASALILAHNHPSGCAEPSKADKLITERIIKSCQFMDLRVLDHIVIGRGEYVSFAERGWI" [] ["CCO-CYTOSOL"] +"EG11315-MONOMER" "acrylyl-CoA reductase" ["AcuI", "YhdH"] "MQALLLEQQDGKTLASVQTLDESRLPEGDVTVDVHWSSLNYKDALAITGKGKIIRNFPMIPGIDFAGTVRTSEDPRFHAGQEVLLTGWGVGENHWGGLAEQARVKGDWLVAMPQGLDARKAMIIGTAGFTAMLCVMALEDAGVRPQDGEIVVTGASGGVGSTAVALLHKLGYQVVAVSGRESTHEYLKSLGASRVLPRDEFAESRPLEKQVWAGAIDTVGDKVLAKVLAQMNYGGCVAACGLAGGFTLPTTVMPFILRNVRLQGVDSVMTPPERRAQAWQRLVADLPESFYTQAAKEISLSEAPNFAEAIINNQIQGRTLVKVN" [] ["CCO-CYTOSOL"] +"EG11320-MONOMER" "NrdR transcriptional repressor" ["YbaD", "NrdR"] "MHCPFCFAVDTKVIDSRLVGEGSSVRRRRQCLVCNERFTTFEVAELVMPRVVKSNDVREPFNEEKLRSGMLRALEKRPVSSDDVEMAINHIKSQLRATGEREVPSKMIGNLVMEQLKKLDKVAYIRFASVYRSFEDIKEFGEEIARLED" [] ["CCO-CYTOSOL"] +"EG11323-MONOMER" "PF03695 family protein YgfB" ["YgfB"] "MSIQNEMPGYNEMNQYLNQQGTGLTPAEMHGLISGMICGGNDDSSWLPLLHDLTNEGMAFGHELAQALRKMHSATSDALQDDGFLFQLYLPDGDDVSVFDRADALAGWVNHFLLGLGVTQPKLDKVTGETGEAIDDLRNIAQLGYDEDEDQEELEMSLEEIIEYVRVAALLCHDTFTHPQPTAPEVQKPTLH" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11333-MONOMER" "2-octaprenylphenol 6-hydroxylase" ["UbiI", "VisC"] "MQSVDVAIVGGGMVGLAVACGLQGSGLRVAVLEQRVQEPLAANAPPQLRVSAINAASEKLLTRLGVWQDILSRRASCYHGMEVWDKDSFGHISFDDQSMGYSHLGHIVENSVIHYALWNKAHQSSDITLLAPAELQQVAWGENETFLTLKDGSMLTARLVIGADGANSWLRNKADIPLTFWDYQHHALVATIRTEEPHDAVARQVFHGEGILAFLPLSDPHLCSIVWSLSPEEAQRMQQASEDEFNRALNIAFDNRLGLCKVESARQVFPLTGRYARQFASHRLALVGDAAHTIHPLAGQGVNLGFMDAAELIAELKRLHRQGKDIGQYIYLRRYERSRKHSAALMLAGMQGFRDLFSGTNPAKKLLRDIGLKLADTLPGVKPQLIRQAMGLNDLPEWLR" [] ["CCO-CYTOSOL"] +"EG11334-MONOMER" "DNA ligase B" ["LigB", "YicF"] "MKVWMAILIGILCWQSSVWAVCPAWSPARAQEEISRLQQQIKQWDDDYWKEGKSEVEDGVYDQLSARLTQWQRCFGSEPRDVMMPPLNGAVMHPVAHTGVRKMVDKNALSLWMRERSDLWVQPKVDGVAVTLVYRDGKLNKAISRGNGLKGEDWTQKVSLISAVPQTVSGPLANSTLQGEIFLQREGHIQQQMGGINARAKVAGLMMRQDDSDTLNSLGVFVWAWPDGPQLMSDRLKELATAGFTLTQTYTRAVKNADEVARVRNEWWKAELPFVTDGVVVRAAKEPESRHWLPGQAEWLVAWKYQPVAQVAEVKAIQFAVGKSGKISVVASLAPVMLDDKKVQRVNIGSVRRWQEWDIAPGDQILVSLAGQGIPRIDDVVWRGAERTKPTPPENRFNSLTCYFASDVCQEQFISRLVWLGAKQVLGLDGIGEAGWRALHQTHRFEHIFSWLLLTPEQLQNTPGIAKSKSAQLWHQFNLARKQPFTRWVMAMGIPLTRAALNASDERSWSQLLFSTEQFWQQLPGTGSGRARQVIEWKENAQIKKLGSWLAAQQITGFEP" [] ["CCO-CYTOSOL"] +"EG11336-MONOMER" "DNA-specific endonuclease I" ["EndA"] "MYRYLSIAAVVLSAAFSGPALAEGINSFSQAKAAAVKVHADAPGTFYCGCKINWQGKKGVVDLQSCGYQVRKNENRASRVEWEHVVPAWQFGHQRQCWQDGGRKNCAKDPVYRKMESDMHNLQPSVGEVNGDRGNFMYSQWNGGEGQYGQCAMKVDFKEKAAEPPARARGAIARTYFYMRDQYNLTLSRQQTQLFNAWNKMYPVTDWECERDERIAKVQGNHNPYVQRACQARKS" [] ["CCO-PERI-BAC"] +"EG11338-MONOMER" "acidic protein MsyB" ["MsyB", "acidic protein that suppresses heat sensitivity of a secY mutant"] "MTMYATLEEAIDAAREEFLADNPGIDAEDANVQQFNAQKYVLQDGDIMWQVEFFADEGEEGECLPMLSGEAAQSVFDGDYDEIEIRQEWQEENTLHEWDEGEFQLEPPLDTEEGRAAADEWDER" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11339-MONOMER" "lipopolysaccharide glucosyltransferase I" ["WaaG", "RfaG"] "MIVAFCLYKYFPFGGLQRDFMRIASTVAARGHHVRVYTQSWEGDCPKAFELIQVPVKSHTNHGRNAEYYAWVQNHLKEHPADRVVGFNKMPGLDVYFAADVCYAEKVAQEKGFLYRLTSRYRHYAAFERATFEQGKSTKLMMLTDKQIADFQKHYQTEPERFQILPPGIYPDRKYSEQIPNSREIYRQKNGIKEQQNLLLQVGSDFGRKGVDRSIEALASLPESLRHNTLLFVVGQDKPRKFEALAEKLGVRSNVHFFSGRNDVSELMAAADLLLHPAYQEAAGIVLLEAITAGLPVLTTAVCGYAHYIADANCGTVIAEPFSQEQLNEVLRKALTQSPLRMAWAENARHYADTQDLYSLPEKAADIITGGLDG" [] ["CCO-CYTOSOL"] +"EG11340-MONOMER" "lipopolysaccharide core heptose (I) kinase" ["WaaP", "RfaP", "L-glycero-D-manno-heptose (I) kinase"] "MVELKEPLATLWRGKDAFAEVKKLNGEVFRELETRRTLRFELSGKSYFLKWHKGTTLKEIIKNLLSLRMPVLGADREWHAIHRLSDVGVDTMKGIGFGEKGLNPLTRASFIITEDLTPTISLEDYCADWAVNPPDIRVKRMLIARVATMVRKMHTAGINHRDCYICHFLLHLPFTGREDELKISVIDLHRAQIRAKVPRRWRDKDLIGLYFSSMNIGLTQRDIWRFMKVYFGMPLRKILSLEQNLLNMASVKAERIKERTQRKGL" [] ["CCO-CYTOSOL"] +"EG11341-MONOMER" "lipopolysaccharide core heptosyltransferase 3" ["WaaQ", "RfaQ", "HepIII", "lipopolysaccharide core heptosyltransferase III"] "MRYHGDMLLTTPVISTLKQNYPDAKIDMLLYQDTIPILSENPEINALYGISNKGAGTFDKIKNVLSLIKTLRANNYDLVINLTDQWMVALLVRCLPARMKISQLYGHRQHGIWKKSFTHLAPIHGTHIVERNLSVLEPLGITDFYTDTTMSYAEDCWKKMRRELDALGVKDHYVVIQPTARQIFKCWDNDKFSKVIDALQQRGYQVVLTCGPSADDLACVDEIARGCETKPITGLAGKTRFPELGALIDHAVLFIGVDSAPGHIAAAVKTPVISLFGATDHVFWRPWTENIIQFWAGNYQKMPTRHELDRNKKYLSVIPAEDVIAATEKLLPEDAPSADRNAQL" [] ["CCO-CYTOSOL"] +"EG11342-MONOMER" "MarC family putative inner membrane protein YchE" ["YchE"] "MIQTFFDFPVYFKFFIGLFALVNPVGIIPVFISMTSYQTAAARNKTNLTANLSVAIILWISLFLGDTILQLFGISIDSFRIAGGILVVTIAMSMISGKLGEDKQNKQEKSETAVRESIGVVPLALPLMAGPGAISSTIVWGTRYHSISYLFGFFVAIALFALCCWGLFRMAPWLVRVLRQTGINVITRIMGLLLMALGIEFIVTGIKGIFPGLLN" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11344-MONOMER" "tRNA-specific 2-thiouridylase" ["YcfB", "AsuE", "TrmU", "MnmA"] "MSETAKKVIVGMSGGVDSSVSAWLLQQQGYQVEGLFMKNWEEDDGEEYCTAAADLADAQAVCDKLGIELHTVNFAAEYWDNVFELFLAEYKAGRTPNPDILCNKEIKFKAFLEFAAEDLGADYIATGHYVRRADVDGKSRLLRGLDSNKDQSYFLYTLSHEQIAQSLFPVGELEKPQVRKIAEDLGLVTAKKKDSTGICFIGERKFREFLGRYLPAQPGKIITVDGDEIGEHQGLMYHTLGQRKGLGIGGTKEGTEEPWYVVDKDVENNILVVAQGHEHPRLMSVGLIAQQLHWVDREPFTGTMRCTVKTRYRQTDIPCTVKALDDDRIEVIFDEPVAAVTPGQSAVFYNGEVCLGGGIIEQRLPLPV" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11345-MONOMER" "lysogenization regulator" ["HslZ", "HflD", "YcfC"] "MAKNYYDITLALAGICQSARLVQQLAHQGHCDADALHVSLNSIIDMNPSSTLAVFGGSEANLRVGLETLLGVLNASSRQGLNAELTRYTLSLMVLERKLSSAKGALDTLGNRINGLQRQLEHFDLQSETLMSAMAAIYVDVISPLGPRIQVTGSPAVLQSPQVQAKVRATLLAGIRAAVLWHQVGGGRLQLMFSRNRLTTQAKQILAHLTPEL" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-CYTOSOL", "CCO-PM-BAC-NEG"] +"EG11346-MONOMER" "flagellar protein FliE" ["Fla", "FlaN", "FliE"] "MSAIQGIEGVISQLQATAMSARAQESLPQPTISFAGQLHAALDRISDTQTAARTQAEKFTLGEPGVALNDVMTDMQKASVSMQMGIQVRNKLVAAYQEVMSMQV" [] ["CCO-PERI-BAC", "CCO-CELL-PROJECTION"] +"EG11350-MONOMER" "lipopolysaccharide core biosynthesis protein WaaS" ["WaaS", "RfaS"] "MTIYFINWVADYELKMIQYLKKKYKIKNITTPKKYNWINKKISKIGMDNAWLGRLFIKHYLNDIKKDDIIIINDSVVNKGINKQILKNINCHKVLLLRNTVGEDFILDNANYFDIIYDFEHRFIGNEKIKAIEQFFPIGMDEIRNYSLSDKNNSQPICFFLGRDKGRLQIINELAERLTTLGCKLDFNVVKDKTSSTTSKYLIEKQISYEENIRRTLNANIIVDITKENQSGWTLRILEALFFNKKLITNNINVFGSEIYSESRFFIIGHDDWDKLEYFINSSVKPMDYDSLYKFSPDKMMSTIVSDFIDK" [] ["CCO-CYTOSOL"] +"EG11351-MONOMER" "UDP-D-galactose:(glucosyl)lipopolysaccharide-1,6-D-galactosyltransferase" ["Syn", "Lps", "WaaB", "RfaB"] "MKIAFIGEAVSGFGGMETVIRDVITTFRQQHIQSEMFFFCRNDKMDKGWLEGIKYSCSFSNIRLGFLRRAKHIHALSKWLQEYQPDIVICIDVISCLFAAKARKKSGIDMPVFSWPHFSLDHKKHAEYITCADYHLAISSGIKQQMINRGVAESTINVIFNPVETKDSVIPAPEEGETATFIYVGRMKFEGQKRVKDLLDGLSQAKGNWKLHVLGDGSDFEKCQAYGRELNIDDRIVWYGWQQYPWELVQQDIEKVSALLLTSSFEGFPMTLLEALSWGIPCISADCVSGPADIIQPDVNGHLYQPGDIAGFVTLLNKYIAGEIHIEHEKIPASIDEFYQSKYYDRLHKVIISAISRRK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11352-MONOMER" "UDP-D-glucose:(glucosyl)LPS α-1,3-glucosyltransferase" ["WaaO", "WaaI", "RfaI"] "MQQVFFQETEFLNSVIDYDHKVETENLCLDIAYGTDKNFLFGCGISIASILKYNEGSRLCFHIFTDYFGDDDRKYFDALALQYKTRIKIYLINGDRLRSLPSTKNWTHAIYFRFVIADYFINKAPKVLYLDADIICQGTIEPLINFSFPDDKVAMVVTEGQADWWEKRAHSLGVAGIAKGYFNSGFLLINTAQWAAQQVSARAIAMLNEPEIIKKITHPDQDVLNMLLADKLIFADIKYNTQFSLNYQLKESFINPVTNDTIFIHYIGPTKPWHDWAWDYPVSQAFMEAKNASPWKNTALLKPNNSNQLRYSAKHMLKKHRYLKGFSNYLFYFIEKIKH" [] ["CCO-CYTOSOL"] +"EG11353-MONOMER" "UDP-glucose:(glucosyl)LPS α-1,2-glucosyltransferase" ["WaaR", "WaaJ", "RfaJ", "UDP-D-glucose:(galactosyl)lipopolysaccharide glucosyltransferase"] "MDSFPAIEIDKVKAWDFRLANINTSECLNVAYGVDANYLDGVGVSITSIVLNNRHINLDFYIIADVYNDGFFQKIAKLAEQNQLRITLYRINTDKLQCLPCTQVWSRAMYFRLFAFQLLGLTLDRLLYLDADVVCKGDISQLLHLGLNGAVAAVVKDVEPMQEKAVSRLSDPELLGQYFNSGVVYLDLKKWADAKLTEKALSILMSKDNVYKYPDQDVMNVLLKGMTLFLPREYNTIYTIKSELKDKTHQNYKKLITESTLLIHYTGATKPWHKWAIYPSVKYYKIALENSPWKDDSPRDAKSIIEFKKRYKHLLVQHHYISGIIAGVCYLCRKYYRK" [] ["CCO-CYTOSOL"] +"EG11354-MONOMER" "multidrug efflux pump membrane fusion protein EmrA" ["EmrA"] "MSANAETQTPQQPVKKSGKRKRLLLLLTLLFIIIAVAIGIYWFLVLRHFEETDDAYVAGNQIQIMSQVSGSVTKVWADNTDFVKEGDVLVTLDPTDARQAFEKAKTALASSVRQTHQLMINSKQLQANIEVQKIALAKAQSDYNRRVPLGNANLIGREELQHARDAVTSAQAQLDVAIQQYNANQAMILGTKLEDQPAVQQAATEVRNAWLALERTRIISPMTGYVSRRAVQPGAQISPTTPLMAVVPATNMWVDANFKETQIANMRIGQPVTITTDIYGDDVKYTGKVVGLDMGTGSAFSLLPAQNATGNWIKVVQRLPVRIELDQKQLEQYPLRIGLSTLVSVNTTNRDGQVLANKVRSTPVAVSTAREISLAPVNKLIDDIVKANAG" ["CCO-PERI-BAC", "CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PERI-BAC", "CCO-PM-BAC-NEG"] +"EG11355-MONOMER" "RNA polymerase, sigma 28 (sigma F) factor" ["RpoF", "FlaD", "FliA", "sigma F factor", "sigma 28 factor", "σ28"] "MNSLYTAEGVMDKHSLWQRYVPLVRHEALRLQVRLPASVELDDLLQAGGIGLLNAVERYDALQGTAFTTYAVQRIRGAMLDELRSRDWVPRSVRRNAREVAQAIGQLEQELGRNATETEVAERLGIDIADYRQMLLDTNNSQLFSYDEWREEHGDSIELVTDDHQRENPLQQLLDSNLRQRVMEAIETLPEREKLVLTLYYQEELNLKEIGAVLEVGESRVSQLHSQAIKRLRTKLGKL" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11356-MONOMER" "DNA-binding transcriptional regulator FliZ" ["YedH", "FliZ"] "MMVQHLKRRPLSRYLKDFKHSQTHCAHCRKLLDRITLVRDGKIVNKIEISRLDTLLDENGWQTEQKSWAALCRFCGDLHCKTQSDFFDIIGFKQFLFEQTEMSPGTVREYVVRLRRLGNHLHEQNISLDQLQDGFLDEILAPWLPTTSTNNYRIALRKYQHYQRQTCTRLVQKSSSLPSSDIY" [] ["CCO-CYTOSOL"] +"EG11357-MONOMER" "ATP-dependent DNA helicase DinG" ["RarB", "DinG"] "MALTAALKAQIAAWYKALQEQIPDFIPRAPQRQMIADVAKTLAGEEGRHLAIEAPTGVGKTLSYLIPGIAIAREEQKTLVVSTANVALQDQIYSKDLPLLKKIIPDLKFTAAFGRGRYVCPRNLTALASTEPTQQDLLAFLDDELTPNNQEEQKRCAKLKGDLDTYKWDGLRDHTDIAIDDDLWRRLSTDKASCLNRNCYYYRECPFFVARREIQEAEVVVANHALVMAAMESEAVLPDPKNLLLVLDEGHHLPDVARDALEMSAEITAPWYRLQLDLFTKLVATCMEQFRPKTIPPLAIPERLNAHCEELYELIASLNNILNLYMPAGQEAEHRFAMGELPDEVLEICQRLAKLTEMLRGLAELFLNDLSEKTGSHDIVRLHRLILQMNRALGMFEAQSKLWRLASLAQSSGAPVTKWATREEREGQLHLWFHCVGIRVSDQLERLLWRSIPHIIVTSATLRSLNSFSRLQEMSGLKEKAGDRFVALDSPFNHCEQGKIVIPRMRVEPSIDNEEQHIAEMAAFFRKQVESKKHLGMLVLFASGRAMQRFLDYVTDLRLMLLVQGDQPRYRLVELHRKRVANGERSVLVGLQSFAEGLDLKGDLLSQVHIHKIAFPPIDSPVVITEGEWLKSLNRYPFEVQSLPSASFNLIQQVGRLIRSHGCWGEVVIYDKRLLTKNYGKRLLDALPVFPIEQPEVPEGIVKKKEKTKSPRRRRR" [] ["CCO-CYTOSOL"] +"EG11359-MONOMER" "Type II secretion system prepilin peptidase" ["YheC", "HopO", "HopD", "GspO", "HofD"] "MTMLLPLFILVGFIADYFVNAIAYHLSPLEDKTALTFRQVLVHFRQKKYAWHDTVPLILCVAAAIACALAPFTPIVTGALFLYFCFVLTLSVIDFRTQLLPDKLTLPLLWLGLVFNAQYGLIDLHDAVYGAVAGYGVLWCVYWGVWLVCHKEGLGYGDFKLLAAAGAWCGWQTLPMILLIASLGGIGYAIVSQLLQRRTITTIAFGPWLALGSMINLGYLAWISY" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11360-MONOMER" "putative glycoside hydrolase Bax" ["Bax"] "MILTPIRRYGAMILMLLTLVFSSEVLAKTHTTTASQKSHLTKASNKQVSSKQEYSRNSAKSSSLPDLRKYPSGTPRKKAFLRTVMPYITSQNAAITAERNWLISKQYQGQWSPAERARLKDIAKRYKVKWSGNTRKIPWNTLLERVDIIPTSMVATMAAAESGWGTSKLARNNNNLFGMKCMKGRCTNAPGKVKGYSQFSSVKESVSAYVTNLNTHPAYSSFRKSRAQLRKADQEVTATAMIHKLKGYSTKGKSYNNYLFAMYQDNQRLIAAHM" [] ["CCO-CYTOSOL"] +"EG11361-MONOMER" "putative assembly protein AsmA" ["YegA", "AsmA"] "MRRFLTTLMILLVVLVAGLSALVLLVNPNDFRDYMVKQVAARSGYQLQLDGPLRWHVWPQLSILSGRMSLTAQGASQPLVRADNMRLDVALLPLLSHQLSVKQVMLKGAVIQLTPQTEAVRSEDAPVAPRDNTLPDLSDDRGWSFDISSLKVADSVLVFQHEDDEQVTIRNIRLQMEQDPQHRGSFEFSGRVNRDQRDLTISLNGTVDASDYPHDLTAAIEQINWQLQGADLPKQGIQGQGSFQAQWQESHKRLSFNQISLTANDSTLSGQAQVTLTEKPEWQLRLQFPQLNLDNLIPLNETANGENGAAQQGQSQSTLPRPVISSRIDEPAYQGLQGFTADILLQASNVRWRGMNFTDVATQMTNKSGLLEITQLQGKLNGGQVSLPGTLDATSINPRINFQPRLENVEIGTILKAFNYPISLTGKMSLAGDFSGADIDADAFRHNWQGQAHVEMTDTRMEGMNFQQMIQQAVERNGGDVKAAENFDNVTRLDRFTTDLTLKDGVVTLNDMQGQSPVLALTGEGMLNLADQTCDTQFDIRVVGGWNGESKLIDFLKETPVPLRVYGNWQQLNYSLQVDQLLRKHLQDEAKRRLNDWAERNKDSRNGKDVKKLLEKM" ["CCO-PM-BAC-NEG"] ["CCO-PERI-BAC", "CCO-PM-BAC-NEG"] +"EG11362-MONOMER" "glutamyl-Q tRNAAsp synthetase" ["GluQ", "YadB"] "MLPPYFLFKEMTDTQYIGRFAPSPSGELHFGSLIAALGSYLQARARQGRWLVRIEDIDPPREVPGAAETILRQLEHYGLHWDGDVLWQSQRHDAYREALAWLHEQGLSYYCTCTRARIQSIGGIYDGHCRVLHHGPDNAAVRIRQQHPVTQFTDQLRGIIHADEKLAREDFIIHRRDGLFAYNLAVVVDDHFQGVTEIVRGADLIEPTVRQISLYQLFGWKVPDYIHLPLALNPQGAKLSKQNHAPALPKGDPRPVLIAALQFLGQQAEAHWQDFSVEQILQSAVKNWRLTAVPESAIVNSTFSNASC" [] ["CCO-CYTOSOL"] +"EG11364-MONOMER" "carbohydrate-specific outer membrane porin, cryptic" ["YieC", "BglH"] "MFRRNLITSAILLMAPLAFSAQSLAESLTVEQRLELLEKALRETQSELKKYKDEEKKKYTPATVNRSVSTNDQGYAANPFPTSSAAKPDAVLVKNEEKNASETGSIYSSMTLKDFSKFVKDEIGFSYNGYYRSGWGTASHGSPKSWAIGSLGRFGNEYSGWFDLQLKQRVYNENGKRVDAVVMMDGNVGQQYSTGWFGDNAGGENYMQFSDMYVTTKGFLPFAPEADFWVGKHGAPKIEIQMLDWKTQRTDAAAGVGLENWKVGPGKIDIALVREDVDDYDRSLQNKQQINTNTIDLRYKDIPLWDKATLMVSGRYVTANESASEKDNQDNNGYYDWKDTWMFGTSLTQKFDKGGFNEFSFLVANNSIASNFGRYAGASPFTTFNGRYYGDHTGGTAVRLTSQGEAYIGDHFIVANAIVYSFGNDIYSYETGAHSDFESIRAVVRPAYIWDQYNQTGVELGYFTQQNKDANSNKFNESGYKTTLFHTFKVNTSMLTSRPEIRFYATYIKALENELDGFTFEDNKDDQFAVGAQAEIWW" ["CCO-OUTER-MEM"] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"EG11371-MONOMER" "phosphatidylglycerophosphatase C" ["PgpC", "YfhB", "PGPC-ase"] "MATHERRVVFFDLDGTLHQQDMFGSFLRYLLRRQPLNALLVLPLLPIIAIALLIKGRAARWPMSLLLWGCTFGHSEARLQTLQADFVRWFRDNVTAFPLVQERLTTYLLSSDADIWLITGSPQPLVEAVYFDTPWLPRVNLIASQIQRGYGGWVLTMRCLGHEKVAQLERKIGTPLRLYSGYSDSNQDNPLLYFCQHRWRVTPRGELQQLE" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11372-MONOMER" "tRNA adenosine34 deaminase" ["TadA", "YfhC", "tRNA-specific adenosine deaminase"] "MSEVEFSHEYWMRHALTLAKRAWDEREVPVGAVLVHNNRVIGEGWNRPIGRHDPTAHAEIMALRQGGLVMQNYRLIDATLYVTLEPCVMCAGAMIHSRIGRVVFGARDAKTGAAGSLMDVLHHPGMNHRVEITEGILADECAALLSDFFRMRRQEIKAQKKAQSSTD" [] ["CCO-CYTOSOL"] +"EG11373-MONOMER" "membrane-bound lytic murein transglycosylase F" ["YfhD", "MltF"] "MKKLKINYLFIGILALLLAVALWPSIPWFGKADNRIAAIQARGELRVSTIHTPLTYNEINGKPFGLDYELAKQFADYLGVKLKVTVRQNISQLFDDLDNGNADLLAAGLVYNSERVKNYQPGPTYYSVSQQLVYKVGQYRPRTLGNLTAEQLTVAPGHVVVNDLQTLKETKFPELSWKVDDKKGSAELMEDVIEGKLDYTIADSVAISLFQRVHPELAVALDITDEQPVTWFSPLDGDNTLSAALLDFFNEMNEDGTLARIEEKYLGHGDDFDYVDTRTFLRAVDAVLPQLKPLFEKYAEEIDWRLLAAIAYQESHWDAQATSPTGVRGMMMLTKNTAQSLGITDRTDAEQSISGGVRYLQDMMSKVPESVPENERIWFALAAYNMGYAHMLDARALTAKTKGNPDSWADVKQRLPLLSQKPYYSKLTYGYARGHEAYAYVENIRKYQISLVGYLQEKEKQATEAAMQLAQDYPAVSPTELGKEKFPFLSFLSQSSSNYLTHSPSLLFSRKGSEEKQN" ["CCO-OUTER-MEM"] ["CCO-MEMBRANE", "CCO-PERI-BAC", "CCO-OUTER-MEM"] +"EG11376-MONOMER" "cell division protein FtsP" ["Sui", "SufI", "FtsP", "cell division protein required during stress conditions"] "MSLSRRQFIQASGIALCAGAVPLKASAAGQQQPLPVPPLLESRRGQPLFMTVQRAHWSFTPGTRASVWGINGRYLGPTIRVWKGDDVKLIYSNRLTENVSMTVAGLQVPGPLMGGPARMMSPNADWAPVLPIRQNAATLWYHANTPNRTAQQVYNGLAGMWLVEDEVSKSLPIPNHYGVDDFPVIIQDKRLDNFGTPEYNEPGSGGFVGDTLLVNGVQSPYVEVSRGWVRLRLLNASNSRRYQLQMNDGRPLHVISGDQGFLPAPVSVKQLSLAPGERREILVDMSNGDEVSITCGEAASIVDRIRGFFEPSSILVSTLVLTLRPTGLLPLVTDSLPMRLLPTEIMAGSPIRSRDISLGDDPGINGQLWDVNRIDVTAQQGTWERWTVRADEPQAFHIEGVMFQIRNVNGAMPFPEDRGWKDTVWVDGQVELLVYFGQPSWAHFPFYFNSQTLEMADRGSIGQLLVNPVP" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"EG11378-MONOMER" "iron-sulfur cluster insertion protein SufA" ["YdiC", "SufA", "Fe-S transport protein in Fe-S cluster assembly"] "MDMHSGTFNPQDFAWQGLTLTPAAAIHIRELVAKQPGMVGVRLGVKQTGCAGFGYVLDSVSEPDKDDLLFEHDGAKLFVPLQAMPFIDGTEVDFVREGLNQIFKFHNPKAQNECGCGESFGV" [] ["CCO-CYTOSOL"] +"EG11381-MONOMER" "surface composition regulator" ["ScoR", "GlgS"] "MDHSLNSLNNFDFLARSFARMHAEGRPVDILAVTGNMDEEHRTWFCARYAWYCQQMMQARELELEH" [] ["CCO-CYTOSOL"] +"EG11383-MONOMER" "low activity glyoxalase ElbB" ["YzzB", "ElbB", "YhbL", "sigma cross-reacting protein 27A (SCRP-27A)", "isoprenoid biosynthesis protein with amidotransferase-like domain"] "MKKIGVILSGCGVYDGSEIHEAVLTLLAISRSGAQAVCFAPDKQQVDVINHLTGEAMTETRNVLIEAARITRGEIRPLAQADAAELDALIVPGGFGAAKNLSNFASLGSECTVDRELKALAQAMHQAGKPLGFMCIAPAMLPKIFDFPLRLTIGTDIDTAEVLEEMGAEHVPCPVDDIVVDEDNKIVTTPAYMLAQNIAEAASGIDKLVSRVLVLAE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11384-MONOMER" "alkyl hydroperoxide reductase, AhpC component" ["Tpx", "AhpC", "alkyl hydroperoxide reductase, C22 subunit", "Ssi8"] "MSLINTKIKPFKNQAFKNGEFIEITEKDTEGRWSVFFFYPADFTFVCPTELGDVADHYEELQKLGVDVYAVSTDTHFTHKAWHSSSETIAKIKYAMIGDPTGALTRNFDNMREDEGLADRATFVVDPQGIIQAIEVTAEGIGRDASDLLRKIKAAQYVASHPGEVCPAKWKEGEATLAPSLDLVGKI" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11385-MONOMER" "alkyl hydroperoxide reductase, AhpF component" ["AhpF", "alkyl hydroperoxide reductase, F52a subunit"] "MLDTNMKTQLKAYLEKLTKPVELIATLDDSAKSAEIKELLAEIAELSDKVTFKEDNSLPVRKPSFLITNPGSNQGPRFAGSPLGHEFTSLVLALLWTGGHPSKEAQSLLEQIRHIDGDFEFETYYSLSCHNCPDVVQALNLMSVLNPRIKHTAIDGGTFQNEITDRNVMGVPAVFVNGKEFGQGRMTLTEIVAKIDTGAEKRAAEELNKRDAYDVLIVGSGPAGAAAAIYSARKGIRTGLMGERFGGQILDTVDIENYISVPKTEGQKLAGALKVHVDEYDVDVIDSQSASKLIPAAVEGGLHQIETASGAVLKARSIIVATGAKWRNMNVPGEDQYRTKGVTYCPHCDGPLFKGKRVAVIGGGNSGVEAAIDLAGIVEHVTLLEFAPEMKADQVLQDKLRSLKNVDIILNAQTTEVKGDGSKVVGLEYRDRVSGDIHNIELAGIFVQIGLLPNTNWLEGAVERNRMGEIIIDAKCETNVKGVFAAGDCTTVPYKQIIIATGEGAKASLSAFDYLIRTKTA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11386-MONOMER" "putative uncharacterized protein YjiV" ["McrD", "YjiV", "YjiU"] "MYVNQRQNCDCGSPVYEVAFCNDCNEPHLLARDKKGKLVQWENKGGDEFSLQDEVPVEHDATEEKVEKENSFQPPLIIAAGETSEAGYTLQRLDRQTRRIGVINNDSIPLIINDIEQVCSASGCGYRGMSGKQPFRRALLGGPFYVTNIVPTVLEYCQDFTSDEGKEGVGPDSLPGRGRRLITFTDSRQGTARMAVRMQQEAERSRLRGSVVEILSWHQRTQTSTAPNANADLEKLAARAKQAREQAEEYRSWGMPDQAKLSQAQAEQLEQAYQAATGGKAATILVSRTWTEMVNELKERADIRGPVLQYNHYLKPEVFNENGGPLKLSEMLLFREFMRRPKRTNSLETQGLVQVGYQGLEKIHKSPLHWQEKGLTLDDWRDFLKVTLDHYVRESNFTQLDDELKNWIGSRFSSKFVRNPESKDPEDNQNRRWPQIRNGNVSHRLAKLLMLGAGFKTVNAATIDIINTWLKEAWAQLTGPLAVLKPDGNRFYLPKEHMTFSLITDAWICPVTNKILDTAFKGLTPYLPTHISFEHLTLAQYDTFVAQKVTMPEIWKLDRSQEDYAEGLAKARDWVSHDPLIAQLRSENVWTDINDRVVEGGFYYRTAEHSAQQSSERLQSYEKMFKNGQLNVLNCSTTMEMGVDTDRVMTLASRSQQATIPGPEWHLNDELVVRSLGYKTVELNEFILPAKATNAVERVKDIQIHKQLNGPLSQFGQRFWDVLFNDHEEAQSLMNNTRITGVHYTDRYLQNPVALALLGSILRPLKTKLTDGAEVTLDTLFKDKDRPGNRPFHDWMSIADFQDFADQWFAAALGRPVELTVFDSPRDIPHHRKLTVTFEDGQVLKIRFDQGMGYWRINFSSQWHYFDFRDDVSFQLVKMAQACKEGNVANSEESWATDVLVEVIAS" [] ["CCO-CYTOSOL"] +"EG11388-MONOMER" "flagellar biosynthesis protein FliS" ["FliS"] "MYAAKGTQAYAQIGVESAVMSASQQQLVTMLFDGVLSALVRASLFMQDNNQQGKGVSLSKAINIIENGLRVSLDEESKDELTQNLIALYSYMVRRLLQANLRNDVSAVEEVEALMRNIADAWKESLLSPSLIQDPV" [] ["CCO-CYTOSOL"] +"EG11389-MONOMER" "flagellar biosynthesis protein FliT" ["FliT"] "MNHAPHLYFAWQQLVEKSQLMLRLATEEQWDELIASEMAYVNAVQEIAHLTEEVDPSTTMQEQLRPMLRLILDNESKVKQLLQIRMDELAKLVGQSSVQKSVLSAYGDQGGFVLAPQDNLF" [] ["CCO-CYTOSOL"] +"EG11390-MONOMER" "universal stress global stress response regulator" ["UspA"] "MAYKHILIAVDLSPESKVLVEKAVSMARPYNAKVSLIHVDVNYSDLYTGLIDVNLGDMQKRISEETHHALTELSTNAGYPITETLSGSGDLGQVLVDAIKKYDMDLVVCGHHQDFWSKLMSSARQLINTVHVDMLIVPLRDEEE" [] ["CCO-CYTOSOL"] +"EG11391-MONOMER" "periplasmic chaperone OsmY" ["OsmY"] "MTMTRLKISKTLLAVMLTSAVATGSAYAENNAQTTNESAGQKVDSSMNKVGNFMDDSAITAKVKAALVDHDNIKSTDISVKTDQKVVTLSGFVESQAQAEEAVKVAKGVEGVTSVSDKLHVRDAKEGSVKGYAGDTATTSEIKAKLLADDIVPSRHVKVETTDGVVQLSGTVDSQAQSDRAESIAKAVDGVKSVKNDLKTK" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"EG11394-MONOMER" "DNA-binding transcriptional repressor FabR" ["FabR", "YijC"] "MFILWYSASSTFGKDSDIVMGVRAQQKEKTRRSLVEAAFSQLSAERSFASLSLREVAREAGIAPTSFYRHFRDVDELGLTMVDESGLMLRQLMRQARQRIAKGGSVIRTSVSTFMEFIGNNPNAFRLLLRERSGTSAAFRAAVAREIQHFIAELADYLELENHMPRAFTEAQAEAMVTIVFSAGAEALDVGVEQRRQLEERLVLQLRMISKGAYYWYRREQEKTAIIPGNVKDE" [] ["CCO-CYTOSOL"] +"EG11395-MONOMER" "DUF1422 domain-containing inner membrane protein YijD" ["YijD"] "MKQANQDRGTLLLALVAGLSINGTFAALFSSIVPFSVFPIISLVLTVYCLHQRYLNRTMPVGLPGLAAACFILGVLLYSTVVRAEYPDIGSNFFPAVLSVIMVFWIGAKMRNRKQEVAE" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11396-MONOMER" "3-octaprenyl-4-hydroxybenzoate decarboxylase" ["YigY", "YigC", "UbiD"] "MDAMKYNDLRDFLTLLEQQGELKRITLPVDPHLEITEIADRTLRAGGPALLFENPKGYSMPVLCNLFGTPKRVAMGMGQEDVSALREVGKLLAFLKEPEPPKGFRDLFDKLPQFKQVLNMPTKRLRGAPCQQKIVSGDDVDLNRIPIMTCWPEDAAPLITWGLTVTRGPHKERQNLGIYRQQLIGKNKLIMRWLSHRGGALDYQEWCAAHPGERFPVSVALGADPATILGAVTPVPDTLSEYAFAGLLRGTKTEVVKCISNDLEVPASAEIVLEGYIEQGETAPEGPYGDHTGYYNEVDSFPVFTVTHITQREDAIYHSTYTGRPPDEPAVLGVALNEVFVPILQKQFPEIVDFYLPPEGCSYRLAVVTIKKQYAGHAKRVMMGVWSFLRQFMYTKFVIVCDDDVNARDWNDVIWAITTRMDPARDTVLVENTPIDYLDFASPVSGLGSKMGLDATNKWPGETQREWGRPIKKDPDVVAHIDAIWDELAIFNNGKSA" ["CCO-CYTOSOL"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE", "CCO-CYTOSOL"] +"EG11398-MONOMER" "periplasmic acid stress chaperone HdeA" ["YhhC", "YhiB", "HdeA", "HdeA monomer, chaperone active form"] "MKKVLGVILGGLLLLPVVSNAADAQKAADNKKPVNSWTCEDFLAVDESFQPTAVGFAEALNNKDKPEDAVLDVQGIATVTPAIVQACTQDKQANFKDKVKGEWDKIKKDM" [] ["CCO-PERI-BAC"] +"EG11399-MONOMER" "periplasmic acid stress chaperone HdeB" ["YhhD", "YhiC", "HdeB", "10K-L protein"] "MNISSLRKAFIFMGAVAALSLVNAQSALAANESAKDMTCQEFIDLNPKAMTPVAWWMLHEETVYKGGDTVTLNETDLTQIPKVIEYCKKNPQKNLYTFKNQASNDLPN" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"EG11400-MONOMER" "inner membrane protein YhiD" ["YhhE", "YhiD"] "MTAEFIIRLILAAIACGAIGMERQMRGKGAGLRTHVLIGMGSALFMIVSKYGFADVLSLDHVGLDPSRIAAQVVTGVGFIGAGNILVRNQNIVGLTTAADIWVTAAIGMVIGSGMYELGIYGSVMTLLVLEVFHQLTFRLMNKNYHLQLTLVNGNTVSMLDWFKQQKIKTDLVSLQENEDHEVVAIDIQLHATTSIEDLLRLLKGMAGVKGVSIS" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11401-MONOMER" "PsiF family protein" ["PsiF"] "MKITLLVTLLFGLVFLTTVGAAERTLTPQQQRMTSCNQQATAQALKGDARKTYMSDCLKNSKSAPGEKSLTPQQQKMRECNNQATQQSLKGDDRNKFMSACLKKAA" [] ["CCO-CYTOSOL"] +"EG11404-MONOMER" "redox-responsive ATPase YchF" ["YchF", "ribosome-binding ATPase, inhibitor of catalase activity", "ribosome-binding ATPase YchF"] "MGFKCGIVGLPNVGKSTLFNALTKAGIEAANFPFCTIEPNTGVVPMPDPRLDQLAEIVKPQRTLPTTMEFVDIAGLVKGASKGEGLGNQFLTNIRETEAIGHVVRCFENDNIIHVSGKVNPADDIEVINTELALADLDTCERAIHRVQKKAKGGDKDAKAELAVLEKCLPQLENAGMLRALDLSAEEKAAIRYLSFLTLKPTMYIANVNEDGFENNPYLDQVREIAAKEGSVVVPVCAAVEADIAELDDEERDEFMQELGLEEPGLNRVIRAGYKLLNLQTYFTAGVKEVRAWTIPVGATAPQAAGKIHTDFEKGFIRAQTISFEDFITYKGEQGAKEAGKMRAEGKDYIVKDGDVMNFLFNV" [] ["CCO-CYTOSOL"] +"EG11410-MONOMER" "DUF615 domain-containing protein YjgA" ["YjgA"] "MTKQPEDWLDDVPGDDIEDEDDEIIWVSKSEIKRDAEELKRLGAEIVDLGKNALDKIPLDADLRAAIELAQRIKMEGRRRQLQLIGKMLRQRDVEPIRQALDKLKNRHNQQVVLFHKLENLRDRLIDQGDDAIAEVLNLWPDADRQQLRTLIRNAKKEKEGNKPPKSARQIFQYLRELAENEG" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11412-MONOMER" "DNA polymerase III subunit δ" ["HolA"] "MIRLYPEQLRAQLNEGLRAAYLLLGNDPLLLQESQDAVRQVAAAQGFEEHHTFSIDPNTDWNAIFSLCQAMSLFASRQTLLLLLPENGPNAAINEQLLTLTGLLHDDLLLIVRGNKLSKAQENAAWFTALANRSVQVTCQTPEQAQLPRWVAARAKQLNLELDDAANQVLCYCYEGNLLALAQALERLSLLWPDGKLTLPRVEQAVNDAAHFTPFHWVDALLMGKSKRALHILQQLRLEGSEPVILLRTLQRELLLLVNLKRQSAHTPLRALFDKHRVWQNRRGMMGEALNRLSQTQLRQAVQLLTRTELTLKQDYGQSVWAELEGLSLLLCHKPLADVFIDG" [] ["CCO-CYTOSOL"] +"EG11413-MONOMER" "DNA polymerase III subunit χ" ["HolC"] "MKNATFYLLDNDTTVDGLSAVEQLVCEIAAERWRSGKRVLIACEDEKQAYRLDEALWARPAESFVPHNLAGEGPRGGAPVEIAWPQKRSSSRRDILISLRTSFADFATAFTEVVDFVPYEDSLKQLARERYKAYRVAGFNLNTATWK" [] ["CCO-CYTOSOL"] +"EG11414-MONOMER" "DNA polymerase III subunit ψ" ["HolD"] "MTSRRDWQLQQLGITQWSLRRPGALQGEIAIAIPAHVRLVMVANDLPALTDPLVSDVLRALTVSPDQVLQLTPEKIAMLPQGSHCNSWRLGTDEPLSLEGAQVASPALTDLRANPTARAALWQQICTYEHDFFPRND" [] ["CCO-CYTOSOL"] +"EG11415-MONOMER" "DNA protection during starvation protein" ["Vtm", "PexB", "Dps", "stationary phase nucleoid protein that sequesters iron and protects DNA from damage"] "MSTAKLVKSKATNLLYTRNDVSDSEKKATVELLNRQVIQFIDLSLITKQAHWNMRGANFIAVHEMLDGFRTALIDHLDTMAERAVQLGGVALGTTQVINSKTPLKSYPLDIHNVQDHLKELADRYAIVANDVRKAIGEAKDDDTADILTAASRDLDKFLWFIESNIE" ["CCO-BAC-NUCLEOID"] ["CCO-CYTOSOL", "CCO-BAC-NUCLEOID"] +"EG11422-MONOMER" "putative lipopolysaccharide kinase InaA" ["YfaG", "InaA", "pH-inducible protein involved in stress response"] "MAVSAKYDEFNHWWATEGDWVEEPNYRRNGMSGVQCVERNGKKLYVKRMTHHLFHSVRYPFGRPTIVREVAVIKELERAGVIVPKIVFGEAVKIEGEWRALLVTEDMAGFISIADWYAQHAVSPYSDEVRQAMLKAVALAFKKMHSINRQHGCCYVRHIYVKTEGNAEAGFLDLEKSRRRLRRDKAINHDFRQLEKYLEPIPKADWEQVKAYYYAM" [] ["CCO-CYTOSOL"] +"EG11423-MONOMER" "putative ADP-heptose:LPS heptosyltransferase 4" ["WaaU", "RfaK", "heptosyl transferase IV", "putative UDP-N-acetyl-D-glucosaminyl transferase", "ADP-L-glycero-β-D-manno-heptose:LPS heptosyltransferase IV"] "MRLGTFHKKKRFYINKIKINFLSFLFRNKINNQITDPAQVKSCLIIHDNNKLGDLIVLSSIYRELYSKGVKITLLTNRKGGEFLSNNKNIFEFCIKESTGFLEMLTLCKHLRDLQFDIVLDPFETMPSFKHSLILSSLKDSYILGFDHWYKRYYSFYHPHDECLKEHMSTRAIEILKHIYGEGKFSTNYDLHLPVDVEDKIKEFIGDTRIVIINPLGAKKICRLTFEQIKVIYQEVKTHFENYRIIFTGLPQDLLTIPILEIETLPFDEFIYTVALTKYSDFVISVDTALVHIAAAYHKPTLAFYPNSRTPEYPSHLIWSPNHHKSIQIVSPTYTVKDIDTETLTNSVKRLSCIDKK" [] ["CCO-CYTOSOL", "CCO-MEMBRANE"] +"EG11424-MONOMER" "O-antigen ligase" ["WaaL", "RfaL", "M-antigen ligase", "surface polymer:lipid A-core ligase"] "MLTSFKLHSLKPYTLKSSMILEIITYILCFFSMIIAFVDNTFSIKIYNITAIVCLLSLILRGRQENYNIKNLILPLSIFLIGLLDLIWYSAFKVDNSPFRATYHSYLNTAKIFIFGSFIVFLTLTSQLKSKKESVLYTLYSLSFLIAGYAMYINSIHENDRISFGVGTATGAAYSTMLIGIVSGVAILYTKKNHPFLFLLNSCAVLYVLALTQTRATLLLFPIICVAALIAYYNKSPKKFTSSIVLLIAILASIVIIFNKPIQNRYNEALNDLNSYTNANSVTSLGARLAMYEIGLNIFIKSPFSFRSAESRAESMNLLVAEHNRLRGALEFSNVHLHNEIIEAGSLKGLMGIFSTLFLYFSLFYIAYKKRALGLLILTLGIVGIGLSDVIIWARSIPIIIISAIVLLLVINNRNNTIN" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11425-MONOMER" "lipopolysaccharide core heptose (II) kinase" ["WaaY", "RfaY", "L-glycero-D-manno-heptose (II) kinase"] "MIQKSKIKDLVVFTDENNSKYLNVLNDFLSYNINIIKVFRSIDDTKVMLIDTDYGKLILKVFSPKVKRNERFFKSLLKGDYYERLFEQTQKVRNEGLNTLNDFYLLAERKTLRFVHTYIMIIEYIDGIELCDMPDIDDALKNKIQQSINALHQHGMVSGDPHRGNFIIKNGEVRIIDLSGKRASAQRKAKDRIDLERHYGIKNEIRDLGYYLLVYRKKMRNFMRRLKGKPAR" [] ["CCO-CYTOSOL"] +"EG11426-MONOMER" "lipopolysaccharide core biosynthesis protein WaaZ" ["WaaZ", "RfaZ", "protein involved in KdoIII attachment during lipopolysaccharide core biosynthesis"] "MKNIRYIDKKDVENLIENKISDDVIIFLSGPTSQKTPLSVLRTKDIIAVNGSAQYLLSNNIVPFIYVLTDVRFLHQRRDDFYKFSQRSRYTIVNVDVYEHASKEDKLYILQNCLVLRSFYRREKGGFIKKIKFNILRQIHKELLISVPLSKKGRLVGFCKDISLGYCSCHTIAFAAIQIAYSLKYARIICSGLDLTGSCSRFYDENKNPMPSELSRDLFKILPFFRFMHDNVKDINIYNLSDDTAISYDVIPFIKLQDISAEESKDMTRKKMQYRTSTDSYAN" [] ["CCO-CYTOSOL"] +"EG11429-MONOMER" "protein YjaZ" ["HtrC", "YjaZ"] "MKQEVEKWRPFGHPDGDIRDLSFLDAHQAVYVQHHEGKEPLEYRFWVTYSLHCFTKDYEHQTNEEKQSLMYHAPKESRPFCQHRYNLARTHLKRTILALPESNVIHAGYGSYAVIEVDLDGGDKAFYFVAFRAFREKKKLRLHVTSAYPISEKQKGKSVKFFTIAYNLLRNKQLPQPSK" [] ["CCO-CYTOSOL"] +"EG11430-MONOMER" "ribosomal protein-arginine oxygenase" ["RoxA", "YcfD"] "MEYQLTLNWPDFLERHWQKRPVVLKRGFNNFIDPISPDELAGLAMESEVDSRLVSHQDGKWQVSHGPFESYDHLGETNWSLLVQAVNHWHEPTAALMRPFRELPDWRIDDLMISFSVPGGGVGPHLDQYDVFIIQGTGRRRWRVGEKLQMKQHCPHPDLLQVDPFEAIIDEELEPGDILYIPPGFPHEGYALENAMNYSVGFRAPNTRELISGFADYVLQRELGGNYYSDPDVPPRAHPADVLPQEMDKLREMMLELINQPEHFKQWFGEFISQSRHELDIAPPEPPYQPDEIYDALKQGEVLVRLGGLRVLRIGDDVYANGEKIDSPHRPALDALASNIALTAENFGDALEDPSFLAMLAALVNSGYWFFEG" [] ["CCO-CYTOSOL"] +"EG11431-MONOMER" "putative DNA-binding transcriptional regulator YfeC" ["YfeC"] "MTPDELARLTGYSRQTINKWVRKEGWTTSPKPGVQGGKARLVHVNEQVREYIRNAERPEGQGEAPALSGDAPLEVLLVTLAKEMTPVEQKQFTSLLLREGIIGLLQRLGIRDSK" [] ["CCO-CYTOSOL"] +"EG11432-MONOMER" "putative DNA-binding transcriptional regulator YfeD" ["YfeD"] "MKRLRNKMTTEELAECLGVAKQTVNRWIREKGWKTEKFPGVKGGRARLILVDTQVCEFIQNTPAFHNTPMLMEAEERIAEYAPGARAPAYRQIINAIDNMTDIEQEKVAQFLSREGIRNFLARLDIDESA" [] ["CCO-CYTOSOL"] +"EG11433-MONOMER" "methionine sulfoxide reductase A" ["Pms", "PmsR", "MsrA"] "MSLFDKKHLVSPADALPGRNTPMPVATLHAVNGHSMTNVPDGMEIAIFAMGCFWGVERLFWQLPGVYSTAAGYTGGYTPNPTYREVCSGDTGHAEAVRIVYDPSVISYEQLLQVFWENHDPAQGMRQGNDHGTQYRSAIYPLTPEQDAAARASLERFQAAMLAADDDRHITTEIANATPFYYAEDDHQQYLHKNPYGYCGIGGIGVCLPPEA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11436-MONOMER" "NADPH-dependent aldehyde reductase Ahr" ["Ahr", "YjgB", "AdhZ3"] "MSMIKSYAAKEAGGELEVYEYDPGELRPQDVEVQVDYCGICHSDLSMIDNEWGFSQYPLVAGHEVIGRVVALGSAAQDKGLQVGQRVGIGWTARSCGHCDACISGNQINCEQGAVPTIMNRGGFAEKLRADWQWVIPLPENIDIESAGPLLCGGITVFKPLLMHHITATSRVGVIGIGGLGHIAIKLLHAMGCEVTAFSSNPAKEQEVLAMGADKVVNSRDPQALKALAGQFDLIINTVNVSLDWQPYFEALTYGGNFHTVGAVLTPLSVPAFTLIAGDRSVSGSATGTPYELRKLMRFAARSKVAPTTELFPMSKINDAIQHVRDGKARYRVVLKADF" [] ["CCO-CYTOSOL"] +"EG11437-MONOMER" "putative phosphate acyltransferase" ["PlsX", "fatty acid/phospholipid synthesis protein"] "MTRLTLALDVMGGDFGPSVTVPAALQALNSNSQLTLLLVGNSDAITPLLAKADFEQRSRLQIIPAQSVIASDARPSQAIRASRGSSMRVALELVKEGRAQACVSAGNTGALMGLAKLLLKPLEGIERPALVTVLPHQQKGKTVVLDLGANVDCDSTMLVQFAIMGSVLAEEVVEIPNPRVALLNIGEEEVKGLDSIRDASAVLKTIPSINYIGYLEANELLTGKTDVLVCDGFTGNVTLKTMEGVVRMFLSLLKSQGEGKKRSWWLLLLKRWLQKSLTRRFSHLNPDQYNGACLLGLRGTVIKSHGAANQRAFAVAIEQAVQAVQRQVPQRIAARLESVYPAGFELLDGGKSGTLR" [] ["CCO-CYTOSOL"] +"EG11438-MONOMER" "m7GTP pyrophosphatase" ["YceF"] "MPKLILASTSPWRRALLEKLQISFECAAPEVDETPRSDESPRQLVLRLAQEKAQSLASRYPDHLIIGSDQVCVLDGEITGKPLTEENARLQLRKASGNIVTFYTGLALFNSANGHLQTEVEPFDVHFRHLSEAEIDNYVRKEHPLHCAGSFKSEGFGITLFERLEGRDPNTLVGLPLIALCQMLRREGKNPLMG" [] ["CCO-CYTOSOL"] +"EG11440-MONOMER" "peptide deformylase" ["Fms", "Def"] "MSVLQVLHIPDERLRKVAKPVEEVNAEIQRIVDDMFETMYAEEGIGLAATQVDIHQRIIVIDVSENRDERLVLINPELLEKSGETGIEEGCLSIPEQRALVPRAEKVKIRALDRDGKPFELEADGLLAICIQHEMDHLVGKLFMDYLSPLKQQRIRQKVEKLDRLKARA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11441-MONOMER" "oligopeptidase A" ["OpdA", "PrlC"] "MTNPLLTPFELPPFSKILPEHVVPAVTKALNDCRENVERVVAQGAPYTWENLCQPLAEVDDVLGRIFSPVSHLNSVKNSPELREAYEQTLPLLSEYSTWVGQHEGLYKAYRDLRDGDHYATLNTAQKKAVDNALRDFELSGIGLPKEKQQRYGEIATRLSELGNQYSNNVLDATMGWTKLVTDEAELAGMPESALAAAKAQAEAKELEGYLLTLDIPSYLPVMTYCDNQALREEMYRAYSTRASDQGPNAGKWDNSKVMEEILALRHELAQLLGFENYAFKSLATKMAENPQQVLDFLTDLAKRARPQGEKELAQLRAFAKAEFGVDELQPWDIAYYSEKQKQHLYSISDEQLRPYFPENKAVNGLFEVVKRIYGITAKERKDVDVWHPDVRFFELYDENNELRGSFYLDLYARENKRGGAWMDDCVGQMRKADGSLQKPVAYLTCNFNRPVNGKPALFTHDEVITLFHEFGHGLHHMLTRIETAGVSGISGVPWDAVELPSQFMENWCWEPEALAFISGHYETGEPLPKELLDKMLAAKNYQAALFILRQLEFGLFDFRLHAEFRPDQGAKILETLAEIKKLVAVVPSPSWGRFPHAFSHIFAGGYAAGYYSYLWADVLAADAFSRFEEEGIFNRETGQSFLDNILSRGGSEEPMDLFKRFRGREPQLDAMLEHYGIKG" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11445-MONOMER" "methylmalonyl-CoA mutase-interacting GTPase YgfD" ["YgfD", "ArgK", "GTPase that interacts with methylmalonyl-CoA mutase"] "MINEATLAESIRRLRQGERATLAQAMTLVESRHPRHQALSTQLLDAIMPYCGNTLRLGVTGTPGAGKSTFLEAFGMLLIREGLKVAVIAVDPSSPVTGGSILGDKTRMNDLARAEAAFIRPVPSSGHLGGASQRARELMLLCEAAGYDVVIVETVGVGQSETEVARMVDCFISLQIAGGGDDLQGIKKGLMEVADLIVINKDDGDNHTNVAIARHMYESALHILRRKYDEWQPRVLTCSALEKRGIDEIWHAIIDFKTALTASGRLQQVRQQQSVEWLRKQTEEEVLNHLFANEDFDRYYRQTLLAVKNNTLSPRTGLRQLSEFIQTQYFD" [] ["CCO-PM-BAC-NEG", "CCO-CYTOSOL"] +"EG11447-MONOMER" "carbon storage regulator" ["ZfiA", "CsrA", "pleiotropic regulatory protein for carbon source metabolism", "translational dual regulator CsrA"] "MLILTRRVGETLMIGDEVTVTVLGVKGNQVRIGVNAPKEVSVHREEIYQRIQAEKSQQSSY" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11449-MONOMER" "DNA-binding transcriptional dual regulator HdfR" ["YifA", "HdfR", "YifD"] "MDTELLKTFLEVSRTRHFGRAAESLYLTQSAVSFRIRQLENQLGVNLFTRHRNNIRLTAAGEKLLPYAETLMSTWQAARKEVAHTSRHNEFSIGASASLWECMLNQWLGRLYQNQDAHTGLQFEARIAQRQSLVKQLHERQLDLLITTEAPKMDEFSSQLLGYFTLALYTSAPSKLKGDLNYLRLEWGPDFQQHEAGLIGADEVPILTTSSAELAQQQIAMLNGCTWLPVSWARKKGGLHTVVDSTTLSRPLYAIWLQNSDKNALIRDLLKINVLDEVY" [] ["CCO-CYTOSOL"] +"EG11450-MONOMER" "macrodomain Ori protein" ["MaoP", "YifE"] "MAESFTTTNRYFDNKHYPRGFSRHGDFTIKEAQLLERHGYAFNELDLGKREPVTEEEKLFVAVCRGEREPVTEAERVWSKYMTRIKRPKRFHTLSGGKPQVEGAEDYTDSDD" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11462-MONOMER" "DUF2233 domain-containing protein YigE" ["YigE"] "MAHQLLIGKGMITLNLKRIFLALTLLPLFAVAADDCALSDPTLTVQAYTVNPQTERVKMYWQKANGEAWGTLHALLADINSQGQVQMAMNGGIYDESYAPLGLYIENGQQKVALNLASGEGNFFIRPGGVFYVAGDKVGIVRLDAFKTSKEIQFAVQSGPMLMENGVINPRIHPNVASSKIRNGVGINKHGNAVFLLSQQATNFYDFACYAKAKLNVEQLLYLDGTISHMYMKGGAIPWQRYPFVTMISVERKG" [] ["CCO-MEMBRANE"] +"EG11464-MONOMER" "DUF2628 domain-containing protein YigF" ["YigF"] "MSKEYMNDGSLSEKWKYRFNFYDQHGFPGFWGATPEYKAAFKALKVRQRLTIQMNFIAFFCSWIYLFVLGLWKKAIIVLLLGILSLFVGALIGVNILGIAVAAYVAVNTNKWFYEKEVKGLNTWSL" ["CCO-PM-BAC-NEG"] [] +"EG11465-MONOMER" "inner membrane protein" ["YigG"] "MLRIFIPTSNGKISRRRYIFSFILINFIFAFLIIFFNDGEAGFLVIVSTIVLHYLVINMNCQRLRDSGFIYIKTYVFGTLAVYIISIITMIAEDFACSGNGSMIFLICYFSTFSMLMLAPTDSSKQ" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11466-MONOMER" "putative transporter RarD" ["YigH", "RarD"] "MDAKQTRQGVLLALAAYFIWGIAPAYFKLIYYVPADEILTHRVIWSFFFMVVLMSICRQWSYLKTLIQTPQKIFMLAVSAVLIGGNWLLFIWAVNNHHMLEASLGYFINPLVNIVLGMIFLGERFRRMQWLAVILAICGVLVQLWTFGSLPIIALGLAFSFAFYGLVRKKIAVEAQTGMLIETMWLLPVAAIYLFAIADSSTSHMGQNPMSLNLLLIAAGIVTTVPLLCFTAAATRLRLSTLGFFQYIGPTLMFLLAVTFYGEKPGADKMVTFAFIWVALAIFVMDAIYTQRRTSK" ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"EG11467-MONOMER" "putative thioesterase YigI" ["YigI"] "MSAVLTAEQALKLVGEMFVYHMPFNRALGMELERYEKEFAQLAFKNQPMMVGNWAQSILHGGVIASALDVAAGLVCVGSTLTRHETISEDELRQRLSRMGTIDLRVDYLRPGRGERFTATSSLLRAGNKVAVARVELHNEEQLYIASATATYMVG" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11470-MONOMER" "phosphosugar phosphatase YigL" ["YigL"] "MYQVVASDLDGTLLSPDHTLSPYAKETLKLLTARGINFVFATGRHHVDVGQIRDNLEIKSYMITSNGARVHDLDGNLIFAHNLDRDIASDLFGVVNDNPDIITNVYRDDEWFMNRHRPEEMRFFKEAVFQYALYEPGLLEPEGVSKVFFTCDSHEQLLPLEQAINARWGDRVNVSFSTLTCLEVMAGGVSKGHALEAVAKKLGYSLKDCIAFGDGMNDAEMLSMAGKGCIMGSAHQRLKDLHPELEVIGTNADDAVPHYLRKLYLS" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11471-MONOMER" "biotin transporter" ["BioP", "BirB", "YigM"] "MALLIITTILWAFSFSFYGEYLAGHVDSYFAVLVRVGLAALVFLPFLRTRGNSLKTVGLYMLVGAMQLGVMYMLSFRAYLYLTVSELLLFTVLTPLYITLIYDIMSKRRLRWGYAFSALLAVIGAGIIRYDQVTDHFWTGLLLVQLSNITFAIGMVGYKRLMETRPMPQHNAFAWFYLGAFLVAVIAWFLLGNAQKMPQTTLQWGILVFLGVVASGIGYFMWNYGATQVDAGTLGIMNNMHVPAGLLVNLAIWHQQPHWPTFITGALVILASLWVHRKWVAPRSSQTADDRRRDCALSE" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11472-MONOMER" "putative recombination limiting protein RmuC" ["RmuC", "YigN"] "MDFSIMVYAVIALVGVAIGWLFASYQHAQQKAEQLAEREEMVAELSAAKQQITQSEHWRAECELLNNEVRSLQSINTSLEADLREVTTRMEAAQQHADDKIRQMINSEQRLSEQFENLANRIFEHSNRRVDEQNRQSLNSLLSPLREQLDGFRRQVQDSFGKEAQERHTLTHEIRNLQQLNAQMAQEAINLTRALKGDNKTQGNWGEVVLTRVLEASGLREGYEYETQVSIENDARSRMQPDVIVRLPQGKDVVIDAKMTLVAYERYFNAEDDYTRESALQEHIASVRNHIRLLGRKDYQQLPGLRTLDYVLMFIPVEPAFLLALDRQPELITEALKNNIMLVSPTTLLVALRTIANLWRYEHQSRNAQQIADRASKLYDKMRLFIDDMSAIGQSLDKAQDNYRQAMKKLSSGRGNVLAQAEAFRGLGVEIKREINPDLAEQAVSQDEEYRLRSVPEQPNDEAYQRDDEYNQQSR" [] ["CCO-PM-BAC-NEG"] +"EG11474-MONOMER" "ubiquinone biosynthesis accessory factor UbiJ" ["UbiJ", "YigP", "conserved protein involved in ubiquinone-8 biosynthesis UbiJ"] "MPFKPLVTAGIESLLNTFLYRSPALKTARSRLLGKVLRVEVKGFSTSLILVFSERQVDVLGEWAGDADCTVIAYASVLPKLRDRQQLTALIRSGELEVQGDIQVVQNFVALADLAEFDPAELLAPYTGDIAAEGISKAMRGGAKFLHHGIKRQQRYVAEAITEEWRMAPGPLEVAWFAEETAAVERAVDALTKRLEKLEAK" [] ["CCO-CYTOSOL"] +"EG11479-MONOMER" "twin arginine protein translocation system - TatC protein" ["YigV", "YigU", "MttB"] "MSVEDTQPLITHLIELRKRLLNCIIAVIVIFLCLVYFANDIYHLVSAPLIKQLPQGSTMIATDVASPFFTPIKLTFMVSLILSAPVILYQVWAFIAPALYKHERRLVVPLLVSSSLLFYIGMAFAYFVVFPLAFGFLANTAPEGVQVSTDIASYLSFVMALFMAFGVSFEVPVAIVLLCWMGITSPEDLRKKRPYVLVGAFVVGMLLTPPDVFSQTLLAIPMYCLFEIGVFFSRFYVGKGRNREEENDAEAESEKTEE" ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11481-MONOMER" "3' → 5' ssDNA/RNA exonuclease TatD" ["YigX", "YigW", "MttC", "TatD", "ExoXI", "exonuclease XI"] "MFDIGVNLTSSQFAKDRDDVVACAFDAGVNGLLITGTNLRESQQAQKLARQYSSCWSTAGVHPHDSSQWQAATEEAIIELAAQPEVVAIGECGLDFNRNFSTPEEQERAFVAQLRIAADLNMPVFMHCRDAHERFMTLLEPWLDKLPGAVLHCFTGTREEMQACVAHGIYIGITGWVCDERRGLELRELLPLIPAEKLLIETDAPYLLPRDLTPKPSSRRNEPAHLPHILQRIAHWRGEDAAWLAATTDANVKTLFGIAF" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11484-MONOMER" "IMPACT family member YigZ" ["YigZ"] "MESWLIPAAPVTVVEEIKKSRFITMLAHTDGVEAAKAFVESVRAEHPDARHHCVAWVAGAPDDSQQLGFSDDGEPAGTAGKPMLAQLMGSGVGEITAVVVRYYGGILLGTGGLVKAYGGGVNQALRQLTTQRKTPLTEYTLQCEYHQLTGIEALLGQCDGKIINSDYQAFVLLRVALPAAKVAEFSAKLADFSRGSLQLLAIEE" [] ["CCO-CYTOSOL"] +"EG11486-MONOMER" "lipid III flippase" ["Wzx", "YifJ", "WzxE"] "MSLAKASLWTAASTLVKIGAGLLVGKLLAVSFGPAGLGLAANFRQLITVLGVLAGAGIFNGVTKYVAQYHDNPQQLRRVVGTSSAMVLGFSTLMALVFVLAAAPISQGLFGNTDYQGLVRLVALVQMGIAWGNLLLALMKGFRDAAGNALSLIVGSLIGVLAYYVSYRLGGYEGALLGLALIPALVVIPAAIMLIKRGVIPLSYLKPSWDNGLAGQLSKFTLMALITSVTLPVAYIMMRKLLAAQYSWDEVGIWQGVSSISDAYLQFITASFSVYLLPTLSRLTEKRDITREVVKSLKFVLPAVAAASFTVWLLRDFAIWLLLSNKFTAMRDLFAWQLVGDVLKVGAYVFGYLVIAKASLRFYILAEVSQFTLLMVFAHWLIPAHGALGAAQAYMATYIVYFSLCCGVFLLWRRRA" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11488-MONOMER" "inhibitor of c-type lysozyme, putative lipoprotein" ["YdhA", "MliC"] "MTMKKLLIIILPVLLSGCSAFNQLVERMQTDTLEYQCDEKPLTVKLNNPRQEVSFVYDNQLLHLKQGISASGARYTDGIYVFWSKGDEATVYKRDRIVLNNCQLQNPQR" ["CCO-OUTER-MEM"] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"EG11489-MONOMER" "curlin, major subunit" ["CsgA"] "MKLLKVAAIAAIVFSGSALAGVVPQYGGGGNHGGGGNNSGPNSELNIYQYGGGNSALALQTDARNSDLTITQHGGGNGADVGQGSDDSSIDLTQRGFGNSATLDQWNGKNSEMTVKQFGGGNGAAVDQTASNSSVNVTQVGFGNNATAHQY" [] ["CCO-EXTRACELLULAR", "CCO-PILUS"] +"EG11494-MONOMER" "endolytic murein transglycosylase" ["YceG"] "MKKVLLIILLLLVVLGIAAGVGVWKVRHLADSKLLIKEETIFTLKPGTGRLALGEQLYADKIINRPRVFQWLLRIEPDLSHFKAGTYRFTPQMTVREMLKLLESGKEAQFPLRLVEGMRLSDYLKQLREAPYIKHTLSDDKYATVAQALELENPEWIEGWFWPDTWMYTANTTDVALLKRAHKKMVKAVDSAWEGRADGLPYKDKNQLVTMASIIEKETAVASERDKVASVFINRLRIGMRLQTDPTVIYGMGERYNGKLSRADLETPTAYNTYTITGLPPGAIATPGADSLKAAAHPAKTPYLYFVADGKGGHTFNTNLASHNKSVQDYLKVLKEKNAQ" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PERI-BAC", "CCO-PM-BAC-NEG"] +"EG11495-MONOMER" "acid-resistance membrane protein" ["YhiA", "HdeD"] "MLYIDKATILKFDLEMLKKHRRAIQFIAVLLFIVGLLCISFPFVSGDILSTVVGALLICSGIALIVGLFSNRSHNFWPVLSGFLVAVAYLLIGYFFIRAPELGIFAIAAFIAGLFCVAGVIRLMSWYRQRSMKGSWLQLVIGVLDIVIAWIFLGATPMVSVTLVSTLVGIELIFSAASLFSFASLFVKQQ" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11496-MONOMER" "putative peptide chain release factor" ["PrfH"] "MLETETGRYSDTLRSALVSLDGDNAWALSESWCGTIQWICPSPYRPHHGRKNWFLGIGRFTADEQEQSDAIRYETLRSSGPGGQHVNKTDSAVRATHLASGISVKVQSERSQHANKRLARLLIAWKLEQQQQENSAALKSQRRMFHHQIERGNPRRTFTGMAFIEG" [] ["CCO-CYTOSOL"] +"EG11497-MONOMER" "ribosomal protein L11 methyltransferase" ["YhdI", "PrmA", "methylase for 50S ribosomal subunit protein L11", "methyltransferase of 50S ribosomal subunit protein L11", "methyltransferase for 50S ribosomal subunit protein L11"] "MPWIQLKLNTTGANAEDLSDALMEAGAVSITFQDTHDTPVFEPLPGETRLWGDTDVIGLFDAETDMNDVVAILENHPLLGAGFAHKIEQLEDKDWEREWMDNFHPMRFGERLWICPSWRDVPDENAVNVMLDPGLAFGTGTHPTTSLCLQWLDSLDLTGKTVIDFGCGSGILAIAALKLGAAKAIGIDIDPQAIQASRDNAERNGVSDRLELYLPKDQPEEMKADVVVANILAGPLRELAPLISVLPVSGGLLGLSGILASQAESVCEAYADSFALDPVVEKEEWCRITGRKN" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11498-MONOMER" "DNA adenine methyltransferase" ["YhdJ", "CcrM"] "MRTGCEPTRFGNEAKTIIHGDALAELKKIPAESVDLIFADPPYNIGKNFDGLIEAWKEDLFIDWLFEVIAECHRVLKKQGSMYIMNSTENMPFIDLQCRKLFTIKSRIVWSYDSSGVQAKKHYGSMYEPILMMVKDAKNYTFNGDAILVEAKTGSQRALIDYRKNPPQPYNHQKVPGNVWDFPRVRYLMDEYENHPTQKPEALLKRIILASSNPGDIVLDPFAGSFTTGAVAIASGRKFIGIEINSEYIKMGLRRLDVASHYSAEELAKVKKRKTGNLSKRSRLSEVDPDLITK" [] ["CCO-CYTOSOL"] +"EG11499-MONOMER" "putative transporter YhbE" ["YhbE"] "MKQQAGIGILLALTTAICWGALPIAMKQVLEVMEPPTIVFYRFLMASIGLGAILAVKKRLPPLRVFRKPRWLILLAVATAGLFGNFILFSSSLQYLSPTASQVIGQLSPVGMMVASVFILKEKMRSTQVVGALMLLSGLVMFFNTSLVEIFTKLTDYTWGVIFGVGAATVWVSYGVAQKVLLRRLASPQILFLLYTLCTIALFPLAKPGVIAQLSHWQLACLIFCGLNTLVGYGALAEAMARWQAAQVSAIITLTPLFTLFFSDLLSLAWPDFFARPMLNLLGYLGAFVVVAGAMYSAIGHRIWGGLRKHTTVVSQPRAGE" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11500-MONOMER" "DNA polymerase III subunit δ'" ["HolB", "DNA polymerase III, δ prime subunit"] "MRWYPWLRPDFEKLVASYQAGRGHHALLIQALPGMGDDALIYALSRYLLCQQPQGHKSCGHCRGCQLMQAGTHPDYYTLAPEKGKNTLGVDAVREVTEKLNEHARLGGAKVVWVTDAALLTDAAANALLKTLEEPPAETWFFLATREPERLLATLRSRCRLHYLAPPPEQYAVTWLSREVTMSQDALLAALRLSAGSPGAALALFQGDNWQARETLCQALAYSVPSGDWYSLLAALNHEQAPARLHWLATLLMDALKRHHGAAQVTNVDVPGLVAELANHLSPSRLQAILGDVCHIREQLMSVTGINRELLITDLLLRIEHYLQPGVVLPVPHL" [] ["CCO-CYTOSOL"] +"EG11503-MONOMER" "tRNA m6t6A37 methyltransferase" ["TrmO", "TsaA", "YaeB"] "MSSFQFEQIGVIRSPYKEKFAVPRQPGLVKSANGELHLIAPYNQADAVRGLEAFSHLWILFVFHQTMEGGWRPTVRPPRLGGNARMGVFATRSTFRPNPIGMSLVELKEVVCHKDSVILKLGSLDLVDGTPVVDIKPYLPFAESLPDASASYAQSAPAAEMAVSFTAEVEKQLLTLEKRYPQLTLFIREVLAQDPRPAYRKGEETGKTYAVWLHDFNVRWRVTDAGFEVFALEPR" [] ["CCO-CYTOSOL"] +"EG11505-MONOMER" "DNA polymerase III subunit θ" ["HolE"] "MLKNLAKLDQTEMDKVNVDLAAAGVAFKERYNMPVIAEAVEREQPEHLRSWFRERLIAHRLASVNLSRLPYEPKLK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11506-MONOMER" "ATP-dependent zinc metalloprotease FtsH" ["Std", "TolZ", "MrsC", "FtsH", "HflB"] "MAKNLILWLVIAVVLMSVFQSFGPSESNGRKVDYSTFLQEVNNDQVREARINGREINVTKKDSNRYTTYIPVQDPKLLDNLLTKNVKVVGEPPEEPSLLASIFISWFPMLLLIGVWIFFMRQMQGGGGKGAMSFGKSKARMLTEDQIKTTFADVAGCDEAKEEVAELVEYLREPSRFQKLGGKIPKGVLMVGPPGTGKTLLAKAIAGEAKVPFFTISGSDFVEMFVGVGASRVRDMFEQAKKAAPCIIFIDEIDAVGRQRGAGLGGGHDEREQTLNQMLVEMDGFEGNEGIIVIAATNRPDVLDPALLRPGRFDRQVVVGLPDVRGREQILKVHMRRVPLAPDIDAAIIARGTPGFSGADLANLVNEAALFAARGNKRVVSMVEFEKAKDKIMMGAERRSMVMTEAQKESTAYHEAGHAIIGRLVPEHDPVHKVTIIPRGRALGVTFFLPEGDAISASRQKLESQISTLYGGRLAEEIIYGPEHVSTGASNDIKVATNLARNMVTQWGFSEKLGPLLYAEEEGEVFLGRSVAKAKHMSDETARIIDQEVKALIERNYNRARQLLTDNMDILHAMKDALMKYETIDAPQIDDLMARRDVRPPAGWEEPGASNNSGDNGSPKAPRPVDEPRTPNPGNTMSEQLGDK" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11507-MONOMER" "23S rRNA 2'-O-ribose U2552 methyltransferase" ["RrmJ", "MrsF", "FtsJ", "RlmE", "ribosomal RNA large subunit methyltransferase E"] "MTGKKRSASSSRWLQEHFSDKYVQQAQKKGLRSRAWFKLDEIQQSDKLFKPGMTVVDLGAAPGGWSQYVVTQIGGKGRIIACDLLPMDPIVGVDFLQGDFRDELVMKALLERVGDSKVQVVMSDMAPNMSGTPAVDIPRAMYLVELALEMCRDVLAPGGSFVVKVFQGEGFDEYLREIRSLFTKVKVRKPDSSRARSREVYIVATGRKP" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11508-MONOMER" "30S ribosomal subunit protein S22" ["Sra", "RpsV", "Protein D"] "MKSNRQARHILGLDHKISNQRKIVTEGDKSSVVNNPTGRKRPAEK" ["CCO-CYTOSOL"] ["CCO-RIBOSOME", "CCO-CYTOSOL"] +"EG11509-MONOMER" "uncharacterized protein MbiA" ["MbiA", "HtpY", "HtgA"] "MRVSWLESKCDTPFANNLSFISSGSSSSSSFTLASTACRNSCLCSSSIFFQVLRRNCSSNCCSISNVDISLSAFSFNRFETSSKMARYNLPCPRSLLAILSPPKCCNSPAISCQLRRCCSGCPSIDLNSSLRISTLERRVLPFSLWVSNRAKFANCSSLQC" [] ["CCO-MEMBRANE"] +"EG11511-MONOMER" "molybdopterin adenylyltransferase" ["YaaG", "MogA", "ChlG", "BisD", "Mog"] "MNTLRIGLVSISDRASSGVYQDKGIPALEEWLTSALTTPFELETRLIPDEQAIIEQTLCELVDEMSCHLVLTTGGTGPARRDVTPDATLAVADREMPGFGEQMRQISLHFVPTAILSRQVGVIRKQALILNLPGQPKSIKETLEGVKDAEGNVVVHGIFASVPYCIQLLEGPYVETAPEVVAAFRPKSARRDVSE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11512-MONOMER" "acetate/succinate:H+ symporter" ["SatP", "YaaH"] "MGNTKLANPAPLGLMGFGMTTILLNLHNVGYFALDGIILAMGIFYGGIAQIFAGLLEYKKGNTFGLTAFTSYGSFWLTLVAILLMPKLGLTDAPNAQFLGVYLGLWGVFTLFMFFGTLKGARVLQFVFFSLTVLFALLAIGNIAGNAAIIHFAGWIGLICGASAIYLAMGEVLNEQFGRTVLPIGESH" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11514-MONOMER" "periplasmic protein GltF" ["OssB", "GltF"] "MFFKKNLTTAAICAALSVAAFSAMATDSTDTELTIIGEYTPGACTPVVTGGGIVDYGKHHNSALNPTGKSNKLVQLGRKNSTLNITCTAPTLIAVTSKDNRQSTIVALNDTSYIEKAYDTLVDMKGTKNAFGLGSAPNGQKIGAASIGIDRSNGGIHAADDTGEIPVDLIQTDHWSAATPTWKASSNGAFCSLTSCSAIERGYSVAKTGELTPVAITAVTFPLLIDAAVNDNTILGSDETIKLDGNVTISVQYL" ["CCO-PERI-BAC"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"EG11515-MONOMER" "putative fimbrial chaperone YhcA" ["YhcA"] "MLRHITFTVFITTSMNTLATGMVPETSVLLVDEKRGEASINIKNTDDHPSLLYTTIVDLPESNKSIRLIPTQPVIRVEAGQVQQVRFLLQATVPLQSEELKRVTFEGIPPKDDKSSRVTVSIRQDLPVLIHPASLPEERETWKFLEWRKNGDQIEISNPSNYVVRMTLQFKTLPSGKTGAINKTYFLPHTSTTTALTNATDTKVEFYPASRYGYRGNKYVTDLK" [] ["CCO-CYTOSOL", "CCO-PERI-BAC"] +"EG11516-MONOMER" "PF04293 family protein YcgB" ["YcgB"] "MATIDSMNKDTTRLSDGPDWTFDLLDVYLAEIDRVAKLYRLDTYPHQIEVITSEQMMDAYSSVGMPINYPHWSFGKKFIETERLYKHGQQGLAYEIVINSNPCIAYLMEENTITMQALVMAHACYGHNSFFKNNYLFRSWTDASSIVDYLIFARKYITECEERYGVDEVERLLDSCHALMNYGVDRYKRPQKISLQEEKARQKSREEYLQSQVNMLWRTLPKREEEKTVAEARRYPSEPQENLLYFMEKNAPLLESWQREILRIVRKVSQYFYPQKQTQVMNEGWATFWHYTILNHLYDEGKVTERFMLEFLHSHTNVVFQPPYNSPWYSGINPYALGFAMFQDIKRICQSPTEEDKYWFPDIAGSDWLETLHFAMRDFKDESFISQFLSPKVMRDFRFFTVLDDDRHNYLEISAIHNEEGYREIRNRLSSQYNLSNLEPNIQIWNVDLRGDRSLTLRYIPHNRAPLDRGRKEVLKHVHRLWGFDVMLEQQNEDGSIELLERCPPRMGNL" [] ["CCO-CYTOSOL"] +"EG11517-MONOMER" "fructose-1,6-bisphosphatase 2" ["GlpX", "fructose 1,6-bisphosphatase II"] "MRRELAIEFSRVTESAALAGYKWLGRGDKNTADGAAVNAMRIMLNQVNIDGTIVIGEGEIDEAPMLYIGEKVGTGRGDAVDIAVDPIEGTRMTAMGQANALAVLAVGDKGCFLNAPDMYMEKLIVGPGAKGTIDLNLPLADNLRNVAAALGKPLSELTVTILAKPRHDAVIAEMQQLGVRVFAIPDGDVAASILTCMPDSEVDVLYGIGGAPEGVVSAAVIRALDGDMNGRLLARHDVKGDNEENRRIGEQELARCKAMGIEAGKVLRLGDMARSDNVIFSATGITKGDLLEGISRKGNIATTETLLIRGKSRTIRRIQSIHYLDRKDPEMQVHIL" [] ["CCO-CYTOSOL"] +"EG11519-MONOMER" "DNA-binding transcriptional repressor NikR" ["YhhG", "NikR"] "MQRVTITLDDDLLETLDSLSQRRGYNNRSEAIRDILRSALAQEATQQHGTQGFAVLSYVYEHEKRDLASRIVSTQHHHHDLSVATLHVHINHDDCLEIAVLKGDMGDVQHFADDVIAQRGVRHGHLQCLPKED" [] ["CCO-CYTOSOL"] +"EG11520-MONOMER" "PF15631 family protein YhhH" ["YhhH"] "MSAEFMVICKKILFRNCVIVSLFVFTYNTWAQCNNNIKIMRKYESEGKYTVRNLVKNKAIALELAEIYVKNRYGQDAAEEEKPYEITELTTSWVVEGTIHSDQIAGGVFIIEIGKNDGRILNFGHGK" [] ["CCO-PM-BAC-NEG"] +"EG11521-MONOMER" "DUF2517 domain-containing protein YbfA" ["YbfA"] "MELYREYPAWLIFLRRTYAVAAGVLALPFMLFWKDRARFYSYLHRVWSKTSDKPVWMDQAEKATGDFY" [] ["CCO-PM-BAC-NEG", "CCO-CYTOSOL"] +"EG11522-MONOMER" "uncharacterized protein YbfB" ["YbfB"] "MKYIIFLFRAIWLALSLLILFFSMHRLSLLDSTRDVSELISLMSYGMMVICFPTGIVFFIALIFIGTVSDIIGVRIDSKYIMAIIIWLYFLSGGYIQWFVLSKRIINK" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11523-MONOMER" "uncharacterized protein YbfC" ["YbfC"] "MKRVLFFLLMIFVSFGVIADCEIQAKDHDCFTIFAKGTIFSAFPVLNNKAMWRWYQNEDIGEYYWQTELGTCKNNKFTPSGARLLIRVGSLRLNENHAIKGTLQELINTAEKTAFLGDRFRSYIRAGIYQKKSSDPVQLLAVLDNSIMVKYFKDEKPTYARMTAHLPNKNESYECLIKIQHELIRSEEK" [] ["CCO-CYTOSOL"] +"EG11524-MONOMER" "H repeat-associated putative transposase YbfD" ["YbfD"] "MELKKLMEHISIIPDYRQAWKVEHKLSDILLLTICAVISGAEGWEDIEDFGETHPDFLKQYGDFENGIPVHDTIARVVSCICPAKFHESFINWMLDYHSSDDKDVIAIDGKIHRHSYDKSRRKGAIHVISAFSTMHSLVIGQIKTDKKSNEITAIPELLNMLDIKGKIIKTDAMGCQKDIAEKIQKQGGDYLFAVKGNQGRLNKAFEEKFPLKELNNPKHDSYAISEKSHGREETRLHIVCDVPDELIDFTFE" [] ["CCO-CYTOSOL"] +"EG11525-MONOMER" "putative transposase" ["YhhI"] "MELKKLMEHISIIPDYRQTWKVEHKLSDILLLTICAVISGAEGWEDIEDFGETHLDFLKQYGDFENGIPVHDTIARVVSCISPAKFHECFINWMRDCHSSDDKDVIAIDGKTLRHSYDKSRRRGAIHVISAFSTMHSLVIGQIKTDEKSNEITAIPELLNMLDIKGKIITTDAMGCQKDIAEKIQKQGGDYLFAVKGTQGRLNKAFEEKFPLKELNNPEHDSYAISEKSHGREEIRLHIVCDVPDELIDFTFEWKGLKKLCVAVSFRSIIAEQKKEPEMTVRYYISSADLTAEKFATAIRNHWHVENKLHWRLDVVMNEDDCKIRRGNAAELFSGIRHIAINILTNDKVFKAGLRRKMRKAAMDRNYLASVLAGSGLS" [] ["CCO-CYTOSOL"] +"EG11526-MONOMER" "H repeat-associated putative transposase YdcC" ["YdcC"] "MELKKLMGHISIIPDYRQAWKMEHKLSDILLLTICAVISGAEGWEDIEDFGETHPDFLKQYGDFENGIPVHDTIARVVSCISPAKFHECFINWMRDCHSSDDKDVIAIDGKTLRHSYDKSRRRGAIHVISAFSTMHSLVIGQIKTDEKSNEITAIPELLNMLDIKGKIITTDAMGCQKDIAEKIQKQGGDYLFAVKGNQGRLNKAFEEKFPLKELNNPAHDSYAMSEKSHGREEIRLHIVCDVPDELIDFTFEWKGLKKLCVAVSFRSIIAEQKKELEMTVRYYISSADLTAEKFATAIRNHWHVENKLHWRLDVVMNEDDCKIRRGNAAELFSGIRHIAINILTNDKVFKAGLRRKMRKAAMDRNYLASVLTGSGLS" [] ["CCO-CYTOSOL"] +"EG11529-MONOMER" "cell division protein FtsN" ["MsgA", "FtsN", "essential cell division protein FtsN"] "MAQRDYVRRSQPAPSRRKKSTSRKKQRNLPAVSPAMVAIAAAVLVTFIGGLYFITHHKKEESETLQSQKVTGNGLPPKPEERWRYIKELESRQPGVRAPTEPSAGGEVKTPEQLTPEQRQLLEQMQADMRQQPTQLVEVPWNEQTPEQRQQTLQRQRQAQQLAEQQRLAQQSRTTEQSWQQQTRTSQAAPVQAQPRQSKPASSQQPYQDLLQTPAHTTAQSKPQQAAPVARAADAPKPTAEKKDERRWMVQCGSFRGAEQAETVRAQLAFEGFDSKITTNNGWNRVVIGPVKGKENADSTLNRLKMAGHTNCIRLAAGG" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11533-MONOMER" "stress-induced protein" ["YchH"] "MKRKNASLLGNVLMGLGLVVMVVGVGYSILNQLPQFNMPQYFAHGAVLSIFVGAILWLAGARVGGHEQVCDRYWWVRHYDKRCRRSDNRRHS" [] ["CCO-PM-BAC-NEG"] +"EG11534-MONOMER" "small heat shock protein IbpA" ["HtpN", "HslT", "IbpA"] "MRNFDLSPLYRSAIGFDRLFNHLENNQSQSNGGYPPYNVELVDENHYRIAIAVAGFAESELEITAQDNLLVVKGAHADEQKERTYLYQGIAERNFERKFQLAENIHVRGANLVNGLLYIDLERVIPEAKKPRRIEIN" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11535-MONOMER" "small heat shock protein IbpB" ["HslS", "HtpE", "IbpB"] "MRNFDLSPLMRQWIGFDKLANALQNAGESQSFPPYNIEKSDDNHYRITLALAGFRQEDLEIQLEGTRLSVKGTPEQPKEEKKWLHQGLMNQPFSLSFTLAENMEVSGATFVNGLLHIDLIRNEPEPIAAQRIAISERPALNS" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11536-MONOMER" "putative transport protein YidE" ["YibE", "YidE"] "MSDIALTVSILALVAVVGLFIGNVKFRGIGLGIGGVLFGGIIVGHFVSQAGMTLSSDMLHVIQEFGLILFVYTIGIQVGPGFFASLRVSGLRLNLFAVLIVIIGGLVTAILHKLFDIPLPVVLGIFSGAVTNTPALGAGQQILRDLGTPMEMVDQMGMSYAMAYPFGICGILFTMWMLRVIFRVNVETEAQQHESSRTNGGALIKTINIRVENPNLHDLAIKDVPILNGDKIICSRLKREETLKVPSPDTIIQLGDLLHLVGQPADLHNAQLVIGQEVDTSLSTKGTDLRVERVVVTNENVLGKRIRDLHFKERYDVVISRLNRAGVELVASGDISLQFGDILNLVGRPSAIDAVANVLGNAQQKLQQVQMLPVFIGIGLGVLLGSIPVFVPGFPAALKLGLAGGPLIMALILGRIGSIGKLYWFMPPSANLALRELGIVLFLSVVGLKSGGDFVNTLVNGEGLSWIGYGALITAVPLITVGILARMLAKMNYLTMCGMLAGSMTDPPALAFANNLHPTSGAAALSYATVYPLVMFLRIITPQLLAVLFWSIG" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11537-MONOMER" "DUF480 domain-containing protein YceH" ["YceH"] "MKYQLTALEARVIGCLLEKQVTTPEQYPLSVNGVVTACNQKTNREPVMNLSESEVQEQLDNLVKRHYLRTVSGFGNRVTKYEQRFCNSEFGDLKLSAAEVALITTLLLRGAQTPGELRSRAARMYEFSDMAEVESTLEQLANREDGPFVVRLAREPGKRENRYMHLFSGEVEDQPAVTDMSNAVDGDLQARVEALEIEVAELKQRLDSLLAHLGD" ["CCO-CYTOSOL"] [] +"EG11538-MONOMER" "tRNA m6A37 methyltransferase" ["TrmM", "YfiC"] "MSQSTSVLRRNGFTFKQFFVAHDRCAMKVGTDGILLGAWAPVAGVKRCLDIGAGSGLLALMLAQRTDDSVMIDAVELESEAAAQAQENINQSPWAERINVHTADIQQWITQQTVRFDLIISNPPYYQQGVECSTPQREQARYTTTLDHPSLLTCAAECITEEGFFCVVLPEQIGNGFTELALSMGWHLRLRTDVAENEARLPHRVLLAFSPQAGECFSDRLVIRGPDQNYSEAYTALTQAFYLFM" [] ["CCO-CYTOSOL"] +"EG11544-MONOMER" "DNA-binding transcriptional activator GadE" ["YhiT", "YhiE", "GadE", "acid-responsive regulator of gadA and gadBC"] "MIFLMTKDSFLLQGFWQLKDNHEMIKINSLSEIKKVGNKPFKVIIDTYHNHILDEEAIKFLEKLDAERIIVLAPYHISKLKAKAPIYFVSRKESIKNLLEITYGKHLPHKNSQLCFSHNQFKIMQLILKNKNESNITSTLNISQQTLKIQKFNIMYKLKLRRMSDIVTLGITSYF" [] ["CCO-CYTOSOL"] +"EG11545-MONOMER" "flagellar hook-filament junction protein 2" ["FlaT", "FlgL"] "MRFSTQMMYQQNMRGITNSQAEWMKYGEQMSTGKRVVNPSDDPIAASQAVVLSQAQAQNSQYTLARTFATQKVSLEESVLSQVTTAIQNAQEKIVYASNGTLSDDDRASLATDIQGLRDQLLNLANTTDGNGRYIFAGYKTETAPFSEEKGKYVGGAESIKQQVDASRSMVIGHTGDKIFDSITSNAVAEPDGSASETNLFAMLDSAIAALKTPVADSEADKETAAAALDKTNRGLKNSLNNVLTVRAELGTQLNELESLDSLGSDRALGQTQQMSDLVDVDWNATISSYIMQQTALQASYKAFTDMQGLSLFQLSK" [] ["CCO-EXTRACELLULAR", "CCO-CELL-PROJECTION"] +"EG11547-MONOMER" "RNase T" ["Rnt"] "MSDNAQLTGLCDRFRGFYPVVIDVETAGFNAKTDALLEIAAITLKMDEQGWLMPDTTLHFHVEPFVGANLQPEALAFNGIDPNDPDRGAVSEYEALHEIFKVVRKGIKASGCNRAIMVAHNANFDHSFMMAAAERASLKRNPFHPFATFDTAALAGLALGQTVLSKACQTAGMDFDSTQAHSALYDTERTAVLFCEIVNRWKRLGGWPLSAAEEV" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11548-MONOMER" "putative ATP-dependent helicase Lhr" ["RhlF", "Lhr", "member of ATP-dependent helicase superfamily II"] "MADNPDPSSLLPDVFSPATRDWFLRAFKQPTAVQPQTWHVAARSEHALVIAPTGSGKTLAAFLYALDRLFREGGEDTREAHKRKTSRILYISPIKALGTDVQRNLQIPLKGIADERRRRGETEVNLRVGIRTGDTPAQERSKLTRNPPDILITTPESLYLMLTSRARETLRGVETVIIDEVHAVAGSKRGAHLALSLERLDALLHTSAQRIGLSATVRSASDVAAFLGGDRPVTVVNPPAMRHPQIRIVVPVANMDDVSSVASGTGEDSHAGREGSIWPYIETGILDEVLRHRSTIVFTNSRGLAEKLTARLNELYAARLQRSPSIAVDAAHFESTSGATSNRVQSSDVFIARSHHGSVSKEQRAITEQALKSGELRCVVATSSLELGIDMGAVDLVIQVATPLSVASGLQRIGRAGHQVGGVSKGLFFPRTRRDLVDSAVIVECMFAGRLENLTPPHNPLDVLAQQTVAAAAMDALQVDEWYSRVRRAAPWKDLPRRVFDATLDMLSGRYPSGDFSAFRPKLVWNRETGILTARPGAQLLAVTSGGTIPDRGMYSVLLPEGEEKAGSRRVGELDEEMVYESRVNDIITLGATSWRIQQITRDQVIVTPAPGRSARLPFWRGEGNGRPAELGEMIGDFLHLLADGAFFSGTIPPWLAEENTIANIQGLIEEQRNATGIVPGSRHLVLERCRDEIGDWRIILHSPYGRRVHEPWAVAIAGRIHALWGADASVVASDDGIVARIPDTDGKLPDAAIFLFEPEKLLQIVREAVGSSALFAARFRECAARALLMPGRTPGHRTPLWQQRLRASQLLEIAQGYPDFPVILETLRECLQDVYDLPALERLMRRLNGGEIQISDVTTTTPSPFATSLLFGYVAEFMYQSDAPLAERRASVLSLDSELLRNLLGQVDPGELLDPQVIRQVEEELQRLAPGRRAKGEEGLFDLLRELGPMTVEDLAQRHTGSSEEVASYLENLLAVKRIFPAMISGQERLACMDDAARLRDALGVRLPESLPEIYLHRVSYPLRDLFLRYLRAHALVTAEQLAHEFSLGIAIVEEQLQQLREQGLVMNLQQDIWVSDEVFRRLRLRSLQAAREATRPVAATTYARLLLERQGVLPATDGSPALFASTSPGVYEGVDGVMRVIEQLAGVGLPASLWESQILPARVRDYSSEMLDELLATGAVIWSGQKKLGEDDGLVALHLQEYAAESFTPAEADQANRSALQQAIVAVLADGGAWFAQQISQRIRDKIGESVDLSALQEALWALVWQGVITSDIWAPLRALTRSSSNARTSTRRSHRARRGRPVYAQPVSPRVSYNTPNLAGRWSLLQVEPLNDTERMLALAENMLDRYGIISRQAVIAENIPGGFPSMQTLCRSMEDSGRIMRGRFVEGLGGAQFAERLTIDRLRDLATQATQTRHYTPVALSANDPANVWGNLLPWPAHPATLVPTRRAGALVVVSGGKLLLYLAQGGKKMLVWQEKEELLAPEVFHALTTALRREPRLRFTLTEVNDLPVRQTPMFTLLREAGFSSSPQGLDWG" [] ["CCO-PM-BAC-NEG"] +"EG11549-MONOMER" "peptidase T" ["PepT"] "MDKLLERFLNYVSLDTQSKAGVRQVPSTEGQWKLLHLLKEQLEEMGLINVTLSEKGTLMATLPANVPGDIPAIGFISHVDTSPDCSGKNVNPQIVENYRGGDIALGIGDEVLSPVMFPVLHQLLGQTLITTDGKTLLGADDKAGIAEIMTALAVLQQKKIPHGDIRVAFTPDEEVGKGAKHFDVDAFDARWAYTVDGGGVGELEFENFNAASVNIKIVGNNVHPGTAKGVMVNALSLAARIHAEVPADESPEMTEGYEGFYHLASMKGTVERADMHYIIRDFDRKQFEARKRKMMEIAKKVGKGLHPDCYIELVIEDSYYNMREKVVEHPHILDIAQQAMRDCDIEPELKPIRGGTDGAQLSFMGLPCPNLFTGGYNYHGKHEFVTLEGMEKAVQVIVRIAELTAQRK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11551-MONOMER" "carbamoyl--[HypE] ligase" ["HydA", "HypF", "hydrogenase maturation protein", "carbamoyltransferase HypF"] "MAKNTSCGVQLRIRGKVQGVGFRPFVWQLAQQLNLHGDVCNDGDGVEVRLREDPETFLVQLYQHCPPLARIDSVEREPFIWSQLPTEFTIRQSTGGTMNTQIVPDAATCPACLAEMNTPGERRYRYPFINCTHCGPRFTIIRAMPYDRPFTVMAAFPLCPACDKEYRDPLDRRFHAQPVACPECGPHLEWVSHGEHAEQEAALQAAIAQLKMGKIVAIKGIGGFHLACDARNSNAVATLRARKHRPAKPLAVMLPVADGLPDAARQLLTTPAAPIVLVDKKYVPELCDDIAPDLNEVGVMLPANPLQHLLLQELQCPLVMTSGNLSGKPPAISNEQALADLQGIADGFLIHNRDIVQRMDDSVVRESGEMLRRSRGYVPDALALPPGFKNVPPVLCLGADLKNTFCLVRGEQAVLSQHLGDLSDDGIQMQWREALRLMQNIYDFTPQYVVHDAHPGYVSSQWAREMNLPTQTVLHHHAHAAACLAEHQWPLDGGDVIALTLDGIGMGENGALWGGECLRVNYRECEHLGGLPAVALPGGDLAAKQPWRNLLAQCLRFVPEWQNYSETASVQQQNWSVLARAIERGINAPLASSCGRFFDAVAAALGCAPATLSYEGEAACALEALAASCHGVTHPVTMPRVDNQLDLATFWQQWLNWQAPVNQRAWAFHDALAQGFAALMREQATMRGITTLVFSGGVIHNRLLRARLAHYLADFTLLFPQSLPAGDGGLSLGQGVIAAARWLAGEVQNG" [] ["CCO-CYTOSOL"] +"EG11552-MONOMER" "putative electron transport protein HydN" ["HydN"] "MNRFIIADASKCIGCRTCEVACVVSHQENQDCASLTPETFLPRIHVIKGVNISTATVCRQCEDAPCANVCPNGAISRDKGFVHVMQERCIGCKTCVVACPYGAMEVVVRPVIRNSGAGLNVRADKAEANKCDLCNHREDGPACMAACPTHALICVDRNKLEQLSAEKRRRTALMF" [] ["CCO-CYTOSOL"] +"EG11554-MONOMER" "DNA-binding transcriptional repressor StpA with RNA chaperone activity" ["HnsB", "StpA", "H-NS-like DNA-binding transcriptional repressor with RNA chaperone activity"] "MSVMLQSLNNIRTLRAMAREFSIDVLEEMLEKFRVVTKERREEEEQQQRELAERQEKISTWLELMKADGINPEELLGNSSAAAPRAGKKRQPRPAKYKFTDVNGETKTWTGQGRTPKPIAQALAEGKSLDDFLI" ["CCO-CYTOSOL"] ["CCO-BAC-NUCLEOID", "CCO-CYTOSOL"] +"EG11562-MONOMER" "putative electron transfer flavoprotein FixA" ["YaaQ", "FixA", "putative electron transfer flavoprotein subunit, ETFP adenine nucleotide-binding domain"] "MKIITCYKCVPDEQDIAVNNADGSLDFSKADAKISQYDLNAIEAACQLKQQAAEAQVTALSVGGKALTNAKGRKDVLSRGPDELIVVIDDQFEQALPQQTASALAAAAQKAGFDLILCGDGSSDLYAQQVGLLVGEILNIPAVNGVSKIISLTADTLTVERELEDETETLSIPLPAVVAVSTDINSPQIPSMKAILGAAKKPVQVWSAADIGFNAEAAWSEQQVAAPKQRERQRIVIEGDGEEQIAAFAENLRKVI" [] ["CCO-PERI-BAC"] +"EG11563-MONOMER" "putative electron transfer flavoprotein FixB" ["YaaR", "FixB", "putative electron transfer flavoprotein, NAD/FAD-binding domain and ETFP adenine nucleotide-binding domain-like"] "MNTFSQVWVFSDTPSRLPELMNGAQALANQINTFVLNDADGAQAIQLGANHVWKLNGKPDDRMIEDYAGVMADTIRQHGADGLVLLPNTRRGKLLAAKLGYRLKAAVSNDASTVSVQDGKATVKHMVYGGLAIGEERIATPYAVLTISSGTFDAAQPDASRTGETHTVEWQAPAVAITRTATQARQSNSVDLDKARLVVSVGRGIGSKENIALAEQLCKAIGAELACSRPVAENEKWMEHERYVGISNLMLKPELYLAVGISGQIQHMVGANASQTIFAINKDKNAPIFQYADYGIVGDAVKILPALTAALAR" [] ["CCO-CYTOSOL"] +"EG11564-MONOMER" "putative oxidoreductase FixC" ["YaaS", "FixC", "flavoprotein (electron transport), possibly involved in anaerobic carnitine metabolism"] "MSEDIFDAIIVGAGLAGSVAALVLAREGAQVLVIERGNSAGAKNVTGGRLYAHSLEHIIPGFADSAPVERLITHEKLAFMTEKSAMTMDYCNGDETSPSQRSYSVLRSKFDAWLMEQAEEAGAQLITGIRVDNLVQRDGKVVGVEADGDVIEAKTVILADGVNSILAEKLGMAKRVKPTDVAVGVKELIELPKSVIEDRFQLQGNQGAACLFAGSPTDGLMGGGFLYTNENTLSLGLVCGLHHLHDAKKSVPQMLEDFKQHPAVAPLIAGGKLVEYSAHVVPEAGINMLPELVGDGVLIAGDAAGMCMNLGFTIRGMDLAIAAGEAAAKTVLSAMKSDDFSKQKLAEYRQHLESGPLRDMRMYQKLPAFLDNPRMFSGYPELAVGVARDLFTIDGSAPELMRKKILRHGKKVGFINLIKDGMKGVTVL" [] ["CCO-CYTOSOL"] +"EG11565-MONOMER" "putative ferredoxin FixX" ["YaaT", "FixX", "putative ferredoxin possibly involved in anaerobic carnitine metabolism"] "MTSPVNVDVKLGVNKFNVDEEHPHIVVKADADKQALELLVKACPAGLYKKQDDGSVRFDYAGCLECGTCRILGLGSALEQWEYPRGTFGVEFRYG" [] ["CCO-CYTOSOL"] +"EG11568-MONOMER" "regulator of KefC-mediated potassium transport and quinone oxidoreductase" ["KefF", "YabF"] "MILIIYAHPYPHHSHANKRMLEQARTLEGVEIRSLYQLYPDFNIDIAAEQEALSRADLIVWQHPMQWYSIPPLLKLWIDKVFSHGWAYGHGGTALHGKHLLWAVTTGGGESHFEIGAHPGFDVLSQPLQATAIYCGLNWLPPFAMHCTFICDDETLEGQARHYKQRLLEWQEAHHG" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG", "CCO-CYTOSOL"] +"EG11569-MONOMER" "lipopolysaccharide assembly protein LptD" ["LptD", "YabG", "OstA", "Imp"] "MKKRIPTLLATMIATALYSQQGLAADLASQCMLGVPSYDRPLVQGDTNDLPVTINADHAKGDYPDDAVFTGSVDIMQGNSRLQADEVQLHQKEAPGQPEPVRTVDALGNVHYDDNQVILKGPKGWANLNTKDTNVWEGDYQMVGRQGRGKADLMKQRGENRYTILDNGSFTSCLPGSDTWSVVGSEIIHDREEQVAEIWNARFKVGPVPIFYSPYLQLPVGDKRRSGFLIPNAKYTTTNYFEFYLPYYWNIAPNMDATITPHYMHRRGNIMWENEFRYLSQAGAGLMELDYLPSDKVYEDEHPNDDSSRRWLFYWNHSGVMDQVWRFNVDYTKVSDPSYFNDFDNKYGSSTDGYATQKFSVGYAVQNFNATVSTKQFQVFSEQNTSSYSAEPQLDVNYYQNDVGPFDTRIYGQAVHFVNTRDDMPEATRVHLEPTINLPLSNNWGSINTEAKLLATHYQQTNLDWYNSRNTTKLDESVNRVMPQFKVDGKMVFERDMEMLAPGYTQTLEPRAQYLYVPYRDQSDIYNYDSSLLQSDYSGLFRDRTYGGLDRIASANQVTTGVTSRIYDDAAVERFNISVGQIYYFTESRTGDDNITWENDDKTGSLVWAGDTYWRISERWGLRGGIQYDTRLDNVATSNSSIEYRRDEDRLVQLNYRYASPEYIQATLPKYYSTAEQYKNGISQVGAVASWPIADRWSIVGAYYYDTNANKQADSMLGVQYSSCCYAIRVGYERKLNGWDNDKQHAVYDNAIGFNIELRGLSSNYGLGTQEMLRSNILPYQNTL" ["CCO-OUTER-MEM"] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"EG11570-MONOMER" "co-chaperone protein DjlA" ["YabH", "DjlA"] "MQYWGKIIGVAVALLMGGGFWGVVLGLLIGHMFDKARSRKMAWFANQRERQALFFATTFEVMGHLTKSKGRVTEADIHIASQLMDRMNLHGASRTAAQNAFRVGKSDNYPLREKMRQFRSVCFGRFDLIRMFLEIQIQAAFADGSLHPNERAVLYVIAEELGISRAQFDQFLRMMQGGAQFGGGYQQQTGGGNWQQAQRGPTLEDACNVLGVKPTDDATTIKRAYRKLMSEHHPDKLVAKGLPPEMMEMAKQKAQEIQQAYELIKQQKGFK" ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"EG11571-MONOMER" "DedA family protein YabI" ["YabI"] "MQALLEHFITQSTVYSLMAVVLVAFLESLALVGLILPGTVLMAGLGALIGSGELSFWHAWLAGIIGCLMGDWISFWLGWRFKKPLHRWSFLKKNKALLDKTEHALHQHSMFTILVGRFVGPTRPLVPMVAGMLDLPVAKFITPNIIGCLLWPPFYFLPGILAGAAIDIPAGMQSGEFKWLLLATAVFLWVGGWLCWRLWRSGKATDRLSHYLSRGRLLWLTPLISAIGVVALVVLIRHPLMPVYIDILRKVVGV" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11578-MONOMER" "transcription elongation factor GreB" ["GreB"] "MKTPLVTREGYEKLKQELNYLWREERPEVTKKVTWAASLGDRSENADYQYNKKRLREIDRRVRYLTKCLENLKIVDYSPQQEGKVFFGAWVEIENDDGVTHRFRIVGYDEIFGRKDYISIDSPMARALLKKEVGDLAVVNTPAGEASWYVNAIEYVKP" [] ["CCO-CYTOSOL"] +"EG11579-MONOMER" "N-glycosidase YbiA" ["YbiA"] "MPVRAQRIQHVMQDTIINFYSTSDDYGDFSNFAAWPIKVDGKTWPTSEHYFQAQKFLDEKYREEIRRVSSPMVAARMGRDRSKPLRKNWESVKEQVMRKALRAKFEQHAELRALLLATAPAKLVEHTENDAYWGDGGHGKGKNRLGYLLMELREQLAIEK" [] ["CCO-CYTOSOL"] +"EG11580-MONOMER" "nonspecific DNA-binding protein YbiB" ["YbiB"] "MDYRKIIKEIGRGKNHARDLDRDTARGLYAHMLNGEVPDLELGGVLIALRIKGEGEAEMLGFYEAMQNHTIKLTPPAGKPMPIVIPSYNGARKQANLTPLLAILLHKLGFPVVVHGVSEDPTRVLTETIFELMGITPTLHGGQAQAKLDEHQPVFMPVGAFCPPLEKQLAMRWRMGVRNSAHTLAKLATPFAEGEALRLSSVSHPEYIGRVAKFFSDIGGRALLMHGTEGEVYANPQRCPQINLIDREGMRVLYEKQDTAGSELLPQAKDPETTAQWIERCLAGSEPIPESLKIQMACCLVATGEAATISDGLARVNQAF" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11581-MONOMER" "hydroxycarboxylate dehydrogenase B" ["HcxB", "YbiC"] "MESGHRFDAQTLHSFIQAVFRQMGSEEQEAKLVADHLIAANLAGHDSHGIGMIPSYVRSWSQGHLQINHHAKTVKEAGAAVTLDGDRAFGQVAAHEAMALGIEKAHQHGIAAVALHNSHHIGRIGYWAEQCAAAGFVSIHFVSVVGIPMVAPFHGRDSRFGTNPFCVVFPRKDNFPLLLDYATSAIAFGKTRVAWHKGVPVPPGCLIDVNGVPTTNPAVMQESPLGSLLTFAEHKGYALAAMCEILGGALSGGKTTHQETLQTSPDAILNCMTTIIINPELFGAPDCNAQTEAFAEWVKASPHDDDKPILLPGEWEVNTRRERQKQGIPLDAGSWQAICDAARQIGMPEETLQAFCQQLAS" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11591-MONOMER" "lipoyl(octanoyl) transferase" ["Cde", "LipB", "Lip", "lipoyl-[acyl-carrier-protein]-protein-N-lipoyltransferase", "lipoyl (octanoyl)-acyl carrier protein:protein transferase", "lipoate-protein ligase B", "lipoyl-protein ligase"] "MYQDKILVRQLGLQPYEPISQAMHEFTDTRDDSTLDEIWLVEHYPVFTQGQAGKAEHILMPGDIPVIQSDRGGQVTYHGPGQQVMYVLLNLKRRKLGVRELVTLLEQTVVNTLAELGIEAHPRADAPGVYVGEKKICSLGLRIRRGCSFHGLALNVNMDLSPFLRINPCGYAGMEMAKISQWKPEATTNNIAPRLLENILALLNNPDFEYITA" [] ["CCO-CYTOSOL"] +"EG11592-MONOMER" "DUF493 domain-containing protein YbeD" ["YbeD"] "MKTKLNELLEFPTPFTYKVMGQALPELVDQVVEVVQRHAPGDYTPTVKPSSKGNYHSVSITINATHIEQVETLYEELGKIDIVRMVL" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11594-MONOMER" "putative LysR-type DNA-binding transcriptional regulator YbeF" ["YbeF"] "MDSNNQIEPCLSRKSSEGKPQIFTTLRNIDLNLLTIFEAVYVHKGIVNAAKVLNLTPSAISQSIQKLRVIFPDPLFIRKGQGVTPTAFAMHLHEYISQGLESILGALDIEGSYDKQRTITIATTPSVGALVLPVIYRAIKTHYPQLLLRNPPISDAENQLSQFQTDLIIDNMFCTNRTVQHHVLFTDNMVLICREGNPLLSLEDDRETIDNAAHVLLLPEEQNFSGLRQRVQEMFPDRQINFTSYNILTIAALVANSDMLAIIPSRFYNLFSRCWPLEKLPFPSLNEEQIDFSIHYNKFSLRDPILHGVIDVIRNAF" [] ["CCO-CYTOSOL"] +"EG11595-MONOMER" "GTP 3',8'-cyclase" ["NarA", "ChlA", "BisA", "MoaA", "molybdopterin biosynthesis protein A"] "MASQLTDAFARKFYYLRLSITDVCNFRCTYCLPDGYKPSGVTNKGFLTVDEIRRVTRAFARLGTEKVRLTGGEPSLRRDFTDIIAAVRENDAIRQIAVTTNGYRLERDVASWRDAGLTGINVSVDSLDARQFHAITGQDKFNQVMAGIDAAFEAGFEKVKVNTVLMRDVNHHQLDTFLNWIQHRPIQLRFIELMETGEGSELFRKHHISGQVLRDELLRRGWIHQLRQRSDGPAQVFCHPDYAGEIGLIMPYEKDFCATCNRLRVSSIGKLHLCLFGEGGVNLRDLLEDDTQQQALEARISAALREKKQTHFLHQNNTGITQNLSYIGG" [] ["CCO-CYTOSOL"] +"EG11597-MONOMER" "molybdopterin synthase sulfur carrier subunit" ["ChlM", "MoaD", "molybdopterin synthase small subunit"] "MIKVLFFAQVRELVGTDATEVAADFPTVEALRQHMAAQSDRWALALEDGKLLAAVNQTLVSFDHPLTDGDEVAFFPPVTGG" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11598-MONOMER" "molybdopterin synthase catalytic subunit" ["MoaE", "molybdopterin synthase large subunit"] "MAETKIVVGPQPFSVGEEYPWLAERDEDGAVVTFTGKVRNHNLGDSVNALTLEHYPGMTEKALAEIVDEARNRWPLGRVTVIHRIGELWPGDEIVFVGVTSAHRSSAFEAGQFIMDYLKTRAPFWKREATPEGDRWVEARESDQQAAKRW" [] ["CCO-CYTOSOL"] +"EG11599-MONOMER" "multiple antibiotic resistance protein MarB" ["MarB"] "MKPLSSAIAAALILFSAQGVAEQTTQPVVTSCANVVVVPPSQEHPPFDLNHMGTGSDKSDALGVPYYNQHAM" ["CCO-PERI-BAC"] [] +"EG11600-MONOMER" "3-mercaptopyruvate sulfurtransferase" ["MstA", "SseA"] "MSTTWFVGADWLAEHIDDPEIQIIDARMASPGQEDRNVAQEYLNGHIPGAVFFDIEALSDHTSPLPHMLPRPETFAVAMRELGVNQDKHLIVYDEGNLFSAPRAWWMLRTFGVEKVSILGGGLAGWQRDDLLLEEGAVELPEGEFNAAFNPEAVVKVTDVLLASHENTAQIIDARPAARFNAEVDEPRPGLRRGHIPGALNVPWTELVREGELKTTDELDAIFFGRGVSYDKPIIVSCGSGVTAAVVLLALATLDVPNVKLYDGAWSEWGARADLPVEPVK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11601-MONOMER" "protein SseB" ["SseB"] "MSETKNELEDLLEKAATEPAHRPAFFRTLLESTVWVPGTAAQGEAVVEDSALDLQHWEKEDGTSVIPFFTSLEALQQAVEDEQAFVVMPVRTLFEMTLGETLFLNAKLPTGKEFMPREISLLIGEEGNPLSSQEILEGGESLILSEVAEPPAQMIDSLTTLFKTIKPVKRAFICSIKENEEAQPNLLIGIEADGDIEEIIQATGSVATDTLPGDEPIDICQVKKGEKGISHFITEHIAPFYERRWGGFLRDFKQNRII" [] ["CCO-CYTOSOL"] +"EG11603-MONOMER" "inorganic triphosphatase" ["YgiF"] "MAQEIELKFIVNHSAVEALRDHLNTLGGEHHDPVQLLNIYYETPDNWLRGHDMGLRIRGENGRYEMTMKVAGRVTGGLHQRPEYNVALSEPTLDLAQLPTEVWPNGELPADLASRVQPLFSTDFYREKWLVAVDGSQIEIALDQGEVKAGEFAEPICELELELLSGDTRAVLKLANQLVSQTGLRQGSLSKAARGYHLAQGNPAREIKPTTILHVAAKADVEQGLEAALELALAQWQYHEELWVRGNDAAKEQVLAAISLVRHTLMLFGGIVPRKASTHLRDLLTQCEATIASAVSAVTAVYSTETAMAKLALTEWLVSKAWQPFLDAKAQGKISDSFKRFADIHLSRHAAELKSVFCQPLGDRYRDQLPRLTRDIDSILLLAGYYDPVVAQAWLENWQGLHHAIATGQRIEIEHFRNEANNQEPFWLHSGKR" [] ["CCO-CYTOSOL"] +"EG11604-MONOMER" "protein Smf" ["Smf"] "MVDTEIWLRLMSISSLYGDDMVRIAHWVAKQSHIDAVVLQQTGLTLRQAQRFLSFPRKSIESSLCWLEQPNHHLIPADSEFYPPQLLATTDYPGALFVEGELHALHSFQLAVVGSRAHSWYGERWGRLFCETLATRGVTITSGLARGIDGVAHKAALQVNGVSIAVLGNGLNTIHPRRHARLAASLLEQGGALVSEFPLDVPPLAYNFPRRNRIISGLSKGVLVVEAALRSGSLVTARCALEQGREVFALPGPIGNPGSEGPHWLIKQGAILVTEPEEILENLQFGLHWLPDAPENSFYSPDQQDVALPFPELLANVGDEVTPVDVVAERAGQPVPEVVTQLLELELAGWIAAVPGGYVRLRRACHVRRTNVFV" [] ["CCO-CYTOSOL"] +"EG11605-MONOMER" "DUF494 domain-containing protein Smg" ["Smg"] "MFDVLMYLFETYIHTEAELRVDQDKLEQDLTDAGFEREDIYNALLWLEKLADYQEGLAEPMQLASDPLSMRIYTPEECERLDASCRGFLLFLEQIQVLNLETREMVIERVLALDNAEFELDDLKWVILMVLFNIPGCENAYQQMEELLFEVNEGMLH" [] ["CCO-CYTOSOL"] +"EG11607-MONOMER" "protein YciI" ["YciI"] "MLYVIYAQDKADSLEKRLSVRPAHLARLQLLHDEGRLLTAGPMPAVDSNDPGAAGFTGSTVIAEFESLEAAQAWADADPYVAAGVYEHVSVKPFKKVF" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11613-MONOMER" "phosphoethanolamine transferase EptA" ["YjdB", "EptA"] "MLKRLLKRPSLNLLAWLLLAAFYISICLNIAFFKQVLQALPLDSLHNVLVFLSMPVVAFSVINIVLTLSSFLWLNRPLACLFILVGAAAQYFIMTYGIVIDRSMIANIIDTTPAESYALMTPQMLLTLGFSGVLAALIACWIKIKPATSRLRSVLFRGANILVSVLLILLVAALFYKDYASLFRNNKELVKSLSPSNSIVASWSWYSHQRLANLPLVRIGEDAHRNPLMQNEKRKNLTILIVGETSRAENFSLNGYPRETNPRLAKDNVVYFPNTASCGTATAVSVPCMFSDMPREHYKEELAQHQEGVLDIIQRAGINVLWNDNDGGCKGACDRVPHQNVTALNLPDQCINGECYDEVLFHGLEEYINNLQGDGVIVLHTIGSHGPTYYNRYPPQFRKFTPTCDTNEIQTCTKEQLVNTYDNTLVYVDYIVDKAINLLKEHQDKFTTSLVYLSDHGESLGENGIYLHGLPYAIAPDSQKQVPMLLWLSEDYQKRYQVDQNCLQKQAQTQHYSQDNLFSTLLGLTGVETKYYQAADDILQTCRRVSE" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11619-MONOMER" "transcription-repair coupling factor" ["Mfd", "TRCF"] "MPEQYRYTLPVKAGEQRLLGELTGAACATLVAEIAERHAGPVVLIAPDMQNALRLHDEISQFTDQMVMNLADWETLPYDSFSPHQDIISSRLSTLYQLPTMQRGVLIVPVNTLMQRVCPHSFLHGHALVMKKGQRLSRDALRTQLDSAGYRHVDQVMEHGEYATRGALLDLFPMGSELPYRLDFFDDEIDSLRVFDVDSQRTLEEVEAINLLPAHEFPTDKAAIELFRSQWRDTFEVKRDPEHIYQQVSKGTLPAGIEYWQPLFFSEPLPPLFSYFPANTLLVNTGDLETSAERFQADTLARFENRGVDPMRPLLPPQSLWLRVDELFSELKNWPRVQLKTEHLPTKAANANLGFQKLPDLAVQAQQKAPLDALRKFLETFDGPVVFSVESEGRREALGELLARIKIAPQRIMRLDEASDRGRYLMIGAAEHGFVDTVRNLALICESDLLGERVARRRQDSRRTINPDTLIRNLAELHIGQPVVHLEHGVGRYAGMTTLEAGGITGEYLMLTYANDAKLYVPVSSLHLISRYAGGAEENAPLHKLGGDAWSRARQKAAEKVRDVAAELLDIYAQRAAKEGFAFKHDREQYQLFCDSFPFETTPDQAQAINAVLSDMCQPLAMDRLVCGDVGFGKTEVAMRAAFLAVDNHKQVAVLVPTTLLAQQHYDNFRDRFANWPVRIEMISRFRSAKEQTQILAEVAEGKIDILIGTHKLLQSDVKFKDLGLLIVDEEHRFGVRHKERIKAMRANVDILTLTATPIPRTLNMAMSGMRDLSIIATPPARRLAVKTFVREYDSMVVREAILREILRGGQVYYLYNDVENIQKAAERLAELVPEARIAIGHGQMRERELERVMNDFHHQRFNVLVCTTIIETGIDIPTANTIIIERADHFGLAQLHQLRGRVGRSHHQAYAWLLTPHPKAMTTDAQKRLEAIASLEDLGAGFALATHDLEIRGAGELLGEEQSGSMETIGFSLYMELLENAVDALKAGREPSLEDLTSQQTEVELRMPSLLPDDFIPDVNTRLSFYKRIASAKTENELEEIKVELIDRFGLLPDPARTLLDIARLRQQAQKLGIRKLEGNEKGGVIEFAEKNHVNPAWLIGLLQKQPQHYRLDGPTRLKFIQDLSERKTRIEWVRQFMRELEENAIA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11620-MONOMER" "RNase II" ["Rnb", "ribonuclease II", "exoribonuclease II", "exoribonuclease 2"] "MFQDNPLLAQLKQQLHSQTPRAEGVVKATEKGFGFLEVDAQKSYFIPPPQMKKVMHGDRIIAVIHSEKERESAEPEELVEPFLTRFVGKVQGKNDRLAIVPDHPLLKDAIPCRAARGLNHEFKEGDWAVAEMRRHPLKGDRSFYAELTQYITFGDDHFVPWWVTLARHNLEKEAPDGVATEMLDEGLVREDLTALDFVTIDSASTEDMDDALFAKALPDDKLQLIVAIADPTAWIAEGSKLDKAAKIRAFTNYLPGFNIPMLPRELSDDLCSLRANEVRPVLACRMTLSADGTIEDNIEFFAATIESKAKLVYDQVSDWLENTGDWQPESEAIAEQVRLLAQICQRRGEWRHNHALVFKDRPDYRFILGEKGEVLDIVAEPRRIANRIVEEAMIAANICAARVLRDKLGFGIYNVHMGFDPANADALAALLKTHGLHVDAEEVLTLDGFCKLRRELDAQPTGFLDSRIRRFQSFAEISTEPGPHFGLGLEAYATWTSPIRKYGDMINHRLLKAVIKGETATRPQDEITVQMAERRRLNRMAERDVGDWLYARFLKDKAGTDTRFAAEIVDISRGGMRVRLVDNGAIAFIPAPFLHAVRDELVCSQENGTVQIKGETVYKVTDVIDVTIAEVRMETRSIIARPVA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11634-MONOMER" "Qin prophage; putative prophage DNA-packaging protein NohA" ["NohQ", "NohA"] "MEVNKKQLADIFGASIRTIQNWQEQGMPVLRGGGKGNEVLYDSAAVIRWYAERDAEIENEKLRREVEELRQASETDLQPGTIEYERHRLTRAQADAQELKNARDSAEVVETAFCTFVLSRIAGEIASILDGIPLSVQRRFPELENRHVDFLKRDIIKAMNKAAALDELIPGLLSEYNRADRQYAGGSRS" [] ["CCO-CYTOSOL"] +"EG11635-MONOMER" "DLP12 prophage; putative DNA-packaging protein NohD" ["NohD", "NohB"] "MEVNKKQLADIFGASIRTIQNWQEQGMPVLRGGGKGNEVLYDSAAVIKWYAERDAEIENEKLRREVEELLQASETDLQPGTIEYERHRLTRAQADAQELKNARDSAEVVETAFCTFVLSRIAGEIASILDGIPLSVQRRFPELENRHVDFLKRDIIKAMNKAAALDELIPGLLSEYIEQSG" [] ["CCO-CYTOSOL"] +"EG11637-MONOMER" "inner membrane protein MarC" ["YdeC", "YdeB", "MarC"] "MLDLFKAIGLGLVVLLPLANPLTTVALFLGLAGNMNSAERNRQSLMASVYVFAIMMVAYYAGQLVMDTFGISIPGLRIAGGLIVAFIGFRMLFPQQKAIDSPEAKSKSEELEDEPSANIAFVPLAMPSTAGPGTIAMIISSASTVRQSSTFADWVLMVAPPLIFFLVAVILWGSLRSSGAIMRLVGKGGIEAISRLMGFLLVCMGVQFIINGILEIIKTYH" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11639-MONOMER" "cysteine/O-acetylserine exporter EamA" ["EamA", "YdeD", "orf299", "orf266"] "MSRKDGVLALLVVVVWGLNFVVIKVGLHNMPPLMLAGLRFMLVAFPAIFFVARPKVPLNLLLGYGLTISFAQFAFLFCAINFGMPAGLASLVLQAQAFFTIMLGAFTFGERLHGKQLAGIALAIFGVLVLIEDSLNGQHVAMLGFMLTLAAAFSWACGNIFNKKIMSHSTRPAVMSLVIWSALIPIIPFFVASLILDGSATMIHSLVTIDMTTILSLMYLAFVATIVGYGIWGTLLGRYETWRVAPLSLLVPVVGLASAALLLDERLTGLQFLGAVLIMTGLYINVFGLRWRKAVKVGS" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11643-MONOMER" "diguanylate cyclase DgcZ" ["DgcZ", "YdeG", "YdeH"] "MIKKTTEIDAILLNLNKAIDAHYQWLVSMFHSVVARDASKPEITDNHSYGLCQFGRWIDHLGPLDNDELPYVRLMDSAHQHMHNCGRELMLAIVENHWQDAHFDAFQEGLLSFTAALTDYKIYLLTIRSNMDVLTGLPGRRVLDESFDHQLRNAEPLNLYLMLLDIDRFKLVNDTYGHLIGDVVLRTLATYLASWTRDYETVYRYGGEEFIIIVKAANDEEACRAGVRICQLVDNHAITHSEGHINITVTAGVSRAFPEEPLDVVIGRADRAMYEGKQTGRNRCMFIDEQNVINRV" [] ["CCO-PM-BAC-NEG", "CCO-CYTOSOL"] +"EG11644-MONOMER" "BOF family protein YdeI" ["YdeI", "stress response protein"] "MKFQAIVLASFLVMPYALADDQGGLKQDAAPPPPHAIEDGYRGTDDAKKMTVDFAKTMHDGASVSLRGNLISHKGEDRYVFRDKSGEINVVIPAAVFDGREVQPDQMINISGSLDKKSAPAVVRVTHLQK" [] ["CCO-PERI-BAC"] +"EG11645-MONOMER" "PF02464 family protein YdeJ" ["YdeJ"] "MNINRDKIVQLVDTDTIENLTSALSQRLIADQLRLTTAESCTGGKLASALCAAEDTPKFYGAGFVTFTDQAKMKILSVSQQSLERYSAVSEKVAAEMATGAIERADADVSIAITGYGGPEGGEDGTPAGTVWFAWHIKGQNYTAVMHFAGDCETVLALAVRFALAQLLQLLL" [] ["CCO-CYTOSOL"] +"EG11646-MONOMER" "putative pseudouridine kinase" ["PsuK", "YeiC", "PscK"] "MREKDYVVIIGSANIDVAGYSHESLNYADSNPGKIKFTPGGVGRNIAQNLALLGNKAWLLSAVGSDFYGQSLLTQTNQSGVYVDKCLIVPGENTSSYLSLLDNTGEMLVAINDMNISNAITAEYLAQHGEFIQRAKVIVADCNISEEALAWILDNAANVPVFVDPVSAWKCVKVRDRLNQIHTLKPNRLEAETLSGIALSGREDVAKVAAWFHQHGLNRLVLSMGGDGVYYSDISGESGWSAPIKTNVINVTGAGDAMMAGLASCWVDGMPFAESVRFAQGCSSMALSCEYTNNPDLSIANVISLVENAECLN" [] ["CCO-CYTOSOL"] +"EG11649-MONOMER" "LysR family transcriptional regulator YafC" ["YafC", "predicted DNA-binding transcriptional regulator LYSR-type"] "MKATSEELAIFVSVVESGSFSRAAEQLGQANSAVSRAVKKLEMKLGVSLLNRTTRQLSLTEEGERYFRRVQSILQEMAAAESEIMETRNTPRGLLRIDAATPVVLHFLMPLIKPFRERYPEVTLSLVSSETIINLIERKVDVAIRAGTLTDSSLRARPLFNSYRKIIASPDYISRYGKPETIDDLKQHICLGFTEPASLNTWPIARSDGQLHEVKYGLSSNSGETLKQLCLSGNGIACLSDYMIDKEIARGELVELMADKVLPVEMPFSAVYYSDRAVSTRIRAFIDFLSEHVKTAPGGAVREA" [] ["CCO-CYTOSOL"] +"EG11650-MONOMER" "endonuclease/exonuclease/phosphatase domain-containing protein YafD" ["YafD"] "MRKNTYAMRYVAGQPAERILPPGSFASIGQALPPGEPLSTEERIRILVWNIYKQQRAEWLSVLKNYGKDAHLVLLQEAQTTPELVQFATANYLAADQVPAFVLPQHPSGVMTLSAAHPVYCCPLREREPILRLAKSALVTVYPLPDTRLLMVVNIHAVNFSLGVDVYSKQLLPIGDQIAHHSGPVIMAGDFNAWSRRRMNALYRFAREMSLRQVRFTDDQRRRAFGRPLDFVFYRGLNVSEASVLVTRASDHNPLLVEFSPGKPDK" [] ["CCO-CYTOSOL"] +"EG11651-MONOMER" "putative S-adenosylmethionine-dependent methyltransferase" ["YafE"] "MSGLPQGRPTFGAAQNVSAVVAYDLSAHMLDVVAQAAEARQLKNITTRQGYAESLPFADNAFDIVISRYSAHHWHDVGAALREVNRILKPGGRLIVMDVMSPGHPVRDIWLQTVEALRDTSHVRNYASGEWLTLINEANLIVDNLITDKLPLEFSSWVARMRTPEALVDAIRIYQQSASTEVRTYFALQNDGFFTSDIIMVDAHKAA" [] ["CCO-CYTOSOL"] +"EG11652-MONOMER" "serine endoprotease" ["HtrH", "HhoB", "DegS"] "MFVKLLRSVAIGLIVGAILLVAMPSLRSLNPLSTPQFDSTDETPASYNLAVRRAAPAVVNVYNRGLNTNSHNQLEIRTLGSGVIMDQRGYIITNKHVINDADQIIVALQDGRVFEALLVGSDSLTDLAVLKINATGGLPTIPINARRVPHIGDVVLAIGNPYNLGQTITQGIISATGRIGLNPTGRQNFLQTDASINHGNSGGALVNSLGELMGINTLSFDKSNDGETPEGIGFAIPFQLATKIMDKLIRDGRVIRGYIGIGGREIAPLHAQGGGIDQLQGIVVNEVSPDGPAANAGIQVNDLIISVDNKPAISALETMDQVAEIRPGSVIPVVVMRDDKQLTLQVTIQEYPATN" ["CCO-PM-BAC-NEG", "CCO-PERI-BAC"] ["CCO-MEMBRANE", "CCO-PERI-BAC", "CCO-PM-BAC-NEG"] +"EG11653-MONOMER" "frataxin CyaY" ["CyaY"] "MNDSEFHRLADQLWLTIEERLDDWDGDSDIDCEINGGVLTITFENGSKIIINRQEPLHQVWLATKQGGYHFDLKGDEWICDRSGETFWDLLEQAATQQAGETVSFR" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11656-MONOMER" "flagellar biosynthesis protein FliH" ["FliH"] "MSDNLPWKTWTPDDLAPPQAEFVPIVEPEETIIEEAEPSLEQQLAQLQMQAHEQGYQAGIAEGRQQGHKQGYQEGLAQGLEQGLAEAKSQQAPIHARMQQLVSEFQTTLDALDSVIASRLMQMALEAARQVIGQTPTVDNSALIKQIQQLLQQEPLFSGKPQLRVHPDDLQRVDDMLGATLSLHGWRLRGDPTLHPGGCKVSADEGDLDASVATRWQELCRLAAPGVV" ["CCO-CYTOSOL"] ["CCO-CELL-PROJECTION", "CCO-CYTOSOL"] +"EG11659-MONOMER" "lipoprotein YedD" ["YedD"] "MKKLAIAGALLLLAGCAEVENYNNVVKTPAPDWLAGYWQTKGPQRALVSPEAIGSLIVTKEGDTLDCRQWQRVIAVPGKLTLMSDDLTNVTVKRELYEVERDGNTIEYDGMTMERVDRPTAECAAALDKAPLPTPLP" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"EG11660-MONOMER" "putative selenium transporter YedE" ["YedE"] "MSWQQFKHAWLIKFWAPIPAVIAAGILSTYYFGITGTFWAVTGEFTRWGGQLLQLFGVHAEEWGYFKIIHLEGSPLTRIDGMMILGMFGGCFAAALWANNVKLRMPRSRIRIMQAIIGGIIAGFGARLAMGCNLAAFFTGIPQFSLHAWFFAIATAIGSWFGARFTLLPIFRIPVKMQKVSAASPLTQKPDQARRRFRLGMLVFFGMLGWALLTAMNQPKLGLAMLFGVGFGLLIERAQICFTSAFRDMWITGRTHMAKAIIIGMAVSAIGIFSYVQLGVEPKIMWAGPNAVIGGLLFGFGIVLAGGCETGWMYRAVEGQVHYWWVGLGNVIGSTILAYYWDDFAPALATDWDKINLLKTFGPMGGLLVTYLLLFAALMLIIGWEKRFFRRAAPQTAKEIA" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11661-MONOMER" "putative sulfurtransferase YedF" ["YedF"] "MKNIVPDYRLDMVGEPCPYPAVATLEAMPQLKKGEILEVVSDCPQSINNIPLDARNHGYTVLDIQQDGPTIRYLIQK" [] ["CCO-CYTOSOL"] +"EG11662-MONOMER" null ["YedK", "YedG", "Abasic site processing protein"] "MCGRFAQSQTREDYLALLAEDIERDIPYDPEPIGRYNVAPGTKVLLLSERDEHLHLDPVFWGYAPGWWDKPPLINARVETAATSRMFKPLWQHGRAICFADGWFEWKKEGDKKQPFFIYRADGQPIFMAAIGSTPFERGDEAEGFLIVTAAADQGLVDIHDRRPLVLSPEAAREWMRQEISGKEASEIAASGCVPANQFSWHPVSRAVGNVKNQGAELIQPV" [] [] +"EG11663-MONOMER" "FKBP-type peptidyl-prolyl cis-trans isomerase SlyD" ["SlyD", "WHP"] "MKVAKDLVVSLAYQVRTEDGVLVDESPVSAPLDYLHGHGSLISGLETALEGHEVGDKFDVAVGANDAYGQYDENLVQRVPKDVFMGVDELQVGMRFLAETDQGPVPVEITAVEDDHVVVDGNHMLAGQNLKFNVEVVAIREATEEELAHGHVHGAHDHHHDHDHDGCCGGHGHDHGHEHGGEGCCGGKGNGGCGCH" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11664-MONOMER" "protein SlyX" ["SlyX"] "MQDLSLEARLAELESRLAFQEITIEELNVTVTAHEMEMAKLRDHLRLLTEKLKASQPSNIASQAEETPPPHY" [] ["CCO-CYTOSOL"] +"EG11665-MONOMER" "undecaprenyl pyrophosphate phosphatase" ["BacA", "UppP"] "MSDMHSLLIAAILGVVEGLTEFLPVSSTGHMIIVGHLLGFEGDTAKTFEVVIQLGSILAVVVMFWRRLFGLIGIHFGRPLQHEGESKGRLTLIHILLGMIPAVVLGLLFHDTIKSLFNPINVMYALVVGGLLLIAAECLKPKEPRAPGLDDMTYRQAFMIGCFQCLALWPGFSRSGATISGGMLMGVSRYAASEFSFLLAVPMMMGATALDLYKSWGFLTSGDIPMFAVGFITAFVVALIAIKTFLQLIKRISFIPFAIYRFIVAAAVYVVFF" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11666-MONOMER" "cyclic pyranopterin monophosphate synthase" ["MoaC"] "MSQLTHINAAGEAHMVDVSAKAETVREARAEAFVTMRSETLAMIIDGRHHKGDVFATARIAGIQAAKRTWDLIPLCHPLMLSKVEVNLQAEPEHNRVRIETLCRLTGKTGVEMEALTAASVAALTIYDMCKAVQKDMVIGPVRLLAKSGGKSGDFKVEADD" [] ["CCO-CYTOSOL"] +"EG11671-MONOMER" "short chain fatty acid transporter" ["AtoE", "putative short chain fatty acid transporter"] "MIGRISRFMTRFVSRWLPDPLIFAMLLTLLTFVIALWLTPQTPISMVKMWGDGFWNLLAFGMQMALIIVTGHALASSAPVKSLLRTAASAAKTPVQGVMLVTFFGSVACVINWGFGLVVGAMFAREVARRVPGSDYPLLIACAYIGFLTWGGGFSGSMPLLAATPGNPVEHIAGLIPVGDTLFSGFNIFITVALIVVMPFITRMMMPKPSDVVSIDPKLLMEEADFQKQLPKDAPPSERLEESRILTLIIGALGIAYLAMYFSEHGFNITINTVNLMFMIAGLLLHKTPMAYMRAISAAARSTAGILVQFPFYAGIQLMMEHSGLGGLITEFFINVANKDTFPVMTFFSSALINFAVPSGGGHWVIQGPFVIPAAQALGADLGKSVMAIAYGEQWMNMAQPFWALPALAIAGLGVRDIMGYCITALLFSGVIFVIGLTLF" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11674-MONOMER" "putative glycerol-3-phosphate acyltransferase" ["PlsY", "YgiH", "conserved inner membrane protein YgiH"] "MSAIAPGMILIAYLCGSISSAILVCRLCGLPDPRTSGSGNPGATNVLRIGGKGAAVAVLIFDVLKGMLPVWGAYELGVSPFWLGLIAIAACLGHIWPVFFGFKGGKGVATAFGAIAPIGWDLTGVMAGTWLLTVLLSGYSSLGAIVSALIAPFYVWWFKPQFTFPVSMLSCLILLRHHDNIQRLWRRQETKIWTKFKRKREKDPE" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11676-MONOMER" "peptidase component of the HslVU protease" ["ClpQ", "YiiC", "HtpO", "HslV"] "MTTIVSVRRNGHVVIAGDGQATLGNTVMKGNVKKVRRLYNDKVIAGFAGGTADAFTLFELFERKLEMHQGHLVKAAVELAKDWRTDRMLRKLEALLAVADETASLIITGNGDVVQPENDLIAIGSGGPYAQAAARALLENTELSAREIAEKALDIAGDICIYTNHFHTIEELSYKA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11678-MONOMER" "fimbrial tip-adhesin YadC" ["YadC"] "MKTIFRYILFLALYSCCNTVSAYTSFIVGNNAGVDNYRGPSTAAQMTFNYTSTASNLVFYKPTQLGPTGVKMYWSYLDTGTGGGILYCNTSGRANPGPITIENAMVYSGKDYGGHKLFNTSVPGLYYTMLISRVWSAYDTITDIQSPGIYIGDPSNQEFFFSVTDSDLQTKGCNKADDYDKFWAIGGIVHNITVEFYTDTNFDPTLNQQVQLSSSSNYLYSFKAYSPGTKVVDHSNHIYVNFTLNNVKLTLPTCFTSILTGPSVNGSTVRMGEYSSGTIKNGASPVPFDISLQNCIRVRNIETKLVTGKVGTQNTQLLGNTLTGSTAAKGVGVLIEGLATSKNPLMTLKPNDTNSVYIDYETEDDTSDGVYPNQGNGTSQPLHFQATLKQDGNIAIEPGEFKATSTFQVTYP" ["CCO-PILUS"] ["CCO-EXTRACELLULAR", "CCO-PILUS"] +"EG11681-MONOMER" "ribosome hibernation-promoting factor" ["YhbH", "Hpf"] "MQLNITGNNVEITEALREFVTAKFAKLEQYFDRINQVYVVLKVEKVTHTSDATLHVNGGEIHASAEGQDMYAAIDGLIDKLARQLTKHKDKLKQH" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11682-MONOMER" "phosphotransferase system enzyme IIA(Ntr)" ["YhbI", "RpoP", "PtsN", "EIIANtr", "enzyme IIANtr", "EIIA(Ntr)"] "MTNNDTTLQLSSVLNRECTRSRVHCQSKKRALEIISELAAKQLSLPPQVVFEAILTREKMGSTGIGNGIAIPHGKLEEDTLRAVGVFVQLETPIAFDAIDNQPVDLLFALLVPADQTKTHLHTLSLVAKRLADKTICRRLRAAQSDEELYQIITDTEGTPDEA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11683-MONOMER" "PF03458 family inner membrane protein YicG" ["YicG"] "MLLHILYLVGITAEAMTGALAAGRRRMDTFGVIIIATATAIGGGSVRDILLGHYPLGWVKHPEYVIIVATAAVLTTIVAPVMPYLRKVFLVLDALGLVVFSIIGAQVALDMGHGPIIAVVAAVTTGVFGGVLRDMFCKRIPLVFQKELYAGVSFASAVLYIALQHYVSNHDVVIISTLVFGFFARLLALRLKLGLPVFYYSHEGH" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11684-MONOMER" "AsmA family protein YicH" ["YicH"] "MKFIGKLLLYILIALLVAIAGLYFLLQTRWGAEHISAWVSENSDYHLAFGAMDHRFSAPSHIVLENVTFGRDGQPATLVAKSVDIALSSRQLTEPRHVDTILLENGTLNLTDQTAPLPFKADRLQLRDMAFNSPNSEWKLSAQRVNGGVVPWSPKAGKVLGTKAQIQFSAGSLSLNDVPATNVLIEGSIDNDRVTLTNLGADIARGTLTGNAQRNADGSWQVENLRMADIRLQSEKSLTDFFAPLRSVPSLQIGRLEVIDARLQGPDWAVTDLDLSLRNMTFSKDDWQTQEGKLSMNASEFIYGSLHLFDPIINTEFSPQGVALRQFTSRWEGGMVRTSGNWLRDGKTLILDDAAIAGLEYTLPKNWQQLWMETTPGWLNSLQLKRFSASRNLIIDIDPDFPWQLTALDGYGANLTLVTDHKWGVWSGSANLNAAAATFNRVDVRRPSLALTANSSTVNISELSAFTEKGILEATASVSQTPQRQTHISLNGRGVPVNILQQWGWPELPLTGDGNIQLTASGDIQANVPLKPTVSGQLHAVNAAKQQVTQTMNAGIVSSGEVTSTEPVR" [] ["CCO-PM-BAC-NEG"] +"EG11685-MONOMER" "α-D-xyloside xylohydrolase" ["YicI"] "MKISDGNWLIQPGLNLIHPLQVFEVEQQDNEMVVYAAPRDVRERTWQLDTPLFTLRFFSPQEGIVGVRIEHFQGALNNGPHYPLNILQDVKVTIENTERYAEFKSGNLSARVSKGEFWSLDFLRNGERITGSQVKNNGYVQDTNNQRNYMFERLDLGVGETVYGLGERFTALVRNGQTVETWNRDGGTSTEQAYKNIPFYMTNRGYGVLVNHPQCVSFEVGSEKVSKVQFSVESEYLEYFVIDGPTPKAVLDRYTRFTGRPALPPAWSFGLWLTTSFTTNYDEATVNSFIDGMAERNLPLHVFHFDCFWMKAFQWCDFEWDPLTFPDPEGMIRRLKAKGLKICVWINPYIGQKSPVFKELQEKGYLLKRPDGSLWQWDKWQPGLAIYDFTNPDACKWYADKLKGLVAMGVDCFKTDFGERIPTDVQWFDGSDPQKMHNHYAYIYNELVWNVLKDTVGEEEAVLFARSASVGAQKFPVHWGGDCYANYESMAESLRGGLSIGLSGFGFWSHDIGGFENTAPAHVYKRWCAFGLLSSHSRLHGSKSYRVPWAYDDESCDVVRFFTQLKCRMMPYLYREAARANARGTPMMRAMMMEFPDDPACDYLDRQYMLGDNVMVAPVFTEAGDVQFYLPEGRWTHLWHNDELDGSRWHKQQHGFLSLPVYVRDNTLLALGNNDQRPDYVWHEGTAFHLFNLQDGHEAVCEVPAADGSVIFTLKAARTGNTITVTGAGEAKNWTLCLRNVVKVNGLQDGSQAESEQGLVVKPQGNALTITL" [] ["CCO-CYTOSOL"] +"EG11688-MONOMER" "putative transporter YicL" ["YicL", "putative inner membrane protein"] "MGSTRKGMLNVLIAAVLWGSSGVCAQYIMEQSQMSSQFLTMTRLIFAGLILLTLSFVHGDKIFSIINNHKDAISLLIFSVVGALTVQLTFLLTIEKSNAATATVLQFLSPTIIVAWFSLVRKSRPGILVFCAILTSLVGTFLLVTHGNPTSLSISPAALFWGIASAFAAAFYTTYPSTLIARYGTLPVVGWSMLIGGLILLPFYARQGTNFVVNGSLILAFFYLVVIGTSLTFSLYLKGAQLIGGPKASILSCAEPLSSALLSLLLLGITFTLPDWLGTLLILSSVILISMDSRRRARKINRPARHK" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11690-MONOMER" "DUF1198 domain-containing protein YicN" ["YicN"] "MIWIMLATLAVVFVVGFRVLTSGARKAIRRLSDRLNIDVVPVESMVDQMGKSAGDEFLRYLHRPDESHLQNAAQVLLIWQIVIVDGSEQNLLQWHRILQKARLAAPITDAQVRLALGFLRETEPEMQDINAFQMRYNAFFQPAEGVHWLH" [] ["CCO-MEMBRANE"] +"EG11691-MONOMER" "adenine transporter" ["AdeQ", "YicO"] "MNNDNTDYVSNESGTLSRLFKLPQHGTTVRTELIAGMTTFLTMVYIVFVNPQILGAAQMDPKVVFVTTCLIAGIGSIAMGIFANLPVALAPAMGLNAFFAFVVVGAMGISWQTGMGAIFWGAVGLFLLTLFRIRYWMISNIPLSLRIGITSGIGLFIALMGLKNTGVIVANKDTLVMIGDLSSHGVLLGILGFFIITVLSSRHFHAAVLVSIVVTSCCGLFFGDVHFSGVYSIPPDISGVIGEVDLSGALTLELAGIIFSFMLINLFDSSGTLIGVTDKAGLIDGNGKFPNMNKALYVDSVSSVAGAFIGTSSVTAYIESTSGVAVGGRTGLTAVVVGVMFLLVMFFSPLVAIVPPYATAGALIFVGVLMTSSLARVNWDDFTESVPAFITTVMMPFTFSITEGIALGFMSYCIMKVCTGRWRDLNLCVVVVAALFALKIILVD" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11692-MONOMER" "adenine deaminase" ["AdeD", "Adu", "Ade", "YicP", "cryptic adenine deaminase"] "MNNSINHKFHHISRAEYQELLAVSRGDAVADYIIDNVSILDLINGGEISGPIVIKGRYIAGVGAEYTDAPALQRIDARGATAVPGFIDAHLHIESSMMTPVTFETATLPRGLTTVICDPHEIVNVMGEAGFAWFARCAEQARQNQYLQVSSCVPALEGCDVNGASFTLEQMLAWRDHPQVTGLAEMMDYPGVISGQNALLDKLDAFRHLTLDGHCPGLGGKELNAYITAGIENCHESYQLEEGRRKLQLGMSLMIREGSAARNLNALAPLINEFNSPQCMLCTDDRNPWEIAHEGHIDALIRRLIEQHNVPLHVAYRVASWSTARHFGLNHLGLLAPGKQADIVLLSDARKVTVQQVLVKGEPIDAQTLQAEESARLAQSAPPYGNTIARQPVSASDFALQFTPGKRYRVIDVIHNELITHSHSSVYSENGFDRDDVSFIAVLERYGQRLAPACGLLGGFGLNEGALAATVSHDSHNIVVIGRSAEEMALAVNQVIQDGGGLCVVRNGQVQSHLPLPIAGLMSTDTAQSLAEQIDALKAAARECGPLPDEPFIQMAFLSLPVIPALKLTSQGLFDGEKFAFTTLEVTE" [] ["CCO-CYTOSOL"] +"EG11694-MONOMER" "uncharacterized protein YidF" ["YidF", "putative DNA-binding transcriptional regulator"] "MTGSQVIDAEEDRHKLVVEYKDALQPADFYHNFKQRGIRSVQLIPYLEFDDRGDLTAASVTAELWGKFLIALFECWVRADISRISIELFDATLQKWCGSENPQPRCDCQACDWHRLCPHARQETPDSVLCAGYQAFYSYSAPHMRVMRDLIKQHRSPMELMTMLR" [] ["CCO-CYTOSOL"] +"EG11695-MONOMER" "inner membrane protein YidG" ["YidG"] "MPDSRKARRIADPGLQPERTSLAWFRTMLGYGALMALAIKHNWHQAGMLFWISIGILAIVALILWHYTRNRNLMDVTNSDFSQFHVVRDKFLISLAVLSLAILFAVTHIHQLIVFIERVA" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11696-MONOMER" "DUF202 domain-containing inner membrane protein YidH" ["YidH"] "MKISRLGEAPDYRFSLANERTFLAWIRTALGFLAAGVGLDQLAPDFATPVIRELLALLLCLFSGGLAMYGYLRWLRNEKAMRLKEDLPYTNSLLIISLILMVVAVIVMGLVLYAG" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11697-MONOMER" "putative inner membrane protein YidI" ["YidI"] "MGIIAQNKISSLGMLFGAIALMMGIIHFSFGPFSAPPPTFESIVADKTAEIKRGLLAGIKGEKITTVEKKEDVDVDKILNQSGIALAIAALLCAFIGGMRKENRWGIRGALVFGGGTLAFHTLLFGIGIVCSILLIFLIFSFLTGGSLV" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11702-MONOMER" "RNA decapping hydrolase" ["NudC", "YjaD", "NADH pyrophosphatase"] "MDRIIEKLDHGWWVVSHEQKLWLPKGELPYGEAANFDLVGQRALQIGEWQGEPVWLVQQQRRHDMGSVRQVIDLDVGLFQLAGRGVQLAEFYRSHKYCGYCGHEMYPSKTEWAMLCSHCRERYYPQIAPCIIVAIRRDDSILLAQHTRHRNGVHTVLAGFVEVGETLEQAVAREVMEESGIKVKNLRYVTSQPWPFPQSLMTAFMAEYDSGDIVIDPKELLEANWYRYDDLPLLPPPGTVARRLIEDTVAMCRAEYE" [] ["CCO-CYTOSOL"] +"EG11703-MONOMER" "multidrug efflux pump membrane fusion lipoprotein AcrA" ["SipB", "Mbl", "Lir", "NbsA", "MtcA", "AcrA", "acridine efflux pump", "AcrA membrane fusion protein", "periplasmic adaptor protein AcrA"] "MNKNRGFTPLAVVLMLSGSLALTGCDDKQAQQGGQQMPAVGVVTVKTEPLQITTELPGRTSAYRIAEVRPQVSGIILKRNFKEGSDIEAGVSLYQIDPATYQATYDSAKGDLAKAQAAANIAQLTVNRYQKLLGTQYISKQEYDQALADAQQANAAVTAAKAAVETARINLAYTKVTSPISGRIGKSNVTEGALVQNGQATALATVQQLDPIYVDVTQSSNDFLRLKQELANGTLKQENGKAKVSLITSDGIKFPQDGTLEFSDVTVDQTTGSITLRAIFPNPDHTLLPGMFVRARLEEGLNPNAILVPQQGVTRTPRGDATVLVVGADDKVETRPIVASQAIGDKWLVTEGLKAGDRVVISGLQKVRPGVQVKAQEVTADNNQQAASGAQPEQSKS" ["CCO-PERI-BAC"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11705-MONOMER" "putative sulfatase/phosphatase YidJ" ["YidJ"] "MKRPNFLFVMTDTQATNMVGCYSGKPLNTQNIDSLAAEGIRFNSAYTCSPVCTPARAGLFTGIYANQSGPWTNNVAPGKNISTMGRYFKDAGYHTCYIGKWHLDGHDYFGTGECPPEWDADYWFDGANYLSELTEKEISLWRNGLNSVEDLQANHIDETFTWAHRISNRAVDFLQQPARADEPFLMVVSYDEPHHPFTCPVEYLEKYADFYYELGEKAQDDLANKPEHHRLWAQAMPSPVGDDGLYHHPLYFACNDFVDDQIGRVINALTPEQRENTWVIYTSDHGEMMGAHKLISKGAAMYDDITRIPLIIRSPQGERRQVDTPVSHIDLLPTMMALADIEKPEILPGENILAVKEPRGVMVEFNRYEIEHDSFGGFIPVRCWVTDDFKLVLNLFTSDELYDRRNDPNEMHNLIDDIRFADVRSKMHDALLDYMDKIRDPFRSYQWSLRPWRKDARPRWMGAFRPRPQDGYSPVVRDYDTGLPTQGVKVEEKKQKF" [] ["CCO-CYTOSOL"] +"EG11707-MONOMER" "putative DNA-binding transcriptional regulator YidL" ["YidL", "putative ARAC-type regulatory protein"] "MNGKLQSSDVKNETPYNIPLLINENVISSGISLISLWHTYADEHYRVIWPRDKKKPLIANSWVAVYTVQGCGKILLKNGEQITLHGNCIIFLKPMDIHSYHCEGLVWEQYWMEFTPTSMMDIPVGQQSVIYNGEIYNQELTEVAELITSPEAIKNNLAVAFLTKIIYQWICLMYADGKKDPQRRQIEKLIATLHASLQQRWSVADMAATIPCSEAWLRRLFLRYTGKTPKEYYLDARLDLALSLLKQQGNSVGEVADTLNFFDSFHFSKAFKHKFGYAPSAVLKNTDQHPTDASPHN" [] ["CCO-PM-BAC-NEG", "CCO-CYTOSOL"] +"EG11708-MONOMER" "putative inactive phospho-glucosidase" ["YidM", "GlvG"] "MTKFSVVVAGGGSTFTPGIVLMLLANQDRFPLRALKFYDNDGARQEVIAEACKVILKEKAPDIAFSYTTDPEVAFSDVDFVMAHIRVGKYPMRELDEKIPLRHGVVGQETCGPGGIAYGMRSIGGVLELVDYMEKYSPNAWMLNYSNPAAIVAEATRRLRPNAKILNICDMPIGIESRMAQIVGLQDRKQMRVRYYGLNHWWSAISRSFRKG" [] ["CCO-CYTOSOL"] +"EG11711-MONOMER" "putative DNA-binding transcriptional regulator YidP" ["YidP"] "MIYKSIAERLRIRLNSADFTLNSLLPGEKKLAEEFAVSRMTIRKAIDLLVAWGLVVRRHGSGTYLVRKDVLHQTASLTGLVEVLKRQGKTVTSQVLIFEIMPAPPAIASQLRIQINEQIYFSRRVRFVEGKPLMLEDSYMPVKLFRNLSLQHLEGSKFEYIEQECGILIGGNYESLTPVLADRLLARQMKVAEHTPLLRITSLSYSESGEFLNYSVMFRNASEYQVEYHLRRLHPEKS" [] ["CCO-CYTOSOL"] +"EG11712-MONOMER" "DUF1375 domain-containing putative lipoprotein YidQ" ["EcfI", "YidQ"] "MIRNVLLAFMICSGMTLLGGCSSVMSHTGGKEGTYPGTRASATMIGDDETNWGTKSLAILDMPFTAVMDTLLLPWDVFRKDSSVRSRVEKSEANAQATNAVIPPARMPDN" [] ["CCO-CYTOSOL"] +"EG11713-MONOMER" "DUF3748 domain-containing galacturonate catabolism protein YidR" ["YidR"] "MAGPVLYQDRAMKQITFAPRNHLLTNTNTWTPDSQWLVFDVRPSGASFTGETIERVNIHTGEVEVIYRASQGAHVGVVTVHPKSEKYVFIHGPENPDETWHYDFHHRRGVIVEGGKMSNLDAMDITAPYTPGVLRGGSHVHVFSPNGERVSFTYNDHVMHELDPALDLRNVGVAAPFGPVNVQKQHPREYSGSHWCVLVSKTTPTPQPGSDEINRAYEEGWVGNHALAFIGDTLSPKGEKVPELFIVELPQDEAGWKAAGDAPLSGTETTLPAPPRGVVQRRLTFTHHRAYPGLVNVPRHWVRCNPQGTQIAFLMRDDNGIVQLWLISPQGGEPRQLTHNKTDIQSAFNWHPSGEWLGFVLDNRIACAHAQSGEVEYLTEHHANSPSADAVVFSPDGQWLAWMEGGQLWITETDR" [] ["CCO-CYTOSOL"] +"EG11714-MONOMER" "colicin M resistance protein" ["YidS", "CbrA"] "MEHFDVAIIGLGPAGSALARKLAGKMQVIALDKKHQCGTEGFSKPCGGLLAPDAQRSFIRDGLTLPVDVIANPQIFSVKTVDVAASLTRNYQRSYININRHAFDLWMKSLIPASVEVYHDSLCRKIWREDDKWHVIFRADGWEQHITARYLVGADGANSMVRRHLYPDHQIRKYVAIQQWFAEKHPVPFYSCIFDNSITNCYSWSISKDGYFIFGGAYPMKDGQTRFTTLKEKMSAFQFQFGKTVKSEKCTVLFPSRWQDFVCGKDNAFLIGEAAGFISASSLEGISYALDSTDILRSVLLKQPEKLNTAYWRATRKLRLKLFGKIVKSRCLTAPALRKWIMRSGVAHIPQLKD" [] ["CCO-PERI-BAC"] +"EG11719-MONOMER" "putative lipoprotein YidX" ["YidX"] "MKLNFKGFFKAAGLFPLALMLSGCISYALVSHTAKGSSGKYQSQSDTITGLSQAKDSNGTKGYVFVGESLDYLITDGADDIVKMLNDPALNRHNIQVADDARFVLNAGKKKFTGTISLYYYWNNEEEKALATHYGFACGVQHCTRSLENLKGTIHEKNKNMDYSKVMAFYHPFKVRFYEYYSPRGIPDGVSAALLPVTVTLDIITAPLQFLVVYAVNQ" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11721-MONOMER" "putative LysR-type transcriptional regulator YidZ" ["YidZ"] "MKKSITTLDLNLLLCLQLLMQERSVTKAAKRINVTPSAVSKSLAKLRAWFDDPLFVNSPLGLSPTPLMVSMEQNLAEWMQMSNLLLDKPHHQTPRGLKFELAAESPLMMIMLNALSKQIYQRYPQATIKLRNWDYDSLDAITRGEVDIGFSGRESHPRSRELLSSLPLAIDYEVLFSDVPCVWLRKDHPALHQTWNLDTFLRYPHISICWEQSDTWALDNVLQELGRERTIAMSLPEFEQSLFMAAQPDNLLLATAPRYCQYYNQLHQLPLVALPLPFDESQQKKLEVPFTLLWHKRNSHNPKIVWLRETIKNLYASMA" [] ["CCO-CYTOSOL"] +"EG11722-MONOMER" "putative phosphopantetheinyl transferase" ["YieE"] "MATHFARGILTEGHLISVRLPSQCHQEARNIPPHRQSRFLASRGLLAELMFMLYGIGELPEIVTLPKGKPVFSDKNLPSFSISYAGNMVGVALTTEGECGLDMELQRATRGFHSPHAPDNHTFSSNESLWISKQNDPNEARAQLITLRRSVLKLTGDVLNDDPRDLQLLPIAGRLKCAHVNHVEALCDAEDVLVWSVAVTPTIEKLSVWELDGKHGWKSLPDIHSRANNPTSRMMRFAQLSTVKAFSPN" [] ["CCO-CYTOSOL"] +"EG11723-MONOMER" "chromate reductase" ["ChrR", "YieF"] "MSEKLQVVTLLGSLRKGSFNGMVARTLPKIAPASMEVNALPSIADIPLYDADVQQEEGFPATVEALAEQIRQADGVVIVTPEYNYSVPGGLKNAIDWLSRLPDQPLAGKPVLIQTSSMGVIGGARCQYHLRQILVFLDAMVMNKPEFMGGVIQNKVDPQTGEVIDQGTLDHLTGQLTAFGEFIQRVKI" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11724-MONOMER" "adenine:H+ symporter" ["AdeP", "YieG", "PurP"] "MSHQHTTQTSGQGMLERVFKLREHGTTARTEVIAGFTTFLTMVYIVFVNPQILGVAGMDTSAVFVTTCLIAAFGSIMMGLFANLPVALAPAMGLNAFFAFVVVQAMGLPWQVGMGAIFWGAIGLLLLTIFRVRYWMIANIPVSLRVGITSGIGLFIGMMGLKNAGVIVANPETLVSIGNLTSHSVLLGILGFFIIAILASRNIHAAVLVSIVVTTLLGWMLGDVHYNGIVSAPPSVMTVVGHVDLAGSFNLGLAGVIFSFMLVNLFDSSGTLIGVTDKAGLADEKGKFPRMKQALYVDSISSVTGSFIGTSSVTAYIESSSGVSVGGRTGLTAVVVGLLFLLVIFLSPLAGMVPGYAAAGALIYVGVLMTSSLARVNWQDLTESVPAFITAVMMPFSFSITEGIALGFISYCVMKIGTGRLRDLSPCVIIVALLFILKIVFIDAH" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11725-MONOMER" "6-phosphogluconate phosphatase" ["YieH"] "MSRIEAVFFDCDGTLVDSEVICSRAYVTMFQEFGITLDPEEVFKRFKGVKLYEIIDIVSLEHGVTLAKTEAEHVYRAEVARLFDSELEAIEGAGALLSAITAPMCVVSNGPNNKMQHSMGKLNMLHYFPDKLFSGYDIQRWKPDPALMFHAAKAMNVNVENCILVDDSVAGAQSGIDAGMEVFYFCADPHNKPIVHPKVTTFTHLSQLPELWKARGWDITA" [] ["CCO-CYTOSOL"] +"EG11726-MONOMER" "putative inner membrane protein" ["YieI", "CbrB"] "MSVSRRVIHHGLYFAVLGPLIGVLFLVLYIFFAKEPLVLWVIIHPIFLLLSITTGAIPALLTGVMVACLPEKIGSQKRYRCLAGGIGGVVITEIYCAVIVHIKGMASSELFENILSGDSLVVRIIPALLAGVVMSRIITRLPGLDISCPETDSLS" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11727-MONOMER" "PF03691 family colicin E2 tolerance protein CbrC" ["YieJ", "CbrC"] "MTQNIRPLPQFKYHPKPLETGAFEQDKTVECDCCEQQTSVYYSGPFYCVDEVEHLCPWCIADGSAAEKFAGSFQDDASIEGVEFEYDEEDEFAGIKNTYPDEMLKELVERTPGYHGWQQEFWLAHCGDFCVFIGYVGWNDIKDRLDEFANLEEDCENFGIRNSDLAKCLQKGGHCQGYLFRCLHCGKLRLWGDFS" [] ["CCO-CYTOSOL"] +"EG11728-MONOMER" "putative glucosamine-6-phosphate deaminase YieK" ["YieK"] "MKLIITEDYQEMSRVAAHHLLGYMSKTRRVNLAITAGSTPKGMYEYLTTLVKGKPWYDNCYFYNFDEIPFRGKEGEGVTITNLRNLFFTPAGIKEENIQKLTIDNYREHDQKLAREGGLDLVVLGLGADGHFCGNLPNTTHFHEQTVEFPIQGEMVDIVAHGELGGDFSLVPDSYVTMGPKSIMAAKNLLIIVSGAGKAQALKNVLQGPVTEDVPASVLQLHPSLMVIADKAAAAELALG" [] ["CCO-CYTOSOL"] +"EG11729-MONOMER" "putative hydrolase YieL" ["YieL", "putative xylanase"] "MNIKIAALTLAIASGISAQWAIAADMPASPAPTIPVKQYVTQVNADNSVTFRYFAPGAKNVSVVVGVPVPDNIHPMTKDEAGVWSWRTPILKGNLYEYFFNVDGVRSIDTGTAMTNPQRQVNSSMILVPGSYLDTRSVAHGDLIAITYHSNALQSERQMYVWTPPGYTGMGEPLPVLYFYHGFGDTGRSAIDQGRIPQIMDNLLAEGKIKPMLVVIPDTETDAKGIIPEDFVPQERRKVFYPLNAKAADRELMNDIIPLISKRFNVRKDADGRALAGLSQGGYQALVSGMNHLESFGWLATFSGVTTTTVPDEGVAARLNDPAAINQQLRNFTVVVGDKDVVTGKDIAGLKTELEQKKINFDYQEYPGLNHEMDVWRPAYAAFVQKLFK" [] ["CCO-CYTOSOL"] +"EG11730-MONOMER" "protein ViaA" ["YieD", "YieM", "ViaA", "stimulator of RavA ATPase activity"] "MLTLDTLNVMLAVSEEGLIEEMIIALLASPQLAVFFEKFPRLKAAITDDVPRWREALRSRLKDARVPPELTEEVMCYQQSQLLSTPQFIVQLPQILDLLHRLNSPWAEQARQLVDANSTITSALHTLFLQRWRLSLIVQATTLNQQLLEEEREQLLSEVQERMTLSGQLEPILADNNTAAGRLWDMSAGQLKRGDYQLIVKYGEFLNEQPELKRLAEQLGRSREAKSIPRNDAQMETFRTMVREPATVPEQVDGLQQSDDILRLLPPELATLGITELEYEFYRRLVEKQLLTYRLHGESWREKVIERPVVHKDYDEQPRGPFIVCVDTSGSMGGFNEQCAKAFCLALMRIALAENRRCYIMLFSTEIVRYELSGPQGIEQAIRFLSQQFRGGTDLASCFRAIMERLQSREWFDADAVVISDFIAQRLPDDVTSKVKELQRVHQHRFHAVAMSAHGKPGIMRIFDHIWRFDTGMRSRLLRRWRR" ["CCO-CYTOSOL", "CCO-MEMBRANE"] ["CCO-CYTOSOL"] +"EG11731-MONOMER" "regulatory ATPase RavA" ["YieN", "RavA"] "MAHPHLLAERISRLSSSLEKGLYERSHAIRLCLLAALSGESVFLLGPPGIAKSLIARRLKFAFQNARAFEYLMTRFSTPEEVFGPLSIQALKDEGRYERLTSGYLPEAEIVFLDEIWKAGPAILNTLLTAINERQFRNGAHVEKIPMRLLVAASNELPEADSSLEALYDRMLIRLWLDKVQDKANFRSMLTSQQDENDNPVPDALQVTDEEYERWQKEIGEITLPDHVFELIFMLRQQLDKLPDAPYVSDRRWKKAIRLLQASAFFSGRSAVAPVDLILLKDCLWYDAQSLNLIQQQIDVLMTGHAWQQQGMLTRLGAIVQRHLQLQQQQSDKTALTVIRLGGIFSRRQQYQLPVNVTASTLTLLLQKPLKLHDMEVVHISFERSALEQWLSKGGEIRGKLNGIGFAQKLNLEVDSAQHLVVRDVSLQGSTLALPGSSAEGLPGEIKQQLEELESDWRKQHALFSEQQKCLFIPGDWLGRIEASLQDVGAQIRQAQQC" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11733-MONOMER" "DNA-binding transcriptional regulator YieP" ["YieP"] "MPLSAQQLAAQKNLSYVLAEKLAQRILKGEYEPGTILPGEIELGEQFGVSRTAVREAVKTLTAKGMVLPRPRIGTRVMPQSNWNFLDQELLTWWMTEENFHQVIDHFLVMRICLEPQACLLAATVGTAEQKAHLNTLMAEMAALKENFRRERWIEVDMAWHEHIYEMSANPFLTSFASLFHSVYHTYFTSITSDTVIKLDLHQAIVDAIIQSDGDAAFKACQALLRSPDK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11734-MONOMER" "ATP-binding protein PhoH" ["PsiH", "PhoH"] "MVTSCTGHVLDNQRATTRGVFSSGSHLVTLHFQPHPFFSCVTDAVNGARSRFSAFYPKANYGLQGSQPSDVRAHNRAANGACDEYKQLKVLSMGRQKAVIKARREAKRVLRRDSRSHKQREEESVTSLVQMGGVEAIGMARDSRDTSPILARNEAQLHYLKAIESKQLIFATGEAGCGKTWISAAKAAEALIHKDVDRIIVTRPVLQADEDLGFLPGDIAEKFAPYFRPVYDVLVRRLGASFMQYCLRPEIGKVEIAPFAYMRGRTFENAVVILDEAQNVTAAQMKMFLTRLGENVTVIVNGDITQCDLPRGVCSGLSDALERFEEDEMVGIVRFGKEDCVRSALCQRTLHAYS" [] ["CCO-CYTOSOL"] +"EG11735-MONOMER" "heme-containing peroxidase/deferrochelatase" ["YcdB", "EfeB"] "MQYKDENGVNEPSRRRLLKVIGALALAGSCPVAHAQKTQSAPGTLSPDARNEKQPFYGEHQAGILTPQQAAMMLVAFDVLASDKADLERLFRLLTQRFAFLTQGGAAPETPNPRLPPLDSGILGGYIAPDNLTITLSVGHSLFDERFGLAPQMPKKLQKMTRFPNDSLDAALCHGDVLLQICANTQDTVIHALRDIIKHTPDLLSVRWKREGFISDHAARSKGKETPINLLGFKDGTANPDSQNDKLMQKVVWVTADQQEPAWTIGGSYQAVRLIQFRVEFWDRTPLKEQQTIFGRDKQTGAPLGMQHEHDVPDYASDPEGKVIALDSHIRLANPRTAESESSLMLRRGYSYSLGVTNSGQLDMGLLFVCYQHDLEKGFLTVQKRLNGEALEEYVKPIGGGYFFALPGVKDANDYFGSALLRV" ["CCO-PERI-BAC", "CCO-CYTOSOL"] ["CCO-PERI-BAC", "CCO-CYTOSOL"] +"EG11736-MONOMER" "D-glycero-β-D-manno-heptose-1,7-bisphosphate 7-phosphatase" ["GmhB", "YaeD", "D,D-heptose 1,7-bisphosphate phosphatase"] "MAKSVPAIFLDRDGTINVDHGYVHEIDNFEFIDGVIDAMRELKKMGFALVVVTNQSGIARGKFTEAQFETLTEWMDWSLADRDVDLDGIYYCPHHPQGSVEEFRQVCDCRKPHPGMLLSARDYLHIDMAASYMVGDKLEDMQAAVAANVGTKVLVRTGKPITPEAENAADWVLNSLADLPQAIKKQQKPAQ" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11738-MONOMER" "regulator of sigma D" ["YjaE", "Rsd", "regulator of σ70D), stationary phase protein"] "MLNQLDNLTERVRGSNKLVDRWLHVRKHLLVAYYNLVGIKPGKESYMRLNEKALDDFCQSLVDYLSAGHFSIYERILHKLEGNGQLARAAKIWPQLEANTQQIMDYYDSSLETAIDHDNYLEFQQVLSDIGEALEARFVLEDKLILLVLDAARVKHPA" [] ["CCO-CYTOSOL"] +"EG11739-MONOMER" "bacteriophage N4 adsorption protein" ["NfrB"] "MDWLLDVFATWLYGLKVIAITLAVIMFISGLDDFFIDVVYWVRRIKRKLSVYRRYPRMSYRELYKPDEKPLAIMVPAWNETGVIGNMAELAATTLDYENYHIFVGTYPNDPDTQRDVDEVCARFPNVHKVVCARPGPTSKADCLNNVLDAITQFERSANFAFAGFILHDAEDVISPMELRLFNYLVERKDLIQIPVYPFEREWTHFTSMTYIDEFSELHGKDVPVREALAGQVPSAGVGTCFSRRAVTALLADGDGIAFDVQSLTEDYDIGFRLKEKGMTEIFVRFPVVDEAKEREQRKFLQHARTSNMICVREYFPDTFSTAVRQKSRWIIGIVFQGFKTHKWTSSLTLNYFLWRDRKGAISNFVSFLAMLVMIQLLLLLAYESLWPDAWHFLSIFSGSAWLMTLLWLNFGLMVNRIVQRVIFVTGYYGLTQGLLSVLRLFWGNLINFMANWRALKQVLQHGDPRRVAWDKTTHDFPSVTGDTRSLRPLGQILLENQVITEEQLDTALRNRVEGLRLGGSMLMQGLISAEQLAQALAEQNGVAWESIDAWQIPSSLIAEMPASVALHYAVLPLRLENDELIVGSEDGIDPVSLAALTRKVGRKVRYVIVLRGQIVTGLRHWYARRRGHDPRAMLYNAVQHQWLTEQQAGEIWRQYVPHQFLFAEILTTLGHINRSAINVLLLRHERSSLPLGKFLVTEGVISQETLDRVLTIQRELQVSMQSLLLKAGLNTEQVAQLESENEGE" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11740-MONOMER" "bacteriophage N4 outer membrane receptor" ["NfrA"] "MKENNLNRVIGWSGLLLTSLLSTSALADNIGTSAEELGLSDYRHFVIYPRLDKALKAQKNNDEATAIREFEYIHQQVPDNIPLTLYLAEAYRHFGHDDRARLLLEDQLKRHPGDARLERSLAAIPVEVKSVTTVEELLAQQKACDAAPTLRCRSEVGQNALRLAQLPVARAQLNDATFAASPEGKTLRTDLLQRAIYLKQWSQADTLYNEARQQNTLSAAERRQWFDVLLAGQLDDRILALQSQGIFTDPQSYITYATALAYRGEKARLQHYLIENKPLFTTDAQEKSWLYLLSKYSANPVQALANYTVQFADNRQYVVGATLPVLLKEGQYDAAQKLLATLPANEMLEERYAVSVATRNKAEALRLARLLYQQEPANLTRLDQLTWQLMQNEQSREAADLLLQRYPFQGDARVSQTLMARLASLLESHPYLATPAKVAILSKPLPLAEQRQWQSQLPGIADNCPAIVRLLGDMSPSYDAAAWNRLAKCYRDTLPGVALYAWLQAEQRQPSAWQHRAVAYQAYQVEDYATALAAWQKISLHDMSNEDLLAAANTAQAAGNGAARDRWLQQAEKRGLGSNALYWWLHAQRYIPGQPELALNDLTRSINIAPSANAYVARATIYRQRHNVPAAVSDLRAALELEPNNSNTQAALGYALWDSGDIAQSREMLEPAHKGLPDDPALIRQLAYVNQRLDDMPATQHYARLVIDDIDNQALITPLTPEQNQQRFNFRRLHEEVGRRWTFSFDSSIGLRSGAMSTANNNVGGAAPGKSYRSYGQLEAEYRIGRNMLLEGDLLSVYSRVFADTGENGVMMPVKNPMSGTGLRWKPLRDQIFFIAVEQQLPLNGQNGASDTMLRASASFFNGGKYSDEWHPNGSGWFAQNLYLDAAQYIRQDIQAWTADYRVSWHQKVANGQTIEPYAHVQDNGYRDKGTQGAQLGGVGVRWNIWTGETHYDAWPHKVSLGVEYQHTFKAINQRNGERNNAFLTIGVHW" ["CCO-OUTER-MEM"] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"EG11741-MONOMER" "DNA-binding transcriptional repressor EnvR" ["YhdK", "AcrS", "EnvR"] "MAKRTKAEALKTRQELIETAIAQFAQHGVSKTTLNDIADAANVTRGAIYWHFENKTQLFNEMWLQQPSLRELIQEHLTAGLEHDPFQQLREKLIVGLQYIAKIPRQQALLKILYHKCEFNDEMLAEGVIREKMGFNPQTLREVLQACQQQGCVANNLDLDVVMIIIDGAFSGIVQNWLMNMAGYDLYKQAPALVDNVLRMFMPDENITKLIHQTNELSVM" [] ["CCO-CYTOSOL"] +"EG11743-MONOMER" "putative TonB-dependent receptor YddB" ["YddB"] "MKRVLIPGVILCGADVAQAVDDKNMYMHFFEEMTVYAPVPVPVNGNTHYTSESIERLPTGNGNISDLLRTNPAVRMDSTQSTSLNQGDIRPEKISIHGASPYQNAYLIDGISATNNLNPANESDASSATNISGMSQGYYLDVSLLDNVTLYDSFVPVEFGRFNGGVIDAKIKRFNADDSKVKLGYRTTRSDWLTSHIDENNKSAFNQGSSGSTYYSPDFKKNFYTLSFNQELADNFGVTAGLSRRQSDITRADYVSNDGIVAGRAQYKNVIDTALSKFTWFASDRFTHDLTLKYTGSSRDYNTSTFPQSDREMGNKSYGLAWDMDTQLAWAKLRTTVGWDHISDYTRHDHDIWYTELSCTYGDITGRCTRGGLGHISQAVDNYTFKTRLDWQKFAVGNVSHQPYFGAEYIYSDAWTERHNQSESYVINAAGKKTNHTIYHKGKGRLGIDNYTLYMADRISWRNVSLMPGVRYDYDNYLSNHNISPRFMTEWDIFANQTSMITAGYNRYYGGNILDMGLRDIRNSWTESVSGNKTLTRYQDLKTPYNDELAMGLQQKIGKNVIARANYVYREAHDQISKSSRTDSATKTTITEYNNDGKTKTHSFSLSFELAEPLHIRQVDINPQIVFSYIKSKGNLSLNNGYEESNTGDNQVVYNGNLVSYDSVPVADFNNPLKISLNMDFTHQPSGLVWANTLAWQEARKARIILGKTNAQYISEYSDYKQYVDEKLDSSLTWDTRLSWTPQFLQQQNLTISADILNVLDSKTAVDTTNTGVATYASGRTFWLDVSMKF" ["CCO-OUTER-MEM"] ["CCO-OUTER-MEM"] +"EG11744-MONOMER" "periplasmic metalloprotease" ["PqqE", "PqqM", "YddC", "PqqL"] "MEIIMRNLCFLLTLVATLLLPGRLIAAALPQDEKLITGQLDNGLRYMIYPHAHPKDQVNLWLQIHTGSLQEEDNELGVAHFVEHMMFNGTKTWPGNKVIETFESMGLRFGRDVNAYTSYDETVYQVSLPTTQKQNLQQVMAIFSEWSNAATFEKLEVDAERGVITEEWRAHQDAKWRTSQARRPFLLANTRNLDREPIGLMDTVATVTPAQLRQFYQRWYQPNNMTFIVVGDIDSKEALALIKDNLSKLPANKAAENRVWPTKAENHLRFNIINDKENRVNGIALYYRLPMVQVNDEQSFIEQAEWSMLVQLFNQRLQERIQSGELKTISGGTARSVKIAPDYQSLFFRVNARDDNMQDAANALMAELATIDQHGFSAEELDDVKSTRLTWLKNAVDQQAERDLRMLTSRLASSSLNNTPFLSPEETYQLSKRLWQQITVQSLAEKWQQLRKNQDAFWEQMVNNEVAAKKALSPAAILALEKEYANKKLAAYVFPGRNLSLTVDADPQAEISSKETLAENLTSLTLSNGARVILAKSAGEEQKLQIIAVSNKGDLSFPAQQKSLIALANKAVSGSGVGELSSSSLKRWSAENSVTMSSKVSGMNTLLSVSARTNNPEPGFQLINQRITHSTINDNIWASLQNAQIQALKTLDQRPAEKFAQQMYETRYADDRTKLLQENQIAQFTAADALAADRQLFSSPADITFVIVGNVAEDKLVALITRYLGSIKHSDSPLAAGKPLTRATDNASVTVKEQNEPVAQVSQWKRYDSRTPVNLPTRMALDAFNVALAKDLRVNIREQASGAYSVSSRLSVDPQAKDISHLLAFTCQPERHDELLTLANEVMVKRLAKGISEQELNEYQQNVQRSLDIQQRSVQQLANTIVNSLIQYDDPAAWTEQEQLLKQMTVENVNTAVKQYLSHPVNTYTGVLLPK" ["CCO-PERI-BAC", "CCO-CYTOSOL"] [] +"EG11748-MONOMER" "recombination-promoting nuclease RpnC" ["RpnC", "YadD"] "MDAPSTTPHDAVFKQFLMHAETARDFLEIHLPVELRELCDLNTLHLESGSFIEESLKGHSTDVLYSVQMQGNPGYLHVVIEHQSKPDKKMAFRMMRYSIAAMHRHLEADHDKLPLVVPILFYQGEATPYPLSMCWFDMFYSPELARRVYNSPFPLVDITITPDDEIMQHRRIAILELLQKHIRQRDLMLLLEQLVTLIDEGYTSGSQLVAMQNYMLQRGHTEQADLFYGVLRDRETGGESMMTLAQWFEEKGIEKGIQQGRQEVSQEFAQRLLSKGMSREDVAEMANLPLAEIDKVINLI" [] ["CCO-CYTOSOL"] +"EG11749-MONOMER" "putative polysaccharide deacetylase lipoprotein YadE" ["YadE"] "MYKQAVILLLMLFTASVSAALPARYMQTIENAAVWAQIGDKMVTVGNIRAGQIIAVEPTAASYYAFNFGFGKGFIDKGHLEPVQGRQKVEDGLGDLNKPLSNQNLVTWKDTPVYNAPSAGSAPFGVLADNLRYPILHKLKDRLNQTWYQIRIGDRLAYISALDAQPDNGLSVLTYHHILRDEENTRFRHTSTTTSVRAFNNQMAWLRDRGYATLSMVQLEGYVKNKINLPARAVVITFDDGLKSVSRYAYPVLKQYGMKATAFIVTSRIKRHPQKWNPKSLQFMSVSELNEIRDVFDFQSHTHFLHRVDGYRRPILLSRSEHNILFDFARSRRALAQFNPHVWYLSYPFGGFNDNAVKAANDAGFHLAVTTMKGKVKPGDNPLLLKRLYILRTDSLETMSRLVSNQPQG" [] ["CCO-CYTOSOL"] +"EG11750-MONOMER" "recombination-promoting nuclease RpnA" ["RpnA", "YhgA"] "MSKKQSSTPHDALFKLFLRQPDTARDFLAFHLPAPIHALCDMKTLKLESSSFIDDDLRESYSDVLWSVKTEQGPGYIYCLIEHQSTSNKLIAFRMMRYAIAAMQNHLDAGYKTLPMVVPLLFYHGIESPYPYSLCWLDCFADPKLARQLYASAFPLIDVTVMPDDEIMQHRRMALLELIQKHIRQRDLMGLVEQMACLLSSGYANDRQIKGLFNYILQTGDAVRFNDFIDGVAERSPKHKESLMTIAERLRQEGEQSKALHIAKIMLESGVPLADIMRFTGLSEEELAAASQ" [] ["CCO-CYTOSOL"] +"EG11757-MONOMER" "N6-L-threonylcarbamoyladenine synthase, TsaE subunit" ["TsaE", "YjeE", "tRNA adenosine(37) threonylcarbamoyltransferase complex, ATPase subunit"] "MMNRVIPLPDEQATLDLGERVAKACDGATVIYLYGDLGAGKTTFSRGFLQALGHQGNVKSPTYTLVEPYTLDNLMVYHFDLYRLADPEELEFMGIRDYFANDAICLVEWPQQGTGVLPDPDVEIHIDYQAQGREARVSAVSSAGELLLARLAG" [] ["CCO-CYTOSOL"] +"EG11758-MONOMER" "NAD(P)HX epimerase / NAD(P)HX dehydratase" ["Nnr", "YjeF"] "MTDHTMKKNPVSIPHTVWYADDIRRGEREAADVLGLTLYELMLRAGEAAFQVCRSAYPDARHWLVLCGHGNNGGDGYVVARLAKAVGIEVTLLAQESDKPLPEEAALAREAWLNAGGEIHASNIVWPESVDLIVDALLGTGLRQAPRESISQLIDHANSHPAPIVAVDIPSGLLAETGATPGAVINADHTITFIALKPGLLTGKARDVTGQLHFDSLGLDSWLAGQETKIQRFSAEQLSHWLKPRRPTSHKGDHGRLVIIGGDHGTAGAIRMTGEAALRAGAGLVRVLTRSENIAPLLTARPELMVHELTMDSLTESLEWADVVVIGPGLGQQEWGKKALQKVENFRKPMLWDADALNLLAINPDKRHNRVITPHPGEAARLLGCSVAEIESDRLHCAKRLVQRYGGVAVLKGAGTVVAAHPDALGIIDAGNAGMASGGMGDVLSGIIGALLGQKLSPYDAACAGCVAHGAAADVLAARFGTRGMLATDLFSTLQRIVNPEVTDKNHDESSNSAP" [] ["CCO-CYTOSOL"] +"EG11759-MONOMER" "putative oxidoreductase" ["YciK"] "MHYQPKQDLLNDRIILVTGASDGIGREAAMTYARYGATVILLGRNEEKLRQVASHINEETGRQPQWFILDLLTCTSENCQQLAQRIAVNYPRLDGVLHNAGLLGDVCPMSEQNPQVWQDVMQVNVNATFMLTQALLPLLLKSDAGSLVFTSSSVGRQGRANWGAYAASKFATEGMMQVLADEYQQRLRVNCINPGGTRTAMRASAFPTEDPQKLKTPADIMPLYLWLMGDDSRRKTGMTFDAQPGRKPGISQ" [] ["CCO-CYTOSOL"] +"EG11760-MONOMER" "uncharacterized protein YdcD" ["YdcD"] "MLQIIRGKLVIFLITLCLFVVYLGFDNNSNSDIVFYGHKTPKSVEIYLSEKNIIYKIINDQKISRGNGHFISIMVNNYRTHCGVVDINLNFFNDILYSVRLKNISKLENMEFCATKQRVYFSDKNKKASYKIINYGDYYDVDYYDNNLKNEVFDWIGKWS" [] ["CCO-CYTOSOL"] +"EG11761-MONOMER" "tautomerase PptA" ["PptA", "YdcE"] "MPHIDIKCFPRELDEQQKAALAADITDVIIRHLNSKDSSISIALQQIQPESWQAIWDAEIAPQMEALIKKPGYSMNA" [] ["CCO-CYTOSOL"] +"EG11762-MONOMER" "glutathione transferase-like protein YibF" ["YibF", "glutathione transferase-like protein possibly involved in selenium metabolism"] "MKLVGSYTSPFVRKLSILLLEKGITFEFINELPYNADNGVAQFNPLGKVPVLVTEEGECWFDSPIIAEYIELMNVAPAMLPRDPLESLRVRKIEALADGIMDAGLVSVREQARPAAQQSEDELLRQREKINRSLDVLEGYLVDGTLKTDTVNLATIAIACAVGYLNFRRVAPGWCVDRPHLVKLVENLFSRESFARTEPPKA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11763-MONOMER" "tetratricopeptide-like domain-containing protein YibG" ["YibG"] "MKACLLLFFYFSFICQLHGADVKIKQNESMMGSTAMTYDLSEEKLMKLKYKSQHGDSEASFRLYQYYCFTKNNIYKQLRFLERSASQGNVTAQFNYGVFLSDTNPTLSEYYNLNRAIYWMEFAVNNGNIDAKSKLQELKKLKRMDRRKNKENP" [] ["CCO-CYTOSOL"] +"EG11764-MONOMER" "inner membrane protein YibH" ["YibH"] "MDLLIVLTYVALAWAVFKIFRIPVNQWTLATAALGGVFLVSGLILLMNYNHPYTFTAQKAVIAIPITPQVTGIVTEVTDKNNQLIQKGEVLFKLDPVRYQARVDRLQADLMTATHNIKTLRAQLTEAQANTTQVSAERDRLFKNYQRYLKGSQAAVNPFSERDIDDARQNFLAQDALVKGSVAEQAQIQSQLDSMVNGEQSQIVSLRAQLTEAKYNLEQTVIRAPSNGYVTQVLIRPGTYAAALPLRPVMVFIPEQKRQIVAQFRQNSLLRLKPGDDAEVVFNALPGQVFHGKLTSILPVVPGGSYQAQGVLQSLTVVPGTDGVLGTIELDPNDDIDALPDGIYAQVAVYSDHFSHVSVMRKVLLRMTSWMHYLYLDH" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11765-MONOMER" "DUF3302 domain-containing protein YibI" ["YibI"] "MFLNYFALGVLIFVFLVIFYGIIAIHDIPYLIAKKRNHPHADAIHTAGWVSLFTLHVIWPFLWIWATLYQPERGWGMQSHVASQEKATDPEIAALSDRISRLEHQLAAEKKTDYSTFPEI" ["CCO-PM-BAC-NEG"] [] +"EG11766-MONOMER" "putative RHS domain-containing protein YibJ" ["RhsJ", "YibJ"] "MQMLDRLESEILADRVSEESRRWLASCGLTVEQMKNQMDPVYTPARKIHLYHCDHRGLPLALISTEGATAWCAEYDEWGNLLSDENPHHLQQLIRLPGQQYDEESGLYYNRHRYYDPLLGRYITQDPIGLKGGWNFYQYPLNPVINVDPQGLVDINLYPESDLIHSVADEINIPGVFTIGGHGTPTSIESATRSIMTAKDLAYLIKFDGNYKDGMTVWLFSCNTGKGQNSFAS" [] ["CCO-CYTOSOL"] +"EG11768-MONOMER" null ["MnmH", "SelU", "YbbB"] "MQERHTEQDYRALLIADTPIIDVRAPIEFEHGAMPAAINLPLMNNDERAAVGTCYKQQGSDAALALGHKLVAGEIRQQRMDAWRAACLQNPQGILCCARGGQRSHIVQSWLHAAGIDYPLVEGGYKALRQTAIQATIELAQKPIVLIGGCTGSGKTLLVQQQPNGVDLEGLARHRGSAFGRTLQPQLSQASFENLLAAEMLKTDARQNLRLWVLEDESRMIGSNHLPECLRERMTQAAIAVVEDPFEIRLERLNEEYFLRMHHDFTHAYGDEQGWQEYCEYLHHGLSAIKRRLGLQRYNELAARLDAALTTQLTTGSTDGHLAWLVPLLEEYYDPMYRYQLEKKAEKVVFRGEWAEVAEWVKAR" [] ["CCO-CYTOSOL"] +"EG11769-MONOMER" "PF15631 family protein YbbC" ["YbbC"] "MKYSSIFSMLSFFILFACNETAVYGSDENIIFMRYVEKLHLDKYSVKNTVKTETMAIQLAEIYVRYRYGERIAEEEKPYLITELPDSWVVEGAKLPYEVAGGVFIIEINKKNGCVLNFLHSK" [] ["CCO-MEMBRANE"] +"EG11770-MONOMER" "putative uncharacterized protein YbbD" ["YbbD"] "MLAISSNLSKMIIFIFAIIIIVVLCVITYLYLYKDESLVSKHYINYMAIPENDGVFTWLPDFFPHVAVDISIYTNVEDDYFFLIFP*QMMMGVGLRKH*Q*GPGNKWRKSYQRMIQIQKKCGVNMVRYQGKGMV*TFFLLVKLMLRIIL*QILELDCLMLVQ" [] ["CCO-PM-BAC-NEG"] +"EG11775-MONOMER" "ribbon-helix-helix domain-containing protein YbfE" ["YbfE", "LexA-regulated protein"] "MAKEQTDRTTLDLFAHERRPGRPKTNPLSRDEQLRINKRNQLKRDKVRGLKRVELKLNAEAVEALNELAESRNMSRSELIEEMLMQQLAALRSQGIV" [] ["CCO-CYTOSOL"] +"EG11776-MONOMER" "esterase" ["YbfF"] "MKLNIRAQTAQNQHNNSPIVLVHGLFGSLDNLGVLARDLVNDHNIIQVDMRNHGLSPRDPVMNYPAMAQDLVDTLDAQQIDKATFIGHSMGGKAVMALTALASDRIDKLVAIDIAPVDYHVRRHDEIFAAINAVSESDAQTRQQAAAIMRQHLNEEGVIQFLLKSFVDGEWRFNVPVLWDQYPHIVGWEKIPAWDHPALFIPGGNSPYVSEQYRDDLLAQFPQARAHVIAGAGHWVHAEKPDAVLRAIRRYLND" ["CCO-CYTOSOL"] [] +"EG11778-MONOMER" "PF10964 domain-containing protein YbfG" ["YbfG", "YbfH"] "MREMNQLVNTEDSAWPIIQNWLKDATNHTELLPVNKDLAETALYQLQVTTKSPMGALVYGSGGLLIDNG*LRIAGSGHPRLPRDPVSWTQRPEFAGVRALPIADDVAGVIFALNGGDLGEDTGCVYYFAPDTLNWESLEVGYSEFLQWALSGDLDTFYENVRWQQWREDVIKLSATEAFTFYPFLWVQSEEARTRKVISLTELWEMQYQMKETFTQ" [] [] +"EG11779-MONOMER" "tRNA m7G46 methyltransferase" ["YggH", "TrmB", "TrmI"] "MKNDVISPEFDENGRPLRRIRSFVRRQGRLTKGQEHALENYWPVMGVEFSEDMLDFPALFGREAPVTLEIGFGMGASLVAMAKDRPEQDFLGIEVHSPGVGACLASAHEEGLSNLRVMCHDAVEVLHKMIPDNSLRMVQLFFPDPWHKARHNKRRIVQVPFAELVKSKLQLGGVFHMATDWEPYAEHMLEVMSSIDGYKNLSESNDYVPRPASRPVTKFEQRGHRLGHGVWDLMFERVK" [] ["CCO-CYTOSOL"] +"EG11780-MONOMER" "AIDA-I family autotransporter YneO" ["YdeU", "YneO", "YdeK", "OrfT"] "MNRIYRVIWNCTLQVFQACSELTRRAGKTSTVNLRKSSGLTTKFSRLTLGVLLALSGSASGASLEVDNDQITNIDTDVAYDAYLVGWYGTGVLNILAGGNASLTTITTSVIGANEDSEGTVNVLGGTWRLYDSGNNARPLNVGQSGTGTLNIKQKGHVDGGYLRLGSSTGGVGTVNVEGEDSVLTTELFEIGSYGTGSLNITDKGYVTSSIVAILGYQAGSNGQVVVEKGGEWLIKNNDSSIEFQIGNQGTGEATIREGGLVTAENTIIGGNATGIGTLNVQDQDSVITVRRLYNGYFGNGTVNISNNGLINNKEYSLVGVQDGSHGVVNVTDKGHWNFLGTGEAFRYIYIGDAGDGELNVSSEGKVDSGIITAGMKETGTGNITVKDKNSVITNLGTNLGYDGHGEMNISNQGLVVSNGGSSLGYGETGVGNVSITTGGMWEVNKNVYTTIGVAGVGNLNISDGGKFVSQNITFLGDKASGIGTLNLMDATSSFDTVGINVGNFGSGIVNVSNGATLNSTGYGFIGGNASGKGIVNISTDSLWNLKTSSTNAQLLQVGVLGTGELNITTGGIVKARDTQIALNDKSKGDVRVDGQNSLLETFNMYVGTSGTGTLTLTNNGTLNVEGGEVYLGVFEPAVGTLNIGAAHGEAAADAGFITNATKVEFGLGEGVFVFNHTNNSDAGYQVDMLITGDDKDGKVIHDAGHTVFNAGNTYSGKTLVNDGLLTIASHTADGVTGMGSSEVTIANPGTLDILASTNSAGDYTLTNALKGDGLMRVQLSSSDKMFGFTHATGTEFAGVAQLKDSTFTLERDNTAALTHAMLQSDSENTTSVKVGEQSIGGLAMNGGTIIFDTDIPAATLAEGYISVDTLVVGAGDYTWKGRNYQVNGTGDVLIDVPKPWNDPMANNPLTTLNLLEHDDSHVGVQLVKAQTVIGSGGSLTLRDLQGDEVEADKTLHIAQNGTVVAEGDYGFRLTTAPGNGLYVNYGLKALNIHGGQKLTLAEHGGAYGATADMSAKIGGEGDLAINTVRQVSLSNGQNDYQGATYVQMGTLRTDADGALGNTRELNISNAAIVDLNGSTQTVETFTGQMGSTVLFKEGALTVNKGGISQGELTGGGNLNVTGGTLAIEGLNARYNALTSISPNAEVSLDNTQGLGRGNIANDGLLTLKNVTGELRNSISGKGIVSATARTDVELDGDNSRFVGQFNIDTGSALSVNEQKNLGDASVINNGLLTISTERSWAMTHSISGSGDVTKLGTGILTLNNDSAAYQGTTDIVGGEIAFGSDSAINMASQHINIHNSGVMSGNVTTAGDMNVMPGGGTACR*NHYRRQPGEWRHGSNE*RRGETGECTDR*RQLYRKQWPDDVQRDAGRR*FAHR*DERERRYPREHSRSG**HWRRRCTNGQRY*TH*GWR*FCR*LRADHRNCRSWGLRLHAG*REGE*REKLVSDQ*MGRRNASGYTRSHQ*SPCCGSGRPISLSPGGRKLYQQHCRSQLAV*PSFTRPSG*AAVYRFTAFSGVGKQYVDASCRRARTFKGR*RSAKYSG*PLCIAARRRFGAVE*QRAGSLASWRDGRLRQSAQ*YSE*SCGL*IGWAHQRLQRWAVRDLVSERCE*DRRLC*QLGAV*LV**QRQFR*PFC*RL*FSRCDGLC*GWVYL*SGNI*RQRRDAEYLVRPATGANHLDGCERFRPYPERRNAH*NGRRRKCANATWGENLPEQPSPA*RW*TA*VPALH*SELDQQ*QSLRREDEWSNRRP*RCA*SR*STYRG*GESK*QP*PVGECRCATR**RL*RYSGHAGSEI*L" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11782-MONOMER" "SsrA-binding protein" ["SmqB", "SmpB", "small protein B"] "MTKKKAHKPGSATIALNKRARHEYFIEEEFEAGLALQGWEVKSLRAGKANISDSYVLLRDGEAFLFGANITPMAVASTHVVCDPTRTRKLLLNQRELDSLYGRVNREGYTVVALSLYWKNAWCKVKIGVAKGKKQHDKRSDIKEREWQVDKARIMKNAHR" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11783-MONOMER" "CP4-57 prophage; integrase IntA" ["IntX", "IntA", "SlpA"] "MARKTKPLTDTEIKAAKPKDADYQLYDGDGLTLLIKSSGSKLWQFRYYRPLTKQRTKQSFGAYPAVSLSDARKLRAESKVLLAKDIDPQEHQKEQVRNSQEAKTNTFLLVAERWWNVKKTSVTEDYADDIWRSLERDIFPAIGDISITEIKAHTLVKAVQPVQARGALETVRRLCQRINEVMIYAQNTGLIDAVPSVNIGKAFEKPQKKNMPSIRPDQLPQLMHTMRTASISMSTRCLFMWQLLTITRPAEAAEARWDEIDFNASEWKIPAARMKMNRDHTVPLSDGALAILEMMKPLSGGREFIFPSRIKPNQPMNSQTVNAALKRAGLGGVLVSHGLRSIASTALNEEGFPPDVIEAALAHVDKNEVRRAYNRSDYLEQRRPMMQWWADLVKAADSGSIVLTHLSKIRLVG" [] ["CCO-CYTOSOL"] +"EG11784-MONOMER" "stress-induced alternate pyruvate formate-lyase subunit" ["GrcA", "YfiD"] "MITGIQITKAANDDLLNSFWLLDSEKGEARCIVAKAGYAEDEVVAVSKLGDIEYREVPVEVKPEVRVEGGQHLNVNVLRRETLEDAVKHPEKYPQLTIRVSGYAVRFNSLTPEQQRDVIARTFTESL" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11785-MONOMER" "putative LysR-type DNA-binding transcriptional regulator YfiE" ["YfiE"] "MDLRRFITLKTVVEEGSFLRASQKLCCTQSTVTFHIQQLEQEFSVQLFEKIGRRMCLTREGKKLLPHIYELTRVMDTLREAAKKESDPDGELRVVSGETLLSYRMPQVLQRFRQRAPKVRLSLQSLNCYVIRDALLNDEADVGVFYRVGNDDALNRRELGEQSLVLVASPQIADVDFTEPGRHNACSFIINEPQCVFRQIFESTLRQRRITVENTIELISIESIKRCVAANIGVSYLPRFAVAKELECGELIELPFGEQSQTITAMCAHHAGKAVSPAMHTFIQCVEESFVAG" [] ["CCO-CYTOSOL"] +"EG11786-MONOMER" "putative methyltransferase YfiF" ["YfiF"] "MNDEMKGKSGKVKVMYVRSDDDSDKRTHNPRTGKGGGRPGKSRADGGRRPARDDKQSQPRDRKWEDSPWRTVSRAPGDETPEKADHGGISGKSFIDPEVLRRQRAEETRVYGENACQALFQSRPEAIVRAWFIQSVTPRFKEALRWMAANRKAYHVVDEAELTKASGTEHHGGVCFLIKKRNGTTVQQWVSQAGAQDCVLALENESNPHNLGGMMRSCAHFGVKGVVVQDAALLESGAAIRTAEGGAEHVQPITGDNIVNVLDDFRQAGYTVVTTSSEQGKPLFKTSLPAKMVLVLGQEYEGLPDAARDPNDLRVKIDGTGNVAGLNISVATGVLLGEWWRQNKA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11790-MONOMER" "colanic acid biosynthesis fucosyltransferase WcaI" ["YefD", "WcaI"] "MKILVYGINYSPELTGIGKYTGEMVEWLAAQGHEVRVITAPPYYPQWQVGENYSAWRYKREEGAATVWRCPLYVPKQPSTLKRLLHLGSFAVSSFFPLMAQRRWKPDRIIGVVPTLFCAPGMRLLAKLSGARTVLHIQDYEVDAMLGLGLAGKGKGGKVAQLATAFERSGLHNVDNVSTISRSMMNKAIEKGVAAENVIFFPNWSEIARFQHVADADVDALRNQLDLPDNKKIILYSGNIGEKQGLENVIEAADRLRDEPLIFAIVGQGGGKARLEKMAQQRGLRNMQFFPLQSYDALPALLKMGDCHLVVQKRGAADAVLPSKLTNILAVGGNAVITAEAYTELGQLCETFPGIAVCVEPESVEALVAGIRQALLLPKHNTVAREYAERTLDKENVLRQFINDIRG" [] ["CCO-CYTOSOL"] +"EG11793-MONOMER" "DUF423 domain-containing inner membrane protein YgdD" ["YgdD"] "MTSRFMLIFAAISGFIFVALGAFGAHVLSKTMGAVEMGWIQTGLEYQAFHTLAILGLAVAMQRRISIWFYWSSVFLALGTVLFSGSLYCLALSHLRLWAFVTPVGGVSFLAGWALMLVGAIRLKRKGVSHE" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11794-MONOMER" "23S rRNA 2'-O-ribose C2498 methyltransferase" ["YgdE", "RlmM", "ribosomal RNA large subunit methyltransferase M"] "MNKVVLLCRPGFEKECAAEITDKAGQREIFGFARVKENAGYVIYECYQPDDGDKLIRELPFSSLIFARQWFVVGELLQHLPPEDRITPIVGMLQGVVEKGGELRVEVADTNESKELLKFCRKFTVPLRAALRDAGVLANYETPKRPVVHVFFIAPGCCYTGYSYSNNNSPFYMGIPRLKFPADAPSRSTLKLEEAFHVFIPADEWDERLANGMWAVDLGACPGGWTYQLVKRNMWVYSVDNGPMAQSLMDTGQVTWLREDGFKFRPTRSNISWMVCDMVEKPAKVAALMAQWLVNGWCRETIFNLKLPMKKRYEEVSHNLAYIQAQLDEHGINAQIQARQLYHDREEVTVHVRRIWAAVGGRRDER" [] ["CCO-CYTOSOL"] +"EG11796-MONOMER" "lipoate—protein ligase A" ["YjjF", "Slr", "LplA", "Slr1", "lipoyl-protein ligase A"] "MSTLRLLISDSYDPWFNLAVEECIFRQMPATQRVLFLWRNADTVVIGRAQNPWKECNTRRMEEDNVRLARRSSGGGAVFHDLGNTCFTFMAGKPEYDKTISTSIVLNALNALGVSAEASGRNDLVVKTVEGDRKVSGSAYRETKDRGFHHGTLLLNADLSRLANYLNPDKKKLAAKGITSVRSRVTNLTELLPGITHEQVCEAITEAFFAHYGERVEAEIISPNKTPDLPNFAETFARQSSWEWNFGQAPAFSHLLDERFTWGGVELHFDVEKGHITRAQVFTDSLNPAPLEALAGRLQGCLYRADMLQQECEALLVDFPEQEKELRELSAWMAGAVR" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11798-MONOMER" "inner membrane protein HofC" ["YacD", "HopC", "HofC"] "MASKQLWRWHGITGDGNAQDGMLWAESRTLLLMALQQQMVTPLSLKRIAINSAQWRGDKSAEVIHQLATLLKAGLTLSEGLALLAEQHPSKQWQALLQSLAHDLEQGIAFSNALLPWSEVFPPLYQAMIRTGELTGKLDECCFELARQQKAQRQLTDKVKSALRYPIIILAMAIMVVVAMLHFVLPEFAAIYKTFNTPLPALTQGIMTLADFSGEWSWLLVLFGFLLAIANKLLMRRPTWLIVRQKLLLRIPIMGSLMRGQKLTQIFTILALTQSAGITFLQGVESVRETMRCPYWVQLLTQIQHDISNGQPIWLALKNTGEFSPLCLQLVRTGEASGSLDLMLDNLAHHHRENTMALADNLAALLEPALLIITGGIIGTLVVAMYLPIFHLGDAMSGMG" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11800-MONOMER" "hydrogenase 2 membrane subunit" ["HybB"] "MSHDPQPLGGKIISKPVMIFGPLIVICMLLIVKRLVFGLGSVSDLNGGFPWGVWIAFDLLIGTGFACGGWALAWAVYVFNRGQYHPLVRPALLASLFGYSLGGLSITIDVGRYWNLPYFYIPGHFNVNSVLFETAVCMTIYIGVMALEFAPALFERLGWKVSLQRLNKVMFFIIALGALLPTMHQSSMGSLMISAGYKVHPLWQSYEMLPLFSLLTAFIMGFSIVIFEGSLVQAGLRGNGPDEKSLFVKLTNTISVLLAIFIVLRFGELIYRDKLSLAFAGDFYSVMFWIEVLLMLFPLVVLRVAKLRNDSRMLFLSALSALLGCATWRLTYSLVAFNPGGGYAYFPTWEELLISIGFVAIEICAYIVLIRLLPILPPLKQNDHNRHEASKA" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11802-MONOMER" "hydrogenase 2 maturation protease" ["HybD"] "MRILVLGVGNILLTDEAIGVRIVEALEQRYILPDYVEILDGGTAGMELLGDMANRDHLIIADAIVSKKNAPGTMMILRDEEVPALFTNKISPHQLGLADVLSALRFTGEFPKKLTLVGVIPESLEPHIGLTPTVEAMIEPALEQVLAALRESGVEAIPREAIHD" [] ["CCO-CYTOSOL"] +"EG11803-MONOMER" "hydrogenase 2-specific chaperone" ["HybE"] "MTEEIAGFQTSPKAQVQAAFEEIARRSMHDLSFLHPSMPVYVSDFTLFEGQWTGCVITPWMLSAVIFPGPDQLWPLRKVSEKIGLQLPYGTMTFTVGELDGVSQYLSCSLMSPLSHSMSIEEGQRLTDDCARMILSLPVTNPDVPHAGRRALLFGRRSGENA" [] ["CCO-CYTOSOL"] +"EG11804-MONOMER" "hydrogenase maturation protein HybF" ["HybF", "protein involved with the maturation of hydrogenases 1 and 2"] "MHELSLCQSAVEIIQRQAEQHDVKRVTAVWLEIGALSCVEESAVRFSFEIVCHGTVAQGCDLHIVYKPAQAWCWDCSQVVEIHQHDAQCPLCHGERLRVDTGDSLIVKSIEVE" [] ["CCO-CYTOSOL"] +"EG11805-MONOMER" "hydrogenase maturation factor HybG" ["HybG", "hydrogenase 2 accessory protein"] "MCIGVPGQVLAVGEDIHQLAQVEVCGIKRDVNIALICEGNPADLLGQWVLVHVGFAMSIIDEDEAKATLDALRQMDYDITSA" [] ["CCO-CYTOSOL"] +"EG11806-MONOMER" "DUF533 domain-containing inner membrane protein YebE" ["YebE"] "MANWLNQLQSLLGQSSSSTSSSADQGLVKLLVPGALGGLAGLLVANKSARKLLTKYGTNALLVGGGAVAGTVLWNKYKDKIRAAHQDEPQFGAQSTPLDERTARLILALVFAAKSDGHIDAKERAAIDQQLRGAGVEEQGRVLIEQAIEQPLDPQRLATGVRNEEEALEIYFLSCAAIDIDHFMERSYLNALGDALKIPQDVRDGIERDLEQQKRTLAE" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11807-MONOMER" "secreted protein YebF" ["YebF"] "MKKRGAFLGLLLVSACASVFAANNETSKSVTFPKCEDLDAAGIAASVKRDYQQNRVARWADDQKIVGQADPVAWVSLQDIQGKDDKWSVPLTVRGKSADIHYQVSVDCKAGMAEYQRR" [] ["CCO-PERI-BAC", "CCO-EXTRACELLULAR"] +"EG11808-MONOMER" "DNA damage-inducible protein YebG" ["YebG"] "MAVEVKYVVIREGEEKMSFTSKKEADAYDKMLDTADLLDTWLTNSPVQMEDEQREALSLWLAEQKDVLSTILKTGKLPSPQVVGAESEEEDASHAA" ["CCO-CYTOSOL"] [] +"EG11811-MONOMER" "putative acyl-CoA dehydrogenase AidB" ["AidB", "isovaleryl-CoA dehydrogenase and DNA-binding transcriptional repressor"] "MHWQTHTVFNQPIPLNNSNLYLSDGALCEAVTREGAGWDSDFLASIGQQLGTAESLELGRLANVNPPELLRYDAQGRRLDDVRFHPAWHLLMQALCTNRVHNLAWEEDARSGAFVARAARFMLHAQVEAGSLCPITMTFAATPLLLQMLPAPFQDWTTPLLSDRYDSHLLPGGQKRGLLIGMGMTEKQGGSDVMSNTTRAERLEDGSYRLVGHKWFFSVPQSDAHLVLAQTAGGLSCFFVPRFLPDGQRNAIRLERLKDKLGNRSNASCEVEFQDAIGWLLGLEGEGIRLILKMGGMTRFDCALGSHAMMRRAFSLAIYHAHQRHVFGNPLIQQPLMRHVLSRMALQLEGQTALLFRLARAWDRRADAKEALWARLFTPAAKFVICKRGMPFVAEAMEVLGGIGYCEESELPRLYREMPVNSIWEGSGNIMCLDVLRVLNKQAGVYDLLSEAFVEVKGQDRYFDRAVRRLQQQLRKPAEELGREITHQLFLLGCGAQMLKYASPPMAQAWCQVMLDTRGGVRLSEQIQNDLLLRATGGVCV" [] ["CCO-CYTOSOL"] +"EG11812-MONOMER" "putative acid—amine ligase YjfC" ["YjfC"] "MLRHNVPVRRDLDQIAADNGFDFHIIDNEIYWDESRAYRFTLRQIEEQIEKPTAELHQMCLEVVDRAVKDEEILTQLAIPPLYWDVIAESWRARDPSLYGRMDFAWCGNAPVKLLEYNADTPTSLYESAYFQWLWLEDARRSGIIPRDADQYNAIQERLISRFSELYSREPFYFCCCQDTDEDRSTVLYLQDCAQQAGQESRFIYIEDLGLGVGGVLTDLDDNVIQRAFKLYPLEWMMRDDNGPLLRKRREQWVEPLWKSILSNKGLMPLLWRFFPGHPNLLASWFDGEKPQIAAGESYVRKPIYSREGGNVTIFDGKNNVVDHADGDYADEPMIYQAFQPLPRFGDSYTLIGSWIVDDEACGMGIREDNTLITKDTSRFVPHYIAG" [] ["CCO-CYTOSOL"] +"EG11815-MONOMER" "cytochrome c menaquinol dehydrogenase TorC" ["TorC"] "MRKLWNALRRPSARWSVLALVAIGIVIGIALIVLPHVGIKVTSTTEFCVSCHSMQPVYEEYKQSVHFQNASGVRAECHDCHIPPDIPGMVKRKLEASNDIYQTFIAHSIDTPEKFEAKRAELAEREWARMKENNSATCRSCHNYDAMDHAKQHPEAARQMKVAAKDNQSCIDCHKGIAHQLPDMSSGFRKQFDELRASANDSGDTLYSIDIKPIYAAKGDKEASGSLLPASEVKVLKRDGDWLQIEITGWTESAGRQRVLTQFPGKRIFVASIRGDVQQQVKTLEKTTVADTNTEWSKLQATAWMKKGDMVNDIKPIWAYADSLYNGTCNQCHGAPEIAHFDANGWIGTLNGMIGFTSLDKREERTLLKYLQMNASDTAGKAHGDKKEEK" ["CCO-PERI-BAC", "CCO-MEMBRANE"] ["CCO-CW-BAC-NEG", "CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"EG11816-MONOMER" "2-C-methyl-D-erythritol 2,4-cyclodiphosphate synthase" ["YgbB", "IspF"] "MRIGHGFDVHAFGGEGPIIIGGVRIPYEKGLLAHSDGDVALHALTDALLGAAALGDIGKLFPDTDPAFKGADSRELLREAWRRIQAKGYTLGNVDVTIIAQAPKMLPHIPQMRVFIAEDLGCHMDDVNVKATTTEKLGFTGRGEGIACEAVALLIKATK" [] ["CCO-CYTOSOL"] +"EG11817-MONOMER" "broad specificity 5'(3')-nucleotidase and polyphosphatase" ["UmpG", "YgbC", "SurE"] "MRILLSNDDGVHAPGIQTLAKALREFADVQVVAPDRNRSGASNSLTLESSLRTFTFENGDIAVQMGTPTDCVYLGVNALMRPRPDIVVSGINAGPNLGDDVIYSGTVAAAMEGRHLGFPALAVSLDGHKHYDTAAAVTCSILRALCKEPLRTGRILNINVPDLPLDQIKGIRVTRCGTRHPADQVIPQQDPRGNTLYWIGPPGGKCDAGPGTDFAAVDEGYVSITPLHVDLTAHSAQDVVSDWLNSVGVGTQW" [] ["CCO-CYTOSOL"] +"EG11820-MONOMER" "protein YceI" ["YceI"] "MKKSLLGLTFASLMFSAGSAVAADYKIDKEGQHAFVNFRIQHLGYSWLYGTFKDFDGTFTFDEKNPAADKVNVTINTTSVDTNHAERDKHLRSADFLNTAKYPQATFTSTSVKKDGDELDITGDLTLNGVTKPVTLEAKLIGQGDDPWGGKRAGFEAEGKIKLKDFNIKTDLGPASQEVDLIISVEGVQQK" [] ["CCO-PERI-BAC"] +"EG11822-MONOMER" "γ-glutamylputrescine oxidase" ["YcjA", "OrdL", "PuuB"] "MTEHTSSYYAASANKYAPFDTLNESITCDVCVVGGGYTGLSSALHLAEAGFDVVVLEASRIGFGASGRNGGQLVNSYSRDIDVIEKSYGMDTARMLGSMMFEGGEIIRERIKRYQIDCDYRPGGLFVAMNDKQLATLEEQKENWERYGNKQLELLDANAIRREVASDRYTGALLDHSGGHIHPLNLAIGEADAIRLNGGRVYELSAVTQIQHTTPAVVRTAKGQVTAKYVIVAGNAYLGDKVEPELAKRSMPCGTQVITTERLSEDLARSLIPKNYCVEDCNYLLDYYRLTADNRLLYGGGVVYGARDPDDVERLVVPKLLKTFPQLKGVKIDYRWTGNFLLTLSRMPQFGRLDTNIYYMQGYSGHGVTCTHLAGRLIAELLRGDAERFDAFANLPHYPFPGGRTLRVPFTAMGAAYYSLRDRLGV" [] ["CCO-CYTOSOL"] +"EG11824-MONOMER" "DedA family protein YghB" ["YghB"] "MAVIQDIIAALWQHDFAALADPHIVSVVYFVMFATLFLENGLLPASFLPGDSLLILAGALIAQGVMDFLPTIAILTAAASLGCWLSYIQGRWLGNTKTVKGWLAQLPAKYHQRATCMFDRHGLLALLAGRFLAFVRTLLPTMAGISGLPNRRFQFFNWLSGLLWVSVVTSFGYALSMIPFVKRHEDQVMTFLMILPIALLTAGLLGTLFVVIKKKYCNA" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11825-MONOMER" "PF02567 family protein YddE" ["YddE"] "MKPQVYHVDAFTSQPFRGNSAGVVFPADNLSEAQMQLIARELGHSETAFLLHSDDSDVRIRYFTPTVEVPICGHATVAAHYVRAKVLGLGNCTIWQTSLAGKHRVTIEKHNDDYRISLEQGTPGFEPPLEGETRAAIINALHLTEDDILPGLPIQVATTGHSKVMIPLKPEVDIDALSPDLNALTAISKKIGCNGFFPFQIRPGKNETDGRMFSPAIGIVEDPVTGNANGPMGAWLVHHNVLPHDGNVLRVKGHQGRALGRDGMIEVTVTIRDNQPEKVTISGTAVILFHAEWAIEL" [] ["CCO-CYTOSOL"] +"EG11826-MONOMER" "protein-tyrosine kinase Etk" ["YccC", "Etk", "autophosphorylating protein tyrosine kinase"] "MTTKNMNTPPGSTQENEIDLLRLVGELWDHRKFIISVTALFTLIAVAYSLLSTPIYQADTLVQVEQKQGNAILSGLSDMIPNSSPESAPEIQLLQSRMILGKTIAELNLRDIVEQKYFPIVGRGWARLTKEKPGELAISWMHIPQLNGQDQQLTLTVGENGHYTLEGEEFTVNGMVGQRLEKDGVALTIADIKAKPGTQFVLSQRTELEAINALQETFTVSERSKESGMLELTMTGDDPQLITRILNSIANNYLQQNIARQAAQDSQSLEFLQRQLPEVRSELDQAEEKLNVYRQQRDSVDLNLEAKAVLEQIVNVDNQLNELTFREAEISQLYKKDHPTYRALLEKRQTLEQERKRLNKRVSAMPSTQQEVLRLSRDVEAGRAVYLQLLNRQQELSISKSSAIGNVRIIDPAVTQPQPVKPKKALNVVLGFILGLFISVGAVLARAMLRRGVEAPEQLEEHGISVYATIPMSEWLDKRTRLRKKNLFSNQQRHRTKNIPFLAVDNPADSAVEAVRALRTSLHFAMMETENNILMITGATPDSGKTFVSSTLAAVIAQSDQKVLFIDADLRRGYSHNLFTVSNEHGLSEYLAGKDELNKVIQHFGKGGFDVITRGQVPPNPSELLMRDRMRQLLEWANDHYDLVIVDTPPMLAVSDAAVVGRSVGTSLLVARFGLNTAKEVSLSMQRLEQAGVNIKGAILNGVIKRASTAYSYGYNYYGYSYSEKE" ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"EG11828-MONOMER" "molybdopterin-guanine dinucleotide biosynthesis adaptor protein" ["YihC", "MobB"] "MAGKTMIPLLAFAAWSGTGKTTLLKKLIPALCARGIRPGLIKHTHHDMDVDKPGKDSYELRKAGAAQTIVASQQRWALMTETPDEEELDLQFLASRMDTSKLDLILVEGFKHEEIAKIVLFRDGAGHRPEELVIDRHVIAVASDVPLNLDVALLDINDVEGLADFVVEWMQKQNG" [] ["CCO-CYTOSOL"] +"EG11829-MONOMER" "molybdenum cofactor guanylyltransferase" ["Mob", "NarB", "ChlB", "MobA", "molybdopterin-guanine dinucleotide, protein Ar", "protein FA"] "MNLMTTITGVVLAGGKARRMGGVDKGLLELNGKPLWQHVADALMTQLSHVVVNANRHQEIYQASGLKVIEDSLADYPGPLAGMLSVMQQEAGEWFLFCPCDTPYIPPDLAARLNHQRKDAPVVWVHDGERDHPTIALVNRAIEPLLLEYLQAGERRVMVFMRLAGGHAVDFSDHKDAFVNVNTPEELARWQEKR" [] ["CCO-CYTOSOL"] +"EG11830-MONOMER" "DUF1040 domain-containing protein YihD" ["YihD"] "MKCKRLNEVIELLQPAWQKEPDLNLLQFLQKLAKESGFDGELADLTDDILIYHLKMRDSAKDAVIPGLQKDYEEDFKTALLRARGVIKE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11831-MONOMER" "stress response kinase A" ["SrkA", "OrfA", "YihE", "serine/threonine protein kinase"] "MNNSAFTFQTLHPDTIMDALFEHGIRVDSGLTPLNSYENRVYQFQDEDRRRFVVKFYRPERWTADQILEEHQFALQLVNDEVPVAAPVAFNGQTLLNHQGFYFAVFPSVGGRQFEADNIDQMEAVGRYLGRMHQTGRKQLFIHRPTIGLNEYLIEPRKLFEDATLIPSGLKAAFLKATDELIAAVTAHWREDFTVLRLHGDCHAGNILWRDGPMFVDLDDARNGPAVQDLWMLLNGDKAEQRMQLETIIEAYEEFSEFDTAEIGLIEPLRAMRLVYYLAWLMRRWADPAFPKNFPWLTGEDYWLRQTATFIEQAKVLQEPPLQLTPMY" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11832-MONOMER" "DUF945 domain-containing protein YihF" ["YihF", "putative GTP-binding protein"] "MIRKSATGVIVALAVIWGGGTWYTGTQIQPGVEKFIKDFNDAKKKGEHAYDMTLSYQNFDKGFFNSRFQMQMTFDNGAPDLNIKPGQKVVFDVDVEHGPLPITMLMHGNVIPALAAAKVNLVNNELTQPLFIAAKNKSPVEATLRFAFGGSFSTTLDVAPAEYGKFSFGEGQFTFNGDGSSLSNLDIEGKVEDIVLQLSPMNKVTAKSFTIDSLARLEEKKFPVGESESKFNQINIINHGEDVAQIDAFVAKTRLDRVKDKDYINVNLTYELDKLTKGNQQLGSGEWSLIAESIDPSAVRQFIIQYNIAMQKQLAAHPELANDEVALQEVNAALFKEYLPLLQKSEPTIKQPVRWKNALGELNANLDISIADPAKSSSSTNKDIKSLNFDVKLPLNVVTETAKQLNLSEGMDAEKAQKQADKQISGMMTLGQMFQLITIDNNTASLQLRYTPGKVVFNGQEMSEEEFMSRAGRFVH" [] ["CCO-PM-BAC-NEG"] +"EG11833-MONOMER" "1-acylglycerol-3-phosphate O-acyltransferase YihG" ["YihG"] "MANLLNKFIMTRILAAITLLLSIVLTILVTIFCSVPIIIAGIVKLLLPVPVIWRKVSRFCDFMMYCWCEGLAVLLHLNPHLQWEVHGLEGLSKKNWYLLICNHRSWADIVVLCVLFRKHIPMNKYFLKQQLAWVPFLGLACWSLDMPFMKRYSRAYLLRHPERRGKDVETTRRSCEKFRLHPTTIVNFVEGSRFTQEKHQQTHSTFQNLLPPKAAGIAMALNVLGKQFDKLLNVTLCYPDNNRQPFFDMLSGKLTRIVVHVDLQPIADELHGDYINDKSFKRHFQQWLNSLWQEKDRLLTSLMSSQRQNK" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11835-MONOMER" "Der GTPase-activating protein YihI" ["YihI", "GAP-like protein that activates GTPase activity of Der"] "MKPSSSNSRSKGHAKARRKTREELDQEARDRKRQKKRRGHAPGSRAAGGNTTSGSKGQNAPKDPRIGSKTPIPLGVTEKVTKQHKPKSEKPMLSPQAELELLETDERLDALLERLEAGETLSAEEQSWVDAKLDRIDELMQKLGLSYDDDEEEEEDEKQEDMMRLLRGN" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11837-MONOMER" "50S ribosomal subunit assembly factor BipA" ["YihK", "BipA", "TypA", "ribosome-dependent GTPase, ribosome assembly factor"] "MIEKLRNIAIIAHVDHGKTTLVDKLLQQSGTFDSRAETQERVMDSNDLEKERGITILAKNTAIKWNDYRINIVDTPGHADFGGEVERVMSMVDSVLLVVDAFDGPMPQTRFVTKKAFAYGLKPIVVINKVDRPGARPDWVVDQVFDLFVNLDATDEQLDFPIVYASALNGIAGLDHEDMAEDMTPLYQAIVDHVPAPDVDLDGPFQMQISQLDYNSYVGVIGIGRIKRGKVKPNQQVTIIDSEGKTRNAKVGKVLGHLGLERIETDLAEAGDIVAITGLGELNISDTVCDTQNVEALPALSVDEPTVSMFFCVNTSPFCGKEGKFVTSRQILDRLNKELVHNVALRVEETEDADAFRVSGRGELHLSVLIENMRREGFELAVSRPKVIFREIDGRKQEPYENVTLDVEEQHQGSVMQALGERKGDLKNMNPDGKGRVRLDYVIPSRGLIGFRSEFMTMTSGTGLLYSTFSHYDDVRPGEVGQRQNGVLISNGQGKAVAFALFGLQDRGKLFLGHGAEVYEGQIIGIHSRSNDLTVNCLTGKKLTNMRASGTDEAVVLVPPIRMTLEQALEFIDDDELVEVTPTSIRIRKRHLTENDRRRANRAPKDD" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11838-MONOMER" "putative transcriptional regulator YihL" ["YihL"] "MAENQSTVENAKEKLDRWLKDGITTPGGKLPSERELGELLGIKRMTLRQALLNLEAESKIFRKDRKGWFVTQPRFNYSPELSASFQRAAIEQGREPSWGFTEKNRTSDIPETLAPLIAVTPSTELYRITGWGALEGHKVFYHETYINPEVAPGFIEQLENHSFSAVWEKCYQKETVVKKLIFKPVRMPGDISKYLGGSAGMPAILIEKHRADQQGNIVQIDIEYWRFEAVDLIINL" [] ["CCO-CYTOSOL"] +"EG11839-MONOMER" "putative TIM barrel domain-containing protein YihM" ["YihM"] "MVTINNARKILQRVDTLPLYLHAYAFHLNMRLERVLPADLLDIASENNLRGVKIHVLDGERFSLGNMDDKELSAFGDKARRLNLDIHIETSASDKASIDEAVAIALKTGASSVRFYPRYEGNLRDVLSIIANDIAYVRETYQDSGLTFTIEQHEDLKSHELVSLVKESEMESLSLLFDFANMINANEHPIDALKTMAPHITQVHIKDALIVKEPGGLGHKACISGQGDMPFKALLTHLICLGDDEPQVTAYGLEEEVDYYAPAFRFEDEDDNPWIPYRQMSETPLPENHLLDARLRKEKEDAINQINHVRNVLQQIKQEANHLLNH" [] ["CCO-CYTOSOL"] +"EG11843-MONOMER" "sulfoquinovosidase" ["SquQ", "YihQ"] "MDTPRPQLLDFQFHQNNDSFTLHFQQRLILTHSKDNPCLWIGSGIADIDMFRGNFSIKDKLQEKIALTDAIVSQSPDGWLIHFSRGSDISATLNISADDQGRLLLELQNDNLNHNRIWLRLAAQPEDHIYGCGEQFSYFDLRGKPFPLWTSEQGVGRNKQTYVTWQADCKENAGGDYYWTFFPQPTFVSTQKYYCHVDNSCYMNFDFSAPEYHELALWEDKATLRFECADTYISLLEKLTALLGRQPELPDWIYDGVTLGIQGGTEVCQKKLDTMRNAGVKVNGIWAQDWSGIRMTSFGKRVMWNWKWNSENYPQLDSRIKQWNQEGVQFLAYINPYVASDKDLCEEAAQHGYLAKDASGGDYLVEFGEFYGGVVDLTNPEAYAWFKEVIKKNMIELGCGGWMADFGEYLPTDTYLHNGVSAEIMHNAWPALWAKCNYEALEETGKLGEILFFMRAGSTGSQKYSTMMWAGDQNVDWSLDDGLASVVPAALSLAMTGHGLHHSDIGGYTTLFEMKRSKELLLRWCDFSAFTPMMRTHEGNRPGDNWQFDGDAETIAHFARMTTVFTTLKPYLKEAVALNAKSGLPVMRPLFLHYEDDAHTYTLKYQYLLGRDILVAPVHEEGRSDWTLYLPEDNWVHAWTGEAFRGGEVTVNAPIGKPPVFYRADSEWAALFASLKSI" [] ["CCO-CYTOSOL"] +"EG11844-MONOMER" "putative sulfoquinovose mutarotase YihR" ["SquR", "YihR", "putative aldose 1-epimerase YihR"] "MSLIKVPCMQITNMHCSGQTVSLAAGDYHATIVTVGAGLAELTFQGCHLVIPHKPEEMPLAHLGKVLIPWPNRIANGCYRYQGQEYQLPINEHSSKAAIHGLLAWRDWQISELTATSVTLTAFLPPSYGYPFMLASQVVYSLNAHTGLSVEIASQNIGTVAAPYGVGIHPYLTCNLTSVDEYLFQLPANQVYAVDEHANPTTLHHVDELDLNFTQAKKIAATKIDHTFKTANDLWEMTITHPQQALSVSLCSDQLWVQVYSGEKLQRQGLAVEPMSCPPNAFNSGIDLLLLESGKPHRLFFNIYGQRK" [] ["CCO-CYTOSOL"] +"EG11845-MONOMER" "sulfoquinovose isomerase" ["SquS", "YihS"] "MKWFNTLSHNRWLEQETDRIFDFGKNSVVPTGFGWLGNKGQIKEEMGTHLWITARMLHVYSVAAAMGRPGAYSLVDHGIKAMNGALRDKKYGGWYACVNDEGVVDASKQGYQHFFALLGAASAVTTGHPEARKLLDYTIEIIEKYFWSEEEQMCLESWDEAFSKTEEYRGGNANMHAVEAFLIVYDVTHDKKWLDRAIRVASVIIHDVARNNHYRVNEHFDTQWNPLPDYNKDNPAHRFRAFGGTPGHWIEWGRLMLHIHAALEARCEQPPAWLLEDAKGLFNATVRDAWAPDGADGIVYTVDWEGKPVVRERVRWPIVEAMGTAYALYTVTGDRQYETWYQTWWEYCIKYLMDYENGSWWQELDADNKVTTKVWDGKQDIYHLLHCLVIPRIPLAPGMAPAVAAGLLDINAK" [] ["CCO-CYTOSOL"] +"EG11846-MONOMER" "6-deoxy-6-sulfofructose-1-phosphate aldolase" ["SquT", "YihT"] "MNKYTINDITRASGGFAMLAVDQREAMRMMFAAAGAPAPVADSVLTDFKVNAAKALSPYASAILVDQQFCYRQVVEQNAIAKSCAMIVAADEFIPGNGIPVDSVVIDRKINPLQIKQDGGKALKLLVLWRSDEDAQQRLDMVKEFNELCHSHGLVSIIEPVVRPPRRGDKFDREQAIIDAAKELGDSGADLYKVEMPLYGKGPQQELLCASQRLNDHINMPWVILSSGVDEKLFPRAVRVAMTAGASGFLAGRAVWASVVGLPDNELMLRDVCAPKLQQLGDIVDEMMAKRR" [] ["CCO-PERI-BAC", "CCO-CYTOSOL"] +"EG11847-MONOMER" "3-sulfolactaldehyde reductase" ["SquU", "YihU"] "MAAIAFIGLGQMGSPMASNLLQQGHQLRVFDVNAEAVRHLVDKGATPAANPAQAAKDAEFIITMLPNGDLVRNVLFGENGVCEGLSTDALVIDMSTIHPLQTDKLIADMQAKGFSMMDVPVGRTSANAITGTLLLLAGGTAEQVERATPILMAMGSELINAGGPGMGIRVKLINNYMSIALNALSAEAAVLCEALNLPFDVAVKVMSGTAAGKGHFTTSWPNKVLSGDLSPAFMIDLAHKDLGIALDVANQLHVPMPLGAASREVYSQARAAGRGRQDWSAILEQVRVSAGMTAKVKM" [] ["CCO-CYTOSOL"] +"EG11848-MONOMER" "6-deoxy-6-sulfofructose kinase" ["SquV", "YihV"] "MIRVACVGITVMDRIYYVEGLPTESGKYVARNYTEVGGGPAATAAVAAARLGAQVDFIGRVGDDDTGNSLLAELESWGVNTRYTKRYNQAKSSQSAIMVDTKGERIIINYPSPDLLPDAEWLEEIDFSQWDVVLADVRWHDGAKKAFTLARQAGVMTVLDGDITPQDISELVALSDHAAFSEPGLARLTGVKEMASALKQAQTLTNGHVYVTQGSAGCDWLENGGRQHQPAFKVDVVDTTGAGDVFHGALAVALATSGDLAESVRFASGVAALKCTRPGGRAGIPDCDQTRSFLSLFV" [] ["CCO-CYTOSOL"] +"EG11849-MONOMER" "DNA-binding transcriptional dual regulator CsqR" ["CsqR", "YihW"] "MSLTELTGNPRHDQLLMLIAERGYMNIDELANLLDVSTQTVRRDIRKLSEQGLITRHHGGAGRASSVVNTAFEQREVSQTEEKKAIAEAVADYIPDGSTIFITIGTTVEHVARALLNHNHLRIITNSLRVAHILYHNPRFEVMVPGGTLRSHNSGIIGPSAASFVADFRADYLVTSVGAIESDGALMEFDVNEANVVKTMMAHARNILLVADHTKYHASAAVEIGNVAQVTALFTDELPPAALKSRLQDSQIEIILPQEDA" [] ["CCO-CYTOSOL"] +"EG11850-MONOMER" "α-D-glucose-1-phosphate phosphatase YihX" ["YihX", "HAD4"] "MLYIFDLGNVIVDIDFNRVLGAWSDLTRIPLASLKKSFHMGEAFHQHERGEISDEAFAEALCHEMALPLSYEQFSHGWQAVFVALRPEVIAIMHKLREQGHRVVVLSNTNRLHTTFWPEEYPEIRDAADHIYLSQDLGMRKPEARIYQHVLQAEGFSPSDTVFFDDNADNIEGANQLGITSILVKDKTTIPDYFAKVLC" [] ["CCO-CYTOSOL"] +"EG11851-MONOMER" "PF03631 family membrane protein YihY" ["Rbn", "YihY"] "MLKTIQDKARHRTRPLWAWLKLLWQRIDEDNMTTLAGNLAYVSLLSLVPLVAVVFALFAAFPMFSDVSIQLRHFIFANFLPATGDVIQRYIEQFVANSNKMTAVGACGLIVTALLLMYSIDSALNTIWRSKRARPKIYSFAVYWMILTLGPLLAGASLAISSYLLSLRWASDLNTVIDNVLRIFPLLLSWISFWLLYSIVPTIRVPNRDAIVGAFVAALLFEAGKKGFALYITMFPSYQLIYGVLAVIPILFVWVYWTWCIVLLGAEITVTLGEYRKLKQAAEQEEDDEP" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11852-MONOMER" "D-aminoacyl-tRNA deacylase" ["Dtd", "YihZ", "D-Tyr-tRNATyr deacylase"] "MIALIQRVTRASVTVEGEVTGEIGAGLLVLLGVEKDDDEQKANRLCERVLGYRIFSDAEGKMNLNVQQAGGSVLVVSQFTLAADTERGMRPSFSKGASPDRAEALYDYFVERCRQQEMNTQTGRFAADMQVSLVNDGPVTFWLQV" [] ["CCO-CYTOSOL"] +"EG11853-MONOMER" "putative fatty acid biosynthesis enzyme FabY" ["FabY", "YiiD", "putative acetyltransferase YiiD"] "MSQLPGLSRETRESIAMYHLRVPQTEEELERYYQFRWEMLRKPLHQPKGSERDAWDAMAHHQMVVDEQGNLVAVGRLYINADNEASIRFMAVHPDVQDKGLGTLMAMTLESVARQEGVKRVTCSAREDAVEFFAKLGFVNQGEITTPTTTPIRHFLMIKPVATLDDILHRGDWCAQLQQAWYEHIPLSEKMGVRIQQYTGQKFITTMPETGNQNPHHTLFAGSLFSLATLTGWGLIWLMLRERHLGGTIILADAHIRYSKPISGKPHAVADLGALSGDLDRLARGRKARVQMQVEIFGDETPGAVFEGTYIVLPAKPFGPYEEGGNEEE" [] ["CCO-CYTOSOL"] +"EG11854-MONOMER" "putative DNA-binding transcriptional regulator YiiE" ["YiiE"] "MAMNTVFLHLSEEAIKRLNKLRGWRKVSRSAILREAVEQYLERQQFPVRKAKGGRQKGEVVGVDDQCKEHKE" [] ["CCO-CYTOSOL"] +"EG11855-MONOMER" "protein YiiF" ["YiiF"] "MGRILLDLSNEVIKQLDDLEVQRNLPRADLLREAVDQYLINQSQTARTSVPGIWQGCEEDGVEYQRKLREEW" [] ["CCO-CYTOSOL"] +"EG11859-MONOMER" "sulfurtransferase for molybdenum cofactor sulfuration" ["FdhD"] "MKKTQRKEIENVTNITGVRQIELWRRDDLQHPRLDEVAEEVPVALVYNGISHVVMMASPKDLEYFALGFSLSEGIIESPRDIFGMDVVPSCNGLEVQIELSSRRFMGLKERRRALAGRTGCGVCGVEQLNDIGKPVQPLPFTQTFDLNKLDDALRHLNDFQPVGQLTGCTHAAAWMLPSGELVGGHEDVGRHVALDKLLGRRSQEGESWQQGAVLVSSRASYEMVQKSAMCGVEILFAVSAATTLAVEVAERCNLTLVGFCKPGRATVYTHPQRLSN" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11860-MONOMER" "DUF3829 domain-containing lipoprotein YiiG" ["YiiG"] "MKRNLLSSAIIVAIMSLGLTGCDDKKAETETLPPANSQPAAPAPEAKPTEAPVAKAEAKPETPAQPVVDEQAVFDEKMDVYIKCYNKLQIPVQRSLARYADWLKDFKQGPTGEERTVYGIYGISESNLAECEKGVKSAVALTPALQPIDGVAVSYIDAAVALGNTINEMDKYYTQENYKDDAFAKGKTLHQTFLKNLEAFEPVAESYHAAIQEINDKRQLAELKNIEEREGKTFHYYSLAVMISAKQINNLISQDKFDAEAAMKKVSELETLVAQAKEADKGGMNFSFINSAGQYQLEAKKYVRRIRDKVPYSDWDKEQLQDANSSWMVEDSFPRALREYNEMVDDYNSLR" [] ["CCO-CYTOSOL"] +"EG11861-MONOMER" "putative transcriptional regulator FrvR" ["YiiH", "FrvR"] "MLNERQLKIVDLLEQQPRTPGELAQQTGVSGRTILRDIDYLNFTLNGKARIFASGSAGYQLEIFERRSFFQLLQKHDNDDRLLALLLLNTFTPRAQLASALNLPETWVAERLPRLKQRYERTCCLASRPGLGHFIDETEEKRVILLANLLRKDPFLIPLAGITRDNLQHLSTACDNQHRWPLMQGDYLSSLILAIYALRNQLTDEWPQYPGDEIKQIVEHSGLFLGDNAVRTLTGLIEKQHQQAQVISADNVQGLLQRVPGIASLNIIDAQLVENITGHLLRCLAAPVWIAEHRQSSMNNLKAAWPAAFDMSLHFITLLREQLDIPLFDSDLIGLYFACALERHQNERQPIILLSDQNAIATINQLAIERDVLNCRVIIARSLSELVAIREEIEPLLIINNSHYLLDDAVNNYITVKNIITAAGIEQIKHFLATAFIRQQPERFFSAPGSFHYSNVRGESWQHITRQICAQLVAQHHITADEAQRIIAREGEGENLIVNRLAIPHCWSEQERRFRGFFITLAQPVEVNNEVINHVLIACAAADARHELKIFSYLASILCQHPAEIIAGLTGYEAFMELLHKG" [] ["CCO-PM-BAC-NEG"] +"EG11862-MONOMER" "peptidase M42 family protein FrvX" ["YiiI", "FrvX"] "MNIELLQQLCEASAVSGDEQEVRDILINTLEPCVNEITFDGLGSFVARKGNKGPKVAVVGHMDEVGFMVTHIDESGFLRFTTIGGWWNQSMLNHRVTIRTHKGVKIPGVIGSVAPHALTEKQKQQPLSFDEMFIDIGANSREEVEKRGVEIGNFISPEANFACWGEDKVVGKALDNRIGCAMMAELLQTVNNPEITLYGVGSVEEEVGLRGAQTSAEHIKPDVVIVLDTAVAGDVPGIDNIKYPLKLGQGPGLMLFDKRYFPNQKLVAALKSCAAHNDLPLQFSTMKTGATDGGRYNVMGGGRPVVALCLPTRYLHANSGMISKADYEALLTLIRGFLTTLTAEKVNAFSQFRQVD" [] ["CCO-CYTOSOL"] +"EG11865-MONOMER" "L-rhamnose mutarotase" ["YiiL", "RhaM"] "MIRKAFVMQVNPDAHEEYQRRHNPIWPELEAVLKSHGAHNYAIYLDKARNLLFAMVEIESEERWNAVASTDVCQRWWKYMTDVMPANPDNSPVSSELQEVFYLP" [] ["CCO-CYTOSOL"] +"EG11870-MONOMER" "2-amino-6-N-hydroxylaminopurine resistance protein" ["YiiM", "protein involved in base analog detoxification"] "MRYPVDVYTGKIQAYPEGKPSAIAKIQVDGELMLTELGLEGDEQAEKKVHGGPDRALCHYPREHYLYWAREFPEQAELFVAPAFGENLSTDGLTESNVYMGDIFRWGEALIQVSQPRSPCYKLNYHFDISDIAQLMQNTGKVGWLYSVIAPGKVSADAPLELVSRVSDVTVQEAAAIAWHMPFDDDQYHRLLSAAGLSKSWTRTMQKRRLSGKIEDFSRRLWGK" ["CCO-CYTOSOL"] [] +"EG11874-MONOMER" "DUF1454 domain-containing protein YiiQ" ["YiiQ"] "MKPGCTLFFLLCSALTVTTEAHAQTPDTATTAPYLLAGAPTFDLSISQFREDFNSQNPSLPLNEFRAIDSSPDKANLTRAASKINENLYASTALERGTLKIKSIQMTWLPIQGPEQKAAKAKAQEYMAAVIRTLTPLMTKTQSQKKLQSLLTAGKNKRYYTETEGALRYVVADNGEKGLTFAVEPIKLALSESLEGLNK" [] ["CCO-CYTOSOL"] +"EG11875-MONOMER" "DUF805 domain-containing protein YiiR" ["YiiR"] "MTIQQWLFSFKGRIGRRDFWIWIGLWFAGMLVLFSLAGKNLLDIQTAAFCLVCLLWPTAAVTVKRLHDRGRSGAWAFLMIVAWMLLAGNWAILPGVWQWAVGRFVPTLILVMMLIDLGAFVGTQGENKYGKDTQDVKYKADNKSSN" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11876-MONOMER" "DUF406 domain-containing protein YiiS" ["YiiS"] "MKDVVDKCSTKGCAIDIGTVIDNDNCTSKFSRFFATREEAESFMTKLKELAAATSSADEGASVAYKIKDLEGQVELDAAFTFSCQAEMIIFELSLRSLA" [] ["CCO-CYTOSOL"] +"EG11877-MONOMER" "universal stress protein D" ["UspD", "YiiT", "stress protein involved in resistance to UV irradiation"] "MAYKHIGVAISGNEEDALLVNKALELARHNDAHLTLIHIDDGLSELYPGIYFPATEDILQLLKNKSDNKLYKLTKNIQWPKTKLRIERGEMPETLLEIMQKEQCDLLVCGHHHSFINRLMPAYRGMINKMSADLLIVPFIDK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11878-MONOMER" "cell division factor ZapB" ["YiiU", "ZapB"] "MTMSLEVFEKLEAKVQQAIDTITLLQMEIEELKEKNNSLSQEVQNAQHQREELERENNHLKEQQNGWQERLQALLGRMEEV" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11879-MONOMER" "ribonuclease E inhibitor protein A" ["YiiV", "MenG", "RraA"] "MKYDTSELCDIYQEDVNVVEPLFSNFGGRASFGGQIITVKCFEDNGLLYDLLEQNGRGRVLVVDGGGSVRRALVDAELARLAVQNEWEGLVIYGAVRQVDDLEELDIGIQAMAAIPVGAAGEGIGESDVRVNFGGVTFFSGDHLYADNTGIILSEDPLDIE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11881-MONOMER" "ATPase component of the HslVU protease" ["HtpI", "ClpY", "HslU", "D48.5"] "MSEMTPREIVSELDKHIIGQDNAKRSVAIALRNRWRRMQLNEELRHEVTPKNILMIGPTGVGKTEIARRLAKLANAPFIKVEATKFTEVGYVGKEVDSIIRDLTDAAVKMVRVQAIEKNRYRAEELAEERILDVLIPPAKNNWGQTEQQQEPSAARQAFRKKLREGQLDDKEIEIDLAAAPMGVEIMAPPGMEEMTSQLQSMFQNLGGQKQKARKLKIKDAMKLLIEEEAAKLVNPEELKQDAIDAVEQHGIVFIDEIDKICKRGESSGPDVSREGVQRDLLPLVEGCTVSTKHGMVKTDHILFIASGAFQIAKPSDLIPELQGRLPIRVELQALTTSDFERILTEPNASITVQYKALMATEGVNIEFTDSGIKRIAEAAWQVNESTENIGARRLHTVLERLMEEISYDASDLSGQNITIDADYVSKHLDALVADEDLSRFIL" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11882-MONOMER" "putative lipid-binding hydrolase YiiX" ["YiiX"] "MKNRLLILSLLVSVPAFAWQPQTGDIIFQISRSSQSKAIQLATHTDYSHTGMLVIRNKKPYVFEAVGPVKYTPLKQWIAHGEKGKYVVRRVEGGLSVEQQQKLAQTAKRYLGKPYDFSFSWSDDRQYCSEVVWKVYQNALGMRVGEQQKLKEFDLSSPQVQAKLKERYGKNIPLEETVVSPQAVFDAPQLTTVAKEWPLFSW" [] ["CCO-CYTOSOL"] +"EG11884-MONOMER" "tellurite methyltransferase" ["TehB"] "MIIRDENYFTDKYELTRTHSEVLEAVKVVKPGKTLDLGCGNGRNSLYLAANGYDVDAWDKNAMSIANVERIKSIENLDNLHTRVVDLNNLTFDRQYDFILSTVVLMFLEAKTIPGLIANMQRCTKPGGYNLIVAAMDTADYPCTVGFPFAFKEGELRRYYEGWERVKYNEDVGELHRTDANGNRIKLRFATMLARKK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11885-MONOMER" "osmoregulated periplasmic glucans (OPGs) biosynthesis protein G" ["MdoA", "MdoG", "OpgG"] "MMKMRWLSAAVMLTLYTSSSWAFSIDDVAKQAQSLAGKGYETPKSNLPSVFRDMKYADYQQIQFNHDKAYWNNLKTPFKLEFYHQGMYFDTPVKINEVTATAVKRIKYSPDYFTFGDVQHDKDTVKDLGFAGFKVLYPINSKDKNDEIVSMLGASYFRVIGAGQVYGLSARGLAIDTALPSGEEFPRFKEFWIERPKPTDKRLTIYALLDSPRATGAYKFVVMPGRDTVVDVQSKIYLRDKVGKLGVAPLTSMFLFGPNQPSPANNYRPELHDSNGLSIHAGNGEWIWRPLNNPKHLAVSSFSMENPQGFGLLQRGRDFSRFEDLDDRYDLRPSAWVTPKGEWGKGSVELVEIPTNDETNDNIVAYWTPDQLPEPGKEMNFKYTITFSRDEDKLHAPDNAWVQQTRRSTGDVKQSNLIRQPDGTIAFVVDFTGAEMKKLPEDTPVTAQTSIGDNGEIVESTVRYNPVTKGWRLVMRVKVKDAKKTTEMRAALVNADQTLSETWSYQLPANE" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"EG11886-MONOMER" "osmoregulated periplasmic glucans (OPGs) biosynthesis protein H" ["OpgH", "MdoA", "MdoH", "OPG glycosyltransferase"] "MNKTTEYIDAMPIAASEKAALPKTDIRAVHQALDAEHRTWAREDDSPQGSVKARLEQAWPDSLADGQLIKDDEGRDQLKAMPEAKRSSMFPDPWRTNPVGRFWDRLRGRDVTPRYLARLTKEEQESEQKWRTVGTIRRYILLILTLAQTVVATWYMKTILPYQGWALINPMDMVGQDLWVSFMQLLPYMLQTGILILFAVLFCWVSAGFWTALMGFLQLLIGRDKYSISASTVGDEPLNPEHRTALIMPICNEDVNRVFAGLRATWESVKATGNAKHFDVYILSDSYNPDICVAEQKAWMELIAEVGGEGQIFYRRRRRRVKRKSGNIDDFCRRWGSQYSYMVVLDADSVMTGDCLCGLVRLMEANPNAGIIQSSPKASGMDTLYARCQQFATRVYGPLFTAGLHFWQLGESHYWGHNAIIRVKPFIEHCALAPLPGEGSFAGSILSHDFVEAALMRRAGWGVWIAYDLPGSYEELPPNLLDELKRDRRWCHGNLMNFRLFLVKGMHPVHRAVFLTGVMSYLSAPLWFMFLALSTALQVVHALTEPQYFLQPRQLFPVWPQWRPELAIALFASTMVLLFLPKLLSILLIWCKGTKEYGGFWRVTLSLLLEVLFSVLLAPVRMLFHTVFVVSAFLGWEVVWNSPQRDDDSTSWGEAFKRHGSQLLLGLVWAVGMAWLDLRFLFWLAPIVFSLILSPFVSVISSRATVGLRTKRWKLFLIPEEYSPPQVLVDTDRFLEMNRQRSLDDGFMHAVFNPSFNALATAMATARHRASKVLEIARDRHVEQALNETPEKLNRDRRLVLLSDPVTMARLHFRVWNSPERYSSWVSYYEGIKLNPLALRKPDAASQ" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11888-MONOMER" "tRNA (cytidine/uridine-2'-O)-ribose methyltransferase" ["TrmL", "YibK"] "MLNIVLYEPEIPPNTGNIIRLCANTGFRLHIIEPMGFAWDDKRLRRAGLDYHEFTAVTRHHDYRAFLEAENPQRLFALTTKGTPAHSAVSYQDGDYLMFGPETRGLPASILDALPAEQKIRIPMVPDSRSMNLSNAVSVVVYEAWRQLGYPGAVLRD" [] ["CCO-CYTOSOL"] +"EG11889-MONOMER" "putative DNA-binding transcriptional regulator DctR" ["DctR", "YhiF"] "MFLIITRDTMFFTAMKNILSKGNVVHIQNEEEIDVMLHQNAFVIIDTLMNNVFHSNFLTQIERLKPVHVIIFSPFNIKRCLGKVPVTFVPRTITIIDFVALINGSYCSVPEAAVSLSRKQHQVLSCIANQMTTEDILEKLKISLKTFYCHKHNIMMILNLKRINELVRHQHIDYLV" [] ["CCO-CYTOSOL"] +"EG11890-MONOMER" "starvation lipoprotein" ["Slp"] "MNMTKGALILSLSFLLAACSSIPQNIKGNNQPDIQKSFVAVHNQPGLYVGQQARFGGKVINVINGKTDTLLEISVLPLDSYAKPDIEANYQGRLLARQSGFLDPVNYRNHFVTILGTIQGEQPGFINKVPYNFLEVNMQGIQVWHLREVVNTTYNLWDYGYGAFWPEPGWGAPYYTNAVSQVTPELVK" ["CCO-MEMBRANE"] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"EG11891-MONOMER" "putative transporter YeeA" ["YeeA"] "MRADKSLSPFEIRVYRHYRIVHGTRVALAFLLTFLIIRLFTIPESTWPLVTMVVIMGPISFWGNVVPRAFERIGGTVLGSILGLIALQLELISLPLMLVWCAAAMFLCGWLALGKKPYQGLLIGVTLAIVVGSPTGEIDTALWRSGDVILGSLLAMLFTGIWPQRAFIHWRIQLAKSLTEYNRVYQSAFSPNLLERPRLESHLQKLLTDAVKMRGLIAPASKETRIPKSIYEGIQTINRNLVCMLELQINAYWATRPSHFVLLNAQKLRDTQHMMQQILLSLVHALYEGNPQPVFANTEKLNDAVEELRQLLNNHHDLKVVETPIYGYVWLNMETAHQLELLSNLICRALRK" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11892-MONOMER" "DNA gyrase inhibitor" ["Dgi", "YeeB", "GyrI", "SbmC"] "MNYEIKQEEKRTVAGFHLVGPWEQTVKKGFEQLMMWVDSKNIVPKEWVAVYYDNPDETPAEKLRCDTVVTVPGYFTLPENSEGVILTEITGGQYAVAVARVVGDDFAKPWYQFFNSLLQDSAYEMLPKPCFEVYLNNGAEDGYWDIEMYVAVQPKHH" [] ["CCO-CYTOSOL"] +"EG11894-MONOMER" "putative sulfurtransferase YeeD" ["YeeD"] "MVIKKLDVVTQVCPFPLIEAKAALAEMVSGDELVIEFDCTQATEAIPQWAAEEGHAITDYQQIGDAAWSITVQKA" [] ["CCO-CYTOSOL"] +"EG11895-MONOMER" "inner membrane protein YeeE" ["YeeE"] "MFSMILSGLICGALLGFVMQRGRFCLTGGFRDMYIVKNNRMFYALLIAISVQSVGVFALIQAGLLTYEAGAFPWLGTVIGGYIFGLGIVLAGGCATGTWYRAGEGLIGSWIALFTYMVMSAVMRSPHASGLNQTLQHYSTEHNSIAETFNLSVWPLVAVLLVITLWVVMKELKKPKLKVATLPPRRTGIAHILFEKRWHPFVTAVLIGLIALLAWPLSEATGRMFGLGITSPTANILQFLVAGDMKYINWGVFLVLGIFVGSFIAAKASREFRVRAADAQTTLRSGLGGVLMGFGASIAGGCSIGNGLVMTAMMTWQGWIGLVFMILGVWTASWLVYVRPQRKARLATAAAN" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11899-MONOMER" "Rac prophage; recombinase RecT" ["RecT", "recombinase, DNA renaturation"] "MTKQPPIAKADLQKTQGNRAPAAVKNSDVISFINQPSMKEQLAAALPRHMTAERMIRIATTEIRKVPALGNCDTMSFVSAIVQCSQLGLEPGSALGHAYLLPFGNKNEKSGKKNVQLIIGYRGMIDLARRSGQIASLSARVVREGDEFSFEFGLDEKLIHRPGENEDAPVTHVYAVARLKDGGTQFEVMTRKQIELVRSLSKAGNNGPWVTHWEEMAKKTAIRRLFKYLPVSIEIQRAVSMDEKEPLTIDPADSSVLTGEYSVIDNSEE" [] ["CCO-CYTOSOL"] +"EG11900-MONOMER" "Rac prophage; endodeoxyribonuclease toxin RalR" ["RalR", "YdaB", "Lar", "Rac prophage, DNA endonuclease toxin of the RalRA toxin-antitoxin system, restriction alleviation and modification enhancement"] "MRYDNVKPCPFCGCPSVTVKAISGYYRAKCNGCESRTGYGGSEKEALERWNKRTTGNNNGGVHV" [] ["CCO-CYTOSOL"] +"EG11901-MONOMER" "Rac prophage; double-strand break reduction protein" ["YdaC", "RcbA"] "MYKITATIEKEGGTPTNWTRYSKSKLTKSECEKMLSGKKEAGVSREQKVKLINFNCEKLQSSRIALYSN" [] ["CCO-CYTOSOL"] +"EG11902-MONOMER" "cystine exporter" ["YijE"] "MSAAGKSNPLAISGLVVLTLIWSYSWIFMKQVTSYIGAFDFTALRCIFGALVLFIVLLLRGRGMRPTPFKYTLAIALLQTCGMVGLAQWALVSGGAGKVAILSYTMPFWVVIFAALFLGERLRRGQYFAILIAAFGLFLVLQPWQLDFSSMKSAMLAILSGVSWGASAIVAKRLYARHPRVDLLSLTSWQMLYAALVMSVVALLVPQREIDWQPTVFWALAYSAILATALAWSLWLFVLKNLPASIASLSTLAVPVCGVLFSWWLLGENPGAVEGSGIVLIVLALALVSRKKKEAVSVKRI" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11903-MONOMER" "DUF1287 domain-containing protein YijF" ["YijF"] "MKASLALLSLLTAFTSHSLKSPAVPPTVVQIQANTNLAIADGARQQIGSTLFYDPAYVQLTYPGGDVPQERGVCSDVVIRALRSQKVDLQKLVHEDMAKNFAEYPQKWKLKRPDSNIDHRRVPNLETWFSRHDKTRPTSKNPSDYQAGDIVSWRLDNGLAHIGVVSDGFARDGTPLVIHNIGAGAQEEDVLFNWRMVGHYRYFVK" [] ["CCO-CYTOSOL"] +"EG11905-MONOMER" "fructose-6-phosphate aldolase 2" ["YijG", "FsaB", "TalC", "FSA 2"] "MELYLDTANVAEVERLARIFPIAGVTTNPSIIAASKESIWEVLPRLQKAIGDEGILFAQTMSRDAQGMVEEAKRLRDAIPGIVVKIPVTSEGLAAIKILKKEGITTLGTAVYSAAQGLLAALAGAKYVAPYVNRVDAQGGDGIRTVQELQTLLEMHAPESMVLAASFKTPRQALDCLLAGCESITLPLDVAQQMLNTPAVESAIEKFEHDWNAAFGTTHL" [] ["CCO-CYTOSOL"] +"EG11906-MONOMER" "putative PTS multiphosphoryl transfer protein PtsA" ["FrwA", "YijH", "PtsA", "Enzyme IAni", "TTP", "triphosphoryl transfer protein"] "MALIVEFICELPNGVHARPASHVETLCNTFSSQIEWHNLRTDRKGNAKSALALIGTDTLAGDNCQLLISGADEQEAHQRLSQWLRDEFPHCDAPLAEVKSDELEPLPVSLTNLNPQIIRARTVCSGSAGGILTPISSLDLNALGNLPAAKGVDAEQSALENGLTLVLKNIEFRLLDSDGATSAILEAHRSLAGDTSLREHLLAGVSAGLSCAEAIVASANHFCEEFSRSSSSYLQERALDVRDVCFQLLQQIYGEQRFPAPGKLTQPAICMADELTPSQFLELDKNHLKGLLLKSGGTTSHTVILARSFNIPTLVGVDIDALTPWQQQTIYIDGNAGAIVVEPGEAVARYYQQEARVQDALREQQRVWLTQQARTADGIRIEIAANIAHSVEAQAAFGNGAEGVGLFRTEMLYMDRTSAPGESELYNIFCQALESANGRSIIVRTMDIGGDKPVDYLNIPAEANPFLGYRAVRIYEEYASLFTTQLRSILRASAHGSLKIMIPMISSMEEILWVKEKLAEAKQQLRNEHIPFDEKIQLGIMLEVPSVMFIIDQCCEEIDFFSIGSNDLTQYLLAVDRDNAKVTRHYNSLNPAFLRALDYAVQAVHRQGKWIGLCGELGAKGSVLPLLVGLGLDELSMSAPSIPAAKARMAQLDSRECRKLLNQAMACRTSLEVEHLLAQFRMTQQDAPLVTAECITLESDWRSKEEVLKGMTDNLLLAGRCRYPRKLEADLWAREAVFSTGLGFSFAIPHSKSEHIEQSTISVARLQAPVRWGDDEAQFIIMLTLNKHAAGDQHMRIFSRLARRIMHEEFRNALVNAASADAIASLLQHELEL" [] ["CCO-CYTOSOL"] +"EG11910-MONOMER" "putative formate acetyltransferase 2" ["YijL", "PflD", "pyruvate formate-lyase 2"] "MTNRISRLKTALFANTREISLERALLYTASHRQTEGEPVILRRAKATAYILEHVEISIRDEELIAGNRTVKPRAGIMSPEMDPYWLLKELDQFPTRPQDRFAISEEDKRIYREELFPYWEKRSMKDFINGQMTDEVKAATNTQIFSINQTDKGQGHIIIDYPRLLNHGLGELVAQMQQHCQQQPENHFYQAALLLLEASQKHILRYAELAETMAANCTDAQRREELLTIAEISRHNAQHKPQTFWQACQLFWYMNIILQYESNASSLSLGRFDQYMLPFYQTSLTQGEDAAFLKELLESLWVKCNDIVLLRSTSSARYFAGFPTGYTALLGGLTENGRSAVNVLSFLCLDAYQSVQLPQPNLGVRTNALIDTPFLMKTAETIRFGTGIPQIFNDEVVVPAFLNRGVSLEDARDYSVVGCVELSIPGRTYGLHDIAMFNLLKVMEICLHENEGNAALTYEGLLEQIRAKISHYITLMVEGSNICDIGHRDWAPVPLLSSFISDCLEKGRDITDGGARYNFSGVQGIGIANLSDSLHALKGMVFEQQRLSFDELLSVLKANFATPEGEKVRARLINRFEKYGNDIDEVDNISAELLRHYCKEVEKYQNPRGGYFTPGSYTVSAHVPLGSVVGATPDGRFAGEQLADGGLSPMLGQDAQGPTAVLKSVSKLDNTLLSNGTLLNVKFTPATLEGEAGLRKLADFLRAFTQLKLQHIQFNVVNADTLREAQQRPQDYAGLVVRVAGYSAFFVELSKEIQDDIIRRTAHQL" [] ["CCO-CYTOSOL"] +"EG11911-MONOMER" "putative pyruvate formate-lyase 2 activating enzyme PflC" ["YijM", "PflC"] "MTSSAGQRISCNVVETRRDDVARIFNIQRYSLNDGEGIRTVVFFKGCPHLCPWCANPESISGKIQTVRREAKCLHCAKCLRDADECPSGAFERIGRDISLDALEREVMKDDIFFRTSGGGVTLSGGEVLMQAEFATRFLQRLRLWGVSCAIETAGDAPASKLLPLAKLCDEVLFDLKIMDATQARDVVKMNLPRVLENLRLLVSEGVNVIPRLPLIPGFTLSRENMQQALDVLIPLNIRQIHLLPFHQYGEPKYRLLGKTWSMKEVPAPSSADVATMREMAERAGLQVTVGG" [] ["CCO-CYTOSOL"] +"EG11912-MONOMER" "putative PTS enzyme IIB component FrwD" ["YijN", "FrwD", "EIIB'frw", "Enzyme IIB'frw"] "MAYLVAVTACVSGVAHTYMAAERLEKLCLLEKWGVSIETQGALGTENRLADEDIRRADVALLITDIELAGAERFEHCRYVQCSIYAFLREPQRVMSAVRKVLSAPQQTHLILE" [] ["CCO-PM-BAC-NEG", "CCO-CYTOSOL"] +"EG11913-MONOMER" "putative DNA-binding transcriptional regulator YijO" ["YijO"] "MYHDVSYLLSRLINGPLSLRQIYFASSNGPVPDLAYQVDFPRLEIVLEGEFVDTGAGATLVPGDVLYVPAGGWNFPQWQAPATTFSVLFGKQQLGFSVVQWDGKQYQNLAKQHVARRGPRIGSFLLQTLNEMQMQPQEQQTARLIVASLLSHCRDLLGSQIQTASRSQALFEAIRDYIDERYASALTRESVAQAFYISPNYLSHLFQKTGAIGFNEYLNHTRLEHAKTLLKGYDLKVKEVAHACGFVDSNYFCRLFRKNTERSPSEYRRQYHSQLTEKPTTPE" [] ["CCO-CYTOSOL"] +"EG11914-MONOMER" "phosphoethanolamine transferase EptC" ["EptC", "YijP"] "MHSTEVQAKPLFSWKALGWALLYFWFFSTLLQAIIYISGYSGTNGIRDSLLFSSLWLIPVFLFPKRIKIIAAVIGVVLWAASLAALCYYVIYGQEFSQSVLFVMFETNTNEASEYLSQYFSLKIVLIALAYTAVAVLLWTRLRPVYIPKPWRYVVSFALLYGLILHPIAMNTFIKNKPFEKTLDNLASRMEPAAPWQFLTGYYQYRQQLNSLTKLLNENNALPPLANFKDESGNEPRTLVLVIGESTQRGRMSLYGYPRETTPELDALHKTDPNLTVFNNVVTSRPYTIEILQQALTFANEKNPDLYLTQPSLMNMMKQAGYKTFWITNQQTMTARNTMLTVFSRQTDKQYYMNQQRTQSAREYDTNVLKPFQEVLNDPAPKKLIIVHLLGTHIKYKYRYPENQGKFDGNTDHVPPGLNAEELESYNDYDNANLYNDHVVASLIKDFKAANPNGFLVYFSDHGEEVYDTPPHKTQGRNEDNPTRHMYTIPFLLWTSEKWQATHPRDFSQDVDRKYSLAELIHTWSDLAGLSYDGYDPTRSVVNPQFKETTRWIGNPYKKNALIDYDTLPYGDQVGNQ" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11915-MONOMER" "endonuclease V" ["YjaF", "Nfi", "EndoV", "deoxyinosine 3'-endonuclease"] "MDLASLRAQQIELASSVIREDRLDKDPPDLIAGADVGFEQGGEVTRAAMVLLKYPSLELVEYKVARIATTMPYIPGFLSFREYPALLAAWEMLSQKPDLVFVDGHGISHPRRLGVASHFGLLVDVPTIGVAKKRLCGKFEPLSSEPGALAPLMDKGEQLAWVWRSKARCNPLFIATGHRVSVDSALAWVQRCMKGYRLPEPTRWADAVASERPAFVRYTANQP" [] ["CCO-CYTOSOL"] +"EG11916-MONOMER" "DUF416 domain-containing protein YjaG" ["YjaG"] "MLQNPIHLRLERLESWQHVTFMACLCERMYPNYAMFCQQTGFGDGQIYRRILDLIWETLTVKDAKVNFDSQLEKFEEAIPSADDFDLYGVYPAIDACVALSELVHSRLSGETLEHAVEVSKTSITTVAMLEMTQAGREMSDEELKENPAVEQEWDIQWEIFRLLAECEERDIELIKGLRADLREAGESNIGIIFQQ" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11917-MONOMER" "DUF1481 domain-containing protein YjaH" ["YjaH"] "MNSFNEGVVSPLLSFWRRSLMLAGALLLTACSHNSSLPPFTASGFAEDQGAVRIWRKDSGDNVHLLAVFSPWRSGDTTTREYRWQGDNLTLININVYSKPPVNIRARFDDRGDLSFMQRESDGEKQQLSNDQIDLYRYRADQIRQISDALRQGRVVLRQGRWHAMEQTVTTCEGQTIKPDLDSQAIAHIERRQSRSSVDVSVAWLEAPEGSQLLLVANSDFCRWQPNEKTF" [] ["CCO-CYTOSOL"] +"EG11918-MONOMER" "signaling pathway modulator ZraP" ["Zra", "YjaI", "ZraP"] "MKRNTKIALVMMALSAMAMGSTSAFAHGGHGMWQQNAAPLTSEQQTAWQKIHNDFYAQSSALQQQLVTKRYEYNALLAANPPDSSKINAVAKEMENLRQSLDELRVKRDIAMAEAGIPRGAGMGMGYGGCGGGGHMGMGHW" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"EG11919-MONOMER" "putative inorganic phosphate export protein YjbB" ["YjbB"] "MLTLLHLLSAVALLVWGTHIVRTGVMRVFGARLRTVLSRSVEKKPLAFCAGIGVTALVQSSNATTMLVTSFVAQDLVALAPALVIVLGADVGTALMARILTFDLSWLSPLLIFIGVIFFLGRKQSRAGQLGRVGIGLGLILLALELIVQAVTPITQANGVQVIFASLTGDILLDALIGAMFAIISYSSLAAVLLTATLTAAGIISFPVALCLVIGANLGSGLLAMLNNSAANAAARRVALGSLLFKLVGSLIILPFVHLLAETMGKLSLPKAELVIYFHVFYNLVRCLVMLPFVDPMARFCKTIIRDEPELDTQLRPKHLDVSALDTPTLALANAARETLRIGDAMEQMMEGLNKVMHGEPRQEKELRKLADDINVLYTAIKLYLARMPKEELAEEESRRWAEIIEMSLNLEQASDIVERMGSEIADKSLAARRAFSLDGLKELDALYEQLLSNLKLAMSVFFSGDVTSARRLRRSKHRFRILNRRYSHAHVDRLHQQNVQSIETSSLHLGLLGDMQRLNSLFCSVAYSVLEQPDEDEGRDEY" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11920-MONOMER" "peptidase E" ["PepE", "peptidase E, a dipeptidase where amino-terminal residue is aspartate"] "MELLLLSNSTLPGKAWLEHALPLIAEQLQGRRSAVFIPFAGVTQTWDDYTAKTAAVLAPLGVSVTGIHSVVDPVAAIENAEIVIVGGGNTFQLLKQCRERGLLAPITDVVKRGALYIGWSAGANLACPTIRTTNDMPIVDPQGFDALNLFPLQINPHFTNALPEGHKGETREQRIRELLVVAPELTIIGLPEGNWITVSKGHATLGGPNTTYVFKAGEEAVPLEAGHRF" [] ["CCO-CYTOSOL"] +"EG11921-MONOMER" "23S rRNA pseudouridine2604 and tRNATyr pseudouridine35 synthase" ["RluF", "YjbC", "ribosomal large subunit pseudouridine synthase F"] "MLPDSSVRLNKYISESGICSRREADRYIEQGNVFLNGKRATIGDQVKPGDVVKVNGQLIEPREAEDLVLIALNKPVGIVSTTEDGERDNIVDFVNHSKRVFPIGRLDKDSQGLIFLTNHGDLVNKILRAGNDHEKEYLVTVDKPITEEFIRGMSAGVPILGTVTKKCKVKKEAPFVFRITLVQGLNRQIRRMCEHFGYEVKKLERTRIMNVSLSGIPLGEWRDLTDDELIDLFKLIENSSSEVKPKAKAKPKTAGIKRPVVKMEKTAEKGGRPASNGKRFTSPGRKKKGR" [] ["CCO-CYTOSOL"] +"EG11922-MONOMER" "DUF3811 domain-containing protein YjbD" ["YjbD"] "MALPRITQKEMTEREQRELKTLLDRARIAHGRVLTNSETNSIKKDYIDKLMVEREAEAKKARQLKKKQAYKPDPEASFSWSANTSTRGRR" [] ["CCO-CYTOSOL"] +"EG11923-MONOMER" "uncharacterized protein YjbE" ["YjbE"] "MKKVLYGIFAISALAATSAWAAPVQVGEAAGSAATSVSAGSSSATSVSTVSSAVGVALAATGGGDGSNTGTTTTTTTSTQ" [] ["CCO-EXTRACELLULAR"] +"EG11924-MONOMER" "lipoprotein YjbF" ["YjbF"] "MKRPALILICLLLQACSATTKELGNSLWDSLFGTPGVQLTDDDIQNMPYASQYMQLNGGPQLFVVLAFAEDGQQKWVTQDQATLVTQHGRLVKTLLGGDNLIEVNNLAADPLIKPAQIVDGASWTRTMGWTEYQQVRYATARSVFKWDGTDTVKVGSDETPVRVLDEEVSTDQARWHNRYWIDSEGQIRQSEQYLGADYFPVKTTLIKAAKQ" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE", "CCO-PERI-BAC"] +"EG11925-MONOMER" "capsule biosynthesis GfcC family protein YjbG" ["YjbG"] "MIKQTIVALLLSVGASSVFAAGTVKVFSNGSSEAKTLTGAEHLIDLVGQPRLANSWWPGAVISEELATAAALRQQQALLTRLAEQGADSSADDAAAINALRQQIQALKVTGRQKINLDPDIVRVAERGNPPLQGNYTLWVGPPPSTVTLFGLISRPGKQPFTPGRDVASYLSDQSLLSGADRSYAWVVYPDGRTQKAPVAYWNKRHVEPMPGSIIYVGLADSVWSETPDALNADILQTLTQRIPQ" [] ["CCO-PM-BAC-NEG"] +"EG11926-MONOMER" "YjbH family protein" ["YjbH"] "MKKRHLLSLLALGISTACYGETYPAPIGPSQSDFGGVGLLQTPTARMAREGELSLNYRDNDQYRYYSASVQLFPWLETTLRYTDVRTRQYSSVEAFSGDQTYKDKAFDLKLRLWEESYWLPQVAVGARDIGGTGLFDAEYLVASKAWGPFDFTLGLGWGYLGTSGNVKNPLCSASDKYCYRDNSYKQAGSIDGSQMFHGPASLFGGVEYQTPWQPLRLKLEYEGNNYQQDFAGKLEQKSKFNVGAIYRVTDWADVNLSYERGNTFMFGVTLRTNFNDLRPSYNDNARPQYQPQPQDAILQHSVVANQLTLLKYNAGLADPQIQAKGDTLYVTGEQVKYRDSREGIIRANRIVMNDLPDGIKTIRITENRLNMPQVTTETDVASLKNHLAGEPLGHETTLAQKRVEPVVPQSTEQGWYIDKSRFDFHIDPVLNQSVGGPENFYMYQLGVMGTADLWLTDHLLTTGSLFANLANNYDKFNYTNPPQDSHLPRVRTHVREYVQNDVYVNNLQANYFQHLGNGFYGQVYGGYLETMFGGAGAEVLYRPLDSNWAFGLDANYVKQRDWRSAKDMMKFTDYSVKTGHLTAYWTPSFAQDVLVKASVGQYLAGDKGGTLEIAKRFDSGVVVGGYATITNVSKEEYGEGDFTKGVYVSVPLDLFSSGPTRSRAAIGWTPLTRDGGQQLGRKFQLYDMTSDRSVNFR" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE", "CCO-OUTER-MEM"] +"EG11927-MONOMER" "pentapeptide repeats-containing protein YjbI" ["YjbI"] "MISHILNSGGNNSLMKHDVVQGNNIVDLDLLRNLNGVPGLNRDNFIYISNIFSNIKQRNEKIMQ*ICFVKSQSVMIL*V*NSTEMKKIECACNFLMDKDAQGYIDLSDLDLTSCHFKGDVISKVSFLSSNLQHVTFECKEIGDCNFTTAIVDNVIFRCRRLHNVIFIKASGECVDFSKNILDTVDFSQSQLGHSNFRECQIRNSNFDNCYLYASHFTRAEFLSAKEISFIKSNLTAVMFDYVRMSTGNFKDCITEQLELTIDYSDIFWNEDLDGYINNIIKMIDTLPDNAMILKSVLAVKLVMQLKILNIVNKNFIENMKKIFSHCPYIKDPIIRSYIHSDEDNKFDDFMRQHRFSEVNFDTQQMIDFINRFNTNKWLIDKNNNFFIQLIDQALRSTDDMIKANVWHLYKEWIRSDDVSPIFIETEDNLRTFNTNELTRNDNIFILFSSVDDGPVMVVSSQRLHDMLNPTKDTNWNSTYIYKSRHEMLPVNLTQETLFSSKSHGKYALFPIFTASWRAHRIMNKGV" [] [] +"EG11928-MONOMER" "putative stress response protein YjbJ" ["YjbJ"] "MNKDEAGGNWKQFKGKVKEQWGKLTDDDMTIIEGKRDQLVGKIQERYGYQKDQAEKEVVDWETRNEYRW" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11929-MONOMER" "DNA-binding transcriptional repressor Zur" ["ZnuR", "YjbK", "Zur"] "MEKTTTQELLAQAEKICAQRNVRLTPQRLEVLRLMSLQDGAISAYDLLDLLREAEPQAKPPTVYRALDFLLEQGFVHKVESTNSYVLCHLFDQPTHTSAMFICDRCGAVKEECAEGVEDIMHTLAAKMGFALRHNVIEAHGLCAACVEVEACRHPEQCQHDHSVQVKKKPR" [] ["CCO-CYTOSOL"] +"EG11930-MONOMER" "uncharacterized protein YjbL" ["YjbL"] "MLKIIPGATGYFNKTLNSNQFDNEDAIKDKLDNRGSIKGKLNNIYGKSIDYAALRHRDIIIAKIDLFIQRITHNLWHARKKMCF" [] ["CCO-CYTOSOL"] +"EG11931-MONOMER" "DUF2713 domain-containing protein YjbM" ["YjbM"] "MWVNKYIDDCTDEDLNDRDFIASVVDRAIFHFAINSICNPGDNKDAMPIEQCTFDVETKNDLPSTVQLFYEESKDNEPLANIHFQAIGSGFLTFVNACQEHDDNSLKLFASLLISLSYSSAYADLSETVYINENNESYLKAQFEKLSQRDMKKYLGEMKRLADGGEMNFDGYLDKMSHLVNEGTLDPDILSKMRDAAPQLISFAKSFDPTSKEEIKILTDTSKLIYDLFGVKSEK" [] ["CCO-CYTOSOL"] +"EG11932-MONOMER" "tRNA-dihydrouridine synthase A" ["DusA", "YjbN"] "MHGNSEMQKINQTSAMPEKTDVHWSGRFSVAPMLDWTDRHCRYFLRLLSRNTLLYTEMVTTGAIIHGKGDYLAYSEEEHPVALQLGGSDPAALAQCAKLAEARGYDEINLNVGCPSDRVQNGMFGACLMGNAQLVADCVKAMRDVVSIPVTVKTRIGIDDQDSYEFLCDFINTVSGKGECEMFIIHARKAWLSGLSPKENREIPPLDYPRVYQLKRDFPHLTMSINGGIKSLEEAKAHLQHMDGVMVGREAYQNPGILAAVDREIFGSSDTDADPVAVVRAMYPYIERELSQGTYLGHITRHMLGLFQGIPGARQWRRYLSENAHKAGADINVLEHALKLVADKR" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11933-MONOMER" "phage shock protein G" ["YjbO", "PspG"] "MLELLFVIGFFVMLMVTGVSLLGIIAALVVATAIMFLGGMLALMIKLLPWLLLAIAVVWVIKAIKAPKVPKYQRYDRWRY" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11935-MONOMER" "PF01894 family protein YjbQ" ["YjbQ", "UPF0047 protein YjbQ"] "MWYQKTLTLSAKSRGFHLVTDEILNQLADMPRVNIGLLHLLLQHTSASLTLNENCDPTVRHDMERFFLRTVPDNGNYEHDYEGADDMPSHIKSSMLGTSLVLPVHKGRIQTGTWQGIWLGEHRIHGGSRRIIATLQGE" [] ["CCO-CYTOSOL"] +"EG11936-MONOMER" "PF04237 family protein YjbR" ["YjbR"] "MTISELLQYCMAKPGAEQSVHNDWKATQIKVEDVLFAMVKEVENRPAVSLKTSPELAELLRQQHSDVRPSRHLNKAHWSTVYLDGSLPDSQIYYLVDASYQQAVNLLPEEKRKLLVQL" [] ["CCO-CYTOSOL"] +"EG11937-MONOMER" "uncharacterized protein YjcB" ["YjcB"] "MATLTTGVVLLRWQLLSAVMMFLASTLNIRFRRSDYVGLAVISSGLGVVSACWFAMGLLGITMADITAIWHNIESVMIEEMNQTPPQWPMILT" [] ["CCO-PM-BAC-NEG"] +"EG11938-MONOMER" "c-di-GMP phosphodiesterase PdeC" ["PdeC", "YjcC"] "MSHRARHQLLALPGIIFLVLFPIILSLWIAFLWAKSEVNNQLRTFAQLALDKSELVIRQADLVSDAAERYQGQVCTPAHQKRMLNIIRGYLYINELIYARDNHFLCSSLIAPVNGYTIAPADYKREPNVSIYYYRDTPFFSGYKMTYMQRGNYVAVINPLFWSEVMSDDPTLQWGVYDTVTKTFFSLSKEASAATFSPLIHLKDLTVQRNGYLYATVYSTKRPIAAIVATSYQRLITHFYNHLIFALPAGILGSLVLLLLWLRIRQNYLSPKRKLQRALEKHQLCLYYQPIIDIKTEKCIGAEALLRWPGEQGQIMNPAEFIPLAEKEGMIEQITDYVIDNVFRDLGDYLATHADRYVSINLSASDFHTSRLIARINQKTEQYAVRPQQIKFEVTEHAFLDVDKMTPIILAFRQAGYEVAIDDFGIGYSNLHNLKSLNVDILKIDKSFVETLTTHKTSHLIAEHIIELAHSLGLKTIAEGVETEEQVNWLRKRGVRYCQGWFFAKAMPPQVFMQWMEQLPARELTRGQ" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PERI-BAC", "CCO-CYTOSOL", "CCO-PM-BAC-NEG"] +"EG11939-MONOMER" "guanine/hypoxanthine transporter GhxP" ["GhxP", "YjcD"] "MSTPSARTGGSLDAWFKISQRGSTVRQEVVAGLTTFLAMVYSVIVVPGMLGKAGFPPAAVFVATCLVAGLGSIVMGLWANLPLAIGCAISLTAFTAFSLVLGQHISVPVALGAVFLMGVLFTVISATGIRSWILRNLPHGVAHGTGIGIGLFLLLIAANGVGLVIKNPLDGLPVALGDFATFPVIMSLVGLAVIIGLEKLKVPGGILLTIIGISIVGLIFDPNVHFSGVFAMPSLSDENGNSLIGSLDIMGALNPVVLPSVLALVMTAVFDATGTIRAVAGQANLLDKDGQIIDGGKALTTDSMSSVFSGLVGAAPAAVYIESAAGTAAGGKTGLTAITVGVLFLLILFLSPLSYLVPGYATAPALMYVGLLMLSNVAKIDFADFVDAMAGLVTAVFIVLTCNIVTGIMIGFATLVIGRLVSGEWRKLNIGTVVIAVALVTFYAGGWAI" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11941-MONOMER" "pentapeptide repeat-containing protein YjcF" ["YjcF"] "MRYNGLNNMFFPLCLINDNHSVTSPSHTKKTKSDNYSKHHKNTLIDNKALSLFKMDDHEKVIGLIQKMKRIYDSLPSGKITKETDRKIHKYFIDIASHANNKCDDRITRRVYLNKDKEVSIKVVYFINNVTVHNNTIEIPQTVNGGYDFSHLSLKGIVIKDEDLSNSNFAGCRLQNAIFQDCNMYKTNFNFAIMEKILFDNCILDDSNFAQIKMTDGTLNSCSAMHVQFYNATMNRANIKNTFLDYSNFYMAYMAEVNLYKVIAPYINLFRADLSFSKLDLINFEHADLSRVNLNKATLQNINLIDSKLFFTRLTNTFLEMVICTDSNMANVNFNNANLSNCHFNCSVLTKAWMFNIRLYRVNFDEASVQGMGITILRGEENISINSDILVTLQKFFEEDCATHTGMSQTEDNLHAVAMKITADIMQDAD" [] ["CCO-CYTOSOL"] +"EG11948-MONOMER" "putative cytochrome c-type biogenesis protein NrfE" ["YjcL", "NrfE", "formate-dependent nitrite reductase; possible assembly function"] "MLTPLTAFAGVRLRWPAMMRLTCIGILAQFALLLLAFGVLTYCFLISDFSVIYVAQHSYSLLSWELKLAAVWGGHEGSLLLWVLLLSAWSALFAWHYRQQTDPLFPLTLAVLSLMLAALLLFVVLWSDPFVRIFPPAIEGRDLNPMLQHPGLIFHPPLLYLGYGGLMVAASVALASLLRGEFDGACARICWRWALPGWSALTAGIILGSWWAYCELGWGGWWFWDPVENASLLPWLSATALLHSLSLTRQRGIFCHWSLLLAIVTLMLSLLGTLIVRSGILVSVHAFALDNVRAVPLFSLFALISLASLALYGWRARDGGPAVHFSGLSREMLILATLLLFCAVLLIVLVGTLYPMIYGLLGWGRLSVGAPYFNRATLPFGLLMLVVIVLATFVSGKRVQLPALVAHAGVLLFAAGVVVSSVSRQEISLNLQPGQQVTLAGYTFRFECLDLQAKGNYTSEKAIVALFDHQQRIGELTPERRFYEARRQQMMEPSIRWNGIHDWYAVMGEKTGPDRYAFRLYVQSGVRWIWGGGLLMIAGALLSGWRGKKRDE" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11949-MONOMER" "putative formate-dependent nitrite reductase complex subunit NrfF" ["YjcM", "NrfF", "activator of formate-dependent nitrite reductase complex"] "MNKGLLTLLLLFTCFAHAQVVDTWQFANPQQQQQALNIASQLRCPQCQNQNLLESNAPVAVSMRHQVYSMVAEGKNEVEIIGWMTERYGDFVRYNPPLTGQTLVLWALPVVLLLLMALILWRVRAKR" [] ["CCO-PERI-BAC", "CCO-PM-BAC-NEG"] +"EG11950-MONOMER" "putative formate-dependent nitrite reductase complex subunit NrfG" ["AidC", "YjcN", "NrfG"] "MKQPKIPVKMLTTLTILMVFLCVGSYLLSPKWQAVRAEYQRQRDPLHQFASQQTPEAQLQALQDKIRANPQNSEQWALLGEYYLWQNDYSNSLLAYRQALQLRGENAELYAALATVLYYQASQHMTAQTRAMIDKALALDSNEITALMLLASDAFMQANYAQAIELWQKVMDLNSPRVNRTQLVESINMAKLLQRRLD" [] ["CCO-PM-BAC-NEG", "CCO-PERI-BAC"] +"EG11951-MONOMER" "Sel1 repeat-containing protein YjcO" ["YjcO"] "MKKIIALMLFLTFFAHANDSEPGSQYLKAAEAGDRRAQYFLADSWFSSGDLSKAEYWAQKAADSGDADACALLAQIKITNPVSLDYPQAKVLAEKAAQAGSKEGEVTLAHILVNTQAGKPDYPKAISLLENASEDLENDSAVDAQMLLGLIYANGVGIKADDDKATWYFKRSSAISRTGYSEYWAGMMFLNGEEGFIEKNKQKALHWLNLSCMEGFDTGCEEFEKLTNG" [] ["CCO-CYTOSOL"] +"EG11952-MONOMER" "putative multidrug efflux pump outer membrane channel" ["MdtP", "YjcP", "SdsP"] "MINRQLSRLLLCSILGSTTLISGCALVRKDSAPHQQLKPEQIKLADDIHLASSGWPQAQWWKQLNDPQLDALIQRTLSGSHTLAEAKLREEKAQSQADLLDAGSQLQVAALGMLNRQRVSANGFLSPYSMDAPALGMDGPYYTEATVGLFAGLDLDLWGVHRSAVAAAIGAHNAALAETAAVELSLATGVAQLYYSMQASYQMLDLLEQTHDVIDYAVKAHQSKVAHGLEAQVPFHGARAQILAVDKQIVAVKGQITETRESLRALIGAGASDMPEIRPVALPQVQTGIPATLSYELLARRPDLQAMRWYVQASLDQVDSARALFYPSFDIKAFFGLDSIHLHTLFKKTSRQFNFIPGLKLPLFDGGRLNANLEGTRAASNMMIERYNQSVLNAVRDVAVNGTRLQTLNDEREMQAERVEATRFTQRAAEAAYQRGLTSRLQATEARLPVLAEEMSLLMLDSRRVIQSIQLMKSLGGGYQAGPVVEKK" [] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"EG11954-MONOMER" "putative multidrug efflux pump membrane fusion protein" ["MdtN", "YjcR", "SdsR"] "MESTPKKAPRSKFPALLVVALALVALVFVIWRVDSAPSTNDAYASADTIDVVPEVSGRIVELAVTDNQAVKQGDLLFRIDPRPYEANLAKAEASLAALDKQIMLTQRSVDAQQFGADSVNATVEKARAAAKQATDTLRRTEPLLKEGFVSAEDVDRARTAQRAAEADLNAVLLQAQSAASAVSGVDALVAQRAAVEADIALTKLHLEMATVRAPFDGRVISLKTSVGQFASAMRPIFTLIDTRHWYVIANFRETDLKNIRSGTPATIRLMSDSGKTFEGKVDSIGYGVLPDDGGLVLGGLPKVSRSINWVRVAQRFPVKIMVDKPDPEMFRIGASAVANLEPQ" [] ["CCO-MEMBRANE", "CCO-PERI-BAC", "CCO-PM-BAC-NEG"] +"EG11955-MONOMER" "linear primary-alkylsulfatase" ["YjcS"] "MNNSRLFRLSRIVIALTAASGMMVNTANAKEEAKAATQYTQQVNQNYAKSLPFSDRQDFDDAQRGFIAPLLDEGILRDANGKVYYRADDYKFDINAAAPETVNPSLWRQSQINGISGLFKVTDKMYQVRGQDISNITFVEGEKGIIVIDPLVTPPAAKAALDLYFQHRPQKPIVAVIYTHSHTDHYGGVKGIISEADVKSGKVQVIAPAGFMDEAISENVLAGNIMSRRALYSYGLLLPHNAQGNVGNGLGVTLATGDPSIIAPTKTIVRTGEKMIIDGLEFDFLMTPGSEAPAEMHFYIPALKALCTAENATHTLHNFYTLRGAKTRDTSKWTEYLNETLDMWGNDAEVLFMPHTWPVWGNKHINDYIGKYRDTIKYIHDQTLHLANQGYTMNEIGDMIKLPPALANNWASRGYYGSVSHNARAVYNFYLGYYDGNPANLHPYGQVEMGKRYVQALGGSARVINLAQEANKQGDYRWSAELLKQVIAANPGDQVAKNLQANNFEQLGYQAESATWRGFYLTGAKELREGVHKFSHGTTGSPDTIRGMSVEMLFDFMAVRLDSAKAAGKNISLNFNMSNGDNLNLTLNDSVLNYRKTLQPQADASFYISREDLHAVLTGQAKMADLVKAKKAKIIGNGAKLEEIIACLDNFDLWVNIVTPN" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"EG11956-MONOMER" null ["YjcT", "AlsK"] "MQKQHNVVAGVDMGATHIRFCLRTAEGETLHCEKKRTAEVIAPGLVSGIGEMIDEQLRRFNARCHGLVMGFPALVSKDKRTIISTPNLPLTAADLYDLADKLENTLNCPVEFSRDVNLQLSWDVVENRLTQQLVLAAYLGTGMGFAVWMNGAPWTGAHGVAGELGHIPLGDMTQHCACGNPGCLETNCSGMALRRWYEQQPRNYPLRDLFVHAENAPFVQSLLENAARAIATSINLFDPDAVILGGGVMDMPAFPRETLVAMTQKYLRRPLPHQVVRFIAASSSDFNGAQGAAILAHQRFLPQFCAKAP" [] ["CCO-CYTOSOL"] +"EG11957-MONOMER" "D-allulose-6-phosphate 3-epimerase" ["YjcU", "AlsE"] "MKISPSLMCMDLLKFKEQIEFIDSHADYFHIDIMDGHFVPNLTLSPFFVSQVKKLATKPLDCHLMVTRPQDYIAQLARAGADFITLHPETINGQAFRLIDEIRRHDMKVGLILNPETPVEAMKYYIHKADKITVMTVDPGFAGQPFIPEMLDKLAELKAWREREGLEYEIEVDGSCNQATYEKLMAAGADVFIVGTSGLFNHAENIDEAWRIMTAQILAAKSEVQPHAKTA" [] ["CCO-CYTOSOL"] +"EG11962-MONOMER" "DNA-binding transcriptional dual regulator LldR" ["Lct", "LldR", "LctR"] "MIVLPRRLSDEVADRVRALIDEKNLEAGMKLPAERQLAMQLGVSRNSLREALAKLVSEGVLLSRRGGGTFIRWRHDTWSEQNIVQPLKTLMADDPDYSFDILEARYAIEASTAWHAAMRATPGDKEKIQLCFEATLSEDPDIASQADVRFHLAIAEASHNIVLLQTMRGFFDVLQSSVKHSRQRMYLVPPVFSQLTEQHQAVIDAIFAGDADGARKAMMAHLSFVHTTMKRFDEDQARHARITRLPGEHNEHSREKNA" [] ["CCO-CYTOSOL"] +"EG11964-MONOMER" "DUF2810 domain-containing protein YibL" ["YibL"] "MKEVEKNEIKRLSDRLDAIRHQQADLSLVEAADKYAELEKEKATLEAEIARLREVHSQKLSKEAQKLMKMPFQRAITKKEQADMGKLKKSVRGLVVVHPMTALGREMGLQEMTGFSKTAF" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11966-MONOMER" "DNA-binding transcriptional activator AdiY" ["AdiY"] "MRICSDQPCIVLLTEKDVWIRVNGKEPISLKANHMALLNCENNIIDVSSLNNTLVAHISHDIIKDYLRFLNKDLSQIPVWQRSATPILTLPCLTPDVFRVAAQHSMMPAETESEKERTRALLFTVLSRFLDSKKFVSLMMYMLRNCVSDSVYQIIESDIHKDWNLSMVASCLCLSPSLLKKKLKSENTSYSQIITTCRMRYAVNELMMDGKNISQVSQSCGYNSTSYFISVFKDFYGMTPLHYVSQHRERTVA" [] ["CCO-CYTOSOL"] +"EG11967-MONOMER" "flagellar hook-filament junction protein 1" ["FlaS", "FlgK"] "MSSLINNAMSGLNAAQAALNTASNNISSYNVAGYTRQTTIMAQANSTLGAGGWVGNGVYVSGVQREYDAFITNQLRAAQTQSSGLTARYEQMSKIDNMLSTSTSSLATQMQDFFTSLQTLVSNAEDPAARQALIGKSEGLVNQFKTTDQYLRDQDKQVNIAIGASVDQINNYAKQIASLNDQISRLTGVGAGASPNNLLDQRDQLVSELNQIVGVEVSVQDGGTYNITMANGYSLVQGSTARQLAAVPSSADPSRTTVAYVDGTAGNIEIPEKLLNTGSLGGILTFRSQDLDQTRNTLGQLALAFAEAFNTQHKAGFDANGDAGEDFFAIGKPAVLQNTKNKGDVAIGATVTDASAVLATDYKISFDNNQWQVTRLASNTTFTVTPDANGKVAFDGLELTFTGTPAVNDSFTLKPVSDAIVNMDVLITDEAKIAMASEEDAGDSDNRNGQALLDLQSNSKTVGGAKSFNDAYASLVSDIGNKTATLKTSSATQGNVVTQLSNQQQSISGVNLDEEYGNLQRFQQYYLANAQVLQTANAIFDALINIR" [] ["CCO-EXTRACELLULAR", "CCO-CELL-PROJECTION"] +"EG11969-MONOMER" "DNA-binding transcriptional activator ZntR" ["YhdM", "ZntR"] "MYRIGELAKMAEVTPDTIRYYEKQQMMEHEVRTEGGFRLYTESDLQRLKFIRHARQLGFSLESIRELLSIRIDPEHHTCQESKGIVQERLQEVEARIAELQSMQRSLQRLNDACCGTAHSSVYCSILEALEQGASGVKSGC" [] ["CCO-CYTOSOL"] +"EG11970-MONOMER" "DUF1992 domain-containing protein YhdN" ["YhdN"] "MWLLDQWAERHIAEAQAKGEFDNLAGSGEPLILDDDSHVPPELRAGYRLLKNAGCLPPELEQRREAIQLLDILKGIRHDDPQYQEVSRRLSLLELKLRQAGLSTDFLRGDYADKLLDKINDN" [] ["CCO-CYTOSOL"] +"EG11972-MONOMER" "putative fimbrial usher protein HtrE" ["HtrE"] "MTIEYTKNYHHLTRIATFCALLYCNTAFSAELVEYDHTFLMGQNASNIDLSRYSEGNPAIPGVYDVSVYVNDQPIINQSITFVAIEGKKNAQACITLKNLLQFHINSPDINNEKAVLLARDETLGNCLNLTEIIPQASVRYDVNDQRLDIDVPQAWVMKNYQNYVDPSLWENGINAAMLSYNLNGYHSETPGRKNESIYAAFNGGMNLGAWRLRASGNYNWMTDSGSNYDFKNRYVQRDIASLRSQLILGESYTTGETFDSVSIRGIRLYSDSRMLPPTLASFAPIIHGVANTNAKVTITQGGYKIYETTVPPGAFVIDDLSPSGYGSDLIVTIEESDGSKRTFSQPFSSVVQMLRPGVGRWDISGGQVLKDDIQDEPNLFQASYYYGLNNYLTGYTGIQITDNNYTAGLLGLGLNTSVGAFSFDVTHSNVRIPDDKTYQGQSYRVSWNKLFEETSTSLNIAAYRYSTQNYLGLNDALTLIDEVKHPEQDLEPKSMRNYSRMKNQVTVSINQPLKFEKKDYGSFYLSGSWSDYWASGQNRSNYSIGYSNSTSWGSYSVSAQRSWNEDGDTDDSVYLSFTIPIEKLLGTEQRTSGFQSIDTQISSDFKGNNQLNVSSSGYSDNARVSYSVNTGYTMNKASKDLSYVGGYASYESPWGTLAGSISANSDNSRQVSLSTDGGFVLHSGGLTFSNDSFSDSDTLAVVQAPGAQGARINYGNSTIDRWGYGVTSALSPYHENRIALDINDLENDVELKSTSAVAVPRQGSVVFADFETVQGQSAIMNITRSDGKNIPFAADIYDEQGNVIGNVGQGGQAFVRGIEQQGNISIKWLEQSKPVSCLAHYQQSPEAEKIAQSIILNGIRCQIQ" [] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"EG11973-MONOMER" "putative fimbrial chaperone YadV" ["YadV", "EcpD"] "MFFNTKHTTALCFVTCMAFSSSSIADIVISGTRVIYKSDQKSVNVRLENKGNNPLLVQSWLDTGDDNAEPGSITVPFTATPPVSRIDAKRGQTIKLMYTASTSLPKDRESVFWFNVLEVPPKPDAEKVANQSLLQLAFRTRIKLFYRPDGLKGNPSEAPLALKWFWSGSEGKASLRVTNPTPYYVSFSSGDLEASGKRYPIDVKMIAPFSDEVMKVNGLNGKANSAKVHFYAINDFGGAIEGNARL" [] ["CCO-PERI-BAC"] +"EG11974-MONOMER" "putative fimbrial protein FimI" ["FimI"] "MKRKRLFLLASLLPMFALAGNKWNTTLPGGNMQFQGVIIAETCRIEAGDKQMTVNMGQISSNRFHAVGEDSAPVPFVIHLRECSTVVSERVGVAFHGVADGKNPDVLSVGEGPGIATNIGVALFDDEGNLVPINRPPANWKRLYSGSTSLHFIAKYRATGRRVTGGIANAQAWFSLTYQ" [] ["CCO-PILUS", "CCO-EXTRACELLULAR"] +"EG11975-MONOMER" "flagellar biosynthesis protein FliP" ["FlaR", "FliP"] "MRRLLSVAPVLLWLITPLAFAQLPGITSQPLPGGGQSWSLPVQTLVFITSLTFIPAILLMMTSFTRIIIVFGLLRNALGTPSAPPNQVLLGLALFLTFFIMSPVIDKIYVDAYQPFSEEKISMQEALEKGAQPLREFMLRQTREADLGLFARLANTGPLQGPEAVPMRILLPAYVTSELKTAFQIGFTIFIPFLIIDLVIASVLMALGMMMVPPATIALPFKLMLFVLVDGWQLLVGSLAQSFYS" ["CCO-PM-BAC-NEG"] ["CCO-CELL-PROJECTION", "CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11976-MONOMER" "flagellar biosynthesis protein FliQ" ["FlaQ", "FliQ", "flagellar biosynthetic protein FliQ"] "MTPESVMMMGTEAMKVALALAAPLLLVALVTGLIISILQAATQINEMTLSFIPKIIAVFIAIIIAGPWMLNLLLDYVRTLFTNLPYIIG" [] ["CCO-CELL-PROJECTION", "CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11977-MONOMER" "flagellar biosynthesis protein FliR" ["FlaP", "FliR"] "MLQVTSEQWLSWLNLYFWPLLRVLALISTAPILSERSVPKRVKLGLAMMITFAIAPSLPANDVPVFSFFALWLAVQQILIGIALGFTMQFAFAAVRTAGEIIGLQMGLSFATFVDPASHLNMPVLARIMDMLALLLFLTFNGHLWLISLLVDTFHTLPIGGEPLNSNAFLALTKAGSLIFLNGLMLALPLITLLLTLNLALGLLNRMAPQLSIFVIGFPLTLTVGISLMAALMPLIAPFCEHLFSEIFNLLADIISELPLI" ["CCO-PM-BAC-NEG"] ["CCO-CELL-PROJECTION", "CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11982-MONOMER" "putative O-antigen polymerase" ["YefF", "WbbH", "Rfc"] "MIYLVISVFLITAFICLYLKKDIFYPAVCVNIIFALVLLGYEITSDIYAFQLNDATLIFLLCNVLTFTLSCLLTESVLDLNIRKVNNAIYSIPSKKVHNVGLLVISFSMIYICMRLSNYQFGTSLLSYMNLIRDADVEDTSRNFSAYMQPIILTTFALFIWSKKFTNTKVSKTFTLLVFIVFIFAIILNTGKQIVFMVIISYAFIVGVNRVKHYVYLITAVGVLFSLYMLFLRGLPGGMAYYLSMYLVSPIIAFQEFYFQQVSNSASSHVFWFFERLMGLLTGGVSMSLHKEFVWVGLPTNVYTAFSDYVYISAELSYLMMVIHGCISGVLWRLSRNYISVKIFYSYFIYTFSFIFYHESFMTNISSWIQITLCIIVFSQFLKAQKIK" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG11983-MONOMER" "β-1,6-galactofuranosyltransferase WbbI" ["WbbI", "YefG"] "MYFLNDLNFSRRDAGFKARKDALDIASDYENISVVNIPLWGGVVQRIISSVKLSTFLCGLENKDVLIFNFPMAKPFWHILSFFHRLLKFRIVPLIHDIDELRGGGGSDSVRLATCDMVISHNPQMTKYLSKYMSQDKIKDIKIFDYLVSSDVEHRDVTDKQRGVIYAGNLSRHKCSFIYTEGCDFTLFGVNYENKDNPKYLGSFDAQSPEKINLPGMQFGLIWDGDSVETCSGAFGDYLKFNNPHKTSLYLSMELPVFIWDKAALADFIVDNRIGYAVGSIKEMQEIVDSMTIETYKQISENTKIISQKIRTGSYFRDVLEEVIDDLKTR" [] ["CCO-CYTOSOL"] +"EG11984-MONOMER" "putative lipopolysaccharide biosynthesis O-acetyl transferase WbbJ" ["WbbJ", "YefH"] "MILKLAKRYGLCGFIRLVRDVLLTRVFYRNCRIIRFPCYIRNDGSINFGENFTSGVGLRLDAFGRGVIFFSDNVQVNDYVHIASIESVTIGRDTLIASKVFITDHNHGSFKHSDPMSSPNIPPDMRTLESSAVVIGQRVWLGENVTVLPGTIIGNGVVVGANSVVRGSIPENTVIAGVPAKIIKKYNHETKLWEKA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG11985-MONOMER" "putative glycosyltransferase WbbK" ["WbbK", "YefI"] "MGKSIVVVSAVNFTTGGPFTILKKFLAATNNKENVSFIALVHSAKELKESYPWVKFIEFPEVKGSWLKRLHFEYVVCKKLSKELNATHWICLHDITANVVTKKRYVYCHNPAPFYKGILFREILMEPSFFLFKMLYGLIYKINIKKNTAVFVQQFWMKEKFIKKYSINNIIVSRPEIKLSDKSQLTDDDSQFKNNPSELTIFYPAVPRVFKNYELIISAARKLKEQSNIKFLLTISGTENAYAKYIISLAEGLDNVHFLGYLDKEKIDHCYNISDIVCFPSRLETWGLPLSEAKERGKWVLASDFPFTRETLGSYEKKAFFDSNNDDMLVKLIIDFKKGNLKKDISDANFIYRNENVLVGFDELVNFITEEH" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"EG11986-MONOMER" "interrupted rhamnosyltransferase WbbL" ["WbbL", "YefJ", "lipopolysaccharide biosynthesis protein, N-terminal fragment"] "MVYIIIVSHGHEDYIKKLLENLNADDEHYKIIVRDNKDSLLLKQICQHYAGLDYISGGVYGFGHNNNIAVAYVKEKYRPADDDYILFLNPDIIMKHDDLLTYIKYVESKRYAFSTLCLFRDEAKSLHDYSVRKFPVLSDFIVSFMLGINKTKIPKESIYSDTVVDWCAGSFMLVRFSDFVRVNGFDQGYFMYCEDIDLCLRLSLAGVRLHYVPAFHAIHYAHHDNRSFFSKAFRWHLKSTFRYLARKRILSNRNFDRISSVFHP" [] ["CCO-MEMBRANE"] +"EG11987-MONOMER" "putative fimbrial adhesin YehA" ["YehA"] "MEIRIMLFILMMMVMPVSYAACYSELSVQHNLVVQGDFALTQTQMATYEHNFNDSSCVSTNTITPMSPSDIIVGLYNDTIKLNLHFEWTNKNNITLSNNQTSFTSGYSVTVTPAASNAKVNVSAGGGGSVMINGVATLSSASSSTRGSAAVQFLLCLLGGKSWDACVNSYRNALAQNAGVYSFNLTLSYNPITTTCKPDDLLITLDSIPVSQLPATGNKATINSKQGDIILRCKNLLGQQNQTSRKMQVYLSSSDLLTNSNTILKGAEDNGVGFILESNGSPVTLLNITNSSKGYTNLKEVAAKSKLTDTTVSIPITASYYVYDTNKVKSGALEATALINVKYD" [] ["CCO-PILUS"] +"EG11988-MONOMER" "putative fimbrial usher protein YehB" ["YehB"] "MLRMTPLASAIVALLLGIEAYAAEETFDTHFMIGGMKDQQVANIRLDDNQPLPGQYDIDIYVNKQWRGKYEIIVKDNPQETCLSREVIKRLGINSDNFASGKQCLTFEQLVQGGSYTWDIGVFRLDFSVPQAWVEELESGYVPPENWERGINAFYTSYYLSQYYSDYKASGNNKSTYVRFNSGLNLLGWQLHSDASFSKTNNNPGVWKSNTLYLERGFAQLLGTLRVGDMYTSSDIFDSVRFRGVRLFRDMQMLPNSKQNFTPRVQGIAQSNALVTIEQNGFVVYQKEVPPGPFAITDLQLAGGGADLDVSVKEADGSVTTYLVPYAAVPNMLQPGVSKYDLAAGRSHIEGASKQSDFVQAGYQYGFNNLLTLYGGSMVANNYYAFTLGAGWNTRIGAISVDATKSHSKQDNGDVFDGQSYQIAYNKFVSQTSTRFGLAAWRYSSRDYRTFNDHVWANNKDNYRRDENDVYDIADYYQNDFGRKNSFSANMSQSLPEGWGSVSLSTLWRDYWGRSGSSKDYQLSYSNNLRRISYTLAASQAYDENHHEEKRFNIFISIPFDWGDDVSTPRRQIYMSNSTTFDDQGFASNNTGLSGTVGSRDQFNYGVNLSHQHQGNETTAGANLTWNAPVATVNGSYSQSSTYRQAGASVSGGIVAWSGGVNLANRLSETFAVMNAPGIKDAYVNGQKYRTTNRNGVVIYDGMTPYRENHLMLDVSQSDSEAELRGNRKIAAPYRGAVVLVNFDTDQRKPWFIKALRADGQSLTFGYEVNDIHGHNIGVVGQGSQLFIRTNEVPPSVNVAIDKQQGLSCTITFGKEIDESRNYICQ" [] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"EG11989-MONOMER" "putative fimbrial chaperone YehC" ["YehC"] "MAAIPWRPFNLRGIKMKGLLSLLIFSMVLPAHAGIVIYGTRIIYPAENKEVMVQLMNQGNRSSLLQAWIDDGDTSLPPEKIQVPFMLTPPVAKIGANSGQQVKIKIMPNKLPTNKESIFYLNVLDIPPNSPEQEGKNALKFAMQNRIKLFYRPAGIAPVNKATFKKLLVNRSGNGLVIKNDSANWVTISDVKANNVKVNYETIMIAPLESQSVNVKSNNANNWHLTIIDDHGNYISDKI" [] ["CCO-PERI-BAC"] +"EG11990-MONOMER" "putative fimbrial protein YehD" ["YehD"] "MKRSIIAAAVFSSFFMSAGVFAADVDTGTLTIKGNIAESPCKFEAGGDSVSINMPTVPTSVFEGKAKYSTYDDAVGVTSSMLKISCPKEVAGVKLSLITNDKITGNDKAIASSNDTVGYYLYLGDNSDVLDVSAPFNIESYKTAEGQYAIPFKAKYLKLTDNSVQSGDVLSSLVMRVAQD" ["CCO-PILUS"] ["CCO-EXTRACELLULAR", "CCO-PILUS"] +"EG11991-MONOMER" "DUF2574 domain-containing protein YehE" ["YehE"] "MNKYWLSGIIFLAYGLASPAFSSETATLAINGRISPPTCSMAMVNGQPQQHCGQLTYNVDTRHLFSSPVKGVTTEVVVAGSDSKRRIVLNRYD" [] ["CCO-PM-BAC-NEG"] +"EG11992-MONOMER" "PF05406 family protein YehF" ["DinO", "SosF", "MolR_1", "YehF"] "MRHFIYQDEKSHKFRAVEQQGNELHISWGKVGTKGQSQIKSFSDAAAAAKAELKLIAEKVKKGYVEQAKDNSLQPSQTVTGSLKVADLSTIIQEQPSFVAETRAPDKNTDAVLPWLAKDIAVVFPPEVVHTTLSHRRFPGVPVQQADKLPQLRRLACSVSQRDNKTATFDFSACSLEWQNTVAQAISQIDGLKTTQLPSPVMAVLTALEMKCTRYKVREDVMDQIVQEGGLEYATDVIIHLQQIDIEWDYANNVIIILPSGIAPSYLEQYSRFE" [] ["CCO-CYTOSOL"] +"EG11995-MONOMER" "DUF4132 domain-containing protein YehI" ["YehI"] "MDKELPWLADNAQLELKYKKGKTPLSHRRWPGEPVSVITGSLIQTLGDELLQKAEKKKNIVWRYENFSLEWQSAITQAINLIGEHKPSIPARTMAALACIAQNDSQQLLDEIVQQEGLEYATEVVIARQFIARCYESDPLVVTLQYQDEDYGYGYRSETYNEFDLRLRKHLSLAEESCWQRCADKLIAALPGINKVRRPFIALILPEKPEIANELVGLECPRTHFHSKEWLKVVANDPTAVRKLEHYWSQDIFSDREASYMSHENHFGYAACAALLREQGLAAIPRLAMYAHKEDCGSLLVQINHPQVIRTLLLVADKNKPSLQRVAKYHKNFPHATLAALAELLALTEPPARPGYPIIEDKKLPAQQKARDEYWRTLLQTLMASQPQLAAEVMPWLSTQPQSVLKSYLSAPPKPVIDGTDNSNLPEILVSPPWRSKKKMTAPRLDLAPLELTPQVYWQPGEQERLAATEPARYFSTESLAQRMEQKSGRVVLQELGFGDDVWLFLNYILPGKLDAARNSLFVQWHYYQGRVEEILNGWNSPEAQLAEQALRSGHIEALINIWENDNYSHYRPEKSVWNLYLLAQLPREMALTFWLRINEKKHLFAGEDYFLSILGLDALPGLLLAFSHRPKETFPLILNFGATELALPVAHVWRRFAAQRDLARQWILQWPEHTASALIPLVFTKPSDNSEAALLALRLLYEQGHGELLQTVANRWQRTDVWSALEQLLKQGPMDIYPARIPKAPDFWHPQMWSRPRLITNNQTVTNDALEIIGEMLRFTQGGRFYSGLEQLKTFCQPQTLAAFAWDLFTAWQQAGAPAKDNWAFLALSLFGDESTARDLTTQILAWPQEGKSARAVSGLNILTLMNNDMALIQLHHISQRAKSRPLRDNAAEFLQVVAENRGLSQEELADRLVPTLGLDDPQALSFDFGPRQFTVRFDENLNPVIFDQQNVRQKSVPRLRADDDQLKAPEALARLKGLKKDATQVSKNLLPRLETALRTTRRWSLADFHSLFVNHPFTRLVTQRLIWGVYPANEPRCLLKAFRVAAEGEFCNAQDEPIDLPADALIGIAHPLEMTAEMRSEFAQLFADYEIMPPFRQLSRRTVLLTPDESTSNSLTRWEGKSATVGQLMGMRYKGWESGYEDAFVYNLGEYRLVLKFSPGFNHYNVDSKALMSFRSLRVYRDNKSVTFAELDVFDLSEALSAPDVIFH" [] ["CCO-PM-BAC-NEG"] +"EG11998-MONOMER" "putative AAA+ MoxR family ATPase YehL" ["YehL"] "MSPQNNHLQRPPAAVLYADELAKLKQNDNAPCPPGWQLSLPAARAFILGDEAQNISRKVVISPSAVERMLVTLATGRGLMLVGEPGTAKSLLSELLATAISGDAGLTIQGGASTTEDQIKYGWNYALLINHGPSTEALVPAPLYQGMRDGKIVRFEEITRTPLEVQDCLLGMLSDRVMTGPELTGEASQLYAREGFNIIATANTRDRGVNEMSAALKRRFDFETVFPIMDFAQELELVASASARLLAHSGIPHKVPDAVLELLVRTFRDLRANGEKKTSMDTLTAIMSTAEAVNVAHAVGVRAWFLANRAGEPADLVECIAGTIVKDNEEDRARLRRYFEQRVATHKEAHWQAYYQARHRLP" [] ["CCO-CYTOSOL"] +"EG11999-MONOMER" "uncharacterized protein YehM" ["YehN", "YehO", "YehM"] "MSEPLIVGIRHHSPACARLVKSLIESQRPRYVLIEGPADFNDRVDELFLAHQLPVAIYSYCQYQDGAAPGRGAWTPFAEFSPEWQALQAARRIQAQTYFIDLPCWAQSEEEDDSPDTQDESQALLLRATRMDNSDTLWDHLFEDESQQTALPSALAHYFAQLRGDASGDALNRQREAFMARWIGWAMQQNNGDVLVVCGGWHAPALAKMWRECPQKINKPELPSLADAVTGCYLTPYSEKRLDVLAGYLSGMPAPVWQNWCWQWGLQKAGEQLLKTILTRLRQHKLPASTADMAAAHLHAMALAQLRGHTLPLRTDWLDAIAGSLIKEALNAPLPWSYRGVIHPDTDPILLTLIDTLAGDGFGKLAPSTPQPPLPKDVTCELERTAISLPAELTLNRFTPDGLAQSQVLHRLAILEIPGIVRQQGSTLTLAGNGEERWKLTRPLSQHAALIEAACFGATLQEAARNKLEADMLDAGGIGSITTCLSQAALAGLASFSQQLLEQLTLLIAQENQFAEMGQALEVLYALWRLDEISGMQGAQILQTTLCATIDRTLWLCESNGRPDEKEFHAHLHSWQALCHILRDLHSGVNLPGVSLSAAVALLERRSQAIHAPALDRGAALGALMRLEHPNASAEAALTMLAQLSPAQSGEALHGLLALARHQLACQPAFIAGFSSHLNQLSEADFINALPDLRAAMAWLPPRERGTLAHQVLEHYQLAQLPVSALQMPLHCPPQAIAHHQQLEQQALASLQNWGVFHV" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG12002-MONOMER" "VWA domain-containing protein YehP" ["YehP"] "MSELNDLLTTRELQRWRLILGEAAETTLCGLDDNARQIDHALEWLYGRDPERLQRGERSGGLGGSNLTTPEWINSIHTLFPQQVIERLESDAVLRYGIEDVVTNLDVLERMQPSESLLRAVLHTKHLMNPEVLAAARRIVCQVVEEIMARLAKEVRQAFSGVRDRRRRSFIPLARNFDFKSTLRANLQHWHPQHGKLYIESPRFNSRIKRQSEQWQLVLLVDQSGSMVDSVIHSAVMAACLWQLPGIRTHLVAFDTSVVDLTADVADPVELLMKVQLGGGTNIASAVEYGRQLIEQPAKSVIILVSDFYEGGSSSLLTHQVKKCVQSGIKVLGLAALDSTATPCYDRDTAQALVNVGAQIAAMTPGELASWLAENLQS" [] ["CCO-CYTOSOL"] +"EG12003-MONOMER" "SWIM zinc finger domains-containing protein YehQ" ["YehQ"] "MNSLRPELLELTPQALTALSNAGFVKRSLKELENGNVPEISHENDALIATFSDGVRTQLANGQALKEAQCSCGANGMCRHRVMLVLSYQRLCATTQSTEKEEEWDPAIWLEELATLPDATRKRAQALVAKGITIELFCAPGEIPSARLPMSDVRFYSRSSIRFARCDCIEGTLCEHVVLAVQAFVEAKAQQAEFNHLIWQMRSEHVTSSDDPFASEEGNACRQYVQQLSQTLWLGGISQPLIHYEAAFNRALQAAETCNWRWVSESLRQLRASVDAFHARASHYNAGECLHQLAALNSRLNCAQEMARRDSIGEVPPVPWRTVVGSGIAGEAKLDHLRLVSLGMRCWQDIEHYGLRIWFTDPDTGSILHLSRSWPRSEQENSPAATRRLFSFQAGALAGGQIVSQAAKRSADGELLLATRNRLSSVVPLSPDAWQMLSAPLRQPGIVALREYLRQRPPACIRPLNQVDNLFILPVAECISLGWDSSRQTLDAQVISGEGEDNVLTLSLPASASAPYAVERMAALLQQTDDPVCLVSGFVSFVEGQLTLEPRVMMTKTRAWALDAETTPVAPLPSASVLPVPSTAHQLLIRCQALLIQLLHNGWRYQEQSAIGQA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG12004-MONOMER" "DUF1307 domain-containing lipoprotein YehR" ["YehR"] "MKAFNKLFSLVVASVLVFSLAGCGDKEESKKFSANLNGTEIAITYVYKGDKVLKQSSETKIQFASIGATTKEDAAKTLEPLSAKYKNIAGVEEKLTYTDTYAQENVTIDMEKVDFKALQGISGINVSAEDAKKGITMAQMELVMKAAGFKEVK" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE", "CCO-PERI-BAC"] +"EG12005-MONOMER" "DUF1456 domain-containing protein YehS" ["YehS"] "MLSNDILRSVRYILKANNNDLVRILALGNVEATAEQIAVWLRKEDEEGFQRCPDIVLSSFLNGLIYEKRGKDESAPALEPERRINNNIVLKKLRIAFSLKTDDILAILTEQQFRVSMPEITAMMRAPDHKNFRECGDQFLRYFLRGLAARQHVKKG" [] ["CCO-CYTOSOL"] +"EG12006-MONOMER" "DNA-binding transcriptional dual regulator BtsR" ["BtsR", "YehT"] "MIKVLIVDDEPLARENLRVFLQEQSDIEIVGECSNAVEGIGAVHKLRPDVLFLDIQMPRISGLEMVGMLDPEHRPYIVFLTAFDEYAIKAFEEHAFDYLLKPIDEARLEKTLARLRQERSKQDVSLLPENQQALKFIPCTGHSRIYLLQMKDVAFVSSRMSGVYVTSHEGKEGFTELTLRTLESRTPLLRCHRQYLVNLAHLQEIRLEDNGQAELILRNGLTVPVSRRYLKSLKEAIGL" [] ["CCO-CYTOSOL"] +"EG12007-MONOMER" "high-affinity pyruvate receptor" ["YehU"] "MYDFNLVLLLLQQMCVFLVIAWLMSKTPLFIPLMQVTVRLPHKFLCYIVFSIFCIMGTWFGLHIDDSIANTRAIGAVMGGLLGGPVVGGLVGLTGGLHRYSMGGMTALSCMISTIVEGLLGGLVHSILIRRGRTDKVFNPITAGAVTFVAEMVQMLIILAIARPYEDAVRLVSNIAAPMMVTNTVGAALFMRILLDKRAMFEKYTSAFSATALKVAASTEGILRQGFNEVNSMKVAQVLYQELDIGAVAITDREKLLAFTGIGDDHHLPGKPISSTYTLKAIETGEVVYADGNEVPYRCSLHPQCKLGSTLVIPLRGENQRVMGTIKLYEAKNRLFSSINRTLGEGIAQLLSAQILAGQYERQKAMLTQSEIKLLHAQVNPHFLFNALNTIKAVIRRDSEQASQLVQYLSTFFRKNLKRPSEFVTLADEIEHVNAYLQIEKARFQSRLQVNIAIPQELSQQQLPAFTLQPIVENAIKHGTSQLLDTGRVAISARREGQHLMLEIEDNAGLYQPVTNASGLGMNLVDKRLRERFGDDYGISVACEPDSYTRITLRLPWRDEA" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG12008-MONOMER" "DNA-binding transcriptional activator MlrA" ["MlrA", "YehV"] "MALYTIGEVALLCDINPVTLRAWQRRYGLLKPQRTDGGHRLFNDADIDRIREIKRWIDNGVQVSKVKMLLSNENVDVQNGWRDQQETLLTYLQSGNLHSLRTWIKERGQDYPAQTLTTHLFIPLRRRLQCQQPTLQALLAILDGVLINYIAICLASARKKQGKDALVVGWNIQDTTRLWLEGWIASQQGWRIDVLAHSLNQLRPELFEGRTLLVWCGENRTSAQQQQLTSWQEQGHDIFPLGI" [] ["CCO-CYTOSOL"] +"EG12013-MONOMER" "β-D-glucoside glucohydrolase, periplasmic" ["YohA", "Glh", "BglX"] "MKWLCSVGIAVSLALQPALADDLFGNHPLTPEARDAFVTELLKKMTVDEKIGQLRLISVGPDNPKEAIREMIKDGQVGAIFNTVTRQDIRAMQDQVMELSRLKIPLFFAYDVLHGQRTVFPISLGLASSFNLDAVKTVGRVSAYEAADDGLNMTWAPMVDVSRDPRWGRASEGFGEDTYLTSTMGKTMVEAMQGKSPADRYSVMTSVKHFAAYGAVEGGKEYNTVDMSPQRLFNDYMPPYKAGLDAGSGAVMVALNSLNGTPATSDSWLLKDVLRDQWGFKGITVSDHGAIKELIKHGTAADPEDAVRVALKSGINMSMSDEYYSKYLPGLIKSGKVTMAELDDAARHVLNVKYDMGLFNDPYSHLGPKESDPVDTNAESRLHRKEAREVARESLVLLKNRLETLPLKKSATIAVVGPLADSKRDVMGSWSAAGVADQSVTVLTGIKNAVGENGKVLYAKGANVTSDKGIIDFLNQYEEAVKVDPRSPQEMIDEAVQTAKQSDVVVAVVGEAQGMAHEASSRTDITIPQSQRDLIAALKATGKPLVLVLMNGRPLALVKEDQQADAILETWFAGTEGGNAIADVLFGDYNPSGKLPMSFPRSVGQIPVYYSHLNTGRPYNADKPNKYTSRYFDEANGALYPFGYGLSYTTFTVSDVKLSAPTMKRDGKVTASVQVTNTGKREGATVVQMYLQDVTASMSRPVKQLKGFEKITLKPGETQTVSFPIDIEALKFWNQQMKYDAEPGKFNVFIGTDSARVKKGEFELL" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"EG12015-MONOMER" "peptidoglycan DD-endopeptidase PbpG" ["YohB", "PbpG", "PBP7", "PBP8", "penicillin-binding protein 7"] "MPKFRVSLFSLALMLAVPFAPQAVAKTAAATTASQPEIASGSAMIVDLNTNKVIYSNHPDLVRPIASISKLMTAMVVLDARLPLDEKLKVDISQTPEMKGVYSRVRLNSEISRKDMLLLALMSSENRAAASLAHHYPGGYKAFIKAMNAKAKSLGMNNTRFVEPTGLSVHNVSTARDLTKLLIASKQYPLIGQLSTTREDMATFSNPTYTLPFRNTNHLVYRDNWNIQLTKTGFTNAAGHCLVMRTVINNKPVALVVMDAFGKYTHFADASRLRTWIETGKVMPVPAAALSYKKQKAAQMAAAGQTAQND" [] ["CCO-PERI-BAC"] +"EG12016-MONOMER" "putative inner membrane protein" ["YohC"] "MSHVWGLFSHPDREMQVINRENETISHHYTHHVLLMAAIPVICAFIGTTQIGWNFGDGTILKLSWFTGLALAVLFYGVMLAGVAVMGRVIWWMARNYPQRPSLAHCMVFAGYVATPLFLSGLVALYPLVWLCALVGTVALFYTGYLLYLGIPSFLNINKEEGLSFSSSTLAIGVLVLEVLLALTVILWGYGYRLF" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG12017-MONOMER" "DedA family protein YohD" ["YohD"] "MDLNTLISQYGYAALVIGSLAEGETVTLLGGVAAHQGLLKFPLVVLSVALGGMIGDQVLYLCGRRFGGKLLRRFSKHQDKIERAQKLIQRHPYLFVIGTRFMYGFRVIGPTLIGASQLPPKIFLPLNILGAFAWALIFTTIGYAGGQVIAPWLHNLDQHLKHWVWLILVVVLVVGVRWWLKRRGKKKPDHQA" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG12019-MONOMER" "putative oxidoreductase YohF" ["YohE", "YohF", "putative oxidoreductase with NAD(P)-binding Rossmann-fold domain"] "MAQVAIITASDSGIGKECALLLAQQGFDIGITWHSDEEGAKDTAREVVSHGVRAEIVQLDLGNLPEGALALEKLIQRLGRIDVLVNNAGAMTKAPFLDMAFDEWRKIFTVDVDGAFLCSQIAARQMVKQGQGGRIINITSVHEHTPLPDASAYTAAKHALGGLTKAMALELVRHKILVNAVAPGAIATPMNGMDDSDVKPDAEPSIPLRRFGATHEIASLVVWLCSEGANYTTGQSLIVDGGFMLANPQFNPE" [] ["CCO-CYTOSOL"] +"EG12020-MONOMER" "putative multidrug resistance outer membrane protein MdtQ" ["YohH", "MdtQ", "YohG"] "MNRDSFYPAIACFPLLLMLAGCAPMHETRQALSQQTPAAQVDTALPTALKMVGQTANGGWSITIINSLP*LTMHYRTHRICRWLNSAFS*LKPRRRQLPLRMVRRSTFRRIWSGKKCRQKA*WGRLL*TIRPQVRPARGTPTVLLA*RRAGISISGERIGRRLLPAWVRLKHGRRNASKPANCWLAA*PACTGSGKPRRR*TRSCSK*KKSRTPLSRPIASYIRTGLLLQLKVWKPILMPAKPGSSSTMSRGK*KLLRHG*AHLQITRQSH*SLNRSRCRKWQASFLMNWGTPYWPGGQICRRRTGTLSHR*APLMRQKRHFILTST*WPSCNRMRCT*AICSVIPRSKWALRQA*RYPFSIVVVLTPISISQKPKATCLSPATTKRWLKR*MTWRGQPVRFRHWRRKTSIRRKLSAMPCVW*VLRRRALTRASLLVPASAKPESPRCVSGPMACYCKGSGWMPPFNSLVRWAGGTN" [] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"EG12022-MONOMER" "tRNA-dihydrouridine16 synthase" ["DusC", "YohI"] "MRVLLAPMEGVLDSLVRELLTEVNDYDLCITEFVRVVDQLLPVKVFHRICPELQNASRTPSGTLVRVQLLGQFPQWLAENAARAVELGSWGVDLNCGCPSKTVNGSGGGATLLKDPELIYQGAKAMREAVPAHLPVSVKVRLGWDSGEKKFEIADAVQQAGATELVVHGRTKEQGYRAEHIDWQAIGDIRQRLNIPVIANGEIWDWQSAQQCMAISGCDAVMIGRGALNIPNLSRVVKYNEPRMPWPEVVALLQKYTRLEKQGDTGLYHVARIKQWLSYLRKEYDEATELFQHVRVLNNSPDIARAIQAIDIEKL" [] ["CCO-CYTOSOL"] +"EG12023-MONOMER" "PF03788 family membrane protein YohJ" ["YohJ"] "MSKTLNIIWQYLRAFVLIYACLYAGIFIASLLPVTIPGSIIGMLILFVLLALQILPAKWVNPGCYVLIRYMALLFVPIGVGVMQYFDLLRAQFGPVVVSCAVSTLVVFLVVSWSSQLVHGERKVVGQKGSEE" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG12024-MONOMER" "PF04172 family membrane protein YohK" ["YohK"] "MMANIWWSLPLTLIVFFAARKLAARYKFPLLNPLLVAMVVIIPFLMLTGISYDSYFKGSEVLNDLLQPAVVALAYPLYEQLHQIRARWKSIITICFIGSVVAMVTGTSVALLMGASPEIAASILPKSVTTPIAMAVGGSIGGIPAISAVCVIFVGILGAVFGHTLLNAMRIRTKAARGLAMGTASHALGTARCAELDYQEGAFSSLALVLCGIITSLIAPFLFPIILAVMG" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG12025-MONOMER" "DUF218 domain-containing protein SanA" ["YeiF", "SanA"] "MLKRVFLSLLVLIGLLLLTVLGLDRWMSWKTAPYIYDELQDLPYRQVGVVLGTAKYYRTGVINQYYRYRIQGAINAYNSGKVNYLLLSGDNALQSYNEPMTMRKDLIAAGVDPSDIVLDYAGFRTLDSIVRTRKVFDTNDFIIITQRFHCERALFIALHMGIQAQCYAVPSPKDMLSVRIREFAARFGALADLYIFKREPRFLGPLVPIPAMHQVPEDAQGYPAVTPEQLLELQKKQGK" [] ["CCO-MEMBRANE", "CCO-PERI-BAC", "CCO-PM-BAC-NEG"] +"EG12026-MONOMER" "S-formylglutathione hydrolase / S-lactoylglutathione hydrolase" ["YeiG"] "MEMLEEHRCFEGWQQRWRHDSSTLNCPMTFSIFLPPPRDHTPPPVLYWLSGLTCNDENFTTKAGAQRVAAELGIVLVMPDTSPRGEKVANDDGYDLGQGAGFYLNATQPPWATHYRMYDYLRDELPALVQSQFNVSDRCAISGHSMGGHGALIMALKNPGKYTSVSAFAPIVNPCSVPWGIKAFSSYLGEDKNAWLEWDSCALMYASNAQDAIPTLIDQGDNDQFLADQLQPAVLAEAARQKAWPMTLRIQPGYDHSYYFIASFIEDHLRFHAQYLLK" [] ["CCO-CYTOSOL"] +"EG12027-MONOMER" "PF03601 family inner membrane protein YeiH" ["YeiH"] "MTNITLQKQHRTLWHFIPGLALSAVITGVALWGGSIPAVAGAGFSALTLAILLGMVLGNTIYPHIWKSCDGGVLFAKQYLLRLGIILYGFRLTFSQIADVGISGIIIDVLTLSSTFLLACFLGQKVFGLDKHTSWLIGAGSSICGAAAVLATEPVVKAEASKVTVAVATVVIFGTVAIFLYPAIYPLMSQWFSPETFGIYIGSTVHEVAQVVAAGHAISPDAENAAVISKMLRVMMLAPFLILLAARVKQLSGANSGEKSKITIPWFAILFIVVAIFNSFHLLPQSVVNMLVTLDTFLLAMAMAALGLTTHVSALKKAGAKPLLMALVLFAWLIVGGGAINYVIQSVIA" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG12028-MONOMER" "putative sugar kinase YeiI" ["YeiI"] "MNNREKEILAILRRNPLIQQNEIADMLQISRSRVAAHIMDLMRKGRIKGKGYILTEQEYCVVVGTINMDIRGMADIRYPQSASHPGTIHCSAGGVGRNIAHNLALLGRDVHLLSVIGDDFYGEMLLEETRRAGVNVSGCVRLHGQSTSTYLAIANRDDQTVLAINDTHLLEQLTPQLLNGSRDLLRHAGVVLADCNLTAEALEWVFTLADEIPVFVDTVSEFKAGKIKHWLAHIHTLKPTLPELEILWGQAITSDADRNTAVNALHQQGVQQLFVYLPDESVYCSEKDGEQFLLTAPAHTTVDSFGADDGFMAGLVYSFLEGYSFRDSARFAVACAAISRASGSLNNPTLSADNALSLVPMV" [] ["CCO-CYTOSOL"] +"EG12030-MONOMER" "pyrimidine-specific ribonucleoside hydrolase RihB" ["YeiK", "RihB", "ribonucleoside hydrolase 2 (pyrimidine-specific)"] "MEKRKIILDCDPGHDDAIAIMMAAKHPAIDLLGITIVAGNQTLDKTLINGLNVCQKLEINVPVYAGMPQPIMRQQIVADNIHGETGLDGPVFEPLTRQAESTHAVKYIIDTLMASDGDITLVPVGPLSNIAVAMRMQPAILPKIREIVLMGGAYGTGNFTPSAEFNIFADPEAARVVFTSGVPLVMMGLDLTNQTVCTPDVIARMERAGGPAGELFSDIMNFTLKTQFENYGLAGGPVHDATCIGYLINPDGIKTQEMYVEVDVNSGPCYGRTVCDELGVLGKPANTKVGITIDTDWFWGLVEECVRGYIKTH" [] ["CCO-CYTOSOL"] +"EG12031-MONOMER" "DNA-binding transcriptional activator YeiL" ["YeiL"] "MSESAFKDCFLTDVSADTRLFHFLARDYIVQEGQQPSWLFYLTRGRARLYATLANGRVSLIDFFAAPCFIGEIELIDKDHEPRAVQAIEECWCLALPMKHYRPLLLNDTLFLRKLCVTLSHKNYRNIVSLTQNQSFPLVNRLAAFILLSQEGDLYHEKHTQAAEYLGVSYRHLLYVLAQFIHDGLLIKSKKGYLIKNRKQLSGLALEMDPENKFSGMMQ" [] ["CCO-CYTOSOL"] +"EG12033-MONOMER" "pseudouridine-5'-phosphate glycosidase" ["PsuG", "YeiN", "PscG"] "MSELKISPELLQISPEVQDALKNKKPVVALESTIISHGMPFPQNAQTAIEVEETIRKQGAVPATIAIIGGVMKVGLSKEEIELLGREGHNVTKVSRRDLPFVVAAGKNGATTVASTMIIAALAGIKVFATGGIGGVHRGAEHTFDISADLQELANTNVTVVCAGAKSILDLGLTTEYLETFGVPLIGYQTKALPAFFCRTSPFDVSIRLDSASEIARAMVVKWQSGLNGGLVVANPIPEQFAMPEHTINAAIDQAVAEAEAQGVIGKESTPFLLARVAELTGGDSLKSNIQLVFNNAILASEIAKEYQRLAG" [] [] +"EG12035-MONOMER" "elongation factor P-like protein YeiP" ["YeiP"] "MPRANEIKKGMVLNYNGKLLLVKDIDIQSPTARGAATLYKMRFSDVRTGLKVEERFKGDDIVDTVTLTRRYVDFSYVDGNEYVFMDKEDYTPYTFTKDQIEEELLFMPEGGMPDMQVLTWDGQLLALELPQTVDLEIVETAPGIKGASASARNKPATLSTGLVIQVPEYLSPGEKIRIHIEERRYMGRAD" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG12036-MONOMER" "putative oxidoreductase YeiQ" ["YeiQ", "putative dehydrogenase, NAD-dependent"] "MNTIASVTLPHHVHAPRYDRQQLQSRIVHFGFGAFHRAHQALLTDRVLNAQGGDWGICEISLFSGDQLMSQLRAQNHLYTVLEKGADGNQVIIVGAVHECLNAKLDSLAAIIEKFCEPQVAIVSLTITEKGYCIDPATGALDTSNPRIIHDLQTPEEPHSAPGILVEALKRRRERGLTPFTVLSCDNIPDNGHVVKNAVLGMAEKRSPELAGWIKEHVSFPGTMVDRIVPAATDESLVEISQHLGVNDPCAISCEPFIQWVVEDNFVAGRPAWEVAGVQMVNDVLPWEEMKLRMLNGSHSFLAYLGYLSGFAHISDCMQDRAFRHAARTLMLDEQAPTLQIKDVDLTQYADKLIARFANPALKHKTWQIAMDGSQKLPQRMLAGIRIHQGRETDWSLLALGVAGWMRYVSGVDDAGNAIDVRDPLSDKIRELVAGSSSEQRVTALLSLREVFGDDLPDNPHFVQAIEQAWQQIVQFGAHQALLNTLKI" [] ["CCO-CYTOSOL"] +"EG12042-MONOMER" "protein YejG" ["YejG"] "MTSLQLSIVHRLPQNYRWSAGFAGSKVEPIPQNGPCGDNSLVALKLLSPDGDNAWSVMYKLSQALSDIEVPCSVLECEGEPCLFVNRQDEFAATCRLKNFGVAIAEPFSNYNPF" [] ["CCO-CYTOSOL"] +"EG12043-MONOMER" "DUF1414 domain-containing protein YejL" ["YejL"] "MPQISRYSDEQVEQLLAELLNVLEKHKAPTDLSLMVLGNMVTNLINTSIAPAQRQAIANSFARALQSSINEDKAH" ["CCO-CYTOSOL"] [] +"EG12044-MONOMER" "16S rRNA pseudouridine516 synthase" ["YejD", "RsuA"] "MRLDKFIAQQLGVSRAIAGREIRGNRVTVDGEIVRNAAFKLLPEHDVAYDGNPLAQQHGPRYFMLNKPQGYVCSTDDPDHPTVLYFLDEPVAWKLHAAGRLDIDTTGLVLMTDDGQWSHRITSPRHHCEKTYLVTLESPVADDTAEQFAKGVQLHNEKDLTKPAVLEVITPTQVRLTISEGRYHQVKRMFAAVGNHVVELHRERIGGITLDADLAPGEYRPLTEEEIASVV" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG12045-MONOMER" "putative DNA repair helicase RadD" ["YejI", "YejJ", "YejH", "RadD"] "MIFTLRPYQQEAVDATLNHFRRHKTPAVIVLPTGAGKSLVIAELARLARGRVLVLAHVKELVAQNHAKYQALGLEADIFAAGLKRKESHGKVVFGSVQSVARNLDAFQGEFSLLIVDECHRIGDDEESQYQQILTHLTKVNPHLRLLGLTATPFRLGKGWIYQFHYHGMVRGDEKALFRDCIYELPLRYMIKHGYLTPPERLDMPVVQYDFSRLQAQSNGLFSEADLNRELKKQQRITPHIISQIMEFAATRKGVMIFAATVEHAKEIVGLLPAEDAALITGDTPGAERDVLIENFKAQRFRYLVNVAVLTTGFDAPHVDLIAILRPTESVSLYQQIVGRGLRLAPGKTDCLILDYAGNPHDLYAPEVGTPKGKSDNVPVQVFCPACGFANTFWGKTTADGTLIEHFGRRCQGWFEDDDGHREQCDFRFRFKNCPQCNAENDIAARRCRECDTVLVDPDDMLKAALRLKDALVLRCSGMSLQHGHDEKGEWLKITYYDEDGADVSERFRLQTPAQRTAFEQLFIRPHTRTPGIPLRWITAADILAQQALLRHPDFVVARMKGQYWQVREKVFDYEGRFRLAHELRG" [] ["CCO-CYTOSOL"] +"EG12048-MONOMER" "nucleoid-associated protein YejK" ["NdpA", "YejK"] "MSLDINQIALHQLIKRDEQNLELVLRDSLLEPTETVVEMVAELHRVYSAKNKAYGLFSEESELAQTLRLQRQGEEDFLAFSRAATGRLRDELAKYPFADGGFVLFCHYRYLAVEYLLVAVLSNLSSMRVNENLDINPTHYLDINHADIVARIDLTEWETNPESTRYLTFLKGRVGRKVADFFMDFLGASEGLNAKAQNRGLLQAVDDFTAEAQLDKAERQNVRQQVYSYCNEQLQAGEEIELKSLSKELAGVSEVSFTEFAAEKGYELEESFPADRSTLRQLTKFAGSGGGLTINFDAMLLGERIFWDPATDTLTIKGTPPNLRDQLQRRTSGGN" ["CCO-BAC-NUCLEOID"] ["CCO-CYTOSOL", "CCO-BAC-NUCLEOID"] +"EG12049-MONOMER" "LPS homeostasis protein YejM" ["PbgA", "YejN", "YejM"] "MVTHRQRYREKVSQMVSWGHWFALFNILLSLVIGSRYLFIADWPTTLAGRIYSYVSIIGHFSFLVFATYLLILFPLTFIVGSQRLMRFLSVILATAGMTLLLIDSEVFTRFHLHLNPIVWQLVINPDENEMARDWQLMFISVPVILLLELVFATWSWQKLRSLTRRRRFARPLAAFLFIAFIASHVVYIWADANFYRPITMQRANLPLSYPMTARRFLEKHGLLDAQEYQRRLIEQGNPDAVSVQYPLSELRYRDMGTGQNVLLITVDGLNYSRFEKQMPALAGFAEQNISFTRHMSSGNTTDNGIFGLFYGISPSYMDGILSTRTPAALITALNQQGYQLGLFSSDGFTSPLYRQALLSDFSMPSVRTQSDEQTATQWINWLGRYAQEDNRWFSWVSFNGTNIDDSNQQAFARKYSRAAGNVDDQINRVLNALRDSGKLDNTVVIITAGRGIPLSEEEETFDWSHGHLQVPLVIHWPGTPAQRINALTDHTDLMTTLMQRLLHVSTPASEYSQGQDLFNPQRRHYWVTAADNDTLAITTPKKTLVLNNNGKYRTYNLRGERVKDEKPQLSLLLQVLTDEKRFIAN" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG12051-MONOMER" "adhesin-like autotransporter YejO" ["YejO"] "MHQSGSVSLCRSAISVLVATALYSPIALASTVEYGETVDGVVLEKDIQLVYGTANNTKINPGGEQHIKEFGVSNNTEINGGYQYIEMNGAAEYSVLNDGYQIVQMGGAANQTTLNNGVLQVYGAANDTTIKGGRLIVEKDGGAVFVAIEKGGLLEVKEGGFAFAVDQKAGGAIKTTTRAMEVFGTNRLGQFDIKNGIANNMLLENGGSLRVEENDFAYNTTVDSGGLLEVMDGGTVTGVDKKAGGKLIVSTNALEVSGPNSKGQFSIKDGVSKNYELDDGSGLIVMEDTQAIDTILDKHATMQSLGKDTGTKVQANAVYDLGRSYQNGSITYSSKAISENMVINNGRANVWAGTMVNVSVRGNDGILEVMKPQINYAPAMLVGKVVVSEGASFRTHGAVDTSKADVSLENSVWTIIADITTTNQNTLLNLANLAMSDANVIMMDEPVTRSSVTASAENFITLTTNTLSGNGNFYMRTDMANHQSDQLNVTGQATGDFKIFVTDTGASPAAGDSLTLVTTGGGDAAFTLGNAGGVVDIGTYEYTLLDNGNHSWSLAENRAQITPSTTDVLNMAAAQPLVFDAELDTVRERLGSVKGVSYDTAMWSSAINTRNNVTTDAGAGFEQTLTGLTLGIDSRFSREESSTIRGLIFGYSHSDIGFDRGGKGNIDSYTLGAYAGWEHQNGAYVDGVVKVDRFANTIHGKMSNGATAFGDYNSNGAGAHVESGFRWVDGLWSVRPYLAFTGFTTDGQDYTLSNGMRADVGNTRILRAEAGTAVSYHMDLQNGTTLEPWLKAAVRQEYADSNQVKVNDDGKFNNDVAGTSGVYQAGIRSSFTPTLSGHLSVSYGNGAGVESPWNTQAGVVWTF" [] ["CCO-EXTRACELLULAR"] +"EG12052-MONOMER" "holocytochrome c synthase CcmH component" ["YejP", "cytochrome c maturation protein H", "CcmH", "thiol:disulfide oxidoreductase CcmH"] "MRFLLGVLMLMISGSALATIDVLQFKDEAQEQQFRQLTEELRCPKCQNNSIADSNSMIATDLRQKVYELMQEGKSKKEIVDYMVARYGNFVTYDPPLTPLTVLLWVLPVVAIGIGGWVIYARSRRRVRVVPEAFPEQSVPEGKRAGYVVYLPGIVVALIVAGVSYYQTGNYQQVKIWQQATAQAPALLDRALDPKADPLNEEEMSRLALGMRTQLQKNPGDIEGWIMLGRVGMALGNASIATDAYATAYRLDPKNSDAALGYAEALTRSSDPNDNRLGGELLRQLVRTDHSNIRVLSMYAFNAFEQQRFGEAVAAWEMMLKLLPANDTRRAVIERSIAQAMQHLSPQESK" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG12053-MONOMER" "thiol:disulfide oxidoreductase CcmG" ["YejQ", "cytochrome c maturation protein G", "DsbE", "CcmG"] "MKRKVLLIPLIIFLAIAAALLWQLARNAEGDDPTNLESALIGKPVPKFRLESLDNPGQFYQADVLTQGKPVLLNVWATWCPTCRAEHQYLNQLSAQGIRVVGMNYKDDRQKAISWLKELGNPYALSLFDGDGMLGLDLGVYGAPETFLIDGNGIIRYRHAGDLNPRVWEEEIKPLWEKYSKEAAQ" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG", "CCO-PERI-BAC"] +"EG12054-MONOMER" "holocytochrome c synthase CcmF component" ["YejR", "CcmF", "cytochrome c heme lyase", "cytochrome c synthetase", "cytochrome c maturation protein F"] "MMPEIGNGLLCLALGIALLLSVYPLWGVARGDARMMASSRLFAWLLFMSVAGAFLVLVNAFVVNDFTVTYVASNSNTQLPVWYRVAATWGAHEGSLLLWVLLMSGWTFAVAIFSQRIPLDIVARVLAIMGMVSVGFLLFILFTSNPFSRTLPNFPIEGRDLNPLLQDPGLIFHPPLLYMGYVGFSVAFAFAIASLLSGRLDSTYARFTRPWTLAAWIFLTLGIVLGSAWAYYELGWGGWWFWDPVENASFMPWLVGTALMHSLAVTEQRASFKAWTLLLAISAFSLCLLGTFLVRSGVLVSVHAFASDPARGMFILAFMVLVIGGSLLLFAARGHKVRSRVNNALWSRESLLLANNVLLVAAMLVVLLGTLLPLVHKQLGLGSISIGEPFFNTMFTWLMVPFALLLGVGPLVRWGRDRPRKIRNLLIIAFISTLVLSLLLPWLFESKVVAMTVLGLAMACWIAVLAIAEAALRISRGTKTTFSYWGMVAAHLGLAVTIVGIAFSQNYSVERDVRMKSGDSVDIHEYRFTFRDVKEVTGPNWRGGVATIGVTRDGKPETVLYAEKRYYNTAGSMMTEAAIDGGITRDLYAALGEELENGAWAVRLYYKPFVRWIWAGGLMMALGGLLCLFDPRYRKRVSPQKTAPEAV" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG12069-MONOMER" null ["YojH", "Mqo"] "MKKVTAMLFSMAVGLNAVSMAAKAKASEEQETDVLLIGGGIMSATLGTYLRELEPEWSMTMVERLEGVAQESSNGWNNAGTGHSALMELNYTPQNADGSISIEKAVAINEAFQISRQFWAHQVERGVLRTPRSFINTVPHMSFVWGEDNVNFLRARYAALQQSSLFRGMRYSEDHAQIKEWAPLVMEGRDPQQKVAATRTEIGTDVNYGEITRQLIASLQKKSNFSLQLSSEVRALKRNDDNTWTVTVADLKNGTAQNIRAKFVFIGAGGAALKLLQESGIPEAKDYAGFPVGGQFLVSENPDVVNHHLAKVYGKASVGAPPMSVPHIDTRVLDGKRVVLFGPFATFSTKFLKNGSLWDLMSSTTTSNVMPMMHVGLDNFDLVKYLVSQVMLSEEDRFEALKEYYPQAKKEDWRLWQAGQRVQIIKRDAEKGGVLRLGTEVVSDQQGTIAALLGASPGASTAAPIMLNLLEKVFGDRVSSPQWQATLKAIVPSYGRKLNGDVAATERELQYTSEVLGLNYDKPQAADSTPKPQLKPQPVQKEVADIAL" ["CCO-CYTOSOL", "CCO-PM-BAC-NEG"] ["CCO-CYTOSOL"] +"EG12073-MONOMER" "FAD:protein FMN transferase" ["YojK", "YojL", "ApbE", "Ftp", "flavin transferase"] "MEISFTRVALLAAALFFVGCDQKPQPAKTHATEVTVLEGKTMGTFWRASIPGIDAKRSAELKEKIQTQLDADDQLLSTYKKDSALMRFNDSQSLSPWPVSEAMADIVTTSLRIGAKTDGAMDITVGPLVNLWGFGPEQQPVQIPSQEQIDAMKAKTGLQHLTVINQSHQQYLQKDLPDLYVDLSTVGEGYAADHLARLMEQEGISRYLVSVGGALNSRGMNGEGLPWRVAIQKPTDKENAVQAVVDINGHGISTSGSYRNYYELDGKRLSHVIDPQTGRPIEHNLVSVTVIAPTALEADAWDTGLMVLGPEKAKEVVRREGLAVYMITKEGDSFKTWMSPQFKSFLVSEKN" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG", "CCO-PERI-BAC"] +"EG12080-MONOMER" "RecA inhibitor RecX" ["RecX", "OraA", "regulatory protein RecX; inhibitor of RecA"] "MTESTSRRPAYARLLDRAVRILAVRDHSEQELRRKLAAPIMGKNGPEEIDATAEDYERVIAWCHEHGYLDDSRFVARFIASRSRKGYGPARIRQELNQKGISREATEKAMRECDIDWCALARDQATRKYGEPLPTVFSEKVKIQRFLLYRGYLMEDIQEIWRNFAD" [] ["CCO-CYTOSOL"] +"EG12081-MONOMER" "prepilin-type N-terminal cleavage/methylation domain-containing protein PpdA" ["PpdA"] "MKTQRGYTLIETLVAMLILVMLSASGLYGWQYWQQSQRLWQTASQARDYLLYLREDANWHNRDHSISVIREGTLWCLVSSAAGANTCHGSSPLVFVPRWPEVEMSDLTPSLAFFGLRNTAWAGHIRFKNSTGEWWLVVSPWGRLRLCQQGETEGCL" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG12094-MONOMER" "DNA-binding transcriptional dual regulator SgrR" ["YabN", "SgrR"] "MPSARLQQQFIRLWQCCEGKSQDTTLNELAALLSCSRRHMRTLLNTMQDRGWLTWEAEVGRGKRSRLTFLYTGLALQQQRAEDLLEQDRIDQLVQLVGDKATVRQMLVSHLGRSFRQGRHILRVLYYRPLRNLLPGSALRRSETHIARQIFSSLTRINEENGELEADIAHHWQQISPLHWRFFLRPGVHFHHGRELEMDDVIASLKRINTLPLYSHIADIVSPTPWTLDIHLTQPDRWLPLLLGQVPAMILPREWETLSNFASHPIGTGPYAVIRNSTNQLKIQAFDDFFGYRALIDEVNVWVLPEIADEPAGGLMLKGPQGEEKEIESRLEEGCYYLLFDSRTHRGANQQVRDWVSYVLSPTNLVYFAEEQYQQLWFPAYGLLPRWHHARTIKSEKPAGLESLTLTFYQDHSEHRVIAGIMQQILASHQVTLKIKEIDYDQWHTGEIESDIWLNSANFTLPLDFSVFAHLCEVPLLQHCIPIDWQADAARWRNGEMNLANWCQQLVASKAMVPLLHHWLIIQGQRSMRGLRMNTLGWFDFKSAWFAPPDP" [] ["CCO-PERI-BAC", "CCO-CYTOSOL"] +"EG12096-MONOMER" "endoribonuclease toxin ChpB" ["YjfE", "ChpB", "ChpBK", "ChpB toxin of the ChpB-ChpS toxin-antitoxin system"] "MVKKSEFERGDIVLVGFDPASGHEQQGAGRPALVLSVQAFNQLGMTLVAPITQGGNFARYAGFSVPLHCEEGDVHGVVLVNQVRMMDLHARLAKRIGLAADEVVEEALLRLQAVVE" [] ["CCO-CYTOSOL"] +"EG12097-MONOMER" "polyphenol oxidase YfiH" ["PgeF", "YfiH"] "MSKLIVPQWPQPKGVAACSSTRIGGVSLPPYDSLNLGAHCGDNPDHVEENRKRLFAAGNLPSKPVWLEQVHGKDVLKLTGEPYASKRADASYSNTPGTVCAVMTADCLPVLFCNRAGTEVAAAHAGWRGLCAGVLEETVSCFADNPENILAWLGPAIGPRAFEVGGEVREAFMAVDAKASAAFIQHGDKYLADIYQLARQRLANVGVEQIFGGDRCTYTENETFFSYRRDKTTGRMASFIWLI" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG12098-MONOMER" "23S rRNA pseudouridine1911/1915/1917 synthase" ["YfiI", "RluD", "SfhB"] "MAQRVQLTATVSENQLGQRLDQALAEMFPDYSRSRIKEWILDQRVLVNGKVCDKPKEKVLGGEQVAINAEIEEEARFEPQDIPLDIVYEDEDIIIINKPRDLVVHPGAGNPDGTVLNALLHYYPPIADVPRAGIVHRLDKDTTGLMVVAKTVPAQTRLVESLQRREITREYEAVAIGHMTAGGTVDEPISRHPTKRTHMAVHPMGKPAVTHYRIMEHFRVHTRLRLRLETGRTHQIRVHMAHITHPLVGDPVYGGRPRPPKGASEAFISTLRKFDRQALHATMLRLYHPISGIEMEWHAPIPQDMVELIEVMRADFEEHKDEVDWL" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG12099-MONOMER" "protein chain elongation factor EF-P" ["Efp", "EF-P"] "MATYYSNDFRAGLKIMLDGEPYAVEASEFVKPGKGQAFARVKLRRLLTGTRVEKTFKSTDSAEGADVVDMNLTYLYNDGEFWHFMNNETFEQLSADAKAIGDNAKWLLDQAECIVTLWNGQPISVTPPNFVELEIVDTDPGLKGDTAGTGGKPATLSTGAVVKVPLFVQIGEVIKVDTRSGEYVSRVK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG12101-MONOMER" "ferrous iron transport protein A" ["FeoA"] "MQYTPDTAWKITGFSREISPAYRQKLLSLGMLPGSSFNVVRVAPLGDPIHIETRRVSLVLRKKDLALLEVEAVSC" [] ["CCO-CYTOSOL"] +"EG12104-MONOMER" "zinc-binding GTPase YeiR" ["YeiR"] "MTRTNLITGFLGSGKTTSILHLLAHKDPNEKWAVLVNEFGEVGIDGALLADSGALLKEIPGGCMCCVNGLPMQVGLNTLLRQGKPDRLLIEPTGLGHPKQILDLLTAPVYEPWIDLRATLCILDPRLLLDEKSASNENFRDQLAAADIIVANKSDRTTPESEQALQRWWQQNGGDRQLIHSEHGKVDGHLLDLPRRNLAELPASAAHSHQHVVKKGLAALSLPEHQRWRRSLNSGQGYQACGWIFDADTVFDTIGILEWARLAPVERVKGVLRIPEGLVRINRQGDDLHIETQNVAPPDSRIELISSSEADWNALQSALLKLRLATTA" [] ["CCO-CYTOSOL"] +"EG12105-MONOMER" "LysR-type transcriptional regulator YeiE" ["YeiE"] "MHITLRQLEVFAEVLKSGSTTQASVMLALSQSAVSAALTDLEGQLGVQLFDRVGKRLVVNEHGRLLYPRALALLEQAVEIEQLFREDNGAIRIYASSTIGNYILPAVIARYRHDYPQLPIELSVGNSQDVMQAVLDFRVDIGFIEGPCHSTEIISEPWLEDELVVFAAPTSPLARGPVTLEQLAAAPWILRERGSGTREIVDYLLLSHLPKFEMAMELGNSEAIKHAVRHGLGISCLSRRVIEDQLQAGTLSEVAVPLPRLMRTLWRIHHRQKHLSNALRRFLDYCDPANVPR" [] ["CCO-CYTOSOL"] +"EG12106-MONOMER" "T2SSE family protein" ["HopB", "HofB"] "MNIPQLTALCLRYHGVLLDASEEVVHVAVVDAPSHELLDALHFATTKRIEITCWTRQQMEGHASRTQQTLPVAVQEKHQPKAELLTRTLQSALEQRASDIHIEPADNAYRIRLRIDGVLHPLPDVSPDAGVALTARLKVLGNLDIAEHRLPQDGQFTVELAGNAVSFRIATLPCRGGEKVVLRLLQQVGQALDVNTLGMQPLQLADFAHALQQPQGLVLVTGPTGSGKTVTLYSALQKLNTADINICSVEDPVEIPIAGLNQTQIHPRAGLTFQGVLRALLRQDPDVIMIGEIRDGETAEIAIKAAQTGHLVLSTLHTNSTCETLVRLQQMGVARWMLSSALTLVIAQRLVRKLCPHCRRQQGEPIHIPDNVWPSPLPHWQAPGCVHCYHGFYGRTALFEVLPITPVIRQLISANTDVESLETHARQAGMRTLFENGCLAVEQGLTTFEELIRVLGMPHGE" [] ["CCO-CYTOSOL"] +"EG12107-MONOMER" "prepilin-type N-terminal cleavage/methylation domain-containing protein PpdD" ["PpdD", "prepilin peptidase dependent protein"] "MDKQRGFTLIELMVVIGIIAILSAIGIPAYQNYLRKAALTDMLQTFVPYRTAVELCALEHGGLDTCDGGSNGIPSPTTTRYVSAMSVAKGVVSLTGQESLNGLSVVMTPGWDNANGVTGWTRNCNIQSDSALQQACEDVFRFDDAN" [] ["CCO-EXTRACELLULAR", "CCO-MEMBRANE", "CCO-PILUS"] +"EG12108-MONOMER" "DNA-binding transcriptional dual regulator NorR" ["NorR", "YgaA"] "MSFSVDVLANIAIELQRGIGHQDRFQRLITTLRQVLECDASALLRYDSRQFIPLAIDGLAKDVLGRRFALEGHPRLEAIARAGDVVRFPADSELPDPYDGLIPGQESLKVHACVGLPLFAGQNLIGALTLDGMQPDQFDVFSDEELRLIAALAAGALSNALLIEQLESQNMLPGDATPFEAVKQTQMIGLSPGMTQLKKEIEIVAASDLNVLISGETGTGKELVAKAIHEASPRAVNPLVYLNCAALPESVAESELFGHVKGAFTGAISNRSGKFEMADNGTLFLDEIGELSLALQAKLLRVLQYGDIQRVGDDRCLRVDVRVLAATNRDLREEVLAGRFRADLFHRLSVFPLSVPPLRERGDDVILLAGYFCEQCRLRQGLSRVVLSAGARNLLQHYSFPGNVRELEHAIHRAVVLARATRSGDEVILEAQHFAFPEVTLPTPEVAAVPVVKQNLREATEAFQRETIRQALAQNHHNWAACARMLETDVANLHRLAKRLGLKD" [] ["CCO-CYTOSOL"] +"EG12110-MONOMER" "DUF218 domain-containing protein YdcF" ["YdcF"] "MNITPFPTLSPATIDAINVIGQWLAQDDFSGEVPYQADCVILAGNAVMPTIDAACKIARDQQIPLLISGGIGHSTTFLYSAIAQHPHYNTIRTTGRAEATILADIAHQFWHIPHEKIWIEDQSTNCGENARFSIALLNQAVERVHTAIVVQDPTMQRRTMATFRRMTGDNPDAPRWLSYPGFVPQLGNNADSVIFINQLQGLWPVERYLSLLTGELPRLRDDSDGYGPRGRDFIVHVDFPAEVIHAWQTLKHDAVLIEAMESRSLR" [] ["CCO-PM-BAC-NEG", "CCO-CYTOSOL"] +"EG12111-MONOMER" "murein hydrolase activator NlpD" ["NlpD", "NlpD divisome associated factor, activates peptidoglycan hydrolase"] "MSAGSPKFTVRRIAALSLVSLWLAGCSDTSNPPAPVSSVNGNAPANTNSGMLITPPPKMGTTSTAQQPQIQPVQQPQIQATQQPQIQPVQPVAQQPVQMENGRIVYNRQYGNIPKGSYSGSTYTVKKGDTLFYIAWITGNDFRDLAQRNNIQAPYALNVGQTLQVGNASGTPITGGNAITQADAAEQGVVIKPAQNSTVAVASQPTITYSESSGEQSANKMLPNNKPTATTVTAPVTVPTASTTEPTVSSTSTSTPISTWRWPTEGKVIETFGASEGGNKGIDIAGSKGQAIIATADGRVVYAGNALRGYGNLIIIKHNDDYLSAYAHNDTMLVREQQEVKAGQKIATMGSTGTSSTRLHFEIRYKGKSVNPLRYLPQR" ["CCO-OUTER-MEM"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG", "CCO-OUTER-MEM"] +"EG12113-MONOMER" "DNA utilization protein HofQ" ["HopQ", "HofQ", "protein involved in utilization of DNA as a carbon source"] "MKQWIAALLLMLIPGVQAAKPQKVTLMVDDVPVAQVLQALAEQEKLNLVVSPDVSGTVSLHLTDVPWKQALQTVVKSAGLITRQEGNILSVHSIAWQNNNIARQEAEQARAQANLPLENRSITLQYADAGELAKAGEKLLSAKGSMTVDKRTNRLLLRDNKTALSALEQWVAQMDLPVGQVELSAHIVTINEKSLRELGVKWTLADAQHAGGVGQVTTLGSDLSVATATTHVGFNIGRINGRLLDLELSALEQKQQLDIIASPRLLASHLQPASIKQGSEIPYQVSSGESGATSVEFKEAVLGMEVTPTVLQKGRIRLKLHISQNVPGQVLQQADGEVLAIDKQEIETQVEVKSGETLALGGIFTRKNKSGQDSVPLLGDIPWFGQLFRHDGKEDERRELVVFITPRLVSSE" [] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"EG12114-MONOMER" "peptide chain release factor RF3" ["Tos", "MiaD", "PrfC", "RF-3"] "MTLSPYLQEVAKRRTFAIISHPDAGKTTITEKVLLFGQAIQTAGTVKGRGSNQHAKSDWMEMEKQRGISITTSVMQFPYHDCLVNLLDTPGHEDFSEDTYRTLTAVDCCLMVIDAAKGVEDRTRKLMEVTRLRDTPILTFMNKLDRDIRDPMELLDEVENELKIGCAPITWPIGCGKLFKGVYHLYKDETYLYQSGKGHTIQEVRIVKGLNNPDLDAAVGEDLAQQLRDELELVKGASNEFDKELFLAGEITPVFFGTALGNFGVDHMLDGLVEWAPAPMPRQTDTRTVEASEDKFTGFVFKIQANMDPKHRDRVAFMRVVSGKYEKGMKLRQVRTAKDVVISDALTFMAGDRSHVEEAYPGDILGLHNHGTIQIGDTFTQGEMMKFTGIPNFAPELFRRIRLKDPLKQKQLLKGLVQLSEEGAVQVFRPISNNDLIVGAVGVLQFDVVVARLKSEYNVEAVYESVNVATARWVECADAKKFEEFKRKNESQLALDGGDNLAYIATSMVNLRLAQERYPDVQFHQTREH" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG12115-MONOMER" "pyrimidine 5'-nucleotidase YjjG" ["YjjG"] "MKWDWIFFDADETLFTFDSFTGLQRMFLDYSVTFTAEDFQDYQAVNKPLWVDYQNGAITSLQLQHGRFESWAERLNVEPGKLNEAFINAMAEICTPLPGAVSLLNAIRGNAKIGIITNGFSALQQVRLERTGLRDYFDLLVISEEVGVAKPNKKIFDYALEQAGNPDRSRVLMVGDTAESDILGGINAGLATCWLNAHHREQPEGIAPTWTVSSLHELEQLLCKH" [] ["CCO-PM-BAC-NEG", "CCO-CYTOSOL"] +"EG12116-MONOMER" "DNA-binding transcriptional repressor AcrR" ["YbaH", "AcrR"] "MARKTKQEAQETRQHILDVALRLFSQQGVSSTSLGEIAKAAGVTRGAIYWHFKDKSDLFSEIWELSESNIGELELEYQAKFPGDPLSVLREILIHVLESTVTEERRRLLMEIIFHKCEFVGEMAVVQQAQRNLCLESYDRIEQTLKHCIEAKMLPADLMTRRAAIIMRGYISGLMENWLFAPQSFDLKKEARDYVAILLEMYLLCPTLRNPATNE" [] ["CCO-CYTOSOL"] +"EG12117-MONOMER" "outer membrane protein X" ["YbiG", "OmpP", "OmpX"] "MKKIACLSALAAVLAFTAGTSVAATSTVTGGYAQSDAQGQMNKMGGFNLKYRYEEDNSPLGVIGSFTYTEKSRTASSGDYNKNQYYGITAGPAYRINDWASIYGVVGVGYGKFQTTEYPTYKHDTSDYGFSYGAGLQFNPMENVALDFSYEQSRIRSVDVGTWIAGVGYRF" ["CCO-OUTER-MEM"] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"EG12119-MONOMER" "NTF2-like domain-containing protein YchJ" ["YchJ"] "MSQLCPCGSAVEYSLCCHPYVSGEKVAPDPEHLMRSRYCAFVMQDADYLIKTWHPSCGAAALRAELMAGFAHTEWLGLTVFEHCWQDADNIGFVSFVARFTEGGKTGAIIERSRFLKENGQWYYIDGTRPQFGRNDPCPCGSGKKFKKCCGQ" [] ["CCO-CYTOSOL"] +"EG12120-MONOMER" "putative patatin-like phospholipase RssA" ["RssA", "YchK"] "MRKIKIGLALGSGAARGWSHIGVINALKKVGIEIDIVAGCSIGSLVGAAYACDRLSALEDWVTSFSYWDVLRLMDLSWQRGGLLRGERVFNQYREIMPETEIENCSRRFAAVATNLSTGRELWFTEGDLHLAIRASCSIPGLMAPVAHNGYWLVDGAVVNPIPISLTRALGADIVIAVDLQHDAHLMQQDLLSFNVSEENSENGDSLPWHARLKERLGSITTRRAVTAPTATEIMTTSIQVLENRLKRNRMAGDPPDILIQPVCPQISTLDFHRAHAAIAAGQLAVERKMDELLPLVRTNI" [] ["CCO-EXTRACELLULAR", "CCO-CYTOSOL"] +"EG12121-MONOMER" "regulator of RpoS" ["SprE", "YchL", "RssB", "Hnr"] "MTQPLVGKQILIVEDEQVFRSLLDSWFSSLGATTVLAADGVDALELLGGFTPDLMICDIAMPRMNGLKLLEHIRNRGDQTPVLVISATENMADIAKALRLGVEDVLLKPVKDLNRLREMVFACLYPSMFNSRVEEEERLFRDWDAMVDNPAAAAKLLQELQPPVQQVISHCRVNYRQLVAADKPGLVLDIAALSENDLAFYCLDVTRAGHNGVLAALLLRALFNGLLQEQLAHQNQRLPELGALLKQVNHLLRQANLPGQFPLLVGYYHRELKNLILVSAGLNATLNTGEHQVQISNGVPLGTLGNAYLNQLSQRCDAWQCQIWGTGGRLRLMLSAE" [] ["CCO-CYTOSOL"] +"EG12122-MONOMER" "protein YggI" ["YggI", "SprT"] "MKTSRLPIAIQQAVMRRLREKLAQANLKLGRNYPEPKLSYTQRGTSAGTAWLESYEIRLNPVLLLENSEAFIEEVVPHELAHLLVWKHFGRVAPHGKEWKWMMENVLGVPARRTHQFELQSVRRNTFPYRCKCQEHQLTVRRHNRVVRGEAVYRCVHCGEQLVAK" [] ["CCO-CYTOSOL"] +"EG12123-MONOMER" "DNA-binding transcriptional dual regulator LrhA" ["GenR", "LrhA"] "MISANRPIINLDLDLLRTFVAVADLNTFAAAAAAVCRTQSAVSQQMQRLEQLVGKELFARHGRNKLLTEHGIQLLGYARKILRFNDEACSSLMFSNLQGVLTIGASDESADTILPFLLNRVSSVYPKLALDVRVKRNAYMAEMLESQEVDLMVTTHRPSAFKALNLRTSPTHWYCAAEYILQKGEPIPLVLLDDPSPFRDMVLATLNKADIPWRLAYVASTLPAVRAAVKAGLGVTARPVEMMSPDLRVLSGVDGLPPLPDTEYLLCYDPSSNNELAQVIYQAMESYHNPWQYSPMSAPEGDDSLLIERDIE" [] ["CCO-CYTOSOL"] +"EG12128-MONOMER" null ["UmpA", "Lgt"] "MTSSYLHFPEFDPVIFSIGPVALHWYGLMYLVGFIFAMWLATRRANRPGSGWTKNEVENLLYAGFLGVFLGGRIGYVLFYNFPQFMADPLYLFRVWDGGMSFHGGLIGVIVVMIIFARRTKRSFFQVSDFIAPLIPFGLGAGRLGNFINGELWGRVDPNFPFAMLFPGSRTEDILLLQTNPQWQSIFDTYGVLPRHPSQLYELLLEGVVLFIILNLYIRKPRPMGAVSGLFLIGYGAFRIIVEFFRQPDAQFTGAWVQYISMGQILSIPMIVAGVIMMVWAYRRSPQQHVS" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG12130-MONOMER" "iron-sulfur cluster biosynthesis chaperone HscA" ["Hsc", "HscA", "Hsc66", "chaperone, member of Hsp70 protein family", "chaperone for [Fe-S] cluster biosynthesis"] "MALLQISEPGLSAAPHQRRLAAGIDLGTTNSLVATVRSGQAETLADHEGRHLLPSVVHYQQQGHSVGYDARTNAALDTANTISSVKRLMGRSLADIQQRYPHLPYQFQASENGLPMIETAAGLLNPVRVSADILKALAARATEALAGELDGVVITVPAYFDDAQRQGTKDAARLAGLHVLRLLNEPTAAAIAYGLDSGQEGVIAVYDLGGGTFDISILRLSRGVFEVLATGGDSALGGDDFDHLLADYIREQAGIPDRSDNRVQRELLDAAIAAKIALSDADSVTVNVAGWQGEISREQFNELIAPLVKRTLLACRRALKDAGVEADEVLEVVMVGGSTRVPLVRERVGEFFGRPPLTSIDPDKVVAIGAAIQADILVGNKPDSEMLLLDVIPLSLGLETMGGLVEKVIPRNTTIPVARAQDFTTFKDGQTAMSIHVMQGERELVQDCRSLARFALRGIPALPAGGAHIRVTFQVDADGLLSVTAMEKSTGVEASIQVKPSYGLTDSEIASMIKDSMSYAEQDVKARMLAEQKVEAARVLESLHGALAADAALLSAAERQVIDDAAAHLSEVAQGDDVDAIEQAIKNVDKQTQDFAARRMDQSVRRALKGHSVDEV" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG12131-MONOMER" "[Fe-S] cluster biosynthesis co-chaperone HscB" ["YfhE", "HscB", "Hsc20", "Hsc20 co-chaperone that acts with Hsc66 in IscU iron-sulfur cluster assembly", "co-chaperone for [Fe-S] cluster biosynthesis"] "MDYFTLFGLPARYQLDTQALSLRFQDLQRQYHPDKFASGSQAEQLAAVQQSATINQAWQTLRHPLMRAEYLLSLHGFDLASEQHTVRDTAFLMEQLELREELDEIEQAKDEARLESFIKRVKKMFDTRHQLMVEQLDNETWDAAADTVRKLRFLDKLRSSAEQLEEKLLDF" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG12132-MONOMER" "iron-sulfur cluster insertion protein IscA" ["IscA", "YfhF", "iron-sulfur cluster assembly protein"] "MSITLSDSAAARVNTFLANRGKGFGLRLGVRTSGCSGMAYVLEFVDEPTPEDIVFEDKGVKVVVDGKSLQFLDGTQLDFVKEGLNEGFKFTNPNVKDECGCGESFHV" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG12133-MONOMER" "oxidoreductase UcpA" ["YfeF", "UcpA"] "MGKLTGKTALITGALQGIGEGIARTFARHGANLILLDISPEIEKLADELCGRGHRCTAVVADVRDPASVAAAIKRAKEKEGRIDILVNNAGVCRLGSFLDMSDDDRDFHIDINIKGVWNVTKAVLPEMIARKDGRIVMMSSVTGDMVADPGETAYALTKAAIVGLTKSLAVEYAQSGIRVNAICPGYVRTPMAESIARQSNPEDPESVLTEMAKAIPMRRLADPLEVGELAAFLASDESSYLTGTQNVIDGGSTLPETVSVGI" [] ["CCO-CYTOSOL"] +"EG12134-MONOMER" "L-threonine/L-homoserine exporter" ["YbiF", "RhtA"] "MPGSLRKMPVWLPIVILLVAMASIQGGASLAKSLFPLVGAPGVTALRLALGTLILIAFFKPWRLRFAKEQRLPLLFYGVSLGGMNYLFYLSIQTVPLGIAVALEFTGPLAVALFSSRRPVDFVWVVLAVLGLWFLLPLGQDVSHVDLTGCALALGAGACWAIYILSGQRAGAEHGPATVAIGSLIAALIFVPIGALQAGEALWHWSVIPLGLAVAILSTALPYSLEMIALTRLPTRTFGTLMSMEPALAAVSGMIFLGETLTPIQLLALGAIIAASMGSTLTVRKESKIKELDIN" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG12137-MONOMER" "sensor lipoprotein NlpE" ["NlpE", "CutF", "outer membrane lipoprotein NlpE"] "MVKKAIVTAMAVISLFTLMGCNNRAEVDTLSPAQAAELKPMPQSWRGVLPCADCEGIETSLFLEKDGTWVMNERYLGAREEPSSFASYGTWARTADKLVLTDSKGEKSYYRAKGDALEMLDREGNPIESQFNYTLEAAQSSLPMTPMTLRGMYFYMADAATFTDCATGKRFMVANNAELERSYLAARGHSEKPVLLSVEGHFTLEGNPDTGAPTKVLAPDTAGKFYPNQDCSSLGQ" ["CCO-OUTER-MEM"] ["CCO-MEMBRANE", "CCO-PERI-BAC", "CCO-OUTER-MEM"] +"EG12138-MONOMER" "peptidase C92 family protein YaeF" ["YaeK", "YaeF"] "MDKPKAYCRLFLPSFLLLSACTVDISQPDPSATAVDAEAKTWAVKFQHQSSFTEQSIKEITAPDLKPGDLLFSSSLGVTSFGIRVFSTSSVSHVAIFLGDNNVAEATGAGVQIVSLKKAMKHSDKLFVLRVPDLTPQQATDITAFANKIKDSGYNYRGIVEFIPFMVTRQMCSLNPFSEDFRQQCVSGLAKAQLSSVGEGDKKSWFCSEFVTDAFAKAGHPLTLAQSGWISPADLMHMRIGDVSAFKPETQLQYVGHLKPGIYIKAGRFVGLTR" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE", "CCO-PERI-BAC"] +"EG12139-MONOMER" "outer membrane lipoprotein QseG" ["QseG", "YfhG"] "MRHIFQRLLPRRLWLAGLPCLALLGCVQNHNKPAIDTPAEEKIPVYQLADYLSTECSDIWALQGKSTETNPLYWLRAMDCADRLMPAQSRQQARQYDDGSWQNTFKQGILLADAKITPYERRQLVARIEALSTEIPAQVRPLYQLWRDGQALQLQLAEERQRYSKLQQSSDSELDTLRQQHHVLQQQLELTTRKLENLTDIERQLSTRKPAGNFSPDTPHESEKPAPSTHEVTPDEP" ["CCO-PERI-BAC"] [] +"EG12140-MONOMER" "putative LysR family DNA-binding transcriptional regulator YdhB" ["YdhB"] "MWSEYSLEVVDAVARNGSFSAAAQELHRVPSAVSYTVRQLEEWLAVPLFERRHRDVELTAAGAWFLKEGRSVVKKMQITRQQCQQIANGWRGQLAIAVDNIVRPERTRQMIVDFYRHFDDVELLVFQEVFNGVWDALSDGRVELAIGATRAIPVGGRYAFRDMGMLSWSCVVASHHPLALMDGPFSDDTLRNWPSLVREDTSRTLPKRITWLLDNQKRVVVPDWESSATCISAGLCIGMVPTHFAKPWLNEGKWVALELENPFPDSACCLTWQQNDMSPALTWLLEYLGDSETLNKEWLREPEETPATGD" [] ["CCO-CYTOSOL"] +"EG12146-MONOMER" "RNase adaptor protein RapZ" ["RapZ", "YhbJ"] "MVLMIVSGRSGSGKSVALRALEDMGFYCVDNLPVVLLPDLARTLADREISAAVSIDVRNMPESPEIFEQAMSNLPDAFSPQLLFLDADRNTLIRRYSDTRRLHPLSSKNLSLESAIDKESDLLEPLRSRADLIVDTSEMSVHELAEMLRTRLLGKRERELTMVFESFGFKHGIPIDADYVFDVRFLPNPHWDPKLRPMTGLDKPVAAFLDRHTEVHNFIYQTRSYLELWLPMLETNNRSYLTVAIGCTGGKHRSVYIAEQLADYFRSRGKNVQSRHRTLEKRKP" [] ["CCO-CYTOSOL"] +"EG12147-MONOMER" "phosphorelay protein NPr" ["YhbK", "Npr", "RpoR", "PtsO", "phosphocarrier protein NPr"] "MTVKQTVEITNKLGMHARPAMKLFELMQGFDAEVLLRNDEGTEAEANSVIALLMLDSAKGRQIEVEATGPQEEEALAAVIALFNSGFDED" [] ["CCO-CYTOSOL"] +"EG12154-MONOMER" "Rac prophage; phage superinfection exclusion protein" ["SieB"] "MLDVFTPLLKLFANEPLERLMYTIIIFGLTLWLIPKEFTVAFNAYTEIPWLFQIIVFAFSFVVAISFSRLRAHIQKHYSLLPEQRVLLRLSEKEIAVFKDFLKTGNLIITSPCRNPVMKKLERKGIIQHQSDSANCSYYLVTEKYSHFMKLFWNSRSRRFNR" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG12155-MONOMER" "Rac prophage; inhibitor of FtsZ" ["YdaD", "Kil", "KilR", "killing protein KilR"] "MIAHHFGTDEIPRQCVTPGDYVLHEGRTYIASANNIKKRKLYIRNLTTKTFITDRMIKVFLGRDGLPVKAESW" [] ["CCO-CYTOSOL"] +"EG12158-MONOMER" "nucleoid-associated protein RdgC" ["YaiD", "RdgC"] "MLWFKNLMVYRLSREISLRAEEMEKQLASMAFTPCGSQDMAKMGWVPPMGSHSDALTHVANGQIVICARKEEKILPSPVIKQALEAKIAKLEAEQARKLKKTEKDSLKDEVLHSLLPRAFSRFSQTMMWIDTVNGLIMVDCASAKKAEDTLALLRKSLGSLPVVPLSMENPIELTLTEWVRSGSAAQGFQLLDEAELKSLLEDGGVIRAKKQDLTSEEITNHIEAGKVVTKLALDWQQRIQFVMCDDGSLKRLKFCDELRDQNEDIDREDFAQRFDADFILMTGELAALIQNLIEGLGGEAQR" ["CCO-CYTOSOL", "CCO-BAC-NUCLEOID"] ["CCO-CYTOSOL", "CCO-BAC-NUCLEOID"] +"EG12159-MONOMER" "nucleoside phosphorylase PpnP" ["PpnP", "YaiE"] "MLQSNEYFSGKVKSIGFSSSSTGRASVGVMVEGEYTFSTAEPEEMTVISGALNVLLPDATDWQVYEAGSVFNVPGHSEFHLQVAEPTSYLCRYL" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG12161-MONOMER" "putative porin domain-containing protein EaeH" ["EaeH", "attaching and effacing protein homolog, pathogenesis factor"] "MSHYKTGHKQPRFRYSVLARCVAWANISVQVLFPLAVTFTPVMAARAQHAVQPRLSMGNTTVTADNNVEKNVASFAANAGTFLSSQPDSDATRNFITGMATAKANQEIQEWLGKYGTARVKLNVDKDFSLKDSSLEMLYPIYDTPTNMLFTQGAIHRTDDRTQSNIGFGWRHFSGNDWMAGVNTFIDHDLSRSHTRIGVGAEYWRDYLKLSANGYIRASGWKKSPDIEDYQERPANGWDIRAEGYLPAWPQLGASLMYEQYYGDEVGLFGKDKRQKDPHAISAEVTYTPVPLTQQ" [] ["CCO-CYTOSOL"] +"EG12163-MONOMER" "16S rRNA m5C967 methyltransferase" ["YhdB", "RsmB", "Fmv", "Fmu", "RrmB", "Sun"] "MKKQRNLRSMAAQAVEQVVEQGQSLSNILPPLQQKVSDKDKALLQELCFGVLRTLSQLDWLINKLMARPMTGKQRTVHYLIMVGLYQLLYTRIPPHAALAETVEGAIAIKRPQLKGLINGVLRQFQRQQEELLAEFNASDARYLHPSWLLKRLQKAYPEQWQSIVEANNQRPPMWLRINRTHHSRDSWLALLDEAGMKGFPHADYPDAVRLETPAPVHALPGFEDGWVTVQDASAQGCMTWLAPQNGEHILDLCAAPGGKTTHILEVAPEAQVVAVDIDEQRLSRVYDNLKRLGMKATVKQGDGRYPSQWCGEQQFDRILLDAPCSATGVIRRHPDIKWLRRDRDIPELAQLQSEILDAIWPHLKTGGTLVYATCSVLPEENSLQIKAFLQRTADAELCETGTPEQPGKQNLPGAEEGDGFFYAKLIKK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG12165-MONOMER" "chromosome partitioning protein MukF" ["KicB", "MukF", "Ca2+-binding protein involved in chromosome partitioning"] "MSEFSQTVPELVAWARKNDFSISLPVDRLSFLLAVATLNGERLDGEMSEGELVDAFRHVSDAFEQTSETIGVRANNAINDMVRQRLLNRFTSEQAEGNAIYRLTPLGIGITDYYIRQREFSTLRLSMQLSIVAGELKRAADAAEEGGDEFHWHRNVYAPLKYSVAEIFDSIDLTQRLMDEQQQQVKDDIAQLLNKDWRAAISSCELLLSETSGTLRELQDTLEAAGDKLQANLLRIQDATMTHDDLHFVDRLVFDLQSKLDRIISWGQQSIDLWIGYDRHVHKFIRTAIDMDKNRVFAQRLRQSVQTYFDEPWALTYANADRLLDMRDEEMALRDEEVTGELPEDLEYEEFNEIREQLAAIIEEQLAVYKTRQVPLDLGLVVREYLSQYPRARHFDVARIVIDQAVRLGVAQADFTGLPAKWQPINDYGAKVQAHVIDKY" [] ["CCO-BAC-NUCLEOID", "CCO-CYTOSOL"] +"EG12166-MONOMER" "envelope biogenesis factor" ["ElyC", "YcbC"] "MLFTLKKVIGNMLLPLPLMLLIIGAGLALLWFSRFQKTGKIFISIGWLALLLLSLQPVADRLLRPIESTYPTWNNSQKVDYIVVLGGGYTWNPQWAPSSNLINNSLPRLNEGIRLWRENPGSKLIFTGGVAKTNTVSTAEVGARVAQSLGVPREQIITLDLPKDTEEEAAAVKQAIGDAPFLLVTSASHLPRAMIFFQQEGLNPLPAPANQLAIDSPLNPWERAIPSPVWLMHSDRVGYETLGRIWQWLKGSSGEPRQE" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG12167-MONOMER" "tRNA cmo5U34 methyltransferase" ["CmoM", "YcbD", "SmtA"] "MQDRNFDDIAEKFSRNIYGTTKGQLRQAILWQDLDRVLAEMGPQKLRVLDAGGGEGQTAIKMAERGHQVILCDLSAQMIDRAKQAAEAKGVSDNMQFIHCAAQDVASHLETPVDLILFHAVLEWVADPRSVLQTLWSVLRPGGVLSLMFYNAHGLLMHNMVAGNFDYVQAGMPKKKKRTLSPDYPRDPAQVYLWLEEAGWQIMGKTGVRVFHDYLREKHQQRDCYEALLELETRYCRQEPYITLGRYIHVTARKPQSKDKV" [] ["CCO-CYTOSOL"] +"EG12169-MONOMER" "cytochrome c maturation protein D" ["YojM", "heme trafficking system protein D"] "MTPAFASWNEFFAMGGYAFFVWLAVVMTVIPLVVLVVHSVMQHRAILRGVAQQRAREARLRAAQQQEAA" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG12171-MONOMER" "DUF3029 domain-containing protein YjjI" ["YjjH", "YjjI"] "MPTSHENALQQRCQQIVTSPVLSPEQKRHFLALEAENNLPYPQLPAEARRALDEGVICDMFEGHAPYKPRYVLPDYARFLANGSEWLELEGAKDLDDALSLLTILYHHVPSVTSMPVYLGQLDALLQPYVRILTQDEIDVRIKRFWRYLDRTLPDAFMHANIGPSDSPITRAILRADAELKQVSPNLTFIYDPEITPDDLLLEVAKNICECSKPHIANGPVHDKIFTKGGYGIVSCYNSLPLAGGGSTLVRLNLKAIAERSESLDDFFTRTLPHYCQQQIAIIDARCEFLYQQSHFFENSFLVKEGLINPERFVPMFGMYGLAEAVNLLCEKEGIAARYGKEAAANEVGYRISAQLAEFVANTPVKYGWQKRAMLHAQSGISSDIGTTPGARLPYGDEPDPITHLQTVAPHHAYYYSGISDILTLDETIKRNPQALVQLCLGAFKAGMREFTANVSGNDLVRVTGYMVRLSDLEKYRAEGSRTNTTWLGEEAARNTRILERQPRVISHEQQMRFSQ" [] ["CCO-CYTOSOL"] +"EG12172-MONOMER" "purine nucleoside phosphoramidase" ["YcfF", "HinT"] "MAEETIFSKIIRREIPSDIVYQDDLVTAFRDISPQAPTHILIIPNILIPTVNDVSAEHEQALGRMITVAAKIAEQEGIAEDGYRLIMNTNRHGGQEVYHIHMHLLGGRPLGPMLAHKGL" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG12173-MONOMER" "Type II secretion system protein GspM" ["HopZ", "GspM", "PshM"] "MIKSWWAEKSTSEKQIVAALAVLSLGVFCWLGVIKPIDTYIAEHQSHAQKIKKDIKWMQDQASTHGLLGHPALTQPIKNILLEEAKRENLAITLENGPDNTLTIHPVTAPLENVSRWLTTAQVTYGIVIEDLQFTLAGNEEITLRHLSFREQQ" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG12176-MONOMER" "putative DNA-binding transcriptional regulator YjdC" ["YjdC"] "MQREDVLGEALKLLELQGIANTTLEMVAERVDYPLDELRRFWPDKEAILYDALRYLSQQIDVWRRQLMLDETQTAEQKLLARYQALSECVKNNRYPGCLFIAACTFYPDPGHPIHQLADQQKSAAYDFTHELLTTLEVDDPAMVAKQMELVLEGCLSRMLVNRSQADVDTAHRLAEDILRFARCRQGGALT" [] ["CCO-CYTOSOL"] +"EG12177-MONOMER" "copper binding protein CutA" ["CutA"] "MLDEKSSNTASVVVLCTAPDEATAQDLAAKVLAEKLAACATLIPGATSLYYWEGKLEQEYEVQMILKTTVSHQQALLECLKSHHPYQTPELLVLPVTHGDTDYLSWLNASLR" [] ["CCO-CYTOSOL"] +"EG12179-MONOMER" "transcription antiterminator and regulator of RNA stability" ["MsmC", "GicA", "CspE"] "MSKIKGNVKWFNESKGFGFITPEDGSKDVFVHFSAIQTNGFKTLAEGQRVEFEITNGAKGPSAANVIAL" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG12180-MONOMER" "Lipid A palmitoyltransferase" ["YbeG", "CrcA", "PagP"] "MNVSKYVAIFSFVFIQLISVGKVFANADEWMTTFRENIAQTWQQPEHYDLYIPAITWHARFAYDKEKTDRYNERPWGGGFGLSRWDEKGNWHGLYAMAFKDSWNKWEPIAGYGWESTWRPLADENFHLGLGFTAGVTARDNWNYIPLPVLLPLASVGYGPVTFQMTYIPGTYNNGNVYFAWMRFQF" ["CCO-OUTER-MEM"] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"EG12181-MONOMER" "glutaredoxin 4" ["YdhD", "GrxD", "Grx4"] "MSTTIEKIQRQIAENPILLYMKGSPKLPSCGFSAQAVQALAACGERFAYVDILQNPDIRAELPKYANWPTFPQLWVDGELVGGCDIVIEMYQRGELQQLIKETAAKYKSEEPDAE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG12182-MONOMER" "putative lipoprotein YajG" ["YajG"] "MFKKILFPLVALFMLAGCAKPPTTIEVSPTITLPQQDPSLMGVTVSINGADQRTDQALAKVTRDNQIVTLTASRDLRFLLQEVLEKQMTARGYMVGPNGPVNLQIIVSQLYADVSQGNVRYNIATKADIAIIATAQNGNKMTKNYRASYNVEGAFQASNKNIADAVNSVLTDTIADMSQDTSIHEFIKQNAR" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"EG12188-MONOMER" "phosphoenolpyruvate-protein phosphotransferase PtsP" ["YgdO", "YgdF", "PtsP", "EINtr", "EInitrogen", "enzyme INtr"] "MLTRLREIVEKVASAPRLNEALNILVTDICLAMDTEVCSVYLADHDRRCYYLMATRGLKKPRGRTVTLAFDEGIVGLVGRLAEPINLADAQKHPSFKYIPSVKEERFRAFLGVPIIQRRQLLGVLVVQQRELRQYDESEESFLVTLATQMAAILSQSQLTALFGQYRQTRIRALPAAPGVAIAEGWQDATLPLMEQVYQASTLDPALERERLTGALEEAANEFRRYSKRFAAGAQKETAAIFDLYSHLLSDTRLRRELFAEVDKGSVAEWAVKTVIEKFAEQFAALSDNYLKERAGDLRALGQRLLFHLDDANQGPNAWPERFILVADELSATTLAELPQDRLVGVVVRDGAANSHAAIMVRALGIPTVMGADIQPSVLHRRTLIVDGYRGELLVDPEPVLLQEYQRLISEEIELSRLAEDDVNLPAQLKSGERIKVMLNAGLSPEHEEKLGSRIDGIGLYRTEIPFMLQSGFPSEEEQVAQYQGMLQMFNDKPVTLRTLDVGADKQLPYMPISEENPCLGWRGIRITLDQPEIFLIQVRAMLRANAATGNLNILLPMVTSLDEVDEARRLIERAGREVEEMIGYEIPKPRIGIMLEVPSMVFMLPHLAKRVDFISVGTNDLTQYILAVDRNNTRVANIYDSLHPAMLRALAMIAREAEIHGIDLRLCGEMAGDPMCVAILIGLGYRHLSMNGRSVARAKYLLRRIDYAEAENLAQRSLEAQLATEVRHQVAAFMERRGMGGLIRGGL" [] ["CCO-CYTOSOL"] +"EG12190-MONOMER" "putative AraC-type transcriptional regulator EutR" ["EutR", "YfeG"] "MKKTRTANLHHLYHEPLPENLKLTPKVEVDNVHQRQTTDVYEHALTITAWQQIYDQLHPGKFHGEFTEILLDDIQVFREYTGLALRQSCLVWPNSFWFGIPATRGEQGFIGSQCLGSAEIATRPGGTEFELSTPDDYTILGVVLSEDVITRQANFLHNPDRVLHMLRNQSALEVKEQHKAALWGFVQQALATFCENPENLHQPAVRKVLGDNLLMAMGAMLEEAQPMVTAESISHQSYRRLLSRAREYVLENMSEPVTVLDLCNQLHVSRRTLQNAFHAILGIGPNAWLKRIRLNAVRRELISPWSQSMTVKDAAMQWGFWHLGQFATDYQQLFSEKPSLTLHQRMREWG" [] ["CCO-CYTOSOL"] +"EG12193-MONOMER" "curved DNA-binding protein" ["CbpA", "co-chaperone CbpA"] "MELKDYYAIMGVKPTDDLKTIKTAYRRLARKYHPDVSKEPDAEARFKEVAEAWEVLSDEQRRAEYDQMWQHRNDPQFNRQFHHGDGQSFNAEDFDDIFSSIFGQHARQSRQRPATRGHDIEIEVAVFLEETLTEHKRTISYNLPVYNAFGMIEQEIPKTLNVKIPAGVGNGQRIRLKGQGTPGENGGPNGDLWLVIHIAPHPLFDIVGQDLEIVVPVSPWEAALGAKVTVPTLKESILLTIPPGSQAGQRLRVKGKGLVSKKQTGDLYAVLKIVMPPKPDENTAALWQQLADAQSSFDPRKDWGKA" ["CCO-BAC-NUCLEOID"] ["CCO-BAC-NUCLEOID", "CCO-CYTOSOL"] +"EG12194-MONOMER" "chaperone modulator CbpM" ["YccD", "CbpM"] "MANVTVTFTITEFCLHTGISEEELNEIVGLGVVEPREIQETTWVFDDHAAIVVQRAVRLRHELALDWPGIAVALTLMDDIAHLKQENRLLRQRLSRFVAHP" [] ["CCO-CYTOSOL"] +"EG12195-MONOMER" "trimethylamine-N-oxide reductase-specific chaperone" ["TorD"] "MTTLTAQQIACVYAWLAQLFSRELDDEQLTQIASAQMAEWFSLLKSEPPLTAAVNELENRIATLTVRDDARLELAADFCGLFLMTDKQAALPYASAYKQDEQEIKRLLVEAGMETSGNFNEPADHLAIYLELLSHLHFSLGEGTVPARRIDSLRQKTLTALWQWLPEFVARCRQYDSFGFYAALSQLLLVLVECDHQNR" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG12196-MONOMER" "uncharacterized protein YccE" ["YccE"] "MGSNIHGISCTANNYLKQAWNDIKNEYEKNQTYSITLFENTLVCFMRLYNELRRKVNEEDTPCLECESLEKEFEEMQNDNDLSLFMRILRTNDTQIYSGVSGGITYTIQYVRDIDIVRVSLPGRASESITDFKGYYWYNFMEYIENINACDDVFSEYCFDDENISVQPERINTPGISDLDSDIDLSGISFIQRETNQALGLKYAPVDGDGYCLLRAILVLKQHDYSWALVSYKMQKEVYNEFIKMVDKKTIEALVDTAFYNLREDVKTLFGVDLQSDNQIQGQSSLMSWSFLFFKKQFIDSCLNNEKCILHLPEFIFNDNKNLLALDTDTSDRIKAVKNFLVVLSDSICSLFIVNSNVASISLGNESFSTDEDLEYGYLMNTGNHYDVYLPPELFAQAYKLNNKEMNAQLDYLNRYAI" [] ["CCO-CYTOSOL"] +"EG12197-MONOMER" "negative modulator of initiation of replication" ["SeqA"] "MKTIEVDDELYSYIASHTKHIGESASDILRRMLKFSAASQPAAPVTKEVRVASPAIVEAKPVKTIKDKVRAMRELLLSDEYAEQKRAVNRFMLLLSTLYSLDAQAFAEATESLHGRTRVYFAADEQTLLKNGNQTKPKHVPGTPYWVITNTNTGRKCSMIEHIMQSMQFPAELIEKVCGTI" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG12198-MONOMER" "chitin disaccharide deacetylase" ["ChbG", "YdjC", "CelG", "chitooligosaccharide deacetylase"] "MERLLIVNADDFGLSKGQNYGIIEACRNGIVTSTTALVNGQAIDHAVQLSRDEPSLAIGMHFVLTMGKPLTAMPGLTRDGVLGKWIWQLAEEDALPLEEITQELVSQYLRFIELFGRKPTHLDSHHHVHMFPQIFPIVARFAAEQGIALRADRQMAFDLPVNLRTTQGFSSAFYGEEISESLFLQVLDDAGHRGDRSLEVMCHPAFIDNTIRQSAYCFPRLTELDVLTSASLKGAIAQRGYRLGSYRDV" [] ["CCO-CYTOSOL"] +"EG12200-MONOMER" "HSP70 family protein YegD" ["YegD", "actin family protein"] "MFIGFDYGTANCSVAVMRDGKPHLLKMENDSTLLPSMLCAPTREAVSEWLYRHHDVPADDDETQALLRRAIRYNREEDIDVTAKSVQFGLSSLAQYIDDPEEVWFVKSPKSFLGASGLKPQQVALFEDLVCAMMLHIRQQAQAQLPEAITQAVIGRPINFQGLGGDEANTQAQGILERAAKRAGFRDVVFQYEPVAAGLDYEATLQEEKRVLVVDIGGGTTDCSLLLMGPQWRSRLDREASLLGHSGCRIGGNDLDIALAFKNLMPLLGMGGETEKGIALPILPWWNAVAINDVPAQSDFYSSANGRLLNDLVRDAREPEKVALLQKVWRQRLSYRLVRSAEECKIALSSVAETRASLPFISNELATLISQRGLESALSQPLTRILEQVQLALDNAQEKPDVIYLTGGSARSPLIKKALAEQLPGIPIAGGDDFGSVTAGLARWAEVVFR" [] ["CCO-CYTOSOL"] +"EG12201-MONOMER" "DUF2002 domain-containing protein YgaC" ["YgaC"] "MYLRPDEVARVLEKVGFTVDVVTQKAYGYRRGENYVYVNREARMGRTALVIHPTLKERSSTLAEPASDIKTCDHYQQFPLYLAGERHEHYGIPHGFSSRVALERYLNGLFGEAS" [] ["CCO-CYTOSOL"] +"EG12202-MONOMER" "DNA-binding transcriptional repressor TreR" ["TreR"] "MQNRLTIKDIARLSGVGKSTVSRVLNNESGVSQLTRERVEAVMNQHGFSPSRSARAMRGQSDKVVAIIVTRLDSLSENLAVQTMLPAFYEQGYDPIMMESQFSPQLVAEHLGVLKRRNIDGVVLFGFTGITEEMLAHWQSSLVLLARDAKGFASVCYDDEGAIKILMQRLYDQGHRNISYLGVPHSDVTTGKRRHEAYLAFCKAHKLHPVAALPGLAMKQGYENVAKVITPETTALLCATDTLALGASKYLQEQRIDTLQLASVGNTPLMKFLHPEIVTVDPGYAEAGRQAACQLIAQVTGRSEPQQIIIPATLS" [] ["CCO-CYTOSOL"] +"EG12203-MONOMER" "Qin prophage; cold shock-like protein CspB" ["CspB", "Qin prophage; cold shock protein; putative DNA-binding transcriptional regulator"] "MSNKMTGLVKWFNADKGFGFISPVDGSKDVFVHFSAIQNDNYRTLFEGQKVTFSIESGAKGPAAANVIITD" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG12204-MONOMER" "CspA family stress protein CspC" ["MsmB", "CspC"] "MAKIKGQVKWFNESKGFGFITPADGSKDVFVHFSAIQGNGFKTLAEGQNVEFEIQDGQKGPAAVNVTAI" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG12205-MONOMER" "Qin prophage; cold shock-like protein CspF" ["CspF"] "MSRKMTGIVKTFDGKSGKGLITPSDGRIDVQLHVSALNLRDAEEITTGLRVEFCRINGLRGPSAANVYLS" [] ["CCO-CYTOSOL"] +"EG12207-MONOMER" "23S rRNA m1G745 methyltransferase" ["YebH", "RrmA", "RlmA", "ribosomal RNA large subunit methyltransferase A", "rRNA large subunit methyltransferase A"] "MSFSCPLCHQPLSREKNSYICPQRHQFDMAKEGYVNLLPVQHKRSRDPGDSAEMMQARRAFLDAGHYQPLRDAIVAQLRERLDDKATAVLDIGCGEGYYTHAFADALPEITTFGLDVSKVAIKAAAKRYPQVTFCVASSHRLPFSDTSMDAIIRIYAPCKAEELARVVKPGGWVITATPGPRHLMELKGLIYNEVHLHAPHAEQLEGFTLQQSAELCYPMRLRGDEAVALLQMTPFAWRAKPEVWQTLAAKEVFDCQTDFNIHLWQRSY" [] ["CCO-CYTOSOL"] +"EG12208-MONOMER" "deamidated glutathione amidase, N-terminal fragment" ["YbeH", "YbeM"] "MLVAAGQFAVTSVWEKNAEICASLMAQAAENDASLFALPEALLARDDHDADLSVKSAQLLEGEFLGLYGEKVNVT**RQF*RFMFLQRRGAHGICWWHFRQETSSPVMPNCISMMHLPFRNHAVLMLVMKSLRYWRWKG*RSV**PVMTYAFQSWRWHRHYRELKSWYFLPPGFAGRSKSITGQRCLPLVRWIPPVIWWRRGSAGTKISVKAGL*IPLASPLRQRQKCLHSLWRK*RPNVCVRCARNCPS*TTVALRRRNY" [] ["CCO-CYTOSOL"] +"EG12209-MONOMER" "F- channel" ["YbeI", "CrcB", "Fluc-Ec2"] "MLQLLLAVFIGGGTGSVARWLLSMRFNPLHQAIPLGTLTANLIGAFIIGIGFAWFSRMTNIDPVWKVLITTGFCGGLTTFSTFSAEVVFLLQEGRFGWALLNVFVNLLGSFAMTALAFWLFSASTAH" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG12210-MONOMER" "ADP-heptose—LPS heptosyltransferase 2" ["WaaF", "RfaF", "ADP-heptose:LPS heptosyltransferase II", "HepII"] "MKILVIGPSWVGDMMMSQSLYRTLQARYPQAIIDVMAPAWCRPLLSRMPEVNEAIPMPLGHGALEIGERRKLGHSLREKRYDRAYVLPNSFKSALVPFFAGIPHRTGWRGEMRYGLLNDVRVLDKEAWPLMVERYIALAYDKGIMRTAQDLPQPLLWPQLQVSEGEKSYTCNQFSLSSERPMIGFCPGAEFGPAKRWPHYHYAELAKQLIDEGYQVVLFGSAKDHEAGNEILAALNTEQQAWCRNLAGETQLDQAVILIAACKAIVTNDSGLMHVAAALNRPLVALYGPSSPDFTPPLSHKARVIRLITGYHKVRKGDAAEGYHQSLIDITPQRVLEELNALLLQEEA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG12211-MONOMER" "PanD maturation factor" ["PanZ", "PanM", "LivL", "YhhK"] "MKLTIIRLEKFSDQDRIDLQKIWPEYSPSSLQVDDNHRIYAARFNERLLAAVRVTLSGTEGALDSLRVREVTRRRGVGQYLLEEVLRNNPGVSCWWMADAGVEDRGVMTAFMQALGFTAQQGGWEKC" [] ["CCO-CYTOSOL"] +"EG12212-MONOMER" "DUF1145 domain-containing protein YhhL" ["YhhL"] "MLINIGRLLMLCVWGFLILNLVHPFPRPLNIFVNVALIFTVLMHGMQLALLKSTLPKDGPQMTTAEKVRIFLFGVFELLAWQKKFKVKK" [] ["CCO-PM-BAC-NEG"] +"EG12213-MONOMER" "DUF2500 domain-containing protein YhhM" ["YhhM"] "MSKPPLFFIVIIGLIVVAASFRFMQQRREKADNDMAPLQQKLVVVSNKREKPINDRRSRQQEVTPAGTSIRYEASFKPQSGGMEQTFRLDAQQYHALTVGDKGTLSYKGTRFVSFVGEQ" [] ["CCO-PM-BAC-NEG"] +"EG12214-MONOMER" "PF07947 family protein YhhN" ["YhhN", "conserved inner membrane enzyme YhhN"] "MLWSFIAVCLSAWLSVDASYRGPTWQRWVFKPLTLLLLLLLAWQAPMFDAISYLVLAGLCASLLGDALTLLPRQRLMYAIGAFFLSHLLYTIYFASQMTLSFFWPLPLVLLVLGALLLAIIWTRLEEYRWPICTFIGMTLVMVWLAGELWFFRPTAPALSAFVGASLLFISNFVWLGSHYRRRFRADNAIAAACYFAGHFLIVRSLYL" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG12216-MONOMER" "sulfur transfer protein TusA" ["YhhP", "SirA", "TusA"] "MTDLFSSPDHTLDALGLRCPEPVMMVRKTVRNMQPGETLLIIADDPATTRDIPGFCTFMEHELVAKETDGLPYRYLIRKGG" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG12217-MONOMER" "queuosine precursor transporter" ["YhhQ"] "MNVFSQTQRYKALFWLSLFHLLVITSSNYLVQLPVSILGFHTTWGAFSFPFIFLATDLTVRIFGAPLARRIIFAVMIPALLISYVISSLFYMGSWQGFGALAHFNLFVARIATASFMAYALGQILDVHVFNRLRQSRRWWLAPTASTLFGNVSDTLAFFFIAFWRSPDAFMAEHWMEIALVDYCFKVLISIVFFLPMYGVLLNMLLKRLADKSEINALQAS" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG12220-MONOMER" "putative transporter YhhT" ["YhhT"] "METPQPDKTGMHILLKLASLVVILAGIHAAADIIVQLLLALFFAIVLNPLVTWFIRRGVQRPVAITIVVVVMLIALTALVGVLAASFNEFISMLPKFNKELTRKLFKLQEMLPFLNLHMSPERMLQRMDSEKVVTFTTALMTGLSGAMASVLLLVMTVVFMLFEVRHVPYKMRFALNNPQIHIAGLHRALKGVSHYLALKTLLSLWTGVIVWLGLELMGVQFALMWAVLAFLLNYVPNIGAVISAVPPMIQVLLFNGVYECILVGALFLVVHMVIGNILEPRMMGHRLGMSTMVVFLSLLIWGWLLGPVGMLLSVPLTSVCKIWMETTKGGSKLAILLGPGRPKSRLPG" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG12221-MONOMER" "holo-[acyl carrier protein] synthase 2" ["YhhU", "AcpT", "o195", "ORF195"] "MYRIVLGKVSTLSAAPLPPGLREQAPQGPRRERWLAGRALLSHTLSPLPEIIYGEQGKPAFAPEMPLWFNLSHSGDDIALLLSDEGEVGCDIEVIRPRANWRWLANAVFSLGEHAEMDAVHPDQQLEMFWRIWTRKEAIVKQRGGSAWQIVSVDSTYHSSLSVSHCQLENLSLAICTPTPFTLTADSVQWIDSVN" [] ["CCO-CYTOSOL"] +"EG12224-MONOMER" "putative membrane fusion protein YhiI" ["YhiI"] "MDKSKRHLAWWVVGLLAVAAIVAWWLLRPAGVPEGFAVSNGRIEATEVDIASKIAGRIDTILVKEGKFVREGEVLAKMDTRVLQEQRLEAIAQIKEAQSAVAAAQALLEQRQSETRAAQSLVNQRQAELDSVAKRHTRSRSLAQRGAISAQQLDDDRAAAESARAALESAKAQVSASKAAIEAARTNIIQAQTRVEAAQATERRIAADIDDSELKAPRDGRVQYRVAEPGEVLAAGGRVLNMVDLSDVYMTFFLPTEQAGTLKLGGEARLILDAAPDLRIPATISFVASVAQFTPKTVETSDERLKLMFRVKARIPPELLQQHLEYVKTGLPGVAWVRVNEELPWPDDLVVRLPQ" ["CCO-PM-BAC-NEG"] ["CCO-PM-BAC-NEG"] +"EG12225-MONOMER" "DUF4049 domain-containing protein YhiJ" ["YhiJ"] "MKIGTVAGTNDSTTTIATNDMVQEHVTNFTKELFGYIANGIGDDISSIARTMLGEVVEKIDDWQIERFQQSIQDDKISFTIQTDHSEKYSMLSGMRAHILRRNNNYQFIVTINSKNYGCSLDNTDINWCSIVYLLNNMTVNDNANDVAVTESYKPIWNWKISQYNVSDIKFETMIKPQFADRIYFSNCLPVDPTSTRPTYFGDTDGSVGAVLFALFATGHLGIMAEGENFLSQLLNIEDEVLNVLLRENFNEQLNTNVNTIISILNRRDIILESLQPYLVINKDAVTPCTFLGDQTGDRFSNICGDQFIIDLLKRIMSINENVHVLAGNHETNCNGNYMQNFTRMKPLDEDTYSGIKDYPVCFYDPKYKIMANHHGITFDDQRKRYIIGPITVSIDEMTNALDPVELAAIINKKHHAIINGKKFKTSRAISCRSFNRYFSVSTDYRPKLEALLACSQMLGINQVVAHNGNGGRERIGETGTVLGLNARDSKHAGRMFSMHNCQINPGAGPEITTPWKSYQHEKNRNGLMPLIRRRTMLQL" [] ["CCO-CYTOSOL"] +"EG12227-MONOMER" "DUF4049 domain-containing protein YhiL" ["YhiK", "YhiL"] "MKAIDNQIRNISSSHQDKHSDKVNSHQHHGKVDKTHRAKIVEFDKLDNDSQIDNDFGLHIIYFLQHGHWKVNDRSHQMEKVWFYNSEPSIDIQEYNRFADNTTDTFIFTIIPDNNHVLKLSSPITVTVECKGGYYFINSSGDKSDIIYKVDGLSIIARNFFTLLSGNFKPDWRWDVSKETFTKEKFDSYVKSVFSKIDFYKQCGVINPQNANTAYFGDTDGRVGAVLYALLVSGHIGIREKGWSLLCELLKHEEMASSAYKHKNNKVLYDLLNTRDMILNELHQHVFLKDDAITPCIFLGDHTGDRFSTIFGDKYILTLLNSMRNMEGNKDSRINKNVVVLAGNHEINFNGNYTARLANHKLSAGDTYNLIKTLDVCNYDSERQVLTSHHGIIRDEEKNVIVSVLCRFHLIR*KILLILRN*PIFLIKNIKNTWMILYSI*SEAIL*NPHLYMLIILITLLISDQHVNVSSYVGRHSKVKTPANTLDKNMGIMGPG*IIINNLIMVLWG*IP*RKHVIKIIK*FIPQGLVVFNY" [] [] +"EG12229-MONOMER" "putative oxidoreductase YhiN" ["YhiN"] "MERFDAIIIGAGAAGMFCSALAGQAGRRVLLIDNGKKPGRKILMSGGGRCNFTNLYVEPGAYLSQNPHFCKSALARFTQWDFIDLVNKHGIAWHEKTLGQLFCDDSAQQIVDMLVDECEKGNVTFRLRSEVLSVAKDETGFTLDLNGMTVGCEKLVIATGGLSMPGLGASPFGYKIAEQFGLNVLPTRAGLVPFTLHKPLLEELQVLAGVAVPSVITAENGTVFRENLLFTHRGLSGPAVLQISSYWQPGEFVSINLLPDVDLETFLNEQRNAHPNQSLKNTLAVHLPKRLVERLQQLGQIPDVSLKQLNVRDQQALISTLTDWRVQPNGTEGYRTAEVTLGGVDTNELSSRTMEARKVPGLYFIGEVMDVTGWLGGYNFQWAWSSAWACAQDLIAAKSS" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG12231-MONOMER" "putative universal stress (ethanol tolerance) protein B" ["YhiO", "UspB"] "MISTVALFWALCVVCIVNMARYFSSLRALLVVLRNCDPLLYQYVDGGGFFTSHGQPNKQVRLVWYIYAQRYRDHHDDEFIRRCERVRRQFILTSALCGLVVVSLIALMIWH" ["CCO-PM-BAC-NEG"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"EG12233-MONOMER" "16S rRNA m2G1516 methyltransferase" ["RsmJ", "YhiQ"] "MKICLIDETGTGDGALSVLAARWGLEHDEDNLMALVLTPEHLELRKRDEPKLGGIFVDFVGGAMAHRRKFGGGRGEAVAKAVGIKGDYLPDVVDATAGLGRDAFVLASVGCRVRMLERNPVVAALLDDGLARGYADAEIGGWLQERLQLIHASSLTALTDITPRPQVVYLDPMFPHKQKSALVKKEMRVFQSLVGPDLDADGLLEPARLLATKRVVVKRPDYAPPLANVATPNAVVTKGHRFDIYAGTPV" [] ["CCO-CYTOSOL"] +"EG12234-MONOMER" "23S rRNA m6A2030 methyltransferase" ["RlmJ", "YhiR"] "MLSYRHSFHAGNHADVLKHTVQSLIIESLKEKDKPFLYLDTHAGAGRYQLGSEHAERTGEYLEGIARIWQQDDLPAELEAYINVVKHFNRSGQLRYYPGSPLIARLLLREQDSLQLTELHPSDYPLLRSEFQKDSRARVEKADGFQQLKAKLPPVSRRGLILIDPPYEMKTDYQAVVSGIAEGYKRFATGIYALWYPVVLRQQIKRMIHDLEATGIRKILQIELAVLPDSDRRGMTASGMIVINPPWKLEQQMNNVLPWLHSKLVPAGTGHATVSWIVPE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG12235-MONOMER" "DNA-binding transcriptional repressor ArsR" ["ArsE", "ArsR"] "MSFLLPIQLFKILADETRLGIVLLLSELGELCVCDLCTALDQSQPKISRHLALLRESGLLLDRKQGKWVHYRLSPHIPAWAAKIIDEAWRCEQEKVQAIVRNLARQNCSGDSKNICS" [] ["CCO-CYTOSOL"] +"EG12237-MONOMER" null ["ArsG", "ArsC"] "MSNITIYHNPACGTSRNTLEMIRNSGTEPTIIHYLETPPTRDELVKLIADMGISVRALLRKNVEPYEELGLAEDKFTDDRLIDFMLQHPILINRPIVVTPLGTRLCRPSEVVLEILPDAQKGAFSKEDGEKVVDEAGKRLK" [] ["CCO-CYTOSOL"] +"EG12238-MONOMER" "putative uncharacterized protein YhiS" ["YhiS"] "MSIDFTPGIINTYHGDIYNCTTNTDNAKTPDTPKWPCDNWEEQQPINSTFSGEGYISDQYDLAQHQLQQINACHTNTTYTNADYSKVVAQLVSLITNIETISSTQLTQQTQSILNQINNIRYEKNKSAECRIIVIANPKPDKAIITKISVEEGIPITFSVQTMFSDTNFIAEQRADLPTNIKDIQSLYQKMTKLYIEHSENKNRMKVFAGTNFIDFNMTGQNLSGFVLTLSRFYFEDLLNINFTDANLGDTIFLHKEHPTPKLYKDGQYLDKQIEGLFSTLLTINDNLLRAKAEIASTIIKFLEARITNLSYNDILKYQQEFQRQCYKQVKAFTTLSRYNKIQTWAEMSEYQFEVFQYETLNPKKMSHTPYLKRPLPNEKDINYGVEIEIPSGKRIRLSNHYQNIIP" [] ["CCO-MEMBRANE"] +"EG12240-MONOMER" "multidrug efflux pump membrane fusion protein MdtE" ["YhiU", "MdtE"] "MNRRRKLLIPLLFCGAMLTACDDKSAENAAAMTPEVGVVTLSPGSVNVLSELPGRTVPYEVAEIRPQVGGIIIKRNFIEGDKVNQGDSLYQIDPAPLQAELNSAKGSLAKALSTASNARITFNRQASLLKTNYVSRQDYDTARTQLNEAEANVTVAKAAVEQATINLQYANVTSPITGVSGKSSVTVGALVTANQADSLVTVQRLDPIYVDLTQSVQDFLRMKEEVASGQIKQVQGSTPVQLNLENGKRYSQTGTLKFSDPTVDETTGSVTLRAIFPNPNGDLLPGMYVTALVDEGSRQNVLLVPQEGVTHNAQGKATALILDKDDVVQLREIEASKAIGDQWVVTSGLQAGDRVIVSGLQRIRPGIKARAISSSQENASTESKQ" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG12242-MONOMER" "DNA-binding transcriptional dual regulator GadW" ["YhiW", "GadW"] "MTHVCSVILIRRSFDIYHEQQKISLHNESILLLEKNLADDFAFCSPDTRRLDIDELTVCHYLQNIRQLPRNLGLHSKDRLLINQSPPMPLVTAIFDSFNESGVNSPILSNMLYLSCLSMFSHKKELIPLLFNSISTVSGKVERLISFDIAKRWYLRDIAERMYTSESLIKKKLQDENTCFSKILLASRMSMARRLLELRQIPLHTIAEKCGYSSTSYFINTFRQYYGVTPHQFAQHSPGTFS" [] ["CCO-CYTOSOL"] +"EG12243-MONOMER" "DNA-binding transcriptional dual regulator GadX" ["YhiX", "GadX"] "MQSLHGNCLIAYARHKYILTMVNGEYRYFNGGDLVFADASQIRVDKCVENFVFVSRDTLSLFLPMLKEEALNLHAHKKVSSLLVHHCSRDIPVFQEVAQLSQNKNLRYAEMLRKRALIFALLSVFLEDEHFIPLLLNVLQPNMRTRVCTVINNNIAHEWTLARIASELLMSPSLLKKKLREEETSYSQLLTECRMQRALQLIVIHGFSIKRVAVSCGYHSVSYFIYVFRNYYGMTPTEYQERSAQRLSNRDSAASIVAQGNFYGTDRSAEGIRL" [] ["CCO-CYTOSOL"] +"EG12244-MONOMER" "cytochrome c peroxidase" ["YhjA", "tri-heme CCP"] "MKMVSRITAIGLAGVAICYLGLSGYVWYHDNKRSKQADVQASAVSENNKVLGFLREKGCDYCHTPSAELPAYYYIPGAKQLMDYDIKLGYKSFNLEAVRAALLADKPVSQSDLNKIEWVMQYETMPPTRYTALHWAGKVSDEERAEILAWIAKQRAEYYASNDTAPEHRNEPVQPIPQKLPTDAQKVALGFALYHDPRLSADSTISCAHCHALNAGGVDGRKTSIGVGGAVGPINAPTVFNSVFNVEQFWDGRAATLQDQAGGPPLNPIEMASKSWDEIIAKLEKDPQLKTQFLEVYPQGFSGENITDAIAEFEKTLITPDSPFDKWLRGDENALTAQQKKGYQLFKDNKCATCHGGIILGGRSFEPLGLKKDFNFGEITAADIGRMNVTKEERDKLRQKVPGLRNVALTAPYFHRGDVPTLDGAVKLMLRYQVGKELPQEDVDDIVAFLHSLNGVYTPYMQDKQ" [] ["CCO-PM-BAC-NEG", "CCO-PERI-BAC"] +"EG12246-MONOMER" "putative DNA-binding transcriptional regulator YhjB" ["YhjB"] "MQIVMFDRQSIFIHGMKISLQQRIPGVSIQGASQADELWQKLESYPEALVMLDGDQDGEFCYWLLQKTVVQFPEVKVLITATDCNKRWLQEVIHFNVLAIVPRDSTVETFALAVNSAAMGMMFLPGDWRTTPEKDIKDLKSLSARQREILTMLAAGESNKEIGRALNISTGTVKAHLESLYRRLEVKNRTQAAMMLNISS" [] ["CCO-CYTOSOL"] +"EG12247-MONOMER" "putative DNA-binding transcriptional regulator YhjC" ["RcdB", "YhjC"] "MDKIHAMQLFIKVAELESFSRAADFFALPKGSVSRQIQALEHQLGTQLLQRTTRRVKLTPEGMTYYQRAKDVLSNLSELDGLFQQDATSISGKLRIDIPPGIAKSLLLPRLSEFLYLHPGIELELSSHDRPVDILHDGFDCVIRTGALPEDGVIARPLGKLTMVNCASPHYLTRFGYPQSPDDLTSHAIVRYTPHLGVHPLGFEVASVNGVQWFKSGGMLTVNSSENYLTAGLAGLGIIQIPRIAVREALRAGRLIEVLPGYRAEPLSLSLVYPQRRELSRRVNLFMQWLAGVMKEYLD" [] ["CCO-CYTOSOL"] +"EG12248-MONOMER" "putative transporter YhjD" ["YhjD"] "MTQENEIKRPIQDLEHEPIKPLDNSEKGSKVSQALETVTTTAEKVQRQPVIAHLIRATERFNDRLGNQFGAAITYFSFLSMIPILMVSFAAGGFVLASHPMLLQDIFDKILQNISDPTLAATLKNTINTAVQQRTTVGLVGLAVALYSGINWMGNLREAIRAQSRDVWERSPQDQEKFWVKYLRDFISLIGLLIALIVTLSITSVAGSAQQMIISALHLNSIEWLKPTWRLIGLAISIFANYLLFFWIFWRLPRHRPRKKALIRGTFLAAIGFEVIKIVMTYTLPSLMKSPSGAAFGSVLGLMAFFYFFARLTLFCAAWIATAEYKDDPRMPGKTQP" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG12251-MONOMER" "AsmA family protein YhjG" ["YhjF", "YhjG"] "MSKAGKITAAISGAFLLLIVVAIILIATFDWNRLKPTINQKVSAELNRPFAIRGDLGVVWERQKQETGWRSWVPWPHVHAEDIILGNPPDIPEVTMVHLPRVEATLAPLALLTKTVWLPWIKLEKPDARLIRLSEKNNNWTFNLANDDNKDANAKPSAWSFRLDNILFDQGRIAIDDKVSKADLEIFVDPLGKPLPFSEVTGSKGKADKEKVGDYVFGLKAQGRYNGEPLTGTGKIGGMLALRGEGTPFPVQADFRSGNTRVAFDGVVNDPMKMGGVDLRLKFSGDSLGDLYELTGVLLPDTPPFETDGRLVAKIDTEKSSVFDYRGFNGRIGDSDIHGSLVYTTGKPRPKLEGDVESRQLRLADLGPLIGVDSGKGAEKSKRSEQKKGEKSVQPAGKVLPYDRFETDKWDVMDADVRFKGRRIEHGSSLPISDLSTHIILKNADLRLQPLKFGMAGGSIAANIHLEGDKKPMQGRADIQARRLKLKELMPDVELMQKTLGEMNGDAELRGSGNSVAALLGNSNGNLKLLMNDGLVSRNLMEIVGLNVGNYIVGAIFGDDEVRVNCAAANLNIANGVARPQIFAFDTENALINVTGTASFASEQLDLTIDPESKGIRIITLRSPLYVRGTFKNPQAGVKAGPLIARGAVAAALATLVTPAAALLALISPSEGEANQCRTILSQMKK" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG12252-MONOMER" "c-di-GMP phosphodiesterase PdeH" ["PdeH", "YhjH"] "MIRQVIQRISNPEASIESLQERRFWLQCERAYTWQPIYQTCGRLMAVELLTVVTHPLNPSQRLPPDRYFTEITVSHRMEVVKEQIDLLAQKADFFIEHGLLASVNIDGPTLIALRQQPKILRQIERLPWLRFELVEHIRLPKDSTFASMCEFGPLWLDDFGTGMANFSALSEVRYDYIKIARELFVMLRQSPEGRTLFSQLLHLMNRYCRGVIVEGVETPEEWRDVQNSPAFAAQGWFLSRPAPIETLNTAVLAL" [] ["CCO-PM-BAC-NEG", "CCO-CYTOSOL"] +"EG12254-MONOMER" "peptidase M16 family protein YhjJ" ["YhjJ"] "MQGTKIRLLAGGLLMMATAGYVQADALQPDPAWQQGTLSNGLQWQVLTTPQRPSDRVEIRLLVNTGSLAESTQQSGYSHAIPRIALTQSGGLDAAQARSLWQQGIDPKRPMPPVIVSYDTTLFNLSLPNNRNDLLKEALSYLANATGKLTITPETINHALQSQDMVATWPADTKEGWWRYRLKGSTLLGHDPADPLKQPVEAEKIKDFYQKWYTPDAMTLLVVGNVDARSVVDQINKTFGELKGKRETPAPVPTLSPLRAEAVSIMTDAVRQDRLSIMWDTPWQPIRESAALLRYWRADLAREALFWHVQQALSASNSKDIGLGFDCRVLYLRAQCAINIESPNDKLNSNLNLVARELAKVRDKGLPEEEFNALVAQKKLELQKLFAAYARADTDILMGQRMRSLQNQVVDIAPEQYQKLRQDFLNSLTVEMLNQDLRQQLSNDMALILLQPKGEPEFNMKALQAVWDQIMAPSTAAATTSVATDDVHPEVTDIPPAQ" [] ["CCO-PERI-BAC"] +"EG12256-MONOMER" "c-di-GMP phosphodiesterase PdeK" ["PdeK", "YhjK"] "MRVSRSLTIKQMAMVAAVVLVFVFIFCTVLLFHLVQQNRYNTATQLESIARSVREPLSSAILKGDIPEAEAILASIKPAGVVSRADVVLPNQFQALRKSFIPERPVPVMVTRLFELPVQISLGVYSLERPANPQPIAYLVLQADSFRMYKFVMSTLSTLVTIYLLLSLILTVAISWCINRLILHPLRNIARELNAIPAKELVGHQLALPRLHQDDEIGMLVRSYNLNQQLLQRHYEEQNENAMRFPVSDLPNKALLMEMLEQVVARKQTTALMIITCETLRDTAGVLKEAQREILLLTLVEKLKSVLSPRMILAQISGYDFAVIANGVQEPWHAITLGQQVLTIMSERLPIERIQLRPHCSIGVAMFYGDLTAEQLYSRAISAAFTARHKGKNQIQFFDPQQMEAAQKRLTEESDILNALENHQFAIWLQPQVEMTSGKLVSAEVLLRIQQPDGSWDLPDGLIDRIECCGLMVTVGHWVLEESCRLLAAWQERGIMLPLSVNLSALQLMHPNMVADMLELLTRYRIQPGTLILEVTESRRIDDPHAAVAILRPLRNAGVRVALDDFGMGYAGLRQLQHMKSLPIDVLKIDKMFVEGLPGDSSMIAAIIMLAQSLNLQMIAEGVETEAQRDWLAKAGVGIAQGFLFARPLPIEIFEESYLEEK" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG12257-MONOMER" "cellulose synthase outer membrane channel" ["BcsC", "YhjL"] "MRKFTLNIFTLSLGLAVMPMVEAAPTAQQQLLEQVRLGEATHREDLVQQSLYRLELIDPNNPDVVAARFRSLLRQGDIDGAQKQLDRLSQLAPSSNAYKSSRTTMLLSTPDGRQALQQARLQATTGHAEEAVASYNKLFNGAPPEGDIAVEYWSTVAKIPARRGEAINQLKRINADAPGNTGLQNNLALLLFSSDRRDEGFAVLEQMAKSNAGREGASKIWYGQIKDMPVSDASVSALKKYLSIFSDGDSVAAAQSQLAEQQKQLADPAFRARAQGLAAVDSGMAGKAIPELQQAVRANPKDSEALGALGQAYSQKGDRANAVANLEKALALDPHSSNNDKWNSLLKVNRYWLAIQQGDAALKANNPDRAERLFQQARNVDNTDSYAVLGLGDVAMARKDYPAAERYYQQTLRMDSGNTNAVRGLANIYRQQSPEKAEAFIASLSASQRRSIDDIERSLQNDRLAQQAEALENQGKWAQAAALQRQRLALDPGSVWITYRLSQDLWQAGQRSQADTLMRNLAQQKSNDPEQVYAYGLYLSGHDQDRAALAHINSLPRAQWNSNIQELVNRLQSDQVLETANRLRESGKEAEAEAMLRQQPPSTRIDLTLADWAQQRRDYTAARAAYQNVLTREPANADAILGLTEVDIAAGDKAAARSQLAKLPATDNASLNTQRRVALAQAQLGDTAAAQRTFNKLIPQAKSQPPSMESAMVLRDGAKFEAQAGDPTQALETYKDAMVASGVTTTRPQDNDTFTRLTRNDEKDDWLKRGVRSDAADLYRQQDLNVTLEHDYWGSSGTGGYSDLKAHTTMLQVDAPYSDGRMFFRSDFVNMNVGSFSTNADGKWDDNWGTCTLQDCSGNRSQSDSGASVAVGWRNDVWSWDIGTTPMGFNVVDVVGGISYSDDIGPLGYTVNAHRRPISSSLLAFGGQKDSPSNTGKKWGGVRADGVGLSLSYDKGEANGVWASLSGDQLTGKNVEDNWRVRWMTGYYYKVINQNNRRVTIGLNNMIWHYDKDLSGYSLGQGGYYSPQEYLSFAIPVMWRERTENWSWELGASGSWSHSRTKTMPRYPLMNLIPTDWQEEAARQSNDGGSSQGFGYTARALLERRVTSNWFVGTAIDIQQAKDYAPSHFLLYVRYSAAGWQGDMDLPPQPLIPYADW" [] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"EG12258-MONOMER" "endo-1,4-D-glucanase" ["BcsZ", "YhjM", "BcsC"] "MNVLRSGIVTMLLLAAFSVQAACTWPAWEQFKKDYISQEGRVIDPSDARKITTSEGQSYGMFSALAANDRAAFDNILDWTQNNLAQGSLKERLPAWLWGKKENSKWEVLDSNSASDGDVWMAWSLLEAGRLWKEQRYTDIGSALLKRIAREEVVTVPGLGSMLLPGKVGFAEDNSWRFNPSYLPPTLAQYFTRFGAPWTTLRETNQRLLLETAPKGFSPDWVRYEKDKGWQLKAEKTLISSYDAIRVYMWVGMMPDSDPQKARMLNRFKPMATFTEKNGYPPEKVDVATGKAQGKGPVGFSAAMLPFLQNRDAQAVQRQRVADNFPGSDAYYNYVLTLFGQGWDQHRFRFSTKGELLPDWGQECANSH" ["CCO-EXTRACELLULAR"] ["CCO-EXTRACELLULAR"] +"EG12259-MONOMER" "cellulose synthase periplasmic subunit" ["BcsB", "YhjN"] "MKRKLFWICAVAMGMSAFPSFMTQATPATQPLINAEPAVAAQTEQNPQVGQVMPGVQGADAPVVAQNGPSRDVKLTFAQIAPPPGSMVLRGINPNGSIEFGMRSDEVVTKAMLNLEYTPSPSLLPVQSQLKVYLNDELMGVLPVTKEQLGKKTLAQMPINPLFISDFNRVRLEFVGHYQDVCEKPASTTLWLDVGRSSGLDLTYQTLNVKNDLSHFPVPFFDPSDNRTNTLPMVFAGAPDVGLQQASAIVASWFGSRSGWRGQNFPVLYNQLPDRNAIVFATNDKRPDFLRDHPAVKAPVIEMINHPQNPYVKLLVVFGRDDKDLLQAAKGIAQGNILFRGESVVVNEVKPLLPRKPYDAPNWVRTDRPVTFGELKTYEEQLQSSGLEPAAINVSLNLPPDLYLMRSTGIDMDINYRYTMPPVKDSSRMDISLNNQFLQSFNLSSKQEANRLLLRIPVLQGLLDGKTDVSIPALKLGATNQLRFDFEYMNPMPGGSVDNCITFQPVQNHVVIGDDSTIDFSKYYHFIPMPDLRAFANAGFPFSRMADLSQTITVMPKAPNEAQMETLLNTVGFIGAQTGFPAINLTVTDDGSTIQGKDADIMIIGGIPDKLKDDKQIDLLVQATESWVKTPMRQTPFPGIVPDESDRAAETRSTLTSSGAMAAVIGFQSPYNDQRSVIALLADSPRGYEMLNDAVNDSGKRATMFGSVAVIRESGINSLRVGDVYYVGHLPWFERVWYALANHPILLAVLAAISVILLAWVLWRLLRIISRRRLNPDNE" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG12260-MONOMER" "cellulose synthase catalytic subunit" ["YhjO", "YhjP", "BcsA"] "MSILTRWLLIPPVNARLIGRYRDYRRHGASAFSATLGCFWMILAWIFIPLEHPRWQRIRAEHKNLYPHINASRPRPLDPVRYLIQTCWLLIGASRKETPKPRRRAFSGLQNIRGRYHQWMNELPERVSHKTQHLDEKKELGHLSAGARRLILGIIVTFSLILALICVTQPFNPLAQFIFLMLLWGVALIVRRMPGRFSALMLIVLSLTVSCRYIWWRYTSTLNWDDPVSLVCGLILLFAETYAWIVLVLGYFQVVWPLNRQPVPLPKDMSLWPSVDIFVPTYNEDLNVVKNTIYASLGIDWPKDKLNIWILDDGGREEFRQFAQNVGVKYIARTTHEHAKAGNINNALKYAKGEFVSIFDCDHVPTRSFLQMTMGWFLKEKQLAMMQTPHHFFSPDPFERNLGRFRKTPNEGTLFYGLVQDGNDMWDATFFCGSCAVIRRKPLDEIGGIAVETVTEDAHTSLRLHRRGYTSAYMRIPQAAGLATESLSAHIGQRIRWARGMVQIFRLDNPLTGKGLKFAQRLCYVNAMFHFLSGIPRLIFLTAPLAFLLLHAYIIYAPALMIALFVLPHMIHASLTNSKIQGKYRHSFWSEIYETVLAWYIAPPTLVALINPHKGKFNVTAKGGLVEEEYVDWVISRPYIFLVLLNLVGVAVGIWRYFYGPPTEMLTVVVSMVWVFYNLIVLGGAVAVSVESKQVRRSHRVEMTMPAAIAREDGHLFSCTVQDFSDGGLGIKINGQAQILEGQKVNLLLKRGQQEYVFPTQVARVMGNEVGLKLMPLTTQQHIDFVQCTFARADTWALWQDSYPEDKPLESLLDILKLGFRGYRHLAEFAPSSVKGIFRVLTSLVSWVVSFIPRRPERSETAQPSDQALAQQ" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG12261-MONOMER" "cellulose biosynthesis protein" [] "MAVLG*QGVRGGVGTTTITAALAWSLQMLGENVLVVDACPDNLLRLSFNVDFTHRQGWARAMLDGQDWRDAGLRYTSQLDLLPFGQLSIEEQENPQHWQTRLSDICSGLQQLKASGRYQWILIDLPRDASQITHQLLSLCDHSLAIVNVDANCHIRLHQQALPDGAHILINDFRIGSQVQDDIYQLWLQSQRRLLPMLIHRDEAMAECLAAKQPVGEYRSDALAAEEILTLANWCLLNYSGLKTPVGSAS" [] ["CCO-CYTOSOL", "CCO-PM-BAC-NEG"] +"EG12262-MONOMER" "PF10945 family protein YhjR" ["BcsR", "YhjR"] "MNNNEPDTLPDPAIGYIFQNDIVALKQAFSLPDIDYADISQREQLAAALKRWPLLAEFAQQK" [] ["CCO-CYTOSOL"] +"EG12263-MONOMER" "c-di-GMP-binding protein BcsE" ["BcsE", "YhjS"] "MRDIVDPVFSIGISSLWDELRHMPAGGVWWFNVDRHEDAISLANQTIASQAETAHVAVISMDSDPAKIFQLDDSQGPEKIKLFSMLNHEKGLYYLTRDLQCSIDPHNYLFILVCANNAWQNIPAERLRSWLDKMNKWSRLNHCSLLVINPGNNNDKQFSLLLEEYRSLFGLASLRFQGDQHLLDIAFWCNEKGVSARQQLSVQQQNGIWTLVQSEEAEIQPRSDEKRILSNVAVLEGAPPLSEHWQLFNNNEVLFNEARTAQAATVVFSLQQNAQIEPLARSIHTLRRQRGSAMKILVRENTASLRATDERLLLACGANMVIPWNAPLSRCLTMIESVQGQKFSRYVPEDITTLLSMTQPLKLRGFQKWDVFCNAVNNMMNNPLLPAHGKGVLVALRPVPGIRVEQALTLCRPNRTGDIMTIGGNRLVLFLSFCRINDLDTALNHIFPLPTGDIFSNRMVWFEDDQISAELVQMRLLAPEQWGMPLPLTQSSKPVINAEHDGRHWRRIPEPMRLLDDAVERSS" [] ["CCO-CYTOSOL"] +"EG12264-MONOMER" "putative cellulose biosynthesis protein BcsF" ["BcsF", "YhjT"] "MMTISDIIEIIVVCALIFFPLGYLARHSLRRIRDTLRLFFAKPRYVKPAGTLRRTEKARATKK" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG12265-MONOMER" "cellulose phosphoethanolamine transferase" ["BcsG", "YhjU"] "MTQFTQNTAMPSSLWQYWRGLSGWNFYFLVKFGLLWAGYLNFHPLLNLVFAAFLLMPLPRYSLHRLRHWIALPIGFALFWHDTWLPGPESIMSQGSQVAGFSTDYLIDLVTRFINWQMIGAIFVLLVAWLFLSQWIRITVFVVAILLWLNVLTLAGPSFSLWPAGQPTTTVTTTGGNAAATVAATGGAPVVGDMPAQTAPPTTANLNAWLNNFYNAEAKRKSTFPSSLPADAQPFELLVINICSLSWSDIEAAGLMSHPLWSHFDIEFKNFNSATSYSGPAAIRLLRASCGQTSHTNLYQPANNDCYLFDNLSKLGFTQHLMMGHNGQFGGFLKEVRENGGMQSELMDQTNLPVILLGFDGSPVYDDTAVLNRWLDVTEKDKNSRSATFYNTLPLHDGNHYPGVSKTADYKARAQKFFDELDAFFTELEKSGRKVMVVVVPEHGGALKGDRMQVSGLRDIPSPSITDVPVGVKFFGMKAPHQGAPIVIEQPSSFLAISDLVVRVLDGKIFTEDNVDWKKLTSGLPQTAPVSENSNAVVIQYQDKPYVRLNGGDWVPYPQ" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG12267-MONOMER" "Kdo2-lipid A phosphoethanolamine 7''-transferase" ["YhjW", "EptB", "phosphoethanolamine transferase EptB"] "MRYIKSITQQKLSFLLAIYIGLFMNGAVFYRRFGSYAHDFTVWKGISAVVELAATVLVTFFLLRLLSLFGRRSWRILASLVVLFSAGASYYMTFLNVVIGYGIIASVMTTDIDLSKEVVGLNFILWLIAVSALPLILIWNNRCRYTLLRQLRTPGQRIRSLAVVVLAGIMVWAPIRLLDIQQKKVERATGVDLPSYGGVVANSYLPSNWLSALGLYAWARVDESSDNNSLLNPAKKFTYQAPQNVDDTYVVFIIGETTRWDHMGIFGYERNTTPKLAQEKNLAAFRGYSCDTATKLSLRCMFVRQGGAEDNPQRTLKEQNIFAVLKQLGFSSDLYAMQSEMWFYSNTMADNIAYREQIGAEPRNRGKPVDDMLLVDEMQQSLGRNPDGKHLIILHTKGSHFNYTQRYPRSFAQWKPECIGVDSGCTKAQMINSYDNSVTYVDHFISSVIDQVRDKKAIVFYAADHGESINEREHLHGTPRELAPPEQFRVPMMVWMSDKYLENPANAQAFAQLKKEADMKVPRRHVELYDTIMGCLGYTSPDGGINENNNWCHIPQAKEAAAN" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG12269-MONOMER" "putative outer membrane protein YhjY" ["YhjY"] "MIIKKSGGRWQLSLLASVVISAFFLNTAYAWQQEYIVDTQPGLSTERYTWDSDHQPDYNDILSQRIQSSQRALGLEVNLAEETPVDVTSSMSMGWNFPLYEQVTTGPVAALHYDGTTTSMYNEFGDSTTTLTDPLWHASVSTLGWRVDSRLGDLRPWAQISYNQQFGENIWKAQSGLSRMTATNQNGNWLDVTVGADMLLNQNIAAYAALTQAENTTNNSDYLYTMGVSARF" [] ["CCO-MEMBRANE", "CCO-EXTRACELLULAR"] +"EG12270-MONOMER" "peptidyl-lysine N-acetyltransferase YiaC" ["YiaC", "Nε-lysine acetyltransferase YiaC"] "MIREAQRSELPAILELWLESTTWGHPFIKANYWRDCIPLVRDAYLANAQNWVWEEDGKLLGFVSIMEGRFLAAMFVAPKAVRRGIGKALMQYVQQRHPHLMLEVYQKNQPAINFYQAQGFHIVDCAWQDETQLPTWIMSWPVVQTL" [] ["CCO-PM-BAC-NEG", "CCO-CYTOSOL"] +"EG12271-MONOMER" "PF13488 family lipoprotein YiaD" ["YiaD"] "MKKRVYLIAAVVSGALAVSGCTTNPYTGEREAGKSAIGAGLGSLVGAGIGALSSSKKDRGKGALIGAAAGAALGGGVGYYMDVQEAKLRDKMRGTGVSVTRSGDNIILNMPNNVTFDSSSATLKPAGANTLTGVAMVLKEYPKTAVNVIGYTDSTGGHDLNMRLSQQRADSVASALITQGVDASRIRTQGLGPANPIASNSTAEGKAQNRRVEITLSPL" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE", "CCO-OUTER-MEM"] +"EG12273-MONOMER" "DUF3053 domain-containing protein YiaF" ["YiaF"] "MATGKSCSRWFAPLAALLMVVSLSGCFDKEGDQRKAFIDFLQNTVMRSGERLPTLTADQKKQFGPFVSDYAILYGYSQQVNQAMDSGLRPVVDSVNAIRVPQDYVTQSGPLREMNGSLGVLAQQLQNAKLQADAAHSALKQSDDLKPVFDQAFTKVVTTPADALQPLIPAAQTFTQQLVMVGDYIAQQGTQVSFVANGIQFPTSQQASEYNKLIAPLPAQHQAFNQAWTTAVTATQ" [] ["CCO-CYTOSOL"] +"EG12274-MONOMER" "O-acetyltransferase WecH" ["YiaH", "WecH"] "MQPKIYWIDNLRGIACLMVVMIHTTTWYVTNAHSVSPVTWDIANVLNSASRVSVPLFFMISGYLFFGERSAQPRHFLRIGLCLIFYSAIALLYIALFTSINMELALKNLLQKPVFYHLWFFFAIAVIYLVSPLIQVKNVGGKMLLVLMAVIGIIANPNTVPQKIDGFEWLPINLYINGDTFYYILYGMLGRAIGMMDTQHKALSWVSAALFATGVFIISRGTLYELQWRGNFADTWYLYCGPMVFICAIALLTLVKNTLDTRTIRGLGLISRHSLGIYGFHALIIHALRTRGIELKNWPILDIIWIFCATLAASLLLSMLVQRIDRNRLVS" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG12277-MONOMER" "putative electron transport protein YsaA" ["YsaA", "YiaI", "putative hydrogenase, 4Fe-4S ferredoxin-type component"] "MNRFIIADATKCIGCRTCEVACAVSHHENQDCAALSPDEFISRIRVIKDHCWTTAVACHQCEDAPCANVCPVDAISREHGHIFVEQTRCIGCKSCMLACPFGAMEVVSSRKKARAIKCDLCWHRETGPACVEACPTKALQCMDVEKVQRHRLRQQPV" [] ["CCO-CYTOSOL"] +"EG12278-MONOMER" "DNA-binding transcriptional repressor PlaR" ["PlaR", "YiaJ"] "MGKEVMGKKENEMAQEKERPAGSQSLFRGLMLIEILSNYPNGCPLAHLSELAGLNKSTVHRLLQGLQSCGYVTTAPAAGSYRLTTKFIAVGQKALSSLNIIHIAAPHLEALNIATGETINFSSREDDHAILIYKLEPTTGMLRTRAYIGQHMPLYCSAMGKIYMAFGHPDYVKSYWESHQHEIQPLTRNTITELPAMFDELAHIRESGAAMDREENELGVSCIAVPVFDIHGRVPYAVSISLSTSRLKQVGEKNLLKPLRETAQAISNELGFTVRDDLGAIT" [] ["CCO-CYTOSOL"] +"EG12279-MONOMER" "2,3-diketo-L-gulonate reductase" ["YiaK"] "MKVTFEQLKAAFNRVLISRGVDSETADACAEMFARTTESGVYSHGVNRFPRFIQQLENGDIIPDAQPKRITSLGAIEQWDAQRSIGNLTAKKMMDRAIELAADHGIGLVALRNANHWMRGGSYGWQAAEKGYIGICWTNSIAVMPPWGAKECRIGTNPLIVAIPSTPITMVDMSMSMFSYGMLEVNRLAGRQLPVDGGFDDEGNLTKEPGVIEKNRRILPMGYWKGSGMSIVLDMIATLLSDGASVAEVTQDNSDEYGISQIFIAIEVDKLIDGPTRDAKLQRIMDYVTSAERADENQAIRLPGHEFTTLLAENRRNGITVDDSVWAKIQAL" [] ["CCO-CYTOSOL"] +"EG12280-MONOMER" "DUF386 domain-containing protein YiaL" ["YiaL"] "MIFGHIAQPNPCRLPAAIEKALDFLRATDFNALEPGVVEIDGKNIYTQIIDLTTREAVVNRPEVHRRYIDIQFLAWGEEKIGIAIDTGNNKVSESLLEQRNIIFYHDSEHESFIEMIPGSYAIFFPQDVHRPGCIMQTASEIRKIVVKVALTALN" [] ["CCO-CYTOSOL"] +"EG12282-MONOMER" "2,3-diketo-L-gulonate:Na+ symporter - membrane subunit" ["YiaN"] "MAVLIFLGCLLGGIAIGLPIAWALLLCGAALMFWLDMFDVQIMAQTLVNGADSFSLLAIPFFVLAGEIMNAGGLSKRIVDLPMKLVGHKPGGLGYVGVLAAMIMASLSGSAVADTAAVAALLVPMMRSANYPVNRAAGLIASGGIIAPIIPPSIPFIIFGVSSGLSISKLFMAGIAPGMMMGATLMLTWWWQASRLNLPRQQKATMQEIWHSFVSGIWALFLPVIIIGGFRSGLFTPTEAGAVAAFYALFVATVIYREMTFATLWHVLIGAAKTTSVVMFLVASAQVSAWLITIAELPMMVSDLLQPLVDSPRLLFIVIMVAILIVGMVMDLTPTVLILTPVLMPLVKEAGIDPIYFGVMFIINCSIGLITPPIGNVLNVISGVAKLKFDDAVRGVFPYVLVLYSLLVVFVFIPDLIILPLKWIN" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG12283-MONOMER" "2,3-diketo-L-gulonate:Na+ symporter - periplasmic binding protein" ["YiaO"] "MKLRSVTYALFIAGLAAFSTSSLAAQSLRFGYETSQTDSQHIAAKKFNDLLQERTKGELKLKLFPDSTLGNAQAMISGVRGGTIDMEMSGSNNFAGLSPVMNLLDVPFLFRDTAHAHKTLDGKVGDDLKASLEGKGLKVLAYWENGWRDVTNSRAPVKTPADLKGLKIRTNNSPMNIAAFKVFGANPIPMPFAEVYTGLETRTIDAQEHPINVVWSAKFFEVQKFLSLTHHAYSPLLVVINKAKFDGLSPEFQQALVSSAQEAGNYQRKLVAEDQQKIIDGMKEAGVEVITDLDRKAFSDALGNQVRDMFVKDVPQGADLLKAVDEVQ" [] ["CCO-PERI-BAC"] +"EG12285-MONOMER" "3-keto-L-gulonate-6-phosphate decarboxylase SgbH" ["YiaQ", "SgbH"] "MSRPLLQLALDHSSLEAAQRDVTLLKDSVDIVEAGTILCLNEGLGAVKALREQCPDKIIVADWKVADAGETLAQQAFGAGANWMTIICAAPLATVEKGHAMAQRCGGEIQIELFGNWTLDDARDWHRIGVRQAIYHRGRDAQASGQQWGEADLARMKALSDIGLELSITGGITPADLPLFKDIRVKAFIAGRALAGAANPAQVAGDFHAQIDAIWGGARA" [] ["CCO-CYTOSOL"] +"EG12286-MONOMER" "putative L-xylulose 5-phosphate 3-epimerase" ["YiaR", "SgbU"] "MRNHQLGIYEKALAKDLSWPERLVLAKSCGFDFVEMSVDETDERLSRLDWSAAQRTSLVAAMIETGVGIPSMCLSAHRRFPFGSRDEAVRERAREIMSKAIRLARDLGIRTIQLAGYDVYYEDHDEGTRQRFAEGLAWAVEQAAASQVMLAVEIMDTAFMNSISKWKKWDEMLASPWFTVYPDVGNLSAWGNDVPAELKLGIDRIAAIHLKDTQPVTGQSPGQFRDVPFGEGCVDFVGIFKTLHKLNYRGSFLIEMWTEKAKEPVLEIIQARRWIEARMQEAGFIC" [] ["CCO-CYTOSOL"] +"EG12287-MONOMER" "L-ribulose-5-phosphate 4-epimerase SgbE" ["YiaS", "SgbE"] "MLEQLKADVLAANLALPAHHLVTFTWGNVSAVDETRQWMVIKPSGVEYDVMTADDMVVVEIASGKVVEGSKKPSSDTPTHLALYRRYAEIGGIVHTHSRHATIWSQAGLDLPAWGTTHADYFYGAIPCTRQMTAEEINGEYEYQTGEVIIETFEERGRSPAQIPAVLVHSHGPFAWGKNAADAVHNAVVLEECAYMGLFSRQLAPQLPAMQNELLDKHYLRKHGANAYYGQ" [] ["CCO-CYTOSOL"] +"EG12288-MONOMER" "outer membrane protein YiaT" ["YiaT"] "MLINRNIVALFALPFMASATASELSIGAGAAYNESPYRGYNENTKAIPLISYEGDTFYVRQTTLGFILSQSEKNELSLTASWMPLEFDPTDNDDYAMQQLDKRDSTAMAGVAWYHHERWGTVKASAAADVLDNSNGWVGELSVFHKMQIGRLSLTPALGVLYYDENFSDYYYGISESESRRSGLASYSAQDAWVPYVSLTAKYPIGEHVVLMASAGYSELPEEITDSPMIDRNESFTFVTGVSWRF" ["CCO-OUTER-MEM"] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"EG12289-MONOMER" "putative LysR-type DNA-binding transcriptional regulator YiaU" ["YiaU"] "MTKLQLKYRELKIISVIAASENISHAATVLGIAQANVSKYLADFESKVGLKVFDRTTRQLMLTPFGTALLPYINDMLDRNEQLNNFIADYKHEKRGRVTIYAPTGIITYLSKHVIDKIKDIGDITLSLKTCNLERNAFYEGVEFPDDCDVLISYAPPKDESLVASFITQYAVTAYASQRYLEKHPISRPDELEHHSCILIDSMMIDDANIWRFNVAGSKEVRDYRVKGNYVCDNTQSALELARNHLGIVFAPDKSVQSDLQDGTLVPCFQQPYEWWLDLVAIFRKREYQPWRVQYVLDEMLREIRHQLAQSQQLRPEQAAESED" [] ["CCO-CYTOSOL"] +"EG12290-MONOMER" "putative membrane fusion protein YiaV" ["YiaV"] "MDLLIILTYVAFAWAMFKIFKIPVNKWTIPTAALGGIFIVSGLILLMNYNHPYTFKAQKAVISIPVVPQVTGVVIEVTDKKNTLIKKGEVLFRLDPTRYQARVDRLMADIVTAEHKQRALGAELDEMAANTQQAKATRDKFAKEYQRYARGSQAKVNPFSERDIDVARQNYLAQEASVKSSAAEQKQIQSQLDSLVLGEHSQIASLKAQLAEAKYNLEQTIVRAPSDGYVTQVLIRPGTYAASLPLRPVMVFIPDQKRQIVAQFRQNSLLRLAPGDDAEVVFNALPGKVFSGKLAAISPAVPGGAYQSTGTLQTLNTAPGSDGVIATIELDEHTDLSALPDGIYAQVAVYSDHFSHVSVMRKVLLRMTSWVHYLYLDH" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG12291-MONOMER" "DUF3302 domain-containing protein YiaW" ["YiaW"] "MFLDYFALGVLIFVFLVIFYGIIILHDIPYLIAKKRNHPHADAIHVAGWVSLFTLHVIWPFLWIWATLYRPERGWGMQSHDSSVMQLQQRIAGLEKQLADIKSSSAE" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG12293-MONOMER" "L-threonine dehydrogenase" ["YiaY"] "MAASTFFIPSVNVIGADSLTDAMNMMADYGFTRTLIVTDNMLTKLGMAGDVQKALEERNIFSVIYDGTQPNPTTENVAAGLKLLKENNCDSVISLGGGSPHDCAKGIALVAANGGDIRDYEGVDRSAKPQLPMIAINTTAGTASEMTRFCIITDEARHIKMAIVDKHVTPLLSVNDSSLMIGMPKSLTAATGMDALTHAIEAYVSIAATPITDACALKAVTMIAENLPLAVEDGSNAKAREAMAYAQFLAGMAFNNASLGYVHAMAHQLGGFYNLPHGVCNAVLLPHVQVFNSKVAAARLRDCAAAMGVNVTGKNDAEGAEACINAIRELAKKVDIPAGLRDLNVKEEDFAVLATNALKDACGFTNPIQATHEEIVAIYRAAM" [] ["CCO-CYTOSOL"] +"EG12295-MONOMER" "putative sulfurtransferase YibN" ["YibN", "putative rhodanese-related sulfurtransferase"] "MQEIMQFVGRHPILSIAWIALLVAVLVTTFKSLTSKVKVITRGEATRLINKEDAVVVDLRQRDDFRKGHIAGSINLLPSEIKANNVGELEKHKDKPVIVVDGSGMQCQEPANALTKAGFAQVFVLKEGVAGWAGENLPLVRGK" ["CCO-CYTOSOL"] ["CCO-PM-BAC-NEG", "CCO-CYTOSOL"] +"EG12297-MONOMER" "murein hydrolase activator EnvC" ["EnvC", "YibP", "divisome associated factor, activator of peptidoglycan hydrolases"] "MTRAVKPRRFAIRPIIYASVLSAGVLLCAFSAHADERDQLKSIQADIAAKERAVRQKQQQRASLLAQLKKQEEAISEATRKLRETQNTLNQLNKQIDEMNASIAKLEQQKAAQERSLAAQLDAAFRQGEHTGIQLILSGEESQRGQRLQAYFGYLNQARQETIAQLKQTREEVAMQRAELEEKQSEQQTLLYEQRAQQAKLTQALNERKKTLAGLESSIQQGQQQLSELRANESRLRNSIARAEAAAKARAEREAREAQAVRDRQKEATRKGTTYKPTESEKSLMSRTGGLGAPRGQAFWPVRGPTLHRYGEQLQGELRWKGMVIGASEGTEVKAIADGRVILADWLQGYGLVVVVEHGKGDMSLYGYNQSALVSVGSQVRAGQPIALVGSSGGQGRPSLYFEIRRQGQAVNPQPWLGR" ["CCO-PM-BAC-NEG", "CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"EG12298-MONOMER" "divergent polysaccharide deacetylase domain-containing protein YibQ" ["YibQ"] "MFPFRRNVLAFAALLALSSPVLAGKLAIVIDDFGYRPHNENQVLAMPSAISVAVLPDSPHAREMATKAHNSGHEVLIHLPMAPLSKQPLEKNTLRPEMSSDEIERIIRSAVNNVPYAVGINNHMGSKMTSNLFGMQKVMQALERYNLYFLDSVTIGNTQAMRAAQGTGVKVIKRKVFLDDSQNEADIRVQFNRAIDLARRNGSTIAIGHPHPATVRVLQQMVYNLPPDITLVKASSLLNEPQVDTSTPPKNAVPDAPRNPFRGVKLCKPKKPIEPVYANRFFEVLSESISQSTLIVYFQHQWQGWGKQPEAAKFNASAN" [] ["CCO-CYTOSOL"] +"EG12303-MONOMER" "putative metal-dependent hydrolase YcfH" ["YcfH"] "MFLVDSHCHLDGLDYESLHKDVDDVLAKAAARDVKFCLAVATTLPGYLHMRDLVGERDNVVFSCGVHPLNQNDPYDVEDLRRLAAEEGVVALGETGLDYYYTPETKVRQQESFIHHIQIGRELNKPVIVHTRDARADTLAILREEKVTDCGGVLHCFTEDRETAGKLLDLGFYISFSGIVTFRNAEQLRDAARYVPLDRLLVETDSPYLAPVPHRGKENQPAMVRDVAEYMAVLKGVAVEELAQVTTDNFARLFHIDASRLQSIR" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG12308-MONOMER" "putative DNA-binding transcriptional regulator YfhH" ["YfhH"] "MNGLLRIRQRYQGLAQSDKKLADYLLLQPDTARHLSSQQLANEAGVSQSSVVKFAQKLGYKGFPALKLALSEALASQPESPSVPIHNQIRGDDPLRLVGEKLIKENTAAMYATLNVNSEEKLHECVTMLRSARRIILTGIGASGLVAQNFAWKLMKIGFNAAAVRDMHALLATVQASSPDDLLLAISYTGVRRELNLAADEMLRVGGKVLAITGFTPNALQQRASHCLYTIAEEQATNSASISACHAQGMLTDLLFIALIQQDLELAPERIRHSEALVKKLV" [] ["CCO-CYTOSOL"] +"EG12309-MONOMER" "putative rRNA methyltransferase" ["LasT", "YjtD"] "MRITIILVAPARAENIGAAARAMKTMGFSDLRIVDSQAHLEPATRWVAHGSGDIIDNIKVFPTLAESLHDVDFTVATTARSRAKYHYYATPVELVPLLEEKSSWMSHAALVFGREDSGLTNEELALADVLTGVPMVADYPSLNLGQAVMVYCYQLATLIQQPAKSDATADQHQLQALRERAMTLLTTLAVADDIKLVDWLQQRLGLLEQRDTAMLHRLLHDIEKNITK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG12310-MONOMER" "aminopeptidase B" ["YfhI", "PepB"] "MTEAMKITLSTQPADARWGEKATYSINNDGITLHLNGADDLGLIQRAARKIDGLGIKHVQLSGEGWDADRCWAFWQGYKAPKGTRKVVWPDLDDAQRQELDNRLMIIDWVRDTINAPAEELGPSQLAQRAVDLISNVAGDRVTYRITKGEDLREQGYMGLHTVGRGSERSPVLLALDYNPTGDKEAPVYACLVGKGITFDSGGYSIKQTAFMDSMKSDMGGAATVTGALAFAITRGLNKRVKLFLCCADNLISGNAFKLGDIITYRNGKKVEVMNTDAEGRLVLADGLIDASAQKPEMIIDAATLTGAAKTALGNDYHALFSFDDALAGRLLASAAQENEPFWRLPLAEFHRSQLPSNFAELNNTGSAAYPAGASTAAGFLSHFVENYQQGWLHIDCSATYRKAPVEQWSAGATGLGVRTIANLLTA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG12311-MONOMER" "accessory iron-sulfur cluster assembly protein IscX" ["IscX", "YfhJ", "regulator of iron-sulfur cluster assembly"] "MGLKWTDSREIGEALYDAYPDLDPKTVRFTDMHQWICDLEDFDDDPQASNEKILEAILLVWLDEAE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG12312-MONOMER" null ["YacE", "CoaE"] "MRYIVALTGGIGSGKSTVANAFADLGINVIDADIIARQVVEPGAPALHAIADHFGANMIAADGTLQRRALRERIFANPEEKNWLNALLHPLIQQETQHQIQQATSPYVLWVVPLLVENSLYKKANRVLVVDVSPETQLKRTMQRDDVTREHVEQILAAQATREARLAVADDVIDNNGAPDAIASDVARLHAHYLQLASQFVSQEKP" [] ["CCO-CYTOSOL"] +"EG12313-MONOMER" "cell division factor ZapD" ["ZapD", "YacF"] "MQTQVLFEHPLNEKMRTWLRIEFLIQQLTVNLPIVDHAGALHFFRNVSELLDVFERGEVRTELLKELDRQQRKLQTWIGVPGVDQSRIEALIQQLKAAGSVLISAPRIGQFLREDRLIALVRQRLSIPGGCCSFDLPTLHIWLHLPQAQRDSQVETWIASLNPLTQALTMVLDLIRQSAPFRKQTSLNGFYQDNGGDADLLRLNLSLDSQLYPQISGHKSRFAIRFMPLDTENGQVPERLDFELACC" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG12314-MONOMER" "DNA gyrase inhibitor YacG" ["YacG"] "MSETITVNCPTCGKTVVWGEISPFRPFCSKRCQLIDLGEWAAEEKRIPSSGDLSESDDWSEEPKQ" [] ["CCO-CYTOSOL"] +"EG12315-MONOMER" "DUF3300 domain-containing protein YacH" ["YacH"] "MKMTLPFKPHVLALICSAGLCAASTGLYIKSRTVEAPVEPQSTQLAVSDAAAVTFPATVSAPPVTPAVVKSAFSTAQIDQWVAPVALYPDALLSQVLMASTYPTNVAQAVQWSHDNPLKQGDAAIQAVSDQPWDASVKSLVAFPQLMALMGENPQWVQNLGDAFLAQPQDVMDSVQRLRQLAQQTGSLKSSTEQKVITTTKKAVPVKQTVTAPVIPSNTVLTANPVITEPATTVISIEPANPDVVYIPNYNPTVVYGNWANTAYPPVYLPPPAGEPFVDSFVRGFGYSMGVATTYALFSSIDWDDDDHDHHHHDNDDYHHHDGGHRDGNGWQHNGDNINIDVNNFNRITGEHLTDKNMAWRHNPNYRNGVPYHDQDMAKRFHQTDVNGGMSATQLPAPTRDSQRQAAANQFQQRTHAAPVITRDTQRQAAAQRFNEAEHYGSYDDFHDFSRRQPLTQQQKDAARQRYQSASPEQRQAVRERMQTNPKIQQRREAARERIQSASPEQRQAVREKMQTNPQNQQRRDAARERIQSASPEQRQVFKEKVQQRPLNQQQRDNARQRVQSASPEQRQVFREKVQESRPQRLNDSNHTVRLNNEQRSAVCERLSERGARRLER" [] ["CCO-EXTRACELLULAR"] +"EG12318-MONOMER" "multicopper oxidase CueO" ["YacK", "CueO", "MCO", "cuprous oxidase / multicopper oxidase with role in copper homeostasis"] "MQRRDFLKYSVALGVASALPLWSRAVFAAERPTLPIPDLLTTDARNRIQLTIGAGQSTFGGKTATTWGYNGNLLGPAVKLQRGKAVTVDIYNQLTEETTLHWHGLEVPGEVDGGPQGIIPPGGKRSVTLNVDQPAATCWFHPHQHGKTGRQVAMGLAGLVVIEDDEILKLMLPKQWGIDDVPVIVQDKKFSADGQIDYQLDVMTAAVGWFGDTLLTNGAIYPQHAAPRGWLRLRLLNGCNARSLNFATSDNRPLYVIASDGGLLPEPVKVSELPVLMGERFEVLVEVNDNKPFDLVTLPVSQMGMAIAPFDKPHPVMRIQPIAISASGALPDTLSSLPALPSLEGLTVRKLQLSMDPMLDMMGMQMLMEKYGDQAMAGMDHSQMMGHMGHGNMNHMNHGGKFDFHHANKINGQAFDMNKPMFAAAKGQYERWVISGVGDMMLHPFHIHGTQFRILSENGKPPAAHRAGWKDTVKVEGNVSEVLVKFNHDAPKEHAYMAHCHLLEHEDTGMMLGFTV" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"EG12319-MONOMER" "carbonic anhydrase 2" ["YadF", "Can", "CynT2"] "MKDIDTLISNNALWSKMLVEEDPGFFEKLAQAQKPRFLWIGCSDSRVPAERLTGLEPGELFVHRNVANLVIHTDLNCLSVVQYAVDVLEVEHIIICGHYGCGGVQAAVENPELGLINNWLLHIRDIWFKHSSLLGEMPQERRLDTLCELNVMEQVYNLGHSTIMQSAWKRGQKVTIHGWAYGIHDGLLRDLDVTATNRETLEQRYRHGISNLKLKHANHK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG12323-MONOMER" "inactive recombination-promoting nuclease-like protein RpnE" ["RpnE", "YfaD"] "MTESTTSSPHDAVFKTFMFTPETARDFLEIHLPEPLRKLCNLQTLRLEPTSFIEKSLRAYYSDVLWSVETSDGDGYIYCVIEHQSSAEKNMAFRLMRYATAAMQRHQDKGYDRVPLVVPLLFYHGETSPYPYSLNWLDEFDDPQLARQLYTEAFLLVDITIVPDDEIMQHRRIALLELIQKHIRDRDLIGMVDRITTLLVRGFTNDSQLQTLFNYLLQCGDTSRFTRFIEEIAERSPLQKERLMTIAERLRQEGHQIGWQEGMHEQAIKIALRMLEQGFEREIVLATTQLTDADIPNCH" [] ["CCO-CYTOSOL"] +"EG12325-MONOMER" "putative fimbrial protein YadK" ["YadK"] "MHPTQRKLMKRIILFLSLLFCIACPAIAGQDIDLVANVKNSTCKSGISNQGNIDLGVVGVGYFSGNVTPESYQPGGKEFTITVSDCALQGTGDVLNQLHIDFRALSGVMAAGSRQIFANEISSGASNVGVVIFSTQDSANTFNVLNASGGSRSVYPVMSDDMNGSSWKFSTRMQKIDPALSVTSGQLMSHVLVDIYYE" ["CCO-PILUS"] ["CCO-PILUS"] +"EG12326-MONOMER" "putative fimbrial protein YadL" ["YadL"] "MMTFKNLRYGLSSSVVLAASLFSVLSYAATDSIGLTVITTVEMGTCTATLVNDSDQDISVVDFGDVYISEINAKTKVKTFKLKFKDCAGIPNKKAQIKLTKRATCEGTANDGAGFANGSTAADKASAVAVEVWSTVTPATGSATQFSCVTPASQEVTISTAANAVVYYPMSARLVVEKNKTVNNVTAGKFSAPATFTVTYN" [] ["CCO-PILUS", "CCO-EXTRACELLULAR"] +"EG12327-MONOMER" "putative fimbrial protein YadM" ["YadM"] "MIKTTPHKIVILMGILLSPSVFATDINVEFTATVKATTCNITLTGNNVTNDGNNNYTLRIPKMGLDKIANKTTESQADFKLVASGCSSGISWIDTTLTGNASSSSPKLIIPQSGDSSSTTSNIGMGFKKRTTDDATFLKPNSAEKIRWSTDEMQPDKGLEMTVALRETDAGQGVPGNFRALATFNFIYQ" [] ["CCO-EXTRACELLULAR", "CCO-PILUS"] +"EG12328-MONOMER" "putative fimbrial protein YadN" ["YadN"] "MSKKLGFALSGLMLAMVAGTASADMDGGQLNISGLVVDNTCETRVDGGNKDGLILLQTATVGEIDAGVLNDTVGAKAKPFSITVDCSKANPNPGSTAKMTFGSVFFGNSKGTLNNDMSINNPSDGVNIALHNIDGSTIKQVQINNPGDVYTKALDATTKSAVYDFKASYVRAVADQTATAGYVKTNTAYTITYQ" ["CCO-PILUS"] ["CCO-EXTRACELLULAR", "CCO-PILUS"] +"EG12329-MONOMER" "RNA-dependent NTPase HrpB" ["YadO", "HrpB", "putative ATP-dependent RNA helicase HrpB"] "MSSLPVAAVLPELLTALDCAPQVLLSAPTGAGKSTWLPLQLLAHPGINGKIILLEPRRLAARNVAQRLAELLNEKPGDTVGYRMRAQNCVGPNTRLEVVTEGVLTRMIQRDPELSGVGLVILDEFHERSLQADLALALLLDVQQGLRDDLKLLIMSATLDNDRLQQMLPEAPVVISEGRSFPVERRYLPLPAHQRFDDAVAVATAEMLRQESGSLLLFLPGVGEIQRVQEQLASRIGSDVLLCPLYGALSLNDQRKAILPAPQGMRKVVLATNIAETSLTIEGIRLVVDCAQERVARFDPRTGLTRLITQRVSQASMTQRAGRAGRLEPGISLHLIAKEQAERAAAQSEPEILQSDLSGLLMELLQWGCSDPAQMSWLDQPPVVNLLAAKRLLQMLGALEGERLSAQGQKMAALGNDPRLAAMLVSAKNDDEAATAAKIAAILEEPPRMGNSDLGVAFSRNQPAWQQRSQQLLKRLNVRGGEADSSLIAPLLAGAFADRIARRRGQDGRYQLANGMGAMLDANDALSRHEWLIAPLLLQGSASPDARILLALLVDIDELVQRCPQLVQQSDTVEWDDAQGTLKAWRRLQIGQLTVKVQPLAKPSEDELHQAMLNGIRDKGLSVLNWTAEAEQLRLRLLCAAKWLPEYDWPAVDDESLLAALETWLLPHMTGVHSLRGLKSLDIYQALRGLLDWGMQQRLDSELPAHYTVPTGSRIAIRYHEDNPPALAVRMQEMFGEATNPTIAQGRVPLVLELLSPAQRPLQITRDLSDFWKGAYREVQKEMKGRYPKHVWPDDPANTAPTRRTKKYS" [] ["CCO-PM-BAC-NEG"] +"EG12330-MONOMER" "RNA 2',3'-cyclic phosphodiesterase" ["ThpR", "YadP", "LigT"] "MSEPQRLFFAIDLPAEIREQIIHWRATHFPPEAGRPVAADNLHLTLAFLGEVSAEKEKALSLLAGRIRQPGFTLTLDDAGQWLRSRVVWLGMRQPPRGLIQLANMLRSQAARSGCFQSNRPFHPHITLLRDASEAVTIPPPGFNWSYAVTEFTLYASSFARGRTRYTPLKRWALTQ" [] ["CCO-CYTOSOL"] +"EG12332-MONOMER" "iron-sulfur cluster insertion protein ErpA" ["YadR", "ErpA", "essential respiratory protein A"] "MSDDVALPLEFTDAAANKVKSLIADEDNPNLKLRVYITGGGCSGFQYGFTFDDQVNEGDMTIEKQGVGLVVDPMSLQYLVGGSVDYTEGLEGSRFIVTNPNAKSTCGCGSSFSI" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG12333-MONOMER" "PF03458 family protein YadS" ["YadS", "conserved inner membrane protein YadS"] "MLVYWLDIVGTAVFAISGVLLAGKLRMDPFGVLVLGVVTAVGGGTIRDMALDHGPVFWVKDPTDLVVAMVTSMLTIVLVRQPRRLPKWMLPVLDAVGLAVFVGIGVNKAFNAEAGPLIAVCMGVITGVGGGIIRDVLAREIPMILRTEIYATACIIGGIVHATAYYTFSVPLETASMMGMVVTLLIRLAAIRWHLKLPTFALDENGR" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG12334-MONOMER" "vitamin B12 ABC transporter periplasmic binding protein" ["BtuF", "YadT"] "MAKSLFRALVALSFLAPLWLNAAPRVITLSPANTELAFAAGITPVGVSSYSDYPPQAQKIEQVSTWQGMNLERIVALKPDLVIAWRGGNAERQVDQLASLGIKVMWVDATSIEQIANALRQLAPWSPQPDKAEQAAQSLLDQYAQLKAQYADKPKKRVFLQFGINPPFTSGKESIQNQVLEVCGGENIFKDSRVPWPQVSREQVLARSPQAIVITGGPDQIPKIKQYWGEQLKIPVIPLTSDWFERASPRIILAAQQLCNALSQVD" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"EG12335-MONOMER" "DNA-binding transcriptional activator CdaR" ["SdaR", "CdaR", "YaeG"] "MAGWHLDTKMAQDIVARTMRIIDTNINVMDARGRIIGSGDRERIGELHEGALLVLSQGRVVDIDDAVARHLHGVRQGINLPLRLEGEIVGVIGLTGEPENLRKYGELVCMTAEMMLEQSRLMHLLAQDSRLREELVMNLIQAEENTPALTEWAQRLGIDLNQPRVVAIVEVDSGQLGVDSAMAELQQLQNALTTPERNNLVAIVSLTEMVVLKPALNSFGRWDAEDHRKRVEQLITRMKEYGQLRFRVSLGNYFTGPGSIARSYRTAKTTMVVGKQRMPESRCYFYQDLMLPVLLDSLRGDWQANELARPLARLKTMDNNGLLRRTLAAWFRHNVQPLATSKALFIHRNTLEYRLNRISELTGLDLGNFDDRLLLYVALQLDEER" [] ["CCO-CYTOSOL"] +"EG12336-MONOMER" "DUF3461 domain-containing protein YaeH" ["YaeH"] "MYDNLKSLGITNPEEIDRYSLRQEANNDILKIYFQKDKGEFFAKSVKFKYPRQRKTVVADGVGQGYKEVQEISPNLRYIIDELDQICQRDRSEVDLKRKILDDLRHLESVVTNKISEIEADLEKLTRK" [] ["CCO-CYTOSOL"] +"EG12337-MONOMER" "phosphodiesterase YaeI" ["YaeI"] "MISRRRFLQATAATIATSSGFGYMHYCEPGWFELIRHRLAFFKDNAAPFKILFLADLHYSRFVPLSLISDAIALGIEQKPDLILLGGDYVLFDMSLNFSAFSDVLSPLAECAPTFACFGNHDRPVGTEKNHLIGETLKSAGITVLFNQATVIATPNRQFELVGTGDLWAGQCKPPPASEANLPRLVLAHNPDSKEVMRDEPWDLMLCGHTHGGQLRVPLVGEPFAPVEDKRYVAGLNAFGERHIYTTRGVGSLYGLRLNCRPEVTMLELV" [] ["CCO-MEMBRANE"] +"EG12338-MONOMER" "CP4-6 prophage; integrase core domain-containing protein YagA" ["YagA", "CP4-6 prophage; putative DNA-binding transcriptional regulator"] "MESLMPWDARDTMSLRTEFVLFASQDGANIRSLCRRFGISPATGYKWLQRWAQEGAAGLQDRPRIPHHSPNRSSDDITALLRMAHDRHERWGARKIKRWLEDQGHTMPAFSTVHNLMARHGLLPGASPGIPATGRFEHDAPNRLWQMDFKGHFPFGGGRCHPLTLLDDHSRFSLCLAHCTDERRETVQQQLVSVFERYGLPDRMTMDNGSPWGDTTGTWTALELWLMRLGIRVGHSRPYHPQTQGKLERFHRSLKAEVLQGKWFADSGELQRAFDHWRTVYNLERPHEALDMAVPGSRYQPSARQYSGNTTPPEYDEGVMVRKVDISGKLSVKGVSLSAGKAFRGERVGLKEMQEDGSYEVWWYSTKVGVIDLKKKSITMGKGC" ["CCO-CYTOSOL"] [] +"EG12339-MONOMER" "CP4-6 prophage; orphan antitoxin YagB" ["CP4-6 prophage; putative cytoskeleton-binding protein YagB", "YagB"] "MNKDSTQTWGLKRDITPCFGARLVQEGHRLHFLADRAGFTGSFSEVQTLQLDEAFPHFVAHLELMLLSCELNPRYAHCVTLYRNGLTGEADTLGSHGYVYIAILNRHGFNRHLRVI" [] ["CCO-CYTOSOL"] +"EG12341-MONOMER" "anti-sigma-E factor RseA" ["YfiJ", "MclA", "RseA"] "MQKEQLSALMDGETLDSELLNELAHNPEMQKTWESYHLIRDSMRGDTPEVLHFDISSRVMAAIEEEPVRQPATLIPEAQPAPHQWQKMPFWQKVRPWAAQLTQMGVAACVSLAVIVGVQHYNGQSETSQQPETPVFNTLPMMGKASPVSLGVPSEATANNGQQQQVQEQRRRINAMLQDYELQRRLHSEQLQFEQAQTQQAAVQVPGIQTLGTQSQ" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG12342-MONOMER" "toxin YjjJ" ["YjjJ", "putative DNA-binding transcriptional regulator", "putative kinase YjjJ"] "MSELTDLLLQGPRSAPELRQRLAISQATFSRLVAREDRVIRFGKARATRYALLRPYRGIERIPVWRVDDTGKAHKFADIRLCWPQGSCLVTGADGDEQWFDGLPWYLTDLRPQGFLGRAWGRKLAAQLNLTDDIRLWQEEDVLYALTVFNGEYTGGWLVGEGNYQRWITAQHPAEIPLDQKLTHYEQLASDALAGEIVGSSAGGEQPKFTYYAQTPSGNKHVLVKFTVPQQTAVSQRWGDLLIAESIAAQILRDGGIHAIESTVLVTSNRQVFLEAERFDCKGNDGRLPIVSLEAVQSEFISSPGSWPQAMRRLCEQQLVTHQSVAQTEVIWAFGRLIANSDMHAGNLSFYLSEPPFALTPVYDMLPMVYAPNSAGMLRDAAIEVKFDLNVSKSAWLTAIPLAQQFWQTVARDPRISEAFRHIAQEMPEKIRQIEEKVARMGG" [] ["CCO-CYTOSOL"] +"EG12344-MONOMER" "DNA-binding transcriptional dual regulator PspF" ["YcjB", "PspF"] "MAEYKDNLLGEANSFLEVLEQVSHLAPLDKPVLIIGERGTGKELIASRLHYLSSRWQGPFISLNCAALNENLLDSELFGHEAGAFTGAQKRHPGRFERADGGTLFLDELATAPMMVQEKLLRVIEYGELERVGGSQPLQVNVRLVCATNADLPAMVNEGTFRADLLDRLAFDVVQLPPLRERESDIMLMAEYFAIQMCREIKLPLFPGFTERARETLLNYRWPGNIRELKNVVERSVYRHGTSDYPLDDIIIDPFKRRPPEDAIAVSETTSLPTLPLDLREFQMQQEKELLQLSLQQGKYNQKRAAELLGLTYHQFRALLKKHQI" [] ["CCO-CYTOSOL"] +"EG12345-MONOMER" "3-hydroxy acid dehydrogenase YdfG" ["YdfG"] "MIVLVTGATAGFGECITRRFIQQGHKVIATGRRQERLQELKDELGDNLYIAQLDVRNRAAIEEMLASLPAEWCNIDILVNNAGLALGMEPAHKASVEDWETMIDTNNKGLVYMTRAVLPGMVERNHGHIINIGSTAGSWPYAGGNVYGATKAFVRQFSLNLRTDLHGTAVRVTDIEPGLVGGTEFSNVRFKGDDGKAEKTYQNTVALTPEDVSEAVWWVSTLPAHVNINTLEMMPVTQSYAGLNVHRQ" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG12347-MONOMER" "cystine ABC transporter ATP binding subunit" ["TcyN", "YecC"] "MSAIEVKNLVKKFHGQTVLHGIDLEVKPGEVVAIIGPSGSGKTTLLRSINLLEQPEAGTITVGDITIDTARSLSQQKSLIRQLRQHVGFVFQNFNLFPHRTVLENIIEGPVIVKGEPKEEATARARELLAKVGLAGKETSYPRRLSGGQQQRVAIARALAMRPEVILFDEPTSALDPELVGEVLNTIRQLAQEKRTMVIVTHEMSFARDVADRAIFMDQGRIVEQGAAKALFADPEQPRTRQFLEKFLLQ" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG12352-MONOMER" "peptidyl-prolyl cis-trans isomerase C" ["PpiC", "Par10", "parvulin", "rotamase C"] "MAKTAAALHILVKEEKLALDLLEQIKNGADFGKLAKKHSICPSGKRGGDLGEFRQGQMVPAFDKVVFSCPVLEPTGPLHTQFGYHIIKVLYRN" [] ["CCO-CYTOSOL"] +"EG12354-MONOMER" "peptidyl-tRNA hydrolase, ribosome rescue factor" ["ArfB", "YaeJ"] "MIVISRHVAIPDGELEITAIRAQGAGGQHVNKTSTAIHLRFDIRASSLPEYYKERLLAASHHLISSDGVIVIKAQEYRSQELNREAALARLVAMIKELTTEKKARRPTRPTRASKERRLASKAQKSSVKAMRGKVRSGRE" [] ["CCO-CYTOSOL"] +"EG12356-MONOMER" "DNA-binding transcriptional activator RtcR" ["YhgB", "RtcR"] "MRKTVAFGFVGTVLDYAGRGSQRWSKWRPTLCLCQQESLVIDRLELLHDARSRSLFETLKRDIASVSPETEVVSVEIELHNPWDFEEVYACLHDFARGYEFQPEKEDYLIHITTGTHVAQICWFLLAEARYLPARLIQSSPPRKKEQPRGPGEVTIIDLDLSRYNAIASRFAEERQQTLDFLKSGIATRNPHFNRMIEQIEKVAIKSRAPILLNGPTGAGKSFLARRILELKQARHQFSGAFVEVNCATLRGDTAMSTLFGHVKGAFTGARESREGLLRSANGGMLFLDEIGELGADEQAMLLKAIEEKTFYPFGSDRQVSSDFQLIAGTVRDLRQLVAEGKFREDLYARINLWTFTLPGLRQRQEDIEPNLDYEVERHASLTGDSVRFNTEARRAWLAFATSPQATWRGNFRELSASVTRMATFATSGRITLDVVEDEINRLRYNWQESRPSALTALLGAEAENIDLFDRMQLEHVIAICRQAKSLSAAGRQLFDVSRQGKASVNDADRLRKYLARFGLTWEAVQDQHSSS" [] ["CCO-CYTOSOL"] +"EG12357-MONOMER" "short chain acyl-CoA synthetase" ["FadK", "YdiD"] "MHPTGPHLGPDVLFRESNMKVTLTFNEQRRAAYRQQGLWGDASLADYWQQTARAMPDKIAVVDNHGASYTYSALDHAASCLANWMLAKGIESGDRIAFQLPGWCEFTVIYLACLKIGAVSVPLLPSWREAELVWVLNKCQAKMFFAPTLFKQTRPVDLILPLQNQLPQLQQIVGVDKLAPATSSLSLSQIIADNTSLTTAITTHGDELAAVLFTSGTEGLPKGVMLTHNNILASERAYCARLNLTWQDVFMMPAPLGHATGFLHGVTAPFLIGARSVLLDIFTPDACLALLEQQRCTCMLGATPFVYDLLNVLEKQPADLSALRFFLCGGTTIPKKVARECQQRGIKLLSVYGSTESSPHAVVNLDDPLSRFMHTDGYAAAGVEIKVVDDARKTLPPGCEGEEASRGPNVFMGYFDEPELTARALDEEGWYYSGDLCRMDEAGYIKITGRKKDIIVRGGENISSREVEDILLQHPKIHDACVVAMSDERLGERSCAYVVLKAPHHSLSLEEVVAFFSRKRVAKYKYPEHIVVIEKLPRTTSGKIQKFLLRKDIMRRLTQDVCEEIE" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE", "CCO-CYTOSOL"] +"EG12359-MONOMER" "putative fimbrial protein YbgD" ["YbgD"] "MFKGQKTLAALAVSLLFTAPVYAADEGSGEIHFKGEVIEAPCEIHPEDIDKNIDLGQVTTTHINREHHSNKVAVDIRLINCDLPASDNGSGMPVSKVGVTFDSTAKTTGATPLLSNTSAGEATGVGVRLMDKNDGNIVLGSAAPDLDLDASSSEQTLNFFAWMEQIDNAVDVTAGEVTANATYVLDYK" [] ["CCO-EXTRACELLULAR", "CCO-PILUS"] +"EG12360-MONOMER" "ferredoxin-like diferric-tyrosyl radical cofactor maintenance protein YfaE" ["YfaE", "2Fe-2S cluster-containing protein involved in diferric-tyrosyl radical cofactor maintenance"] "MARVTLRITGTQLLCQDEHPSLLAALESHNVAVEYQCREGYCGSCRTRLVAGQVDWIAEPLAFIQPGEILPCCCRAKGDIEIEM" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG12363-MONOMER" "putative fimbrial protein YgiL" ["YgiL"] "MSAFKKSLLVAGVAMILSNNVFADEGHGIVKFKGEVISAPCSIKPGDEDLTVNLGEVADTVLKSDQKSLAEPFTIHLQDCMLSQGGTTYSKAKVTFTTANTMTGQSDLLKNTKETEIGGATGVGVRILDSQSGEVTLGTPVVITFNNTNSYQELNFKARMESPSKDATPGNVYAQADYKIAYE" [] ["CCO-PILUS", "CCO-EXTRACELLULAR"] +"EG12364-MONOMER" "KpLE2 phage-like element; putative integrase" ["YjgC", "IntB"] "MHLLVHPNGSKYWRLQYRYEGKQKMLALGVYPEITLADARVRRDEARKLLANGVDPGDKKKNDKVEQSKARTFKEVAIEWHGTNKKWSEDHAHRVLKSLEDNLFAALGERNIAELKTRDLLAPIKAVEMSGRLEVAARLQQRTTAIMRYAVQSGLIDYNPAQEMAGAVASCNRQHRPALELKRIPELLTKIDSYTGRPLTRWAIELTLLIFIRSSELRFARWSEIDFEASIWTIPPEREPIPGVKHSHRGSKMRTTHLVPLSTQALAILKQIKQFYGAHDLIFIGDHDSHKPMSENTVNSALRVMGYDTKVEVCGHGFRTMACSSLVESGLWSRDAVERQMSHMARNSVRAAYIHKAEHLEERRLMLQWWADFLDVNRERFISPFEYAKINNPLKQ" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG12365-MONOMER" "putative phosphoribulokinase" ["YhfF", "PrkB"] "MSAKHPVIAVTGSSGAGTTTTSLAFRKIFAQLNLHAAEVEGDSFHRYTRPEMDMAIRKARDAGRHISYFGPEANDFGLLEQTFIEYGQSGKGKSRKYLHTYDEAVPWNQVPGTFTPWQPLPEPTDVLFYEGLHGGVVTPQHNVAQHVDLLVGVVPIVNLEWIQKLIRDTSERGHSREAVMDSVVRSMEDYINYITPQFSRTHLNFQRVPTVDTSNPFAAKGIPSLDESFVVIHFRNLEGIDFPWLLAMLQGSFISHINTLVVPGGKMGLAMELIMLPLVQRLMEGKKIE" [] ["CCO-CYTOSOL"] +"EG12366-MONOMER" "16S rRNA m3U1498 methyltransferase" ["YggJ", "RsmE"] "MRIPRIYHPEPLTSHSHIALCEDAANHIGRVLRMGPGQALQLFDGSNQVFDAEITSASKKSVEVKVLEGQIDDRESPLHIHLGQVMSRGEKMEFTIQKSIELGVSLITPLFSERCGVKLDSERLNKKLQQWQKIAIAACEQCGRNRVPEIRPAMDLEAWCAEQDEGLKLNLHPRASNSINTLPLPVERVRLLIGPEGGLSADEIAMTARYQFTDILLGPRVLRTETTALTAITALQVRFGDLG" [] ["CCO-CYTOSOL"] +"EG12370-MONOMER" "e14 prophage; putative integrase" ["YcfI", "IntE"] "MAARPRKNNVSVPNLYPLYSRKVNKVYWRYKHPVTGKFHALGTNEAEAIAIATEANTRLAEQRTRQILAISDRIATSKGKAITTSTWLDRYQAIQDDRLKSGDIRLNTYKQKAKPVSLLRERAGMKLISAVDVRDIAQLLDEYIAAGRPRMAQVVRSVLIDVFKEAQHYGEVPPGYNPALATKQPRRKITRQRLSLEEWKKIFDIADATHRYMGNAMLLALVTGQRLGDISRMKFSDIWDDHLHVIQEKTGSKIAIPLSLRLNAINWSLRDVVARCRDYAVSAYLVHFFRSTSQAERGAQVKANTLTMNFSKARDLARIDWGEGSPATFHEQRSLSERLYKEQGLDTQKLLGHKTQQQTDRYHDDRGKGWSKVAL" [] ["CCO-CYTOSOL"] +"EG12371-MONOMER" "lipoprotein NlpI" ["YhbM", "NlpI"] "MKPFLRWCFVATALTLAGCSNTSWRKSEVLAVPLQPTLQQEVILARMEQILASRALTDDERAQLLYERGVLYDSLGLRALARNDFSQALAIRPDMPEVFNYLGIYLTQAGNFDAAYEAFDSVLELDPTYNYAHLNRGIALYYGGRDKLAQDDLLAFYQDDPNDPFRSLWLYLAEQKLDEKQAKEVLKQHFEKSDKEQWGWNIVEFYLGNISEQTLMERLKADATDNTSLAEHLSETNFYLGKYYLSLGDLDSATALFKLAVANNVHNFVEHRYALLELSLLGQDQDDLAESDQQ" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE", "CCO-OUTER-MEM"] +"EG12372-MONOMER" "flap endonuclease" ["YgdG", "ExoIX", "Xni", "Exo"] "MAVHLLIVDALNLIRRIHAVQGSPCVETCQHALDQLIMHSQPTHAVAVFDDENRSSGWRHQRLPDYKAGRPPMPEELHDEMPALRAAFEQRGVPCWSTSGNEADDLAATLAVKVTQAGHQATIVSTDKGYCQLLSPTLRIRDYFQKRWLDAPFIDKEFGVQPQQLPDYWGLAGISSSKVPGVAGIGPKSATQLLVEFQSLEGIYENLDAVAEKWRKKLETHKEMAFLCRDIARLQTDLHIDGNLQQLRLVR" [] ["CCO-CYTOSOL"] +"EG12373-MONOMER" "nucleotide 5'-monophosphate nucleosidase" ["PpnN", "YgdH"] "MITHISPLGSMDMLSQLEVDMLKRTASSDLYQLFRNCSLAVLNSGSLTDNSKELLSRFENFDINVLRRERGVKLELINPPEEAFVDGRIIRALQANLFAVLRDILFVYGQIHNTVRFPNLNLDNSVHITNLVFSILRNARALHVGEAPNMVVCWGGHSINENEYLYARRVGNQLGLRELNICTGCGPGAMEAPMKGAAVGHAQQRYKDSRFIGMTEPSIIAAEPPNPLVNELIIMPDIEKRLEAFVRIAHGIIIFPGGVGTAEELLYLLGILMNPANKDQVLPLILTGPKESADYFRVLDEFVVHTLGENARRHYRIIIDDAAEVARQMKKSMPLVKENRRDTGDAYSFNWSMRIAPDLQMPFEPSHENMANLKLYPDQPVEVLAADLRRAFSGIVAGNVKEVGIRAIEEFGPYKINGDKEIMRRMDDLLQGFVAQHRMKLPGSAYIPCYEICT" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG12374-MONOMER" "DUF2559 domain-containing protein YhfG" ["FicA", "YhfG"] "MKKLTDKQKSRLWELQRNRNFQASRRLEGVEMPLVTLTAAEALARLEELRSHYER" [] ["CCO-CYTOSOL"] +"EG12375-MONOMER" "metallo-β-lactamase superfamily inner membrane protein YcaI" ["YcaI"] "MKITTVGVCIISGIFPLLILPQLPGTLTLAFLTLFACVLAFIPVKTVRYIALTLLFFVWGILSAKQILWAGETLTGATQDAIVEITATDGMTTHYGQITHLQGRRIFPASGLVMYGEYLPQAVCAGQQWSMKLKVRAVHGQLNDGGFDSQRYAIAQHQPLTGRFLQASVIEPNCSLRAQYLASLQTTLQPYPWNAVILGLGMGERLSVPKEIKNIMRDTGTAHLMAISGLHIAFAALLAAGLIRSGQIFLPGRWIHWQIPLIGGICCAAFYAWLTGMQPPALRTMVALATWGMLKLSGRQWSGWDVWICCLAAILLMDPVAILSQSLWLSAAAVAALIFWYQWFPCPEWQLPPVLRAVVSLIHLQLGITLLLMPVQIVIFHGISLTSFIANLLAIPLVTFITVPLILAAMVVHLSGPLILEQGLWFLADRSLALLFWGLKSLPEGWINIAECWQWLSFSPWFLLVVWRLNAWRTLPAMCVAGGLLMCWPLWQKPRPDEWQLYMLDVGQGLAMVIARNGKAILYDTGLAWPEGDSGQQLIIPWLHWHNLEPEGVILSHEHLDHRGGLDSILHIWPMLWIRSPLNWEHHQPCVRGEAWQWQGLRFSAHWPLQGSNDKGNNHSCVVKVDDGTNSILLTGDIEAPAEQKMLSRYWQQVQATLLQVPHHGSNTSSSLPLIQRVNGKVALASASRYNAWRLPSNKVKHRYQLQGYQWIDTPHQGQTTVNFSAQGWRISSLREQILPRWYHQWFGVPVDNG" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG12376-MONOMER" "putative solute:Na+ symporter" ["YfeH"] "MKLFRILDPFTLTLITVVLLASFFPARGDFVPFFENLTTAAIALLFFMHGAKLSREAIIAGGGHWRLHLWVMCSTFVLFPILGVLFAWWKPVNVDPMLYSGFLYLCILPATVQSAIAFTSMAGGNVAAAVCSASASSLLGIFLSPLLVGLVMNVHGAGGSLEQVGKIMLQLLLPFVLGHLSRPWIGDWVSRNKKWIAKTDQTSILLVVYTAFSEAVVNGIWHKVGWGSLLFIVVVSCVLLAIVIVVNVFMARRLSFNKADEITIVFCGSKKSLANGIPMANILFPTSVIGMMVLPLMIFHQIQLMVCAVLARRYKRQTEQLQAQQESSADKA" ["CCO-PM-BAC-NEG"] ["CCO-PM-BAC-NEG"] +"EG12378-MONOMER" "isochorismatase family protein YecD" ["YecD", "putative hydrolase"] "MLELNAKTTALVVIDLQEGILPFAGGPHTADEVVNRAGKLAAKFRASGQPVFLVRVGWSADYAEALKQPVDAPSPAKVLPENWWQHPAALGATDSDIEIIKRQWGAFYGTDLELQLRRRGIDTIVLCGISTNIGVESTARNAWELGFNLVIAEDACSAASAEQHNNSINHIYPRIARVRSVEEILNAL" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG12379-MONOMER" "DUF72 domain-containing protein YecE" ["YecE"] "MIYIGLPQWSHPKWVRLGITSLEEYARHFNCVEGNTTLYALPKPEVVLRWREQTTDDFRFCFKFPATISHQAALRHCDDLVTEFLTRMSPLAPRIGQYWLQLPATFGPRELPALWHFLDSLPGEFNYGVEVRHPQFFAKGEEEQTLNRGLHQRGVNRVILDSRPVHAARPHSEAIRDAQRKKPKVPVHAVLTATNPLIRFIGSDDMTQNRELFQVWLQKLAQWHQTTTPYLFLHTPDIAQAPELVHTLWEDLRKTLPEIGAVPAIPQQSSLF" [] ["CCO-CYTOSOL"] +"EG12384-MONOMER" "putative carbamate kinase" ["ArcC", "YbcF"] "MKTLVVALGGNALLQRGEALTAENQYRNIASAVPALARLARSYRLAIVHGNGPQVGLLALQNLAWKEVEPYPLDVLVAESQGMIGYMLAQSLSAQPQMPPVTTVLTRIEVSPDDPAFLQPEKFIGPVYQPEEQEALEAAYGWQMKRDGKYLRRVVASPQPRKILDSEAIELLLKEGHVVICSGGGGVPVTDDGAGSEAVIDKDLAAALLAEQINADGLVILTDADAVYENWGTPQQRAIRHATPDELAPFAKADGSMGPNVTAVSGYVRSRGKPAWIGALSRIEETLAGEAGTCISL" [] ["CCO-CYTOSOL"] +"EG12385-MONOMER" "RcsD phosphotransferase" ["YojQ", "YojP", "RcsD", "YojN"] "MRQKETTATTRFSLLPGSITRFFLLLIIVLLVTMGVMVQSAVNAWLKDKSYQIVDITHAIQKRVDNWRYVTWQIYDNIAATTSPSSGEGLQETRLKQDVYYLEKPRRKTEALIFGSHDNSTLEMTQRMSTYLDTLWGAENVPWSMYYLNGQDNSLVLISTLPLKDLTSGFKESTVSDIVDSRRAEMLQQANALDERESFSNMRRLAWQNGHYFTLRTTFNQPGHLATVVAFDLPINDLIPPGMPLDSFRLEPDATATGNNDNEKEGTDSVSIHFNSTKIEISSALNSTDMRLVWQVPYGTLLLDTLQNILLPLLLNIGLLALALFGYTTFRHFSSRSTENVPSTAVNNELRILRAINEEIVSLLPLGLLVHDQESNRTVISNKIADHLLPHLNLQNITTMAEQHQGIIQATINNELYEIRMFRSQVAPRTQIFIIRDQDREVLVNKKLKQAQRLYEKNQQGRMIFMKNIGDALKEPAQSLAESAAKLNAPESKQLANQADVLVRLVDEIQLANMLADDSWKSETVLFSVQDLIDEVVPSVLPAIKRKGLQLLINNHLKAHDMRRGDRDALRRILLLLMQYAVTSTQLGKITLEVDQDESSEDRLTFRILDTGEGVSIHEMDNLHFPFINQTQNDRYGKADPLAFWLSDQLARKLGGHLNIKTRDGLGTRYSVHIKMLAADPEVEEEEERLLDDVCVMVDVTSAEIRNIVTRQLENWGATCITPDERLISQDYDIFLTDNPSNLTASGLLLSDDESGVREIGPGQLCVNFNMSNAMQEAVLQLIEVQLAQEEVTESPLGGDENAQLHASGYYALFVDTVPDDVKRLYTEAATSDFAALAQTAHRLKGVFAMLNLVPGKQLCETLEHLIREKDVPGIEKYISDIDSYVKSLL" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG12386-MONOMER" "DNA-binding transcriptional repressor GlaR" ["GlaR", "CsiR", "YgaE", "GabC"] "MTITSLDGYRWLKNDIIRGNFQPDEKLRMSLLTSRYALGVGPLREALSQLVAERLVTVVNQKGYRVASMSEQELLDIFDARANMEAMLVSLAIARGGDEWEADVLAKAHLLSKLEACDASEKMLDEWDLRHQAFHTAIVAGCGSHYLLQMRERLFDLAARYRFIWLRRTVLSVEMLEDKHDQHQTLTAAVLARDTARASELMRQHLLTPIPIIQQAMAGN" [] ["CCO-CYTOSOL"] +"EG12387-MONOMER" "L-2-hydroxyglutarate dehydrogenase" ["LhgD", "YgaF", "LhgO"] "MYDFVIIGGGIIGMSTAMQLIDVYPDARIALLEKESAPACHQTGHNSGVIHAGVYYTPGSLKAQFCLAGNRATKAFCDQNGIRYDNCGKMLVATSDLEMERMRALWERTAANGIEREWLNADELREREPNITGLGGIFVPSSGIVSYRDVTAAMAKIFQSRGGEIIYNAEVSGLNEHKNGVVIRTRQGGEYEASTLISCSGLMADRLVKMLGLEPGFIICPFRGEYFRLAPEHNQIVNHLIYPIPDPAMPFLGVHLTRMIDGSVTVGPNAVLAFKREGYRKRDFSFSDTLEILGSSGIRRVLQNHLRSGLGEMKNSLCKSGYLRLVQKYCPRLSLSDLQPWPAGVRAQAVSPDGKLIDDFLFVTTPRTIHTCNAPSPAATSAIPIGAHIVSKVQTLLASQSNPGRTLRAARSVDALHAAFNQ" ["CCO-CYTOSOL", "CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-CYTOSOL", "CCO-PM-BAC-NEG"] +"EG12388-MONOMER" "putative fimbrial protein SfmF" ["YbcG", "SfmF"] "MRRVLFSCFCGLLWSSSGWAVDPLGTININLHGNVVDFSCTVNTADIDKTVDLGRWPTTQLLNAGDTTALVPFSLRLEGCPPGSVAILFTGTPASDTNLLALDDPAMAQTVAIELRNSDRSRLALGEASPTEEVDANGNVTLNFFANYRALASGVRPGVAKADAIFMINYN" [] ["CCO-EXTRACELLULAR", "CCO-PILUS"] +"EG12391-MONOMER" "PF10636 family protein YdiE" ["YdiE"] "MRYTDSRKLTPETDANHKTASPQPIRRISSQTLLGPDGKLIIDHDGQEYLLRKTQAGKLLLTK" [] ["CCO-CYTOSOL"] +"EG12394-MONOMER" "methionine sulfoxide reductase B" ["YeaA", "MsrB"] "MANKPSAEELKKNLSEMQFYVTQNHGTEPPFTGRLLHNKRDGVYHCLICDAPLFHSQTKYDSGCGWPSFYEPVSEESIRYIKDLSHGMQRIEIRCGNCDAHLGHVFPDGPQPTGERYCVNSASLRFTDGENGEEING" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG12395-MONOMER" "PF09600 family protein YbgE" ["YbgE"] "MSKIIATLYAVMDKRPLRALSFVMALLLAGCMFWDPSRFAAKTSELEIWHGLLLMWAVCAGVIHGVGFRPQKVLWQGIFCPLLADIVLIVGLIFFFF" [] ["CCO-PM-BAC-NEG"] +"EG12396-MONOMER" "putative diguanylate cyclase DgcE" ["DgcE", "YegE"] "MSKQSQHVLIALPHPLLHLVSLGLVSFIFTLFSLELSQFGTQLAPLWFPTSIMMVAFYRHAGRMWPGIALSCSLGNIAASILLFSTSSLNMTWTTINIVEAVVGAVLLRKLLPWYNPLQNLADWLRLALGSAIVPPLLGGVLVVLLTPGDDPLRAFLIWVLSESIGALALVPLGLLFKPHYLLRHRNPRLLFESLLTLAITLTLSWLSMLYLPWPFTFIIVLLMWSAVRLPRMEAFLIFLTTVMMVSLMMAADPSLLATPRTYLMSHMPWLPFLLILLPANIMTMVMYAFRAERKHISESETHFRNAMEYSAIGMALVGTEGQWLQTNKALCQFLGYSQEELRGLTFQQLTWPEDLNKDLQQVEKLISGEINTYSMEKRYYNRNGDVVWALLAVSLVRHTDGTPLYFIAQIEDINELKRTEQVNQQLMERITLANEAGGIGIWEWELKPNIFSWDKRMFELYEIPPHIKPNWQVWYECVLPEDRQHAEKVIRDSLQSRSPFKLEFRITVKDGIRHIRALANRVLNKEGEVERLLGINMDMTEVKQLNEALFQEKERLHITLDSIGEAVVCIDMAMKITFMNPVAEKMSGWTQEEALGVPLLTVLHITFGDNGPLMENIYSADTSRSAIEQDVVLHCRSGGSYDVHYSITPLSTLDGSNIGSVLVIQDVTESRKMLRQLSYSASHDALTHLANRASFEKQLRILLQTVNSTHQRHALVFIDLDRFKAVNDSAGHAAGDALLRELASLMLSMLRSSDVLARLGGDEFGLLLPDCNVESARFIATRIISAVNDYHFIWEGRVHRVGASAGITLIDDNNHQAAEVMSQADIACYASKNGGRGRVTVYEPQQAAAHSERAAMSLDEQWRMIKENQLMMLAHGVASPRIPEARNLWLISLKLWSCEGEIIDEQTFRRSFSDPALSHALDRRVFHEFFQQAAKAVASKGISISLPLSVAGLSSATLVNDLLEQLENSPLPPRLLHLIIPAEAILDHAESVQKLRLAGCRIVLSQVGRDLQIFNSLKANMADYLLLDGELCANVQGNLMDEMLITIIQGHAQRLGMKTIAGPVVLPLVMDTLSGIGVDLIYGEVIADAQPLDLLVNSSYFAIN" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG12397-MONOMER" "putative fimbrial chaperone YcbF" ["YcbF"] "MTNTWNRLALLIFAVLSLLVAGELQAGVVVGGTRFIFPADRESISILLTNTSQESWLINSKINRPTRWAGGEASTVPAPLLAAPPLILLKPGTTGTLRLLRTESDILPVDRETLFELSIASVPSGKVENQSVKVAMRSVFKLFWRPEGLPGDPLEAYQQLRWTRNSQGVQLTNPTPYYINLIQVSVNGKALSNVGVVPPKSQRQTSWCQAIAPCHVAWRAINDYGGLSAKKEQNLP" [] ["CCO-PERI-BAC"] +"EG12399-MONOMER" "dihydroxyacetone kinase subunit M" ["DhaM", "DhaH", "YcgC", "PtsD"] "MVNLVIVSHSSRLGEGVGELARQMLMSDSCKIAIAAGIDDPQNPIGTDAVKVMEAIESVADADHVLVMMDMGSALLSAETALELLAPEIAAKVRLCAAPLVEGTLAATVSAASGADIDKVIFDAMHALEAKREQLGLPSSDTEISDTCPAYDEEARSLAVVIKNRNGLHVRPASRLVYTLSTFNADMLLEKNGKCVTPESINQIALLQVRYNDTLRLIAKGPEAEEALIAFRQLAEDNFGETEEVAPPTLRPVPPVSGKAFYYQPVLCTVQAKSTLTVEEEQDRLRQAIDFTLLDLMTLTAKAEASGLDDIAAIFSGHHTLLDDPELLAAASELLQHEHCTAEYAWQQVLKELSQQYQQLDDEYLQARYIDVDDLLHRTLVHLTQTKEELPQFNSPTILLAENIYPSTVLQLDPAVVKGICLSAGSPVSHSALIARELGIGWICQQGEKLYAIQPEETLTLDVKTQRFNRQG" ["CCO-CYTOSOL"] ["CCO-MEMBRANE", "CCO-CYTOSOL"] +"EG12401-MONOMER" "23S rRNA m2A2503 methyltransferase/tRNA m2A37 methyltransferase" ["YfgB", "RlmN", "ribosomal RNA large subunit methyltransferase N"] "MSEQLVTPENVTTKDGKINLLDLNRQQMREFFKDLGEKPFRADQVMKWMYHYCCDNFDEMTDINKVLRGKLKEVAEIRAPEVVEEQRSSDGTIKWAIAVGDQRVETVYIPEDDRATLCVSSQVGCALECKFCSTAQQGFNRNLRVSEIIGQVWRAAKIVGAAKVTGQRPITNVVMMGMGEPLLNLNNVVPAMEIMLDDFGFGLSKRRVTLSTSGVVPALDKLGDMIDVALAISLHAPNDEIRDEIVPINKKYNIETFLAAVRRYLEKSNANQGRVTIEYVMLDHVNDGTEHAHQLAELLKDTPCKINLIPWNPFPGAPYGRSSNSRIDRFSKVLMSYGFTTIVRKTRGDDIDAACGQLAGDVIDRTKRTLRKRMQGEAIDIKAV" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG12402-MONOMER" "putative cation transport regulator ChaB" ["ChaB"] "MPYKTKSDLPESVKHVLPSHAQDIYKEAFNSAWDQYKDKEDRRDDASREETAHKVAWAAVKHEYAKGDDDKWHKKS" [] ["CCO-CYTOSOL"] +"EG12403-MONOMER" "glutathione-specific γ-glutamylcyclotransferase" ["ChaC"] "MITRDFLMNADCKTAFGAIEESLLWSAEQRAASLAATLACRPDEGPVWIFGYGSLMWNPALEFTESCTGTLVGWHRAFCLRLTAGRGTAHQPGRMLALKEGGRTTGVAYRLPEETLEQELTLLWKREMITGCYLPTWCQLDLDDGRTVNAIVFIMDPRHPEYESDTRAQVIAPLIAAASGPLGTNAQYLFSLEQELIKLGMQDDGLNDLLVSVKKLLAENFPDGVLRPGFA" [] ["CCO-CYTOSOL"] +"EG12404-MONOMER" "DsrE/F sulfur relay family protein YchN" ["YchN"] "MQKIVIVANGAPYGSESLFNSLRLAIALREQESNLDLRLFLMSDAVTAGLRGQKPGEGYNIQQMLEILTAQNVPVKLCKTCTDGRGISTLPLIDGVEIGTLVELAQWTLSADKVLTF" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG12405-MONOMER" "putative invasin YchO" ["YchO", "YchP"] "MSRFVPRIIPFYLLLLVAGGTANAQSTFEQKAANPFDNNNDGLPDLGMAPENHDGEKHFAEIVKDFGETSMNDNGLDTGEQAKAFALGKVRDALSQQVNQHVESWLSPWGNASVDVKVDNEGHFTGSRGSWFVPLQDNDRYLTWSQLGLTQQDNGLVSNVGVGQRWARGNWLVGYNTFYDNLLDENLQRAGFGAEAWGEYLRLSANFYQPFAAWHEQTATQEQRMARGYDLTARMRMPFYQHLNTSVSLEQYFGDRVDLFNSGTGYHNPVALSLGLNYTPVPLVTVTAQHKQGESGENQNNLGLNLNYRFGVPLKKQLSAGEVAESQSLRGSRYDNPQRNNLPTLEYRQRKTLTVFLATPPWDLKPGETVPLKLQIRSRYGIRQLIWQGDTQILSLTPGAQANSAEGWTLIMPDWQNGEGASNHWRLSVVVEDNQGQRVSSNEITLTLVEPFDALSNDELRWEP" [] ["CCO-PERI-BAC", "CCO-OUTER-MEM"] +"EG12406-MONOMER" "DNA-binding transcriptional dual regulator CecR" ["CecR", "YbiH"] "MNNPAMTIKGEQAKKQLIAAALAQFGEYGMNATTREIAAQAGQNIAAITYYFGSKEDLYLACAQWIADFIGEQFRPHAEEAERLFAQPQPDRAAIRELILRACRNMIKLLTQDDTVNLSKFISREQLSPTAAYHLVHEQVISPLHSHLTRLIAAWTGCDANDTRMILHTHALIGEILAFRLGKETILLRTGWTAFDEEKTELINQTVTCHIDLILQGLSQRSL" [] ["CCO-CYTOSOL"] +"EG12407-MONOMER" "isoaspartyl dipeptidase proenzyme" ["Spt", "YbiK", "IaaA"] "MGKAVIAIHGGAGAISRAQMSLQQELRYIEALSAIVETGQKMLEAGESALDVVTEAVRLLEECPLFNAGIGAVFTRDETHELDACVMDGNTLKAGAVAGVSHLRNPVLAARLVMEQSPHVMMIGEGAENFAFARGMERVSPEIFSTSLRYEQLLAARKEGATVLDHSGAPLDEKQKMGTVGAVALDLDGNLAAATSTGGMTNKLPGRVGDSPLVGAGCYANNASVAVSCTGTGEVFIRALAAYDIAALMDYGGLSLAEACERVVMEKLPALGGSGGLIAIDHEGNVALPFNTEGMYRAWGYAGDTPTTGIYREKGDTVATQ" [] ["CCO-CYTOSOL", "CCO-PERI-BAC"] +"EG12409-MONOMER" "putative oxidoreductase AegA" ["AegA", "YffG", "putative oxidoreductase Fe-S subunit AegA"] "MNRFIMANSQQCLGCHACEIACVMAHNDEQHVLSQHHFHPRITVIKHQQQRSAVTCHHCEDAPCARSCPNGAISHVDDSIQVNQQKCIGCKSCVVACPFGTMQIVLTPVAAGKVKATAHKCDLCAGRENGPACVENCPADALQLVTDVALSGMAKSRRLRTARQEHQPWHASTAAQEMPVMSKVEQMQATPARGEPDKLAIEARKTGFDEIYLPFRADQAQREASRCLKCGEHSVCEWTCPLHNHIPQWIELVKAGNIDAAVELSHQTNTLPEITGRVCPQDRLCEGACTIRDEHGAVTIGNIERYISDQALAKGWRPDLSHVTKVDKRVAIIGAGPAGLACADVLTRNGVGVTVYDRHPEIGGLLTFGIPSFKLDKSLLARRREIFSAMGIHFELNCEVGKDVSLDSLLEQYDAVFVGVGTYRSMKAGLPNEDAPGVYDALPFLIANTKQVMGLEELPEEPFINTAGLNVVVLGGGDTAMDCVRTALRHGASNVTCAYRRDEANMPGSKKEVKNAREEGANFEFNVQPVALELNEQGHVCGIRFLRTRLGEPDAQGRRRPVPVEGSEFVMPADAVIMAFGFNPHGMPWLESHGVTVDKWGRIIADVESQYRYQTTNPKIFAGGDAVRGADLVVTAMAEGRHAAQGIIDWLGVKSVKSH" [] ["CCO-CYTOSOL"] +"EG12410-MONOMER" "GDP-mannose hydrolase" ["YffH", "NudK", "GDPMK"] "MTQQITLIKDKILSDNYFTLHNITYDLTRKDGEVIRHKREVYDRGNGATILLYNTKKKTVVLIRQFRVATWVNGNESGQLIESCAGLLDNDEPEVCIRKEAIEETGYEVGEVRKLFELYMSPGGVTELIHFFIAEYSDNQRANAGGGVEDEDIEVLELPFSQALEMIKTGEIRDGKTVLLLNYLQTSHLMD" [] ["CCO-CYTOSOL"] +"EG12421-MONOMER" "zinc finger domain-containing protein YbiI" ["YbiI"] "MASGWANDDAVNEQINSTIEDAIARARGEIPRGESLDECEECGAPIPQARREAIPGVRLCIHCQQEKDLQKPAYTGYNRRGSKDSQLR" [] ["CCO-CYTOSOL"] +"EG12422-MONOMER" "DUF1471 domain-containing protein YbiJ" ["YbiJ"] "MKTINTVVAAMALSTLSFGVFAAEPVTASQAQNMNKIGVVSADGASTLDALEAKLAEKAAAAGASGYSITSATNNNKLSGTAVIYK" [] ["CCO-PERI-BAC"] +"EG12424-MONOMER" null ["PrmC", "HemK"] "MEYQHWLREAISQLQASESPRRDAEILLEHVTGRGRTFILAFGETQLTDEQCQQLDALLTRRRDGEPIAHLTGVREFWSLPLFVSPATLIPRPDTECLVEQALARLPEQPCRILDLGTGTGAIALALASERPDCEIIAVDRMPDAVSLAQRNAQHLAIKNIHILQSDWFSALAGQQFAMIVSNPPYIDEQDPHLQQGDVRFEPLTALVAADSGMADIVHIIEQSRNALVSGGFLLLEHGWQQGEAVRQAFILAGYHDVETCRDYGDNERVTLGRYYQ" [] ["CCO-CYTOSOL"] +"EG12428-MONOMER" "rho operon leader peptide" ["RhoL"] "MRSEQISGSSLNPSCRFSSAYSPVTRQRKDMSR" [] [] +"EG12429-MONOMER" "Hha toxicity modulator TomB" ["YbaJ", "TomB"] "MDEYSPKRHDIAQLKFLCETLYHDCLANLEESNHGWVNDPTSAINLQLNELIEHIATFALNYKIKYNEDNKLIEQIDEYLDDTFMLFSSYGINMQDLQKWRKSGNRLFRCFVNATKENPASLSC" [] ["CCO-CYTOSOL"] +"EG12431-MONOMER" "DNA-binding transcriptional repressor PuuR" ["YcjC", "PuuR"] "MSDEGLAPGKRLSEIRQQQGLSQRRAAELSGLTHSAISTIEQDKVSPAISTLQKLLKVYGLSLSEFFSEPEKPDEPQVVINQDDLIEMGSQGVSMKLVHNGNPNRTLAMIFETYQPGTTTGERIKHQGEEIGTVLEGEIVLTINGQDYHLVAGQSYAINTGIPHSFSNTSAGICRIISAHTPTTF" [] ["CCO-CYTOSOL"] +"EG12432-MONOMER" "putative acetate-CoA transferase YdiF" ["YdiF", "fused predicted acetyl-CoA:acetoacetyl-CoA transferase: α subunit/β subunit"] "MKPVKPPRINGRVPVLSAQEAVNYIPDEATLCVLGAGGGILEATTLITALADKYKQTQTPRNLSIISPTGLGDRADRGISPLAQEGLVKWALCGHWGQSPRISELAEQNKIIAYNYPQGVLTQTLRAAAAHQPGIISDIGIGTFVDPRQQGGKLNEVTKEDLIKLVEFDNKEYLYYKAIAPDIAFIRATTCDSEGYATFEDEVMYLDALVIAQAVHNNGGIVMMQVQKMVKKATLHPKSVRIPGYLVDIVVVDPDQTQLYGGAPVNRFISGDFTLDDSTKLSLPLNQRKLVARRALFEMRKGAVGNVGVGIADGIGLVAREEGCADDFILTVETGPIGGITSQGIAFGANVNTRAILDMTSQFDFYHGGGLDVCYLSFAEVDQHGNVGVHKFNGKIMGTGGFIDISATSKKIIFCGTLTAGSLKTEITDGKLNIVQEGRVKKFIRELPEITFSGKIALERGLDVRYITERAVFTLKEDGLHLIEIAPGVDLQKDILDKMDFTPVISPELKLMDERLFIDAAMGFVLPEAAH" [] ["CCO-CYTOSOL"] +"EG12433-MONOMER" "23S rRNA pseudouridine2605 synthase" ["RluB", "YciL", "ribosomal large subunit pseudouridine synthase B"] "MSEKLQKVLARAGHGSRREIESIIEAGRVSVDGKIAKLGDRVEVTPGLKIRIDGHLISVRESAEQICRVLAYYKPEGELCTRNDPEGRPTVFDRLPKLRGARWIAVGRLDVNTCGLLLFTTDGELANRLMHPSREVEREYAVRVFGQVDDAKLRDLSRGVQLEDGPAAFKTIKFSGGEGINQWYNVTLTEGRNREVRRLWEAVGVQVSRLIRVRYGDIPLPKGLPRGGWTELDLAQTNYLRELVELPPETSSKVAVEKDRRRMKANQIRRAVKRHSQVSGGRRSGGRNNNG" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG12434-MONOMER" "putative signal transduction protein (SH3 domain)" ["HtrG", "EcfG", "YgiM"] "MPKLRLIGLTLLALSATAVSHAEETRYVSDELNTWVRSGPGDHYRLVGTVNAGEEVTLLQTDANTNYAQVKDSSGRTAWIPLKQLSTEPSLRSRVPDLENQVKTLTDKLTNIDNTWNQRTAEMQQKVAQSDSVINGLKEENQKLKNELIVAQKKVDAASVQLDDKQRTIIMQWFMYGGGVLGLGLLLGLVLPHLIPSRKRKDRWMN" ["CCO-CYTOSOL", "CCO-PM-BAC-NEG"] ["CCO-MEMBRANE"] +"EG12436-MONOMER" "intramembrane zinc metalloprotease RseP" ["EcfE", "YaeL", "RseP", "signal peptide peptidase"] "MLSFLWDLASFIVALGVLITVHEFGHFWVARRCGVRVERFSIGFGKALWRRTDKLGTEYVIALIPLGGYVKMLDERAEPVVPELRHHAFNNKSVGQRAAIIAAGPVANFIFAIFAYWLVFIIGVPGVRPVVGEIAANSIAAEAQIAPGTELKAVDGIETPDWDAVRLQLVDKIGDESTTITVAPFGSDQRRDVKLDLRHWAFEPDKEDPVSSLGIRPRGPQIEPVLENVQPNSAASKAGLQAGDRIVKVDGQPLTQWVTFVMLVRDNPGKSLALEIERQGSPLSLTLIPESKPGNGKAIGFVGIEPKVIPLPDEYKVVRQYGPFNAIVEATDKTWQLMKLTVSMLGKLITGDVKLNNLSGPISIAKGAGMTAELGVVYYLPFLALISVNLGIINLFPLPVLDGGHLLFLAIEKIKGGPVSERVQDFCYRIGSILLVLLMGLALFNDFSRL" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG12438-MONOMER" "2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate synthase" ["YfbB", "MenH"] "MILHAQAKHGKPGLPWLVFLHGFSGDCHEWQEVGEAFADYSRLYVDLPGHGGSAAISVDGFDDVTDLLRKTLVSYNILDFWLVGYSLGGRVAMMAACQGLAGLCGVIVEGGHPGLQNAEQRAERQRSDRQWVQRFLTEPLTAVFADWYQQPVFASLNDDQRRELVALRSNNNGATLAAMLEATSLAVQPDLRANLSARTFAFYYLCGERDSKFRALAAELAADCHVIPRAGHNAHRENPAGVIASLAQILRF" ["CCO-CYTOSOL"] [] +"EG12440-MONOMER" "UDP-N-acetylmuramate—L-alanyl-γ-D-glutamyl-meso-2,6-diaminoheptanedioate ligase" ["Tpl", "YjfG", "Mpl"] "MRIHILGICGTFMGGLAMLARQLGHEVTGSDANVYPPMSTLLEKQGIELIQGYDASQLEPQPDLVIIGNAMTRGNPCVEAVLEKNIPYMSGPQWLHDFVLRDRWVLAVAGTHGKTTTAGMATWILEQCGYKPGFVIGGVPGNFEVSAHLGESDFFVIEADEYDCAFFDKRSKFVHYCPRTLILNNLEFDHADIFDDLKAIQKQFHHLVRIVPGQGRIIWPENDINLKQTMAMGCWSEQELVGEQGHWQAKKLTTDASEWEVLLDGEKVGEVKWSLVGEHNMHNGLMAIAAARHVGVAPADAANALGSFINARRRLELRGEANGVTVYDDFAHHPTAILATLAALRGKVGGTARIIAVLEPRSNTMKMGICKDDLAPSLGRADEVFLLQPAHIPWQVAEVAEACVQPAHWSGDVDTLADMVVKTAQPGDHILVMSNGGFGGIHQKLLDGLAKKAEAAQ" ["CCO-CYTOSOL"] ["CCO-EXTRACELLULAR", "CCO-CYTOSOL"] +"EG12443-MONOMER" "putative ribosome assembly factor YggL" ["YggL", "DUF469 domain-containing protein YggL"] "MAKNRSRRLRKKMHIDEFQELGFSVAWRFPEGTSEEQIDKTVDDFINEVIEPNKLAFDGSGYLAWEGLICMQEIGKCTEEHQAIVRKWLEERKLDEVRTSELFDVWWD" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG12444-MONOMER" "PF05433 family protein YcfJ" ["YcfJ"] "MNKSMLAGIGIGVAAALGVAAVASLNVFERGPQYAQVVSATPIKETVKTPRQECRNVTVTHRRPVQDENRITGSVLGAVAGGVIGHQFGGGRGKDVATVVGALGGGYAGNQIQGSLQESDTYTTTQQRCKTVYDKSEKMLGYDVTYKIGDQQGKIRMDRDPGTQIPLDSNGQLILNNKV" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG12445-MONOMER" "cysteine/O-acetylserine exporter EamB" ["EamB", "YfiK"] "MTPTLLSAFWTYTLITAMTPGPNNILALSSATSHGFRQSTRVLAGMSLGFLIVMLLCAGISFSLAVIDPAAVHLLSWAGAAYIVWLAWKIATSPTKEDGLQAKPISFWASFALQFVNVKIILYGVTALSTFVLPQTQALSWVVGVSVLLAMIGTFGNVCWALAGHLFQRLFRQYGRQLNIVLALLLVYCAVRIFY" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG12446-MONOMER" "DUF2799 domain-containing lipoprotein YfiL" ["YfiL"] "MMKKFIAPLLALLVSGCQIDPYTHAPTLTSTDWYDVGMEDAISGSAIKDDDAFSDSQADRGLYLKGYAEGQKKTCQTDFTYARGLSGKSFPASCNNVENASQLHEVWQKGADENASTIRLN" [] ["CCO-CYTOSOL"] +"EG12448-MONOMER" "DUF4434 domain-containing protein YbcH" ["YbcH"] "MRKFIFVLLTLLLVSPFSFAMKGIIWQPQNRDSQVTDTQWQGLMSQLRLQGFDTLVLQWTRYGDAFTQPEQRTLLFKRAAAAQQAGLKLIVGLNADPEFFMHQKQSSAALESYLNRLLAADLQQARLWSAAPGITPDGWYISAEIDDLNWRSEAARQPLLTWLNNAQRLISDVSAKPVYISSFFAGNMSPDGYRQLLEHVKATGVNVWVQDGSGVDKLTAEQRERYLQASADCQSPAPASGVVYELFVAGKGKTFTAKPKPDAEIASLLAKRSSCGKDTLYFSLRYLPVAHGILEY" [] ["CCO-PM-BAC-NEG", "CCO-PERI-BAC"] +"EG12449-MONOMER" "50S ribosomal subunit protein L3 N5-glutamine methyltransferase" ["PrmB", "YfcB", "ribosomal large subunit L3 protein glutamine methyltransferase", "protein-glutamine N-methyltransferase"] "MDKIFVDEAVNELQTIQDMLRWSVSRFSAANIWYGHGTDNPWDEAVQLVLPSLYLPLDIPEDMRTARLTSSEKHRIVERVIRRVNERIPVAYLTNKAWFCGHEFYVDERVLVPRSPIGELINNKFAGLISKQPQHILDMCTGSGCIAIACAYAFPDAEVDAVDISPDALAVAEQNIEEHGLIHNVIPIRSDLFRDLPKVQYDLIVTNPPYVDAEDMSDLPNEYRHEPELGLASGTDGLKLTRRILGNAADYLADDGVLICEVGNSMVHLMEQYPDVPFTWLEFDNGGDGVFMLTKEQLIAAREHFAIYKD" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG12450-MONOMER" null ["YgaL", "NorW", "YgbD"] "MSNGIVIIGSGFAARQLVKNIRKQDATIPLTLIAADSMDEYNKPDLSHVISQGQRADDLTRQTAGEFAEQFNLHLFPQTWVTDIDAEARVVKSQNNQWQYDKLVLATGASAFVPPVPGRELMLTLNSQQEYRACETQLRDARRVLIVGGGLIGSELAMDFCRAGKAVTLIDNAASILASLMPPEVSSRLQHRLTEMGVHLLLKSQLQGLEKTDSGIQATLDRQRNIEVDAVIAATGLRPETALARRAGLTINRGVCVDSYLQTSNTDIYALGDCAEINGQVLPFLQPIQLSAMVLAKNLLGNNTPLKLPAMLVKIKTPELPLHLAGETQRQDLRWQINTERQGMVARGVDDADQLRAFVVSEDRMKEAFGLLKTLPM" [] ["CCO-CYTOSOL"] +"EG12454-MONOMER" "Cys-tRNAPro and Cys-tRNACys deacylase" ["YbaK"] "MTPAVKLLEKNKISFQIHTYEHDPAETNFGDEVVKKLGLNPDQVYKTLLVAVNGDMKHLAVAVTPVAGQLDLKKVAKALGAKKVEMADPMVAQRSTGYLVGGISPLGQKKRLPTIIDAPAQEFATIYVSGGKRGLDIELAAGDLAKILDAKFADIARRD" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG12455-MONOMER" "lysophospholipid transporter" ["YgeD", "LplT"] "MSESVHTNTSLWSKGMKAVIVAQFLSAFGDNALLFATLALLKAQFYPEWSQPILQMVFVGAYILFAPFVGQVADSFAKGRVMMFANGLKLLGAASICFGINPFLGYTLVGVGAAAYSPAKYGILGELTTGSKLVKANGLMEASTIAAILLGSVAGGVLADWHVLVALAACALAYGGAVVANIYIPKLAAARPGQSWNLINMTRSFLNACTSLWRNGETRFSLVGTSLFWGAGVTLRFLLVLWVPVALGITDNATPTYLNAMVAIGIVVGAGAAAKLVTLETVSRCMPAGILIGVVVLIFSLQHELLPAYALLMLIGVMGGFFVVPLNALLQERGKKSVGAGNAIAVQNLGENSAMLLMLGIYSLAVMIGIPVVPIGIGFGALFALAITALWIWQRRH" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG12600-MONOMER" "ITPase/XTPase" ["YjjX"] "MHQVVCATTNPAKIQAILQAFHEIFGEGSCHIASVAVESGVPEQPFGSEETRAGARNRVANARRLLPEADFWVAIEAGIDGDSTFSWVVIENASQRGEARSATLPLPAVILEKVREGEALGPVMSRYTGIDEIGRKEGAIGVFTAGKLTRASVYHQAVILALSPFHNAVY" [] ["CCO-CYTOSOL"] +"EG12605-MONOMER" "PF06062 family protein YacL" ["YacL", "UPF0231 family protein YacL"] "MDYEFLRDITGVVKVRMSMGHEVVGHWFNEEVKENLALLDEVEQAAHALKGSERSWQRAGHEYTLWMDGEEVMVRANQLEFAGDEMEEGMNYYDEESLSLCGVEDFLQVVAAYRNFVQQK" [] ["CCO-CYTOSOL"] +"EG12609-MONOMER" "23S rRNA pseudouridine746 and tRNA pseudouridine32 synthase" ["YabO", "RluA", "ribosomal large subunit pseudouridine synthase A", "23S rRNA and tRNA pseudouridine synthase"] "MGMENYNPPQEPWLVILYQDDHIMVVNKPSGLLSVPGRLEEHKDSVMTRIQRDYPQAESVHRLDMATSGVIVVALTKAAERELKRQFREREPKKQYVARVWGHPSPAEGLVDLPLICDWPNRPKQKVCYETGKPAQTEYEVVEYAADNTARVVLKPITGRSHQLRVHMLALGHPILGDRFYASPEARAMAPRLLLHAEMLTITHPAYGNSMTFKAPADF" [] ["CCO-CYTOSOL"] +"EG12610-MONOMER" "putative uncharacterized protein YabP" ["YabP"] "MKVSVPGMPVTLLNMSKNDIYKMVSGDKMDVKMNIFQRLWETLRHLFWSDKQTEAYKLLFNFVNNQTGNINASEYFTGAINENEREKFINSLELFNKLKTCAKNPDELVAKGNMRWVAQTFGDIELSVTFFIEKNKICTQTLQLHKGQGNLGVDLRKAYLPGVDMRDCYLGKKTMKGSNDILYERPGWNANLGVLPRTVLPRTVLTRTVLTWTVLP" [] ["CCO-CYTOSOL"] +"EG12611-MONOMER" "protein YabQ" ["YabQ"] "MNGATSLYDEVIIINKIPPKKIDTKGVATEEVATKKVLLNKLLTTQLLNEPE" [] ["CCO-CYTOSOL"] +"EG12624-MONOMER" "putative DNA-binding transcriptional regulator YiaG" ["YiaG"] "MEYKDPMHELLSSLEQIVFKDETQKITLTHRTTSCTEIEQLRKGTGLKIDDFARVLGVSVAMVKEWESRRVKPSSAELKLMRLIQANPALSKQLME" [] ["CCO-CYTOSOL"] +"EG12633-MONOMER" "ADP-sugar pyrophosphatase" ["AspP", "NudF", "YqiE", "TrgB"] "MLKPDNLPVTFGKNDVEIIARETLYRGFFSLDLYRFRHRLFNGQMSHEVRREIFERGHAAVLLPFDPVRDEVVLIEQIRIAAYDTSETPWLLEMVAGMIEEGESVEDVARREAIEEAGLIVKRTKPVLSFLASPGGTSERSSIMVGEVDATTASGIHGLADENEDIRVHVVSREQAYQWVEEGKIDNAASVIALQWLQLHHQALKNEWA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG12634-MONOMER" "CRISPR-associated endonuclease/helicase Cas3" ["YgcB", "Cas3"] "MEPFKYICHYWGKSSKSLTKGNDIHLLIYHCLDVAAVADCWWDQSVVLQNTFCRNEMLSKQRVKAWLLFFIALHDIGKFDIRFQYKSAESWLKLNPATPSLNGPSTQMCRKFNHGAAGLYWFNQDSLSEQSLGDFFSFFDAAPHPYESWFPWVEAVTGHHGFILHSQDQDKSRWEMPASLASYAAQDKQAREEWISVLEALFLTPAGLSINDIPPDCSSLLAGFCSLADWLGSWTTTNTFLFNEDAPSDINALRTYFQDRQQDASRVLELSGLVSNKRCYEGVHALLDNGYQPRQLQVLVDALPVAPGLTVIEAPTGSGKTETALAYAWKLIDQQIADSVIFALPTQATANAMLTRMEASASHLFSSPNLILAHGNSRFNHLFQSIKSRAITEQGQEEAWVQCCQWLSQSNKKVFLGQIGVCTIDQVLISVLPVKHRFIRGLGIGRSVLIVDEVHAYDTYMNGLLEAVLKAQADVGGSVILLSATLPMKQKQKLLDTYGLHTDPVENNSAYPLINWRGVNGAQRFDLLAHPEQLPPRFSIQPEPICLADMLPDLTMLERMIAAANAGAQVCLICNLVDVAQVCYQRLKELNNTQVDIDLFHARFTLNDRREKENRVISNFGKNGKRNVGRILVATQVVEQSLDVDFDWLITQHCPADLLFQRLGRLHRHHRKYRPAGFEIPVATILLPDGEGYGRHEHIYSNVRVMWRTQQHIEELNGASLFFPDAYRQWLDSIYDDAEMDEPEWVGNGMDKFESAECEKRFKARKVLQWAEEYSLQDNDETILAVTRDGEMSLPLLPYVQTSSGKQLLDGQVYEDLSHEQQYEALALNRVNVPFTWKRSFSEVVDEDGLLWLEGKQNLDGWVWQGNSIVITYTGDEGMTRVIPANPK" [] ["CCO-CYTOSOL"] +"EG12656-MONOMER" "NADPH:quinone oxidoreductase MdaB" ["MdaB", "NADPH quinone reductase"] "MSNILIINGAKKFAHSNGQLNDTLTEVADGTLRDLGHDVRIVRADSDYDVKAEVQNFLWADVVIWQMPGWWMGAPWTVKKYIDDVFTEGHGTLYASDGRTRKDPSKKYGSGGLVQGKKYMLSLTWNAPMEAFTEKDQFFHGVGVDGVYLPFHKANQFLGMEPLPTFIANDVIKMPDVPRYTEEYRKHLVEIFG" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG12657-MONOMER" "putative quinol monooxygenase YgiN" ["YgiN"] "MLTVIAEIRTRPGQHHRQAVLDQFAKIVPTVLKEEGCHGYAPMVDCAAGVSFQSMAPDSIVMIEQWESIAHLEAHLQTPHMKAYSEAVKGDVLEMNIRILQPGI" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG12658-MONOMER" "sensor histidine kinase QseC" ["QseC", "YgiY"] "MKFTQRLSLRVRLTLIFLILASVTWLLSSFVAWKQTTDNVDELFDTQLMLFAKRLSTLDLNEINAADRMAQTPNRLKHGHVDDDALTFAIFTHDGRMVLNDGDNGEDIPYSYQREGFADGQLVGEDDPWRFVWMTSPDGKYRIVVGQEWEYREDMALAIVAGQLIPWLVALPIMLIIMMVLLGRELAPLNKLALALRMRDPDSEKPLNATGVPSEVRPLVESLNQLFARTHAMMVRERRFTSDAAHELRSPLTALKVQTEVAQLSDDDPQARKKALLQLHSGIDRATRLVDQLLTLSRLDSLDNLQDVAEIPLEDLLQSSVMDIYHTAQQAKIDVRLTLNAHSIKRTGQPLLLSLLVRNLLDNAVRYSPQGSVVDVTLNADNFIVRDNGPGVTPEALARIGERFYRPPGQTATGSGLGLSIVQRIAKLHGMNVEFGNAEQGGFEAKVSW" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG12666-MONOMER" null ["YbbF", "LpxH"] "MATLFIADLHLCVEEPAITAGFLRFLAGEARKADALYILGDLFEAWIGDDDPNPLHRKMAAAIKAVSDSGVPCYFIHGNRDFLLGKRFARESGMTLLPEEKVLELYGRRVLIMHGDTLCTDDAGYQAFRAKVHKPWLQTLFLALPLFVRKRIAARMRANSKEANSSKSLAIMDVNQNAVVSAMEKHQVQWLIHGHTHRPAVHELIANQQPAFRVVLGAWHTEGSMVKVTADDVELIHFPF" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG", "CCO-CYTOSOL"] +"EG12689-MONOMER" "DUF1375 domain-containing lipoprotein YceK" ["YceK"] "MRLIVVSIMVTLLSGCGSIISRTIPGQGHGNQYYPGVQWDVRDSAWRYVTILDLPFSLVFDTLLLPIDIHHGPYE" ["CCO-OUTER-MEM"] [] +"EG12690-MONOMER" "replication-associated recombination protein A" ["RarA", "YcaJ", "MgsA"] "MSNLSLDFSDNTFQPLAARMRPENLAQYIGQQHLLAAGKPLPRAIEAGHLHSMILWGPPGTGKTTLAEVIARYANADVERISAVTSGVKEIREAIERARQNRNAGRRTILFVDEVHRFNKSQQDAFLPHIEDGTITFIGATTENPSFELNSALLSRARVYLLKSLSTEDIEQVLTQAMEDKTRGYGGQDIVLPDETRRAIAELVNGDARRALNTLEMMADMAEVDDSGKRVLKPELLTEIAGERSARFDNKGDRFYDLISALHKSVRGSAPDAALYWYARIITAGGDPLYVARRCLAIASEDVGNADPRAMQVAIAAWDCFTRVGPAEGERAIAQAIVYLACAPKSNAVYTAFKAALADARERPDYDVPVHLRNAPTKLMKEMGYGQEYRYAHDEANAYAAGEVYFPPEIAQTRYYFPTNRGLEGKIGEKLAWLAEQDQNSPIKRYR" [] ["CCO-CYTOSOL"] +"EG12691-MONOMER" "lipopolysaccharide assembly protein B" ["YciM", "LapB"] "MLELLFLLLPVAAAYGWYMGRRSAQQNKQDEANRLSRDYVAGVNFLLSNQQDKAVDLFLDMLKEDTGTVEAHLTLGNLFRSRGEVDRAIRIHQTLMESASLTYEQRLLAIQQLGRDYMAAGLYDRAEDMFNQLTDETDFRIGALQQLLQIYQATSEWQKAIDVAERLVKLGKDKQRVEIAHFYCELALQHMASDDLDRAMTLLKKGAAADKNSARVSIMMGRVFMAKGEYAKAVESLQRVISQDRELVSETLEMLQTCYQQLGKTAEWAEFLQRAVEENTGADAELMLADIIEARDGSEAAQVYITRQLQRHPTMRVFHKLMDYHLNEAEEGRAKESLMVLRDMVGEKVRSKPRYRCQKCGFTAYTLYWHCPSCRAWSTIKPIRGLDGL" ["CCO-CYTOSOL", "CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG", "CCO-CYTOSOL"] +"EG12692-MONOMER" "hydroxycarboxylate dehydrogenase A" ["HcxA", "YbdH"] "MPHNPIRVVVGPANYFSHPGSFNHLHDFFTDEQLSRAVWIYGKRAIAAAQTKLPPAFGLPGAKHILFRGHCSESDVQQLAAESGDDRSVVIGVGGGALLDTAKALARRLGLPFVAVPTIAATCAAWTPLSVWYNDAGQALHYEIFDDANFMVLVEPEIILNAPQQYLLAGIGDTLAKWYEAVVLAPQPETLPLTVRLGINNAQAIRDVLLNSSEQALSDQQNQQLTQSFCDVVDAIIAGGGMVGGLGDRFTRVAAAHAVHNGLTVLPQTEKFLHGTKVAYGILVQSALLGQDDVLAQLTGAYQRFHLPTTLAELEVDINNQAEIDKVIAHTLRPVESIHYLPVTLTPDTLRAAFKKVESFKA" [] ["CCO-CYTOSOL"] +"EG12693-MONOMER" "putative NUDIX hydrolase with low 3-phosphohydroxypyruvate phosphatase activity" ["YeaB", "NudL"] "MEYRSLTLDDFLSRFQLLRPQINRETLNHRQAAVLIPIVRRPQPGLLLTQRSIHLRKHAGQVAFPGGAVDDTDASAIAAALREAEEEVAIPPSAVEVIGVLPPVDSVTGYQVTPVVGIIPPDLPYRASEDEVSAVFEMPLAQALHLGRYHPLDIYRRGDSHRVWLSWYEQYFVWGMTAGIIRELALQIGVKP" [] ["CCO-CYTOSOL"] +"EG12694-MONOMER" "DNA-binding transcriptional activator Dan" ["Dan", "TtdR", "YgiP"] "MLNSWPLAKDLQVLVEIVHSGSFSAAAATLGQTPAFVTKRIQILENTLATTLLNRSARGVALTESGQRCYEHALEILTQYQRLVDDVTQIKTRPEGMIRIGCSFGFGRSHIAPAITELMRNYPELQVHFELFDRQIDLVQDNIDLDIRINDEIPDYYIAHLLTKNKRILCAAPEYLQKYPQPQSLQELSRHDCLVTKERDMTHGIWELGNGQEKKSVKVSGHLSSNSGEIVLQWALEGKGIMLRSEWDVLPFLESGKLVQVLPEYAQSANIWAVYREPLYRSMKLRVCVEFLAAWCQQRLGKPDEGYQVM" [] ["CCO-CYTOSOL"] +"EG12702-MONOMER" "putative oxidoreductase YcaK" ["YcaK", "putative NAD(P)H-dependent oxidoreductase YcaK"] "MQSERIYLVWAHPRHDSLTAHIADAIHQRAMERKIQVTELDLYRRNFNPVMTPEDEPDWKNMDKRYSPEVHQLYSELLEHDTLVVVFPLWWYSFPAMLKGYIDRVWNNGLAYGDGHKLPFNKVRWVALVGGDKESFVQMGWEKNISDYLKNMCSYLGIEDADVTFLCNTVVFDGEELHASYYQSLLSQVRDMVDAL" [] ["CCO-CYTOSOL"] +"EG12703-MONOMER" "PF13993 family protein YccJ" ["YccJ"] "MPTQEAKAHHVGEWASLRNTSPEIAEAIFEVAGYDEKMAEKIWEEGSDEVLVKAFAKTDKDSLFWGEQTIERKNV" ["CCO-CYTOSOL"] [] +"EG12704-MONOMER" "DUF1202 domain-containing protein YggM" ["YggM"] "MKKQWIVGTALLMLMTGNAWADGEPPTENILKDQFKKQYHGILKLDAITLKNLDAKGNQATWSAEGDVSSSDDLYTWVGQLADYELLEQTWTKDKPVKFSAMLTSKGTPASGWSVNFYSFQAAASDRGRVVDDIKTNNKYLIVNSEDFNYRFSQLESALNTQKNSIPALEKEVKALDKQMVAAQKAADAYWGKDANGKQMTREDAFKKIHQQRDEFNKQNDSEAFAVKYDKEVYQPAIAACHKQSEECYEVPIQQKRDFDINEQRRQTFLQSQKLSRKLQDDWVTLEKGQYPLTMKVSEINSKKVAILMKIDDINQANERWKKDTEQLRRNGVIK" [] ["CCO-PERI-BAC"] +"EG12705-MONOMER" "DUF2884 domain-containing protein YggN" ["EcfF", "YggN"] "MMRKMLLAAALSVTAMTAHADYQCSVTPRDDVIVSPQTVQVKGENGNLVITPDGNVMYNGKQYSLNAAQREQAKDYQAELRSTLPWIDEGAKSRVEKARIALDKIIVQEMGESSKMRSRLTKLDAQLKEQMNRIIETRSDGLTFHYKAIDQVRAEGQQLVNQAMGGILQDSINEMGAKAVLKSGGNPLQNVLGSLGGLQSSIQTEWKKQEKDFQQFGKDVCSRVVTLEDSRKALVGNLK" [] ["CCO-CYTOSOL"] +"EG12707-MONOMER" "DUF3561 domain-containing inner membrane protein YgbE" ["YgbE"] "MRNSHNITLTNNDSLTEDEETTWSLPGAVVGFISWLFALAMPMLIYGSNTLFFFIYTWPFFLALMPVAVVVGIALHSLMDGKLRYSIVFTLVTVGIMFGALFMWLLG" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG12708-MONOMER" "PF04307 family inner membrane protein YbcI" ["YbcI"] "MPTVITHAAVPLCIGLGLGSKVIPPRLLFAGIILAMLPDADVLSFKFGVAYGNVFGHRGFTHSLVFAFVVPLLCVFIGRRWFRAGLIRCWLFLTVSLLSHSLLDSVTTGGKGVGWLWPWSDERFFAPWQVIKVAPFALSRYTTPYGHQVIISELMWVWLPGMLLMGMLWWRRR" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG12709-MONOMER" "DUF808 domain-containing inner membrane protein YedI" ["YedI"] "MLLAGSSLLTLLDDIATLLDDISVMGKLAAKKTAGVLGDDLSLNAQQVSGVRANRELPVVWGVAKGSLINKVILVPLALIISAFIPWAITPLLMIGGAFLCFEGVEKVLHMLEARKHKEDPAQSQQRLEKLAAQDPLKFEKDKIKGAIRTDFILSAEIVAITLGIVAEAPLLNQVLVLSGIALVVTVGVYGLVGVIVKIDDLGYWLAEKSSALMQALGKGLLIIAPWLMKALSIVGTLAMFLVGGGIVVHGIAPLHHAIEHFAGQQSAVVAMILPTVLNLILGFIIGGIVVLGVKAVEKMRGQAH" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG12710-MONOMER" "putative HD superfamily phosphohydrolase YedJ" ["YedJ"] "MDLQHWQAQFENWLKNHHQHQDAAHDVCHFRRVWATAQKLAADDDVDMLVILTACYFHDIVSLAKNHPQRQRSSILAAEETRRLLREEFEQFPAEKIEAVCHAIAAHSFSAQIAPLTTEAKIVQDADRLEALGAIGLARVFAVSGALGVALFDGEDPFAQHRPLDDKRYALDHFQTKLLKLPQTMQTARGKQLAQHNAHFLVEFMAKLSAELAGENEGVDHKVIDAFSSAG" [] ["CCO-CYTOSOL"] +"EG12712-MONOMER" "S-ribosylhomocysteine lyase" ["LuxS", "YgaG"] "MPLLDSFTVDHTRMEAPAVRVAKTMNTPHGDAITVFDLRFCVPNKEVMPERGIHTLEHLFAGFMRNHLNGNGVEIIDISPMGCRTGFYMSLIGTPDEQRVADAWKAAMEDVLKVQDQNQIPELNVYQCGTYQMHSLQEAQDIARSILERDVRINSNEELALPKEKLQELHI" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG12713-MONOMER" "amino acid exporter YddG" ["YddG"] "MTRQKATLIGLIAIVLWSTMVGLIRGVSEGLGPVGGAAAIYSLSGLLLIFTVGFPRIRQIPKGYLLAGSLLFVSYEICLALSLGYAATHHQAIEVGMVNYLWPSLTILFAILFNGQKTNWLIVPGLLLALVGVCWVLGGDNGLHYDEIINNITTSPLSYFLAFIGAFIWAAYCTVTNKYARGFNGITVFVLLTGASLWVYYFLTPQPEMIFSTPVMIKLISAAFTLGFAYAAWNVGILHGNVTIMAVGSYFTPVLSSALAAVLLSAPLSFSFWQGALMVCGGSLLCWLATRRG" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG12717-MONOMER" "stationary phase mismatch/uracil DNA glycosylase" ["YgjF", "Mug", "dsUDG"] "MVEDILAPGLRVVFCGINPGLSSAGTGFPFAHPANRFWKVIYQAGFTDRQLKPQEAQHLLDYRCGVTKLVDRPTVQANEVSKQELHAGGRKLIEKIEDYQPQALAILGKQAYEQGFSQRGAQWGKQTLTIGSTQIWVLPNPSGLSRVSLEKLVEAYRELDQALVVRGR" [] ["CCO-CYTOSOL"] +"EG12794-MONOMER" "ribosome assembly factor YhbY" ["YhbY"] "MNLSTKQKQHLKGLAHPLKPVVLLGSNGLTEGVLAEIEQALEHHELIKVKIATEDRETKTLIVEAIVRETGACNVQVIGKTLVLYRPTKERKISLPR" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG12799-MONOMER" "intermembrane phospholipid transport system, substrate binding protein MlaD" ["YrbD", "MlaD"] "MQTKKNEIWVGIFLLAALLAALFVCLKAANVTSIRTEPTYTLYATFDNIGGLKARSPVSIGGVVVGRVADITLDPKTYLPRVTLEIEQRYNHIPDTSSLSIRTSGLLGEQYLALNVGFEDPELGTAILKDGDTIQDTKSAMVLEDLIGQFLYGSKGDDNKNSGDAPAAAPGNNETTEPVGTTK" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG12830-MONOMER" "DUF2496 domain-containing protein YbaM" ["YbaM", "small protein involved in the cell envelope stress response"] "MSLENAPDDVKLAVDLIVLLEENQIPASTVLRALDIVKRDYEKKLTRDDEAEK" [] ["CCO-CYTOSOL"] +"EG12842-MONOMER" "DUF1418 domain-containing protein YbjC" ["YbjC"] "MRAIGKLPKGVLILEFIGMMLLAVALLSVSDSLSLPEPFSRPEVQILMIFLGVLLMLPAAVVVILQVAKRLAPQLMNRPPQYSRSEREKDNDANH" ["CCO-MEMBRANE"] [] +"EG12843-MONOMER" "DUF454 domain-containing inner membrane protein YbaN" ["YbaN"] "MQRIILIIIGWLAVVLGTLGVVLPVLPTTPFILLAAWCFARSSPRFHAWLLYRSWFGSYLRFWQKHHAMPRGVKPRAILLILLTFAISLWFVQMPWVRIMLLVILACLLFYMWRIPVIDEKQEKH" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG12844-MONOMER" "YefM antitoxin of the YoeB-YefM toxin-antitoxin pair and DNA binding transcriptional repressor" ["YefM"] "MRTISYSEARQNLSATMMKAVEDHAPILITRQNGEACVLMSLEEYNSLEETAYLLRSPANARRLMDSIDSLKSGKGTEKDIIE" [] ["CCO-CYTOSOL"] +"EG12845-MONOMER" "CRISPR-associated endoribonuclease Cas2" ["YgbF", "Cas2"] "MSMLVVVTENVPPRLRGRLAIWLLEVRAGVYVGDVSAKIREMIWEQIAGLAEEGNVVMAWATNTETGFEFQTFGLNRRTPVDLDGLRLVSFLPV" [] ["CCO-CYTOSOL"] +"EG12850-MONOMER" "putative autotransporter adhesin YfaL" ["YfaJ", "YfaK", "YfaF", "YfaL"] "MRIIFLRKEYLSLLPSMIASLFSANGVAAVTDSCQGYDVKASCQASRQSLSGITQDWSIADGQWLVFSDMTNNASGGAVFLQQGAEFSLLPENETGMTLFANNTVTGEYNNGGAIFAKENSTLNLTDVIFSGNVAGGYGGAIYSSGTNDTGAVDLRVTNAMFRNNIANDGKGGAIYTINNDVYLSDVIFDNNQAYTSTSYSDGDGGAIDVTDNNSDSKHPSGYTIVNNTAFTNNTAEGYGGAIYTNSVTAPYLIDISVDDSYSQNGGVLVDENNSAAGYGDGPSSAAGGFMYLGLSEVTFDIADGKTLVIGNTENDGAVDSIAGTGLITKTGSGDLVLNADNNDFTGEMQIENGEVTLGRSNSLMNVGDTHCQDDPQDCYGLTIGSIDQYQNQAELNVGSTQQTFVHALTGFQNGTLNIDAGGNVTVNQGSFAGIIEGAGQLTIAQNGSYVLAGAQSMALTGDIVVDDGAVLSLEGDAADLTALQDDPQSIVLNGGVLDLSDFSTWQSGTSYNDGLEVSGSSGTVIGSQDVVDLAGGDNLHIGGDGKDGVYVVVDASDGQVSLANNNSYLGTTQIASGTLMVSDNSQLGDTHYNRQVIFTDKQQESVMEITSDVDTRSDAAGHGRDIEMRADGEVAVDAGVDTQWGALMADSSGQHQDEGSTLTKTGAGTLELTASGTTQSAVRVEEGTLKGDVADILPYASSLWVGDGATFVTGADQDIQSIDAISSGTIDISDGTVLRLTGQDTSVALNASLFNGDGTLVNATDGVTLTGELNTNLETDSLTYLSNVTVNGNLTNTSGAVSLQNGVAGDTLTVNGDYTGGGTLLLDSELNGDDSVSDQLVMNGNTAGNTTVVVNSITGIGEPTSTGIKVVDFAADPTQFQNNAQFSLAGSGYVNMGAYDYTLVEDNNDWYLRSQEVTPPSPPDPDPTPDPDPTPDPDPTPDPEPTPAYQPVLNAKVGGYLNNLRAANQAFMMERRDHAGGDGQTLNLRVIGGDYHYTAAGQLAQHEDTSTVQLSGDLFSGRWGTDGEWMLGIVGGYSDNQGDSRSNMTGTRADNQNHGYAVGLTSSWFQHGNQKQGAWLDSWLQYAWFSNDVSEQEDGTDHYHSSGIIASLEAGYQWLPGRGVVIEPQAQVIYQGVQQDDFTAANRARVSQSQGDDIQTRLGLHSEWRTAVHVIPTLDLNYYHDPHSTEIEEDGSTISDDAVKQRGEIKVGVTGNISQRVSLRGSVAWQKGSDDFAQTAGFLSMTVKW" [] ["CCO-PERI-BAC", "CCO-OUTER-MEM", "CCO-EXTRACELLULAR", "CCO-MEMBRANE"] +"EG12851-MONOMER" "DUF1451 domain-containing protein YbeL" ["YbeL"] "MNKVAQYYRELVASLSERLRNGERDIDALVEQARERVIKTGELTRTEVDELTRAVRRDLEEFAMSYEESLKEESDSVFMRVIKESLWQELADITDKTQLEWREVFQDLNHHGVYHSGEVVGLGNLVCEKCHFHLPIYTPEVLTLCPKCGHDQFQRRPFEP" [] ["CCO-CYTOSOL"] +"EG12854-MONOMER" "cell division coordinator CpoB" ["CpoB", "YbgF"] "MSSNFRHQLLSLSLLVGIAAPWAAFAQAPISSVGSGSVEDRVTQLERISNAHSQLLTQLQQQLSDNQSDIDSLRGQIQENQYQLNQVVERQKQILLQIDSLSSGGAAAQSTSGDQSGAAASTTPTADAGTANAGAPVKSGNANTDYNAAIALVQDKSRQDDAMVAFQNFIKNYPDSTYLPNANYWLGQLNYNKGKKDDAAYYFASVVKNYPKSPKAADAMFKVGVIMQDKGDTAKAKAVYQQVISKYPGTDGAKQAQKRLNAM" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"EG12855-MONOMER" "macrodomain Ter protein" ["YcbG", "MatP"] "MKYQQLENLESGWKWKYLVKKHREGELITRYIEASAAQEAVDVLLSLENEPVLVNGWIDKHMNPELVNRMKQTIRARRKRHFNAEHQHTRKKSIDLEFIVWQRLAGLAQRRGKTLSETIVQLIEDAENKEKYANKMSSLKQDLQALLGKE" [] ["CCO-CYTOSOL"] +"EG12857-MONOMER" "protein YfiM" ["YfiM"] "MRILFVCSLLLLSGCSHMANDSWSGQDKAQHFIASAMLSAAGNEYSQHQGMSRDRSAMFGLMFSVSLGASKELWDSRPEGSGWSWKDLAWDVAGASTGYTVWQLTRH" [] ["CCO-PM-BAC-NEG"] +"EG12859-MONOMER" "glucan biosynthesis protein D" ["YzzZ", "YdcG", "MdoD", "OpgD"] "MDRRRFIKGSMAMAAVCGTSGIASLFSQAAFAADSDIADGQTQRFDFSILQSMAHDLAQTAWRGAPRPLPDTLATMTPQAYNSIQYDAEKSLWHNVENRQLDAQFFHMGMGFRRRVRMFSVDPATHLAREIHFRPELFKYNDAGVDTKQLEGQSDLGFAGFRVFKAPELARRDVVSFLGASYFRAVDDTYQYGLSARGLAIDTYTDSKEEFPDFTAFWFDTVKPGATTFTVYALLDSASITGAYKFTIHCEKSQVIMDVENHLYARKDIKQLGIAPMTSMFSCGTNERRMCDTIHPQIHDSDRLSMWRGNGEWICRPLNNPQKLQFNAYTDNNPKGFGLLQLDRDFSHYQDIMGWYNKRPSLWVEPRNKWGKGTIGLMEIPTTGETLDNIVCFWQPEKAVKAGDEFAFQYRLYWSAQPPVHCPLARVMATRTGMGGFSEGWAPGEHYPEKWARRFAVDFVGGDLKAAAPKGIEPVITLSSGEAKQIEILYIEPIDGYRIQFDWYPTSDSTDPVDMRMYLRCQGDAISETWLYQYFPPAPDKRQYVDDRVMS" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"EG12860-MONOMER" "DNA-binding transcriptional repressor YebK" ["YebK"] "MNMLEKIQSQLEHLSKSERKVAEVILASPDNAIHSSIAAMALEANVSEPTVNRFCRSMDTRGFPDFKLHLAQSLANGTPYVNRNVNEDDSVESYTGKIFESAMATLDHVRHSLDKSAINRAVDLLTQAKKIAFFGLGSSAAVAHDAMNKFFRFNVPVVYSDDIVLQRMSCMNCSDGDVVVLISHTGRTKNLVELAQLARENDAMVIALTSAGTPLAREATLAITLDVPEDTDIYMPMVSRLAQLTVIDVLATGFTLRRGAKFRDNLKRVKEALKESRFDKQLLNLSDDR" [] ["CCO-CYTOSOL"] +"EG12861-MONOMER" "DUF2594 domain-containing protein YecF" ["YecF"] "MSTPDFSTAENNQELANEVSCLKAMLTLMLQAMGQADAGRVMLKMEKQLALIEDETQAAVFSKTVKQIKQAYRQ" [] ["CCO-CYTOSOL"] +"EG12865-MONOMER" "protein YdcH" ["YdcH"] "MFPEYRDLISRLKNENPRFMSLFDKHNKLDHEIARKEGSDGRGYNAEVVRMKKQKLQLKDEMLKILQQESVKEV" [] ["CCO-CYTOSOL"] +"EG12866-MONOMER" "RNA chaperone ProQ" ["YobE", "YoeC", "YebJ", "ProQ", "RNA chaperone, involved in posttranscriptional control of ProP levels"] "MENQPKLNSSKEVIAFLAERFPHCFSAEGEARPLKIGIFQDLVDRVAGEMNLSKTQLRSALRLYTSSWRYLYGVKPGATRVDLDGNPCGELDEQHVEHARKQLEEAKARVQAQRAEQQAKKREAAATAGEKEDAPRRERKPRPTTPRRKEGAERKPRAQKPVEKAPKTVKAPREEQHTPVSDISALTVGQALKVKAGQNAMDATVLEITKDGVRVQLNSGMSLIVRAEHLVF" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG12867-MONOMER" "peptidoglycan DD-carboxypeptidase/peptidoglycan DD-endopeptidase" ["YaiH", "AmpH", "penicillin-binding protein", "DD-carboxypeptidase/DD-endopeptidase AmpH"] "MKRSLLFSAVLCAASLTSVHAAQPITEPEFASDIVDRYADHIFYGSGATGMALVVIDGNQRVFRSYGETRPGNNVRPQLDSVVRIASLTKLMTSEMLVKLLDQGTVKLNDPLSKYAPPGARVPTYNGTPITLVNLATHTSALPREQPGGAAHRPVFVWPTREQRWKYLSTAKLKAAPGSQAAYSNLAFDLLADALANASGKPYTQLFEEQITRPLGMKDTTYTPSPDQCRRLMVAERGASPCNNTLAAIGSGGVYSTPGDMMRWMQQYLSSDFYQRSNQADRMQTLIYQRAQFTKVIGMDVPGKADALGLGWVYMAPKEGRPGIIQKTGGGGGFITYMAMIPQKNIGAFVVVTRSPLTRFKNMSDGINDLVTELSGNKPLVIPAS" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG", "CCO-PERI-BAC"] +"EG12868-MONOMER" "protein YciN" ["YciN"] "MNKETQPIDRETLLKEANKIIREHEDTLAGIEATGVTQRNGVLVFTGDYFLDEQGLPTAKSTAVFNMFKHLAHVLSEKYHLVD" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG12870-MONOMER" "DUF697 domain-containing inner membrane protein YcjF" ["YcjF"] "MTEPLKPRIDFDGPLEVDQNPKFRAQQTFDENQAQNFAPATLDEAQEEEGQVEAVMDAALRPKRSLWRKMVMGGLALFGASVVGQGVQWTMNAWQTQDWVALGGCAAGALIIGAGVGSVVTEWRRLWRLRQRAHERDEARDLLHSHGTGKGRAFCEKLAQQAGIDQSHPALQRWYASIHETQNDREVVSLYAHLVQPVLDAQARREISRSAAESTLMIAVSPLALVDMAFIAWRNLRLINRIATLYGIELGYYSRLRLFKLVLLNIAFAGASELVREVGMDWMSQDLAARLSTRAAQGIGAGLLTARLGIKAMELCRPLPWIDDDKPRLGDFRRQLIGQVKETLQKGKTPSEK" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG12874-MONOMER" "putative lipoprotein YajI" ["YajI"] "MNTNVFRLLLLGSLFSLSACVQQSEVRQMKHSVSTLNQEMTQLNQETVKITQQNRLNAKSSSGVYLLPGAKTPARLESQIGTLRMSLVNITPDADGTTLTLRIQGESNDPLPAFSGTVEYGQIQGTIDNFQEINVQNQLINAPASVLAPSDVDIPLQLKGISVDQLGFVRIHDIQPVMQ" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE", "CCO-PERI-BAC"] +"EG12875-MONOMER" "outer membrane lipoprotein YbhC" ["YbhC"] "MNTFSVSRLALALAFGVTLTACSSTPPDQRPSDQTAPGTSSRPILSAKEAQNFDAQHYFASLTPGAAAWNPSPITLPAQPDFVVGPAGTQGVTHTTIQAAVDAAIIKRTNKRQYIAVMPGEYQGTVYVPAAPGGITLYGTGEKPIDVKIGLSLDGGMSPADWRHDVNPRGKYMPGKPAWYMYDSCQSKRSDSIGVLCSAVFWSQNNGLQLQNLTIENTLGDSVDAGNHPAVALRTDGDQVQINNVNILGRQNTFFVTNSGVQNRLETNRQPRTLVTNSYIEGDVDIVSGRGAVVFDNTEFRVVNSRTQQEAYVFAPATLSNIYYGFLAVNSRFNAFGDGVAQLGRSLDVDANTNGQVVIRDSAINEGFNTAKPWADAVISNRPFAGNTGSVDDNDEIQRNLNDTNYNRMWEYNNRGVGSKVVAEAKK" ["CCO-OUTER-MEM"] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"EG12876-MONOMER" "sulfur transfer protein TusE" ["YccK", "TusE"] "MLIFEGKEIETDTEGYLKESSQWSEPLAVVIAENEGISLSPEHWEVVRFVRDFYLEFNTSPAIRMLVKAMANKFGEEKGNSRYLYRLFPKGPAKQATKIAGLPKPVKCI" [] ["CCO-CYTOSOL"] +"EG12877-MONOMER" "e14 prophage; protein StfP" ["StfP", "YcfK"] "MHRIDTKTAQKDKFGAGKNGFTRGNPQTGTPATDLDDDYFDMLQEELCSVVEASGASLEKGRHDQLLTALRALLLSRKNPFGDIKSDGTVQTALENLGLGEGAKLNAATATLGRTGFIAIPVMIGGIEQSVIIQWGWNAAKASASGGDGNTVVFPVAFNNACVAVVANYDNVSAPINAVATGGYTTTSFLLRCAAQTGSYYYNWIAIGY" [] ["CCO-CYTOSOL"] +"EG12878-MONOMER" "cell division protein ZapA" ["ZapA", "YgfE", "cell division factor ZapA, localizes to the cytokinetic ring"] "MSAQPVDIQIFGRSLRVNCPPDQRDALNQAADDLNQRLQDLKERTRVTNTEQLVFIAALNISYELAQEKAKTRDYAASMEQRIRMLQQTIEQALLEQGRITEKTNQNFE" ["CCO-CYTOSOL"] ["CCO-PM-BAC-NEG", "CCO-CYTOSOL"] +"EG12879-MONOMER" "putative RNA-binding protein YbcJ" ["YbcJ"] "MATFSLGKHPHVELCDLLKLEGWSESGAQAKIAIAEGQVKVDGAVETRKRCKIVAGQTVSFAGHSVQVVA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG12880-MONOMER" "diguanylate cyclase DgcN" ["DgcN", "YfiN"] "MMDNDNSLNKRPTFKRALRNISMTSIFITMMLIWLLLSVTSVLTLKQYAQKNLALTAATMTYSLEAAVVFADGPAATETLAALGQQGQFSTAEVRDKQQNILASWHYTRKDPGDTFSNFISHWLFPAPIIQPIRHNGETIGEVRLTARDSSISHFIWFSLAVLTGCILLASGIAITLTRHLHNGLVEALKNITDVVHDVRSNRNFSRRVSEERIAEFHRFALDFNSLLDEMEEWQLRLQAKNAQLLRTALHDPLTGLANRAAFRSGINTLMNNSDARKTSALLFLDGDNFKYINDTWGHATGDRVLIEIAKRLAEFGGLRHKAYRLGGDEFAMVLYDVQSESEVQQICSALTQIFNLPFDLHNGHQTTMTLSIGYAMTIEHASAEKLQELADHNMYQAKHQRAEKLVR" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EG12881-MONOMER" "putative uncharacterized protein YfaH" ["YfaH"] "MNFIRQGLGIALQPELTLKSIAGELCSVPLEPTFYRQISLLAKEKPVEGSPLFLLQMCMEQLVAIGKI" [] ["CCO-MEMBRANE"] +"EG12933-MONOMER" "ferrous iron transport protein FeoC" ["YhgG", "FeoC"] "MASLIQVRDLLALRGRMEAAQISQTLNTPQPMINAMLQQLESMGKAVRIQEEPDGCLSGSCKSCPEGKACLREWWALR" [] ["CCO-CYTOSOL"] +"EG13217-MONOMER" "uncharacterized protein YbaE" ["YbaE"] "MRLLNRLNQYQRLWQPSAGKPQTVTVSELAERCFCSERHVRTLLRQAQEAGWLEWQAQSGRGKRGQLRFLVTPESLRNAMMEQALETGKQQDVLELAQLAPGELRTLLQPFMGGQWQNDTPTLRIPYYRPLEPLQPGFLPGRAEQHLAGQIFSGLTRFDNNTQRPIGDLAHHWETSTDGLRWDFYLRSTLHWHNGDAVKASHLHQRLLMLLQLPALDQLFISVKRIEVTHPQCLTFFLHRPDYWLAHRLASYCSHLAHPQFPLIGTGPFRLTQFTAELVRLESHDYYHLRHPLLKAVEYWITPPLFEKDLGTSCRHPVQITIGKPEELQRVSQVSSGISLGFCYLTLRKSPRLSLWQARKVISIIHQSGLLQTLEVGENLITASHALLPGWTIPHWQVPDEVKLPKTLTLVYHLPIELHTMAERLQATLAAEGCELTIIFHNAKNWDDTTLQAHADLMMGDRLIGEAPEYTLEQWLRCDPLWPHVFDAPAYAHLQSTLDAVQIMPDEENRFNALKAVFSQLMTDATLTPLFNYHYRISAPPGVNGVRLTPRGWFEFTEAWLPAPSQ" [] ["CCO-PERI-BAC"] +"EG13236-MONOMER" "α-mannosidase" ["YbgG", "MngB"] "MKAVSRVHITPHMHWDREWYFTTEESRILLVNNMEEILCRLEQDNEYKYYVLDGQTAILEDYFAVKPENKDRVKKQVEAGKLIIGPWYTQTDTTIVSAESIVRNLMYGMRDCLAFGEPMKIGYLPDSFGMSGQLPHIYNGFGITRTMFWRGCSERHGTDKTEFLWQSSDGSEVTAQVLPLGYAIGKYLPADENGLRKRLDSYFDVLEKASVTKEILLPNGHDQMPLQQNIFEVMDKLREIYPQRKFVMSRFEEVFEKIEAQRDNLATLKGEFIDGKYMRVHRTIGSTRMDIKIAHARIENKIVNLLEPLATLAWTLGFEYHHGLLEKMWKEILKNHAHDSIGCCCSDKVHREIVARFELAEDMADNLIRFYMRKIADNMPQSDADKLVLFNLMPWPREEVINTTVRLRASQFNLRDDRGQPVPYFIRHAREIDPGLIDRQIVHYGNYDPFMEFDIQINQIVPSMGYRTLYIEANQPGNVIAAKSDAEGILENAFWQIALNEDGSLQLVDKDSGVRYDRVLQIEESSDDGDEYDYSPAKEEWVITAANAKPQCDIIHEAWQSRAVIRYDMAVPLNLSERSARQSTGRVGVVLVVTLSHNSRRIDVDINLDNQADDHRLRVLVPTPFNTDSVLADTQFGSLTRPVNDSAMNNWQQEGWKEAPVPVWNMLNYVALQEGRNGMAVFSEGLREFEVIGEEKKTFAITLLRGVGLLGKEDLLLRPGRPSGIKMPVPDSQLRGLLSCRLSLLSYTGTPTAAGVAQQARAWLTPVQCYNKIPWDVMKLNKAGFNVPESYSLLKMPPVGCLISALKKAEDRQEVILRLFNPAESATCDATVAFSREVISCSETMMDEHITTEENQGSNLSGPFLPGQSRTFSYRLA" [] ["CCO-CYTOSOL"] +"EG20249-MONOMER" "DNA-binding transcriptional repressor UxuR" ["UxuR"] "MKSATSAQRPYQEVGAMIRDLIIKTPYNPGERLPPEREIAEMLDVTRTVVREALIMLEIKGLVEVRRGAGIYVLDNSGSQNTDSPDANVCNDAGPFELLQARQLLESNIAEFAALQATREDIVKMRQALQLEERELASSAPGSSESGDMQFHLAIAEATHNSMLVELFRQSWQWRENNPMWIQLHSHLDDSLYRKEWLGDHKQILAALIKKDARAAKLAMWQHLENVKQRLLEFSNVDDIYFDGYLFDSWPLDKVDA" [] ["CCO-CYTOSOL"] +"EG20253-MONOMER" "DNA-binding transcriptional dual regulator XylR" ["XylR"] "MFTKRHRITLLFNANKAYDRQVVEGVGEYLQASQSEWDIFIEEDFRARIDKIKDWLGDGVIADFDDKQIEQALADVDVPIVGVGGSYHLAESYPPVHYIATDNYALVESAFLHLKEKGVNRFAFYGLPESSGKRWATEREYAFRQLVAEEKYRGVVYQGLETAPENWQHAQNRLADWLQTLPPQTGIIAVTDARARHILQVCEHLHIPVPEKLCVIGIDNEELTRYLSRVALSSVAQGARQMGYQAAKLLHRLLDKEEMPLQRILVPPVRVIERRSTDYRSLTDPAVIQAMHYIRNHACKGIKVDQVLDAVGISRSNLEKRFKEEVGETIHAMIHAEKLEKARSLLISTTLSINEISQMCGYPSLQYFYSVFKKAYDTTPKEYRDVNSEVML" [] ["CCO-CYTOSOL"] +"EG50001-MONOMER" "50S ribosomal subunit protein L21" ["RplU"] "MYAVFQSGGKQHRVSEGQTVRLEKLDIATGETVEFAEVLMIANGEEVKIGVPFVDGGVIKAEVVAHGRGEKVKIVKFRRRKHYRKQQGHRQWFTDVKITGISA" ["CCO-CYTOSOL"] ["CCO-RIBOSOME", "CCO-CYTOSOL"] +"EG50002-MONOMER" "50S ribosomal subunit protein L27" ["Rpz", "RpmA"] "MAHKKAGGSTRNGRDSEAKRLGVKRFGGESVLAGSIIVRQRGTKFHAGANVGCGRDHTLFAKADGKVKFEVKGPKNRKFISIEAE" [] ["CCO-RIBOSOME", "CCO-CYTOSOL"] +"EG50003-MONOMER" "acyl carrier protein" ["apoprotein [acyl carrier protein]", "AcpP", "apo-[acyl carrier protein]", "apo-ACP", "ACP"] "MSTIEERVKKIIGEQLGVKQEEVTNNASFVEDLGADSLDTVELVMALEEEFDTEIPDEEAEKITTVQAAIDYINGHQA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EG50004-MONOMER" "ribosome modulation factor" ["Res", "RimF", "Rmf"] "MKRQKRDRLERAHQRGYQAGIAGRSKEMCPYQTLNQRSQWLGGWREAMADRVVMA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EMRB-MONOMER" "multidrug efflux pump membrane subunit EmrB" ["EmrB"] "MQQQKPLEGAQLVIMTIALSLATFMQVLDSTIANVAIPTIAGNLGSSLSQGTWVITSFGVANAISIPLTGWLAKRVGEVKLFLWSTIAFAIASWACGVSSSLNMLIFFRVIQGIVAGPLIPLSQSLLLNNYPPAKRSIALALWSMTVIVAPICGPILGGYISDNYHWGWIFFINVPIGVAVVLMTLQTLRGRETRTERRRIDAVGLALLVIGIGSLQIMLDRGKELDWFSSQEIIILTVVAVVAICFLIVWELTDDNPIVDLSLFKSRNFTIGCLCISLAYMLYFGAIVLLPQLLQEVYGYTATWAGLASAPVGIIPVILSPIIGRFAHKLDMRRLVTFSFIMYAVCFYWRAYTFEPGMDFGASAWPQFIQGFAVACFFMPLTTITLSGLPPERLAAASSLSNFTRTLAGSIGTSITTTMWTNRESMHHAQLTESVNPFNPNAQAMYSQLEGLGMTQQQASGWIAQQITNQGLIISANEIFWMSAGIFLVLLGLVWFAKPPFGAGGGGGGAH" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EMRD-MONOMER" "multidrug efflux pump EmrD" ["YicQ", "EmrD"] "MKRQRNVNLLLMLVLLVAVGQMAQTIYIPAIADMARDLNVREGAVQSVMGAYLLTYGVSQLFYGPISDRVGRRPVILVGMSIFMLATLVAVTTSSLTVLIAASAMQGMGTGVGGVMARTLPRDLYERTQLRHANSLLNMGILVSPLLAPLIGGLLDTMWNWRACYLFLLVLCAGVTFSMARWMPETRPVDAPRTRLLTSYKTLFGNSGFNCYLLMLIGGLAGIAAFEACSGVLMGAVLGLSSMTVSILFILPIPAAFFGAWFAGRPNKRFSTLMWQSVICCLLAGLLMWIPDWFGVMNVWTLLVPAALFFFGAGMLFPLATSGAMEPFPFLAGTAGALVGGLQNIGSGVLASLSAMLPQTGQGSLGLLMTLMGLLIVLCWLPLATRMSHQGQPV" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"EMRE-MONOMER" "DLP12 prophage; multidrug/betaine/choline efflux transporter EmrE" ["MvrC", "EmrE", "EBR"] "MNPYIYLGGAILAEVIGTTLMKFSEGFTRLWPSVGTIICYCASFWLLAQTLAYIPTGIAYAIWSGVGIVLISLLSWGFFGQRLDLPAIIGMMLICAGVLIINLLSRSTPH" ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"EMRY-MONOMER" "tripartite efflux pump membrane subunit EmrY" ["EmrY"] "MAITKSTPAPLTGGTLWCVTIALSLATFMQMLDSTISNVAIPTISGFLGASTDEGTWVITSFGVANAIAIPVTGRLAQRIGELRLFLLSVTFFSLSSLMCSLSTNLDVLIFFRVVQGLMAGPLIPLSQSLLLRNYPPEKRTFALALWSMTVIIAPICGPILGGYICDNFSWGWIFLINVPMGIIVLTLCLTLLKGRETETSPVKMNLPGLTLLVLGVGGLQIMLDKGRDLDWFNSSTIIILTVVSVISLISLVIWESTSENPILDLSLFKSRNFTIGIVSITCAYLFYSGAIVLMPQLLQETMGYNAIWAGLAYAPIGIMPLLISPLIGRYGNKIDMRLLVTFSFLMYAVCYYWRSVTFMPTIDFTGIILPQFFQGFAVACFFLPLTTISFSGLPDNKFANASSMSNFFRTLSGSVGTSLTMTLWGRRESLHHSQLTATIDQFNPVFNSSSQIMDKYYGSLSGVLNEINNEITQQSLSISANEIFRMAAIAFILLTVLVWFAKPPFTAKGVG" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"ENOLASE-MONOMER" "enolase" ["Eno"] "MSKIVKIIGREIIDSRGNPTVEAEVHLEGGFVGMAAAPSGASTGSREALELRDGDKSRFLGKGVTKAVAAVNGPIAQALIGKDAKDQAGIDKIMIDLDGTENKSKFGANAILAVSLANAKAAAAAKGMPLYEHIAELNGTPGKYSMPVPMMNIINGGEHADNNVDIQEFMIQPVGAKTVKEAIRMGSEVFHHLAKVLKAKGMNTAVGDEGGYAPNLGSNAEALAVIAEAVKAAGYELGKDITLAMDCAASEFYKDGKYVLAGEGNKAFTSEEFTHFLEELTKQYPIVSIEDGLDESDWDGFAYQTKVLGDKIQLVGDDLFVTNTKILKEGIEKGIANSILIKFNQIGSLTETLAAIKMAKDAGYTAVISHRSGETEDATIADLAVGTAAGQIKTGSMSRSDRVAKYNQLIRIEEALGEKAPYNGRKEIKGQA" ["CCO-CYTOSOL", "CCO-CYTOSKELETON"] ["CCO-EXTRACELLULAR", "CCO-CYTOSOL", "CCO-CYTOSKELETON"] +"ENOYL-ACP-REDUCT-NADH-MONOMER" "enoyl-[acyl-carrier-protein] reductase" ["Gts", "QmeA", "EnvM", "FabI"] "MGFLSGKRILVTGVASKLSIAYGIAQAMHREGAELAFTYQNDKLKGRVEEFAAQLGSDIVLQCDVAEDASIDTMFAELGKVWPKFDGFVHSIGFAPGDQLDGDYVNAVTREGFKIAHDISSYSFVAMAKACRSMLNPGSALLTLSYLGAERAIPNYNVMGLAKASLEANVRYMANAMGPEGVRVNAISAGPIRTLAASGIKDFRKMLAHCEAVTPIRRTVTIEDVGNSAAFLCSDLSAGISGEVVHVDGGFSIAAMNELELK" ["CCO-CYTOSOL"] [] +"ENTA-MONOMER" "2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase" ["EntA"] "MDFSGKNVWVTGAGKGIGYATALAFVEAGAKVTGFDQAFTQEQYPFATEVMDVADAAQVAQVCQRLLAETERLDALVNAAGILRMGATDQLSKEDWQQTFAVNVGGAFNLFQQTMNQFRRQRGGAIVTVASDAAHTPRIGMSAYGASKAALKSLALSVGLELAGSGVRCNVVSPGSTDTDMQRTLWVSDDAEEQRIRGFGEQFKLGIPLGKIARPQEIANTILFLASDLASHITLQDIVVDGGSTLGA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"ENTB-MONOMER" "enterobactin synthase component B" ["EntB", "EntG"] "MAIPKLQAYALPESHDIPQNKVDWAFEPQRAALLIHDMQDYFVSFWGENCPMMEQVIANIAALRDYCKQHNIPVYYTAQPKEQSDEDRALLNDMWGPGLTRSPEQQKVVDRLTPDADDTVLVKWRYSAFHRSPLEQMLKESGRNQLIITGVYAHIGCMTTATDAFMRDIKPFMVADALADFSRDEHLMSLKYVAGRSGRVVMTEELLPAPIPASKAALREVILPLLDESDEPFDDDNLIDYGLDSVRMMALAARWRKVHGDIDFVMLAKNPTIDAWWKLLSREVK" ["CCO-PM-BAC-NEG", "CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"ENTC-MONOMER" "isochorismate synthase EntC" ["FepF", "EntC", "isochorismate synthase, enterobactin-specific", "isochorismate synthase 1"] "MDTSLAEEVQQTMATLAPNRFFFMSPYRSFTTSGCFARFDEPAVNGDSPDSPFQQKLAALFADAKAQGIKNPVMVGAIPFDPRQPSSLYIPESWQSFSRQEKQASARRFTRSQSLNVVERQAIPEQTTFEQMVARAAALTATPQVDKVVLSRLIDITTDAAIDSGVLLERLIAQNPVSYNFHVPLADGGVLLGASPELLLRKDGERFSSIPLAGSARRQPDEVLDREAGNRLLASEKDRHEHELVTQAMKEVLRERSSELHVPSSPQLITTPTLWHLATPFEGKANSQENALTLACLLHPTPALSGFPHQAATQVIAELEPFDRELFGGIVGWCDSEGNGEWVVTIRCAKLRENQVRLFAGAGIVPASSPLGEWRETGVKLSTMLNVFGLH" [] ["CCO-CYTOSOL"] +"ENTD-MONOMER" "phosphopantetheinyl transferase EntD" ["EntD", "enterobactin synthetase component D", "enterochelin synthase D"] "MKTTHTSLPFAGHTLHFVEFDPANFCEQDLLWLPHYAQLQHAGRKRKTEHLAGRIAAVYALREYGYKCVPAIGELRQPVWPAEVYGSISHCGTTALAVVSRQPIGIDIEEIFSVQTARELTDNIITPAEHERLADCGLAFSLALTLAFSAKESAFKASEIQTDAGFLDYQIISWNKQQVIIHRENEMFAVHWQIKEKIVITLCQHD" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG", "CCO-CYTOSOL"] +"ENTE-MONOMER" "2,3-dihydroxybenzoate-AMP ligase" ["EntE"] "MSIPFTRWPEEFARRYREKGYWQDLPLTDILTRHAASDSIAVIDGERQLSYRELNQAADNLACSLRRQGIKPGETALVQLGNVAELYITFFALLKLGVAPVLALFSHQRSELNAYASQIEPALLIADRQHALFSGDDFLNTFVTEHSSIRVVQLLNDSGEHNLQDAINHPAEDFTATPSPADEVAYFQLSGGTTGTPKLIPRTHNDYYYSVRRSVEICQFTQQTRYLCAIPAAHNYAMSSPGSLGVFLAGGTVVLAADPSATLCFPLIEKHQVNVTALVPPAVSLWLQALIEGESRAQLASLKLLQVGGARLSATLAARIPAEIGCQLQQVFGMAEGLVNYTRLDDSAEKIIHTQGYPMCPDDEVWVADAEGNPLPQGEVGRLMTRGPYTFRGYYKSPQHNASAFDANGFYCSGDLISIDPEGYITVQGREKDQINRGGEKIAAEEIENLLLRHPAVIYAALVSMEDELMGEKSCAYLVVKEPLRAVQVRRFLREQGIAEFKLPDRVECVDSLPLTAVGKVDKKQLRQWLASRASA" ["CCO-CYTOSOL"] ["CCO-MEMBRANE", "CCO-CYTOSOL"] +"ENTF-MONOMER" "apo-serine activating enzyme" ["EntF"] "MSQHLPLVAAQPGIWMAEKLSELPSAWSVAHYVELTGEVDSPLLARAVVAGLAQADTLRMRFTEDNGEVWQWVDDALTFELPEIIDLRTNIDPHGTAQALMQADLQQDLRVDSGKPLVFHQLIQVADNRWYWYQRYHHLLVDGFSFPAITRQIANIYCTWLRGEPTPASPFTPFADVVEEYQQYRESEAWQRDAAFWAEQRRQLPPPASLSPAPLPGRSASADILRLKLEFTDGEFRQLATQLSGVQRTDLALALAALWLGRLCNRMDYAAGFIFMRRLGSAALTATGPVLNVLPLGIHIAAQETLPELATRLAAQLKKMRRHQRYDAEQIVRDSGRAAGDEPLFGPVLNIKVFDYQLDIPDVQAQTHTLATGPVNDLELALFPDVHGDLSIEILANKQRYDEPTLIQHAERLKMLIAQFAADPALLCGDVDIMLPGEYAQLAQLNATQVEIPETTLSALVAEQAAKTPDAPALADARYLFSYREMREQVVALANLLRERGVKPGDSVAVALPRSVFLTLALHAIVEAGAAWLPLDTGYPDDRLKMMLEDARPSLLITTDDQLPRFSDVPNLTSLCYNAPLTPQGSAPLQLSQPHHTAYIIFTSGSTGRPKGVMVGQTAIVNRLLWMQNHYPLTGEDVVAQKTPCSFDVSVWEFFWPFIAGAKLVMAEPEAHRDPLAMQQFFAEYGVTTTHFVPSMLAAFVASLTPQTARQSCATLKQVFCSGEALPADLCREWQQLTGAPLHNLYGPTEAAVDVSWYPAFGEELAQVRGSSVPIGYPVWNTGLRILDAMMHPVPPGVAGDLYLTGIQLAQGYLGRPDLTASRFIADPFAPGERMYRTGDVARWLDNGAVEYLGRSDDQLKIRGQRIELGEIDRVMQALPDVEQAVTHACVINQAAATGGDARQLVGYLVSQSGLPLDTSALQAQLRETLPPHMVPVVLLQLPQLPLSANGKLDRKALPLPELKAQAPGRAPKAGSETIIAAAFSSLLGCDVQDADADFFALGGHSLLAMKLAAQLSRQVARQVTPGQVMVASTVAKLATIIDAEEDSTRRMGFETILPLREGNGPTLFCFHPASGFAWQFSVLSRYLDPQWSIIGIQSPRPNGPMQTAANLDEVCEAHLATLLEQQPHGPYYLLGYSLGGTLAQGIAARLRARGEQVAFLGLLDTWPPETQNWQEKEANGLDPEVLAEINREREAFLAAQQGSTSTELFTTIEGNYADAVRLLTTAHSVPFDGKATLFVAERTLQEGMSPERAWSPWIAELDIYRQDCAHVDIISPGTFEKIGPIIRATLNR" ["CCO-PM-BAC-NEG", "CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"ENVZ-MONOMER" "sensor histidine kinase EnvZ" ["Tpo", "OmpB", "PerA", "EnvZ"] "MRRLRFSPRSSFARTLLLIVTLLFASLVTTYLVVLNFAILPSLQQFNKVLAYEVRMLMTDKLQLEDGTQLVVPPAFRREIYRELGISLYSNEAAEEAGLRWAQHYEFLSHQMAQQLGGPTEVRVEVNKSSPVVWLKTWLSPNIWVRVPLTEIHQGDFSPLFRYTLAIMLLAIGGAWLFIRIQNRPLVDLEHAALQVGKGIIPPPLREYGASEVRSVTRAFNHMAAGVKQLADDRTLLMAGVSHDLRTPLTRIRLATEMMSEQDGYLAESINKDIEECNAIIEQFIDYLRTGQEMPMEMADLNAVLGEVIAAESGYEREIETALYPGSIEVKMHPLSIKRAVANMVVNAARYGNGWIKVSSGTEPNRAWFQVEDDGPGIAPEQRKHLFQPFVRGDSARTISGTGLGLAIVQRIVDNHNGMLELGTSERGGLSIRAWLPVPVTRAQGTTKEG" ["CCO-PERI-BAC", "CCO-CYTOSOL", "CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"ERYTH4PDEHYDROG-MONOMER" "D-erythrose-4-phosphate dehydrogenase" ["GapB", "Gap2", "Epd"] "MTVRVAINGFGRIGRNVVRALYESGRRAEITVVAINELADAAGMAHLLKYDTSHGRFAWEVRQERDQLFVGDDAIRVLHERSLQSLPWRELGVDVVLDCTGVYGSREHGEAHIAAGAKKVLFSHPGSNDLDATVVYGVNQDQLRAEHRIVSNASCTTNCIIPVIKLLDDAYGIESGTVTTIHSAMHDQQVIDAYHPDLRRTRAASQSIIPVDTKLAAGITRFFPQFNDRFEAIAVRVPTINVTAIDLSVTVKKPVKANEVNLLLQKAAQGAFHGIVDYTELPLVSVDFNHDPHSAIVDGTQTRVSGAHLIKTLVWCDNEWGFANRMLDTTLAMATVAFR" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"ERYTHRON4PDEHYDROG-MONOMER" "erythronate-4-phosphate dehydrogenase" ["PdxB"] "MKILVDENMPYARDLFSRLGEVTAVPGRPIPVAQLADADALMVRSVTKVNESLLAGKPIKFVGTATAGTDHVDEAWLKQAGIGFSAAPGCNAIAVVEYVFSSLLMLAERDGFSLYDRTVGIVGVGNVGRRLQARLEALGIKTLLCDPPRADRGDEGDFRSLDELVQRADILTFHTPLFKDGPYKTLHLADEKLIRSLKPGAILINACRGAVVDNTALLTCLNEGQKLSVVLDVWEGEPELNVELLKKVDIGTSHIAGYTLEGKARGTTQVFEAYSKFIGHEQHVALDTLLPAPEFGRITLHGPLDQPTLKRLVHLVYDVRRDDAPLRKVAGIPGEFDKLRKNYLERREWSSLYVICDDASAASLLCKLGFNAVHHPAR" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EUTB-MONOMER" "ethanolamine ammonia-lyase subunit α" ["EutB"] "MKLKTTLFGNVYQFKDVKEVLAKANELRSGDVLAGVAAASSQERVAAKQVLSEMTVADIRNNPVIAYEDDCVTRLIQDDVNETAYNQIKNWSISELREYVLSDETSVDDIAFTRKGLTSEVVAAVAKICSNADLIYGAKKMPVIKKANTTIGIPGTFSARLQPNDTRDDVQSIAAQIYEGLSFGVGDAVIGVNPVTDDVENLSRVLDTIYGVIDKFNIPTQGCVLAHVTTQIEAIRRGAPGGLIFQSICGSEKGLKEFGVELAMLDEARAVGAEFNRIAGENCLYFETGQGSALSAGANFGADQVTMEARNYGLARHYDPFIVNTVVGFIGPEYLYNDRQIIRAGLEDHFMGKLSGISMGCDCCYTNHADADQNLNENLMILLATAGCNYIMGMPLGDDIMLNYQTTAFHDTATVRQLLNLRPSPEFERWLESMGIMANGRLTKRAGDPSLFF" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EUTC-MONOMER" "ethanolamine ammonia-lyase subunit β" ["EutC"] "MDQKQIEEIVRSVMASMGQAAPAPSEAKCATTNCAAPVTSESCALDLGSAEAKAWIGVENPHRADVLTELRRSTVARVCTGRAGPRPRTQALLRFLADHSRSKDTVLKEVPEEWVKAQGLLEVRSEISDKNLYLTRPDMGRRLCAEAVEALKAQCVANPDVQVVISDGLSTDAITVNYEEILPPLMAGLKQAGLKVGTPFFVRYGRVKIEDQIGEILGAKVVILLVGERPGLGQSESLSCYAVYSPRMATTVEADRTCISNIHQGGTPPVEAAAVIVDLAKRMLEQKASGINMTR" [] ["CCO-CYTOSOL"] +"EVGA-MONOMER" "DNA-binding transcriptional activator EvgA" ["EvgA response regulator"] "MNAIIIDDHPLAIAAIRNLLIKNDIEILAELTEGGSAVQRVETLKPDIVIIDVDIPGVNGIQVLETLRKRQYSGIIIIVSAKNDHFYGKHCADAGANGFVSKKEGMNNIIAAIEAAKNGYCYFPFSLNRFVGSLTSDQQKLDSLSKQEISVMRYILDGKDNNDIAEKMFISNKTVSTYKSRLMEKLECKSLMDLYTFAQRNKIG" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"EVGS-MONOMER" "sensor histidine kinase EvgS" [] "MKFLPYIFLLCCGLWSTISFADEDYIEYRGISSNNRVTLDPLRLSNKELRWLASKKNLVIAVHKSQTATLLHTDSQQRVRGINADYLNLLKRALNIKLTLREYADHQKAMDALAEGEVDIVLSHLVTSPPLNNDIAATKPLIITFPALVTTLHDSMRPLTSPKPVNIARVANYPPDEVIHQSFPKATIISFTNLYQALASVSAGHNDYFIGSNIITSSMISRYFTHSLNVVKYYNSPRQYNFFLTRKESVILNEVLNRFVDALTNEVRYEVSQNWLDTGNLAFLNKPLELTEHEKQWIKQHPNLKVLENPYSPPYSMTDENGSVRGVMGDILNIITLQTGLNFSPITVSHNIHAGTQLSPGGWDIIPGAIYSEDRENNVLFAEAFITTPYVFVMQKAPDSEQTLKKGMKVAIPYYYELHSQLKEMYPEVEWIQVDNASAAFHKVKEGELDALVATQLNSRYMIDHYYPNELYHFLIPGVPNASLSFAFPRGEPELKDIINKALNAIPPSEVLRLTEKWIKMPNVTIDTWDLYSEQFYIVTTLSVLLVGSSLLWGFYLLRSVRRRKVIQGDLENQISFRKALSDSLPNPTYVVNWQGNVISHNSAFEHYFTADYYKNAMLPLENSDSPFKDVFSNAHEVTAETKENRTIYTQVFEIDNGIEKRCINHWHTLCNLPASDNAVYICGWQDITETRDLINALEVEKNKAIKATVAKSQFLATMSHEIRTPISSIMGFLELLSGSGLSKEQRVEAISLAYATGQSLLGLIGEILDVDKIESGNYQLQPQWVDIPTLVQNTCHSFGAIAASKSIALSCSSTFPEHYLVKIDPQAFKQVLSNLLSNALKFTTEGAVKITTSLGHIDDNHAVIKMTIMDSGSGLSQEEQQQLFKRYSQTSAGRQQTGSGLGLMICKELIKNMQGDLSLESHPGIGTTFTITIPVEISQQVATVEAKAEQPITLPEKLSILIADDHPTNRLLLKRQLNLLGYDVDEATDGVQALHKVSMQHYDLLITDVNMPNMDGFELTRKLREQNSSLPIWGLTANAQANEREKGLSCGMNLCLFKPLTLDVLKTHLSQLHQVAHIAPQYRHLDIEALKNNTANDLQLMQEILMTFQHETHKDLPAAFQALEAGDNRTFHQCIHRIHGAANILNLQKLINISHQLEITPVSDDSKPEILQLLNSVKEHIAELDQEIAVFCQKND" [] ["CCO-MEMBRANE", "CCO-PERI-BAC", "CCO-CYTOSOL", "CCO-PM-BAC-NEG"] +"EXUT-MONOMER" "hexuronate transporter" ["ExuT"] "MRKIKGLRWYMIALVTLGTVLGYLTRNTVAAAAPTLMEELNISTQQYSYIIAAYSAAYTVMQPVAGYVLDVLGTKIGYAMFAVLWAVFCGATALAGSWGGLAVARGAVGAAEAAMIPAGLKASSEWFPAKERSIAVGYFNVGSSIGAMIAPPLVVWAIVMHSWQMAFIISGALSFIWAMAWLIFYKHPRDQKHLTDEERDYIINGQEAQHQVSTAKKMSVGQILRNRQFWGIALPRFLAEPAWGTFNAWIPLFMFKVYGFNLKEIAMFAWMPMLFADLGCILGGYLPPLFQRWFGVNLIVSRKMVVTLGAVLMIGPGMIGLFTNPYVAIMLLCIGGFAHQALSGALITLSSDVFGRNEVATANGLTGMSAWLASTLFALVVGALADTIGFSPLFAVLAVFDLLGALVIWTVLQNKPAIEVAQETHNDPAPQH" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"F16B-MONOMER" "fructose-1,6-bisphosphatase 1" ["Fdp", "Fbp", "fructose-1,6-bisphosphatase I"] "MKTLGEFIVEKQHEFSHATGELTALLSAIKLGAKIIHRDINKAGLVDILGASGAENVQGEVQQKLDLFANEKLKAALKARDIVAGIASEEEDEIVVFEGCEHAKYVVLMDPLDGSSNIDVNVSVGTIFSIYRRVTPVGTPVTEEDFLQPGNKQVAAGYVVYGSSTMLVYTTGCGVHAFTYDPSLGVFCLCQERMRFPEKGKTYSINEGNYIKFPNGVKKYIKFCQEEDKSTNRPYTSRYIGSLVADFHRNLLKGGIYLYPSTASHPDGKLRLLYECNPMAFLAEQAGGKASDGKERILDIIPETLHQRRSFFVGNDHMVEDVERFIREFPDA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"FABA-MONOMER" "β-hydroxyacyl-acyl carrier protein dehydratase/isomerase" ["FabA", "β-hydroxyacyl-ACP dehydratase/isomerase"] "MVDKRESYTKEDLLASGRGELFGAKGPQLPAPNMLMMDRVVKMTETGGNFDKGYVEAELDINPDLWFFGCHFIGDPVMPGCLGLDAMWQLVGFYLGWLGGEGKGRALGVGEVKFTGQVLPTAKKVTYRIHFKRIVNRRLIMGLADGEVLVDGRLIYTASDLKVGLFQDTSAF" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"FABB-MONOMER" "3-oxoacyl-[acyl carrier protein] synthase 1" ["FabC", "FabB", "β-ketoacyl-ACP synthase I", "β-ketoacyl-[acyl carrier protein] synthase I"] "MKRAVITGLGIVSSIGNNQQEVLASLREGRSGITFSQELKDSGMRSHVWGNVKLDTTGLIDRKVVRFMSDASIYAFLSMEQAIADAGLSPEAYQNNPRVGLIAGSGGGSPRFQVFGADAMRGPRGLKAVGPYVVTKAMASGVSACLATPFKIHGVNYSISSACATSAHCIGNAVEQIQLGKQDIVFAGGGEELCWEMACEFDAMGALSTKYNDTPEKASRTYDAHRDGFVIAGGGGMVVVEELEHALARGAHIYAEIVGYGATSDGADMVAPSGEGAVRCMKMAMHGVDTPIDYLNSHGTSTPVGDVKELAAIREVFGDKSPAISATKAMTGHSLGAAGVQEAIYSLLMLEHGFIAPSINIEELDEQAAGLNIVTETTDRELTTVMSNSFGFGGTNATLVMRKLKD" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"FABH-MONOMER" "3-oxoacyl-[acyl carrier protein] synthase 3" ["FabH", "β-ketoacyl-ACP synthase III", "β-ketoacyl-[acyl carrier protein] synthase III"] "MYTKIIGTGSYLPEQVRTNADLEKMVDTSDEWIVTRTGIRERHIAAPNETVSTMGFEAATRAIEMAGIEKDQIGLIVVATTSATHAFPSAACQIQSMLGIKGCPAFDVAAACAGFTYALSVADQYVKSGAVKYALVVGSDVLARTCDPTDRGTIIIFGDGAGAAVLAASEEPGIISTHLHADGSYGELLTLPNADRVNPENSIHLTMAGNEVFKVAVTELAHIVDETLAANNLDRSQLDWLVPHQANLRIISATAKKLGMSMDNVVVTLDRHGNTSAASVPCALDEAVRDGRIKPGQLVLLEAFGGGFTWGSALVRF" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"FABZ-MONOMER" "3-hydroxy-acyl-[acyl-carrier-protein] dehydratase" ["YaeA", "SefA", "FabZ"] "MTTNTHTLQIEEILELLPHRFPFLLVDRVLDFEEGRFLRAVKNVSVNEPFFQGHFPGKPIFPGVLILEAMAQATGILAFKSVGKLEPGELYYFAGIDEARFKRPVVPGDQMIMEVTFEKTRRGLTRFKGVALVDGKVVCEATMMCARSREA" [] ["CCO-CYTOSOL"] +"FADA-MONOMER" "3-ketoacyl-CoA thiolase" ["OldA", "FadA", "thiolase I"] "MEQVVIVDAIRTPMGRSKGGAFRNVRAEDLSAHLMRSLLARNPALEAAALDDIYWGCVQQTLEQGFNIARNAALLAEVPHSVPAVTVNRLCGSSMQALHDAARMIMTGDAQACLVGGVEHMGHVPMSHGVDFHPGLSRNVAKAAGMMGLTAEMLARMHGISREMQDAFAARSHARAWAATQSAAFKNEIIPTGGHDADGVLKQFNYDEVIRPETTVEALATLRPAFDPVNGMVTAGTSSALSDGAAAMLVMSESRAHELGLKPRARVRSMAVVGCDPSIMGYGPVPASKLALKKAGLSASDIGVFEMNEAFAAQILPCIKDLGLIEQIDEKINLNGGAIALGHPLGCSGARISTTLLNLMERKDVQFGLATMCIGLGQGIATVFERV" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"FADB-MONOMER" "multifunctional enoyl-CoA hydratase, 3-hydroxyacyl-CoA epimerase, Δ3-cis- Δ2-trans-enoyl-CoA isomerase, L-3-hydroxyacyl-CoA dehydrogenase" ["OldB", "FadB"] "MLYKGDTLYLDWLEDGIAELVFDAPGSVNKLDTATVASLGEAIGVLEQQSDLKGLLLRSNKAAFIVGADITEFLSLFLVPEEQLSQWLHFANSVFNRLEDLPVPTIAAVNGYALGGGCECVLATDYRLATPDLRIGLPETKLGIMPGFGGSVRMPRMLGADSALEIIAAGKDVGADQALKIGLVDGVVKAEKLVEGAKAVLRQAINGDLDWKAKRQPKLEPLKLSKIEATMSFTIAKGMVAQTAGKHYPAPITAVKTIEAAARFGREEALNLENKSFVPLAHTNEARALVGIFLNDQYVKGKAKKLTKDVETPKQAAVLGAGIMGGGIAYQSAWKGVPVVMKDINDKSLTLGMTEAAKLLNKQLERGKIDGLKLAGVISTIHPTLDYAGFDRVDIVVEAVVENPKVKKAVLAETEQKVRQDTVLASNTSTIPISELANALERPENFCGMHFFNPVHRMPLVEIIRGEKSSDETIAKVVAWASKMGKTPIVVNDCPGFFVNRVLFPYFAGFSQLLRDGADFRKIDKVMEKQFGWPMGPAYLLDVVGIDTAHHAQAVMAAGFPQRMQKDYRDAIDALFDANRFGQKNGLGFWRYKEDSKGKPKKEEDAAVEDLLAEVSQPKRDFSEEEIIARMMIPMVNEVVRCLEEGIIATPAEADMALVYGLGFPPFHGGAFRWLDTLGSAKYLDMAQQYQHLGPLYEVPEGLRNKARHNEPYYPPVEPARPVGDLKTA" [] [] +"FCL-MONOMER" "GDP-L-fucose synthase" ["YefB", "WcaG", "Fcl"] "MSKQRVFIAGHRGMVGSAIRRQLEQRGDVELVLRTRDELNLLDSRAVHDFFASERIDQVYLAAAKVGGIVANNTYPADFIYQNMMIESNIIHAAHQNDVNKLLFLGSSCIYPKLAKQPMAESELLQGTLEPTNEPYAIAKIAGIKLCESYNRQYGRDYRSVMPTNLYGPHDNFHPSNSHVIPALLRRFHEATAQNAPDVVVWGSGTPMREFLHVDDMAAASIHVMELAHEVWLENTQPMLSHINVGTGVDCTIRELAQTIAKVVGYKGRVVFDASKPDGTPRKLLDVTRLHQLGWYHEISLEAGLASTYQWFLENQDRFRG" [] ["CCO-CYTOSOL"] +"FDNG-MONOMER" "formate dehydrogenase N subunit α" ["FdnG"] "MDVSRRQFFKICAGGMAGTTVAALGFAPKQALAQARNYKLLRAKEIRNTCTYCSVGCGLLMYSLGDGAKNAREAIYHIEGDPDHPVSRGALCPKGAGLLDYVNSENRLRYPEYRAPGSDKWQRISWEEAFSRIAKLMKADRDANFIEKNEQGVTVNRWLSTGMLCASGASNETGMLTQKFARSLGMLAVDNQARVUHGPTVASLAPTFGRGAMTNHWVDIKNANVVMVMGGNAAEAHPVGFRWAMEAKNNNDATLIVVDPRFTRTASVADIYAPIRSGTDITFLSGVLRYLIENNKINAEYVKHYTNASLLVRDDFAFEDGLFSGYDAEKRQYDKSSWNYQLDENGYAKRDETLTHPRCVWNLLKEHVSRYTPDVVENICGTPKADFLKVCEVLASTSAPDRTTTFLYALGWTQHTVGAQNIRTMAMIQLLLGNMGMAGGGVNALRGHSNIQGLTDLGLLSTSLPGYLTLPSEKQVDLQSYLEANTPKATLADQVNYWSNYPKFFVSLMKSFYGDAAQKENNWGYDWLPKWDQTYDVIKYFNMMDEGKVTGYFCQGFNPVASFPDKNKVVSCLSKLKYMVVIDPLVTETSTFWQNHGESNDVDPASIQTEVFRLPSTCFAEEDGSIANSGRWLQWHWKGQDAPGEARNDGEILAGIYHHLRELYQSEGGKGVEPLMKMSWNYKQPHEPQSDEVAKENNGYALEDLYDANGVLIAKKGQLLSSFAHLRDDGTTASSCWIYTGSWTEQGNQMANRDNSDPSGLGNTLGWAWAWPLNRRVLYNRASADINGKPWDPKRMLIQWNGSKWTGNDIPDFGNAAPGTPTGPFIMQPEGMGRLFAINKMAEGPFPEHYEPIETPLGTNPLHPNVVSNPVVRLYEQDALRMGKKEQFPYVGTTYRLTEHFHTWTKHALLNAIAQPEQFVEISETLAAAKGINNGDRVTVSSKRGFIRAVAVVTRRLKPLNVNGQQVETVGIPIHWGFEGVARKGYIANTLTPNVGDANSQTPEYKAFLVNIEKA" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"FDNH-MONOMER" "formate dehydrogenase N subunit β" ["FdnH"] "MAMETQDIIKRSATNSITPPSQVRDYKAEVAKLIDVSTCIGCKACQVACSEWNDIRDEVGHCVGVYDNPADLSAKSWTVMRFSETEQNGKLEWLIRKDGCMHCEDPGCLKACPSAGAIIQYANGIVDFQSENCIGCGYCIAGCPFNIPRLNKEDNRVYKCTLCVDRVSVGQEPACVKTCPTGAIHFGTKKEMLELAEQRVAKLKARGYEHAGVYNPEGVGGTHVMYVLHHADQPELYHGLPKDPKIDTSVSLWKGALKPLAAAGFIATFAGLIFHYIGIGPNKEVDDDEEDHHE" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"FDNI-MONOMER" "formate dehydrogenase N subunit γ" ["FdnI", "formate dehydrogenase N cytochrome b subunit"] "MSKSKMIVRTKFIDRACHWTVVICFFLVALSGISFFFPTLQWLTQTFGTPQMGRILHPFFGIAIFVALMFMFVRFVHHNIPDKKDIPWLLNIVEVLKGNEHKVADVGKYNAGQKMMFWSIMSMIFVLLVTGVIIWRPYFAQYFPMQVVRYSLLIHAAAGIILIHAILIHMYMAFWVKGSIKGMIEGKVSRRWAKKHHPRWYREIEKAEAKKESEEGI" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"FDOG-MONOMER" "formate dehydrogenase O subunit α" ["FdoG"] "MQVSRRQFFKICAGGMAGTTAAALGFAPSVALAETRQYKLLRTRETRNTCTYCSVGCGLLMYSLGDGAKNAKASIFHIEGDPDHPVNRGALCPKGAGLVDFIHSESRLKFPEYRAPGSDKWQQISWEEAFDRIAKLMKEDRDANYIAQNAEGVTVNRWLSTGMLCASASSNETGYLTQKFSRALGMLAVDNQARVUHGPTVASLAPTFGRGAMTNHWVDIKNANLVVVMGGNAAEAHPVGFRWAMEAKIHNGAKLIVIDPRFTRTAAVADYYAPIRSGTDIAFLSGVLLYLLNNEKFNREYTEAYTNASLIVREDYGFEDGLFTGYDAEKRKYDKSSWTYELDENGFAKRDTTLQHPRCVWNLLKQHVSRYTPDVVENICGTPKDAFLKVCEYIAETSAHDKTASFLYALGWTQHSVGAQNIRTMAMIQLLLGNMGMAGGGVNALRGHSNIQGLTDLGLLSQSLPGYMTLPSEKQTDLQTYLTANTPKPLLEGQVNYWGNYPKFFVSMMKAFFGDKATAENSWGFDWLPKWDKGYDVLQYFEMMKEGKVNGYICQGFNPVASFPNKNKVIGCLSKLKFLVTIDPLNTETSNFWQNHGELNEVDSSKIQTEVFRLPSTCFAEENGSIVNSGRWLQWHWKGADAPGIALTDGEILSGIFLRLRKMYAEQGGANPDQVLNMTWNYAIPHEPSSEEVAMESNGKALADITDPATGAVIVKKGQQLSSFAQLRDDGTTSCGCWIFAGSWTPEGNQMARRDNADPSGLGNTLGWAWAWPLNRRILYNRASADPQGNPWDPKRQLLKWDGTKWTGWDIPDYSAAPPGSGVGPFIMQQEGMGRLFALDKMAEGPFPEHYEPFETPLGTNPLHPNVISNPAARIFKDDAEALGKADKFPYVGTTYRLTEHFHYWTKHALLNAILQPEQFVEIGESLANKLGIAQGDTVKVSSNRGYIKAKAVVTKRIRTLKANGKDIDTIGIPIHWGYEGVAKKGFIANTLTPFVGDANTQTPEFKSFLVNVEKV" ["CCO-CYTOSOL"] ["CCO-PERI-BAC"] +"FDOH-MONOMER" "formate dehydrogenase O subunit β" ["FdoH"] "MAYQSQDIIRRSATNGLTPAPQARDFQEEVAKLIDVTTCIGCKACQVACSEWNDIRDTVGNNIGVYDNPNDLSAKSWTVMRFSEVEQNDKLEWLIRKDGCMHCSDPGCLKACPAEGAIIQYANGIVDFQSEQCIGCGYCIAGCPFDIPRLNPEDNRVYKCTLCVDRVVVGQEPACVKTCPTGAIHFGTKESMKTLASERVAELKTRGYDNAGLYDPAGVGGTHVMYVLHHADKPNLYHGLPENPEISETVKFWKGIWKPLAAVGFAATFAASIFHYVGVGPNRADEEENNLHEEKDEERK" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"FDOI-MONOMER" "formate dehydrogenase O subunit γ" ["FdoI", "formate dehydrogenase O cytochrome b subunit"] "MKRRDTIVRYTAPERINHWITAFCFILAAVSGLGFLFPSFNWLMQIMGTPQLARILHPFVGVVMFASFIIMFFRYWHHNLINRDDIFWAKNIRKIVVNEEVGDTGRYNFGQKCVFWAAIIFLVLLLVSGVIIWRPYFAPAFSIPVIRFALMLHSFAAVALIVVIMVHIYAALWVKGTITAMVEGWVTSAWAKKHHPRWYREVRKTTEKKAE" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"FECB-MONOMER" "ferric citrate ABC transporter periplasmic binding protein" ["ferric dicitrate ABC transporter - periplasmic binding protein"] "MLAFIRFLFAGLLLVISHAFAATVQDEHGTFTLEKTPQRIVVLELSFADALAAVDVIPIGIADDNDAKRILPEVRAHLKPWQSVGTRAQPSLEAIAALKPDLIIADSSRHAGVYIALQQIAPVLLLKSRNETYAENLQSAAIIGEMVGKKREMQARLEQHKERMAQWASQLPKGTRVAFGTSREQQFNLHTQETWTGSVLASLGLNVPAAMAGASMPSIGLEQLLAVNPAWLLVAHYREESIVKRWQQDPLWQMLTAAQKQQVASVDSNTWARMRGIFAAERIAADTVKIFHHQPLTVVK" [] ["CCO-PERI-BAC"] +"FECC-MONOMER" "ferric citrate ABC transporter membrane subunit FecC" [] "MTAIKHPVLLWGLPVAALIIIFWLSLFCYSAIPVSGADATRALLPGHTPTLPEALVQNLRLPRSLVAVLIGASLALAGTLLQTLTHNPMASPSLLGINSGAALAMALTSALSPTPIAGYSLSFIAACGGGVSWLLVMTAGGGFRHTHDRNKLILAGIALSAFCMGLTRITLLLAEDHAYGIFYWLAGGVSHARWQDVWQLLPVVVTAVPVVLLLANQLNLLNLSDSTAHTLGVNLTRLRLVINMLVLLLVGACVSVAGPVAFIGLLVPHLARFWAGFDQRNVLPVSMLLGATLMLLADVLARALAFPGDLPAGAVLALIGSPCFVWLVRRRG" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"FECD-MONOMER" "ferric citrate ABC transporter membrane subunit FecD" [] "MKIALVIFITLALAGCALLSLHMGVIPVPWRALLTDWQAGHEHYYVLMEYRLPRLLLALFVGAALAVAGVLIQGIVRNPLASPDILGVNHAASLASVGALLLMPSLPVMVLPLLAFAGGMAGLILLKMLAKTHQPMKLALTGVALSACWASLTDYLMLSRPQDVNNALLWLTGSLWGRDWSFVKIAIPLMILFLPLSLSFCRDLDLLALGDARATTLGVSVPHTRFWALLLAVAMTSTGVAACGPISFIGLVVPHMMRSITGGRHRRLLPVSALTGALLLVVADLLARIIHPPLELPVGVLTAIIGAPWFVWLLVRMR" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"FECE-MONOMER" "ferric citrate ABC transporter ATP binding subunit" ["ferric dicitrate ABC transporter - ATP binding subunit"] "MTLRTENLTVSYGTDKVLNDVSLSLPTGKITALIGPNGCGKSTLLNCFSRLLMPQSGTVFLGDNPINMLSSRQLARRLSLLPQHHLTPEGITVQELVSYGRNPWLSLWGRLSAEDNARVNVAMNQTRINHLAVRRLTELSGGQRQRAFLAMVLAQNTPVVLLDEPTTYLDINHQVDLMRLMGELRTQGKTVVAVLHDLNQASRYCDQLVVMANGHVMAQGTPEEVMTPGLLRTVFSVEAEIHPEPVSGRPMCLMR" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"FEOB-MONOMER" "Fe2+ transporter FeoB" ["FeoB", "ferrous iron transporter", "ferrous iron transport protein B"] "MKKLTIGLIGNPNSGKTTLFNQLTGSRQRVGNWAGVTVERKEGQFSTTDHQVTLVDLPGTYSLTTISSQTSLDEQIACHYILSGDADLLINVVDASNLERNLYLTLQLLELGIPCIVALNMLDIAEKQNIRIEIDALSARLGCPVIPLVSTRGRGIEALKLAIDRYKANENVELVHYAQPLLNEADSLAKVMPSDIPLKQRRWLGLQMLEGDIYSRAYAGEASQHLDAALARLRNEMDDPALHIADARYQCIAAICDVVSNTLTAEPSRFTTAVDKIVLNRFLGLPIFLFVMYLMFLLAINIGGALQPLFDVGSVALFVHGIQWIGYTLHFPDWLTIFLAQGLGGGINTVLPLVPQIGMMYLFLSFLEDSGYMARAAFVMDRLMQALGLPGKSFVPLIVGFGCNVPSVMGARTLDAPRERLMTIMMAPFMSCGARLAIFAVFAAAFFGQNGALAVFSLYMLGIVMAVLTGLMLKYTIMRGEATPFVMELPVYHVPHVKSLIIQTWQRLKGFVLRAGKVIIIVSIFLSAFNSFSLSGKIVDNINDSALASVSRVITPVFKPIGVHEDNWQATVGLFTGAMAKEVVVGTLNTLYTAENIQDEEFNPAEFNLGEELFSAIDETWQSLKDTFSLSVLMNPIEASKGDGEMGTGAMGVMDQKFGSAAAAYSYLIFVLLYVPCISVMGAIARESSRGWMGFSILWGLNIAYSLATLFYQVASYSQHPTYSLVCILAVILFNIVVIGLLRRARSRVDIELLATRKSVSSCCAASTTGDCH" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"FEPB-MONOMER" "ferric enterobactin ABC transporter periplasmic binding protein" [] "MRLAPLYRNALLLTGLLLSGIAAVQAADWPRQITDSRGTHTLESQPQRIVSTSVTLTGSLLAIDAPVIASGATTPNNRVADDQGFLRQWSKVAKERKLQRLYIGEPSAEAVAAQMPDLILISATGGDSALALYDQLSTIAPTLIINYDDKSWQSLLTQLGEITGHEKQAAERIAQFDKQLAAAKEQIKLPPQPVTAIVYTAAAHSANLWTPESAQGQMLEQLGFTLAKLPAGLNASQSQGKRHDIIQLGGENLAAGLNGESLFLFAGDQKDADAIYANPLLAHLPAVQNKQVYALGTETFRLDYYSAMQVLDRLKALF" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"FEPC-MONOMER" "ferric enterobactin ABC transporter ATP binding subunit" [] "MTESVARLRGEQLTLGYGKYTVAENLTVEIPDGHFTAIIGPNGCGKSTLLRTLSRLMTPAHGHVWLDGEHIQHYASKEVARRIGLLAQNATTPGDITVQELVARGRYPHQPLFTRWRKEDEEAVTKAMQATGITHLADQSVDTLSGGQRQRAWIAMVLAQETAIMLLDEPTTWLDISHQIDLLELLSELNREKGYTLAAVLHDLNQACRYASHLIALREGKIVAQGAPKEIVTAELIERIYGLRCMIIDDPVAGTPLVVPLGRTAPSTANS" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-CYTOSOL", "CCO-PM-BAC-NEG"] +"FEPD-MONOMER" "ferric enterobactin ABC transporter membrane subunit FebD" ["FepD"] "MSGSVAVTRAIAVPGLLLLLIIATALSLLIGAKSLPASVVLEAFSGTCQSADCTIVLDARLPRTLAGLLAGGALGLAGALMQTLTRNPLADPGLLGVNAGASFAIVLGAALFGYSSAQEQLAMAFAGALVASLIVAFTGSQGGGQLSPVRLTLAGVALAAVLEGLTSGIALLNPDVYDQLRFWQAGSLDIRNLHTLKVVLIPVLIAGATALLLSRALNSLSLGSDTATALGSRVARTQLIGLLAITVLCGSATAIVGPIAFIGLMMPHMARWLVGADHRWSLPVTLLATPALLLFADIIGRVIVPGELRVSVVSAFIGAPVLIFLVRRKTRGGA" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"FEPG-MONOMER" "ferric enterobactin ABC transporter membrane subunit FepG" [] "MIYVSRRLLITCLLLVSACVVAGIWGLRSGAVTLETSQVFAALMGDAPRSMTMVVTEWRLPRVLMALLIGAALGVSGAIFQSLMRNPLGSPDVMGFNTGAWSGVLVAMVLFGQDLTAIALSAMVGGIVTSLLVWLLAWRNGIDTFRLIIIGIGVRAMLVAFNTWLLLKASLETALTAGLWNAGSLNGLTWAKTSPSAPIIILMLIAAALLVRRMRLLEMGDDTACALGVSVERSRLLMMLVAVVLTAAATALAGPISFIALVAPHIARRISGTARWGLTQAALCGALLLLAADLCAQQLFMPYQLPVGVVTVSLGGIYLIVLLIQESRKK" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"FERREDOXIN-MONOMER" "reduced ferredoxin" ["Fdx"] "MPKIVILPHQDLCPDGAVLEANSGETILDAALRNGIEIEHACEKSCACTTCHCIVREGFDSLPESSEQEDDMLDKAWGLEPESRLSCQARVTDEDLVVEIPRYTINHAREH" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"FGAMSYN-MONOMER" null ["PurI", "PurL"] "MMEILRGSPALSAFRINKLLARFQAARLPVHNIYAEYVHFADLNAPLNDDEHAQLERLLKYGPALASHAPQGKLLLVTPRPGTISPWSSKATDIAHNCGLQQVNRLERGVAYYIEAGTLTNEQWQQVTAELHDRMMETVFFALDDAEQLFAHHQPTPVTSVDLLGQGRQALIDANLRLGLALAEDEIDYLQDAFTKLGRNPNDIELYMFAQANSEHCRHKIFNADWVIDGEQQPKSLFKMIKNTFETTPDHVLSAYKDNAAVMEGSEVGRYFADHETGRYDFHQEPAHILMKVETHNHPTAISPWPGAATGSGGEIRDEGATGRGAKPKAGLVGFSVSNLRIPGFEQPWEEDFGKPERIVTALDIMTEGPLGGAAFNNEFGRPALNGYFRTYEEKVNSHNGEELRGYHKPIMLAGGIGNIRADHVQKGEINVGAKLVVLGGPAMNIGLGGGAASSMASGQSDADLDFASVQRDNPEMERRCQEVIDRCWQLGDANPILFIHDVGAGGLSNAMPELVSDGGRGGKFELREILSDEPGMSPLEIWCNESQERYVLAVAADQLPLFDELCKRERAPYAVIGEATEELHLSLHDRHFDNQPIDLPLDVLLGKTPKMTRDVQTLKAKGDALAREGITIADAVKRVLHLPTVAEKTFLVTIGDRSVTGMVARDQMVGPWQVPVANCAVTTASLDSYYGEAMAIGERAPVALLDFAASARLAVGEALTNIAATQIGDIKRIKLSANWMAAAGHPGEDAGLYEAVKAVGEELCPALGLTIPVGKDSMSMKTRWQEGNEEREMTSPLSLVISAFARVEDVRHTITPQLSTEDNALLLIDLGKGNNALGATALAQVYRQLGDKPADVRDVAQLKGFYDAIQALVAQRKLLAYHDRSDGGLLVTLAEMAFAGHCGIDADIATLGDDRLAALFNEELGAVIQVRAADREAVESVLAQHGLADCVHYVGQAVSGDRFVITANGQTVFSESRTTLRVWWAETTWQMQRLRDNPECADQEHQAKSNDADPGLNVKLSFDINEDVAAPYIATGARPKVAVLREQGVNSHVEMAAAFHRAGFDAIDVHMSDLLTGRTGLEDFHALVACGGFSYGDVLGAGEGWAKSILFNDRVRDEFATFFHRPQTLALGVCNGCQMMSNLRELIPGSELWPRFVRNTSDRFEARFSLVEVTQSPSLLLQGMVGSQMPIAVSHGEGRVEVRDAAHLAALESKGLVALRYVDNFGKVTETYPANPNGSPNGITAVTTESGRVTIMMPHPERVFRTVSNSWHPENWGEDGPWMRIFRNARKQLG" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"FHUB-MONOMER" "iron(III) hydroxamate ABC transporter membrane subunit" [] "MSKRIALFPALLLALLVIVATALTWMNFSQALPRSQWAQAAWSPDIDVIEQMIFHYSLLPRLAISLLVGAGLGLVGVLFQQVLRNPLAEPTTLGVATGAQLGITVTTLWAIPGAMASQFAAQAGACVVGLIVFGVAWGKRLSPVTLILAGLVVSLYCGAINQLLVIFHHDQLQSMFLWSTGTLTQTDWGGVERLWPQLLGGVMLTLLLLRPLTLMGLDDGVARNLGLALSLARLAALSLAIVISALLVNAVGIIGFIGLFAPLLAKMLGARRLLPRLMLASLIGALILWLSDQIILWLTRVWMEVSTGSVTALIGAPLLLWLLPRLRSISAPDMKVNDRVAAERQHVLAFALAGGVLLLMAVVVALSFGRDAHGWTWASGALLEDLMPWRWPRIMAALFAGVMLAVAGCIIQRLTGNPMASPEVLGISSGAAFGVVLMLFLVPGNAFGWLLPAGSLGAAVTLLIIMIAAGRGGFSPHRMLLAGMALSTAFTMLLMMLQASGDPRMAQVLTWISGSTYNATDAQVWRTGIVMVILLAITPLCRRWLTILPLGGDTARAVGMALTPTRIALLLLAACLTATATMTIGPLSFVGLMAPHIARMMGFRRTMPHIVISALVGGLLLVFADWCGRMVLFPFQIPAGLLSTFIGAPYFIYLLRKQSR" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"FHUC-MONOMER" "iron(III) hydroxamate ABC transporter ATP binding subunit" [] "MQEYTNHSDTTFALRNISFRVPGRTLLHPLSLTFPAGKVTGLIGHNGSGKSTLLKMLGRHQPPSEGEILLDAQPLESWSSKAFARKVAYLPQQLPPAEGMTVRELVAIGRYPWHGALGRFGAADREKVEEAISLVGLKPLAHRLVDSLSGGERQRAWIAMLVAQDSRCLLLDEPTSALDIAHQVDVLSLVHRLSQERGLTVIAVLHDINMAARYCDYLVALRGGEMIAQGTPAEIMRGETLEMIYGIPMGILPHPAGAAPVSFVY" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"FHUD-MONOMER" "iron(III) hydroxamate ABC transporter periplasmic binding protein" [] "MSGLPLISRRRLLTAMALSPLLWQMNTAHAAAIDPNRIVALEWLPVELLLALGIVPYGVADTINYRLWVSEPPLPDSVIDVGLRTEPNLELLTEMKPSFMVWSAGYGPSPEMLARIAPGRGFNFSDGKQPLAMARKSLTEMADLLNLQSAAETHLAQYEDFIRSMKPRFVKRGARPLLLTTLIDPRHMLVFGPNSLFQEILDEYGIPNAWQGETNFWGSTAVSIDRLAAYKDVDVLCFDHDNSKDMDALMATPLWQAMPFVRAGRFQRVPAVWFYGATLSAMHFVRVLDNAIGGKA" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"FLAVODOXIN1-MONOMER" "flavodoxin 1" ["FldA"] "MAITGIFFGSDTGNTENIAKMIQKQLGKDVADVHDIAKSSKEDLEAYDILLLGIPTWYYGEAQCDWDDFFPTLEEIDFNGKLVALFGCGDQEDYAEYFCDALGTIRDIIEPRGATIVGHWPTAGYHFEASKGLADDDHFVGLAIDEDRQPELTAERVEKWVKQISEELHLDEILNA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"FLAVODOXIN2-MONOMER" "flavodoxin 2" ["FldB"] "MNMGLFYGSSTCYTEMAAEKIRDIIGPELVTLHNLKDDSPKLMEQYDVLILGIPTWDFGEIQEDWEAVWDQLDDLNLEGKIVALYGLGDQLGYGEWFLDALGMLHDKLSTKGVKFVGYWPTEGYEFTSPKPVIADGQLFVGLALDETNQYDLSDERIQSWCEQILNEMAEHYA" [] ["CCO-CYTOSOL"] +"FLAVONADPREDUCT-MONOMER" "flavodoxin/ferredoxin-NADP+ reductase" ["FlxR", "MvrA", "Fpr", "dA1"] "MADWVTGKVTKVQNWTDALFSLTVHAPVLPFTAGQFTKLGLEIDGERVQRAYSYVNSPDNPDLEFYLVTVPDGKLSPRLAALKPGDEVQVVSEAAGFFVLDEVPHCETLWMLATGTAIGPYLSILQLGKDLDRFKNLVLVHAARYAADLSYLPLMQELEKRYEGKLRIQTVVSRETAAGSLTGRIPALIESGELESTIGLPMNKETSHVMLCGNPQMVRDTQQLLKETRQMTKHLRRRPGHMTAEHYW" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"FLGB-FLAGELLAR-MOTOR-ROD-PROTEIN" "flagellar basal-body rod protein FlgB" ["FlbA", "FlgB"] "MLDKLDAALRFQQEALNLRAQRQEVLAANIANADTPGYQARDIDFASELKKVMQRGRDATSVVALTMTSTQHIPAQALTPPTAELQYRIPDQPSLDGNTVDMDRERTQFADNSLQYQMSLSALSGQIKGMMNVLQSGN" ["CCO-CELL-PROJECTION"] ["CCO-PERI-BAC", "CCO-CELL-PROJECTION"] +"FLGC-FLAGELLAR-MOTOR-ROD-PROTEIN" "flagellar basal-body rod protein FlgC" ["FlaW", "FlgC"] "MALLNIFDIAGSALTAQSQRLNVAASNLANADSVTGPDGQPYRAKQVVFQVNAAPGAATGGVKVADVIESQAPDKLVYEPGNPLADAKGYVKMPNVDVVGEMVNTMSASRSYQANVEVLNTVKSMMLKTLTLGQ" ["CCO-CELL-PROJECTION"] ["CCO-PERI-BAC", "CCO-CELL-PROJECTION"] +"FLGF-FLAGELLAR-MOTOR-ROD-PROTEIN" "flagellar basal-body rod protein FlgF" ["FlaX", "FlgF"] "MDHAIYTAMGAASQTLNQQAVTASNLANASTPGFRAQLNALRAVPVEGLSLPTRTLVTASTPGADMTPGKMDYTSRPLDVALQQDGWLAVQTADGSEGYTRNGSIQVDPTGQLTIQGHPVIGEAGPIAVPEGAEITIAADGTISALNPGDPANTVAPVGRLKLVKATGSEVQRGDDGIFRLSAETQATRGPVLQADPTLRVMSGVLEGSNVNAVAAMSDMIASARRFEMQMKVISSVDDNAGRANQLLSMS" ["CCO-CELL-PROJECTION"] ["CCO-CELL-PROJECTION"] +"FLGG-FLAGELLAR-MOTOR-ROD-PROTEIN" "flagellar basal-body rod protein FlgG" ["FlaL", "FlgG"] "MISSLWIAKTGLDAQQTNMDVIANNLANVSTNGFKRQRAVFEDLLYQTIRQPGAQSSEQTTLPSGLQIGTGVRPVATERLHSQGNLSQTNNSKDVAIKGQGFFQVMLPDGSSAYTRDGSFQVDQNGQLVTAGGFQVQPAITIPANALSITIGRDGVVSVTQQGQAAPVQVGQLNLTTFMNDTGLESIGENLYTETQSSGAPNESTPGLNGAGLLYQGYVETSNVNVAEELVNMIQVQRAYEINSKAVSTTDQMLQKLTQL" ["CCO-OUTER-MEM", "CCO-CELL-PROJECTION"] ["CCO-CELL-PROJECTION"] +"FLGH-FLAGELLAR-L-RING" "flagellar L-ring protein" ["FlaY", "FlgH"] "MQKNAAHTYAISSLLVLSLTGCAWIPSTPLVQGATSAQPVPGPTPVANGSIFQSAQPINYGYQPLFEDRRPRNIGDTLTIVLQENVSASKSSSANASRDGKTNFGFDTVPRYLQGLFGNARADVEASGGNTFNGKGGANASNTFSGTLTVTVDQVLVNGNLHVVGEKQIAINQGTEFIRFSGVVNPRTISGSNTVPSTQVADARIEYVGNGYINEAQNMGWLQRFFLNLSPM" [] ["CCO-CELL-PROJECTION", "CCO-MEMBRANE", "CCO-OUTER-MEM"] +"FLGI-FLAGELLAR-P-RING" "flagellar P-ring protein" ["FlaM", "FlgI"] "MIKFLSALILLLVTTAAQAERIRDLTSVQGVRQNSLIGYGLVVGLDGTGDQTTQTPFTTQTLNNMLSQLGITVPTGTNMQLKNVAAVMVTASLPPFGRQGQTIDVVVSSMGNAKSLRGGTLLMTPLKGVDSQVYALAQGNILVGGAGASAGGSSVQVNQLNGGRITNGAVIERELPSQFGVGNTLNLQLNDEDFSMAQQIADTINRVRGYGSATALDARTIQVRVPSGNSSQVRFLADIQNMQVNVTPQDAKVVINSRTGSVVMNREVTLDSCAVAQGNLSVTVNRQANVSQPDTPFGGGQTVVTPQTQIDLRQSGGSLQSVRSSASLNNVVRALNALGATPMDLMSILQSMQSAGCLRAKLEII" ["CCO-CELL-PROJECTION"] ["CCO-PERI-BAC", "CCO-CELL-PROJECTION"] +"FLIF-FLAGELLAR-MS-RING" "flagellar basal-body MS-ring and collar protein" ["FliF"] "MNATAAQTKSLEWLNRLRANPKIPLIVAGSAAVAVMVALILWAKAPDYRTLFSNLSDQDGGAIVSQLTQMNIPYRFSEASGAIEVPADKVHELRLRLAQQGLPKGGAVGFELLDQEKFGISQFSEQVNYQRALEGELSRTIETIGPVKGARVHLAMPKPSLFVREQKSPSASVTVNLLPGRALDEGQISAIVHLVSSAVAGLPPGNVTLVDQGGHLLTQSNTSGRDLNDAQLKYASDVEGRIQRRIEAILSPIVGNGNIHAQVTAQLDFASKEQTEEQYRPNGDESHAALRSRQLNESEQSGSGYPGGVPGALSNQPAPANNAPISTPPANQNNRQQQASTTSNSGPRSTQRNETSNYEVDRTIRHTKMNVGDVQRLSVAVVVNYKTLPDGKPLPLSNEQMKQIEDLTREAMGFSEKRGDSLNVVNSPFNSSDESGGELPFWQQQAFIDQLLAAGRWLLVLLVAWLLWRKAVRPQLTRRAEAMKAVQQQAQAREEVEDAVEVRLSKDEQLQQRRANQRLGAEVMSQRIREMSDNDPRVVALVIRQWINNDHE" [] ["CCO-MEMBRANE", "CCO-PERI-BAC", "CCO-PM-BAC-NEG", "CCO-CYTOSOL", "CCO-CELL-PROJECTION"] +"FLIG-FLAGELLAR-SWITCH-PROTEIN" "flagellar motor switch protein FliG" ["FliG"] "MSNLTGTDKSVILLMTIGEDRAAEVFKHLSQREVQTLSAAMANVTQISNKQLTDVLAEFEQEAEQFAALNINANDYLRSVLVKALGEERAASLLEDILETRDTASGIETLNFMEPQSAADLIRDEHPQIIATILVHLKRAQAADILALFDERLRHDVMLRIATFGGVQPAALAELTEVLNGLLDGQNLKRSKMGGVRTAAEIINLMKTQQEEAVITAVREFDGELAQKIIDEMFLFENLVDVDDRSIQRLLQEVDSESLLIALKGAEQPLREKFLRNMSQRAADILRDDLANRGPVRLSQVENEQKAILLIVRRLAETGEMVIGSGEDTYV" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-CELL-PROJECTION", "CCO-PM-BAC-NEG"] +"FLIM-FLAGELLAR-C-RING-SWITCH" "flagellar motor switch protein FliM" ["FlaA", "Fla", "FlaQ", "FliM"] "MGDSILSQAEIDALLNGDSEVKDEPTASVSGESDIRPYDPNTQRRVVRERLQALEIINERFARHFRMGLFNLLRRSPDITVGAIRIQPYHEFARNLPVPTNLNLIHLKPLRGTGLVVFSPSLVFIAVDNLFGGDGRFPTKVEGREFTHTEQRVINRMLKLALEGYSDAWKAINPLEVEYVRSEMQVKFTNITTSPNDIVVNTPFHVEIGNLTGEFNICLPFSMIEPLRELLVNPPLENSRNEDQNWRDNLVRQVQHSQLELVANFADISLRLSQILKLNPGDVLPIEKPDRIIAHVDGVPVLTSQYGTLNGQYALRIEHLINPILNSLNEEQPK" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE", "CCO-CELL-PROJECTION"] +"FLIN-FLAGELLAR-C-RING-SWITCH" "flagellar motor switch protein FliN" ["MotD", "FliN"] "MSDMNNPADDNNGAMDDLWAEALSEQKSTSSKSAAETVFQQFGGGDVSGTLQDIDLIMDIPVKLTVELGRTRMTIKELLRLTQGSVVALDGLAGEPLDILINGYLIAQGEVVVVADKYGVRITDIITPSERMRRLSR" [] ["CCO-MEMBRANE", "CCO-CELL-PROJECTION", "CCO-PM-BAC-NEG"] +"FMNREDUCT-MONOMER" "NAD(P)H-flavin reductase" ["FsrC", "FlrD", "FadI", "Fre"] "MTTLSCKVTSVEAITDTVYRVRIVPDAAFSFRAGQYLMVVMDERDKRPFSMASTPDEKGFIELHIGASEINLYAKAVMDRILKDHQIVVDIPHGEAWLRDDEERPMILIAGGTGFSYARSILLTALARNPNRDITIYWGGREEQHLYDLCELEALSLKHPGLQVVPVVEQPEAGWRGRTGTVLTAVLQDHGTLAEHDIYIAGRFEMAKIARDLFCSERNAREDRLFGDAFAFI" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"FOCA-MONOMER" "formate channel FocA" ["YcaE", "FocA"] "MKADNPFDLLLPAAMAKVAEEAGVYKATKHPLKTFYLAITAGVFISIAFVFYITATTGTGTMPFGMAKLVGGICFSLGLILCVVCGADLFTSTVLIVVAKASGRITWGQLAKNWLNVYFGNLVGALLFVLLMWLSGEYMTANGQWGLNVLQTADHKVHHTFIEAVCLGILANLMVCLAVWMSYSGRSLMDKAFIMVLPVAMFVASGFEHSIANMFMIPMGIVIRDFASPEFWTAVGSAPENFSHLTVMNFITDNLIPVTIGNIIGGGLLVGLTYWVIYLRENDHH" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"FOCB-MONOMER" "formate channel FocB" ["FocB"] "MRNKLSFDLQLSARKAAIAERIAAHKIARSKVSVFLMAMSAGVFMAIGFTFYLSVIADAPSSQALTHLVGGLCFTLGFILLAVCGTSLFTSSVMTVMAKSRGVISWRTWLINALLVACGNLAGIACFSLLIWFSGLVMSENAMWGVAVLHCAEGKMHHTFTESVSLGIMCNLMVCLALWMSYCGRSLCDKIVAMILPITLFVASGFEHCIANLFVIPFAIAIRHFAPPPFWQLAHSSADNFPALTVSHFITANLLPVMLGNIIGGAVLVSMCYRAIYLRQEP" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"FOLC-MONOMER" "bifunctional folylpolyglutamate synthetase / dihydrofolate synthetase" ["DedC", "FolC"] "MIIKRTPQAASPLASWLSYLENLHSKTIDLGLERVSLVAARLGVLKPAPFVFTVAGTNGKGTTCRTLESILMAAGYKVGVYSSPHLVRYTERVRVQGQELPESAHTASFAEIESARGDISLTYFEYGTLSALWLFKQAQLDVVILEVGLGGRLDATNIVDADVAVVTSIALDHTDWLGPDRESIGREKAGIFRSEKPAIVGEPEMPSTIADVAQEKGALLQRRGVEWNYSVTDHDWAFSDAHGTLENLPLPLVPQPNAATALAALRASGLEVSENAIRDGIASAILPGRFQIVSESPRVIFDVAHNPHAAEYLTGRMKALPKNGRVLAVIGMLHDKDIAGTLAWLKSVVDDWYCAPLEGPRGATAEQLLEHLGNGKSFDSVAQAWDAAMADAKAEDTVLVCGSFHTVAHVMEVIDARRSGGK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"FOLD-MONOMER" "bifunctional methylenetetrahydrofolate dehydrogenase / methenyltetrahydrofolate cyclohydrolase" ["Ads", "FolD"] "MAAKIIDGKTIAQQVRSEVAQKVQARIAAGLRAPGLAVVLVGSNPASQIYVASKRKACEEVGFVSRSYDLPETTSEAELLELIDTLNADNTIDGILVQLPLPAGIDNVKVLERIHPDKDVDGFHPYNVGRLCQRAPRLRPCTPRGIVTLLERYNIDTFGLNAVVIGASNIVGRPMSMELLLAGCTTTVTHRFTKNLRHHVENADLLIVAVGKPGFIPGDWIKEGAIVIDVGINRLENGKVVGDVVFEDAAKRASYITPVPGGVGPMTVATLIENTLQACVEYHDPQDE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"FORMATEDEHYDROGH-MONOMER" "formate dehydrogenase H" ["ChlF", "FdhF", "FDH-H"] "MKKVVTVCPYCASGCKINLVVDNGKIVRAEAAQGKTNQGTLCLKGYYGWDFINDTQILTPRLKTPMIRRQRGGKLEPVSWDEALNYVAERLSAIKEKYGPDAIQTTGSSRGTGNETNYVMQKFARAVIGTNNVDCCARVUHGPSVAGLHQSVGNGAMSNAINEIDNTDLVFVFGYNPADSHPIVANHVINAKRNGAKIIVCDPRKIETARIADMHIALKNGSNIALLNAMGHVIIEENLYDKAFVASRTEGFEEYRKIVEGYTPESVEDITGVSASEIRQAARMYAQAKSAAILWGMGVTQFYQGVETVRSLTSLAMLTGNLGKPHAGVNPVRGQNNVQGACDMGALPDTYPGYQYVKDPANREKFAKAWGVESLPAHTGYRISELPHRAAHGEVRAAYIMGEDPLQTDAELSAVRKAFEDLELVIVQDIFMTKTASAADVILPSTSWGEHEGVFTAADRGFQRFFKAVEPKWDLKTDWQIISEIATRMGYPMHYNNTQEIWDELRHLCPDFYGATYEKMGELGFIQWPCRDTSDADQGTSYLFKEKFDTPNGLAQFFTCDWVAPIDKLTDEYPMVLSTVREVGHYSCRSMTGNCAALAALADEPGYAQINTEDAKRLGIEDEALVWVHSRKGKIITRAQVSDRPNKGAIYMTYQWWIGACNELVTENLSPITKTPEYKYCAVRVEPIADQRAAEQYVIDEYNKLKTRLREAALA" ["CCO-CYTOSOL"] ["CCO-PERI-BAC"] +"FORMYLTHFDEFORMYL-MONOMER" "formyltetrahydrofolate deformylase" ["YchI", "Tgs", "PurU"] "MHSLQRKVLRTICPDQKGLIARITNICYKHELNIVQNNEFVDHRTGRFFMRTELEGIFNDSTLLADLDSALPEGSVRELNPAGRRRIVILVTKEAHCLGDLLMKANYGGLDVEIAAVIGNHDTLRSLVERFDIPFELVSHEGLTRNEHDQKMADAIDAYQPDYVVLAKYMRVLTPEFVARFPNKIINIHHSFLPAFIGARPYHQAYERGVKIIGATAHYVNDNLDEGPIIMQDVIHVDHTYTAEDMMRAGRDVEKNVLSRALYKVLAQRVFVYGNRTIIL" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"FPPSYN-MONOMER" "geranyl diphosphate/farnesyl diphosphate synthase" ["IspA"] "MDFPQQLEACVKQANQALSRFIAPLPFQNTPVVETMQYGALLGGKRLRPFLVYATGHMFGVSTNTLDAPAAAVECIHAYSLIHDDLPAMDDDDLRRGLPTCHVKFGEANAILAGDALQTLAFSILSDADMPEVSDRDRISMISELASASGIAGMCGGQALDLDAEGKHVPLDALERIHRHKTGALIRAAVRLGALSAGDKGRRALPVLDKYAESIGLAFQVQDDILDVVGDTATLGKRQGADQQLGKSTYPALLGLEQARKKARDLIDDARQSLKQLAEQSLDTSALEALADYIIQRNK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"FRUA-MONOMER" "fructose-specific PTS multiphosphoryl transfer protein FruA" ["FruA", "PtsF", "Enzyme IIBCfru", "EIIBCfru", "EIIB'BCfru", "Enzyme IIB'BCfru"] "MKTLLIIDANLGQARAYMAKTLLGAAARKAKLEIIDNPNDAEMAIVLGDSIPNDSALNGKNVWLGDISRAVAHPELFLSEAKGHAKPYTAPVAATAPVAASGPKRVVAVTACPTGVAHTFMAAEAIETEAKKRGWWVKVETRGSVGAGNAITPEEVAAADLVIVAADIEVDLAKFAGKPMYRTSTGLALKKTAQELDKAVAEATPYEPAGKAQTATTESKKESAGAYRHLLTGVSYMLPMVVAGGLCIALSFAFGIEAFKEPGTLAAALMQIGGGSAFALMVPVLAGYIAFSIADRPGLTPGLIGGMLAVSTGSGFIGGIIAGFLAGYIAKLISTQLKLPQSMEALKPILIIPLISSLVVGLAMIYLIGKPVAGILEGLTHWLQTMGTANAVLLGAILGGMMCTDMGGPVNKAAYAFGVGLLSTQTYGPMAAIMAAGMVPPLAMGLATMVARRKFDKAQQEGGKAALVLGLCFISEGAIPFAARDPMRVLPCCIVGGALTGAISMAIGAKLMAPHGGLFVLLIPGAITPVLGYLVAIIAGTLVAGLAYAFLKRPEVDAVAKAA" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"FRUB-MONOMER" "fructose-specific PTS multiphosphoryl transfer protein FruB" ["FruB", "Fpr", "FruF", "diphosphoryl transfer protein", "DTP", "EIIA-M-Hfru", "EIIAfru", "Enzyme IIAfru", "EIIIfru", "Enzyme IIIfru"] "MFQLSVQDIHPGEKAGDKEEAIRQVAAALVQAGNVAEGYVNGMLAREQQTSTFLGNGIAIPHGTTDTRDQVLKTGVQVFQFPEGVTWGDGQVAYVAIGIAASSDEHLGLLRQLTHVLSDDSVAEQLKSATTAEELRALLMGEKQSEQLKLDNEMLTLDIVASDLLTLQALNAARLKEAGAVDATFVTKAINEQPLNLGQGIWLSDSAEGNLRSAIAVSRAANAFDVDGETAAMLVSVAMNDDQPIAVLKRLADLLLDNKADRLLKADAATLLALLTSDDAPTDDVLSAEFVVRNEHGLHARPGTMLVNTIKQFNSDITVTNLDGTGKPANGRSLMKVVALGVKKGHRLRFTAQGADAEQALKAIGDAIAAGLGEGA" ["CCO-PM-BAC-NEG"] ["CCO-PM-BAC-NEG", "CCO-CYTOSOL"] +"FRUCBISALD-CLASSI-MONOMER" "fructose-bisphosphate aldolase class I" ["DhnA", "FbaB"] "MTDIAQLLGKDADNLLQHRCMTIPSDQLYLPGHDYVDRVMIDNNRPPAVLRNMQTLYNTGRLAGTGYLSILPVDQGVEHSAGASFAANPLYFDPKNIVELAIEAGCNCVASTYGVLASVSRRYAHRIPFLVKLNHNETLSYPNTYDQTLYASVEQAFNMGAVAVGATIYFGSEESRRQIEEISAAFERAHELGMVTVLWAYLRNSAFKKDGVDYHVSADLTGQANHLAATIGADIVKQKMAENNGGYKAINYGYTDDRVYSKLTSENPIDLVRYQLANCYMGRAGLINSGGAAGGETDLSDAVRTAVINKRAGGMGLILGRKAFKKSMADGVKLINAVQDVYLDSKITIA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"FRUCTBISALD-CLASSII-MONOMER" "fructose-bisphosphate aldolase class II" ["Fda", "Ald", "FbaA", "Fba"] "MSKIFDFVKPGVITGDDVQKVFQVAKENNFALPAVNCVGTDSINAVLETAAKVKAPVIVQFSNGGASFIAGKGVKSDVPQGAAILGAISGAHHVHQMAEHYGVPVILHTDHCAKKLLPWIDGLLDAGEKHFAATGKPLFSSHMIDLSEESLQENIEICSKYLERMSKIGMTLEIELGCTGGEEDGVDNSHMDASALYTQPEDVDYAYTELSKISPRFTIAASFGNVHGVYKPGNVVLTPTILRDSQEYVSKKHNLPHNSLNFVFHGGSGSTAQEIKDSVSYGVVKMNIDTDTQWATWEGVLNYYKANEAYLQGQLGNPKGEDQPNKKYYDPRVWLRAGQTSMIARLEKAFQELNAIDVL" ["CCO-CYTOSOL"] ["CCO-CW-BAC-NEG", "CCO-PM-BAC-NEG", "CCO-CYTOSOL"] +"FRVA-MONOMER" "putative PTS enzyme IIA component FrvA" ["FrvA", "YiiK"] "MAALTASCIDLNIQGNGAYSVLKQLATIALQNGFITDSHQFLQTLLLREKMHSTGFGSGVAVPHGKSACVKQPFVLFARKAQAIDWKASDGEDVNCWICLGVPQSGEEDQVKIIGTLCRKIIHKEFIHQLQQGDTDQVLALLNQTLSS" [] ["CCO-MEMBRANE", "CCO-CYTOSOL"] +"FRVB-MONOMER" "putative PTS enzyme IIBC component FrvB" ["FrvB", "YiiJ"] "MESSLRIVAITNCPAGIAHTYMVAEALEQKARSLGHTIKVETQGSSGVENRLSSEEIAAADYVILATGRGLSGDDRARFAGKKVYEIAISQALKNIDQIFSELPTNSQLFAADSGVKLGKQEVQSGSVMSHLMAGVSAALPFVIGGGILVALANMLVQFGLPYTDMSKGAPSFTWVVESIGYLGFTFMIPIMGAYIASSIADKPAFAPAFLVCYLANDKALLGTQSGAGFLGAVVLGLAIGYFVFWFRKVRLGKALQPLLGSMLIPFVTLLVFGVLTYYVIGPVMSDLMGGLLHFLNTIPPSMKFAAAFLVGAMLAFDMGGPINKTAWFFCFSLLEKHIYDWYAIVGVVALMPPVAAGLATFIAPKLFTRQEKEAASSAIVVGATVATEPAIPYALAAPLPMITANTLAGGITGVLVIAFGIKRLAPGLGIFDPLIGLMSPVGSFYLVLAIGLALNISFIIVLKGLWLRRKAKAAQQELVHEH" ["CCO-PM-BAC-NEG"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"FRWB-MONOMER" "putative PTS enzyme IIB component FrwB" ["YijK", "EIIBfrw", "Enzyme IIBfrw"] "MTKIIAVTACPSGVAHTYMAAEALESAAKAKGWEVKVETQGSIGLENELTAEDVASADMVILTKDIGIKFEERFAGKTIVRVNISDAVKRADAIMSKIEAHLAQTA" [] ["CCO-PM-BAC-NEG", "CCO-CYTOSOL"] +"FRWC-MONOMER" "putative PTS enzyme IIC component FrwC" ["YijJ", "EIICfrw", "Enzyme IICfrw"] "MNELVQILKNTRQHLMTGVSHMIPFVVSGGILLAVSVMLYGKGAVPDAVADPNLKKLFDIGVAGLTLMVPFLAAYIGYSIAERSALAPCAIGAWVGNSFGAGFFGALIAGIIGGIVVHYLKKIPVHKVLRSVMPIFIIPIVGTLITAGIMMWGLGEPVGALTNSLTQWLQGMQQGSIVMLAVIMGLMLAFDMGGPVNKVAYAFMLICVAQGVYTVVAIAAVGICIPPLGMGLATLIGRKNFSAEERETGKAALVMGCVGVTEGAIPFAAADPLRVIPSIMVGSVCGAVTAALVGAQCYAGWGGLIVLPVVEGKLGYIAAVAVGAVVTAVCVNVLKSLARKNGSSTDEKEDDLDLDFEIN" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"FSR-MONOMER" null ["Fsr"] "MAMSEQPQPVAGAAASTTKARTSFGILGAISLSHLLNDMIQSLILAIYPLLQSEFSLTFMQIGMITLTFQLASSLLQPVVGYWTDKYPMPWSLPIGMCFTLSGLVLLALAGSFGAVLLAAALVGTGSSVFHPESSRVARMASGGRHGLAQSIFQVGGNFGSSLGPLLAAVIIAPYGKGNVAWFVLAALLAIVVLAQISRWYSAQHRMNKGKPKATIINPLPRNKVVLAVSILLILIFSKYFYMASISSYYTFYLMQKFGLSIQNAQLHLFAFLFAVAAGTVIGGPVGDKIGRKYVIWGSILGVAPFTLILPYASLHWTGVLTVIIGFILASAFSAILVYAQELLPGRIGMVSGLFFGFAFGMGGLGAAVLGLIADHTSIELVYKICAFLPLLGMLTIFLPDNRHKD" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"FTSE-MONOMER" "cell division protein FtsE" ["FtsE"] "MIRFEHVSKAYLGGRQALQGVTFHMQPGEMAFLTGHSGAGKSTLLKLICGIERPSAGKIWFSGHDITRLKNREVPFLRRQIGMIFQDHHLLMDRTVYDNVAIPLIIAGASGDDIRRRVSAALDKVGLLDKAKNFPIQLSGGEQQRVGIARAVVNKPAVLLADEPTGNLDDALSEGILRLFEEFNRVGVTVLMATHDINLISRRSYRMLTLSDGHLHGGVGHE" ["CCO-MEMBRANE", "CCO-CYTOSOL", "CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"FTSX-MONOMER" "cell division protein FtsX" ["FtsS", "FtsX"] "MNKRDAINHIRQFGGRLDRFRKSVGGSGDGGRNAPKRAKSSPKPVNRKTNVFNEQVRYAFHGALQDLKSKPFATFLTVMVIAISLTLPSVCYMVYKNVNQAATQYYPSPQITVYLQKTLDDDAAAGVVAQLQAEQGVEKVNYLSREDALGEFRNWSGFGGALDMLEENPLPAVAVVIPKLDFQGTESLNTLRDRITQINGIDEVRMDDSWFARLAALTGLVGRVSAMIGVLMVAAVFLVIGNSVRLSIFARRDSINVQKLIGATDGFILRPFLYGGALLGFSGALLSLILSEILVLRLSSAVAEVAQVFGTKFDINGLSFDECLLLLLVCSMIGWVAAWLATVQHLRHFTPE" ["CCO-CW-BAC-NEG", "CCO-MEMBRANE", "CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"FUC4NACTRANS-MONOMER" "putative enterobacterial common antigen polymerase" ["RffT", "WzyE"] "MSLLQFSGLFVVWLLCTLFIATLTWFEFRRVRFNFNVFFSLLFLLTFFFGFPLTSVLVFRFDVGVAPPEILLQALLSAGCFYAVYYVTYKTRLRKRVADVPRRPLFTMNRVETNLTWVILMGIALVSVGIFFMHNGFLLFRLNSYSQIFSSEVSGVALKRFFYFFIPAMLVVYFLRQDSKAWLFFLVSTVAFGLLTYMIVGGTRANIIIAFAIFLFIGIIRGWISLWMLAAAGVLGIVGMFWLALKRYGMNVSGDEAFYTFLYLTRDTFSPWENLALLLQNYDNIDFQGLAPIVRDFYVFIPSWLWPGRPSMVLNSANYFTWEVLNNHSGLAISPTLIGSLVVMGGALFIPLGAIVVGLIIKWFDWLYELGNREPNRYKAAILHSFCFGAIFNMIVLAREGLDSFVSRVVFFIVVFGACLMIAKLLYWLFESAGLIHKRTKSSLRTQVEG" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"FUCISOM-MONOMER" "L-fucose isomerase" ["FucI"] "MKKISLPKIGIRPVIDGRRMGVRESLEEQTMNMAKATAALLTEKLRHACGAAVECVISDTCIAGMAEAAACEEKFSSQNVGLTITVTPCWCYGSETIDMDPTRPKAIWGFNGTERPGAVYLAAALAAHSQKGIPAFSIYGHDVQDADDTSIPADVEEKLLRFARAGLAVASMKGKSYLSLGGVSMGIAGSIVDHNFFESWLGMKVQAVDMTELRRRIDQKIYDEAELEMALAWADKNFRYGEDENNKQYQRNAEQSRAVLRESLLMAMCIRDMMQGNSKLADIGRVEESLGYNAIAAGFQGQRHWTDQYPNGDTAEAILNSSFDWNGVREPFVVATENDSLNGVAMLMGHQLTGTAQVFADVRTYWSPEAIERVTGHKLDGLAEHGIIHLINSGSAALDGSCKQRDSEGNPTMKPHWEISQQEADACLAATEWCPAIHEYFRGGGYSSRFLTEGGVPFTMTRVNIIKGLGPVLQIAEGWSVELPKDVHDILNKRTNSTWPTTWFAPRLTGKGPFTDVYSVMANWGANHGVLTIGHVGADFITLASMLRIPVCMHNVEETKVYRPSAWAAHGMDIEGQDYRACQNYGPLYKR" [] ["CCO-CYTOSOL"] +"FUCP-MONOMER" "L-fucose:H+ symporter" ["FucP", "FucP fucose MFS transporter"] "MGNTSIQTQSYRAVDKDAGQSRSYIIPFALLCSLFFLWAVANNLNDILLPQFQQAFTLTNFQAGLIQSAFYFGYFIIPIPAGILMKKLSYKAGIITGLFLYALGAALFWPAAEIMNYTLFLVGLFIIAAGLGCLETAANPFVTVLGPESSGHFRLNLAQTFNSFGAIIAVVFGQSLILSNVPHQSQDVLDKMSPEQLSAYKHSLVLSVQTPYMIIVAIVLLVALLIMLTKFPALQSDNHSDAKQGSFSASLSRLARIRHWRWAVLAQFCYVGAQTACWSYLIRYAVEEIPGMTAGFAANYLTGTMVCFFIGRFTGTWLISRFAPHKVLAAYALIAMALCLISAFAGGHVGLIALTLCSAFMSIQYPTIFSLGIKNLGQDTKYGSSFIVMTIIGGGIVTPVMGFVSDAAGNIPTAELIPALCFAVIFIFARFRSQTATN" ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"FUCPALDOL-MONOMER" "L-fuculose-phosphate aldolase" ["Prd", "FucC", "FucA"] "MERNKLARQIIDTCLEMTRLGLNQGTAGNVSVRYQDGMLITPTGIPYEKLTESHIVFIDGNGKHEEGKLPSSEWRFHMAAYQSRPDANAVVHNHAVHCTAVSILNRSIPAIHYMIAAAGGNSIPCAPYATFGTRELSEHVALALKNRKATLLQHHGLIACEVNLEKALWLAHEVEVLAQLYLTTLAITDPVPVLSDEEIAVVLEKFKTYGLRIEE" [] ["CCO-CYTOSOL"] +"FUCULOKIN-MONOMER" "L-fuculokinase" ["FucK"] "MKQEVILVLDCGATNVRAIAVNRQGKIVARASTPNASDIAMENNTWHQWSLDAILQRFADCCRQINSELTECHIRGIAVTTFGVDGALVDKQGNLLYPIISWKCPRTAAVMDNIERLISAQRLQAISGVGAFSFNTLYKLVWLKENHPQLLERAHAWLFISSLINHRLTGEFTTDITMAGTSQMLDIQQRDFSPQILQATGIPRRLFPRLVEAGEQIGTLQNSAAAMLGLPVGIPVISAGHDTQFALFGAGAEQNEPVLSSGTWEILMVRSAQVDTSLLSQYAGSTCELDSQAGLYNPGMQWLASGVLEWVRKLFWTAETPWQMLIEEARLIAPGADGVKMQCDLLSCQNAGWQGVTLNTTRGHFYRAALEGLTAQLQRNLQMLEKIGHFKASELLLVGGGSRNTLWNQIKANMLDIPVKVLDDAETTVAGAALFGWYGVGEFNSPEEARAQIHYQYRYFYPQTEPEFIEEV" [] ["CCO-CYTOSOL"] +"FUM-FE-S" "fumarate reductase iron-sulfur protein" ["FrdB"] "MAEMKNLKIEVVRYNPEVDTAPHSAFYEVPYDATTSLLDALGYIKDNLAPDLSYRWSCRMAICGSCGMMVNNVPKLACKTFLRDYTDGMKVEALANFPIERDLVVDMTHFIESLEAIKPYIIGNSRTADQGTNIQTPAQMAKYHQFSGCINCGLCYAACPQFGLNPEFIGPAAITLAHRYNEDSRDHGKKERMAQLNSQNGVWSCTFVGYCSEVCPKHVDPAAAIQQGKVESSKDFLIATLKPR" ["CCO-CYTOSOL"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"FUM-FLAVO" "fumarate reductase flavoprotein subunit" ["FrdA"] "MQTFQADLAIVGAGGAGLRAAIAAAQANPNAKIALISKVYPMRSHTVAAEGGSAAVAQDHDSFEYHFHDTVAGGDWLCEQDVVDYFVHHCPTEMTQLELWGCPWSRRPDGSVNVRRFGGMKIERTWFAADKTGFHMLHTLFQTSLQFPQIQRFDEHFVLDILVDDGHVRGLVAMNMMEGTLVQIRANAVVMATGGAGRVYRYNTNGGIVTGDGMGMALSHGVPLRDMEFVQYHPTGLPGSGILMTEGCRGEGGILVNKNGYRYLQDYGMGPETPLGEPKNKYMELGPRDKVSQAFWHEWRKGNTISTPRGDVVYLDLRHLGEKKLHERLPFICELAKAYVGVDPVKEPIPVRPTAHYTMGGIETDQNCETRIKGLFAVGECSSVGLHGANRLGSNSLAELVVFGRLAGEQATERAATAGNGNEAAIEAQAAGVEQRLKDLVNQDGGENWAKIRDEMGLAMEEGCGIYRTPELMQKTIDKLAELQERFKRVRITDTSSVFNTDLLYTIELGHGLNVAECMAHSAMARKESRGAHQRLDEGCTERDDVNFLKHTLAFRDADGTTRLEYSDVKITTLPPAKRVYGGEADAADKAEAANKKEKANG" ["CCO-CYTOSOL"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"FUM-MEMB1" "fumarate reductase membrane protein FrdC" ["FrdC"] "MTTKRKPYVRPMTSTWWKKLPFYRFYMLREGTAVPAVWFSIELIFGLFALKNGPEAWAGFVDFLQNPVIVIINLITLAAALLHTKTWFELAPKAANIIVKDEKMGPEPIIKSLWAVTVVATIVILFVALYW" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"FUM-MEMB2" "fumarate reductase membrane protein FrdD" ["FrdD"] "MINPNPKRSDEPVFWGLFGAGGMWSAIIAPVMILLVGILLPLGLFPGDALSYERVLAFAQSFIGRVFLFLMIVLPLWCGLHRMHHAMHDLKIHVPAGKWVFYGLAAILTVVTLIGVVTI" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"FUMA-MONOMER" "fumarase A" ["FumA"] "MSNKPFHYQAPFPLKKDDTEYYLLTSEHVSVSEFEGQEILKVAPEALTLLARQAFHDASFMLRPAHQQQVADILRDPEASENDKYVALQFLRNSDIAAKGVLPTCQDTGTAIIVGKKGQRVWTGGGDEAALARGVYNTYIEDNLRYSQNAPLDMYKEVNTGTNLPAQIDLYAVDGDEYKFLCIAKGGGSANKTYLYQETKALLTPGKLKNYLVEKMRTLGTAACPPYHIAFVIGGTSAETNLKTVKLASAKYYDELPTEGNEHGQAFRDVELEKELLIEAQNLGLGAQFGGKYFAHDIRVIRLPRHGASCPVGMGVSCSADRNIKAKINRQGIWIEKLEHNPGKYIPEELRKAGEGEAVRVDLNRPMKEILAQLSQYPVSTRLSLNGTIIVGRDIAHAKLKERMDNGEGLPQYIKDHPIYYAGPAKTPEGYASGSLGPTTAGRMDSYVDQLQAQGGSMIMLAKGNRSQQVTDACKKHGGFYLGSIGGPAAVLAQGSIKSLECVEYPELGMEAIWKIEVEDFPAFILVDDKGNDFFQQIQLTQCTRCVK" [] ["CCO-CYTOSOL"] +"FUMB-MONOMER" "fumarase B" ["FumB"] "MSNKPFIYQAPFPMGKDNTEYYLLTSDYVSVADFDGETILKVEPEALTLLAQQAFHDASFMLRPAHQKQVAAILHDPEASENDKYVALQFLRNSEIAAKGVLPTCQDTGTAIIVGKKGQRVWTGGGDEETLSKGVYNTYIEDNLRYSQNAALDMYKEVNTGTNLPAQIDLYAVDGDEYKFLCVAKGGGSANKTYLYQETKALLTPGKLKNFLVEKMRTLGTAACPPYHIAFVIGGTSAETNLKTVKLASAHYYDELPTEGNEHGQAFRDVQLEQELLEEAQKLGLGAQFGGKYFAHDIRVIRLPRHGASCPVGMGVSCSADRNIKAKINREGIWIEKLEHNPGQYIPQELRQAGEGEAVKVDLNRPMKEILAQLSQYPVSTRLSLTGTIIVGRDIAHAKLKELIDAGKELPQYIKDHPIYYAGPAKTPAGYPSGSLGPTTAGRMDSYVDLLQSHGGSMIMLAKGNRSQQVTDACHKHGGFYLGSIGGPAAVLAQQSIKHLECVAYPELGMEAIWKIEVEDFPAFILVDDKGNDFFQQIVNKQCANCTK" [] ["CCO-CYTOSOL"] +"FUMC-MONOMER" "fumarase C" ["FumC"] "MNTVRSEKDSMGAIDVPADKLWGAQTQRSLEHFRISTEKMPTSLIHALALTKRAAAKVNEDLGLLSEEKASAIRQAADEVLAGQHDDEFPLAIWQTGSGTQSNMNMNEVLANRASELLGGVRGMERKVHPNDDVNKSQSSNDVFPTAMHVAALLALRKQLIPQLKTLTQTLNEKSRAFADIVKIGRTHLQDATPLTLGQEISGWVAMLEHNLKHIEYSLPHVAELALGGTAVGTGLNTHPEYARRVADELAVITCAPFVTAPNKFEALATCDALVQAHGALKGLAASLMKIANDVRWLASGPRCGIGEISIPENEPGSSIMPGKVNPTQCEALTMLCCQVMGNDVAINMGGASGNFELNVFRPMVIHNFLQSVRLLADGMESFNKHCAVGIEPNRERINQLLNESLMLVTALNTHIGYDKAAEIAKKAHKEGLTLKAAALALGYLSEAEFDSWVRPEQMVGSMKAGR" [] ["CCO-CYTOSOL"] +"G0-16653-MONOMER" "putative UPF0401 protein YpjI" [] "MSNSEGW*SF*QTLSGLPQWASADCVAGPLVSAGITDINIEDDQGIHVRLIVRDAEGRMVGGHGTLNRTPVKVLTAISTGQASAPTPSP" [] [] +"G0-16659-MONOMER" "putative tRNA 2-thiocytidine (s(2)C32) synthase" [] "MSQNQEISKKEQYNLN" [] ["CCO-CYTOSOL"] +"G0-16666-MONOMER" "RHS family protein YibS" [] "MQ*FIRLPQQ*YDDESGLYYNYYR*H*PQQGRYNTQAPIGLEGRWNFYQYPLNPISGIDPLGISHLFIQHNFRYAFVCFRYTM" [] [] +"G0-16672-MONOMER" "KpLE2 phage-like element; putative acetyltransferase YjhZ" [] "MTQVLIGDIYLRQQCDVFWLGYTISPAYARQGYAIEAITATID*IKENGFSLIKAGVNPENTLSKKLLIRIGFNFSSIEDG" [] [] +"G0-16713-MONOMER" "RHS element protein YlbI" [] "MSGKPAARQGDMPQYGGPIVQGSAGVLIVAP" [] ["CCO-MEMBRANE"] +"G0-16715-MONOMER" "YdiA family protein" [] "MQPEVEVLTDHNELICSSFI" [] ["CCO-MEMBRANE"] +"G0-16716-MONOMER" "putative oxidoreductase" [] "MLVHELTIPDKLWDQIQASKGTGWFPLMD" [] ["CCO-CYTOSOL"] +"G0-16717-MONOMER" "excisionase" [] "MGYLTTRQACIAALQSPLHTVQVSAGDGITEERKCHSSAEMKYGMPRIRSRAGNELRNLLAQRTNGKLRSCTT" [] ["CCO-CYTOSOL"] +"G0-16718-MONOMER" "DLP12 prophage; protein AaaD" [] "MNISNSQVNRLRHFVRAGLRSLFRPEPQTAVEWADANYYLPKESAYQEGRWETLPFQRAIMNAMGSDYIREVNVVKSARVGYSKMLLGVYAYFIEHKQRNTL" [] ["CCO-CYTOSOL"] +"G0-16719-MONOMER" "phage replication protein" [] "MSTKLTGYVWDGCAASGMKLSSVAIMARLADFSNDEGVCWPSIETIARQIGAGMSTVRTAIARLEAEGWLTRKARRQ" [] ["CCO-CYTOSOL"] +"G0-16720-MONOMER" "phage terminase" [] "MDGSSPHCAVVDEYHEHATDALYTTMLTGMGARRQPLMWAITTAGYNIEGPCYDKRREVIEMLNGSVPNDELFGIIYTVDEGDDWTDPQVLEKANPNIGVSVYREFLLSQQQRAKNNARLANVFKTKHLNIWASARSAYFNLVSWQSCEDKSLTLEQFEGQPCILAFDLARKLDMNSMARLYTREIDGKTHYYSVAPRFWVPYDTVYSVEKNEDRRTAERFQKWVEMGVLTVTDGAEVDYRYILEEAKAANKISPVSESPIDPFGATGLSHDLADEDLNPVTIIQNYTNMSDPMKELEAAIESGRFHHDGNPIMTWCIGNVVGKTIPGNDDVVKPVKEQAENKIDGAVALIMAVGRAMLYEKEDTLSDHIESYGIRSL" [] ["CCO-CYTOSOL"] +"G357-MONOMER" "flagellar basal body P-ring formation protein FlgA" ["FlaU", "FlgA"] "MLIIKRSVAIIAILFSPLSTASNLTSQLHNFFSAQLAGVSDEVRVSIRTAPNLLPPCEQPLLSMSNNSRLWGNVNVLARCGNDKRYLQVNVQATGNYVVAAMPIARGGKLEAGNVKLKRGRLDTLPPRTVLDINQLVDAISLRDLSPDQPIQLTQFRQAWRVKAGQRVNVIASGDGFSANAEGQALNNAAVAQNARVRMVSGQVVSGVVDADGNILINL" [] ["CCO-PERI-BAC"] +"G360-MONOMER" "flagellar biosynthesis, initiation of hook assembly" ["FlaV", "FlgD"] "MSIAVTTTDPTNTGVSTTSSSSLTGSNAADLQSSFLTLLVAQLKNQDPTNPMENNELTSQLAQISTVSGIEKLNTTLGSISGQIDNSQSLQASNLIGHGVMIPGTTVLAGTGSEEGAVTTTTPFGVELQQAADKVTATITDKNGAVVRTIDIGELTAGVHSFTWDGTLTDGSTAPNGSYNVAISASNGGTQLVAQPLQFALVQGVIRGNSGNTLDLGTYGTTTLDEVRQII" ["CCO-CYTOSOL"] ["CCO-CELL-PROJECTION"] +"G361-MONOMER" "flagellar hook protein FlgE" ["FlaK", "FlgE"] "MAFSQAVSGLNAAATNLDVIGNNIANSATYGFKSGTASFADMFAGSKVGLGVKVAGITQDFTDGTTTNTGRGLDVAISQNGFFRLVDSNGSVFYSRNGQFKLDENRNLVNMQGLQLTGYPATGTPPTIQQGANPTNISIPNTLMAAKTTTTASMQINLNSSDPLPTVTPFSASNADSYNKKGSVTVFDSQGNAHDMSVYFVKTGDNNWQVYTQDSSDPNSIAKTATTLEFNANGTLVDGAMANNIATGAINGAEPATFSLSFLNSMQQNTGANNIVATTQNGYKPGDLVSYQINDDGTVVGNYSNEQTQLLGQIVLANFANNEGLASEGDNVWSATQSSGVALLGTAGTGNFGTLTNGALEASNVDLSKELVNMIVAQRNYQSNAQTIKTQDQILNTLVNLR" ["CCO-CELL-PROJECTION", "CCO-CYTOSOL"] ["CCO-CELL-PROJECTION"] +"G366-MONOMER" "putative peptidoglycan hydrolase FlgJ" ["FlaZ", "FlgJ"] "MISDSKLLASAAWDAQSLNELKAKAGEDPAANIRPVARQVEGMFVQMMLKSMRDALPKDGLFSSEHTRLYTSMYDQQIAQQMTAGKGLGLAEMMVKQMTPEQPLPEESTPAAPMKFPLETVVRYQNQALSQLVQKAVPRNYDDSLPGDSKAFLAQLSLPAQLASQQSGVPHHLILAQAALESGWGQRQIRRENGEPSYNLFGVKASGNWKGPVTEITTTEYENGEAKKVKAKFRVYSSYLEALSDYVGLLTRNPRYAAVTTAASAEQGAQALQDAGYATDPHYARKLTNMIQQMKSISDKVSKTYSMNIDNLF" [] ["CCO-PERI-BAC"] +"G369-MONOMER" "anti-sigma factor for FliA (σ28)" ["FlgM"] "MSIDRTSPLKPVSTVQPRETTDAPVTNSRAAKTTASTSTSVTLSDAQAKLMQPGSSDINLERVEALKLAIRNGELKMDTGKIADALINEAQQDLQSN" [] ["CCO-CYTOSOL"] +"G370-MONOMER" "flagellar biosynthesis protein FlhA" ["FlaH", "FlhA"] "MSNLAAMLRLPANLKSTQWQILAGPILILLILSMMVLPLPAFILDLLFTFNIALSIMVLLVAMFTQRTLEFAAFPTILLFTTLLRLALNVASTRIILMEGHTGAAAAGKVVEAFGHFLVGGNFAIGIVVFVILVIINFMVITKGAGRIAEVGARFVLDGMPGKQMAIDADLNAGLIGEDEAKKRRSEVTQEADFYGSMDGASKFVRGDAIAGILIMVINIVGGLLVGVLQHGMSMGHAAESYTLLTIGDGLVAQIPALVISTAAGVIVTRVSTDQDVGEQMVNQLFSNPSVMLLSAAVLGLLGLVPGMPNLVFLLFTAGLLGLAWWIRGREQKAPAEPKPVKMAENNTVVEATWNDVQLEDSLGMEVGYRLIPMVDFQQDGELLGRIRSIRKKFAQEMGFLPPVVHIRDNMDLQPARYRILMKGVEIGSGDAYPGRWLAINPGTAAGTLPGEATVDPAFGLNAIWIESALKEQAQIQGYTVVEASTVVATHLNHLISQHAAELFGRQEAQQLLDRVAQEMPKLTEDLVPGVVTLTTLHKVLQNLLDEKVPIRDMRTILETLAEHAPIQSDPHELTAVVRVALGRAITQQWFPGKDEVHVIGLDTPLERLLLQALQGGGGLEPGLADRLLAQTQEALSRQEMLGAPPVLLVNHALRPLLSRFLRRSLPQLVVLSNLELSDNRHIRMTATIGGK" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G377-MONOMER" "flagellum-specific ATP synthase FliI" ["Fla", "FlaC", "FliI"] "MTTRLTRWLTTLDNFEAKMAQLPAVRRYGRLTRATGLVLEATGLQLPLGATCVIERQNGSETHEVESEVVGFNGQRLFLMPLEEVEGVLPGARVYAKNISAEGLQSGKQLPLGPALLGRVLDGSGKPLDGLPSPDTTETGALITPPFNPLQRTPIEHVLDTGVRPINALLTVGRGQRMGLFAGSGVGKSVLLGMMARYTRADVIVVGLIGERGREVKDFIENILGAEGRARSVVIAAPADVSPLLRMQGAAYATRIAEDFRDRGQHVLLIMDSLTRYAMAQREIALAIGEPPATKGYPPSVFAKLPALVERAGNGISGGGSITAFYTVLTEGDDQQDPIADSARAILDGHIVLSRRLAEAGHYPAIDIEASISRAMTALISEQHYARVRTFKQLLSSFQRNRDLVSVGAYAKGSDPMLDKAIALWPQLEGYLQQGIFERADWEASLQGLERIFPTVS" [] ["CCO-CYTOSOL", "CCO-PM-BAC-NEG"] +"G378-MONOMER" "flagellar biosynthesis protein FliJ" ["FlaO", "FliJ"] "MAEHGALATLKDLAEKEVEDAARLLGEMRRGCQQAEEQLKMLIDYQNEYRNNLNSDMSAGITSNRWINYQQFIQTLEKAITQHRQQLNQWTQKVDIALNSWREKKQRLQAWQTLQERQSTAALLAENRLDQKKMDEFAQRAAMRKPE" [] ["CCO-CYTOSOL", "CCO-CELL-PROJECTION", "CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"G379-MONOMER" "flagellar hook-length control protein" ["FlaE", "FliK"] "MIRLAPLITADVDTTTLPGGKASDAAQDFLALLSEALAGETTTDKAAPQLLVATDKPTTKGEPLISDIVSDAQQANLLIPVDETPPVINDEQSTSTPLTTAQTMALAAVADKNTTKDEKADDLNEDVTASLSALFAMLPGFDNTPKVTDAPSTVLPTEKPTLFTKLTSEQLTTAQPDDAPGTPAQPLTPLVAEAQSKAEVISTPSPVTAAASPLITPHQTQPLPTVAAPVLSAPLGSHEWQQSLSQHISLFTRQGQQSAELRLHPQDLGEVQISLKVDDNQAQIQMVSPHQHVRAALEAALPVLRTQLAESGIQLGQSNISGESFSGQQQAASQQQQSQRTANHEPLAGEDDDTLPVPVSLQGRVTGNSGVDIFA" ["CCO-CELL-PROJECTION"] ["CCO-CELL-PROJECTION"] +"G495-MONOMER" "6-phospho-β-glucosidase A" ["YqfC", "BglD", "BglA"] "MIVKKLTLPKDFLWGGAVAAHQVEGGWNKGGKGPSICDVLTGGAHGVPREITKEVLPGKYYPNHEAVDFYGHYKEDIKLFAEMGFKCFRTSIAWTRIFPKGDEAQPNEEGLKFYDDMFDELLKYNIEPVITLSHFEMPLHLVQQYGSWTNRKVVDFFVRFAEVVFERYKHKVKYWMTFNEINNQRNWRAPLFGYCCSGVVYTEHENPEETMYQVLHHQFVASALAVKAARRINPEMKVGCMLAMVPLYPYSCNPDDVMFAQESMRERYVFTDVQLRGYYPSYVLNEWERRGFNIKMEDGDLDVLREGTCDYLGFSYYMTNAVKAEGGTGDAISGFEGSVPNPYVKASDWGWQIDPVGLRYALCELYERYQRPLFIVENGFGAYDKVEEDGSINDDYRIDYLRAHIEEMKKAVTYDGVDLMGYTPWGCIDCVSFTTGQYSKRYGFIYVNKHDDGTGDMSRSRKKSFNWYKEVIASNGEKL" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G6081-MONOMER" "DUF2502 domain-containing protein YaaX" ["YaaX"] "MKKMQSIVLALSLVLVAPMAAQAAEITLVPSVKLQIGDRDNRGYYWDGGHWRDHGWWKQHYEWRGNRWHLHGPPPPPRHHKKAPHDHHGGHGPGKHHR" [] ["CCO-CYTOSOL"] +"G6082-MONOMER" "putative enzyme-specific chaperone YaaW" ["YaaW"] "MNVNYLNDSDLDFLQHCSEEQLANFARLLTHNEKGKTRLSSVLMRNELFKSMEGHPEQHRRNWQLIAGELQHFGGDSIANKLRGHGKLYRAILLDVSKRLKLKADKEMSTFEIEQQLLEQFLRNTWKKMDEEHKQEFLHAVDARVNELEELLPLLMKDKLLAKGVSHLLSSQLTRILRTHAAMSVLGHGLLRGAGLGGPVGAALNGVKAVSGSAYRVTIPAVLQIACLRRMVSATQV" [] ["CCO-CYTOSOL"] +"G6083-MONOMER" "IS186/IS421 transposase" ["InsL1"] "MNYSHDNWSAILAHIGKPEELDTSARNAGALTRRREIRDAATLLRLGLAYGPGGMSLREVTAWAQLHDVATLSDVALLKRLRNAADWFGILAAQTLAVRAAVTGCTSGKRLRLVDGTAISAPGGGSAEWRLHMGYDPHTCQFTDFELTDSRDAERLDRFAQTADEIRIADRGFGSRPECIRSLAFGEADYIVRVHWRGLRWLTAEGMRFDMMGFLRGLDCGKNGETTVMIGNSGNKKAGAPFPARLIAVSLPPEKALISKTRLLSENRRKGRVVQAETLEAAGHVLLLTSLPEDEYSAEQVADCYRLRWQIELAFKRLKSLLHLDALRAKEPELAKAWIFANLLAAFLIDDIIQPSLDFPPRSAGSEKKN" [] ["CCO-CYTOSOL"] +"G6086-MONOMER" "IS1 protein InsA" ["InsA1"] "MASVSISCPSCSATDGVVRNGKSTAGHQRYLCSHCRKTWQLQFTYTASQPGTHQKIIDMAMNGVGCRATARIMGVGLNTILRHLKNSGRSR" [] ["CCO-CYTOSOL"] +"G6087-MONOMER" "DUF2575 domain-containing protein YaaY" ["YaaY"] "MCRHSLRSDGAGFYQLAGCEYSFSAIKIAAGGQFLPVICAMAMKSHFFLISVLNRRLTLTAVQGILGRFSLF" [] ["CCO-PM-BAC-NEG"] +"G6088-MONOMER" "DNA-binding transcriptional activator CaiF" ["CaiF"] "MCEGYVEKPLYLLIAEWMMAENRWVIAREISIHFDIEHSKAVNTLTYILSEVTEISCEVKMIPNKLEGRGCQCQRLVKVVDIDEQIYARLRNNSREKLVGVRKTPRIPAVPLTELNREQKWQMMLSKSMRR" [] ["CCO-CYTOSOL"] +"G6093-MONOMER" "outer membrane protein assembly factor BamA" ["YzzN", "YzzY", "EcfK", "YaeT"] "MAMKKLLIASLLFSSATVYGAEGFVVKDIHFEGLQRVAVGAALLSMPVRTGDTVNDEDISNTIRALFATGNFEDVRVLRDGDTLLVQVKERPTIASITFSGNKSVKDDMLKQNLEASGVRVGESLDRTTIADIEKGLEDFYYSVGKYSASVKAVVTPLPRNRVDLKLVFQEGVSAEIQQINIVGNHAFTTDELISHFQLRDEVPWWNVVGDRKYQKQKLAGDLETLRSYYLDRGYARFNIDSTQVSLTPDKKGIYVTVNITEGDQYKLSGVEVSGNLAGHSAEIEQLTKIEPGELYNGTKVTKMEDDIKKLLGRYGYAYPRVQSMPEINDADKTVKLRVNVDAGNRFYVRKIRFEGNDTSKDAVLRREMRQMEGAWLGSDLVDQGKERLNRLGFFETVDTDTQRVPGSPDQVDVVYKVKERNTGSFNFGIGYGTESGVSFQAGVQQDNWLGTGYAVGINGTKNDYQTYAELSVTNPYFTVDGVSLGGRLFYNDFQADDADLSDYTNKSYGTDVTLGFPINEYNSLRAGLGYVHNSLSNMQPQVAMWRYLYSMGEHPSTSDQDNSFKTDDFTFNYGWTYNKLDRGYFPTDGSRVNLTGKVTIPGSDNEYYKVTLDTATYVPIDDDHKWVVLGRTRWGYGDGLGGKEMPFYENFYAGGSSTVRGFQSNTIGPKAVYFPHQASNYDPDYDYECATQDGAKDLCKSDDAVGGNAMAVASLEFITPTPFISDKYANSVRTSFFWDMGTVWDTNWDSSQYSGYPDYSDPSNIRMSAGIALQWMSPLGPLVFSYAQPFKKYDGDKAEQFQFNIGKTW" ["CCO-OUTER-MEM"] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"G6095-MONOMER" "VOC domain-containing protein YaeR" ["YaeR", "putative lyase"] "MLGLKQVHHIAIIATDYAVSKAFYCDILGFTLQSEVYREARDSWKGDLALNGQYVIELFSFPFPPERPSRPEACGLRHLAFSVDDIDAAVAHLESHNVKCETIRVDPYTQKRFTFFNDPDGLPLELYEQ" [] ["CCO-CYTOSOL"] +"G6096-MONOMER" null ["YaeN", "MesJ", "TilS"] "MTLTLNRQLLTSRQILVAFSGGLDSTVLLHQLVQWRTENPGVALRAIHVHHGLSANADAWVTHCENVCQQWQVPLVVERVQLAQEGLGIEAQARQARYQAFARTLLPGEVLVTAQHLDDQCETFLLALKRGSGPAGLSAMAEVSEFAGTRLIRPLLARTRGELVQWARQYDLRWIEDESNQDDSYDRNFLRLRVVPLLQQRWPHFAEATARSAALCAEQESLLDELLADDLAHCQSPQGTLQIVPMLAMSDARRAAIIRRWLAGQNAPMPSRDALVRIWQEVALAREDASPCLRLGAFEIRRYQSQLWWIKSVTGQSENIVPWQTWLQPLELPAGLGSVQLNAGGDIRPPRADEAVSVRFKAPGLLHIVGRNGGRKLKKIWQELGVPPWLRDTTPLLFYGETLIAAAGVFVTQEGVAEGENGVSFVWQKTLS" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G6097-MONOMER" "modulator of Rho-dependent transcription termination" ["YaeO", "Rof"] "MNDTYQPINCDDYDNLELACQHHLMLTLELKDGEKLQAKASDLVSRKNVEYLVVEAAGETRELRLDKITSFSHPEIGTVVVSES" [] ["CCO-CYTOSOL"] +"G6098-MONOMER" "uncharacterized protein YaeQ" ["YaeQ"] "MALKATIYKATVNVADLDRNQFLDASLTLARHPSETQERMMLRLLAWLKYADERLQFTRGLCADDEPEAWLRNDHLGIDLWIELGLPDERRIKKACTQAAEVALFTYNSRAAQIWWQQNQSKCVQFANLSVWYLDDEQLAKVSAFADRTMTLQATIQDGVIWLSDDKNNLEVNLTAWQQPS" [] ["CCO-CYTOSOL"] +"G6100-MONOMER" "putative S-adenosyl-L-methionine-dependent methyltransferase" ["YafS"] "MKPARVPQTVVAPDCWGDLPWGKLYRKALERQLNPWFTKMYGFHLLKIGNLSAEINCEACAVSHQVNVSAQGMPVQVQADPLHLPFADKSVDVCLLAHTLPWCTDPHRLLREADRVLIDDGWLVISGFNPISFMGLRKLVPVLRKTSPYNSRMFTLMRQLDWLSLLNFEVLHASRFHVLPWNKHGGKLLNAHIPALGCLQLIVARKRTIPLTLNPMKQSKNKPRIRQAVGATRQCRKPQA" [] ["CCO-CYTOSOL"] +"G6101-MONOMER" "lipoprotein YafT" ["YafT"] "MNSKKLCCICVLFSLLAGCASESSIDEKKKKAQVTQSNINKNTPQQLTDKDLFGNETTLAVSEEDIQAALDGDEFRVPLNSPVILVQSGNRAPETIMQEEMRKYYTVSTFSGIPDRQKPLTCNKNKDKNENEDVASAENMNWMQALRFVAAKGHQKAIIVYQDMLQTGKYDSALKSTVWSDYKNDKLTDAISLRYLVRFTLVDVATGEWATWSPVNYEYKVLPPLPDKNEASTTDMTEQQIMQLKQKTYKAMVKDLVNRYQ" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE", "CCO-PERI-BAC"] +"G6102-MONOMER" "putative inner membrane protein" ["YafU"] "MSSERDLVNFLGDFSMDVAKAVIAGGVATAIGSLASFACVSFGFPVILVGGAILLTGIVCTVVLNEIDAQCHLSEKLKYAIRDGLKRQQELDKWKRENMTPFMYVLNTPPVI" ["CCO-PM-BAC-NEG"] ["CCO-PM-BAC-NEG"] +"G6103-MONOMER" "2-oxoglutaramate amidase" ["YafV"] "MPGLKITLLQQPLVWMDGPANLRHFDRQLEGITGRDVIVLPEMFTSGFAMEAAASSLAQDDVVNWMTAKAQQCNALIAGSVALQTESGSVNRFLLVEPGGTVHFYDKRHLFRMADEHLHYKAGNARVIVEWRGWRILPLVCYDLRFPVWSRNLNDYDLALYVANWPAPRSLHWQALLTARAIENQAYVAGCNRVGSDGNGCHYRGDSRVINPQGEIIATADAHQATRIDAELSMAALREYREKFPAWQDADEFRLW" [] ["CCO-CYTOSOL"] +"G6104-MONOMER" "periplasmic chaperone, inhibitor of vertebrate C-type lysozyme" ["Ivy", "YkfE"] "MGRISSGGMMFKAITTVAALVIATSAMAQDDLTISSLAKGETTKAAFNQMVQGHKLPAWVMKGGTYTPAQTVTLGDETYQVMSACKPHDCGSQRIAVMWSEKSNQMTGLFSTIDEKTSQEKLTWLNVNDALSIDGKTVLFAALTGSLENHPDGFNFK" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"G6106-MONOMER" "D-sedoheptulose 7-phosphate isomerase" ["YafI", "TfrA", "GmhA", "LpcA"] "MYQDLIRNELNEAAETLANFLKDDANIHAIQRAAVLLADSFKAGGKVLSCGNGGSHCDAMHFAEELTGRYRENRPGYPAIAISDVSHISCVGNDFGFNDIFSRYVEAVGREGDVLLGISTSGNSANVIKAIAAAREKGMKVITLTGKDGGKMAGTADIEIRVPHFGYADRIQEIHIKVIHILIQLIEKEMVK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G6107-MONOMER" "putative glutamine amidotransferase YafJ" ["YafJ"] "MCELLGMSANVPTDICFSFTGLVQRGGGTGPHKDGWGITFYEGKGCRTFKDPQPSFNSPIAKLVQDYPIKSCSVVAHIRQANRGEVALENTHPFTRELWGRNWTYAHNGQLTGYKSLETGNFRPVGETDSEKAFCWLLHKLTQRYPRTPGNMAAVFKYIASLADELRQKGVFNMLLSDGRYVMAYCSTNLHWITRRAPFGVATLLDQDVEIDFSSQTTPNDVVTVIATQPLTGNETWQKIMPGEWRLFCLGERVV" [] ["CCO-CYTOSOL"] +"G6108-MONOMER" "L,D-transpeptidase domain-containing protein LdtF" ["YafK", "LdtF"] "MRKIALILAMLLIPCVSFAGLLGSSSSTTPVSKEYKQQLMGSPVYIQIFKEERTLDLYVKMGEQYQLLDSYKICKYSGGLGPKQRQGDFKSPEGFYSVQRNQLKPDSRYYKAINIGFPNAYDRAHGYEGKYLMIHGDCVSIGCYAMTNQGIDEIFQFVTGALVFGQPSVQVSIYPFRMTDANMKRHKYSNFKDFWEQLKPGYDYFEQTRKPPTVSVVNGRYVVSKPLSHEVVQPQLASNYTLPEAK" [] ["CCO-CYTOSOL"] +"G6109-MONOMER" "ribosome-dependent mRNA interferase toxin YafQ" ["YafQ", "toxin of the YafQ-DinJ toxin-antitoxin system"] "MIQRDIEYSGQYSKDVKLAQKRHKDMNKLKYLMTLLINNTLPLPAVYKDHPLQGSWKGYRDAHVEPDWILIYKLTDKLLRFERTGTHAALFG" [] ["CCO-CYTOSOL"] +"G6110-MONOMER" "antitoxin/DNA-binding transcriptional repressor DinJ" ["DinJ", "SosA", "DinJ antitoxin of YafQ-DinJ toxin-antitoxin system / DNA-binding transcriptional repressor"] "MAANAFVRARIDEDLKNQAADVLAGMGLTISDLVRITLTKVAREKALPFDLREPNQLTIQSIKNSEAGIDVHKAKDADDLFDKLGI" [] ["CCO-CYTOSOL"] +"G6111-MONOMER" "NlpC/P60 family protein YafL" ["YafL", "C40 family non-peptidase homologue"] "MSLPSIPSFVLSGLLLICLPFSSFASATTSHISFSYAARQRMQNRARLLKQYQTHLKKQASYIVEGNAESKRALRQHNREQIKQHPEWFPAPLKASDRRWQALAENNHFLSSDHLHNITEVAIHRLEQQLGKPYVWGGTRPDKGFDCSGLVFYAYNKILEAKLPRTANEMYHYRRATIVANNDLRRGDLLFFHIHSREIADHMGVYLGDGQFIESPRTGETIRISRLAEPFWQDHFLGARRILTEETIL" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"G6112-MONOMER" "REP-associated tyrosine transposase" ["RayT", "YafM", "TnpAREP"] "MSEYRRYYIKGGTWFFTVNLRNRRSQLLTTQYQMLRHAIIKVKRDRPFEINAWVVLPEHMHCIWTLPEGDDDFSSRWREIKKQFTHACGLKNIWQPRFWEHAIRNTKDYRHHVDYIYINPVKHGWVKQVSDWPFSTFHRDVARGLYPIDWAGDVTDFSAGERIIS" [] ["CCO-CYTOSOL"] +"G6113-MONOMER" "flagellar system protein, promoterless fragment" ["FhiA", "LfhA"] "MLTINFIVVTKGAERISEVSARFTLDAMPGKQMAIDADLNAGLINQAQAQTRRKDVASEADFYGAMDGASKFVRGDAIAGMMILAINLIGGVCIGIFKYNLSADAAFQQYVLMTIGDGLVAQIPSLLLSTAAAIIVTRVSDNGDIAHDVRNQLLASPSVLYTATGIMFVLAVVPGMPHLPFLLFSALLGFTGWRMSKQPLAAEAEEKSLETLTRTITETSEQQVSWETIPLIEPISLSLGYKLVALVDKAQGNPLTQRIRGVRQVISDGNGVLLPEIRIRENFRLKPSQYAIFINGIKADEADIPADKLMALPSSETYGEIDGVQGNDPAYGMPVTWIQAAQKAKALNMGYQVIDSASVIATHVNKIVRSYIPDLFNYDDITQLHNRLSSTAPRLAEDLSAALNYSQLLKVYRALLTEGVSLRDIVTIATVLVASSTVTKDHILLAADVRLALRRSITHPFVRKQELTVYTLNNELENLLTNVVNQAQQGGKVMLDSVPVDPNMLNQFQSTMPQVKEQMKAAGKDPVLLVPPQLRPLLARYARLFAPGLHVLSYNEVPDELELKIMGALM" [] ["CCO-MEMBRANE"] +"G6114-MONOMER" "flagellar system protein, promoterless fragment" ["MbhA", "LafU"] "MSKSERESIIAALHGQSIFNGGGLSPLNKISPSHPPKPATVAVPEETEKKARDVNEKTALLKKKSATELGELATSINTIARDAHMEANLEMEIVPQGLRVLIKDDQNRNMFERGSAKIMPFFKTLLVELAPVFDSLDNKIIITGHTDAMAYKNNIYNNWNLSGDRALSARRVLEEAGMPEDKVMQVSAMADQMLLDSKNPQSAGNRRIEIMVLTKSASDTLYQYFGQHGDKVVQPLVQKLDKQQVLSQRTR" [] ["CCO-CYTOSOL"] +"G6115-MONOMER" "DNA polymerase IV" ["DinB", "DinP", "pol IV"] "MRKIIHVDMDCFFAAVEMRDNPALRDIPIAIGGSRERRGVISTANYPARKFGVRSAMPTGMALKLCPHLTLLPGRFDAYKEASNHIREIFSRYTSRIEPLSLDEAYLDVTDSVHCHGSATLIAQEIRQTIFNELQLTASAGVAPVKFLAKIASDMNKPNGQFVITPAEVPAFLQTLPLAKIPGVGKVSAAKLEAMGLRTCGDVQKCDLVMLLKRFGKFGRILWERSQGIDERDVNSERLRKSVGVERTMAEDIHHWSECEAIIERLYPELERRLAKVKPDLLIARQGVKLKFDDFQQTTQEHVWPRLNKADLIATARKTWDERRGGRGVRLVGLHVTLLDPQMERQLVLGL" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G6116-MONOMER" "antitoxin YafN" ["YafN", "antitoxin of the YafO-YafN toxin-antitoxin system"] "MHRILAEKSVNITELRKNPAKYFIDQPVAVLSNNRPAGYLLSASAFEALMDMLAEQEEKKPIKARFRPSAARLEEITRRAEQYLNDMTDDDFNDFKE" [] ["CCO-CYTOSOL"] +"G6117-MONOMER" "ribosome-dependent mRNA interferase toxin YafO" ["YafO", "ribosome-dependent mRNA interferase, toxin of the YafO-YafN toxin-antitoxin system"] "MRVFKTKLIRLQLTAEELDALTADFISYKRDGVLPDIFGRDALYDDSFTWPLIKFERVAHIHLANENNPFPPQLRQFSRTNDEAHLVYCQGAFDEQAWLLIAILKPEPHKLARDNNQMHKIGKMAEAFRMRF" [] ["CCO-CYTOSOL"] +"G6118-MONOMER" "putative acyltransferase with acyl-CoA N-acyltransferase domain" ["YafP"] "MNNIQIRNYQPGDFQQLCAIFIRAVTMTASQHYSPQQISAWAQIDESRWKEKLAKSQVWVAIINAQPVGFISRIEHYIDMLFVDPEYTRRGVASALLKPLIKSESELTVDASITAKPFFERYGFQTVKQQRVECRGAWFTNFYMRYKPQH" [] ["CCO-CYTOSOL"] +"G6119-MONOMER" "RNA ligase superfamily protein YkfJ" ["YkfJ"] "MEWYMGKYIRPLSDAVFTIASDDLWIESLAIQQLHTTANLPNMQRVVGMPDLHPGRGYPIGAAFFSVGRFYPARRRGNGAGNRNGPLL" [] ["CCO-CYTOSOL"] +"G6120-MONOMER" "CP4-6 prophage; toxin of the YkfI-YafW toxin-antitoxin system" ["YkfI"] "MKTLPAITQRAVKPCLSPVAVWQMLLTRLLEQHYGLTINDTPFCNEAVIKEHIDAGITLADAVNFLVEKYELVRIDRKGFSWQEQSPYLRAADILRARQATGLLRQSRNNVVR" [] ["CCO-CYTOSOL"] +"G6121-MONOMER" "antitoxin of the YkfI-YafW toxin-antitoxin pair" ["YafW"] "MSNPTRGLQREITLRLGARLVQEGNRLHYLADRASITGKFSDIECRKLDETFPHFILQMESMLTTGELSPHHAHCVTLYHNDLTCEADTLGSCGYVYIAIYPTQR" [] ["CCO-CYTOSOL"] +"G6122-MONOMER" "CP4-6 prophage; RadC-like JAB domain-containing protein YkfG" ["YkfG"] "MKQLSFLPGEMTPQDRRLIQRALRALDRHLHEPGVAFTSTHAVREWLRLHMAALEREEFRVLYLDNQNQLIAHETLFTGTINRTEVHPREVVKRALHFNAAAVILAHNHPSGETTPSQADKTLTQRLVQVLQLVDIRVPDHLIVGGRQIYSFAEHGLL" [] ["CCO-CYTOSOL"] +"G6123-MONOMER" "CP4-6 prophage; protein YafX" ["YafX"] "MTTQTQHDLAPANQPEFELTVTPVPDEQRIDFWPQYFGAIPQWLLLEPHIFAWMDRFCEGYSGGIWSFYTLSNGGAFMSPEPDNDETWRLFNCLNGNDAQMSAEAAGIAVCLIAYSHHACRTECDAMTAHYYRLREYAMQHPEAHAILRIID" [] ["CCO-CYTOSOL"] +"G6124-MONOMER" "CP4-6 prophage; protein YkfF" ["YkfF"] "MTQSVLLPPGPFTRRQAQAVTTTYSNITLEDDQGSHFRLVVRDTEGRMVWRAWNFEPDAGEGLNRYIRTSGIRTDTATR" [] ["CCO-CYTOSOL"] +"G6125-MONOMER" "CP4-6 prophage; protein YkfB" ["YkfB"] "MTILSLSRFMLAGVLLASFNASAIPGFWQQGYGQGNTEYSVTEASGKTFTINCTGNPDQNGFYQHSVFLTLADDKMVSSHDDDTTITVVMDHQQYIIPSSLGWRNGDNAWFDFISNISEAGQFDVYVNDHKAGTFTADRKNAEKVLSTLGDCSND" [] ["CCO-CYTOSOL"] +"G6126-MONOMER" "CP4-6 prophage; inner membrane lipoprotein YafY" ["YafY"] "MKRKTLPLLALVATTLFLIACDDRSDDLKAISKFKDLTPPRFSDVVSHQDDVSEEWSQVDYLSGPTLQVLRTRQSPDGCEDGSYYYLVDMQEKTVQPLMNALCIADNIKLEYQEVTDPYTKEKYFEYAHDGKLMGQLLIPSNPDNQE" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6127-MONOMER" "CP4-6 prophage; DUF932 domain-containing protein YafZ" ["YafZ"] "MTRLASRFGAANLIRRDRPLTREELFRVVPSVFSEDKHESRSERYTYIPTISLLDSLQREGFQPFFACQTRVRDPGRREHTKHMLRLRREGQITGKQVPEIILLNSHDGTSSYQMLPGLFRAVCQNGLVCGESFGEVRVPHKGDVVSQVIEGAYEVLGIFDRVEEKRDAMQSLLLPPPAQQALAKAALTYRFGEDHQPVTESQILSPRRWQDESNDLWTTYQRIQENLIKGGLSGRNAKGGRSHTRAVRGIDGDVKLNRALWVMAEALLTQLQ" [] ["CCO-CYTOSOL"] +"G6128-MONOMER" "CP4-6 prophage; putative GTP-binding protein YkfA" ["YkfA"] "MNNSEGLKSFQQSLADLPQWVSERLLQQINQLTNYEPVIGIMGKTGVGKSSLCNALFAGDISPVSDVAACTREPLRFRLQVGDRYITLMDLPGVGESGARDTEYAALYREQLPRLDLVLWLIKADDRALTVDEHFYHQVIGEVYRHKVLFVISQSDKAEPTSGGGQLSTAQKQNISRKICLLHELFQPVHPVCAVSVRLQWGLKVMAERMIKCLPREATSPVVSQLHPSFRTTVVREQARSDFGETVGAVLDSISAFPLIPAPVRAVIQAVRTTVVSVARAVWDFFF" [] ["CCO-CYTOSOL"] +"G6129-MONOMER" "CP4-6 prophage; putative transcriptional regulator PerR" ["PerR"] "MKLLAKAPLNLLRAFEAAGRTGAFALAASELELSPSAISHAIRKLENLLDVRLFQRSTREITLTKEGEILLEHIQRGFNELQQGLALVTADESRPLRLHTAPSFAHQWLLPRLGKFIRENPSIDLRLSASTEYARFEQDDFDLDIVYGEPRPSPYEKIPLAVEELTPLCSPQLAERLKKPEDLYALTLIQCDVQLYQWKGWFEANKMTPPNNYGLRFDRSFMAIAAAVDGLGVVLESKLLAEREIASGKLVCPLVNSTSEIHYIGHYLVFPQHQHMHSALDVFKTWLLNELNLGKIR" [] ["CCO-CYTOSOL"] +"G6130-MONOMER" "CP4-6 prophage; IS911A regulator fragment" ["InsN", "InsN1"] "MKKRNFSAEFKRESAQLVVDQNYTVADAASAMDVGLSTMTRWVKQLRDERQGKTPKASPITPEQIEIRELRKKLQRIEMENEILKKATALLMSDSLNSSR*SGNSGRVILWPLSAMCSGFIAAATNTGKTVLKSQTADGLYYAVRYLNCMASATALPEQEASPQWQPREDTRWGAGLLADS*KSWGWSVASSRLTGISVAVMSTLLSRIILSDSSP*RNQIRCGAVM*P" [] ["CCO-CYTOSOL"] +"G6131-MONOMER" "IS30 transposase" ["Tra8-1", "InsI1"] "MRRTFTAEEKASVFELWKNGTGFSEIANILGSKPGTIFTMLRDTGGIKPHERKRAVAHLTLSEREEIRAGLSAKMSIRAIATALNRSPSTISREVQRNRGRRYYKAVDANNRANRMAKRPKPCLLDQNLPLRKLVLEKLEMKWSPEQISGWLRRTKPRQKTLRISPETIYKTLYFRSREALHHLNIQHLRRSHSLRHGRRHTRKGERGTINIVNGTPIHERSRNIDNRRSLGHWEGDLVSGTKNSHIATLVDRKSRYTIIVRLRGKDSVSVNQALTDKFLSLPSELRKSLTWDRGMELARHLEFTVSTGVKVYFCDPQSPWQRGTNENTNGLIRQYFPKKTCLAQYTQHELDLVAAQLNNRPRKTLKFKTPKEIIERGVALTD" [] ["CCO-CYTOSOL"] +"G6133-MONOMER" "CP4-6 prophage; PF00078 domain-containing protein YkfC" ["YkfC"] "MIISEMQRKLATWAATDPSLRIQRLLRLITQPEWLAEAARITLSSKGAHTPGVDGVNKTMLQARLAVELQILRDELLSGHYQPLPARRVYIPKSNGKLRPLGIPALRDRIVQRAMLMAMEPIWESDFHTLSYGFRPERSVHHAIRTVKLQLTDCGETRGRWVIEGDLSSYFDTVHHRLLMKAVRRRISDARFMTLLWKTIKAGHIDVGLFRAASEGVPQGGVISPLLSNIMLNEFDQYLHERYLSGKARKDRWYWNNSIQRGRSTAVRENWQWKPAVAYCRYADDFVLIVKGTKAQVEAIREECRGVLEGSLKLRLNMDKTKIPHVNDGFIFLGHRLIRKRSRYGEMRVVSTIPQEKARNFAASLTALLWKVRISGEILLG" [] ["CCO-CYTOSOL"] +"G6137-MONOMER" "CP4-6 prophage; ABC transporter membrane protein AfuB" [] "MPNR*IAR*SLTQPARRFPAYHYAHPAAAAAPGDPLGADLQLCARHYHRQRHCVPRHAGYPRSDGLHPQPRGRWRIRCSDCLRFHSDRGDAGDYFHL*LADR*ITYLPFKSQKPG" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6138-MONOMER" "IS1 protein InsB" ["InsB2"] "MPGNRPHYGRWPQHDFPPFKKLRPQSVTSRIQPGSDVIVCAEMDEQWGYVGAKSRQRWLFYAYDRLRKTVVAHVFGERTMATLGRLMSLLSPFDVVIWMTDGWPLYESRLKGKLHVISKRYTQRIERHNLNLRQHLARLGRKSLSFSKSVEQHDKVIGHYLNIKHYQ" [] ["CCO-CYTOSOL"] +"G6139-MONOMER" "IS1 protein InsA" ["InsA2"] "MASVSISCPSCSATDGVVRNGKSTAGHQRYLCSHCRKTWQLQFTYTASQPGTHQKIIDMAMNGVGCRATARIMGVGLNTIFRHLKNSGRSR" [] ["CCO-CYTOSOL"] +"G6140-MONOMER" "CP4-6 prophage; putative 2-dehydro-3-deoxygluconate aldolase" ["YagE"] "MPQSALFTGIIPPVSTIFTADGQLDKPGTAALIDDLIKAGVDGLFFLGSGGEFSQLGAEERKAIARFAIDHVDRRVPVLIGTGGTNARETIELSQHAQQAGADGIVVINPYYWKVSEANLIRYFEQVADSVTLPVMLYNFPALTGQDLTPALVKTLADSRSNIIGIKDTIDSVAHLRSMIHTVKGAHPHFTVLCGYDDHLFNTLLLGGDGAISASGNFAPQVSVNLLKAWRDGDVAKAAGYHQTLLQIPQMYQLDTPFVNVIKEAIVLCGRPVSTHVLPPASPLDEPRKAQLKTLLQQLKLC" [] ["CCO-CYTOSOL"] +"G6141-MONOMER" "CP4-6 prophage; D-xylonate dehydratase" ["YagF"] "MTIEKIFTPQDDAFYAVITHAAGPQGALPLTPQMLMESPSGNLFGMTQNAGMGWDANKLTGKEVLIIGTQGGIRAGDGRPIALGYHTGHWEIGMQMQAAAKEITRNGGIPFAAFVSDPCDGRSQGTHGMFDSLPYRNDAAIVFRRLIRSLPTRRAVIGVATCDKGLPATMIALAAMHDLPTILVPGGATLPPTVGEDAGKVQTIGARFANHELSLQEAAELGCRACASPGGGCQFLGTAGTSQVVAEALGLALPHSALAPSGQAVWLEIARQSARAVSELDSRGITTRDILSDKAIENAMVIHAAFGGSTNLLLHIPAIAHAAGCTIPDVEHWTRINRKVPRLVSVLPNGPDYHPTVRAFLAGGVPEVMLHLRDLGLLHLDAMTVTGQTVGENLEWWQASERRARFRQCLREQDGVEPDDVILPPEKAKAKGLTSTVCFPTGNIAPEGSVIKATAIDPSVVGEDGVYHHTGRVRVFVSEAQAIKAIKREEIVQGDIMVVIGGGPSGTGMEETYQLTSALKHISWGKTVSLITDARFSGVSTGACFGHVSPEALAGGPIGKLRDNDIIEIAVDRLTLTGSVNFIGTADNPLTPEEGARELARRQTHPDLHAHDFLPDDTRLWAALQSVSGGTWKGCIYDTDKIIEVINAGKKALGI" [] ["CCO-CYTOSOL"] +"G6143-MONOMER" "CP4-6 prophage; putative xylosidase/arabinosidase" ["YagH"] "MEITNPILTGFNPDPSLCRQGEDYYIATSTFEWFPGVRIYHSRDLKNWSLVSTPLDRVSMLDMKGNPDSGGIWAPCLSYADGKFWLLYTDVKIVDSPWKNGRNFLVTAPSIEGPWSEPIPMGNGGFDPSLFHDDDGRKYYIYRPWGPRHHSNPHNTIVLQAFDPQTGTLSPERKTLFTGTPLCYTEGAHLYRHAGWYYLMAAEGGTSYEHAVVVLRSKNIDGPYELHPDVTMMTSWHLPENPLQKSGHGSLLQTHTGEWYMAYLTSRPLRLPGVPLLASGGRGYCPLGRETGIARIEWRDGWPYVEGGKHAQLTVKGPQVAEQPAAVPGNWRDDFDASSLDPELQTLRIPFDDTLGSLTARPGFLRLYGNDSLNSTFTQSTVARRWQHFAFRAETRMEFSPVHFQQSAGLTCYYNSKNWSYCFVDYEEGQGRTIKVIQLDHNVPSWPLHEQPIPVPEHAESVWLRVDVDTLVYRYSYSFDGETWHTVPVTYEAWKLSDDYIGGRGFFTGAFVGLHCEDISGDGCYADFDYFTYEPV" [] ["CCO-CYTOSOL"] +"G6144-MONOMER" "CP4-6 prophage; DNA-binding transcriptional repressor XynR" ["XynR", "YagI"] "MPIIQSVERALQILDLFNEQATELKITDISKLMGLSKSTLHSLLKTLQLHGYIDQNPENGKYRLGMKLVERGHFVVGSIDIRQKAKGWLTELSRRTGQTTHLGILDGREGVYIEKIEGKLAAIAYSRIGRRLPVHATAIGKVLIAWLGEAELNALLEGYQYTTFTPATLASREALMSALAQTREQGYALDSEENEQGVRCVAVPVWNHESRVIAALSLSTLTSRVDDAELANFREQLQQAGLALSRALGYPA" [] ["CCO-CYTOSOL"] +"G6147-MONOMER" "CP4-6 prophage; protein YagJ" ["YagJ"] "MEARVTVAGMGLVMEVQDYFDGEADRLAKAWLAEYTPQIKSLKDERKEAYRQIVEMSTEPQDVDLVRPANKFEMTRVREGEKEADLPVWKHHLLCDESGNYPALLNHWETKVFEIETKREGFAFWYRNPQYTGQSSLGIAYVEAEQYKIVRPDFLFFAEQDGKMVVDLVDPHSLHLADALPKLEGLALYAEHHSDAYRRIESVAEVKGKLRVLDLKRQDVQDAVATAENAETLFSSGLADDYQ" [] ["CCO-CYTOSOL"] +"G6148-MONOMER" "CP4-6 prophage; uncharacterized protein YagK" ["YagK"] "MKTYQGTHGVHILEYQSKINKLLCYLTNRYPRLIAVRVDLHYPKIVDNGDNICCFPNLEPGVISRMRESLRAKLEADRTRKVREDKRIYRCPLFIIWAKEYSESGKCHYHICLLFNKDAYYHLGDYDQDDNLRGMITGAWYSALRLERDDHPGLVHFPENCKYVLDTNSTDFQQNYQALLTRLDYLTKVESKVFGEGDRNFGCSQIEL" [] ["CCO-CYTOSOL"] +"G6149-MONOMER" "CP4-6 prophage; resolvase-like catalytic domain-containing protein YagL" ["YagL"] "MRGKILLYQLKYRWQSLSIFGCFLCKMTLFRYQKIIYDTGVHQMRSFFYTICSSEQQESITDHHSLAEICQKFNILPEHVVIEQVDIKEVVSEQRLLRQLIHHEMNRQDTLVIPDLSCLGRTVEDLQNILFFCLQKEMFIYSYHPASRIEPSAESCLSFLIARQDTIDIHNLKSTKSRYRHVKKKLGRKEGSKYRRDITILKKGGFTQAEIAKKLSISLSTVKRHWNNGIIG" [] ["CCO-CYTOSOL"] +"G6150-MONOMER" "CP4-6 prophage; protein YagM" ["YagM"] "MSNSVTNFEMSSVLPGKKPCQGKNNESQVVQTTPIKKHSVTFKNQSSLGVIDHYARLTNKSHSSVIAEVVDLAIPILEKCNRHNWSINEIKNDLLKFSIKESINRSRGKTEVTLEEYCSLIWKTNIMSPLKIPIADYFQLNANDEFMGKDEKTVIRERLSSLRENYDMEKAIYIYNQRHFDVKHQSVSGYSNIILIHRTTFEGYYFDAGQALLLSTSQLIIFGINEVLRRKGIVMPYPVVCWIDIYHVNEMVVMLPVLRKTDVSNRVNVPDDIIINPYSQESRT" [] ["CCO-CYTOSOL"] +"G6151-MONOMER" "CP4-6 prophage; protein YagN" ["YagN"] "MATPATVSIEPTLAAIRARWCINSSKTTQSFNDPASMEEVVEYLKGTYSALRKSVACAKLKILHLKQRMQNATNFLARLMSCKNQASRSHHSTAKSAKSALSSDSGDGSDPDPEPETFPSAFITTPTNSIMLKAFFANISITEVAK" [] ["CCO-CYTOSOL"] +"G6152-MONOMER" "CP4-6 prophage; putative phage integrase" ["YagO", "IntF"] "MFIPSIYLHQQLHYCKTAILNWSRKMALSRQKFTFERLRRFTLPEGKKQTFLWDADVTTLACRATSGAKAFVFQSVYAGKTLRMTIGNINDWKIDDARAEARRLQTLIDTGIDPRIAKAVKIAEAESLQAESRKTKVTFSVAWEDYLQELRTGISAKTKRPYSTRYIADHINLSSRGGESKKRGQGPTSAGPLASLLNLPLSELTPDYIAAWLSTERQNRPTVTAHAYRLLRAFIKWSNYQKKYQGIIPGDLAQDYNVRKMVPVSASKADDCLQKEQLKSWFSAVRSLNNPIASAYLQVLLLTGARREEIASLRWSDVDFKWSSMRIKDKIEGERIIPLTPYVSELLNVLAQSPNSDVNKEGWVFRSNSKSGKIIEPRSAHNRALVLAELPHISLHGLRRSFGTLAEWVEVPTGIVAQIMGHKPSALAEKHYRRRPLDLLRKWHEKIETWILNEAGITIKNNVDMR" [] ["CCO-CYTOSOL"] +"G6153-MONOMER" "putative LysR family substrate binding domain-containing protein YagP" ["YkgT", "YagP"] "MPAPVVLILAAGRGECFLASGGNTHKCIGWRQSPEVAPYRWPFEENGRTFDLAIEPQITTNDLRLMLRLALAGGGITIATQETFRPYIESGKLVSLLDDFLPQFPGFYLYFPQRRNIAPKLRALIDYVKEWRQQLA" [] ["CCO-CYTOSOL"] +"G6154-MONOMER" "molybdenum cofactor insertion chaperone PaoD" ["PaoD", "YagQ", "molybdenum cofactor insertion chaperone for PaoABC"] "MSYPLFDKDEHWHKPEQAFLTDDHRTILRFAVEALMSGKGAVLVTLVEIRGGAARPLGAQMVVREDGRYCGFVSGGCVEAAAAFEALEMMGSGRDREIRYGEGSPWFDIVLPCGGGITLTLHKLRSAQPLLAVLNRLEQRKPVGLRYDPQAQSLVCLPTQTRTGWNLNGFEVGFRPCVRLMIYGRSLEAQATASLAAATGYDSHIFDLFPASASAQIDTDTAVILLCHDLNRELPVLQAAREAKPFYLGALGSYRTHTLRLQKLHELGWSREETTQIRAPVGIFPKARDAHTLALSVLAEVASVRLHQEEDSCLPPSS" [] ["CCO-CYTOSOL"] +"G6155-MONOMER" "aldehyde dehydrogenase: molybdenum cofactor-binding subunit" ["YagR", "PaoC"] "MKFDKPAGENPIDQLKVVGRPHDRIDGPLKTTGTARYAYEWHEEAPNAAYGYIVGSAIAKGRLTALDTDAAQKAPGVLAVITASNAGALGKGDKNTARLLGGPTIEHYHQAIALVVAETFEQARAAASLVQAHYRRNKGAYSLADEKQAVNQPPEDTPDKNVGDFDGAFTSAAVKIDATYTTPDQSHMAMEPHASMAVWDGNKLTLWTSNQMIDWCRTDLAKTLKVPVENVRIISPYIGGGFGGKLFLRSDALLAALAARAVKRPVKVMLPRPSIPNNTTHRPATLQHLRIGADQSGKITAISHESWSGNLPGGTPETAVQQSELLYAGANRHTGLRLATLDLPEGNAMRAPGEAPGLMALEIAIDELAEKAGIDPVEFRILNDTQVDPADPTRCFSRRQLIECLRTGADKFGWKQRNATPGQVRDGEWLVGHGVAAGFRNNLLEKSGARVHLEQNGTVTVETDMTDIGTGSYTILAQTAAEMLGVPLEQVAVHLGDSSFPVSAGSGGQWGANTSTSGVYAACMKLREMIASAVGFDPEQSQFADGKITNGTRSATLHEATAGGRLTAEESIEFGTLSKEYQQSTFAGHFVEVGVHSATGEVRVRRMLAVCAAGRILNPKTARSQVIGAMTMGMGAALMEELAVDDRLGYFVNHDMAGYEVPVHADIPKQEVIFLDDTDPISSPMKAKGVGELGLCGVSAAIANAVYNATGIRVRDYPITLDKLLDKLPDVV" [] ["CCO-PM-BAC-NEG", "CCO-PERI-BAC"] +"G6156-MONOMER" "aldehyde dehydrogenase, FAD-binding subunit" ["YagS", "PaoB"] "MKAFTYERVNTPAEAALSAQRVPGAKFIAGGTNLLDLMKLEIETPTHLIDVNGLGLDKIEVTDAGGLRIGALVRNTDLAAHERVRRDYAVLSRALLAGASGQLRNQATTAGNLLQRTRCPYFYDTNQPCNKRLPGSGCAALEGFSRQHAVVGVSEACIATHPSDMAVAMRLLDAVVETITPEGKTRSITLADFYHPPGKTPHIETALLPGELIVAVTLPPPLGGKHIYRKVRDRASYAFALVSVAAIIQPDGSGRVALGGVAHKPWRIEAADAQLSQGAQAVYDTLFASAHPTAENTFKLLLAKRTLASVLAEARAQA" [] ["CCO-CYTOSOL", "CCO-PERI-BAC"] +"G6157-MONOMER" "aldehyde dehydrogenase, Fe-S subunit" ["YagT", "PaoA"] "MSNQGEYPEDNRVGKHEPHDLSLTRRDLIKVSAATAATAVVYPHSTLAASVPAATPAPEIMPLTLKVNGKTEQLEVDTRTTLLDTLRENLHLIGTKKGCDHGQCGACTVLVNGRRLNACLTLAVMHQGAEITTIEGLGSPDNLHPMQAAFIKHDGFQCGYCTSGQICSSVAVLKEIQDGIPSHVTVDLVSAPETTADEIRERMSGNICRCGAYANILAAIEDAAGEIKS" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"G6158-MONOMER" "inner membrane protein that contributes to acid resistance" ["YagU"] "MNIFEQTPPNRRRYGLAAFIGLIAGVVSAFVKWGAEVPLPPRSPVDMFNAACGPESLIRAAGQIDCSRNFLNPPYIFLRDWLGLTDPNAAVYTFAGHVFNWVGVTHIIFSIVFAVGYCVVAEVFPKIKLWQGLLAGALAQLFVHMISFPLMGLTPPLFDLPWYENVSEIFGHLVWFWSIEIIRRDLRNRITHEPDPEIPLGSNR" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6159-MONOMER" "putative metal-chelating domain-containing protein YkgJ" ["YkgJ", "predicted ferredoxin"] "MSNLNPCMTCGACCAFFRVSFYWAEADDAGGTIPARLTEQISPFHRCMSGTNQKNPRCIALAGTPGKNACCTIYKNRSSTCREFAMSGENGVVNEACNRARAKYGLTPL" [] ["CCO-CYTOSOL"] +"G6160-MONOMER" "putative fimbrial chaperone EcpE" ["MatF", "YagV", "EcpE", "E. coli common pilus chaperone"] "MFRRRGVTLTKALLTAVCMLAAPLTQAISVGNLTFSLPSETDFVSKRVVNNNKSARIYRIAISAIDSPGSSELRTRPVDGELLFAPRQLALQAGESEYFKFYYHGPRDNRERYYRVSFREVPTRNHTRRSPTGGVVSTEPVVVMDTILVVRPRQVQFKWSFDKVTGTVSNTGNTWFKLLIKPGCDSTEEEGDAWYLRPGDVVHQPELRQPGNHYLVYNDKFIKISDSCPAKPPSAD" [] ["CCO-PERI-BAC"] +"G6161-MONOMER" "fimbrial adhesin EcpD" ["MatE", "YagW", "EcpD"] "MRVNLLITMIIFALIWPVTALRAAVSKTTWADAPAREFVFVENNSDDNFFVTPGGALDPRLTGANRWTGLKYTGSGTIYQQSLGYIDNGYNTGLYTNWKFDMWLENSPVSSPLTGLRCINWYAGCNMTTSLILPQTTDASGFYGATVTSGGAKWMHGMLSDAFYQYMQQMPVGSSFTMTINACQTSVNYDASSGARCKDQASGNWYVRNVTHTKAANLRLINTHSLAEVFINSDGVPTLGEGNADCRTQTIGSRSGLSCKMVNYTLQTNGLSNTSIHIFPAIANSSLASAVGAYDMQFSLNGSSWKPVSNTAYYYTFNEMKSADSIYVFFSSNFFKQMVNLGISDINTKDLFNFRFQNTTSPESGWYEFSTSNTLIIKPRDFSISIISDEYTQTPSREGYVGSGESALDFGYIVTTSGKTAADEVLIKVTGPAQVIGGRSYCVFSSDDGKAKVPFPATLSFITRNGATKTYDAGCDDSWRDMTDALWLTTPWTDISGEVGQMDKTTVKFSIPMDNAISLRTVDDNGWFGEVSASGEIHVQATWRNIN" [] ["CCO-PILUS"] +"G6162-MONOMER" "putative fimbrial usher protein EcpC" ["MatD", "YagX"] "MPLRRFSPGLKAQFAFGMVFLFVQPDASAADISAQQIGGVIIPQAFSQALQDGMSVPLYIHLAGSQGRQDDQRIGSAFIWLDDGQLRIRKIQLEESEDNASVSEQTRQQLMALANAPFNEALTIPLTDNAQLDLSLRQLLLQLVVKREALGTVLRSRSEDIGQSSVNTLSSNLSYNLGVYNNQLRNGGSNTSSYLSLNNVTALREHHVVLDGSLYGIGSGQQDSELYKAMYERDFAGHRFAGGMLDTWNLQSLGPMTAISAGKIYGLSWGNQASSTIFDSSQSATPVIAFLPAAGEVHLTRDGRLLSVQNFTMGNHEVDTRGLPYGIYDVEVEVIVNGRVISKRTQRVNKLFSRGRGVGAPLAWQVWGGSFHMDRWSENGKKTRPAKESWLAGASTSGSLSTLSWAATGYGYDNQAVGETRLTLPLGGAINVNLQNMLASDSSWSSIGSISATLPGGFSSLWVNQEKTRIGNQLRRSDADNRAIGGTLNLNSLWSKLGTFSISYNDDRRYNSHYYTADYYQNVYSGTFGSLGLRAGIQRYNNGDSNANTGKYIALDLSLPLGNWFSAGMTHQNGYTMANLSARKQFDEGTIRTVGANLSRAISGDTGDDKTLSGGAYAQFDARYASGTLNVNSAADGYVNTNLTANGSVGWQGKNIAASGRTDGNAGVIFNTGLEDDGQISAKINGRIFPLNGKRNYLPLSPYGRYEVELQNSKNSLDSYDIVSGRKSRLTLYPGNVAVIEPEVKQMVTVSGRIRAEDGTLLANARINNHIGRTRTDENGEFVMDVDKKYPTIDFRYSGNKTCEVALELNQARGAVWVGDVVCSGLSSWAAVTQTGEENES" [] ["CCO-OUTER-MEM"] +"G6163-MONOMER" "putative fimbrial chaperone EcpB" ["EcpB", "YagY", "MatC", "E. coli common pilus chaperone"] "MKKHLLPLALLFSGISPAQALDVGDISSFMNSDSSTLSKTIKNSTDSGRLINIRLERLSSPLDDGQVISMDKPDELLLTPASLLLPAQASEVIRFFYKGPADEKERYYRIVWFDQALSDAQRDNANRSAVATASARIGTILVVAPRQANYHFQYANGSLTNTGNATLRILAYGPCLKAANGKECKENYYLMPGKSRRFTRVDTADNKGRVALWQGDKFIPVK" [] ["CCO-CYTOSOL"] +"G6164-MONOMER" "common pilus major subunit" ["YagZ", "MatB", "EcpA", "ECP", "E. coli common pilus - major subunit"] "MKKKVLAIALVTVFTGMGVAQAADVTAQAVATWSATAKKDTTSKLVVTPLGSLAFQYAEGIKGFNSQKGLFDVAIEGDSTATAFKLTSRLITNTLTQLDTSGSTLNVGVDYNGAAVEKTGDTVMIDTANGVLGGNLSPLANGYNASNRTTAQDGFTFSIISGTTNGTTAVTDYSTLPEGIWSGDVSVQFDATWTS" [] ["CCO-PILUS"] +"G6165-MONOMER" "DNA-binding transcriptional dual regulator MatA" ["EcpR", "YkgK", "MatA"] "MTWQSDYSRDYEVKNHMECQNRSDKYIWSPHDAYFYKGLSELIVDIDRLIYLSLEKIRKDFVFINLSTDSLSEFINRDNEWLSAVKGKQVVLIAARKSEALANYWYYNSNIRGVVYAGLSRDIRKELVYVINGRFLRKDIKKDKITDREMEIIRMTAQGMQPKSIARIENCSVKTVYTHRRNAEAKLYSKIYKLVQ" [] ["CCO-CYTOSOL"] +"G6166-MONOMER" "uncharacterized protein YkgL" ["YkgL"] "MQAAPQREETEWRVQSKRGLMPAYRGEAGQQVNIKIMEYSERNVRQLASNEQEEYIPRKINVGVINTPTLIRSDY" [] ["CCO-CYTOSOL"] +"G6167-MONOMER" "50S ribosomal subunit protein L31B" ["YkgM"] "MKPNIHPEYRTVVFHDTSVDEYFKIGSTIKTDREIELDGVTYPYVTIDVSSKSHPFYTGKLRTVASEGNVARFTQRFGRFVSTKKGA" [] ["CCO-RIBOSOME", "CCO-CYTOSOL"] +"G6170-MONOMER" "putative DNA-binding transcriptional regulator YkgA" ["YkgA"] "MIRQKILQQLLEWIECNLEHPISIEDIAQKSGYSRRNIQLLFRNFMHVPLGEYIRKRRLCRAAILVRLTAKSMLDIALSLHFDSQQSFSREFKKLFGCSPREYRHRDYWDLANIFPSFLIRQQQKTECRLINFPETPIFGNSFKYDIEVSNKSPDEEVKLRRHHLARCMKNFKTDIYFVSTFEPSTKSVDLLTVETFAGTVCEYADMPKEWTTTRGLYDPTHVIWTQA" [] ["CCO-CYTOSOL"] +"G6171-MONOMER" "reactive chlorine species resistance protein C" ["RclC", "YkgB"] "MEKYLHLLSRGDKIGLTLIRLSIAIVFMWIGLLKFVPYEADSITPFVANSPLMSFFYEHPEDYKQYLTHEGEYKPEARAWQTANNTYGFSNGLGVVEVIIALLVLANPVNRWLGLLGGLMAFTTPLVTLSFLITTPEAWVPALGDAHHGFPYLSGAGRLVLKDTLMLAGAVMIMADSAREILKQRSNESSSTLKTEY" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6173-MONOMER" "DUF1471 domain-containing protein RclB" ["RclB", "YkgI", "putative protein, hypochlorite stress response"] "MFKKSVLFATLLSGVMAFSTNADDKIILKHISVSSVSASPTVLEDTIADIARKYNASSWKVTSMRIDNNSTATAVLYK" [] ["CCO-PERI-BAC", "CCO-CYTOSOL"] +"G6174-MONOMER" "cupric reductase RclA" ["RclA", "YkgC", "putative oxidoreductase with FAD/NAD(P)-binding domain and dimerization domain; hypochlorite stress response", "putative pyridine nucleotide-disulfide oxidoreductase RclA"] "MNKYQAVIIGFGKAGKTLAVTLAKAGWRVALIEQSNAMYGGTCINIGCIPTKTLVHDAQQHTDFVRAIQRKNEVVNFLRNKNFHNLADMPNIDVIDGQAEFINNHSLRVHRPEGNLEIHGEKIFINTGAQTVVPPIPGITTTPGVYDSTGLLNLKELPGHLGILGGGYIGVEFASMFANFGSKVTILEAASLFLPREDRDIADNIATILRDQGVDIILNAHVERISHHENQVQVHSEHAQLAVDALLIASGRQPATASLHPENAGIAVNERGAIVVDKRLHTTADNIWAMGDVTGGLQFTYISLDDYRIVRDELLGEGKRSTDDRKNVPYSVFMTPPLSRVGMTEEQARESGADIQVVTLPVAAIPRARVMNDTRGVLKAIVDNKTQRMLGASLLCVDSHEMINIVKMVMDAGLPYSILRDQIFTHPSMSESLNDLFSLVK" [] ["CCO-CYTOSOL"] +"G6175-MONOMER" "DNA-binding transcriptional activator RclR" ["RclR", "YkgD"] "MDALSRLLMLNAPQGTIDKNCVLGSDWQLPHGAGELSVIRWHALTQGAAKLEMPTGEIFTLRPGNVVLLPQNSAHRLSHVDNESTCIVCGTLRLQHSARYFLTSLPETLFLAPVNHSVEYNWLREAIPFLQQESRSAMPGVDALCSQICATFFTLAVREWIAQVNTEKNILSLLLHPRLGAVIQQMLEMPGHAWTVESLASIAHMSRASFAQLFRDVSGTTPLAVLTKLRLQIAAQMFSRETLPVVVIAESVGYASESSFHKAFVREFGCTPGEYRERVRQLAP" [] ["CCO-CYTOSOL"] +"G6176-MONOMER" "putative lactate utilization oxidoreductase YkgE" ["YkgE"] "MNVNFFVTCIGDALKSRMARDSVLLLEKLGCRVNFPEKQGCCGQPAINSGYIKEAIPGMKNLIAALEDNDDPIISPAGSCTYAVKSYPTYLADEPEWASRAAKVAARMQDLTSFIVNKLGVVDVGASLQGRAVYHPSCSLARKLGVKDEPLTLLKNVRGLELLTFAEQDTCCGFGGTFSVKMAEISGEMVKEKVAHLMEVRPEYLIGADVSCLLNISGRLQREGQKVKVMHIAEVLMSR" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G6177-MONOMER" "putative amino acid dehydrogenase with NAD(P)-binding domain and ferridoxin-like domain" ["YkgF"] "MSIKTSNTDFKTRIRQQIEDPIMRKAVANAQQRIGANRQKMVDELGHWEEWRDRAAQIRDHVLSNLDAYLYQLSEKVTQNGGHVYFARTKEDATRYILQVAQRKNARKVVKSKSMVTEEIGVNHVLQDAGIQVIETDLGEYILQLDQDPPSHVVVPAIHKDRHQIRRVLHERLGYEGPETPEAMTLFIRQKIREDFLSAEIGITGCNFAVAETGSVCLVTNEGNARMCTTLPKTHIAVMGMERIAPTFAEVDVLITMLARSAVGARLTGYNTWLTGPREAGHVDGPEEFHLVIVDNGRSEVLASEFRDVLRCIRCGACMNTCPAYRHIGGHGYGSIYPGPIGAVISPLLGGYKDFKDLPYACSLCTACDNVCPVRIPLSKLILRHRRVMAEKGITAKAEQRAIKMFAYANSHPGLWKVGMMAGAHAASWFINGGKTPLKFGAISDWMEARDLPEADGESFRSWFKKHQAQEKKNG" [] ["CCO-CYTOSOL"] +"G6178-MONOMER" "DUF162 domain-containing lactate utilization protein YkgG" ["YkgG"] "MDNRGEFLNNVAQALGRPLRLEPQAEDAPLNNYANERLTQLNQQQRCDAFIQFASDVMLTRCELTSEAKAAEAAIRLCKELGDQSVVISGDTRLEELGISERLQQECNAVVWDPAKGAENISQAEQAKVGVVYAEYGLTESGGVVLFSAAERGRSLSLLPEYSLFILRKSTILPRVAQLAEKLHQKAQAGERMPSCINIISGPSSTADIELIKVVGVHGPVKAVYLIIEDC" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G6180-MONOMER" "uncharacterized protein YkgH" ["YkgH"] "MREQIKQDIDLIEILFYLKKKIRVILFIMAICMAMVLLFLYINKDNIKVIYSLKINQTTPGILVSCDSNNNFACQTTMTEDVIQRITTFFHTSPDVKNREIRLEWSGDKRALPTAEEEISRVQASIIKWYASEYHNGRQVLDEIQTPSAINSELYTKMIYLTRNWSLYPNGDGCVTISSPEIKNKYPAAICLALGFFLSIVISVMFCLVKKMVDEYQQNSGQ" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6181-MONOMER" "putative LysR-type DNA-binding transcriptional regulator YahB" ["YahB"] "MNSIFTEENLLAFTTAARFGSFSKAAEELGLTTSAISYTIKRMETGLDVVLFTRSTRSIELTESGRYFFRKATDLLNDFYAIKRRIDTISQGIEARVRICINQLLYTPKHTARLLQVLKKQFPTCQITVTTEVYNGVWDAIINNQANIAIGAPDTLLDGGGIDYTEIGAIRWAFAIAPDHPLAFVPEPIAESQLRLYPNIMVEDTAHTINKKVGWLLHGQESILVPDFNTKCQCQILGEGIGFLPDYMVREAMTQSLLVTRQIHNPRQDSRMLLATQHSATGQVTQWIKKQFAPNGILTGIYQDLLHREN" [] ["CCO-CYTOSOL"] +"G6182-MONOMER" "uncharacterized protein YahC" ["YahC"] "MNGLTATGVTVGICAGLWQLVSSHVGLSQGWELLGTIGFVAFCSFYAAGGGKSGFIRSLAVNYSGMVWAFFAALTAGWLASVSGLSAFWASVITTVPFSAVVVWQGRFWLLSFIPGGFLGMTLFFASGMNWTVTLLGFLAGNCVGVISEYGGQKLSEATTKRDGY" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6183-MONOMER" "ankyrin repeat-containing protein YahD" ["YahD", "putative transcriptional regulator with ankyrin domain"] "MSIKNLPADYLLAAQQGDIDKVKTCLALGVDINTCDRQGKTAITLASLYQQYACVQALIDAGADINKQDHTCLNPFLISCLNDDLTLLRIILPAKPDLNCVTRFGGVGLTPACEKGHLSIVKELLAHTEINVNQTNHVGWTPLLEAIVLNDGGIKQQAIVQLLLEHGASPHLTDKYGKTPLELARERGFEEIAQLLIAAGA" [] ["CCO-CYTOSOL"] +"G6184-MONOMER" "DUF2877 domain-containing protein YahE" ["YahE"] "MWALTADADFLAQRGQGQVEQVFARAVNIALPARQQLLTLLCEEYDNAPNSCRLALTHFDDLFRHGDKVQFDDQGITVGQHLHIEMSRCRRWLSPTLQMTAVNFHLIAWLQWHDIIHQHLGENETLFNYRGDNPFYQALNKELHIKRRAVIQAVNDKQNIASAVASMMGLGIGLTPSADDYLTGLALILFIPGHPAEKYKEEFYLGLQRGKNNTTLLSAITLEAALQQRCRENIHRFIHNIIYDIPGNATQAIEKIKHIGSSSGCDMLYGMADGCALSQTYGGNYVS" [] ["CCO-CYTOSOL"] +"G6185-MONOMER" "putative acyl-CoA synthetase YahF" ["YahF", "putative acyl-CoA synthetase with NAD(P)-binding domain and succinyl-CoA synthetase domain"] "MSVKIVIKPNTYFDSVSLMSISTRANKLDGVEQAFVAMATEMNKGVLKNLGLLTPELEQAKNGDLMIVINGKSGADNEQLLVEIEELFNTKAQSGSHEARYATIGSAKKHIPESNLAVISVNGLFAAREARQALQNDLNVMLFSDNVSVEDELALKQLAHEKGLLMMGPDCGTAIINGAALCFGNAVRRGNIGIVGASGTGSQELSVRIHEFGGGVSQLIGTGGRDLSEKIGGLMMLDAIGMLENDPQTEIIALISKPPAPAVARKVLERARACRKPVVVCFLDRGETPVDEQGLQFARGTKEAALKAVMLSGVKQENLDLHTLNQPLIADVRARLQPQQKYIRGLFCGGTLCDETMFAVMEKHGDVYSNIQPDPEFRLKDINRSIKHTFLDFGDDDFTNGKPHPMIDPTNRISRLIEEARDPEVAVIVMDFVLGFGSHEDPVGSTIETIKEAKAIAAAEGRELIILAYVLGTDLDTPSLEQQSQMLLDAGVILASSSTNTGLLAREFICKGEEA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G6186-MONOMER" "DUF1116 domain-containing protein YahG" ["YahG"] "MSQSLFSQPLNVINVGIAMFSDDLKKQHVEVTQLDWTPPGQGNMQVVQALDNIADSPLADKIAAANQQALERIIQSHPVLIGFDQAINVVPGMTAKTILHAGPPITWEKMCGAMKGAVTGALVFEGLAKDLDEAAELAASGEITFSPCHEHDCVGSMAGVTSASMFMHIVKNKTYGNIAYTNMSEQMAKILRMGANDQSVIDRLNWMRDVQGPILRDAMKIIGEIDLRLMLAQALHMGDECHNRNNAGTTLLIQALTPGIIQAGYSVEQQREVFEFVASSDYFSGPTWMAMCKAAMDAAHGIEYSTVVTTMARNGVEFGLRVSGLPGQWFTGPAQQVIGPMFAGYKPEDSGLDIGDSAITETYGIGGFAMATAPAIVALVGGTVEEAIDFSRQMREITLGENPNVTIPLLGFMGVPSAIDITRVGSSGILPVINTAIAHKDAGVGMIGAGIVHPPFACFEKAILGWCERYGV" [] ["CCO-CYTOSOL", "CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6188-MONOMER" "carbamate kinase-like protein YahI" ["YahI"] "MKELVVVAIGGNSIIKDNASQSIEHQAEAVKAVADTVLEMLASDYDIVLTHGNGPQVGLDLRRAEIAHKREGLPLTPLANCVADTQGGIGYLIQQALNNRLARHGEKKAVTVVTQVEVDKNDPGFAHPTKPIGAFFSDSQRDELQKANPDWCFVEDAGRGYRRVVASPEPKRIVEAPAIKALIQQGFVVIGAGGGGIPVVRTDAGDYQSVDAVIDKDLSTALLAREIHADILVITTGVEKVCIHFGKPQQQALDRVDIATMTRYMQEGHFPPGSMLPKIIASLTFLEQGGKEVIITTPECLPAALRGETGTHIIKT" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G6189-MONOMER" "amidohydrolase family protein YahJ" ["YahJ", "putative deaminase with metallo-dependent hydrolase domain"] "MKESNSRREFLSQSGKMVTAAALFGTSVPLAHAAVAGTLNCEANNTMKITDPHYYLDNVLLETGFDYENGVAVQTRTARQTVEIQDGKIVALRENKLHPDATLPHYDAGGKLMLPTTRDMHIHLDKTFYGGPWRSLNRPAGTTIQDMIKLEQKMLPELQPYTQERAEKLIDLLQSKGTTIARSHCNIEPVSGLKNLQNLQAVLARRQAGFECEIVAFPQHGLLLSKSEPLMREAMQAGAHYVGGLDPTSVDGAMEKSLDTMFQIALDYDKGVDIHLHETTPAGVAAINYMVETVEKTPQLKGKLTISHAFALATLNEQQVDELANRMVVQQISIASTVPIGTLHMPLKQLHDKGVKVMTGTDSVIDHWSPYGLGDMLEKANLYAQLYIRPNEQNLSRSLFLATGDVLPLNEKGERVWPKAQDDASFVLVDASCSAEAVARISPRTATFHKGQLVWGSVAG" [] ["CCO-CYTOSOL"] +"G6190-MONOMER" "aldehyde reductase, NADPH-dependent" ["YahK", "AdhZ2"] "MKIKAVGAYSAKQPLEPMDITRREPGPNDVKIEIAYCGVCHSDLHQVRSEWAGTVYPCVPGHEIVGRVVAVGDQVEKYAPGDLVGVGCIVDSCKHCEECEDGLENYCDHMTGTYNSPTPDEPGHTLGGYSQQIVVHERYVLRIRHPQEQLAAVAPLLCAGITTYSPLRHWQAGPGKKVGVVGIGGLGHMGIKLAHAMGAHVVAFTTSEAKREAAKALGADEVVNSRNADEMAAHLKSFDFILNTVAAPHNLDDFTTLLKRDGTMTLVGAPATPHKSPEVFNLIMKRRAIAGSMIGGIPETQEMLDFCAEHGIVADIEMIRADQINEAYERMLRGDVKYRFVIDNRTLTD" [] ["CCO-CYTOSOL"] +"G6191-MONOMER" "uncharacterized protein YahL" ["YahL"] "MISLKAPHNNLMPYTQQSILNTVKNNQLPEDIKSSLVSCVDIFKVLIKQYYDYPYDCRDDLVDDDKLIHLMAAVRDCEWSDDNALTINVQFNDFPGFYDWMDYPDHPVKFVFHILENQKGTVWVYDQDDAFLDIKANVQAGRFTGLKKLVQFIDSVRTDCKCILLEYHMPLLRIFPKGKECMHVEKWLREMSSIPETDAPIKQALAHGLLLHLKNIYPVFPESLVMLLLSVLDVKTYRDDARLNEWISNRVQELGDRYYPVNKHVKIRYTL" [] ["CCO-CYTOSOL"] +"G6192-MONOMER" "uncharacterized protein YahM" ["YahM"] "MAVQLFKTLLNQIPLLSSLQSGTLPLFGYSGWGRPMKKAHTGESGLKWEAKDSSKLIGNKDHALRGLSSPMAVIRQIRLIT" [] ["CCO-CYTOSOL"] +"G6193-MONOMER" "putative amino acid exporter YahN" ["YahN"] "MMQLVHLFMDEITMDPLHAVYLTVGLFVITFFNPGANLFVVVQTSLASGRRAGVLTGLGVALGDAFYSGLGLFGLATLITQCEEIFSLIRIVGGAYLLWFAWCSMRRQSTPQMSTLQQPISAPWYVFFRRGLITDLSNPQTVLFFISIFSVTLNAETPTWARLMAWAGIVLASIIWRVFLSQAFSLPAVRRAYGRMQRVASRVIGAIIGVFALRLIYEGVTQR" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6194-MONOMER" "DUF1471 domain-containing protein YahO" ["YahO"] "MKIISKMLVGALALAVTNVYAAELMTKAEFEKVESQYEKIGDISTSNEMSTADAKEDLIKKADEKGADVLVLTSGQTDNKIHGTANIYKKK" [] ["CCO-PERI-BAC"] +"G6195-MONOMER" "DNA-binding transcriptional dual regulator PrpR" ["YahP", "PrpR"] "MAHPPRLNDDKPVIWTVSVTRLFELFRDISLEFDHLANITPIQLGFEKAVTYIRKKLANERCDAIIAAGSNGAYLKSRLSVPVILIKPSGYDVLQALAKAGKLTSSIGVVTYQETIPALVAFQKTFNLRLDQRSYITEEDARGQINELKANGTEAVVGAGLITDLAEEAGMTGIFIYSAATVRQAFSDALDMTRMSLRHNTHDATRNALRTRYVLGDMLGQSPQMEQVRQTILLYARSSAAVLIEGETGTGKELAAQAIHREYFARHDARQGKKSHPFVAVNCGAIAESLLEAELFGYEEGAFTGSRRGGRAGLFEIAHGGTLFLDEIGEMPLPLQTRLLRVLEEKEVTRVGGHQPVPVDVRVISATHCNLEEDMQQGRFRRDLFYRLSILRLQLPPLRERVADILPLAESFLKVSLAALSAPFSAALRQGLQASETVLLHYDWPGNIRELRNMMERLALFLSVEPTPDLTPQFMQLLLPELARESAKTPAPRLLTPQQALEKFNGDKTAAANYLGISRTTFWRRLKS" [] ["CCO-CYTOSOL"] +"G6196-MONOMER" "2-methylisocitrate lyase" ["YahQ", "PrpB"] "MSLHSPGKAFRAALTKENPLQIVGTINANHALLAQRAGYQAIYLSGGGVAAGSLGLPDLGISTLDDVLTDIRRITDVCSLPLLVDADIGFGSSAFNVARTVKSMIKAGAAGLHIEDQVGAKRCGHRPNKAIVSKEEMVDRIRAAVDAKTDPDFVIMARTDALAVEGLDAAIERAQAYVEAGAEMLFPEAITELAMYRQFADAVQVPILANITEFGATPLFTTDELRSAHVAMALYPLSAFRAMNRAAEHVYNVLRQEGTQKSVIDTMQTRNELYESINYYQYEEKLDNLFARSQVK" [] ["CCO-CYTOSOL"] +"G6198-MONOMER" "2-methylcitrate synthase" ["YahS", "YzzD", "PrpC"] "MSDTTILQNSTHVIKPKKSVALSGVPAGNTALCTVGKSGNDLHYRGYDILDLAKHCEFEEVAHLLIHGKLPTRDELAAYKTKLKALRGLPANVRTVLEALPAASHPMDVMRTGVSALGCTLPEKEGHTVSGARDIADKLLASLSSILLYWYHYSHNGERIQPETDDDSIGGHFLHLLHGEKPSQSWEKAMHISLVLYAEHEFNASTFTSRVIAGTGSDMYSAIIGAIGALRGPKHGGANEVSLEIQQRYETPDEAEADIRKRVENKEVVIGFGHPVYTIADPRHQVIKRVAKQLSQEGGSLKMYNIADRLETVMWESKKMFPNLDWFSAVSYNMMGVPTEMFTPLFVIARVTGWAAHIIEQRQDNKIIRPSANYVGPEDRPFVALDKRQ" [] ["CCO-CYTOSOL"] +"G6199-MONOMER" null ["AcnC", "YahT", "PrpD"] "MSAQINNIRPEFDREIVDIVDYVMNYEISSKVAYDTAHYCLLDTLGCGLEALEYPACKKLLGPIVPGTVVPNGVRVPGTQFQLDPVQAAFNIGAMIRWLDFNDTWLAAEWGHPSDNLGGILATADWLSRNAVASGKAPLTMKQVLTAMIKAHEIQGCIALENSFNRVGLDHVLLVKVASTAVVAEMLGLTREEILNAVSLAWVDGQSLRTYRHAPNTGTRKSWAAGDATSRAVRLALMAKTGEMGYPSALTAPVWGFYDVSFKGESFRFQRPYGSYVMENVLFKISFPAEFHSQTAVEAAMTLYEQMQAAGKTAADIEKVTIRTHEACIRIIDKKGPLNNPADRDHCIQYMVAIPLLFGRLTAADYEDNVAQDKRIDALREKINCFEDPAFTADYHDPEKRAIANAITLEFTDGTRFEEVVVEYPIGHARRRQDGIPKLVDKFKINLARQFPTRQQQRILEVSLDRARLEQMPVNEYLDLYVI" [] ["CCO-CYTOSOL"] +"G6200-MONOMER" "propionyl-CoA synthetase" ["YahU", "PrpE"] "MSFSEFYQRSINEPEQFWAEQARRIDWQTPFTQTLDHSNPPFARWFCEGRTNLCHNAIDRWLEKQPEALALIAVSSETEEERTFTFRQLHDEVNAVASMLRSLGVQRGDRVLVYMPMIAEAHITLLACARIGAIHSVVFGGFASHSVAARIDDAKPVLIVSADAGARGGKIIPYKKLLDDAISQAQHQPRHVLLVDRGLAKMARVSGRDVDFASLRHQHIGARVPVAWLESNETSCILYTSGTTGKPKGVQRDVGGYAVALATSMDTIFGGKAGSVFFCASDIGWVVGHSYIVYAPLLAGMATIVYEGLPTWPDCGVWWTIVEKYQVSRMFSAPTAIRVLKKFPTAEIRKHDLSSLEVLYLAGEPLDEPTASWVSNTLDVPVIDNYWQTESGWPIMAIARGLDDRPTRLGSPGVPMYGYNVQLLNEVTGEPCGVNEKGMLVVEGPLPPGCIQTIWGDDGRFVKTYWSLFSRPVYATFDWGIRDADGYHFILGRTDDVINVAGHRLGTREIEESISSHPGVAEVAVVGVKDALKGQVAVAFVIPKESDSLEDRDVAHSQEKAIMALVDSQIGNFGRPAHVWFVSQLPKTRSGKMLRRTIQAICEGRDPGDLTTIDDPASLDQIRQAMEE" [] ["CCO-CYTOSOL"] +"G6201-MONOMER" "DNA-binding transcriptional activator MhpR" ["MhpR"] "MQNNEQTEYKTVRGLTRGLMLLNMLNKLDGGASVGLLAELSGLHRTTVRRLLETLQEEGYVRRSPSDDSFRLTIKVRQLSEGFRDEQWISALAAPLLGDLLREVVWPTDVSTLDVDAMVVRETTHRFSRLSFHRAMVGRRLPLLKTASGLTWLAFCPEQDRKELIEMLASRPGDDYQLAREPLKLEAILARARKEGYGQNYRGWDQEEKIASIAVPLRSEQRVIGCLNLVYMASAMTIEQAAEKHLPALQRVAKQIEEGVESQAILVAGRRSGMHLR" [] ["CCO-CYTOSOL"] +"G6207-MONOMER" "DUF2058 domain-containing protein YaiL" ["YaiL", "nucleoprotein/polynucleotide-associated enzyme"] "MAKLTLQEQLLKAGLVTSKKAAKVERTAKKSRVQAREARAAVEENKKAQLERDKQLSEQQKQAALAKEYKAQVKQLIEMNRITIANGDIGFNFTDGNLIKKIFVDKLTQAQLINGRLAIARLLVDNNSEGEYAIIPASVADKIAQRDASSIVLHSALSAEEQDEDDPYADFKVPDDLMW" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G6208-MONOMER" "S-formylglutathione hydrolase FrmB" ["YaiM", "FrmB"] "MELIEKHVSFGGWQNMYRHYSQSLKCEMNVGVYLPPKAANEKLPVLYWLSGLTCNEQNFITKSGMQRYAAEHNIIVVAPDTSPRGSHVADADRYDLGQGAGFYLNATQAPWNEHYKMYDYIRNELPDLVMHHFPATAKKSISGHSMGGLGALVLALRNPDEYVSVSAFSPIVSPSQVPWGQQAFAAYLAENKDAWLDYDPVSLISQGQRVAEIMVDQGLSDDFYAEQLRTPNLEKICQEMNIKTLIRYHEGYDHSYYFVSSFIGEHIAYHANKLNMR" [] ["CCO-CYTOSOL"] +"G6209-MONOMER" "DNA-binding transcriptional repressor FrmR" ["YaiN", "FrmR"] "MPSTPEEKKKVLTRVRRIRGQIDALERSLEGDAECRAILQQIAAVRGAANGLMAEVLESHIRETFDRNDCYSREVSQSVDDTIELVRAYLK" [] ["CCO-CYTOSOL"] +"G6210-MONOMER" "outer membrane protein YaiO" ["YaiO"] "MIKRTLLAAAIFSALPAYAGLTSITAGYDFTDYSGDHGNRNLAYAELVAKVENATLLFNLSQGRRDYETEHFNATRGQGAVWYKWNNWLTTRTGIAFADNTPVFARQDFRQDINLALLPKTLFTTGYRYTKYYDDVEVDAWQGGVSLYTGPVITSYRYTHYDSSDAGGSYSNMISVRLNDPRGTGYTQLWLSRGTGAYTYDWTPETRYGSMKSVSLQRIQPLTEQLNLGLTAGKVWYDTPTDDFNGLQLAARLTWKF" ["CCO-OUTER-MEM"] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"G6212-MONOMER" "IS2 element protein InsA" ["InsC1"] "MIDVLGPEKRRRRTTQEKIAIVQQSFEPGMTVSLVARQHGVAASQLFLWRKQYQEGSLTAVAAGEQVVPASELAAAMKQIKELQRLLGKKTMENELLKEAVEYGRAKKWIAHAPLLPGDGE" [] ["CCO-CYTOSOL"] +"G6214-MONOMER" "putative acyltransferase, N-terminal fragment" ["YaiX", "YaiF", "YaiX_1"] "MDLLPFLLDANLSATNPPAIPHWWKRQPLIPNLLSQELKNYLKLNVKEKNIQIADQVIIDETAGEVVIGANTRICHGAVIQGPVVIGANCLIGNSNYAFIRPGTIISNGVKIGFATEIKNAVIEAEATIGPQCFIADSVVANQAYLGAQVRTSNHRLDEQPVSVRTPEGIIATGCDKLGCYIGQRSRLGVQVIILPGRIISPNTQLGPRVIVERNLPTGTYSLRQELIRTGD" [] ["CCO-CYTOSOL"] +"G6215-MONOMER" "putative glucosyltransferase" ["YaiP"] "MKTWIFICMSIAMLLWFLSTLRRKPSQKKGCIDAIIPAYNEGPCLAQSLDNLLRNPYFCRVICVNDGSTDNTEAVMAEVKRKWGDRFVAVTQKNTGKGGALMNGLNYATCDQVFLSDADTYVPPDQDGMGYMLAEIERGADAVGGIPSTALKGAGLLPHIRATVKLPMIVMKRTLQQLLGGAPFIISGACGMFRTDVLRKFGFSDRTKVEDLDLTWTLVANGYRIRQANRCIVYPQECNSPREEWRRWRRWIVGYAVCMRLHKRLLFSRFGIFSIFPMLLVVLYGVGIYLTTWFNEFITTGPHGVVLAMFPLIWVGVVCVIGAFSAWFHRCWLLVPLAPLSVVYVLLAYAIWIIYGLIAFFTGREPQRDKPTRYSALVEASTAYSQPSVTGTEKLSEA" [] ["CCO-PM-BAC-NEG"] +"G6216-MONOMER" "putative deacetylase YaiS" ["YaiS"] "MDKVLDSALLSSANKRKGILAIGAHPDDIELGCGASLARLAQKGIYIAAVVMTTGNSGTDGIIDRHEESRNALKILGCHQTIHLNFADTRAHLQLNDMISALEDIIKNQIPSDVEIMRVYTMHDADRHQDHLAVYQASMVACRTIPQILGYETPSTWLSFMPQVFESVKEEYFTVKLAALKKHKS" [] ["CCO-CYTOSOL"] +"G6222-MONOMER" "putative autotransporter YaiT" ["YaiU", "YaiT"] "MHSWKKKLVVSQLALACTLAITSQANAANYDTWTYIDNPVTALDWDHMDKAGTVDGNYVNYSGFVYYNNTNGDFDQSFNGDTVNGTISTYYLNHDYADSTANQLDISNSVIHGSITSMLPGGYYDRFDADGNNLGGYDFYTDAVVDTHWRDGDVFTLNIANTTIDDDYEALYFTDSYKDGDVTKHTNETFDTSEGVAVNLDVESNINISNNSRVAGIALSQGNTYNETYTTESHTWDNNISVKDSTVTSGSNYILDSNTYGKTGHFGNSDEPSDYAGPGDVAMSFTASGSDYAMKNNVFLSNSTLMGDVAFTSTWNSNFDPNGHDSNGDGVKDTNGGWTDDSLNVDELNLTLDNGSKWVGQAIYNVAETSAMYDVATNSLTPDATYENNDWKRVVDDKVFQSGVFNVALNNGSEWDTTGRSIVDTLTVNNGSQVNVSESKLTSDTIDLTNGSSLNIGEDGYVDTDHLTINSYSTVALTESTGWGADYNLYANTITVTNGGVLDVNVDQFDTEAFRTDKLELTSGNIADHNGNVVSGVFDIHSSDYVLNADLVNDRTWDTSKSNYGYGIVAMNSDGHLTINGNGDVDNGTELDNSSVDNVVAATGNYKVRIDNATGAGAIADYKDKEIIYVNDVNSNATFSAANKADLGAYTYQAEQRGNTVVLQQMELTDYANMALSIPSANTNIWNLEQDTVGTRLTNSRHGLADNGGAWVSYFGGNFNGDNGTINYDQDVNGIMVGVDTKIDGNNAKWIVGAAAGFAKGDMNDRSGQVDQDSQTAYIYSSAHFANNVFVDGSLSYSHFNNDLSATMSNGTYVDGSTNSDAWGFGLKAGYDFKLGDAGYVTPYGSVSGLFQSGDDYQLSNDMKVDGQSYDSMRYELGVDAGYTFTYSEDQALTPYFKLAYVYDDSNNDNDVNGDSIDNGTEGSAVRVGLGTQFSFTKNFSAYTDANYLGGGDVDQDWSANVGVKYTW" [] ["CCO-MEMBRANE"] +"G6226-MONOMER" "putative DNA-binding transcriptional regulator IprA" ["IprA", "YaiV"] "MLSVVKPLQEFGKLDKCLSRYGTRFEFNNEKQVIFSSDVNNEDTFVILEGVISLRREENVLIGITQAPYIMGLADGLMKNDIPYKLISEGNCTGYHLPAKQTITLIEQNQLWRDAFYWLAWQNRILELRDVQLIGHNSYEQIRATLLSMIDWNEELRSRIGVMNYIHQRTRISRSVVAEVLAALRKGGYIEMNKGKLVAINRLPSEY" [] ["CCO-CYTOSOL"] +"G6227-MONOMER" "surface-exposed outer membrane lipoprotein" ["YaiW"] "MSRVNPLSSLSLLAVLVLAGCSSQAPQPLKKGEKAIDVASVVRQKMPASVKDRDAWAKDLATTFESQGLAPTLENVCSVLAVAQQESNYQADPAVPGLSKIAWQEIDRRAERMHIPAFLVHTALKIKSPNGKSYSERLDSVRTEKQLSAIFDDLINMVPMGQTLFGSLNPVRTGGPMQVSIAFAEQHTKGYPWKMDGTVRQEVFSRRGGLWFGTYHLLNYPASYSAPIYRFADFNAGWYASRNAAFQNAVSKASGVKLALDGDLIRYDSKEPGKTELATRKLAAKLGMSDSEIRRQLEKGDSFSFEETALYKKVYQLAETKTGKSLPREMLPGIQLESPKITRNLTTAWFAKRVDERRARCMKQ" ["CCO-CYTOSOL", "CCO-OUTER-MEM"] [] +"G6228-MONOMER" "DUF2755 domain-containing inner membrane protein YaiY" ["YaiY"] "MADFTLSKSLFSGKYRNASSTPGNIAYALFVLFCFWAGAQLLNLLVHAPGVYERLMQVQETGRPRVEIGLGVGTIFGLIPFLVGCLIFAVVALWLHWRHRRQ" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6229-MONOMER" "DUF2754 domain-containing protein YaiZ" ["YaiZ"] "MNLPVKIRRDWHYYAFAIGLIFILNGVVGLLGFEAKGWQTYAVGLVTWVISFWLAGLIIRRRDEETENAQ" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6230-MONOMER" "DUF188 domain-containing protein YaiI" ["YaiI"] "MTIWVDADACPNVIKEILYRAAERMQMPLVLVANQSLRVPPSRFIRTLRVAAGFDVADNEIVRQCEAGDLVITADIPLAAEAIEKGAAALNPRGERYTPATIRERLTMRDFMDTLRASGIQTGGPDSLSQRDRQAFAAELEKWWLEVQRSRG" [] ["CCO-CYTOSOL"] +"G6231-MONOMER" "DUF2773 domain-containing protein YkiA" ["YkiA"] "MIVAELATIKDKSDDEWWRALLQSRNDHLRQTALRNAHTPALLLTTLTEPQDRSLAINNPQLAADVKTAWLKEDPSLLLFVEQPDLSLLRDLVKTGATRKIRSEARHRLEEKQ" [] ["CCO-CYTOSOL"] +"G6236-MONOMER" "1-deoxyxylulose-5-phosphate synthase YajO" ["YajO"] "MQYNPLGKTDLRVSRLCLGCMTFGEPDRGNHAWTLPEESSRPIIKRALEGGINFFDTANSYSDGSSEEIVGRALRDFARREDVVVATKVFHRVGDLPEGLSRAQILRSIDDSLRRLGMDYVDILQIHRWDYNTPIEETLEALNDVVKAGKARYIGASSMHASQFAQALELQKQHGWAQFVSMQDHYNLIYREEEREMLPLCYQEGVAVIPWSPLARGRLTRPWGETTARLVSDEVGKNLYKESDENDAQIAERLTGVSEELGATRAQVALAWLLSKPGIAAPIIGTSREEQLDELLNAVDITLKPEQIAELETPYKPHPVVGFK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G6240-MONOMER" "nucleotide binding protein YajQ" ["YajQ"] "MPSFDIVSEVDLQEARNAVDNASREVESRFDFRNVEASFELNDASKTIKVLSESDFQVNQLLDILRAKLLKRGIEGSSLDVPENIVHSGKTWFVEAKLKQGIESATQKKIVKMIKDSKLKVQAQIQGDEIRVTGKSRDDLQAVMAMVRGGDLGQPFQFKNFRD" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G6242-MONOMER" "periplasmic folding chaperone" ["YbaU", "PpiD"] "MMDSLRTAANSLVLKIIFGIIIVSFILTGVSGYLIGGGNNYAAKVNDQEISRGQFENAFNSERNRMQQQLGDQYSELAANEGYMKTLRQQVLNRLIDEALLDQYARELKLGISDEQVKQAIFATPAFQVDGKFDNSRYNGILNQMGMTADQYAQALRNQLTTQQLINGVAGTDFMLKGETDELAALVAQQRVVREATIDVNALAAKQPVTEQEIASYYEQNKNNFMTPEQFRVSYIKLDAATMQQPVSDADIQSYYDQHQDQFTQPQRTRYSIIQTKTEDEAKAVLDELNKGGDFAALAKEKSADIISARNGGDMGWLEDATIPDELKNAGLKEKGQLSGVIKSSVGFLIVRLDDIQPAKVKSLDEVRDDIAAKVKHEKALDAYYALQQKVSDAASNDTESLAGAEQAAGVKATQTGWFSKDNLPEELNFKPVADAIFNGGLVGENGAPGINSDIITVDGDRAFVLRISEHKPEAVKPLADVQEQVKALVQHNKAEQQAKVDAEKLLVDLKAGKGAEAMQAAGLKFGEPKTLSRSGRDPISQAAFALPLPAKDKPSYGMATDMQGNVVLLALDEVKQGSMPEDQKKAMVQGITQNNAQIVFEALMSNLRKEAKIKIGDALEQQ" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6243-MONOMER" "helix-hairpin-helix 3 family protein" ["YbaV"] "MKHGIKALLITLSLACAGMSHSALAAASVAKPTAVETKAEAPAAQSKAAVPAKASDEEGTRVSINNASAEELARAMNGVGLKKAQAIVSYREEYGPFKTVEDLKQVPGMGNSLVERNLAVLTL" ["CCO-PERI-BAC"] ["CCO-PM-BAC-NEG", "CCO-PERI-BAC"] +"G6244-MONOMER" "long-chain acyl-CoA thioesterase FadM" ["TesC", "YbaW", "FadM", "thioesterase III"] "MQTQIKVRGYHLDVYQHVNNARYLEFLEEARWDGLENSDSFQWMTAHNIAFVVVNININYRRPAVLSDLLTITSQLQQLNGKSGILSQVITLEPEGQVVADALITFVCIDLKTQKALALEGELREKLEQMVK" [] ["CCO-CYTOSOL"] +"G6245-MONOMER" "7-cyano-7-deazaguanine synthase" ["YbaX", "QueC"] "MKRAVVVFSGGQDSTTCLVQALQQYDEVHCVTFDYGQRHRAEIDVARELALKLGARAHKVLDVTLLNELAVSSLTRDSIPVPDYEPEADGIPNTFVPGRNILFLTLAAIYAYQVKAEAVITGVCETDFSGYPDCRDEFVKALNHAVSLGMAKDIRFETPLMWIDKAETWALADYYGKLDLVRNETLTCYNGFKGDGCGHCAACNLRANGLNHYLADKPTVMAAMKQKTGLR" [] ["CCO-CYTOSOL"] +"G6246-MONOMER" "HMP-PP phosphatase" ["Cof"] "MARLAAFDMDGTLLMPDHHLGEKTLSTLARLRERDITLTFATGRHALEMQHILGALSLDAYLITGNGTRVHSLEGELLHRDDLPADVAELVLYQQWDTRASMHIFNDDGWFTGKEIPALLQAFVYSGFRYQIIDVKKMPLGSVTKICFCGDHDDLTRLQIQLYEALGERAHLCFSATDCLEVLPVGCNKGAALTVLTQHLGLSLRDCMAFGDAMNDREMLVSVGSGFIMGNAMPQLRAELPHLPVIGHCRNQAVSHYLTHWLDYPHLPYSPE" [] ["CCO-CYTOSOL"] +"G6247-MONOMER" "DNA-binding transcriptional activator DecR" ["CyuR", "DecR", "YbaO"] "MLDKIDRKLLALLQQDCTLSLQALAEAVNLTTTPCWKRLKRLEDDGILIGKVALLDPEKIGLGLTAFVLIKTQHHSSEWYCRFVTVVTEMPEVLGFWRMAGEYDYLMRVQVADMKRYDEFYKRLVNSVPGLSDVTSSFAMEQIKYTTSLPIE" [] ["CCO-CYTOSOL"] +"G6250-MONOMER" "PF09619 family lipoprotein YbaY" ["YbaY"] "MKLVHMASGLAVAIALAACADKSADIQTPAPAANTSISATQQPAIQQPNVSGTVWIRQKVALPPDAVLTVTLSDASLADAPSKVLAQKAVRTEGKQSPFSFVLSFNPADVQPNARILLSAAITVNDKLVFITDTVQPVINQGGTKADLTLVPVQQTAVPVQASGGATTTVPSTSPTQVNPSSAVPAPTQY" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE", "CCO-PERI-BAC"] +"G6251-MONOMER" "DNA base-flipping protein" ["YbaZ", "Atl", "alkyltransferase-like protein"] "MLVSCAMRLHSGVFPDYAEKLPQEEKMEKEDSFPQRVWQIVAAIPEGYVTTYGDVAKLAGSPRAARQVGGVLKRLPEGSTLPWHRVVNRHGTISLTGPDLQRQRQALLAEGVMVSGSGQIDLQRYRWNY" [] ["CCO-CYTOSOL"] +"G6252-MONOMER" "c-di-GMP phosphodiesterase PdeB" ["PdeB", "YlaB"] "MRTRHLVGLISGVLILSVLLPVGLSIWLAHQQVETSFIEELDTYSSRVAIRANKVATQGKDALQELERWQGAACSEAHLMEMRRVSYSYRYIQEVAYIDNNVPQCSSLEHESPPDTFPEPGKISKDGYRVWLTSHNDLGIIRYMVAMGTAHYVVMIDPASFIDVIPYSSWQIDAAIIGNAHNVVITSSDEIAQGIITRLQKTPGEHIENNGIIYDILPLPEMNISIITWASTKMLQKGWHRQVFIWLPLGLVIGLLAAMFVLRILRRIQSPHHRLQDAIENRDICVHYQPIVSLANGKIVGAEALARWPQTDGSWLSPDSFIPLAQQTGLSEPLTLLIIRSVFEDMGDWLRQHPQQHISINLESPVLTSEKIPQLLRDMINHYQVNPRQIALELTEREFADPKTSAPIISRYREAGHEIYLDDFGTGYSSLSYLQDLDVDILKIDKSFVDALEYKNVTPHIIEMAKTLKLKMVAEGIETSKQEEWLRQHGVHYGQGWLYSKALPKEDFLRWAEQHL" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-CYTOSOL", "CCO-PERI-BAC", "CCO-PM-BAC-NEG"] +"G6253-MONOMER" "putative inner membrane protein" ["YlaC"] "MTEIQRLLTETIESLNTREKRDNKPRFSISFIRKHPGLFIGMYVAFFATLAVMLQSETLSGSVWLLVVLFILLNGFFFFDVYPRYRYEDIDVLDFRVCYNGEWYNTRFVPAALVEAILNSPRVADVHKEQLQKMIVRKGELSFYDIFTLARAESTS" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6255-MONOMER" "potassium dependent, small conductance mechanosensitive channel" ["KefA", "MscK", "AefA"] "MTMFQYYKRSRHFVFSAFIAFVFVLLCQNTAFARASSNGDLPTKADLQAQLDSLNKQKDLSAQDKLVQQDLTDTLATLDKIDRIKEETVQLRQKVAEAPEKMRQATAALTALSDVDNDEETRKILSTLSLRQLETRVAQALDDLQNAQNDLASYNSQLVSLQTQPERVQNAMYNASQQLQQIRSRLDGTDVGETALRPSQKVLMQAQQALLNAEIDQQRKSLEGNTVLQDTLQKQRDYVTANSARLEHQLQLLQEAVNSKRLTLTEKTAQEAVSPDEAARIQANPLVKQELEINQQLSQRLITATENGNQLMQQNIKVKNWLERALQSERNIKEQIAVLKGSLLLSRILYQQQQTLPSADELENMTNRIADLRLEQFEVNQQRDALFQSDAFVNKLEEGHTNEVNSEVHDALLQVVDMRRELLDQLNKQLGNQLMMAINLQINQQQLMSVSKNLKSILTQQIFWVNSNRPMDWDWIKAFPQSLKDEFKSMKITVNWQKAWPAVFIAFLAGLPLLLIAGLIHWRLGWLKAYQQKLASAVGSLRNDSQLNTPKAILIDLIRALPVCLIILAVGLILLTMQLNISELLWSFSKKLAIFWLVFGLCWKVLEKNGVAVRHFGMPEQQTSHWRRQIVRISLALLPIHFWSVVAELSPLHLMDDVLGQAMIFFNLLLIAFLVWPMCRESWRDKESHTMRLVTITVLSIIPIALMVLTATGYFYTTLRLAGRWIETVYLVIIWNLLYQTVLRGLSVAARRIAWRRALARRQNLVKEGAEGAEPPEEPTIALEQVNQQTLRITMLLMFALFGVMFWAIWSDLITVFSYLDSITLWHYNGTEAGAAVVKNVTMGSLLFAIIASMVAWALIRNLPGLLEVLVLSRLNMRQGASYAITTILNYIIIAVGAMTVFGSLGVSWDKLQWLAAALSVGLGFGLQEIFGNFVSGLIILFERPVRIGDTVTIGSFSGTVSKIRIRATTITDFDRKEVIIPNKAFVTERLINWSLTDTTTRLVIRLGVAYGSDLEKVRKVLLKAATEHPRVMHEPMPEVFFTAFGASTLDHELRLYVRELRDRSRTVDELNRTIDQLCRENDINIAFNQLEVHLHNEKGDEVTEVKRDYKGDDPTPAVG" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6258-MONOMER" "TraB family protein YbaP" ["YbaP"] "MDLLYRVKTLWAALRGNHYTWPAIDITLPGNRHFHLIGSIHMGSHDMAPLPTRLLKKLKNADALIVEADVSTSDTPFANLPACEALEERISEEQLQNLQHISQEMGISPSLFSTQPLWQIAMVLQATQAQKLGLRAEYGIDYQLLQAAKQQHKPVIELEGAENQIAMLLQLPDKGLALLDDTLTHWHTNARLLQQMMSWWLNAPPQNNDITLPNTFSQSLYDVLMHQRNLAWRDKLRAMPPGRYVVAVGALHLYGEGNLPQMLR" [] ["CCO-CYTOSOL"] +"G6259-MONOMER" "DNA-binding transcriptional regulator YbaQ" ["YbaQ"] "MKQATRKPTTPGDILLYEYLEPLDLKINELAELLHVHRNSVSALINNNRKLTTEMAFRLAKVFDTTVDFWLNLQAAVDLWEVENNMRTQEELGRIETVAEYLARREERAKKVA" [] ["CCO-CYTOSOL"] +"G6260-MONOMER" "Cu+ exporting P-type ATPase" ["YbaR", "CopA", "AtcU"] "MSQTIDLTLDGLSCGHCVKRVKESLEQRPDVEQADVSITEAHVTGTASAEQLIETIKQAGYDASVSHPKAKPLAESSIPSEALTAVSEALPAATADDDDSQQLLLSGMSCASCVTRVQNALQSVPGVTQARVNLAERTALVMGSASPQDLVQAVEKAGYGAEAIEDDAKRRERQQETAVATMKRFRWQAIVALAVGIPVMVWGMIGDNMMVTADNRSLWLVIGLITLAVMVFAGGHFYRSAWKSLLNGAATMDTLVALGTGVAWLYSMSVNLWPQWFPMEARHLYYEASAMIIGLINLGHMLEARARQRSSKALEKLLDLTPPTARLVTDEGEKSVPLAEVQPGMLLRLTTGDRVPVDGEITQGEAWLDEAMLTGEPIPQQKGEGDSVHAGTVVQDGSVLFRASAVGSHTTLSRIIRMVRQAQSSKPEIGQLADKISAVFVPVVVVIALVSAAIWYFFGPAPQIVYTLVIATTVLIIACPCALGLATPMSIISGVGRAAEFGVLVRDADALQRASTLDTVVFDKTGTLTEGKPQVVAVKTFADVDEAQALRLAAALEQGSSHPLARAILDKAGDMQLPQVNGFRTLRGLGVSGEAEGHALLLGNQALLNEQQVGTKAIEAEITAQASQGATPVLLAVDGKAVALLAVRDPLRSDSVAALQRLHKAGYRLVMLTGDNPTTANAIAKEAGIDEVIAGVLPDGKAEAIKHLQSEGRQVAMVGDGINDAPALAQADVGIAMGGGSDVAIETAAITLMRHSLMGVADALAISRATLHNMKQNLLGAFIYNSIGIPVAAGILWPFTGTLLNPVVAGAAMALSSITVVSNANRLLRFKPKE" ["CCO-PM-BAC-NEG"] ["CCO-CYTOSOL", "CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6261-MONOMER" "glutaminase 1" ["GlsA", "YbaS"] "MLDANKLQQAVDQAYTQFHSLNGGQNADYIPFLANVPGQLAAVAIVTCDGNVYSAGDSDYRFALESISKVCTLALALEDVGPQAVQDKIGADPTGLPFNSVIALELHGGKPLSPLVNAGAIATTSLINAENVEQRWQRILHIQQQLAGEQVALSDEVNQSEQTTNFHNRAIAWLLYSAGYLYCDAMEACDVYTRQCSTLLNTIELATLGATLAAGGVNPLTHKRVLQADNVPYILAEMMMEGLYGRSGDWAYRVGLPGKSGVGGGILAVVPGVMGIAAFSPPLDEDGNSVRGQKMVASVAKQLGYNVFKG" [] [] +"G6263-MONOMER" "DNA-binding transcriptional dual regulator CueR" ["YbbI", "CueR", "CopR"] "MNISDVAKITGLTSKAIRFYEEKGLVTPPMRSENGYRTYTQQHLNELTLLRQARQVGFNLEESGELVNLFNDPQRHSADVKRRTLEKVAEIERHIEELQSMRDQLLALANACPGDDSADCPIIENLSGCCHHRAG" [] ["CCO-CYTOSOL"] +"G6264-MONOMER" "NfeD-like family protein YbbJ" ["YbbJ"] "MMELMVVHPHIFWLSLGGLLLAAEMLGGNGYLLWSGVAAVITGLVVWLVPLGWEWQGVMFAILTLLAAWLWWKWLSRRVREQKHSDSHLNQRGQQLIGRRFVLESPLVNGRGHMRVGDSSWPVSASEDLGAGTHVEVIAIEGITLHIRAVSS" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6265-MONOMER" "PHB domain-containing protein QmcA" ["YbbK", "QmcA"] "MLIFIPILIFVALVIVGAGVKIVPQGYQWTVERFGRYTKTLQPGLSLVVPFMDRIGRKINMMEQVLDIPSQEVISKDNANVTIDAVCFIQVIDAPRAAYEVSNLELAIINLTMTNIRTVLGSMELDEMLSQRDSINSRLLRIVDEATNPWGIKVTRIEIRDVRPPAELISSMNAQMKAERTKRAYILEAEGIRQAEILKAEGEKQSQILKAEGERQSAFLQAEARERSAEAEARATKMVSEAIASGDIQAVNYFVAQKYTEALQQIGSSSNSKVVMMPLEASSLMGSIAGIAELVKDSANKRTQP" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-CYTOSOL", "CCO-PM-BAC-NEG"] +"G6267-MONOMER" "putative iron ABC exporter membrane subunit FetB" ["YbbM", "FetB"] "MNSHNITNESLALALMLVVVAILISHKEKLALEKDILWSVGRAIIQLIIVGYVLKYIFSVDDASLTLLMVLFICFNAAWNAQKRSKYIAKAFISSFIAITVGAGITLAVLILSGSIEFIPMQVIPIAGMIAGNAMVAVGLCYNNLGQRVISEQQQIQEKLSLGATPKQASAILIRDSIRAALIPTVDSAKTVGLVSLPGMMSGLIFAGIDPVKAIKYQIMVTFMLLSTASLSTIIACYLTYRKFYNSRHQLVVTQLKKK" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6268-MONOMER" "chaperedoxin" ["CnoX", "Trxsc", "YbbN"] "MSVENIVNINESNLQQVLEQSMTTPVLFYFWSERSQHCLQLTPILESLAAQYNGQFILAKLDCDAEQMIAAQFGLRAIPTVYLFQNGQPVDGFQGPQPEEAIRALLDKVLPREEELKAQQAMQLMQESNYTDALPLLKDAWQLSNQNGEIGLLLAETLIALNRSEDAEAVLKTIPLQDQDTRYQGLVAQIELLKQAADTPEIQQLQQQVAENPEDAALATQLALQLHQVGRNEEALELLFGHLRKDLTAADGQTRKTFQEILAALGTGDALASKYRRQLYALLY" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G6269-MONOMER" "NADP+-dependent aldehyde reductase YbbO" ["YbbO"] "MTHKATEILTGKVMQKSVLITGCSSGIGLESALELKRQGFHVLAGCRKPDDVERMNSMGFTGVLIDLDSPESVDRAADEVIALTDNCLYGIFNNAGFGMYGPLSTISRAQMEQQFSANFFGAHQLTMRLLPAMLPHGEGRIVMTSSVMGLISTPGRGAYAASKYALEAWSDALRMELRHSGIKVSLIEPGPIRTRFTDNVNQTQSDKPVENPGIAARFTLGPEAVVDKVRHAFISEKPKMRYPVTLVTWAVMVLKRLLPGRVMDKILQG" [] ["CCO-CYTOSOL"] +"G6271-MONOMER" "putative RHS domain-containing protein YlbH" ["RhsH", "YlbH"] "MLALMDADGNIAWSGEYDEWGNQLNEENPHHLHQPYRLPGQQYDKESGLYYNRNRYYDPLQGRYITQDPIGLEGGWSLYAYPLNPVNGIDPLGLSPADVALIRRKDQLNHQRAWDILSDTYEDMKRLNLGGTDQFFHCMAFCRVSKLNDAGVSRSAKGLGYEKEIRDYGLNLFGMYGRKVKLSHSEMIEDNKKDLAVNDHGLTCPSTTDCSDRCSDYINPEHKKTIKALQDAGYLK" [] ["CCO-CYTOSOL"] +"G6273-MONOMER" "putative DNA-binding transcriptional regulator YlbG" ["YlbG"] "MLHTANPVIKHKAGLLNLAEELSNVSKACKIMGVSRDTFYRYRELVAEGGVDAQINRSRRAPNLKNRTDEATEQAVVDYAVAFPTHGQHRASNELRKQGVFISDSGVRSVWLLHNLENLKRRY" [] ["CCO-CYTOSOL"] +"G6274-MONOMER" "DNA-binding transcriptional activator AllS" ["AllS", "YbbS", "GlxA1"] "MFDPETLRTFIAVAETGSFSKAAERLCKTTATISYRIKLLEENTGVALFFRTTRSVTLTAAGEHLLSQARDWLSWLESMPSELQQVNDGVERQVNIVINNLLYNPQAVAQLLAWLNERYPFTQFHISRQIYMGVWDSLLYEGFSLAIGVTGTEALANTFSLDPLGSVQWRFVMAADHPLANVEEPLTEAQLRRFPAVNIEDSARTLTKRVAWRLPGQKEIIVPDMETKIAAHLAGVGIGFLPKSLCQSMIDNQQLVSRVIPTMRPPSPLSLAWRKFGSGKAVEDIVTLFTQRRPEISGFLEIFGNPRS" [] ["CCO-CYTOSOL"] +"G6275-MONOMER" "ureidoglycolate lyase" ["YbbT", "AllA"] "MKLQVLPLSQEAFSAYGDVIETQQRDFFHINNGLVERYHDLALVEILEQDCTLISINRAQPANLPLTIHELERHPLGTQAFIPMKGEVFVVVVALGDDKPDLSTLRAFITNGEQGVNYHRNVWHHPLFAWQRVTDFLTIDRGGSDNCDVESIPEQELCFA" [] ["CCO-CYTOSOL"] +"G6276-MONOMER" "DNA-binding transcriptional repressor AllR" ["YbbU", "AllR"] "MTEVRRRGRPGQAEPVAQKGAQALERGIAILQYLEKSGGSSSVSDISLNLDLPLSTTFRLLKVLQAADFVYQDSQLGWWHIGLGVFNVGAAYIHNRDVLSVAGPFMRRLMLLSGETVNVAIRNGNEAVLIGQLECKSMVRMCAPLGSRLPLHASGAGKALLYPLAEEELMSIILQTGLQQFTPTTLVDMPTLLKDLEQARELGYTVDKEEHVVGLNCIASAIYDDVGSVVAAISISGPSSRLTEDRFVSQGELVRDTARDISTALGLKAHP" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G6277-MONOMER" "hydroxypyruvate isomerase" ["YbbG", "Hyi", "glyoxylate-induced protein", "Gip"] "MLRFSANLSMLFGEYDFLARFEKAAQCGFRGVEFMFPYDYDIEELKHVLASNKLEHTLHNLPAGDWAAGERGIACIPGREEEFRDGVAAAIRYARALGNKKINCLVGKTPAGFSSEQIHATLVENLRYAANMLMKEDILLLIEPINHFDIPGFHLTGTRQALKLIDDVGCCNLKIQYDIYHMQRMEGELTNTMTQWADKIGHLQIADNPHRGEPGTGEINYDYLFKVIENSDYNGWVGCEYKPQTTTEAGLRWMDPYR" [] ["CCO-CYTOSOL"] +"G6278-MONOMER" "tartronate semialdehyde reductase 2" ["YbbQ", "GlxR"] "MKLGFIGLGIMGTPMAINLARAGHQLHVTTIGPVADELLSLGAVSVETARQVTEASDIIFIMVPDTPQVEEVLFGENGCTKASLKGKTIVDMSSISPIETKRFARQVNELGGDYLDAPVSGGEIGAREGTLSIMVGGDEAVFERVKPLFELLGKNITLVGGNGDGQTCKVANQIIVALNIEAVSEALLFASKAGADPVRVRQALMGGFASSRILEVHGERMIKRTFNPGFKIALHQKDLNLALQSAKALALNLPNTATCQELFNTCAANGGSQLDHSALVQALELMANHKLA" [] ["CCO-CYTOSOL"] +"G6281-MONOMER" "allantoinase" ["YbbX", "AllB"] "MSFDLIIKNGTVILENEARVVDIAVKGGKIAAIGQDLGDAKEVMDASGLVVSPGMVDAHTHISEPGRSHWEGYETGTRAAAKGGITTMIEMPLNQLPATVDRASIELKFDAAKGKLTIDAAQLGGLVSYNIDRLHELDEVGVVGFKCFVATCGDRGIDNDFRDVNDWQFFKGAQKLGELGQPVLVHCENALICDELGEEAKREGRVTAHDYVASRPVFTEVEAIRRVLYLAKVAGCRLHVCHVSSPEGVEEVTRARQEGQDVTCESCPHYFVLDTDQFEEIGTLAKCSPPIRDLENQKGMWEKLFNGEIDCLVSDHSPCPPEMKAGNIMKAWGGIAGLQSCMDVMFDEAVQKRGMSLPMFGKLMATNAADIFGLQQKGRIAPGKDADFVFIQPNSSYVLTNDDLEYRHKVSPYVGRTIGARITKTILRGDVIYDIEQGFPVAPKGQFILKHQQ" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G6282-MONOMER" "putative purine transporter" ["YbbY"] "MFNFAVSRESLLSGFQWFFFIFCNTVVVPPTLLSAFQLPQSSLLTLTQYAFLATALACFAQAFCGHRRAIMEGPGGLWWGTILTITLGEASRGTPINDIATSLAVGIALSGVLTMLIGFSGLGHRLARLFTPSVMVLFMLMLGAQLTTIFFKGMLGLPFGIADPNFKIQLPPFALSVAVMCLVLAMIIFLPQRFARYGLLVGTITGWLLWYFCFPSSHSLSGELHWQWFPLGSGGALSPGIILTAVITGLVNISNTYGAIRGTDVFYPQQGAGNTRYRRSFVATGFMTLITVPLAVIPFSPFVSSIGLLTQTGDYTRRSFIYGSVICLLVALVPALTRLFCSIPLPVSSAVMLVSYLPLLFSALVFSQQITFTARNIYRLALPLFVGIFLMALPPVYLQDLPLTLRPLLSNGLLVGILLAVLMDNLIPWERIE" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6284-MONOMER" "(S)-ureidoglycine aminohydrolase" ["UghY", "AllE", "YlbA"] "MGYLNNVTGYREDLLANRAIVKHGNFALLTPDGLVKNIIPGFENCDATILSTPKLGASFVDYLVTLHQNGGNQQGFGGEGIETFLYVISGNITAKAEGKTFALSEGGYLYCPPGSLMTFVNAQAEDSQIFLYKRRYVPVEGYAPWLVSGNASELERIHYEGMDDVILLDFLPKELGFDMNMHILSFAPGASHGYIETHVQEHGAYILSGQGVYNLDNNWIPVKKGDYIFMGAYSLQAGYGVGRGEAFSYIYSKDCNRDVEI" [] ["CCO-CYTOSOL"] +"G6285-MONOMER" "allantoate amidohydrolase" ["YlbB", "AllC"] "MITHFRQAIEETLPWLSSFGADPAGGMTRLLYSPEWLETQQQFKKRMAASGLETRFDEVGNLYGRLNGTEYPQEVVLSGSHIDTVVNGGNLDGQFGALAAWLAIDWLKTQYGAPLRTVEVVAMAEEEGSRFPYVFWGSKNIFGLANPDDVRNICDAKGNSFVDAMKACGFTLPNAPLTPRQDIKAFVELHIEQGCVLESNGQSIGVVNAIVGQRRYTVTLNGESNHAGTTPMGYRRDTVYAFSRICHQSVEKAKRMGDPLVLTFGKVEPRPNTVNVVPGKTTFTIDCRHTDAAVLRDFTQQLENDMRAICDEMDIGIDIDLWMDEEPVPMNKELVATLTELCEREKLNYRVMHSGAGHDAQIFAPRVPTCMIFIPSINGISHNPAERTNITDLAEGVKTLALMLYQLAWQK" [] ["CCO-CYTOSOL"] +"G6286-MONOMER" "ureidoglycolate dehydrogenase" ["YlbC", "AllD"] "MKISRETLHQLIENKLCQAGLKREHAATVAEVLVYADARGIHSHGAVRVEYYAERISKGGTNREPEFRLEETGPCSAILHADNAAGQVAAKMGMEHAIKTAQQNGVAVVGISRMGHSGAISYFVQQAARAGFIGISMCQSDPMVVPFGGAEIYYGTNPLAFAAPGEGDEILTFDMATTVQAWGKVLDARSRNMSIPDTWAVDKNGVPTTDPFAVHALLPAAGPKGYGLMMMIDVLSGVLLGLPFGRQVSSMYDDLHAGRNLGQLHIVINPNFFSSSELFRQHLSQTMRELNAITPAPGFNQVYYPGQDQDIKQRKAAVEGIEIVDDIYQYLISDALYNTSYETKNPFAQ" [] ["CCO-CYTOSOL"] +"G6287-MONOMER" "putative acyl-CoA synthetase FdrA" ["YlbD", "FdrA", "putative acyl-CoA synthetase with NAD(P)-binding Rossmann-fold domain"] "MIHAFIKKGCFQDSVSLMIISRKLSESENVDDVSVMMGTPANKALLDTTGFWHDDFNNATPNDICVAIRSEAADAGIAQAIMQQLEEALKQLAQGSGSSQALTQVRRWDSACQKLPDANLALISVAGEYAAELANQALDRNLNVMMFSDNVTLEDEIQLKTRAREKGLLVMGPDCGTSMIAGTPLAFANVMPEGNIGVIGASGTGIQELCSQIALAGEGITHAIGLGGRDLSREVGGISALTALEMLSADEKSEVLAFVSKPPAEAVRLKIVNAMKATGKPTVALFLGYTPAVARDENVWFASSLDEAARLACLLSRVTARRNAIAPVSSGFICGLYTGGTLAAEAAGLLAGHLGVEADDTHQHGMMLDADSHQIIDLGDDFYTVGRPHPMIDPTLRNQLIADLGAKPQVRVLLLDVVIGFGATADPAASLVSAWQKACAARLDNQPLYAIATVTGTERDPQCRSQQIATLEDAGIAVVSSLPEATLLAAALIHPLSPAAQQHTPSLLENVAVINIGLRSFALELQSASKPVVHYQWSPVAGGNKKLARLLERLQ" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE", "CCO-CYTOSOL"] +"G6288-MONOMER" "DUF1116 domain-containing protein YlbE" ["YlbE"] "MFTSVAQANAAVIEQIRRARPHWLDVQPASSLISELNEGKTLLHAGPPMRWQEMTGPMKGACVGACLFEGWAKDEAQALAILEQGEVNFIPCHHVNAVGPMGGITSASMPMLVVENVTDGNRAYCNLNEGIGKVMRFGAYGEDVLTRHRWMRDVLMPVLSAALGRMERGIDLTAMMAQGITMGDEFHQRNIASSALLMRALAPQIARLDHDKQHIAEVMDFLSVTDQFFLNLAMAYCKAAMDAGAMIRAGSIVTAMTRNGNMFGIRVSGLGERWFTAPVNTPQGLFFTGFSQEQANPDMGDSAITETFGIGGAAMIAAPGVTRFVGAGGMEAARAVSEEMAEIYLERNMQLQIPSWDFQGACLGLDIRRVVETGITPLINTGIAHKEAGIGQIGAGTVRAPLACFEQALEALAESMGIG" [] ["CCO-CYTOSOL"] +"G6289-MONOMER" "DUF2877 domain-containing protein YlbF" ["YlbF"] "MTIIHPLLASSSAPNYRQSWRLAGVWRRAINLMTESGELLTLHRQGSGFGPGGWVLRRAQFDALCGGLCGNERPQVVAQGIRLGRFTVKQPQRYCLLRITPPAHPQPLAAAWMQRAEETGLFGPLALAASDPLPAELRQFRHCFQAALNGVKTDWRHWLGKGPGLTPSHDDTLSGMLLAAWYYGALDARSGRPFFACSDNLQLVTTAVSVSYLRYAAQGYFASPLLHFVHALSCPKRTAVAIDSLLALGHTSGADTLLGFWLGQQLLQGKP" [] ["CCO-CYTOSOL"] +"G6290-MONOMER" "putative fimbrial protein SfmA" ["SfmA"] "MKLRFISSALAAALFAATGSYAAVVDGGTIHFEGELVNAACSVNTDSADQVVTLGQYRTDIFNAVGNTSALIPFTIQLNDCDPVVAANAAVAFSGQADAINDNLLAIASSTNTTTATGVGIEILDNTSAILKPDGNSFSTNQNLIPGTNVLHFSARYKGTGTSASAGQANADATFIMRYE" [] ["CCO-EXTRACELLULAR", "CCO-PILUS"] +"G6291-MONOMER" "putative fimbrial chaperone SfmC" ["SfmC"] "MMTKIKLLMLIIFYLIISASAHAAGGIALGATRIIYPADAKQTAVWIRNSHTNERFLVNSWIENSSGVKEKSFIITPPLFVSEPKSENTLRIIYTGPPLAADRESLFWMNVKTIPSVDKNALNGRNVLQLAILSRMKLFLRPIQLQELPAEAPDTLKFSRSGNYINVHNPSPFYVTLVNLQVGSQKLGNAMAAPRVNSQIPLPSGVQGKLKFQTVNDYGSVTPVREVNLN" [] ["CCO-PERI-BAC"] +"G6292-MONOMER" "putative fimbrial usher protein SfmD" ["SfmD"] "MKIPTTTDIPQRYTWCLAGICYSSLAILPSFLSYAESYFNPAFLLENGTSVADLSRFERGNHQPAGVYRVDLWRNDEFIGSQDIVFESTTENTGDKSGGLMPCFNQVLLERIGLNSSAFPELAQQQNNKCINLLKAVPDATINFDFAAMRLNITIPQIALLSSAHGYIPPEEWDEGIPALLLNYNFTGNRGNGNDSYFFSELSGINIGPWRLRNNGSWNYFRGNGYHSEQWNNIGTWVQRAIIPLKSELVMGDGNTGSDIFDGVGFRGVRLYSSDNMYPDSQQGFAPTVRGIARTAAQLTIRQNGFIIYQSYVSPGAFEITDLHPTSSNGDLDVTIDERDGNQQNYTIPYSTVPILQREGRFKFDLTAGDFRSGNSQQSSPFFFQGTALGGLPQEFTAYGGTQLSANYTAFLLGLGRNLGNWGAVSLDVTHARSQLADASRHEGDSIRFLYAKSMNTFGTNFQLMGYRYSTQGFYTLDDVAYRRMEGYEYDYDGEHRDEPIIVNYHNLRFSRKDRLQLNVSQSLNDFGSLYISGTHQKYWNTSDSDTWYQVGYTSSWVGISYSLSFSWNESVGIPDNERIVGLNVSVPFNVLTKRRYTRENALDRAYASFNANRNSNGQNSWLAGVGGTLLEGHNLSYHVSQGDTSNNGYTGSATANWQAAYGTLGGGYNYDRDQHDVNWQLSGGVVGHENGITLSQPLGDTNVLIKAPGAGGVRIENQTGILTDWRGYAVMLYATVYRYNRIALDTNTMGNSIDVEKNISSVVPTQGALVRANFDTRIGVRALITVTQGGKPVPFGSLVRENSTGITSMVGDDGQVYLSGAPLSGELLVQWGDGANSRCIAHYVLPKQSLQQAVTVISAVCTHPGS" [] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"G6293-MONOMER" "putative fimbrial adhesin protein SfmH" ["SfmH"] "MAMACLCLANISWATVCANSTGVAEDEHYDLSNIFNSTNNQPGQIVVLPEKSGWVGVSAICPPGTLVNYTYRSYVTNFIVQETIDNYKYMQLHDYLLGAMSLVDSVMDIQFPPQNYIRMGTDPNVSQNLPFGVMDSRLIFRLKVIRPFINMVEIPRQVMFTVYVTSTPYDPLVTPVYTISFGGRVEVPQNCELNAGQIVEFDFGDIGASLFSAAGPGNRPAGVMPQTKSIAVKCTNVAAQAYLTMRLEASAVSGQAMVSDNQDLGFIVADQNDTPITPNDLNSVIPFRLDAAAAANVTLRAWPISITGQKPTEGPFSALGYLRVDYQ" [] ["CCO-PILUS"] +"G6295-MONOMER" "DLP12 prophage; putative exonuclease ExoD" [] "MKFRLGGFEAIKSAYMAQVQYSMWVTRKDAWYFANYDPRMKREGLHYVVIERNEKYMASFDEMVPEFIEKMDEALAEIGFVFGEQWR" [] ["CCO-CYTOSOL"] +"G6298-MONOMER" "DLP12 prophage; protein RenD" ["YbcE", "RenD"] "MTGKEAIIHYLGTHKSFCAQDVAAVTGATVITSINQAAAKMARAGILVVDGKVWRTVYYRFATREEWEGKVSTNLIFKECRQSAAMKRVLRVYKRTSMGTQ" [] ["CCO-CYTOSOL"] +"G6300-MONOMER" "DLP12 prophage; putative recombinase YbcK" ["YbcK"] "MKKAIAYMRFSSPGQMSGDSLNRQRRLIAEWLKVNSDYYLDTITYEDLGLSAFKGKHAQSGAFSEFLDAIEHGYILPGTTLLVESLDRLSREKVGEAIERLKLILNHGIDVITLCDNTVYNIDSLNEPYSLIKAILIAQRANEESEIKSSRVKLSWKKKRQDALESGTIMTASCPRWLSLDDKRTAFVPDPDRVKTIELIFKLRMERRSLNAIAKYLNDHAVKNFSGKESAWGPSVIEKLLANKALIGICVPSYRARGKGISEIAGYYPRVISDDLFYAVQEIRLAPFGISNSSKNPMLINLLRTVMKCEACGNTMIVHAVSGSLHGYYVCPMRRLHRCDRPSIKRDLVDYNIINELLFNCSKIQPVENKKDANETLELKIIELQMKINNLIVALSVAPEVTAIAEKIRLLDKELRRASVSLKTLKSKGVNSFSDFYAIDLTSKNGRELCRTLAYKTFEKIIINTDNKTCDIYFMNGIVFKHYPLMKVISAQQAISALKYMVDGEIYF" [] ["CCO-CYTOSOL"] +"G6301-MONOMER" "DLP12 prophage; periplasmic protein YbcL" ["YbcL"] "MKTLIVSTVLAFITFSAQAAAFQVTSNEIKTGEQLTTSHVFSGFGCEGGNTSPSLTWSGVPEGTKSFAVTVYDPDAPTGSGWWHWTVVNIPATVTYLPVDAGRRDGTKLPTGAVQGRNDFGYAGFGGACPPKGDKPHHYQFKVWALKTEKIPVDSNSSGALVGYMLNANKIATAEITPVYEIK" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"G6302-MONOMER" "DLP12 prophage; putative DNA-binding transcriptional regulator" ["YbcM"] "MLARGKTNLKIEEIRMHKHHEIHRVKPLMPALCRIRQGKKVINWETHTLTVDNNQIILFPCGYEFYIENYPEAGLYLAEMLYLPIDLIESFQKLYTVTDQIRNKTSFFLPQNPELIYCWEQLKTSVSRGFSTKIQEHLAMGVLLSLGVNHVNHLLLSYSKQSLISRCYNLLLSEPGTKWTANKVARYLYISVSTLHRRLASEGVSFQSILDDVRLNNALSAIQTTVKPISEIARENGYKCPSRFTERFHNRFNITPREIRKASRE" [] ["CCO-CYTOSOL"] +"G6303-MONOMER" "DLP12 prophage; DNA base-flipping protein" ["YbcN"] "MNLSQDGIKLHRGNFTAIGRQIQPYLEEGKCFRMVLKPWREKRSLSQNALSHMWYSEISEYLISRGKTFATPAWVKDALKHTYLGYETKDLVDVVTGDITTIQSLRHTSDLDTGEMYVFLCKVEAWAMNIGCHLTIPQSCEFQLLRDKQEA" [] ["CCO-CYTOSOL"] +"G6304-MONOMER" "DLP12 prophage; NinE family prophage protein" ["NinE", "DLP12 prophage; conserved protein similar to phage 82 and lambda proteins"] "MATPLIRVMNGHIYRVPNRRKRKPELKPSEIPTLLGYTASLVDKKWLRLAARRSHG" [] ["CCO-CYTOSOL"] +"G6305-MONOMER" "DLP12 prophage; putative nuclease YbcO" ["YbcO", "DLP12 prophage; DUF1364 domain-containing protein YbcO"] "MADLRKAARGRECQVRIPGVCNGNPETSVLAHIRLTGLCGTGTKPPDLIATIACSACHDEIDRRTHFVDAGYAKECALEGMARTQVIWLKEGVIKA" [] ["CCO-CYTOSOL"] +"G6306-MONOMER" "DLP12 prophage; crossover junction endodeoxyribonuclease RusA" ["YbcP", "RusA", "Rus", "DLP12 prophage; endodeoxyribonuclease RUS (Holliday junction resolvase)"] "MNTYSITLPWPPSNNRYYRHNRGRTHVSAEGQAYRDNVARIIKNAMLDIGLAMPVKIRIECHMPDRRRRDLDNLQKAAFDALTKAGFWLDDAQVVDYRVVKMPVTKGGRLELTITEMGNE" [] ["CCO-CYTOSOL"] +"G6307-MONOMER" "DLP12 prophage; prophage antitermination protein Q homolog QuuD" ["QuuD", "YbcQ", "QDLP12"] "MRDIQMVLERWGAWAANNHEDVTWSSIAAGFKGLITSKVKSRPQCCDDDAMIICGCMARLKKNNSDLHDLLVDYYVVGMTFMSLAGKHCCSDGYIGKRLQKAEGIIEGMLMALDIRLEMDIVVNNSN" [] ["CCO-CYTOSOL"] +"G6309-MONOMER" "DLP12 prophage; putative phage lysis protein" ["EssD", "YbcR", "VlyS"] "MKSMDKLTTGVAYGTSAGSAGYWFLQLLDKVTPSQWAAIGVLGSLVFGLLTYLTNLYFKIKEDKRKAARGE" [] ["CCO-PM-BAC-NEG"] +"G6310-MONOMER" "DLP12 prophage; lysozyme" ["RrrD", "YbcS", "LycV"] "MPPSLRKAVAAAIGGGAIAIASVLITGPSGNDGLEGVSYIPYKDIVGVWTVCHGHTGKDIMLGKTYTKAECKALLNKDLATVARQINPYIKVDIPETTRGALYSFVYNVGAGNFRTSTLLRKINQGDIKGACDQLRRWTYAGGKQWKGLMTRREIEREVCLWGQQ" [] [] +"G6311-MONOMER" "DLP12 prophage; putative prophage endopeptidase RzpD" ["RzpD", "YbcT"] "MSRVTAIISALIICIIVSLSWAVNHYRDNAIAYKVQRDKNARELKLANAAITDMQMRQRDVAALDAKYTKELADAKAENDALRDDVAAGRRRLHIKAVCQSVREATTASGVDNAASPRLADTAERDYFTLRERLITMQKQLEGTQKYINEQCR" [] ["CCO-CYTOSOL"] +"G6312-MONOMER" "DLP12 prophage; prophage lipoprotein BorD" ["Iss", "BorD", "Bor", "YbcU", "VboR", "lipoprotein bor homolog from lambdoid prophage DLP12"] "MKKMLLATALALLITGCAQQTFTVQNKQTAVAPKETITHHFFVSGIGQKKTVDAAKICGGAENVVKTETQQTFVNGLLGFITLGIYTPLEARVYCSK" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"G6313-MONOMER" "DLP12 prophage; DUF1398 domain-containing protein YbcV" ["YbcV"] "MAQVAIFKEIFDQVRKDLNCELFYSELKRHNVSHYIYYLATDNIHIVLENDNTVLIKGLKKVVNVKFSRNTHLIETSYDRLKSREITFQQYRENLAKAGVFRWITNIHEHKRYYYTFDNSLLFTESIQNTTQIFPR" [] ["CCO-CYTOSOL"] +"G6314-MONOMER" "DLP12 prophage; uncharacterized protein YbcW" ["YbcW"] "MNKEQSADDPSVDLIRVKNMLNSTISMSYPDVVIACIEHKVSLEAFRAIEAALVKHDNNMKDYSLVVD" [] ["CCO-CYTOSOL"] +"G6315-MONOMER" "DLP12 prophage; putative tail fiber assembly protein TfaD" ["TfaD", "YbcX"] "MNAMGSDYIREVNVVKSARVGYSKMLLGVYAYFIEHKQRNTLIPAGFVAVFNSDESSWHLVEDHRGKTVYDVASGDALFISELGPLPENVTWLSPEGEFQKWNGTAWVKDAEAEKLFRIREAEETKNSLMQVASEHIAPLQDAVDLEIATEEETSLLEAWKKYRVLLNRVDTSTAPDIEWPTNPVRE" [] ["CCO-CYTOSOL"] +"G6316-MONOMER" "DLP12 prophage; putative SAM-dependent methyltransferase YbcY" ["YbcY"] "MKKHR*WG*NLHTTYPKAL*LVGFGSIKSACMGMSYKGTPSSTLSGTFR*QPSGYWCWNWVLPYSRT*E*SDIFNGFERS*PERGIYKGWGIKN*T*N*P*CF*TLSRGVTWSI*FHFHVLPSSLPAWKYIYKKLCNTQCGAGLN*RWNSIRSHNSWRWSCAQ*LRSKTDAHLQSERHLFKHKRFRRRLNTYTLRAFREC*NQGSRYCSNVFRFRKK" [] ["CCO-CYTOSOL"] +"G6317-MONOMER" "DLP12 prophage; protein TfaX" ["TfaX", "YlcE"] "MLPQHSDIEIAWYASIQQEPNGWKTVTTQFYIQEFSEYIAPLQDAVDLEIATEEERSLLEA" [] ["CCO-CYTOSOL"] +"G6318-MONOMER" "sensor histidine kinase CusS" ["YbcZ"] "MVSKPFQRPFSLATRLTFFISLATIAAFFAFAWIMIHSVKVHFAEQDINDLKEISATLERVLNHPDETQARRLMTLEDIVSGYSNVLISLADSQGKTVYHSPGAPDIREFTRDAIPDKDAQGGEVYLLSGPTMMMPGHGHGHMEHSNWRMINLPVGPLVDGKPIYTLYIALSIDFHLHYINDLMNKLIMTASVISILIVFIVLLAVHKGHAPIRSVSRQIQNITSKDLDVRLDPQTVPIELEQLVLSFNHMIERIEDVFTRQSNFSADIAHEIRTPITNLITQTEIALSQSRSQKELEDVLYSNLEELTRMAKMVSDMLFLAQADNNQLIPEKKMLNLADEVGKVFDFFEALAEDRGVELRFVGDKCQVAGDPLMLRRALSNLLSNALRYTPTGETIVVRCQTVDHLVQVIVENPGTPIAPEHLPRLFDRFYRVDPSRQRKGEGSGIGLAIVKSIVVAHKGTVAVTSDARGTRFVITLPA" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-CYTOSOL", "CCO-PERI-BAC", "CCO-PM-BAC-NEG"] +"G6319-MONOMER" "DNA-binding transcriptional activator CusR" ["YlcA", "CusR response regulator"] "MKLLIVEDEKKTGEYLTKGLTEAGFVVDLADNGLNGYHLAMTGDYDLIILDIMLPDVNGWDIVRMLRSANKGMPILLLTALGTIEHRVKGLELGADDYLVKPFAFAELLARVRTLLRRGAAVIIESQFQVADLMVDLVSRKVTRSGTRITLTSKEFTLLEFFLRHQGEVLPRSLIASQVWDMNFDSDTNAIDVAVKRLRGKIDNDFEPKLIQTVRGVGYMLEVPDGQ" [] ["CCO-CYTOSOL"] +"G6320-MONOMER" "copper/silver export system outer membrane channel" ["IbeB", "CusC", "YlcB"] "MSPCKLLPFCVALALTGCSLAPDYQRPAMPVPQQFSLSQNGLVNAADNYQNAGWRTFFVDNQVKTLISEALVNNRDLRMATLKVQEARAQYRLTDADRYPQLNGEGSGSWSGNLKGNTATTREFSTGLNASFDLDFFGRLKNMSEAERQNYLATEEAQRAVHILLVSNVAQSYFNQQLAYAQLQIAEETLRNYQQSYAFVEKQLLTGSSNVLALEQARGVIESTRSDIAKRQGELAQANNALQLLLGSYGKLPQAQTVNSDSLQSVKLPAGLSSQILLQRPDIMEAEHALMAANANIGAARAAFFPSISLTSGISTASSDLSSLFNASSGMWNFIPKIEIPIFNAGRNQANLDIAEIRQQQSVVNYEQKIQNAFKEVADALALRQSLNDQISAQQRYLASLQITLQRARALYQHGAVSYLEVLDAERSLFATRQTLLDLNYARQVNEISLYTALGGG" [] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"G6321-MONOMER" "copper/silver export system periplasmic binding protein" ["CusX", "CusF", "YlcC", "ORF110"] "MKKALQVAMFSLFTVIGFNAQANEHHHETMSEAQPQVISATGVVKGIDLESKKITIHHDPIAAVNWPEMTMRFTITPQTKMSEIKTGDKVAFNFVQQGNLSLLQDIKVSQ" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"G6322-MONOMER" "copper/silver export system membrane fusion protein" ["CusB", "YlcD"] "MKKIALIIGSMIAGGIISAAGFTWVAKAEPPAEKTSTAERKILFWYDPMYPNTRFDKPGKSPFMDMDLVPKYADEESSASGVRIDPTQTQNLGVKTATVTRGPLTFAQSFPANVSYNEYQYAIVQARAAGFIDKVYPLTVGDKVQKGTPLLDLTIPDWVEAQSEYLLLRETGGTATQTEGILERLRLAGMPEADIRRLIATQKIQTRFTLKAPIDGVITAFDLRAGMNIAKDNVVAKIQGMDPVWVTAAIPESIAWLVKDASQFTLTVPARPDKTLTIRKWTLLPGVDAATRTLQLRLEVDNADEALKPGMNAWLQLNTASEPMLLIPSQALIDTGSEQRVITVDADGRFVPKRVAVFQASQGVTALRSGLAEGEKVVSSGLFLIDSEANISGALERMRSESATHAH" ["CCO-PERI-BAC"] ["CCO-CE-BAC", "CCO-MEMBRANE", "CCO-PERI-BAC"] +"G6323-MONOMER" "miniconductance mechanosensitive channel YbdG" ["YbdG"] "MQDLISQVEDLAGIEIDHTTSMVMIFGIIFLTAVVVHIILHWVVLRTFEKRAIASSRLWLQIITQNKLFHRLAFTLQGIIVNIQAVFWLQKGTEAADILTTCAQLWIMMYALLSVFSLLDVILNLAQKFPAASQLPLKGIFQGIKLIGAILVGILMISLLIGQSPAILISGLGAMAAVLMLVFKDPILGLVAGIQLSANDMLKLGDWLEMPKYGADGAVIDIGLTTVKVRNWDNTITTIPTWSLVSDSFKNWSGMSASGGRRIKRSISIDVTSIRFLDEDEMQRLNKAHLLKPYLTSRHQEINEWNRQQGSTESVLNLRRMTNIGTFRAYLNEYLRNHPRIRKDMTLMVRQLAPGDNGLPLEIYAFTNTVVWLEYESIQADIFDHIFAIVEEFGLRLHQSPTGNDIRSLAGAFKQ" ["CCO-PM-BAC-NEG"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"G6324-MONOMER" "PF04237 family protein YbdF" ["YbdF"] "MDKQSLHETAKRLALELPFVELCWPFGPEFDVFKIGGKIFMLSSELRGVPFINLKSDPQKSLLNQQIYPSIKPGYHMNKKHWISVYPGEEISEALLRDLINDSWNLVVDGLAKRDQKRVRPG" [] ["CCO-CYTOSOL"] +"G6325-MONOMER" "DUF1158 domain-containing protein YbdJ" ["YbdJ"] "MKHPLETLTTAAGILLMAFLSCLLLPAPALGLALAQKLVTMFHLMDLSQLYTLLFCLWFLVLGAIEYFVLRFIWRRWFSLAD" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6326-MONOMER" "carboxylate-amine ligase" ["YbdK"] "MPLPDFHVSEPFTLGIELEMQVVNPPGYDLSQDSSMLIDAVKNKITAGEVKHDITESMLELATDVCRDINQAAGQFSAMQKVVLQAATDHHLEICGGGTHPFQKWQRQEVCDNERYQRTLENFGYLIQQATVFGQHVHVGCASGDDAIYLLHGLSRFVPHFIALSAASPYMQGTDTRFASSRPNIFSAFPDNGPMPWVSNWQQFEALFRCLSYTTMIDSIKDLHWDIRPSPHFGTVEVRVMDTPLTLSHAVNMAGLIQATAHWLLTERPFKHQEKDYLLYKFNRFQACRYGLEGVITDPHTGDRRPLTEDTLRLLEKIAPSAHKIGASSAIEALHRQVVSGLNEAQLMRDFVADGGSLIGLVKKHCEIWAGD" [] ["CCO-CYTOSOL"] +"G6329-MONOMER" "methionine transaminase" ["YbdL", "methionine-oxo-acid transaminase, PLP-dependent"] "MTNNPLIPQSKLPQLGTTIFTQMSALAQQHQAINLSQGFPDFDGPRYLQERLAHHVAQGANQYAPMTGVQALREAIAQKTERLYGYQPDADSDITVTAGATEALYAAITALVRNGDEVICFDPSYDSYAPAIALSGGIVKRMALQPPHFRVDWQEFAALLSERTRLVILNTPHNPSATVWQQADFAALWQAIAGHEIFVISDEVYEHINFSQQGHASVLAHPQLRERAVAVSSFGKTYHMTGWKVGYCVAPAPISAEIRKVHQYLTFSVNTPAQLALADMLRAEPEHYLALPDFYRQKRDILVNALNESRLEILPCEGTYFLLVDYSAVSTLDDVEFCQWLTQEHGVAAIPLSVFCADPFPHKLIRLCFAKKESTLLAAAERLRQL" [] ["CCO-CYTOSOL"] +"G6330-MONOMER" "ParB-like nuclease domain-containing protein YbdM" ["YbdM"] "MGDTMQQRLTQDLTQFLASLPEDDRIKAINEIRMAIHQVSPFREEPVDCVLWVKNSQLMPNDYNPNNVAPPEKKLLQKSIEIDGFTQPIVVTHTDKNAMEIVDGFHRHEIGKGSSSLKLRLKGYLPVTCLEGTRNQRIAATIRHNRARGRHQITAMSEIVRELSQLGWDDNKIGKELGMDSDEVLRLKQINGLQELFADRQYSRAWTVK" [] ["CCO-CYTOSOL"] +"G6331-MONOMER" "putative PAPS reductase/DUF3440 domain-containing protein YbdN" ["YbdN"] "MSIYKIPLPLNILEAARERITWTLNTLPRVCVSFSGGKDSGLMLHLTAELARQMGKKICVLFIDWEAQFSCTINYVQSLRELYTDVIEEFYWVALPLTTQNSLSQYQPEWQCWEPDVEWVRQPPQDAITDPDFFCFYQPGMTFEQFVREFAEWFSQKRPAAMMIGIRADESYNRFVAIASLNKQRFADDKPWTTAAPGGHSWYIYPIYDWKVADIWTWYANHQSLCNPLYNLMYQAGVPLRHMRICEPFGPEQRQGLWLYHVIEPDRWAAMCARVSGVKSGGIYAGHDNHFYGHRKILKPEHLDWQEYALLLLNSMPEKTAEHYRNKIAIYLHWYQKKGIEVPQTQQGDIGAKDIPSWRRICKVLLNNDYWCRALSFSPTKSKNYQRYNERIKGKRQEWGILCNND" [] ["CCO-CYTOSOL"] +"G6332-MONOMER" "putative LysR family DNA-binding transcriptional regulator YbdO" ["YbdO"] "MANLYDLKKFDLNLLVIFECIYQHLSISKAAESLYITPSAVSQSLQRLRAQFNDPLFIRSGKGIAPTTTGLNLHHHLEKNLRGLEQTINIVNKSELKKNFIIYGPQLISCSNNSMLIRCLRQDSSVEIECHDILMSAENAEELLVHRKADLVITQMPVISRSVICMPLHTIRNTLICSNRHPRITDNSTYEQIMAEEFTQLISKSAGVDDIQMEIDERFMNRKISFRGSSLLTIINSIAVTDLLGIVPYELYNSYRDFLNLKEIKLEHPLPSIKLYISYNKSSLNNLVFSRFIDRLNESF" [] ["CCO-CYTOSOL"] +"G6334-MONOMER" "universal stress protein G" ["YzzU", "UspG", "YbdQ", "UP12", "universal stress protein UP12"] "MYKTIIMPVDVFEMELSDKAVRHAEFLAQDDGVIHLLHVLPGSASLSLHRFAADVRRFEEHLQHEAQERLQTMVSHFTIDPSRIKQHVRFGSVRDEVNELAEELGADVVVIGSRNPSISTHLLGSNASSVIRHANLPVLVVR" ["CCO-CYTOSOL"] [] +"G6335-MONOMER" "putative Zn2+-dependent alcohol dehydrogenase YbdR" ["YbdR"] "MKALTYHGPHHVQVENVPDPGVEQADDIILRITATAICGSDLHLYRGKIPQVKHGDIFGHEFMGEVVETGKDVKNLQKGDRVVIPFVIACGDCFFCRLQQYAACENTNAGKGAALNKKQIPAPAALFGYSHLYGGVPGGQAEYVRVPKGNVGPFKVPPLLSDDKALFLSDILPTAWQAAKNAQIQQGSSVAVYGAGPVGLLTIACARLLGAEQIFVVDHHPYRLHFAADRYGAIPINFDEDSDPAQSIIEQTAGHRGVDAVIDAVGFEAKGSTTETVLTNLKLEGSSGKALRQCIAAVRRGGIVSVPGVYAGFIHGFLFGDAFDKGLSFKMGQTHVHAWLGELLPLIEKGLLKPEEIVTHYMPFEEAARGYEIFEKREEECRKVILVPGAQSAEAAQKAVSGLVNAMPGGTI" [] ["CCO-CYTOSOL"] +"G6337-MONOMER" "nucleoside diphosphate kinase regulator" ["Rnk"] "MSRPTIIINDLDAERIDILLEQPAYAGLPIADALNAELDRAQMCSPEEMPHDVVTMNSRVKFRNLSDGEVRVRTLVYPAKMTDSNTQLSVMAPVGAALLGLRVGDSIHWELPGGVATHLEVLELEYQPEAAGDYLL" [] ["CCO-CYTOSOL"] +"G6339-MONOMER" null ["YbdT", "CitG"] "MSMPATSTKTTKLATSLIDEYALLGWRAMLTEVNLSPKPGLVDRINCGAHKDMALEDFHRSALAIQGWLPRFIEFGACSAEMAPEAVLHGLRPIGMACEGDMFRATAGVNTHKGSIFSLGLLCAAIGRLLQLNQPVTPTTVCSTAASFCRGLTDRELRTNNSQLTAGQRLYQQLGLTGARGEAEAGYPLVINHALPHYLTLLDQGLDPELALLDTLLLLMAINGDTNVASRGGEGGLRWLQREAQTLLQKGGIRTPADLDYLRQFDRECIERNLSPGGSADLLILTWFLAQI" [] ["CCO-CYTOSOL"] +"G6340-MONOMER" null ["YbdU", "CitX"] "MHLLPELASHHAVSIPELLVSRDERQARQHVWLKRHPVPLVSFTVVAPGPIKDSEVTRRIFNHGVTALRALAAKQGWQIQEQAALVSASGPEGMLSIAAPARDLKLATIELEHSHPLGRLWDIDVLTPEGEILSRRDYSLPPRRCLLCEQSAAVCARGKTHQLTDLLNRMEALLNDVDACNVN" [] ["CCO-CYTOSOL"] +"G6345-MONOMER" "sensor histidine kinase DpiB" ["DpiB", "YbeP", "CitA", "MpdB"] "MLQLNENKQFAFFQRLAFPLRIFLLILVFSIFVIAALAQYFTASFEDYLTLHVRDMAMNQAKIIASNDSVISAVKTRDYKRLATIANKLQRDTDFDYVVIGDRHSIRLYHPNPEKIGYPMQFTKQGALEKGESYFITGKGSMGMAMRAKTPIFDDDGKVIGVVSIGYLVSKIDSWRAEFLLPMAGVFVVLLGILMLLSWFLAAHIRRQMMGMEPKQIARVVRQQEALFSSVYEGLIAVDPHGYITAINRNARKMLGLSSPGRQWLGKPIVEVVRPADFFTEQIDEKRQDVVANFNGLSVIANREAIRSGDDLLGAIISFRSKDEISTLNAQLTQIKQYVESLRTLRHEHLNWMSTLNGLLQMKEYDRVLAMVQGESQAQQQLIDSLREAFADRQVAGLLFGKVQRARELGLKMIIVPGSQLSQLPPGLDSTEFAAIVGNLLDNAFEASLRSDEGNKIVELFLSDEGDDVVIEVADQGCGVPESLRDKIFEQGVSTRADEPGEHGIGLYLIASYVTRCGGVITLEDNDPCGTLFSIYIPKVKPNDSSINPIDR" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PERI-BAC", "CCO-CYTOSOL", "CCO-PM-BAC-NEG"] +"G6346-MONOMER" "DNA-binding transcriptional dual regulator DpiA" ["DpiA", "MpdA", "CriR", "CitB", "DpiA response regulator"] "MTAPLTLLIVEDETPLAEMHAEYIRHIPGFSQILLAGNLAQARMMIERFKPGLILLDNYLPDGRGINLLHELVQAHYPGDVVFTTAASDMETVSEAVRCGVFDYLIKPIAYERLGQTLTRFRQRKHMLESIDSASQKQIDEMFNAYARGEPKDELPTGIDPLTLNAVRKLFKEPGVQHTAETVAQALTISRTTARRYLEYCASRHLIIAEIVHGKVGRPQRIYHSG" [] ["CCO-CYTOSOL"] +"G6351-MONOMER" "Sel1 repeat-containing protein YbeQ" ["YbeQ"] "MIFTSSCCDNLSIDEIIERAEKGDCEAQYIVGFYYNRDSAIDSPDDEKAFYWLKLAAEQGHCEAQYSLGQKYTEDKSRHKDNEQAIFWLKKAALQGHTFASNALGWTLDRGEAPNYKEAVVWYQIAAESGMSYAQNNLGWMYRNGNGVAKDYALAFFWYKQAALQGHSDAQNNLADLYEDGKGVAQNKTLAAFWYLKSAQQGNRHAQFQIAWDYNAGEGVDQDYKQAMYWYLKAAAQGSVGAYVNIGYMYKHGQGVEKDYQAAFEWFTKAAECNDATAWYNLAIMYHYGEGRPVDLRQALDLYRKVQSSGTRDVSQEIRETEDLL" [] ["CCO-EXTRACELLULAR"] +"G6352-MONOMER" "DUF1266 domain-containing protein YbeR" ["YbeR"] "MDMESQKILFALSTPMEIRNECCLPSHSSPKMYLGTCFFDLSSSWGIDDRDDLLRTIHRMIDNGHAARLAGFYHRWFRYSPCEWRDYLAELNEQGQAYAQFVASTAECCGEGGIKAWDYVRMGFLSRMGVLNNWLSEEESLWIQSRIHLRALRYYSNWRQYFAGYTFGRQYWQSPEDDHLPLLREFLARKEYDDSGNDMFYQLFASDDAYYPTLSWQPLAYYSACPETLKDMSDL" [] ["CCO-CYTOSOL"] +"G6353-MONOMER" "J domain-containing protein DjlB" ["DjlB", "YbeS"] "MKNCWKILDIEETTDVDIIRRAYLALLPSFHPETDPQGFKQLRQAYEEALRIAQSPAKSVWQPEEYEVAEHEILLAFRALLASDSERFLPSAWQRFIQQLNYCSMEEIDELRWSLCTIAMNTAHLSFECVVLLAERLRWLQEENTGEIDEEELESFLYAIAKGNVFNFQTILHLPVAVQNDTIDFYQMFARIWSSHPQWLTLYLAQHRAVIIPDDAKLHRNLLRWYSAGRLDIPELLDYAQSWRETEPDNEDAPYYEYAQRVYCGEGESLLAELCDYWREYPSTQADALMLQWCRQHRVDYYPLLVMMIEARDLVNDQGKPLLYVPGDSARTRFHLYEILSDEKLSALGRSLVEMVLHKGRKPRISLTRDTEHTLWPLYLVAKQLVQACQPTEESLMPIVSRLDAENRCPLEALIIRRLLIQAANFTEKQTVEPEPQPQPMPVDDGGPGCLGIIKIIFYIFIFAGLIGKILHLFG" [] ["CCO-PM-BAC-NEG", "CCO-CYTOSOL"] +"G6354-MONOMER" "Sel1 repeat-containing protein YbeT" ["YbeT"] "MNKKLMYIFAIFIVAAITCISQPKKTTLRDKAMVNYAFDYLSSPGSLPFTTAATELSAIHGHSTSQYRLGEFYLHGSDGKPLDYTQARYWYEQSAEQENPRAQSKLGWIYLKGLGVKPDTRKAILWYKEAAEQGYAHAQYTLGLIYRNGSGINVNHYESQKWLKLTAKQHYKNAERLLAGLPAH" [] ["CCO-CYTOSOL"] +"G6355-MONOMER" "DUF1266 domain-containing protein YbeU" ["YbeU"] "MNKEEQYLLFALSAPMEILNQGCKPAHDSPKMYTGIKEFELSSSWGINNRDDLIQTIYQMTDDGHANDLAGLYLTWHRSSPEEWKALIAGGSERGLIYTQFVAQTAMCCGEGGIKAWDYVRMGFLSRVGVLNKWLTEEESLWLQSRVYVRAHHYYHSWMHYFSAYSLGRLYWQSSQCEDNTSLREALTLYKYDSAGSRMFEELAAGSDRFYATLPWQPLTVQSECPVTLKDVSDL" [] ["CCO-PM-BAC-NEG"] +"G6356-MONOMER" "co-chaperone DjlC" ["HscD", "DjlC", "YbeV", "Hsc56"] "MKTCWQILEIESTTQIDIIRQAYLARLPLCHPETDPQGFKALRQAYEEALRLAVNPVEEADDEEKDAAAEHEILRAFRTLLDSESDRFQPSAWQKFIQQLNTWNMEDVDQLRWPLCAIAIEARYLSLNCASLLAERLNWHSFNDSEGMDEEEREAFLEAIQAGDCFDFLSLLEYPIALQNQTVEYYFALERCCRYHPDYVTAFLAMEGPWLIPDDAKLHRKLLRWYSSVQTGMAELIPVAQQWQTEEPESEDARYYLCAQRLYCGEGESLLADLCAYWESYPSTQADNLLLQWSKRHCPDYFALLVMVIEARSMVDAQGQPLKYVPGESARTRLLWAEILHSGKLSPLGQSFIESLFFKRKAWAWWKSRVGSETEQDSPFLDLYRVAEQVVLEAFPKQEMLARLNTRLEGGDAHPLEAIVTRMLLTKVKLEPEDEDVDEPTPENHEEKNDEGEKPQSITSIIKISLTVLVIGYALGKIAMLFS" ["CCO-PM-BAC-NEG"] ["CCO-PM-BAC-NEG", "CCO-CYTOSOL"] +"G6357-MONOMER" "chaperone protein HscC" ["YbeW", "HscC", "Hsc62", "Hsc62, Hsp70 family chaperone, binds to RpoD and inhibits transcription"] "MDNAELAIGIDLGTTNSLIAVWKDGAAQLIPNKFGEYLTPSIISMDENNHILVGKPAVSRRTSHPDKTAALFKRAMGSNTNWRLGSDTFNAPELSSLVLRSLKEDAEEFLQRPIKDVVISVPAYFSDEQRKHTRLAAELAGLNAVRLINEPTAAAMAYGLHTQQNTRSLVFDLGGGTFDVTVLEYATPVIEVHASAGDNFLGGEDFTHMLVDEVLKRADVARTTLNESELAALYACVEAAKCSNQSPLHIRWQYQEETRECEFYENELEDLWLPLLNRLRVPIEQALRDARLKPSQIDSLVLVGGASQMPLVQRIAVRLFGKLPYQSYDPSTIVALGAAIQAACRLRSEDIEEVILTDICPYSLGVEVNRQGVSGIFSPIIERNTTVPVSRVETYSTMHPEQDSITVNVYQGENHKVKNNILVESFDVPLKKTGAYQSIDIRFSYDINGLLEVDVLLEDGSVKSRVINHSPVTLSAQQIEESRTRLSALKIYPRDMLINRTFKAKLEELWARALGDEREEIGRVITDFDAALQSNDMARVDEVRRRASDYLAIEIP" [] ["CCO-CYTOSOL"] +"G6358-MONOMER" "pyrimidine-specific ribonucleoside hydrolase RihA" ["YbeK", "RihA", "ribonucleoside hydrolase 1 (pyrimidine-specific)"] "MALPILLDCDPGHDDAIAIVLALASPELDVKAITSSAGNQTPEKTLRNVLRMLTLLNRTDIPVAGGAVKPLMRELIIADNVHGESGLDGPALPEPTFAPQNCTAVELMAKTLRESAEPVTIVSTGPQTNVALLLNSHPELHSKIARIVIMGGAMGLGNWTPAAEFNIYVDPEAAEIVFQSGIPVVMAGLDVTHKAQIHVEDTERFRAIGNPVSTIVAELLDFFLEYHKDEKWGFVGAPLHDPCTIAWLLKPELFTSVERWVGVETQGKYTQGMTVVDYYYLTGNKPNATVMVDVDRQGFVDLLADRLKFYA" [] ["CCO-CYTOSOL"] +"G6359-MONOMER" "glutamate/aspartate ABC transporter periplasmic binding protein" ["YzzK", "YbeJ", "GltBP"] "MQLRKPATAILALALSAGLAQADDAAPAAGSTLDKIAKNGVIVVGHRESSVPFSYYDNQQKVVGYSQDYSNAIVEAVKKKLNKPDLQVKLIPITSQNRIPLLQNGTFDFECGSTTNNVERQKQAAFSDTIFVVGTRLLTKKGGDIKDFANLKDKAVVVTSGTTSEVLLNKLNEEQKMNMRIISAKDHGDSFRTLESGRAVAFMMDDALLAGERAKAKKPDNWEIVGKPQSQEAYGCMLRKDDPQFKKLMDDTIAQVQTSGEAEKWFDKWFKNPIPPKNLNMNFELSDEMKALFKEPNDKALN" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"G6361-MONOMER" "CorC-HlyC family protein YbeX" ["YbeX"] "MSDDNSHSSDTISNKKGFFSLLLSQLFHGEPKNRDELLALIRDSGQNDLIDEDTRDMLEGVMDIADQRVRDIMIPRSQMITLKRNQTLDECLDVIIESAHSRFPVISEDKDHIEGILMAKDLLPFMRSDAEAFSMDKVLRQAVVVPESKRVDRMLKEFRSQRYHMAIVIDEFGGVSGLVTIEDILELIVGEIEDEYDEEDDIDFRQLSRHTWTVRALASIEDFNEAFGTHFSDEEVDTIGGLVMQAFGHLPARGETIDIDGYQFKVAMADSRRIIQVHVKIPDDSPQPKLDE" [] ["CCO-PM-BAC-NEG", "CCO-CYTOSOL"] +"G6362-MONOMER" "endoribonuclease YbeY" ["YbeY", "endoribonuclease involved in maturation of 16S rRNA and ribosome quality control"] "MSQVILDLQLACEDNSGLPEESQFQTWLNAVIPQFQEESEVTIRVVDTAESHSLNLTYRGKDKPTNVLSFPFEVPPGMEMSLLGDLVICRQVVEKEAQEQGKPLEAHWAHMVVHGSLHLLGYDHIEDDEAEEMEALETEIMLALGYEDPYIAEKE" [] ["CCO-CYTOSOL"] +"G6363-MONOMER" "PhoH-like protein" ["YbeZ", "PhoL"] "MNIDTREITLEPADNARLLSLCGPFDDNIKQLERRLGIEINRRDNHFKLTGRPICVTAAADILRSLYVDTAPMRGQIQDIEPEQIHLAIKEARVLEQSAESVPEYGKAVNIKTKRGVIKPRTPNQAQYIANILDHDITFGVGPAGTGKTYLAVAAAVDALERQEIRRILLTRPAVEAGEKLGFLPGDLSQKVDPYLRPLYDALFEMLGFEKVEKLIERNVIEVAPLAYMRGRTLNDAFIILDESQNTTIEQMKMFLTRIGFNSKAVITGDVTQIDLPRNTKSGLRHAIEVLADVEEISFNFFHSEDVVRHPVVARIVNAYEAWEEAEQKRKAALAAERKREEQEQK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G6364-MONOMER" "isopentenyl-adenosine A37 tRNA methylthiolase" ["YleA", "MiaB"] "MTKKLHIKTWGCQMNEYDSSKMADLLDATHGYQLTDVAEEADVLLLNTCSIREKAQEKVFHQLGRWKLLKEKNPDLIIGVGGCVASQEGEHIRQRAHYVDIIFGPQTLHRLPEMINSVRGDRSPVVDISFPEIEKFDRLPEPRAEGPTAFVSIMEGCNKYCTYCVVPYTRGEEVSRPSDDILFEIAQLAAQGVREVNLLGQNVNAWRGENYDGTTGSFADLLRLVAAIDGIDRIRFTTSHPIEFTDDIIEVYRDTPELVSFLHLPVQSGSDRILNLMGRTHTALEYKAIIRKLRAARPDIQISSDFIVGFPGETTEDFEKTMKLIADVNFDMSYSFIFSARPGTPAADMVDDVPEEEKKQRLYILQERINQQAMAWSRRMLGTTQRILVEGTSRKSIMELSGRTENNRVVNFEGTPDMIGKFVDVEITDVYPNSLRGKVVRTEDEMGLRVAETPESVIARTRKENDLGVGYYQP" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G6370-MONOMER" "chitobiose outer membrane channel" ["ChiP", "YbfM"] "MRTFSGKRSTLALAIAGVTAMSGFMAMPEARAEGFIDDSTLTGGIYYWQRERDRKDVTDGDKYKTNLSHSTWNANLDFQSGYAADMFGLDIAAFTAIEMAENGDSSHPNEIAFSKSNKAYDEDWSGDKSGISLYKAAAKFKYGPVWARAGYIQPTGQTLLAPHWSFMPGTYQGAEAGANFDYGDAGALSFSYMWTNEYKAPWHLEMDEFYQNDKTTKVDYLHSFGAKYDFKNNFVLEAAFGQAEGYIDQYFAKASYKFDIAGSPLTTSYQFYGTRDKVDDRSVNDLYDGTAWLQALTFGYRAADVVDLRLEGTWVKADGQQGYFLQRMTPTYASSNGRLDIWWDNRSDFNANGEKAVFFGAMYDLKNWNLPGFAIGASYVYAWDAKPATWQSNPDAYYDKNRTIEESAYSLDAVYTIQDGRAKGTMFKLHFTEYDNHSDIPSWGGGYGNIFQDERDVKFMVIAPFTIF" [] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"G6371-MONOMER" "lipoprotein ChiQ" ["YbfN", "ChiQ"] "MKKLILIAIMASGLVACAQSTAPQEDSRLKEAYSACINTAQGSPEKIEACQSVLNVLKKEKQHQQFADQESVRVLDYQQCLRATQTGNDQAVKADCDKVWQEIRSNNK" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE", "CCO-PERI-BAC"] +"G6374-MONOMER" "lipoprotein YbfP" ["YbfP"] "MKTNRSLVVIVSLITATLLLTACAQPEQSSLAGDWLLTPKDKTRGLTGSIAVNIAPFRCKTNCRGDNLPDNTRRWQLSGGNEKELTYLHNMSAQEKVGLNPGWQCYTSFFMRVCQGKPGTRPIVNEDYVSESGFFGSMMHVGIIELRRCQSENCQQELKAINTH" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE", "CCO-PERI-BAC"] +"G6376-MONOMER" "RHS repeats-containing protein YbfO" ["YbfO"] "MWPDNRIARDAHYLYRYDRHGRLTEKTDLIPEGVIRTDDERTHRYHYDSQHRLVHYTRTQYAEPLVESRYLYDPLGRRVAKRVWRRERDLTGWMSLSRKPQVTWYGWDGDRLTTIQNDRTRIQTIYQPGSFTPLIRVETATGELAKTQRRSLADTLQQSGGEDGGSVVFPPVLVQMLDRLESEILADRVSEESRRWLASCGLTVEQMQNQMDPVYTPARKIHLYHCDHRGLPLALVSTEGATEWCAEYDEWGNLLNEENPHQLQQLIRLPGQQYDEESGLYYNRHRYYDPLQGRYITQDPIGLKGGWNFYQYPLNPVQYIDSMGLASKYGHLNNGGYGARPNKPPTPDPSKLPDIAKQLRLPYPIDQASSAPNVFKTFFRALSPYDYTLYCRKWVKPNLTCTPQDDSQYPGMDTKTASDYLPQTNWPTTQLPPGYTCAEPYLFPDINKPDGPATAGIDDLGEILAKMKQRTSRGIRK" [] ["CCO-CYTOSOL"] +"G6377-MONOMER" "putative transposase YbfL" ["YbfL", "putative transposase; receptor protein"] "MSGILLLTIFAVISGAESWEDIEDFGETHLDFLKQYGDFENGIPVHDTIARVVSCISPAKFHECFINWMRDCHSSNDKDVIAIDGKTLRHSYDKSRRRGAIHVISAFSTMHSLVIGQIKTDKKSNEITAIPELLNMLDIKGKIITTDAMGCQKDIAEKIQKQGGDYLFAVKGNQGRLNKAFEEKFPLKELNNPEHDSYAMSEKSHGREEIRLHIVCDVPDELIDFTFEWKGLKKLCVAVSFRSIIAEQKKEPEMTVRYYISSADLTAEKFATAIRNHWHVENKLHWRLDVVMNEDDCKIRRGNAAELFSGIRHIAINILTNDKVFKAGLRRKMRKAAMDRNYLASVLAGSGLS" [] ["CCO-CYTOSOL"] +"G6379-MONOMER" "radiation resistance protein YbgI" ["YbgI", "conserved metal-binding protein"] "MKNTELEQLINEKLNSAAISDYAPNGLQVEGKETVQKIVTGVTASQALLDEAVRLGADAVIVHHGYFWKGESPVIRGMKRNRLKTLLANDINLYGWHLPLDAHPELGNNAQLAALLGITVMGEIEPLVPWGELTMPVPGLELASWIEARLGRKPLWCGDTGPEVVQRVAWCTGGGQSFIDSAARFGVDAFITGEVSEQTIHSAREQGLHFYAAGHHATERGGIRALSEWLNENTDLDVTFIDIPNPA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G6380-MONOMER" "5-oxoprolinase component B" ["PxpB", "YbgJ", "putative hydrolase subunit YbgJ"] "MQRARCYLIGETAVVLELEPPVTLASQKRIWRLAQRLVDMPNVVEAIPGMNNITVILRNPESLALDAIERLQRWWEESEALEPESRFIEIPVVYGGAGGPDLAVVAAHCGLSEKQVVELHSSVEYVVWFLGFQPGFPYLGSLPEQLHTPRRAEPRLLVPAGSVGIGGPQTGVYPLATPGGWQLIGHTSLSLFDPARDEPILLRPGDSVRFVPQKEGVC" [] ["CCO-CYTOSOL"] +"G6381-MONOMER" "5-oxoprolinase component C" ["PxpC", "YbgK", "putative carboxyltransferase subunit YbgK"] "MLKIIRAGMYTTVQDGGRHGFRQSGISHCGALDMPALRIANLLVGNDANAPALEITLGQLTVEFETDGWFALTGAGCEARLDDNAVWTGWRLPMKAGQRLTLKRPQHGMRSYLAVAGGIDVPPVMGSCSTDLKVGIGGLEGRLLKDGDRLPIGKSKRDSMEAQGVKQLLWGNRIRALPGPEYHEFDRASQDAFWRSPWQLSSQSNRMGYRLQGQILKRTTDRELLSHGLLPGVVQVPHNGQPIVLMNDAQTTGGYPRIACIIEADMYHLAQIPLGQPIHFVQCSLEEALKARQDQQRYFEQLAWRLHNEN" ["CCO-CYTOSOL"] [] +"G6382-MONOMER" "5-oxoprolinase component A" ["PxpA", "YbgL", "putative lactam utilization protein", "putative glycoside hydrolase YbgL"] "MKIDLNADLGEGCASDAELLTLVSSANIACGFHAGDAQIMQACVREAIKNGVAIGAHPSFPDRENFGRSAMQLPPETVYAQTLYQIGALATIARAQGGVMRHVKPHGMLYNQAAKEAQLADAIARAVYACDPALILVGLAGSELIRAGKQYGLTTREEVFADRGYQADGSLVPRSQSGALIENEEQALAQTLEMVQHGRVKSITGEWATVAAQTVCLHGDGEHALAFARRLRSAFAEKGIVVAA" [] ["CCO-CYTOSOL"] +"G6383-MONOMER" "endonuclease VIII" ["Nei"] "MPEGPEIRRAADNLEAAIKGKPLTDVWFAFPQLKPYQSQLIGQHVTHVETRGKALLTHFSNDLTLYSHNQLYGVWRVVDTGEEPQTTRVLRVKLQTADKTILLYSASDIEMLTPEQLTTHPFLQRVGPDVLDPNLTPEVVKERLLSPRFRNRQFAGLLLDQAFLAGLGNYLRVEILWQVGLTGNHKAKDLNAAQLDALAHALLEIPRFSYATRGQVDENKHHGALFRFKVFHRDGEPCERCGSIIEKTTLSSRPFYWCPGCQH" [] ["CCO-CYTOSOL"] +"G6384-MONOMER" "putative regulator" ["YbgN", "AbrB"] "MPVLQWGMLCVLSLLLSIGFLAVHLPAALLLGPMIAGIIFSMRGITLQLPRSAFLAAQAILGCMIAQNLTGSILTTLAVNWPIVLAILLVTLLSSAIVGWLLVRYSSLPGNTGAWGSSPGGAAAMVAMAQDYGADIRLVAFMQYLRVLFVAGAAVLVTRMMLGDNAEAVNQHIVWFPPVSINLLLTILLAVVAGTVGCLLRLPSGTMLIPMLAGAVLQSGQLITIELPEWLLAMAYMAIGWRIGLGFDKQILLRALRPLPQILLSIFALLAICAGMAWGLTRFMHIDFMTAYLATSPGGLDTVAVIAAGSNADMALIMAMQTLRLFSILLTGPAIARFISTYAPKRSA" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6385-MONOMER" "putative fimbrial protein YbgO" ["YbgO"] "MSAGKGLLLVICLLFLPLKSAMALNCYFGTSGGAVEKSEAIQPFAVPGNAKPGDKIWESDDIKIPVYCDNNTNGNFESEHVYAWVNPYPGVQDRYYQLGVTYNGVDYDASLGKSRIDTNQCIDSKNIDIYTPEQIIAMGWQNKICSGDPANIHMSRTFLARMRLYVKIREMPPHDYQSTLSDYIVVQFDGAGSVNEDPTAQNLKYHITGLENIRVLDCSVNFSISPETQVIDFGKFNLLDIRRHTMSKTFSIKTTKSQNDQCTDGFKVSSSFYTEETLVEEDKALLIGNGLKLRLLDENASPYTFNKYAEYADFTSDMLVYEKTYTAELSSIPGTPIEAGPFDTVVLFKINYN" [] ["CCO-CYTOSOL", "CCO-PILUS"] +"G6386-MONOMER" "putative fimbrial chaperone YbgP" ["YbgP"] "MTFIKGLPLMLLTISLGCNAAVQPDRTRIVFNANDKATSLRIENQSDKLPYLAYSWIENEKGEKSDALLVALPPIQRLEPKATSQVRVVKQASTTQLPGDRETLFFYNMREIPPAPDKSSDHAILQVAIQSRIKLFWRPAALRKKAGEKVELQLQVSQQGNQLTLKNPTAYYLTIAYLGRNEKGVLPGFKTVMVAPFSTVNTNTGSYSGSQFYLGYMDDYGALRMTTLNCSGQCRLQAVEAK" [] ["CCO-PERI-BAC"] +"G6387-MONOMER" "putative fimbrial usher protein YbgQ" ["YbgQ"] "MNIYRLSFVSCLVMAMPCAMAVEFNLNVLDKSMRDRIDISLLKEKGVIAPGEYFVSVAVNNNKISNGQKINWQKKGDKTIPCINDSLVDKFGLKPDIRQSLPQIDRCIDFSSRPEMLFNFDQANQQLNISIPQAWLAWHSENWAPPSTWKEGVAGVLMDYNLFASSYRPQDGSSSTNLNAYGTAGINAGAWRLRSDYQLNKTDSEDNHDQSGGISRTYLFRPLPQLGSKLTLGETDFSSNIFDGFSYTGAALASDDRMLPWELRGYAPQISGIAQTNATVTISQSGRVIYQKKVPPGPFIIDDLNQSVQGTLDVKVTEEDGRVNNFQVSAASTPFLTRQGQVRYKLAAGQPRPSMSHQTENETFFSNEVSWGMLSNTSLYGGLLISDDDYHSAAMGIGQNMLWLGALSFDVTWASSHFDTQQDERGLSYRFNYSKQVDATNSTISLAAYRFSDRHFHSYANYLDHKYNDSDAQDEKQTISLSVGQPITPLNLNLYANLLHQTWWNADASTTANITAGFNVDIGDWRDISISTSFNTTHYEDKDRDNQIYLSISLPFGNGGRVGYDMQNSSHSTIHRMSWNDTLDERNSWGMSAGLQSDRPDNGAQVSGNYQHLSSAGEWDISGTYAASDYSSVSSSWSGSFTATQYGAAFHRRSSTNEPRLMVSTDGVADIPVQGNLDYTNHFGIAVVPLISSYQPSTVAVNMNDLPDGVTVAENVIKETWIEGAIGYKSLASRSGKDVNVIIRNASGQFPPLGADIRQDDSGISVGMVGEEGHAWLSGVAENQLFTVVWGEQSCIIHLPERLEDTTKRLILPCH" [] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"G6394-MONOMER" "PF13985 family protein YbgS" ["YbgS"] "MKMTKLATLFLTATLSLASGAALAADSGAQTNNGQANAAADAGQVAPDARENVAPNNVDNNGVNTGSGGTMLHSDGSSMNNDGMTKDEEHKNTMCKDGRCPDINKKVQTGDGINNDVDTKTDGTTQ" [] ["CCO-PERI-BAC"] +"G6396-MONOMER" "multidrug efflux pump accessory protein AcrZ" ["AcrZ", "YbhT", "small membrane protein that interacts with the AcrAB-TolC multidrug efflux pump"] "MLELLKSLVFAVIMVPVVMAIILGLIYGLGEVFNIFSGVGKKDQPGQNH" ["CCO-OUTER-MEM", "CCO-PM-BAC-NEG"] ["CCO-CYTOSOL", "CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"G6398-MONOMER" "putative DNA-binding transcriptional regulator YbhD" ["YbhD"] "MKHELSSMKAFVILAESSSFNNAAKLLNITQPALTRRIKKMEEDLHVQLFERTTRKVTLTKAGKRLLPEARELIKKFDETLFNIRDMNAYHRGMVTLACIPTAVFYFLPLAIGKFNELYPNIKVRILEQGTNNCMESVLCNESDFGINMNNVTNSSIDFTPLVNEPFVLACRRDHPLAKKQLVEWQELVGYKMIGVRSSSGNRLLIEQQLADKPWKLDWFYEVRHLSTSLGLVEAGLGISALPGLAMPHAPYSSIIGIPLVEPVIRRTLGIIRRKDAVLSPAAERFFALLINLWTDDKDNLWTNIVERQRHALQEIG" [] ["CCO-CYTOSOL"] +"G6399-MONOMER" "putative isomerase YbhH" ["YbhH"] "MKKIPCVMMRGGTSRGAFLLAEHLPEDQTQRDKILMAIMGSGNDLEIDGIGGGNPLTSKVAIISRSSDPRADVDYLFAQVIVHEQRVDTTPNCGNMLSGVGAFAIENGLIAATSPVTRVRIRNVNTGTFIEADVQTPNGVVEYEGSARIDGVPGTAAPVALTFLNAAGTKTGKVFPTDNQIDYFDDVPVTCIDMAMPVVIIPAEYLGKTGYELPAELDADKALLARIESIRLQAGKAMGLGDVSNMVIPKPVLISPAQKGGAINVRYFMPHSCHRALAITGAIAISSSCALEGTVTRQIVPSVGYGNINIEHPSGALDVHLSNEGQDATTLRASVIRTTRKIFSGEVYLP" [] ["CCO-CYTOSOL"] +"G6401-MONOMER" "putative hydratase YbhJ" ["YbhJ"] "MIKLSEKGVFLASNNEIIAEEHFTGEIKKEEAKKGTIAWSILSSHNTSGNMDKLKIKFDSLASHDITFVGIVQTAKASGMERFPLPYVLTNCHNSLCAVGGTINGDDHVFGLSAAQRYGGIFVPPHIAVIHQYMREMMAGGGKMILGSDSHTRYGALGTMAVGEGGGELVKQLLNDTWDIDYPGVVAVHLTGKPAPYVGPQDVALAIIGAVFKNGYVKNKVMEFVGPGVSALSTDFRNSVDVMTTETTCLSSVWQTDEEVHNWLALHGRGQDYCQLNPQPMAYYDGCISVDLSAIKPMIALPFHPSNVYEIDTLNQNLTDILREIEIESERVAHGKAKLSLLDKVENGRLKVQQGIIAGCSGGNYENVIAAANALRGQSCGNDTFSLAVYPSSQPVFMDLAKKGVVADLIGAGAIIRTAFCGPCFGAGDTPINNGLSIRHTTRNFPNREGSKPANGQMSAVALMDARSIAATAANGGYLTSASELDCWDNVPEYAFDVTPYKNRVYQGFVKGATQQPLIYGPNIKDWPELGALTDNIVLKVCSKILDEVTTTDELIPSGETSSYRSNPIGLAEFTLSRRDPGYVSRSKATAELENQRLAGNVSELTEVFARIKQIAGQEHIDPLQTEIGSMVYAVKPGDGSAREQAASCQRVIGGLANIAEEYATKRYRSNVINWGMLPLQMAEVPTFEVGDYIYIPGIKAALDNPGTTFKGYVIHEDAPVTEITLYMESLTAEEREIIKAGSLINFNKNRQM" [] ["CCO-CYTOSOL"] +"G6402-MONOMER" "putative transferase YbhK" ["YbhK", "putative transferase with NAD(P)-binding Rossmann-fold domain"] "MRNRTLADLDRVVALGGGHGLGRVLSSLSSLGSRLTGIVTTTDNGGSTGRIRRSEGGIAWGDMRNCLNQLITEPSVASAMFEYRFGGNGELSGHNLGNLMLKALDHLSVRPLEAINLIRNLLKVDTHLIPMSEHPVDLMAIDDQGHEVYGEVNIDQLTTPIQELLLTPNVPATREAVHAINEADLIIIGPGSFYTSLMPILLLKEIAQALRRTPAPMVYIGNLGRELSLPAANLKLESKLAIMEQYVGKKVIDAVIVGPKVDVSAVKERIVIQEVLEASDIPYRHDRQLLHNALEKALQALG" [] ["CCO-CYTOSOL"] +"G6403-MONOMER" "Bax1-I family protein YbhL" ["YbhL"] "MDRFPRSDSIVQPRAGLQTYMAQVYGWMTVGLLLTAFVAWYAANSAAVMELLFTNRVFLIGLIIAQLALVIVLSAMIQKLSAGVTTMLFMLYSALTGLTLSSIFIVYTAASIASTFVVTAGMFGAMSLYGYTTKRDLSGFGNMLFMALIGIVLASLVNFWLKSEALMWAVTYIGVIVFVGLTAYDTQKLKNMGEQIDTRDTSNLRKYSILGALTLYLDFINLFLMLLRIFGNRR" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6404-MONOMER" "Bax1-I family protein YbhM" ["YbhM"] "MESYSQNSNKLDFQHEARILNGIWLITALGLVATAGLAWGAKYIEITATKYDSPPMYVAIGLLLLCMYGLSKDINKINAAIAGVIYLFLLSLVAIVVASLVPVYAIIIVFSTAGAMFLISMLAGLLFNVDPGSHRFIIMMTLTGLALVIIVNAALMSERPIWIISCLMIVLWSGIISHGRNKLLELAGKCHSEELWSPVRCAFTGALTLYYYFIGFFGILAAIAITLVWQRHTRFFH" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6405-MONOMER" "PF03706 family inner membrane protein YbhN" ["YbhN"] "MSKSHPRWRLAKKILTWLFFIAVIVLLVVYAKKVDWEEVWKVIRDYNRVALLSAVGLVVVSYLIYGCYDLLARFYCGHKLAKRQVMLVSFICYAFNLTLSTWVGGIGMRYRLYSRLGLPGSTITRIFSLSITTNWLGYILLAGIIFTAGVVELPDHWYVDQTTLRILGIGLLMIIAVYLWFCAFAKHRHMTIKGQKLVLPSWKFALAQMLISSVNWMVMGAIIWLLLGQSVNYFFVLGVLLVSSIAGVIVHIPAGIGVLEAVFIALLAGEHTSKGTIIAALLAYRVLYYFIPLLLALICYLLLESQAKKLRAKNEAAM" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6406-MONOMER" "cardiolipin synthase B" ["ClsB", "YbhO", "cardiolipin synthase 2"] "MKCSWREGNKIQLLENGEQYYPAVFKAIGEAQERIILETFIWFEDDVGKQLHAALLAAAQRGVKAEVLLDGYGSPDLSDEFVNELTAAGVVFRYYDPRPRLFGMRTNVFRRMHRKIVVIDARIAFIGGLNYSAEHMSSYGPEAKQDYAVRLEGPIVEDILQFELENLPGQSAARRWWRRHHKAEENRQPGEAQVLLVWRDNEEHRDDIERHYLKMLTQARREVIIANAYFFPGYRFLHALRKAARRGVRIKLIIQGEPDMPIVRVGARLLYNYLVKGGVQVFEYRRRPLHGKVALMDDHWATVGSSNLDPLSLSLNLEANVIIHDRHFNQTLRDNLNGIIAADCQQVDETMLPKRTWWNLTKSVLAFHFLRHFPALVGWLPAHTPRLAQVDPPAQPTMETQDRVETENTGVKP" ["CCO-MEMBRANE"] ["CCO-PM-BAC-NEG", "CCO-CYTOSOL", "CCO-MEMBRANE"] +"G6407-MONOMER" "endonuclease/exonuclease/phosphatase domain-containing protein YbhP" ["YbhP"] "MPDQTQQFSFKVLTINIHKGFTAFNRRFILPELRDAVRTVSADIVCLQEVMGAHEVHPLHVENWPDTSHYEFLADTMWSDFAYGRNAVYPEGHHGNAVLSRYPIEHYENRDVSVDGAEKRGVLYCRIVPPMTGKAIHVMCVHLGLREAHRQAQLAMLAEWVNELPDGEPVLVAGDFNDWRQKANHPLKVQAGLDEIFTRAHGRPARTFPVQFPLLRLDRIYVKNASASAPTALPLRTWRHLSDHAPLSAEIHL" [] ["CCO-CYTOSOL"] +"G6408-MONOMER" "putative inner membrane protein" ["YbhQ"] "MKWQQRVRVATGLSCWQIMLHLLVVALLVVGWMSKTLVHVGVGLCALYCVTVVMMLVFQRHPEQRWREVADVLEELTTTWYFGAALIVLWLLSRVLENNFLLAIAGLAILAGPAVVSLLAKDKKLHHLTSKHRVRR" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6412-MONOMER" "HlyD_D23 family protein YbhG" ["YbhG"] "MMKKPVVIGLAVVVLAAVVAGGYWWYQSRQDNGLTLYGNVDIRTVNLSFRVGGRVESLAVDEGDAIKAGQVLGELDHKPYEIALMQAKAGVSVAQAQYDLMLAGYRNEEIAQAAAAVKQAQAAYDYAQNFYNRQQGLWKSRTISANDLENARSSRDQAQATLKSAQDKLRQYRSGNREQDIAQAKASLEQAQAQLAQAELNLQDSTLIAPSDGTLLTRAVEPGTVLNEGGTVFTVSLTRPVWVRAYVDERNLDQAQPGRKVLLYTDGRPDKPYHGQIGFVSPTAEFTPKTVETPDLRTDLVYRLRIVVTDADDALRQGMPVTVQFGDEAGHE" ["CCO-PM-BAC-NEG"] ["CCO-PERI-BAC", "CCO-PM-BAC-NEG"] +"G6413-MONOMER" "PKHD-type hydroxylase YbiX" ["YbiX"] "MMYHIPGVLSPQDVARFREQLEQAEWVDGRVTTGAQGAQVKNNQQVDTRSTLYAALQNEVLNAVNQHALFFAAALPRTLSTPLFNRYQNNETYGFHVDGAVRSHPQNGWMRTDLSATLFLSDPQSYDGGELVVNDTFGQHRVKLPAGDLVLYPSSSLHCVTPVTRGVRVASFMWIQSMIRDDKKRAMLFELDNNIQSLKSRYGESEEILSLLNLYHNLLREWSEI" [] ["CCO-CYTOSOL"] +"G6414-MONOMER" "iron catecholate outer membrane transporter Fiu" ["Fiu", "YbiL", "TonB dependent iron catecholate transporter"] "MENNRNFPARQFHSLTFFAGLCIGITPVAQALAAEGQTNADDTLVVEASTPSLYAPQQSADPKFSRPVADTTRTMTVISEQVIKDQGATNLTDALKNVPGVGAFFAGENGNSTTGDAIYMRGADTSNSIYIDGIRDIGSVSRDTFNTEQVEVIKGPSGTDYGRSAPTGSINMISKQPRNDSGIDASASIGSAWFRRGTLDVNQVIGDTTAVRLNVMGEKTHDAGRDKVKNERYGVAPSVAFGLGTANRLYLNYLHVTQHNTPDGGIPTIGLPGYSAPSAGTAALNHSGKVDTHNFYGTDSDYDDSTTDTATMRFEHDINDNTTIRNTTRWSRVKQDYLMTAIMGGASNITQPTSDVNSWTWSRTANTKDVSNKILTNQTNLTSTFYTGSIGHDVSTGVEFTRETQTNYGVNPVTLPAVNIYHPDSSIHPGGLTRNGANANGQTDTFAIYAFDTLQITRDFELNGGIRLDNYHTEYDSATACGGSGRGAITCPTGVAKGSPVTTVDTAKSGNLMNWKAGALYHLTENGNVYINYAVSQQPPGGNNFALAQSGSGNSANRTDFKPQKANTSEIGTKWQVLDKRLLLTAALFRTDIENEVEQNDDGTYSQYGKKRVEGYEISVAGNITPAWQVIGGYTQQKATIKNGKDVAQDGSSSLPYTPEHAFTLWSQYQATDDISVGAGARYIGSMHKGSDGAVGTPAFTEGYWVADAKLGYRVNRNLDFQLNVYNLFDTDYVASINKSGYRYHPGEPRTFLLTANMHF" ["CCO-OUTER-MEM"] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"G6415-MONOMER" "DUF1471 domain-containing protein McbA" ["YbiM", "McbA", "protein involved in colanic acid production"] "MKKCLTLLIATVLSGISLTAYAAQPMSNLDSGQLRPAGTVSATGASNLSDLEDKLAEKAREQGAKGYVINSAGGNDQMFGTATIYK" [] ["CCO-PERI-BAC", "CCO-PM-BAC-NEG"] +"G6416-MONOMER" "23S rRNA m6A1618 methyltransferase" ["YbiN", "RlmF", "ribosomal RNA large subunit methyltransferase F"] "MSAQKPGLHPRNRHHSRYDLATLCQVNPELRQFLTLTPAGEQSVDFANPLAVKALNKALLAHFYAVANWDIPDGFLCPPVPGRADYIHHLADLLAEASGTIPANASILDIGVGANCIYPLIGVHEYGWRFTGSETSSQALSSAQAIISSNPGLNRAIRLRRQKESGAIFNGIIHKNEQYDATLCNPPFHDSAAAARAGSERKRRNLGLNKDDALNFGGQQQELWCEGGEVTFIKKMIEESKGFAKQVMWFTSLVSRGENLPPLYRALTDVGAVKVVKKEMAQGQKQSRFIAWTFMNDEQRRRFVNRQR" [] ["CCO-CYTOSOL"] +"G6417-MONOMER" "moderate conductance mechanosensitive channel YbiO" ["YbiO"] "MRWILFILFCLLGAPAHAVSIPGVTTTTTTDSTTEPAPEPDIEQKKAAYGALADVLDNDTSRKELIDQLRTVAATPPAEPVPKIVPPTLVEEQTVLQKVTEVSRHYGEALSARFGQLYRNITGSPHKPFNPQTFSNALTHFSMLAVLVFGFYWLIRLCALPLYRKMGQWARQKNRERSNWLQLPAMIIGAFIIDLLLLALTLFVGQVLSDNLNAGSRTIAFQQSLFLNAFALIEFFKAVLRLIFCPNVAELRPFTIQDESARYWSRRLSWLSSLIGYGLIVAVPIISNQVNVQIGALANVIIMLCMTVWALYLIFRNKKEITQHLLNFAEHSLAFFSLFIRAFALVWHWLASAYFIVLFFFSLFDPGNSLKFMMGATVRSLAIIGIAAFVSGMFSRWLAKTITLSPHTQRNYPELQKRLNGWLSAALKTARILTVCVAVMLLLSAWGLFDFWNWLQNGAGQKTVDILIRIALILFFSAVGWTVLASLIENRLASDIHGRPLPSARTRTLLTLFRNALAVIISTITIMIVLSEIGVNIAPLLAGAGALGLAISFGSQTLVKDIITGVFIQFENGMNTGDLVTIGPLTGTVERMSIRSVGVRQDTGAYHIIPWSSITTFANFVRGIGSVVANYDVDRHEDADKANQALKDAVAELMENEEIRGLIIGEPNFAGIVGLSNTAFTLRVSFTTLPLKQWTVRFALDSQVKKHFDLAGVRAPVQTYQVLPAPGATPAEPLPPGEPTL" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6418-MONOMER" null ["OpgE", "YbiP"] "MNLTLKESLVTRSRVFSPWTAFYFLQSLLINLGLGYPFSLLYTAAFTAILLLLWRTLPRVQKVLVGVSSLVAACYFPFAQAYGAPNFNTLLALHSTNMEESTEILTIFPWYSYLVGLFIFALGVIAIRRKKENEKARWNTFDSLCLVFSVATFFVAPVQNLAWGGVFKLKDTGYPVFRFAKDVIVNNNEVIEEQERMAKLSGMKDTWTVTAVKPKYQTYVVVIGESARRDALGAFGGHWDNTPFASSVNGLIFADYIAASGSTQKSLGLTLNRVVDGKPQFQDNFVTLANRAGFQTWWFSNQGQIGEYDTAIASIAKRADEVYFLKEGNFEADKNTKDEALLDMTAQVLAQEHSQPQLIVLHLMGSHPQACDRTQGKYETFVQSKETSCYLYTMTQTDDLLRKLYDQLRNSGSSFSLVYFSDHGLAFKERGKDVQYLAHDDKYQQNFQVPFMVISSDDKAHRVIKARRSANDFLGFFSQWTGIKAKEINIKYPFISEKKAGPIYITNFQLQKVDYNHLGTDIFDPKP" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6420-MONOMER" "DNA-binding transcriptional dual regulator MntR" ["MntR", "YbiQ"] "MSRRAGTPTAKKVTQLVNVEEHVEGFRQVREAHRRELIDDYVELISDLIREVGEARQVDMAARLGVSQPTVAKMLKRLATMGLIEMIPWRGVFLTAEGEKLAQESRERHQIVENFLLVLGVSPEIARRDAEGMEHHVSEETLDAFRLFTQKHGAK" [] ["CCO-CYTOSOL"] +"G6421-MONOMER" "putative transporter YbiR" ["YbiR"] "MSLPFLRTLQGDRFFQLLILVGIGLSFFVPFAPKSWPAAIDWHTIITLSGLMLLTKGVELSGYFDVLGRKMVRRFATERRLAMFMVLAAALLSTFLTNDVALFIVVPLTITLKRLCEIPVNRLIIFEALAVNAGSLLTPIGNPQNILIWGRSGLSFAGFIAQMAPLAGAMMLTLLLLCWCCFPGKAMQYHTGVQTPEWKPRLVWSCLGLYIVFLTALEFKQELWGLVIVAAGFALLARRVVLSVDWTLLLVFMAMFIDVHLLTQLPALQGVLGNVSHLSEPGLWLTAIGLSQVISNVPSTILLLNYVPPSLLLVWAVNVGGFGLLPGSLANLIALRMANDRRIWWRFHLYSIPMLLWAALVGYVLLVILPAN" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6422-MONOMER" "L,D-transpeptidase LdtB" ["LdtB", "YbiS"] "MNMKLKTLFAAAFAVVGFCSTASAVTYPLPTDGSRLVGQNQVITIPEGNTQPLEYFAAEYQMGLSNMMEANPGVDTFLPKGGTVLNIPQQLILPDTVHEGIVINSAEMRLYYYPKGTNTVIVLPIGIGQLGKDTPINWTTKVERKKAGPTWTPTAKMHAEYRAAGEPLPAVVPAGPDNPMGLYALYIGRLYAIHGTNANFGIGLRVSHGCVRLRNEDIKFLFEKVPVGTRVQFIDEPVKATTEPDGSRYIEVHNPLSTTEAQFEGQEIVPITLTKSVQTVTGQPDVDQVVLDEAIKNRSGMPVRLN" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"G6423-MONOMER" "putative ATP-binding protein YbiT" ["YbiT"] "MLVSSNVTMQFGSKPLFENISVKFGGGNRYGLIGANGSGKSTFMKILGGDLEPTLGNVSLDPNERIGKLRQDQFAFEEFTVLDTVIMGHKELWEVKQERDRIYALPEMSEEDGYKVADLEVKYGEMDGYSAEARAGELLLGVGIPVEQHYGPMSEVAPGWKLRVLLAQALFADPDILLLDEPTNNLDIDTIRWLEQVLNERDSTMIIISHDRHFLNMVCTHMADLDYGELRVYPGNYDEYMTAATQARERLLADNAKKKAQIAELQSFVSRFSANASKSRQATSRARQIDKIKLEEVKASSRQNPFIRFEQDKKLFRNALEVEGLTKGFDNGPLFKNLNLLLEVGEKLAVLGTNGVGKSTLLKTLVGDLQPDSGTVKWSENARIGYYAQDHEYEFENDLTVFEWMSQWKQEGDDEQAVRSILGRLLFSQDDIKKPAKVLSGGEKGRMLFGKLMMQKPNILIMDEPTNHLDMESIESLNMALELYQGTLIFVSHDREFVSSLATRILEITPERVIDFSGNYEDYLRSKGIE" [] ["CCO-CYTOSOL", "CCO-PM-BAC-NEG"] +"G6424-MONOMER" "DUF1479 domain-containing protein YbiU" ["YbiU"] "MASTFTSDTLPADHKAAIRQMKHALRAQLGDVQQIFNQLSDDIATRVAEINALKAQGDAVWPVLSYADIKAGHVTAEQREQIKRRGCAVIKGHFPREQALGWDQSMLDYLDRNRFDEVYKGPGDNFFGTLSASRPEIYPIYWSQAQMQARQSEEMANAQSFLNRLWTFESDGKQWFNPDVSVIYPDRIRRRPPGTTSKGLGAHTDSGALERWLLPAYQRVFANVFNGNLAQYDPWHAAHRTEVEEYTVDNTTKCSVFRTFQGWTALSDMLPGQGLLHVVPIPEAMAYVLLRPLLDDVPEDELCGVAPGRVLPVSEQWHPLLIEALTSIPKLEAGDSVWWHCDVIHSVAPVENQQGWGNVMYIPAAPMCEKNLAYAHKVKAALEKGASPGDFPREDYETNWEGRFTLADLNIHGKRALGMDV" [] ["CCO-CYTOSOL"] +"G6425-MONOMER" "sugar phosphatase YbiV" ["YbiV", "SupH", "HAD12"] "MSVKVIVTDMDGTFLNDAKTYNQPRFMAQYQELKKRGIKFVVASGNQYYQLISFFPELKDEISFVAENGALVYEHGKQLFHGELTRHESRIVIGELLKDKQLNFVACGLQSAYVSENAPEAFVALMAKHYHRLKPVKDYQEIDDVLFKFSLNLPDEQIPLVIDKLHVALDGIMKPVTSGFGFIDLIIPGLHKANGISRLLKRWDLSPQNVVAIGDSGNDAEMLKMARYSFAMGNAAENIKQIARYATDDNNHEGALNVIQAVLDNTSPFNS" [] ["CCO-CYTOSOL"] +"G6426-MONOMER" "putative pyruvate formate lyase" ["YbiW", "PflF"] "MTTLKLDTLSDRIKAHKNALVHIVKPPVCTERAQHYTEMYQQHLDKPIPVRRALALAHHLANRTIWIKHDELIIGNQASEVRAAPIFPEYTVSWIEKEIDDLADRPGAGFAVSEENKRVLHEVCPWWRGQTVQDRCYGMFTDEQKGLLATGIIKAEGNMTSGDAHLAVNFPLLLEKGLDGLREEVAERRSRINLTVLEDLHGEQFLKAIDIVLVAVSEHIERFAALAREMAATETRESRRDELLAMAENCDLIAHQPPQTFWQALQLCYFIQLILQIESNGHSVSFGRMDQYLYPYYRRDVELNQTLDREHAIEMLHSCWLKLLEVNKIRSGSHSKASAGSPLYQNVTIGGQNLVDGQPMDAVNPLSYAILESCGRLRSTQPNLSVRYHAGMSNDFLDACVQVIRCGFGMPAFNNDEIVIPEFIKLGIEPQDAYDYAAIGCIETAVGGKWGYRCTGMSFINFARVMLAALEGGHDATSGKVFLPQEKALSAGNFNNFDEVMDAWDTQIRYYTRKSIEIEYVVDTMLEENVHDILCSALVDDCIERAKSIKQGGAKYDWVSGLQVGIANLGNSLAAVKKLVFEQGAIGQQQLAAALADDFDGLTHEQLRQRLINGAPKYGNDDDTVDTLLARAYQTYIDELKQYHNPRYGRGPVGGNYYAGTSSISANVPFGAQTMATPDGRKAHTPLAEGASPASGTDHLGPTAVIGSVGKLPTAAILGGVLLNQKLNPATLENESDKQKLMILLRTFFEVHKGWHIQYNIVSRETLLDAKKHPDQYRDLVVRVAGYSAFFTALSPDAQDDIIARTEHML" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G6427-MONOMER" "putative pyruvate formate-lyase activating enzyme YbiY" ["YbiY", "PflE"] "MIFNIQRYSTHDGPGIRTVVFLKGCSLGCRWCQNPESRARTQDLLYDARLCLEGCELCAKAAPEVIERALNGLLIHREKLTPEHLTALTDCCPTQALTVCGEVKSVEEIMTTVLRDKPFYDRSGGGLTLSGGEPFMQPEMAMALLQASHEAGIHTAVETCLHVPWKYIAPSLPYIDLFLADLKHVADAPFKQWTDGNAARVLDNLKKLAAAGKKIIIRVPLIQGFNADETSVKAITDFAADELHVGEIHFLPYHTLGINKYHLLNLPYDAPEKPLDAPELLDFAQQYACQKGLTATLRG" [] ["CCO-CYTOSOL"] +"G6428-MONOMER" "fructose-6-phosphate aldolase 1" ["YbiZ", "FsaA", "MipB", "Fsa"] "MELYLDTSDVVAVKALSRIFPLAGVTTNPSIIAAGKKPLDVVLPQLHEAMGGQGRLFAQVMATTAEGMVNDALKLRSIIADIVVKVPVTAEGLAAIKMLKAEGIPTLGTAVYGAAQGLLSALAGAEYVAPYVNRIDAQGGSGIQTVTDLHQLLKMHAPQAKVLAASFKTPRQALDCLLAGCESITLPLDVAQQMISYPAVDAAVAKFEQDWQGAFGRTSI" [] ["CCO-CYTOSOL"] +"G6433-MONOMER" "putative c-di-GMP phosphodiesterase PdeI" ["PdeI", "YliE"] "MLSLYEKIKIRLIILFLLAALSFIGLFFIINYQLVSERAVKRADSRFELIQKNVGYFFKDIERSALTLKDSLYLLKNTEEIQRAVILKMEMMPFLDSVGLVLDDNKYYLFSRRANDKIVVYHQEQVNGPLVDESGRVIFADFNPSKRPWSVASDDSNNSWNPAYNCFDRPGKKCISFTLHINGKDHDLLAVDKIHVDLNWRYLNEYLDQISANDEVLFLKQGHEIIAKNQLAREKLIIYNSEGNYNIIDSVDTEYIEKTSAVPNNALFEIYFYYPGGNLLNASDKLFYLPFAFIIIVLLVVYLMTTRVFRRQFSEMTELVNTLAFLPDSTDQIEALKIREGDAKEIISIKNSIAEMKDAEIERSNKLLSLISYDQESGFIKNMAIIESNNNQYLAVGIIKLCGLEAVEAVFGVDERNKIVRKLCQRIAEKYAQCCDIVTFNADLYLLLCRENVQTFTRKIAMVNDFDSSFGYRNLRIHKSAICEPLQGENAWSYAEKLKLAISSIRDHMFSEFIFCDDAKLNEIEENIWIARNIRHAMEIGELFLVYQPIVDINTRAILGAEALCRWVSAERGIISPLKFITIAEDIGFINELGYQIIKTAMGEFRHFSQRASLKDDFLLHINVSPWQLNEPHFHERFTTIMKENGLKANSLCVEITETVIERINEHFYLNIEQLRKQGVRISIDDFGTGLSNLKRFYEINPDSIKVDSQFTGDIFGTAGKIVRIIFDLARYNRIPVIAEGVESEDVARELIKLGCVQAQGYLYQKPMPFSAWDKSGKLVKE" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6434-MONOMER" "putative diguanylate cyclase DgcI" ["DgcI", "YliF"] "MSRINKFVLTVSLLIFIMISAVACGIYTQMVKERVYSLKQSVIDTAFAVANIAEYRRSVAIDLINTLNPTEEQLLVGLRTAYADSVSPSYLYDVGPYLISSDECIQVKEFEKNYCADIMQVVKYRHVKNTGFISFDGKTFVYYLYPVTHNRSLIFLLGLERFSLLSKSLAMDSENLMFSLFKNGKPVTGDEYNAKNAIFTVSEAMEHFAYLPTGLYVFAYKKDVYLRVCTLIIFFAALVAVISGASCLYLVRRVINRGIVEKEAIINNHFERVLDGGLFFSAADVKKLYSMYNSAFLDDLTKAMGRKSFDEDLKALPEKGGYLCLFDVDKFKNINDTFGHLLGDEVLMKVVKILKSQIPVDKGKVYRFGGDEFAVIYTGGTLEELLSILKEIVHFQVGSINLSTSIGVAHSNECPTVERLKMLADERLYKSKKNGRAQISWQ" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6435-MONOMER" "ribosomal protein S12 methylthiotransferase RimO" ["YliG", "RimO"] "MSKVTPQPKIGFVSLGCPKNLVDSERILTELRTEGYDVVPSYDDADMVIVNTCGFIDSAVQESLEAIGEALNENGKVIVTGCLGAKEDQIREVHPKVLEITGPHSYEQVLEHVHHYVPKPKHNPFLSLVPEQGVKLTPRHYAYLKISEGCNHRCTFCIIPSMRGDLVSRPIGEVLSEAKRLVDAGVKEILVISQDTSAYGVDVKHRTGFHNGEPVKTSMVSLCEQLSKLGIWTRLHYVYPYPHVDDVIPLMAEGKILPYLDIPLQHASPRILKLMKRPGSVDRQLARIKQWREICPELTLRSTFIVGFPGETEEDFQMLLDFLKEARLDRVGCFKYSPVEGADANALPDQVPEEVKEERWNRFMQLQQQISAERLQEKVGREILVIIDEVDEEGAIGRSMADAPEIDGAVYLNGETNVKPGDILRVKVEHADEYDLWGSRV" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G6436-MONOMER" "regulator of biofilm formation" ["YliH", "BssR"] "MFVDRQRIDLLNRLIDARVDLAAYVQLRKAKGYMSVSESNHLRDNFFKLNRELHDKSLRLNLHLDQEEWSALHHAEEALATAAVCLMSGHHDCPTVITVNADKLENCLMSLTLSIQSLQKHAMLEKA" [] ["CCO-CYTOSOL"] +"G6437-MONOMER" "aldose sugar dehydrogenase YliI" ["YliI"] "MHRQSFFLVPLICLSSALWAAPATVNVEVLQDKLDHPWALAFLPDNHGMLITLRGGELRHWQAGKGLSAPLSGVPDVWAHGQGGLLDVVLAPDFAQSRRIWLSYSEVGDDGKAGTAVGYGRLSDDLSKVTDFRTVFRQMPKLSTGNHFGGRLVFDGKGYLFIALGENNQRPTAQDLDKLQGKLVRLTDQGEIPDDNPFIKESGARAEIWSYGIRNPQGMAMNPWSNALWLNEHGPRGGDEINIPQKGKNYGWPLATWGINYSGFKIPEAKGEIVAGTEQPVFYWKDSPAVSGMAFYNSDKFPQWQQKLFIGALKDKDVIVMSVNGDKVTEDGRILTDRGQRIRDVRTGPDGYLYVLTDESSGELLKVSPRN" ["CCO-PERI-BAC"] ["CCO-MEMBRANE", "CCO-OUTER-MEM", "CCO-PERI-BAC"] +"G6438-MONOMER" "glutathione S-transferase GstB" ["GstB", "YliJ"] "MITLWGRNNSTNVKKVLLTLEELELPYEQILAGREFGINHDADFLAMNPNGLVPLLRDDESDLILWESNAIVRYLAAQYGQKRLWIDSPARRAEAEKWMDWANQTLSNAHRGILMGLVRTPPEERDQAAIDASCKECDALFALLDAELAKVKWFSGDEFGVGDIAIAPFIYNLFNVGLTWTPRPNLQRWYQQLTERPAVRKVVMIPVS" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G6439-MONOMER" "undecaprenyl pyrophosphate phosphatase" ["YbjG", "BcrCEC"] "MLENLNLSLFSLINATPDSAPWMISLAIFIAKDLITVVPLLAVVLWLWGLTAQRQLVIKIAIALAVSLFVSWTMGHLFPHDRPFVENIGYNFLHHAADDSFPSDHGTVIFTFALAFLCWHRLWSGSLLMVLAVVIAWSRVYLGVHWPLDMLGGLLAGMIGCLSAQIIWQAMGHKLYQRLQSWYRVCFALPIRKGWVRD" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6441-MONOMER" "uncharacterized protein YbjH" ["YbjH"] "MIMKNCLLLGALLMGFTGVAMAQSVTVDVPSGYKVVVVPDSVSVPQAVSVATVPQTVYVAPAPAPAYRPHPYVRHLASVGEGMVIEHQIDDHHH" [] ["CCO-MEMBRANE"] +"G6442-MONOMER" "5-amino-6-(5-phospho-D-ribitylamino)uracil phosphatase" ["YbjI"] "MSIKLIAVDMDGTFLSDQKTYNRERFMAQYQQMKAQGIRFVVASGNQYYQLISFFPEIANEIAFVAENGGWVVSEGKDVFNGELSKDAFATVVEHLLTRPEVEIIACGKNSAYTLKKYDDAMKTVAEMYYHRLEYVDNFDNLEDIFFKFGLNLSDELIPQVQKALHEAIGDIMVSVHTGNGSIDLIIPGVHKANGLRQLQKLWGIDDSEVVVFGDGGNDIEMLRQAGFSFAMENAGSAVVAAAKYRAGSNNREGVLDVIDKVLKHEAPFDQ" [] ["CCO-CYTOSOL"] +"G6443-MONOMER" "inner membrane protein YbjJ" ["YbjJ"] "MTVNSSRNALKRRTWALFMFFFLPGLLMASWATRTPAIRDILSVSIAEMGGVLFGLSIGSMSGILCSAWLVKRFGTRNVILVTMSCALIGMMILSLALWLTSPLLFAVGLGVFGASFGSAEVAINVEGAAVEREMNKTVLPMMHGFYSLGTLAGAGVGMALTAFGVPATVHILLAALVGIAPIYIAIQAIPDGTGKNAADGTQHGEKGVPFYRDIQLLLIGVVVLAMAFAEGSANDWLPLLMVDGHGFSPTSGSLIYAGFTLGMTVGRFTGGWFIDRYSRVAVVRASALMGALGIGLIIFVDSAWVAGVSVVLWGLGASLGFPLTISAASDTGPDAPTRVSVVATTGYLAFLVGPPLLGYLGEHYGLRSAMLVVLALVILAAIVAKAVAKPDTKTQTAMENS" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6444-MONOMER" "DNA-binding transcriptional regulator RcdA" ["RcdA", "YbjK"] "MRRANDPQRREKIIQATLEAVKLYGIHAVTHRKIATLAGVPLGSMTYYFSGIDELLLEAFSSFTEIMSRQYQAFFSDVSDAPGACQAITDMIYSSQVATPDNMELMYQLYALASRKPLLKTVMQNWMQRSQQTLEQWFEPGTARALDAFIEGMTLHFVTDRKPLSREEILRMVERVAG" [] ["CCO-CYTOSOL"] +"G6445-MONOMER" "putative transport protein YbjL" ["YbjL", "inner membrane protein YbjL"] "MNINVAELLNGNYILLLFVVLALGLCLGKLRLGSIQLGNSIGVLVVSLLLGQQHFSINTDALNLGFMLFIFCVGVEAGPNFFSIFFRDGKNYLMLALVMVGSALVIALGLGKLFGWDIGLTAGMLAGSMTSTPVLVGAGDTLRHSGMESRQLSLALDNLSLGYALTYLIGLVSLIVGARYLPKLQHQDLQTSAQQIARERGLDTDANRKVYLPVIRAYRVGPELVAWTDGKNLRELGIYRQTGCYIERIRRNGILANPDGDAVLQMGDEIALVGYPDAHARLDPSFRNGKEVFDRDLLDMRIVTEEVVVKNHNAVGKRLAQLKLTDHGCFLNRVIRSQIEMPIDDNVVLNKGDVLQVSGDARRVKTIADRIGFISIHSQVTDLLAFCAFFVIGLMIGMITFQFSTFSFGMGNAAGLLFAGIMLGFMRANHPTFGYIPQGALSMVKEFGLMVFMAGVGLSAGSGINNGLGAIGGQMLIAGLIVSLVPVVICFLFGAYVLRMNRALLFGAMMGARTCAPAMEIISDTARSNIPALGYAGTYAIANVLLTLAGTIIVMVWPGLG" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6446-MONOMER" "putative inner membrane protein" ["YbjM"] "MKHKQRWAGAICCFVLFIVVCLFLATHMKGAFRAAGHPEIGLLFFILPGAVASFFSQRREVLKPLFGAMLAAPCSMLIMRLFFSPTRSFWQELAWLLSAVFWCALGALCFLFISSLFKPQHRKNQ" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6447-MONOMER" "protein YbjN" ["YbjN"] "MTSLVVPGLDTLRQWLDDLGMSFFECDNCQALHLPHMQNFDGVFDAKIDLIDNTILFSAMAEVRPSAVLPLAADLSAINASSLTVKAFLDMQDDNLPKLVVCQSLSVMQGVTYEQFAWFVRQSEEQISMVILEANAHQLLLPTDDEGQNNVTENYFLH" [] ["CCO-PM-BAC-NEG", "CCO-CYTOSOL"] +"G6448-MONOMER" "putative inner membrane protein" ["YbjO"] "MEDETLGFFKKTSSSHARLNVPALVQVAALAIIMIRGLDVLMIFNTLGVRGIGEFIHRSVQTWSLTLVFLSSLVLVFIEIWCAFSLVKGRRWARWLYLLTQITAASYLWAASLGYGYPELFSIPGESKREIFHSLMLQKLPDMLILMLLFVPSTSRRFFQLQ" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6449-MONOMER" "23S rRNA m5U747 methyltransferase" ["YbjF", "RumB", "RlmC"] "MQCALYDAGRCRSCQWIMQPIPEQLSAKTADLKNLLADFPVEEWCAPVSGPEQGFRNKAKMVVSGSVEKPLLGMLHRDGTPEDLCDCPLYPASFAPVFAALKPFIARAGLTPYNVARKRGELKYILLTESQSDGGMMLRFVLRSDTKLAQLRKALPWLHEQLPQLKVITVNIQPVHMAIMEGETEIYLTEQQALAERFNDVPLWIRPQSFFQTNPAVASQLYATARDWVRQLPVKHMWDLFCGVGGFGLHCATPDMQLTGIEIASEAIACAKQSAAELGLTRLQFQALDSTQFATAQGDVPELVLVNPPRRGIGKPLCDYLSTMAPRFIIYSSCNAQTMAKDIRELPGFRIERVQLFDMFPHTAHYEVLTLLVKQ" [] ["CCO-CYTOSOL"] +"G6450-MONOMER" "DUF3828 domain-containing lipoprotein YbjP" ["YbjP"] "MRYSKLTMLIPCALLLSACTTVTPAYKDNGTRSGPCVEGGPDNVAQQFYDYRILHRSNDITALRPYLSDKLATLLSDASRDNNHRELLTNDPFSSRTTLPDSAHVASASTIPNRDARNIPLRVDLKQGDQGWQDEVLMIQEGQCWVIDDVRYLGGSVHATAGTLRQSIENR" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"G6451-MONOMER" "putative heavy metal binding protein YbjQ" ["YbjQ"] "MQFSTTPTLEGQTIVEYCGVVTGEAILGANIFRDFFAGIRDIVGGRSGAYEKELRKAREIAFEELGSQARALGADAVVGIDIDYETVGQNGSMLMVSVSGTAVKTRR" [] ["CCO-CYTOSOL"] +"G6452-MONOMER" "N-acetylmuramoyl-L-alanine amidase D" ["YbjR", "AmiD"] "MRRFFWLVAAALLLAGCAGEKGIVEKEGYQLDTRRQAQAAYPRIKVLVIHYTADDFDSSLATLTDKQVSSHYLVPAVPPRYNGKPRIWQLVPEQELAWHAGISAWRGATRLNDTSIGIELENRGWQKSAGVKYFAPFEPAQIQALIPLAKDIIARYHIKPENVVAHADIAPQRKDDPGPLFPWQQLAQQGIGAWPDAQRVNFYLAGRAPHTPVDTASLLELLARYGYDVKPDMTPREQRRVIMAFQMHFRPTLYNGEADAETQAIAEALLEKYGQD" ["CCO-MEMBRANE"] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"G6453-MONOMER" "putative epimerase YbjS" ["YbjS", "putative NAD(P)H-binding oxidoreductase with NAD(P)-binding Rossmann-fold domain"] "MKVLVTGATSGLGRNAVEFLCQKGISVRATGRNEAMGKLLEKMGAEFVPADLTELVSSQAKVMLAGIDTLWHCSSFTSPWGTQQAFDLANVRATRRLGEWAVAWGVRNFIHISSPSLYFDYHHHRDIKEDFRPHRFANEFARSKAASEEVINMLSQANPQTRFTILRPQSLFGPHDKVFIPRLAHMMHHYGSILLPHGGSALVDMTYYENAVHAMWLASQEACDKLPSGRVYNITNGEHRTLRSIVQKLIDELNIDCRIRSVPYPMLDMIARSMERLGRKSAKEPPLTHYGVSKLNFDFTLDITRAQEELGYQPVITLDEGIEKTAAWLRDHGKLPR" [] ["CCO-CYTOSOL"] +"G6454-MONOMER" "putative NAD(P)-dependent oxidoreductase YbjT" ["YbjT"] "MPQRILVLGASGYIGQHLVRTLSQQGHQILAAARHVDRLAKLQLANVSCHKVDLSWPDNLPALLQDIDTVYFLVHSMGEGGDFIAQERQVALNVRDALREVPVKQLIFLSSLQAPPHEQSDHLRARQATADILREANVPVTELRAGIIVGAGSAAFEVMRDMVYNLPVLTPPRWVRSRTTPIALENLLHYLVALLDHPASEHRIFEAAGPEVLSYQQQFEHFMAVSGKRRWLIPIPLPTRWISVWFLNVITSVPPTTARALIQGLKHDLLADDTALRALIPQRLIAFDDAVRSTLKEEEKLVNSSDWGYDAQAFARWRPEYGYFAKQAGFTVKTSASLAALWQVVNQIGGKERYFFGNILWQTRALMDRAIGHKLAKGRPEREYLQTGDAVDSWKVIVVEPEKQLTLLFGMKAPGLGRLCFSLEDKGDYRTIDVRAFWHPHGMPGLFYWLLMIPAHLFIFRGMAKQIARLAEQSTD" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6456-MONOMER" null ["YbjV", "Hcr"] "MTMPTNQCPWRMQVHHITQETPDVWTISLICHDYYPYRAGQYALVSVRNSAETLRAYTISSTPGVSEYITLTVRRIDDGVGSQWLTRDVKRGDYLWLSDAMGEFTCDDKAEDKFLLLAAGCGVTPIMSMRRWLAKNRPQADVRVIYNVRTPQDVIFADEWRNYPVTLVAENNVTEGFIAGRLTRELLAGVPDLASRTVMTCGPAPYMDWVEQEVKALGVTRFFKEKFFTPVAEAATSGLKFTKLQPAREFYAPVGTTLLEALESNNVPVVAACRAGVCGCCKTKVVSGEYTVSSTMTLTDAEIAEGYVLACSCHPQGDLVLA" [] ["CCO-CYTOSOL"] +"G6457-MONOMER" "protein S-nitrosylase" ["Hcp", "YbjW", "PriS", "fuscoredoxin", "prismane protein", "hybrid-cluster protein", "nitric oxide reductase"] "MFCVQCEQTIRTPAGNGCSYAQGMCGKTAETSDLQDLLIAALQGLSAWAVKAREYGIINHDVDSFAPRAFFSTLTNVNFDSPRIVGYAREAIALREALKAQCLAVDANARVDNPMADLQLVSDDLGELQRQAAEFTPNKDKAAIGENILGLRLLCLYGLKGAAAYMEHAHVLGQYDNDIYAQYHKIMAWLGTWPADMNALLECSMEIGQMNFKVMSILDAGETGKYGHPTPTQVNVKATAGKCILISGHDLKDLYNLLEQTEGTGVNVYTHGEMLPAHGYPELRKFKHLVGNYGSGWQNQQVEFARFPGPIVMTSNCIIDPTVGAYDDRIWTRSIVGWPGVRHLDGDDFSAVITQAQQMAGFPYSEIPHLITVGFGRQTLLGAADTLIDLVSREKLRHIFLLGGCDGARGERHYFTDFATSVPDDCLILTLACGKYRFNKLEFGDIEGLPRLVDAGQCNDAYSAIILAVTLAEKLGCGVNDLPLSLVLSWFEQKAIVILLTLLSLGVKNIVTGPTAPGFLTPDLLAVLNEKFGLRSITTVEEDMKQLLSA" [] ["CCO-CYTOSOL"] +"G6458-MONOMER" "L-lysine exporter" ["LysO", "YbjE"] "MFSGLLIILVPLIVGYLIPLRQQAALKVINQLLSWMVYLILFFMGISLAFLDNLASNLLAILHYSAVSITVILLCNIAALMWLERGLPWRNHHQQEKLPSRIAMALESLKLCGVVVIGFAIGLSGLAFLQHATEASEYTLILLLFLVGIQLRNNGMTLKQIVLNRRGMIVAVVVVVSSLIGGLINAFILDLPINTALAMASGFGWYSLSGILLTESFGPVIGSAAFFNDLARELIAIMLIPGLIRRSRSTALGLCGATSMDFTLPVLQRTGGLDMVPAAIVHGFILSLLVPILIAFFSA" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6459-MONOMER" "DUF2813 domain-containing protein YbjD" ["YbjD", "conserved protein with a nucleotide triphosphate hydrolase domain YbjD"] "MILERVEIVGFRGINRLSLMLEQNNVLIGENAWGKSSLLDALTLLLSPESDLYHFERDDFWFPPGDINGREHHLHIILTFRESLPGRHRVRRYRPLEACWTPCTDGYHRIFYRLEGESAEDGSVMTLRSFLDKDGHPIDVEDINDQARHLVRLMPVLRLRDARFMRRIRNGTVPNVPNVEVTARQLDFLARELSSHPQNLSDGQIRQGLSAMVQLLEHYFSEQGAGQARYRLMRRRASNEQRSWRYLDIINRMIDRPGGRSYRVILLGLFATLLQAKGTLRLDKDARPLLLIEDPETRLHPIMLSVAWHLLNLLPLQRIATTNSGELLSLTPVEHVCRLVRESSRVAAWRLGPSGLSTEDSRRISFHIRFNRPSSLFARCWLLVEGETETWVINELARQCGHHFDAEGIKVIEFAQSGLKPLVKFARRMGIEWHVLVDGDEAGKKYAATVRSLLNNDREAEREHLTALPALDMEHFMYRQGFSDVFHRMAQIPENVPMNLRKIISKAIHRSSKPDLAIEVAMEAGRRGVDSVPTLLKKMFSRVLWLARGRAD" [] ["CCO-CYTOSOL"] +"G6460-MONOMER" "DUF535 domain-containing protein YbjX" ["YbjX"] "MVKSTPCITIDFMNMSQLTERTFTPSESLSSLSLFLSLARGQCRPGKFWHRRSFRQKFLLRSLIMPRLSVEWMNELSHWPNLNVLLTRQPRLPVRLHRPYLAANLSRKQLLEALRYHYALLRECMSAEEFSLYLNTPGLQLAKLEGKNGEQFTLELTMMISMDKEGDSTILFRNSEGIPLAEITFTLCEYQGKRTMFIGGLQGAKWEIPHQEIQNATKACHGLFPKRLVMEAACLFAQRLQVEQIIAVSNETHIYRSLRYRDKEGKIHADYNAFWESVGGVCDAERHYRLPAQIARKEIAEIASKKRAEYRRRYEMLDAIQPQMATMFRG" [] ["CCO-CYTOSOL"] +"G6463-MONOMER" "specificity factor for ClpA-ClpP chaperone-protease complex" ["ClpS", "YljA"] "MGKTNDWLDFDQLAEEKVRDALKPPSMYKVILVNDDYTPMEFVIDVLQKFFSYDVERATQLMLAVHYQGKAICGVFTAEVAETKVAMVNKYARENEHPLLCTLEKA" [] ["CCO-CYTOSOL"] +"G6464-MONOMER" "cell division DNA translocase FtsK" ["DinH", "FtsK", "essential cell division protein FtsK"] "MSQEYIEDKEVTLTKLSSGRRLLEALLILIVLFAVWLMAALLSFNPSDPSWSQTAWHEPIHNLGGMPGAWLADTLFFIFGVMAYTIPVIIVGGCWFAWRHQSSDEYIDYFAVSLRIIGVLALILTSCGLAAINADDIWYFASGGVIGSLLSTTLQPLLHSSGGTIALLCVWAAGLTLFTGWSWVTIAEKLGGWILNILTFASNRTRRDDTWVDEDEYEDDEEYEDENHGKQHESRRARILRGALARRKRLAEKFINPMGRQTDAALFSGKRMDDDEEITYTARGVAADPDDVLFSGNRATQPEYDEYDPLLNGAPITEPVAVAAAATTATQSWAAPVEPVTQTPPVASVDVPPAQPTVAWQPVPGPQTGEPVIAPAPEGYPQQSQYAQPAVQYNEPLQQPVQPQQPYYAPAAEQPAQQPYYAPAPEQPVAGNAWQAEEQQSTFAPQSTYQTEQTYQQPAAQEPLYQQPQPVEQQPVVEPEPVVEETKPARPPLYYFEEVEEKRAREREQLAAWYQPIPEPVKEPEPIKSSLKAPSVAAVPPVEAAAAVSPLASGVKKATLATGAAATVAAPVFSLANSGGPRPQVKEGIGPQLPRPKRIRVPTRRELASYGIKLPSQRAAEEKAREAQRNQYDSGDQYNDDEIDAMQQDELARQFAQTQQQRYGEQYQHDVPVNAEDADAAAEAELARQFAQTQQQRYSGEQPAGANPFSLDDFEFSPMKALLDDGPHEPLFTPIVEPVQQPQQPVAPQQQYQQPQQPVPPQPQYQQPQQPVAPQPQYQQPQQPVAPQQQYQQPQQPVAPQQQYQQPQQPVAPQPQDTLLHPLLMRNGDSRPLHKPTTPLPSLDLLTPPPSEVEPVDTFALEQMARLVEARLADFRIKADVVNYSPGPVITRFELNLAPGVKAARISNLSRDLARSLSTVAVRVVEVIPGKPYVGLELPNKKRQTVYLREVLDNAKFRDNPSPLTVVLGKDIAGEPVVADLAKMPHLLVAGTTGSGKSVGVNAMILSMLYKAQPEDVRFIMIDPKMLELSVYEGIPHLLTEVVTDMKDAANALRWCVNEMERRYKLMSALGVRNLAGYNEKIAEADRMMRPIPDPYWKPGDSMDAQHPVLKKEPYIVVLVDEFADLMMTVGKKVEELIARLAQKARAAGIHLVLATQRPSVDVITGLIKANIPTRIAFTVSSKIDSRTILDQAGAESLLGMGDMLYSGPNSTLPVRVHGAFVRDQEVHAVVQDWKARGRPQYVDGITSDSESEGGAGGFDGAEELDPLFDQAVQFVTEKRKASISGVQRQFRIGYNRAARIIEQMEAQGIVSEQGHNGNREVLAPPPFD" ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6465-MONOMER" "outer membrane lipoprotein carrier protein" ["YzzV", "LplA", "LolA", "p20"] "MKKIAITCALLSSLVASSVWADAASDLKSRLDKVSSFHASFTQKVTDGSGAAVQEGQGDLWVKRPNLFNWHMTQPDESILVSDGKTLWFYNPFVEQATATWLKDATGNTPFMLIARNQSSDWQQYNIKQNGDDFVLTPKASNGNLKQFTINVGRDGTIHQFSAVEQDDQRSSYQLKSQQNGAVDAAKFTFTPPQGVTVDDQRK" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"G6467-MONOMER" "putative LysR-type transcriptional regulator YcaN" ["YcaN"] "MRMNMSDFATFFAVARNQSFRAAGDELGLSSSAISHSIKTLEQRLKIRLFNRTTRSVSLTEAGSNLYERLRPAFDEIQIMLDEMNDFRLTPTGTLKINAARVAARIFLMSLLVGFTREYPDIKVELTTDDSLVDIVQQGFDAGVRLSCIVEKDMISVAIGPPVKLCVAATPEYFARYGKPRHPHDLLNHQCVVFRYPSGKPFHWQFAKELEIAVAGNIILDDVDAELEAVLMGAGIGYLLYEQIKEYLDTGRLECVLEDWSTERPGFQIYYPNRQYMSCGLRAFLDYVKTGQICQSQRHRPQ" [] ["CCO-CYTOSOL"] +"G6468-MONOMER" "ribosomal protein S12 methylthiotransferase accessory factor YcaO" ["YcaO", "protein involved in β-methylthiolation of ribosomal protein S12"] "MTQTFIPGKDAALEDSIARFQQKLSDLGFQIEEASWLNPVPNVWSVHIRDKECALCFTNGKGATKKAALASALGEYFERLSTNYFFADFWLGETIANGPFVHYPNEKWFPLTENDDVPEGLLDDRLRAFYDPENELTGSMLIDLQSGNEDRGICGLPFTRQSDNQTVYIPMNIIGNLYVSNGMSAGNTRNEARVQGLSEVFERYVKNRIIAESISLPEIPADVLARYPAVVEAIETLEAEGFPIFAYDGSLGGQYPVICVVLFNPANGTCFASFGAHPDFGVALERTVTELLQGRGLKDLDVFTPPTFDDEEVAEHTNLETHFIDSSGLISWDLFKQDADYPFVDWNFSGTTEEEFATLMAIFNKEDKEVYIADYEHLGVYACRIIVPGMSDIYPAEDLWLANNSMGSHLRETILSLPGSEWEKEDYLNLIEQLDEEGFDDFTRVRELLGLATGSDNGWYTLRIGELKAMLALAGGDLEQALVWTEWTMEFNSSVFSPERANYYRCLQTLLLLAQEEDRQPLQYLNAFVRMYGADAVEAASAAMSGEAAFYGLQPVDSDLHAFAAHQSLLKAYEKLQRAKAAFWAK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G6469-MONOMER" "DUF421 domain-containing protein YcaP" ["YcaP"] "MKAFDLHRMAFDKVPFDFLGEVALRSLYTFVLVFLFLKMTGRRGVRQMSLFEVLIILTLGSAAGDVAFYDDVPMVPVLIVFITLALLYRLVMWLMAHSEKLEDLLEGKPVVIIEDGELAWSKLNNSNMTEFEFFMELRLRGVEQLGQVRLAILETNGQISVYFFEDDKVKPGLLILPSDCTQRYKVVPESADYACIRCSEIIHMKAGEKQLCPRCANPEWTKASRAKRVT" [] ["CCO-CYTOSOL", "CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"G6470-MONOMER" "periplasmic protease YcaL" ["YcaL"] "MKNTKLLLAIATSAALLTGCQNTHGIDTNMAISSGLNAYKAATLSDADAKAIANQGCAEMDSGNQVASKSSKYGKRLAKIAKALGNNINGTPVNYKVYMTSDVNAWAMANGCVRVYSGLMDMMNDNEIEGVLGHELGHVALGHSLAEMKASYAIVAARDAISATSGVASQLSRSQLGDIAEGAINAKYSRDKESEADDFSFDLLKKRGISTQGLVGSFETLASLDGGRTQSMFDSHPPSTERAQHIRDRIASGK" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG", "CCO-EXTRACELLULAR"] +"G6471-MONOMER" "interstrand DNA crosslink repair glycosylase" ["AlkZ", "YcaQ"] "MSLPHLSLADARNLHLAAQGLLNKPRRRASLEDIPATISRMSLLQIDTINIVARSPYLVLFSRLGNYPAQWLDESLARGELMEYWAHEACFMPRSDFRLIRHRMLAPEKMGWKYKDAWMQEHEAEIAQLIQHIHDKGPVRSADFEHPRKGASGWWEWKPHKRHLEGLFTAGKVMVIERRNFQRVYDLTHRVMPDWDDERDLVSQTEAEIIMLDNSARSLGIFREQWLADYYRLKRPALAAWREARAEQQQIIAVHVEKLGNLWLHDDLLPLLERALAGKLTATHSAVLSPFDPVVWDRKRAEQLFDFSYRLECYTPAPKRQYGYFVLPLLHRGQLVGRMDAKMHRQTGILEVISLWLQEGIKPTTTLQKGLRQAITDFANWQQATRVTLGCCPQGLFTDCRTGWEIDPVA" [] ["CCO-CYTOSOL"] +"G6472-MONOMER" "PF03966 family protein YcaR" ["YcaR", "UPF0434 family protein YcaR"] "MDHRLLEIIACPVCNGKLWYNQEKQELICKLDNLAFPLRDGIPVLLETEARVLTADESKS" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G6473-MONOMER" "putative phosphotransferase YcbJ" ["YcbJ"] "MEQLRAELSHLLGEKLSRIECVNEKADTALWALYDSQGNPMPLMARSFSTPGKARQLAWKTTMLARSGTVRMPTIYGVMTHEEHPGPDVLLLERMRGVSVEAPARTPERWEQLKDQIVEALLAWHRQDSRGCVGAVDNTQENFWPSWYRQHVEVLWTTLNQFNNTGLTMQDKRILFRTRECLPALFEGFNDNCVLIHGNFCLRSMLKDSRSDQLLAMVGPGLMLWAPREYELFRLMDNSLAEDLLWSYLQRAPVAESFIWRRWLYVLWDEVAQLVNTGRFSRRNFDLASKSLLPWLA" [] ["CCO-CYTOSOL"] +"G6474-MONOMER" "peptidoglycan LD-endopeptidase" ["YcbK", "MepK"] "MDKFDANRRKLLALGGVALGAAILPTPAFATLSTPRPRILTLNNLHTGESIKAEFFDGRGYIQEELAKLNHFFRDYRANKIKSIDPGLFDQLYRLQGLLGTRKPVQLISGYRSIDTNNELRARSRGVAKKSYHTKGQAMDFHIEGIALSNIRKAALSMRAGGVGYYPRSNFVHIDTGPARHW" ["CCO-PERI-BAC"] [] +"G6475-MONOMER" "hydroxyacylglutathione hydrolase GloC" ["GloC", "YcbL", "GlxII-2", "glyoxalase II"] "MNYRIIPVTAFSQNCSLIWCEQTRLAALVDPGGDAEKIKQEVDDSGLTLMQILLTHGHLDHVGAAAELAQHYGVPVFGPEKEDEFWLQGLPAQSRMFGLEECQPLTPDRWLNEGDTISIGNVTLQVLHCPGHTPGHVVFFDDRAKLLISGDVIFKGGVGRSDFPRGDHNQLISSIKDKLLPLGDDVIFIPGHGPLSTLGYERLHNPFLQDEMPVW" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G6478-MONOMER" "aliphatic sulfonate ABC transporter periplasmic binding protein" ["YcbO"] "MRNIIKLALAGLLSVSTFAVAAESSPEALRIGYQKGSIGMVLAKSHQLLEKRYPESKISWVEFPAGPQMLEALNVGSIDLGSTGDIPPIFAQAAGADLVYVGVEPPKPKAEVILVAENSPIKTVADLKGHKVAFQKGSSSHNLLLRALRQAGLKFTDIQPTYLTPADARAAFQQGNVDAWAIWDPYYSAALLQGGVRVLKDGTDLNQTGSFYLAARPYAEKNGAFIQGVLATFSEADALTRSQREQSIALLAKTMGLPAPVIASYLDHRPPTTIKPVNAEVAALQQQTADLFYENRLVPKKVDIRQRIWQPTQLEGKQL" [] ["CCO-MEMBRANE", "CCO-PERI-BAC"] +"G6480-MONOMER" "putative laminin-binding fimbrial subunit" ["ElfA", "YcbQ"] "MKKSVLTAFITVVCATSSVMAADDNAITDGSVTFNGKVIAPACTLVAATKDSVVTLPDVSATKLQTNGQVSGVQIDVPIELKDCDTTVTKNATFTFNGTADTTQITAFANQASSDAATNVALQMYMNDGTTAITPDTETGNILLQDGDQTLTFKVDYIATGKATSGNVNAVTNFHINYY" ["CCO-PILUS"] ["CCO-EXTRACELLULAR", "CCO-PILUS"] +"G6481-MONOMER" "putative fimbrial chaperone ElfD" ["ElfD", "YcbR"] "MKTCITKGIVTVSLTAILLSCSSAWAAGKGGIGLAATRLVYSEGEEQISLGVRNTSPDVPYLIQSWVMTPDNKKSADFIITPPLFVLNPANENLLRIMYIGAPLAKDRETLFFTSVRAVPSTTKRKEGNTLKIATQSVIKLFWRPKGLAYPLGEAPAKLRCTSSADMVTVSNPTPYFITLTDLKIGGKVVKNQMISPFDKYQFSLPKGAKNSSVTYRTINDYGAETPQLNCKS" [] ["CCO-PERI-BAC"] +"G6482-MONOMER" "putative fimbrial usher protein ElfC" ["ElfC", "YcbS"] "MYRTHRQHSLLSSGGVPSFIGGLVVFVSAAFNAQAETWFDPAFFKDDPSMVADLSRFEKGQKITPGVYRVDIVLNQTIVDTRNVNFVEITPEKGIAACLTTESLDAMGVNTDAFPAFKQLDKQACVPLAEIIPDASVTFNVNKLRLEISVPQIAIKSNARGYVPPERWDEGINALLLGYSFSGANSIHSSADSDSGDSYFLNLNSGVNLGPWRLRNNSTWSRSSGQTAEWKNLSSYLQRAVIPLKGELTVGDDYTAGDFFDSVSFRGVQLASDDNMLPDSLKGFAPVVRGIAKSNAQITIKQNGYTIYQTYVSPGAFEISDLYSTSSSGDLLVEIKEADGSVNSYSVPFSSVPLLQRQGRIKYAVTLAKYRTNSNEQQESKFAQATLQWGGPWGTTWYGGGQYAEYYRAAMFGLGFNLGDFGAISFDATQAKSTLADQSEHKGQSYRFLYAKTLNHLGTNFQLMGYRYSTSGFYTLSDTMYKHMDGYEFNDGDDEDTPMWSRYYNLFYTKRGKLQVNISQQLGEYGSFYLSGSQQTYWHTDQQDRLLQFGYNTQIKDLSLGISWNYSKSRGQPDADQVFALNFSLPLNLLLPRSNDSYTRKKNYAWMTSNTSIDNEGHTTQNLGLTETLLDDGNLSYSVQQGYNSEGKTANGSASMDYKGAFADARVGYNYSDNGSQQQLNYALSGSLVAHSQGITLGQSLGETNVLIAAPGAENTRVANSTGLKTDWRGYTVVPYATSYRENRIALDAASLKRNVDLENAVVNVVPTKGALVLAEFNAHAGARVLMKTSKQGIPLRFGAIATLDGVQANSGIIDDDGSLYMAGLPAKGTISVRWGEAPDQICHINYELTEQQINSAITRMDAICR" [] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"G6483-MONOMER" "putative fimbrial-like adhesin protein" ["ElfG", "YcbT"] "MQIIFGEKCVSLLRLFFAAVLMLWCAQTAAYSGQCHTTQGNPYIGVNFGVKTLEEEANTAGVVKDKFYQWNESNDYYVSCDCDKDNVRSGRWAFAADSPLVYLGDNWYKINDYLAAKVLLQVKGSSPTAVPFENVGTGGDTRWHICDPGGQRLGGQGASGNSGSFSLKILQPFVGSVVIPPMALARLYECYNIPAGDSCTTTGTPVLVYYLSGTINSLGSCSVNAGETIEVDLGDVFAANFRVVGHKPLGARTAELAIPVRCNTGNAGLVNVNLSLTATTDPSYPQAIKTSRPGVGVVVTDSQNNIISPAGGTLPLSIPDDADSIARMNVYPVSTTGVPPETGRFEATATVRINFD" [] ["CCO-EXTRACELLULAR", "CCO-PILUS"] +"G6484-MONOMER" "putative fimbrial protein YcbU" ["YcbU"] "MKKKTIFQCVILFFSILNIHVGMAGPEQVSMHIYGNVVDQGCDVATKSALQNIHIGDFNISDFQAANTVSTAADLNIDITGCAAGITGADVLFSGEADTLAPTLLKLTDTGGSGGMATGIAVQILDAQSQQEIPLNQVQPLTPLKAGDNTLKYQLRYKSTKAGATGGNATAVLYFDLVYQ" [] ["CCO-EXTRACELLULAR", "CCO-PILUS"] +"G6485-MONOMER" "putative fimbrial protein YcbV" ["YcbV"] "MLKRIIWILFLLGLTWGCELFAHDGTVNISGSFRRNTCVLAQDSKQINVQLGDVSLTRFSHGNYGPEKSFIINLQDCGTDVSTVDVTFSGTPDGVQSEMLSIESGTDAASGLAIAILDDAKILIPLNQASKDYSLHSGKVPLTFYAQLRPVNSDVQSGKVNASATFVLHYD" [] ["CCO-EXTRACELLULAR", "CCO-PILUS"] +"G6486-MONOMER" "cell division protein ZapC" ["ZapC", "YcbW"] "MRIKPDDNWRWYYDEEHDRMMLDLANGMLFRSRFARKMLTPDAFSPAGFCVDDAALYFSFEEKCRDFNLSKEQKAELVLNALVAIRYLKPQMPKSWHFVSHGEMWVPMPGDAACVWLSDTHEQVNLLVVESGENAALCLLAQPCVVIAGRAMQLGDAIKIMNDRLKPQVNVDSFSLEQAV" [] ["CCO-CYTOSOL"] +"G6487-MONOMER" "6-N-hydroxylaminopurine resistance protein" ["YcbX", "protein involved in base analog detoxification"] "MATLIRLFIHPVKSMRGIGLTHALADVSGLAFDRIFMITEPDGTFITARQFPQMVRFTPSPVHDGLHLTAPDGSSAYVRFADFATQDAPTEVWGTHFTARIAPDAINKWLSGFFSREVQLRWVGPQMTRRVKRHNTVPLSFADGYPYLLANEASLRDLQQRCPASVKMEQFRPNLVVSGASAWEEDRWKVIRIGDVVFDVVKPCSRCIFTTVSPEKGQKHPAGEPLKTLQSFRTAQDNGDVDFGQNLIARNSGVIRVGDEVEILATAPAKIYGAAAADDTANITQQPDANVDIDWQGQAFRGNNQQVLLEQLENQGIRIPYSCRAGICGSCRVQLLEGEVTPLKKSAMGDDGTILCCSCVPKTALKLAR" [] ["CCO-PERI-BAC"] +"G6488-MONOMER" "fused 23S rRNA m2G2445 methyltransferase and 23S rRNA m7G2069 methyltransferase" ["RlmK", "YcbY", "RlmL", "RlmKL", "ribosomal RNA large subunit methyltransferase L"] "MNSLFASTARGLEELLKTELENLGAVECQVVQGGVHFKGDTRLVYQSLMWSRLASRIMLPLGECKVYSDLDLYLGVQAINWTEMFNPGATFAVHFSGLNDTIRNSQYGAMKVKDAIVDAFTRKNLPRPNVDRDAPDIRVNVWLHKETASIALDLSGDGLHLRGYRDRAGIAPIKETLAAAIVMRSGWQPGTPLLDPMCGSGTLLIEAAMLATDRAPGLHRGRWGFSGWAQHDEAIWQEVKAEAQTRARKGLAEYSSHFYGSDSDARVIQRARTNARLAGIGELITFEVKDVAQLTNPLPKGPYGTVLSNPPYGERLDSEPALIALHSLLGRIMKNQFGGWNLSLFSASPDLLSCLQLRADKQYKAKNGPLDCVQKNYHVAESTPDSKPAMVAEDYTNRLRKNLKKFEKWARQEGIECYRLYDADLPEYNVAVDRYADWVVVQEYAPPKTIDAHKARQRLFDIIAATISVLGIAPNKLVLKTRERQKGKNQYQKLGEKGEFLEVTEYNAHLWVNLTDYLDTGLFLDHRIARRMLGQMSKGKDFLNLFSYTGSATVHAGLGGARSTTTVDMSRTYLEWAERNLRLNGLTGRAHRLIQADCLAWLREANEQFDLIFIDPPTFSNSKRMEDAFDVQRDHLALMKDLKRLLRAGGTIMFSNNKRGFRMDLDGLAKLGLKAQEITQKTLSQDFARNRQIHNCWLITAA" [] ["CCO-CYTOSOL"] +"G6490-MONOMER" "intermembrane transport protein PqiA" ["PqiA"] "MCEHHHAAKHILCSQCDMLVALPRLEHGQKAACPRCGTTLTVAWDAPRQRPTAYALAALFMLLLSNLFPFVNMNVAGVTSEITLLEIPGVLFSEDYASLGTFFLLFVQLVPAFCLITILLLVNRAELPVRLKEQLARVLFQLKTWGMAEIFLAGVLVSFVKLMAYGSIGVGSSFLPWCLFCVLQLRAFQCVDRRWLWDDIAPMPELRQPLKPGVTGIRQGLRSCSCCTAILPADEPVCPRCSTKGYVRRRNSLQWTLALLVTSIMLYLPANILPIMVTDLLGSKMPSTILAGVILLWSEGSYPVAAVIFLASIMVPTLKMIAIAWLCWDAKGHGKRDSERMHLIYEVVEFVGRWSMIDVFVIAVLSALVRMGGLMSIYPAMGALMFALVVIMTMFSAMTFDPRLSWDRQPESEHEES" ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"G6491-MONOMER" "intermembrane transport protein PqiB" ["PqiB"] "MESNNGEAKIQKVKNWSPVWIFPIVTALIGAWVLFYHYSHQGPEVTLITANAEGIEGGKTTIKSRSVDVGVVESATLADDLTHVEIKARLNSGMEKLLHKDTVFWVVKPQIGREGISGLGTLLSGVYIELQPGAKGSKMDKYDLLDSPPLAPPDAKGIRVILDSKKAGQLSPGDPVLFRGYRVGSVETSTFDTQKRNISYQLFINAPYDRLVTNNVRFWKDSGIAVDLTSAGMRVEMGSLTTLLSGGVSFDVPEGLDLGQPVAPKTAFVLYDDQKSIQDSLYTDHIDYLMFFKDSVRGLQPGAPVEFRGIRLGTVSKVPFFAPNMRQTFNDDYRIPVLIRIEPERLKMQLGENADVVEHLGELLKRGLRGSLKTGNLVTGALYVDLDFYPNTPAITGIREFNGYQIIPTVSGGLAQIQQRLMEALDKINKLPLNPMIEQATSTLSESQRTMKNLQTTLDSMNKILASQSMQQLPTDMQSTLRELNRSMQGFQPGSAAYNKMVADMQRLDQVLRELQPVLKTLNEKSNALVFEAKDKKDPEPKRAKQ" ["CCO-PERI-BAC"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"G6492-MONOMER" "intermembrane transport lipoprotein PqiC" ["PqiC", "YmbA"] "MKKWLVTIAALWLAGCSSGEINKNYYQLPVVQSGTQSTASQGNRLLWVEQVTVPDYLAGNGVVYQTSDVKYVIANNNLWASPLDQQLRNTLVANLSTQLPGWVVASQPLGSAQDTLNVTVTEFNGRYDGKVIVSGEWLLNHQGQLIKRPFRLEGVQTQDGYDEMVKVLAGVWSQEAASIAQEIKRLP" ["CCO-PERI-BAC"] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"G6493-MONOMER" "putative ATP-dependent protease YcbZ" ["YcbZ"] "MTITKLAWRDLVPDTDSYQEIFAQPHLIDENDPLFSDTQPRLQFALEQLLHTRASSSFMLAKAPEESEYLNLIANAARTLQSDAGQLVGGHYEVSGHSIRLRHAVSADDNFATLTQVVAADWVEAEQLFGCLRQFNGDITLQPGLVHQANGGILIISLRTLLAQPLLWMRLKNIVNRERFDWVAFDESRPLPVSVPSMPLKLKVILVGERESLADFQEMEPELSEQAIYSEFEDTLQIVDAESVTQWCRWVTFTARHNHLPAPGADAWPILIREAARYTGEQETLPLSPQWILRQCKEVASLCDGDTFSGEQLNLMLQQREWREGFLAERMQDEILQEQILIETEGERIGQINALSVIEFPGHPRAFGEPSRISCVVHIGDGEFTDIERKAELGGNIHAKGMMIMQAFLMSELQLEQQIPFSASLTFEQSYSEVDGDSASMAELCALISALADVPVNQSIAITGSVDQFGRAQPVGGLNEKIEGFFAICQQRELTGKQGVIIPTANVRHLSLHSELVKAVEEGKFTIWAVDDVTDALPLLLNLVWDGEGQTTLMQTIQERIAQASQQEGRHRFPWPLRWLNWFIPN" [] ["CCO-CYTOSOL"] +"G6494-MONOMER" "transcriptional coactivator for CRP" ["YccR", "Sxy"] "MKSLSYKRIYKSQEYLATLGTIEYRSLFGSYSLTVDDTVFAMVSDGELYLRACEQSAQYCVKHPPVWLTYKKCGRSVTLNYYRVDESLWRNQLKLVRLSKYSLDAALKEKSTRNTRERLKDLPNMSFHLEAILGEVGIKDVRALRILGAKMCWLRLRQQNSLVTEKILFMLEGAIIGIHEAALPVARRQELAEWADSLTPKQEFPAELE" [] ["CCO-CYTOSOL"] +"G6495-MONOMER" "putative transporter YccS" ["YccS"] "MLSPLLKRYTWNSAWLYYARIFIALCGTTAFPWWLGDVKLTIPLTLGMVAAALTDLDDRLAGRLRNLIITLFCFFIASASVELLFPWPWLFAIGLTLSTSGFILLGGLGQRYATIAFGALLIAIYTMLGTSLYEHWYQQPMYLLAGAVWYNVLTLIGHLLFPVRPLQDNLARCYEQLARYLELKSRMFDPDIEDQSQAPLYDLALANGLLMATLNQTKLSLLTRLRGDRGQRGTRRTLHYYFVAQDIHERASSSHIQYQTLREHFRHSDVLFRFQRLMSMQGQACQQLSRCILLRQPYQHDPHFERAFTHIDAALERMRDNGAPADLLKTLGFLLNNLRAIDAQLATIESEQAQALPHNNDENELADDSPHGLSDIWLRLSRHFTPESALFRHAVRMSLVLCFGYAIIQITGMHHGYWILLTSLFVCQPNYNATRHRLKLRIIGTLVGIAIGIPVLWFVPSLEGQLVLLVITGVLFFAFRNVQYAHATMFITLLVLLCFNLLGEGFEVALPRVIDTLIGCAIAWAAVSYIWPDWQFRNLPRMLERATEANCRYLDAILEQYHQGRDNRLAYRIARRDAHNRDAELASVVSNMSSEPNVTPQIREAAFRLLCLNHTFTSYISALGAHREQLTNPEILAFLDDAVCYVDDALHHQPADEERVNEALASLKQRMQQLEPRADSKEPLVVQQVGLLIALLPEIGRLQRQITQVPQETPVSA" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6496-MONOMER" "PF03733 family inner membrane protein YccF" ["YccF"] "MRTVLNILNFVLGGFATTLGWLLATLVSIVLIFTLPLTRSCWEITKLSLVPYGNEAIHVDELNPAGKNVLLNTGGTVLNIFWLIFFGWWLCLMHIATGIAQCISIIGIPVGIANFKIAAIALWPVGRRVVSVETAQAAREANARRRFE" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6498-MONOMER" "DUF2057 domain-containing protein YccT" ["YccT"] "MKTGIVTTLIALCLPVSVFATTLRLSTDVDLLVLDGKKVSSSLLRGADSIELDNGPHQLVFRVEKTIHLSNSEERLYISPPLVVSFNTQLINQVNFRLPRLENEREANHFDAAPRLELLDGDATPIPVKLDILAITSTAKTIDYEVEVERYNKSAKRASLPQFATMMADDSTLLSGVSELDAIPPQSQVLTEQRLKYWFKLADPQTRNTFLQWAEKQPSS" [] ["CCO-CYTOSOL"] +"G6499-MONOMER" "putative HspQ acetyl donor" ["YccU", "putative CoA-binding protein with NAD(P)-binding Rossmann-fold domain", "putative CoA binding protein YccU"] "MKETDIAGILTSTHTIALVGASDKPDRPSYRVMKYLLDQGYHVIPVSPKVAGKTLLGQKGYGTLADVPEKVDMVDVFRNSEAAWGVAQEAIAIGAKTLWMQLGVINEQAAVLARDAGLNVVMDRCPAIEIPRLGLAK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G6500-MONOMER" "heat shock protein HspQ" ["YccV", "HspQ", "heat shock protein, hemimethylated DNA-binding protein"] "MIASKFGIGQQVRHSLLGYLGVVVDIDPVYSLSEPSPDELAVNDELRAAPWYHVVMEDDNGLPVHTYLAEAQLSSELQDEHPEQPSMDELAQTIRKQLQAPRLRN" [] ["CCO-CYTOSOL"] +"G6501-MONOMER" "23S rRNA m5C1962 methyltransferase" ["YccW", "RlmI"] "MSVRLVLAKGREKSLLRRHPWVFSGAVARMEGKASLGETIDIVDHQGKWLARGAYSPASQIRARVWTFDPSESIDIAFFSRRLQQAQKWRDWLAQKDGLDSYRLIAGESDGLPGITIDRFGNFLVLQLLSAGAEYQRAALISALQTLYPECSIYDRSDVAVRKKEGMELTQGPVTGELPPALLPIEEHGMKLLVDIQHGHKTGYYLDQRDSRLATRRYVENKRVLNCFSYTGGFAVSALMGGCSQVVSVDTSQEALDIARQNVELNKLDLSKAEFVRDDVFKLLRTYRDRGEKFDVIVMDPPKFVENKSQLMGACRGYKDINMLAIQLLNEGGILLTFSCSGLMTSDLFQKIIADAAIDAGRDVQFIEQFRQAADHPVIATYPEGLYLKGFACRVM" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G6502-MONOMER" "acylphosphatase" ["YccX"] "MSKVCIIAWVYGRVQGVGFRYTTQYEAKRLGLTGYAKNLDDGSVEVVACGEEGQVEKLMQWLKSGGPRSARVERVLSEPHHPSGELTDFRIR" [] ["CCO-CYTOSOL"] +"G6503-MONOMER" "phosphotyrosine-protein phosphatase Etp" ["Etp", "YccY"] "MAQLKFNSILVVCTGNICRSPIGERLLRKRLPGVKVKSAGVHGLVKHPADATAADVAANHGVSLEGHAGRKLTAEMARNYDLILAMESEHIAQVTAIAPEVRGKTMLFGQWLEQKEIPDPYRKSQDAFEHVYGMLERASQEWAKRLSR" [] ["CCO-CYTOSOL"] +"G6504-MONOMER" "putative exopolysaccharide export lipoprotein GfcE" ["YccZ", "GfcE"] "MKKNIFKFSVLTLAVLSLTACTLVPGQNLSTSNKDVIELPDNQYDLDKMVNIYPVTPGLIDQLRAKPIMSQANPELEQQIANYEYRIGIGDVLMVTVWDHPELTTPAGQYRSASDTGNWVNADGAIFYPYIGRLKVAGKTLTQVRNEITARLDSVIESPQVDVSVAAFRSQKAYVTGEVSKSGQQPITNIPLTIMDAINAAGGLTADADWRNVVLTQNGVKTKVNLYALMQRGDLRQNKLLHPGDILFIPRNDDLKVFVMGEVGKQSTLKMDRSGMTLAEALGNAEGMNQDVADATGIFVIRATQNKQNGKIANIYQLNAKDASAMILGTEFQLEPYDIVYVTTAPLARWNRVISLLVPTISGVHDLTETSRWIQTWPN" [] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"G6505-MONOMER" "putative lipoprotein GfcD" ["YmcA", "GfcD"] "MKKNSYLLSCLAIAVSSACHAEVLTYPDPLGSSQSDFGGTGLLQMPNARIAPEGEFSVNYRDNDQYRFYSTSVALFPWLEGTIRYTDVRTRKYSQWEDFSGDQSYKDKSFDFKLRLWEEGYWLPQVAFGKRDIAGTGLFDGEYLVASKQAGPFDFTLGMAWGYAGNAGNITNPFCRVSDKYCHRAESHDAGDISFSDIFRGPASIFGGIEYQTPWNPLRLKLEYDGNNYQNDFAGKLPQASHFNVGAVYRAASWADLNLSYERGNTLMFGFTLRTNFNDLRPALRDTPKPAYQPAPESEGLQYTTVANQLTALKYNAGFDAPEIQLRDKTLYMSGQQYKYRDSREAVDRANRILVNNLPQGVEKISVTQKREHMAMVTTETDVASLRKQLAGTAPGQSEPLQQQRVEAEDLSAFGRGYRIREDRFSYSFNPTLSQSLGGPEDFYMFQLGLMSSARYWFTDHLLLDGGIFTNIYNNYDKFKSSLLPADSTLPRVRTHIRDYVRNDVYLNNLQANYFADLGNGFYGQVYGGYLETMYAGVGSELLYRPLDACWALGVDVNYVKQRDWDNMMRFTDYSTPTGFVTAYWNPPTLNGVLMKLSVGQYLAKDKGATIDVAKRFDSGVAVGVWAAISNVSKDDYGEGGFSKGFYISIPFDLMTIGPNRNRAVVSWTPLTRDGGQMLSRKYQLYPMTAEREVPVGQ" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE", "CCO-OUTER-MEM"] +"G6506-MONOMER" "capsule biosynthesis GfcC family protein" ["YmcB", "GfcC"] "MNKLQSYFIASVLYVMTPHAFAQGTVTIYLPGEQQTLSVGPVENVVQLVTQPQLRDRLWWPGALLTDSAAKAKALKDYQHVMAQLASWEAEADDDVAATIKSVRQQLLNLNITGRLPVKLDPDFVRVDENSNPPLVGDYTLYTVQRPVTITLLGAVSGAGQLPWQAGRSVTDYLQDHPRLAGADKNNVMVITPEGETVVAPVALWNKRHVEPPPGSQLWLGFSAHVLPEKYADLNDQIVSVLTQRVPD" [] ["CCO-CYTOSOL"] +"G6507-MONOMER" "lipoprotein GfcB" ["YmcC", "GfcB"] "MRPLILSIFALFLAGCTHSQQSMVDTFRASLFDNQDITVADQQIQALPYSTMYLRLNEGQRIFVVLGYIEQEQSKWLSQDNAMLVTHNGRLLKTVKLNNNLLEVTNSGQDPLRNALAIKDGSRWTRDILWSEDNHFRSATLSSTFSFAGLETLNIAGRNVLCNVWQEEVTSTRPEKQWQNTFWVDSATGQVRQSRQMLGAGVIPVEMTFLKPAP" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"G6508-MONOMER" "threonine-rich inner membrane protein GfcA" ["YmcD", "GfcA"] "MKHKLSAILMAFMLTTPAAFAAPEATNGTEATTGTTGTTTTTTGATTTATTTGGVAAGAVGTATVVGVATAVGVATLAVVAANDSGDGGSHNTSTTTSTTR" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6509-MONOMER" "IS1 protein InsB" ["InsB4"] "MPGNSPHYGRWPQHDFPPFKKLRPQSVTSRIQPGSDVIVCAEMDEQWGYVGAKSRQRWLFYAYDRLRKTVVAHVFGERTMATLGRLMSLLSPFDVVIWMTDGWPLYESRLKGKLHVISKRYTQRIERYNLNLRQHLARLGRKSLSFSKSVELHDKVIGHYLNIKHYQ" [] ["CCO-CYTOSOL"] +"G6510-MONOMER" "CspA family protein CspH" ["CspK", "CspH"] "MSRKMTGIVKTFDRKSGKGFIIPSDGRKEVQVHISAFTPRDAEVLIPGLRVEFCRVNGLRGPTAANVYLS" [] ["CCO-CYTOSOL"] +"G6511-MONOMER" "cold shock protein CspG" ["CspG"] "MSNKMTGLVKWFNADKGFGFITPDDGSKDVFVHFTAIQSNEFRTLNENQKVEFSIEQGQRGPAAANVVTL" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G6512-MONOMER" "protein YmcE" ["YmcE"] "MRRWISQNNIRLPRGAFFISALFFFNAVCIVSDNLLIIESFGEMAYNISYLTRVPGTNTLLACCCLLRPEEVNSEY" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6513-MONOMER" "putative electron transport protein YccM" ["YccM", "putative 4Fe-4S membrane protein"] "MAENKRTRWQRRPGTTGGKLPWNDWRNATTWRKATQLLLLAMNIYIAITFWYWVRYYETASSTTFVARPGGIEGWLPIAGLMNLKYSLVTGQLPSVHAAAMLLLVAFIVISLLLKKAFCSWLCPVGTLSELIGDLGNKLFGRQCVLPRWLDIPLRGVKYLLLSFFIYIALLMPAQAIHYFMLSPYSVVMDVKMLDFFRHMGTATLISVTVLLIASLFIRHAWCRYLCPYGALMGVVSLLSPFKIRRNAESCIDCGKCAKNCPSRIPVDKLIQVRTVECTGCMTCVESCPVASTLTFSLQKPAANKKAFALSGWLMTLLVLGIMFAVIGYAMYAGVWQSPVPEELYRRLIPQAPMIGH" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6518-MONOMER" "FMN reductase RutF" ["YcdH", "RutF", "flavin reductase"] "MNIVDQQTFRDAMSCMGAAVNIITTDGPAGRAGFTASAVCSVTDTPPTLLVCLNRGASVWPAFNENRTLCVNTLSAGQEPLSNLFGGKTPMEHRFAAARWQTGVTGCPQLEEALVSFDCRISQVVSVGTHDILFCAIEAIHRHTTPYGLVWFDRSYHALMRPAC" [] ["CCO-CYTOSOL"] +"G6519-MONOMER" "putative malonic semialdehyde reductase" ["YcdI", "RutE"] "MNEAVSPGALSTLFTDARTHNGWRETPVSDETLREIYALMKWGPTSANCSPARIVFTRTAEGKERLRPALSSGNLQKTLTAPVTAIVAWDSEFYERLPLLFPHGDARSWFTSSPQLAEETAFRNSSMQAAYLIVACRALGLDTGPMSGFDRQHVDDAFFTGSTLKSNLLINIGYGDSSKLYARLPRLSFEEACGLL" [] ["CCO-CYTOSOL"] +"G6520-MONOMER" "putative aminoacrylate hydrolase RutD" ["RutD", "YcdJ"] "MKLSLSPPPYADAPVVVLISGLGGSGSYWLPQLAVLEQEYQVVCYDQRGTGNNPDTLAEDYSIAQMAAELHQALVAAGIEHYAVVGHALGALVGMQLALDYPASVTVLISVNGWLRINAHTRRCFQVRERLLYSGGAQAWVEAQPLFLYPADWMAARAPRLEAEDALALAHFQGKNNLLRRLNALKRADFSHHADRIRCPVQIICASDDLLVPTACSSELHAALPDSQKMVMPYGGHACNVTDPETFNALLLNGLASLLHHREAAL" [] [] +"G6521-MONOMER" "putative aminoacrylate peracid reductase RutC" ["YcdK", "RutC"] "MPKSVIIPAGSSAPLAPFVPGTLADGVVYVSGTLAFDQHNNVLFADDPKAQTRHVLETIRKVIETAGGTMADVTFNSIFITDWKNYAAINEIYAEFFPGDKPARFCIQCGLVKPDALVEIATIAHIAK" [] ["CCO-CYTOSOL"] +"G6522-MONOMER" "peroxyureidoacrylate/ureidoacrylate amidohydrolase" ["YcdL", "RutB"] "MTTLTARPEAITFDPQQSALIVVDMQNAYATPGGYLDLAGFDVSTTRPVIANIQTAVTAARAAGMLIIWFQNGWDEQYVEAGGPGSPNFHKSNALKTMRKQPQLQGKLLAKGSWDYQLVDELVPQPGDIVLPKPRYSGFFNTPLDSILRSRGIRHLVFTGIATNVCVESTLRDGFFLEYFGVVLEDATHQAGPKFAQKAALFNIETFFGWVSDVETFCDALSPTSFAHIA" [] ["CCO-CYTOSOL"] +"G6523-MONOMER" "pyrimidine monooxygenase RutA" ["YcdM", "RutA", "pyrimidine oxygenase"] "MQDAAPRLTFTLRDEERLMMKIGVFVPIGNNGWLISTHAPQYMPTFELNKAIVQKAEHYHFDFALSMIKLRGFGGKTEFWDHNLESFTLMAGLAAVTSRIQIYATAATLTLPPAIVARMAATIDSISGGRFGVNLVTGWQKPEYEQMGIWPGDDYFSRRYDYLTEYVQVLRDLWGTGKSDFKGDFFTMNDCRVSPQPSVPMKVICAGQSDAGMAFSARYADFNFCFGKGVNTPTAFAPTAARMKQAAEQTGRDVGSYVLFMVIADETDDAARAKWEHYKAGADEEALSWLTEQSQKDTRSGTDTNVRQMADPTSAVNINMGTLVGSYASVARMLDEVASVPGAEGVLLTFDDFLSGIETFGERIQPLMQCRAHLPALTQEVA" [] ["CCO-CYTOSOL"] +"G6527-MONOMER" "ferrous iron transport system protein EfeO" ["YcdO", "EfeO"] "MTINFRRNALQLSVAALFSSAFMANAADVPQVKVTVTDKQCEPMTITVNAGKTQFIIQNHSQKALEWEILKGVMVVEERENIAPGFSQKMTANLQPGEYDMTCGLLTNPKGKLIVKGEATADAAQSDALLSLGGAITAYKAYVMAETTQLVTDTKAFTDAIKAGDIEKAKALYAPTRQHYERIEPIAELFSDLDGSIDAREDDYEQKAADPKFTGFHRLEKALFGDNTTKGMDQYAEQLYTDVVDLQKRISELAFPPSKVVGGAAGLIEEVAASKISGEEDRYSHTDLWDFQANVEGSQKIVDLLRPQLQKANPELLAKVDANFKKVDTILAKYRTKDGFETYDKLTDADRNALKGPITALAEDLAQLRGVLGLD" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"G6528-MONOMER" "poly-N-acetyl-D-glucosamine synthase subunit PgaD" ["YcdP", "HmsS", "PgaD", "poly-β-1,PGA synthase subunit PgaD"] "MNNLIITTRQSPVRLLVDYVATTILWTLFALFIFLFAMDLLTGYYWQSEARSRLQFYFLLAVANAVVLIVWALYNKLRFQKQQHHAAYQYTPQEYAESLAIPDELYQQLQKSHRMSVHFTSQGQIKMVVSEKALVRA" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6529-MONOMER" "poly-N-acetyl-D-glucosamine synthase subunit PgaC" ["YcdQ", "HmsR", "PgaC", "PGA synthase subunit PgaC"] "MINRIVSFFILCLVLCIPLCVAYFHSGELMMRFVFFWPFFMSIMWIVGGVYFWVYRERHWPWGENAPAPQLKDNPSISIIIPCFNEEKNVEETIHAALAQRYENIEVIAVNDGSTDKTRAILDRMAAQIPHLRVIHLAQNQGKAIALKTGAAAAKSEYLVCIDGDALLDRDAAAYIVEPMLYNPRVGAVTGNPRIRTRSTLVGKIQVGEYSSIIGLIKRTQRIYGNVFTVSGVIAAFRRSALAEVGYWSDDMITEDIDISWKLQLNQWTIFYEPRALCWILMPETLKGLWKQRLRWAQGGAEVFLKNMTRLWRKENFRMWPLFFEYCLTTIWAFTCLVGFIIYAVQLAGVPLNIELTHIAATHTAGILLCTLCLLQFIVSLMIENRYEHNLTSSLFWIIWFPVIFWMLSLATTLVSFTRVMLMPKKQRARWVSPDRGILRG" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6530-MONOMER" "poly-β-1,6-N-acetyl-D-glucosamine N-deacetylase and β-1,6 glycoside hydrolase" ["YcdR", "HmsF", "PgaB"] "MLRNGNKYLLMLVSIIMLTACISQSRTSFIPPQDRESLLAEQPWPHNGFVAISWHNVEDEAADQRFMSVRTSALREQFAWLRENGYQPVSIAQIREAHRGGKPLPEKAVVLTFDDGYQSFYTRVFPILQAFQWPAVWAPVGSWVDTPADKQVKFGDELVDREYFATWQQVREVARSRLVELASHTWNSHYGIQANATGSLLPVYVNRAYFTDHARYETAAEYRERIRLDAVKMTEYLRTKVEVNPHVFVWPYGEANGIAIEELKKLGYDMFFTLESGLANASQLDSIPRVLIANNPSLKEFAQQIITVQEKSPQRIMHIDLDYVYDENLQQMDRNIDVLIQRVKDMQISTVYLQAFADPDGDGLVKEVWFPNRLLPMKADIFSRVAWQLRTRSGVNIYAWMPVLSWDLDPTLTRVKYLPTGEKKAQIHPEQYHRLSPFDDRVRAQVGMLYEDLAGHAAFDGILFHDDALLSDYEDASAPAITAYQQAGFSGSLSEIRQNPEQFKQWARFKSRALTDFTLELSARVKAIRGPHIKTARNIFALPVIQPESEAWFAQNYADFLKSYDWTAIMAMPYLEGVAEKSADQWLIQLTNQIKNIPQAKDKSILELQAQNWQKNGQHQAISSQQLAHWMSLLQLNGVKNYGYYPDNFLHNQPEIDLIRPEFSTAWYPKND" [] ["CCO-PERI-BAC", "CCO-MEMBRANE", "CCO-OUTER-MEM"] +"G6531-MONOMER" "partially deacetylated poly-β-1,6-N-acetyl-D-glucosamine outer membrane porin" ["YcdS", "HmsH", "PgaA"] "MYSSSRKRCPKTKWALKLLTAAFLAASPAAKSAVNNAYDALIIEARKGNTQPALSWFALKSALSNNQIADWLQIALWAGQDKQVITVYNRYRHQQLPARGYAAVAVAYRNLQQWQNSLTLWQKALSLEPQNKDYQRGQILTLADAGHYDTALVKLKQLNSGAPDKANLLAEAYIYKLAGRHQDELRAMTESLPENASTQQYPTEYVQALRNNQLAAAIDDANLTPDIRADIHAELVRLSFMPTRSESERYAIADRALAQYAALEILWHDNPDRTAQYQRIQVDHLGALLTRDRYKDVISHYQRLKKTGQIIPPWGQYWVASAYLKDHQPKKAQSIMTELFYHKETIAPDLSDEELADLFYSHLESENYPGALTVTQHTINTSPPFLRLMGTPTSIPNDTWLQGHSFLSTVAKYSNDLPQAEMTARELAYNAPGNQGLRIDYASVLQARGWPRAAENELKKAEVIEPRNINLEVEQAWTALTLQEWQQAAVLTHDVVEREPQDPGVVRLKRAVDVHNLAELRIAGSTGIDAEGPDSGKHDVDLTTIVYSPPLKDNWRGFAGFGYADGQFSEGKGIVRDWLAGVEWRSRNIWLEAEYAERVFNHEHKPGARLSGWYDFNDNWRIGSQLERLSHRVPLRAMKNGVTGNSAQAYVRWYQNERRKYGVSWAFTDFSDSNQRHEVSLEGQERIWSSPYLIVDFLPSLYYEQNTEHDTPYYNPIKTFDIVPAFEASHLLWRSYENSWEQIFSAGVGASWQKHYGTDVVTQLGYGQRISWNDVIDAGATLRWEKRPYDGDREHNLYVEFDMTFRF" ["CCO-OUTER-MEM"] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"G6532-MONOMER" "probable diguanylate cyclase DgcT" ["DgcT", "YcdT"] "MEKDYLRISSTVLVSLLFGLALVLVNSWFNQPGVEEVVPRSTYLMVMIALFFIDTVAFIFMQLYFIYDRRQFSNCVLSLAFLSCLIYFVITVIIIQQIIEERLTSSVVQNDIAIYYLFRQMSLCILIFLALVNKVSENTKQRNLFSKKMTLCISLFFVFGGPIVAHILSSHYESYNLHIAELTNENGQVVWKASYVTIMIFMWLTLLSVNLYFNGLRYDIWNGVTVIAFCAVLYNISLLFMSRYSVSTWYISRTIEVVSKLTVMVIFMCHIFSALRVTKNIAHRDPLTNIFNRNYFFNELTVQSASAQKTPYCVMIMDIDHFKKVNDTWGHPVGDQVIKTVVNIIGKSIRPDDLLARVGGEEFGVLLTDIDTERAKALAERIRENVERLTGDNPEYAIPQKVTISIGAVVTQENALNPNEIYRLADNALYEAKETGRNKVVVRDVVNFCESP" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6534-MONOMER" "IS3 element protein InsE" ["InsE1"] "MTKTVSTSKKPRKQHSPEFRSEALKLAERIGVTAAARELSLYESQLYNWRSKQQNQQTSSERELEMSTEIARLKRQLAERDEELAILQKAATYFAKRLK" [] ["CCO-CYTOSOL"] +"G6535-MONOMER" "putative uncharacterized protein YmdE" ["YmdE"] "MRDYLAGLDIASPEHQVLMNVTAKSEVAPSIIKENLSLHLTHTVKWTESLDTFLNMPTPVAFLEISNKPYLGNMLNDFAGVDQQRVMHCRKAFSDAKVFK" [] ["CCO-CYTOSOL"] +"G6536-MONOMER" "uncharacterized protein YcdU" ["YcdU"] "MIPDYLTFIRFQDKRNLIYIYAIGLILIGFYWKNAGFTFPSEDIGVVSGILALVLYNFIFDLKAYWAYKCVTKNIDFSWFKKKQNHKIELFLTQPLVAGFLSLIMLSAMSWGLYQLLPSLYALFLISLLGPLVIFLLFRMIRTSYVKQVAISVAKKVKYKSLTRYVLLSVCISTVVNLLTISPLRNSDSFVTEGQWLTFKSIIALLILCGVVLAINLFFLRFSKRYAFLGRLFLQEIDLFFSSENALSTFFAKPLWLRLFILLVIEVMWITLVSVLATLVEWRIWFEAYFLLCYVPCLIYYFFYCRFLWHNDFMMACDMYFRWGHFNK" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6539-MONOMER" "glyoxylate/hydroxypyruvate reductase A" ["GhrA", "YcdW"] "MDIIFYHPTFDTQWWIEALRKAIPQARVRAWKSGDNDSADYALVWHPPVEMLAGRDLKAVFALGAGVDSILSKLQAHPEMLNPSVPLFRLEDTGMGEQMQEYAVSQVLHWFRRFDDYRIQQNSSHWQPLPEYHREDFTIGILGAGVLGSKVAQSLQTWRFPLRCWSRTRKSWPGVQSFAGREELSAFLSQCRVLINLLPNTPETVGIINQQLLEKLPDGAYLLNLARGVHVVEDDLLAALDSGKVKGAMLDVFNREPLPPESPLWQHPRVTITPHVAAITRPAEAVEYISRTIAQLEKGERVCGQVDRARGY" ["CCO-CYTOSOL"] ["CCO-PM-BAC-NEG", "CCO-CYTOSOL"] +"G6540-MONOMER" "zinc-binding phosphatase YcdX" ["YcdX"] "MYPVDLHMHTVASTHAYSTLSDYIAQAKQKGIKLFAITDHGPDMEDAPHHWHFINMRIWPRVVDGVGILRGIEANIKNVDGEIDCSGKMFDSLDLIIAGFHEPVFAPHDKATNTQAMIATIASGNVHIISHPGNPKYEIDVKAVAEAAAKHQVALEINNSSFLHSRKGSEDNCREVAAAVRDAGGWVALGSDSHTAFTMGEFEECLKILDAVDFPPERILNVSPRRLLNFLESRGMAPIAEFADL" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G6541-MONOMER" "chaperone protein YcdY" ["YcdY", "protein involved in maturation of YcdX"] "MNEFSILCRVLGSLYYRQPQDPLLVPLFTLIREGKLAANWPLEQDELLTRLQKSCDMTQVSADYNALFIGDECAVPPYRSAWVEGATEAEVRAFLSERGMPLADTPADHIGTLLLAASWLEDQSTEDESEALETLFSEYLLPWCGAFLGKVEAHATTPFWRTMAPLTRDAISAMWDELEEDSEE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G6542-MONOMER" "inner membrane protein YcdZ" ["NupT", "YcdZ"] "MNILLSIAITTGILSGIWGWVAVSLGLLSWAGFLGCTAYFACPQGGLKGLAISAATLLSGVVWAMVIIYGSALAPHLEILGYVITGIVAFLMCIQAKQLLLSFVPGTFIGACATFAGQGDWKLVLPSLALGLIFGYAMKNSGLWLAARSAKTAHREQEIKNKA" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6543-MONOMER" "curli secretion channel" ["CsgG"] "MQRLFLLVAVMLLSGCLTAPPKEAARPTLMPRAQSYKDLTHLPAPTGKIFVSVYNIQDETGQFKPYPASNFSTAVPQSATAMLVTALKDSRWFIPLERQGLQNLLNERKIIRAAQENGTVAINNRIPLQSLTAANIMVEGSIIGYESNVKSGGVGARYFGIGADTQYQLDQIAVNLRVVNVSTGEILSSVNTSKTILSYEVQAGVFRFIDYQRLLEGEVGYTSNEPVMLCLMSAIETGVIFLINDGIDRGLWDLQNKAERQNDILVKYRHMSVPPES" ["CCO-OUTER-MEM"] ["CCO-PERI-BAC", "CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"G6544-MONOMER" "curli assembly component CsgF" ["CsgF"] "MRVKHAVVLLMLISPLSWAGTMTFQFRNPNFGGNPNNGAFLLNSAQAQNSYKDPSYNDDFGIETPSALDNFTQAIQSQILGGLLSNINTGKPGRMVTNDYIVDIANRDGQLQLNVTDRKTGQTSTIQVSGLQNNSTDF" ["CCO-OUTER-MEM"] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"G6545-MONOMER" "curli assembly component CsgE" ["CsgE"] "MKRYLRWIVAAEFLFAAGNLHAVEVEVPGLLTDHTVSSIGHDFYRAFSDKWESDYTGNLTINERPSARWGSWITITVNQDVIFQTFLFPLKRDFEKTVVFALIQTEEALNRRQINQALLSTGDLAHDEF" ["CCO-OUTER-MEM"] ["CCO-CYTOSOL"] +"G6547-MONOMER" "curlin, minor subunit" ["CsgB"] "MKNKLLFMMLTILGAPGIAAAAGYDLANSEYNFAVNELSKSSFNQAAIIGQAGTNNSAQLRQGGSKLLAVVAQEGSSNRAKIDQTGDYNLAYIDQAGSANDASISQGAYGNTAMIIQKGSGNKANITQYGTQKTAIVVQRQSQMAIRVTQR" ["CCO-PILUS", "CCO-OUTER-MEM"] ["CCO-PILUS"] +"G6548-MONOMER" "curlin chaperone" ["YcdE", "CsgC"] "MNTLLLLAALSSQITFNTTQQGDVYTIIPEVTLTQSCLCRVQILSLREGSSGQSQTKQEKTLSLPANQPIALTKLSLNISPDDRVKIVVTVSDGQSLHLSQQWPPSSEKS" [] ["CCO-PERI-BAC"] +"G6549-MONOMER" "uncharacterized protein YmdA" ["YmdA"] "MFRPFLNSLMLGSLFFPFIAIAGSTVQGGVIHFYGQIVEPACDVSTQSSPVEMNCPQNGSIPGKTYSSKALMSGNVKNAQIASVKVQYLDKQKKLAVMNIEYN" [] ["CCO-EXTRACELLULAR"] +"G6550-MONOMER" "2'-O-acetyl-ADP-ribose deacetylase, regulator of RNase III activity" ["YmdB"] "MKTRIHVVQGDITKLAVDVIVNAANPSLMGGGGVDGAIHRAAGPALLDACLKVRQQQGDCPTGHAVITLAGDLPAKAVVHTVGPVWRGGEQNEDQLLQDAYLNSLRLVAANSYTSVAFPAISTGVYGYPRAAAAEIAVKTVSEFITRHALPEQVYFVCYDEENAHLYERLLTQQGDE" [] ["CCO-CYTOSOL"] +"G6551-MONOMER" "cardiolipin synthase C" ["ClsC", "YmdC", "cardiolipin synthase 3"] "MPRLASAVLPLCSQHPGQCGLFPLEKSLDAFAARYRLAEMAEHTLDVQYYIWQDDMSGRLLFSALLAAAKRGVRVRLLLDDNNTPGLDDILRLLDSHPRIEVRLFNPFSFRLLRPLGYITDFSRLNRRMHNKSFTVDGVVTLVGGRNIGDAYFGAGEEPLFSDLDVMAIGPVVEDVADDFARYWYCKSVSPLQQVLDVPEGEMADRIELPASWHNDAMTHRYLRKMESSPFINHLVDGTLPLIWAKTRLLSDDPAKGEGKAKRHSLLPQRLFDIMGSPSERIDIISSYFVPTRAGVAQLLRMVRKGVKIAILTNSLAANDVAVVHAGYARWRKKLLRYGVELYELKPTREQSSTLHDRGITGNSGASLHAKTFSIDGKTVFIGSFNFDPRSTLLNTEMGFVIESETLAQLIDKRFIQSQYDAAWQLRLDRWGRINWVDRHAKKEIILKKEPATSFWKRVMVRLASILPVEWLL" [] ["CCO-PM-BAC-NEG"] +"G6552-MONOMER" "osmoregulated periplasmic glucans biosynthesis protein C" ["OpgC", "YmdD", "MdoC", "protein required for succinyl modification of osmoregulated periplasmic glucans"] "MNPVPAQREYFLDSIRAWLMLLGIPFHISLIYSSHTWHVNSAESSLWLTLFNDFIHSFRMQVFFVISGYFSYMLFLRYPLKKWWKVRVERVGIPMLTAIPLLTLPQFIMLQYVKGKAESWPGLSLYDKYNTLAWELISHLWFLLVLVVMTTLCVWIFKRIRNNLENSDKTNKKFSMVKLSVIFLCLGIGYAVIRRTIFIVYPPILSNGMFNFIVMQTLFYLPFFILGALAFIFPHLKALFTTPSRGCTLAAALAFVAYLLNQRYGSGDAWMYETESVITMVLGLWMVNVVFSFGHRLLNFQSARVTYFVNASLFIYLVHHPLTLFFGAYITPHITSNWLGFLCGLIFVVGIAIILYEIHLRIPLLKFLFSGKPVVKRENDKAPAR" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6554-MONOMER" "putative cytochrome b561 YceJ" ["YceJ"] "MSFTNTPERYGVISAAFHWLSAIIVYGMFALGLWMVTLSYYDGWYHKAPELHKSIGILLMMGLVIRVLWRVISPPPGPLPSYSPMTRLAARAGHLALYLLLFAIGISGYLISTADGKPISVFGWFDVPATLADAGAQADFAGALHFWLAWSVVVLSVMHGFMALKHHFIDKDDTLKRMLGKSSSDYGV" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6555-MONOMER" "DUF2770 domain-containing protein YceO" ["YceO", "small protein involved in biofilm formation and acid stress response"] "MRPFLQEYLMRRLLHYLINNIREHLMLYLFLWGLLAIMDLIYVFYF" [] ["CCO-PM-BAC-NEG"] +"G6557-MONOMER" "regulator of biofilm formation" ["YceP", "BssS"] "MEKNNEVIQTHPLVGWDISTVDSYDALMLRLHYQTPNKSEQEGTEVGQTLWLTTDVARQFISILEAGIAKIESGDFQVNEYRRH" [] ["CCO-CYTOSOL"] +"G6558-MONOMER" "DNA damage-inducible protein I" ["DinI"] "MRIEVTIAKTSPLPAGAIDALAGELSRRIQYAFPDNEGHVSVRYAAANNLSVIGATKEDKQRISEILQETWESADDWFVSE" [] ["CCO-CYTOSOL"] +"G6560-MONOMER" "putative oxidoreductase YceM" ["YceM", "MviM", "putative oxidoreductase, NAD(P)-binding Rossmann-fold domain"] "MKKLRIGVVGLGGIAQKAWLPVLAAASDWTLQGAWSPTRAKALPICESWRIPYADSLSSLAASCDAVFVHSSTASHFDVVSTLLNAGVHVCVDKPLAENLRDAERLVELAARKKLTLMVGFNRRFAPLYGELKTQLATAASLRMDKHRSNSVGPHDLYFTLLDDYLHVVDTALWLSGGKASLDGGTLLTNDAGEMLFAEHHFSAGPLQITTCMHRRAGSQRETVQAVTDGALIDITDMREWREERGQGVVHKPIPGWQSTLEQRGFVGCARHFIECVQNQTVPQTAGEQAVLAQRIVDKIWRDAMSE" [] ["CCO-CYTOSOL"] +"G6561-MONOMER" "lipid II flippase MurJ" ["YceN", "MviN", "MurJ"] "MNLLKSLAAVSSMTMFSRVLGFARDAIVARIFGAGMATDAFFVAFKLPNLLRRIFAEGAFSQAFVPILAEYKSKQGEDATRVFVSYVSGLLTLALAVVTVAGMLAAPWVIMVTAPGFADTADKFALTSQLLKITFPYILLISLASLVGAILNTWNRFSIPAFAPTLLNISMIGFALFAAPYFNPPVLALAWAVTVGGVLQLVYQLPHLKKIGMLVLPRINFHDAGAMRVVKQMGPAILGVSVSQISLIINTIFASFLASGSVSWMYYADRLMEFPSGVLGVALGTILLPSLSKSFASGNHDEYNRLMDWGLRLCFLLALPSAVALGILSGPLTVSLFQYGKFTAFDALMTQRALIAYSVGLIGLIVVKVLAPGFYSRQDIKTPVKIAIVTLILTQLMNLAFIGPLKHAGLSLSIGLAACLNASLLYWQLRKQKIFTPQPGWMAFLLRLVVAVLVMSGVLLGMLHIMPEWSLGTMPWRLLRLMAVVLAGIAAYFAALAVLGFKVKEFARRTV" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6562-MONOMER" "flagellar biosynthesis protein FlgN" ["FlgN"] "MTRLAEILDQMSAVLNDLKTVMDQEQQHLSMGQINGSQLQWITEQKSSLLATLDYLEQLRRKEPNTANSVDISQRWQEITVKTQQLRQMNQHNGWLLEGQIERNQQALEMLKPHQEPTLYGANGQTSTTHRGGKKISI" [] ["CCO-CYTOSOL"] +"G6563-MONOMER" "DUF2655 domain-containing protein YceQ" ["YceQ"] "MSVARFSCGKTAQLSKKQTGYYSPEIFPSTGKDCNPQPANCLKDQYVLRHCCVDDRSGKMGYSVKFLVLTRMDTETASLFHCKPCYSKMTFTIYHPLTHSFFTSCW" [] ["CCO-CYTOSOL"] +"G6564-MONOMER" "DUF1425 domain-containing protein YcfL" ["YcfL"] "MRKGCFGLVSLVLLLLVGCRSHPEIPVNDEQSLVMESSLLAAGISAEKPFLSTSDIQPSASSTLYNERQEPVTVHYRFYWYDARGLEMHPLERPRSVTIPAHSAVTLYGSANFLGAHKVRLYLYL" [] ["CCO-MEMBRANE"] +"G6565-MONOMER" "outer membrane lipoprotein - activator of MrcB activity" ["LpoB", "YcfM"] "MTKMSRYALITALAMFLAGCVGQREPAPVEEVKPAPEQPAEPQQPVPTVPSVPTIPQQPGPIEHEDQTAPPAPHIRHYDWNGAMQPMVSKMLGADGVTAGSVLLVDSVNNRTNGSLNAAEATETLRNALANNGKFTLVSAQQLSMAKQQLGLSPQDSLGTRSKAIGIARNVGAHYVLYSSASGNVNAPTLQMQLMLVQTGEIIWSGKGAVSQQ" ["CCO-OUTER-MEM"] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"G6567-MONOMER" "β-N-acetylhexosaminidase" ["YcfO", "NagZ", "hexosaminidase"] "MGPVMLDVEGYELDAEEREILAHPLVGGLILFTRNYHDPAQLRELVRQIRAASRNRLVVAVDQEGGRVQRFREGFTRLPAAQSFAALSGMEEGGKLAQEAGWLMASEMIAMDIDISFAPVLDVGHISAAIGERSYHADPQKALAIASRFIDGMHEAGMKTTGKHFPGHGAVTADSHKETPCDPRPQAEIRAKDMSVFSSLIRENKLDAIMPAHVIYSDVDPRPASGSPYWLKTVLRQELGFDGVIFSDDLSMEGAAIMGSYAERGQASLDAGCDMILVCNNRKGAVSVLDNLSPIKAERVTRLYHKGSFSRQELMDSARWKAISTRLNQLHERWQEEKAGH" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G6568-MONOMER" "PF05728 family protein YcfP" ["YcfP", "UPF0227 protein YcfP"] "MIIYLHGFDSNSPGNHEKVLQLQFIDPDVRLISYSTRHPKHDMQHLLKEVDKMLQLNVDERPLICGVGLGGYWAERIGFLCDIRQVIFNPNLFPYENMEGKIDRPEEYADIATKCVTNFREKNRDRCLVILSRNDEALNSQRTSEELHHYYEIVWDEEQTHKFKNISPHLQRIKAFKTLG" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G6569-MONOMER" "DNA-binding transcriptional repressor ComR" ["ComR", "YcfQ"] "MATDSTQCVKKSRGRPKVFDRDAALDKAMKLFWQHGYEATSLADLVEATGAKAPTLYAEFTNKEGLFRAVLDRYIDRFAAKHEAQLFCEEKSVESALADYFAAIANCFTSKDTPAGCFMINNCTTLSPDSGDIANTLKSRHAMQERTLQQFLCQRQARGEIPPHCDVTHLAEFLNCIIQGMSISAREGASLEKLMQIAGTTLRLWPELVK" [] ["CCO-CYTOSOL"] +"G6570-MONOMER" "DUF1471 domain-containing multiple stress resistance outer membrane protein BhsA" ["ComC", "YcfR", "BhsA", "outer membrane protein involved in copper permeability, stress resistance and biofilm formation"] "MKNVKTLIAAAILSSMSFASFAAVEVQSTPEGQQKVGTISANAGTNLGSLEEQLAQKADEMGAKSFRITSVTGPNTLHGTAVIYK" ["CCO-OUTER-MEM"] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"G6571-MONOMER" "L,D-transpeptidase LdtC" ["LdtC", "YcfS"] "MMIKTRFSRWLTFFTFAAAVALALPAKANTWPLPPAGSRLVGENKFHVVENDGGSLEAIAKKYNVGFLALLQANPGVDPYVPRAGSVLTIPLQTLLPDAPREGIVINIAELRLYYYPPGKNSVTVYPIGIGQLGGDTLTPTMVTTVSDKRANPTWTPTANIRARYKAQGIELPAVVPAGLDNPMGHHAIRLAAYGGVYLLHGTNADFGIGMRVSSGCIRLRDDDIKTLFSQVTPGTKVNIINTPIKVSAEPNGARLVEVHQPLSEKIDDDPQLLPITLNSAMQSFKDAAQTDAEVMQHVMDVRSGMPVDVRRHQVSPQTL" [] ["CCO-PERI-BAC"] +"G6572-MONOMER" "inner membrane protein YcfT" ["YcfT"] "MKQKELWINQIKGLCICLVVIYHSVITFYPHLTTFQHPLSEVLSKCWIYFNLYLAPFRMPVFFFISGYLIRRYIDSVPWGNCLDKRIWNIFWVLALWGVVQWLALSALNQWLAPERDLSNASNAAYADSTGEFLHGMITASTSLWYLYALIVYFVVCKIFSRLALPLFALFVLLSVAVNFVPTPWWGMNSVIRNLPYYSLGAWFGATIMTCVKEVPLRRHLLMASLLTVLAVGAWLFTISLLLSLVSIVVIMKLFYQYEQRFGMRSTSLLNVIGSNTIAIYTTHRILVEIFSLTLLAQMNAARWSPQVELTLLLVYPFVSLFICTVAGLLVRKLSQRAFSDLLFSPPSLPAAVSYSR" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6576-MONOMER" "N-acetyl-D-glucosamine kinase" ["YcfX", "NagK"] "MYYGFDIGGTKIALGVFDSGRQLQWEKRVPTPRDSYDAFLDAVCELVAEADQRFGCKGSVGIGIPGMPETEDGTLYAANVPAASGKPLRADLSARLDRDVRLDNDANCFALSEAWDDEFTQYPLVMGLILGTGVGGGLIFNGKPITGKSYITGEFGHMRLPVDALTMMGLDFPLRRCGCGQHGCIENYLSGRGFAWLYQHYYHQPLQAPEIIALYDQGDEQARAHVERYLDLLAVCLGNILTIVDPDLVVIGGGLSNFPAITTQLADRLPRHLLPVARVPRIERARHGDAGGMRGAAFLHLTD" [] ["CCO-CYTOSOL"] +"G6577-MONOMER" "protein-lysine deacetylase/desuccinylase/lipoamidase" ["YcfY", "CobB", "CobB-L"] "MLSRRGHRLSRFRKNKRRLRERLRQRIFFRDKVVPEAMEKPRVLVLTGAGISAESGIRTFRAADGLWEEHRVEDVATPEGFDRDPELVQAFYNARRRQLQQPEIQPNAAHLALAKLQDALGDRFLLVTQNIDNLHERAGNTNVIHMHGELLKVRCSQSGQVLDWTGDVTPEDKCHCCQFPAPLRPHVVWFGEMPLGMDEIYMALSMADIFIAIGTSGHVYPAAGFVHEAKLHGAHTVELNLEPSQVGNEFAEKYYGPASQVVPEFVEKLLKGLKAGSIA" [] ["CCO-CYTOSOL"] +"G6578-MONOMER" "putative inner membrane protein" ["YcfZ"] "MKKFIILLSLLILLPLTAASKPLIPIMKTLFTDVTGTVPDAEEIAHKAELFRQQTGIAPFIVVLPDINNEASLRQNGKAMLAHASSSLSDVKGSVLLLFTTREPRLIMITNGQVESGLDDKHLGLLIENHTLAYLNADLWYQGINNALAVLQAQILKQSTPPLTYYPHPGQQHENAPPGSTNTLGFIAWAATFILFSRIFYYTTRFIYALKFAVAMTIANMGYQALCLYIDNSFAITRISPLWAGLIGVCTFIAALLLTSKR" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6579-MONOMER" "putative inner membrane protein YmfA" ["YmfA"] "MSQDSKVFFRIFLGIGLVLILISVVVFYNQFTYSKDAIHTEGVIVDTVWHSSHSHRTGKDGSWYPVVAFRPTPDYTLIFNSSIGSDFYEDSEGDKVNVYYSPGHPEKAEINNPWVNFFKWGFIGIMGVIFIAVGLLISMPSSKKSRRKRKSRP" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6580-MONOMER" "phosphatase NudJ" ["YmfB", "NudJ"] "MFKPHVTVACVVHAEGKFLVVEETINGKALWNQPAGHLEADETLVEAAARELWEETGISAQPQHFIRMHQWIAPDKTPFLRFLFAIELEQICPTQPHDSDIDCCRWVSAEEILQASNLRSPLVAESIRCYQSGQRYPLEMIGDFNWPFTKGVI" [] ["CCO-CYTOSOL"] +"G6581-MONOMER" "23S rRNA pseudouridine2457 synthase" ["RluE", "YmfC", "ribosomal large subunit pseudouridine synthase E"] "MRQFIISENTMQKTSFRNHQVKRFSSQRSTRRKPENQPTRVILFNKPYDVLPQFTDEAGRKTLKEFIPVQGVYAAGRLDRDSEGLLVLTNNGALQARLTQPGKRTGKIYYVQVEGIPTQDALEALRNGVTLNDGPTLPAGAELVDEPAWLWPRNPPIRERKSIPTSWLKITLYEGRNRQVRRMTAHVGFPTLRLIRYAMGDYSLDNLANGEWREVTD" [] ["CCO-CYTOSOL"] +"G6582-MONOMER" "e14 prophage; putative SAM-dependent methyltransferase YmfD" ["YmfD"] "MVLALNYNMHGVNIRSENAAKPHTMPSRYLCEYIRSIEKNGHALDFGCGKLRYSDELISKFDEVTFLDSKRQLEREQIIRGIKTKIIDYVPRYYKNANTVAFEDVDKIIGGYDFILCSNVLSAVPCRDTIDKIVLSIKRLLKSGGETLIVNQYKSSYFKKYETGRKHLYGYIYKNSKSVSYYGLLDELAVQEICSSHGLEILKSWSKAGSSYVTVGSCNAI" [] ["CCO-CYTOSOL"] +"G6583-MONOMER" "e14 prophage; uncharacterized protein YmfE" ["YmfE", "e14 prophage; putative inner membrane protein"] "MNNMFEPPKNYNEMLPKLHKATFLNTLIYCILLVIYEYIPLITLPTKYVPPIKDHESFINWALSFGILPCAFAIFAYLISGALDLHNNAAKLLRVRYLWDKHLIIKPLSRRAGVNRKLNKDEAHNVMSNLYYPEVRKIEDKHYIELFWNKVYYFWIFFEFSIIALISFLIIFFCKQMDIFHVEGSLLSLFFFVILSFSVSGIIFALTVKPRTESQVGKIPDDKIKEFFTKNNIN" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6585-MONOMER" "e14 prophage; putative excisionase" ["YmfG", "XisE"] "MLQMLTLEEWAAEKYRSNPPSVSTLRRYAKQNLFCPPAMKQGRLWRVREDAELVGELVTPVIKKNDSLLLQRILSNGSQTA" [] ["CCO-CYTOSOL"] +"G6586-MONOMER" "e14 prophage; putative protein YmfH" ["YmfH"] "MVNAAQRTRVKVEADNRPSVDTHPPGVQPSPGTGGTRHHNFMLCVVLAVPVFSLVLSGTALFTKQRRVSPDDGLITRPILIAVATGALLCFVEKLTDRAGSIC" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"G6587-MONOMER" "e14 prophage; uncharacterized protein YmfI" ["YmfI"] "MNQFYVHVRLFEDTAEQTKKFEELMLNFLYQKTVKESDDSCCRLIPEGYILKSTMNCQQILDQTFSIANSAGVDANIFVCKFEQSACLLPSASLVGNDFVHYDLTPKPIKLDS" [] ["CCO-CYTOSOL"] +"G6588-MONOMER" "e14 prophage; uncharacterized protein YmfJ" ["YmfJ"] "MNEQNLKHVIALLLEDAKRLQQIEPNAGTEARILLAKQALKTCGAQAPGRTEFMNFMANTLTPLPCNGEKVSRVYHDTMVKALRIELDGLRRKIVMNEIVTN" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G6589-MONOMER" "e14 prophage; putative repressor protein YmfK" ["CohE", "YmfK"] "MKTIHDIRRSNARKLRDGVGGNSSFATMIDREPTQTSRFMGDGATKNIGDSMARHIEKCFDLPVGWLDQEHQTTNITKKPDVSITNKQITLVPVISWVQAGAWKEVGYSEVDLSTAETYPCPVPCGEMTYILRVIGDSMIDEYRPGDMIFVDPEVPACHGDDVIALMHDTGETTFKRLIEDGTQRYLKALNPNWPEPYIKINGNCSIIGTVIFSGKPRRYKIKA" [] ["CCO-CYTOSOL"] +"G6590-MONOMER" "e14 prophage; putative DNA-binding transcriptional regulator YmfT" ["CroE", "YmfT"] "MKAYWDSLTKEQQGELAGKVGSTPGYLRLVFNGYKKASFVLAKKLEQYTSGAITKSDLRPDIYPKD" [] ["CCO-CYTOSOL"] +"G6591-MONOMER" "e14 prophage; uncharacterized protein YmfL" ["YmfL", "e14 prophage; putative DNA-binding transcriptional regulator"] "MGKHHWKIEKQPEWYVKAVRKTIAALPSGYAEAADWLDVTENALFNRLRADGDQIFPLGWAMVLQRAGGTHFIADAVAQSANGVFVSLPDVEDVDNADINQRLLEVIEQIGSYSKQIRSAIEDGVVEPHEKTAINDELYLSISKLQEHAALVYKIFCISESNDARECAAPGVVASIASGCGETNA" [] ["CCO-CYTOSOL"] +"G6592-MONOMER" "e14 prophage; uncharacterized protein YmfM" ["YmfM"] "MNSLTTHYRRSQLIALPVPGGKAKVEYCYAVNVPGDREIVTHSFAEWAVGDFNRQKETVLCDKLTAGSKITTECPSESFVGSRKHNGLSTSAKVMSMNASARSNSFVVNSGK" [] ["CCO-CYTOSOL"] +"G6593-MONOMER" "e14 prophage; chimeric replication protein/phage terminase YmfN" ["YmfN", "e14 prophage; putative DNA-binding transcriptional regulator", "e14 prophage; phage terminase-like protein YmfN"] "MSTKLTGYVWDGCAASGMKLSSVAIMARLADFSNDEGVCWPSIETIARQIGAGMSTVRTAIARLEAEGWLTRKARRQGDGSSPHCAVVDEYHEHATDALYTTMLTGMGARRQPLMWAITTAGYNIEGPCYDKRREVIEMLNGSVPNDELFGIIYTVDEGDDWTDPQVLEKANPNIGVSVYREFLLSQQQRAKNNARLANVFKTKHLNIWASARSAYFNLVSWQSCEDKSLTLEQFEGQPCILAFDLARKLDMNSMARLYTREIDGKTHYYSVAPRFWVPYDTVYSVEKNEDRRTAERFQKWVEMGVLTVTDGAEVDYRYILEEAKAANKISPVSESPIDPFGATGLSHDLADEDLNPVTIIQNYTNMSDPMKELEAAIESGRFHHDGNPIMTWCIGNVVGKTIPGNDDVVKPVKEQAENKIDGAVALIMAVGRAMLYEKEDTLSDHIESYGIRSL" [] ["CCO-CYTOSOL"] +"G6594-MONOMER" "e14 prophage; IPR020297 domain-containing protein YmfR" ["YmfR"] "MIMLILAPLVGVLGALLLAYGAWLIYPPAGFVVAGALCLFWSWLVARYLDRTQSSVGGGK" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6595-MONOMER" "e14 prophage; protein BeeE" ["BeeE", "YmfO"] "MFFSGLFQRKSDAPVTTPAELADAIGLSYDTYTGKQISSQRAMRLTAVFSCVRVLAESVGMLPCNLYHLNGSLKQRATGERLHKLISTHPNGYMTPQEFWELVVTCLCLRGNFYAYKVKAFGEVAELLPVDPGCVVYALGRCQRWPEGDRRECYSAR" [] ["CCO-CYTOSOL"] +"G6596-MONOMER" "e14 prophage; putative protein JayE" ["JayE", "YmfP"] "MWYMRWEGVSDGLKVTAGSVIQRDDLVQYTTTDDATSSGGVLRVPIACSSAGAVGNADDGTALILVTPVNGLPSSGVADTLTGGFDTEELETWRARVIERYYWTPQGGADGDYVVWAKEVPGITRAWTYRHLMGTGTVGVMIASSDLINPIPEESTETAARQHIGPLAPVAGSDLYVFRPVAHTVDFHIRVTPDTPEIRAAITAELRSFLLRDGYPQGELKVSRISEAISGANGEYSHQLLAPVDNISIAKNELAVLGTISWT" [] ["CCO-CYTOSOL"] +"G6597-MONOMER" "e14 prophage; DUF2313 domain-containing protein YmfQ" ["YmfQ"] "MDVTNDDYIRLLSALLPPGPVWSASDPAIAGAAPSLTRVHQRADALMRELDPRTTTELINRWERLCGLPDECIPAGTQTLRQRQQRLDAKVNLAGGINEDFYLAQLAALGRPDATITRYDKSTFTCSSACTDAVNAPEWRYYWQVNMPATTNSTWMTCGDPCDSALRIWGDTVVECVLNKLCPSHTYVIFKYPE" [] ["CCO-PERI-BAC"] +"G6598-MONOMER" "e14 prophage; putative tail fiber assembly protein TfaP" ["TfaP", "YmfS"] "MKIYCCLNTVGFFMDGCGVIPPDSKEITAEHWQSLLKSQAEGGVIDFSVFPPSIKEVIRTHDDEVADANFQKQMLISDATDFINSRQWQGKAALGRLKEDELKQYNLWLDYLEALELVDTSSAPDIEWPTPPAVQAR" [] ["CCO-CYTOSOL"] +"G6599-MONOMER" "e14 prophage; putative side tail fiber protein fragment" ["YcfE", "StfE"] "MPFACYFFIFINVGLGEGSALPVGVPVPWPSATPPTGWLKCNGAAFSAEEYPELAKAYPTNKLPDLRGEFIRGWDDGRGIDTGRSILSIQGYATEDHAHGLPSRSTIVTDATINFYFDEIWVNSGTDIIKRGNTNDAGLPAPDYGTFKTYKQSVDGLGAAASETRPRNIAFNYIVRAA" [] ["CCO-CYTOSOL"] +"G6600-MONOMER" "anti-adaptor protein IraM, inhibitor of σS proteolysis" ["ElbA", "YcgW", "IraM"] "MKWIVIDTVIQPTCGISFSAIWGNMKMIIWYQSTIFLPPGSIFTPVKSGIILKDKEYPITIYHIAPFNKDLWSLLKSSQECPPGESKITNKCLHNSCIIKICPYGLK" [] ["CCO-CYTOSOL"] +"G6601-MONOMER" "DUF1398 domain-containing protein YcgX" ["YcgX"] "MDQVVVFQKMFEQVRKEQNFSWFYSELKHHRIAHYIYYLATDNIRIITHDDTVLLLRGTRNLLKVSTTKNPAKIKEAALLHICGKSTFREYCSTLAGAGVFRWVTDVNHNKRSYYAIDNTLLYIEDVENNKPLI" [] ["CCO-CYTOSOL"] +"G6602-MONOMER" "DNA-binding transcriptional repressor BluR" ["BluR", "YcgE"] "MAYYSIGDVAERCGINPVTLRAWQRRYGLLKPQRSEGGHRLFDEEDIQRIEEIKRWISNGVPVGKVKALLETTSQDTEDDWSRLQEEMMSILRMANPAKLRARIISLGREYPVDQLINHVYLPVRQRLVLDHNTSRIMSSMFDGALIEYAATSLFEMRRKPGKEAILMAWNVEERARLWLEAWRLSLSGWHISVLADPIESPRPELFPTQTLIVWTGMAPTRRQNELLQHWGEQGYKVIFHAP" [] ["CCO-CYTOSOL"] +"G6603-MONOMER" "blue light- and temperature-regulated antirepressor BluF" ["BluF", "YcgF", "Blrp", "blue light-responsive regulator of BluR"] "MLTTLIYRSHIRDDEPVKKIEEMVSIANRRNMQSDVTGILLFNGSHFFQLLEGPEEQVKMIYRAICQDPRHYNIVELLCDYAPARRFGKAGMELFDLRLHERDDVLQAVFDKGTSKFQLTYDDRALQFFRTFVLATEQSTYFEIPAEDSWLFIADGSDKELDSCALSPTINDHFAFHPIVDPLSRRIIAFEAIVQKNEDSPSAIAVGQRKDGEIYTADLKSKALAFTMAHALELGDKMISINLLPMTLVNEPDAVSFLLNEIKANALVPEQIIVEFTESEVISRFDEFAEAIKSLKAAGISVAIDHFGAGFAGLLLLSRFQPDRIKISQELITNVHKSGPRQAIIQAIIKCCTSLEIQVSAMGVATPEEWMWLESAGIEMFQGDLFAKAKLNGIPSIAWPEKK" [] ["CCO-PM-BAC-NEG"] +"G6604-MONOMER" "putative two-component system connector protein YcgZ" ["YcgZ"] "MHQNSVTLDSAGAITRYFAKANLHTQQETLGEIVTEILKDGRNLSRKSLCAKLLCRLEHATGEEEQKHYNALIGLLFE" [] ["CCO-CYTOSOL"] +"G6605-MONOMER" "putative two-component system connector protein YmgA" ["YmgA", "protein involved in biofilm formation"] "MKTSDNERIKYEITGQAVLQILRMKINFSLQTLIKQLLVMKSAEEDAFRRDLIDSIIRDFSNSDSGGPNRRTATADNKSMFNGKKINRIH" [] ["CCO-CYTOSOL"] +"G6606-MONOMER" "putative two-component system connector protein AriR" ["YmgB", "AriR", "regulator of acid resistance, influenced by indole"] "MLEDTTIHNAITDKALASYFRSSGNLLEEESAVLGQAVTNLMLSGDNVNNKNIILSLIHSLETTSDILKADVIRKTLEIVLRYTADDM" [] ["CCO-CYTOSOL"] +"G6607-MONOMER" "protein YmgC" ["YmgC", "protein involved in biofilm formation"] "MNNSIPERFIFQCALFKNLEREVFMTHGYVDSHIIDQALRLRLKDETSVILSDLYLQILQYIEMHKTTLTDIIINDRESVLS" [] ["CCO-CYTOSOL"] +"G6608-MONOMER" "putative c-di-GMP phosphodiesterase PdeG" ["PdeG", "YcgG"] "MRNTLIPILVAICLFITGVAILNIQLWYSAKAEYLAGARYAANNINHILEEASQATQTAVNIAGKECNLEEQYQLGTEAALKPHLRTIIILKQGIVWCTSLPGNRVLLSRIPVFPDSNLLLAPAIDTVNRLPILLYQNQFADTRILVTISDQHIRGALNVPLKGVRYVLRVADDIIGPTGDVMTLNGHYPYTEKVHSTKYHFTIIFNPPPLFSFYRLIDKGFGILIFILLIACAAAFLLDRYFNKSATPEEILRRAINNGEIVPFYQPVVNGREGTLRGVEVLARWKQPHGGYISPAAFIPLAEKSGLIVPLTQSLMNQVARQMNAIASKLPEGFHIGINFSASHIISPTFVDECLNFRDSFTRRDLNLVLEVTEREPLNVDESLVQRLNILHENGFVIALDDFGTGYSGLSYLHDLHIDYIKIDHSFVGRVNADPESTRILDCVLDLARKLSISIVAEGVETKEQLDYLNQNYITFQQGYYFYKPVTYIDLVKIILSKPKVKVVVE" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PERI-BAC", "CCO-PM-BAC-NEG", "CCO-CYTOSOL"] +"G6609-MONOMER" "putative transporter component, N-terminal fragment" ["YcgH", "YcgH_1"] "MKLKKLPGFSLGLIALAVGNAYATQLLDDYSIISYMTDEESPIEIKDNNPISNGEYLTTEDESHAVKVDDGVTGYINNASVMTSGDGSYGISVDSQNKVLYISDSDIKTSGSVSDKENGGITASAVVSEFGGTIFMNGDNSVESGGAYSAGLLSQVNDSEKMVNNTRLETTDKTNIVTSGENAVGVLACSSPGESRTCVDAVDDEVSDSNSYEVISRADLKMNGGSITTNGINSYGAYANGKKAYINLDYVALETVADGSYAVAIRQGNIDIKNSSITTTGTKAPIAKIYNGGELFFSNVTAVSKQDKGISIDASNIDSQAKIALLSVELSSALDSIDVNKTTTDVSILNRSIITPGNNVLVNNTGGDLNIISSDSILNGATKLVSGTTTLKLSENTIWNMKDDSVVTHLTNSDSIINLSYDDGQTFTQGKTLTVKGNYVGNNGQLNIRTVLGDDKSATDRLIVEGNTSGSTTVYVKNAGGSGAATLNGIELITVNGDESPADAFR*GDARIAAGAFEYQLKQQGKNWYLTSYQSVNEEDNSSEGNSESTETPTPVLRPEAGSYVANLAAANTLFVMRLNDRAGETRYIDPVTEQERSSRLWLRQIGGHNAWRDSNGQLRTTSHRYVSQLGGDLLTGGFTDSDSWRLGVMAGYARDYNLTHSSVSDYRSKGSVRGYSAGLYATWFADDISKKGAYIDSWAQYSWFKNSVKGDELAYESYSAKGATVSLEAGYGFALNKSFGLEAAKYTWIFQPQAQAIWMGVDHNAHTEANGSRIENDANNNIQTRLGFRTFIRTQEKNSGPHGDDFEPFVEMNWIHNSKDFAVSMNGVKVEQDGASNLGEIKLGVNGNLNPAASVWGMWACSWVIMATMTPQ*WWA*NIS" [] [] +"G6611-MONOMER" "PF16456 family protein YmgD" ["YmgD"] "MKKFALLAGLFVFAPMTWAQDYNIKNGLPSETYITCAEANEMAKTDSAQVAEIVAVMGNASVASRDLKIEQSPELSAKVVEKLNQVCAKDPQMLLITAIDDTMRAIGKK" [] [] +"G6612-MONOMER" "PF13436 family protein YmgG" ["YmgG"] "MKKKILAFGLISALFCSTPAMADMNRTTKGALLGAGVGLLTGNGVNGVLKGAAVGAGVGAVTEKGRDGKNARKGAKVGAAVGAVTGVLTGNGLEGAIKGAVIGGTGGAILGKMK" [] ["CCO-MEMBRANE"] +"G6614-MONOMER" "PF05666 family protein YcgJ" ["YcgJ"] "MNMMRIFYIGLSGVGMMFSSMASGNDAGGLQSPACGVVCDPYICVNSDGISPELTRKYLGEKAAENLQSLQGYDPSEFTFANGVFCDVKEKLCRDDRYFGVDGKRSGKINQTTTKMLFMCRE" [] ["CCO-CYTOSOL"] +"G6615-MONOMER" "inhibitor of g-type lysozyme" ["PliG", "YcgK"] "MKIKSIRKAVLLLALLTSTSFAAGKNVNVEFRKGHSSAQYSGEIKGYDYDTYTFYAKKGQKVHVSISNEGADTYLFGPGIDDSVDLSRYSPELDSHGQYSLPASGKYELRVLQTRNDARKNKTKKYNVDIQIK" ["CCO-CYTOSOL", "CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"G6616-MONOMER" "PF05166 family protein YcgL" ["YcgL"] "MPKPGILKSKSMFCVIYRSSKRDQTYLYVEKKDDFSRVPEELMKGFGQPQLAMILPLDGRKKLVNADIEKVKQALTEQGYYLQLPPPPEDLLKQHLSVMGQKTDDTNK" [] ["CCO-CYTOSOL"] +"G6617-MONOMER" "putative isomerase/hydrolase" ["YcgM"] "MYQHHNWQGALLDYPVSKVVCVGSNYAKHIKEMGSAVPEEPVLFIKPETALCDLRQPLAIPSDFGSVHHEVELAVLIGATLRQATEEHVRKAIAGYGVALDLTLRDVQGKMKKAGQPWEKAKAFDNSCPLSGFIPAAEFTGDPQNTTLSLSVNGEQRQQGTTADMIHKIVPLIAYMSKFFTLKAGDVVLTGTPDGVGPLQSGDELTVTFDGHSLTTRVL" [] ["CCO-CYTOSOL"] +"G6618-MONOMER" "putative metal-chelating domain-containing protein YcgN" ["YcgN", "PF03692 family protein YcgN"] "MAEHLMSDVPFWQSKTLDEMSDAEWESLCDGCGQCCLHKLMDEDTDEIYFTNVACRQLNIKTCQCRNYERRFEFEPDCIKLTRENLPTFEWLPMTCAYRLLAEGKDLPAWHPLLTGSKAAMHGERISVRHIAVKESEVIDWQDHILNKPDWAQ" [] ["CCO-CYTOSOL"] +"G6619-MONOMER" "hemolysin E" ["YcgD", "Hpr", "SheA", "ClyA", "HlyE"] "MTEIVADKTVEVVKNAIETADGALDLYNKYLDQVIPWQTFDETIKELSRFKQEYSQAASVLVGDIKTLLMDSQDKYFEATQTVYEWCGVATQLLAAYILLFDEYNEKKASAQKDILIKVLDDGITKLNEAQKSLLVSSQSFNNASGKLLALDSQLTNDFSEKSSYFQSQVDKIRKEAYAGAAAGVVAGPFGLIISYSIAAGVVEGKLIPELKNKLKSVQNFFTTLSNTVKQANKDIDAAKLKLTTEIAAIGEIKTETETTRFYVDYDDLMLSLLKEAAKKMINTCNEYQKRHGKKTLFEVPEV" ["CCO-EXTRACELLULAR", "CCO-PERI-BAC"] ["CCO-MEMBRANE", "CCO-EXTRACELLULAR", "CCO-PERI-BAC"] +"G6621-MONOMER" "murein L,D-carboxypeptidase" ["YcgQ", "LdcA"] "MSLFHLIAPSGYCIKQHAALRGIQRLTDAGHQVNNVEVIARRCERFAGTETERLEDLNSLARLTTPNTIVLAVRGGYGASRLLADIDWQALVARQQHDPLLICGHSDFTAIQCGLLAHGNVITFSGPMLVANFGADELNAFTEHHFWLALRNETFTIEWQGEGPTCRAEGTLWGGNLAMLISLIGTPWMPKIENGILVLEDINEHPFRVERMLLQLYHAGILPRQKAIILGSFSGSTPNDYDAGYNLESVYAFLRSRLSIPLITGLDFGHEQRTVTLPLGAHAILNNTREGTQLTISGHPVLKM" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G6622-MONOMER" "lytic murein transglycosylase E" ["YcgP", "SltZ", "EmtA", "MltE"] "MKLRWFAFLIVLLAGCSSKHDYTNPPWNAKVPVQRAMQWMPISQKAGAAWGVDPQLITAIIAIESGGNPNAVSKSNAIGLMQLKASTSGRDVYRRMGWSGEPTTSELKNPERNISMGAAYLNILETGPLAGIEDPKVLQYALVVSYANGAGALLRTFSSDRKKAISKINDLDADEFLEHVARNHPAPQAPRYIYKLEQALDAM" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE", "CCO-OUTER-MEM"] +"G6623-MONOMER" "flagellar brake protein YcgR" ["YcgR", "molecular brake that regulates flagellar motility in response to c-di-GMP"] "MSHYHEQFLKQNPLAVLGVLRDLHKAAIPLRLSWNGGQLISKLLAITPDKLVLDFGSQAEDNIAVLKAQHITITAETQGAKVEFTVEQLQQSEYLQLPAFITVPPPTLWFVQRRRYFRISAPLHPPYFCQTKLADNSTLRFRLYDLSLGGMGALLETAKPAELQEGMRFAQIEVNMGQWGVFHFDAQLISISERKVIDGKNETITTPRLSFRFLNVSPTVERQLQRIIFSLEREAREKADKVRD" [] ["CCO-CYTOSOL", "CCO-CELL-PROJECTION"] +"G6624-MONOMER" "PF04226 family protein YmgE" ["Tag", "YmgE"] "MGIIAWIIFDLIAGIIAKLIMPGRDGGGFFLTCILGIVGAVVGGWLATMFGIGGSISGFNLHSFLVAVVGAILVLGIFRLLRRE" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6625-MONOMER" "uncharacterized protein YcgY" ["YcgY"] "MIQKINILDSSQSGVKNGADSEAVLAALIEHLELINPSGRLSQNTRSAMLQLREEEWSEFFFWLLNSLECLDYVIINLTPESKKTLMSEHRNNIQVAIDALYSQRRRKSPGDESETLTRRNDAIFGNHVWQTFAQYFPPGLEKPSV" [] ["CCO-CYTOSOL"] +"G6627-MONOMER" "dihydroxyacetone kinase subunit K" ["YcgT", "DhaK"] "MKKLINDVQDVLDEQLAGLAKAHPSLTLHQDPVYVTRADAPVAGKVALLSGGGSGHEPMHCGYIGQGMLSGACPGEIFTSPTPDKIFECAMQVDGGEGVLLIIKNYTGDILNFETATELLHDSGVKVTTVVIDDDVAVKDSLYTAGRRGVANTVLIEKLVGAAAERGDSLDACAELGRKLNNQGHSIGIALGACTVPAAGKPSFTLADNEMEFGVGIHGEPGIDRRPFSSLDQTVDEMFDTLLVNGSYHRTLRFWDYQQGSWQEEQQTKQPLQSGDRVIALVNNLGATPLSELYGVYNRLTTRCQQAGLTIERNLIGAYCTSLDMTGFSITLLKVDDETLALWDAPVHTPALNWGK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G6628-MONOMER" "DNA-binding transcriptional dual regulator DhaR" ["YcgU", "DhaR"] "MSGAFNNDGRGISPLIATSWERCNKLMKRETWNVPHQAQGVTFASIYRRKKAMLTLGQAALEDAWEYMAPRECALFILDETACILSRNGDPQTLQQLSALGFNDGTYCAEGIIGTCALSLAAISGQAVKTMADQHFKQVLWNWAFCATPLFDSKGRLTGTIALACPVEQTTAADLPLTLAIAREVGNLLLTDSLLAETNRHLNQLNALLESMDDGVISWDEQGNLQFINAQAARVLRLDATASQGRAITELLTLPAVLQQAIKQAHPLKHVEATFESQHQFIDAVITLKPIIETQGTSFILLLHPVEQMRQLMTSQLGKVSHTFAHMPQDDPQTRRLIHFGRQAARSSFPVLLCGEEGVGKALLSQAIHNESERAAGPYIAVNCELYGDAALAEEFIGGDRTDNENGRLSRLELAHGGTLFLEKIEYLAVELQSALLQVIKQGVITRLDARRLIPIDVKVIATTTADLAMLVEQNRFSRQLYYALHAFEITIPPLRMRRGSIPALVNNKLRSLEKRFSTRLKIDDDALARLVSCAWPGNDFELYSVIENLALSSDNGRIRVSDLPEHLFTEQATDDVSATRLSTSLSFAEVEKEAIINAAQVTGGRIQEMSALLGIGRTTLWRKMKQHGIDAGQFKRRV" [] ["CCO-CYTOSOL"] +"G6629-MONOMER" "putative autotransporter adhesin YcgV" ["YcgV"] "MGIKQHNGNTKADRLAELKIRSPSIQLIKFGAIGLNAIIFSPLLIAADTGSQYGTNITINDGDRITGDTADPSGNLYGVMTPAGNTPGNINLGNDVTVNVNDASGYAKGIIIQGKNSSLTANRLTVDVVGQTSAIGINLIGDYTHADLGTGSTIKSNDDGIIIGHSSTLTATQFTIENSNGIGLTINDYGTSVDLGSGSKITTDGSTGVYIGGLNGNNANGAARFTATDLTIDVQGYSAMGINVQKNSVVDLGTNSTIKTNGDNAHGLWSFGQVSANALTVDVTGAAANGVEVRGGTTTIGADSHISSAQGGGLVTSGSDAIINFTGTAAQRNSIFSGGSYGASAQTATAVVNMQNTDITVDRNGSLALGLWALSGGRITGDSLAITGAAGARGIYAMTNSQIDLTSDLVIDMSTPDQMAIATQHDDGYAASRINASGRMLINGSVLSKGGLINLDMHPGSVWTGSSLSDNVNGGKLDVAMNNSVWNVTSNSNLDTLALSHSTVDFASHGSTAGTFATLNVENLSGNSTFIMRADVVGEGNGVNNKGDLLNISGSSAGNHVLAIRNQGSEATTGNEVLTVVKTTDGAASFSASSQVELGGYLYDVRKNGTNWELYASGTVPEPTPNPEPTPAPAQPPIVNPDPTPEPAPTPKPTTTADAGGNYLNVGYLLNYVENRTLMQRMGDLRNQSKDGNIWLRSYGGSLDSFASGKLSGFDMGYSGIQFGGDKRLSDVMPLYVGLYIGSTHASPDYSGGDGTARSDYMGMYASYMAQNGFYSDLVIKASRQKNSFHVLDSQNNGVNANGTANGMSISLEAGQRFNLSPTGYGFYIEPQTQLTYSHQNEMTMKASNGLNIHLNHYESLLGRASMILGYDITAGNSQLNVYVKTGAIREFSGDTEYLLNNSREKYSFKGNGWNNGVGVSAQYNKQHTFYLEADYTQGNLFDQKQVNGGYRFSF" [] ["CCO-EXTRACELLULAR", "CCO-MEMBRANE"] +"G6630-MONOMER" "SirB family protein YchQ" ["YchQ"] "MTSFSTLLSVHLISIALSVGLLTLRFWLRYQKHPQAFARWTRIVPPVVDTLLLLSGIALMAKAHILPFSGQAQWLTEKLFGVIIYIVLGFIALDYRRMHSQQARIIAFPLALVVLYIIIKLATTKVPLLG" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6631-MONOMER" "putative uncharacterized protein YchS" ["YchS"] "MVVGEGLLSAARFALRVVACGNALSLALKSNLGRSFSSFPAWAEYLIADSFENSGAFESDGGGGRITQRCALRPSGRCLRQRSLADARAEP" [] ["CCO-MEMBRANE"] +"G6632-MONOMER" "putative transposase InsZ" ["InsZ", "YchG"] "MPLLNDLLDFSDHPLMPPPSAQLFAEHLPTEWIQHCLTLSAHATVRRRRLPGDMVIWMVVQ*ANYRCCSPSEPERGWRSGDEPAGPQRCHPGASARGGRPSGMALPPDRTDRGAERYLKDDWHGLQLFAIDGAQFRTPDKPELREYYGSANTSTKRQNAYPVMRLVALMNLGSHILLNAVTAPYRQSETVLAHSMLATIPDNSITLFDKLFYSEDLLLTLNQKGCNRHWLLPAWKNIASEMIELGNTASPGTIPKRLEHLRGALEVVFITKRPRPSRPRSVKISKTRYPVKHSAAPLK" [] [] +"G6633-MONOMER" "DUF440 domain-containing protein YciU" ["YciU"] "MDMDLNNRLTEDETLEQAYDIFLELAADNLDPADVLLFNLQFEERGGAELFDPAEDWQEHVDFDLNPDFFAEVVIGLADSEDGEINDVFARILLCREKDHKLCHIIWRE" [] ["CCO-CYTOSOL"] +"G6634-MONOMER" "RNA/ssDNA 5'→3' exonuclease" ["TrpH", "YciV", "RNase AM"] "MSDTNYAVIYDLHSHTTASDGCLTPEALVHRAVEMRVGTLAITDHDTTAAIAPAREEISRSGLALNLIPGVEISTVWENHEIHIVGLNIDITHPLMCEFLAQQTERRNQRAQLIAERLEKAQIPGALEGAQRLAQGGAVTRGHFARFLVECGKASSMADVFKKYLARGKTGYVPPQWCTIEQAIDVIHHSGGKAVLAHPGRYNLSAKWLKRLVAHFAEHHGDAMEVAQCQQSPNERTQLAALARQHHLWASQGSDFHQPCPWIELGRKLWLPAGVEGVWQLWEQPQNTTEREL" [] ["CCO-CYTOSOL"] +"G6635-MONOMER" "putative RNA-binding protein YciO" ["YciO"] "MSQFFYIHPDNPQQRLINQAVEIVRKGGVIVYPTDSGYALGCKIEDKNAMERICRIRQLPDGHNFTLMCRDLSELSTYSFVDNVAFRLMKNNTPGNYTFILKGTKEVPRRLLQEKRKTIGMRVPSNPIAQALLEALGEPMLSTSLMLPGSEFTESDPEEIKDRLEKQVDLIIHGGYLGQKPTTVIDLTDDTPVVVREGVGDVKPFL" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G6636-MONOMER" "DUF2207 domain-containing protein YciQ" ["YciP", "YciQ"] "MAGKFRCILLLIAGLFVSSLSYAENTEIPSYEEGISLFDVEATLQPDGVLDIKENIHFQARNQQIKHGFYRDLPRLWMQPDGDAALLNYHIVGVTRDGIPEPWHLDWHIGLMSIVVGDKQRFLPQGDYHYQIHYQVKNAFLREGDSDLLIWNVTGNHWPFEIYKTRFSLQFSNIAGNPFSEIDLFTGEEGDTYRNGRILEDGRIESRDPFYREDFTVLYRWPHALLSNASAPQTTNIFSHLLLPSTSSLLIWFPCLFLVCGWLYLWKRRPQFTPVDVIETDVIPPDYTPGMLRLDAKLVYDDKGFCADIVNLIVKGKIHLEDQSDKNQQILIRVNEGATRNNAVLLPAEQLLLEALFRKGDKVVLTGRRNRVLRRAFLRMQKFYLPRKKSSFYRSDTFLQWGGLAILAVILYGNLSPVGWAGMSLVGDMFIMICWIIPFLFCSLELLFARDDDKPCVNRVIITLFLPLICSGVAFYSLYINVGDVFFYWYMPAGYFTAVCLTGYLTGMGYIFLPKFTQTGQQRYAHGEAIVNYLARKEAATHSGRRRKGETRKLDYALLGWAISANLGREWALRIAPSLSSAIRAPEIARNGVLFSLQTHLSCGANTSLLGRSYSGGGAGGGAGGGGGGGW" ["CCO-PM-BAC-NEG"] ["CCO-PM-BAC-NEG"] +"G6637-MONOMER" "lipopolysaccharide assembly protein A" ["LapA", "YciS"] "MKYLLIFLLVLAIFVISVTLGAQNDQQVTFNYLLAQGEYRISTLLAVLFAAGFAIGWLICGLFWLRVRVSLARAERKIKRLENQLSPATDVAVVPHSSAAKE" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6638-MONOMER" "putative DNA-binding transcriptional regulator YciT" ["YciT", "DeoT"] "MNSRQQTILQMVIDQGQVSVTDLAKATGVSEVTIRQDLNTLEKLSYLRRAHGFAVSLDSDDVETRMMSNYTLKRELAEFAASLVQPGETIFIENGSSNALLARTLGEQKKNVTIITVSSYIAHLLKDAPCEVILLGGVYQKKSESMVGPLTRQCIQQVHFSKAFIGIDGWQPETGFTGRDMMRTDVVNAVLEKECEAIVLTDSSKFGAVHSYSIGPVERFNRVITDSKIRASDLMHLEHSKLTIHVVDI" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G6639-MONOMER" "cyclic di-GMP phosphodiesterase PdeR" ["PdeR", "Gmr", "YciR"] "MKTVRESTTLYNFLGSHNPYWRLTESSDVLRFSTTETTEPDRTLQLSAEQAARIREMTVITSSLMMSLTVDESDLSVHLVGRKINKREWAGNASAWHDTPAVARDLSHGLSFAEQVVSEAHSAIVILDSRGNIQRFNRLCEDYTGLKEHDVIGQSVFKLFMSRREAAASRRNNRVFFRSGNAYEVELWIPTCKGQRLFLFRNKFVHSGSGKNEIFLICSGTDITEERRAQERLRILANTDSITGLPNRNAMQDLIDHAINHADNNKVGVVYLDLDNFKKVNDAYGHLFGDQLLRDVSLAILSCLEHDQVLARPGGDEFLVLASNTSQSALEAMASRILTRLRLPFRIGLIEVYTSCSVGIALSPEHGSDSTAIIRHADTAMYTAKEGGRGQFCVFTPEMNQRVFEYLWLDTNLRKALENDQLVIHYQPKITWRGEVRSLEALVRWQSPERGLIPPLDFISYAEESGLIVPLGRWVILDVVRQVAKWRDKGINLRVAVNISARQLADQTIFTALKQVLQELNFEYCPIDVELTESCLIENDELALSVIQQFSQLGAQVHLDDFGTGYSSLSQLARFPIDAIKLDQVFVRDIHKQPVSQSLVRAIVAVAQALNLQVIAEGVESAKEDAFLTKNGINERQGFLFAKPMPAVAFERWYKRYLKRA" [] ["CCO-PM-BAC-NEG"] +"G6640-MONOMER" "putative oxidoreductase" ["YciW"] "MEQRHITGKSHWYHETQSSTTEYDVLPLVPEAAKVSDPFLLDVILEKETLAPFLSWLDPARVLAVDLFPDQLTVTRSQTFTAYERLSTALTVAQVCGVQRLCNYYSARLTPLPGPDSTRESNHRLAQITQYARQLASSPSIIDNRSRQHLNDVGLTAWDCVIISQIIGFIGFQARTIATFQAYLGHPVRWLPGLEIQNYADASLFADESLRWRSSYEVEKLPEEHTKSSTAELCQLAEILSLHPISLSLLEKLLNSTRGNTQPDNQLAALLCARINGSPACFATCMDSSNEYKKISTLMRKGENEINQWADRHSVERATVQAIQWLTRAPDRFSAAQFSPLLEHEKSSTQIINLLVWSGLCGWINRLKIALGETY" [] ["CCO-CYTOSOL"] +"G6641-MONOMER" "DUF559 domain-containing protein YcjD" ["YcjD"] "MIDKIKSNARDLRRNLTLQERKLWRYLRSRRFSDFKFRRQHPVGSYILDFACCSARVVVELDGGQHDLAVAYDSRRTSWLESQGWTVLRFWNNEIDCNEETVLENILQELNRRSPSP" [] ["CCO-CYTOSOL"] +"G6642-MONOMER" "DUF2543 domain-containing protein YmjA" ["YmjA"] "MNHDIPLKYFDIADEYATECAEPVAEAERTPLAHYFQLLLTRLMNNEEISEEAQHEMAAEAGINPVRIDEIAEFLNQWGNE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G6644-MONOMER" "glutamate-putrescine ligase" ["YcjK", "PuuA"] "METNIVEVENFVQQSEERRGSAFTQEVKRYLERYPNTQYVDVLLTDLNGCFRGKRIPVSSLKKLEKGCYFPASVFAMDILGNVVEEAGLGQEMGEPDRTCVPVLGSLTPSAADPEFIGQMLLTMVDEDGAPFDVEPRNVLNRLWQQLRQRGLFPVVAVELEFYLLDRQRDAEGYLQPPCAPGTDDRNTQSQVYSVDNLNHFADVLNDIDELAQLQLIPADGAVAEASPGQFEINLYHTDNVLEACDDALALKRLVRLMAEKHKMHATFMAKPYEEHAGSGMHIHISMQNNRGENVLSDAEGEDSPLLKKMLAGMIDLMPSSMALLAPNVNSYRRFQPGMYVPTQASWGHNNRTVALRIPCGDRHNHRVEYRVAGADANPYLVMAAIFAGILHGLDNELPLQEEVEGNGLEQEGLPFPIRQSDALGEFIENDHLRRYLGERFCHVYHACKNDELLQFERLITETEIEWMLKNA" [] ["CCO-CYTOSOL"] +"G6645-MONOMER" "γ-glutamyl-γ-aminobutyrate hydrolase" ["YcjL", "PuuD"] "MENIMNNPVIGVVMCRNRLKGHATQTLQEKYLNAIIHAGGLPIALPHALAEPSLLEQLLPKLDGIYLPGSPSNVQPHLYGENGDEPDADPGRDLLSMAIINAALERRIPIFAICRGLQELVVATGGSLHRKLCEQPELLEHREDPELPVEQQYAPSHEVQVEEGGLLSALLPECSNFWVNSLHGQGAKVVSPRLRVEARSPDGLVEAVSVINHPFALGVQWHPEWNSSEYALSRILFEGFITACQHHIAEKQRL" [] ["CCO-CYTOSOL"] +"G6646-MONOMER" "4-aminobutyrate aminotransferase PuuE" ["GoaG", "PuuE"] "MSNNEFHQRRLSATPRGVGVMCNFFAQSAENATLKDVEGNEYIDFAAGIAVLNTGHRHPDLVAAVEQQLQQFTHTAYQIVPYESYVTLAEKINALAPVSGQAKTAFFTTGAEAVENAVKIARAHTGRPGVIAFSGGFHGRTYMTMALTGKVAPYKIGFGPFPGSVYHVPYPSDLHGISTQDSLDAIERLFKSDIEAKQVAAIIFEPVQGEGGFNVAPKELVAAIRRLCDEHGIVMIADEVQSGFARTGKLFAMDHYADKPDLMTMAKSLAGGMPLSGVVGNANIMDAPAPGGLGGTYAGNPLAVAAAHAVLNIIDKESLCERANQLGQRLKNTLIDAKESVPAIAAVRGLGSMIAVEFNDPQTGEPSAAIAQKIQQRALAQGLLLLTCGAYGNVIRFLYPLTIPDAQFDAAMKILQDALSD" [] ["CCO-CYTOSOL"] +"G6647-MONOMER" "glucosylglycerate phosphorylase" ["GgaP", "YcjM", "putative glucosyltransferase", "α-amylase catalytic domain family protein YcjM"] "MKQKITDYLDEIYGGTFTATHLQKLVTRLESAKRLITQRRKKHWDESDVVLITYADQFHSNDLKPLPTFNQFYHQWLQSIFSHVHLLPFYPWSSDDGFSVIDYHQVASEAGEWQDIQQLGECSHLMFDFVCNHMSAKSEWFKNYLQQHPGFEDFFIAVDPQTDLSAVTRPRALPLLTPFQMRDHSTRHLWTTFSDDQIDLNYRSPEVLLAMVDVLLCYLAKGAEYVRLDAVGFMWKEPGTSCIHLEKTHLIIKLLRSIIDNVAPGTVIITETNVPHKDNIAYFGAGDDEAHMVYQFSLPPLVLHAVQKQNVEALCAWAQNLTLPSSNTTWFNFLASHDGIGLNPLRGLLPESEILELVEALQQEGALVNWKNNPDGTRSPYEINVTYMDALSRRESSDEERCARFILAHAILLSFPGVPAIYIQSILGSRNDYAGVEKLGYNRAINRKKYHSKEITRELNDEATLRHAVYHELSRLITLRRSHNEFHPDNNFTIDTINSSVMRIPRSNADGNCLTGLFNVSKNIQHVNITNLHGRDLISEVDILGNEITLRPWQVMWIK" [] ["CCO-EXTRACELLULAR", "CCO-CYTOSOL"] +"G6651-MONOMER" "D-guloside 3-dehydrogenase" ["YcjQ", "putative oxidoreductase, Zn-dependent and NAD(P)-binding", "putative zinc-binding dehydrogenase YcjQ"] "MKKLVATAPRVAALVEYEDRAILANEVKIRVRFGAPKHGTEVVDFRAASPFIDEDFNGEWQMFTPRPADAPRGIEFGKFQLGNMVVGDIIECGSDVTDYAVGDSVCGYGPLSETVIINAVNNYKLRKMPQGSSWKNAVCYDPAQFAMSGVRDANVRVGDFVVVVGLGAIGQIAIQLAKRAGASVVIGVDPIAHRCDIARRHGADFCLNPIGTDVGKEIKTLTGKQGADVIIETSGYADALQSALRGLAYGGTISYVAFAKPFAEGFNLGREAHFNNAKIVFSRACSEPNPDYPRWSRKRIEETCWELLMNGYLNCEDLIDPVVTFANSPESYMQYVDQHPEQSIKMGVTF" [] ["CCO-CYTOSOL"] +"G6652-MONOMER" "3-dehydro-D-guloside 4-epimerase" ["Dte", "YcjR", "putative ketohexose-3-epimerase YcjR", "3-ketohexose 4-epimerase"] "MKIGTQNQAFFPENILEKFRYIKEMGFDGFEIDGKLLVNNIEEVKAAIKETGLPVTTACGGYDGWIGDFIEERRLNGLKQIERILEALAEVGGKGIVVPAAWGMFTFRLPPMTSPRSLDGDRKMVSDSLRVLEQVAARTGTVVYLEPLNRYQDHMINTLADARRYIVENDLKHVQIIGDFYHMNIEEDNLAQALHDNRDLLGHVHIADNHRYQPGSGTLDFHALFEQLRADNYQGYVVYEGRIRAEDPAQAYRDSLAWLRTC" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G6653-MONOMER" "D-glucoside 3-dehydrogenase" ["YcjS"] "MKSAMTSSPLRVAIIGAGQVADKVHASYYCTRNDLELVAVCDSRLSQAQALAEKYGNASVWDDPQAMLLAVKPDVVSVCSPNRFHYEHTLMALEAGCHVMCEKPPAMTPEQAREMCDTARKLGKVLAYDFHHRFALDTQQLREQVTNGVLGEIYVTTARALRRCGVPGWGVFTNKELQGGGPLIDIGIHMLDAAMYVLGFPAVKSVNAHSFQKIGTQKSCGQFGEWDPATYSVEDSLFGTIEFHNGGILWLETSFALNIREQSIMNVSFCGDKAGATLFPAHIYTDNNGELMTLMQREIADDNRHLRSMEAFINHVQGKPVMIADAEQGYIIQQLVAALYQSAETGTRVEL" [] [] +"G6654-MONOMER" "kojibiose phosphorylase" ["YcjT"] "MTRPVTLSEPHFSQHTLNKYASLMAQGNGYLGLRASHEEDYTRQTRGMYLAGLYHRAGKGEINELVNLPDVVGMEIAINGEVFSLSHEAWQRELDFASGELRRNVVWRTSNGSGYTIASRRFVSADQLPLIALEITITPLDADASVLISTGIDATQTNHGRQHLDETQVRVFGQHLMQGSYTTQDGRSDVAISCCCKVSGDVQQCYTAKERRLLQHTSAQLHAGETMTLQKLVWIDWRDDRQAALDEWGSASLRQLEMCAQQSYDQLLAASTENWRQWWQKRRITVNGGEAHDQQALDYALYHLRIMTPAHDERSSIAAKGLTGEGYKGHVFWDTEVFLLPFHLFSDPTVARSLLRYRWHNLPGAQEKARRNGWQGALFPWESARSGEEETPEFAAINIRTGLRQKVASAQAEHHLVADIAWAVIQYWQTTGDESFIAHEGMALLLETAKFWISRAVRVNDRLEIHDVIGPDEYTEHVNNNAYTSYMARYNVQQALNIARQFGCSDDAFIHRAEMFLKELWMPEIQPDGVLPQDDSFMAKPAINLAKYKAAAGKQTILLDYSRAEVNEMQILKQADVVMLNYMLPEQFSAASCLANLQFYEPRTIHDSSLSKAIHGIVAARCGLLTQSYQFWREGTEIDLGADPHSCDDGIHAAATGAIWLGAIQGFAGVSVRDGELHLNPALPEQWQQLSFPLFWQGCELQVTLDAQRIAIRTSAPVSLRLNGQLITVAEESVFCLGDFILPFNGTATKHQEDE" [] ["CCO-CYTOSOL"] +"G6655-MONOMER" "β-phosphoglucomutase" ["YcjU", "PgmB"] "MKLQGVIFDLDGVITDTAHLHFQAWQQIAAEIGISIDAQFNESLKGISRDESLRRILQHGGKEGDFNSQERAQLAYRKNLLYVHSLRELTVNAVLPGIRSLLADLRAQQISVGLASVSLNAPTILAALELREFFTFCADASQLKNSKPDPEIFLAACAGLGVPPQACIGIEDAQAGIDAINASGMRSVGIGAGLTGAQLLLPSTESLTWPRLSAFWQNV" [] ["CCO-CYTOSOL"] +"G6657-MONOMER" "outer membrane porin G" ["OmpG"] "MKKLLPCTALVMCAGMACAQAEERNDWHFNIGAMYEIENVEGYGEDMDGLAEPSVYFNAANGPWRIALAYYQEGPVDYSAGKRGTWFDRPELEVHYQFLENDDFSFGLTGGFRNYGYHYVDEPGKDTANMQRWKIAPDWDVKLTDDLRFNGWLSMYKFANDLNTTGYADTRVETETGLQYTFNETVALRVNYYLERGFNMDDSRNNGEFSTQEIRAYLPLTLGNHSVTPYTRIGLDRWSNWDWQDDIEREGHDFNRVGLFYGYDFQNGLSVSLEYAFEWQDHDEGDSDKFHYAGVGVNYSF" ["CCO-OUTER-MEM"] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"G6658-MONOMER" "DNA-binding transcriptional repressor YcjW" ["YcjW", "putative LacI-type DNA-binding transcriptional regulator YcjW"] "MSPTIYDIARVAGVSKSTVSRVLNKQTNISPEAREKVLRAIEELQYQPNKLARALTSSGFDAIMVISTRSTKTTAGNPFFSEVLHAITAKAEEEGFDVILQTSHNPAEDLQKCESKIKQKMIKGIIMLSSPADESFFAQLDKYDIPVVVIGKVEGQYAHVYSVDTDNFGDSIALTDALIESGHQNIACLHAPLDVHVSVDRVNGYKQSLAAHNIAVRDEWIVDGGYTHETALKAARQLLSQSPLPEAVFATDSLKLMSIYRAAAEKNIAIPQQLAVVGYSNETLSFILTPAPGGIDVPTQELGQQSCELLFRLISGKPSPQNITVATHMTLK" [] ["CCO-CYTOSOL"] +"G6659-MONOMER" "DUF463 domain-containing protein YcjX" ["YcjX"] "MKRLKNELNALVNRGVDRHLRLAVTGLSRSGKTAFITAMVNQLLNIHAGARLPLLSAVREERLLGVKRIPQRDFGIPRFTYDEGLAQLYGDPPAWPTPTRGVSEIRLALRFKSNDSLLRHFKDTSTLYLEIVDYPGEWLLDLPMLAQDYLSWSRQMTGLLNGQRGEWSAKWRMMSEGLDPLAPADENRLADIAAAWTDYLHHCKEQGLHFIQPGRFVLPGDMAGAPALQFFPWPDVDTWGESKLAQADKHTNAGMLRERFNYYCEKVVKGFYKNHFLRFDRQIVLVDCLQPLNSGPQAFNDMRLALTQLMQSFHYGQRTLFRRLFSPVIDKLLFAATKADHVTIDQHANMVSLLQQLIQDAWQNAAFEGISMDCLGLASVQATTSGIIDVNGEKIPALRGNRLSDGAPLTVYPGEVPARLPGQAFWDKQGFQFEAFRPQVMDVDKPLPHIRLDAALEFLIGDKLR" [] ["CCO-CYTOSOL"] +"G6660-MONOMER" "lipid hydroperoxide peroxidase" ["YzzJ", "Tpx", "p20", "scavengase", "scavengase p20", "thiol peroxidase"] "MSQTVHFQGNPVTVANSIPQAGSKAQTFTLVAKDLSDVTLGQFAGKRKVLNIFPSIDTGVCAASVRKFNQLATEIDNTVVLCISADLPFAQSRFCGAEGLNNVITLSTFRNAEFLQAYGVAIADGPLKGLAARAVVVIDENDNVIFSQLVDEITTEPDYEAALAVLKA" ["CCO-CYTOSOL"] ["CCO-PERI-BAC", "CCO-CYTOSOL"] +"G6661-MONOMER" "L-Ala-D/L-Glu epimerase" ["YcjH", "YcjG"] "MRTVKVFEEAWPLHTPFVIARGSRSEARVVVVELEEEGIKGTGECTPYPRYGESDASVMAQIMSVVPQLEKGLTREELQKILPAGAARNALDCALWDLAARRQQQSLADLIGITLPETVITAQTVVIGTPDQMANSASTLWQAGAKLLKVKLDNHLISERMVAIRTAVPDATLIVDANESWRAEGLAARCQLLADLGVAMLEQPLPAQDDAALENFIHPLPICADESCHTRSNLKALKGRYEMVNIKLDKTGGLTEALALATEARAQGFSLMLGCMLCTSRAISAALPLVPQVSFADLDGPTWLAVDVEPALQFTTGELHL" [] ["CCO-CYTOSOL"] +"G6662-MONOMER" "murein tripeptide amidase A" ["YcjI", "MpaA"] "MTVTRPRAERGAFPPGTEHYGRSLLGAPLIWFPAPAASRESGLILAGTHGDENSSVVTLSCALRTLTPSLRRHHVVLCVNPDGCQLGLRANANGVDLNRNFPAANWKEGETVYRWNSAAEERDVVLLTGDKPGSEPETQALCQLIHRIQPAWVVSFHDPLACIEDPRHSELGEWLAQAFELPLVTSVGYETPGSFGSWCADLNLHCITAEFPPISSDEASEKYLFAMANLLRWHPKDAIRPS" [] ["CCO-CYTOSOL"] +"G6663-MONOMER" "putative hydrolase YcjY" ["YcjY"] "MMNNKVSFTNSNNPTISLSAVIYFPPKFDETRQYQAIVLSHPGGGVKEQTAGTYAKKLAEKGFVTIAYDASYQGESGGEPRQLENPYIRTEDISAVIDYLTTLSYVDNTRIGAMGICAGAGYTANAAIQDRRIKAIGTVSAVNIGSIFRNGWENNVKSIDALPYVEAGSNARTSDISSGEYAIMPLAPMKESDAPNEELRQAWEYYHTPRAQYPTAPGYATLRSLNQIITYDAYHMAEVYLTQPTQIVAGSQAGSKWMSDDLYDRASSQDKRYHIVEGANHMDLYDGKAYVAEAISVLAPFFEETL" [] ["CCO-CYTOSOL"] +"G6664-MONOMER" "DNA-binding transcriptional repressor PgrR" ["PgrR", "YcjZ"] "MKREEIADLMAFVVVAEERSFTRAAARLSMAQSALSQIVRRIEERLGLRLLTRTTRSVVPTEAGEHLLSVLGPMLHDIDSAMASLSDLQNRPSGTIRITTVEHAAKTILLPAMRTFLKSHPEIDIQLTIDYGLTDVVSERFDAGVRLGGEMDKDMIAIRIGPDIPMAIVGSPDYFSRRSVPTSVSQLIDHQAINLYLPTSGTANRWRLIRGGREVRVRMEGQLLLNTIDLIIDAAIDGHGLAYLPYDQVERAIKEKKLIRVLDKFTPDLPGYHLYYPHRRHAGSAFSLFIDRLKYKGAV" [] ["CCO-CYTOSOL"] +"G6665-MONOMER" "murein tripeptide ABC transporter periplasmic binding protein" ["YnaH", "MppA"] "MKHSVSVTCCALLVSSISLSYAAEVPSGTVLAEKQELVRHIKDEPASLDPAKAVGLPEIQVIRDLFEGLVNQNEKGEIVPGVATQWKSNDNRIWTFTLRDNAKWADGTPVTAQDFVYSWQRLVDPKTLSPFAWFAALAGINNAQAIIDGKATPDQLGVTAVDAHTLKIQLDKPLPWFVNLTANFAFFPVQKANVESGKEWTKPGNLIGNGAYVLKERVVNEKLVVVPNTHYWDNAKTVLQKVTFLPINQESAATKRYLAGDIDITESFPKNMYQKLLKDIPGQVYTPPQLGTYYYAFNTQKGPTADQRVRLALSMTIDRRLMTEKVLGTGEKPAWHFTPDVTAGFTPEPSPFEQMSQEELNAQAKTLLSAAGYGPQKPLKLTLLYNTSENHQKIAIAVASMWKKNLGVDVKLQNQEWKTYIDSRNTGNFDVIRASWVGDYNEPSTFLTLLTSTHSGNISRFNNPAYDKVLAQASTENTVKARNADYNAAEKILMEQAPIAPIYQYTNGRLIKPWLKGYPINNPEDVAYSRTMYIVKH" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"G6668-MONOMER" "DUF2534 domain-containing protein YnaJ" ["YnaJ"] "MIMAKLKSAKGKKFLFGLLAVFIIAASVVTRATIGGVIEQYNIPLSEWTTSMYVIQSSMIFVYSLVFTVLLAIPLGIYFLGGEEQ" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6669-MONOMER" "p-aminobenzoyl-glutamate hydrolase subunit B" ["YdaI", "AbgB"] "MQEIYRFIDDAIEADRQRYTDIADQIWDHPETRFEEFWSAEHLASALESAGFTVTRNVGNIPNAFIASFGQGKPVIALLGEYDALAGLSQQAGCAQPTSVTPGENGHGCGHNLLGTAAFAAAIAVKKWLEQYGQGGTVRFYGCPGEEGGSGKTFMVREGVFDDVDAALTWHPEAFAGMFNTRTLANIQASWRFKGIAAHAANSPHLGRSALDAVTLMTTGTNFLNEHIIEKARVHYAITNSGGISPNVVQAQAEVLYLIRAPEMTDVQHIYDRVAKIAEGAALMTETTVECRFDKACSSYLPNRTLENAMYQALSHFGTPEWNSEELAFAKQIQATLTSNDRQNSLNNIAATGGENGKVFALRHRETVLANEVAPYAATDNVLAASTDVGDVSWKLPVAQCFSPCFAVGTPLHTWQLVSQGRTSIAHKGMLLAAKTMAATTVNLFLDSGLLQECQQEHQQVTDTQPYHCPIPKNVTPSPLK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G6670-MONOMER" "p-aminobenzoyl-glutamate hydrolase subunit A" ["YdaJ", "AbgA"] "MESLNQFVNSLAPKLSHWRRDFHHYAESGWVEFRTATLVAEELHQLGYSLALGREVVNESSRMGLPDEFTLQREFERARQQGALAQWIAAFEGGFTGIVATLDTGRPGPVMAFRVDMDALDLSEEQDVSHRPYRDGFASCNAGMMHACGHDGHTAIGLGLAHTLKQFESGLHGVIKLIFQPAEEGTRGARAMVDAGVVDDVDYFTAVHIGTGVPAGTVVCGSDNFMATTKFDAHFTGTAAHAGAKPEDGHNALLAAAQATLALHAIAPHSEGASRVNVGVMQAGSGRNVVPASALLKVETRGASDVINQYVFDRAQQAIQGAATMYGVGVETRLMGAATASSPSPQWVAWLQSQAAQVAGVNQAIERVEAPAGSEDATLMMARVQQHQGQASYVVFGTQLAAGHHNEKFDFDEQVLAIAVETLARTALNFPWTRGI" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G6671-MONOMER" "putative LysR-type DNA-binding transcriptional regulator AbgR" ["AbgR"] "MAFQVKIHQIRAFVEVARQGSIRGASRMLNMSQPALSKSIQELEEGLAAQLFFRRSKGVTLTDAGESFYQHASLILEELRAAQEDIRQRQGQLAGQINIGMGASISRSLMPAVISRFHQQHPQVKVRIMEGQLVSMINELRQGELDFTINTYYQGPYDHEFTFEKLLEKQFAIFCRPGHPAIGARSIKQLLDYSWTMPTPHGSYYKQLSELLDDQAQTPQVGVVCETFSACISLVAKSDFLSKLPEEMGCDPLHGQGLVMLPVSEILPKAAYYLIQRRDSRQTPLTASLITQFRRECGYLQS" [] ["CCO-CYTOSOL"] +"G6672-MONOMER" "DNA endonuclease SmrA" ["SmrA", "YdaL", "conserved protein with endonuclease activity SmrA"] "MNLDDKSLFLDAMEDVQPLKRATDVHWHPTRNQRAPQRIDTLQLDNFLTTGFLDIIPLSQPLEFRREGLQHGVLDKLRSGKYPQQASLNLLRQPVEECRKMVFSFIQQALADGLRNVLIIHGKGRDDKSHANIVRSYVARWLTEFDDVQAYCTALPHHGGSGACYVALRKTAQAKQENWERHAKRSR" [] ["CCO-CYTOSOL"] +"G6673-MONOMER" "diguanylate cyclase DgcM" ["DgcM", "YdaM"] "MITHNFNTLDLLTSPVWIVSPFEEQLIYANSAAKLLMQDLTFSQLRTGPYSVSSQKELPKYLSDLQNQHDIIEILTVQRKEEETALSCRLVLRKLTETEPVIIFEGIEAPATLGLKASRSANYQRKKQGFYARFFLTNSAPMLLIDPSRDGQIVDANLAALNFYGYNHETMCQKHTWEINMLGRRVMPIMHEISHLPGGHKPLNFVHKLADGSTRHVQTYAGPIEIYGDKLMLCIVHDITEQKRLEEQLEHAAHHDAMTGLLNRRQFYHITEPGQMQHLAIAQDYSLLLIDTDRFKHINDLYGHSKGDEVLCALARTLESCARKGDLVFRWGGEEFVLLLPRTPLDTALSLAETIRVSVAKVSISGLPRFTVSIGVAHHEGNESIDELFKRVDDALYRAKNDGRNRVLAA" [] ["CCO-CYTOSOL", "CCO-PM-BAC-NEG"] +"G6674-MONOMER" "Zn2+:H+ symporter" ["ZntB", "YdaN"] "MEAIKGSDVNVPDAVFAWMLDGRGGVKPLENTDVIDEAHPCWLHLNYVHHDSAQWLATTPLLPNNVRDALAGESTRPRVSRLGEGTLITLRCINGSTDERPDQLVAMRVYMDGRLIVSTRQRKVLALDDVVSDLEEGTGPTDCGGWLVDVCDALTDHSSEFIEQLHDKIIDLEDNLLDQQIPPRGFLALLRKQLIVMRRYMAPQRDVYARLASERLPWMSDDQRRRMQDIADRLGRGLDEIDACIARTGVMADEIAQVMQENLARRTYTMSLMAMVFLPSTFLTGLFGVNLGGIPGGGWQFGFSIFCILLVVLIGGVALWLHRSKWL" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6675-MONOMER" "tRNA cytosine32 2-sulfurtransferase TtcA" ["TtcA", "YdaO", "tRNA C32 thiolase"] "MQENQQITKKEQYNLNKLQKRLRRNVGEAIADFNMIEEGDRIMVCLSGGKDSYTMLEILRNLQQSAPINFSLVAVNLDQKQPGFPEHVLPEYLEKLGVEYKIVEENTYGIVKEKIPEGKTTCSLCSRLRRGILYRTATELGATKIALGHHRDDILQTLFLNMFYGGKMKGMPPKLMSDDGKHIVIRPLAYCREKDIQRFADAKAFPIIPCNLCGSQPNLQRQVIADMLRDWDKRYPGRIETMFSAMQNVVPSHLCDTNLFDFKGITHGSEVVNGGDLAFDREEIPLQPACWQPEEDENQLDELRLNVVEVK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G6676-MONOMER" "Rac prophage; putative integrase" ["YdaP", "IntR"] "MSKLPTGVEIRGRYIRIWFMFRGKRCRETLKGWEITNSNIKKAGNLRALIVHEINSGEFEYLRRFPQSSTGAKMVTTRVIKTFGELCDIWTKIKETELTTNTMKKTKSQLKTLRIIICESTPISHIRYSDILNYRNELLHGETLYLDNPRSNKKGRTVRTVDNYIALLCSLLRFAYQSGFISTKPFEGVKKLQRNRIKPDPLSKTEFNALMESEKGQSQNLWKFAVYSGLRHGELAALAWEDVDLEKGIVNVRRNLTILDMFGPPKTNAGIRTVTLLQPALEALKEQYKLTGHHRKSEITFYHREYGRTEKQKLHFVFMPRVCNGKQKPYYSVSSLGARWNAAVKRAGIRRRNPYHTRHTFACWLLTAGANPAFIASQMGHETAQMVYEIYGMWIDDMNDEQIAMLNARLS" [] ["CCO-CYTOSOL"] +"G6677-MONOMER" "Rac prophage; excisionase" ["XisR", "YdaQ"] "MAQVIFNEEWMVEYGLMLRTGLGARQIEAYRQNCWVEGFHFKRVSPLGKPDSKRGIIWYNYPKINQFIKDS" [] ["CCO-CYTOSOL"] +"G6679-MONOMER" "Rac prophage; uncharacterized protein YdaG" ["YdaG", "GatA"] "MVHYEVVQYLMDCCGITYNQAVQALRSNDWDLWQAEVAIRSNKM" [] ["CCO-CYTOSOL"] +"G6680-MONOMER" "Rac prophage; DNA-binding transcriptional repressor RacR" ["RacR", "YdaR", "RarC"] "MLSGKDLGRAIEQAINKKIASGSVKSKAEVARHFKVQPPSIYDWIKKGSISKDKLPELWRFFSDVVGPEHWGLNEYPIPTPTNSDTKSELLDINNLYQAASDEIRAIVAFLLSGNATEPDWVDHDVRAYIAAMEMKVGKYLKALESERKSQNITKTGT" [] ["CCO-CYTOSOL"] +"G6681-MONOMER" "Rac prophage; toxin YdaS" ["YdaS", "Rac prophage; putative DNA-binding transcriptional regulator YdaS"] "MKKENYSFKQACAVVGGQSAMARLLGVSPPSVNQWIKGVRQLPAERCPAIERATRGEVLCEELRPDIDWSYLRRSACCSQNMSVKQLNDSNKSSFDHT" [] ["CCO-CYTOSOL"] +"G6682-MONOMER" "Rac prophage; protein YdaT" ["YdaT"] "MKIKHEHIESVLFALAAEKGQAWVANAITEEYLRQGGGELPLVPGKDWNNQQNIYHRWLKGETKTQREKIQKLIPAILAILPRELRHRLCIFDTLERRALLAAQEALSTAIDAHDDAVQAVYRKAHFSGGGSSDDSVIVH" [] ["CCO-CYTOSOL"] +"G6683-MONOMER" "Rac prophage; DUF1376 domain-containing protein YdaU" ["YdaU"] "MLFVLILSHRAASYGAIMAALPYMQLYIADYLADTMHLSAEEHGAYLLLMFNYWQTGKPIPKNRLAKIARLTNERWADVEPSLQEFFCDNGEEWVHLRIEEDLASVREKLTKKSAAGKASVQARRSRKEADVQTKQERNLTGVQTDVEVVFEHDVNTKATNKDTDKDLKTDPPLNPPRGNRGVKKFDPLDITLPNWISVSLWREWVEFRQALRKPIRTEQGANGAIRELEKFRQQGFSPEQVIRHSIANEYQGLFAPKGVRPETLLRQVNTVSLPDSAIPPGFRG" [] ["CCO-CYTOSOL"] +"G6684-MONOMER" "Rac prophage; putative ATP-binding protein YdaV" ["YdaV"] "MKNIATGDVLERIRRLAPSHVTAPFKTVAEWREWQLSEGQKRCEEINRQNRQLRVEKILNRSGIQPLHRKCSFSNYQVQNEGQRYALSQAKSIADELMTGCTNFAFSGKPGTGKNHLAAAIGNRLLKDGQTVIVVTVADVMSALHASYDDGQSGEKFLRELCEVDLLVLDEIGIQRETKNEQVVLHQIVDRRTASMRSVGMLTNLNYEAMKTLLGERIMDRMTMNGGRWVNFNWESWRPNVVQPGIAK" [] ["CCO-CYTOSOL"] +"G6685-MONOMER" "Rac prophage; putative uncharacterized protein YdaW" ["YdaW"] "METVFDALKAMGKATSIELAARLDISREEVLNELWELKKAGFVDKSAYTWRVADNNVQQEQPAQAELPEEITTATVAKISECDLTATIEQRGPQTADELATLFGTTSRKVASTLAMAISKGRLIRVNQGGKFRYCIPGDNLPAEPKAASVSPLWLSASSSACHGVLIITVITPSPTKNSATKMPEN" [] ["CCO-CYTOSOL"] +"G6686-MONOMER" "Rac prophage; putative endopeptidase RzpR" ["YdaX", "RzpR"] "MRQRDVAALDAKYTKELADAKAENDALRDDVAAGRRRLHIKAVCQSVREATTASGVDNAASPRLADTAERDYFTLRERLVMMQAQLEGAQQYITEQCLK" [] ["CCO-CYTOSOL"] +"G6688-MONOMER" "Rac prophage; ParB-like nuclease domain-containing protein YnaK" ["YnaK"] "MSEKLKIVYRPLQELSPYAHNARTHSTEQVAQLVESIKQFGWTNPVLIDEKGEIIAGHGRVMAAEMLKMDSVPVIVLSGLTDEQKQR" [] ["CCO-CYTOSOL"] +"G6689-MONOMER" "Rac prophage; putative uncharacterized protein YdaY" ["YdaY"] "MSRSSDNDQYRSRNALIRRHIEKMDASLHVGTKEFDISKVSEVDSVDDLLIDNAARYLLKDWKGVGELVNGVEVALEYTAERGIALLKQNPELYWQILAEAASIAQGKEQQKQDTIKKP" [] ["CCO-CYTOSOL"] +"G6691-MONOMER" "Rac prophage; putative prophage tail length tape measure domain-containing protein YnaA" ["TmpR", "YnaA"] "MAEQTSRLAIIIDSTGAKNNADNLTSSLVKMTQAGETAANSAGKVTKATEDEKNALAKLKAAIDPVGAAIDTVGRRYSELKKFFDKGLIDKEEYEFLVRKLNETTEELSGVAQAQREAEKAGKLAAAQQEAQAQAFQRMLDKIDPLAAALRNLEQQHDELNAAFASGKINGSQFENYSRKIQETRRELTGEAQAEREAAKAHDEQVVALQRLIAQLDPVGTAFNRLVEQQKQLNEAKAKGMLSPEMYEELSGKLRAMRSELEVTQSQLSKTGMSAKQTAFAMRMLPAQMTDIVVGLSTGQSPFMVLMQQGGHSAMQETRIASLPVTAIPAGMKIPCVTAGSA" [] ["CCO-CYTOSOL"] +"G6692-MONOMER" "Rac prophage; protein LomR_1" ["LomR"] "MSYAGDKNRQLTRYSDTRWHEDSVRNRWFSVMVGPSVRVNEWFSAYAMAGMAYSRVSTFSGDYLRVTDNKKGKTHDVLTGSDDGRHSNTSLAWGAGVQFNPTESVAIDIAYEGPGSGDWRTDGFIVGVGYKF" [] ["CCO-MEMBRANE"] +"G6693-MONOMER" "Rac prophage; IS5 transposase and trans-activator" ["InsH5", "Trs5-5", "Yi52_5"] "MSHQLTFADSEFSTKRRQTRKEIFLSRMEQILPWQNMTAVIEPFYPKAGNGRRPYPLETMLRIHCMQHWYNLSDGAMEDALYEIASMRLFARLSLDSALPDRTTIMNFRHLLEQHQLARQLFKTINRWLAEAGVMMTQGTLVDATIIEAPSSTKNKEQQRDPEMHQTKKGNQWHFGMKAHIGVDAKSGLTHSLVTTAANEHDLNQLGNLLHGEEQFVSADAGYQGAPQREELAEVDVDWLIAERPGKVKTLKQNPRKNKTAINIEYMKASIRARVEHPFRIIKRQFGFVKARYKGLLKNDNQLAMLFTLANLFRVDQMIRQWERSQ" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G6695-MONOMER" "Rac prophage; putative prophage side tail fiber protein StfR" ["YnaB", "StfR", "Rac prophage; putative membrane protein"] "MAVKISGVLKDGTGKPVQNCTIQLKAKRNSTTVVVNTLASENPDEAGRYSMDVEYGQYSVILLVEGFPPSHAGTITVYEDSQPGTLNDFLGAMTEDDARPEALRRFELMVEEVARNASAVAQNTAAAKKSASDASTSAREAATHAADAADSARAASTSAGQAASSAQSASSSAGTASTKATEASKSAAAAESSKSAAATSAGAAKTSETNASASLQSAATSASTATTKASEAATSARDAAASKEAAKSSETNASSSASSAASSATAAGNSAKAAKTSETNARSSETAAGQSASAAAGSKTAAASSASAASTSAGQASASATAAGKSAESAASSASTATTKAGEATEQASAAARSASAAKTSETNAKASETSAESSKTAAASSASSAASSASSASASKDEATRQASAAKSSATTASTKATEAAGSATAAAQSKSTAESAATRAETAAKRAEDIASAVALEDASTTKKGIVQLSSATNSTSETLAATPKAVKSAYDNAEKRLQKDQNGADIPDKGCFLNNINAVSKTDFADKRGMRYVRVNAPAGATSGKYYPVVVMRSAGSVSELASRVIITTATRTAGDPMNNCEFNGFVMPGGWTDRGRYAYGMFWQYQNNERAIHSIMMSNKGDDLRSVFYVDGAAFPVFAFIEDGLSISAPGADLVVNDTTYKFGATNPATECIAADVILDFKSGRGFYESHSLIVNDNLSCKKLFATDEIVARGGNQIRMIGGEYGALWRNDGAKTYLLLTNQGDVYGGWNTLRPFAIDNATGELVIGTKLSASLNGNALTATKLQTPRRVSGVEFDGSKDITLTAAHVAAFARRATDTYADADGGVPWNAESGAYNVTRSGDSYILVNFYTGVGSCRTLQMKAHYRNGGLFYRSSRDGYGFEEDWAEVYTSKNLPPESYPVGAPIPWPSDTVPSGYALMQGQAFDKSAYPKLAAAYPSGVIPDMRGWTIKGKPASGRAVLSQEQDGIKSHTHSASASSTDLGTKTTSSFDYGTKSTNNTGAHTHSVSGSTNSAGAHTHSLANVNTASANSGAGSASTRLSVVHNQNYATSSAGAHTHSLSGTAASAGAHAHTVGIGAHTHSVAIGSHGHTITVNAAGNAENTVKNIAFNYIVRLA" [] ["CCO-EXTRACELLULAR"] +"G6696-MONOMER" "Rac prophage; putative tail fiber assembly protein TfaR" ["TfaR", "YnaC"] "MAFRMSEQPRTIKIYNLLAGTNEFIGEGDAYIPPHTGLPANSTDIAPPDIPAGFVAVFNSDESSWHLVEDHRGKTVYDVASGNALFISELGPLPENVTWLSPEGEFQKWNGTAWVKDTEAEKLFRIREAEETKNNLMQVASEHIAPLQDAADLEIATEEEISLLEAWKKYRVLLNRVDTSTAQDIEWPALP" [] ["CCO-CYTOSOL"] +"G6697-MONOMER" "Rac prophage; putative site-specific recombinase" ["YnaD", "PinR"] "MSRIFAYCRISTLDQTTENQRREIESAGFKIKPQQIIEEHISGSAATSERPGFNRLLARLKCGDQLIVTKLDRLGCNAMDIRKTVEQLTETGIRVHCLALGGIDLTSPTGKMMMQVISAVAEFERDLLLERTHSGIVRARGAGKRFGRPPVLNEEQKQVVFERIKSGVSISAIAREFKTSRQTILRAKAKLQTPDI" [] ["CCO-CYTOSOL"] +"G6698-MONOMER" "Rac prophage; uncharacterized protein YnaE" ["YnaE", "Rac prophage; cold shock protein YnaE"] "MKSKDTLKWFPAQLPEVRIILGDAVVEVAKQGRPINTRTLLDYIEGNIKKTSWLDNKELLQTAISVLKDNQNLNGKM" [] ["CCO-CYTOSOL"] +"G6699-MONOMER" "nucleotide binding filament protein" ["YzzL", "UspF", "YnaF"] "MNRTILVPIDISDSELTQRVISHVEEEAKIDDAEVHFLTVIPSLPYYASLGLAYSAELPAMDDLKAEAKSQLEEIIKKFKLPTDRVHVHVEEGSPKDRILELAKKIPAHMIIIASHRPDITTYLLGSNAAAVVRHAECSVLVVR" [] ["CCO-CYTOSOL"] +"G6700-MONOMER" "outer membrane porin N" ["YnaG", "OmpN"] "MKSKVLALLIPALLAAGAAHAAEVYNKDGNKLDLYGKVDGLHYFSDNSAKDGDQSYARLGFKGETQINDQLTGYGQWEYNIQANNTESSKNQSWTRLAFAGLKFADYGSFDYGRNYGVMYDIEGWTDMLPEFGGDSYTNADNFMTGRANGVATYRNTDFFGLVNGLNFAVQYQGNNEGASNGQEGTNNGRDVRHENGDGWGLSTTYDLGMGFSAGAAYTSSDRTNDQVNHTAAGGDKADAWTAGLKYDANNIYLATMYSETRNMTPFGDSDYAVANKTQNFEVTAQYQFDFGLRPAVSFLMSKGRDLHAAGGADNPAGVDDKDLVKYADIGATYYFNKNMSTYVDYKINLLDEDDSFYAANGISTDDIVALGLVYQF" ["CCO-MEMBRANE"] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"G6701-MONOMER" "putative pyruvate-flavodoxin oxidoreductase" ["Pfo", "YdbK"] "MITIDGNGAVASVAFRTSEVIAIYPITPSSTMAEQADAWAGNGLKNVWGDTPRVVEMQSEAGAIATVHGALQTGALSTSFTSSQGLLLMIPTLYKLAGELTPFVLHVAARTVATHALSIFGDHSDVMAVRQTGCAMLCAANVQEAQDFALISQIATLKSRVPFIHFFDGFRTSHEINKIVPLADDTILDLMPQVEIDAHRARALNPEHPVIRGTSANPDTYFQSREATNPWYNAVYDHVEQAMNDFSAATGRQYQPFEYYGHPQAERVIILMGSAIGTCEEVVDELLTRGEKVGVLKVRLYRPFSAKHLLQALPGSVRSVAVLDRTKEPGAQAEPLYLDVMTALAEAFNNGERETLPRVIGGRYGLSSKEFGPDCVLAVFAELNAAKPKARFTVGIYDDVTNLSLPLPENTLPNSAKLEALFYGLGSDGSVSATKNNIKIIGNSTPWYAQGYFVYDSKKAGGLTVSHLRVSEQPIRSAYLISQADFVGCHQLQFIDKYQMAERLKPGGIFLLNTPYSADEVWSRLPQEVQAVLNQKKARFYVINAAKIARECGLAARINTVMQMAFFHLTQILPGDSALAELQGAIAKSYSSKGQDLVERNWQALALARESVEEVPLQPVNPHSANRPPVVSDAAPDFVKTVTAAMLAGLGDALPVSALPPDGTWPMGTTRWEKRNIAEEIPIWKEELCTQCNHCVAACPHSAIRAKVVPPEAMENAPASLHSLDVKSRDMRGQKYVLQVAPEDCTGCNLCVEVCPAKDRQNPEIKAINMMSRLEHVEEEKINYDFFLNLPEIDRSKLERIDIRTSQLITPLFEYSGACSGCGETPYIKLLTQLYGDRMLIANATGCSSIYGGNLPSTPYTTDANGRGPAWANSLFEDNAEFGLGFRLTVDQHRVRVLRLLDQFADKIPAELLTALKSDATPEVRREQVAALRQQLNDVAEAHELLRDADALVEKSIWLIGGDGWAYDIGFGGLDHVLSLTENVNILVLDTQCYSNTGGQASKATPLGAVTKFGEHGKRKARKDLGVSMMMYGHVYVAQISLGAQLNQTVKAIQEAEAYPGPSLIIAYSPCEEHGYDLALSHDQMRQLTATGFWPLYRFDPRRADEGKLPLALDSRPPSEAPEETLLHEQRFRRLNSQQPEVAEQLWKDAAADLQKRYDFLAQMAGKAEKSNTD" [] ["CCO-PM-BAC-NEG"] +"G6702-MONOMER" "lipoprotein implicated in Novobiocin resistance" ["YdbI", "HslJ"] "MKKVAAFVALSLLMAGCVSNDKIAVTPEQLQHHRFVLESVNGKPVTSDKNPPEISFGEKMMISGSMCNRFSGEGKLSNGELTAKGLAMTRMMCANPQLNELDNTISEMLKEGAQVDLTANQLTLATAKQTLTYKLADLMN" [] ["CCO-MEMBRANE"] +"G6703-MONOMER" "PF11739 family protein YdbH" ["YdbH"] "MLGKYKAVLALLLLIILVPLTLLMTLGLWVPTLAGIWLPLGTRIALDESPRITRKGLIIPDLRYLVGDCQLAHITNASLSHPSRWLLNVGTVELDSACLAKLPQTEQSPAAPKTLAQWQAMLPNTWINIDKLIFSPWQEWQGKLSLALTSDIQQLRYQGEKVKFQGQLKGQQLTVSELDVVAFENQPPVKLVGEFAMPLVPDGLPVSGHATATLNLPQEPSLVDAELDWQENSGQLIVLARDNGDPLLDLPWQITRQQLTVSDGRWSWPYAGFPLSGRLGVKVDNWQAGLENALVSGRLSVLTQGQAGKGNAVLNFGPGKLSMDNSQLPLQLTGEAKQADLILYARLPAQLSGSLSDPTLTFEPGALLRSKGRVIDSLDIDEIRWPLAGVKVTQRGVDGRLQAILQAHENELGDFVLHMDGLANDFLPDAGRWQWRYWGKGSFTPMNATWDVAGKGEWHDSTITLTDLSTGFDQLQYGTMTVEKPRLILDKPIVWVRDAQHPSFSGALSLDAGQTLFTGGSVLPPSTLKFSVDGRDPTYFLFKGDLHAGEIGPVRVNGRWDGIRLRGNAWWPKQSLTVFQPLVPPDWKMNLRDGELYAQVAFSAAPEQGFRAGGHGVLKGGSAWMPDNQVNGVDFVLPFRFADGAWHLGTRGPVTLRIAEVINLVTAKNITADLQGRYPWTEEEPLLLTDVSVDVLGGNVLMKQLRMPQHDPALLRLNNLSSSELVSAVNPKQFAMSGAFSGALPLWLNNEKWIVKDGWLANSGPMTLRLDKDTADAVVKDNMTAGSAINWLRYMEISRSSTKINLDNLGLLTMQANITGTSRVDGKSGTVNLNYHHEENIFTLWRSLRFGDNLQAWLEQNARLPGNDCPQGKECEEKQ" ["CCO-PM-BAC-NEG"] [] +"G6704-MONOMER" "lipoprotein YnbE" ["YnbE"] "MKILLAALTSSFMLVGCTPRIEVAAPKEPITINMNVKIEHEIIIKADKDVEELLETRSDLF" [] ["CCO-CYTOSOL"] +"G6705-MONOMER" "DUF1318 domain-containing protein YdbL" ["YdbL"] "MKKTLLLCAFLVGLVSSNVMALTLDEARTQGRVGETFYGYLVALKTDAETEKLVADINAERKASYQQLAKQNNVSVDDIAKLAGQKLVARAKPGEYVQGINGKWVRKF" [] ["CCO-CYTOSOL"] +"G6706-MONOMER" "DNA-binding transcriptional activator FeaR" ["MaoX", "YdbM", "MaoB", "FeaR"] "MNPAVDNEFQQWLSQINQVCGNFTGRLLTERYTGVLDTHFAKGLKLSTVTTSGVNLSRTWQEVKGSDDAWFYTVFQLSGQAIMEQDERQVQIGAGDITLLDASRPCSLYWQESSKQISLLLPRTLLEQYFPHQKPICAERLDADLPMVQLSHRLLQESMNNPALSETESEAALQAMVCLLRPVLHQRESVQPRRERQFQKVVTLIDDNIREEILRPEWIAGETGMSVRSLYRMFADKGLVVAQYIRNRRLDFCADAIRHAADDEKLAGIGFHWGFSDQSHFSTVFKQRFGMTPGEYRRKFR" [] ["CCO-CYTOSOL"] +"G6708-MONOMER" "fused 3-oxo-5,6-dehydrosuberyl-CoA semialdehyde dehydrogenase and oxepin-CoA hydrolase" ["YdbN", "PaaZ", "MaoC", "oxepin-CoA hydrolase/3-oxo-5,6-dehydrosuberyl-CoA semialdehyde dehydrogenase"] "MQQLASFLSGTWQSGRGRSRLIHHAISGEALWEVTSEGLDMAAARQFAIEKGAPALRAMTFIERAAMLKAVAKHLLSEKERFYALSAQTGATRADSWVDIEGGIGTLFTYASLGSRELPDDTLWPEDELIPLSKEGGFAARHLLTSKSGVAVHINAFNFPCWGMLEKLAPTWLGGMPAIIKPATATAQLTQAMVKSIVDSGLVPEGAISLICGSAGDLLDHLDSQDVVTFTGSAATGQMLRVQPNIVAKSIPFTMEADSLNCCVLGEDVTPDQPEFALFIREVVREMTTKAGQKCTAIRRIIVPQALVNAVSDALVARLQKVVVGDPAQEGVKMGALVNAEQRADVQEKVNILLAAGCEIRLGGQADLSAAGAFFPPTLLYCPQPDETPAVHATEAFGPVATLMPAQNQRHALQLACAGGGSLAGTLVTADPQIARQFIADAARTHGRIQILNEESAKESTGHGSPLPQLVHGGPGRAGGGEELGGLRAVKHYMQRTAVQGSPTMLAAISKQWVRGAKVEEDRIHPFRKYFEELQPGDSLLTPRRTMTEADIVNFACLSGDHFYAHMDKIAAAESIFGERVVHGYFVLSAAAGLFVDAGVGPVIANYGLESLRFIEPVKPGDTIQVRLTCKRKTLKKQRSAEEKPTGVVEWAVEVFNQHQTPVALYSILTLVARQHGDFVD" [] ["CCO-CYTOSOL"] +"G6709-MONOMER" "phenylacetyl-CoA 1,2-epoxidase, monooxygenase subunit" ["YdbO", "PaaA"] "MTQEERFEQRIAQETAIEPQDWMPDAYRKTLIRQIGQHAHSEIVGMLPEGNWITRAPTLRRKAILLAKVQDEAGHGLYLYSAAETLGCAREDIYQKMLDGRMKYSSIFNYPTLSWADIGVIGWLVDGAAIVNQVALCRTSYGPYARAMVKICKEESFHQRQGFEACMALAQGSEAQKQMLQDAINRFWWPALMMFGPNDDNSPNSARSLTWKIKRFTNDELRQRFVDNTVPQVEMLGMTVPDPDLHFDTESGHYRFGEIDWQEFNEVINGRGICNQERLDAKRKAWEEGTWVREAALAHAQKQHARKVA" [] ["CCO-CYTOSOL"] +"G6710-MONOMER" "phenylacetyl-CoA 1,2-epoxidase subunit B" ["YnbF", "PaaB"] "MSNVYWPLYEVFVRGKQGLSHRHVGSLHAADERMALENARDAYTRRSEGCSIWVVKASEIVASQPEERGEFFDPAESKVYRHPTFYTIPDGIEHM" [] ["CCO-CYTOSOL"] +"G6711-MONOMER" "phenylacetyl-CoA 1,2-epoxidase, structural subunit" ["YdbP", "PaaC"] "MNQLTAYTLRLGDNCLVLSQRLGEWCGHAPELEIDLALANIGLDLLGQARNFLSYAAELAGEGDEDTLAFTRDERQFSNLLLVEQPNGNFADTIARQYFIDAWHVALFTRLMESRDPQLAAISAKAIKEARYHLRFSRGWLERLGNGTDVSGQKMQQAINKLWRFTAELFDADEIDIALSEEGIAVDPRTLRAAWEAEVFAGINEATLNVPQEQAYRTGGKKGLHTEHLGPMLAEMQYLQRVLPGQQW" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G6712-MONOMER" "phenylacetate degradation protein" ["YdbQ", "PaaD"] "MQRLATIAPPQVHEIWALLSQIPDPEIPVLTITDLGMVRNVTQMGEGWVIGFTPTYSGCPATEHLIGAIREAMTTNGFTPVQVVLQLDPAWTTDWMTPDARERLREYGISPPAGHSCHAHLPPEVRCPRCASVHTTLISEFGSTACKALYRCDSCREPFDYFKCI" [] ["CCO-CYTOSOL"] +"G6713-MONOMER" "phenylacetyl-CoA 1,2-epoxidase, reductase subunit" ["YdbR", "PaaE"] "MTTFHSLTVAKVESETRDAVTITFAVPQPLQEAYRFRPGQHLTLKASFDGEELRRCYSICRSYLPGEISVAVKAIEGGRFSRYAREHIRQGMTLEVMVPQGHFGYQPQAERQGRYLAIAAGSGITPMLAIIATTLQTEPESQFTLIYGNRTSQSMMFRQALADLKDKYPQRLQLLCIFSQETLDSDLLHGRIDGEKLQSLGASLINFRLYDEAFICGPAAMMDDAETALKALGMPDKTIHLERFNTPGTRVKRSVNVQSDGQKVTVRQDGRDREIVLNADDESILDAALRQGADLPYACKGGVCATCKCKVLRGKVAMETNYSLEPDELAAGYVLSCQALPLTSDVVVDFDAKGMA" [] ["CCO-CYTOSOL"] +"G6714-MONOMER" "putative 2,3-dehydroadipyl-CoA hydratase" ["YdbR", "YdbS", "PaaF"] "MSELIVSRQQRVLLLTLNRPAARNALNNALLMQLVNELEAAATDTSISVCVITGNARFFAAGADLNEMAEKDLAATLNDTRPQLWARLQAFNKPLIAAVNGYALGAGCELALLCDVVVAGENARFGLPEITLGIMPGAGGTQRLIRSVGKSLASKMVLSGESITAQQAQQAGLVSDVFPSDLTLEYALQLASKMARHSPLALQAAKQALRQSQEVALQAGLAQERQLFTLLAATEDRHEGISAFLQKRTPDFKGR" [] ["CCO-CYTOSOL", "CCO-PM-BAC-NEG"] +"G6715-MONOMER" "putative ring 1,2-epoxyphenylacetyl-CoA isomerase (oxepin-CoA forming)" ["YdbT", "PaaG"] "MMEFILSHVEKGVMTLTLNRPERLNSFNDEMHAQLAECLKQVERDDTIRCLLLTGAGRGFCAGQDLNDRNVDPTGPAPDLGMSVERFYNPLVRRLAKLPKPVICAVNGVAAGAGATLALGGDIVIAARSAKFVMAFSKLGLIPDCGGTWLLPRVAGRARAMGLALLGNQLSAEQAHEWGMIWQVVDDETLADTAQQLARHLATQPTFGLGLIKQAINSAETNTLDTQLDLERDYQRLAGRSADYREGVSAFLAKRSPQFTGK" [] ["CCO-CYTOSOL"] +"G6716-MONOMER" null ["YdbU", "HbdH", "PaaH", "3-hydroxyadipyl-CoA dehydrogenase (NAD+)"] "MMINVQTVAVIGSGTMGAGIAEVAASHGHQVLLYDISAEALTRAIDGIHARLNSRVTRGKLTAETCERTLKRLIPVTDIHALAAADLVIEAASERLEVKKALFAQLAEVCPPQTLLTTNTSSISITAIAAEIKNPERVAGLHFFNPAPVMKLVEVVSGLATAAEVVEQLCELTLSWGKQPVRCHSTPGFIVNRVARPYYSEAWRALEEQVAAPEVIDAALRDGAGFPMGPLELTDLIGQDVNFAVTCSVFNAFWQERRFLPSLVQQELVIGGRLGKKSGLGVYDWRAEREAVVGLEAVSDSFSPMKVEKKSDGVTEIDDVLLIETQGETAQALAIRLARPVVVIDKMAGKVVTIAAAAVNPDSATRKAIYYLQQQGKTVLQIADYPGMLIWRTVAMIINEALDALQKGVASEQDIDTAMRLGVNYPYGPLAWGAQLGWQRILRLLENLQHHYGEERYRPCSLLRQRALLESGYES" [] ["CCO-CYTOSOL"] +"G6717-MONOMER" "phenylacetyl-CoA thioesterase" ["YdbV", "PaaI"] "MSHKAWQNAHAMYENDACAKALGIDIISMDEGFAVVTMTVTAQMLNGHQSCHGGQLFSLADTAFAYACNSQGLAAVASACTIDFLRPGFAGDTLTATAQVRHQGKQTGVYDIEIVNQQQKTVALFRGKSHRIGGTITGEA" [] ["CCO-CYTOSOL"] +"G6718-MONOMER" "β-ketoadipyl-CoA thiolase" ["YdbW", "PaaJ"] "MREAFICDGIRTPIGRYGGALSSVRADDLAAIPLRELLVRNPRLDAECIDDVILGCANQAGEDNRNVARMATLLAGLPQSVSGTTINRLCGSGLDALGFAARAIKAGDGDLLIAGGVESMSRAPFVMGKAASAFSRQAEMFDTTIGWRFVNPLMAQQFGTDSMPETAENVAELLKISREDQDSFALRSQQRTAKAQSSGILAEEIVPVVLKNKKGVVTEIQHDEHLRPETTLEQLRGLKAPFRANGVITAGNASGVNDGAAALIIASEQMAAAQGLTPRARIVAMATAGVEPRLMGLGPVPATRRVLERAGLSIHDMDVIELNEAFAAQALGVLRELGLPDDAPHVNPNGGAIALGHPLGMSGARLALAASHELHRRNGRYALCTMCIGVGQGIAMILERV" [] ["CCO-CYTOSOL"] +"G6719-MONOMER" "phenylacetate-CoA ligase" ["PaaK"] "MITNTKLDPIETASVDELQALQTQRLKWTLKHAYENVPMYRRKFDAAGVHPDDFRELSDLRKFPCTTKQDLRDNYPFDTFAVPMEQVVRIHASSGTTGKPTVVGYTQNDIDNWANIVARSLRAAGGSPKDKIHVAYGYGLFTGGLGAHYGAERLGATVIPMSGGQTEKQAQLIRDFQPDMIMVTPSYCLNLIEELERQLGGDASGCSLRVGVFGAEPWTQAMRKEIERRLGITALDIYGLSEVMGPGVAMECLETTDGPTIWEDHFYPEIVNPHDGTPLADGEHGELLFTTLTKEALPVIRYRTRDLTRLLPGTARTMRRMDRISGRSDDMLIIRGVNVFPSQLEEEIVKFEHLSPHYQLEVNRRGHLDSLSVKVELKESSLTLTHEQRCQVCHQLRHRIKSMVGISTDVMIVNCGSIPRSEGKACRVFDLRNIVGA" [] ["CCO-CYTOSOL"] +"G6720-MONOMER" "DNA-binding transcriptional repressor PaaX" ["YdbY", "PaaX"] "MSKLDTFIQHAVNAVPVSGTSLISSLYGDSLSHRGGEIWLGSLAALLEGLGFGERFVRTALFRLNKEGWLDVSRIGRRSFYSLSDKGLRLTRRAESKIYRAEQPAWDGKWLLLLSEGLDKSTLADVKKQLIWQGFGALAPSLMASPSQKLADVQTLLHEAGVADNVICFEAQIPLALSRAALRARVEECWHLTEQNAMYETFIQSFRPLVPLLKEAADELTPERAFHIQLLLIHFYRRVVLKDPLLPEELLPAHWAGHTARQLCINIYQRVAPAALAFVSEKGETSVGELPAPGSLYFQRFGGLNIEQEALCQFIR" [] ["CCO-CYTOSOL"] +"G6721-MONOMER" "2-hydroxycyclohepta-1,4,6-triene-1-carboxyl-CoA thioesterase" ["YdbZ", "PaaY"] "MPIYQIDGLTPVVPEESFVHPTAVLIGDVILGKGVYVGPNASLRGDFGRIVVKDGANIQDNCVMHGFPEQDTVVGEDGHIGHSAILHGCIIRRNALVGMNAVVMDGAVIGENSIVGASAFVKAKAEMPANYLIVGSPAKAIRELSEQELAWKKQGTHEYQVLVTRCKQTLHQVEPLREIEPGRKRLVFDENLRPKQ" [] ["CCO-CYTOSOL"] +"G6722-MONOMER" "putative outer membrane protein, N-terminal fragment" ["YdbA_1", "YdbA"] "MQRKTLLSACIALALSGQGWAADITEVETTTGEKKNTNVTCPADPGKLSPEELKRLPSECSPLVEQNLMPWLSTGAAALITALAVVELNDDDDHHHRNNSPLPPTPPDDESDDTPVPPTPGGDEIIPDDPDDTPTPPKPVSFNNDVILDKTEKTLTIRDSVFTYTENADGTISLQDSNGRKATINLWQIDEANNTVALEGVSADGATKWQYNHNGELVITGDNATVNNNGKTTVDGKDSTGTEINGNNGKVIQDGDLDVSGGGHGIDITGDSATVDNKGTMTVTDPESMGIQIDGDKAIVNNEGESTITNGGTGTQINGDDATANNNGKTTVDGKDSTGTEINGNNGKVIQDGDLDVSGGGHGIDITGDSATVDNKGTMTVTDPESIGIQVDGDQAVVNNEGESAITNGGTGTQINGDDATANNNGKTTVDGKDSTGTEIAGNNGKVIQDGDLDVSGGGHGIDITGDSATVDNKGTMTVTDPESIGIQIDGDQAIVNNEGESTITNGGTGTQINGNDATANNSGKTTVDGKDSTGTKIAGNIGIVNLDGSLTVTGGAHGVENIGDNGTVNNKGDIVVSDTGSIGVLINGEGATVSNTGDVNVSNEATGFSITTNSGKVSLAGSMQVGDFSTGVDLNGNNNSVTLAAKDLKVVGQKATGINVSGDANTVNITGNVLVDKDKTADNAAEYFFDPSVGINVYGSDNNVTLDGKLTVVSDSEVTSRQSNLFDGSAEKTSGLVVIGDGNTVNMNGGLELIGEKNALADGSQVTSLRTGYSYTSVIVVSGESSVYLNGDTTISGEFPLGFAGVIRVQDKALLEIGSGATLTMQDIDSFEHHGTRTPELTYADSGAKIVNKGTVEIQNLGFAFVTGENTTGINSGTISLLQNGKDPAPSPIVLLATNGGSATNAGTITGKVTEQHSVFNKYSTGTSNSFIFNNDVSSITGLVAQSNSTIINTDSGIIDLYGRGSVGMLAIADSTAENQGKITLDSMWVDANDTTAMRDIASNSAIDFGTGVGVGTDSYSGAGKNATAINQLGGVITIYNAGAGMAAYGASNTVINQGTINLEKNGNYDDSLAANTLVGMAVYEHGTAINDQTGVININVGTGQAFYNDGTGTIVNYGTICTFGVCQSGNEYNNTDDFTSLIYTGGDTITRSGETVTLNKSAAVTDKLAGNVVNSGTLSGDQITVSSGLLENTSGGIINNLVKLDKGAVIKNAGVMTNNVDVSGGILNNAGEMTAQITMNAGADSSLVNNTGTINKIVQNAGVFNNSGSVTGRMMSAGGVFNNQTDGAIMRGAALTGTAVANNEGTWNLGSSSEGNNTGMLEVNNNSAFNNRGEFILDNDKNAVHINQSGTLYNTGHMNISNSSHNGAVNMWGGNGRFINDGTIDVSAKSLVVSANNAGDQNAFFWNQDNGVINFDHDSASAVKVTHSNFIAQNDGIMNISGTGAVAMEGDKNAQLVNNGTINLGTAGTTDTGMIGMQLDANATADAVIENNGTINIFANDSFAFSVLGTVGHVVNNGTVVIADGVTGSGLIKQGDSINVEGMNGNNGNSSEVHYGDYTLPDVPKPNTVSVTSGSDEAGGSMNNLNGYVVGTNVNGSAGKLKVNNASMNGVEINTGFTAGTADTTVSFDNVVEGSNLTDADAITSTSVVWTAKGSTDASGNVDVTMSKNAYTDVATDASVNDIAKALDAGYTNNELFTSLNVGTTAELNSALKQVSGSQATTVFREARVLSNRFSMLADAAPKVGNGLAFNVVAKGDPRAELGNNTEYDMLALRKTIDLSESQTMSLEYGIARLDGDGAQKAGDNGVTGGYSQFFGLKHQMSFDNGMNWNNALRYDVHNLDSSRSIAFGNTNKTADTDVKQQYLEFRSEGAKTFEPSEGLKVTPYAGVKLRHTLEGGYQERNAGDFNLNMNSGSETAVDSIVGLKLDYAGKDGWSASATLEGGPNLSYAKSQRTASLAGAGSQHFNVDDGQKGGGINSLTSVGVKYSSKESSLNLDAYNWKEDGISDKGVMLNFKKTF" [] ["CCO-MEMBRANE"] +"G6725-MONOMER" "IS30 transposase" ["Tra8-2", "InsI2"] "MRRTFTAEEKASVFELWKNGTGFSEIANILGSKPGTIFTMLRDTGGIKPHERKRAVAHLTLSEREEIRAGLSAKMSIRAIATALNRSPSTISREVQRNRGRRYYKAVDANNRANRMAKRPKPCLLDQNLPLRKLVLEKLEMKWSPEQISGWLRRTKPRQKTLRISPETIYKTLYFRSREALHHLNIQHLRRSHSLRHGRRHTRKGERGTINIVNGTPIHERSRNIDNRRSLGHWEGDLVSGTKNSHIATLVDRKSRYTIILRLRGKDSVSVNQALTDKFLSLPSELRKSLTWDRGMELARHLEFTVSTGVKVYFCDPQSPWQRGTNENTNGLIRQYFPKKTCLAQYTQHELDLVAAQLNNRPRKTLKFKTPKEIIERGVALTD" [] ["CCO-CYTOSOL"] +"G6727-MONOMER" "CDP-alcohol phosphatidyltransferase domain-containing protein YnbA" ["YnbA"] "MTLYQIKPLFQSLLRPTMFWLYKHHVTANHITLAALALSLLTGLLLMLAAQPILFLLLPIVLFIRMALNALDGMLARECNQQTRLGAILNETGDVISDIALYLPFLFLPESNASLVILMLFCTILTEFCGLLAQTINGVRSYAGPFGKSDRALIFGLWGLAVAIYPQWMQWNNLLWSIASILLLWTAINRCRSVLLMSAEI" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6728-MONOMER" "putative CDP-diglyceride synthase" ["YnbB"] "MLEKSLATLFALLILATLINRFLLWRLPERKGGEVTLRIRTWWGIVICFSMVISGPRWMTLTFFALISFLALKEYCTLISVHFPRWLYWGIPLNYLLIGFNCFELFLLFIPLAGFLILATGQVLVGDPSGFLHTVSAIFWGWIMTVFALSHAAWLLMLPTTNIQGGALLVLFLLALTESNDIAQYLWGKSCGRRKVVPKVSPGKTLEGLMGGVITIMIASLIIGPLLTPLNTLQALLAGLLIGISGFCGDVVMSAIKRDIGVKDSGKLLPGHGGLLDRIDSLIFTAPVFFYFIRYCCY" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6729-MONOMER" "hydrolase/methyltransferase domain-containing protein YnbC" ["YnbC"] "MENSRIPGEHFFTTSDNTALFYRHWPALQPGAKKVIVLFHRGHEHSGRLQHLVDELAMPDTAFYAWDARGHGKSSGPRGYSPSLARSVRDVDEFVRFAASDSQVGLEEVVVIAQSVGAVLVATWIHDYAPAIRGLVLASPAFKVKLYVPLARPALALWHRLRGLFFINSYVKGRYLTHDRQRGASFNNDPLITRAIAVNILLDLYKTSERIIRDAAAITLPTQLLISGDDYVVHRQPQIDFYQRLRSPLKELHLLPGFYHDTLGEENRALAFEKMQSFISRLYANKSQKFDYQHEDCTGPSADRWRLLSGGPVPLSPVDLAYRFMRKAMKLFGTHSSGLHLGMSTGFDSGSSLDYVYQNQPQGSNAFGRLVDKIYLNSVGWRGIRQRKTHLQILIKQAVADLHAKGLAVRVVDIAAGHGRYVLDALANEPAVSDILLRDYSELNVAQGQEMIAQRGMSGRVRFEQGDAFNPEELSALTPRPTLAIVSGLYELFPENEQVKNSLAGLANAIEPGGILIYTGQPWHPQLEMIAGVLTSHKDGKPWVMRVRSQGEMDSLVRDAGFDKCTQRIDEWGIFTVSMAVRRDN" [] ["CCO-CYTOSOL", "CCO-MEMBRANE"] +"G6730-MONOMER" "phosphatase domain-containing protein YnbD" ["YnbD"] "MLQGAGWLLLLAPFFFFTYGSLNQFTAVQDLNSHDIPSQVFGWETAIPFLPWTIVPYWSLDLLYGFSLFVCSTTFEQRRLVHRLILATVMACCGFLLYPLKFSFIRPEVSGVTGWLFSQLELFDLPYNQSPSLHIILCWLLWRHFRQHLAERWRKVCGGWFLLIAISTLTTWQHHFIDVITGLAVGMLIDWMVPVDRRWNYQKPDQRRIKIALPYVVGAGSCIVLMELMMMIQLWWSVWLCWPVLSLLIIGRGYGGLGAITTGKDSQGKLPPAVYWLTLPCRIGMWLSMRWFCRRLEPVSKMTAGVYLGAFPRHIPAQNAVLDVTFEFPRGRATKDRLYFCVPMLDLVVPEEGELRQAVAMLETLREEQGSVLVHCALGLSRSALVVAAWLLCYGHCKTVNEAISYIRARRPQIVLTDEHKAMLRLWENR" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6731-MONOMER" "FMN dependent NADH:quinone oxidoreductase" ["AzoR", "AcpD", "FMN dependent azoreductase"] "MSKVLVLKSSILAGYSQSNQLSDYFVEQWREKHSADEITVRDLAANPIPVLDGELVGALRPSDAPLTPRQQEALALSDELIAELKAHDVIVIAAPMYNFNISTQLKNYFDLVARAGVTFRYTENGPEGLVTGKKAIVITSRGGIHKDGPTDLVTPYLSTFLGFIGITDVKFVFAEGIAYGPEMAAKAQSDAKAAIDSIVSA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G6732-MONOMER" "ATP-dependent RNA helicase HrpA" ["HrpA"] "MTEQQKLTFTALQQRLDSLMLRDRLRFSRRLHGVKKVKNPDAQQAIFQEMAKEIDQAAGKVLLREAARPEITYPDNLPVSQKKQDILEAIRDHQVVIVAGETGSGKTTQLPKICMELGRGIKGLIGHTQPRRLAARTVANRIAEELKTEPGGCIGYKVRFSDHVSDNTMVKLMTDGILLAEIQQDRLLMQYDTIIIDEAHERSLNIDFLLGYLKELLPRRPDLKIIITSATIDPERFSRHFNNAPIIEVSGRTYPVEVRYRPIVEEADDTERDQLQAIFDAVDELSQESHGDILIFMSGEREIRDTADALNKLNLRHTEILPLYARLSNSEQNRVFQSHSGRRIVLATNVAETSLTVPGIKYVIDPGTARISRYSYRTKVQRLPIEPISQASANQRKGRCGRVSEGICIRLYSEDDFLSRPEFTDPEILRTNLASVILQMTALGLGDIAAFPFVEAPDKRNIQDGVRLLEELGAITTDEQASAYKLTPLGRQLSQLPVDPRLARMVLEAQKHGCVREAMIITSALSIQDPRERPMDKQQASDEKHRRFHDKESDFLAFVNLWNYLGEQQKALSSNAFRRLCRTDYLNYLRVREWQDIYTQLRQVVKELGIPVNSEPAEYREIHIALLTGLLSHIGMKDADKQEYTGARNARFSIFPGSGLFKKPPKWVMVAELVETSRLWGRIAARIDPEWVEPVAQHLIKRTYSEPHWERAQGAVMATEKVTVYGLPIVAARKVNYSQIDPALCRELFIRHALVEGDWQTRHAFFRENLKLRAEVEELEHKSRRRDILVDDETLFEFYDQRISHDVISARHFDSWWKKVSRETPDLLNFEKSMLIKEGAEKISKLDYPNFWHQGNLKLRLSYQFEPGADADGVTVHIPLPLLNQVEESGFEWQIPGLRRELVIALIKSLPKPVRRNFVPAPNYAEAFLGRVKPLELPLLDSLERELRRMTGVTVDREDWHWDQVPDHLKITFRVVDDKNKKLKEGRSLQDLKDALKGKVQETLSAVADDGIEQSGLHIWSFGQLPESYEQKRGNYKVKAWPALVDERDSVAIKLFDNPLEQKQAMWNGLRRLLLLNIPSPIKYLHEKLPNKAKLGLYFNPYGKVLELIDDCISCGVDKLIDANGGPVWTEEGFAALHEKVRAELNDTVVDIAKQVEQILTAVFNINKRLKGRVDMTMALGLSDIKAQMGGLVYRGFVTGNGFKRLGDTLRYLQAIEKRLEKLAVDPHRDRAQMLKVENVQQAWQQWINKLPPARREDEDVKEIRWMIEELRVSYFAQQLGTPYPISDKRILQAMEQISG" [] ["CCO-CYTOSOL"] +"G6736-MONOMER" "putative regulatory protein MokB" ["MokB", "regulatory peptide whose translation enables hokB expression"] "MNLAIQILASYPPSGKEKGYEAQPSGGVSAHYLHYDSDIHTPDPTNALRTAVPGR" [] ["CCO-CYTOSOL"] +"G6737-MONOMER" "DNA-binding transcriptional dual regulator YdcI" ["YdcI"] "MEKNSLFSQRIRLRHLHTFVAVAQQGTLGRAAETLNLSQPALSKTLNELEQLTGARLFERGRQGAQLTLPGEQFLTHAVRVLDAINTAGRSLHRKEGLNNDVVRVGALPTAALGILPSVIGQFHQQQKETTLQVATMSNPMILAGLKTGEIDIGIGRMSDPELMTGLNYELLFLESLKLVVRPNHPLLQENVTLSRVLEWPVVVSPEGTAPRQHSDALVQSQGCKIPSGCIETLSASLSRQLTVEYDYVWFVPSGAVKDDLRHATLVALPVPGHGAGEPIGILTRVDATFSSGCQLMINAIRKSMPF" [] ["CCO-CYTOSOL"] +"G6738-MONOMER" "DUF1338 domain-containing protein YdcJ" ["YdcJ"] "MANSITADEIREQFSQAMSAMYQQEVPQYGTLLELVADVNLAVLENNPQLHEKMVNADELARLNVERHGAIRVGTAQELATLRRMFAIMGMYPVSYYDLSQAGVPVHSTAFRPIDDASLARNPFRVFTSLLRLELIENEILRQKAAEILRQRDIFTPRCRQLLEEYEQQGGFNETQAQEFVQEALETFRWHQSATVDEETYRALHNEHRLIADVVCFPGCHINHLTPRTLDIDRVQSMMPECGIEPKILIEGPPRREVPILLRQTSFKALEETVLFAGQKQGTHTARFGEIEQRGVALTPKGRQLYDDLLRNAGTGQDNLTHQMHLQETFRTFPDSEFLMRQQGLAWFRYRLTPSGEAHRQAIHPGDDPQPLIERGWVVAQPITYEDFLPVSAAGIFQSNLGNETQTRSHGNASREAFEQALGCPVLDEFQLYQEAEERSKRRCGLL" [] ["CCO-CYTOSOL"] +"G6741-MONOMER" "putative enzyme YdcK" ["YdcK"] "MRKYRLSEEQRAFSYQEDGTKKNVLLRQIIAISDFNDVIAGTAGGWIDRETVLAQEGNCWIYDQNAIAFGGAVISGNTRITGTSVLWGEVYATDNVWIDNSEISQGAYISDSVTIHDSLVYGQCRIFGHALIDQHSMIVAAQGLTPDHQLLLQIYDRARVSASRIVHQAQIYGDAVVRYAFIEHRAEVFDFASIEGNEENNVWLCDCAKVYGHAQVKAGIEEDAIPTIHYSSQVAEYAIVEGNCVLKHHVLVGGNAVVRGGPILLDEHVVIQGESRITGAVIIENHVELTDHAVVEAFDGDTVHVRGPKVINGEERITRTPLAGLL" [] ["CCO-CYTOSOL"] +"G6742-MONOMER" "DUF3313 domain-containing lipoprotein YdcL" ["YdcL"] "MRTTSFAKVAALCGLLALSGCASKITQPDKYSGFLNNYSDLKETTSATGKPVLRWVDPSFDQSKYDSIVWNPITYYPVPKPSTQVGQKVLDKILNYTNTEMKEAIAQRKPLVTTAGPRSLIFRGAITGVDTSKEGLQFYEVVPVALVVAGTQMATGHRTMDTRLYFEGELIDAATNKPVIKVVRQGEGKDLNNESTPMAFENIKQVIDDMATDATMFDVNKK" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE", "CCO-PERI-BAC"] +"G6743-MONOMER" "putative insertion element transposase InsQ" ["InsQ", "YdcM"] "MRRFAGACRFVFNRALARQNENHEAGNKYIPYGKMASWLVEWKNATETQWLKDSPSQPLQQSLKDLERAYKNFFRKRAAFPRFKKRGQNDAFRYPQGVKLDQENSRIFLPKLGWMRYRNSRQVTGVVKNVTVSQSCGKWYISIQTESEVSTPVHPSASMVGLDAGVAKLATLSDGTVFEPVNSFQKNQKKLARLQRQLSRKVKFSNNWQKQKRKIQRLHSCIANIRRDYLHKVTTAVSKNHAMIVIEDLKVSNMSKSAAGTVSQPGRNVRAKSGLNRSILDQGWYEMRRQLAYKQLWRGGQVLAVPPAYTSQRCAYCGHTAKENRLSQSKFRCQVCGYTANADVNGARNILAAGHAVLACGEMVQSGRPLKQEPTEMIQATA" [] ["CCO-CYTOSOL"] +"G6745-MONOMER" "DNA-binding transcriptional dual regulator SutR" ["SutR", "YdcN"] "MENLARFLSTTLKQLRQQRGWSLSRLAEATGVSKAMLGQIERNESSPTVATLWKIATGLNVPFSTFISPPQSATPSVYDPQQQAMVITSLFPYDPQLCFEHFSIQMASGAISESTPHEKGVIEHVVVIDGQLDLCVDGEWQTLNCGEGVRFAADVTHIYRNGGEQTVHFHSLIHYPRS" [] ["CCO-CYTOSOL"] +"G6746-MONOMER" "23S rRNA 5-hydroxycytidine C2501 synthase" ["RlhA", "YdcP"] "MTVSSHRLELLSPARDAAIAREAILHGADAVYIGGPGFGARHNASNSLKDIAELVPFAHRYGAKIFVTLNTILHDDELEPAQRLITDLYQTGVDALIVQDMGILELDIPPIELHASTQCDIRTVEKAKFLSDVGFTQIVLARELNLDQIRAIHQATDATIEFFIHGALCVAYSGQCYISHAQTGRSANRGDCSQACRLPYTLKDDQGRVVSYEKHLLSMKDNDQTANLGALIDAGVRSFKIEGRYKDMSYVKNITAHYRQMLDAIIEERGDLARASSGRTEHFFVPSTEKTFHRGSTDYFVNARKGDIGAFDSPKFIGLPVGEVVKVAKDHLDVAVTEPLANGDGLNVLIKREVVGFRANTVEKTGENQYRVWPNEMPADLHKIRPHHPLNRNLDHNWQQALTKTSSERRVAVDIELGGWQEQLILTLTSEEGVSITHTLDGQFDEANNAEKAMNNLKDGLAKLGQTLYYARDVQINLPGALFVPNSLLNQFRREAADMLDAARLASYQRGSRKPVADPAPVYPQTHLSFLANVYNQKAREFYHRYGVQLIDAAYEAHEEKGEVPVMITKHCLRFAFNLCPKQAKGNIKSWKATPMQLVNGDEVLTLKFDCRPCEMHVIGKIKNHILKMPLPGSVVASVSPDELLKTLPKRKG" [] ["CCO-CYTOSOL"] +"G6747-MONOMER" "protein YncJ" ["YncJ"] "MFTKALSVVLLTCALFSGQLMAGHKGHEFVWVKNVDHQLRHEADSDELRAVAEESAEGLREHFYWQKSRKPEAGQR" [] ["CCO-CYTOSOL"] +"G6749-MONOMER" "antitoxin of the HicA-HicB toxin-antitoxin system / DNA-binding transcriptional repressor HicB" ["YdcQ", "HicB"] "MRYPVTLTPAPEGGYMVSFVDIPEALTQGETVAEAMEAAKDALLTAFDFYFEDNELIPLPSPLNSHDHFIEVPLSVASKVLLLNAFLQSEITQQELARRIGKPKQEITRLFNLHHATKIDAVQLAAKALGKELSLVMV" [] ["CCO-CYTOSOL"] +"G6750-MONOMER" "fused putative DNA-binding transcriptional regulator/putative aminotransferase YdcR" ["YdcR"] "MKKYQQLAEQLREQIASGIWQPGDRLPSLRDQVALSGMSFMTVSHAYQLLESQGYIIARPQSGYYVAPQAIKMPKAPVIPVTRDEAVDINTYIFDMLQASRDPSVVPFASAFPDPRLFPLQQLNRSLAQVSKTATAMSVIENLPPGNAELRQAIARRYALQGITISPDEIVITAGALEALNLSLQAVTEPGDWVIVENPCFYGALQALERLRLKALSVATDVKEGIDLQALELALQEYPVKACWLMTNSQNPLGFTLTPQKKAQLVALLNQYNVTLIEDDVYSELYFGREKPLPAKAWDRHDGVLHCSSFSKCLVPGFRIGWVAAGKHARKIQRLQLMSTLSTSSPMQLALVDYLSTRRYDAHLRRLRRQLAERKQRAWQALLRYLPAEVKIHHNDSGYFLWLELPEPLDAGELSLAALTHHISIAPGKMFSTGENWSRFFRFNTAWQWGEREEQAVKQLGKLIQERL" [] ["CCO-CYTOSOL"] +"G6755-MONOMER" "γ-aminobutyraldehyde dehydrogenase" ["PatD", "YdcW", "Prr"] "MQHKLLINGELVSGEGEKQPVYNPATGDVLLEIAEASAEQVDAAVRAADAAFAEWGQTTPKVRAECLLKLADVIEENGQVFAELESRNCGKPLHSAFNDEIPAIVDVFRFFAGAARCLNGLAAGEYLEGHTSMIRRDPLGVVASIAPWNYPLMMAAWKLAPALAAGNCVVLKPSEITPLTALKLAELAKDIFPAGVINILFGRGKTVGDPLTGHPKVRMVSLTGSIATGEHIISHTASSIKRTHMELGGKAPVIVFDDADIEAVVEGVRTFGYYNAGQDCTAACRIYAQKGIYDTLVEKLGAAVATLKSGAPDDESTELGPLSSLAHLERVGKAVEEAKATGHIKVITGGEKRKGNGYYYAPTLLAGALQDDAIVQKEVFGPVVSVTPFDNEEQVVNWANDSQYGLASSVWTKDVGRAHRVSARLQYGCTWVNTHFMLVSEMPHGGQKLSGYGKDMSLYGLEDYTVVRHVMVKH" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G6756-MONOMER" "orphan toxin OrtT" ["OrtT", "YdcX"] "MSLYQHMLVFYAVMAAIAFLITWFLSHDKKRIRFLSAFLVGATWPMSFPVALLFSLF" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6757-MONOMER" "DUF2526 domain-containing protein YdcY" ["YdcY"] "MSHLDEVIARVDAAIEESVIAHMNELLIALSDDAELSREDRYTQQQRLRTAIAHHGRKHKEDMEARHEQLTKGGTIL" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G6758-MONOMER" "putative inner membrane protein YdcZ" ["YdcZ"] "MNQSLTLAFLIAAGIGLVVQNTLMVRITQTSSTILIAMLLNSLVGIVLFVSILWFKQGMAGFGELVSSVRWWTLIPGLLGSFFVFASISGYQNVGAATTIAVLVASQLIGGLMLDIFRSHGVPLRALFGPICGAILLVVGAWLVARRSF" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6759-MONOMER" "L-amino acid N-acyltransferase" ["MnaT", "YncA"] "MSIRFARKADCAAIAEIYNHAVLYTAAIWNDQTVDADNRIAWFEARTLAGYPVLVSEENGVVTGYASFGDWRSFDGFRHTVEHSVYVHPDHQGKGLGRKLLSRLIDEARDCGKHVMVAGIESQNQASLHLHQSLGFVVTAQMPQVGTKFGRWLDLTFMQLQLDERTEPDAIG" [] ["CCO-CYTOSOL"] +"G6760-MONOMER" "NADPH-dependent curcumin/dihydrocurcumin reductase" ["YncB", "CurA"] "MGQQKQRNRRWVLASRPHGAPVPENFRLEEDDVATPGEGQVLLRTVYLSLDPYMRGRMSDEPSYSPPVDIGGVMVGGTVSRVVESNHPDYQSGDWVLGYSGWQDYDISSGDDLVKLGDHPQNPSWSLGVLGMPGFTAYMGLLDIGQPKEGETLVVAAATGPVGATVGQIGKLKGCRVVGVAGGAEKCRHATEVLGFDVCLDHHADDFAEQLAKACPKGIDIYYENVGGKVFDAVLPLLNTSARIPVCGLVSSYNATELPPGPDRLPLLMATVLKKRIRLQGFIIAQDYGHRIHEFQREMGQWVKEDKIHYREEITDGLENAPQTFIGLLKGKNFGKVVIRVAGDD" [] ["CCO-CYTOSOL"] +"G6761-MONOMER" "DNA-binding transcriptional dual regulator McbR" ["YncC", "McbR"] "MPGTGKMKHVSLTLQVENDLKHQLSIGALKPGARLITKNLAEQLGMSITPVREALLRLVSVNALSVAPAQAFTVPEVGKRQLDEINRIRYELELMAVALAVENLTPQDLAELQELLEKLQQAQEKGDMEQIINVNRLFRLAIYHRSNMPILCEMIEQLWVRMGPGLHYLYEAINPAELREHIENYHLLLAALKAKDKEGCRHCLAEIMQQNIAILYQQYNR" [] ["CCO-CYTOSOL"] +"G6762-MONOMER" "putative TonB-dependent outer membrane receptor" ["YncD"] "MKIFSVRQTVLPALLVLSPVVFAADEQTMIVSAAPQVVSELDTPAAVSVVDGEEMRLATPRINLSESLTGVPGLQVQNRQNYAQDLQLSIRGFGSRSTYGIRGIRLYVDGIPATMPDGQGQTSNIDLSSVQNVEVLRGPFSALYGNASGGVMNVTTQTGQQPPTIEASSYYGSFGSWRYGLKATGATGDGTQPGDVDYTVSTTRFTTHGYRDHSGAQKNLANAKLGVRIDEASKLSLIFNSVDIKADDPGGLTKAEWKANPQQAPRAEQYDTRKTIKQTQAGLRYERSLSSRDDMSVMMYAGERETTQYQSIPMAPQLNPSHAGGVITLQRHYQGIDSRWTHRGELGVPVTFTTGLNYENMSENRKGYNNFRLNSGMPEYGQKGELRRDERNLMWNIDPYLQTQWQLSEKLSLDAGVRYSSVWFDSNDHYVTPGNGDDSGDASYHKWLPAGSLKYAMTDAWNIYLAAGRGFETPTINELSYRADGQSGMNLGLKPSTNDTIEIGSKTRIGDGLLSLALFQTDTDDEIVVDSSSGGRTTYKNAGKTRRQGAELAWDQRFAGDFRVNASWTWLDATYRSNVCNEQDCNGNRMPGIARNMGFASIGYVPEDGWYAGTEARYMGDIMADDENTAKAPSYTLVGLFTGYKYNYHNLTVDLFGRVDNLFDKEYVGSVIVNESNGRYYEPSPGRNYGVGMNIAWRFE" ["CCO-OUTER-MEM"] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"G6763-MONOMER" "PQQ-like domain-containing protein YncE" ["YncE"] "MHLRHLFSSRLRGSLLLGSLLVVSSFSTQAAEEMLRKAVGKGAYEMAYSQQENALWLATSQSRKLDKGGVVYRLDPVTLEVTQAIHNDLKPFGATINNTTQTLWFGNTVNSAVTAIDAKTGEVKGRLVLDDRKRTEEVRPLQPRELVADDATNTVYISGIGKESVIWVVDGGNIKLKTAIQNTGKMSTGLALDSEGKRLYTTNADGELITIDTADNKILSRKKLLDDGKEHFFINISLDTARQRAFITDSKAAEVLVVDTRNGNILAKVAAPESLAVLFNPARNEAYVTHRQAGKVSVIDAKSYKVVKTFDTPTHPNSLALSADGKTLYVSVKQKSTKQQEATQPDDVIRIAL" ["CCO-PERI-BAC"] [] +"G6765-MONOMER" "putative glutathione S-transferase YncG" ["YncG"] "MIKVYGVPGWGSTISELMLTLADIPYQFVDVSGFDHEGASRELLKTLNPLCQVPTLALENDEIMTETAAIALMVLDRRPDLAPPVGRAERQLFQRLLVWLVANVYPTFTFADYPERWAPDAPEQLKKNVIEYRKSLYIWLNSQLTAEPYAFGEQLTLVDCYLCTMRTWGPGHEWFQDNATNISAIADAVCQLPKLQEVLKRNEII" [] ["CCO-CYTOSOL"] +"G6766-MONOMER" "DUF5445 domain-containing protein YncH" ["YncH"] "MVCFLIYITLLFIQRVYFISSEKKLTIHIVQMFQLLSQAFYNLKMFLMMDMLGVGDAININTNKNIRQVC" [] ["CCO-MEMBRANE"] +"G6767-MONOMER" "putative transposase YncI" ["YncM", "YncI"] "MSIQSLLDYISVTPDIRQQGKVKHKLSAILFLTVCAVIAGADEWQEIEDFGHERLEWLKKYGDFDNGIPVDDTIARVVSNIDSLAFEKMFIEWMQECHEITDGEIIAIDGKTIRGSFDKGKRKGAIHMVSAFSNENGVVLGQVKTEAKSNEITAIPELLNLLYLKKNLITIDAMGCQKDIASKIKDKKADYLLAVKGNQGKLHHAFEEKFPVNVFSNYKGDSFSTQEISHGRKETRLHIVSNVTPELL*F*IRMEGIKKALCSIVIQAEERR*ISRRCKHPILYFIKGYGC*RICTCYQSALADRAQSSLGVRCKNE*RCQPDKKRKRSLNNIWNKEDGTEFIKRLQRH*" [] ["CCO-CYTOSOL"] +"G6769-MONOMER" "flavin reductase-like protein YddH" ["YddH"] "MSRFIPIELHHASRLLNHGPTVLITSFDEQSQRRNIMAAAWSMPVEFEPPRVAIVVDKSTWTRELIEHNGKFGIVIPGVAATNWTWAVGSVSGRDEDKFNCYGIPVVRGPVFGLPLVEEKCLAWMECRLLPATSAQEEYDTLFGEVVSAAADARVFVEGRWQFDDDKLNTLHHLGAGTFVTSGKRVTAG" [] ["CCO-CYTOSOL"] +"G6770-MONOMER" "arylamine N-acetyltransferase" ["NhoA", "YddI"] "MTPILNHYFARINWSGAAAVNIDTLRALHLKHNCTIPFENLDVLLPREIQLDNQSPEEKLVIARRGGYCFEQNGVFERVLRELGFNVRSLLGRVVLSNPPALPPRTHRLLLVELEEEKWIADVGFGGQTLTAPIRLVSDLVQTTPHGEYRLLQEGDDWVLQFNHHQHWQSMYRFDLCEQQQSDYVMGNFWSAHWPQSHFRHHLLMCRHLPDGGKLTLTNFHFTHYENGHAVEQRNLPDVASLYAVMQEQFGLGVDDAKHGFTVDELALVMAAFDTHPEAGK" [] ["CCO-CYTOSOL"] +"G6771-MONOMER" "uncharacterized protein YddJ" ["YddJ"] "MQLMLFNLFSPALKLNTGLAILSPGAFEVHSDGIDVDNELFHYPIKKAYTPYNIHTYKTEEVVNQMNIKVKNMTLDEINNTYCNNDYYNQAIREEPIDLLDRSFSSSSWPF" [] ["CCO-CYTOSOL"] +"G6772-MONOMER" "leucine-rich repeat domain-containing protein YddK" ["YddK"] "MITDLILHNHPRMKTITLNDNHIAHLNAKNTTKLEYLNLSNNNLLPTNDIDQLISSKHLWHVLVNGINNDPLAQMQYWTAVRNIIDDTNEVTIDLSGLNLTTQPPGLQNFTSINLDNNQFTHFDATNYDRLVKLSLNSNALESINFPQGRNVSITHISMNNNALRNIDIDRLSSVTYFSAAHNQLEFVQLESCEWLQYLNLSHNQLTDIVAGNKNELLLLDLSHNKLTSLHNDLFPNLNTLLINNNLLSEIKIFYSNFCNVQTLNAANNQLKYINLDFLTYLPSIKSLRLDNNKITHIDTNNTSDIGTLFPIIKQSKT" [] ["CCO-EXTRACELLULAR"] +"G6773-MONOMER" "putative uncharacterized protein YddL" ["YddL", "putative truncated Porin_1 family protein YddL"] "MKLKIVAVVVTGLLAANVAHAAEVYNKDGNKLDLYGKVTALRYFTDDKRDDGDKTYARLGFKGETQINDQMIGFGHWEYDFKGYNDEANGSRGKNL" [] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"G6774-MONOMER" "DNA-binding transcriptional regulator YddM" ["YddM"] "MKMANHPRPGDIIQESLDELNVSLREFARAMEIAPSTASRLLTGKAALTPEMAIKLSVVIGSSPQMWLNLQNAWSLAEAEKTVDVSRLRRLVTQ" [] ["CCO-CYTOSOL"] +"G6776-MONOMER" "biofilm-dependent modulation protein" ["YddX", "Bdm", "f92"] "MFTYYQAENSTAEPALVNAIEQGLRAQHGVVTEDDILMELTKWVEASDNDILSDIYQQTINYVVSGQHPTL" [] ["CCO-CYTOSOL"] +"G6782-MONOMER" null ["YddT", "VanX", "DdpX"] "MSDTTELVDLAVIFPDLEIELKYACADNITGKAIYQQARCLLHKDAITALAKSISIAQLSGLQLVIYDAYRPQQAQAMLWQACPDPQYVVDVTVGSNHSRGTAIDLTLRDEHGNILDMGAGFDEMHERSHAYHPSVPPAAQRNRLLLNAIMTGGGFVGISSEWWHFELPQAASYPLLADQFSCFISPGTQHVS" [] ["CCO-CYTOSOL"] +"G6783-MONOMER" "oxygen-sensing c-di-GMP phosphodiesterase DosP" ["PdeO", "YddU", "Dos", "DosP", "c-di-GMP phosphodiesterase, heme-regulated"] "MKLTDADNAADGIFFPALEQNMMGAVLINENDEVMFFNPAAEKLWGYKREEVIGNNIDMLIPRDLRPAHPEYIRHNREGGKARVEGMSRELQLEKKDGSKIWTRFALSKVSAEGKVYYLALVRDASVEMAQKEQTRQLIIAVDHLDRPVIVLDPERHIVQCNRAFTEMFGYCISEASGMQPDTLLNIPEFPADNRIRLQQLLWKTARDQDEFLLLTRTGEKIWIKASISPVYDVLAHLQNLVMTFSDITEERQIRQLEGNILAAMCSSPPFHEMGEIICRNIESVLNESHVSLFALRNGMPIHWASSSHGAEIQNAQSWSATIRQRDGAPAGILQIKTSSGAETSAFIERVADISQHMAALALEQEKSRQHIEQLIQFDPMTGLPNRNNLHNYLDDLVDKAVSPVVYLIGVDHIQDVIDSLGYAWADQALLEVVNRFREKLKPDQYLCRIEGTQFVLVSLENDVSNITQIADELRNVVSKPIMIDDKPFPLTLSIGISYDLGKNRDYLLSTAHNAMDYIRKNGGNGWQFFSPAMNEMVKERLVLGAALKEAISNNQLKLVYQPQIFAETGELYGIEALARWHDPLHGHVPPSRFIPLAEEIGEIENIGRWVIAEACRQLAEWRSQNIHIPALSVNLSALHFRSNQLPNQVSDAMHAWGIDGHQLTVEITESMMMEHDTEIFKRIQILRDMGVGLSVDDFGTGFSGLSRLVSLPVTEIKIDKSFVDRCLTEKRILALLEAITSIGQSLNLTVVAEGVETKEQFEMLRKIHCRVIQGYFFSRPLPAEEIPGWMSSVLPLKI" [] ["CCO-PM-BAC-NEG"] +"G6784-MONOMER" "diguanylate cyclase DosC" ["DgcO", "YddV", "DosC"] "MEMYFKRMKDEWTGLVEQADPPIRAKAAEIAVAHAHYLSIEFYRIVRIDPHAEEFLSNEQVERQLKSAMERWIINVLSAQVDDVERLIQIQHTVAEVHARIGIPVEIVEMGFRVLKKILYPVIFSSDYSAAEKLQVYHFSINSIDIAMEVMTRAFTFSDSSASKEDENYRIFSLLENAEEEKERQIASILSWEIDIIYKILLDSDLGSSLPLSQADFGLWFNHKGRHYFSGIAEVGHISRLIQDFDGIFNQTMRNTRNLNNRSLRVKFLLQIRNTVSQIITLLRELFEEVSRHEVGMDVLTKLLNRRFLPTIFKREIAHANRTGTPLSVLIIDVDKFKEINDTWGHNTGDEILRKVSQAFYDNVRSSDYVFRYGGDEFIIVLTEASENETLRTAERIRSRVEKTKLKAANGEDIALSLSIGAAMFNGHPDYERLIQIADEALYIAKRRGRNRVELWKASL" [] ["CCO-PM-BAC-NEG", "CCO-CYTOSOL"] +"G6785-MONOMER" "divisome localized glycosyl hydrolase" ["DigH", "YddW"] "MDICSRNKKLTIRRPAILVALALLLCSCKSTPPESMVTPPAGSKPPATTQQSSQPMRGIWLATVSRLDWPPVSSVNISNPTSRARVQQQAMIDKLDHLQRLGINTVFFQVKPDGTALWPSKILPWSDLMTGKIGENPGYDPLQFMLDEAHKRGMKVHAWFNPYRVSVNTKPGTIRELNSTLSQQPASVYVQHRDWIRTSGDRFVLDPGIPEVQDWITSIVAEVVSRYPVDGVQFDDYFYTESPGSRLNDNETYRKYGGAFASKADWRRNNTQQLIAKVSHTIKSIKPGVEFGVSPAGVWRNRSHDPLGSDTRGAAAYDESYADTRRWVEQGLLDYIAPQIYWPFSRSAARYDVLAKWWADVVKPTRTRLYIGIAFYKVGEPSKIEPDWMINGGVPELKKQLDLNDAVPEISGTILFREDYLNKPQTQQAVSYLQSRWGS" ["CCO-OUTER-MEM"] ["CCO-MEMBRANE", "CCO-OUTER-MEM", "CCO-PERI-BAC"] +"G6787-MONOMER" "putative anaerobic sulfatase maturation enzyme YdeM" ["YdeM"] "MHVTAKPSSFQCNLKCDYCFYLEKESQFTHEKWMDDSTLKEFIKQYIAASGNQVYFTWQGGEPTLAGLDFFRKVIHYQQRYAGQKRIFNALQTNGILLNNEWCAFLKEHEFLVGISIDGPQELHDRYRRSNSGNGTFAKVIAAIERLKSYQVEFNTLTVINNVNVHYPLEVYHFLKSIGSKHMQFIELLETGTPNIDFSGHSENTFRIIDFSVPPTAYGKFMSTIFMQWVKNDVGEIFIRQFESFVSRFLGNGHTSCIFQESCKDNLVVESNGDIYECDHFVYPQYKIGNINKSELKTMNSVQLTAQKKRIPAKCQQCAYKPICNGGCPKHRITKVNNETVSYFCEGYKILFSTMVPYMNAMVELAKNRVPLYHIMDVAKQMENN" [] ["CCO-CYTOSOL"] +"G6788-MONOMER" "putative sulfatase YdeN" ["YdeN"] "MKSALKKSVVSTSISLILASGMAAFAAHAADDVKLKATKTNVAFSDFTPTEYSTKGKPNIIVLTMDDLGYGQLPFDKGSFDPKTMENREVVDTYKIGIDKAIEAAQKSTPTLLSLMDEGVRFTNGYVAHGVSGPSRAAIMTGRAPARFGVYSNTDAQDGIPLTETFLPELFQNHGYYTAAVGKWHLSKISNVPVPEDKQTRDYHDNFTTFSAEEWQPQNRGFDYFMGFHAAGTAYYNSPSLFKNRERVPAKGYISDQLTDEAIGVVDRAKTLDQPFMLYLAYNAPHLPNDNPAPDQYQKQFNTGSQTADNYYASVYSVDQGVKRILEQLKKNGQYDNTIILFTSDNGAVIDGPLPLNGAQKGYKSQTYPGGTHTPMFMWWKGKLQPGNYDKLISAMDFYPTALDAADISIPKDLKLDGVSLLPWLQDKKQGEPHKNLTWITSYSHWFDEENIPFWDNYHKFVRHQSDDYPHNPNTEDLSQFSYTVRNNDYSLVYTVENNQLGLYKLTDLQQKDNLAAANPQVVKEMQGVVREFIDSSQPPLSEVNQEKFNNIKKALSEAK" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"G6789-MONOMER" "DNA-binding transcriptional dual regulator YdeO" ["YdeO"] "MSLVCSVIFIHHAFNANILDKDYAFSDGEILMVDNAVRTHFEPYERHFKEIGFTENTIKKYLQCTNIQTVTVPVPAKFLRASNVPTGLLNEMIAYLNSEERNHHNFSELLLFSCLSIFAACKGFITLLTNGVLSVSGKVRNIVNMKPAHPWKLKDICDCLYISESLLKKKLKQEQTTFSQILLDARMQHAKNLIRVEGSVNKIAEQCGYASTSYFIYAFRKHFGNSPKRVSKEYRCQSHTGMNTGNTMNALAI" [] ["CCO-CYTOSOL"] +"G6791-MONOMER" "putative oxidoreductase YdeP" ["YdeP", "acid resistance protein"] "MKKKIESYQGAAGGWGAVKSVANAVRKQMDIRQDVIAMFDMNKPEGFDCPGCAWPDPKHSASFDICENGAKAIAWEVTDKQVNASFFAENTVQSLLTWGDHELEAAGRLTQPLKYDAVSDCYKPLSWQQAFDEIGARLQSYSDPNQVEFYTSGRTSNEAAFLYQLFAREYGSNNFPDCSNMCHEPTSVGLAASIGVGKGTVLLEDFEKCDLVICIGHNPGTNHPRMLTSLRALVKRGAKMIAINPLQERGLERFTAPQNPFEMLTNSETQLASAYYNVRIGGDMALLKGMMRLLIERDDAASAAGRPSLLDDEFIQTHTVGFDELRRDVLNSEWKDIERISGLSQTQIAELADAYAAAERTIICYGMGITQHEHGTQNVQQLVNLLLMKGNIGKPGAGICPLRGHSNVQGDRTVGITEKPSAEFLARLGERYGFTPPHAPGHAAIASMQAICTGQARALICMGGNFALAMPDREASAVPLTQLDLAVHVATKLNRSHLLTARHSYILPVLGRSEIDMQKNGAQAVTVEDSMSMIHASRGVLKPAGVMLKSECAVVAGIAQAALPQSVVAWEYLVEDYDRIRNDIEAVLPEFADYNQRIRHPGGFHLINAAAERRWMTPSGKANFITSKGLLEDPSSAFNSKLVMATVRSHDQYNTTIYGMDDRYRGVFGQRDVVFMSAKQAKICRVKNGERVNLIALTPDGKRSSRRMDRLKVVIYPMADRSLVTYFPESNHMLTLDNHDPLSGIPGYKSIPVELEPSN" [] ["CCO-CYTOSOL", "CCO-PERI-BAC"] +"G6792-MONOMER" "putative fimbrial adhesin protein YdeQ" ["YdeQ"] "MGKTISIKVLFGIYLLLMAGKVFAFSCNVDGGSSIGAGTTSVYVNLDPVIQPGQNLVVDLSQHISCWNDYGGWYDTDHINLVQGSAFAGSLQSYKGSLYWNNVTYPFPLTTNTNVLDIGDKTPMPLPLKLYITPVGAAGGVVIKAGEVIARIHMYKIATLGSGNPRNFTWNIISNNNVVMPTGGCTVDSRNVTVDLPDFPGSAEIPLGVYCSSEQKLSFYLSGATTDSSRQVFANTAPDATKASGVGVTLMRNGKILATGENVSLGTVNKSKVPLGLSATYGQTGNKVSAGTVQSVIGVTFIYE" [] ["CCO-PILUS", "CCO-EXTRACELLULAR"] +"G6793-MONOMER" "putative fimbrial protein YdeR" ["YdeR"] "MKRLHKRFLLATFCALFTATLQAADVTITVNGRVVAKPCTIQTKEANVNLGDLYTRNLQQPGSASGWHNITLSLTDCPVETSAVTAIVTGSTDNTGYYKNEGTAENIQIELRDDQDAALKNGDSKTVIVDEITRNAQFPLKARAITVNGNASQGTIEALINVIYTWQ" [] ["CCO-PILUS", "CCO-EXTRACELLULAR"] +"G6794-MONOMER" "putative fimbrial protein YdeS" ["YdeS"] "MKYNNIIFLGLCLGLTTYSALSADSVIKISGRVLDYGCTVSSDSLNFTVDLQKNSARQFPTTGSTSPAVPFQITLSECSKGTTGVRVAFNGIEDAENNTLLKLDEGSNTASGLGIEILDANMRPVKLNDLHAGMQWIPLVPEQNNILPYSARLKSTQKSVNPGLVRASATFTLEFQ" [] ["CCO-PILUS", "CCO-EXTRACELLULAR"] +"G6795-MONOMER" "fimbrial usher domain-containing protein YdeT" ["FmlC", "YdeT", "fimbrial usher protein, C-terminal fragment"] "MSGYTVKPPTGDTNEQTQFIDYFNLFYSKRGQEQISISQQLGNYGTTFFSASRQSYWNTSRSDQQISFGLNVPFGDITTSLNYSYSNNIWQNDRDHLLAFTLNVPFSHWMRTDSQSAFRNSNASYSMSNDLKGGMTNLSGVYGTLLPDNNLNYSVQVGNTHGGNTSSGTSGYSSLNYRGAYGNTNVGYSRSGDSSQIYYGMSGGIIAHADGITFGQPLGDTMVLVKAPGADNVKIENQTGIHTDWRGYAILPFATEYRENRVALNANSLADNVELDETVVTVIPTHGAIARATFNAQIGGKVLMTLKYGNKSVPFGAIVTHGENKNGSIVAENGQVYLTGLPQSGQLQVSWGKDKNSNCIVEYKLPEVSPGTLLNQQTAICR" [] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"G6796-MONOMER" "putative HTH-type transcriptional regulator YneL" ["YneL"] "MSPLRYQKWLRLNEVRRQMLNEHYDVTTAAYAVGYESYPISVGNIRGCLESHPREILPG*ESLSDS" [] [] +"G6798-MONOMER" "autoinducer-2 kinase" ["YdeV", "LsrK"] "MARLFTLSESKYYLMALDAGTGSIRAVIFDLEGNQIAVGQAEWRHLAVPDVPGSMEFDLNKNWQLACECMRQALHNAGIAPEYIAAVSACSMREGIVLYNNEGAPIWACANVDARAAREVSELKELHNNTFENEVYRATGQTLALSAIPRLLWLAHHRSDIYRQASTITMISDWLAYMLSGELAVDPSNAGTTGLLDLTTRDWKPALLDMAGLRADILSPVKETGTLLGVVSSQAAELCGLKAGTPVVVGGGDVQLGCLGLGVVRPAQTAVLGGTFWQQVVNLAAPVTDPEMNVRVNPHVIPGMVQAESISFFTGLTMRWFRDAFCAEEKLIAERLGIDTYTLLEEMASRVPPGSWGVMPIFSDRMRFKTWYHAAPSFINLSIDPDKCNKATLFRALEENAAIVSACNLQQIADFSNIHPSSLVFAGGGSKGKLWSQILADVSGLPVNIPVVKEATALGCAIAAGVGAGIFSSMAETGERLVRWERTHTPDPEKHELYQDSRDKWQAVYQDQLGLVDHGLTTSLWKAPGL" [] ["CCO-CYTOSOL"] +"G6799-MONOMER" "DNA-binding transcriptional repressor LsrR" ["YdeW", "LsrR"] "MTINDSAISEQGMCEEEQVARIAWFYYHDGLTQSEISDRLGLTRLKVSRLLEKGHQSGIIRVQINSRFEGCLEYETQLRRQFSLQHVRVIPGLADADVGGRLGIGAAHMLMSLLQPQQMLAIGFGEATMNTLQRLSGFISSQQIRLVTLSGGVGSYMTGIGQLNAACSVNIIPAPLRASSADIARTLKNENCVKDVLLAAQAADVAIVGIGAVSQQDDATIIRSGYISQGEQLMIGRKGAVGDILGYFFDAKGDVVTNIKIHNELIGLPLSALKTIPVRVGVAGGENKAEAIAAAMKGGYINALVTDQDTAAAILRS" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G6804-MONOMER" "3-hydroxy-2,4-pentadione 5-phosphate thiolase" ["LsrF", "YneB"] "MADLDDIKDGKDFRTDQPQKNIPFTLKGCGALDWGMQSRLSRIFNPKTGKTVMLAFDHGYFQGPTTGLERIDINIAPLFEHADVLMCTRGILRSVVPPATNRPVVLRASGANSILAELSNEAVALSMDDAVRLNSCAVAAQVYIGSEYEHQSIKNIIQLVDAGMKVGMPTMAVTGVGKDMVRDQRYFSLATRIAAEMGAQIIKTYYVEKGFERIVAGCPVPIVIAGGKKLPEREALEMCWQAIDQGASGVDMGRNIFQSDHPVAMMKAVQAVVHHNETADRAYELYLSEKQ" [] ["CCO-CYTOSOL"] +"G6805-MONOMER" "(4S)-4-hydroxy-5-phosphonooxypentane-2,3-dione isomerase" ["LsrG", "YneC", "phospho-AI-2 isomerase"] "MHVTLVEINVHEDKVDEFIEVFRQNHLGSVQEEGNLRFDVLQDPEVNSRFYIYEAYKDEDAVAFHKTTPHYKTCVAKLESLMTGPRKKRLFNGLMP" [] ["CCO-CYTOSOL"] +"G6806-MONOMER" "trans-aconitate 2-methyltransferase" ["LsrE", "YneD", "Tam"] "MSDWNPSLYLHFSAERSRPAVELLARVPLENVEYVADLGCGPGNSTALLQQRWPAARITGIDSSPAMIAEARSALPDCQFVEADIRNWQPVQALDLIFANASLQWLPDHYELFPHLVSLLNPQGVLAVQMPDNWLEPTHVLMREVAWEQNYPDRGREPLAGVHAYYDILSEAGCEVDIWRTTYYHQMPSHQAIIDWVTATGLRPWLQDLTESEQQLFLKRYHQMLEEQYPLQENGQILLAFPRLFIVARRME" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G6807-MONOMER" "PF01062 family inner membrane protein YneE" ["YneE"] "MIVRPQQHWLRRIFVWHGSVLSKISSRLLLNFLFSIAVIFMLPWYTHLGIKFTLAPFSILGVAIAIFLGFRNNAGYARYVEARKLWGQLMIASRSLLREVKTTLPDSASVREFARLQIAFAHCLRMTLRKQPQAEVLAHYLKTEDLQRVLASNSPANRILLIMGEWLAVQRRNGQLSDILFISLNDRLNDISAVLAGCERIAYTPIPFAYTLILHRTVYLFCIMLPFALVVDLHYMTPFISVLISYTFISLDCLAEELEDPFGTENNDLPLDAICNAIEIDLLQMNDEAEIPAKILPDRHYQLT" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6808-MONOMER" "putative diguanylate cyclase DgcF" ["DgcF", "YneF"] "MLADWFSEQFSTGVLIVPCMLTLAIPGVLPRFKAEQMMPAIALIVSVIASVVIGGAGSLAFPLPALIWCAVRYTPQVTCLLTFVTGAVEIVLVANSVIDISVGSPFSIPQMFSARLGIATMAICPIMVSFSVAAINSLMKQVALRADFDFLTQVYSRSGLYEALKSPSLKQTQHLTVMLLDIDYFKSINDNYGHECGDKVLSVFARHIQKIVGDKGLVARMGGEEFAVAVPSVNPVDGLLMAEKIRKGVELQPFTWQQKTLYLTVSIGVGSGRASYLTLTDDFNKLMVEADTCLYRSKKDGRNRTSTMRYGEEVV" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6809-MONOMER" "DUF4186 domain-containing protein YneG" ["YneG"] "MQSLDPLFARLSRSKFRSRFRLGMKERQYCLEKGAPVIEQHAADFVAKRLAPALPANDGKQTPMRGHPVFIAQHATATCCRGCLAKWHNIPQGVSLSEEQQRYIVAVIYHWLVVQMNQP" [] ["CCO-CYTOSOL"] +"G6810-MONOMER" "glutaminase 2" ["GlsB", "YneH"] "MAVAMDNAILENILRQVRPLIGQGKVADYIPALATVDGSRLGIAICTVDGQLFQAGDAQERFSIQSISKVLSLVVAMRHYSEEEIWQRVGKDPSGSPFNSLVQLEMEQGIPRNPFINAGALVVCDMLQGRLSAPRQRMLEVVRGLSGVSDISYDTVVARSEFEHSARNAAIAWLMKSFGNFHHDVTTVLQNYFHYCALKMSCVELARTFVFLANQGKAIHIDEPVVTPMQARQINALMATSGMYQNAGEFAWRVGLPAKSGVGGGIVAIVPHEMAIAVWSPELDDAGNSLAGIAVLEQLTKQLGRSVY" [] ["CCO-PM-BAC-NEG"] +"G6811-MONOMER" "succinate semialdehyde dehydrogenase (NAD(P)+) Sad" ["YneI", "Sad"] "MTITPATHAISINPATGEQLSVLPWAGADDIENALQLAAAGFRDWRETNIDYRAEKLRDIGKALRARSEEMAQMITREMGKPINQARAEVAKSANLCDWYAEHGPAMLKAEPTLVENQQAVIEYRPLGTILAIMPWNFPLWQVMRGAVPIILAGNGYLLKHAPNVMGCAQLIAQVFKDAGIPQGVYGWLNADNDGVSQMIKDSRIAAVTVTGSVRAGAAIGAQAGAALKKCVLELGGSDPFIVLNDADLELAVKAAVAGRYQNTGQVCAAAKRFIIEEGIASAFTERFVAAAAALKMGDPRDEENALGPMARFDLRDELHHQVEKTLAQGARLLLGGEKMAGAGNYYPPTVLANVTPEMTAFREEMFGPVAAITIAKDAEHALELANDSEFGLSATIFTTDETQARQMAARLECGGVFINGYCASDARVAFGGVKKSGFGRELSHFGLHEFCNIQTVWKDRI" [] ["CCO-CYTOSOL"] +"G6812-MONOMER" "putative LysR-type DNA-binding transcriptional regulator YneJ" ["YneJ"] "MDLTQLEMFNAVAEAGSITQAAAKVHRVPSNLTTRLRQLETELGVDLFIRENQRLRLSPAGHNFLRYSQQILALVDEARSVVAGDEPQGLFSLGSLESTAAVRIPATLAEFNRRYPKIQFSLSTGPSGTMLDGVLEGKLNAAFIDGPINHTAIDGIPVYREELMIVTPQGYAPVTRASQVNGSNIYAFRANCSYRRHFESWFHADGAAPGTIHEMESYHGMLACVIAGAGIALIPRSMLESMPGHHQVEAWPLAEQWRWLTTWLVWRRGAKTRPLEAFIQLLDVPDSARQGYQ" [] ["CCO-CYTOSOL"] +"G6813-MONOMER" "protein YneK" ["YneK"] "MVTPVSISNYISLPDDFPVRNIAPQVKEVLKDFIDALSTIICNEEWRTSLNINSATKKIFNNLDNLSYIQRTSFRGNDTLYNEKVQFKLTYPARNGRHKENIEFQVVINLSPIYLDNFRHDGEINIFCAPNPKPVTMGRVFQTGVERVLFLFLNDFIEQFPMINPGVPIKRAHTPHIEPLPSDHHTAADYLRQFDLLVLNFISRGNFVILPRLWNNSEVHRWFVNKDPNLITAILDITDSELKEDLLQSLMDSLGSNKHVLPEVCICFLSLLAEQESPHFQNLFLFFANMLLHYHQFMNPNESDLNDVLMPASLSDDKIIKHMARRTLKLFVKNETPPKVTHEDLVKNRPRSPVRPPIPATAKTPDLPERH" [] ["CCO-CYTOSOL"] +"G6814-MONOMER" "DNA-binding transcriptional repressor YdfH" ["YdfH"] "MTVETQLNPTQPVNQQIYRILRRDIVHCLIAPGTPLSEKEVSVRFNVSRQPVREAFIKLAENGLIQIRPQRGSYVNKISMAQVRNGSFIRQAIECAVARRAASMITESQCYQLEQNLHQQRIAIERKQLDDFFELDDNFHQLLTQIADCQLAWDTIENLKATVDRVRYMSFDHVSPPEMLLRQHLDIFSALQKRDGDAVERAMTQHLQEISESVRQIRQENSDWFSEE" [] ["CCO-CYTOSOL"] +"G6815-MONOMER" "putative selenoprotein YdfZ" ["YdfZ"] "MTTYDRNRNAITTGSRVMVSGTGHTGKILSIDTEGLTAEQIRRGKTVVVEGCEEKLAPLDLIRLGMN" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G6816-MONOMER" "putative oxidoreductase YdfI" ["YdfI"] "MGNNLLSAKATLPVYDLNNLAPRIVHLGFGAFHRAHQGVYADILATEHFSDWGYYEVNLIGGEQQIADLQQQDNLYTVAEMSADVWTARVVGVVKKALHVQIDGLETVLAAMCEPQIAIVSLTITEKGYFHSPATGQLMLDHPMVAADVQNPHQPKTATGVIVEALARRKAAGLPAFTVMSCDNMPENGHVMRDVVTSYAQAVDVKLAQWIEDNVTFPSTMVDRIVPAVTEDTLAKIEQLTGVRDPAGVACEPFRQWVIEDNFVAGRPEWEKAGAELVSDVLPYEEMKLRMLNGSHSFLAYLGYLAGYQHINDCMEDEHYRYAAYGLMLQEQAPTLKVQGVDLQDYANRLIARYSNPALRHRTWQIAMDGSQKLPQRMLDSVRWHLAHDSKFDLLALGVAGWMRYVGGVDEQGNPIEISDPLLPVIQKAVQSSAEGKARVQSLLAIKAIFGDDLPDNSLFTARVTETYLSLLAHGAKATVAKYSVK" [] ["CCO-CYTOSOL"] +"G6818-MONOMER" "Qin prophage; cold shock protein YdfK" ["YdfK"] "MKSKDTLKWFPAQLPEVRIILGDAVVEVAKQGRPINTRTLLDYIEGNIKKKSWLDNKELLQTAISVLKDNQNLNGKM" [] ["CCO-CYTOSOL"] +"G6819-MONOMER" "Qin prophage; putative recombinase PinQ" ["YdfL", "PinQ"] "MSQIFAYCRISTLDQTTENQRREIESAGFKIKPQQIIEEHISGSAATSERPGFNRLLARLKCGDQLIVTKLDRLGCNAMDIRKTVEQLTETGIRVHCLALGGIDLTSPTGKMMMQVISAVAEFERDLLLERTHSGIVRARGAGKRFGRPPVLNEEQKQAVFERIKSGVSISAIAREFKTSRQTILRAKAKLQTPDI" [] ["CCO-CYTOSOL"] +"G6820-MONOMER" "Qin prophage; putative tail fiber assembly protein TfaQ" ["TfaQ", "YdfM"] "MAFRMSEQPRTIKIYNLLAGTNEFIGEGDAYIPPHTGLPANSTDIAPPDIPAGFVAVFNSDESSWHLVEDHRGKTVYDVASGDALFISELGPLPENVTWLSPEGEFQKWNGTAWVKDTEAEKLFRIREAEETKNNLMQVASEHIAPLQDAADLEIATEEEISLLEAWKKYRVLLNRVDTSTAQDIEWPALP" [] ["CCO-CYTOSOL"] +"G6821-MONOMER" "Qin prophage; putative prophage side tail fiber protein StfQ" ["YdfN", "StfQ"] "MNITALTDNTQGAAGLELYEVYNNGYPTAYGNIIHLKGMTAVGEGELLIGWSGTSGAHAPAFIRSRRDTTDANWSPWAQLYTSAHPPAEFYPVGAPIPWPSDTVPSGYALMQGQTFDKSAYPKLAVAYPSGVIPDMRGWTIKGKPASGRAVLSQEQDGIKSHTHSASASSTDLGTETTSSFDYGTKSTNNTGAHTHSISGTANSAGAHQHKSSGAFGGTNTSIFPNGYTAISNLSAGIMSTTSGSGQTRNAGKTSSDGAHTHSLSGTAASAGAHAHTVGIGAHTHSVAIGSHGHTITVNAAGNAENTVKNIAFNYIVRLA" [] ["CCO-EXTRACELLULAR"] +"G6822-MONOMER" "Qin prophage; DUF1398 domain-containing protein YdfO" ["YdfO"] "MDQVVIFKQIFDKVRNDLNYQWFYSELKRHNVSHYIYYLATENVHIVLKNDNTVLLKGLKNIVSVKFSKDRHLIETTSNKLKSREITFQEYRRNLAKAGVFRWVTNIHEQKRYYYTFDNSLLFTESIQKTTQILPR" [] ["CCO-CYTOSOL"] +"G6823-MONOMER" "Qin prophage; protein GnsB" ["GnsB", "YdfY"] "MNIENLKTKAEADISEYITKKIIELKKKTGKEVTSIQFTAREKMTGLESYDVKINLI" ["CCO-CYTOSOL"] [] +"G6824-MONOMER" "Qin prophage; protein YnfN" ["YnfN"] "MREYPNGEKTHLTVMAAGFPSLTGDHKVIYVAADRHVTSEEILEAAIRLLS" [] ["CCO-CYTOSOL"] +"G6825-MONOMER" "Qin prophage; cold shock-like protein CspI" ["CspJ", "CspI"] "MSNKMTGLVKWFNPEKGFGFITPKDGSKDVFVHFSAIQSNDFKTLTENQEVEFGIENGPKGPAAVHVVAL" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G6826-MONOMER" "Qin prophage; DUF2514 domain-containing protein RzpQ" ["RzpQ", "YdfP"] "MNQIFMVIFLVLSGFIVGNVWSDRGWQKKWAERDAAALSQEVNAQFAARIIEQGRTIARDEAVKDAQQKSAEISARAAYLSDSVNQLRAEAKKYAIRLDAAKHTADLAAAVRGKTTKTAEGMLTNMLGDIAAEAQLYAEIADERYIAGVTCQQIYESLRDKKHQM" [] ["CCO-CYTOSOL"] +"G6827-MONOMER" "Qin prophage; putative lysozyme" ["RrrQ", "YdfQ"] "MNTKIRYGLSAAVLALIGAGASAPQILDQFLDEKEGNHTMAYRDGSGIWTICRGATVVDGKTVFPNMKLSKEKCDQVNAIERDKALAWVERNIKVPLTEPQKAGIASFCPYNIGPGKCFPSTFYKRLNAGDRKGACEAIRWWIKDGGRDCRIRSNNCYGQVIRRDQESALTCWGIEQ" [] ["CCO-CYTOSOL"] +"G6828-MONOMER" "Qin prophage; protein YdfR" ["YdfR"] "MTQDYELVVKGVRNFENKVTVTVALQDKERFDGEIFDLDVAMDRVEGAALEFYEAAARRSVRQVFLEVAEKLSEKVESYLQHQYSFKIENPANKHERPHHKYL" [] ["CCO-CYTOSOL"] +"G6829-MONOMER" "Qin prophage; putative prophage lysis protein EssQ" ["YdfS", "EssQ"] "MKSMDKLTTGVAYGTSAGNAGFWALQLLDKVTPSQWAAIGVLGSLVFGLLTYLTNLYFKIKEDRRKAARGE" [] ["CCO-PM-BAC-NEG"] +"G6830-MONOMER" "Qin prophage; putative antitermination protein Q" ["QuuQ", "YdfT"] "MNLEALPKYYSPKSPKLSDDAPATGTGCLTITDVMAAQGMVQSKAPLGLALFLAKVGVQDPQFAIEGLLNYAMALDNPTLNKLSEEIRLQIIPYLVSFAFADYSRSAASKARCEHCSGTGFYNVLREVVKHYRRGESVIKEEWVKELCQHCHGKGEASTACRGCKGKGIVLDEKRTRFHGVPVYKICGRCNGNRFSRLPTTLARRHVQKLVPDLTDYQWYKGYADVIGKLVTKCWQEEAYAEAQLRKVTR" [] ["CCO-CYTOSOL"] +"G6831-MONOMER" "Qin prophage; protein YdfU" ["YdfU"] "MRVLLRPVLVPELGLVVLKPGRESIQIFHNPRVLVEPEPKSMRNLPSGVVPAVRQPLAEDKTLLPFFSNERVIRAAGGVGALSDWLLRHVTSCQWPNGDYHHTETVIHRYGTGAMVLCWHCDNQLRDQTSESLELLAQQNLTAWVIDVIRHAISGTQERELSLAELSWWAVCNQVVDALPEAVSRRSLGLPAEKICSVYRESDIVPGELTATSILKQRTKNLAPLPYAHQQQKSPQEKTVVSITVDPESPESFMKLPKRRRWVKEKYTRWVKTQPCACCGMPADDPHHLIGHGQGGMGTKAHDLFVLPLCRKHHNELHTDTVAFEDKYGSQLELIFRFIDRALAIGVLA" [] ["CCO-CYTOSOL"] +"G6832-MONOMER" "Qin prophage; protein YdfV" ["YdfV"] "MSLQVSHYNMLRASHEGSQKVVVRTVITVRFVPGAAIAKSILYCAGQLVFKESGHHLTGTDTIYFVTVRLHMHNSTYSSIFCFSMSVLLSRRRVSGDLTCR" [] ["CCO-MEMBRANE"] +"G6833-MONOMER" "Qin prophage; PF14282 family protein FlxA" ["FlxA"] "MSVTIQGNTSTVISNNSAPEGTSEIAKITRQIQVLTEKLGKISSEEGMTTQQKKEMAALVQKQIESLWAQLEQLLRQQAEKKNEDATVQPDKKEEKKDDTNTAGTIDIYV" [] ["CCO-CYTOSOL"] +"G6834-MONOMER" "Qin prophage; protein YdfW" ["IntK", "YdfW"] "MDNARIDLRSKYYVKPKADHPWLTRRTQSHQQVKPPKLPKKKPDPDKKD" [] ["CCO-CYTOSOL"] +"G6835-MONOMER" "Qin prophage; protein YdfX" ["YdfX"] "MKITPEQAREALDAWICRPGMTQEQATILITEAFWALKERPNIDVQRVTYEGGAIDQRALGVNRVKIFERWKAIDTRDKREKFTALVPAIMEATTG" [] ["CCO-CYTOSOL"] +"G6836-MONOMER" "Qin prophage; putative transposase" ["InsD", "InsD7"] "MPAINAKRVYRIMRQNALLLERKPAVPPSKRAHTGRVAVKESNQRWCSDGFEFCCDNGERLRVTFALDCCDREALHWAVTTGGFNSETVQDVMLGAVERRFGNDLPSSPVEWLTDNGSCYRANETRQFARMLGLEPKNTAVRSPESNGIAESFVKTIKRDYISIMPKPDGLTAAKNLAEAFEHYNEWHPHSALGYRSPREYLRQRACNGLSDNRCLEI" [] ["CCO-CYTOSOL"] +"G6837-MONOMER" "Qin prophage; putative defective integrase" ["IntQ"] "MITDVWKYRGKSTGELRSSVCYAIKTGVFDYAKQFPSSRNLEKFGEARQDLTIKELAEKFLALKETEVAKTSLNTYRAVIKNILSIIGEKNLASSINKEKLLEVRKELLTGYQIPKSNYIVTQPGRSAVTVNNYMTNLNAVFQFGVDNGYLADNPFKGISPLKESRTIPDPLSREEFIRLIDACRNQQAKNLWCVSVYTGVRPGELCALGWEDIDLKNGTMMIRRNLAKDRFTVPKTQAGTNRVIHLIKPAIDALRSQMTLTRLSKEHIIDVHFREYGRTEKQKCTFVFQPEVSARVKNYGDHFTVDSIRQMWDAAIKRAGLRHRKSYQSRHTYACWSLTAGANPAFIANQMGHADAQMVFQVYGKWMSENNNAQVALLNTQLSEFAPTMPHNEAMKN" [] ["CCO-CYTOSOL"] +"G6838-MONOMER" "putative zinc-binding dehydrogenase RspB" ["RspB", "putative oxidoreductase, Zn-dependent and NAD(P)-binding"] "MKSILIEKPNQLAIVEREIPTPSAGEVRVKVKLAGICGSDSHIYRGHNPFAKYPRVIGHEFFGVIDAVGEGVESARVGERVAVDPVVSCGHCYPCSIGKPNVCTTLAVLGVHADGGFSEYAVVPAKNAWKIPEAVADQYAVMIEPFTIAANVTGHGQPTENDTVLVYGAGPIGLTIVQVLKGVYNVKNVIVADRIDERLEKAKESGADWAINNSQTPLGEIFTEKGIKPTLIIDAACHPSILKEAVTLASPAARIVLMGFSSEPSEVIQQGITGKELSIFSSRLNANKFPIVIDWLSKGLIKPEKLITHTFDFQHVADAISLFEQDQKHCCKVLLTFSE" [] ["CCO-CYTOSOL"] +"G6839-MONOMER" "mandelate racemase/muconate lactonizing enzyme family protein RspA" ["RspA", "starvation-sensing protein RspA"] "MKIVKAEVFVTCPGRNFVTLKITTEDGITGLGDATLNGRELSVASYLQDHLCPQLIGRDAHRIEDIWQFFYKGAYWRRGPVTMSAISAVDMALWDIKAKAANMPLYQLLGGASREGVMVYCHTTGHSIDEALDDYARHQELGFKAIRVQCGIPGMKTTYGMSKGKGLAYEPATKGQWPEEQLWSTEKYLDFMPKLFDAVRNKFGFNEHLLHDMHHRLTPIEAARFGKSIEDYRMFWMEDPTPAENQECFRLIRQHTVTPIAVGEVFNSIWDCKQLIEEQLIDYIRTTLTHAGGITGMRRIADFASLYQVRTGSHGPSDLSPVCMAAALHFDLWVPNFGVQEYMGYSEQMLEVFPHNWTFDNGYMHPGDKPGLGIEFDEKLAAKYPYEPAYLPVARLEDGTLWNW" [] ["CCO-CYTOSOL"] +"G6840-MONOMER" "putative transporter YnfA" ["YnfA"] "MIKTTLLFFATALCEIIGCFLPWLWLKRNASIWLLLPAGISLALFVWLLTLHPAASGRVYAAYGGVYVCTALMWLRVVDGVKLTLYDWTGALIALCGMLIIVAGWGRT" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6841-MONOMER" "DUF1283 domain-containing protein YnfB" ["YnfB"] "MKITLSKRIGLLAILLPCALALSTTVHAETNKLVIESGDSAQSRQHAAMEKEQWNDTRNLRQKVNKRTEKEWDKADAAFDNRDKCEQSANINAYWEPNTLRCLDRRTGRVITP" ["CCO-OUTER-MEM"] [] +"G6843-MONOMER" "PF06788 family lipoprotein YnfC" ["YnfC", "UPF0257 family lipoprotein YnfC"] "MKYKLLPCLLAIFLTGCDRTEVTLSFTPEMASFSNEFDFDPLRGPVKDFTQTLMDEQGEVTKRVSGTLSEEGCFDSLELLDLENNTVVALVLDANYYRDAETLEKRVRLQGKCQLAELPSAGVSWETDDNGFVIKASSKQMQMEYRYDDQGYPLGKTTKSNDKTLSVSATPSTDPIKKLDYTAVTLLNNQRVGNVKQSCEYDSHANPVDCQLIIVDEGVKPAVERVYTIKNTIDYY" [] ["CCO-CYTOSOL", "CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"G6844-MONOMER" "DUF1161 domain-containing protein YnfD" ["YnfD"] "MKLSTCCAALLLALASPAVLAAPGSCERIQSDISQRIINNGVPESSFTLSIVPNDQVDQPDSQVVGHCANDTHKILYTRTTSGNVSAPAQSSQDGAPAEPQ" [] ["CCO-EXTRACELLULAR"] +"G6845-MONOMER" "putative selenate reductase YnfE" ["YnfE"] "MSKNERMVGISRRTLVKSTAIGSLALAAGGFSLPFTLRNAAAAVQQAREKVVWGACSVNCGSRCALRLHVKDNEVTWVETDNTGSDEYGNHQVRACLRGRSIRRRINHPDRLNYPMKRVGKRGEGKFERISWDEALDTIASSLKKTVEQYGNEAVYIQYSSGIVGGNMTRSSPSASAVKRLMNCYGGSLNQYGSYSTAQISCAMPYTYGSNDGNSTTDIENSKLVVMFGNNPAETRMSGGGITYLLEKAREKSNAKMIVIDPRYTDTAAGREDEWLPIRPGTDAALVAGIAWVLINENLVDQPFLDKYCVGYDEKTLPADAPKNGHYKAYILGEGDDKTAKTPQWASQITGIPEDRIIKLAREIGTAKPAYICQGWGPQRQANGELTARAIAMLPILTGNVGISGGNSGARESTYTITIERLPVLDNPVKTSISCFSWTDAIDHGPQMTAIRDGVRGKDKLDVPIKFIWNYAGNTLVNQHSDINKTHEILQDESKCEMIVVIENFMTSSAKYADILLPDLMTVEQEDIIPNDYAGNMGYLIFLQPVTSEKFERKPIYWILSEVAKRLGPDVYQKFTEGRTQEQWLQHLYAKMLAKDPALPSYDELKKMGIYKRKDPNGHFVAYKAFRDDPEANPLKTPSGKIEIYSSRLAEIARTWELEKDEVISPLPVYASTFEGWNSPERRTFPLQLFGFHYKSRTHSTYGNIDLLKAACRQEVWINPIDAQKRGIANGDMVRVFNHRGEVRLPAKVTPRILPGVSAMGQGAWHEANMSGDKIDHGGCVNTLTTLRPSPLAKGNPQHTNLVEIEKI" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE", "CCO-PERI-BAC"] +"G6846-MONOMER" "putative selenate reductase YnfF" ["YnfF"] "MKIHTTEALMKAEISRRSLMKTSALGSLALASSAFTLPFSQMVRAAEAPVEEKAVWSSCTVNCGSRCLLRLHVKDDTVYWVESDTTGDDVYGNHQVRACLRGRSIRRRMNHPDRLKYPMKRVGKRGEGKFERISWDEALDTISDNLRRILKDYGNEAVHVLYGTGVDGGNITNSNVPYRLMNSCGGFLSRYGSYSTAQISAAMSYMFGANDGNSPDDIANTKLVVMFGNNPAETRMSGGGVTYYVEQARERSNARMIVIDPRYNDTAAGREDEWLPIRPGTDGALACAIAWVLITENMVDQPFLDKYCVGYDEKTLPANAPRNAHYKAYILGEGPDGIAKTPEWAAKITSIPAEKIIQLAREIGSAKPAYICQGWGPQRHSNGEQTSRAIAMLSVLTGNVGINGGNSGVREGSWDLGVEWFPMLENPVKTQISVFTWTDAIDHGTEMTATRDGVRGKEKLDVPIKFLWCYASNTLINQHGDINHTHEVLQDDSKCEMIVGIDHFMTASAKYCDILLPDLMPTEQEDLISHESAGNMGYVILAQPATSAKFERKPIYWMLSEVAKRLGPDVYQTFTEGRSQHEWIKYLHAKTKERNPEMPDYEEMKTTGIFKKKCPEEHYVAFRAFREDPQANPLKTPSGKIEIYSERLAKIADTWELKKDEIIHPLPAYTPGFDGWDDPLRKTYPLQLTGFHYKARTHSSYGNIDVLQQACPQEVWINPIDAQARGIRHGDTVRVFNNNGEMLIAAKVTPRILPGVTAIGQGAWLKADMFGDRVDHGGSINILTSHRPSPLAKGNPSHSNLVQIEKV" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE", "CCO-PERI-BAC"] +"G6847-MONOMER" "putative oxidoreductase YnfG" ["YnfG"] "MTTQYGFFIDSSRCTGCKTCELACKDFKDLGPEVSFRRIYEYAGGDWQEDNGVWHQNVFAYYLSISCNHCDDPACTKVCPSGAMHKREDGFVVVDEDVCIGCRYCHMACPYGAPQYNAEKGHMTKCDGCYSRVAEGKQPICVESCPLRALEFGPIEELRQKHGTLAAVAPLPRAHFTKPNIVIKPNANSRPTGDTTGYLANPEEV" [] ["CCO-CYTOSOL"] +"G6848-MONOMER" "putative menaquinol dehydrogenase" ["YnfH"] "MGNGWHEWPLVIFTVLGQCVVGALIVSGIGWFAAKNDADRQRIVRGMFFLWLLMGVGFIASVMHLGSPLRAFNSLNRIGASGLSNEIAAGSIFFAVGGLWWLVAVIGKMPQALGKLWLLFSMALGVIFVWMMTCVYQIDTVPTWHNGYTTLAFFLTVLLSGPILAAAILRAARVTFNTTPFAIISVLALIACAGVIVLQGLSLASIHSSVQQASALVPDYASLQVWRVVLLCAGLGCWLCPLIRRREPHVAGLILGLILILGGEMIGRVLFYGLHMTVGMAIAG" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6849-MONOMER" "redox enzyme maturation protein DmsD" ["DmsD", "YnfI"] "MTHFSQQDNFSVAARVLGALFYYAPESAEAAPLVAVLTSDGWETQWPLPEASLAPLVTAFQTQCEETHAQAWQRLFVGPWALPSPPWGSVWLDRESVLFGDSTLALRQWMREKGIQFEMKQNEPEDHFGSLLLMAAWLAENGRQTECEELLAWHLFPWSTRFLDVFIEKAEHPFYRALGELARLTLAQWQSQLLIPVAVKPLFR" ["CCO-PM-BAC-NEG", "CCO-CYTOSOL"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG", "CCO-CYTOSOL"] +"G6851-MONOMER" "putative dethiobiotin synthetase" ["YnfK"] "MLKRFFITGTDTSVGKTVVSRALLQALASQGKTVAGYKPVAKGSKETPEGLRNKDALVLQSVSTIELPYEAVNPIALSEEESSVAHSCPINYTLISNGLANLTEKVDHVVVEGTGGWRSLMNDLRPLSEWVVQEQLPVLMVVGIQEGCINHALLTAQAIANDGLPLIGWVANRINPGLAHYAEIIDVLGKKLPAPLIGELPYLPRAEQRELGQYIRLAMLRSVLAVDRVTV" [] ["CCO-CYTOSOL"] +"G6853-MONOMER" "putative DNA-binding transcriptional regulator" ["YnfL"] "MNIELRHLRYFVAVAEELHFGRAAARLNISQPPLSQQIQALEQQIGARLLARTNRSVLLTAAGKQFLADSRQILSMVDDAAARAERLHQGEAGELRIGFTSSAPFIRAVSDTLSLFRRDYPDVHLQTREMNTREQIAPLIEGTLDMGLLRNTALPESLEHAVIVHEPLMAMIPHDHPLANNPNVTLAELAKEPFVFFDPHVGTGLYDDILGLMRRYHLTPVITQEVGEAMTIIGLVSAGLGVSILPASFKRVQLNEMRWVPIAEEDAVSEMWLVWPKHHEQSPAARNFRIHLLNALR" [] ["CCO-CYTOSOL"] +"G6855-MONOMER" "acid shock protein" ["Asr"] "MKKVLALVVAAAMGLSSAAFAAETTTTPAPTATTTKAAPAKTTHHKKQHKAAPAQKAQAAKKHHKNTKAEQKAPEQKAQAAKKHAKKHSHQQPAKPAAQPAA" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"G6856-MONOMER" "putative serine protease YdgD" ["YdgD"] "MRTTIAVVLGAISLTSAFVFADKPDVARSANDEVSTLFFGHDDRVPVNDTTQSPWDAVGQLETASGNLCTATLIAPNLALTAGHCLLTPPKGKADKAVALRFVSNKGLWRYEIHDIEGRVDPTLGKRLKADGDGWIVPPAAAPWDFGLIVLRNPPSGITPLPLFEGDKAALTAALKAAGRKVTQAGYPEDHLDTLYSHQNCEVTGWAQTSVMSHQCDTLPGDSGSPLMLHTDDGWQLIGVQSSAPAAKDRWRADNRAISVTGFRDKLDQLSQK" [] ["CCO-CYTOSOL"] +"G6859-MONOMER" null ["YdgG", "TqsA"] "MAKPIITLNGLKIVIMLGMLVIILCGIRFAAEIIVPFILALFIAVILNPLVQHMVRWRVPRVLAVSILMTIIVMAMVLLLAYLGSALNELTRTLPQYRNSIMTPLQALEPLLQRVGIDVSVDQLAHYIDPNAAMTLLTNLLTQLSNAMSSIFLLLLTVLFMLLEVPQLPGKFQQMMARPVEGMAAIQRAIDSVSHYLVLKTAISIITGLVAWAMLAALDVRFAFVWGLLAFALNYIPNIGSVLAAIPPIAQVLVFNGFYEALLVLAGYLLINLVFGNILEPRIMGRGLGLSTLVVFLSLIFWGWLLGPVGMLLSVPLTIIVKIALEQTAGGQSIAVLLSDLNKE" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"G6860-MONOMER" "DUF1471 domain-containing protein YdgH" ["YdgH"] "MKLKNTLLASALLSAMAFSVNAATELTPEQAAAVKPFDRVVVTGRFNAIGEAVKAVSRRADKEGAASFYVVDTSDFGNSGNWRVVADLYKADAEKAEETSNRVINGVVELPKDQAVLIEPFDTVTVQGFYRSQPEVNDAITKAAKAKGAYSFYIVRQIDANQGGNQRITAFIYKKDAKKRIVQSPDVIPADSEAGRAALAAGGEAAKKVEIPGVATTASPSSEVGRFFETQSSKGGRYTVTLPDGTKVEELNKATAAMMVPFDSIKFSGNYGNMTEVSYQVAKRAAKKGAKYYHITRQWQERGNNLTVSADLYK" [] ["CCO-CYTOSOL"] +"G6862-MONOMER" "dihydromonapterin reductase" ["YdgB", "FolM"] "MGKTQPLPILITGGGRRIGLALAWHFINQKQPVIVSYRTHYPAIDGLINAGAQCIQADFSTNDGVMAFADEVLKSTHGLRAILHNASAWMAEKPGAPLADVLACMMQIHVNTPYLLNHALERLLRGHGHAASDIIHFTDYVVERGSDKHIAYAASKAALDNMTRSFARKLAPEVKVNSIAPSLILFNEHDDAEYRQQALNKSLMKTAPGEKEVIDLVDYLLTSCFVTGRSFPLDGGRHLR" [] ["CCO-CYTOSOL"] +"G6863-MONOMER" "GlpM family protein" ["YdgC"] "MGLVIKAALGALVVLLIGVLAKTKNYYIAGLIPLFPTFALIAHYIVASERGIEALRATIIFSMWSIIPYFVYLVSLWYFTGMMRLPAAFVGSVACWGISAWVLIICWIKLH" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6865-MONOMER" "DUF945 domain-containing protein YdgA" ["YdgA"] "MNKSLVAVGVIVALGVVWTGGAWYTGKKIETHLEDMVAQANAQLKLTAPESNLEVSYQNYHRGVFSSQLQLLVKPIAGKENPWIKSGQSVIFNESVDHGPFPLAQLKKLNLIPSMASIQTTLVNNEVSKPLFDMAKGETPFEINSRIGYSGDSSSDISLKPLNYEQKDEKVAFSGGEFQLNADRDGKAISLSGEAQSGRIDAVNEYNQKVQLTFNNLKTDGSSTLASFGERVGNQKLSLEKMTISVEGKELALLEGMEISGKSDLVNDGKTINSQLDYSLNSLKVQNQDLGSGKLTLKVGQIDGEAWHQFSQQYNAQTQALLAQPEIANNPELYQEKVTEAFFSALPLMLKGDPVITIAPLSWKNSQGESALNLSLFLKDPATTKEAPQTLAQEVDRSVKSLDAKLTIPVDMATEFMTQVAKLEGYQEDQAKKLAKQQVEGASAMGQMFRLTTLQDNTITTSLQYANGQITLNGQKMSLEDFVGMFAMPALNVPAVPAIPQQ" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"G6866-MONOMER" "outer membrane porin family protein UidC" ["GusC", "UidC"] "MRKIVAMAVICLTAASGLTSAYAAQLADDEAGLRIRLKNELRRADKPSAGAGRDIYAWVQGGLLDFNSGYYSNIIGVEGGAYYVYKLGARADMSTRWYLDGDKSFGFALGAVKIKPSENSLLKLGRFGTDYSYGSLPYRIPLMAGSSQRTLPTVSEGALGYWALTPNIDLWGMWRSRVFLWTDSTTGIRDEGVYNSQTGKYDKHRARSFLAASWHDDTSRYSLGASVQKDVSNQIQSILEKSIPLDPNYTLKGELLGFYAQLEGLSRNTSQPNETALVSGQLTWNAPWGSVFGSGGYLRHAMNGAVVDTDIGYPFSLSLDRNREGMQSWQLGVNYRLTPQFTLTFAPIVTRGYESSKRDVRIEGTGILGGMNYRVSEGPLQGMNFFLAADKGREKRDGSTLGDRLNYWDVKMSIQYDFMLK" ["CCO-OUTER-MEM"] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"G6867-MONOMER" "DNA-binding transcriptional repressor UidR" ["GusR", "UidR"] "MMDNMQTEAQPTRTRILNAAREIFSENGFHSASMKAICKSCAISPGTLYHHFISKEALIQAIILQDQERALARFREPIEGIHFVDYMVESIVSLTHEAFGQRALVVEIMAEGMRNPQVAAMLKNKHMTITEFVAQRMRDAQQKGEISPDINTAMTSRLLLDLTYGVLADIEAEDLAREASFAQGLRAMIGGILTAS" [] ["CCO-CYTOSOL"] +"G6868-MONOMER" "putative oxidoreductase YdgJ" ["YdgJ"] "MSDNIRVGLIGYGYASKTFHAPLIAGTPGQELAVISSSDETKVKADWPTVTVVSEPKHLFNDPNIDLIVIPTPNDTHFPLAKAALEAGKHVVVDKPFTVTLSQARELDALAKSLGRVLSVFHNRRWDSDFLTLKGLLAEGVLGEVAYFESHFDRFRPQVRDRWREQGGPGSGIWYDLAPHLLDQAITLFGLPVSMTVDLAQLRPGAQSTDYFHAILSYPQRRVILHGTMLAAAESARYIVHGSRGSYVKYGLDPQEERLKNGERLPQEDWGYDMRDGVLTRVEGEERVEETLLTVPGNYPAYYAAIRDALNGDGENPVPASQAIQVMELIELGIESAKHRATLCLA" [] ["CCO-CYTOSOL"] +"G6869-MONOMER" "H-NS- and StpA-binding protein" ["YdgT", "Cnu"] "MTVQDYLLKFRKISSLESLEKLYDHLNYTLTDDQELINMYRAADHRRAELVSGGRLFDLGQVPKSVWHYVQ" [] ["CCO-CYTOSOL"] +"G6870-MONOMER" "DUF2569 domain-containing inner membrane protein YdgK" ["RsxP", "YdgK"] "MTTTTPQRIGGWLLGPLAWLLVALLSTTLALLLYTAALSSPQTFQTLGGQALTTQILWGVSFITAIALWYYTLWLTIAFFKRRRCVPKHYIIWLLISVLLAVKAFAFSPVEDGIAVRQLLFTLLATALIVPYFKRSSRVKATFVNP" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6871-MONOMER" "SoxR [2Fe-2S] reducing system protein RsxA" ["YdgL", "RsxA"] "MTDYLLLFVGTVLVNNFVLVKFLGLCPFMGVSKKLETAMGMGLATTFVMTLASICAWLIDTWILIPLNLIYLRTLAFILVIAVVVQFTEMVVRKTSPVLYRLLGIFLPLITTNCAVLGVALLNINLGHNFLQSALYGFSAAVGFSLVMVLFAAIRERLAVADVPAPFRGNAIALITAGLMSLAFMGFSGLVKL" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6872-MONOMER" "SoxR [2Fe-2S] reducing system protein RsxB" ["YdgM", "RsxB"] "MNAIWIAVAAVSLLGLAFGAILGYASRRFAVEDDPVVEKIDEILPQSQCGQCGYPGCRPYAEAISCNGEKINRCAPGGEAVMLKIAELLNVEPQPLDGEAQEITPARMVAVIDENNCIGCTKCIQACPVDAIVGATRAMHTVMSDLCTGCNLCVDPCPTHCISLQPVAETPDSWKWDLNTIPVRIIPVEHHA" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6873-MONOMER" "SoxR [2Fe-2S] reducing system protein RsxC" ["YdgN", "RsxC", "member of SoxR-reducing complex"] "MLKLFSAFRKNKIWDFNGGIHPPEMKTQSNGTPLRQVPLAQRFVIPLKQHIGAEGELCVSVGDKVLRGQPLTRGRGKMLPVHAPTSGTVTAIAPHSTAHPSALAELSVIIDADGEDCWIPRDGWADYRTRSREELIERIHQFGVAGLGGAGFPTGVKLQGGGDKIETLIINAAECEPYITADDRLMQDCAAQVVEGIRILAHILQPREILIGIEDNKPQAISMLRAVLADSNDISLRVIPTKYPSGGAKQLTYILTGKQVPHGGRSSDIGVLMQNVGTAYAVKRAVIDGEPITERVVTLTGEAIARPGNVWARLGTPVRHLLNDAGFCPSADQMVIMGGPLMGFTLPWLDVPVVKITNCLLAPSANELGEPQEEQSCIRCSACADACPADLLPQQLYWFSKGQQHDKATTHNIADCIECGACAWVCPSNIPLVQYFRQEKAEIAAIRQEEKRAAEAKARFEARQARLEREKAARLERHKSAAVQPAAKDKDAIAAALARVKEKQAQATQPIVIKAGERPDNSAIIAAREARKAQARAKQAELQQTNDAATVADPRKTAVEAAIARAKARKLEQQQANAEPEQQVDPRKAAVEAAIARAKARKLEQQQANAEPEEQVDPRKAAVEAAIARAKARKLEQQQANAEPEQQVDPRKAAVEAAIARAKARKREQQPANAEPEEQVDPRKAAVEAAIARAKARKLEQQQANAVPEEQVDPRKAAVAAAIARAQAKKAAQQKVVNED" [] ["CCO-CYTOSOL", "CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"G6874-MONOMER" "SoxR [2Fe-2S] reducing system protein RsxD" ["YdgO", "RsxD"] "MVFRIASSPYTHNQRQTSRIMLLVLLAAVPGIAAQLWFFGWGTLVQILLASVSALLAEALVLKLRKQSVAATLKDNSALLTGLLLAVSIPPLAPWWMVVLGTVFAVIIAKQLYGGLGQNPFNPAMIGYVVLLISFPVQMTSWLPPHEIAVNIPGFIDAIQVIFSGHTASGGDMNTLRLGIDGISQATPLDTFKTSVRAGHSVEQIMQYPIYSGILAGAGWQWVNLAWLAGGVWLLWQKAIRWHIPLSFLVTLALCAMLGWLFSPETLAAPQIHLLSGATMLGAFFILTDPVTASTTNRGRLIFGALAGLLVWLIRSFGGYPDGVAFAVLLANITVPLIDYYTRPRVYGHRKG" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6875-MONOMER" "SoxR [2Fe-2S] reducing system protein RsxG" ["YdgP", "RsxG"] "MLKTIRKHGITLALFAAGSTGLTAAINQMTKTTIAEQASLQQKALFDQVLPAERYNNALAQSCYLVTAPELGKGEHRVYIAKQDDKPVAAVLEATAPDGYSGAIQLLVGADFNGTVLGTRVTEHHETPGLGDKIELRLSDWITHFAGKKISGADDAHWAVKKDGGDFDQFTGATITPRAVVNAVKRAGLYAQTLPAQLSQLPACGE" ["CCO-OUTER-MEM"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"G6876-MONOMER" "SoxR [2Fe-2S] reducing system protein RsxE" ["YdgQ", "RsxE"] "MSEIKDVIVQGLWKNNSALVQLLGLCPLLAVTSTATNALGLGLATTLVLTLTNLTISTLRHWTPAEIRIPIYVMIIASVVSAVQMLINAYAFGLYQSLGIFIPLIVTNCIVVGRAEAFAAKKGPALSALDGFSIGMGATCAMFVLGSLREIIGNGTLFDGADALLGSWAKVLRVEIFHTDSPFLLAMLPPGAFIGLGLMLAGKYLIDERMKKRRAEAAAERALPNGETGNV" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6880-MONOMER" "anhydro-N-acetylmuramic acid kinase" ["YdhH", "AnmK"] "MKSGRFIGVMSGTSLDGVDVVLATIDEHRVAQLASLSWPIPVSLKQAVLDICQGQQLTLSQFGQLDTQLGQLFADAVNALLKEQNLQARDIVAIGCHGQTVWHEPTGVAPHTLQIGDNNQIVARTGITVVGDFRRRDIALGGQGAPLVPAFHHALLAHPTERRMVLNIGGIANLSLLIPGQPVGGYDTGPGNMLMDAWIWRQAGKPYDKDAEWARAGKVILPLLQNMLSDPYFSQPAPKSTGREYFNYGWLERHLRHFPGVDPRDVQATLAELTAVTISEQVLLSGGCERLMVCGGGSRNPLLMARLAALLPGTEVTTTDAVGISGDDMEALAFAWLAWRTLAGLPGNLPSVTGASQETVLGAIFPANP" [] ["CCO-PM-BAC-NEG"] +"G6881-MONOMER" "outer membrane lipoprotein SlyB" ["SlyB"] "MIKRVLVVSMVGLSLVGCVNNDTLSGDVYTASEAKQVQNVSYGTIVNVRPVQIQGGDDSNVIGAIGGAVLGGFLGNTVGGGTGRSLATAAGAVAGGVAGQGVQSAMNKTQGVELEIRKDDGNTIMVVQKQGNTRFSPGQRVVLASNGSQVTVSPR" ["CCO-OUTER-MEM"] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"G6882-MONOMER" "SlyA" ["SlyA"] "MESPLGSDLARLVRIWRALIDHRLKPLELTQTHWVTLHNIHQLPPDQSQIQLAKAIGIEQPSLVRTLDQLEEKGLISRQTCASDRRAKRIKLTEKAEPLISEMEAVINKTRAEILHGISAEELEQLITLIAKLEHNIIELQAKG" [] ["CCO-CYTOSOL"] +"G6883-MONOMER" "DUF1656 domain-containing protein YdhI" ["YdhI"] "MKFMLNATGLPLQDLVFGASVYFPPFFKAFAFGFVIWLVVHRLLRGWIYAGDIWHPLLMDLSLFAICVCLALAILIAW" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6884-MONOMER" "putative membrane fusion protein YdhJ" ["YdhJ"] "MSIKTIKYFSTIIVAVVAVLAGWWLWNYYMQSPWTRDGKIRAEQVSITPQVSGRIVELNIKDNQLVNAGDLLLTIDKTPFQIAELNAQAQLAKAQSDLAKANNEANRRRHLSQNFISAEELDTANLNVKAMQASVDAAQATLKQAQWQLAQTEIRAPVSGWVTNLTTRIGDYADTGKPLFALVDSHSFYVIGYFEETKLRHIREGAPAQITLYSDNKTLQGHVSSIGRAIYDQSVESDSSLIPDVKPNVPWVRLAQRVPVRFALDKVPGDVTLVSGTTCSIAVGQ" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6885-MONOMER" "putative transporter YdhK" ["YdhK"] "MNASSWSLRNLPWFRATLAQWRYALRNTIAMCLALTVAYYLNLDEPYWAMTSAAVVSFPTVGGVISKSLGRIAGSLLGAIAALLLAGHTLNEPWFFLLSMSAWLGFCTWACAHFTNNVAYAFQLAGYTAAIIAFPMVNITEASQLWDIAQARVCEVIVGILCGGMMMMILPSSSDATALLTALKNMHARLLEHASLLWQPETTDAIRAAHEGVIGQILTMNLLRIQAFWSHYRFRQQNARLNALLHQQLRMTSVISSLRRMLLNWPSPPGATREILEQLLTALASSQTDVYTVARIIAPLRPTNVADYRHVAFWQRLRYFCRLYLQSSQELHRLQSGVDDHTRLPRTSGLARHTDNAEAMWSGLRTFCTLMMIGAWSIASQWDAGANALTLAAISCVLYSAVAAPFKSLSLLMRTLVLLSLFSFVVKFGLMVQISDLWQFLLFLFPLLATMQLLKLQMPKFAALWGQLIVFMGSFIAVTNPPVYDFADFLNDNLAKIVGVALAWLAFAILRPGSDARKSRRHIRALRRDFVDQLSRHPTLSESEFESLTYHHVSQLSNSQDALARRWLLRWGVVLLNCSHVVWQLRDWESRSDPLSRVRDNCISLLRGVMSERGVQQKSLAATLEELQRICDSLARHHQPAARELAAIVWRLYCSLSQLEQAPPQGTLAS" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6886-MONOMER" "superoxide dismutase (Cu-Zn)" ["SodC", "bacteriocuprein"] "MKRFSLAILALVVATGAQAASEKVEMNLVTSQGVGQSIGSVTITETDKGLEFSPDLKALPPGEHGFHIHAKGSCQPATKDGKASAAESAGGHLDPQNTGKHEGPEGAGHLGDLPALVVNNDGKATDAVIAPRLKSLDEIKDKALMVHVGGDNMSDQPKPLGGGGERYACGVIK" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"G6887-MONOMER" "putative oxidoreductase YdhF" ["YdhF"] "MVQRITIAPQGPEFSRFVMGYWRLMDWNMSARQLVSFIEEHLDLGVTTVDHADIYGGYQCEAAFGEALKLAPHLRERMEIVSKCGIATTAREENVIGHYITDRDHIIKSAEQSLINLATDHLDLLLIHRPDPLMDADEVADAFKHLHQSGKVRHFGVSNFTPAQFALLQSRLPFTLATNQVEISPVHQPLLLDGTLDQLQQLRVRPMAWSCLGGGRLFNDDYFQPLRDELAVVAEELNAGSIEQVVYAWVLRLPSQPLPIIGSGKIERVRAAVEAETLKMTRQQWFRIRKAALGYDVP" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G6888-MONOMER" "DUF1289 domain-containing protein YdhL" ["YdhL"] "MAEQLEFFPVQSPCRGICQSDERGFCRGCFRSRDERFNWNKMSDGEKQEVLRLCRQRLMRKLRANKPASSDEPEQPSLF" [] ["CCO-CYTOSOL"] +"G6889-MONOMER" "DNA-binding transcriptional repressor NemR" ["YdhM", "NemR"] "MNKHTEHDTREHLLATGEQLCLQRGFTGMGLSELLKTAEVPKGSFYHYFRSKEAFGVAMLERHYAAYHQRLTELLQSGEGNYRDRILAYYQQTLNQFCQHGTISGCLTVKLSAEVCDLSEDMRSAMDKGARGVIALLSQALENGRENHCLTFCGEPLQQAQVLYALWLGANLQAKISRSFEPLENALAHVKNIIATPAV" [] ["CCO-CYTOSOL"] +"G6890-MONOMER" "N-ethylmaleimide reductase" ["YdhN", "NemA", "N-ethylmaleimide reductase, FMN-linked"] "MSSEKLYSPLKVGAITAANRIFMAPLTRLRSIEPGDIPTPLMAEYYRQRASAGLIISEATQISAQAKGYAGAPGIHSPEQIAAWKKITAGVHAENGHMAVQLWHTGRISHASLQPGGQAPVAPSALSAGTRTSLRDENGQAIRVETSMPRALELEEIPGIVNDFRQAIANAREAGFDLVELHSAHGYLLHQFLSPSSNHRTDQYGGSVENRARLVLEVVDAGIEEWGADRIGIRVSPIGTFQNTDNGPNEEADALYLIEQLGKRGIAYLHMSEPDWAGGEPYTDAFREKVRARFHGPIIGAGAYTVEKAETLIGKGLIDAVAFGRDWIANPDLVARLQRKAELNPQRAESFYGGGAEGYTDYPTL" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G6892-MONOMER" null ["YdhO"] "MARINRISITLCALLFTTLPLTPMAHASKQARESSATTHITKKADKKKSTATTKKTQKTAKKAASKSTTKSKTASSVKKSSITASKNAKTRSKHAVNKTASASFTEKCTKRKGYKSHCVKVKNAASGTLADAHKAKVQKATKVAMNKLMQQIGKPYRWGGSSPRTGFDCSGLVYYAYKDLVKIRIPRTANEMYHLRDAAPIERSELKNGDLVFFRTQGRGTADHVGVYVGNGKFIQSPRTGQEIQITSLSEDYWQRHYVGARRVMTPKTLR" [] ["CCO-PERI-BAC"] +"G6894-MONOMER" "putative adhesin-related protein YdhQ" ["YdhQ"] "MGSDAKNLMSDGNVQIVKTGEVIGATQLTEGELIVEAGGRAENTVVTGAGWLKVATGGIAKCTQYGNNGTLSVSDGAIATDIVQSEGGAISLSTLATVNGRHPEGEFSVDKGYACGLLLENGGNLRVLEGHRAEKIILDQEGGLLVNGTTSAVVVDEGGELLVYPGGEASNCEINQGGVFMLAGKASDTLLAGGTMNNLGGEDSDTIVENGSIYRLGTDGLQLYSSGKTQNLSVNVGGRAEVHAGTLENAVIQGGTVILLSPTSADENFVVEEDRAPVELTGSVALLDGASMIIGYGAELQQSTITVQQGGVLILDGSTVKGDSVTFIVGNINLNGGKLWLITDAATHVQLKVKRLRGEGAICLQTSAKEISPDFINVKGEVTGDIHVEITDASRQTLCNALKLQPDEDGIGATLQPA" [] ["CCO-MEMBRANE"] +"G6895-MONOMER" "putative monooxygenase YdhR" ["YdhR"] "MATLLQLHFAFNGPFGDAMAEQLKPLAESINQEPGFLWKVWTESEKNHEAGGIYLFTDEKSALAYLEKHTARLKNLGVEEVVAKVFDVNEPLSQINQAKLA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G6896-MONOMER" "FAD/NAD(P) binding domain-containing protein YdhS" ["YdhS"] "MKKIAIVGAGPTGIYTLFSLLQQQTPLSISIFEQADEAGVGMPYSDEENSKMMLANIASIEIPPIYCTYLEWLQKQEDSHLQRYGVKKETLHDRQFLPRILLGEYFRDQFLRLVDQARQQKFAVAVYESCQVTDLQITNAGVMLATNQDLPSETFDLAVIATGHVWPDEEEATRTYFPSPWSGLMEAKVDACNVGIMGTSLSGLDAAMAVAIQHGSFIEDDKQHVVFHRDNASEKLNITLLSRTGILPEADFYCPIPYEPLHIVTDQALNAEIQKGEEGLLDRVFRLIVEEIKFADPDWSQRIALESLNVDSFAQAWFAERKQRDPFDWAEKNLQEVERNKREKHTVPWRYVILRLHEAVQEIVPHLNEHDHKRFSKGLARVFIDNYAAIPSESIRRLLALREAGIIHILALGEDYKMEINESRTVLKTEDNSYSFDVFIDARGQRPLKVKDIPFPGLREQLQKTGDEIPDVGEDYTLQQPEDIRGRVAFGALPWLMHDQPFVQGLTACAEIGEAMARAVVKPASRARRRLSFD" [] ["CCO-CYTOSOL"] +"G6897-MONOMER" "uncharacterized protein YdhT" ["YdhT"] "MIITQADLREWRIGAVMYRWFLRHFPRGGSYADIHHALIEEGYTDWAESLVEYAWKKWLADENFAHQEVSSMQKLATDPGERPFCSQFARSDDHARIGCCEDNARIATAGYAAQIASMGYSVRIGSVGFNSHIGSSGERARVAVTGNSSRISSAGDSSRIANTGMRVRVCTLGERCHVASNGDLVQIASFGANARIANSGDNVHIIASGENSTVVSTGVVDSIILGPGGSAALAYHDGERVRFAVAIEGENNIRAGVRYRLNEQHQFVEC" [] ["CCO-CYTOSOL"] +"G6898-MONOMER" "putative cytochrome YdhU" ["YdhU"] "MNPSQHAEQFQSQLANYVPQFTPEFWPVWLIIAGVLLVGMWLVLGLHALLRARGVKKSATDHGEKIYLYSKAVRLWHWSNALLFVLLLASGLINHFAMVGATAVKSLVAVHEVCGFLLLACWLGFVLINAVGDNGHHYRIRRQGWLERAAKQTRFYLFGIMQGEEHPFPATTQSKFNPLQQVAYVGVMYGLLPLLLLTGLLCLYPQAVGDVFPGVRYWLLQTHFALAFISLFFIFGHLYLCTTGRTPHETFKSMVDGYHRH" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6899-MONOMER" "putative 4Fe-4S ferredoxin-like protein YdhX" ["YdhX"] "MSFTRRKFVLGMGTVIFFTGSASSLLANTRQEKEVRYAMIHDESRCNGCNICARACRKTNHVPAQGSRLSIAHIPVTDNDNETQYHFFRQSCQHCEDAPCIDVCPTGASWRDEQGIVRVEKSQCIGCSYCIGACPYQVRYLNPVTKVADKCDFCAESRLAKGFPPICVSACPEHALIFGREDSPEIQAWLQQNKYYQYQLPGAGKPHLYRRFGQHLIKKENV" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"G6900-MONOMER" "uncharacterized protein YdhW" ["YdhW"] "MGKMNHQDELPLAKVSEVDEAKRQWLQGMRHPVDTVTEPEPAEILAEFIRQHSAAGQLVARAVFLSPPYLVAEEELSVLLESIKQNGDYADIACLTGSKDDYYYSTQAMSENYAAMSLQVVEQDICRAIAHAVRFECQTYPRPYKVAMLMQAPYYFQEAQIEAAIAAMDVAPEYADIRQVESSTAVLYLFSERFMTYGKAYGLCEWFEVEQFQNP" [] ["CCO-CYTOSOL"] +"G6901-MONOMER" "putative oxidoreductase YdhV" ["YdhV"] "MANGWTGNILRVNLTTGNITLEDSSKFKSFVGGMGFGYKIMYDEVPPGTKPFDEANKLVFATGPLTGSGAPCSSRVNITSLSTFTKGNLVVDAHMGGFFAAQMKFAGYDVIIIEGKAKSPVWLKIKDDKVSLEKADFLWGKGTRATTEEICRLTSPETCVAAIGQAGENLVPLSGMLNSRNHSGGAGTGAIMGSKNLKAIAVEGTKGVNIADRQEMKRLNDYMMTELIGANNNHVVPSTPQSWAEYSDPKSRWTARKGLFWGAAEGGPIETGEIPPGNQNTVGFRTYKSVFDLGPAAEKYTVKMSGCHSCPIRCMTQMNIPRVKEFGVPSTGGNTCVANFVHTTIFPNGPKDFEDKDDGRVIGNLVGLNLFDDYGLWCNYGQLHRDFTYCYSKGVFKRVLPAEEYAEIRWDQLEAGDVNFIKDFYYRLAHRVGELSHLADGSYAIAERWNLGEEYWGYAKNKLWSPFGYPVHHANEASAQVGSIVNCMFNRDCMTHTHINFIGSGLPLKLQREVAKELFGSEDAYDETKNYTPINDAKIKYAKWSLLRVCLHNAVTLCNWVWPMTVSPLKSRNYRGDLALEAKFFKAITGEEMTQEKLDLAAERIFTLHRAYTVKLMQTKDMRNEHDLICSWVFDKDPQIPVFTEGTDKMDRDDMHASLTMFYKEMGWDPQLGCPTRETLQRLGLEDIAADLAAHNLLPA" [] ["CCO-CYTOSOL"] +"G6902-MONOMER" "putative 4Fe-4S ferredoxin-like protein YdhY" ["YdhY"] "MNPVDRPLLDIGLTRLEFLRISGKGLAGLTIAPALLSLLGCKQEDIDSGTVGLINTPKGVLVTQRARCTGCHRCEISCTNFNDGSVGTFFSRIKIHRNYFFGDNGVGSGGGLYGDLNYTADTCRQCKEPQCMNVCPIGAITWQQKEGCITVDHKRCIGCSACTTACPWMMATVNTESKKSSKCVLCGECANACPTGALKIIEWKDITV" [] ["CCO-CYTOSOL"] +"G6903-MONOMER" "fumarase D" ["FumD", "YdhZ"] "MGNRTKEDELYREMCRVVGKVVLEMRDLGQEPKHIVIAGVLRTALANKRIQRSELEKQAMETVINALVK" [] ["CCO-CYTOSOL"] +"G6904-MONOMER" "L,D-transpeptidase LdtE" ["YnhG", "LdtE"] "MKRASLLTLTLIGAFSAIQAAWAVDYPLPPTGSRLVGQNQTYTVQEGDKNLQAIARRFDTAAMLILEANNTIAPVPKPGTTITIPSQLLLPDAPRQGIIVNLAELRLYYYPPGENIVQVYPIGIGLQGLETPVMETRVGQKIPNPTWTPTAGIRQRSLERGIKLPPVVPAGPNNPLGRYALRLAHGNGEYLIHGTSAPDSVGLRVSSGCIRMNAPDIKALFSSVRTGTPVKVINEPVKYSVEPNGMRYVEVHRPLSAEEQQNVQTMPYTLPAGFTQFKDNKAVDQKLVDKALYRRAGYPVSVSSGATPAASNAPSVESAQNGEPEQGNMLRVTQ" [] ["CCO-PERI-BAC"] +"G6905-MONOMER" "sulfur carrier protein SufE" ["YnhA", "SufE", "sulfur acceptor for SufS cysteine desulfurase"] "MALLPDKEKLLRNFLRCANWEEKYLYIIELGQRLPELRDEDRSPQNSIQGCQSQVWIVMRQNAQGIIELQGDSDAAIVKGLIAVVFILYDQMTPQDIVNFDVRPWFEKMALTQHLTPSRSQGLEAMIRAIRAKAAALS" [] ["CCO-CYTOSOL"] +"G6906-MONOMER" "L-cysteine desulfurase" ["CsdB", "YnhB", "SufS"] "MIFSVDKVRADFPVLSREVNGLPLAYLDSAASAQKPSQVIDAEAEFYRHGYAAVHRGIHTLSAQATEKMENVRKRASLFINARSAEELVFVRGTTEGINLVANSWGNSNVRAGDNIIISQMEHHANIVPWQMLCARVGAELRVIPLNPDGTLQLETLPTLFDEKTRLLAITHVSNVLGTENPLAEMITLAHQHGAKVLVDGAQAVMHHPVDVQALDCDFYVFSGHKLYGPTGIGILYVKEALLQEMPPWEGGGSMIATVSLSEGTTWTKAPWRFEAGTPNTGGIIGLGAALEYVSALGLNNIAEYEQNLMHYALSQLESVPDLTLYGPQNRLGVIAFNLGKHHAYDVGSFLDNYGIAVRTGHHCAMPLMAYYNVPAMCRASLAMYNTHEEVDRLVTGLQRIHRLLG" [] ["CCO-CYTOSOL"] +"G6907-MONOMER" "Fe-S cluster scaffold complex subunit SufD" ["YnhC", "SufD", "SufD component of SufBCD Fe-S cluster scaffold complex"] "MAGLPNSSNALQQWHHLFEAEGTKRSPQAQQHLQQLLRTGLPTRKHENWKYTPLEGLINSQFVSIAGEISPQQRDALALTLDSVRLVFVDGRYVPALSDATEGSGYEVSINDDRQGLPDAIQAEVFLHLTESLAQSVTHIAVKRGQRPAKPLLLMHITQGVAGEEVNTAHYRHHLDLAEGAEATVIEHFVSLNDARHFTGARFTINVAANAHLQHIKLAFENPLSHHFAHNDLLLAEDATAFSHSFLLGGAVLRHNTSTQLNGENSTLRINSLAMPVKNEVCDTRTWLEHNKGFCNSRQLHKTIVSDKGRAVFNGLINVAQHAIKTDGQMTNNNLLMGKLAEVDTKPQLEIYADDVKCSHGATVGRIDDEQIFYLRSRGINQQDAQQMIIYAFAAELTEALRDEGLKQQVLARIGQRLPGGAR" [] [] +"G6908-MONOMER" "Fe-S cluster scaffold complex subunit SufC" ["YnhD", "SufC", "SufC component of SufBCD Fe-S cluster scaffold complex"] "MLSIKDLHVSVEDKAILRGLSLDVHPGEVHAIMGPNGSGKSTLSATLAGREDYEVTGGTVEFKGKDLLALSPEDRAGEGIFMAFQYPVEIPGVSNQFFLQTALNAVRSYRGQETLDRFDFQDLMEEKIALLKMPEDLLTRSVNVGFSGGEKKRNDILQMAVLEPELCILDESDSGLDIDALKVVADGVNSLRDGKRSFIIVTHYQRILDYIKPDYVHVLYQGRIVKSGDFTLVKQLEEQGYGWLTEQQ" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G6909-MONOMER" "Fe-S cluster scaffold complex subunit SufB" ["YnhE", "SufB", "SufB component of SufBCD Fe-S cluster scaffold complex"] "MSRNTEATDDVKTWTGGPLNYKEGFFTQLATDELAKGINEEVVRAISAKRNEPEWMLEFRLNAYRAWLEMEEPHWLKAHYDKLNYQDYSYYSAPSCGNCDDTCASEPGAVQQTGANAFLSKEVEAAFEQLGVPVREGKEVAVDAIFDSVSVATTYREKLAEQGIIFCSFGEAIHDHPELVRKYLGTVVPGNDNFFAALNAAVASDGTFIYVPKGVRCPMELSTYFRINAEKTGQFERTILVADEDSYVSYIEGCSAPVRDSYQLHAAVVEVIIHKNAEVKYSTVQNWFPGDNNTGGILNFVTKRALCEGENSKMSWTQSETGSAITWKYPSCILRGDNSIGEFYSVALTSGHQQADTGTKMIHIGKNTKSTIISKGISAGHSQNSYRGLVKIMPTATNARNFTQCDSMLIGANCGAHTFPYVECRNNSAQLEHEATTSRIGEDQLFYCLQRGISEEDAISMIVNGFCKDVFSELPLEFAVEAQKLLAISLEHSVG" [] ["CCO-CYTOSOL"] +"G6911-MONOMER" "uncharacterized protein YdiH" ["YdiH"] "MSTQLDPTQLAIEFLRRDQSNLSPAQYLKRLKQLELEFADLLTLSSAELKEEIYFAWRLGVH" [] ["CCO-CYTOSOL"] +"G6912-MONOMER" "1,4-dihydroxy-2-naphthoyl-CoA hydrolase" ["MenI", "YdiI"] "MIWKRKITLEALNAMGEGNMVGFLDIRFEHIGDDTLEATMPVDSRTKQPFGLLHGGASVVLAESIGSVAGYLCTEGEQKVVGLEINANHVRSAREGRVRGVCKPLHLGSRHQVWQIEIFDEKGRLCCSSRLTTAIL" [] ["CCO-CYTOSOL"] +"G6913-MONOMER" "putative FAD-linked oxidoreductase YdiJ" ["YdiJ"] "MIPQISQAPGVVQLVLNFLQELEQQGFTGDTATSYADRLTMSTDNSIYQLLPDAVVFPRSTADVALIARLAAQERYSSLIFTPRGGGTGTNGQALNQGIIVDMSRHMNRIIEINPEEGWVRVEAGVIKDQLNQYLKPFGYFFAPELSTSNRATLGGMINTDASGQGSLVYGKTSDHVLGVRAVLLGGDILDTQPLPVELAETLGKSNTTIGRIYNTVYQRCRQQRQLIIDNFPKLNRFLTGYDLRHVFNDEMTEFDLTRILTGSEGTLAFITEARLDITRLPKVRRLVNVKYDSFDSALRNAPFMVEARALSVETVDSKVLNLAREDIVWHSVSELITDVPDQEMLGLNIVEFAGDDEALIDERVNALCARLDELIASHQAGVIGWQVCRELAGVERIYAMRKKAVGLLGNAKGAAKPIPFAEDTCVPPEHLADYIAEFRALLDSHGLSYGMFGHVDAGVLHVRPALDMCDPQQEILMKQISDDVVALTAKYGGLLWGEHGKGFRAEYSPAFFGEELFAELRKVKAAFDPHNRLNPGKICPPEGLDAPMMKVDAVKRGTFDRQIPIAVRQQWRGAMECNGNGLCFNFDARSPMCPSMKITQNRIHSPKGRATLVREWLRLLADRGVDPLKLEQELPESGVSLRTLIARTRNSWHANKGEYDFSHEVKEAMSGCLACKACSTQCPIKIDVPEFRSRFLQLYHTRYLRPLRDHLVATVESYAPLMARAPKTFNFFINQPLVRKLSEKHIGMVDLPLLSVPSLQQQMVGHRSANMTLEQLESLNAEQKARTVLVVQDPFTSYYDAQVVADFVRLVEKLGFQPVLLPFSPNGKAQHIKGFLNRFAKTAKKTADFLNRMAKLGMPMVGVDPALVLCYRDEYKLALGEERGEFNVLLANEWLASALESQPVATVSGESWYFFGHCTEVTALPGAPAQWAAIFARFGAKLENVSVGCCGMAGTYGHEAKNHENSLGIYELSWHQAMQRLPRNRCLATGYSCRSQVKRVEGTGVRHPVQALLEIIK" [] ["CCO-CYTOSOL"] +"G6914-MONOMER" "putative transporter YdiK" ["YdiK"] "MVNVRQPRDVAQILLSVLFLAIMIVACLWIVQPFILGFAWAGTVVIATWPVLLRLQKIMFGRRSLAVLVMTLLLVMVFIIPIALLVNSIVDGSGPLIKAISSGDMTLPDLAWLNTIPVIGAKLYAGWHNLLDMGGTAIMAKVRPYIGTTTTWFVGQAAHIGRFMVHCALMLLFSALLYWRGEQVAQGIRHFATRLAGVRGDAAVLLAAQAIRAVALGVVVTALVQAVLGGIGLAVSGVPYATLLTVLMILSCLVQLGPLPVLIPAIIWLYWTGDTTWGTVLLVWSGVVGTLDNVIRPMLIRMGADLPLILILSGVIGGLIAFGMIGLFIGPVLLAVSWRLFAAWVEEVPPPTDQPEEILEELGEIEKPNK" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6915-MONOMER" "DUF1870 domain-containing protein YdiL" ["YdiL"] "MNAYELQALRHIFAMTIDECATWIAQTGDSESWRQWENGKCAIPDRVVEQLLAMRQQRKKHLHAIIEKINNRIGNNTMRFFPDLTAFQRVYPDGNFIDWKIYQSVAAELYAHDLERLC" [] ["CCO-CYTOSOL"] +"G6918-MONOMER" "putative acyl-CoA dehydrogenase YdiO" ["YdiO"] "MDFSLTEEQELLLASIRELITTNFPEEYFRTCDQNGTYPREFMRALADNGISMLGVPEEFGGIPADYVTQMLALMEVSKCGAPAFLITNGQCIHSMRRFGSAEQLRKTAESTLETGDPAYALALTEPGAGSDNNSATTTYTRKNGKVYINGQKTFITGAKEYPYMLVLARDPQPKDPKKAFTLWWVDSSKPGIKINPLHKIGWHMLSTCEVYLDNVEVEESDMVGEEGMGFLNVMYNFEMERLINAARSTGFAECAFEDAARYANQRIAFGKPIGHNQMIQEKLALMAIKIDNMRNMVLKVAWQADQHQSLRTSAALAKLYCARTAMEVIDDAIQIMGGLGYTDEARVSRFWRDVRCERIGGGTDEIMIYVAGRQILKDYQNK" [] ["CCO-CYTOSOL"] +"G6919-MONOMER" "putative DNA-binding transcriptional regulator YdiP" ["YdiP"] "MYQRCFDNASETLFVAGKTPRLSRFAFSDDPKWESGHHVHDNETELIYVKKGVARFTIDSSLYVAHADDIVVIERGRLHAVASDVNDPATTCTCALYGFQFQGAEENQLLQPHSCPVIAAGQGKEVIKTLFNELSVILPQSKNSQTSSLWDAFAYTLAILYYENFKNAYRSEQGYIKKDVLIKDILFYLNNNYREKITLEQLSKKFRASVSYICHEFTKEYRISPINYVIQRRMTEAKWSLTNTELSQAEISWRVGYENVDHFAKLFLRHVGCSPSDYRRQFKNCFAEQEILSEFPQPVSLVG" [] ["CCO-CYTOSOL"] +"G6920-MONOMER" "putative electron transfer flavoprotein subunit YdiQ" ["YdiQ"] "MKIITCFKLVPEEQDIVVTPEYTLNFDNADAKISQFDLNAIEAASQLATDDDEIAALTVGGSLLQNSKVRKDVLSRGPHSLYLVQDAQLEHALPLDTAKALAAAIEKIGFDLLIFGEGSGDLYAQQVGLLVGEILQLPVINAVSAIQRQGNTLVIERTLEDDVEVIELSVPAVLCVTSDINVPRIPSMKAILGAGKKPVNQWQASDIDWSQSAPLAELVGIRVPPQTERKHIIIDNDSPEAIAELAEHLKKALN" [] ["CCO-CYTOSOL"] +"G6921-MONOMER" "putative electron transfer flavoprotein subunit YdiR" ["YdiR", "putative electron transport flavoprotein, FAD-binding"] "MSQLNSVWVFSDNPERYAELFGGAQQWGQQVYAIVQNTDQAQAVMPYGPKCLYVLAQNDALQRTENYAESIAALLKDKHPAMLLLAATKRGKALAARLSVQLNAALVNDATAVDIVDGHICAEHRMYGGLAFAQEKINSPLAIITLAPGVQEPCTSDTSHQCPTETVPYVAPRHEILCRERRAKAASSVDLSKAKRVVGVGRGLAAQDDLKMVHELAAVLNAEVGCSRPIAEGENWMERERYIGVSGVLLKSDLYLTLGISGQIQHMVGGNGAKVIVAINKDKNAPIFNYADYGLVGDIYKVVPALISQLSR" [] ["CCO-PM-BAC-NEG"] +"G6922-MONOMER" "putative electron transfer flavoprotein-quinone oxidoreductase YdiS" ["YdiS", "putative oxidoreductase with FAD/NAD(P)-binding domain"] "MSDDKFDAIVVGAGVAGSVAALVMARAGLDVLVIERGDSAGCKNMTGGRLYAHTLEAIIPGFAVSAPVERKVTREKISFLTEESAVTLDFHREQPDVPQHASYTVLRNRLDPWLMEQAEQAGAQFIPGVRVDALVREGNKVTGVQAGDDILEANVVILADGVNSMLGRSLGMVPASDPHHYAVGVKEVIGLTPEQINDRFNITGEEGAAWLFAGSPSDGLMGGGFLYTNKDSISLGLVCGLGDIAHAQKSVPQMLEDFKQHPAIRPLISGGKLLEYSAHMVPEGGLAMVPQLVNEGVMIVGDAAGFCLNLGFTVRGMDLAIASAQAAATTVIAAKERADFSASSLAQYKRELEQSCVMRDMQHFRKIPALMENPRLFSQYPRMVADIMNEMFTIDGKPNQPVRKMIMGHAKKIGLINLLKDGIKGATAL" [] ["CCO-CYTOSOL"] +"G6923-MONOMER" "ferredoxin-like protein YdiT" ["YdiT", "putative 4Fe-4S ferredoxin-type protein"] "MSQNATVNVDIKLGVNKFHVDEGHPHIILAENPDINEFHKLMKACPAGLYKQDDAGNIHFDSAGCLECGTCRVLCGNTILEQWQYPAGTFGIDFRYG" [] ["CCO-CYTOSOL"] +"G6924-MONOMER" "protein adenylyltransferase SelO" ["YdiU", "UPF0061 family protein YdiU"] "MTLSFVTRWRDELPETYTALSPTPLNNARLIWHNTELANTLSIPSSLFKNGAGVWGGEALLPGMSPLAQVYSGHQFGVWAGQLGDGRGILLGEQLLADGTTMDWHLKGAGLTPYSRMGDGRAVLRSTIRESLASEAMHYLGIPTTRALSIVTSDSPVYRETAEPGAMLMRVAPSHLRFGHFEHFYYRRESEKVRQLADFAIRHYWSHLADDEDKYRLWFSDVVARTASLIAQWQTVGFAHGVMNTDNMSLLGLTLDYGPFGFLDDYEPGFICNHSDHQGRYSFDNQPAVALWNLQRLAQTLSPFVAVDALNEALDSYQQVLLTHYGERMRQKLGFMTEQKEDNALLNELFSLMARERSDYTRTFRMLSLTEQHSAASPLRDEFIDRAAFDDWFARYRGRLQQDEVSDSERQQLMQSVNPALVLRNWLAQRAIEAAEKGDMTELHRLHEALRNPFSDRDDDYVSRPPDWGKRLEVSCSS" [] ["CCO-CYTOSOL"] +"G6925-MONOMER" "anti-FlhDC factor RflP" ["RflP", "YdiV"] "MKIFLENLYHSDCYFLPIRDNQQVLVGVELITHFSSEDGTVRIPTSRVIAQLTEEQHWQLFSEQLELLKSCQHFFIQHKLFAWLNLTPQVATLLLERDNYAGELLKYPFIELLINENYPHLNEGKDNRGLLSLSQVYPLVLGNLGAGNSTMKAVFDGLFTRVMLDKSFIQQQITHRSFEPFIRAIQAQISPCCNCIIAGGIDTAEILAQITPFDFHALQGCLWPAVPINQITTLVQR" [] ["CCO-PM-BAC-NEG"] +"G6926-MONOMER" "putative ankyrin repeat protein B, N-terminal fragment" ["YdiX", "YdiW", "ArpB", "ArpB_1"] "MSQNDIIIRTHYKSPHRLHIDSDIPTPSSEPINQFARQLITLLDTSDLSSMLSYCVTQEFTANCRKISQNCYSTALFTINFATSPIHTENILITLHYKKEIISLLLETTPIKANHLRSILDYIEQEQLTAEDRNHCMKLSKKIHREKNYTPNSKSQW*CMFFAISF*RYFLSPSVIAIRP*FIEKWKRQSQPD*TLLLR*IHTAACPLSPGRGVQSITSPSSCRESRYRE*GFWLRFRYFLLSNDGKQCQSYVRDFIYRQSYFVSKATNKAVSVWTIKLCCVRLRPERYQRCRQRHPQDSTGLSFA**VHQFRSRCSDLG**ICSQLCNCYSAPITCGSSRGYFRGYCITNAICPYTSIGNVVNNGYRPVSTAYYIIQTVAHTP*KRNH*NNNCAE*RWYTCFIFGYDERTY*QRENIYARNSVTGR*SHHS*R*SG*ITAN*KC*RNTWTLYLHVVWIR*NNRYLSECINHSNSTRAFKQKTGDEYFSHENT*W*ARIIRRNGK*SPFVCHTVPL*N*WHRL*IQVEQS*HHGFIKRSYSTGNPCIIHRHEQG**RRRVILYIDAGCFCKKTFF*STSVIYTIGR*KS*QHVSCSYSHSS*AL*NCRNILCCY*CNQPKPEF*C**NKDVF" [] [] +"G6928-MONOMER" "acid-inducible putative outer membrane protein YdiY" ["YdiY"] "MKLLKTVPAIVMLAGGMFASLNAAADDSVFTVMDDPASAKKPFEGNLNAGYLAQSGNTKSSSLTADTTMTWYGHTTAWSLWGNASNTSSNDERSSEKYAAGGRSRFNLTDYDYLFGQASWLTDRYNGYRERDVLTAGYGRQFLNGPVHSFRFEFGPGVRYDKYTDNASETQPLGYASGAYAWQLTDNAKFTQGVSVFGAEDTTLNSESALNVAINEHFGLKVAYNVTWNSEPPESAPEHTDRRTTLSLGYSM" [] ["CCO-OUTER-MEM"] +"G6929-MONOMER" "putative endoribonuclease YdiZ" ["YdiZ"] "MASGDLVRYVITVMLHEDTLTEINELNNYLTRDGFLLTMTDDEGNIHELGTNTFGLISTQSEEEIRELVSGLTQSATGKDPEITITTWEEWNSNRK" [] ["CCO-CYTOSOL"] +"G6930-MONOMER" "putative kinase YniA" ["YniA", "putative phosphotransferase/kinase"] "MWQAISRLLSEQLGEGEIELRNELPGGEVHAAWHLRYAGHDFFVKCDERELLPGFTAEADQLELLSRSKTVTVPKVWAVGADRDYSFLVMDYLPPRPLDAHSAFILGQQIARLHQWSDQPQFGLDFDNALSTTPQPNTWQRRWSTFFAEQRIGWQLELAAEKGIAFGNIDAIVEHIQQRLASHQPQPSLLHGDLWSGNCALGPDGPYIFDPACYWGDRECDLAMLPLHTEQPPQIYDGYQSVSPLPADFLERQPVYQLYTLLNRARLFGGQHLVIAQQSLDRLLAA" [] ["CCO-CYTOSOL"] +"G6931-MONOMER" "uncharacterized protein YniB" ["YniB"] "MTYQQAGRIAVLKRILGWVIFIPALISTLISLLKFMNTRQENKEGINAVMLDFTHVMIDMMQANTPFLNLFWYNSPTPNFNGGVNVMFWVIFILIFVGLALQDSGARMSRQARFLREGVEDQLILEKAKGEEGLTREQIESRIVVPHHTIFLQFFSLYILPVICIAAGYVFFSLLGFI" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6932-MONOMER" "hexitol phosphatase B" ["HxpB", "YniC", "2-deoxyglucose-6-phosphate phosphatase", "HAD1"] "MSTPRQILAAIFDMDGLLIDSEPLWDRAELDVMASLGVDISRRNELPDTLGLRIDMVVDLWYARQPWNGPSRQEVVERVIARAISLVEETRPLLPGVREAVALCKEQGLLVGLASASPLHMLEKVLTMFDLRDSFDALASAEKLPYSKPHPQVYLDCAAKLGVDPLTCVALEDSVNGMIASKAARMRSIVVPAPEAQNDPRFVLADVKLSSLTELTAKDLLG" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G6933-MONOMER" "inner membrane protein YdjM" ["YdjM", "putative inner membrane protein regulated by LexA"] "MTAEGHLLFSIACAVFAKNAELTPVLAQGDWWHIVPSAILTCLLPDIDHPKSFLGQRLKWISKPIARAFGHRGFTHSLLAVFALLATFYLKVPEGWFIPADALQGMVLGYLSHILADMLTPAGVPLLWPCRWRFRLPILVPQKGNQLERFICMALFVWSVWMPHSLPENSAVRWSSQMINTLQIQFHRLIKHQVEY" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6934-MONOMER" "cystine/sulfocysteine:cation symporter" ["TcyP", "YdjN"] "MNFPLIANIVVFVVLLFALAQTRHKQWSLAKKVLVGLVMGVVFGLALHTIYGSDSQVLKDSVQWFNIVGNGYVQLLQMIVMPLVFASILSAVARLHNASQLGKISFLTIGTLLFTTLIAALVGVLVTNLFGLTAEGLVQGGAETARLNAIESNYVGKVSDLSVPQLVLSFIPKNPFADLTGANPTSIISVVIFAAFLGVAALKLLKDDAPKGERVLAAIDTLQSWVMKLVRLVMQLTPYGVLALMTKVVAGSNLQDIIKLGSFVVASYLGLLIMFAVHGILLGINGVSPLKYFRKVWPVLTFAFTSRSSAASIPLNVEAQTRRLGVPESIASFAASFGATIGQNGCAGLYPAMLAVMVAPTVGINPLDPMWIATLVGIVTVSSAGVAGVGGGATFAALIVLPAMGLPVTLVALLISVEPLIDMGRTALNVSGSMTAGTLTSQWLKQTDKAILDSEDDAELAHH" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6935-MONOMER" "protein YdjO" ["YdjO"] "MFSTNLIQSNYGDLNIKSLAFDSFKERLQSTMTALTFFISTGQCDCDEIAESNFNYMIAYMSNINYDASKPGAPALSFDTYLQDNVKYRVIINNLYGSEIRIRGINKDFIGMDVTSVFRPEKMTNLISIKNRLVIHYLRTIYYEQNYIHPVGSIFAAIQKNESLLKFPSIISMLNINLLFNPLNLPGMGSGVLEDIMSIPDSSLRKRLGYEVLSFSLQAHSLSQECIDKLDIFFADDLFKYESVCIAAMEHLKSKATAPIQNGPLPA" [] ["CCO-CYTOSOL"] +"G6936-MONOMER" "cell division modulator" ["YdjP", "CedA"] "MKKPLRQQNRQIISYVPRTEPAPPEHAIKMDSFRDVWMLRGKYVAFVLMGESFLRSPAFTVPESAQRWANQIRQEGEVTE" [] ["CCO-CYTOSOL"] +"G6937-MONOMER" "excinuclease Cho" ["YdjQ", "Cho", "sosD", "endonuclease of nucleotide excision repair"] "MVRRLTSPRLEFEAAAIYEYPEHLRSFLNDLPTRPGVYLFHGESDTMPLYIGKSVNIRSRVLSHLRTPDEAAMLRQSRRISWICTAGEIGALLLEARLIKEQQPLFNKRLRRNRQLCALQLNEKRVDVVYAKEVDFSRAPNLFGLFANRRAALQALQTIADEQKLCYGLLGLEPLSRGRACFRSALKRCAGACCGKESHEEHALRLRQSLERLRVVCWPWQGAVALKEQHPEMTQYHIIQNWLWLGAVNSLEEATTLIRTPAGFDHDGYKILCKPLLSGNYEITELDPANDQRAS" [] ["CCO-CYTOSOL"] +"G6938-MONOMER" "HutD family protein Ves" ["Ves", "YdjR"] "MEYFDMRKMSVNLWRNAAGETREICTFPPAKRDFYWRASIASIAANGEFSLFPGMERIVTLLEGGEMLLESADRFNHTLKPFQPFAFAADQVVKAKLTAGQMSMDFNIMTRLDVCKAKVRIAERTFTTFGSRGGVVFVINGAWQLGDKLLTTDQGACWFDGRHTLRLLQPQGKLLFSEINWLAGHSPDQVQ" [] ["CCO-CYTOSOL"] +"G6939-MONOMER" "ATP-independent periplasmic chaperone" ["Spy"] "MRKLTALFVASTLALGAANLAHAADTTTAAPADAKPMMHHKGKFGPHQDMMFKDLNLTDAQKQQIREIMKGQRDQMKRPPLEERRAMHDIIASDTFDKVKAEAQIAKMEEQRKANMLAHMETQNKIYNILTPEQKKQFNANFEKRLTERPAAKGKMPATAE" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"G6945-MONOMER" "DedA family protein YdjX" ["YdjX"] "MNAERKFLFACLIFALVIYAIHAFGLFDLLTDLPHLQTLIRQSGFFGYSLYILLFIIATLLLLPGSILVIAGGIVFGPLLGTLLSLIAATLASSCSFLLARWLGRDLLLKYVGHSNTFQAIEKGIARNGIDFLILTRLIPLFPYNIQNYAYGLTTIAFWPYTLISALTTLPGIVIYTVMASDLANEGITLRFILQLCLAGLALFILVQLAKLYARHKHVDLSASRRSPLTHPKNEG" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6946-MONOMER" "4Fe-4S ferredoxin-type domain-containing protein YdjY" ["YdjY"] "MLQHYSVSWKKGLAALCLLAVAGLSGCDQQENAAAKVEYDGLSNSQPLRVDANNHTVTMLVQINGRFLTDDTRHGIVFKDGSNGHKSLFMGYATPKAFYEALKEAGGTPGENMTMDNKETTHVTGSKLDISVNWQGAAKAYSFDEVIVDSNGKKLDMRFGGNLTAAEEKKTGCLVCLDSCPVGIVSNATYTYGAVEKRGEVKFKGNASVLPADNTLATVTFKIAE" ["CCO-CYTOSOL"] [] +"G6947-MONOMER" "DedA family protein YdjZ" ["YdjZ"] "MMMMQSRKIWYYRITLIILLFAMLLAWALLPGVHEFINRSVAAFAAVDQQGIERFIQSYGALAAVVSFLLMILQAIAAPLPAFLITFANASLFGAFWGGLLSWTSSMAGAALCFFIARVMGREVVEKLTGKTVLDSMDGFFTRYGKHTILVCRLLPFVPFDPISYAAGLTSIRFRSFFIATGLGQLPATIVYSWAGSMLTGGTFWFVTGLFILFALTVVIFMAKKIWLERQKRNA" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6948-MONOMER" "AhpD-like domain-containing protein YnjA" ["YnjA"] "MGLPPLSKIPLILRPQAWLHRRHYGEVLSPIRWWGRIPFIFYLVSMFVGWLERKRSPLDPVVRSLVSARIAQMCLCEFCVDITSMKVAERTGSSDKLLAVADWRQSPLFSDEERLALEYAEAASVTPPTVDDALRTRLAAHFDAQALTELTALIGLQNLSARFNSAMDIPAQGLCRIPEKRS" [] ["CCO-PM-BAC-NEG"] +"G6949-MONOMER" "putative ABC transporter periplasmic binding protein YnjB" ["YnjB"] "MRHCGWLLGLLSLFSLATHASDWQEIKNEAKGQTVWFNAWGGDTAINRYLDWVSGEMKTHYAINLKIVRLADAADAVKRIQTEAAAGRKTGGSVDLLWVNGENFRTLKEANLLQTGWAETLPNWRYVDTQLPVREDFSVPTQGAESPWGGAQLTFIARRDVTPQPPQTPQALLEFAKANPGTVTYPRPPDFTGTAFLEQLLIMLTPDPAALKEAPDDATFARVTAPLWQYLDVLHPYLWREGKDFPPSPARMDALLKAGTLRLSLTFNPAHAQQKIASGDLPASSYSFGFREGMIGNVHFVTIPANANASAAAKVVANFLLSPDAQLRKADPAVWGDPSVLDPQKLPDGQRESLQSRMPQDLPPVLAEPHAGWVNALEQEWLHRYGTH" [] [] +"G6952-MONOMER" "molybdopterin synthase sulfurtransferase" ["YnjE", "YnjE sulfurtransferase"] "MKRVSQMTALAMALGLACASSWAAELAKPLTLDQLQQQNGKAIDTRPSAFYNGWPQTLNGPSGHELAALNLSASWLDKMSTEQLNAWIKQHNLKTDAPVALYGNDKDVDAVKTRLQKAGLTHISILSDALSEPSRLQKLPHFEQLVYPQWLHDLQQGKEVTAKPAGDWKVIEAAWGAPKLYLISHIPGADYIDTNEVESEPLWNKVSDEQLKAMLAKHGIRHDTTVILYGRDVYAAARVAQIMLYAGVKDVRLLDGGWQTWSDAGLPVERGTPPKVKAEPDFGVKIPAQPQLMLDMEQARGLLHRQDASLVSIRSWPEFIGTTSGYSYIKPKGEIAGARWGHAGSDSTHMEDFHNPDGTMRSADDITAMWKAWNIKPEQQVSFYCGTGWRASETFMYARAMGWKNVSVYDGGWYEWSSDPKNPVATGERGPDSSK" [] ["CCO-PERI-BAC"] +"G6953-MONOMER" "CDP-alcohol phosphatidyltransferase domain-containing protein YnjF" ["YnjF"] "MLDRHLHPRIKPLLHQCVRVLDKPGITPDGLTLVGFAIGVLALPFLALGWYLAALVVILLNRLLDGLDGALARRRELTDAGGFLDISLDFLFYALVPFGFILAAPEQNALAGGWLLFAFIGTGSSFLAFAALAAKHQIDNPGYAHKSFYYLGGLTEGTETILLFVLGCLFPAWFAWFAWIFGALCWMTTFTRVWSGYLTLKSLQRQ" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6954-MONOMER" "5-hydroxy-CTP diphosphatase" ["YnjG", "NudG", "Orf135"] "MKMIEVVAAIIERDGKILLAQRPAQSDQAGLWEFAGGKVEPDESQRQALVRELREELGIEATVGEYVASHQREVSGRIIHLHAWHVPDFHGTLQAHEHQALVWCSPEEALQYPLAPADIPLLEAFMALRAARPAD" [] ["CCO-CYTOSOL"] +"G6955-MONOMER" "DUF1496 domain-containing protein YnjH" ["YnjH"] "MSRALFAVVLAFPLIALANPHYRPDVEVNVPPEVFSSGGQSAQPCTQCCVYQDQNYSEGAVIKAEGILLQCQRDDKTLSTNPLVWRRVKP" [] ["CCO-PM-BAC-NEG"] +"G6956-MONOMER" "DUF1266 domain-containing protein YnjI" ["YnjI"] "MKKVLLQNHPGSEKYSFNGWEIFNSNFERMIKENKAMLLCKWGFYLTCVVAVMFVFAAITSNGLNERGLITAGCSFLYLLIMMGLIVRAGFKAKKEQLHYYQAKGIEPLSIEKLQALQLIAPYRFYHKQWSETLEFWPRKPEPGKDTFQYHVLPFDSIDIISKRRESLEDQWGIEDSESYCALMEHFLSGDHGANTFKANMEEAPEQVIALLNKFAVFPSDYISDCANHSSGKSSAKLIWAAELSWMISISSTAFQNGTIEEELAWHYIMLASRKAHELFESEEDYQKNSQMGFLYWHICCYRRKLTDAELEACYRYDKQFWEHYSKKCRWPIRNVPWGASSVKYS" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6957-MONOMER" "putative DNA-binding transcriptional regulator YdjF" ["YdjF"] "MAAKDRIQAIKQMVANDKKVTVSNLSGIFQVTEETIRRDLEKLEDEGFLTRTYGGAVLNTAMLTENIHFYKRASSFYEEKQLIARKALPFIDNKTTMAADSSSTVMELLKLLQDRSGLTLLTNSAEAIHVLAQSEIKVVSTGGELNKNTLSLQGRITKEIIRRYHVDIMVMSCKGLDINSGALDSNEAEAEIKKTMIRQATEVALLVDHSKFDRKAFVQLADFSHINYIITDKSPGAEWIAFCKDNNIQLVW" [] ["CCO-CYTOSOL"] +"G6958-MONOMER" "NADH-dependent methylglyoxal reductase" ["YdjG"] "MKKIPLGTTDITLSRMGLGTWAIGGGPAWNGDLDRQICIDTILEAHRCGINLIDTAPGYNFGNSEVIVGQALKKLPREQVVVETKCGIVWERKGSLFNKVGDRQLYKNLSPESIREEVAASLQRLGIDYIDIYMTHWQSVPPFFTPIAETVAVLNELKSEGKIRAIGAANVDADHIREYLQYGELDIIQAKYSILDRAMENELLPLCRDNGIVVQVYSPLEQGLLTGTITRDYVPGGARANKVWFQRENMLKVIDMLEQWQPLCARYQCTIPTLALAWILKQSDLISILSGATAPEQVRENVAALNINLSDADATLMREMAEALER" [] ["CCO-CYTOSOL"] +"G6959-MONOMER" "L-glycero-L-galacto-octuluronate kinase" ["YdjH"] "MDNLDVICIGAAIVDIPLQPVSKNIFDVDSYPLERIAMTTGGDAINEATIISRLGHRTALMSRIGKDAAGQFILDHCRKENIDIQSLKQDVSIDTSINVGLVTEDGERTFVTNRNGSLWKLNIDDVDFARFSQAKLLSLASIFNSPLLDGKALTEIFTQAKARQMIICADMIKPRLNETLDDICEALSYVDYLFPNFAEAKLLTGKETLDEIADCFLACGVKTVVIKTGKDGCFIKRGDMTMKVPAVAGITAIDTIGAGDNFASGFIAALLEGKNLRECARFANATAAISVLSVGATTGVKNRKLVEQLLEEYEG" [] ["CCO-CYTOSOL"] +"G6960-MONOMER" "L-glycero-L-galacto-octuluronate-1-phosphate aldolase" ["YdjI"] "MLADIRYWENDATNKHYAIAHFNVWNAEMLMGVIDAAEEAKSPVIISFGTGFVGNTSFEDFSHMMVSMAQKATVPVITHWDHGRSMEIIHNAWTHGMNSLMRDASAFDFEENIRLTKEAVDFFHPLGIPVEAELGHVGNETVYEEALAGYHYTDPDQAAEFVERTGCDSLAVAIGNQHGVYTSEPQLNFEVVKRVRDAVSVPLVLHGASGISDADIKTAISLGIAKINIHTELCQAAMVAVKENQDQPFLHLEREVRKAVKERALEKIKLFGSDGKAE" [] ["CCO-CYTOSOL"] +"G6961-MONOMER" "putative zinc-binding dehydrogenase YdjJ" ["YdjJ", "putative oxidoreductase, Zn-dependent and NAD(P)-binding"] "MKNSKAILQVPGTMKIISAEIPVPKEDEVLIKVEYVGICGSDVHGFESGPFIPPKDPNQEIGLGHECAGTVVAVGSRVRKFKPGDRVNIEPGVPCGHCRYCLEGKYNICPDVDFMATQPNYRGALTHYLCHPESFTYKLPDNMDTMEGALVEPAAVGMHAAMLADVKPGKKIIILGAGCIGLMTLQACKCLGATEIAVVDVLEKRLAMAEQLGATVVINGAKEDTIARCQQFTEDMGADIVFETAGSAVTVKQAPYLVMRGGKIMIVGTVPGDSAINFLKINREVTIQTVFRYANRYPVTIEAISSGRFDVKSMVTHIYDYRDVQQAFEESVNNKRDIIKGVIKISD" [] ["CCO-CYTOSOL"] +"G6963-MONOMER" "putative zinc-binding dehydrogenase YdjL" ["YdjL", "putative oxidoreductase, Zn-dependent and NAD(P)-binding"] "MKALARFGKAFGGYKMIDVPQPMCGPEDVVIEIKAAAICGADMKHYNVDSGSDEFNSIRGHEFAGCIAQVGEKVKDWKVGQRVVSDNSGHVCGVCPACEQGDFLCCTEKVNLGLDNNTWGGGFSKYCLVPGEILKIHRHALWEIPDGVDYEDAAVLDPICNAYKSIAQQSKFLPGQDVVVIGTGPLGLFSVQMARIMGAVNIVVVGLQEDVAVRFPVAKELGATAVVNGSTEDVVARCQQICGKDNLGLVIECSGANIALKQAIEMLRPNGEVVRVGMGFKPLDFSINDITAWNKSIIGHMAYDSTSWRNAIRLLASGAIKVKPMITHRIGLSQWREGFDAMVDKTAIKVIMTYDFDE" [] ["CCO-CYTOSOL"] +"G6964-MONOMER" "DUF1315 domain-containing protein YeaC" ["YeaC"] "MNLDDIINSMMPEVYQRLSTAVELGKWPDGVALTEEQKENCLQLVMLWQARHNIEAQHMTIDTNGQMVMKSKQQLKEDFGISAKPIAMFK" [] ["CCO-CYTOSOL"] +"G6966-MONOMER" "putative aldose 1-epimerase YeaD" ["YzzQ", "YeaD"] "MIKKIFALPVIEQISPVLSRRKLDELDLIVVDHPQVKASFALQGAHLLSWKPAGEEEVLWLSNNTPFKNGVAIRGGVPVCWPWFGPAAQQGLPAHGFARNLPWTLKSHHEDADGVALTFELTQSEETKKFWPHDFTLLAHFRVGKTCEIDLESHGEFETTSALHTYFNVGDIAKVSVSGLGDRFIDKVNDAKENVLTDGIQTFPDRTDRVYLNPQDCSVINDEALNRIIAVGHQHHLNVVGWNPGPALSISMGDMPDDGYKTFVCVETAYASETQKVTKEKPAHLAQSIRVAKR" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G6967-MONOMER" "methylglyoxal reductase YeaE" ["YeaE"] "MQQKMIQFSGDVSLPAVGQGTWYMGEDASQRKTEVAALRAGIELGLTLIDTAEMYADGGAEKVVGEALTGLREKVFLVSKVYPWNAGGQKAINACEASLRRLNTDYLDLYLLHWSGSFAFEETVAAMEKLIAQGKIRRWGVSNLDYADMQELWQLPGGNQCATNQVLYHLGSRGIEYDLLPWCQQQQMPVMAYSPLAQAGRLRNGLLKNAVVNEIAHAHNISAAQVLLAWVISHQGVMAIPKAATIAHVQQNAAVLEVELSSAELAMLDKAYPAPKGKTALDMV" [] ["CCO-CYTOSOL"] +"G6968-MONOMER" "MltA-interacting protein" ["YeaF", "MipA", "scaffolding protein that interacts with murein polymerase and murein hydrolase"] "MTKLKLLALGVLIATSAGVAHAEGKFSLGAGVGVVEHPYKDYDTDVYPVPVINYEGDNFWFRGLGGGYYLWNDATDKLSITAYWSPLYFKAKDSGDHQMRHLDDRKSTMMAGLSYAHFTQYGYLRTTLAGDTLDNSNGIVWDMAWLYRYTNGGLTVTPGIGVQWNSENQNEYYYGVSRKESARSGLRGYNPNDSWSPYLELSASYNFLGDWSVYGTARYTRLSDEVTDSPMVDKSWTGLISTGITYKF" ["CCO-OUTER-MEM"] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"G6969-MONOMER" "protein kinase YeaG" ["YeaG"] "MNIFDHYRQRYEAAKDEEFTLQEFLTTCRQDRSAYANAAERLLMAIGEPVMVDTAQEPRLSRLFSNRVIARYPAFEEFYGMEDAIEQIVSYLKHAAQGLEEKKQILYLLGPVGGGKSSLAERLKSLMQLVPIYVLSANGERSPVNDHPFCLFNPQEDAQILEKEYGIPRRYLGTIMSPWAAKRLHEFGGDITKFRVVKVWPSILQQIAIAKTEPGDENNQDISALVGKVDIRKLEHYAQNDPDAYGYSGALCRANQGIMEFVEMFKAPIKVLHPLLTATQEGNYNGTEGISALPFNGIILAHSNESEWVTFRNNKNNEAFLDRVYIVKVPYCLRISEEIKIYEKLLNHSELTHAPCAPGTLETLSRFSILSRLKEPENSSIYSKMRVYDGESLKDTDPKAKSYQEYRDYAGVDEGMNGLSTRFAFKILSRVFNFDHVEVAANPVHLFYVLEQQIEREQFPQEQAERYLEFLKGYLIPKYAEFIGKEIQTAYLESYSEYGQNIFDRYVTYADFWIQDQEYRDPDTGQLFDRESLNAELEKIEKPAGISNPKDFRNEIVNFVLRARANNSGRNPNWTSYEKLRTVIEKKMFSNTEELLPVISFNAKTSTDEQKKHDDFVDRMMEKGYTRKQVRLLCEWYLRVRKSS" [] ["CCO-CYTOSOL"] +"G6970-MONOMER" "DUF444 domain-containing protein YeaH" ["YeaH"] "MTWFIDRRLNGKNKSMVNRQRFLRRYKAQIKQSISEAINKRSVTDVDSGESVSIPTEDISEPMFHQGRGGLRHRVHPGNDHFVQNDRIERPQGGGGGSGSGQGQASQDGEGQDEFVFQISKDEYLDLLFEDLALPNLKQNQQRQLTEYKTHRAGYTANGVPANISVVRSLQNSLARRTAMTAGKRRELHALEENLAIISNSEPAQLLEEERLRKEIAELRAKIERVPFIDTFDLRYKNYEKRPDPSSQAVMFCLMDVSGSMDQSTKDMAKRFYILLYLFLSRTYKNVEVVYIRHHTQAKEVDEHEFFYSQETGGTIVSSALKLMDEVVKERYNPAQWNIYAAQASDGDNWADDSPLCHEILAKKLLPVVRYYSYIEITRRAHQTLWREYEHLQSTFDNFAMQHIRDQDDIYPVFRELFHKQNATAKG" [] ["CCO-CYTOSOL"] +"G6971-MONOMER" "putative c-di-GMP binding protein CdgI" ["CdgI", "YeaI"] "MIQSTRISMGLFFKYFLSLTKIDPGQNYISLPSIKSSTHIALLFMVSMGTQKLKAQSFFIFSLLLTLILFCITTLYNENTNVKLIPQMNYLMVVVALFFLNAVIFLFMLMKYFTNKQILPTLILSLAFLSGLIYLVETIVIIHKPINGSTLIQTKSNDVSIFYIFRQLSFICLTSLALFCYGKDNILDNNKKKTGILLLALIPFLVFPLLAHNLSSYNADYSLYVVDYCPDNHTATWGINYTKILVCLWAFLLFFIIMRTRLASELWPLIALLCLASLCCNLLLLTLDEYNYTIWYISRGIEVSSKLFVVSFLIYNIFQELQLSSKLAVHDVLTNIYNRRYFFNSVESLLSRPVVKDFCVMLVDINQFKRINAQWGHRVGDKVLVSIVDIIQQSIRPDDILARLEGEVFGLLFTELNSAQAKIIAERMRKNVELLTGFSNRYDVPEQMTISIGTVFSTGDTRNISLVMTEADKALREAKSEGGNKVIIHHI" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6972-MONOMER" "putative diguanylate cyclase DgcJ" ["DgcJ", "YeaJ"] "MKLHHRMLRHFIAASVIVLTSSFLIFELVASDRAMSAYLRYIVQKADSSFLYDKYQNQSIAAHVMRALAAEQSEVSPEQRRAICEAFESANNTHGLNLTAHKYPGLRGTLQTASTDCDTIVEAAALLPAFDQAVEGNRHQDDYGSGLGMAEEKFHYYLDLNDRYVYFYEPVNVEYFAMNNWSFLQSGSIGIDRKDIEKVFTGRTVLSSIYQDQRTKQNVMSLLTPVYVAGQLKGIVLLDINKNNLRNIFYTHDRPLLWRFLNVTLTDTDSGRDIIINQSEDNLFQYVSYVHDLPGGIRVSLSIDILYFITSSWKSVLFWILTALILLNMVRMHFRLYQNVSRENISDAMTGLYNRKILTPELEQRLQKLVQSGSSVMFIAIDMDKLKQINDTLGHQEGDLAITLLAQAIKQSIRKSDYAIRLGGDEFCIILVDSTPQIAAQLPERIEKRLQHIAPQKEIGFSSGIYAMKENDTLHDAYKASDERLYVNKQNKNSRS" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6973-MONOMER" "mischarged aminoacyl-tRNA deacylase" ["YeaK", "ProXp-y", "ProXp-ST1"] "MTEMAKGSVTHQRLIALLSQEGADFRVVTHEAVGKCEAVSEIRGTALGQGAKALVCKVKGNGVNQHVLAILAADQQADLSQLASHIGGLRASLASPAEVDELTGCVFGAIPPFSFHPKLKLVADPLLFERFDEIAFNAGMLDKSVILKTADYLRIAQPELVNFRRTA" [] ["CCO-CYTOSOL"] +"G6974-MONOMER" "protein YoaI" ["YoaI"] "MNDQMFVETLIITSSFFAIAVVLVLSVLLIERTG" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6975-MONOMER" "DUF441 domain-containing inner membrane protein YeaL" ["YeaL"] "MFDVTLLILLGLAALGFISHNTTVAVSILVLIIVRVTPLSTFFPWIEKQGLSIGIIILTIGVMAPIASGTLPPSTLIHSFLNWKSLVAIAVGVIVSWLGGRGVTLMGSQPQLVAGLLVGTVLGVALFRGVPVGPLIAAGLVSLIVGKQ" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6976-MONOMER" "DNA-binding transcriptional repressor NimR" ["NimR", "YeaM"] "MMHRLNLNGYEPDRHHEAAVAFCIHAGTDELTSPVHQHRKGQLILALHGAITCTVENALWMVPPQYAVWIPGGVEHSNQVTANAELCFLFIEPSAVTMPTTCCTLKISPLCRELILTLANRTTTQRAEPMTRRLIQVLFDELPQQPQQQLHLPVSSHPKIRTMVEMMAKGPVEWGALGQWAGFFAMSERNLARLIVKETGLSFRQWRQQLQLIMALQGLVKGDTVQKVAHTLGYDSTTAFITMFKKGLGQTPGRYIARLTTVSPQSAKPDPRQ" [] ["CCO-CYTOSOL"] +"G6978-MONOMER" "DUF488 domain-containing protein YeaO" ["YeaO"] "MNIQCKRVYDPAEQSDGYRILVDRLWPRGIKKTDLALDEWDKEITPSTELRKAFHGEVVDYATFREQYLAELAQHEQEGKRLADIAKKQPLTLLYSAKNTTQNHALVLADWLRSL" [] ["CCO-CYTOSOL"] +"G6979-MONOMER" "DUF333 domain-containing lipoprotein YoaF" ["YoaF"] "MKIISFVLPCLLVLAGCSTPSQPEAPKPPQIGMANPASVYCQQKGGTLIPVQTAQGVSNNCKLPGGETIDEWALWRRDHPAGEK" [] ["CCO-CYTOSOL"] +"G6980-MONOMER" "diguanylate cyclase DgcP" ["DgcP", "YeaP"] "MSDQIIARVSQSLAKEQSLESLVRQLLEMLEMVTDMESTYLTKVDVEARLQHIMFARNSQKMYIPENFTVSWDYSLCKRAIDENCFFSDEVPDRWGDCIAARNLGITTFLSTPIHLPDGSFYGTLCAASSEKRQWSERAEQVLQLFAGLIAQYIQKEALVEQLREANAALIAQSYTDSLTGLPNRRAIFENLTTLFSLARHLNHKIMIAFIDLDNFKLINDRFGHNSGDLFLIQVGERLNTLQQNGEVIGRLGGDEFLVVSLNNENADISSLRERIQQQIRGEYHLGDVDLYYPGASLGIVEVDPETTDADSALHAADIAMYQEKKHKQKTPFVAHPALHS" [] ["CCO-PM-BAC-NEG"] +"G6981-MONOMER" "PF04226 family protein YeaQ" ["YeaQ"] "MGILSWIIFGLIAGILAKWIMPGKDGGGFFMTILLGIVGAVVGGWISTLFGFGKVDGFNFGSFVVAVIGAIVVLFIYRKIKS" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6982-MONOMER" "DUF1869 domain-containing protein YoaG" ["YoaG"] "MGKATYTVTVTNNSNGVSVDYETETPMTLLVPEVAAEVIKDLVNTVRSYDTENEHDVCGW" [] ["CCO-CYTOSOL"] +"G6983-MONOMER" "DUF1971 domain-containing protein YeaR" ["YeaR"] "MLQIPQNYIHTRSTPFWNKQTAPAGIFERHLDKGTRPGVYPRLSVMHGAVKYLGYADEHSAEPDQVILIEAGQFAVFPPEKWHNIEAMTDDTYFNIDFFVAPEVLMEGAQQRKVIHNGK" [] ["CCO-CYTOSOL"] +"G6984-MONOMER" "leucine exporter" ["YeaS", "LeuE", "LeuE leucine RhtB transporter"] "MFAEYGVLNYWTYLVGAIFIVLVPGPNTLFVLKNSVSSGMKGGYLAACGVFIGDAVLMFLAWAGVATLIKTTPILFNIVRYLGAFYLLYLGSKILYATLKGKNSEAKSDEPQYGAIFKRALILSLTNPKAILFYVSFFVQFIDVNAPHTGISFFILAATLELVSFCYLSFLIISGAFVTQYIRTKKKLAKVGNSLIGLMFVGFAARLATLQS" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6985-MONOMER" "DNA-binding transcriptional regulator DmlR" ["YeaT", "DmlR"] "MNNLPLLNDLRVFMLVARRAGFAAVAEELGVSPAFVSKRIALLEQTLNVVLLHRTTRRVTITEEGERIYEWAQRILQDVGQMMDELSDVRQVPQGMLRIISSFGFGRQVVAPALLALAKAYPQLELRFDVEDRLVDLVNEGVDLDIRIGDDIAPNLIARKLATNYRILCASPEFIAQHGAPKHLTDLSALPCLVIKERDHPFGVWQLRNKEGPHAIKVTGPLSSNHGEIVHQWCLDGQGIALRSWWDVSENIASGHLVQVLPEYYQPANVWAVYVSRLATSAKVRITVEFLRQYFAEHYPNFSLEHA" [] ["CCO-CYTOSOL"] +"G6986-MONOMER" "D-malate/3-isopropylmalate dehydrogenase (decarboxylating)" ["YeaU", "TtuC", "DmlA"] "MMKTMRIAAIPGDGIGKEVLPEGIRVLQAAAERWGFALSFEQMEWASCEYYSHHGKMMPDDWHEQLSRFDAIYFGAVGWPDTVPDHISLWGSLLKFRREFDQYVNLRPVRLFPGVPCPLAGKQPGDIDFYVVRENTEGEYSSLGGRVNEGTEHEVVIQESVFTRRGVDRILRYAFELAQSRPRKTLTSATKSNGLAISMPYWDERVEAMAENYPEIRWDKQHIDILCARFVMQPERFDVVVASNLFGDILSDLGPACTGTIGIAPSANLNPERTFPSLFEPVHGSAPDIYGKNIANPIATIWAGAMMLDFLGNGDERFQQAHNGILAAIEEVIAHGPKTPDMKGNATTPQVADAICKIILR" [] ["CCO-CYTOSOL"] +"G6988-MONOMER" "carnitine monooxygenase subunit YeaW" ["YeaW", "2Fe-2S cluster-containing protein"] "MSNLSPDFVLPENFCANPQEAWTIPARFYTDQNAFEHEKENVFAKSWICVAHSSELANANDYVTREIIGESIVLVRGRDKVLRAFYNVCPHRGHQLLSGEGKAKNVITCPYHAWAFKLDGNLAHARNCENVANFDSDKAQLVPVRLEEYAGFVFINMDPNATSVEDQLPGLGAKVLEACPEVHDLKLAARFTTRTPANWKNIVDNYLECYHCGPAHPGFSDSVQVDRYWHTMHGNWTLQYGFAKPSEQSFKFEEGTDAAFHGFWLWPCTMLNVTPIKGMMTVIYEFPVDSETTLQNYDIYFTNEELTDEQKSLIEWYRDVFRPEDLRLVESVQKGLKSRGYRGQGRIMADSSGSGISEHGIAHFHNLLAQVFKD" [] ["CCO-CYTOSOL"] +"G6989-MONOMER" "carnitine monooxygenase subunit YeaX" ["YeaX"] "MSDYQMFEVQVSQVEPLTEQVKRFTLVATDGKPLPAFTGGSHVIVQMSDGDNQYSNAYSLLSSPHDTSCYQIAVRLEENSRGGSRFLHQQVKVGDRLTISTPNNLFALIPSARKHLFIAGGIGITPFLSHMAELQHSDVDWQLHYCSRNPESCAFRDELVQHPQAEKVHLHHSSTGTRLELARLLADIEPGTHVYTCGPEALIEAVRSEAARLDIAADTLHFEQFAIEDKTGDAFTLVLARSGKEFVVPEEMTILQVIENNKAAKVECLCREGVCGTCETAILEGEADHRDQYFSDEERASQQSMLICCSRAKGKRLVLDL" [] ["CCO-CYTOSOL"] +"G6990-MONOMER" "Slp family lipoprotein YeaY" ["YeaY"] "MAVQKNVIKGILAGTFALMLSGCVTVPDAIKGSSPTPQQDLVRVMSAPQLYVGQEARFGGKVVAVQNQQGKTRLEIATVPLDSGARPTLGEPSRGRIYADVNGFLDPVDFRGQLVTVVGPITGAVDGKIGNTPYKFMVMQVTGYKRWHLTQQVIMPPQPIDPWFYGGRGWPYGYGGWGWYNPGPARVQTVVTE" [] ["CCO-OUTER-MEM", "CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"G6991-MONOMER" "N6-L-threonylcarbamoyladenine synthase, TsaB subunit" ["TsaB", "YeaZ", "tRNA adenosine(37) threonylcarbamoyltransferase complex, dimerization subunit"] "MRILAIDTATEACSVALWNDGTVNAHFELCPREHTQRILPMVQDILTTSGTSLTDINALAYGRGPGSFTGVRIGIGIAQGLALGAELPMIGVSTLMTMAQGAWRKNGATRVLAAIDARMGEVYWAEYQRDENGIWHGEETEAVLKPEIVHERMQQLSGEWVTVGTGWQAWPDLGKESGLVLRDGEVLLPAAEDMLPIACQMFAEGKTVAVEHAEPVYLRNNVAWKKLPGKE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G6992-MONOMER" "putative ATP-dependent 5' to 3' DNA helicase" ["YoaA", "putative 5' to 3' DNA helicase implicated in DNA repair"] "MTDDFAPDGQLAKAIPGFKPREPQRQMAVAVTQAIEKGQPLVVEAGTGTGKTYAYLAPALRAKKKVIISTGSKALQDQLYSRDLPTVSKALKYTGNVALLKGRSNYLCLERLEQQALAGGDLPVQILSDVILLRSWSNQTVDGDISTCVSVAEDSQAWPLVTSTNDNCLGSDCPMYKDCFVVKARKKAMDADVVVVNHHLFLADMVVKESGFGELIPEADVMIFDEAHQLPDIASQYFGQSLSSRQLLDLAKDITIAYRTELKDTQQLQKCADRLAQSAQDFRLQLGEPGYRGNLRELLANPQIQRAFLLLDDTLELCYDVAKLSLGRSALLDAAFERATLYRTRLKRLKEINQPGYSYWYECTSRHFTLALTPLSVADKFKELMAQKPGSWIFTSATLSVNDDLHHFTSRLGIEQAESLLLPSPFDYSRQALLCVLRNLPQTNQPGSARQLAAMLRPIIEANNGRCFMLCTSHAMMRDLAEQFRATMTLPVLLQGETSKGQLLQQFVSAGNALLVATSSFWEGVDVRGDTLSLVIIDKLPFTSPDDPLLKARMEDCRLRGGDPFDEVQLPDAVITLKQGVGRLIRDADDRGVLVICDNRLVMRPYGATFLASLPPAPRTRDIARAVRFLAIPSSR" [] ["CCO-CYTOSOL"] +"G6993-MONOMER" "RutC family protein YoaB" ["YoaB"] "MTIVRIDAEARWSDVVIHNNTLYYTGVPENLDADAFEQTANTLAQIDAVLEKQGSNKSSILDATIFLADKNDFAAMNKAWDAWVVAGHAPVRCTVQAGLMNPKYKVEIKIVAAV" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G6994-MONOMER" "DUF1889 domain-containing protein YoaC" ["YoaC"] "MPAVIDKALDFIGAMDVSAPTPSSMNESTAKGIFKYLKELGVPASAADITARADQEGWNPGFTEKMVGWAKKMETGERSVIKNPEYFSTYMQEELKALV" [] ["CCO-CYTOSOL"] +"G6995-MONOMER" "UFP0181 family protein YoaH" ["YoaH"] "MFAGLPSLTHEQQQKAVERIQELMAQGMSSGQAIALVAEELRANHSGERIVARFEDEDE" [] ["CCO-CYTOSOL"] +"G6996-MONOMER" "putative c-di-GMP phosphodiesterase PdeD" ["PdeD", "YoaD"] "MQKAQRIIKTYRRNRMIVCTICALVTLASTLSVRFISQRNLNQQRVVQFANHAVEELDKVLLPLQAGSEVLLPLIGLPCSVAHLPLRKQAAKLQTVRSIGLVQDGTLYCSSIFGYRNVPVVDILAELPAPQPLLRLTIDRALIKGSPVLIQWTPAAGSSNAGVMEMINIDLLTAMLLEPQLPQISSASLTVDKRHLLYGNGLVDSLPQPEDNENYQVSSQRFPFTINVNGPGATALAWHYLPTQLPLAVLLSLLVGYIAWLATAYRMSFSREINLGLAQHEFELFCQPLLNARSQQCIGVEILLRWNNPRQGWISPDVFIPIAEEHHLIVPLTRYVMAETIRQRHVFPMSSQFHVGINVAPSHFRRGVLIKDLNQYWFSAHPIQQLILEITERDALLDVDYRIARELHRKNVKLAIDDFGTGNSSFSWLETLRPDVLKIDKSFTAAIGSDAVNSTVTDIIIALGQRLNIELVAEGVETQEQAKYLRRHGVHILQGYLYAQPMPLRDFPKWLAGSQPPPARHNGHITPIMPLR" [] ["CCO-MEMBRANE", "CCO-PERI-BAC", "CCO-CYTOSOL", "CCO-PM-BAC-NEG"] +"G6997-MONOMER" "putative inner membrane protein YoaE" ["BorG", "YoaE"] "MEFLMDPSIWAGLLTLVVLEIVLGIDNLVFIAILADKLPPKQRDKARLLGLSLALIMRLGLLSLISWMVTLTKPLFTVMDFSFSGRDLIMLFGGIFLLFKATTELHERLENRDHDSGHGKGYASFWVVVTQIVILDAVFSLDAVITAVGMVNHLPVMMAAVVIAMAVMLLASKPLTRFVNQHPTVVVLCLSFLLMIGLSLVAEGFGFHIPKGYLYAAIGFSIIIEVFNQIARRNFIRHQSTLPLRARTADAILRLMGGKRQANVQHDADNPMPMPIPEGAFAEEERYMINGVLTLASRSLRGIMTPRGEISWVDANLGVDEIREQLLSSPHSLFPVCRGELDEIIGIVRAKELLVALEEGVDVAAIASASPAIIVPETLDPINLLGVLRRARGSFVIVTNEFGVVQGLVTPLDVLEAIAGEFPDADETPEIITDGDGWLVKGGTDLHALQQALDVEHLADDDDIATVAGLVISANGHIPRVGDVIDVGPLHITIIEANDYRVDLVRIVKEQPAHDEDE" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6998-MONOMER" "DUF986 domain-containing inner membrane protein YobD" ["YobD"] "MTITDLVLILFIAALLAFAIYDQFIMPRRNGPTLLAIPLLRRGRIDSVIFVGLIVILIYNNVTNHGALITTWLLSALALMGFYIFWIRVPKIIFKQKGFFFANVWIEYSRIKAMNLSEDGVLVMQLEQRRLLIRVRNIDDLEKIYKLLVSTQ" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G6999-MONOMER" null ["MntP", "YebN"] "MNITATVLLAFGMSMDAFAASIGKGATLHKPKFSEALRTGLIFGAVETLTPLIGWGMGMLASRFVLEWNHWIAFVLLIFLGGRMIIEGFRGADDEDEEPRRRHGFWLLVTTAIATSLDAMAVGVGLAFLQVNIIATALAIGCATLIMSTLGMMVGRFIGSIIGKKAEILGGLVLIGIGVQILWTHFHG" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7000-MONOMER" "DUF2527 domain-containing protein YobF" ["YobF", "small protein involved in stress responses"] "MCGIFSKEVLSKHVDVEYRFSAEPYIGASCSNVSVLSMLCLRAKKTI" [] ["CCO-MEMBRANE"] +"G7001-MONOMER" "uncharacterized protein YebO" ["YebO"] "MNEVVNSGVMNIASLVVSVVVLLIGLILWFFINRASSRTNEQIELLEALLDQQKRQNALLRRLCEANEPEKADKKTVESQKSVEDEDIIRLVAER" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7002-MONOMER" "PhoQ kinase inhibitor" ["YobG", "MgrB"] "MKKFRWVVLVVVVLACLLLWAQVFNMMCDQDVQFFSGICAINQFIPW" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-CYTOSOL", "CCO-PM-BAC-NEG"] +"G7003-MONOMER" "DNA-binding transcriptional repressor KdgR" ["YebP", "KdgR"] "MANADLDKQPDSVSSVLKVFGILQALGEEREIGITELSQRVMMSKSTVYRFLQTMKTLGYVAQEGESEKYSLTLKLFELGARALQNVDLIRSADIQMRELSRLTKETIHLGALDEDSIVYIHKIDSMYNLRMYSRIGRRNPLYSTAIGKVLLAWRDRDEVKQILEGVEYKRSTERTITSTEALLPVLDQVREQGYGEDNEEQEEGLRCIAVPVFDRFGVVIAGLSISFPTLRFSEERLQEYVAMLHTAARKISAQMGYHDYPF" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7005-MONOMER" "free methionine-(R)-sulfoxide reductase" ["MsrC", "YebR", "fRMsr"] "MNKTEFYADLNRDFNALMAGETSFLATLANTSALLYERLTDINWAGFYLLEDDTLVLGPFQGKIACVRIPVGRGVCGTAVARNQVQRIEDVHVFDGHIACDAASNSEIVLPLVVKNQIIGVLDIDSTVFGRFTDEDEQGLRQLVAQLEKVLATTDYKKFFASVAG" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7006-MONOMER" "intermembrane transport protein LetA" ["LetA", "YebS"] "MALNTPQITPTKKITVRAIGEELPRGDYQRCPQCDMLFSLPEINSHQSAYCPRCQAKIRDGRDWSLTRLAAMAFTMLLLMPFAWGEPLLHIWLLGIRIDANVMQGIWQMTKQGDAITGSMVFFCVIGAPLILVTSIAYLWFGNRLGMNLRPVLLMLERLKEWVMLDIYLVGIGVASIKVQDYAHIQAGVGLFSFVALVILTTVTLSHLNVEELWERFYPQRPATRRDEKLRVCLGCHFTGYPDQRGRCPRCHIPLRLRRRHSLQKCWAALLASIVLLLPANLLPISIIYLNGGRQEDTILSGIMSLASSNIAVAGIVFIASILVPFTKVIVMFTLLLSIHFKCQQGLRTRILLLRMVTWIGRWSMLDLFVISLTMSLINRDQILAFTMGPAAFYFGAAVILTILAVEWLDSRLLWDAHESGNARFDD" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7007-MONOMER" "lipophilic envelope spanning tunnel" ["LetB", "YebT"] "MSQETPASTTEAQIKNKRRISPFWLLPFIALMIASWLIWDSYQDRGNTVTIDFMSADGIVPGRTPVRYQGVEVGTVQDISLSDDLRKIEVKVSIKSDMKDALREETQFWLVTPKASLAGVSGLDALVGGNYIGMMPGKGKEQDHFVALDTQPKYRLDNGDLMIHLQAPDLGSLNSGSLVYFRKIPVGKVYDYAINPNKQGVVIDVLIERRFTDLVKKGSRFWNVSGVDANVSISGAKVKLESLAALVNGAIAFDSPEESKPAEAEDTFGLYEDLAHSQRGVIIKLELPSGAGLTADSTPLMYQGLEVGQLTKLDLNPGGKVTGEMTVDPSVVTLLRENTRIELRNPKLSLSDANLSALLTGKTFELVPGDGEPRKEFVVVPGEKALLHEPDVLTLTLTAPESYGIDAGQPLILHGVQVGQVIDRKLTSKGVTFTVAIEPQHRELVKGDSKFVVNSRVDVKVGLDGVEFLGASASEWINGGIRILPGDKGEMKASYPLYANLEKALENSLSDLPTTTVSLSAETLPDVQAGSVVLYRKFEVGEVITVRPRANAFDIDLHIKPEYRNLLTSNSVFWAEGGAKVQLNGSGLTVQASPLSRALKGAISFDNLSGASASQRKGDKRILYASETAARAVGGQITLHAFDAGKLAVGMPIRYLGIDIGQIQTLDLITARNEVQAKAVLYPEYVQTFARGGTRFSVVTPQISAAGVEHLDTILQPYINVEPGRGNPRRDFELQEATITDSRYLDGLSIIVEAPEAGSLGIGTPVLFRGLEVGTVTGMTLGTLSDRVMIAMRISKRYQHLVRNNSVFWLASGYSLDFGLTGGVVKTGTFNQFIRGGIAFATPPGTPLAPKAQEGKHFLLQESEPKEWREWGTALPK" ["CCO-PERI-BAC", "CCO-PM-BAC-NEG"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"G7008-MONOMER" "16S rRNA m5C1407 methyltransferase" ["YebU", "RsmF", "ribosomal RNA small subunit methyltransferase F"] "MAQHTVYFPDAFLTQMREAMPSTLSFDDFLAACQRPLRRSIRVNTLKISVADFLQLTAPYGWTLTPIPWCEEGFWIERDNEDALPLGSTAEHLSGLFYIQEASSMLPVAALFADGNAPQRVMDVAAAPGSKTTQISARMNNEGAILANEFSASRVKVLHANISRCGISNVALTHFDGRVFGAAVPEMFDAILLDAPCSGEGVVRKDPDALKNWSPESNQEIAATQRELIDSAFHALRPGGTLVYSTCTLNQEENEAVCLWLKETYPDAVEFLPLGDLFPGANKALTEEGFLHVFPQIYDCEGFFVARLRKTQAIPALPAPKYKVGNFPFSPVKDREAGQIRQAATGVGLNWDENLRLWQRDKELWLFPVGIEALIGKVRFSRLGIKLAETHNKGYRWQHEAVIALASPDNMNAFELTPQEAEEWYRGRDVYPQAAPVADDVLVTFQHQPIGLAKRIGSRLKNSYPRELVRDGKLFTGNA" [] ["CCO-CYTOSOL"] +"G7009-MONOMER" "DUF1480 domain-containing protein YebV" ["YebV"] "MKTSVRIGAFEIDDGELHGESPGDRTLTIPCKSDPDLCMQLDAWDAETSIPALLNGEHSVLYRTRYDQQSDAWIMRLA" [] ["CCO-CYTOSOL"] +"G7010-MONOMER" "DUF1482 domain-containing protein YebW" ["YebW"] "MFALVLFVCYLDGGCEDIVVDVYNTEQQCLYSMSDQRIRQGGCFPIEDFIDGFWRPAQEYGDF" [] ["CCO-MEMBRANE"] +"G7011-MONOMER" "phosphoprotein phosphatase 1" ["PrpA", "YebX", "PphA"] "MKQPAPVYQRIAGHQWRHIWLSGDIHGCLEQLRRKLWHCRFDPWRDLLISVGDVIDRGPQSLRCLQLLEQHWVCAVRGNHEQMAMDALASQQMSLWLMNGGDWFIALADNQQKQAKTALEKCQHLPFILEVHSRTGKHVIAHADYPDDVYEWQKDVDLHQVLWSRSRLGERQKGQGITGADHFWFGHTPLRHRVDIGNLHYIDTGAVFGGELTLVQLQ" [] ["CCO-CYTOSOL"] +"G7012-MONOMER" "DUF2511 domain-containing protein YebY" ["YebY"] "MMKKSILAFLLLTSSAAALAAPQVITVSRFEVGKDKWAFNREEVMLTCRPGNALYVINPSTLVQYPLNDIAQKEVASGKTNAQPISVIQIDDPNNPGEKMSLAPFIERAEKLC" ["CCO-CYTOSOL"] [] +"G7013-MONOMER" "putative inner membrane protein" ["YebZ"] "MLAFTWIALRFIHFTSLMLVFGFAMYGAWLAPLTIRRLLAKRFLRLQQHAAVWSLISATAMLAVQGGLMGTGWTDVFSPNIWQAVLQTQFGGIWLWQIVLALVTLIVALMQPRNMPRLLFMLTTAQFILLAGVGHATLNEGVTAKIHQTNHAIHLICAAAWFGGLLPVLWCMQLIKGRWRHQAIQALMRFSWCGHFAVIGVLASGVLNALLITGFPPTLTTYWGQLLLLKAILVMIMVVIALANRYVLVPRMRQDEDRAAPWFVWMTKLEWAIGAVVLVIISLLATLEPF" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7014-MONOMER" "CopC domain-containing protein" ["YobA"] "MASTARSLRYALAILTTSLVTPSVWAHAHLTHQYPAANAQVTAAPQAITLNFSEGVETGFSGAKITGPKNENIKTLPAKRNEQDQKQLIVPLADSLKPGTYTVDWHVVSVDGHKTKGHYTFSVK" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"G7015-MONOMER" "putative carbon-nitrogen hydrolase family protein YobB" ["YobB"] "MSFWKVAAAQYEPRKTSLTEQVAHHLEFVRAAARQQCQLLVFPSLSLLGCDYSRRALPAPPDLSLLDPLCYAATTWRMTIIAGLPVEYNDRFIRGIAVFAPWRKTPGIYHQSHGACLGRRSRTITVVDEQPQGMDMDPTCSLFTTGQCLGEPDLLASARRLQFFSHQYSIAVLMANARGNSALWDEYGRLIVRADRGSLLLVGQRSSQGWQGDIIPLR" [] ["CCO-PM-BAC-NEG", "CCO-CYTOSOL"] +"G7016-MONOMER" "exonuclease X" ["YobC", "ExoX"] "MLRIIDTETCGLQGGIVEIASVDVIDGKIVNPMSHLVRPDRPISPQAMAIHRITEAMVADKPWIEDVIPHYYGSEWYVAHNASFDRRVLPEMPGEWICTMKLARRLWPGIKYSNMALYKTRKLNVQTPPGLHHHRALYDCYITAALLIDIMNTSGWTAEQMADITGRPSLMTTFTFGKYRGKAVSDVAERDPGYLRWLFNNLDSMSPELRLTLKHYLENT" [] ["CCO-CYTOSOL"] +"G7019-MONOMER" "MAPEG family inner membrane protein YecN" ["YecN"] "MVSALYAVLSALLLMKFSFDVVRLRMQYRVAYGDGGFSELQSAIRIHGNAVEYIPIAIVLMLFMEMNGAETWMVHICGIVLLAGRLMHYYGFHHRLFRWRRSGMSATWCALLLMVLANLWYMPWELVFSLR" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7020-MONOMER" "carboxy-S-adenosyl-L-methionine synthase" ["CmoA", "YecO"] "MSHRDTLFSAPIARLGDWTFDERVAEVFPDMIQRSVPGYSNIISMIGMLAERFVQPGTQVYDLGCSLGAATLSVRRNIHHDNCKIIAIDNSPAMIERCRRHIDAYKAPTPVDVIEGDIRDIAIENASMVVLNFTLQFLEPSERQALLDKIYQGLNPGGALVLSEKFSFEDAKVGELLFNMHHDFKRANGYSELEISQKRSMLENVMLTDSVETHKARLHNAGFEHSELWFQCFNFGSLVALKAEDAA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7021-MONOMER" "tRNA U34 carboxymethyltransferase" ["YecP", "CmoB"] "MIDFGNFYSLIAKNHLSHWLETLPAQIANWQREQQHGLFKQWSNAVEFLPEIKPYRLDLLHSVTAESEEPLSAGQIKRIETLMRNLMPWRKGPFSLYGVNIDTEWRSDWKWDRVLPHLSDLTGRTILDVGCGSGYHMWRMIGAGAHLAVGIDPTQLFLCQFEAVRKLLGNDQRAHLLPLGIEQLPALKAFDTVFSMGVLYHRRSPLEHLWQLKDQLVNEGELVLETLVIDGDENTVLVPGDRYAQMRNVYFIPSALALKNWLKKCGFVDIRIADVSVTTTEEQRRTEWMVTESLADFLDPHDPGKTVEGYPAPKRAVLIARKP" [] ["CCO-CYTOSOL"] +"G7022-MONOMER" "trimethylamine N-oxide reductase 2" ["TorZ", "BisZ"] "MTLTRREFIKHSGIAAGALVVTSAAPLPAWAEEKGGKILTAGRWGAMNVEVKDGKIVSSTGALAKTIPNSLQSTAADQVHTTARIQHPMVRKSYLDNPLQPAKGRGEDTYVQVSWEQALKLIHEQHDRIRKANGPSAIFAGSYGWRSSGVLHKAQTLLQRYMNLAGGYSGHSGDYSTGAAQVIMPHVVGSVEVYEQQTSWPLILENSQVVVLWGMNPLNTLKIAWSSTDEQGLEYFHQLKKSGKPVIAIDPIRSETIEFFDDNATWIAPNMGTDVALMLGIAHTLMTQGKHDKVFLEKYTTGYPQFEEYLTGKSDNTPKSAVWAAEITGVPEAQIVKLAELMAANRTMLMAGWGIQRQQYGEQKHWMLVTLAAMLGQIGTPGGGFGFSYHYSNGGNPTRVGGVLPEMSAAIAGHASEAADDGGMTAIPVARIVDALENPGGKYQHNGKEQTYPNIKMIWWAGGGNFTHHQDTNRLIKAWQKPEMIVVSECYWTAAAKHADIVLPITTSFERNDLTMTGDYSNQHIVPMKQAVAPQFEARNDFDVFADLAELLKPGGKEIYTEGKDEMAWLKFFYDAAQKGARAQRVTMPMFNAFWQQNKLIEMRHSEKNEQYVRYGDFRADPVKNALGTPSGKIEIYSKTLEKFGYKDCPAHPTWLAPDEWKGTADEKQLQLLTAHPAHRLHSQLNYAELRKKYAIADREPITIHTEDAARFGIANGDLVRVWNKRGQILTGAVVTDGIKKGVVCVHEGAWPDLENGLCKNGSANVLTADIPSSQLANACAGNSALVYIEKYTGNAPKLTAFDQPAVQA" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"G7023-MONOMER" "cytochrome c quinol dehydrogenase TorY" ["YecK", "TorY"] "MRGKKRIGLLFLLIAVVVGGGGLLLAQKVLHKTSDTAFCLSCHSMSKPFEEYQGTVHFSNQKGIRAECADCHIPKSGMDYLFAKLKASKDIYHEFVSGKIDSDDKFEAHRQEMAETVWKELKATDSATCRSCHSFDAMDIASQSESAQKMHNKAQKDSETCIDCHKGIAHFPPEIKMDDNAAHELESQAATSVTNGAHIYPFKTSHIGELATVNPGTDLTVVDASGKQPIVLLQGYQMQGSENTLYLAAGQRLALATLSEEGIKALTVNGEWQADEYGNQWRQASLQGALTDPALADRKPLWQYAEKLDDTYCAGCHAPIAADHYTVNAWPSIAKGMGARTSMSENELDILTRYFQYNAKDITEKQ" ["CCO-MEMBRANE"] ["CCO-CW-BAC-NEG", "CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"G7024-MONOMER" "protein CutC" ["CutC", "protein potentially involved in copper homeostasis"] "MALLEICCYSMECALTAQQNGADRVELCAAPKEGGLTPSLGVLKSVRQRVTIPVHPIIRPRGGDFCYSDGEFAAILEDVRTVRELGFPGLVTGVLDVDGNVDMPRMEKIMAAAGPLAVTFHRAFDMCANPLYTLNNLAELGIARVLTSGQKSDALQGLSKIMELIAHRDAPIIMAGAGVRAENLHHFLDAGVLEVHSSAGAWQASPMRYRNQGLSMSSDEHADEYSRYIVDGAAVAEMKGIIERHQAK" [] ["CCO-CYTOSOL"] +"G7025-MONOMER" "putative metal-binding enzyme YecM" ["YecL", "YecM"] "MANWQSIDELQDIASDLPRFIHALDELSRRLGLNITPLTADHISLRCHQNATAERWRRGFEQCGELLSENMINGRPICLFKLHEPVQVAHWQFSIVELPWPGEKRYPHEGWEHIEIVLPGDPETLNARALALLSDEGLSLPGISVKTSSPKGEHERLPNPTLAVTDGKTTIKFHPWSIEEIVASEQSA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7026-MONOMER" "protein YecT" ["YecT"] "MFKFLVLTLGIISCQAYAEDTVIVNDHDISAIKDCWQKNSDDDTDVNVIKSCLRQEYNLVDAQLNKAYGEAYRYIEQVPRTGVKKPDTEQLNLLKKSQRAWLDFRDKECELILSNEDVQDLSDPYSESEWLSCMIIQTNTRTRQLQLYRNSEDFYPSPLTRG" [] ["CCO-CYTOSOL"] +"G7027-MONOMER" "flagellar protein FlhE" ["FlhE"] "MRTLLAILLFPLLVQAAGEGMWQASSVGITLNHRGESMSSAPLSTRQPASGLMTLVAWRYQLIGPTPSGLRVRLCSQSRCVELEGQSGTTVAFSGIAAAEPLRFIWEVPGGGRLIPPLKVQRNEVIVNYR" ["CCO-CELL-PROJECTION"] ["CCO-PERI-BAC", "CCO-CELL-PROJECTION"] +"G7028-MONOMER" "flagellar biosynthesis protein FlhB" ["YecQ", "FlaG", "FlhB"] "MSDESDDKTEAPTPHRLEKAREEGQIPRSRELTSLLILLVGVSVIWFGGVSLARRLSGMLSAGLHFDHSIINDPNLILGQIILLIREAMLALLPLISGVVLVALISPVMLGGLVFSGKSLQPKFSKLNPLPGIKRMFSAQTGAELLKAILKTILVGSVTGFFLWHHWPQMMRLMAESPITAMGNAMDLVGLCALLVVLGVIPMVGFDVFFQIFSHLKKLRMSRQDIRDEFKQSEGDPHVKGRIRQMQRAAARRRMMADVPKADVIVNNPTHYSVALQYDENKMSAPKVVAKGAGLVALRIREIGAENNVPTLEAPPLARALYRHAEIGQQIPGQLYAAVAEVLAWVWQLKRWRLAGGQRPVQPTHLPVPEALDFINEKPTHE" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7031-MONOMER" "universal stress protein C" ["UspC", "YecG"] "MSYSNILVAVAVTPESQQLLAKAVSIARPVKGHISLITLASDPEMYNQLAAPMLEDLRSVMHEETQSFLDKLIQDAGYPVDKTFIAYGELSEHILEVCHKHHFDLVICGNHNHSFFSRASCSAKRVIASSEVDVLLVPLTGD" [] ["CCO-CYTOSOL"] +"G7033-MONOMER" "putative ferritin-like protein" ["YecI", "FtnB"] "MATAGMLLKLNSQMNREFYASNLYLHLSNWCSEQSLNGTATFLRAQAQSNVTQMMRMFNFMKSVGATPIVKAIDVPGEKLNSLEELFQKTMEEYEQRSSTLAQLADEAKELNDDSTVNFLRDLEKEQQHDGLLLQTILDEVRSAKLAGMCPVQTDQHVLNVVSHQLH" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7035-MONOMER" "lipoprotein YecR" ["YecR"] "MRLLILTLSLITLAGCTVTRQAHVSEVDAATGIVRLVYDQAFLQHAHTDRYVSRGIADRACQQEGYTHAVPFGQPVGNCSLFAGSLCLNTEFTLSYQCHHSAFPVFL" [] ["CCO-CYTOSOL"] +"G7036-MONOMER" "DUF2492 domain-containing protein YecH" ["YecH"] "MDSIHGHEVLNMMIESGEQYTHASLEAAIKARFGEQARFHTCSAEGMTAGELVAFLAAKGKFIPSKDGFSTDQSKICRH" [] ["CCO-CYTOSOL"] +"G7037-MONOMER" "cystine ABC transporter membrane subunit" ["TcyL", "YecS"] "MQESIQLVIDSLPFLLKGAGYTLQLSIGGMFFGLLLGFILALMRLSPIWPVRWLARFYISIFRGTPLIAQLFMIYYGLPQFGIELDPIPSAMIGLSLNTAAYAAETLRAAISSIDKGQWEAAASIGMTPWQTMRRAILPQAARVALPPLSNSFISLVKDTSLAATIQVPELFRQAQLITSRTLEVFTMYLAASLIYWIMATVLSTLQNHFENQLNRQEREPK" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7039-MONOMER" "cystine ABC transporter periplasmic binding protein" ["TcyJ", "YzzR", "FliY", "Ssi7"] "MKLAHLGRQALMGVMAVALVAGMSVKSFADEGLLNKVKERGTLLVGLEGTYPPFSFQGDDGKLTGFEVEFAQQLAKHLGVEASLKPTKWDGMLASLDSKRIDVVINQVTISDERKKKYDFSTPYTISGIQALVKKGNEGTIKTADDLKGKKVGVGLGTNYEEWLRQNVQGVDVRTYDDDPTKYQDLRVGRIDAILVDRLAALDLVKKTNDTLAVTGEAFSRQESGVALRKGNEDLLKAVNDAIAEMQKDGTLQALSEKWFGADVTK" ["CCO-PERI-BAC"] ["CCO-MEMBRANE", "CCO-PERI-BAC"] +"G7040-MONOMER" "putative acetyltransferase YedL" ["YedL"] "MFTIKTDDLTHPAVQALVAYHISGMLQQSPPESSHALDVQKLRNPTVTFWSVWEGEQLAGIGALKLLDDKHGELKSMRTAPNYLRRGVASLILRHILQVAQDRCLHRLSLETGTQAGFTACHQLYLKHGFADCEPFADYRLDPHSRFLSLTLCENNELP" [] ["CCO-CYTOSOL"] +"G7043-MONOMER" "putative type III secreted effector, N-terminal fragment" ["YedN", "YedM", "uncharacterized protein YedM", "YedN_1"] "MFPLNDLSLKTQPVQLNKVTSNTESTIKQHELVSDDAIINELSSELVSCLGNGKFTPISEDSKLFNMLSEFKLLHSEYFEWGDYSLWFQDFSIYNKIGFIMIEKIRELVTHPFGIN*SLYRLILQSF*TTLRKLQIPDFAKVSATGLIQ*KKAHRMTSKKMWI*HW*DCLNVLNSTIVNLT*QIFTWGLCHLFHPGLRCFIFVIMALPQYKFPNSAKN*SSISIIIWYFQKYPMELPRSP*III*YRVLTHLRQRL*QFLFIAIKYGKYQQCLRLLSCLIVAIIR*KKFNTSQIIWRKHVWSVILRLSLRYIAIKNYFLKNVILLKRHFYIMDFDRDLL*KIAAKIYCYESR*L**IFRYG*KVCNRW*GTHN*I" [] [] +"G7044-MONOMER" "putative defective phage integrase" ["IntG"] "MVVTTSDVVMCQMRRSDVQGGYRVYGSWMAENVQDQVSILNQKLSEFAPSMPHAVRSDVINNRLQNLHLHAHHFLIRRHQLITHLNPHLHRN" [] ["CCO-CYTOSOL"] +"G7045-MONOMER" "protein DsrB" ["DsrB"] "MKVNDRVTVKTDGGPRRPGVVLAVEEFSEGTMYLVSLEDYPLGIWFFNEAGHQDGIFVEKAE" [] [] +"G7046-MONOMER" "stress-induced protein" ["YodD"] "MKTAKEYSDTAKREVSVDVDALLAAINEISESEVHRSQNDSEHVSVDGREYHTWRELADAFELDIHDFSVSEVNR" [] ["CCO-CYTOSOL"] +"G7048-MONOMER" "putative mannosyl-3-phosphoglycerate phosphatase" ["YedP", "HAD19"] "MFSIQQPLLVFSDLDGTLLDSHSYDWQPAAPWLTRLREANVPVILCSSKTSAEMLYLQKTLGLQGLPLIAENGAVIQLAEQWQEIDGFPRIISGISHGEISLVLNTLREKEHFKFTTFDDVDDATIAEWTGLSRSQAALTQLHEASVTLIWRDSDERMAQFTARLNELGLQFMQGARFWHVLDASAGKDQAANWIIATYQQLSGKRPTTLGLGDGPNDAPLLEVMDYAVIVKGLNREGVHLHDEDPARVWRTQREGPEGWREGLDHFFSAR" [] ["CCO-CYTOSOL"] +"G7049-MONOMER" "putative diguanylate cyclase DgcQ" ["DgcQ", "YedQ"] "MQHETKMENQSWLKKLARRLGPGHVVNLCFIVVLLFSTLLTWREVVVLEDAYISSQRNHLENVANALDKHLQYNVDKLIFLRNGMREALVAPLDFTSLRDAVTEFEQHRDEHAWKIELNRRRTLPVNGVSDALVSEGNLLSRENESLDNEITAALEVGYLLRLAHNSSSMVEQAMYVSRAGFYVSTQPTLFTRNVPTRYYGYVTQPWFIGHSQRENRHRAVRWFTSQPEHASNTEPQVTVSVPVDSNNYWYGVLGMSIPVRTMQQFLRNAIDKNLDGEYQLYDSKLRFLTSSNPDHPTGNIFDPRELALLAQAMEHDTRGGIRMDSRYVSWERLDHFDGVLVRVHTLSEGVRGDFGSISIALTLLWALFTTMLLISWYVIRRMVSNMYVLQSSLQWQAWHDTLTRLYNRGALFEKARPLAKLCQTHQHPFSVIQVDLDHFKAINDRFGHQAGDRVLSHAAGLISSSLRAQDVAGRVGGEEFCVILPGASLTEAAEVAERIRLKLNEKEMLIAKSTTIRISASLGVSSSEETGDYDFEQLQSLADRRLYLAKQAGRNRVFASDNA" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7050-MONOMER" "protein YodC" ["YodC"] "MSFMVSEEVTVKEGGPRMIVTGYSSGMVECRWYDGYGVKREAFHETELVPGEGSRSAEEV" [] ["CCO-CYTOSOL"] +"G7051-MONOMER" "cell division protein DrpB" ["DrpB", "YedR"] "MEYGSTKMEERLSRSPGGKLALWAFYTWCGYFVWAMARYIWVMSRIPDAPVSGFESDLGSTAGKWLGALVGFLFMALVGALLGSIAWYTRPRPARSRRYE" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7052-MONOMER" "putative outer membrane protein YedS, N-terminal fragment" ["YedS", "YedT", "YedS_1"] "MKRKVLAMLVPALLVAGAANAAEVYNKDGNKLDLYGKVVGLHYFSDDSGSDGDMSYARIGFKGETQIADQFTGYGQWEFNIGANGPESDKGNTATRLAFAGLGFGQNGTFDYGRNYGVVYDVEAWTDMLPEFGGDTYAGADNFMNGRANGVATYRNNGFFG*VDGLNFALQYQGNNESGGPFGQEGSGSGDGRSLSKENGDGFGMSTSYDFDFGLSLGAAYQTLIVQIVRLELV*MIVTIATEMLVVKPLKHGLLVQNMMLIMCI*QLCTLKLAI*PHMVVASLIMVNQDQPSLTKPKTLKLLLSISSTLACARPSLTCNLKVRI*AVGLMTATATHVTPIKIWLNTLILVRPTTSTKTCPPMLITKSTCWTTTMTSTKQTASLPMISLLWA*STS" [] [] +"G7055-MONOMER" "protein/nucleic acid deglycase 1" ["YzzC", "YedU", "HchA", "Hsp31", "glyoxalase III", "Maillard deglycase 1"] "MTVQTSKNPQVDIAEDNAFFPSEYSLSQYTSPVSDLDGVDYPKPYRGKHKILVIAADERYLPTDNGKLFSTGNHPIETLLPLYHLHAAGFEFEVATISGLMTKFEYWAMPHKDEKVMPFFEQHKSLFRNPKKLADVVASLNADSEYAAIFVPGGHGALIGLPESQDVAAALQWAIKNDRFVISLCHGPAAFLALRHGDNPLNGYSICAFPDAADKQTPEIGYMPGHLTWYFGEELKKMGMNIINDDITGRVHKDRKLLTGDSPFAANALGKLAAQEMLAAYAG" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7056-MONOMER" "sensor histidine kinase HprS" ["HprS", "YedV"] "MKRLSITVRLTLLFILLLSVAGAGIVWTLYNGLASELKWRDDTTLINRTAQIKQLLIDGVNPDTLPVYFNRMMDVSQDILIIHGDSINKIVNRTNVSDGMLNNIPASETISAAGIYRSIINDTEIDALRINIDEVSPSLTVTVAKLASARHNMLEQYKINSIIICIVAIVLCSVLSPLLIRTGLREIKKLSGVTEALNYNDSREPVEVSALPRELKPLGQALNKMHHALVKDFERLSQFADDLAHELRTPINALLGQNQVTLSQTRSIAEYQKTIAGNIEELENISRLTENILFLARADKNNVLVKLDSLSLNKEVENLLDYLEYLSDEKEICFKVECNQQIFADKILLQRMLSNLIVNAIRYSPEKSRIHITSFLDTNSYLNIDIASPGTKINEPEKLFRRFWRGDNSRHSVGQGLGLSLVKAIAELHGGSATYHYLNKHNVFRITLPQRN" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7057-MONOMER" "DNA-binding transcriptional dual regulator HprR" ["YedW"] "MKILLIEDNQRTQEWVTQGLSEAGYVIDAVSDGRDGLYLALKDDYALIILDIMLPGMDGWQILQTLRTAKQTPVICLTARDSVDDRVRGLDSGANDYLVKPFSFSELLARVRAQLRQHHALNSTLEISGLRMDSVSHSVSRDNISITLTRKEFQLLWLLASRAGEIIPRTVIASEIWGINFDSDTNTVDVAIRRLRAKVDDPFPEKLIATIRGMGYSFVAVKK" [] ["CCO-CYTOSOL"] +"G7058-MONOMER" "hydroxyisourate hydrolase / transthyretin-related protein" ["HiuH", "YedX"] "MLKRYLVLSVATAAFSLPSLVNAAQQNILSVHILNQQTGKPAADVTVTLEKKADNGWLQLNTAKTDKDGRIKALWPEQTATTGDYRVVFKTGDYFKKQNLESFFPEIPVEFHINKVNEHYHVPLLLSQYGYSTYRGS" [] ["CCO-PERI-BAC"] +"G7059-MONOMER" "protein-L-methionine sulfoxide reductase catalytic subunit MsrP" ["YedY", "MsrP", "periplasmic protein-L-methionine sulfoxide reductase catalytic subunit"] "MKKNQFLKESDVTAESVFFMKRRQVLKALGISATALSLPHAAHADLLSWFKGNDRPPAPAGKALEFSKPAAWQNNLPLTPADKVSGYNNFYEFGLDKADPAANAGSLKTDPWTLKISGEVAKPLTLDHDDLTRRFPLEERIYRMRCVEAWSMVVPWIGFPLHKLLALAEPTSNAKYVAFETIYAPEQMPGQQDRFIGGGLKYPYVEGLRLDEAMHPLTLMTVGVYGKALPPQNGAPVRLIVPWKYGFKGIKSIVSIKLTRERPPTTWNLAAPDEYGFYANVNPYVDHPRWSQATERFIGSGGILDVQRQPTLLFNGYAAQVASLYRGLDLRENF" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"G7060-MONOMER" "protein-L-methionine sulfoxide reductase heme-binding subunit MsrQ" ["YedZ", "MsrQ", "periplasmic protein-L-methionine sulfoxide reductase heme binding subunit"] "MRLTAKQVTWLKVCLHLAGLLPFLWLVWAINHGGLGADPVKDIQHFTGRTALKFLLATLLITPLARYAKQPLLIRTRRLLGLWCFAWATLHLTSYALLELGVNNLALLGKELITRPYLTLGIISWVILLALAFTSTQAMQRKLGKHWQQLHNFVYLVAILAPIHYLWSVKIISPQPLIYAGLAVLLLALRYKKLRSLFNRLRKQVHNKLSV" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7061-MONOMER" "metal-binding protein ZinT" ["YodA", "ZinT", "cadmium-induced cadmium binding protein"] "MAIRLYKLAVALGVFIVSAPAFSHGHHSHGKPLTEVEQKAANGVFDDANVQNRTLSDWDGVWQSVYPLLQSGKLDPVFQKKADADKTKTFAEIKDYYHKGYATDIEMIGIEDGIVEFHRNNETTSCKYDYDGYKILTYKSGKKGVRYLFECKDPESKAPKYIQFSDHIIAPRKSSHFHIFMGNDSQQSLLNEMENWPTYYPYQLSSEEVVEEMMSH" ["CCO-CYTOSOL", "CCO-PERI-BAC"] ["CCO-PERI-BAC", "CCO-CYTOSOL"] +"G7062-MONOMER" "putative cytochrome b561 YodB" ["YodB"] "MNRFSKTQIYLHWITLLFVAITYAAMELRGWFPKGSSTYLLMRETHYNAGIFVWVLMFSRLIIKHRYSDPSIVPPPPAWQMKAASLMHIMLYITFLALPLLGIALMAYSGKSWSFLGFNVSPFVTPNSEIKALIKNIHETWANIGYFLIAAHAGAALFHHYIQKDNTLLRMMPRRK" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7063-MONOMER" "Mlc titration factor" ["YeeI", "MtfA"] "MIKWPWKVQESAHQTALPWQEALSIPLLTCLTEQEQSKLVTLAERFLQQKRLVPLQGFELDSLRSCRIALLFCLPVLELGLEWLDGFHEVLIYPAPFVVDDEWEDDIGLVHNQRIVQSGQSWQQGPIVLNWLDIQDSFDASGFNLIIHEVAHKLDTRNGDRASGVPFIPLREVAGWEHDLHAAMNNIQEEIELVGENAASIDAYAASDPAECFAVLSEYFFSAPELFAPRFPSLWQRFCQFYQQDPLQRLHHANDTDSFSATNVH" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7064-MONOMER" "inverse autotransporter adhesin" ["YeeJ"] "MATKKRSGEEINDRQILCGMGIKLRRLTAGICLITQLAFPMAAAAQGVVNAATQQPVPAQIAIANANTVPYTLGALESAQSVAERFGISVAELRKLNQFRTFARGFDNVRQGDELDVPAQVSEKKLTPPPGNSSDNLEQQIASTSQQIGSLLAEDMNSEQAANMARGWASSQASGAMTDWLSRFGTARITLGVDEDFSLKNSQFDFLHPWYETPDNLFFSQHTLHRTDERTQINNGLGWRHFTPTWMSGINFFFDHDLSRYHSRAGIGAEYWRDYLKLSSNGYLRLTNWRSAPELDNDYEARPANGWDVRAESWLPAWPHLGGKLVYEQYYGDEVALFDKDDRQSNPHAITAGLNYTPFPLMTFSAEQRQGKQGENDTRFAVDFTWQPGSAMQKQLDPNEVAARRSLAGSRYDLVDRNNNIVLEYRKKELVRLTLTDPVTGKSGEVKSLVSSLQTKYALKGYNVEATALEAAGGKVVTTGKDILVTLPAYRFTSTPETDNTWPIEVTAEDVKGNLSNREQSMVVVQAPTLSQKDSSVSLSTQTLNADSHSTATLTFIAHDAAGNPVVGLVLSTRHEGVQDITLSDWKDNGDGSYTQILTTGAMSGTLTLMPQLNGVDAAKAPAVVNIISVSSSRTHSSIKIDKDRYLSGNPIEVTVELRDENDKPVKEQKQQLNNAVSIDNVKPGVTTDWKETADGVYKATYTAYTKGSGLTAKLLMQNWNEDLHTAGFIIDANPQSAKIATLSASNNGVLANENAANTVSVNVADEGSNPINDHTVTFAVLSGSATSFNNQNTAKTDVNGLATFDLKSSKQEDNTVEVTLENGVKQTLIVSFVGDSSTAQVDLQKSKNEVVADGNDSVTMTATVRDAKGNLLNDVMVTFNVNSAEAKLSQTEVNSHDGIATATLTSLKNGDYRVTASVSSGSQANQQVNFIGDQSTAALTLSVPSGDITVTNTAPQYMTATLQDKNGNPLKDKEITFSVPNDVASKFSISNGGKGMTDSNGVAIASLTGTLAGTHMIMARLANSNVSDAQPMTFVADKDRAVVVLQTSKAEIIGNGVDETTLTATVKDPSNHPVAGITVNFTMPQDVAANFTLENNGIAITQANGEAHVTLKGKKAGTHTVTATLGNNNTSDSQPVTFVADKASAQVVLQISKDEITGNGVDSATLTATVKDQFDNEVNNLPVTFSSASSGLTLTPGVSNTNESGIAQATLAGVAFGEKTVTASLANNGASDNKTVHFIGDTAAAKIIELAPVPDSIIAGTPQNSSGSVITATVVDNNGFPVKGVTVNFTSNAATAEMTNGGQAVTNEQGKATVTYTNTRSSIESGARPDTVEASLENGSSTLSTSINVNADASTAHLTLLQALFDTVSAGETTSLYIEVKDNYGNGVPQQEVTLSVSPSEGVTPSNNAIYTTNHDGNFYASFTATKAGVYQLTATLENGDSMQQTVTYVPNVANAEITLAASKDPVIADNNDLTTLTATVADTEGNAIANTEVTFTLPEDVKANFTLSDGGKVITDAEGKAKVTLKGTKAGAHTVTASMTGGKSEQLVVNFIADTLTAQVNLNVTEDNFIANNVGMTRLQATVTDGNGNPLANEAVTFTLPADVSASFTLGQGGSAITDINGKAEVTLSGTKSGTYPVTVSVNNYGVSDTKQVTLIADAGTAKLASLTSVYSFVVSTTEGATMTASVTDANGNPVEGIKVNFRGTSVTLSSTSVETDDRGFAEILVTSTEVGLKTVSASLADKPTEVISRLLNASADVNSATITSLEIPEGQVMVAQDVAVKAHVNDQFGNPVAHQPVTFSAEPSSQMIISQNTVSTNTQGVAEVTMTPERNGSYMVKASLPNGASLEKQLEAIDEKLTLTASSPLIGVYAPTGATLTATLTSANGTPVEGQVINFSVTPEGATLSGGKVRTNSSGQAPVVLTSNKVGTYTVTASFHNGVTIQTQTTVKVTGNSSTAHVASFIADPSTIAATNTDLSTLKATVEDGSGNLIEGLTVYFALKSGSATLTSLTAVTDQNGIATTSVKGAMTGSVTVSAVTTAGGMQTVDITLVAGPADTSQSVLKSNRSSLKGDYTDSAELRLVLHDISGNPIKVSEGMEFVQSGTNVPYIKISAIDYSLNINGDYKATVTGGGEGIATLIPVLNGVHQAGLSTTIQFTRAEDKIMSGTVSVNGTDLPTTTFPSQGFTGAYYQLNNDNFAPGKTAADYEFSSSASWVDVDATGKVTFKNVGSNSERITATPKSGGPSYVYEIRVKSWWVNAGEAFMIYSLAENFCSSNGYTLPRANYLNHCSSRGIGSLYSEWGDMGHYTTDAGFQSNMYWSSSPANSSEQYVVSLATGDQSVFEKLGFAYATCYKNL" [] ["CCO-OUTER-MEM"] +"G7066-MONOMER" "putative glycosyltransferase, N-terminal fragment" ["YeeK", "YeeL_1", "YeeL"] "MFLASLLRRIAFSYYDYKAYNFNIEKTDFVVIHIPDQIGDAMAIFPVIRALELHKIKHLLIVTSTINLEVFNALKLEQTKLTLVTMTMQDHATLKEIKDLAKNITQQYGTPDLCIEGMRKKNLKTMLFISQLKAKTNFQVVGITMNCFSPLCKNASSMDQKLRAPVPMTWAFMMREAGFPAVRPIYELPLSEDVLDEVREEMRSLGSYIAFNLEGSSQERTFSLSIAENLIAKI*SETDIPIVIVHGPKGEDKARALVDCYNNVYRLSLPPSIKRSAAIIKDAYIAITPDTSILHMASAYNTPVVAIYADYKTRWPAMADVSESVVVGQKIDNISLDEFAKALKSVLARI" [] [] +"G7068-MONOMER" "putative transcriptional regulator YeeN" ["YeeN"] "MGRKWANIVAKKTAKDGATSKIYAKFGVEIYAAAKQGEPDPELNTSLKFVIERAKQAQVPKHVIDKAIDKAKGGGDETFVQGRYEGFGPNGSMIIAETLTSNVNRTIANVRTIFNKKGGNIGAAGSVSYMFDNTGVIVFKGTDPDHIFEILLEAEVDVRDVTEEEGNIVIYTEPTDLHKGIAALKAAGITEFSTTELEMIAQSEVELSPEDLEIFEGLVDALEDDDDVQKVYHNVANL" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7071-MONOMER" "DNA-binding transcriptional activator Cbl" ["Cbl"] "MNFQQLKIIREAARQDYNLTEVANMLFTSQSGVSRHIRELEDELGIEIFVRRGKRLLGMTEPGKALLVIAERILNEASNVRRLADLFTNDTSGVLTIATTHTQARYSLPEVIKAFRELFPEVRLELIQGTPQEIATLLQNGEADIGIASERLSNDPQLVAFPWFRWHHSLLVPHDHPLTQISPLTLESIAKWPLITYRQGITGRSRIDDAFARKGLLADIVLSAQDSDVIKTYVALGLGIGLVAEQSSGEQEEENLIRLDTRHLFDANTVWLGLKRGQLQRNYVWRFLELCNAGLSVEDIKRQVMESSEEEIDYQI" [] ["CCO-CYTOSOL"] +"G7072-MONOMER" "DNA-binding transcriptional dual regulator Nac" ["Nac"] "MNFRRLKYFVKIVDIGSLTQAAEVLHIAQPALSQQVATLEGELNQQLLIRTKRGVTPTDAGKILYTHARAILRQCEQAQLAVHNVGQALSGQVSIGFAPGTAASSITMPLLQAVRAEFPEIVIYLHENSGAVLNEKLINHQLDMAVIYEHSPVAGVSSQALLKEDLFLVGTQDCPGQSVDVNAIAQMNLFLPSDYSAIRLRVDEAFSLRRLTAKVIGEIESIATLTAAIASGMGVAVLPESAARSLCGAVNGWMSRITTPSMSLSLSLNLPARANLSPQAQAVKELLMSVISSPVMEKRQWQLVS" [] ["CCO-CYTOSOL"] +"G7073-MONOMER" "L,D-transpeptidase LdtA" ["LdtA", "YzzT", "YeeG", "ErfK"] "MRRVNILCSFALLFASHTSLAVTYPLPPEGSRLVGQSFTVTVPDHNTQPLETFAAQYGQGLSNMLEANPGADVFLPKSGSQLTIPQQLILPDTVRKGIVVNVAEMRLYYYPPDSNTVEVFPIGIGQAGRETPRNWVTTVERKQEAPTWTPTPNTRREYAKRGESLPAFVPAGPDNPMGLYAIYIGRLYAIHGTNANFGIGLRVSQGCIRLRNDDIKYLFDNVPVGTRVQIIDQPVKYTTEPDGSNWLEVHEPLSRNRAEYESDRKVPLPVTPSLRAFINGQEVDVNRANAALQRRSGMPVQISSGSRQMF" [] ["CCO-PERI-BAC"] +"G7074-MONOMER" "CP4-44 prophage; IS5 transposase and trans-activator" ["InsH6", "Trs5-6", "Yi52_6"] "MSHQLTFADSEFSSKRRQTRKEIFLSRMEQILPWQNMVEVIEPFYPKAGNGRRPYPLETMLRIHCMQHWYNLSDGAMEDALYEIASMRLFARLSLDSALPDRTTIMNFRHLLEQHQLARQLFKTINRWLAEAGVMMTQGTLVDATIIEAPSSTKNKEQQRDPEMHQTKKGNQWHFGMKAHIGVDAKSGLTHSLVTTAANEHDLNQLGNLLHGEEQFVSADAGYQGAPQREELAEVDVDWLIAERPGKVRTLKQHPRKNKTAINIEYMKASIRAKVEHPFRIIKRQFGFVKARYKGLLKNDNQLAMLFTLANLFRADQMIRQWERSH" [] ["CCO-CYTOSOL"] +"G7075-MONOMER" "CP4-44 prophage; TonB-dependent receptor plug domain-containing protein YoeA" ["YoeE", "YoeA", "YoeA_1"] "MLYNIPCRIYILSTLSLCISGIVSTATATSSETKISNEETLVVTTNRSASNLWESPATIQVIDQQTLQNSTNASIADNLQDIPGVEITDNSLAGRKQIRIRGEASSRVLILIDGQEVTYQRAGDNYGVGLLIDESALERVEVVKGPYSVLYGSQAIGGIVNFITKKG" [] ["CCO-MEMBRANE"] +"G7079-MONOMER" "CP4-44 prophage; putative GTP-binding protein" ["YeeP"] "MVTQADKTEPCHEWDMAGIQPSPAQAQNIREKTEAVFRLFRPVHPVVAVSARTGWELDTLVSALMTALPDHAASPLMTRLQDELRTESVRSQAREQFTGAVDRIFDTAESVCIASVARTVLRAVRDTVVSVARAVWNWIFF" [] ["CCO-CYTOSOL"] +"G7080-MONOMER" "CP4-44 prophage; self recognizing antigen 43 (Ag43) autotransporter" ["Agn", "YeeQ", "YzzX", "Flu", "Ag43"] "MKRHLNTCYRLVWNHMTGAFVVASELARARGKRGGVAVALSLAAVTSLPVLAADIVVHPGETVNGGTLANHDNQIVFGTTNGMTISTGLEYGPDNEANTGGQWVQDGGTANKTTVTSGGLQRVNPGGSVSDTVISAGGGQSLQGRAVNTTLNGGEQWMHEGAIATGTVINDKGWQVVKPGTVATDTVVNTGAEGGPDAENGDTGQFVRGDAVRTTINKNGRQIVRAEGTANTTVVYAGGDQTVHGHALDTTLNGGYQYVHNGGTASDTVVNSDGWQIVKNGGVAGNTTVNQKGRLQVDAGGTATNVTLKQGGALVTSTAATVTGINRLGAFSVVEGKADNVVLENGGRLDVLTGHTATNTRVDDGGTLDVRNGGTATTVSMGNGGVLLADSGAAVSGTRSDGKAFSIGGGQADALMLEKGSSFTLNAGDTATDTTVNGGLFTARGGTLAGTTTLNNGAILTLSGKTVNNDTLTIREGDALLQGGSLTGNGSVEKSGSGTLTVSNTTLTQKAVNLNEGTLTLNDSTVTTDVIAQRGTALKLTGSTVLNGAIDPTNVTLASGATWNIPDNATVQSVVDDLSHAGQIHFTSTRTGKFVPATLKVKNLNGQNGTISLRVRPDMAQNNADRLVIDGGRATGKTILNLVNAGNSASGLATSGKGIQVVEAINGATTEEGAFVQGNRLQAGAFNYSLNRDSDESWYLRSENAYRAEVPLYASMLTQAMDYDRIVAGSRSHQTGVNGENNSVRLSIQGGHLGHDNNGGIARGATPESSGSYGFVRLEGDLMRTEVAGMSVTAGVYGAAGHSSVDVKDDDGSRAGTVRDDAGSLGGYLNLVHTSSGLWADIVAQGTRHSMKASSDNNDFRARGWGWLGSLETGLPFSITDNLMLEPQLQYTWQGLSLDDGKDNAGYVKFGHGSAQHVRAGFRLGSHNDMTFGEGTSSRAPLRDSAKHSVSELPVNWWVQPSVIRTFSSRGDMRVGTSTAGSGMTFSPSQNGTSLDLQAGLEARVRENITLGVQAGYAHSVSGSSAEGYNGQATLNVTF" ["CCO-OUTER-MEM"] ["CCO-PERI-BAC", "CCO-MEMBRANE", "CCO-EXTRACELLULAR", "CCO-OUTER-MEM"] +"G7081-MONOMER" "CP4-44 prophage; inner membrane protein YeeR" ["YeeR"] "MLQIVGALILLIAGFAILRLLFRALISTASALAGLILLCLFGPALLAGYITERITRLFHIRWLAGVFLTIAGMIISFMWGLDGKHIALEAHTFDSVKFILTTALAGGLLAVPLQIKNIQQNGITPEDISKEINGYYCCFYTAFFLMACSACAPLIALQYDISPSLMWWGGLLYWLAALVTLLWAASQIQALKKLTCAISQTLEEQPVLNSKSWLTSLQNDYSLPDSLTERIWLTLISQRISRGELREFELADGNWLLNNAWYERNMAGFNEQLKENLSFTPDELKTLFRNRLNLSPEANDDFLDRCLDGGDWYPFSEGRRFVSFHHVDELRICASCGLTEVHHAPENHKPDPEWYCSSLCRETETLCQEIYERPYNSFISDATANGLILMKLPETWSTNEKMFASGGQGHGFAAERGNHIVDRVRLKNARILGDNNARNGADRLVSGTEIQTKYCSTAARSVGAAFDGQNGQYRYMGNNGPMQLEVPRDQYAGAVETMRNKIREGKVEER" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7082-MONOMER" "CP4-44 prophage; RadC-like JAB domain-containing protein YeeS" ["YeeS"] "MTPGERSLIQRALKTLDRHLHEPGVAFTSTRAAREWLILNMAGLEREEFRVLYLNNQNQLIAGETLFTGTINRTEVHPREVIKRALYHNAAAVVLAHNHPSGEVTPSKADRLITERLVQALGLVDIRVPDHLIVGGNQVFSFAEHGLL" [] ["CCO-CYTOSOL"] +"G7083-MONOMER" "CP4-44 prophage; DUF987 domain-containing protein YeeT" ["YeeT"] "MKIITRGEAMRIHQQHPTSRLFPFCTGKYRWHGSAEAYTGREVQDIPGVLAVFAERRKDSFGPYVRLMSVTLN" [] ["CCO-CYTOSOL"] +"G7084-MONOMER" "CP4-44 prophage; cytoskeleton bundling-enhancing antitoxin CbeA" ["CbeA", "YeeU", "CP4-44 prophage; antitoxin of the CbtA-CbeA toxin-antitoxin system"] "MSDTLPGTTLPDDNHDRPWWGLPCTVTPCFGARLVQEGNRLHYLADRAGIRGLFSDADAYHLDQAFPLLMKQLELMLTSGELNPRHQHTVTLYAKGLTCKADTLSSCDYVYLAVYPTPEMKN" [] ["CCO-CYTOSOL"] +"G7085-MONOMER" "CP4-44 prophage; cytoskeleton-binding toxin CbtA" ["CbtA", "YeeV", "CP4-44 prophage; toxin of the CbtA-CbeA toxin-antitoxin system"] "MKTLPVLPGQAASSRPSPVEIWQILLSRLLDQHYGLTLNDTPFADERVIEQHIEAGISLCDAVNFLVEKYALVRTDQPGFSACTRSQLINSIDILRARRATGLMTRDNYRTVNNITLGKYPEAK" [] ["CCO-CYTOSOL"] +"G7086-MONOMER" "CP4-44 prophage; putative uncharacterized protein YeeW" ["YeeW"] "MMTLEADSVNVQALDMGHIVVDIDGVNITELINKAAENGYSLRVVDDRDSTETPATYASPHQLL" [] ["CCO-CYTOSOL"] +"G7087-MONOMER" "DUF496 domain-containing protein YeeX" ["YeeX"] "METTKPSFQDVLEFVRLFRRKNKLQREIQDVEKKIRDNQKRVLLLDNLSDYIKPGMSVEAIQGIIASMKGDYEDRVDDYIIKNAELSKERRDISKKLKAMGEMKNGEAK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7088-MONOMER" "putative DNA-binding transcriptional regulator YeeY" ["YeeY"] "MKPLLDVLMILDALEKEGSFAAASAKLYKTPSALSYTVHKLESDLNIQLLDRSGHRAKFTRTGKMLLEKGREVLHTVRELEKQAIKLHEGWENELVIGVDDTFPFSLLAPLIEAFYQHHSVTRLKFINGVLGGSWDALTQGRADIIVGAMHEPPSSSEFGFSRLGDLEQVFAVAPHHPLALEEEPLNRRIIKRYRAIVVGDTAQAGASTASQLLDEQEAITVFDFKTKLELQISGLGCGYLPRYLAQRFLDSGALIEKKVVAQTLFEPVWIGWNEQTAGLASGWWRDEILANSAIAGVYAKSDDGKSAI" [] ["CCO-CYTOSOL"] +"G7089-MONOMER" "putative epimerase YeeZ" ["YeeZ", "putative epimerase, with NAD(P)-binding Rossmann-fold domain"] "MKKVAIVGLGWLGMPLAMSLSARGWQVTGSKTTQDGVEAARMSGIDSYLLRMEPELVCDSDDLDALMDADALVITLPARRSGPGDEFYLQAVQELVDSALAHRIPRIIFTSSTSVYGDAQGTVKETTPRNPVTNSGRVLEELEDWLHNLPGTSVDILRLAGLVGPGRHPGRFFAGKTAPDGEHGVNLVHLEDVIGAITLLLQAPKGGHIYNICAPAHPARNVFYPQMARLLGLEPPQFRNSLDSGKGKIIDGSRICNELGFEYQYPDPLVMPLE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7090-MONOMER" "regulator of length of O-antigen component of lipopolysaccharide chains" ["Cld", "Rol", "Wzz", "WzzB"] "MRVENNNVSGQNHDPEQIDLIDLLVQLWRGKMTIIISVIVAIALAIGYLAVAKEKWTSTAIITQPDVGQIAGYNNAMNVIYGQAAPKVSDLQETLIGRFSSAFSALAETLDNQEEREKLTIEPSVKNQQLPLTVSYVGQTAEGAQMKLAQYIQQVDDKVNQELEKDLKDNIALGRKNLQDSLRTQEVVAQEQKDLRIRQIQEALQYANQAQVTKPQIQQTGEDITQDTLFLLGSEALESMIKHEATRPLVFSPNYYQTRQNLLDIESLKVDDLDIHAYRYVMKPMLPIRRDSPKKAITLILAVLLGGMVGAGIVLGRNALRNYNAK" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7093-MONOMER" "UTP:glucose-1-phosphate uridylyltransferase, low activity" ["YefG", "WcaN", "GalF"] "MTNLKAVIPVAGLGMHMLPATKAIPKEMLPIVDKPMIQYIVDEIVAAGIKEILLVTHASKNAVENHFDTSYELESLLEQRVKRQLLAEVQSICPPGVTIMNVRQGEPLGLGHSILCARPAIGDNPFVVVLPDVVIDDASADPLRYNLAAMIARFNETGRSQVLAKRMPGDLSEYSVIQTKEPLDREGKVSRIVEFIEKPDQPQTLDSDIMAVGRYVLSADIWPELERTQPGAWGRIQLTDAIAELAKKQSVDAMLMTGDSYDCGKKMGYMQAFVKYGLRNLKEGAKFRKGIEKLLSE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7094-MONOMER" "putative colanic acid biosynthesis protein WcaM" ["YefK", "WcaM", "orf20", "orf1.3"] "MPFKKLSRRTFLTASSALAFLHTPFARALPARQSVNINDYNPHDWIASFKQAFSEGQTVVVPAGLVCDNINTGIFIPPGKTLHILGSLRGNGRGRFVLQDGSQVTGEDGGSMHNITLDVRGSDCTIKGLTMSGFGPVTQIYIGGKNKRVMRNLIIDNLTVSHANYAILRQGFHNQIIGANITNCKFSDLQGDAIEWNVAINDRDILISDHVIERINCTNGKINWGIGIGLAGSTYDNNYPEDQAVKNFVVANITGSDCRQLIHVENGKHFVIRNIKARNITPDFSKKAGIDNATVAIYGCDNFVIDNIEMINSAGMLIGYGVIKGKYLSIPQNFRVNDIQLDNTHLAYKLRGIQISAGNAVSFVALTNIEMKRASLELHNKPQHFFMRNINVMQESSVGPALSMNFDMRKDVRGVFMAKKETLLSLANVHAVNEKGQSSVDIDRINHHIVNVEKINFRLPELRE" [] ["CCO-CYTOSOL"] +"G7095-MONOMER" "putative colanic biosynthesis glycosyl transferase" ["YefL", "WcaL", "orf19"] "MKVGFFLLKFPLSSETFVLNQITAFIDMGFEVEILALQKGDTQNTHAAWTKYNLAARTRWLQDEPTGKVAKLRHRASQTLRGIHRKNTWQALNLKRYGAESRNLILSAICGQVATPFRADVFIAHFGPAGVTAAKLRELGVIRGKIATIFHGIDISSREVLNHYTPEYQQLFRRGDLMLPISDLWAGRLQKMGCPREKIAVSRMGVDMTRFSPRPVKAPATPLEIISVARLTEKKGLHVAIEACRQLKEQGVAFRYRILGIGPWERRLRTLIEQYQLEDVVEMPGFKPSHEVKAMLDDADVFLLPSVTGADGDMEGIPVALMEAMAVGIPVVSTLHSGIPELVEADKSGWLVPENDARALAQRLAAFSQLDTDELAPVVKRAREKVEHDFNQQVINRELASLLQAL" [] ["CCO-CYTOSOL"] +"G7096-MONOMER" "putative colanic acid biosynthesis pyruvyl transferase WcaK" ["WcaK", "orf18"] "MKLLILGNHTCGNRGDSAILRGLLDAINILNPHAEVDVMSRYPVSSSWLLNRPVMGDPLFLQMKQHNSAAGVVGRVKKVLRRRYQHQVLLSRVTDTGKLRNIAIAQGFTDFVRLLSGYDAIIQVGGSFFVDLYGVPQFEHALCTFMAKKPLFMIGHSVGPFQDEQFNQLANYVFGHCDALILRESVSFDLMKRSNITTAKVEHGVDTAWLVDHHTEDFTASYAVQHWLDVAAQQKTVAITLRELAPFDKRLGTTQQAYEKAFAGVVNRILDEGYQVIALSTCTGIDSYNKDDRMVALNLRQHISDPARYHVVMDELNDLEMGKILGACELTVGTRLHSAIISMNFATPAIAINYEHKSAGIMQQLGLPEMAIDIRHLLDGSLQAMVADTLGQLPALNARLSEAVSRERQTGMQMVQSVLERIGEVK" [] ["CCO-CYTOSOL"] +"G7097-MONOMER" null ["Wzx", "WzxC", "colanic acid flippase"] "MSLREKTISGAKWSAIATVIIIGLGLVQMTVLARIIDNHQFGLLTVSLVIIALADTLSDFGIANSIIQRKEISHLELTTLYWLNVGLGIVVCVAVFLLSDLIGDVLNNPDLAPLIKTLSLAFVVIPHGQQFRALMQKELEFNKIGMIETSAVLAGFTCTVVSAHFWPLAMTAILGYLVNSAVRTLLFGYFGRKIYRPGLHFSLASVAPNLRFGAWLTADSIINYLNTNLSTLVLARILGAGVAGGYNLAYNVAVVPPMKLNPIITRVLFPAFAKIQDDTEKLRVNFYKLLSVVGIINFPALLGLMVVSNNFVPLVFGEKWNSIIPVLQLLCVVGLLRSVGNPIGSLLMAKARVDISFKFNVFKTFLFIPAIVIGGQMAGAIGVTLGFLLVQIINTILSYFVMIKPVLGSSYRQYILSLWLPFYLSLPTLVVSYALGIVLKGQLALGMLLAVQIATGVLAFVVMIVLSRHPLVVEVKRQFCRSEKMKMLLRAG" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7098-MONOMER" "UDP-glucose:undecaprenyl-phosphate glucose-1-phosphate transferase" ["WcaJ", "undecaprenyl-phosphate glucose phosphotransferase"] "MTNLKKRERAKTNASLISMVQRFSDITIMFAGLWLVCEVSGLSFLYMHLLVALITLVVFQMLGGITDFYRSWRGVRAATEFALLLQNWTLSVIFSAGLVAFNNDFDTQLKIWLAWYALTSIGLVVCRSCIRIGAGWLRNHGYNKRMVAVAGDLAAGQMLMESFRNQPWLGFEVVGVYHDPKPGGVSNDWAGNLQQLVEDAKAGKIHNVYIAMQMCDGARVKKLVHQLADTTCSVLLIPDVFTFNILHSRLEEMNGVPVVPLYDTPLSGVNRLLKRAEDIVLATLILLLISPVLCCIALAVKLSSPGPVIFRQTRYGMDGKPIKVWKFRSMKVMENDKVVTQATQNDPRVTKVGNFLRRTSLDELPQFINVLTGGMSIVGPRPHAVAHNEQYRQLIEGYMLRHKVKPGITGWAQINGWRGETDTLEKMEKRVEFDLEYIREWSVWFDIKIVFLTVFKGFVNKAAY" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7099-MONOMER" "colanic acid biosynthesis acetyltransferase WcaF" ["WcaF"] "MQDLSGFSVPKGFRGGNAIKVQLWWAVQATIFAWSPQVLYRWRAFLLRLFGAKIGKNVVIRPSVKITYPWKLTLGDYAWVGDDVNLYTLGEITIGAHSVISQKSYLCTGSHDHASQHFTINATPIVIGEKCWLATDVFVAPGVTIGDGTVVGARSSVFKSLPANVVCRGNPAVVIRERVETE" [] ["CCO-CYTOSOL"] +"G7100-MONOMER" "colanic acid biosynthesis fucosyltransferase WcaE" ["WcaE"] "MLLSIITVAFRNLEGIVKTHASLAHLAQVEDISFEWIVVDGGSNDGTREYLENLNGIFNLRFVSEPDNGIYDAMNKGIAMAQGKFALFLNSGDIFHQNAANFVRKLKMQKDNVMITGDALLDFGDGHKIKRSAKPGWYIYHSLPASHQAIFFPVSGLKKWRYDLEYKVSSDYALAAKMYKAGYAFKKLNGLVSEFSMGGVSTTNNMELCADAKKVQRQILHVPGFWAELSWHLRQRTTSKTKALYNKV" [] ["CCO-CYTOSOL"] +"G7101-MONOMER" "putative colanic acid polymerase" ["WcaD"] "MSTSIRICSYLLLPLIYLLVNVKIAQLGESFPITIVTFLPVLLLLFLERISVKKLMIALGIGAGLTAFNYLFGQSLDASKYVTSTMLFVYIVIIIGMVWSIRFKTISPHNHRKILRFFYLVVGLVVALAAVEMAQIILTGGSSIMESISKYLIYSNSYVLNFIKFGGKRTTALYFEPAFFALALISIWLSIKQFGIKTPKTDAMILAGIILSGSFSGVMTFILFYLLEWAFQYLNKEAIKKKLPLALISLAVFLVGVVIAFPYISTRLGDLGTEGSSSYYRIVGPLVMVGYSLTHIDGVVRFGSLYEYVASFGIFNGADVGKTIDNGLYLLIIYFSWFAVFLSLWYMGKVIKMMINAFGDNRNFRVQLYLFTPVSLFFTGSIFSPEYAFLIVCPFILRKALNITR" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7102-MONOMER" "colanic acid biosynthesis galactosyltransferase WcaC" ["WcaC"] "MNILQFNVRLAEGGAAGVALDLHQRALQQGLASHFVYGYGKGGKESVSHQNYPQVIKHTPRMTAMANIALFRLFNRDLFGNFNELYRTITRTAGPVVLHFHVLHSYWLNLKSVVRFCEKVKNHKPDVTLVWTLHDHWSVTGRCAFTDGCEGWKTGCQKCPTLNNYPPVKIDRAHQLVAGKRQLFREMLALGCQFISPSQHVADAFNSLYGPGRCRIINNGIDMATEAILADLPPVRETQGKPKIAVVAHDLRYDGKTNQQLVREMMALGDKIELHTFGKFSPFTAGNVVNHGFETDKRKLMSALNQMDALVFSSRVDNYPLILCEALSIGVPVIATHSDAAREVLQKSGGKTVSEEEVLQLVQLSKPEIAQAIFGTTLAEFSQRSRAAYSGQQMLEEYVNFYQNL" [] ["CCO-CYTOSOL"] +"G7103-MONOMER" "colanic acid biosynthesis acetyltransferase WcaB" ["WcaB"] "MLEDLRANSWSLRPCCMVLAYRVAHFCSVWRKKNVLNNLWAAPLLVLYRIITECFFGYEIQAAATIGRRFTIHHGYAVVINKNVVAGDDFTIRHGVTIGNRGADNMACPHIGNGVELGANVIILGDITLGNNVTVGAGSVVLDSVPDNALVVGEKARVKVIK" [] ["CCO-CYTOSOL"] +"G7104-MONOMER" "colanic acid biosynthesis glucuronosyltransferase WcaA" ["WcaA"] "MKNNPLISIYMPTWNRQQLAIRAIKSVLRQDYSNWEMIIVDDCSTSWEQLQQYVTALNDPRITYIHNDINSGACAVRNQAIMLAQGEYITGIDDDDEWTPNRLSVFLAHKQQLVTHAFLYANDYVCQGEVYSQPASLPLYPKSPYSRRLFYKRNIIGNQVFTWAWRFKECLFDTELKAAQDYDIFLRMVVEYGEPWKVEEATQILHINHGEMQITSSPKKFSGYFHFYRKHKDKFDRASKKYQLFTLYQIRNKRMTWRTLLTLLSVRNGKRLADGIRGR" [] ["CCO-CYTOSOL"] +"G7105-MONOMER" "protein-tyrosine kinase Wzc" ["Wzc"] "MTEKVKQHAAPVTGSDEIDIGRLVGTVIEARWWVIGITTVFALCAVVYTFFATPIYSADALVQIEQNSGNSLVQDIGSALANKPPASDAEIQLIRSRLVLGKTVDDLDLDIAVSKNTFPIFGAGWDRLMGRQNETVKVTTFNRPKEMADQVFTLNVLDNKNYTLSSDGGFSARGQAGQMLKKEGVTLMVEAIHASPGSEFTVTKYSTLGMINQLQNSLTVTENGKDAGVLSLTYTGEDREQIRDILNSIARNYQEQNIERKSAEASKSLAFLAQQLPEVRSRLDVAENKLNAFRQDKDSVDLPLEAKAVLDSMVNIDAQLNELTFKEAEISKLYTKVHPAYRTLLEKRQALEDEKAKLNGRVTAMPKTQQEIVRLTRDVESGQQVYMQLLNKEQELKITEASTVGDVRIVDPAITQPGVLKPKKGLIILGAIILGLMLSIVGVLLRSLFNRGIESPQVLEEHGISVYASIPLSEWQKARDSVKTIKGIKRYKQSQLLAVGNPTDLAIEAIRSLRTSLHFAMMQAQNNVLMMTGVSPSIGKTFVCANLAAVISQTNKRVLLIDCDMRKGYTHELLGTNNVNGLSEILIGQGDITTAAKPTSIAKFDLIPRGQVPPNPSELLMSERFAELVNWASKNYDLVLIDTPPILAVTDAAIVGRHVGTTLMVARYAVNTLKEVETSLSRFEQNGIPVKGVILNSIFRRASAYQDYGYYEYEYKSDAK" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7106-MONOMER" null ["Wzb"] "MFNNILVVCVGNICRSPTAERLLQRYHPELKVESAGLGALVGKGADPTAISVAAEHQLSLEGHCARQISRRLCRNYDLILTMEKRHIERLCEMAPEMRGKVMLFGHWDNECEIPDPYRKSRETFAAVYTLLERSARQWAQALNAEQV" [] ["CCO-CYTOSOL"] +"G7107-MONOMER" "outer membrane polysaccharide export protein Wza" ["Wza"] "MMKSKMKLMPLLVSVTLISGCTVLPGSNMSTMGKDVIKQQDADFDLDKMVNVYPLTPRLIDQLRPRPNVARPNMTLESEIANYQYRVGPGDVLNVTVWDHPELTTPAGQYRSSSDTGNWVQPDGTMFYPYIGKVHVVGKTLAEIRSDITGRLATYIADPQVDVNIAAFRSQKAYISGQVNKSGQQAITNVPLTILDAINAAGGLTDTADWRNVVLTHNGREERISLQALMQNGDLNQNRLLYPGDILYVPRNDDLKVFVMGEVKKQSTLKMDFSGMTLTEALGNAEGIDMTTSNASGIFVIRPLKGEGGRNGKIANIYQLDMSDATSLVMATEFRLQPYDVVYVTTAPVSRWNRLINQLLPTISGVRYMTDTASDIHNW" [] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"G7108-MONOMER" "inner membrane protein YegH" ["YegH"] "MEWIADPSIWAGLITLIVIELVLGIDNLVFIAILAEKLPPKQRDRARVTGLLLAMLMRLLLLASISWLVTLTQPLFSFRSFTFSARDLIMLFGGFFLLFKATMELNERLEGKDSNNPTQRKGAKFWGVVTQIVVLDAIFSLDSVITAVGMVDHLLVMMAAVVIAISLMLMASKPLTQFVNSHPTIVILCLSFLLMIGFSLVAEGFGFVIPKGYLYAAIGFSVMIEALNQLAIFNRRRFLSANQTLRQRTTEAVMRLLSGQKEDAELDAETASMLVDHGNQQIFNPQERRMIERVLNLNQRTVSSIMTSRHDIEHIDLNAPEEEIRQLLERNQHTRLVVTDGDDAEDLLGVVHVIDLLQQSLRGEPLNLRVLIRQPLVFPETLPLLPALEQFRNARTHFAFVVDEFGSVEGIVTLSDVTETIAGNLPNEVEEIDARHDIQKNADGSWTANGHMPLEDLVQYVPLPLDEKREYHTIAGLLMEYLQRIPKPGEEVQVGDYLLKTLQVESHRVQKVQIIPLRKDGEMEYEV" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7109-MONOMER" "putative serine/threonine-protein kinase YegI" ["YegI"] "MKTNIKVFTSTGELTTLGRELGKGGEGAVYDIEEFVDSVAKIYHTPPPALKQDKLAFMAATADAQLLNYVAWPQATLHGGRGGKVIGFMMPKVSGKEPIHMIYSPAHRRQSYPHCAWDFLLYVARNIASSFATVHEHGHVVGDVNQNSFMVGRDSKVVLIDSDSFQINANGTLHLCEVGVSHFTPPELQTLPSFVGFERTENHDNFGLALLIFHVLFGGRHPYSGVPLISDAGNALETDITHFRYAYASDNQRRGLKPPPRSIPLSMLPSDVEAMFQQAFTESGVATGRPTAKAWVAALDSLRQQLKKCIVSAMHVYPAHLTDCPWCALDNQGVIYFIDLGEEVITTGGNFVLAKVWAMVMASVAPPALQLPLPDHFQPTGRPLPLGLLRREYIILLEIALSALSLLLCGLQAEPRYIILVPVLAAIWIIGSLTSKAYKAEVQQRREAFNRAKMDYDHLVRQIQQVGGLEGFIAKRTMLEKMKDEILGLPEEEKRALAALHDTARERQKQKFLEGFFIDVASIPGVGPARKAALRSFGIETAADVTRRGVKQVKGFGDHLTQAVIDWKASCERRFVFRPNEAITPADRQAVMAKMTAKRHRLESALTVGATELQRFRLHAPARTMPLMEPLRQAAEKLAQAQADLSRC" [] ["CCO-CYTOSOL"] +"G7110-MONOMER" "DUF2314 domain-containing protein YegJ" ["YegJ"] "MKKILLMLSLLFFTTAGFSEVSDTLVTGGYDKQAMSDAIKHARKETDKFIEVMNKKDADTFAVKAPITDHGRTEHFWLTDVTYSNGMFIGVISNDPGIVTNVEYGQEWKIKKEDISDWMYTRGDKIYGGYTIDPLLVTYPKEEADELRAKLVR" [] ["CCO-CYTOSOL"] +"G7111-MONOMER" "protein-serine/threonine phosphatase PphC" ["PphC", "YegK"] "MSWRLVYASTVGTSHISADLPCQDACQMQIAWLNDQQPLLSVFVADGAGSVSQGGEGAMLAVNEAMAYMSQKVQGGELGLNDVLATNMVLTIRQRLFAEAEAKELAVRDFACTFLGLISSPDGTLIMQIGDGGVVVDLGHGLQLPLTPMAGEYANMTHFITDEDAVSRLETFTSTGRAHKVAAFTDGIQRLALNMLDNSPHVPFFTPFFNGLAAATQEQLDLLPELLKQFLSSPAVNERTDDDKTLALALWAE" [] ["CCO-PM-BAC-NEG"] +"G7112-MONOMER" "IPR002035 domain-containing protein YegL" ["YegL"] "MSEQITFATSDFASNPEPRCPCILLLDVSGSMNGRPINELNAGLVTFRDELLADPLALKRVELGIVTFGPVHVEQPFTSAANFFPPILFAQGDTPMGAAITKALDMVEERKREYRANGISYYRPWIFLITDGAPTDEWQAAANKVFRGEEDKRFAFFSIGVQGADMKTLAQISVRQPLPLQGLQFRELFSWLSSSLRSVSRSTPGTEVVLEAPKGWTSV" [] ["CCO-CYTOSOL"] +"G7117-MONOMER" "DUF1508 domain-containing protein YegP" ["YegP"] "MAGWFELSKSSDNQFRFVLKAGNGETILTSELYTSKTSAEKGIASVRSNSPQEERYEKKTASNGKFYFNLKAANHQIIGSSQMYATAQSRETGIASVKANGTSQTVKDNT" [] ["CCO-CYTOSOL"] +"G7118-MONOMER" "tRNA wobble base hydroxylation protein TrhP" ["TrhP", "YegQ", "putative peptidase YegQ"] "MFKPELLSPAGTLKNMRYAFAYGADAVYAGQPRYSLRVRNNEFNHENLQLGINEAHALGKKFYVVVNIAPHNAKLKTFIRDLKPVVEMGPDALIMSDPGLIMLVREHFPEMPIHLSVQANAVNWATVKFWQQMGLTRVILSRELSLEEIEEIRNQVPDMEIEIFVHGALCMAYSGRCLLSGYINKRDPNQGTCTNACRWEYNVQEGKEDDVGNIVHKYEPIPVQNVEPTLGIGAPTDKVFMIEEAQRPGEYMTAFEDEHGTYIMNSKDLRAIAHVERLTKMGVHSLKIEGRTKSFYYCARTAQVYRKAIDDAAAGKPFDTSLLETLEGLAHRGYTEGFLRRHTHDDYQNYEYGYSVSDRQQFVGEFTGERKGDLAAVAVKNKFSVGDSLELMTPQGNINFTLEHMENAKGEAMPIAPGDGYTVWLPVPQDLELNYALLMRNFSGETTRNPHGK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7119-MONOMER" "prophage P2 late control protein OgrK" ["OgrK"] "MFHCPLCQHAAHARTSRYITDTTKERYHQCQNVNCSATFITYESVQRYIVKPGEVHVVRPHPLPSGQQIMWM" [] ["CCO-CYTOSOL"] +"G7120-MONOMER" "phage protein D" ["YegZ", "putative protein fragment"] "MRVAEFSISLATGRADIYTETPVKVSGFKRVIDEQDWTITKVTHFLNNSGFTTSLELEVRLSDVGYETEDNE" [] ["CCO-CYTOSOL"] +"G7122-MONOMER" "uncharacterized protein YegR" ["YegR"] "MKKIAAISLISIFIMSGCAVHNDETSIGKFGLAYKSNIQRKLDNQYYTEAEASLARGRISGAENIVKNDATHFCVTQGKKMQIVELKTEGVGLHGVARLTFKCGE" [] ["CCO-CYTOSOL"] +"G7123-MONOMER" "lipid kinase YegS" ["YegS"] "MAEFPASLLILNGKSTDNLPLREAIMLLREEGMTIHVRVTWEKGDAARYVEEARKFGVATVIAGGGDGTINEVSTALIQCEGDDIPALGILPLGTANDFATSVGIPEALDKALKLAIAGDAIAIDMAQVNKQTCFINMATGGFGTRITTETPEKLKAALGSVSYIIHGLMRMDTLQPDRCEIRGENFHWQGDALVIGIGNGRQAGGGQQLCPNALINDGLLQLRIFTGDEILPALVSTLKSDEDNPNIIEGASSWFDIQAPHDITFNLDGEPLSGQNFHIEILPAALRCRLPPDCPLLR" [] ["CCO-CYTOSOL"] +"G7126-MONOMER" "IS3 element protein InsF" ["Tra5-5", "InsF1"] "MKYVFIEKHQAEFSIKAMCRVLRVARSGWYTWCQRRTRISTRQQFRQHCDSVVLAAFTRSKQRYGAPRLTDELRAQGYPFNVKTVAASLRRQGLRAKASRKFSPVSYRAHGLPVSENLLEQDFYASGPNQKWAGDITYLRTDEGWLYLAVVIDLWSRAVIGWSMSPRMTAQLACDALQMALWRRKRPRNVIVHTDRGGQYCSADYQAQLKRHNLRGSMSAKGCCYDNACVESFFHSLKVECIHGEHFISREIMRATVFNYIECDYNRWRRHSWCGGLSPEQFENKNLA" [] ["CCO-CYTOSOL"] +"G7128-MONOMER" "putative tagatose-1,6-bisphosphate aldolase 2 chaperone" ["GatZ"] "MKTLIARHKAGEHIGICSVCSAHPLVIEAALAFDRNSTRKVLIEATSNQVNQFGGYTGMTPADFREFVFTIADKVGFARERIILGGDHLGPNCWQQENADAAMEKSVELVKEYVRAGFSKIHLDASMSCAGDPIPLAPETVAERAAVLCFAAESVATDCQREQLSYVIGTEVPVPGGEASAIQSVHITHVEDAANTLRTHQKAFIARGLTEALTRVIAIVVQPGVEFDHSNIIHYQPQEAQPLAQWIENTRMVYEAHSTDYQTRTAYWELVRDHFAILKVGPALTFALREAIFALAQIEQELIAPENRSGCLAVIEEVMLDEPQYWKKYYRTGFNDSLLDIRYSLSDRIRYYWPHSRIKNSVETMMVNLEGVDIPLGMISQYLPKQFERIQSGELSAIPHQLIMDKIYDVLRAYRYGCAE" [] ["CCO-CYTOSOL", "CCO-PM-BAC-NEG"] +"G7131-MONOMER" "putative ADP-ribosylglycohydrolase YegU" ["YegU"] "MKTERILGALYGQALGDAMGMPSELWPRSRVKAHFGWIDRFLPGPKENNAACYFNRAEFTDDTSMALCLADALLEREGKIDPDLIGRNILDWALRFDAFNKNVLGPTSKIALNAIRDGKPVAELENNGVTNGAAMRVSPLGCLLPARDVDSFIDDVALASSPTHKSDLAVAGAVVIAWAISRAIDGESWSAIVDSLPSIARHAQQKRITTFSASLAARLEIALKIVRNADGTESASEQLYQVVGAGTSTIESVPCAIALVELAQTDPNRCAVLCANLGGDTDTIGAMATAICGALHGVNAIDPALKAELDAVNQLDFNRYATALAKYRQQREAV" [] ["CCO-CYTOSOL"] +"G7132-MONOMER" "putative sugar kinase YegV" ["YegV"] "MSGARLHTLLPELTTRQSVMVVGAAVIDVIADAYALPWRGCDIELKQQSVNVGGCALNIAVALKRLGIEAGNALPLGQGVWAEMIRNRMAKEGLISLIDNAEGDNGWCLALVEPDGERTFMSFSGVENQWNRQWLARLTVAPGSLLYFSGYQLASPCGELLVEWLEELQDVTPFIDFGPRIGDIPDALLARIMACRPLVSLNRQEAEIAAERFALSAEITTLGKQWQEKFAAPLIVRLDKEGAWYFSNDASGCIPAFPTQVVDTIGAGDSHAGGVLAGLASGLPLADAVLLGNAVASWVVGHRGGDCAPTREELLLAHKNV" [] ["CCO-CYTOSOL"] +"G7133-MONOMER" "putative DNA-binding transcriptional regulator YegW" ["YegW"] "MEQAHTQLIAQLNERILAADNTPLYIKFAETVKNAVRSGVLEHGNILPGERDLSQLTGVSRITVRKAMQALEEEGVVTRSRGYGTQINNIFEYSLKEARGFSQQVVLRGKKPDTLWVNKRVVKCPEEVAQQLAVEAGSDVFLLKRIRYVDEEAVSIEESWVPAHLIHDVDAIGISLYDYFRSQHIYPQRTRSRVSARMPDAEFQSHIQLDSKIPVLVIKQVALDQQQRPIEYSISHCRSDLYVFVCEE" [] ["CCO-CYTOSOL"] +"G7134-MONOMER" "putative glycosyl hydrolase YegX" ["YegX"] "MQLRITSRKKLTSLLCALGLISIVAIYPRQTVNFFYSTAVQITDYIHFYGYRPVKSFAIRIPASYTIHGIDVSRWQERIDWQRVAKMRDNGIRLQFAFIKATEGEKLVDPYFSRNWQLSRENGLLRGAYHYFSPSVSASVQARLFLQTVDFSQGDFPAVLDVEERGKLSAKELRKRVSQWLKMVEKSTGKKPIIYSGAVFYHTNLAGYFNEYPWWVAHYYQRRPDNDGMAWRFWQHSDRGQVDGINGPVDFNVFNGTVEELQAFVDGIKETP" [] ["CCO-CYTOSOL"] +"G7137-MONOMER" "DNA-binding transcriptional repressor RcnR" ["YohL", "RcnR"] "MSHTIRDKQKLKARASKIQGQVVALKKMLDEPHECAAVLQQIAAIRGAVNGLMREVIKGHLTEHIVHQGDELKREEDLDVVLKVLDSYIK" [] ["CCO-CYTOSOL"] +"G7138-MONOMER" "Ni2+/Co2+ exporter" ["YohM", "RcnA"] "MTEFTTLLQQGNAWFFIPSAILLGALHGLEPGHSKTMMAAFIIAIKGTIKQAVMLGLAATISHTAVVWLIAFGGMVISKRFTAQSAEPWLQLISAVIIISTAFWMFWRTWRGERNWLENMHGHDYEHHHHDHEHHHDHGHHHHHEHGEYQDAHARAHANDIKRRFDGREVTNWQILLFGLTGGLIPCPAAITVLLICIQLKALTLGATLVVSFSIGLALTLVTVGVGAAISVQQVAKRWSGFNTLAKRAPYFSSLLIGLVGVYMGVHGFMGIMR" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7139-MONOMER" "periplasmic protein involved in nickel/cobalt export" ["RcnB", "YohN"] "MTIKNKMLLGALLLVTSAAWAAPATAGSTNTSGISKYELSSFIADFKHFKPGDTVPEMYRTDEYNIKQWQLRNLPAPDAGTHWTYMGGAYVLISDTDGKIIKAYDGEIFYHR" ["CCO-CYTOSOL", "CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"G7144-MONOMER" "DUF2542 domain-containing protein YeiS" ["YeiS"] "MDVQQFFVVAVFFLIPIFCFREAWKGWRAGAIDKRVKNAPEPVYVWRAKNPGLFFAYMVAYIGFGILSIGMIVYLIFYR" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7145-MONOMER" "NAD-dependent dihydropyrimidine dehydrogenase subunit PreT" ["PreT", "YeiT"] "MPQQNYLDELTPAFTSLLAIKEASRCLLCHDAPCSQACPAQTDPGKFIRSIYFRNFKGAAETIRENNALGAVCARVCPTEKLCQSGCTRAGVDAPIDIGRLQRFVTDFEQQTGMEIYQPGTKTLGKVAIIGAGPAGLQASVTLTNQGYDVTIYEKEAHPGGWLRNGIPQFRLPQSVLDAEIARIEKMGVTIKCNNEVGNTLTLEQLKAENRAVLVTVGLSSGSGLPLFEHSDVEIAVDFLQRARQAQGDISIPQSALIIGGGDVAMDVASTLKVLGCQAVTCVAREELDEFPASEKEFTSARELGVSIIDGFTPVAVEGNKVTFKHVRLSGELTMAADKIILAVGQHARLDAFAELEPQRNTIKTQNYQTRDPQVFAAGDIVEGDKTVVYAVKTGKEAAEAIHHYLEGACSC" [] ["CCO-CYTOSOL"] +"G7146-MONOMER" "Kdo2-lipid A phosphotransferase" ["YeiU", "LpxT"] "MIKNLPQIVLLNIVGLALFLSWYIPVNHGFWLPIDADIFYFFNQKLVESKAFLWLVALTNNRAFDGCSLLAMGMLMLSFWLKENAPGRRRIVIIGLVMLLTAVVLNQLGQALIPVKRASPTLTFTDINRVSELLSVPTKDASRDSFPGDHGMMLLIFSAFMWRYFGKVAGLIALIIFVVFAFPRVMIGAHWFTDIIVGSMTVILIGLPWVLLTPLSDRLITFFDKSLPGKNKHFQNK" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7147-MONOMER" "peptidoglycan DD-endopeptidase/peptidoglycan LD-carboxypeptidase" ["YeiV", "Spr"] "MVKSQPILRYILRGIPAIAVAVLLSACSANNTAKNMHPETRAVGSETSSLQASQDEFENLVRNVDVKSRIMDQYADWKGVRYRLGGSTKKGIDCSGFVQRTFREQFGLELPRSTYEQQEMGKSVSRSNLRTGDLVLFRAGSTGRHVGIYIGNNQFVHASTSSGVIISSMNEPYWKKRYNEARRVLSRS" [] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"G7148-MONOMER" "putative c-di-GMP phosphodiesterase PdeN" ["PdeN", "Rtn"] "MFIRAPNFGRKLLLTCIVAGVMIAILVSCLQFLVAWHKHEVKYDTLITDVQKYLDTYFADLKSTTDRLQPLTLDTCQQANPELTARAAFSMNVRTFVLVKDKKTFCSSATGEMDIPLNELIPALDINKNVDMAILPGTPMVPNKPAIVIWYRNPLLKNSGVFAALNLNLTPSLFYSSRQEDYDGVALIIGNTALSTFSSRLMNVNELTDMPVRETKIAGIPLTVRLYADDWTWNDVWYAFLLGGMSGTVVGLLCYYLMSVRMRPGREIMTAIKREQFYVAYQPVVDTQALRVTGLEVLLRWRHPVAGEIPPDAFINFAESQKMIVPLTQHLFELIARDAAELEKVLPVGVKFGINIAPDHLHSESFKADIQKLLTSLPAHHFQIVLEITERDMLKEQEATQLFAWLHSVGVEIAIDDFGTGHSALIYLERFTLDYLKIDRGFINAIGTETITSPVLDAVLTLAKRLNMLTVAEGVETPEQARWLSERGVNFMQGYWISRPLPLDDFVRWLKKPYTPQW" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-CYTOSOL", "CCO-PERI-BAC", "CCO-PM-BAC-NEG"] +"G7152-MONOMER" "DUF2135 domain-containing protein YfaP" ["YfaP"] "MRKIFLPLLLVALSPVAHSEGVQEVEIDAPLSGWHPAEGEDASFSQSINYPASSVNMADDQNISAQIRGKIKNYAAAGKVQQGRLVVNGASMPQRIESDGSFARPYIFTEGSNSVQVISPDGQSRQKMQFYSTPGTGTIRARLRLVLSWDTDNTDLDLHVVTPDGEHAWYGNTVLKNSGALDMDVTTGYGPEIFAMPAPIHGRYQVYINYYGGRSETELTTAQLTLITDEGSVNEKQETFIVPMRNAGELTLVKSFDW" [] ["CCO-CYTOSOL"] +"G7153-MONOMER" "tandem DUF2300 domain-containing protein YfaQ" ["YfaQ"] "MNWRRIVWLLALVTLPTLAEETPLQLVLRGAQHDQLYQLSSSGVTKVSALPDSLTTPLGSLWKLYVYAWLEDTHQPEQPYQCRGNSPEEVYCCQAGESITRDTALVRSCGLYFAPQRLHIGADVWGQYWQQRQAPAWLASLTTLKPETSVTVKSLLDSLATLPAQNKAQEVLLDVVLDEAKIGVASMLGSRVRVKTWSWFADDKQEIRQGGFAGWLTDGTPLWVTGSGTSKTVLTRYATVLNRVLPVPTQVASGQCVEVELFARYPLKKITAEKSTTAVNPGVLNGRYRVTFTNGNHITFVSHGETTLLSEKGKLKLQSHLDREEYVARVLDREAKSTPPEAAKAMTVAIRTFLQQNANREGDCLTIPDSSATQRVSASPATTGARTMTAWTQDLIYAGDPVHYHGSRATEGTLSWRQATAQAGQGERYDQILAFAYPDNSLSRWGAPRSTCQLLPKAKAWLAKKMPQWRRILQAETGYNEPDVFAVCRLVSGFPYTDRQQKRLFIRNFFTLQDRLDLTHEYLHLAFDGYPTGLDENYIETLTRQLLMD" [] ["CCO-CYTOSOL"] +"G7155-MONOMER" "putative macroglobulin family protein, N-terminal fragment" ["YfaR", "YfaS_1", "YfaS"] "MDTQRFQSQFHWHLSFKFSGAIAACLSLSLVGTGLANADDSLPSSNYAPPAGGTFFLLADSSFSSSEEAKVRLEAPGRDYRRYQMEEYGGVDVRLYRIPDPMAFLRQQKNLHRIVVQPQYLGDGLNNTLTWLWDNWYGKSRRVMQRTFSSQSRQNVTQALPELQLGNAIIKPSRYVQNNQFSPLKKYPLVKQFRYPLWQAKPFEPQQGVKLEGASSNFISPQPGNIYIPLGQQEPGLYLVEAMVGGYRATTVVFVSDTVALSKVSGKELLVWTAGKKQGEAKPGSEILWTDGLGVMTRGVTDDSGTLQLQHISPERSYILGKDAEGGVFVSENFFYESEIYNTRLYIFTDRPLYRAGDRVDVKVIGREFHDPLHSSPIVSAPAKLSVLDANGSLLQTVNVTLDARNGGQGSFRLPENAVAGGYELRLAYRNQVYSSSFRVANYIKPHFEIGLALAKKEFKTGEAVSGKLQLLYPDGEPVKNARVQLSLRAQQLSMVGNDLRYAGRFPVSLEGSETVSDASGHVALNLPAADKPSRYLLTVSASDGAAYRVTTTKEILIERGLAHYSLSTAAQYSNSGESVVFRYAALESSKQVPVTYEWLRLEDRTSHSGELPSGGKSFTVNFAKPGNYNLTLRDKDGLILAGLSHAVSGKGSTAHTGTVDIVADKTLYQPGETAKMLITFPEPIDEALLTLERDRVEQQSLLSHPANWLTLQRLNDTQYEARVPVSNSFAPNITFSVLYTRNGQYSFQNAGIKVAVPQLDIRVKTDKTHYQPGELVNVELTSSLKGKPVSAQLTVGVVDEMIYALQPEIAPNIGKFFYPLGRNNVRTSSSLSFISYDQALSSEPVAPGATNRSERRVKMLERPRREEVDTAAWMPSLTTDKQGKAYFTFLMPDSLTRWRITARGMNGDGLVGQGRAYLRSEKNLYMKWSMPTVYRVGDKPAAGLFIFSQQDNEPVALVTKFAGAEMRQTLTLHKGANYISLTQNIQQSGLLSAELQQNGQVQDSISTKLSFVDNSWPVEQQKNVMLGGGDNALMLPEQASNIRLQSSETPQEIFRNNLDALVDEPWGGVINTGSRLIPLSLAWRSLADHQSAAANDIRQMIQDNRLRLMQLAGPGARFTWWGEDGNGDAFLTAWAWYADWQASQAIGVTQQPEYWQHMLDSYAEQADNMPLLHRALVLAWAQEMNLPCKTLLKGLDEAIARRGTKTEDFSEEDTRDINDSLILDTPESPLADAVANVLTMTLLKKAQLKSTVMPQVQQYAWDKAANSNQPLAHTVVLLNSGGDATQTAAILSGLTAEQSTIERALAMNWLAKYMATMPPVVLPAPAGAWAKHKLTGGGEDWRWVGQGVPDILSFGDELSPQNVQVR*REPAKMAQQSNIPVTVERQLYRLIPGEEEMSFILQPVTSNEIDSDALYLDEITLTSEQDAVLRYGQVEVPLPPGADVERTTWGISVNKPNAAKQQGQLLEKARNEMGELAYMVPVKELTGTVTFRHLLRFSQKGQFVLPPARYVRSYAPAQQSVAAGSEWTGMQVK" [] [] +"G7156-MONOMER" "DUF1175 domain-containing protein YfaT" ["YfaT"] "MRHGLLALICWLCCVVAHSEMLNVEQSGLFRAWFVRIAQEQLRQGPSPRWYQQDCAGLVRFAANETLKVHDSKWLKSNGLSSQYLPPEMTLTPEQRQLAQNWNQGNGKTGPYVTAINLIQYNSQFIGQDINQALPGDMIFFDQGDAQHLMVWMGRYVIYHTGSATKTDNGMRAVSLQQLMTWKDTRWIPNDSNPNFIGIYRLNFLAR" [] ["CCO-PM-BAC-NEG"] +"G7158-MONOMER" "2-keto-3-deoxy-L-rhamnonate aldolase" ["YfaU"] "MNALLSNPFKERLRKGEVQIGLWLSSTTAYMAEIAATSGYDWLLIDGEHAPNTIQDLYHQLQAVAPYASQPVIRPVEGSKPLIKQVLDIGAQTLLIPMVDTAEQARQVVSATRYPPYGERGVGASVARAARWGRIENYMAQVNDSLCLLVQVESKTALDNLDEILDVEGIDGVFIGPADLSASLGYPDNAGHPEVQRIIETSIRRIRAAGKAAGFLAVAPDMAQQCLAWGANFVAVGVDTMLYSDALDQRLAMFKSGKNGPRIKGSY" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7160-MONOMER" "L-rhamnonate dehydratase" ["RhmD", "YfaW"] "MTLPKIKQVRAWFTGGATAEKGAGGGDYHDQGANHWIDDHIATPMSKYRDYEQSRQSFGINVLGTLVVEVEAENGQTGFAVSTAGEMGCFIVEKHLNRFIEGKCVSDIKLIHDQMLSATLYYSGSGGLVMNTISCVDLALWDLFGKVVGLPVYKLLGGAVRDEIQFYATGARPDLAKEMGFIGGKMPTHWGPHDGDAGIRKDAAMVADMREKCGEDFWLMLDCWMSQDVNYATKLAHACAPYNLKWIEECLPPQQYESYRELKRNAPVGMMVTSGEHHGTLQSFRTLSETGIDIMQPDVGWCGGLTTLVEIAAIAKSRGQLVVPHGSSVYSHHAVITFTNTPFSEFLMTSPDCSTMRPQFDPILLNEPVPVNGRIHKSVLDKPGFGVELNRDCNLKRPYSH" [] ["CCO-CYTOSOL"] +"G7161-MONOMER" "putative DNA-binding transcriptional regulator YfaX" ["YfaX"] "MLESSKVPALTRAIDILNLIARIGPCSAATIIDTLGIPKSTAYLLLNELRRQRFLSLDHQENFCLWTRLVELSGHALSKMDLRELARPRLTQLMDTTGLLCHLGIIDNGSAYYILKVESSATISVRSHEGKSLSLYRSGIGKCLLAWQPAAVQQSIIEGLVWEQATPTTITHPQQLHEELARIRRQGWSYDNGEDYADVRCVAAPVFNANNELTAAISVVGTRLQINEEYRDYLAGKAIACARDISRLLGWKSPFDLQAS" [] ["CCO-CYTOSOL"] +"G7162-MONOMER" "IPR008135 CinA family protein YfaY" ["YfaY"] "MLKVEMLSTGDEVLHGQIVDTNAAWLADFFFHQGLPLSRRNTVGDNLDDLVTILRERSQHADVLIVNGGLGPTSDDLSALAAATAKGEGLVLHEAWLKEMERYFHERGRVMAPSNRKQAELPASAEFINNPVGTACGFAVQLNRCLMFFTPGVPSEFKVMVEHEILPRLRERFSLPQPPVCLRLTTFGRSESDLAQSLDTLQLPPGVTMGYRSSMPIIELKLTGPASEQQAMEKLWLDVKRVAGQSVIFEGTEGLPAQISRELQNRQFSLTLSEQFTGGLLALQLSRAGAPLLACEVVPSQEETLAQTAHWITERRANHFAGLALAVSGFENEHLNFALATPDGTFALRVRFSTTRYSLAIRQEVCAMMALNMLRRWLNGQDIASEHGWIEVVESMTLSV" [] ["CCO-CYTOSOL"] +"G7163-MONOMER" "putative porin YfaZ" ["YfaZ"] "MKKIALAGLAGMLLVSASVNAMSISGQAGKEYTNIGVGFGTETTGLALSGNWTHNDDDGDVAGVGLGLNLPLGPLMATVGGKGVYTNPNYGDEGYAAAVGGGLQWKIGNSFRLFGEYYYSPDSLSSGIQSYEEANAGARYTIMRPVSIEAGYRYLNLSGKDGNRDNAVADGPYVGVNASF" ["CCO-OUTER-MEM"] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"G7164-MONOMER" "pyrimidine deoxynucleotide diphosphatase NudI" ["YfaO", "NudI", "Orf141", "pyrimidine deoxynucleoside triphosphate pyrophosphohydrolase"] "MRQRTIVCPLIQNDGAYLLCKMADDRGVFPGQWAISGGGVEPGERIEEALRREIREELGEQLLLTEITPWTFSDDIRTKTYADGRKEEIYMIYLIFDCVSANREVKINEEFQDYAWVKPEDLVHYDLNVATRKTLRLKGLL" [] ["CCO-CYTOSOL"] +"G7165-MONOMER" "putative lipopolysaccharide core heptose(II)-phosphate phosphatase" ["PmrG", "PagH", "Ais"] "MLAFCRSSLKSKKYIIILLALAAIAGLGTHAAWSSNGLPRIDNKTLARLAQQHPVVVLFRHAERCDRSTNQCLSDKTGITVKGTQDARELGNAFSADIPDFDLYSSNTVRTIQSATWFSAGKKLTVDKRLLQCGNEIYSAIKDLQSKAPDKNIVIFTHNHCLTYIAKDKRDATFKPDYLDGLVMHVEKGKVYLDGEFVNH" [] ["CCO-PERI-BAC"] +"G7166-MONOMER" null ["YfbE", "PmrH", "ArnB"] "MAEGKAMSEFLPFSRPAMGVEELAAVKEVLESGWITTGPKNQALEQAFCQLTGNQHAIAVSSATAGMHITLMALKIGKGDEVITPSLTWVSTLNMISLLGATPVMVDVDRDTLMVTPEAIESAITPRTKAIIPVHYAGAPADIDAIRAIGERYGIAVIEDAAHAVGTYYKGRHIGAKGTAIFSFHAIKNITCAEGGLIVTDNENLARQLRMLKFHGLGVDAYDRQTWGRAPQAEVLTPGYKYNLTDINAAIALTQLVKLEHLNTRRREIAQQYQQALAALPFQPLSLPAWPHVHAWHLFIIRVDEQRCGISRDALMEALKERGIGTGLHFRAAHTQKYYRERFPTLSLPNTEWNSERICSLPLFPDMTTADADHVITALQQLAGQ" [] ["CCO-CYTOSOL"] +"G7167-MONOMER" null ["YfbF", "PmrF", "ArnC"] "MFEIHPVKKVSVVIPVYNEQESLPELIRRTTTACESLGKEYEILLIDDGSSDNSAHMLVEASQAENSHIVSILLNRNYGQHSAIMAGFSHVTGDLIITLDADLQNPPEEIPRLVAKADEGYDVVGTVRQNRQDSWFRKTASKMINRLIQRTTGKAMGDYGCMLRAYRRHIVDAMLHCHERSTFIPILANIFARRAIEIPVHHAEREFGESKYSFMRLINLMYDLVTCLTTTPLRMLSLLGSIIAIGGFSIAVLLVILRLTFGPQWAAEGVFMLFAVLFTFIGAQFIGMGLLGEYIGRIYTDVRARPRYFVQQVIRPSSKENE" ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"G7168-MONOMER" "fused UDP-4-amino-4-deoxy-L-arabinose formyltransferase/UDP-glucuronate dehydrogenase" ["ArnA", "YfbG", "PmrI"] "MKTVVFAYHDMGCLGIEALLAAGYEISAIFTHTDNPGEKAFYGSVARLAAERGIPVYAPDNVNHPLWVERIAQLSPDVIFSFYYRHLIYDEILQLAPAGAFNLHGSLLPKYRGRAPLNWVLVNGETETGVTLHRMVKRADAGAIVAQLRIAIAPDDIAITLHHKLCHAARQLLEQTLPAIKHGNILEIAQRENEATCFGRRTPDDSFLEWHKPASVLHNMVRAVADPWPGAFSYVGNQKFTVWSSRVHPHASKAQPGSVISVAPLLIACGDGALEIVTGQAGDGITMQGSQLAQTLGLVQGSRLNSQPACTARRRTRVLILGVNGFIGNHLTERLLREDHYEVYGLDIGSDAISRFLNHPHFHFVEGDISIHSEWIEYHVKKCDVVLPLVAIATPIEYTRNPLRVFELDFEENLRIIRYCVKYRKRIIFPSTSEVYGMCSDKYFDEDHSNLIVGPVNKPRWIYSVSKQLLDRVIWAYGEKEGLQFTLFRPFNWMGPRLDNLNAARIGSSRAITQLILNLVEGSPIKLIDGGKQKRCFTDIRDGIEALYRIIENAGNRCDGEIINIGNPENEASIEELGEMLLASFEKHPLRHHFPPFAGFRVVESSSYYGKGYQDVEHRKPSIRNAHRCLDWEPKIDMQETIDETLDFFLRTVDLTDKPS" [] ["CCO-CYTOSOL"] +"G7169-MONOMER" "putative 4-deoxy-4-formamido-L-arabinose-phosphoundecaprenol deformylase ArnD" ["YfbH", "PmrJ", "ArnD"] "MTKVGLRIDVDTFRGTREGVPRLLEILSKHNIQASIFFSVGPDNMGRHLWRLVKPQFLWKMLRSNAASLYGWDILLAGTAWPGKEIGHANADIIREAAKHHEVGLHAWDHHAWQARSGNWDRQTMIDDIARGLRTLEEIIGQPVTCSAAAGWRADQKVIEAKEAFHLRYNSDCRGAMPFRPLLESGNPGTAQIPVTLPTWDEVIGRDVKAEDFNGWLLNRILRDKGTPVYTIHAEVEGCAYQHNFVDLLKRAAQEGVTFCPLSELLSETLPLGQVVRGNIAGREGWLGCQQIAGSR" [] ["CCO-CYTOSOL"] +"G7170-MONOMER" null ["YfbI", "ArnT", "PmrK"] "MKSVRYLIGLFAFIACYYLLPISTRLLWQPDETRYAEISREMLASGDWIVPHLLGLRYFEKPIAGYWINSIGQWLFGANNFGVRAGVIFATLLTAALVTWFTLRLWRDKRLALLATVIYLSLFIVYAIGTYAVLDPFIAFWLVAGMCSFWLAMQAQTWKGKSAGFLLLGITCGMGVMTKGFLALAVPVLSVLPWVATQKRWKDLFIYGWLAVISCVLTVLPWGLAIAQREPNFWHYFFWVEHIQRFALDDAQHRAPFWYYVPVIIAGSLPWLGLLPGALYTGWKNRKHSATVYLLSWTIMPLLFFSVAKGKLPTYILSCFASLAMLMAHYALLAAKNNPLALRINGWINIAFGVTGIIATFVVSPWGPMNTPVWQTFESYKVFCAWSIFSLWAFFGWYTLTNVEKTWPFAALCPLGLALLVGFSIPDRVMEGKHPQFFVEMTQESLQPSRYILTDSVGVAAGLAWSLQRDDIIMYRQTGELKYGLNYPDAKGRFVSGDEFANWLNQHRQEGIITLVLSVDRDEDINSLAIPPADAIDRQERLVLIQYRPK" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7171-MONOMER" "undecaprenyl-phosphate-α-L-Ara4N flippase - ArnF subunit" ["YfbJ"] "MGLMWGLFSVIIASVAQLSLGFAASHLPPMTHLWDFIAALLAFGLDARILLLGLLGYLLSVFCWYKTLHKLALSKAYALLSMSYVLVWIASMVLPGWEGTFSLKALLGVACIMSGLMLIFLPTTKQRY" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7172-MONOMER" "signal transduction protein PmrD" ["PmrD", "polymyxin B resistance protein"] "MEWLVKKSCCNKQDNRHVLMLCDAGGAIKMIAEVKSDFAVKVGDLLSPLQNALYCINREKLHTVKVLSASSYSPDEWERQCKVAGKTQ" [] ["CCO-CYTOSOL"] +"G7173-MONOMER" "tail-anchored inner membrane protein ElaB" ["YfbD", "ElaB"] "MSNQFGDTRIDDDLTLLSETLEEVLRSSGDPADQKYVELKARAEKALDDVKKRVSQASDSYYYRAKQAVYRADDYVHEKPWQGIGVGAAVGLVLGLLLARR" ["CCO-PM-BAC-NEG", "CCO-CYTOSOL"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7174-MONOMER" "putative N-acetyltransferase ElaA" ["YfbC", "ElaA"] "MIEWQDLHHSELSVSQLYALLQLRCAVFVVEQNCPYQDIDGDDLTGDNRHILGWKNDELVAYARILKSDDDLEPVVIGRVIVSEALRGEKVGQQLMSKTLETCTHHWPDKPVYLGAQAHLQNFYQSFGFIPVTEVYEEDGIPHIGMAREVIQA" [] ["CCO-CYTOSOL"] +"G7175-MONOMER" "ribonuclease BN" ["Rnz", "EcoZ", "ZipD", "ElaC", "Rbn"] "MELIFLGTSAGVPTRTRNVTAILLNLQHPTQSGLWLFDCGEGTQHQLLHTAFNPGKLDKIFISHLHGDHLFGLPGLLCSRSMSGIIQPLTIYGPQGIREFVETALRISGSWTDYPLEIVEIGAGEILDDGLRKVTAYPLEHPLECYGYRIEEHDKPGALNAQALKAAGVPPGPLFQELKAGKTITLEDGRQINGADYLAAPVPGKALAIFGDTGPCDAALDLAKGVDVMVHEATLDITMEAKANSRGHSSTRQAATLAREAGVGKLIITHVSSRYDDKGCQHLLRECRSIFPATELANDFTVFNV" [] ["CCO-CYTOSOL"] +"G7176-MONOMER" "protease ElaD" ["ElaD", "deubiquitinase"] "MMVTVVSNYCQLSQTQLSQTFAEKFTVTEELLQSLKKTALSGDEESIELLHNIALGYDKFGKEAEDILYHIVRTPTNETLSIIRLIKNACLKLYNLAHIATNSPLKSHDSDDLLFKKLFSPSKLMTIIGDEIPLISEKQSLSKVLLNDENNELSDGTNFWDKNRQLTTDEIACYLQKIAANAKNTQVNYPTGLYVPYSTRTHLEDALNENIKSDPSWPNEVQLFPINTGGHWILVSLQKIVNKKNNKLQIKCVIFNSLRALGYDKENSLKRVINSFNSELMGEMSNNNIKVHLNEPEIIFLHADLQQYLSQSCGAFVCMAAQEVIEQRESNSDSAPYTLLKNHADRFKKYSAEEQYEIDFQHRLANRNCYLDKYGDANINHYYRNLEIKHSQPKNRASGKRVS" [] ["CCO-CYTOSOL"] +"G7177-MONOMER" "IPR002035/DUF3520 domain-containing protein YfbK" ["YfbK"] "MRNKNIIMLLMSSLILSGCGPQPENKESQQQQPSTPTEQQVLAAQQAAIKEAEQSAAAAKALAQQEVQQYSDKQALQGRLQEAPTFARAAKAKATHIANPGTARYQQFDDNPVKQVAQNPLATFSLDVDTGSYANVRRFLNQGLLPPPDAVRVEEIVNYFPSDWDIKDKQSIPASKPIPFAMRYELAPAPWNEQRTLLKVDILAKDRKSEELPASNLVFLIDTSGSMISDERLPLIQSSLKLLVKELREQDNIAIVTYAGDSRIALPSISGSHKAEINAAIDSLDAEGSTNGGAGLELAYQQATKGFIKGGINRILLATDGDFNVGIDDPKSIESMVKKQRESGVTLSTFGVGNSNYNEAMMVRIADVGNGNYSYIDTLSEAQKVLNSEMRQMLITVAKDVKAQIEFNPAWVTEYRQIGYEKRQLRVEHFNNDNVDAGDIGAGKHITLLFELTLNGQKASIDKLRYAPDNKLAKSDKTKELAWLKIRWKYPQGKESQLVEFPLGPTINAPSEDMRFRAAVAAYGQKLRGSEYLNNTSWQQIKQWAQQAKGEDPQGYRAEFIRLIELADGVTDISQ" [] ["CCO-CYTOSOL"] +"G7178-MONOMER" "putative peptidase YfbL" ["YfbL"] "MKKIIFAFIILFVFLLPMIIFYQPWVNALPSTPRHASPEQLEKTVRYLTQTVHPRSADNIDNLNRSAEYIKEVFVSSGARVTSQDVPITGGPYKNIVADYGPADGPLIIIGAHYDSASSYENDQLTYTPGADDNASGVAGLLELARLLHQQVPKTGVQLVAYASEEPPFFRSDEMGSAVHAASLERPVKLMIALEMIGYYDSAPGSQNYPYPAMSWLYPDRGDFIAVVGRIQDINAVRQVKAALLSSQDLSVYSMNTPGFIPGIDFSDHLNYWQHDIPAIMITDTAFYRNKQYHLPGDTADRLNYQKMAQVVDGVITLLYNSK" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7179-MONOMER" "DUF1877 domain-containing protein YfbM" ["YfbM"] "MGMIGYFAEIDSEKINQLLESTEKPLMDNIHDTLSGLRRLDIDKRWDFLHFGLTGTSAFDPAKNDPLSRAVLGEHSLEDGIDGFLGLTWNQELAATIDRLESLDRNELRKQFSIKRLNEMEIYPGVTFSEELEGQLFASIMLDMEKLISAYRRMLRQGNHALTVIVG" [] ["CCO-CYTOSOL"] +"G7180-MONOMER" "uncharacterized protein YfbN" ["YfbN"] "MEWLSEIRKLRKNVPVGIQVARRLLERTGGDVDEAIKLFHIDQINILTAKADVTHQEAENVLLATNYDIAEALRRIDEQRYTLTELILRKNKDAGDALNNIALAIEYEWDLKRKFWFGFADIQLLPPVLQTFMLVYEWHEYVGWEGMECGIFFESDHTHQQLQALGLLELAQKMVTARIRYDELKDKAENFHEITEDDIFKMLIIHCDQLAREVDSILLQFVKDNIDVFPCRHNRHEL" [] ["CCO-CYTOSOL"] +"G7181-MONOMER" "uncharacterized protein YfbO" ["YfbO"] "MTPLERITQLVNINGDVNNPDTPRPLLSLEDFFIDNNIHGSICCNVIPEQSPQAIYHHFLKIRERNNVSDVLVEITMFDDPDWPFSESILVITTASPEEVQSWFVEEIAPDECWEGWSEDTEHGWVEVPVGMHPVTCWWD" [] ["CCO-CYTOSOL"] +"G7182-MONOMER" "uncharacterized protein YfbP" ["YfbP"] "MKLIPRSSDISPGIDGICPGPFPPNGFTVLTDAAYGNGDCFGLYWPIGQEHKLPIVCETYHDEWRIVPAFSSIKKFEEWLEVNDDDPHENGISIEDQDFAANLFRVARKCLSTGRLDDALPLLQRATEQLPEVSEYWLALAIQYRRCKKTEAAAQAALNAYLGNWAFGVPDNKVIHLLSQAADVPNFQDDPVIQCIKEQGLDLSFGGTKENNNYPLMQMCVDTYFAQRKPLQALTLLHNYAWIMSSETTAFQERYDFNIDEWRAKFRQLCLEYFGDSRTQFT" [] ["CCO-CYTOSOL"] +"G7184-MONOMER" "glutamate—pyruvate aminotransferase AlaA" ["YfbQ", "AlaA"] "MSPIEKSSKLENVCYDIRGPVLKEAKRLEEEGNKVLKLNIGNPAPFGFDAPDEILVDVIRNLPTAQGYCDSKGLYSARKAIMQHYQARGMRDVTVEDIYIGNGVSELIVQAMQALLNSGDEMLVPAPDYPLWTAAVSLSSGKAVHYLCDESSDWFPDLDDIRAKITPRTRGIVIINPNNPTGAVYSKELLMEIVEIARQHNLIIFADEIYDKILYDDAEHHSIAPLAPDLLTITFNGLSKTYRVAGFRQGWMVLNGPKKHAKGYIEGLEMLASMRLCANVPAQHAIQTALGGYQSISEFITPGGRLYEQRNRAWELINDIPGVSCVKPRGALYMFPKIDAKRFNIHDDQKMVLDFLLQEKVLLVQGTAFNWPWPDHFRIVTLPRVDDIELSLSKFARFLSGYHQL" [] ["CCO-CYTOSOL"] +"G7185-MONOMER" "dCMP phosphohydrolase" ["YfbR"] "MKQSHFFAHLSRLKLINRWPLMRNVRTENVSEHSLQVAMVAHALAAIKNRKFGGNVNAERIALLAMYHDASEVLTGDLPTPVKYFNSQIAQEYKAIEKIAQQKLVDMVPEELRDIFAPLIDEHAYSDEEKSLVKQADALCAYLKCLEELAAGNNEFLLAKTRLEATLEARRSQEMDYFMEIFVPSFHLSLDEISQDSPL" [] ["CCO-CYTOSOL"] +"G7186-MONOMER" "putative transporter YfbS" ["YfbS"] "MNGELIWVLSLLAVAIVLFATGRVRMDAVALFVIVAFALSGTLTVPEVFSGFSDPNVVLIAALFIIGDGLVRTGVATVMGTWLVKVAGNSEIKMLVLLMLTVAGLGAFMSSTGVVAIFIPVVLSVAMRMQTSPSRLMMPLSFAGLISGMMTLVATPPNLVVNSELLREGYHGFSFFSVTPIGLVVLVLGILYMLVMRFMLKGDTQTPQREGWTRRTFRDLIREYRLTGRARRLAIRPGSPMIGQRLDDLKLRERYGANVIGVERWRRFRRVIVNVNGVSEFRARDVLLIDMSAADVDLRQFCSEQLLEPMVLRGEYFSDQALDVGMAEISLIPESELIGKSVREIGFRTRYGLNVVGLKRNGVALEGSLADEPLLLGDIILVVGNWKLIGMLAKQGRDFVALNLPEEVSEASPAHSQAPHAIFCLVLMVALMLTDEIPNPVAAIIACLLMGKFRCIDAESAYKSIHWPSIILIVGMMPFAVALQKTGGVALAVKGLMDIGGGYGPHMMLGCLFVLSAVIGLFISNTATAVLMAPIALAAAKTMGVSPYPFAMVVAMAASAAFMTPVSSPVNTLVLGPGNYSFSDFVKLGVPFTIIVMAVCVVMIPMLFPF" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7187-MONOMER" "hexitol phosphatase A" ["HxpA", "YfbT", "sugar phosphatase YfbT", "HAD2"] "MRCKGFLFDLDGTLVDSLPAVERAWSNWARRHGLAPEEVLAFIHGKQAITSLRHFMAGKSEADIAAEFTRLEHIEATETEGITALPGAIALLSHLNKAGIPWAIVTSGSMPVARARHKIAGLPAPEVFVTAERVKRGKPEPDAYLLGAQLLGLAPQECVVVEDAPAGVLSGLAAGCHVIAVNAPADTPRLNEVDLVLHSLEQITVTKQPNGDVIIQ" [] ["CCO-CYTOSOL"] +"G7188-MONOMER" "PF03887 family protein YfbU" ["YfbU", "UPF0304 family protein YfbU"] "MEMTNAQRLILSNQYKMMTMLDPANAERYRRLQTIIERGYGLQMRELDREFGELKEETCRTIIDIMEMYHALHVSWSNLQDQQSIDERRVTFLGFDAATEARYLGYVRFMVNVEGRYTHFDAGTHGFNAQTPMWEKYQRMLNVWHACPRQYHLSANEINQIINA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7189-MONOMER" "PF04217 family membrane protein YfbV" ["YfbV", "protein involved in regulation of chromosome structure"] "MSTPDNRSVNFFSLFRRGQHYSKTWPLEKRLAPVFVENRVIKMTRYAIRFMPPIAVFTLCWQIALGGQLGPAVATALFALSLPMQGLWWLGKRSVTPLPPAILNWFYEVRGKLQESGQVLAPVEGKPDYQALADTLKRAFKQLDKTFLDDL" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7190-MONOMER" "putative transporter YfcC" ["YfcC"] "MSAITESKPTRRWAMPDTLVIIFFVAILTSLATWVVPVGMFDSQEVQYQVDGQTKTRKVVDPHSFRILTNEAGEPEYHRVQLFTTGDERPGLMNFPFEGLTSGSKYGTAVGIIMFMLVIGGAFGIVMRTGTIDNGILALIRHTRGNEILFIPALFILFSLGGAVFGMGEEAVAFAIIIAPLMVRLGYDSITTVLVTYIATQIGFASSWMNPFCVVVAQGIAGVPVLSGSGLRIVVWVIATLIGLIFTMVYASRVKKNPLLSRVHESDRFFREKQADVEQRPFTFGDWLVLIVLTAVMVWVIWGVIVNAWFIPEIASQFFTMGLVIGIIGVVFRLNGMTVNTMASSFTEGARMMIAPALLVGFAKGILLLVGNGEAGDASVLNTILNSIANAISGLDNAVAAWFMLLFQAVFNFFVTSGSGQAALTMPLLAPLGDLVGVNRQVTVLAFQFGDGFSHIIYPTSASLMATLGVCRVDFRNWLKVGATLLGLLFIMSSVVVIGAQLMGYH" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7191-MONOMER" "putative Nudix hydrolase YfcD" ["YfcD"] "MEQRRLASTEWVDIVNEENEVIAQASREQMRAQCLRHRATYIVVHDGMGKILVQRRTETKDFLPGMLDATAGGVVQADEQLLESARREAEEELGIAGVPFAEHGQFYFEDKNCRVWGALFSCVSHGPFALQEDEVSEVCWLTPEEITARCDEFTPDSLKALALWMKRNAKNEAVETETAE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7192-MONOMER" "phosphodiesterase YfcE" ["YfcE"] "MMKLMFASDIHGSLPATERVLELFAQSGAQWLVILGDVLNHGPRNALPEGYAPAKVAERLNEVAHKVIAVRGNCDSEVDQMLLHFPITAPWQQVLLEKQRLFLTHGHLFGPENLPALNQNDVLVYGHTHLPVAEQRGEIFHFNPGSVSIPKGGNPASYGMLDNDVLSVIALNDQSIIAQVAINP" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7193-MONOMER" "glutathione S-transferase YfcF" ["YfcF"] "MSKPAITLWSDAHFFSPYVLSAWVALQEKGLSFHIKTIDLDSGEHLQPTWQGYGQTRRVPLLQIDDFELSESSAIAEYLEDRFAPPTWERIYPLDLENRARARQIQAWLRSDLMPIREERPTDVVFAGAKKAPLTAEGKASAEKLFAMAEHLLVLGQPNLFGEWCIADTDLALMINRLVLHGDEVPERLVDYATFQWQRASVQRFIALSAKQSG" [] ["CCO-CYTOSOL"] +"G7194-MONOMER" "disulfide reductase" ["YfcG", "GST N1-1"] "MIDLYFAPTPNGHKITLFLEEAELDYRLIKVDLGKGGQFRPEFLRISPNNKIPAIVDHSPADGGEPLSLFESGAILLYLAEKTGLFLSHETRERAATLQWLFWQVGGLGPMLGQNHHFNHAAPQTIPYAIERYQVETQRLYHVLNKRLENSPWLGGENYSIADIACWPWVNAWTRQRIDLAMYPAVKNWHERIRSRPATGQALLKAQLGDERSDS" [] ["CCO-CYTOSOL"] +"G7196-MONOMER" "putative NAD-dependent epimerase YfcH" ["YfcH"] "MNIVITGGTGLIGRHLIPRLLELGHQITVVTRNPQKASSVLGPRVTLWQGLADQSNLNGVDAVINLAGEPIADKRWTHEQKERLCQSRWNITQKLVDLINASDTPPSVLISGSATGYYGDLGEVVVTEEEPPHNEFTHKLCARWEEIACRAQSDKTRVCLLRTGVVLAPDGGILGKMLPPFRLGLGGPIGSGRQYLAWIHIDDMVNGILWLLDNELRGPFNMVSPYPVRNEQFAHALGHALHRPAILRVPATAIRLLMGESSVLVLGGQRALPKRLEEAGFAFRWYDLEEALADVVR" [] ["CCO-CYTOSOL"] +"G7197-MONOMER" "recombination-promoting nuclease RpnB" ["RpnB", "YfcI"] "MTISTTSTPHDAVFKSFLRHPDTARDFIDIHLPAPLRKLCDLTTLKLEPNSFIDEDLRQYYSDLLWSVKTQEGVGYIYVVIEHQSKPEELMAFRMMRYSIAAMQNHLDAGYKELPLVLPMLFYHGCRSPYPYSLCWLDEFAEPAIARKIYSSAFPLVDITVVPDDEIMQHRKMALLELIQKHIRQRDLLGLVDQIVSLLVTGNTNDRQLKALFNYVLQTGDAQRFRAFIGEIAERAPQEKEKLMTIADRLREEGAMQGKHEEALRIAQEMLDRGLDRELVMMVTRLSPDDLIAQSH" [] ["CCO-CYTOSOL"] +"G7199-MONOMER" "fused 5-methylaminomethyl-2-thiouridine-forming methyltransferase and FAD-dependent demodification enzyme" ["YfcK", "MnmC", "TrmC"] "MKHYSIQPANLEFNAEGTPVSRDFDDVYFSNDNGLEETRYVFLGGNQLEVRFPEHPHPLFVVAESGFGTGLNFLTLWQAFDQFREAHPQAQLQRLHFISFEKFPLTRADLALAHQHWPELAPWAEQLQAQWPMPLPGCHRLLLDEGRVTLDLWFGDINELTSQLDDSLNQKVDAWFLDGFAPAKNPDMWTQNLFNAMARLARPGGTLATFTSAGFVRRGLQDAGFTMQKRKGFGRKREMLCGVMEQTLPLPCSAPWFNRTGSSKREAAIIGGGIASALLSLALLRRGWQVTLYCADEAPALGASGNRQGALYPLLSKHDEALNRFFSNAFTFARRFYDQLPVKFDHDWCGVTQLGWDEKSQHKIAQMLSMDLPAELAVAVEANAVEQITGVATNCSGITYPQGGWLCPAELTRNVLELAQQQGLQIYYQYQLQNLSRKDDCWLLNFAGDQQATHSVVVLANGHQISRFSQTSTLPVYSVAGQVSHIPTTPELAELKQVLCYDGYLTPQNPANQHHCIGASYHRGSEDTAYSEDDQQQNRQRLIDCFPQAQWAKEVDVSDKEARCGVRCATRDHLPMVGNVPDYEATLVEYASLAEQKDEAVSAPVFDDLFMFAALGSRGLCSAPLCAEILAAQMSDEPIPMDASTLAALNPNRLWVRKLLKGKAVKAG" [] ["CCO-CYTOSOL"] +"G7200-MONOMER" "PF08891 family protein YfcL" ["YfcL"] "MIAEFESRILALIDGMVDHASDDELFASGYLRGHLTLAIAELESGDDHSAQAVHTTVSQSLEKAIGAGELSPRDQALVTDMWENLFQQASQQ" ["CCO-CYTOSOL"] [] +"G7201-MONOMER" "EF-P-Lys34 hydroxylase" ["EpmC", "YfcM"] "MNSTHHYEQLIEIFNSCFADDFNTRLIKGDDEPIYLPADAEVPYNRIVFAHGFYASAIHEISHWCIAGKARRELVDFGYWYCPDGRDAQTQSQFEDVEVKPQALDWLFCVAAGYPFNVSCDNLEGDFEPDRVVFQRRVHAQVMDYLTNGIPERPARFIKALQNYYHTPELTAEQFPWPEALN" [] ["CCO-CYTOSOL"] +"G7202-MONOMER" "putative endonuclease SmrB" ["SmrB", "YfcN"] "MKKKTTLSEEDQALFRQLMAGTRKIKQDTIVHRPQRKKISEVPVKRLIQEQADASHYFSDEFQPLLNTEGPVKYVRPDVSHFEAKKLRRGDYSPELFLDLHGLTQLQAKQELGALIAACRREHVFCACVMHGHGKHILKQQTPLWLAQHPHVMAFHQAPKEYGGDAALLVLIEVEEWLPPELP" [] ["CCO-CYTOSOL"] +"G7203-MONOMER" "DUF2544 domain-containing protein YfcO" ["YfcO"] "MKILRWLFALVMLIATTEAMAAGHSVDVYYGYNGDSRNIATFNLKIMMPSAVYVGEYKSSQWLMTGEILQNVSWSGPPPAPSVKLIGYHQNINKASCPGLPSGWNCGYYTFEVIVSAEIESYFSCPWLVIMNDSEASPGGVTYQGPDSHDTICPSVSVQPYDVSWNENYVSKSKLLTLQSTGGVVEKTLSTYLMKDGKLCDSTQMNETGGYCRWVAQMITFTASGCDKAEVSVTPNRHPITDKQLHDMVVRVDTSSMQPIDSTCRFQYILNEL" ["CCO-CYTOSOL"] [] +"G7204-MONOMER" "putative fimbrial protein YfcP" ["YfcP"] "MNKSMIQSGGYVLLAGLILAMSSTLFAADNNLHFSGNLLSKSCALVVDGQYLAEVRFPTVSRQDLNVAGQSARVPVVFKLKDCKGPAGYNVKVTLTGVEDSEQPGFLALDTSSTAQGVGIGMEKTDGMQVAINNTNGATFALTNGNNDINFRAWLQAKSGRDVTIGEFTASLTATFEYI" [] ["CCO-EXTRACELLULAR", "CCO-PILUS"] +"G7205-MONOMER" "putative fimbrial protein YfcQ" ["YfcQ"] "MRKTFLTLLCVSSAIAHAADEDITFHGTLLSPPTCSISGGKTIEVEFRDLIIDDINGNYGRKEVPYELTCDSTTRHPDWEMTLTWTGTQTSFNDAAIETDVPGFGIELQHDGQRFKLNTPLAINATDFTQKPKLEAVPVKASDAVLSDTNFSAYATLRVDYQ" [] ["CCO-PILUS"] +"G7206-MONOMER" "putative fimbrial protein YfcR" ["YfcR"] "MTGGVMSQKFVVGAGLLVCSVCSLSAMAGSKPVDLILRVLVDAPPPCSIKGSQVEFGNMIADNVDGTNYRQDAKYTLNCTNSLANDLRMQLKGNTSTINGETVLSTNITGLGIRIENSADNSLFAVGENSWTPFNINNQPQLKAVPVKASGAQLAAGEFNASLTMVVDYQ" [] ["CCO-EXTRACELLULAR", "CCO-PILUS"] +"G7207-MONOMER" "putative fimbrial chaperone YfcS" ["YfcS"] "MSDLLCSAKLGAMTLALLLSATSLSALASVTPDRTRLIFNESDKSISVTLRNNDPKLPYLAQSWIEDEKGNKITSPLTVLPPVQRIDSMMNGQVKVQGMPDINKLPADRESMFYFNVREIPPKSNKPNTLQIALQTRIKLFWRPKALEKVSMKSPWQHKVTLTRSGQAFTVNNPTPYYVIISNASAQKNGNPAAGFSPLVIEPKTTVPLNVKMDSVPVLTYVNDFGARMPLFFQCNGNSCQVDEEQSRKG" [] ["CCO-PERI-BAC"] +"G7209-MONOMER" "putative outer membrane usher protein YfcU" ["YfcT", "YfcU"] "MPDHSLFRLRILPWCIALAMSGSYSSVWAEDDIQFDSRFLELKGDTKIDLKRFSSQGYVEPGKYNLQVQLNKQPLAEEYDIYWYAGEDDVSKSYACLTPELVAQFGLKEDVAKNLQWSHDGKCLKPGQLEGVEIKADLSQSALVISLPQAYLEYTWPDWDPPSRWDDGISGIIADYSITAQTRHEENGGDDSNEISGNGTVGVNLGPWRMRADWQTNYQHTRSNDDDDEFGGDDTQKKWEWSRYYAWRALPSLKAKLALGEDYLNSDIFDGFNYVGGSVSTDDQMLPPNLRGYAPDISGVAHTTAKVTVSQMGRVIYETQVPAGPFRIQDLGDSVSGTLHIRIEEQNGQVQEYDISTASMPYLTRPGQVRYKIMMGRPQEWGHHVEGGFFSGAEASWGIANGWSLYGGALGDENYQSAALGVGRDLSTFGAVAFDVTHSHTKLDKDTAYGKGSLDGNSFRVSYSKDFDQLNSRVTFAGYRFSEENFMTMSEYLDASDSEMVRTGNDKEMYTATYNQNFRDAGVSVYLNYTRHTYWDREEQTNYNIMLSHYFNMGSIRNMSVSLTGYRYEYDNRADKGM*ISLSMPWGDNSTVSYNGNYGSGTDSSQVGYFSRVDDATHYQLNIGTSDKHTSVDGYYSHDGSLAQVDLSANYHEGQYTSAGLSLQGGATLTTHGGALHRTQNMGGTRLLIDADGVADVPVEGNGAAVYTNMFGKAVVSDVNNYYRNQAYIDLNKLPENAEATQSVVQATLTEGAIGYRKFAVISGQKAMAVLRLQDGSHPPFGAEVKNDNEQTVGLVDDDGSVYLAGVKPGEHMSVFWSGVAHCDINLPDPLPADLFNGLLLPCQHKGNVAPVVPDDIKPVIQEQTQQVTPTDPPVSVSANQ" [] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"G7210-MONOMER" "putative fimbrial protein YfcV" ["YfcV"] "MSKFVKTAIAAAMVMGAFTSTATIAAGNNGTARFYGTIEDSVCSIVPDDHKLEVDMGDIGAEKLKNNGTTTPKNFQIRLQDCVFDTQETMTTTFTGTVSSANSGNYYTIFNTDTGAAFNNVSLAIGDSLGTSYKSGMGIDQKIVKDTATNKGKAKQTLNFKAWLVGAADAPDLGNFEANTTFQITYL" [] ["CCO-EXTRACELLULAR", "CCO-PILUS"] +"G7211-MONOMER" "phosphohistidine phosphatase SixA" ["YfcW", "SixA"] "MQVFIMRHGDAALDAASDSVRPLTTNGCDESRLMANWLKGQKVEIERVLVSPFLRAEQTLEEVGDCLNLPSSAEVLPELTPCGDVGLVSAYLQALTNEGVASVLVISHLPLVGYLVAELCPGETPPMFTTSAIASVTLDESGNGTFNWQMSPCNLKMAKAI" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7212-MONOMER" "3-hydroxyacyl-CoA dehydrogenase FadJ" ["FadJ", "YfcX", "FadJ component of anaerobic fatty acid oxidation complex"] "MEMTSAFTLNVRLDNIAVITIDVPGEKMNTLKAEFASQVRAIIKQLRENKELRGVVFVSAKPDNFIAGADINMIGNCKTAQEAEALARQGQQLMAEIHALPIQVIAAIHGACLGGGLELALACHGRVCTDDPKTVLGLPEVQLGLLPGSGGTQRLPRLIGVSTALEMILTGKQLRAKQALKLGLVDDVVPHSILLEAAVELAKKERPSSRPLPVRERILAGPLGRALLFKMVGKKTEHKTQGNYPATERILEVVETGLAQGTSSGYDAEARAFGELAMTPQSQALRSIFFASTDVKKDPGSDAPPAPLNSVGILGGGLMGGGIAYVTACKAGIPVRIKDINPQGINHALKYSWDQLEGKVRRRHLKASERDKQLALISGTTDYRGFAHRDLIIEAVFENLELKQQMVAEVEQNCAAHTIFASNTSSLPIGDIAAHATRPEQVIGLHFFSPVEKMPLVEIIPHAGTSAQTIATTVKLAKKQGKTPIVVRDKAGFYVNRILAPYINEAIRMLTQGERVEHIDAALVKFGFPVGPIQLLDEVGIDTGTKIIPVLEAAYGERFSAPANVVSSILNDDRKGRKNGRGFYLYGQKGRKSKKQVDPAIYPLIGTQGQGRISAPQVAERCVMLMLNEAVRCVDEQVIRSVRDGDIGAVFGIGFPPFLGGPFRYIDSLGAGEVVAIMQRLATQYGSRFTPCERLVEMGARGESFWKTTATDLQ" [] ["CCO-CYTOSOL"] +"G7213-MONOMER" "3-ketoacyl-CoA thiolase FadI" ["FadI", "YfcY", "FadI component of anaerobic fatty acid oxidation complex"] "MGQVLPLVTRQGDRIAIVSGLRTPFARQATAFHGIPAVDLGKMVVGELLARSEIPAEVIEQLVFGQVVQMPEAPNIAREIVLGTGMNVHTDAYSVSRACATSFQAVANVAESLMAGTIRAGIAGGADSSSVLPIGVSKKLARVLVDVNKARTMSQRLKLFSRLRLRDLMPVPPAVAEYSTGLRMGDTAEQMAKTYGITREQQDALAHRSHQRAAQAWSDGKLKEEVMTAFIPPYKQPLVEDNNIRGNSSLADYAKLRPAFDRKHGTVTAANSTPLTDGAAAVILMTESRAKELGLVPLGYLRSYAFTAIDVWQDMLLGPAWSTPLALERAGLTMSDLTLIDMHEAFAAQTLANIQLLGSERFAREALGRAHATGEVDDSKFNVLGGSIAYGHPFAATGARMITQTLHELRRRGGGFGLVTACAAGGLGAAMVLEAE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7214-MONOMER" "DUF406 domain-containing protein YfcZ" ["YfcZ"] "MSKCSADETPVCCCMDVGTIMDNSDCTASYSRVFANRAEAEQTLAALTEKARSVESEPCKITPTFTEESDGVRLDIDFTFACEAEMLIFQLGLR" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7215-MONOMER" "protein YfdF" ["YfdF"] "MLPSISINNTSAAYPESINENNNDEVNGLVQEFKNLFNGKEGISTCIKHLLELIKNAIRVNDDPYRFNINNSSVTYIDIDSNDTDHITIGIDNQEPIELPANYKDKELVRTIINDNIVEKTHDINNKEMIFSALKEIYDGDPGFIFDKISHKLRHTVTEFDESGKSEPTDLFTWYGKDKKGDSLAIVIKNKNGNDYLSLGYYDQDDYHIQRGIRINGDSLTQYCSENARSASAWFESSKAIMAESFATGSDHQVVNELNGERLREPNDVFKRYGRAIRYDFQVDDAKYKCDHLKEIVSTLVGNKINVGHSQKIYKHFKDLEGKIEERLQNRQAEYQNEINQPSAPGVNFDDI" [] ["CCO-CYTOSOL"] +"G7216-MONOMER" "intermembrane phospholipid transport system - outer membrane lipoprotein MlaA" ["MlaA", "VacJ"] "MKLRLSALALGTTLLVGCASSGTDQQGRSDPLEGFNRTMYNFNFNVLDPYIVRPVAVAWRDYVPQPARNGLSNFTGNLEEPAVMVNYFLQGDPYQGMVHFTRFFLNTILGMGGFIDVAGMANPKLQRTEPHRFGSTLGHYGVGYGPYVQLPFYGSFTLRDDGGDMADGFYPVLSWLTWPMSVGKWTLEGIETRAQLLDSDGLLRQSSDPYIMVREAYFQRHDFIANGGELKPQENPNAQAIQDDLKDIDSE" [] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"G7217-MONOMER" "inner membrane protein YfdC" ["YfdC"] "MDNDKIDQHSDEIEVESEEKERGKKIEIDEDRLPSRAMAIHEHIRQDGEKELERDAMALLWSAIAAGLSMGASLLAKGIFQVELEGVPGSFLLENLGYTFGFIIVIMARQQLFTENTVTAVLPVMQKPTMSNVGLLIRLWGVVLLGNILGTGIAAWAFEYMPIFNEETRDAFVKIGMDVMKNTPSEMFANAIISGWLIATMVWMFPAAGAAKIVVIILMTWLIALGDTTHIVVGSVEILYLVFNGTLHWSDFIWPFALPTLAGNICGGTFIFALMSHAQIRNDMSNKRKAEARQKAERAENIKKNYKNPA" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7218-MONOMER" "CPS-53 (KpLE1) prophage; prophage CPS-53 integrase" ["IntC", "YfdB", "IntS"] "MLTVKQIEAAKPKEKPYRLLDGNGLYLYVPVSGKKVWQLRYKIDGKEKILTVGKYPLMTLQEARDKAWTARKDISVGIDPVKAKKASSNNNSFSAIYKEWYEHKKQVWSVGYATELAKMFDDDILPIIGGLEIQDIEPMQLLEVIRRFEDRGAMERANKARRRCGEVFRYAIVTGRAKYNPAPDLADAMKGYRKKNFPFLPADQIPAFNKALATFSGSIVSLIATKVLRYTALRTKELRSMLWKNVDFENRIITIDASVMKGRKIHVVPMSDQVVELLTTLSSITKPVSEFVFAGRNDKKKPICENAVLLVIKQIGYEGLESGHGFRHEFSTIMNEHEWPADAIEVQLAHANGGSVRGIYNHAQYLDKRREMMQWWADWLDEKVE" [] ["CCO-CYTOSOL"] +"G7219-MONOMER" "CPS-53 (KpLE1) prophage; putative bactoprenol-linked glucose translocase" ["GtrA", "YfdG", "gtrAEC"] "MLKLFAKYTSIGVLNTLIHWVVFGVCIYVAHTNQALANFAGFVVAVSFSFFANAKFTFKASTTTMRYMLYVGFMGTLSATVGWAADRCALPPMITLVTFSAISLVCGFVYSKFIVFRDAK" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7220-MONOMER" "CPS-53 (KpLE1) prophage; bactoprenol glucosyl transferase" ["GtrB", "YfdH"] "MKISLVVPVFNEEEAIPIFYKTVREFEELKSYEVEIVFINDGSKDATESIINALAVSDPLVVPLSFTRNFGKEPALFAGLDHATGDAIIPIDVDLQDPIEVIPHLIEKWQAGADMVLAKRSDRSTDGRLKRKTAEWFYKLHNKISNPKIEENVGDFRLMSRDVVENIKLMPERNLFMKGILSWVGGKTDIVEYVRAERIAGDTKFNGWKLWNLALEGITSFSTFPLRIWTYIGLVVASVAFIYGAWMILDTIIFGNAVRGYPSLLVSILFLGGIQMIGIGVLGEYIGRTYIETKKRPKYIIKRVKK" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7221-MONOMER" "CPS-53 (KpLE1) prophage; serotype-specific glucosyl transferase YfdI" ["GtrS", "YfdI", "GtrIV", "GtrIVEC"] "MNKAIKVSLYISFVLIICALSKNIMMLNTSDFGRAIKPLIEDIPAFTYDLPLLYKLKGHIDSIDSYEYISSYSYILYTYVLFISIFTEYLDARVLSLFLKVIYIYSLYAIFTSYIKTERYVTLFTFFILAFLMCSSSTLSMFASFYQEQIVIIFLPFLVYSLTCKNNKSMLLLFFSLLIISTAKNQFILTPLIVYSYYIFFDRHKLIIKSVICVVCLLASIFAISYSKGVVELNKYHATYFGSYLYMKNNGYKMPSYVDDKCVGLDAWGNKFDISFGATPTEVGTECFESHKDETFSNALFLLVSKPSTIFKLPFDDGVMSQYKENYFHVYKKLHVIYGESNILTTITNIKDNIFKNIRFISLLLFFIASIFIRNNKIKASLFVVSLFGISQFYVSFFGEGYRDLSKHLFGMYFSFDLCLYITVVFLIYKIIQRNQDNSDVKH" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7223-MONOMER" "CPS-53 (KpLE1) prophage; putative tail fiber assembly protein YfdK" ["YfdK"] "MNYIYSATTNSFYPLEMKEDYTQAGSWPDDAVEVDEQVYIEFSGLPPKGKIRIAGENGFPAWSEIPPPTHEEQIAAAELKKQQLINQANDYMNSKQWAGKAAIGRLKGEELAQYNLWLDYLDALELVDTSSAPDIEWPTPPAVQAR" [] ["CCO-CYTOSOL"] +"G7224-MONOMER" "CPS-53 (KpLE1) prophage; putative uncharacterized protein YfdL" ["YfdL"] "MLQEELCSVVEASGASLEKGRHDQLLTALRALLLSRKNPFGDIKLDGTVQKALENLGLGEAAKRNVGTGANQIPDMGSFMLSASVPGYQKLPSGLIIQWGPIDVPLTSQDTVTYFPIAFPNRCLRVFATQDYTPGSANVGYIACAGYNQDPVKFISRAGVPGIGASFFALGC" [] ["CCO-MEMBRANE"] +"G7225-MONOMER" "CPS-53 (KpLE1) prophage; putative methyltransferase YfdM" ["YzyB", "YfdM"] "MSNKYCQALVELRNKPAHELKEVGDQWRTPDNIFWGINTLFGPFVLDLFTDGDNAKCAAYYTAEDNALAHDWSERLAELKGAAFGNPPYPW" [] ["CCO-CYTOSOL"] +"G7226-MONOMER" "CPS-53 (KpLE1) prophage; uncharacterized protein YfdN" ["YzyA", "YfdN"] "MSMSLLNDVQKFIEAHPGCTSGDIADAFAGYSRQRVLQSASKLRQSGRVAHRCEGDTHRHFPRLTERAQDPEPQPVRETRPVRNFYVGTNDPRVILCLTRQAEELESRGLYRRAATVWMAAFRESHSQPERNNFLARRERCLRKSSKRAASGEEWYLSGNYVGA" [] ["CCO-CYTOSOL"] +"G7227-MONOMER" "CPS-53 (KpLE1) prophage; protein YdfO" ["OweS", "YfdO", "CPS-53 (KpLE1) prophage; putative defective phage replication protein O"] "MTCAQWLWKKIIALYEQAAECDGEVVRPKEPNWTAWANEIRLMCVQDGRTHKQICEMYSRVSRDPFWCRNVLSPSKLREKWDELSLRLSPSVSTYTEKREDPYFKASYDNVDYSQIPAGFRG" [] ["CCO-CYTOSOL"] +"G7228-MONOMER" "CPS-53 (KpLE1) prophage; uncharacterized protein YfdP" ["YfdP"] "MASERSTDVQAFIGELDGGVFETKIGAVLSEVASGVMNTKTKGKVSLNLEIEPFDENRLKIKHKLSYVRPTNRGKISEEDTTETPMYVNRGGRLTILQEDQGQLLTLAGEPDGKLRAAGH" [] ["CCO-CYTOSOL"] +"G7229-MONOMER" "CPS-53 (KpLE1) prophage; DUF2303 domain-containing protein YfdQ" ["YfdQ"] "MSQNLDATAINQIHALISAQGVNEIISKIGADAVALPENFRIHDLEKFNLNRFRFRGALSTASIDDFTRYSKDLADEGTRCFIDADNMRAVSVLNLGTIDEPGHADNTATLKLKKTAPFSALLSVNGERNSQKSLAEWIEDWADYLVGFDANGDAIQATKAAAAIRKITIEANQTADFEDNDFSGKRSLMESVEAKTKDIMPVAFEFKCVPFEGLKERPFKLRLSIITGDRPVLVLRIIQLEAVQEDMANEFRDLLVEKFKDSKVETFIGTFTA" [] ["CCO-CYTOSOL"] +"G7230-MONOMER" "CPS-53 (KpLE1) prophage; 5'-deoxynucleotidase" ["YfdR"] "MSFIKTFSGKHFYYDKINKDDIVINDIAVSLSNICRFAGHLSHFYSVAQHAVLCSQLVPQEFAFEALMHDATEAYCQDIPAPLKRLLPDYKRMEEKIDAVIREKYGLPPVMSTPVKYADLIMLATERRDLGLDDGSFWPVLEGIPATEMFNVIPLAPGHAYGMFMERFNDLSELRKCA" [] ["CCO-CYTOSOL"] +"G7231-MONOMER" "CPS-53 (KpLE1) prophage; protein YfdS" ["YfdS"] "MRMNVFEMEGFLRGKCVPRDLKVNETNAEYLVRKFDALEAKCAALENKIIPVSAELPPANESVLLFDANGEGWLIGWRSLWYTWGQKETGEWQWTFQVGDLENVNITHWAVMPKAPEAGA" [] ["CCO-CYTOSOL"] +"G7232-MONOMER" "CPS-53 (KpLE1) prophage; protein YfdT" ["YfdT"] "MTTFTNKELIKEIKERISSLEVRDDIERRAYEIALVSLEVEPDEREAYELFMEKRFGDLVDRRRAKNGDNEYMAWDMTLGWIIWQQRAGIHFSTMSQQEVK" [] ["CCO-CYTOSOL"] +"G7233-MONOMER" "tripartite efflux pump membrane fusion protein EmrK" ["EmrK"] "MEQINSNKKHSNRRKYFSLLAVVLFIAFSGAYAYWSMELEDMISTDDAYVTGNADPISAQVSGSVTVVNHKDTNYVRQGDILVSLDKTDATIALNKAKNNLANIVRQTNKLYLQDKQYSAEVASARIQYQQSLEDYNRRVPLAKQGVISKETLEHTKDTLISSKAALNAAIQAYKANKALVMNTPLNRQPQVVEAADATKEAWLALKRTDIKSPVTGYIAQRSVQVGETVSPGQSLMAVVPARQMWVNANFKETQLTDVRIGQSVNIISDLYGENVVFHGRVTGINMGTGNAFSLLPAQNATGNWIKIVQRVPVEVSLDPKELMEHPLRIGLSMTATIDTKNEDIAEMPELASTVTSMPAYTSKALVIDTSPIEKEISNIISHNGQL" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"G7234-MONOMER" "acetyl-CoA:oxalate CoA-transferase" ["YfdE"] "MTNNESKGPFEGLLVIDMTHVLNGPFGTQLLCNMGARVIKVEPPGHGDDTRTFGPYVDGQSLYYSFINHGKESVVLDLKNDHDKSIFINMLKQADVLAENFRPGTMEKLGFSWETLQEINPRLIYASSSGFGHTGPLKDAPAYDTIIQAMSGIMMETGYPDAPPVRVGTSLADLCGGVYLFSGIVSALYGREKSQRGAHVDIAMFDATLSFLEHGLMAYIATGKSPQRLGNRHPYMAPFDVFNTQDKPITICCGNDKLFSALCQALELTELVNDPRFSSNILRVQNQAILKQYIERTLKTQAAEVWLARIHEVGVPVAPLLSVAEAIKLPQTQARNMLIEAGGIMMPGNPIKISGCADPHVMPGAATLDQHGEQIRQEFSS" [] ["CCO-CYTOSOL"] +"G7236-MONOMER" "oxalyl-CoA decarboxylase" ["YfdU", "Oxc"] "MSDQLQMTDGMHIIVEALKQNNIDTIYGVVGIPVTDMARHAQAEGIRYIGFRHEQSAGYAAAASGFLTQKPGICLTVSAPGFLNGLTALANATVNGFPMIMISGSSDRAIVDLQQGDYEELDQMNAAKPYAKAAFRVNQPQDLGIALARAIRVSVSGRPGGVYLDLPANVLAATMEKDEALTTIVKVENPSPALLPCPKSVTSAISLLAKAERPLIILGKGAAYSQADEQLREFIESAQIPFLPMSMAKGILEDTHPLSAAAARSFALANADVVMLVGARLNWLLAHGKKGWAADTQFIQLDIEPQEIDSNRPIAVPVVGDIASSMQGMLAELKQNTFTTPLVWRDILNIHKQQNAQKMHEKLSTDTQPLNYFNALSAVRDVLRENQDIYLVNEGANTLDNARNIIDMYKPRRRLDCGTWGVMGIGMGYAIGASVTSGSPVVAIEGDSAFGFSGMEIETICRYNLPVTIVIFNNGGIYRGDGVDLSGAGAPSPTDLLHHARYDKLMDAFRGVGYNVTTTDELRHALTTGIQSRKPTIINVVIDPAAGTESGHITKLNPKQVAGN" [] ["CCO-CYTOSOL"] +"G7237-MONOMER" "formyl-CoA transferase" ["YfdW", "Frc"] "MSTPLQGIKVLDFTGVQSGPSCTQMLAWFGADVIKIERPGVGDVTRHQLRDIPDIDALYFTMLNSNKRSIELNTKTAEGKEVMEKLIREADILVENFHPGAIDHMGFTWEHIQEINPRLIFGSIKGFDECSPYVNVKAYENVAQAAGGAASTTGFWDGPPLVSAAALGDSNTGMHLLIGLLAALLHREKTGRGQRVTMSMQDAVLNLCRVKLRDQQRLDKLGYLEEYPQYPNGTFGDAVPRGGNAGGGGQPGWILKCKGWETDPNAYIYFTIQEQNWENTCKAIGKPEWITDPAYSTAHARQPHIFDIFAEIEKYTVTIDKHEAVAYLTQFDIPCAPVLSMKEISLDPSLRQSGSVVEVEQPLRGKYLTVGCPMKFSAFTPDIKAAPLLGEHTAAVLQELGYSDDEIAAMKQNHAI" [] ["CCO-CYTOSOL"] +"G7238-MONOMER" "protein YfdX" ["YfdX"] "MKRLIMATMVTAILASSTVWAADNAPVAAQQQTQQVQQTQKTAAAAERISEQGLYAMRDVQVARLALFHGDPEKAKELTNEASALLSDDSTEWAKFAKPGKKTNLNDDQYIVINASVGISESYVATPEKEAAIKIANEKMAKGDKKGAMEELRLAGVGVMENQYLMPLKQTRNALADAQKLLDKKQYYEANLALKGAEDGIIVDSEALFVN" [] ["CCO-PERI-BAC"] +"G7239-MONOMER" "colanic acid synthesis putative lipoprotein YpdI" ["YpdI"] "MKVNLILFSLFLLVSIMACNVFAFSISGGGSERSYKETEKTSAMTTTHSTKLQPSQAILFKMREDAPPLNLTEEMPPPFPTKANYLIHPVR" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE", "CCO-PERI-BAC"] +"G7240-MONOMER" "DUF2545 domain-containing protein YfdY" ["YfdY"] "MINLWMFLALCIVCVSGYIGQVLNVVSAVSSFFGMVILAALIYYFTMWLTGGNELVTGIFMFLAPACGLMIRFMVGYGRR" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7242-MONOMER" "glutamate—pyruvate aminotransferase AlaC" ["YfdZ", "AlaC"] "MADTRPERRFTRIDRLPPYVFNITAELKMAARRRGEDIIDFSMGNPDGATPPHIVEKLCTVAQRPDTHGYSTSRGIPRLRRAISRWYQDRYDVEIDPESEAIVTIGSKEGLAHLMLATLDHGDTVLVPNPSYPIHIYGAVIAGAQVRSVPLVEGVDFFNELERAIRESYPKPKMMILGFPSNPTAQCVELEFFEKVVALAKRYDVLVVHDLAYADIVYDGWKAPSIMQVPGARDVAVEFFTLSKSYNMAGWRIGFMVGNKTLVSALARIKSYHDYGTFTPLQVAAIAALEGDQQCVRDIAEQYKRRRDVLVKGLHEAGWMVEMPKASMYVWAKIPEPYAAMGSLEFAKKLLNEAKVCVSPGIGFGDYGDTHVRFALIENRDRIRQAIRGIKAMFRADGLLPASSKHIHENAE" [] ["CCO-CYTOSOL"] +"G7243-MONOMER" "sensor histidine kinase PyrS" ["YpdA", "PyrS"] "MHEIFNMLLAVFDRAALMLICLFFLIRIRLFRELLHKSAHSPKELLAVTAIFSLFALFSTWSGVPVEGSLVNVRIIAVMSGGILFGPWVGIITGVIAGIHRYLIDIGGVTAIPCFITSILAGCISGWINLKIPKAQRWRVGILGGMLCETLTMILVIVWAPTTALGIDIVSKIGIPMILGSVCIGFIVLLVQSVEGEKEASAARQAKLALDIANKTLPLFRHVNSESLRKVCEIIRDDIHADAVAITNTDHVLAYVGVGEHNYQNGDDFISPTTRQAMNYGKIIIKNNDEAHRTPEIHSMLVIPLWEKGVVTGTLKIYYCHAHQITSSLQEMAVGLSQIISTQLEVSRAEQLREMANKAELRALQSKINPHFLFNALNAISSSIRLNPDTARQLIFNLSRYLRYNIELKDDEQIDIKKELYQIKDYIAIEQARFGDKLTVIYDIDEEVNCCIPSLLIQPLVENAIVHGIQPCKGKGVVTISVAECGNRVRIAVRDTGHGIDPKVIERVEANEMPGNKIGLLNVHHRVKLLYGEGLHIRRLEPGTEIAFYIPNQRTPVASQATLLL" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7244-MONOMER" "DNA-binding transcriptional activator PyrR" ["YpdB"] "MKVIIVEDEFLAQQELSWLIKEHSQMEIVGTFDDGLDVLKFLQHNRVDAIFLDINIPSLDGVLLAQNISQFAHKPFIVFITAWKEHAVEAFELEAFDYILKPYQESRITGMLQKLEAAWQQQQTSSTPAATVTRENDTINLVKDERIIVTPINDIYYAEAHEKMTFVYTRRESYVMPMNITEFCSKLPPSHFFRCHRSFCVNLNKIREIEPWFNNTYILRLKDLDFEVPVSRSKVKEFRQLMHL" [] ["CCO-CYTOSOL"] +"G7245-MONOMER" "putative AraC-type DNA-binding transcriptional regulator YpdC" ["YpdC"] "MKAPGLPADQQFFADLFSGLVLNPQLLGRVWFASQPASLPVGSLCIDFPRLDIVLRGEYGNLLEAKQQRLVEGEMLFIPARAANLPVNNKPVMLLSLVFAPTWLGLSFYDSRTTSLLHPARQIQLPSLQRGEGEAMLTALTHLSRSPLEQNIIQPLVLSLLHLCRSVVNMPPGNSQPRGDFLYHSICNWVQDNYAQPLTRESVAQFFNITPNHLSKLFAQHGTMRFIEYVRWVRMAKARMILQKYHLSIHEVAQRCGFPDSDYFCRVFRRQFGLTPGEYSARFQG" [] ["CCO-CYTOSOL"] +"G7246-MONOMER" "putative PTS multiphosphoryl transfer protein FryA" ["FryA", "YpdD", "TTP", "triphosphoryl transfer protein"] "MLTIQFLCPLPNGLHARPAWELKEQCSQWQSEITFINHRQNAKADAKSSLALIGTGTLFNDSCSLNISGSDEEQARRVLEEYIQVRFIDSDSVQPTQAELTAHPLPRSLSRLNPDLLYGNVLASGVGVGTLTLLQSDSLDSYRAIPASAQDSTRLEHSLATLAEQLNQQLRERDGESKTILSAHLSLIQDDEFAGNIRRLMTEQHQGLGAAIISNMEQVCAKLSASASDYLRERVSDIRDISEQLLHITWPELKPRNKLVLEKPTILVAEDLTPSQFLSLDLKNLAGMILEKTGRTSHTLILARASAIPVLSGLPLDAIARYAGQPAVLDAQCGVLAINPNDAVSGYYQVAQTLADKRQKQQAQAAAQLAYSRDNKRIDIAANIGTALEAPGAFANGAEGVGLFRTEMLYMDRDSAPDEQEQFEAYQQVLLAAGDKPIIFRTMDIGGDKSIPYLNIPQEENPFLGYRAVRIYPEFAGLFRTQLRAILRAASFGNAQLMIPMVHSLDQILWVKGEIQKAIVELKRDGLRHAETITLGIMVEVPSVCYIIDHFCDEVDFFSIGSNDMTQYLYAVDRNNPRVSPLYNPITPSFLRMLQQIVTTAHQRGKWVGICGELGGESRYLPLLLGLGLDELSMSSPRIPAVKSQLRQLDSEACRELARQACECRSAQEIEALLTAFTPEEDVRPLLALENIFVDQDFSNKEQAIQFLCGNLGVNGRTEHPFELEEDVWQREEIVTTGVGFGVAIPHTKSQWIRHSSISIARLAKPIGWQSEMGEVELVIMLTLGANEGMNHVKVFSQLARKLVNKNFRQSLFAAQDAQSILTLLETELTF" [] ["CCO-MEMBRANE", "CCO-CYTOSOL"] +"G7247-MONOMER" "aminopeptidase YpdE" ["YpdE", "broad-specificity exoaminopeptidase"] "MDLSLLKALSEADAIASSEQEVRQILLEEADRLQKEVRFDGLGSVLIRLNESTGPKVMICAHMDEVGFMVRSISREGAIDVLPVGNVRMAARQLQPVRITTREECKIPGLLDGDRQGNDVSAMRVDIGARSYDEVMQAGIRPGDRVTFDTTFQVLPHQRVMGKAFDDRLGCYLLVTLLRELHDAELPAEVWLVASSSEEVGLRGGQTATRAVSPDVAIVLDTACWAKNFDYGAANHRQIGNGPMLVLSDKSLIAPPKLTAWVETVAAEIGVPLQADMFSNGGTDGGAVHLTGTGVPTVVMGPATRHGHCAASIADCRDILQMQQLLSALIQRLTRETVVQLTDFR" [] ["CCO-CYTOSOL"] +"G7248-MONOMER" "aminopeptidase YpdF" ["YpdF"] "MTLLASLRDWLKAQQLDAVLLSSRQNKQPHLGISTGSGYVVISRESAHILVDSRYYVEVEARAQGYQLHLLDATNTLTTIVNQIIADEQLQTLGFEGQQVSWETAHRWQSELNAKLVSATPDVLRQIKTPEEVEKIRLACGIADRGAEHIRRFIQAGMSEREIAAELEWFMRQQGAEKASFDTIVASGWRGALPHGKASDKIVAAGEFVTLDFGALYQGYCSDMTRTLLVNGEGVSAESHLLFNVYQIVLQAQLAAISAIRPGVRCQQVDDAARRVITEAGYGDYFGHNTGHAIGIEVHEDPRFSPRDTTTLQPGMLLTVEPGIYLPGQGGVRIEDVVLVTPQGAEVLYAMPKTVLLTGEA" [] ["CCO-CYTOSOL"] +"G7250-MONOMER" "putative PTS enzyme IIB component FryB" ["YpdH", "FryB", "Enzyme IIBFry", "EIIBFry"] "MSKKLIALCACPMGLAHTFMAAQALEEAAVEAGYEVKIETQGADGIQNRLTAQDIAEATIIIHSVAVTPEDNERFESRDVYEITLQDAIKNAAGIIKEIEEMIASEQQ" [] ["CCO-PM-BAC-NEG", "CCO-CYTOSOL"] +"G7251-MONOMER" "putative transport protein YfeO" ["YfeO"] "MLHPRARTMLLLSLPAVAIGIASSLILIVVMKIASVLQNLLWQRLPGTLGIAQDSPLWIIGVLTLTGIAVGLVIRFSQGHAGPDPACEPLIGAPVPPSALPGLIVALILGLAGGVSLGPEHPIMTVNIALAVAIGARLLPRVNRMEWTILASAGTIGALFGTPVAAALIFSQTLNGSSEVPLWDRLFAPLMAAAAGALTTGLFFHPHFSLPIAHYGQMEMTDILSGAIVAAIAIAAGMVAVWCLPRLHAMMHQMKNPVLVLGIGGFILGILGVIGGPVSLFKGLDEMQQMVANQAFSTSDYFLLAVIKLAALVVAAASGFRGGRIFPAVFVGVALGLMLHEHVPAVPAAITVSCAILGIVLVVTRDGWLSLFMAAVVVPNTTLLPLLCIVMLPAWLLLAGKPMMMVNRPKQQPPHDNV" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7252-MONOMER" "DUF2502 domain-containing protein YpeC" ["YpeC"] "MFRSLFLAAALMAFTPLAANAGEITLLPSIKLQIGDRDHYGNYWDGGHWRDRDYWHRNYEWRKNRWWRHDNGYHRGWDKRKAYERGYREGWRDRDDHRGKGRGHGHRH" [] ["CCO-CYTOSOL"] +"G7255-MONOMER" "putative IS186/IS421 transposase" ["InsL3"] "MNYSHDNWSAILAHIGKPEELDTSARNAGALTRRREIRDAATLLRLGLAYGPGGMSLREVTAWAQLHDVATLSDVALLKRLRNAADWFGILAAQTLAVRAAVTGCTSGKRLRLVDGTAISAPGGGSAEWRLHMGYDPHTCQFTDFELTDSRDAERLDRFAQTADEIRIADRGFGSRPECIRSLAFGEADYIVRVHWRGLRWLTAEGMRFDMMGFLRGLDCGKNGETTVMIGNSGNKKAGAPFPARLIAVSLPPEKALISKTRLLSENRRKGRVVQAETLEAAGHVLLLTSLPEDEYSAEQVADCYRLRWQIELAFKRLKSLLHLDALRAKEPELAKAWIFANLLAAFLIDDIIQPSLDFPPRSAGSEKKN" [] ["CCO-CYTOSOL"] +"G7256-MONOMER" "putative outer membrane porin YfeN" ["YfeN"] "MKKHLLTLTLSSILAIPVVSHAEFKGGFADIGVHYLDWTSRTTEKSSTKSHKDDFGYLEFEGGANFSWGEMYGFFDWENFYNGRHNKPGSEQRYTFKNTNRIYLGDTGFNLYLHAYGTYGSANRVNFHDDMFLYGIGYNFTGSGWWFKPFFAKRYTDQTYYTGDNGYVAGWVAGYNFMLGSEKFTLTNWNEYEFDRDATYAAGNGGKEGLNGAVALWWNATSHITTGIQYRYADDKLGEDFYQDAIIYSIKFNF" [] ["CCO-OUTER-MEM"] +"G7257-MONOMER" "putative LysR-type DNA-binding transcriptional regulator YfeR" ["YfeR"] "MNYSLKQLKVFVTVAQEKSFSRAGERIGLSQSAVSHSVKELENHTGVRLLDRTTREVVLTDAGQQLALRLERLLDELNSTLRDTGRMGQQLSGKVRVAASQTISAHLIPQCIAESHRRYPDIQFVLHDRPQQWVMESIRQGDVDFGIVIDPGPVGDLQCEAILSEPFFLLCHRDSALAVEDYVPWQALQGAKLVLQDYASGSRPLIDAALARNGIQANIVQEIGHPATLFPMVAAGIGISILPALALPLPEGSPLVVKRITPVVERQLMLVRRKNRSLSTAAEALWDVVRDQGNALMAGREGDPLYQI" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7258-MONOMER" "cell division protein ZipA" ["ZipA", "essential cell division protein ZipA"] "MMQDLRLILIIVGAIAIIALLVHGFWTSRKERSSMFRDRPLKRMKSKRDDDSYDEDVEDDEGVGEVRVHRVNHAPANAQEHEAARPSPQHQYQPPYASAQPRQPVQQPPEAQVPPQHAPHPAQPVQQPAYQPQPEQPLQQPVSPQVAPAPQPVHSAPQPAQQAFQPAEPVAAPQPEPVAEPAPVMDKPKRKEAVIIMNVAAHHGSELNGELLLNSIQQAGFIFGDMNIYHRHLSPDGSGPALFSLANMVKPGTFDPEMKDFTTPGVTIFMQVPSYGDELQNFKLMLQSAQHIADEVGGVVLDDQRRMMTPQKLREYQDIIREVKDANA" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7260-MONOMER" "DUF5329 domain-containing protein YfeK" ["YfeK"] "MKKIICLVITLLMTLPVYAKLTAHEEARINAMLEGLAQKKDLIFVRNGDEHTCYEAVSHLRLKLGNTRNRIDTAEQFIDKVASSSSITGKPYIVKIPGKSDENAQPFLHALIAQTDKTVPAEGN" [] ["CCO-CYTOSOL"] +"G7261-MONOMER" "PF05406 family protein YfeS" ["YfeS"] "MKKRFIYHDEKSNKFWWIDYEGDSLAVNYGKVGSIGKFQTKEFDNEEQCLKEASKLIAAKMKKGYQEDPKFNFMDRYYFDDEEIGLHVKTSHPNFQCHFTDPLYMCCWDEESPFGSDEGADALNVLENSLRKEPDLDCADFPQMLIETMWGMKYIAMDSILEEDVRAQLLVDEMSTIQSNMITYATAFGQIKVMGKISHKLKKMGLNALARHQLTAKILQWGDGQDSPILQKMIDDLTAFPHEN" [] ["CCO-CYTOSOL"] +"G7262-MONOMER" "DNA-binding transcriptional dual regulator MurR" ["YfeT", "MurR"] "MLYLTKISNAGSEFTENEQKIADFLQANVSELQSVSSRQMAKQLGISQSSIVKFAQKLGAQGFTELRMALIGEYSASREKTNATALHLHSSITSDDSLEVIARKLNREKELALEQTCALLDYARLQKIIEVISKAPFIQITGLGGSALVGRDLSFKLMKIGYRVACEADTHVQATVSQALKKGDVQIAISYSGSKKEIVLCAEAARKQGATVIAITSLTDSPLRRLAHFTLDTVSGETEWRSSSMSTRTAQNSVTDLLFVGLVQLNDVESLKMIQRSSELTQRLK" [] ["CCO-CYTOSOL"] +"G7263-MONOMER" "N-acetylmuramic acid 6-phosphate etherase" ["YfeU", "MurQ"] "MQFEKMITEGSNTASAEIDRVSTLEMCRIINDEDKTVPLAVERVLPDIAAAIDVIHAQVSGGGRLIYLGAGTSGRLGILDASECPPTYGVKPGLVVGLIAGGEYAIQHAVEGAEDSREGGVNDLKNINLTAQDVVVGIAASGRTPYVIAGLEYARQLGCRTVGISCNPGSAVSTTAEFAITPIVGAEVVTGSSRMKAGTAQKLVLNMLSTGLMIKSGKVFGNLMVDVVATNEKLHVRQVNIVKNATGCSAEQAEAALIACERNCKTAIVMVLKNLDAAEAKKRLDQHGGFIRQVLDKE" [] ["CCO-CYTOSOL"] +"G7265-MONOMER" "penicillin binding protein 4B" ["YfeW", "PBP4B"] "MKRTMLYLSLLAVSCSVSAAKYPVLTESSPEKAGFNVERLNQMDRWISQQVDVGYPSVNLLIIKDNQIVYRKAWGAAKKYDGSVLMEQPVKATTGTLYDLASNTKMYATNFALQKLMSEGKLHPDDRIAKYIPGFADSPNDTIKGKNTLRISDLLHHSGGFPADPQYPNKAVAGALYSQDKGQTLEMIKRTPLEYQPGSKHIYSDVDYMLLGFIVESVTGQPLDRYVEESIYRPLGLTHTVFNPLLKGFKPQQIAATELNGNTRDGVIHFPNIRTSTLWGQVHDEKAFYSMGGVSGHAGLFSNTGDIAVLMQTMLNGGGYGDVQLFNAETVKMFTTSSKEDATFGLGWRVNGNATMTPTFGTLASPQTYGHTGWTGTVTVIDPVNHMTIVMLSNKPHSPVADPQKNPNMFESGQLPIATYGWVVDQVYAALKQK" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PERI-BAC", "CCO-PM-BAC-NEG"] +"G7266-MONOMER" "porphyrinogen peroxidase" ["YfeX", "dye-decolorizing peroxidase"] "MSQVQSGILPEHCRAAIWIEANVKGEVDALRAASKTFADKLATFEAKFPDAHLGAVVAFGNNTWRALSGGVGAEELKDFPGYGKGLAPTTQFDVLIHILSLRHDVNFSVAQAAMEAFGDCIEVKEEIHGFRWVEERDLSGFVDGTENPAGEETRREVAVIKDGVDAGGSYVFVQRWEHNLKQLNRMSVHDQEMVIGRTKEANEEIDGDERPETSHLTRVDLKEDGKGLKIVRQSLPYGTASGTHGLYFCAYCARLHNIEQQLLSMFGDTDGKRDAMLRFTKPVTGGYYFAPSLDKLMAL" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7267-MONOMER" "DUF1131 domain-containing lipoprotein YfeY" ["YfeY"] "MKSLRLMLCAMPLMLTGCSTMSSVNWSAANPWNWFGSSTKVSEQGVGELTASTPLQEQAIADALDGDYRLRSGMKTANGNVVRFFEVMKGDNVAMVINGDQGTISRIDVLDSDIPADTGVKIGTPFSDLYSKAFGNCQKADGDDNRAVECKAEGSQHISYQFSGEWRGPEGLMPSDDTLKNWKVSKIIWRR" [] ["CCO-CYTOSOL"] +"G7268-MONOMER" "putative inner membrane protein" ["YfeZ"] "MKSTEFHPVHYDAHGRLRLPLLFWLVLLLQARTWVLFVIAGASREQGTALLNLFYPDHDNFWLGLIPGIPAVLAFLLSGRRATFPRTWRVLYFLLLLAQVVLLCWQPWLWLNGESVSGIGLALVVADIVALIWLLTNRRLRACFYEVKE" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7269-MONOMER" "putative acetyltransferase YpeA" ["YpeA", "putative acyltransferase with acyl-CoA N-acyltransferase domain"] "MEIRVFRQEDFEEVITLWERCDLLRPWNDPEMDIERKMNHDVSLFLVAEVNGDVVGTVMGGYDGHRGSAYYLGVHPEFRGRGIANALLNRLEKKLIARGCPKIQINVPEDNDMVLGMYERLGYEHADVLSLGKRLIEDEEY" [] ["CCO-CYTOSOL"] +"G7270-MONOMER" "putative structural protein, ethanolamine utilization microcompartment" ["YffI", "EutK"] "MINALGLLEVDGMVAAIDAADAMLKAANVRLLSHEVLDPGRLTLVVEGDLAACRAALDAGCAAAMRTGRVISRKEIGRPDDDTQWLVTGFNRQPKQPVREPDAPVIVAESADELLALLTSVRQGMTAGEVAAHFGWPLEKARNALEQLFSAGTLRKRSSRYRLKPH" [] ["CCO-CYTOSOL"] +"G7271-MONOMER" "putative structural protein, ethanolamine utilization microcompartment" ["YffJ", "EutL"] "MPALDLIRPSVTAMRVIASVNADFARELKLPPHIRSLGLISADSDDVTYIAADEATKQAMVEVVYGRSLYAGAAHGPSPTAGEVLIMLGGPNPAEVRAGLDAMIAHIENGAAFQWANDAQDTAFLAHVVSRTGSYLSSTAGITLGDPMAYLVAPPLEATYGIDAALKSADVQLATYVPPPSETNYSAAFLTGSQAACKAACNAFTDAVLEIARNPIQRA" [] [] +"G7272-MONOMER" "CPZ-55 prophage; putative phage integrase IntZ" ["IntZ"] "MSKTPLTAKAIDAAQPQDKPYKLTDSLTPGLFLLVHPNGSKYWRFRYWLNKREFLQAIGVYPLITLKEARRRATESRSLIANGINPVEQARKEKAIDALNMAAGFKKVAEDWFATRVGGWSESYAKQVRSALEKDVYPVLGKRSIVDITARDVLALLQKKERTAPEQARKLRRRIGEIFKFAVITELVTRNPVADLDTALKARRPGHNAWIPISEIPAFYKALERAGSVQIQTAIRLLILTALRTAELRLCRWEWINLEDATITLPAEVMKARRPHVVPLSRQAVELLQDQFTRSGYSAFVFPGRFMDKPLSASAILKALERIGYKSIATGHGWRTTFSTALNESGRYSPDWIEIQLAHVPKGIRGVYNQAAYLKQRRAMMQDYADAIDSILAGNGNPLEPE" [] ["CCO-CYTOSOL"] +"G7273-MONOMER" "CPZ-55 prophage; uncharacterized protein YffL" ["YffL"] "MFATKDPEFENRINTNKSPRNAATCRGRYEKQAKGEFLMSDMLAVEQETNNDVRQFLNKINELRNKAPKNEETKHEEHTPDNHEETDHHEAKQQEQAWRGNLRYLDTLNRLDEVLPRKLYERWEKEHTVNDEAVLRALCYFAGTGKNSQLGWCRVGRGTIDKRARLSKNTVKKCLDRLVNHFKLVERTEGYIPGSAERECNEYQLLFKPYNMK" [] ["CCO-CYTOSOL"] +"G7274-MONOMER" "CPZ-55 prophage; uncharacterized protein YffM" ["YffM"] "MMVIRHECPSYCIAQKRVALREFSELVLGTLSLLLEQKTNGKCSASLYDCSEEEKLFVKRLKLIKADIHAQLKACDCDISE" [] ["CCO-CYTOSOL"] +"G7275-MONOMER" "CPZ-55 prophage; uncharacterized protein YffN" ["YffN"] "MKHVFKYLDFAEDREHAESVATKELKLDHVEKFAIRDLANDIKERGCVELVQPGGFDELVQIYEAGGDGIEPLNCGIESRKVAIAALLRVMREPDFQCLEMVHEIIRIARDLEAPVDAPLDC" [] ["CCO-CYTOSOL"] +"G7276-MONOMER" "CPZ-55 prophage; uncharacterized protein YffO" ["YffO"] "MEGELIENNGLDIYDTSETPKKRGRPAKYNEKIATQIVLLVSEGYSLRKISMMPGMPSHRQMMRWQLEHMDFREGIAWMSWLWCAEAGRRAVEIIDEVDINAEDGPKQLRKAEAKAKALLAAAKLNSLKHSPFGDDKQ" [] ["CCO-CYTOSOL"] +"G7277-MONOMER" "CPZ-55 prophage; uncharacterized protein YffP" ["YffP"] "MSLIRTETRDTKRAADPLHDLRSKPFSEWGEDEIRRFNLIDALLEFVYTDTSSPFGIGMTFDYTECWEIGVRDDCLVMTRVKPVHPEYAKHWNMKGVMNDKTRFHADKWVGYSKVLAWVSLSHKDTFTGAKRFQYFQTMYDMERQINANLPVGGLPNVDTERTGKLFQRDDFSEDSHANDPKLVGDDYVPQAPEQIN" [] ["CCO-CYTOSOL"] +"G7278-MONOMER" "CPZ-55 prophage; uncharacterized protein YffQ" ["YffQ"] "MKLLIAIILMVLTGVCFADVGDYRLNGEDNARIESVVTDNCEKTAVLVGGDRLARVEIEYIATLCKPVALVIIYDRFDDIAAIPLKVTLKKVLKENSDEKINLLNKMGDLAGRIVAEQYLGMSFE" [] ["CCO-MEMBRANE"] +"G7279-MONOMER" "CPZ-55 prophage; uncharacterized protein YffR" ["YffR"] "MKVLGNILWWAFVGFMAYATLIKPDNTDPAVVNYEEPLPMELANYGEPGEGAKIMNAAKIMGRDYAWKHVKEDRLPCLFAAGVVADNILVKYHFSNETEFKLKAAAVRECANVAENNGFVLVGRVFEKRN" [] ["CCO-CYTOSOL"] +"G7280-MONOMER" "CPZ-55 prophage; uncharacterized protein YffS" ["YffS"] "MSYEIKICDILKGAAMEGQYKGAQRGAKCEEIANELTRRGVKNNKGEVITKGGVSHWLEGRREPNFDTLAELCDMFGVYALMPMRGGKWIRVHPEDRGEMELREAVAERDAIIDDLKARIAELEAALANKQVPAEAEEMGGEKVEEVAAEQAPNDEKEMGAKEWVNPNPKKYSVGMLCQVLAAMGGEYLGNNAGLQQKITVLDNDGNRKPISNGAFYRLIEQAKGRGLISVEQEIKHKKDENGNQIGKGKKGDKLITLLPNWIDKLGDE" ["CCO-CYTOSOL"] [] +"G7281-MONOMER" "ethanolamine ammonia-lyase reactivase EutA" ["YffT", "EutA", "reactivating factor for ethanolamine ammonia-lyase"] "MNTRQLLSVGIDIGTTTTQVIFSRLELVNRAAVSQVPRYEFIKREISWQSPVFFTPVDKQGGLKEAELKTLILEQYHAAGIEPESVDSGAIIITGESAKTRNARPAVMALSQSLGDFVVASAGPHLESVIAGHGAGAQTLSEQRLCRVLNIDIGGGTANYALFDAGKISGTACLNVGGRLLETDSHGRVVYAHKPGQMIVDECFGAGTDARSLTGAQLVQVTRRMAELIVEVIDGTLSPLAQALMQTGLLPAGVTPEIITLSGGVGECYRHQPADPFCFADIGPLLATALHDHPRLREMNVQFPAQTVRATVIGAGAHTLSLSGSTIWLEGVQLPLRNLPVAIPIDETDLVGAWQQALIQLDLDPKTDAYVLALPASLPVRYAAVLTVINALVDFVARFPNPHPLLVVAGQDFGKALGMLLRPQLQQLPLAVIDEVIVRAGDYIDIGTPLFGGSVVPVTVKSLAFPS" [] ["CCO-PM-BAC-NEG"] +"G7282-MONOMER" "putative ethanolamine permease EutH" ["YffU", "EutH"] "MGINEIIMYIMMFFMLIAAVDRILSQFGGSARFLGKFGKSIEGSGGQFEEGFMAMGALGLAMVGMTALAPVLAHVLGPVIIPVYEMLGANPSMFAGTLLACDMGGFFLAKELAGGDVAAWLYSGLILGSMMGPTIVFSIPVALGIIEPSDRRYLALGVLAGIVTIPIGCIAGGLVAMYSGVQINGQPVEFTFALILMNMIPVIIVAILVALGLKFIPEKMINGFQIFAKFLVALITLGLAAAVVKFLLGWELIPGLDPIFMAPGDKPGEVMRAIEVIGSISCVLLGAYPMVLLLTRWFEKPLMSVGKVLNMNNIAAAGMVATLANNIPMFGMMKQMDTRGKVINCAFAVSAAFALGDHLGFAAANMNAMIFPMIVGKLIGGVTAIGVAMMLVPKEDATATKTEAEAQS" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7283-MONOMER" "putative alcohol dehydrogenase EutG" ["YffV", "EutG", "putative alcohol dehydrogenase in ethanolamine utilization"] "MQNELQTALFQAFDTLNLQRVKTFSVPPVTLCGPGSVSSCGQQAQTRGLKHLFVMADSFLHQAGMTAGLTRSLTVKGIAMTLWPCPVGEPCITDVCAAVAQLRESGCDGVIAFGGGSVLDAAKAVTLLVTNPDSTLAEMSETSVLQPRLPLIAIPTTAGTGSETTNVTVIIDAVSGRKQVLAHASLMPDVAILDAALTEGVPSHVTAMTGIDALTHAIEAYSALNATPFTDSLAIGAIAMIGKSLPKAVGYGHDLAARESMLLASCMAGMAFSSAGLGLCHAMAHQPGAALHIPHGLANAMLLPTVMEFNRMVCRERFSQIGRALRTKKSDDRDAINAVSELIAEVGIGKRLGDVGATSAHYGAWAQAALEDICLRSNPRTASLEQIVGLYAAAQ" [] ["CCO-PM-BAC-NEG", "CCO-CYTOSOL"] +"G7284-MONOMER" "putative ethanolamine utilization chaperonin EutJ" ["YffW", "EutJ"] "MAHDEQWLTPRLQTAATLCNQTPAATESPLWLGVDLGTCDVVSMVVDRDGQPVAVCLDWADVVRDGIVWDFFGAVTIVRRHLDTLEQQFGRRFSHAATSFPPGTDPRISINVLESAGLEVSHVLDEPTAVADLLQLDNAGVVDIGGGTTGIAIVKKGKVTYSADEATGGHHISLTLAGNRRISLEEAEQYKRGHGEEIWPAVKPVYEKMADIVARHIEGQGITDLWLAGGSCMQPGVAELFRKQFPALQVHLPQHSLFMTPLAIASSGREKAEGLYAK" [] ["CCO-CYTOSOL"] +"G7285-MONOMER" "acetaldehyde dehydrogenase (acetylating) EutE" ["YffX", "EutE", "putative aldehyde dehydrogenase, ethanolamine utilization protein"] "MNQQDIEQVVKAVLLKMQSSDTPSAAVHEMGVFASLDDAVAAAKVAQQGLKSVAMRQLAIAAIREAGEKHARDLAELAVSETGMGRVEDKFAKNVAQARGTPGVECLSPQVLTGDNGLTLIENAPWGVVASVTPSTNPAATVINNAISLIAAGNSVIFAPHPAAKKVSQRAITLLNQAIVAAGGPENLLVTVANPDIETAQRLFKFPGIGLLVVTGGEAVVEAARKHTNKRLIAAGAGNPPVVVDETADLARAAQSIVKGASFDNNIICADEKVLIVVDSVADELMRLMEGQHAVKLTAEQAQQLQPVLLKNIDERGKGTVSRDWVGRDAGKIAAAIGLKVPQETRLLFVETTAEHPFAVTELMMPVLPVVRVANVADAIALAVKLEGGCHHTAAMHSRNIENMNQMANAIDTSIFVKNGPCIAGLGLGGEGWTTMTITTPTGEGVTSARTFVRLRRCVLVDAFRIV" [] ["CCO-CYTOSOL"] +"G7286-MONOMER" "putative ethanolamine catabolic microcompartment shell protein EutN" ["YffY", "EutN", "CchB", "putative carboxysome structural protein"] "MKLAVVTGQIVCTVRHHGLAHDKLLMVEMIDPQGNPDGQCAVAIDNIGAGTGEWVLLVSGSSARQAHKSETSPVDLCVIGIVDEVVSGGQVIFHK" [] ["CCO-CYTOSOL"] +"G7287-MONOMER" "putative ethanolamine catabolic microcompartment shell protein EutM" ["YffZ", "EutM", "CchA", "putative structural protein, ethanolamine utilization microcompartment"] "MEALGMIETRGLVALIEASDAMVKAARVKLVGVKQIGGGLCTAMVRGDVAACKAATDAGAAAAQRIGELVSVHVIPRPHGDLEEVFPIGLKGDSSNL" [] ["CCO-CYTOSOL"] +"G7288-MONOMER" "phosphate acetyltransferase EutD" ["YpfA", "EutD", "EutI"] "MIIERCRELALRAPARVVFPDALDQRVLKAAQYLHQQGLATPILVANPFELRQFALSHGVAMDGLQVIDPHGNLAMREEFAHRWLARAGEKTPPDALEKLTDPLMFAAAMVSAGKADVCIAGNLSSTANVLRAGLRIIGLQPGCKTLSSIFLMLPQYSGPALGFADCSVVPQPTAAQLADIALASAETWRAITGEEPRVAMLSFSSNGSARHPCVANVQQATEIVRERAPKLVVDGELQFDAAFVPEVAAQKAPASPLQGKANVMVFPSLEAGNIGYKIAQRLGGYRAVGPLIQGLAAPMHDLSRGCSVQEIIELALVAAVPRQTEVNRESSLQTLVE" [] ["CCO-CYTOSOL"] +"G7289-MONOMER" "putative ethanolamine utilization cobalamin adenosyltransferase" ["YpfB", "EutT"] "MKDFITEAWLRANHTLSEGAEIHLPADSRLTPSARELLESRHLRIKFIDEQGRLFVDDEQQQPQPVHGLTSSDEHPQACCELCRQPVAKKPDTLTHLSAEKMVAKSDPRLGFRAVLDSTIALAVWLQIELAEPWQPWLADIRSRLGNIMRADALGEPLGCQAIVGLSDEDLHRLSHQPLRYLDHDHLVPEASHGRDAALLNLLRTKVRETETVAAQVFITRSFEVLRPDILQALNRLSSTVYVMMILSVTKQPLTVKQIQQRLGETQ" [] ["CCO-CYTOSOL"] +"G7290-MONOMER" "putative ethanolamine utilization acetate kinase EutQ" ["YpfC", "EutQ"] "MKKLITANDIREAHARGEQAMSVVLRASIITPEAREVADLLGFTITECDESIPVTASVPASVPADKTESQRIRETIIAQLPEGQFTESLVAQLMEKVMKEKQSLEQGAMQPSFKSVTGKGGIKVIDGSSVKFGRFDGAEPHCVGLTDLVTGDDGSSMAAGFMQWENAFFPWTLNYDEIDMVLEGELHVRHEGQTMIAKAGDVMFIPKGSSIEFGTTSSVKFLYVAWPANWQSL" [] ["CCO-CYTOSOL"] +"G7291-MONOMER" "putative ethanolamine utilization acetate kinase EutP" ["YpfD", "EutP", "putative ethanolamine utilization protein EutP with nucleoside triphosphate hydrolase domain"] "MKRIAFVGSVGAGKTTLFNALQGNYTLARKTQAVEFNDKGDIDTPGEYFNHPRWYHALITTLQDVDMLIYVHGANDPESRLPAGLLDIGVSKRQIAVISKTDMPDADVAATRKLLLETGFEEPMFELNSHDPQSVQQLVDYLASLTKQEEAGEKTHHSE" [] ["CCO-CYTOSOL"] +"G7292-MONOMER" "putative ethanolamine catabolic microcompartment shell protein EutS" ["YpfE", "EutS", "putative structural protein, ethanolamine utilization microcompartment"] "MDKERIIQEFVPGKQVTLAHLIAHPGEELAKKIGVPDAGAIGIMTLTPGETAMIAGDLALKAADVHIGFLDRFSGALVIYGSVGAVEEALSQTVSGLGRLLNYTLCEMTKS" [] ["CCO-CYTOSOL"] +"G7295-MONOMER" "DUF1176 domain-containing protein YpfG" ["YpfG"] "MRYRIFLLFFFALLPTSLVWAAPAQRAFSDWQVTCNNQNFCVARNTGDHNGLVMTLSRSAGAHTDAVLRIERGGLKSPEASEGEIAPRLLLDGEPLALSGDKWRISPWLLVTDDTATITAFLQMIQEGKAITLRDGDQTISLSGLKAALLFIDAQQKRVGSETAWIKKGDEPPLSVPPAPALKEVAVVNPTPTPLSLEERNDLLDYGNWRMNGLRCSLDPLRREVNVTALTDDKALMMISCEAGAYNTIDLAWIVSRKKPLASRPVRLRLPFNNGQETNELELMNATFDEKSRELVTLAKGRGLSDCGIQARWRFDGQRFRLVRYAAEPTCDNWHGPDAWPTLWITR" [] ["CCO-PM-BAC-NEG"] +"G7296-MONOMER" "esterase YpfH" ["YpfH"] "MKHDHFVVQSPDKPAQQLLLLFHGVGDNPVAMGEIGNWFAPLFPDALVVSVGGAEPSGNPAGRQWFSVQGITEDNRQARVDAIMPTFIETVRYWQKQSGVGANATALIGFSQGAIMVLESIKAEPGLASRVIAFNGRYASLPETASTATTIHLIHGGEDPVIDLAHAVAAQEALISAGGDVTLDIVEDLGHAIDNRSMQFALDHLRYTIPKHYFDEALSGGKPGDDDVIEMM" [] ["CCO-CYTOSOL"] +"G7297-MONOMER" "tRNAMet cytidine acetyltransferase" ["YpfI", "TmcA"] "MAELTALHTLTAQMKREGIRRLLVLSGEEGWCFEHTLKLRDALPGDWLWISPRPDAENHCSPSALQTLLGREFRHAVFDARHGFDAAAFAALSGTLKAGSWLVLLLPVWEEWENQPDADSLRWSDCPDPIATPHFVQHLKRVLTADNEAILWRQNQPFSLAHFTPRTDWYPATGAPQPEQQQLLKQLMTMPPGVAAVTAARGRGKSALAGQLISRIAGRAIVTAPAKASTDVLAQFAGEKFRFIAPDALLASDEQADWLVVDEAAAIPAPLLHQLVSRFPRTLLTTTVQGYEGTGRGFLLKFCARFPHLHRFELQQPIRWAQGCPLEKMVSEALVFDDENFTHTPQGNIVISAFEQTLWQSDPETPLKVYQLLSGAHYRTSPLDLRRMMDAPGQHFLQAAGENEIAGALWLVDEGGLSQQLSQAVWAGFRRPRGNLVAQSLAAHGNNPLAATLRGRRVSRIAVHPARQREGTGRQLIAGALQYTQDLDYLSVSFGYTGELWRFWQRCGFVLVRMGNHREASSGCYTAMALLPMSDAGKQLAEREHYRLRRDAQALAQWNGETLPVDPLNDAVLSDDDWLELAGFAFAHRPLLTSLGCLLRLLQTSELALPALRGRLQKNASDAQLCTTLKLSGRKMLLVRQREEAAQALFALNDVRTERLRDRITQWQLFH" [] ["CCO-PM-BAC-NEG", "CCO-CYTOSOL"] +"G7298-MONOMER" "uncharacterized protein YpfJ" ["YpfJ"] "MRWQGRRESDNVEDRRNSSGGPSMGGPGFRLPSGKGGLILLIVVLVAGYYGVDLTGLMTGQPVSQQQSTRSISPNEDEAAKFTSVILATTEDTWGQQFEKMGKTYQQPKLVMYRGMTRTGCGAGQSIMGPFYCPADGTVYIDLSFYDDMKDKLGADGDFAQGYVIAHEVGHHVQKLLGIEPKVRQLQQNATQAEVNRLSVRMELQADCFAGVWGHSMQQQGVLETGDLEEALNAAQAIGDDRLQQQSQGRVVPDSFTHGTSQQRYSWFKRGFDSGDPAQCNTFGKSI" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7307-MONOMER" "putative hydrogenase 4 assembly protein" ["HyfJ"] "MTEECGEIVFWTLRKKFVASSDEMPEHSSQVMYYSLAIGHHVGVIDCLNVAFRCPLTEYEDWLALVEEEQARRKMLGVMTFGEIVIDASHTALLTRAFAPLADDATSVWQARSIQFIHLLDEIVQEPAIYLMARKIA" [] ["CCO-PM-BAC-NEG", "CCO-CYTOSOL"] +"G7308-MONOMER" "DNA-binding transcriptional activator HyfR" ["HyfR"] "MAMSDEAMFAPPQGITIEAVNGMLAERLAQKHGKASLLRAFIPLPPPFSPVQLIELHVLKSNFYYRYHDDGSDVTATTEYQGEMVDYSRHAVLLGSSGMAELRFIRTHGSRFTSQDCTLFNWLARIITPVLQSWLNDEEQQVALRLLEKDRDHHRVLVDITNAVLSHLDLDDLIADVAREIHHFFGLASVSMVLGDHRKNEKFSLWCSDLSASHCACLPRCMPGESVLLTQTLQTRQPTLTHRADDLFLWQRDPLLLLLASNGCESALLIPLTFGNHTPGALLLAHTSSTLFSEENCQLLQHIADRIAIAVGNADAWRSMTDLQESLQQENHQLSEQLLSNLGIGDIIYQSQAMEDLLQQVDIVAKSDSTVLICGETGTGKEVIARAIHQLSPRRDKPLVKINCAAIPASLLESELFGHDKGAFTGAINTHRGRFEIADGGTLFLDEIGDLPLELQPKLLRVLQEREIERLGGSRTIPVNVRVIAATNRDLWQMVEDRQFRSDLFYRLNVFPLELPPLRDRPEDIPLLAKHFTQKMARHMNRAIDAIPTEALRQLMSWDWPGNVRELENVIERAVLLTRGNSLNLHLNVRQSRLLPTLNEDSALRSSMAQLLHPTTPENDEEERQRIVQVLRETNGIVAGPRGAATRLGMKRTTLLSRMQRLGISVREVL" [] ["CCO-CYTOSOL"] +"G7310-MONOMER" "putative transporter YfgO" ["YfgO", "PerM"] "MLEMLMQWYRRRFSDPEAIALLVILVAGFGIIFFFSGLLAPLLVAIVLAYLLEWPTVRLQSIGCSRRWATSIVLVVFVGILLLMAFVVLPIAWQQGIYLIRDMPGMLNKLSDFAATLPRRYPALMDAGIIDAMAENMRSRMLTMGDSVVKISLASLVGLLTIAVYLVLVPLMVFFLLKDKEQMLNAVRRVLPRNRGLAGQVWKEMNQQITNYIRGKVLEMIVVGIATWLGFLLFGLNYSLLLAVLVGFSVLIPYIGAFVVTIPVVGVALFQFGAGTEFWSCFAVYLIIQALDGNLLVPVLFSEAVNLHPLVIILSVVIFGGLWGFWGVFFAIPLATLIKAVIHAWPDGQIAQE" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7311-MONOMER" "β-barrel assembly-enhancing protease" ["BepA", "YfgC"] "MFRQLKKNLVATLIAAMTIGQVAPAFADSADTLPDMGTSAGSTLSIGQEMQMGDYYVRQLRGSAPLINDPLLTQYINSLGMRLVSHANSVKTPFHFFLINNDEINAFAFFGGNVVLHSALFRYSDNESQLASVMAHEISHVTQRHLARAMEDQQRSAPLTWVGALGSILLAMASPQAGMAALTGTLAGTRQGMISFTQQNEQEADRIGIQVLQRSGFDPQAMPTFLEKLLDQARYSSRPPEILLTHPLPESRLADARNRANQMRPMVVQSSEDFYLAKARTLGMYNSGRNQLTSDLLDEWAKGNVRQQRAAQYGRALQAMEANKYDEARKTLQPLLAAEPGNAWYLDLATDIDLGQNKANEAINRLKNARDLRTNPVLQLNLANAYLQGGQPQEAANILNRYTFNNKDDSNGWDLLAQAEAALNNRDQELAARAEGYALAGRLDQAISLLSSASSQVKLGSLQQARYDARIDQLRQLQERFKPYTKM" ["CCO-MEMBRANE"] ["CCO-PERI-BAC", "CCO-MEMBRANE"] +"G7312-MONOMER" "putative oxidoreductase YfgD" ["YfgD"] "MTKQVKIYHNPRCSKSRETLNLLKENGVEPEVVLYLETPADAATLRDLLKILGMNSARELMRQKEDLYKELNLADSSLSEEALIQAMVDNPKLMERPIVVANGKARIGRPPEQVLEIVG" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7313-MONOMER" "inibitor of reinitiation of DNA replication" ["IdaB", "Hda", "YfgE", "regulator of DnaA that prevents premature reinitiation of DNA replication"] "MNTPAQLSLPLYLPDDETFASFWPGDNSSLLAALQNVLRQEHSGYIYLWAREGAGRSHLLHAACAELSQRGDAVGYVPLDKRTWFVPEVLDGMEHLSLVCIDNIECIAGDELWEMAIFDLYNRILESGKTRLLITGDRPPRQLNLGLPDLASRLDWGQIYKLQPLSDEDKLQALQLRARLRGFELPEDVGRFLLKRLDREMRTLFMTLDQLDRASITAQRKLTIPFVKEILKL" ["CCO-CYTOSOL", "CCO-MEMBRANE"] ["CCO-PM-BAC-NEG", "CCO-CYTOSOL", "CCO-MEMBRANE"] +"G7314-MONOMER" "cyclic di-GMP phosphodiesterase PdeF" ["PdeF", "YfgF"] "MKLNATYIKIRDKWWGLPLFLPSLILPIFAHINTFAHISSGEVFLFYLPLALMISMMMFFSWAALPGIALGIFVRKYAELGFYETLSLTANFIIIIILCWGGYRVFTPRRNNVSHGDTRLISQRIFWQIVFPATLFLILFQFAAFVGLLASRENLVGVMPFNLGTLINYQALLVGNLIGVPLCYFIIRVVRNPFYLRSYYSQLKQQVDAKVTKKEFALWLLALGALLLLLCMPLNEKSTIFSTNYTLSLLLPLMMWGAMRYGYKLISLLWAVVLMISIHSYQNYIPIYPGYTTQLTITSSSYLVFSFIVNYMAVLATRQRAVVRRIQRLAYVDPVVHLPNVRALNRALRDAPWSALCYLRIPGMEMLVKNYGIMLRIQYKQKLSHWLSPLLEPGEDVYQLSGNDLALRLNTESHQERITALDSHLKQFRFFWDGMPMQPQIGVSYCYVRSPVNHIYLLLGELNTVAELSIVTNAPENMQRRGAMYLQRELKDKVAMMNRLQQALEHNHFFLMAQPITGMRGDVYHEILLRMKGENDELISPDSFLPVAHEFGLSSSIDMWVIEHTLQFMAENRAKMPAHRFAINLSPTSVCQARFPVEVSQLLAKYQIEAWQLIFEVTESNALTNVKQAQITLQHLQELGCQIAIDDFGTGYASYARLKNVNADLLKIDGSFIRNIVSNSLDYQIVASICHLARMKKMLVVAEYVENEEIREAVLSLGIDYMQGYLIGKPQPLIDTLNEIEPIRESA" ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"G7315-MONOMER" "nickel/cobalt stress response protein YfgG" ["YfgG"] "MSQATSMRKRHRFNSRMTRIVLLISFIFFFGRFIYSSVGAWQHHQSKKEAQQSTLSVESPVQR" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7316-MONOMER" "lipoprotein YfgH" ["YfgH"] "MMKFKKCLLPVAMLASFTLAGCQSNADDHAADVYQTDQLNTKQETKTVNIISILPAKVAVDNSQNKRNAQAFGALIGAVAGGVIGHNVGSGSNSGTTAGAVGGGAVGAAAGSMVNDKTLVEGVSLTYKEGTKVYTSTQVGKECQFTTGLAVVITTTYNETRIQPNTKCPEKS" ["CCO-OUTER-MEM"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"G7317-MONOMER" "nalidixic acid resistance protein YfgI" ["YfgI", "conserved protein, involved in DNA damage response"] "MKKVFLCAILASLSYPAIASSLQDQLSAVAEAEQQGKNEEQRQHDEWVAERNREIQQEKQRRANAQAAANKRAATAAANKKARQDKLDAEASADKKRDQSYEDELRSLEIQKQKLALAKEEARVKRENEFIDQELKHKAAQTDVVQSEADANRNMTEGGRDLMKSVGKAEENKSDSWFN" [] ["CCO-CYTOSOL"] +"G7318-MONOMER" "zinc ribbon domain-containing protein YfgJ" ["YfgJ"] "MELHCPQCQHVLDQDNGHARCRSCGEFIEMKALCPDCHQPLQVLKACGAVDYFCQHGHGLISKKRVEFVLA" [] ["CCO-CYTOSOL"] +"G7319-MONOMER" "50S ribosomal subunit stability factor" ["Der", "YfgK", "EngA"] "MVPVVALVGRPNVGKSTLFNRLTRTRDALVADFPGLTRDRKYGRAEIEGREFICIDTGGIDGTEDGVETRMAEQSLLAIEEADVVLFMVDARAGLMPADEAIAKHLRSREKPTFLVANKTDGLDPDQAVVDFYSLGLGEIYPIAASHGRGVLSLLEHVLLPWMEDLAPQEEVDEDAEYWAQFEAEENGEEEEEDDFDPQSLPIKLAIVGRPNVGKSTLTNRILGEERVVVYDMPGTTRDSIYIPMERDGREYVLIDTAGVRKRGKITDAVEKFSVIKTLQAIEDANVVMLVIDAREGISDQDLSLLGFILNSGRSLVIVVNKWDGLSQEVKEQVKETLDFRLGFIDFARVHFISALHGSGVGNLFESVREAYDSSTRRVGTSMLTRIMTMAVEDHQPPLVRGRRVKLKYAHAGGYNPPIVVIHGNQVKDLPDSYKRYLMNYFRKSLDVMGSPIRIQFKEGENPYANKRNTLTPTQMRKRKRLMKHIKKNK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7320-MONOMER" "outer membrane protein assembly factor BamB" ["YfgL"] "MQLRKLLLPGLLSVTLLSGCSLFNSEEDVVKMSPLPTVENQFTPTTAWSTSVGSGIGNFYSNLHPALADNVVYAADRAGLVKALNADDGKEIWSVSLAEKDGWFSKEPALLSGGVTVSGGHVYIGSEKAQVYALNTSDGTVAWQTKVAGEALSRPVVSDGLVLIHTSNGQLQALNEADGAVKWTVNLDMPSLSLRGESAPTTAFGAAVVGGDNGRVSAVLMEQGQMIWQQRISQATGSTEIDRLSDVDTTPVVVNGVVFALAYNGNLTALDLRSGQIMWKRELGSVNDFIVDGNRIYLVDQNDRVMALTIDGGVTLWTQSDLLHRLLTSPVLYNGNLVVGDSEGYLHWINVEDGRFVAQQKVDSSGFQTEPVAADGKLLIQAKDGTVYSITR" ["CCO-OUTER-MEM"] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"G7321-MONOMER" "ancillary SecYEG translocon subunit" ["YfgM"] "MEIYENENDQVEAVKRFFAENGKALAVGVILGVGALIGWRYWNSHQVDSARSASLAYQNAVTAVSEGKPDSIPAAEKFAAENKNTYGALASLELAQQFVDKNELEKAAAQLQQGLADTSDENLKAVINLRLARVQVQLKQADAALKTLDTIKGEGWAAIVADLRGEALLSKGDKQGARSAWEAGVKSDVTPALSEMMQMKINNLSI" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7322-MONOMER" "peptidoglycan glycosyltransferase PbpC" ["YfgN", "PbpC", "PBP1C"] "MPRLLTKRGCWITLAAAPFLLFLAAWGADKLWPLPLHEVNPARVVVAQDGTPLWRFADADGIWRYPVTIEDVSPRYLEALINYEDRWFWKHPGVNPFSVARAAWQDLTSGRVISGGSTLTMQVARLLDPHPKTFGGKIRQLWRALQLEWHLSKREILTLYLNRAPFGGTLQGIGAASWAYLGKSPANLSYSEAAMLAVLPQAPSRLRPDRWPERAEAARNKVLERMAVQGVWSREQVKESREEPIWLAPRQMPQLAPLFSRMMLGKSKSDKITTTLDAGLQRRLEELAQNWKGRLPPRSSLAMIVVDHTDMRVRGWVGSVDLNDDSRFGHVDMVNSIRSPGSVLKPFVYGLALDEGLIHPASLLQDVPRRTGDYRPGNFDSGFHGPISMSEALVRSLNLPAVQVLEAYGPKRFAAKLRNVGLPLYLPNGAAPNLSLILGGAGAKLEDMAAAYTAFARHGKAGKLRLQPDDPLLERPLMSSGAAWIIRRIMADEAQPLPDSALPRVAPLAWKTGTSYGYRDAWAIGVNARYVIGIWTGRPDGTPVVGQFGFASAVPLLNQVNNILLSRSANLPEDPRPNSVTRGVICWPGGQSLPEGDGNCRRRLATWLLDGSQPPTLLLPEQEGINGIRFPIWLDENGKRVAADCPQARQEMINVWPLPLEPWLPASERRAVRLPPASTSCPPYGHDAQLPLQLTGVRDGAIIKRLPGAAEATLPLQSSGGAGERWWFLNGEPLTERGRNVTLHLTDKGDYQLLVMDDVGQIATVKFVMQ" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"G7323-MONOMER" "α2-macroglobulin" ["YfhM", "ECAM"] "MKKLRVAACMLMLALAGCDNNDNAPTAVKKDAPSEVTKAASSENASSAKLSVPERQKLAQQSAGKVLTLLDLSEVQLDGAATLVLTFSIPLDPDQDFSRVIHVVDKKSGKVDGAWELSDNLKELRLRHLEPKRDLIVTIGKEVKALNNATFSKDYEKTITTRDIQPSVGFASRGSLLPGKVVEGLPVMALNVNNVDVNFFRVKPESLPAFISQWEYRNSLANWQSDKLLQMADLVYTGRFDLNPARNTREKLLLPLGDIKPLQQAGVYLAVMNQAGRYDYSNPATLFTLSDIGVSAHRYHNRLDIFTQSLENGAAQQGIEVSLLNEKGQTLTQATSDAQGHVQLENDKNAALLLARKDGQTTLLDLKLPALDLAEFNIAGAPGYSKQFFMFGPRDLYRPGETVILNGLLRDADGKALPNQPIKLDVIKPDGQVLRSVVSQPENGLYHFTWPLDSNAATGMWHIRANTGDNQYRMWDFHVEDFMPERMALNLTGEKTPLTPKDEVKFSVVGYYLYGAPANGNTLQGQLFLRPLREAVSALPGFEFGDIAAENLSRTLDEVQLTLDDKGRGEVSTESQWKETHSPLQVIFQGSLLESGGRPVTRRAEQAIWPADALPGIRPQFASKSVYDYRTDSTVKQPIVDEGSNAAFDIVYSDAQGVKKAVSGLQVRLIRERRDYYWNWSEDEGWQSQFDQKDLIENEQTLDLKADETGKVSFPVEWGAYRLEVKAPNEAVSSVRFWAGYSWQDNSDGSGAVRPDRVTLKLDKASYRPGDTIKLHIAAPTAGKGYAMVESSEGPLWWQEIDVRAQGLDLTIPVDKTWNRHDLYLSTLVVRPGDKSRSATPKRAVGVLHLPLGDENRRLDLALETPAKMRPNQPLTVKIKASTKNGEKPKQVNVLVSAVDSGVLNITDYVTPDPWQAFFGQKRYGADIYDIYGQVIEGQGRLAALRFGGDGDELKRGGKPPVNHVNIVVQQALPVTLNEQGEGSVTLPIGDFNGELRVMAQAWTADDFGSNESKVIVAAPVIAELNMPRFMASGDTSRLTLDITNLTDKPQKLNVALTASGLLELVSDSPAAVELAPGVRTTLFIPVRALPGYGDGEIQATISGLALPGETVADQHKQWKIGVRPAFPAQTVNYGTALQPGETWAIPADGLQNFSPVTLEGQLLLSGKPPLNIARYIKELKAYPYGCLEQTASGLFPSLYTNAAQLQALGIKGDSDEKRRASVDIGISRLLQMQRDNGGFALWDKNGDEEYWLTAYVMDFLVRAGEQGYSVPTDAINRGNERLLRYLQDPGMMSIPYADNLKASKFAVQSYAALVLARQQKAPLGALREIWEHRADAASGLPLLQLGVALKTMGDATRGEEAIALALKTPRNSDERIWLGDYGSSLRDNALMLSLLEENKLLPDEQYTLLNTLSQQAFGERWLSTQESNALFLAARTIQDLPGKWQAQTSFSAEQLTGEKAQNSNLNSDQLVTLQVSNSGDQPLWLRMDASGYPQSAPLPANNVLQIERHILGTDGKSKSLDSLRSGDLVLVWLQVKASNSVPDALVVDLLPAGLELENQNLANGSASLEQSGGEVQNLLNQMQQASIKHIEFRDDRFVAAVAVDEYQPVTLVYLARAVTPGTYQVPQPMVESMYVPQWRATGAAEDLLIVRP" ["CCO-PM-BAC-NEG"] ["CCO-EXTRACELLULAR", "CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7324-MONOMER" "scaffold protein for iron-sulfur cluster assembly" ["NifU", "YfhN", "IscU"] "MAYSEKVIDHYENPRNVGSFDNNDENVGSGMVGAPACGDVMKLQIKVNDEGIIEDARFKTYGCGSAIASSSLVTEWVKGKSLDEAQAIKNTDIAEELELPPVKIHCSILAEDAIKAAIADYKSKREAK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7325-MONOMER" "cysteine desulfurase IscS" ["NuvC", "YzzO", "YfhO", "IscS"] "MKLPIYLDYSATTPVDPRVAEKMMQFMTMDGTFGNPASRSHRFGWQAEEAVDIARNQIADLVGADPREIVFTSGATESDNLAIKGAANFYQKKGKHIITSKTEHKAVLDTCRQLEREGFEVTYLAPQRNGIIDLKELEAAMRDDTILVSIMHVNNEIGVVQDIAAIGEMCRARGIIYHVDATQSVGKLPIDLSQLKVDLMSFSGHKIYGPKGIGALYVRRKPRVRIEAQMHGGGHERGMRSGTLPVHQIVGMGEAYRIAKEEMATEMERLRGLRNRLWNGIKDIEEVYLNGDLEHGAPNILNVSFNYVEGESLIMALKDLAVSSGSACTSASLEPSYVLRALGLNDELAHSSIRFSLGRFTTEEEIDYTIELVRKSIGRLRDLSPLWEMYKQGVDLNSIEWAHH" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7326-MONOMER" "DNA-binding transcriptional dual regulator IscR" ["IscR", "YfhP"] "MRLTSKGRYAVTAMLDVALNSEAGPVPLADISERQGISLSYLEQLFSRLRKNGLVSSVRGPGGGYLLGKDASSIAVGEVISAVDESVDATRCQGKGGCQGGDKCLTHALWRDLSDRLTGFLNNITLGELVNNQEVLDVSGRQHTHDAPRTRTQDAIDVKLRA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7327-MONOMER" "tRNA Cm32/Um32 methyltransferase" ["YfhQ", "TrmJ", "TrMet(Xm32)"] "MLQNIRIVLVETSHTGNMGSVARAMKTMGLTNLWLVNPLVKPDSQAIALAAGASDVIGNAHIVDTLDEALAGCSLVVGTSARSRTLPWPMLDPRECGLKSVAEAANTPVALVFGRERVGLTNEELQKCHYHVAIAANPEYSSLNLAMAVQVIAYEVRMAWLATQENGEQVEHEETPYPLVDDLERFYGHLEQTLLATGFIRENHPGQVMNKLRRLFTRARPESQELNILRGILASIEQQNKGNKAE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7328-MONOMER" "putative peptidase" ["YfhR"] "MALPVNKRVPKILFILFVVAFCVYLVPRVAINFFYYPDDKIYGPDPWSAESVEFTAKDGTRLQGWFIPSSTGPADNAIATIIHAHGNAGNMSAHWPLVSWLPERNFNVFMFDYRGFGKSKGTPSQAGLLDDTQSAINVVRHRSDVNPQRLVLFGQSIGGANILDVIGRGDREGIRAVILDSTFASYATIANQMIPGSGYLLDESYSGENYIASVSPIPLLLIHGKADHVIPWQHSEKLYSLAKEPKRLILIPDGEHIDAFSDRHGDVYREQMVDFILSALNPQN" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7329-MONOMER" "stationary phase-inducible protein CsiE" ["CsiE"] "MMPTLAPPSVLSAPQRRCQILLTLFQPGLTATMATFSELNGVDDDIASLDISETGREILRYHQLTLTTGYDGSYRVEGTVLNQRLCLFHWLRRGFRLCPSFITSQFTPALKSELKRRGIARNFYDDTNLQALVNLCSRRLQKRFESRDIHFLCLYLQYCLLQHHAGITPQFNPLQRRWAESCLEFQVAQEIGRHWQRRALQPVPPDEPLFMALLFSMLRVPDPLRDAHQRDRQLRQSIKRLVNHFRELGNVRFYDEQGLCDQLYTHLAQALNRSLFAIGIDNTLPEEFARLYPRLVRTTRAALAGFESEYGVHLSDEESGLVAVIFGAWLMQENDLHEKQIILLTGNDSEREAQIEQQLRELTLLPLNIKHMSVKAFLQTGAPRGAALIIAPYTMPLPLFSPPLIYTDLTLTTHQQEQIRKMLESA" [] ["CCO-CYTOSOL"] +"G7331-MONOMER" "DNA-binding transcriptional dual regulator HcaR" ["PhdR", "HcaR", "YfhT"] "MELRHLRYFVAVAQALNFTRAAEKLHTSQPSLSSQIRDLENCVGVPLLVRDKRKVALTAAGECFLQDALAILEQAENAKLRARKIVQEDRQLTIGFVPSAEVNLLPKVLPMFRLRQPDTLIELVSLITTQQEEKIRRGELDVGLMRHPVYSPEIDYLELFDEPLVVVLPVDHPLAHEKEITAAQLDGVNFVSTDPVYSGSLAPIVKAWFAQENSQPNIVQVATNILVTMNLVGMGLGVTLIPGYMNNFNTGQVVFRPIAGNVPSIALLMAWKKGEMKPALRDFIAIVQERLASVTA" [] ["CCO-CYTOSOL"] +"G7337-MONOMER" "putative inner membrane protein" ["YphA"] "MNTLRYFDFGAARPVLLLIARIAVVLIFIIFGFPKMMGFDGTVQYMASLGAPMPMLAAIIAVVMEVPAAILIVLGFFTRPLAVLFIFYTLGTAVIGHHYWDMTGDAVGPNMINFWKNVSIAGAFLLLAITGPGAISLDRR" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7338-MONOMER" "putative aldose 1-epimerase YphB" ["YphB", "putative sulfoquinovose mutarotase YphB"] "MTIYTLSHGSLKLDVSDQGGVIEGFWRDTTPLLRPGKKSGVATDASCFPLVPFANRVSGNRFVWQGREYQLQPNVEWDAHYLHGDGWLGEWQCVSHSDDSLCLVYEHRSGVYHYRVSQAFHLTADTLTVTLSVTNQGAETLPFGTGWHPYFPLSPQTRIQAQASGYWLEREQWLAGEFCEQLPQELDFNQPAPLPRQWVNNGFAGWNGQARIEQPQEGYAIIMETTPPAPCYFIFVSDPAFDKGYAFDFFCLEPMSHAPDDHHRPEGGDLIALAPGESTTSEMSLRVEWL" [] ["CCO-CYTOSOL"] +"G7342-MONOMER" "putative ABC transporter periplasmic binding protein YphF" ["YphF"] "MPTKMRTTRNLLLMATLLGSALFARAAEKEMTIGAIYLDTQGYYAGVRQGVQDAAKDSSVQVQLIETNAQGDISKESTFVDTLVARNVDAIILSAVSENGSSRTVRRASEAGIPVICYNTCINQKGVDKYVSAYLVGDPLEFGKKLGNAAADYFIANKIDQPKIAVINCEAFEVCVQRRKGFEEVLKSRVPGAQIVANQEGTVLDKAISVGEKLIISTPDLNAIMGESGGATLGAVKAVRNQNQAGKIAVFGSDMTTEIAQELENNQVLKAVVDISGKKMGNAVFAQTLKVINKQADGEKVIQVPIDLYTKTEDGKQWLATHVDGLP" [] ["CCO-PERI-BAC"] +"G7343-MONOMER" "DUF5107 domain-containing protein YphG" ["YphG"] "MTPVKVWQERVEIPTYETGPQDIHPMFLENRVYQGSSGAVYPYGVTDTLSEQKTLKSWQAVWLENDYIKVMILPELGGRVHRAWDKVKQRDFVYHNEVIKPALVGLLGPWISGGIEFNWPQHHRPTTFMPVDFTLEAHEDGAQTVWVGETEPMHGLQVMTGFTLRPDRAALEIASRVYNGNATPRHFLWWANPAVKGGEGHQSVFPPDVTAVFDHGKRAVSAFPIATGTYYKVDYSAGVDISRYKNVPVPTSYMAEKSQYDFVGAWCHDEDGGLLHVANHHIAPGKKQWSWGHSEFGQAWDKSLTDNNGPYIELMTGIFADNQPDFTWLDAYEEKRFEQYFLPYHSLGMVQNASRDAVIKLQRSKRGIEWGLYAISPLNGYRLAIREIGKCNALLDDAVALMPATAIQGVLHGINPERLTIELSDADGNIVLSYQEHQPQALPLPDVAKAPLAAQDITSTDEAWFIGQHLEQYHHASRSPFDYYLRGVALDPLDYRCNLALAMLEYNRADFPQAVAYATQALKRAHALNKNPQCGQASLIRASAYERQGQYQQAEEDFWRAVWSGNSKAGGYYGLARLAARNGNFDAGLDFCQQSLRACPTNQEVLCLHNLLLVLSGRQDNARVQREKLLRDYPLNATLWWLNWFDGRSESALAQWRGLCQGRDVNALMTAGQLINWGMPTLAAEMLNALDCQRTLPLYLQASLLPKAERGELVAKAIDVFPQFVRFPNTLEEVAALESIEECWFARHLLACFYYNKRSYNKAIAFWQRCVEMSPEFADGWRGLAIHAWNKQHDYELAARYLDNAYQLAPQDARLLFERDLLDKLSGATPEKRLARLENNLEIALKRDDMTAELLNLWHLTGQADKAADILATRKFHPWEGGEGKVTSQFILNQLLRAWQHLDARQPQQACELLHAALHYPENLSEGRLPGQTDNDIWFWQAICANAQGDETEATRCLRLAATGDRTINIHSYYNDQPVDYLFWQGMALRLLGEQQTAQQLFSEMKQWAQEMAKTSIEADFFAVSQPDLLSLYGDLQQQHKEKCLMVAMLASAGLGEVAQYESARAELTAINPAWPKAALFTTVMPFIFNRVH" [] ["CCO-CYTOSOL"] +"G7344-MONOMER" "putative DNA-binding transcriptional regulator, NAGC-like" ["YphH"] "MRACINNQQIRHHNKCVILELLYRQKRANKSTLARLAQISIPAVSNILQELESEKRVVNIDDESQTRGHSSGTWLIAPEGDWTLCLNVTPTSIECQVANACLSPKGEFEYLQIDAPTPQALLSEIEKCWHRHRKLWPDHTINLALAIHGQVDPVTGVSQTMPQAPWTTPVEVKYLLEEKLGIRVMVDNDCVMLALAEKWQNNSQERDFCVINVDYGIGSSFVINEQIYRGSLYGSGQIGHTIVNPDGVVCDCGRYGCLETVASLSALKKQARVWLKSQPVSTQLDPEKLTTAQLIAAWQSGEPWITSWVDRSANAIGLSLYNFLNILNINQIWLYGRSCAFGENWLNTIIRQTGFNPFDRDEGPSVKATQIGFGQLSRAQQVLGIGYLYVEAQLRQI" [] ["CCO-CYTOSOL"] +"G7345-MONOMER" "histidine kinase GlrK" ["QseE", "GlrK", "YfhZ", "YfhK"] "MKRWPVFPRSLRQLVMLAFLLILLPLLVLAWQAWQSLNALSDQAALVNRTTLIDARRSEAMTNAALEMERSYRQYCVLDDPTLAKVYQSQRKRYSEMLDAHAGVLPDDKLYQALRQDLHNLAQLQCNNSGPDAAAAARLEAFASANTEMVQATRTVVFSRGQQLQREIAERGQYFGWQSLVLFLVSLVMVLLFTRMIIGPVKNIERMINRLGEGRSLGNSVSFSGPSELRSVGQRILWLSERLSWLESQRHQFLRHLSHELKTPLASMREGTELLADQVVGPLTPEQKEVVSILDSSSRNLQKLIEQLLDYNRKQADSAVELENVELAPLVETVVSAHSLPARAKMMHTDVDLKATACLAEPMLLMSVLDNLYSNAVHYGAESGNICLRSSLHGARVYIDVINTGTPIPQEERAMIFEPFFQGSHQRKGAVKGSGLGLSIARDCIRRMQGELYLVDESGQDVCFRIELPSSKNTK" [] ["CCO-MEMBRANE", "CCO-PERI-BAC", "CCO-PM-BAC-NEG"] +"G7346-MONOMER" "putative 4Fe-4S cluster-containing protein YfhL" ["YfhL"] "MALLITKKCINCDMCEPECPNEAISMGDHIYEINSDKCTECVGHYETPTCQKVCPIPNTIVKDPAHVETEEQLWDKFVLMHHADKI" [] ["CCO-CYTOSOL"] +"G7347-MONOMER" "protein RseC" ["RseC", "SoxR and σE factor regulatory protein RseC"] "MIKEWATVVSWQNGQALVSCDVKASCSSCASRAGCGSRVLNKLGPQTTHTIVVPCDEPLVPGQKVELGIAEGSLLSSALLVYMSPLVGLFLIASLFQLLFASDVAALCGAILGGIGGFLIARGYSRKFAARAEWQPIILSVALPPGLVRFETSSEDASQ" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7348-MONOMER" "anti-sigma factor stabilizing protein RseB" ["RseB"] "MKQLWFAMSLVTGSLLFSANASATPASGALLQQMNLASQSLNYELSFISINKQGVESLRYRHARLDNRPLAQLLQMDGPRREVVQRGNEISYFEPGLEPFTLNGDYIVDSLPSLIYTDFKRLSPYYDFISVGRTRIADRLCEVIRVVARDGTRYSYIVWMDTESKLPMRVDLLDRDGETLEQFRVIAFNVNQDISSSMQTLAKANLPPLLSVPVGEKAKFSWTPTWLPQGFSEVSSSRRPLPTMDNMPIESRLYSDGLFSFSVNVNRATPSSTDQMLRTGRRTVSTSVRDNAEITIVGELPPQTAKRIAENIKFGAAQ" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"G7349-MONOMER" "tRNA 3-amino-3-carboxypropyltransferase" ["TuaA", "TapT", "YfiP", "tRNA aminocarboxypropyltransferase", "DTW domain-containing protein YfiP"] "MTENAVLQLRAERIARATRPFLARGNRVRRCQRCLLPEKLCLCSTITPAQAKSRFCLLMFDTEPMKPSNTGRLIADILPDTVAFQWSRTEPSQDLLELVQNPDYQPMVVFPASYADEQREVIFTPPAGKPPLFIMLDGTWPEARKMFRKSPYLDNLPVISVDLSRLSAYRLREAQAEGQYCTAEVAIALLDMAGDTGAAAGLGEHFTRFKTRYLAGKTQHLGSITAEQLESV" [] ["CCO-CYTOSOL"] +"G7350-MONOMER" "peptidyl-lysine N-acetyltransferase" ["PatZ", "Pka", "YfiQ"] "MSQRGLEALLRPKSIAVIGASMKPNRAGYLMMRNLLAGGFNGPVLPVTPAWKAVLGVLAWPDIASLPFTPDLAVLCTNASRNLALLEELGEKGCKTCIILSAPASQHEDLRACALRHNMRLLGPNSLGLLAPWQGLNASFSPVPIKRGKLAFISQSAAVSNTILDWAQQRKMGFSYFIALGDSLDIDVDELLDYLARDSKTSAILLYLEQLSDARRFVSAARSASRNKPILVIKSGRSPAAQRLLNTTAGMDPAWDAAIQRAGLLRVQDTHELFSAVETLSHMRPLRGDRLMIISNGAAPAALALDALWSRNGKLATLSEETCQKLRDALPEHVAISNPLDLRDDASSEHYIKTLDILLHSQDFDALMVIHSPSAAAPATESAQVLIEAVKHHPRSKYVSLLTNWCGEHSSQEARRLFSEAGLPTYRTPEGTITAFMHMVEYRRNQKQLRETPALPSNLTSNTAEAHLLLQQAIAEGATSLDTHEVQPILQAYGMNTLPTWIASDSTEAVHIAEQIGYPVALKLRSPDIPHKSEVQGVMLYLRTANEVQQAANAIFDRVKMAWPQARVHGLLVQSMANRAGAQELRVVVEHDPVFGPLIMLGEGGVEWRPEDQAVVALPPLNMNLARYLVIQGIKSKKIRARSALRPLDVAGLSQLLVQVSNLIVDCPEIQRLDIHPLLASGSEFTALDVTLDISPFEGDNESRLAVRPYPHQLEEWVELKNGERCLFRPILPEDEPQLQQFISRVTKEDLYYRYFSEINEFTHEDLANMTQIDYDREMAFVAVRRIDQTEEILGVTRAISDPDNIDAEFAVLVRSDLKGLGLGRRLMEKLITYTRDHGLQRLNGITMPNNRGMVALARKLGFNVDIQLEEGIVGLTLNLAQREES" [] ["CCO-PM-BAC-NEG"] +"G7352-MONOMER" "outer membrane protein assembly factor BamD" ["EcfD", "YfiO"] "MTRMKYLVAAATLSLFLAGCSGSKEEVPDNPPNEIYATAQQKLQDGNWRQAITQLEALDNRYPFGPYSQQVQLDLIYAYYKNADLPLAQAAIDRFIRLNPTHPNIDYVMYMRGLTNMALDDSALQGFFGVDRSDRDPQHARAAFSDFSKLVRGYPNSQYTTDATKRLVFLKDRLAKYEYSVAEYYTERGAWVAVVNRVEGMLRDYPDTQATRDALPLMENAYRQMQMNAQAEKVAKIIAANSSNT" ["CCO-OUTER-MEM"] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"G7354-MONOMER" "DUF4154 domain-containing protein YfiR" ["YfiR", "putative periplasmic protein involved in swarming motility"] "MRFSHRLFLLLILLLTGAPILAQEPSDVAKNVRMMVSGIVSYTRWPALSGPPKLCIFSSSRFSTALQENAATSLPYLPVIIHTQQEAMISGCNGFYFGNESPTFQMELTEQYPSKALLLIAEQNTECIIGSAFCLIIHNNDVRFAVNLDALSRSGVKVNPDVLMLARKKNDG" [] ["CCO-PERI-BAC", "CCO-CYTOSOL"] +"G7355-MONOMER" "cytochrome c assembly family protein" ["YpjD"] "MPVFALLALVAYSVSLALIVPGLLQKNGGWRRMAIISAVIALVCHAIALEARILPDGDSGQNLSLLNVGSLVSLMICTVMTIVASRNRGWLLLPIVYAFALINLALATFMPNEYITHLEATPGMLVHIGLSLFSYATLIIAALYALQLAWIDYQLKNKKLAFNQEMPPLMSIERKMFHITQIGVVLLTLTLCTGLFYMHNLFSMENIDKAVLSIVAWFVYIVLLWGHYHEGWRGRRVVWFNVAGAVILTLAYFGSRIVQQLIS" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7356-MONOMER" "UPF0053 family inner membrane protein YfjD" ["YfjD", "YpjE"] "MEHISTTTLIIILIIMVVISAYFSGSETGMMTLNRYRLRHMAKQGNRSAKRVEKLLRKPDRLISLVLIGNNLVNILASALGTIVGMRLYGDAGVAIATGVLTFVVLVFAEVLPKTIAALYPEKVAYPSSFLLAPLQILMMPLVWLLNAITRMLMRMMGIKTDIVVSGSLSKEELRTIVHESRSQISRRNQDMLLSVLDLEKMTVDDIMVPRSEIIGIDINDDWKSILRQLSHSPHGRIVLYRDSLDDAISMLRVREAWRLMSEKKEFTKETMLRAADEIYFVPEGTPLSTQLVKFQRNKKKVGLVVNEYGDIQGLVTVEDILEEIVGDFTTSMSPTLAEEVTPQNDGSVIIDGTANVREINKAFNWHLPEDDARTVNGVILEALEEIPVAGTRVRIGEYDIDILDVQDNMIKQVKVFPVKPLRESVAE" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7357-MONOMER" "putative component of the Rsx system" ["RatB", "YfjF"] "MPGKIAVEVAYALPEKQYLQRVTLQEGATVEEAIRASGLLELRTDIDLTKNKVGIYSRPAKLSDSVHDGDRVEIYRPLIADPKELRRQRAEKSANK" [] ["CCO-CYTOSOL"] +"G7358-MONOMER" "ribosome association toxin RatA" ["RatA", "YfjG", "50S ribosomal subunit-binding toxin of a putative toxin-antitoxin pair"] "MILFVGFLLMEIVMPQISRTALVPYSAEQMYQLVNDVQSYPQFLPGCTGSRILESTPGQMTAAVDVSKAGISKTFTTRNQLTSNQSILMNLVDGPFKKLIGGWKFTPLSQEACRIEFHLDFEFTNKLIELAFGRVFKELAANMVQAFTVRAKEVYSAR" [] ["CCO-MEMBRANE"] +"G7359-MONOMER" "CP4-57 prophage; uncharacterized protein YfjH" ["YfjH"] "MGIFKAKNPCTKNTIFTTSNTLIYGGFMISLNDFYEQICRKRRDLAYHMSECEWAVDTDVLEEDHPEIRIELGRMREQFWSSEKIGTRVRLYSCDVPWETRHHTVNGQLEIKEEYTELYDPAQECWKNLSSNLTKETFLPLVIEPFSINDIFKAHLMFASISFFWGKSIMSENENVAFKAFHRAAELFDKCIGMTWFNISVCNQKKLSEVRRSAGKKGGKSKAEVYHIIQLKLVELINDSVPNDGWKNKVVAVNELIEPLWDFIQMSEFEINNQNKKYRVATMSQDALVDTILNQWSLKNEDVKQAFDSAVRRKKRSK" [] ["CCO-CYTOSOL"] +"G7360-MONOMER" "CP4-57 prophage; DUF3987 domain-containing protein YfjI" ["YfjI"] "MFNGRPFPVDAFPKIIRNAIYEVEQHTQAPQGLIAASALGVISLACQNRIDVCRLNNLRGPVSLFLMTLAESGERKSTVDKLLMKPLYQLEEDLFEKYTHDLTAWRNDEAIFNIEKKALMSKLKSDIRRNKDHLATNERLKELLTTNPKAPVRFKFLFNDATPAAIKAHLCGHWRSVGIMSDEAGIIFNGYTLNELPFINKMWDGSIFTVERKNEPEKLIRDARITLSLMVQPNVFKGYIDRKGDMAKGIGFFARCLMCQPASTQGNRKISNPIFSNEHLPVFHQRLMEIVNESIIKINENNRICLRFSAEAERHWIEFYNQVESEMRMIGLLYDFKDYASKMAENMARLAALLHYFSGDGGDISVTAVKAAVEIVAWYIEEYIRLFSKKEEFSLDVSEADELYCWIKDYCTQKFSSCIKKNIILQFGPNKFRNRDKANELIRILISQNKIFISSWGKTKIINITHCVF" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7361-MONOMER" "CP4-57 prophage; protein YfjJ" ["YfjJ"] "MTYDSEFGSHVSLYRDRIKQVIDDSLNEHLNSMILRVDLHDPIDTENMDNPFFQPRVDSGAISRFTSALKAKLKHDKHIKTQRKDWPDSRHSTLRYAWVREYTKNRKRHYHLILCFNQDAYYHLGDYDLNRNTLRTMITTAWYSALGIPIDSSGKLVNYPPNGKYLLNRKRDNFEQTYSDLMNRVDYMTKVRTKIVGDGDRNFGCSRG" [] ["CCO-CYTOSOL"] +"G7362-MONOMER" "CP4-57 prophage; putative helicase YfjK" ["AbpB", "YfjK", "CP4-57 prophage; anti-bacteriophage protein; mutations lead to radiation resistance"] "MTEIYEQAKHSLQGEDFSSFNYLFAVNKLLSNPVSYDLGRDLIVRALDSRERFSEHTTILKNMVRKSGLFPYLKKEFTSLTPDDLRVLELYRTPFSDGYVFHSMQFHIFDLLKSGQNVVLSAPTSMGKSAIVDSLLGMGTLKRLVLVVPTVALADETRRRLQERFGDRYQIIHHSSQVCHSDQAVYVLTQERVNERDDIVDIDLFVIDEFYKLAFRQLKSGDIDHQDERVIELNIALSKLLKVSRQFYLTGPFVNSIRGLEKLGYPHTFVSTDFNTVALDVKTFGIKANDDKAKLKALGEIAHACVDATIIYCKSPTVAGLVARELIRLGHGTPTENPHVDWVSEEFDADWDYTVALRNGIGLHFGALPRALQQYTADQFNAGKLRFLLCTSTIIEGVNTIAKNVVIYDNRDGTRSIDKFTHGNIKGRAGRMGVHFVGKIFCLEEIPEDNLNQEVDIPLGIQGIDTPINLLASVQPDHLSEFSQDRFDEVFINDRVSIDLVKKHSYFRVEQFEMLQSMFEMMDDNEFSSLVFHWTPATNFLKTFAKIIARLVPHTFSRNGVPVKPTDVMIAKLAGYLSAESYSEYLKNQIDYARQWISEGEKRTLSIALNNDLKLITNTFGYTLPKVLSLMEDVVKHHAVKRGIRSKVDYTHVKLAFESFHLPPGVNALEEIGIPIQTLHRLVDLLEFSDEADVDELSQYLRDTQDIWSRSIGYVDQMFIRRALGIRRH" [] ["CCO-CYTOSOL"] +"G7363-MONOMER" "CP4-57 prophage; anti-bacteriophage protein" ["AbpA", "YfjL"] "MESNDSGGVAAKHGFLFQDCVAAYHVTRMLRDKTIRSVRCEVTDDIDIVSDGYIDFVQVKSTGKTRWNISDIVQNSKGADKKTIPCSSILHKSMQCESDLSLGRRYSIVTEEKVNKTLEYLTISPNARLDKPGRQELIDDLNKRTDNFLTDSGISVSDWIDAATWEVFSSLRELELLGIKNIRLASQDLHGVILSSETVAEDIWCRILDTVTRKGEHSRRIHSADDKSYLRPDLLEWFKQRVEDDQSRSGRKIYVKRDLPHILTPFRAPMASVCAKRKGQVLHQQYSLKKYRYKHIADNVCQWLDEVFLRPKEMSDIHKLTFIEKRERLKNSVFKSLHDVSEFLGRVLLHATIRQHHESQPIPCMLYVEKAGAEKILENVHIVRRDPEGDQLWIGFSELVTDINIAVRLPEIRDQLYEDISDCIDTARKKILDIKDDNYLLRHDIDEILDGSQPFDAHLDRFTFVLFVGYDSNLLTEPETPGFEDDLEKETAVLFEKFAADLIEDSPFANLCIHVFIYPAPSLERLTQLVDEKVREVV" [] ["CCO-CYTOSOL"] +"G7364-MONOMER" "CP4-57 prophage; protein YfjM" ["YfjM"] "MGDDVHRFGNLFLISPSSNSILSNYSPADKKKFYVETERAESPKQAIMMSYKEWGPDGQGINNIESHEHAMLTLLKEHRDMTLPTRK" [] ["CCO-CYTOSOL"] +"G7365-MONOMER" "CP4-57 prophage; RNase LS, toxin of the RnlAB toxin-antitoxin system" ["YfjN", "RnlA", "Std"] "MTIRSYKNLNLVRANIETESRQFIENKNYSIQSIGPMPGSRAGLRVVFTRPGVNLATVDIFYNGDGSTTIQYLTGANRSLGQELADHLFETINPAEFEQVNMVLQGFVETSVLPVLELSADESHIEFREHSRNAHTVVWKIISTSYQDELTVSLHITTGKLQIQGRPLSCYRVFTFNLAALLDLQGLEKVLIRQEDGKANIVQQEVARTYLQTVMADAYPHLHVTAEKLLVSGLCVKLAAPDLPDYCMLLYPELRTIEGVLKSKMSGLGMPVQQPAGFGTYFDKPAAHYILKPQFAATLRPEQINIISTAYTFFNVERHSLFHMETVVDASRMISDMARLMGKATRAWGIIKDLYIV" [] ["CCO-CYTOSOL"] +"G7366-MONOMER" "CP4-57 prophage; antitoxin RnlB" ["RnlB", "YfjO", "CP4-57 prophage, antitoxin of the RnlA-RnlB toxin-antitoxin system"] "MFEITGINVSGALKAVVMATGFENPLSSVNEIETKLSALLGSETTGEILFDLLCANGPEWNRFVTLEMKYGRIMLDTAKIIDEQDVPTHILSKLTFTLRNHPEYLEASVLSPDDVRQVLSMDF" [] ["CCO-CYTOSOL"] +"G7367-MONOMER" "CP4-57 prophage; putative GTP-binding protein YfjP" ["YfjP"] "MKNFEVLQPLQNSLSGLPLWVSERILQQINQLTHYEPVIGIMGKTGAGKSSLCNALFAGEVSPVSDVAACTRDPLRFRLQIGEHFMTIVDLPGVGESGVRDTEYAALYREQLPRLDLILWLIKADDRALATDEHFYRQVIGEAYRHKMLFVISQSDKAEPTSGGNILSTEQKQNISRKICLLHELFQPVHPVCAVSVRLQWGLRVMAERMIKCLPREASSPVVALLQHPFRTTVAREQARDDFGETVGAILDTVSTFPLIPAPVRTIIQAVRSSVVSVARAVWDFFF" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7368-MONOMER" "CP4-57 prophage; DUF932 domain-containing protein YfjQ" ["YfjQ"] "MTRLASRFGAANLIRRDRPLTREELFRVVPSVFSEDKHESRSERYTYIPTISLLDSLQREGFQPFFACQTRVRDPRRREHTKHMLRLRREGQITGKQVPEIILLNSHDGTSSYQMLPGMFRAVCQNGLVCGESFGEVRVPHKGDVVSQVIEGAYEVLGIFERVEEKRDAMQSLLLPPPVQQALAKAALTYRFGEDHQPVTESQILSPRRWQDESNDLWTTYQRIQENLIKGGLSGRNAKGGRTHTRAVRGIDGDVKLNRALWVMAETLLTQLQ" [] ["CCO-CYTOSOL"] +"G7369-MONOMER" "CP4-57 prophage; putative DNA-binding transcriptional regulator YfjR" ["YfjR"] "MTQAERRHDRLAVRLSLIISRLVAGETLSVRKLAAEFGVSVRTLRRDFRERLMYLDLEYQSGYCRLRTAGSEMQMVPDVLIFAHRSGLAGLFPGLDRRLVNALLMCDESPCVIAPANPVPSPSGALSFWRLIQAITGRRRVTLIAEGRRCERLAPCRLLIHQQTWYLVAEHEGHIAVFTLDEIHLIQPLQETFRRNDSLCRLVEDPVFIQALPHFRFIQHSLLTFVPADSPPE" [] ["CCO-CYTOSOL"] +"G7370-MONOMER" "CP4-57 prophage; uncharacterized protein YpjK" ["YpjK", "CP4-57 prophage; putative inner membrane protein"] "MPVIAIIAIVIIVIILNKTGVSDSLTALTLATVAALLTGGGAAGAASVALTPFVGVPVGIFVGIYVFAKVVRLISGKK" [] ["CCO-PM-BAC-NEG", "CCO-CYTOSOL"] +"G7371-MONOMER" "CP4-57 prophage; inner membrane lipoprotein YfjS" ["YfjS"] "MKRKTLPLLALVATSLFLSACDDRSDDLKAISKFKDLTPPRFSDVVSRQDDVSEEWSQVGFSSGLTLQVLRTRESPDGCEGGSYYYLVDMEEKTVQPLMNALCIADNIKLEYHEVTDPYTKEKYFEYSHDGKLMGRLLIPSNPDNRE" ["CCO-PM-BAC-NEG"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"G7372-MONOMER" "CP4-57 prophage; uncharacterized protein YfjT" ["YfjT"] "MKIRSLSRFVLASTMFASFTASAVPGLWQQGYGQGNAEYSVTDASGKMFTINCTGNPDQNGIYQHSVFLILAGDKTVSSHDDSTGITVVMDHKQYAIPSTLGWRNGDNAWFSFIMDIRKARQFDVYVNDQKVGSFNPDVRNAQKVLPTLADCTND" [] ["CCO-CYTOSOL"] +"G7373-MONOMER" "CP4-57 prophage; putative arsenate reductase-like protein YfjU" ["YfjU"] "MSNITIYHNPACGTSRNTLEMLHNNGNEPTIINYLDMPPTRDELIKLISDIFSDKIIECIREQCHLMPALSLNVIGHVDIRSIHSYLFNFNEKVSPSHGFIKNG" [] ["CCO-CYTOSOL"] +"G7376-MONOMER" "CP4-57 prophage; putative arsenite transporter" ["YpjL", "YfjV", "YpjM"] "MALFTWKVLLGAAVDALFANDGAALILTPIVIAMLIALGSARARHWPLSWLQDLLQIRPACRSLFLTW*ISSRRTSSV*ALRSTPPL*SPWMRQRLRPR*LCCISSFAELFRQRIKFRC*RRLPVRSRIWQPSGRAGLSCYCCLSVSSFWSRRESWSVR*RPLAQQCCLWWRKEVIRSTPEKSCAVRHGRSLFSHWACTSWSMACAMQGSRSTCLAC*ICWQTRGYGQRRSAPAS*RHFSHQ**TICRRC*LVRCRLTGVRRLASSKRQ*FMPM*LAVI*ARKSPRLAVWQLCCGCMCLPRKI*QSLGDITSVPALS*LCRCCLSLWPRWRGGSLSL" [] [] +"G7377-MONOMER" "CP4-57 prophage; uncharacterized protein YfjW" ["YfjW", "CP4-57 prophage; putative inner membrane protein"] "MAFVSEREIVRKIFSKKIDFTILAFFYISSIFFLLCSGVLFQYFTAAFTKGNCYECSMKLDYIKQFYFSLETAWYLISAVAVFIASVFIQHRIKAYLTLLAITWIVLTITDVALIHALDNIAMNNILLNILYNLFGAILLSLFMCLSNSLLFHLNKIKHIPMILSAMIPLVSAIIIAILITAVIYLLFARQAVEIEMDISEGSDIAYVGVKDNEESFGFLNDKKTDTPTYLDVIKNGSLIYNDTQGLSGADIYIVSGCYALPDLLRNVPLDAKKSFLNVKKLEITQKLPMMGFIQGESADVMPKAASRLSLSKQDDKFMLASSVTDSQIKFKSNNAQLMVAFAFMPITTNGILHDYTYDIIINDKKYKIENHVAPLSRLDKNKKMKCEYQQISDLTNTYNINANYLTGFLLVLKPDDIINYNNSPSVLLKTDFAFYKKTYQKLDKIYDDISNGKLSSLRATGISQFSINGKHLSLRPESEIIISEGSLYGLVNKSKKIKIYGTADLVFVDNKIMNLRKITYLQSKLEIFGSSIMDILKYIFGLGLLAISIKFIHSYFKNDVNENLFL" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7378-MONOMER" "CP4-57 prophage; putative antirestriction protein YfjX" ["YfjX"] "MTTQTQYDLVPANGSEFELSVTQVPDEQHIRFWPQHFGTIPQWITLEPRIFAWMDRFCDEYCGGIWSFYTLSNGGAFMAPDADGDDKWHLLNGMNGNGAEMSAEAAGIAVCLIEYSHHACLTECDAMTEHYYRLRDYALQHPESSAIMRIID" [] ["CCO-CYTOSOL"] +"G7379-MONOMER" "CP4-57 prophage; RadC-like JAB domain-containing protein YfjY" ["YfjY"] "MMEQSLIPQTPVLPLTAQRTVKRALTLLDRHLRETGVAFTSTQAARDWLKLKMAGLEREEFMMLYLNQQNQLIAHETLFAGSISSTEVHPREVVKRALYFNAAAVILAHNHPSGDTTPSQADKTITQRLVQALQLVDIRVPDHLIVGGRQIYSFAEHGLL" [] ["CCO-CYTOSOL"] +"G7380-MONOMER" "CP4-57 prophage; putative antitoxin of the YpjF-YfjZ toxin-antitoxin system" ["YfjZ"] "MSNTTWGLQRDITPRLGARLVQEGNQLHYLADRASITGKFSDAECPKLDVVFPHFISQIESMLTTGELNPRHAQCVTLYHNGFTCEADTLGSCGYVYIAVYPTQR" [] ["CCO-CYTOSOL"] +"G7381-MONOMER" "CP4-57 prophage; toxin of the YpjF-YfjZ toxin-antitoxin system" ["YpjF"] "MNTLPATISQAAKPCLSPVAVWQMLLTRLLEQHYGLTLNDTPFSDETVIKEHIDAGITLADAVNFLVEKYELVRIDHRGFSWQQQSPYISVVDILRARRSTGLLKTNVK" [] ["CCO-CYTOSOL"] +"G7382-MONOMER" "adhesin-like autotransporter YpjA" ["YpjA"] "MNRTSPYYCRRSVLSLLISALIYAPPGMAAFTTNVIGVVNDETVDGNQKVDERGTTNNTHIINHGQQNVHGGVSNGSLIESGGYQDIGSHNNFVGQANNTTINGGRQSIHDGGISTGTTIESGNQDVYKGGISNGTTIKGGASRVEGGSANGILIDGGSQIVKVQGHADGTTINKSGSQDVVQGSLATNTTINGGRQYVEQSTVETTTIKNGGEQRVYESRALDTTIEGGTQSLNSKSTAKNTHIYSGGTQIVDNTSTSDVIEVYSGGVLDVRGGTATNVTQHDGAILKTNTNGTTVSGTNSEGAFSIHNHVADNVLLENGGHLDINAYGSANKTIIKDKGTMSVLTNAKADATRIDNGGVMDVAGNATNTIINGGTQNINNYGIATGTNINSGTQNIKSGGKADTTIISSGSRQVVEKDGTAIGSNISAGGSLIVYTGGIAHGVNQETGSALVANTGAGTDIEGYNKLSHFTITGGEANYVVLENTGELTVVAKTSAKNTTIDTGGKLIVQKEAKTDSTRLNNGGVLEVQDGGEAKHVEQQSGGALIASTTSGTLIEGTNSYGDAFYIRNSEAKNVVLENAGSLTVVTGSRAVDTIINANGKMDVYGKDVGTVLNSAGTQTIYASATSDKANIKGGKQTVYGLATEANIESGEQIVDGGSTEKTHINGGTQTVQNYGKAINTDIVSGLQQIMANGTAEGSIINGGSQVVNEGGLAENSVLNDGGTLDVREKGSATGIQQSSQGALVATTRATRVTGTRADGVAFSIEQGAANNILLANGGVLTVESDTSSDKTQVNMGGREIVKTKATATGTTLTGGEQIVEGVANETTINDGGIQTVSANGEAIKTKINEGGTLTVNDNGKATDIVQNSGAALQTSTANGIEISGTHQYGTFSISGNLATNMLLENGGNLLVLAGTEARDSTVGKGGAMQNLGQDSATKVNSGGQYTLGRSKDEFQALARAEDLQVAGGTAIVYAGTLADASVSGATGSLSLMTPRDNVTPVKLEGAVRITDSATLTLGNGVDTTLADLTAASRGSVWLNSNNSCAGTSNCEYRVNSLLLNDGDVYLSAQTAAPATTNGIYNTLTTNELSGSGNFYLHTNVAGSRGDQLVVNNNATGNFKIFVQDTGVSPQSDDAMTLVKTGGGDASFTLGNTGGFVDLGTYEYVLKSDGNSNWNLTNDVKPNPDPIPNPKPDPKPDPKPDPNPKPDPTPDPTPTPVPEKRITPSTAAVLNMAATLPLVFDAELNSIRERLNIMKASPHNNNVWGATYNTRNNVTTDAGAGFEQTLTGMTVGIDSRNDIPEGITTLGAFMGYSHSHIGFDRGGHGSVGSYSLGGYASWEHESGFYLDGVVKLNRFKSNVAGKMSSGGAANGSYHSNGLGGHIETGMRFTDGNWNLTPYASLTGFTADNPEYHLSNGMKSKSVDTRSIYRELGATLSYNMRLGNGMEVEPWLKAAVRKEFVDDNRVKVNSDGNFVNYLSGRRGIYQAGIKASFSSTLSGHLGVGYSHSAGVESPWNAVAGVNWSF" [] ["CCO-OUTER-MEM", "CCO-MEMBRANE", "CCO-EXTRACELLULAR"] +"G7383-MONOMER" "putative invertase fragment" ["YpjG", "PinH"] "MRGRRSGLKKLVRTSSAGNALLVCKLNRLGRSMWHLVVLLEELCERGINFRALAQSIFAQQWGDECCKSKTICDLKVIV" [] ["CCO-MEMBRANE"] +"G7384-MONOMER" "DUF5508 domain-containing protein YpjB" ["YpjB"] "MESRNSYENKIDEISSLSESKEHPIDIQEKKDAFVNEFKGVLFDKNTRSSELLFNFYECCYKFLPRAQPQDKIDSYNSALQAFSIFCSSTLTHNNIGFDFKLFPEVKLSGEHLETVFKYKNGDDVREIAKINITLQKEEGGLYNLRGLDFKGCFFSGQNFSNYDIQYVNWGTSLFDVDTPCIFNAPAYNKSNEKSLKPVSENGLSGVLTDRNNKIKLITGVAPFDDILFMDDDFDDSSSEDDPVENSPVVTSPVVSSSKSSFQ" [] ["CCO-OUTER-MEM"] +"G7385-MONOMER" "DUF5507 domain-containing protein YpjC" ["YpjC"] "MLVSKSNGFNASAVLGSGSYNENKSSKHMELLAHSILKLICKEAASETYRGALETLQKMMSECIYQEGNAFVIMGAGEQLKRIKYEVGENNLKVFNVHFNNNHELVSSGEPDVICLSKQVWENLLIKLKLENNENVFSETKKLSNKNNADQFFECAKRNE" [] ["CCO-CYTOSOL"] +"G7389-MONOMER" "putative uncharacterized protein YgaQ" [] "MFSIKPGPRNLPIDNPTLLSWNITDGDLNSKLNTLEYLNCITNIINSCGVYPQGLKDREIISTFHAEKVINDLLKNDYKISLSPDTTYRELNKAAQRSITAPDRIGERKT*VYQRDTMIERGDNSGVYQYGRAEHFTHIISDKPSPKDKYVAYAINIPDYELAADVYNINVTSPSGQQETFKILINLEHLRQTLERKSLTAVQKSQCEIITPKKPGEAILHAFNATYQQIRENMSEFARCHYGYIQIPPVTTFRADGPETPEEEKGYWFHAYQPEDLCTIHNPMGDLQDFIALVKDAKKFGIDIIPDYTFNFMGIGGSGKNDLDYPSADIRAKISKDIEGGIPGY*QGQVLIPFIKDPVTKERKQIHPEDIHLTAKDFEASKDNISKDEWENLHALKEKRLNGMPKTTPKSDQVIMLQNQYVREMRKYGVRGLRYDAAKHSKHEQIERSITPPLKNYNERLHNTNLFNPKYHKKAVMNYMEYLVTCQLDEQQMSSLLYERDDLSAIDFSLLMKTIKAFSFGGDLQTLASKPGSTISSIPSERRILININHDFPNNGNLFNDFLFNHQQDEQLAMAYIAALPFSRPLVYWDGQVLKSTTEIKNYDGSTRVGGEA*LNKGCSTYQQLYNEFHALYIDKAGIWSAFEGVSATKNVLAFSRGDSVNINHSPHDGLVIINKGNEEVEGTWPNKLQPGIYKNMGSNSVNIIINNTRKIIPPGKVFTLRGGTLNINIPGRSALLLGKTGEPPNYLYL" [] [] +"G7394-MONOMER" "glutarate dioxygenase GlaH" ["GlaH", "YgaT", "CsiD"] "MNALTAVQNNAVDSGQDYSGFTLTPSAQSPRLLELTFTEQTTKQFLEQVAEWPVQALEYKSFLRFRVAKILDDLCANQLQPLLLKTLLNRAEGALLINAVGVDDVKQADEMVKLATAVAHLIGRSNFDAMSGQYYARFVVKNVDNSDSYLRQPHRVMELHNDGTYVEEITDYVLMMKIDEQNMQGGNSLLLHLDDWEHLDNYFRHPLARRPMRFAAPPSKNVSKDVFHPVFDVDQQGRPVMRYIDQFVQPKDFEEGVWLSELSDAIETSKGILSVPVPVGKFLLINNLFWLHGRDRFTPHPDLRRELMRQRGYFAYASNHYQTHQ" [] ["CCO-CYTOSOL"] +"G7395-MONOMER" "K+ binding protein" ["Kbp", "YzzM", "YgaU"] "MGLFNFVKDAGEKLWDAVTGQHDKDDQAKKVQEHLNKTGIPDADKVNIQIADGKATVTGDGLSQEAKEKILVAVGNISGIASVDDQVKTATPATASQFYTVKSGDTLSAISKQVYGNANLYNKIFEANKPMLKSPDKIYPGQVLRIPEE" [] ["CCO-CYTOSOL"] +"G7396-MONOMER" "Pmp3 family protein YqaE" ["YqaE"] "MGFWRIVITIILPPLGVLLGKGFGWAFIINILLTLLGYIPGLIHAFWVQTRD" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7397-MONOMER" "putative DNA-binding transcriptional regulator YgaV" ["YgaV"] "MTELAQLQASAEQAAALLKAMSHPKRLLILCMLSGSPGTSAGELTRITGLSASATSQHLARMRDEGLIDSQRDAQRILYSIKNEAVNAIIATLKNVYCP" [] ["CCO-CYTOSOL"] +"G7398-MONOMER" "thiosulfate sulfurtransferase YgaP" ["YgaP"] "MALTTISPHDAQELIARGAKLIDIRDADEYLREHIPEADLAPLSVLEQSGLPAKLRHEQIIFHCQAGKRTSNNADKLAAIAAPAEIFLLEDGIDGWKKAGLPVAVNKSQPLPLMRQVQIAAGGLILIGVVLGYTVNSGFFLLSGFVGAGLLFAGISGFCGMARLLDKMPWNQRA" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7399-MONOMER" null ["YgaW", "AlaE"] "MFSPQSRLRHAVADTFAMVVYCSVVNMCIEVFLSGMSFEQSFYSRLVAIPVNILIAWPYGMYRDLFMRAARKVSPSGWIKNLADILAYVTFQSPVYVAILLVVGADWHQIMAAVSSNIVVSMLMGAVYGYFLDYCRRLFKVSRYQQVKA" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7401-MONOMER" "glutaredoxin-like protein NrdH" ["YgaN", "NrdH"] "MRITIYTRNDCVQCHATKRAMENRGFDFEMINVDRVPEAAEALRAQGFRQLPVVIAGDLSWSGFRPDMINRLHPAPHAASA" [] ["CCO-CYTOSOL"] +"G7402-MONOMER" "dimanganese-tyrosyl radical cofactor maintenance flavodoxin NrdI" ["YgaO", "NrdI", "flavodoxin involved in dimanganese-tyrosyl radical cofactor maintenance for ribonucleotide reductase", "flavodoxin NrdI"] "MSQLVYFSSSSENTQRFIERLGLPAVRIPLNERERIQVDEPYILIVPSYGGGGTAGAVPRQVIRFLNDEHNRALLRGVIASGNRNFGEAYGRAGDVIARKCGVPWLYRFELMGTQSDIENVRKGVTEFWQRQPQNA" [] ["CCO-CYTOSOL"] +"G7405-MONOMER" "L-valine exporter, YgaZ component" ["YgaZ", "YgaZ L-valine LIV-E exporter"] "MESPTPQPAPGSATFMEGCKDSLPIVISYIPVAFAFGLNATRLGFSPLESVFFSCIIYAGASQFVITAMLAAGSSLWIAALTVMAMDVRHVLYGPSLRSRIIQRLQKSKTALWAFGLTDEVFAAATAKLVRNNRRWSENWMIGIAFSSWSSWVFGTVIGAFSGSGLLQGYPAVEAALGFMLPALFMSFLLASFQRKQSLCVTAALVGALAGVTLFSIPVAILAGIVCGCLTALIQAFWQGAPDEL" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7406-MONOMER" "L-valine exporter, YgaH component" ["YgaH"] "MSYEVLLLGLLVGVANYCFRYLPLRLRVGNARPTKRGAVGILLDTIGIASICALLVVSTAPEVMHDTRRFVPTLVGFAVLGASFYKTRSIIIPTLLSALAYGLAWKVMAII" [] ["CCO-PM-BAC-NEG"] +"G7407-MONOMER" "DedA family protein YqaA" ["YqaA"] "MSEALSLFSLFASSFLSATLLPGNSEVVLVAMLLSGISHPWVLVLTATMGNSLGGLTNVILGRFFPLRKTSRWQEKATGWLKRYGAVTLLLSWMPVVGDLLCLLAGWMRISWGPVIFFLCLGKALRYVAVAAATVQGMMWWH" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7408-MONOMER" "fructose-1-phosphate phosphatase YqaB" ["YqaB", "HAD6", "fructose-1-phosphatase"] "MYERYAGLIFDMDGTILDTEPTHRKAWREVLGHYGLQYDIQAMIALNGSPTWRIAQAIIELNQADLDPHALAREKTEAVRSMLLDSVEPLPLVDVVKSWHGRRPMAVGTGSESAIAEALLAHLGLRHYFDAVVAADHVKHHKPAPDTFLLCAQRMGVQPTQCVVFEDADFGIQAARAAGMDAVDVRLL" [] ["CCO-CYTOSOL"] +"G7409-MONOMER" "NMN aminohydrolase" ["PncC", "YgaD"] "MTDSELMQLSEQVGQALKARGATVTTAESCTGGWVAKVITDIAGSSAWFERGFVTYSNEAKAQMIGVREETLAQHGAVSEPVVVEMAIGALKAARADYAVSISGIAGPDGGSEEKPVGTVWFAFATARGEGITRRECFSGDRDAVRRQATAYALQTLWQQFLQNT" [] ["CCO-CYTOSOL"] +"G7410-MONOMER" "membrane-bound lytic murein transglycosylase B" ["MltB", "Slt", "Slt35"] "MFKRRYVTLLPLFVLLAACSSKPKPTETDTTTGTPSGGFLLEPQHNVMQMGGDFANNPNAQQFIDKMVNKHGFDRQQLQEILSQAKRLDSVLRLMDNQAPTTSVKPPSGPNGAWLRYRKKFITPDNVQNGVVFWNQYEDALNRAWQVYGVPPEIIVGIIGVETRWGRVMGKTRILDALATLSFNYPRRAEYFSGELETFLLMARDEQDDPLNLKGSFAGAMGYGQFMPSSYKQYAVDFSGDGHINLWDPVDAIGSVANYFKAHGWVKGDQVAVMANGQAPGLPNGFKTKYSISQLAAAGLTPQQPLGNHQQASLLRLDVGTGYQYWYGLPNFYTITRYNHSTHYAMAVWQLGQAVALARVQ" ["CCO-OUTER-MEM"] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"G7413-MONOMER" "anaerobic nitric oxide reductase flavorubredoxin" ["YgaK", "YgaI", "YgaJ", "NorV", "FlRd", "flavorubredoxin"] "MSIVVKNNIHWVGQRDWEVRDFHGTEYKTLRGSSYNSYLIREEKNVLIDTVDHKFSREFVQNLRNEIDLADIDYIVINHAEEDHAGALTELMAQIPDTPIYCTANAIDSINGHHHHPEWNFNVVKTGDTLDIGNGKQLIFVETPMLHWPDSMMTYLTGDAVLFSNDAFGQHYCDEHLFNDEVDQTELFEQCQRYYANILTPFSRLVTPKITEILGFNLPVDMIATSHGVVWRDNPTQIVELYLKWAADYQEDRITIFYDTMSNNTRMMADAIAQGIAETDPRVAVKIFNVARSDKNEILTNVFRSKGVLVGTSTMNNVMMPKIAGLVEEMTGLRFRNKRASAFGSHGWSGGAVDRLSTRLQDAGFEMSLSLKAKWRPDQDALKLCREHGREIARQWALAPLPQSTVNTVVKEETSATTTADLGPRMQCSVCQWIYDPAKGEPMQDVAPGTPWSEVPDNFLCPECSLGKDVFEELASEAK" [] ["CCO-CYTOSOL"] +"G7414-MONOMER" "hydrogenase 3 maturation protease" ["HycI", "HycE processing protein"] "MTDVLLCVGNSMMGDDGAGPLLAEKCAAAPKGNWVVIDGGSAPENDIVAIRELRPTRLLIVDATDMGLNPGEIRIIDPDDIAEMFMMTTHNMPLNYLIDQLKEDIGEVIFLGIQPDIVGFYYPMTQPIKDAVETVYQRLEGWEGNGGFAQLAVEEE" [] ["CCO-CYTOSOL"] +"G7415-MONOMER" "phosphoprotein phosphatase 2" ["YgbH", "PrpB", "PphB"] "MPSTRYQKINAHHYRHIWVVGDIHGEYQLLQSRLHQLSFFPKIDLLISVGDNIDRGPESLDVLRLLNQPWFTSVKGNHEAMALEAFETGDGNMWLASGGDWFFDLNDSEQQEAIDLLLKFHHLPHIIEITNDNIKYAIAHADYPGSEYLFGKEIAESELLWPVDRVQKSLNGELQQINGADYFIFGHMMFDNIQTFANQIYIDTGSPNSGRLSFYKIK" [] ["CCO-CYTOSOL"] +"G7416-MONOMER" "putative DeoR-type DNA-binding transcriptional regulator YgbI" ["YgbI"] "MIPVERRQIILEMVAEKGIVSIAELTDRMNVSHMTIRRDLQKLEQQGAVVLVSGGVQSPGRVAHEPSHQVKTALAMTQKAAIGKLAASLVQPGSCIYLDAGTTTLAIAQHLIHMESLTVVTNDFVIADYLLDNSNCTIIHTGGAVCRENRSCVGEAAATMLRSLMIDQAFISASSWSVRGISTPAEDKVTVKRAIASASRQRVLVCDATKYGQVATWLALPLSEFDQIITDDGLPESASRALVKQDLSLLVAKNE" [] ["CCO-CYTOSOL"] +"G7417-MONOMER" "putative L-threonate dehydrogenase" ["YgbJ", "putative dehydrogenase, with NAD(P)-binding Rossmann-fold domain"] "MKTGSEFHVGIVGLGSMGMGAALSYVRAGLSTWGADLNSNACATLKEAGACGVSDNAATFAEKLDALLVLVVNAAQVKQVLFGETGVAQHLKPGTAVMVSSTIASADAQEIATALAGFDLEMLDAPVSGGAVKAANGEMTVMASGSDIAFERLAPVLEAVAGKVYRIGAEPGLGSTVKIIHQLLAGVHIAAGAEAMALAARAGIPLDVMYDVVTNAAGNSWMFENRMRHVVDGDYTPHSAVDIFVKDLGLVADTAKALHFPLPLASTALNMFTSASNAGYGKEDDSAVIKIFSGITLPGAKS" [] ["CCO-CYTOSOL"] +"G7418-MONOMER" "putative 3-oxo-tetronate kinase YgbK" ["YgbK", "DUF1537 domain-containing protein YgbK"] "MIKIGVIADDFTGATDIASFLVENGLPTVQINGVPTGKMPEAIDALVISLKTRSCPVVEATQQSLAALSWLQQQGCKQIYFKYCSTFDSTAKGNIGPVTDALMDALDTPFTVFSPALPVNGRTVYQGYLFVMNQLLAESGMRHHPVNPMTDSYLPRLVEAQSTGRCGVVSAHVFEQGVDAVRQELARLQQEGYRYAVLDALTEHHLEIQGEALRDAPLVTGGSGLAIGLARQWAQENGNQARKAGRPLAGRGVVLSGSCSQMTNRQVAHYRQIAPAREVDVARCLSIETLAAYAHELAEWVLGQESVLAPLVFATASTDALAAIQQQYGAQKASQAVETLFSQLAARLAAEGVTRFIVAGGETSGVVTQSLGIKGFHIGPTISPACRG" [] ["CCO-MEMBRANE"] +"G7419-MONOMER" "putative 3-oxo-tetronate 4-phosphate decarboxylase YgbL" ["YgbL", "putative class II aldolase"] "MSDFAKVEQSLREEMTRIASSFFQRGYATGSAGNLSLLLPDGNLLATPTGSCLGNLDPQRLSKVAADGEWLSGDKPSKEVLFHLALYRNNPRCKAVVHLHSTWSTALSCLQGLDSSNVIRPFTPYVVMRMGNVPLVPYYRPGDKRIAQDLAELAADNQAFLLANHGPVVCGESLQEAANNMEELEETAKLIFILGDRPIRYLTAGEIAELRS" [] ["CCO-CYTOSOL"] +"G7420-MONOMER" "putative 2-oxo-tetronate isomerase YgbM" ["YgbM"] "MPRFAANLSMMFTEVPFIERFAAARKAGFDAVEFLFPYNYSTLQIQKQLEQNHLTLALFNTAPGDINAGEWGLSALPGREHEAHADIDLALEYALALNCEQVHVMAGVVPAGEDAERYRAVFIDNIRYAADRFAPHGKRILVEALSPGVKPHYLFSSQYQALAIVEEVARDNVFIQLDTFHAQKVDGNLTHLIRDYAGKYAHVQIAGLPDRHEPDDGEINYPWLFRLFDEVGYQGWIGCEYKPRGLTEEGLGWFDAWR" [] ["CCO-CYTOSOL"] +"G7422-MONOMER" "tRNA pseudouridine13 synthase" ["YgbO", "TruD"] "MIEFDNLTYLHGKPQGTGLLKANPEDFVVVEDLGFEPDGEGEHILVRILKNGCNTRFVADALAKFLKIHAREVSFAGQKDKHAVTEQWLCARVPGKEMPDLSAFQLEGCQVLEYARHKRKLRLGALKGNAFTLVLREVSNRDDVEQRLIDICVKGVPNYFGAQRFGIGGSNLQGAQRWAQTNTPVRDRNKRSFWLSAARSALFNQIVAERLKKADVNQVVDGDALQLAGRGSWFVATTEELAELQRRVNDKELMITAALPGSGEWGTQREALAFEQAAVAAETELQALLVREKVEAARRAMLLYPQQLSWNWWDDVTVEIRFWLPAGSFATSVVRELINTTGDYAHIAE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7423-MONOMER" "2-C-methyl-D-erythritol 4-phosphate cytidylyltransferase" ["YgbP", "IspD", "4-diphosphocytidyl-2C-methyl-D-erythritol synthase"] "MATTHLDVCAVVPAAGFGRRMQTECPKQYLSIGNQTILEHSVHALLAHPRVKRVVIAISPGDSRFAQLPLANHPQITVVDGGDERADSVLAGLKAAGDAQWVLVHDAARPCLHQDDLARLLALSETSRTGGILAAPVRDTMKRAEPGKNAIAHTVDRNGLWHALTPQFFPRELLHDCLTRALNEGATITDEASALEYCGFHPQLVEGRADNIKVTRPEDLALAEFYLTRTIHQENT" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7424-MONOMER" "cell division protein FtsB" ["FtsB", "YgbQ", "essential cell division protein FtsB"] "MGKLTLLLLAILVWLQYSLWFGKNGIHDYTRVNDDVAAQQATNAKLKARNDQLFAEIDDLNGGQEALEERARNELSMTRPGETFYRLVPDASKRAQSAGQNNR" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"G7425-MONOMER" "multifunctional nuclease Cas1" ["YgbT", "Cas1"] "MTWLPLNPIPLKDRVSMIFLQYGQIDVIDGAFVLIDKTGIRTHIPVGSVACIMLEPGTRVSHAAVRLAAQVGTLLVWVGEAGVRVYASGQPGGARSDKLLYQAKLALDEDLRLKVVRKMFELRFGEPAPARRSVEQLRGIEGSRVRATYALLAKQYGVTWNGRRYDPKDWEKGDTINQCISAATSCLYGVTEAAILAAGYAPAIGFVHTGKPLSFVYDIADIIKFDTVVPKAFEIARRNPGEPDREVRLACRDIFRSSKTLAKLIPLIEDVLAAGEIQPPAPPEDAQPVAIPLPVSLGDAGHRSS" [] ["CCO-CYTOSOL"] +"G7426-MONOMER" "pre-CRISPR RNA endonuclease" ["YgcH", "CasE", "Cas6e", "crRNA endonuclease"] "MYLSKVIIARAWSRDLYQLHQGLWHLFPNRPDAARDFLFHVEKRNTPEGCHVLLQSAQMPVSTAVATVIKTKQVEFQLQVGVPLYFRLRANPIKTILDNQKRLDSKGNIKRCRVPLIKEAEQIAWLQRKLGNAARVEDVHPISERPQYFSGDGKSGKIQTVCFEGVLTINDAPALIDLVQQGIGPAKSMGCGLLSLAPL" [] [] +"G7427-MONOMER" "type I-E CRISPR system Cascade subunit CasD" ["YgcI", "CasD", "Cas5e", "Cascade subunit D"] "MRSYLILRLAGPMQAWGQPTFEGTRPTGRFPTRSGLLGLLGACLGIQRDDTSSLQALSESVQFAVRCDELILDDRRVSVTGLRDYHTVLGAREDYRGLKSHETIQTWREYLCDASFTVALWLTPHATMVISELEKAVLKPRYTPYLGRRSCPLTHPLFLGTCQASDPQKALLNYEPVGGDIYSEESVTGHHLKFTARDEPMITLPRQFASREWYVIKGGMDVSQ" [] ["CCO-CYTOSOL"] +"G7428-MONOMER" "type I-E CRISPR system Cascade subunit CasC" ["YgcJ", "CasC", "Cas7", "Cascade subunit C"] "MSNFINIHVLISHSPSCLNRDDMNMQKDAIFGGKRRVRISSQSLKRAMRKSGYYAQNIGESSLRTIHLAQLRDVLRQKLGERFDQKIIDKTLALLSGKSVDEAEKISADAVTPWVVGEIAWFCEQVAKAEADNLDDKKLLKVLKEDIAAIRVNLQQGVDIALSGRMATSGMMTELGKVDGAMSIAHAITTHQVDSDIDWFTAVDDLQEQGSAHLGTQEFSSGVFYRYANINLAQLQENLGGASREQALEIATHVVHMLATEVPGAKQRTYAAFNPADMVMVNFSDMPLSMANAFEKAVKAKDGFLQPSIQAFNQYWDRVANGYGLNGAAAQFSLSDVDPITAQVKQMPTLEQLKSWVRNNGEA" [] ["CCO-CYTOSOL"] +"G7429-MONOMER" "type I-E CRISPR system Cascade subunit CasB" ["YgcK", "CasB", "Cse2", "Cascade subunit B"] "MADEIDAMALYRAWQQLDNGSCAQIRRVSEPDELRDIPAFYRLVQPFGWENPRHQQALLRMVFCLSAGKNVIRHQDKKSEQTTGISLGRALANSGRINERRIFQLIRADRTADMVQLRRLLTHAEPVLDWPLMARMLTWWGKRERQQLLEDFVLTTNKNA" [] [] +"G7430-MONOMER" "type I-E CRISPR system Cascade subunit CasA" ["YgcL", "CasA", "Cse1", "Cascade subunit A"] "MNLLIDNWIPVRPRNGGKVQIINLQSLYCSRDQWRLSLPRDDMELAALALLVCIGQIIAPAKDDVEFRHRIMNPLTEDEFQQLIAPWIDMFYLNHAEHPFMQTKGVKANDVTPMEKLLAGVSGATNCAFVNQPGQGEALCGGCTAIALFNQANQAPGFGGGFKSGLRGGTPVTTFVRGIDLRSTVLLNVLTLPRLQKQFPNESHTENQPTWIKPIKSNESIPASSIGFVRGLFWQPAHIELCDPIGIGKCSCCGQESNLRYTGFLKEKFTFTVNGLWPHPHSPCLVTVKKGEVEEKFLAFTTSAPSWTQISRVVVDKIIQNENGNRVAAVVNQFRNIAPQSPLELIMGGYRNNQASILERRHDVLMFNQGWQQYGNVINEIVTVGLGYKTALRKALYTFAEGFKNKDFKGAGVSVHETAERHFYRQSELLIPDVLANVNFSQADEVIADLRDKLHQLCEMLFNQSVAPYAHHPKLISTLALARATLYKHLRELKPQGGPSNG" [] [] +"G7431-MONOMER" "6-carboxy-5,6,7,8-tetrahydropterin synthase" ["SscR", "YgcM", "QueD"] "MMSTTLFKDFTFEAAHRLPHVPEGHKCGRLHGHSFMVRLEITGEVDPHTGWIIDFAELKAAFKPTYERLDHHYLNDIPGLENPTSEVLAKWIWDQVKPVVPLLSAVMVKETCTAGCIYRGE" [] ["CCO-CYTOSOL"] +"G7432-MONOMER" "putative oxidoreductase with FAD/NAD(P)-binding domain" ["YgcN"] "MEDDCDIIIIGAGIAGTACALRCARAGLSVLLLERAEIPGSKNLSGGRLYTHALAELLPQFHLTAPLERRITHESLSLLTPDGVTTFSSLQPGGESWSVLRARFDPWLVAEAEKEGVECIPGATVDALYEENGRVCGVICGDDILRARYVVLAEGANSVLAERHGLVTRPAGEAMALGIKEVLSLETSAIEERFHLENNEGAALLFSGRICDDLPGGAFLYTNQQTLSLGIVCPLSSLTQSRVPASELLTRFKAHPAVRPLIKNTESLEYGAHLVPEGGLHSMPVQYAGNGWLLVGDALRSCVNTGISVRGMDMALTGAQAAAQTLISACQHREPQNLFPLYHHNVERSLLWDVLQRYQHVPALLQRPGWYRTWPALMQDISRDLWDQGDKPVPPLRQLFWHHLRRHGLWHLAGDVIRSLRCL" [] ["CCO-CYTOSOL"] +"G7433-MONOMER" "putative 4Fe-4S cluster-containing protein" ["YgcO"] "MSVARNLWRVADAPHIVPADSVERQTAERLINACPAGLFSLTPEGNLRIDYRSCLECGTCRLLCDESTLQQWRYPPSGFGITYRFG" [] ["CCO-CYTOSOL"] +"G7434-MONOMER" "putative anti-terminator regulatory protein" ["YgcP"] "MPLLHLLRQNPVIAAVKDNASLQLAIDSECQFISVLYGNICTISNIVKKIKNAGKYAFIHVDLLEGASNKEVVIQFLKLVTEADGIISTKASMLKAARAEGFFCIHRLFIVDSISFHNIDKQVAQSNPDCIEILPGCMPKVLGWVTEKIRQPLIAGGLVCDEEDARNAINAGVVALSTTNTGVWTLAKKLL" [] ["CCO-CYTOSOL"] +"G7435-MONOMER" "putative flavoprotein" ["YgcQ"] "MNIAIVTINQENAAIASWLAAQDFSGCTLAHWQIEPQPVVAEQVLDALVEQWQRTPADVVLFPPGTFGDELSTRLAWRLHGASICQVTSLDIPTVSVRKSHWGNALTATLQTEKRPLCLSLARQAGAAKNATLPSGMQQLNIVPGALPDWLVSTEDLKNVTRDPLAEARRVLVVGQGGEADNQEIAMLAEKLGAEVGYSRARVMNGGVDAEKVIGISGHLLAPEVCIVVGASGAAALMAGVRNSKFVVAINHDASAAVFSQADVGVVDDWKVVLEALVTNIHADCQ" [] ["CCO-MEMBRANE"] +"G7436-MONOMER" "putative flavoprotein" ["YgcR"] "MNILLAFKAEPDAGMLAEKEWQAAAQGKSGPDISLLRSLLGADEQAAAALLLAQRKNGTPMSLTALSMGDERALHWLRYLMALGFEEAVLLETAADLRFAPEFVARHIAEWQHQNPLDLIITGCQSSEGQNGQTPFLLAEMLGWPCFTQVERFTLDALFITLEQRTEHGLRCCRVRLPAVIAVRQCGEVALPVPGMRQRMAAGKAEIIRKTVAAEMPAMQCLQLARAEQRRGATLIDGQTVAEKAQKLWQDYLRQRMQP" [] ["CCO-PM-BAC-NEG", "CCO-CYTOSOL"] +"G7439-MONOMER" "putative FAD-containing dehydrogenase" ["YgcV", "YgcU", "YgcT"] "MSLSRAAIVDQLKEIVGADRVITDETVLKKNSIDRFRKFPDIHGIYTLPIPAAVVKLGSTEQVSRVLNFMNAHKINGVPRTGASATEGGLETVVENSVVLDGSAMNQIINIDIENMQATAQCGVPLEVLENALREKGYTTGHSPQSKPLAQMGGLVATRSIGQFSTLYGAIEDMVVGLEAVLADGTVTRIKNVPRRAAGPDIRHIIIGNEGALCYITEVTVKIFKFTPENNLFYGYILEDMKTGFNILREIMVEGYRPSIARLYDAEDGTQHFTHFADGKCVLIFMAEGNPRIAKVTGEGIAEIVARYPQCQRVDSKLIETWFNNLNWGPDKVAAERVQILKTGNMGFTTEVSGCWSCIHEIYESVINRIRTEFPHADDITMLGGHSSHSYQNGTNMYFVYDYNVVDCKPEEEIDKYHNPLNKIICEETIRLGGSMVHHHGIGKHRVHWSKLEHGSAWALLEGLKKQFDPNGIMNTGTIYPIEK" [] ["CCO-CYTOSOL"] +"G7440-MONOMER" "putative deoxygluconate dehydrogenase" ["YgcW"] "MSIESLNAFSMDFFSLKGKTAIVTGGNSGLGQAFAMALAKAGANIFIPSFVKDNGETKEMIEKQGVEVDFMQVGITAEGAPQKIIAACCERFGTVDILVNNAGICKLNKVLDFGRADWDPMIDVNLTAAFELSYEAAKIMIPQKSGKIINICSLFSYLGGQWSPAYSATKHALAGFTKAYCDELGQYNIQVNGIAPGYYATDITLATRSNPETNQRVLDHIPANRWGDTQDLMGAAVFLASPASNYVNGHLLVVDGGYLVR" [] ["CCO-CYTOSOL"] +"G7442-MONOMER" "putative sugar kinase YgcE" ["YgcE"] "MSKKYIIGIDGGSQSTKVVMYDLEGNVVCEGKGLLQPMHTPDADTAEHPDDDLWASLCFAGHDLMSQFAGNKEDIVGIGLGSIRCCRALLKADGTPAAPLISWQDARVTRPYEHTNPDVAYVTSFSGYLTHRLTGEFKDNIANYFGQWPVDYKSWAWSEDAAVMDKFNIPRHMLFDVQMPGTVLGHITPQAALATHFPAGLPVVCTTSDKPVEALGAGLLDDETAVISLGTYIALMMNGKALPKDPVAYWPIMSSIPQTLLYEGYGIRKGMWTVSWLRDMLGESLIQDARAQDLSPEDLLNKKASCVPPGCNGLMTVLDWLTNPWEPYKRGIMIGFDSSMDYAWIYRSILESVALTLKNNYDNMCNEMNHFAKHVIITGGGSNSDLFMQIFADVFNLPARRNAINGCASLGAAINTAVGLGLYPDYATAVDNMVRVKDIFIPIESNAKRYDAMNKGIFKDLTKHTDVILKKSYEVMHGELGNVDSIQSWSNA" [] ["CCO-CYTOSOL"] +"G7443-MONOMER" "putative 7-carboxy-7-deazaguanine synthase QueE" ["QueE", "YgcF", "putative CDG synthase"] "MQYPINEMFQTLQGEGYFTGVPAIFIRLQGCPVGCAWCDTKHTWEKLEDREVSLFSILAKTKESDKWGAASSEDLLAVIGRQGYTARHVVITGGEPCIHDLLPLTDLLEKNGFSCQIETSGTHEVRCTPNTWVTVSPKLNMRGGYEVLSQALERANEIKHPVGRVRDIEALDELLATLTDDKPRVIALQPISQKDDATRLCIETCIARNWRLSMQTHKYLNIA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7444-MONOMER" "protein YgcG" ["YgcG"] "MRYFILMFTFVCSFVAAQPTIVPQLQQQVTDLTSSLNSQEKKELTHKLESIFNNTQVQIAVLIVPTTKDETIEQYATRVFDNWRLGDAKRNDGILIVVAWSDRTVRIQVGYGLEEKVTDALAGDIIRSNMIPAFKQQKLAKGLELAINALNNQLTSQHQYPTNPSESESASSSDHYYFAIFWVFAVMFFPFWFFHQGSNFCRACKSGVCISAIYLLDLFLFSDKIFSIAVFSFFFTFTIFMVFTCLCVLQKRASGRSYHSDNSGSAGGSDSGGFSGGGGSSGGGGASGRW" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7446-MONOMER" "glucarate dehydratase-related protein" ["GudX", "YgcY", "GlucDRP"] "MATQSSPVITDMKVIPVAGHDSMLLNIGGAHNAYFTRNIVVLTDNAGHTGIGEAPGGDVIYQTLVDAIPMVLGQEVARLNKVVQQVHKGNQAADFDTFGKGAWTFELRVNAVAALEAALLDLLGKALNVPVCELLGPGKQREAITVLGYLFYIGDRTKTDLPYVENTPGNHEWYQLRHQKAMNSEAVVRLAEASQDRYGFKDFKLKGGVLPGEQEIDTVRALKKRFPDARITVDPNGAWLLDEAISLCKGLNDVLTYAEDPCGAEQGFSGREVMAEFRRATGLPVATNMIATNWREMGHAVMLNAVDIPLADPHFWTLSGAVRVAQLCDDWGLTWGCHSNNHFDISLAMFTHVGAAAPGNPTAIDTHWIWQEGDCRLTQNPLEIKNGKIAVPDAPGLGVELDWEQVQKAHEAYKRLPGGARNDAGPMQYLIPGWTFDRKRPVFGRH" [] ["CCO-CYTOSOL"] +"G7448-MONOMER" "putative flavodoxin YqcA" ["YqcA"] "MAEIGIFVGTMYGNSLLVAEEAEAILTAQGHKATVFEDPELSDWLPYQDKYVLVVTSTTGQGDLPDSIVPLFQGIKDSLGFQPNLRYGVIALGDSSYVNFCNGGKQFDALLQEQSAQRVGEMLLIDASENPEPETESNPWVEQWGTLLS" [] ["CCO-CYTOSOL"] +"G7449-MONOMER" "tRNA pseudouridine65 synthase" ["TruC", "YqcB"] "MLEILYQDEWLVAVNKPSGWLVHRSWLDRDEKVVVMQTVRDQIGQHVFTAHRLDRPTSGVLLMGLSSEAGRLLAQQFEQHQIQKRYHAIVRGWLMEEAVLDYPLVEELDKIADKFAREDKGPQPAVTHYRGLATVEMPVATGRYPTTRYGLVELEPKTGRKHQLRRHLAHLRHPIIGDSKHGDLRQNRSGAEHFGLQRLMLHASQLSLTHPFTGEPLTIHAGLDDTWMQALSQFGWRGLLPENERVEFSAPSGQDGEISS" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7450-MONOMER" "DUF446 domain-containing protein YqcC" ["YqcC"] "MTTHDRVRLQLQALEALLREHQHWRNDEPQPHQFNSTQPFFMDTMEPLEWLQWVLIPRMHDLLDNKQPLPGAFAVAPYYEMALATDHPQRALILAELEKLDALFADDAS" [] ["CCO-CYTOSOL"] +"G7451-MONOMER" "SecY-interacting protein" ["Ydr", "Syd"] "MDDLTAQALKDFTARYCDAWHEEHKSWPLSEELYGVPSPCIISTTEDAVYWQPQPFTGEQNVNAVERAFDIVIQPTIHTFYTTQFAGDMHAQFGDIKLTLLQTWSEDDFRRVQENLIGHLVTQKRLKLPPTLFIATLEEELEVISVCNLSGEVCKETLGTRKRTHLASNLAEFLNQLKPLL" ["CCO-PM-BAC-NEG", "CCO-CYTOSOL"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG", "CCO-CYTOSOL"] +"G7452-MONOMER" "7-cyano-7-deazaguanine reductase" ["YqcD", "QueF"] "MSSYANHQALAGLTLGKSTDYRDTYDASLLQGVPRSLNRDPLGLKADNLPFHGTDIWTLYELSWLNAKGLPQVAVGHVELDYTSVNLIESKSFKLYLNSFNQTRFNNWDEVRQTLERDLSTCAQGKISVALYRLDELEGQPIGHFNGTCIDDQDITIDNYEFTTDYLENATCGEKVVEETLVSHLLKSNCLITHQPDWGSLQIQYRGRQIDREKLLRYLVSFRHHNEFHEQCVERIFNDLLRFCQPEKLSVYARYTRRGGLDINPWRSNSDFVPSTTRLVRQ" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7453-MONOMER" "DUF903 domain-containing lipoprotein YgdI" ["YgdI"] "MKKTAAIISACMLTFALSACSGSNYVMHTNDGRTIVSDGKPQTDNDTGMISYKDANGNKQQINRTDVKEMVELDQ" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE", "CCO-PERI-BAC"] +"G7454-MONOMER" "cysteine sulfinate desulfinase" ["YgdJ", "CsdA"] "MNVFNPAQFRAQFPALQDAGVYLDSAATALKPEAVVEATQQFYSLSAGNVHRSQFAEAQRLTARYEAAREKVAQLLNAPDDKTIVWTRGTTESINMVAQCYARPRLQPGDEIIVSVAEHHANLVPWLMVAQQTGAKVVKLPLNAQRLPDVDLLPELITPRSRILALGQMSNVTGGCPDLARAITFAHSAGMVVMVDGAQGAVHFPADVQQLDIDFYAFSGHKLYGPTGIGVLYGKSELLEAMSPWLGGGKMVHEVSFDGFTTQSAPWKLEAGTPNVAGVIGLSAALEWLADYDINQAESWSRSLATLAEDALAKRPGFRSFRCQDSSLLAFDFAGVHHSDMVTLLAEYGIALRAGQHCAQPLLAELGVTGTLRASFAPYNTKSDVDALVNAVDRALELLVD" [] ["CCO-CYTOSOL"] +"G7455-MONOMER" "sulfur acceptor protein CsdE" ["YgdK", "CsdE", "CSD sulfur transfer protein CsdE"] "MTNPQFAGHPFGTTVTAETLRNTFAPLTQWEDKYRQLIMLGKQLPALPDELKAQAKEIAGCENRVWLGYTVAENGKMHFFGDSEGRIVRGLLAVLLTAVEGKTAAELQAQSPLALFDELGLRAQLSASRSQGLNALSEAIIAATKQV" [] ["CCO-CYTOSOL"] +"G7456-MONOMER" "tRNA threonylcarbamoyladenosine dehydratase" ["TcdA", "CsdL", "YgdL", "CSD sulfur transfer protein"] "MSVVISDAWRQRFGGTARLYGEKALQLFADAHICVVGIGGVGSWAAEALARTGIGAITLIDMDDVCVTNTNRQIHALRDNVGLAKAEVMAERIRQINPECRVTVVDDFVTPDNVAQYMSVGYSYVIDAIDSVRPKAALIAYCRRNKIPLVTTGGAGGQIDPTQIQVTDLAKTIQDPLAAKLRERLKSDFGVVKNSKGKLGVDCVFSTEALVYPQSDGTVCAMKATAEGPKRMDCASGFGAATMVTATFGFVAVSHALKKMMAKAARQG" [] ["CCO-CYTOSOL", "CCO-MEMBRANE"] +"G7457-MONOMER" "membrane-bound lytic murein transglycosylase A" ["YgdM", "Mlt", "MltA", "Mlt38"] "MKGRWVKYLLMGTVVAMLAACSSKPTDRGQQYKDGKFTQPFSLVNQPDAVGAPINAGDFAEQINHIRNSSPRLYGNQSNVYNAVQEWLRAGGDTRNMRQFGIDAWQMEGADNYGNVQFTGYYTPVIQARHTRQGEFQYPIYRMPPKRGRLPSRAEIYAGALSDKYILAYSNSLMDNFIMDVQGSGYIDFGDGSPLNFFSYAGKNGHAYRSIGKVLIDRGEVKKEDMSMQAIRHWGETHSEAEVRELLEQNPSFVFFKPQSFAPVKGASAVPLVGRASVASDRSIIPPGTTLLAEVPLLDNNGKFNGQYELRLMVALDVGGAIKGQHFDIYQGIGPEAGHRAGWYNHYGRVWVLKTAPGAGNVFSG" ["CCO-PM-BAC-NEG", "CCO-OUTER-MEM"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE", "CCO-OUTER-MEM"] +"G7458-MONOMER" "N-acetylmuramoyl-L-alanine amidase C" ["YgdN", "AmiC"] "MSGSNTAISRRRLLQGAGAMWLLSVSQVSLAAVSQVVAVRVWPASSYTRVTVESNRQLKYKQFALSNPERVVVDIEDVNLNSVLKGMAAQIRADDPFIKSARVGQFDPQTVRMVFELKQNVKPQLFALAPVAGFKERLVMDLYPANAQDMQDPLLALLEDYNKGDLEKQVPPAQSGPQPGKAGRDRPIVIMLDPGHGGEDSGAVGKYKTREKDVVLQIARRLRSLIEKEGNMKVYMTRNEDIFIPLQVRVAKAQKQRADLFVSIHADAFTSRQPSGSSVFALSTKGATSTAAKYLAQTQNASDLIGGVSKSGDRYVDHTMFDMVQSLTIADSLKFGKAVLNKLGKINKLHKNQVEQAGFAVLKAPDIPSILVETAFISNVEEERKLKTATFQQEVAESILAGIKAYFADGATLARRG" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"G7459-MONOMER" "RNA pyrophosphohydrolase" ["NudH", "YgdP", "RppH"] "MIDDDGYRPNVGIVICNRQGQVMWARRFGQHSWQFPQGGINPGESAEQAMYRELFEEVGLSRKDVRILASTRNWLRYKLPKRLVRWDTKPVCIGQKQKWFLLQLVSGDAEINMQTSSTPEFDGWRWVSYWYPVRQVVSFKRDVYRRVMKEFASVVMSLQENTPKPQNASAYRRKRG" [] ["CCO-CYTOSOL"] +"G7460-MONOMER" "PF03741 family inner membrane protein YgdQ" ["YgdQ", "UPF0053 inner membrane protein YgdQ"] "MLFAWITDPNAWLALGTLTLLEIVLGIDNIIFLSLVVAKLPTAQRAHARRLGLAGAMVMRLALLASIAWVTRLTNPLFTIFSQEISARDLILLLGGLFLIWKASKEIHESIEGEEEGLKTRVSSFLGAIVQIMLLDIIFSLDSVITAVGLSDHLFIMMAAVVIAVGVMMFAARSIGDFVERHPSVKMLALSFLILVGFTLILESFDIHVPKGYIYFAMFFSIAVESLNLIRNKKNPL" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7461-MONOMER" "DUF903 domain-containing lipoprotein YgdR" ["YgdR"] "MKKWAVIISAVGLAFAVSGCSSDYVMATKDGRMILTDGKPEIDDDTGLVSYHDQQGNAMQINRDDVSQIIER" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE", "CCO-PERI-BAC"] +"G7462-MONOMER" "putative NADP(H)-dependent aldo-keto reductase Tas" ["YgdS", "Tas"] "MQYHRIPHSSLEVSTLGLGTMTFGEQNSEADAHAQLDYAVAQGINLIDVAEMYPVPPRPETQGLTETYVGNWLAKHGSREKLIIASKVSGPSRNNDKGIRPDQALDRKNIREALHDSLKRLQTDYLDLYQVHWPQRPTNCFGKLGYSWTDSAPAVSLLDTLDALAEYQRAGKIRYIGVSNETAFGVMRYLHLADKHDLPRIVTIQNPYSLLNRSFEVGLAEVSQYEGVELLAYSCLGFGTLTGKYLNGAKPAGARNTLFSRFTRYSGEQTQKAVAAYVDIARRHGLDPAQMALAFVRRQPFVASTLLGATTMDQLKTNIESLHLELSEDVLAEIEAVHQVYTYPAP" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7463-MONOMER" "5-dehydro-4-deoxy-D-glucuronate isomerase" ["YqeE", "KduI", "5-keto 4-deoxyuronate isomerase"] "MDVRQSIHSAHAKTLDTQGLRNEFLVEKVFVADEYTMVYSHIDRIIVGGIMPITKTVSVGGEVGKQLGVSYFLERRELGVINIGGAGTITVDGQCYEIGHRDALYVGKGAKEVVFASIDTGTPAKFYYNCAPAHTTYPTKKVTPDEVSPVTLGDNLTSNRRTINKYFVPDVLETCQLSMGLTELAPGNLWNTMPCHTHERRMEVYFYFNMDDDACVFHMMGQPQETRHIVMHNEQAVISPSWSIHSGVGTKAYTFIWGMVGENQVFDDMDHVAVKDLR" [] ["CCO-CYTOSOL"] +"G7464-MONOMER" "putative acyltransferase" ["YqeF"] "MKDVVIVGALRTPIGCFRGALAGHSAVELGSLVVKALIERTGVPAYAVDEVILGQVLTAGAGQNPARQSAIKGGLPNSVSAITINDVCGSGLKALHLATQAIQCGEADIVIAGGQENMSRAPHVLTDSRTGAQLGNSQLVDSLVHDGLWDAFNDYHIGVTAENLAREYGISRQLQDAYALSSQQKARAAIDAGRFKDEIVPVMTQSNGQTLVVDTDEQPRTDASAEGLARLNPSFDSLGSVTAGNASSINDGAAAVMMMSEAKARALNLPVLARIRAFASVGVDPALMGIAPVYATRRCLERVGWQLAEVDLIEANEAFAAQALSVGKMLEWDERRVNVNGGAIALGHPIGASGCRILVSLVHEMVKRNARKGLATLCIGGGQGVALTIERDE" [] ["CCO-CYTOSOL"] +"G7466-MONOMER" "putative LuxR family transcriptional regulator YqeH" ["YqeH"] "MGLCSRYKSLTCNSCSMHCQIMPEESPRLQYCANSCFCMWPEESSYFNRGVVEGILTKNHNARLSGYIFVDFSVSFLRLFLEKDWIDYLASTDMGIVLVSDRNMQSLANYWRKHNSAISAVIYNDDGLDVANEKIRQLFIGRYLSFTGGNTLTQMEFTIMGYMVSGYNPYQIAEVLDMDIRSIYAYKQRIEKRMGGKINELFIRSHSVQH" [] ["CCO-CYTOSOL"] +"G7467-MONOMER" "putative transcriptional regulator YqeI" ["YqeI"] "MYWIINDNIEFWPEHRKLISVHNADLNVVLTTPASRCLSLLLEAFPDVVAQQDFFTRVWEEEGMRVPTNTLYQNISIIRRGFRAVGDTTHSLIATVPRRGFKIHNDINIQNHVINSSTDAHTHNAPPAIKVNAGYKESIGGAKNFNNKILKHIKSHLIMLSAFVIGAYSAYWLWNNNQPKPFFKDYKTVAEINGCHFNVTEDTIDGLKEFDKYKTRILDSGINCKKHPWLYFPLAKSSPGMIVMACNKNYNQHEVANCLTLSYREVNRD" [] ["CCO-PM-BAC-NEG", "CCO-CYTOSOL"] +"G7468-MONOMER" "protein YqeJ" ["YqeJ"] "MIDYKKNLLFILVFISGFILFTVYSYTAEKMIYNETCTANWVIFNDQGRANLTIDFMYNKKNKTGTVALSGTWQQGNRESKSIRRNIEYTWIENYDTAHLTSKKVNKFEIMDQVDDDRLAQLIPDFYVFPEKSVSYNILKQGKHAFILSIGNRAIMHCAR" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7469-MONOMER" "protein YqeK" ["YqeK"] "MDIEFSQIHEMVYMHDIVNSDSKKKPRIPLKKFLNAENVLTQTTSWTLNSRYVNVNSVNKVNVKSKVKNSYISRSVNDEFSLTDDEINSFKETLVLSSIDSLSKLVLNNPLSVLFTSTVRRNNNRAKMNVEFDSWICTRCC" [] ["CCO-CYTOSOL"] +"G7470-MONOMER" "protein YgeF" ["YgeF"] "MKPRNINNSLPLQPLVPDQENKNKKNEEKSVNPVKITMGSGLNYIEQESLGGKYLTHDLSIKIADISEEIIQQAILSAMSIYKFSITDDLMSMAVNELIKLTKIENNVDLNKFTTICTDVLSPRVTRHNKEKNKRHSTLLKNPLFNFH*KNGN*YYESRSYT" [] [] +"G7471-MONOMER" "TPR repeat-containing putative chaperone YgeG" ["YgeG"] "MSTETIEIFNNSDEWANQLKHALSKGENLALLHGLTPDILDRIYAYAFDYHEKGNITDAEIYYKFLCIYAFENHEYLKDFASVCQPKKKYQQAYDLYKLSYNYFPYDDYSVIYRMGQCQIGAKNIDNAMQCFYHIINNCEDDSVKSKAQAYIELLNDNSEDNG" [] ["CCO-CYTOSOL"] +"G7472-MONOMER" "putative transcriptional regulator YgeH" ["YgeH"] "MDLENKFSYHFLEGLTLTEDGILTQGNEQVYIPQKELGVLIVLLESAGHVVLKDMIIESVWKNIIVSDESLTRCIYSLRCIFEKIGYDRCIETIYRKGYRFSGQVFKTKINEDNTSDYSIAIFPFTTSLNTLDPLILNQELVQIISNKKIDGLYTYPMAATNFCNDHISQNSFLSRFKPDYFVTGRINQNNAVNTLYIELIDAKNLFLIASNHLPVDELHNTSQFIIDNILQTVHKPERSVRLAKQDQGYKNHYLSDEMLAGKKELYDFTPESIYRAMTIFDRLQNKSDIQTLKTECYCLLAECHMSLALHGKSELELAAQKALELLDYVSDITTVDGKILAIMGLITGLSGQAKVSHILFEQAKIHSTDIASLYYYRALVHFHNEKIEEARICIDKSLQLEPRRRKAVVIKECVDMYVPNPLKNNIKLYYKETESESHRVIIDNILKLKQLTRICMR" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7473-MONOMER" "protein YgeI" ["YgeI"] "MTNPIGINNLSQSSNIANATGDEVVSLDKHINTSATDTDQIQAFIVSTWMAPFQNDMYSEDNPISPYYKIEW" [] ["CCO-CYTOSOL"] +"G7474-MONOMER" "transglycosylase domain-containing protein Pbl" ["YgeJ", "Pbl"] "MRSPKVKFLTIFTFCIFITKMSFASNSCSNEAGTMFRIEPNLIKAIALVESNLKKDSIGKNRDKNNNIKSLDYWLMQINQMHIPLLKKRGIIKDERDLLDNPCLNIKIGTEILYNHFSRCGVTWQCLGTYNAGFAMDNQKKRQQYAPKYILYIPGLMN*TIVRLQQ" [] [] +"G7475-MONOMER" "putative DNA-binding transcriptional regulator YgeK" ["YgeK"] "MGAELVKWVKSHKIDAHIITFVAKMPYIDSIKLLEAGAKGCVWKTSHPAKLNRAIDSISNGYTYFDSVHMDCEKISSRYSSDNQLTNRESEILQLIADGKTNKEIANFLQLSRKTVETHRLNIMKKLDVHSGIELIKTALRMGVCTI" [] ["CCO-CYTOSOL"] +"G7476-MONOMER" "protein YgeL" ["YgeL"] "MGKIKIVVSDQQPFMIDGIIGFLGHYPDLYEVVGGYKDLKKAIAECNKSTA" [] ["CCO-CYTOSOL"] +"G7478-MONOMER" "putative type III secretion system protein YgeN" ["YgeM", "YgeN"] "MRKKIEMSLIKSPANGVVIKRKISDGLKEIVSLKEKILLETTAKIQSIEEKREEKFIQGYYDGYTKGIIDEMDNFIPLISLLCSELEKKE*T**TI*RVYC*NLQKKLMFLSKFLKVG*QNYHQYQVL*ISIYLPVSKISLLK*SHILSTNQYGMSILHFMMISVLCFLPINLLLNLVRRNLWIIVSNI*LIIIVSPLTRLTKSANKPDII*LKKCLKHILWI*IILFWQALRT" [] [] +"G7479-MONOMER" "putative uncharacterized protein YgeO" ["YgeO", "ORF_f141"] "MNNWNLLPLICLLSGCHFYRERFAERGFFYKVPDVLRDYLSAIPLEINEKARYKPGIANYHNIITCGFSTLLPYIRQQPLAMQQRFNLLFPDFVDHIQSPLPLASTLLERITFYAKKNRDELDKISCKWCCD" [] ["CCO-CYTOSOL"] +"G7480-MONOMER" "IS2 element protein" ["InsD1"] "MDSARALIARGWGVSLVSRCLRVSRAQLHVILRRTDDWMDGRRSRHTDDTDVLLRIHHVIGELPTYGYRRVWALLRRQAELDGMPAINAKRVYRIMRQNALLLERKPAVPPSKRAHTGRVAVKESNQRWCSDGFEFCCDNGERLRVTFALDCCDREALHWAVTTGGFNSETVQDVMLGAVERRFGNDLPSSPVEWLTDNGSCYRANETRQFARMLGLEPKNTAVRSPESNGIAESFVKTIKRDYISIMPKPDGLTAAKNLAEAFEHYNEWHPHSALGYRSPREYLRQRACNGLSDNRCLEI" [] ["CCO-CYTOSOL"] +"G7482-MONOMER" "protein YgeP" ["YgeP"] "MTSGLERLSNLLSKKDSVFVSDLLREAKVNELDETLSTTRLNHLIDKGYERITLQLDLGGESPGYLEKDKHYREADAALLNVIYPTNLSKINTRRKEQV" [] ["CCO-CYTOSOL"] +"G7483-MONOMER" "putative lipoprotein YgeQ" ["YgeQ"] "MKGKSALTLLLAGIFSCGTCQATGAEVTSESVFNILNSTGAATDKSYLSLNPDKYPNYRLLIHSAKLQNEIKSHYTKDEIQGLLTLTENTRKLTLTEKPWGTFILASTFEDDKTAAETHYDAVWLRDSLWGYMALVSDQGNSVAAKKVLLTLWDYMSTPDQIKRMQDVISNPKRLDGIPVQMNAVHIRFDSNSPVMADVQEEGKPQLWNHKQNDALGLYLDLLIQAINTGTINAEDWQKGDRLKSVALLIAYLDKANFYVMEDS" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7484-MONOMER" "LysM domain-containing putative peptidase lipoprotein YgeR" ["YgeR", "putative DNA-binding transcriptional regulator"] "MSAGRLNKKSLGIVMLLSVGLLLAGCSGSKSSDTGTYSGSVYTVKRGDTLYRISRTTGTSVKELARLNGISPPYTIEVGQKLKLGGAKSSSITRKSTAKSTTKTASVTPSSAVPKSSWPPVGQRCWLWPTTGKVIMPYSTADGGNKGIDISAPRGTPIYAAGAGKVVYVGNQLRGYGNLIMIKHSEDYITAYAHNDTMLVNNGQSVKAGQKIATMGSTDAASVRLHFQIRYRATAIDPLRYLPPQGSKPKC" [] ["CCO-OUTER-MEM", "CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"G7485-MONOMER" "putative xanthine dehydrogenase molybdenum-binding subunit XdhA" ["YgeS", "XdhA"] "MRVDAIAKVTGRARYTDDYVMAGMCYAKYVRSPIAHGYAVSINDEQARSLPGVLAIFTWEDVPDIPFATAGHAWTLDENKRDTADRALLTRHVRHHGDAVAIVVARDELTAEKAAQLVSIEWQELPVITTPEAALAEDAAPIHNGGNLLKQSTMSTGNVQQTIDAADYQVQGHYQTPVIQHCHMESVTSLAWMEDDSRITIVSSTQIPHIVRRVVGQALDIPWSCVRVIKPFVGGGFGNKQDVLEEPMAAFLTSKLGGIPVKVSLSREECFLATRTRHAFTIDGQMGVNRDGTLKGYSLDVLSNTGAYASHGHSIASAGGNKVAYLYPRCAYAYSSKTCYTNLPSAGAMRGYGAPQVVFAVESMLDDAATALGIDPVEIRLRNAAREGDANPLTGKRIYSAGLPECLEKGRKIFEWEKRRAECQNQQGNLRRGVGVACFSYTSNTWPVGVEIAGARLLMNQDGTINVQSGATEIGQGADTVFSQMVAETVGVPVSDVRVISTQDTDVTPFDPGAFASRQSYVAAPALRSAALLLKEKIIAHAAVMLHQSAMNLTLIKGHIVLVERPEEPLMSLKDLAMDAFYHPERGGQLSAESSIKTTTNPPAFGCTFVDLTVDIALCKVTINRILNVHDSGHILNPLLAEGQVHGGMGMGIGWALFEEMIIDAKSGVVRNPNLLDYKMPTMPDLPQLESAFVEINEPQSAYGHKSLGEPPIIPVAAAIRNAVKMATGVAINTLPLTPKRLYEEFHLAGLI" [] ["CCO-CYTOSOL"] +"G7486-MONOMER" "putative xanthine dehydrogenase FAD-binding subunit XdhB" ["XdhB", "YgeT"] "MFDFASYHRAATLADAINLLADNPQAKLLAGGTDVLIQLHHHNDRYRHIVDIHNLAELRGITLAEDGSLRIGSATTFTQLIEDPITQRHLPALCAAATSIAGPQIRNVATYGGNICNGATSADSATPTLIYDAKLEIHSPRGVRFVPINGFHTGPGKVSLEHDEILVAFHFPPQPKEHAGSAHFKYAMRDAMDISTIGCAAHCRLDNGNFSELRLAFGVAAPTPIRCQHAEQTAQNAPLNLQTLEAISESVLQDVAPRSSWRASKEFRLHLIQTMTKKVISEAVAAAGGKLQ" [] ["CCO-CYTOSOL"] +"G7487-MONOMER" "putative xanthine dehydrogenase iron-sulfur-binding subunit XdhC" ["YgeU", "XdhC"] "MNHSETITIECTINGMPFQLHAAPGTPLSELLREQGLLSVKQGCCVGECGACTVLVDGTAIDSCLYLAAWAEGKEIRTLEGEAKGGKLSHVQQAYAKSGAVQCGFCTPGLIMATTAMLAKPREKPLTITEIRRGLAGNLCRCTGYQMIVNTVLDCEKTK" [] ["CCO-CYTOSOL"] +"G7488-MONOMER" "putative σ54-dependent transcriptional regulator YgeV" ["YgeV"] "MELATTQSVLMQIQPTIQRFARMLASVLQLEVEIVDENLCRVAGTGAYGKFLGRQLSGNSRLLRHVLETKTEKVVTQSRFDPLCEGCDSKENCREKAFLGTPVILQDRCVGVISLIAVTHEQQEHISDNLREFSDYVRHISTIFVSKLLEDQGPGDNISKIFATMIDNMDQGVLVVDDENRVQFVNQTALKTLGVVQNNIIGKPIRFRPLTFESNFTHGHMQHIVSWDDKSELIIGQLHNIQGRQLFLMAFHQSHTSFSVANAPDEPHIEQLVGECRVMRQLKRLISRIAPSPSSVMVVGESGTGKEVVARAIHKLSGRRNKPFIAINCAAIPEQLLESELFGYVKGAFTGASANGKTGLIQAANTGTLFLDEIGDMPLMLQAKLLRAIEAREILPIGASSPIQVDIRIISATNQNLAQFIAEGKFREDLFYRLNVIPITLPPLRERQEDIELLVHYFLHLHTRRLGSVYPGIAPDVVEILRKHRWPGNLRELSNLMEYLVNVVPSGEVIDSTLLPPNLLNNGTTEQSDVTEVSEAHLSLDDAGGTALEEMEKQMIREALSRHNSKKQVADELGIGIATLYRKIKKYELLNT" [] ["CCO-CYTOSOL"] +"G7489-MONOMER" "putative carbamoyltransferase YgeW" ["YgeW"] "MMKTVNELIKDINSLTSHLHEKDFLLTWEQTPDELKQVLDVAAALKALRAENISTKVFNSGLGISVFRDNSTRTRFSYASALNLLGLAQQDLDEGKSQIAHGETVRETANMISFCADAIGIRDDMYLGAGNAYMREVGAALDDGYKQGVLPQRPALVNLQCDIDHPTQSMADLAWLREHFGSLENLKGKKIAMTWAYSPSYGKPLSVPQGIIGLMTRFGMDVTLAHPEGYDLIPDVVEVAKNNAKASGGSFRQVTSMEEAFKDADIVYPKSWAPYKVMEERTELLRANDHEGLKALEKQCLAQNAQHKDWHCTEEMMELTRDGEALYMHCLPADISGVSCKEGEVTEGVFEKYRIATYKEASWKPYIIAAMILSRKYAKPGALLEQLLKEAQERVK" [] ["CCO-CYTOSOL"] +"G7490-MONOMER" "2,3-diaminopropionate ammonia-lyase" ["YgeX"] "MSVFSLKIDIADNKFFNGETSPLFSQSQAKLARQFHQKIAGYRPTPLCALDDLANLFGVKKILVKDESKRFGLNAFKMLGGAYAIAQLLCEKYHLDIETLSFEHLKNAIGEKMTFATTTDGNHGRGVAWAAQQLGQNAVIYMPKGSAQERVDAILNLGAECIVTDMNYDDTVRLTMQHAQQHGWEVVQDTAWEGYTKIPTWIMQGYATLADEAVEQMREMGVTPTHVLLQAGVGAMAGGVLGYLVDVYSPQNLHSIIVEPDKADCIYRSGVKGDIVNVGGDMATIMAGLACGEPNPLGWEILRNCATQFISCQDSVAALGMRVLGNPYGNDPRIISGESGAVGLGVLAAVHYHPQRQSLMEKLALNKDAVVLVISTEGDTDVKHYREVVWEGKHAVAP" [] ["CCO-CYTOSOL"] +"G7491-MONOMER" "putative peptidase YgeY" ["YgeY"] "MAKNIPFKLILEKAKDYQADMTRFLRDMVAIPSESCDEKRVVHRIKEEMEKVGFDKVEIDPMGNVLGYIGHGPRLVAMDAHIDTVGIGNIKNWDFDPYEGMETDELIGGRGTSDQEGGMASMVYAGKIIKDLGLEDEYTLLVTGTVQEEDCDGLCWQYIIEQSGIRPEFVVSTEPTDCQVYRGQRGRMEIRIDVQGVSCHGSAPERGDNAIFKMGPILGELQELSQRLGYDEFLGKGTLTVSEIFFTSPSRCAVADSCAVSIDRRLTWGETWEGALDEIRALPAVQKANAVVSMYNYDRPSWTGLVYPTECYFPTWKVEEDHFTVKALVNAYEGLFGKAPVVDKWTFSTNGVSIMGRHGIPVIGFGPGKEPEAHAPNEKTWKSHLVTCAAMYAAIPLSWLATE" [] ["CCO-PM-BAC-NEG", "CCO-CYTOSOL"] +"G7492-MONOMER" "phenylhydantoinase" ["YgeZ", "HyuA"] "MRVLIKNGTVVNADGQAKQDLLIESGIVRQLGNNISPQLPYEEIDATGCYVFPGGVDVHTHFNIDVGIARSCDDFFTGTRAAACGGTTTIIDHMGFGPNGCRLRHQLEVYRGYAAHKAVIDYSFHGVIQHINHAILDEIPMIVEEGLSSFKLYLTYQYKLNDDEVLQALRRLHESGALTTVHPENDAAIASKRAEFIAAGLTAPRYHALSRPLECEAEAIARMINLAQIAGNAPLYIVHLSNGLGLDYLRLARANHQPVWVETCPQYLLLDERSYDTEDGMKFILSPPLRNVREQDKLWCGISDGAIDVVATDHCTFSMAQRLQISKGDFSRCPNGLPGVENRMQLLFSSGVMTGRITPERFVELTSAMPARLFGLWPQKGLLAPGSDGDVVIIDPRQSQQIQHRHLHDNADYSPWEGFTCQGAIVRTLSRGETIFCDGTFTGKAGRGRFLRRKPFVPPVL" [] ["CCO-CYTOSOL"] +"G7493-MONOMER" "putative amino acid kinase YqeA" ["YqeA"] "MSKKIVLALGGNALGDDLAGQMKAVKITSQAIVDLIAQGHEVIVTHGNGPQVGMINQAFEAAAKTEAHSPMLPMSVCVALSQGYIGYDLQNALREELLSRGINKPVATLVTQVEVDANDPAFLNPTKPIGSFFTEQEAEQLTKQGYTLKEDAGRGYRRVVASPKPVDIIEKETVKALVDAGQVVITVGGGGIPVIREGNHLRGASAVIDKDWASARLAEMIDADMLIILTAVEKVAINFGKENEQWLDRLSLSDAERFIEEGHFAKGSMLPKVEAAASFARSRAGREALITVLSKAKEGIEGKTGTVICQ" [] ["CCO-CYTOSOL"] +"G7494-MONOMER" "XdhC-CoxI family protein YqeB" ["YqeB", "conserved protein with NAD(P)-binding Rossman fold YqeB"] "MNIFTEAAKLEEQNCPFAMAQIVDSRGSTPRHSAQMLVRADGSIVGTIGGGMVERKVIEESLQALQERKPRLFHGRMARNGADAVGSDCGGAMSVFISVHGMRPRLVLIGAGHVNRAIAQSAALLGFDIAVADIYRESLNPELFPPSTTLLHAESFGAAVEALDIRPDNFVLIATNNQDREALDKLIEQPIAWLGLLASRRKVQLFLRQLREKGVAEEHIARLHAPVGYNIGAETPQEIAISVLAEILQVKNNAPGGLMMKPSHPSGHQLVVIRGAGDIASGVALRLYHAGFKVIMLEVEKPTVIRCTVAFAQAVFDGEMTVEGVTARLATSSAEAMKLTERGFIPVMVDPACSLLDELKPLCVVDAILAKQNLGTRADMAPVTIALGPGFTAGKDCHAVIETNRGHWLGQVIYSGCAQENTGVPGNIMGHTTRRVIRAPAAGIMRSNVKLGDLVKEGDVIAWIGEHEIKAPLTGMVRGLLNDGLAVVGGFKIGDIDPRGETADFTSVSDKARAIGGGVLEALMMLMHQGVKATKEVLEVA" [] ["CCO-CYTOSOL"] +"G7495-MONOMER" "uncharacterized protein YqeC" ["YqeC"] "MKSIVDPSALVIDLGAQKRPTVISVVGAGGKTSLLFWLAELLQASGRRVLITTTTHMFMPTSHWPVVFCRDPAMLPHASLTSPISFCFHSWKANQGKVQGFTPEAIDALVQRPECDVILIEADGSRGMPLKAPDEHEPCIPKSSCCVIAVMGGHTLGAKVSTENVHRWSQFADITGLTPDATLQLSDLVALVRHPQGAFKNVPQGCRRVWFINRFSQCENAIAQSELLQPLQQHDVEAIWLGDIQEHPAIARRFVN" [] ["CCO-MEMBRANE"] +"G7496-MONOMER" "molybdenum cofactor cytidylyltransferase" ["YgfJ", "MocA"] "MSAIDCIITAAGLSSRMGQWKMMLPWEQGTILDTSIKNALQFCSRIILVTGYRGNELHERYANQSNITIIHNPDYAQGLLTSVKAAVPAVQTEHCFLTHGDMPTLTIDIFRKIWSLRNDGAILPLHNGIPGHPILVSKPCLMQAIQRPNVTNMRQALLMGDHYSVEIENAEIILDIDTPDDFITAKERYTEI" [] ["CCO-CYTOSOL"] +"G7497-MONOMER" "putative oxidoreductase, Fe-S subunit" ["YgfK"] "MGDIMRPIPFEELLTRIFDEYQQQRSIFGIPEQQFYSPVKGKTVSVFGETCATPVGPAAGPHTQLAQNIVTSWLTGGRFIELKTVQILDRLELEKPCIDAEDECFNTEWSTEFTLLKAWDEYLKAWFALHLLEAMFQPSDSGKSFIFNMSVGYNLEGIKQPPMQQFIDNMMDASDHPKFAQYRDTLNKLLQDDAFLARHGLQEKRESLQALPARIPTSMVHGVTLSTMHGCPPHEIEAICRYMLEEKGLNTFVKLNPTLLGYARVREILDVCGFGYIGLKEESFDHDLKLTQALEMLERLMALAKEKSLGFGVKLTNTLGTINNKGALPGEEMYMSGRALFPLSINVAAVLSRAFDGKLPISYSGGASQLTIRDIFDTGIRPITMATDLLKPGGYLRLSACMRELEGSDAWGLDHVDVERLNRLAADALTMEYTQKHWKPEERIEVAEDLPLTDCYVAPCVTACAIKQDIPEYIRLLGEHRYADALELIYQRNALPAITGHICDHQCQYNCTRLDYDSALNIRELKKVALEKGWDEYKQRWHKPAGSGSRHPVAVIGAGPAGLAAGYFLARAGHPVTLFEREANAGGVVKNIIPQFRIPAELIQHDIDFVAAHGVKFEYGCSPDLTIEQLKNQGFHYVLIATGTDKNSGVKLAGDNQNVWKSLPFLREYNKGTALKLGKHVVVVGAGNTAMDCARAALRVPGVEKATIVYRRSLQEMPAWREEYEEALHDGVEFRFLNNPERFDADGTLTLRVMSLGEPDEKGRRRPVETNETVTLLVDSLITAIGEQQDTEALNAMGVPLDKNGWPDVDHNGETRLTDVFMIGDVQRGPSSIVAAVGTARRATDAILSRENIRSHQNDKYWNNVNPAEIYQRKGDISITLVNSDDRDAFVAQEAARCLECNYVCSKCVDVCPNRANVSIAVPGFQNRFQTLHLDAYCNECGNCAQFCPWNGKPYKDKITVFSLAQDFDNSSNPGFLVEDCRVRVRLNNQSWVLNIDSKGQFNNVPPELNDMCRIISHVHQHHHYLLGRVEV" [] ["CCO-CYTOSOL"] +"G7498-MONOMER" "putative aminohydrolase SsnA" ["YgfL", "SsnA"] "MLILKNVTAVQLHPAKVQEGVDIAIENDVIVAIGDALTQRYPDASFKEMHGRIVMPGIVCSHNHFYSGLSRGIMANIAPCPDFISTLKNLWWRLDRALDEESLYYSGLICSLEAIKSGCTSVIDHHASPAYIGGSLSTLRDAFLKVGLRAMTCFETTDRNNGIKELQEGVEENIRFARLIDEAKKATSEPYLVEAHIGAHAPFTVPDAGLEMLREAVKATGRGLHIHAAEDLYDVSYSHHWYGKDLLARLAQFDLIDSKTLVAHGLYLSKDDITLLNQRDAFLVHNARSNMNNHVGYNHHLSDIRNLALGTDGIGSDMFEEMKFAFFKHRDAGGPLWPDSFAKALTNGNELMSRNFGAKFGLLEAGYKADLTICDYNSPTPLLADNIAGHIAFGMGSGSVHSVMVNGVMVYEDRQFNFDCDSIYAQARKAAASMWRRMDALA" [] ["CCO-CYTOSOL"] +"G7499-MONOMER" "putative oxidoreductase" ["YgfM"] "MIEQFFRPDSVEQALELKRRYQDEAVWFAGGSKLNATPTRTDKKIAISLQDLELDWVDWDNGALRIGAMSRLQPLRDARFIPAALREALGFVYSRHVRNQSTIGGEIAARQEESVLLPVLLALDAELVFGNGETLSIEDYLACPCDRLLTEIIIKDPYRTCATRKISRSQAGLTVVTAAVAMTDHDGMRIALDGVASKALRLHDVEKQNLEGNALEQAVANAIFPQEDLRGSVAYKRYITGVLVADLYADCQQAGEEAV" [] ["CCO-CYTOSOL"] +"G7500-MONOMER" "fused putative xanthine/hypoxanthine oxidase: molybdopterin-binding subunit and Fe-S binding subunit" ["YgfN", "XdhD"] "MIIHFTLNGAPQELTVNPGENVQKLLFNMGMHSVRNSDDGFGFAGSDAIIFNGNIVNASLLIAAQLEKADIRTAESLGKWNELSLVQQAMVDVGVVQSGYNDPAAALIITDLLDRIAAPTREEIDDALSGLFSRDAGWQQYYQVIELAVARKNNPQATIDIAPTFRDDLEVIGKHYPKTDAAKMVQAKPCYVEDRVTADACVIKMLRSPHAHALITHLDVSKAEALPGVVHVITHLNCPDIYYTPGGQSAPEPSPLDRRMFGKKMRHVGDRVAAVVAESEEIALEALKLIDVEYEVLKPVMSIDEAMAEDAPVVHDEPVVYVAGAPDTLEDDNSHAAQRGEHMIINFPIGSRPRKNIAASIHGHIGDMDKGFADADVIIERTYNSTQAQQCPTETHICFTRMDGDRLVIHASTQVPWHLRRQVARLVGMKQHKVHVIKERVGGGFGSKQDILLEEVCAWATCVTGRPVLFRYTREEEFIANTSRHVAKVTVKLGAKKDGRLTAVKMDFRANTGPYGNHSLTVPCNGPALSLPLYPCDNVDFQVTTYYSNICPNGAYQGYGAPKGNFAITMALAELAEQLQIDQLEIIERNRVHEGQELKILGAIGEGKAPTSVPSAASCALEEILRQGREMIQWSSPKPQNGDWHIGRGVAIIMQKSGIPDIDQANCMIKLESDGTFIVHSGGADIGTGLDTVVTKLAAEVLHCPPQDVHVISGDTDHALFDKGAYASSGTCFSGNAARLAAENLREKILFHGAQMLGEPVADVQLATPGVVRGKKGEVSFGDIAHKGETGTGFGSLVGTGSYITPDFAFPYGANFAEVAVNTRTGEIRLDKFYALLDCGTPVNPELALGQIYGATLRAIGHSMSEEIIYDAEGHPLTRDLRSYGAPKIGDIPRDFRAVLVPSDDKVGPFGAKSISEIGVNGAAPAIATAIHDACGIWLREWHFTPEKILTALEKI" [] ["CCO-PM-BAC-NEG"] +"G7502-MONOMER" null ["GuaD", "YgfP"] "MMSGEHTLKAVRGSFIDVTRTIDNPEEIASALRFIEDGLLLIKQGKVEWFGEWENGKHQIPDTIRVRDYRGKLIVPGFVDTHIHYPQSEMVGAYGEQLLEWLNKHTFPTERRYEDLEYAREMSAFFIKQLLRNGTTTALVFGTVHPQSVDALFEAASHINMRMIAGKVMMDRNAPDYLLDTAESSYHQSKELIERWHKNGRLLYAITPRFAPTSSPEQMAMAQRLKEEYPDTWVHTHLCENKDEIAWVKSLYPDHDGYLDVYHQYGLTGKNCVFAHCVHLEEKEWDRLSETKSSIAFCPTSNLYLGSGLFNLKKAWQKKVKVGMGTDIGAGTTFNMLQTLNEAYKVLQLQGYRLSAYEAFYLATLGGAKSLGLDDLIGNFLPGKEADFVVMEPTATPLQQLRYDNSVSLVDKLFVMMTLGDDRSIYRTYVDGRLVYERN" [] ["CCO-CYTOSOL"] +"G7504-MONOMER" "guanine/hypoxanthine transporter GhxQ" ["GhxQ", "YgfR", "YgfQ"] "MSGDILQTPDAPKPQGALDNYFKITARGSTVRQEVLAGLTTFLAMVYSVIVVPGMLGKAGFPPAAVFVATCLVAGFGSLLMGLWANLPMAIGCAISLTAFTAFSLVLGQQISVPVALGAVFLMGVIFTAISVTGVRTWILRNLPMGIAHGTGIGIGLFLLLIAANGVGMVIKNPIEGLPVALGAFTSFPVMMSLLGLAVIFGLEKCRVPGGILLVIIAISIIGLIFDPAVKYHGLVAMPSLTGEDGKSLIFSLDIMGALQPTVLPSVLALVMTAVFDATGTIRAVAGQANLLDKDNQIINGGKALTSDSVSSIFSGLVGAAPAAVYIESAAGTAAGGKTGLTATVVGALFLLILFLSPLSFLIPGYATAPALMYVGLLMLSNVSKLDFNDFIDAMAGLVCAVFIVLTCNIVTGIMLGFVTLVVGRVFAREWQKLNIGTVIITAALVAFYAGGWAI" ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"G7505-MONOMER" "putative electron transport protein YgfS" ["YgfS", "putative oxidoreductase, 4Fe-4S ferredoxin-type subunit"] "MKSLIIVNPADCIGCRTCEVACVVAHPSEQELNADVFLPRLKVQRLDSISAPVMCHQCENAPCVGACPVGALTMGEQVVQTNSARCIGCQSCVSACPFGMITIQSLPGDTRQQIVKCDLCEQREEGPACVESCPTQALQLLTERELRRVRQQRIVASGENPL" [] ["CCO-PM-BAC-NEG"] +"G7506-MONOMER" "putative oxidoreductase YgfT" ["YgfT", "fused putative oxidoreductase, Fe-S subunit and nucleotide-binding subunit"] "MNKFIAAEAAECIGCHACEIACAVAHNQENWPLSHSDFRPRIHVVGKGQAANPVACHHCNNAPCVTACPVNALTFQSDSVQLDEQKCIGCKRCAIACPFGVVEMVDTIAQKCDLCNQRSSGTQACIEVCPTQALRLMDDKGLQQIKVARQRKTAAGKASSDAQPSRSAALLPVNSRKGADKISASERKTHFGEIYCGLDPQQATYESDRCVYCAEKANCNWHCPLHNAIPDYIRLVQEGKIIEAAELCHQTSSLPEICGRVCPQDRLCEGACTLKDHSGAVSIGNLERYITDTALAMGWRPDVSKVVPRSEKVAVIGAGPAGLGCADILARAGVQVDVFDRHPEIGGMLTFGIPPFKLDKTVLSQRREIFTAMGIDFHLNCEIGRDITFSDLTSEYDAVFIGVGTYGMMRADLPHEDAPGVIQALPFLTAHTRQLMGLPESEEYPLTDVEGKRVVVLGGGDTTMDCLRTSIRLNAASVTCAYRRDEVSMPGSRKEVVNAREEGVEFQFNVQPQYIACDEDGRLTAVGLIRTAMGEPGPDGRRRPRPVAGSEFELPADVLIMAFGFQAHAMPWLQGSGIKLDKWGLIQTGDVGYLPTQTHLKKVFAGGDAVHGADLVVTAMAAGRQAARDMLTLFDTKAS" [] ["CCO-CYTOSOL"] +"G7509-MONOMER" "protein YgfX" ["CptA", "YgfX", "toxin of the CptA-CptB toxin-antitoxin system"] "MVLWQSDLRVSWRAQWLSLLIHGLVAAVILLMPWPLSYTPLWMVLLSLVVFDCVRSQRRINARQGEIRLLMDGRLRWQGQEWSIVKAPWMIKSGMMLRLRSDGGKRQHLWLAADSMDEAEWRDLRRILLQQETQR" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7510-MONOMER" "FAD assembly factor" ["SdhE", "YgfY", "CptB", "antitoxin of the CptA-CptB toxin-antitoxin system"] "MDINNKARIHWACRRGMRELDISIMPFFEHEYDSLSDDEKRIFIRLLECDDPDLFNWLMNHGKPADAELEMMVRLIQTRNRERGPVAI" [] ["CCO-CYTOSOL"] +"G7511-MONOMER" "folate-binding protein" ["YzzW", "YgfZ"] "MAFTPFPPRQPTASARLPLTLMTLDDWALATITGADSEKYMQGQVTADVSQMAEDQHLLAAHCDAKGKMWSNLRLFRDGDGFAWIERRSVREPQLTELKKYAVFSKVTIAPDDERVLLGVAGFQARAALANLFSELPSKEKQVVKEGATTLLWFEHPAERFLIVTDEATANMLTDKLRGEAELNNSQQWLALNIEAGFPVIDAANSGQFIPQATNLQALGGISFKKGCYTGQEMVARAKFRGANKRALWLLAGSASRLPEAGEDLELKMGENWRRTGTVLAAVKLEDGQVVVQVVMNNDMEPDSIFRVRDDANTLHIEPLPYSLEE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7512-MONOMER" "hemolysin-III family protein YqfA" ["YqfA"] "MVQKPLIKQGYSLAEEIANSVSHGIGLVFGIVGLVLLLVQAVDLNASATAITSYSLYGGSMILLFLASTLYHAIPHQRAKMWLKKFDHCAIYLLIAGTYTPFLLVGLDSPLARGLMIVIWSLALLGILFKLTIAHRFKILSLVTYLAMGWLSLVVIYEMAVKLAAGSVTLLAVGGVVYSLGVIFYVCKRIPYNHAIWHGFVLGGSVCHFLAIYLYIGQA" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7513-MONOMER" "N4-acetylcytidine amidohydrolase" ["YqfB", "ASCH domain-containing protein YqfB"] "MQPNDITFFQRFQDDILAGRKTITIRDESESHFKTGDVLRVGRFEDDGYFCTIEVTATSTVTLDTLTEKHAEQENMTLTELKKVIADIYPGQTQFYVIEFKCL" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7514-MONOMER" "putative oxidoreductase YgfF" ["YqfD", "YgfF", "putative NAD(P)-binding oxidoreductase with NAD(P)-binding Rossmann-fold domain"] "MAIALVTGGSRGIGRATALLLAQEGYTVAVNYQQNLHAAQEVMNLITQAGGKAFVLQADISDENQVVAMFTAIDQHDEPLAALVNNAGILFTQCTVENLTAERINRVLSTNVTGYFLCCREAVKRMALKNGGSGGAIVNVSSVASRLGSPGEYVDYAASKGAIDTLTTGLSLEVAAQGIRVNCVRPGFIYTEMHASGGEPGRVDRVKSNIPMQRGGQAEEVAQAIVWLLSDKASYVTGSFIDLAGGK" [] ["CCO-CYTOSOL"] +"G7515-MONOMER" "putative protein YqfE" ["YqfE"] "MHFAQRVRALVVLNGVALLPQFACKQGLANGELVRLFAPWSGIPRPLYALFAGRKGMPAIARYFMDELTTRLANGV" [] ["CCO-CYTOSOL"] +"G7516-MONOMER" "methylmalonyl-CoA decarboxylase" ["ScpB", "YgfG"] "MSYQYVNVVTINKVAVIEFNYGRKLNALSKVFIDDLMQALSDLNRPEIRCIILRAPSGSKVFSAGHDIHELPSGGRDPLSYDDPLRQITRMIQKFPKPIISMVEGSVWGGAFEMIMSSDLIIAASTSTFSMTPVNLGVPYNLVGIHNLTRDAGFHIVKELIFTASPITAQRALAVGILNHVVEVEELEDFTLQMAHHISEKAPLAIAVIKEELRVLGEAHTMNSDEFERIQGMRRAVYDSEDYQEGMNAFLEKRKPNFVGH" [] ["CCO-CYTOSOL"] +"G7517-MONOMER" null ["YgfH", "ScpC"] "METQWTRMTANEAAEIIQHNDMVAFSGFTPAGSPKALPTAIARRANEQHEAKKPYQIRLLTGASISAAADDVLSDADAVSWRAPYQTSSGLRKKINQGAVSFVDLHLSEVAQMVNYGFFGDIDVAVIEASALAPDGRVWLTSGIGNAPTWLLRAKKVIIELNHYHDPRVAELADIVIPGAPPRRNSVSIFHAMDRVGTRYVQIDPKKIVAVVETNLPDAGNMLDKQNPMCQQIADNVVTFLLQEMAHGRIPPEFLPLQSGVGNINNAVMARLGENPVIPPFMMYSEVLQESVVHLLETGKISGASASSLTISADSLRKIYDNMDYFASRIVLRPQEISNNPEIIRRLGVIALNVGLEFDIYGHANSTHVAGVDLMNGIGGSGDFERNAYLSIFMAPSIAKEGKISTVVPMCSHVDHSEHSVKVIITEQGIADLRGLSPLQRARTIIDNCAHPMYRDYLHRYLENAPGGHIHHDLSHVFDLHRNLIATGSMLG" [] ["CCO-CYTOSOL"] +"G7518-MONOMER" "putative LysR-type DNA-binding transcriptional regulator YgfI" ["YgfI"] "MDIFISKKMRNFILLAQTNNIARAAEKIHMTASPFGKSIAALEEQIGYTLFTRKDNNISLNKAGQELYQKLFPVYQRLSAIDNEIHNSGRRSREIVIGIDNTYPTIIFDQLISLGDKYEGVTAQPVEFSENGVIDNLFDRQLDFIISPQHVSARVQELENLTISELPPLRLGFLVSRRYEERQEQELLQELPWLQMRFQNRANFEAMIDANMRPCGINPTIIYRPYSFMAKISAVERGHFLTVIPHFAWRLVNPATLKYFDAPHRPMYMQEYLYSIRNHRYTATMLQHIAEDRDGTSH" [] ["CCO-CYTOSOL"] +"G7520-MONOMER" "putative zinc-binding dehydrogenase YggP" ["YggP"] "MKTKVAAIYGKRDVRLRVFELPEITDNELLVSVISDSVCLSTWKAALLGSEHKRVPDDLENHPVITGHECAGVIVEVGKNLTGKYKKGQRFVLQPAMGLPSGYSAGYSYEYFGGNATYMIIPEIAINLGCVLPYHGSYFAAASLAEPMCCIIGAYHANYHTTQYVYEHRMGVKPGGNIALLACAGPMGIGAIDYAINGGIQPSRVVVVDIDDKRLAQVQKLLPVELAASKGIELVYVNTKGMSDPVQMLRALTGDAGFDDIFVYAAVPAVVEMADELLAEDGCLNFFAGPTDKNFKVPFNFYNVHYNSTHVVGTSGGSTDDMKEAIALSATGQLQPSFMVTHIGGLDAVPETVLNLPDIPGGKKLIYNGVTMPLTAIADFAEKGKTDPLFKELARLVEETHGIWNEQAEKYLLAQFGVDIGEAAQ" [] ["CCO-CYTOSOL"] +"G7521-MONOMER" "acid stress response protein YqgB" ["YqgB"] "MKKKPVAQLERQHSLLENPCAYGLLSQFQAAIVVNCFTLNKII" [] ["CCO-CYTOSOL"] +"G7522-MONOMER" "protein YqgC" ["YqgC"] "MGITSAGMQSRDAECGERIFTRTVRQVKQQTTVHYFVSPPRPPVKTNPQAKTLISTRLEVATRKKRRVLFI" [] ["CCO-CYTOSOL"] +"G7523-MONOMER" "DUF2684 domain-containing protein YqgD" ["YqgD"] "MVADPTTTLQVKNTGSLSVNRYGWINIWMAILGQFFTLFPLFFESCLILLKTWLEIFPDNAGILRIYLLQFSAIVGYKTRRAA" [] ["CCO-MEMBRANE"] +"G7524-MONOMER" "DUF179 domain-containing protein YqgE" ["YqgE"] "MNLQHHFLIAMPALQDPIFRRSVVYICEHNTNGAMGIIVNKPLENLKIEGILEKLKITPEPRDESIRLDKPVMLGGPLAEDRGFILHTPPSNFASSIRISDNTVMTTSRDVLETLGTDKQPSDVLVALGYASWEKGQLEQEILDNAWLTAPADLNILFKTPIADRWREAAKLIGVDILTMPGVAGHA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7525-MONOMER" "ribonuclease H-like domain containing nuclease" ["YqgF", "putative pre-16S rRNA nuclease", "DNA damage response protein YqgF"] "MSGTLLAFDFGTKSIGVAVGQRITGTARPLPAIKAQDGTPDWNIIERLLKEWQPDEIIVGLPLNMDGTEQPLTARARKFANRIHGRFGVEVKLHDERLSTVEARSGLFEQGGYRALNKGKVDSASAVIILESYFEQGY" [] ["CCO-CYTOSOL"] +"G7526-MONOMER" "Type II/IV secretion system family protein" ["YggR"] "MNMEEIVALSVKHNVSDLHLCSAWPARWRIRGRMEAAPFDTPDVEELLREWLDDDQRAILLENGQLDFAVSLAENQRLRGSAFAQRHGISLALRLLPSHCPQLEQLGAPTVLPELLKSENGLILVTGATGSGKSTTLAAMVGYLNQHADAHILTLEDPVEYLYASQRCLIQQREIGLHCMTFASGLRAALREDPDVILLGELRDSETIRLALTAAETGHLVLATLHTRGAAQAVERLVDSFPAQEKDPVRNQLAGSLRAVLSQKLEVDKQEGRVALFELLINTPAVGNLIREGKTHQLPHVIQTGQQVGMITFQQSYQHRVGEGRL" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7527-MONOMER" "PLP homeostasis protein" ["YggS"] "MNDIAHNLAQVRDKISAAATRCGRSPEEITLLAVSKTKPASAIAEAIDAGQRQFGENYVQEGVDKIRHFQELGVTGLEWHFIGPLQSNKSRLVAEHFDWCHTIDRLRIATRLNDQRPAELPPLNVLIQINISDENSKSGIQLAELDELAAAVAELPRLRLRGLMAIPAPESEYVRQFEVARQMAVAFAGLKTRYPHIDTLSLGMSDDMEAAIAAGSTMVRIGTAIFGARDYSKK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7528-MONOMER" "uncharacterized protein YggT" ["YggT"] "MNTLTFLLSTVIELYTMVLLLRIWMQWAHCDFYNPFSQFVVKVTQPIIGPLRRVIPAMGPIDSASLLVAYILSFIKAIVLFKVVTFLPIIWIAGLLILLKTIGLLIFWVLLVMAIMSWVSQGRSPIEYVLIQLADPLLRPIRRLLPAMGGIDFSPMILVLLLYVINMGVAEVLQATGNMLLPGLWMAL" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7529-MONOMER" "DUF167 domain-containing protein YggU" ["YggU"] "MNAVTVNDDGLVLRLYIQPKASRDSIVGLHGDEVKVAITAPPVDGQANSHLVKFLGKQFRVAKSQVVIEKGELGRHKQIKIINPQQIPPEIAALIN" [] ["CCO-CYTOSOL"] +"G7530-MONOMER" "dITP/XTP pyrophosphatase" ["YggV", "RdgB"] "MQKVVLATGNVGKVRELASLLSDFGLDIVAQTDLGVDSAEETGLTFIENAILKARHAAKVTALPAIADDSGLAVDVLGGAPGIYSARYSGEDATDQKNLQKLLETMKDVPDDQRQARFHCVLVYLRHAEDPTPLVCHGSWPGVITREPAGTGGFGYDPIFFVPSEGKTAAELTREEKSAISHRGQALKLLLDALRNG" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7531-MONOMER" "heme chaperone HemW" ["HemW", "YggW"] "MVKLPPLSLYIHIPWCVQKCPYCDFNSHALKGEVPHDDYVQHLLNDLDNDVAYAQGREVKTIFIGGGTPSLLSGPAMQTLLDGVRARLPLAADAEITMEANPGTVEADRFVDYQRAGVNRISIGVQSFSEEKLKRLGRIHGPQEAKRAAKLASGLGLRSFNLDLMHGLPDQSLEEALGDLRQAIELNPPHLSWYQLTIEPNTLFGSRPPVLPDDDALWDIFEQGHQLLTAAGYQQYETSAYAKPGYQCQHNLNYWRFGDYIGIGCGAHGKVTFPDGRILRTTKTRHPRGFMQGRYLESQRDVEATDKPFEFFMNRFRLLEAAPRVEFIAYTGLCEDVIRPQLDEAIAQGYLTECADYWQITEHGKLFLNSLLELFLAE" [] ["CCO-CYTOSOL"] +"G7532-MONOMER" "putative Fe2+-trafficking protein" ["YggX", "protein that protects iron-sulfur proteins against oxidative damage"] "MSRTIFCTFLQREAEGQDFQLYPGELGKRIYNEISKEAWAQWQHKQTMLINEKKLNMMNAEHRKLLEQEMVNFLFEGKEVHIEGYTPEDKK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7533-MONOMER" "membrane-bound lytic murein transglycosylase C" ["YggZ", "MltC"] "MKKYLALALIAPLLISCSTTKKGDTYNEAWVKDTNGFDILMGQFAHNIENIWGFKEVVIAGPKDYVKYTDQYQTRSHINFDDGTITIETIAGTEPAAHLRRAIIKTLLMGDDPSSVDLYSDVDDITISKEPFLYGQVVDNTGQPIRWEGRASNFADYLLKNRLKSRSNGLRIIYSVTINMVPNHLDKRAHKYLGMVRQASRKYGVDESLILAIMQTESSFNPYAVSRSDALGLMQVVQHTAGKDVFRSQGKSGTPSRSFLFDPASNIDTGTAYLAMLNNVYLGGIDNPTSRRYAVITAYNGGAGSVLRVFSNDKIQAANIINTMTPGDVYQTLTTRHPSAESRRYLYKVNTAQKSYRRR" [] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"G7534-MONOMER" "DUF554 domain-containing protein YqgA" ["YqgA"] "MVIGPFINASAVLLGGVLGALLSQRLPERIRVSMTSIFGLASLGIGILLVVKCANLPAMVLATLLGALIGEICLLEKGVNTAVAKAQNLFRHSRKKPAHESFIQNYVAIIVLFCASGTGIFGAMNEGMTGDPSILIAKSFLDFFTAMIFACSLGIAVSVISIPLLIIQLTLAWAAALILPLTTPSMMADFSAVGGLLLLATGLRICGIKMFPVVNMLPALLLAMPLSAAWTAWFA" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7535-MONOMER" "putative type II secretion system M-type protein YghD" ["EcfC", "YghD"] "MLRDKFIHYFQQWRERQLSRGEHWLAQHLAGRSPREKGMLLAAVVFLFSVGYYVLIWQPLSERIEQQETILQQLVAMNTRLKNAAPDIIAARKSATTTPAQVSRVISDSASAHSVVIRRIADRGENIQVWIEPVVFNDLLKWLNALDEKYALRVTQIDVSAAEKPGMVNVQRLEFGRG" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7536-MONOMER" "putative type II secretion system L-type protein YghE" ["EcfB", "YghE"] "MIHQQHMRNIAQWLQENGITRATVAPDWMSIPCGFMACDAQRVICRIDECRGWSAGLALAPVMFRAQLNEQDLPLSLTVVGIAPEKLSAWAGADAERLTVTALPAITTYGEPEGNLLTGPWQPRVSYRKQWARWRVMILPILLILVALAVERGVTLWSVSEQVAQSRTQAEEQFLTLFPEQKRIVNLRSQVTMALKKYRPQADDTRLLAELSAIASTLKSASLSDIEMRGFTFDQKRQILHLQLRAANFASFDKLRSVLATDYVVQQDALQKEGDAVSGGVTLRRK" [] ["CCO-MEMBRANE", "CCO-CW-BAC-NEG", "CCO-PM-BAC-NEG"] +"G7537-MONOMER" "putative type II secretion system C-type protein YghF" ["EcfA", "YghF"] "MARVVFRDARIYLIQWLTKIRHTLNQRQSLNTDKEHLRKIARGMFWLMLLIISAKMAHSLWRYISFSAEYTAVSQPVNKPSRVDAKTFDKNDVQLISQQNWFGKYQPVAAQVKQPEPVPVAETRLNVVLRGIAFGARPGAVIEEGGKQQVYLQGETLGSHNAVIEEINRDHVMLRYQGKIERLSLAEEERSTVAVTNKKAVSDEAKQAVAEPAVSVPVEIPAAVRQALAKDPQKIFNYIQLTPVRKEGIVGYAAKPGADRSLFDASGFKEGDIAIALNQQDFTDPRAMIALMRQLPSMDSIQLTVLRKGARHDISIALRYRLFCPPYWKKS" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7538-MONOMER" "lipoprotein YghG" ["YghG", "GspSβ"] "MSIKQMPGRVLISLLLSVTGLLSGCASHNENASLLAKKQAQNISQNLPIKSAGYTLVLAQSSGTTVKMTIISEAGTQTTQTPDAFLTSYQRQMCADPTVKLMITEGINYSITINDTRTGNQYQRKLDRTTCGIVKA" [] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"G7539-MONOMER" "prepilin peptidase" ["YghH", "PppA"] "MLFDVFQQYPTAMPVLATVGGLIIGSFLNVVIWRYPIMLRQQMAEFHGEMSSAQSKISLALPRSHCPHCQQTIRIRDNIPLFSWLMLKGRCRDCQAKISKRYPLVELLTALAFLLASLVWPESGWGLAVMILSAWLIAASVIDLDHQWLPDVFTQGVLWTGLIAAWAQQSPLTLQDAVTGVLVGFITFYSLRWIAGIVLRKEALGMGDVLLFAALGGWVGALSLPNVALIASCCGLIYAVITKRGSTTLPFGPCLSLGGIATLYLQALF" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7541-MONOMER" "putative lipoprotein YghJ" ["SslE", "YghJ"] "MNKKFKYKKSLLAAILSATLLAGCDGGGSGSSSDTPPVDSGTGSLPEVKPDPTPNPEPTPEPTPDPEPTPEPIPDPEPTPEPEPEPVPTKTGYLTLGGSQRVTGATCNGESSDGFTFKPGEDVTCVAGNTTIATFNTQSEAARSLRAVEKVSFSLEDAQELAGSDDKKSNAVSLVTSSNSCPANTEQVCLTFSSVIESKRFDSLYKQIDLAPEEFKKLVNEEVENNAATDKAPSTHTSPVVPVTTPGTKPDLNASFVSANAEQFYQYQPTEIILSEGRLVDSQGYGVAGVNYYTNSGRGVTGENGEFSFSWGETISFGIDTFELGSVRGNKSTIALTELGDEVRGANIDQLIHRYSTTGQNNTRVVPDDVRKVFAEYPNVINEIINLSLSNGATLGEGEQVVNLPNEFIEQFNTGQAKEIDTAICAKTDGCNEARWFSLTTRNVNDGQIQGVINKLWGVDTNYKSVSKFHVFHDSTNFYGSTGNARGQAVVNISNAAFPILMARNDKNYWLAFGEKRAWDKNELAYITEAPSLVEPENVTRDTATFNLPFISLGQVGEGKLMVIGNPHYNSILRCPNGYSWNGGVNKDGQCTLNSDPDDMKNFMENVLRYLSDDKWKPDAKASMTVGTNLDTVYFKRHGQVTGNSAAFDFHPDFAGISVEHLSSYGDLDPQEMPLLILNGFEYVTQVGNDPYAIPLRADTSKPKLTQQDVTDLIAYLNKGGSVLIMENVMSNLKEESASGFVRLLDAAGLSMALNKSVVNNDPQGYPNRVRQQRATGIWVYERYPAVDGALPYTIDSKTGEVKWKYQVENKPDDKPKLEVASWLEDVDGKQETRYAFIDEADHKTEDSLKAAKEKIFAAFPGLKECTNPAYHYEVNCLEYRPGTGVPVTGGMYVPQYTQLSLNADTAKAMVQAADLGTNIQRLYQHELYFRTNGRKGERLSSVDLERLYQNMSVWLWNDTSYRYEEGKNDELGFKTFTEFLNCYANDAYAGGTKCSADLKKSLVDNNMIYGDGSSKAGMMNPSYPLNYMEKPLTRLMLGRSWWDLNIKVDVEKYPGAVSEEGQNVTETISLYSNPTKWFAGNMQSTGLWAPAQKEVTIKSNANVPVTVTVALADDLTGREKHEVALNRPPRVTKTYSLDASGTVKFKVPYGGLIYIKGNSSTNESASFTFTGVVKAPFYKDGAWKNDLNSPAPLGELESDAFVYTTPKKNLNASNYTGGLEQFANDLDTFASSMNDFYGRDSEDGKHRMFTYKNLPGHKHRFTNDVQISIGDAHSGYPVMNSSFSPNSTTLPTTPLNDWLIWHEVGHNAAETPLTVPGATEVANNVLALYMQDRYLGKMNRVADDITVAPEYLEESNNQAWARGGAGDRLLMYAQLKEWAEKNFDIKKWYPDGTPLPEFYSEREGMKGWNLFQLMHRKARGDEVSNDKFGGKNYCAESNGNAADTLMLCASWVAQTDLSEFFKKWNPGANAYQLPGASEMSFEGGVSQSAYNTLASLDLPKPEQGPETINQVTEHKMSAE" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"G7543-MONOMER" "putative heme-binding protein GlcG" ["YghC", "GlcG", "conserved protein GlcG"] "MKTKVILSQQMASAIIAAGQEEAQKNNWSVSIAVADDGGHLLALSRMDDCAPIAAYISQEKARTAALGRRETKGYEEMVNNGRTAFVTAPLLTSLEGGVPVVVDGQIIGAVGVSGLTGAQDAQVAKAAAAVLAK" [] ["CCO-MEMBRANE"] +"G7544-MONOMER" "glycolate dehydrogenase, putative FAD-binding subunit" ["Gox", "YghL", "GlcE"] "MLRECDYSQALLEQVNQAISDKTPLVIQGSNSKAFLGRPVTGQTLDVRCHRGIVNYDPTELVITARVGTPLVTIEAALESAGQMLPCEPPHYGEEATWGGMVACGLAGPRRPWSGSVRDFVLGTRIITGAGKHLRFGGEVMKNVAGYDLSRLMVGSYGCLGVLTEISMKVLPRPRASLSLRREISLQEAMSEIAEWQLQPLPISGLCYFDNALWIRLEGGEGSVKAARELLGGEEVAGQFWQQLREQQLPFFSLPGTLWRISLPSDAPMMDLPGEQLIDWGGALRWLKSTAEDNQIHRIARNAGGHATRFSAGDGGFAPLSAPLFRYHQQLKQQLDPCGVFNPGRMYAEL" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7545-MONOMER" "glycolate dehydrogenase, putative FAD-linked subunit" ["YghM", "Gox", "GlcD"] "MSILYEERLDGALPDVDRTSVLMALREHVPGLEILHTDEEIIPYECDGLSAYRTRPLLVVLPKQMEQVTAILAVCHRLRVPVVTRGAGTGLSGGALPLEKGVLLVMARFKEILDINPVGRRARVQPGVRNLAISQAVAPHNLYYAPDPSSQIACSIGGNVAENAGGVHCLKYGLTVHNLLKIEVQTLDGEALTLGSDALDSPGFDLLALFTGSEGMLGVTTEVTVKLLPKPPVARVLLASFDSVEKAGLAVGDIIANGIIPGGLEMMDNLSIRAAEDFIHAGYPVDAEAILLCELDGVESDVQEDCERVNDILLKAGATDVRLAQDEAERVRFWAGRKNAFPAVGRISPDYYCMDGTIPRRALPGVLEGIARLSQQYDLRVANVFHAGDGNMHPLILFDANEPGEFARAEELGGKILELCVEVGGSISGEHGIGREKINQMCAQFNSDEITTFHAVKAAFDPDGLLNPGKNIPTLHRCAEFGAMHVHHGHLPFPELERF" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG", "CCO-CYTOSOL"] +"G7546-MONOMER" "DNA-binding transcriptional dual regulator GlcC" ["YghN", "GlcC"] "MKDERRPICEVVAESIERLIIDGVLKVGQPLPSERRLCEKLGFSRSALREGLTVLRGRGIIETAQGRDSRVARLNRVQDTSPLIHLFSTQPRTLYDLLDVRALLEGESARLAATLGTQADFVVITRCYEKMLAASENNKEISLIEHAQLDHAFHLAICQASHNQVLVFTLQSLTDLMFNSVFASVNNLYHRPQQKKQIDRQHARIYNAVLQRLPHVAQRAARDHVRTVKKNLHDIELEGHHLIRSAVPLEMNLS" [] ["CCO-CYTOSOL"] +"G7547-MONOMER" "putative DNA-binding transcriptional regulator YghO" ["YghO"] "MMNPVLWLQMTNMISYQGLVRTFLNKNDLKAFIAFPSSLYPDDPNWIPPLFIERNEHLSAKNPGTDHIIWQAWVAKKAGQIVGRITAQIDTLHRERYGKDTGHFGMIDAIDDPQVFAALFGAAEAWLKSQGASKISGPFSLNINQESGLLIEGFDTPPCAMMPHGKPWYAAHIEQLGYHKGIDLLAWWMQRTDLTFSPALKKLMDQVRKKVTIRCINRQRFAEEMQILREIFNSGWQHNWGFVPFTEHEFATMGDQLKYLVPDDMIYIAEIDSAPCAFIVGLPNINEAIADLNGSLFPFGWAKLLWRLKVSGVRTARVPLMGVRDEYQFSRIGPVIALLLIEALRDPFARRKIDALEMSWILETNTGMNNMLERIGAEPYKRYRLYEKQI" [] ["CCO-CYTOSOL"] +"G7549-MONOMER" "putative transport protein YghQ" ["YghQ"] "MAGFNIKHWFADGAFRTIIRNSAWLGSSNVVSALLGLLALSCAGKGMTPAMFGVLVIVQSYAKSISDFIKFQTWQLVVQYGTPALTNNNPQQFRNVVSFSFSLDIVSGAVAIVGGIALLPFLSHSLGLDDQSFWLAALYCTLIPSMASSTPTGILRAVDRFDLIAVQQATKPFLRAAGSVVAWYFDFGFAGFVIAWYVSNLVGGTMYWWFAARELRRRNIHNAFKLNLFESARYIKGAWSFVWSTNIAHSIWSARNSCSTVLVGIVLGPAAAGLFKIAMTFFDAAGTPAGLLGKSFYPEVMRLDPRTTRPWLLGVKSGLLAGGIGILVALAVLIVGKPLISLVFGVKYLEAYDLI" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7550-MONOMER" "putative ATP-binding protein YghR" ["YghR", "putative protein with nucleoside triphosphate hydrolase domain"] "MDALQTQTVNSTTAPQPNYIPGLIAVVGCDGTGKSTLTTDLVKSLQQHWQTERRYLGLLSGEDGDKIKRLPLVGVWLERRLAAKSSKTQSMKTKSPALWAAVIMYCFSLRRMANLRKVQRLAQSGVLVVSDRFPQAEISGFYYDGPGIGVERATGKISMFLAQRERRLYQQMAQYRPELIIRLGIDIETAISRKPDHDYAELQDKIGVMSKIGYNGTKILEIDSRAPYSEVLEQAQKAVSLVAIVSDRRSLT" [] ["CCO-CYTOSOL"] +"G7551-MONOMER" "putative ATP-binding protein YghS" ["YghS", "putative protein with nucleoside triphosphate hydrolase domain"] "MNQRNMSIINSTPVRVIAIVGCDGSGKSTLTASLVNELAARMPTEHIYLGQSSGRIGEWISQLPVIGAPFGRYLRSKAAHVHEKPSTPPGNITALVIYLLSCWRAYKFRKMLCKSQQGFLLITDRYPQVEVPGFRFDGPQLAKTTGGNGWIKMLRQRELKLYQWMASYLPVLLIRLGIDEQTAFARKPDHQLAALQEKIAVTPQLTFNGAKILELDGRHPADEILQASLRAIHAALS" [] ["CCO-CYTOSOL"] +"G7552-MONOMER" "putative ATP-binding protein YghT" ["YghT", "putative protein with nucleoside triphosphate hydrolase domain"] "MQSITPPLIAVIGSDGSGKSTVCEHLITVVEKYGAAERVHLGKQAGNVGRAVTKLPLMGKSLHKTIERNQVKTAKKLPGPVPALVITAFVARRLLRFRHMLACRRRGLIVLTDRYPQDQIPGAYDGTVFPPNVEGGRFVSWLASQERKAFHWMASHKPDLVIKLNVDLEVACARKPDHKRESLARKIAITPQLTFGGAQLVDIDANQPLEQVLVDAEKAITDFMTARGYH" [] ["CCO-CYTOSOL"] +"G7553-MONOMER" "disulfide reductase / organic hydroperoxide reductase" ["YghU", "GST N2-2"] "MTDNTYQPAKVWTWDKSAGGAFANINRPVSGPTHEKTLPVGKHPLQLYSLGTPNGQKVTIMLEELLALGVTGAEYDAWLIRIGDGDQFSSGFVEVNPNSKIPALRDHTHNPPIRVFESGSILLYLAEKFGYFLPQDLAKRTETMNWLFWLQGAAPFLGGGFGHFYHYAPVKIEYAINRFTMEAKRLLDVLDKQLAQHKFVAGDEYTIADMAIWPWFGNVVLGGVYDAAEFLDAGSYKHVQRWAKEVGERPAVKRGRIVNRTNGPLNEQLHERHDASDFETNTEDKRQG" [] ["CCO-CYTOSOL"] +"G7555-MONOMER" "DUF2623 domain-containing protein YghW" ["YghW"] "MNNHFGKGLMAGLKATHADSAVNVTKFCADYKRGFVLGYSHRMYEKTGDRQLSAWEAGILTRRYGLDKEMVMDFFRENNSCSTLRFFMAGYRLEN" [] ["CCO-CYTOSOL"] +"G7557-MONOMER" "putative hydrolase fragment" ["YghY", "ORF_f141", "YghX"] "MTITLTGKSRNVSSSTLRRSAVGGMTALALFDLLKPNYALATQVEFTDPEIVAEYITYPSPNGHGEVRGYLVKPAKMSGKTPAVVVVHENRGLNPYIEDVARRVAKAGYIALAPDGLSSVGGYPGNDDKGRELQQQVDPTN**MISLPQLSLCNAIRKRQAKWVLPDFAMAVAYRTRRLSRIRNWPARCRFMVVRHPLPMWRRLKRLYYSTSRNWTPESTRAGLLTRRR*KPIIRFMRRISIRGLITDSIMIPRPVMTNLPPILPGKGH*NGSINIS" [] [] +"G7558-MONOMER" "L-glyceraldehyde 3-phosphate reductase" ["Gpr", "MgrA", "YghZ", "AKR14A1"] "MVWLANPERYGQMQYRYCGKSGLRLPALSLGLWHNFGHVNALESQRAILRKAFDLGITHFDLANNYGPPPGSAEENFGRLLREDFAAYRDELIISTKAGYDMWPGPYGSGGSRKYLLASLDQSLKRMGLEYVDIFYSHRVDENTPMEETASALAHAVQSGKALYVGISSYSPERTQKMVELLREWKIPLLIHQPSYNLLNRWVDKSGLLDTLQNNGVGCIAFTPLAQGLLTGKYLNGIPQDSRMHREGNKVRGLTPKMLTEANLNSLRLLNEMAQQRGQSMAQMALSWLLKDDRVTSVLIGASRAEQLEENVQALNNLTFSTKELAQIDQHIADGELNLWQASSDK" [] ["CCO-CYTOSOL"] +"G7559-MONOMER" "uncharacterized protein YqhA" ["YqhA"] "MERFLENAMYASRWLLAPVYFGLSLALVALALKFFQEIIHVLPNIFSMAESDLILVLLSLVDMTLVGGLLVMVMFSGYENFVSQLDISENKEKLNWLGKMDATSLKNKVAASIVAISSIHLLRVFMDAKNVPDNKLMWYVIIHLTFVLSAFVMGYLDRLTRHNH" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7563-MONOMER" "DNA-binding transcriptional activator YqhC" ["YqhC"] "MLQNCAQSNCRIIPKKLRDMKREEICRLLADKVNKLKNKENSLSGLLPDVRLLYGETPFARTPVMYEPGIIILFSGHKIGYINERVFRYDANEYLLLTVPLPFECETYATSEVPLAGLRLNVDILQLQELLMDIGEDEHFQPSMAASGINSATLSEEILCAAERLLDVMERPLDARILGKQIIREILYYVLTGPCGGALLALVSRQTHFSLISRVLKRIENKYTENLSVEQLAAEANMSVSAFHHNFKSVTSTSPLQYLKNYRLHKARMMIIHDGMKASAAAMRVGYESASQFSREFKRYFGVTPGEDAARMRAMQGN" [] ["CCO-CYTOSOL"] +"G7564-MONOMER" "NADPH-dependent aldehyde reductase YqhD" ["YqhD"] "MNNFNLHTPTRILFGKGAIAGLREQIPHDARVLITYGGGSVKKTGVLDQVLDALKGMDVLEFGGIEPNPAYETLMNAVKLVREQKVTFLLAVGGGSVLDGTKFIAAAANYPENIDPWHILQTGGKEIKSAIPMGCVLTLPATGSESNAGAVISRKTTGDKQAFHSAHVQPVFAVLDPVYTYTLPPRQVANGVVDAFVHTVEQYVTKPVDAKIQDRFAEGILLTLIEDGPKALKEPENYDVRANVMWAATQALNGLIGAGVPQDWATHMLGHELTAMHGLDHAQTLAIVLPALWNEKRDTKRAKLLQYAERVWNITEGSDDERIDAAIAATRNFFEQLGVPTHLSDYGLDGSSIPALLKKLEEHGMTQLGENHDITLDVSRRIYEAAR" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7566-MONOMER" "DUF3828 domain-containing protein YqhG" ["YqhF", "YqhG"] "MKIILLFLAALASFTVHAQPPSQTVEQTVRHIYQNYKSDATAPYFGETGERAITSARIQQALTLNDNLTLPGNIGWLDYDPVCDCQDFGDLVLESVAITQTDADHADAVVRFRIFKDDKEKTTQTLKMVAENGRWVIDDIVSNHGSVLQAVNSENEKTLAALASLQKEQPEAFVAELFEHIADYSWPWTWVVSDSYRQAVNAFYKTTFKTANNPDEDMQIERQFIYDNPICFGEESLFSRVDEIRVLEKTADSARIHVRFTLTNGNNEEQELVLQRREGKWEIADFIRPNSGSLLKQIEAKTAARLKQ" [] ["CCO-CYTOSOL"] +"G7567-MONOMER" "lipoprotein YqhH" ["YqhH"] "MKTIFTVGAVVLATCLLSGCVNEQKVNQLASNVQTLNAKIARLEQDMKALRPQIYAAKSEANRANTRLDAQDYFDCLRCLRMYAE" [] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"G7568-MONOMER" "radical SAM superfamily protein YgiQ" ["YgiR", "YgiQ"] "MSSISLIQPDRDLFSWPQYWAACFGPAPFLPMSREEMDQLGWDSCDIILVTGDAYVDHPSFGMAICGRMLEAQGFRVGIIAQPDWSSKDDFMRLGKPNLFFGVTAGNMDSMINRYTADRRLRHDDAYTPDNVAGKRPDRATLVYTQRCKEAWKDVPVILGGIEASLRRTAHYDYWSDTVRRSVLVDSKADMLMFGNGERPLVEVAHRLAMGEPISEIRDVRNTAIIVKEALPGWSGVDSTRLDTPGKIDPIPHPYGEDLPCADNKPVAPKKQEAKAVTVQPPRPKPWEKTYVLLPSFEKVKGDKVLYAHASRILHHETNPGCARALMQKHGDRYVWINPPAIPLSTEEMDSVFALPYKRVPHPAYGNARIPAYEMIRFSVNIMRGCFGGCSFCSITEHEGRIIQSRSEDSIINEIEAIRDTVPGFTGVISDLGGPTANMYMLRCKSPRAEQTCRRLSCVYPDICPHMDTNHEPTINLYRRARDLKGIKKILIASGVRYDIAVEDPRYIKELATHHVGGYLKIAPEHTEEGPLSKMMKPGMGSYDRFKELFDTYSKQAGKEQYLIPYFISAHPGTRDEDMVNLALWLKKHRFRLDQVQNFYPSPLANSTTMYYTGKNPLAKIGYKSEDVFVPKGDKQRRLHKALLRYHDPANWPLIRQALEAMGKKHLIGSRRDCLVPAPTIEEMREARRQNRNTRPALTKHTPMATQRQTPATAKKASSTQSRPVNAGAKKRPKAAVGR" [] ["CCO-CYTOSOL"] +"G7571-MONOMER" "antitoxin of the MqsRA toxin-antitoxin system / DNA-binding transcriptional repressor MqsA" ["MqsA", "YgiT"] "MKCPVCHQGEMVSGIKDIPYTFRGRKTVLKGIHGLYCVHCEESIMNKEESDAFMAQVKAFRASVNAETVAPEFIVKVRKKLSLTQKEASEIFGGGVNAFSRYEKGNAQPHPSTIKLLRVLDKHPELLNEIR" [] ["CCO-CYTOSOL"] +"G7572-MONOMER" "mRNA interferase toxin MqsR" ["YgiU", "MqsR", "mRNA interferase / toxin of the MqsR-MqsA toxin-antitoxin system"] "MEKRTPHTRLSQVKKLVNAGQVRTTRSALLNADELGLDFDGMCNVIIGLSESDFYKSMTTYSDHTIWQDVYRPRLVTGQVYLKITVIHDVLIVSFKEK" [] ["CCO-CYTOSOL"] +"G7573-MONOMER" "DNA-binding transcriptional repressor YgiV" ["YgiV"] "MTNLTLDVNIIDFPSIPVAMLPHRCSPELLNYSVAKFIMWRKETGLSPVNQSQTFGVAWDDPATTAPEAFRFDICGSVSEPIPDNRYGVSNGELTGGRYAVARHVGELDDISHTVWGIIRHWLPASGEKMRKAPILFHYTNLAEGVTEQRLETDVYVPLA" [] ["CCO-CYTOSOL"] +"G7574-MONOMER" "BOF family protein YgiW" ["VisP", "YgiW", "stress-induced protein"] "MKKFAAVIAVMALCSAPVMAAEQGGFSGPSATQSQAGGFQGPNGSVTTVESAKSLRDDTWVTLRGNIVERISDDLYVFKDASGTINVDIDHKRWNGVTVTPKDTVEIQGEVDKDWNSVEIDVKQIRKVNP" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"G7575-MONOMER" "DNA-binding transcriptional activator QseB" ["YgiX", "QseB", "QseB response regulator"] "MRILLIEDDMLIGDGIKTGLSKMGFSVDWFTQGRQGKEALYSAPYDAVILDLTLPGMDGRDILREWREKGQREPVLILTARDALAERVEGLRLGADDYLCKPFALIEVAARLEALMRRTNGQASNELRHGNVMLDPGKRIATLAGEPLTLKPKEFALLELLMRNAGRVLSRKLIEEKLYTWDEEVTSNAVEVHVHHLRRKLGSDFIRTVHGIGYTLGEK" [] ["CCO-CYTOSOL"] +"G7577-MONOMER" "DUF2645 domain-containing inner membrane protein YgiZ" ["YgiZ"] "MLKQKIKTIFEALLYIMLTYWLIDSFFAFNKYDWMLESGGNICSIPSVSGEDRILQAMIAAFFLLTPLIILILRKLFMREMFEFWVYVFSLGICLVCGWWLFWGRFIFCY" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7578-MONOMER" "esterase YqiA" ["YzzI", "YqiA"] "MSTLLYLHGFNSSPRSAKASLLKNWLAEHHPDVEMIIPQLPPYPSDAAELLESIVLEHGGDSLGIVGSSLGGYYATWLSQCFMLPAVVVNPAVRPFELLTDYLGQNENPYTGQQYVLESRHIYDLKVMQIDPLEAPDLIWLLQQTGDEVLDYRQAVAYYASCRQTVIEGGNHAFTGFEDYFNPIVDFLGLHHL" [] ["CCO-CYTOSOL"] +"G7579-MONOMER" "cAMP phosphodiesterase" ["CpdA", "Icc"] "MESLLTLPLAGEARVRILQITDTHLFAQKHEALLGVNTWESYQAVLEAIRPHQHEFDLIVATGDLAQDQSSAAYQHFAEGIASFRAPCVWLPGNHDFQPAMYSALQDAGISPAKRVFIGEQWQILLLDSQVFGVPHGELSEFQLEWLERKLADAPERHTLLLLHHHPLPAGCSWLDQHSLRNAGELDTVLAKFPHVKYLLCGHIHQELDLDWNGRRLLATPSTCVQFKPHCSNFTLDTIAPGWRTLELHADGTLTTEVHRLADTRFQPDTASEGY" [] ["CCO-CYTOSOL"] +"G7580-MONOMER" "DUF1249 domain-containing protein YqiB" ["YzzH", "YqiB"] "MKRYTPDFPEMMRLCEMNFSQLRRLLPRNDAPGETVSYQVANAQYRLTIVESTRYTTLVTIEQTAPAISYWSLPSMTVRLYHDAMVAEVCSSQQIFRFKARYDYPNKKLHQRDEKHQINQFLADWLRYCLAHGAMAIPVY" [] ["CCO-CYTOSOL"] +"G7582-MONOMER" "ubiquinone biosynthesis accessory factor UbiK" ["UbiK", "YqiC", "BMFP family protein UbiK"] "MIDPKKIEQIARQVHESMPKGIREFGEDVEKKIRQTLQAQLTRLDLVSREEFDVQTQVLLRTREKLALLEQRISELENRSTEIKKQPDPETLPPTL" ["CCO-MEMBRANE", "CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7585-MONOMER" "putative outer membrane usher protein YqiG" [] "MYKKLKLTTISELIKNIYCSLSVIIIGCASAYAVEFNKDLIEAEDRENVNLSQFETDGQLPVGKYSLSTLINNKRTPIHLDLQWVLIDNQTAVCVTPEQLTLLGFTDEFIEKTQQNLIDGCYPIEKEKQITTYLDKGKMQLSISAPQAWLKYKDANWTPPELWNHGIAGAFLDYNLYASHYAPHQGDNSQNISSYGQAGVNLGAWRLRTDYQYDQSFNNGKSQATNLDFPRIYLFRPIPAMNAKLTIGQYDTESSIFDSFHFSGISLKSDENMLPPDLRGYAPQITGVAQTNAKVTVSQNNRIIYQENVPPGPFAITNLFNTLQGQLDVKVEEEDGRVTQWQVASNSIPYLTRKGQIRYTTAMGKPTSVGGDSLQQPFFWTGEFSWGWLNNVSLYGGSVLTNRDYQSLAAGVGFNLNSLGSLSFDVTRSDAQLHNQDKETGYSYRANYSKRFESTGSQLTFAGYRFSDKNFVTMNEYINDTNHYTNYQNEKESYIVTFNQYLESLRLNTYVSLARNTYWDASSNVNYSLSLSRDFDIGPLKNVSTSLTFSRINWEEDNQDQLYLNISIPWGTSRTLSYGMQRNQDNEISHTASWYDSSDRNNSWSVSASGDNDEFKDMKASLRASYQHNTENGRLYLSGTSQRDSYYSLNASWNGSFTATRHGAAFHDYSGSADSRFMIDADGTEDIPLNNKRAVTNRYGIGVIPSVSSYITTSLSVDTRNLPENVDIENSVITTTLTEGAIGYAKLDTRKGYQIIGVIRLADGSHPPLGISVKDETSHKELGLVADGGFVYLNGIQDDNKLALRWGDKSCFIQPPNSSNLTTGTAILPCISQN" [] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"G7586-MONOMER" "putative fimbrial chaperone YqiH" ["YqiH"] "MRYLNTKNIIAAGVLLSCMSSIAWGAIIPDRTRIIMNESDKGEALKLTNQSKNLPYLAQTWIEDTKGNKSRDFIVTVPPMVRLNPSEQIQIRMITQEKIAQLPKDRETLFYFNVREIPPKTDKKNVMQVTMQHALKLFWRPKAIELEDDGVMTYEKVEIIRRNDGSIRFNNKMPYHVTLGYIGTNGVTMLPQTQSLMVTPFSYANTQFKNVPSTFQVGYINDFGGLSFYEINCPVVNNICNISVANRDQ" [] ["CCO-PERI-BAC"] +"G7587-MONOMER" "putative fimbrial protein YqiI" ["YqiI"] "MRYLLIVITFFMGFSSLPAWAMDCYAEHEGGNTVVIGYVPRISIPSDGKKGDKIWQSSEYFMNVFCNNALPGPSPGEEYPSAWANIMMLLASGQDFYNQNSYTFGVTYNGVDYDSTSPLPIAAPVCIDIKGAGTFGNGYKKPAVCSGGPEPQLSVTFPVRVQLYIKLAKNANKVNKKLVLPDEYIALEFKGMSGAGAIEVDKNLTFRIRGLNNIHVLDCFVNVDLEPADGVVDFGKINSRTIKNTSVSETFSVVMTKDPGAACTEQFNILGSFFTTDILSDYSHLDIGNGLLLKIFHNDGTATEFNRFSQFASFSSSSAPSVTAPFRAELSANPAETVVEGPFSKDVILKITYN" [] ["CCO-EXTRACELLULAR"] +"G7588-MONOMER" "DUF1449 domain-containing inner membrane protein YqiJ" ["YqiJ"] "MILFADYNTPYLFAISFVLLIGLLEIFALICGHMLSGALDAHLDHYDSITTGHISQALHYLNIGRLPALVVLCLLAGFFGLIGILLQHACIMVWQSPLSNLFVVPVSLLFTIIAVHYTGKIVAPWIPRDHSSAITEEEYIGSMALITGHQATSGNPCEGKLTDQFGQIHYLLLEPEEGKIFTKGDKVLIICRLSATRYLAENNPWPQIL" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7589-MONOMER" "flotillin family inner membrane protein YqiK" ["YqiK"] "MDDIVNSVPSWMFTAIIAVCILFIIGIIFARLYRRASAEQAFVRTGLGGQKVVMSGGAIVMPIFHEIIPINMNTLKLEVSRSTIDSLITKDRMRVDVVVAFFVRVKPSVEGIATAAQTLGQRTLSPEDLRMLVEDKFVDALRATAAQMTMHELQDTRENFVQGVQNTVAEDLSKNGLELESVSLTNFNQTSKEHFNPNNAFDAEGLTKLTQETERRRRERNEVEQDVEVAVREKNRDALSRKLEIEQQEAFMTLEQEQQVKTRTAEQNARIAAFEAERRREAEQTRILAERQIQETEIDREQAVRSRKVEAEREVRIKEIEQQQVTEIANQTKSIAIAAKSEQQSQAEARANLALAEAVSAQQNVETTRQTAEADRAKQVALIAAAQDAETKAVELTVRAKAEKEAAEMQAAAIVELAEATRKKGLAEAEAQRALNDAINVLSDEQTSLKFKLALLQALPAVIEKSVEPMKSIDGIKIIQVDGLNRGGAAGDANTGNVGGGNLAEQALSAALSYRTQAPLIDSLLNEIGVSGGSLAALTSPLTSTTPVEEKAE" ["CCO-CYTOSOL", "CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-CYTOSOL", "CCO-PM-BAC-NEG"] +"G7590-MONOMER" "fused heptose 7-phosphate kinase/heptose 1-phosphate adenyltransferase" ["HldE", "YqiF", "RfaE", "GmhC", "WaaE"] "MKVTLPEFERAGVMVVGDVMLDRYWYGPTSRISPEAPVPVVKVNTIEERPGGAANVAMNIASLGANARLVGLTGIDDAARALSKSLADVNVKCDFVSVPTHPTITKLRVLSRNQQLIRLDFEEGFEGVDPQPLHERINQALSSIGALVLSDYAKGALASVQQMIQLARKAGVPVLIDPKGTDFERYRGATLLTPNLSEFEAVVGKCKTEEEIVERGMKLIADYELSALLVTRSEQGMSLLQPGKAPLHMPTQAQEVYDVTGAGDTVIGVLAATLAAGNSLEEACFFANAAAGVVVGKLGTSTVSPIELENAVRGRADTGFGVMTEEELKLAVAAARKRGEKVVMTNGVFDILHAGHVSYLANARKLGDRLIVAVNSDASTKRLKGDSRPVNPLEQRMIVLGALEAVDWVVSFEEDTPQRLIAGILPDLLVKGGDYKPEEIAGSKEVWANGGEVLVLNFEDGCSTTNIIKKIQQDKKG" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7593-MONOMER" "NADPH-dependent ferric-chelate reductase" ["NfeF", "YqjH", "ferric reductase, NADPH-dependent", "Ni-responsive Fe-uptake flavoprotein"] "MNNTPRYPQRVRNDLRFRELTVLRVERISAGFQRIVLGGEALDGFTSRGFDDHSKLFFPQPDAHFVPPTVTEEGIVWPEGPRPPSRDYTPLYDELRHELAIDFFIHDGGVASGWAMQAQPGDKLTVAGPRGSLVVPEDYAYQLYVCDESGMPALRRRLETLSKLAVKPQVSALVSVRDNACQDYLAHLDGFNIEWLAHDEQAVDARLAQMQIPADDYFIWITGEGKVVKNLSRRFEAEQYDPQRVRAAAYWHAK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7594-MONOMER" "DNA-binding transcriptional repressor NfeR" ["NfeR", "YqjI"] "MSHHHEGCCKHEGQPRHEGCCKGEKSEHEHCGHGHQHEHGQCCGGRHGRGGGRRQRFFGHGELRLVILDILSRDDSHGYELIKAIENLTQGNYTPSPGVIYPTLDFLQEQSLITIREEEGGKKQIALTEQGAQWLEENREQVEMIEERIKARCVGAALRQNPQMKRALDNFKAVLDLRVNQSDISDAQIKKIIAVIDRAAFDITQLD" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7595-MONOMER" "aerotaxis sensor receptor, flavoprotein" ["YqjJ", "Air", "Aer"] "MSSHPYVTQQNTPLADDTTLMSTTDLQSYITHANDTFVQVSGYTLQELQGQPHNMVRHPDMPKAAFADMWFTLKKGEPWSGIVKNRRKNGDHYWVRANAVPMVREGKISGYMSIRTRATDEEIAAVEPLYKALNAGRTSKRIHKGLVVRKGWLGKLPSLPLRWRARGVMTLMFILLAAMLWFVAAPVVTYILCALVVLLASACFEWQIVRPIENVAHQALKVATGERNSVEHLNRSDELGLTLRAVGQLGLMCRWLINDVSSQVSSVRNGSETLAKGTDELNEHTQQTVDNVQQTVATMNQMAASVKQNSATASAADKLSITASNAAVQGGEAMTTVIKTMDDIADSTQRIGTITSLINDIAFQTNILALNAAVEAARAGEQGKGFAVVAGEVRHLASRSANAANDIRKLIDASADKVQSGSQQVHAAGRTMEDIVAQVKNVTQLIAQISHSTLEQADGLSSLTRAVDELNLITQKNAELVEESAQVSAMVKHRASRLEDAVTVLH" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7596-MONOMER" "putrescine aminotransferase" ["PatA", "YgjG", "Oat", "Pat"] "MNRLPSSASALACSAHALNLIEKRTLDHEEMKALNREVIEYFKEHVNPGFLEYRKSVTAGGDYGAVEWQAGSLNTLVDTQGQEFIDCLGGFGIFNVGHRNPVVVSAVQNQLAKQPLHSQELLDPLRAMLAKTLAALTPGKLKYSFFCNSGTESVEAALKLAKAYQSPRGKFTFIATSGAFHGKSLGALSATAKSTFRKPFMPLLPGFRHVPFGNIEAMRTALNECKKTGDDVAAVILEPIQGEGGVILPPPGYLTAVRKLCDEFGALMILDEVQTGMGRTGKMFACEHENVQPDILCLAKALGGGVMPIGATIATEEVFSVLFDNPFLHTTTFGGNPLACAAALATINVLLEQNLPAQAEQKGDMLLDGFRQLAREYPDLVQEARGKGMLMAIEFVDNEIGYNFASEMFRQRVLVAGTLNNAKTIRIEPPLTLTIEQCELVIKAARKALAAMRVSVEEA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7597-MONOMER" "putative tRNA-binding protein YgjH" ["YgjH"] "METVAYADFARLEMRVGKIVEVKRHENADKLYIVQVDVGQKTLQTVTSLVPYYSEEELMGKTVVVLCNLQKAKMRGETSECMLLCAETDDGSESVLLTPERMMPAGVRVV" [] ["CCO-CYTOSOL"] +"G7598-MONOMER" "protein YgjJ" ["YgjJ"] "MKLITAPCRALLALPFCYAFSAAGEEARPAEHDDTKTPAITSTSSPSFRFYGELGVGGYMDLEGENKHKYSDGTYIEGGLEMKYGSWFGLIYGEGWTVQADHDGNAWVPDHSWGGFEGGINRFYGGYRTNDGTEIMLSLRQDSSLDDLQWWGDFTPDLGYVIPNTRDIMTALKVQNLSGNFRYSVTATPAGHHDESKAWLHFGKYDRYDDKYTYPAMMNGYIQYDLAEGITWMNGLEITDGTGQLYLTGLLTPNFAARAWHHTGRADGLDVPGSESGMMVSAMYEALKGVYLSTAYTYAKHRPDHADDETTSFMQFGIWYEYGGGRFATAFDSRFYMKNASHDPSDQIFLMQYFYW" [] ["CCO-CYTOSOL"] +"G7599-MONOMER" "glycoside hydrolase" ["YgjK"] "MKIKTILTPVTCALLISFSAHAANADNYKNVINRTGAPQYMKDYDYDDHQRFNPFFDLGAWHGHLLPDGPNTMGGFPGVALLTEEYINFMASNFDRLTVWQDGKKVDFTLEAYSIPGALVQKLTAKDVQVEMTLRFATPRTSLLETKITSNKPLDLVWDGELLEKLEAKEGKPLSDKTIAGEYPDYQRKISATRDGLKVTFGKVRATWDLLTSGESEYQVHKSLPVQTEINGNRFTSKAHINGSTTLYTTYSHLLTAQEVSKEQMQIRDILARPAFYLTASQQRWEEYLKKGLTNPDATPEQTRVAVKAIETLNGNWRSPGGAVKFNTVTPSVTGRWFSGNQTWPWDTWKQAFAMAHFNPDIAKENIRAVFSWQIQPGDSVRPQDVGFVPDLIAWNLSPERGGDGGNWNERNTKPSLAAWSVMEVYNVTQDKTWVAEMYPKLVAYHDWWLRNRDHNGNGVPEYGATRDKAHNTESGEMLFTVKKGDKEETQSGLNNYARVVEKGQYDSLEIPAQVAASWESGRDDAAVFGFIDKEQLDKYVANGGKRSDWTVKFAENRSQDGTLLGYSLLQESVDQASYMYSDNHYLAEMATILGKPEEAKRYRQLAQQLADYINTCMFDPTTQFYYDVRIEDKPLANGCAGKPIVERGKGPEGWSPLFNGAATQANADAVVKVMLDPKEFNTFVPLGTAALTNPAFGADIYWRGRVWVDQFWFGLKGMERYGYRDDALKLADTFFRHAKGLTADGPIQENYNPLTGAQQGAPNFSWSAAHLYMLYNDFFRKQ" [] ["CCO-PERI-BAC"] +"G7601-MONOMER" "antitoxin/DNA-binding transcriptional repressor HigA" ["YgjM", "HigA", "HigA antitoxin of the HigB-HigA toxin-antitoxin system"] "MIAIADILQAGEKLTAVAPFLAGIQNEEQYTQALELVDHLLLNDPENPLLDLVCAKITAWEESAPEFAEFNAMAQAMPGGIAVIRTLMDQYGLTLSDLPEIGSKSMVSRVLSGKRKLTLEHAKKLATRFGISPALFID" [] ["CCO-CYTOSOL"] +"G7602-MONOMER" "ribosome-dependent mRNA interferase toxin HigB" ["YgjN", "HigB", "translation-dependent mRNA interferase, toxin of the HigB-HigA toxin-antitoxin system"] "MHLITQKALKDAAEKYPQHKTELVALGNTIAKGYFKKPESLKAVFPSLDNFKYLDKHYVFNVGGNELRVVAMVFFESQKCYIREVMTHKEYDFFTAVHRTKGKK" [] ["CCO-CYTOSOL"] +"G7603-MONOMER" "23S rRNA m2G1835 methyltransferase" ["YgjO", "RlmG", "ribosomal RNA large subunit methyltransferase G"] "MSHLDNGFRSLTLQRFPATDDVNPLQAWEAADEYLLQQLDDTEIRGPVLILNDAFGALSCALAEHKPYSIGDSYISELATRENLRLNGIDESSVKFLDSTADYPQQPGVVLIKVPKTLALLEQQLRALRKVVTSDTRIIAGAKARDIHTSTLELFEKVLGPTTTTLAWKKARLINCTFNEPQLADAPQTVSWKLEGTDWTIHNHANVFSRTGLDIGARFFMQHLPENLEGEIVDLGCGNGVIGLTLLDKNPQAKVVFVDESPMAVASSRLNVETNMPEALDRCEFMINNALSGVEPFRFNAVLCNPPFHQQHALTDNVAWEMFHHARRCLKINGELYIVANRHLDYFHKLKKIFGNCTTIATNNKFVVLKAVKLGRRR" [] ["CCO-CYTOSOL"] +"G7604-MONOMER" "putative metal-dependent hydrolase" ["YgjP"] "MSNLTYLQGYPEQLLSQVRTLINEQRLGDVLAKRYPGTHDYATDKALWQYTQDLKNQFLRNAPPINKVMYDNKIHVLKNALGLHTAVSRVQGGKLKAKVEIRVATVFRNAPEPFLRMIVVHELAHLKEKEHNKAFYQLCCHMEPQYHQLEFDTRLWLTQLSLGQNKI" [] ["CCO-CYTOSOL"] +"G7605-MONOMER" "DUF218 domain-containing protein YgjQ" ["YgjQ"] "MLRAFARLLLRICFSRRTLKIACLLLLVAGATILIADRVMVNASKQLTWSDVNAVPARNVGLLLGARPGNRYFTRRIDTAAALYHAGKVKWLLVSGDNGRKNYDEASGMQQALIAKGVPAKVIFCDYAGFSTLDSVVRAKKVFGENHITIISQEFHNQRAIWLAKQYGIDAIGFNAPDLNMKHGFYTQLREKLARVSAVIDAKILHRQPKYLGPSVMIGPFSEHGCPAQK" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7606-MONOMER" "putative oxidoreductase YgjR" ["YgjR", "putative NAD(P)-binding dehydrogenase"] "MIRFAVIGTNWITRQFVEAAHESGKYKLTAVYSRSLEQAQHFANDFSVEHLFTSLEAMAESDAIDAVYIASPNSLHFSQTQLFLSHKINVICEKPLASNLAEVDAAIACARENQVVLFEAFKTACLPNFHLLRQALPKVGKLRKVFFNYCQYSSRYQRYLDGENPNTFNPAFSNGSIMDIGFYCLASAVALFGEPKSVQATASLLASGVDAQGVVVMDYGDFSVTLQHSKVSDSVLASEIQGEAGSLVIEKLSECQKVCFVPRGSQMQDLTQPQHINTMLYEAELFATLVDEHLVDHPGLAVSRITAKLLTEIRRQTGVIFPADSVKL" [] ["CCO-MEMBRANE"] +"G7607-MONOMER" "putative membrane-bound redox modulator Alx" ["Alx", "YgjT"] "MNTVGTPLLWGGFAVVVAIMLAIDLLLQGRRGAHAMTMKQAAAWSLVWVTLSLLFNAAFWWYLVQTEGRAVADPQALAFLTGYLIEKSLAVDNVFVWLMLFSYFSVPAALQRRVLVYGVLGAIVLRTIMIFTGSWLISQFDWILYIFGAFLLFTGVKMALAHEDESGIGDKPLVRWLRGHLRMTDTIDNEHFFVRKNGLLYATPLMLVLILVELSDVIFAVDSIPAIFAVTTDPFIVLTSNLFAILGLRAMYFLLAGVAERFSMLKYGLAVILVFIGIKMLIVDFYHIPIAVSLGVVFGILVMTFIINAWVNYRHDKQRGG" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7608-MONOMER" "inner membrane protein" ["YgjV"] "MTAYWLAQGVGVIAFLIGITTFFNRDERRFKKQLSVYSAVIGVHFFLLGTYPAGASAILNAIRTLITLRTRSLWVMAIFIVLTGGIGLAKFHHPVELLPVIGTIVSTWALFCCKGLTMRCVMWFSTCCWVIHNFWAGSIGGTMIEGSFLLMNGLNIIRFWRMQKRGIDPFKVEKTPSAVDERG" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7609-MONOMER" "DedA family protein YqjA" ["EcfL", "YqjA"] "MELLTQLLQALWAQDFETLANPSMIGMLYFVLFVILFLENGLLPAAFLPGDSLLVLVGVLIAKGAMGYPQTILLLTVAASLGCWVSYIQGRWLGNTRTVQNWLSHLPAHYHQRAHHLFHKHGLSALLIGRFIAFVRTLLPTIAGLSGLNNARFQFFNWMSGLLWVLILTTLGYMLGKTPVFLKYEDQLMSCLMLLPVVLLVFGLAGSLVVLWKKKYGNRG" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7610-MONOMER" "modulator protein MzrA" ["EcfM", "YqjB", "MzrA"] "MQIPRMSLRQLAWSGAVLLLVGTLLLAWSAVRQQESTLAIRAVHQGTTMPDGFSIWHHLDAHGIPFKSITPKNDTLLITFDSSDQSAAAKAVLDRTLPHGYIIAQQDNNSQAMQWLTRLRDNSHRFG" ["CCO-MEMBRANE"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"G7611-MONOMER" "DUF1090 domain-containing protein YqjC" ["YqjC"] "MKYRIALAVSLFALSAGSYATTLCQEKEQNILKEISYAEKHQNQNRIDGLNKALSEVRANCSDSQLRADHQKKIAKQKDEVAERQQDLAEAKQKGDADKIAKRERKLAEAQEELKKLEARDY" [] ["CCO-CYTOSOL"] +"G7612-MONOMER" "ribosome- and membrane-associated DUF883 domain-containing protein YqjD" ["YqjD", "inner membrane protein associated with the ribosome"] "MSKEHTTEHLRAELKSLSDTLEEVLSSSGEKSKEELSKIRSKAEQALKQSRYRLGETGDAIAKQTRVAAARADEYVRENPWTGVGIGAAIGVVLGVLLSRR" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7613-MONOMER" "inner membrane protein YqjE" ["YqjE"] "MADTHHAQGPGKSVLGIGQRIVSIMVEMVETRLRLAVVELEEEKANLFQLLLMLGLTMLFAAFGLMSLMVLIIWAVDPQYRLNAMIATTVVLLLLALIGGIWTLRKSRKSTLLRHTRHELANDRQLLEEESREQ" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7614-MONOMER" "PF13997 family protein YqjK" ["YqjK"] "MSSKVERERRKAQLLSQIQQQRLDLSASRREWLETTGAYDRRWNMLLSLRSWALVGSSVMAIWTIRHPNMLVRWARRGFGVWSAWRLVKTTLKQQQLRG" ["CCO-CYTOSOL"] [] +"G7615-MONOMER" "DoxX family protein" ["YqjF"] "MKKLEDVGVLVARILMPILFITAGWGKITGYAGTQQYMEAMGVPGFMLPLVILLEFGGGLAILFGFLTRTTALFTAGFTLLTAFLFHSNFAEGVNSLMFMKNLTISGGFLLLAITGPGAYSIDRLLNKKW" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7616-MONOMER" "glutathionyl-hydroquinone reductase YqjG" ["YqjG", "S-glutathionyl-(chloro)hydroquinone reductase"] "MGQLIDGVWHDTWYDTKSTGGKFQRSASAFRNWLTADGAPGPTGTGGFIAEKDRYHLYVSLACPWAHRTLIMRKLKGLEPFISVSVVNPLMLENGWTFDDSFPGATGDTLYQNEFLYQLYLHADPHYSGRVTVPVLWDKKNHTIVSNESAEIIRMFNTAFDALGAKAGDYYPPALQTKIDELNGWIYDTVNNGVYKAGFATSQEAYDEAVAKVFESLARLEQILGQHRYLTGNQLTEADIRLWTTLVRFDPVYVTHFKCDKHRISDYLNLYGFLRDIYQMPGIAETVNFDHIRNHYFRSHKTINPTGIISIGPWQDLDEPHGRDVRFG" [] ["CCO-CYTOSOL"] +"G7617-MONOMER" "putative inner membrane protein" ["YhaH"] "MDWYLKVLKNYVGFRGRARRKEYWMFILVNIIFTFVLGLLDKMLGWQRAGGEGILTTIYGILVFLPWWAVQFRRLHDTDRSAWWALLFLIPFIGWLIIIVFNCQAGTPGENRFGPDPKLEP" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7618-MONOMER" "putative inner membrane protein" ["YhaI"] "MQWYLSVLKNYVGFSGRARRKEYWMFTLINAIVGAIINVIQLILGLELPYLSMLYLLATFLPVLALAIRRLHDTDRSGAWALLFFVPFIGWLVLLVFFCTEGTSGSNRYGNDPKFGSN" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7619-MONOMER" "DNA-binding transcriptional activator YhaJ" ["YhaJ"] "MAKERALTLEALRVMDAIDRRGSFAAAADELGRVPSALSYTMQKLEEELDVVLFDRSGHRTKFTNVGRMLLERGRVLLEAADKLTTDAEALARGWETHLTIVTEALVPTPAFFPLIDKLAAKANTQLAIITEVLAGAWERLEQGRADIVIAPDMHFRSSSEINSRKLYTLMNVYVAAPDHPIHQEPEPLSEVTRVKYRGIAVADTARERPVLTVQLLDKQPRLTVSTIEDKRQALLAGLGVATMPYPMVEKDIAEGRLRVVSPESTSEIDIIMAWRRDSMGEAKSWCLREIPKLFNGK" [] ["CCO-CYTOSOL"] +"G7620-MONOMER" "bicupin-related protein" ["YhaK"] "MITTRTARQCGQADYGWLQARYTFSFGHYFDPKLLGYASLRVLNQEVLAPGAAFQPRTYPKVDILNVILDGEAEYRDSEGNHVQASAGEALLLSTQPGVSYSEHNLSKDKPLTRMQLWLDACPQRENPLIQKLALNMGKQQLIASPEGAMGSLQLRQQVWLHHIVLDKGESANFQLHGPRAYLQSIHGKFHALTHHEEKAALTCGDGAFIRDEANITLVADSPLRALLIDLPV" [] ["CCO-CYTOSOL"] +"G7621-MONOMER" "uncharacterized protein YhaL" ["YhaL"] "MSKKLAKKRQPVKPVVAKEPARTAKNFGYEEMLSELEAIVADAETRLAEDEATA" [] ["CCO-CYTOSOL"] +"G7622-MONOMER" "putative L-cysteine desulfidase CyuA" ["CyuA", "YhaN", "YhaM"] "MFDSTLNPLWQRYILAVQEEVKPALGCTEPISLALAAAVAAAELEGPVERVEAWVSPNLMKNGLGVTVPGTGMVGLPIAAALGALGGNANAGLEVLKDATAQAIADAKALLAAGKVSVKIQEPCDEILFSRAKVWNGEKWACVTIVGGHTNIVHIETHDGVVFTQQACVAEGEQESPLTVLSRTTLAEILKFVNEVPFAAIRFILDSAKLNCALSQEGLSGKWGLHIGATLEKQCERGLLAKDLSSSIVIRTSAASDARMGGATLPAMSNSGSGNQGITATMPVVVVAEHFGADDERLARALMLSHLSAIYIHNQLPRLSALCAATTAAMGAAAGMAWLVDGRYETISMAISSMIGDVSGMICDGASNSCAMKVSTSASAAWKAVLMALDDTAVTGNEGIVAHDVEQSIANLCALASHSMQQTDRQIIEIMASKAR" [] ["CCO-CYTOSOL"] +"G7626-MONOMER" "putative enamine/imine deaminase" ["YhaR", "TdcF"] "MKKIIETQRAPGAIGPYVQGVDLGSMVFTSGQIPVCPQTGEIPADVQDQARLSLENVKAIVVAAGLSVGDIIKMTVFITDLNDFATINEVYKQFFDEHQATYPTRSCVQVARLPKDVKLEIEAIAVRSA" [] ["CCO-CYTOSOL"] +"G7629-MONOMER" "ribosome-dependent mRNA interferase toxin YhaV" ["YhaV", "ribonuclease toxin YhaV"] "MDFPQRVNGWALYAHPCFQETYDALVAEVETLKGKDPENYQRKAATKLLAVVHKVIEEHITVNPSSPAFRHGKSLGSGKNKDWSRVKFGAGRYRLFFRYSEKEKVIILGWMNDENTLRTYGKKTDAYTVFSKMLKRGHPPADWETLTRETEETH" [] ["CCO-CYTOSOL"] +"G7630-MONOMER" "DNA-binding transcriptional repressor AgaR" ["YhaW", "AgaR"] "MSNTDASGEKRVTGTSERREQIIQRLRQQGSVQVNDLSALYGVSTVTIRNDLAFLEKQGIAVRAYGGALICDSTTPSVEPSVEDKSALNTAMKRSVAKAAVELIQPGHRVILDSGTTTFEIARLMRKHTDVIAMTNGMNVANALLEAEGVELLMTGGHLRRQSQSFYGDQAEQSLQNYHFDMLFLGVDAIDLERGVSTHNEDEARLNRRMCEVAERIIVVTDSSKFNRSSLHKIIDTQRIDMIIVDEGIPADSLEGLRKAGVEVILVGE" [] ["CCO-CYTOSOL"] +"G7631-MONOMER" "putative tagatose-1,6-bisphosphate aldolase 1 chaperone" ["YhaX", "KbaZ", "AgaZ"] "MKHLTEMVRQHKAGKTNGIYAVCSAHPLVLEAAIRYASANQTPLLIEATSNQVDQFGGYTGMTPADFRGFVCQLADSLNFPQDALILGGDHLGPNRWQNLPAAQAMANADDLIKSYVAAGFKKIHLDCSMSCQDDPIPLTDDIVAERAARLAKVAEETCLEHFGEADLEYVIGTEVPVPGGAHETLSELAVTTPDAARATLEAHRHAFEKQGLNAIWPRIIALVVQPGVEFDHTNVIDYQPAKASALSQMVENYETLIFEAHSTDYQTPQSLRQLVIDHFAILKVGPALTFALREALFSLAAIEEELVPAKACSGLRQVLEDVMLDRPEYWQSHYHGDGNARRLARGYSYSDRVRYYWPDSQIDDAFAHLVRNLADSPIPLPLISQYLPLQYVKVRSGELQPTPRELIINHIQDILAQYHTACEGQ" [] ["CCO-PM-BAC-NEG", "CCO-CYTOSOL"] +"G7632-MONOMER" "N-acetyl-D-galactosamine specific PTS enzyme IIB component" ["YhaY", "AgaV", "EIIBAga", "EIIBGalNAc", "Enzyme IIBAga", "Enzyme IIBGalNAc"] "MPNIVLSRIDERLIHGQVGVQWVGFAGANLVLVANDEVAEDPVQQNLMEMVLAEGIAVRFWTLQKVIDNIHRAADRQKILLVCKTPADFLTLVKGGVPVNRINVGNMHYANGKQQIAKTVSVDAGDIAAFNDLKTAGVECFVQGVPTEPAVDLFKLL" [] ["CCO-CYTOSOL"] +"G7633-MONOMER" "N-acetyl-D-galactosamine specific PTS truncated enzyme IIC component" ["YhaZ", "AgaW", "EIIC'Aga", "EIIC'GalNAc", "Enzyme IIC'Aga", "Enzyme IIC'GalNAc"] "MEISLLQAFALGIIAFIAGLDMFNGLTHMHRPVVLGPLVGLVLGDLHTGILTGGTLELVWMGLAPLAGAQPPNVIIGTIVGTAFAITTGVKPDVAVGVAVPFAVAVQMGITFLFSVMSGVMSRCDLATNPRRI" [] [] +"G7634-MONOMER" "putative galactosamine-6-phosphate deaminase/isomerase" ["YraB", "AgaS"] "MPENYTPAAAATGTWTEEEIRHQPRAWIRSLTNIDALRSALNNFLEPLLRKENLRIILTGAGTSAFIGDIIAPWLASHTGKNFSAVPTTDLVTNPMDYLNPAHPLLLISFGRSGNSPESVAAVELANQFVPECYHLPITCNEAGALYQNAINSDNAFALLMPAETHDRGFAMTSSITTMMASCLAVFAPETINSQTFRDVADRCQAILTSLGDFSEGVFGYAPWKRIVYLGSGGLQGAARESALKVLELTAGKLAAFYDSPTGFRHGPKSLVDDETLVVVFVSSHPYTRQYDLDLLAELRRDNQAMRVIAIAAESSDIVAAGPHIILPPSRHFIDVEQAFCFLMYAQTFALMQSLHMGNTPDTPSASGTVNRVVQGVIIHPWQA" [] ["CCO-PM-BAC-NEG", "CCO-CYTOSOL"] +"G7636-MONOMER" "putative deaminase AgaI" ["YraG", "AgaI"] "MERGTASGGASLLKEFHPVQTLQQVENYTALSERASEYLLAVIRSKPNAVICLATGATPLLTYHYLVEKIHQQQVDVSQLTFVKLDEWVDLPLTMPGTCETFLQQHIVQPLGLREDQLISFRSEEINETECERVTNLIARKGGLDLCVLGLGKNGHLGLNEPGESLQPACHISQLDARTQQHEMLKTAGRPVTRGITLGLKDILNAREVLLLVTGEGKQDATDRFLTAKVSTAIPASFLWLHSNFICLINT" [] ["CCO-CYTOSOL"] +"G7637-MONOMER" "putative fimbrial protein YraH" ["YraH"] "MNKVTKTAIAGLLALFAGNAAATDGEIVFDGEILKSACEINDSDKKIEVALGHYNAEQFRNIGERSPKIPFTIPLVNCPMTGWEHDNGNVEASFRLWLETRDNGTVPNFPNLAKVGSFAGIAATGVGIRIDDAESGNIMPLNAMGNDNTVYQIPAESNGIVNVDLIAYYVSTVVPSEITPGEADAIVNVTLDYR" [] ["CCO-EXTRACELLULAR", "CCO-PILUS"] +"G7638-MONOMER" "putative fimbrial chaperone YraI" ["YraI"] "MSKRTFAVILTLLCSFCIGQALAGGIVLQRTRVIYDASRKEAALPVANKGAETPYLLQSWVDNIDGKSRAPFIITPPLFRLEAGDDSSLRIIKTADNLPENKESLFYINVRAIPAKKKSDDVNANELTLVFKTRIKMFYRPAHLKGRVNDAWKSLEFKRSDHSLNIYNPTEYYVVFAGLAVDKTDLTSKIEYIAPGEHKQLPLPASGGKNVKWAAINDYGGSSGTETRPLQ" [] ["CCO-PERI-BAC"] +"G7639-MONOMER" "putative fimbrial usher protein YraJ" ["YraJ"] "MPQRHHQGHKRTPKQLALIIKRCLPMVLTGSGMLCTTANAEEYYFDPIMLETTKSGMQTTDLSRFSKKYAQLPGTYQVDIWLNKKKVSQKKITFTANAEQLLQPQFTVEQLRELGIKVDEIPALAEKDDDSVINSLEQIIPGTAAEFDFNHQQLNLSIPQIALYRDARGYVSPSRWDDGIPTLFTNYSFTGSDNRYRQGNRSQRQYLNMQNGANFGPWRLRNYSTWTRNDQTSSWNTISSYLQRDIKALKSQLLLGESATSGSIFSSYTFTGVQLASDDNMLPNSQRGFAPTVRGIANSSAIVTIRQNGYVIYQSNVSAGAFEINDLYPSSNSGDLEVTIEESDGTQRRFIQPYSSLPMMQRPGHLKYSATAGRYRADANSDSKEPEFAEATAIYGLNNTFTLYGGLLGSEDYYALGIGIGGTLGALGALSMDINRADTQFDNQHSFHGYQWRTQYIKDIPETNTNIAVSYYRYTNDGYFSFNEANTRNWDYNSRQKSEIQFNISQTIFDGVSLYASGSQQDYWGNNDKNRNISVGVSGQQWGVGYSLNYQYSRYTDQNNDRALSLNLSIPLERWLPRSRVSYQMTSQKDRPTQHEMRLDGSLLDDGRLSYSLEQSLDDDNNHNSSLNASYRSPYGTFSAGYSYGNDSSQYNYGVTGGVVIHPHGVTLSQYLGNAFALIDANGASGVRIQNYPGIATDPFGYAVVPYLTTYQENRLSVDTTQLPDNVDLEQTTQFVVPNRGAMVAARFNANIGYRVLVTVSDRNGKPLPFGALASNDDTGQQSIVDEGGILYLSGISSKSQSWTVRWGNQADQQCQFAFSTPDSEPTTSVLQGTAQCH" [] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"G7640-MONOMER" "putative fimbrial adhesin YraK" ["YraK"] "MKRAPLITGLLLISTSCAYASSGGCGADSTSGATNYSSVVDDVTVNQTDNVTGREFTSATLSSTNWQYACSCSAGKAVKLVYMVSPVLTTTGHQTGYYKLNDSLDIKTTLQANDIPGLTTDQVVSVNTRFTQIKNNTVYSAATQTGVCQGDTSRYGPVNIGANTTFTLYVTKPFLGSMTIPKTDIAVIKGAWVDGMGSPSTGDFHDLVKLSIQGNLTAPQSCKINQGDVIKVNFGFINGQKFTTRNAMPDGFTPVDFDITYDCGDTSKIKNSLQMRIDGTTGVVDQYNLVARRRSSDNVPDVGIRIENLGGGVANIPFQNGILPVDPSGHGTVNMRAWPVNLVGGELETGKFQGTATITVIVR" [] ["CCO-EXTRACELLULAR", "CCO-PILUS"] +"G7641-MONOMER" "16S rRNA 2'-O-ribose C1402 methyltransferase" ["RsmI", "YraL", "ribosomal RNA small subunit methyltransferase I"] "MKQHQSADNSQGQLYIVPTPIGNLADITQRALEVLQAVDLIAAEDTRHTGLLLQHFGINARLFALHDHNEQQKAETLLAKLQEGQNIALVSDAGTPLINDPGYHLVRTCREAGIRVVPLPGPCAAITALSAAGLPSDRFCYEGFLPAKSKGRRDALKAIEAEPRTLIFYESTHRLLDSLEDIVAVLGESRYVVLARELTKTWETIHGAPVGELLAWVKEDENRRKGEMVLIVEGHKAQEEDLPADALRTLALLQAELPLKKAAALAAEIHGVKKNALYKYALEQQG" [] ["CCO-CYTOSOL"] +"G7642-MONOMER" "outer membrane lipoprotein - activator of MrcA activity" ["LpoA", "YraM"] "MVPSTFSRLKAARCLPVVLAALIFAGCGTHTPDQSTAYMQGTAQADSAFYLQQMQQSSDDTRINWQLLAIRALVKEGKTGQAVELFNQLPQELNDAQRREKTLLAVEIKLAQKDFAGAQNLLAKITPADLEQNQQARYWQAKIDASQGRPSIDLLRALIAQEPLLGAKEKQQNIDATWQALSSMTQEQANTLVINADENILQGWLDLQRVWFDNRNDPDMMKAGIADWQKRYPNNPGAKMLPTQLVNVKAFKPASTNKIALLLPLNGQAAVFGRTIQQGFEAAKNIGTQPVAAQVAAAPAADVAEQPQPQTVDGVASPAQASVSDLTGEQPAAQPVPVSAPATSTAAVSAPANPSAELKIYDTSSQPLSQILSQVQQDGASIVVGPLLKNNVEELLKSNTPLNVLALNQPENIENRVNICYFALSPEDEARDAARHIRDQGKQAPLVLIPRSSLGDRVANAFAQEWQKLGGGTVLQQKFGSTSELRAGVNGGSGIALTGSPITLRATTDSGMTTNNPTLQTTPTDDQFTNNGGRVDAVYIVATPGEIAFIKPMIAMRNGSQSGATLYASSRSAQGTAGPDFRLEMEGLQYSEIPMLAGGNLPLMQQALSAVNNDYSLARMYAMGVDAWSLANHFSQMRQVQGFEINGNTGSLTANPDCVINRNLSWLQYQQGQVVPVS" ["CCO-OUTER-MEM"] ["CCO-PERI-BAC", "CCO-MEMBRANE", "CCO-OUTER-MEM"] +"G7643-MONOMER" "PF02021 family protein YraN" ["YraN"] "MATVPTRSGSPRQLTTKQTGDAWEAQARRWLEGKGLRFIAANVNERGGEIDLIMREGRTTIFVEVRYRRSALYGGAAASVTRSKQHKLLQTARLWLARHNGSFDTVDCRFDVVAFTGNEVEWIKDAFNDHS" [] ["CCO-CYTOSOL"] +"G7644-MONOMER" "divisome-associated lipoprotein YraP" ["EcfH", "YraP"] "MKALSPIAVLISALLLQGCVAAAVVGTAAVGTKAATDPRSVGTQVDDGTLEVRVNSALSKDEQIKKEARINVTAYQGKVLLVGQSPNAELSARAKQIAMGVDGANEVYNEIRQGQPIGLGEASNDTWITTKVRSQLLTSDLVKSSNVKVTTENGEVFLMGLVTEREAKAAADIASRVSGVKRVTTAFTFIK" ["CCO-OUTER-MEM"] ["CCO-PERI-BAC"] +"G7645-MONOMER" "permease family protein YraQ" ["YraQ"] "MTGQSSSQAATPIQWWKPALFFLVVIAGLWYVKWEPYYGKAFTAAETHSIGKSILAQADANPWQAALDYAMIYFLAVWKAAVLGVILGSLIQVLIPRDWLLRTLGQSRFRGTLLGTLFSLPGMMCTCCAAPVAAGMRRQQVSMGGALAFWMGNPVLNPATLVFMGFVLGWGFAAIRLVAGLVMVLLIATLVQKWVRETPQTQAPVEIDIPEAQGGFFSRWGRALWTLFWSTIPVYILAVLVLGAARVWLFPHADGAVDNSLMWVVAMAVAGCLFVIPTAAEIPIVQTMMLAGMGTAPALALLMTLPAVSLPSLIMLRKAFPAKALWLTGAMVAVSGVIVGGLALLF" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7646-MONOMER" "putative nucleoside-diphosphate-sugar epimerase" ["YraR"] "MSQVLITGATGLVGGHLLRMLINEPKVNAIAAPTRRPLGDMPGVFNPHDPQLSDALAQVTDPIDIVFCCLGTTRREAGSKEAFIHADYTLVVDTALTGRRLGAQHMLVVSAMGANAHSPFFYNRVKGEMEEALIAQNWPKLTIARPSMLLGDRSKQRMNETLFAPLFRLLPGNWKSIDARDVARVMLAESMRPEHEGVTILSSSELRKRAE" [] ["CCO-CYTOSOL"] +"G7647-MONOMER" "protein/nucleic acid deglycase 2" ["YhbO", "Maillard deglycase 2"] "MSKKIAVLITDEFEDSEFTSPADEFRKAGHEVITIEKQAGKTVKGKKGEASVTIDKSIDEVTPAEFDALLLPGGHSPDYLRGDNRFVTFTRDFVNSGKPVFAICHGPQLLISADVIRGRKLTAVKPIIIDVKNAGAEFYDQEVVVDKDQLVTSRTPDDLPAFNREALRLLGA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7648-MONOMER" "putative FMN binding protein YhbP" ["YhbP"] "METLIAISRWLAKQHVVTWCVQQEGELWCANAFYLFDAQKVAFYILTEEKTRHAQMSGPQAAVAGTVNGQPKTVALIRGVQFKGEIRRLEGEESDLARKAYNRRFPVARMLSAPVWEIRLDEIKFTDNTLGFGKKMIWLRDSGTEQA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7649-MONOMER" "DNA damage response nuclease YhbQ" ["YhbQ"] "MTPWFLYLIRTADNKLYTGITTDVERRYQQHQSGKGAKALRGKGELTLVFSAPVGDRSLALRAEYRVKQLTKRQKERLVAEGAGFAELLSSLQTPEIKSD" [] ["CCO-CYTOSOL"] +"G7650-MONOMER" "putative N-acetyltransferase YhbS" ["YhbS", "putative acyltransferase with acyl-CoA N-acyltransferase domain"] "MLIRVEIPIDAPGIDALLRRSFESDAEAKLVHDLREDGFLTLGLVATDDEGQVIGYVAFSPVDVQGEDLQWVGMAPLAVDEKYRGQGLARQLVYEGLDSLNEFGYAAVVTLGDPALYSRFGFELAAHHDLRCRWPGTESAFQVHRLADDALNGVTGLVEYHEHFNRF" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7651-MONOMER" "anaerobic ubiquinone biosynthesis accessory factor UbiT" ["UbiT", "YhbT", "putative lipid carrier protein", "SCP2 domain-containing protein YhbT"] "MLDKLRSRIVHLGPSLLSVPVKLTPFALKRQVLEQVLSWQFRQALDDGELEFLEGRWLSIHVRDIDLQWFTSVVNGKLVVSQNAQADVSFSADASDLLMIAARKQDPDTLFFQRRLVIEGDTELGLYVKNLMDAIELEQMPKALRMMLLQLADFVEAGMKTAPETKQTSVGEPC" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7652-MONOMER" "ubiquinone biosynthesis protein UbiU" ["UbiU", "YhbU", "putative peptidase (collagenase-like)", "putative peptidase YhbU"] "MELLCPAGNLPALKAAIENGADAVYIGLKDDTNARHFAGLNFTEKKLQEAVSFVHQHRRKLHIAINTFAHPDGYARWQRAVDMAAQLGADALILADLAMLEYAAERYPHIERHVSVQASATNEEAINFYHRHFDVARVVLPRVLSIHQVKQLARVTPVPLEVFAFGSLCIMSEGRCYLSSYLTGESPNTIGACSPARFVRWQQTPQGLESRLNEVLIDRYQDGENAGYPTLCKGRYLVDGERYHALEEPTSLNTLELLPELMAANIASVKIEGRQRSPAYVSQVAKVWRQAIDRCKADPQNFVPQSAWMETLGSMSEGTQTTLGAYHRKWQ" [] ["CCO-CYTOSOL"] +"G7653-MONOMER" "ubiquinone biosynthesis protein UbiV" ["UbiV", "YhbV", "putative peptidase YhbV"] "MKYSLGPVLWYWPKETLEEFYQQAATSSADVIYLGEAVCSKRRATKVGDWLEMAKSLAGSGKQIVLSTLALVQASSELGELKRYVENGEFLIEASDLGVVNMCAERKLPFVAGHALNCYNAVTLKILLKQGMMRWCMPVELSRDWLVNLLNQCDELGIRNQFEVEVLSYGHLPLAYSARCFTARSEDRPKDECETCCIKYPNGRNVLSQENQQVFVLNGIQTMSGYVYNLGNELASMQGLVDVVRLSPQGTDTFAMLDAFRANENGAAPLPLTANSDCNGYWRRLAGLELQA" [] ["CCO-CYTOSOL"] +"G7654-MONOMER" "putative luciferase-like monooxygenase YhbW" ["YhbW"] "MTDKTIAFSLLDLAPIPEGSSAREAFSHSLDLARLAEKRGYHRYWLAEHHNMTGIASAATSVLIGYLAANTTTLHLGSGGVMLPNHSPLVIAEQFGTLNTLYPGRIDLGLGRAPGSDQRTMMALRRHMSGDIDNFPRDVAELVDWFDARDPNPHVRPVPGYGEKIPVWLLGSSLYSAQLAAQLGLPFAFASHFAPDMLFQALHLYRSNFKPSARLEKPYAMVCINIIAADSNRDAEFLFTSMQQAFVKLRRGETGQLPPPIQNMDQFWSPSEQYGVQQALSMSLVGDKAKVRHGLQSILRETDADEIMVNGQIFDHQARLHSFELAMDVKEELLG" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7655-MONOMER" "putative hydrolase YhbX" ["YhbX", "putative hydrolase, inner membrane"] "MTVFNKFARTFKSHWLLYLCVIVFGITNLVASSGAHMVQRLLFFVLTILVVKRISSLPLRLLVAAPFVLLTAADMSISLYSWCTFGTTFNDGFAISVLQSDPDEVVKMLGMYIPYLCAFAFLSLLFLAVIIKYDVSLPTKKVTGILLLIVISGSLFSACQFAYKDAKNKKAFSPYILASRFATYTPFFNLNYFALAAKEHQRLLSIANTVPYFQLSVRDTGIDTYVLIVGESVRVDNMSLYGYTRSTTPQVEAQRKQIKLFNQAISGAPYTALSVPLSLTADSVLSHDIHNYPDNIINMANQAGFQTFWLSSQSAFRQNGTAVTSIAMRAMETVYVRGFDELLLPHLSQALQQNTQQKKLIVLHLNGSHEPACSAYPQSSAVFQPQDDQDACYDNSIHYTDSLLGQVFELLKDRRASVMYFADHGLERDPTKKNVYFHGGREASQQAYHVPMFIWYSPVLGDGVDRTTENNIFSTAYNNYLINAWMGVTKPEQPQTLEEVIAHYKGDSRVVDANHDVFDYVMLRKEFTEDKQGNPTPEGQG" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7656-MONOMER" "GTPase ObgE" ["YhbZ", "CgtA", "ObgE", "Obg", "GTPase involved in chromosome partitioning and ribosome assembly"] "MKFVDEASILVVAGDGGNGCVSFRREKYIPKGGPDGGDGGDGGDVWMEADENLNTLIDYRFEKSFRAERGQNGASRDCTGKRGKDVTIKVPVGTRVIDQGTGETMGDMTKHGQRLLVAKGGWHGLGNTRFKSSVNRTPRQKTNGTPGDKRELLLELMLLADVGMLGMPNAGKSTFIRAVSAAKPKVADYPFTTLVPSLGVVRMDNEKSFVVADIPGLIEGAAEGAGLGIRFLKHLERCRVLLHLIDIDPIDGTDPVENARIIISELEKYSQDLATKPRWLVFNKIDLLDKVEAEEKAKAIAEALGWEDKYYLISAASGLGVKDLCWDVMTFIIENPVVQAEEAKQPEKVEFMWDDYHRQQLEEIAEEDDEDWDDDWDEDDEEGVEFIYKR" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7657-MONOMER" "acid stress protein IbaG" ["IbaG", "YrbA", "putative DNA-binding transcriptional regulator IbaG"] "MENNEIQSVLMNALSLQEVHVSGDGSHFQVIAVGELFDGMSRVKKQQTVYGPLMEYIADNRIHAVSIKAYTPAEWARDRKLNGF" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7658-MONOMER" "intermembrane phospholipid transport system protein MlaB" ["YrbB", "MlaB"] "MSESLSWMQTGDTLALSGELDQDVLLPLWEMREEAVKGITCIDLSRVSRVDTGGLALLLHLIDLAKKQGNNVTLQGVNDKVYTLAKLYNLPADVLPR" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7659-MONOMER" "intermembrane phospholipid transport system - periplasmic binding protein" ["YrbC", "MlaC"] "MFKRLMMVALLVIAPLSAATAADQTNPYKLMDEAAQKTFDRLKNEQPQIRANPDYLRTIVDQELLPYVQVKYAGALVLGQYYKSATPAQREAYFAAFREYLKQAYGQALAMYHGQTYQIAPEQPLGDKTIVPIRVTIIDPNGRPPVRLDFQWRKNSQTGNWQAYDMIAEGVSMITTKQNEWGTLLRTKGIDGLTAQLKSISQQKITLEEKK" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"G7662-MONOMER" "D-arabinose 5-phosphate isomerase KdsD" ["KdsD", "YrbH"] "MSHVELQPGFDFQQAGKEVLAIERECLAELDQYINQNFTLACEKMFWCKGKVVVMGMGKSGHIGRKMAATFASTGTPSFFVHPGEAAHGDLGMVTPQDVVIAISNSGESSEITALIPVLKRLHVPLICITGRPESSMARAADVHLCVKVAKEACPLGLAPTSSTTATLVMGDALAVALLKARGFTAEDFALSHPGGALGRKLLLRVNDIMHTGDEIPHVKKTASLRDALLEVTRKNLGMTVICDDNMMIEGIFTDGDLRRVFDMGVDVRQLSIADVMTPGGIRVRPGILAVEALNLMQSRHITSVMVADGDHLLGVLHMHDLLRAGVV" [] ["CCO-CYTOSOL"] +"G7663-MONOMER" "3-deoxy-D-manno-octulosonate 8-phosphate phosphatase KdsC" ["YrbJ", "KdsC", "YrbI"] "MSKAGASLATCYGPVSADVIAKAENIRLLILDVDGVLSDGLIYMGNNGEELKAFNVRDGYGIRCALTSDIEVAIITGRKAKLVEDRCATLGITHLYQGQSNKLIAFSDLLEKLAIAPENVAYVGDDLIDWPVMEKVGLSVAVADAHPLLIPRADYVTRIAGGRGAVREVCDLLLLAQGKLDEAKGQSI" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7664-MONOMER" "lipopolysaccharide transport system protein LptC" ["YrbK"] "MSKARRWVIIVLSLAVLVMIGINMAEKDDTAQVVVNNNDPTYKSEHTDTLVYNPEGALSYRLIAQHVEYYSDQAVSWFTQPVLTTFDKDKIPTWSVKADKAKLTNDRMLYLYGHVEVNALVPDSQLRRITTDNAQINLVTQDVTSEDLVTLYGTTFNSSGLKMRGNLRSKNAELIEKVRTSYEIQNKQTQP" ["CCO-PERI-BAC", "CCO-PM-BAC-NEG", "CCO-MEMBRANE"] ["CCO-PERI-BAC", "CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"G7667-MONOMER" "protein kinase-like domain-containing protein YrbL" ["YrbL"] "MIRLSEQSPLGTGRHRKCYAHPEDAQRCIKIVYHRGDGGDKEIRRELKYYAHLGRRLKDWSGIPRYHGTVETDCGTGYVYDVIADFDGKPSITLTEFAEQCRYEEDIAQLRQLLKQLKRYLQDNRIVTMSLKPQNILCHRISESEVIPVVCDNIGESTLIPLATWSKWCCLRKQERLWKRFIAQPALAIALQKDLQPRESKTLALTSREA" [] ["CCO-CYTOSOL"] +"G7668-MONOMER" "peptidoglycan glycosyltransferase MtgA" ["Mgt", "YrbM", "MtgA"] "MSKSRLTVFSFVRRFLLRLMVVLAVFWGGGIALFSVAPVPFSAVMVERQVSAWLHGNFRYVAHSDWVSMDQISPWMGLAVIAAEDQKFPEHWGFDVASIEKALAHNERNENRIRGASTISQQTAKNLFLWDGRSWVRKGLEAGLTLGIETVWSKKRILTVYLNIAEFGDGVFGVEAAAQRYFHKPASKLTRSEAALLAAVLPNPLRFKVSSPSGYVRSRQAWILRQMYQLGGEPFMQQHQLD" ["CCO-PM-BAC-NEG"] ["CCO-CW-BAC-NEG", "CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7669-MONOMER" "radical SAM family oxidoreductase YhcC" ["YhcC"] "MQLQKLVNMFGGDLTRRYGQKVHKLTLHGGFSCPNRDGTIGRGGCTFCNVASFADEAQQHRSIAEQLAHQANLVNRAKRYLAYFQAYTSTFAEVQVLRSMYQQAVSQANIVGLCVGTRPDCVPDAVLDLLCEYKDQGYEVWLELGLQTAHDKTLHRINRGHDFACYQRTTQLARQRGLKVCSHLIVGLPGEGQAECLQTLERVVETGVDGIKLHPLHIVKGSIMAKAWEAGRLNGIELEDYTLTAGEMIRHTPPEVIYHRISASARRPTLLAPLWCENRWTGMVELDRYLNEHGVQGSALGRPWLPPTE" [] ["CCO-CYTOSOL"] +"G7670-MONOMER" "putative fimbrial usher protein YhcD" ["YhcD"] "MLKKTLLAYTIGFAFSPPANADGIEIAAVDFDRETLKSLGVDPNISHYFSRSARFLPGEYSLIVSVNGEKKGNIATRFDENGDICLDQAFLQQAGLKIPSEEKNGCYDYILSYPGTTITPLPNQEALDIIVSPQAIIPIGLDLTNAATGGTAALLNYSLMSSRAEFSNGSSDYSQAALEGGININDWMLRSHQFLTQTNGTFSNQNSSTYLQRTFTDLKTLMRAGEVNLNNSVLEGASIYGIEIAPDNALQTSGSGVQVTGIANTSQARVEIRQQGVLIHSILVPAGAFTIPDVPVRNGNSDLNVTVVETDGSSHNYIVPSTLFNQHVESFQGYRFAIGRVDDDYDESPWVISASSGWNLTRWSAMNGGVIVAENYQAASIRSSLVPLPDLTVSSQISTSQDTKDSLQGQKYRLDANYNLPFSLGLTTSLTRSDRHYRELSEAIDDDYTDPTKSTYALGLNWSNSILGGFNISGYKTYSYDGDNDSSNLNINWNKAFKHATVSVNWQHQLSASENNEDDGDLFYVNISIPFGRSNTATLYTRHDDHKTHYGTGVMGVVSDEMSYYVNAERDHDERETSLNGSISSNLHYTQVSLAAGASGSDSRTYNGTMSGGIAVHDQGVTFSPWTINDTFAIAKMDNNIAGVRITSQAGPVWTDFRGNAVIPSIQPWRTSGVEIDTASLPKNVDIGNGTKMIKQGRGAVGKVGFSAITQRRALLNITLSDGKKLPRGVAIEDSEGNYLTTSVDDGVVFLNNIKPDMVLDIKDEQQSCRIHLTFPEDAPKDVFYETATGECQ" [] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"G7671-MONOMER" "putative uncharacterized protein YhcE" ["YhcE"] "MKRIITGCLLLNFAMAAQAECNISSSIQNIDYGKRSAAMRQVDRGKTTQLADRTITLVMQCDQDAHIRVQLNTANISNNGFGFGPNGSLNLIASDAFSGSNNLDLALASGKNDNPGSTGTASISTSPNNWLVFMQNGQEVVIDSGKSVSLTLTMAPAFKDEGELTDMTDITGNLTVLVEAK" [] ["CCO-MEMBRANE"] +"G7673-MONOMER" "DUF1120 domain-containing protein YhcF" ["YhcF", "putative transcriptional regulator"] "MNNVKLLIAGSAFFAMSAQAADRVSIDVKVTLEAAACTPILSNGGVVNFGSHSVNRLSTQHYTQIGTRNINMTITCESATGIAITARDTRMDSMTTGKDSGGQSGVKYTLNGGGYISQTTRLFGLGKTKDNKNIGSYAVLIDSNNISASNGSQTLAVSIAGADAVITGQKRAWQTLTAYPLAVDQSYYYTFVKPGETTPTPVTNAIIPLQVSASIANDLGGSEKIELDGKAVISVVYL" [] ["CCO-MEMBRANE"] +"G7674-MONOMER" "DUF1016 domain-containing protein YhcG" ["YhcG"] "MESLSEGTTAGYQQIHDGIIHLVDSARTETVRSVNALMTATYQEIGRRIVEFEQGGEARAAYGAQLIKRLSKDLCLRYKRGFSAKNLRQMRLFYLFFQHVEIHQTMSGELTPLGIPQTPSAEFPSAKIWQTLSAKSFPLPRSTYVRLLSVKNADARSFYEKETLRCGWSVRQLERQIATQFYERTLLSHDKSAMLQQHAPAETHILPQQAIRDPFVLEFLELKDEYSESDFEEALINHLMDFMLELGDDFAFVGRQRRLRIDDNWFRVDLLFFHRRLRCLLIVDLKVGKFSYSDAGQMNMYLNYAKEHWTLPDENPPIGLVLCAEKGAGEAHYALAGLPNTVLASEYKMQLPDEKRLADELVRTQAVLEEGYRRR" [] ["CCO-CYTOSOL"] +"G7675-MONOMER" "DUF386 domain-containing protein YhcH" ["YhcH"] "MMMGEVQSLPSAGLHPALQDALTLALAARPQEKAPGRYELQGDNIFMNVMTFNTQSPVEKKAELHEQYIDIQLLLNGEERILFGMAGTARQCEEFHHEDDYQLCSTIDNEQAIILKPGMFAVFMPGEPHKPGCVVGEPGEIKKVVVKVKADLMA" [] ["CCO-CYTOSOL"] +"G7678-MONOMER" "DNA-binding transcriptional dual regulator NanR" ["YhcK", "NanR"] "MGLMNAFDSQTEDSSPAIGRNLRSRPLARKKLSEMVEEELEQMIRRREFGEGEQLPSERELMAFFNVGRPSVREALAALKRKGLVQINNGERARVSRPSADTIIGELSGMAKDFLSHPGGIAHFEQLRLFFESSLVRYAAEHATDEQIDLLAKALEINSQSLDNNAAFIRSDVDFHRVLAEIPGNPIFMAIHVALLDWLIAARPTVTDQALHEHNNVSYQQHIAIVDAIRRHDPDEADRALQSHLNSVSATWHAFGQTTNKKK" [] ["CCO-CYTOSOL"] +"G7680-MONOMER" "cell division protein ZapE" ["ZapE", "YhcM", "cell division factor ZapE with ATPase activity"] "MQSVTPTSQYLKALNEGSHQPDDVQKEAVSRLEIIYQELINSTPPAPRTSGLMARVGKLWGKREDTKHTPVRGLYMWGGVGRGKTWLMDLFYQSLPGERKQRLHFHRFMLRVHEELTALQGQTDPLEIIADRFKAETDVLCFDEFFVSDITDAMLLGGLMKALFARGITLVATSNIPPDELYRNGLQRARFLPAIDAIKQHCDVMNVDAGVDYRLRTLTQAHLWLSPLHDETRAQMDKLWLALAGGKRENSPTLEINHRPLATMGVENQTLAVSFTTLCVDARSQHDYIALSRLFHTVMLFDVPVMTRLMESEARRFIALVDEFYERHVKLVVSAEVPLYEIYQGDRLKFEFQRCLSRLQEMQSEEYLKREHLAG" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7681-MONOMER" "DUF1043 domain-containing inner membrane protein YhcB" ["YhcB"] "MTWEYALIGLVVGIIIGAVAMRFGNRKLRQQQALQYELEKNKAELDEYREELVSHFARSAELLDTMAHDYRQLYQHMAKSSSSLLPELSAEANPFRNRLAESEASNDQAPVQMPRDYSEGASGLLRTGAKRD" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7682-MONOMER" "periplasmic serine endoprotease" ["HhoA", "DegQ"] "MKKQTQLLSALALSVGLTLSASFQAVASIPGQVADQAPLPSLAPMLEKVLPAVVSVRVEGTASQGQKIPEEFKKFFGDDLPDQPAQPFEGLGSGVIINASKGYVLTNNHVINQAQKISIQLNDGREFDAKLIGSDDQSDIALLQIQNPSKLTQIAIADSDKLRVGDFAVAVGNPFGLGQTATSGIVSALGRSGLNLEGLENFIQTDASINRGNSGGALLNLNGELIGINTAILAPGGGSVGIGFAIPSNMARTLAQQLIDFGEIKRGLLGIKGTEMSADIAKAFNLDVQRGAFVSEVLPGSGSAKAGVKAGDIITSLNGKPLNSFAELRSRIATTEPGTKVKLGLLRNGKPLEVEVTLDTSTSSSASAEMITPALEGATLSDGQLKDGGKGIKIDEVVKGSPAAQAGLQKDDVIIGVNRDRVNSIAEMRKVLAAKPAIIALQIVRGNESIYLLMR" ["CCO-PERI-BAC"] ["CCO-PM-BAC-NEG", "CCO-PERI-BAC"] +"G7683-MONOMER" "DUF1471 domain-containing stress-induced protein YhcN" ["YhcN"] "MKIKTTVAALSVLSVLSFGAFAADSIDAAQAQNREAIGTVSVSGVASSPMDMREMLNKKAEEKGATAYQITEARSGDTWHATAELYK" [] ["CCO-PERI-BAC", "CCO-CYTOSOL"] +"G7684-MONOMER" "putative barnase inhibitor" ["YhcO"] "MNIYTFDFDEIESQEDFYRDFSQTFGLAKDKVRDLDSLWDVLMNDVLPLPLEIEFVHLGEKTRRRFGALILLFDEAEEELEGHLRFNVRH" [] ["CCO-CYTOSOL"] +"G7685-MONOMER" "aromatic carboxylic acid efflux pump subunit AaeB" ["AaeB", "YhcP"] "MGIFSIANQHIRFAVKLATAIVLALFVGFHFQLETPRWAVLTAAIVAAGTAFAAGGEPYSGAIRYRGFLRIIGTFIGCIAGLVIIIAMIRAPLLMILVCCIWAGFCTWISSLVRIENSYAWGLAGYTALIIVITIQPEPLLTPQFAVERCSEIVIGIVCAIMADLLFSPRSIKQEVDRELESLLVAQYQLMQLCIKHGDGEVVDKAWGDLVRRTTALQGMRSNLNMESSRWARANRRLKAINTLSLTLITQSCETYLIQNTRPELITDTFREFFDTPVETAQDVHKQLKRLRRVIAWTGERETPVTIYSWVAAATRYQLLKRGVISNTKINATEEEILQGEPEVKVESAERHHAMVNFWRTTLSCILGTLFWLWTGWTSGSGAMVMIAVVTSLAMRLPNPRMVAIDFIYGTLAALPLGLLYFLVIIPNTQQSMLLLCISLAVLGFFLGIEVQKRRLGSMGALASTINIIVLDNPMTFHFSQFLDSALGQIVGCVLAFTVILLVRDKSRDRTGRVLLNQFVSAAVSAMTTNVARRKENHLPALYQQLFLLMNKFPGDLPKFRLALTMIIAHQRLRDAPIPVNEDLSAFHRQMRRTADHVISARSDDKRRRYFGQLLEELEIYQEKLRIWQAPPQVTEPVNRLAGMLHKYQHALTDS" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7686-MONOMER" "aromatic carboxylic acid efflux pump membrane fusion protein" ["AaeA", "YhcQ"] "MKTLIRKFSRTAITVVLVILAFIAIFNAWVYYTESPWTRDARFSADVVAIAPDVSGLITQVNVHDNQLVKKGQILFTIDQPRYQKALEEAQADVAYYQVLAQEKRQEAGRRNRLGVQAMSREEIDQANNVLQTVLHQLAKAQATRDLAKLDLERTVIRAPADGWVTNLNVYTGEFITRGSTAVALVKQNSFYVLAYMEETKLEGVRPGYRAEITPLGSNKVLKGTVDSVAAGVTNASSTRDDKGMATIDSNLEWVRLAQRVPVRIRLDNQQENIWPAGTTATVVVTGKQDRDESQDSFFRKMAHRLREFG" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7687-MONOMER" "DUF1656 domain-containing protein AaeX" ["AaeX", "YhcR"] "MSLFPVIVVFGLSFPPIFFELLLSLAIFWLVRRVLVPTGIYDFVWHPALFNTALYCCLFYLISRLFV" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7688-MONOMER" "LysR-type transcriptional regulator AaeR" ["YhcS", "AaeR", "QseA", "quorum sensing transcriptional regulator of LYSR-type"] "MERLKRMSVFAKVVEFGSFTAAARQLQMSVSSISQTVSKLEDELQVKLLNRSTRSIGLTEAGRIYYQGCRRMLHEVQDVHEQLYAFNNTPIGTLRIGCSSTMAQNVLAGLTAKMLKEYPGLSVNLVTGIPAPDLIADGLDVVIRVGALQDSSLFSRRLGAMPMVVCAAKSYLTQYGIPEKPADLSSHSWLEYSVRPDNEFELIAPEGISTRLIPQGRFVTNDPMTLVRWLTAGAGIAYVPLMWVINEINRGELEILLPRYQSDPRPVYALYTEKDKLPLKVQVVINSLTDYFVEVGKLFQEMHGRGKEK" [] ["CCO-CYTOSOL"] +"G7689-MONOMER" "metalloprotease subunit TldD" ["YhdO", "TldD", "protease involved in Microcin B17 maturation and in sensitivity to the DNA gyrase inhibitor LetD"] "MSLNLVSEQLLAANGLKHQDLFAILGQLAERRLDYGDLYFQSSYHESWVLEDRIIKDGSYNIDQGVGVRAISGEKTGFAYADQISLLALEQSAQAARTIVRDSGDGKVQTLGAVEHSPLYTSVDPLQSMSREEKLDILRRVDKVAREADKRVQEVTASLSGVYELILVAATDGTLAADVRPLVRLSVSVLVEEDGKRERGASGGGGRFGYEFFLADLDGEVRADAWAKEAVRMALVNLSAVAAPAGTMPVVLGAGWPGVLLHEAVGHGLEGDFNRRGTSVFSGQVGELVASELCTVVDDGTMVDRRGSVAIDDEGTPGQYNVLIENGILKGYMQDKLNARLMGMTPTGNGRRESYAHLPMPRMTNTYMLPGKSTPQEIIESVEYGIYAPNFGGGQVDITSGKFVFSTSEAYLIENGKVTKPVKGATLIGSGIETMQQISMVGNDLKLDNGVGVCGKEGQSLPVGVGQPTLKVDNLTVGGTA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7690-MONOMER" "phospholipid transport factor YhdP" ["YhdQ", "YhdR", "YhdP"] "MRRLPGILLLTGAALVVIAALLVSGLRIALPHLDAWRPEILNKIESATGMPVEASQLSASWQNFGPTLEAHDIRAELKDGGEFSVKRVTLALDVWQSLLHMRWQFRDLTFWQLRFRTNTPITSGGSDDSLEASHISDLFLRQFDHFDLRDSEVSFLTPSGQRAELAIPQLTWLNDPRRHRAEGLVSLSSLTGQHGVMQVRMDLRDDEGLLSNGRVWLQADDIDLKPWLGKWMQDNIALETAQFSLEGWMTIDKGDVTGGDVWLKQGGASWLGEKQTHTLSVDNLTAHITRENPGWQFSIPDTRITMDGKPWPSGALTLAWIPEQDVGGKDNKRSDELRIRASNLELAGLEGIRPLAAKLSPALGDVWRSTQPSGKINTLALDIPLQAADKTRFQASWSDLAWKQWKLLPGAEHFSGTLSGSVENGLLTASMKQAKMPYETVFRAPLEIADGQATISWLNNNKGFQLDGRNIDVKAKAVHARGGFRYLQPANDEPWLGILAGISTDDGSQAWRYFPENLMGKDLVDYLSGAIQGGEADNATLVYGGNPQLFPYKHNEGQFEVLVPLRNAKFAFQPDWPALTNLDIELDFINDGLWMKTDGVNLGGVRASNLTAVIPDYSKEKLLIDADIKGPGKAVGPYFDETPLKDSLGATLQELQLDGDVNARLHLDIPLNGELVTAKGEVTLRNNSLFIKPLDSTLKNLSGKFSFINSDLQSEPLTASWFNQPLNVDFSTKEGAKAYQVAVNLNGNWQPAKTGVLPEAVNEALSGSVAWDGKVGIDLPYHAGATYNIELNGDLKNVSSHLPSPLAKPAGEPLAVNVKVDGNLNSFELTGQAGADNHFNSRWLLGQKLTLDRAIWAADSKTLPPLPEQSGVELNMPPMNGAEWLALFQKGAAESVGGAASFPQHITLRTPMLSLGNQQWNNLSIVSQPTANGTLVEAQGREINATLAMRNNAPWLANIKYLYYNPSVAKTRGDSTPSSPFPTTERINFRGWPDAQIRCTECWFWGQKFGRIDSDITISGDTLTLTNGLIDTGFSRLTADGEWVNNPGNERTSLKGKLRGQKIDAAAEFFGVTTPIRQSSFNVDYDLHWRKAPWQPDEATLNGIIHTQLGKGEITEINTGHAGQLLRLLSVDALMRKLRFDFRDTFGEGFYFDSIRSTAWIKDGVMHTDDTLVDGLEADIAMKGSVNLVRRDLNMEAVVAPEISATVGVAAAFAVNPIVGAAVFAASKVLGPLWSKVSILRYHISGPLDDPQINEVLRQPRKEKAQ" [] ["CCO-PM-BAC-NEG"] +"G7693-MONOMER" "DUF997 domain-containing protein YhdT" ["YhdT"] "MDTRFVQAHKEARWALGLTLLYLAVWLVAAYLSGVAPGFTGFPRWFEMACILTPLLFIGLCWAMVKFIYRDIPLEDDDAA" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7694-MONOMER" "DUF2556 domain-containing protein YhdU" ["YhdU"] "MIRKYWWLVVFAVFVFLFDTLLMQWIELLATETDKCRNMNSVNPLKLVNCDELNFQDRM" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7695-MONOMER" "lipoprotein YhdV" ["YhdV"] "MKRLIPVALLTALLAGCAHDSPCVPVYDDQGRLVHTNTCMKGTTQDNWETAGAIAGGAAAVAGLTMGIIALSK" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"G7696-MONOMER" "hexapeptide repeats-containing protein YrdA" ["YrdA"] "MSDVLRPYRDLFPQIGQRVMIDDSSVVIGDVRLADDVGIWPLVVIRGDVHYVQIGARTNIQDGSMLHVTHKSSYNPDGNPLTIGEDVTVGHKVMLHGCTIGNRVLVGMGSILLDGAIVEDDVMIGAGSLVPQNKRLESGYLYLGSPVKQIRPLSDEEKAGLRYSANNYVKWKDEYLDQGNQTQP" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7697-MONOMER" "DUF1488 domain-containing protein YrdB" ["YrdB"] "MNQAIQFPDREEWDENKKCVCFPALVNGMQLTCAISGESLAYRFTGDTPEQWLASFRQHRWDLEEEAENLIQEQSEDDQGWVWLP" [] ["CCO-CYTOSOL"] +"G7698-MONOMER" "L-threonylcarbamoyladenylate synthase" ["TsaC", "YrdC", "RimN", "threonylcarbamoyl-AMP synthase"] "MNNNLQRDAIAAAIDVLNEERVIAYPTEAVFGVGCDPDSETAVMRLLELKQRPVDKGLILIAANYEQLKPYIDDTMLTDVQRETIFSRWPGPVTFVFPAPATTPRWLTGRFDSLAVRVTDHPLVVALCQAYGKPLVSTSANLSGLPPCRTVDEVRAQFGAAFPVVPGETGGRLNPSEIRDALTGELFRQG" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7699-MONOMER" "putative DNA topoisomerase" ["YrdD"] "MAKSALFTVRNNESCPKCGAELVIRSGKHGPFLGCSQYPACDYVRPLKSSADGHIVKVLEGQVCPACGANLVLRQGRFGMFIGCINYPECEHTELIDKPDETAITCPQCRTGHLVQRRSRYGKTFHSCDRYPECQFAINFKPIAGECPECHYPLLIEKKTAQGVKHFCASKQCGKPVSAE" [] ["CCO-CYTOSOL"] +"G7701-MONOMER" "Type II secretion system protein GspA" ["YheD", "GspA"] "MSTRREVILSWLCEKRQTWRLCYLLGEAGSGKTWLAQQLQKDKHRRVITLSLVVSWQGKAAWIVTDDNAAEQGCRDSAWTRDEMAGQLLHALHRTDSRCPLIIIENAHLNHRRILDDLQRAISLIPDGQFLLIGRPDRKVERDFKKQGIELVSIGRLTEHELKASILEGQNIDQPDLLLTARVLKRIALLCRGDRRKLALAGETIRLLQQAEQTSVFTAKQWRMIYRILGDNRPRKMQLAVVMSGTIIALTCGWLLLSSFTATLPVPAWLIPVTPVVKQDMTKDIAHVVMRDSEALSVLYGVWGYEVPADSAWCDQAVRAGLACKSGNASLQTLVDQNLPWIASLKVGDKKLPVVVVRVGEASVDVLVGQQTWTLTHKWFESVWTGDYLLLWKMSPEGESTITRDSSEEEILWLETMLNRALHISTEPSAEWRPLLVEKIKQFQKSHHLKTDGVVGFSTLVHLWQVAGESAYLYRDEANISPETTVKGK" ["CCO-CYTOSOL"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG", "CCO-CYTOSOL"] +"G7702-MONOMER" "Type II secretion system protein GspC" ["YheE", "GspC"] "MPTLRFPFHLANHNKDAAINILIIFISIGSIIFNVNYFHTTIVKNGQIINQPTNAFQSDFSLAALWRNENHAGVKDANPVAVNQETPKLSIALNGIVLTSNDETSFVLINEGSEQKRYSLNEALESAPGTFIRKINKTSVVFETHGHYEKVTLHPGLPDIIKQPDSESQNVLADYIIATPIRDGEQIYGLRLNPRKGLNAFTTSLLQPGDIALRINNLSLTHPDEVSQALSLLLTQQSAQFTIRRNGVPRLINVSVGELTGMNGLRHERTQ" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7703-MONOMER" "Type II secretion system protein GspD" ["YheF", "GspD"] "MKGLNKITCCLLAALLMPCAGHAENEQYGANFNNADIRQFVEIVGQHLGKTILIDPSVQGTISVRSNDTFSQQEYYQFFLSILDLYGYSVITLDNGFLKVVRSANVKTSPGMIADSSRPGVGDELVTRIVPLENVPARDLAPLLRQMMDAGSVGNVVHYEPSNVLILTGRASTINKLIEVIKRVDVIGTEKQQIIHLEYASAEDLAEILNQLISESHGKSQMPALLSAKIVADKRTNSLIISGPEKARQRITSLLKSLDVEESEEGNTRVYYLKYAKATNLVEVLTGVSEKLKDEKGNARKPSSSGAMDNVAITADEQTNSLVITADQSVQEKLATVIARLDIRRAQVLVEAIIVEVQDGNGLNLGVQWANKNVGAQQFTNTGLPIFNAAQGVADYKKNGGITSANPAWDMFSAYNGMAAGFFNGDWGVLLTALASNNKNDILATPSIVTLDNKLASFNVGQDVPVLSGSQTTSGDNVFNTVERKTVGTKLKVTPQVNEGDAVLLEIEQEVSSVDSSSNSTLGPTFNTRTIQNAVLVKTGETVVLGGLLDDFSKEQVSKVPLLGDIPLVGQLFRYTSTERAKRNLMVFIRPTIIRDDDVYRSLSKEKYTRYRQEQQQRIDGKSKALVGSEDLPVLDENTFNSHAPAPSSR" [] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"G7704-MONOMER" "Type II secretion system protein GspE" ["YheG", "GspE"] "MRIHSPYPASWALAQRIGYLYSEGEIIYLADTPFERLLDIQRQVGQCQTMTSLSQADFEARLEAVFHQNTGESQQIAQDIDQSVDLLSLSEEMPANEDLLNEDSAAPVIRLINAILSEAIKETASDIHIETYEKTMSIRFRIDGVLRTILQPNKKLAALLISRIKVMARLDIAEKRIPQDGRISLRIGRRNIDVRVSTLPSIYGERAVLRLLDKNSLQLSLNNLGMTAADKQDLENLIQLPHGIILVTGPTGSGKSTTLYAILSALNTPGRNILTVEDPVEYELEGIGQTQVNTRVDMSFARGLRAILRQDPDVVMVGEIRDTETAQIAVQASLTGHLVLSTLHTNSASGAVTRLRDMGVESFLLSSSLAGIIAQRLVRRLCPQCRQFTPVSPQQAQMFKYHQLAVTTIGTPVGCPHCHQSGYQGRMAIHEMMVVTPELRAAIHENVDEQALERLVRQQHKALIKNGLQKVISGDTSWDEVMRVASATLESEA" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG", "CCO-CYTOSOL"] +"G7705-MONOMER" "Type II secretion system protein GspF" ["HopF", "GspF", "HofF"] "MNYRYRAMTQDGQKLQGIIDANDERQARLRLREEGLFLLDIRPQKSSGVKTRRPRISHSELTLFTRQLATLSAAALPLEESLAVIGQQSSNKRLGDVLNQVRSAILEGHPLSDALQHFPTLFDSLYRTLVKAGEKSGLLAPVLEKLADYNENRQKIRSKLIQSLIYPCMLTTVAIGVVIILLTAVVPKITEQFVHMKQQLPLSTRILLGLSDTLQRTGPTLLATVFIVAVGFWLWLKRGNNRHRFHAMLLRVALIGPLICAINSARYLRTLSILQSSGVPLLDGMNLSTESLNNLEIRQRLANAAENVRQGNSIHLSLEQTAIFPPMMLYMVASGEKSGQLGTLMVRAADNQETLQQNRIALTLSIFEPALIITMALIVLFIVVSVLQPLLQLNSMIN" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7706-MONOMER" "Type II secretion system protein GspG" ["HopG", "GspG", "HofG"] "MRATDKQRGFTLLEIMVVIVIIGVLASLVVPNLMGNKEKADKQKAVSDIVALENALDMYKLDNHHYPTTNQGLESLVEAPTLPPLAANYNKEGYIKRLPADPWGNDYVLVNPGEHGAYDLLSAGPDGEMGTEDDITNWGLSKKKK" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7707-MONOMER" "Type II secretion system protein GspH" ["HopH", "GspH", "HofH"] "MNQQRGFTLLEMMLVLALVAITASVVLFTYGREDVASTRARETAARFTAALELAIDRATLSGQPVGIHFSDSAWRIMVPGKTPSAWRWVPLQEDAADESQNDWDEELSIHLQPFKPDDSNQPQVVILADGQITPFSLLMANAGTGEPLLTLVCSGSWPLDQTLARDTRP" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7708-MONOMER" "Type II secretion system protein GspI" ["YheH", "GspI"] "MNKQSGMTLLEVLLAMSIFTAVALTLMSSMQGQRNAIERMRNETLALWIADNQLQSQDSFGEENTSSSGKELINGEEWNWRSDIHSSKDGTLLERTITVTLPSGQTTSLTRYQSIDNKSGQAQDD" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7709-MONOMER" "Type II secretion system protein GspJ" ["YheI", "GspJ"] "MINRQQGFTLLEVMAALAIFSMLSVLAFMIFSQASELHQRSQKEIQQFNQLQRTITILDNDLLQLVARRNRSTDKIMVLGEEAIFTTQSRDPLAPLSEAQTLLTVHWYLRNHTLYRAVRTSVDGRKDQPAQAMLEHVESFLLESNSGESQELPLSVTLHLQTQQYGGLQRRFALPEQLAREESPAQTQAGNNNHE" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7710-MONOMER" "Type II secretion system protein GspK" ["YheJ", "GspK"] "MNNEQRGVALLIVLMLLALMAALAADMTLSFHSQLQRTRQVNHHLQRQYDIELAEKLALASLTQDVKDNDRQTTLQQYWAQPQQLQLEDGNTVKWQLRDAQHCFNLNALAKISDDPLASPDFPAQVFSALLINAGIDRGNTDEIVQSIADYIDVDDSPRFHGAEDSFYQSQTPPRHSANQMLFLTGELRQIKGITENIYQRLIPYVCVLPTTELSINLNMLTENDIPLFRALFLNNITDADARVLLQKRPREGWLTTDAFLYWAQQDFSGVKPLVAQVKRHLFPYSRYFTLSTESISDEQSQGWQSHIFFNRKQQSAQIYRRTLQLY" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7711-MONOMER" "Type II secretion system protein GspL" ["YheK", "GspL"] "MPESLMVIRSSSTLRKHWEWMTFSADSVSSVHTLTDDLPLESLADQPGAGNVHLLIPPEGLLYRSLTLPNAKYKLTAQTLQWLAEETLPDNTQDWHWTVVDKQNESVEVIGIQSEKLSRYLERLHTAGLNVTRVLPDGCYLPWEVDSWTLVNQQTSWLIRSAAHAFNELDEHWLQHLAAQFPPENMLCYGVVPHGVAAANPLIQHPEIPSLSLYSADIAFQRYDMLHGIFRKQKTVSKSGKWLARLAVSCLVLAILSFVGSRSIALWHTLKIEDQLQQQQQETWQRYFPQIKRTHNFRFYFKQQLAQQYPEAVPLLYHLQTLLLEHPELQLMEANYSQKQKSLTLKMSAKSEANIDRFCELTQSWLPMEKTEKDPVSGVWTVRNSGK" ["CCO-PM-BAC-NEG"] ["CCO-CW-BAC-NEG", "CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7712-MONOMER" "sulfurtransferase complex subunit TusB" ["TusB", "YheL"] "MLHTLHRSPWLTDFAALLRLLSEGDELLLLQDGVTAAVDGNRYLESLRNAPIKVYALNEDLIARGLTGQISNDIILIDYTDFVRLTVKHPSQMAW" [] ["CCO-CYTOSOL"] +"G7713-MONOMER" "sulfurtransferase complex subunit TusC" ["YheM", "TusC"] "MKRIAFVFSTAPHGTAAGREGLDALLATSALTDDLAVFFIADGVFQLLPGQKPDAVLARDYIATFKLLGLYDIEQCWVCAASLRERGLDPQTPFVVEATPLEADALRRELANYDVILRF" [] ["CCO-CYTOSOL"] +"G7714-MONOMER" "sulfurtransferase complex subunit TusD" ["YheN", "TusD"] "MRFAIVVTGPAYGTQQASSAFQFAQALIADGHELSSVFFYREGVYNANQLTSPASDEFDLVRAWQQLNAQHGVALNICVAAALRRGVVDETEAGRLGLASSNLQQGFTLSGLGALAEASLTCDRVVQF" [] ["CCO-CYTOSOL"] +"G7715-MONOMER" "DNA-binding transcriptional regulator YheO" ["YheO"] "MSRSLLTNETSELDLLDQRPFDQTDFDILKSYEAVVDGLAMLIGSHCEIVLHSLQDLKCSAIRIANGEHTGRKIGSPITDLALRMLHDMTGADSSVSKCYFTRAKSGVLMKSLTIAIRNREQRVIGLLCINMNLDVPFSQIMSTFVPPETPDVGSSVNFASSVEDLVTQTLEFTIEEVNADRNVSNNAKNRQIVLNLYEKGIFDIKDAINQVADRLNISKHTVYLYIRQFKSGDFQGQDK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7716-MONOMER" "peptidyl-prolyl cis-trans isomerase FkpA" ["YzzS", "FkpA"] "MKSLFKVTLLATTMAVALHAPITFAAEAAKPATAADSKAAFKNDDQKSAYALGASLGRYMENSLKEQEKLGIKLDKDQLIAGVQDAFADKSKLSDQEIEQTLQAFEARVKSSAQAKMEKDAADNEAKGKEYREKFAKEKGVKTSSTGLVYQVVEAGKGEAPKDSDTVVVNYKGTLIDGKEFDNSYTRGEPLSFRLDGVIPGWTEGLKNIKKGGKIKLVIPPELAYGKAGVPGIPPNSTLVFDVELLDVKPAPKADAKPEADAKAADSAKK" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"G7717-MONOMER" "glutathione-regulated potassium-efflux system ancillary protein KefG" ["KefG", "YheR", "protein required for KefB activity"] "MMSQPAKVLLLYAHPESQDSVANRVLLKPATQLSNVTVHDLYAHYPDFFIDIPREQALLREHEVIVFQHPLYTYSCPALLKEWLDRVLSRGFASGPGGNQLAGKYWRSVITTGEPESAYRYDALNRYPMSDVLRPFELAAGMCRMHWLSPIIIYWARRQSAQELASHARAYGDWLANPLSPGGR" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG", "CCO-CYTOSOL"] +"G7718-MONOMER" "putative hydrolase YheT" ["YheT"] "MAQITTTDANEFSSSAEFIPMRGFSNCHLQTMLPRLFRRQVKFTPYWQRLELPDGDFVDLAWSENPAQAQHKPRLVVFHGLEGSLNSPYAHGLVEAAQKRGWLGVVMHFRGCSGEPNRMHRIYHSGETEDASWFLRWLQREFGHAPTAAVGYSLGGNMLACLLAKEGNDLPVDAAVIVSAPFMLEACSYHMEKGFSRVYQRYLLNLLKANAARKLAAYPGTLPINLAQLKSVRRIREFDDLITARIHGYADAIDYYRQCSAMPMLNRIAKPTLIIHAKDDPFMDHQVIPKPESLPPQVEYQLTEHGGHVGFIGGTLLHPQMWLESRIPDWLTTYLEAKSC" [] ["CCO-CYTOSOL"] +"G7719-MONOMER" "PF06794 family protein YheU" ["YheU", "UPF0270 family protein YheU"] "MLIPWQDLSPETLENLIESFVLREGTDYGEHERTLEQKVADVKRQLQCGEAVLVWSELHETVNIMPRSQFRE" [] ["CCO-CYTOSOL"] +"G7721-MONOMER" "putative transporter YhfK" ["YhfK"] "MFPPMWRRLIYHPDINYALRQTLVLCLPVAVGLMLGELRFGLLFSLVPACCNIAGLDTPHKRFFKRLIIGASLFATCSLLTQLLLAKDVPLPFLLTGLTLVLGVTAELGPLHAKLLPASLLAAIFTLSLAGYMPVWEPLLIYALGTLWYGLFNWFWFWIWREQPLRESLSLLYRELADYCEAKYSLLTQHTDPEKALPPLLVRQQKAVDLITQCYQQMHMLSAQNNTDYKRMLRIFQEALDLQEHISVSLHQPEEVQKLVERSHAEEVIRWNAQTVAARLRVLADDILYHRLPTRFTMEKQIGALEKIARQHPDNPVGQFCYWHFSRIARVLRTQKPLYARDLLADKQRRMPLLPALKSYLSLKSPALRNAGRLSVMLSVASLMGTALHLPKSYWILMTVLLVTQNGYGATRLRIVNRSVGTVVGLIIAGVALHFKIPEGYTLTLMLITTLASYLILRKNYGWATVGFTITAVYTLQLLWLNGEQYILPRLIDTIIGCLIAFGGTVWLWPQWQSGLLRKNAHDALEAYQEAIRLILSEDPQPTPLAWQRMRVNQAHNTLYNSLNQAMQEPAFNSHYLADMKLWVTHSQFIVEHINAMTTLAREHRALPPELAQEYLQSCEIAIQRCQQRLEYDEPGSSGDANIMDAPEMQPHEGAAGTLEQHLQRVIGHLNTMHTISSMAWRQRPHHGIWLSRKLRDSKA" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7722-MONOMER" "DUF4223 domain-containing lipoprotein YhfL" ["YhfL"] "MNKFIKVALVGAVLATLTACTGHIENRDKNCSYDYLLHPAISISKIIGGCGPTAQ" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7723-MONOMER" "fructoselysine 6-phosphate deglycase" ["YhfN", "FrlB"] "MLDIDKSTVDFLVTENMVQEVEKVLSHDVPLVHAIVEEMVKRDIDRIYFVACGSPLNAAQTAKHLADRFSDLQVYAISGWEFCDNTPYRLDDRCAVIGVSDYGKTEEVIKALELGRACGALTAAFTKRADSPITSAAEFSIDYQADCIWEIHLLLCYSVVLEMITRLAPNAEIGKIKNDLKQLPNALGHLVRTWEEKGRQLGELASQWPMIYTVAAGPLRPLGYKEGIVTLMEFTWTHGCVIESGEFRHGPLEIVEPGVPFLFLLGNDESRHTTERAINFVKQRTDNVIVIDYAEISQGLHPWLAPFLMFVPMEWLCYYLSIYKDHNPDERRYYGGLVEY" [] ["CCO-CYTOSOL"] +"G7724-MONOMER" "fructoselysine 3-epimerase" ["YhfP", "YhfO", "FrlC"] "MKTGMFTCGHQRLPIEHAFRDASELGYDGIEIWGGRPHAFAPDLKAGGIKQIKALAQTYQMPIIGYTPETNGYPYNMMLGDEHMRRESLDMIKLAMDMAKEMNAGYTLISAAHAGYLTPPNVIWGRLAENLSELCEYAENIGMDLILEPLTPYESNVVCNANDVLHALALVPSPRLFSMVDICAPYVQAEPVMSYFDKLGDKLRHLHIVDSDGASDTHYIPGEGKMPLRELMRDIIERGYEGYCTVELVTMYMNEPRLYARQALERFRALLPEDER" [] ["CCO-CYTOSOL"] +"G7726-MONOMER" "fructoselysine 6-kinase" ["YhfQ", "FrlD"] "MKTLATIGDNCVDIYPQLNKAFSGGNAVNVAVYCTRYGIQPGCITWVGDDDYGTKLKQDLARMGVDISHVHTKHGVTAQTQVELHDNDRVFGDYTEGVMADFALSEEDYAWLAQYDIVHAAIWGHAEDAFPQLHAAGKLTAFDFSDKWDSPLWQTLVPHLDFAFASAPQEDETLRLKMKAIVARGAGTVIVTLGENGSIAWDGAQFWRQAPEPVTVIDTMGAGDSFIAGFLCGWSAGMTLPQAIAQGTACAAKTIQYHGAW" [] ["CCO-CYTOSOL"] +"G7727-MONOMER" "putative DNA-binding transcriptional regulator FrlR" ["YhfR", "FrlR"] "MSATDRYSHQLLYATVRQRLLDDIAQGVYQAGQQIPTENELCTQYNVSRITIRKAISDLVADGVLIRWQGKGTFVQSQKVENALLTVSGFTDFGVSQGKATKEKVIEQERVSAAPFCEKLNIPGNSEVFHLCRVMYLDKEPLFIDSSWIPLSRYPDFDEIYVEGSSTYQLFQERFDTRVVSDKKTIDIFAATRPQAKWLKCELGEPLFRISKIAFDQNDKPVHVSELFCRANRITLTIDNKRH" [] ["CCO-CYTOSOL"] +"G7728-MONOMER" "putative aminotransferase YhfS" ["YhfS"] "MKTFPLQSLTIIEAQQKQFALVDSICRHFPGSEFLTGGDLGLTPGLNQPRVTQRVEQVLADAFHAQAAALVQGAGTGAIRAGLAALLKPGQRLLVHDAPVYPTTRVIIEQMGLTLITVDFNDLSALKQVVDEQQPDAALVQHTRQQPQDSYVLADVLATLRAAGVPALTDDNYAVMKVARIGCECGANVSTFSCFKLFGPEGVGAVVGDADVINRIRATLYSGGSQIQGAQALEVLRGLVFAPVMHAVQAGVSERLLALLNGGAVPEVKSAVIANAQSKVLIVEFHQPIAARVLEEAQKRGALPYPVGAESKYEIPPLFYRLSGTFRQANPQSEHCAIRINPNRSGEETVLRILRESIASI" [] ["CCO-CYTOSOL"] +"G7729-MONOMER" "uncharacterized protein YhfT" ["YhfT"] "MDLYIQIIVVACLTGMTSLLAHRSAAVFHDGIRPILPQLIEGYMNRREAGSIAFGLSIGFVASVGISFTLKTGLLNAWLLFLPTDILGVLAINSLMAFGLGAIWGVLILTCLLPVNQLLTALPVDVLGSLGELSSPVVSAFALFPLVAIFYQFGWKQSLIAAVVVLMTRVVVVRYFPHLNPESIEIFIGMVMLLGIAITHDLRHRDENDIDASGLSVFEERTSRIIKNLPYIAIVGALIAAVASMKIFAGSEVSIFTLEKAYSAGVTPEQSQTLINQAALAEFMRGLGFVPLIATTALATGVYAVAGFTFVYAVDYLSPNPMVAAVLGAVVISAEVLLLRSIGKWLGRYPSVRNASDNIRNAMNMLMEVALLVGSIFAAIKMAGYTGFSIAVAIYFLNESLGRPVQKMAAPVVAVMITGILLNVLYWLGLFVPA" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7730-MONOMER" "DUF2620 domain-containing protein YhfU" ["YhfU"] "MKKIGVAGLQREQIKKTIEATAPGCFEVFIHNDMEAAMKVKSGQLDYYIGACNTGAGAALSIAIAVIGYNKSCTIAKPGIKAKDEHIAKMIAEGKVAFGLSVEHVEHAIPMLINHLK" [] ["CCO-MEMBRANE"] +"G7731-MONOMER" "putative hydrolase" ["YhfV", "Php"] "MSFDPTGYTLAHEHLHIDLSGFKNNVDCRLDQYAFICQEMNDLMTRGVRNVIEMTNRYMGRNAQFMLDVMRETGINVVACTGYYQDAFFPEHVATRSVQELAQEMVDEIEQGIDGTELKAGIIAEIGTSEGKITPLEEKVFIAAALAHNQTGRPISTHTSFSTMGLEQLALLQAHGVDLSRVTVGHCDLKDNLDNILKMIDLGAYVQFDTIGKNSYYPDEKRIAMLHALRDRGLLNRVMLSMDITRRSHLKANGGYGYDYLLTTFIPQLRQSGFSQADVDVMLRENPSQFFQ" [] ["CCO-PM-BAC-NEG", "CCO-CYTOSOL"] +"G7732-MONOMER" "putative mutase YhfW" ["YhfW"] "MARFVVLVIDSFGVGAMKDVTLVRPQDAGANTCGHILSQLPHLQLPTLETLGLINALGYAPGDMQPSDSATWGVAELQHEGGDTFMGHQEILGTRPLPPLRMPFRDVIDRVEQALVSAGWQVERRGDDLQFLWVNQAVAIGDNLEADLGQVYNITANLSVISFDDAIKIGRIVREQVQVGRVITFGGLLTDSQRILDAAESKEGRFIGINAPRSGAYDNGFQVVHMGYGVDEKVQVPQKLYEAGVPTVLVGKVADIVNNPYGVSWQNLVDSQRIMDITLNEFNTHPTAFICTNIQETDLAGHAEDVARYAERLQVVDRNLARLVEAMQPDDCLVVMADHGNDPTIGHSHHTREVVPVLVYQQGMIATQLGVRTTLSDVGATVCEFFRAPPPQNGRSFLSSLRFAGDTL" [] ["CCO-CYTOSOL"] +"G7733-MONOMER" "putative PLP-binding protein YhfX" ["YhfX"] "MFVEALKRQNPALISAALSLWQQGKIAPDSWVIDVDQILENGKRLIETARLYGIELYLMTKQFGRNPWLAEKLLALGYSGIVAVDYKEARVMRRAGLPVAHQGHLVQIPCHQVADAVEQGTDVITVFTLDKAREVSAAAVKAGRIQSVLLKVYSDDDFLYPGQESGFALKVLPEIVAEIQNLPGLHLAGLTHFPCLLWDEAVGKVLPTPNLHTLIQARDQLAKSGIALEQLNAPSATSCTSLPLLAQYGVTHAEPGHALTGTIPANQQGDQPERIAMLWLSEISHHFRGDSYCYGGGYYRRGHAQHALVFTPENQKITETNLKTVDDSSIDYTLPLAGEFPVSSAVVLCFRTQIFVTRSDVVLVSGIHRGEPEIVGRYDSLGNSLGA" [] ["CCO-CYTOSOL"] +"G7734-MONOMER" "PRD domain-containing protein YhfY" ["YhfY"] "METRLNLLCEAGVIDKDICKGMMQVVNVLETECHLPVRSEQGTMAMTHMASALMRSRRGEEIEPLDNELLAELAQSSHWQAVVQLHQVLLKEFALEVNPCEEGYLLANLYGLWMAANEEV" [] ["CCO-CYTOSOL"] +"G7735-MONOMER" "putative DNA-binding transcriptional regulator YhfZ" ["YhfZ"] "MRRTFIKKEGVVITTLARYLLGEKCGNRLKTIDELANECRSSVGLTQAALKTLESSGAIRIERRGRNGSYLVEMDNKALLTHVDINNVVCAMPLPYTRLYEGLASGLKAQFDGIPFYYAHMRGADIRVECLLNGVYDMAVVSRLAAESYLTQKGLCLALELGPHTYVGEHQLICRKGESANVKRVGLDNRSADQKIMTDVFFGGSDVERVDLSYHESLQRIVKGDVDAVIWNVVAENELTMLGLEATPLTDDPRFLQATEAVVLTRVDDYPMQQLLRAVVDKHALLAHQQRVVSGEQEPSY" [] ["CCO-CYTOSOL"] +"G7736-MONOMER" "DNA utilization protein HofP" ["HofP", "YrfA", "protein involved in utilization of DNA as a carbon source"] "MRVKRWLLAGIALCLLTGMRDPFKPPEDLCRISELSQWRYQGMVGRGERIIGVIKDGQKKWRRVQQNDVLENGWTILQLTPDVLTLGTGTNCEPPQWLWQRQGDTNEAMDSRTTVDADTRRTGGKAAKSDADGG" [] ["CCO-CYTOSOL"] +"G7737-MONOMER" "DNA utilization protein HofO" ["HofO", "YrfB", "protein involved in utilization of DNA as a carbon source"] "MNMFFDWWFATSPRLRQLCWAFWLLMLVTLIFLSSTHHEERDALIRLRASHHQQWAALYRLVDTAPFSEEKTLPFSPLDFQLSGAQLVSWHPSAQGGELALKTLWEAVPSAFTRLAERNVSVSRFSLSVEGDDLLFTLQLETPHEG" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7738-MONOMER" "DNA utilization protein HofN" ["HofN", "YrfC", "protein involved in utilization of DNA as a carbon source"] "MNPPINFLPWRQQRRTAFLRFWLLMFVAPLLLAVGITLILRLTGSAEARIDAVLLQAEQQLARSLQITKPRLLEQQQLREQRSQRQRQRQFTRDWQSALEALAALLPEHAWLTTISWQQGTLEIKGLTTSITALNALETSLRQDASFHLNQRGATQQDAQGRWQFEYQLTRKVSDEHVL" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7739-MONOMER" "DNA utilization protein HofM" ["HofM", "YrfD", "protein involved in utilization of DNA as a carbon source"] "MAFKIWQIGLHLQQQEAVAVAIVRGAKECFLQRWWRLPLENDIIKDGRIVDAQQLAKTLLPWSRELPQRHHIMLAFPASRTLQRSFPRPSMSLGEREQTAWLSGTMARELDMDPDSLRFDYSEDSLSPAYNVTAAQSKELATLLTLAERLRVHVSAITPDASALQRFLPFLPSHQQCLAWRDNEQWLWATRYSWGRKLAVGMTSAKELAAALSVDPESVAICGEGGFDPWEAVSVRQPPLPPPGGDFAIALGLALGKAY" [] ["CCO-CYTOSOL"] +"G7740-MONOMER" "ADP-sugar diphosphatase NudE" ["NudE", "YrfE", "ADP-sugar pyrophosphorylase"] "MSKSLQKPTILNVETVARSRLFTVESVDLEFSNGVRRVYERMRPTNREAVMIVPIVDDHLILIREYAVGTESYELGFSKGLIDPGESVYEAANRELKEEVGFGANDLTFLKKLSMAPSYFSSKMNIVVAQDLYPESLEGDEPEPLPQVRWPLAHMMDLLEDPDFNEARNVSALFLVREWLKGQGRV" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7741-MONOMER" "inner membrane protein IgaA" ["YrfF", "IgaA"] "MSTIVIFLAALLACSLLAGWLIKVRSRRRQLPWTNAFADAQTRKLTPEERSAVENYLESLTQVLQVPGPTGASAAPISLALNAESNNVMMLTHAITRYGISTDDPNKWRYYLDSVEVHLPPFWEQYINDENTVELIHTDSLPLVISLNGHTLQEYMQETRSYALQPVPSTQASIRGEESEQIELLNIRKETHEEYALSRPRGLREALLIVASFLMFFFCLITPDVFVPWLAGGALLLLGAGLWGLFAPPAKSSLREIHCLRGTPRRWGLFGENDQEQINNISLGIIDLVYPAHWQPYIAQDLGQQTDIDIYLDRHVVRQGRYLSLHDEVKNFPLQHWLRSTIIAAGSLLVLFMLLFWIPLDMPLKFTLSWMKGAQTIEATSVKQLADAGVRVGDTLRISGTGMCNIRTSGTWSAKTNSPFLPFDCSQIIWNDARSLPLPESELVNKATALTEAVNRQLHPKPEDESRVSASLRSAIQKSGMVLLDDFGDIVLKTADLCSAKDDCVRLKNALVNLGNSKDWDALVKRANAGKLDGVNVLLRPVSAESLDNLVATSTAPFITHETARAAQSLNSPAPGGFLIVSDEGSDFVDQPWPSASLYDYPPQEQWNAFQKLAQMLMHTPFNAEGIVTKIFTDANGTQHIGLHPIPDRSGLWRYLSTTLLLLTMLGSAIYNGVQAWRRYQRHRTRMMEIQAYYESCLNPQLITPSESLIE" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7742-MONOMER" "purine nucleotidase" ["YrfG"] "MHINIAWQDVDTVLLDMDGTLLDLAFDNYFWQKLVPETWGAKNGVTPQEAMEYMRQQYHDVQHTLNWYCLDYWSEQLGLDICAMTTEMGPRAVLREDTIPFLEALKASGKQRILLTNAHPHNLAVKLEHTGLDAHLDLLLSTHTFGYPKEDQRLWHAVAEATGLKAERTLFIDDSEAILDAAAQFGIRYCLGVTNPDSGIAEKQYQRHPSLNDYRRLIPSLM" [] ["CCO-CYTOSOL"] +"G7743-MONOMER" "heat shock protein Hsp15" ["YrfH", "HslR", "Hsp15", "heat shock protein Hsp15 involved in ribosome recycling"] "MKEKPAVEVRLDKWLWAARFYKTRALAREMIEGGKVHYNGQRSKPSKIVELNATLTLRQGNDERTVIVKAITEQRRPASEAALLYEETAESVEKREKMALARKLNALTMPHPDRRPDKKERRDLLRFKHGDSE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7744-MONOMER" "molecular chaperone Hsp33" ["YrfI", "HslO", "Hsp33"] "MPQHDQLHRYLFENFAVRGELVTVSETLQQILENHDYPQPVKNVLAELLVATSLLTATLKFDGDITVQLQGDGPMNLAVINGNNNQQMRGVARVQGEIPENADLKTLVGNGYVVITITPSEGERYQGVVGLEGDTLAACLEDYFMRSEQLPTRLFIRTGDVDGKPAAGGMLLQVMPAQNAQQDDFDHLATLTETIKTEELLTLPANEVLWRLYHEEEVTVYDPQDVEFKCTCSRERCADALKTLPDEEVDSILAEDGEIDMHCDYCGNHYLFNAMDIAEIRNNASPADPQVH" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7745-MONOMER" "putative transport protein YhgE" ["YhgE"] "MDNVELSPATRWGMIATGLLQGLVCYLLIAWLSGKNHSWIVYGVPATVAFSSVLLFSVISFKQKRLWGWLALVFIATLGMSGWLKWQTDGMNPWRAEKALWDFGCYLLLMAMLLLPWIQQSLRIRNDSSRYRYFYQSVWHNVLILLVIFLANGLTWLVLLLWSELFKLVGITFFNTLFFATDWFIYLTLGLVTALAVILARTQSRLIDSIQKLFTLIATGLLPLVSLLTLMFIITLPFTGLSAISRHISAAGLLLTLAFLQLILMAIVRDPQKASLPWTGPLRCLIKTALLVAPLYVFVAAWALWLRVAQYGWTVDRLQGVLAVLVLLVWSLGYFVSIVWRKGQNPVVLQGKVNLAVSLLVLVILVLLNSPVLDSMRISVNSHMARYQSGKNTSDQVTIYMLEQSGRYGRAALESLKSDAGFMKDPKRARDLLMALDGEQHLQQQVSEKVLADNVLIAPGSVKPDATFWSALIQDRYNVMTCIEKDACVLVEQDLNSDGQAERILFAFNDDRVIVYGFDSDRKEWDALDMSLLPNEITKEKLLTAAKDGKLGTKPKAWRDLVVDGERLNVNLNE" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7746-MONOMER" "putative RNA-binding protein YhgF" ["YhgF"] "MMNDSFCRIIAGEIQARPEQVDAAVRLLDEGNTVPFIARYRKEITGGLDDTQLRNLETRLSYLRELEERRQAILKSISEQGKLTDDLAKAINATLSKTELEDLYLPYKPKRRTRGQIAIEAGLEPLADLLWSDPSHTPEVAAAQYVYADKGVADTKAALDGARYILMERFAEDAALLAKVRDYLWKNAHLVSTVVSGKEEEGAKFRDYFDHHEPLSTVPSHRALAMFRGRNEGVLQLSLNADPQFDEPPKESYCEQIIMDHLGLRLNNAPADSWRKGVVSWTWRIKVLMHLETELMGTVRERAEDEAINVFARNLHDLLMAAPAGLRATMGLDPGLRTGVKVAVVDATGKLVATDTIYPHTGQAAKAAMTVAALCEKHNVELVAIGNGTASRETERFYLDVQKQFPKVTAQKVIVSEAGASVYSASELAAQEFPDLDVSLRGAVSIARRLQDPLAELVKIDPKSIGVGQYQHDVSQTQLARKLDAVVEDCVNAVGVDLNTASVPLLTRVAGLTRMMAQNIVAWRDENGQFQNRQQLLKVSRLGPKAFEQCAGFLRINHGDNPLDASTVHPEAYPVVERILAATQQALKDLMGNSSELRNLKASDFTDEKFGVPTVTDIIKELEKPGRDPRPEFKTAQFADGVETMNDLQPGMILEGAVTNVTNFGAFVDIGVHQDGLVHISSLSNKFVEDPHTVVKAGDIVKVKVLEVDLQRKRIALTMRLDEQPGETNARRGGGNERPQNNRPAAKPRGREAQPAGNSAMMDALAAAMGKKR" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7747-MONOMER" "DNA utilization protein YhgH" ["YhgH", "GntX", "protein involved in utilization of DNA as a carbon source"] "MLTVPGLCWLCRMPLALGHWGICSVCSRATRTDKTLCPQCGLPATHSHLPCGRCLQKPPPWQRLVTVADYAPPLSPLIHQLKFSRRSEIASALSRLLLLEVLHARRTTGLQLPDRIVSVPLWQRRHWRRGFNQSDLLCQPLSRWLHCQWDSEAVTRTRATATQHFLSARLRKRNLKNAFRLELPVQGRHMVIVDDVVTTGSTVAEIAQLLLRNGAAAVQVWCLCRTL" [] ["CCO-CYTOSOL"] +"G7748-MONOMER" "iron-sulfur cluster carrier protein NfuA" ["YhgI", "GntY", "NfuA", "iron-sulfur cluster insertion protein NfuA"] "MIRISDAAQAHFAKLLANQEEGTQIRVFVINPGTPNAECGVSYCPPDAVEATDTALKFDLLTAYVDELSAPYLEDAEIDFVTDQLGSQLTLKAPNAKMRKVADDAPLMERVEYMLQSQINPQLAGHGGRVSLMEITEDGYAILQFGGGCNGCSMVDVTLKEGIEKQLLNEFPELKGVRDLTEHQRGEHSYY" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7750-MONOMER" "RNA 3'-terminal phosphate cyclase" ["YhgK", "YhgJ", "RtcA"] "MKRMIALDGAQGEGGGQILRSALSLSMITGQPFTITSIRAGRAKPGLLRQHLTAVKAATEICGATVEGAELGSQRLLFRPGTVRGGDYRFAIGSAGSCTLVLQTVLPALWFADGPSRVEVSGGTDNPSAPPADFIRRVLEPLLAKIGIHQQTTLLRHGFYPAGGGVVATEVSPVASFNTLQLGERGNIVQMRGEVLLAGVPRHVAEREIATLAGSFSLHEQNIHNLPRDQGPGNTVSLEVESENITERFFVVGEKRVSAEVVAAQLVKEVKRYLASTAAVGEYLADQLVLPMALAGAGEFTVAHPSCHLLTNIAVVERFLPVRFSLIETDGVTRVSIE" [] ["CCO-CYTOSOL"] +"G7751-MONOMER" "RNA-splicing ligase" ["YhgL", "RtcB", "RNA ligase"] "MNYELLTTENAPVKMWTKGVPVEADARQQLINTAKMPFIFKHIAVMPDVHLGKGSTIGSVIPTKGAIIPAAVGVDIGCGMNALRTALTAEDLPENLAELRQAIETAVPHGRTTGRCKRDKGAWENPPVNVDAKWAELEAGYQWLTQKYPRFLNTNNYKHLGTLGTGNHFIEICLDESDQVWIMLHSGSRGIGNAIGTYFIDLAQKEMQETLETLPSRDLAYFMEGTEYFDDYLKAVAWAQLFASLNRDAMMENVVTALQSITQKTVRQPQTLAMEEINCHHNYVQKEQHFGEEIYVTRKGAVSARAGQYGIIPGSMGAKSFIVRGLGNEESFCSCSHGAGRVMSRTKAKKLFSVEDQIRATAHVECRKDAEVIDEIPMAYKDIDAVMAAQSDLVEVIYTLRQVVCVKG" [] ["CCO-CYTOSOL"] +"G7752-MONOMER" "putative uncharacterized protein YzgL" ["YzgL"] "MQNRKWILTSLVMTFFGIPILAQFLAVVIAMLGVGLAGIIEVCNILITPTIYLLLKIFMLALGALMLFFSGRVGNVPEFCYVGYDGVGFAVIP" [] ["CCO-MEMBRANE"] +"G7753-MONOMER" "MarC family putative inner membrane protein YhgN" ["YhgN"] "MNEIISAAVLLILIMDPLGNLPIFMSVLKHTEPKRRRAIMVRELLIALLVMLVFLFAGEKILAFLSLRAETVSISGGIILFLIAIKMIFPSASGNSSGLPAGEEPFIVPLAIPLVAGPTILATLMLLSHQYPNQMGHLVIALLLAWGGTFVILLQSSLFLRLLGEKGVNALERLMGLILVMMATQMFLDGIRMWMKG" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7756-MONOMER" "quercetin 2,3-dioxygenase" ["YhhW", "pirin-like protein"] "MIYLRKANERGHANHGWLDSWHTFSFANYYDPNFMGFSALRVINDDVIEAGQGFGTHPHKDMEILTYVLEGTVEHQDSMGNKEQVPAGEFQIMSAGTGIRHSEYNPSSTERLHLYQIWIMPEENGITPRYEQRRFDAVQGKQLVLSPDARDGSLKVHQDMELYRWALLKDEQSVHQIAAERRVWIQVVKGNVTINGVKASTSDGLAIWDEQAISIHADSDSEVLLFDLPPV" [] ["CCO-CYTOSOL"] +"G7757-MONOMER" "putative oxidoreductase YhhX" ["YhhX", "putative oxidoreductase with NAD(P)-binding Rossmann-fold domain"] "MVINCAFIGFGKSTTRYHLPYVLNRKDSWHVAHIFRRHAKPEEQAPIYSHIHFTSDLDEVLNDPDVKLVVVCTHADSHFEYAKRALEAGKNVLVEKPFTPTLAQAKELFALAKSKGLTVTPYQNRRFDSCFLTAKKAIESGKLGEIVEVESHFDYYRPVAETKPGLPQDGAFYGLGVHTMDQIISLFGRPDHVAYDIRSLRNKANPDDTFEAQLFYGDLKAIVKTSHLVKIDYPKFIVHGKKGSFIKYGIDQQETSLKANIMPGEPGFAADDSVGVLEYVNDEGVTVREEMKPEMGDYGRVYDALYQTITHGAPNYVKESEVLTNLEILERGFEQASPSTVTLAK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7758-MONOMER" "N-acetyltransferase YhhY" ["YhhY"] "MSEIVIRHAETRDYEAIRQIHAQPEVYCNTLQVPHPSDHMWQERLADRPGIKQLVACIDGDVVGHLTIDVQQRPRRSHVADFGICVDSRWKNRGVASALMREMIEMCDNWLRVDRIELTVFVDNAPAIKVYKKYGFEIEGTGKKYALRNGEYVDAYYMARVK" [] ["CCO-CYTOSOL"] +"G7759-MONOMER" "putative endonuclease YhhZ" ["YhhZ"] "MSNIVYLTVTGEQQGSISAGCGTSESTGNRWQSGHEDEIFTFSLLNNINNTGLGSQFHGITFCKLIDKSTPLFINSINNNEQLFMGFDFYRINRFGRLEKYYYIQLRGAFLSAIHHQIIENQLDTETITISYEFILCQHLIANTEFSYLALPENYNRLFLPNSKNQTNNRFKTLNSKAIGRLLAAGGVYNGNIEGFRDTAEKLGGDAIKGYDQILNEKTAGIAIATASILLTKRSNVDTYTEINSYLGKLRGQQKLLDGIDIIEIIYIKRPSKDLANLRKEFNKTVRKNFLIKLAKTSEASGRFNAEDLLRMRKGNVPLNYNVHHKLSLDDGGTNDFENLVLIENEPYHKVFTNMQSRIAKGILVGESKITPWAIPSGSIYPPMKNIMDHTK" [] ["CCO-EXTRACELLULAR"] +"G7760-MONOMER" "putative uncharacterized protein YrhA" ["YrhA"] "MMTKTQINKLIKMMNDLDYPFEAPLKESFIESIIQIEFNSNSTNCLEKLCNEVSILFKNQPDYLTFLRAMDGFEVNGLRLFSLSIPEPSVKNLFAVNEFYRNNDDFINPDLQERLVIGDYSISIFTYDIKSNFFEIRDNIGTENIFSSFSDFSSFLNEIMDSCS" [] ["CCO-MEMBRANE"] +"G7762-MONOMER" "IS1 protein InsB" ["InsB1"] "MPGNSPHYGRWPQHDFTSLKKLRPQSVTSRIQPGSDVIVCAEMDEQWGYVGAKSRQRWLFYAYDSLRKTVVAHVFGERTMATLGRLMSLLSPFDVVIWMTDGWPLYESRLKGKLHVISKRYTQRIERHNLNLRQHLARLGRKSLSFSKSVELHDKVIGHYLNIKHYQ" [] ["CCO-CYTOSOL"] +"G7763-MONOMER" "putative heat shock chaperone" ["YrhB", "putative protein with chaperone-like activity"] "MITYHDAFAKANHYLDDADLPVVITLHGRFSQGWYFCFEAREFLETGDEAARLAGNAPFIIDKDSGEIHSLGTAKPLEEYLQDYEIKKATFGLP" [] ["CCO-CYTOSOL"] +"G7767-MONOMER" "periplasmic bacteriophage sensitivity protein DcrB" ["YhhR", "DcrB", "periplasmic protein involved in bacteriophage sensitivity"] "MRNLVKYVGIGLLVMGLAACDDKDTNATAQGSVAESNATGNPVNLLDGKLSFSLPADMTDQSGKLGTQANNMHVWSDATGQKAVIVIMGDDPKEDLAVLAKRLEDQQRSRDPQLQVVTNKAIELKGHKMQQLDSIISAKGQTAYSSVILGNVGNQLLTMQITLPADDQQKAQTTAENIINTLVIQ" ["CCO-PERI-BAC"] ["CCO-MEMBRANE", "CCO-PERI-BAC"] +"G7769-MONOMER" "CP4-6 prophage; IS5 transposase and trans-activator" ["Trs5-1", "Yi52_1", "InsH1"] "MSHQLTFADSEFSSKRRQTRKEIFLSRMEQILPWQNMVEVIEPFYPKAGNGRRPYPLETMLRIHCMQHWYNLSDGAMEDALYEIASMRLFARLSLDSALPDRTTIMNFRHLLEQHQLARQLFKTINRWLAEAGVMMTQGTLVDATIIEAPSSTKNKEQQRDPEMHQTKKGNQWHFGMKAHIGVDAKSGLTHSLVTTAANEHDLNQLGNLLHGEEQFVSADAGYQGAPQREELAEVDVDWLIAERPGKVRTLKQHPRKNKTAINIEYMKASIRARVEHPFRIIKRQFGFVKARYKGLLKNDNQLAMLFTLANLFRADQMIRQWERSH" [] ["CCO-CYTOSOL"] +"G7776-MONOMER" "insertion element IS150 protein InsA" ["InsJ", "IS150 protein InsA"] "MSKPKYPFEKRLEVVNHYFTTDDGYRIISARFGVPRTQVRTWVALYEKHGEKGLIPKPKGVSADPELRIKVVKAVIEQHMSLNQAAAHFMLAGSGSVARWLKVYEERGEAGLRALKIGTKRNIAISVDPEKAASALELSKDRRIEDLERQVRFLETRLMYLKKLKALAHPTKK" [] ["CCO-CYTOSOL"] +"G7777-MONOMER" "IS150 conserved protein InsB" ["InsK", "DinS"] "MKVLNELRQFYPLDELLRAAEIPRSTFYYHLKALSKPDKYADVKKRISEIYHENRGRYGYRRVTLSLHREGKQINHKAVQRLMGTLSLKAAIKVKRYRSYRGEVGQTAPNVLQRDFKATRPNEKWVTDVTEFAVNGRKLYLSPVIDLFNNEVISYSLSERPVMNMVENMLDQAFKKLNPHEHPVLHSDQGWQYRMRRYQNILKEHGIKQSMSRKGNCLDNAVVECFFGTLKSECFYLDEFSNISELKDAVTEYIEYYNSRRISLKLKGLTPIEYRNQTYMPRV" [] ["CCO-CYTOSOL"] +"G7790-MONOMER" "DNA-binding transcriptional regulator DgoR" ["DgoR", "YidW"] "MTLNKTDRIVITLGKQIVHGKYVPGSPLPAEAELCEEFATSRNIIREVFRSLMAKRLIEMKRYRGAFVAPRNQWNYLDTDVLQWVLENDYDPRLISAMSEVRNLVEPAIARWAAERATSSDLAQIESALNEMIANNQDREAFNEADIRYHEAVLQSVHNPVLQQLSIAISSLQRAVFERTWMGDEANMPQTLQEHKALFDAIRHQDGDAAEQAALTMIASSTRRLKEIT" [] ["CCO-CYTOSOL"] +"G7798-MONOMER" "putative toxin YifN" ["YifO", "YifN"] "MAINFSPKVGEILECNFGNYPVSQNGPFSTTYYDGRIPPEMIKNRLVVVLNGKINGNACIVVPLSTTRDQTS*NVECMLK*PVMLSMTCNSLISRFVGPKPTWYNKSVETD*TEQGLTEGILINVCHMSWLQTYRGRSSSQSMPYRS*" [] [] +"G7800-MONOMER" "TDP-N-acetylfucosamine:lipid II N-acetylfucosaminyltransferase" ["WecF", "Rff", "RffT", "YifM"] "MTVLIHVLGSDIPHHNRTVLRFFNDALAATSEHAREFMVVGKDDGLSDSCPALSVQFFPGKKSLAEAVIAKAKANRQQRFFFHGQFNPTLWLALLSGGIKPSQFFWHIWGADLYELSSGLRYKLFYPLRRLAQKRVGCVFATRGDLSFFAKTHPKVRGELLFFPTRMDPSLNTMANDRQREGKMTILVGNSGDRSNEHIAALRAVHQQFGDTVKVVVPMGYPPNNEAYIEEVRQAGLELFSEENLQILSEKLEFDAYLALLRQCDLGYFIFARQQGIGTLCLLIQAGIPCVLNRENPFWQDMTEQHLPVLFTTDDLNEDIVREAQRQLASVDKNTIAFFSPNYLQGWQRALAIAAREVA" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"G7802-MONOMER" "protein YzcX" ["YzcX"] "MVAALFGCQPYLVQRLLAVDNDFAAILKGNGQYAAVDFAVDIAVAIPVVQAFFNGQPELISQAMKFTVVHCCILFLSDGGSIAAWGQGFKVCTSAAAFRHDSSVTGIMMSLCSERFVSSLGRSYTTSFPVSGKHYDQVYRASILTLTELKKTTNKPHCDSA" ["CCO-OUTER-MEM"] [] +"G7804-MONOMER" "putative dienelactone hydrolase" ["YsgA"] "MATTQQSGFAPAASPLASTIVQTPDDAIVAGFTSIPSQGDNMPAYHARPKQSDGPLPVVIVVQEIFGVHEHIRDICRRLALEGYLAIAPELYFREGDPNDFADIPTLLSGLVAKVPDSQVLADLDHVASWASRNGGDVHRLMITGFCWGGRITWLYAAHNPQLKAAVAWYGKLTGDKSLNSPKQPVDIATDLNAPILGLYGGQDNSIPQESVETMRQALRAANAKAEIIVYPDAGHAFNADYRPSYHAASAEDGWQRMLEWFKQYGGKKSL" [] ["CCO-CYTOSOL"] +"G7808-MONOMER" "twin arginine protein translocation system - TatB protein" ["YsgB", "MttA2"] "MFDIGFSELLLVFIIGLVVLGPQRLPVAVKTVAGWIRALRSLATTVQNELTQELKLQEFQDSLKKVEKASLTNLTPELKASMDELRQAAESMKRSYVANDPEKASDEAHTIHNPVVKDNEAAHEGVTPAAAQTQASSPEQKPETTPEPVVKPAADAEPKTAAPSPSSSDKP" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7814-MONOMER" "putative outer membrane porin L" ["YshA", "OmpL"] "MKKINAIILLSSLTSASVFAGAYVENREAYNLASDQGEVMLRVGYNFDMGAGIMLTNTYNFQREDELKHGYNEIEGWYPLFKPTDKLTIQPGGLINDKSIGSGGAVYLDVNYKFVPWFNLTVRNRYNHNNYSSTDLSGELDNNDTYEIGTYWNFKITDKFSYTFEPHYFMRVNDFNSSNGKDHHWEITNTFRYRINEHWLPYFELRWLDRNVEPYHREQNQIRIGTKYFF" ["CCO-OUTER-MEM"] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"G7816-MONOMER" "periplasmic protein CpxP" ["CpxP", "YiiO"] "MRIVTAAVMASTLAVSSLSHAAEVGSGDNWHPGEELTQRSTQSHMFDGISLTEHQRQQMRDLMQQARHEQPPVNVSELETMHRLVTAENFDENAVRAQAEKMANEQIARQVEMAKVRNQMYRLLTPEQQAVLNEKHQQRMEQLRDVTQWQKSSSLKLLSSSNSRSQ" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"G7821-MONOMER" "DNA-binding transcriptional repressor AlsR" ["AlsR", "YjcY", "RpiR"] "MSQSEFDSALPNGIGLAPYLRMKQEGMTENESRIVEWLLKPGNLSCAPAIKDVAEALAVSEAMIVKVSKLLGFSGFRNLRSALEDYFSQSEQVLPSELAFDEAPQDVVNKVFNITLRTIMEGQSIVNVDEIHRAARFFYQARQRDLYGAGGSNAICADVQHKFLRIGVRCQAYPDAHIMMMSASLLQEGDVVLVVTHSGRTSDVKAAVELAKKNGAKIICITHSYHSPIAKLADYIICSPAPETPLLGRNASARILQLTLLDAFFVSVAQLNIEQANINMQKTGAIVDFFSPGALK" [] ["CCO-CYTOSOL"] +"G7823-MONOMER" "regulator of diguanylate cyclase RdcB" ["RdcB", "YjcZ"] "MTKTLLDGPGRVLESVYPRFLVDLAQGDDARLPQAHQQQFRERLMQELLSRVQLQTWTNGGMLNAPLSLRLTLVEKLASMLDPGHLALTQIAQHLALLQKMDHRQHSAFPELPQQIAALYEWFSARCRWKEKALTQRGLLVQAGDQSEQIFTRWRAGAYNAWSLPGRCFIVLEELRWGAFGDACRLGSPQAVALLLGDLLEKATQHLAESINAAPTTRHYYHQWFASSTVPTGGEHADFLSWLGKWTTADKQPVCWSVTQRWQTVALGMPRLCSAQRLAGAMLEEIFSVNLA" [] ["CCO-CYTOSOL"] +"G7825-MONOMER" "DUF2238 domain-containing inner membrane protein YjdF" ["YjdF"] "MTRTLKPLILNTSALTLTLILIYTGISAHDKLTWLMEVTPVIIVVQLLLATARRYPLTPLLYTLIFLHAIILMVGGQYTYAKVPVGFEVQEWLGLSRNPYDKLGHFFQGLVPALVAREILVRGMYVRGRKMVAFLVCCVALAISAMYELIEWWAALAMGQGADDFLGTQGDQWDTQSDMFCALLGALTTVIFLARFHCRQLRRFGLITG" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7828-MONOMER" "PF06902 family protein YjdI" ["YjdI"] "MDQALLDGGYRCYTGEKIDVYFNTAICQHSGNCVRGNGKLFNLKRKPWIMPDEVDVATVVKVIDTCPSGALKYRHK" [] ["CCO-CYTOSOL"] +"G7829-MONOMER" "putative N-acetyltransferase YjdJ" ["YjdJ"] "MEIREGHNKFYINDKQGKQIAEIVFVPTGENLAIIEHTDVDESLKGQGIGKQLVAKVVEKMRREKRKIIPLCPFAKHEFDKTREYDDIRS" [] ["CCO-CYTOSOL"] +"G7830-MONOMER" "antitoxin of the GhoTS toxin-antitoxin system" ["GhoS", "YjdK"] "MEGKNKFNTYVVSFDYPSSYSSVFLRLRSLMYDMNFSSIVADEYGIPRQLNENSFAITTSLAASEIEDLIRLKCLDLPDIDFDLNIMTVDDYFRQFYK" [] ["CCO-CYTOSOL"] +"G7832-MONOMER" "protein FxsA" ["YjeG", "FxsA"] "MRWLPFIAIFLYVYIEISIFIQVAHVLGVLLTLVLVIFTSVIGMSLVRNQGFKNFVLMQQKMAAGENPAAEMIKSVSLIIAGLLLLLPGFFTDFLGLLLLLPPVQKHLTVKLMPHLRFSRMPGGGFSAGTGGGNTFDGEYQRKDDERDRLDHKDDRQD" ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"G7834-MONOMER" "DUF4156 domain-containing lipoprotein YjeI" ["YjeI"] "MHVKYLAGIVGAALLMAGCSSSNELSAAGQSVRIVDEQPGAECQLIGTATGKQSNWLSGQHGEEGGSMRGAANDLRNQAAAMGGNVIYGISSPSQGMLSSFVPTDSQIIGQVYKCPN" [] ["CCO-CYTOSOL"] +"G7835-MONOMER" "protein YjeJ" ["YjeJ"] "MAISIKGVNTGVIRKSNNFIALALKIKEPRNKESLFFMSVMELRDLLIALESRLHQKHKLDAAAHLQYEQARDKVIKKMAENIPEILVDELKNADINRRVNTLELTDNQGENLTFVLTLHDGSKCELVVNELQIEMLARAIIHAINNAEMRELALRITSLLDFLPLYDVDCQDNGNLEYDTYSQPEWKHNLFDHYLAVLYRFKDESGKEQFSGAVVKTREATPGKEIEAITRRMLDFSPRLKKLAGVPCQVYVRTVAANNAQPLTQDQCLRALHHLRVQSTSKTAPQAK" [] ["CCO-CYTOSOL"] +"G7836-MONOMER" "lysine 2,3-aminomutase" ["EpmB", "YjeK"] "MAHIVTLNTPSREDWLTQLADVVTDPDELLRLLNIDAEEKLLAGRSAKKLFALRVPRSFIDRMEKGNPDDPLLRQVLTSQDEFVIAPGFSTDPLEEQHSVVPGLLHKYHNRALLLVKGGCAVNCRYCFRRHFPYAENQGNKRNWQTALEYVAAHPELDEMIFSGGDPLMAKDHELDWLLTQLEAIPHIKRLRIHSRLPIVIPARITEALVECFARSTLQILLVNHINHANEVDETFRQAMAKLRRVGVTLLNQSVLLRDVNDNAQTLANLSNALFDAGVMPYYLHVLDKVQGAAHFMVSDDEARQIMRELLTLVSGYLVPKLAREIGGEPSKTPLDLQLRQQ" [] ["CCO-CYTOSOL"] +"G7837-MONOMER" "outer membrane lipoprotein Blc" ["YjeL", "Blc", "outer membrane lipoprotein (lipocalin)"] "MRLLPLVAAATAAFLVVACSSPTPPRGVTVVNNFDAKRYLGTWYEIARFDHRFERGLEKVTATYSLRDDGGLNVINKGYNPDRGMWQQSEGKAYFTGAPTRAALKVSFFGPFYGGYNVIALDREYRHALVCGPDRDYLWILSRTPTISDEVKQEMLAVATREGFDVSKFIWVQQPGS" [] ["CCO-CYTOSOL", "CCO-MEMBRANE", "CCO-OUTER-MEM"] +"G7838-MONOMER" "uncharacterized protein YjeN" ["YjeN"] "MDDTSRDPAITEDEIRALQFSAGDVAEIEQTILSFVDACHTRKVAMVVGSTINTLKDRDGKRWGNLPDIYCAYLIRCLVFRGELVGYGDLFRMRYSEIKRPVTL" [] ["CCO-CYTOSOL"] +"G7839-MONOMER" "DUF2645 domain-containing inner membrane protein YjeO" ["YjeO"] "MSARMFVLCCIWFIVAFLWITITSALDKEWMIDGRGINNVCDVLMYLEEDDTRDVGVIMTLPLFFPFLWFALWRKKRGWFMYATALAIFGYWLWQFFLRYQFCL" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7840-MONOMER" "miniconductance mechanosensitive channel MscM" ["YjeP", "MscM"] "MRLIITFLMAWCLSWGAYAATAPDSKQITQELEQAKAAKPAQPEVVEALQSALNALEERKGSLERIKQYQQVIDNYPKLSATLRAQLNNMRDEPRSVSPGMSTDALNQEILQVSSQLLDKSRQAQQEQERAREIADSLNQLPQQQTDARRQLNEIERRLGTLTGNTPLNQAQNFALQSDSARLKALVDELELAQLSANNRQELARLRSELAEKESQQLDAYLQALRNQLNSQRQLEAERALESTELLAENSADLPKDIVAQFKINRELSAALNQQAQRMDLVASQQRQAASQTLQVRQALNTLREQSQWLGSSNLLGEALRAQVARLPEMPKPQQLDTEMAQLRVQRLRYEDLLNKQPLLRQIHQADGQPLTAEQNRILEAQLRTQRELLNSLLQGGDTLLLELTKLKVSNGQLEDALKEVNEATHRYLFWTSDVRPMTIAWPLEIAQDLRRLISLDTFSQLGKASVMMLTSKETILPLFGALILVGCSIYSRRYFTRFLERSAAKVGKVTQDHFWLTLRTLFWSILVASPLPVLWMTLGYGLREAWPYPLAVAIGDGVTATVPLLWVVMICATFARPNGLFIAHFGWPRERVSRGMRYYLMSIGLIVPLIMALMMFDNLDDREFSGSLGRLCFILICGALAVVTLSLKKAGIPLYLNKEGSGDNITNHMLWNMMIGAPLVAILASAVGYLATAQALLARLETSVAIWFLLLVVYHVIRRWMLIQRRRLAFDRAKHRRAEMLAQRARGEEEAHHHSSPEGAIEVDESEVDLDAISAQSLRLVRSILMLIALLSVIVLWSEIHSAFGFLENISLWDVTSTVQGVESLEPITLGAVLIAILVFIITTQLVRNLPALLELAILQHLDLTPGTGYAITTITKYLLMLIGGLVGFSMIGIEWSKLQWLVAALGVGLGFGLQEIFANFISGLIILFEKPIRIGDTVTIRDLTGSVTKINTRATTISDWDRKEIIVPNKAFITEQFINWSLSDSVTRVVLTIPAPADANSEEVTEILLTAARRCSLVIDNPAPEVFLVDLQQGIQIFELRIYAAEMGHRMPLRHEIHQLILAGFHAHGIDMPFPPFQMRLESLNGKQTGRTLTSAGKGRQAGSL" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7841-MONOMER" "ribosome small subunit-dependent GTPase A" ["YjeQ", "RsgA"] "MSKNKLSKGQQRRVNANHQRRLKTSKEKPDYDDNLFGEPDEGIVISRFGMHADVESADGDVHRCNIRRTIRSLVTGDRVVWRPGKPAAEGVNVKGIVEAVHERTSVLTRPDFYDGVKPIAANIDQIVIVSAILPELSLNIIDRYLVACETLQIEPIIVLNKIDLLDDEGMAFVNEQMDIYRNIGYRVLMVSSHTQDGLKPLEEALTGRISIFAGQSGVGKSSLLNALLGLQKEILTNDISDNSGLGQHTTTAARLYHFPHGGDVIDSPGVREFGLWHLEPEQITQGFVEFHDYLGLCKYRDCKHDTDPGCAIREAVEEGKIAETRFENYHRILESMAQVKTRKNFSDTDD" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7842-MONOMER" "oligoribonuclease" ["YjeR", "Orn"] "MSANENNLIWIDLEMTGLDPERDRIIEIATLVTDANLNILAEGPTIAVHQSDEQLALMDDWNVRTHTASGLVERVKASTMGDREAELATLEFLKQWVPAGKSPICGNSIGQDRRFLFKYMPELEAYFHYRYLDVSTLKELARRWKPEILDGFTKQGTHQAMDDIRESVAELAYYREHFIKL" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7843-MONOMER" "epoxyqueuosine reductase" ["QueG", "YjeS"] "MSEPLDLNQLAQKIKQWGLELGFQQVGITDTDLSESEPKLQAWLDKQYHGEMDWMARHGMLRARPHELLPGTLRVISVRMNYLPANAAFASTLKNPKLGYVSRYALGRDYHKLLRNRLKKLGEMIQQHCVSLNFRPFVDSAPILERPLAEKAGLGWTGKHSLILNREAGSFFFLGELLVDIPLPVDQPVEEGCGKCVACMTICPTGAIVEPYTVDARRCISYLTIELEGAIPEELRPLMGNRIYGCDDCQLICPWNRYSQLTTEEDFSPRKPLHAPELIELFAWSEEKFLKVTEGSAIRRIGHLRWLRNIAVALGNAPWDETILTALESRKGEHPLLDEHIAWAIAQQIERRNACIVEVQLPKKQRLVRVIEKGLPRDA" [] ["CCO-CYTOSOL"] +"G7844-MONOMER" "DUF2065 domain-containing protein YjeT" ["YjeT"] "MNSTIWLALALVLVLEGLGPMLYPKAWKKMISAMTNLPDNILRRFGGGLVVAGVVVYYMLRKTIG" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"G7845-MONOMER" "23S rRNA 2'-O-ribose G2251 methyltransferase" ["RlmB", "YjfH"] "MSEMIYGIHAVQALLERAPERFQEVFILKGREDKRLLPLIHALESQGVVIQLANRQYLDEKSDGAVHQGIIARVKPGRQYQENDLPDLIASLDQPFLLILDGVTDPHNLGACLRSADAAGVHAVIVPKDRSAQLNATAKKVACGAAESVPLIRVTNLARTMRMLQEENIWIVGTAGEADHTLYQSKMTGRLALVMGAEGEGMRRLTREHCDELISIPMAGSVSSLNVSVATGICLFEAVRQRS" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7846-MONOMER" "DUF2170 domain-containing protein YjfI" ["YjfI"] "MTWNPLALATALQTVPEQNIDVTNSENALIIKMNDYGDLQINILFTSRQMIIETFICPVSSISNPDEFNTFLLRNQKMMPLSSVGISSVQQEEYYIVFGALSLKSSLEDILLEITSLVDNALDLAEITEEYSH" [] ["CCO-MEMBRANE"] +"G7847-MONOMER" "PspA family protein YjfJ" ["YjfJ", "putative transcriptional regulator effector protein"] "MGILKSLFTLGKSFISQAEESIEETQGVRMLEQHIRDAKAELDKAGKSRVDLLARVKLSHDKLKDLRERKASLEARALEALSKNVNPSLINEVAEEIARLENLITAEEQVLSNLEVSRDGVEKAVTATAQRIAQFEQQMEVVKATEAMQRAQQAVTTSTVGASSSVSTAAESLKRLQTRQAERQARLDAAAQLEKVADGRDLDEKLAEAGIGGSNKSSAQDVLARLQRQQGE" [] ["CCO-CYTOSOL"] +"G7848-MONOMER" "DUF2491 domain-containing protein YjfK" ["YjfK"] "MSGFFQRLFGKDNKPAIARGPLGLHLNSGFTLDTLAFRLLEDELLIALPGEEFTVAAVSHIDLGGGSQIFRYYTSGDEFLQINTTGGEDIDDIDDIKLFVYEESYGISKESHWREAINAKAMGAMTLNWQEKRWQRFFNSEEPGNIEPVYMLEKVENQNHAKWEVHNFTMGYQRQVTEDTYEYLLLNGEESFNDLGEPEWLFSRALGVDIPLTSLHIIG" [] ["CCO-CYTOSOL"] +"G7849-MONOMER" "DUF350 domain-containing inner membrane protein YjfL" ["YjfL"] "MHILDSLLAFSAYFFIGVAMVIIFLFIYSKITPHNEWQLIKNNNTAASLAFSGTLLGYVIPLSSAAINAVSIPDYFAWGGIALVIQLLVFAGVRLYMPALSEKIINHNTAAGMFMGTAALAGGIFNAACMTW" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7850-MONOMER" "DUF1190 domain-containing protein YjfM" ["YjfM"] "MARKRKSRNNSKIGHGAISRIGRPNNPFEPCRNRYAQKYLTLALMGGAAFFVLKGCSDSSDVDNDGDGTFYATVQDCIDDGNNADICARGWNNAKTAFYADVPKNMTQQNCQSKYENCYYDNVEQSWIPVVSGFLLSRVIRKDRDEPFVYNSGGSSFASRPVWRSTSGDYSWRSGSGKKESYSSGGFTTKKASTVSRGGYGRSSSARGHWGG" [] ["CCO-CYTOSOL"] +"G7851-MONOMER" "protease activator YjfN" ["YjfN"] "MKQLLASPSLQLVTYPASATAQSAEFASADCVTGLNEIGQISVSNISGDPQDVERIVALKADEQGASWYRIITMYEDQQPDNWRVQAILYA" [] ["CCO-PERI-BAC"] +"G7852-MONOMER" "DUF1471 domain-containing putative lipoprotein BsmA" ["YjfO", "BsmA"] "MVSRKRNSVIYRFASLLLVLMLSACSALQGTPQPAPPVTDHPQEIRRDQTQGLQRIGSVSTMVRGSPDDALAEIKAKAVAAKADYYVVVMVDETIVTGQWYSQAILYRK" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE", "CCO-PERI-BAC"] +"G7853-MONOMER" "carboxylesterase" ["YjfP"] "MIEIESRELADIPVLHAYPVGQKDTPLPCVIFYHGFTSSSLVYSYFAVALAQAGLRVIMPDAPDHGSRFSGDAARRLNQFWQILLQSMQEFTTLRAAIAEENWLLDDRLAVGGASMGAMTALGITARHPTVRCTASMMGSGYFTSLARSLFPPLIPETAAQQNEFNNIVAPLAEWEATNHLEQLSDRPLLLWHGLDDDVVPADESLRLQQALSETGRDKLLTCSWQPGVRHRITPEALDAAVTFFRQHL" [] ["CCO-CYTOSOL"] +"G7854-MONOMER" "DNA-binding transcriptional repressor UlaR" ["UlaR", "YjfQ"] "MTEAQRHQILLEMLAQLGFVTVEKVVERLGISPATARRDINKLDESGKLKKVRNGAEAITQQRPRWTPMNLHQAQNHDEKVRIAKAASQLVNPGESVVINCGSTAFLLGREMCGKPVQIITNYLPLANYLIDQEHDSVIIMGGQYNKSQSITLSPQGSENSLYAGHWMFTSGKGLTAEGLYKTDMLTAMAEQKMLSVVGKLVVLVDSSKIGERAGMLFSRADQIDMLITGKNANPEILQQLEAQGVSILRV" [] ["CCO-CYTOSOL"] +"G7855-MONOMER" "L-ascorbate-6-phosphate lactonase" ["YjfR", "UlaG"] "MSKVKSITRESWILSTFPEWGSWLNEEIEQEQVAPGTFAMWWLGCTGIWLKSEGGTNVCVDFWCGTGKQSHGNPLMKQGHQMQRMAGVKKLQPNLRTTPFVLDPFAIRQIDAVLATHDHNDHIDVNVAAAVMQNCADDVPFIGPKTCVDLWIGWGVPKERCIVVKPGDVVKVKDIEIHALDAFDRTALITLPADQKAAGVLPDGMDDRAVNYLFKTPGGSLYHSGDSHYSNYYAKHGNEHQIDVALGSYGENPRGITDKMTSADMLRMGEALNAKVVIPFHHDIWSNFQADPQEIRVLWEMKKDRLKYGFKPFIWQVGGKFTWPLDKDNFEYHYPRGFDDCFTIEPDLPFKSFL" [] ["CCO-CYTOSOL"] +"G7858-MONOMER" "3-keto-L-gulonate-6-phosphate decarboxylase UlaD" ["YjfV", "SgaH", "UlaD"] "MSLPMLQVALDNQTMDSAYETTRLIAEEVDIIEVGTILCVGEGVRAVRDLKALYPHKIVLADAKIADAGKILSRMCFEANADWVTVICCADINTAKGALDVAKEFNGDVQIELTGYWTWEQAQQWRDAGIGQVVYHRSRDAQAAGVAWGEADITAIKRLSDMGFKVTVTGGLALEDLPLFKGIPIHVFIAGRSIRDAASPVEAARQFKRSIAELWG" [] ["CCO-CYTOSOL"] +"G7859-MONOMER" "L-ribulose-5-phosphate 3-epimerase UlaE" ["YjfW", "SgaU", "UlaE"] "MLSKQIPLGIYEKALPAGECWLERLQLAKTLGFDFVEMSVDETDDRLSRLNWSREQRLALVNAIVETGVRVPSMCLSAHRRFPLGSEDDAVRAQGLEIMRKAIQFAQDVGIRVIQLAGYDVYYQEANNETRRRFRDGLKESVEMASRAQVTLAMEIMDYPLMSSISKALGYAHYLNNPWFQLYPDIGNLSAWDNDVQMELQAGIGHIVAVHVKDTKPGVFKNVPFGEGVVDFERCFETLKQSGYCGPYLIEMWSETAEDPAAEVAKARDWVKARMAKAGMVEAA" [] ["CCO-CYTOSOL"] +"G7860-MONOMER" "L-ribulose-5-phosphate 4-epimerase UlaF" ["YjfX", "SgaE", "UlaF"] "MQKLKQQVFEANMELPRYGLVTFTWGNVSAIDRERGLVVIKPSGVAYETMKAADMVVVDMSGKVVEGEYRPSSDTATHLELYRRYPSLGGIVHTHSTHATAWAQAGLAIPALGTTHADYFFGDIPCTRGLSEEEVQGEYELNTGKVIIETLGNAEPLHTPGIVVYQHGPFAWGKDAHDAVHNAVVMEEVAKMAWIARGINPQLNHIDSFLMNKHFMRKHGPNAYYGQK" [] ["CCO-CYTOSOL"] +"G7861-MONOMER" "DUF1471 domain-containing protein YjfY" ["YjfY"] "MFSRVLALLAVLLLSANTWAAIEINNHQARNMDDVQSLGVIYINHNFATESEARQALNEETDAQGATYYHVILMREPGSNGNMHASADIYR" [] ["CCO-PERI-BAC", "CCO-CYTOSOL"] +"G7862-MONOMER" "protein YjfZ" ["YjfZ"] "MTLPTTIYSFPAYLSRFSSTDKPVKLKFHQYARATLLSNRGRDHNCDGRRTVEIHKLDLSDWQAFNKLATRCNAYDGITMNGDNSFGWNHEATLDNIHAQKYNKAYAGARLTAELKYLLQDVESFEPNSKYTIHEVVLGPGYGTPDYTGQTIGYVVTLPAQMPNCWSSELPTIDLYIDQLRTVTGVSNALGFIIAALLNAYSDLPHDLKIGLRSLSSSAAIYSGLGFERVPQERDISCARMYLTPANHPDLWTQENGEWIYLRN" [] ["CCO-MEMBRANE"] +"G7863-MONOMER" "putative transcriptional regulator YtfA" ["YtfA"] "MQKAIEKIIDFTWDYYIANPWFLKIVHSENQSKGVHYAKSQRLLEINHAHLQLMESLLDEGKKHNIFKPDIDPLQVNINIAALGGYYLINQHTLGLVYHISMVSPQALEARRKVIKETILSWLLVDPSSTAHE" [] ["CCO-CYTOSOL"] +"G7864-MONOMER" "cell division protein YtfB" ["YtfB"] "MPGRFELKPTLEKVWHAPDNFRFMDPLPPMHRRGIIIAAIVLVVGFLLPSDDTPNAPVVTREAQLDIQSQSQPPTEEQLRAQLVTPQNDPDQVAPVAPEPIQEGQPEEQPQTTQTQPFQPDSGIDNQWRSYRVEPGKTMAQLFRDHGLPATDVYAMAQVEGAGKPLSNLQNGQMVKIRQNASGVVTGLTIDTGNNQQVLFTRQPDGSFIRAR" [] ["CCO-EXTRACELLULAR", "CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7865-MONOMER" "peptidyl-prolyl cis-trans isomerase FklB" ["YtfC", "FklB", "FKBP22", "FKBP-type peptidyl-prolyl cis-trans isomerase FklB"] "MTTPTFDTIEAQASYGIGLQVGQQLSESGLEGLLPEALVAGIADALEGKHPAVPVDVVHRALREIHERADAVRRQRFQAMAAEGVKYLEENAKKEGVNSTESGLQFRVINQGEGAIPARTDRVRVHYTGKLIDGTVFDSSVARGEPAEFPVNGVIPGWIEALTLMPVGSKWELTIPQELAYGERGAGASIPPFSTLVFEVELLEIL" ["CCO-CYTOSOL"] ["CCO-CYTOSOL", "CCO-PERI-BAC"] +"G7866-MONOMER" "iron-sulfur cluster repair protein YtfE" ["YtfE", "DnrN", "RIC", "protein involved in repair of stress-damaged iron-sulfur clusters"] "MAYRDQPLGELALSIPRASALFRKYDMDYCCGGKQTLARAAARKELDVEVIEAELAKLAEQPIEKDWRSAPLAEIIDHIIVRYHDRHREQLPELILQATKVERVHADKPSVPKGLTKYLTMLHEELSSHMMKEEQILFPMIKQGMGSQAMGPISVMESEHDEAGELLEVIKHTTNNVTPPPEACTTWKAMYNGINELIDDLMDHISLENNVLFPRALAGE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7867-MONOMER" "inner membrane protein YtfF" ["YtfF"] "MISGVLYALLAGLMWGLIFVGPLIVPEYPAMLQSMGRYLALGLIALPIAWLGRVRLRQLARRDWLTALMLTMMGNLIYYFCLASAIQRTGAPVSTMIIGTLPVVIPVFANLLYSQRDGKLAWGKLAPALICIGIGLACVNIAELNHGLPDFDWARYTSGIVLALVSVVCWAWYALRNARWLRENPDKHPMMWATAQALVTLPVSLIGYLVACYWLNTQTPDFSLPFGPRPLVFISLMVAIAVLCSWVGALCWNVASQLLPTVILGPLIVFETLAGLLYTFLLRQQMPPLMTLSGIALLVIGVVIAVRAKPEKPLTESVSES" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7868-MONOMER" "NAD(P)H:quinone oxidoreductase" ["QorB", "YtfG", "QOR2"] "MIAITGATGQLGHYVIESLMKTVPASQIVAIVRNPAKAQALAAQGITVRQADYGDEAALTSALQGVEKLLLISSSEVGQRAPQHRNVINAAKAAGVKFIAYTSLLHADTSPLGLADEHIETEKMLADSGIVYTLLRNGWYSENYLASAPAALEHGVFIGAAGDGKIASATRADYAAAAARVISEAGHEGKVYELAGDSAWTLTQLAAELTKQSGKQVTYQNLSEADFAAALKSVGLPDGLADMLADSDVGASKGGLFDDSKTLSKLIGHPTTTLAESVSHLFNVNN" ["CCO-CYTOSOL"] [] +"G7869-MONOMER" "putative transcriptional regulator YtfH" ["YtfH"] "MSQVSLSQQLKEGNLFAEQCPSREVLKHVTSRWGVLILVALREGTHRFSDLRRKIGGVSEKMLAQSLQALEQDGFLNRIAYPVVPPHVEYSLTPLGEQVSEKVAALADWIELNLPEVLAVRDERAA" [] ["CCO-CYTOSOL"] +"G7870-MONOMER" "protein YtfI" ["YtfI"] "MLPRIRHNNFIGAVELFVKSSYTKTHSNNFFNNIHHAFKKKDWISNYDSLLTLREFFRCATQIDKSGYQVLSSKNETVHAMDKFLISFSLKDNGAEYTMTLRGSGFEYEEIPITINEYNSFMDFKNREFPLEQNRRLYAWDILQKKQSDIPKRIKGYIHQAIGDVSLGYALLEDIVSKLKRGKFELQIPGGGIKECDGWYIYEKIIDDNFAIVIESLGFALKIYGGDERFRNGSSVVLEDEDYSLIYNFLVNAGCQQVELAEQVDAIVSANLAADSDITKEKICEKYKSTIEAFKKEQLALPVLVRRKNSET" [] ["CCO-CYTOSOL"] +"G7871-MONOMER" "PF09695 family protein YtfJ" ["EcfJ", "YtfJ"] "MTLRKILALTCLLLPMMASAHQFETGQRVPPIGITDRGELVLDKDQFSYKTWNSAQLVGKVRVLQHIAGRTSAKEKNATLIEAIKSAKLPHDRYQTTTIVNTDDAIPGSGMFVRSSLESNKKLYPWSQFIVDSNGVALGAWQLDEESSAVVVLDKDGRVQWAKDGALTPEEVQQVMDLLQKLLK" [] ["CCO-PERI-BAC"] +"G7872-MONOMER" "stringent response modulator YtfK" ["YtfK", "DUF1107 domain-containing protein YtfK"] "MKIFQRYNPLQVAKYVKILFRGRLYIKDVGAFEFDKGKILIPKVKDKLHLSVMSEVNRQVMRLQTEMA" [] ["CCO-CYTOSOL"] +"G7873-MONOMER" "UPF0053 family inner membrane protein YtfL" ["YtfL"] "MLNSILVILCLIAVSAFFSMSEISLAASRKIKLKLLADEGNINAQRVLNMQENPGMFFTVVQIGLNAVAILGGIVGDAAFSPAFHSLFSRYMSAELSEQLSFILSFSLVTGMFILFADLTPKRIGMIAPEAVALRIINPMRFCLYVCTPLVWFFNGLANIIFRIFKLPMVRKDDITSDDIYAVVEAGALAGVLRKQEHELIENVFELESRTVPSSMTPRENVIWFDLHEDEQSLKNKVAEHPHSKFLVCNEDIDHIIGYVDSKDLLNRVLANQSLALNSGVQIRNTLIVPDTLTLSEALESFKTAGEDFAVIMNEYALVVGIITLNDVMTTLMGDLVGQGLEEQIVARDENSWLIDGGTPIDDVMRVLDIDEFPQSGNYETIGGFMMFMLRKIPKRTDSVKFAGYKFEVVDIDNYRIDQLLVTRIDSKATALSPKLPDAKDKEESVA" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7874-MONOMER" "translocation and assembly module subunit TamA" ["TamA", "YtfM"] "MRYIRQLCCVSLLCLSGSAVAANVRLQVEGLSGQLEKNVRAQLSTIESDEVTPDRRFRARVDDAIREGLKALGYYQPTIEFDLRPPPKKGRQVLIAKVTPGVPVLIGGTDVVLRGGARTDKDYLKLLDTRPAIGTVLNQGDYENFKKSLTSIALRKGYFDSEFTKAQLGIALGLHKAFWDIDYNSGERYRFGHVTFEGSQIRDEYLQNLVPFKEGDEYESKDLAELNRRLSATGWFNSVVVAPQFDKARETKVLPLTGVVSPRTENTIETGVGYSTDVGPRVKATWKKPWMNSYGHSLTTSTSISAPEQTLDFSYKMPLLKNPLEQYYLVQGGFKRTDLNDTESDSTTLVASRYWDLSSGWQRAINLRWSLDHFTQGEITNTTMLFYPGVMISRTRSRGGLMPTWGDSQRYSIDYSNTAWGSDVDFSVFQAQNVWIRTLYDRHRFVTRGTLGWIETGDFDKVPPDLRFFAGGDRSIRGYKYKSIAPKYANGDLKGASKLITGSLEYQYNVTGKWWGAVFVDSGEAVSDIRRSDFKTGTGVGVRWESPVGPIKLDFAVPVADKDEHGLQFYIGLGPEL" ["CCO-OUTER-MEM"] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"G7875-MONOMER" "translocation and assembly module subunit TamB" ["TamB", "YtfO", "YtfN"] "MSLWKKISLGVVIVILLLLGSVAFLVGTTSGLHLVFKAADRWVPGLDIGKVTGGWRDLTLSDVRYEQPGVAVKAGNLHLAVGLECLWNSSVCINDLALKDIQVNIDSKKMPPSEQVEEEEDSGPLDLSTPYPITLTRVALDNVNIKIDDTTVSVMDFTSGLNWQEKTLTLKPTSLKGLLIALPKVAEVAQEEVVEPKIENPQPDEKPLGETLKDLFSRPVLPEMTDVHLPLNLNIEEFKGEQLRVTGDTDITVSTMLLKVSSIDGNTKLDALDIDSSQGIVNASGTAQLSDNWPVDITLNSTLNVEPLKGEKVKLKMGGALREQLEIGVNLSGPVDMDLRAQTRLAEAGLPLNVEVNSKQLYWPFTGEKQYQADDLKLKLTGKMTDYTLSMRTAVKGQEIPPATITLDAKGNEQQVNLDKLTVAALEGKTELKALLDWQQAISWRGELTLNGINTAKEFPDWPSKLNGLIKTRGSLYGGTWQMDVPELKLTGNVKQNKVNVDGTLKGNSYMQWMIPGLHLELGPNSAEVKGELGVKDLNLDATINAPGLDNALPGLGGTAKGLVKVRGTVEAPQLLADITARGLRWQELSVAQVRVEGDIKSTDQIAGKLDVRVEQISQPDVNINLVTLNAKGSEKQHELQLRIQGEPVSGQLNLAGSFDRKEERWKGTLSNTRFQTPVGPWSLTRDIALDYRNKEQKISIGPHCWLNPNAELCVPQTIDAGAEGRAVVNLNRFDLAMLKPFMPETTQASGIFTGKADVAWDTTKEGLPQGSITLSGRNVQVTQTVNDAALPVAFQTLNLTAELRNNRAELGWTIRLTNNGQFDGQVQVTDPQGRRNLGGNVNIRNFNLAMINPIFTRGEKAAGMVSANLRLGGDVQSPQLFGQLQVTGVDIDGNFMPFDMQPSQLAVNFNGMRSTLAGTVRTQQGEIYLNGDADWSQIENWRARVTAKGSKVRITVPPMVRMDVSPDVVFEATPNLFTLDGRVDVPWARIVVHDLPESAVGVSSDVVMLNDNLQPEEPKTASIPINSNLIVHVGNNVRIDAFGLKARLTGDLNVVQDKQGLGLNGQINIPEGRFHAYGQDLIVRKGELLFSGPPDQPYLNIEAIRNPDATEDDVIAGVRVTGLADEPKAEIFSDPAMSQQAALSYLLRGQGLESDQSDSAAMTSMLIGLGVAQSGQIVGKIGETFGVSNLALDTQGVGDSSQVVVSGYVLPGLQVKYGVGIFDSIATLTLRYRLMPKLYLEAVSGVDQALDLLYQFEF" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-OUTER-MEM", "CCO-PM-BAC-NEG"] +"G7876-MONOMER" "γ-glutamylamine cyclotransferase family protein YtfP" ["YtfP"] "MRIFVYGSLRHKQGNSHWMTNAQLLGDFSIDNYQLYSLGHYPGAVPGNGTVHGEVYRIDNATLAELDALRTRGGEYARQLIQTPYGSAWMYVYQRPVDGLKLIESGDWLDRDK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7877-MONOMER" "enamine/imine deaminase, redox-regulated chaperone" ["RidA", "YjgF"] "MSKTIATENAPAAIGPYVQGVDLGNMIITSGQIPVNPKTGEVPADVAAQARQSLDNVKAIVEAAGLKVGDIVKTTVFVKDLNDFATVNATYEAFFTEHNATFPARSCVEVARLPKDVKIEIEAIAVRR" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7879-MONOMER" "RutC family protein YjgH" ["YjgH"] "MVERTAVFPAGRHSLYAEHRYSAAIRSGDLLFVSGQVGSREDGTPEPDFQQQVRLAFDNLHATLAAAGCTFDDIIDVTSFHTDPENQFEDIMTVKNEIFSAPPYPNWTAVGVTWLAGFDFEIKVIARIPEQ" [] ["CCO-CYTOSOL"] +"G7880-MONOMER" "c-di-GMP-binding biofilm dispersal mediator protein" ["BdcA", "YjgI"] "MGAFTGKTVLILGGSRGIGAAIVRRFVTDGANVRFTYAGSKDAAKRLAQETGATAVFTDSADRDAVIDVVRKSGALDILVVNAGIGVFGEALELNADDIDRLFKINIHAPYHASVEAARQMPEGGRILIIGSVNGDRMPVAGMAAYAASKSALQGMARGLARDFGPRGITINVVQPGPIDTDANPANGPMRDMLHSLMAIKRHGQPEEVAGMVAWLAGPEASFVTGAMHTIDGAFGA" [] ["CCO-CYTOSOL"] +"G7882-MONOMER" "putative transcriptional regulator BdcR" ["BdcR", "YjgJ"] "MVTKKQSRVPGRPRRFAPEQAISAAKVLFHQKGFDAVSVAEVTDYLGINPPSLYAAFGSKAGLFSRVLNEYVGTEAIPLADILRDDRPVGECLVEVLKEAARRYSQNGGCAGCMVLEGIHSHDPQARDIAVQYYHAAETTIYDYIARRHPQRAQCVTDFMSTVMSGLSAKAREGHSIEQLCATAAMAGEAIKTILEE" [] ["CCO-CYTOSOL"] +"G7883-MONOMER" "DUF386 domain-containing toxin-antitoxin biofilm protein TabA" ["YjgK", "TabA"] "MIIGNIHNLQPWLPQELRQAIEHIKAHVTAETPKGKHDIEGNRLFYLISEDMTEPYEARRAEYHARYLDIQIVLKGQEGMTFSTQPAGAPDTDWLADKDIAFLPEGVDEKTVILNEGDFVVFYPGEVHKPLCAVGAPAQVRKAVVKMLMA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7884-MONOMER" "protein YjgL" ["YjgL"] "MSKISDLNYSQHITLADNFKQKSEVLNTWRVGMNDFARIAGGQDNRRNILSPGAFLEFLAKIFTLGYVDFSKRSNEAGRNMMAHIKSSSYSKDTNGNEKMKFYMNNPVGERADSPKVIIEISLSTITTMGTRQGHTAIIFPQPDGSTNRYEGKSFERKDESSLHLITNKVLACYQSEANKKIARLLNNNQELNNLQKLNNLQKLNNLLKLNNIQGLNNPQELNNPQNLNDSQELNNSQELNSPQELNDPQELNNSQDLNNSKVSCTVSVDSTITGLLKEPLNNALLAIRNEHLLLMPHVCDESISYLLGEKGILEEIDKLYALNDHGIDNDKVGNNEINDIKVNLSHILIDSLDDAKVNLTPVIDSILETFSKSPYINDVRILDWCFNKSMQYFDDTKKIKHACSVINHINLRSDQSKIAETLFFNLDKEPYKNSPELQGLIWNKLVVYVNEFNLSNREKTNLIQRLFDNVESIFNEVPVSILVNDIFMNDFFMKNPEMINWYFPQLLKSYEGEKIYFDNLKYDLNDNDKESNKEILKNQPDNVIKEKLNNEYKLRFRMMQTILQSRVNVLPYINEQRLNKLNPPENLRIAIEHFGWKNRPITA" [] ["CCO-CYTOSOL", "CCO-OUTER-MEM"] +"G7885-MONOMER" "ribonuclease E inhibitor protein B" ["YjgD", "RraB"] "MANPEQLEEQREETRLIIEELLEDGSDPDALYTIEHHLSADDLETLEKAAVEAFKLGYEVTDPEELEVEDGDIVICCDILSECALNADLIDAQVEQLMTLAEKFDVEYDGWGTYFEDPNGEDGDDEDFVDEDDDGVRH" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7886-MONOMER" "putative acetyltransferase YjgM" ["YjgM"] "MNNIAPQSPVMRRLTLQDNPAIARVIRQVSAEYGLTADKGYTVADPNLDELYQVYSQPGHAYWVVEYEGEVVGGGGIAPLTGSESDICELQKMYFLPAIRGKGLAKKLALMAMEQAREMGFKRCYLETTAFLKEAIALYEHLGFEHIDYALGCTGHVDCEVRMLREL" [] ["CCO-CYTOSOL"] +"G7887-MONOMER" "inner membrane protein YjgN" ["YjgN"] "MAQVINEMDVPSHSFVFHGTGERYFLICVVNVLLTIITLGIYLPWALMKCKRYLYANMEVNGQRFSYGITGGNVFVSCLFFVFFYFAILMTVSADMPLVGCVLTLLLLVLLIFMAAKGLRHQALMTSLNGVRFSFNCSMKGFWWVTFFLPILMAIGMGTVFFISTKMLPANSSSSVIISMVLMAIVGIVSIGIFNGTLYSLVMSFLWSNTSFGIHRFKVKLDTTYCIKYAILAFLALLPFLAVAGYIIFDQILNAYDSSVYANDDIENLQQFMEMQRKMIIAQLIYYFGIAVSTSYLTVSLRNHFMSNLSLNDGRIRFRLTLTYHGMLYRMCALVVISGITGGLAYPLLKIWMIDWQAKNTYLLGDLDDLPLINKEEQPDKGFLASISRGVMPSLPFL" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7888-MONOMER" "lipopolysaccharide transport system protein LptF" ["YjgP"] "MIIIRYLVRETLKSQLAILFILLLIFFCQKLVRILGAAVDGDIPANLVLSLLGLGVPEMAQLILPLSLFLGLLMTLGKLYTESEITVMHACGLSKAVLVKAAMILAVFTAIVAAVNVMWAGPWSSRHQDEVLAEAKANPGMAALAQGQFQQATNGSSVLFIESVDGSDFKDVFLAQIRPKGNARPSVVVADSGHLTQLRDGSQVVTLNQGTRFEGTALLRDFRITDFQDYQAIIGHQAVALDPNDTDQMDMRTLWNTDTDRARAELNWRITLVFTVFMMALMVVPLSVVNPRQGRVLSMLPAMLLYLLFFLIQTSLKSNGGKGKLDPTLWMWTVNLIYLALAIVLNLWDTVPVRRLRASFSRKGAV" ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"G7889-MONOMER" "lipopolysaccharide transport system protein LptG" ["YjgQ"] "MQPFGVLDRYIGKTIFTTIMMTLFMLVSLSGIIKFVDQLKKAGQGSYDALGAGMYTLLSVPKDVQIFFPMAALLGALLGLGMLAQRSELVVMQASGFTRMQVALSVMKTAIPLVLLTMAIGEWVAPQGEQMARNYRAQAMYGGSLLSTQQGLWAKDGNNFVYIERVKGDEELGGISIYAFNENRRLQSVRYAATAKFDPEHKVWRLSQVDESDLTNPKQITGSQTVSGTWKTNLTPDKLGVVALDPDALSISGLHNYVKYLKSSGQDAGRYQLNMWSKIFQPLSVAVMMLMALSFIFGPLRSVPMGVRVVTGISFGFVFYVLDQIFGPLTLVYGIPPIIGALLPSASFFLISLWLLMRKS" ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"G7890-MONOMER" "DUF853 domain-containing protein YjgR" ["YjgR"] "MSEPLLIARTPDTELFLLPGMANRHGLITGATGTGKTVTLQKLAESLSEIGVPVFMADVKGDLTGVAQAGTVSEKLLARLKNIGVNDWQPHANPVVVWDIFGEKGHPVRATVSDLGPLLLARLLNLNDVQSGVLNIIFRIADDQGLLLLDFKDLRAITQYIGDNAKSFQNQYGNISSASVGAIQRGLLSLEQQGAAHFFGEPMLDIKDWMRTDANGKGVINILSAEKLYQMPKLYAASLLWMLSELYEQLPEAGDLEKPKLVFFFDEAHLLFNDAPQVLLDKIEQVIRLIRSKGVGVWFVSQNPSDIPDNVLGQLGNRVQHALRAFTPKDQKAVKAAAQTMRANPAFDTEKAIQELGTGEALISFLDAKGSPSVVERAMVIAPCSRMGPVTEDERNGLINHSPVYGKYEDEVDRESAYEMLQKGFQASTEQQNNPPAKGKEVAVDDGILGGLKDILFGTTGPRGGKKDGVVQTMAKSAARQVTNQIVRGMLGSLLGGRRR" [] ["CCO-CYTOSOL"] +"G7891-MONOMER" "DNA-binding transcriptional dual regulator IdnR" ["GntH", "YjgS", "IdnR"] "MRNHRISLQDIATLAGVTKMTVSRYIRSPKKVAKETGERIAKIMEEINYIPNRAPGMLLNAQSYTLGILIPSFQNQLFADILAGIESVTSEHNYQTLIANYNYDRDSEEESVINLLSYNIDGIILSEKYHTIRTVKFLRSATIPVVELMDVQGERLDMEVGFDNRQAAFDMVCTMLEKRVRHKILYLGSKDDTRDEQRYQGYCDAMMLHNLSPLRMNPRAISSIHLGMQLMRDALSANPDLDGVFCTNDDIAMGALLLCRERNLAVPEQISIAGFHGLEIGRQMIPSLASVITPRFDIGRMAAQMLLSKIKNNDHNHNTVDLGYQIYHGNTL" [] ["CCO-CYTOSOL"] +"G7898-MONOMER" "KpLE2 phage-like element; putative phosphoethanolamine transferase YjgX, N-terminal fragment" ["YjgX", "YjgY"] "MNRPVFPVYHFLVSAAILVFVVIFWRTHHRDHRNWLALRLFVLCSVNRWPLRMVKGTVVGTTDTLREMQRYEQLSSTGLTTGKSSREHRYMIRLLLSLVRVCAGIICQCMTIPYQPHRG*IRHPVYLLTIIPRQPPVQCLP*AGH*FMTMSRTLIPATMWWRWQQKQDTAHGGYPIKENWGSMTHASLLLLLMRSMPLSSRKAASLPVKQMTNCCYRKQNVRWRIHPLRR*FSCT*WVLIQIRVTALTPSRIITWSSIPEKLPVTSPASVNWITFLASLMVSFAGTHVISPCFTFLALGCRSATVPILFIIMVMCREATVCH*LLPPVT*RLISPSVEKSVPVISQVFFSG*PVFVLKIYRHSIR*QTKITNLLWFLRERGIYRQTV*NLSHLFFLIT" [] [] +"G7899-MONOMER" "KpLE2 phage-like element; uncharacterized protein YjgZ" ["YjgZ"] "MLPPGPLLVLPVGARVSRGGLSPTERSCISRHTQQYLRACYPSGRYGTKGLVVRWFTGGREPRGTDNEPSGNRSLEPHAWLTDVLTRLPEWPEERLAELLPLEGFTFFG" [] ["CCO-CYTOSOL"] +"G7900-MONOMER" "KpLE2 phage-like element; IS4 putative transposase" ["InsG"] "MHIGQALDLVSRYDSLRNPLTSLGDYLDPELISRCLAESGTVTLRKRRLPLEMMVWCIVGMALERKEPLHQIVNRLDIMLPGNRPFVAPSAVIQARQRLGSEAVRRVFTKTAQLWHNATPHPHWCGLTLLAIDGVFWRTPDTPENDAAFPRQTHAGNPALYPQVKMVCQMELTSHLLTAAAFGTMKNSENELAEQLIEQTGDNTLTLMDKGYYSLGLLNAWSLAGEHRHWMIPLRKGAQYEEIRKLGKGDHLVKLKTSPQARKKWPGLGNEVTARLLTVTRKGKVCHLLTSMTDAMRFPGGEMGDLYSHRWEIELGYREIKQTMQRSRLTLRSKKPELVEQELWGVLLAYNLVRYQMIKMAEHLKGYWPNQLSFSESCGMVMRMLMTLQGASPGRIPELMRDLASMGQLVKLPTRRERAFPRVVKERPWKYPTAPKKSQSVA" [] ["CCO-CYTOSOL"] +"G7901-MONOMER" "KpLE2 phage-like element; 2,7-anhydro-N-acetylneuraminate hydratase" ["NanY", "YjhC", "KpLE2 phage-like element; putative sialic acid oxidoreductase YjhC", "KpLE2 phage-like element; N-acetylneuraminate dehydratase"] "MINYGVVGVGYFGAELARFMNMHDNAKITCVYDPENGENIARELQCINMSSLDALVSSKLVDCVIVATPNYLHKEPVIKAAKNKKHVFCEKPIALSYEDCVDMVKACKEAGVTFMAGHIMNFFNGVQYARKLIKEGVIGEILSCHTKRNGWENKQERLSWKKMKEQSGGHLYHHIHELDCVQHLLGEIPETVTMIGGNLAHSGPGFGNEDDMLFMTLEFPSGKLATLEWGSAFNWPEHYVIINGTKGSIKIDMQETAGSLRIGGQTKHFLVHETQEEDDDRRKGNMTSEMDGAIAYGHPGKKTPLWLASLIRKETLFLHNILCGAKPEEDYIDLLNGEAAMSAIATADAATLSRSQDRKVKISEIIKHTSVM" [] [] +"G7902-MONOMER" "KpLE2 phage-like element; surface adhesin E-like protein" ["YjhD"] "MNCETKQRTQFECIYFSQYWAKGDFIAKRAPIGQWEPYSEESLLGIIVTSVCRIKVAMLKPEPPRDPHIPLMGDFN" [] ["CCO-CYTOSOL"] +"G7903-MONOMER" "KpLE2 phage-like element; putative membrane protein (pseudogene)" ["YjhE"] "MLADELTIGPIRAVPMDITPKYVGIASGLMNAGSAVADIISPIAFGIIIDKTGNWSLPFYGSVALLVIGIFLTFFMRPDKSL" [] ["CCO-MEMBRANE"] +"G7904-MONOMER" "KpLE2 phage-like element; IS911B regulator fragment" ["YjhW", "InsO", "InsN2"] "MKKRNFSAEFKRESAQLVVDQKYTVADAAKAMDVGLSTMTRWVKQLRDERQGKTPKASPITPEQIEIRKLRKKLQRIEMENEILKKNRPEKPDGRRAVLRSQVLELHGISHGSAGARSIATMATRRGYQMGRWLAGRLMKELGLVSCQQPTHRYKRGGHEHVAIPNYLERQFAVTEPNQVWCGDVTYIWTGKRWAYLAVVLDLFARKPVGWAMSFSPDSRLTMKALEMAWETRGKPVGVMFQSDQGSHYTSRQFRQLLWRYRIRQSMSRRGNCWDNSPMERFFRSLKNEWVPATGYVSFSDAAHAITDYIVGYYSALRPHEYNGGLPPNESENRYWKNSNAEASFS" [] ["CCO-CYTOSOL"] +"G7907-MONOMER" "KpLE2 phage-like element; putative uncharacterized protein YjhV" ["YjhV"] "MPEGSRGRLAVAVAGDHPAAVQVTMTLVNDTGFDPVFSGSIAESWRQQPCTPSYCCDWEAATMLRAFPLAKKGEGRARLPSLYASFGKLGETPTHEDIIDNNRSINWPV" [] ["CCO-CYTOSOL"] +"G7908-MONOMER" "KpLE2 phage-like element; IS1 repressor protein InsA" ["InsA7"] "MASISIRCPSCSATEGVVRNGKSTAGHQRYLCSPCRKTWQLQFTYTASQPGKHQKIIDMAMNGVGCRASARIMGVGLNTVLRHLKNSGRSR" [] ["CCO-CYTOSOL"] +"G7909-MONOMER" "KpLE2 phage-like element; putative DNA-binding transcriptional regulator YjhU" ["YjhU"] "MDRDQTNSSLFNDDPVLHATWLYYQEGKSQTEVAAIMGVSRVTVVKYLQTARENGLVHINLDVNVFGSIDAALQIRDKFNLQRVIIVPDGEHAGKRDDTKLMRTRLSRAGGMYLNQVIENGDVLGVAWGRTIHQMSKTMTPKSCKNVTVIQMLGSMPSQPDLTIIESSSQIAYKLSGRVASLHVPAVVSSARLAMELQAEPIIRSNFDVLTRCTKAFFVVGNALDENPLIRVGVLNKKEMQTYRDLGAVGVICGRFYDKEGMPVVADVDQRILGISLAQLRQIERKIFLAGGERGYDATLGALLGGYVTDLIVDEGTAEFLLACELPH" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7910-MONOMER" "KpLE2 phage-like element; D-xylonate dehydratase" ["YjhG"] "MSVRNIFADESHDIYTVRTHADGPDGELPLTAEMLINRPSGDLFGMTMNAGMGWSPDELDRDGILLLSTLGGLRGADGKPVALALHQGHYELDIQMKAAAEVIKANHALPYAVYVSDPCDGRTQGTTGMFDSLPYRNDASMVMRRLIRSLPDAKAVIGVASCDKGLPATMMALAAQHNIATVLVPGGATLPAKDGEDNGKVQTIGARFANGELSLQDARRAGCKACASSGGGCQFLGTAGTSQVVAEGLGLAIPHSALAPSGEPVWREIARASARAALNLSQKGITTREILTDKAIENAMTVHAAFGGSTNLLLHIPAIAHQAGCHIPTVDDWIRINKRVPRLVSVLPNGPVYHPTVNAFMAGGVPEVMLHLRSLGLLHEDVMTVTGSTLKENLDWWEHSERRQRFKQLLLDQEQINADEVIMSPQQAKARGLTSTITFPVGNIAPEGSVIKSTAIDPSMIDEQGIYYHKGVAKVYLSEKSAIYDIKHDKIKAGDILVIIGVGPSGTGMEETYQVTSALKHLSYGKHVSLITDARFSGVSTGACIGHVGPEALAGGPIGKLRTGDLIEIKIDCRELHGEVNFLGTRSDEQLPSQEEATAILNARPSHQDLLPDPELPDDTRLWAMLQAVSGGTWTGCIYDVNKIGAALRDFMNKN" [] ["CCO-CYTOSOL"] +"G7911-MONOMER" "KpLE2 phage-like element; putative 2-dehydro-3-deoxy-D-pentonate aldolase" ["YjhH"] "MKKFSGIIPPVSSTFHRDGTLDKKAMREVADFLINKGVDGLFYLGTGGEFSQMNTAQRMALAEEAVTIVDGRVPVLIGVGSPSTDEAVKLAQHAQAYGADGIVAINPYYWKVAPRNLDDYYQQIARSVTLPVILYNFPDLTGQDLTPETVTRLALQNENIVGIKDTIDSVGHLRTMINTVKSVRPSFSVFCGYDDHLLNTMLLGGDGAITASANFAPELSVGIYRAWREGDLATAATLNKKLLQLPAIYALETPFVSLIKYSMQCVGLPVETYCLPPILEASEEAKDKVHVLLTAQGILPV" [] ["CCO-PERI-BAC", "CCO-CYTOSOL"] +"G7912-MONOMER" "KpLE2 phage-like element; putative DNA-binding transcriptional regulator YjhI" ["YjhI"] "MVRKGCNSLVRAEKILTHIAWVGMASYMELLNKFQYPKSSLLNLLNVMVDCGFLIKNKNGYYSLGIKNYELGCQALHRQNIFEVTKRPMQELSLKSGLVCHLGAMESISAIYLDKIESPDSVPTSKSWIGKKLELHITALGKALLAWKTREELDYFLEALTLTPHTRNTFTDKKLFLEELQKTRLRGWAIDNEESTYGAVCLSMPVFNMYNRVNYAISLSGDPVVYSGNKIDSYLELLRKCAEQISYGLGYRNENEHLRKGN" [] ["CCO-CYTOSOL"] +"G7913-MONOMER" "KpLE2 phage-like element; putative DNA-binding transcriptional regulator SgcR" ["YjhJ", "SgcR"] "MSQQRPDRIKQMLHYLWQHRHLSTQQAMELFGYAEATVRRDFQYIVNQYPGMIRGHGCLDFDDSTDDKEYVFDVKRTLQSVAKREIAALARTMIKDGDCFFLDSGSTCLELAKCLADARVKVICNDIKIANELGCFPHVESYIIGGLIRPGYFSVGESLALEMINAFSVERAFISCDALSLETGITNATMFEVGVKTRIIQRSREVILMADHSKFDAVEPHAVATLSCIKTIISDSGLPETIAQRYQRAGCQLFLPHSIK" [] ["CCO-CYTOSOL"] +"G7914-MONOMER" "KpLE2 phage-like element; putative epimerase SgcE" ["YjhK", "SgcE"] "MILHPSLASANPLHYGRELTALDNLDFGSLHLDIEDSSFINNITFGMKTVQAVARQTPHPLSFHFMLARPQRWFNALAEIRPAWIFVHAETLDYPSETLTEIRHTGARAGLVFNPATPIDAWRYLASELDGVMVMTSEPDGQGQRFIPSMCEKIQKVRTAFPQTECWADGGITLAAAQQLAAAGAQHMVIGRALFSSSDYRATLAQFATL" [] ["CCO-CYTOSOL"] +"G7915-MONOMER" "KpLE2 phage-like element; putative nucleoside triphosphatase" ["YjhM", "SgcQ"] "MSWLKEVIGTEKAVIAMCHLRALPGDPSFDAQLGMNWVIDKAWDDLMALQNGGVDAVMFSNEFSLPYLTKVRPETTAAMARIIGQLMSDIRIPFGVNVLWDPVASFDLAMATGAKFIREIFTGAYASDFGVWDTNVGETIRHQHRIGAGEVKTLFNIVPEAAVYLGNRDICSIAKSTVFNNHPDALCVSGLTAGTRTDSALLKRVKETVPDTVVLANTGVCLENVEEQLSIADGCVTATTFKKDGVFANFVDQARVSQFMEKVHHIRR" [] ["CCO-CYTOSOL"] +"G7916-MONOMER" "KpLE2 phage-like element; putative methyltransferase YjhP" ["YjhP"] "MDIPRIFTISESEHRIHNPFTEEKYATLGRVLRMKPGTRILDLGSGSGEMLCTWARDHGITGTGIDMSSLFTAQAKRRAEELGVSERVHFIHNDAAGYVANEKCDVAACVGATWIAGGFAGAEELLAQSLKPGGIMLIGEPYWRQLPATEEIAQACGVSSTSDFLTLPGLVGAFDDLGYDVVEMVLADQEGWDRYEAAKWLTMRRWLEANPDDDFAAEVRAELNIAPKRYVTYARECFGWGVFALIAR" [] ["CCO-MEMBRANE", "CCO-CYTOSOL"] +"G7917-MONOMER" "KpLE2 phage-like element; putative acetyltransferase TopAI antitoxin YjhQ" ["YjhQ", "KpLE2 phage-like element; antitoxin of the TopAI-YjhQ toxin-antitoxin system; putative acetyltransferase"] "MTVHHFTFHITDKSDASDIREVETRAFGFSKEADLVASLLEDESARPALSLLARYEGKAVGHILFTRATFKGEMDSPLMHILAPLAVIPEYQGMGVGGRLIRTGIEHLRLMGCQTVFVLGHATYYPRHGFEPCAGDKGYPAPYPIPEEHKACWMMQSLTAQPMTLTGHIRCADPDETGALT" [] ["CCO-CYTOSOL"] +"G7918-MONOMER" "KpLE2 phage-like element; PLD-like domain-containing protein YjhR" ["YjhR", "KpLE2 phage-like element; putative frameshift suppressor"] "MGYLHIDGRGMKPNGGSRHNPLEAETIAAWLVAHKDDIERHYGEPLYKVVGVVTPFSAQVNAIKMSLRKLEINGKDEQGLLTVGTVHSLQGAERAIVLFSPVYSKHEDGRFLDSNSTILNVAVSRAKDSFLVFGDMDLIEMQPAFSPRGLLAKYLFSSDNNALQFEFQKRQDLISAHTQISTLHGVEQHDEFLNKTLAGAQKKITIISPWLSWQKVEQTGFLASMALARSRGIDITVVTDKNCNIAHVDDDKRQEKQHLLNDAVEKLNKMGIATKLVNRVHSKIVIEDEELLCVGSFNWFSATREDKYQRYDTSLVYRGEGVKNEIKAIYGSLDQRQL" [] ["CCO-CYTOSOL"] +"G7919-MONOMER" "N-acetyl-9-O-acetylneuraminate esterase" ["YjhS", "NanS"] "MNAIISPDYYYVLTVAGQSNAMAYGEGLPLPDREDAPHPRIKQLARFAHTHPGGPPCHFNDIIPLTHCPHDVQDMQGYHHPLATNHQTQYGTVGQALHIARKLLPFIPDNAGILIVPCCRGGSAFTAGSEGTYSERHGASHDACRWGTDTPLYQDLVSRTRAALAKNPQNKFLGACWMQGEFDLMTSDYASHPQHFNHMVEAFRRDLKQYHSQLNNITDAPWFCGDTTWYWKENFPHSYEAIYGNYQNNVLANIIFVDFQQQGERGLTNAPDEDPDDLSTGYYGSAYRSPENWTTALRSSHFSTAARRGIISDRFVEAILQFWRER" [] ["CCO-PERI-BAC"] +"G7920-MONOMER" "N-acetylneuraminate mutarotase" ["YjhT", "NanM"] "MNKTITALAIMMASFAANASVLPETPVPFKSGTGAIDNDTVYIGLGSAGTAWYKLDTQAKDKKWTALAAFPGGPRDQATSAFIDGNLYVFGGIGKNSEGLTQVFNDVHKYNPKTNSWVKLMSHAPMGMAGHVTFVHNGKAYVTGGVNQNIFNGYFEDLNEAGKDSTAIDKINAHYFDKKAEDYFFNKFLLSFDPSTQQWSYAGESPWYGTAGAAVVNKGDKTWLINGEAKPGLRTDAVFELDFTGNNLKWNKLAPVSSPDGVAGGFAGISNDSLIFAGGAGFKGSRENYQNGKNYAHEGLKKSYSTDIHLWHNGKWDKSGELSQGRAYGVSLPWNNSLLIIGGETAGGKAVTDSVLITVKDNKVTVQN" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"G7921-MONOMER" "N-acetylneuraminic acid outer membrane channel" ["NanC", "YjhA"] "MKKAKILSGVLLLCFSSPLISQAATLDVRGGYRSGSHAYETRLKVSEGWQNGWWASMESNTWNTIHDNKKENAALNDVQVEVNYAIKLDDQWTVRPGMLTHFSSNGTRYGPYVKLSWDATKDLNFGIRYRYDWKAYRQQDLSGDMSRDNVHRWDGYVTYHINSDFTFAWQTTLYSKQNDYRYANHKKWATENAFVLQYHMTPDITPYIEYDYLDRQGVYNGRDNLSENSYRIGVSFKL" ["CCO-OUTER-MEM"] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"G7922-MONOMER" "uncharacterized protein YjiC" ["YjiC"] "MSMPLSNALQSQIITDAHFLHHPIVDSEFTRKLKYARMDSENIYLPPLTRGNNHNYDGKSVVEIRKLDISKEPWPFNYVTGACRESDGITTTGRMLYRNLKITSALDEIYGGICKKAHATTELAEGLRLNLFMKSPFDPVEDYTVHEITLGPGCNVPGYAGTTIGYISTLPASQAKRWTNEQPRIDIYIDQIMTVTGVANSSGFALAALLNANIELGNDPIIGIEAYPGTAEIHAKMGYKVIPGDENAPLKRMTLQPSSLPELFELKNGEWNYIGK" [] ["CCO-CYTOSOL"] +"G7923-MONOMER" "anti-adaptor protein IraD, inhibitor of σS proteolysis" ["YjiD", "IraD"] "MMRQSLQAVLPEISGNKTSSLRKSVCSDLLTLFNSPHSALPSLLVSGMPEWQVHNPSDKHLQSWYCRQLRSALLFHEPRIAALQVNLKEAYCHTLAISLEIMLYHDDEPLTFDLVWDNGGWRSATLENVS" [] ["CCO-CYTOSOL"] +"G7924-MONOMER" "DNA-binding transcriptional dual regulator HypT" ["HypT", "QseD", "YjiE"] "MDDCGAILHNIETKWLYDFLTLEKCRNFSQAAVSRNVSQPAFSRRIRALEQAIGVELFNRQVTPLQLSEQGKIFHSQIRHLLQQLESNLAELRGGSDYAQRKIKIAAAHSLSLGLLPSIISQMPPLFTWAIEAIDVDEAVDKLREGQSDCIFSFHDEDLLEAPFDHIRLFESQLFPVCASDEHGEALFNLAQPHFPLLNYSRNSYMGRLINRTLTRHSELSFSTFFVSSMSELLKQVALDGCGIAWLPEYAIQQEIRSGKLVVLNRDELVIPIQAYAYRMNTRMNPVAERFWRELRELEIVLS" [] ["CCO-CYTOSOL"] +"G7925-MONOMER" "isoaspartyl dipeptidase" ["YjiF", "IadA"] "MIDYTAAGFTLLQGAHLYAPEDRGICDVLVANGKIIAVASNIPSDIVPNCTVVDLSGQILCPGFIDQHVHLIGGGGEAGPTTRTPEVALSRLTEAGVTSVVGLLGTDSISRHPESLLAKTRALNEEGISAWMLTGAYHVPSRTITGSVEKDVAIIDRVIGVKCAISDHRSAAPDVYHLANMAAESRVGGLLGGKPGVTVFHMGDSKKALQPIYDLLENCDVPISKLLPTHVNRNVPLFEQALEFARKGGTIDITSSIDEPVAPAEGIARAVQAGIPLARVTLSSDGNGSQPFFDDEGNLTHIGVAGFETLLETVQVLVKDYDFSISDALRPLTSSVAGFLNLTGKGEILPGNDADLLVMTPELRIEQVYARGKLMVKDGKACVKGTFETA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7926-MONOMER" "Gate family protein YjiG" ["YjiG"] "MTTQVRKNVMDMFIDGARRGFTIATTNLLPNVVMAFVIIQALKITGLLDWVGHICEPVMALWGLPGEAATVLLAALMSMGGAVGVAASLATAGALTGHDVTVLLPAMYLMGNPVQNVGRCLGTAEVNAKYYPHIITVCVINALLSIWVMQLIV" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7927-MONOMER" "Gate family protein YjiH" ["YjiH"] "MTQQGDAVAGELATEKVGIKGYLAFFLTIIFFSGVFSGTDSWWRVFDFSVLNGSFGQLPGANGATTSFRGAGGAGAKDGFLFALELAPSVILSLGIISITDGLGGLRAAQQLMTPVLKPLLGIPGICSLALIANLQNTDAAAGMTKELAQEGEITERDKVIFAAYQTSGSAIITNYFSSGVAVFAFLGTSVIVPLAVILVFKFVGANILRVWLNFEERRNPTQGAQA" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7928-MONOMER" "RNA 2'-phosphotransferase" ["YjiI", "KptA"] "MAKYNEKELADTSKFLSFVLRHKPEAIGIVLDREGWADIDKLILCAQKAGKRLTRALLDTVVATSDKKRFSYSSDGRCIRAVQGHSTSQVAISFAEKTPPQFLYHGTASRFLDEIKKQGLIAGERHYVHLSADEATARKVGARHGSPVILTVKAQEMAKRGLPFWQAENGVWLTSTVAVEFLEW" [] ["CCO-CYTOSOL"] +"G7929-MONOMER" "putative transporter YjiJ" ["YjiJ"] "MPSSTHPVERFSFSTALFGMLVLTLGMGLGRFLYTPMLPVMMAEGSFSFSQLSWIASGNYAGYLAGSLLFSFGAFHQPSRLRPFLLASALASGLLILAMAWLPPFILVLLIRVLAGVASAGMLIFGSTLIMQHTRHPFVLAALFSGVGIGIALGNEYVLAGLHFDLSSQTLWQGAGALSGMMLIALTLLMPSKKHAITPMPLAKTEQQIMSWWLLAILYGLAGFGYIIVATYLPLMAKDAGSPLLTAHLWTLVGLSIVPGCFGWLWAAKRWGALPCLTANLLVQAICVLLTLASDSPLLLIISSLGFGGTFMGTTSLVMTIARQLSVPGNLNLLGFVTLIYGIGQILGPALTSMLSNGTSALASATLCGAAALFIAALISTVQLFKLQVVTS" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7930-MONOMER" "uncharacterized protein YjiK" ["YjiK"] "MTKSISLSKRISIIVILFAIVAVCTFFVQSCARKSNHAASFQNYHATIDGKEIAGITNNISSLTWSAQSNTLFSTINKPAAIVEMTTNGDFIRTIPLDFVKDLETIEYIGDNQFVISDERDYAIYVISLTPNSEVKILKKIKIPLQDSPTNCGFEGLAYSRQDHTFWFFKEKNPIEVYKVNGLLSSNELHISKDEALQRQFTLDDVSGAEFNQQKNTLLVLSHESRALQEVTLVGEVIGEMSLTKGSRGLSHNIKQAEGVAMDASGNIYIVSEPNRFYRFTPQSSH" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7931-MONOMER" "putative ATPase, activator of (R)-hydroxyglutaryl-CoA dehdratase" ["YjiL"] "MAYSIGIDSGSTATKGILLADGVITRRFLVPTPFRPATAITEAWETLREGLETTPFLTLTGYGRQLVDFADKQVTEISCHGLGARFLAPATRAVIDIGGQDSKVIQLDDDGNLCDFLMNDKCAAGTGRFLEVISRTLGTSVEQLDSITENVTPHAITSMCTVFAESEAISLRSAGVAPEAILAGVINAMARRSANFIARLSCEAPILFTGGVSHCQKFARMLESHLRMPVNTHPDAQFAGAIGAAVIGQRVRTRR" [] ["CCO-CYTOSOL"] +"G7932-MONOMER" "putative dehydratase subunit" ["YjiM"] "MSLVTDLPAIFDQFSEARQTGFLTVMDLKERGIPLVGTYCTFMPQEIPMAAGAVVVSLCSTSDETIEEAEKDLPRNLCPLIKSSYGFGKTDKCPYFYFSDLVVGETTCDGKKKMYEYMAEFKPVHVMQLPNSVKDDASRALWKAEMLRLQKTVEERFGHEISEDALRDAIALKNRERRALANFYHLGQLNPPALSGSDILKVVYGATFRFDKEALINELDAMTARVRQQWEEGQRLDPRPRILITGCPIGGAAEKVVRAIEENGGWVVGYENCTGAKATEQCVAETGDVYDALADKYLAIGCSCVSPNDQRLKMLSQMVEEYQVDGVVDVILQACHTYAVESLAIKRHVRQQHNIPYIAIETDYSTSDVGQLSTRVAAFIEML" [] ["CCO-CYTOSOL"] +"G7933-MONOMER" "DUF445 domain-containing protein YjiN" ["YjiN"] "MNKLIELRRAKRLALSLLLIAAATFVVTLFLPPNFWVSGVKAIAEAAMVGALADWFAVVALFRRVPIPIISRHTAIIPRNKDRIGENLGQFVQEKFLDTQSLVALIRRHEPALLIGNWFSQPENARRVGQHLLQIMSGFLELTDDARIQRLLKRAVHRAIDKVDLSGTSALMLESMTKNDRHQVLLDTLIAQLIALLQRDKSRKFIAQQIVRWLESEHPLKAKILPTEWLGEHSAELVSDAVNSLLDDISRDRAHQIRHAFDRATFALIDKLKNDPEMAARADAVKSYLKEDEAFNRYLSELWGDLREWLKVDINSEDSRVKERIARAGQWFGETLIADDALRASLNGHLEQAAHRVAPEFSAFLTRHISDTVKSWDARDMSRQIELNIGKDLQFIRVNGTLVGGCIGLILYLLSQLPALFPLGNF" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7934-MONOMER" "putative inactive recombination-promoting nuclease-like protein RpnD" ["YjiQ", "RpnD", "YjiP", "truncated recombination-promoting nuclease-like protein RpnD"] "MTNFTTSTPHDALFKTFLTHPDTARDFMEIHLPKDLRELCDLDSLKLESASFVDEKLRALHSDILWSVKTREGDGYIYVVIEHQSREDIHMAFRLMRYSMAVM*RHIEHDKRQPLPLVIPMLFYHGSRSPYPWSLCWLDEFADPTTARKLYNAAFPLVDVTVVPDDEIVQHRRVALLELIQKHIRQRDLMGLIDQLVVLLVTECANDSQITALLNYILLTGDEARFNEFISELTRRMPQHRERIMTIAERIHNDGYIKGEQRILRLLLQNGADPEWIQKITGLSAEQMQALRQPLPERERYSWLKS" [] [] +"G7936-MONOMER" "fused putative DNA-binding transcriptional regulator/putative aminotransferase YjiR" ["YjiR"] "MTRYQHLATLLAERIEQGLYRHGEKLPSVRSLSQEHGVSISTVQQAYQTLETMKLITPQPRSGYFVAQRKAQPPVPPMTRPVQRPVEITQWDQVLDMLEAHSDSSIVPLSKSTPDVEAPSLKPLWRELSRVVQHNLQTVLGYDLLAGQRVLREQIARLMLDSGSVVTADDIIITSGCHNSMSLALMAVCKPGDIVAVESPCYYGSMQMLRGMGVKVIEIPTDPETGISVEALELALEQWPIKGIILVPNCNNPLGFIMPDARKRAVLSLAQRHDIVIFEDDVYGELATEYPRPRTIHSWDIDGRVLLCSSFSKSIAPGLRVGWVAPGRYHDKLMHMKYAISSFNVPSTQMAAATFVLEGHYHRHIRRMRQIYQRNLALYTCWIREYFPCEICITRPKGGFLLWIELPEQVDMVCVARQLCRMKIQVAAGSIFSASGKYRNCLRINCALPLSETYREALKQIGEAVYRAME" [] ["CCO-CYTOSOL"] +"G7937-MONOMER" "DUF1127 domain-containing protein YjiS" ["YjiS"] "MEFHENRAKAPFIGLVQLWQAVRRWRRQMQTRRVLQQMSDERLKDIGLRREDVE" [] ["CCO-CYTOSOL"] +"G7938-MONOMER" "putative uncharacterized protein YjiT" ["YjiT"] "MGQSEYISWVKCTSWLSNFVNLRGLRQPDGRPLYEYHATNDEYTQLTQLLRAVGQSQSNICNRDFAACFVLFCSEWYRRDYERQCGWTWDPIYKKIGISFTATELGTIVPKGMEDYWLRPIRFYESERRNFLGTLFSEGGLPFRLLKESDSRFLAVFSRILGQYEQAKQSGFSALSLARAVIEKSALPTVFSEDTSVELISHMADNLNSLVLTHNLINHKEPVQQLEKVHPTWRSEFPIPLDDETGTHFLNGLLCAASVEAKPRLQKNKSTRCQFYWSEKHPDELRVIVSLPDEVSFPVTSEPSTTRFELAICEDGEEVSGLGPAYASLENRQATVRLRKSEVRFGRQNPSAGLSLVARAGGMIVGSIKLDDSEIAIGEVPLTFIVDADQWLLQGQASCSVRSSDVLIVLPRDNSNVAGFDGQSRAVNVLGLKALPVKGCQDVTVTANETYRIRTGREQISIGRFALNGKRASWVCHPDETFIGVPKVISTLPDIQSIDVTRYTC" [] ["CCO-CYTOSOL"] +"G7940-MONOMER" "toxic protein SymE" ["SosC", "DinL", "YjiW", "SymE", "toxin-like protein of the SOS response"] "MTDTHSIAQPFEAEVSPANNRHVTVGYASRYPDYSRIPAITLKGQWLEAAGFATGTAVDVKVMEGCIVLTAQPPAAEESELMQSLRQVCKLSARKQKQVQAFIGVIAGKQKVA" [] ["CCO-CYTOSOL"] +"G7941-MONOMER" "PF04328 family protein YjiX" ["YjiX"] "MFGNLGQAKKYLGQAAKMLIGIPDYDNYVEHMKTNHPDKPYMSYEEFFRERQNARYGGDGKGGMRCC" [] ["CCO-CYTOSOL"] +"G7942-MONOMER" "pyruvate:H+ symporter" ["BtsT", "YjiY"] "MDTKKIFKHIPWVILGIIGAFCLAVVALRRGEHISALWIVVASVSVYLVAYRYYSLYIAQKVMKLDPTRATPAVINNDGLNYVPTNRYVLFGHHFAAIAGAGPLVGPVLAAQMGYLPGTLWLLAGVVLAGAVQDFMVLFISSRRNGASLGEMIKEEMGPVPGTIALFGCFLIMIIILAVLALIVVKALAESPWGVFTVCSTVPIALFMGIYMRFIRPGRVGEVSVIGIVLLVASIYFGGVIAHDPYWGPALTFKDTTITFALIGYAFVSALLPVWLILAPRDYLATFLKIGVIVGLALGIVVLNPELKMPAMTQYIDGTGPLWKGALFPFLFITIACGAVSGFHALISSGTTPKLLANETDARFIGYGAMLMESFVAIMALVAASIIEPGLYFAMNTPPAGLGITMPNLHEMGGENAPIIMAQLKDVTAHAAATVSSWGFVISPEQILQTAKDIGEPSVLNRAGGAPTLAVGIAHVFHKVLPMADMGFWYHFGILFEALFILTALDAGTRSGRFMLQDLLGNFIPFLKKTDSLVAGIIGTAGCVGLWGYLLYQGVVDPLGGVKSLWPLFGISNQMLAAVALVLGTVVLIKMKRTQYIWVTVVPAVWLLICTTWALGLKLFSTNPQMEGFFYMASQYKEKIANGTDLTAQQIANMNHIVVNNYTNAGLSILFLIVVYSIIFYGFKTWLAVRNSDKRTDKETPYVPIPEGGVKISSHH" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7944-MONOMER" "putative DNA-binding transcriptional regulator LgoR" ["LgoR", "YjjM"] "MSRSQNLRHNVINQVIDDMARGHIPSPLPSQSALAEMYNISRTTVRHILSHLRECGVLTQVGNDYVIARKPDHDDGFACTTASMSEQNKVFEQAFFTMINQRQLRPGETFSELQLARAAGVSPVVVREYLLKFGRYNLIHSEKRGQWSMKQFDQSYAEQLFELREMLETHSLQHFLNLPDHDPRWLQAKTMLERHRLLRDNIGNSFRMFSQLDRDFHSLLLSAADNIFFDQSLEIISVIFHFHYQWDESDLKQRNIIAVDEHMTILSALICRSDLDATLALRNHLNSAKQSMIRSINENTRYAH" [] ["CCO-CYTOSOL"] +"G7945-MONOMER" "L-galactonate oxidoreductase" ["LgoD", "YjjN"] "MSTMNVLICQQPKELVWKQREIPIPGDNEALIKIKSVGICGTDIHAWGGNQPFFSYPRVLGHEICGEIVGLGKNIADLKNGQQVAVIPYVACQQCPACKSGRTNCCEKISVIGVHQDGGFSEYLSVPVANILPADGIDPQAAALIEPFAISAHAVRRAAIAPGEQVLVVGAGPIGLGAAAIAKADGAQVVVADTSPARREHVATRLELPLLDPSAEDFDAQLRAQFGGSLAQKVIDATGNQHAMNNTVNLIRHGGTVVFVGLFKGELQFSDPEFHKKETTMMGSRNATPEDFAKVGRLMAEGKITADMMLTHRYPFATLAETYERDVINNRELIKGVITF" [] ["CCO-CYTOSOL"] +"G7946-MONOMER" "putative succinate exporter YjjP" ["YjjP"] "MQTEQQRAVTRLCIQCGLFLLQHGAESALVDELSSRLGRALGMDSVESSISSNAIVLTTIKDGQCLTSTRKNHDRGINMHVVTEVQHIVILAEHHLLDYKGVEKRFSQIQPLRYPRWLVALMVGLSCACFCKLNNGGWDGAVITFFASTTAMYIRQLLAQRHLHPQINFCLTAFAATTISGLLLQLPTFSNTPTIAMAASVLLLVPGFPLINAVADMFKGHINTGLARWAIASLLTLATCVGVVMALTIWGLRGWV" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G7947-MONOMER" "DNA-binding transcriptional repressor YjjQ" ["YjjQ"] "MLPGCCKNGIVISKIPVMQAGLKEVMRTHFPEYEIISSASAEDLTLLQLRRSGLVIADLAGESEDPRSVCEHYYSLISQYREIHWVFMVSRSWYSQAVELLMCPTATLLSDVEPIENLVKTVRSGNTHAERISAMLTSPAMTETHDFSYRSVILTLSERKVLRLLGKGWGINQIASLLKKSNKTISAQKNSAMRRLAIHSNAEMYAWINSAQGARELNLPSVYGDAAEWNTAELRREMSHS" [] ["CCO-CYTOSOL"] +"G7948-MONOMER" "DNA-binding transcriptional regulator BglJ" ["YjjR", "BglJ"] "MEHSRIKKRNVALIEKCVMSSIGIESLFRKFAGNPYKLHTYTSQESFQDAMSRISFAAVIFSFSAMRSERREGLSCLTELAIKFPRTRRLVIADDDIEARLIGSLSPSPLDGVLSKASTLEIFHQELFLSLNGVRQATDRLNNQWYINQSRTLSPTEREILRFMSRGYSMTQIAEQLKRNIKTIRAHKFNVMSKLGVSSDAGLLEAADILLCMRHCETSNVLHPY" [] ["CCO-CYTOSOL"] +"G7949-MONOMER" "hydroxamate siderophore iron reductase" ["YjjS", "FhuF"] "MAYRSAPLYEDVIWRTHLQPQDPTLAQAVRATIAKHREHLLEFIRLDEPAPLNAMTLAQWSSPNVLSSLLAVYSDHIYRNQPMMIRENKPLISLWAQWYIGLMVPPLMLALLTQEKALDVSPEHFHAEFHETGRVACFWVDVCEDKNATPHSPQHRMETLISQALVPVVQALEATGEINGKLIWSNTGYLINWYLTEMKQLLGEATVESLRHALFFEKTLTNGEDNPLWRTVVLRDGLLVRRTCCQRYRLPDVQQCGDCTLK" ["CCO-CYTOSOL"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE", "CCO-CYTOSOL"] +"G7950-MONOMER" "16S rRNA m2G1207 methyltransferase" ["YjjT", "RsmC", "ribosomal RNA small subunit methyltransferase C"] "MSAFTPASEVLLRHSDDFEQSRILFAGDLQDDLPARLDTAASRAHTQQFHHWQVLSRQMGDNARFSLVATADDVADCDTLIYYWPKNKPEAQFQLMNLLSLLPVGTDIFVVGENRSGVRSAEQMLADYAPLNKVDSARRCGLYFGRLEKQPVFDAEKFWGEYSVDGLTVKTLPGVFSRDGLDVGSQLLLSTLTPHTKGKVLDVGCGAGVLSVAFARHSPKIRLTLCDVSAPAVEASRATLAANGVEGEVFASNVFSEVKGRFDMIISNPPFHDGMQTSLDAAQTLIRGAVRHLNSGGELRIVANAFLPYPDVLDETFGFHEVIAQTGRFKVYRAIMTRQAKKG" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"G7951-MONOMER" "putative patatin-like phospholipase YjjU" ["YjjU", "putative esterase"] "MGQRIPVTLGNIAPLSLRPFQPGRIALVCEGGGQRGIFTAGVLDEFMRAQFNPFDLYLGTSAGAQNLSAFICNQPGYARKVIMRYTTKREFFDPLRFVRGGNLIDLDWLVEATASQMPLQMDTAARLFDSGKSFYMCACRQDDYAPNYFLPTKQNWLDVIRASSAIPGFYRSGVSLEGINYLDGGISDAIPVKEAARQGAKTLVVIRTVPSQMYYTPQWFKRMERWLGDSSLQPLVNLVQHHETSYRDIQQFIEKPPGKLRIFEIYPPKPLHSIALGSRIPALREDYKLGRLCGRYFLATVGKLLTEKAPLTRHLVPVVTPESIVIPPAPVANDTLVAEVSDAPQANDPTFNNEDLA" [] ["CCO-CYTOSOL"] +"G7952-MONOMER" "putative DNase YjjV" ["YjjV"] "MICRFIDTHCHFDFPPFSGDEEASLQRAAQAGVGKIIVPATEAENFARVLALAENYQPLYAALGLHPGMLEKHSDVSLEQLQQALERRPAKVVAVGEIGLDLFGDDPQFERQQWLLDEQLKLAKRYDLPVILHSRRTHDKLAMHLKRHDLPRTGVVHGFSGSLQQAERFVQLGYKIGVGGTITYPRASKTRDVIAKLPLASLLLETDAPDMPLNGFQGQPNRPEQAARVFAVLCELRREPADEIAQALLNNTYTLFNVP" [] ["CCO-CYTOSOL"] +"G7953-MONOMER" "putative glycyl-radical enzyme activating enzyme YjjW" ["YjjW", "putative pyruvate formate lyase activating enzyme"] "MNSRCALVSKIIPFSCVDGPGSRLALFLQGCNLRCKNCHNPWTMGRCNDCGECVPQCPHQALQIVDGKVVWNAVVCEQCDTCLKRCPQHATPMAQSMSVDEVLSHVRKAVLFIEGITVSGGEATTQLPFVVALFTAIKNDPQLRHLTCLVDSNGMLSETGWEKLLPVCDGAMLDLKAWGSECHQQLTGRDNQQIKRSIYLLAERGKLAELRLLVIPGQVDYLQHIEELAAFIKGLGDVPVRLNAFHAHGVYGEAQSWASATPEDVEPLADALKVRGVSRLIFPALYL" [] ["CCO-CYTOSOL"] +"G7954-MONOMER" "uncharacterized protein YjjY" ["YjjY"] "MTKVRNCVLDALSINVNNIISLVVGTFPQDPTVSKTAVILTILTAT" [] ["CCO-MEMBRANE"] +"G8202-MONOMER" "DUF2541 domain-containing protein YaaI" ["YaaI"] "MKSVFTISASLAISLMLCCTAQANDHKLLGAIAMPRNETNDLALKLPVCRIVKRIQLSADHGDLQLSGASVYFKAARSASQSLNIPSEIKEGQTTDWININSDNDNKRCVSKITFSGHTVNSSDMATLKIIGDD" [] ["CCO-CYTOSOL"] +"G8205-MONOMER" "glyceraldehyde-3-phosphate dehydrogenase" [] "MSKVGINGFGRIGRLVLGRLLEVKSNIDVVAINDLTSP*ILAYLLKHDSNYGPFPWSVDFTEDSLIVDGKSIAVYAEKEAKNIPWKAKGAEIIVECTGFYTSAEKSQAHLDAGAKKVLISAPAGEMKTIVYNVNDDTLDGNDTIVSVASCTTNCLAPMAKALHDSFGIEVGTMTTIHAYTGTQSLVDGPRGKDLRASRAAAENIIPHTTGAAKAIGLVIPELSGKLKGHAQRVPVKTGSVTELVSILGKK*LPKR*ITHLNKQPPITSHLVIPMKK*SLPISLAAISVRCLMPRKRKLPPWAIYNW*KRSPGTITNMASSHSLFAPSKNSLN" [] [] +"G8210-MONOMER" "sorbitol-specific PTS enzyme IIC2 component" ["Sbl", "GutA", "SrlA", "enzyme IIC component of sorbitol PTS", "Enzyme IIC sorbitol"] "MIETITHGAEWFIGLFQKGGEVFTGMVTGILPLLISLLVIMNALINFIGQHRIERFAQRCAGNPVSRYLLLPCIGTFVFCNPMTLSLGRFMPEKYKPSYYAAASYSCHSMNGLFPHINPGELFVYLGIASGLTTLNLPLGPLAVSYLLVGLVTNFFRGWVTDLTTAIFEKKMGIQLEQKVHLAGATS" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"G8221-MONOMER" "acetolactate synthase II subunit IlvG" ["IlvO", "IlvG_1", "IlvG", "acetolactate synthase II, large subunit, N-ter fragment (pseudogene)", "acetolactate synthase II subunit IlvG, N-terminal fragment (pseudogene)"] "MNGAQWVVHALRAQGVNTVFGYPGGAIMPVYDALYDGGVEHLLCRHEQGAAMAAIGYARATGKTGVCIATSGPGATNLITGLADALLDSIPVVAITGQVSAPFIGTDAFQEVDVLGLSLACTKHSFLVQSLEELPRIMAEAFDVACSGRPGPVLVDIPKDIQLASGDLEPWFTTVENEVTFPHAEVEQARQMLAKAQKPMLYVGGGVGMAQAVPALREFLAATKMPATCTLKGLGAVEADYPYYLGMLGMHGTKAANFAVQECDLLIAVGARFDDRVTGKLNTFAPHASVIHMDIDPAEMNKLRQAHVALQGDLNALLPALQQPLNQ*LAATLRAAA**TFLALRPSR*RYLRAVVVKTTVGS*TCGLRRDHRCGAAPDVGCAAHRPHSPGKFHHLQRFRYHGFWFTGGGWRTSRATERYRCLYLR*RLFHDECARAGHRKTQAVTVENRLTR*PTVRDGSTMAATVFSGTIQRNHPY**PRFPHVSQRLRHPWPTHHPERPG*SGTRHHAEQ*WAIPASCLNRRT*ERLAAGAAWRQ*FRNVGEII" [] [] +"GABATRANSAM-MONOMER" "4-aminobutyrate aminotransferase GabT" ["GabT"] "MNSNKELMQRRSQAIPRGVGQIHPIFADRAENCRVWDVEGREYLDFAGGIAVLNTGHLHPKVVAAVEAQLKKLSHTCFQVLAYEPYLELCEIMNQKVPGDFAKKTLLVTTGSEAVENAVKIARAATKRSGTIAFSGAYHGRTHYTLALTGKVNPYSAGMGLMPGHVYRALYPCPLHGISEDDAIASIHRIFKNDAAPEDIAAIVIEPVQGEGGFYASSPAFMQRLRALCDEHGIMLIADEVQSGAGRTGTLFAMEQMGVAPDLTTFAKSIAGGFPLAGVTGRAEVMDAVAPGGLGGTYAGNPIACVAALEVLKVFEQENLLQKANDLGQKLKDGLLAIAEKHPEIGDVRGLGAMIAIELFEDGDHNKPDAKLTAEIVARARDKGLILLSCGPYYNVLRILVPLTIEDAQIRQGLEIISQCFDEAKQ" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"GABP-MONOMER" "4-aminobutanoate:H+ symporter" ["GabP", "GabP permease", "GABA permease", "GABA proton symporter"] "MGQSSQPHELGGGLKSRHVTMLSIAGVIGASLFVGSSVAIAEAGPAVLLAYLFAGLLVVMIMRMLAEMAVATPDTGSFSTYADKAIGRWAGYTIGWLYWWFWVLVIPLEANIAAMILHSWVPGIPIWLFSLVITLALTGSNLLSVKNYGEFEFWLALCKVIAILAFIFLGAVAISGFYPYAEVSGISRLWDSGGFMPNGFGAVLSAMLITMFSFMGAEIVTIAAAESDTPEKHIVRATNSVIWRISIFYLCSIFVVVALIPWNMPGLKAVGSYRSVLELLNIPHAKLIMDCVILLSVTSCLNSALYTASRMLYSLSRRGDAPAVMGKINRSKTPYVAVLLSTGAAFLTVVVNYYAPAKVFKFLIDSSGAIALLVYLVIAVSQLRMRKILRAEGSEIRLRMWLYPWLTWLVIGFITFVLVVMLFRPAQQLEVISTGLLAIGIICTVPIMARWKKLVLWQKTPVHNTR" ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"GALACTARDEHYDRA-MONOMER" null ["YhaG", "GarD"] "MANIEIRQETPTAFYIKVHDTDNVAIIVNDNGLKAGTRFPDGLELIEHIPQGHKVALLDIPANGEIIRYGEVIGYAVRAIPRGSWIDESMVVLPEAPPLHTLPLATKVPEPLPPLEGYTFEGYRNADGSVGTKNLLGITTSVHCVAGVVDYVVKIIERDLLPKYPNVDGVVGLNHLYGCGVAINAPAAVVPIRTIHNISLNPNFGGEVMVIGLGCEKLQPERLLTGTDDVQAIPVESASIVSLQDEKHVGFQSMVEDILQIAERHLQKLNQRQRETCPASELVVGMQCGGSDAFSGVTANPAVGYASDLLVRCGATVMFSEVTEVRDAIHLLTPRAVNEEVGKRLLEEMEWYDNYLNMGKTDRSANPSPGNKKGGLANVVEKALGSIAKSGKSAIVEVLSPGQRPTKRGLIYAATPASDFVCGTQQVASGITVQVFTTGRGTPYGLMAVPVIKMATRTELANRWFDLMDINAGTIATGEETIEEVGWKLFHFILDVASGKKKTFSDQWGLHNQLAVFNPAPVT" [] ["CCO-CYTOSOL"] +"GALACTITOLPDEHYD-MONOMER" "galactitol-1-phosphate 5-dehydrogenase" ["GatD"] "MKSVVNDTDGIVRVAESVIPEIKHQDEVRVKIASSGLCGSDLPRIFKNGAHYYPITLGHEFSGYIDAVGSGVDDLHPGDAVACVPLLPCFTCPECLKGFYSQCAKYDFIGSRRDGGFAEYIVVKRKNVFALPTDMPIEDGAFIEPITVGLHAFHLAQGCENKNVIIIGAGTIGLLAIQCAVALGAKSVTAIDISSEKLALAKSFGAMQTFNSSEMSAPQMQSVLRELRFNQLILETAGVPQTVELAVEIAGPHAQLALVGTLHQDLHLTSATFGKILRKELTVIGSWMNYSSPWPGQEWETASRLLTERKLSLEPLIAHRGSFESFAQAVRDIARNAMPGKVLLIP" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"GALACTOACETYLTRAN-MONOMER" "galactoside O-acetyltransferase" ["LacA", "thiogalactoside acetyltransferase"] "MNMPMTERIRAGKLFTDMCEGLPEKRLRGKTLMYEFNHSHPSEVEKRESLIKEMFATVGENAWVEPPVYFSYGSNIHIGRNFYANFNLTIVDDYTVTIGDNVLIAPNVTLSVTGHPVHHELRKNGEMYSFPITIGNNVWIGSHVVINPGVTIGDNSVIGAGSIVTKDIPPNVVAAGVPCRVIREINDRDKHYYFKDYKVESSV" [] ["CCO-CYTOSOL"] +"GALACTOKIN-MONOMER" null ["GalA", "GalK"] "MSLKEKTQSLFANAFGYPATHTIQAPGRVNLIGEHTDYNDGFVLPCAIDYQTVISCAPRDDRKVRVMAADYENQLDEFSLDAPIVAHENYQWANYVRGVVKHLQLRNNSFGGVDMVISGNVPQGAGLSSSASLEVAVGTVLQQLYHLPLDGAQIALNGQEAENQFVGCNCGIMDQLISALGKKDHALLIDCRSLGTKAVSMPKGVAVVIINSNFKRTLVGSEYNTRREQCETGARFFQQPALRDVTIEEFNAVAHELDPIVAKRVRHILTENARTVEAASALEQGDLKRMGELMAESHASMRDDFEITVPQIDTLVEIVKAVIGDKGGVRMTGGGFGGCIVALIPEELVPAVQQAVAEQYEAKTGIKETFYVCKPSQGAGQC" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"GALACTONATE-DEHYDRATASE-MONOMER" null ["YidU", "DgoD"] "MKITKITTYRLPPRWMFLKIETDEGVVGWGEPVIEGRARTVEAAVHELGDYLIGQDPSRINDLWQVMYRAGFYRGGPILMSAIAGIDQALWDIKGKVLNAPVWQLMGGLVRDKIKAYSWVGGDRPADVIDGIKTLREIGFDTFKLNGCEELGLIDNSRAVDAAVNTVAQIREAFGNQIEFGLDFHGRVSAPMAKVLIKELEPYRPLFIEEPVLAEQAEYYPKLAAQTHIPLAAGERMFSRFDFKRVLEAGGISILQPDLSHAGGITECYKIAGMAEAYDVTLAPHCPLGPIALAACLHIDFVSYNAVLQEQSMGIHYNKGAELLDFVKNKEDFSMVGGFFKPLTKPGLGVEIDEAKVIEFSKNAPDWRNPLWRHEDNSVAEW" [] ["CCO-CYTOSOL"] +"GALACTURIDYLYLTRANS-MONOMER" "galactose-1-phosphate uridylyltransferase" ["GalB", "GalT"] "MTQFNPVDHPHRRYNPLTGQWILVSPHRAKRPWQGAQETPAKQVLPAHDPDCFLCAGNVRVTGDKNPDYTGTYVFTNDFAALMSDTPDAPESHDPLMRCQSARGTSRVICFSPDHSKTLPELSVAALTEIVKTWQEQTAELGKTYPWVQVFENKGAAMGCSNPHPHGQIWANSFLPNEAEREDRLQKEYFAEQKSPMLVDYVQRELADGSRTVVETEHWLAVVPYWAAWPFETLLLPKAHVLRITDLTDAQRSDLALALKKLTSRYDNLFQCSFPYSMGWHGAPFNGEENQHWQLHAHFYPPLLRSATVRKFMVGYEMLAETQRDLTAEQAAERLRAVSDIHFRESGV" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"GALP-MONOMER" "galactose:H+ symporter" ["GalP"] "MPDAKKQGRSNKAMTFFVCFLAALAGLLFGLDIGVIAGALPFIADEFQITSHTQEWVVSSMMFGAAVGAVGSGWLSFKLGRKKSLMIGAILFVAGSLFSAAAPNVEVLILSRVLLGLAVGVASYTAPLYLSEIAPEKIRGSMISMYQLMITIGILGAYLSDTAFSYTGAWRWMLGVIIIPAILLLIGVFFLPDSPRWFAAKRRFVDAERVLLRLRDTSAEAKRELDEIRESLQVKQSGWALFKENSNFRRAVFLGVLLQVMQQFTGMNVIMYYAPKIFELAGYTNTTEQMWGTVIVGLTNVLATFIAIGLVDRWGRKPTLTLGFLVMAAGMGVLGTMMHIGIHSPSAQYFAIAMLLMFIVGFAMSAGPLIWVLCSEIQPLKGRDFGITCSTATNWIANMIVGATFLTMLNTLGNANTFWVYAALNVLFILLTLWLVPETKHVSLEHIERNLMKGRKLREIGAHD" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"GALPMUT-MONOMER" null ["YefE", "Glf"] "MYDYIIVGSGLFGAVCANELKKLNKKVLVIEKRNHIGGNAYTEDCEGIQIHKYGAHIFHTNDKYIWDYVNDLVEFNRFTNSPLAIYKDKLFNLPFNMNTFHQMWGVKDPQEAQNIINAQKKKYGDKVPENLEEQAISLVGEDLYQALIKGYTEKQWGRSAKELPAFIIKRIPVRFTFDNNYFSDRYQGIPVGGYTKLIEKMLEGVDVKLGIDFLKDKDSLASKAHRIIYTGPIDQYFDYRFGALEYRSLKFETERHEFPNFQGNAVINFTDANVPYTRIIEHKHFDYVETKHTVVTKEYPLEWKVGDEPYYPVNDNKNMELFKKYRELASREDKVIFGGRLAEYKYYDMHQVISAALYQVKNIMSTD" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"GAPDH-A-MONOMER" "glyceraldehyde-3-phosphate dehydrogenase A" ["Gad", "GapA", "Gap1"] "MTIKVGINGFGRIGRIVFRAAQKRSDIEIVAINDLLDADYMAYMLKYDSTHGRFDGTVEVKDGHLIVNGKKIRVTAERDPANLKWDEVGVDVVAEATGLFLTDETARKHITAGAKKVVMTGPSKDNTPMFVKGANFDKYAGQDIVSNASCTTNCLAPLAKVINDNFGIIEGLMTTVHATTATQKTVDGPSHKDWRGGRGASQNIIPSSTGAAKAVGKVLPELNGKLTGMAFRVPTPNVSVVDLTVRLEKAATYEQIKAAVKAAAEGEMKGVLGYTEDDVVSTDFNGEVCTSVFDAKAGIALNDNFVKLVSWYDNETGYSNKVLDLIAHISK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"GART-MONOMER" "phosphoribosylglycinamide formyltransferase 1" ["Ade", "PurN"] "MNIVVLISGNGSNLQAIIDACKTNKIKGTVRAVFSNKADAFGLERARQAGIATHTLIASAFDSREAYDRELIHEIDMYAPDVVVLAGFMRILSPAFVSHYAGRLLNIHPSLLPKYPGLHTHRQALENGDEEHGTSVHFVTDELDGGPVILQAKVPVFAGDSEDDITARVQTQEHAIYPLVISWFADGRLKMHENAAWLDGQRLPPQGYAADE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"GARTRANSFORMYL2-MONOMER" "phosphoribosylglycinamide formyltransferase 2" ["PurT", "GART2", "glycinamide ribonucleotide transformylase 2", "5'-phosphoribosylglycinamide transformylase 2", "GAR transformylase 2", "GAR transformylase T"] "MTLLGTALRPAATRVMLLGSGELGKEVAIECQRLGVEVIAVDRYADAPAMHVAHRSHVINMLDGDALRRVVELEKPHYIVPEIEAIATDMLIQLEEEGLNVVPCARATKLTMNREGIRRLAAEELQLPTSTYRFADSESLFREAVADIGYPCIVKPVMSSSGKGQTFIRSAEQLAQAWKYAQQGGRAGAGRVIVEGVVKFDFEITLLTVSAVDGVHFCAPVGHRQEDGDYRESWQPQQMSPLALERAQEIARKVVLALGGYGLFGVELFVCGDEVIFSEVSPRPHDTGMVTLISQDLSEFALHVRAFLGLPVGGIRQYGPAASAVILPQLTSQNVTFDNVQNAVGADLQIRLFGKPEIDGSRRLGVALATAESVVDAIERAKHAAGQVKVQG" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"GATA-MONOMER" "galactitol-specific PTS enzyme IIA component" ["Enzyme IIA Gat", "EIIA Gat"] "MTNLFVRSGISFVDRSEVLTHIGNEMLAKGVVHDTWPQALIAREAEFPTGIMLEQHAIAIPHCEAIHAKSSAIYLLRPTNKVHFQQADDDNDVAVSLVIALIVENPQQQLKLLRCLFGKLQQPDIVETLITLPETQLKEYFTKYVLDSDE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"GATB-MONOMER" "galactitol-specific PTS enzyme IIB component" ["Enzyme IIB Gat", "EIIB Gat"] "MKRKIIVACGGAVATSTMAAEEIKELCQNHNIPVELIQCRVNEIETYMDGVHLICTTAKVDRSFGDIPLVHGMPFISGIGIEALQNKILTILQG" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"GATC-MONOMER" "galactitol-specific PTS enzyme IIC component" ["Enzyme IICGat", "EIICGat"] "MFSEVMRYILDLGPTVMLPIVIIIFSKILGMKAGDCFKAGLHIGIGFVGIGLVIGLMLDSIGPAAKAMAENFDLNLHVVDVGWPGSSPMTWASQIALVAIPIAILVNVAMLLTRMTRVVNVDIWNIWHMTFTGALLHLATGSWMIGMAGVVIHAAFVYKLGDWFARDTRNFFELEGIAIPHGTSAYMGPIAVLVDAIIEKIPGVNRIKFSADDIQRKFGPFGEPVTVGFVMGLIIGILAGYDVKGVLQLAVKTAAVMLLMPRVIKPIMDGLTPIAKQARSRLQAKFGGQEFLIGLDPALLLGHTAGWYRQA*FLSHSPF*LLFVCRVIRCCRLAILPPSASSWRWRSPCIVEICSAP*SRVSSL*ASPCGSRRKLLVCTPNWRLMLGR*KPGVWWLQWIRAVLPLPGY*FRFSPRKIFPVSLLSVQFI*PVFS*PGVERVALLNKRKSFSQ" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"GCVH-MONOMER" "glycine cleavage system H protein" ["Gcv", "H-protein", "GcvH"] "MSNVPAELKYSKEHEWLRKEADGTYTVGITEHAQELLGDMVFVDLPEVGATVSAGDDCAVAESVKAASDIYAPVSGEIVAVNDALSDSPELVNSEPYAGGWIFKIKASDESELESLLDATAYEALLEDE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"GCVP-MONOMER" "glycine decarboxylase" ["GcvP", "P-protein"] "MTQTLSQLENSGAFIERHIGPDAAQQQEMLNAVGAQSLNALTGQIVPKDIQLATPPQVGAPATEYAALAELKAIASRNKRFTSYIGMGYTAVQLPPVILRNMLENPGWYTAYTPYQPEVSQGRLEALLNFQQVTLDLTGLDMASASLLDEATAAAEAMAMAKRVSKLKNANRFFVASDVHPQTLDVVRTRAETFGFEVIVDDAQKVLDHQDVFGVLLQQVGTTGEIHDYTALISELKSRKIVVSVAADIMALVLLTAPGKQGADIVFGSAQRFGVPMGYGGPHAAFFAAKDEYKRSMPGRIIGVSKDAAGNTALRMAMQTREQHIRREKANSNICTSQVLLANIASLYAVYHGPVGLKRIANRIHRLTDILAAGLQQKGLKLRHAHYFDTLCVEVADKAGVLTRAEAAEINLRSDILNAVGITLDETTTRENVMQLFNVLLGDNHGLDIDTLDKDVAHDSRSIQPAMLRDDEILTHPVFNRYHSETEMMRYMHSLERKDLALNQAMIPLGSCTMKLNAAAEMIPITWPEFAELHPFCPPEQAEGYQQMIAQLADWLVKLTGYDAVCMQPNSGAQGEYAGLLAIRHYHESRNEGHRDICLIPASAHGTNPASAHMAGMQVVVVACDKNGNIDLTDLRAKAEQAGDNLSCIMVTYPSTHGVYEETIREVCEVVHQFGGQVYLDGANMNAQVGITSPGFIGADVSHLNLHKTFCIPHGGGGPGMGPIGVKAHLAPFVPGHSVVQIEGMLTRQGAVSAAPFGSASILPISWMYIRMMGAEGLKKASQVAILNANYIASRLQDAFPVLYTGRDGRVAHECILDIRPLKEETGISELDIAKRLIDYGFHAPTMSFPVAGTLMVEPTESESKVELDRFIDAMLAIRAEIDQVKAGVWPLEDNPLVNAPHIQSELVAEWAHPYSREVAVFPAGVADKYWPTVKRLDDVYGDRNLFCSCVPISEYQ" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"GCVT-MONOMER" null ["GcvT", "T-protein"] "MAQQTPLYEQHTLCGARMVDFHGWMMPLHYGSQIDEHHAVRTDAGMFDVSHMTIVDLRGSRTREFLRYLLANDVAKLTKSGKALYSGMLNASGGVIDDLIVYYFTEDFFRLVVNSATREKDLSWITQHAEPFGIEITVRDDLSMIAVQGPNAQAKAATLFNDAQRQAVEGMKPFFGVQAGDLFIATTGYTGEAGYEIALPNEKAADFWRALVEAGVKPCGLGARDTLRLEAGMNLYGQEMDETISPLAANMGWTIAWEPADRDFIGREALEVQREHGTEKLVGLVMTEKGVLRNELPVRFTDAQGNQHEGIITSGTFSPTLGYSIALARVPEGIGETAIVQIRNREMPVKVTKPVFVRNGKAVA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"GDHA-MONOMER" "glutamate dehydrogenase" ["GdhA"] "MDQTYSLESFLNHVQKRDPNQTEFAQAVREVMTTLWPFLEQNPKYRQMSLLERLVEPERVIQFRVVWVDDRNQIQVNRAWRVQFSSAIGPYKGGMRFHPSVNLSILKFLGFEQTFKNALTTLPMGGGKGGSDFDPKGKSEGEVMRFCQALMTELYRHLGADTDVPAGDIGVGGREVGFMAGMMKKLSNNTACVFTGKGLSFGGSLIRPEATGYGLVYFTEAMLKRHGMGFEGMRVSVSGSGNVAQYAIEKAMEFGARVITASDSSGTVVDESGFTKEKLARLIEIKASRDGRVADYAKEFGLVYLEGQQPWSLPVDIALPCATQNELDVDAAHQLIANGVKAVAEGANMPTTIEATELFQQAGVLFAPGKAANAGGVATSGLEMAQNAARLGWKAEKVDARLHHIMLDIHHACVEHGGEGEQTNYVQGANIAGFVKVADAMLAQGVI" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"GDPMANDEHYDRA-MONOMER" "GDP-mannose 4,6-dehydratase" ["YefN", "YefA", "Gmd"] "MSKVALITGVTGQDGSYLAEFLLEKGYEVHGIKRRASSFNTERVDHIYQDPHTCNPKFHLHYGDLSDTSNLTRILREVQPDEVYNLGAMSHVAVSFESPEYTADVDAMGTLRLLEAIRFLGLEKKTRFYQASTSELYGLVQEIPQKETTPFYPRSPYAVAKLYAYWITVNYRESYGMYACNGILFNHESPRRGETFVTRKITRAIANIAQGLESCLYLGNMDSLRDWGHAKDYVKMQWMMLQQEQPEDFVIATGVQYSVRQFVEMAAAQLGIKLRFEGTGVEEKGIVVSVTGHDAPGVKPGDVIIAVDPRYFRPAEVETLLGDPTKAHEKLGWKPEITLREMVSEMVANDLEAAKKHSLLKSHGYDVAIALES" [] ["CCO-CYTOSOL"] +"GDPMANMANHYDRO-MONOMER" "GDP-mannose mannosyl hydrolase" ["Gmm", "NudD", "YefC", "WcaH"] "MFLRQEDFATVVRSTPLVSLDFIVENSRGEFLLGKRTNRPAQGYWFVPGGRVQKDETLEAAFERLTMAELGLRLPITAGQFYGVWQHFYDDNFSGTDFTTHYVVLGFRFRVSEEELLLPDEQHDDYRWLTSDALLASDNVHANSRAYFLAEKRTGVPGL" [] ["CCO-CYTOSOL"] +"GKI-MONOMER" "glycerate 2-kinase 1" ["YhaD", "GarK", "glycerate 2-kinase I"] "MKIVIAPDSYKESLSASEVAQAIEKGFREIFPDAQYVSVPVADGGEGTVEAMIAATQGAERHAWVTGPLGEKVNASWGISGDGKTAFIEMAAASGLELVPAEKRDPLVTTSRGTGELILQALESGATNIIIGIGGSATNDGGAGMVQALGAKLCDANGNEIGFGGGSLNTLNDIDISGLDPRLKDCVIRVACDVTNPLVGDNGASRIFGPQKGASEAMIVELDNNLSHYAEVIKKALHVDVKDVPGAGAAGGMGAALMAFLGAELKSGIEIVTTALNLEEHIHDCTLVITGEGRIDSQSIHGKVPIGVANVAKKYHKPVIGIAGSLTDDVGVVHQHGIDAVFSVLTSIGTLDEAFRGAYDNICRASRNIAATLAIGMRNAG" [] ["CCO-CYTOSOL"] +"GLCNACPTRANS-MONOMER" "UDP-N-acetylglucosamine—undecaprenyl-phosphate N-acetylglucosaminephosphotransferase" ["WecA", "Rfe"] "MNLLTVSTDLISIFLFTTLFLFFARKVAKKVGLVDKPNFRKRHQGLIPLVGGISVYAGICFTFGIVDYYIPHASLYLACAGVLVFIGALDDRFDISVKIRATIQAAVGIVMMVFGKLYLSSLGYIFGSWEMVLGPFGYFLTLFAVWAAINAFNMVDGIDGLLGGLSCVSFAAIGMILWFDGQTSLAIWCFAMIAAILPYIMLNLGILGRRYKVFMGDAGSTLIGFTVIWILLETTQGKTHPISPVTALWIIAIPLMDMVAIMYRRLRKGMSPFSPDRQHIHHLIMRAGFTSRQAFVLITLAAALLASIGVLAEYSHFVPEWVMLVLFLLAFFLYGYCIKRAWKVARFIKRVKRRLRRNRGGSPNLTK" ["CCO-CW-BAC-NEG", "CCO-PM-BAC-NEG", "CCO-MEMBRANE"] ["CCO-CW-BAC-NEG", "CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"GLND-MONOMER" "PII uridylyltransferase / uridylyl removing enzyme" ["GlnD", "UTase/UR"] "MNTLPEQYANTALPTLPGQPQNPCVWPRDELTVGGIKAHIDTFQRWLGDAFDNGISAEQLIEARTEFIDQLLQRLWIEAGFSQIADLALVAVGGYGRGELHPLSDVDLLILSRKKLPDDQAQKVGELLTLLWDVKLEVGHSVRTLEECMLEGLSDLTVATNLIESRLLIGDVALFLELQKHIFSEGFWPSDKFYAAKVEEQNQRHQRYHGTSYNLEPDIKSSPGGLRDIHTLQWVARRHFGATSLDEMVGFGFLTSAERAELNECLHILWRIRFALHLVVSRYDNRLLFDRQLSVAQRLNYSGEGNEPVERMMKDYFRVTRRVSELNQMLLQLFDEAILALPADEKPRPIDDEFQLRGTLIDLRDETLFMRQPEAILRMFYTMVHNSAITGIYSTTLRQLRHARRHLQQPLCNIPEARKLFLSILRHPGAVRRGLLPMHRHSVLGAYMPQWSHIVGQMQFDLFHAYTVDEHTIRVMLKLESFASEETRQRHPLCVDVWPRLPSTELIFIAALFHDIAKGRGGDHSILGAQDVVHFAELHGLNSRETQLVAWLVRQHLLMSVTAQRRDIQDPEVIKQFAEEVQTENRLRYLVCLTVADICATNETLWNSWKQSLLRELYFATEKQLRRGMQNTPDMRERVRHHQLQALALLRMDNIDEEALHQIWSRCRANYFVRHSPNQLAWHARHLLQHDLSKPLVLLSPQATRGGTEIFIWSPDRPYLFAAVCAELDRRNLSVHDAQIFTTRDGMAMDTFIVLEPDGNPLSADRHEVIRFGLEQVLTQSSWQPPQPRRQPAKLRHFTVETEVTFLPTHTDRKSFLELIALDQPGLLARVGKIFADLGISLHGARITTIGERVEDLFIIATADRRALNNELQQEVHQRLTEALNPNDKG" [] ["CCO-PM-BAC-NEG"] +"GLNE-MONOMER" "fused glutamine synthetase deadenylase/glutamine synthetase adenylyltransferase" ["GlnE"] "MKPLSSPLQQYWQTVVERLPEPLAEESLSAQAKSVLTFSDFVQDSVIAHPEWLTELESQPPQADEWQHYAAWLQEALCNVSDEAGLMRELRLFRRRIMVRIAWAQTLALVTEESILQQLSYLAETLIVAARDWLYDACCREWGTPCNAQGEAQPLLILGMGKLGGGELNFSSDIDLIFAWPEHGCTQGGRRELDNAQFFTRMGQRLIKVLDQPTQDGFVYRVDMRLRPFGESGPLVLSFAALEDYYQEQGRDWERYAMVKARIMGDSEGVYANELRAMLRPFVFRRYIDFSVIQSLRNMKGMIAREVRRRGLTDNIKLGAGGIREIEFIVQVFQLIRGGREPSLQSRSLLPTLSAIAELHLLSENDAEQLRVAYLFLRRLENLLQSINDEQTQTLPSDELNRARLAWAMDFADWPQLTGALTAHMTNVRRVFNELIGDDESETQEESLSEQWRELWQDALQEDDTTPVLAHLSEDDRKQVLTLIADFRKELDKRTIGPRGRQVLDHLMPHLLSDVCAREDAAVTLSRITALLVGIVTRTTYLELLSEFPAALKHLISLCAASPMIASQLARYPLLLDELLDPNTLYQPTATDAYRDELRQYLLRVPEDDEEQQLEALRQFKQAQLLRIAAADIAGTLPVMKVSDHLTWLAEAMIDAVVQQAWVQMVARYGKPNHLNEREGRGFAVVGYGKLGGWELGYSSDLDLIFLHDCPMDAMTDGEREIDGRQFYLRLAQRIMHLFSTRTSSGILYEVDARLRPSGAAGMLVTSAEAFADYQKNEAWTWEHQALVRARVVYGDPQLTAHFDAVRREIMTLPREGKTLQTEVREMREKMRAHLGNKHRDRFDIKADEGGITDIEFITQYLVLRYAHEKPKLTRWSDNVRILELLAQNDIMEEQEAMALTRAYTTLRDELHHLALQELPGHVSEDCFTAERELVRASWQKWLVEE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"GLNH-MONOMER" "L-glutamine ABC transporter periplasmic binding protein" ["GlnBP"] "MKSVLKVSLAALTLAFAVSSHAADKKLVVATDTAFVPFEFKQGDKYVGFDVDLWAAIAKELKLDYELKPMDFSGIIPALQTKNVDLALAGITITDERKKAIDFSDGYYKSGLLVMVKANNNDVKSVKDLDGKVVAVKSGTGSVDYAKANIKTKDLRQFPNIDNAYMELGTNRADAVLHDTPNILYFIKTAGNGQFKAVGDSLEAQQYGIAFPKGSDELRDKVNGALKTLRENGTYNEIYKKWFGTEPK" ["CCO-PERI-BAC"] ["CCO-MEMBRANE", "CCO-PERI-BAC"] +"GLNP-MONOMER" "L-glutamine ABC transporter membrane subunit" [] "MQFDWSAIWPAIPLLIEGAKMTLWISVLGLAGGLVIGLLAGFARTFGGWIANHVALVFIEVIRGTPIVVQVMFIYFALPMAFNDLRIDPFTAAVVTIMINSGAYIAEITRGAVLSIHKGFREAGLALGLSRWETIRYVILPLALRRMLPPLGNQWIISIKDTSLFIVIGVAELTRQGQEIIAGNFRALEIWSAVAVFYLIITLVLSFILRRLERRMKIL" ["CCO-PM-BAC-NEG"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"GLNQ-MONOMER" "L-glutamine ABC transporter ATP binding subunit" [] "MIEFKNVSKHFGPTQVLHNIDLNIAQGEVVVIIGPSGSGKSTLLRCINKLEEITSGDLIVDGLKVNDPKVDERLIRQEAGMVFQQFYLFPHLTALENVMFGPLRVRGANKEEAEKLARELLAKVGLAERAHHYPSELSGGQQQRVAIARALAVKPKMMLFDEPTSALDPELRHEVLKVMQDLAEEGMTMVIVTHEIGFAEKVASRLIFIDKGRIAEDGNPQVLIKNPPSQRLQEFLQHVS" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"GLNS-MONOMER" "glutamine—tRNA ligase" ["GlnS", "GlnRS"] "MSEAEARPTNFIRQIIDEDLASGKHTTVHTRFPPEPNGYLHIGHAKSICLNFGIAQDYKGQCNLRFDDTNPVKEDIEYVESIKNDVEWLGFHWSGNVRYSSDYFDQLHAYAIELINKGLAYVDELTPEQIREYRGTLTQPGKNSPYRDRSVEENLALFEKMRAGGFEEGKACLRAKIDMASPFIVMRDPVLYRIKFAEHHQTGNKWCIYPMYDFTHCISDALEGITHSLCTLEFQDNRRLYDWVLDNITIPVHPRQYEFSRLNLEYTVMSKRKLNLLVTDKHVEGWDDPRMPTISGLRRRGYTAASIREFCKRIGVTKQDNTIEMASLESCIREDLNENAPRAMAVIDPVKLVIENYQGEGEMVTMPNHPNKPEMGSRQVPFSGEIWIDRADFREEANKQYKRLVLGKEVRLRNAYVIKAERVEKDAEGNITTIFCTYDADTLSKDPADGRKVKGVIHWVSAAHALPVEIRLYDRLFSVPNPGAADDFLSVINPESLVIKQGFAEPSLKDAVAGKAFQFEREGYFCLDSRHSTAEKPVFNRTVGLRDTWAKVGE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"GLPF-MONOMER" "glycerol facilitator" ["GlpF"] "MSQTSTLKGQCIAEFLGTGLLIFFGVGCVAALKVAGASFGQWEISVIWGLGVAMAIYLTAGVSGAHLNPAVTIALWLFACFDKRKVIPFIVSQVAGAFCAAALVYGLYYNLFFDFEQTHHIVRGSVESVDLAGTFSTYPNPHINFVQAFAVEMVITAILMGLILALTDDGNGVPRGPLAPLLIGLLIAVIGASMGPLTGFAMNPARDFGPKVFAWLAGWGNVAFTGGRDIPYFLVPLFGPIVGAIVGAFAYRKLIGRHLPCDICVVEEKETTTPSEQKASL" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"GLPT-MONOMER" null ["GlpT", "GlpT glycerol-3-P MFS transporter"] "MLSIFKPAPHKARLPAAEIDPTYRRLRWQIFLGIFFGYAAYYLVRKNFALAMPYLVEQGFSRGDLGFALSGISIAYGFSKFIMGSVSDRSNPRVFLPAGLILAAAVMLFMGFVPWATSSIAVMFVLLFLCGWFQGMGWPPCGRTMVHWWSQKERGGIVSVWNCAHNVGGGIPPLLFLLGMAWFNDWHAALYMPAFCAILVALFAFAMMRDTPQSCGLPPIEEYKNDYPDDYNEKAEQELTAKQIFMQYVLPNKLLWYIAIANVFVYLLRYGILDWSPTYLKEVKHFALDKSSWAYFLYEYAGIPGTLLCGWMSDKVFRGNRGATGVFFMTLVTIATIVYWMNPAGNPTVDMICMIVIGFLIYGPVMLIGLHALELAPKKAAGTAAGFTGLFGYLGGSVAASAIVGYTVDFFGWDGGFMVMIGGSILAVILLIVVMIGEKRRHEQLLQERNGG" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"GLTJ-MONOMER" "glutamate/aspartate ABC transporter membrane subunit GltJ" [] "MSIDWNWGIFLQQAPFGNTTYLGWIWSGFQVTIALSICAWIIAFLVGSFFGILRTVPNRFLSGLGTLYVELFRNVPLIVQFFTWYLVIPELLPEKIGMWFKAELDPNIQFFLSSMLCLGLFTAARVCEQVRAAIQSLPRGQKNAALAMGLTLPQAYRYVLLPNAYRVIVPPMTSEMMNLVKNSAIASTIGLVDMAAQAGKLLDYSAHAWESFTAITLAYVLINAFIMLVMTLVERKVRLPGNMGGK" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"GLTK-MONOMER" "glutamate/aspartate ABC transporter membrane subunit GltK" [] "MYEFDWSSIVPSLPYLLDGLVITLKITVTAVVIGILWGTMLAVMRLSSFAPVAWFAKAYVNVFRSIPLVMVLLWFYLIVPGFLQNVLGLSPKNDIRLISAMVAFSMFEAAYYSEIIRAGIQSISRGQSSAALALGMTHWQSMKLIILPQAFRAMVPLLLTQGIVLFQDTSLVYVLSLADFFRTASTIGERDGTQVEMILFAGFVYFVISLSASLLVSYLKRRTA" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"GLTL-MONOMER" "glutamate/aspartate ABC transporter ATP binding subunit" [] "MITLKNVSKWYGHFQVLTDCSTEVKKGEVVVVCGPSGSGKSTLIKTVNGLEPVQQGEITVDGIVVNDKKTDLAKLRSRVGMVFQHFELFPHLSIIENLTLAQVKVLKRDKAPAREKALKLLERVGLSAHANKFPAQLSGGQQQRVAIARALCMDPIAMLFDEPTSALDPEMINEVLDVMVELANEGMTMMVVTHEMGFARKVANRVIFMDEGKIVEDSPKDAFFDDPKSDRAKDFLAKILH" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"GLTP-MONOMER" "glutamate/aspartate : H+ symporter GltP" ["GltP", "GltII"] "MKNIKFSLAWQILFAMVLGILLGSYLHYHSDSRDWLVVNLLSPAGDIFIHLIKMIVVPIVISTLVVGIAGVGDAKQLGRIGAKTIIYFEVITTVAIILGITLANVFQPGAGVDMSQLATVDISKYQSTTEAVQSSSHGIMGTILSLVPTNIVASMAKGEMLPIIFFSVLFGLGLSSLPATHREPLVTVFRSISETMFKVTHMVMRYAPVGVFALIAVTVANFGFSSLWPLAKLVLLVHFAILFFALVVLGIVARLCGLSVWILIRILKDELILAYSTASSESVLPRIIEKMEAYGAPVSITSFVVPTGYSFNLDGSTLYQSIAAIFIAQLYGIDLSIWQEIILVLTLMVTSKGIAGVPGVSFVVLLATLGSVGIPLEGLAFIAGVDRILDMARTALNVVGNALAVLVIAKWEHKFDRKKALAYEREVLGKFDKTADQ" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"GLTS-MONOMER" "glutamate:sodium symporter" ["GltC", "GltS"] "MFHLDTLATLVAATLTLLLGRKLVHSVSFLKKYTIPEPVAGGLLVALALLVLKKSMGWEVNFDMSLRDPLMLAFFATIGLNANIASLRAGGRVVGIFLIVVVGLLVMQNAIGIGMASLLGLDPLMGLLAGSITLSGGHGTGAAWSKLFIERYGFTNATEVAMACATFGLVLGGLIGGPVARYLVKHSTTPNGIPDDQEVPTAFEKPDVGRMITSLVLIETIALIAICLTVGKIVAQLLAGTAFELPTFVCVLFVGVILSNGLSIMGFYRVFERAVSVLGNVSLSLFLAMALMGLKLWELASLALPMLAILVVQTIFMALYAIFVTWRMMGKNYDAAVLAAGHCGFGLGATPTAIANMQAITERFGPSHMAFLVVPMVGAFFIDIVNALVIKLYLMLPIFAG" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"GLU6PDEHYDROG-MONOMER" null ["Zwf", "G6PDH"] "MAVTQTAQACDLVIFGAKGDLARRKLLPSLYQLEKAGQLNPDTRIIGVGRADWDKAAYTKVVREALETFMKETIDEGLWDTLSARLDFCNLDVNDTAAFSRLGAMLDQKNRITINYFAMPPSTFGAICKGLGEAKLNAKPARVVMEKPLGTSLATSQEINDQVGEYFEECQVYRIDHYLGKETVLNLLALRFANSLFVNNWDNRTIDHVEITVAEEVGIEGRWGYFDKAGQMRDMIQNHLLQILCMIAMSPPSDLSADSIRDEKVKVLKSLRRIDRSNVREKTVRGQYTAGFAQGKKVPGYLEEEGANKSSNTETFVAIRVDIDNWRWAGVPFYLRTGKRLPTKCSEVVVYFKTPELNLFKESWQDLPQNKLTIRLQPDEGVDIQVLNKVPGLDHKHNLQITKLDLSYSETFNQTHLADAYERLLLETMRGIQALFVRRDEVEEAWKWVDSITEAWAMDNDAPKPYQAGTWGPVASVAMITRDGRSWNEFE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"GLUC1PADENYLTRANS-MONOMER" "glucose-1-phosphate adenylyltransferase" ["GlgC"] "MVSLEKNDHLMLARQLPLKSVALILAGGRGTRLKDLTNKRAKPAVHFGGKFRIIDFALSNCINSGIRRMGVITQYQSHTLVQHIQRGWSFFNEEMNEFVDLLPAQQRMKGENWYRGTADAVTQNLDIIRRYKAEYVVILAGDHIYKQDYSRMLIDHVEKGARCTVACMPVPIEEASAFGVMAVDENDKIIEFVEKPANPPSMPNDPSKSLASMGIYVFDADYLYELLEEDDRDENSSHDFGKDLIPKITEAGLAYAHPFPLSCVQSDPDAEPYWRDVGTLEAYWKANLDLASVVPELDMYDRNWPIRTYNESLPPAKFVQDRSGSHGMTLNSLVSGGCVISGSVVVQSVLFSRVRVNSFCNIDSAVLLPEVWVGRSCRLRRCVIDRACVIPEGMVIGENAEEDARRFYRSEEGIVLVTREMLRKLGHKQER" [] ["CCO-CYTOSOL"] +"GLUC1PURIDYLTRANS-MONOMER" "UTP—glucose-1-phosphate uridylyltransferase" ["GalU", "YchD"] "MAAINTKVKKAVIPVAGLGTRMLPATKAIPKEMLPLVDKPLIQYVVNECIAAGITEIVLVTHSSKNSIENHFDTSFELEAMLEKRVKRQLLDEVQSICPPHVTIMQVRQGLAKGLGHAVLCAHPVVGDEPVAVILPDVILDEYESDLSQDNLAEMIRRFDETGHSQIMVEPVADVTAYGVVDCKGVELAPGESVPMVGVVEKPKADVAPSNLAIVGRYVLSADIWPLLAKTPPGAGDEIQLTDAIDMLIEKETVEAYHMKGKSHDCGNKLGYMQAFVEYGIRHNTLGTEFKAWLEEEMGIKK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"GLUCARDEHYDRA-MONOMER" "D-glucarate dehydratase" ["YgcX", "GudD"] "MSSQFTTPVVTEMQVIPVAGHDSMLMNLSGAHAPFFTRNIVIIKDNSGHTGVGEIPGGEKIRKTLEDAIPLVVGKTLGEYKNVLTLVRNTFADRDAGGRGLQTFDLRTTIHVVTGIEAAMLDLLGQHLGVNVASLLGDGQQRSEVEMLGYLFFVGNRKATPLPYQSQPDDSCDWYRLRHEEAMTPDAVVRLAEAAYEKYGFNDFKLKGGVLAGEEEAESIVALAQRFPQARITLDPNGAWSLNEAIKIGKYLKGSLAYAEDPCGAEQGFSGREVMAEFRRATGLPTATNMIATDWRQMGHTLSLQSVDIPLADPHFWTMQGSVRVAQMCHEFGLTWGSHSNNHFDISLAMFTHVAAAAPGKITAIDTHWIWQEGNQRLTKEPFEIKGGLVQVPEKPGLGVEIDMDQVMKAHELYQKHGLGARDDAMGMQYLIPGWTFDNKRPCMVR" [] ["CCO-CYTOSOL"] +"GLUCDEHYDROG-MONOMER" "quinoprotein glucose dehydrogenase" ["Gcd"] "MAINNTGSRRLLVTLTALFAALCGLYLLIGGGWLVAIGGSWYYPIAGLVMLGVAWMLWRSKRAALWLYAALLLGTMIWGVWEVGFDFWALTPRSDILVFFGIWLILPFVWRRLVIPASGAVAALVVALLISGGILTWAGFNDPQEINGTLSADATPAEAISPVADQDWPAYGRNQEGQRFSPLKQINADNVHNLKEAWVFRTGDVKQPNDPGEITNEVTPIKVGDTLYLCTAHQRLFALDAASGKEKWHYDPELKTNESFQHVTCRGVSYHEAKAETASPEVMADCPRRIILPVNDGRLIAINAENGKLCETFANKGVLNLQSNMPDTKPGLYEPTSPPIITDKTIVMAGSVTDNFSTRETSGVIRGFDVNTGELLWAFDPGAKDPNAIPSDEHTFTFNSPNSWAPAAYDAKLDLVYLPMGVTTPDIWGGNRTPEQERYASSILALNATTGKLAWSYQTVHHDLWDMDLPAQPTLADITVNGQKVPVIYAPAKTGNIFVLDRRNGELVVPAPEKPVPQGAAKGDYVTPTQPFSELSFRPTKDLSGADMWGATMFDQLVCRVMFHQMRYEGIFTPPSEQGTLVFPGNLGMFEWGGISVDPNREVAIANPMALPFVSKLIPRGPGNPMEQPKDAKGTGTESGIQPQYGVPYGVTLNPFLSPFGLPCKQPAWGYISALDLKTNEVVWKKRIGTPQDSMPFPMPVPVPFNMGMPMLGGPISTAGNVLFIAATADNYLRAYNMSNGEKLWQGRLPAGGQATPMTYEVNGKQYVVISAGGHGSFGTKMGDYIVAYALPDDVK" ["CCO-MEMBRANE"] ["CCO-PERI-BAC", "CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"GLUCOKIN-MONOMER" "glucokinase" ["Glk"] "MTKYALVGDVGGTNARLALCDIASGEISQAKTYSGLDYPSLEAVIRVYLEEHKVEVKDGCIAIACPITGDWVAMTNHTWAFSIAEMKKNLGFSHLEIINDFTAVSMAIPMLKKEHLIQFGGAEPVEGKPIAVYGAGTGLGVAHLVHVDKRWVSLPGEGGHVDFAPNSEEEAIILEILRAEIGHVSAERVLSGPGLVNLYRAIVKADNRLPENLKPKDITERALADSCTDCRRALSLFCVIMGRFGGNLALNLGTFGGVFIAGGIVPRFLEFFKASGFRAAFEDKGRFKEYVHDIPVYLIVHDNPGLLGSGAHLRQTLGHIL" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"GLUCONOKINI-MONOMER" "D-gluconate kinase, thermosensitive" ["GntV", "IdnK", "gluconokinase II"] "MAGESFILMGVSGSGKTLIGSKVAALLSAKFIDGDDLHPAKNIDKMSQGIPLSDEDRLPWLERLNDASYSLYKKNETGFIVCSSLKKQYRDILRKGSPHVHFLWLDGDYETILARMQRRAGHFMPVALLKSQFEALERPQADEQDIVRIDINHDIANVTEQCRQAVLAIRQNRICAKEGSASDQRCE" [] ["CCO-CYTOSOL"] +"GLUCONOKINII-MONOMER" "D-gluconate kinase, thermostable" ["GntK"] "MSTTNHDHHIYVLMGVSGSGKSAVASEVAHQLHAAFLDGDFLHPRRNIEKMASGEPLNDDDRKPWLQALNDAAFAMQRTNKVSLIVCSALKKHYRDLLREGNPNLSFIYLKGDFDVIESRLKARKGHFFKTQMLVTQFETLQEPGADETDVLVVDIDQPLEGVVASTIEVIKKGK" [] ["CCO-CYTOSOL"] +"GLUCONREDUCT-MONOMER" "5-keto-D-gluconate 5-reductase" ["YjgU", "IdnO"] "MNDLFSLAGKNILITGSAQGIGFLLATGLGKYGAQIIINDITAERAELAVEKLHQEGIQAVAAPFNVTHKHEIDAAVEHIEKDIGPIDVLVNNAGIQRRHPFTEFPEQEWNDVIAVNQTAVFLVSQAVTRHMVERKAGKVINICSMQSELGRDTITPYAASKGAVKMLTRGMCVELARHNIQVNGIAPGYFKTEMTKALVEDEAFTAWLCKRTPAARWGDPQELIGAAVFLSSKASDFVNGHLLFVDGGMLVAV" [] ["CCO-CYTOSOL"] +"GLUCOSAMINE-6-P-DEAMIN-MONOMER" "glucosamine-6-phosphate deaminase" ["GlmD", "NagB"] "MRLIPLTTAEQVGKWAARHIVNRINAFKPTADRPFVLGLPTGGTPMTTYKALVEMHKAGQVSFKHVVTFNMDEYVGLPKEHPESYYSFMHRNFFDHVDIPAENINLLNGNAPDIDAECRQYEEKIRSYGKIHLFMGGVGNDGHIAFNEPASSLASRTRIKTLTHDTRVANSRFFDNDVNQVPKYALTVGVGTLLDAEEVMILVLGSQKALALQAAVEGCVNHMWTISCLQLHPKAIMVCDEPSTMELKVKTLRYFNELEAENIKGL" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"GLUCOSE-1-PHOSPHAT-MONOMER" "glucose-1-phosphatase" ["Agp"] "MNKTLIAAAVAGIVLLASNAQAQTVPEGYQLQQVLMMSRHNLRAPLANNGSVLEQSTPNKWPEWDVPGGQLTTKGGVLEVYMGHYMREWLAEQGMVKSGECPPPYTVYAYANSLQRTVATAQFFITGAFPGCDIPVHHQEKMGTMDPTFNPVITDDSAAFSEQAVAAMEKELSKLQLTDSYQLLEKIVNYKDSPACKEKQQCSLVDGKNTFSAKYQQEPGVSGPLKVGNSLVDAFTLQYYEGFPMDQVAWGEIKSDQQWKVLSKLKNGYQDSLFTSPEVARNVAKPLVSYIDKALVTDRTSAPKITVLVGHDSNIASLLTALDFKPYQLHDQNERTPIGGKIVFQRWHDSKANRDLMKIEYVYQSAEQLRNADALTLQAPAQRVTLELSGCPIDADGFCPMDKFDSVLNEAVK" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"GLURS-MONOMER" "glutamate—tRNA ligase" ["GltM", "GltX", "GluRS"] "MKIKTRFAPSPTGYLHVGGARTALYSWLFARNHGGEFVLRIEDTDLERSTPEAIEAIMDGMNWLSLEWDEGPYYQTKRFDRYNAVIDQMLEEGTAYKCYCSKERLEALREEQMAKGEKPRYDGRCRHSHEHHADDEPCVVRFANPQEGSVVFDDQIRGPIEFSNQELDDLIIRRTDGSPTYNFCVVVDDWDMEITHVIRGEDHINNTPRQINILKALKAPVPVYAHVSMINGDDGKKLSKRHGAVSVMQYRDDGYLPEALLNYLVRLGWSHGDQEIFTREEMIKYFTLNAVSKSASAFNTDKLLWLNHHYINALPPEYVATHLQWHIEQENIDTRNGPQLADLVKLLGERCKTLKEMAQSCRYFYEDFAEFDADAAKKHLRPVARQPLEVVRDKLAAITDWTAENVHHAIQATADELEVGMGKVGMPLRVAVTGAGQSPALDVTVHAIGKTRSIERINKALDFIAERENQQ" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"GLUSYNLARGE-MONOMER" "glutamate synthase subunit GltB" ["OssB", "PsiQ", "AspB", "GltB", "glutamate synthase, large subunit"] "MLYDKSLERDNCGFGLIAHIEGEPSHKVVRTAIHALARMQHRGAILADGKTGDGCGLLLQKPDRFFRIVAQERGWRLAKNYAVGMLFLNKDPELAAAARRIVEEELQRETLSIVGWRDVPTNEGVLGEIALSSLPRIEQIFVNAPAGWRPRDMERRLFIARRRIEKRLEADKDFYVCSLSNLVNIYKGLCMPTDLPRFYLDLADLRLESAICLFHQRFSTNTVPRWPLAQPFRYLAHNGEINTITGNRQWARARTYKFQTPLIPDLHDAAPFVNETGSDSSSMDNMLELLLAGGMDIIRAMRLLVPPAWQNNPDMDPELRAFFDFNSMHMEPWDGPAGIVMSDGRFAACNLDRNGLRPARYVITKDKLITCASEVGIWDYQPDEVVEKGRVGPGELMVIDTRSGRILHSAETDDDLKSRHPYKEWMEKNVRRLVPFEDLPDEEVGSRELDDDTLASYQKQFNYSAEELDSVIRVLGENGQEAVGSMGDDTPFAVLSSQPRIIYDYFRQQFAQVTNPPIDPLREAHVMSLATSIGREMNVFCEAEGQAHRLSFKSPILLYSDFKQLTTMKEEHYRADTLDITFDVTKTTLEATVKELCDKAEKMVRSGTVLLVLSDRNIAKDRLPVPAPMAVGAIQTRLVDQSLRCDANIIVETASARDPHHFAVLLGFGATAIYPYLAYETLGRLVDTHAIAKDYRTVMLNYRNGINKGLYKIMSKMGISTIASYRCSKLFEAVGLHDDVVGLCFQGAVSRIGGASFEDFQQDLLNLSKRAWLARKPISQGGLLKYVHGGEYHAYNPDVVRTLQQAVQSGEYSDYQEYAKLVNERPATTLRDLLAITPGENAVNIADVEPASELFKRFDTAAMSIGALSPEAHEALAEAMNSIGGNSNSGEGGEDPARYGTNKVSRIKQVASGRFGVTPAYLVNADVIQIKVAQGAKPGEGGQLPGDKVTPYIAKLRYSVPGVTLISPPPHHDIYSIEDLAQLIFDLKQVNPKAMISVKLVSEPGVGTIATGVAKAYADLITIAGYDGGTGASPLSSVKYAGCPWELGLVETQQALVANGLRHKIRLQVDGGLKTGVDIIKAAILGAESFGFGTGPMVALGCKYLRICHLNNCATGVATQDDKLRKNHYHGLPFKVTNYFEFIARETRELMAQLGVTRLVDLIGRTDLLKELDGFTAKQQKLALSKLLETAEPHPGKALYCTENNPPFDNGLLNAQLLQQAKPFVDERQSKTFWFDIRNTDRSVGASLSGYIAQTHGDQGLAADPIKAYFNGTAGQSFGVWNAGGVELYLTGDANDYVGKGMAGGLIAIRPPVGSAFRSHEASIIGNTCLYGATGGRLYAAGRAGERFGVRNSGAITVVEGIGDNGCEYMTGGIVCILGKTGVNFGAGMTGGFAYVLDESGDFRKRVNPELVEVLSVDALAIHEEHLRGLITEHVQHTGSQRGEEILANWSTFATKFALVKPKSSDVKALLGHRSRSAAELRVQAQ" ["CCO-CYTOSOL"] [] +"GLUSYNSMALL-MONOMER" "glutamate synthase subunit GltD" ["OssB", "PsiQ", "AspB", "GltD", "glutamate synthase, small subunit"] "MSQNVYQFIDLQRVDPPKKPLKIRKIEFVEIYEPFSEGQAKAQADRCLSCGNPYCEWKCPVHNYIPNWLKLANEGRIFEAAELSHQTNTLPEVCGRVCPQDRLCEGSCTLNDEFGAVTIGNIERYINDKAFEMGWRPDMSGVKQTGKKVAIIGAGPAGLACADVLTRNGVKAVVFDRHPEIGGLLTFGIPAFKLEKEVMTRRREIFTGMGIEFKLNTEVGRDVQLDDLLSDYDAVFLGVGTYQSMRGGLENEDADGVYAALPFLIANTKQLMGFGETRDEPFVSMEGKRVVVLGGGDTAMDCVRTSVRQGAKHVTCAYRRDEENMPGSRREVKNAREEGVEFKFNVQPLGIEVNGNGKVSGVKMVRTEMGEPDAKGRRRAEIVAGSEHIVPADAVIMAFGFRPHNMEWLAKHSVELDSQGRIIAPEGSDNAFQTSNPKIFAGGDIVRGSDLVVTAIAEGRKAADGIMNWLEV" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"GLUTAMIDOTRANS-MONOMER" "imidazole glycerol phosphate synthase subunit HisH" ["HisH", "hisH enzyme"] "MNVVILDTGCANLNSVKSAIARHGYEPKVSRDPDVVLLADKLFLPGVGTAQAAMDQVRERELFDLIKACTQPVLGICLGMQLLGRRSEESNGVDLLGIIDEDVPKMTDFGLPLPHMGWNRVYPQAGNRLFQGIEDGAYFYFVHSYAMPVNPWTIAQCNYGEPFTAAVQKDNFYGVQFHPERSGAAGAKLLKNFLEM" [] ["CCO-CYTOSOL"] +"GLUTAMINESYN-MONOMER" "glutamine synthetase" ["GlnA"] "MSAEHVLTMLNEHEVKFVDLRFTDTKGKEQHVTIPAHQVNAEFFEEGKMFDGSSIGGWKGINESDMVLMPDASTAVIDPFFADSTLIIRCDILEPGTLQGYDRDPRSIAKRAEDYLRSTGIADTVLFGPEPEFFLFDDIRFGSSISGSHVAIDDIEGAWNSSTQYEGGNKGHRPAVKGGYFPVPPVDSAQDIRSEMCLVMEQMGLVVEAHHHEVATAGQNEVATRFNTMTKKADEIQIYKYVVHNVAHRFGKTATFMPKPMFGDNGSGMHCHMSLSKNGVNLFAGDKYAGLSEQALYYIGGVIKHAKAINALANPTTNSYKRLVPGYEAPVMLAYSARNRSASIRIPVVSSPKARRIEVRFPDPAANPYLCFAALLMAGLDGIKNKIHPGEAMDKNLYDLPPEEAKEIPQVAGSLEEALNELDLDREFLKAGGVFTDEAIDAYIALRREEDDRVRMTPHPVEFELYYSV" ["CCO-CYTOSOL"] ["CCO-MEMBRANE", "CCO-CYTOSOL"] +"GLUTATHIONE-REDUCT-NADPH-MONOMER" "glutathione reductase (NADPH)" ["GorA", "Gor"] "MTKHYDYIAIGGGSGGIASINRAAMYGQKCALIEAKELGGTCVNVGCVPKKVMWHAAQIREAIHMYGPDYGFDTTINKFNWETLIASRTAYIDRIHTSYENVLGKNNVDVIKGFARFVDAKTLEVNGETITADHILIATGGRPSHPDIPGVEYGIDSDGFFALPALPERVAVVGAGYIAVELAGVINGLGAKTHLFVRKHAPLRSFDPMISETLVEVMNAEGPQLHTNAIPKAVVKNTDGSLTLELEDGRSETVDCLIWAIGREPANDNINLEAAGVKTNEKGYIVVDKYQNTNIEGIYAVGDNTGAVELTPVAVAAGRRLSERLFNNKPDEHLDYSNIPTVVFSHPPIGTVGLTEPQAREQYGDDQVKVYKSSFTAMYTAVTTHRQPCRMKLVCVGSEEKIVGIHGIGFGMDEMLQGFAVALKMGATKKDFDNTVAIHPTAAEEFVTMR" [] ["CCO-CYTOSOL"] +"GLUTATHIONE-SYN-MONOMER" "glutathione synthetase" ["GshB"] "MIKLGIVMDPIANINIKKDSSFAMLLEAQRRGYELHYMEMGDLYLINGEARAHTRTLNVKQNYEEWFSFVGEQDLPLADLDVILMRKDPPFDTEFIYATYILERAEEKGTLIVNKPQSLRDCNEKLFTAWFSDLTPETLVTRNKAQLKAFWEKHSDIILKPLDGMGGASIFRVKEGDPNLGVIAETLTEHGTRYCMAQNYLPAIKDGDKRVLVVDGEPVPYCLARIPQGGETRGNLAAGGRGEPRPLTESDWKIARQIGPTLKEKGLIFVGLDIIGDRLTEINVTSPTCIREIEAEFPVSITGMLMDAIEARLQQQ" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"GLUTCYSLIG-MONOMER" "glutamate—cysteine ligase" ["GshA", "γ-glutamate—cysteine ligase"] "MIPDVSQALAWLEKHPQALKGIQRGLERETLRVNADGTLATTGHPEALGSALTHKWITTDFAEALLEFITPVDGDIEHMLTFMRDLHRYTARNMGDERMWPLSMPCYIAEGQDIELAQYGTSNTGRFKTLYREGLKNRYGALMQTISGVHYNFSLPMAFWQAKCGDISGADAKEKISAGYFRVIRNYYRFGWVIPYLFGASPAICSSFLQGKPTSLPFEKTECGMYYLPYATSLRLSDLGYTNKSQSNLGITFNDLYEYVAGLKQAIKTPSEEYAKIGIEKDGKRLQINSNVLQIENELYAPIRPKRVTRSGESPSDALLRGGIEYIEVRSLDINPFSPIGVDEQQVRFLDLFMVWCALADAPEMSSSELACTRVNWNRVILEGRKPGLTLGIGCETAQFPLPQVGKDLFRDLKRVAQTLDSINGGEAYQKVCDELVACFDNPDLTFSARILRSMIDTGIGGTGKAFAEAYRNLLREEPLEILREEDFVAEREASERRQQEMEAADTEPFAVWLEKHA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"GLUTDECARBOXA-MONOMER" "glutamate decarboxylase A" ["GadS", "GadA"] "MDQKLLTDFRSELLDSRFGAKAISTIAESKRFPLHEMRDDVAFQIINDELYLDGNARQNLATFCQTWDDENVHKLMDLSINKNWIDKEEYPQSAAIDLRCVNMVADLWHAPAPKNGQAVGTNTIGSSEACMLGGMAMKWRWRKRMEAAGKPTDKPNLVCGPVQICWHKFARYWDVELREIPMRPGQLFMDPKRMIEACDENTIGVVPTFGVTYTGNYEFPQPLHDALDKFQADTGIDIDMHIDAASGGFLAPFVAPDIVWDFRLPRVKSISASGHKFGLAPLGCGWVIWRDEEALPQELVFNVDYLGGQIGTFAINFSRPAGQVIAQYYEFLRLGREGYTKVQNASYQVAAYLADEIAKLGPYEFICTGRPDEGIPAVCFKLKDGEDPGYTLYDLSERLRLRGWQVPAFTLGGEATDIVVMRIMCRRGFEMDFAELLLEDYKASLKYLSDHPKLQGIAQQNSFKHT" [] ["CCO-CYTOSOL"] +"GLUTDECARBOXB-MONOMER" "glutamate decarboxylase B" ["GadB"] "MDKKQVTDLRSELLDSRFGAKSISTIAESKRFPLHEMRDDVAFQIINDELYLDGNARQNLATFCQTWDDENVHKLMDLSINKNWIDKEEYPQSAAIDLRCVNMVADLWHAPAPKNGQAVGTNTIGSSEACMLGGMAMKWRWRKRMEAAGKPTDKPNLVCGPVQICWHKFARYWDVELREIPMRPGQLFMDPKRMIEACDENTIGVVPTFGVTYTGNYEFPQPLHDALDKFQADTGIDIDMHIDAASGGFLAPFVAPDIVWDFRLPRVKSISASGHKFGLAPLGCGWVIWRDEEALPQELVFNVDYLGGQIGTFAINFSRPAGQVIAQYYEFLRLGREGYTKVQNASYQVAAYLADEIAKLGPYEFICTGRPDEGIPAVCFKLKDGEDPGYTLYDLSERLRLRGWQVPAFTLGGEATDIVVMRIMCRRGFEMDFAELLLEDYKASLKYLSDHPKLQGIAQQNSFKHT" [] ["CCO-CYTOSOL", "CCO-MEMBRANE"] +"GLUTKIN-MONOMER" "glutamate 5-kinase" ["ProB"] "MSDSQTLVVKLGTSVLTGGSRRLNRAHIVELVRQCAQLHAAGHRIVIVTSGAIAAGREHLGYPELPATIASKQLLAAVGQSRLIQLWEQLFSIYGIHVGQMLLTRADMEDRERFLNARDTLRALLDNNIVPVINENDAVATAEIKVGDNDNLSALAAILAGADKLLLLTDQKGLYTADPRSNPQAELIKDVYGIDDALRAIAGDSVSGLGTGGMSTKLQAADVACRAGIDTIIAAGSKPGVIGDVMEGISVGTLFHAQATPLENRKRWIFGAPPAGEITVDEGATAAILERGSSLLPKGIKSVTGNFSRGEVIRICNLEGRDIAHGVSRYNSDALRRIAGHHSQEIDAILGYEYGPVAVHRDDMITR" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"GLUTRACE-MONOMER" "glutamate racemase" ["YijA", "Glr", "Dga", "MurI"] "MATKLQDGNTPCLAATPSEPRPTVLVFDSGVGGLSVYDEIRHLLPDLHYIYAFDNVAFPYGEKSEAFIVERVVAIVTAVQERYPLALAVVACNTASTVSLPALREKFDFPVVGVVPAIKPAARLTANGIVGLLATRGTVKRSYTHELIARFANECQIEMLGSAEMVELAEAKLHGEDVSLDALKRILRPWLRMKEPPDTVVLGCTHFPLLQEELLQVLPEGTRLVDSGAAIARRTAWLLEHEAPDAKSADANIAFCMAMTPGAEQLLPVLQRYGFETLEKLAVLG" [] ["CCO-CYTOSOL"] +"GLUTRNAREDUCT-MONOMER" "glutamyl-tRNA reductase" ["GtrA", "HemA"] "MTLLALGINHKTAPVSLRERVSFSPDKLDQALDSLLAQPMVQGGVVLSTCNRTELYLSVEEQDNLQEALIRWLCDYHNLNEEDLRKSLYWHQDNDAVSHLMRVASGLDSLVLGEPQILGQVKKAFADSQKGHMKASELERMFQKSFSVAKRVRTETDIGASAVSVAFAACTLARQIFESLSTVTVLLVGAGETIELVARHLREHKVQKMIIANRTRERAQILADEVGAEVIALSDIDERLREADIIISSTASPLPIIGKGMVERALKSRRNQPMLLVDIAVPRDVEPEVGKLANAYLYSVDDLQSIISHNLAQRKAAAVEAETIVAQETSEFMAWLRAQSASETIREYRSQAEQVRDELTAKALAALEQGGDAQAIMQDLAWKLTNRLIHAPTKSLQQAARDGDNERLNILRDSLGLE" [] ["CCO-CYTOSOL"] +"GLUTSEMIALDEHYDROG-MONOMER" "glutamate-5-semialdehyde dehydrogenase" ["ProA"] "MLEQMGIAAKQASYKLAQLSSREKNRVLEKIADELEAQSEIILNANAQDVADARANGLSEAMLDRLALTPARLKGIADDVRQVCNLADPVGQVIDGGVLDSGLRLERRRVPLGVIGVIYEARPNVTVDVASLCLKTGNAVILRGGKETCRTNAATVAVIQDALKSCGLPAGAVQAIDNPDRALVSEMLRMDKYIDMLIPRGGAGLHKLCREQSTIPVITGGIGVCHIYVDESVEIAEALKVIVNAKTQRPSTCNTVETLLVNKNIADSFLPALSKQMAESGVTLHADAAALAQLQAGPAKVVAVKAEEYDDEFLSLDLNVKIVSDLDDAIAHIREHGTQHSDAILTRDMRNAQRFVNEVDSSAVYVNASTRFTDGGQFGLGAEVAVSTQKLHARGPMGLEALTTYKWIGIGDYTIRA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"GLVB-MONOMER" "putative PTS enzyme II component GlvB" ["YidO", "YidN"] "MFSNHADMMLTQIAIGLCFTLLYFVVFRTLILQFNMCTPGREDAEVKLYSKAEYKASRGQTTAAEPKKELDQAAGILQALGGVGNISSINNCATRLRIALHDMSQTLDDEVFKKLGAHGVFRSGDAIQVIIGLHVSQLREQLDSLINSHQSAENVAITEAV" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"GLVC-MONOMER" "putative PTS enzyme II component GlvC" ["PtiC"] "MLSQIQRFGGAMFTPVLLFPFAGIVVGLAILLQNPMFVGESLTDPNSLFAQIVHIIEEGGWTVFRNMPLIFAVGLPIGLAKQAQGRACLAVMVSFLTWNYFINAMGMTWGSYFGVDFTQDAVAGSGLTMMAGIKTLDTSIIGAIIISGIVTALHNRLFDKKLPVFLGIFQGTSYVVIIAFLVMIPCAWLTLLGWPKVQMGIESLQAFLRSAGALGVWVYTFLERILIPTGLHHFIYGQFIFGPAAVEGGIQMYWAQHLQEFSLSAEPLKSLFPEGGFALHGNSKIFGAVGISLAMYFTAAPENRVKVAGLLIPATLTAMLVGITEPLEFTFLFISPLLFAVHAVLAASMSTVMYLFGVVGNMGGGLID" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"GLY3KIN-MONOMER" "glycerate 2-kinase 2" ["YbbZ", "GlxK", "glycerate 2-kinase II"] "MKIVIAPDSFKESLSAEKCCQAIKAGFSTLFPDANYICLPIADGGEGTVDAMVAATGGNIVTLEVCGPMGEKVNAFYGLTGDGKTAVIEMAAASGLMLVAPEKRNPLLASSFGTGELIRHALDNDIRHIILGIGGSATVDGGMGMAQALGVRFLDADGQALAANGGNLARVASIEMDECDPRLANCHIEVACDVDNPLVGARGAAAVFGPQKGATPEMVEELEQGLQNYARVLQQQTEINVCQMAGGGAAGGMGIAAAVFLNADIKPGIEIVLNAVNLAQAVQGAALVITGEGRIDSQTAGGKAPLGVASVAKQFNVPVIGIAGVLGDGVEVVHQYGIDAVFSILPRLAPLAEVLASGETNLFNSARNIACAIKIGQGIKN" [] ["CCO-CYTOSOL"] +"GLYC3PDEHYDROGBIOSYN-MONOMER" "glycerol-3-phosphate dehydrogenase" ["GpsA"] "MNQRNASMTVIGAGSYGTALAITLARNGHEVVLWGHDPEHIATLERDRCNAAFLPDVPFPDTLHLESDLATALAASRNILVVVPSHVFGEVLRQIKPLMRPDARLVWATKGLEAETGRLLQDVAREALGDQIPLAVISGPTFAKELAAGLPTAISLASTDQTFADDLQQLLHCGKSFRVYSNPDFIGVQLGGAVKNVIAIGAGMSDGIGFGANARTALITRGLAEMSRLGAALGADPATFMGMAGLGDLVLTCTDNQSRNRRFGMMLGQGMDVQSAQEKIGQVVEGYRNTKEVRELAHRFGVEMPITEEIYQVLYCGKNAREAALTLLGRARKDERSSH" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"GLYCDEH-MONOMER" "L-1,2-propanediol dehydrogenase / glycerol dehydrogenase" ["GldA"] "MDRIIQSPGKYIQGADVINRLGEYLKPLAERWLVVGDKFVLGFAQSTVEKSFKDAGLVVEIAPFGGECSQNEIDRLRGIAETAQCGAILGIGGGKTLDTAKALAHFMGVPVAIAPTIASTDAPCSALSVIYTDEGEFDRYLLLPNNPNMVIVDTKIVAGAPARLLAAGIGDALATWFEARACSRSGATTMAGGKCTQAALALAELCYNTLLEEGEKAMLAAEQHVVTPALERVIEANTYLSGVGFESGGLAAAHAVHNGLTAIPDAHHYYHGEKVAFGTLTQLVLENAPVEEIETVAALSHAVGLPITLAQLDIKEDVPAKMRIVAEAACAEGETIHNMPGGATPDQVYAALLVADQYGQRFLQEWE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"GLYCEROL-3-P-ACYLTRANSFER-MONOMER" "glycerol-3-phosphate 1-O-acyltransferase" ["sn-glycerol-3-phosphate acyltransferase", "GPAT", "glycerolphosphate acyltransferase", "glycerol-3-phosphate O-acyltransferase", "PlsB"] "MSGWPRIYYKLLNLPLSILVKSKSIPADPAPELGLDTSRPIMYVLPYNSKADLLTLRAQCLAHDLPDPLEPLEIDGTLLPRYVFIHGGPRVFTYYTPKEESIKLFHDYLDLHRSNPNLDVQMVPVSVMFGRAPGREKGEVNPPLRMLNGVQKFFAVLWLGRDSFVRFSPSVSLRRMADEHGTDKTIAQKLARVARMHFARQRLAAVGPRLPARQDLFNKLLASRAIAKAVEDEARSKKISHEKAQQNAIALMEEIAANFSYEMIRLTDRILGFTWNRLYQGINVHNAERVRQLAHDGHELVYVPCHRSHMDYLLLSYVLYHQGLVPPHIAAGINLNFWPAGPIFRRLGAFFIRRTFKGNKLYSTVFREYLGELFSRGYSVEYFVEGGRSRTGRLLDPKTGTLSMTIQAMLRGGTRPITLIPIYIGYEHVMEVGTYAKELRGATKEKESLPQMLRGLSKLRNLGQGYVNFGEPMPLMTYLNQHVPDWRESIDPIEAVRPAWLTPTVNNIAADLMVRINNAGAANAMNLCCTALLASRQRSLTREQLTEQLNCYLDLMRNVPYSTDSTVPSASASELIDHALQMNKFEVEKDTIGDIIILPREQAVLMTYYRNNIAHMLVLPSLMAAIVTQHRHISRDVLMEHVNVLYPMLKAELFLRWDRDELPDVIDALANEMQRQGLITLQDDELHINPAHSRTLQLLAAGARETLQRYAITFWLLSANPSINRGTLEKESRTVAQRLSVLHGINAPEFFDKAVFSSLVLTLRDEGYISDSGDAEPAETMKVYQLLAELITSDVRLTIESATQGEG" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"GLYCEROL-KIN-MONOMER" "glycerol kinase" ["GlpK"] "MTEKKYIVALDQGTTSSRAVVMDHDANIISVSQREFEQIYPKPGWVEHDPMEIWATQSSTLVEVLAKADISSDQIAAIGITNQRETTIVWEKETGKPIYNAIVWQCRRTAEICEHLKRDGLEDYIRSNTGLVIDPYFSGTKVKWILDHVEGSRERARRGELLFGTVDTWLIWKMTQGRVHVTDYTNASRTMLFNIHTLDWDDKMLEVLDIPREMLPEVRRSSEVYGQTNIGGKGGTRIPISGIAGDQQAALFGQLCVKEGMAKNTYGTGCFMLMNTGEKAVKSENGLLTTIACGPTGEVNYALEGAVFMAGASIQWLRDEMKLINDAYDSEYFATKVQNTNGVYVVPAFTGLGAPYWDPYARGAIFGLTRGVNANHIIRATLESIAYQTRDVLEAMQADSGIRLHALRVDGGAVANNFLMQFQSDILGTRVERPEVREVTALGAAYLAGLAVGFWQNLDELQEKAVIEREFRPGIETTERNYRYAGWKKAVKRAMAWEEHDE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"GLYCOGEN-BRANCH-MONOMER" null ["GlgB"] "MSDRIDRDVINALIAGHFADPFSVLGMHKTTAGLEVRALLPDATDVWVIEPKTGRKLAKLECLDSRGFFSGVIPRRKNFFRYQLAVVWHGQQNLIDDPYRFGPLIQEMDAWLLSEGTHLRPYETLGAHADTMDGVTGTRFSVWAPNARRVSVVGQFNYWDGRRHPMRLRKESGIWELFIPGAHNGQLYKYEMIDANGNLRLKSDPYAFEAQMRPETASLICGLPEKVVQTEERKKANQFDAPISIYEVHLGSWRRHTDNNFWLSYRELADQLVPYAKWMGFTHLELLPINEHPFDGSWGYQPTGLYAPTRRFGTRDDFRYFIDAAHAAGLNVILDWVPGHFPTDDFALAEFDGTNLYEHSDPREGYHQDWNTLIYNYGRREVSNFLVGNALYWIERFGIDALRVDAVASMIYRDYSRKEGEWIPNEFGGRENLEAIEFLRNTNRILGEQVSGAVTMAEESTDFPGVSRPQDMGGLGFWYKWNLGWMHDTLDYMKLDPVYRQYHHDKLTFGILYNYTENFVLPLSHDEVVHGKKSILDRMPGDAWQKFANLRAYYGWMWAFPGKKLLFMGNEFAQGREWNHDASLDWHLLEGGDNWHHGVQRLVRDLNLTYRHHKAMHELDFDPYGFEWLVVDDKERSVLIFVRRDKEGNEIIVASNFTPVPRHDYRFGINQPGKWREILNTDSMHYHGSNAGNGGTVHSDEIASHGRQHSLSLTLPPLATIWLVREAE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"GLYCOGENSYN-MONOMER" "glycogen synthase" ["GlgA"] "MQVLHVCSEMFPLLKTGGLADVIGALPAAQIADGVDARVLLPAFPDIRRGVTDAQVVSRRDTFAGHITLLFGHYNGVGIYLIDAPHLYDRPGSPYHDTNLFAYTDNVLRFALLGWVGAEMASGLDPFWRPDVVHAHDWHAGLAPAYLAARGRPAKSVFTVHNLAYQGMFYAHHMNDIQLPWSFFNIHGLEFNGQISFLKAGLYYADHITAVSPTYAREITEPQFAYGMEGLLQQRHREGRLSGVLNGVDEKIWSPETDLLLASRYTRDTLEDKAENKRQLQIAMGLKVDDKVPLFAVVSRLTSQKGLDLVLEALPGLLEQGGQLALLGAGDPVLQEGFLAAAAEYPGQVGVQIGYHEAFSHRIMGGADVILVPSRFEPCGLTQLYGLKYGTLPLVRRTGGLADTVSDCSLENLADGVASGFVFEDSNAWSLLRAIRRAFVLWSRPSLWRFVQRQAMAMDFSWQVAAKSYRELYYRLK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"GLYCOPHOSPHORYL-MONOMER" "glycogen phosphorylase" ["GlgY", "GlgP"] "MNAPFTYSSPTLSVEALKHSIAYKLMFTIGKDPVVANKHEWLNATLFAVRDRLVERWLRSNRAQLSQETRQVYYLSMEFLIGRTLSNAMLSLGIYEDVQGALEAMGLNLEELIDEENDPGLGNGGLGRLAACFLDSLATLGLPGRGYGIRYDYGMFKQNIVNGSQKESPDYWLEYGNPWEFKRHNTRYKVRFGGRIQQEGKKTRWIETEEILGVAYDQIIPGYDTDATNTLRLWSAQASSEINLGKFNQGDYFAAVEDKNHSENVSRVLYPDDSTYSGRELRLRQEYFLVSSTIQDILSRHYQLHKTYDNLADKIAIHLNDTHPVLSIPEMMRLLIDEHQFSWDDAFEVCCQVFSYTNHTLMSEALETWPVDMLGKILPRHLQIIFEINDYFLKTLQEQYPNDTDLLGRASIIDESNGRRVRMAWLAVVVSHKVNGVSELHSNLMVQSLFADFAKIFPGRFTNVTNGVTPRRWLAVANPSLSAVLDEHLGRNWRTDLSLLNELQQHCDFPMVNHAVHQAKLENKKRLAEYIAQQLNVVVNPKALFDVQIKRIHEYKRQLMNVLHVITRYNRIKADPDAKWVPRVNIFGGKAASAYYMAKHIIHLINDVAKVINNDPQIGDKLKVVFIPNYSVSLAQLIIPAADLSEQISLAGTEASGTSNMKFALNGALTIGTLDGANVEMLDHVGADNIFIFGNTAEEVEELRRQGYKPREYYEKDEELHQVLTQIGSGVFSPEDPGRYRDLVDSLINFGDHYQVLADYRSYVDCQDKVDELYELQEEWTAKAMLNIANMGYFSSDRTIKEYADHIWHIDPVRL" [] ["CCO-CYTOSOL"] +"GLYCPDIESTER-CYTO-MONOMER" "glycerophosphodiester phosphodiesterase UgpQ" ["UgpQ", "glycerophosphodiester phosphodiesterase, cytosolic"] "MSNWPYPRIVAHRGGGKLAPENTLASIDVGAKYGHKMIEFDAKLSKDGEIFLLHDDNLERTSNGWGVAGELNWQDLLRVDAGSWYSKMFKGEPLPLLSQVAERCREHGMMANIEIKPTTGTGPLTGKMVALAARELWAGMTPPLLSSFEIDALEAAQQAAPELPRGLLLDEWRDDWRELTARLGCVSIHLNHKLLNKARVMQLKDAGLRILVYTVNKPQRAAELLRWGVDCICTDAIDVIGPNFTAQ" [] ["CCO-CYTOSOL"] +"GLYCPDIESTER-PERI-MONOMER" "glycerophosphoryl diester phosphodiesterase GlpQ" ["GlpQ", "glycerophosphoryl diester phosphodiesterase, periplasmic"] "MKLTLKNLSMAIMMSTIVMGSSAMAADSNEKIVIAHRGASGYLPEHTLPAKAMAYAQGADYLEQDLVMTKDDNLVVLHDHYLDRVTDVADRFPDRARKDGRYYAIDFTLDEIKSLKFTEGFDIENGKKVQTYPGRFPMGKSDFRVHTFEEEIEFVQGLNHSTGKNIGIYPEIKAPWFHHQEGKDIAAKTLEVLKKYGYTGKDDKVYLQCFDADELKRIKNELEPKMGMELNLVQLIAYTDWNETQQKQPDGSWVNYNYDWMFKPGAMKQVAEYADGIGPDYHMLIEETSQPGNIKLTGMVQDAQQNKLVVHPYTVRSDKLPEYTPDVNQLYDALYNKAGVNGLFTDFPDKAVKFLNKE" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"GLYCRIBONUCSYN-MONOMER" null ["PurD"] "MKVLVIGNGGREHALAWKAAQSPLVETVFVAPGNAGTALEPALQNVAIGVTDIPALLDFAQNEKIDLTIVGPEAPLVKGVVDTFRAAGLKIFGPTAGAAQLEGSKAFTKDFLARHKIPTAEYQNFTEVEPALAYLREKGAPIVIKADGLAAGKGVIVAMTLEEAEAAVHDMLAGNAFGDAGHRIVIEEFLDGEEASFIVMVDGEHVLPMATSQDHKRVGDKDTGPNTGGMGAYSPAPVVTDDVHQRTMERIIWPTVKGMAAEGNTYTGFLYAGLMIDKQGNPKVIEFNCRFGDPETQPIMLRMKSDLVELCLAACESKLDEKTSEWDERASLGVVMAAGGYPGDYRTGDVIHGLPLEEVAGGKVFHAGTKLADDEQVVTNGGRVLCVTALGHTVAEAQKRAYALMTDIHWDDCFCRKDIGWRAIEREQN" [] ["CCO-CYTOSOL"] +"GLYOCARBOLIG-MONOMER" "glyoxylate carboligase" ["Gcl"] "MAKMRAVDAAMYVLEKEGITTAFGVPGAAINPFYSAMRKHGGIRHILARHVEGASHMAEGYTRATAGNIGVCLGTSGPAGTDMITALYSASADSIPILCITGQAPRARLHKEDFQAVDIEAIAKPVSKMAVTVREAALVPRVLQQAFHLMRSGRPGPVLVDLPFDVQVAEIEFDPDMYEPLPVYKPAASRMQIEKAVEMLIQAERPVIVAGGGVINADAAALLQQFAELTSVPVIPTLMGWGCIPDDHELMAGMVGLQTAHRYGNATLLASDMVFGIGNRFANRHTGSVEKYTEGRKIVHIDIEPTQIGRVLCPDLGIVSDAKAALTLLVEVAQEMQKAGRLPCRKEWVADCQQRKRTLLRKTHFDNVPVKPQRVYEEMNKAFGRDVCYVTTIGLSQIAAAQMLHVFKDRHWINCGQAGPLGWTIPAALGVCAADPKRNVVAISGDFDFQFLIEELAVGAQFNIPYIHVLVNNAYLGLIRQSQRAFDMDYCVQLAFENINSSEVNGYGVDHVKVAEGLGCKAIRVFKPEDIAPAFEQAKALMAQYRVPVVVEVILERVTNISMGSELDNVMEFEDIADNAADAPTETCFMHYE" [] ["CCO-CYTOSOL"] +"GLYOHMETRANS-MONOMER" "serine hydroxymethyltransferase" ["GlyA"] "MLKREMNIADYDAELWQAMEQEKVRQEEHIELIASENYTSPRVMQAQGSQLTNKYAEGYPGKRYYGGCEYVDIVEQLAIDRAKELFGADYANVQPHSGSQANFAVYTALLEPGDTVLGMNLAHGGHLTHGSPVNFSGKLYNIVPYGIDATGHIDYADLEKQAKEHKPKMIIGGFSAYSGVVDWAKMREIADSIGAYLFVDMAHVAGLVAAGVYPNPVPHAHVVTTTTHKTLAGPRGGLILAKGGSEELYKKLNSAVFPGGQGGPLMHVIAGKAVALKEAMEPEFKTYQQQVAKNAKAMVEVFLERGYKVVSGGTDNHLFLVDLVDKNLTGKEADAALGRANITVNKNSVPNDPKSPFVTSGIRVGTPAITRRGFKEAEAKELAGWMCDVLDSINDEAVIERIKGKVLDICARYPVYA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"GLYOXI-MONOMER" "glyoxalase I" ["GloA"] "MRLLHTMLRVGDLQRSIDFYTKVLGMKLLRTSENPEYKYSLAFVGYGPETEEAVIELTYNWGVDKYELGTAYGHIALSVDNAAEACEKIRQNGGNVTREAGPVKGGTTVIAFVEDPDGYKIELIEEKDAGRGLGN" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"GLYOXII-MONOMER" "hydroxyacylglutathione hydrolase GloB" ["YafR", "GloB", "glyoxalase II"] "MNLNSIPAFDDNYIWVLNDEAGRCLIVDPGDAEPVLNAIAANNWQPEAIFLTHHHHDHVGGVKELVEKFPQIVVYGPQETQDKGTTQVVKDGETAFVLGHEFSVIATPGHTLGHICYFSKPYLFCGDTLFSGGCGRLFEGTASQMYQSLKKLSALPDDTLVCCAHEYTLSNMKFALSILPHDLSINDYYRKVKELRAKNQITLPVILKNERQINVFLRTEDIDLINVINEETLLQQPEERFAWLRSKKDRF" [] ["CCO-CYTOSOL"] +"GLYQ-MONOMER" "glycine—tRNA ligase subunit α" ["CfcA", "GlyQ", "GlyS(A)"] "MQKFDTRTFQGLILTLQDYWARQGCTIVQPLDMEVGAGTSHPMTCLRELGPEPMAAAYVQPSRRPTDGRYGENPNRLQHYYQFQVVIKPSPDNIQELYLGSLKELGMDPTIHDIRFVEDNWENPTLGAWGLGWEVWLNGMEVTQFTYFQQVGGLECKPVTGEITYGLERLAMYIQGVDSVYDLVWSDGPLGKTTYGDVFHQNEVEQSTYNFEYADVDFLFTCFEQYEKEAQQLLALENPLPLPAYERILKAAHSFNLLDARKAISVTERQRYILRIRTLTKAVAEAYYASREALGFPMCNKDK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"GLYS-MONOMER" "glycine—tRNA ligase subunit β" ["Gly", "GlyS", "GlyS(B)"] "MSEKTFLVEIGTEELPPKALRSLAESFAANFTAELDNAGLAHGTVQWFAAPRRLALKVANLAEAQPDREIEKRGPAIAQAFDAEGKPSKAAEGWARGCGITVDQAERLTTDKGEWLLYRAHVKGESTEALLPNMVATSLAKLPIPKLMRWGASDVHFVRPVHTVTLLLGDKVIPATILGIQSDRVIRGHRFMGEPEFTIDNADQYPEILRERGKVIADYEERKAKIKADAEEAARKIGGNADLSESLLEEVASLVEWPVVLTAKFEEKFLAVPAEALVYTMKGDQKYFPVYANDGKLLPNFIFVANIESKDPQQIISGNEKVVRPRLADAEFFFNTDRKKRLEDNLPRLQTVLFQQQLGTLRDKTDRIQALAGWIAEQIGADVNHATRAGLLSKCDLMTNMVFEFTDTQGVMGMHYARHDGEAEDVAVALNEQYQPRFAGDDLPSNPVACALAIADKMDTLAGIFGIGQHPKGDKDPFALRRAALGVLRIIVEKNLNLDLQTLTEEAVRLYGDKLTNANVVDDVIDFMLGRFRAWYQDEGYTVDTIQAVLARRPTRPADFDARMKAVSHFRTLDAAAALAAANKRVSNILAKSDEVLSDRVNASTLKEPEEIKLAMQVVVLRDKLEPYFTEGRYQDALVELAELREPVDAFFDKVMVMVDDKELRINRLTMLEKLRELFLRVADISLLQ" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"GMP-REDUCT-MONOMER" "GMP reductase" ["GuaC", "GMPR"] "MRIEEDLKLGFKDVLIRPKRSTLKSRSDVELERQFTFKHSGQSWSGVPIIAANMDTVGTFSMASALASFDILTAVHKHYSVEEWQAFINNSSADVLKHVMVSTGTSDADFEKTKQILDLNPALNFVCIDVANGYSEHFVQFVAKAREAWPTKTICAGNVVTGEMCEELILSGADIVKVGIGPGSVCTTRVKTGVGYPQLSAVIECADAAHGLGGMIVSDGGCTTPGDVAKAFGGGADFVMLGGMLAGHEESGGRIVEENGEKFMLFYGMSSESAMKRHVGGVAEYRAAEGKTVKLPLRGPVENTARDILGGLRSACTYVGASRLKELTKRTTFIRVQEQENRIFNNL" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"GMP-SYN-MONOMER" "GMP synthetase" ["GuaA"] "MTENIHKHRILILDFGSQYTQLVARRVRELGVYCELWAWDVTEAQIRDFNPSGIILSGGPESTTEENSPRAPQYVFEAGVPVFGVCYGMQTMAMQLGGHVEASNEREFGYAQVEVVNDSALVRGIEDALTADGKPLLDVWMSHGDKVTAIPSDFITVASTESCPFAIMANEEKRFYGVQFHPEVTHTRQGMRMLERFVRDICQCEALWTPAKIIDDAVARIREQVGDDKVILGLSGGVDSSVTAMLLHRAIGKNLTCVFVDNGLLRLNEAEQVLDMFGDHFGLNIVHVPAEDRFLSALAGENDPEAKRKIIGRVFVEVFDEEALKLEDVKWLAQGTIYPDVIESAASATGKAHVIKSHHNVGGLPKEMKMGLVEPLKELFKDEVRKIGLELGLPYDMLYRHPFPGPGLGVRVLGEVKKEYCDLLRRADAIFIEELRKADLYDKVSQAFTVFLPVRSVGVMGDGRKYDWVVSLRAVETIDFMTAHWAHLPYDFLGRVSNRIINEVNGISRVVYDISGKPPATIEWE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"GNTP-MONOMER" "fructuronate transporter" ["YjiB", "GntP"] "MHVLNILWVVFGIGLMLVLNLKFKINSMVALLVAALSVGMLAGMDLMSLLHTMKAGFGNTLGELAIIVVFGAVIGKLMVDSGAAHQIAHTLLARLGLRYVQLSVIIIGLIFGLAMFYEVAFIMLAPLVIVIAAEAKIPFLKLAIPAVAAATTAHSLFPPQPGPVALVNAYGADMGMVYIYGVLVTIPSVICAGLILPKFLGNLERPTPSFLKADQPVDMNNLPSFGVSILVPLIPAIIMISTTIANIWLVKDTPAWEVVNFIGSSPIAMFIAMVVAFVLFGTARGHDMQWVMNAFESAVKSIAMVILIIGAGGVLKQTIIDTGIGDTIGMLMSHGNISPYIMAWLITVLIRLATGQGVVSAMTAAGIISAAILDPATGQLVGVNPALLVLATAAGSNTLTHINDASFWLFKGYFDLSVKDTLKTWGLLELVNSVVGLIIVLIISMVA" ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"GNTT-MONOMER" "high-affinity gluconate transporter" ["YhgC", "UsgA", "GntM", "GntT"] "MPLVIVAIGVILLLLLMIRFKMNGFIALVLVALAVGLMQGMPLDKVIGSIKAGVGGTLGSLALIMGFGAMLGKMLADCGGAQRIATTLIAKFGKKHIQWAVVLTGFTVGFALFYEVGFVLMLPLVFTIAASANIPLLYVGVPMAAALSVTHGFLPPHPGPTAIATIFNADMGKTLLYGTILAIPTVILAGPVYARVLKGIDKPIPEGLYSAKTFSEEEMPSFGVSVWTSLVPVVLMAMRAIAEMILPKGHAFLPVAEFLGDPVMATLIAVLIAMFTFGLNRGRSMDQINDTLVSSIKIIAMMLLIIGGGGAFKQVLVDSGVDKYIASMMHETNISPLLMAWSIAAVLRIALGSATVAAITAGGIAAPLIATTGVSPELMVIAVGSGSVIFSHVNDPGFWLFKEYFNLTIGETIKSWSMLETIISVCGLVGCLLLNMVI" ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"GNTU-MONOMER" "low-affinity gluconate transporter" ["GntU"] "MTTLTLVLTAVGSVLLLLFLVMKARMHAFLALMVVSMGAGLFSGMPLDKIAATMEKGMGGTLGFLAVVVALGAMFGKILHETGAVDQIAVKMLKSFGHSRAHYAIGLAGLVCALPLFFEVAIVLLISVAFSMARHTGTNLVKLVIPLFAGVAAAAAFLVPGPAPMLLASQMNADFGWMILIGLCAAIPGMIIAGPLWGNFISRYVELHIPDDISEPHLGEGKMPSFGFSLSLILLPLVLVGLKTIAARFVPEGSTAYEWFEFIGHPFTAILVACLVAIYGLAMRQGMPKDKVMEICGHALQPAGIILLVIGAGGVFKQVLVDSGVGPALGEALTGMGLPIAITCFVLAAAVRIIQGSATVACLTAVGLVMPVIEQLNYSGAQMAALSICIAGGSIVVSHVNDAGFWLFGKFTGATEAETLKTWTMMETILGTVGAIVGMIAFQLLS" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"GPH-MONOMER" null ["YhfE", "Gph", "HAD10"] "MNKFEDIRGVAFDLDGTLVDSAPGLAAAVDMALYALELPVAGEERVITWIGNGADVLMERALTWARQERATQRKTMGKPPVDDDIPAEEQVRILRKLFDRYYGEVAEEGTFLFPHVADTLGALQAKGLPLGLVTNKPTPFVAPLLEALDIAKYFSVVIGGDDVQNKKPHPDPLLLVAERMGIAPQQMLFVGDSRNDIQAAKAAGCPSVGLTYGYNYGEAIDLSQPDVIYQSINDLLPALGLPHSENQESKND" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"GPMA-MONOMER" "2,3-bisphosphoglycerate-dependent phosphoglycerate mutase" ["Gpm", "GpmA"] "MAVTKLVLVRHGESQWNKENRFTGWYDVDLSEKGVSEAKAAGKLLKEEGYSFDFAYTSVLKRAIHTLWNVLDELDQAWLPVEKSWKLNERHYGALQGLNKAETAEKYGDEQVKQWRRGFAVTPPELTKDDERYPGHDPRYAKLSEKELPLTESLALTIDRVIPYWNETILPRMKSGERVIIAAHGNSLRALVKYLDNMSEEEILELNIPTGVPLVYEFDENFKPLKRYYLGNADEIAAKAAAVANQGKAK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"GPT-MONOMER" "xanthine-guanine phsophoribosyltransferase" ["Gxu", "Gpp", "GlyD", "Gpt"] "MSEKYIVTWDMLQIHARKLASRLMPSEQWKGIIAVSRGGLVPGALLARELGIRHVDTVCISSYDHDNQRELKVLKRAEGDGEGFIVIDDLVDTGGTAVAIREMYPKAHFVTIFAKPAGRPLVDDYVVDIPQDTWIEQPWDMGVVFVPPISGR" ["CCO-CYTOSOL"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG", "CCO-CYTOSOL"] +"GRXB-MONOMER" "reduced glutaredoxin 2" ["GrxB", "GRX 2"] "MKLYIYDHCPYCLKARMIFGLKNIPVELHVLLNDDAETPTRMVGQKQVPILQKDDSRYMPESMDIVHYVDKLDGKPLLTGKRSPAIEEWLRKVNGYANKLLLPRFAKSAFDEFSTPAARKYFVDKKEASAGNFADLLAHSDGLIKNISDDLRALDKLIVKPNAVNGELSEDDIQLFPLLRNLTLVAGINWPSRVADYRDNMAKQTQINLLSSMAI" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"GRXC-MONOMER" "glutaredoxin 3" ["YibM", "GrxC", "reduced glutaredoxin 3"] "MANVEIYTKETCPYCHRAKALLSSKGVSFQELPIDGNAAKREEMIKRSGRTTVPQIFIDAQHIGGCDDLYALDARGGLDPLLK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"GSAAMINOTRANS-MONOMER" "glutamate-1-semialdehyde 2,1-aminomutase" ["Gsa", "PopC", "HemL"] "MSKSENLYSAARELIPGGVNSPVRAFTGVGGTPLFIEKADGAYLYDVDGKAYIDYVGSWGPMVLGHNHPAIRNAVIEAAERGLSFGAPTEMEVKMAQLVTELVPTMDMVRMVNSGTEATMSAIRLARGFTGRDKIIKFEGCYHGHADCLLVKAGSGALTLGQPNSPGVPADFAKYTLTCTYNDLASVRAAFEQYPQEIACIIVEPVAGNMNCVPPLPEFLPGLRALCDEFGALLIIDEVMTGFRVALAGAQDYYGVVPDLTCLGKIIGGGMPVGAFGGRRDVMDALAPTGPVYQAGTLSGNPIAMAAGFACLNEVAQPGVHETLDELTTRLAEGLLEAAEEAGIPLVVNHVGGMFGIFFTDAESVTCYQDVMACDVERFKRFFHMMLDEGVYLAPSAFEAGFMSVAHSMEDINNTIDAARRVFAKL" [] ["CCO-CYTOSOL"] +"GSK-MONOMER" "inosine/guanosine kinase" ["Gsk"] "MKFPGKRKSKHYFPVNARDPLLQQFQPENETSAAWVVGIDQTLVDIEAKVDDEFIERYGLSAGHSLVIEDDVAEALYQELKQKNLITHQFAGGTIGNTMHNYSVLADDRSVLLGVMCSNIEIGSYAYRYLCNTSSRTDLNYLQGVDGPIGRCFTLIGESGERTFAISPGHMNQLRAESIPEDVIAGASALVLTSYLVRCKPGEPMPEATMKAIEYAKKYNVPVVLTLGTKFVIAENPQWWQQFLKDHVSILAMNEDEAEALTGESDPLLASDKALDWVDLVLCTAGPIGLYMAGFTEDEAKRKTQHPLLPGAIAEFNQYEFSRAMRHKDCQNPLRVYSHIAPYMGGPEKIMNTNGAGDGALAALLHDITANSYHRSNVPNSSKHKFTWLTYSSLAQVCKYANRVSYQVLNQHSPRLTRGLPEREDSLEESYWDR" [] ["CCO-CYTOSOL"] +"GSP-MONOMER" "fused glutathionylspermidine amidase / glutathionylspermidine synthetase" ["Gsp", "Gss"] "MSKGTTSQDAPFGTLLGYAPGGVAIYSSDYSSLDPQEYEDDAVFRSYIDDEYMGHKWQCVEFARRFLFLNYGVVFTDVGMAWEIFSLRFLREVVNDNILPLQAFPNGSPRAPVAGALLIWDKGGEFKDTGHVAIITQLHGNKVRIAEQNVIHSPLPQGQQWTRELEMVVENGCYTLKDTFDDTTILGWMIQTEDTEYSLPQPEIAGELLKISGARLENKGQFDGKWLDEKDPLQNAYVQANGQVINQDPYHYYTITESAEQELIKATNELHLMYLHATDKVLKDDNLLALFDIPKILWPRLRLSWQRRRHHMITGRMDFCMDERGLKVYEYNADSASCHTEAGLILERWAEQGYKGNGFNPAEGLINELAGAWKHSRARPFVHIMQDKDIEENYHAQFMEQALHQAGFETRILRGLDELGWDAAGQLIDGEGRLVNCVWKTWAWETAFDQIREVSDREFAAVPIRTGHPQNEVRLIDVLLRPEVLVFEPLWTVIPGNKAILPILWSLFPHHRYLLDTDFTVNDELVKTGYAVKPIAGRCGSNIDLVSHHEEVLDKTSGKFAEQKNIYQQLWCLPKVDGKYIQVCTFTVGGNYGGTCLRGDESLVIKKESDIEPLIVVKK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"GST-MONOMER" "glutathione S-transferase GstA" ["Gst", "GstA"] "MKLFYKPGACSLASHITLRESGKDFTLVSVDLMKKRLENGDDYFAVNPKGQVPALLLDDGTLLTEGVAIMQYLADSVPDRQLLAPVNSISRYKTIEWLNYIATELHKGFTPLFRPDTPEEYKPTVRAQLEKKLQYVNEALKDEHWICGQRFTIADAYLFTVLRWAYAVKLNLEGLEHIAAFMQRMAERPEVQDALSAEGLK" [] ["CCO-CYTOSOL"] +"GTP-CYCLOHYDRO-I-MONOMER" "GTP cyclohydrolase 1" ["FolE", "GTP cyclohydrolase I"] "MPSLSKEAALVHEALVARGLETPLRPPVHEMDNETRKSLIAGHMTEIMQLLNLDLADDSLMETPHRIAKMYVDEIFSGLDYANFPKITLIENKMKVDEMVTVRDITLTSTCEHHFVTIDGKATVAYIPKDSVIGLSKINRIVQFFAQRPQVQERLTQQILIALQTLLGTNNVAVSIDAVHYCVKARGIRDATSATTTTSLGGLFKSSQNTRHEFLRAVRHHN" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"GTP-CYCLOHYDRO-II-MONOMER" "GTP cyclohydrolase 2" ["RibA", "GTP cyclohydrolase II"] "MQLKRVAEAKLPTPWGDFLMVGFEELATGHDHVALVYGDISGHTPVLARVHSECLTGDALFSLRCDCGFQLEAALTQIAEEGRGILLYHRQEGRNIGLLNKIRAYALQDQGYDTVEANHQLGFAADERDFTLCADMFKLLGVNEVRLLTNNPKKVEILTEAGINIVERVPLIVGRNPNNEHYLDTKAEKMGHLLNK" [] ["CCO-CYTOSOL"] +"GUANYL-KIN-MONOMER" "guanylate kinase" ["SpoR", "Gmk"] "MAQGTLYIVSAPSGAGKSSLIQALLKTQPLYDTQVSVSHTTRQPRPGEVHGEHYFFVNHDEFKEMISRDAFLEHAEVFGNYYGTSREAIEQVLATGVDVFLDIDWQGAQQIRQKMPHARSIFILPPSKIELDRRLRGRGQDSEEVIAKRMAQAVAEMSHYAEYDYLIVNDDFDTALTDLKTIIRAERLRMSRQKQRHDALISKLLAD" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"GUTA-MONOMER" "sorbitol-specific PTS enzyme IIBC1 component" ["SrlA", "GutA", "Sbl", "GutE", "SrlE", "enzyme IIB component of sorbitol PTS", "Enzyme IIB sorbitol"] "MTHIRIEKGTGGWGGPLELKATPGKKIVYITAGTRPAIVDKLAQLTGWQAIDGFKEGEPAEAEIGVAVIDCGGTLRCGIYPKRRIPTINIHSTGKSGPLAQYIVEDIYVSGVKEENITVVGDATPQPSSVGRDYDTSKKITEQSDGLLAKVGMGMGSTVAVLFQSGRDTIDTVLKTILPFMAFVSALIGIIMASGLGDWIAHGLAPLASHPLGLVMLALICSFPLLSPFLGPGAVIAQVIGVLIGVQIGLGNIPPHLALPALFAINAQAACDFIPVGLSLAEARQDTVRVGVPSVLVSRFLTGAPTVLIAWFVSGFIYQ" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"GUTB-MONOMER" "sorbitol-specific PTS enzyme IIA component" ["GutB", "SrlB", "enzyme IIA component of sorbitol PTS", "Enzyme IIIsorbitol"] "MTVIYQTTITRIGASAIDALSDQMLITFREGAPADLEEYCFIHCHGELKGALHPGLQFSLGQHRYPVTAVGSVAEDNLRELGHVTLRFDGLNEAEFPGTVHVAGPVPDDIAPGSVLKFESVKE" [] ["CCO-CYTOSOL"] +"H2NEOPTERINALDOL-MONOMER" "dihydroneopterin aldolase" ["YgiG", "FolB"] "MDIVFIEQLSVITTIGVYDWEQTIEQKLVFDIEMAWDNRKAAKSDDVADCLSYADIAETVVSHVEGARFALVERVAEEVAELLLARFNSPWVRIKLSKPGAVARAANVGVIIERGNNLKENN" [] ["CCO-CYTOSOL"] +"H2NEOPTERINP3PYROPHOSPHOHYDRO-MONOMER" "dihydroneopterin triphosphate diphosphatase" ["NudB", "NtpA", "YebD", "Orf17"] "MKDKVYKRPVSILVVIYAQDTKRVLMLQRRDDPDFWQSVTGSVEEGETAPQAAMREVKEEVTIDVVAEQLTLIDCQRTVEFEIFSHLRHRYAPGVTRNTESWFCLALPHERQIVFTEHLAYKWLDAPAAAALTKSWSNRQAIEQFVINAA" [] ["CCO-CYTOSOL"] +"H2NTPEPIM-MONOMER" "dihydroneopterin triphosphate 2'-epimerase" ["FolX"] "MAQPAAIIRIKNLRLRTFIGIKEEEINNRQDIVINVTIHYPADKARTSEDINDALNYRTVTKNIIQHVENNRFSLLEKLTQDVLDIAREHHWVTYAEVEIDKLHALRYADSVSMTLSWQR" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"H2PTERIDINEPYROPHOSPHOKIN-MONOMER" null ["HPPK", "FolK"] "MTVAYIAIGSNLASPLEQVNAALKALGDIPESHILTVSSFYRTPPLGPQDQPDYLNAAVALETSLAPEELLNHTQRIELQQGRVRKAERWGPRTLDLDIMLFGNEVINTERLTVPHYDMKNRGFMLWPLFEIAPELVFPDGEMLRQILHTRAFDKLNKW" [] ["CCO-CYTOSOL"] +"H2PTEROATESYNTH-MONOMER" "dihydropteroate synthase" ["DhpS", "FolP"] "MKLFAQGTSLDLSHPHVMGILNVTPDSFSDGGTHNSLIDAVKHANLMINAGATIIDVGGESTRPGAAEVSVEEELQRVIPVVEAIAQRFEVWISVDTSKPEVIRESAKVGAHIINDIRSLSEPGALEAAAETGLPVCLMHMQGNPKTMQEAPKYDDVFAEVNRYFIEQIARCEQAGIAKEKLLLDPGFGFGKNLSHNYSLLARLAEFHHFNLPLLVGMSRKSMIGQLLNVGPSERLSGSLACAVIAAMQGAHIIRVHDVKETVEAMRVVEATLSAKENKRYE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"HCAA2-MONOMER" "putative 3-phenylpropionate/cinnamate dioxygenase subunit β" ["HcaA", "YfhV", "HcaB", "DigB", "HcaF", "HcaA2", "3-phenylpropionate dioxygenase, small subunit", "3-phenylpropionate dioxygenase, β subunit"] "MSAQVSLELHHRISQFLFHEASLLDDWKFRDWLAQLDEEIRYTMRTTVNAQTRDRRKGVQPPTTWIFNDTKDQLERRIARLETGMAWAEEPPSRTRHLISNCQISETDIPNVFAVRVNYLLYRAQKERDETFYVGTRFDKVRRLEDDNWRLLERDIVLDQAVITSHNLSVLF" [] ["CCO-CYTOSOL"] +"HCAC-MONOMER" "putative 3-phenylpropionate/cinnamate dioxygenase ferredoxin subunit" ["YfhW", "PhdB", "HcaC", "3-phenylpropionate dioxygenase, predicted ferredoxin subunit"] "MNRIYACPVADVPEGEALRIDTSPVIALFNVGGEFYAINDRCSHGNASMSEGYLEDDATVECPLHAASFCLKTGKALCLPATDPLTTYPVHVEGGDIFIDLPEAQP" [] [] +"HCAD-MONOMER" "putative 3-phenylpropionate/cinnamate dioxygenase ferredoxin reductase subunit" ["YfhY", "PhdA", "HcaD", "3-phenylpropionate dioxygenase, predicted ferredoxin reductase subunit"] "MKEKTIIIVGGGQAAAMAAASLRQQGFTGELHLFSDERHLPYERPPLSKSMLLEDSPQLQQVLPANWWQENNVHLHSGVTIKTLGRDTRELVLTNGESWHWDQLFIATGAAARPLPLLDALGERCFTLRHAGDAARLREVLQPERSVVIIGAGTIGLELAASATQRRCKVTVIELAATVMGRNAPPPVQRYLLQRHQQAGVRILLNNAIEHVVDGEKVELTLQSGETLQADVVIYGIGISANEQLAREANLDTANGIVIDEACRTCDPAIFAGGDVAITRLDNGALHRCESWENANNQAQIAAAAMLGLPLPLLPPPWFWSDQYSDNLQFIGDMRGDDWLCRGNPETQKAIWFNLQNGVLIGAVTLNQGREIRPIRKWIQSGKTFDAKLLIDENIALKSL" [] ["CCO-CYTOSOL"] +"HCAT-MONOMER" "putative 3-phenylpropionate transporter" ["HcaT", "YfhS"] "MVLQSTRWLALGYFTYFFSYGIFLPFWSVWLKGIGLTPETIGLLLGAGLVARFLGSLLIAPRVSDPSRLISALRVLALLTLLFAVAFWAGAHVAWLMLVMIGFNLFFSPLVPLTDALANTWQKQFPLDYGKVRLWGSVAFVIGSALTGKLVTMFDYRVILALLTLGVASMLLGFLIRPTIQPQGASRQQESTGWSAWLALVRQNWRFLACVCLLQGAHAAYYGFSAIYWQAAGYSASAVGYLWSLGVVAEVIIFALSNKLFRRCSARDMLLISAICGVVRWGIMGATTALPWLIVVQILHCGTFTVCHLAAMRYIAARQGSEVIRLQAVYSAVAMGGSIAIMTVFAGFLYQYLGHGVFWVMALVALPAMFLRPKVVPSC" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"HEMEOSYN-MONOMER" null ["CyoE"] "MMFKQYLQVTKPGIIFGNLISVIGGFLLASKGSIDYPLFIYTLVGVSLVVASGCVFNNYIDRDIDRKMERTKNRVLVKGLISPAVSLVYATLLGIAGFMLLWFGANPLACWLGVMGFVVYVGVYSLYMKRHSVYGTLIGSLSGAAPPVIGYCAVTGEFDSGAAILLAIFSLWQMPHSYAIAIFRFKDYQAANIPVLPVVKGISVAKNHITLYIIAFAVATLMLSLGGYAGYKYLVVAAAVSVWWLGMALRGYKVADDRIWARKLFGFSIIAITALSVMMSVDFMVPDSHTLLAAVW" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"HEMN-MONOMER" "coproporphyrinogen III dehydrogenase" ["YihJ", "HemN"] "MSVQQIDWDLALIQKYNYSGPRYTSYPTALEFSEDFGEQAFLQAVARYPERPLSLYVHIPFCHKLCYFCGCNKIVTRQQHKADQYLDALEQEIVHRAPLFAGRHVSQLHWGGGTPTYLNKAQISRLMKLLRENFQFNADAEISIEVDPREIELDVLDHLRAEGFNRLSMGVQDFNKEVQRLVNREQDEEFIFALLNHAREIGFTSTNIDLIYGLPKQTPESFAFTLKRVAELNPDRLSVFNYAHLPTIFAAQRKIKDADLPSPQQKLDILQETIAFLTQSGYQFIGMDHFARPDDELAVAQREGVLHRNFQGYTTQGDTDLLGMGVSAISMIGDCYAQNQKELKQYYQQVDEQGNALWRGIALTRDDCIRRDVIKSLICNFRLDYAPIEKQWDLHFADYFAEDLKLLAPLAKDGLVDVDEKGIQVTAKGRLLIRNICMCFDTYLRQKARMQQFSRVI" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"HEMX-MONOMER" "PF04375 family protein HemX" ["HemX"] "MTEQEKTSAVVEETREAVDTTSQPVATEKKSKNNTALILSAVAIAIALAAGIGLYGWGKQQAVNQTATSDALANQLTALQKAQESQKAELEGIIKQQAAQLKQANRQQETLAKQLDEVQQKVATISGSDAKTWLLAQADFLVKLAGRKLWSDQDVTTAAALLKSADASLADMNDPSLITVRRAITDDIASLSAVSQVDYDGIILKLNQLSNQVDNLRLADNDSDGSPMDSDGEELSSSISEWRINLQKSWQNFMDNFITIRRRDDTAVPLLAPNQDIYLRENIRSRLLVAAQAVPRHQEETYRQALENVSTWVRAYYDTDDATTKAFLDEVDQLSQQNISMDLPETLQSQAMLEKLMQTRVRNLLAQPAAGTTEAKPAPAPQADTPAAAPQGE" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"HISJ-MONOMER" "histidine ABC transporter periplasmic binding protein" [] "MKKLVLSLSLVLAFSSATAAFAAIPQNIRIGTDPTYAPFESKNSQGELVGFDIDLAKELCKRINTQCTFVENPLDALIPSLKAKKIDAIMSSLSITEKRQQEIAFTDKLYAADSRLVVAKNSDIQPTVESLKGKRVGVLQGTTQETFGNEHWAPKGIEIVSYQGQDNIYSDLTAGRIDAAFQDEVAASEGFLKQPVGKDYKFGGPSVKDEKLFGVGTGMGLRKEDNELREALNKAFAEMRADGTYEKLAKKYFDFDVYGG" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"HISM-MONOMER" "lysine/arginine/ornithine ABC transporter / histidine ABC transporter, membrane subunit HisM" [] "MIEILHEYWKPLLWTDGYRFTGVAITLWLLILSVVIGGVLALFLAIGRVSSNKYIQFPIWLFTYIFRGTPLYVQLLVFYSGMYTLEIVKGTEFLNAFFRSGLNCTVLALTLNTCAYTTEIFAGAIRSVPHGEIEAARAYGFSTFKMYRCIILPSALRIALPAYSNEVILMLHSTALAFTATVPDLLKIARDINAATYQPFTAFGIAAVLYLIISYVLISLFRRAEKRWLQHVKPSSTH" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"HISP-MONOMER" "lysine/arginine/ornithine ABC transporter / histidine ABC transporter, ATP binding subunit" [] "MSENKLNVIDLHKRYGEHEVLKGVSLQANAGDVISIIGSSGSGKSTFLRCINFLEKPSEGSIVVNGQTINLVRDKDGQLKVADKNQLRLLRTRLTMVFQHFNLWSHMTVLENVMEAPIQVLGLSKQEARERAVKYLAKVGIDERAQGKYPVHLSGGQQQRVSIARALAMEPEVLLFDEPTSALDPELVGEVLRIMQQLAEEGKTMVVVTHEMGFARHVSTHVIFLHQGKIEEEGAPEQLFGNPQSPRLQRFLKGSLK" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"HISQ-MONOMER" "lysine/arginine/ornithine ABC transporter / histidine ABC transporter, membrane subunit HisQ" ["HisQ"] "MLYGFSGVILQGALVTLELAISSVVLAVIIGLIGAGGKLSQNRLSGLIFEGYTTLIRGVPDLVLMLLIFYGLQIALNTVTEAMGVGQIDIDPMVAGIITLGFIYGAYFTETFRGAFMAVPKGHIEAATAFGFTRGQVFRRIMFPSMMRYALPGIGNNWQVILKSTALVSLLGLEDVVKATQLAGKSTWEPFYFAIVCGVIYLVFTTVSNGVLLFLERRYSVGVKRADL" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"HISS-MONOMER" "histidine—tRNA ligase" ["HisS", "HisRS"] "MAKNIQAIRGMNDYLPGETAIWQRIEGTLKNVLGSYGYSEIRLPIVEQTPLFKRAIGEVTDVVEKEMYTFEDRNGDSLTLRPEGTAGCVRAGIEHGLLYNQEQRLWYIGPMFRHERPQKGRYRQFHQLGCEVFGLQGPDIDAELIMLTARWWRALGISEHVTLELNSIGSLEARANYRDALVAFLEQHKEKLDEDCKRRMYTNPLRVLDSKNPEVQALLNDAPALGDYLDEESREHFAGLCKLLESAGIAYTVNQRLVRGLDYYNRTVFEWVTNSLGSQGTVCAGGRYDGLVEQLGGRATPAVGFAMGLERLVLLVQAVNPEFKADPVVDIYLVASGADTQSAAMALAERLRDELPGVKLMTNHGGGNFKKQFARADKWGARVAVVLGESEVANGTAVVKDLRSGEQTAVAQDSVAAHLRTLLG" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"HISTCYCLOPRATPPHOS" "putative bifunctional phosphoribosyl-AMP cyclohydrolase/phosphoribosyl-ATP pyrophosphatase" ["HisE", "HisI"] "MLTEQQRRELDWEKTDGLMPVIVQHAVSGEVLMLGYMNPEALDKTLESGKVTFFSRTKQRLWTKGETSGNFLNVVSIAPDCDNDTLLVLANPIGPTCHKGTSSCFGDTAHQWLFLYQLEQLLAERKSADPETSYTAKLYASGTKRIAQKVGEEGVETALAATVHDRFELTNEASDLMYHLLVLLQDQGLDLTTVIENLRKRHQ" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"HISTDEHYD-MONOMER" "histidinal/histidinol dehydrogenase" ["HisD"] "MSFNTIIDWNSCTAEQQRQLLMRPAISASESITRTVNDILDNVKARGDEALREYSAKFDKTTVTALKVSAEEIAAASERLSDELKQAMAVAVKNIETFHTAQKLPPVDVETQPGVRCQQVTRPVASVGLYIPGGSAPLFSTVLMLATPASIAGCKKVVLCSPPPIADEILYAAQLCGVQDVFNVGGAQAIAALAFGTESVPKVDKIFGPGNAFVTEAKRQVSQRLDGAAIDMPAGPSEVLVIADSGATPDFVASDLLSQAEHGPDSQVILLTPAADMARRVAEAVERQLAELPRAETARQALNASRLIVTKDLAQCVEISNQYGPEHLIIQTRNARELVDSITSAGSVFLGDWSPESAGDYASGTNHVLPTYGYTATCSSLGLADFQKRMTVQELSKEGFSALASTIETLAAAERLTAHKNAVTLRVNALKEQA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"HISTPHOSTRANS-MONOMER" "histidinol-phosphate aminotransferase" ["HisC"] "MSTVTITDLARENVRNLTPYQSARRLGGNGDVWLNANEYPTAVEFQLTQQTLNRYPECQPKAVIENYAQYAGVKPEQVLVSRGADEGIELLIRAFCEPGKDAILYCPPTYGMYSVSAETIGVECRTVPTLDNWQLDLQGISDKLDGVKVVYVCSPNNPTGQLINPQDFRTLLELTRGKAIVVADEAYIEFCPQASLAGWLAEYPHLAILRTLSKAFALAGLRCGFTLANEEVINLLMKVIAPYPLSTPVADIAAQALSPQGIVAMRERVAQIIAEREYLIAALKEIPCVEQVFDSETNYILARFKASSAVFKSLWDQGIILRDQNKQPSLSGCLRITVGTREESQRVIDALRAEQV" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"HMP-KIN-MONOMER" "protein/nucleic acid deglycase 3" ["YajL", "ThiJ", "chaperone, protecting proteins in response to oxidative stress", "Maillard deglycase 3"] "MSASALVCLAPGSEETEAVTTIDLLVRGGIKVTTASVASDGNLAITCSRGVKLLADAPLVEVADGEYDVIVLPGGIKGAECFRDSTLLVETVKQFHRSGRIVAAICAAPATVLVPHDIFPIGNMTGFPTLKDKIPAEQWLDKRVVWDARVKLLTSQGPGTAIDFGLKIIDLLVGREKAHEVASQLVMAAGIYNYYE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"HMP-P-KIN-MONOMER" "bifunctional hydroxymethylpyrimidine kinase/phosphomethylpyrimidine kinase" ["ThiJ", "ThiA", "ThiN", "ThiD"] "MKRINALTIAGTDPSGGAGIQADLKTFSALGAYGCSVITALVAQNTRGVQSVYRIEPDFVAAQLDSVFSDVRIDTTKIGMLAETDIVEAVAERLQRYQIQNVVLDTVMLAKSGDPLLSPSAVATLRSRLLPQVSLITPNLPEAAALLDAPHARTEQEMLEQGRSLLAMGCGAVLMKGGHLDDEQSPDWLFTREGEQRFTAPRIMTKNTHGTGCTLSAALAALRPRHTNWADTVQEAKSWLSSALAQADTLEVGHGIGPVHHFHAWW" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"HOLO-ACP-SYNTH-MONOMER" "holo-[acyl-carrier-protein] synthase" ["AcpS", "Dpj", "AcpSholo"] "MAILGLGTDIVEIARIEAVIARSGDRLARRVLSDNEWAIWKTHHQPVRFLAKRFAVKEAAAKAFGTGIRNGLAFNQFEVFNDELGKPRLRLWGEALKLAEKLGVANMHVTLADERHYACATVIIES" [] ["CCO-CYTOSOL"] +"HOMOCYSMET-MONOMER" null ["MetE"] "MTILNHTLGFPRVGLRRELKKAQESYWAGNSTREELLAVGRELRARHWDQQKQAGIDLLPVGDFAWYDHVLTTSLLLGNVPARHQNKDGSVDIDTLFRIGRGRAPTGEPAAAAEMTKWFNTNYHYMVPEFVKGQQFKLTWTQLLDEVDEALALGHKVKPVLLGPVTWLWLGKVKGEQFDRLSLLNDILPVYQQVLAELAKRGIEWVQIDEPALVLELPQAWLDAYKPAYDALQGQVKLLLTTYFEGVTPNLDTITALPVQGLHVDLVHGKDDVAELHKRLPSDWLLSAGLINGRNVWRADLTEKYAQIKDIVGKRDLWVASSCSLLHSPIDLSVETRLDAEVKSWFAFALQKCHELALLRDALNSGDTAALAEWSAPIQARRHSTRVHNPAVEKRLAAITAQDSQRANVYEVRAEAQRARFKLPAWPTTTIGSFPQTTEIRTLRLDFKKGNLDANNYRTGIAEHIKQAIVEQERLGLDVLVHGEAERNDMVEYFGEHLDGFVFTQNGWVQSYGSRCVKPPIVIGDISRPAPITVEWAKYAQSLTDKPVKGMLTGPVTILCWSFPREDVSRETIAKQIALALRDEVADLEAAGIGIIQIDEPALREGLPLRRSDWDAYLQWGVEAFRINAAVAKDDTQIHTHMCYCEFNDIMDSIAALDADVITIETSRSDMELLESFEEFDYPNEIGPGVYDIHSPNVPSVEWIEALLKKAAKRIPAERLWVNPDCGLKTRGWPETRAALANMVQAAQNLRRG" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"HOMOCYSMETB12-MONOMER" "cobalamin-dependent methionine synthase" ["MetH"] "MSSKVEQLRAQLNERILVLDGGMGTMIQSYRLNEADFRGERFADWPCDLKGNNDLLVLSKPEVIAAIHNAYFEAGADIIETNTFNSTTIAMADYQMESLSAEINFAAAKLARACADEWTARTPEKPRYVAGVLGPTNRTASISPDVNDPAFRNITFDGLVAAYRESTKALVEGGADLILIETVFDTLNAKAAVFAVKTEFEALGVELPIMISGTITDASGRTLSGQTTEAFYNSLRHAEALTFGLNCALGPDELRQYVQELSRIAECYVTAHPNAGLPNAFGEYDLDADTMAKQIREWAQAGFLNIVGGCCGTTPQHIAAMSRAVEGLAPRKLPEIPVACRLSGLEPLNIGEDSLFVNVGERTNVTGSAKFKRLIKEEKYSEALDVARQQVENGAQIIDINMDEGMLDAEAAMVRFLNLIAGEPDIARVPIMIDSSKWDVIEKGLKCIQGKGIVNSISMKEGVDAFIHHAKLLRRYGAAVVVMAFDEQGQADTRARKIEICRRAYKILTEEVGFPPEDIIFDPNIFAVATGIEEHNNYAQDFIGACEDIKRELPHALISGGVSNVSFSFRGNDPVREAIHAVFLYYAIRNGMDMGIVNAGQLAIYDDLPAELRDAVEDVILNRRDDGTERLLELAEKYRGSKTDDTANAQQAEWRSWEVNKRLEYSLVKGITEFIEQDTEEARQQATRPIEVIEGPLMDGMNVVGDLFGEGKMFLPQVVKSARVMKQAVAYLEPFIEASKEQGKTNGKMVIATVKGDVHDIGKNIVGVVLQCNNYEIVDLGVMVPAEKILRTAKEVNADLIGLSGLITPSLDEMVNVAKEMERQGFTIPLLIGGATTSKAHTAVKIEQNYSGPTVYVQNASRTVGVVAALLSDTQRDDFVARTRKEYETVRIQHGRKKPRTPPVTLEAARDNDFAFDWQAYTPPVAHRLGVQEVEASIETLRNYIDWTPFFMTWSLAGKYPRILEDEVVGVEAQRLFKDANDMLDKLSAEKTLNPRGVVGLFPANRVGDDIEIYRDETRTHVINVSHHLRQQTEKTGFANYCLADFVAPKLSGKADYIGAFAVTGGLEEDALADAFEAQHDDYNKIMVKALADRLAEAFAEYLHERVRKVYWGYAPNENLSNEELIRENYQGIRPAPGYPACPEHTEKATIWELLEVEKHTGMKLTESFAMWPGASVSGWYFSHPDSKYYAVAQIQRDQVEDYARRKGMSVTEVERWLAPNLGYDAD" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"HOMOSERKIN-MONOMER" "homoserine kinase" ["ThrB"] "MVKVYAPASSANMSVGFDVLGAAVTPVDGALLGDVVTVEAAETFSLNNLGRFADKLPSEPRENIVYQCWERFCQELGKQIPVAMTLEKNMPIGSGLGSSACSVVAALMAMNEHCGKPLNDTRLLALMGELEGRISGSIHYDNVAPCFLGGMQLMIEENDIISQQVPGFDEWLWVLAYPGIKVSTAEARAILPAQYRRQDCIAHGRHLAGFIHACYSRQPELAAKLMKDVIAEPYRERLLPGFRQARQAVAEIGAVASGISGSGPTLFALCDKPETAQRVADWLGKNYLQNQEGFVHICRLDTAGARVLEN" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"HOMSUCTRAN-MONOMER" "homoserine O-succinyltransferase" ["MetA"] "MPIRVPDELPAVNFLREENVFVMTTSRASGQEIRPLKVLILNLMPKKIETENQFLRLLSNSPLQVDIQLLRIDSRESRNTPAEHLNNFYCNFEDIQDQNFDGLIVTGAPLGLVEFNDVAYWPQIKQVLEWSKDHVTSTLFVCWAVQAALNILYGIPKQTRTEKLSGVYEHHILHPHALLTRGFDDSFLAPHSRYADFPAALIRDYTDLEILAETEEGDAYLFASKDKRIAFVTGHPEYDAQTLAQEFFRDVEAGLDPDVPYNYFPHNDPQNTPRASWRSHGNLLFTNWLNYYVYQITPYDLRHMNPTLD" [] ["CCO-CYTOSOL"] +"HRSA-MONOMER" null ["HrsA", "EIIMngA", "EIIHrsA", "EIImannosylglycerate", "Enzyme IImannosylglycerate", "Frx"] "MVLFYRAHWRDYKNDQVRIMMNLTTLTHRDALCLNARFTSREEAIHALTQRLAALGKISSTEQFLEEVYRRESLGPTALGEGLAVPHGKTAAVKEAAFAVATLSEPLQWEGVDGPEAVDLVVLLAIPPNEAGTTHMQLLTALTTRLADDEIRARIQSATTPDELLSALDDKGGTQPSASFSNAPTIVCVTACPAGIAHTYMAAEYLEKAGRKLGVNVYVEKQGANGIEGRLTADQLNSATACIFAAEVAIKESERFNGIPALSVPVAEPIRHAEALIQQALTLKRSDETRTVQQDTQPVKSVKTELKQALLSGISFAVPLIVAGGTVLAVAVLLSQIFGLQDLFNEENSWLWMYRKLGGGLLGILMVPVLAAYTAYSLADKPALAPGFAAGLAANMIGSGFLGAVVGGLIAGYLMRWVKNHLRLSSKFNGFLTFYLYPVLGTLGAGSLMLFVVGEPVAWINNSLTAWLNGLSGSNALLLGAILGFMCSFDLGGPVNKAAYAFCLGAMANGVYGPYAIFASVKMVSAFTVTASTMLAPRLFKEFEIETGKSTWLLGLAGITEGAIPMAIEDPLRVIGSFVLGSMVTGAIVGAMNIGLSTPGAGIFSLFLLHDNGAGGVMAAIGWFGAALVGAAISTAILLMWRRHAVKHGNYLTDGVMP" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"HYAA-MONOMER" "hydrogenase 1 small subunit" ["HyaA", "hydrogenase 1 S subunit", "hydrogenase 1 β subunit", "hydrogenase 1 subunit HyaA"] "MNNEETFYQAMRRQGVTRRSFLKYCSLAATSLGLGAGMAPKIAWALENKPRIPVVWIHGLECTCCTESFIRSAHPLAKDVILSLISLDYDDTLMAAAGTQAEEVFEDIITQYNGKYILAVEGNPPLGEQGMFCISSGRPFIEKLKRAAAGASAIIAWGTCASWGCVQAARPNPTQATPIDKVITDKPIIKVPGCPPIPDVMSAIITYMVTFDRLPDVDRMGRPLMFYGQRIHDKCYRRAHFDAGEFVQSWDDDAARKGYCLYKMGCKGPTTYNACSSTRWNDGVSFPIQSGHGCLGCAENGFWDRGSFYSRVVDIPQMGTHSTADTVGLTALGVVAAAVGVHAVASAVDQRRRHNQQPTETEHQPGNEDKQA" ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"HYAB-MONOMER" "hydrogenase 1 large subunit" ["HyaB", "hydrogenase 1 α subunit"] "MSTQYETQGYTINNAGRRLVVDPITRIEGHMRCEVNINDQNVITNAVSCGTMFRGLEIILQGRDPRDAWAFVERICGVCTGVHALASVYAIEDAIGIKVPDNANIIRNIMLATLWCHDHLVHFYQLAGMDWIDVLDALKADPRKTSELAQSLSSWPKSSPGYFFDVQNRLKKFVEGGQLGIFRNGYWGHPQYKLPPEANLMGFAHYLEALDFQREIVKIHAVFGGKNPHPNWIVGGMPCAINIDESGAVGAVNMERLNLVQSIITRTADFINNVMIPDALAIGQFNKPWSEIGTGLSDKCVLSYGAFPDIANDFGEKSLLMPGGAVINGDFNNVLPVDLVDPQQVQEFVDHAWYRYPNDQVGRHPFDGITDPWYNPGDVKGSDTNIQQLNEQERYSWIKAPRWRGNAMEVGPLARTLIAYHKGDAATVESVDRMMSALNLPLSGIQSTLGRILCRAHEAQWAAGKLQYFFDKLMTNLKNGNLATASTEKWEPATWPTECRGVGFTEAPRGALGHWAAIRDGKIDLYQCVVPTTWNASPRDPKGQIGAYEAALMNTKMAIPEQPLEILRTLHSFDPCLACSTHVLGDDGSELISVQVR" ["CCO-PERI-BAC", "CCO-MEMBRANE"] ["CCO-PM-BAC-NEG", "CCO-PERI-BAC", "CCO-MEMBRANE"] +"HYAC-MONOMER" "hydrogenase 1 cytochrome b subunit" ["CybH", "HyaC", "hydrogenase 1 - B subunit", "hydrogenase 1 - γ subunit"] "MQQKSDNVVSHYVFEAPVRIWHWLTVLCMAVLMVTGYFIGKPLPSVSGEATYLFYMGYIRLIHFSAGMVFTVVLLMRIYWAFVGNRYSRELFIVPVWRKSWWQGVWYEIRWYLFLAKRPSADIGHNPIAQAAMFGYFLMSVFMIITGFALYSEHSQYAIFAPFRYVVEFFYWTGGNSMDIHSWHRLGMWLIGAFVIGHVYMALREDIMSDDTVISTMVNGYRSHKFGKISNKERS" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"HYBA-MONOMER" "hydrogenase 2 iron-sulfur protein" ["HydL", "HybA"] "MNRRNFIKAASCGALLTGALPSVSHAAAENRPPIPGSLGMLYDSTLCVGCQACVTKCQDINFPERNPQGEQTWSNNDKLSPYTNNIIQVWTSGTGVNKDQEENGYAYIKKQCMHCVDPNCVSVCPVSALKKDPKTGIVHYDKDVCTGCRYCMVACPYNVPKYDYNNPFGALHKCELCNQKGVERLDKGGLPGCVEVCPAGAVIFGTREELMAEAKKRLALKPGSEYHYPRQTLKSGDTYLHTVPKYYPHLYGEKEGGGTQVLVLTGVPYENLDLPKLDDLSTGARSENIQHTLYKGMMLPLAVLAGLTVLVRRNTKNDHHDGGDDHES" [] ["CCO-PERI-BAC", "CCO-PM-BAC-NEG"] +"HYBC-MONOMER" "hydrogenase 2 large subunit" ["HybC", "hydrogenase 2 α subunit"] "MSQRITIDPVTRIEGHLRIDCEIENGVVSKAWASGTMWRGMEEIVKNRDPRDAWMIVQRICGVCTTTHALSSVRAAESALNIDVPVNAQYIRNIILAAHTTHDHIVHFYQLSALDWVDITSALQADPTKASEMLKGVSTWHLNSPEEFTKVQNKIKDLVASGQLGIFANGYWGHPAMKLPPEVNLIAVAHYLQALECQRDANRVVALLGGKTPHIQNLAVGGVANPINLDGLGVLNLERLMYIKSFIDKLSDFVEQVYKVDTAVIAAFYPEWLTRGKGAVNYLSVPEFPTDSKNGSFLFPGGYIENADLSSYRPITSHSDEYLIKGIQESAKHSWYKDEAPQAPWEGTTIPAYDGWSDDGKYSWVKSPTFYGKTVEVGPLANMLVKLAAGRESTQNKLNEIVAIYQKLTGNTLEVAQLHSTLGRIIGRTVHCCELQDILQNQYSALITNIGKGDHTTFVKPNIPATGEFKGVGFLEAPRGMLSHWMVIKDGIISNYQAVVPSTWNSGPRNFNDDVGPYEQSLVGTPVADPNKPLEVVRTIHSFDPCMACAVHVVDADGNEVVSVKVL" ["CCO-PM-BAC-NEG"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"HYCBSMALL-MONOMER" "formate hydrogenlyase subunit HycB" ["HevB", "HycB", "hydrogenase 3, Fe-S subunit HycB", "formate hydrogenlyase complex, iron-sulfur protein HycB"] "MNRFVIADSTLCIGCHTCEAACSETHRQHGLQSMPRLRVMLNEKESAPQLCHHCEDAPCAVVCPVNAITRVDGAVQLNESLCVSCKLCGIACPFGAIEFSGSRPLDIPANANTPKAPPAPPAPARVSTLLDWVPGIRAIAVKCDLCSFDEQGPACVRMCPTKALHLVDNTDIARVSKRKRELTFNTDFGDLTLFQQAQSGEAK" [] ["CCO-CYTOSOL"] +"HYCC-MONOMER" "formate hydrogenlyase subunit HycC" ["HevC", "HycC", "Ant-2", "hydrogenase 3, membrane subunit HycC", "formate hydrogenlyase complex, membrane subunit HycC"] "MSAISLINSGVAWFVAAAVLAFLFSFQKALSGWIAGIGGAVGSLYTAAAGFTVLTGAVGVSGALSLVSYDVQISPLNAIWLITLGLCGLFVSLYNIDWHRHAQVKCNGLQINMLMAAAVCAVIASNLGMFVVMAEIMALCAVFLTSNSKEGKLWFALGRLGTLLLAIACWLLWQRYGTLDLRLLDMRMQQLPLGSDIWLLGVIGFGLLAGIIPLHGWVPQAHANASAPAAALFSTVVMKIGLLGILTLSLLGGNAPLWWGIALLVLGMITAFVGGLYALVEHNIQRLLAYHTLENIGIILLGLGAGVTGIALEQPALIALGLVGGLYHLLNHSLFKSVLFLGAGSVWFRTGHRDIEKLGGIGKKMPVISIAMLVGLMAMAALPPLNGFAGEWVIYQSFFKLSNSGAFVARLLGPLLAVGLAITGALAVMCMAKVYGVTFLGAPRTKEAENATCAPLLMSVSVVALAICCVIGGVAAPWLLPMLSAAVPLPLEPANTTVSQPMITLLLIACPLLPFIIMAICKGDRLPSRSRGAAWVCGYDHEKSMVITAHGFAMPVKQAFAPVLKLRKWLNPVSLVPGWQCEGSALLFRRMALVELAVLVVIIVSRGA" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"HYCD-MONOMER" "formate hydrogenlyase subunit HycD" ["HevD", "HycD", "Ant-3", "Ant-5", "hydrogenase 3 membrane subunit", "formate hydrogenlyase complex, membrane subunit HycD"] "MSVLYPLIQALVLFAVAPLLSGITRVARARLHNRRGPGVLQEYRDIIKLLGRQSVGPDASGWVFRLTPYVMVGVMLTIATALPVVTVGSPLPQLGDLITLLYLFAIARFFFAISGLDTGSPFTAIGASREAMLGVLVEPMLLLGLWVAAQVAGSTNISNITDTVYHWPLSQSIPLVLALCACAFATFIEMGKLPFDLAEAEQELQEGPLSEYSGSGFGVMKWGISLKQLVVLQMFVGVFIPWGQMETFTAGGLLLALVIAIVKLVVGVLVIALFENSMARLRLDITPRITWAGFGFAFLAFVSLLAA" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"HYCELARGE-MONOMER" "formate hydrogenlyase subunit HycE" ["HevE", "HycE", "Ant-1", "hydrogenase 3 large subunit", "formate hydrogenlyase complex, hydrogenase 3 subunit HycE"] "MSEEKLGQHYLAALNEAFPGVVLDHAWQTKDQLTVTVKVNYLPEVVEFLYYKQGGWLSVLFGNDERKLNGHYAVYYVLSMEKGTKCWITVRVEVDANKPEYPSVTPRVPAAVWGEREVRDMYGLIPVGLPDERRLVLPDDWPDELYPLRKDSMDYRQRPAPTTDAETYEFINELGDKKNNVVPIGPLHVTSDEPGHFRLFVDGENIIDADYRLFYVHRGMEKLAETRMGYNEVTFLSDRVCGICGFAHSTAYTTSVENAMGIQVPERAQMIRAILLEVERLHSHLLNLGLACHFTGFDSGFMQFFRVRETSMKMAEILTGARKTYGLNLIGGIRRDLLKDDMIQTRQLAQQMRREVQELVDVLLSTPNMEQRTVGIGRLDPEIARDFSNVGPMVRASGHARDTRADHPFVGYGLLPMEVHSEQGCDVISRLKVRINEVYTALNMIDYGLDNLPGGPLMVEGFTYIPHRFALGFAEAPRGDDIHWSMTGDNQKLYRWRCRAATYANWPTLRYMLRGNTVSDAPLIIGSLDPCYSCTDRMTVVDVRKKKSKVVPYKELERYSIERKNSPLK" [] ["CCO-CYTOSOL"] +"HYCF-MONOMER" "formate hydrogenlyase subunit HycF" ["HevF", "HycF", "hydrogenase 3, Fe-S subunit HycF", "formate hydrogenlyase complex, iron-sulfur protein HycF"] "MFTFIKKVIKTGTATSSYPLEPIAVDKNFRGKPEQNPQQCIGCAACVNACPSNALTVETDLATGELAWEFNLGHCIFCGRCEEVCPTAAIKLSQEYELAVWKKEDFLQQSRFALCNCRVCNRPFAVQKEIDYAIALLKHNGDSRAENHRESFETCPECKRQKCLVPSDRIELTRHMKEAI" [] ["CCO-MEMBRANE", "CCO-CYTOSOL"] +"HYCG-MONOMER" "formate hydrogenlyase subunit HycG" ["HevG", "HycG", "hydrogenase 3 small subunit", "formate hydrogenlyase complex, hydrogenase 3 subunit HycG"] "MSNLLGPRDANGIPVPMTVDESIASMKASLLKKIKRSAYVYRVDCGGCNGCEIEIFATLSPLFDAERFGIKVVPSPRHADILLFTGAVTRAMRSPALRAWQSAPDPKICISYGACGNSGGIFHDLYCVWGGTDKIVPVDVYIPGCPPTPAATLYGFAMALGLLEQKIHARGPGELDEQPAEILHGDMVQPLRVKVDREARRLAGYRYGRQIADDYLTQLGQGEEQVARWLEAENDPRLNEIVSHLNHVVEEARIR" [] ["CCO-PM-BAC-NEG", "CCO-CYTOSOL"] +"HYDG-MONOMER" "DNA-binding transcriptional activator ZraR" ["HydG", "ZraR response regulator"] "MTHDNIDILVVDDDISHCTILQALLRGWGYNVALANSGRQALEQVREQVFDLVLCDVRMAEMDGIATLKEIKALNPAIPVLIMTAYSSVETAVEALKTGALDYLIKPLDFDNLQATLEKALAHTHSIDAETPAVTASQFGMVGKSPAMQHLLSEIALVAPSEATVLIHGDSGTGKELVARAIHASSARSEKPLVTLNCAALNESLLESELFGHEKGAFTGADKRREGRFVEADGGTLFLDEIGDISPMMQVRLLRAIQEREVQRVGSNQIISVDVRLIAATHRDLAAEVNAGRFRQDLYYRLNVVAIEVPSLRQRREDIPLLAGHFLQRFAERNRKAVKGFTPQAMDLLIHYDWPGNIRELENAVERAVVLLTGEYISERELPLAIASTPIPLGQSQDIQPLVEVEKEVILAALEKTGGNKTEAARQLGITRKTLLAKLSR" [] ["CCO-CYTOSOL"] +"HYDH-MONOMER" "sensor histidine kinase ZraS" ["HydH", "ZraS"] "MRFMQRSKDSLAKWLSAILPVVIVGLVGLFAVTVIRDYGRASEADRQALLEKGNVLIRALESGSRVGMGMRMHHVQQQALLEEMAGQPGVLWFAVTDAQGIIILHSDPDKVGRALYSPDEMQKLKPEENSRWRLLGKTETTPALEVYRLFQPMSAPWRHGMHNMPRCNGKAVPQVDAQQAIFIAVDASDLVATQSGEKRNTLIILFALATVLLASVLSFFWYRRYLRSRQLLQDEMKRKEKLVALGHLAAGVAHEIRNPLSSIKGLAKYFAERAPAGGEAHQLAQVMAKEADRLNRVVSELLELVKPTHLALQAVDLNTLINHSLQLVSQDANSREIQLRFTANDTLPEIQADPDRLTQVLLNLYLNAIQAIGQHGVISVTASESGAGVKISVTDSGKGIAADQLDAIFTPYFTTKAEGTGLGLAVVHNIVEQHGGTIQVASQEGKGSTFTLWLPVNITRKDPQG" ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"HYDROPEROXIDI-MONOMER" "catalase/hydroperoxidase HPI" ["KatG", "hydroperoxidase I"] "MSTSDDIHNTTATGKCPFHQGGHDQSAGAGTTTRDWWPNQLRVDLLNQHSNRSNPLGEDFDYRKEFSKLDYYGLKKDLKALLTESQPWWPADWGSYAGLFIRMAWHGAGTYRSIDGRGGAGRGQQRFAPLNSWPDNVSLDKARRLLWPIKQKYGQKISWADLFILAGNVALENSGFRTFGFGAGREDVWEPDLDVNWGDEKAWLTHRHPEALAKAPLGATEMGLIYVNPEGPDHSGEPLSAAAAIRATFGNMGMNDEETVALIAGGHTLGKTHGAGPTSNVGPDPEAAPIEEQGLGWASTYGSGVGADAITSGLEVVWTQTPTQWSNYFFENLFKYEWVQTRSPAGAIQFEAVDAPEIIPDPFDPSKKRKPTMLVTDLTLRFDPEFEKISRRFLNDPQAFNEAFARAWFKLTHRDMGPKSRYIGPEVPKEDLIWQDPLPQPIYNPTEQDIIDLKFAIADSGLSVSELVSVAWASASTFRGGDKRGGANGARLALMPQRDWDVNAAAVRALPVLEKIQKESGKASLADIIVLAGVVGVEKAASAAGLSIHVPFAPGRVDARQDQTDIEMFELLEPIADGFRNYRARLDVSTTESLLIDKAQQLTLTAPEMTALVGGMRVLGANFDGSKNGVFTDRVGVLSNDFFVNLLDMRYEWKATDESKELFEGRDRETGEVKFTASRADLVFGSNSVLRAVAEVYASSDAHEKFVKDFVAAWVKVMNLDRFDLL" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"HYDROPEROXIDII-MONOMER" "catalase HPII" ["KatE"] "MSQHNEKNPHQHQSPLHDSSEAKPGMDSLAPEDGSHRPAAEPTPPGAQPTAPGSLKAPDTRNEKLNSLEDVRKGSENYALTTNQGVRIADDQNSLRAGSRGPTLLEDFILREKITHFDHERIPERIVHARGSAAHGYFQPYKSLSDITKADFLSDPNKITPVFVRFSTVQGGAGSADTVRDIRGFATKFYTEEGIFDLVGNNTPIFFIQDAHKFPDFVHAVKPEPHWAIPQGQSAHDTFWDYVSLQPETLHNVMWAMSDRGIPRSYRTMEGFGIHTFRLINAEGKATFVRFHWKPLAGKASLVWDEAQKLTGRDPDFHRRELWEAIEAGDFPEYELGFQLIPEEDEFKFDFDLLDPTKLIPEELVPVQRVGKMVLNRNPDNFFAENEQAAFHPGHIVPGLDFTNDPLLQGRLFSYTDTQISRLGGPNFHEIPINRPTCPYHNFQRDGMHRMGIDTNPANYEPNSINDNWPRETPPGPKRGGFESYQERVEGNKVRERSPSFGEYYSHPRLFWLSQTPFEQRHIVDGFSFELSKVVRPYIRERVVDQLAHIDLTLAQAVAKNLGIELTDDQLNITPPPDVNGLKKDPSLSLYAIPDGDVKGRVVAILLNDEVRSADLLAILKALKAKGVHAKLLYSRMGEVTADDGTVLPIAATFAGAPSLTVDAVIVPCGNIADIADNGDANYYLMEAYKHLKPIALAGDARKFKATIKIADQGEEGIVEADSADGSFMDELLTLMAAHRVWSRIPKIDKIPA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"HYPOXANPRIBOSYLTRAN-MONOMER" "hypoxanthine phosphoribosyltransferase" ["Hpt"] "MKHTVEVMIPEAEIKARIAELGRQITERYKDSGSDMVLVGLLRGSFMFMADLCREVQVSHEVDFMTASSYGSGMSTTRDVKILKDLDEDIRGKDVLIVEDIIDSGNTLSKVREILSLREPKSLAICTLLDKPSRREVNVPVEFIGFSIPDEFVVGYGIDYAQRYRHLPYIGKVILLDE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"ICITDEHASE-KIN-PHOSPHA" "isocitrate dehydrogenase kinase/phosphatase" ["AceK"] "MPRGLELLIAQTILQGFDAQYGRFLEVTSGAQQRFEQADWHAVQQAMKNRIHLYDHHVGLVVEQLRCITNGQSTDAAFLLRVKEHYTRLLPDYPRFEIAESFFNSVYCRLFDHRSLTPERLFIFSSQPERRFRTIPRPLAKDFHPDHGWESLLMRVISDLPLRLRWQNKSRDIHYIIRHLTETLGTDNLAESHLQVANELFYRNKAAWLVGKLITPSGTLPFLLPIHQTDDGELFIDTCLTTTAEASIVFGFARSYFMVYAPLPAALVEWLREILPGKTTAELYMAIGCQKHAKTESYREYLVYLQGCNEQFIEAPGIRGMVMLVFTLPGFDRVFKVIKDRFAPQKEMSAAHVRACYQLVKEHDRVGRMADTQEFENFVLEKRHISPALMELLLQEAAEKITDLGEQIVIRHLYIERRMVPLNIWLEQVEGQQLRDAIEEYGNAIRQLAAANIFPGDMLFKNFGVTRHGRVVFYDYDEICYMTEVNFRDIPPPRYPEDELASEPWYSVSPGDVFPEEFRHWLCADPRIGPLFEEMHADLFRADYWRALQNRIREGHVEDVYAYRRRQRFSVRYGEMLF" [] ["CCO-CYTOSOL"] +"IDONDEHYD-MONOMER" null ["YjgV", "IdnD"] "MQVKTQSCVVAGKKTVAVTEQTIDWNNNGTLVQITRGGICGSDLHYYQEGKVGNFMIKAPMVLGHEVIGKVIHSDSSELHEGQTVAINPSKPCGHCKYCIEHNENQCTDMRFFGSAMYFPHVDGGFTRYKMVETSQCVPYPAKADEKVMAFAEPLAVAIHAAHQAGELQGKRVFISGVGPIGCLIVSAVKTLGAAEIVCADVSPRSLSLGKEMGADVLVNPQNDDMDHWKAEKGYFDVSFEVSGHPSSVNTCLEVTRARGVMVQVGMGGAMAEFPMMTLIGKEISLRGSFRFTSEFNTAVSWLANGVINPLPLLSAEYPFTDLEEALRFAGDKTQAAKVQLVF" [] ["CCO-CYTOSOL"] +"ILES-MONOMER" "isoleucine—tRNA ligase" ["IlvS", "IleS", "IleRS"] "MSDYKSTLNLPETGFPMRGDLAKREPGMLARWTDDDLYGIIRAAKKGKKTFILHDGPPYANGSIHIGHSVNKILKDIIVKSKGLSGYDSPYVPGWDCHGLPIELKVEQEYGKPGEKFTAAEFRAKCREYAATQVDGQRKDFIRLGVLGDWSHPYLTMDFKTEANIIRALGKIIGNGHLHKGAKPVHWCVDCRSALAEAEVEYYDKTSPSIDVAFQAVDQDALKAKFAVSNVNGPISLVIWTTTPWTLPANRAISIAPDFDYALVQIDGQAVILAKDLVESVMQRIGVTDYTILGTVKGAELELLRFTHPFMGFDVPAILGDHVTLDAGTGAVHTAPGHGPDDYVIGQKYGLETANPVGPDGTYLPGTYPTLDGVNVFKANDIVVALLQEKGALLHVEKMQHSYPCCWRHKTPIIFRATPQWFVSMDQKGLRAQSLKEIKGVQWIPDWGQARIESMVANRPDWCISRQRTWGVPMSLFVHKDTEELHPRTLELMEEVAKRVEVDGIQAWWDLDAKEILGDEADQYVKVPDTLDVWFDSGSTHSSVVDVRPEFAGHAADMYLEGSDQHRGWFMSSLMISTAMKGKAPYRQVLTHGFTVDGQGRKMSKSIGNTVSPQDVMNKLGADILRLWVASTDYTGEMAVSDEILKRAADSYRRIRNTARFLLANLNGFDPAKDMVKPEEMVVLDRWAVGCAKAAQEDILKAYEAYDFHEVVQRLMRFCSVEMGSFYLDIIKDRQYTAKADSVARRSCQTALYHIAEALVRWMAPILSFTADEVWGYLPGEREKYVFTGEWYEGLFGLADSEAMNDAFWDELLKVRGEVNKVIEQARADKKVGGSLEAAVTLYAEPELSAKLTALGDELRFVLLTSGATVADYNDAPADAQQSEVLKGLKVALSKAEGEKCPRCWHYTQDVGKVAEHAEICGRCVSNVAGDGEKRKFA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"IMIDPHOSPHADEHYDHISTIDPHOSPHA-MONOMER" "imidazoleglycerol-phosphate dehydratase / histidinol-phosphatase" ["HisB"] "MSQKYLFIDRDGTLISEPPSDFQVDRFDKLAFEPGVIPELLKLQKAGYKLVMITNQDGLGTQSFPQADFDGPHNLMMQIFTSQGVQFDEVLICPHLPADECDCRKPKVKLVERYLAEQAMDRANSYVIGDRATDIQLAENMGITGLRYDRETLNWPMIGEQLTRRDRYAHVVRNTKETQIDVQVWLDREGGSKINTGVGFFDHMLDQIATHGGFRMEINVKGDLYIDDHHTVEDTGLALGEALKIALGDKRGICRFGFVLPMDECLARCALDISGRPHLEYKAEFTYQRVGDLSTEMIEHFFRSLSYTMGVTLHLKTKGKNDHHRVESLFKAFGRTLRQAIRVEGDTLPSSKGVL" [] ["CCO-CYTOSOL"] +"IMP-DEHYDROG-MONOMER" "inosine 5'-monophosphate dehydrogenase" ["GuaR", "GuaB"] "MLRIAKEALTFDDVLLVPAHSTVLPNTADLSTQLTKTIRLNIPMLSAAMDTVTEARLAIALAQEGGIGFIHKNMSIERQAEEVRRVKKHESGVVTDPQTVLPTTTLREVKELTERNGFAGYPVVTEENELVGIITGRDVRFVTDLNQPVSVYMTPKERLVTVREGEAREVVLAKMHEKRVEKALVVDDEFHLIGMITVKDFQKAERKPNACKDEQGRLRVGAAVGAGAGNEERVDALVAAGVDVLLIDSSHGHSEGVLQRIRETRAKYPDLQIIGGNVATAAGARALAEAGCSAVKVGIGPGSICTTRIVTGVGVPQITAVADAVEALEGTGIPVIADGGIRFSGDIAKAIAAGASAVMVGSMLAGTEESPGEIELYQGRSYKSYRGMGSLGAMSKGSSDRYFQSDNAADKLVPEGIEGRVAYKGRLKEIIHQQMGGLRSCMGLTGCGTIDELRTKAEFVRISGAGIQESHVHDVTITKESPNYRLGS" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"INORGPYROPHOSPHAT-MONOMER" "inorganic pyrophosphatase" ["Ppa"] "MSLLNVPAGKDLPEDIYVVIEIPANADPIKYEIDKESGALFVDRFMSTAMFYPCNYGYINHTLSLDGDPVDVLVPTPYPLQPGSVIRCRPVGVLKMTDEAGEDAKLVAVPHSKLSKEYDHIKDVNDLPELLKAQIAHFFEHYKDLEKGKWVKVEGWENAEAAKAEIVASFERAKNK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"IPPISOM-MONOMER" "isopentenyl-diphosphate Δ-isomerase" ["YgfV", "Idi"] "MQTEHVILLNAQGVPTGTLEKYAAHTADTRLHLAFSSWLFNAKGQLLVTRRALSKKAWPGVWTNSVCGHPQLGESNEDAVIRRCRYELGVEITPPESIYPDFRYRATDPSGIVENEVCPVFAARTTSALQINDDEVMDYQWCDLADVLHGIDATPWAFSPWMVMQATNREARKRLSAFTQLK" [] ["CCO-CYTOSOL"] +"ISOCIT-LYASE-MONOMER" "isocitrate lyase" ["Icl", "AceA"] "MKTRTQQIEELQKEWTQPRWEGITRPYSAEDVVKLRGSVNPECTLAQLGAAKMWRLLHGESKKGYINSLGALTGGQALQQAKAGIEAVYLSGWQVAADANLAASMYPDQSLYPANSVPAVVERINNTFRRADQIQWSAGIEPGDPRYVDYFLPIVADAEAGFGGVLNAFELMKAMIEAGAAAVHFEDQLASVKKCGHMGGKVLVPTQEAIQKLVAARLAADVTGVPTLLVARTDADAADLITSDCDPYDSEFITGERTSEGFFRTHAGIEQAISRGLAYAPYADLVWCETSTPDLELARRFAQAIHAKYPGKLLAYNCSPSFNWQKNLDDKTIASFQQQLSDMGYKFQFITLAGIHSMWFNMFDLANAYAQGEGMKHYVEKVQQPEFAAAKDGYTFVSHQQEVGTGYFDKVTTIIQGGTSSVTALTGSTEESQF" [] ["CCO-CYTOSOL"] +"ISOCITDEH-SUBUNIT" "isocitrate dehydrogenase" ["IcdE", "IcdA", "Icd"] "MESKVVVPAQGKKITLQNGKLNVPENPIIPYIEGDGIGVDVTPAMLKVVDAAVEKAYKGERKISWMEIYTGEKSTQVYGQDVWLPAETLDLIREYRVAIKGPLTTPVGGGIRSLNVALRQELDLYICLRPVRYYQGTPSPVKHPELTDMVIFRENSEDIYAGIEWKADSADAEKVIKFLREEMGVKKIRFPEHCGIGIKPCSEEGTKRLVRAAIEYAIANDRDSVTLVHKGNIMKFTEGAFKDWGYQLAREEFGGELIDGGPWLKVKNPNTGKEIVIKDVIADAFLQQILLRPAEYDVIACMNLNGDYISDALAAQVGGIGIAPGANIGDECALFEATHGTAPKYAGQDKVNPGSIILSAEMMLRHMGWTEAADLIVKGMEGAINAKTVTYDFERLMDGAKLLKCSEFGDAIIENM" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"KCH-MONOMER" "K+ channel Kch" ["Kch"] "MSHWATFKQTATNLWVTLRHDILALAVFLNGLLIFKTIYGMSVNLLDIFHIKAFSELDLSLLANAPLFMLGVFLVLNSIGLLFRAKLAWAISIILLLIALIYTLHFYPWLKFSIGFCIFTLVFLLILRKDFSHSSAAAGTIFAFISFTTLLFYSTYGALYLSEGFNPRIESLMTAFYFSIETMSTVGYGDIVPVSESARLFTISVIISGITVFATSMTSIFGPLIRGGFNKLVKGNNHTMHRKDHFIVCGHSILAINTILQLNQRGQNVTVISNLPEDDIKQLEQRLGDNADVIPGDSNDSSVLKKAGIDRCRAILALSDNDADNAFVVLSAKDMSSDVKTVLAVSDSKNLNKIKMVHPDIILSPQLFGSEILARVLNGEEINNDMLVSMLLNSGHGIFSDNDELETKADSKESAQK" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"KDGALDOL-MONOMER" "α-dehydro-β-deoxy-D-glucarate aldolase" ["YhaF", "GarL"] "MNNDVFPNKFKAALAAKQVQIGCWSALSNPISTEVLGLAGFDWLVLDGEHAPNDISTFIPQLMALKGSASAPVVRVPTNEPVIIKRLLDIGFYNFLIPFVETKEEAELAVASTRYPPEGIRGVSVSHRANMFGTVADYFAQSNKNITILVQIESQQGVDNVDAIAATEGVDGIFVGPSDLAAALGHLGNASHPDVQKAIQHIFNRASAHGKPSGILAPVEADARRYLEWGATFVAVGSDLGVFRSATQKLADTFKK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"KDGT-MONOMER" "2-dehydro-3-deoxy-D-gluconate:H+ symporter" ["KdgT"] "MQIKRSIEKIPGGMMLVPLFLGALCHTFSPGAGKYFGSFTNGMITGTVPILAVWFFCMGASIKLSATGTVLRKSGTLVVTKIAVAWVVAAIASRIIPEHGVEVGFFAGLSTLALVAAMDMTNGGLYASIMQQYGTKEEAGAFVLMSLESGPLMTMIILGTAGIASFEPHVFVGAVLPFLVGFALGNLDPELREFFSKAVQTLIPFFAFALGNTIDLTVIAQTGLLGILLGVAVIIVTGIPLIIADKLIGGGDGTAGIAASSSAGAAVATPVLIAEMVPAFKPMAPAATSLVATAVIVTSILVPILTSIWSRKVKARAAKIEILGTVK" ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"KDO-8PSYNTH-MONOMER" "3-deoxy-D-manno-octulosonate 8-phosphate synthase" ["KdsA"] "MKQKVVSIGDINVANDLPFVLFGGMNVLESRDLAMRICEHYVTVTQKLGIPYVFKASFDKANRSSIHSYRGPGLEEGMKIFQELKQTFGVKIITDVHEPSQAQPVADVVDVIQLPAFLARQTDLVEAMAKTGAVINVKKPQFVSPGQMGNIVDKFKEGGNEKVILCDRGANFGYDNLVVDMLGFSIMKKVSGNSPVIFDVTHALQCRDPFGAASGGRRAQVAELARAGMAVGLAGLFIEAHPDPEHAKCDGPSALPLAKLEPFLKQMKAIDDLVKGFEELDTSK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"KDOTRANS-MONOMER" "KDO transferase" ["WaaA", "KdtA"] "MLELLYTALLYLIQPLIWIRLWVRGRKAPAYRKRWGERYGFYRHPLKPGGIMLHSVSVGETLAAIPLVRALRHRYPDLPITVTTMTPTGSERVQSAFGKDVQHVYLPYDLPDALNRFLNKVDPKLVLIMETELWPNLIAALHKRKIPLVIANARLSARSAAGYAKLGKFVRRLLRRITLIAAQNEEDGARFVALGAKNNQVTVTGSLKFDISVTPQLAAKAVTLRRQWAPHRPVWIATSTHEGEESVVIAAHQALLQQFPNLLLILVPRHPERFPDAINLVRQAGLSYITRSSGEVPSTSTQVVVGDTMGELMLLYGIADLAFVGGSLVERGGHNPLEAAAHAIPVLMGPHTFNFKDICARLEQASGLITVTDATTLAKEVSSLLTDADYRSFYGRHAVEVLYQNQGALQRLLQLLEPYLPPKTH" ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"KDPB-MONOMER" "K+ transporting P-type ATPase subunit KdpB" ["KdpB", "Kac"] "MSRKQLALFEPTLVVQALKEAVKKLNPQAQWRNPVMFIVWIGSLLTTCISIAMASGAMPGNALFSAAISGWLWITVLFANFAEALAEGRSKAQANSLKGVKKTAFARKLREPKYGAAADKVPADQLRKGDIVLVEAGDIIPCDGEVIEGGASVDESAITGESAPVIRESGGDFASVTGGTRILSDWLVIECSVNPGETFLDRMIAMVEGAQRRKTPNEIALTILLIALTIVFLLATATLWPFSAWGGNAVSVTVLVALLVCLIPTTIGGLLSAIGVAGMSRMLGANVIATSGRAVEAAGDVDVLLLDKTGTITLGNRQASEFIPAQGVDEKTLADAAQLASLADETPEGRSIVILAKQRFNLRERDVQSLHATFVPFTAQSRMSGINIDNRMIRKGSVDAIRRHVEANGGHFPTDVDQKVDQVARQGATPLVVVEGSRVLGVIALKDIVKGGIKERFAQLRKMGIKTVMITGDNRLTAAAIAAEAGVDDFLAEATPEAKLALIRQYQAEGRLVAMTGDGTNDAPALAQADVAVAMNSGTQAAKEAGNMVDLDSNPTKLIEVVHIGKQMLMTRGSLTTFSIANDVAKYFAIIPAAFAATYPQLNALNIMCLHSPDSAILSAVIFNALIIVFLIPLALKGVSYKPLTASAMLRRNLWIYGLGGLLVPFIGIKVIDLLLTVCGLV" ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"KDPD-MONOMER" "sensor histidine kinase KdpD" ["Kac", "KdpD"] "MNNEPLRPDPDRLLEQTAAPHRGKLKVFFGACAGVGKTWAMLAEAQRLRAQGLDIVVGVVETHGRKDTAAMLEGLAVLPLKRQAYRGRHISEFDLDAALARRPALILMDELAHSNAPGSRHPKRWQDIEELLEAGIDVFTTVNVQHLESLNDVVSGVTGIQVRETVPDPFFDAADDVVLVDLPPDDLRQRLKEGKVYIAGQAERAIEHFFRKGNLIALRELALRRTADRVDEQMRAWRGHPGEEKVWHTRDAILLCIGHNTGSEKLVRAAARLASRLGSVWHAVYVETPALHRLPEKKRRAILSALRLAQELGAETATLSDPAEEKAVVRYAREHNLGKIILGRPASRRWWRRETFADRLARIAPDLDQVLVALDEPPARTINNAPDNRSFKDKWRVQIQGCVVAAALCAVITLIAMQWLMAFDAANLVMLYLLGVVVVALFYGRWPSVVATVINVVSFDLFFIAPRGTLAVSDVQYLLTFAVMLTVGLVIGNLTAGVRYQARVARYREQRTRHLYEMSKALAVGRSPQDIAATSEQFIASTFHARSQVLLPDDNGKLQPLTHPQGMTPWDDAIAQWSFDKGLPAGAGTDTLPGVPYQILPLKSGEKTYGLVVVEPGNLRQLMIPEQQRLLETFTLLVANALERLTLTASEEQARMASEREQIRNALLAALSHDLRTPLTVLFGQAEILTLDLASEGSPHARQASEIRQHVLNTTRLVNNLLDMARIQSGGFNLKKEWLTLEEVVGSALQMLEPGLSSPINLSLPEPLTLIHVDGPLFERVLINLLENAVKYAGAQAEIGIDAHVEGENLQLDVWDNGPGLPPGQEQTIFDKFARGNKESAVPGVGLGLAICRAIVDVHGGTITAFNRPEGGACFRVTLPQQTAPELEEFHEDM" ["CCO-PERI-BAC", "CCO-CYTOSOL", "CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-CYTOSOL", "CCO-PM-BAC-NEG"] +"KDPE-MONOMER" "DNA-binding transcriptional activator KdpE" ["KdpE response regulator", "KdpE transcriptional activator"] "MTNVLIVEDEQAIRRFLRTALEGDGMRVFEAETLQRGLLEAATRKPDLIILDLGLPDGDGIEFIRDLRQWSAVPVIVLSARSEESDKIAALDAGADDYLSKPFGIGELQARLRVALRRHSATTAPDPLVKFSDVTVDLAARVIHRGEEEVHLTPIEFRLLAVLLNNAGKVLTQRQLLNQVWGPNAVEHSHYLRIYMGHLRQKLEQDPARPRHFITETGIGYRFML" [] ["CCO-CYTOSOL"] +"KDPGALDOL-4OH2OXOGLUTARALDOL-MONOMER" "KHG/KDPG aldolase" ["Kga", "Hga", "KdgA", "Eda"] "MKNWKTSAESILTTGPVVPVIVVKKLEHAVPMAKALVAGGVRVLEVTLRTECAVDAIRAIAKEVPEAIVGAGTVLNPQQLAEVTEAGAQFAISPGLTEPLLKAATEGTIPLIPGISTVSELMLGMDYGLKEFKFFPAEANGGVKALQAIAGPFSQVRFCPTGGISPANYRDYLALKSVLCIGGSWLVPADALEAGDYDRITKLAREAVEGAKL" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"KDUD-MONOMER" "putative 2-keto-3-deoxy-D-gluconate dehydrogenase" ["YgeC", "YqeD", "KduD"] "MILSAFSLEGKVAVVTGCDTGLGQGMALGLAQAGCDIVGINIVEPTETIEQVTALGRRFLSLTADLRKIDGIPALLDRAVAEFGHIDILVNNAGLIRREDALEFSEKDWDDVMNLNIKSVFFMSQAAAKHFIAQGNGGKIINIASMLSFQGGIRVPSYTASKSGVMGVTRLMANEWAKHNINVNAIAPGYMATNNTQQLRADEQRSAEILDRIPAGRWGLPSDLMGPIVFLASSASDYVNGYTIAVDGGWLAR" [] ["CCO-CYTOSOL"] +"KEFB-MONOMER" null ["TrkB", "KefB", "KefB potassium CPA2 transporter"] "MEGSDFLLAGVLFLFAAVAAVPLASRLGIGAVLGYLLAGIAIGPWGLGFISDVDEILHFSELGVVFLMFIIGLELNPSKLWQLRRSIFGVGAAQVLLSAALLAGLLMLTDFAWQAAVVGGIGLAMSSTAMALQLMREKGMNRSESGQLGFSVLLFQDLAVIPALALVPLLAGSADEHFDWMKVGMKVLAFVGMLIGGRYLLRPVFRFIAASGVREVFTAATLLLVLGSALFMDALGLSMALGTFIAGVLLAESEYRHELETAIDPFKGLLLGLFFISVGMSLNLGVLYTHLLWVVISVVVLVAVKILVLYLLARLYGVRSSERMQFAGVLSQGGEFAFVLFSTASSQRLFQGDQMALLLVTVTLSMMTTPLLMKLVDKWLSRQFNGPEEEDEKPWVNDDKPQVIVVGFGRFGQVIGRLLMANKMRITVLERDISAVNLMRKYGYKVYYGDATQVDLLRSAGAEAAESIVITCNEPEDTMKLVEICQQHFPHLHILARARGRVEAHELLQAGVTQFSRETFSSALELGRKTLVTLGMHPHQAQRAQLHFRRLDMRMLRELIPMHADTVQISRAREARRELEEIFQREMQQERRQLDGWDEFE" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"KEFC-MONOMER" "K+ : H+ antiporter KefC" ["TrkC", "KefC"] "MDSHTLIQALIYLGSAALIVPIAVRLGLGSVLGYLIAGCIIGPWGLRLVTDAESILHFAEIGVVLMLFIIGLELDPQRLWKLRAAVFGCGALQMVICGGLLGLFCMLLGLRWQVAELIGMTLALSSTAIAMQAMNERNLMVTQMGRSAFAVLLFQDIAAIPLVAMIPLLATSSASTTMGAFALSALKVAGALVLVVLLGRYVTRPALRFVARSGLREVFSAVALFLVFGFGLLLEEVGLSMAMGAFLAGVLLASSEYRHALESDIEPFKGLLLGLFFIGVGMSIDFGTLLENPLRIVILLLGFLIIKIAMLWLIARPLQVPNKQRRWFAVLLGQGSEFAFVVFGAAQMANVLEPEWAKSLTLAVALSMAATPILLVILNRLEQSSTEEAREADEIDEEQPRVIIAGFGRFGQITGRLLLSSGVKMVVLDHDPDHIETLRKFGMKVFYGDATRMDLLESAGAAKAEVLINAIDDPQTNLQLTEMVKEHFPHLQIIARARDVDHYIRLRQAGVEKPERETFEGALKTGRLALESLGLGPYEARERADVFRRFNIQMVEEMAMVENDTKARAAVYKRTSAMLSEIITEDREHLSLIQRHGWQGTEEGKHTGNMADEPETKPSS" ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"KETOBUTFORMLY-INACT-MONOMER" "2-ketobutyrate formate-lyase/pyruvate formate-lyase 4" ["YhaS", "TdcE"] "MKVDIDTSDKLYADAWLGFKGTDWKNEINVRDFIQHNYTPYEGDESFLAEATPATTELWEKVMEGIRIENATHAPVDFDTNIATTITAHDAGYINQPLEKIVGLQTDAPLKRALHPFGGINMIKSSFHAYGREMDSEFEYLFTDLRKTHNQGVFDVYSPDMLRCRKSGVLTGLPDGYGRGRIIGDYRRVALYGISYLVRERELQFADLQSRLEKGEDLEATIRLREELAEHRHALLQIQEMAAKYGFDISRPAQNAQEAVQWLYFAYLAAVKSQNGGAMSLGRTASFLDIYIERDFKAGVLNEQQAQELIDHFIMKIRMVRFLRTPEFDSLFSGDPIWATEVIGGMGLDGRTLVTKNSFRYLHTLHTMGPAPEPNLTILWSEELPIAFKKYAAQVSIVTSSLQYENDDLMRTDFNSDDYAIACCVSPMVIGKQMQFFGARANLAKTLLYAINGGVDEKLKIQVGPKTAPLMDDVLDYDKVMDSLDHFMDWLAVQYISALNIIHYMHDKYSYEASLMALHDRDVYRTMACGIAGLSVATDSLSAIKYARVKPIRDENGLAVDFEIDGEYPQYGNNDERVDSIACDLVERFMKKIKALPTYRNAVPTQSILTITSNVVYGQKTGNTPDGRRAGTPFAPGANPMHGRDRKGAVASLTSVAKLPFTYAKDGISYTFSIVPAALGKEDPVRKTNLVGLLDGYFHHEADVEGGQHLNVNVMNREMLLDAIEHPEKYPNLTIRVSGYAVRFNALTREQQQDVISRTFTQAL" ["CCO-MEMBRANE", "CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"KETOLREDUCTOISOM-MONOMER" "ketol-acid reductoisomerase (NADP+)" ["IlvC"] "MANYFNTLNLRQQLAQLGKCRFMGRDEFADGASYLQGKKVVIVGCGAQGLNQGLNMRDSGLDISYALRKEAIAEKRASWRKATENGFKVGTYEELIPQADLVINLTPDKQHSDVVRTVQPLMKDGAALGYSHGFNIVEVGEQIRKDITVVMVAPKCPGTEVREEYKRGFGVPTLIAVHPENDPKGEGMAIAKAWAAATGGHRAGVLESSFVAEVKSDLMGEQTILCGMLQAGSLLCFDKLVEEGTDPAYAEKLIQFGWETITEALKQGGITLMMDRLSNPAKLRAYALSEQLKEIMAPLFQKHMDDIISGEFSSGMMADWANDDKKLLTWREETGKTAFETAPQYEGKIGEQEYFDKGVLMIAMVKAGVELAFETMVDSGIIEESAYYESLHELPLIANTIARKRLYEMNVVISDTAEYGNYLFSYACVPLLKPFMAELQPGDLGKAIPEGAVDNGQLRDVNEAIRSHAIEQVGKKLRGYMTDMKRIAVAG" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"KGTP-MONOMER" "α-ketoglutarate:H+ symporter" ["WitA", "KgtP", "α-ketoglutarate MFS transporter"] "MAESTVTADSKLTSSDTRRRIWAIVGASSGNLVEWFDFYVYSFCSLYFAHIFFPSGNTTTQLLQTAGVFAAGFLMRPIGGWLFGRIADKHGRKKSMLLSVCMMCFGSLVIACLPGYETIGTWAPALLLLARLFQGLSVGGEYGTSATYMSEVAVEGRKGFYASFQYVTLIGGQLLALLVVVVLQHTMEDAALREWGWRIPFALGAVLAVVALWLRRQLDETSQQETRALKEAGSLKGLWRNRRAFIMVLGFTAAGSLCFYTFTTYMQKYLVNTAGMHANVASGIMTAALFVFMLIQPLIGALSDKIGRRTSMLCFGSLAAIFTVPILSALQNVSSPYAAFGLVMCALLIVSFYTSISGILKAEMFPAQVRALGVGLSYAVANAIFGGSAEYVALSLKSIGMETAFFWYVTLMAVVAFLVSLMLHRKGKGMRL" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"KUP-MONOMER" "K+:H+ symporter Kup" ["TrkD", "Kup"] "MSTDNKQSLPAITLAAIGVVYGDIGTSPLYTLRECLSGQFGFGVERDAVFGFLSLIFWLLIFVVSIKYLTFVMRADNAGEGGILTLMSLAGRNTSARTTSMLVIMGLIGGSFFYGEVVITPAISVMSAIEGLEIVAPQLDTWIVPLSIIVLTLLFMIQKHGTAMVGKLFAPIMLTWFLILAGLGLRSIIANPEVLHALNPMWAVHFFLEYKTVSFIALGAVVLSITGVEALYADMGHFGKFPIRLAWFTVVLPSLTLNYFGQGALLLKNPEAIKNPFFLLAPDWALIPLLIIAALATVIASQAVISGVFSLTRQAVRLGYLSPMRIIHTSEMESGQIYIPFVNWMLYVAVVIVIVSFEHSSNLAAAYGIAVTGTMVLTSILSTTVARQNWHWNKYFVALILIAFLCVDIPLFTANLDKLLSGGWLPLSLGTVMFIVMTTWKSERFRLLRRMHEHGNSLEAMIASLEKSPPVRVPGTAVYMSRAINVIPFALMHNLKHNKVLHERVILLTLRTEDAPYVHNVRRVQIEQLSPTFWRVVASYGWRETPNVEEVFHRCGLEGLSCRMMETSFFMSHESLILGKRPWYLRLRGKLYLLLQRNALRAPDQFEIPPNRVIELGTQVEI" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"L-ASPARTATE-OXID-MONOMER" "L-aspartate oxidase" ["Nic", "NicB", "NadB"] "MNTLPEHSCDVLIIGSGAAGLSLALRLADQHQVIVLSKGPVTEGSTFYAQGGIAAVFDETDSIDSHVEDTLIAGAGICDRHAVEFVASNARSCVQWLIDQGVLFDTHIQPNGEESYHLTREGGHSHRRILHAADATGREVETTLVSKALNHPNIRVLERSNAVDLIVSDKIGLPGTRRVVGAWVWNRNKETVETCHAKAVVLATGGASKVYQYTTNPDISSGDGIAMAWRAGCRVANLEFNQFHPTALYHPQARNFLLTEALRGEGAYLKRPDGTRFMPDFDERGELAPRDIVARAIDHEMKRLGADCMFLDISHKPADFIRQHFPMIYEKLLGLGIDLTQEPVPIVPAAHYTCGGVMVDDHGRTDVEGLYAIGEVSYTGLHGANRMASNSLLECLVYGWSAAEDITRRMPYAHDISTLPPWDESRVENPDERVVIQHNWHELRLFMWDYVGIVRTTKRLERALRRITMLQQEIDEYYAHFRVSNNLLELRNLVQVAELIVRCAMMRKESRGLHFTLDYPELLTHSGPSILSPGNHYINR" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"L-GLN-FRUCT-6-P-AMINOTRANS-MONOMER" "L-glutamine—D-fructose-6-phosphate aminotransferase" ["GlmS"] "MCGIVGAIAQRDVAEILLEGLRRLEYRGYDSAGLAVVDAEGHMTRLRRLGKVQMLAQAAEEHPLHGGTGIAHTRWATHGEPSEVNAHPHVSEHIVVVHNGIIENHEPLREELKARGYTFVSETDTEVIAHLVNWELKQGGTLREAVLRAIPQLRGAYGTVIMDSRHPDTLLAARSGSPLVIGLGMGENFIASDQLALLPVTRRFIFLEEGDIAEITRRSVNIFDKTGAEVKRQDIESNLQYDAGDKGIYRHYMQKEIYEQPNAIKNTLTGRISHGQVDLSELGPNADELLSKVEHIQILACGTSYNSGMVSRYWFESLAGIPCDVEIASEFRYRKSAVRRNSLMITLSQSGETADTLAGLRLSKELGYLGSLAICNVPGSSLVRESDLALMTNAGTEIGVASTKAFTTQLTVLLMLVAKLSRLKGLDASIEHDIVHGLQALPSRIEQMLSQDKRIEALAEDFSDKHHALFLGRGDQYPIALEGALKLKEISYIHAEAYAAGELKHGPLALIDADMPVIVVAPNNELLEKLKSNIEEVRARGGQLYVFADQDAGFVSSDNMHIIEMPHVEEVIAPIFYTVPLQLLAYHVALIKGTDVDQPRNLAKSVTVE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"L-LACTDEHYDROGFMN-MONOMER" "L-lactate dehydrogenase" ["Lct", "LctD", "LldD"] "MIISAASDYRAAAQRILPPFLFHYMDGGAYSEYTLRRNVEDLSEVALRQRILKNMSDLSLETTLFNEKLSMPVALAPVGLCGMYARRGEVQAAKAADAHGIPFTLSTVSVCPIEEVAPAIKRPMWFQLYVLRDRGFMRNALERAKAAGCSTLVFTVDMPTPGARYRDAHSGMSGPNAAMRRYLQAVTHPQWAWDVGLNGRPHDLGNISAYLGKPTGLEDYIGWLGNNFDPSISWKDLEWIRDFWDGPMVIKGILDPEDARDAVRFGADGIVVSNHGGRQLDGVLSSARALPAIADAVKGDIAILADSGIRNGLDVVRMIALGADTVLLGRAFLYALATAGQAGVANLLNLIEKEMKVAMTLTGAKSISEITQDSLVQGLGKELPAALAPMAKGNAA" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"LACTALDDEHYDROG-MONOMER" "aldehyde dehydrogenase A" ["Ald", "AldA"] "MSVPVQHPMYIDGQFVTWRGDAWIDVVNPATEAVISRIPDGQAEDARKAIDAAERAQPEWEALPAIERASWLRKISAGIRERASEISALIVEEGGKIQQLAEVEVAFTADYIDYMAEWARRYEGEIIQSDRPGENILLFKRALGVTTGILPWNFPFFLIARKMAPALLTGNTIVIKPSEFTPNNAIAFAKIVDEIGLPRGVFNLVLGRGETVGQELAGNPKVAMVSMTGSVSAGEKIMATAAKNITKVCLELGGKAPAIVMDDADLELAVKAIVDSRVINSGQVCNCAERVYVQKGIYDQFVNRLGEAMQAVQFGNPAERNDIAMGPLINAAALERVEQKVARAVEEGARVAFGGKAVEGKGYYYPPTLLLDVRQEMSIMHEETFGPVLPVVAFDTLEDAISMANDSDYGLTSSIYTQNLNVAMKAIKGLKFGETYINRENFEAMQGFHAGWRKSGIGGADGKHGLHEYLQTQVVYLQS" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"LACTALDREDUCT-MONOMER" "L-1,2-propanediol oxidoreductase" ["FucO"] "MANRMILNETAWFGRGAVGALTDEVKRRGYQKALIVTDKTLVQCGVVAKVTDKMDAAGLAWAIYDGVVPNPTITVVKEGLGVFQNSGADYLIAIGGGSPQDTCKAIGIISNNPEFADVRSLEGLSPTNKPSVPILAIPTTAGTAAEVTINYVITDEEKRRKFVCVDPHDIPQVAFIDADMMDGMPPALKAATGVDALTHAIEGYITRGAWALTDALHIKAIEIIAGALRGSVAGDKDAGEEMALGQYVAGMGFSNVGLGLVHGMAHPLGAFYNTPHGVANAILLPHVMRYNADFTGEKYRDIARVMGVKVEGMSLEEARNAAVEAVFALNRDVGIPPHLRDVGVRKEDIPALAQAALDDVCTGGNPREATLEDIVELYHTAW" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"LACY-MONOMER" "lactose permease" ["lactose/melibiose:H+ symporter", "lac permease", "LacY", "galactoside:proton symporter"] "MYYLKNTNFWMFGLFFFFYFFIMGAYFPFFPIWLHDINHISKSDTGIIFAAISLFSLLFQPLFGLLSDKLGLRKYLLWIITGMLVMFAPFFIFIFGPLLQYNILVGSIVGGIYLGFCFNAGAPAVEAFIEKVSRRSNFEFGRARMFGCVGWALCASIVGIMFTINNQFVFWLGSGCALILAVLLFFAKTDAPSSATVANAVGANHSAFSLKLALELFRQPKLWFLSLYVIGVSCTYDVFDQQFANFFTSFFATGEQGTRVFGYVTTMGELLNASIMFFAPLIINRIGGKNALLLAGTIMSVRIIGSSFATSALEVVILKTLHMFEVPFLLVGCFKYITSQFEVRFSATIYLVCFCFFKQLAMIFMSVLAGNMYESIGFQGAYLVLGLVALGFTLISVFTLSGPGPLSLLRRQVNEVA" ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"LARGEILVB-MONOMER" "acetohydroxy acid synthase I subunit IlvB" ["IlvB", "acetohydroxy acid synthase I, large subunit"] "MASSGTTSTRKRFTGAEFIVHFLEQQGIKIVTGIPGGSILPVYDALSQSTQIRHILARHEQGAGFIAQGMARTDGKPAVCMACSGPGATNLVTAIADARLDSIPLICITGQVPASMIGTDAFQEVDTYGISIPITKHNYLVRHIEELPQVMSDAFRIAQSGRPGPVWIDIPKDVQTAVFEIETQPAMAEKAAAPAFSEESIRDAAAMINAAKRPVLYLGGGVINAPARVRELAEKAQLPTTMTLMALGMLPKAHPLSLGMLGMHGVRSTNYILQEADLLIVLGARFDDRAIGKTEQFCPNAKIIHVDIDRAELGKIKQPHVAIQADVDDVLAQLIPLVEAQPRAEWHQLVADLQREFPCPIPKACDPLSHYGLINAVAACVDDNAIITTDVGQHQMWTAQAYPLNRPRQWLTSGGLGTMGFGLPAAIGAALANPDRKVLCFSGDGSLMMNIQEMATASENQLDVKIILMNNEALGLVHQQQSLFYEQGVFAATYPGKINFMQIAAGFGLETCDLNNEADPQASLQEIINRPGPALIHVRIDAEEKVYPMVPPGAANTEMVGE" [] ["CCO-CYTOSOL"] +"LAUROYLACYLTRAN-MONOMER" null ["WaaM", "HtrB", "LpxL"] "MTNLPKFSTALLHPRYWLTWLGIGVLWLVVQLPYPVIYRLGCGLGKLALRFMKRRAKIVHRNLELCFPEMSEQERRKMVVKNFESVGMGLMETGMAWFWPDRRIARWTEVIGMEHIRDVQAQKRGILLVGIHFLTLELGARQFGMQEPGIGVYRPNDNPLIDWLQTWGRLRSNKSMLDRKDLKGMIKALKKGEVVWYAPDHDYGPRSSVFVPLFAVEQAATTTGTWMLARMSGACLVPFVPRRKPDGKGYQLIMLPPECSPPLDDAETTAAWMNKVVEKCIMMAPEQYMWLHRRFKTRPEGVPSRY" ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"LCTP-MONOMER" "lactate/glycolate:H+ symporter LldP" ["Lct", "LctP", "LldP"] "MNLWQQNYDPAGNIWLSSLIASLPILFFFFALIKLKLKGYVAASWTVAIALAVALLFYKMPVANALASVVYGFFYGLWPIAWIIIAAVFVYKISVKTGQFDIIRSSILSITPDQRLQMLIVGFCFGAFLEGAAGFGAPVAITAALLVGLGFKPLYAAGLCLIVNTAPVAFGAMGIPILVAGQVTGIDSFEIGQMVGRQLPFMTIIVLFWIMAIMDGWRGIKETWPAVVVAGGSFAIAQYLSSNFIGPELPDIISSLVSLLCLTLFLKRWQPVRVFRFGDLGASQVDMTLAHTGYTAGQVLRAWTPFLFLTATVTLWSIPPFKALFASGGALYEWVINIPVPYLDKLVARMPPVVSEATAYAAVFKFDWFSATGTAILFAALLSIVWLKMKPSDAISTFGSTLKELALPIYSIGMVLAFAFISNYSGLSSTLALALAHTGHAFTFFSPFLGWLGVFLTGSDTSSNALFAALQATAAQQIGVSDLLLVAANTTGGVTGKMISPQSIAIACAAVGLVGKESDLFRFTVKHSLIFTCIVGVITTLQAYVLTWMIP" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"LDC2-MONOMER" "lysine decarboxylase 2" ["LdcC", "Ldc", "LdcH", "lysine decarboxylase, constitutive"] "MNIIAIMGPHGVFYKDEPIKELESALVAQGFQIIWPQNSVDLLKFIEHNPRICGVIFDWDEYSLDLCSDINQLNEYLPLYAFINTHSTMDVSVQDMRMALWFFEYALGQAEDIAIRMRQYTDEYLDNITPPFTKALFTYVKERKYTFCTPGHMGGTAYQKSPVGCLFYDFFGGNTLKADVSISVTELGSLLDHTGPHLEAEEYIARTFGAEQSYIVTNGTSTSNKIVGMYAAPSGSTLLIDRNCHKSLAHLLMMNDVVPVWLKPTRNALGILGGIPRREFTRDSIEEKVAATTQAQWPVHAVITNSTYDGLLYNTDWIKQTLDVPSIHFDSAWVPYTHFHPIYQGKSGMSGERVAGKVIFETQSTHKMLAALSQASLIHIKGEYDEEAFNEAFMMHTTTSPSYPIVASVETAAAMLRGNPGKRLINRSVERALHFRKEVQRLREESDGWFFDIWQPPQVDEAECWPVAPGEQWHGFNDADADHMFLDPVKVTILTPGMDEQGNMSEEGIPAALVAKFLDERGIVVEKTGPYNLLFLFSIGIDKTKAMGLLRGLTEFKRSYDLNLRIKNMLPDLYAEDPDFYRNMRIQDLAQGIHKLIRKHDLPGLMLRAFDTLPEMIMTPHQAWQRQIKGEVETIALEQLVGRVSANMILPYPPGVPLLMPGEMLTKESRTVLDFLLMLCSVGQHYPGFETDIHGAKQDEDGVYRVRVLKMAG" [] ["CCO-CYTOSOL"] +"LEUC-MONOMER" "3-isopropylmalate dehydratase subunit LeuC" ["LeuC", "3-isopropylmalate dehydratase, large subunit"] "MAKTLYEKLFDAHVVYEAENETPLLYIDRHLVHEVTSPQAFDGLRAHGRPVRQPGKTFATMDHNVSTQTKDINACGEMARIQMQELIKNCKEFGVELYDLNHPYQGIVHVMGPEQGVTLPGMTIVCGDSHTATHGAFGALAFGIGTSEVEHVLATQTLKQGRAKTMKIEVQGKAAPGITAKDIVLAIIGKTGSAGGTGHVVEFCGEAIRDLSMEGRMTLCNMAIEMGAKAGLVAPDETTFNYVKGRLHAPKGKDFDDAVAYWKTLQTDEGATFDTVVTLQAEEISPQVTWGTNPGQVISVNDNIPDPASFADPVERASAEKALAYMGLKPGIPLTEVAIDKVFIGSCTNSRIEDLRAAAEIAKGRKVAPGVQALVVPGSGPVKAQAEAEGLDKIFIEAGFEWRLPGCSMCLAMNNDRLNPGERCASTSNRNFEGRQGRGGRTHLVSPAMAAAAAVTGHFADIRNIK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"LEUD-MONOMER" "3-isopropylmalate dehydratase subunit LeuD" ["LeuD", "3-isopropylmalate dehydratase, small subunit"] "MAEKFIKHTGLVVPLDAANVDTDAIIPKQFLQKVTRTGFGAHLFNDWRFLDEKGQQPNPDFVLNFPQYQGASILLARENFGCGSSREHAPWALTDYGFKVVIAPSFADIFYGNSFNNQLLPVKLSDAEVDELFALVKANPGIHFDVDLEAQEVKAGEKTYRFTIDAFRRHCMMNGLDSIGLTLQHDDAIAAYEAKQPAFMN" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"LEUS-MONOMER" "leucine—tRNA ligase" ["Syl", "LeuS", "LeuRS"] "MQEQYRPEEIESKVQLHWDEKRTFEVTEDESKEKYYCLSMLPYPSGRLHMGHVRNYTIGDVIARYQRMLGKNVLQPIGWDAFGLPAEGAAVKNNTAPAPWTYDNIAYMKNQLKMLGFGYDWSRELATCTPEYYRWEQKFFTELYKKGLVYKKTSAVNWCPNDQTVLANEQVIDGCCWRCDTKVERKEIPQWFIKITAYADELLNDLDKLDHWPDTVKTMQRNWIGRSEGVEITFNVNDYDNTLTVYTTRPDTFMGCTYLAVAAGHPLAQKAAENNPELAAFIDECRNTKVAEAEMATMEKKGVDTGFKAVHPLTGEEIPVWAANFVLMEYGTGAVMAVPGHDQRDYEFASKYGLNIKPVILAADGSEPDLSQQALTEKGVLFNSGEFNGLDHEAAFNAIADKLTAMGVGERKVNYRLRDWGVSRQRYWGAPIPMVTLEDGTVMPTPDDQLPVILPEDVVMDGITSPIKADPEWAKTTVNGMPALRETDTFDTFMESSWYYARYTCPQYKEGMLDSEAANYWLPVDIYIGGIEHAIMHLLYFRFFHKLMRDAGMVNSDEPAKQLLCQGMVLADAFYYVGENGERNWVSPVDAIVERDEKGRIVKAKDAAGHELVYTGMSKMSKSKNNGIDPQVMVERYGADTVRLFMMFASPADMTLEWQESGVEGANRFLKRVWKLVYEHTAKGDVAALNVDALTENQKALRRDVHKTIAKVTDDIGRRQTFNTAIAAIMELMNKLAKAPTDGEQDRALMQEALLAVVRMLNPFTPHICFTLWQELKGEGDIDNAPWPVADEKAMVEDSTLVVVQVNGKVRAKITVPVDATEEQVRERAGQEHLVAKYLDGVTVRKVIYVPGKLLNLVVG" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"LIPIDADISACCHARIDESYNTH-MONOMER" "lipid A disaccharide synthase" ["PgsB", "LpxB"] "MTEQRPLTIALVAGETSGDILGAGLIRALKEHVPNARFVGVAGPRMQAEGCEAWYEMEELAVMGIVEVLGRLRRLLHIRADLTKRFGELKPDVFVGIDAPDFNITLEGNLKKQGIKTIHYVSPSVWAWRQKRVFKIGRATDLVLAFLPFEKAFYDKYNVPCRFIGHTMADAMPLDPDKNAARDVLGIPHDAHCLALLPGSRGAEVEMLSADFLKTAQLLRQTYPDLEIVVPLVNAKRREQFERIKAEVAPDLSVHLLDGMGREAMVASDAALLASGTAALECMLAKCPMVVGYRMKPFTFWLAKRLVKTDYVSLPNLLAGRELVKELLQEECEPQKLAAALLPLLANGKTSHAMHDTFRELHQQIRCNADEQAAQAVLELAQ" ["CCO-PM-BAC-NEG", "CCO-CYTOSOL"] [] +"LIVF-MONOMER" "branched chain amino acid/phenylalanine ABC transporter ATP binding subunit LivF" [] "MEKVMLSFDKVSAHYGKIQALHEVSLHINQGEIVTLIGANGAGKTTLLGTLCGDPRATSGRIVFDDKDITDWQTAKIMREAVAIVPEGRRVFSRMTVEENLAMGGFFAERDQFQERIKWVYELFPRLHERRIQRAGTMSGGEQQMLAIGRALMSNPRLLLLDEPSLGLAPIIIQQIFDTIEQLREQGMTIFLVEQNANQALKLADRGYVLENGHVVLSDTGDALLANEAVRSAYLGG" [] ["CCO-CYTOSOL", "CCO-PM-BAC-NEG"] +"LIVG-MONOMER" "branched chain amino acid/phenylalanine ABC transporter ATP binding subunit LivG" ["HrbC", "HrbD", "HrbB"] "MSQPLLSVNGLMMRFGGLLAVNNVNLELYPQEIVSLIGPNGAGKTTVFNCLTGFYKPTGGTILLRDQHLEGLPGQQIARMGVVRTFQHVRLFREMTVIENLLVAQHQQLKTGLFSGLLKTPSFRRAQSEALDRAATWLERIGLLEHANRQASNLAYGDQRRLEIARCMVTQPEILMLDEPAAGLNPKETKELDELIAELRNHHNTTILLIEHDMKLVMGISDRIYVVNQGTPLANGTPEQIRNNPDVIRAYLGEA" ["CCO-MEMBRANE"] ["CCO-PM-BAC-NEG"] +"LIVH-MONOMER" "branched chain amino acid/phenylalanine ABC transporter membrane subunit LivH" ["HrbC", "HrbD", "HrbB"] "MSEQFLYFLQQMFNGVTLGSTYALIAIGYTMVYGIIGMINFAHGEVYMIGSYVSFMIIAALMMMGIDTGWLLVAAGFVGAIVIASAYGWSIERVAYRPVRNSKRLIALISAIGMSIFLQNYVSLTEGSRDVALPSLFNGQWVVGHSENFSASITTMQAVIWIVTFLAMLALTIFIRYSRMGRACRACAEDLKMASLLGINTDRVIALTFVIGAAMAAVAGVLLGQFYGVINPYIGFMAGMKAFTAAVLGGIGSIPGAMIGGLILGIAEALSSAYLSTEYKDVVSFALLILVLLVMPTGILGRPEVEKV" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"LIVJ-MONOMER" "branched chain amino acid/phenylalanine ABC transporter periplasmic binding protein" ["HrbC", "HrbD", "HrbB", "LIV-I BP"] "MNIKGKALLAGCIALAFSNMALAEDIKVAVVGAMSGPVAQYGDQEFTGAEQAVADINAKGGIKGNKLQIVKYDDACDPKQAVAVANKVVNDGIKYVIGHLCSSSTQPASDIYEDEGILMITPAATAPELTARGYQLILRTTGLDSDQGPTAAKYILEKVKPQRIAIVHDKQQYGEGLARAVQDGLKKGNANVVFFDGITAGEKDFSTLVARLKKENIDFVYYGGYHPEMGQILRQARAAGLKTQFMGPEGVANVSLSNIAGESAEGLLVTKPKNYDQVPANKPIVDAIKAKKQDPSGAFVWTTYAALQSLQAGLNQSDDPAEIAKYLKANSVDTVMGPLTWDEKGDLKGFEFGVFDWHANGTATDAK" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"LIVK-MONOMER" "L-leucine/L-phenylalanine ABC transporter periplasmic binding protein" ["HrbC", "HrbD", "HrbB", "LivK", "LS-BP"] "MKRNAKTIIAGMIALAISHTAMADDIKVAVVGAMSGPIAQWGDMEFNGARQAIKDINAKGGIKGDKLVGVEYDDACDPKQAVAVANKIVNDGIKYVIGHLCSSSTQPASDIYEDEGILMISPGATNPELTQRGYQHIMRTAGLDSSQGPTAAKYILETVKPQRIAIIHDKQQYGEGLARSVQDGLKAANANVVFFDGITAGEKDFSALIARLKKENIDFVYYGGYYPEMGQMLRQARSVGLKTQFMGPEGVGNASLSNIAGDAAEGMLVTMPKRYDQDPANQGIVDALKADKKDPSGPYVWITYAAVQSLATALERTGSDEPLALVKDLKANGANTVIGPLNWDEKGDLKGFDFGVFQWHADGSSTAAK" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"LIVM-MONOMER" "branched chain amino acid/phenylalanine ABC transporter membrane subunit LivM" [] "MKPMHIAMALLSAAMFFVLAGVFMGVQLELDGTKLVVDTASDVRWQWVFIGTAVVFFFQLLRPAFQKGLKSVSGPKFILPAIDGSTVKQKLFLVALLVLAVAWPFMVSRGTVDIATLTMIYIILGLGLNVVVGLSGLLVLGYGGFYAIGAYTFALLNHYYGLGFWTCLPIAGLMAAAAGFLLGFPVLRLRGDYLAIVTLGFGEIVRILLLNNTEITGGPNGISQIPKPTLFGLEFSRTAREGGWDTFSNFFGLKYDPSDRVIFLYLVALLLVVLSLFVINRLLRMPLGRAWEALREDEIACRSLGLSPRRIKLTAFTISAAFAGFAGTLFAARQGFVSPESFTFAESAFVLAIVVLGGMGSQFAVILAAILLVVSRELMRDFNEYSMLMLGGLMVLMMIWRPQGLLPMTRPQLKLKNGAAKGEQA" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"LSERINEDEAM1-MONOMER" "L-serine deaminase I" ["SdaA", "SDH1", "L-SD", "SDH-1", "L-SD1"] "MISLFDMFKVGIGPSSSHTVGPMKAGKQFVDDLVEKGLLDSVTRVAVDVYGSLSLTGKGHHTDIAIIMGLAGNEPATVDIDSIPGFIRDVEERERLLLAQGRHEVDFPRDNGMRFHNGNLPLHENGMQIHAYNGDEVVYSKTYYSIGGGFIVDEEHFGQDAANEVSVPYPFKSATELLAYCNETGYSLSGLAMQNELALHSKKEIDEYFAHVWQTMQACIDRGMNTEGVLPGPLRVPRRASALRRMLVSSDKLSNDPMNVIDWVNMFALAVNEENAAGGRVVTAPTNGACGIVPAVLAYYDHFIESVSPDIYTRYFMAAGAIGALYKMNASISGAEVGCQGEVGVACSMAAAGLAELLGGSPEQVCVAAEIGMEHNLGLTCDPVAGQVQVPCIERNAIASVKAINAARMALRRTSAPRVSLDKVIETMYETGKDMNAKYRETSRGGLAIKVQCD" ["CCO-CYTOSOL"] [] +"LSERINEDEAM2-MONOMER" "L-serine deaminase II" ["SdaB", "SDH-2", "L-SD2"] "MISVFDIFKIGIGPSSSHTVGPMKAGKQFTDDLIARNLLKDVTRVVVDVYGSLSLTGKGHHTDIAIIMGLAGNLPDTVDIDSIPSFIQDVNTHGRLMLANGQHEVEFPVDQCMNFHADNLSLHENGMRITALAGDKVVYSQTYYSIGGGFIVDEEHFGQQDSAPVEVPYPYSSAADLQKHCQETGLSLSGLMMKNELALHSKEELEQHLANVWEVMRGGIERGISTEGVLPGKLRVPRRAAALRRMLVSQDKTTTDPMAVVDWINMFALAVNEENAAGGRVVTAPTNGACGIIPAVLAYYDKFIREVNANSLARYLLVASAIGSLYKMNASISGAEVGCQGEVGVACSMAAAGLAELLGASPAQVCIAAEIAMEHNLGLTCDPVAGQVQVPCIERNAIAAVKAVNAARMALRRTSEPRVCLDKVIETMYETGKDMNAKYRETSRGGLAMKIVACD" [] ["CCO-CYTOSOL"] +"LSERINEDEAM3-MONOMER" "L-serine deaminase III" ["YhaQ", "YhaP", "SdhY", "TdcG", "L-serine dehydratase 3"] "MISAFDIFKIGIGPSSSHTVGPMNAGKSFIDRLESSGLLTATSHIVVDLYGSLSLTGKGHATDVAIIMGLAGNSPQDVVIDEIPAFIELVTRSGRLPVASGAHIVDFPVAKNIIFHPEMLPRHENGMRITAWKGQEELLSKTYYSVGGGFIVEEEHFGLSHDVETSVPYDFHSAGELLKMCDYNGLSISGLMMHNELALRSKAEIDAGFARIWQVMHDGIERGMNTEGVLPGPLNVPRRAVALRRQLVSSDNISNDPMNVIDWINMYALAVSEENAAGGRVVTAPTNGACGIIPAVLAYYDKFRRPVNERSIARYFLAAGAIGALYKMNASISGAEVGCQGEIGVACSMAAAGLTELLGGSPAQVCNAAEIAMEHNLGLTCDPVAGQVQIPCIERNAINAVKAVNAARMAMRRTSAPRVSLDKVIETMYETGKDMNDKYRETSRGGLAIKVVCG" [] ["CCO-CYTOSOL"] +"LTAA-MONOMER" "low-specificity L-threonine aldolase" ["LtaA", "YbjU", "LtaE"] "MIDLRSDTVTRPSRAMLEAMMAAPVGDDVYGDDPTVNALQDYAAELSGKEAAIFLPTGTQANLVALLSHCERGEEYIVGQAAHNYLFEAGGAAVLGSIQPQPIDAAADGTLPLDKVAMKIKPDDIHFARTKLLSLENTHNGKVLPREYLKEAWEFTRERNLALHVDGARIFNAVVAYGCELKEITQYCDSFTICLSKGLGTPVGSLLVGNRDYIKRAIRWRKMTGGGMRQSGILAAAGIYALKNNVARLQEDHDNAAWMAEQLREAGADVMRQDTNMLFVRVGEENAAALGEYMKARNVLINASPIVRLVTHLDVSREQLAEVAAHWRAFLAR" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"LUMAZINESYN-MONOMER" "6,7-dimethyl-8-ribityllumazine synthase" ["YbaF", "RibH", "RibE"] "MNIIEANVATPDARVAITIARFNNFINDSLLEGAIDALKRIGQVKDENITVVWVPGAYELPLAAGALAKTGKYDAVIALGTVIRGGTAHFEYVAGGASNGLAHVAQDSEIPVAFGVLTTESIEQAIERAGTKAGNKGAEAALTALEMINVLKAIKA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"LYSDECARBOX-MONOMER" "lysine decarboxylase 1" ["LdcI", "CadA"] "MNVIAILNHMGVYFKEEPIRELHRALERLNFQIVYPNDRDDLLKLIENNARLCGVIFDWDKYNLELCEEISKMNENLPLYAFANTYSTLDVSLNDLRLQISFFEYALGAAEDIANKIKQTTDEYINTILPPLTKALFKYVREGKYTFCTPGHMGGTAFQKSPVGSLFYDFFGPNTMKSDISISVSELGSLLDHSGPHKEAEQYIARVFNADRSYMVTNGTSTANKIVGMYSAPAGSTILIDRNCHKSLTHLMMMSDVTPIYFRPTRNAYGILGGIPQSEFQHATIAKRVKETPNATWPVHAVITNSTYDGLLYNTDFIKKTLDVKSIHFDSAWVPYTNFSPIYEGKCGMSGGRVEGKVIYETQSTHKLLAAFSQASMIHVKGDVNEETFNEAYMMHTTTSPHYGIVASTETAAAMMKGNAGKRLINGSIERAIKFRKEIKRLRTESDGWFFDVWQPDHIDTTECWPLRSDSTWHGFKNIDNEHMYLDPIKVTLLTPGMEKDGTMSDFGIPASIVAKYLDEHGIVVEKTGPYNLLFLFSIGIDKTKALSLLRALTDFKRAFDLNLRVKNMLPSLYREDPEFYENMRIQELAQNIHKLIVHHNLPDLMYRAFEVLPTMVMTPYAAFQKELHGMTEEVYLDEMVGRINANMILPYPPGVPLVMPGEMITEESRPVLEFLQMLCEIGAHYPGFETDIHGAYRQADGRYTVKVLKEESKK" [] ["CCO-CYTOSOL"] +"LYSP-MONOMER" null ["CadR", "LysP", "lysine:proton symporter", "lysine transporter", "lysine specific permease"] "MVSETKTTEAPGLRRELKARHLTMIAIGGSIGTGLFVASGATISQAGPGGALLSYMLIGLMVYFLMTSLGELAAYMPVSGSFATYGQNYVEEGFGFALGWNYWYNWAVTIAVDLVAAQLVMSWWFPDTPGWIWSALFLGVIFLLNYISVRGFGEAEYWFSLIKVTTVIVFIIVGVLMIIGIFKGAQPAGWSNWTIGEAPFAGGFAAMIGVAMIVGFSFQGTELIGIAAGESEDPAKNIPRAVRQVFWRILLFYVFAILIISLIIPYTDPSLLRNDVKDISVSPFTLVFQHAGLLSAAAVMNAVILTAVLSAGNSGMYASTRMLYTLACDGKAPRIFAKLSRGGVPRNALYATTVIAGLCFLTSMFGNQTVYLWLLNTSGMTGFIAWLGIAISHYRFRRGYVLQGHDINDLPYRSGFFPLGPIFAFILCLIITLGQNYEAFLKDTIDWGGVAATYIGIPLFLIIWFGYKLIKGTHFVRYSEMKFPQNDKK" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PERI-BAC", "CCO-PM-BAC-NEG"] +"LYSS-MONOMER" "lysine—tRNA ligase, constitutive" ["HerC", "AsuD", "LysS", "LysRSs"] "MSEQHAQGADAVVDLNNELKTRREKLANLREQGIAFPNDFRRDHTSDQLHAEFDGKENEELEALNIEVAVAGRMMTRRIMGKASFVTLQDVGGRIQLYVARDDLPEGVYNEQFKKWDLGDILGAKGKLFKTKTGELSIHCTELRLLTKALRPLPDKFHGLQDQEARYRQRYLDLISNDESRNTFKVRSQILSGIRQFMVNRGFMEVETPMMQVIPGGAAARPFITHHNALDLDMYLRIAPELYLKRLVVGGFERVFEINRNFRNEGISVRHNPEFTMMELYMAYADYKDLIELTESLFRTLAQDILGKTEVTYGDVTLDFGKPFEKLTMREAIKKYRPETDMADLDNFDSAKAIAESIGIHVEKSWGLGRIVTEIFEEVAEAHLIQPTFITEYPAEVSPLARRNDVNPEITDRFEFFIGGREIGNGFSELNDAEDQAQRFLDQVAAKDAGDDEAMFYDEDYVTALEHGLPPTAGLGIGIDRMVMLFTNSHTIRDVILFPAMRPVK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"LYSU-MONOMER" "lysine—tRNA ligase/Ap4A synthetase/Ap3A synthetase" ["LysU"] "MSEQETRGANEAIDFNDELRNRREKLAALRQQGVAFPNDFRRDHTSDQLHEEFDAKDNQELESLNIEVSVAGRMMTRRIMGKASFVTLQDVGGRIQLYVARDSLPEGVYNDQFKKWDLGDIIGARGTLFKTQTGELSIHCTELRLLTKALRPLPDKFHGLQDQEVRYRQRYLDLIANDKSRQTFVVRSKILAAIRQFMVARGFMEVETPMMQVIPGGASARPFITHHNALDLDMYLRIAPELYLKRLVVGGFERVFEINRNFRNEGISVRHNPEFTMMELYMAYADYHDLIELTESLFRTLAQEVLGTTKVTYGEHVFDFGKPFEKLTMREAIKKYRPETDMADLDNFDAAKALAESIGITVEKSWGLGRIVTEIFDEVAEAHLIQPTFITEYPAEVSPLARRNDVNPEITDRFEFFIGGREIGNGFSELNDAEDQAERFQEQVNAKAAGDDEAMFYDEDYVTALEYGLPPTAGLGIGIDRMIMLFTNSHTIRDVILFPAMRPQK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"LYXK-MONOMER" "L-xylulose kinase" ["XylK", "Lyx", "YiaP", "SgbK", "LyxK"] "MTQYWLGLDCGGSWLKAGLYDREGREAGVQRLPLCALSPQPGWAERDMAELWQCCMAVIRALLTHSGVSGEQIVGIGISAQGKGLFLLDKNDKPLGNAILSSDRRAMEIVRRWQEDGIPEKLYPLTRQTLWTGHPVSLLRWLKEHEPERYAQIGCVMMTHDYLRWCLTGVKGCEESNISESNLYNMSLGEYDPCLTDWLGIAEINHALPPVVGSAEICGEITAQTAALTGLKAGTPVVGGLFDVVSTALCAGIEDEFTLNAVMGTWAVTSGITRGLRDGEAHPYVYGRYVNDGEFIVHEASPTSSGNLEWFTAQWGEISFDEINQAVASLPKAGGDLFFLPFLYGSNAGLEMTSGFYGMQAIHTRAHLLQAIYEGVVFSHMTHLNRMRERFTDVHTLRVTGGPAHSDVWMQMLADVSGLRIELPQVEETGCFGAALAARVGTGVYHNFSEAQRDLRHPVRTLLPDMTAHQLYQKKYQRYQHLIAALQGFHARIKEHTL" [] ["CCO-CYTOSOL"] +"MACA" "ABC-type tripartite efflux pump membrane fusion protein" ["YbjY", "MacA", "macrolide efflux pump - membrane fusion protein"] "MKKRKTVKKRYVIALVIVIAGLITLWRILNAPVPTYQTLIVRPGDLQQSVLATGKLDALRKVDVGAQVSGQLKTLSVAIGDKVKKDQLLGVIDPEQAENQIKEVEATLMELRAQRQQAEAELKLARVTYSRQQRLAQTKAVSQQDLDTAATEMAVKQAQIGTIDAQIKRNQASLDTAKTNLDYTRIVAPMAGEVTQITTLQGQTVIAAQQAPNILTLADMSAMLVKAQVSEADVIHLKPGQKAWFTVLGDPLTRYEGQIKDVLPTPEKVNDAIFYYARFEVPNPNGLLRLDMTAQVHIQLTDVKNVLTIPLSALGDPVGDNRYKVKLLRNGETREREVTIGARNDTDVEIVKGLEAGDEVVIGEAKPGAAQ" ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MACB" "ABC-type tripartite efflux pump ATP binding/membrane subunit" ["YbjZ"] "MTPLLELKDIRRSYPAGDEQVEVLKGISLDIYAGEMVAIVGASGSGKSTLMNILGCLDKATSGTYRVAGQDVATLDADALAQLRREHFGFIFQRYHLLSHLTAEQNVEVPAVYAGLERKQRLLRAQELLQRLGLEDRTEYYPAQLSGGQQQRVSIARALMNGGQVILADEPTGALDSHSGEEVMAILHQLRDRGHTVIIVTHDPQVAAQAERVIEIRDGEIVRNPPAIEKVNVTGGTEPVVNTVSGWRQFVSGFNEALTMAWRALAANKMRTLLTMLGIIIGIASVVSIVVVGDAAKQMVLADIRSIGTNTIDVYPGKDFGDDDPQYQQALKYDDLIAIQKQPWVASATPAVSQNLRLRYNNVDVAASANGVSGDYFNVYGMTFSEGNTFNQEQLNGRAQVVVLDSNTRRQLFPHKADVVGEVILVGNMPARVIGVAEEKQSMFGSSKVLRVWLPYSTMSGRVMGQSWLNSITVRVKEGFDSAEAEQQLTRLLSLRHGKKDFFTWNMDGVLKTVEKTTRTLQLFLTLVAVISLVVGGIGVMNIMLVSVTERTREIGIRMAVGARASDVLQQFLIEAVLVCLVGGALGITLSLLIAFTLQLFLPGWEIGFSPLALLLAFLCSTVTGILFGWLPARNAARLDPVDALARE" ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MALATE-DEHASE-MONOMER" "malate dehydrogenase" ["Mdh"] "MKVAVLGAAGGIGQALALLLKTQLPSGSELSLYDIAPVTPGVAVDLSHIPTAVKIKGFSGEDATPALEGADVVLISAGVARKPGMDRSDLFNVNAGIVKNLVQQVAKTCPKACIGIITNPVNTTVAIAAEVLKKAGVYDKNKLFGVTTLDIIRSNTFVAELKGKQPGEVEVPVIGGHSGVTILPLLSQVPGVSFTEQEVADLTKRIQNAGTEVVEAKAGGGSATLSMGQAAARFGLSLVRALQGEQGVVECAYVEGDGQYARFFSQPLLLGKNGVEERKSIGTLSAFEQNALEGMLDTLKKDIALGEEFVNK" ["CCO-MEMBRANE", "CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"MALATE-SYNTHASE" null ["Mas", "AceB"] "MTEQATTTDELAFTRPYGEQEKQILTAEAVEFLTELVTHFTPQRNKLLAARIQQQQDIDNGTLPDFISETASIRDADWKIRGIPADLEDRRVEITGPVERKMVINALNANVKVFMADFEDSLAPDWNKVIDGQINLRDAVNGTISYTNEAGKIYQLKPNPAVLICRVRGLHLPEKHVTWRGEAIPGSLFDFALYFFHNYQALLAKGSGPYFYLPKTQSWQEAAWWSEVFSYAEDRFNLPRGTIKATLLIETLPAVFQMDEILHALRDHIVGLNCGRWDYIFSYIKTLKNYPDRVLPDRQAVTMDKPFLNAYSRLLIKTCHKRGAFAMGGMAAFIPSKDEEHNNQVLNKVKADKSLEANNGHDGTWIAHPGLADTAMAVFNDILGSRKNQLEVMREQDAPITADQLLAPCDGERTEEGMRANIRVAVQYIEAWISGNGCVPIYGLMEDAATAEISRTSIWQWIHHQKTLSNGKPVTKALFRQMLGEEMKVIASELGEERFSQGRFDDAARLMEQITTSDELIDFLTLPGYRLLA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"MALDEXPHOSPHORYL-MONOMER" "maltodextrin phosphorylase" ["MalA", "Blu", "MalP"] "MSQPIFNDKQFQEALSRQWQRYGLNSAAEMTPRQWWLAVSEALAEMLRAQPFAKPVANQRHVNYISMEFLIGRLTGNNLLNLGWYQDVQDSLKAYDINLTDLLEEEIDPALGNGGLGRLAACFLDSMATVGQSATGYGLNYQYGLFRQSFVDGKQVEAPDDWHRSNYPWFRHNEALDVQVGIGGKVTKDGRWEPEFTITGQAWDLPVVGYRNGVAQPLRLWQATHAHPFDLTKFNDGDFLRAEQQGINAEKLTKVLYPNDNHTAGKKLRLMQQYFQCACSVADILRRHHLAGRKLHELADYEVIQLNDTHPTIAIPELLRVLIDEHQMSWDDAWAITSKTFAYTNHTLMPEALERWDVKLVKGLLPRHMQIINEINTRFKTLVEKTWPGDEKVWAKLAVVHDKQVHMANLCVVGGFAVNGVAALHSDLVVKDLFPEYHQLWPNKFHNVTNGITPRRWIKQCNPALAALLDKSLQKEWANDLDQLINLEKFADDAKFRQQYREIKQANKVRLAEFVKVRTGIEINPQAIFDIQIKRLHEYKRQHLNLLHILALYKEIRENPQADRVPRVFLFGAKAAPGYYLAKNIIFAINKVADVINNDPLVGDKLKVVFLPDYCVSAAEKLIPAADISEQISTAGKEASGTGNMKLALNGALTVGTLDGANVEIAEKVGEENIFIFGHTVEQVKAILAKGYDPVKWRKKDKVLDAVLKELESGKYSDGDKHAFDQMLHSIGKQGGDPYLVMADFAAYVEAQKQVDVLYRDQEAWTRAAILNTARCGMFSSDRSIRDYQARIWQAKR" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"MALE-MONOMER" "maltose ABC transporter periplasmic binding protein" ["MBP", "maltodextrin binding protein", "maltose binding protein"] "MKIKTGARILALSALTTMMFSASALAKIEEGKLVIWINGDKGYNGLAEVGKKFEKDTGIKVTVEHPDKLEEKFPQVAATGDGPDIIFWAHDRFGGYAQSGLLAEITPDKAFQDKLYPFTWDAVRYNGKLIAYPIAVEALSLIYNKDLLPNPPKTWEEIPALDKELKAKGKSALMFNLQEPYFTWPLIAADGGYAFKYENGKYDIKDVGVDNAGAKAGLTFLVDLIKNKHMNADTDYSIAEAAFNKGETAMTINGPWAWSNIDTSKVNYGVTVLPTFKGQPSKPFVGVLSAGINAASPNKELAKEFLENYLLTDEGLEAVNKDKPLGAVALKSYEEELAKDPRIAATMENAQKGEIMPNIPQMSAFWYAVRTAVINAASGRQTVDEALKDAQTRITK" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"MALF-MONOMER" "maltose ABC transporter membrane subunit MalF" [] "MDVIKKKHWWQSDALKWSVLGLLGLLVGYLVVLMYAQGEYLFAITTLILSSAGLYIFANRKAYAWRYVYPGMAGMGLFVLFPLVCTIAIAFTNYSSTNQLTFERAQEVLLDRSWQAGKTYNFGLYPAGDEWQLALSDGETGKNYLSDAFKFGGEQKLQLKETTAQPEGERANLRVITQNRQALSDITAILPDGNKVMMSSLRQFSGTQPLYTLDGDGTLTNNQSGVKYRPNNQIGFYQSITADGNWGDEKLSPGYTVTTGWKNFTRVFTDEGIQKPFLAIFVWTVVFSLITVFLTVAVGMVLACLVQWEALRGKAVYRVLLILPYAVPSFISILIFKGLFNQSFGEINMMLSALFGVKPAWFSDPTTARTMLIIVNTWLGYPYMMILCMGLLKAIPDDLYEASAMDGAGPFQNFFKITLPLLIKPLTPLMIASFAFNFNNFVLIQLLTNGGPDRLGTTTPAGYTDLLVNYTYRIAFEGGGGQDFGLAAAIATLIFLLVGALAIVNLKATRMKFD" ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MALG-MONOMER" "maltose ABC transporter membrane subunit MalG" [] "MAMVQPKSQKARLFITHLLLLLFIAAIMFPLLMVVAISLRQGNFATGSLIPEQISWDHWKLALGFSVEQADGRITPPPFPVLLWLWNSVKVAGISAIGIVALSTTCAYAFARMRFPGKATLLKGMLIFQMFPAVLSLVALYALFDRLGEYIPFIGLNTHGGVIFAYLGGIALHVWTIKGYFETIDSSLEEAAALDGATPWQAFRLVLLPLSVPILAVVFILSFIAAITEVPVASLLLRDVNSYTLAVGMQQYLNPQNYLWGDFAAAAVMSALPITIVFLLAQRWLVNGLTAGGVKG" ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MALIC-NAD-MONOMER" "NAD+-dependent malate dehydrogenase" ["MaeA", "SfcA", "malate dehydrogenase, NAD-requiring"] "MEPKTKKQRSLYIPYAGPVLLEFPLLNKGSAFSMEERRNFNLLGLLPEVVETIEEQAERAWIQYQGFKTEIDKHIYLRNIQDTNETLFYRLVNNHLDEMMPVIYTPTVGAACERFSEIYRRSRGVFISYQNRHNMDDILQNVPNHNIKVIVVTDGERILGLGDQGIGGMGIPIGKLSLYTACGGISPAYTLPVVLDVGTNNQQLLNDPLYMGWRNPRITDDEYYEFVDEFIQAVKQRWPDVLLQFEDFAQKNAMPLLNRYRNEICSFNDDIQGTAAVTVGTLIAASRAAGGQLSEKKIVFLGAGSAGCGIAEMIISQTQREGLSEEAARQKVFMVDRFGLLTDKMPNLLPFQTKLVQKRENLSDWDTDSDVLSLLDVVRNVKPDILIGVSGQTGLFTEEIIREMHKHCPRPIVMPLSNPTSRVEATPQDIIAWTEGNALVATGSPFNPVVWKDKIYPIAQCNNAFIFPGIGLGVIASGASRITDEMLMSASETLAQYSPLVLNGEGMVLPELKDIQKVSRAIAFAVGKMAQQQGVAVKTSAEALQQAIDDNFWQAEYRDYRRTSI" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"MALIC-NADP-MONOMER" "NADP+-dependent malate dehydrogenase" ["YpfF", "MaeB"] "MDDQLKQSALDFHEFPVPGKIQVSPTKPLATQRDLALAYSPGVAAPCLEIEKDPLKAYKYTARGNLVAVISNGTAVLGLGNIGALAGKPVMEGKGVLFKKFAGIDVFDIEVDELDPDKFIEVVAALEPTFGGINLEDIKAPECFYIEQKLRERMNIPVFHDDQHGTAIISTAAILNGLRVVEKNISDVRMVVSGAGAAAIACMNLLVALGLQKHNIVVCDSKGVIYQGREPNMAETKAAYAVVDDGKRTLDDVIEGADIFLGCSGPKVLTQEMVKKMARAPMILALANPEPEILPPLAKEVRPDAIICTGRSDYPNQVNNVLCFPFIFRGALDVGATAINEEMKLAAVRAIAELAHAEQSEVVASAYGDQDLSFGPEYIIPKPFDPRLIVKIAPAVAKAAMESGVATRPIADFDVYIDKLTEFVYKTNLFMKPIFSQARKAPKRVVLPEGEEARVLHATQELVTLGLAKPILIGRPNVIEMRIQKLGLQIKAGVDFEIVNNESDPRFKEYWTEYFQIMKRRGVTQEQAQRALISNPTVIGAIMVQRGEADAMICGTVGDYHEHFSVVKNVFGYRDGVHTAGAMNALLLPSGNTFIADTYVNDEPDAEELAEITLMAAETVRRFGIEPRVALLSHSNFGSSDCPSSSKMRQALELVRERAPELMIDGEMHGDAALVEAIRNDRMPDSSLKGSANILVMPNMEAARISYNLLRVSSSEGVTVGPVLMGVAKPVHVLTPIASVRRIVNMVALAVVEAQTQPL" [] ["CCO-CYTOSOL"] +"MALK-MONOMER" "maltose ABC transporter ATP binding subunit" ["MalB"] "MASVQLQNVTKAWGEVVVSKDINLDIHEGEFVVFVGPSGCGKSTLLRMIAGLETITSGDLFIGEKRMNDTPPAERGVGMVFQSYALYPHLSVAENMSFGLKLAGAKKEVINQRVNQVAEVLQLAHLLDRKPKALSGGQRQRVAIGRTLVAEPSVFLLDEPLSNLDAALRVQMRIEISRLHKRLGRTMIYVTHDQVEAMTLADKIVVLDAGRVAQVGKPLELYHYPADRFVAGFIGSPKMNFLPVKVTATAIDQVQVELPMPNRQQVWLPVESRDVQVGANMSLGIRPEHLLPSDIADVILEGEVQVVEQLGNETQIHIQIPSIRQNLVYRQNDVVLVEEGATFAIGLPPERCHLFREDGTACRRLHKEPGV" ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MALONYL-COA-ACP-TRANSACYL-MONOMER" "[acyl-carrier-protein] S-malonyltransferase" ["TfpA", "FabD"] "MTQFAFVFPGQGSQTVGMLADMAASYPIVEETFAEASAALGYDLWALTQQGPAEELNKTWQTQPALLTASVALYRVWQQQGGKAPAMMAGHSLGEYSALVCAGVIDFADAVRLVEMRGKFMQEAVPEGTGAMAAIIGLDDASIAKACEEAAEGQVVSPVNFNSPGQVVIAGHKEAVERAGAACKAAGAKRALPLPVSVPSHCALMKPAADKLAVELAKITFNAPTVPVVNNVDVKCETNGDAIRDALVRQLYNPVQWTKSVEYMAAQGVEHLYEVGPGKVLTGLTKRIVDTLTASALNEPSAMAAALEL" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"MALSYNG-MONOMER" null ["Glc", "GlcB"] "MSQTITQSRLRIDANFKRFVDEEVLPGTGLDAAAFWRNFDEIVHDLAPENRQLLAERDRIQAALDEWHRSNPGPVKDKAAYKSFLRELGYLVPQPERVTVETTGIDSEITSQAGPQLVVPAMNARYALNAANARWGSLYDALYGSDIIPQEGAMVSGYDPQRGEQVIAWVRRFLDESLPLENGSYQDVVAFKVVDKQLRIQLKNGKETTLRTPAQFVGYRGDAAAPTCILLKNNGLHIELQIDANGRIGKDDPAHINDVIVEAAISTILDCEDSVAAVDAEDKILLYRNLLGLMQGTLQEKMEKNGRQIVRKLNDDRHYTAADGSEISLHGRSLLFIRNVGHLMTIPVIWDSEGNEIPEGILDGVMTGAIALYDLKVQKNSRTGSVYIVKPKMHGPQEVAFANKLFTRIETMLGMAPNTLKMGIMDEERRTSLNLRSCIAQARNRVAFINTGFLDRTGDEMHSVMEAGPMLRKNQMKSTPWIKAYERNNVLSGLFCGLRGKAQIGKGMWAMPDLMADMYSQKGDQLRAGANTAWVPSPTAATLHALHYHQTNVQSVQANIAQTEFNAEFEPLLDDLLTIPVAENANWSAQEIQQELDNNVQGILGYVVRWVEQGIGCSKVPDIHNVALMEDRATLRISSQHIANWLRHGILTKEQVQASLENMAKVVDQQNAGDPAYRPMAGNFANSCAFKAASDLIFLGVKQPNGYTEPLLHAWRLREKESH" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"MALTACETYLTRAN-MONOMER" "maltose O-acetyltransferase" ["Maa", "YlaD"] "MSTEKEKMIAGELYRSADETLSRDRLRARQLIHRYNHSLAEEHTLRQQILADLFGQVTEAYIEPTFRCDYGYNIFLGNNFFANFDCVMLDVCPIRIGDNCMLAPGVHIYTATHPIDPVARNSGAELGKPVTIGNNVWIGGRAVINPGVTIGDNVVVASGAVVTKDVPDNVVVGGNPARIIKKL" [] ["CCO-CYTOSOL"] +"MALTODEXGLUCOSID-MONOMER" "maltodextrin glucosidase" ["MalZ"] "MLNAWHLPVPPFVKQSKDQLLITLWLTGEDPPQRIMLRTEHDNEEMSVPMHKQRSQPQPGVTAWRAAIDLSSGQPRRRYSFKLLWHDRQRWFTPQGFSRMPPARLEQFAVDVPDIGPQWAADQIFYQIFPDRFARSLPREAEQDHVYYHHAAGQEIILRDWDEPVTAQAGGSTFYGGDLDGISEKLPYLKKLGVTALYLNPVFKAPSVHKYDTEDYRHVDPQFGGDGALLRLRHNTQQLGMRLVLDGVFNHSGDSHAWFDRHNRGTGGACHNPESPWRDWYSFSDDGTALDWLGYASLPKLDYQSESLVNEIYRGEDSIVRHWLKAPWNMDGWRLDVVHMLGEAGGARNNMQHVAGITEAAKETQPEAYIVGEHFGDARQWLQADVEDAAMNYRGFTFPLWGFLANTDISYDPQQIDAQTCMAWMDNYRAGLSHQQQLRMFNQLDSHDTARFKTLLGRDIARLPLAVVWLFTWPGVPCIYYGDEVGLDGKNDPFCRKPFPWQVEKQDTALFALYQRMIALRKKSQALRHGGCQVLYAEDNVVVFVRVLNQQRVLVAINRGEACEVVLPASPFLNAVQWQCKEGHGQLTDGILALPAISATVWMN" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"MALX-MONOMER" "PTS enzyme IIBC component MalX" ["EIIBCmalX", "Enzyme IIBCmalX"] "MTAKTAPKVTLWEFFQQLGKTFMLPVALLSFCGIMLGIGSSLSSHDVITLIPVLGNPVLQAIFTWMSKIGSFAFSFLPVMFCIAIPLGLARENKGVAAFAGFIGYAVMNLAVNFWLTNKGILPTTDAAVLKANNIQSILGIQSIDTGILGAVIAGIIVWMLHERFHNIRLPDALAFFGGTRFVPIISSLVMGLVGLVIPLVWPIFAMGISGLGHMINSAGDFGPMLFGTGERLLLPFGLHHILVALIRFTDAGGTQEVCGQTVSGALTIFQAQLSCPTTHGFSESATRFLSQGKMPAFLGGLPGAALAMYHCARPENRHKIKGLLISGLIACVVGGTTEPLEFLFLFVAPVLYVIHALLTGLGFTVMSVLGVTIGNTDGNIIDFVVFGILHGLSTKWYMVPVVAAIWFVVYYVIFRFAITRFNLKTPGRDSEVASSIEKAVAGAPGKSGYNVPAILEALGGADNIVSLDNCITRLRLSVKDMSLVNVQALKDNRAIGVVQLNQHNLQVVIGPQVQSVKDEMAGLMHTVQA" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MANNONDEHYDRAT-MONOMER" null ["UxuA"] "MEQTWRWYGPNDPVSLADVRQAGATGVVTALHHIPNGEVWSVEEILKRKAIIEDAGLVWSVVESVPIHEDIKTHTGNYEQWIANYQQTLRNLAQCGIRTVCYNFMPVLDWTRTDLEYVLPDGSKALRFDQIEFAAFEMHILKRPGAEADYTEEEIAQAAERFATMSDEDKARLTRNIIAGLPGAEEGYTLDQFRKHLELYKDIDKAKLRENFAVFLKAIIPVAEEVGVRMAVHPDDPPRPILGLPRIVSTIEDMQWMVDTVNSMANGFTMCTGSYGVRADNDLVDMIKQFGPRIYFTHLRSTMREDNPKTFHEAAHLNGDVDMYEVVKAIVEEEHRRKAEGKEDLIPMRPDHGHQMLDDLKKKTNPGYSAIGRLKGLAEVRGVELAIQRAFFSR" [] ["CCO-CYTOSOL"] +"MANNONOXIDOREDUCT-MONOMER" null ["UxuB"] "MTTIVDSNLPVARPSWDHSRLESRIVHLGCGAFHRAHQALYTHHLLESTDSDWGICEVNLMPGNDRVLIENLKKQQLLYTVAEKGAESTELKIIGSMKEALHPEIDGCEGILNAMARPQTAIVSLTVTEKGYCADAASGQLDLNNPLIKHDLENPTAPKSAIGYIVEALRLRREKGLKAFTVMSCDNVRENGHVAKVAVLGLAQARDPQLAAWIEENVTFPCTMVDRIVPAATPETLQEIADQLGVYDPCAIACEPFRQWVIEDNFVNGRPDWDKVGAQFVADVVPFEMMKLRMLNGSHSFLAYLGYLGGYETIADTVTNPAYRKAAFALMMQEQAPTLSMPEGTDLNAYATLLIERFSNPSLRHRTWQIAMDGSQKLPQRLLDPVRLHLQNGGSWRHLALGVAGWMRYTQGVDEQGNAIDVVDPMLAEFQKINAQYQGADRVKALLGLSGIFADDLPQNADFVGAVTAAYQQLCERGARECVAAL" [] ["CCO-CYTOSOL"] +"MANNPDEHYDROG-MONOMER" "mannitol-1-phosphate 5-dehydrogenase" ["MtlD"] "MKALHFGAGNIGRGFIGKLLADAGIQLTFADVNQVVLDALNARHSYQVHVVGETEQVDTVSGVNAVSSIGDDVVDLIAQVDLVTTAVGPVVLERIAPAIAKGQVKRKEQGNESPLNIIACENMVRGTTQLKGHVMNALPEDAKAWVEEHVGFVDSAVDRIVPPSASATNDPLEVTVETFSEWIVDKTQFKGALPNIPGMELTDNLMAFVERKLFTLNTGHAITAYLGKLAGHQTIRDAILDEKIRAVVKGAMEESGAVLIKRYGFDADKHAAYIQKILGRFENPYLKDDVERVGRQPLRKLSAGDRLIKPLLGTLEYGLPHKNLIEGIAAAMHFRSEDDPQAQELAALIADKGPQAALAQISGLDANSEVVSEAVTAYKAMQ" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"MANNPGUANYLTRANGDP-MONOMER" null ["RfbM", "Mni", "ManC", "CpsB"] "MAQSKLYPVVMAGGSGSRLWPLSRVLYPKQFLCLKGDLTMLQTTICRLNGVECESPVVICNEQHRFIVAEQLRQLNKLTENIILEPAGRNTAPAIALAALAAKRHSPESDPLMLVLAADHVIADEDAFRAAVRNAMPYAEAGKLVTFGIVPDLPETGYGYIRRGEVSAGEQDMVAFEVAQFVEKPNLETAQAYVASGEYYWNSGMFLFRAGRYLEELKKYRPDILDACEKAMSAVDPDLNFIRVDEEAFLACPEESVDYAVMERTADAVVVPMDAGWSDVGSWSSLWEISAHTAEGNVCHGDVINHKTENSYVYAESGLVTTVGVKDLVVVQTKDAVLIADRNAVQDVKKVVEQIKADGRHEHRVHREVYRPWGKYDSIDAGDRYQVKRITVKPGEGLSVQMHHHRAEHWVVVAGTAKVTIDGDIKLLGENESIYIPLGATHCLENPGKIPLDLIEVRSGSYLEEDDVVRFADRYGRV" [] ["CCO-CYTOSOL"] +"MANNPISOM-MONOMER" null ["Pmi", "ManA"] "MQKLINSVQNYAWGSKTALTELYGMENPSSQPMAELWMGAHPKSSSRVQNAAGDIVSLRDVIESDKSTLLGEAVAKRFGELPFLFKVLCAAQPLSIQVHPNKHNSEIGFAKENAAGIPMDAAERNYKDPNHKPELVFALTPFLAMNAFREFSEIVSLLQPVAGAHPAIAHFLQQPDAERLSELFASLLNMQGEEKSRALAILKSALDSQQGEPWQTIRLISEFYPEDSGLFSPLLLNVVKLNPGEAMFLFAETPHAYLQGVALEVMANSDNVLRAGLTPKYIDIPELVANVKFEAKPANQLLTQPVKQGAELDFPIPVDDFAFSLHDLSDKETTISQQSAAILFCVEGDATLWKGSQQLQLKPGESAFIAANESPVTVKGHGRLARVYNKL" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"MANX-MONOMER" "mannose-specific PTS enzyme IIAB component" ["ManX", "Mpt", "PtsX", "PtsM", "PtsL", "GptB", "IIIMan", "Enzyme IIIman", "Enzyme IIABman"] "MTIAIVIGTHGWAAEQLLKTAEMLLGEQENVGWIDFVPGENAETLIEKYNAQLAKLDTTKGVLFLVDTWGGSPFNAASRIVVDKEHYEVIAGVNIPMLVETLMARDDDPSFDELVALAVETGREGVKALKAKPVEKAAPAPAAAAPKAAPTPAKPMGPNDYMVIGLARIDDRLIHGQVATRWTKETNVSRIIVVSDEVAADTVRKTLLTQVAPPGVTAHVVDVAKMIRVYNNPKYAGERVMLLFTNPTDVERLVEGGVKITSVNVGGMAFRQGKTQVNNAVSVDEKDIEAFKKLNARGIELEVRKVSTDPKLKMMDLISKIDK" ["CCO-PM-BAC-NEG", "CCO-CYTOSOL"] ["CCO-CYTOSOL", "CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"MANY-MONOMER" "mannose-specific PTS enzyme IIC component" ["Pel", "PtsX", "PtsP", "II-Pman", "II-Man", "IICMan", "Enzyme IICman"] "MEITTLQIVLVFIVACIAGMGSILDEFQFHRPLIACTLVGIVLGDMKTGIIIGGTLEMIALGWMNIGAAVAPDAALASIISTILVIAGHQSIGAGIALAIPLAAAGQVLTIIVRTITVAFQHAADKAADNGNLTAISWIHVSSLFLQAMRVAIPAVIVALSVGTSEVQNMLNAIPEVVTNGLNIAGGMIVVVGYAMVINMMRAGYLMPFFYLGFVTAAFTNFNLVALGVIGTVMAVLYIQLSPKYNRVAGAPAQAAGNNDLDNELD" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MANZ-MONOMER" "mannose-specific PTS enzyme IID component" ["Mpt", "PtsX", "PtsM", "GptB", "II-Mman", "IIDMan", "Enzyme IIDman"] "MVDTTQTTTEKKLTQSDIRGVFLRSNLFQGSWNFERMQALGFCFSMVPAIRRLYPENNEARKQAIRRHLEFFNTQPFVAAPILGVTLALEEQRANGAEIDDGAINGIKVGLMGPLAGVGDPIFWGTVRPVFAALGAGIAMSGSLLGPLLFFILFNLVRLATRYYGVAYGYSKGIDIVKDMGGGFLQKLTEGASILGLFVMGALVNKWTHVNIPLVVSRITDQTGKEHVTTVQTILDQLMPGLVPLLLTFACMWLLRKKVNPLWIIVGFFVIGIAGYACGLLGL" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MDLA-MONOMER" "ABC transporter family protein MdlA" ["Mdl", "MdlA", "Mdl-N"] "MRLFAQLSWYFRREWRRYLGAVALLVIIAMLQLVPPKVVGIVVDGVTEQHFTTGQILMWIATMVLIAVVVYLLRYVWRVLLFGASYQLAVELREDYYRQLSRQHPEFYLRHRTGDLMARATNDVDRVVFAAGEGVLTLVDSLVMGCAVLIMMSTQISWQLTLFSLLPMPVMAIMIKRNGDALHERFKLAQAAFSSLNDRTQESLTSIRMIKAFGLEDRQSALFAADAEDTGKKNMRVARIDARFDPTIYIAIGMANLLAIGGGSWMVVQGSLTLGQLTSFMMYLGLMIWPMLALAWMFNIVERGSAAYSRIRAMLAEAPVVNDGSEPVPEGRGELDVNIHQFTYPQTDHPALENVNFALKPGQMLGICGPTGSGKSTLLSLIQRHFDVSEGDIRFHDIPLTKLQLDSWRSRLAVVSQTPFLFSDTVANNIALGCPNATQQEIEHVARLASVHDDILRLPQGYDTEVGERGVMLSGGQKQRISIARALLVNAEILILDDALSAVDGRTEHQILHNLRQWGQGRTVIISAHRLSALTEASEIIVMQHGHIAQRGNHDVLAQQSGWYRDMYRYQQLEAALDDAPENREEAVDA" ["CCO-PM-BAC-NEG"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"MDLB-MONOMER" "ABC transporter family protein MdlB" ["Mdl", "MdlB", "Mdl-C"] "MRSFSQLWPTLKRLLAYGSPWRKPLGIAVLMMWVAAAAEVSGPLLISYFIDNMVAKNNLPLKVVAGLAAAYVGLQLFAAGLHYAQSLLFNRAAVGVVQQLRTDVMDAALRQPLSEFDTQPVGQVISRVTNDTEVIRDLYVTVVATVLRSAALVGAMLVAMFSLDWRMALVAIMIFPVVLVVMVIYQRYSTPIVRRVRAYLADINDGFNEIINGMSVIQQFRQQARFGERMGEASRSHYMARMQTLRLDGFLLRPLLSLFSSLILCGLLMLFGFSASGTIEVGVLYAFISYLGRLNEPLIELTTQQAMLQQAVVAGERVFELMDGPRQQYGNDDRPLQSGTIEVDNVSFAYRDDNLVLKNINLSVPSRNFVALVGHTGSGKSTLASLLMGYYPLTEGEIRLDGRPLSSLSHSALRQGVAMVQQDPVVLADTFLANVTLGRDISEERVWQALETVQLAELARSMSDGIYTPLGEQGNNLSVGQKQLLALARVLVETPQILILDEATASIDSGTEQAIQHALAAVREHTTLVVIAHRLSTIVDADTILVLHRGQAVEQGTHQQLLAAQGRYWQMYQLQLAGEELAASVREEESLSA" ["CCO-PM-BAC-NEG"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"MDTA" "multidrug efflux pump membrane fusion protein MdtA" ["MdtA membrane fusion protein", "YegM"] "MKGSYKSRWVIVIVVVIAAIAAFWFWQGRNDSRSAAPGATKQAQQSPAGGRRGMRSGPLAPVQAATAVEQAVPRYLTGLGTITAANTVTVRSRVDGQLIALHFQEGQQVKAGDLLAEIDPSQFKVALAQAQGQLAKDKATLANARRDLARYQQLAKTNLVSRQELDAQQALVSETEGTIKADEASVASAQLQLDWSRITAPVDGRVGLKQVDVGNQISSGDTTGIVVITQTHPIDLVFTLPESDIATVVQAQKAGKPLVVEAWDRTNSKKLSEGTLLSLDNQIDATTGTIKVKARFNNQDDALFPNQFVNARMLVDTEQNAVVIPTAALQMGNEGHFVWVLNSENKVSKHLVTPGIQDSQKVVIRAGISAGDRVVTDGIDRLTEGAKVEVVEAQSATTPEEKATSREYAKKGARS" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MELB-MONOMER" "melibiose:H+/Na+/Li+ symporter" ["MelB", "MelB GPH transporter"] "MSISMTTKLSYGFGAFGKDFAIGIVYMYLMYYYTDVVGLSVGLVGTLFLVARIWDAINDPIMGWIVNATRSRWGKFKPWILIGTLANSVILFLLFSAHLFEGTTQIVFVCVTYILWGMTYTIMDIPFWSLVPTITLDKREREQLVPYPRFFASLAGFVTAGVTLPFVNYVGGGDRGFGFQMFTLVLIAFFIVSTIITLRNVHEVFSSDNQPSAEGSHLTLKAIVALIYKNDQLSCLLGMALAYNVASNIITGFAIYYFSYVIGDADLFPYYLSYAGAANLVTLVFFPRLVKSLSRRILWAGASILPVLSCGVLLLMALMSYHNVVLIVIAGILLNVGTALFWVLQVIMVADIVDYGEYKLHVRCESIAYSVQTMVVKGGSAFAAFFIAVVLGMIGYVPNVEQSTQALLGMQFIMIALPTLFFMVTLILYFRFYRLNGDTLRRIQIHLLDKYRKVPPEPVHADIPVGAVSDVKA" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MEND-MONOMER" "2-succinyl-5-enolpyruvyl-6-hydroxy-3-cyclohexene-1-carboxylate synthase" ["MenD"] "MSVSAFNRRWAAVILEALTRHGVRHICIAPGSRSTPLTLAAAENSAFIHHTHFDERGLGHLALGLAKVSKQPVAVIVTSGTAVANLYPALIEAGLTGEKLILLTADRPPELIDCGANQAIRQPGMFASHPTHSISLPRPTQDIPARWLVSTIDHALGTLHAGGVHINCPFAEPLYGEMDDTGLSWQQRLGDWWQDDKPWLREAPRLESEKQRDWFFWRQKRGVVVAGRMSAEEGKKVALWAQTLGWPLIGDVLSQTGQPLPCADLWLGNAKATSELQQAQIVVQLGSSLTGKRLLQWQASCEPEEYWIVDDIEGRLDPAHHRGRRLIANIADWLELHPAEKRQPWCVEIPRLAEQAMQAVIARRDAFGEAQLAHRICDYLPEQGQLFVGNSLVVRLIDALSQLPAGYPVYSNRGASGIDGLLSTAAGVQRASGKPTLAIVGDLSALYDLNALALLRQVSAPLVLIVVNNNGGQIFSLLPTPQSERERFYLMPQNVHFEHAAAMFELKYHRPQNWQELETAFADAWRTPTTTVIEMVVNDTDGAQTLQQLLAQVSHL" [] ["CCO-PM-BAC-NEG"] +"MENF-MONOMER" "isochorismate synthase MenF" ["YfbA", "MenF", "isochorismate synthase 2"] "MQSLTTALENLLRHLSQEIPATPGIRVIDIPFPLKDAFDALSWLASQQTYPQFYWQQRNGDEEAVVLGAITRFTSLDQAQRFLRQHPEHADLRIWGLNAFDPSQGNLLLPRLEWRRCGGKATLRLTLFSESSLQHDAIQAKEFIATLVSIKPLPGLHLTTTREQHWPDKTGWTQLIELATKTIAEGELDKVVLARATDLHFASPVNAAAMMAASRRLNLNCYHFYMAFDGENAFLGSSPERLWRRRDKALRTEALAGTVANNPDDKQAQQLGEWLMADDKNQRENMLVVEDICQRLQADTQTLDVLPPQVLRLRKVQHLRRCIWTSLNKADDVICLHQLQPTAAVAGLPRDLARQFIARHEPFTREWYAGSAGYLSLQQSEFCVSLRSAKISGNVVRLYAGAGIVRGSDPEQEWQEIDNKAAGLRTLLQME" [] ["CCO-CYTOSOL"] +"METG-MONOMER" "methionine—tRNA ligase" ["MetG", "MetRS"] "MTQVAKKILVTCALPYANGSIHLGHMLEHIQADVWVRYQRMRGHEVNFICADDAHGTPIMLKAQQLGITPEQMIGEMSQEHQTDFAGFNISYDNYHSTHSEENRQLSELIYSRLKENGFIKNRTISQLYDPEKGMFLPDRFVKGTCPKCKSPDQYGDNCEVCGATYSPTELIEPKSVVSGATPVMRDSEHFFFDLPSFSEMLQAWTRSGALQEQVANKMQEWFESGLQQWDISRDAPYFGFEIPNAPGKYFYVWLDAPIGYMGSFKNLCDKRGDSVSFDEYWKKDSTAELYHFIGKDIVYFHSLFWPAMLEGSNFRKPSNLFVHGYVTVNGAKMSKSRGTFIKASTWLNHFDADSLRYYYTAKLSSRIDDIDLNLEDFVQRVNADIVNKVVNLASRNAGFINKRFDGVLASELADPQLYKTFTDAAEVIGEAWESREFGKAVREIMALADLANRYVDEQAPWVVAKQEGRDADLQAICSMGINLFRVLMTYLKPVLPKLTERAEAFLNTELTWDGIQQPLLGHKVNPFKALYNRIDMRQVEALVEASKEEVKAAAAPVTGPLADDPIQETITFDDFAKVDLRVALIENAEFVEGSDKLLRLTLDLGGEKRNVFSGIRSAYPDPQALIGRHTIMVANLAPRKMRFGISEGMVMAAGPGGKDIFLLSPDAGAKPGHQVK" [] ["CCO-CYTOSOL"] +"METHGLYSYN-MONOMER" "methylglyoxal synthase" ["Mgs", "YccG", "MgsA"] "MELTTRTLPARKHIALVAHDHCKQMLMSWVERHQPLLEQHVLYATGTTGNLISRATGMNVNAMLSGPMGGDQQVGALISEGKIDVLIFFWDPLNAVPHDPDVKALLRLATVWNIPVATNVATADFIIQSPHFNDAVDILIPDYQRYLADRLK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"METHYLENETHFREDUCT-MONOMER" "5,10-methylenetetrahydrofolate reductase" ["MetF"] "MSFFHASQRDALNQSLAEVQGQINVSFEFFPPRTSEMEQTLWNSIDRLSSLKPKFVSVTYGANSGERDRTHSIIKGIKDRTGLEAAPHLTCIDATPDELRTIARDYWNNGIRHIVALRGDLPPGSGKPEMYASDLVTLLKEVADFDISVAAYPEVHPEAKSAQADLLNLKRKVDAGANRAITQFFFDVESYLRFRDRCVSAGIDVEIIPGILPVSNFKQAKKFADMTNVRIPAWMAQMFDGLDDDAETRKLVGANIAMDMVKILSREGVKDFHFYTLNRAEMSYAICHTLGVRPGL" [] ["CCO-CYTOSOL"] +"METHYLMALONYL-COA-MUT-MONOMER" "methylmalonyl-CoA mutase" ["YliK", "Sbm", "ScpA"] "MSNVQEWQQLANKELSRREKTVDSLVHQTAEGIAIKPLYTEADLDNLEVTGTLPGLPPYVRGPRATMYTAQPWTIRQYAGFSTAKESNAFYRRNLAAGQKGLSVAFDLATHRGYDSDNPRVAGDVGKAGVAIDTVEDMKVLFDQIPLDKMSVSMTMNGAVLPVLAFYIVAAEEQGVTPDKLTGTIQNDILKEYLCRNTYIYPPKPSMRIIADIIAWCSGNMPRFNTISISGYHMGEAGANCVQQVAFTLADGIEYIKAAISAGLKIDDFAPRLSFFFGIGMDLFMNVAMLRAARYLWSEAVSGFGAQDPKSLALRTHCQTSGWSLTEQDPYNNVIRTTIEALAATLGGTQSLHTNAFDEALGLPTDFSARIARNTQIIIQEESELCRTVDPLAGSYYIESLTDQIVKQARAIIQQIDEAGGMAKAIEAGLPKRMIEEASAREQSLIDQGKRVIVGVNKYKLDHEDETDVLEIDNVMVRNEQIASLERIRATRDDAAVTAALNALTHAAQHNENLLAAAVNAARVRATLGEISDALEVAFDRYLVPSQCVTGVIAQSYHQSEKSASEFDAIVAQTEQFLADNGRRPRILIAKMGQDGHDRGAKVIASAYSDLGFDVDLSPMFSTPEEIARLAVENDVHVVGASSLAAGHKTLIPELVEALKKWGREDICVVAGGVIPPQDYAFLQERGVAAIYGPGTPMLDSVRDVLNLISQHHD" [] ["CCO-CYTOSOL"] +"METI-MONOMER" "L-methionine/D-methionine ABC transporter membrane subunit" ["MetD", "YaeE"] "MSEPMMWLLVRGVWETLAMTFVSGFFGFVIGLPVGVLLYVTRPGQIIANAKLYRTVSAIVNIFRSIPFIILLVWMIPFTRVIVGTSIGLQAAIVPLTVGAAPFIARMVENALLEIPTGLIEASRAMGATPMQIVRKVLLPEALPGLVNAATITLITLVGYSAMGGAVGAGGLGQIGYQYGYIGYNATVMNTVLVLLVILVYLIQFAGDRIVRAVTRK" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"METQ-MONOMER" "L-methionine/D-methionine ABC transporter membrane anchored binding protein" ["MetQ", "MetD", "YaeC"] "MAFKFKTFAAVGALIGSLALVGCGQDEKDPNHIKVGVIVGAEQQVAEVAQKVAKDKYGLDVELVTFNDYVLPNEALSKGDIDANAFQHKPYLDQQLKDRGYKLVAVGNTFVYPIAGYSKKIKSLDELQDGSQVAVPNDPTNLGRSLLLLQKVGLIKLKDGVGLLPTVLDVVENPKNLKIVELEAPQLPRSLDDAQIALAVINTTYASQIGLTPAKDGIFVEDKESPYVNLIVTREDNKDAENVKKFVQAYQSDEVYEAANKVFNGGAVKGW" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE", "CCO-PERI-BAC"] +"MGLA-MONOMER" "D-galactose/methyl-galactoside ABC transporter ATP binding subunit" ["MglP", "Mgl", "MglA"] "MVSSTTPSSGEYLLEMSGINKSFPGVKALDNVNLKVRPHSIHALMGENGAGKSTLLKCLFGIYQKDSGTILFQGKEIDFHSAKEALENGISMVHQELNLVLQRSVMDNMWLGRYPTKGMFVDQDKMYRETKAIFDELDIDIDPRARVGTLSVSQMQMIEIAKAFSYNAKIVIMDEPTSSLTEKEVNHLFTIIRKLKERGCGIVYISHKMEEIFQLCDEVTVLRDGQWIATEPLAGLTMDKIIAMMVGRSLNQRFPDKENKPGEVILEVRNLTSLRQPSIRDVSFDLHKGEILGIAGLVGAKRTDIVETLFGIREKSAGTITLHGKQINNHNANEAINHGFALVTEERRSTGIYAYLDIGFNSLISNIRNYKNKVGLLDNSRMKSDTQWVIDSMRVKTPGHRTQIGSLSGGNQQKVIIGRWLLTQPEILMLDEPTRGIDVGAKFEIYQLIAELAKKGKGIIIISSEMPELLGITDRILVMSNGLVSGIVDTKTTTQNEILRLASLHL" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MGLB-MONOMER" "D-galactose/methyl-galactoside ABC transporter periplasmic binding protein" ["MglB", "D-galactose/D-glucose binding protein", "GGBP", "GBP"] "MNKKVLTLSAVMASMLFGAAAHAADTRIGVTIYKYDDNFMSVVRKAIEQDAKAAPDVQLLMNDSQNDQSKQNDQIDVLLAKGVKALAINLVDPAAAGTVIEKARGQNVPVVFFNKEPSRKALDSYDKAYYVGTDSKESGIIQGDLIAKHWAANQGWDLNKDGQIQFVLLKGEPGHPDAEARTTYVIKELNDKGIKTEQLQLDTAMWDTAQAKDKMDAWLSGPNANKIEVVIANNDAMAMGAVEALKAHNKSSIPVFGVDALPEALALVKSGALAGTVLNDANNQAKATFDLAKNLADGKGAADGTNWKIDNKVVRVPYVGVDKDNLAEFSKK" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"MGLC-MONOMER" "D-galactose/methyl-galactoside ABC transporter membrane subunit" ["MglP", "MglC"] "MSALNKKSFLTYLKEGGIYVVLLVLLAIIIFQDPTFLSLLNLSNILTQSSVRIIIALGVAGLIVTQGTDLSAGRQVGLAAVVAATLLQSMDNANKVFPEMATMPIALVILIVCAIGAVIGLINGLIIAYLNVTPFITTLGTMIIVYGINSLYYDFVGASPISGFDSGFSTFAQGFVALGSFRLSYITFYALIAVAFVWVLWNKTRFGKNIFAIGGNPEAAKVSGVNVGLNLLMIYALSGVFYAFGGMLEAGRIGSATNNLGFMYELDAIAACVVGGVSFSGGVGTVIGVVTGVIIFTVINYGLTYIGVNPYWQYIIKGAIIIFAVALDSLKYARKK" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MGTA-MONOMER" "Mg2+ importing P-type ATPase" ["Mtg", "Mgt", "CorB", "AtmA", "MgtA"] "MFKEIFTRLIRHLPSRLVHRDPLPGAQQTVNTVVPPSLSAHCLKMAVMPEEELWKTFDTHPEGLNQAEVESAREQHGENKLPAQQPSPWWVHLWVCYRNPFNILLTILGAISYATEDLFAAGVIALMVAISTLLNFIQEARSTKAADALKAMVSNTATVLRVINDKGENGWLEIPIDQLVPGDIIKLAAGDMIPADLRILQARDLFVAQASLTGESLPVEKAATTRQPEHSNPLECDTLCFMGTTVVSGTAQAMVIATGANTWFGQLAGRVSEQESEPNAFQQGISRVSMLLIRFMLVMAPVVLLINGYTKGDWWEAALFALSVAVGLTPEMLPMIVTSTLARGAVKLSKQKVIVKHLDAIQNFGAMDILCTDKTGTLTQDKIVLENHTDISGKTSERVLHSAWLNSHYQTGLKNLLDTAVLEGTDEESARSLASRWQKIDEIPFDFERRRMSVVVAENTEHHQLVCKGALQEILNVCSQVRHNGEIVPLDDIMLRKIKRVTDTLNRQGLRVVAVATKYLPAREGDYQRADESDLILEGYIAFLDPPKETTAPALKALKASGITVKILTGDSELVAAKVCHEVGLDAGEVVIGSDIETLSDDELANLAQRTTLFARLTPMHKERIVTLLKREGHVVGFMGDGINDAPALRAADIGISVDGAVDIAREAADIILLEKSLMVLEEGVIEGRRTFANMLKYIKMTASSNFGNVFSVLVASAFLPFLPMLPLHLLIQNLLYDVSQVAIPFDNVDDEQIQKPQRWNPADLGRFMIFFGPISSIFDILTFCLMWWVFHANTPETQTLFQSGWFVVGLLSQTLIVHMIRTRRVPFIQSCASWPLMIMTVIVMIVGIALPFSPLASYLQLQALPLSYFPWLVAILAGYMTLTQLVKGFYSRRYGWQ" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MHPCHYDROL-MONOMER" "2-hydroxy-6-ketonona-2,4-dienedioate hydrolase" ["MhpC"] "MSYQPQTEAATSRFLNVEEAGKTLRIHFNDCGQGDETVVLLHGSGPGATGWANFSRNIDPLVEAGYRVILLDCPGWGKSDSVVNSGSRSDLNARILKSVVDQLDIAKIHLLGNSMGGHSSVAFTLKWPERVGKLVLMGGGTGGMSLFTPMPTEGIKRLNQLYRQPTIENLKLMMDIFVFDTSDLTDALFEARLNNMLSRRDHLENFVKSLEANPKQFPDFGPRLAEIKAQTLIVWGRNDRFVPMDAGLRLLSGIAGSELHIFRDCGHWAQWEHADAFNQLVLNFLARP" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"MHPDHYDROL-MONOMER" "2-hydroxypentadienoate hydratase" ["MhpS", "MhpD"] "MTKHTLEQLAADLRRAAEQGEAIAPLRDLIGIDNAEAAYAIQHINVQHDVAQGRRVVGRKVGLTHPKVQQQLGVDQPDFGTLFADMCYGDNEIIPFSRVLQPRIEAEIALVLNRDLPATDITFDELYNAIEWVLPALEVVGSRIRDWSIQFVDTVADNASCGVYVIGGPAQRPAGLDLKNCAMKMTRNNEEVSSGRGSECLGHPLNAAVWLARKMASLGEPLRTGDIILTGALGPMVAVNAGDRFEAHIEGIGSVAATFSSAAPKGSLS" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"MHPELY-MONOMER" null ["MhpE"] "MNGKKLYISDVTLRDGMHAIRHQYSLENVRQIAKALDDARVDSIEVAHGDGLQGSSFNYGFGAHSDLEWIEAAADVVKHAKIATLLLPGIGTIHDLKNAWQAGARVVRVATHCTEADVSAQHIQYARELGMDTVGFLMMSHMTTPENLAKQAKLMEGYGATCIYVVDSGGAMNMSDIRDRFRALKAELKPETQTGMHAHHNLSLGVANSIAAVEEGCDRIDASLAGMGAGAGNAPLEVFIAAADKLGWQHGTDLYALMDAADDLVRPLQDRPVRVDRETLALGYAGVYSSFLRHCETAAARYGLSAVDILVELGKRRMVGGQEDMIVDVALDLRNNK" [] ["CCO-CYTOSOL"] +"MHPF-MONOMER" "acetaldehyde dehydrogenase (acetylating) MhpF" ["MhpF", "acetaldehyde dehydrogenase 2"] "MSKRKVAIIGSGNIGTDLMIKILRHGQHLEMAVMVGIDPQSDGLARARRMGVATTHEGVIGLMNMPEFADIDIVFDATSAGAHVKNDAALREAKPDIRLIDLTPAAIGPYCVPVVNLEANVDQLNVNMVTCGGQATIPMVAAVSRVARVHYAEIIASIASKSAGPGTRANIDEFTETTSRAIEVVGGAAKGKAIIVLNPAEPPLMMRDTVYVLSDEASQDDIEASINEMAEAVQAYVPGYRLKQRVQFEVIPQDKPVNLPGVGQFSGLKTAVWLEVEGAAHYLPAYAGNLDIMTSSALATAEKMAQSLARKAGEAA" [] ["CCO-CYTOSOL"] +"MHPHYDROXY-MONOMER" "3-(3-hydroxyphenyl)propanoate hydroxylase" ["MhpA"] "MAIQHPDIQPAVNHSVQVAIAGAGPVGLMMANYLGQMGIDVLVVEKLDKLIDYPRAIGIDDEALRTMQSVGLVDDVLPHTTPWHAMRFLTPKGRCFADIQPMTDEFGWPRRNAFIQPQVDAVMLEGVSRFPNVRCLFSRELEAFSQQDDEVTLHLKTAEGQREIVKAQWLVACDGGASFVRRTLNVPFEGKTAPNQWIVVDIANDPLSTPHIYLCCDPVRPYVSAALPHAVRRFEFMVMPGETEEQLREPQNMRKLLSKVLPNPDNVELIRQRVYTHNARLAQRFRIDRVLLAGDAAHIMPVWQGQGYNSGMRDAFNLAWKLALVIQGKARDALLDTYQQERRDHAKAMIDLSVTAGNVLAPPKRWQGTLRDGVSWLLNYLPPVKRYFLEMRFKPMPQYYGGALMREGEAKHSPVGKMFIQPKVTLENGDVTLLDNAIGANFAVIGWGCNPLWGMSDEQIQQWRALGTRFIQVVPEVQIHTAQDNHDGVLRVGDTQGRLRSWFAQHNASLVVMRPDRFVAATAIPQTLGKTLNKLASVMTLTRPDADVSVEKVA" [] ["CCO-CYTOSOL"] +"MHPT-MONOMER" "3-hydroxyphenylpropionate/3-hydroxycinnamate:H+ symporter" ["YaiK", "MhpT"] "MSTRTPSSSSSRLMLTIGLCFLVALMEGLDLQAAGIAAGGIAQAFALDKMQMGWIFSAGILGLLPGALVGGMLADRYGRKRILIGSVALFGLFSLATAIAWDFPSLVFARLMTGVGLGAALPNLIALTSEAAGPRFRGTAVSLMYCGVPIGAALAATLGFAGANLAWQTVFWVGGVVPLILVPLLMRWLPESAVFAGEKQSAPPLRALFAPETATATLLLWLCYFFTLLVVYMLINWLPLLLVEQGFQPSQAAGVMFALQMGAASGTLMLGALMDKLRPVTMSLLIYSGMLASLLALGTVSSFNGMLLAGFVAGLFATGGQSVLYALAPLFYSSQIRATGVGTAVAVGRLGAMSGPLLAGKMLALGTGTVGVMAASAPGILVAGLAVFILMSRRSRIQPCADA" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MMUM-MONOMER" "CP4-6 prophage; homocysteine S-methyltransferase" ["YagD", "MmuM"] "MSQNNPLRALLDKQDILLLDGAMATELEARGCNLADSLWSAKVLVENPELIREVHLDYYRAGAQCAITASYQATPAGFAARGLDEAQSKALIGKSVELARKAREAYLAENPQAGTLLVAGSVGPYGAYLADGSEYRGDYHCSVEAFQAFHRPRVEALLDAGADLLACETLPNFSEIEALAELLTAYPRARAWFSFTLRDSEHLSDGTPLRDVVALLAGYPQVVALGINCIALENTTAALQHLHGLTVLPLVVYPNSGEHYDAVSKTWHHHGEHCAQLADYLPQWQAAGARLIGGCCRTTPADIAALKARS" [] ["CCO-CYTOSOL"] +"MODA-MONOMER" "molybdate ABC transporter periplasmic binding protein" [] "MARKWLNLFAGAALSFAVAGNALADEGKITVFAAASLTNAMQDIATQFKKEKGVDVVSSFASSSTLARQIEAGAPADLFISADQKWMDYAVDKKAIDTATRQTLLGNSLVVVAPKASVQKDFTIDSKTNWTSLLNGGRLAVGDPEHVPAGIYAKEALQKLGAWDTLSPKLAPAEDVRGALALVERNEAPLGIVYGSDAVASKGVKVVATFPEDSHKKVEYPVAVVEGHNNATVKAFYDYLKGPQAAEIFKRYGFTIK" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"MODB-MONOMER" "molybdate ABC transporter membrane subunit" ["TslJ", "ChlJ"] "MILTDPEWQAVLLSLKVSSLAVLFSLPFGIFFAWLLVRCTFPGKALLDSVLHLPLVLPPVVVGYLLLVSMGRRGFIGERLYDWFGITFAFSWRGAVLAAAVMSFPLMVRAIRLALEGVDVKLEQAARTLGAGRWRVFFTITLPLTLPGIIVGTVLAFARSLGEFGATITFVSNIPGETRTIPSAMYTLIQTPGGESGAARLCIISIALAMISLLISEWLARISRERAGR" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MODC-MONOMER" "molybdate ABC transporter ATP binding subunit" ["NarD", "ChlD"] "MLELNFSQTLGNHCLTINETLPANGITAIFGVSGAGKTSLINAISGLTRPQKGRIVLNGRVLNDAEKGICLTPEKRRVGYVFQDARLFPHYKVRGNLRYGMSKSMVDQFDKLVALLGIEPLLDRLPGSLSGGEKQRVAIGRALLTAPELLLLDEPLASLDIPRKRELLPYLQRLTREINIPMLYVSHSLDEILHLADRVMVLENGQVKAFGALEEVWGSSVMNPWLPKEQQSSILKVTVLEHHPHYAMTALALGDQHLWVNKLDEPLQAALRIRIQASDVSLVLQPPQQTSIRNVLRAKVVNSYDDNGQVEVELEVGGKTLWARISPWARDELAIKPGLWLYAQIKSVSITA" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"MODF-MONOMER" "ABC family protein ModF" ["ModF", "ChlD", "PhrA", "ORF6"] "MSSLQILQGTFRLSDTKTLQLPQLTLNAGDSWAFVGSNGSGKSALARALAGELPLLKGERQSQFSHITRLSFEQLQKLVSDEWQRNNTDMLGPGEDDTGRTTAEIIQDEVKDAPRCMQLAQQFGITALLDRRFKYLSTGETRKTLLCQALMSEPDLLILDEPFDGLDVASRQQLAERLASLHQSGITLVLVLNRFDEIPEFVQFAGVLADCTLAETGAKEELLQQALVAQLAHSEQLEGVQLPEPDEPSARHALPANEPRIVLNNGVVSYNDRPILNNLSWQVNPGEHWQIVGPNGAGKSTLLSLVTGDHPQGYSNDLTLFGRRRGSGETIWDIKKHIGYVSSSLHLDYRVSTTVRNVILSGYFDSIGIYQAVSDRQQKLVQQWLDILGIDKRTADAPFHSLSWGQQRLALIVRALVKHPTLLILDEPLQGLDPLNRQLIRRFVDVLISEGETQLLFVSHHAEDAPACITHRLEFVPDGGLYRYVLTKIY" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MONOMER-162" "FMNH2-dependent alkanesulfonate monooxygenase" ["YcbN", "SsuD"] "MSLNMFWFLPTHGDGHYLGTEEGSRPVDHGYLQQIAQAADRLGYTGVLIPTGRSCEDAWLVAASMIPVTQRLKFLVALRPSVTSPTVAARQAATLDRLSNGRALFNLVTGSDPQELAGDGVFLDHSERYEASAEFTQVWRRLLQRETVDFNGKHIHVRGAKLLFPAIQQPYPPLYFGGSSDVAQELAAEQVDLYLTWGEPPELVKEKIEQVRAKAAAHGRKIRFGIRLHVIVRETNDEAWQAAERLISHLDDETIAKAQAAFARTDSVGQQRMAALHNGKRDNLEISPNLWAGVGLVRGGAGTALVGDGPTVAARINEYAALGIDSFVLSGYPHLEEAYRVGELLFPLLDVAIPEIPQPQPLNPQGEAVANDFIPRKVAQS" [] [] +"MONOMER-43" "glyoxylate reductase" ["TkrA", "YiaE", "GhrB"] "MKPSVILYKALPDDLLQRLQEHFTVHQVANLSPQTVEQNAAIFAEAEGLLGSNENVNAALLEKMPKLRATSTISVGYDNFDVDALTARKILLMHTPTVLTETVADTLMALVLSTARRVVEVAERVKAGEWTASIGPDWYGTDVHHKTLGIVGMGRIGMALAQRAHFGFNMPILYNARRHHKEAEERFNARYCDLDTLLQESDFVCLILPLTDETHHLFGAEQFAKMKSSAIFINAGRGPVVDENALIAALQKGEIHAAGLDVFEQEPLSVDSPLLSMANVVAVPHIGSATHETRYGMAACAVDNLIDALQGKVEKNCVNPHVAD" ["CCO-CYTOSOL"] ["CCO-PM-BAC-NEG", "CCO-CYTOSOL"] +"MONOMER0-1001" "Rac prophage; zinc-binding protein" ["YdaE"] "MTKKIKCAYHLCKKDVEESKAIERMLHFMHGILSKDEPRKYCSEACAEKDQMAHEL" [] ["CCO-CYTOSOL"] +"MONOMER0-1041" "ribosome-dependent mRNA interferase toxin YoeB" ["YoeB", "toxin of the YoeB-YefM toxin-antitoxin pair"] "MKLIWSEESWDDYLYWQETDKRIVKKINELIKDTRRTPFEGKGKPEPLKHNLSGFWSRRITEEHRLVYAVTDDSLLIAACRYHY" [] ["CCO-CYTOSOL"] +"MONOMER0-12" "K+ transporting P-type ATPase subunit KdpF" ["KdpF"] "MSAGVITGVLLVFLLLGYLVYALINAEAF" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MONOMER0-1241" "glutamate—pyruvate aminotransferase AlaB" ["AlaB"] null [] [] +"MONOMER0-1261" "dihydroxyacetone kinase subunit L" ["YcgS", "DhaL", "YsgS"] "MSLSRTQIVNWLTRCGDIFSTESEYLTGLDREIGDADHGLNMNRGFSKVVEKLPAIADKDIGFILKNTGMTLLSSVGGASGPLFGTFFIRAAQATQARQSLTLEELYQMFRDGADGVISRGKAEPGDKTMCDVWVPVVESLRQSSEQNLSVPVALEAASSIAESAAQSTITMQARKGRASYLGERSIGHQDPGATSVMFMMQMLALAAKE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"MONOMER0-141" "hydrogenase 4 component D" ["HyfD"] "MENLALTTLLLPFIGALVVSFSPQRRAAEWGVLFAALTTLCMLSLISAFYQADKVAVTLTLVNVGDVALFGLVIDRVSTLILFVVVFLGLLVTIYSTGYLTDKNREHPHNGTNRYYAFLLVFIGAMAGLVLSSTLLGQLLFFEITGGCSWALISYYQSDKAQRSALKALLITHIGSLGLYLAAATLFLQTGTFALSAMSELHGDARYLVYGGILFAAWGKSAQLPMQAWLPDAMEAPTPISAYLHAASMVKVGVYIFARAIIDGGNIPHVIGGVGMVMALVTILYGFLMYLPQQDMKRLLAWSTITQLGWMFFGLSLSIFGSRLALEGSIAYIVNHAFAKSLFFLVAGALSYSCGTRLLPRLRGVLHTLPLPGVGFCVAALAITGVPPFNGFFSKFPLFAAGFALSVEYWILLPAMILLMIESVASFAWFIRWFGRVVPGKPSEAVADAAPLPGSMRLVLIVLIVMSLISSVIAATWLQ" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MONOMER0-142" "hydrogenase 4 component E" ["HyfE"] "MTGSMIVNNLAGLMMLTSLFVISVKSYRLSCGFYACQSLVLVSIFATLSCLFAAEQLLIWSASAFITKVLLVPLIMTYAARNIPQNIPEKALFGPAMMALLAALIVLLCAFVVQPVKLPMATGLKPALAVALGHFLLGLLCIVSQRNILRQIFGYCLMENGSHLVLALLAWRAPELVEIGIATDAIFAVIVMVLLARKIWRTHGTLDVNNLTALKG" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MONOMER0-143" "hydrogenase 4 component F" ["HyfF"] "MSYSVMFALLLLTPLLFSLLCFACRKRRLSATRTVTVLHSLGITLLLILALWVVQTAADAGEIFAAGLWLHIDGLGGLFLAILGVIGFLTGIYSIGYMRHEVAHGELSPVTLCDYYGFFHLFLFTMLLVVTSNNLIVMWAAIEATTLSSAFLVGIYGQRSSLEAAWKYIIICTVGVAFGLFGTVLVYANAASVMPQAEMAIFWSEVLKQSSLLDPTLMLLAFVFLLIGFGTKTGLFPMHAWLPDAHSEAPSPVSALLSAVLLNCALLVLIRYYIIICQAIGSDFPNRLLLIFGMLSVAVAAFFILVQRDIKRLLAYSSVENMGLVAVELGIGGPLGIFAALLHILNHSLAKTLLFCGSGNVLLKYGTRDLNVVCGMLKIMPFTAVLFGGGALALAGMPPFNIFLSEFMTITAGLARNHLLIIVLLLLLLTLVLAGLVRMAARVLMAKPPQAVNRGDLGWLTTSPMVILLVMMLAMGTHIPQPVIRILAGASTIVLSGTHDLPAQRSTWHDFLPSGTASVSEKHSER" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MONOMER0-144" "hydrogenase 4 component H" ["HyfH"] "MLKLLKTIMRAGTATVKYPFAPLEVSPGFRGKPDLMPSQCIACGACACACPANALTIQTDDQQNSRTWQLYLGRCIYCGRCEEVCPTRAIQLTNNFELTVTNKADLYTRATFHLQRCSRCERPFAPQKTIALAAELLAQQQNAPQNREMLWAQASVCPECKQRATLINDDTDVLLVAKEQL" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE", "CCO-PERI-BAC"] +"MONOMER0-145" "hydrogenase 2 small subunit" ["YghV", "HybO", "hydrogenase 2 subunit β"] "MTGDNTLIHSHGINRRDFMKLCAALAATMGLSSKAAAEMAESVTNPQRPPVIWIGAQECTGCTESLLRATHPTVENLVLETISLEYHEVLSAAFGHQVEENKHNALEKYKGQYVLVVDGSIPLKDNGIYCMVAGEPIVDHIRKAAEGAAAIIAIGSCSAWGGVAAAGVNPTGAVSLQEVLPGKTVINIPGCPPNPHNFLATVAHIITYGKPPKLDDKNRPTFAYGRLIHEHCERRPHFDAGRFAKEFGDEGHREGWCLYHLGCKGPETYGNCSTLQFCDVGGVWPVAIGHPCYGCNEEGIGFHKGIHQLANVENQTPRSQKPDVNAKEGGNVSAGAIGLLGGVVGLVAGVSVMAVRELGRQQKKDNADSRGE" ["CCO-PM-BAC-NEG"] ["CCO-PERI-BAC", "CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MONOMER0-146" "NADPH-dependent FMN reductase" ["YcbP", "SsuE"] "MRVITLAGSPRFPSRSSSLLEYAREKLNGLDVEVYHWNLQNFAPEDLLYARFDSPALKTFTEQLQQADGLIVATPVYKAAYSGALKTLLDLLPERALQGKVVLPLATGGTVAHLLAVDYALKPVLSALKAQEILHGVFADDSQVIDYHHRPQFTPNLQTRLDTALETFWQALHRRDVQVPDLLSLRGNAHA" [] ["CCO-CYTOSOL"] +"MONOMER0-147" "taurine dioxygenase" ["YaiG", "SsiD", "TauD"] "MSERLSITPLGPYIGAQISGADLTRPLSDNQFEQLYHAVLRHQVVFLRDQAITPQQQRALAQRFGELHIHPVYPHAEGVDEIIVLDTHNDNPPDNDNWHTDVTFIETPPAGAILAAKELPSTGGDTLWTSGIAAYEALSVPFRQLLSGLRAEHDFRKSFPEYKYRKTEEEHQRWREAVAKNPPLLHPVVRTHPVSGKQALFVNEGFTTRIVDVSEKESEALLSFLFAHITKPEFQVRWRWQPNDIAIWDNRVTQHYANADYLPQRRIMHRATILGDKPFYRAG" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"MONOMER0-148" "methylglyoxal reductase DkgA" ["DkgA", "YqhE", "AKR5C2"] "MANPTVIKLQDGNVMPQLGLGVWQASNEEVITAIQKALEVGYRSIDTAAAYKNEEGVGKALKNASVNREELFITTKLWNDDHKRPREALLDSLKKLQLDYIDLYLMHWPVPAIDHYVEAWKGMIELQKEGLIKSIGVCNFQIHHLQRLIDETGVTPVINQIELHPLMQQRQLHAWNATHKIQTESWSPLAQGGKGVFDQKVIRDLADKYGKTPAQIVIRWHLDSGLVVIPKSVTPSRIAENFDVWDFRLDKDELGEIAKLDQGKRLGPDPDQFGG" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"MONOMER0-149" "methylglyoxal reductase DkgB" ["DkgB", "YafB", "AKR3F2"] "MAIPAFGLGTFRLKDDVVISSVITALELGYRAIDTAQIYDNEAAVGQAIAESGVPRHELYITTKIWIENLSKDKLIPSLKESLQKLRTDYVDLTLIHWPSPNDEVSVEEFMQALLEAKKQGLTREIGISNFTIPLMEKAIAAVGAENIATNQIELSPYLQNRKVVAWAKQHGIHITSYMTLAYGKALKDEVIARIAAKHNATPAQVILAWAMGEGYSVIPSSTKRKNLESNLKAQNLQLDAEDKKAIAALDCNDRLVSPEGLAPEWD" [] ["CCO-CYTOSOL"] +"MONOMER0-150" "hydrogenase 4 catalytic subunit HyfG" ["HyfG", "hydrogenase 4, large subunit"] "MNVNSSSNRGEAILAALKTQFPGAVLDEERQTPEQVTITVKINLLPDVVQYLYYQHDGWLPVLFGNDERTLNGHYAVYYALSMEGAEKCWIVVKALVDADSREFPSVTPRVPAAVWGEREIRDMYGLIPVGLPDQRRLVLPDDWPEDMHPLRKDAMDYRLRPEPTTDSETYPFINEGNSDARVIPVGPLHITSDEPGHFRLFVDGEQIVDADYRLFYVHRGMEKLAETRMGYNEVTFLSDRVCGICGFAHSVAYTNSVENALGIEVPQRAHTIRSILLEVERLHSHLLNLGLSCHFVGFDTGFMQFFRVREKSMTMAELLIGSRKTYGLNLIGGVRRDILKEQRLQTLKLVREMRADVSELVEMLLATPNMEQRTQGIGILDRQIARDLRFDHPYADYGNIPKTLFTFTGGDVFSRVMVRVKETFDSLAMLEFALDNMPDTPLLTEGFSYKPHAFALGFVEAPRGEDVHWSMLGDNQKLFRWRCRAATYANWPVLRYMLRGNTVSDAPLIIGSLDPCYSCTDRVTLVDVRKRQSKTVPYKEIERYGIDRNRSPLK" [] ["CCO-CYTOSOL"] +"MONOMER0-1501" "protein MoaB" ["MoaB"] "MSQVSTEFIPTRIAILTVSNRRGEEDDTSGHYLRDSAQEAGHHVVDKAIVKENRYAIRAQVSAWIASDDVQVVLITGGTGLTEGDQAPEALLPLFDREVEGFGEVFRMLSFEEIGTSTLQSRAVAGVANKTLIFAMPGSTKACRTAWENIIAPQLDARTRPCNFHPHLKK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"MONOMER0-151" "hydrogenase 4 catalytic subunit HyfI" ["HyfI", "hydrogenase 4, small subunit"] "MSPVLTQHVSQPITLDEQTQKMKRHLLQDIRRSAYVYRVDCGGCNACEIEIFAAITPVFDAERFGIKVVSSPRHADILLFTGAVTRAMRMPALRAYESAPDHKICVSYGACGVGGGIFHDLYSVWGGSDTIVPIDVWIPGCPPTPAATIHGFAVALGLLQQKIHAVDYRDPTGVTMQPLWPQIPPSQRIAIEREARRLAGYRQGREICDRLLRHLSDDPTGNRVNTWLRDADDPRLNSIVQQLFRVLRGLHD" [] ["CCO-PM-BAC-NEG"] +"MONOMER0-152" "hydrogenase 4 component A" ["YffE", "HyfA"] "MNRFVVAEPLWCTGCNTCLAACSDVHKTQGLQQHPRLALAKTSTITAPVVCHHCEEAPCLQVCPVNAISQRDDAIQLNESLCIGCKLCAVVCPFGAISASGSRPVNAHAQYVFQAEGSLKDGEENAPTQHALLRWEPGVQTVAVKCDLCDFLPEGPACVRACPNQALRLITGDSLQRQMKEKQRLAASWFANGGEDPLSLTQEQR" [] ["CCO-CYTOSOL"] +"MONOMER0-153" "hydrogenase 4 component B" ["YffF", "HyfB"] "MDALQLLTWSLILYLFASLASLFLLGLDRLAIKLSGITSLVGGVIGIISGITQLHAGVTLVARFAPPFEFADLTLRMDSLSAFMVLVISLLVVVCSLYSLTYMREYEGKGAAAMGFFMNIFIASMVALLVMDNAFWFIVLFEMMSLSSWFLVIARQDKTSINAGMLYFFIAHAGSVLIMIAFLLMGRESGSLDFASFRTLSLSPGLASAVFLLAFFGFGAKAGMMPLHSWLPRAHPAAPSHASALMSGVMVKIGIFGILKVAMDLLAQTGLPLWWGILVMAIGAISALLGVLYALAEQDIKRLLAWSTVENVGIILLAVGVAMVGLSLHDPLLTVVGLLGALFHLLNHALFKGLLFLGAGAIISRLHTHDMEKMGALAKRMPWTAAACLIGCLAISAIPPLNGFISEWYTWQSLFSLSRVEAVALQLAGPIAMVMLAVTGGLAVMCFVKMYGITFCGAPRSTHAEEAQEVPNTMIVAMLLLAALCVLIALSASWLAPKIMHIAHAFTNTPPATVASGIALVPGTFHTQVTPSLLLLLLLAMPLLPGLYWLWCRSRRAAFRRTGDAWACGYGWENAMAPSGNGVMQPLRVVFSALFRLRQQLDPTLRLNKGLAHVTARAQSTEPFWDERVIRPIVSATQRLAKEIQHLQSGDFRLYCLYVVAALVVLLIAIAV" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MONOMER0-154" "hydrogenase 4 component C" ["HyfC"] "MRQTLCDGYLVIFALAQAVILLMLTPLFTGISRQIRARMHSRRGPGIWQDYRDIHKLFKRQEVAPTSSGLMFRLMPWVLISSMLVLAMALPLFITVSPFAGGGDLITLIYLLALFRFFFALSGLDTGSPFAGVGASRELTLGILVEPMLILSLLVLALIAGSTHIEMISNTLAMGWNSPLTTVLALLACGFACFIEMGKIPFDVAEAEQELQEGPLTEYSGAGLALAKWGLGLKQVVMASLFVALFLPFGRAQELSLACLLTSLVVTLLKVLLIFVLASIAENTLARGRFLLIHHVTWLGFSLAALAWVFWLTGL" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MONOMER0-1541" "protein YjdP" ["YjdP"] "MKRFPLFLLFTLLTLSTVPAQADIIDDTIGNIQQAINDAYNPDRGRDYEDSRDDGWQREVSDDRRRQYDDRRRQFEDRRRQLDDRQRQLDQERRQLEDEERRMEDEYGR" [] ["CCO-CYTOSOL"] +"MONOMER0-1561" "β-lactam resistance protein" ["Blr"] "MNRLIELTGWIVLVVSVILLGVASHIDNYQPPEQSASVQHK" ["CCO-MEMBRANE"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"MONOMER0-1562" "entericidin A lipoprotein, antidote to entericidin B" ["EcnA"] "MMKRLIVLVLLASTLLTGCNTARGFGEDIKHLGNSISRAAS" ["CCO-MEMBRANE"] ["CCO-PM-BAC-NEG", "CCO-OUTER-MEM", "CCO-MEMBRANE"] +"MONOMER0-1563" "bacteriolytic entericidin B lipoprotein" ["YjeU", "EcnB"] "MVKKTIAAIFSVLVLSTVLTACNTTRGVGEDISDGGNAISGAATKAQQ" ["CCO-MEMBRANE"] ["CCO-PM-BAC-NEG", "CCO-OUTER-MEM", "CCO-MEMBRANE"] +"MONOMER0-1564" "protein HokC" ["Gef", "HokC", "HokC, Gef toxin; interferes with membrane function when in excess"] "MKQHKAMIVALIVICITAVVAALVTRKDLCEVHIRTGQTEVAVFTAYESE" ["CCO-PERI-BAC", "CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MONOMER0-1581" "protein HokE" ["YbdY", "HokE"] "MLTKYALAAVIVLCLTVLGFTLLVGDSLCEFTVKERNIEFKAVLAYEPKK" [] ["CCO-PERI-BAC", "CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MONOMER0-1601" "small toxic polypeptide LdrA" ["LdrA"] "MTLAQFAMIFWHDLAAPILAGIITAAIVSWWRNRK" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MONOMER0-1602" "small toxic polypeptide LdrB" ["LdrB"] "MTLAQFAMTFWHDLAAPILAGIITAAIVGWWRNRK" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MONOMER0-1603" "small toxic polypeptide LdrC" ["LdrC"] "MTLAQFAMIFWHDLAAPILAGIITAAIVSWWRNRK" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MONOMER0-1604" "toxin HokB" ["YdcB", "HokB", "small toxic membrane polypeptide"] "MKHNPLVVCLLIICITILTFTLLTRQTLYELRFRDGDKEVAALMACTSR" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MONOMER0-1605" "small toxic polypeptide" ["HokA", "YiaZ"] "MPQKYRLLSLIVICFTLLFFTWMIRDSLCELHIKQESYELAAFLACKLKE" [] ["CCO-PERI-BAC", "CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MONOMER0-1641" "CPS-53 (KpLE1) prophage; prophage CPS-53 recombination directionality factor and response regulator inhibitor" ["TorI"] "MQHELQPDSLVDLKFIMADTGFGKTFIYDRIKSGDLPKAKVIHGRARWLYRDHCEFKNKLLSRANG" [] ["CCO-CYTOSOL"] +"MONOMER0-1701" "putative phosphatidylethanolamine synthesis regulator GnsA" ["Sfa", "YccL", "GnsA"] "MNIEELKKQAETEIADFIAQKIAELNKNTGKEVSEIRFTAREKMTGLESYDVKIKIM" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"MONOMER0-185" "DNA-binding transcriptional dual regulator ModE" ["ModR", "ChlD", "ModE-MoO42-", "ModE"] "MQAEILLTLKLQQKLFADPRRISLLKHIALSGSISQGAKDAGISYKSAWDAINEMNQLSEHILVERATGGKGGGGAVLTRYGQRLIQLYDLLAQIQQKAFDVLSDDDALPLNSLLAAISRFSLQTSARNQWFGTITARDHDDVQQHVDVLLADGKTRLKVAITAQSGARLGLDEGKEVLILLKAPWVGITQDEAVAQNADNQLPGIISHIERGAEQCEVLMALPDGQTLCATVPVNEATSLQQGQNVTAYFNADSVIIATLC" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"MONOMER0-1922" "membrane-depolarizing toxin TisB" ["YsdB", "TisB", "toxic peptide TisB"] "MNLVDIAILILKLIVAALQLLDAVLKYLK" ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MONOMER0-1941" "membrane toxin DinQ" ["DinQ", "UV inducible membrane toxin DinQ"] "MIDKAIIVLGALIALLELIRFLLQLLN" ["CCO-MEMBRANE"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"MONOMER0-1981" "succinyl-diaminopimelate desuccinylase" ["MsgB", "DapE"] "MSCPVIELTQQLIRRPSLSPDDAGCQALLIERLQAIGFTVERMDFADTQNFWAWRGQGETLAFAGHTDVVPPGDADRWINPPFEPTIRDGMLFGRGAADMKGSLAAMVVAAERFVAQHPNHTGRLAFLITSDEEASAHNGTVKVVEALMARNERLDYCLVGEPSSIEVVGDVVKNGRRGSLTCNLTIHGVQGHVAYPHLADNPVHRAAPFLNELVAIEWDQGNEFFPATSMQIANIQAGTGSNNVIPGELFVQFNFRFSTELTDEMIKAQVLALLEKHQLRYTVDWWLSGQPFLTARGKLVDAVVNAVEHYNEIKPQLLTTGGTSDGRFIARMGAQVVELGPVNATIHKINECVNAADLQLLARMYQRIMEQLVA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"MONOMER0-2001" "tetrahydrodipicolinate succinylase" ["Ssa", "DapD"] "MQQLQNIIETAFERRAEITPANADTVTREAVNQVIALLDSGALRVAEKIDGQWVTHQWLKKAVLLSFRINDNQVIEGAESRYFDKVPMKFADYDEARFQKEGFRVVPPAAVRQGAFIARNTVLMPSYVNIGAYVDEGTMVDTWATVGSCAQIGKNVHLSGGVGIGGVLEPLQANPTIIEDNCFIGARSEVVEGVIVEEGSVISMGVYIGQSTRIYDRETGEIHYGRVPAGSVVVSGNLPSKDGKYSLYCAVIVKKVDAKTRGKVGINELLRTID" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"MONOMER0-2121" "putative PTS enzyme IIB component SgcB" ["SgcB", "EIIBSgc", "Enzyme IIBSgc"] "MKKILVACGTGMSTSTMIAHKLQEFLTEQGISATTAQCCLNEIPLNCNGMDLIVTSMRTNSDYGIPTLNGAALLTGINDDALKQQIKALLTQ" [] ["CCO-CYTOSOL"] +"MONOMER0-2141" "inner membrane protein YmgF" ["YmgF", "inner membrane protein that interacts with cell division proteins"] "MNNSNNLDYFTLYIIFSIAFMLITLLVILIAKPSTGLGEVLVTINLLNALVWLAINLVNRLRERLVNHRDQQ" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MONOMER0-2383" "DNA polymerase III subunit γ" ["DnaZ", "DnaX"] "MSYQVLARKWRPQTFADVVGQEHVLTALANGLSLGRIHHAYLFSGTRGVGKTSIARLLAKGLNCETGITATPCGVCDNCREIEQGRFVDLIEIDAASRTKVEDTRDLLDNVQYAPARGRFKVYLIDEVHMLSRHSFNALLKTLEEPPEHVKFLLATTDPQKLPVTILSRCLQFHLKALDVEQIRHQLEHILNEEHIAHEPRALQLLARAAEGSLRDALSLTDQAIASGDGQVSTQAVSAMLGTLDDDQALSLVEAMVEANGERVMALINEAAARGIEWEALLVEMLGLLHRIAMVQLSPAALGNDMAAIELRMRELARTIPPTDIQLYYQTLLIGRKELPYAPDRRMGVEMTLLRALAFHPRMPLPEPEVPRQSFAPVAPTAVMTPTQVPPQPQSAPQQAPTVPLPETTSQVLAARQQLQRVQGATKAKKE" [] ["CCO-CYTOSOL"] +"MONOMER0-2488" "DNA-binding transcriptional dual regulator FlhC" ["FlaI", "FlhC"] "MSEKSIVQEARDIQLAMELITLGARLQMLESETQLSRGRLIKLYKELRGSPPPKGMLPFSTDWFMTWEQNVHASMFCNAWQFLLKTGLCNGVDAVIKAYRLYLEQCPQAEEGPLLALTRAWTLVRFVESGLLQLSSCNCCGGNFITHAHQPVGSFACSLCQPPSRAVKRRKLSQNPADIIPQLLDEQRVQAV" [] ["CCO-CYTOSOL"] +"MONOMER0-2489" "inner membrane protein YhiM" ["YhiM", "inner membrane protein with a role in acid resistance"] "MNIYIGWLFKLIPLIMGLICIALGGFVLESSGQSEYFVAGHVLISLAAICLALFTTAFIIISQLTRGVNTFYNTLFPIIGYAGSIITMIWGWALLAGNDVMADEFVAGHVIFGVGMIAACVSTVAASSGHFLLIPKNAAGSKSDGTPVQAYSSLIGNCLIAVPVLLTLLGFIWSITLLRSADITPHYVAGHVLLGLTAICACLIGLVATIVHQTRNTFSTKEHWLWCYWVIFLGSITVLQGIYVLVSSDASARLAPGIILICLGMICYSIFSKVWLLALVWRRTCSLANRIPMIPVFTCLFCLFLASFLAEMAQTDMGYFIPSRVLVGLGAVCFTLFSIVSILEAGSAKK" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MONOMER0-2653" "putative uncharacterized protein YafF" ["YafF"] "MNEDDYKIRRGNAAELFSGIRHIAINILTNEKVFKAGLRRKMRKAAMDRNYLASVLAGSGLS" [] ["CCO-CYTOSOL"] +"MONOMER0-2654" "DUF987 domain-containing protein YkfH" ["YkfH"] "MKIISKRRAMTIYRQHPESRIFRYCTGKYQWHGSVCHYTGRDVPDIAGVLAVYAERRQDRNGPYTCLMSITLN" [] ["CCO-CYTOSOL"] +"MONOMER0-2656" "50S ribosomal subunit protein L36B" ["YkgO"] "MKVLNSLRTAKERHPDCQIVKRKGRLYVICKSNPRFKAVQGRKKKR" [] ["CCO-RIBOSOME"] +"MONOMER0-2657" "DLP12 prophage; uncharacterized protein YlcG" ["YlcG"] "MMFEFNMAELLRHRWGRLRLYRFPGSVLTDYRILKNYAKTLTGAGV" [] ["CCO-CYTOSOL"] +"MONOMER0-2658" "DLP12 prophage; putative prophage lysis lipoprotein RzoD" ["RzoD"] "MRKLKMMLCVMMLPLVVVGCTSKQSVSQCVKPPRPPAWIMQPPPDWQTPLNGIISPSERG" [] ["CCO-OUTER-MEM", "CCO-MEMBRANE"] +"MONOMER0-2659" "enterobactin biosynthesis protein YbdZ" ["YbdZ", "MbtH-like protein that enhances the catalytic function of EntF"] "MAFSNPFDDPQGAFYILRNAQGQFSLWPQQCVLPAGWDIVCQPQSQASCQQWLEAHWRTLTPTNFTQLQEAQ" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"MONOMER0-2660" "PF04328 family protein YbdD" ["YbdD"] "MFDSLAKAGKYLGQAAKLMIGMPDYDNYVEHMRVNHPDQTPMTYEEFFRERQDARYGGKGGARCC" [] ["CCO-CYTOSOL"] +"MONOMER0-2662" "inactive transposase YbfQ" ["YbfQ"] "MELKKLMEHISITPDYRQAWKVVHKLSDILLLTICAVISGAEGWEDIEDFGETHLDFLKQYGDFENGIPVHDTIARVVSQGKIT" [] ["CCO-CYTOSOL"] +"MONOMER0-2663" "cytochrome bd-I ubiquinol oxidase accessory subunit CydX" ["YbgT"] "MWYFAWILGTLLACSFGVITALALEHVESGKAGQEDI" ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MONOMER0-2665" "stress-induced bacterial acidophilic repeat motifs-containing protein YmdF" ["YmdF"] "MANHRGGSGNFAEDRERASEAGKKGGQHSGGNFKNDPQRASEAGKKGGKSSHGKSDN" [] ["CCO-CYTOSOL"] +"MONOMER0-2666" "protein YcgI" ["YmgH", "YcgI"] "MHLSNGMESKSVDTRSIYRELGATLSYNMRLGNGMEMNPG*RRLCAKNLSMITG*R*IMTVISSMICRADVEYTRQLLKPHSAVRLADISGWGIAMVPVWNPRGTRWLV*TGR" [] ["CCO-MEMBRANE"] +"MONOMER0-2667" "hypothetical protein YmjB" ["YmjB"] "MVRAGALNDYHAGENITIHFDMTKCHFFDAETEIAIR" [] ["CCO-CYTOSOL"] +"MONOMER0-2668" "putative uncharacterized protein YmjC" ["YmjC"] "MKNVLILGAGGQIARHVINQLADKQTIKQTLFARQPAKIHKPYPTNKMQTTSGKKVIQDR" [] ["CCO-CYTOSOL"] +"MONOMER0-2670" "Rac prophage; DUF1391 domain-containing protein YdaF" ["YdaF"] "MQKIDLGNNESLVCGVFPNQDGTFTAMTYTKSKTFKTETGARRWLEKHTVS" [] ["CCO-CYTOSOL"] +"MONOMER0-2671" "Rac prophage; putative prophage outer membrane lipoprotein RzoR" ["RzoR"] "MRKLKMMLCVMMLPLVVVGCTSKQSVSQCVKPPPPPAWIMQPPPDWQTPLNGIISPSGNDW" [] ["CCO-OUTER-MEM", "CCO-MEMBRANE"] +"MONOMER0-2672" "DUF333 domain-containing protein YdbJ" ["YdbJ"] "MRAAFWVGCAALLLSACSSEPVQQATAAHVAPGLKASMSSSGEANCAMIGGSLSVARQLDGTAIGMCALPNGKRCSEQSLAAGSCGSY" [] ["CCO-PERI-BAC"] +"MONOMER0-2673" "toxin of the HicA-HicB toxin-antitoxin system" ["YncN", "HicA"] "MKQSEFRRWLESQGVDVANGSNHLKLRFHGRRSVMPRHPCDEIKEPLRKAILKQLGLS" [] ["CCO-CYTOSOL"] +"MONOMER0-2674" "Qin prophage; DUF3950 domain-containing protein YnfO" ["YnfO"] "MSTKNRTRRTTTRNIRFPNQMIEQINIALEQKGSGNFSAWVIEACRRRLCSEKRVSSEANKEKSDITELLRKQVRPD" [] ["CCO-CYTOSOL"] +"MONOMER0-2675" "uncharacterized protein YniD" ["YniD"] "MPTKRFDKKHWKMVVVLLAICGAMLLLRWAAMIWG" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MONOMER0-2676" "uncharacterized protein YobH" ["YobH"] "MRFIIRTVMLIALVWIGLLLSGYGVLIGSKENAAGLGLQCTYLTARGTSTVQYLHTKSGFLGITDCPLLRKSNIVVDNG" [] ["CCO-PM-BAC-NEG"] +"MONOMER0-2677" "DUF2766 domain-containing protein YecJ" ["YecJ"] "MSQPLNADQELVSDVVACQLVIKQILDVLDVIAPVEVREKMSSQLKNIDFTNHPAAADPVTMRAIQKAIALIELKFTPQGESH" [] ["CCO-CYTOSOL"] +"MONOMER0-2678" "CP4-44 prophage; putative uncharacterized protein YoeF" ["YoeF"] "MAGVRQHGWRAIPAVCSEYGADTLPDRYRSDGRCLLFWQQAGISALKQELEVKTPYRAMNHPVIGVVTKADLASMEQISLVKSWLREAGAHNVLVTSAVNNNGVTELFALLHTEEGCC" [] ["CCO-CYTOSOL"] +"MONOMER0-2680" "uncharacterized protein YehK" ["YehK"] "MIVQKELVAIYDYEVPVPEDPFSFRLEIHKCSELFTGSVYRLERFRLRPTFHQRDREDADPLINDALIYIRDECIDERKLRGESPETVIAIFNRELQNIFNQEIE" [] ["CCO-CYTOSOL"] +"MONOMER0-2681" "UPF0387 family protein YohO" ["YohO"] "MRIAKIGVIALFLFMALGGIGGVMLAGYTFILRAG" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MONOMER0-2682" "undecaprenyl-phosphate-α-L-Ara4N flippase - ArnE subunit" ["YfbW"] "MIWLTLVFASLLSVAGQLCQKQATCFVAINKRRKHIVLWLGLALACLGLAMVLWLLVLQNVPVGIAYPMLSLNFVWVTLAAVKLWHEPVSPRHWCGVAFIIGGIVILGSTV" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MONOMER0-2683" "CPS-53 (KpLE1) prophage; putative uncharacterized protein YpdJ" ["YpdJ"] "MGYDSRLDHLAATSWYPFFNNVTTRGEIIEPYSLTLDEACQFLKIS" [] ["CCO-CYTOSOL"] +"MONOMER0-2684" "PF12843 family protein YpeB" ["YpeB"] "MEKEQLIEIANTIMPFGKYKGRRLIDLPEEYLLWFARKDEFPAGKLGELMQITLLIKTEGLTQLVQPLKRPL" [] ["CCO-CYTOSOL"] +"MONOMER0-2685" "PF13980 family protein YpfN" ["YpfN", "UPF0370 protein YpfN"] "MDWLAKYWWILVIVFLVGVLLNVIKDLKRVDHKKFLANKPELPPHRDFNDKWDDDDDWPKKDQPKK" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MONOMER0-2686" "CP4-57 prophage; DUF987 domain-containing protein YpjJ" ["YpjJ"] "MRIISKRRAMTIYRQHPESRIFRYCTGKYQWHGSVCHYTGRDVPDITGVLAVYAERRRTAADRMLD" [] ["CCO-CYTOSOL"] +"MONOMER0-2687" "alternative ribosome-rescue factor A" ["ArfA", "YhdL"] "MSRYQHTKGQIKDNAIEALLHDPLFRQRVEKNKKGKGSYMRKGKHGNRGNWEASGKKVNHFFTTGLLLSGAC" [] ["CCO-CYTOSOL"] +"MONOMER0-2688" "DUF2387 domain-containing protein YheV" ["YheV"] "MAIRKRFIAGAKCPACQAQDSMAMWRENNIDIVECVKCGHQMREADKEARDHVRKDEQVIGIFHPD" [] ["CCO-CYTOSOL"] +"MONOMER0-2689" "putative lipoprotein YsaB" ["YsaB"] "MMMNAFFPAMALMVLVGCSIPSPVQKAQRVKVDPLRSLNMEALCKDQAAKRYNTGEQKIDVTAFEQFQGSYEMRGYTFRKEQFVCSFDADGHFLHLSMR" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MONOMER0-2690" "protein YibT" ["YibT"] "MGKLGENVPLLIDKAVDFMASSQAFREYLKKLPPRNAIPSGIPDESVPLYLQRLEYYRRLYRPKQVEGQ" [] ["CCO-CYTOSOL"] +"MONOMER0-2691" "uncharacterized protein YicS" ["YicS"] "MKPTTLLLIFTFFAMPGIVYAESPFSSLQSAKEKTTVLQDLRKICTPQASLSDEAWEKLMLSDENNKQHIREAIVAMERNNQSNYWEALGKVECPDM" [] ["CCO-PM-BAC-NEG"] +"MONOMER0-2692" "membrane protein insertion efficiency factor" ["YidD"] "MAPPLSPGSRVLIALIRVYQRLISPLLGPHCRFTPTCSSYGIEALRRFGVIKGSWLTVKRVLKCHPLHPGGDDPVPPGPFDTREH" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MONOMER0-2693" "putative lipoprotein YifL" ["YifL"] "MKNVFKALTVLLTLFSLTGCGLKGPLYFPPADKNAPPPTKPVETQTQSTVPDKNDRATGDGPSQVNY" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"MONOMER0-2694" "toxin of the GhoTS toxin-antitoxin system" ["GhoT", "YjdO"] "MALFSKILIFYVIGVNISFVIIWFISHEKTHIRLLSAFLVGITWPMSLPVALLFSLF" ["CCO-MEMBRANE"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"MONOMER0-2695" "KpLE2 phage-like element; toxin of the TopAI-YjhQ toxin-antitoxin system, TopA inhibitor" ["YjhX", "TopAI"] "MNLSRQEQHTLHVLAKGRRIAHVRDSSGRVTSVECYSREGLLLTDCTLAVFKKLKTKKLIKSVNGQPYRINTTELNKVRAQLDNR" [] ["CCO-CYTOSOL"] +"MONOMER0-2696" "DUF1435 domain-containing protein YjjZ" ["YjjZ"] "MLQRTLGSGWGVLLPGLLIAGLMYADLSSDQWRIVILMGLVLTPMMLYHKQLRHYILLPSCLALIAGIMLMIMNLNQG" [] ["CCO-PM-BAC-NEG"] +"MONOMER0-2697" "DUF1328 domain-containing protein YtjA" ["YtjA"] "MFRWGIIFLVIALIAAALGFGGLAGTAAGAAKIVFVVGIILFLVSLFMGRKRP" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MONOMER0-2726" "putative metal-chelating domain-containing protein YeiW" ["YeiW"] "MECRPGCGACCTAPSISSPIPGMPDGKPANTPCIQLDEQQRCKIFTSPLRPKVCAGLQASAEMCGNSRQQAMTWLIDLEMLTAP" [] ["CCO-CYTOSOL"] +"MONOMER0-2748" "IS3 element transposase" [] "MTKTVSTSKKPRKQHSPEFRSEALKLAERIGVTAAARELSLYESQLYNWRSKQQNQQTSSERELEMSTEIARLKRQLAERDEELAILQKAATILREAPEMKYVFIEKHQAEFSIKAMCRVLRVARSGWYTWCQRRTRISTRQQFRQHCDSVVLAAFTRSKQRYGAPRLTDELRAQGYPFNVKTVAASLRRQGLRAKASRKFSPVSYRAHGLPVSENLLEQDFYASGPNQKWAGDITYLRTDEGWLYLAVVIDLWSRAVIGWSMSPRMTAQLACDALQMALWRRKRPRNVIVHTDRGGQYCSADYQAQLKRHNLRGSMSAKGCCYDNACVESFFHSLKVECIHGEHFISREIMRATVFNYIECDYNRWRRHSWCGGLSPEQFENKNLA" [] ["CCO-CYTOSOL"] +"MONOMER0-2755" "InsAB' transposase" [] "VASVSISCPSCSATDGVVRNGKSTAGHQRYLCSHCRKTWQLQFTYTASQPGTHQKIIDMAMNGVGCRATARIMGVGLNTILRHLKKLRPQSVTSRIQPGSDVIVCAEMDEQWGYVGAKSRQRWLFYAYDSLRKTVVAHVFGERTMATLGRLMSLLSPFDVVIWMTDGWPLYESRLKGKLHVISKRYTQRIERHNLNLRQHLARLGRKSLSFSKSVELHDKVIGHYLNIKHYQ" [] ["CCO-CYTOSOL"] +"MONOMER0-2756" "InsAB' transposase" [] "VASVSISCPSCSATDGVVRNGKSTAGHQRYLCSHCRKTWQLQFTYTASQPGTHQKIIDMAMNGVGCRATARIMGVGLNTIFRHLKKLRPQSVTSRIQPGSDVIVCAEMDEQWGYVGAKSRQRWLFYAYDRLRKTVVAHVFGERTMATLGRLMSLLSPFDVVIWMTDGWPLYESRLKGKLHVISKRYTQRIERYNLNLRQHLARLGRKSLSFSKSVELHDKVIGHYLNIKHYQ" [] ["CCO-CYTOSOL"] +"MONOMER0-2757" "InsAB' transposase" [] "VASVSISCPSCSATDGVVRNGKSTAGHQRYLCSHCRKTWQLQFTYTASQPGTHQKIIDMAMNGVGCRATARIMGVGLNTIFRHLKKLRPQSVTSRIQPGSDVIVCAEMDEQWGYVGAKSRQRWLFYAYDRLRKTVVAHVFGERTMATLGRLMSLLSPFDVVIWMTDGWPLYESRLKGKLHVISKRYTQRIERHNLNLRQHLARLGRKSLSFSKSVEQHDKVIGHYLNIKHYQ" [] ["CCO-CYTOSOL"] +"MONOMER0-2761" "IS2 element transposase InsAB'" ["InsAB'"] "MIDVLGPEKRRRRTTQEKIAIVQQSFEPGMTVSLVARQHGVAASQLFLWRKQYQEGSLTAVAAGEQVVPASELAAAMKQIKELQRLLGKKTMENELLKEAVEYGRAKKVDSARALIARGWGVSLVSRCLRVSRAQLHVILRRTDDWMDGRRSRHTDDTDVLLRIHHVIGELPTYGYRRVWALLRRQAELDGMPAINAKRVYRIMRQNALLLERKPAVPPSKRAHTGRVAVKESNQRWCSDGFEFCCDNGERLRVTFALDCCDREALHWAVTTGGFNSETVQDVMLGAVERRFGNDLPSSPVEWLTDNGSCYRANETRQFARMLGLEPKNTAVRSPESNGIAESFVKTIKRDYISIMPKPDGLTAAKNLAEAFEHYNEWHPHSALGYRSPREYLRQRACNGLSDNRCLEI" [] ["CCO-CYTOSOL"] +"MONOMER0-2772" "putative uncharacterized protein YahH" ["YahH"] "MNALSGLRMAQESVGLISVAHQAFVTIAGCGVNALSGLRMAQESVGLISVAHQAFATTAGCGVDALSGLRVARESVGLISVAHQAFVTIAGCGVNALSGLRVAREL" [] ["CCO-MEMBRANE"] +"MONOMER0-2778" "protein IcdC" ["IcdC"] "MLRHMGWTEAADLIVKGMEGAINAKTVTYDFERLMEGAKLLKCSEFGEAIIENM" [] ["CCO-MEMBRANE"] +"MONOMER0-2801" "RyhB-regulated fur leader peptide" ["Uof"] "MIRIISRANSVTSSNEVNRLVTGQIPHD" [] ["CCO-CYTOSOL"] +"MONOMER0-2812" "uncharacterized protein YkfM" ["YkfM"] "MRLHVKLKEFLSMFFMAILFFPAFNASLFFTGVKPLYSIIKCSTEIFYDWRMLILCFGFMSFSFLNIHVILLTIIKSFLIKKTKVVNFATDITIQLTLIFLLIAIVIAPLIAPFVTGYVNTNYHPCGNNTGIFPGAIYIKNGMKCNNGYISRKEDSAVK" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"MONOMER0-2813" "DLP12 prophage; uncharacterized protein YlcH" ["YlcH"] "MRTYNPNSLLPSQMQKCTCNSLHLAFDLCGGEA" [] ["CCO-CYTOSOL"] +"MONOMER0-2814" "DLP12 prophage; DUF3950 domain-containing protein YlcI" ["YlcI"] "MSTKNRTRRTTTRNIRFPNQMIEQINIALEQKGSGNFSAWVIEACRRRLTSEKRAYTSIKSDEE" [] ["CCO-CYTOSOL"] +"MONOMER0-2817" "small protein AppX" ["CbdX", "AppX", "YccB"] "MWYLLWFVGILLMCSLSTLVLVWLDPRLKS" ["CCO-OUTER-MEM"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MONOMER0-2818" "uncharacterized protein YmgI" ["YmgI"] "MSYSSFKIILIHVKNIIPIITATLILNYLNNSERSLVKQILIEDEIIVCATYLIPDI" [] ["CCO-MEMBRANE"] +"MONOMER0-2819" "uncharacterized protein YmgJ" ["YmgJ"] "MSRRYSSATITLVILFCRRPHCRKISVRQYYQKRVIFYPTTLQRTACKKCLFLMRDIIISS" [] ["CCO-CYTOSOL"] +"MONOMER0-282" "outer membrane porin PhoE" ["OmpE", "outer membrane pore protein E (E,Ic,NmpAB)", "PhoE", "outer membrane phosphoporin"] "MKKSTLALVVMGIVASASVQAAEIYNKDGNKLDVYGKVKAMHYMSDNASKDGDQSYIRFGFKGETQINDQLTGYGRWEAEFAGNKAESDTAQQKTRLAFAGLKYKDLGSFDYGRNLGALYDVEAWTDMFPEFGGDSSAQTDNFMTKRASGLATYRNTDFFGVIDGLNLTLQYQGKNENRDVKKQNGDGFGTSLTYDFGGSDFAISGAYTNSDRTNEQNLQSRGTGKRAEAWATGLKYDANNIYLATFYSETRKMTPITGGFANKTQNFEAVAQYQFDFGLRPSLGYVLSKGKDIEGIGDEDLVNYIDVGATYYFNKNMSAFVDYKINQLDSDNKLNINNDDIVAVGMTYQF" [] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"MONOMER0-2820" "UPF0509 family protein YciZ" ["DeoL", "YciZ"] "MSEFDAQRVAERIDIVLDILVAGDYHSAIHNLEILKAELLRQVAESTPDIPKAPWEI" [] ["CCO-MEMBRANE"] +"MONOMER0-2821" "uncharacterized protein YdgU" ["YdgU"] "MVGRYRFEFILIILILCALITARFYLS" [] ["CCO-PM-BAC-NEG"] +"MONOMER0-2822" "cytochrome bd-I ubiquinol oxidase accessory subunit CydH" ["YnhF", "CydH", "CydY"] "MSTDLKFSLVTTIIVLGLIVAVGLTAALH" ["CCO-MEMBRANE"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"MONOMER0-2823" "uncharacterized protein YojO" ["YojO"] "MHTPIGVKPVAGSKEWREAWQKRAFAHISNGYKYIYIAIDSPEIFLLVCSLIRI" [] ["CCO-MEMBRANE"] +"MONOMER0-2824" "protein YpaB" ["YpaB"] "MTLLQVHNFVDNSGRKKWLSRTLGQTRCPGKSMGREKFVKNNCSAIS" [] ["CCO-CYTOSOL"] +"MONOMER0-2825" "hypothetical protein YgdT" ["YgdT"] "MLSTESWDNCEKPPLLFPFTALTCDETPVFSGSVLNLVAHSVDKYGIG" [] ["CCO-MEMBRANE"] +"MONOMER0-2826" "uncharacterized protein YrhD" ["YrhD"] "MEKLTTELHSLSEMDRRHVVSILAEIANGYDDFNDMLIYLEFYPNHKILIS" [] ["CCO-CYTOSOL"] +"MONOMER0-2827" "PF15596 family protein YibV" ["YibV"] "MADKAILWALISASTKEGRKACSLSYFACKAAEAELGLAYMAANDNKEFLTSLSNIMRYKIDAGLSESYTCYLLSKGKIIRPYLKNLNPLQLAADCIETVNKIKDKNKKNH" [] ["CCO-CYTOSOL"] +"MONOMER0-2828" "PF17089 family protein YjbT" ["YjbT"] "MKRNLIKVVKMKPYFAALMLSVSVLPAYAGPLGTADKADLPQSNVSSPMMAQSLRQPDLQPISTDRKTECFRLYTPDRKPGVNCVPDGSTGH" [] ["CCO-PERI-BAC"] +"MONOMER0-2829" "uncharacterized protein YjbS" ["YjbS"] "MNISYVNSNKTTSLPVELDALNNKDISYAKDFFLYIETQLKIAKDFLDLEKKYQVLLQVKFFTHLLI" [] ["CCO-CYTOSOL"] +"MONOMER0-2830" "putative lipoprotein YtcA" ["YtcA"] "MPTVLSRMAMQLKKTAWIIPVFMVSGCSLSPAIPVIGAYYPSWFFCAIASLILTLITRRVIQRANINLAFVGIIYTALFALYAMLFWLAFF" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MONOMER0-2840" "KpLE2 phage-like element; uncharacterized protein YthA" ["YthA"] "MIKNFIFDNLIILAVPFMIKTSLKTNLIFFFLCVFVPHMAS" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MONOMER0-2841" "two-component system connector SafA" ["SafA", "YneN"] "MHATTVKNKITQRDNYKEIMSAIVVVLLLTLTLIAIFSAIDQLSISEMGRIARDLTHFIINSLQG" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MONOMER0-2842" "PtsG glucose transporter inhibitor" ["SgrT"] "MRQFYQHYFTATAKLCWLRWLSVPQRLTMLEGLMQWDDRNSES" [] ["CCO-CYTOSOL"] +"MONOMER0-2851" "IS150 protein InsAB" ["InsJK"] "MSKPKYPFEKRLEVVNHYFTTDDGYRIISARFGVPRTQVRTWVALYEKHGEKGLIPKPKGVSADPELRIKVVKAVIEQHMSLNQAAAHFMLAGSGSVARWLKVYEERGEAGLRALKIGTKRNIAISVDPEKAASALELSKDRRIEDLERQVRFLETRLMYLKKAESLSSSHEKVKVLNELRQFYPLDELLRAAEIPRSTFYYHLKALSKPDKYADVKKRISEIYHENRGRYGYRRVTLSLHREGKQINHKAVQRLMGTLSLKAAIKVKRYRSYRGEVGQTAPNVLQRDFKATRPNEKWVTDVTEFAVNGRKLYLSPVIDLFNNEVISYSLSERPVMNMVENMLDQAFKKLNPHEHPVLHSDQGWQYRMRRYQNILKEHGIKQSMSRKGNCLDNAVVECFFGTLKSECFYLDEFSNISELKDAVTEYIEYYNSRRISLKLKGLTPIEYRNQTYMPR" [] ["CCO-CYTOSOL"] +"MONOMER0-2855" "toxic peptide IbsE" ["IbsE"] "MMKLVIILVVLLLLSFPTY" [] ["CCO-PM-BAC-NEG"] +"MONOMER0-2856" "putative toxic peptide IbsD" ["IbsD"] "MMKLVIILIVLLLVSFAAY" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MONOMER0-2857" "toxic peptide IbsC" ["IbsC"] "MMRLVIILIVLLLISFSAY" [] ["CCO-PM-BAC-NEG"] +"MONOMER0-2858" "putative toxic peptide IbsB" ["IbsB"] "MMKLLIIVVLLVISFPAY" [] ["CCO-PM-BAC-NEG"] +"MONOMER0-2859" "toxic peptide IbsA" ["IbsA"] "MMKHVIILVILLVISFQAY" [] ["CCO-PM-BAC-NEG"] +"MONOMER0-2860" "toxic peptide ShoB" ["RyfB", "YphI", "ShoB"] "MTDCRYLIKRVIKIIIAVLQLILLFL" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MONOMER0-2868" "uncharacterized protein IlvX" ["IlvX"] "MNNSTKFCFSRFRTGN" [] ["CCO-CYTOSOL"] +"MONOMER0-2869" "uncharacterized protein YjeV" ["YjeV"] "MRFYFYSQAVDESGVTR" [] ["CCO-CYTOSOL"] +"MONOMER0-2870" "uncharacterized protein YoeI" ["YoeI"] "MGQFFAYATVITVKENDHVA" [] ["CCO-MEMBRANE"] +"MONOMER0-2871" "uncharacterized protein YobI" ["YobI"] "MYIFITHFFTEYVILKYLLPI" [] ["CCO-MEMBRANE"] +"MONOMER0-2872" "uncharacterized protein YmjD" ["YmjD"] "MKHIQIRNSDMDWHIAANNLG" [] ["CCO-CYTOSOL"] +"MONOMER0-2873" "uncharacterized protein YnbG" ["YnbG"] "MKYINCVYNINYKLKPHSHYK" [] ["CCO-CYTOSOL"] +"MONOMER0-2874" "uncharacterized membrane protein YpdK" ["YpdK"] "MKYFFMGISFMVIVWAGTFALMI" ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"MONOMER0-2875" "uncharacterized protein YoaJ" ["YoaJ"] "MKKTTIIMMGVAIIVVLGTELGWW" ["CCO-PM-BAC-NEG"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"MONOMER0-2876" "uncharacterized membrane protein YoaK" ["YoaK"] "MRIGIIFPVVIFITAVVFLAWFFIGGYAAPGA" ["CCO-PM-BAC-NEG"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"MONOMER0-2877" "uncharacterized protein YqeL" ["YqeL"] "MKDVDQIFDALDCHILREYLILLFYD" [] ["CCO-MEMBRANE"] +"MONOMER0-2878" "uncharacterized protein YrbN" ["YrbN"] "MKIADQFHDELCRLAAINFEAHVLHG" [] ["CCO-MEMBRANE"] +"MONOMER0-2879" "uncharacterized membrane protein YohP" ["YohP"] "MKIILWAVLIIFLIGLLVVTGVFKMIF" ["CCO-PM-BAC-NEG"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"MONOMER0-2880" "uncharacterized protein AzuC" ["AzuC"] "MKLRKILKSMFNNYCKTFKDVPPGNMFR" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MONOMER0-2881" "uncharacterized membrane protein YkgR" ["YkgR"] "MKENKVQQISHKLINIVVFVAIVEYAYLFLHFY" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MONOMER0-2882" "cell envelope stress response protein YqcG" ["YqcG", "small protein involved in the cell envelope stress response"] "MSEENKENGFNHVKTFTKIIFIFSVLVFNDNEYKITDAAVNLFIQI" [] ["CCO-MEMBRANE"] +"MONOMER0-2883" "uncharacterized protein YqfG" ["YqfG"] "MNFLMRAIFSLLLLFTLSIPVISDCVAMAIESRFKYMMLLF" [] ["CCO-PM-BAC-NEG"] +"MONOMER0-2884" "uncharacterized protein YshB" ["YshB"] "MLESIINLVSSGAVDSHTPQTAVAAVLCAAMIGLFS" [] ["CCO-MEMBRANE"] +"MONOMER0-2885" "uncharacterized protein YmiA" ["YmiA"] "MRLAMPSGNQEPRRDPELKRKAWLAVFLGSALFWVVVALLIWKVWG" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MONOMER0-2886" "uncharacterized protein YciX" ["YciX"] "MVGQEQLESSPLCQHSDNETETKRECSVVIPDDWQLTSQQQAFIELFAEDDQPKQ" [] ["CCO-CYTOSOL"] +"MONOMER0-341" "outer membrane phospholipase A" ["PldA", "OMPLA", "Outer Membrane Phospholipase A"] "MRTLQGWLLPVFMLPMAVYAQEATVKEVHDAPAVRGSIIANMLQEHDNPFTLYPYDTNYLIYTQTSDLNKEAIASYDWAENARKDEVKFQLSLAFPLWRGILGPNSVLGASYTQKSWWQLSNSEESSPFRETNYEPQLFLGFATDYRFAGWTLRDVEMGYNHDSNGRSDPTSRSWNRLYTRLMAENGNWLVEVKPWYVVGNTDDNPDITKYMGYYQLKIGYHLGDAVLSAKGQYNWNTGYGGAELGLSYPITKHVRLYTQVYSGYGESLIDYNFNQTRVGVGVMLNDLF" ["CCO-OUTER-MEM"] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"MONOMER0-4201" "leader peptide MgtL" ["MgtL"] "MEPDPTPLPRRRLKLFR" [] ["CCO-CYTOSOL"] +"MONOMER0-4214" "putative bitopic inner membrane protein" ["PmrR"] "MKNRVYESLTTVFSVLVVSSFLYIWFATY" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MONOMER0-4216" "small protein MntS" ["MntS"] "MNEFKRCMRVFSHSPFKVRLMLLSMLCDMVNNKPQQDKPSDK" [] ["CCO-CYTOSOL"] +"MONOMER0-422" "2,3-diketo-L-gulonate:Na+ symporter - membrane subunit" ["YiaM"] "MKKILEAILAINLAVLSCIVFINIILRYGFQTSILSVDELSRYLFVWLTFIGAIVAFMDNAHVQVTFLVEKLSPAWQRRVALVTHSLILFICGALAWGATLKTIQDWSDYSPILGLPIGLMYAACLPTSLVIAFFELRHLYQLITRSNSLTSPPQGA" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MONOMER0-4223" "D-galactose 1-dehydrogenase" ["Dgd"] null [] ["CCO-MEMBRANE"] +"MONOMER0-4224" "protein IroK" ["IroK", "small protein IroK"] "MKPALRDFIAIVQERLASVTA" [] ["CCO-MEMBRANE"] +"MONOMER0-4225" "IS1 protein InsA" ["InsA5"] "MASVSISCPSCSATDGVVRNGKSTAGHQRYLCSHCRKTWQLQFTYTASQPGTHQKIIDMAMNGVGCRATARIMGVGLNTILRHLKNSGRSR" [] ["CCO-CYTOSOL"] +"MONOMER0-4226" "IS1 protein InsA" ["InsA6"] "MASVSISCPSCSATDGVVRNGKSTAGHQRYLCSHCRKTWQLQFTYTASQPGTHQKIIDMAMNGVGCRATARIMGVGLNTILRHLKNSGRSR" [] ["CCO-CYTOSOL"] +"MONOMER0-4227" "IS1 protein InsA" ["InsA3"] "MASVSISCPSCSATDGVVRNGKSTAGHQRYLCSHCRKTWQLQFTYTASQPGTHQKIIDMAMNGVGCRATARIMGVGLNTIFRHLKNSGRSR" [] ["CCO-CYTOSOL"] +"MONOMER0-4228" "IS1 protein InsA" ["InsA4"] "MASVSISCPSCSATDGVVRNGKSTAGHQRYLCSHCRKTWQLQFTYTASQPGTHQKIIDMAMNGVGCRATARIMGVGLNTIFRHLKNSGRSR" [] ["CCO-CYTOSOL"] +"MONOMER0-4229" "InsAB' transposase" ["InsAB-5"] "VASVSISCPSCSATDGVVRNGKSTAGHQRYLCSHCRKTWQLQFTYTASQPGTHQKIIDMAMNGVGCRATARIMGVGLNTILRHLKKLRPQSVTSRIQPGSDVIVCAEMDEQWGYVGAKSRQRWLFYAYDSLRKTVVAHVFGERTMATLGRLMSLLSPFDVVIWMTDGWPLYESRLKGKLHVISKRYTQRIERHNLNLRQHLARLGRKSLSFSKSVELHDKVIGHYLNIKHYQ" [] ["CCO-CYTOSOL"] +"MONOMER0-4230" "InsAB' transposase" [] "VASVSISCPSCSATDGVVRNGKSTAGHQRYLCSHCRKTWQLQFTYTASQPGTHQKIIDMAMNGVGCRATARIMGVGLNTILRHLKKLRPQSVTSRIQPGSDVIVCAEMDEQWGYVGAKSRQRWLFYAYDSLRKTVVAHVFGERTMATLGRLMSLLSPFDVVIWMTDGWPLYESRLKGKLHVISKRYTQRIERHNLNLRQHLARLGRKSLSFSKSVELHDKVIGHYLNIKHYQ" [] ["CCO-CYTOSOL"] +"MONOMER0-4231" "InsAB' transposase" [] "VASVSISCPSCSATDGVVRNGKSTAGHQRYLCSHCRKTWQLQFTYTASQPGTHQKIIDMAMNGVGCRATARIMGVGLNTIFRHLKKLRPQSVTSRIQPGSDVIVCAEMDEQWGYVGAKSRQRWLFYAYDRLRKTVVAHVFGERTMATLGRLMSLLSPFDVVIWMTDGWPLYESRLKGKLHVISKRYTQRIERHNLNLRQHLARLGRKSLSFSKSVEQHDKVIGHYLNIKHYQ" [] ["CCO-CYTOSOL"] +"MONOMER0-4232" "IS186/IS421 transposase" ["InsL2"] "MNYSHDNWSAILAHIGKPEELDTSARNAGALTRRREIRDAATLLRLGLAYGPGGMSLREVTAWAQLHDVATLSDVALLKRLRNAADWFGILAAQTLAVRAAVTGCTSGKRLRLVDGTAISAPGGGSAEWRLHMGYDPHTCQFTDFELTDSRDAERLDRFAQTADEIRIADRGFGSRPECIRSLAFGEADYIVRVHWRGLRWLTAEGMRFDMMGFLRGLDCGKNGETTVMIGNSGNKKAGAPFPARLIAVSLPPEKALISKTRLLSENRRKGRVVQAETLEAAGHVLLLTSLPEDEYSAEQVADCYRLRWQIELAFKRLKSLLHLDALRAKEPELAKAWIFANLLAAFLIDDIIQPSLDFPPRSAGSEKKN" [] ["CCO-CYTOSOL"] +"MONOMER0-4233" "KpLE2 phage-like element; IS30 transposase" ["InsI3", "Tra8-3"] "MRRTFTAEEKASVFELWKNGTGFSEIANILGSKPGTIFTMLRDTGGIKPHERKRAVAHLTLSEREEIRAGLSAKMSIRAIATALNRSPSTISREVQRNRGRRYYKAVDANNRANRMAKRPKPCLLDQNLPLRKLVLEKLEMKWSPEQISGWLRRTKPRQKTLRISPETIYKTLYFRSREALHHLNIQHLRRSHSLRHGRRHTRKGERGTINIVNGTPIHERSRNIDNRRSLGHWEGDLVSGTKNSHIATLVDRKSRYTIILRLRGKDSVSVNQALTDKFLSLPSELRKSLTWDRGMELARHLEFTVSTGVKVYFCDPQSPWQRGTNENTNGLIRQYFPKKTCLAQYTQHELDLVAAQLNNRPRKTLKFKTPKEIIERGVALTD" [] ["CCO-CYTOSOL"] +"MONOMER0-4234" "DLP12 prophage; IS5 transposase and trans-activator" ["InsH2"] "MSHQLTFADSEFSSKRRQTRKEIFLSRMEQILPWQNMVEVIEPFYPKAGNGRRPYPLETMLRIHCMQHWYNLSDGAMEDALYEIASMRLFARLSLDSALPDRTTIMNFRHLLEQHQLARQLFKTINRWLAEAGVMMTQGTLVDATIIEAPSSTKNKEQQRDPEMHQTKKGNQWHFGMKAHIGVDAKSGLTHSLVTTAANEHDLNQLGNLLHGEEQFVSADAGYQGAPQREELAEVDVDWLIAERPGKVRTLKQHPRKNKTAINIEYMKASIRARVEHPFRIIKRQFGFVKARYKGLLKNDNQLAMLFTLANLFRADQMIRQWERSH" [] ["CCO-CYTOSOL"] +"MONOMER0-4235" "IS5 transposase and trans-activator" ["InsH3"] "MSHQLTFADSEFSSKRRQTRKEIFLSRMEQILPWQNMVEVIEPFYPKAGNGRRPYPLETMLRIHCMQHWYNLSDGAMEDALYEIASMRLFARLSLDSALPDRTTIMNFRHLLEQHQLARQLFKTINRWLAEAGVMMTQGTLVDATIIEAPSSTKNKEQQRDPEMHQTKKGNQWHFGMKAHIGVDAKSGLTHSLVTTAANEHDLNQLGNLLHGEEQFVSADAGYQGAPQREELAEVDVDWLIAERPGKVRTLKQHPRKNKTAINIEYMKASIRARVEHPFRIIKRQFGFVKARYKGLLKNDNQLAMLFTLANLFRADQMIRQWERSH" [] ["CCO-CYTOSOL"] +"MONOMER0-4236" "IS5 transposase and trans-activator" ["InsH4"] "MSHQLTFADSEFSSKRRQTRKEIFLSRMEQILPWQNMVEVIEPFYPKAGNGRRPYPLETMLRIHCMQHWYNLSDGAMEDALYEIASMRLFARLSLDSALPDRTTIMNFRHLLEQHQLARQLFKTINRWLAEAGVMMTQGTLVDATIIEAPSSTKNKEQQRDPEMHQTKKGNQWHFGMKAHIGVDAKSGLTHSLVTTAANEHDLNQLGNLLHGEEQFVSADAGYQGAPQREELAEVDVDWLIAERPGKVRTLKQHPRKNKTAINIEYMKASIRARVEHPFRIIKRQFGFVKARYKGLLKNDNQLAMLFTLANLFRADQMIRQWERSH" [] ["CCO-CYTOSOL"] +"MONOMER0-4237" "IS5 transposase and trans-activator" ["InsH7"] "MSHQLTFADSEFSSKRRQTRKEIFLSRMEQILPWQNMVEVIEPFYPKAGNGRRPYPLETMLRIHCMQHWYNLSDGAMEDALYEIASMRLFARLSLDSALPDRTTIMNFRHLLEQHQLARQLFKTINRWLAEAGVMMTQGTLVDATIIEAPSSTKNKEQQRDPEMHQTKKGNQWHFGMKAHIGVDAKSGLTHSLVTTAANEHDLNQLGNLLHGEEQFVSADAGYQGAPQREELAEVDVDWLIAERPGKVRTLKQHPRKNKTAINIEYMKASIRARVEHPFRIIKRQFGFVKARYKGLLKNDNQLAMLFTLANLFRADQMIRQWERSH" [] ["CCO-CYTOSOL"] +"MONOMER0-4238" "IS5 transposase and trans-activator" ["InsH8"] "MSHQLTFADSEFSSKRRQTRKEIFLSRMEQILPWQNMVEVIEPFYPKAGNGRRPYPLETMLRIHCMQHWYNLSDGAMEDALYEIASMRLFARLSLDSALPDRTTIMNFRHLLEQHQLARQLFKTINRWLAEAGVMMTQGTLVDATIIEAPSSTKNKEQQRDPEMHQTKKGNQWHFGMKAHIGVDAKSGLTHSLVTTAANEHDLNQLGNLLHGEEQFVSADAGYQGAPQREELAEVDVDWLIAERPGKVRTLKQHPRKNKTAINIEYMKASIRARVEHPFRIIKRQFGFVKARYKGLLKNDNQLAMLFTLANLFRADQMIRQWERSH" [] ["CCO-CYTOSOL"] +"MONOMER0-4239" "IS5 transposase and trans-activator" ["InsH9"] "MSHQLTFADSEFSSKRRQTRKEIFLSRMEQILPWQNMVEVIEPFYPKAGNGRRPYPLETMLRIHCMQHWYNLSDGAMEDALYEIASMRLFARLSLDSALPDRTTIMNFRHLLEQHQLARQLFKTINRWLAEAGVMMTQGTLVDATIIEAPSSTKNKEQQRDPEMHQTKKGNQWHFGMKAHIGVDAKSGLTHSLVTTAANEHDLNQLGNLLHGEEQFVSADAGYQGAPQREELAEVDVDWLIAERPGKVRTLKQHPRKNKTAINIEYMKASIRARVEHPFRIIKRQFGFVKARYKGLLKNDNQLAMLFTLANLFRADQMIRQWERSH" [] ["CCO-CYTOSOL"] +"MONOMER0-4240" "IS5 transposase and trans-activator" ["InsH10"] "MSHQLTFADSEFSSKRRQTRKEIFLSRMEQILPWQNMVEVIEPFYPKAGNGRRPYPLETMLRIHCMQHWYNLSDGAMEDALYEIASMRLFARLSLDSALPDRTTIMNFRHLLEQHQLARQLFKTINRWLAEAGVMMTQGTLVDATIIEAPSSTKNKEQQRDPEMHQTKKGNQWHFGMKAHIGVDAKSGLTHSLVTTAANEHDLNQLGNLLHGEEQFVSADAGYQGAPQREELAEVDVDWLIAERPGKVRTLKQHPRKNKTAINIEYMKASIRARVEHPFRIIKRQFGFVKARYKGLLKNDNQLAMLFTLANLFRADQMIRQWERSH" [] ["CCO-CYTOSOL"] +"MONOMER0-4241" "IS5 transposase and trans-activator" ["InsH11"] "MSHQLTFADSEFSSKRRQTRKEIFLSRMEQILPWQNMVEVIEPFYPKAGNGRRPYPLETMLRIHCMQHWYNLSDGAMEDALYEIASMRLFARLSLDSALPDRTTIMNFRHLLEQHQLARQLFKTINRWLAEAGVMMTQGTLVDATIIEAPSSTKNKEQQRDPEMHQTKKGNQWHFGMKAHIGVDAKSGLTHSLVTTAANEHDLNQLGNLLHGEEQFVSADAGYQGAPQREELAEVDVDWLIAERPGKVRTLKQHPRKNKTAINIEYMKASIRARVEHPFRIIKRQFGFVKARYKGLLKNDNQLAMLFTLANLFRADQMIRQWERSH" [] ["CCO-CYTOSOL"] +"MONOMER0-4242" "IS3 element protein InsE" ["InsE2"] "MTKTVSTSKKPRKQHSPEFRSEALKLAERIGVTAAARELSLYESQLYNWRSKQQNQQTSSERELEMSTEIARLKRQLAERDEELAILQKAATYFAKRLK" [] ["CCO-CYTOSOL"] +"MONOMER0-4243" "DLP12 prophage; IS3 element protein InsE" ["InsE3"] "MTKTVSTSKKPRKQHSPEFRSEALKLAERIGVTAAARELSLYESQLYNWRSKQQNQQTSSERELEMSTEIARLKRQLAERDEELAILQKAATYFAKRLK" [] ["CCO-CYTOSOL"] +"MONOMER0-4244" "IS3 element protein InsE" ["InsE4"] "MTKTVSTSKKPRKQHSPEFRSEALKLAERIGVTAAARELSLYESQLYNWRSKQQNQQTSSERELEMSTEIARLKRQLAERDEELAILQKAATYFAKRLK" [] ["CCO-CYTOSOL"] +"MONOMER0-4245" "IS3 element protein InsE" ["InsE5"] "MTKTVSTSKKPRKQHSPEFRSEALKLAERIGVTAAARELSLYESQLYNWRSKQQNQQTSSERELEMSTEIARLKRQLAERDEELAILQKAATYFAKRLK" [] ["CCO-CYTOSOL"] +"MONOMER0-4246" "IS3 element transposase" [] "MTKTVSTSKKPRKQHSPEFRSEALKLAERIGVTAAARELSLYESQLYNWRSKQQNQQTSSERELEMSTEIARLKRQLAERDEELAILQKAATILREAPEMKYVFIEKHQAEFSIKAMCRVLRVARSGWYTWCQRRTRISTRQQFRQHCDSVVLAAFTRSKQRYGAPRLTDELRAQGYPFNVKTVAASLRRQGLRAKASRKFSPVSYRAHGLPVSENLLEQDFYASGPNQKWAGDITYLRTDEGWLYLAVVIDLWSRAVIGWSMSPRMTAQLACDALQMALWRRKRPRNVIVHTDRGGQYCSADYQAQLKRHNLRGSMSAKGCCYDNACVESFFHSLKVECIHGEHFISREIMRATVFNYIECDYNRWRRHSWCGGLSPEQFENKNLA" [] ["CCO-CYTOSOL"] +"MONOMER0-4247" "IS3 element transposase" [] "MTKTVSTSKKPRKQHSPEFRSEALKLAERIGVTAAARELSLYESQLYNWRSKQQNQQTSSERELEMSTEIARLKRQLAERDEELAILQKAATILREAPEMKYVFIEKHQAEFSIKAMCRVLRVARSGWYTWCQRRTRISTRQQFRQHCDSVVLAAFTRSKQRYGAPRLTDELRAQGYPFNVKTVAASLRRQGLRAKASRKFSPVSYRAHGLPVSENLLEQDFYASGPNQKWAGDITYLRTDEGWLYLAVVIDLWSRAVIGWSMSPRMTAQLACDALQMALWRRKRPRNVIVHTDRGGQYCSADYQAQLKRHNLRGSMSAKGCCYDNACVESFFHSLKVECIHGEHFISREIMRATVFNYIECDYNRWRRHSWCGGLSPEQFENKNLA" [] ["CCO-CYTOSOL"] +"MONOMER0-4248" "IS3 element transposase" [] "MTKTVSTSKKPRKQHSPEFRSEALKLAERIGVTAAARELSLYESQLYNWRSKQQNQQTSSERELEMSTEIARLKRQLAERDEELAILQKAATILREAPEMKYVFIEKHQAEFSIKAMCRVLRVARSGWYTWCQRRTRISTRQQFRQHCDSVVLAAFTRSKQRYGAPRLTDELRAQGYPFNVKTVAASLRRQGLRAKASRKFSPVSYRAHGLPVSENLLEQDFYASGPNQKWAGDITYLRTDEGWLYLAVVIDLWSRAVIGWSMSPRMTAQLACDALQMALWRRKRPRNVIVHTDRGGQYCSADYQAQLKRHNLRGSMSAKGCCYDNACVESFFHSLKVECIHGEHFISREIMRATVFNYIECDYNRWRRHSWCGGLSPEQFENKNLA" [] ["CCO-CYTOSOL"] +"MONOMER0-4249" "IS3 element transposase" [] "MTKTVSTSKKPRKQHSPEFRSEALKLAERIGVTAAARELSLYESQLYNWRSKQQNQQTSSERELEMSTEIARLKRQLAERDEELAILQKAATILREAPEMKYVFIEKHQAEFSIKAMCRVLRVARSGWYTWCQRRTRISTRQQFRQHCDSVVLAAFTRSKQRYGAPRLTDELRAQGYPFNVKTVAASLRRQGLRAKASRKFSPVSYRAHGLPVSENLLEQDFYASGPNQKWAGDITYLRTDEGWLYLAVVIDLWSRAVIGWSMSPRMTAQLACDALQMALWRRKRPRNVIVHTDRGGQYCSADYQAQLKRHNLRGSMSAKGCCYDNACVESFFHSLKVECIHGEHFISREIMRATVFNYIECDYNRWRRHSWCGGLSPEQFENKNLA" [] ["CCO-CYTOSOL"] +"MONOMER0-4250" "IS2 insertion element repressor InsA" ["InsC2"] "MIDVLGPEKRRRRTTQEKIAIVQQSFEPGMTVSLVARQHGVAASQLFLWRKQYQEGSLTAVAAGEQVVPASELAAAMKQIKELQRLLGKKTMENELLKEAVEYGRAKKWIAHAPLLPGDGE" [] ["CCO-CYTOSOL"] +"MONOMER0-4251" "CP4-44 prophage; IS2 insertion element repressor InsA" ["InsC3"] "MIDVLGPEKRRRRTTQEKIAIVQQSFEPGMTVSLVARQHGVAASQLFLWRKQYQEGSLTAVAAGEQVVPASELAAAMKQIKELQRLLGKKTMENELLKEAVEYGRAKKWIAHAPLLPGDGE" [] ["CCO-CYTOSOL"] +"MONOMER0-4252" "IS2 insertion element repressor InsA" ["InsC4"] "MIDVLGPEKRRRRTTQEKIAIVQQSFEPGMTVSLVARQHGVAASQLFLWRKQYQEGSLTAVAAGEQVVPASELAAAMKQIKELQRLLGKKTMENELLKEAVEYGRAKKWIAHAPLLPGDGE" [] ["CCO-CYTOSOL"] +"MONOMER0-4253" "IS2 insertion element repressor InsA" ["InsC5"] "MIDVLGPEKRRRRTTQEKIAIVQQSFEPGMTVSLVARQHGVAASQLFLWRKQYQEGSLTAVAAGEQVVPASELAAAMKQIKELQRLLGKKTMENELLKEAVEYGRAKKWIAHAPLLPGDGE" [] ["CCO-CYTOSOL"] +"MONOMER0-4254" "KpLE2 phage-like element; IS2 insertion element repressor InsA" ["InsC6"] "MIDVLGPEKRRRRTTQEKIAIVQQSFEPGMTVSLVARQHGVAASQLFLWRKQYQEGSLTAVAAGEQVVPASELAAAMKQIKELQRLLGKKTMENELLKEAVEYGRAKKWIAHAPLLPGDGE" [] ["CCO-CYTOSOL"] +"MONOMER0-4255" "IS2 element transposase InsAB'" ["InsAB'"] "MIDVLGPEKRRRRTTQEKIAIVQQSFEPGMTVSLVARQHGVAASQLFLWRKQYQEGSLTAVAAGEQVVPASELAAAMKQIKELQRLLGKKTMENELLKEAVEYGRAKKVDSARALIARGWGVSLVSRCLRVSRAQLHVILRRTDDWMDGRRSRHTDDTDVLLRIHHVIGELPTYGYRRVWALLRRQAELDGMPAINAKRVYRIMRQNALLLERKPAVPPSKRAHTGRVAVKESNQRWCSDGFEFCCDNGERLRVTFALDCCDREALHWAVTTGGFNSETVQDVMLGAVERRFGNDLPSSPVEWLTDNGSCYRANETRQFARMLGLEPKNTAVRSPESNGIAESFVKTIKRDYISIMPKPDGLTAAKNLAEAFEHYNEWHPHSALGYRSPREYLRQRACNGLSDNRCLEI" [] ["CCO-CYTOSOL"] +"MONOMER0-4256" "IS2 element transposase InsAB'" ["InsAB'"] "MIDVLGPEKRRRRTTQEKIAIVQQSFEPGMTVSLVARQHGVAASQLFLWRKQYQEGSLTAVAAGEQVVPASELAAAMKQIKELQRLLGKKTMENELLKEAVEYGRAKKVDSARALIARGWGVSLVSRCLRVSRAQLHVILRRTDDWMDGRRSRHTDDTDVLLRIHHVIGELPTYGYRRVWALLRRQAELDGMPAINAKRVYRIMRQNALLLERKPAVPPSKRAHTGRVAVKESNQRWCSDGFEFCCDNGERLRVTFALDCCDREALHWAVTTGGFNSETVQDVMLGAVERRFGNDLPSSPVEWLTDNGSCYRANETRQFARMLGLEPKNTAVRSPESNGIAESFVKTIKRDYISIMPKPDGLTAAKNLAEAFEHYNEWHPHSALGYRSPREYLRQRACNGLSDNRCLEI" [] ["CCO-CYTOSOL"] +"MONOMER0-4257" "IS2 element transposase InsAB'" ["InsAB'"] "MIDVLGPEKRRRRTTQEKIAIVQQSFEPGMTVSLVARQHGVAASQLFLWRKQYQEGSLTAVAAGEQVVPASELAAAMKQIKELQRLLGKKTMENELLKEAVEYGRAKKVDSARALIARGWGVSLVSRCLRVSRAQLHVILRRTDDWMDGRRSRHTDDTDVLLRIHHVIGELPTYGYRRVWALLRRQAELDGMPAINAKRVYRIMRQNALLLERKPAVPPSKRAHTGRVAVKESNQRWCSDGFEFCCDNGERLRVTFALDCCDREALHWAVTTGGFNSETVQDVMLGAVERRFGNDLPSSPVEWLTDNGSCYRANETRQFARMLGLEPKNTAVRSPESNGIAESFVKTIKRDYISIMPKPDGLTAAKNLAEAFEHYNEWHPHSALGYRSPREYLRQRACNGLSDNRCLEI" [] ["CCO-CYTOSOL"] +"MONOMER0-4258" "IS2 element transposase InsAB'" ["InsAB'"] "MIDVLGPEKRRRRTTQEKIAIVQQSFEPGMTVSLVARQHGVAASQLFLWRKQYQEGSLTAVAAGEQVVPASELAAAMKQIKELQRLLGKKTMENELLKEAVEYGRAKKVDSARALIARGWGVSLVSRCLRVSRAQLHVILRRTDDWMDGRRSRHTDDTDVLLRIHHVIGELPTYGYRRVWALLRRQAELDGMPAINAKRVYRIMRQNALLLERKPAVPPSKRAHTGRVAVKESNQRWCSDGFEFCCDNGERLRVTFALDCCDREALHWAVTTGGFNSETVQDVMLGAVERRFGNDLPSSPVEWLTDNGSCYRANETRQFARMLGLEPKNTAVRSPESNGIAESFVKTIKRDYISIMPKPDGLTAAKNLAEAFEHYNEWHPHSALGYRSPREYLRQRACNGLSDNRCLEI" [] ["CCO-CYTOSOL"] +"MONOMER0-4259" "IS2 element transposase InsAB'" ["InsAB'"] "MIDVLGPEKRRRRTTQEKIAIVQQSFEPGMTVSLVARQHGVAASQLFLWRKQYQEGSLTAVAAGEQVVPASELAAAMKQIKELQRLLGKKTMENELLKEAVEYGRAKKVDSARALIARGWGVSLVSRCLRVSRAQLHVILRRTDDWMDGRRSRHTDDTDVLLRIHHVIGELPTYGYRRVWALLRRQAELDGMPAINAKRVYRIMRQNALLLERKPAVPPSKRAHTGRVAVKESNQRWCSDGFEFCCDNGERLRVTFALDCCDREALHWAVTTGGFNSETVQDVMLGAVERRFGNDLPSSPVEWLTDNGSCYRANETRQFARMLGLEPKNTAVRSPESNGIAESFVKTIKRDYISIMPKPDGLTAAKNLAEAFEHYNEWHPHSALGYRSPREYLRQRACNGLSDNRCLEI" [] ["CCO-CYTOSOL"] +"MONOMER0-4345" "IS1 transposase B" ["InsB9"] "MPGNSPHYGRWPQHDFTSLKKLRPQSVTSRIQPGSDVIVCAEMDEQWGYVGAKSRQRWLFYAYDSLRKTVVAHVFGERTMATLGRLMSLLSPFDVVIWMTDGWPLYESRLKGKLHVISKRYTQRIERHNLNLRQHLARLGRKSLSFSKSVELHDKVIGHYLNIKHYQ" [] ["CCO-CYTOSOL"] +"MONOMER0-4346" "IS1 repressor TnpA" ["InsA9"] "MASVSISCPSCSATDGVVRNGKSTAGHQRYLCSHCRKTWQLQFTYTASQPGTHQKIIDMAMNGVGCRATARIMGVGLNTILRHLKNSGRSR" [] ["CCO-CYTOSOL"] +"MONOMER0-4347" "IS5 transposase and trans-activator" ["InsH21"] "MSHQLTFADSEFSSKRRQTRKEIFLSRMEQILPWQNMVEVIEPFYPKAGNGRRPYPLETMLRIHCMQHWYNLSDGAMEDALYEIASMRLFARLSLDSALPDRTTIMNFRHLLEQHQLARQLFKTINRWLAEAGVMMTQGTLVDATIIEAPSSTKNKEQQRDPEMHQTKKGNQWHFGMKAHIGVDAKSGLTHSLVTTAANEHDLNQLGNLLHGEEQFVSADAGYQGAPQREELAEVDVDWLIAERPGKVRTLKQHPRKNKTAINIEYMKASIRARVEHPFRIIKRQFGFVKARYKGLLKNDNQLAMLFTLANLFRADQMIRQWERSH" [] ["CCO-CYTOSOL"] +"MONOMER0-4349" "uncharacterized protein YtiA" ["YtiA"] "MKEFLFLFHSTVGVIQTRKALQAAGMTFRVSDIPRDLRGGCGLCIWLTCPPGEEIQWVIPGLTESIYCQQDGVWRCIAHYGVSPR" [] ["CCO-MEMBRANE"] +"MONOMER0-4368" "putative protein YmiB" ["YmiB"] "MTYMKLTAAKRIVFFIYLFVIQFWKNASFQTKVS" [] ["CCO-MEMBRANE"] +"MONOMER0-4369" "Qin prophage; putative lipoprotein RzoQ" ["RzoQ"] "MRNRNLLKFLPGLLICLIVLTSCVPKQKNMPYALTQRSIPQILPLPSEAKQPKPPKECSPTCSEILQQKLSFMLKLLTNATSQE" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MONOMER0-4382" "soluble Cu+ chaperone" ["YbaR", "CopA", "CopA(Z)"] "MSQTIDLTLDGLSCGHCVKRVKESLEQRPDVEQADVSITEAHVTGTASAEQLIETIKQAGYDASVSHPKG" [] ["CCO-CYTOSOL"] +"MONOMER0-4386" "inactive ferrous iron permease EfeU" ["YcdN", "EfeU"] "MFVPFLIMLREGLEAALIVSLIASYLKRTQRGRWIV*CGLACCLPLRCAWAWVSSLTKPPANFRKKNRNCLKVSWR*SPW*SLPGWFSGCAKCRATSKCNWNRQSIAHCSVEIIMAGRW**WSFLPLQGKGWSRSFSCWRHFNKMSGSGRRWVQCSVLLLPWC*ASCSTGAVFASILVHFLNGPACLFSSSPQGWQLVPFAHFMKPDCGTTFRKSPSI*VRCSQLTRCLAR*WKGFLAIRKRRASAKSPSGLFISSRRWWHLLCHHAQGRQRLAP" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MONOMER0-4390" "iraD leader peptide" ["IdlP"] "MENEHQYSGARCSGQAAYVAKRQECAK" [] ["CCO-CYTOSOL"] +"MONOMER0-4391" "protein YtiC" ["YtiC"] "MPVNGIFDVFDMLSIYIIYKLIVSNNTWLIMRK" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MONOMER0-4392" "protein YtiD" ["YtiD"] "MADYAEINNFPPELSSSGDKYFHLRNYSEYSEYTSGFFLSLMIFIKS" [] ["CCO-CYTOSOL"] +"MONOMER0-4393" "protein YmcF" ["YmcF"] "MTQHLHFRCPCCHGSQYRTSAFDVTERNPLGAKCIFCKSTMITFDNVALQIRTDHAPLDFTK" [] ["CCO-CYTOSOL"] +"MONOMER0-4394" "Qin prophage; protein YnfQ" ["YnfQ"] "MTNHIHFRCPCCHGSQYRTSSFDVSDMNPFGAKCIFCKSMMITFDNISQYLNASRLSLDLKK" [] ["CCO-CYTOSOL"] +"MONOMER0-4395" "protein YpaA" ["YpaA"] "MTIAERLRQEGHQIGWQEGKLEGLHEQAIKIALRMLEQGFDRDQVLAATQLSEADLAANNH" [] ["CCO-CYTOSOL"] +"MONOMER0-4396" "rpoE leader peptide" ["RseD"] "MIRLQHDKQKQMRYGTLQKRDTLTLCLLKLQLMEWRFDSAWKFGLGRLYLG" [] ["CCO-CYTOSOL"] +"MONOMER0-4397" "heat shock-induced protein GndA" ["GndA"] "MLLLIPSNHISIKETSSLMVVTPSSRTLFVVIVSFQQRALTSSVPVFLAVKRGR" ["CCO-MEMBRANE"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"MONOMER0-4403" "protein YabR" ["YabR"] "MKRNDKILHYRGLN" [] ["CCO-CYTOSOL"] +"MONOMER0-4404" "protein YacM" ["YacM"] "MIIKTLKMSARKRN" [] ["CCO-CYTOSOL"] +"MONOMER0-4405" "protein YadW" ["YadW"] "MAIIIGLEFAQLPMSFGAKYE" [] ["CCO-MEMBRANE"] +"MONOMER0-4406" "CP4-6 prophage; protein YkgV" ["YkgV"] "MSAFKLPDTSQSQLISTAELAKIISYKSQTIRKWLCQDKLPEGLPRPKQINGRHYWLRKDVLDFIDTFSVRESL" [] ["CCO-CYTOSOL"] +"MONOMER0-4407" "protein YahV" ["YahV"] "MCDILLNVLNIVFIGIAIILVIIC" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MONOMER0-4408" "protein YkiC" ["YkiC"] "MNYKAFTQIAIDLLSAKLCNCTQAIMTHIIASFLAFMFF" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MONOMER0-4409" "protein YkiD" ["YkiD"] "MTQRPWSKLQRKTHNIAALKIIARRSE" [] ["CCO-CYTOSOL"] +"MONOMER0-4410" "DLP12 prophage; protein YlcJ" ["YlcJ"] "MSLVLCFLLMSLFFMYSFVLSRLWRKKIAIRLLLYIQDNVTLIVFLNKK" [] ["CCO-MEMBRANE"] +"MONOMER0-4411" "protein YldA" ["YldA"] "MAEAFYILIGFLIMAAIIVMAVLYLENHS" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MONOMER0-4412" "protein YbgU" ["YbgU"] "MRKSYEVGISPKINLCNSVEVLTNSFGTVISGRQV" [] ["CCO-MEMBRANE"] +"MONOMER0-4413" "protein YliM" ["YliM"] "METFCYMKWPVRHHKSRRVSH" [] ["CCO-CYTOSOL"] +"MONOMER0-4414" "protein YmdG" ["YmdG"] "MKNSVAEH" [] ["CCO-CYTOSOL"] +"MONOMER0-4415" "protein YmgK" ["YmgK"] "MFSKLAQSSIKAMF" [] ["CCO-MEMBRANE"] +"MONOMER0-4416" "protein YmgL" ["YmgL"] "MEIKVQRLSLWMINTVFLLSPINNHQTNTINLIFEM" [] ["CCO-MEMBRANE"] +"MONOMER0-4417" "protein YmgM" ["YmgM"] "MDDKQLQAQAAFSKASQPAIDASLNLRFSFLFSHPYANLQHFIIFFLGHRPDHPGKLYLVTDNRCRA" [] ["CCO-CYTOSOL"] +"MONOMER0-4418" "protein YmiC" ["YmiC"] "MINTNMKYWSWMGAFSLSMLFWAELLWIITH" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MONOMER0-4419" "protein YmjE" ["YmjE"] "MPMIKSPHGEGGCVCAPPATDWTPPPLLPLLNRFDFRSTRPQTLLRRGGSNYGY" [] ["CCO-CYTOSOL"] +"MONOMER0-4420" "protein YnaL" ["YnaL"] "MTTLIYLQIPVPEPIPGDPVPVPDPIPRPQPMPDPPPDEEPIKLSHRERRSARIRAC" [] ["CCO-CYTOSOL"] +"MONOMER0-4421" "Rac prophage; protein YnaM" ["YnaM"] "MNSILIITSLLIIFSIFSHALIKLGIGISNNPDKTDV" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MONOMER0-4422" "protein YncO" ["YncO"] "MIYITIFMILPCPVPCSHVFLYVFYIFLFLVLFIMTIYQSSQKLHFSNCYHNNQHHNSLHN" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MONOMER0-4423" "protein YddY" ["YddY"] "MVQLVDLARCVSF" [] ["CCO-MEMBRANE"] +"MONOMER0-4424" "protein YneP" ["YneP"] "MTKHPTGIYVGCLVKVIRRRLRMELKESVINYSPFVLQHP" [] ["CCO-CYTOSOL"] +"MONOMER0-4425" "Qin prophage; protein YnfT" ["YnfT"] "MNSILIITSLLIIFSIFSHALIKLGIGISNNPDKTDV" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MONOMER0-4426" "Qin prophage; protein YnfR" ["YnfR"] "MKAPSGAFLLGVYSMDTHILR" [] ["CCO-MEMBRANE"] +"MONOMER0-4427" "Qin prophage; protein YnfS" ["YnfS"] "MNNPVCLDDWLIGFKSLCCTLAVIALLII" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MONOMER0-4428" "protein YnfP" ["YnfP"] "MTIEKHERSTKDLVKAAVSGWLGTALEFMDFKSHAC" [] ["CCO-CYTOSOL"] +"MONOMER0-4429" "protein YoaL" ["YoaL"] "MDRHRRHFSIRPFNACLSGTLCRTFRLHFVVTPALFLASNSYSLSRSLSWNS" [] ["CCO-CYTOSOL"] +"MONOMER0-4430" "protein YecU" ["YecU"] "MIKIFIGHYINVFYSTADITLKKQPLLFLAKLMVYSAALTFFTANFHCNMTRKINEYA" [] ["CCO-MEMBRANE"] +"MONOMER0-4431" "protein YqfH" ["YqfH"] "MINQVSVYRQPPVLSGCRQVKTI" [] ["CCO-CYTOSOL"] +"MONOMER0-4432" "protein YqfI" ["YqfI"] "MSKNTKSKNNGIRKYNAKTEVKLVYFK" [] ["CCO-CYTOSOL"] +"MONOMER0-4433" "protein YqhI" ["YqhI"] "MPRLTAKDFPQELLDYYDYYAHGKISKREFLNLAAKCGRRDDGISVV" [] ["CCO-CYTOSOL"] +"MONOMER0-4434" "protein YqiD" ["YqiD"] "MFIAWYWIVLIALVVVGYFLHLKRYCRAFRQDRDALLEARNKYLNSTREETAEKVE" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MONOMER0-4435" "protein YsdD" ["YsdD"] "MTIDKNWLNRSNKDPGRSLRFTHQPV" [] ["CCO-CYTOSOL"] +"MONOMER0-4436" "CP4-6 prophage; protein YkgS" ["YkgS"] "MRMIGLLYDFKDYASKMAENMARLAALLHYFSGDGGDISVTG" [] ["CCO-MEMBRANE"] +"MONOMER0-4440" "IS1 protein InsB" ["InsB3"] "MPGNRPHYGRWPQHDFPPFKKLRPQSVTSRIQPGSDVIVCAEMDEQWGYVGAKSRQRWLFYAYDRLRKTVVAHVFGERTMATLGRLMSLLSPFDVVIWMTDGWPLYESRLKGKLHVISKRYTQRIERHNLNLRQHLARLGRKSLSFSKSVEQHDKVIGHYLNIKHYQ" [] ["CCO-CYTOSOL"] +"MONOMER0-4441" "IS3 element protein InsF" ["InsF2"] "MKYVFIEKHQAEFSIKAMCRVLRVARSGWYTWCQRRTRISTRQQFRQHCDSVVLAAFTRSKQRYGAPRLTDELRAQGYPFNVKTVAASLRRQGLRAKASRKFSPVSYRAHGLPVSENLLEQDFYASGPNQKWAGDITYLRTDEGWLYLAVVIDLWSRAVIGWSMSPRMTAQLACDALQMALWRRKRPRNVIVHTDRGGQYCSADYQAQLKRHNLRGSMSAKGCCYDNACVESFFHSLKVECIHGEHFISREIMRATVFNYIECDYNRWRRHSWCGGLSPEQFENKNLA" [] ["CCO-CYTOSOL"] +"MONOMER0-4442" "DLP12 prophage; IS3 element protein InsF" ["InsF3"] "MKYVFIEKHQAEFSIKAMCRVLRVARSGWYTWCQRRTRISTRQQFRQHCDSVVLAAFTRSKQRYGAPRLTDELRAQGYPFNVKTVAASLRRQGLRAKASRKFSPVSYRAHGLPVSENLLEQDFYASGPNQKWAGDITYLRTDEGWLYLAVVIDLWSRAVIGWSMSPRMTAQLACDALQMALWRRKRPRNVIVHTDRGGQYCSADYQAQLKRHNLRGSMSAKGCCYDNACVESFFHSLKVECIHGEHFISREIMRATVFNYIECDYNRWRRHSWCGGLSPEQFENKNLA" [] ["CCO-CYTOSOL"] +"MONOMER0-4443" "IS3 element protein InsF" ["InsF4"] "MKYVFIEKHQAEFSIKAMCRVLRVARSGWYTWCQRRTRISTRQQFRQHCDSVVLAAFTRSKQRYGAPRLTDELRAQGYPFNVKTVAASLRRQGLRAKASRKFSPVSYRAHGLPVSENLLEQDFYASGPNQKWAGDITYLRTDEGWLYLAVVIDLWSRAVIGWSMSPRMTAQLACDALQMALWRRKRPRNVIVHTDRGGQYCSADYQAQLKRHNLRGSMSAKGCCYDNACVESFFHSLKVECIHGEHFISREIMRATVFNYIECDYNRWRRHSWCGGLSPEQFENKNLA" [] ["CCO-CYTOSOL"] +"MONOMER0-4444" "IS2 insertion element protein InsB" ["InsD2"] "MDSARALIARGWGVSLVSRCLRVSRAQLHVILRRTDDWMDGRRSRHTDDTDVLLRIHHVIGELPTYGYRRVWALLRRQAELDGMPAINAKRVYRIMRQNALLLERKPAVPPSKRAHTGRVAVKESNQRWCSDGFEFCCDNGERLRVTFALDCCDREALHWAVTTGGFNSETVQDVMLGAVERRFGNDLPSSPVEWLTDNGSCYRANETRQFARMLGLEPKNTAVRSPESNGIAESFVKTIKRDYISIMPKPDGLTAAKNLAEAFEHYNEWHPHSALGYRSPREYLRQRACNGLSDNRCLEI" [] ["CCO-CYTOSOL"] +"MONOMER0-4445" "IS1 protein InsB" ["InsB5"] "MPGNSPHYGRWPQHDFTSLKKLRPQSVTSRIQPGSDVIVCAEMDEQWGYVGAKSRQRWLFYAYDSLRKTVVAHVFGERTMATLGRLMSLLSPFDVVIWMTDGWPLYESRLKGKLHVISKRYTQRIERHNLNLRQHLARLGRKSLSFSKSVELHDKVIGHYLNIKHYQ" [] ["CCO-CYTOSOL"] +"MONOMER0-4446" "CP4-44 prophage; IS2 insertion element protein InsB" ["InsD3"] "MDSARALIARGWGVSLVSRCLRVSRAQLHVILRRTDDWMDGRRSRHTDDTDVLLRIHHVIGELPTYGYRRVWALLRRQAELDGMPAINAKRVYRIMRQNALLLERKPAVPPSKRAHTGRVAVKESNQRWCSDGFEFCCDNGERLRVTFALDCCDREALHWAVTTGGFNSETVQDVMLGAVERRFGNDLPSSPVEWLTDNGSCYRANETRQFARMLGLEPKNTAVRSPESNGIAESFVKTIKRDYISIMPKPDGLTAAKNLAEAFEHYNEWHPHSALGYRSPREYLRQRACNGLSDNRCLEI" [] ["CCO-CYTOSOL"] +"MONOMER0-4447" "IS3 element protein InsF" ["InsF5"] "MKYVFIEKHQAEFSIKAMCRVLRVARSGWYTWCQRRTRISTRQQFRQHCDSVVLAAFTRSKQRYGAPRLTDELRAQGYPFNVKTVAASLRRQGLRAKASRKFSPVSYRAHGLPVSENLLEQDFYASGPNQKWAGDITYLRTDEGWLYLAVVIDLWSRAVIGWSMSPRMTAQLACDALQMALWRRKRPRNVIVHTDRGGQYCSADYQAQLKRHNLRGSMSAKGCCYDNACVESFFHSLKVECIHGEHFISREIMRATVFNYIECDYNRWRRHSWCGGLSPEQFENKNLA" [] ["CCO-CYTOSOL"] +"MONOMER0-4448" "IS2 insertion element protein InsB" ["InsD4"] "MDSARALIARGWGVSLVSRCLRVSRAQLHVILRRTDDWMDGRRSRHTDDTDVLLRIHHVIGELPTYGYRRVWALLRRQAELDGMPAINAKRVYRIMRQNALLLERKPAVPPSKRAHTGRVAVKESNQRWCSDGFEFCCDNGERLRVTFALDCCDREALHWAVTTGGFNSETVQDVMLGAVERRFGNDLPSSPVEWLTDNGSCYRANETRQFARMLGLEPKNTAVRSPESNGIAESFVKTIKRDYISIMPKPDGLTAAKNLAEAFEHYNEWHPHSALGYRSPREYLRQRACNGLSDNRCLEI" [] ["CCO-CYTOSOL"] +"MONOMER0-4449" "IS2 insertion element protein InsB" ["InsD5"] "MDSARALIARGWGVSLVSRCLRVSRAQLHVILRRTDDWMDGRRSRHTDDTDVLLRIHHVIGELPTYGYRRVWALLRRQAELDGMPAINAKRVYRIMRQNALLLERKPAVPPSKRAHTGRVAVKESNQRWCSDGFEFCCDNGERLRVTFALDCCDREALHWAVTTGGFNSETVQDVMLGAVERRFGNDLPSSPVEWLTDNGSCYRANETRQFARMLGLEPKNTAVRSPESNGIAESFVKTIKRDYISIMPKPDGLTAAKNLAEAFEHYNEWHPHSALGYRSPREYLRQRACNGLSDNRCLEI" [] ["CCO-CYTOSOL"] +"MONOMER0-4450" "IS1 protein InsB" ["InsB6"] "MPGNSPHYGRWPQHDFTSLKKLRPQSVTSRIQPGSDVIVCAEMDEQWGYVGAKSRQRWLFYAYDSLRKTVVAHVFGERTMATLGRLMSLLSPFDVVIWMTDGWPLYESRLKGKLHVISKRYTQRIERHNLNLRQHLARLGRKSLSFSKSVELHDKVIGHYLNIKHYQ" [] ["CCO-CYTOSOL"] +"MONOMER0-4451" "KpLE2 phage-like element; IS2 insertion element protein InsB" ["InsD6"] "MDSARALIARGWGVSLVSRCLRVSRAQLHVILRRTDDWMDGRRSRHTDDTDVLLRIHHVIGELPTYGYRRVWALLRRQAELDGMPAINAKRVYRIMRQNALLLERKPAVPPSKRAHTGRVAVKESNQRWCSDGFEFCCDNGERLRVTFALDCCDREALHWAVTTGGFNSETVQDVMLGAVERRFGNDLPSSPVEWLTDNGSCYRANETRQFARMLGLEPKNTAVRSPESNGIAESFVKTIKRDYISIMPKPDGLTAAKNLAEAFEHYNEWHPHSALGYRSPREYLRQRACNGLSDNRCLEI" [] ["CCO-CYTOSOL"] +"MONOMER0-4478" "protein YadX" ["YadX"] "MERASKMPSSYLYDQ" [] ["CCO-CYTOSOL"] +"MONOMER0-4479" "putative translational regulatory protein ArgL" ["ArgL"] "MNNYTYKVNFNSISGVRHARIKCPIYTKNTF" [] ["CCO-CYTOSOL"] +"MONOMER0-4480" "protein YtiB" ["YtiB"] "MIGINVAIFTNVQRRTVS" [] ["CCO-MEMBRANE"] +"MONOMER0-4481" "protein YbgV" ["YbgV"] "MVDKFNNSDC" [] ["CCO-CYTOSOL"] +"MONOMER0-4482" "protein YljB" ["YljB"] "MNQKFEAVNAIDRNVTDVADANDR" [] ["CCO-CYTOSOL"] +"MONOMER0-4483" "protein YchT" ["YchT"] "MLSKGVLSARLFNLIYG" [] ["CCO-MEMBRANE"] +"MONOMER0-4484" "protein YmiD" ["YmiD"] "MQKLPLKEKCLTATANYHPGIRYIMTGYSAKYIYSSTYARFR" [] ["CCO-CYTOSOL"] +"MONOMER0-4485" "protein YnaN" ["YnaN"] "MLRNRARRLDYKIMR" [] ["CCO-CYTOSOL"] +"MONOMER0-4486" "protein YncP" ["YncP"] "MNLLVKCAGKIPALALTWTCRP" [] ["CCO-MEMBRANE"] +"MONOMER0-4487" "protein MgtT" ["MgtT"] "MNGDNPSPNRPLVTVVYKGPDFYDGEKKPPVNRR" [] ["CCO-CYTOSOL"] +"MONOMER0-4488" "Qin prophage; putative zinc-binding protein YnfU" ["YnfU"] "MSERKNSKSRRNYLVKCSCPNCTQESEHSFSRVQKGALLICPHCNKVFQTNLKAVA" [] ["CCO-CYTOSOL"] +"MONOMER0-4489" "protein YdgV" ["YdgV"] "MDNLFRTLFSTFTHLRTSSTILLVGEQHWRNAL" [] ["CCO-CYTOSOL"] +"MONOMER0-4490" "protein YecV" ["YecV"] "MSIFRIHLDGNKKA" [] ["CCO-CYTOSOL"] +"MONOMER0-4491" "protein YoaM" ["YoaM"] "MSVSCWEFNAG" [] ["CCO-MEMBRANE"] +"MONOMER0-4492" "CPS-53 (KpLE1) prophage; toxic protein YodE" ["YodE"] "MGNDAFKLSSADRGDITINNESGHLIVNTAILSGDIVTLRGGEIRLVL" [] ["CCO-MEMBRANE"] +"MONOMER0-4493" "protein EvgL" ["EvgL"] "MLHCKGNNL" [] ["CCO-CYTOSOL"] +"MONOMER0-4494" "protein PssL" ["PssL"] "MNREEMHCDVVKI" [] ["CCO-CYTOSOL"] +"MONOMER0-4495" "protein YfiS" ["YfiS"] "MEVGKLGKPYPLLNLAYVGV" [] ["CCO-MEMBRANE"] +"MONOMER0-4496" "protein YqgG" ["YqgG"] "MNRCLLLNLSHRSGEDSFPALCISALHTCRCYTHLGASQDSRAGYSY" [] ["CCO-CYTOSOL"] +"MONOMER0-4497" "protein YqgH" ["YqgH"] "MHAISLHSLAYRRFARNVSLSMLLLMR" [] ["CCO-MEMBRANE"] +"MONOMER0-4498" "protein YqhJ" ["YqhJ"] "MKYLAFLIKGKTTHFDVGK" [] ["CCO-CYTOSOL"] +"MONOMER0-4499" "protein YqiM" ["YqiM"] "MLMYQTRRTYQNSNNIAVVHLLKPAWR" [] ["CCO-CYTOSOL"] +"MONOMER0-4500" "protein YhgO" ["YhgO"] "MIYRELNRALAIL" [] ["CCO-MEMBRANE"] +"MONOMER0-4501" "protein YhgP" ["YhgP"] "MFHDLPGVK" [] ["CCO-MEMBRANE"] +"MONOMER0-4502" "protein YhiY" ["YhiY"] "MMTTLLPVFTKPSPLALNALRAGRICRFLLIPDGRIR" [] ["CCO-MEMBRANE"] +"MONOMER0-4503" "protein YriA" ["YriA"] "MLYWLGILIAYADRRPDKVFTLIR" [] ["CCO-MEMBRANE"] +"MONOMER0-4504" "protein YriB" ["YriB"] "MVLNVVLAGDFDCVRRP" [] ["CCO-MEMBRANE"] +"MONOMER0-4505" "protein YsaE" ["YsaE"] "MRNAVSKAGIISRRRLLLFQFAG" [] ["CCO-MEMBRANE"] +"MONOMER0-4506" "putative translational regulatory protein BaxL" ["BaxL"] "MIKSDQET" [] ["CCO-CYTOSOL"] +"MONOMER0-4507" "protein YbiE" ["YbiE"] "MRLSANRQGNTCAGRSVNA" [] ["CCO-CYTOSOL"] +"MONOMER0-4508" "protein YibX" ["YibX"] "MEKIPIRPFSDPASIISLCRCTLENSNAPLSLLCSATNKFILSARDSADLNEKGDFMNIFKPISYIASLAPREVTLLALV" [] ["CCO-MEMBRANE"] +"MONOMER0-4509" "protein YibX-S" ["YibX", "YibX-S"] "MNIFKPISYIASLAPREVTLLALV" [] ["CCO-MEMBRANE"] +"MONOMER0-4510" "protein YibY" ["YibY"] "MIIGMLRAHMITSLSPIPTMPSVNINKPKARFLYAI" [] ["CCO-MEMBRANE"] +"MONOMER0-4511" "protein YicU" ["YicU"] "MTSDYRVSPIKKSRPAMSK" [] ["CCO-CYTOSOL"] +"MONOMER0-4512" "protein YsdE" ["YsdE"] "MNVSQIYARNGELFSGRICKQKRQ" [] ["CCO-CYTOSOL"] +"MONOMER0-4513" "protein YsgD" ["YsgD"] "MDTPSRYWLTILSSRINS" [] ["CCO-CYTOSOL"] +"MONOMER0-4514" "protein YtgA" ["YtgA"] "MSIIILATISTTQENK" [] ["CCO-MEMBRANE"] +"MONOMER0-4515" "protein YkiE" ["YkiE"] "MGWSLCFWHVSVRMTHDVVCYY" [] ["CCO-MEMBRANE"] +"MONOMER0-4516" "protein YthB" ["YthB"] "MNKLPAHLSRQNCKIASTNLSEIIPRRAAVLK" [] ["CCO-CYTOSOL"] +"MONOMER0-4519" "ClpB80" ["HtpM", "ClpB", "ClpB79"] "VNDQGAEDQRQALKKYTIDLTERAEQGKLDPVIGRDEEIRRTIQVLQRRTKNNPVLIGEPGVGKTAIVEGLAQRIINGEVPEGLKGRRVLALDMGALVAGAKYRGEFEERLKGVLNDLAKQEGNVILFIDELHTMVGAGKADGAMDAGNMLKPALARGELHCVGATTLDEYRQYIEKDAALERRFQKVFVAEPSVEDTIAILRGLKERYELHHHVQITDPAIVAAATLSHRYIADRQLPDKAIDLIDEAASSIRMQIDSKPEELDRLDRRIIQLKLEQQALMKESDEASKKRLDMLNEELSDKERQYSELEEEWKAEKASLSGTQTIKAELEQAKIAIEQARRVGDLARMSELQYGKIPELEKQLEAATQLEGKTMRLLRNKVTDAEIAEVLARWTGIPVSRMMESEREKLLRMEQELHHRVIGQNEAVDAVSNAIRRSRAGLADPNRPIGSFLFLGPTGVGKTELCKALANFMFDSDEAMVRIDMSEFMEKHSVSRLVGAPPGYVGYEEGGYLTEAVRRRPYSVILLDEVEKAHPDVFNILLQVLDDGRLTDGQGRTVDFRNTVVIMTSNLGSDLIQERFGELDYAHMKELVLGVVSHNFRPEFINRIDEVVVFHPLGEQHIASIAQIQLKRLYKRLEERGYEIHISDEALKLLSENGYDPVYGARPLKRAIQQQIENPLAQQILSGELVPGKVIRLEVNEDRIVAVQ" [] ["CCO-CYTOSOL"] +"MONOMER0-4521" "PBP1Bγ" ["PonB", "PbpF", "MrcB", "penicillin binding protein 1Bγ"] "MPRKGKGKGKGRKPRGKRGWLWLLLKLAIVFAVLIAIYGVYLDQKIRSRIDGKVWQLPAAVYGRMVNLEPDMTISKNEMVKLLEATQYRQVSKMTRPGEFTVQANSIEMIRRPFDFPDSKEGQVRARLTFDGDHLATIVNMENNRQFGFFRLDPRLITMISSPNGEQRLFVPRSGFPDLLVDTLLATEDRHFYEHDGISLYSIGRAVLANLTAGRTVQGASTLTQQLVKNLFLSSERSYWRKANEAYMALIMDARYSKDRILELYMNEVYLGQSGDNEIRGFPLASLYYFGRPVEELSLDQQALLVGMVKGASIYNPWRNPKLALERRNLVLRLLQQQQIIDQELYDMLSARPLGVQPRGGVISPQPAFMQLVRQELQAKLGDKVKDLSGVKIFTTFDSVAQDAAEKAAVEGIPALKKQRKLSDLETAIVVVDRFSGEVRAMVGGSEPQFAGYNRAMQARRSIGSLAKPATYLTALSQPKIYRLNTWIADAPIALRQPNGQVWSPQNDDRRYSESGRVMLVDALTRSMNVPTVNLGMALGLPAVTETWIKLGVPKDQLHPVPAMLLGALNLTPIEVAQAFQTIASGGNRAPLSALRSVIAEDGKVLYQSFPQAERAVPAQAAYLTLWTMQQVVQRGTGRQLGAKYPNLHLAGKTGTTNNNVDTWFAGIDGSTVTITWVGRDNNQPTKLYGASGAMSIYQRYLANQTPTPLNLVPPEDIADMGVDYDGNFVCSGGMRILPVWTSDPQSLCQQSEMQQQPSGNPFDQSSQPQQQPQQQPAQQEQKDSDGVAGWIKDMFGSN" [] ["CCO-CYTOSOL"] +"MONOMER0-4524" "McrBS" ["RglB", "McrB"] "MSKTESYCLEDALNDLFIPETTIETILKRLTIKKNIILQGPPGVGKTFVARRLAYLLTGEKAPQRVNMVQFHQSYSYEDFIQGYRPNGVGFRRKDGIFYNFCQQAKEQPEKKYIFIIDEINRANLSKVFGEVMMLMEHDKRGENWSVPLTYSENDEERFYVPENVYIIGLMNTADRSLAVVDYALRRRFSFIDIEPGFDTPQFRNFLLNKKAEPSFVESLCQKMNELNQEISKEATILGKGFRIGHSYFCCGLEDGTSPDTQWLNEIVMTDIAPLLEEYFFDDPYKQQKWTNKLLGDS" [] ["CCO-CYTOSOL"] +"MONOMER0-4532" "leader peptide SpeFL" ["SpeFL"] "MENNSRTMPHIRRTTHIMKFAHRNSFDFHFFNAR" [] ["CCO-CYTOSOL"] +"MONOMER0-4534" "CobB-S" ["YcfY", "CobB"] "MEKPRVLVLTGAGISAESGIRTFRAADGLWEEHRVEDVATPEGFDRDPELVQAFYNARRRQLQQPEIQPNAAHLALAKLQDALGDRFLLVTQNIDNLHERAGNTNVIHMHGELLKVRCSQSGQVLDWTGDVTPEDKCHCCQFPAPLRPHVVWFGEMPLGMDEIYMALSMADIFIAIGTSGHVYPAAGFVHEAKLHGAHTVELNLEPSQVGNEFAEKYYGPASQVVPEFVEKLLKGLKAGSIA" [] ["CCO-CYTOSOL"] +"MONOMER0-5" "N-acetylmuramic acid-specific PTS enzyme IICB component / anhydro-N-acetylmuramic acid transporter" ["MurP", "YfeV", "EIIBCNAcMur", "Enzyme IIBCNAcMur"] "MAKEISSELLNTILTRVGGPGNIASCGNCMTRLRLGVHDSSLVDPNIKTLEGVKGVILTSDQVQVVFGPGKAHRAAKAMSELLGEAPVQDAAEIAAQNKRQLKAKQTSGVQQFLAKFATIFTPLIPGFIAAGLLLGIATLIATVMHVPADAQGTLPDALNFMKVFSKGLFTFLVILVGYNAAQAFGGTGVNGAIIAALFLLGYNPAATTGYYAGFHDFFGLPIDPRGNIIGVLIAAWACARIEGMVRRFMPDDLDMLLTSLITLLITATLAYLIIMPLGGWLFEGMSWLFMHLNSNPFGCAVLAGLFLIAVVFGVHQGFIPVYLALMDSQGFNSLFPILSMAGAGQVGAALALYWRAQPHSALRSQVRGAIIPGLLGVGEPLIYGVTLPRMKPFVTACLGGAAGGLFIGLIAWWGLPMGLNSAFGPSGLVALPLMTSAQGILPAMAVYAGGILVAWVCGFIFTTLFGCRNVNLD" ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"MONOMER0-541" "NAD kinase" ["YfjE", "NadK", "YfjB"] "MNNHFKCIGIVGHPRHPTALTTHEMLYRWLCTKGYEVIVEQQIAHELQLKNVKTGTLAEIGQLADLAVVVGGDGNMLGAARTLARYDIKVIGINRGNLGFLTDLDPDNAQQQLADVLEGHYISEKRFLLEAQVCQQDCQKRISTAINEVVLHPGKVAHMIEFEVYIDEIFAFSQRSDGLIISTPTGSTAYSLSAGGPILTPSLDAITLVPMFPHTLSARPLVINSSSTIRLRFSHRRNDLEISCDSQIALPIQEGEDVLIRRCDYHLNLIHPKDYSYFNTLSTKLGWSKKLF" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"MONOMER0-561" "glycolate dehydrogenase, putative iron-sulfur subunit" ["YghL", "Gox", "GlcF"] "MQTQLTEEMRQNARALEADSILRACVHCGFCTATCPTYQLLGDELDGPRGRIYLIKQVLEGNEVTLKTQEHLDRCLTCRNCETTCPSGVRYHNLLDIGRDIVEQKVKRPLPERILREGLRQVVPRPAVFRALTQVGLVLRPFLPEQVRAKLPAETVKAKPRPPLRHKRRVLMLEGCAQPTLSPNTNAATARVLDRLGISVMPANEAGCCGAVDYHLNAQEKGLARARNNIDAWWPAIEAGAEAILQTASGCGAFVKEYGQMLKNDALYADKARQVSELAVDLVELLREEPLEKLAIRGDKKLAFHCPCTLQHAQKLNGEVEKVLLRLGFTLTDVPDSHLCCGSAGTYALTHPDLARQLRDNKMNALESGKPEMIVTANIGCQTHLASAGRTSVRHWIEIVEQALEKE" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-CYTOSOL", "CCO-PM-BAC-NEG"] +"MONOMER0-6" "putative PTS enzyme IIC component FryC" ["YpdG", "FryC", "Enzyme IICFry", "EIICFry"] "MAIKKRSATVVPGASGAAAAVKNPQASKTSFWGELPQHVMSGISRMVPTLIMGGVILAFSQLIAYSWLKIPAEIGIMDALNSGKFSGFDLSLLKFAWLSQSFGGVLFGFAIPMFAAFVANSIGGKLAFPAGFIGGLMSTQPTQLLNFDPSTMQWATSSPVPSTFIGALIISIVAGYLVKWMNQKIQLPDFLLAFKTTFLLPILSAIFVMLAMYYVITPFGGWINGGIRTVLTAAGEKGALMYAMGIAAATAIDLGGPINKAAGFVAFSFTTDHVLPVTARSIAIVIPPIGLGLATIIDRRLTGKRLFNAQLYPQGKTAMFLAFMGISEGAIPFALESPITAIPSYMVGAIVGSTAAVWLGAVQWFPESAIWAWPLVTNLGVYMAGIALGAVITALMVVFLRLMMFRKGKLLIDSL" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MONOMER0-741" "PF06786 family protein YaeP" ["YaeP", "UPF0253 family protein YaeP"] "MEKYCELIRKRYAEIASGDLGYVPDALGCVLKVLNEMAADDALSEAVREKAAYAAANLLVSDYVNE" [] ["CCO-CYTOSOL"] +"MONOMER0-761" "uncharacterized protein YncL" ["YncL"] "MNVSSRTVVLINFFAAVGLFTLISMRFGWFI" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MONOMER0-762" "uncharacterized protein YpfM" ["YpfM"] "MIERELGNWKDFIEVMLRK" [] ["CCO-CYTOSOL"] +"MONOMER0-765" "uncharacterized protein YciY" ["YciY"] "MKRSRTEVGRWRMQRQASRRKSRWLEGQSRRNMRIHSIRKCILNKQRNSLLFAIYNI" [] ["CCO-CYTOSOL"] +"MONOMER0-766" "small protein MgtS" ["MgtS", "YneM"] "MLGNMNVFMAVLGIILFSGFLAAYFSHKWDD" ["CCO-PM-BAC-NEG"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"MONOMER0-82" "small conductance mechanosensitive channel YnaI" ["YnaI"] "MIAELFTNNALNLVIIFGSCAALILMSFWFRRGNRKRKGFLFHAVQFLIYTIIISAVGSIINYVIENYKLKFITPGVIDFICTSLIAVILTIKLFLLINQFEKQQIKKGRDITSARIMSRIIKITIIVVLVLLYGEHFGMSLSGLLTFGGIGGLAVGMAGKDILSNFFSGIMLYFDRPFSIGDWIRSPDRNIEGTVAEIGWRITKITTFDNRPLYVPNSLFSSISVENPGRMTNRRITTTIGLRYEDAAKVGVIVEAVREMLKNHPAIDQRQTLLVYFNQFADSSLNIMVYCFTKTTVWAEWLAAQQDVYLKIIDIVQSHGADFAFPSQTLYMDNITPPEQGR" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MONOMER0-921" "small toxic polypeptide LdrD" ["LdrD", "LdrD peptide of the LdrD-RdlD toxin-antitoxin system"] "MTFAELGMAFWHDLAAPVIAGILASMIVNWLNKRK" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MOTA-FLAGELLAR-MOTOR-STATOR-PROTEIN" "motility protein A" ["FlaJ", "MotA"] "MLILLGYLVVLGTVFGGYLMTGGSLGALYQPAELVIIAGAGIGSFIVGNNGKAIKGTLKALPLLFRRSKYTKAMYMDLLALLYRLMAKSRQMGMFSLERDIENPRESEIFASYPRILADSVMLDFIVDYLRLIISGHMNTFEIEALMDEEIETHESEAEVPANSLALVGDSLPAFGIVAAVMGVVHALGSADRPAAELGALIAHAMVGTFLGILLAYGFISPLATVLRQKSAETSKMMQCVKVTLLSNLNGYAPPIAVEFGRKTLYSSERPSFIELEEHVRAVKNPQQQTTTEEA" ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MOTB-FLAGELLAR-MOTOR-STATOR-PROTEIN" "motility protein B" ["FlaJ", "MotB"] "MKNQAHPIIVVKRRKAKSHGAAHGSWKIAYADFMTAMMAFFLVMWLISISSPKELIQIAEYFRTPLATAVTGGDRISNSESPIPGGGDDYTQSQGEVNKQPNIEELKKRMEQSRLRKLRGDLDQLIESDPKLRALRPHLKIDLVQEGLRIQIIDSQNRPMFRTGSADVEPYMRDILRAIAPVLNGIPNRISLSGHTDDFPYASGEKGYSNWELSADRANASRRELMVGGLDSGKVLRVVGMAATMRLSDRGPDDAVNRRISLLVLNKQAEQAILHENAESQNEPVSALEKPEVAPQVSVPTMPSAEPR" ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MTLA-MONOMER" "mannitol-specific PTS enzyme IICBA component" ["MtlC", "MtlA"] "MSSDIKIKVQSFGRFLSNMVMPNIGAFIAWGIITALFIPTGWLPNETLAKLVGPMITYLLPLLIGYTGGKLVGGERGGVVGAITTMGVIVGADMPMFLGSMIAGPLGGWCIKHFDRWVDGKIKSGFEMLVNNFSAGIIGMILAILAFLGIGPIVEALSKMLAAGVNFMVVHDMLPLASIFVEPAKILFLNNAINHGIFSPLGIQQSHELGKSIFFLIEANPGPGMGVLLAYMFFGRGSAKQSAGGAAIIHFLGGIHEIYFPYVLMNPRLILAVILGGMTGVFTLTILGGGLVSPASPGSILAVLAMTPKGAYFANIAGVCAAMAVSFVVSAILLKTSKVKEEDDIEAATRRMQDMKAESKGASPLSAGDVTNDLSHVRKIIVACDAGMGSSAMGAGVLRKKIQDAGLSQISVTNSAINNLPPDVDLVITHRDLTERAMRQVPQAQHISLTNFLDSGLYTSLTERLVAAQRHTANEEKVKDSLKDSFDDSSANLFKLGAENIFLGRKAATKEEAIRFAGEQLVKGGYVEPEYVQAMLDREKLTPTYLGESIAVPHGTVEAKDRVLKTGVVFCQYPEGVRFGEEEDDIARLVIGIAARNNEHIQVITSLTNALDDESVIERLAHTTSVDEVLELLAGRK" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MTR-MONOMER" "tryptophan:H+ symporter Mtr" ["Mtr", "Mtr tryptophan ArAAP transporter"] "MATLTTTQTSPSLLGGVVIIGGTIIGAGMFSLPVVMSGAWFFWSMAALIFTWFCMLHSGLMILEANLNYRIGSSFDTITKDLLGKGWNVVNGISIAFVLYILTYAYISASGSILHHTFAEMSLNVPARAAGFGFALLVAFVVWLSTKAVSRMTAIVLGAKVITFFLTFGSLLGHVQPATLFNVAESNASYAPYLLMTLPFCLASFGYHGNVPSLMKYYGKDPKTIVKCLVYGTLMALALYTIWLLATMGNIPRPEFIGIAEKGGNIDVLVQALSGVLNSRSLDLLLVVFSNFAVASSFLGVTLGLFDYLADLFGFDDSAVGRLKTALLTFAPPVVGGLLFPNGFLYAIGYAGLAATIWAAIVPALLARASRKRFGSPKFRVWGGKPMIALILVFGVGNALVHILSSFNLLPVYQ" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"MYRISTOYLACYLTRAN-MONOMER" "Lipid A biosynthesis myristoyltransferase" ["WaaN", "Mlt", "LpxM", "MsbB", "myristoyl-acyl carrier protein-dependent acyltransferase"] "METKKNNSEYIPEFDKSFRHPRYWGAWLGVAAMAGIALTPPKFRDPILARLGRFAGRLGKSSRRRALINLSLCFPERSEAEREAIVDEMFATAPQAMAMMAELAIRGPEKIQPRVDWQGLEIIEEMRRNNEKVIFLVPHGWAVDIPAMLMASQGQKMAAMFHNQGNPVFDYVWNTVRRRFGGRLHARNDGIKPFIQSVRQGYWGYYLPDQDHGPEHSEFVDFFATYKATLPAIGRLMKVCRARVVPLFPIYDGKTHRLTIQVRPPMDDLLEADDHTIARRMNEEVEIFVGPRPEQYTWILKLLKTRKPGEIQPYKRKDLYPIK" [] ["CCO-CW-BAC-NEG", "CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"N-ACETYLGLUTPREDUCT-MONOMER" null ["ArgC"] "MLNTLIVGASGYAGAELVTYVNRHPHMNITALTVSAQSNDAGKLISDLHPQLKGIVDLPLQPMSDISEFSPGVDVVFLATAHEVSHDLAPQFLEAGCVVFDLSGAFRVNDATFYEKYYGFTHQYPELLEQAAYGLAEWCGNKLKEANLIAVPGCYPTAAQLALKPLIDADLLDLNQWPVINATSGVSGAGRKAAISNSFCEVSLQPYGVFTHRHQPEIATHLGADVIFTPHLGNFPRGILETITCRLKSGVTQAQVAQVLQQAYAHKPLVRLYDKGVPALKNVVGLPFCDIGFAVQGEHLIIVATEDNLLKGAAAQAVQCANIRFGYAETQSLI" [] ["CCO-CYTOSOL"] +"N-ACETYLTRANSFER-MONOMER" "N-acetylglutamate synthase" ["ArgA"] "MVKERKTELVEGFRHSVPYINTHRGKTFVIMLGGEAIEHENFSSIVNDIGLLHSLGIRLVVVYGARPQIDANLAAHHHEPLYHKNIRVTDAKTLELVKQAAGTLQLDITARLSMSLNNTPLQGAHINVVSGNFIIAQPLGVDDGVDYCHSGRIRRIDEDAIHRQLDSGAIVLMGPVAVSVTGESFNLTSEEIATQLAIKLKAEKMIGFCSSQGVTNDDGDIVSELFPNEAQARVEAQEEKGDYNSGTVRFLRGAVKACRSGVRRCHLISYQEDGALLQELFSRDGIGTQIVMESAEQIRRATINDIGGILELIRPLEQQGILVRRSREQLEMEIDKFTIIQRDNTTIACAALYPFPEEKIGEMACVAVHPDYRSSSRGEVLLERIAAQAKQSGLSKLFVLTTRSIHWFQERGFTPVDIDLLPESKKQLYNYQRKSKVLMADLG" [] ["CCO-CYTOSOL"] +"NACGLCTRANS-MONOMER" null ["MurG"] "MSGQGKRLMVMAGGTGGHVFPGLAVAHHLMAQGWQVRWLGTADRMEADLVPKHGIEIDFIRISGLRGKGIKALIAAPLRIFNAWRQARAIMKAYKPDVVLGMGGYVSGPGGLAAWSLGIPVVLHEQNGIAGLTNKWLAKIATKVMQAFPGAFPNAEVVGNPVRTDVLALPLPQQRLAGREGPVRVLVVGGSQGARILNQTMPQVAAKLGDSVTIWHQSGKGSQQSVEQAYAEAGQPQHKVTEFIDDMAAAYAWADVVVCRSGALTVSEIAAAGLPALFVPFQHKDRQQYWNALPLEKAGAAKIIEQPQLSVDAVANTLAGWSRETLLTMAERARAASIPDATERVANEVSRVARA" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"NACMURLALAAMI1-MONOMER" "N-acetylmuramoyl-L-alanine amidase A" ["YfeE", "AmiA"] "MSTFKPLKTLTSRRQVLKAGLAALTLSGMSQAIAKDELLKTSNGHSKPKAKKSGGKRVVVLDPGHGGIDTGAIGRNGSKEKHVVLAIAKNVRSILRNHGIDARLTRSGDTFIPLYDRVEIAHKHGADLFMSIHADGFTNPKAAGASVFALSNRGASSAMAKYLSERENRADEVAGKKATDKDHLLQQVLFDLVQTDTIKNSLTLGSHILKKIKPVHKLHSRNTEQAAFVVLKSPSVPSVLVETSFITNPEEERLLGTAAFRQKIATAIAEGVISYFHWFDNQKAHSKKR" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"NACMURLALAAMI2-MONOMER" "N-acetylmuramoyl-L-alanine amidase B" ["YjeD", "AmiB", "N-acetylmuramoyl-L-alanine amidase 2"] "MMYRIRNWLVATLLLLCTPVGAATLSDIQVSNGNQQARITLSFIGDPDYAFSHQSKRTVALDIKQTGVIQGLPLLFSGNNLVKAIRSGTPKDAQTLRLVVDLTENGKTEAVKRQNGSNYTVVFTINADVPPPPPPPPVVAKRVETPAVVAPRVSEPARNPFKTESNRTTGVISSNTVTRPAARATANTGDKIIIAIDAGHGGQDPGAIGPGGTREKNVTIAIARKLRTLLNDDPMFKGVLTRDGDYFISVMGRSDVARKQNANFLVSIHADAAPNRSATGASVWVLSNRRANSEMASWLEQHEKQSELLGGAGDVLANSQSDPYLSQAVLDLQFGHSQRVGYDVATSMISQLQRIGEIHKRRPEHASLGVLRSPDIPSVLVETGFISNNSEERLLASDDYQQQLAEAIYKGLRNYFLAHPMQSAPQGATAQTASTVTTPDRTLPN" [] ["CCO-PERI-BAC"] +"NAD-SYNTH-MONOMER" "NH3-dependent NAD+ synthetase" ["Efg", "NtrL", "NadE"] "MTLQQQIIKALGAKPQINAEEEIRRSVDFLKSYLQTYPFIKSLVLGISGGQDSTLAGKLCQMAINELRLETGNESLQFIAVRLPYGVQADEQDCQDAIAFIQPDRVLTVNIKGAVLASEQALREAGIELSDFVRGNEKARERMKAQYSIAGMTSGVVVGTDHAAEAITGFFTKYGDGGTDINPLYRLNKRQGKQLLAALACPEHLYKKAPTADLEDDRPSLPDEVALGVTYDNIDDYLEGKNVPQQVARTIENWYLKTEHKRRPPITVFDDFWKK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"NADH-DHII-MONOMER" "NADH:quinone oxidoreductase II" ["Ndh", "NDH-2", "NADH dhII", "NADH dehydrogenase II", "NQR", "NADH-quinone reductase"] "MTTPLKKIVIVGGGAGGLEMATQLGHKLGRKKKAKITLVDRNHSHLWKPLLHEVATGSLDEGVDALSYLAHARNHGFQFQLGSVIDIDREAKTITIAELRDEKGELLVPERKIAYDTLVMALGSTSNDFNTPGVKENCIFLDNPHQARRFHQEMLNLFLKYSANLGANGKVNIAIVGGGATGVELSAELHNAVKQLHSYGYKGLTNEALNVTLVEAGERILPALPPRISAAAHNELTKLGVRVLTQTMVTSADEGGLHTKDGEYIEADLMVWAAGIKAPDFLKDIGGLETNRINQLVVEPTLQTTRDPDIYAIGDCASCPRPEGGFVPPRAQAAHQMATCAMNNILAQMNGKPLKNYQYKDHGSLVSLSNFSTVGSLMGNLTRGSMMIEGRIARFVYISLYRMHQIALHGYFKTGLMMLVGSINRVIRPRLKLH" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"NAG1P-URIDYLTRANS-MONOMER" "fused N-acetylglucosamine-1-phosphate uridyltransferase and glucosamine-1-phosphate acetyltransferase" ["YieA", "GlmU"] "MLNNAMSVVILAAGKGTRMYSDLPKVLHTLAGKAMVQHVIDAANELGAAHVHLVYGHGGDLLKQALKDDNLNWVLQAEQLGTGHAMQQAAPFFADDEDILMLYGDVPLISVETLQRLRDAKPQGGIGLLTVKLDDPTGYGRITRENGKVTGIVEHKDATDEQRQIQEINTGILIANGADMKRWLAKLTNNNAQGEYYITDIIALAYQEGREIVAVHPQRLSEVEGVNNRLQLSRLERVYQSEQAEKLLLAGVMLRDPARFDLRGTLTHGRDVEIDTNVIIEGNVTLGHRVKIGTGCVIKNSVIGDDCEISPYTVVEDANLAAACTIGPFARLRPGAELLEGAHVGNFVEMKKARLGKGSKAGHLTYLGDAEIGDNVNIGAGTITCNYDGANKFKTIIGDDVFVGSDTQLVAPVTVGKGATIAAGTTVTRNVGENALAISRVPQTQKEGWRRPVKKK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"NAG6PDEACET-MONOMER" "N-acetylglucosamine-6-phosphate deacetylase" ["NagA"] "MYALTQGRIFTGHEFLDDHAVVIADGLIKSVCPVAELPPEIEQRSLNGAILSPGFIDVQLNGCGGVQFNDTAEAVSVETLEIMQKANEKSGCTNYLPTLITTSDELMKQGVRVMREYLAKHPNQALGLHLEGPWLNLVKKGTHNPNFVRKPDAALVDFLCENADVITKVTLAPEMVPAEVISKLANAGIVVSAGHSNATLKEAKAGFRAGITFATHLYNAMPYITGREPGLAGAILDEADIYCGIIADGLHVDYANIRNAKRLKGDKLCLVTDATAPAGANIEQFIFAGKTIYYRNGLCVDENGTLSGSSLTMIEGVRNLVEHCGIALDEVLRMATLYPARAIGVEKRLGTLAAGKVANLTAFTPDFKITKTIVNGNEVVTQ" [] ["CCO-CYTOSOL"] +"NAGE-MONOMER" "N-acetylglucosamine-specific PTS enzyme IIABC component" ["PtsN", "PstN", "NagE"] "MNILGFFQRLGRALQLPIAVLPVAALLLRFGQPDLLNVAFIAQAGGAIFDNLALIFAIGVASSWSKDSAGAAALAGAVGYFVLTKAMVTINPEINMGVLAGIITGLVGGAAYNRWSDIKLPDFLSFFGGKRFVPIATGFFCLVLAAIFGYVWPPVQHAIHAGGEWIVSAGALGSGIFGFINRLLIPTGLHQVLNTIAWFQIGEFTNAAGTVFHGDINRFYAGDGTAGMFMSGFFPIMMFGLPGAALAMYFAAPKERRPMVGGMLLSVAVTAFLTGVTEPLEFLFMFLAPLLYLLHALLTGISLFVATLLGIHAGFSFSAGAIDYALMYNLPAASQNVWMLLVMGVIFFAIYFVVFSLVIRMFNLKTPGREDKEDEIVTEEANSNTEEGLTQLATNYIAAVGGTDNLKAIDACITRLRLTVADSARVNDTMCKRLGASGVVKLNKQTIQVIVGAKAESIGDAMKKVVARGPVAAASAEATPATAAPVAKPQAVPNAVSIAELVSPITGDVVALDQVPDEAFASKAVGDGVAVKPTDKIVVSPAAGTIVKIFNTNHAFCLETEKGAEIVVHMGIDTVALEGKGFKRLVEEGAQVSAGQPILEMDLDYLNANARSMISPVVCSNIDDFSGLIIKAQGHIVAGQTPLYEIKK" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"NANE-MONOMER" "putative N-acetylmannosamine-6-phosphate epimerase" ["YhcJ", "NanE"] "MSLLAQLDQKIAANGGLIVSCQPVPDSPLDKPEIVAAMALAAEQAGAVAIRIEGVANLQATRAVVSVPIIGIVKRDLEDSPVRITAYIEDVDALAQAGADIIAIDGTDRPRPVPVETLLARIHHHGLLAMTDCSTPEDGLACQKLGAEIIGTTLSGYTTPETPEEPDLALVKTLSDAGCRVIAEGRYNTPAQAADAMRHGAWAVTVGSAITRLEHICQWYNTAMKKAVL" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"NANK-MONOMER" "N-acetylmannosamine kinase" ["YhcI", "NanK"] "MTTLAIDIGGTKLAAALIGADGQIRDRRELPTPASQTPEALRDALSALVSPLQAHAQRVAIASTGIIRDGSLLALNPHNLGGLLHFPLVKTLEQLTNLPTIAINDAQAAAWAEFQALDGDITDMVFITVSTGVGGGVVSGCKLLTGPGGLAGHIGHTLADPHGPVCGCGRTGCVEAIASGRGIAAAAQGELAGADAKTIFTRAGQGDEQAQQLIHRSARTLARLIADIKATTDCQCVVVGGSVGLAEGYLALVETYLAQEPAAFHVDLLAAHYRHDAGLLGAALLAQGEKL" [] ["CCO-CYTOSOL"] +"NANT-MONOMER" "N-acetylneuraminate:H+ symporter" ["NanT", "sialic acid transporter NanT"] "MSTTTQNIPWYRHLNRAQWRAFSAAWLGYLLDGFDFVLIALVLTEVQGEFGLTTVQAASLISAAFISRWFGGLMLGAMGDRYGRRLAMVTSIVLFSAGTLACGFAPGYITMFIARLVIGMGMAGEYGSSATYVIESWPKHLRNKASGFLISGFSVGAVVAAQVYSLVVPVWGWRALFFIGILPIIFALWLRKNIPEAEDWKEKHAGKAPVRTMVDILYRGEHRIANIVMTLAAATALWFCFAGNLQNAAIVAVLGLLCAAIFISFMVQSAGKRWPTGVMLMVVVLFAFLYSWPIQALLPTYLKTDLAYNPHTVANVLFFSGFGAAVGCCVGGFLGDWLGTRKAYVCSLLASQLLIIPVFAIGGANVWVLGLLLFFQQMLGQGIAGILPKLIGGYFDTDQRAAGLGFTYNVGALGGALAPIIGALIAQRLDLGTALASLSFSLTFVVILLIGLDMPSRVQRWLRPEALRTHDAIDGKPFSGAVPFGSAKNDLVKTKS" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"NAPA-MONOMER" "periplasmic nitrate reductase subunit NapA" ["YojE", "YojC", "YojD", "NapA", "large subunit of periplasmic nitrate reductase, molybdoprotein"] "MKLSRRSFMKANAVAAAAAAAGLSVPGVARAVVGQQEAIKWDKAPCRFCGTGCGVLVGTQQGRVVACQGDPDAPVNRGLNCIKGYFLPKIMYGKDRLTQPLLRMKNGKYDKEGEFTPITWDQAFDVMEEKFKTALKEKGPESIGMFGSGQWTIWEGYAASKLFKAGFRSNNIDPNARHCMASAVVGFMRTFGMDEPMGCYDDIEQADAFVLWGANMAEMHPILWSRITNRRLSNQNVTVAVLSTYQHRSFELADNGIIFTPQSDLVILNYIANYIIQNNAINQDFFSKHVNLRKGATDIGYGLRPTHPLEKAAKNPGSDASEPMSFEDYKAFVAEYTLEKTAEMTGVPKDQLEQLAQLYADPNKKVISYWTMGFNQHTRGVWANNLVYNLHLLTGKISQPGCGPFSLTGQPSACGTAREVGTFAHRLPADMVVTNEKHRDICEKKWNIPSGTIPAKIGLHAVAQDRALKDGKLNVYWTMCTNNMQAGPNINEERMPGWRDPRNFIIVSDPYPTVSALAADLILPTAMWVEKEGAYGNAERRTQFWRQQVQAPGEAKSDLWQLVQFSRRFKTEEVWPEDLLAKKPELRGKTLYEVLYATPEVSKFPVSELAEDQLNDESRELGFYLQKGLFEEYAWFGRGHGHDLAPFDDYHKARGLRWPVVNGKETQWRYSEGNDPYVKAGEGYKFYGKPDGKAVIFALPFEPAAEAPDEEYDLWLSTGRVLEHWHTGSMTRRVPELHRAFPEAVLFIHPLDAKARDLRRGDKVKVVSRRGEVISIVETRGRNRPPQGLVYMPFFDAAQLVNKLTLDATDPLSKETDFKKCAVKLEKV" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"NAPB-MONOMER" "periplasmic nitrate reductase cytochrome c550 protein" ["YejY", "NapB", "cytochrome c-type protein"] "MKSHDLKKALCQWTAMLALVVSGAVWAANGVDFSQSPEVSGTQEGAIRMPKEQDRMPLNYVNQPPMIPHSVEGYQVTTNTNRCLQCHGVESYRTTGAPRISPTHFMDSDGKVGAEVAPRRYFCLQCHVPQADTAPIVGNTFTPSKGYGK" [] ["CCO-PERI-BAC"] +"NAPC-MONOMER" "periplasmic nitrate reductase cytochrome c protein" ["YejX", "NapC", "cytochrome c-type protein"] "MGNSDRKPGLIKRLWKWWRTPSRLALGTLLLIGFVGGIVFWGGFNTGMEKANTEEFCISCHEMRNTVYQEYMDSVHYNNRSGVRATCPDCHVPHEFVPKMIRKLKASKELYGKIFGVIDTPQKFEAHRLTMAQNEWRRMKDNNSQECRNCHNFEYMDTTAQKSVAAKMHDQAVKDGQTCIDCHKGIAHKLPDMREVEPGF" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"NAPD-MONOMER" "NapA signal peptide-binding chaperone NapD" ["YojF", "NapD", "signal peptide-binding chaperone for NapA"] "MHTNWQVCSLVVQAKSERISDISTQLNAFPGCEVAVSDAPSGQLIVVVEAEDSETLIQTIESVRNVEGVLAVSLVYHQQEEQGEETP" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"NAPF-MONOMER" "ferredoxin-type protein" ["YojG", "NapF"] "MKIDASRRGILTGRWRKASNGIRPPWSGDESHFLTHCTRCDACINACENNILQRGAGGYPSVNFKNNECSFCYACAQACPESLFSPRHTRAWDLQFTIGDACLAYQSVECRRCQDSCEPMAIIFRPTLSGIYQPQLNSQLCNGCGACAASCPVSAITAEYLHAH" ["CCO-CYTOSOL"] ["CCO-PERI-BAC", "CCO-CYTOSOL"] +"NAPG-MONOMER" "ferredoxin-type protein NapG" ["YojB", "YojA", "NapG"] "MSRSAKPQNGRRRFLRDVVRTAGGLAAVGVALGLQQQTARASGVRLRPPGAINENAFASACVRCGQCVQACPYDTLKLATLASGLSAGTPYFVARDIPCEMCEDIPCAKVCPSGALDREIESIDDARMGLAVLVDQENCLNFQGLRCDVCYRECPKIDEAITLELERNTRTGKHARFLPTVHSDACTGCGKCEKVCVLEQPAIKVLPLSLAKGELGHHYRFGWLEGNNGKS" [] ["CCO-CYTOSOL", "CCO-PM-BAC-NEG", "CCO-PERI-BAC"] +"NAPH-MONOMER" "ferredoxin-type protein NapH" ["YejZ", "NapH"] "MANRKRDAGREALEKKGWWRSHRWLVLRRLCQFFVLGMFLSGPWFGVWILHGNYSSSLLFDTVPLTDPLMTLQSLASGHLPATVALTGAVIITVLYALAGKRLFCSWVCPLNPITDLANWLRRRFDLNQSATIPRHIRYVLLVVILVGSALTGTLIWEWINPVSLMGRSLVMGFGSGALLILALFLFDLLVVEHGWCGHICPVGALYGVLGSKGVITVAATDRQKCNRCMDCFHVCPEPHVLRAPVLDEQSPVQVTSRDCMTCGRCVDVCSEDVFTITTRWSSGAKS" ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"NAPHTHOATE-SYN-MONOMER" "1,4-dihydroxy-2-naphthoyl-CoA synthase" ["MenB"] "MIYPDEAMLYAPVEWHDCSEGFEDIRYEKSTDGIAKITINRPQVRNAFRPLTVKEMIQALADARYDDNIGVIILTGAGDKAFCSGGDQKVRGDYGGYKDDSGVHHLNVLDFQRQIRTCPKPVVAMVAGYSIGGGHVLHMMCDLTIAADNAIFGQTGPKVGSFDGGWGASYMARIVGQKKAREIWFLCRQYDAKQALDMGLVNTVVPLADLEKETVRWCREMLQNSPMALRCLKAALNADCDGQAGLQELAGNATMLFYMTEEGQEGRNAFNQKRQPDFSKFKRNP" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"NARG-MONOMER" "nitrate reductase A subunit α" ["ChlC", "NarC", "NarG"] "MSKFLDRFRYFKQKGETFADGHGQLLNTNRDWEDGYRQRWQHDKIVRSTHGVNCTGSCSWKIYVKNGLVTWETQQTDYPRTRPDLPNHEPRGCPRGASYSWYLYSANRLKYPMMRKRLMKMWREAKALHSDPVEAWASIIEDADKAKSFKQARGRGGFVRSSWQEVNELIAASNVYTIKNYGPDRVAGFSPIPAMSMVSYASGARYLSLIGGTCLSFYDWYCDLPPASPQTWGEQTDVPESADWYNSSYIIAWGSNVPQTRTPDAHFFTEVRYKGTKTVAVTPDYAEIAKLCDLWLAPKQGTDAAMALAMGHVMLREFHLDNPSQYFTDYVRRYTDMPMLVMLEERDGYYAAGRMLRAADLVDALGQENNPEWKTVAFNTNGEMVAPNGSIGFRWGEKGKWNLEQRDGKTGEETELQLSLLGSQDEIAEVGFPYFGGDGTEHFNKVELENVLLHKLPVKRLQLADGSTALVTTVYDLTLANYGLERGLNDVNCATSYDDVKAYTPAWAEQITGVSRSQIIRIAREFADNADKTHGRSMIIVGAGLNHWYHLDMNYRGLINMLIFCGCVGQSGGGWAHYVGQEKLRPQTGWQPLAFALDWQRPARHMNSTSYFYNHSSQWRYETVTAEELLSPMADKSRYTGHLIDFNVRAERMGWLPSAPQLGTNPLTIAGEAEKAGMNPVDYTVKSLKEGSIRFAAEQPENGKNHPRNLFIWRSNLLGSSGKGHEFMLKYLLGTEHGIQGKDLGQQGGVKPEEVDWQDNGLEGKLDLVVTLDFRLSSTCLYSDIILPTATWYEKDDMNTSDMHPFIHPLSAAVDPAWEAKSDWEIYKAIAKKFSEVCVGHLGKETDIVTLPIQHDSAAELAQPLDVKDWKKGECDLIPGKTAPHIMVVERDYPATYERFTSIGPLMEKIGNGGKGIAWNTQSEMDLLRKLNYTKAEGPAKGQPMLNTAIDAAEMILTLAPETNGQVAVKAWAALSEFTGRDHTHLALNKEDEKIRFRDIQAQPRKIISSPTWSGLEDEHVSYNAGYTNVHELIPWRTLSGRQQLYQDHQWMRDFGESLLVYRPPIDTRSVKEVIGQKSNGNQEKALNFLTPHQKWGIHSTYSDNLLMLTLGRGGPVVWLSEADAKDLGIADNDWIEVFNSNGALTARAVVSQRVPAGMTMMYHAQERIVNLPGSEITQQRGGIHNSVTRITPKPTHMIGGYAHLAYGFNYYGTVGSNRDEFVVVRKMKNIDWLDGEGNDQVQESVK" ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"NARH-MONOMER" "nitrate reductase A subunit β" ["ChlC", "NarH"] "MKIRSQVGMVLNLDKCIGCHTCSVTCKNVWTSREGVEYAWFNNVETKPGQGFPTDWENQEKYKGGWIRKINGKLQPRMGNRAMLLGKIFANPHLPGIDDYYEPFDFDYQNLHTAPEGSKSQPIARPRSLITGERMAKIEKGPNWEDDLGGEFDKLAKDKNFDNIQKAMYSQFENTFMMYLPRLCEHCLNPACVATCPSGAIYKREEDGIVLIDQDKCRGWRMCITGCPYKKIYFNWKSGKSEKCIFCYPRIEAGQPTVCSETCVGRIRYLGVLLYDADAIERAASTENEKDLYQRQLDVFLDPNDPKVIEQAIKDGIPLSVIEAAQQSPVYKMAMEWKLALPLHPEYRTLPMVWYVPPLSPIQSAADAGELGSNGILPDVESLRIPVQYLANLLTAGDTKPVLRALKRMLAMRHYKRAETVDGKVDTRALEEVGLTEAQAQEMYRYLAIANYEDRFVVPSSHRELAREAFPEKNGCGFTFGDGCHGSDTKFNLFNSRRIDAIDVTSKTEPHP" ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"NARI-MONOMER" "nitrate reductase A subunit γ" ["ChlI", "NarI"] "MQFLNMFFFDIYPYIAGAVFLIGSWLRYDYGQYTWRAASSQMLDRKGMNLASNLFHIGILGIFVGHFFGMLTPHWMYEAWLPIEVKQKMAMFAGGASGVLCLIGGVLLLKRRLFSPRVRATTTGADILILSLLVIQCALGLLTIPFSAQHMDGSEMMKLVGWAQSVVTFHGGASQHLDGVAFIFRLHLVLGMTLFLLFPFSRLIHIWSVPVEYLTRKYQLVRARH" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"NARJ-MONOMER" "nitrate reductase 1 molybdenum cofactor assembly chaperone" ["NarJ", "molybdenum cofactor assembly chaperone subunit (δ subunit) of nitrate reductase 1"] "MIELVIVSRLLEYPDAALWQHQQEMFEAIAASKNLPKEDAHALGIFLRDLTTMDPLDAQAQYSELFDRGRATSLLLFEHVHGESRDRGQAMVDLLAQYEQHGLQLNSRELPDHLPLYLEYLAQLPQSEAVEGLKDIAPILALLSARLQQRESRYAVLFDLLLKLANTAIDSDKVAEKIADEARDDTPQALDAVWEEEQVKFFADKGCGDSAITAHQRRFAGAVAPQYLNITTGGQH" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"NARK-MONOMER" "nitrate:nitrite antiporter NarK" ["NarK"] "MSHSSAPERATGAVITDWRPEDPAFWQQRGQRIASRNLWISVPCLLLAFCVWMLFSAVAVNLPKVGFNFTTDQLFMLTALPSVSGALLRVPYSFMVPIFGGRRWTAFSTGILIIPCVWLGFAVQDTSTPYSVFIIISLLCGFAGANFASSMANISFFFPKQKQGGALGLNGGLGNMGVSVMQLVAPLVVSLSIFAVFGSQGVKQPDGTELYLANASWIWVPFLAIFTIAAWFGMNDLATSKASIKEQLPVLKRGHLWIMSLLYLATFGSFIGFSAGFAMLSKTQFPDVQILQYAFFGPFIGALARSAGGALSDRLGGTRVTLVNFILMAIFSGLLFLTLPTDGQGGSFMAFFAVFLALFLTAGLGSGSTFQMISVIFRKLTMDRVKAEGGSDERAMREAATDTAAALGFISAIGAIGGFFIPKAFGSSLALTGSPVGAMKVFLIFYIACVVITWAVYGRHSKK" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"NARL-MONOMER" "DNA-binding transcriptional dual regulator NarL" ["NarR", "NarL", "nitrate/nitrite response regulator NarL", "FrdR"] "MSNQEPATILLIDDHPMLRTGVKQLISMAPDITVVGEASNGEQGIELAESLDPDLILLDLNMPGMNGLETLDKLREKSLSGRIVVFSVSNHEEDVVTALKRGADGYLLKDMEPEDLLKALHQAAAGEMVLSEALTPVLAASLRANRATTERDVNQLTPRERDILKLIAQGLPNKMIARRLDITESTVKVHVKHMLKKMKLKSRVEAAVWVHQERIF" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"NARP-MONOMER" "DNA-binding transcriptional dual regulator NarP" ["NarP", "nitrate/nitrite response regulator NarP"] "MPEATPFQVMIVDDHPLMRRGVRQLLELDPGSEVVAEAGDGASAIDLANRLDIDVILLDLNMKGMSGLDTLNALRRDGVTAQIIILTVSDASSDVFALIDAGADGYLLKDSDPEVLLEAIRAGAKGSKVFSERVNQYLREREMFGAEEDPFSVLTERELDVLHELAQGLSNKQIASVLNISEQTVKVHIRNLLRKLNVRSRVAATILFLQQRGAQ" [] ["CCO-CYTOSOL"] +"NARQ-MONOMER" "sensory histidine kinase NarQ" ["nitrate/nitrite sensor kinase", "NarQ"] "MIVKRPVSASLARAFFYIVLLSILSTGIALLTLASSLRDAEAINIAGSLRMQSYRLGYDLQSGSPQLNAHRQLFQQALHSPVLTNLNVWYVPEAVKTRYAHLNANWLEMNNRLSKGDLPWYQANINNYVNQIDLFVLALQHYAERKMLLVVAISLAGGIGIFTLVFFTLRRIRHQVVAPLNQLVTASQRIEHGQFDSPPLDTNLPNELGLLAKTFNQMSSELHKLYRSLEASVEEKTRDLHEAKRRLEVLYQCSQALNTSQIDVHCFRHILQIVRDNEAAEYLELNVGENWRISEGQPNPELPMQILPVTMQETVYGELHWQNSHVSSSEPLLNSVSSMLGRGLYFNQAQKHFQQLLLMEERATIARELHDSLAQVLSYLRIQLTLLKRSIPEDNATAQSIMADFSQALNDAYRQLRELLTTFRLTLQQADLPSALREMLDTLQNQTSAKLTLDCRLPTLALDAQMQVHLLQIIREAVLNAMKHANASEIAVSCVTAPDGNHTVYIRDNGIGIGEPKEPEGHYGLNIMRERAERLGGTLTFSQPSGGGTLVSISFRSAEGEESQLM" ["CCO-PM-BAC-NEG"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"NARU-MONOMER" "nitrate/nitrite transporter NarU" ["YddF", "NarU", "NarU MFS nitrate/nitrite antiporter"] "MALQNEKNSRYLLRDWKPENPAFWENKGKHIARRNLWISVSCLLLAFCVWMLFSAVTVNLNKIGFNFTTDQLFLLTALPSVSGALLRVPYSFMVPIFGGRRWTVFSTAILIIPCVWLGIAVQNPNTPFGIFIVIALLCGFAGANFASSMGNISFFFPKAKQGSALGINGGLGNLGVSVMQLVAPLVIFVPVFAFLGVNGVPQADGSVMSLANAAWIWVPLLAIATIAAWSGMNDIASSRASIADQLPVLQRLHLWLLSLLYLATFGSFIGFSAGFAMLAKTQFPDVNILRLAFFGPFIGAIARSVGGAISDKFGGVRVTLINFIFMAIFSALLFLTLPGTGSGNFIAFYAVFMGLFLTAGLGSGSTFQMIAVIFRQITIYRVKMKGGSDEQAHKEAVTETAAALGFISAIGAVGGFFIPQAFGMSLNMTGSPVGAMKVFLIFYIVCVLLTWLVYGRRKFSQK" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"NARV-MONOMER" "nitrate reductase Z subunit γ" ["ChlZ", "NarV"] "MIQYLNVFFYDIYPYICATVFFLGSWLRYDYGQYTWRASSSQMLDKRGMVIWSNLFHIGILGIFFGHLFGMLTPHWMYAWFLPVAAKQLMAMVLGGICGVLTLIGGAGLLWRRLTNQRVRATSTTPDIIIMSILLIQCLLGLSTIPFSAQYPDGSEMMKLVGWAQSIVTFRGGSSEMLNGVAFVFRLHLVLGMTIFLLFPFTRLVHVWSAPFEYFTRRYQIVRSRR" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"NARW-MONOMER" "NarW, putative private chaperone for NarZ nitrate reductase subunit" ["ChlZ", "NarW"] "MQILKVIGLLMEYPDELLWECKEDALALIRRDAPMLTDFTHNLLNAPLLDKQAEWCEVFDRGRTTSLLLFEHVHAESRDRGQAMVDLLAEYEKVGLQLDCRELPDYLPLYLEYLSVLPDDQAKEGLLNVAPILALLGGRLKQREAPWYALFDALLQLAGSSLSSDSVTKQVNSEERDDTRQALDAVWEEEQVKFIEDNATACDSSPLNQYQRRFSQDVAPQYVDISAGGGK" [] ["CCO-CYTOSOL"] +"NARX-MONOMER" "sensory histidine kinase NarX" ["NarR", "FrdR", "NarX"] "MLKRCLSPLTLVNQVALIVLLSTAIGLAGMAVSGWLVQGVQGSAHAINKAGSLRMQSYRLLAAVPLSEKDKPLIKEMEQTAFSAELTRAAERDGQLAQLQGLQDYWRNELIPALMRAQNRETVSADVSQFVAGLDQLVSGFDRTTEMRIETVVLVHRVMAVFMALLLVFTIIWLRARLLQPWRQLLAMASAVSHRDFTQRANISGRNEMAMLGTALNNMSAELAESYAVLEQRVQEKTAGLEHKNQILSFLWQANRRLHSRAPLCERLSPVLNGLQNLTLLRDIELRVYDTDDEENHQEFTCQPDMTCDDKGCQLCPRGVLPVGDRGTTLKWRLADSHTQYGILLATLPQGRHLSHDQQQLVDTLVEQLTATLALDRHQERQQQLIVMEERATIARELHDSIAQSLSCMKMQVSCLQMQGDALPESSRELLSQIRNELNASWAQLRELLTTFRLQLTEPGLRPALEASCEEYSAKFGFPVKLDYQLPPRLVPSHQAIHLLQIAREALSNALKHSQASEVVVTVAQNDNQVKLTVQDNGCGVPENAIRSNHYGMIIMRDRAQSLRGDCRVRRRESGGTEVVVTFIPEKTFTDVQGDTHE" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PERI-BAC", "CCO-PM-BAC-NEG"] +"NARY-MONOMER" "nitrate reductase Z subunit β" ["ChlZ", "NarY"] "MKIRSQVGMVLNLDKCIGCHTCSVTCKNVWTGREGMEYAWFNNVETKPGIGYPKNWEDQEEWQGGWVRDVNGKIRPRLGNKMGVITKIFANPVVPQIDDYYEPFTFDYEHLHSAPEGKHIPTARPRSLIDGKRMDKVIWGPNWEELLGGEFEKRARDRNFEAMQKEMYGQFENTFMMYLPRLCEHCLNPSCVATCPSGAIYKREEDGIVLIDQDKCRGWRLCISGCPYKKIYFNWKSGKSEKCIFCYPRIESGQPTVCSETCVGRIRYLGVLLYDADRIEEAASTEREVDLYERQCEVFLDPHDPSVIEEALKQGIPQNVIDAAQRSPVYKMAMDWKLALPLHPEYRTLPMVWYVPPLSPIQSYADAGGLPKSEGVLPAIESLRIPVQYLANMLSAGDTGPVLRALKRMMAMRHYMRSQTVEGVTDTRAIDEVGLSVAQVEEMYRYLAIANYEDRFVIPTSHREMAGDAFAERNGCGFTFGDGCHGSDSKFNLFNSSRIDAINITEVRDKAEGE" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE", "CCO-CYTOSOL"] +"NARZ-MONOMER" "nitrate reductase Z subunit α" ["ChlZ", "NarZ"] "MSKLLDRFRYFKQKGETFADGHGQVMHSNRDWEDSYRQRWQFDKIVRSTHGVNCTGSCSWKIYVKNGLVTWEIQQTDYPRTRPDLPNHEPRGCPRGASYSWYLYSANRLKYPLIRKRLIELWREALKQHSDPVLAWASIMNDPQKCLSYKQVRGRGGFIRSNWQELNQLIAAANVWTIKTYGPDRVAGFSPIPAMSMVSYAAGTRYLSLLGGTCLSFYDWYCDLPPASPMTWGEQTDVPESADWYNSSYIIAWGSNVPQTRTPDAHFFTEVRYKGTKTIAITPDYSEVAKLCDQWLAPKQGTDSALAMAMGHVILKEFHLDNPSDYFINYCRRYSDMPMLVMLEPRDDGSYVPGRMIRASDLVDGLGESNNPQWKTVAVNTAGELVVPNGSIGFRWGEKGKWNLESIAAGTETELSLTLLGQHDAVAGVAFPYFGGIENPHFRSVKHNPVLVRQLPVKNLTLVDGNTCPVVSVYDLVLANYGLDRGLEDENSAKDYAEIKPYTPAWGEQITGVPRQYIETIAREFADTAHKTHGRSMIILGAGVNHWYHMDMNYRGMINMLIFCGCVGQSGGGWAHYVGQEKLRPQTGWLPLAFALDWNRPPRQMNSTSFFYNHSSQWRYEKVSAQELLSPLADASKYSGHLIDFNVRAERMGWLPSAPQLGRNPLGIKAEADKAGLSPTEFTAQALKSGDLRMACEQPDSSSNHPRNLFVWRSNLLGSSGKGHEYMQKYLLGTESGIQGEELGASDGIKPEEVEWQTAAIEGKLDLLVTLDFRMSSTCLFSDIVLPTATWYEKDDMNTSDMHPFIHPLSAAVDPAWESRSDWEIYKGIAKAFSQVCVGHLGKETDVVLQPLLHDSPAELSQPCEVLDWRKGECDLIPGKTAPNIVAVERDYPATYERFTSLGPLMDKLGNGGKGISWNTQDEIDFLGKLNYTKRDGPAQGRPLIDTAIDASEVILALAPETNGHVAVKAWQALGEITGREHTHLALHKEDEKIRFRDIQAQPRKIISSPTWSGLESDHVSYNAGYTNVHELIPWRTLSGRQQLYQDHPWMRAFGESLVAYRPPIDTRSVSEMRQIPPNGFPEKALNFLTPHQKWGIHSTYSENLLMLTLSRGGPIVWISETDARELTIVDNDWVEVFNANGALTARAVVSQRVPPGMTMMYHAQERIMNIPGSEVTGMRGGIHNSVTRVCPKPTHMIGGYAQLAWGFNYYGTVGSNRDEFIMIRKMKNVNWLDDEGRDQVQEAKK" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"NHAA-MONOMER" "Na+:H+ antiporter NhaA" ["AntA", "Ant", "NhaA"] "MKHLHRFFSSDASGGIILIIAAILAMIMANSGATSGWYHDFLETPVQLRVGSLEINKNMLLWINDALMAVFFLLVGLEVKRELMQGSLASLRQAAFPVIAAIGGMIVPALLYLAFNYADPITREGWAIPAATDIAFALGVLALLGSRVPLALKIFLMALAIIDDLGAIIIIALFYTNDLSMASLGVAAVAIAVLAVLNLCGARRTGVYILVGVVLWTAVLKSGVHATLAGVIVGFFIPLKEKHGRSPAKRLEHVLHPWVAYLILPLFAFANAGVSLQGVTLDGLTSILPLGIIAGLLIGKPLGISLFCWLALRLKLAHLPEGTTYQQIMVVGILCGIGFTMSIFIASLAFGSVDPELINWAKLGILVGSISSAVIGYSWLRVRLRPSV" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"NHAB-MONOMER" "Na+:H+ antiporter NhaB" ["NhaB"] "MEISWGRALWRNFLGQSPDWYKLALIIFLIVNPLIFLISPFVAGWLLVAEFIFTLAMALKCYPLLPGGLLAIEAVFIGMTSAEHVREEVAANLEVLLLLMFMVAGIYFMKQLLLFIFTRLLLSIRSKMLLSLSFCVAAAFLSAFLDALTVVAVVISVAVGFYGIYHRVASSRTEDTDLQDDSHIDKHYKVVLEQFRGFLRSLMMHAGVGTALGGVMTMVGEPQNLIIAKAAGWHFGDFFLRMSPVTVPVLICGLLTCLLVEKLRWFGYGETLPEKVREVLQQFDDQSRHQRTRQDKIRLIVQAIIGVWLVTALALHLAEVGLIGLSVIILATSLTGVTDEHAIGKAFTESLPFTALLTVFFSVVAVIIDQQLFSPIIQFVLQASEHAQLSLFYIFNGLLSSISDNVFVGTIYINEAKAAMESGAITLKQYELLAVAINTGTNLPSVATPNGQAAFLFLLTSALAPLIRLSYGRMVWMALPYTLVLTLVGLLCVEFTLAPVTEWFMQMGWIATL" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"NICONUCADENYLYLTRAN-MONOMER" null ["FusB", "YbeN", "NadD"] "MKSLQALFGGTFDPVHYGHLKPVETLANLIGLTRVTIIPNNVPPHRPQPEANSVQRKHMLELAIADKPLFTLDERELKRNAPSYTAQTLKEWRQEQGPDVPLAFIIGQDSLLTFPTWYEYETILDNAHLIVCRRPGYPLEMAQPQYQQWLEDHLTHNPEDLHLQPAGKIYLAETPWFNISATIIRERLQNGESCEDLLPEPVLTYINQQGLYR" [] ["CCO-CYTOSOL"] +"NICOTINAMID-MONOMER" "nicotinamidase" ["Nam", "YdjB", "PncA"] "MPPRALLLVDLQNDFCAGGALAVPEGDSTVDVANRLIDWCQSRGEAVIASQDWHPANHGSFASQHGVEPYTPGQLDGLPQTFWPDHCVQNSEGAQLHPLLHQKAIAAVFHKGENPLVDSYSAFFDNGRRQKTSLDDWLRDHEIDELIVMGLATDYCVKFTVLDALQLGYKVNVITDGCRGVNIQPQDSAHAFMEMSAAGATLYTLADWEETQG" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"NICOTINATEPRIBOSYLTRANS-MONOMER" null ["PncB"] "MTQFASPVLHSLLDTDAYKLHMQQAVFHHYYDVHVAAEFRCRGDDLLGIYADAIREQVQAMQHLRLQDDEYQWLSALPFFKADYLNWLREFRFNPEQVTVSNDNGKLDIRLSGPWREVILWEVPLLAVISEMVHRYRSPQADVAQALDTLESKLVDFSALTAGLDMSRFHLMDFGTRRRFSREVQETIVKRLQQESWFVGTSNYDLARRLSLTPMGTQAHEWFQAHQQISPDLANSQRAALAAWLEEYPDQLGIALTDCITMDAFLRDFGVEFASRYQGLRHDSGDPVEWGEKAIAHYEKLGIDPQSKTLVFSDNLDLRKAVELYRHFSSRVQLSFGIGTRLTCDIPQVKPLNIVIKLVECNGKPVAKLSDSPGKTICHDKAFVRALRKAFDLPHIKKAS" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"NIKA-MONOMER" "Ni(2+) ABC transporter periplasmic binding protein" ["NikA", "HydD", "HydC"] "MLSTLRRTLFALLACASFIVHAAAPDEITTAWPVNVGPLNPHLYTPNQMFAQSMVYEPLVKYQADGSVIPWLAKSWTHSEDGKTWTFTLRDDVKFSNGEPFDAEAAAENFRAVLDNRQRHAWLELANQIVDVKALSKTELQITLKSAYYPFLQELALPRPFRFIAPSQFKNHETMNGIKAPIGTGPWILQESKLNQYDVFVRNENYWGEKPAIKKITFNVIPDPTTRAVAFETGDIDLLYGNEGLLPLDTFARFSQNPAYHTQLSQPIETVMLALNTAKAPTNELAVREALNYAVNKKSLIDNALYGTQQVADTLFAPSVPYANLGLKPSQYDPQKAKALLEKAGWTLPAGKDIREKNGQPLRIELSFIGTDALSKSMAEIIQADMRQIGADVSLIGEEESSIYARQRDGRFGMIFHRTWGAPYDPHAFLSSMRVPSHADFQAQQGLADKPLIDKEIGEVLATHDETQRQALYRDILTRLHDEAVYLPISYISMMVVSKPELGNIPYAPIATEIPFEQIKPVKP" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"NIKB-MONOMER" "Ni(2+) ABC transporter membrane subunit NikB" ["NikB", "HydC", "HydD"] "MLRYVLRRFLLLIPMVLAASVIIFLMLRLGTGDPALDYLRLSNLPPTPEMLASTRTMLGLDQPLYVQYGTWLWKALHLDFGISFASQRPVLDDMLNFLPATLELAGAALVLILLTSVPLGIWAARHRDRLPDFAVRFIAFLGVSMPNFWLAFLLVMAFSVYLQWLPAMGYGGWQHIILPAVSIAFMSLAINARLLRASMLDVAGQRHVTWARLRGLNDKQTERRHILRNASLPMITAVGMHIGELIGGTMIIENIFAWPGVGRYAVSAIFNRDYPVIQCFTLMMVVVFVVCNLIVDLLNAALDPRIRRHEGAHA" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"NIKC-MONOMER" "Ni(2+) ABC transporter membrane subunit NikC" ["NikC", "HydC", "HydD"] "MNFFLSSRWSVRLALIIIALLALIALTSQWWLPYDPQAIDLPSRLLSPDAQHWLGTDHLGRDIFSRLMAATRVSLGSVMACLLLVLTLGLVIGGSAGLIGGRVDQATMRVADMFMTFPTSILSFFMVGVLGTGLTNVIIAIALSHWAWYARMVRSLVISLRQREFVLASRLSGAGHVRVFVDHLAGAVIPSLLVLATLDIGHMMLHVAGMSFLGLGVTAPTAEWGVMINDARQYIWTQPLQMFWPGLALFISVMAFNLVGDALRDHLDPHLVTEHAH" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"NIKD-MONOMER" "Ni(2+) ABC transporter ATP binding subunit NikD" ["NikD", "HydC", "HydD"] "MPQQIELRNIALQAAQPLVHGVSLTLQRGRVLALVGGSGSGKSLTCAATLGILPAGVRQTAGEILADGKPVSPCALRGIKIATIMQNPRSAFNPLHTMHTHARETCLALGKPADDATLTAAIEAVGLENAARVLKLYPFEMSGGMLQRMMIAMAVLCESPFIIADEPTTDLDVVAQARILDLLESIMQKQAPGMLLVTHDMGVVARLADDVAVMSDGKIVEQGDVETLFNAPKHTVTRSLVSAHLALYGMELAS" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"NIKE-MONOMER" "Ni(2+) ABC transporter ATP binding subunit NikE" ["NikE", "HydC", "HydD"] "MTLLNISGLSHHYAHGGFNGKHQHQAVLNNVSLTLKSGETVALLGRSGCGKSTLARLLVGLESPAQGNISWRGEPLAKLNRAQRKAFRRDIQMVFQDSISAVNPRKTVREILREPMRHLLSLKKSEQLARASEMLKAVDLDDSVLDKRPPQLSGGQLQRVCLARALAVEPKLLILDEAVSNLDLVLQAGVIRLLKKLQQQFGTACLFITHDLRLVERFCQRVMVMDNGQIVETQVVGEKLTFSSDAGRVLQNAVLPAFPVRRRTTEKV" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE", "CCO-CYTOSOL"] +"NIRB-MONOMER" "nitrite reductase catalytic subunit NirB" ["NirB", "nitrite reductase large subunit"] "MSKVRLAIIGNGMVGHRFIEDLLDKSDAANFDITVFCEEPRIAYDRVHLSSYFSHHTAEELSLVREGFYEKHGIKVLVGERAITINRQEKVIHSSAGRTVFYDKLIMATGSYPWIPPIKGSDTQDCFVYRTIEDLNAIESCARRSKRGAVVGGGLLGLEAAGALKNLGIETHVIEFAPMLMAEQLDQMGGEQLRRKIESMGVRVHTSKNTLEIVQEGVEARKTMRFADGSELEVDFIVFSTGIRPRDKLATQCGLDVAPRGGIVINDSCQTSDPDIYAIGECASWNNRVFGLVAPGYKMAQVAVDHILGSENAFEGADLSAKLKLLGVDVGGIGDAHGRTPGARSYVYLDESKEIYKRLIVSEDNKTLLGAVLVGDTSDYGNLLQLVLNAIELPENPDSLILPAHSGSGKPSIGVDKLPDSAQICSCFDVTKGDLIAAINKGCHTVAALKAETKAGTGCGGCIPLVTQVLNAELAKQGIEVNNNLCEHFAYSRQELFHLIRVEGIKTFEELLAKHGKGYGCEVCKPTVGSLLASCWNEYILKPEHTPLQDSNDNFLANIQKDGTYSVIPRSPGGEITPEGLMAVGRIAREFNLYTKITGSQRLAMFGAQKDDLPEIWRQLIEAGFETGHAYAKALRMAKTCVGSTWCRYGVGDSVGLGVELENRYKGIRTPHKMKFGVSGCTRECSEAQGKDVGIIATEKGWNLYVCGNGGMKPRHADLLAADIDRETLIKYLDRFMMFYIRTADKLTRTAPWLENLEGGIDYLKAVIIDDKLGLNAHLEEEMARLREAVLCEWTETVNTPSAQTRFKHFINSDKRDPNVQMVPEREQHRPATPYERIPVTLVEDNA" [] ["CCO-CYTOSOL"] +"NIRC-MONOMER" null ["NirC", "NirC nitrite FNT transporter"] "MFTDTINKCAANAARIARLSANNPLGFWVSSAMAGAYVGLGIILIFTLGNLLDPSVRPLVMGATFGIALTLVIIAGSELFTGHTMFLTFGVKAGSISHGQMWAILPQTWLGNLVGSVFVAMLYSWGGGSLLPVDTSIVHSVALAKTTAPAMVLFFKGALCNWLVCLAIWMALRTEGAAKFIAIWWCLLAFIASGYEHSIANMTLFALSWFGNHSEAYTLAGIGHNLLWVTLGNTLSGAVFMGLGYWYATPKANRPVADKFNQTETAAG" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"NIRD-MONOMER" "nitrite reductase subunit NirD" ["NirD", "nitrite reductase small subunit"] "MSQWKDICKIDDILPETGVCALLGDEQVAIFRPYHSDQVFAISNIDPFFESSVLSRGLIAEHQGELWVASPLKKQRFRLSDGLCMEDEQFSVKHYEARVKDGVVQLRG" [] ["CCO-CYTOSOL"] +"NRDA-MONOMER" "ribonucleoside-diphosphate reductase 1 subunit α" ["DnaF", "NrdA"] "MNQNLLVTKRDGSTERINLDKIHRVLDWAAEGLHNVSISQVELRSHIQFYDGIKTSDIHETIIKAAADLISRDAPDYQYLAARLAIFHLRKKAYGQFEPPALYDHVVKMVEMGKYDNHLLEDYTEEEFKQMDTFIDHDRDMTFSYAAVKQLEGKYLVQNRVTGEIYESAQFLYILVAACLFSNYPRETRLQYVKRFYDAVSTFKISLPTPIMSGVRTPTRQFSSCVLIECGDSLDSINATSSAIVKYVSQRAGIGINAGRIRALGSPIRGGEAFHTGCIPFYKHFQTAVKSCSQGGVRGGAATLFYPMWHLEVESLLVLKNNRGVEGNRVRHMDYGVQINKLMYTRLLKGEDITLFSPSDVPGLYDAFFADQEEFERLYTKYEKDDSIRKQRVKAVELFSLMMQERASTGRIYIQNVDHCNTHSPFDPAIAPVRQSNLCLEIALPTKPLNDVNDENGEIALCTLSAFNLGAINNLDELEELAILAVRALDALLDYQDYPIPAAKRGAMGRRTLGIGVINFAYYLAKHGKRYSDGSANNLTHKTFEAIQYYLLKASNELAKEQGACPWFNETTYAKGILPIDTYKKDLDTIANEPLHYDWEALRESIKTHGLRNSTLSALMPSETSSQISNATNGIEPPRGYVSIKASKDGILRQVVPDYEHLHDAYELLWEMPGNDGYLQLVGIMQKFIDQSISANTNYDPSRFPSGKVPMQQLLKDLLTAYKFGVKTLYYQNTRDGAEDAQDDLVPSIQDDGCESGACKI" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"NRDB-MONOMER" "ribonucleoside-diphosphate reductase 1 subunit β" ["FtsB", "NrdB", "ribonucleoside diphosphate reductase 1, β subunit, ferritin-like"] "MAYTTFSQTKNDQLKEPMFFGQPVNVARYDQQKYDIFEKLIEKQLSFFWRPEEVDVSRDRIDYQALPEHEKHIFISNLKYQTLLDSIQGRSPNVALLPLISIPELETWVETWAFSETIHSRSYTHIIRNIVNDPSVVFDDIVTNEQIQKRAEGISSYYDELIEMTSYWHLLGEGTHTVNGKTVTVSLRELKKKLYLCLMSVNALEAIRFYVSFACSFAFAERELMEGNAKIIRLIARDEALHLTGTQHMLNLLRSGADDPEMAEIAEECKQECYDLFVQAAQQEKDWADYLFRDGSMIGLNKDILCQYVEYITNIRMQAVGLDLPFQTRSNPIPWINTWLVSDNVQVAPQEVEVSSYLVGQIDSEVDTDDLSNFQL" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"NRDE-MONOMER" "ribonucleoside-diphosphate reductase 2 subunit α" ["NrdE"] "MATTTAECLTQETMDYHALNAMLNLYDSAGRIQFDKDRQAVDAFIATHVRPNSVTFSSQQQRLNWLVNEGYYDESVLNRYSRDFVITLFTHAHTSGFRFQTFLGAWKFYTSYTLKTFDGKRYLEDFADRVTMVALTLAQGDETLALQLTDEMLSGRFQPATPTFLNCGKQQRGELVSCFLLRIEDNMESIGRAVNSALQLSKRGGGVAFLLSNLREAGAPIKRIENQSSGVIPVMKMLEDAFSYANQLGARQGAGAVYLHAHHPDILRFLDTKRENADEKIRIKTLSLGVVIPDITFHLAKENAQMALFSPYDVERVYGKPFADVAISQHYDELVADERIRKKYLNARDFFQRLAEIQFESGYPYIMYEDTVNRANPIAGRINMSNLCSEILQVNSASEYDENLDYTRTGHDISCNLGSLNIAHTMDSPDFARTVETAVRGLTAVSDMSHIRSVPSIEAGNAASHAIGLGQMNLHGYLAREGIAYGSPEALDFTNLYFYAITWHALRTSMLLARERGETFAGFKQSRYASGEYFSQYLQGNWQPKTAKVGELFTRSGITLPTREMWAQLRDDVMRYGIYNQNLQAVPPTGSISYINHATSSIHPIVAKVEIRKEGKTGRVYYPAPFMTNENLALYQDAYEIGAEKIIDTYAEATRHVDQGLSLTLFFPDTATTRDINKAQIYAWRKGIKTLYYIRLRQMALEGTEIEGCVSCAL" [] ["CCO-CYTOSOL"] +"NRDF-MONOMER" "ribonucleoside-diphosphate reductase 2 subunit β" ["YgaD", "NrdF"] "MKLSRISAINWNKISDDKDLEVWNRLTSNFWLPEKVPLSNDIPAWQTLTVVEQQLTMRVFTGLTLLDTLQNVIGAPSLMPDALTPHEEAVLSNISFMEAVHARSYSSIFSTLCQTKDVDAAYAWSEENAPLQRKAQIIQQHYRGDDPLKKKIASVFLESFLFYSGFWLPMYFSSRGKLTNTADLIRLIIRDEAVHGYYIGYKYQKNMEKISLGQREELKSFAFDLLLELYDNELQYTDELYAETPWADDVKAFLCYNANKALMNLGYEPLFPAEMAEVNPAILAALSPNADENHDFFSGSGSSYVMGKAVETEDEDWNF" [] ["CCO-CYTOSOL"] +"NRFC-MONOMER" "putative menaquinol-cytochrome c reductase 4Fe-4S subunit" ["YjcJ", "NrfC"] "MTWSRRQFLTGVGVLAAVSGTAGRVVAKTLNINGVRYGMVHDESLCIGCTACMDACREVNKVPEGVSRLTIIRSEPQGEFPDVKYRFFRKSCQHCDHAPCVDVCPTGASFRDAASGIVDVNPDLCVGCQYCIAACPYRVRFIHPVTKTADKCDFCRKTNLQAGKLPACVEACPTKALTFGNLDDPNSEISQLLRQKPTYRYKLALGTKPKLYRVPFKYGEVSQ" [] ["CCO-CYTOSOL", "CCO-PM-BAC-NEG"] +"NRFD-MONOMER" "putative menaquinol-cytochrome c reductase subunit NrfD" ["YjcK", "NrfD"] "MTQTSAFHFESLVWDWPIAIYLFLIGISAGLVTLAVLLRRFYPQAGGADSTLLRTTLIVGPGAVILGLLILVFHLTRPWTFWKLMFHYSFTSVMSMGVMLFQLYMVVLVLWLAKIFEHDLLALQQRWLPKLGIVQKVLSLLTPVHRGLETLMLVLAVLLGAYTGFLLSALKSYPFLNNPILPVLFLFSGISSGAAVALIAMAIRQRSNPHSTEAQFVHRMEIPVVWGEIFLLVAFFVGLALGDDGKVRALVAALGGGFWTWWFWLGVAGLGLIVPMLLKPWVNRSSGIPAVLAACGASLVGVLMLRFFILYAGQLTVA" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"NUCLEOSIDE-DIP-KIN-MONOMER" "nucleoside diphosphate kinase" ["Ndk"] "MAIERTFSIIKPNAVAKNVIGNIFARFEAAGFKIVGTKMLHLTVEQARGFYAEHDGKPFFDGLVEFMTSGPIVVSVLEGENAVQRHRDLLGATNPANALAGTLRADYADSLTENGTHGSDSVESAAREIAYFFGEGEVCPRTR" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"NUOA-MONOMER" "NADH:quinone oxidoreductase subunit A" ["NuoA", "NADH:ubiquinone oxidoreductase, membrane subunit A"] "MSMSTSTEVIAHHWAFAIFLIVAIGLCCLMLVGGWFLGGRARARSKNVPFESGIDSVGSARLRLSAKFYLVAMFFVIFDVEALYLFAWSTSIRESGWVGFVEAAIFIFVLLAGLVYLVRIGALDWTPARSRRERMNPETNSIANRQR" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"NUOB-MONOMER" "NADH:quinone oxidoreductase subunit B" ["NuoB", "NADH:ubiquinone oxidoreductase, chain B"] "MDYTLTRIDPNGENDRYPLQKQEIVTDPLEQEVNKNVFMGKLNDMVNWGRKNSIWPYNFGLSCCYVEMVTSFTAVHDVARFGAEVLRASPRQADLMVVAGTCFTKMAPVIQRLYDQMLEPKWVISMGACANSGGMYDIYSVVQGVDKFIPVDVYIPGCPPRPEAYMQALMLLQESIGKERRPLSWVVGDQGVYRANMQSERERKRGERIAVTNLRTPDEI" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"NUOC-MONOMER" "NADH:quinone oxidoreductase subunit CD" ["NuoD", "NuoCD", "NuoC", "NADH:ubiquinone oxidoreductase, chain CD"] "MTDLTAQEPAWQTRDHLDDPVIGELRNRFGPDAFTVQATRTGVPVVWIKREQLLEVGDFLKKLPKPYVMLFDLHGMDERLRTHREGLPAADFSVFYHLISIDRNRDIMLKVALAENDLHVPTFTKLFPNANWYERETWDLFGITFDGHPNLRRIMMPQTWKGHPLRKDYPARATEFSPFELTKAKQDLEMEALTFKPEEWGMKRGTENEDFMFLNLGPNHPSAHGAFRIVLQLDGEEIVDCVPDIGYHHRGAEKMGERQSWHSYIPYTDRIEYLGGCVNEMPYVLAVEKLAGITVPDRVNVIRVMLSELFRINSHLLYISTFIQDVGAMTPVFFAFTDRQKIYDLVEAITGFRMHPAWFRIGGVAHDLPRGWDRLLREFLDWMPKRLASYEKAALQNTILKGRSQGVAAYGAKEALEWGTTGAGLRATGIDFDVRKARPYSGYENFDFEIPVGGGVSDCYTRVMLKVEELRQSLRILEQCLNNMPEGPFKADHPLTTPPPKERTLQHIETLITHFLQVSWGPVMPANESFQMIEATKGINSYYLTSDGSTMSYRTRVRTPSFAHLQQIPAAIRGSLVSDLIVYLGSIDFVMSDVDR" ["CCO-PM-BAC-NEG"] ["CCO-CYTOSOL", "CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"NUOE-MONOMER" "NADH:quinone oxidoreductase subunit E" ["NuoE", "NADH:ubiquinone oxidoreductase, chain E"] "MHENQQPQTEAFELSAAEREAIEHEMHHYEDPRAASIEALKIVQKQRGWVPDGAIHAIADVLGIPASDVEGVATFYSQIFRQPVGRHVIRYCDSVVCHINGYQGIQAALEKKLNIKPGQTTFDGRFTLLPTCCLGNCDKGPNMMIDEDTHAHLTPEAIPELLERYK" ["CCO-PM-BAC-NEG"] [] +"NUOF-MONOMER" "NADH:quinone oxidoreductase subunit F" ["NuoF", "NADH:ubiquinone oxidoreductase, chain F"] "MKNIIRTPETHPLTWRLRDDKQPVWLDEYRSKNGYEGARKALTGLSPDEIVNQVKDAGLKGRGGAGFSTGLKWSLMPKDESMNIRYLLCNADEMEPGTYKDRLLMEQLPHLLVEGMLISAFALKAYRGYIFLRGEYIEAAVNLRRAIAEATEAGLLGKNIMGTGFDFELFVHTGAGRYICGEETALINSLEGRRANPRSKPPFPATSGAWGKPTCVNNVETLCNVPAILANGVEWYQNISKSKDAGTKLMGFSGRVKNPGLWELPFGTTAREILEDYAGGMRDGLKFKAWQPGGAGTDFLTEAHLDLPMEFESIGKAGSRLGTALAMAVDHEINMVSLVRNLEEFFARESCGWCTPCRDGLPWSVKILRALERGEGQPGDIETLEQLCRFLGPGKTFCAHAPGAVEPLQSAIKYFREEFEAGIKQPFSNTHLINGIQPNLLKERW" ["CCO-PM-BAC-NEG"] [] +"NUOG-MONOMER" "NADH:quinone oxidoreductase subunit G" ["NuoG", "NADH:ubiquinone oxidoreductase, chain G"] "MATIHVDGKEYEVNGADNLLEACLSLGLDIPYFCWHPALGSVGACRQCAVKQYQNAEDTRGRLVMSCMTPASDGTFISIDDEEAKQFRESVVEWLMTNHPHDCPVCEEGGNCHLQDMTVMTGHSFRRYRFTKRTHRNQDLGPFISHEMNRCIACYRCVRYYKDYADGTDLGVYGAHDNVYFGRPEDGTLESEFSGNLVEICPTGVFTDKTHSERYNRKWDMQFAPSICQQCSIGCNISPGERYGELRRIENRYNGTVNHYFLCDRGRFGYGYVNLKDRPRQPVQRRGDDFITLNAEQAMQGAADILRQSKKVIGIGSPRASVESNFALRELVGEENFYTGIAHGEQERLQLALKVLREGGIYTPALREIESYDAVLVLGEDVTQTGARVALAVRQAVKGKAREMAAAQKVADWQIAAILNIGQRAKHPLFVTNVDDTRLDDIAAWTYRAPVEDQARLGFAIAHALDNSAPAVDGIEPELQSKIDVIVQALAGAKKPLIISGTNAGSLEVIQAAANVAKALKGRGADVGITMIARSVNSMGLGIMGGGSLEEALTELETGRADAVVVLENDLHRHASAIRVNAALAKAPLVMVVDHQRTAIMENAHLVLSAASFAESDGTVINNEGRAQRFFQVYDPAYYDSKTVMLESWRWLHSLHSTLLSREVDWTQLDHVIDAVVAKIPELAGIKDAAPDATFRIRGQKLAREPHRYSGRTAMRANISVHEPRQPQDIDTMFTFSMEGNNQPTAHRSQVPFAWAPGWNSPQAWNKFQDEVGGKLRFGDPGVRLFETSENGLDYFTSVPARFQPQDGKWRIAPYYHLFGSDELSQRAPVFQSRMPQPYIKLNPADAAKLGVNAGTRVSFSYDGNTVTLPVEIAEGLTAGQVGLPMGMSGIAPVLAGAHLEDLKEAQQ" ["CCO-PM-BAC-NEG"] ["CCO-CYTOSOL", "CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"NUOH-MONOMER" "NADH:quinone oxidoreductase subunit H" ["NuoH", "NADH:ubiquinone oxidoreductase, membrane subunit H"] "MSWISPELIEILLTILKAVVILLVVVTCGAFMSFGERRLLGLFQNRYGPNRVGWGGSLQLVADMIKMFFKEDWIPKFSDRVIFTLAPMIAFTSLLLAFAIVPVSPGWVVADLNIGILFFLMMAGLAVYAVLFAGWSSNNKYSLLGAMRASAQTLSYEVFLGLSLMGVVAQAGSFNMTDIVNSQAHVWNVIPQFFGFITFAIAGVAVCHRHPFDQPEAEQELADGYHIEYSGMKFGLFFVGEYIGIVTISALMVTLFFGGWQGPLLPPFIWFALKTAFFMMMFILIRASLPRPRYDQVMSFGWKICLPLTLINLLVTAAVILWQAQ" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"NUOI-MONOMER" "NADH:quinone oxidoreductase subunit I" ["NuoI", "NADH:ubiquinone oxidoreductase, chain I"] "MTLKELLVGFGTQVRSIWMIGLHAFAKRETRMYPEEPVYLPPRYRGRIVLTRDPDGEERCVACNLCAVACPVGCISLQKAETKDGRWYPEFFRINFSRCIFCGLCEEACPTTAIQLTPDFEMGEYKRQDLVYEKEDLLISGPGKYPEYNFYRMAGMAIDGKDKGEAENEAKPIDVKSLLP" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"NUOJ-MONOMER" "NADH:quinone oxidoreductase subunit J" ["NuoJ", "NADH:ubiquinone oxidoreductase, membrane subunit J"] "MEFAFYICGLIAILATLRVITHTNPVHALLYLIISLLAISGVFFSLGAYFAGALEIIVYAGAIMVLFVFVVMMLNLGGSEIEQERQWLKPQVWIGPAILSAIMLVVIVYAILGVNDQGIDGTPISAKAVGITLFGPYVLAVELASMLLLAGLVVAFHVGREERAGEVLSNRKDDSAKRKTEEHA" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"NUOK-MONOMER" "NADH:quinone oxidoreductase subunit K" ["NuoK", "NADH:ubiquinone oxidoreductase, membrane subunit K"] "MIPLQHGLILAAILFVLGLTGLVIRRNLLFMLIGLEIMINASALAFVVAGSYWGQTDGQVMYILAISLAAAEASIGLALLLQLHRRRQNLNIDSVSEMRG" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"NUOL-MONOMER" "NADH:quinone oxidoreductase subunit L" ["NuoL", "NADH:ubiquinone oxidoreductase, membrane subunit L"] "MNMLALTIILPLIGFVLLAFSRGRWSENVSAIVGVGSVGLAALVTAFIGVDFFANGEQTYSQPLWTWMSVGDFNIGFNLVLDGLSLTMLSVVTGVGFLIHMYASWYMRGEEGYSRFFAYTNLFIASMVVLVLADNLLLMYLGWEGVGLCSYLLIGFYYTDPKNGAAAMKAFVVTRVGDVFLAFALFILYNELGTLNFREMVELAPAHFADGNNMLMWATLMLLGGAVGKSAQLPLQTWLADAMAGPTPVSALIHAATMVTAGVYLIARTHGLFLMTPEVLHLVGIVGAVTLLLAGFAALVQTDIKRVLAYSTMSQIGYMFLALGVQAWDAAIFHLMTHAFFKALLFLASGSVILACHHEQNIFKMGGLRKSIPLVYLCFLVGGAALSALPLVTAGFFSKDEILAGAMANGHINLMVAGLVGAFMTSLYTFRMIFIVFHGKEQIHAHAVKGVTHSLPLIVLLILSTFVGALIVPPLQGVLPQTTELAHGSMLTLEITSGVVAVVGILLAAWLWLGKRTLVTSIANSAPGRLLGTWWYNAWGFDWLYDKVFVKPFLGIAWLLKRDPLNSMMNIPAVLSRFAGKGLLLSENGYLRWYVASMSIGAVVVLALLMVLR" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"NUOM-MONOMER" "NADH:quinone oxidoreductase subunit M" ["NuoA", "NuoM", "NADH:ubiquinone oxidoreductase, membrane subunit M"] "MLLPWLILIPFIGGFLCWQTERFGVKVPRWIALITMGLTLALSLQLWLQGGYSLTQSAGIPQWQSEFDMPWIPRFGISIHLAIDGLSLLMVVLTGLLGVLAVLCSWKEIEKYQGFFHLNLMWILGGVIGVFLAIDMFLFFFFWEMMLVPMYFLIALWGHKASDGKTRITAATKFFIYTQASGLVMLIAILALVFVHYNATGVWTFNYEELLNTPMSSGVEYLLMLGFFIAFAVKMPVVPLHGWLPDAHSQAPTAGSVDLAGILLKTAAYGLLRFSLPLFPNASAEFAPIAMWLGVIGIFYGAWMAFAQTDIKRLIAYTSVSHMGFVLIAIYTGSQLAYQGAVIQMIAHGLSAAGLFILCGQLYERIHTRDMRMMGGLWSKMKWLPALSLFFAVATLGMPGTGNFVGEFMILFGSFQVVPVITVISTFGLVFASVYSLAMLHRAYFGKAKSQIASQELPGMSLRELFMILLLVVLLVLLGFYPQPILDTSHSAIGNIQQWFVNSVTTTRP" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"NUON-MONOMER" "NADH:quinone oxidoreductase subunit N" ["NuoN", "NADH:ubiquinone oxidoreductase, membrane subunit N"] "MTITPQNLIALLPLLIVGLTVVVVMLSIAWRRNHFLNATLSVIGLNAALVSLWFVGQAGAMDVTPLMRVDGFAMLYTGLVLLASLATCTFAYPWLEGYNDNKDEFYLLVLIAALGGILLANANHLASLFLGIELISLPLFGLVGYAFRQKRSLEASIKYTILSAAASSFLLFGMALVYAQSGDLSFVALGKNLGDGMLNEPLLLAGFGLMIVGLGFKLSLVPFHLWTPDVYQGAPAPVSTFLATASKIAIFGVVMRLFLYAPVGDSEAIRVVLAIIAFASIIFGNLMALSQTNIKRLLGYSSISHLGYLLVALIALQTGEMSMEAVGVYLAGYLFSSLGAFGVVSLMSSPYRGPDADSLFSYRGLFWHRPILAAVMTVMMLSLAGIPMTLGFIGKFYVLAVGVQAHLWWLVGAVVVGSAIGLYYYLRVAVSLYLHAPEQPGRDAPSNWQYSAGGIVVLISALLVLVLGVWPQPLISIVRLAMPLM" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"NUPC-MONOMER" "nucleoside:H+ symporter NupC" ["Cru", "NupC", "NupC nucleoside NUP transporter"] "MDRVLHFVLALAVVAILALLVSSDRKKIRIRYVIQLLVIEVLLAWFFLNSDVGLGFVKGFSEMFEKLLGFANEGTNFVFGSMNDQGLAFFFLKVLCPIVFISALIGILQHIRVLPVIIRAIGFLLSKVNGMGKLESFNAVSSLILGQSENFIAYKDILGKISRNRMYTMAATAMSTVSMSIVGAYMTMLEPKYVVAALVLNMFSTFIVLSLINPYRVDASEENIQMSNLHEGQSFFEMLGEYILAGFKVAIIVAAMLIGFIALIAALNALFATVTGWFGYSISFQGILGYIFYPIAWVMGVPSSEALQVGSIMATKLVSNEFVAMMDLQKIASTLSPRAEGIISVFLVSFANFSSIGIIAGAVKGLNEEQGNVVSRFGLKLVYGSTLVSVLSASIAALVL" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"NUPG-MONOMER" "nucleoside:H+ symporter NupG" ["NupG", "NupG nucleoside MFS transporter"] "MNLKLQLKILSFLQFCLWGSWLTTLGSYMFVTLKFDGASIGAVYSSLGIAAVFMPALLGIVADKWLSAKWVYAICHTIGAITLFMAAQVTTPEAMFLVILINSFAYMPTLGLINTISYYRLQNAGMDIVTDFPPIRIWGTIGFIMAMWVVSLSGFELSHMQLYIGAALSAILVLFTLTLPHIPVAKQQANQSWTTLLGLDAFALFKNKRMAIFFIFSMLLGAELQITNMFGNTFLHSFDKDPMFASSFIVQHASIIMSISQISETLFILTIPFFLSRYGIKNVMMISIVAWILRFALFAYGDPTPFGTVLLVLSMIVYGCAFDFFNISGSVFVEKEVSPAIRASAQGMFLMMTNGFGCILGGIVSGKVVEMYTQNGITDWQTVWLIFAGYSVVLAFAFMAMFKYKHVRVPTGTQTVSH" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"O-SUCCHOMOSERLYASE-MONOMER" "O-succinylhomoserine(thiol)-lyase / O-succinylhomoserine lyase" ["MetB"] "MTRKQATIAVRSGLNDDEQYGCVVPPIHLSSTYNFTGFNEPRAHDYSRRGNPTRDVVQRALAELEGGAGAVLTNTGMSAIHLVTTVFLKPGDLLVAPHDCYGGSYRLFDSLAKRGCYRVLFVDQGDEQALRAALAEKPKLVLVESPSNPLLRVVDIAKICHLAREVGAVSVVDNTFLSPALQNPLALGADLVLHSCTKYLNGHSDVVAGVVIAKDPDVVTELAWWANNIGVTGGAFDSYLLLRGLRTLVPRMELAQRNAQAIVKYLQTQPLVKKLYHPSLPENQGHEIAARQQKGFGAMLSFELDGDEQTLRRFLGGLSLFTLAESLGGVESLISHAATMTHAGMAPEARAAAGISETLLRISTGIEDGEDLIADLENGFRAANKG" [] ["CCO-CYTOSOL"] +"O-SUCCINYLBENZOATE-COA-LIG-MONOMER" "o-succinylbenzoate—CoA ligase" ["MenE"] "MIFSDWPWRHWRQVRGETIALRLNDEQLNWRELCARVDELASGFAVQGVVEGSGVMLRAWNTPQTLLAWLALLQCGARVLPVNPQLPQPLLEELLPNLTLQFALVPDGENTFPALTSLHIQLVEGAHAATWQPTRLCSMTLTSGSTGLPKAAVHTYQAHLASAQGVLSLIPFGDHDDWLLSLPLFHVSGQGIMWRWLYAGARMTVRDKQPLEQMLAGCTHASLVPTQLWRLLVNRSSVSLKAVLLGGAAIPVELTEQAREQGIRCFCGYGLTEFASTVCAKEADGLADVGSPLPGREVKIVNNEVWLRAASMAEGYWRNGQLVSLVNDEGWYATRDRGEMHNGKLTIVGRLDNLFFSGGEGIQPEEVERVIAAHPAVLQVFIVPVADKEFGHRPVAVMEYDHESVDLSEWVKDKLARFQQPVRWLTLPPELKNGGIKISRQALKEWVQRQQ" [] ["CCO-CYTOSOL"] +"O-SUCCINYLBENZOATE-COA-SYN-MONOMER" null ["MenC"] "MRSAQVYRWQIPMDAGVVLRDRRLKTRDGLYVCLREGEREGWGEISPLPGFSQETWEEAQSVLLAWVNNWLAGDCELPQMPSVAFGVSCALAELTDTLPQAANYRAAPLCNGDPDDLILKLADMPGEKVAKVKVGLYEAVRDGMVVNLLLEAIPDLHLRLDANRAWTPLKGQQFAKYVNPDYRDRIAFLEEPCKTRDDSRAFARETGIAIAWDESLREPDFAFVAEEGVRAVVIKPTLTGSLEKVREQVQAAHALGLTAVISSSIESSLGLTQLARIAAWLTPDTIPGLDTLDLMQAQQVRRWPGSTLPVVEVDALERLL" [] ["CCO-CYTOSOL"] +"OCTAPRENYL-METHOXYPHENOL-OH-MONOMER" null ["Acd", "VisB", "UbiH"] "MSVIIVGGGMAGATLALAISRLSHGALPVHLIEATAPESHAHPGFDGRAIALAAGTCQQLARIGVWQSLADCATAITTVHVSDRGHAGFVTLAAEDYQLAALGQVVELHNVGQRLFALLRKAPGVTLHCPDRVANVARTQSHVEVTLESGETLTGRVLVAADGTHSALATACGVDWQQEPYEQLAVIANVATSVAHEGRAFERFTQHGPLAMLPMSDGRCSLVWCHPLERREEVLSWSDEKFCRELQSAFGWRLGKITHAGKRSAYPLALTHAARSITHRTVLVGNAAQTLHPIAGQGFNLGMRDVMSLAETLTQAQERGEDMGDYGVLCRYQQRRQSDREATIGVTDSLVHLFANRWAPLVVGRNIGLMTMELFTPARDVLAQRTLGWVAR" [] ["CCO-CYTOSOL"] +"OCTAPRENYL-METHYL-METHOXY-BENZOQ-OH-MON" null ["YleB", "UbiF"] "MTNQPTEIAIVGGGMVGGALALGLAQHGFAVTVIEHAEPAPFVADSQPDVRISAISAASVSLLKGLGVWDAVQAMRCHPYRRLETWEWETAHVVFDAAELKLPLLGYMVENTVLQQALWQALEAHPKVTLRVPGSLIALHRHDDLQELELKGGEVIRAKLVIGADGANSQVRQMAGIGVHAWQYAQSCMLISVQCENDPGDSTWQQFTPDGPRAFLPLFDNWASLVWYDSPARIRQLQNMNMAQLQAEIAKHFPSRLGYVTPLAAGAFPLTRRHALQYVQPGLALVGDAAHTIHPLAGQGVNLGYRDVDALIDVLVNARSYGEAWASYPVLKRYQMRRMADNFIMQSGMDLFYAGFSNNLPPLRFMRNLGLMAAERAGVLKRQALKYALGL" [] ["CCO-CYTOSOL"] +"OHMETHYLBILANESYN-MONOMER" null ["PopE", "HemC"] "MLDNVLRIATRQSPLALWQAHYVKDKLMASHPGLVVELVPMVTRGDVILDTPLAKVGGKGLFVKELEVALLENRADIAVHSMKDVPVEFPQGLGLVTICEREDPRDAFVSNNYDSLDALPAGSIVGTSSLRRQCQLAERRPDLIIRSLRGNVGTRLSKLDNGEYDAIILAVAGLKRLGLESRIRAALPPEISLPAVGQGAVGIECRLDDSRTRELLAALNHHETALRVTAERAMNTRLEGGCQVPIGSYAELIDGEIWLRALVGAPDGSQIIRGERRGAPQDAEQMGISLAEELLNNGAREILAEVYNGDAPA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"OMPR-MONOMER" "DNA-binding transcriptional dual regulator OmpR" ["OmpR", "Kmt", "Cry", "OmpB", "OmpR response regulator"] "MQENYKILVVDDDMRLRALLERYLTEQGFQVRSVANAEQMDRLLTRESFHLMVLDLMLPGEDGLSICRRLRSQSNPMPIIMVTAKGEEVDRIVGLEIGADDYIPKPFNPRELLARIRAVLRRQANELPGAPSQEEAVIAFGKFKLNLGTREMFREDEPMPLTSGEFAVLKALVSHPREPLSRDKLMNLARGREYSAMERSIDVQISRLRRMVEEDPAHPRYIQTVWGLGYVFVPDGSKA" [] ["CCO-CYTOSOL"] +"OPPA-MONOMER" "oligopeptide ABC transporter periplasmic binding protein" ["OppA"] "MTNITKRSLVAAGVLAALMAGNVALAADVPAGVTLAEKQTLVRNNGSEVQSLDPHKIEGVPESNISRDLFEGLLVSDLDGHPAPGVAESWDNKDAKVWTFHLRKDAKWSDGTPVTAQDFVYSWQRSVDPNTASPYASYLQYGHIAGIDEILEGKKPITDLGVKAIDDHTLEVTLSEPVPYFYKLLVHPSTSPVPKAAIEKFGEKWTQPGNIVTNGAYTLKDWVVNERIVLERSPTYWNNAKTVINQVTYLPIASEVTDVNRYRSGEIDMTNNSMPIELFQKLKKEIPDEVHVDPYLCTYYYEINNQKPPFNDVRVRTALKLGMDRDIIVNKVKAQGNMPAYGYTPPYTDGAKLTQPEWFGWSQEKRNEEAKKLLAEAGYTADKPLTINLLYNTSDLHKKLAIAASSLWKKNIGVNVKLVNQEWKTFLDTRHQGTFDVARAGWCADYNEPTSFLNTMLSNSSMNTAHYKSPAFDSIMAETLKVTDEAQRTALYTKAEQQLDKDSAIVPVYYYVNARLVKPWVGGYTGKDPLDNTYTRNMYIVKH" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"OPPB-MONOMER" "murein tripeptide ABC transporter / oligopeptide ABC transporter inner membrane subunit OppB" ["OppB"] "MLKFILRRCLEAIPTLFILITISFFMMRLAPGSPFTGERTLPPEVMANIEAKYHLNDPIMTQYFSYLKQLAHGDFGPSFKYKDYSVNDLVASSFPVSAKLGAAAFFLAVILGVSAGVIAALKQNTKWDYTVMGLAMTGVVIPSFVVAPLLVMIFAIILHWLPGGGWNGGALKFMILPMVALSLAYIASIARITRGSMIEVLHSNFIRTARAKGLPMRRIILRHALKPALLPVLSYMGPAFVGIITGSMVIETIYGLPGIGQLFVNGALNRDYSLVLSLTILVGALTILFNAIVDVLYAVIDPKIRY" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"OPPC-MONOMER" "murein tripeptide ABC transporter / oligopeptide ABC transporter inner membrane subunit OppC" ["OppC"] "MMLSKKNSETLENFSEKLEVEGRSLWQDARRRFMHNRAAVASLIVLVLIALFVILAPMLSQFAYDDTDWAMMSSAPDMESGHYFGTDSSGRDLLVRVAIGGRISLMVGVAAALVAVVVGTLYGSLSGYLGGKVDSVMMRLLEILNSFPFMFFVILLVTFFGQNILLIFVAIGMVSWLDMARIVRGQTLSLKRKEFIEAAQVGGVSTSGIVIRHIVPNVLGVVVVYASLLVPSMILFESFLSFLGLGTQEPLSSWGALLSDGANSMEVSPWLLLFPAGFLVVTLFCFNFIGDGLRDALDPKDR" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"OPPD-MONOMER" "murein tripeptide ABC transporter / oligopeptide ABC transporter ATP binding subunit OppD" ["OppD"] "MSVIETATVPLAQQQADALLNVKDLRVTFSTPDGDVTAVNDLNFSLRAGETLGIVGESGSGKSQTAFALMGLLAANGRIGGSATFNGREILNLPEHELNKLRAEQISMIFQDPMTSLNPYMRVGEQLMEVLMLHKNMSKAEAFEESVRMLDAVKMPEARKRMKMYPHEFSGGMRQRVMIAMALLCRPKLLIADEPTTALDVTVQAQIMTLLNELKREFNTAIIMITHDLVVVAGICDKVLVMYAGRTMEYGNARDVFYQPVHPYSIGLLNAVPRLDAEGETMLTIPGNPPNLLRLPKGCPFQPRCPHAMEICSSAPPLEEFTPGRLRACFKPVEELL" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"OPPF-MONOMER" "murein tripeptide ABC transporter / oligopeptide ABC transporter ATP binding subunit OppF" ["OppF"] "MNAVTEGRKVLLEIADLKVHFEIKDGKQWFWQPPKTLKAVDGVTLRLYEGETLGVVGESGCGKSTFARAIIGLVKATDGHVAWLGKELLGMKPDEWRAVRSDIQMIFQDPLASLNPRMTIGEIIAEPLRTYHPKMSRQEVRERVKAMMLKVGLLPNLINRYPHEFSGGQCQRIGIARALILEPKLIICDEPVSALDVSIQAQVVNLLQQLQREMGLSLIFIAHDLAVVKHISDRVLVMYLGHAVELGTYDEVYHNPLHPYTRALMSAVPIPDPDLEKNKTIQLLEGELPSPINPPSGCVFRTRCPIAGPECAKTRPVLEGSFRHSVSCLKVDPL" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"OPPSYN-MONOMER" "all-trans-octaprenyl-diphosphate synthase" ["Cel", "YhbD", "IspB"] "MNLEKINELTAQDMAGVNAAILEQLNSDVQLINQLGYYIVSGGGKRIRPMIAVLAARAVGYEGNAHVTIAALIEFIHTATLLHDDVVDESDMRRGKATANAAFGNAASVLVGDFIYTRAFQMMTSLGSLKVLEVMSEAVNVIAEGEVLQLMNVNDPDITEENYMRVIYSKTARLFEAAAQCSGILAGCTPEEEKGLQDYGRYLGTAFQLIDDLLDYNADGEQLGKNVGDDLNEGKPTLPLLHAMHHGTPEQAQMIRTAIEQGNGRHLLEPVLEAMNACGSLEWTRQRAEEEADKAIAALQVLPDTPWREALIGLAHIAVQRDR" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"ORNDECARBOX-BIO-MONOMER" "constitutive ornithine decarboxylase" ["SpeC", "ornithine decarboxylase, biosynthetic"] "MKSMNIAASSELVSRLSSHRRVVALGDTDFTDVAAVVITAADSRSGILALLKRTGFHLPVFLYSEHAVELPAGVTAVINGNEQQWLELESAACQYEENLLPPFYDTLTQYVEMGNSTFACPGHQHGAFFKKHPAGRHFYDFFGENVFRADMCNADVKLGDLLIHEGSAKDAQKFAAKVFHADKTYFVLNGTSAANKVVTNALLTRGDLVLFDRNNHKSNHHGALIQAGATPVYLEASRNPFGFIGGIDAHCFNEEYLRQQIRDVAPEKADLPRPYRLAIIQLGTYDGTVYNARQVIDTVGHLCDYILFDSAWVGYEQFIPMMADSSPLLLELNENDPGIFVTQSVHKQQAGFSQTSQIHKKDNHIRGQARFCPHKRLNNAFMLHASTSPFYPLFAALDVNAKIHEGESGRRLWAECVEIGIEARKAILARCKLFRPFIPPVVDGKLWQDYPTSVLASDRRFFSFEPGAKWHGFEGYAADQYFVDPCKLLLTTPGIDAETGEYSDFGVPATILAHYLRENGIVPEKCDLNSILFLLTPAESHEKLAQLVAMLAQFEQHIEDDSPLVEVLPSVYNKYPVRYRDYTLRQLCQEMHDLYVSFDVKDLQKAMFRQQSFPSVVMNPQDAHSAYIRGDVELVRIRDAEGRIAAEGALPYPPGVLCVVPGEVWGGAVQRYFLALEEGVNLLPGFSPELQGVYSETDADGVKRLYGYVLK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"ORNDECARBOXDEG-MONOMER" "inducible ornithine decarboxylase" ["SpeF", "ornithine decarboxylase, degradative"] "MSKLKIAVSDSCPDCFTTQRECIYINESRNIDVAAIVLSLNDVTCGKLDEIDATGYGIPVFIATENQERVPAEYLPRISGVFENCESRREFYGRQLETAASHYETQLRPPFFRALVDYVNQGNSAFDCPGHQGGEFFRRHPAGNQFVEYFGEALFRADLCNADVAMGDLLIHEGAPCIAQQHAAKVFNADKTYFVLNGTSSSNKVVLNALLTPGDLVLFDRNNHKSNHHGALLQAGATPVYLETARNPYGFIGGIDAHCFEESYLRELIAEVAPQRAKEARPFRLAVIQLGTYDGTIYNARQVVDKIGHLCDYILFDSAWVGYEQFIPMMADCSPLLLDLNENDPGILVTQSVHKQQAGFSQTSQIHKKDSHIKGQQRYVPHKRMNNAFMMHASTSPFYPLFAALNINAKMHEGVSGRNMWMDCVVNGINARKLILDNCQHIRPFVPELVDGKPWQSYETAQIAVDLRFFQFVPGEHWHSFEGYAENQYFVDPCKLLLTTPGIDARNGEYEAFGVPATILANFLRENGVVPEKCDLNSILFLLTPAEDMAKLQQLVALLVRFEKLLESDAPLAEVLPSIYKQHEERYAGYTLRQLCQEMHDLYARHNVKQLQKEMFRKEHFPRVSMNPQEANYAYLRGEVELVRLPDAEGRIAAEGALPYPPGVLCVVPGEIWGGAVLRYFSALEEGINLLPGFAPELQGVYIEEHDGRKQVWCYVIKPRDAQSTLLKGEKL" [] ["CCO-CYTOSOL"] +"OROPRIBTRANS-MONOMER" "orotate phosphoribosyltransferase" ["PyrE"] "MKPYQRQFIEFALSKQVLKFGEFTLKSGRKSPYFFNAGLFNTGRDLALLGRFYAEALVDSGIEFDLLFGPAYKGIPIATTTAVALAEHHDLDLPYCFNRKEAKDHGEGGNLVGSALQGRVMLVDDVITAGTAIRESMEIIQANGATLAGVLISLDRQERGRGEISAIQEVERDYNCKVISIITLKDLIAYLEEKPEMAEHLAAVKAYREEFGV" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"OROTPDECARB-MONOMER" "orotidine-5'-phosphate decarboxylase" ["PyrF"] "MTLTASSSSRAVTNSPVVVALDYHNRDDALAFVDKIDPRDCRLKVGKEMFTLFGPQFVRELQQRGFDIFLDLKFHDIPNTAAHAVAAAADLGVWMVNVHASGGARMMTAAREALVPFGKDAPLLIAVTVLTSMEASDLVDLGMTLSPADYAERLAALTQKCGLDGVVCSAQEAVRFKQVFGQEFKLVTPGIRPQGSEAGDQRRIMTPEQALSAGVDYMVIGRPVTQSVDPAQTLKAINASLQRSA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"PABASYN-COMPI-MONOMER" "aminodeoxychorismate synthase subunit 1" ["para-aminobenzoate synthase component I", "ADC synthase", "PabB", "aminodeoxychorismate synthase component 1"] "MKTLSPAVITLLWRQDAAEFYFSRLSHLPWAMLLHSGYADHPYSRFDIVVAEPICTLTTFGKETVVSESEKRTTTTDDPLQVLQQVLDRADIRPTHNEDLPFQGGALGLFGYDLGRRFESLPEIAEQDIVLPDMAVGIYDWALIVDHQRHTVSLLSHNDVNARRAWLESQQFSPQEDFTLTSDWQSNMTREQYGEKFRQVQEYLHSGDCYQVNLAQRFHATYSGDEWQAFLQLNQANRAPFSAFLRLEQGAILSLSPERFILCDNSEIQTRPIKGTLPRLPDPQEDSKQAVKLANSAKDRAENLMIVDLMRNDIGRVAVAGSVKVPELFVVEPFPAVHHLVSTITAQLPEQLHASDLLRAAFPGGSITGAPKVRAMEIIDELEPQRRNAWCGSIGYLSFCGNMDTSITIRTLTAINGQIFCSAGGGIVADSQEEAEYQETFDKVNRILKQLEK" [] ["CCO-CYTOSOL"] +"PABASYN-COMPII-MONOMER" "aminodeoxychorismate synthase subunit 2" ["para-aminobenzoate synthase glutamine amidotransferase component II", "PabA", "aminodeoxychorismate synthase component 2"] "MILLIDNYDSFTWNLYQYFCELGADVLVKRNDALTLADIDALKPQKIVISPGPCTPDEAGISLDVIRHYAGRLPILGVCLGHQAMAQAFGGKVVRAAKVMHGKTSPITHNGEGVFRGLANPLTVTRYHSLVVEPDSLPACFDVTAWSETREIMGIRHRQWDLEGVQFHPESILSEQGHQLLANFLHR" [] ["CCO-CYTOSOL"] +"PALMITOTRANS-MONOMER" null ["LpxP", "Ddg"] "MFPQCKFSREFLHPRYWLTWFGLGVLWLWVQLPYPVLCFLGTRIGAMARPFLKRRESIARKNLELCFPQHSAEEREKMIAENFRSLGMALVETGMAWFWPDSRVRKWFDVEGLDNLKRAQMQNRGVMVVGVHFMSLELGGRVMGLCQPMMATYRPHNNQLMEWVQTRGRMRSNKAMIGRNNLRGIVGALKKGEAVWFAPDQDYGRKGSSFAPFFAVENVATTNGTYVLSRLSGAAMLTVTMVRKADYSGYRLFITPEMEGYPTDENQAAAYMNKIIEKEIMRAPEQYLWIHRRFKTRPVGESSLYI" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"PANF-MONOMER" null ["PanF", "PanF sodium/pantothenate SSS transporter"] "MQLEVILPLVAYLVVVFGISVYAMRKRSTGTFLNEYFLGSRSMGGIVLAMTLTATYISASSFIGGPGAAYKYGLGWVLLAMIQLPAVWLSLGILGKKFAILARRYNAVTLNDMLFARYQSRLLVWLASLSLLVAFVGAMTVQFIGGARLLETAAGIPYETGLLIFGISIALYTAFGGFRASVLNDTMQGLVMLIGTVVLLIGVVHAAGGLSNAVQTLQTIDPQLVTPQGADDILSPAFMTSFWVLVCFGVIGLPHTAVRCISYKDSKAVHRGIIIGTIVVAILMFGMHLAGALGRAVIPDLTVPDLVIPTLMVKVLPPFAAGIFLAAPMAAIMSTINAQLLQSSATIIKDLYLNIRPDQMQNETRLKRMSAVITLVLGALLLLAAWKPPEMIIWLNLLAFGGLEAVFLWPLVLGLYWERANAKGALSAMIVGGVLYAVLATLNIQYLGFHPIVPSLLLSLLAFLVGNRFGTSVPQATVLTTDK" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"PANTEPADENYLYLTRAN-MONOMER" "pantetheine-phosphate adenylyltransferase" ["YicA", "KdtB", "CoaD", "PPAT"] "MQKRAIYPGTFDPITNGHIDIVTRATQMFDHVILAIAASPSKKPMFTLEERVALAQQATAHLGNVEVVGFSDLMANFARNQHATVLIRGLRAVADFEYEMQLAHMNRHLMPELESVFLMPSKEWSFISSSLVKEVARHQGDVTHFLPENVHQALMAKLA" [] ["CCO-CYTOSOL"] +"PANTOATE-BETA-ALANINE-LIG-MONOMER" "pantothenate synthetase" ["PanC"] "MLIIETLPLLRQQIRRLRMEGKRVALVPTMGNLHDGHMKLVDEAKARADVVVVSIFVNPMQFDRPEDLARYPRTLQEDCEKLNKRKVDLVFAPSVKEIYPNGTETHTYVDVPGLSTMLEGASRPGHFRGVSTIVSKLFNLVQPDIACFGEKDFQQLALIRKMVADMGFDIEIVGVPIMRAKDGLALSSRNGYLTAEQRKIAPGLYKVLSSIADKLQAGERDLDEIITIAGQELNEKGFRADDIQIRDADTLLEVSETSKRAVILVAAWLGDARLIDNKMVELA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"PANTOTHENATE-KIN-MONOMER" "pantothenate kinase" ["Rts", "PanK", "CoaA", "type I pantothenate kinase"] "MSIKEQTLMTPYLQFDRNQWAALRDSVPMTLSEDEIARLKGINEDLSLEEVAEIYLPLSRLLNFYISSNLRRQAVLEQFLGTNGQRIPYIISIAGSVAVGKSTTARVLQALLSRWPEHRRVELITTDGFLHPNQVLKERGLMKKKGFPESYDMHRLVKFVSDLKSGVPNVTAPVYSHLIYDVIPDGDKTVVQPDILILEGLNVLQSGMDYPHDPHHVFVSDFVDFSIYVDAPEDLLQTWYINRFLKFREGAFTDPDSYFHNYAKLTKEEAIKTAMTLWKEINWLNLKQNILPTRERASLILTKSANHAVEEVRLRK" [] ["CCO-CYTOSOL"] +"PAPSSULFOTRANS-MONOMER" "phosphoadenosine phosphosulfate reductase" ["CysH"] "MSKLDLNALNELPKVDRILALAETNAELEKLDAEGRVAWALDNLPGEYVLSSSFGIQAAVSLHLVNQIRPDIPVILTDTGYLFPETYRFIDELTDKLKLNLKVYRATESAAWQEARYGKLWEQGVEGIEKYNDINKVEPMNRALKELNAQTWFAGLRREQSGSRANLPVLAIQRGVFKVLPIIDWDNRTIYQYLQKHGLKYHPLWDEGYLSVGDTHTTRKWEPGMAEEETRFFGLKRECGLHEG" [] ["CCO-CYTOSOL"] +"PD00194" "DNA-binding transcriptional dual regulator ArgR" ["XerA", "ArgR"] "MRSSAKQEELVKAFKALLKEEKFSSQGEIVAALQEQGFDNINQSKVSRMLTKFGAVRTRNAKMEMVYCLPAELGVPTTSSPLKNLVLDIDYNDAVVVIHTSPGAAQLIARLLDSLGKAEGILGTIAGDDTIFTTPANGFTVKDLYEAILELFDQEL" [] ["CCO-CYTOSOL"] +"PD00196" "DNA-binding transcriptional dual regulator Fis" ["Nbp", "site-specific DNA inversion stimulation factor", "Fis"] "MFEQRVNSDVLTVSTVNSQDQVTQKPLRDSVKQALKNYFAQLNGQDVNDLYELVLAEVEQPLLDMVMQYTRGNQTRAALMMGINRGTLRKKLKKYGMN" ["CCO-CYTOSOL"] ["CCO-BAC-NUCLEOID", "CCO-CYTOSOL"] +"PD00197" "DNA-binding transcriptional dual regulator FNR" ["OssA", "NirR", "NirA", "OxrA", "Fnr"] "MIPEKRIIRRIQSGGCAIHCQDCSISQLCIPFTLNEHELDQLDNIIERKKPIQKGQTLFKAGDELKSLYAIRSGTIKSYTITEQGDEQITGFHLAGDLVGFDAIGSGHHPSFAQALETSMVCEIPFETLDDLSGKMPNLRQQMMRLMSGEIKGDQDMILLLSKKNAEERLAAFIYNLSRRFAQRGFSPREFRLTMTRGDIGNYLGLTVETISRLLGRFQKSGMLAVKGKYITIENNDALAQLAGHTRNVA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"PD00200" "DNA-binding transcriptional dual regulator IlvY" ["IlvY", "positive regulator for ilvC"] "MDLRDLKTFLHLAESRHFGRSARAMHVSPSTLSRQIQRLEEDLGQPLFVRDNRTVTLTEAGEELRVFAQQTLLQYQQLRHTIDQQGPSLSGELHIFCSVTAAYSHLPPILDRFRAEHPSVEIKLTTGDAADAMEKVVTGEADLAIAGKPETLPGAVAFSMLENLAVVLIAPALPCPVRNQVSVEKPDWSTVPFIMADQGPVRRRIELWFRRNKISNPMIYATVGGHEAMVSMVALGCGVALLPEVVLENSPEPVRNRVMILERSDEKTPFELGVCAQKKRLHEPLIEAFWKILPNHK" [] ["CCO-CYTOSOL"] +"PD00205" "DNA-binding transcriptional repressor LexA" ["Tsl", "Spr", "UmuA", "ExrA", "LexA"] "MKALTARQQEVFDLIRDHISQTGMPPTRAEIAQRLGFRSPNAAEEHLKALARKGVIEIVSGASRGIRLLQEEEEGLPLVGRVAAGEPLLAQQHIEGHYQVDPSLFKPNADFLLRVSGMSMKDIGIMDGDLLAVHKTQDVRNGQVVVARIDDEVTVKRLKKQGNKVELLPENSEFKPIVVDLRQQSFTIEGLAVGVIRNGDWL" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"PD00208" "DNA-binding transcriptional dual regulator MelR" ["MelR"] "MNTDTFMCSSDEKQTRSPLSLYSEYQRMEIEFRAPHIMPTSHWHGQVEVNVPFDGDVEYLINNEKVNINQGHITLFWACTPHQLTDTGTCQSMAIFNLPMHLFLSWPLDKDLINHVTHGMVIKSLATQQLSPFEVRRWQQELNSPNEQIRQLAIDEIGLMLKRFSLSGWEPILVNKTSRTHKNSVSRHAQFYVSQMLGFIAENYDQALTINDVAEHVKLNANYAMGIFQRVMQLTMKQYITAMRINHVRALLSDTDKSILDIALTAGFRSSSRFYSTFGKYVGMSPQQYRKLSQQRRQTFPG" [] ["CCO-CYTOSOL"] +"PD00214" "DNA-binding transcriptional dual regulator OxyR" ["Mor", "MomR", "OxyR", "bifunctional regulatory protein sensor for oxidative stress"] "MNIRDLEYLVALAEHRHFRRAADSCHVSQPTLSGQIRKLEDELGVMLLERTSRKVLFTQAGMLLVDQARTVLREVKVLKEMASQQGETMSGPLHIGLIPTVGPYLLPHIIPMLHQTFPKLEMYLHEAQTHQLLAQLDSGKLDCVILALVKESEAFIEVPLFDEPMLLAIYEDHPWANRECVPMADLAGEKLLMLEDGHCLRDQAMGFCFEAGADEDTHFRATSLETLRNMVAAGSGITLLPALAVPPERKRDGVVYLPCIKPEPRRTIGLVYRPGSPLRSRYEQLAEAIRARMDGHFDKVLKQAV" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"PD00219" "DNA-binding transcriptional repressor PurR" ["PurR"] "MATIKDVAKRANVSTTTVSHVINKTRFVAEETRNAVWAAIKELHYSPSAVARSLKVNHTKSIGLLATSSEAAYFAEIIEAVEKNCFQKGYTLILGNAWNNLEKQRAYLSMMAQKRVDGLLVMCSEYPEPLLAMLEEYRHIPMVVMDWGEAKADFTDAVIDNAFEGGYMAGRYLIERGHREIGVIPGPLERNTGAGRLAGFMKAMEEAMIKVPESWIVQGDFEPESGYRAMQQILSQPHRPTAVFCGGDIMAMGALCAADEMGLRVPQDVSLIGYDNVRNARYFTPALTTIHQPKDSLGETAFNMLLDRIVNKREEPQSIEVHPRLIERRSVADGPFRDYRR" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"PD00221" "DNA-binding transcriptional activator RhaS" ["RhaS"] "MTVLHSVDFFPSGNASVAIEPRLPQADFPEHHHDFHEIVIVEHGTGIHVFNGQPYTITGGTVCFVRDHDRHLYEHTDNLCLTNVLYRSPDRFQFLAGLNQLLPQELDGQYPSHWRVNHSVLQQVRQLVAQMEQQEGENDLPSTASREILFMQLLLLLRKSSLQENLENSASRLNLLLAWLEDHFADEVNWDAVADQFSLSLRTLHRQLKQQTGLTPQRYLNRLRLMKARHLLRHSEASVTDIAYRCGFSDSNHFSTLFRREFNWSPRDIRQGRDGFLQ" [] ["CCO-CYTOSOL"] +"PD00222" "DNA-binding transcriptional activator RhaR" ["RhaR"] "MAHQLKLLKDDFFASDQQAVAVADRYPQDVFAEHTHDFCELVIVWRGNGLHVLNDRPYRITRGDLFYIHADDKHSYASVNDLVLQNIIYCPERLKLNLDWQGAIPGFNASAGQPHWRLGSMGMAQARQVIGQLEHESSQHVPFANEMAELLFGQLVMLLNRHRYTSDSLPPTSSETLLDKLITRLAASLKSPFALDKFCDEASCSERVLRQQFRQQTGMTINQYLRQVRVCHAQYLLQHSRLLISDISTECGFEDSNYFSVVFTRETGMTPSQWRHLNSQKD" [] ["CCO-CYTOSOL"] +"PD00230" "DNA-binding transcriptional dual regulator / DNA repair protein Ada" ["Ada"] "MKKATCLTDDQRWQSVLARDPNADGEFVFAVRTTGIFCRPSCRARHALRENVSFYANASEALAAGFRPCKRCQPEKANAQQHRLDKITHACRLLEQETPVTLEALADQVAMSPFHLHRLFKATTGMTPKAWQQAWRARRLRESLAKGESVTTSILNAGFPDSSSYYRKADETLGMTAKQFRHGGENLAVRYALADCELGRCLVAESERGICAILLGDDDATLISELQQMFPAADNAPADLMFQQHVREVIASLNQRDTPLTLPLDIRGTAFQQQVWQALRTIPCGETVSYQQLANAIGKPKAVRAVASACAANKLAIIIPCHRVVRGDGTLSGYRWGVSRKAQLLRREAENEER" [] ["CCO-CYTOSOL"] +"PD00232" "DNA-binding transcriptional dual regulator CysB" ["positive transcriptional regulator for cysteine regulon", "CysB"] "MKLQQLRYIVEVVNHNLNVSSTAEGLYTSQPGISKQVRMLEDELGIQIFSRSGKHLTQVTPAGQEIIRIAREVLSKVDAIKSVAGEHTWPDKGSLYIATTHTQARYALPNVIKGFIERYPRVSLHMHQGSPTQIADAVSKGNADFAIATEALHLYEDLVMLPCYHWNRAIVVTPDHPLAGKKAITIEELAQYPLVTYTFGFTGRSELDTAFNRAGLTPRIVFTATDADVIKTYVRLGLGVGVIASMAVDPVADPDLVRVDAHDIFSHSTTKIGFRRSTFLRSYMYDFIQRFAPHLTRDVVDAAVALRSNEEIEVMFKDIKLPEK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"PD00237" "DNA-binding transcriptional activator MalT" ["MalA", "MalT"] "MLIPSKLSRPVRLDHTVVRERLLAKLSGANNFRLALITSPAGYGKTTLISQWAAGKNDIGWYSLDEGDNQQERFASYLIAAVQQATNGHCAICETMAQKRQYASLTSLFAQLFIELAEWHSPLYLVIDDYHLITNPVIHESMRFFIRHQPENLTLVVLSRNLPQLGIANLRVRDQLLEIGSQQLAFTHQEAKQFFDCRLSSPIEAAESSRICDDVSGWATALQLIALSARQNTHSAHKSARRLAGINASHLSDYLVDEVLDNVDLATRHFLLKSAILRSMNDALITRVTGEENGQMRLEEIERQGLFLQRMDDTGEWFCYHPLFGNFLRQRCQWELAAELPEIHRAAAESWMAQGFPSEAIHHALAAGDALMLRDILLNHAWSLFNHSELSLLEESLKALPWDSLLENPQLVLLQAWLMQSQHRYGEVNTLLARAEHEIKDIREDTMHAEFNALRAQVAINDGNPDEAERLAKLALEELPPGWFYSRIVATSVLGEVLHCKGELTRSLALMQQTEQMARQHDVWHYALWSLIQQSEILFAQGFLQTAWETQEKAFQLINEQHLEQLPMHEFLVRIRAQLLWAWARLDEAEASARSGIEVLSSYQPQQQLQCLAMLIQCSLARGDLDNARSQLNRLENLLGNGKYHSDWISNANKVRVIYWQMTGDKAAAANWLRHTAKPEFANNHFLQGQWRNIARAQILLGEFEPAEIVLEELNENARSLRLMSDLNRNLLLLNQLYWQAGRKSDAQRVLLDALKLANRTGFISHFVIEGEAMAQQLRQLIQLNTLPELEQHRAQRILREINQHHRHKFAHFDENFVERLLNHPEVPELIRTSPLTQREWQVLGLIYSGYSNEQIAGELEVAATTIKTHIRNLYQKLGVAHRQDAVQHAQQLLKMMGYGV" [] ["CCO-CYTOSOL"] +"PD00242" "DNA-binding transcriptional dual regulator AraC" ["AraC"] "MAEAQNDPLLPGYSFNAHLVAGLTPIEANGYLDFFIDRPLGMKGYILNLTIRGQGVVKNQGREFVCRPGDILLFPPGEIHHYGRHPEAREWYHQWVYFRPRAYWHEWLNWPSIFANTGFFRPDEAHQPHFSDLFGQIINAGQGEGRYSELLAINLLEQLLLRRMEAINESLHPPMDNRVREACQYISDHLADSNFDIASVAQHVCLSPSRLSHLFRQQLGISVLSWREDQRISQAKLLLSTTRMPIATVGRNVGFDDQLYFSRVFKKCTGASPSEFRAGCEEKVNDVAVKLS" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"PD00250" "DNA-binding transcriptional dual regulator AsnC" ["AsnC"] "MENYLIDNLDRGILEALMGNARTAYAELAKQFGVSPGTIHVRVEKMKQAGIITGARIDVSPKQLGYDVGCFIGIILKSAKDYPSALAKLESLDEVTEAYYTTGHYSIFIKVMCRSIDALQHVLINKIQTIDEIQSTETLIVLQNPIMRTIKP" [] ["CCO-CYTOSOL"] +"PD00251" "DNA-binding transcriptional repressor BetI" ["BetI"] "MPKLGMQSIRRRQLIDATLEAINEVGMHDATIAQIARRAGVSTGIISHYFRDKNGLLEATMRDITSQLRDAVLNRLHALPQGSAEQRLQAIVGGNFDETQVSSAAMKAWLAFWASSMHQPMLYRLQQVSSRRLLSNLVSEFRRELPREQAQEAGYGLAALIDGLWLRAALSGKPLDKTRANSLTRHFITQHLPTD" [] ["CCO-CYTOSOL"] +"PD00257" "DNA-binding transcriptional dual regulator CRP" ["GurB", "Csm", "Cap", "Crp"] "MVLGKPQTDPTLEWFLSHCHIHKYPSKSTLIHQGEKAETLYYIVKGSVAVLIKDEEGKEMILSYLNQGDFIGELGLFEEGQERSAWVRAKTACEVAEISYKKFRQLIQVNPDILMRLSAQMARRLQVTSEKVGNLAFLDVTGRIAQTLLNLAKQPDAMTHPDGMQIKITRQEIGQIVGCSRETVGRILKMLEDQNLISAHGKTIVVYGTR" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"PD00260" "DNA-binding transcriptional dual regulator Fur" ["Fur"] "MTDNNTALKKAGLKVTLPRLKILEVLQEPDNHHVSAEDLYKRLIDMGEEIGLATVYRVLNQFDDAGIVTRHNFEGGKSVFELTQQHHHDHLICLDCGKVIEFSDDSIEARQREIAAKHGIRLTNHSLYLYGHCAEGDCREDEHAHEGK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"PD00261" "DNA-binding transcriptional dual regulator GalS" ["MglD", "GalS"] "MITIRDVARQAGVSVATVSRVLNNSTLVSADTREAVMKAVSELDYRPNANAQALATQVSDTIGVVVMDVSDAFFGALVKAVDLVAQQHQKYVLIGNSYHEAEKERHAIEVLIRQRCNALIVHSKALSDDELAQFMDNIPGMVLINRVVPGYAHRCVCLDNLSGARMATRMLLNNGHQRIGYLSSSHGIEDDAMRKAGWMSALKEQDIIPPESWIGAGTPDMPGGEAAMVELLGRNLQLTAVFAYNDNMAAGALTALKDNGIAIPLHLSIIGFDDIPIARYTDPQLTTVRYPIASMAKLATELALQGAAGNIDPRASHCFMPTLVRRHSVATRQNAAAITNSTNQAM" [] ["CCO-CYTOSOL"] +"PD00266" "DNA-binding transcriptional dual regulator NagC" ["NagR", "NagC", "transcriptional repressor of nag (N-acetylglucosamine) operon"] "MTPGGQAQIGNVDLVKQLNSAAVYRLIDQYGPISRIQIAEQSQLAPASVTKITRQLIERGLIKEVDQQASTGGRRAISIVTETRNFHAIGVRLGRHDATITLFDLSSKVLAEEHYPLPERTQQTLEHALLNAIAQFIDSYQRKLRELIAISVILPGLVDPDSGKIHYMPHIQVENWGLVEALEERFKVTCFVGHDIRSLALAEHYFGASQDCEDSILVRVHRGTGAGIISNGRIFIGRNGNVGEIGHIQVEPLGERCHCGNFGCLETIAANAAIEQRVLNLLKQGYQSRVPLDDCTIKTICKAANKGDSLASEVIEYVGRHLGKTIAIAINLFNPQKIVIAGEITEADKVLLPAIESCINTQALKAFRTNLPVVRSELDHRSAIGAFALVKRAMLNGILLQHLLEN" [] ["CCO-CYTOSOL"] +"PD00268" "DNA-binding transcriptional activator TdcA" ["TdcA", "transcriptional activator of tdc operon"] "MSTILLPKTQHLVVFQEVIRSGSIGSAAKELGLTQPAVSKIINDIEDYFGVELVVRKNTGVTLTPAGQLLLSRSESITREMKNMVNEISGMSSEAVVEVSFGFPSLIGFTFMSGMINKFKEVFPKAQVSMYEAQLSSFLPAIRDGRLDFAIGTLSAEMKLQDLHVEPLFESEFVLVASKSRTCTGTTTLESLKNEQWVLPQTNMGYYSELLTTLQRNGISIENIVKTDSVVTIYNLVLNADFLTVIPCDMTSPFGSNQFITIPVEETLPVAQYAAVWSKNYRIKKAASVLVELAKEYSSYNGCRRRQLIEVG" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"PD00283" "DNA-binding transcriptional repressor SrlR" ["GutR", "SrlR"] "MKPRQRQAAILEYLQKQGKCSVEELAQYFDTTGTTIRKDLVILEHAGTVIRTYGGVVLNKEESDPPIDHKTLINTHKKELIAEAAVSFIHDGDSIILDAGSTVLQMVPLLSRFNNITVMTNSLHIVNALSELDNEQTILMPGGTFRKKSASFHGQLAENAFEHFTFDKLFMGTDGIDLNAGVTTFNEVYTVSKAMCNAAREVILMADSSKFGRKSPNVVCSLESVDKLITDAGIDPAFRQALEEKGIDVIITGESNE" [] ["CCO-CYTOSOL"] +"PD00288" "DNA-binding transcriptional dual regulator H-NS" ["Irk", "MsyA", "PilG", "TopS", "TopX", "VirR", "Drs", "Drc", "Cur", "Hns", "FimG", "DrdX", "BglY", "HnsA", "DNA-binding protein HLP-II (HU, BH2, HD, NS)", "OsmZ", "H-NS"] "MSEALKILNNIRTLRAQARECTLETLEEMLEKLEVVVNERREEESAAAAEVEERTRKLQQYREMLIADGIDPNELLNSLAAVKSGTKAKRAQRPAKYSYVDENGETKTWTGQGRTPAVIKKAMDEQGKSLDDFLIKQ" ["CCO-CYTOSOL"] ["CCO-BAC-NUCLEOID", "CCO-CYTOSOL"] +"PD00291" "DNA-binding transcriptional dual regulator CynR" ["CynR"] "MLSRHINYFLAVAEHGSFTRAASALHVSQPALSQQIRQLEESLGVPLFDRSGRTIRLTDAGEVWRQYASRALQELGAGKRAIHDVADLTRGSLRIAVTPTFTSYFIGPLMADFYARYPSITLQLQEMSQEKIEDMLCRDELDVGIAFAPVHSPELEAIPLLTESLALVVAQHHPLAVHEQVALSRLHDEKLVLLSAEFATREQIDHYCEKAGLHPQVVIEANSISAVLELIRRTSLSTLLPAAIATQHDGLKAISLAPPLLERTAVLLRRKNSWQTAAAKAFLHMALDKCAVVGGNESR" [] ["CCO-CYTOSOL"] +"PD00297" "DNA-binding transcriptional dual regulator DsdC" ["DsdC"] "MEPLREIRNRLLNGWQLSKMHTFEVAARHQSFALAAEELSLSPSAVSHRINQLEEELGIQLFVRSHRKVELTHEGKRVYWALKSSLDTLNQEILDIKNQELSGTLTLYSRPSIAQCWLVPALGDFTRRYPSISLTVLTGNDNVNLQRAGIDLAIYFDDAPSAQLTHHFLMDEEILPVCSPEYAQRHALTNTVINLCHCTLLHDRQAWSNDSGTDEWHSWAQHYAVNLPTSSGIGFDRSDLAVIAAMNHIGVAMGRKRLVQKRLASGELVAPFGDMTVKCHQHYYITTLPGRQWPKIEAFIIWLREQVKTTS" [] ["CCO-CYTOSOL"] +"PD00338" "DNA-binding transcriptional repressor GatR, N-terminal fragment" ["GatR"] "MNSFERRNKIIQLVNEQGTVLVQDLAGVFAASEATIRADLRFLEQKGVVTRFHGGAAKIMSGNSETETQEVGFKERFQLASAPKNRIAQAAVKMIHEGMTVILDSGSTTMLIAEGLMTAKNITVITNSLPAAFALSENKDITLVVCGGTVRHKTRSMHGSIAERSLQDINADLMFVGADGIDAVNGITTFNEGYSISGAMVTAANKVIAVLDSSKFNRRGFNQVLPIEKIDIIITDDAVSEVDKLALQKTRVKLITV" [] ["CCO-MEMBRANE"] +"PD00339" "DNA-binding transcriptional dual regulator GcvA" ["GcvA", "positive regulator of gcv operon"] "MSKRLPPLNALRVFDAAARHLSFTRAAEELFVTQAAVSHQIKSLEDFLGLKLFRRRNRSLLLTEEGQSYFLDIKEIFSQLTEATRKLQARSAKGALTVSLLPSFAIHWLVPRLSSFNSAYPGIDVRIQAVDRQEDKLADDVDVAIFYGRGNWPGLRVEKLYAEYLLPVCSPLLLTGEKPLKTPEDLAKHTLLHDASRRDWQTYTRQLGLNHINVQQGPIFSHSAMVLQAAIHGQGVALANNVMAQSEIEAGRLVCPFNDVLVSKNAFYLVCHDSQAELGKIAAFRQWILAKAAAEQEKFRFRYEQ" [] ["CCO-CYTOSOL"] +"PD00345" "DNA-binding transcriptional activator GutM" ["GutM", "SrlM", "Gut"] "MVSALITVAVIAWCAQLALGGWQISRFNRAFDTLCQQGRVGVGRSSGRFKPRVVVAIALDDQQRIVDTLFMKGLTVFARPQKIPAITGMHAGDLQPDVIFPHDPLSQNALSLALKLKRG" [] ["CCO-PM-BAC-NEG"] +"PD00347" "integration host factor subunit α" ["IhfA", "HimA", "integration host factor (IHF), α subunit; site specific recombination", "Hid"] "MALTKAEMSEYLFDKLGLSKRDAKELVELFFEEIRRALENGEQVKLSGFGNFDLRDKNQRPGRNPKTGEDIPITARRVVTFRPGQKLKSRVENASPKDE" ["CCO-CYTOSOL"] ["CCO-BAC-NUCLEOID", "CCO-CYTOSOL"] +"PD00348" "integration host factor subunit β" ["IhfB", "Hip", "HimD", "integration host factor (IHF), β subunit; site-specific recombination"] "MTKSELIERLATQQSHIPAKTVEDAVKEMLEHMASTLAQGERIEIRGFGSFSLHYRAPRTGRNPKTGDKVELEGKYVPHFKPGKELRDRANIYG" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"PD00353" "DNA-binding transcriptional dual regulator Lrp" ["LstR", "Mbf", "OppI", "RblA", "Lss", "Lrs", "Ihb", "Lrp", "LivR", "AlsB"] "MVDSKKRPGKDLDRIDRNILNELQKDGRISNVELSKRVGLSPTPCLERVRRLERQGFIQGYTALLNPHYLDASLLVFVEITLNRGAPDVFEQFNTAVQKLEEIQECHLVSGDFDYLLKTRVPDMSAYRKLLGETLLRLPGVNDTRTYVVMEEVKQSNRLVIKTR" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"PD00360" "DNA-binding transcriptional dual regulator LysR" ["LysR", "positive regulator for lys"] "MAAVNLRHIEIFHAVMTAGSLTEAAHLLHTSQPTVSRELARFEKVIGLKLFERVRGRLHPTVQGLRLFEEVQRSWYGLDRIVSAAESLREFRQGELSIACLPVFSQSFLPQLLQPFLARYPDVSLNIVPQESPLLEEWLSAQRHDLGLTETLHTPAGTERTELLSLDEVCVLPPGHPLAVKKVLTPDDFQGENYISLSRTDSYRQLLDQLFTEHQVKRRMIVETHSAASVCAMVRAGVGISVVNPLTALDYAASGLVVRRFSIAVPFTVSLIRPLHRPSSALVQAFSGHLQAGLPKLVTSLDAILSSATTA" [] ["CCO-CYTOSOL"] +"PD00361" "DNA-binding transcriptional repressor MalI" ["MalI"] "MATAKKITIHDVALAAGVSVSTVSLVLSGKGRISTATGERVNAAIEELGFVRNRQASALRGGQSGVIGLIVRDLSAPFYAELTAGLTEALEAQGRMVFLLHGGKDGEQLAQRFSLLLNQGVDGVVIAGAAGSSDDLRRMAEEKAIPVIFASRASYLDDVDTVRPDNMQAAQLLTEHLIRNGHQRIAWLGGQSSSLTRAERVGGYCATLLKFGLPFHSDWVLECTSSQKQAAEAITALLRHNPTISAVVCYNETIAMGAWFGLLKAGRQSGESGVDRYFEQQVSLAAFTDATPTTLDDIPVTWASTPARELGITLADRMMQKITHEETHSRNLIIPARLIAAK" [] ["CCO-CYTOSOL"] +"PD00364" "DNA-binding transcriptional repressor MarR" ["SoxQ", "InaR", "CfxB", "MarR"] "MKSTSDLFNEIIPLGRLIHMVNQKKDRLLNEYLSPLDITAAQFKVLCSIRCAACITPVELKKVLSVDLGALTRMLDRLVCKGWVERLPNPNDKRGVLVKLTTGGAAICEQCHQLVGQDLHQELTKNLTADEVATLEYLLKKVLP" [] ["CCO-CYTOSOL"] +"PD00365" "DNA-binding transcriptional dual regulator MarA" ["CfxB", "InaR", "NorB", "SoxQ", "NfxC", "MarA"] "MSRRNTDAITIHSILDWIEDNLESPLSLEKVSERSGYSKWHLQRMFKKETGHSLGQYIRSRKMTEIAQKLKESNEPILYLAERYGFESQQTLTRTFKNYFDVPPHKYRMTNMQGESRFLHPLNHYNS" [] ["CCO-CYTOSOL"] +"PD00369" "transcriptional repressor MtlR" ["MtlR", "repressor for mtl"] "MVDQAQDTLRPNNRLSDMQATMEQTQAFENRVLERLNAGKTVRSFLITAVELLTEAVNLLVLQVFRKDDYAVKYAVEPLLDGDGPLGDLSVRLKLIYGLGVINRQEYEDAELLMALREELNHDGNEYAFTDDEILGPFGELHCVAALPPPPQFEPADSSLYAMQIQRYQQAVRSTMVLSLTELISKISLKKAFQK" [] ["CCO-CYTOSOL"] +"PD00406" "DNA-binding transcriptional dual regulator SoxS" ["SoxS", "regulation of superoxide response regulon"] "MSHQKIIQDLIAWIDEHIDQPLNIDVVAKKSGYSKWYLQRMFRTVTHQTLGDYIRQRRLLLAAVELRTTERPIFDIAMDLGYVSQQTFSRVFRRQFDRTPSDYRHRL" [] ["CCO-CYTOSOL"] +"PD00413" "DNA-binding transcriptional dual regulator TyrR" ["TyrR"] "MRLEVFCEDRLGLTRELLDLLVLRGIDLRGIEIDPIGRIYLNFAELEFESFSSLMAEIRRIAGVTDVRTVPWMPSEREHLALSALLEALPEPVLSVDMKSKVDMANPASCQLFGQKLDRLRNHTAAQLINGFNFLRWLESEPQDSHNEHVVINGQNFLMEITPVYLQDENDQHVLTGAVVMLRSTIRMGRQLQNVAAQDVSAFSQIVAVSPKMKHVVEQAQKLAMLSAPLLITGDTGTGKDLFAYACHQASPRAGKPYLALNCASIPEDAVESELFGHAPEGKKGFFEQANGGSVLLDEIGEMSPRMQAKLLRFLNDGTFRRVGEDHEVHVDVRVICATQKNLVELVQKGMFREDLYYRLNVLTLNLPPLRDCPQDIMPLTELFVARFADEQGVPRPKLAADLNTVLTRYAWPGNVRQLKNAIYRALTQLDGYELRPQDILLPDYDAATVAVGEDAMEGSLDEITSRFERSVLTQLYRNYPSTRKLAKRLGVSHTAIANKLREYGLSQKKNEE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"PD00423" "DNA-binding transcriptional repressor TrpR" ["RtrY", "TrpR"] "MAQQSPYSAAMAEQRHQEWLRFVDLLKNAYQNDLHLPLLNLMLTPDEREALGTRVRIVEELLRGEMSQRELKNELGAGIATITRGSNSLKAAPVELRQWLEEVLLKSD" [] ["CCO-CYTOSOL"] +"PD00436" "DNA-binding transcriptional activator CadC" ["CadC"] "MQQPVVRVGEWLVTPSINQISRNGRQLTLEPRLIDLLVFFAQHSGEVLSRDELIDNVWKRSIVTNHVVTQSISELRKSLKDNDEDSPVYIATVPKRGYKLMVPVIWYSEEEGEEIMLSSPPPIPEAVPATDSPSHSLNIQNTATPPEQSPVKSKRFTTFWVWFFFLLSLGICVALVAFSSLDTRLPMSKSRILLNPRDIDINMVNKSCNSWSSPYQLSYAIGVGDLVATSLNTFSTFMVHDKINYNIDEPSSSGKTLSIAFVNQRQYRAQQCFMSIKLVDNADGSTMLDKRYVITNGNQLAIQNDLLESLSKALNQPWPQRMQETLQKILPHRGALLTNFYQAHDYLLHGDDKSLNRASELLGEIVQSSPEFTYARAEKALVDIVRHSQHPLDEKQLAALNTEIDNIVTLPELNNLSIIYQIKAVSALVKGKTDESYQAINTGIDLEMSWLNYVLLGKVYEMKGMNREAADAYLTAFNLRPGANTLYWIENGIFQTSVPYVVPYLDKFLASE" ["CCO-PM-BAC-NEG"] ["CCO-CYTOSOL", "CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"PD00440" "RNA polymerase sigma factor FecI" ["FecI", "σ19", "RNA polymerase, sigma 19 factor"] "MSDRATTTASLTFESLYGTHHGWLKSWLTRKLQSAFDADDIAQDTFLRVMVSETLSTIRDPRSFLCTIAKRVMVDLFRRNALEKAYLEMLALMPEGGAPSPEERESQLETLQLLDSMLDGLNGKTREAFLLSQLDGLTYSEIAHKLGVSISSVKKYVAKAVEHCLLFRLEYGL" [] ["CCO-CYTOSOL"] +"PD00444" "DNA-binding transcriptional activator FucR" ["FucR"] "MKAARQQAIVDLLLNHTSLTTEALSEQLKVSKETIRRDLNELQTQGKILRNHGRAKYIHRQNQDSGDPFHIRLKSHYAHKADIAREALAWIEEGMVIALDASSTCWYLARQLPDINIQVFTNSHPICHELGKRERIQLISSGGTLERKYGCYVNPSLISQLKSLEIDLFIFSCEGIDSSGALWDSNAINADYKSMLLKRAAQSLLLIDKSKFNRSGEARIGHLDEVTHIISDERQVATSLVTA" [] ["CCO-CYTOSOL"] +"PD00474" "DNA-binding transcriptional activator NhaR" ["YaaB", "AntO", "NhaR"] "MSMSHINYNHLYYFWHVYKEGSVVGAAEALYLTPQTITGQIRALEERLQGKLFKRKGRGLEPSELGELVYRYADKMFTLSQEMLDIVNYRKESNLLFDVGVADALSKRLVSSVLNAAVVEGEPIHLRCFESTHEMLLEQLSQHKLDMIISDCPIDSTQQEGLFSVRIGECGVSFWCTNPPPEKPFPACLEERRLLIPGRRSMLGRKLLNWFNSQGLNVEILGEFDDAALMKAFGAMHNAIFVAPTLYAYDFYADKTVVEIGRVENVMEEYHAIFAERMIQHPAVQRICNTDYSALFSPAVR" [] ["CCO-CYTOSOL"] +"PD00519" "DNA-binding transcriptional dual regulator LeuO" ["LeuO"] "MPEVQTDHPETAELSKPQLRMVDLNLLTVFDAVMQEQNITRAAHVLGMSQPAVSNAVARLKVMFNDELFVRYGRGIQPTARAFQLFGSVRQALQLVQNELPGSGFEPASSERVFHLCVCSPLDSILTSQIYNHIEQIAPNIHVMFKSSLNQNTEHQLRYQETEFVISYEDFHRPEFTSVPLFKDEMVLVASKNHPTIKGPLLKHDVYNEQHAAVSLDRFASFSQPWYDTVDKQASIAYQGMAMMSVLSVVSQTHLVAIAPRWLAEEFAESLELQVLPLPLKQNSRTCYLSWHEAAGRDKGHQWMEEQLVSICKR" [] ["CCO-CYTOSOL"] +"PD00521" "DNA-binding transcriptional dual regulator Cra" ["Shl", "FruC", "FruR", "Cra"] "MKLDEIARLAGVSRTTASYVINGKAKQYRVSDKTVEKVMAVVREHNYHPNAVAAGLRAGRTRSIGLVIPDLENTSYTRIANYLERQARQRGYQLLIACSEDQPDNEMRCIEHLLQRQVDAIIVSTSLPPEHPFYQRWANDPFPIVALDRALDREHFTSVVGADQDDAEMLAEELRKFPAETVLYLGALPELSVSFLREQGFRTAWKDDPREVHFLYANSYEREAAAQLFEKWLETHPMPQALFTTSFALLQGVMDVTLRRDGKLPSDLAIATFGDNELLDFLQCPVLAVAQRHRDVAERVLEIVLASLDEPRKPKPGLTRIKRNLYRRGVLSRS" [] ["CCO-CYTOSOL"] +"PD00763" "DNA-binding transcriptional repressor LacI" ["LacI", "transcriptional repressor of the lac operon"] "MKPVTLYDVAEYAGVSYQTVSRVVNQASHVSAKTREKVEAAMAELNYIPNRVAQQLAGKQSLLIGVATSSLALHAPSQIVAAIKSRADQLGASVVVSMVERSGVEACKAAVHNLLAQRVSGLIINYPLDDQDAIAVEAACTNVPALFLDVSDQTPINSIIFSHEDGTRLGVEHLVALGHQQIALLAGPLSSVSARLRLAGWHKYLTRNQIQPIAEREGDWSAMSGFQQTMQMLNEGIVPTAMLVANDQMALGAMRAITESGLRVGADISVVGYDDTEDSSCYIPPLTTIKQDFRLLGQTSVDRLLQLSQGQAVKGNQLLPVSLVKRKTTLAPNTQTASPRALADSLMQLARQVSRLESGQ" [] ["CCO-CYTOSOL"] +"PD00967" "DLP12 prophage; DNA-binding transcriptional activator AppY" ["AppY"] "MDYVCSVVFICQSFDLIINRRVISFKKNSLFIVSDKIRRELPVCPSKLRIVDIDKKTCLSFFIDVNNELPGKFTLDKNGYIAEEEPPLSLVFSLFEGIKIADSHSLWLKERLCISLLAMFKKRESVNSFILTNINTFTCKITGIISFNIERQWHLKDIAELIYTSESLIKKRLRDEGTSFTEILRDTRMRYAKKLITSNSYSINVVAQKCGYNSTSYFICAFKDYYGVTPSHYFEKIIGVTDGINKTID" [] ["CCO-CYTOSOL"] +"PD00969" "DNA-binding transcriptional activator EnvY" ["EnvY", "envelope protein; thermoregulation of porin biosynthesis"] "MQLSSSEPCVVILTEKEVEVSVNNHATFTLPKNYLAAFACNNNVIELSTLNHVLITHINRNIINDYLLFLNKNLTCVKPWSRLATPVIACHSRTPEVFRLAANHSKQQPSRPCEAELTRALLFTVLSNFLEQSRFIALLMYILRSSVRDSVCRIIQSDIQHYWNLRIVASSLCLSPSLLKKKLKNENTSYSQIVTECRMRYAVQMLLMDNKNITQVAQLCGYSSTSYFISVFKAFYGLTPLNYLAKQRQKVMW" ["CCO-MEMBRANE"] ["CCO-CYTOSOL"] +"PD01103" "DNA-binding transcriptional repressor MngR" ["YbgB", "FarR", "MngR"] "MGHKPLYRQIADRIREQIARGELKPGDALPTESALQTEFGVSRVTVRQALRQLVEQQILESIQGSGTYVKEERVNYDIFQLTSFDEKLSDRHVDTHSEVLIFEVIPADDFLQQQLQITPQDRVWHVKRVRYRKQKPMALEETWMPLALFPDLTWQVMENSKYHFIEEVKKMVIDRSEQEIIPLMPTEEMSRLLNISQTKPILEKVSRGYLVDGRVFEYSRNAFNTDDYKFTLIAQRKSSR" [] ["CCO-CYTOSOL"] +"PD01196" "DNA-binding transcriptional repressor DeoR" ["NucR", "DeoR", "transcriptional repressor for deo operon, tsx, nupG"] "METRREERIGQLLQELKRSDKLHLKDAAALLGVSEMTIRRDLNNHSAPVVLLGGYIVLEPRSASHYLLSDQKSRLVEEKRRAAKLAATLVEPDQTLFFDCGTTTPWIIEAIDNEIPFTAVCYSLNTFLALKEKPHCRAFLCGGEFHASNAIFKPIDFQQTLNNFCPDIAFYSAAGVHVSKGATCFNLEELPVKHWAMSMAQKHVLVVDHSKFGKVRPARMGDLKRFDIVVSDCCPEDEYVKYAQTQRIKLMY" [] ["CCO-CYTOSOL"] +"PD01343" "NAD(P)H:quinone oxidoreductase" ["WrbA"] "MAKVLVLYYSMYGHIETMARAVAEGASKVDGAEVVVKRVPETMPPQLFEKAGGKTQTAPVATPQELADYDAIIFGTPTRFGNMSGQMRTFLDQTGGLWASGALYGKLASVFSSTGTGGGQEQTITSTWTTLAHHGMVIVPIGYAAQELFDVSQVRGGTPYGATTIAGGDGSRQPSQEELSIARYQGEYVAGLAVKLNG" ["CCO-CYTOSOL"] [] +"PD01352" "DNA-binding transcriptional dual regulator RutR" ["YcdC", "RutR"] "MTQGAVKTTGKRSRAVSAKKKAILSAALDTFSQFGFHGTRLEQIAELAGVSKTNLLYYFPSKEALYIAVLRQILDIWLAPLKAFREDFAPLAAIKEYIRLKLEVSRDYPQASRLFCMEMLAGAPLLMDELTGDLKALIDEKSALIAGWVKSGKLAPIDPQHLIFMIWASTQHYADFAPQVEAVTGATLRDEVFFNQTVENVQRIIIEGIRPR" [] ["CCO-CYTOSOL"] +"PD01379" "DNA-binding transcriptional dual regulator CsgD" ["CsgD"] "MFNEVHSIHGHTLLLITKSSLQATALLQHLKQSLAITGKLHNIQRSLDDISSGSIILLDMMEADKKLIHYWQDTLSRKNNNIKILLLNTPEDYPYRDIENWPHINGVFYSMEDQERVVNGLQGVLRGECYFTQKLASYLITHSGNYRYNSTESALLTHREKEILNKLRIGASNNEIARSLFISENTVKTHLYNLFKKIAVKNRTQAVSWANDNLRR" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG", "CCO-CYTOSOL"] +"PD01520" "DNA-binding transcriptional dual regulator FadR" ["Ole", "Dec", "ThdB", "OleR", "FadR"] "MVIKAQSPAGFAEEYIIESIWNNRFPPGTILPAERELSELIGVTRTTLREVLQRLARDGWLTIQHGKPTKVNNFWETSGLNILETLARLDHESVPQLIDNLLSVRTNISTIFIRTAFRQHPDKAQEVLATANEVADHADAFAELDYNIFRGLAFASGNPIYGLILNGMKGLYTRIGRHYFANPEARSLALGFYHKLSALCSEGAHDQVYETVRRYGHESGEIWHRMQKNLPGDLAIQGR" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"PD01896" "DNA-binding transcriptional repressor Mlc" ["Mlc", "DgsA"] "MVAENQPGHIDQIKQTNAGAVYRLIDQLGPVSRIDLSRLAQLAPASITKIVREMLEAHLVQELEIKEAGNRGRPAVGLVVETEAWHYLSLRISRGEIFLALRDLSSKLVVEESQELALKDDLPLLDRIISHIDQFFIRHQKKLERLTSIAITLPGIIDTENGIVHRMPFYEDVKEMPLGEALEQHTGVPVYIQHDISAWTMAEALFGASRGARDVIQVVIDHNVGAGVITDGHLLHAGSSSLVEIGHTQVDPYGKRCYCGNHGCLETIASVDSILELAQLRLNQSMSSMLHGQPLTVDSLCQAALRGDLLAKDIITGVGAHVGRILAIMVNLFNPQKILIGSPLSKAADILFPVISDSIRQQALPAYSQHISVESTQFSNQGTMAGAALVKDAMYNGSLLIRLLQG" [] ["CCO-CYTOSOL"] +"PD02198" "DNA-binding transcriptional dual regulator SdiA" ["SdiA"] "MQDKDFFSWRRTMLLRFQRMETAEEVYHEIELQAQQLEYDYYSLCVRHPVPFTRPKVAFYTNYPEAWVSYYQAKNFLAIDPVLNPENFSQGHLMWNDDLFSEAQPLWEAARAHGLRRGVTQYLMLPNRALGFLSFSRCSAREIPILSDELQLKMQLLVRESLMALMRLNDEIVMTPEMNFSKREKEILRWTAEGKTSAEIAMILSISENTVNFHQKNMQKKINAPNKTQVACYAAATGLI" [] ["CCO-CYTOSOL"] +"PD02233" "DNA-binding transcriptional activator RcsA" ["CpsR", "RcsA", "positive regulator of capsular polysaccharide synthesis", "positive DNA-binding transcriptional regulator of capsular polysaccharide synthesis, activates its own expression"] "MSTIIMDLCSYTRLGLTGYLLSRGVKKREINDIETVDDLAIACDSQRPSVVFINEDCFIHDASNSQRIKLIINQHPNTLFIVFMAIANVHFDEYLLVRKNLLISSKSIKPESLDDILGDILKKETTITSFLNMPTLSLSRTESSMLRMWMAGQGTIQISDQMNIKAKTVSSHKGNIKRKIKTHNKQVIYHVVRLTDNVTNGIFVNMR" [] ["CCO-CYTOSOL"] +"PD02850" "CP4-57 prophage; DNA-binding transcriptional activator AlpA" ["AlpA"] "MNNRSAVRILRLPAVIQKTGMARATIYDWLNPKSPRYDATFPKKRMLGVKSVGWIEAEIDEWLSQRCKLI" [] ["CCO-CYTOSOL"] +"PD02936" "DNA-binding transcriptional activator FhlA" ["Fhl", "FhlA", "formate hydrogen-lyase transcriptional activator for fdhF, hyc and hyp operons"] "MSYTPMSDLGQQGLFDITRTLLQQPDLASLCEALSQLVKRSALADNAAIVLWQAQTQRASYYASREKDTPIKYEDETVLAHGPVRSILSRPDTLHCSYEEFCETWPQLDAGGLYPKFGHYCLMPLAAEGHIFGGCEFIRYDDRPWSEKEFNRLQTFTQIVSVVTEQIQSRVVNNVDYELLCRERDNFRILVAITNAVLSRLDMDELVSEVAKEIHYYFDIDDISIVLRSHRKNKLNIYSTHYLDKQHPAHEQSEVDEAGTLTERVFKSKEMLLINLHERDDLAPYERMLFDTWGNQIQTLCLLPLMSGDTMLGVLKLAQCEEKVFTTTNLNLLRQIAERVAIAVDNALAYQEIHRLKERLVDENLALTEQLNNVDSEFGEIIGRSEAMYSVLKQVEMVAQSDSTVLILGETGTGKELIARAIHNLSGRNNRRMVKMNCAAMPAGLLESDLFGHERGAFTGASAQRIGRFELADKSSLFLDEVGDMPLELQPKLLRVLQEQEFERLGSNKIIQTDVRLIAATNRDLKKMVADREFRSDLYYRLNVFPIHLPPLRERPEDIPLLAKAFTFKIARRLGRNIDSIPAETLRTLSNMEWPGNVRELENVIERAVLLTRGNVLQLSLPDIVLPEPETPPAATVVALEGEDEYQLIVRVLKETNGVVAGPKGAAQRLGLKRTTLLSRMKRLGIDKSALI" [] ["CCO-CYTOSOL"] +"PD03028" "DNA-binding transcriptional dual regulator GalR" ["GalR"] "MATIKDVARLAGVSVATVSRVINNSPKASEASRLAVHSAMESLSYHPNANARALAQQTTETVGLVVGDVSDPFFGAMVKAVEQVAYHTGNFLLIGNGYHNEQKERQAIEQLIRHRCAALVVHAKMIPDADLASLMKQMPGMVLINRILPGFENRCIALDDRYGAWLATRHLIQQGHTRIGYLCSNHSISDAEDRLQGYYDALAESGIAANDRLVTFGEPDESGGEQAMTELLGRGRNFTAVACYNDSMAAGAMGVLNDNGIDVPGEISLIGFDDVLVSRYVRPRLTTVRYPIVTMATQAAELALALADNRPLPEITNVFSPTLVRRHSVSTPSLEASHHATSD" [] ["CCO-CYTOSOL"] +"PD03254" "DNA-binding transcriptional repressor EbgR" ["EbgR"] "MATLKDIAIEAGVSLATVSRVLNDDPTLNVKEETKHRILEIAEKLEYKTSSARKLQTGAVNQHHILAIYSYQQELEINDPYYLAIRHGIETQCEKLGIELTNCYEHSGLPDIKNVTGILIVGKPTPALRAAASALTDNICFIDFHEPGSGYDAVDIDLARISKEIIDFYINQGVNRIGFIGGEDEPGKADIREVAFAEYGRLKQVVREEDIWRGGFSSSSGYELAKQMLAREDYPKALFVASDSIAIGVLRAIHERGLNIPQDISLISVNDIPTARFTFPPLSTVRIHSEMMGSQGVNLVYEKARDGRALPLLVFVPSKLKLRGTTR" [] ["CCO-CYTOSOL"] +"PD03270" "DNA-binding transcriptional repressor ExuR" ["ExuR", "negative regulator of exu regulon, exuT, uxaAC, and uxuB"] "MEITEPRRLYQQLAADLKERIEQGVYLVGDKLPAERFIADEKNVSRTVVREAIIMLEVEGYVEVRKGSGIHVVSNQPRHQQAADNNMEFANYGPFELLQARQLIESNIAEFAATQVTKQDIMKLMAIQEQARGEQCFRDSEWDLQFHIQVALATQNSALAAIVEKMWTQRSHNPYWKKLHEHIDSRTVDNWCDDHDQILKALIRKDPHAAKLAMWQHLENTKIMLFNETSDDFEFNADRYLFAENPVVHLDTATSGSK" [] ["CCO-CYTOSOL"] +"PD03292" "DNA-binding transcriptional activator TdcR" ["TdcR", "threonine dehydratase operon activator protein"] "MSKFSNFIINKPFSVINNAACHIFSRYLLENKHLFYQYFKISNTCIDHLEQLINVNFFSSDRTSFCECNRFP" [] ["CCO-CYTOSOL"] +"PD03576" "DNA-binding transcriptional repressor GlpR" ["GlpR"] "MKQTQRHNGIIELVKQQGYVSTEELVEHFSVSPQTIRRDLNELAEQNLILAIMAVRRCLPVRLTRRGTIARPPRPKKKSASPAKWRSKSPMARRCLSISAPRRKR*RTHCSITAICALSPTISTLLTR*W*KKIFASFSPVANYAAAMAGSLAKRRSILSPSSALISAFWG*AASIATARCWSSITTKFAPNAPLLRTRATLCWLSITRNLAVTRWSIWAASAW*MPSTPTPRRQ*A*CRC*RTTIFNWSC" [] ["CCO-CYTOSOL"] +"PD03585" "DNA-binding transcriptional repressor GntR" ["GntR"] "MKKKRPVLQDVADRVGVTKMTVSRFLRNPEQVSVALRGKIAAALDELGYIPNRAPDILSNATSRAIGVLLPSLTNQVFAEVLRGIESVTDAHGYQTMLAHYGYKPEMEQERLESMLSWNIDGLILTERTHTPRTLKMIEVAGIPVVELMDSKSPCLDIAVGFDNFEAARQMTTAIIARGHRHIAYLGARLDERTIIKQKGYEQAMLDAGLVPYSVMVEQSSSYSSGIELIRQARREYPQLDGVFCTNDDLAVGAAFECQRLGLKVPDDMAIAGFHGHDIGQVMEPRLASVLTPRERMGSIGAERLLARIRGESVTPKMLDLGFTLSPGGSI" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"PD03695" "cold shock protein CspA" ["CspA", "major cold shock protein 7.4", "CS7.4", "F10.6", "DNA-binding transcriptional activator CspA"] "MSGKMTGIVKWFNADKGFGFITPDDGSKDVFVHFSAIQNDGYKSLDEGQKVSFTIESGAKGPAAGNVTSL" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"PD03831" "chromosomal replication initiator protein DnaA" ["DnaA", "chromosomal replication initiator protein/DNA-binding transcriptional dual regulator DnaA"] "MSLSLWQQCLARLQDELPATEFSMWIRPLQAELSDNTLALYAPNRFVLDWVRDKYLNNINGLLTSFCGADAPQLRFEVGTKPVTQTPQAAVTSNVAAPAQVAQTQPQRAAPSTRSGWDNVPAPAEPTYRSNVNVKHTFDNFVEGKSNQLARAAARQVADNPGGAYNPLFLYGGTGLGKTHLLHAVGNGIMARKPNAKVVYMHSERFVQDMVKALQNNAIEEFKRYYRSVDALLIDDIQFFANKERSQEEFFHTFNALLEGNQQIILTSDRYPKEINGVEDRLKSRFGWGLTVAIEPPELETRVAILMKKADENDIRLPGEVAFFIAKRLRSNVRELEGALNRVIANANFTGRAITIDFVREALRDLLALQEKLVTIDNIQKTVAEYYKIKVADLLSKRRSRSVARPRQMAMALAKELTNHSLPEIGDAFGGRDHTTVLHACRKIEQLREESHDIKEDFSNLIRTLSS" ["CCO-CYTOSOL", "CCO-PM-BAC-NEG"] ["CCO-PM-BAC-NEG", "CCO-CYTOSOL"] +"PD03867" "DNA-binding transcriptional dual regulator RbsR" ["RbsR", "regulator for rbs operon"] "MATMKDVARLAGVSTSTVSHVINKDRFVSEAITAKVEAAIKELNYAPSALARSLKLNQTHTIGMLITASTNPFYSELVRGVERSCFERGYSLVLCNTEGDEQRMNRNLETLMQKRVDGLLLLCTETHQPSREIMQRYPTVPTVMMDWAPFDGDSDLIQDNSLLGGDLATQYLIDKGHTRIACITGPLDKTPARLRLEGYRAAMKRAGLNIPDGYEVTGDFEFNGGFDAMRQLLSHPLRPQAVFTGNDAMAVGVYQALYQAELQVPQDIAVIGYDDIELASFMTPPLTTIHQPKDELGELAIDVLIHRITQPTLQQQRLQLTPILMERGSA" [] ["CCO-CYTOSOL"] +"PD03938" "DNA-binding transcriptional dual regulator MetR" ["MetR"] "MIEVKHLKTLQALRNCGSLAAAAATLHQTQSALSHQFSDLEQRLGFRLFVRKSQPLRFTPQGEILLQLANQVLPQISQALQACNEPQQTRLRIAIECHSCIQWLTPALENFHKNWPQVEMDFKSGVTFDPQPALQQGELDLVMTSDILPRSGLHYSPMFDYEVRLVLAPDHPLAAKTRITPEDLASETLLIYPVQRSRLDVWRHFLQPAGVSPSLKSVDNTLLLIQMVAARMGIAALPHWVVESFERQGLVVTKTLGEGLWSRLYAAVRDGEQRQPVTEAFIRSARNHACDHLPFVKSAERPTYDAPTVRPGSPARL" [] ["CCO-CYTOSOL"] +"PD04028" "DNA-binding transcriptional repressor CytR" ["CytR"] "MKAKKQETAATMKDVALKAKVSTATVSRALMNPDKVSQATRNRVEKAAREVGYLPQPMGRNVKRNESRTILVIVPDICDPFFSEIIRGIEVTAANHGYLVLIGDCAHQNQQEKTFIDLIITKQIDGMLLLGSRLPFDASIEEQRNLPPMVMANEFAPELELPTVHIDNLTAAFDAVNYLYEQGHKRIGCIAGPEEMPLCHYRLQGYVQALRRCGIMVDPQYIARGDFTFEAGSKAMQQLLDLPQPPTAVFCHSDVMALGALSQAKRQGLKVPEDLSIIGFDNIDLTQFCDPPLTTIAQPRYEIGREAMLLLLDQMQGQHVGSGSRLMDCELIIRGSTRALP" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"PD04032" "DNA-binding transcriptional repressor MetJ" ["MetJ"] "MAEWSGEYISPYAEHGKKSEQVKKITVSIPLKVLKILTDERTRRQVNNLRHATNSELLCEAFLHAFTGQPLPDDADLRKERSDEIPEAAKEIMREMGINPETWEY" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"PD04099" "DNA-binding transcriptional repressor IclR" ["IclR"] "MVAPIPAKRGRKPAVATAPATGQVQSLTRGLKLLEWIAESNGSVALTELAQQAGLPNSTTHRLLTTMQQQGFVRQVGELGHWAIGAHAFMVGSSFLQSRNLLAIVHPILRNLMEESGETVNMAVLDQSDHEAIIIDQVQCTHLMRMSAPIGGKLPMHASGAGKAFLAQLSEEQVTKLLHRKGLHAYTHATLVSPVHLKEDLAQTRKRGYSFDDEEHALGLRCLAACIFDEHREPFAAISISGPISRITDDRVTEFGAMVIKAAKEVTLAYGGMR" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"PD04132" "DNA-binding transcriptional dual regulator SoxR" ["MarC", "SoxR"] "MEKKLPRIKALLTPGEVAKRSGVAVSALHFYESKGLITSIRNSGNQRRYKRDVLRYVAIIKIAQRIGIPLATIGEAFGVLPEGHTLSAKEWKQLSSQWREELDRRIHTLVALRDELDGCIGCGCLSRSDCPLRNPGDRLGEEGTGARLLEDEQN" ["CCO-CYTOSOL"] [] +"PD04413" "DNA-binding transcriptional repressor/NMN adenylyltransferase NadR" ["NadI", "NadR"] "MSSFDYLKTAIKQQGCTLQQVADASGMTKGYLSQLLNAKIKSPSAQKLEALHRFLGLEFPRQKKTIGVVFGKFYPLHTGHIYLIQRACSQVDELHIIMGFDDTRDRALFEDSAMSQQPTVPDRLRWLLQTFKYQKNIRIHAFNEEGMEPYPHGWDVWSNGIKKFMAEKGIQPDLIYTSEEADAPQYMEHLGIETVLVDPKRTFMSISGAQIRENPFRYWEYIPTEVKPFFVRTVAILGGESSGKSTLVNKLANIFNTTSAWEYGRDYVFSHLGGDEIALQYSDYDKIALGHAQYIDFAVKYANKVAFIDTDFVTTQAFCKKYEGREHPFVQALIDEYRFDLVILLENNTPWVADGLRSLGSSVDRKEFQNLLVEMLEENNIEFVRVEEEDYDSRFLRCVELVREMMGEQR" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE", "CCO-CYTOSOL"] +"PD04418" "DNA-binding transcriptional dual regulator Rob" ["RobA", "CbpB", "Rob", "right origin-binding protein"] "MDQAGIIRDLLIWLEGHLDQPLSLDNVAAKAGYSKWHLQRMFKDVTGHAIGAYIRARRLSKSAVALRLTARPILDIALQYRFDSQQTFTRAFKKQFAQTPALYRRSPEWSAFGIRPPLRLGEFTMPEHKFVTLEDTPLIGVTQSYSCSLEQISDFRHEMRYQFWHDFLGNAPTIPPVLYGLNETRPSQDKDDEQEVFYTTALAQDQADGYVLTGHPVMLQGGEYVMFTYEGLGTGVQEFILTVYGTCMPMLNLTRRKGQDIERYYPAEDAKAGDRPINLRCELLIPIRR" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"PDXA-MONOMER" "4-hydroxythreonine-4-phosphate dehydrogenase" ["PdxA"] "MVKTQRVVITPGEPAGIGPDLVVQLAQREWPVELVVCADATLLTNRAAMLGLPLTLRPYSPNSPAQPQTAGTLTLLPVALRAPVTAGQLAVENGHYVVETLARACDGCLNGEFAALITGPVHKGVINDAGIPFTGHTEFFEERSQAKKVVMMLATEELRVALATTHLPLRDIADAITPALLHEVIAILHHDLRTKFGIAEPRILVCGLNPHAGEGGHMGTEEIDTIIPVLNELRAQGMKLNGPLPADTLFQPKYLDNADAVLAMYHDQGLPVLKYQGFGRGVNITLGLPFIRTSVDHGTALELAGRGKADVGSFITALNLAIKMIVNTQ" [] ["CCO-CYTOSOL"] +"PDXH-MONOMER" "pyridoxine/pyridoxamine 5'-phosphate oxidase" ["PdxH", "pyridoxal 5-phosphate synthase"] "MSDNDELQQIAHLRREYTKGGLRRRDLPADPLTLFERWLSQACEAKLADPTAMVVATVDEHGQPYQRIVLLKHYDEKGMVFYTNLGSRKAHQIENNPRVSLLFPWHTLERQVMVIGKAERLSTLEVMKYFHSRPRDSQIGAWVSKQSSRISARGILESKFLELKQKFQQGEVPLPSFWGGFRVSLEQIEFWQGGEHRLHDRFLYQRENDAWKIDRLAP" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"PDXJ-MONOMER" "pyridoxine 5'-phosphate synthase" ["PdxJ"] "MAELLLGVNIDHIATLRNARGTAYPDPVQAAFIAEQAGADGITVHLREDRRHITDRDVRILRQTLDTRMNLEMAVTEEMLAIAVETKPHFCCLVPEKRQEVTTEGGLDVAGQRDKMRDACKRLADAGIQVSLFIDADEEQIKAAAEVGAPFIEIHTGCYADAKTDAEQAQELARIAKAATFAASLGLKVNAGHGLTYHNVKAIAAIPEMHELNIGHAIIGRAVMTGLKDAVAEMKRLMLEARG" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"PDXK-MONOMER" "pyridoxal kinase I" ["PdxL", "ThiJ", "YfeI", "PdxK", "PLK1"] "MSSLLLFNDKSRALQADIVAVQSQVVYGSVGNSIAVPAIKQNGLNVFAVPTVLLSNTPHYDTFYGGAIPDEWFSGYLRALQERDALRQLRAVTTGYMGTASQIKILAEWLTALRKDHPDLLIMVDPVIGDIDSGIYVKPDLPEAYRQYLLPLAQGITPNIFELEILTGKNCRDLDSAIAAAKSLLSDTLKWVVVTSASGNEENQEMQVVVVTADSVNVISHSRVKTDLKGTGDLFCAQLISGLLKGKALTDAVHRAGLRVLEVMRYTQQHESDELILPPLAEA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"PDXY-MONOMER" "pyridoxal kinase 2" ["YdgS", "PdxY"] "MMKNILAIQSHVVYGHAGNSAAEFPMRRLGANVWPLNTVQFSNHTQYGKWTGCVMPPSHLTEIVQGIAAIDKLHTCDAVLSGYLGSAEQGEHILGIVRQVKAANPQAKYFCDPVMGHPEKGCIVAPGVAEFHVRHGLPASDIIAPNLVELEILCEHAVNNVEEAVLAARELIAQGPQIVLVKHLARAGYSRDRFEMLLVTADEAWHISRPLVDFGMRQPVGVGDVTSGLLLVKLLQGATLQEALEHVTAAVYEIMVTTKAMQEYELQVVAAQDRIAKPEHYFSATKL" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"PEPCARBOX-MONOMER" "phosphoenolpyruvate carboxylase" ["Glu", "Asp", "Ppc", "PEPC"] "MNEQYSALRSNVSMLGKVLGETIKDALGEHILERVETIRKLSKSSRAGNDANRQELLTTLQNLSNDELLPVARAFSQFLNLANTAEQYHSISPKGEAASNPEVIARTLRKLKNQPELSEDTIKKAVESLSLELVLTAHPTEITRRTLIHKMVEVNACLKQLDNKDIADYEHNQLMRRLRQLIAQSWHTDEIRKLRPSPVDEAKWGFAVVENSLWQGVPNYLRELNEQLEENLGYKLPVEFVPVRFTSWMGGDRDGNPNVTADITRHVLLLSRWKATDLFLKDIQVLVSELSMVEATPELLALVGEEGAAEPYRYLMKNLRSRLMATQAWLEARLKGEELPKPEGLLTQNEELWEPLYACYQSLQACGMGIIANGDLLDTLRRVKCFGVPLVRIDIRQESTRHTEALGELTRYLGIGDYESWSEADKQAFLIRELNSKRPLLPRNWQPSAETREVLDTCQVIAEAPQGSIAAYVISMAKTPSDVLAVHLLLKEAGIGFAMPVAPLFETLDDLNNANDVMTQLLNIDWYRGLIQGKQMVMIGYSDSAKDAGVMAASWAQYQAQDALIKTCEKAGIELTLFHGRGGSIGRGGAPAHAALLSQPPGSLKGGLRVTEQGEMIRFKYGLPEITVSSLSLYTGAILEANLLPPPEPKESWRRIMDELSVISCDVYRGYVRENKDFVPYFRSATPEQELGKLPLGSRPAKRRPTGGVESLRAIPWIFAWTQNRLMLPAWLGAGTALQKVVEDGKQSELEAMCRDWPFFSTRLGMLEMVFAKADLWLAEYYDQRLVDKALWPLGKELRNLQEEDIKVVLAIANDSHLMADLPWIAESIQLRNIYTDPLNVLQAELLHRSRQAEKEGQEPDPRVEQALMVTIAGIAAGMRNTG" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"PEPCARBOXYKIN-MONOMER" null ["Pck", "PckA"] "MRVNNGLTPQELEAYGISDVHDIVYNPSYDLLYQEELDPSLTGYERGVLTNLGAVAVDTGIFTGRSPKDKYIVRDDTTRDTFWWADKGKGKNDNKPLSPETWQHLKGLVTRQLSGKRLFVVDAFCGANPDTRLSVRFITEVAWQAHFVKNMFIRPSDEELAGFKPDFIVMNGAKCTNPQWKEQGLNSENFVAFNLTERMQLIGGTWYGGEMKKGMFSMMNYLLPLKGIASMHCSANVGEKGDVAVFFGLSGTGKTTLSTDPKRRLIGDDEHGWDDDGVFNFEGGCYAKTIKLSKEAEPEIYNAIRRDALLENVTVREDGTIDFDDGSKTENTRVSYPIYHIDNIVKPVSKAGHATKVIFLTADAFGVLPPVSRLTADQTQYHFLSGFTAKLAGTERGITEPTPTFSACFGAAFLSLHPTQYAEVLVKRMQAAGAQAYLVNTGWNGTGKRISIKDTRAIIDAILNGSLDNAETFTLPMFNLAIPTELPGVDTKILDPRNTYASPEQWQEKAETLAKLFIDNFDKYTDTPAGAALVAAGPKL" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"PEPSYNTH-MONOMER" "phosphoenolpyruvate synthetase" ["Pps", "PpsA"] "MSNNGSSPLVLWYNQLGMNDVDRVGGKNASLGEMITNLSGMGVSVPNGFATTADAFNQFLDQSGVNQRIYELLDKTDIDDVTQLAKAGAQIRQWIIDTPFQPELENAIREAYAQLSADDENASFAVRSSATAEDMPDASFAGQQETFLNVQGFDAVLVAVKHVFASLFNDRAISYRVHQGYDHRGVALSAGVQRMVRSDLASSGVMFSIDTESGFDQVVFITSAWGLGEMVVQGAVNPDEFYVHKPTLAANRPAIVRRTMGSKKIRMVYAPTQEHGKQVKIEDVPQEQRDIFSLTNEEVQELAKQAVQIEKHYGRPMDIEWAKDGHTGKLFIVQARPETVRSRGQVMERYTLHSQGKIIAEGRAIGHRIGAGPVKVIHDISEMNRIEPGDVLVTDMTDPDWEPIMKKASAIVTNRGGRTCHAAIIARELGIPAVVGCGDATERMKDGENVTVSCAEGDTGYVYAELLEFSVKSSSVETMPDLPLKVMMNVGNPDRAFDFACLPNEGVGLARLEFIINRMIGVHPRALLEFDDQEPQLQNEIREMMKGFDSPREFYVGRLTEGIATLGAAFYPKRVIVRLSDFKSNEYANLVGGERYEPDEENPMLGFRGAGRYVSDSFRDCFALECEAVKRVRNDMGLTNVEIMIPFVRTVDQAKAVVEELARQGLKRGENGLKIIMMCEIPSNALLAEQFLEYFDGFSIGSNDMTQLALGLDRDSGVVSELFDERNDAVKALLSMAIRAAKKQGKYVGICGQGPSDHEDFAAWLMEEGIDSLSLNPDTVVQTWLSLAELKK" [] ["CCO-CYTOSOL"] +"PFLACTENZ-MONOMER" "pyruvate formate-lyase activating enzyme" ["Act", "PflA", "PFL activase", "PFL-AE"] "MSVIGRIHSFESCGTVDGPGIRFITFFQGCLMRCLYCHNRDTWDTHGGKEVTVEDLMKEVVTYRHFMNASGGGVTASGGEAILQAEFVRDWFRACKKEGIHTCLDTNGFVRRYDPVIDELLEVTDLVMLDLKQMNDEIHQNLVGVSNHRTLEFAKYLANKNVKVWIRYVVVPGWSDDDDSAHRLGEFTRDMGNVEKIELLPYHELGKHKWVAMGEEYKLDGVKPPKKETMERVKGILEQYGHKVMF" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"PGAM2-MONOMER" "putative phosphatase" ["YtjC", "GpmB"] "MLQVYLVRHGETQWNAERRIQGQSDSPLTAKGEQQAMQVATRAKELGITHIISSDLGRTRRTAEIIAQACGCDIIFDSRLRELNMGVLEKRHIDSLTEEEENWRRQLVNGTVDGRIPEGESMQELSDRVNAALESCRDLPQGSRPLLVSHGIALGCLVSTILGLPAWAERRLRLRNCSISRVDYQESLWLASGWVVETAGDISHLDAPALDELQR" [] ["CCO-CYTOSOL"] +"PGK" null ["Pgk"] "MSVIKMTDLDLAGKRVFIRADLNVPVKDGKVTSDARIRASLPTIELALKQGAKVMVTSHLGRPTEGEYNEEFSLLPVVNYLKDKLSNPVRLVKDYLDGVDVAEGELVVLENVRFNKGEKKDDETLSKKYAALCDVFVMDAFGTAHRAQASTHGIGKFADVACAGPLLAAELDALGKALKEPARPMVAIVGGSKVSTKLTVLDSLSKIADQLIVGGGIANTFIAAQGHDVGKSLYEADLVDEAKRLLTTCNIPVPSDVRVATEFSETAPATLKSVNDVKADEQILDIGDASAQELAEILKNAKTILWNGPVGVFEFPNFRKGTEIVANAIADSEAFSIAGGGDTLAAIDLFGIADKISYISTGGGAFLEFVEGKVLPAVAMLEERAKK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"PGLUCISOM" "glucose-6-phosphate isomerase" ["Pgi"] "MKNINPTQTAAWQALQKHFDEMKDVTIADLFAKDGDRFSKFSATFDDQMLVDYSKNRITEETLAKLQDLAKECDLAGAIKSMFSGEKINRTENRAVLHVALRNRSNTPILVDGKDVMPEVNAVLEKMKTFSEAIISGEWKGYTGKAITDVVNIGIGGSDLGPYMVTEALRPYKNHLNMHFVSNVDGTHIAEVLKKVNPETTLFLVASKTFTTQETMTNAHSARDWFLKAAGDEKHVAKHFAALSTNAKAVGEFGIDTANMFEFWDWVGGRYSLWSAIGLSIVLSIGFDNFVELLSGAHAMDKHFSTTPAEKNLPVLLALIGIWYNNFFGAETEAILPYDQYMHRFAAYFQQGNMESNGKYVDRNGNVVDYQTGPIIWGEPGTNGQHAFYQLIHQGTKMVPCDFIAPAITHNPLSDHHQKLLSNFFAQTEALAFGKSREVVEQEYRDQGKDPATLDYVVPFKVFEGNRPTNSILLREITPFSLGALIALYEHKIFTQGVILNIFTFDQWGVELGKQLANRILPELKDDKEISSHDSSTNGLINRYKAWRG" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"PGLUCONDEHYDRAT-MONOMER" null ["Edd"] "MNPQLLRVTNRIIERSRETRSAYLARIEQAKTSTVHRSQLACGNLAHGFAACQPEDKASLKSMLRNNIAIITSYNDMLSAHQPYEHYPEIIRKALHEANAVGQVAGGVPAMCDGVTQGQDGMELSLLSREVIAMSAAVGLSHNMFDGALFLGVCDKIVPGLTMAALSFGHLPAVFVPSGPMASGLPNKEKVRIRQLYAEGKVDRMALLESEAASYHAPGTCTFYGTANTNQMVVEFMGMQLPGSSFVHPDSPLRDALTAAAARQVTRMTGNGNEWMPIGKMIDEKVVVNGIVALLATGGSTNHTMHLVAMARAAGIQINWDDFSDLSDVVPLMARLYPNGPADINHFQAAGGVPVLVRELLKAGLLHEDVNTVAGFGLSRYTLEPWLNNGELDWREGAEKSLDSNVIASFEQPFSHHGGTKVLSGNLGRAVMKTSAVPVENQVIEAPAVVFESQHDVMPAFEAGLLDRDCVVVVRHQGPKANGMPELHKLMPPLGVLLDRCFKIALVTDGRLSGASGKVPSAIHVTPEAYDGGLLAKVRDGDIIRVNGQTGELTLLVDEAELAAREPHIPDLSASRVGTGRELFSALREKLSGAEQGATCITF" [] ["CCO-CYTOSOL"] +"PGLYCDEHYDROG-MONOMER" "phosphoglycerate dehydrogenase" ["SerA"] "MAKVSLEKDKIKFLLVEGVHQKALESLRAAGYTNIEFHKGALDDEQLKESIRDAHFIGLRSRTHLTEDVINAAEKLVAIGCFCIGTNQVDLDAAAKRGIPVFNAPFSNTRSVAELVIGELLLLLRGVPEANAKAHRGVWNKLAAGSFEARGKKLGIIGYGHIGTQLGILAESLGMYVYFYDIENKLPLGNATQVQHLSDLLNMSDVVSLHVPENPSTKNMMGAKEISLMKPGSLLINASRGTVVDIPALCDALASKHLAGAAIDVFPTEPATNSDPFTSPLCEFDNVLLTPHIGGSTQEAQENIGLEVAGKLIKYSDNGSTLSAVNFPEVSLPLHGGRRLMHIHENRPGVLTALNKIFAEQGVNIAAQYLQTSAQMGYVVIDIEADEDVAEKALQAMKAIPGTIRARLLY" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"PGLYCEROLTRANSI-MONOMER" "phosphoglycerol transferase I" ["OpgB", "YjjO", "MdoB"] "MSELLSFALFLASVLIYAWKAGRNTWWFAATLTVLGLFVVLNITLFASDYFTGDGINDAVLYTLTNSLTGAGVSKYILPGIGIVLGLTAVFGALGWILRRRRHHPHHFGYSLLALLLALGSVDASPAFRQITELVKSQSRDGDPDFAAYYKEPSKTIPDPKLNLVYIYGESLERTYFDNEAFPDLTPELGALKNEGLDFSHTQQLPGTDYTIAGMVASQCGIPLFAPFEGNASASVSSFFPQNICLGDILKNSGYQNYFVQGANLRFAGKDVFLKSHGFDHLYGSEELKSVVADPHYRNDWGFYDDTVLDEAWKKFEELSRSGQRFSLFTLTVDTHHPDGFISRTCNRKKYDFDGKPNQSFSAVSCSQENIATFINKIKASPWFKDTVIVVSSDHLAMNNTAWKYLNKQDRNNLFFVIRGDKPQQETLAVKRNTMDNGATVLDILGGDNYLGLGRSSLSGQSMSEIFLNIKEKTLAWKPDIIRLWKFPKEMKEFTIDQQKNMIAFSGSHFRLPLLLRVSDKRVEPLPESEYSAPLRFQLADFAPRDNFVWVDRCYKMAQLWAPELALSTDWCVSQGQLGGQQIVQHVDKTTWQGKTAFKDTVIDMARYKGNVDTLKIVDNDIRYKADSFIFNVAGAPEEVKQFSGISRPESWGRWSNAQLGDEVKIEYKHPLPKKFDLVITAKAYGNNASRPIPVRVGNEEQTLVLGNEVTTTTLHFDNPTDADTLVIVPPEPVSTNEGNILGHSPRKLGIGMVEIKVVEREG" ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"PGMI-MONOMER" "2,3-bisphosphoglycerate-independent phosphoglycerate mutase" ["GpmI", "GpmC", "GpmM", "YibO", "PgmI"] "MLVSKKPMVLVILDGYGYREEQQDNAIFSAKTPVMDALWANRPHTLIDASGLEVGLPDRQMGNSEVGHVNLGAGRIVYQDLTRLDVEIKDRAFFANPVLTGAVDKAKNAGKAVHIMGLLSAGGVHSHEDHIMAMVELAAERGAEKIYLHAFLDGRDTPPRSAESSLKKFEEKFAALGKGRVASIIGRYYAMDRDNRWDRVEKAYDLLTLAQGEFQADTAVAGLQAAYARDENDEFVKATVIRAEGQPDAAMEDGDALIFMNFRADRAREITRAFVNADFDGFARKKVVNVDFVMLTEYAADIKTAVAYPPASLVNTFGEWMAKNDKTQLRISETEKYAHVTFFFNGGVEESFKGEDRILINSPKVATYDLQPEMSSAELTEKLVAAIKSGKYDTIICNYPNGDMVGHTGVMEAAVKAVEALDHCVEEVAKAVESVGGQLLITADHGNAEQMRDPATGQAHTAHTNLPVPLIYVGDKNVKAVEGGKLSDIAPTMLSLMGMEIPQEMTGKPLFIVE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"PGPPHOSPHAA-MONOMER" "phosphatidylglycerophosphatase A" ["YajN", "PgpA"] "MTILPRHKDVAKSRLKMSNPWHLLAVGFGSGLSPIVPGTMGSLAAIPFWYLMTFLPWQLYSLVVMLGICIGVYLCHQTAKDMGVHDHGSIVWDEFIGMWITLMALPTNDWQWVAAGFVIFRILDMWKPWPIRWFDRNVHGGMGIMIDDIVAGVISAGILYFIGHHWPLGILS" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"PGPPHOSPHAB-MONOMER" "phosphatidylglycerophosphatase B" ["PgpB"] "MRSIARRTAVGAALLLVMPVAVWISGWRWQPGEQSWLLKAAFWVTETVTQPWGVITHLILFGWFLWCLRFRIKAAFVLFAILAAAILVGQGVKSWIKDKVQEPRPFVIWLEKTHHIPVDEFYTLKRAERGNLVKEQLAEEKNIPQYLRSHWQKETGFAFPSGHTMFAASWALLAVGLLWPRRRTLTIAILLVWATGVMGSRLLLGMHWPRDLVVATLISWALVAVATWLAQRICGPLTPPAEENREIAQREQES" ["CCO-PM-BAC-NEG", "CCO-OUTER-MEM"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG", "CCO-OUTER-MEM"] +"PHENDEHYD-MONOMER" "phenylacetaldehyde dehydrogenase" ["YdbG", "PadA", "FeaB"] "MTEPHVAVLSQVQQFLDRQHGLYIDGRPGPAQSEKRLAIFDPATGQEIASTADANEADVDNAVMSAWRAFVSRRWAGRLPAERERILLRFADLVEQHSEELAQLETLEQGKSIAISRAFEVGCTLNWMRYTAGLTTKIAGKTLDLSIPLPQGARYQAWTRKEPVGVVAGIVPWNFPLMIGMWKVMPALAAGCSIVIKPSETTPLTMLRVAELASEAGIPDGVFNVVTGSGAVCGAALTSHPHVAKISFTGSTATGKGIARTAADHLTRVTLELGGKNPAIVLKDADPQWVIEGLMTGSFLNQGQVCAASSRIYIEAPLFDTLVSGFEQAVKSLQVGPGMSPVAQINPLVSRAHCDKVCSFLDDAQAQQAELIRGSNGPAGEGYYVAPTLVVNPDAKLRLTREEVFGPVVNLVRVADGEEALQLANDTEYGLTASVWTQNLSQALEYSDRLQAGTVWVNSHTLIDANLPFGGMKQSGTGRDFGPDWLDGWCETKSVCVRY" [] ["CCO-CYTOSOL"] +"PHENPRODIOLDEHYDROG-MONOMER" "2,3-dihydroxy-2,3-dihydrophenylpropionate dehydrogenase" ["YfhX", "PhdD", "HcaB"] "MSDLHNESIFITGGGSGLGLALVERFIEEGAQVATLELSAAKVASLRQRFGEHILAVEGNVTCYADYQRAVDQILTRSGKLDCFIGNAGIWDHNASLVNTPAETLETGFHELFNVNVLGYLLGAKACAPALIASEGSMIFTLSNAAWYPGGGGPLYTASKHAATGLIRQLAYELAPKVRVNGVGPCGMASDLRGPQALGQSETSIMQSLTPEKIAAILPLQFFPQPADFTGPYVMLTSRRNNRALSGVMINADAGLAIRGIRHVAAGLDL" [] ["CCO-CYTOSOL"] +"PHENYLPRODIOXY-MONOMER" "putative 3-phenylpropionate/cinnamate dioxygenase subunit α" ["DigA", "YfhU", "HcaA", "HcaE", "HcaA1", "3-phenylpropionate dioxygenase, large subunit", "3-phenylpropionate dioxygenase, α subunit"] "MTTPSDLNIYQLIDTQNGRVTPRIYTDPDIYQLELERIFGRCWLFLAHESQIPKPGDFFNTYMGEDAVVVVRQKDGSIKAFLNQCRHRAMRVSYADCGNTRAFTCPYHGWSYGINGELIDVPLEPRAYPQGLCKSHWGLNEVPCVESYKGLIFGNWDTSAPGLRDYLGDIAWYLDGMLDRREGGTEIVGGVQKWVINCNWKFPAEQFASDQYHALFSHASAVQVLGAKDDGSDKRLGDGQTARPVWETAKDALQFGQDGHGSGFFFTEKPDANVWVDGAVSSYYRETYAEAEQRLGEVRALRLAGHNNIFPTLSWLNGTATLRVWHPRGPDQVEVWAFCITDKAASDEVKAAFENSATRAFGPAGFLEQDDSENWCEIQKLLKGHRARNSKLCLEMGLGQEKRRDDGIPGITNYIFSETAARGMYQRWADLLSSESWQEVLDKTAAYQQEVMK" [] ["CCO-CYTOSOL"] +"PHEP-MONOMER" null ["PheP", "PheP phenylalanine APC transporter"] "MKNASTVSEDTASNQEPTLHRGLHNRHIQLIALGGAIGTGLFLGIGPAIQMAGPAVLLGYGVAGIIAFLIMRQLGEMVVEEPVSGSFAHFAYKYWGPFAGFLSGWNYWVMFVLVGMAELTAAGIYMQYWFPDVPTWIWAAAFFIIINAVNLVNVRLYGETEFWFALIKVLAIIGMIGFGLWLLFSGHGGEKASIDNLWRYGGFFATGWNGLILSLAVIMFSFGGLELIGITAAEARDPEKSIPKAVNQVVYRILLFYIGSLVVLLALYPWVEVKSNSSPFVMIFHNLDSNVVASALNFVILVASLSVYNSGVYSNSRMLFGLSVQGNAPKFLTRVSRRGVPINSLMLSGAITSLVVLINYLLPQKAFGLLMALVVATLLLNWIMICLAHLRFRAAMRRQGRETQFKALLYPFGNYLCIAFLGMILLLMCTMDDMRLSAILLPVWIVFLFMAFKTLRRK" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"PHES-MONOMER" "phenylalanine—tRNA ligase subunit α" ["PheS"] "MSHLAELVASAKAAISQASDVAALDNVRVEYLGKKGHLTLQMTTLRELPPEERPAAGAVINEAKEQVQQALNARKAELESAALNARLAAETIDVSLPGRRIENGGLHPVTRTIDRIESFFGELGFTVATGPEIEDDYHNFDALNIPGHHPARADHDTFWFDTTRLLRTQTSGVQIRTMKAQQPPIRIIAPGRVYRNDYDQTHTPMFHQMEGLIVDTNISFTNLKGTLHDFLRNFFEEDLQIRFRPSYFPFTEPSAEVDVMGKNGKWLEVLGCGMVHPNVLRNVGIDPEVYSGFAFGMGMERLTMLRYGVTDLRSFFENDLRFLKQFK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"PHET-MONOMER" "phenylalanine—tRNA ligase subunit β" ["PheT"] "MKFSELWLREWVNPAIDSDALANQITMAGLEVDGVEPVAGSFHGVVVGEVVECAQHPNADKLRVTKVNVGGDRLLDIVCGAPNCRQGLRVAVATIGAVLPGDFKIKAAKLRGEPSEGMLCSFSELGISDDHSGIIELPADAPIGTDIREYLKLDDNTIEISVTPNRADCLGIIGVARDVAVLNQLPLVQPEIVPVGATIDDTLPITVEAPEACPRYLGRVVKGINVKAPTPLWMKEKLRRCGIRSIDAVVDVTNYVLLELGQPMHAFDKDRIEGGIVVRMAKEGETLVLLDGTEAKLNADTLVIADHNKALAMGGIFGGEHSGVNDETQNVLLECAFFSPLSITGRARRHGLHTDASHRYERGVDPALQHKAMERATRLLIDICGGEAGPVIDITNEATLPKRATITLRRSKLDRLIGHHIADEQVTDILRRLGCEVTEGKDEWQAVAPSWRFDMEIEEDLVEEVARVYGYNNIPDEPVQASLIMGTHREADLSLKRVKTLLNDKGYQEVITYSFVDPKVQQMIHPGVEALLLPSPISVEMSAMRLSLWTGLLATVVYNQNRQQNRVRIFESGLRFVPDTQAPLGIRQDLMLAGVICGNRYEEHWNLAKETVDFYDLKGDLESVLDLTGKLNEVEFRAEANPALHPGQSAAIYLKGERIGFVGVVHPELERKLDLNGRTLVFELEWNKLADRVVPQAREISRFPANRRDIAVVVAENVPAADILSECKKVGVNQVVGVNLFDVYRGKGVAEGYKSLAISLILQDTSRTLEEEEIAATVAKCVEALKERFQASLRD" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"PHNC-MONOMER" "phosphonate/phosphate ABC transporter ATP binding subunit" ["cryptic phosphonate ABC transporter ATP binding subunit"] "MQTIIRVEKLAKTFNQHQALHAVDLNIHHGEMVALLGPSGSGKSTLLRHLSGLITGDKSVGSHIELLGRTVQREGRLARDIRKSRAHTGYIFQQFNLVNRLSVLENVLIGALGSTPFWRTCFSWFTGEQKQRALQALTRVGMVHFAHQRVSTLSGGQQQRVAIARALMQQAKVILADEPIASLDPESARIVMDTLRDINQNDGITVVVTLHQVDYALRYCERIVALRQGHVFYDGSSQQFDNERFDHLYRSINRVEENAKAA" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"PHND-MONOMER" "phosphonate/phosphate ABC transporter periplasmic binding protein" ["Phn", "PsiD", "cryptic phosphonate ABC transporter periplasmic binding protein"] "MNAKIIASLAFTSMFSLSTLLSPAHAEEQEKALNFGIISTESQQNLKPQWTPFLQDMEKKLGVKVNAFFAPDYAGIIQGMRFNKVDIAWYGNLSAMEAVDRANGQVFAQTVAADGSPGYWSVLIVNKDSPINNLNDLLAKRKDLTFGNGDPNSTSGFLVPGYYVFAKNNISASDFKRTVNAGHETNALAVANKQVDVATNNTENLDKLKTSAPEKLKELKVIWKSPLIPGDPIVWRKNLSETTKDKIYDFFMNYGKTPEEKAVLERLGWAPFRASSDLQLVPIRQLALFKEMQGVKSNKGLNEQDKLAKTTEIQAQLDDLDRLNNALSAMSSVSKAVQ" [] ["CCO-PERI-BAC"] +"PHNE-MONOMER" "phosphonate/phosphate ABC transporter membrane subunit" [] "MPDAVQAPYPAYRPEPNMQTITIAPPKRSWFSLLSWAVVLAVLVVSWQGAEMAPLTLIKDGGNMATFAADFFPPDFSQWQDYLTEMAVTLQIAVWGTALAVVLSIPFGLMSAENLVPWWVYQPVRRLMDACRAINEMVFAMLFVVAVGLGPFAGVLACWRCLSTPPACSPSCFPKRWKRLSPARWKAFAPPVPTSSKRSSTACCHR*CHC*SPTPSIASNPTSARRPSSAWSAQAGSASPCGKRFAVSSSNKPAP*WCLSSSRSACWISSLNGCVSTL" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"PHNK-MONOMER" "carbon-phosphorus lyase subunit PhnK" ["PhnK"] "MNQPLLSVNNLTHLYAPGKGFSDVSFDLWPGEVLGIVGESGSGKTTLLKSISARLTPQQGEIHYENRSLYAMSEADRRRLLRTEWGVVHQHPLDGLRRQVSAGGNIGERLMATGARHYGDIRATAQKWLEEVEIPANRIDDLPTTFSGGMQQRLQIARNLVTHPKLVFMDEPTGGLDVSVQARLLDLLRGLVVELNLAVVIVTHDLGVARLLADRLLVMKQGQVVESGLTDRVLDDPHHPYTQLLVSSVLQN" [] ["CCO-CYTOSOL"] +"PHNL-MONOMER" "methylphosphonate degradation complex subunit PhnL" ["PhnL"] "MINVQNVSKTFILHQQNGVRLPVLNRASLTVNAGECVVLHGHSGSGKSTLLRSLYANYLPDEGQIQIKHGDEWVDLVTAPARKVVEIRKTTVGWVSQFLRVIPRISALEVVMQPLLDTGVPREACAAKAARLLTRLNVPERLWHLAPSTFSGGEQQRVNIARGFIVDYPILLLDEPTASLDAKNSAAVVELIREAKTRGAAIVGIFHDEAVRNDVADRLHPMGASS" [] ["CCO-PM-BAC-NEG"] +"PHOB-MONOMER" "DNA-binding transcriptional dual regulator PhoB" ["PhoB", "PhoT", "PhoB response regulator"] "MARRILVVEDEAPIREMVCFVLEQNGFQPVEAEDYDSAVNQLNEPWPDLILLDWMLPGGSGIQFIKHLKRESMTRDIPVVMLTARGEEEDRVRGLETGADDYITKPFSPKELVARIKAVMRRISPMAVEEVIEMQGLSLDPTSHRVMAGEEPLEMGPTEFKLLHFFMTHPERVYSREQLLNHVWGTNVYVEDRTVDVHIRRLRKALEPGGHDRMVQTVRGTGYRFSTRF" [] ["CCO-CYTOSOL"] +"PHOP-MONOMER" "DNA-binding transcriptional dual regulator PhoP" ["PhoP", "PhoP response regulator"] "MRVLVVEDNALLRHHLKVQIQDAGHQVDDAEDAKEADYYLNEHIPDIAIVDLGLPDEDGLSLIRRWRSNDVSLPILVLTARESWQDKVEVLSAGADDYVTKPFHIEEVMARMQALMRRNSGLASQVISLPPFQVDLSRRELSINDEVIKLTAFEYTIMETLIRNNGKVVSKDSLMLQLYPDAELRESHTIDVLMGRLRKKIQAQYPQEVITTVRGQGYLFELR" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"PHOQ-MONOMER" "sensor histidine kinase PhoQ" [] "MKKLLRLFFPLSLRVRFLLATAAVVLVLSLAYGMVALIGYSVSFDKTTFRLLRGESNLFYTLAKWENNKLHVELPENIDKQSPTMTLIYDENGQLLWAQRDVPWLMKMIQPDWLKSNGFHEIEADVNDTSLLLSGDHSIQQQLQEVREDDDDAEMTHSVAVNVYPATSRMPKLTIVVVDTIPVELKSSYMVWSWFIYVLSANLLLVIPLLWVAAWWSLRPIEALAKEVRELEEHNRELLNPATTRELTSLVRNLNRLLKSERERYDKYRTTLTDLTHSLKTPLAVLQSTLRSLRSEKMSVSDAEPVMLEQISRISQQIGYYLHRASMRGGTLLSRELHPVAPLLDNLTSALNKVYQRKGVNISLDISPEISFVGEQNDFVEVMGNVLDNACKYCLEFVEISARQTDEHLYIVVEDDGPGIPLSKREVIFDRGQRVDTLRPGQGVGLAVAREITEQYEGKIVAGESMLGGARMEVIFGRQHSAPKDE" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"PHOR-MONOMER" "sensor histidine kinase PhoR" ["NmpB", "PhoR"] "MLERLSWKRLVLELLLCCLPAFILGAFFGYLPWFLLASVTGLLIWHFWNLLRLSWWLWVDRSMTPPPGRGSWEPLLYGLHQMQLRNKKRRRELGNLIKRFRSGAESLPDAVVLTTEEGGIFWCNGLAQQILGLRWPEDNGQNILNLLRYPEFTQYLKTRDFSRPLNLVLNTGRHLEIRVMPYTHKQLLMVARDVTQMHQLEGARRNFFANVSHELRTPLTVLQGYLEMMNEQPLEGAVREKALHTMREQTQRMEGLVKQLLTLSKIEAAPTHLLNEKVDVPMMLRVVEREAQTLSQKKQTFTFEIDNGLKVSGNEDQLRSAISNLVYNAVNHTPEGTHITVRWQRVPHGAEFSVEDNGPGIAPEHIPRLTERFYRVDKARSRQTGGSGLGLAIVKHAVNHHESRLNIESTVGKGTRFSFVIPERLIAKNSD" ["CCO-CYTOSOL", "CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"PHOSACETYLTRANS-MONOMER" "phosphate acetyltransferase" ["Pta"] "MSRIIMLIPTGTSVGLTSVSLGVIRAMERKGVRLSVFKPIAQPRTGGDAPDQTTTIVRANSSTTTAAEPLKMSYVEGLLSSNQKDVLMEEIVANYHANTKDAEVVLVEGLVPTRKHQFAQSLNYEIAKTLNAEIVFVMSQGTDTPEQLKERIELTRNSFGGAKNTNITGVIVNKLNAPVDEQGRTRPDLSEIFDDSSKAKVNNVDPAKLQESSPLPVLGAVPWSFDLIATRAIDMARHLNATIINEGDINTRRVKSVTFCARSIPHMLEHFRAGSLLVTSADRPDVLVAACLAAMNGVEIGALLLTGGYEMDARISKLCERAFATGLPVFMVNTNTWQTSLSLQSFNLEVPVDDHERIEKVQEYVANYINADWIESLTATSERSRRLSPPAFRYQLTELARKAGKRIVLPEGDEPRTVKAAAICAERGIATCVLLGNPAEINRVAASQGVELGAGIEIVDPEVVRESYVGRLVELRKNKGMTETVAREQLEDNVVLGTLMLEQDEVDGLVSGAVHTTANTIRPPLQLIKTAPGSSLVSSVFFMLLPEQVYVYGDCAINPDPTAEQLAEIAIQSADSAAAFGIEPRVAMLSYSTGTSGAGSDVEKVREATRLAQEKRPDLMIDGPLQYDAAVMADVAKSKAPNSPVAGRATVFIFPDLNTGNTTYKAVQRSADLISIGPMLQGMRKPVNDLSRGALVDDIVYTIALTAIQSAQQQ" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"PHOSGLUCOSAMINEMUT-MONOMER" "phosphoglucosamine mutase" ["YhbF", "GlmM", "MrsA"] "MSNRKYFGTDGIRGRVGDAPITPDFVLKLGWAAGKVLARHGSRKIIIGKDTRISGYMLESALEAGLAAAGLSALFTGPMPTPAVAYLTRTFRAEAGIVISASHNPFYDNGIKFFSIDGTKLPDAVEEAIEAEMEKEISCVDSAELGKASRIVDAAGRYIEFCKATFPNELSLSELKIVVDCANGATYHIAPNVLRELGANVIAIGCEPNGVNINAEVGATDVRALQARVLAEKADLGIAFDGDGDRVIMVDHEGNKVDGDQIMYIIAREGLRQGQLRGGAVGTLMSNMGLELALKQLGIPFARAKVGDRYVLEKMQEKGWRIGAENSGHVILLDKTTTGDGIVAGLQVLAAMARNHMSLHDLCSGMKMFPQILVNVRYTAGSGDPLEHESVKAVTAEVEAALGNRGRVLLRKSGTEPLIRVMVEGEDEAQVTEFAHRIADAVKAV" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"PHOSMANMUT-MONOMER" null ["RfbK", "CpsG", "ManB"] "MKKLTCFKAYDIRGKLGEELNEDIAWRIGRAYGEFLKPKTIVLGGDVRLTSETLKLALAKGLQDAGVDVLDIGMSGTEEIYFATFHLGVDGGIEVTASHNPMDYNGMKLVREGARPISGDTGLRDVQRLAEANDFPPVDETKRGRYQQINLRDAYVDHLFGYINVKNLTPLKLVINSGNGAAGPVVDAIEARFKALGAPVELIKVHNTPDGNFPNGIPNPLLPECRDDTRNAVIKHGADMGIAFDGDFDRCFLFDEKGQFIEGYYIVGLLAEAFLEKNPGAKIIHDPRLSWNTVDVVTAAGGTPVMSKTGHAFIKERMRKEDAIYGGEMSAHHYFRDFAYCDSGMIPWLLVAELVCLKDKTLGELVRDRMAAFPASGEINSKLAQPVEAINRVEQHFSREALAVDRTDGISMTFADWRFNLRTSNTEPVVRLNVESRGDVPLMEARTRTLLTLLNE" [] ["CCO-CYTOSOL"] +"PHOSNACMURPENTATRANS-MONOMER" null ["MurX", "MraY"] "MLVWLAEHLVKYYSGFNVFSYLTFRAIVSLLTALFISLWMGPRMIAHLQKLSFGQVVRNDGPESHFSKRGTPTMGGIMILTAIVISVLLWAYPSNPYVWCVLVVLVGYGVIGFVDDYRKVVRKDTKGLIARWKYFWMSVIALGVAFALYLAGKDTPATQLVVPFFKDVMPQLGLFYILLAYFVIVGTGNAVNLTDGLDGLAIMPTVFVAGGFALVAWATGNMNFASYLHIPYLRHAGELVIVCTAIVGAGLGFLWFNTYPAQVFMGDVGSLALGGALGIIAVLLRQEFLLVIMGGVFVVETLSVILQVGSFKLRGQRIFRMAPIHHHYELKGWPEPRVIVRFWIISLMLVLIGLATLKVR" ["CCO-MEMBRANE"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"PHOSPHAGLYPSYN-MONOMER" "CDP-diacylglycerol—glycerol-3-phosphate 3-phosphatidyltransferase" ["PgsA"] "MQFNIPTLLTLFRVILIPFFVLVFYLPVTWSPFAAALIFCVAAVTDWFDGFLARRWNQSTRFGAFLDPVADKVLVAIAMVLVTEHYHSWWVTLPAATMIAREIIISALREWMAELGKRSSVAVSWIGKVKTTAQMVALAWLLWRPNIWVEYAGIALFFVAAVLTLWSMLQYLSAARADLLDQ" ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"PHOSPHASERSYN-MONOMER" "phosphatidylserine synthase" ["Pss", "PssA"] "MLSKFKRNKHQQHLAQLPKISQSVDDVDFFYAPADFRETLLEKIASAKQRICIVALYLEQDDGGKGILNALYEAKRQRPELDVRVLVDWHRAQRGRIGAAASNTNADWYCRMAQENPGVDVPVYGVPINTREALGVLHFKGFIIDDSVLYSGASLNDVYLHQHDKYRYDRYHLIRNRKMSDIMFEWVTQNIMNGRGVNRLDDVNRPKSPEIKNDIRLFRQELRDAAYHFQGDADNDQLSVTPLVGLGKSSLLNKTIFHLMPCAEQKLTICTPYFNLPAILVRNIIQLLREGKKVEIIVGDKTANDFYIPEDEPFKIIGALPYLYEINLRRFLSRLQYYVNTDQLVVRLWKDDDNTYHLKGMWVDDKWMLITGNNLNPRAWRLDLENAILIHDPQLELAPQREKELELIREHTTIVKHYRDLQSIADYPVKVRKLIRRLRRIRIDRLISRIL" ["CCO-CYTOSOL"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE", "CCO-CYTOSOL"] +"PHOSPHOGLUCMUT-MONOMER" null ["Blu", "Pgm"] "MAIHNRAGQPAQQSDLINVAQLTAQYYVLKPEAGNAEHAVKFGTSGHRGSAARHSFNEPHILAIAQAIAEERAKNGITGPCYVGKDTHALSEPAFISVLEVLAANGVDVIVQENNGFTPTPAVSNAILVHNKKGGPLADGIVITPSHNPPEDGGIKYNPPNGGPADTNVTKVVEDRANALLADGLKGVKRISLDEAMASGHVKEQDLVQPFVEGLADIVDMAAIQKAGLTLGVDPLGGSGIEYWKRIGEYYNLNLTIVNDQVDQTFRFMHLDKDGAIRMDCSSECAMAGLLALRDKFDLAFANDPDYDRHGIVTPAGLMNPNHYLAVAINYLFQHRPQWGKDVAVGKTLVSSAMIDRVVNDLGRKLVEVPVGFKWFVDGLFDGSFGFGGEESAGASFLRFDGTPWSTDKDGIIMCLLAAEITAVTGKNPQEHYNELAKRFGAPSYNRLQAAATSAQKAALSKLSPEMVSASTLAGDPITARLTAAPGNGASIGGLKVMTDNGWFAARPSGTEDAYKIYCESFLGEEHRKQIEKEAVEIVSEVLKNA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"PITA-MONOMER" "metal phosphate:H+ symporter PitA" ["PitA", "Pit"] "MLHLFAGLDLHTGLLLLLALAFVLFYEAINGFHDTANAVATVIYTRAMRSQLAVVMAAVFNFLGVLLGGLSVAYAIVHMLPTDLLLNMGSSHGLAMVFSMLLAAIIWNLGTWYFGLPASSSHTLIGAIIGIGLTNALMTGTSVVDALNIPKVLSIFGSLIVSPIVGLVFAGGLIFLLRRYWSGTKKRARIHLTPAEREKKDGKKKPPFWTRIALILSAIGVAFSHGANDGQKGIGLVMLVLIGVAPAGFVVNMNATGYEITRTRDAINNVEAYFEQHPALLKQATGADQLVPAPEAGATQPAEFHCHPSNTINALNRLKGMLTTDVESYDKLSLDQRSQMRRIMLCVSDTIDKVVKMPGVSADDQRLLKKLKSDMLSTIEYAPVWIIMAVALALGIGTMIGWRRVATTIGEKIGKKGMTYAQGMSAQMTAAVSIGLASYTGMPVSTTHVLSSSVAGTMVVDGGGLQRKTVTSILMAWVFTLPAAVLLSGGLYWLSLQFL" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"PITB-MONOMER" "metal phosphate:H+ symporter PitB" ["PitB"] "MLNLFVGLDIYTGLLLLLALAFVLFYEAINGFHDTANAVAAVIYTRAMQPQLAVVMAAFFNFFGVLLGGLSVAYAIVHMLPTDLLLNMGSTHGLAMVFSMLLAAIIWNLGTWFFGLPASSSHTLIGAIIGIGLTNALLTGSSVMDALNLREVTKIFSSLIVSPIVGLVIAGGLIFLLRRYWSGTKKRDRIHRIPEDRKKKKGKRKPPFWTRIALIVSAAGVAFSHGANDGQKGIGLVMLVLVGIAPAGFVVNMNASGYEITRTRDAVTNFEHYLQQHPELPQKLIAMEPPLPAASTDGTQVTEFHCHPANTFDAIARVKTMLPGNMESYEPLSVSQRSQLRRIMLCISDTSAKLAKLPGVSKEDQNLLKKLRSDMLSTIEYAPVWIIMAVALALGIGTMIGWRRVAMTIGEKIGKRGMTYAQGMAAQMTAAVSIGLASYIGMPVSTTHVLSSAVAGTMVVDGGGLQRKTVTSILMAWVFTLPAAIFLSGGLYWIALQLI" ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"PKI-MONOMER" "pyruvate kinase I" ["PykF"] "MKKTKIVCTIGPKTESEEMLAKMLDAGMNVMRLNFSHGDYAEHGQRIQNLRNVMSKTGKTAAILLDTKGPEIRTMKLEGGNDVSLKAGQTFTFTTDKSVIGNSEMVAVTYEGFTTDLSVGNTVLVDDGLIGMEVTAIEGNKVICKVLNNGDLGENKGVNLPGVSIALPALAEKDKQDLIFGCEQGVDFVAASFIRKRSDVIEIREHLKAHGGENIHIISKIENQEGLNNFDEILEASDGIMVARGDLGVEIPVEEVIFAQKMMIEKCIRARKVVITATQMLDSMIKNPRPTRAEAGDVANAILDGTDAVMLSGESAKGKYPLEAVSIMATICERTDRVMNSRLEFNNDNRKLRITEAVCRGAVETAEKLDAPLIVVATQGGKSARAVRKYFPDATILALTTNEKTAHQLVLSKGVVPQLVKEITSTDDFYRLGKELALQSGLAHKGDVVVMVSGALVPSGTTNTASVHVL" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"PKII-MONOMER" "pyruvate kinase II" ["PykA"] "MSRRLRRTKIVTTLGPATDRDNNLEKVIAAGANVVRMNFSHGSPEDHKMRADKVREIAAKLGRHVAILGDLQGPKIRVSTFKEGKVFLNIGDKFLLDANLGKGEGDKEKVGIDYKGLPADVVPGDILLLDDGRVQLKVLEVQGMKVFTEVTVGGPLSNNKGINKLGGGLSAEALTEKDKADIKTAALIGVDYLAVSFPRCGEDLNYARRLARDAGCDAKIVAKVERAEAVCSQDAMDDIILASDVVMVARGDLGVEIGDPELVGIQKALIRRARQLNRAVITATQMMESMITNPMPTRAEVMDVANAVLDGTDAVMLSAETAAGQYPSETVAAMARVCLGAEKIPSINVSKHRLDVQFDNVEEAIAMSAMYAANHLKGVTAIITMTESGRTALMTSRISSGLPIFAMSRHERTLNLTALYRGVTPVHFDSANDGVAAASEAVNLLRDKGYLMSGDLVIVTQGDVMSTVGSTNTTRILTVE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"PNTA-MONOMER" "pyridine nucleotide transhydrogenase subunit α" ["PntA"] "MRIGIPRERLTNETRVAATPKTVEQLLKLGFTVAVESGAGQLASFDDKAFVQAGAEIVEGNSVWQSEIILKVNAPLDDEIALLNPGTTLVSFIWPAQNPELMQKLAERNVTVMAMDSVPRISRAQSLDALSSMANIAGYRAIVEAAHEFGRFFTGQITAAGKVPPAKVMVIGAGVAGLAAIGAANSLGAIVRAFDTRPEVKEQVQSMGAEFLELDFKEEAGSGDGYAKVMSDAFIKAEMELFAAQAKEVDIIVTTALIPGKPAPKLITREMVDSMKAGSVIVDLAAQNGGNCEYTVPGEIFTTENGVKVIGYTDLPGRLPTQSSQLYGTNLVNLLKLLCKEKDGNITVDFDDVVIRGVTVIRAGEITWPAPPIQVSAQPQAAQKAAPEVKTEEKCTCSPWRKYALMALAIILFGWMASVAPKEFLGHFTVFALACVVGYYVVWNVSHALHTPLMSVTNAISGIIVVGALLQIGQGGWVSFLSFIAVLIASINIFGGFTVTQRMLKMFRKN" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"PNTB-MONOMER" "pyridine nucleotide transhydrogenase subunit β" ["PntB"] "MSGGLVTAAYIVAAILFIFSLAGLSKHETSRQGNNFGIAGMAIALIATIFGPDTGNVGWILLAMVIGGAIGIRLAKKVEMTEMPELVAILHSFVGLAAVLVGFNSYLHHDAGMAPILVNIHLTEVFLGIFIGAVTFTGSVVAFGKLCGKISSKPLMLPNRHKMNLAALVVSFLLLIVFVRTDSVGLQVLALLIMTAIALVFGWHLVASIGGADMPVVVSMLNSYSGWAAAAAGFMLSNDLLIVTGALVGSSGAILSYIMCKAMNRSFISVIAGGFGTDGSSTGDDQEVGEHREITAEETAELLKNSHSVIITPGYGMAVAQAQYPVAEITEKLRARGINVRFGIHPVAGRLPGHMNVLLAEAKVPYDIVLEMDEINDDFADTDTVLVIGANDTVNPAAQDDPKSPIAGMPVLEVWKAQNVIVFKRSMNTGYAGVQNPLFFKENTHMLFGDAKASVDAILKAL" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"PNUC-MONOMER" null ["PnuC"] "MDFFSVQNILVHIPIGAGGYDLSWIEAVGTIAGLLCIGLASLEKISNYFFGLINVTLFGIIFFQIQLYASLLLQVFFFAANIYGWYAWSRQTSQNEAELKIRWLPLPKALSWLAVCVVSIGLMTVFINPVFAFLTRVAVMIMQALGLQVVMPELQPDAFPFWDSCMMVLSIVAMILMTRKYVENWLLWVIINVISVVIFALQGVYAMSLEYIILTFIALNGSRMWINSARERGSRALSH" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"PORPHOBILSYNTH-MONOMER" "porphobilinogen synthase" ["Ncf", "HemB"] "MTDLIQRPRRLRKSPALRAMFEETTLSLNDLVLPIFVEEEIDDYKAVEAMPGVMRIPEKHLAREIERIANAGIRSVMTFGISHHTDETGSDAWREDGLVARMSRICKQTVPEMIVMSDTCFCEYTSHGHCGVLCEHGVDNDATLENLGKQAVVAAAAGADFIAPSAAMDGQVQAIRQALDAAGFKDTAIMSYSTKFASSFYGPFREAAGSALKGDRKSYQMNPMNRREAIRESLLDEAQGADCLMVKPAGAYLDIVRELRERTELPIGAYQVSGEYAMIKFAALAGAIDEEKVVLESLGSIKRAGADLIFSYFALDLAEKKILR" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"POTA-MONOMER" "spermidine preferential ABC transporter ATP binding subunit" [] "MGQSKKLNKQPSSLSPLVQLAGIRKCFDGKEVIPQLDLTINNGEFLTLLGPSGCGKTTVLRLIAGLETVDSGRIMLDNEDITHVPAENRYVNTVFQSYALFPHMTVFENVAFGLRMQKTPAAEITPRVMEALRMVQLETFAQRKPHQLSGGQQQRVAIARAVVNKPRLLLLDESLSALDYKLRKQMQNELKALQRKLGITFVFVTHDQEEALTMSDRIVVMRDGRIEQDGTPREIYEEPKNLFVAGFIGEINMFNATVIERLDEQRVRANVEGRECNIYVNFAVEPGQKLHVLLRPEDLRVEEINDDNHAEGLIGYVRERNYKGMTLESVVELENGKMVMVSEFFNEDDPDFDHSLDQKMAINWVESWEVVLADEEHK" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"POTB-MONOMER" "spermidine preferential ABC transporter membrane subunit PotB" [] "MIVTIVGWLVLFVFLPNLMIIGTSFLTRDDASFVKMVFTLDNYTRLLDPLYFEVLLHSLNMALIATLACLVLGYPFAWFLAKLPHKVRPLLLFLLIVPFWTNSLIRIYGLKIFLSTKGYLNEFLLWLGVIDTPIRIMFTPSAVIIGLVYILLPFMVMPLYSSIEKLDKPLLEAARDLGASKLQTFIRIIIPLTMPGIIAGCLLVMLPAMGLFYVSDLMGGAKNLLIGNVIKVQFLNIRDWPFGAATSITLTIVMGLMLLVYWRASRLLNKKVELE" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"POTC-MONOMER" "spermidine preferential ABC transporter membrane subunit PotC" [] "MIGRLLRGGFMTAIYAYLYIPIIILIVNSFNSSRFGINWQGFTTKWYSLLMNNDSLLQAAQHSLTMAVFSATFATLIGSLTAVALYRYRFRGKPFVSGMLFVVMMSPDIVMAISLLVLFMLLGIQLGFWSLLFSHITFCLPFVVVTVYSRLKGFDVRMLEAAKDLGASEFTILRKIILPLAMPAVAAGWVLSFTLSMDDVVVSSFVTGPSYEILPLKIYSMVKVGVSPEVNALATILLVLSLVMVIASQLIARDKTKGNTGDVK" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"POTD-MONOMER" "spermidine preferential ABC transporter periplasmic binding protein" [] "MKKWSRHLLAAGALALGMSAAHADDNNTLYFYNWTEYVPPGLLEQFTKETGIKVIYSTYESNETMYAKLKTYKDGAYDLVVPSTYYVDKMRKEGMIQKIDKSKLTNFSNLDPDMLNKPFDPNNDYSIPYIWGATAIGVNGDAVDPKSVTSWADLWKPEYKGSLLLTDDAREVFQMALRKLGYSGNTTDPKEIEAAYNELKKLMPNVAAFNSDNPANPYMEGEVNLGMIWNGSAFVARQAGTPIDVVWPKEGGIFWMDSLAIPANAKNKEGALKLINFLLRPDVAKQVAETIGYPTPNLAARKLLSPEVANDKTLYPDAETIKNGEWQNDVGAASSIYEEYYQKLKAGR" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"POTE-MONOMER" "putrescine transporter PotE" ["PotE", "putrescine:ornithine antiporter", "putrescine symporter"] "MSQAKSNKMGVVQLTILTMVNMMGSGIIMLPTKLAEVGTISIISWLVTAVGSMALAWAFAKCGMFSRKSGGMGGYAEYAFGKSGNFMANYTYGVSLLIANVAIAISAVGYGTELLGASLSPVQIGLATIGVLWICTVANFGGARITGQISSITVWGVIIPVVGLCIIGWFWFSPTLYVDSWNPHHAPFFSAVGSSIAMTLWAFLGLESACANTDVVENPERNVPIAVLGGTLGAAVIYIVSTNVIAGIVPNMELANSTAPFGLAFAQMFTPEVGKVIMALMVMSCCGSLLGWQFTIAQVFKSSSDEGYFPKIFSRVTKVDAPVQGMLTIVIIQSGLALMTISPSLNSQFNVLVNLAVVTNIIPYILSMAALVIIQKVANVPPSKAKVANFVAFVGAMYSFYALYSSGEEAMLYGSIVTFLGWTLYGLVSPRFELKNKHG" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"POTF-MONOMER" "putrescine ABC transporter periplasmic binding protein" [] "MTALNKKWLSGLVAGALMAVSVGTLAAEQKTLHIYNWSDYIAPDTVANFEKETGIKVVYDVFDSNEVLEGKLMAGSTGFDLVVPSASFLERQLTAGVFQPLDKSKLPEWKNLDPELLKLVAKHDPDNKFAMPYMWATTGIGYNVDKVKAVLGENAPVDSWDLILKPENLEKLKSCGVSFLDAPEEVFATVLNYLGKDPNSTKADDYTGPATDLLLKLRPNIRYFHSSQYINDLANGDICVAIGWAGDVWQASNRAKEAKNGVNVSFSIPKEGAMAFFDVFAMPADAKNKDEAYQFLNYLLRPDVVAHISDHVFYANANKAATPLVSAEVRENPGIYPPADVRAKLFTLKVQDPKIDRVRTRAWTKVKSGK" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"POTG-MONOMER" "putrescine ABC transporter ATP binding subunit" [] "MNDAIPRPQAKTRKALTPLLEIRNLTKSYDGQHAVDDVSLTIYKGEIFALLGASGCGKSTLLRMLAGFEQPSAGQIMLDGVDLSQVPPYLRPINMMFQSYALFPHMTVEQNIAFGLKQDKLPKAEIASRVNEMLGLVHMQEFAKRKPHQLSGGQRQRVALARSLAKRPKLLLLDEPMGALDKKLRDRMQLEVVDILERVGVTCVMVTHDQEEAMTMAGRIAIMNRGKFVQIGEPEEIYEHPTTRYSAEFIGSVNVFEGVLKERQEDGLVLDSPGLVHPLKVDADASVVDNVPVHVALRPEKIMLCEEPPANGCNFAVGEVIHIAYLGDLSVYHVRLKSGQMISAQLQNAHRHRKGLPTWGDEVRLCWEVDSCVVLTV" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE", "CCO-CYTOSOL"] +"POTH-MONOMER" "putrescine ABC transporter membrane subunit PotH" [] "MSTLEPAAQSKPPGGFKLWLSQLQMKHGRKLVIALPYIWLILLFLLPFLIVFKISLAEMARAIPPYTELMEWADGQLSITLNLGNFLQLTDDPLYFDAYLQSLQVAAISTFCCLLIGYPLAWAVAHSKPSTRNILLLLVILPSWTSFLIRVYAWMGILKNNGVLNNFLLWLGVIDQPLTILHTNLAVYIGIVYAYVPFMVLPIYTALIRIDYSLVEAALDLGARPLKTFFTVIVPLTKGGIIAGSMLVFIPAVGEFVIPELLGGPDSIMIGRVLWQEFFNNRDWPVASAVAIIMLLLLIVPIMWFHKHQQKSVGEHG" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"POTI-MONOMER" "putrescine ABC transporter membrane subunit PotI" [] "MNNLPVVRSPWRIVILLLGFTFLYAPMLMLVIYSFNSSKLVTVWAGWSTRWYGELLRDDAMMSAVGLSLTIAACAATAAAILGTIAAVVLVRFGRFRGSNGFAFMITAPLVMPDVITGLSLLLLFVALAHAIGWPADRGMLTIWLAHVTFCTAYVAVVISSRLRELDRSIEEAAMDLGATPLKVFFVITLPMIMPAIISGWLLAFTLSLDDLVIASFVSGPGATTLPMLVFSSVRMGVNPEINALATLILGAVGIVGFIAWYLMARAEKQRIRDIQRARRG" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"PPENTOMUT-MONOMER" "phosphopentomutase" ["Tlr", "Drm", "ThyR", "DeoB"] "MKRAFIMVLDSFGIGATEDAERFGDVGADTLGHIAEACAKGEADNGRKGPLNLPNLTRLGLAKAHEGSTGFIPAGMDGNAEVIGAYAWAHEMSSGKDTPSGHWEIAGVPVLFEWGYFSDHENSFPQELLDKLVERANLPGYLGNCHSSGTVILDQLGEEHMKTGKPIFYTSADSVFQIACHEETFGLDKLYELCEIAREELTNGGYNIGRVIARPFIGDKAGNFQRTGNRHDLAVEPPAPTVLQKLVDEKHGQVVSVGKIADIYANCGITKKVKATGLDALFDATIKEMKEAGDNTIVFTNFVDFDSSWGHRRDVAGYAAGLELFDRRLPELMSLLRDDDILILTADHGCDPTWTGTDHTREHIPVLVYGPKVKPGSLGHRETFADIGQTLAKYFGTSDMEYGKAMF" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"PPK-MONOMER" "polyphosphate kinase" ["Ppk"] "MGQEKLYIEKELSWLSFNERVLQEAADKSNPLIERMRFLGIYSNNLDEFYKVRFAELKRRIIISEEQGSNSHSRHLLGKIQSRVLKADQEFDGLYNELLLEMARNQIFLINERQLSVNQQNWLRHYFKQYLRQHITPILINPDTDLVQFLKDDYTYLAVEIIRGDTIRYALLEIPSDKVPRFVNLPPEAPRRRKPMILLDNILRYCLDDIFKGFFDYDALNAYSMKMTRDAEYDLVHEMEASLMELMSSSLKQRLTAEPVRFVYQRDMPNALVEVLREKLTISRYDSIVPGGRYHNFKDFINFPNVGKANLVNKPLPRLRHIWFDKAQFRNGFDAIRERDVLLYYPYHTFEHVLELLRQASFDPSVLAIKINIYRVAKDSRIIDSMIHAAHNGKKVTVVVELQARFDEEANIHWAKRLTEAGVHVIFSAPGLKIHAKLFLISRKENGEVVRYAHIGTGNFNEKTARLYTDYSLLTADARITNEVRRVFNFIENPYRPVTFDYLMVSPQNSRRLLYEMVDREIANAQQGLPSGITLKLNNLVDKGLVDRLYAASSSGVPVNLLVRGMCSLIPNLEGISDNIRAISIVDRYLEHDRVYIFENGGDKKVYLSSADWMTRNIDYRIEVATPLLDPRLKQRVLDIIDILFSDTVKARYIDKELSNRYVPRGNRRKVRAQLAIYDYIKSLEQPE" ["CCO-OUTER-MEM"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"PPPGPPHYDRO-MONOMER" "guanosine-5'-triphosphate,3'-diphosphate phosphatase" ["GppA", "Gpp"] "MGSTSSLYAAIDLGSNSFHMLVVREVAGSIQTLTRIKRKVRLAAGLNSENALSNEAMERGWQCLRLFAERLQDIPPSQIRVVATATLRLAVNAGDFIAKAQEILGCPVQVISGEEEARLIYQGVAHTTGGADQRLVVDIGGASTELVTGTGAQTTSLFSLSMGCVTWLERYFADRNLGQENFDAAEKAAREVLRPVADELRYHGWKVCVGASGTVQALQEIMMAQGMDERITLEKLQQLKQRAIHCGRLEELEIDGLTLERALVFPSGLAILIAIFTELNIQCMTLAGGALREGLVYGMLHLAVEQDIRSRTLRNIQRRFMIDIDQAQRVAKVAANFFDQVENEWHLEAISRDLLISACQLHEIGLSVDFKQAPQHAAYLVRNLDLPGFTPAQKKLLATLLLNQTNPVDLSSLHQQNAVPPRVAEQLCRLLRLAIIFASRRRDDLVPEMTLQANHELLTLTLPQGWLTQHPLGKEIIAQESQWQSYVHWPLEVH" [] ["CCO-CYTOSOL"] +"PPX-MONOMER" "exopolyphosphatase" ["Ppx"] "MPIHDKSPRPQEFAAVDLGSNSFHMVIARVVDGAMQIIGRLKQRVHLADGLGPDNMLSEEAMTRGLNCLSLFAERLQGFSPASVCIVGTHTLRQALNATDFLKRAEKVIPYPIEIISGNEEARLIFMGVEHTQPEKGRKLVIDIGGGSTELVIGENFEPILVESRRMGCVSFAQLYFPGGVINKENFQRARMAAAQKLETLTWQFRIQGWNVAMGASGTIKAAHEVLMEMGEKDGIITPERLEKLVKEVLRHRNFASLSLPGLSEERKTVFVPGLAILCGVFDALAIRELRLSDGALREGVLYEMEGRFRHQDVRSRTASSLANQYHIDSEQARRVLDTTMQMYEQWREQQPKLAHPQLEALLRWAAMLHEVGLNINHSGLHRHSAYILQNSDLPGFNQEQQLMMATLVRYHRKAIKLDDLPRFTLFKKKQFLPLIQLLRLGVLLNNQRQATTTPPTLTLITDDSHWTLRFPHDWFSQNALVLLDLEKEQEYWEGVAGWRLKIEEESTPEIAA" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE", "CCO-CYTOSOL"] +"PRAI-IGPS" "fused indole-3-glycerol phosphate synthase/phosphoribosylanthranilate isomerase" ["TrpC", "TrpF"] "MMQTVLAKIVADKAIWVEARKQQQPLASFQNEVQPSTRHFYDALQGARTAFILECKKASPSKGVIRDDFDPARIAAIYKHYASAISVLTDEKYFQGSFNFLPIVSQIAPQPILCKDFIIDPYQIYLARYYQADACLLMLSVLDDDQYRQLAAVAHSLEMGVLTEVSNEEEQERAIALGAKVVGINNRDLRDLSIDLNRTRELAPKLGHNVTVISESGINTYAQVRELSHFANGFLIGSALMAHDDLHAAVRRVLLGENKVCGLTRGQDAKAAYDAGAIYGGLIFVATSPRCVNVEQAQEVMAAAPLQYVGVFRNHDIADVVDKAKVLSLAAVQLHGNEEQLYIDTLREALPAHVAIWKALSVGETLPAREFQHVDKYVLDNGQGGSGQRFDWSLLNGQSLGNVLLAGGLGADNCVEAAQTGCAGLDFNSAVESQPGIKDARLLASVFQTLRAY" [] ["CCO-CYTOSOL"] +"PRIBFAICARPISOM-MONOMER" null ["HisA"] "MIIPALDLIDGTVVRLHQGDYGKQRDYGNDPLPRLQDYAAQGAEVLHLVDLTGAKDPAKRQIPLIKTLVAGVNVPVQVGGGVRSEEDVAALLEAGVARVVVGSTAVKSQDMVKGWFERFGADALVLALDVRIDEQGNKQVAVSGWQENSGVSLEQLVETYLPVGLKHVLCTDISRDGTLAGSNVSLYEEVCARYPQVAFQSSGGIGDIDDVAALRGTGVRGVIVGRALLEGKFTVKEAIACWQNA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"PROP-MONOMER" "osmolyte:H+ symporter ProP" ["ProP proline/betaine MFS transporter", "ProP", "proline permease II", "proline porter II"] "MLKRKKVKPITLRDVTIIDDGKLRKAITAASLGNAMEWFDFGVYGFVAYALGKVFFPGADPSVQMVAALATFSVPFLIRPLGGLFFGMLGDKYGRQKILAITIVIMSISTFCIGLIPSYDTIGIWAPILLLICKMAQGFSVGGEYTGASIFVAEYSPDRKRGFMGSWLDFGSIAGFVLGAGVVVLISTIVGEANFLDWGWRIPFFIALPLGIIGLYLRHALEETPAFQQHVDKLEQGDREGLQDGPKVSFKEIATKYWRSLLTCIGLVIATNVTYYMLLTYMPSYLSHNLHYSEDHGVLIIIAIMIGMLFVQPVMGLLSDRFGRRPFVLLGSVALFVLAIPAFILINSNVIGLIFAGLLMLAVILNCFTGVMASTLPAMFPTHIRYSALAAAFNISVLVAGLTPTLAAWLVESSQNLMMPAYYLMVVAVVGLITGVTMKETANRPLKGATPAASDIQEAKEILVEHYDNIEQKIDDIDHEIADLQAKRTRLVQQHPRIDE" ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"PROPKIN-MONOMER" "propionate kinase" ["YhaA", "TdcD"] "MNEFPVVLVINCGSSSIKFSVLDASDCEVLMSGIADGINSENAFLSVNGGEPAPLAHHSYEGALKAIAFELEKRNLNDSVALIGHRIAHGGSIFTESAIITDEVIDNIRRVSPLAPLHNYANLSGIESAQQLFPGVTQVAVFDTSFHQTMAPEAYLYGLPWKYYEELGVRRYGFHGTSHRYVSQRAHSLLNLAEDDSGLVVAHLGNGASICAVRNGQSVDTSMGMTPLEGLMMGTRSGDVDFGAMSWVASQTNQSLGDLERVVNKESGLLGISGLSSDLRVLEKAWHEGHERAQLAIKTFVHRIARHIAGHAASLRRLDGIIFTGGIGENSSLIRRLVMEHLAVLGLEIDTEMNNRSNSCGERIVSSENARVICAVIPTNEEKMIALDAIHLGKVNAPAEFA" [] ["CCO-CYTOSOL"] +"PROS-MONOMER" "proline—tRNA ligase" ["DrpA", "Drp", "ProS", "ProRS"] "MRTSQYLLSTLKETPADAEVISHQLMLRAGMIRKLASGLYTWLPTGVRVLKKVENIVREEMNNAGAIEVSMPVVQPADLWQESGRWEQYGPELLRFVDRGERPFVLGPTHEEVITDLIRNELSSYKQLPLNFYQIQTKFRDEVRPRFGVMRSREFLMKDAYSFHTSQESLQETYDAMYAAYSKIFSRMGLDFRAVQADTGSIGGSASHEFQVLAQSGEDDVVFSDTSDYAANIELAEAIAPKEPRAAATQEMTLVDTPNAKTIAELVEQFNLPIEKTVKTLLVKAVEGSSFPQVALLVRGDHELNEVKAEKLPQVASPLTFATEEEIRAVVKAGPGSLGPVNMPIPVVIDRTVAAMSDFAAGANIDGKHYFGINWDRDVATPEVADIRNVVAGDPSPDGQGRLLIKRGIEVGHIFQLGTKYSEALKASVQGEDGRNQILTMGCYGIGVTRVVAAAIEQNYDERGIVWPDAIAPFQVAILPMNMHKSFRVQELAEKLYSELRAQGIEVLLDDRKERPGVMFADMELIGIPHTIVLGDRNLDNDDIEYKYRRNGEKQLIKTGDIVEYLVKQIKG" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"PROTEIN-CHEA" "chemotaxis protein CheA" ["CheA"] "MSMDISDFYQTFFDEADELLADMEQHLLVLQPEAPDAEQLNAIFRAAHSIKGGAGTFGFSVLQETTHLMENLLDEARRGEMQLNTDIINLFLETKDIMQEQLDAYKQSQEPDAASFDYICQALRQLALEAKGETPSAVTRLSVVAKSEPQDEQSRSQSPRRIILSRLKAGEVDLLEEELGHLTTLTDVVKGADSLSAILPGDIAEDDITAVLCFVIEADQITFETVEVSPKISTPPVLKLAAEQAPTGRVEREKTTRSNESTSIRVAVEKVDQLINLVGELVITQSMLAQRSSELDPVNHGDLITSMGQLQRNARDLQESVMSIRMMPMEYVFSRYPRLVRDLAGKLGKQVELTLVGSSTELDKSLIERIIDPLTHLVRNSLDHGIELPEKRLAAGKNSVGNLILSAEHQGGNICIEVTDDGAGLNRERILAKAASQGLTVSENMSDDEVAMLIFAPGFSTAEQVTDVSGRGVGMDVVKRNIQKMGGHVEIQSKQGTGTTIRILLPLTLAILDGMSVRVADEVFILPLNAVMESLQPREADLHPLAGGERVLEVRGEYLPIVELWKVFNVAGAKTEATQGIVVILQSGGRRYALLVDQLIGQHQVVVKNLESNYRKVPGISAATILGDGSVALIVDVSALQAINREQRMANTAA" ["CCO-PM-BAC-NEG", "CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"PROTEIN-NRI" "DNA-binding transcriptional dual regulator NtrC" ["GlnT", "GlnG", "NtrC", "NtrC response regulator"] "MQRGIVWVVDDDSSIRWVLERALAGAGLTCTTFENGAEVLEALASKTPDVLLSDIRMPGMDGLALLKQIKQRHPMLPVIIMTAHSDLDAAVSAYQQGAFDYLPKPFDIDEAVALVERAISHYQEQQQPRNVQLNGPTTDIIGEAPAMQDVFRIIGRLSRSSISVLINGESGTGKELVAHALHRHSPRAKAPFIALNMAAIPKDLIESELFGHEKGAFTGANTIRQGRFEQADGGTLFLDEIGDMPLDVQTRLLRVLADGQFYRVGGYAPVKVDVRIIAATHQNLEQRVQEGKFREDLFHRLNVIRVHLPPLRERREDIPRLARHFLQVAARELGVEAKLLHPETEAALTRLAWPGNVRQLENTCRWLTVMAAGQEVLIQDLPGELFESTVAESTSQMQPDSWATLLAQWADRALRSGHQNLLSEAQPELERTLLTTALRHTQGHKQEAARLLGWGRNTLTRKLKELGME" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"PROTEIN-NRII" "histidine kinase NtrB" ["GlnL", "GlnR", "NtrB"] "MATGTQPDAGQILNSLINSILLIDDNLAIHYANPAAQQLLAQSSRKLFGTPLPELLSYFSLNIELMQESLEAGQGFTDNEVTLVIDGRSHILSVTAQRMPDGMILLEMAPMDNQRRLSQEQLQHAQQVAARDLVRGLAHEIKNPLGGLRGAAQLLSKALPDPSLLEYTKVIIEQADRLRNLVDRLLGPQLPGTRVTESIHKVAERVVTLVSMELPDNVRLIRDYDPSLPELAHDPDQIEQVLLNIVRNALQALGPEGGEIILRTRTAFQLTLHGERYRLAARIDVEDNGPGIPPHLQDTLFYPMVSGREGGTGLGLSIARNLIDQHSGKIEFTSWPGHTEFSVYLPIRK" [] ["CCO-CYTOSOL", "CCO-PM-BAC-NEG"] +"PROTEIN-PII" "nitrogen regulatory protein PII-1" ["GlnB", "[protein PII]", "unmodified PII", "PII", "regulatory protein P-II, regulation of nitrogen metabolism and fatty acid biosynthesis"] "MKKIDAIIKPFKLDDVREALAEVGITGMTVTEVKGFGRQKGHTELYRGAEYMVDFLPKVKIEIVVPDDIVDTCVDTIIRTAQTGKIGDGKIFVFDVARVIRIRTGEEDDAAI" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"PROTEIN-PII2" "nitrogen regulator GlnK" ["YbaI", "GlnK", "nitrogen regulatory protein GlnK", "PII2"] "MKLVTVIIKPFKLEDVREALSSIGIQGLTVTEVKGFGRQKGHAELYRGAEYSVNFLPKVKIDVAIADDQLDEVIDIVSKAAYTGKIGDGKIFVAELQRVIRIRTGEADEAAL" [] ["CCO-PM-BAC-NEG", "CCO-CYTOSOL"] +"PROTOHEME-FERROCHELAT-MONOMER" null ["VisA", "PopA", "HemH"] "MRQTKTGILLANLGTPDAPTPEAVKRYLKQFLSDRRVVDTSRLLWWPLLRGVILPLRSPRVAKLYASVWMEGGSPLMVYSRQQQQALAQRLPEMPVALGMSYGSPSLESAVDELLAEHVDHIVVLPLYPQFSCSTVGAVWDELARILARKRSIPGISFIRDYADNHDYINALANSVRASFAKHGEPDLLLLSYHGIPQRYADEGDDYPQRCRTTTRELASALGMAPEKVMMTFQSRFGREPWLMPYTDETLKMLGEKGVGHIQVMCPGFAADCLETLEEIAEQNREVFLGAGGKKYEYIPALNATPEHIEMMANLVAAYR" [] ["CCO-CYTOSOL"] +"PROTOPORGENOXI-MONOMER" "protoporphyrinogen oxidase" ["YihB", "HemG"] "MKTLILFSTRDGQTREIASYLASELKELGIQADVANVHRIEEPQWENYDRVVIGASIRYGHYHSAFQEFVKKHATRLNSMPSAFYSVNLVARKPEKRTPQTNSYARKFLMNSQWRPDRCAVIAGALRYPRYRWYDRFMIKLIMKMSGGETDTRKEVVYTDWEQVANFAREIAHLTDKPTLK" ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] ["CCO-PM-BAC-NEG", "CCO-CYTOSOL", "CCO-MEMBRANE"] +"PROV-MONOMER" "glycine betaine ABC transporter ATP binding subunit ProV" ["ProU", "OsrA", "ProV"] "MAIKLEIKNLYKIFGEHPQRAFKYIEQGLSKEQILEKTGLSLGVKDASLAIEEGEIFVIMGLSGSGKSTMVRLLNRLIEPTRGQVLIDGVDIAKISDAELREVRRKKIAMVFQSFALMPHMTVLDNTAFGMELAGINAEERREKALDALRQVGLENYAHSYPDELSGGMRQRVGLARALAINPDILLMDEAFSALDPLIRTEMQDELVKLQAKHQRTIVFISHDLDEAMRIGDRIAIMQNGEVVQVGTPDEILNNPANDYVRTFFRGVDISQVFSAKDIARRTPNGLIRKTPGFGPRSALKLLQDEDREYGYVIERGNKFVGAVSIDSLKTALTQQQGLDAALIDAPLAVDAQTPLSELLSHVGQAPCAVPVVDEDQQYVGIISKGMLLRALDREGVNNG" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"PROW-MONOMER" "glycine betaine ABC transporter membrane subunit ProW" ["OsrA", "ProU", "ProW"] "MADQNNPWDTTPAADSAAQSADAWGTPTTAPTDGGGADWLTSTPAPNVEHFNILDPFHKTLIPLDSWVTEGIDWVVTHFRPVFQGVRVPVDYILNGFQQLLLGMPAPVAIIVFALIAWQISGVGMGVATLVSLIAIGAIGAWSQAMVTLALVLTALLFCIVIGLPLGIWLARSPRAAKIIRPLLDAMQTTPAFVYLVPIVMLFGIGNVPGVVVTIIFALPPIIRLTILGINQVPADLIEASRSFGASPRQMLFKVQLPLAMPTIMAGVNQTLMLALSMVVIASMIAVGGLGQMVLRGIGRLDMGLATVGGVGIVILAIILDRLTQAVGRDSRSRGNRRWYTTGPVGLLTRPFIK" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"PROX-MONOMER" "glycine betaine ABC transporter periplasmic binding protein ProX" ["OsrA", "ProU", "ProX", "glycine betaine binding protein (GBBP)"] "MRHSVLFATAFATLISTQTFAADLPGKGITVNPVQSTITEETFQTLLVSRALEKLGYTVNKPSEVDYNVGYTSLASGDATFTAVNWTPLHDNMYEAAGGDKKFYREGVFVNGAAQGYLIDKKTADQYKITNIAQLKDPKIAKLFDTNGDGKADLTGCNPGWGCEGAINHQLAAYELTNTVTHNQGNYAAMMADTISRYKEGKPVFYYTWTPYWVSNELKPGKDVVWLQVPFSALPGDKNADTKLPNGANYGFPVSTMHIVANKAWAEKNPAAAKLFAIMQLPVADINAQNAIMHDGKASEGDIQGHVDGWIKAHQQQFDGWVNEALAAQK" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"PROY-MONOMER" "putative transporter ProY" ["YajM", "ProY", "ProY cryptic proline APC transporter"] "MESKNKLKRGLSTRHIRFMALGSAIGTGLFYGSADAIKMAGPSVLLAYIIGGIAAYIIMRALGEMSVHNPAASSFSRYAQENLGPLAGYITGWTYCFEILIVAIADVTAFGIYMGVWFPTVPHWIWVLSVVLIICAVNLMSVKVFGELEFWFSFFKVATIIIMIVAGFGIIIWGIGNGGQPTGIHNLWSNGGFFSNGWLGMVMSLQMVMFAYGGIEIIGITAGEAKDPEKSIPRAINSVPMRILVFYVGTLFVIMSIYPWNQVGTAGSPFVLTFQHMGITFAASILNFVVLTASLSAINSDVFGVGRMLHGMAEQGSAPKIFSKTSRRGIPWVTVLVMTTALLFAVYLNYIMPENVFLVIASLATFATVWVWIMILLSQIAFRRRLPPEEVKALKFKVPGGVATTIGGLIFLLFIIGLIGYHPDTRISLYVGFAWIVVLLIGWMFKRRHDRQLAENQ" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"PRPPAMIDOTRANS-MONOMER" "amidophosphoribosyltransferase" ["Ade", "PurC", "PurF"] "MCGIVGIAGVMPVNQSIYDALTVLQHRGQDAAGIITIDANNCFRLRKANGLVSDVFEARHMQRLQGNMGIGHVRYPTAGSSSASEAQPFYVNSPYGITLAHNGNLTNAHELRKKLFEEKRRHINTTSDSEILLNIFASELDNFRHYPLEADNIFAAIAATNRLIRGAYACVAMIIGHGMVAFRDPNGIRPLVLGKRDIDENRTEYMVASESVALDTLGFDFLRDVAPGEAIYITEEGQLFTRQCADNPVSNPCLFEYVYFARPDSFIDKISVYSARVNMGTKLGEKIAREWEDLDIDVVIPIPETSCDIALEIARILGKPYRQGFVKNRYVGRTFIMPGQQLRRKSVRRKLNANRAEFRDKNVLLVDDSIVRGTTSEQIIEMAREAGAKKVYLASAAPEIRFPNVYGIDMPSATELIAHGREVDEIRQIIGADGLIFQDLNDLIDAVRAENPDIQQFECSVFNGVYVTKDVDQGYLDFLDTLRNDDAKAVQRQNEVENLEMHNEG" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"PRPPSYN-MONOMER" "ribose-phosphate diphosphokinase" ["DnaR", "Prs", "PrsA"] "MPDMKLFAGNATPELAQRIANRLYTSLGDAAVGRFSDGEVSVQINENVRGGDIFIIQSTCAPTNDNLMELVVMVDALRRASAGRITAVIPYFGYARQDRRVRSARVPITAKVVADFLSSVGVDRVLTVDLHAEQIQGFFDVPVDNVFGSPILLEDMLQLNLDNPIVVSPDIGGVVRARAIAKLLNDTDMAIIDKRRPRANVSQVMHIIGDVAGRDCVLVDDMIDTGGTLCKAAEALKERGAKRVFAYATHPIFSGNAANNLRNSVIDEVVVCDTIPLSDEIKSLPNVRTLTLSGMLAEAIRRISNEESISAMFEH" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"PSD-MONOMER" "phosphatidylserine decarboxylase proenzyme" ["Psd", "phosphatidylserine decarboxylase, π subunit"] "MLNSFKLSLQYILPKLWLTRLAGWGASKRAGWLTKLVIDLFVKYYKVDMKEAQKPDTASYRTFNEFFVRPLRDEVRPIDTDPNVLVMPADGVISQLGKIEEDKILQAKGHNYSLEALLAGNYLMADLFRNGTFVTTYLSPRDYHRVHMPCNGILREMIYVPGDLFSVNHLTAQNVPNLFARNERVICLFDTEFGPMAQILVGATIVGSIETVWAGTITPPREGIIKRWTWPAGENDGSVALLKGQEMGRFKLGSTVINLFAPGKVNLVEQLESLSVTKIGQPLAVSTETFVTPDAEPAPLPAEEIEAEHDASPLVDDKKDQV" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"PSERPHOSPHA-MONOMER" null ["SerB"] "MPNITWCDLPEDVSLWPGLPLSLSGDEVMPLDYHAGRSGWLLYGRGLDKQRLTQYQSKLGAAMVIVAAWCVEDYQVIRLAGSLTARATRLAHEAQLDVAPLGKIPHLRTPGLLVMDMDSTAIQIECIDEIAKLAGTGEMVAEVTERAMRGELDFTASLRSRVATLKGADANILQQVRENLPLMPGLTQLVLKLETLGWKVAIASGGFTFFAEYLRDKLRLTAVVANELEIMDGKFTGNVIGDIVDAQYKAKTLTRLAQEYEIPLAQTVAIGDGANDLPMIKAAGLGIAYHAKPKVNEKAEVTIRHADLMGVFCILSGSLNQK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"PSERTRANSAM-MONOMER" "phosphoserine/phosphohydroxythreonine aminotransferase" ["SerC", "PdxF", "PdxC"] "MAQIFNFSSGPAMLPAEVLKQAQQELRDWNGLGTSVMEVSHRGKEFIQVAEEAEKDFRDLLNVPSNYKVLFCHGGGRGQFAAVPLNILGDKTTADYVDAGYWAASAIKEAKKYCTPNVFDAKVTVDGLRAVKPMREWQLSDNAAYMHYCPNETIDGIAIDETPDFGADVVVAADFSSTILSRPIDVSRYGVIYAGAQKNIGPAGLTIVIVREDLLGKANIACPSILDYSILNDNGSMFNTPPTFAWYLSGLVFKWLKANGGVAEMDKINQQKAELLYGVIDNSDFYRNDVAKANRSRMNVPFQLADSALDKLFLEESFAAGLHALKGHRVVGGMRASIYNAMPLEGVKALTDFMVEFERRHG" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"PSTA-MONOMER" "phosphate ABC transporter membrane subunit PstA" ["PhoT"] "MAMVEMQTTAALAESRRKMQARRRLKNRIALTLSMATMAFGLFWLIWILMSTITRGIDGMSLALFTEMTPPPNTEGGGLANALAGSGLLILWATVFGTPLGIMAGIYLAEYGRKSWLAEVIRFINDILLSAPSIVVGLFVYTIVVAQMEHFSGWAGVIALALLQVPIVIRTTENMLKLVPYSLREAAYALGTPKWKMISAITLKASVSGIMTGILLAIARIAGETAPLLFTALSNQFWSTDMMQPIANLPVTIFKFAMSPFAEWQQLAWAGVLIITLCVLLLNILARVVFAKNKHG" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"PSTB-MONOMER" "phosphate ABC transporter ATP binding subunit" ["PhoT"] "MSMVETAPSKIQVRNLNFYYGKFHALKNINLDIAKNQVTAFIGPSGCGKSTLLRTFNKMFELYPEQRAEGEILLDGDNILTNSQDIALLRAKVGMVFQKPTPFPMSIYDNIAFGVRLFEKLSRADMDERVQWALTKAALWNETKDKLHQSGYSLSGGQQQRLCIARGIAIRPEVLLLDEPCSALDPISTGRIEELITELKQDYTVVIVTHNMQQAARCSDHTAFMYLGELIEFSNTDDLFTKPAKKQTEDYITGRYG" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"PSTC-MONOMER" "phosphate ABC transporter membrane subunit PstC" ["PhoW"] "MAATKPAFNPPGKKGDIIFSVLVKLAALIVLLMLGGIIVSLIISSWPSIQKFGLAFLWTKEWDAPNDIYGALVPIYGTLVTSFIALLIAVPVSFGIALFLTELAPGWLKRPLGIAIELLAAIPSIVYGMWGLFIFAPLFAVYFQEPVGNIMSNIPIVGALFSGPAFGIGILAAGVILAIMIIPYIAAVMRDVFEQTPVMMKESAYGIGCTTWEVIWRIVLPFTKNGVIGGIMLGLGRALGETMAVTFIIGNTYQLDSASLYMPGNSITSALANEFAEAESGLHVAALMELGLILFVITFIVLAASKFMIMRLAKNEGAR" ["CCO-PM-BAC-NEG"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"PSTS-MONOMER" "phosphate ABC transporter periplasmic binding protein" ["PhoS", "NmpA", "PiBP"] "MKVMRTTVATVVAATLSMSAFSVFAEASLTGAGATFPAPVYAKWADTYQKETGNKVNYQGIGSSGGVKQIIANTVDFGASDAPLSDEKLAQEGLFQFPTVIGGVVLAVNIPGLKSGELVLDGKTLGDIYLGKIKKWDDEAIAKLNPGLKLPSQNIAVVRRADGSGTSFVFTSYLAKVNEEWKNNVGTGSTVKWPIGLGGKGNDGIAAFVQRLPGAIGYVEYAYAKQNNLAYTKLISADGKPVSPTEENFANAAKGADWSKTFAQDLTNQKGEDAWPITSTTFILIHKDQKKPEQGTEVLKFFDWAYKTGAKQANDLDYASLPDSVVEQVRAAWKTNIKDSSGKPLY" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"PTSG-MONOMER" "glucose-specific PTS enzyme IIBC component" ["PtsG", "Tgl", "Umg", "UmgC", "GptA", "Cat", "Car", "GlcA", "EIIBCglc", "Enzyme IIBCglc", "EIIBglc", "Enzyme IIBglc"] "MFKNAFANLQKVGKSLMLPVSVLPIAGILLGVGSANFSWLPAVVSHVMAEAGGSVFANMPLIFAIGVALGFTNNDGVSALAAVVAYGIMVKTMAVVAPLVLHLPAEEIASKHLADTGVLGGIISGAIAAYMFNRFYRIKLPEYLGFFAGKRFVPIISGLAAIFTGVVLSFIWPPIGSAIQTFSQWAAYQNPVVAFGIYGFIERCLVPFGLHHIWNVPFQMQIGEYTNAAGQVFHGDIPRYMAGDPTAGKLSGGFLFKMYGLPAAAIAIWHSAKPENRAKVGGIMISAALTSFLTGITEPIEFSFMFVAPILYIIHAILAGLAFPICILLGMRDGTSFSHGLIDFIVLSGNSSKLWLFPIVGIGYAIVYYTIFRVLIKALDLKTPGREDATEDAKATGTSEMAPALVAAFGGKENITNLDACITRLRVSVADVSKVDQAGLKKLGAAGVVVAGSGVQAIFGTKSDNLKTEMDEYIRNH" ["CCO-CYTOSOL", "CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"PTSH-MONOMER" "phosphocarrier protein HPr" ["Hpr", "Ctr", "PtsH"] "MFQQEVTITAPNGLHTRPAAQFVKEAKGFTSEITVTSNGKSASAKSLFKLQTLGLTQGTVVTISAEGEDEQKAVEHLVKLMAELE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"PTSI-MONOMER" "PTS enzyme I" ["Ctr", "PtsI", "EI"] "MISGILASPGIAFGKALLLKEDEIVIDRKKISADQVDQEVERFLSGRAKASAQLETIKTKAGETFGEEKEAIFEGHIMLLEDEELEQEIIALIKDKHMTADAAAHEVIEGQASALEELDDEYLKERAADVRDIGKRLLRNILGLKIIDLSAIQDEVILVAADLTPSETAQLNLKKVLGFITDAGGRTSHTSIMARSLELPAIVGTGSVTSQVKNDDYLILDAVNNQVYVNPTNEVIDKMRAVQEQVASEKAELAKLKDLPAITLDGHQVEVCANIGTVRDVEGAERNGAEGVGLYRTEFLFMDRDALPTEEEQFAAYKAVAEACGSQAVIVRTMDIGGDKELPYMNFPKEENPFLGWRAIRIAMDRREILRDQLRAILRASAFGKLRIMFPMIISVEEVRALRKEIEIYKQELRDEGKAFDESIEIGVMVETPAAATIARHLAKEVDFFSIGTNDLTQYTLAVDRGNDMISHLYQPMSPSVLNLIKQVIDASHAEGKWTGMCGELAGDERATLLLLGMGLDEFSMSAISIPRIKKIIRNTNFEDAKVLAEQALAQPTTDELMTLVNKFIEEKTIC" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"PURE-MONOMER" "N5-carboxyaminoimidazole ribonucleotide mutase" ["Ade", "PurE"] "MSSRNNPARVAIVMGSKSDWATMQFAAEIFEILNVPHHVEVVSAHRTPDKLFSFAESAEENGYQVIIAGAGGAAHLPGMIAAKTLVPVLGVPVQSAALSGVDSLYSIVQMPRGIPVGTLAIGKAGAANAALLAAQILATHDKELHQRLNDWRKAQTDEVLENPDPRGAA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"PURK-MONOMER" "5-(carboxyamino)imidazole ribonucleotide synthase" ["PurK", "purE2 peptide", "CO2 subunit, AIR carboxylase"] "MKQVCVLGNGQLGRMLRQAGEPLGIAVWPVGLDAEPAAVPFQQSVITAEIERWPETALTRELARHPAFVNRDVFPIIADRLTQKQLFDKLHLPTAPWQLLAERSEWPAVFDRLGELAIVKRRTGGYDGRGQWRLRANETEQLPAECYGECIVEQGINFSGEVSLVGARGFDGSTVFYPLTHNLHQDGILRTSVAFPQANAQQQAQAEEMLSAIMQELGYVGVMAMECFVTPQGLLINELAPRVHNSGHWTQNGASISQFELHLRAITDLPLPQPVVNNPSVMINLIGSDVNYDWLKLPLVHLHWYDKEVRPGRKVGHLNLTDSDTSRLTATLEALIPLLPPEYASGVIWAQSKFG" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"PUTA-MONOMER" "fused DNA-binding transcriptional repressor / proline dehydrogenase / 1-pyrroline-5-carboxylate dehydrogenase PutA" ["PutC", "PoaA", "PutA", "proline utilization A"] "MGTTTMGVKLDDATRERIKSAATRIDRTPHWLIKQAIFSYLEQLENSDTLPELPALLSGAANESDEAPTPAEEPHQPFLDFAEQILPQSVSRAAITAAYRRPETEAVSMLLEQARLPQPVAEQAHKLAYQLADKLRNQKNASGRAGMVQGLLQEFSLSSQEGVALMCLAEALLRIPDKATRDALIRDKISNGNWQSHIGRSPSLFVNAATWGLLFTGKLVSTHNEASLSRSLNRIIGKSGEPLIRKGVDMAMRLMGEQFVTGETIAEALANARKLEEKGFRYSYDMLGEAALTAADAQAYMVSYQQAIHAIGKASNGRGIYEGPGISIKLSALHPRYSRAQYDRVMEELYPRLKSLTLLARQYDIGINIDAEESDRLEISLDLLEKLCFEPELAGWNGIGFVIQAYQKRCPLVIDYLIDLATRSRRRLMIRLVKGAYWDSEIKRAQMDGLEGYPVYTRKVYTDVSYLACAKKLLAVPNLIYPQFATHNAHTLAAIYQLAGQNYYPGQYEFQCLHGMGEPLYEQVTGKVADGKLNRPCRIYAPVGTHETLLAYLVRRLLENGANTSFVNRIADTSLPLDELVADPVTAVEKLAQQEGQTGLPHPKIPLPRDLYGHGRDNSAGLDLANEHRLASLSSALLNSALQKWQALPMLEQPVAAGEMSPVINPAEPKDIVGYVREATPREVEQALESAVNNAPIWFATPPAERAAILHRAAVLMESQMQQLIGILVREAGKTFSNAIAEVREAVDFLHYYAGQVRDDFANETHRPLGPVVCISPWNFPLAIFTGQIAAALAAGNSVLAKPAEQTPLIAAQGIAILLEAGVPPGVVQLLPGRGETVGAQLTGDDRVRGVMFTGSTEVATLLQRNIASRLDAQGRPIPLIAETGGMNAMIVDSSALTEQVVVDVLASAFDSAGQRCSALRVLCLQDEIADHTLKMLRGAMAECRMGNPGRLTTDIGPVIDSEAKANIERHIQTMRSKGRPVFQAVRENSEDAREWQSGTFVAPTLIELDDFAELQKEVFGPVLHVVRYNRNQLPELIEQINASGYGLTLGVHTRIDETIAQVTGSAHVGNLYVNRNMVGAVVGVQPFGGEGLSGTGPKAGGPLYLYRLLANRPESALAVTLARQDAKYPVDAQLKAALTQPLNALREWAANRPELQALCTQYGELAQAGTQRLLPGPTGERNTWTLLPRERVLCIADDEQDALTQLAAVLAVGSQVLWPDDALHRQLVKALPSAVSERIQLAKAENITAQPFDAVIFHGDSDQLRALCEAVAARDGTIVSVQGFARGESNILLERLYIERSLSVNTAAAGGNASLMTIG" ["CCO-CYTOSOL", "CCO-PM-BAC-NEG"] ["CCO-PM-BAC-NEG"] +"PUTP-MONOMER" "proline:Na+ symporter" ["PutC", "PutP", "PPI", "proline permease I", "PutP proline SSS transporter"] "MAISTPMLVTFCVYIFGMILIGFIAWRSTKNFDDYILGGRSLGPFVTALSAGASDMSGWLLMGLPGAVFLSGISESWIAIGLTLGAWINWKLVAGRLRVHTEYNNNALTLPDYFTGRFEDKSRILRIISALVILLFFTIYCASGIVAGARLFESTFGMSYETALWAGAAATILYTFIGGFLAVSWTDTVQASLMIFALILTPVIVIISVGGFGDSLEVIKQKSIENVDMLKGLNFVAIISLMGWGLGYFGQPHILARFMAADSHHSIVHARRISMTWMILCLAGAVAVGFFGIAYFNDHPALAGAVNQNAERVFIELAQILFNPWIAGILLSAILAAVMSTLSCQLLVCSSAITEDLYKAFLRKHASQKELVWVGRVMVLVVALVAIALAANPENRVLGLVSYAWAGFGAAFGPVVLFSVMWSRMTRNGALAGMIIGALTVIVWKQFGWLGLYEIIPGFIFGSIGIVVFSLLGKAPSAAMQKRFAEADAHYHSAPPSRLQES" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"PYRROLINECARBREDUCT-MONOMER" "pyrroline-5-carboxylate reductase" ["ProC"] "MEKKIGFIGCGNMGKAILGGLIASGQVLPGQIWVYTPSPDKVAALHDQFGINAAESAQEVAQIADIIFAAVKPGIMIKVLSEITSSLNKDSLVVSIAAGVTLDQLARALGHDRKIIRAMPNTPALVNAGMTSVTPNALVTPEDTADVLNIFRCFGEAEVIAEPMIHPVVGVSGSSPAYVFMFIEAMADAAVLGGMPRAQAYKFAAQAVMGSAKMVLETGEHPGALKDMVCSPGGTTIEAVRVLEEKGFRAAVIEAMTKCMEKSEKLSKS" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"PYRUVFORMLY-MONOMER" "pyruvate formate-lyase" ["Pfl", "PflB"] "MSELNEKLATAWEGFTKGDWQNEVNVRDFIQKNYTPYEGDESFLAGATEATTTLWDKVMEGVKLENRTHAPVDFDTAVASTITSHDAGYINKQLEKIVGLQTEAPLKRALIPFGGIKMIEGSCKAYNRELDPMIKKIFTEYRKTHNQGVFDVYTPDILRCRKSGVLTGLPDAYGRGRIIGDYRRVALYGIDYLMKDKLAQFTSLQADLENGVNLEQTIRLREEIAEQHRALGQMKEMAAKYGYDISGPATNAQEAIQWTYFGYLAAVKSQNGAAMSFGRTSTFLDVYIERDLKAGKITEQEAQEMVDHLVMKLRMVRFLRTPEYDELFSGDPIWATESIGGMGLDGRTLVTKNSFRFLNTLYTMGPSPEPNMTILWSEKLPLNFKKFAAKVSIDTSSLQYENDDLMRPDFNNDDYAIACCVSPMIVGKQMQFFGARANLAKTMLYAINGGVDEKLKMQVGPKSEPIKGDVLNYDEVMERMDHFMDWLAKQYITALNIIHYMHDKYSYEASLMALHDRDVIRTMACGIAGLSVAADSLSAIKYAKVKPIRDEDGLAIDFEIEGEYPQFGNNDPRVDDLAVDLVERFMKKIQKLHTYRDAIPTQSVLTITSNVVYGKKTGNTPDGRRAGAPFGPGANPMHGRDQKGAVASLTSVAKLPFAYAKDGISYTFSIVPNALGKDDEVRKTNLAGLMDGYFHHEASIEGGQHLNVNVMNREMLLDAMENPEKYPQLTIRVSGYAVRFNSLTKEQQQDVITRTFTQSM" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"PYRUVOXID-MONOMER" "pyruvate oxidase" ["PoxB"] "MKQTVAAYIAKTLESAGVKRIWGVTGDSLNGLSDSLNRMGTIEWMSTRHEEVAAFAAGAEAQLSGELAVCAGSCGPGNLHLINGLFDCHRNHVPVLAIAAHIPSSEIGSGYFQETHPQELFRECSHYCELVSSPEQIPQVLAIAMRKAVLNRGVSVVVLPGDVALKPAPEGATMHWYHAPQPVVTPEEEELRKLAQLLRYSSNIALMCGSGCAGAHKELVEFAGKIKAPIVHALRGKEHVEYDNPYDVGMTGLIGFSSGFHTMMNADTLVLLGTQFPYRAFYPTDAKIIQIDINPASIGAHSKVDMALVGDIKSTLRALLPLVEEKADRKFLDKALEDYRDARKGLDDLAKPSEKAIHPQYLAQQISHFAADDAIFTCDVGTPTVWAARYLKMNGKRRLLGSFNHGSMANAMPQALGAQATEPERQVVAMCGDGGFSMLMGDFLSVVQMKLPVKIVVFNNSVLGFVAMEMKAGGYLTDGTELHDTNFARIAEACGITGIRVEKASEVDEALQRAFSIDGPVLVDVVVAKEELAIPPQIKLEQAKGFSLYMLRAIISGRGDEVIELAKTNWLR" ["CCO-CYTOSOL"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE", "CCO-CYTOSOL"] +"QOR-MONOMER" "putative quinone oxidoreductase 1" ["Hzc", "Hcz", "Qor", "QorA"] "MATRIEFHKHGGPEVLQAVEFTPADPAENEIQVENKAIGINFIDTYIRSGLYPPPSLPSGLGTEAAGIVSKVGSGVKHIKAGDRVVYAQSALGAYSSVHNIIADKAAILPAAISFEQAAASFLKGLTVYYLLRKTYEIKPDEQFLFHAAAGGVGLIACQWAKALGAKLIGTVGTAQKAQSALKAGAWQVINYREEDLVERLKEITGGKKVRVVYDSVGRDTWERSLDCLQRRGLMVSFGNSSGAVTGVNLGILNQKGSLYVTRPSLQGYITTREELTEASNELFSLIASGVIKVDVAEQQKYPLKDAQRAHEILESRATQGSSLLIP" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"QUINOLINATE-SYNTHA-MONOMER" "quinolinate synthase" ["NicA", "NadA"] "MSVMFDPDTAIYPFPPKPTPLSIDEKAYYREKIKRLLKERNAVMVAHYYTDPEIQQLAEETGGCISDSLEMARFGAKHPASTLLVAGVRFMGETAKILSPEKTILMPTLQAECSLDLGCPVEEFNAFCDAHPDRTVVVYANTSAAVKARADWVVTSSIAVELIDHLDSLGEKIIWAPDKHLGRYVQKQTGGDILCWQGACIVHDEFKTQALTRLQEEYPDAAILVHPESPQAIVDMADAVGSTSQLIAAAKTLPHQRLIVATDRGIFYKMQQAVPDKELLEAPTAGEGATCRSCAHCPWMAMNGLQAIAEALEQEGSNHEVHVDERLRERALVPLNRMLDFAATLRG" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"QUINOPRIBOTRANS-MONOMER" "quinolinate phosphoribosyltransferase (decarboxylating)" ["NadC"] "MPPRRYNPDTRRDELLERINLDIPGAVAQALREDLGGTVDANNDITAKLLPENSRSHATVITRENGVFCGKRWVEEVFIQLAGDDVTIIWHVDDGDVINANQSLFELEGPSRVLLTGERTALNFVQTLSGVASKVRHYVELLEGTNTQLLDTRKTLPGLRSALKYAVLCGGGANHRLGLSDAFLIKENHIIASGSVRQAVEKASWLHPDAPVEVEVENLEELDEALKAGADIIMLDNFETEQMREAVKRTNGKALLEVSGNVTDKTLREFAETGVDFISVGALTKHVQALDLSMRFR" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"RBSA-MONOMER" "ribose ABC transporter ATP binding subunit" ["RbsP", "RbsT"] "MEALLQLKGIDKAFPGVKALSGAALNVYPGRVMALVGENGAGKSTMMKVLTGIYTRDAGTLLWLGKETTFTGPKSSQEAGIGIIHQELNLIPQLTIAENIFLGREFVNRFGKIDWKTMYAEADKLLAKLNLRFKSDKLVGDLSIGDQQMVEIAKVLSFESKVIIMDEPTDALTDTETESLFRVIRELKSQGRGIVYISHRMKEIFEICDDVTVFRDGQFIAEREVASLTEDSLIEMMVGRKLEDQYPHLDKAPGDIRLKVDNLCGPGVNDVSFTLRKGEILGVSGLMGAGRTELMKVLYGALPRTSGYVTLDGHEVVTRSPQDGLANGIVYISEDRKRDGLVLGMSVKENMSLTALRYFSRAGGSLKHADEQQAVSDFIRLFNVKTPSMEQAIGLLSGGNQQKVAIARGLMTRPKVLILDEPTRGVDVGAKKEIYQLINQFKADGLSIILVSSEMPEVLGMSDRIIVMHEGHLSGEFTREQATQEVLMAAAVGKLNRVNQE" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"RBSB-MONOMER" "ribose ABC transporter periplasmic binding protein" ["RbsP", "PrlB"] "MNMKKLATLVSAVALSATVSANAMAKDTIALVVSTLNNPFFVSLKDGAQKEADKLGYNLVVLDSQNNPAKELANVQDLTVRGTKILLINPTDSDAVGNAVKMANQANIPVITLDRQATKGEVVSHIASDNVLGGKIAGDYIAKKAGEGAKVIELQGIAGTSAARERGEGFQQAVAAHKFNVLASQPADFDRIKGLNVMQNLLTAHPDVQAVFAQNDEMALGALRALQTAGKSDVMVVGFDGTPDGEKAVNDGKLAATIAQLPDQIGAKGVETADKVLKGEKVQAKYPVDLKLVVKQ" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"RBSC-MONOMER" "ribose ABC transporter membrane subunit" ["RbsT", "RbsP"] "MTTQTVSGRRYFTKAWLMEQKSLIALLVLIAIVSTLSPNFFTINNLFNILQQTSVNAIMAVGMTLVILTSGIDLSVGSLLALTGAVAASIVGIEVNALVAVAAALALGAAIGAVTGVIVAKGRVQAFIATLVMMLLLRGVTMVYTNGSPVNTGFTENADLFGWFGIGRPLGVPTPVWIMGIVFLAAWYMLHHTRLGRYIYALGGNEAATRLSGINVNKIKIIVYSLCGLLASLAGIIEVARLSSAQPTAGTGYELDAIAAVVLGGTSLAGGKGRIVGTLIGALILGFLNNGLNLLGVSSYYQMIVKAVVILLAVLVDNKKQ" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"RCSB-MONOMER" "DNA-binding transcriptional activator RcsB" ["RcsB response regulator", "RcsB"] "MNNMNVIIADDHPIVLFGIRKSLEQIEWVNVVGEFEDSTALINNLPKLDAHVLITDLSMPGDKYGDGITLIKYIKRHFPSLSIIVLTMNNNPAILSAVLDLDIEGIVLKQGAPTDLPKALAALQKGKKFTPESVSRLLEKISAGGYGDKRLSPKESEVLRLFAEGFLVTEIAKKLNRSIKTISSQKKSAMMKLGVENDIALLNYLSSVTLSPADKD" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"RCSC-MONOMER" "histidine kinase RcsC" [] "MKYLASFRTTLKASRYMFRALALVLWLLIAFSSVFYIVNALHQRESEIRQEFNLSSDQAQRFIQRTSDVMKELKYIAENRLSAENGVLSPRGRETQADVPAFEPLFADSDCSAMSNTWRGSLESLAWFMRYWRDNFSAAYDLNRVFLIGSDNLCMANFGLRDMPVERDTALKALHERINKYRNAPQDDSGSNLYWISEGPRPGVGYFYALTPVYLANRLQALLGVEQTIRMENFFLPGTLPMGVTILDENGHTLISLTGPESKIKGDPRWMQERSWFGYTEGFRELVLKKNLPPSSLSIVYSVPVDKVLERIRMLILNAILLNVLAGAALFTLARMYERRIFIPAESDALRLEEHEQFNRKIVASAPVGICILRTADGVNILSNELAHTYLNMLTHEDRQRLTQIICGQQVNFVDVLTSNNTNLQISFVHSRYRNENVAICVLVDVSSRVKMEESLQEMAQAAEQASQSKSMFLATVSHELRTPLYGIIGNLDLLQTKELPKGVDRLVTAMNNSSSLLLKIISDILDFSKIESEQLKIEPREFSPREVMNHITANYLPLVVRKQLGLYCFIEPDVPVALNGDPMRLQQVISNLLSNAIKFTDTGCIVLHVRADGDYLSIRVRDTGVGIPAKEVVRLFDPFFQVGTGVQRNFQGTGLGLAICEKLISMMDGDISVDSEPGMGSQFTVRIPLYGAQYPQKKGVEGLSGKRCWLAVRNASLCQFLETSLQRSGIVVTTYEGQEPTPEDVLITDEVVSKKWQGRAVVTFCRRHIGIPLEKAPGEWVHSVAAPHELPALLARIYLIEMESDDPANALPSTDKAVSDNDDMMILVVDDHPINRRLLADQLGSLGYQCKTANDGVDALNVLSKNHIDIVLSDVNMPNMDGYRLTQRIRQLGLTLPVIGVTANALAEEKQRCLESGMDSCLSKPVTLDVIKQTLTLYAERVRKSRDS" ["CCO-PERI-BAC", "CCO-CYTOSOL", "CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"RCSF-MONOMER" "sensor lipoprotein RcsF" ["RcsF"] "MRALPICLVALMLSGCSMLSRSPVEPVQSTAPQPKAEPAKPKAPRATPVRIYTNAEELVGKPFRDLGEVSGDSCQASNQDSPPSIPTARKRMQINASKMKANAVLLHSCEVTSGTPGCYRQAVCIGSALNITAK" ["CCO-PERI-BAC", "CCO-OUTER-MEM"] ["CCO-MEMBRANE", "CCO-OUTER-MEM"] +"RED-GLUTAREDOXIN" "reduced glutaredoxin 1" ["Grx", "GrxA", "glutaredoxin 1"] "MQTVIFGRSGCPYCVRAKDLAEKLSNERDDFQYQYVDIRAEGITKEDLQQKAGKPVETVPQIFVDQQHIGGYTDFAAWVKENLDA" [] ["CCO-CYTOSOL"] +"RED-THIOREDOXIN-MONOMER" "thioredoxin 1" ["DasC", "TsnC", "FipA", "TrxA", "thioredoxin(SH)2", "TRX1"] "MSDKIIHLTDDSFDTDVLKADGAILVDFWAEWCGPCKMIAPILDEIADEYQGKLTVAKLNIDQNPGTAPKYGIRGIPTLLLFKNGEVAATKVGALSKGQLKEFLDANLA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"RED-THIOREDOXIN2-MONOMER" "reduced thioredoxin 2" ["YfiG", "TrxC", "Trx2"] "MNTVCTHCQAINRIPDDRIEDAAKCGRCGHDLFDGEVINATGETLDKLLKDDLPVVIDFWAPWCGPCRNFAPIFEDVAQERSGKVRFVKVNTEAERELSSRFGIRSIPTIMIFKNGQVVDMLNGAVPKAPFDSWLNESL" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"RELA-MONOMER" "GDP/GTP pyrophosphokinase" ["RelA", "stringent factor", "ppGpp synthetase I", "PSI", "ppGpp synthase I", "(p)ppGpp synthetase I"] "MVAVRSAHINKAGEFDPEKWIASLGITSQKSCECLAETWAYCLQQTQGHPDASLLLWRGVEMVEILSTLSMDIDTLRAALLFPLADANVVSEDVLRESVGKSVVNLIHGVRDMAAIRQLKATHTDSVSSEQVDNVRRMLLAMVDDFRCVVIKLAERIAHLREVKDAPEDERVLAAKECTNIYAPLANRLGIGQLKWELEDYCFRYLHPTEYKRIAKLLHERRLDREHYIEEFVGHLRAEMKAEGVKAEVYGRPKHIYSIWRKMQKKNLAFDELFDVRAVRIVAERLQDCYAALGIVHTHYRHLPDEFDDYVANPKPNGYQSIHTVVLGPGGKTVEIQIRTKQMHEDAELGVAAHWKYKEGAAAGGARSGHEDRIAWLRKLIAWQEEMADSGEMLDEVRSQVFDDRVYVFTPKGDVVDLPAGSTPLDFAYHIHSDVGHRCIGAKIGGRIVPFTYQLQMGDQIEIITQKQPNPSRDWLNPNLGYVTTSRGRSKIHAWFRKQDRDKNILAGRQILDDELEHLGISLKEAEKHLLPRYNFNDVDELLAAIGGGDIRLNQMVNFLQSQFNKPSAEEQDAAALKQLQQKSYTPQNRSKDNGRVVVEGVGNLMHHIARCCQPIPGDEIVGFITQGRGISVHRADCEQLAELRSHAPERIVDAVWGESYSAGYSLVVRVVANDRSGLLRDITTILANEKVNVLGVASRSDTKQQLATIDMTIEIYNLQVLGRVLGKLNQVPDVIDARRLHGS" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"RFBX-MONOMER" "polyisoprenol-linked O-antigen repeat unit flippase" ["Wzx", "WzxB", "RfbX"] "MNTNKLSLRRNVIYLAVVQGSNYLLPLLTFPYLVRTLGPENFGIFGFCQATMLYMIMFVEYGFNLTATQSIAKAADSKDKVTSIFWAVIFSKIVLIVITLIFLTSMTLLVPEYNKHAVIIWSFVPALVGNLIYPIWLFQGKEKMKWLTLSSILSRLAIIPLTFIFVNTKSDIAIAGFIQSSANLVAGIIALAIVVHEGWIGKVTLSLHNVRRSLADGFHVFISTSAISLYSTGIVIILGFISGPTSVGNFNAANTIRNALQGLLNPITQAIYPRISSTLVLNRVKGVILIKKSLTCLSLIGGAFSLILLLGASILVKISIGPGYDNAVIVLMIISPLPFLISLSNVYGIQVMLTHNYKKEFSKILIAAGLLSLLLIFPLTTLFKEIGAAITLLATECLVTSLMLMFVRNNKLLVC" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"RFFTRANS-MONOMER" "dTDP-4-dehydro-6-deoxy-D-glucose transaminase" ["Rff", "YifI", "RffA", "FcnA", "WecE"] "MIPFNAPPVVGTELDYMQSAMGSGKLCGDGGFTRRCQQWLEQRFGSAKVLLTPSCTASLEMAALLLDIQPGDEVIMPSYTFVSTANAFVLRGAKIVFVDVRPDTMNIDETLIEAAITDKTRVIVPVHYAGVACEMDTIMALAKKHNLFVVEDAAQGVMSTYKGRALGTIGHIGCFSFHETKNYTAGGEGGATLINDKALIERAEIIREKGTNRSQFFRGQVDKYTWRDIGSSYLMSDLQAAYLWAQLEAADRINQQRLALWQNYYDALAPLAKAGRIELPSIPDGCVQNAHMFYIKLRDIDDRSALINFLKEAEIMAVFHYIPLHGCPAGEHFGEFHGEDRYTTKESERLLRLPLFYNLSPVNQRTVIATLLNYFS" [] ["CCO-CYTOSOL"] +"RHAMNISOM-MONOMER" "L-rhamnose isomerase" ["RhaA"] "MTTQLEQAWELAKQRFAAVGIDVEEALRQLDRLPVSMHCWQGDDVSGFENPEGSLTGGIQATGNYPGKARNASELRADLEQAMRLIPGPKRLNLHAIYLESDTPVSRDQIKPEHFKNWVEWAKANQLGLDFNPSCFSHPLSADGFTLSHADDSIRQFWIDHCKASRRVSAYFGEQLGTPSVMNIWIPDGMKDITVDRLAPRQRLLAALDEVISEKLNPAHHIDAVESKLFGIGAESYTVGSNEFYMGYATSRQTALCLDAGHFHPTEVISDKISAAMLYVPQLLLHVSRPVRWDSDHVVLLDDETQAIASEIVRHDLFDRVHIGLDFFDASINRIAAWVIGTRNMKKALLRALLEPTAELRKLEAAGDYTARLALLEEQKSLPWQAVWEMYCQRHDTPAGSEWLESVRAYEKEILSRRG" [] ["CCO-CYTOSOL"] +"RHAMNULOKIN-MONOMER" null ["RhaB"] "MTFRNCVAVDLGASSGRVMLARYERECRSLTLREIHRFNNGLHSQNGYVTWDVDSLESAIRLGLNKVCEEGIRIDSIGIDTWGVDFVLLDQQGQRVGLPVAYRDSRTNGLMAQAQQQLGKRDIYQRSGIQFLPFNTLYQLRALTEQQPELIPHIAHALLMPDYFSYRLTGKMNWEYTNATTTQLVNINSDDWDESLLAWSGANKAWFGRPTHPGNVIGHWICPQGNEIPVVAVASHDTASAVIASPLNGSRAAYLSSGTWSLMGFESQTPFTNDTALAANITNEGGAEGRYRVLKNIMGLWLLQRVLQEQQINDLPALISATQALPACRFIINPNDDRFINPETMCSEIQAACRETAQPIPESDAELARCIFDSLALLYADVLHELAQLRGEDFSQLHIVGGGCQNTLLNQLCADACGIRVIAGPVEASTLGNIGIQLMTLDELNNVDDFRQVVSTTANLTTFTPNPDSEIAHYVAQIHSTRQTKELCA" [] ["CCO-CYTOSOL"] +"RHAMNULPALDOL-MONOMER" "rhamnulose-1-phosphate aldolase" ["RhaD"] "MQNITQSWFVQGMIKATTDAWLKGWDERNGGNLTLRLDDADIAPYHDNFHQQPRYIPLSQPMPLLANTPFIVTGSGKFFRNVQLDPAANLGIVKVDSDGAGYHILWGLTNEAVPTSELPAHFLSHCERIKATNGKDRVIMHCHATNLIALTYVLENDTAVFTRQLWEGSTECLVVFPDGVGILPWMVPGTDEIGQATAQEMQKHSLVLWPFHGVFGSGPTLDETFGLIDTAEKSAQVLVKVYSMGGMKQTISREELIALGKRFGVTPLASALAL" [] ["CCO-CYTOSOL"] +"RHAT-MONOMER" "rhamnose/lyxose:H+ symporter" ["RhaT"] "MSNAITMGIFWHLIGAASAACFYAPFKKVKKWSWETMWSVGGIVSWIILPWAISALLLPNFWAYYSSFSLSTRLPVFLFGAMWGIGNINYGLTMRYLGMSMGIGIAIGITLIVGTLMTPIINGNFDVLISTEGGRMTLLGVLVALIGVGIVTRAGQLKERKMGIKAEEFNLKKGLVLAVMCGIFSAGMSFAMNAAKPMHEAAAALGVDPLYVALPSYVVIMGGGAIINLGFCFIRLAKVKDLSLKADFSLAKSLIIHNVLLSTLGGLMWYLQFFFYAWGHARIPAQYDYISWMLHMSFYVLCGGIVGLVLKEWNNAGRRPVTVLSLGCVVIIVAANIVGIGMAN" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"RHTB-MONOMER" "L-homoserine/L-homoserine lactone/L-threonine exporter" ["YigK", "RhtB"] "MTLEWWFAYLLTSIILSLSPGSGAINTMTTSLNHGYRGAVASIAGLQTGLAIHIVLVGVGLGTLFSRSVIAFEVLKWAGAAYLIWLGIQQWRAAGAIDLKSLASTQSRRHLFQRAVFVNLTNPKSIVFLAALFPQFIMPQQPQLMQYIVLGVTTIVVDIIVMIGYATLAQRIALWIKGPKQMKALNKIFGSLFMLVGALLASARHA" ["CCO-PM-BAC-NEG"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"RHTC-MONOMER" "L-threonine exporter" ["YigJ", "RhtC"] "MLMLFLTVAMVHIVALMSPGPDFFFVSQTAVSRSRKEAMMGVLGITCGVMVWAGIALLGLHLIIEKMAWLHTLIMVGGGLYLCWMGYQMLRGALKKEAVSAPAPQVELAKSGRSFLKGLLTNLANPKAIIYFGSVFSLFVGDNVGTTARWGIFALIIVETLAWFTVVASLFALPQMRRGYQRLAKWIDGFAGALFAGFGIHLIISR" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"RIB5PISOMA-MONOMER" "ribose-5-phosphate isomerase A" ["YgfC", "RpiA"] "MTQDELKKAVGWAALQYVQPGTIVGVGTGSTAAHFIDALGTMKGQIEGAVSSSDASTEKLKSLGIHVFDLNEVDSLGIYVDGADEINGHMQMIKGGGAALTREKIIASVAEKFICIADASKQVDILGKFPLPVEVIPMARSAVARQLVKLGGRPEYRQGVVTDNGNVILDVHGMEILDPIAMENAINAIPGVVTVGLFANRGADVALIGTPDGVKTIVK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"RIB5PISOMB-MONOMER" "allose-6-phosphate isomerase / ribose-5-phosphate isomerase B" ["YjcA", "AlsI", "RpiB"] "MKKIAFGCDHVGFILKHEIVAHLVERGVEVIDKGTWSSERTDYPHYASQVALAVAGGEVDGGILICGTGVGISIAANKFAGIRAVVCSEPYSAQLSRQHNDTNVLAFGSRVVGLELAKMIVDAWLGAQYEGGRHQQRVEAITAIEQRRN" [] ["CCO-CYTOSOL"] +"RIBAZOLEPHOSPHAT-MONOMER" "putative adenosylcobalamin phosphatase/α-ribazole phosphatase" ["PhpB", "CobC"] "MRLWLIRHGETQANIDGLYSGHAPTPLTARGIEQAQNLHTLLHGVSFDLVLCSELERAQHTARLVLSDRQLPVQIIPELNEMFFGDWEMRHHRDLMQEDAENYSAWCNDWQHAIPTNGEGFQAFSQRVERFIARLSEFQHYQNILVVSHQGVLSLLIARLIGMPAEAMWHFRVDQGCWSAIDINQKFATLRVLNSRAIGVENA" [] ["CCO-CYTOSOL"] +"RIBF-MONOMER" "bifunctional riboflavin kinase / FMN adenylyltransferase" ["YaaC", "RibF"] "MKLIRGIHNLSQAPQEGCVLTIGNFDGVHRGHRALLQGLQEEGRKRNLPVMVMLFEPQPLELFATDKAPARLTRLREKLRYLAECGVDYVLCVRFDRRFAALTAQNFISDLLVKHLRVKFLAVGDDFRFGAGREGDFLLLQKAGMEYGFDITSTQTFCEGGVRISSTAVRQALADDNLALAESLLGHPFAISGRVVHGDELGRTIGFPTANVPLRRQVSPVKGVYAVEVLGLGEKPLPGVANIGTRPTVAGIRQQLEVHLLDVAMDLYGRHIQVVLRKKIRNEQRFASLDELKAQIARDELTAREFFGLTKPA" [] ["CCO-CYTOSOL"] +"RIBOFLAVIN-SYN-MONOMER" "riboflavin synthase" ["RibC", "RibE"] "MFTGIVQGTAKLVSIDEKPNFRTHVVELPDHMLDGLETGASVAHNGCCLTVTEINGNHVSFDLMKETLRITNLGDLKVGDWVNVERAAKFSDEIGGHLMSGHIMTTAEVAKILTSENNRQIWFKVQDSQLMKYILYKGFIGIDGISLTVGEVTPTRFCVHLIPETLERTTLGKKKLGARVNIEIDPQTQAVVDTVERVLAARENAMNQPGTEA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"RIBOFLAVINSYNDEAM-MONOMER" "fused diaminohydroxyphosphoribosylaminopyrimidine deaminase / 5-amino-6-(5-phosphoribosylamino)uracil reductase" ["YbaE", "RibG", "RibD"] "MQDEYYMARALKLAQRGRFTTHPNPNVGCVIVKDGEIVGEGYHQRAGEPHAEVHALRMAGEKAKGATAYVTLEPCSHHGRTPPCCDALIAAGVARVVASMQDPNPQVAGRGLYRLQQAGIDVSHGLMMSEAEQLNKGFLKRMRTGFPYIQLKLGASLDGRTAMASGESQWITSPQARRDVQLLRAQSHAILTSSATVLADDPALTVRWSELDEQTQALYPQQNLRQPIRIVIDSQNRVTPVHRIVQQPGETWFARTQEDSREWPETVRTLLIPEHKGHLDLVVLMMQLGKQQINSIWVEAGPTLAGALLQAGLVDELIVYIAPKLLGSDARGLCTLPGLEKLADAPQFKFKEIRHVGPDVCLHLVGA" [] ["CCO-CYTOSOL"] +"RIBOKIN-MONOMER" "ribokinase" ["RbsK"] "MQNAGSLVVLGSINADHILNLQSFPTPGETVTGNHYQVAFGGKGANQAVAAGRSGANIAFIACTGDDSIGESVRQQLATDNIDITPVSVIKGESTGVALIFVNGEGENVIGIHAGANAALSPALVEAQRERIANASALLMQLESPLESVMAAAKIAHQNKTIVALNPAPARELPDELLALVDIITPNETEAEKLTGIRVENDEDAAKAAQVLHEKGIRTVLITLGSRGVWASVNGEGQRVPGFRVQAVDTIAAGDTFNGALITALLEEKPLPEAIRFAHAAAAIAVTRKGAQPSVPWREEIDAFLDRQR" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"RIBONUCLEOSIDE-TRIP-REDUCT-MONOMER" "anaerobic ribonucleoside-triphosphate reductase" ["NrdD"] "MTPHVMKRDGCKVPFKSERIKEAILRAAKAAEVDDADYCATVAAVVSEQMQGRNQVDINEIQTAVENQLMSGPYKQLARAYIEYRHDRDIEREKRGRLNQEIRGLVEQTNASLLNENANKDSKVIPTQRDLLAGIVAKHYARQHLLPRDVVQAHERGDIHYHDLDYSPFFPMFNCMLIDLKGMLTQGFKMGNAEIEPPKSISTATAVTAQIIAQVASHIYGGTTINRIDEVLAPFVTASYNKHRKTAEEWNIPDAEGYANSRTIKECYDAFQSLEYEVNTLHTANGQTPFVTFGFGLGTSWESRLIQESILRNRIAGLGKNRKTAVFPKLVFAIRDGLNHKKGDPNYDIKQLALECASKRMYPDILNYDQVVKVTGSFKTPMGCRSFLGVWENENGEQIHDGRNNLGVISLNLPRIALEAKGDEATFWKLLDERLVLARKALMTRIARLEGVKARVAPILYMEGACGVRLNADDDVSEIFKNGRASISLGYIGIHETINALFGGEHVYDNEQLRAKGIAIVERLRQAVDQWKEETGYGFSLYSTPSENLCDRFCRLDTAEFGVVPGVTDKGYYTNSFHLDVEKKVNPYDKIDFEAPYPPLANGGFICYGEYPNIQHNLKALEDVWDYSYQHVPYYGTNTPIDECYECGFTGEFECTSKGFTCPKCGNHDASRVSVTRRVCGYLGSPDARPFNAGKQEEVKRRVKHLGNGQIG" [] ["CCO-CYTOSOL"] +"RIBULOKIN-MONOMER" "ribulokinase" ["AraB"] "MAIAIGLDFGSDSVRALAVDCATGEEIATSVEWYPRWQKGQFCDAPNNQFRHHPRDYIESMEAALKTVLAELSVEQRAAVVGIGVDSTGSTPAPIDADGNVLALRPEFAENPNAMFVLWKDHTAVEEAEEITRLCHAPGNVDYSRYIGGIYSSEWFWAKILHVTRQDSAVAQSAASWIELCDWVPALLSGTTRPQDIRRGRCSAGHKSLWHESWGGLPPASFFDELDPILNRHLPSPLFTDTWTADIPVGTLCPEWAQRLGLPESVVISGGAFDCHMGAVGAGAQPNALVKVIGTSTCDILIADKQSVGERAVKGICGQVDGSVVPGFIGLEAGQSAFGDIYAWFGRVLGWPLEQLAAQHPELKTQINASQKQLLPALTEAWAKNPSLDHLPVVLDWFNGRRTPNANQRLKGVITDLNLATDAPLLFGGLIAATAFGARAIMECFTDQGIAVNNVMALGGIARKNQVIMQACCDVLNRPLQIVASDQCCALGAAIFAAVAAKVHADIPSAQQKMASAVEKTLQPCSEQAQRFEQLYRRYQQWAMSAEQHYLPTSAPAQAAQAVATL" ["CCO-CYTOSOL"] [] +"RIBULP3EPIM-MONOMER" null ["Dod", "YhfD", "Rpe"] "MKQYLIAPSILSADFARLGEDTAKALAAGADVVHFDVMDNHYVPNLTIGPMVLKSLRNYGITAPIDVHLMVKPVDRIVPDFAAAGASIITFHPEASEHVDRTLQLIKENGCKAGLVFNPATPLSYLDYVMDKLDVILLMSVNPGFGGQSFIPQTLDKLREVRRRIDESGFDIRLEVDGGVKVNNIGEIAAAGADMFVAGSAIFDQPDYKKVIDEMRSELAKVSHE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"RIBULPEPIM-MONOMER" "L-ribulose-5-phosphate 4-epimerase AraD" ["AraD"] "MLEDLKRQVLEANLALPKHNLVTLTWGNVSAVDRERGVFVIKPSGVDYSVMTADDMVVVSIETGEVVEGTKKPSSDTPTHRLLYQAFPSIGGIVHTHSRHATIWAQAGQSIPATGTTHADYFYGTIPCTRKMTDAEINGEYEWETGNVIVETFEKQGIDAAQMPGVLVHSHGPFAWGKNAEDAVHNAIVLEEVAYMGIFCRQLAPQLPDMQQTLLDKHYLRKHGAKAYYGQ" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"RNTRACTIV-MONOMER" "anaerobic ribonucleoside-triphosphate reductase activating protein" ["YjgE", "NrdG"] "MNYHQYYPVDIVNGPGTRCTLFVSGCVHECPGCYNKSTWRVNSGQPFTKAMEDQIINDLNDTRIKRQGISLSGGDPLHPQNVPDILKLVQRIRAECPGKDIWVWTGYKLDELNAAQMQVVDLINVLVDGKFVQDLKDPSLIWRGSSNQVVHHLR" [] ["CCO-CYTOSOL"] +"RPOA-MONOMER" "D-alanyl-D-alanine carboxypeptidase DacD" ["YeeC", "PhsE", "DacD", "PBP6b", "penicillin-binding protein 6b", "murein D,D-carboxypeptidase DacD"] "MKRRLIIAASLFVFNLSSGFAAENIPFSPQPPEIHAGSWVLMDYTTGQILTAGNEHQQRNPASLTKLMTGYVVDRAIDSHRITPDDIVTVGRDAWAKDNPVFVGSSLMFLKEGDRVSVRDLSRGLIVDSGNDACVALADYIAGGQRQFVEMMNNYAEKLHLKDTHFETVHGLDAPGQHSSAYDLAVLSRAIIHGEPEFYHMYSEKSLTWNGITQQNRNGLLWDKTMNVDGLKTGHTSGAGFNLIASAVDGQRRLIAVVMGADSAKGREEEARKLLRWGQQNFTTVQILHRGKKVGTERIWYGDKENIDLGTEQEFWMVLPKAEIPHIKAKYTLDGKELTAPISAHQRVGEIELYDRDKQVAHWPLVTLESVGEGSMFSRLSDYFHHKA" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"RPOB-MONOMER" "RNA polymerase subunit β" ["Stl", "Stv", "TabD", "SdgB", "Ron", "Rif", "NitB", "GroN", "FtsR", "RpoB"] "MVYSYTEKKRIRKDFGKRPQVLDVPYLLSIQLDSFQKFIEQDPEGQYGLEAAFRSVFPIQSYSGNSELQYVSYRLGEPVFDVQECQIRGVTYSAPLRVKLRLVIYEREAPEGTVKDIKEQEVYMGEIPLMTDNGTFVINGTERVIVSQLHRSPGVFFDSDKGKTHSSGKVLYNARIIPYRGSWLDFEFDPKDNLFVRIDRRRKLPATIILRALNYTTEQILDLFFEKVIFEIRDNKLQMELVPERLRGETASFDIEANGKVYVEKGRRITARHIRQLEKDDVKLIEVPVEYIAGKVVAKDYIDESTGELICAANMELSLDLLAKLSQSGHKRIETLFTNDLDHGPYISETLRVDPTNDRLSALVEIYRMMRPGEPPTREAAESLFENLFFSEDRYDLSAVGRMKFNRSLLREEIEGSGILSKDDIIDVMKKLIDIRNGKGEVDDIDHLGNRRIRSVGEMAENQFRVGLVRVERAVKERLSLGDLDTLMPQDMINAKPISAAVKEFFGSSQLSQFMDQNNPLSEITHKRRISALGPGGLTRERAGFEVRDVHPTHYGRVCPIETPEGPNIGLINSLSVYAQTNEYGFLETPYRKVTDGVVTDEIHYLSAIEEGNYVIAQANSNLDEEGHFVEDLVTCRSKGESSLFSRDQVDYMDVSTQQVVSVGASLIPFLEHDDANRALMGANMQRQAVPTLRADKPLVGTGMERAVAVDSGVTAVAKRGGVVQYVDASRIVIKVNEDEMYPGEAGIDIYNLTKYTRSNQNTCINQMPCVSLGEPVERGDVLADGPSTDLGELALGQNMRVAFMPWNGYNFEDSILVSERVVQEDRFTTIHIQELACVSRDTKLGPEEITADIPNVGEAALSKLDESGIVYIGAEVTGGDILVGKVTPKGETQLTPEEKLLRAIFGEKASDVKDSSLRVPNGVSGTVIDVQVFTRDGVEKDKRALEIEEMQLKQAKKDLSEELQILEAGLFSRIRAVLVAGGVEAEKLDKLPRDRWLELGLTDEEKQNQLEQLAEQYDELKHEFEKKLEAKRRKITQGDDLAPGVLKIVKVYLAVKRRIQPGDKMAGRHGNKGVISKINPIEDMPYDENGTPVDIVLNPLGVPSRMNIGQILETHLGMAAKGIGDKINAMLKQQQEVAKLREFIQRAYDLGADVRQKVDLSTFSDEEVMRLAENLRKGMPIATPVFDGAKEAEIKELLKLGDLPTSGQIRLYDGRTGEQFERPVTVGYMYMLKLNHLVDDKMHARSTGSYSLVTQQPLGGKAQFGGQRFGEMEVWALEAYGAAYTLQEMLTVKSDDVNGRTKMYKNIVDGNHQMEPGMPESFNVLLKEIRSLGINIELEDE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"RPOC-MONOMER" "RNA polymerase subunit β'" ["TabB", "RpoC"] "MKDLLKFLKAQTKTEEFDAIKIALASPDMIRSWSFGEVKKPETINYRTFKPERDGLFCARIFGPVKDYECLCGKYKRLKHRGVICEKCGVEVTQTKVRRERMGHIELASPTAHIWFLKSLPSRIGLLLDMPLRDIERVLYFESYVVIEGGMTNLERQQILTEEQYLDALEEFGDEFDAKMGAEAIQALLKSMDLEQECEQLREELNETNSETKRKKLTKRIKLLEAFVQSGNKPEWMILTVLPVLPPDLRPLVPLDGGRFATSDLNDLYRRVINRNNRLKRLLDLAAPDIIVRNEKRMLQEAVDALLDNGRRGRAITGSNKRPLKSLADMIKGKQGRFRQNLLGKRVDYSGRSVITVGPYLRLHQCGLPKKMALELFKPFIYGKLELRGLATTIKAAKKMVEREEAVVWDILDEVIREHPVLLNRAPTLHRLGIQAFEPVLIEGKAIQLHPLVCAAYNADFDGDQMAVHVPLTLEAQLEARALMMSTNNILSPANGEPIIVPSQDVVLGLYYMTRDCVNAKGEGMVLTGPKEAERLYRSGLASLHARVKVRITEYEKDANGELVAKTSLKDTTVGRAILWMIVPKGLPYSIVNQALGKKAISKMLNTCYRILGLKPTVIFADQIMYTGFAYAARSGASVGIDDMVIPEKKHEIISEAEAEVAEIQEQFQSGLVTAGERYNKVIDIWAAANDRVSKAMMDNLQTETVINRDGQEEKQVSFNSIYMMADSGARGSAAQIRQLAGMRGLMAKPDGSIIETPITANFREGLNVLQYFISTHGARKGLADTALKTANSGYLTRRLVDVAQDLVVTEDDCGTHEGIMMTPVIEGGDVKEPLRDRVLGRVTAEDVLKPGTADILVPRNTLLHEQWCDLLEENSVDAVKVRSVVSCDTDFGVCAHCYGRDLARGHIINKGEAIGVIAAQSIGEPGTQLTMRTFHIGGAASRAAAESSIQVKNKGSIKLSNVKSVVNSSGKLVITSRNTELKLIDEFGRTKESYKVPYGAVLAKGDGEQVAGGETVANWDPHTMPVITEVSGFVRFTDMIDGQTITRQTDELTGLSSLVVLDSAERTAGGKDLRPALKIVDAQGNDVLIPGTDMPAQYFLPGKAIVQLEDGVQISSGDTLARIPQESGGTKDITGGLPRVADLFEARRPKEPAILAEISGIVSFGKETKGKRRLVITPVDGSDPYEEMIPKWRQLNVFEGERVERGDVISDGPEAPHDILRLRGVHAVTRYIVNEVQDVYRLQGVKINDKHIEVIVRQMLRKATIVNAGSSDFLEGEQVEYSRVKIANRELEANGKVGATYSRDLLGITKASLATESFISAASFQETTRVLTEAAVAGKRDELRGLKENVIVGRLIPAGTGYAYHQDRMRRRAAGEAPAAPQVTAEDASASLAELLNAGLGGSDNE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"RPOD-MONOMER" "RNA polymerase, sigma 70 (sigma D) factor" ["Alt", "RpoD", "sigma D factor", "sigma 70 factor", "σ70"] "MEQNPQSQLKLLVTRGKEQGYLTYAEVNDHLPEDIVDSDQIEDIIQMINDMGIQVMEEAPDADDLMLAENTADEDAAEAAAQVLSSVESEIGRTTDPVRMYMREMGTVELLTREGEIDIAKRIEDGINQVQCSVAEYPEAITYLLEQYDRVEAEEARLSDLITGFVDPNAEEDLAPTATHVGSELSQEDLDDDEDEDEEDGDDDSADDDNSIDPELAREKFAELRAQYVVTRDTIKAKGRSHATAQEEILKLSEVFKQFRLVPKQFDYLVNSMRVMMDRVRTQERLIMKLCVEQCKMPKKNFITLFTGNETSDTWFNAAIAMNKPWSEKLHDVSEEVHRALQKLQQIEEETGLTIEQVKDINRRMSIGEAKARRAKKEMVEANLRLVISIAKKYTNRGLQFLDLIQEGNIGLMKAVDKFEYRRGYKFSTYATWWIRQAITRSIADQARTIRIPVHMIETINKLNRISRQMLQEMGREPTPEELAERMLMPEDKIRKVLKIAKEPISMETPIGDDEDSHLGDFIEDTTLELPLDSATTESLRAATHDVLAGLTAREAKVLRMRFGIDMNTDYTLEEVGKQFDVTRERIRQIEAKALRKLRHPSRSEVLRSFLDD" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"RPOE-MONOMER" "RNA polymerase sigma E factor" ["SigE", "RpoE", "sigma E factor", "sigma 24 factor", "σ24", "RNA polymerase, sigma 24 (sigma E) factor"] "MSEQLTDQVLVERVQKGDQKAFNLLVVRYQHKVASLVSRYVPSGDVPDVVQEAFIKAYRALDSFRGDSAFYTWLYRIAVNTAKNYLVAQGRRPPSSDVDAIEAENFESGGALKEISNPENLMLSEELRQIVFRTIESLPEDLRMAITLRELDGLSYEEIAAIMDCPVGTVRSRIFRAREAIDNKVQPLIRR" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"RPOH-MONOMER" "RNA polymerase, sigma 32 (sigma H) factor" ["Hin", "Fam", "HtpR", "RpoH", "sigma H factor", "sigma H", "sigma 32", "sigma 32 factor", "σ32"] "MTDKMQSLALAPVGNLDSYIRAANAWPMLSADEERALAEKLHYHGDLEAAKTLILSHLRFVVHIARNYAGYGLPQADLIQEGNIGLMKAVRRFNPEVGVRLVSFAVHWIKAEIHEYVLRNWRIVKVATTKAQRKLFFNLRKTKQRLGWFNQDEVEMVARELGVTSKDVREMESRMAAQDMTFDLSSDDDSDSQPMAPVLYLQDKSSNFADGIEDDNWEEQAANRLTDAMQGLDERSQDIIRARWLDEDNKSTLQELADRYGVSAERVRQLEKNAMKKLRAAIEA" ["CCO-PM-BAC-NEG", "CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"RPON-MONOMER" "RNA polymerase, sigma 54 (sigma N) factor" ["NtrA", "GlnF", "RpoN", "sigma N factor", "sigma 54 factor", "sigma N", "σ54"] "MKQGLQLRLSQQLAMTPQLQQAIRLLQLSTLELQQELQQALESNPLLEQIDTHEEIDTRETQDSETLDTADALEQKEMPEELPLDASWDTIYTAGTPSGTSGDYIDDELPVYQGETTQTLQDYLMWQVELTPFSDTDRAIATSIVDAVDETGYLTVPLEDILESIGDEEIDIDEVEAVLKRIQRFDPVGVAAKDLRDCLLIQLSQFDKTTPWLEEARLIISDHLDLLANHDFRTLMRVTRLKEDVLKEAVNLIQSLDPRPGQSIQTGEPEYVIPDVLVRKHNGHWTVELNSDSIPRLQINQHYASMCNNARNDGDSQFIRSNLQDAKWLIKSLESRNDTLLRVSRCIVEQQQAFFEQGEEYMKPMVLADIAQAVEMHESTISRVTTQKYLHSPRGIFELKYFFSSHVNTEGGGEASSTAIRALVKKLIAAENPAKPLSDSKLTSLLSEQGIMVARRTVAKYRESLSIPPSNQRKQLV" [] ["CCO-CYTOSOL"] +"RPOS-MONOMER" "RNA polymerase, sigma S (sigma 38) factor" ["OtsX", "SigS", "Nur", "KatF", "DpeB", "AppR", "AbrD", "RpoS", "sigma 38 factor", "sigma S factor", "σS"] "MSQNTLKVHDLNEDAEFDENGVEVFDEKALVEQEPSDNDLAEEELLSQGATQRVLDATQLYLGEIGYSPLLTAEEEVYFARRALRGDVASRRRMIESNLRLVVKIARRYGNRGLALLDLIEEGNLGLIRAVEKFDPERGFRFSTYATWWIRQTIERAIMNQTRTIRLPIHIVKELNVYLRTARELSHKLDHEPSAEEIAEQLDKPVDDVSRMLRLNERITSVDTPLGGDSEKALLDILADEKENGPEDTTQDDDMKQSIVKWLFELNAKQREVLARRFGLLGYEAATLEDVGREIGLTRERVRQIQVEGLRRLREILQTQGLNIEALFRE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"RSTA-MONOMER" "DNA-binding transcriptional regulator RstA" ["UrpT", "RstA", "RstA response regulator"] "MNTIVFVEDDAEVGSLIAAYLAKHDMQVTVEPRGDQAEETILRENPDLVLLDIMLPGKDGMTICRDLRAKWSGPIVLLTSLDSDMNHILALEMGACDYILKTTPPAVLLARLRLHLRQNEQATLTKGLQETSLTPYKALHFGTLTIDPINRVVTLANTEISLSTADFELLWELATHAGQIMDRDALLKNLRGVSYDGLDRSVDVAISRLRKKLLDNAAEPYRIKTVRNKGYLFAPHAWE" [] ["CCO-CYTOSOL"] +"RSTB-MONOMER" "sensory histidine kinase RstB" ["UspT"] "MKKLFIQFYLLLFVCFLVMSLLVGLVYKFTAERAGKQSLDDLMNSSLYLMRSELREIPPHDWGKTLKEMDLNLSFDLRVEPLSKYHLDDISMHRLRGGEIVALDDQYTFLQRIPRSHYVLAVGPVPYLYYLHQMRLLDIALIAFIAISLAFPVFIWMRPHWQDMLKLEAAAQRFGDGHLNERIHFDEGSSFERLGVAFNQMADNINALIASKKQLIDGIAHELRTPLVRLRYRLEMSDNLSAAESQALNRDISQLEALIEELLTYARLDRPQNELHLSEPDLPLWLSTHLADIQAVTPDKTVRIKTLVQGHYAALDMRLMERVLDNLLNNALRYCHSTVETSLLLSGNRATLIVEDDGPGIAPENREHIFEPFVRLDPSRDRSTGGCGLGLAIVHSIALAMGGTVNCDTSELGGARFSFSWPLWHNIPQFTSA" ["CCO-PM-BAC-NEG"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"S-ADENMETSYN-MONOMER" "methionine adenosyltransferase" ["MetX", "MetK"] "MAKHLFTSESVSEGHPDKIADQISDAVLDAILEQDPKARVACETYVKTGMVLVGGEITTSAWVDIEEITRNTVREIGYVHSDMGFDANSCAVLSAIGKQSPDINQGVDRADPLEQGAGDQGLMFGYATNETDVLMPAPITYAHRLVQRQAEVRKNGTLPWLRPDAKSQVTFQYDDGKIVGIDAVVLSTQHSEEIDQKSLQEAVMEEIIKPILPAEWLTSATKFFINPTGRFVIGGPMGDCGLTGRKIIVDTYGGMARHGGGAFSGKDPSKVDRSAAYAARYVAKNIVAAGLADRCEIQVSYAIGVAEPTSIMVETFGTEKVPSEQLTLLVREFFDLRPYGLIQMLDLLHPIYKETAAYGHFGREHFPWEKTDKAQLLRDAAGLK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"SAICARSYN-MONOMER" "phosphoribosylaminoimidazole-succinocarboxamide synthase" ["Ade", "PurC"] "MQKQAELYRGKAKTVYSTENPDLLVLEFRNDTSAGDGARIEQFDRKGMVNNKFNYFIMSKLAEAGIPTQMERLLSDTECLVKKLDMVPVECVVRNRAAGSLVKRLGIEEGIELNPPLFDLFLKNDAMHDPMVNESYCETFGWVSKENLARMKELTYKANDVLKKLFDDAGLILVDFKLEFGLYKGEVVLGDEFSPDGSRLWDKETLEKMDKDRFRQSLGGLIEAYEAVARRLGVQLD" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"SAPA-MONOMER" "putative periplasmic binding protein SapA" [] "MRQVLSSLLVIAGLVSGQAIAAPESPPHADIRDSGFVYCVSGQVNTFNPSKASSGLIVDTLAAQFYDRLLDVDPYTYRLMPELAESWEVLDNGATYRFHLRRDVPFQKTDWFTPTRKMNADDVVFTFQRIFDRNNPWHNVNGSNFPYFDSLQFADNVKSVRKLDNHTVEFRLAQPDASFLWHLATHYASVMSAEYARKLEKEDRQEQLDRQPVGTGPYQLSEYRAGQFIRLQRHDDFWRGKPLMPQVVVDLGSGGTGRLSKLLTGECDVLAWPAASQLSILRDDPRLRLTLRPGMNVAYLAFNTAKPPLNNPAVRHALALAINNQRLMQSIYYGTAETAASILPRASWAYDNEAKITEYNPAKSREQLKSLGLENLTLKLWVPTRSQAWNPSPLKTAELIQADMAQVGVKVVIVPVEGRFQEARLMDMSHDLTLSGWATDSNDPDSFFRPLLSCAAIHSQTNLAHWCDPKFDSVLRKALSSQQLAARIEAYDEAQSILAQELPILPLASSLRLQAYRYDIKGLVLSPFGNASFAGVYREKQDEVKKP" [] ["CCO-PERI-BAC"] +"SAPB-MONOMER" "putrescine ABC exporter membrane subunit SapB" [] "MIIFTLRRILLLIVTLFLLTFVGFSLSYFTPHAPLQGASLWNAWVFWFNGLIHWDFGVSSINGQPIAEQLKEVFPATMELCILAFGFALIVGIPVGMIAGITRHKWQDNLINAIALLGFSIPVFWLALLLTLFCSLTLGWLPVSGRFDLLYEVKPITGFALIDAWLSDSPWRDEMIMSAIRHMILPVITLSVAPTTEVIRLMRISTIEVYDQNYVKAAATRGLSRFTILRRHVLHNALPPVIPRLGLQFSTMLTLAMITEMVFSWPGLGRWLINAIRQQDYAAISAGVMVCGSLVIIVNVISDILGAMANPLKHKEWYALR" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"SAPC-MONOMER" "putrescine ABC exporter membrane protein SapC" [] "MPYDSVYSEKRPPGTLRTAWRKFYSDASAMVGLYGCAGLAVLCIFGGWFAPYGIDQQFLGYQLLPPSWSRYGEVSFFLGTDDLGRDVLSRLLSGAAPTVGGAFVVTLAATICGLVLGTFAGATHGLRSAVLNHILDTLLAIPSLLLAIIVVAFAGPSLSHAMFAVWLALLPRMVRSIYSMVHDELEKEYVIAARLDGASTLNILWFAVMPNITAGLVTEITRALSMAILDIAALGFLDLGAQLPSPEWGAMLGDALELIYVAPWTVMLPGAAIMISVLLVNLLGDGVRRAIIAGVE" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"SAPD-MONOMER" "putrescine ABC exporter ATP binding protein SapD" ["TrkE"] "MPLLDIRNLTIEFKTGDEWVKAVDRVSMTLTEGEIRGLVGESGSGKSLIAKAICGVNKDNWRVTADRMRFDDIDLLRLSARERRKLVGHNVSMIFQEPQSCLDPSERVGRQLMQNIPAWTYKGRWWQRFGWRKRRAIELLHRVGIKDHKDAMRSFPYELTEGECQKVMIAIALANQPRLLIADEPTNSMEPTTQAQIFRLLTRLNQNSNTTILLISHDLQMLSQWADKINVLYCGQTVETAPSKELVTMPHHPYTQALIRAIPDFGSAMPHKSRLNTLPGAIPLLEQLPIGCRLGPRCPYAQRECIVTPRLTGAKNHLYACHFPLNMEKE" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"SAPF-MONOMER" "putrescine ABC exporter ATP binding protein SapF" [] "MIETLLEVRNLSKTFRYRTGWFRRQTVEAVKPLSFTLREGQTLAIIGENGSGKSTLAKMLAGMIEPTSGELLIDDHPLHFGDYSFRSQRIRMIFQDPSTSLNPRQRISQILDFPLRLNTDLEPEQRRKQIIETMRMVGLLPDHVSYYPHMLAPGQKQRLGLARALILRPKVIIADEALASLDMSMRSQLINLMLELQEKQGISYIYVTQHIGMMKHISDQVLVMHQGEVVERGSTADVLASPLHELTKRLIAGHFGEALTADAWRKDR" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE", "CCO-CYTOSOL"] +"SARCOX-MONOMER" null ["SolA"] "MKYDLIIIGSGSVGAAAGYYATRAGLNVLMTDAHMPPHQHGSHHGDTRLIRHAYGEGEKYVPLVLRAQTLWDELSRHNEEDPIFVRSGVINLGPADSTFLANVAHSAEQWQLNVEKLDAQGIMARWPEIRVPDNYIGLFETDSGFLRSELAIKTWIQLAKEAGCAQLFNCPVTAIRHDDDGVTIETADGEYQAKKAIVCAGTWVKDLLPELPVQPVRKVFAWYQADGRYSVKNKFPAFTGELPNGDQYYGFPAENDALKIGKHNGGQVIHSADERVPFAEVASDGSEAFPFLRNVLPGIGCCLYGAACTYDNSPDEDFIIDTLPGHDNTLLITGLSGHGFKFASVLGEIAADFAQDKKSDFDLTPFRLSRFQ" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"SBMA-MONOMER" "peptide antibiotic/peptide nucleic acid transporter" ["SbmA"] "MFKSFFPKPGTFFLSAFVWALIAVIFWQAGGGDWVARITGASGQIPISAARFWSLDFLIFYAYYIVCVGLFALFWFIYSPHRWQYWSILGTALIIFVTWFLVEVGVAVNAWYAPFYDLIQTALSSPHKVTIEQFYREVGVFLGIALIAVVISVLNNFFVSHYVFRWRTAMNEYYMANWQQLRHIEGAAQRVQEDTMRFASTLENMGVSFINAIMTLIAFLPVLVTLSAHVPELPIIGHIPYGLVIAAIVWSLMGTGLLAVVGIKLPGLEFKNQRVEAAYRKELVYGEDDATRATPPTVRELFSAVRKNYFRLYFHYMYFNIARILYLQVDNVFGLFLLFPSIVAGTITLGLMTQITNVFGQVRGAFQYLINSWTTLVELMSIYKRLRSFEHELDGDKIQEVTHTLS" ["CCO-PM-BAC-NEG"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"SBP-MONOMER" "sulfate/thiosulfate ABC transporter periplasmic binding protein Sbp" [] "MNKWGVGLTFLLAATSVMAKDIQLLNVSYDPTRELYEQYNKAFSAHWKQQTGDNVVIRQSHGGSGKQATSVINGIEADVVTLALAYDVDAIAERGRIDKEWIKRLPDNSAPYTSTIVFLVRKGNPKQIHDWNDLIKPGVSVITPNPKSSGGARWNYLAAWGYALHHNNNDQAKAQDFVRALYKNVEVLDSGARGSTNTFVERGIGDVLIAWENEALLAANELGKDKFEIVTPSESILAEPTVSVVDKVVEKKGTKEVAEAYLKYLYSPEGQEIAAKNYYRPRDAEVAKKYENAFPKLKLFTIDEEFGGWTKAQKEHFANGGTFDQISKR" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"SDAC-MONOMER" null ["DcrA", "SdaC"] "METTQTSTIASKDSRSAWRKTDTMWMLGLYGTAIGAGVLFLPINAGVGGMIPLIIMAILAFPMTFFAHRGLTRFVLSGKNPGEDITEVVEEHFGIGAGKLITLLYFFAIYPILLVYSVAITNTVESFMSHQLGMTPPPRAILSLILIVGMMTIVRFGEQMIVKAMSILVFPFVGVLMLLALYLIPQWNGAALETLSLDTASATGNGLWMTLWLAIPVMVFSFNHSPIISSFAVAKREEYGDMAEQKCSKILAFAHIMMVLTVMFFVFSCVLSLTPADLAAAKEQNISILSYLANHFNAPVIAWMAPIIAIIAITKSFLGHYLGAREGFNGMVIKSLRGKGKSIEINKLNRITALFMLVTTWIVATLNPSILGMIETLGGPIIAMILFLMPMYAIQKVPAMRKYSGHISNVFVVVMGLIAISAIFYSLFS" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"SDH-FE-S" "succinate:quinone oxidoreductase, iron-sulfur cluster binding protein" ["DhsB", "SdhB"] "MRLEFSIYRYNPDVDDAPRMQDYTLEADEGRDMMLLDALIQLKEKDPSLSFRRSCREGVCGSDGLNMNGKNGLACITPISALNQPGKKIVIRPLPGLPVIRDLVVDMGQFYAQYEKIKPYLLNNGQNPPAREHLQMPEQREKLDGLYECILCACCSTSCPSFWWNPDKFIGPAGLLAAYRFLIDSRDTETDSRLDGLSDAFSVFRCHSIMNCVSVCPKGLNPTRAIGHIKSMLLQRNA" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"SDH-FLAVO" "succinate:quinone oxidoreductase, FAD binding protein" ["DhsA", "SdhA"] "MKLPVREFDAVVIGAGGAGMRAALQISQSGQTCALLSKVFPTRSHTVSAQGGITVALGNTHEDNWEWHMYDTVKGSDYIGDQDAIEYMCKTGPEAILELEHMGLPFSRLDDGRIYQRPFGGQSKNFGGEQAARTAAAADRTGHALLHTLYQQNLKNHTTIFSEWYALDLVKNQDGAVVGCTALCIETGEVVYFKARATVLATGGAGRIYQSTTNAHINTGDGVGMAIRAGVPVQDMEMWQFHPTGIAGAGVLVTEGCRGEGGYLLNKHGERFMERYAPNAKDLAGRDVVARSIMIEIREGRGCDGPWGPHAKLKLDHLGKEVLESRLPGILELSRTFAHVDPVKEPIPVIPTCHYMMGGIPTKVTGQALTVNEKGEDVVVPGLFAVGEIACVSVHGANRLGGNSLLDLVVFGRAAGLHLQESIAEQGALRDASESDVEASLDRLNRWNNNRNGEDPVAIRKALQECMQHNFSVFREGDAMAKGLEQLKVIRERLKNARLDDTSSEFNTQRVECLELDNLMETAYATAVSANFRTESRGAHSRFDFPDRDDENWLCHSLYLPESESMTRRSVNMEPKLRPAFPPKIRTY" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"SDH-MEMB1" "succinate:quinone oxidoreductase, membrane protein SdhC" ["DhsC", "CybA", "SdhC", "large subunit of cytochrome b556", "CybL"] "MIRNVKKQRPVNLDLQTIRFPITAIASILHRVSGVITFVAVGILLWLLGTSLSSPEGFEQASAIMGSFFVKFIMWGILTALAYHVVVGIRHMMMDFGYLEETFEAGKRSAKISFVITVVLSLLAGVLVW" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"SDH-MEMB2" "succinate:quinone oxidoreductase, membrane protein SdhD" ["DhsD", "SdhD", "CybS", "small subunit of cytochrome b556"] "MVSNASALGRNGVHDFILVRATAIVLTLYIIYMVGFFATSGELTYEVWIGFFASAFTKVFTLLALFSILIHAWIGMWQVLTDYVKPLALRLMLQLVIVVALVVYVIYGFVVVWGV" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"SECA" "protein translocation ATPase" ["Pea", "Azi", "PrlD", "SecA"] "MLIKLLTKVFGSRNDRTLRRMRKVVNIINAMEPEMEKLSDEELKGKTAEFRARLEKGEVLENLIPEAFAVVREASKRVFGMRHFDVQLLGGMVLNERCIAEMRTGEGKTLTATLPAYLNALTGKGVHVVTVNDYLAQRDAENNRPLFEFLGLTVGINLPGMPAPAKREAYAADITYGTNNEYGFDYLRDNMAFSPEERVQRKLHYALVDEVDSILIDEARTPLIISGPAEDSSEMYKRVNKIIPHLIRQEKEDSETFQGEGHFSVDEKSRQVNLTERGLVLIEELLVKEGIMDEGESLYSPANIMLMHHVTAALRAHALFTRDVDYIVKDGEVIIVDEHTGRTMQGRRWSDGLHQAVEAKEGVQIQNENQTLASITFQNYFRLYEKLAGMTGTADTEAFEFSSIYKLDTVVVPTNRPMIRKDLPDLVYMTEAEKIQAIIEDIKERTAKGQPVLVGTISIEKSELVSNELTKAGIKHNVLNAKFHANEAAIVAQAGYPAAVTIATNMAGRGTDIVLGGSWQAEVAALENPTAEQIEKIKADWQVRHDAVLEAGGLHIIGTERHESRRIDNQLRGRSGRQGDAGSSRFYLSMEDALMRIFASDRVSGMMRKLGMKPGEAIEHPWVTKAIANAQRKVESRNFDIRKQLLEYDDVANDQRRAIYSQRNELLDVSDVSETINSIREDVFKATIDAYIPPQSLEEMWDIPGLQERLKNDFDLDLPIAEWLDKEPELHEETLRERILAQSIEVYQRKEEVVGAEMMRHFEKGVMLQTLDSLWKEHLAAMDYLRQGIHLRGYAQKDPKQEYKRESFSMFAAMLESLKYEVISTLSKVQVRMPEEVEELEQQRRMEAERLAQMQQLSHQDDDSAAAAALAAQTGERKVGRNDPCPCGSGKKYKQCHGRLQ" ["CCO-CYTOSOL", "CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-CYTOSOL", "CCO-PM-BAC-NEG"] +"SECB" "protein export chaperone SecB" ["SecB"] "MSEQNNTEMTFQIQRIYTKDISFEAPNAPHVFQKDWQPEVKLDLDTASSQLADDVYEVVLRVTVTASLGEETAFLCEVQQGGIFSIAGIEGTQMAHCLGAYCPNILFPYARECITSMVSRGTFPQLNLAPVNFDALFMNYLQQQAGEGTEEHQDA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"SECD" "Sec translocon accessory complex subunit SecD" ["SecD"] "MLNRYPLWKYVMLIVVIVIGLLYALPNLFGEDPAVQITGARGVAASEQTLIQVQKTLQEEKITAKSVALEEGAILARFDSTDTQLRAREALMGVMGDKYVVALNLAPATPRWLAAIHAEPMKLGLDLRGGVHFLMEVDMDTALGKLQEQNIDSLRSDLREKGIPYTTVRKENNYGLSITFRDAKARDEAIAYLSKRHPDLVISSQGSNQLRAVMSDARLSEAREYAVQQNINILRNRVNQLGVAEPVVQRQGADRIVVELPGIQDTARAKEILGATATLEFRLVNTNVDQAAAASGRVPGDSEVKQTREGQPVVLYKRVILTGDHITDSTSSQDEYNQPQVNISLDSAGGNIMSNFTKDNIGKPMATLFVEYKDSGKKDANGRAVLVKQEEVINIANIQSRLGNSFRITGINNPNEARQLSLLLRAGALIAPIQIVEERTIGPTLGMQNIEQGLEACLAGLLVSILFMIIFYKKFGLIATSALIANLILIVGIMSLLPGATLSMPGIAGIVLTLAVAVDANVLINERIKEELSNGRTVQQAIDEGYRGAFSSIFDANITTLIKVIILYAVGTGAIKGFAITTGIGVATSMFTAIVGTRAIVNLLYGGKRVKKLSI" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"SECE" "Sec translocon subunit SecE" ["SecE", "MbrC", "PrlG"] "MSANTEAQGSGRGLEAMKWVVVVALLLVAIVGNYLYRDIMLPLRALAVVILIAAAGGVALLTTKGKATVAFAREARTEVRKVIWPTRQETLHTTLIVAAVTAVMSLILWGLDGILVRLVSFITGLRF" ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"SECF" "Sec translocon accessory complex subunit SecF" ["SecF"] "MAQEYTVEQLNHGRKVYDFMRWDYWAFGISGLLLIAAIVIMGVRGFNWGLDFTGGTVIEITLEKPAEIDVMRDALQKAGFEEPMLQNFGSSHDIMVRMPPAEGETGGQVLGSQVLKVINESTNQNAAVKRIEFVGPSVGADLAQTGAMALMAALLSILVYVGFRFEWRLAAGVVIALAHDVIITLGILSLFHIEIDLTIVASLMSVIGYSLNDSIVVSDRIRENFRKIRRGTPYEIFNVSLTQTLHRTLITSGTTLMVILMLYLFGGPVLEGFSLTMLIGVSIGTASSIYVASALALKLGMKREHMLQQKVEKEGADQPSILP" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"SECG" "Sec translocon subunit SecG" ["SecG", "PrlH", "p12"] "MYEALLVVFLIVAIGLVGLIMLQQGKGADMGASFGAGASATLFGSSGSGNFMTRMTALLATLFFIISLVLGNINSNKTNKGSEWENLSAPAKTEQTQPAAPAKPTSDIPN" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"SECY" "Sec translocon subunit SecY" ["SecY", "PrlA"] "MAKQPGLDFQSAKGGLGELKRRLLFVIGALIVFRIGSFIPIPGIDAAVLAKLLEQQRGTIIEMFNMFSGGALSRASIFALGIMPYISASIIIQLLTVVHPTLAEIKKEGESGRRKISQYTRYGTLVLAIFQSIGIATGLPNMPGMQGLVINPGFAFYFTAVVSLVTGTMFLMWLGEQITERGIGNGISIIIFAGIVAGLPPAIAHTIEQARQGDLHFLVLLLVAVLVFAVTFFVVFVERGQRRIVVNYAKRQQGRRVYAAQSTHLPLKVNMAGVIPAIFASSIILFPATIASWFGGGTGWNWLTTISLYLQPGQPLYVLLYASAIIFFCFFYTALVFNPRETADNLKKSGAFVPGIRPGEQTAKYIDKVMTRLTLVGALYITFICLIPEFMRDAMKVPFYFGGTSLLIVVVVIMDFMAQVQTLMMSSQYESALKKANLKGYGR" ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"SERINE-O-ACETTRAN-MONOMER" "serine acetyltransferase" ["CysE"] "MSCEELEIVWNNIKAEARTLADCEPMLASFYHATLLKHENLGSALSYMLANKLSSPIMPAIAIREVVEEAYAADPEMIASAACDIQAVRTRDPAVDKYSTPLLYLKGFHALQAYRIGHWLWNQGRRALAIFLQNQVSVTFQVDIHPAAKIGRGIMLDHATGIVVGETAVIENDVSILQSVTLGGTGKSGGDRHPKIREGVMIGAGAKILGNIEVGRGAKIGAGSVVLQPVPPHTTAAGVPARIVGKPDSDKPSMDMDQHFNGINHTFEYGDGI" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"SERS-MONOMER" "serine—tRNA ligase" ["SerS", "SerRS"] "MLDPNLLRNEPDAVAEKLARRGFKLDVDKLGALEERRKVLQVKTENLQAERNSRSKSIGQAKARGEDIEPLRLEVNKLGEELDAAKAELDALQAEIRDIALTIPNLPADEVPVGKDENDNVEVSRWGTPREFDFEVRDHVTLGEMHSGLDFAAAVKLTGSRFVVMKGQIARMHRALSQFMLDLHTEQHGYSENYVPYLVNQDTLYGTGQLPKFAGDLFHTRPLEEEADTSNYALIPTAEVPLTNLVRGEIIDEDDLPIKMTAHTPCFRSEAGSYGRDTRGLIRMHQFDKVEMVQIVRPEDSMAALEEMTGHAEKVLQLLGLPYRKIILCTGDMGFGACKTYDLEVWIPAQNTYREISSCSNVWDFQARRMQARCRSKSDKKTRLVHTLNGSGLAVGRTLVAVMENYQQADGRIEVPEVLRPYMNGLEYIG" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"SFUA-MONOMER" "thiamine ABC transporter periplasmic binding protein" ["YabL", "SfuA", "ThiB", "TbpA", "TBP"] "MLKKCLPLLLLCTAPVFAKPVLTVYTYDSFAADWGPGPVVKKAFEADCNCELKLVALEDGVSLLNRLRMEGKNSKADVVLGLDNNLLDAASKTGLFAKSGVAADAVNVPGGWNNDTFVPFDYGYFAFVYDKNKLKNPPQSLKELVESDQNWRVIYQDPRTSTPGLGLLLWMQKVYGDDAPQAWQKLAKKTVTVTKGWSEAYGLFLKGESDLVLSYTTSPAYHILEEKKDNYAAANFSEGHYLQVEVAARTAASKQPELAQKFLQFMVSPAFQNAIPTGNWMYPVANVTLPAGFEKLTKPATTLEFTPAEVAAQRQAWISEWQRAVSR" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"SFUB-MONOMER" "thiamine ABC transporter membrane subunit" ["SfuB", "YabK", "ThiP"] "MATRRQPLIPGWLIPGVSATTLVVAVALAAFLALWWNAPQDDWVAVWQDSYLWHVVRFSFWQAFLSALLSVIPAIFLARALYRRRFPGRLALLRLCAMTLILPVLVAVFGILSVYGRQGWLATLCQSLGLEWTFSPYGLQGILLAHVFFNLPMASRLLLQALENIPGEQRQLAAQLGMRSWHFFRFVEWPWLRRQIPPVAALIFMLCFASFATVLSLGGGPQATTIELAIYQALSYDYDPARAAMLALLQMVCCLGLVLLSQRLSKAIAPGTTLLQGWRDPDDRLHSRICDTVLIVLALLLLLPPLLAVIVDGVNRQLPEVLAQPVLWQALWTSLRIALAAGVLCVVLTMMLLWSSRELRARQKMLAGQVLEMSGMLILAMPGIVLATGFFLLLNNTIGLPQSADGIVIFTNALMAIPYALKVLENPMRDITARYSMLCQSLGIEGWSRLKVVELRALKRPLAQALAFACVLSIGDFGVVALFGNDDFRTLPFYLYQQIGSYRSQDGAVTALILLLLCFLLFTVIEKLPGRNVKTD" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"SFUC-MONOMER" "thiamine ABC transporter ATP binding subunit" ["SfuC", "YabJ", "ThiQ"] "MLKLTDITWLYHHLPMRFSLTVERGEQVAILGPSGAGKSTLLNLIAGFLTPASGSLTIDGVDHTTMPPSRRPVSMLFQENNLFSHLTVAQNIGLGLNPGLKLNAVQQGKMHAIARQMGIDNLMARLPGELSGGQRQRVALARCLVREQPILLLDEPFSALDPALRQEMLTLVSTSCQQQKMTLLMVSHSVEDAARIATRSVVVADGRIAWQGMTNELLSGKASASALLGITG" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"SGAT-MONOMER" "L-ascorbate specific PTS enzyme IIC component" ["YjfS", "SgaT"] "MEILYNIFTVFFNQVMTNAPLLLGIVTCLGYILLRKSVSVIIKGTIKTIIGFMLLQAGSGILTSTFKPVVAKMSEVYGINGAISDTYASMMATIDRMGDAYSWVGYAVLLALALNICYVLLRRITGIRTIMLTGHIMFQQAGLIAVTLFIFGYSMWTTIICTAILVSLYWGITSNMMYKPTQEVTDGCGFSIGHQQQFASWIAYKVAPFLGKKEESVEDLKLPGWLNIFHDNIVSTAIVMTIFFGAILLSFGIDTVQAMAGKVHWTVYILQTGFSFAVAIFIITQGVRMFVAELSEAFNGISQRLIPGAVLAIDCAAIYSFAPNAVVWGFMWGTIGQLIAVGILVACGSSILIIPGFIPMFFSNATIGVFANHFGGWRAALKICLVMGMIEIFGCVWAVKLTGMSAWMGMADWSILAPPMMQGFFSIGIAFMAVIIVIALAYMFFAGRALRAEEDAEKQLAEQSA" ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"SGCA-MONOMER" "putative PTS enzyme IIA component SgcA" ["YjhL", "SgcA", "EIIASgc", "Enzyme IIASgc"] "MINDIKWVQAQRKATDWRQAVEIATRPLVAYGAAQPCYVNGIIENTLNWGPYYLIAPGIALPHARPEQGANYNQVSITTLRTPVAFGNEECDPVWLLLCVSATDANAHILTIQRISQFIDSPQRLTAVGNASTDDALFALVSG" [] ["CCO-CYTOSOL"] +"SGCB-MONOMER" "KpLE2 phage-like element; putative endoglucanase with Zn-dependent exopeptidase domain" ["YjhO", "SgcX"] "MSFSVQETLFSLLQHNAISGHENAVADVMLCEFRRQAKEVWRDRLGNVVARYGSDKPDALRLMIFAHMDEVGFMVRKIEPSGFLRFERVGGPAQVTMAGSIVTLTGDKGPVMGCIGIKSYHFAKGDERTQSPSVDKLWIDIGAKDKDDAIRMGIQVGTPVTLYNPPQLLANDLVCSKALDDRLGCTALLGVADAISTMELDIAVYLVASVQEEFNIRGIVPVLRRVKPDLAIGIDITPSCDTPDLHDYSEVRINQGVGITCLNYHGRGTLAGLITPPRLIRMLEQTALEHNIPVQREVAPGVITETGYIQVEQDGIPCASLSIPCRYTHSPAEVASLRDLTDCIRLLTALAGMSAAHFPVEPDSGTTQEAHPL" [] ["CCO-CYTOSOL"] +"SGCC-MONOMER" "putative PTS enzyme IIC component SgcC" ["YjhN", "SgcC", "EIICSgc", "Enzyme IICSgc"] "MFDYILSLGGTVFVPIIMIVIGLIFRIPWLQAIKAGVTVGIGFVGMGLVIVMAIDSLSPPIKVMIERFGLALHVFDVGAGPASGVGYATAIGAMIIPVIFLLNVAMLVTRLTKTMNVDIYNYWHYAITGTVVQLMTGSLIYGVLGAICHAALSLKMADWTAKRVQNIVGLEGISIPQGYGSSSVPLFVLLDAIYEKIPFMKGRNIDAQEIQKRYGMVGDPVIIGVVLGLIFGLAAGEGFKGCASLMITVAAIMVLFPRMIRLIVEGLLPISDGARKFFQKYFKGREVYIGLDTAVTLGHPTTIAVGLLLIPIMLILASILPGNKVLPLADLPVAPFFICMATVIHRGDLVRTLISGVIVMITVLLIATQFAPYFTEMALKGGFSFAGESAQISALSVGNMFGWSISELMSLGIIGVVVAVGIVASVVLFLRKRELSE" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"SHIA-MONOMER" null ["YeeM", "ShiA", "ShiA shikimate MFS transporter"] "MDSTLISTRPDEGTLSLSRARRAALGSFAGAVVDWYDFLLYGITAALVFNREFFPQVSPAMGTLAAFATFGVGFLFRPLGGVIFGHFGDRLGRKRMLMLTVWMMGIATALIGILPSFSTIGWWAPILLVTLRAIQGFAVGGEWGGAALLSVESAPKNKKAFYSSGVQVGYGVGLLLSTGLVSLISMMTTDEQFLSWGWRIPFLFSIVLVLGALWVRNGMEESAEFEQQQHYQAAAKKRIPVIEALLRHPGAFLKIIALRLCELLTMYIVTAFALNYSTQNMGLPRELFLNIGLLVGGLSCLTIPCFAWLADRFGRRRVYITGTLIGTLSAFPFFMALEAQSIFWIVFFSIMLANIAHDMVVCVQQPMFTEMFGASYRYSGAGVGYQVASVVGGGFTPFIAAALITYFAGNWHSVAIYLLAGCLISAMTALLMKDSQRA" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"SIROHEMESYN-MONOMER" "siroheme synthase" ["CysG"] "MDHLPIFCQLRDRDCLIVGGGDVAERKARLLLDAGARLTVNALAFIPQFTAWADAGMLTLVEGPFDESLLDTCWLAIAATDDDALNQRVSEAAEARRIFCNVVDAPKAASFIMPSIIDRSPLMVAVSSGGTSPVLARLLREKLESLLPLHLGQVAKYAGQLRGRVKQQFATMGERRRFWEKLFVNDRLAQSLANNDQKAITETTEQLINEPLDHRGEVVLVGAGPGDAGLLTLKGLQQIQQADVVVYDRLVSDDIMNLVRRDADRVFVGKRAGYHCVPQEEINQILLREAQKGKRVVRLKGGDPFIFGRGGEELETLCNAGIPFSVVPGITAASGCSAYSGIPLTHRDYAQSVRLITGHLKTGGELDWENLAAEKQTLVFYMGLNQAATIQQKLIEHGMPGEMPVAIVENGTAVTQRVIDGTLTQLGELAQQMNSPSLIIIGRVVGLRDKLNWFSNH" [] ["CCO-CYTOSOL"] +"SMALLILVM-MONOMER" "acetolactate synthase II subunit IlvM" ["IlvM", "acetolactate synthase / acetohydroxybutanoate synthase, regulatory subunit"] "MMQHQVNVSARFNPETLERVLRVVRHRGFHVCSMNMAAASDAQNINIELTVASPRSVDLLFSQLNKLVDVAHVAICQSTTTSQQIRA" [] ["CCO-CYTOSOL"] +"SMALLILVN-MONOMER" "acetohydroxy acid synthase I subunit IlvN" ["IlvN", "acetohydroxy acid synthase I, small subunit"] "MQNTTHDNVILELTVRNHPGVMTHVCGLFARRAFNVEGILCLPIQDSDKSHIWLLVNDDQRLEQMISQIDKLEDVVKVQRNQSDPTMFNKIAVFFQ" [] ["CCO-CYTOSOL"] +"SORB6PDEHYDROG-MONOMER" "sorbitol-6-phosphate 2-dehydrogenase" ["GutD", "SrlD"] "MNQVAVVIGGGQTLGAFLCHGLAAEGYRVAVVDIQSDKAANVAQEINAEYGESMAYGFGADATSEQSVLALSRGVDEIFGRVDLLVYSAGIAKAAFISDFQLGDFDRSLQVNLVGYFLCAREFSRLMIRDGIQGRIIQINSKSGKVGSKHNSGYSAAKFGGVGLTQSLALDLAEYGITVHSLMLGNLLKSPMFQSLLPQYATKLGIKPDQVEQYYIDKVPLKRGCDYQDVLNMLLFYASPKASYCTGQSINVTGGQVMF" [] ["CCO-CYTOSOL"] +"SPED-MONOMER" "S-adenosylmethionine decarboxylase proenzyme" ["SpeD"] "MKKLKLHGFNNLTKSLSFCIYDICYAKTAEERDGYIAYIDELYNANRLTEILSETCSIIGANILNIARQDYEPQGASVTILVSEEPVDPKLIDKTEHPGPLPETVVAHLDKSHICVHTYPESHPEGGLCTFRADIEVSTCGVISPLKALNYLIHQLESDIVTIDYRVRGFTRDINGMKHFIDHEINSIQNFMSDDMKALYDMVDVNVYQENIFHTKMLLKEFDLKHYMFHTKPEDLTDSERQEITAALWKEMREIYYGRNMPAV" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"SPERMACTRAN-MONOMER" "spermidine N-acetyltransferase" ["SpeG"] "MPSAHSVKLRPLEREDLRYVHQLDNNASVMRYWFEEPYEAFVELSDLYDKHIHDQSERRFVVECDGEKAGLVELVEINHVHRRAEFQIIISPEYQGKGLATRAAKLAMDYGFTVLNLYKLYLIVDKENEKAIHIYRKLGFSVEGELMHEFFINGQYRNAIRMCIFQHQYLAEHKTPGQTLLKPTAQ" [] ["CCO-CYTOSOL"] +"SPERMIDINESYN-MONOMER" "spermidine synthase" ["SpeE"] "MAEKKQWHETLHDQFGQYFAVDNVLYHEKTDHQDLIIFENAAFGRVMALDGVVQTTERDEFIYHEMMTHVPLLAHGHAKHVLIIGGGDGAMLREVTRHKNVESITMVEIDAGVVSFCRQYLPNHNAGSYDDPRFKLVIDDGVNFVNQTSQTFDVIISDCTDPIGPGESLFTSAFYEGCKRCLNPGGIFVAQNGVCFLQQEEAIDSHRKLSHYFSDVGFYQAAIPTYYGGIMTFAWATDNDALRHLSTEIIQARFLASGLKCRYYNPAIHTAAFALPQYLQDALASQPS" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"SPOT-MONOMER" "bifunctional (p)ppGpp synthase/hydrolase SpoT" ["SpoT"] "MYLFESLNQLIQTYLPEDQIKRLRQAYLVARDAHEGQTRSSGEPYITHPVAVACILAEMKLDYETLMAALLHDVIEDTPATYQDMEQLFGKSVAELVEGVSKLDKLKFRDKKEAQAENFRKMIMAMVQDIRVILIKLADRTHNMRTLGSLRPDKRRRIARETLEIYSPLAHRLGIHHIKTELEELGFEALYPNRYRVIKEVVKAARGNRKEMIQKILSEIEGRLQEAGIPCRVSGREKHLYSIYCKMVLKEQRFHSIMDIYAFRVIVNDSDTCYRVLGQMHSLYKPRPGRVKDYIAIPKANGYQSLHTSMIGPHGVPVEVQIRTEDMDQMAEMGVAAHWAYKEHGETSTTAQIRAQRWMQSLLELQQSAGSSFEFIESVKSDLFPDEIYVFTPEGRIVELPAGATPVDFAYAVHTDIGHACVGARVDRQPYPLSQPLTSGQTVEIITAPGARPNAAWLNFVVSSKARAKIRQLLKNLKRDDSVSLGRRLLNHALGGSRKLNEIPQENIQRELDRMKLATLDDLLAEIGLGNAMSVVVAKNLQHGDASIPPATQSHGHLPIKGADGVLITFAKCCRPIPGDPIIAHVSPGKGLVIHHESCRNIRGYQKEPEKFMAVEWDKETAQEFITEIKVEMFNHQGALANLTAAINTTTSNIQSLNTEEKDGRVYSAFIRLTARDRVHLANIMRKIRVMPDVIKVTRNRN" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"SUCCARGDIHYDRO-MONOMER" "N-succinylarginine dihydrolase" ["YdjT", "AstB"] "MNAWEVNFDGLVGLTHHYAGLSFGNEASTRHRFQVSNPRLAAKQGLLKMKALADAGFPQAVIPPHERPFIPVLRQLGFSGSDEQVLEKVARQAPHWLSSVSSASPMWVANAATIAPSADTLDGKVHLTVANLNNKFHRSLEAPVTESLLKAIFNDEEKFSVHSALPQVALLGDEGAANHNRLGGHYGEPGMQLFVYGREEGNDTRPSRYPARQTREASEAVARLNQVNPQQVIFAQQNPDVIDQGVFHNDVIAVSNRQVLFCHQQAFARQSQLLANLRARVNGFMAIEVPATQVSVSDTVSTYLFNSQLLSRDDGSMMLVLPQECREHAGVWGYLNELLAADNPISELKVFDLRESMANGGGPACLRLRVVLTEEERRAVNPAVMMNDTLFNALNDWVDRYYRDRLTAADLADPQLLREGREALDVLSQLLNLGSVYPFQREGGGNG" [] ["CCO-CYTOSOL"] +"SUCCCOASYN-ALPHA" "succinyl-CoA synthetase subunit α" ["SucD", "α subunit"] "MSILIDKNTKVICQGFTGSQGTFHSEQAIAYGTKMVGGVTPGKGGTTHLGLPVFNTVREAVAATGATASVIYVPAPFCKDSILEAIDAGIKLIITITEGIPTLDMLTVKVKLDEAGVRMIGPNCPGVITPGECKIGIQPGHIHKPGKVGIVSRSGTLTYEAVKQTTDYGFGQSTCVGIGGDPIPGSNFIDILEMFEKDPQTEAIVMIGEIGGSAEEEAAAYIKEHVTKPVVGYIAGVTAPKGKRMGHAGAIIAGGKGTADEKFAALEAAGVKTVRSLADIGEALKTVLK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"SUCCCOASYN-BETA" "succinyl-CoA synthetase subunit β" ["SucC", "β subunit"] "MNLHEYQAKQLFARYGLPAPVGYACTTPREAEEAASKIGAGPWVVKCQVHAGGRGKAGGVKVVNSKEDIRAFAENWLGKRLVTYQTDANGQPVNQILVEAATDIAKELYLGAVVDRSSRRVVFMASTEGGVEIEKVAEETPHLIHKVALDPLTGPMPYQGRELAFKLGLEGKLVQQFTKIFMGLATIFLERDLALIEINPLVITKQGDLICLDGKLGADGNALFRQPDLREMRDQSQEDPREAQAAQWELNYVALDGNIGCMVNGAGLAMGTMDIVKLHGGEPANFLDVGGGATKERVTEAFKIILSDDKVKAVLVNIFGGIVRCDLIADGIIGAVAEVGVNVPVVVRLEGNNAELGAKKLADSGLNIIAAKGLTDAAQQVVAAVEGK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"SUCCGLUALDDEHYD-MONOMER" "aldehyde dehydrogenase" ["YdjU", "AstD"] "MTLWINGDWITGQGASRVKRNPVSGEVLWQGNDADAAQVEQACRAARAAFPRWARLSFAERHAVVERFAALLESNKAELTAIIARETGKPRWEAATEVTAMINKIAISIKAYHVRTGEQRSEMPDGAASLRHRPHGVLAVFGPYNFPGHLPNGHIVPALLAGNTIIFKPSELTPWSGEAVMRLWQQAGLPPGVLNLVQGGRETGQALSALEDLDGLLFTGSANTGYQLHRQLSGQPEKILALEMGGNNPLIIDEVADIDAAVHLTIQSAFVTAGQRCTCARRLLLKSGAQGDAFLARLVAVSQRLTPGNWDDEPQPFIGGLISEQAAQQVVTAWQQLEAMGGRPLLAPRLLQAGTSLLTPGIIEMTGVAGVPDEEVFGPLLRVWRYDTFDEAIRMANNTRFGLSCGLVSPEREKFDQLLLEARAGIVNWNKPLTGAASTAPFGGIGASGNHRPSAWYAADYCAWPMASLESDSLTLPATLNPGLDFSDEVVR" [] ["CCO-CYTOSOL"] +"SUCCGLUDESUCC-MONOMER" null ["YdjS", "AstE"] "MDNFLALTLTGKKPVITEREINGVRWRWLGDGVLELTPLTPPQGALVISAGIHGNETAPVEMLDALLGAISHGEIPLRWRLLVILGNPPALKQGKRYCHSDMNRMFGGRWQLFAESGETCRARELEQCLEDFYDQGKESVRWHLDLHTAIRGSLHPQFGVLPQRDIPWDEKFLTWLGAAGLEALVFHQEPGGTFTHFSARHFGALACTLELGKALPFGQNDLRQFAVTASAIAALLSGESVGIVRTPPLRYRVVSQITRHSPSFEMHMASDTLNFMPFEKGTLLAQDGEERFTVTHDVEYVLFPNPLVALGLRAGLMLEKIS" [] ["CCO-CYTOSOL"] +"SUCCORNTRANSAM-MONOMER" "succinylornithine transaminase" ["AstC", "YdjW", "CstC", "ArgM"] "MSQPITRENFDEWMIPVYAPAPFIPVRGEGSRLWDQQGKEYIDFAGGIAVNALGHAHPELREALNEQASKFWHTGNGYTNEPVLRLAKKLIDATFADRVFFCNSGAEANEAALKLARKFAHDRYGSHKSGIVAFKNAFHGRTLFTVSAGGQPAYSQDFAPLPADIRHAAYNDINSASALIDDSTCAVIVEPIQGEGGVVPASNAFLQGLRELCNRHNALLIFDEVQTGVGRTGELYAYMHYGVTPDLLTTAKALGGGFPVGALLATEECARVMTVGTHGTTYGGNPLASAVAGKVLELINTPEMLNGVKQRHDWFVERLNTINHRYGLFSEVRGLGLLIGCVLNADYAGQAKQISQEAAKAGVMVLIAGGNVVRFAPALNVSEEEVTTGLDRFAAACEHFVSRGSS" [] ["CCO-CYTOSOL"] +"SUCCSEMIALDDEHYDROG-MONOMER" "succinate-semialdehyde dehydrogenase (NADP+) GabD" ["GabD", "NADP+-dependent succinate-semialdehyde dehydrogenase"] "MKLNDSNLFRQQALINGEWLDANNGEAIDVTNPANGDKLGSVPKMGADETRAAIDAANRALPAWRALTAKERATILRNWFNLMMEHQDDLARLMTLEQGKPLAEAKGEISYAASFIEWFAEEGKRIYGDTIPGHQADKRLIVIKQPIGVTAAITPWNFPAAMITRKAGPALAAGCTMVLKPASQTPFSALALAELAIRAGVPAGVFNVVTGSAGAVGNELTSNPLVRKLSFTGSTEIGRQLMEQCAKDIKKVSLELGGNAPFIVFDDADLDKAVEGALASKFRNAGQTCVCANRLYVQDGVYDRFAEKLQQAVSKLHIGDGLDNGVTIGPLIDEKAVAKVEEHIADALEKGARVVCGGKAHERGGNFFQPTILVDVPANAKVSKEETFGPLAPLFRFKDEADVIAQANDTEFGLAAYFYARDLSRVFRVGEALEYGIVGINTGIISNEVAPFGGIKASGLGREGSKYGIEDYLEIKYMCIGL" [] ["CCO-CYTOSOL"] +"SUGE-MONOMER" "guanidinium exporter" ["SugE", "Gdx"] "MSWIILVIAGLLEVVWAVGLKYTHGFSRLTPSVITVTAMIVSMALLAWAMKSLPVGTAYAVWTGIGAVGAAITGIVLLGESANPMRLASLALIVLGIIGLKLSTH" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"SUPEROX-DISMUTFE-MONOMER" "superoxide dismutase (Fe)" ["SodB"] "MSFELPALPYAKDALAPHISAETIEYHYGKHHQTYVTNLNNLIKGTAFEGKSLEEIIRSSEGGVFNNAAQVWNHTFYWNCLAPNAGGEPTGKVAEAIAASFGSFADFKAQFTDAAIKNFGSGWTWLVKNSDGKLAIVSTSNAGTPLTTDATPLLTVDVWEHAYYIDYRNARPGYLEHFWALVNWEFVAKNLAA" ["CCO-CYTOSOL"] [] +"SUPEROX-DISMUTMN-MONOMER" "superoxide dismutase (Mn)" ["SodA", "MnSOD"] "MSYTLPSLPYAYDALEPHFDKQTMEIHHTKHHQTYVNNANAALESLPEFANLPVEELITKLDQLPADKKTVLRNNAGGHANHSLFWKGLKKGTTLQGDLKAAIERDFGSVDNFKAEFEKAAASRFGSGWAWLVLKGDKLAVVSTANQDSPLMGEAISGASGFPIMGLDVWEHAYYLKFQNRRPDYIKEFWNVVNWDEAAARFAAKK" ["CCO-CYTOSOL"] [] +"TAGAALDOL1-MONOMER" "tagatose-1,6-bisphosphate aldolase 1" ["Kba", "YraC", "AgaY", "KbaY"] "MSIISTKYLLQDAQANGYAVPAFNIHNAETIQAILEVCSEMRSPVILAGTPGTFKHIALEEIYALCSAYSTTYNMPLALHLDHHESLDDIRRKVHAGVRSAMIDGSHFPFAENVKLVKSVVDFCHSQDCSVEAELGRLGGVEDDMSVDAESAFLTDPQEAKRFVELTGVDSLAVAIGTAHGLYSKTPKIDFQRLAEIREVVDVPLVLHGASDVPDEFVRRTIELGVTKVNVATELKIAFAGAVKAWFAENPQGNDPRYYMRVGMDAMKEVVRNKINVCGSANRISA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"TAGAALDOL2-MONOMER" "tagatose-1,6-bisphosphate aldolase 2" ["YegF", "GatY"] "MYVVSTKQMLNNAQRGGYAVPAFNIHNLETMQVVVETAANLHAPVIIAGTPGTFTHAGTENLLALVSAMAKQYHHPLAIHLDHHTKFDDIAQKVRSGVRSVMIDASHLPFAQNISRVKEVVDFCHRFDVSVEAELGQLGGQEDDVQVNEADALYTNPAQAREFAEATGIDSLAVAIGTAHGMYASAPALDFSRLENIRQWVNLPLVLHGASGLSTKDIQQTIKLGICKINVATELKNAFSQALKNYLTEHPEATDPRDYLQSAKSAMRDVVSKVIADCGCEGRA" [] ["CCO-CYTOSOL"] +"TAP-MONOMER" "methyl-accepting chemotaxis protein Tap" ["Tap", "Tap dimer", "MCP-IV", "dipeptide chemoreceptor protein", "chemotaxis signaling protein IV"] "MFNRIRISTTLFLILILCGILQIGSNGMSFWAFRDDLQRLNQVEQSNQQRAALAQTRAVMLQASTALNKAGTLTALSYPADDIKTLMTTARASLTQSTTLFKSFMAMTAGNEHVRGLQKETEKSFARWHNDLEHQATWLESNQLSDFLTAPVQGSQNAFDVNFEAWQLEINHVLEAASAQSQRNYQISALVFISMIIVAAIYISSALWWTRKMIVQPLAIIGSHFDSIAAGNLARPIAVYGRNEITAIFASLKTMQQALRGTVSDVRKGSQEMHIGIAEIVAGNNDLSSRTEQQAASLAQTAASMEQLTATVGQNADNARQASELAKNAATTAQAGGVQVSTMTHTMQEIATSSQKIGDIISVIDGIAFQTNILALNAAVEAARAGEQGRGFAVVAGEVRNLASRSAQAAKEIKGLIEESVNRVQQGSKLVNNAAATMIDIVSSVTRVNDIMGEIASASEEQQRGIEQVAQAVSQMDQVTQQNASLVEEAAVATEQLANQADHLSSRVAVFTLEEHEVARHESVQLQIAPVVS" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"TAR-MONOMER" "methyl-accepting chemotaxis protein Tar" ["CheM", "MCP-II", "aspartate chemoreceptor protein", "Tar dimer", "chemotaxis signaling protein II"] "MINRIRVVTLLVMVLGVFALLQLISGSLFFSSLHHSQKSFVVSNQLREQQGELTSTWDLMLQTRINLSRSAVRMMMDSSNQQSNAKVELLDSARKTLAQAATHYKKFKSMAPLPEMVATSRNIDEKYKNYYTALTELIDYLDYGNTGAYFAQPTQGMQNAMGEAFAQYALSSEKLYRDIVTDNADDYRFAQWQLAVIALVVVLILLVAWYGIRRMLLTPLAKIIAHIREIAGGNLANTLTIDGRSEMGDLAQSVSHMQRSLTDTVTHVREGSDAIYAGTREIAAGNTDLSSRTEQQASALEETAASMEQLTATVKQNADNARQASQLAQSASDTAQHGGKVVDGVVKTMHEIADSSKKIADIISVIDGIAFQTNILALNAAVEAARAGEQGRGFAVVAGEVRNLASRSAQAAKEIKALIEDSVSRVDTGSVLVESAGETMNNIVNAVTRVTDIMGEIASASDEQSRGIDQVALAVSEMDRVTQQNASLVQESAAAAAALEEQASRLTQAVSAFRLAASPLTNKPQTPSRPASEQPPAQPRLRIAEQDPNWETF" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"TATA" "twin arginine protein translocation system - TatA protein" ["YigT", "MttA1"] "MGGISIWQLLIIAVIVVLLFGTKKLGSIGSDLGASIKGFKKAMSDDEPKQDKTSQDADFTAKTIADKQADTNQEQAKTEDAKRHDKEQV" ["CCO-CYTOSOL", "CCO-PM-BAC-NEG", "CCO-MEMBRANE"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"TAUA-MONOMER" "taurine ABC transporter periplasmic binding protein" ["YaiR", "SsiA", "taurine transport system periplasmic protein", "Ssi1"] "MAISSRNTLLAALAFIAFQAQAVNVTVAYQTSAEPAKVAQADNTFAKESGATVDWRKFDSGASIVRALASGDVQIGNLGSSPLAVAASQQVPIEVFLLASKLGNSEALVVKKTISKPEDLIGKRIAVPFISTTHYSLLAALKHWGIKPGQVEIVNLQPPAIIAAWQRGDIDGAYVWAPAVNALEKDGKVLTDSEQVGQWGAPTLDVWVVRKDFAEKHPEVVKAFAKSAIDAQQPYIANPDVWLKQPENISKLARLSGVPEGDVPGLVKGNTYLTPQQQTAELTGPVNKAIIDTAQFLKEQGKVPAVANDYSQYVTSRFVQ" [] ["CCO-PERI-BAC"] +"TAUB-MONOMER" "taurine ABC transporter ATP binding subunit" ["YaiQ", "SsiB"] "MLQISHLYADYGGKPALEDINLTLESGELLVVLGPSGCGKTTLLNLIAGFVPYQHGSIQLAGKRIEGPGAERGVVFQNEGLLPWRNVQDNVAFGLQLAGIEKMQRLEIAHQMLKKVGLEGAEKRYIWQLSGGQRQRVGIARALAANPQLLLLDEPFGALDAFTRDQMQTLLLKLWQETGKQVLLITHDIEEAVFMATELVLLSSGPGRVLERLPLNFARRFVAGESSRSIKSDPQFIAMREYVLSRVFEQREAFS" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE", "CCO-CYTOSOL"] +"TAUC-MONOMER" "taurine ABC transporter membrane subunit" ["YaiJ", "SsiC", "G6219"] "MSVLINEKLHSRRLKWRWPLSRQVTLSIGTLAVLLTVWWTVATLQLISPLFLPPPQQVLEKLLTIAGPQGFMDATLWQHLAASLTRIMLALFAAVLFGIPVGIAMGLSPTVRGILDPIIELYRPVPPLAYLPLMVIWFGIGETSKILLIYLAIFAPVAMSALAGVKSVQQVRIRAAQSLGASRAQVLWFVILPGALPEILTGLRIGLGVGWSTLVAAELIAATRGLGFMVQSAGEFLATDVVLAGIAVIAIIAFLLELGLRALQRRLTPWHGEVQ" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"TDCC-MONOMER" "threonine/serine:H+ symporter" ["TdcC", "threonine/serine STP transporter"] "MSTSDSIVSSQTKQSSWRKSDTTWTLGLFGTAIGAGVLFFPIRAGFGGLIPILLMLVLAYPIAFYCHRALARLCLSGSNPSGNITETVEEHFGKTGGVVITFLYFFAICPLLWIYGVTITNTFMTFWENQLGFAPLNRGFVALFLLLLMAFVIWFGKDLMVKVMSYLVWPFIASLVLISLSLIPYWNSAVIDQVDLGSLSLTGHDGILITVWLGISIMVFSFNFSPIVSSFVVSKREEYEKDFGRDFTERKCSQIISRASMLMVAVVMFFAFSCLFTLSPANMAEAKAQNIPVLSYLANHFASMTGTKTTFAITLEYAASIIALVAIFKSFFGHYLGTLEGLNGLVLKFGYKGDKTKVSLGKLNTISMIFIMGSTWVVAYANPNILDLIEAMGAPIIASLLCLLPMYAIRKAPSLAKYRGRLDNVFVTVIGLLTILNIVYKLF" ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"TDK-MONOMER" "thymidine/deoxyuridine kinase" ["Tdk"] "MAQLYFYYSAMNAGKSTALLQSSYNYQERGMRTVVYTAEIDDRFGAGKVSSRIGLSSPAKLFNQNSSLFDEIRAEHEQQAIHCVLVDECQFLTRQQVYELSEVVDQLDIPVLCYGLRTDFRGELFIGSQYLLAWSDKLVELKTICFCGRKASMVLRLDQAGRPYNEGEQVVIGGNERYVSVCRKHYKEALQVDSLTAIQERHRHD" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"TDPFUCACTRANS-MONOMER" null ["Rff", "YifH", "RffC", "WecD"] "MPVRASIEPLTWENAFFGVNSAIVRITSEAPLLTPDALAPWSRVQAKIAASNTGELDALQQLGFSLVEGEVDLALPVNNASDSGAVVAQETDIPALRQLASAAFAQSRFRAPWYAPDASSRFYAQWIENAVRGTFDHQCLILRAASGDIRGYVSLRELNATDARIGLLAGRGAGAELMQTALNWAYARGKTTLRVATQMGNTAALKRYIQSGANVESTAYWLYR" [] ["CCO-CYTOSOL"] +"TEHA-MONOMER" "tellurite resistance protein" ["TehA"] "MQSDKVLNLPAGYFGIVLGTIGMGFAWRYASQVWQVSHWLGDGLVILAMIIWGLLTSAFIARLIRFPHSVLAEVRHPVLSSFVSLFPATTMLVAIGFVPWFRPLAVCLFSFGVVVQLAYAAWQTAGLWRGSHPEEATTPGLYLPTVANNFISAMACGALGYTDAGLVFLGAGVFSWLSLEPVILQRLRSSGELPTALRTSLGIQLAPALVACSAWLSVNGGEGDTLAKMLFGYGLLQLLFMLRLMPWYLSQPFNASFWSFSFGVSALATTGLHLGSGSDNGFFHTLAVPLFIFTNFIIAILLIRTFALLMQGKLLVRTERAVLMKAEDKE" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"TETRAACYLDISACC4KIN-MONOMER" null ["YcaH", "LpxK"] "MIEKIWSGESPLWRLLLPLSWLYGLVSGAIRLCYKLKLKRAWRAPVPVVVVGNLTAGGNGKTPVVVWLVEQLQQRGIRVGVVSRGYGGKAESYPLLLSADTTTAQAGDEPVLIYQRTDAPVAVSPVRSDAVKAILAQHPDVQIIVTDDGLQHYRLARDVEIVVIDGVRRFGNGWWLPAGPMRERAGRLKSVDAVIVNGGVPRSGEIPMHLLPGQAVNLRTGTRCDVAQLEHVVAMAGIGHPPRFFATLKMCGVQPEKCVPLADHQSLNHADVSALVSAGQTLVMTEKDAVKCRAFAEENWWYLPVDAQLSGDEPAKLLTQLTLLASGN" ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] ["CCO-CYTOSOL", "CCO-PM-BAC-NEG"] +"THI-P-KIN-MONOMER" "thiamine monophosphate kinase" ["ThiJ", "ThiL", "ATP:thiamine-phosphate phosphotransferase"] "MACGEFSLIARYFDRVRSSRLDVELGIGDDCALLNIPEKQTLAISTDTLVAGNHFLPDIDPADLAYKALAVNLSDLAAMGADPAWLTLALTLPDVDEAWLESFSDSLFDLLNYYDMQLIGGDTTRGPLSMTLGIHGFVPMGRALTRSGAKPGDWIYVTGTPGDSAAGLAILQNRLQVADAKDADYLIKRHLRPSPRILQGQALRDLANSAIDLSDGLISDLGHIVKASDCGARIDLALLPFSDALSRHVEPEQALRWALSGGEDYELCFTVPELNRGALDVALGHLGVPFTCIGQMTADIEGLCFIRDGEPVTLDWKGYDHFATP" [] ["CCO-CYTOSOL"] +"THIC-MONOMER" "phosphomethylpyrimidine synthase" ["ThiC"] "MSATKLTRREQRARAQHFIDTLEGTAFPNSKRIYITGTHPGVRVPMREIQLSPTLIGGSKEQPQYEENEAIPVYDTSGPYGDPQIAINVQQGLAKLRQPWIDARGDTEELTVRSSDYTKARLADDGLDELRFSGVLTPKRAKAGRRVTQLHYARQGIITPEMEFIAIRENMGRERIRSEVLRHQHPGMSFGAHLPENITAEFVRDEVAAGRAIIPANINHPESEPMIIGRNFLVKVNANIGNSAVTSSIEEEVEKLVWSTRWGADTVMDLSTGRYIHETREWILRNSPVPIGTVPIYQALEKVNGIAEDLTWEAFRDTLLEQAEQGVDYFTIHAGVLLRYVPMTAKRLTGIVSRGGSIMAKWCLSHHQENFLYQHFREICEICAAYDVSLSLGDGLRPGSIQDANDEAQFAELHTLGELTKIAWEYDVQVMIEGPGHVPMQMIRRNMTEELEHCHEAPFYTLGPLTTDIAPGYDHFTSGIGAAMIGWFGCAMLCYVTPKEHLGLPNKEDVKQGLITYKIAAHAADLAKGHPGAQIRDNAMSKARFEFRWEDQFNLALDPFTARAYHDETLPQESGKVAHFCSMCGPKFCSMKISQEVRDYAATQTIEMGMADMSENFRARGGEIYLRKEEA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"THIE-MONOMER" "thiamine phosphate synthase" ["ThiA", "ThiE"] "MYQPDFPPVPFRSGLYPVVDSVQWIERLLDAGVRTLQLRIKDRRDEEVEADVVAAIALGRRYNARLFINDYWRLAIKHQAYGVHLGQEDLQATDLNAIRAAGLRLGVSTHDDMEIDVALAARPSYIALGHVFPTQTKQMPSAPQGLEQLARHVERLADYPTVAIGGISLARAPAVIATGVGSIAVVSAITQAADWRLATAQLLEIAGVGDE" [] ["CCO-CYTOSOL"] +"THIF-MONOMER" "sulfur carrier protein ThiS adenylyltransferase" ["ThiA", "ThiF", "thiamine (thiazole moiety) biosynthesis protein"] "MNDRDFMRYSRQILLDDIALDGQQKLLDSQVLIIGLGGLGTPAALYLAGAGVGTLVLADDDDVHLSNLQRQILFTTEDIDRPKSQVSQQRLTQLNPDIQLTALQQRLTGEALKDAVARADVVLDCTDNMATRQEINAACVALNTPLITASAVGFGGQLMVLTPPWEQGCYRCLWPDNQEPERNCRTAGVVGPVVGVMGTLQALEAIKLLSGIETPAGELRLFDGKSSQWRSLALRRASGCPVCGGSNADPV" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"THIG-MONOMER" "1-deoxy-D-xylulose 5-phosphate:thiol sulfurtransferase" ["ThiB", "ThiG"] "MLRIADKTFDSHLFTGTGKFASSQLMVEAIRASGSQLVTLAMKRVDLRQHNDAILEPLIAAGVTLLPNTSGAKTAEEAIFAAHLAREALGTNWLKLEIHPDARWLLPDPIETLKAAETLVQQGFVVLPYCGADPVLCKRLEEVGCAAVMPLGAPIGSNQGLETRAMLEIIIQQATVPVVVDAGIGVPSHAAQALEMGADAVLVNTAIAVADDPVNMAKAFRLAVEAGLLARQSGPGSRSYFAHATSPLTGFLEASA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"THIH-MONOMER" "2-iminoacetate synthase" ["ThiB", "ThiH"] "MKTFSDRWRQLDWDDIRLRINGKTAADVERALNASQLTRDDMMALLSPAASGYLEQLAQRAQRLTRQRFGNTVSFYVPLYLSNLCANDCTYCGFSMSNRIKRKTLDEADIARESAAIREMGFEHLLLVTGEHQAKVGMDYFRRHLPALREQFSSLQMEVQPLAETEYAELKQLGLDGVMVYQETYHEATYARHHLKGKKQDFFWRLETPDRLGRAGIDKIGLGALIGLSDNWRVDSYMVAEHLLWLQQHYWQSRYSVSFPRLRPCTGGIEPASIMDERQLVQTICAFRLLAPEIELSLSTRESPWFRDRVIPLAINNVSAFSKTQPGGYADNHPELEQFSPHDDRRPEAVAAALTAQGLQPVWKDWDSYLGRASQRL" [] ["CCO-CYTOSOL"] +"THII-MONOMER" "tRNA uridine 4-sulfurtransferase" ["NuvA", "YajK", "ThiI", "4-thiouridine synthetase"] "MKFIIKLFPEITIKSQSVRLRFIKILTGNIRNVLKHYDETLAVVRHWDNIEVRAKDENQRLAIRDALTRIPGIHHILEVEDVPFTDMHDIFEKALVQYRDQLEGKTFCVRVKRRGKHDFSSIDVERYVGGGLNQHIESARVKLTNPDVTVHLEVEDDRLLLIKGRYEGIGGFPIGTQEDVLSLISGGFDSGVSSYMLMRRGCRVHYCFFNLGGAAHEIGVRQVAHYLWNRFGSSHRVRFVAINFEPVVGEILEKIDDGQMGVILKRMMVRAASKVAERYGVQALVTGEALGQVSSQTLTNLRLIDNVSDTLILRPLISYDKEHIINLARQIGTEDFARTMPEYCGVISKSPTVKAVKSKIEAEEEKFDFSILDKVVEEANNVDIREIAQQTEQEVVEVETVNGFGPNDVILDIRSIDEQEDKPLKVEGIDVVSLPFYKLSTKFGDLDQNKTWLLWCERGVMSRLQALYLREQGFNNVKVYRP" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"THIKIN-MONOMER" "thiamine kinase" ["ThiK", "YcfN"] "MPFRSNNPITRDELLSRFFPQYHPVTTFNSGLSGGSFLIEHQGQRFVVRQPHDPDAPQSAFLRQYRALSQLPACIAPKPHLYLRDWMVVDYLPGAVKTYLPDTNELAGLLYYLHQQPRFGWRITLLPLLELYWQQSDPARRTVGWLRMLKRLRKAREPRPLRLSPLHMDVHAGNLVHSASGLKLIDWEYAGDGDIALELAAVWVENTEQHRQLVNDYATRAKIYPAQLWRQVRRWFPWLLMLKAGWFEYRWRQTGDQQFIRLADDTWRQLLIKQ" [] ["CCO-CYTOSOL"] +"THIOESTERI-MONOMER" "multifunctional acyl-CoA thioesterase I and protease I and lysophospholipase L1" ["PldC", "ApeA", "TesA", "long chain fatty acyl thioesterase I", "lysophospholipase L1", "lecithinase B", "phospholipase B", "thioesterase I", "acyl-CoA thioesterase I"] "MMNFNNVFRWHLPFLFLVLLTFRAAAADTLLILGDSLSAGYRMSASAAWPALLNDKWQSKTSVVNASISGDTSQQGLARLPALLKQHQPRWVLVELGGNDGLRGFQPQQTEQTLRQILQDVKAANAEPLLMQIRLPANYGRRYNEAFSAIYPKLAKEFDVPLLPFFMEEVYLKPQWMQDDGIHPNRDAQPFIADWMAKQLQPLVNHDS" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"THIOESTERII-MONOMER" "acyl-CoA thioesterase II" ["TesB"] "MSQALKNLLTLLNLEKIEEGLFRGQSEDLGLRQVFGGQVVGQALYAAKETVPEERLVHSFHSYFLRPGDSKKPIIYDVETLRDGNSFSARRVAAIQNGKPIFYMTASFQAPEAGFEHQKTMPSAPAPDGLPSETQIAQSLAHLLPPVLKDKFICDRPLEVRPVEFHNPLKGHVAEPHRQVWIRANGSVPDDLRVHQYLLGYASDLNFLPVALQPHGIGFLEPGIQIATIDHSMWFHRPFNLNEWLLYSVESTSASSARGFVRGEFYTQDGVLVASTVQEGVMRNHN" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"THIOREDOXIN-REDUCT-NADPH-MONOMER" "thioredoxin reductase" ["TrxB", "thioredoxin reductase (NADPH)", "TrxR"] "MGTTKHSKLLILGSGPAGYTAAVYAARANLQPVLITGMEKGGQLTTTTEVENWPGDPNDLTGPLLMERMHEHATKFETEIIFDHINKVDLQNRPFRLNGDNGEYTCDALIIATGASARYLGLPSEEAFKGRGVSACATCDGFFYRNQKVAVIGGGNTAVEEALYLSNIASEVHLIHRRDGFRAEKILIKRLMDKVENGNIILHTNRTLEEVTGDQMGVTGVRLRDTQNSDNIESLDVAGLFVAIGHSPNTAIFEGQLELENGYIKVQSGIHGNATQTSIPGVFAAGDVMDHIYRQAITSAGTGCMAALDAERYLDGLADAK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"THIS-MONOMER" "sulfur carrier protein ThiS" ["ThiS"] "MQILFNDQAMQCAAGQTVHELLEQLDQRQAGAALAINQQIVPREQWAQHIVQDGDQILLFQVIAGG" [] ["CCO-CYTOSOL"] +"THREDEHYDCAT-MONOMER" "catabolic threonine dehydratase" ["Tdc", "TdcB"] "MHITYDLPVAIDDIIEAKQRLAGRIYKTGMPRSNYFSERCKGEIFLKFENMQRTGSFKIRGAFNKLSSLTDAEKRKGVVACSAGNHAQGVSLSCAMLGIDGKVVMPKGAPKSKVAATCDYSAEVVLHGDNFNDTIAKVSEIVEMEGRIFIPPYDDPKVIAGQGTIGLEIMEDLYDVDNVIVPIGGGGLIAGIAVAIKSINPTIRVIGVQSENVHGMAASFHSGEITTHRTTGTLADGCDVSRPGNLTYEIVRELVDDIVLVSEDEIRNSMIALIQRNKVVTEGAGALACAALLSGKLDQYIQNRKTVSIISGGNIDLSRVSQITGFVDA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"THREDEHYDSYN-MONOMER" "threonine deaminase" ["Ile", "IlvA"] "MADSQPLSGAPEGAEYLRAVLRAPVYEAAQVTPLQKMEKLSSRLDNVILVKREDRQPVHSFKLRGAYAMMAGLTEEQKAHGVITASAGNHAQGVAFSSARLGVKALIVMPTATADIKVDAVRGFGGEVLLHGANFDEAKAKAIELSQQQGFTWVPPFDHPMVIAGQGTLALELLQQDAHLDRVFVPVGGGGLAAGVAVLIKQLMPQIKVIAVEAEDSACLKAALDAGHPVDLPRVGLFAEGVAVKRIGDETFRLCQEYLDDIITVDSDAICAAMKDLFEDVRAVAEPSGALALAGMKKYIALHNIRGERLAHILSGANVNFHGLRYVSERCELGEQREALLAVTIPEEKGSFLKFCQLLGGRSVTEFNYRFADAKNACIFVGVRLSRGLEERKEILQMLNDGGYSVVDLSDDEMAKLHVRYMVGGRPSHPLQERLYSFEFPESPGALLRFLNTLGTYWNISLFHYRSHGTDYGRVLAAFELGDHEPDFETRLNELGYDCHDETNNPAFRFFLAG" [] ["CCO-CYTOSOL"] +"THREODEHYD-MONOMER" "threonine dehydrogenase" ["Tdh"] "MKALSKLKAEEGIWMTDVPVPELGHNDLLIKIRKTAICGTDVHIYNWDEWSQKTIPVPMVVGHEYVGEVVGIGQEVKGFKIGDRVSGEGHITCGHCRNCRGGRTHLCRNTIGVGVNRPGCFAEYLVIPAFNAFKIPDNISDDLAAIFDPFGNAVHTALSFDLVGEDVLVSGAGPIGIMAAAVAKHVGARNVVITDVNEYRLELARKMGITRAVNVAKENLNDVMAELGMTEGFDVGLEMSGAPPAFRTMLDTMNHGGRIAMLGIPPSDMSIDWTKVIFKGLFIKGIYGREMFETWYKMAALIQSGLDLSPIITHRFSIDDFQKGFDAMRSGQSGKVILSWD" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"THRESYN-MONOMER" null ["ThrC"] "MKLYNLKDHNEQVSFAQAVTQGLGKNQGLFFPHDLPEFSLTEIDEMLKLDFVTRSAKILSAFIGDEIPQEILEERVRAAFAFPAPVANVESDVGCLELFHGPTLAFKDFGGRFMAQMLTHIAGDKPVTILTATSGDTGAAVAHAFYGLPNVKVVILYPRGKISPLQEKLFCTLGGNIETVAIDGDFDACQALVKQAFDDEELKVALGLNSANSINISRLLAQICYYFEAVAQLPQETRNQLVVSVPSGNFGDLTAGLLAKSLGLPVKRFIAATNVNDTVPRFLHDGQWSPKATQATLSNAMDVSQPNNWPRVEELFRRKIWQLKELGYAAVDDETTQQTMRELKELGYTSEPHAAVAYRALRDQLNPGEYGLFLGTAHPAKFKESVEAILGETLDLPKELAERADLPLLSHNLPADFAALRKLMMNHQ" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"THRS-MONOMER" "threonine—tRNA ligase" ["ThrS", "ThrRS"] "MPVITLPDGSQRHYDHAVSPMDVALDIGPGLAKACIAGRVNGELVDACDLIENDAQLSIITAKDEEGLEIIRHSCAHLLGHAIKQLWPHTKMAIGPVIDNGFYYDVDLDRTLTQEDVEALEKRMHELAEKNYDVIKKKVSWHEARETFANRGESYKVSILDENIAHDDKPGLYFHEEYVDMCRGPHVPNMRFCHHFKLMKTAGAYWRGDSNNKMLQRIYGTAWADKKALNAYLQRLEEAAKRDHRKIGKQLDLYHMQEEAPGMVFWHNDGWTIFRELEVFVRSKLKEYQYQEVKGPFMMDRVLWEKTGHWDNYKDAMFTTSSENREYCIKPMNCPGHVQIFNQGLKSYRDLPLRMAEFGSCHRNEPSGSLHGLMRVRGFTQDDAHIFCTEEQIRDEVNGCIRLVYDMYSTFGFEKIVVKLSTRPEKRIGSDEMWDRAEADLAVALEENNIPFEYQLGEGAFYGPKIEFTLYDCLDRAWQCGTVQLDFSLPSRLSASYVGEDNERKVPVMIHRAILGSMERFIGILTEEFAGFFPTWLAPVQVVIMNITDSQSEYVNELTQKLSNAGIRVKADLRNEKIGFKIREHTLRRVPYMLVCGDKEVESGKVAVRTRRGKDLGSMDVNEVIEKLQQEIRSRSLKQLEE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"THYMIDYLATESYN-MONOMER" "thymidylate synthase" ["ThyA"] "MKQYLELMQKVLDEGTQKNDRTGTGTLSIFGHQMRFNLQDGFPLVTTKRCHLRSIIHELLWFLQGDTNIAYLHENNVTIWDEWADENGDLGPVYGKQWRAWPTPDGRHIDQITTVLNQLKNDPDSRRIIVSAWNVGELDKMALAPCHAFFQFYVADGKLSCQLYQRSCDVFLGLPFNIASYALLVHMMAQQCDLEVGDFVWTGGDTHLYSNHMDQTHLQLSREPRPLPKLIIKRKPESIFDYRFEDFEIEGYDPHPGIKAPVAI" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"THZ-KIN-MONOMER" "hydroxyethylthiazole kinase" ["ThiM"] "MQVDLLGSAQSAHALHLFHQHSPLVHCMTNDVVQTFTANTLLALGASPAMVIETEEASQFAAIASALLINVGTLTQPRAQAMRAAVEQAKSSQTPWTLDPVAVGALDYRRHFCHELLSFKPAAIRGNASEIMALAGIANGGRGVDTTDAAANAIPAAQTLARETGAIVVVTGEMDYVTDGHRIIGIHGGDPLMTKVVGTGCALSAVVAACCALPGDTLENVASACHWMKQAGERAVARSEGPGSFVPHFLDALWQLTQEVQA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"TNAB-MONOMER" null ["TrpP", "TnaP", "TnaB", "TnaB tryptophan ArAAP transporter"] "MTDQAEKKHSAFWGVMVIAGTVIGGGMFALPVDLAGAWFFWGAFILIIAWFSMLHSGLLLLEANLNYPVGSSFNTITKDLIGNTWNIISGITVAFVLYILTYAYISANGAIISETISMNLGYHANPRIVGICTAIFVASVLWLSSLAASRITSLFLGLKIISFVIVFGSFFFQVDYSILRDATSSTAGTSYFPYIFMALPVCLASFGFHGNIPSLIICYGKRKDKLIKSVVFGSLLALVIYLFWLYCTMGNIPRESFKAIISSGGNVDSLVKSFLGTKQHGIIEFCLLVFSNLAVASSFFGVTLGLFDYLADLFKIDNSHGGRFKTVLLTFLPPALLYLIFPNGFIYGIGGAGLCATIWAVIIPAVLAIKARKKFPNQMFTVWGGNLIPAIVILFGITVILCWFGNVFNVLPKFG" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"TORA-MONOMER" "trimethylamine N-oxide reductase 1" ["TorA"] "MNNNDLFQASRRRFLAQLGGLTVAGMLGPSLLTPRRATAAQAATDAVISKEGILTGSHWGAIRATVKDGRFVAAKPFELDKYPSKMIAGLPDHVHNAARIRYPMVRVDWLRKRHLSDTSQRGDNRFVRVSWDEALDMFYEELERVQKTHGPSALLTASGWQSTGMFHNASGMLAKAIALHGNSVGTGGDYSTGAAQVILPRVVGSMEVYEQQTSWPLVLQNSKTIVLWGSDLLKNQQANWWCPDHDVYEYYAQLKAKVAAGEIEVISIDPVVTSTHEYLGREHVKHIAVNPQTDVPLQLALAHTLYSENLYDKNFLANYCVGFEQFLPYLLGEKDGQPKDAAWAEKLTGIDAETIRGLARQMAANRTQIIAGWCVQRMQHGEQWAWMIVVLAAMLGQIGLPGGGFGFGWHYNGAGTPGRKGVILSGFSGSTSIPPVHDNSDYKGYSSTIPIARFIDAILEPGKVINWNGKSVKLPPLKMCIFAGTNPFHRHQQINRIIEGLRKLETVIAIDNQWTSTCRFADIVLPATTQFERNDLDQYGNHSNRGIIAMKQVVPPQFEARNDFDIFRELCRRFNREEAFTEGLDEMGWLKRIWQEGVQQGKGRGVHLPAFDDFWNNKEYVEFDHPQMFVRHQAFREDPDLEPLGTPSGLIEIYSKTIADMNYDDCQGHPMWFEKIERSHGGPGSQKYPLHLQSVHPDFRLHSQLCESETLRQQYTVAGKEPVFINPQDASARGIRNGDVVRVFNARGQVLAGAVVSDRYAPGVARIHEGAWYDPDKGGEPGALCKYGNPNVLTIDIGTSQLAQATSAHTTLVEIEKYNGTVEQVTAFNGPVEMVAQCEYVPASQVKS" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"TORR-MONOMER" "DNA-binding transcriptional dual regulator TorR" ["TorR response regulator", "TorR"] "MPHHIVIVEDEPVTQARLQSYFTQEGYTVSVTASGAGLREIMQNQSVDLILLDINLPDENGLMLTRALRERSTVGIILVTGRSDRIDRIVGLEMGADDYVTKPLELRELVVRVKNLLWRIDLARQAQPHTQDNCYRFAGYCLNVSRHTLERDGEPIKLTRAEYEMLVAFVTNPGEILSRERLLRMLSARRVENPDLRTVDVLIRRLRHKLSADLLVTQHGEGYFLAADVC" [] ["CCO-CYTOSOL"] +"TORS-MONOMER" "sensory histidine kinase TorS" ["YccI", "TorS"] "MNLTLTRRLWMGFALMALLTLTSTLVGWYNLRFISQVEKDNTQALIPTMNMARQLSEASAWELFAAQNLTSADNEKMWQAQGRMLTAQSLKINALLQALREQGFDTTAIEQQEQEISRSLRQQGELVGQRLQLRQQQQQLSQQIVAAADEIARLAQGQANNATTSAGATQAGIYDLIEQDQRQAAESALDRLIDIDLEYVNQMNELRLSALRVQQMVMNLGLEQIQKNAPTLEKQLNNAVKILQRRQIRIEDPGVRAQVATTLTTVSQYSDLLALYQQDSEISNHLQTLAQNNIAQFAQFSSEVSQLVDTIELRNQHGLAHLEKASARGQYSLLLLGMVSLCALILILWRVVYRSVTRPLAEQTQALQRLLDGDIDSPFPETAGVRELDTIGRLMDAFRSNVHALNRHREQLAAQVKARTAELQELVIEHRQARAEAEKASQAKSAFLAAMSHEIRTPLYGILGTAQLLADNPALNAQRDDLRAITDSGESLLTILNDILDYSAIEAGGKNVSVSDEPFEPRPLLESTLQLMSGRVKGRPIRLATAIADDMPCALMGDPRRIRQVITNLLSNALRFTDEGYIILRSRTDGEQWLVEVEDSGCGIDPAKLAEIFQPFVQVSGKRGGTGLGLTISSRLAQAMGGELSATSTPEVGSCFCLRLPLRVATAPVPKTVNQAVRLDGLRLLLIEDNPLTQRITIEMLKTSGAQIVAVGNAAQALETLQNSEPFAAALVDFDLPDIDGITLARQLAQQYPSLVLIGFSAHVIDETLRQRTSSLFRGIIPKPVPREVLGQLLAHYLQLQVNNDQSLDVSQLNEDAQLMGTEKIHEWLVLFTQHALPLLDEIDIARASQDSEKIKRAAHQLKSSCSSLGMHIASQLCAQLEQQPLSAPLPHEEITRSVAALEAWLHKKDLNAI" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"TORT-MONOMER" "periplasmic trimethylamine-N-oxide binding protein" ["YccH", "TorT"] "MRVLLFLLLSLFMLPAFSADNLLRWHDAQHFTVQASTPLKAKRAWKLCALYPSLKDSYWLSLNYGMQEAARRYGVDLKVLEAGGYSQLATQQAQIDQCKQWGAEAILLGSSTTSFPDLQKQVASLPVIELVNAIDAPQVKSRVGVPWFQMGYQPGRYLVQWAHGKPLNVLLMPGPDNAGGSKEMVEGFRAAIAGSPVRIVDIALGDNDIEIQRNLLQEMLERHPEIDVVAGTAIAAEAAMGEGRNLKTPLTVVSFYLSHQVYRGLKRGRVIMAASDQMVWQGELAVEQAIRQLQGQSVSDNVSPPILVLTPKNADREHIRRSLSPGGFRPVYFYQHTSAAKK" [] ["CCO-PERI-BAC"] +"TPI-MONOMER" "triose-phosphate isomerase" ["Tpi", "TpiA"] "MRHPLVMGNWKLNGSRHMVHELVSNLRKELAGVAGCAVAIAPPEMYIDMAKREAEGSHIMLGAQNVDLNLSGAFTGETSAAMLKDIGAQYIIIGHSERRTYHKESDELIAKKFAVLKEQGLTPVLCIGETEAENEAGKTEEVCARQIDAVLKTQGAAAFEGAVIAYEPVWAIGTGKSATPAQAQAVHKFIRDHIAKVDANIAEQVIIQYGGSVNASNAAELFAQPDIDGALVGGASLKADAFAVIVKAAEAAKQA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"TRANSALDOLA-MONOMER" "transaldolase A" ["TalA"] "MNELDGIKQFTTVVADSGDIESIRHYHPQDATTNPSLLLKAAGLSQYEHLIDDAIAWGKKNGKTQEQQVVAACDKLAVNFGAEILKIVPGRVSTEVDARLSFDKEKSIEKARHLVDLYQQQGVEKSRILIKLASTWEGIRAAEELEKEGINCNLTLLFSFAQARACAEAGVFLISPFVGRIYDWYQARKPMDPYVVEEDPGVKSVRNIYDYYKQHHYETIVMGASFRRTEQILALTGCDRLTIAPNLLKELQEKVSPVVRKLIPPSQTFPRPAPMSEAEFRWEHNQDAMAVEKLSEGIRLFAVDQRKLEDLLAAKL" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"TRANSALDOLB-MONOMER" "transaldolase B" ["YaaK", "TalB"] "MTDKLTSLRQYTTVVADTGDIAAMKLYQPQDATTNPSLILNAAQIPEYRKLIDDAVAWAKQQSNDRAQQIVDATDKLAVNIGLEILKLVPGRISTEVDARLSYDTEASIAKAKRLIKLYNDAGISNDRILIKLASTWQGIRAAEQLEKEGINCNLTLLFSFAQARACAEAGVFLISPFVGRILDWYKANTDKKEYAPAEDPGVVSVSEIYQYYKEHGYETVVMGASFRNIGEILELAGCDRLTIAPALLKELAESEGAIERKLSYTGEVKARPARITESEFLWQHNQDPMAVDKLAEGIRKFAIDQEKLEKMIGDLL" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"TRANSKETOI-MONOMER" "transketolase 1" ["TktA", "Tkt", "transketolase I"] "MSSRKELANAIRALSMDAVQKAKSGHPGAPMGMADIAEVLWRDFLKHNPQNPSWADRDRFVLSNGHGSMLIYSLLHLTGYDLPMEELKNFRQLHSKTPGHPEVGYTAGVETTTGPLGQGIANAVGMAIAEKTLAAQFNRPGHDIVDHYTYAFMGDGCMMEGISHEVCSLAGTLKLGKLIAFYDDNGISIDGHVEGWFTDDTAMRFEAYGWHVIRDIDGHDAASIKRAVEEARAVTDKPSLLMCKTIIGFGSPNKAGTHDSHGAPLGDAEIALTREQLGWKYAPFEIPSEIYAQWDAKEAGQAKESAWNEKFAAYAKAYPQEAAEFTRRMKGEMPSDFDAKAKEFIAKLQANPAKIASRKASQNAIEAFGPLLPEFLGGSADLAPSNLTLWSGSKAINEDAAGNYIHYGVREFGMTAIANGISLHGGFLPYTSTFLMFVEYARNAVRMAALMKQRQVMVYTHDSIGLGEDGPTHQPVEQVASLRVTPNMSTWRPCDQVESAVAWKYGVERQDGPTALILSRQNLAQQERTEEQLANIARGGYVLKDCAGQPELIFIATGSEVELAVAAYEKLTAEGVKARVVSMPSTDAFDKQDAAYRESVLPKAVTARVAVEAGIADYWYKYVGLNGAIVGMTTFGESAPAELLFEEFGFTVDNVVAKAKELL" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"TRANSKETOII-MONOMER" "transketolase 2" ["TktB", "transketolase II"] "MSRKDLANAIRALSMDAVQKANSGHPGAPMGMADIAEVLWNDFLKHNPTDPTWYDRDRFILSNGHASMLLYSLLHLTGYDLPLEELKNFRQLHSKTPGHPEIGYTPGVETTTGPLGQGLANAVGLAIAERTLAAQFNQPDHEIVDHFTYVFMGDGCLMEGISHEVCSLAGTLGLGKLIGFYDHNGISIDGETEGWFTDDTAKRFEAYHWHVIHEIDGHDPQAVKEAILEAQSVKDKPSLIICRTVIGFGSPNKAGKEEAHGAPLGEEEVALARQKLGWHHPPFEIPKEIYHAWDAREKGEKAQQSWNEKFAAYKKAHPQLAEEFTRRMSGGLPKDWEKTTQKYINELQANPAKIATRKASQNTLNAYGPMLPELLGGSADLAPSNLTIWKGSVSLKEDPAGNYIHYGVREFGMTAIANGIAHHGGFVPYTATFLMFVEYARNAARMAALMKARQIMVYTHDSIGLGEDGPTHQAVEQLASLRLTPNFSTWRPCDQVEAAVGWKLAVERHNGPTALILSRQNLAQVERTPDQVKEIARGGYVLKDSGGKPDIILIATGSEMEITLQAAEKLAGEGRNVRVVSLPSTDIFDAQDEEYRESVLPSNVAARVAVEAGIADYWYKYVGLKGAIVGMTGYGESAPADKLFPFFGFTAENIVAKAHKVLGVKGA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"TRE6PHYDRO-MONOMER" null ["TreE", "OlgH", "TreC"] "MTHLPHWWQNGVIYQIYPKSFQDTTGSGTGDLRGVIQHLDYLHKLGVDAIWLTPFYVSPQVDNGYDVANYTAIDPTYGTLDDFDELVTQAKSRGIRIILDMVFNHTSTQHAWFREALNKESPYRQFYIWRDGEPETPPNNWRSKFGGSAWRWHAESEQYYLHLFAPEQADLNWENPAVRAELKKVCEFWADRGVDGLRLDVVNLISKDPRFPEDLDGDGRRFYTDGPRAHEFLHEMNRDVFTPRGLMTVGEMSSTSLEHCQRYAALTGSELSMTFNFHHLKVDYPGGEKWTLAKPDFVALKTLFRHWQQGMHNVAWNALFWCNHDQPRIVSRFGDEGEYRVPAAKMLAMVLHGMQGTPYIYQGEEIGMTNPHFTRITDYRDVESLNMFAELRNDGRDADELLAILASKSRDNSRTPMQWSNGDNAGFTAGEPWIGLGDNYQQINVEAALADDSSVFYTYQKLIALRKQEAILTWGNYQDLLPNSPVLWCYRREWKGQTLLVIANLSREIQPWQAGQMRGNWQLVMHNYEEASPQPCAMNLRPFEAVWWLQK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"TREB-MONOMER" "trehalose-specific PTS enzyme IIBC component" ["Enzyme IIBCtre", "enzyme IIBC component of trehalose PTS"] "MMSKINQTDIDRLIELVGGRGNIATVSHCITRLRFVLNQPANARPKEIEQLPMVKGCFTNAGQFQVVIGTNVGDYYQALIASTGQAQVDKEQVKKAARHNMKWHEQLISHFAVIFFPLLPALISGGLILGFRNVIGDLPMSNGQTLAQMYPSLQTIYDFLWLIGEAIFFYLPVGICWSAVKKMGGTPILGIVLGVTLVSPQLMNAYLLGQQLPEVWDFGMFSIAKVGYQAQVIPALLAGLALGVIETRLKRIVPDYLYLVVVPVCSLILAVFLAHALIGPFGRMIGDGVAFAVRHLMTGSFAPIGAALFGFLYAPLVITGVHQTTLAIDLQMIQSMGGTPVWPLIALSNIAQGSAVIGIIISSRKHNEREISVPAAISAWLGVTEPAMYGINLKYRFPMLCAMIGSGLAGLLCGLNGVMANGIGVGGLPGILSIQPSYWQVFALAMAIAIIIPIVLTSFIYQRKYRLGTLDIV" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"TREHALACYTO-MONOMER" "cytoplasmic trehalase" ["TreF"] "MLNQKIQNPNPDELMIEVDLCYELDPYELKLDEMIEAEPEPEMIEGLPASDALTPADRYLELFEHVQSAKIFPDSKTFPDCAPKMDPLDILIRYRKVRRHRDFDLRKFVENHFWLPEVYSSEYVSDPQNSLKEHIDQLWPVLTREPQDHIPWSSLLALPQSYIVPGGRFSETYYWDSYFTMLGLAESGREDLLKCMADNFAWMIENYGHIPNGNRTYYLSRSQPPVFALMVELFEEDGVRGARRYLDHLKMEYAFWMDGAESLIPNQAYRHVVRMPDGSLLNRYWDDRDTPRDESWLEDVETAKHSGRPPNEVYRDLRAGAASGWDYSSRWLRDTGRLASIRTTQFIPIDLNAFLFKLESAIANISALKGEKETEALFRQKASARRDAVNRYLWDDENGIYRDYDWRREQLALFSAAAIVPLYVGMANHEQADRLANAVRSRLLTPGGILASEYETGEQWDKPNGWAPLQWMAIQGFKMYGDDLLGDEIARSWLKTVNQFYLEQHKLIEKYHIADGVPREGGGGEYPLQDGFGWTNGVVRRLIGLYGEP" [] ["CCO-CYTOSOL"] +"TREHALAPERI-MONOMER" "periplasmic trehalase" ["Tre", "OsmA", "TreA"] "MKSPAPSRPQKMALIPACIFLCFAALSVQAEETPVTPQPPDILLGPLFNDVQNAKLFPDQKTFADAVPNSDPLMILADYRMQQNQSGFDLRHFVNVNFTLPKEGEKYVPPEGQSLREHIDGLWPVLTRSTENTEKWDSLLPLPEPYVVPGGRFREVYYWDSYFTMLGLAESGHWDKVADMVANFAHEIDTYGHIPNGNRSYYLSRSQPPFFALMVELLAQHEGDAALKQYLPQMQKEYAYWMDGVENLQAGQQEKRVVKLQDGTLLNRYWDDRDTPRPESWVEDIATAKSNPNRPATEIYRDLRSAAASGWDFSSRWMDNPQQLNTLRTTSIVPVDLNSLMFKMEKILARASKAAGDNAMANQYETLANARQKGIEKYLWNDQQGWYADYDLKSHKVRNQLTAAALFPLYVNAAAKDRANKMATATKTHLLQPGGLNTTSVKSGQQWDAPNGWAPLQWVATEGLQNYGQKEVAMDISWHFLTNVQHTYDREKKLVEKYDVSTTGTGGGGGEYPLQDGFGWTNGVTLKMLDLICPKEQPCDNVPATRPTVKSATTQPSTKEAQPTP" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"TREHALOSE6PSYN-MONOMER" null ["OtsA"] "MSRLVVVSNRIAPPDEHAASAGGLAVGILGALKAAGGLWFGWSGETGNEDQPLKKVKKGNITWASFNLSEQDLDEYYNQFSNAVLWPAFHYRLDLVQFQRPAWDGYLRVNALLADKLLPLLQDDDIIWIHDYHLLPFAHELRKRGVNNRIGFFLHIPFPTPEIFNALPTYDTLLEQLCDYDLLGFQTENDRLAFLDCLSNLTRVTTRSAKSHTAWGKAFRTEVYPIGIEPKEIAKQAAGPLPPKLAQLKAELKNVQNIFSVERLDYSKGLPERFLAYEALLEKYPQHHGKIRYTQIAPTSRGDVQAYQDIRHQLENEAGRINGKYGQLGWTPLYYLNQHFDRKLLMKIFRYSDVGLVTPLRDGMNLVAKEYVAAQDPANPGVLVLSQFAGAANELTSALIVNPYDRDEVAAALDRALTMSLAERISRHAEMLDVIVKNDINHWQECFISDLKQIVPRSAESQQRDKVATFPKLA" [] ["CCO-CYTOSOL"] +"TREHALOSEPHOSPHASYN-MONOMER" null ["OtsP", "OtsB"] "MTEPLTETPELSAKYAWFFDLDGTLAEIKPHPDQVVVPDNILQGLQLLATASDGALALISGRSMVELDALAKPYRFPLAGVHGAERRDINGKTHIVHLPDAIARDISVQLHTVIAQYPGAELEAKGMAFALHYRQAPQHEDALMTLAQRITQIWPQMALQQGKCVVEIKPRGTSKGEAIAAFMQEAPFIGRTPVFLGDDLTDESGFAVVNRLGGMSVKIGTGATQASWRLAGVPDVWSWLEMITTALQQKRENNRSDDYESFSRSI" [] ["CCO-CYTOSOL"] +"TRG-MONOMER" "methyl-accepting chemotaxis protein Trg" ["MCP-III", "ribose/galactose/glucose chemoreceptor protein", "Trg", "Trg dimer", "chemotaxis signaling protein III"] "MNTTPSQRLGFLHHIRLVPLFACILGGILVLFALSSALAGYFLWQADRDQRDVTAEIEIRTGLANSSDFLRSARINMIQAGAASRIAEMEAMKRNIAQAESEIKQSQQGYRAYQNRPVKTPADEALDTELNQRFQAYITGMQPMLKYAKNGMFEAIINHESEQIRPLDNAYTDILNKAVKIRSTRANQLAELAHQRTRLGGMFMIGAFVLALVMTLITFMVLRRIVIRPLQHAAQRIEKIASGDLTMNDEPAGRNEIGRLSRHLQQMQHSLGMTVGTVRQGAEEIYRGTSEISAGNADLSSRTEEQAAAIEQTAASMEQLTATVKQNADNAHHASKLAQEASIKASDGGQTVSGVVKTMGAISTSSKKISEITAVINSIAFQTNILALNAAVEAARAGEQGRGFAVVASEVRTLASRSAQAAKEIEGLISESVRLIDLGSDEVATAGKTMSTIVDAVASVTHIMQEIAAASDEQSRGITQVSQAISEMDKVTQQNASLVEEASAAAVSLEEQAARLTEAVDVFRLHKHSVSAEPRGAGEPVSFATV" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"TRKA-MONOMER" "NAD-binding component of Trk potassium transporters" ["TrkA"] "MKIIILGAGQVGGTLAENLVGENNDITVVDTNGERLRTLQDKFDLRVVQGHGSHPRVLREAGADDADMLVAVTSSDETNMVACQVAYSLFNTPNRIARIRSPDYVRDADKLFHSDAVPIDHLIAPEQLVIDNIYRLIEYPGALQVVNFAEGKVSLAVVKAYYGGPLIGNALSTMREHMPHIDTRVAAIFRHDRPIRPQGSTIVEAGDEVFFIAASQHIRAVMSELQRLEKPYKRIMLVGGGNIGAGLARRLEKDYSVKLIERNQQRAAELAEKLQNTIVFFGDASDQELLAEEHIDQVDLFIAVTNDDEANIMSAMLAKRMGAKKVMVLIQRRAYVDLVQGSVIDIAISPQQATISALLSHVRKADIVGVSSLRRGVAEAIEAVAHGDESTSRVVGRVIDEIKLPPGTIIGAVVRGNDVMIANDNLRIEQGDHVIMFLTDKKFITDVERLFQPSPFFL" ["CCO-PM-BAC-NEG", "CCO-CYTOSOL"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"TRKG-MONOMER" "Rac prophage; K+ transporter TrkG" ["TrkG"] "MNTSHVRVVTHMCGFLVWLYSLSMLPPMVVALFYKEKSLFVFFITFVIFFCIGGGAWYTTKKSGIQLRTRDGFIIIVMFWILFSVISAFPLWIDSELNLTFIDALFEGVSGITTTGATVIDDVSSLPRAYLYYRSQLNFIGGLGVIVLAVAVLPLLGIGGAKLYQSEMPGPFKDDKLTPRLADTSRTLWITYSLLGIACIVCYRLAGMPLFDAICHGISTVSLGGFSTHSESIGYFNNYLVELVAGSFSLLSAFNFTLWYIVISRKTIKPLIRDIELRFFLLIALGVIIVTSFQVWHIGMYDLHGSFIHSFFLASSMLTDNGLATQDYASWPTHTIVFLLLSSFFGGCIGSTCGGIKSLRFLILFKQSKHEINQLSHPRALLSVNVGGKIVTDRVMRSVWSFFFLYTLFTVFFILVLNGMGYDFLTSFATVAACINNMGLGFGATASSFGVLNDIAKCLMCIAMILGRLEIYPVIILFSGFFWRS" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"TRKH-MONOMER" null ["TrkH"] "MHFRAITRIVGLLVILFSGTMIIPGLVALIYRDGAGRAFTQTFFVALAIGSMLWWPNRKEKGELKSREGFLIVVLFWTVLGSVGALPFIFSESPNLTITDAFFESFSGLTTTGATTLVGLDSLPHAILFYRQMLQWFGGMGIIVLAVAILPILGVGGMQLYRAEMPGPLKDNKMRPRIAETAKTLWLIYVLLTVACALALWFAGMDAFDAIGHSFATIAIGGFSTHDASIGYFDSPTINTIIAIFLLISGCNYGLHFSLLSGRSLKVYWRDPEFRMFIGVQFTLVVICTLVLWFHNVYSSALMTINQAFFQVVSMATTAGFTTDSIARWPLFLPVLLLCSAFIGGCAGSTGGGLKVIRILLLFKQGNRELKRLVHPNAVYSIKLGNRALPERILEAVWGFFSAYALVFIVSMLAIIATGVDDFSAFASVVATLNNLGPGLGVVADNFTSMNPVAKWILIANMLFGRLEVFTLLVLFTPTFWRE" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"TRPS-MONOMER" "tryptophan—tRNA ligase" ["TrpS", "TrpRS"] "MTKPIVFSGAQPSGELTIGNYMGALRQWVNMQDDYHCIYCIVDQHAITVRQDAQKLRKATLDTLALYLACGIDPEKSTIFVQSHVPEHAQLGWALNCYTYFGELSRMTQFKDKSARYAENINAGLFDYPVLMAADILLYQTNLVPVGEDQKQHLELSRDIAQRFNALYGEIFKVPEPFIPKSGARVMSLLEPTKKMSKSDDNRNNVIGLLEDPKSVVKKIKRAVTDSDEPPVVRYDVQNKAGVSNLLDILSAVTGQSIPELEKQFEGKMYGHLKGEVADAVSGMLTELQERYHRFRNDEAFLQQVMKDGAEKASAHASRTLKAVYEAIGFVAKP" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"TRYPSYN-APROTEIN" "tryptophan synthase subunit α" ["Try", "TrpA", "α subunit", "TSase α", "A protein"] "MERYESLFAQLKERKEGAFVPFVTLGDPGIEQSLKIIDTLIEAGADALELGIPFSDPLADGPTIQNATLRAFAAGVTPAQCFEMLALIRQKHPTIPIGLLMYANLVFNKGIDEFYAQCEKVGVDSVLVADVPVEESAPFRQAALRHNVAPIFICPPNADDDLLRQIASYGRGYTYLLSRAGVTGAENRAALPLNHLVAKLKEYNAAPPLQGFGISAPDQVKAAIDAGAAGAISGSAIVKIIEQHINEPEKMLAALKVFVQPMKAATRS" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"TRYPSYN-BPROTEIN" "tryptophan synthase subunit β" ["TrpB", "β subunit"] "MTTLLNPYFGEFGGMYVPQILMPALRQLEEAFVSAQKDPEFQAQFNDLLKNYAGRPTALTKCQNITAGTNTTLYLKREDLLHGGAHKTNQVLGQALLAKRMGKTEIIAETGAGQHGVASALASALLGLKCRIYMGAKDVERQSPNVFRMRLMGAEVIPVHSGSATLKDACNEALRDWSGSYETAHYMLGTAAGPHPYPTIVREFQRMIGEETKAQILEREGRLPDAVIACVGGGSNAIGMFADFINETNVGLIGVEPGGHGIETGEHGAPLKHGRVGIYFGMKAPMMQTEDGQIEESYSISAGLDFPSVGPQHAYLNSTGRADYVSITDDEALEAFKTLCLHEGIIPALESSHALAHALKMMRENPDKEQLLVVNLSGRGDKDIFTVHDILKARGEI" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"TRYPTOPHAN-MONOMER" "tryptophanase" ["TnaA", "Ind", "TnaR"] "MENFKHLPEPFRIRVIEPVKRTTRAYREEAIIKSGMNPFLLDSEDVFIDLLTDSGTGAVTQSMQAAMMRGDEAYSGSRSYYALAESVKNIFGYQYTIPTHQGRGAEQIYIPVLIKKREQEKGLDRSKMVAFSNYFFDTTQGHSQINGCTVRNVYIKEAFDTGVRYDFKGNFDLEGLERGIEEVGPNNVPYIVATITSNSAGGQPVSLANLKAMYSIAKKYDIPVVMDSARFAENAYFIKQREAEYKDWTIEQITRETYKYADMLAMSAKKDAMVPMGGLLCMKDDSFFDVYTECRTLCVVQEGFPTYGGLEGGAMERLAVGLYDGMNLDWLAYRIAQVQYLVDGLEEIGVVCQQAGGHAAFVDAGKLLPHIPADQFPAQALACELYKVAGIRAVEIGSFLLGRDPKTGKQLPCPAELLRLTIPRATYTQTHMDFIIEAFKHVKENAANIKGLTFTYEPKVLRHFTAKLKEV" [] ["CCO-CYTOSOL"] +"TSA-REDUCT-MONOMER" null ["YhaE", "GarR"] "MKVGFIGLGIMGKPMSKNLLKAGYSLVVADRNPEAIADVIAAGAETASTAKAIAEQCDVIITMLPNSPHVKEVALGENGIIEGAKPGTVLIDMSSIAPLASREISEALKAKGIDMLDAPVSGGEPKAIDGTLSVMVGGDKAIFDKYYDLMKAMAGSVVHTGEIGAGNVTKLANQVIVALNIAAMSEALTLATKAGVNPDLVYQAIRGGLAGSTVLDAKAPMVMDRNFKPGFRIDLHIKDLANALDTSHGVGAQLPLTAAVMEMMQALRADGLGTADHSALACYYEKLAKVEVTR" [] ["CCO-CYTOSOL"] +"TSR-MONOMER" "methyl-accepting chemotaxis protein Tsr" ["CheD", "Tsr", "serine chemoreceptor protein", "Tsr dimer", "MCP-I", "chemotaxis signaling protein I"] "MLKRIKIVTSLLLVLAVFGLLQLTSGGLFFNALKNDKENFTVLQTIRQQQSTLNGSWVALLQTRNTLNRAGIRYMMDQNNIGSGSTVAELMESASISLKQAEKNWADYEALPRDPRQSTAAAAEIKRNYDIYHNALAELIQLLGAGKINEFFDQPTQGYQDGFEKQYVAYMEQNDRLHDIAVSDNNASYSQAMWILVGVMIVVLAVIFAVWFGIKASLVAPMNRLIDSIRHIAGGDLVKPIEVDGSNEMGQLAESLRHMQGELMRTVGDVRNGANAIYSGASEIATGNNDLSSRTEQQAASLEETAASMEQLTATVKQNAENARQASHLALSASETAQRGGKVVDNVVQTMRDISTSSQKIADIISVIDGIAFQTNILALNAAVEAARAGEQGRGFAVVAGEVRNLAQRSAQAAREIKSLIEDSVGKVDVGSTLVESAGETMAEIVSAVTRVTDIMGEIASASDEQSRGIDQVGLAVAEMDRVTQQNAALVEESAAAAAALEEQASRLTEAVAVFRIQQQQRETSAVVKTVTPAAPRKMAVADSEENWETF" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"TTDA-MONOMER" "L(+)-tartrate dehydratase subunit α" ["YgjA", "TtdA"] "MMSESNKQQAVNKLTEIVANFTAMISTRMPDDVVDKLKQLKDAETSSMGKIIYHTMFDNMQKAIDLNRPACQDTGEIMFFVKVGSRFPLLGELQSILKQAVEEATVKAPLRHNAVEIFDEVNTGKNTGSGVPWVTWDIIPDNDDAEIEVYMAGGGCTLPGRSKVLMPSEGYEGVVKFVFENISTLAVNACPPVLVGVGIATSVETAAVLSRKAILRPIGSRHPNPKAAELELRLEEGLNRLGIGPQGLTGNSSVMGVHIESAARHPSTIGVAVSTGCWAHRRGTLLVHADLTFENLSHTRSAL" [] ["CCO-CYTOSOL"] +"TTDB-MONOMER" "L(+)-tartrate dehydratase subunit β" ["YgjB", "TtdB"] "MKKILTTPIKAEDLQDIRVGDVIYLTGTLVTCRDVCHRRLIELKRPIPYDLNGKAIFHAGPIVRKNGDKWEMVSVGPTTSMRMESFEREFIEQTGVKLVVGKGGMGPLTEEGCQKFKALHVIFPAGCAVLAATQVEEIEEVHWTELGMPESLWVCRVKEFGPLIVSIDTHGNNLIAENKKLFAERRDPIVEEICEHVHYIK" [] ["CCO-CYTOSOL"] +"TYRB-MONOMER" "tyrosine aminotransferase" ["TyrB"] "MFQKVDAYAGDPILTLMERFKEDPRSDKVNLSIGLYYNEDGIIPQLQAVAEAEARLNAQPHGASLYLPMEGLNCYRHAIAPLLFGADHPVLKQQRVATIQTLGGSGALKVGADFLKRYFPESGVWVSDPTWENHVAIFAGAGFEVSTYPWYDEATNGVRFNDLLATLKTLPARSIVLLHPCCHNPTGADLTNDQWDAVIEILKARELIPFLDIAYQGFGAGMEEDAYAIRAIASAGLPALVSNSFSKIFSLYGERVGGLSVMCEDAEAAGRVLGQLKATVRRNYSSPPNFGAQVVAAVLNDEALKASWLAEVEEMRTRILAMRQELVKVLSTEMPERNFDYLLNQRGMFSYTGLSAAQVDRLREEFGVYLIASGRMCVAGLNTANVQRVAKAFAAVM" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"TYRP-MONOMER" null ["TyrP", "tyrosine ArAAP transporter"] "MKNRTLGSVFIVAGTTIGAGMLAMPLAAAGVGFSVTLILLIGLWALMCYTALLLLEVYQHVPADTGLGTLAKRYLGRYGQWLTGFSMMFLMYALTAAYISGAGELLASSISDWTGISMSATAGVLLFTFVAGGVVCVGTSLVDLFNRFLFSAKIIFLVVMLVLLLPHIHKVNLLTLPLQQGLALSAIPVIFTSFGFHGSVPSIVSYMDGNIRKLRWVFIIGSAIPLVAYIFWQVATLGSIDSTTFMGLLANHAGLNGLLQALREMVASPHVELAVHLFADLALATSFLGVALGLFDYLADLFQRSNTVGGRLQTGAITFLPPLAFALFYPRGFVMALGYAGVALAVLALIIPSLLTWQSRKHNPQAGYRVKGGRPALVVVFLCGIAVIGVQFLIAAGLLPEVG" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"TYRS-MONOMER" "tyrosine—tRNA ligase" ["TyrS"] "MASSNLIKQLQERGLVAQVTDEEALAERLAQGPIALYCGFDPTADSLHLGHLVPLLCLKRFQQAGHKPVALVGGATGLIGDPSFKAAERKLNTEETVQEWVDKIRKQVAPFLDFDCGENSAIAANNYDWFGNMNVLTFLRDIGKHFSVNQMINKEAVKQRLNREDQGISFTEFSYNLLQGYDFACLNKQYGVVLQIGGSDQWGNITSGIDLTRRLHQNQVFGLTVPLITKADGTKFGKTEGGAVWLDPKKTSPYKFYQFWINTADADVYRFLKFFTFMSIEEINALEEEDKNSGKAPRAQYVLAEQVTRLVHGEEGLQAAKRITECLFSGSLSALSEADFEQLAQDGVPMVEMEKGADLMQALVDSELQPSRGQARKTIASNAITINGEKQSDPEYFFKEEDRLFGRFTLLRRGKKNYCLICWK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"UBIX-MONOMER" "flavin prenyltransferase" ["DedF", "UbiX"] "MKRLIVGISGASGAIYGVRLLQVLRDVTDIETHLVMSQAARQTLSLETDFSLREVQALADVTHDARDIAASISSGSFQTLGMVILPCSIKTLSGIVHSYTDGLLTRAADVVLKERRPLVLCVRETPLHLGHLRLMTQAAEIGAVIMPPVPAFYHRPQSLDDVINQTVNRVLDQFAITLPEDLFARWQGA" [] ["CCO-CYTOSOL"] +"UDHA-MONOMER" "soluble pyridine nucleotide transhydrogenase" ["SthA", "Sth", "UdhA"] "MPHSYDYDAIVIGSGPGGEGAAMGLVKQGARVAVIERYQNVGGGCTHWGTIPSKALRHAVSRIIEFNQNPLYSDHSRLLRSSFADILNHADNVINQQTRMRQGFYERNHCEILQGNARFVDEHTLALDCPDGSVETLTAEKFVIACGSRPYHPTDVDFTHPRIYDSDSILSMHHEPRHVLIYGAGVIGCEYASIFRGMDVKVDLINTRDRLLAFLDQEMSDSLSYHFWNSGVVIRHNEEYEKIEGCDDGVIMHLKSGKKLKADCLLYANGRTGNTDSLALQNIGLETDSRGQLKVNSMYQTAQPHVYAVGDVIGYPSLASAAYDQGRIAAQALVKGEATAHLIEDIPTGIYTIPEISSVGKTEQQLTAMKVPYEVGRAQFKHLARAQIVGMNVGTLKILFHRETKEILGIHCFGERAAEIIHIGQAIMEQKGGGNTIEYFVNTTFNYPTMAEAYRVAALNGLNRLF" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"UDK-MONOMER" "uridine/cytidine kinase" ["Udk"] "MTDQSHQCVIIGIAGASASGKSLIASTLYRELREQVGDEHIGVIPEDCYYKDQSHLSMEERVKTNYDHPSAMDHSLLLEHLQALKRGSAIDLPVYSYVEHTRMKETVTVEPKKVIILEGILLLTDARLRDELNFSIFVDTPLDICLMRRIKRDVNERGRSMDSVMAQYQKTVRPMFLQFIEPSKQYADIIVPRGGKNRIAIDILKAKISQFFE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"UDP-NACMUR-ALA-LIG-MONOMER" "UDP-N-acetylmuramate—L-alanine ligase" ["MurC"] "MNTQQLAKLRSIVPEMRRVRHIHFVGIGGAGMGGIAEVLANEGYQISGSDLAPNPVTQQLMNLGATIYFNHRPENVRDASVVVVSSAISADNPEIVAAHEARIPVIRRAEMLAELMRFRHGIAIAGTHGKTTTTAMVSSIYAEAGLDPTFVNGGLVKAAGVHARLGHGRYLIAEADESDASFLHLQPMVAIVTNIEADHMDTYQGDFENLKQTFINFLHNLPFYGRAVMCVDDPVIRELLPRVGRQTTTYGFSEDADVRVEDYQQIGPQGHFTLLRQDKEPMRVTLNAPGRHNALNAAAAVAVATEEGIDDEAILRALESFQGTGRRFDFLGEFPLEPVNGKSGTAMLVDDYGHHPTEVDATIKAARAGWPDKNLVMLFQPHRFTRTRDLYDDFANVLTQVDTLLMLEVYPAGEAPIPGADSRSLCRTIRGRGKIDPILVPDPARVAEMLAPVLTGNDLILVQGAGNIGKIARSLAEIKLKPQTPEEEQHD" [] ["CCO-CYTOSOL"] +"UDP-NACMURALA-GLU-LIG-MONOMER" "UDP-N-acetylmuramoyl-L-alanine—D-glutamate ligase" ["MurD"] "MADYQGKNVVIIGLGLTGLSCVDFFLARGVTPRVMDTRMTPPGLDKLPEAVERHTGSLNDEWLMAADLIVASPGIALAHPSLSAAADAGIEIVGDIELFCREAQAPIVAITGSNGKSTVTTLVGEMAKAAGVNVGVGGNIGLPALMLLDDECELYVLELSSFQLETTSSLQAVAATILNVTEDHMDRYPFGLQQYRAAKLRIYENAKVCVVNADDALTMPIRGADERCVSFGVNMGDYHLNHQQGETWLRVKGEKVLNVKEMKLSGQHNYTNALAALALADAAGLPRASSLKALTTFTGLPHRFEVVLEHNGVRWINDSKATNVGSTEAALNGLHVDGTLHLLLGGDGKSADFSPLARYLNGDNVRLYCFGRDGAQLAALRPEVAEQTETMEQAMRLLAPRVQPGDMVLLSPACASLDQFKNFEQRGNEFARLAKELG" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"UDP-NACMURALGLDAPAALIG-MONOMER" null ["Mra", "MurF"] "MISVTLSQLTDILNGELQGADITLDAVTTDTRKLTPGCLFVALKGERFDAHDFADQAKAGGAGALLVSRPLDIDLPQLIVKDTRLAFGELAAWVRQQVPARVVALTGSSGKTSVKEMTAAILSQCGNTLYTAGNLNNDIGVPMTLLRLTPEYDYAVIELGANHQGEIAWTVSLTRPEAALVNNLAAAHLEGFGSLAGVAKAKGEIFSGLPENGIAIMNADNNDWLNWQSVIGSRKVWRFSPNAANSDFTATNIHVTSHGTEFTLQTPTGSVDVLLPLPGRHNIANALAAAALSMSVGATLDAIKAGLANLKAVPGRLFPIQLAENQLLLDDSYNANVGSMTAAVQVLAEMPGYRVLVVGDMAELGAESEACHVQVGEAAKAAGIDRVLSVGKQSHAISTASGVGEHFADKTALITRLKLLIAEQQVITILVKGSRSAAMEEVVRALQENGTC" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"UDP-NACMURALGLDAPLIG-MONOMER" null ["MurE"] "MADRNLRDLLAPWVPDAPSRALREMTLDSRVAAAGDLFVAVVGHQADGRRYIPQAIAQGVAAIIAEAKDEATDGEIREMHGVPVIYLSQLNERLSALAGRFYHEPSDNLRLVGVTGTNGKTTTTQLLAQWSQLLGEISAVMGTVGNGLLGKVIPTENTTGSAVDVQHELAGLVDQGATFCAMEVSSHGLVQHRVAALKFAASVFTNLSRDHLDYHGDMEHYEAAKWLLYSEHHCGQAIINADDEVGRRWLAKLPDAVAVSMEDHINPNCHGRWLKATEVNYHDSGATIRFSSSWGDGEIESHLMGAFNVSNLLLALATLLALGYPLADLLKTAARLQPVCGRMEVFTAPGKPTVVVDYAHTPDALEKALQAARLHCAGKLWCVFGCGGDRDKGKRPLMGAIAEEFADVAVVTDDNPRTEEPRAIINDILAGMLDAGHAKVMEGRAEAVTCAVMQAKENDVVLVAGKGHEDYQIVGNQRLDYSDRVTVARLLGVIA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"UDPACYLGLCNACDEACETYL-MONOMER" null ["EnvA", "AsmB", "LpxC"] "MIKQRTLKRIVQATGVGLHTGKKVTLTLRPAPANTGVIYRRTDLNPPVDFPADAKSVRDTMLCTCLVNEHDVRISTVEHLNAALAGLGIDNIVIEVNAPEIPIMDGSAAPFVYLLLDAGIDELNCAKKFVRIKETVRVEDGDKWAEFKPYNGFSLDFTIDFNHPAIDSSNQRYAMNFSADAFMRQISRARTFGFMRDIEYLQSRGLCLGGSFDCAIVVDDYRVLNEDGLRFEDEFVRHKMLDAIGDLFMCGHNIIGAFTAYKSGHALNNKLLQAVLAKQEAWEYVTFQDDAELPLAFKAPSAVLA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"UDPGLCNACEPIM-MONOMER" "UDP-N-acetylglucosamine 2-epimerase" ["MnaA", "YifF", "RffE", "NfrC", "WecB"] "MKVLTVFGTRPEAIKMAPLVHALAKDPFFEAKVCVTAQHREMLDQVLKLFSIVPDYDLNIMQPGQGLTEITCRILEGLKPILAEFKPDVVLVHGDTTTTLATSLAAFYQRIPVGHVEAGLRTGDLYSPWPEEANRTLTGHLAMYHFSPTETSRQNLLRENVADSRIFITGNTVIDALLWVRDQVMSSDKLRSELAANYPFIDPDKKMILVTGHRRESFGRGFEEICHALADIATTHQDIQIVYPVHLNPNVREPVNRILGHVKNVILIDPQEYLPFVWLMNHAWLILTDSGGIQEEAPSLGKPVLVMRDTTERPEAVTAGTVRLVGTDKQRIVEEVTRLLKDENEYQAMSRAHNPYGDGQACSRILEALKNNRISL" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"UDPGLUCEPIM-MONOMER" "UDP-glucose 4-epimerase" ["GalD", "GalE"] "MRVLVTGGSGYIGSHTCVQLLQNGHDVIILDNLCNSKRSVLPVIERLGGKHPTFVEGDIRNEALMTEILHDHAIDTVIHFAGLKAVGESVQKPLEYYDNNVNGTLRLISAMRAANVKNFIFSSSATVYGDQPKIPYVESFPTGTPQSPYGKSKLMVEQILTDLQKAQPDWSIALLRYFNPVGAHPSGDMGEDPQGIPNNLMPYIAQVAVGRRDSLAIFGNDYPTEDGTGVRDYIHVMDLADGHVVAMEKLANKPGVHIYNLGAGVGNSVLDVVNAFSKACGKPVNYHFAPRREGDLPAYWADASKADRELNWRVTRTLDEMAQDTWHWQSRHPQGYPD" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"UDPHYDROXYMYRGLUCOSAMNACETYLTRANS-MONO" "UDP-3-O-(3-hydroxymyristoyl)glucosamine N-acyltransferase" ["OmsA", "FirA", "LpxD"] "MPSIRLADLAQQLDAELHGDGDIVITGVASMQSAQTGHITFMVNPKYREHLGLCQASAVVMTQDDLPFAKSAALVVKNPYLTYARMAQILDTTPQPAQNIAPSAVIDATAKLGNNVSIGANAVIESGVELGDNVIIGAGCFVGKNSKIGAGSRLWANVTIYHEIQIGQNCLIQSGTVVGADGFGYANDRGNWVKIPQIGRVIIGDRVEIGACTTIDRGALDDTIIGNGVIIDNQCQIAHNVVIGDNTAVAGGVIMAGSLKIGRYCMIGGASVINGHMEICDKVTVTGMGMVMRPITEPGVYSSGIPLQPNKVWRKTAALVMNIDDMSKRLKSLERKVNQQD" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"UDPMANACATRANS-MONOMER" null ["Rff", "RffM", "WecG"] "MNNNTTAPTYTLRGLQLIGWRDMQHALDYLFADGQLKQGTLVAINAEKMLTIEDNAEVRELINAAEFKYADGISVVRSVRKKYPQAQVSRVAGADLWEELMARAGKEGTPVFLVGGKPEVLAQTEAKLRNQWNVNIVGSQDGYFKPEQRQALFERIHASGAQIVTVAMGSPKQEIIMRDCRLVHPDALYMGVGGTYDVFTGHVKRAPKIWQTLGLEWLYRLLSQPSRIKRQLRLLRYLRWHYTGNL" [] ["CCO-CYTOSOL"] +"UDPMANNACADEHYDROG-MONOMER" "UDP-N-acetyl-D-mannosamine dehydrogenase" ["MnaB", "Rff", "RffD", "WecC"] "MSFATISVIGLGYIGLPTAAAFASRQKQVIGVDINQHAVDTINRGEIHIVEPDLASVVKTAVEGGFLRASTTPVEADAWLIAVPTPFKGDHEPDMTYVESAARSIAPVLKKGALVILESTSPVGSTEKMAEWLAEMRPDLTFPQQVGEQADVNIAYCPERVLPGQVMVELIKNDRVIGGMTPVCSARASELYKIFLEGECVVTNSRTAEMCKLTENSFRDVNIAFANELSLICADQGINVWELIRLANRHPRVNILQPGPGVGGHCIAVDPWFIVAQNPQQARLIRTAREVNDHKPFWVIDQVKAAVADCLAATDKRASELKIACFGLAFKPNIDDLRESPAMEIAELIAQWHSGETLVVEPNIHQLPKKLTGLCTLAQLDEALATADVLVMLVDHSQFKVINGDNVHQQYVVDAKGVWR" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"UDPNACETYLGLUCOSAMACYLTRANS-MONOMER" "acyl-[acyl-carrier-protein]—UDP-N-acetylglucosamine O-acyltransferase" ["LpxA", "UDP-N-acetylglucosamine acyltransferase"] "MIDKSAFVHPTAIVEEGASIGANAHIGPFCIVGPHVEIGEGTVLKSHVVVNGHTKIGRDNEIYQFASIGEVNQDLKYAGEPTRVEIGDRNRIRESVTIHRGTVQGGGLTKVGSDNLLMINAHIAHDCTVGNRCILANNATLAGHVSVDDFAIIGGMTAVHQFCIIGAHVMVGGCSGVAQDVPPYVIAQGNHATPFGVNIEGLKRRGFSREAITAIRNAYKLIYRSGKTLDEVKPEIAELAETYPEVKAFTDFFARSTRGLIR" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"UDPNACETYLGLUCOSAMENOLPYRTRANS-MONOMER" null ["MurZ", "MrbA", "MurA"] "MDKFRVQGPTKLQGEVTISGAKNAALPILFAALLAEEPVEIQNVPKLKDVDTSMKLLSQLGAKVERNGSVHIDARDVNVFCAPYDLVKTMRASIWALGPLVARFGQGQVSLPGGCTIGARPVDLHISGLEQLGATIKLEEGYVKASVDGRLKGAHIVMDKVSVGATVTIMCAATLAEGTTIIENAAREPEIVDTANFLITLGAKISGQGTDRIVIEGVERLGGGVYRVLPDRIETGTFLVAAAISRGKIICRNAQPDTLDAVLAKLRDAGADIEVGEDWISLDMHGKRPKAVNVRTAPHPAFPTDMQAQFTLLNLVAEGTGFITETVFENRFMHVPELSRMGAHAEIESNTVICHGVEKLSGAQVMATDLRASASLVLAGCIAEGTTVVDRIYHIDRGYERIEDKLRALGANIERVKGE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"UDPNACETYLMURAMATEDEHYDROG-MONOMER" "UDP-N-acetylenolpyruvoylglucosamine reductase" ["YijB", "MurB"] "MNHSLKPWNTFGIDHNAQHIVCAEDEQQLLNAWQYATAEGQPVLILGEGSNVLFLEDYRGTVIINRIKGIEIHDEPDAWYLHVGAGENWHRLVKYTLQEGMPGLENLALIPGCVGSSPIQNIGAYGVELQRVCAYVDSVELATGKQVRLTAKECRFGYRDSIFKHEYQDRFAIVAVGLRLPKEWQPVLTYGDLTRLDPTTVTPQQVFNAVCHMRTTKLPDPKVNGNAGSFFKNPVVSAETAKALLSQFPTAPNYPQADGSVKLAAGWLIDQCQLKGMQIGGAAVHRQQALVLINEDNAKSEDVVQLAHHVRQKVGEKFNVWLEPEVRFIGASGEVSAVETIS" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"UGD-MONOMER" "UDP-glucose 6-dehydrogenase" ["Udg", "YefA", "Ugd", "PmrE"] "MKITISGTGYVGLSNGLLIAQNHEVVALDILPSRVAMLNDRISPIVDKEIQQFLQSDKIHFNATLDKNEAYRDADYVIIATPTDYDPKTNYFNTSSVESVIKDVVEINPYAVMVIKSTVPVGFTAAMHKKYRTENIIFSPEFLREGKALYDNLHPSRIVIGERSERAERFAALLQEGAIKQNIPMLFTDSTEAEAIKLFANTYLAMRVAYFNELDSYAESLGLNSRQIIEGVCLDPRIGNHYNNPSFGYGGYCLPKDTKQLLANYQSVPNNLISAIVDANRTRKDFIADAILSRKPQVVGIYRLIMKSGSDNFRASSIQGIMKRIKAKGVEVIIYEPVMKEDSFFNSRLERDLATFKQQADVIISNRMAEELKDVADKVYTRDLFGSD" [] ["CCO-CYTOSOL"] +"UGPA-MONOMER" "sn-glycerol 3-phosphate ABC transporter membrane subunit UgpA" ["Ugp", "PsiC", "PsiB"] "MSSSRPVFRSRWLPYLLVAPQLIITVIFFIWPAGEALWYSLQSVDPFGFSSQFVGLDNFVTLFHDSYYLDSFWTTIKFSTFVTVSGLLVSLFFAALVEYIVRGSRFYQTLMLLPYAVAPAVAAVLWIFLFNPGRGLITHFLAEFGYDWNHAQNSGQAMFLVVFASVWKQISYNFLFFYAALQSIPRSLIEAAAIDGAGPIRRFFKIALPLIAPVSFFLLVVNLVYAFFDTFPVIDAATSGGPVQATTTLIYKIYREGFTGLDLASSAAQSVVLMFLVIVLTVVQFRYVESKVRYQ" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"UGPB-MONOMER" "sn-glycerol 3-phosphate ABC transporter periplasmic binding protein" ["PsiC", "PsiB"] "MKPLHYTASALALGLALMGNAQAVTTIPFWHSMEGELGKEVDSLAQRFNAENPDYKIVPTYKGNYEQNLSAGIAAFRTGNAPAILQVYEVGTATMMASKAIKPVYDVFKEAGIQFDESQFVPTVSGYYSDSKTGHLLSQPFNSSTPVLYYNKDAFKKAGLDPEQPPKTWQDLADYAAKLKASGMKCGYASGWQGWIQLENFSAWNGLPFASKNNGFDGTDAVLEFNKPEQVKHIAMLEEMNKKGDFSYVGRKDESTEKFYNGDCAMTTASSGSLANIREYAKFNYGVGMMPYDADAKDAPQNAIIGGASLWVMQGKDKETYTGVAKFLDFLAKPENAAEWHQKTGYLPITKAAYDLTREQGFYEKNPGADTATRQMLNKPPLPFTKGLRLGNMPQIRVIVDEELESVWTGKKTPQQALDTAVERGNQLLRRFEKSTKS" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"UGPC-MONOMER" "sn-glycerol 3-phosphate ABC transporter ATP binding subunit" [] "MAGLKLQAVTKSWDGKTQVIKPLTLDVADGEFIVMVGPSGCGKSTLLRMVAGLERVTEGDIWINDQRVTEMEPKDRGIAMVFQNYALYPHMSVEENMAWGLKIRGMGKQQIAERVKEAARILELDGLLKRRPRELSGGQRQRVAMGRAIVRDPAVFLFDEPLSNLDAKLRVQMRLELQQLHRRLKTTSLYVTHDQVEAMTLAQRVMVMNGGVAEQIGTPVEVYEKPASLFVASFIGSPAMNLLTGRVNNEGTHFELDGGIELPLNGGYRQYAGRKMTLGIRPEHIALSSQAEGGVPMVMDTLEILGADNLAHGRWGEQKLVVRLAHQERPTAGSTLWLHLAENQLHLFDGETGQRV" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE", "CCO-CYTOSOL"] +"UGPE-MONOMER" "sn-glycerol 3-phosphate ABC transporter membrane subunit UgpE" [] "MIENRPWLTIFSHTMLILGIAVILFPLYVAFVAATLDKQAVYAAPMTLIPGTHLLENIHNIWVNGVGTNSAPFWRMLLNSFVMAFSITLGKITVSMLSAFAIVWFRFPLRNLFFWMIFITLMLPVEVRIFPTVEVIANLQMLDSYAGLTLPLMASATATFLFRQFFMTLPDELVEAARIDGASPMRFFCDIVFPLSKTNLAALFVITFIYGWNQYLWPLLIITDVDLGTTVAGIKGMIATGEGTTEWNSVMVAMLLTLIPPVVIVLVMQRAFVRGLVDSEK" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"UHPA-MONOMER" "DNA-binding transcriptional activator UhpA" ["UhpA response regulator", "UhpA"] "MITVALIDDHLIVRSGFAQLLGLEPDLQVVAEFGSGREALAGLPGRGVQVCICDISMPDISGLELLSQLPKGMATIMLSVHDSPALVEQALNAGARGFLSKRCSPDELIAAVHTVATGGCYLTPDIAIKLASGRQDPLTKRERQVAEKLAQGMAVKEIAAELGLSPKTVHVHRANLMEKLGVSNDVELARRMFDGW" [] ["CCO-CYTOSOL"] +"UHPB-MONOMER" "sensory histidine kinase UhpB" [] "MKTLFSRLITVIACFFIFSAAWFCLWSISLHLVERPDMAVLLFPFGLRLGLMLQCPRGYWPVLLGAEWLLIYWLTQAVGLTHFPLLMIGSLLTLLPVALISRYRHQRDWRTLLLQGAALTAAALLQSLPWLWHGKESWNALLLTLTGGLTLAPICLVFWHYLANNTWLPLGPSLVSQPINWRGRHLVWYLLLFVISLWLQLGLPDELSRFTPFCLALPIIALAWHYGWQGALIATLMNAIALIASQTWRDHPVDLLLSLLVQSLTGLLLGAGIQRLRELNQSLQKELARNQHLAERLLETEESVRRDVARELHDDIGQTITAIRTQAGIVQRLAADNASVKQSGQLIEQLSLGVYDAVRRLLGRLRPRQLDDLTLEQAIRSLMREMELEGRGIVSHLEWRIDESALSENQRVTLFRVCQEGLNNIVKHADASAVTLQGWQQDERLMLVIEDDGSGLPPGSGQQGFGLTGMRERVTALGGTLHISCLHGTRVSVSLPQRYV" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"UHPC-MONOMER" "inner membrane protein sensing glucose-6-phosphate" ["regulatory protein UhpC", "unmodified regulatory protein UhpC", "UhpC"] "MLPFLKAPADAPLMTDKYEIDARYRYWRRHILLTIWLGYALFYFTRKSFNAAVPEILANGVLSRSDIGLLATLFYITYGVSKFVSGIVSDRSNARYFMGIGLIATGIINILFGFSTSLWAFAVLWVLNAFFQGWGSPVCARLLTAWYSRTERGGWWALWNTAHNVGGALIPIVMAAAALHYGWRAGMMIAGCMAIVVGIFLCWRLRDRPQALGLPAVGEWRHDALEIAQQQEGAGLTRKEILTKYVLLNPYIWLLSFCYVLVYVVRAAINDWGNLYMSETLGVDLVTANTAVTMFELGGFIGALVAGWGSDKLFNGNRGPMNLIFAAGILLSVGSLWLMPFASYVMQATCFFTIGFFVFGPQMLIGMAAAECSHKEAAGAATGFVGLFAYLGASLAGWPLAKVLDTWHWSGFFVVISIAAGISALLLLPFLNAQTPREA" ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"UHPT-MONOMER" "hexose-6-phosphate:phosphate antiporter" ["UhpT", "UhpT-hexose phosphate MFS transporter"] "MLAFLNQVRKPTLDLPLEVRRKMWFKPFMQSYLVVFIGYLTMYLIRKNFNIAQNDMISTYGLSMTQLGMIGLGFSITYGVGKTLVSYYADGKNTKQFLPFMLILSAICMLGFSASMGSGSVSLFLMIAFYALSGFFQSTGGSCSYSTITKWTPRRKRGTFLGFWNISHNLGGAGAAGVALFGANYLFDGHVIGMFIFPSIIALIVGFIGLRYGSDSPESYGLGKAEELFGEEISEEDKETESTDMTKWQIFVEYVLKNKVIWLLCFANIFLYVVRIGIDQWSTVYAFQELKLSKAVAIQGFTLFEAGALVGTLLWGWLSDLANGRRGLVACIALALIIATLGVYQHASNEYIYLASLFALGFLVFGPQLLIGVAAVGFVPKKAIGAADGIKGTFAYLIGDSFAKLGLGMIADGTPVFGLTGWAGTFAALDIAAIGCICLMAIVAVMEERKIRREKKIQQLTVA" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"UIDB-MONOMER" "glucuronide:H+ symporter" ["UidP", "GusB", "UidB", "glucuronide GPH transporter"] "MNQQLSWRTIVGYSLGDVANNFAFAMGALFLLSYYTDVAGVGAAAAGTMLLLVRVFDAFADVFAGRVVDSVNTRWGKFRPFLLFGTAPLMIFSVLVFWVLTDWSHGSKVVYAYLTYMGLGLCYSLVNIPYGSLATAMTQQPQSRARLGAARGIAASLTFVCLAFLIGPSIKNSSPEEMVSVYHFWTIVLAIAGMVLYFICFKSTRENVVRIVAQPSLNISLQTLKRNRPLFMLCIGALCVLISTFAVSASSLFYVRYVLNDTGLFTVLVLVQNLVGTVASAPLVPGMVARIGKKNTFLIGALLGTCGYLLFFWVSVWSLPVALVALAIASIGQGVTMTVMWALEADTVEYGEYLTGVRIEGLTYSLFSFTRKCGQAIGGSIPAFILGLSGYIANQVQTPEVIMGIRTSIALVPCGFMLLAFVIIWFYPLTDKKFKEIVVEIDNRKKVQQQLISDITN" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"UMPKI-MONOMER" "UMP kinase" ["Umk", "SmbA", "PyrH"] "MATNAKPVYKRILLKLSGEALQGTEGFGIDASILDRMAQEIKELVELGIQVGVVIGGGNLFRGAGLAKAGMNRVVGDHMGMLATVMNGLAMRDALHRAYVNARLMSAIPLNGVCDSYSWAEAISLLRNNRVVILSAGTGNPFFTTDSAACLRGIEIEADVVLKATKVDGVFTADPAKDPTATMYEQLTYSEVLEKELKVMDLAAFTLARDHKLPIRVFNMNKPGALRRVVMGEKEGTLITE" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"UPPSYN-MONOMER" "ditrans,polycis-undecaprenyl-diphosphate synthase [(2E,6E)-farnesyl-diphosphate specific]" ["IspU", "Rth", "YaeS", "UppS"] "MMLSATQPLSEKLPAHGCRHVAIIMDGNGRWAKKQGKIRAFGHKAGAKSVRRAVSFAANNGIEALTLYAFSSENWNRPAQEVSALMELFVWALDSEVKSLHRHNVRLRIIGDTSRFNSRLQERIRKSEALTAGNTGLTLNIAANYGGRWDIVQGVRQLAEKVQQGNLQPDQIDEEMLNQHVCMHELAPVDLVIRTGGEHRISNFLLWQIAYAELYFTDVLWPDFDEQDFEGALNAFANRERRFGGTEPGDETA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"URAA-MONOMER" "uracil:H+ symporter UraA" ["UraA", "uracil NCS2 transporter"] "MTRRAIGVSERPPLLQTIPLSLQHLFAMFGATVLVPVLFHINPATVLLFNGIGTLLYLFICKGKIPAYLGSSFAFISPVLLLLPLGYEVALGGFIMCGVLFCLVSFIVKKAGTGWLDVLFPPAAMGAIVAVIGLELAGVAAGMAGLLPAEGQTPDSKTIIISITTLAVTVLGSVLFRGFLAIIPILIGVLVGYALSFAMGIVDTTPIINAHWFALPTLYTPRFEWFAILTILPAALVVIAEHVGHLVVTANIVKKDLLRDPGLHRSMFANGLSTVISGFFGSTPNTTYGENIGVMAITRVYSTWVIGGAAIFAILLSCVGKLAAAIQMIPLPVMGGVSLLLYGVIGASGIRVLIESKVDYNKAQNLILTSVILIIGVSGAKVNIGAAELKGMALATIVGIGLSLIFKLISVLRPEEVVLDAEDADITDK" ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"URACIL-PRIBOSYLTRANS-MONOMER" "uracil phosphoribosyltransferase" ["UraP", "Upp"] "MKIVEVKHPLVKHKLGLMREQDISTKRFRELASEVGSLLTYEATADLETEKVTIEGWNGPVEIDQIKGKKITVVPILRAGLGMMDGVLENVPSARISVVGMYRNEETLEPVPYFQKLVSNIDERMALIVDPMLATGGSVIATIDLLKKAGCSSIKVLVLVAAPEGIAALEKAHPDVELYTASIDQGLNEHGYIIPGLGDAGDKIFGTK" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"UROGENDECARBOX-MONOMER" "uroporphyrinogen decarboxylase" ["HemE"] "MTELKNDRYLRALLRQPVDVTPVWMMRQAGRYLPEYKATRAQAGDFMSLCKNAELACEVTLQPLRRYPLDAAILFSDILTVPDAMGLGLYFEAGEGPRFTSPVTCKADVDKLPIPDPEDELGYVMNAVRTIRRELKGEVPLIGFSGSPWTLATYMVEGGSSKAFTVIKKMMYADPQALHALLDKLAKSVTLYLNAQIKAGAQAVMIFDTWGGVLTGRDYQQFSLYYMHKIVDGLLRENDGRRVPVTLFTKGGGQWLEAMAETGCDALGLDWTTDIADARRRVGNKVALQGNMDPSMLYAPPARIEEEVATILAGFGHGEGHVFNLGHGIHQDVPPEHAGVFVEAVHRLSEQYHR" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"UROGENIIISYN-MONOMER" null ["HemD"] "MSILVTRPSPAGEELVSRLRTLGQVAWHFPLIEFSPGQQLPQLADQLAALGESDLLFALSQHAVAFAQSQLHQQDRKWPRLPDYFAIGRTTALALHTVSGQKILYPQDREISEVLLQLPELQNIAGKRALILRGNGGRELIGDTLTARGAEVTFCECYQRCAIHYDGAEEAMRWQAREVTMVVVTSGEMLQQLWSLIPQWYREHWLLHCRLLVVSERLAKLARELGWQDIKVADNADNDALLRALQ" [] ["CCO-CYTOSOL"] +"URPHOS-MONOMER" "uridine phosphorylase" ["Udp"] "MSKSDVFHLGLTKNDLQGATLAIVPGDPDRVEKIAALMDKPVKLASHREFTTWRAELDGKPVIVCSTGIGGPSTSIAVEELAQLGIRTFLRIGTTGAIQPHINVGDVLVTTASVRLDGASLHFAPLEFPAVADFECTTALVEAAKSIGATTHVGVTASSDTFYPGQERYDTYSGRVVRHFKGSMEEWQAMGVMNYEMESATLLTMCASQGLRAGMVAGVIVNRTQQEIPNAETMKQTESHAVKIVVEAARRLL" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"USHA-MONOMER" "5'-nucleotidase / UDP-sugar hydrolase" ["UshA"] "MKLLQRGVALALLTTFTLASETALAYEQDKTYKITVLHTNDHHGHFWRNEYGEYGLAAQKTLVDGIRKEVAAEGGSVLLLSGGDINTGVPESDLQDAEPDFRGMNLVGYDAMAIGNHEFDNPLTVLRQQEKWAKFPLLSANIYQKSTGERLFKPWALFKRQDLKIAVIGLTTDDTAKIGNPEYFTDIEFRKPADEAKLVIQELQQTEKPDIIIAATHMGHYDNGEHGSNAPGDVEMARALPAGSLAMIVGGHSQDPVCMAAENKKQVDYVPGTPCKPDQQNGIWIVQAHEWGKYVGRADFEFRNGEMKMVNYQLIPVNLKKKVTWEDGKSERVLYTPEIAENQQMISLLSPFQNKGKAQLEVKIGETNGRLEGDRDKVRFVQTNMGRLILAAQMDRTGADFAVMSGGGIRDSIEAGDISYKNVLKVQPFGNVVVYADMTGKEVIDYLTAVAQMKPDSGAYPQFANVSFVAKDGKLNDLKIKGEPVDPAKTYRMATLNFNATGGDGYPRLDNKPGYVNTGFIDAEVLKAYIQKSSPLDVSVYEPKGEVSWQ" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"UUP-MONOMER" "ATP-binding protein Uup" ["YcbH", "YcbI", "Uup", "ATP-binding protein with possible role in replication"] "MSLISMHGAWLSFSDAPLLDNAELHIEDNERVCLVGRNGAGKSTLMKILNREQGLDDGRIIYEQDLIVARLQQDPPRNVEGSVYDFVAEGIEEQAEYLKRYHDISRLVMNDPSEKNLNELAKVQEQLDHHNLWQLENRINEVLAQLGLDPNVALSSLSGGWLRKAALGRALVSNPRVLLLDEPTNHLDIETIDWLEGFLKTFNGTIIFISHDRSFIRNMATRIVDLDRGKLVTYPGNYDQYLLEKEEALRVEELQNAEFDRKLAQEEVWIRQGIKARRTRNEGRVRALKAMRRERGERREVMGTAKMQVEEASRSGKIVFEMEDVCYQVNGKQLVKDFSAQVLRGDKIALIGPNGCGKTTLLKLMLGQLQADSGRIHVGTKLEVAYFDQHRAELDPDKTVMDNLAEGKQEVMVNGKPRHVLGYLQDFLFHPKRAMTPVRALSGGERNRLLLARLFLKPSNLLILDEPTNDLDVETLELLEELIDSYQGTVLLVSHDRQFVDNTVTECWIFEGGGKIGRYVGGYHDARGQQEQYVALKQPAVKKTEEAAAAKAETVKRSSSKLSYKLQRELEQLPQLLEDLEAKLEALQTQVADASFFSQPHEQTQKVLADMAAAEQELEQAFERWEYLEALKNGG" ["CCO-PM-BAC-NEG", "CCO-CYTOSOL"] ["CCO-PM-BAC-NEG", "CCO-CYTOSOL"] +"UXAC-MONOMER" "D-glucoronate/D-galacturonate isomerase" ["YgjZ", "YgjX", "YgjY", "UxaC"] "MTPFMTEDFLLDTEFARRLYHDYAKDQPIFDYHCHLPPQQIAEDYRFKNLYDIWLKGDHYKWRAMRTNGVAERLCTGDASDREKFDAWAATVPHTIGNPLYHWTHLELRRPFGITGKLLSPSTADEIWNECNELLAQDNFSARGIMQQMNVKMVGTTDDPIDSLEHHAEIAKDGSFTIKVLPSWRPDKAFNIEQATFNDYMAKLGEVSDTDIRRFADLQTALTKRLDHFAAHGCKVSDHALDVVMFAEANEAELDSILARRLAGETLSEHEVAQFKTAVLVFLGAEYARRGWVQQYHIGALRNNNLRQFKLLGPDVGFDSINDRPMAEELSKLLSKQNEENLLPKTILYCLNPRDNEVLGTMIGNFQGEGMPGKMQFGSGWWFNDQKDGMERQMTQLAQLGLLSRFVGMLTDSRSFLSYTRHEYFRRILCQMIGRWVEAGEAPADINLLGEMVKNICFNNARDYFAIELN" [] ["CCO-CYTOSOL"] +"VALINE-PYRUVATE-AMINOTRANSFER-MONOMER" "valine—pyruvate aminotransferase" ["AvtA"] "MTFSLFGDKFTRHSGITLLMEDLNDGLRTPGAIMLGGGNPAQIPEMQDYFQTLLTDMLESGKATDALCNYDGPQGKTELLTLLAGMLREKLGWDIEPQNIALTNGSQSAFFYLFNLFAGRRADGRVKKVLFPLAPEYIGYADAGLEEDLFVSARPNIELLPEGQFKYHVDFEHLHIGEETGMICVSRPTNPTGNVITDEELLKLDALANQHGIPLVIDNAYGVPFPGIIFSEARPLWNPNIVLCMSLSKLGLPGSRCGIIIANEKIITAITNMNGIISLAPGGIGPAMMCEMIKRNDLLRLSETVIKPFYYQRVQETIAIIRRYLPENRCLIHKPEGAIFLWLWFKDLPITTKQLYQRLKARGVLMVPGHNFFPGLDKPWPHTHQCMRMNYVPEPEKIEAGVKILAEEIERAWAESH" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"VALS-MONOMER" "valine—tRNA ligase" ["ValS", "val-act"] "MEKTYNPQDIEQPLYEHWEKQGYFKPNGDESQESFCIMIPPPNVTGSLHMGHAFQQTIMDTMIRYQRMQGKNTLWQVGTDHAGIATQMVVERKIAAEEGKTRHDYGREAFIDKIWEWKAESGGTITRQMRRLGNSVDWERERFTMDEGLSNAVKEVFVRLYKEDLIYRGKRLVNWDPKLRTAISDLEVENRESKGSMWHIRYPLADGAKTADGKDYLVVATTRPETLLGDTGVAVNPEDPRYKDLIGKYVILPLVNRRIPIVGDEHADMEKGTGCVKITPAHDFNDYEVGKRHALPMINILTFDGDIRESAQVFDTKGNESDVYSSEIPAEFQKLERFAARKAVVAAVDALGLLEEIKPHDLTVPYGDRGGVVIEPMLTDQWYVRADVLAKPAVEAVENGDIQFVPKQYENMYFSWMRDIQDWCISRQLWWGHRIPAWYDEAGNVYVGRNEDEVRKENNLGADVVLRQDEDVLDTWFSSALWTFSTLGWPENTDALRQFHPTSVMVSGFDIIFFWIARMIMMTMHFIKDENGKPQVPFHTVYMTGLIRDDEGQKMSKSKGNVIDPLDMVDGISLPELLEKRTGNMMQPQLADKIRKRTEKQFPNGIEPHGTDALRFTLAALASTGRDINWDMKRLEGYRNFCNKLWNASRFVLMNTEGQDCGFNGGEMTLSLADRWILAEFNQTIKAYREALDSFRFDIAAGILYEFTWNQFCDWYLELTKPVMNGGTEAELRGTRHTLVTVLEGLLRLAHPIIPFITETIWQRVKVLCGITADTIMLQPFPQYDASQVDEAALADTEWLKQAIVAVRNIRAEMNIAPGKPLELLLRGCSADAERRVNENRGFLQTLARLESITVLPADDKGPVSVTKIIDGAELLIPMAGLINKEDELARLAKEVAKIEGEISRIENKLANEGFVARAPEAVIAKEREKLEGYAEAKAKLIEQQAVIAAL" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"XANTHOSINEPHOSPHORY-MONOMER" "xanthosine phosphorylase" ["PndA", "XapA"] "MSQVQFSHNPLFCIDIIKTYKPDFTPRVAFILGSGLGALADQIENAVAISYEKLPGFPVSTVHGHAGELVLGHLQGVPVVCMKGRGHFYEGRGMTIMTDAIRTFKLLGCELLFCTNAAGSLRPEVGAGSLVALKDHINTMPGTPMVGLNDDRFGERFFSLANAYDAEYRALLQKVAKEEGFPLTEGVFVSYPGPNFETAAEIRMMQIIGGDVVGMSVVPEVISARHCDLKVVAVSAITNMAEGLSDVKLSHAQTLAAAELSKQNFINLICGFLRKIA" ["CCO-CYTOSOL"] ["CCO-CYTOSOL"] +"XAPB-MONOMER" null ["XapB", "XapB xanthosine MFS transporter"] "MSIAMRLKVMSFLQYFIWGSWLVTLGSYMINTLHFTGANVGMVYSSKGIAAIIMPGIMGIIADKWLRAERAYMLCHLVCAGVLFYAASVTDPDMMFWVMLVNAMAFMPTIALSNSVSYSCLAQAGLDPVTAFPPIRVFGTVGFIVAMWAVSLLHLELSSLQLYIASGASLLLSAYALTLPKIPVAEKKATTSLASKLGLDAFVLFKNPRMAIFFLFAMMLGAVLQITNVFGNPFLHDFARNPEFADSFVVKYPSILLSVSQMAEVGFILTIPFFLKRFGIKTVMLMSMVAWTLRFGFFAYGDPSTTGFILLLLSMIVYGCAFDFFNISGSVFVEQEVDSSIRASAQGLFMTMVNGVGAWVGSILSGMAVDYFSVDGVKDWQTIWLVFAGYALFLAVIFFFGFKYNHDPEKIKHRAVTH" ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"XASA-MONOMER" null ["GadC", "AcsA", "XasA", "GadC GABA APC transporter", "glutamic acid:γ-aminobutyrate antiporter"] "MATSVQTGKAKQLTLLGFFAITASMVMAVYEYPTFATSGFSLVFFLLLGGILWFIPVGLCAAEMATVDGWEEGGVFAWVSNTLGPRWGFAAISFGYLQIAIGFIPMLYFVLGALSYILKWPALNEDPITKTIAALIILWALALTQFGGTKYTARIAKVGFFAGILLPAFILIALAAIYLHSGAPVAIEMDSKTFFPDFSKVGTLVVFVAFILSYMGVEASATHVNEMSNPGRDYPLAMLLLMVAAICLSSVGGLSIAMVIPGNEINLSAGVMQTFTVLMSHVAPEIEWTVRVISALLLLGVLAEIASWIVGPSRGMYVTAQKNLLPAAFAKMNKNGVPVTLVISQLVITSIALIILTNTGGGNNMSFLIALALTVVIYLCAYFMLFIGYIVLVLKHPDLKRTFNIPGGKGVKLVVAIVGLLTSIMAFIVSFLPPDNIQGDSTDMYVELLVVSFLVVLALPFILYAVHDRKGKANTGVTLEPINSQNAPKGHFFLHPRARSPHYIVMNDKKH" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"XYLE-MONOMER" "D-xylose:H+ symporter" ["XylE", "xylose MFS transporter"] "MNTQYNSSYIFSITLVATLGGLLFGYDTAVISGTVESLNTVFVAPQNLSESAANSLLGFCVASALIGCIIGGALGGYCSNRFGRRDSLKIAAVLFFISGVGSAWPELGFTSINPDNTVPVYLAGYVPEFVIYRIIGGIGVGLASMLSPMYIAELAPAHIRGKLVSFNQFAIIFGQLLVYCVNYFIARSGDASWLNTDGWRYMFASECIPALLFLMLLYTVPESPRWLMSRGKQEQAEGILRKIMGNTLATQAVQEIKHSLDHGRKTGGRLLMFGVGVIVIGVMLSIFQQFVGINVVLYYAPEVFKTLGASTDIALLQTIIVGVINLTFTVLAIMTVDKFGRKPLQIIGALGMAIGMFSLGTAFYTQAPGIVALLSMLFYVAAFAMSWGPVCWVLLSEIFPNAIRGKALAIAVAAQWLANYFVSWTFPMMDKNSWLVAHFHNGFSYWIYGCMGVLAALFMWKFVPETKGKTLEELEALWEPETKKTQQTATL" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"XYLF-MONOMER" "xylose ABC transporter periplasmic binding protein" ["XylT", "XylF", "XBP"] "MKIKNILLTLCTSLLLTNVAAHAKEVKIGMAIDDLRLERWQKDRDIFVKKAESLGAKVFVQSANGNEETQMSQIENMINRGVDVLVIIPYNGQVLSNVVKEAKQEGIKVLAYDRMINDADIDFYISFDNEKVGELQAKALVDIVPQGNYFLMGGSPVDNNAKLFRAGQMKVLKPYVDSGKIKVVGDQWVDGWLPENALKIMENALTANNNKIDAVVASNDATAGGAIQALSAQGLSGKVAISGQDADLAGIKRIAAGTQTMTVYKPITLLANTAAEIAVELGNGQEPKADTTLNNGLKDVPSRLLTPIDVNKNNIKDTVIKDGFHKESEL" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"XYLG-MONOMER" "xylose ABC transporter ATP binding subunit" [] "MPYLLEMKNITKTFGSVKAIDNVCLRLNAGEIVSLCGENGSGKSTLMKVLCGIYPHGSYEGEIIFAGEEIQASHIRDTERKGIAIIHQELALVKELTVLENIFLGNEITHNGIMDYDLMTLRCQKLLAQVSLSISPDTRVGDLGLGQQQLVEIAKALNKQVRLLILDEPTASLTEQETSILLDIIRDLQQHGIACIYISHKLNEVKAISDTICVIRDGQHIGTRDAAGMSEDDIITMMVGRELTALYPNEPHTTGDEILRIEHLTAWHPVNRHIKRVNDVSFSLKRGEILGIAGLVGAGRTETIQCLFGVWPGQWEGKIYIDGKQVDIRNCQQAIAQGIAMVPEDRKRDGIVPVMAVGKNITLAALNKFTGGISQLDDAAEQKCILESIQQLKVKTSSPDLAIGRLSGGNQQKAILARCLLLNPRILILDEPTRGIDIGAKYEIYKLINQLVQQGIAVIVISSELPEVLGLSDRVLVMHEGKLKANLINHNLTQEQVMEAALRSEHHVEKQSV" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"XYLH-MONOMER" "xylose ABC transporter membrane subunit" [] "MSKSNPSEVKLAVPTSGGFSGLKSLNLQVFVMIAAIIAIMLFFTWTTDGAYLSARNVSNLLRQTAITGILAVGMVFVIISAEIDLSVGSMMGLLGGVAAICDVWLGWPLPLTIIVTLVLGLLLGAWNGWWVAYRKVPSFIVTLAGMLAFRGILIGITNGTTVSPTSAAMSQIGQSYLPASTGFIIGALGLMAFVGWQWRGRMRRQALGLQSPASTAVVGRQALTAIIVLGAIWLLNDYRGVPTPVLLLTLLLLGGMFMATRTAFGRRIYAIGGNLEAARLSGINVERTKLAVFAINGLMVAIAGLILSSRLGAGSPSAGNIAELDAIAACVIGGTSLAGGVGSVAGAVMGAFIMASLDNGMSMMDVPTFWQYIVKGAILLLAVWMDSATKRRS" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"XYLISOM-MONOMER" "xylose isomerase" ["XylA"] "MQAYFDQLDRVRYEGSKSSNPLAFRHYNPDELVLGKRMEEHLRFAACYWHTFCWNGADMFGVGAFNRPWQQPGEALALAKRKADVAFEFFHKLHVPFYCFHDVDVSPEGASLKEYINNFAQMVDVLAGKQEESGVKLLWGTANCFTNPRYGAGAATNPDPEVFSWAATQVVTAMEATHKLGGENYVLWGGREGYETLLNTDLRQEREQLGRFMQMVVEHKHKIGFQGTLLIEPKPQEPTKHQYDYDAATVYGFLKQFGLEKEIKLNIEANHATLAGHSFHHEIATAIALGLFGSVDANRGDAQLGWDTDQFPNSVEENALVMYEILKAGGFTTGGLNFDAKVRRQSTDKYDLFYGHIGAMDTMALALKIAARMIEDGELDKRIAQRYSGWNSELGQQILKGQMSLADLAKYAQEHHLSPVHQSGRQEQLENLVNHYLFDK" [] ["CCO-CYTOSOL"] +"XYLULOKIN-MONOMER" "xylulokinase" ["XylB"] "MYIGIDLGTSGVKVILLNEQGEVVAAQTEKLTVSRPHPLWSEQDPEQWWQATDRAMKALGDQHSLQDVKALGIAGQMHGATLLDAQQRVLRPAILWNDGRCAQECTLLEARVPQSRVITGNLMMPGFTAPKLLWVQRHEPEIFRQIDKVLLPKDYLRLRMTGEFASDMSDAAGTMWLDVAKRDWSDVMLQACDLSRDQMPALYEGSEITGALLPEVAKAWGMATVPVVAGGGDNAAGAVGVGMVDANQAMLSLGTSGVYFAVSEGFLSKPESAVHSFCHALPQRWHLMSVMLSAASCLDWAAKLTGLSNVPALIAAAQQADESAEPVWFLPYLSGERTPHNNPQAKGVFFGLTHQHGPNELARAVLEGVGYALADGMDVVHACGIKPQSVTLIGGGARSEYWRQMLADISGQQLDYRTGGDVGPALGAARLAQIAANPEKSLIELLPQLPLEQSHLPDAQRYAAYQPRRETFRRLYQQLLPLMA" [] ["CCO-CYTOSOL"] +"YAAJ-MONOMER" "putative transporter YaaJ" ["YaaJ"] "MPDFFSFINSVLWGSVMIYLLFGAGCWFTFRTGFVQFRYIRQFGKSLKNSIHPQPGGLTSFQSLCTSLAARVGSGNLAGVALAITAGGPGAVFWMWVAAFIGMATSFAECSLAQLYKERDVNGQFRGGPAWYMARGLGMRWMGVLFAVFLLIAYGIIFSGVQANAVARALSFSFDFPPLVTGIILAVFTLLAITRGLHGVARLMQGFVPLMAIIWVLTSLVICVMNIGQLPHVIWSIFESAFGWQEAAGGAAGYTLSQAITNGFQRSMFSNEAGMGSTPNAAAAAASWPPHPAAQGIVQMIGIFIDTLVICTASAMLILLAGNGTTYMPLEGIQLIQKAMRVLMGSWGAEFVTLVVILFAFSSIVANYIYAENNLFFLRLNNPKAIWCLRICTFATVIGGTLLSLPLMWQLADIIMACMAITNLTAILLLSPVVHTIASDYLRQRKLGVRPVFDPLRYPDIGRQLSPDAWDDVSQE" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YAAU-MONOMER" "putative transporter YaaU" ["YaaU", "YabE"] "MQPSRNFDDLKFSSIHRRILLWGSGGPFLDGYVLVMIGVALEQLTPALKLDADWIGLLGAGTLAGLFVGTSLFGYISDKVGRRKMFLIDIIAIGVISVATMFVSSPVELLVMRVLIGIVIGADYPIATSMITEFSSTRQRAFSISFIAAMWYVGATCADLVGYWLYDVEGGWRWMLGSAAIPCLLILIGRFELPESPRWLLRKGRVKECEEMMIKLFGEPVAFDEEQPQQTRFRDLFNRRHFPFVLFVAAIWTCQVIPMFAIYTFGPQIVGLLGLGVGKNAALGNVVISLFFMLGCIPPMLWLNTAGRRPLLIGSFAMMTLALAVLGLIPDMGIWLVVMAFAVYAFFSGGPGNLQWLYPNELFPTDIRASAVGVIMSLSRIGTIVSTWALPIFINNYGISNTMLMGAGISLFGLLISVAFAPETRGMSLAQTSNMTIRGQRMG" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YADG-MONOMER" "putative ABC transporter ATP-binding protein YadG" ["YadG"] "MTIALELQQLKKTYPGGVQALRGIDLQVEAGDFYALLGPNGAGKSTTIGIISSLVNKTSGRVSVFGYDLEKDVVNAKRQLGLVPQEFNFNPFETVQQIVVNQAGYYGVERKEAYIRSEKYLKQLDLWGKRNERARMLSGGMKRRLMIARALMHEPKLLILDEPTAGVDIELRRSMWGFLKDLNDKGTTIILTTHYLEEAEMLCRNIGIIQHGELVENTSMKALLAKLKSETFILDLAPKSPLPKLDGYQYRLVDTATLEVEVLREQGINSVFTQLSEQGIQVLSMRNKANRLEELFVSLVNEKQGDRA" ["CCO-PM-BAC-NEG"] ["CCO-PM-BAC-NEG"] +"YADH-MONOMER" "putative ABC transporter membrane subunit YadH" ["YadH"] "MMHLYWVALKSIWAKEIHRFMRIWVQTLVPPVITMTLYFIIFGNLIGSRIGDMHGFSYMQFIVPGLIMMSVITNAYANVASSFFGAKFQRNIEELLVAPVPTHVIIAGYVGGGVARGLFVGILVTAISLFFVPFQVHSWVFVALTLVLTAVLFSLAGLLNGVFAKTFDDISLVPTFVLTPLTYLGGVFYSLTLLPPFWQGLSHLNPIVYMISGFRYGFLGINDVPLVTTFGVLVVFIVAFYLICWSLIQRGRGLRS" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YADQ-MONOMER" "chloride:H+ antiporter ClcA" ["EriC", "ClcA", "YadQ", "ClC-ec1"] "MKTDTPSLETPQAARLRRRQLIRQLLERDKTPLAILFMAAVVGTLVGLAAVAFDKGVAWLQNQRMGALVHTADNYPLLLTVAFLCSAVLAMFGYFLVRKYAPEAGGSGIPEIEGALEDQRPVRWWRVLPVKFFGGLGTLGGGMVLGREGPTVQIGGNIGRMVLDIFRLKGDEARHTLLATGAAAGLAAAFNAPLAGILFIIEEMRPQFRYTLISIKAVFIGVIMSTIMYRIFNHEVALIDVGKLSDAPLNTLWLYLILGIIFGIFGPIFNKWVLGMQDLLHRVHGGNITKWVLMGGAIGGLCGLLGFVAPATSGGGFNLIPIATAGNFSMGMLVFIFVARVITTLLCFSSGAPGGIFAPMLALGTVLGTAFGMVAVELFPQYHLEAGTFAIAGMGALLAASIRAPLTGIILVLEMTDNYQLILPMIITGLGATLLAQFTGGKPLYSAILARTLAKQEAEQLARSKAASASENT" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YAGC-MONOMER" "CP4-6 prophage; ABC transporter ATP-binding protein AfuC" ["YagC", "AfuC", "FbpC"] "MTQKNFVELRNVTKRFGSNTVIDNINLTIPQGQMVTLLGPSGCGKTTILRLVAGLEKPSEGQIFIDGEDVTHRSIQQRDICMVFQSYALFPHMSLGENVGYGLKMLGVPRAELKARVKEALAMVDLEGFEDRFVDQISGGQQQRVALARALILKPKVLLFDEPLSNLDANLRRSMRDKIRELQKQFDITSLYVTHDQSEAFAVSDTVLVMNKGHIMQIGSPQDLYRQPASRFMASFMGDANLFPATFSDGYVDIYGYHLPRPLHFGTQGEGMVGVRPEAITLSDRGEESQRCVIRHVAYMGPQYEVTVEWHGQEILLQVNATRLQPDVGEQYYLEIHPYGMFVLADAA" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE", "CCO-CYTOSOL"] +"YBAL-MONOMER" "putative transporter YbaL" ["YlaA", "YbaL"] "MHHATPLITTIVGGLVLAFILGMLANKLRISPLVGYLLAGVLAGPFTPGFVADTKLAPELAELGVILLMFGVGLHFSLKDLMAVKAIAIPGAIAQIAVATLLGMALSAVLGWSLMTGIVFGLCLSTASTVVLLRALEERQLIDSQRGQIAIGWLIVEDLVMVLTLVLLPAVAGMMEQGDVGFATLAVDMGITIGKVIAFIAIMMLVGRRLVPWIMARSAATGSRELFTLSVLALALGVAFGAVELFDVSFALGAFFAGMVLNESELSHRAAHDTLPLRDAFAVLFFVSVGMLFDPLILIQQPLAVLATLAIILFGKSLAAFFLVRLFGHSQRTALTIAASLAQIGEFAFILAGLGMALNLLPQAGQNLVLAGAILSIMLNPVLFALLEKYLAKTETLEEQTLEEAIEEEKQIPVDICNHALLVGYGRVGSLLGEKLLASDIPLVVIETSRTRVDELRERGVRAVLGNAANEEIMQLAHLECAKWLILTIPNGYEAGEIVASARAKNPDIEIIARAHYDDEVAYITERGANQVVMGEREIARTMLELLETPPAGEVVTG" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YBBA-MONOMER" "putative ABC transporter ATP-binding protein YbbA" ["YbbA"] "MPAENIVEVHHLKKSVGQGEHELSILTGVELVVKRGETIALVGESGSGKSTLLAILAGLDDGSSGEVSLVGQPLHNMDEEARAKLRAKHVGFVFQSFMLIPTLNALENVELPALLRGESSAESRNGAKALLEQLGLGKRLDHLPAQLSGGEQQRVALARAFNGRPDVLFADEPTGNLDRQTGDKIADLLFSLNREHGTTLIMVTHDLQLAARCDRCLRLVNGQLQEEA" [] ["CCO-PM-BAC-NEG"] +"YBBL-MONOMER" "putative iron ABC exporter ATP-binding subunit FetA" ["YbbL", "FetA"] "MQENSPLLQLQNVGYLAGDAKILNNINFSLRAGEFKLITGPSGCGKSTLLKIVASLISPTSGTLLFEGEDVSTLKPEIYRQQVSYCAQTPTLFGDTVYDNLIFPWQIRNRQPDPAIFLDFLERFALPDSILTKNIAELSGGEKQRISLIRNLQFMPKVLLLDEITSALDESNKHNVNEMIHRYVREQNIAVLWVTHDKDEINHADKVITLQPHAGEMQEARYELA" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YBBP-MONOMER" "putative ABC transporter membrane subunit YbbP" ["YbbP"] "MIARWFWREWRSPSLLIVWLALSLAVACVLALGNISDRMEKGLSQQSREFMAGDRALRSSREVPQAWLEEAQKRGLKVGKQLTFATMTFAGDTPQLANVKAVDDIYPMYGDLQTNPPGLKPQAGSVLLAPRLMALLNLKTGDTIDVGDATLRIAGEVIQEPDSGFNPFQMAPRLMMNLADVDKTGAVQPGSRVTWRYKFGGNENQLDGYEKWLLPQLKPEQRWYGLEQDEGALGRSMERSQQFLLLSALLTLLLAVAAVAVAMNHYCRSRYDLVAILKTLGAGRAQLRKLIVGQWLMVLTLSAVTGGAIGLLFENVLMVLLKPVLPAALPPASLWPWLWALGTMTVISLLVGLRPYRLLLATQPLRVLRNDVVANVWPLKFYLPIVSVVVVLLLAGLMGGSMLLWAVLAGAVVLALLCGVLGWMLLNVLRRMTLKSLPLRLAVSRLLRQPWSTLSQLSAFSLSFMLLALLLVLRGDLLDRWQQQLPPESPNYFLINIATEQVAPLKAFLAEHQIVPESFYPVVRARLTAINDKPTEGNEDEALNRELNLTWQNTRPDHNPIVAGNWPPKADEVSMEEGLAKRLNVALGDTVTFMGDTQEFRAKVTSLRKVDWESLRPNFYFIFPEGALDGQPQSWLTSFRWENGNGMLTQLNRQFPTISLLDIGAILKQVGQVLEQVSRALEVMVVLVTACGMLLLLAQVQVGMRQRHQELVVWRTLGAGKKLLRTTLWCEFAMLGFVSGLVAAIGAETALAVLQAKVFDFPWEPDWRLWIVLPCSGALLLSLFGGWLGARLVKGKALFRQFAG" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YBDA-MONOMER" null ["EntS", "YbdA", "P43"] "MNKQSWLLNLSLLKTHPAFRAVFLARFISIVSLGLLGVAVPVQIQMMTHSTWQVGLSVTLTGGAMFVGLMVGGVLADRYERKKVILLARGTCGIGFIGLCLNALLPEPSLLAIYLLGLWDGFFASLGVTALLAATPALVGRENLMQAGAITMLTVRLGSVISPMIGGLLLATGGVAWNYGLAAAGTFITLLPLLSLPALPPPPQPREHPLKSLLAGFRFLLASPLVGGIALLGGLLTMASAVRVLYPALADNWQMSAAQIGFLYAAIPLGAAIGALTSGKLAHSARPGLLMLLSTLGSFLAIGLFGLMPMWILGVVCLALFGWLSAVSSLLQYTMLQTQTPEAMLGRINGLWTAQNVTGDAIGAALLGGLGAMMTPVASASASGFGLLIIGVLLLLVLVELRHFRQTPPQVTASDS" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YBDE-MONOMER" "copper/silver export system RND permease" ["YbdE"] "MIEWIIRRSVANRFLVLMGALFLSIWGTWTIINTPVDALPDLSDVQVIIKTSYPGQAPQIVENQVTYPLTTTMLSVPGAKTVRGFSQFGDSYVYVIFEDGTDPYWARSRVLEYLNQVQGKLPAGVSAELGPDATGVGWIYEYALVDRSGKHDLADLRSLQDWFLKYELKTIPDVAEVASVGGVVKEYQVVIDPQRLAQYGISLAEVKSALDASNQEAGGSSIELAEAEYMVRASGYLQTLDDFNHIVLKASENGVPVYLRDVAKVQIGPEMRRGIAELNGEGEVAGGVVILRSGKNAREVIAAVKDKLETLKSSLPEGVEIVTTYDRSQLIDRAIDNLSGKLLEEFIVVAVVCALFLWHVRSALVAIISLPLGLCIAFIVMHFQGLNANIMSLGGIAIAVGAMVDAAIVMIENAHKRLEEWQHQHPDATLDNKTRWQVITDASVEVGPALFISLLIITLSFIPIFTLEGQEGRLFGPLAFTKTYAMAGAALLAIVVIPILMGYWIRGKIPPESSNPLNRFLIRVYHPLLLKVLHWPKTTLLVAALSVLTVLWPLNKVGGEFLPQINEGDLLYMPSTLPGISAAEAASMLQKTDKLIMSVPEVARVFGKTGKAETATDSAPLEMVETTIQLKPQEQWRPGMTMDKIIEELDNTVRLPGLANLWVPPIRNRIDMLSTGIKSPIGIKVSGTVLADIDAMAEQIEEVARTVPGVASALAERLEGGRYINVEINREKAARYGMTVADVQLFVTSAVGGAMVGETVEGIARYPINLRYPQSWRDSPQALRQLPILTPMKQQITLADVADIKVSTGPSMLKTENARPTSWIYIDARDRDMVSVVHDLQKAIAEKVQLKPGTSVAFSGQFELLERANHKLKLMVPMTLMIIFVLLYLAFRRVGEALLIISSVPFALVGGIWLLWWMGFHLSVATGTGFIALAGVAAEFGVVMLMYLRHAIEAVPSLNNPQTFSEQKLDEALYHGAVLRVRPKAMTVAVIIAGLLPILWGTGAGSEVMSRIAAPMIGGMITAPLLSLFIIPAAYKLMWLHRHRVRK" ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"YBHF-MONOMER" "ABC exporter ATP binding subunit YbhF" ["YbhF"] "MNDAVITLNGLEKRFPGMDKPAVAPLDCTIHAGYVTGLVGPDGAGKTTLMRMLAGLLKPDSGSATVIGFDPIKNDGALHAVLGYMPQKFGLYEDLTVMENLNLYADLRSVTGEARKQTFARLLEFTSLGPFTGRLAGKLSGGMKQKLGLACTLVGEPKVLLLDEPGVGVDPISRRELWQMVHELAGEGMLILWSTSYLDEAEQCRDVLLMNEGELLYQGEPKALTQTMAGRSFLMTSPHEGNRKLLQRALKLPQVSDGMIQGKSVRLILKKEATPDDIRHADGMPEININETTPRFEDAFIDLLGGAGTSESPLGAILHTVEGTPGETVIEAKELTKKFGDFAATDHVNFAVKRGEIFGLLGPNGAGKSTTFKMMCGLLVPTSGQALVLGMDLKESSGKARQHLGYMAQKFSLYGNLTVEQNLRFFSGVYGLRGRAQNEKISRMSEAFGLKSIASHATDELPLGFKQRLALACSLMHEPDILFLDEPTSGVDPLTRREFWLHINSMVEKGVTVMVTTHFMDEAEYCDRIGLVYRGKLIASGTPDDLKAQSANDEQPDPTMEQAFIQLIHDWDKEHSNE" ["CCO-PM-BAC-NEG"] [] +"YBHR-MONOMER" "ABC exporter membrane subunit YbhR" ["YbhR"] "MFHRLWTLIRKELQSLLREPQTRAILILPVLIQVILFPFAATLEVTNATIAIYDEDNGEHSVELTQRFARASAFTHVLLLKSPQEIRPTIDTQKALLLVRFPADFSRKLDTFQTAPLQLILDGRNSNSAQIAANYLQQIVKNYQQELLEGKPKPNNSELVVRNWYNPNLDYKWFVVPSLIAMITTIGVMIVTSLSVAREREQGTLDQLLVSPLTTWQIFIGKAVPALIVATFQATIVLAIGIWAYQIPFAGSLALFYFTMVIYGLSLVGFGLLISSLCSTQQQAFIGVFVFMMPAILLSGYVSPVENMPVWLQNLTWINPIRHFTDITKQIYLKDASLDIVWNSLWPLLVITATTGSAAYAMFRRKVM" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YBHS-MONOMER" "ABC exporter membrane subunit YbhS" ["YbhS"] "MSNPILSWRRVRALCVKETRQIVRDPSSWLIAVVIPLLLLFIFGYGINLDSSKLRVGILLEQRSEAALDFTHTMTGSPYIDATISDNRQELIAKMQAGKIRGLVVIPVDFAEQMERANATAPIQVITDGSEPNTANFVQGYVEGIWQIWQMQRAEDNGQTFEPLIDVQTRYWFNPAAISQHFIIPGAVTIIMTVIGAILTSLVVAREWERGTMEALLSTEITRTELLLCKLIPYYFLGMLAMLLCMLVSVFILGVPYRGSLLILFFISSLFLLSTLGMGLLISTITRNQFNAAQVALNAAFLPSIMLSGFIFQIDSMPAVIRAVTYIIPARYFVSTLQSLFLAGNIPVVLVVNVLFLIASAVMFIGLTWLKTKRRLD" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YCAD-MONOMER" "putative transporter YcaD" ["YcaD"] "MSTYTQPVMLLLSGLLLLTLAIAVLNTLVPLWLAQEHMSTWQVGVVSSSYFTGNLVGTLLTGYVIKRIGFNRSYYLASFIFAAGCAGLGLMIGFWSWLAWRFVAGVGCAMIWVVVESALMCSGTSRNRGRLLAAYMMVYYVGTFLGQLLVSKVSTELMSVLPWVTGLTLAGILPLLFTRVLNQQAENHDSTSITSMLKLRQARLGVNGCIISGIVLGSLYGLMPLYLNHKGVSNASIGFWMAVLVSAGILGQWPIGRLADKFGRLLVLRVQVFVVILGSIAMLSQAAMAPALFILGAAGFTLYPVAMAWACEKVEHHQLVAMNQALLLSYTVGSLLGPSFTAMLMQNFSDNLLFIMIASVSFIYLLMLLRNAGHTPKPVAHV" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YCAM" "putative transporter YcaM" ["YcaM"] "MAGNVQEKQLRWYNIALMSFITVWGFGNVVNNYANQGLVVVFSWVFIFALYFTPYALIVGQLGSTFKDGKGGVSTWIKHTMGPGLAYLAAWTYWVVHIPYLAQKPQAILIALGWAMKGDGSLIKEYSVVALQGLTLVLFIFFMWVASRGMKSLKIVGSVAGIAMFVMSLLYVAMAVTAPAITEVHIATTNITWETFIPHIDFTYITTISMLVFAVGGAEKISPYVNQTRNPGKEFPKGMLCLAVMVAVCAILGSLAMGMMFDSRNIPDDLMTNGQYYAFQKLGEYYNMGNTLMVIYAIANTLGQVAALVFSIDAPLKVLLGDADSKYIPASLCRTNASGTPVNGYFLTLVLVAILIMLPTLGIGDMNNLYKWLLNLNSVVMPLRYLWVFVAFIAVVRLAQKYKPEYVFIRNKPLAMTVGIWCFAFTAFACLTGIFPKMEAFTAEWTFQLALNVATPFVLVGLGLIFPLLARKANSK" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YCBE-MONOMER" "aliphatic sulfonate ABC transporter ATP binding subunit" ["YcbE"] "MNTARLNQGTPLLLNAVSKHYAENIVLNQLDLHIPAGQFVAVVGRSGGGKSTLLRLLAGLETPTAGDVLAGTTPLAEIQEDTRMMFQDARLLPWKSVIDNVGLGLKGQWRDAARRALAAVGLENRAGEWPAALSGGQKQRVALARALIHRPGLLLLDEPLGALDALTRLEMQDLIVSLWQEHGFTVLLVTHDVSEAVAMADRVLLIEEGKIGLDLTVDIPRPRRLGSVRLAELEAEVLQRVMQRGESETRLRKQG" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE", "CCO-CYTOSOL"] +"YCBM-MONOMER" "aliphatic sulfonate ABC transporter membrane subunit" ["YcbM"] "MATPVKKWLLRVAPWFLPVGIVAVWQLASSVGWLSTRILPSPEGVVTAFWTLSASGELWQHLAISSWRALIGFSIGGSLGLILGLISGLSRWGERLLDTSIQMLRNVPHLALIPLVILWFGIDESAKIFLVALGTLFPIYINTWHGIRNIDRGLVEMARSYGLSGIPLFIHVILPGALPSIMVGVRFALGLMWLTLIVAETISANSGIGYLAMNAREFLQTDVVVVAIILYALLGKLADVSAQLLERLWLRWNPAYHLKEATV" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YCEE-MONOMER" "efflux pump MdtG" ["MdtG", "YceE", "MdtG drug MFS transporter", "MdtG multidrug efflux pump"] "MSPCENDTPINWKRNLIVAWLGCFLTGAAFSLVMPFLPLYVEQLGVTGHSALNMWSGIVFSITFLFSAIASPFWGGLADRKGRKLMLLRSALGMGIVMVLMGLAQNIWQFLILRALLGLLGGFVPNANALIATQVPRNKSGWALGTLSTGGVSGALLGPMAGGLLADSYGLRPVFFITASVLILCFFVTLFCIREKFQPVSKKEMLHMREVVTSLKNPKLVLSLFVTTLIIQVATGSIAPILTLYVRELAGNVSNVAFISGMIASVPGVAALLSAPRLGKLGDRIGPEKILITALIFSVLLLIPMSYVQTPLQLGILRFLLGAADGALLPAVQTLLVYNSSNQIAGRIFSYNQSFRDIGNVTGPLMGAAISANYGFRAVFLVTAGVVLFNAVYSWNSLRRRRIPQVSN" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YCFU-MONOMER" "lipoprotein release complex - inner membrane subunit" ["YcfU"] "MYQPVALFIGLRYMRGRAADRFGRFVSWLSTIGITLGVMALVTVLSVMNGFERELQNNILGLMPQAILSSEHGSLNPQQLPETAVKLDGVNRVAPITTGDVVLQSARSVAVGVMLGIDPAQKDPLTPYLVNVKQTDLEPGKYNVILGEQLASQLGVNRGDQIRVMVPSASQFTPMGRIPSQRLFNVIGTFAANSEVDGYEMLVNIEDASRLMRYPAGNITGWRLWLDEPLKVDSLSQQKLPEGSKWQDWRDRKGELFQAVRMEKNMMGLLLSLIVAVAAFNIITSLGLMVMEKQGEVAILQTQGLTPRQIMMVFMVQGASAGIIGAILGAALGALLASQLNNLMPIIGVLLDGAALPVAIEPLQVIVIALVAMAIALLSTLYPSWRAAATQPAEALRYE" ["CCO-PERI-BAC", "CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YCFV-MONOMER" "lipoprotein release complex - ATP binding subunit" ["YcfV"] "MNKILLQCDNLCKRYQEGSVQTDVLHNVSFSVGEGEMMAIVGSSGSGKSTLLHLLGGLDTPTSGDVIFNGQPMSKLSSAAKAELRNQKLGFIYQFHHLLPDFTALENVAMPLLIGKKKPAEINSRALEMLKAVGLDHRANHRPSELSGGERQRVAIARALVNNPRLVLADEPTGNLDARNADSIFQLLGELNRLQGTAFLVVTHDLQLAKRMSRQLEMRDGRLTAELSLMGAE" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YCFW-MONOMER" "lipoprotein release complex - inner membrane subunit" ["YcfW"] "MAMPLSLLIGLRFSRGRRRGGMVSLISVISTIGIALGVAVLIVGLSAMNGFERELNNRILAVVPHGEIEAVDQPWTNWQEALDHVQKVPGIAAAAPYINFTGLVESGANLRAIQVKGVNPQQEQRLSALPSFVQGDAWRNFKAGEQQIIIGKGVADALKVKQGDWVSIMIPNSNPEHKLMQPKRVRLHVAGILQLSGQLDHSFAMIPLADAQQYLDMGSSVSGIALKMTDVFNANKLVRDAGEVTNSYVYIKSWIGTYGYMYRDIQMIRAIMYLAMVLVIGVACFNIVSTLVMAVKDKSGDIAVLRTLGAKDGLIRAIFVWYGLLAGLFGSLCGVIIGVVVSLQLTPIIEWIEKLIGHQFLSSDIYFIDFLPSELHWLDVFYVLVTALLLSLLASWYPARRASNIDPARVLSGQ" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YCGO-MONOMER" "putative K+:H+ antiporter" ["CvrA", "YcgO"] "MDATTIISLFILGSILVTSSILLSSFSSRLGIPILVIFLAIGMLAGVDGVGGIPFDNYPFAYMVSNLALAIILLDGGMRTQASSFRVALGPALSLATLGVLITSGLTGMMAAWLFNLDLIEGLLIGAIVGSTDAAAVFSLLGGKGLNERVGSTLEIESGSNDPMAVFLTITLIAMIQHHESNISWMFIVDILQQFGLGIVIGLGGGYLLLQMINRIALPAGLYPLLALSGGILIFSLTTALEGSGILAVYLCGFLLGNRPIRNRYGILQNFDGLAWLAQIAMFLVLGLLVNPSDLLPIAIPALILSAWMIFFARPLSVFAGLLPFRGFNLRERVFISWVGLRGAVPIILAVFPMMAGLENARLFFNVAFFVVLVSLLLQGTSLSWAAKKAKVVVPPVGRPVSRVGLDIHPENPWEQFVYQLSADKWCVGAALRDLHMPKETRIAALFRDNQLLHPTGSTRLREGDVLCVIGRERDLPALGKLFSQSPPVALDQRFFGDFILEASAKYADVALIYGLEDGREYRDKQQTLGEIVQQLLGAAPVVGDQVEFAGMIWTVAEKEDNEVLKIGVRVAEEEAES" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YCHM-MONOMER" "aerobic C4-dicarboxylate transporter DauA" ["DauA", "YchM"] "MNKIFSSHVMPFRALIDACWKEKYTAARFTRDLIAGITVGIIAIPLAMALAIGSGVAPQYGLYTAAVAGIVIALTGGSRFSVSGPTAAFVVILYPVSQQFGLAGLLVATLLSGIFLILMGLARFGRLIEYIPVSVTLGFTSGIGITIGTMQIKDFLGLQMAHVPEHYLQKVGALFMALPTINVGDAAIGIVTLGILVFWPRLGIRLPGHLPALLAGCAVMGIVNLLGGHVATIGSQFHYVLADGSQGNGIPQLLPQLVLPWDLPNSEFTLTWDSIRTLLPAAFSMAMLGAIESLLCAVVLDGMTGTKHKANSELVGQGLGNIIAPFFGGITATAAIARSAANVRAGATSPISAVIHSILVILALLVLAPLLSWLPLSAMAALLLMVAWNMSEAHKVVDLLRHAPKDDIIVMLLCMSLTVLFDMVIAISVGIVLASLLFMRRIARMTRLAPVVVDVPDDVLVLRVIGPLFFAAAEGLFTDLESRLEGKRIVILKWDAVPVLDAGGLDAFQRFVKRLPEGCELRVCNVEFQPLRTMARAGIQPIPGRLAFFPNRRAAMADL" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YCJN-MONOMER" "putative ABC transporter periplasmic binding protein YcjN" ["YcjN"] "MIKSKIVLLSALVSCALISGCKEENKTNVSIEFMHSSVEQERQAVISKLIARFEKENPGITVKQVPVEEDAYNTKVITLSRSGSLPEVIETSHDYAKVMDKEQLIDRKAVATVISNVGEGAFYDGVLRIVRTEDGSAWTGVPVSAWIGGIWYRKDVLAKAGLEEPKNWQQLLDVAQKLNDPANKKYGIALPTAESVLTEQSFSQFALSNQANVFNAEGKITLDTPEMMQALTYYRDLTANTMPGSNDIMEVKDAFMNGTAPMAIYSTYILPAVIKEGDPKNVGFVVPTEKNSAVYGMLTSLTITAGQKTEETEAAEKFVTFMEQADNIADWVMMSPGAALPVNKAVVTTATWKDNDVIKALGELPNQLIGELPNIQVFGAVGDKNFTRMGDVTGSGVVSSMVHNVTVGKADLSTTLQASQKKLDELIEQH" [] ["CCO-PERI-BAC"] +"YCJO-MONOMER" "putative ABC transporter membrane subunit YcjO" ["YcjO"] "MNRLFSGRSDMPFALLLLAPSLLLLGGLVAWPMVSNIEISFLRLPLNPNIESTFVGVSNYVRILSDPGFWHSLWMTVWYTALVVAGSTVLGLAVAMFFNREFRLRKTARSLVILSYVTPSISLVFAWKYMFNNGYGIVNYLGVDLLHLYEQAPLWFDNPGSSFVLVVLFAIWRYFPYAFISFLAILQTIDKSLYEAAEMDGANAWQRFRIVTLPAIMPVLATVVTLRTIWMFYMFADVYLLTTKVDILGVYLYKTAFAFNDLGKAAAISVVLFIIIFAVILLTRKRVNLNGNK" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YCJP-MONOMER" "putative ABC transporter membrane subunit YcjP" ["YcjP"] "MATNKRTLSRIGFYCGLALFLIITLFPFFVMLMTSFKGAKEAISLHPTLLPQQWTLEHYVDIFNPMIFPFVDYFRNSLVVSVVSSVVAVFLGILGAYALSRLRFKGRMTINASFYTVYMFSGILLVVPLFKIITALGIYDTEMALIITMVTQTLPTAVFMLKSYFDTIPDEIEEAAMMDGLNRLQIIFRITVPLAMSGLISVFVYCFMVAWNDYLFASIFLSSASNFTLPVGLNALFSTPDYIWGRMMAASLVTALPVVIMYALSERFIKSGLTAGGVKG" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YCJV-MONOMER" "putative ABC transporter ATP-binding protein YcjV" ["YcjV"] "MAQLSLQHIQKIYDNQVHVVKDFNLEIADKEFIVFVGPSGCGKSTTLRMIAGLEEISGGDLLIDGKRMNDVPAKARNIAMVFQNYALYPHMTVYDNMAFGLKMQKIAKEVIDERVNWAAQILGLREYLKRKPGALSGGQRQRVALGRAIVREAGVFLMDEPLSNLDAKLRVQMRAEISKLHQKLNTTMIYVTHDQTEAMTMATRIVIMKDGIVQQVGAPKTVYNQPANMFVSGFIGSPAMNFIRGTIDGDKFVTETLKLTIPEEKLAVLKTQESLHKPIVMGIRPEDIHPDAQEENNISAKISVAELTGAEFMLYTTVGGTS" [] [] +"YDCS-MONOMER" "putative ABC transporter periplasmic binding protein / polyhydroxybutyrate synthase" ["YdcS"] "MSKTFARSSLCALSMTIMTAHAAEPPTNLDKPEGRLDIIAWPGYIERGQTDKQYDWVTQFEKETGCAVNVKTAATSDEMVSLMTKGGYDLVTASGDASLRLIMGKRVQPINTALIPNWKTLDPRVVKGDWFNVGGKVYGTPYQWGPNLLMYNTKTFPTPPDSWQVVFVEQNLPDGKSNKGRVQAYDGPIYIADAALFVKATQPQLGISDPYQLTEEQYQAVLKVLRAQHSLIHRYWHDTTVQMSDFKNEGVVASSAWPYQANALKAEGQPVATVFPKEGVTGWADTTMLHSEAKHPVCAYKWMNWSLTPKVQGDVAAWFGSLPVVPEGCKASPLLGEKGCETNGFNYFDKIAFWKTPIAEGGKFVPYSRWTQDYIAIMGGR" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"YDCT-MONOMER" "putative ABC transporter ATP-binding protein YdcT" ["YdcT"] "MTYAVEFDNVSRLYGDVRAVDGVSIAIKDGEFFSMLGPSGSGKTTCLRLIAGFEQLSGGAISIFGKPASNLPPWERDVNTVFQDYALFPHMSILDNVAYGLMVKGVNKKQRHAMAQEALEKVALGFVHQRKPSQLSGGQRQRVAIARALVNEPRVLLLDEPLGALDLKLREQMQLELKKLQQSLGITFIFVTHDQGEALSMSDRVAVFNNGRIEQVDSPRDLYMRPRTPFVAGFVGTSNVFDGLMAEKLCGMTGSFALRPEHIRLNTPGELQANGTIQAVQYQGAATRFELKLNGGEKLLVSQANMTGEELPATLTPGQQVMVSWSRDVMVPLVEER" [] ["CCO-PM-BAC-NEG"] +"YDCU-MONOMER" "putative ABC transporter membrane subunit YdcU" ["YdcU"] "MAMNVLQSPSRPGLGKVSGFFWHNPGLGLFLLLLGPLMWFGIVYFGSLLTLLWQGFYTFDDFTMSVTPELTLANIRALFNPANYDIILRTLTMAVAVTIASAILAFPMAWYMARYTSGKMKAFFYIAVMLPMWASYIVKAYAWTLLLAKDGVAQWFLQHLGLEPLLTAFLTLPAVGGNTLSTSGLGRFLVFLYIWLPFMILPVQAALERLPPSLLQASADLGARPRQTFRYVVLPLAIPGIAAGSIFTFSLTLGDFIVPQLVGPPGYFIGNMVYSQQGAIGNMPMAAAFTLVPIILIALYLAFVKRLGAFDAL" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YDCV-MONOMER" "putative ABC transporter membrane subunit YdcV" ["YdcV"] "MHSERAPFFLKLAAWGGVVFLHFPILIIAAYAFNTEDAAFSFPPQGLTLRWFSVAAQRSDILDAVTLSLKVAALATLIALVLGTLAAAALWRRDFFGKNAISLLLLLPIALPGIVTGLALLTAFKTINLEPGFFTIVVGHATFCVVVVFNNVIARFRRTSWSLVEASMDLGANGWQTFRYVVLPNLSSALLAGGMLAFALSFDEIIVTTFTAGHERTLPLWLLNQLGRPRDVPVTNVVALLVMLVTTLPILGAWWLTREGDNGQ" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YDDA-MONOMER" "ABC transporter family protein YddA" ["YddA"] "MITIPITLRMLIAKYLCLLKPFWLRKNNKTSVLLIIIILAMILGVVKIQVWLNDWNNDFFNALSQKETDKLWQLVLWFPALLGIFVLISVNKTWLIKLLTIRWREWLTDYYLNRWFADKNYYFTQIYGEHKNTDNPDQRIAEDILLLISKTLSLSFGFIQSLSMLITFTVILWESAGTLSFTVGGTEWNIQGYMVYTVVLIVIGGTLFTHKVGKRIRPLNVEKQRSEATFRTNLVQHNKQAELIALSNAESLQRQELSDNFHTIKENWHRLMNRQRWLDYWQNIYSRSLSVLPYFLLLPQFISGQINLGGLMKSRQAFMLVSNNLSWFIYKYDELAELAAVIDRLYEFHQLTEQRPTNKPKNCQHAVQVADASIRTPDNKIILENLNFHVSPGKWLLLKGYSGAGKTTLLKTLSHCWPWFKGDISSPADSWYVSQTPLIKTGLLKEIICKALPLPVDDKSLSEVLHQVGLGKLAARIHDHDRWGDILSSGEKQRIALARLILRRPKWIFLDETTSHLEEQEAIRLLRLVREKLPTSGVIMVTHQPGVWNLADDICDISAVL" ["CCO-PM-BAC-NEG"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"YDDO-MONOMER" "putative D,D-dipeptide ABC transporter ATP-binding subunit DdpF" ["DdpF", "YddO"] "MSDTLLTLRDVHINFPARKNWLGKTTEHVHAINGIDLQIRRGETLGIVGESGCGKSTLAQLLMGMLQPSHGQYIRSGSQRIMQMVFQDPLSSLNPRLPVWRIITEPLWIAKRSSEQQRRALAEELAVQVGIRPEYLDRLPHAFSGGQRQRIAIARALSSQPDVIVLDEPTSALDISVQAQILNLLVTLQENHGLTYVLISHNVSVIRHMSDRVAVMYLGQIVELGDAQQVLTAPAHPYTRLLLDSLPAIDKPLEEEWALRKTDLPGNRTLPQGCFFYERCPLATHGCEVRQSLAIREDGRELRCWRAL" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG", "CCO-CYTOSOL"] +"YDDP-MONOMER" "putative D,D-dipeptide ABC transporter ATP-binding subunit DdpD" ["DdpD", "YddP"] "MTQPVLDIQQLHLSFPGFNGDVHALNNVSLQINRGEIVGLVGESGSGKSVTAMLIMRLLPTGSYCVHRGQISLLGEDVLNAREKQLRQWRGARVAMIFQEPMTALNPTRRIGLQMMDVIRHHQPISRREARAKAIDLLEEMQIPDAVEVMSRYPFELSGGMRQRVMIALAFSCEPQLIIADEPTTALDVTVQLQVLRLLKHKARASGTAVLFISHDMAVVSQLCDSVYVMYAGSVIESGVTADVIHHPRHPYTIGLLQCAPEHGVPRQLLPAIPGTVPNLTHLPDGCAFRDRCYAAGAQCENVPALTACGDNNQRCACWYPQQEVISV" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YDDQ-MONOMER" "putative D,D-dipeptide ABC transporter membrane subunit DdpC" ["DdpC", "YddQ"] "MMLSEETSAVRPQKQTRFNGAKLVWMLKGSPLTVTSAVIIVLMLLMMIFSPWLATHDPNAIDLTARLLPPSAAHWFGTDEVGRDLFSRVLVGSQQSILAGLVVVAIAGMIGSLLGCLSGVLGGRADAIIMRIMDIMLSIPSLVLTMALAAALGPSLFNAMLAIAIVRIPFYVRLARGQALVVRQYTYVQAAKTFGASRWHLINWHILRNSLPPLIVQASLDIGSAILMAATLGFIGLGAQQPSAEWGAMVANGRNYVLDQWWYCAFPGAAILLTAVGFNLFGDGIRDLLDPKAGGKQS" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YDDR-MONOMER" "putative D,D-dipeptide ABC transporter membrane subunit DdpB" ["DdpB", "YddR"] "MTFWSILRQRCWGLVLVVAGVCVITFIISHLIPGDPARLLAGDRASDAIVENIRQQLGLDQPLYVQFYRYVSDLFHGDLGTSIRTGRPVLEELRIFFPATLELAFGALLLALLIGIPLGILSAVWRNRWLDHLVRIMAITGISTPAFWLGLGVIVLFYGHLQILPGGGRLDDWLDPPTHVTGFYLLDALLEGNGEVFFNALQHLILPALTLAFVHLGIVARQIRSAMLEQLSEDYIRTARASGLPGWYIVLCYALPNALIPSITVLGLALGDLLYGAVLTETVFAWPGMGAWVVTSIQALDFPAVMGFAVVVSFAYVLVNLVVDLLYLWIDPRIGRGGGE" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YDDS-MONOMER" "putative D,D-dipeptide ABC transporter periplasmic binding protein" ["DdpA", "YddS"] "MKRSISFRPTLLALVLATNFPVAHAAVPKDMLVIGKAADPQTLDPAVTIDNNDWTVTYPSYQRLVQYKTDGDKGSTDVEGDLASSWKASDDQKEWTFTLKDNAKFADGTPVTAEAVKLSFERLLKIGQGPAEAFPKDLKIDAPDEHTVKFTLSQPFAPFLYTLANDGASIINPAVLKEHAADDARGFLAQNTAGSGPFMLKSWQKGQQLVLVPNPHYPGNKPNFKRVSVKIIGESASRRLQLSRGDIDIADALPVDQLNALKQENKVNVAEYPSLRVTYLYLNNSKAPLNQADLRRAISWSTDYQGMVNGILSGNGKQMRGPIPEGMWGYDATAMQYNHDETKAKAEWDKVTSKPTSLTFLYSDNDPNWEPIALATQSSLNKLGIIVKLEKLANATMRDRVGKGDYDIAIGNWSPDFADPYMFMNYWFESDKKGLPGNRSFYENSEVDKLLRNALATTDQTQRTRDYQQAQKIVIDDAAYVYLFQKNYQLAMNKEVKGFVFNPMLEQVFNINTMSK" [] ["CCO-PERI-BAC"] +"YDEA-MONOMER" null ["YdeA", "arabinose MFS transporter"] "MTTNTVSRKVAWLRVVTLAVAAFIFNTTEFVPVGLLSDIAQSFHMQTAQVGIMLTIYAWVVALMSLPFMLMTSQVERRKLLICLFVVFIASHVLSFLSWSFTVLVISRIGVAFAHAIFWSITASLAIRMAPAGKRAQALSLIATGTALAMVLGLPLGRIVGQYFGWRMTFFAIGIGALITLLCLIKLLPLLPSEHSGSLKSLPLLFRRPALMSIYLLTVVVVTAHYTAYSYIEPFVQNIAGFSANFATALLLLLGGAGIIGSVIFGKLGNQYASALVSTAIALLLVCLALLLPAANSEIHLGVLSIFWGIAMMIIGLGMQVKVLALAPDATDVAMALFSGIFNIGIGAGALVGNQVSLHWSMSMIGYVGAVPAFAALIWSIIIFRRWPVTLEEQTQ" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YDEF-MONOMER" "dipeptide exporter" ["YdeE", "YdeF"] "MNLSLRRSTSALLASSLLLTIGRGATLPFMTIYLSRQYSLSVDLIGYAMTIALTIGVVFSLGFGILADKFDKKRYMLLAITAFASGFIAITLVNNVTLVVLFFALINCAYSVFATVLKAWFADNLSSTSKTKIFSINYTMLNIGWTIGPPLGTLLVMQSINLPFWLAAICSAFPMLFIQIWVKRSEKIIATETGSVWSPKVLLQDKALLWFTCSGFLASFVSGAFASCISQYVMVIADGDFAEKVVAVVLPVNAAMVVTLQYSVGRRLNPANIRALMTAGTLCFVIGLVGFIFSGNSLLLWGMSAAVFTVGEIIYAPGEYMLIDHIAPPEMKASYFSAQSLGWLGAAINPLVSGVVLTSLPPSSLFVILALVIIAAWVLMLKGIRARPWGQPALC" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YDEX-MONOMER" "Autoinducer-2 ABC transporter ATP binding subunit" ["YdeX", "Ego", "LsrA"] "MQTSDTRALPLLCARSVYKQYSGVNVLKGIDFTLHQGEVHALLGGNGAGKSTLMKIIAGITPADSGTLEIEGNNYVRLTPVHAHQLGIYLVPQEPLLFPSLSIKENILFGLAKKQLSMQKMKNLLAALGCQFDLHSLAGSLDVADRQMVEILRGLMRDSRILILDEPTASLTPAETERLFSRLQELLATGVGIVFISHKLPEIRQIADRISVMRDGTIALSGKTSELSTDDIIQAITPAVREKSLSASQKLWLELPGNRPQHAAGTPVLTLENLTGEGFRNVSLTLNAGEILGLAGLVGAGRTELAETLYGLRTLRGGRIMLNGKEINKLSTGERLLRGLVYLPEDRQSSGLNLDASLAWNVCALTHNLRGFWAKTAKDNATLERYRRALNIKFNQPEQAARTLSGGNQQKILIAKCLEASPQVLIVDEPTRGVDVSARNDIYQLLRSIAAQNVAVLLISSDLEEIELMADRVYVMHQGEITHSALTERDINVETIMRVAFGDSQRQEASC" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YDEY-MONOMER" "Autoinducer-2 ABC transporter membrane subunit LsrC" ["YdeY", "LsrC"] "MLKFIQNNREITALLAVVLLFVLPGFLDRQYLSVQTLTMVYSSAQILILLAMGATLVMLTRNIDVSVGSITGMCAVLLGMLLNAGYSLPVACVATLLLGLLAGFFNGVLVAWLKIPAIVATLGTLGLYRGIMLLWTGGKWIEGLPAELKQLSAPLLLGVSAIGWLTIILVAFMAWLLAKTAFGRSFYATGDNLQGARQLGVRTEAIRIVAFSLNGCMAALAGIVFASQIGFIPNQTGTGLEMKAIAACVLGGISLLGGSGAIIGAVLGAWFLTQIDSVLVLLRIPAWWNDFIAGLVLLAVLVFDGRLRCALERNLRRQKYARFMTPPPSVKPASSGKKREAA" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YDEZ-MONOMER" "Autoinducer-2 ABC transporter membrane subunit LsrD" ["YdeZ", "LsrD"] "MRIRYGWELALAALLVIEIVAFGAINPRMLDLNMLLFSTSDFICIGIVALPLTMVIVSGGIDISFGSTIGLCAIALGVLFQSGVPMPLAILLTLLLGALCGLINAGLIIYTKVNPLVITLGTLYLFAGSALLLSGMAGATGYEGIGGFPMAFTDFANLDVLGLPVPLIIFLICLLVFWLWLHKTHAGRNVFLIGQSPRVALYSAIPVNRTLCALYAMTGLASAVAAVLLVSYFGSARSDLGASFLMPAITAVVLGGANIYGGSGSIIGTAIAVLLVGYLQQGLQMAGVPNQVSSALSGALLIVVVVGRSVSLHRQQIKEWLARRANNPLP" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YDHC-MONOMER" "putative adenosine transporter YdhC" ["YdhC", "YdhC MFS transporter"] "MQPGKRFLVWLAGLSVLGFLATDMYLPAFAAIQADLQTPASAVSASLSLFLAGFAAAQLLWGPLSDRYGRKPVLLIGLTIFALGSLGMLWVENAATLLVLRFVQAVGVCAAAVIWQALVTDYYPSQKVNRIFAAIMPLVGLSPALAPLLGSWLLVHFSWQAIFATLFAITVVLILPIFWLKPTTKARNNSQDGLTFTDLLRSKTYRGNVLIYAACSASFFAWLTGSPFILSEMGYSPAVIGLSYVPQTIAFLIGGYGCRAALQKWQGKQLLPWLLVLFAVSVIATWAAGFISHVSLVEILIPFCVMAIANGAIYPIVVAQALRPFPHATGRAAALQNTLQLGLCFLASLVVSWLISISTPLLTTTSVMLSTVVLVALGYMMQRCEEVGCQNHGNAEVAHSESH" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YDHE-MONOMER" "multidrug efflux pump MdtK" ["NorM", "MdtK", "YdhE", "NorE"] "MQKYISEARLLLALAIPVILAQIAQTAMGFVDTVMAGGYSATDMAAVAIGTSIWLPAILFGHGLLLALTPVIAQLNGSGRRERIAHQVRQGFWLAGFVSVLIMLVLWNAGYIIRSMENIDPALADKAVGYLRALLWGAPGYLFFQVARNQCEGLAKTKPGMVMGFIGLLVNIPVNYIFIYGHFGMPELGGVGCGVATAAVYWVMFLAMVSYIKRARSMRDIRNEKGTAKPDPAVMKRLIQLGLPIALALFFEVTLFAVVALLVSPLGIVDVAGHQIALNFSSLMFVLPMSLAAAVTIRVGYRLGQGSTLDAQTAARTGLMVGVCMATLTAIFTVSLREQIALLYNDNPEVVTLAAHLMLLAAVYQISDSIQVIGSGILRGYKDTRSIFYITFTAYWVLGLPSGYILALTDLVVEPMGPAGFWIGFIIGLTSAAIMMMLRMRFLQRLPSAIILQRASR" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YDJE-MONOMER" "putative transporter YdjE" ["YdjE"] "MEQYDQIGARLDRLPLARFHYRIFGIISFSLLLTGFLSYSGNVVLAKLVSNGWSNNFLNAAFTSALMFGYFIGSLTGGFIGDYFGRRRAFRINLLIVGIAATGAAFVPDMYWLIFFRFLMGTGMGALIMVGYASFTEFIPATVRGKWSARLSFVGNWSPMLSAAIGVVVIAFFSWRIMFLLGGIGILLAWFLSGKYFIESPRWLAGKGQIAGAECQLREVEQQIEREKSIRLPPLTSYQSNSKVKVIKGTFWLLFKGEMLRRTLVAITVLIAMNISLYTITVWIPTIFVNSGIDVDKSILMTAVIMIGAPVGIFIAALIIDHFPRRLFGSTLLIIIAVLGYIYSIQTTEWAILIYGLVMIFFLYMYVCFASAVYIPELWPTHLRLRGSGFVNAVGRIVAVFTPYGVAALLTHYGSITVFMVLGVMLLLCALVLSIFGIETRKVSLEEISEVN" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YEAV-MONOMER" "putative transporter YeaV" ["YeaV"] "MVLLAMGLVIYLATSKYGNIRLGEGKPEYSTLSWLFMFICAGLGSSTLYWGVAEWAYYYQTPGLNIAPRSQQALEFSVPYSFFHWGISAWATYTLASLIMAYHFHVRKNKGLSLSGIIAAITGVRPQGPWGKLVDLMFLIATVGALTISLVVTAATFTRGLSALTGLPDNFTVQAFVILLSGGIFCLSSWIGINNGLQRLSKMVGWGAFLLPLLVLIVGPTEFITNSIINAIGLTTQNFLQMSLFTDPLGDGSFTRNWTVFYWLWWISYTPGVAMFVTRVSRGRKIKEVIWGLILGSTVGCWFFFGVMESYAIHQFINGVINVPQVLETLGGETAVQQVLMSLPAGKLFLAAYLGVMIIFLASHMDAVAYTMAATSTRNLQEGDDPDRGLRLFWCVVITLIPLSILFTGASLETMKTTVVLTALPFLVILLVKVGGFIRWLKQDYADIPAHQVEHYLPQTPVEALEKTPVLPAGTVFKGDN" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YEEF-MONOMER" null ["YeeF", "PlaP"] "MSHNVTPNTSRVELRKTLTLVPVVMMGLAYMQPMTLFDTFGIVSGLTDGHVPTAYAFALIAILFTALSYGKLVRRYPSAGSAYTYAQKSISPTVGFMVGWSSLLDYLFAPMINILLAKIYFEALVPSIPSWMFVVALVAFMTAFNLRSLKSVANFNTVIVVLQVVLIAVILGMVVYGVFEGEGAGTLASTRPFWSGDAHVIPMITGATILCFSFTGFDGISNLSEETKDAERVIPRAIFLTALIGGMIFIFATYFLQLYFPDISRFKDPDASQPEIMLYVAGKAFQVGALIFSTITVLASGMAAHAGVARLMYVMGRDGVFPKSFFGYVHPKWRTPAMNIILVGAIALLAINFDLVMATALINFGALVAFTFVNLSVISQFWIREKRNKTLKDHFQYLFLPMCGALTVGALWVNLEESSMVLGLIWAAIGLIYLACVTKSFRNPVPQYEDVA" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YEEO-MONOMER" "FMN/FAD exporter" ["YeeO"] "MLRHILTAKNLLSNPIFKFPNCLPFLSTVCCICRQFVGENLCSFADSPSLFEMWFHFLQLRSALNISSALRQVVHGTRWHAKRKSYKVLFWREITPLAVPIFMENACVLLMGVLSTFLVSWLGKDAMAGVGLADSFNMVIMAFFAAIDLGTTVVVAFSLGKRDRRRARVATRQSLVIMTLFAVLLATLIHHFGEQIIDFVAGDATTEVKALALTYLELTVLSYPAAAITLIGSGALRGAGNTKIPLLINGSLNILNIIISGILIYGLFSWPGLGFVGAGLGLTISRYIGAVAILWVLAIGFNPALRISLKSYFKPLNFSIIWEVMGIGIPASVESVLFTSGRLLTQMFVAGMGTSVIAGNFIAFSIAALINLPGSALGSASTIITGRRLGVGQIAQAEIQLRHVFWLSTLGLTAIAWLTAPFAGVMASFYTQDPQVKHVVVILIWLNALFMPIWSASWVLPAGFKGARDARYAMWVSMLSMWGCRVVVGYVLGIMLGWGVVGVWMGMFADWAVRAVLFYWRMVTGRWLWKYPRPEPQKCEKKPVVSE" ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"YEHW-MONOMER" "glycine betaine ABC transporter membrane subunit YehW" ["YehW"] "MKMLRDPLFWLIALFVALIFWLPYSQPLFAALFPQLPRPVYQQESFAALALAHFWLVGISSLFAVIIGTGAGIAVTRPWGAEFRPLVETIAAVGQTFPPVAVLAIAVPVIGFGLQPAIIALILYGVLPVLQATLAGLGAIDASVTEVAKGMGMSRGQRVRKVELPLAAPVILAGVRTSVIINIGTATIASTVGASTLGTPIIIGLSGFNTAYVIQGALLVALAAIIADRLFERLVQALSQHAK" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YEHX-MONOMER" "glycine betaine ABC transporter ATP binding subunit YehX" ["YehX"] "MIEFSHVSKLFGAQKAVNDLNLNFQEGSFSVLIGTSGSGKSTTLKMINRLVEHDSGEIRFAGEEIRSLPVLELRRRMGYAIQSIGLFPHWSVAQNIATVPQLQKWSRARIDDRIDELMALLGLESNLRERYPHQLSGGQQQRVGVARALAADPQVLLMDEPFGALDPVTRGALQQEMTRIHRLLGRTIVLVTHDIDEALRLAEHLVLMDHGEVVQQGNPLTMLTRPANDFVRQFFGRSELGVRLLSLRSVADYVRREERADGEALAEEMTLRDALSLFVARGCEVLPVVNMQGQPCGTLHFQDLLVEA" [] ["CCO-PM-BAC-NEG", "CCO-CYTOSOL"] +"YEHY-MONOMER" "glycine betaine ABC transporter membrane subunit YehY" ["YehY"] "MTYFRINPVLALLLLLTAIAAALPFISYAPNRLVSGEGRHLWQLWPQTIWMLVGVGCAWLTACFIPGKKGSICALILAQFVFVLLVWGAGKAATQLAQNGSALARTSLGSGFWLAAALALLACSDAIRRISTHPLWRWLLHMQIAIIPLWLLYSGTLNDLSLMKEYANRQDVFDDALAQHLTLLFGAVLPALVIGVPLGIWCYFSTARQGAIFSLLNVIQTVPSVALFGLLIAPLAALVTAFPWLGTLGIAGTGMTPALIALVLYALLPLVRGVVVGLNQIPRDVLESARAMGMSGAQRFLHVQLPLALPVFLRSLRVVMVQTVGMAVIAALIGAGGFGALVFQGLLSSAIDLVLLGVIPVIVLAVLTDALFDLLIALLKVKRND" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YEHZ-MONOMER" "glycine betaine ABC transporter periplasmic binding protein OsmF" ["YehZ", "OsmF"] "MPLLKLWAGSLVMLAAVSLPLQAASPVKVGSKIDTEGALLGNIILQVLESHGVPTVNKVQLGTTPVVRGAITSGELDIYPEYTGNGAFFFKDENDAAWKNAQQGYEKVKKLDSEHNKLIWLTPAPANNTWTIAVRQDVAEKNKLTSLADLSRYLQEGGTFKLAASAEFIERADALPAFEKAYGFKLGQDQLLSLAGGDTAVTIKAAAQQTSGVNAAMAYGTDGPVAALGLQTLSDPQGVQPIYAPAPVVRESVLREYPQMAQWLQPVFASLDAKTLQQLNASIAVEGLDAKKVAADYLKQKGWTK" [] ["CCO-PM-BAC-NEG", "CCO-PERI-BAC"] +"YEIJ-MONOMER" "putative nucleoside transporter" ["NupX", "YeiJ"] "MDVMRSVLGMVVLLTIAFLLSVNKKKISLRTVGAALVLQVVIGGIMLWLPPGRWVAEKVAFGVHKVMAYSDAGSAFIFGSLVGPKMDTLFDGAGFIFGFRVLPAIIFVTALVSILYYIGVMGILIRILGGIFQKALNISKIESFVAVTTIFLGQNEIPAIVKPFIDRLNRNELFTAICSGMASIAGSTMIGYAALGVPVEYLLAASLMAIPGGILFARLLSPATESSQVSFNNLSFTETPPKSIIEAAATGAMTGLKIAAGVATVVMAFVAIIALINGIIGGVGGWFGFEHASLESILGYLLAPLAWVMGVDWSDANLAGSLIGQKLAINEFVAYLNFSPYLQTAGTLDAKTVAIISFALCGFANFGSIGVVVGAFSAVAPHRAPEIAQLGLRALAAATLSNLMSATIAGFFIGLA" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YEIM-MONOMER" null ["PsuT", "YeiM", "PscT"] "MDIMRSVVGMVVLLAIAFLLSVNKKSISLRTVGAALLLQIAIGGIMLYFPPGKWAVEQAALGVHKVMSYSDAGSAFIFGSLVGPKMDVLFDGAGFIFAFRVLPAIIFVTALISLLYYIGVMGLLIRILGSIFQKALNISKIESFVAVTTIFLGQNEIPAIVKPFIDRMNRNELFTAICSGMASIAGSMMIGYAGMGVPIDYLLAASLMAIPGGILFARILSPATEPSQVTFENLSFSETPPKSFIEAAASGAMTGLKIAAGVATVVMAFVAIIALINGIIGGIGGWFGFANASLESIFGYVLAPLAWIMGVDWSDANLAGSLIGQKLAINEFVAYLSFSPYLQTGGTLEVKTIAIISFALCGFANFGSIGVVVGAFSAISPKRAPEIAQLGLRALAAATLSNLMSATIAGFFIGLA" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YEJA-MONOMER" "putative oligopeptide ABC transporter periplasmic binding protein YejA" [] "MIVRILLLFIALFTFGVQAQAIKESYAFAVLGEPRYAFNFNHFDYVNPAAPKGGQITLSALGTFDNFNRYALRGNPGARTEQLYDTLFTTSDDEPGSYYPLIAESARYADDYSWVEVAINPRARFHDGSPITARDVEFTFQKFMTEGVPQFRLVYKGTTVKAIAPLTVRIELAKPGKEDMLSLFSLPVFPEKYWKDHKLSDPLATPPLASGPYRVTSWKMGQNIVYSRVKDYWAANLPVNRGRWNFDTIRYDYYLDDNVAFEAFKAGAFDLRMENDAKNWATRYTGKNFDKKYIIKDEQKNESAQDTRWLAFNIQRPVFSDRRVREAITLAFDFEWMNKALFYNAWSRTNSYFQNTEYAARNYPDAAELVLLAPMKKDLPSEVFTQIYQPPVSKGDGYDRDNLLKADKLLNEAGWVLKGQQRVNATTGQPLSFELLLPASSNSQWVLPFQHSLQRLGINMDIRKVDNSQITNRMRSRDYDMMPRVWRAMPWPSSDLQISWSSEYINSTYNAPGVQSPVIDSLINQIIAAQGNKEKLLPLGRALDRVLTWNYYMLPMWYMAEDRLAWWDKFSQPAVRPIYSLGIDTWWYDVNKAAKLPSASKQGE" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"YEJB-MONOMER" "putative oligopeptide ABC transporter membrane subunit YejB" [] "MGAYLIRRLLLVIPTLWAIITINFFIVQIAPGGPVDQAIAAIEFGNAGVLPGAGGEGVRASHAQTGVGNISDSNYRGGRGLDPEVIAEITHRYGFDKPIHERYFKMLWDYIRFDFGDSLFRSASVLTLIKDSLPVSITLGLWSTLIIYLVSIPLGIRKAVYNGSRFDVWSSAFIIIGYAIPAFLFAILLIVFFAGGSYFDLFPLRGLVSANFDSLPWYQKITDYLWHITLPVLATVIGGFAALTMLTKNSFLDEVRKQYVVTARAKGVSEKNILWKHVFRNAMLLVIAGFPATFISMFFTGSLLIEVMFSLNGLGLLGYEATVSRDYPVMFGTLYIFTLIGLLLNIVSDISYTLVDPRIDFEGR" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YEJE-MONOMER" "putative oligopeptide ABC transporter membrane subunit YejE" [] "MSRLSPVNQARWARFRHNRRGYWSLWIFLVLFGLSLCSELIANDKPLLVRYDGSWYFPLLKNYSESDFGGPLASQADYQDPWLKQRLENNGWVLWAPIRFGATSINFATNKPFPSPPSRQNWLGTDANGGDVLARILYGTRISVLFGLMLTLCSSVMGVLAGALQGYYGGKVDLWGQRFIEVWSGMPTLFLIILLSSVVQPNFWWLLAITVLFGWMSLVGVVRAEFLRTRNFDYIRAAQALGVSDRSIILRHMLPNAMVATLTFLPFILCSSITTLTSLDFLGFGLPLGSPSLGELLLQGKNNLQAPWLGITAFLSVAILLSLLIFIGEAVRDAFDPNKAV" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YEJF-MONOMER" "putative oligopeptide ABC transporter ATP binding subunit YejF" [] "MTQTLLAIENLSVGFRHQQTVRTVVNDVSLQIEAGETLALVGESGSGKSVTALSILRLLPSPPVEYLSGDIRFHGESLLHASDQTLRGVRGNKIAMIFQEPMVSLNPLHTLEKQLYEVLSLHRGMRREAARGEILNCLDRVGIRQAAKRLTDYPHQLSGGERQRVMIAMALLTRPELLIADEPTTALDVSVQAQILQLLRELQGELNMGMLFITHNLSIVRKLAHRVAVMQNGRCVEQNYAATLFASPTHPYTQKLLNSEPSGDPVPLPEPASTLLDVEQLQVAFPIRKGILKRIVDHNVVVKNISFTLRAGETLGLVGESGSGKSTTGLALLRLINSQGSIIFDGQPLQNLNRRQLLPIRHRIQVVFQDPNSSLNPRLNVLQIIEEGLRVHQPTLSAAQREQQVIAVMHEVGLDPETRHRYPAEFSGGQRQRIAIARALILKPSLIILDEPTSSLDKTVQAQILTLLKSLQQKHQLAYLFISHDLHVVRALCHQVIILRQGEVVEQGPCARVFATPQQEYTRQLLALS" ["CCO-PM-BAC-NEG"] ["CCO-PM-BAC-NEG"] +"YFEP-MONOMER" "Mn2+/Fe2+: H+ symporter MntH" ["MntA", "MntH", "YfeP"] "MTNYRVESSSGRAARKMRLALMGPAFIAAIGYIDPGNFATNIQAGASFGYQLLWVVVWANLMAMLIQILSAKLGIATGKNLAEQIRDHYPRPVVWFYWVQAEIIAMATDLAEFIGAAIGFKLILGVSLLQGAVLTGIATFLILMLQRRGQKPLEKVIGGLLLFVAAAYIVELIFSQPNLAQLGKGMVIPSLPTSEAVFLAAGVLGATIMPHVIYLHSSLTQHLHGGSRQQRYSATKWDVAIAMTIAGFVNLAMMATAAAAFHFSGHTGVADLDEAYLTLQPLLSHAAATVFGLSLVAAGLSSTVVGTLAGQVVMQGFIRFHIPLWVRRTVTMLPSFIVILMGLDPTRILVMSQVLLSFGIALALVPLLIFTSDSKLMGDLVNSKRVKQTGWVIVVLVVALNIWLLVGTALGL" ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YGAY-MONOMER" "putative transporter YgaY, N-terminal fragment" ["YgaY", "YgaX", "YgaY_1"] "MTKPNHELSPALIVLMSIATGLAVASNYYAQPLLDTIARNFSLSASSAGFIVTAAQLGYAAGLLFLVPLGDMFERRRLIVSMTLLAAC*LPPAVSRWR**SSVRH*PVYSQSWHKFWFRWQRRWLHRINAAKWLALL*AVCCWGSCWHGQLPDCWRISAAGAPSFGLLRC*WH*WRWHYGVVCHK*NQKPTSTTHSCWVPFSVCLSAIKFCVPARCWAA*PLPISAFSGPQWPFCLPLHLLTTAMVSLVCLDLRELPERWALVRRAVLPIRANRTTPQLSVCCCYYFHGWRSGLVTLPYWR*LSESWCWISPCRACISLTRR*FIGYILMRAIA*PQVT*LATLLAVPPVR*FQPQPGNMAVGLAFVWLARRLPWLTYWSGGEVFIVRKPQ" [] ["CCO-PM-BAC-NEG"] +"YGFO-MONOMER" null ["XanQ", "YgfO", "xanthine NCS2 transporter"] "MSDINHAGSDLIFELEDRPPFHQALVGAITHLLAIFVPMVTPALIVGAALQLSAETTAYLVSMAMIASGIGTWLQVNRYGIVGSGLLSIQSVNFSFVTVMIALGSSMKSDGFHEELIMSSLLGVSFVGAFLVVGSSFILPYLRRVITPTVSGIVVLMIGLSLIKVGIIDFGGGFAAKSSGTFGNYEHLGVGLLVLIVVIGFNCCRSPLLRMGGIAIGLCVGYIASLCLGMVDFSSMRNLPLITIPHPFKYGFSFSFHQFLVVGTIYLLSVLEAVGDITATAMVSRRPIQGEEYQSRLKGGVLADGLVSVIASAVGSLPLTTFAQNNGVIQMTGVASRYVGRTIAVMLVILGLFPMIGGFFTTIPSAVLGGAMTLMFSMIAIAGIRIIITNGLKRRETLIVATSLGLGLGVSYDPEIFKILPASIYVLVENPICAGGLTAILLNIILPGGYRQENVLPGITSAEEMD" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YGFU-MONOMER" "urate:H+ symporter" ["UacT", "YgfU"] "MSAIDSQLPSSSGQDRPTDEVDRILSPGKLIILGLQHVLVMYAGAVAVPLMIGDRLGLSKEAIAMLISSDLFCCGIVTLLQCIGIGRFMGIRLPVIMSVTFAAVTPMIAIGMNPDIGLLGIFGATIAAGFITTLLAPLIGRLMPLFPPLVTGVVITSIGLSIIQVGIDWAAGGKGNPQYGNPVYLGISFAVLIFILLITRYAKGFMSNVAVLLGIVFGFLLSWMMNEVNLSGLHDASWFAIVTPMSFGMPIFDPVSILTMTAVLIIVFIESMGMFLALGEIVGRKLSSHDIIRGLRVDGVGTMIGGTFNSFPHTSFSQNVGLVSVTRVHSRWVCISSGIILILFGMVPKMAVLVASIPQFVLGGAGLVMFGMVLATGIRILSRCNYTTNRYNLYIVAISLGVGMTPTLSHDFFSKLPAVLQPLLHSGIMLATLSAVVLNVFFNGYQHHADLVKESVSDKDLKVRTVRMWLLMRKLKKNEHGE" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YGGA-MONOMER" "L-arginine exporter" ["YggA", "ArgO"] "MFSYYFQGLALGAAMILPLGPQNAFVMNQGIRRQYHIMIALLCAISDLVLICAGIFGGSALLMQSPWLLALVTWGGVAFLLWYGFGAFKTAMSSNIELASAEVMKQGRWKIIATMLAVTWLNPHVYLDTFVVLGSLGGQLDVEPKRWFALGTISASFLWFFGLALLAAWLAPRLRTAKAQRIINLVVGCVMWFIALQLARDGIAHAQALFS" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YGIS-MONOMER" "putative deoxycholate binding periplasmic protein" ["YgiS"] "MYTRNLLWLVSLVSAAPLYAADVPANTPLAPQQVFRYNNHSDPGTLDPQKVEENTAAQIVLDLFEGLVWMDGEGQVQPAQAERWEILDGGKRYIFHLRSGLQWSDGQPLTAEDFVLGWQRAVDPKTASPFAGYLAQAHINNAAAIVAGKADVTSLGVKATDDRTLEVTLEQPVPWFTTMLAWPTLFPVPHHVIAKHGDSWSKPENMVYNGAFVLDQWVVNEKITARKNPKYRDAQHTVLQQVEYLALDNSVTGYNRYRAGEVDLTWVPAQQIPAIEKSLPGELRIIPRLNSEYYNFNLEKPPFNDVRVRRALYLTVDRQLIAQKVLGLRTPATTLTPPEVKGFSATTFDELQKPMSERVAMAKALLKQAGYDASHPLRFELFYNKYDLHEKTAIALSSEWKKWLGAQVTLRTMEWKTYLDARRAGDFMLSRQSWDATYNDASSFLNTLKSDSEENVGHWKNAQYDALLNQATQITDATKRNALYQQAEVIINQQAPLIPIYYQPLIKLLKPYVGGFPLHNPQDYVYSKELYIKAH" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"YGJE-MONOMER" null ["YgjC", "YgjE", "TtdT", "TtdT tartrate/succinate DASS transporter"] "MKPSTEWWRYLAPLAVIAIIALLPVPAGLENHTWLYFAVFTGVIVGLILEPVPGAVVAMVGISIIAILSPWLLFSPEQLAQPGFKFTAKSLSWAVSGFSNSVIWLIFAAFMFGTGYEKTGLGRRIALILVKKMGHRTLFLGYAVMFSELILAPVTPSNSARGAGIIYPIIRNLPPLYQSQPNDSSSRSIGSYIMWMGIVADCVTSAIFLTAMAPNLLLIGLMKSASHATLSWGDWFLGMLPLSILLVLLVPWLAYVLYPPVLKSGDQVPRWAETELQAMGPLCSREKRMLGLMVGALVLWIFGGDYIDAAMVGYSVVALMLLLRIISWDDIVSNKAAWNVFFWLASLITLATGLNNTGFISWFGKLLAGSLSGYSPTMVMVALIVVFYLLRYFFASATAYTSALAPMMIAAALAMPEIPLPVFCLMVGAAIGLGSILTPYATGPSPIYYGSGYLPTADYWRLGAIFGLIFLVLLVITGLLWMPVVLL" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YGJI-MONOMER" "putative transporter YgjI" ["YgjI"] "MSDTKRNTIGKFGLLSLTFAAVYSFNNVINNNIELGLASAPMFFLATIFYFIPFCLIIAEFVSLNKNSEAGVYAWVKSSLGGRWAFITAYTYWFVNLFFFTSLLPRVIAYASYAFLGYEYIMTPVATTIISMVLFAFSTWVSTNGAKMLGPITSVTSTLMLLLTLSYILLAGTALVGGVQPADAITVDAMIPNFNWAFLGVTTWIFMAAGGAESVAVYVNDVKGGSKSFVKVIILAGIFIGVLYSVSSVLINVFVSSKELKFTGGSVQVFHGMAAYFGLPEALMNRFVGLVSFTAMFGSLLMWTATPVKIFFSEIPEGIFGKKTVELNENGVPARAAWIQFLIVIPLMIIPMLGSNTVQDLMNTIINMTAAASMLPPLFIMLAYLNLRAKLDHLPRDFRMGSRRTGIIVVSMLIAIFAVGFVASTFPTGANILTIIFYNVGGIVIFLGFAWWKYSKYIKGLTAEERHIEATPASNVD" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YGJU-MONOMER" null ["YgjU", "SstT", "SstT DAACS transporter"] "MTTQRSPGLFRRLAHGSLVKQILVGLVLGILLAWISKPAAEAVGLLGTLFVGALKAVAPILVLMLVMASIANHQHGQKTNIRPILFLYLLGTFSAALAAVVFSFAFPSTLHLSSSAGDISPPSGIVEVMRGLVMSMVSNPIDALLKGNYIGILVWAIGLGFALRHGNETTKNLVNDMSNAVTFMVKLVIRFAPIGIFGLVSSTLATTGFSTLWGYAQLLVVLVGCMLLVALVVNPLLVWWKIRRNPFPLVLLCLRESGVYAFFTRSSAANIPVNMALCEKLNLDRDTYSVSIPLGATINMAGAAITITVLTLAAVNTLGIPVDLPTALLLSVVASLCACGASGVAGGSLLLIPLACNMFGISNDIAMQVVAVGFIIGVLQDSCETALNSSTDVLFTAAACQAEDDRLANSALRN" ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YHAO-MONOMER" "cysteine detoxification protein CyuP" ["CyuP", "DlsT", "YhaO"] "MEIASNKGVIADASTPAGRAGMSESEWREAIKFDSTDTGWVIMSIGMAIGAGIVFLPVQVGLMGLWVFLLSSVIGYPAMYLFQRLFINTLAESPECKDYPSVISGYLGKNWGILLGALYFVMLVIWMFVYSTAITNDSASYLHTFGVTEGLLSDSPFYGLVLICILVAISSRGEKLLFKISTGMVLTKLLVVAALGVSMVGMWHLYNVGSLPPLGLLVKNAIITLPFTLTSILFIQTLSPMVISYRSREKSIEVARHKALRAMNIAFGILFVTVFFYAVSFTLAMGHDEAVKAYEQNISALAIAAQFISGDGAAWVKVVSVILNIFAVMTAFFGVYLGFREATQGIVMNILRRKMPAEKINENLVQRGIMIFAILLAWSAIVLNAPVLSFTSICSPIFGMVGCLIPAWLVYKVPALHKYKGMSLYLIIVTGLLLCVSPFLAFS" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YHAU-MONOMER" "galactarate/D-glucarate transporter GarP" ["GarP", "YhaU"] "MILDTVDEKKKGVHTRYLILLIIFIVTAVNYADRATLSIAGTEVAKELQLSAVSMGYIFSAFGWAYLLMQIPGGWLLDKFGSKKVYTYSLFFWSLFTFLQGFVDMFPLAWAGISMFFMRFMLGFSEAPSFPANARIVAAWFPTKERGTASAIFNSAQYFSLALFSPLLGWLTFAWGWEHVFTVMGVIGFVLTALWIKLIHNPTDHPRMSAEELKFISENGAVVDMDHKKPGSAAASGPKLHYIKQLLSNRMMLGVFFGQYFINTITWFFLTWFPIYLVQEKGMSILKVGLVASIPALCGFAGGVLGGVFSDYLIKRGLSLTLARKLPIVLGMLLASTIILCNYTNNTTLVVMLMALAFFGKGFGALGWPVISDTAPKEIVGLCGGVFNVFGNVASIVTPLVIGYLVSELHSFNAALVFVGCSALMAMVCYLFVVGDIKRMELQK" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YHBG-MONOMER" "lipopolysaccharide transport system ATP binding protein LptB" ["YhbG"] "MATLTAKNLAKAYKGRRVVEDVSLTVNSGEIVGLLGPNGAGKTTTFYMVVGIVPRDAGNIIIDDDDISLLPLHARARRGIGYLPQEASIFRRLSVYDNLMAVLQIRDDLSAEQREDRANELMEEFHIEHLRDSMGQSLSGGERRRVEIARALAANPKFILLDEPFAGVDPISVIDIKRIIEHLRDSGLGVLITDHNVRETLAVCERAYIVSQGHLIAHGTPTEILQDEHVKRVYLGEDFRL" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-CYTOSOL", "CCO-PM-BAC-NEG"] +"YHBN-MONOMER" "lipopolysaccharide transport system protein LptA" ["YhbN"] "MKFKTNKLSLNLVLASSLLAASIPAFAVTGDTDQPIHIESDQQSLDMQGNVVTFTGNVIVTQGTIKINADKVVVTRPGGEQGKEVIDGYGKPATFYQMQDNGKPVEGHASQMHYELAKDFVVLTGNAYLQQVDSNIKGDKITYLVKEQKMQAFSDKGKRVTTVLVPSQLQDKNNKGQTPAQKKGN" ["CCO-OUTER-MEM", "CCO-PERI-BAC"] ["CCO-OUTER-MEM", "CCO-PERI-BAC"] +"YHCL-MONOMER" "putative transporter DcuD" ["YhcL", "DcuD"] "MFGIIISVIVLITMGYLILKNYKPQVVLAAAGIFLMMCGVWLGFGGVLDPTKSSGYLIVDIYNEILRMLSNRIAGLGLSIMAVGGYARYMERIGASRAMVSLLSRPLKLIRSPYIILSATYVIGQIMAQFITSASGLGMLLMVTLFPTLVSLGVSRLSAVAVIATTMSIEWGILETNSIFAAQVAGMKIATYFFHYQLPVASCVIISVAISHFFVQRAFDKKDKNINHEQAEQKALDNVPPLYYAILPVMPLILMLGSLFLAHVGLMQSELHLVVVMLLSLTVTMFVEFFRKHNLRETMDDVQAFFDGMGTQFANVVTLVVAGEIFAKGLTTIGTVDAVIRGAEHSGLGGIGVMIIMALVIAICAIVMGSGNAPFMSFASLIPNIAAGLHVPAVVMIMPMHFATTLARAVSPITAVVVVTSGIAGVSPFAVVKRTAIPMAVGFVVNMIATITLFY" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YHDW-MONOMER" "putative ABC transporter periplasmic binding protein YhdW" ["YhdW"] "MKKMMIATLAAASVLLAVANQALLARRLMPFRKKVLCNAGSVMDYLGSLMPMLTVSFQVLMLIFVVVLPLLYLVTTRK*NIPRSLQKNASPLYSQGRWICSPVIRPGLHLAMPGWEWHLPASLITTALAS*RTIKRG*KARKNWMALPSVFRRVLIPNSTSPTTSRQTI*STHR*LSIALTNQRRHWNLVAAIRWPRINHNCMPCASN*ATQLNGLSYRKLSQKNRLVR*FVVAMMNGSRLYAGRFSPC*MLKRWASIPRTSMKKRLIQQRLIWHICWVKKAITARI*SWIINGPITSSNRWVTTRKFLSVT*VQKAR*KLNVGKIISGITAVFSTHRPC" [] ["CCO-PERI-BAC"] +"YHDX-MONOMER" "putative ABC transporter membrane subunit YhdX" ["YhdX"] "MSHRRSTVKGSLSFANPTVRAWLFQILAVVAVVGIVGWLFHNTVTNLNNRGITSGFAFLDRGAGFGIVQHLIDYQQGDTYGRVFIVGLLNTLLVSALCIVFASVLGFFIGLARLSDNWLLRKLSTIYIEIFRNIPPLLQIFFWYFAVLRNLPGPRQAVSAFDLAFLSNRGLYIPSPQLGDGFIAFILAVVMAIVLSVGLFRFNKTYQIKTGQLRRTWPIAAVLIIGLPLLAQWLFGAALHWDVPALRGFNFRGGMVLIPELAALTLALSVYTSAFIAEIIRAGIQAVPYGQHEAARSLGLPNPVTLRQVIIPQALRVIIPPLTSQYLNIVKNSSLAAAIGYPDMVSLFAGTVLNQTGQAIETIAMTMSVYLIISLTISLLMNIYNRRIAIVER" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YHDY-MONOMER" "putative ABC transporter membrane subunit YhdY" ["YhdY"] "MTKVLLSHPPRPASHNSSRAMVWVRKNLFSSWSNSLLTIGCIWLMWELIPPLLNWAFLQANWVGSTRADCTKAGACWVFIHERFGQFMYGLYPHDQRWRINLALLIGLVSIAPMFWKILPHRGRYIAAWAVIYPLIVWWLMYGGFFALERVETRQWGGLTLTLIIASVGIAGALPWGILLALGRRSHMPIVRILSVIFIEFWRGVPLITVLFMSSVMLPLFMAEGTSIDKLIRALVGVILFQSAYVAEVVRGGLQALPKGQYEAAESLALGYWKTQGLVILPQALKLVIPGLVNTIIALFKDTSLVIIIGLFDLFSSVQQATVDPAWLGMSTEGYVFAALIYWIFCFSMSRYSQYLEKRFNTGRTPH" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YHDZ-MONOMER" "putative ABC transporter ATP-binding subunit YhdZ" ["YhdZ"] "MSQILLQPANAMITLENVNKWYGQFHVLKNINLTVQPGERIVLCGPSGSGKSTTIRCINHLEEHQQGRIVVDGIELNEDIRNIERVRQEVGMVFQHFNLFPHLTVLQNCTLAPIWVRKMPKKEAEDLAVHYLERVRIAEHAHKFPGQISGGQQQRVAIARSLCMKPKIMLFDEPTSALDPEMVKEVLDTMIGLAQSGMTMLCVTHEMGFARTVADRVIFMDRGEIVEQAAPDEFFAHPKSERTRAFLSQVIH" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE", "CCO-CYTOSOL"] +"YHES-MONOMER" "putative ATP-binding protein YheS" ["YheS"] "MIVFSSLQIRRGVRVLLDNATATINPGQKVGLVGKNGCGKSTLLALLKNEISADGGSYTFPGSWQLAWVNQETPALPQAALEYVIDGDREYRQLEAQLHDANERNDGHAIATIHGKLDAIDAWSIRSRAASLLHGLGFSNEQLERPVSDFSGGWRMRLNLAQALICRSDLLLLDEPTNHLDLDAVIWLEKWLKSYQGTLILISHDRDFLDPIVDKIIHIEQQSMFEYTGNYSSFEVQRATRLAQQQAMYESQQERVAHLQSYIDRFRAKATKAKQAQSRIKMLERMELIAPAHVDNPFRFSFRAPESLPNPLLKMEKVSAGYGDRIILDSIKLNLVPGSRIGLLGRNGAGKSTLIKLLAGELAPVSGEIGLAKGIKLGYFAQHQLEYLRADESPIQHLARLAPQELEQKLRDYLGGFGFQGDKVTEETRRFSGGEKARLVLALIVWQRPNLLLLDEPTNHLDLDMRQALTEALIEFEGALVVVSHDRHLLRSTTDDLYLVHDRKVEPFDGDLEDYQQWLSDVQKQENQTDEAPKENANSAQARKDQKRREAELRAQTQPLRKEIARLEKEMEKLNAQLAQAEEKLGDSELYDQSRKAELTACLQQQASAKSGLEECEMAWLEAQEQLEQMLLEGQSN" [] ["CCO-PM-BAC-NEG", "CCO-CYTOSOL"] +"YHFC-MONOMER" "putative transporter TsgA" ["GutS", "YhfH", "TsgA", "YhfC"] "MTNSNRIKLTWISFLSYALTGALVIVTGMVMGNIADYFNLPVSSMSNTFTFLNAGILISIFLNAWLMEIVPLKTQLRFGFLLMVLAVAGLMFSHSLALFSAAMFILGVVSGITMSIGTFLVTQMYEGRQRGSRLLFTDSFFSMAGMIFPMIAAFLLARSIEWYWVYACIGLVYVAIFILTFGCEFPALGKHAPKTDAPVEKEKWGIGVLFLSVAALCYILGQLGFISWVPEYAKGLGMSLNDAGTLVSNFWMSYMVGMWAFSFILRFFDLQRILTVLAGLAAILMYVFNTGTPAHMAWSILALGFFSSAIYTTIITLGSQQTKVPSPKLVNFVLTCGTIGTMLTFVVTGPIVEHSGPQAALLTANGLYAVVFVMCFLLGFVSRHRQHNTLTSH" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YHFM-MONOMER" "fructoselysine/psicoselysine transporter" ["YhfM", "FrlA"] "MGSQELQRKLGFWAVLAIAVGTTVGSGIFVSVGEVAKAAGTPWLTVLAFVIGGLIVIPQMCVYAELSTAYPENGADYVYLKNAGSRPLAFLSGWASFWANDAPSLSIMALAIVSNLGFLTPIDPLLGKFIAAGLIIAFMLLHLRSVEGGAAFQTLITIAKIIPFTIVIGLGIFWFKAENFAAPTTTAIGATGSFMALLAGISATSWSYTGMASICYMTGEIKNPGKTMPRALIGSCLLVLVLYTLLALVISGLMPFDKLANSETPISDALTWIPALGSTAGIFVAITAMIVILGSLSSCVMYQPRLEYAMAKDNLFFKCFGHVHPKYNTPDVSIILQGALGIFFIFVSDLTSLLGYFTLVMCFKNTLTFGSIIWCRKRDDYKPLWRTPAFGLMTTLAIASSLILVASTFVWAPIPGLICAVIVIATGLPAYAFWAKRSRQLNALS" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YHHJ-MONOMER" "ABC transporter family protein YhhJ" ["YhhJ"] "MRHLRNIFNLGIKELRSLLGDKAMLTLIVFSFTVSVYSSATVTPGSLNLAPIAIADMDQSQLSNRIVNSFYRPWFLPPEMITADEMDAGLDAGRYTFAINIPPNFQRDVLAGRQPDIQVNVDATRMSQAFTGNGYIQNIINGEVNSFVARYRDNSEPLVSLETRMRFNPNLDPAWFGGVMAIINNITMLAIVLTGSALIREREHGTVEHLLVMPITPFEIMMAKIWSMGLVVLVVSGLSLVLMVKGVLGVPIEGSIPLFMLGVALSLFATTSIGIFMGTIARSMPQLGLLVILVLLPLQMLSGGSTPRESMPQMVQDIMLTMPTTHFVSLAQAILYRGAGFEIVWPQFLTLMAIGGAFFTIALLRFRKTIGTMA" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YHHO-MONOMER" "Zn2+/Cd2+/Pb2+ exporting P-type ATPase" ["YhhO", "ZntA"] "MSTPDNHGKKAPQFAAFKPLTTVQNANDCCCDGACSSTPTLSENVSGTRYSWKVSGMDCAACARKVENAVRQLAGVNQVQVLFATEKLVVDADNDIRAQVESALQKAGYSLRDEQAAEEPQASRLKENLPLITLIVMMAISWGLEQFNHPFGQLAFIATTLVGLYPIARQALRLIKSGSYFAIETLMSVAAIGALFIGATAEAAMVLLLFLIGERLEGWAASRARQGVSALMALKPETATRLRKGEREEVAINSLRPGDVIEVAAGGRLPADGKLLSPFASFDESALTGESIPVERATGDKVPAGATSVDRLVTLEVLSEPGASAIDRILKLIEEAEERRAPIERFIDRFSRIYTPAIMAVALLVTLVPPLLFAASWQEWIYKGLTLLLIGCPCALVISTPAAITSGLAAAARRGALIKGGAALEQLGRVTQVAFDKTGTLTVGKPRVTAIHPATGISESELLTLAAAVEQGATHPLAQAIVREAQVAELAIPTAESQRALVGSGIEAQVNGERVLICAAGKHPADAFTGLINELESAGQTVVLVVRNDDVLGVIALQDTLRADAATAISELNALGVKGVILTGDNPRAAAAIAGELGLEFKAGLLPEDKVKAVTELNQHAPLAMVGDGINDAPAMKAAAIGIAMGSGTDVALETADAALTHNHLRGLVQMIELARATHANIRQNITIALGLKGIFLVTTLLGMTGLWLAVLADTGATVLVTANALRLLRRR" ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"YHHS-MONOMER" "putative transporter YhhS" ["YhhS"] "MPEPVAEPALNGLRLNLRIVSIVMFNFASYLTIGLPLAVLPGYVHDVMGFSAFWAGLVISLQYFATLLSRPHAGRYADSLGPKKIVVFGLCGCFLSGLGYLTAGLTASLPVISLLLLCLGRVILGIGQSFAGTGSTLWGVGVVGSLHIGRVISWNGIVTYGAMAMGAPLGVVFYHWGGLQALALIIMGVALVAILLAIPRPTVKASKGKPLPFRAVLGRVWLYGMALALASAGFGVIATFITLFYDAKGWDGAAFALTLFSCAFVGTRLLFPNGINRIGGLNVAMICFSVEIIGLLLVGVATMPWMAKIGVLLAGAGFSLVFPALGVVAVKAVPQQNQGAALATYTVFMDLSLGVTGPLAGLVMSWAGVPVIYLAAAGLVAIALLLTWRLKKRPPEHVPEAASSS" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YHIH-MONOMER" "ribosome-associated ATPase" ["YhiG", "RbbA", "YhiH"] "MTHLELVPVPPVAQLAGVSQHYGKTVALNNITLDIPARCMVGLIGPDGVGKSSLLSLISGARVIEQGNVMVLGGDMRDPKHRRDVCPRIAWMPQGLGKNLYHTLSVYENVDFFARLFGHDKAEREVRINELLTSTGLAPFRDRPAGKLSGGMKQKLGLCCALIHDPELLILDEPTTGVDPLSRSQFWDLIDSIRQRQSNMSVLVATAYMEEAERFDWLVAMNAGEVLATGSAEELRQQTQSATLEEAFINLLPQAQRQAHQAVVIPPYQPENAEIAIEARDLTMRFGSFVAVDHVNFRIPRGEIFGFLGSNGCGKSTTMKMLTGLLPASEGEAWLFGQPVDPKDIDTRRRVGYMSQAFSLYNELTVRQNLELHARLFHIPEAEIPARVAEMSERFKLNDVEDILPESLPLGIRQRLSLAVAVIHRPEMLILDEPTSGVDPVARDMFWQLMVDLSRQDKVTIFISTHFMNEAERCDRISLMHAGKVLASGTPQELVEKRGAASLEEAFIAYLQEAAGQSNEAEAPPVVHDTTHAPRQGFSLRRLFSYSRREALELRRDPVRSTLALMGTVILMLIMGYGISMDVENLRFAVLDRDQTVSSQAWTLNLSGSRYFIEQPPLTSYDELDRRMRAGDITVAIEIPPNFGRDIARGTPVELGVWIDGAMPSRAETVKGYVQAMHQSWLQDVASRQSTPASQSGLMNIETRYRYNPDVKSLPAIVPAVIPLLLMMIPSMLSALSVVREKELGSIINLYVTPTTRSEFLLGKQLPYIALGMLNFFLLCGLSVFVFGVPHKGSFLTLTLAALLYIIIATGMGLLISTFMKSQIAAIFGTAIITLIPATQFSGMIDPVASLEGPGRWIGEVYPTSHFLTIARGTFSKALDLTDLWQLFIPLLIAIPLVMGLSILLLKKQEG" ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"YHIP-MONOMER" "dipeptide/tripeptide:H+ symporter DtpB" ["DtpB", "YhiP"] "MNTTTPMGMLQQPRPFFMIFFVELWERFGYYGVQGVLAVFFVKQLGFSQEQAFVTFGAFAALVYGLISIGGYVGDHLLGTKRTIVLGALVLAIGYFMTGMSLLKPDLIFIALGTIAVGNGLFKANPASLLSKCYPPKDPRLDGAFTLFYMSINIGSLIALSLAPVIADRFGYSVTYNLCGAGLIIALLVYIACRGMVKDIGSEPDFRPMSFSKLLYVLLGSVVMIFVCAWLMHNVEVANLVLIVLSIVVTIIFFRQAFKLDKTGRNKMFVAFVLMLEAVVFYILYAQMPTSLNFFAINNVHHEILGFSINPVSFQALNPFWVVLASPILAGIYTHLGNKGKDLSMPMKFTLGMFMCSLGFLTAAAAGMWFADAQGLTSPWFIVLVYLFQSLGELFISALGLAMIAALVPQHLMGFILGMWFLTQAAAFLLGGYVATFTAVPDNITDPLETLPVYTNVFGKIGLVTLGVAVVMLLMVPWLKRMIATPESH" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YHIV-MONOMER" "multidrug efflux pump RND permease MdtF" ["YhiV", "MdtF"] "MANYFIDRPVFAWVLAIIMMLAGGLAIMNLPVAQYPQIAPPTITVSATYPGADAQTVEDSVTQVIEQNMNGLDGLMYMSSTSDAAGNASITLTFETGTSPDIAQVQVQNKLQLAMPSLPEAVQQQGISVDKSSSNILMVAAFISDNGSLNQYDIADYVASNIKDPLSRTAGVGSVQLFGSEYAMRIWLDPQKLNKYNLVPSDVISQIKVQNNQISGGQLGGMPQAADQQLNASIIVQTRLQTPEEFGKILLKVQQDGSQVLLRDVARVELGAEDYSTVARYNGKPAAGIAIKLAAGANALDTSRAVKEELNRLSAYFPASLKTVYPYDTTPFIEISIQEVFKTLVEAIILVFLVMYLFLQNFRATIIPTIAVPVVILGTFAILSAVGFTINTLTMFGMVLAIGLLVDDAIVVVENVERVIAEDKLPPKEATHKSMGQIQRALVGIAVVLSAVFMPMAFMSGATGEIYRQFSITLISSMLLSVFVAMSLTPALCATILKAAPEGGHKPNALFARFNTLFEKSTQHYTDSTRSLLRCTGRYMVVYLLICAGMAVLFLRTPTSFLPEEDQGVFMTTAQLPSGATMVNTTKVLQQVTDYYLTKEKDNVQSVFTVGGFGFSGQGQNNGLAFISLKPWSERVGEENSVTAIIQRAMIALSSINKAVVFPFNLPAVAELGTASGFDMELLDNGNLGHEKLTQARNELLSLAAQSPNQVTGVRPNGLEDTPMFKVNVNAAKAEAMGVALSDINQTISTAFGSSYVNDFLNQGRVKKVYVQAGTPFRMLPDNINQWYVRNASGTMAPLSAYSSTEWTYGSPRLERYNGIPSMEILGEAAAGKSTGDAMKFMADLVAKLPAGVGYSWTGLSYQEALSSNQAPALYAISLVVVFLALAALYESWSIPFSVMLVVPLGVVGALLATDLRGLSNDVYFQVGLLTTIGLSAKNAILIVEFAVEMMQKEGKTPIEAIIEAARMRLRPILMTSLAFILGVLPLVISHGAGSGAQNAVGTGVMGGMFAATVLAIYFVPVFFVVVEHLFARFKKA" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YHJE-MONOMER" "putative transporter YhjE" ["YhjE"] "MQATATTLDHEQEYTPINSRNKVLVASLIGTAIEFFDFYIYATAAVIVFPHIFFPQGDPTAATLQSLATFAIAFVARPIGSAVFGHFGDRVGRKATLVASLLTMGISTVVIGLLPGYATIGIFAPLLLALARFGQGLGLGGEWGGAALLATENAPPRKRALYGSFPQLGAPIGFFFANGTFLLLSWLLTDEQFMSWGWRVPFIFSAVLVIIGLYVRVSLHESPVFEKVAKAKKQVKIPLGTLLTKHVRVTVLGTFIMLATYTLFYIMTVYSMTFSTAAAPVGLGLPRNEVLWMLMMAVIGFGVMVPVAGLLADAFGRRKSMVIITTLIILFALFAFNPLLGSGNPILVFAFLLLGLSLMGLTFGPMGALLPELFPTEVRYTGASFSYNVASILGASVAPYIAAWLQTNYGLGAVGLYLAAMAGLTLIALLLTHETRHQSL" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YHJV-MONOMER" "putative transporter YhjV" ["YhjV"] "MQHNTLSKHNQKLPFTRYDFGWVLLCIGMAIGAGTVLMPVQIGLKGIWVFITAAIIAYPATWVVQDIYLKTLSESDSCNDYTDIISHYLGKNWGIFLGVIYFLMIIHGIFIYSLSVVFDSASYLKTFGLTDADLSQSLLYKVAIFAVLVAIASGGERLLFKISGPMVVVKVGIIVVFGFAMIPHWNFANITAFPQASVFFRDVLLTIPFCFFSAVFIQVLNPMNIAYRKREADKVLATRLALRTHRISYITLIAVILFFAFSFTFSISHEEAVSAFEQNISALALAAQVIPGHIIHITSTVLNIFAVLTAFFGIYLGFHEAIKGIILNLLSRIIDTKKINSRVLTLAICAFIVITLTIWVSFRVSVLVFFQLGSPLYGIVSCLIPFFLIYKVAQLEKLRGFKAWLILLYGILLCLSPLLKLIE" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YHJX-MONOMER" "putative transporter YhjX" ["YhjX"] "MTPSNYQRTRWLTLIGTIITQFALGSVYTWSLFNGALSAKLDAPVSQVAFSFGLLSLGLAISSSVAGKLQERFGVKRVTMASGILLGLGFFLTAHSDNLMMLWLSAGVLVGLADGAGYLLTLSNCVKWFPERKGLISAFAIGSYGLGSLGFKFIDTQLLETVGLEKTFVIWGAIALLMIVFGATLMKDAPKQEVKTSNGVVEKDYTLAESMRKPQYWMLAVMFLTACMSGLYVIGVAKDIAQSLAHLDVVSAANAVTVISIANLSGRLVLGILSDKIARIRVITIGQVISLVGMAALLFAPLNAVTFFAAIACVAFNFGGTITVFPSLVSEFFGLNNLAKNYGVIYLGFGIGSICGSIIASLFGGFYVTFYVIFALLILSLALSTTIRQPEQKMLREAHGSL" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YICE-MONOMER" null ["YicE", "XanP", "xanthine NCS2 transporter"] "MSVSTLESENAQPVAQTQNSELIYRLEDRPPLPQTLFAACQHLLAMFVAVITPALLICQALGLPAQDTQHIISMSLFASGVASIIQIKAWGPVGSGLLSIQGTSFNFVAPLIMGGTALKTGGADVPTMMAALFGTLMLASCTEMVISRVLHLARRIITPLVSGVVVMIIGLSLIQVGLTSIGGGYAAMSDNTFGAPKNLLLAGVVLALIILLNRQRNPYLRVASLVIAMAAGYALAWFMGMLPESNEPMTQELIMVPTPLYYGLGIEWSLLLPLMLVFMITSLETIGDITATSDVSEQPVSGPLYMKRLKGGVLANGLNSFVSAVFNTFPNSCFGQNNGVIQLTGVASRYVGFVVALMLIVLGLFPAVSGFVQHIPEPVLGGATLVMFGTIAASGVRIVSREPLNRRAILIIALSLAVGLGVSQQPLILQFAPEWLKNLLSSGIAAGGITAIVLNLIFPPEKQ" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YICJ-MONOMER" "putative xyloside transporter YicJ" ["YicJ"] "MKSEVLSVKEKIGYGMGDAASHIIFDNVMLYMMFFYTDIFGIPAGFVGTMFLVARALDAISDPCMGLLADRTRSRWGKFRPWVLFGALPFGIVCVLAYSTPDLSMNGKMIYAAITYTLLTLLYTVVNIPYCALGGVITNDPTQRISLQSWRFVLATAGGMLSTVLMMPLVNLIGGDNKPLGFQGGIAVLSVVAFMMLAFCFFTTKERVEAPPTTTSMREDLRDIWQNDQWRIVGLLTIFNILAVCVRGGAMMYYVTWILGTPEVFVAFLTTYCVGNLIGSALAKPLTDWKCKVTIFWWTNALLAVISLAMFFVPMQASITMFVFIFVIGVLHQLVTPIQWVMMSDTVDYGEWCNGKRLTGISFAGTLFVLKLGLAFGGALIGWMLAYGGYDAAEKAQNSATISIIIALFTIVPAICYLLSAIIAKRYYSLTTHNLKTVMEQLAQGKRRCQQQFTSQEVQN" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YICM-MONOMER" "purine ribonucleoside exporter" ["YicM", "NepI", "NepI MFS ribonucleoside transporter"] "MSEFIAENRGADAITRPNWSAVFSVAFCVACLIIVEFLPVSLLTPMAQDLGISEGVAGQSVTVTAFVAMFASLFITQTIQATDRRYVVILFAVLLTLSCLLVSFANSFSLLLIGRACLGLALGGFWAMSASLTMRLVPPRTVPKALSVIFGAVSIALVIAAPLGSFLGELIGWRNVFNAAAVMGVLCIFWIIKSLPSLPGEPSHQKQNTFRLLQRPGVMAGMIAIFMSFAGQFAFFTYIRPVYMNLAGFGVDGLTLVLLSFGIASFIGTSLSSFILKRSVKLALAGAPLILAVSALVLTLWGSDKIVATGVAIIWGLTFALVPVGWSTWITRSLADQAEKAGSIQVAVIQLANTCGAAIGGYALDNIGLTSPLMLSGTLMLLTALLVTAKVKMKKS" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YIDC" "membrane protein insertase YidC" ["YidC"] "MDSQRNLLVIALLFVSFMIWQAWEQDKNPQPQAQQTTQTTTTAAGSAADQGVPASGQGKLISVKTDVLDLTINTRGGDVEQALLPAYPKELNSTQPFQLLETSPQFIYQAQSGLTGRDGPDNPANGPRPLYNVEKDAYVLAEGQNELQVPMTYTDAAGNTFTKTFVLKRGDYAVNVNYNVQNAGEKPLEISSFGQLKQSITLPPHLDTGSSNFALHTFRGAAYSTPDEKYEKYKFDTIADNENLNISSKGGWVAMLQQYFATAWIPHNDGTNNFYTANLGNGIAAIGYKSQPVLVQPGQTGAMNSTLWVGPEIQDKMAAVAPHLDLTVDYGWLWFISQPLFKLLKWIHSFVGNWGFSIIIITFIVRGIMYPLTKAQYTSMAKMRMLQPKIQAMRERLGDDKQRISQEMMALYKAEKVNPLGGCFPLLIQMPIFLALYYMLMGSVELRQAPFALWIHDLSAQDPYYILPILMGVTMFFIQKMSPTTVTDPMQQKIMTFMPVIFTVFFLWFPSGLVLYYIVSNLVTIIQQQLIYRGLEKRGLHSREKKKS" ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YIDK-MONOMER" "putative transporter YidK" ["YidK"] "MNSLQILSFVGFTLLVAVITWWKVRKTDTGSQQGYFLAGRSLKAPVIAASLMLTNLSTEQLVGLSGQAYKSGMSVMGWEVTSAVTLIFLALIFLPRYLKRGIATIPDFLEERYDKTTRIIIDFCFLIATGVCFLPIVLYSGALALNSLFHVGESLQISHGAAIWLLVILLGLAGILYAVIGGLRAMAVADSINGIGLVIGGLMVPVFGLIAMGKGSFMQGIEQLTTVHAEKLNSIGGPTDPLPIGAAFTGLILVNTFYWCTNQGIVQRTLASKSLAEGQKGALLTAVLKMLDPLVLVLPGLIAFHLYQDLPKADMAYPTLVNNVLPVPMVGFFGAVLFGAVISTFNGFLNSASTLFSMGIYRRIINQNAEPQQLVTVGRKFGFFIAIVSVLVAPWIANAPQGLYSWMKQLNGIYNVPLVTIIIMGFFFPRIPALAAKVAMGIGIISYITINYLVKFDFHFLYVLACTFCINVVVMLVIGFIKPRATPFTFKDAFAVDMKPWKNVKIASIGILFAMIGVYAGLAEFGGYGTRWLAMISYFIAAVVIVYLIFDSWRHRHDPAVTFTPDGKDSL" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YIDT-MONOMER" "D-galactonate:H+ symporter" ["YidT", "DgoT"] "MDIPVNAAKPGRRRYLTLVMIFITVVICYVDRANLAVASAHIQEEFGITKAEMGYVFSAFAWLYTLCQIPGGWFLDRVGSRVTYFIAIFGWSVATLFQGFATGLMSLIGLRAITGIFEAPAFPTNNRMVTSWFPEHERASAVGFYTSGQFVGLAFLTPLLIWIQEMLSWHWVFIVTGGIGIIWSLIWFKVYQPPRLTKGISKAELDYIRDGGGLVDGDAPVKKEARQPLTAKDWKLVFHRKLIGVYLGQFAVASTLWFFLTWFPNYLTQEKGITALKAGFMTTVPFLAAFVGVLLSGWVADLLVRKGFSLGFARKTPIICGLLISTCIMGANYTNDPMMIMCLMALAFFGNGFASITWSLVSSLAPMRLIGLTGGVFNFAGGLGGITVPLVVGYLAQGYGFAPALVYISAVALIGALSYILLVGDVKRVG" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YIDY-MONOMER" "efflux pump MdtL" ["MdtL", "YidY", "YidY drug MFS transporter", "MdtL multidrug efflux pump"] "MSRFLICSFALVLLYPAGIDMYLVGLPRIAADLNASEAQLHIAFSVYLAGMAAAMLFAGKVADRSGRKPVAIPGAALFIIASVFCSLAETSTLFLAGRFLQGLGAGCCYVVAFAILRDTLDDRRRAKVLSLLNGITCIIPVLAPVLGHLIMLKFPWQSLFWAMAMMGIAVLMLSLFILKETRPAAPAASDKPRENSESLLNRFFLSRVVITTLSVSVILTFVNTSPVLLMEIMGFERGEYATIMALTAGVSMTVSFSTPFALGIFKPRTLMITSQVLFLAAGITLAVSPSHAVSLFGITLICAGFSVGFGVAMSQALGPFSLRAGVASSTLGIAQVCGSSLWIWLAAVVGIGAWNMLIGILIACSIVSLLLIMFVAPGRPVAAHEEIHHHA" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YIEO-MONOMER" "putative transporter HsrA" ["YieO", "HsrA", "multidrug efflux pump HsrA"] "MSDKKKRSMAGLPWIAAMAFFMQALDATILNTALPAIAHSLNRSPLAMQSAIISYTLTVAMLIPVSGWLADRFGTRRIFTLAVSLFTLGSLACALSNSLPQLVVFRVIQGIGGAMMMPVARLALLRAYPRNELLPVLNFVAMPGLVGPILGPVLGGVLVTWATWHWIFLINIPIGIAGLLYARKHMPNFTTARRRFDITGFLLFGLSLVLFSSGIELFGEKIVASWIALTVIVTSIGLLLLYILHARRTPNPLISLDLFKTRTFSIGIVGNIATRLGTGCVPFLMPLMLQVGFGYQAFIAGCMMAPTALGSIIAKSMVTQVLRRLGYRHTLVGITVIIGLMIAQFSLQSPAMAIWMLILPLFILGMAMSTQFTAMNTITLADLTDDNASSGNSVLAVTQQLSISLGVAVSAAVLRVYEGMEGTTTVEQFHYTFITMGIITVASAAMFMLLKTTDGNNLIKRQRKSKPNRVPSESE" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YIFK-MONOMER" "putative transporter YifK" ["YifK"] "MADNKPELQRGLEARHIELIALGGTIGVGLFMGAASTLKWAGPSVLLAYIIAGLFVFFIMRSMGEMLFLEPVTGSFAVYAHRYMSPFFGYLTAWSYWFMWMAVGISEITAIGVYVQFWFPEMAQWIPALIAVALVALANLAAVRLYGEIEFWFAMIKVTTIIVMIVIGLGVIFFGFGNGGQSIGFSNLTEHGGFFAGGWKGFLTALCIVVASYQGVELIGITAGEAKNPQVTLRSAVGKVLWRILIFYVGAIFVIVTIFPWNEIGSNGSPFVLTFAKIGITAAAGIINFVVLTAALSGCNSGMYSCGRMLYALAKNRQLPAAMAKVSRHGVPVAGVAVSIAILLIGSCLNYIIPNPQRVFVYVYSASVLPGMVPWFVILISQLRFRRAHKAAIASHPFRSILFPWANYVTMAFLICVLIGMYFNEDTRMSLFVGIIFMLAVTAIYKVFGLNRHGKAHKLEE" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YIHN-MONOMER" "putative transporter YihN" ["YihN"] "MLTKKKWALFSLLTLCGGTIYKLPSLKDAFYIPMQEYFHLTNGQIGNAMSVNSFVTTVGFFLSIYFADKLPRRYTMSFSLIATGLLGVYLTTMPGYWGILFVWALFGVTCDMMNWPVLLKSVSRLGNSEQQGRLFGFFETGRGIVDTVVAFSALAVFTWFGSGLLGFKAGIWFYSLIVIAVGIIIFFVLNDKEEAPSVEVKKEDGASKNTSMTSVLKDKTIWLIAFNVFFVYAVYCGLTFFIPFLKNIYLLPVALVGAYGIINQYCLKMIGGPIGGMISDKILKSPSKYLCYTFIISTAALVLLIMLPHESMPVYLGMACTLGFGAIVFTQRAVFFAPIGEAKIAENKTGAAMALGSFIGYAPAMFCFSLYGYILDLNPGIIGYKIVFGIMACFAFSGAVVSVMLVKRISQRKKEMLAAEA" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YIHO-MONOMER" "putative sulfoquinovose transporter" ["SquO", "YihO"] "MSDHNPLTLKLNLREKIAYGMGDVGSNLMLCIGTLYLLKFYTDELGMPAYYGGIIFLVAKFFTAFTDMLTGFLLDSRKNIGPKGKFRPFILYAAVPAALIATLQFIATTFCLPVKTTIATALFMMFGLSYSLMNCSYGAMIPAITKNPNERAQLAAYRQGGATIGLLICTVAFIPLQSLFSDSTVGYACAALMFSIGGFIFMMLCYRGVKEHYVDTTPTGHKASILKSFCAIFRNPPLLVLCIANLCTLAAFNIKLAIQVYYTQYVLNDINLLSWMGFFSMGCILIGVLLVPLTVKCFGKKQVYLAGMVLWAVGDILNYFWGSNSFTFVMFSCVAFFGTAFVNSLNWALVPDTVDYGEWKTGIRAEGSVYTGYTFFRKISAALAGFLPGIMLTQIGYVPNIAQSDATLQGLRQLIFIWPCALAIIAALTMGFFYTLNEKRFALIIEEINQRKNKEMATEEKTASVTL" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YIHP-MONOMER" "putative 2,3-dihydroxypropane-1-sulfonate export protein" ["YihP"] "MSHITTEDPATLRLPFKEKLSYGIGDLASNILLDIGTLYLLKFYTDVLGLPGTYGGIIFLISKFFTAFTDMGTGIMLDSRRKIGPKGKFRPFILYASFPVTLLAIANFVGTPFDVTGKTVMATILFMLYGLFFSMMNCSYGAMVPAITKNPNERASLAAWRQGGATLGLLLCTVGFVPVMNLIEGNQQLGYIFAATLFSLFGLLFMWICYSGVKERYVETQPANPAQKPGLLQSFRAIAGNRPLFILCIANLCTLGAFNVKLAIQVYYTQYVLNDPILLSYMGFFSMGCIFIGVFLMPASVRRFGKKKVYIGGLLIWVLGDLLNYFFGGGSVSFVAFSCLAFFGSAFVNSLNWALVSDTVEYGEWRTGVRSEGTVYTGFTFFRKVSQALAGFFPGWMLTQIGYVPNVAQADHTIEGLRQLIFIYPSALAVVTIVAMGCFYSLNEKMYVRIVEEIEARKRTA" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YIIP-MONOMER" "Zn2+/Fe2+/Cd2+ exporter" ["YiiP", "FieF"] "MNQSYGRLVSRAAIAATAMASLLLLIKIFAWWYTGSVSILAALVDSLVDIGASLTNLLVVRYSLQPADDNHSFGHGKAESLAALAQSMFISGSALFLFLTGIQHLISPTPMTDPGVGVIVTIVALICTIILVSFQRWVVRRTQSQAVRADMLHYQSDVMMNGAILLALGLSWYGWHRADALFALGIGIYILYSALRMGYEAVQSLLDRALPDEERQEIIDIVTSWPGVSGAHDLRTRQSGPTRFIQIHLEMEDSLPLVQAHMVADQVEQAILRRFPGSDVIIHQDPCSVVPREGKRSMLS" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YJCE-MONOMER" "putative transporter YjcE" ["YjcE"] "MEIFFTILIMTLVVSLSGVVTRVMPFQIPLPLMQIAIGALLAWPTFGLHVEFDPELFLVLFIPPLLFADGWKTPTREFLEHGREIFGLALALVVVTVVGIGFLIYWVVPGIPLIPAFALAAVLSPTDAVALSGIVGEGRIPKKIMGILQGEALMNDASGLVSLKFAVAVAMGTMIFTVGGATVEFMKVAIGGILAGFVVSWLYGRSLRFLSRWGGDEPATQIVLLFLLPFASYLIAEHIGVSGILAAVAAGMTITRSGVMRRAPLAMRLRANSTWAMLEFVFNGMVFLLLGLQLPGILETSLMAAEIDPNVEIWMLFTNIILIYAALMLVRFGWLWTMKKFSNRFLKKKPMEFGSWTTREILIASFAGVRGAITLAGVLSIPLLLPDGNVFPARYELVFLAAGVILFSLFVGVVMLPILLQHIEVADHSQQLKEERIARAATAEVAIVAIQKMEERLAADTEENIDNQLLTEVSSRVIGNLRRRADGRNDVESSVQEENLERRFRLAALRSERAELYHLRATREISNETLQKLLHDLDLLEALLIEENQ" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YJCG-MONOMER" "acetate/glycolate:cation symporter" ["YjcG", "ActP"] "MKRVLTALAATLPFAANAADAISGAVERQPTNWQAIIMFLIFVVFTLGITYWASKRVRSRSDYYTAGGNITGFQNGLAIAGDYMSAASFLGISALVFTSGYDGLIYSLGFLVGWPIILFLIAERLRNLGRYTFADVASYRLKQGPIRILSACGSLVVVALYLIAQMVGAGKLIELLFGLNYHIAVVLVGVLMMMYVLFGGMLATTWVQIIKAVLLLFGASFMAFMVMKHVGFSFNNLFSEAMAVHPKGVDIMKPGGLVKDPISALSLGLGLMFGTAGLPHILMRFFTVSDAREARKSVFYATGFMGYFYILTFIIGFGAIMLVGANPEYKDAAGHLIGGNNMAAVHLANAVGGNLFLGFISAVAFATILAVVAGLTLAGASAVSHDLYANVFKKGATEREELRVSKITVLILGVIAIILGVLFENQNIAFMVGLAFAIAASCNFPIILLSMYWSKLTTRGAMMGGWLGLITAVVLMILGPTIWVQILGHEKAIFPYEYPALFSITVAFLGIWFFSATDNSAEGARERELFRAQFIRSQTGFGVEQGRAH" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YJCH-MONOMER" "DUF485 domain-containing inner membrane protein YjcH" ["YjcH"] "MNGTIYQRIEDNAHFRELVEKRQRFATILSIIMLAVYIGFILLIAFAPGWLGTPLNPNTSVTRGIPIGVGVIVISFVLTGIYIWRANGEFDRLNNEVLHEVQAS" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YJCQ-MONOMER" "putative multidrug efflux pump subunit MdtO" ["MdtO", "YjcQ", "SdsQ"] "MSALNSLPLPVVRLLAFFHEELSERRPGRVPQTVQLWVGCLLVILISMTFEIPFVALSLAVLFYGIQSNAFYTKFVAILFVVATVLEIGSLFLIYKWSYGEPLIRLIIAGPILMGCMFLMRTHRLGLVFFAVAIVAIYGQTFPAMLDYPEVVVRLTLWCIVVGLYPTLLMTLIGVLWFPSRAISQMHQALNDRLDDAISHLTDSLAPLPETRIEREALALQKLNVFCLADDANWRTQNAWWQSCVATVTYIYSTLNRYDPTSFADSQAIIEFRQKLASEINKLQHAVAEGQCWQSDWRISESEAMAARECNLENICQTLLQLGQMDPNTPPTPAAKPPSMAADAFTNPDYMRYAVKTLLACLICYTFYSGVDWEGIHTCMLTCVIVANPNVGSSYQKMVLRFGGAFCGAILALLFTLLVMPWLDNIVELLFVLAPIFLLGAWIATSSERSSYIGTQMVVTFALATLENVFGPVYDLVEIRDRALGIIIGTVVSAVIYTFVWPESEARTLPQKLAGTLGMLSKVMRIPRQQEVTALRTYLQIRIGLHAAFNACEEMCQRVALERQLDSEERALLIERSQTVIRQGRDLLHAWDATWNSAQALDNALQPDRAGQFADALEKYAAGLATALSRSPQITLEETPASQAILPTLLKQEQHVCQLFARLPDWTAPALTPATEQAQGATQ" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YJCV-MONOMER" "D-allose ABC transporter membrane subunit" ["YjcV"] "MGFTTRVKSEASEKKPFNFALFWDKYGTFFILAIIVAIFGSLSPEYFLTTNNITQIFVQSSVTVLIGMGEFFAILVAGIDLSVGAILALSGMVTAKLMLAGVDPFLAAMIGGVLVGGALGAINGCLVNWTGLHPFIITLGTNAIFRGITLVISDANSVYGFSFDFVNFFAASVIGIPVPVIFSLIVALILWFLTTRMRLGRNIYALGGNKNSAFYSGIDVKFHILVVFIISGVCAGLAGVVSTARLGAAEPLAGMGFETYAIASAIIGGTSFFGGKGRIFSVVIGGLIIGTINNGLNILQVQTYYQLVVMGGLIIAAVALDRLISK" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YJCW-MONOMER" "D-allose ABC transporter ATP binding subunit" ["YjcW"] "MATPYISMAGIGKSFGPVHALKSVNLTVYPGEIHALLGENGAGKSTLMKVLSGIHEPTKGTITINNISYNKLDHKLAAQLGIGIIYQELSVIDELTVLENLYIGRHLTKKICGVNIIDWREMRVRAAMMLLRVGLKVDLDEKVANLSISHKQMLEIAKTLMLDAKVIIMDEPTSSLTNKEVDYLFLIMNQLRKEGTAIVYISHKLAEIRRICDRYTVMKDGSSVCSGIVSDVSNDDIVRLMVGRELQNRFNAMKENVSNLAHETVFEVRNVTSRDRKKVRDISFSVCRGEILGFAGLVGSGRTELMNCLFGVDKRAGGEIRLNGKDISPRSPLDAVKKGMAYITESRRDNGFFPNFSIAQNMAISRSLKDGGYKGAMGLFHEVDEQRTAENQRELLALKCHSVNQNITELSGGNQQKVLISKWLCCCPEVIIFDEPTRGIDVGAKAEIYKVMRQLADDGKVILMVSSELPEIITVCDRIAVFCEGRLTQILTNRDDMSEEEIMAWALPQE" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-CYTOSOL", "CCO-PM-BAC-NEG"] +"YJCX-MONOMER" "D-allose ABC transporter periplasmic binding protein" ["YjcX", "ALBP", "allose binding protein"] "MNKYLKYFSGTLVGLMLSTSAFAAAEYAVVLKTLSNPFWVDMKKGIEDEAKTLGVSVDIFASPSEGDFQSQLQLFEDLSNKNYKGIAFAPLSSVNLVMPVARAWKKGIYLVNLDEKIDMDNLKKAGGNVEAFVTTDNVAVGAKGASFIIDKLGAEGGEVAIIEGKAGNASGEARRNGATEAFKKASQIKLVASQPADWDRIKALDVATNVLQRNPNIKAIYCANDTMAMGVAQAVANAGKTGKVLVVGTDGIPEARKMVEAGQMTATVAQNPADIGATGLKLMVDAEKSGKVIPLDKAPEFKLVDSILVTQ" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"YJDE-MONOMER" "arginine:agmatine antiporter" ["YjdD", "YjdE", "AdiC"] "MSSDADAHKVGLIPVTLMVSGNIMGSGVFLLPANLASTGGIAIYGWLVTIIGALGLSMVYAKMSFLDPSPGGSYAYARRCFGPFLGYQTNVLYWLACWIGNIAMVVIGVGYLSYFFPILKDPLVLTITCVVVLWIFVLLNIVGPKMITRVQAVATVLALIPIVGIAVFGWFWFRGETYMAAWNVSGLGTFGAIQSTLNVTLWSFIGVESASVAAGVVKNPKRNVPIATIGGVLIAAVCYVLSTTAIMGMIPNAALRVSASPFGDAARMALGDTAGAIVSFCAAAGCLGSLGGWTLLAGQTAKAAADDGLFPPIFARVNKAGTPVAGLIIVGILMTIFQLSSISPNATKEFGLVSSVSVIFTLVPYLYTCAALLLLGHGHFGKARPAYLAVTTIAFLYCIWAVVGSGAKEVMWSFVTLMVITAMYALNYNRLHKNPYPLDAPISKD" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YJDL-MONOMER" "dipeptide/tripeptide:H+ symporter DtpC" ["YjdL", "DtpC"] "MKTPSQPRAIYYIVAIQIWEYFSFYGMRALLILYLTHQLGFDDNHAISLFSAYASLVYVTPILGGWLADRLLGNRTAVIAGALLMTLGHVVLGIDTNSTFSLYLALAIIICGYGLFKSNISCLLGELYDENDHRRDGGFSLLYAAGNIGSIAAPIACGLAAQWYGWHVGFALAGGGMFIGLLIFLSGHRHFQSTRSMDKKALTSVKFALPVWSWLVVMLCLAPVFFTLLLENDWSGYLLAIVCLIAAQIIARMMIKFPEHRRALWQIVLLMFVGTLFWVLAQQGGSTISLFIDRFVNRQAFNIEVPTALFQSVNAIAVMLAGVVLAWLASPESRGNSTLRVWLKFAFGLLLMACGFMLLAFDARHAAADGQASMGVMISGLALMGFAELFIDPVAIAQITRLKMSGVLTGIYMLATGAVANWLAGVVAQQTTESQISGMAIAAYQRFFSQMGEWTLACVAIIVVLAFATRFLFSTPTNMIQESND" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YJEM-MONOMER" "putative transporter YjeM" ["YjeM"] "MPHTIKKMSLIGLILMIFTSVFGFANSPSAYYLMGYSAIPFYIFSALLFFIPFALMMAEMGAAYRKEEGGIYSWMNNSVGPRFAFIGTFMWFSSYIIWMVSTSAKVWVPFSTFLYGSDMTQHWRIAGLEPTQVVGLLAVAWMILVTVVASKGINKIARITAVGGIAVMCLNLVLLLVSITILLLNGGHFAQDINFLASPNPGYQSGLAMLSFVVFAIFAYGGIEAVGGLVDKTENPEKNFAKGIVFAAIVISIGYSLAIFLWGVSTNWQQVLSNGSVNLGNITYVLMKSLGMTLGNALHLSPEASLSLGVWFARITGLSMFLAYTGAFFTLCYSPLKAIIQGTPKALWPEPMTRLNAMGMPSIAMWMQCGLVTVFILLVSFGGGTASAFFNKLTLMANVSMTLPYLFLALAFPFFKARQDLDRPFVIFKTHLSAMIATVVVVLVVTFANVFTIIQPVVEAGDWDSTLWMIGGPVFFSLLAMAIYQNYCSRVAKNPQWAVE" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YJFF-MONOMER" "galactofuranose ABC transporter putative membrane subunit YjtF" [] "MIKRNLPLMITIGVFVLGYLYCLTQFPGFASTRVICNILTDNAFLGIIAVGMTFVILSGGIDLSVGSVIAFTGVFLAKVIGDFGLSPLLAFPLVLVMGCAFGAFMGLLIDALKIPAFIITLAGMFFLRGVSYLVSEESIPINHPIYDTLSSLAWKIPGGGRLSAMGLLMLAVVVIGIFLAHRTRFGNQVYAIGGNATSANLMGISTRSTTIRIYMLSTGLATLAGIVFSIYTQAGYALAGVGVELDAIASVVIGGTLLSGGVGTVLGTLFGVAIQGLIQTYINFDGTLSSWWTKIAIGILLFIFIALQRGLTVLWENRQSSPVTRVNIAQQ" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YJFT-MONOMER" "L-ascorbate specific PTS enzyme IIB component" ["SgaB", "YjfT"] "MTVRILAVCGNGQGSSMIMKMKVDQFLTQSNIDHTVNSCAVGEYKSELSGADIIIASTHIAGEITVTGNKYVVGVRNMLSPADFGPKLLEVIKEHFPQDVK" [] ["CCO-CYTOSOL"] +"YJFU-MONOMER" "L-ascorbate specific PTS enzyme IIA component" ["SgaA", "YjfU", "PtxA", "EIISga", "EIIUla", "Enzyme IISga", "Enzyme IIUla"] "MKLRDSLAENKSIRLQAEAETWQEAVKIGVDLLVAADVVEPRYYQAILDGVEQFGPYFVIAPGLAMPHGRPEEGVKKTGFSLVTLKKPLEFNHDDNDPVDILITMAAVDANTHQEVGIMQIVNLFEDEENFDRLRACRTEQEVLDLIDRTNAAA" [] ["CCO-PM-BAC-NEG", "CCO-CYTOSOL"] +"YJGT-MONOMER" "L-idonate/5-ketogluconate/gluconate transporter" ["YjgT", "GntW", "IdnT"] "MPLIIIAAGVALLLILMIGFKVNGFIALVLVAAVVGFAEGMDAQAVLHSIQNGIGSTLGGLAMILGFGAMLGKLISDTGAAQRIATTLIATFGKKRVQWALVITGLVVGLAMFFEVGFVLLLPLVFTIVASSGLPLLYVGVPMVAALSVTHCFLPPHPGPTAIATIFEANLGTTLLYGFIITIPTVIVAGPLFSKLLTRFEKAPPEGLFNPHLFSEEEMPSFWNSIFAAVIPVILMAIAAVCEITLPKTNTVRLFFEFVGNPAVALFIAIVIAIFTLGRRNGRTIEQIMDIIGDSIGAIAMIVFIIAGGGAFKQVLVDSGVGHYISHLMTGTTLSPLLMCWTVAALLRIALGSATVAAITTAGVVLPIINVTHADPALMVLATGAGSVIASHVNDPGFWLFKGYFNLTVGETLRTWTVMETLISIMGLLGVLAINAVLH" ["CCO-PM-BAC-NEG"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"YJHB-MONOMER" "sialic acid transporter NanX" ["NanX", "YjhB"] "MATAWYKQVNPPQRKALFSAWLGYVFDGFDFMMIFYILHIIKADLGITDIQATLIGTVAFIARPIGGGFFGAMADKYGRKPMMMWAIFIYSVGTGLSGIATNLYMLAVCRFIVGLGMSGEYACASTYAVESWPKNLQSKASAFLVSGFSVGNIIAAQIIPQFAEVYGWRNSFFIGLLPVLLVLWIRKSAPESQEWIEDKYKDKSTFLSVFRKPHLSISMIVFLVCFCLFGANWPINGLLPSYLADNGVNTVVISTLMTIAGLGTLTGTIFFGFVGDKIGVKKAFVVGLITSFIFLCPLFFISVKNSSLIGLCLFGLMFTNLGIAGLVPKFIYDYFPTKLRGLGTGLIYNLGATGGMAAPVLATYISGYYGLGVSLFIVTVAFSALLILLVGFDIPGKIYKLSVAK" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YJHF-MONOMER" "KpLE2 phage-like element; putative transporter YjhF" ["YjhF"] "MPLIIVVAGIALLLLLTIKIKLNTFVSLIIVSIAVAIASGMDLSKVVTSVESGLGGTLGHIGLIFGFGVMLGRLLADAGGAQRIALTMLNYFGKNKLDWAVVCSAFIVGIALFFEVGLILLVPILFAIAREAKISPMFMCVPMLSGLLVAHGFLPPHPGPTVIAREYGADVGLVLIYGIIVGIPTFILCGPVLNKFCQRIIPDAFKKEGNIASLGATRRFSESEMPGFGISFLTAMLPVILMAVVTIIQMTHAKSAADSGLFYNVILFLGNSTIAMLISLLFAIYTMGLGRGKTIPDLMDSCGKAIAGIAGLLLIIGGGGAFKQVLIDSGVGQYISTLVSGMDINPILMAWGVAAFLRICLGSATVAAISTAGLVIPLLAVHPNTNLALITLATGAGSCICSHVNDASFWMIKDFFGLTTKETLLSWTLMSTLLSISGLIFILLASLVL" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YJIO-MONOMER" "multidrug efflux pump / bile salt:H+ antiporter / Na+:H+ antiporter / K+:H+ antiporter" ["MdtM", "YjiO", "MdtM drug MFS transporter", "multidrug efflux pump MdtM"] "MPRFFTRHAATLFFPMALILYDFAAYLSTDLIQPGIINVVRDFNADVSLAPAAVSLYLAGGMALQWLLGPLSDRIGRRPVLITGALIFTLACAATMFTTSMTQFLIARAIQGTSICFIATVGYVTVQEAFGQTKGIKLMAIITSIVLIAPIIGPLSGAALMHFMHWKVLFAIIAVMGFISFVGLLLAMPETVKRGAVPFSAKSVLRDFRNVFCNRLFLFGAATISLSYIPMMSWVAVSPVILIDAGSLTTSQFAWTQVPVFGAVIVANAIVARFVKDPTEPRFIWRAVPIQLVGLSLLIVGNLLSPHVWLWSVLGTSLYAFGIGLIFPTLFRFTLFSNKLPKGTVSASLNMVILMVMSVSVEIGRWLWFNGGRLPFHLLAVVAGVIVVFTLAGLLNRVRQHQAAELVEEQ" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YJIZ-MONOMER" null ["LgoT", "YjjL", "YjiZ", "L-galactonate MFS transporter"] "MEKENITIDPRSSFTPSSSADIPVPPDGLVQRSTRIKRIQTTAMLLLFFAAVINYLDRSSLSVANLTIREELGLSATEIGALLSVFSLAYGIAQLPCGPLLDRKGPRLMLGLGMFFWSLFQAMSGMVHNFTQFVLVRIGMGIGEAPMNPCGVKVINDWFNIKERGRPMGFFNAASTIGVAVSPPILAAMMLVMGWRGMFITIGVLGIFLAIGWYMLYRNREHVELTAVEQAYLNAGSVNARRDPLSFAEWRSLFRNRTMWGMMLGFSGINYTAWLYLAWLPGYLQTAYNLDLKSTGLMAAIPFLFGAAGMLVNGYVTDWLVKGGMAPIKSRKICIIAGMFCSAAFTLIVPQATTSMTAVLLIGMALFCIHFAGTSCWGLIHVAVASRMTASVGSIQNFASFICASFAPIITGFIVDTTHSFRLALIICGCVTAAGALAYIFLVRQPINDPRKD" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YJJK-MONOMER" "energy-dependent translational throttle protein EttA" ["YjjK", "EttA"] "MAQFVYTMHRVGKVVPPKRHILKNISLSFFPGAKIGVLGLNGAGKSTLLRIMAGIDKDIEGEARPQPDIKIGYLPQEPQLNPEHTVRESIEEAVSEVVNALKRLDEVYALYADPDADFDKLAAEQGRLEEIIQAHDGHNLNVQLERAADALRLPDWDAKIANLSGGERRRVALCRLLLEKPDMLLLDEPTNHLDAESVAWLERFLHDFEGTVVAITHDRYFLDNVAGWILELDRGEGIPWEGNYSSWLEQKDQRLAQEASQEAARRKSIEKELEWVRQGTKGRQSKGKARLARFEELNSTEYQKRNETNELFIPPGPRLGDKVLEVSNLRKSYGDRLLIDDLSFSIPKGAIVGIIGPNGAGKSTLFRMISGQEQPDSGTITLGETVKLASVDQFRDSMDNSKTVWEEVSGGLDIMKIGNTEMPSRAYVGRFNFKGVDQGKRVGELSGGERGRLHLAKLLQVGGNMLLLDEPTNDLDIETLRALENALLEFPGCAMVISHDRWFLDRIATHILDYQDEGKVEFFEGNFTEYEEYKKRTLGADALEPKRIKYKRIAK" [] ["CCO-CYTOSOL", "CCO-PM-BAC-NEG"] +"YLIA-MONOMER" "glutathione ABC transporter ATP binding subunit GsiA" ["GsiA", "YliA"] "MPHSDELDAGNVLAVENLNIAFMQDQQKIAAVRNLSFSLQRGETLAIVGESGSGKSVTALALMRLLEQAGGLVQCDKMLLQRRSREVIELSEQNAAQMRHVRGADMAMIFQEPMTSLNPVFTVGEQIAESIRLHQNASREEAMVEAKRMLDQVRIPEAQTILSRYPHQLSGGMRQRVMIAMALSCRPAVLIADEPTTALDVTIQAQILQLIKVLQKEMSMGVIFITHDMGVVAEIADRVLVMYQGEAVETGTVEQIFHAPQHPYTRALLAAVPQLGAMKGLDYPRRFPLISLEHPAKQAPPIEQKTVVDGEPVLRVRNLVTRFPLRSGLLNRVTREVHAVEKVSFDLWPGETLSLVGESGSGKSTTGRALLRLVESQGGEIIFNGQRIDTLSPGKLQALRRDIQFIFQDPYASLDPRQTIGDSIIEPLRVHGLLPGKDAAARVAWLLERVGLLPEHAWRYPHEFSGGQRQRICIARALALNPKVIIADEAVSALDVSIRGQIINLLLDLQRDFGIAYLFISHDMAVVERISHRVAVMYLGQIVEIGPRRAVFENPQHPYTRKLLAAVPVAEPSRQRPQRVLLSDDLPSNIHLRGEEVAAVSLQCVGPGHYVAQPQSEYAFMRR" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YLIB-MONOMER" "glutathione ABC transporter periplasmic binding protein" ["GsiB", "YliB"] "MARAVHRSGLVALGIATALMASCAFAAKDVVVAVGSNFTTLDPYDANDTLSQAVAKSFYQGLFGLDKEMKLKNVLAESYTVSDDGITYTVKLREGIKFQDGTDFNAAAVKANLDRASDPANHLKRYNLYKNIAKTEAIDPTTVKITLKQPFSAFINILAHPATAMISPAALEKYGKEIGFYPVGTGPYELDTWNQTDFVKVKKFAGYWQPGLPKLDSITWRPVADNNTRAAMLQTGEAQFAFPIPYEQATLLEKNKNIELMASPSIMQRYISMNVTQKPFDNPKVREALNYAINRPALVKVAFAGYATPATGVVPPSIAYAQSYKPWPYDPVKARELLKEAGYPNGFSTTLWSSHNHSTAQKVLQFTQQQLAQVGIKAQVTAMDAGQRAAEVEGKGQKESGVRMFYTGWSASTGEADWALSPLFASQNWPPTLFNTAFYSNKQVDDFLAQALKTNDPAEKTRLYKAAQDIIWQESPWIPLVVEKLVSAHSKNLTGFWIMPDTGFSFEDADLQ" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"YLIC-MONOMER" "glutathione ABC transporter membrane subunit GsiC" ["GsiC", "YliC"] "MLNYVIKRLLGLIPTLFIVSVLVFLFVHMLPGDPARLIAGPEADAQVIELVRQQLGLDQPLYHQFWHYISNAVQGDFGLSMVSRRPVADEIASRFMPTLWLTITSMVWAVIFGMAAGIIAAVWRNRWPDRLSMTIAVSGISFPAFALGMLLIQVFSVELGWLPTVGADSWQHYILPSLTLGAAVAAVMARFTRASFVDVLSEDYMRTARAKGVSETWVVLKHGLRNAMIPVVTMMGLQFGFLLGGSIVVEKVFNWPGLGRLLVDSVEMRDYPVIQAEILLFSLEFILINLVVDVLYAAINPAIRYK" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YLID-MONOMER" "glutathione ABC transporter membrane subunit GsiD" ["GsiD", "YliD"] "MRLFNWRRQAVLNAMPLVKPDQVRTPWHEFWRRFRRQHMAMTAALFVILLIVVAIFARWIAPYDAENYFDYDNLNNGPSLQHWFGVDSLGRDIFSRVLVGAQISLAAGVFAVFIGAAIGTLLGLLAGYYEGWWDRLIMRICDVLFAFPGILLAIAVVAVLGSGIANVIIAVAIFSIPAFARLVRGNTLVLKQQTFIESARSIGASDMTVLLRHILPGTVSSIVVFFTMRIGTSIISAASLSFLGLGAQPPTPEWGAMLNEARADMVIAPHVAVFPALAIFLTVLAFNLLGDGLRDALDPKIKG" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YNEA-MONOMER" "Autoinducer-2 ABC transporter periplasmic binding protein" ["YneA"] "MTLHRFKKIALLSALGIAAISMNVQAAERIAFIPKLVGVGFFTSGGNGAQQAGKELGVDVTYDGPTEPSVSGQVQLINNFVNQGYNAIIVSAVSPDGLCPALKRAMQRGVRVLTWDSDTKPECRSYYINQGTPAQLGGMLVDMAARQVNKDKAKVAFFYSSPTVTDQNQWVKEAKAKIAKEHPGWEIVTTQFGYNDATKSLQTAEGILKAYSDLDAIIAPDANALPAAAQAAENLKNDKVAIVGFSTPNVMRPYVERGTVKEFGLWDVVQQGKISVYVADALLKKGSMKTGDKLDIKGVGQVEVSPNSVQGYDYEADGNGIVLLPERVIFNKENIGKYDF" [] ["CCO-PERI-BAC"] +"YNFJ-MONOMER" "putative chloride:H+ antiporter ClcB" ["MriT", "ClcB", "YnfJ", "ClC-ec2"] "MFHRLLIATVVGILAAFAVAGFRHAMLLLEWLFLNNDSGSLVNAATNLSPWRRLLTPALGGLAAGLLLMGWQKFTQQRPHAPTDYMEALQTDGQFDYAASLVKSLASLLVVTSGSAIGREGAMILLAALAASCFAQRFTPRQEWKLWIACGAAAGMAAAYRAPLAGSLFIAEVLFGTMMLASLGPVIISAVVALLVSNLINHSDALLYNVQLSVTVQARDYALIISTGVLAGLCGPLLLTLMNACHRGFVSLKLAPPWQLALGGLIVGLLSLFTPAVWGNGYSTVQSFLTAPPLLMIIAGIFLCKLCAVLASSGSGAPGGVFTPTLFIGLAIGMLYGRSLGLWFPDGEEITLLLGLTGMATLLAATTHAPIMSTLMICEMTGEYQLLPGLLIACVIASVISRTLHRDSIYRQHTAQHS" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YNJC-MONOMER" "putative ABC transporter membrane subunit YnjC" ["YnjC"] "MATPLRYALIFLLWAMVAVIYAPLIPAALTLISPALSLTHWQALFADPQLPQALLATLVSTTIAAVGALLIALLVIVALWPGPKWQRMCARLPWLLAIPHVAFATSALLLFADGGLLYDYFPYFTPPMDRFGIGLGLTLAVKESAFLLWILAAVLSEKWLLQQVIVLDSLGYSRWQCLNWLLLPSVAPALAMAMLAIVAWSLSVVDVAIILGPGNPPTLAVISWQWLTQGDIDQQTKGALASLLLMLLLAAYVLLSYLLWRSWRRTIPRVDGVRKPATPLLPGNTLAIFLPLTGVLCVVLLAILADQSTINSEALINSLTMGLVATFIALLLLLLWLEWGPQRRQLWLWLPILLPALPLVAGQYTLALWLKLDGSWTAVVWGHLLWVMPWMLFILQPAWQRIDSRLILIAQTLGWSRAKIFFYVKCPLMLRPVLIAFAVGFAVGIAQYMPTLWLGAGRFPTLTTEAVALSSGGSNGILAAQALWQLLLPLIIFALTALVAKWVGYVRQGLR" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YNJD-MONOMER" "putative ABC transporter ATP-binding protein YnjD" ["YnjD"] "MLCVKNVSLRLPESRLLTNVNFTVDKGDIVTLMGPSGCGKSTLFSWMIGALAEQFSCTGELWLNEQRIDILPTAQRQIGILFQDALLFDQFSVGQNLLLALPATLKGNARRNAVNDALERSGLEGAFHQDPATLSGGQRARVALLRALLAQPKALLLDEPFSRLDVALRDNFRQWVFSEVRALAIPVVQVTHDLQDVPADSSVLDMAQWSENYNKLR" [] ["CCO-PM-BAC-NEG"] +"YOJI-MONOMER" "ABC transporter family protein / microcin J25 efflux protein" ["YojJ", "YojI"] "MELLVLVWRQYRWPFISVMALSLASAALGIGLIAFINQRLIETADTSLLVLPEFLGLLLLLMAVTLGSQLALTTLGHHFVYRLRSEFIKRILDTHVERIEQLGSASLLAGLTSDVRNITIAFVRLPELVQGIILTIGSAAYLWMLSGKMLLVTAIWMAITIWGGFVLVARVYKHMATLRETEDKLYTDFQTVLEGRKELTLNRERAEYVFNNLYIPDAQEYRHHIIRADTFHLSAVNWSNIMMLGAIGLVFWMANSLGWADTNVAATYSLTLLFLRTPLLSAVGALPTLLTAQVAFNKLNKFALAPFKAEFPRPQAFPNWQTLELRNVTFAYQDNAFSVGPINLTIKRGELLFLIGGNGSGKSTLAMLLTGLYQPQSGEILLDGKPVSGEQPEDYRKLFSAVFTDVWLFDQLLGPEGKPANPQLVEKWLAQLKMAHKLELSNGRIVNLKLSKGQKKRVALLLALAEERDIILLDEWAADQDPHFRREFYQVLLPLMQEMGKTIFAISHDDHYFIHADRLLEMRNGQLSELTGEERDAASRDAVARTA" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"YPHC-MONOMER" "putative zinc-binding dehydrogenase YphC" ["YphC", "putative oxidoreductase, Zn-dependent and NAD(P)-binding"] "MKTMLAAYLPGNSTVDLREVAVPTPGINQVLIKMKSSGICGSDVHYIYHQHRATAAAPDKPLYQGFINGHEPCGQIVAMGQGCRHFKEGDRVLVYHISGCGFCPNCRRGFPISCTGEGKAAYGWQRDGGHAEYLLAEEKDLILLPDALSYEDGAFISCGVGTAYEGILRGEVSGSDNVLVVGLGPVGMMAMMLAKGRGAKRIIGVDMLPERLAMAKQLGVMDHGYLATTEGLPQIIAELTHGGADVALDCSGNAAGRLLALQSTADWGRVVYIGETGKVEFEVSADLMHHQRRIIGSWVTSLFHMEKCAHDLTDWKLWPRNAITHRFSLEQAGDAYALMASGKCGKVVINFPD" [] ["CCO-CYTOSOL"] +"YPHD-MONOMER" "putative ABC transporter membrane subunit YphD" ["YphD"] "MSASSLPLPQGKSVSLKQFVSRHINEIGLLVVIAILYLVFSLNAPGFISLNNQMNVLRDAATIGIAAWAMTLIIISGEIDVSVGPMVAFVSVCLAFLLQFEVPLAVACLLVLLLGALMGTLAGVLRGVFNVPSFVATLGLWSALRGMGLFMTNALPVPIDENEVLDWLGGQFLGVPVSALIMIVLFALFVFISRKTAFGRSVFAVGGNATAAQLCGINVRRVRILIFTLSGLLAAVTGILLAARLGSGNAGAANGLEFDVIAAVVVGGTALSGGRGSLFGTLLGVLVITLIGNGLVLLGINSFFQQVVRGVIIVVAVLANILLTQRSSKAKR" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YPHE-MONOMER" "putative ABC transporter ATP-binding protein YphE" ["YphE"] "MFTATEAVPVAKVVAGNKRYPGVVALDNVNFTLNKGEVRALLGKNGAGKSTLIRMLTGSERPDSGDIWIGETRLEGDEATLTRRAAELGVRAVYQELSLVEGLTVAENLCLGQWPRRNGMIDYLQMAQDAQRCLQALGVDVSPEQLVSTLSPAQKQLVEIARVMKGEPRVVILDEPTSSLASAEVELVISAVKKMSALGVAVIYVSHRMEEIRRIASCATVMRDGQVAGDVMLENTSTHHIVSLMLGRDHVDIAPVAPQEIVDQAVLEVRALRHKPKLEDISFTLRRGEVLGIAGLLGAGRSELLKAIVGLEEYEQGEIVINGEKITRPDYGDMLKRGIGYTPENRKEAGIIPWLGVDENTVLTNRQKISANGVLQWSTIRRLTEEVMQRMTVKAASSETPIGTLSGGNQQKVVIGRWVYAASQILLLDEPTRGVDIEAKQQIYRIVRELAAEGKSVVFISSEVEELPLVCDRILLLQHGTFSQEFHAPVNVDELMSAILSVH" [] ["CCO-PM-BAC-NEG"] +"YRAO-MONOMER" "DnaA initiator-associating factor for replication initiation" ["YraO", "DiaA"] "MQERIKACFTESIQTQIAAAEALPDAISRAAMTLVQSLLNGNKILCCGNGTSAANAQHFAASMINRFETERPSLPAIALNTDNVVLTAIANDRLHDEVYAKQVRALGHAGDVLLAISTRGNSRDIVKAVEAAVTRDMTIVALTGYDGGELAGLLGPQDVEIRIPSHRSARIQEMHMLTVNCLCDLIDNTLFPHQDD" [] ["CCO-CYTOSOL"] +"YRBE-MONOMER" "intermembrane phospholipid transport system, integral membrane subunit MlaE" ["YrbE", "MlaE"] "MLLNALASLGHKGIKTLRTFGRAGLMLFNALVGKPEFRKHAPLLVRQLYNVGVLSMLIIVVSGVFIGMVLGLQGYLVLTTYSAETSLGMLVALSLLRELGPVVAALLFAGRAGSALTAEIGLMRATEQLSSMEMMAVDPLRRVISPRFWAGVISLPLLTVIFVAVGIWGGSLVGVSWKGIDSGFFWSAMQNAVDWRMDLVNCLIKSVVFAITVTWISLFNGYDAIPTSAGISRATTRTVVHSSLAVLGLDFVLTALMFGN" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YRBF-MONOMER" "intermembrane phospholipid transport system, ATP binding subunit MlaF" ["YrbF", "MlaF"] "MEQSVANLVDMRDVSFTRGNRCIFDNISLTVPRGKITAIMGPSGIGKTTLLRLIGGQIAPDHGEILFDGENIPAMSRSRLYTVRKRMSMLFQSGALFTDMNVFDNVAYPLREHTQLPAPLLHSTVMMKLEAVGLRGAAKLMPSELSGGMARRAALARAIALEPDLIMFDEPFVGQDPITMGVLVKLISELNSALGVTCVVVSHDVPEVLSIADHAWILADKKIVAHGSAQALQANPDPRVRQFLDGIADGPVPFRYPAGDYHADLLPGS" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YRBG-MONOMER" "putative transport protein YrbG" ["YrbG"] "MLLATALLIVGLLLVVYSADRLVFAASILCRTFGIPPLIIGMTVVSIGTSLPEVIVSLAASLHEQRDLAVGTALGSNIINILLILGLAALVRPFTVHSDVLRRELPLMLLVSVVAGSVLYDGQLSRSDGIFLLFLAVLWLLFIVKLARQAERQGTDSLTREQLAELPRDGGLPVAFLWLGIALIIMPVATRMVVDNATVLANYFAISELTMGLTAIAIGTSLPELATAIAGVRKGENDIAVGNIIGANIFNIVIVLGLPALITPGEIDPLAYSRDYSVMLLVSIIFALLCWRRSPQPGRGVGVLLTGGFIVWLAMLYWLSPILVE" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YTFQ-MONOMER" "galactofuranose ABC transporter periplasmic binding protein" [] "MWKRLLIVSAVSAAMSSMALAAPLTVGFSQVGSESGWRAAETNVAKSEAEKRGITLKIADGQQKQENQIKAVRSFVAQGVDAIFIAPVVATGWEPVLKEAKDAEIPVFLLDRSIDVKDKSLYMTTVTADNILEGKLIGDWLVKEVNGKPCNVVELQGTVGASVAIDRKKGFAEAIKNAPNIKIIRSQSGDFTRSKGKEVMESFIKAENNGKNICMVYAHNDDMVIGAIQAIKEAGLKPGKDILTGSIDGVPDIYKAMMDGEANASVELTPNMAGPAFDALEKYKKDGTMPEKLTLTKSTLYLPDTAKEELEKKKNMGY" ["CCO-PERI-BAC"] ["CCO-PERI-BAC"] +"YTFR-MONOMER" "galactofuranose ABC transporter putative ATP binding subunit" ["YtfR", "YtfS"] "MTTDQHQEILRTEGLSKFFPGVKALDNVDFSLRRGEIMALLGENGAGKSTLIKALTGVYHADRGTIWLEGQAISPKNTAHAQQLGIGTVYQEVNLLPNMSVADNLFIGREPKRFGLLRRKEMEKRATELMASYGFSLDVREPLNRFSVAMQQIVAICRAIDLSAKVLILDEPTASLDTQEVELLFDLMRQLRDRGVSLIFVTHFLDQVYQVSDRITVLRNGSFVGCRETCELPQIELVKMMLGRELDTHALQRAGRTLLSDKPVAAFKNYGKKGTIAPFDLEVRPGEIVGLAGLLGSGRTETAEVIFGIKPADSGTALIKGKPQNLRSPHQASVLGIGFCPEDRKTDGIIAAASVRENIILALQAQRGWLRPISRKEQQEIAERFIRQLGIRTPSTEQPIEFLSGGNQQKVLLSRWLLTRPQFLILDEPTRGIDVGAHAEIIRLIETLCADGLALLVISSELEELVGYADRVIIMRDRKQVAEIPLAELSVPAIMNAIAA" [] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"YTFT-MONOMER" "galactofuranose ABC transporter putative membrane subunit YtfT" [] "MMPQSLPDTTTPKRRFRWPTGMPQLVALLLVLLVDSLVAPHFWQVVLQDGRLFGSPIDILNRAAPVALLAIGMTLVIATGGIDLSVGAVMAIAGATTAAMTVAGFSLPIVLLSALGTGILAGLWNGILVAILKIQPFVATLILMVAGRGVAQLITAGQIVTFNSPDLSWFGSGSLLFLPTPVIIAVLTLILFWLLTRKTALGMFIEAVGINIRAAKNAGVNTRIIVMLTYVLSGLCAAIAGIIVAADIRGADANNAGLWLELDAILAVVIGGGSLMGGRFNLLLSVVGALIIQGMNTGILLSGFPPEMNQVVKAVVVLCVLIVQSQRFISLIKGVRSRDKT" ["CCO-PM-BAC-NEG"] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] +"ZNUA-MONOMER" "Zn2+ ABC transporter periplasmic binding protein" ["YzzP", "YebL"] "MLHKKTLLFAALSAALWGGATQAADAAVVASLKPVGFIASAIADGVTETEVLLPDGASEHDYSLRPSDVKRLQNADLVVWVGPEMEAFMQKPVSKLPGAKQVTIAQLEDVKPLLMKSIHGDDDDHDHAEKSDEDHHHGDFNMHLWLSPEIARATAVAIHGKLVELMPQSRAKLDANLKDFEAQLASTETQVGNELAPLKGKGYFVFHDAYGYFEKQFGLTPLGHFTVNPEIQPGAQRLHEIRTQLVEQKATCVFAEPQFRPAVVESVARGTSVRMGTLDPLGTNIKLGKTSYSEFLSQLANQYASCLKGD" [] ["CCO-PERI-BAC"] +"ZNUB-MONOMER" "Zn2+ ABC transporter membrane subunit" ["YebI"] "MIELLFPGWLAGIMLACAAGPLGSFVVWRRMSYFGDTLAHASLLGVAFGLLLDVNPFYAVIAVTLLLAGGLVWLEKRPQLAIDTLLGIMAHSALSLGLVVVSLMSNIRVDLMAYLFGDLLAVTPEDLISIAIGVVIVVAILFWQWRNLLSMTISPDLAFVDGVKLQRVKLLLMLVTALTIGVAMKFVGALIITSLLIIPAATARRFARTPEQMAGVAVLVGMVAVTGGLTFSAVYDTPAGPSVVLCAALLFILSMMKKQAS" ["CCO-PM-BAC-NEG"] ["CCO-MEMBRANE", "CCO-PM-BAC-NEG"] +"ZNUC-MONOMER" "Zn2+ ABC transporter ATP binding subunit" ["YebM"] "MTSLVSLENVSVSFGQRRVLSDVSLELKPGKILTLLGPNGAGKSTLVRVVLGLVTPDEGVIKRNGKLRIGYVPQKLYLDTTLPLTVNRFLRLRPGTHKEDILPALKRVQAGHLINAPMQKLSGGETQRVLLARALLNRPQLLVLDEPTQGVDVNGQVALYDLIDQLRRELDCGVLMVSHDLHLVMAKTDEVLCLNHHICCSGTPEVVSLHPEFISMFGPRGAEQLGIYRHHHNHRHDLQGRIVLRRGNDRS" [] ["CCO-PM-BAC-NEG", "CCO-MEMBRANE"] diff --git a/reconstruction/ecoli/flat/rna_modification_reactions.tsv b/reconstruction/ecoli/flat/rna_modification_reactions.tsv deleted file mode 100644 index d7901b1718..0000000000 --- a/reconstruction/ecoli/flat/rna_modification_reactions.tsv +++ /dev/null @@ -1,98 +0,0 @@ -# Note: Reactions listed in rna_modification_reactions_removed.tsv are removed from simulation data. -"id" "stoichiometry" "catalyzed_by" -"RX_WC_METHIONYL-TRNA-FORMYLTRANSFERASE-RXN1" [{"type": "rna", "coeff": -1.0, "molecule": "RNA0-306", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "10FTHF", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "CHARGED-FMETV-TRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "THF", "location": "c", "form": "mature"}] ["EG11268-MONOMER"] -"RX_WC_METHIONYL-TRNA-FORMYLTRANSFERASE-RXN2" [{"type": "rna", "coeff": -1.0, "molecule": "metW-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "10FTHF", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "CHARGED-FMETW-TRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "THF", "location": "c", "form": "mature"}] ["EG11268-MONOMER"] -"RX_WC_METHIONYL-TRNA-FORMYLTRANSFERASE-RXN3" [{"type": "rna", "coeff": -1.0, "molecule": "metY-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "10FTHF", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "CHARGED-FMETY-TRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "THF", "location": "c", "form": "mature"}] ["EG11268-MONOMER"] -"RX_WC_METHIONYL-TRNA-FORMYLTRANSFERASE-RXN4" [{"type": "rna", "coeff": -1.0, "molecule": "metZ-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "10FTHF", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "CHARGED-FMETZ-TRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "THF", "location": "c", "form": "mature"}] ["EG11268-MONOMER"] -"ISOLEUCINE--TRNA-LIGASE-R_3" [{"type": "rna", "coeff": -1.0, "molecule": "RNA0-305", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ILE", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "RNA0-309", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["ILES-MONOMER"] -"ASPARAGINE--TRNA-LIGASE-R_2" [{"type": "rna", "coeff": -1.0, "molecule": "RNA0-304", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ASN", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "RNA0-310", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["ASNS-CPLX"] -"VALINE--TRNA-LIGASE-R_4" [{"type": "rna", "coeff": -1.0, "molecule": "RNA0-300", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "VAL", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "RNA0-311", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["VALS-MONOMER"] -"LYSINE--TRNA-LIGASE-R_3" [{"type": "metabolite", "coeff": -1.0, "molecule": "LYS", "location": "c", "form": "mature"}, {"type": "rna", "coeff": -1.0, "molecule": "RNA0-301", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "RNA0-312", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["LYSS-CPLX", "LYSU-CPLX"] -"LYSINE--TRNA-LIGASE-R_4" [{"type": "metabolite", "coeff": -1.0, "molecule": "LYS", "location": "c", "form": "mature"}, {"type": "rna", "coeff": -1.0, "molecule": "RNA0-302", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "RNA0-313", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["LYSS-CPLX", "LYSU-CPLX"] -"LYSINE--TRNA-LIGASE-R_2" [{"type": "metabolite", "coeff": -1.0, "molecule": "LYS", "location": "c", "form": "mature"}, {"type": "rna", "coeff": -1.0, "molecule": "RNA0-303", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "RNA0-314", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["LYSS-CPLX", "LYSU-CPLX"] -"METHIONINE--TRNA-LIGASE-R_4" [{"type": "rna", "coeff": -1.0, "molecule": "metW-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "MET", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "RNA0-319", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["METG-CPLX"] -"METHIONINE--TRNA-LIGASE-RXN" [{"type": "rna", "coeff": -1.0, "molecule": "RNA0-306", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "MET", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "RNA0-321", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["METG-CPLX"] -"METHIONINE--TRNA-LIGASE-R_1" [{"type": "rna", "coeff": -1.0, "molecule": "metY-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "MET", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "RNA0-322", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["METG-CPLX"] -"METHIONINE--TRNA-LIGASE-R_0" [{"type": "rna", "coeff": -1.0, "molecule": "metZ-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "MET", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "RNA0-323", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["METG-CPLX"] -"ALANINE--TRNA-LIGASE-RXN" [{"type": "rna", "coeff": -1.0, "molecule": "alaT-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "L-ALPHA-ALANINE", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-alaT-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["ALAS-CPLX"] -"ALANINE--TRNA-LIGASE-R_2" [{"type": "rna", "coeff": -1.0, "molecule": "alaU-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "L-ALPHA-ALANINE", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-alaU-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["ALAS-CPLX"] -"ALANINE--TRNA-LIGASE-R_0" [{"type": "rna", "coeff": -1.0, "molecule": "alaV-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "L-ALPHA-ALANINE", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-alaV-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["ALAS-CPLX"] -"ALANINE--TRNA-LIGASE-R_3" [{"type": "rna", "coeff": -1.0, "molecule": "alaW-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "L-ALPHA-ALANINE", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-alaW-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["ALAS-CPLX"] -"ALANINE--TRNA-LIGASE-R_1" [{"type": "rna", "coeff": -1.0, "molecule": "alaX-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "L-ALPHA-ALANINE", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-alaX-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["ALAS-CPLX"] -"ARGININE--TRNA-LIGASE-R_3" [{"type": "rna", "coeff": -1.0, "molecule": "argQ-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ARG", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-argQ-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["ARGS-MONOMER"] -"ARGININE--TRNA-LIGASE-R_4" [{"type": "rna", "coeff": -1.0, "molecule": "argU-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ARG", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-argU-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["ARGS-MONOMER"] -"ARGININE--TRNA-LIGASE-R_0" [{"type": "rna", "coeff": -1.0, "molecule": "argV-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ARG", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-argV-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["ARGS-MONOMER"] -"ARGININE--TRNA-LIGASE-R_2" [{"type": "rna", "coeff": -1.0, "molecule": "argW-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ARG", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-argW-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["ARGS-MONOMER"] -"ARGININE--TRNA-LIGASE-R_5" [{"type": "rna", "coeff": -1.0, "molecule": "argX-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ARG", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-argX-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["ARGS-MONOMER"] -"ARGININE--TRNA-LIGASE-R_1" [{"type": "rna", "coeff": -1.0, "molecule": "argY-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ARG", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-argY-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["ARGS-MONOMER"] -"ARGININE--TRNA-LIGASE-RXN" [{"type": "rna", "coeff": -1.0, "molecule": "argZ-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ARG", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-argZ-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["ARGS-MONOMER"] -"ASPARAGINE--TRNA-LIGASE-RXN" [{"type": "rna", "coeff": -1.0, "molecule": "asnT-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ASN", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-asnT-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["ASNS-CPLX"] -"ASPARAGINE--TRNA-LIGASE-R_0" [{"type": "rna", "coeff": -1.0, "molecule": "asnU-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ASN", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": 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"metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["ASPS-CPLX"] -"ASPARTATE--TRNA-LIGASE-R_0" [{"type": "rna", "coeff": -1.0, "molecule": "aspV-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "L-ASPARTATE", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-aspV-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["ASPS-CPLX"] -"CYSTEINE--TRNA-LIGASE-RXN" [{"type": "rna", "coeff": -1.0, "molecule": "cysT-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "CYS", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-cysT-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["CYSS-MONOMER"] -"GLUTAMINE--TRNA-LIGASE-R_0" [{"type": "rna", "coeff": -1.0, "molecule": "glnU-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "GLN", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-glnU-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["GLNS-MONOMER"] -"GLUTAMINE--TRNA-LIGASE-R_1" [{"type": "rna", "coeff": -1.0, "molecule": "glnV-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "GLN", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-glnV-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["GLNS-MONOMER"] -"GLUTAMINE--TRNA-LIGASE-R_2" [{"type": "rna", "coeff": -1.0, "molecule": "glnW-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "GLN", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-glnW-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["GLNS-MONOMER"] -"GLUTAMINE--TRNA-LIGASE-RXN" [{"type": "rna", "coeff": -1.0, "molecule": "glnX-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "GLN", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-glnX-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["GLNS-MONOMER"] -"GLUTRNAREDUCT-RXN" [{"type": "metabolite", "coeff": -1.0, "molecule": "GLUTAMATE-1-SEMIALDEHYDE", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "NADP", "location": "c", "form": "mature"}, {"type": "rna", "coeff": -1.0, "molecule": "gltT-tRNA", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-gltT-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "NADPH", "location": "c", "form": "mature"}] ["CPLX0-3741"] -"GLUTRNAREDUCT-R_1" [{"type": "metabolite", "coeff": -1.0, "molecule": "GLUTAMATE-1-SEMIALDEHYDE", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "NADP", "location": "c", "form": "mature"}, {"type": "rna", "coeff": -1.0, "molecule": "gltU-tRNA", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-gltU-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "NADPH", "location": "c", "form": "mature"}] ["CPLX0-3741"] -"GLUTRNAREDUCT-R_0" [{"type": "metabolite", "coeff": -1.0, "molecule": "GLUTAMATE-1-SEMIALDEHYDE", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "NADP", "location": "c", "form": "mature"}, {"type": "rna", "coeff": -1.0, "molecule": "gltV-tRNA", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-gltV-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "NADPH", "location": "c", "form": "mature"}] ["CPLX0-3741"] -"GLUTRNAREDUCT-R_2" [{"type": "metabolite", "coeff": -1.0, "molecule": "GLUTAMATE-1-SEMIALDEHYDE", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "NADP", "location": "c", "form": "mature"}, {"type": "rna", "coeff": -1.0, "molecule": "gltW-tRNA", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-gltW-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "NADPH", "location": "c", "form": "mature"}] ["CPLX0-3741"] -"GLURS-RXN" [{"type": "metabolite", "coeff": -1.0, "molecule": "GLT", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rna", "coeff": -1.0, "molecule": "gltT-tRNA", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-gltT-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["GLURS-MONOMER"] -"GLURS-R_1" [{"type": "metabolite", "coeff": -1.0, "molecule": "GLT", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rna", "coeff": -1.0, "molecule": "gltU-tRNA", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-gltU-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["GLURS-MONOMER"] -"GLURS-R_0" [{"type": "metabolite", "coeff": -1.0, "molecule": "GLT", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rna", "coeff": -1.0, "molecule": "gltV-tRNA", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-gltV-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["GLURS-MONOMER"] -"GLURS-R_2" [{"type": "metabolite", "coeff": -1.0, "molecule": "GLT", "location": "c", 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"form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["GLYS-CPLX"] -"GLYCINE--TRNA-LIGASE-R_3" [{"type": "rna", "coeff": -1.0, "molecule": "glyU-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "GLY", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-glyU-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["GLYS-CPLX"] -"GLYCINE--TRNA-LIGASE-R_4" [{"type": "rna", "coeff": -1.0, "molecule": "glyV-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "GLY", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-glyV-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["GLYS-CPLX"] -"GLYCINE--TRNA-LIGASE-RXN" [{"type": "rna", "coeff": -1.0, "molecule": "glyW-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "GLY", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-glyW-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["GLYS-CPLX"] -"GLYCINE--TRNA-LIGASE-R_0" [{"type": "rna", "coeff": -1.0, "molecule": "glyX-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "GLY", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-glyX-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["GLYS-CPLX"] -"GLYCINE--TRNA-LIGASE-R_2" [{"type": "rna", "coeff": -1.0, "molecule": "glyY-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "GLY", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-glyY-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["GLYS-CPLX"] -"HISTIDINE--TRNA-LIGASE-RXN" [{"type": "rna", "coeff": -1.0, "molecule": "hisR-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "HIS", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-hisR-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["HISS-CPLX"] -"ISOLEUCINE--TRNA-LIGASE-RXN" [{"type": "rna", "coeff": -1.0, "molecule": "ileT-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ILE", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-ileT-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["ILES-MONOMER"] -"ISOLEUCINE--TRNA-LIGASE-R_2" [{"type": "rna", "coeff": -1.0, "molecule": "ileU-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ILE", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-ileU-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["ILES-MONOMER"] -"ISOLEUCINE--TRNA-LIGASE-R_1" [{"type": "rna", "coeff": -1.0, "molecule": "ileV-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ILE", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-ileV-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["ILES-MONOMER"] -"ISOLEUCINE--TRNA-LIGASE-R_0" [{"type": "rna", "coeff": -1.0, "molecule": "ileX-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ILE", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-ileX-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["ILES-MONOMER"] -"LEUCINE--TRNA-LIGASE-R_0" [{"type": "rna", "coeff": -1.0, "molecule": "leuP-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "LEU", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-leuP-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["LEUS-MONOMER"] -"LEUCINE--TRNA-LIGASE-R_6" [{"type": "rna", "coeff": -1.0, "molecule": "leuQ-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "LEU", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-leuQ-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["LEUS-MONOMER"] -"LEUCINE--TRNA-LIGASE-R_5" [{"type": "rna", "coeff": -1.0, "molecule": "leuT-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "LEU", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-leuT-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["LEUS-MONOMER"] -"LEUCINE--TRNA-LIGASE-R_4" [{"type": "rna", "coeff": -1.0, "molecule": "leuU-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "LEU", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-leuU-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["LEUS-MONOMER"] -"LEUCINE--TRNA-LIGASE-R_2" [{"type": "rna", "coeff": -1.0, "molecule": "leuV-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "LEU", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-leuV-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["LEUS-MONOMER"] -"LEUCINE--TRNA-LIGASE-RXN" [{"type": "rna", "coeff": -1.0, "molecule": "leuW-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "LEU", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-leuW-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["LEUS-MONOMER"] -"LEUCINE--TRNA-LIGASE-R_3" [{"type": "rna", "coeff": -1.0, "molecule": "leuX-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "LEU", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-leuX-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["LEUS-MONOMER"] -"LEUCINE--TRNA-LIGASE-R_1" [{"type": "rna", "coeff": -1.0, "molecule": "leuZ-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "LEU", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-leuZ-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["LEUS-MONOMER"] -"LYSINE--TRNA-LIGASE-R_0" [{"type": "metabolite", "coeff": -1.0, "molecule": "LYS", "location": "c", "form": "mature"}, {"type": "rna", "coeff": -1.0, "molecule": "lysT-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-lysT-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["LYSS-CPLX", "LYSU-CPLX"] -"LYSINE--TRNA-LIGASE-RXN" [{"type": "metabolite", "coeff": -1.0, "molecule": "LYS", "location": "c", "form": "mature"}, {"type": "rna", "coeff": -1.0, "molecule": "lysV-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-lysV-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["LYSS-CPLX", "LYSU-CPLX"] -"LYSINE--TRNA-LIGASE-R_1" [{"type": "metabolite", "coeff": -1.0, "molecule": "LYS", "location": "c", "form": "mature"}, {"type": "rna", "coeff": -1.0, "molecule": "lysW-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-lysW-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["LYSS-CPLX", "LYSU-CPLX"] -"METHIONINE--TRNA-LIGASE-R_3" [{"type": "rna", "coeff": -1.0, "molecule": "metT-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "MET", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-metT-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["METG-CPLX"] -"METHIONINE--TRNA-LIGASE-R_2" [{"type": "rna", "coeff": -1.0, "molecule": "metU-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "MET", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-metU-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["METG-CPLX"] -"PHENYLALANINE--TRNA-LIGASE-R_0" [{"type": "rna", "coeff": -1.0, "molecule": "pheU-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "PHE", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-pheU-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["PHES-CPLX"] -"PHENYLALANINE--TRNA-LIGASE-RXN" [{"type": "rna", "coeff": -1.0, "molecule": "pheV-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "PHE", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-pheV-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["PHES-CPLX"] -"PROLINE--TRNA-LIGASE-RXN" [{"type": "rna", "coeff": -1.0, "molecule": "proK-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "PRO", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-proK-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["PROS-CPLX"] -"PROLINE--TRNA-LIGASE-R_0" [{"type": "rna", "coeff": -1.0, "molecule": "proL-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "PRO", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-proL-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["PROS-CPLX"] -"PROLINE--TRNA-LIGASE-R_1" [{"type": "rna", "coeff": -1.0, "molecule": "proM-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "PRO", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-proM-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["PROS-CPLX"] -"2.9.1.1-RXN-SERINE--TRNA-LIGASE-RXN" [{"type": "rna", "coeff": -1.0, "molecule": "selC-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "L-SELENOCYSTEINE", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-selC-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["CPLX0-1141"] -"SERINE--TRNA-LIGASE-R_1" [{"type": "rna", "coeff": -1.0, "molecule": "serT-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "SER", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-serT-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["SERS-CPLX"] -"SERINE--TRNA-LIGASE-R_3" [{"type": "rna", "coeff": -1.0, "molecule": "serU-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "SER", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-serU-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["SERS-CPLX"] -"SERINE--TRNA-LIGASE-R_0" [{"type": "rna", "coeff": -1.0, "molecule": "serV-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "SER", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-serV-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["SERS-CPLX"] -"SERINE--TRNA-LIGASE-RXN" [{"type": "rna", "coeff": -1.0, "molecule": "serW-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "SER", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-serW-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["SERS-CPLX"] -"SERINE--TRNA-LIGASE-R_2" [{"type": "rna", "coeff": -1.0, "molecule": "serX-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "SER", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-serX-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["SERS-CPLX"] -"THREONINE--TRNA-LIGASE-RXN" [{"type": "rna", "coeff": -1.0, "molecule": "thrT-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "THR", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-thrT-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["THRS-CPLX"] -"THREONINE--TRNA-LIGASE-R_2" [{"type": "rna", "coeff": -1.0, "molecule": "thrU-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "THR", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-thrU-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["THRS-CPLX"] -"THREONINE--TRNA-LIGASE-R_0" [{"type": "rna", "coeff": -1.0, "molecule": "thrV-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "THR", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-thrV-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["THRS-CPLX"] -"THREONINE--TRNA-LIGASE-R_1" [{"type": "rna", "coeff": -1.0, "molecule": "thrW-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "THR", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-thrW-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["THRS-CPLX"] -"TRYPTOPHAN--TRNA-LIGASE-RXN" [{"type": "metabolite", "coeff": -1.0, "molecule": "TRP", "location": "c", "form": "mature"}, {"type": "rna", "coeff": -1.0, "molecule": "trpT-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-trpT-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["TRPS-CPLX"] -"TYROSINE--TRNA-LIGASE-RXN" [{"type": "rna", "coeff": -1.0, "molecule": "tyrT-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "TYR", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-tyrT-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["TYRS-CPLX"] -"TYROSINE--TRNA-LIGASE-R_1" [{"type": "rna", "coeff": -1.0, "molecule": "tyrU-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "TYR", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-tyrU-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["TYRS-CPLX"] -"TYROSINE--TRNA-LIGASE-R_0" [{"type": "rna", "coeff": -1.0, "molecule": "tyrV-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "TYR", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-tyrV-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["TYRS-CPLX"] -"VALINE--TRNA-LIGASE-R_5" [{"type": "rna", "coeff": -1.0, "molecule": "valT-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "VAL", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-valT-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["VALS-MONOMER"] -"VALINE--TRNA-LIGASE-R_3" [{"type": "rna", "coeff": -1.0, "molecule": "valU-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "VAL", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-valU-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["VALS-MONOMER"] -"VALINE--TRNA-LIGASE-R_1" [{"type": "rna", "coeff": -1.0, "molecule": "valV-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "VAL", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-valV-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["VALS-MONOMER"] -"VALINE--TRNA-LIGASE-R_2" [{"type": "rna", "coeff": -1.0, "molecule": "valW-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "VAL", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-valW-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["VALS-MONOMER"] -"VALINE--TRNA-LIGASE-R_0" [{"type": "rna", "coeff": -1.0, "molecule": "valX-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "VAL", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-valX-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["VALS-MONOMER"] -"VALINE--TRNA-LIGASE-RXN" [{"type": "rna", "coeff": -1.0, "molecule": "valY-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "VAL", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": -1.0, "molecule": "ATP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "charged-valY-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PPI", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "AMP", "location": "c", "form": "mature"}] ["VALS-MONOMER"] -"RXN0-6434" [{"type": "proteinmonomers", "coeff": -1.0, "molecule": "EG10942-MONOMER", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": -1.0, "molecule": "modified-charged-selC-tRNA", "location": "c", "form": "mature"}, {"type": "proteincomplex", "coeff": 1.0, "molecule": "CPLX0-8053", "location": "c", "form": "mature"}] "null" -"2.9.1.1-R_0" [{"type": "metabolite", "coeff": -1.0, "molecule": "SELNP", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": -1.0, "molecule": "charged-selC-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PI", "location": "c", "form": "mature"}, {"type": "rnamodified", "coeff": 1.0, "molecule": "modified-charged-selC-tRNA", "location": "c", "form": "mature"}, {"type": "metabolite", "coeff": 1.0, "molecule": "PROTON", "location": "c", "form": "mature"}] ["CPLX0-1141"] diff --git a/reconstruction/ecoli/flat/rnas.tsv b/reconstruction/ecoli/flat/rnas.tsv index d1fe37b78a..d89c78eecb 100644 --- a/reconstruction/ecoli/flat/rnas.tsv +++ b/reconstruction/ecoli/flat/rnas.tsv @@ -1,4559 +1,4720 @@ -"id" "type" "modified_forms" "monomer_id" -"6S-RNA" "miscRNA" [] "null" -"C0067-RNA" "miscRNA" [] "null" -"C0293-RNA" "miscRNA" [] "null" -"C0299-RNA" "miscRNA" [] "null" -"C0343-RNA" "miscRNA" [] "null" -"C0362-RNA" "miscRNA" [] "null" -"C0465-RNA" "miscRNA" [] "null" -"C0614-RNA" "miscRNA" [] "null" -"C0664-RNA" "miscRNA" [] "null" -"C0719-RNA" "miscRNA" [] "null" -"C0730-RNA" "miscRNA" [] "null" -"CSRB-RNA" "miscRNA" [] "null" -"CSRC-RNA" "miscRNA" [] "null" -"DICF-RNA" "miscRNA" [] "null" -"DSRA-RNA" "miscRNA" [] "null" -"EG10001_RNA" "mRNA" [] "ALARACEBIOSYN-MONOMER" -"EG10002_RNA" "mRNA" [] "MODB-MONOMER" -"EG10003_RNA" "mRNA" [] "EG10003-MONOMER" -"EG10004_RNA" "mRNA" [] "EG10004-MONOMER" -"EG10006_RNA" "mRNA" [] "DCUB-MONOMER" -"EG10007_RNA" "mRNA" [] "HISM-MONOMER" -"EG10008_RNA" "mRNA" [] "HYDH-MONOMER" -"EG10010_RNA" "mRNA" [] "EG10010-MONOMER" -"EG10011_RNA" "mRNA" [] "EG10011-MONOMER" -"EG10012_RNA" "mRNA" [] "CYDC-MONOMER" -"EG10013_RNA" "mRNA" [] "EG10013-MONOMER" -"EG10014_RNA" "mRNA" [] "ACRD-MONOMER" -"EG10015_RNA" "mRNA" [] "EG10015-MONOMER" -"EG10016_RNA" "mRNA" [] "KDGALDOL-MONOMER" -"EG10017_RNA" "mRNA" [] "OPPSYN-MONOMER" -"EG10018_RNA" "mRNA" [] "EG10018-MONOMER" -"EG10020_RNA" "mRNA" [] "CPXR-MONOMER" -"EG10021_RNA" "mRNA" [] "EG10021-MONOMER" -"EG10022_RNA" "mRNA" [] "ISOCIT-LYASE-MONOMER" -"EG10023_RNA" "mRNA" [] "MALATE-SYNTHASE" -"EG10024_RNA" "mRNA" [] "E1P-MONOMER" -"EG10025_RNA" "mRNA" [] "E2P-MONOMER" -"EG10026_RNA" "mRNA" [] "ICITDEHASE-KIN-PHOSPHA" -"EG10027_RNA" "mRNA" [] "ACETATEKINA-MONOMER" -"EG10028_RNA" "mRNA" [] "PFLACTENZ-MONOMER" -"EG10029_RNA" "mRNA" [] "PD00230" -"EG10030_RNA" "mRNA" [] "ADENODEAMIN-MONOMER" -"EG10031_RNA" "mRNA" [] "ADHE-MONOMER" -"EG10032_RNA" "mRNA" [] "ADENYL-KIN-MONOMER" -"EG10033_RNA" "mRNA" [] "GLUCOSE-1-PHOSPHAT-MONOMER" -"EG10034_RNA" "mRNA" [] "ALAS-MONOMER" -"EG10035_RNA" "mRNA" [] "LACTALDDEHYDROG-MONOMER" -"EG10036_RNA" "mRNA" [] "ALDHDEHYDROG-MONOMER" -"EG10037_RNA" "mRNA" [] "EG10037-MONOMER" -"EG10039_RNA" "mRNA" [] "AMP-NUCLEOSID-MONOMER" -"EG10040_RNA" "mRNA" [] "EG10040-MONOMER" -"EG10041_RNA" "mRNA" [] "EG10041-MONOMER" -"EG10042_RNA" "mRNA" [] "EG10042-MONOMER" -"EG10043_RNA" "mRNA" [] "EG10043-MONOMER" -"EG10044_RNA" "mRNA" [] "EG10044-MONOMER" -"EG10045_RNA" "mRNA" [] "ANSA-MONOMER" -"EG10046_RNA" "mRNA" [] "ANSB-MONOMER" -"EG10047_RNA" "mRNA" [] "EG10047-MONOMER" -"EG10048_RNA" "mRNA" [] "EG10048-MONOMER" -"EG10049_RNA" "mRNA" [] "APPA-MONOMER" -"EG10050_RNA" "mRNA" [] "PD00967" -"EG10051_RNA" "mRNA" [] "ADENPRIBOSYLTRAN-MONOMER" -"EG10052_RNA" "mRNA" [] "ARABISOM-MONOMER" -"EG10053_RNA" "mRNA" [] "RIBULOKIN-MONOMER" -"EG10054_RNA" "mRNA" [] "PD00242" -"EG10055_RNA" "mRNA" [] "RIBULPEPIM-MONOMER" -"EG10056_RNA" "mRNA" [] "ARAE-MONOMER" -"EG10057_RNA" "mRNA" [] "ARAF-MONOMER" -"EG10058_RNA" "mRNA" [] "ARAG-MONOMER" -"EG10059_RNA" "mRNA" [] "ARAH-MONOMER" -"EG10060_RNA" "mRNA" [] "ARAJ-MONOMER" -"EG10061_RNA" "mRNA" [] "ARCA-MONOMER" -"EG10062_RNA" "mRNA" [] "ARCB-MONOMER" -"EG10063_RNA" "mRNA" [] "N-ACETYLTRANSFER-MONOMER" -"EG10064_RNA" "mRNA" [] "ACETYLGLUTKIN-MONOMER" -"EG10065_RNA" "mRNA" [] "N-ACETYLGLUTPREDUCT-MONOMER" -"EG10066_RNA" "mRNA" [] "ACETYLORNTRANSAM-MONOMER" -"EG10067_RNA" "mRNA" [] "CHAINF-MONOMER" -"EG10068_RNA" "mRNA" [] "ARGSUCCINSYN-MONOMER" -"EG10069_RNA" "mRNA" [] "CHAINI-MONOMER" -"EG10070_RNA" "mRNA" [] "PD00194" -"EG10071_RNA" "mRNA" [] "ARGS-MONOMER" -"EG10072_RNA" "mRNA" [] "ARGT-MONOMER" -"EG10073_RNA" "mRNA" [] "AROA-MONOMER" -"EG10074_RNA" "mRNA" [] "AROB-MONOMER" -"EG10075_RNA" "mRNA" [] "AROC-MONOMER" -"EG10076_RNA" "mRNA" [] "AROD-MONOMER" -"EG10077_RNA" "mRNA" [] "AROE-MONOMER" -"EG10078_RNA" "mRNA" [] "AROF-MONOMER" -"EG10079_RNA" "mRNA" [] "AROG-MONOMER" -"EG10080_RNA" "mRNA" [] "AROH-MONOMER" -"EG10081_RNA" "mRNA" [] "AROK-MONOMER" -"EG10082_RNA" "mRNA" [] "AROL-MONOMER" -"EG10083_RNA" "mRNA" [] "EG10083-MONOMER" -"EG10084_RNA" "mRNA" [] "AROP-MONOMER" -"EG10085_RNA" "mRNA" [] "EG10085-MONOMER" -"EG10086_RNA" "mRNA" [] "ASCF-MONOMER" -"EG10087_RNA" "mRNA" [] "EG10087-MONOMER" -"EG10088_RNA" "mRNA" [] "ASP-SEMIALDEHYDE-DEHYDROGENASE-MONOMER" -"EG10089_RNA" "mRNA" [] "ARYLSULFAT-MONOMER" -"EG10090_RNA" "mRNA" [] "EG10090-MONOMER" -"EG10091_RNA" "mRNA" [] "ASNSYNA-MONOMER" -"EG10092_RNA" "mRNA" [] "ASNSYNB-MONOMER" -"EG10093_RNA" "mRNA" [] "PD00250" -"EG10094_RNA" "mRNA" [] "ASNS-MONOMER" -"EG10095_RNA" "mRNA" [] "ASPARTASE-MONOMER" -"EG10096_RNA" "mRNA" [] "ASPAMINOTRANS-MONOMER" -"EG10097_RNA" "mRNA" [] "ASPS-MONOMER" -"EG10098_RNA" "mRNA" [] "ATPA-MONOMER" -"EG10099_RNA" "mRNA" [] "ATPB-MONOMER" -"EG10100_RNA" "mRNA" [] "ATPC-MONOMER" -"EG10101_RNA" "mRNA" [] "ATPD-MONOMER" -"EG10102_RNA" "mRNA" [] "ATPE-MONOMER" -"EG10103_RNA" "mRNA" [] "ATPF-MONOMER" -"EG10104_RNA" "mRNA" [] "ATPG-MONOMER" -"EG10105_RNA" "mRNA" [] "ATPH-MONOMER" -"EG10106_RNA" "mRNA" [] "EG10106-MONOMER" -"EG10107_RNA" "mRNA" [] "VALINE-PYRUVATE-AMINOTRANSFER-MONOMER" -"EG10108_RNA" "mRNA" [] "EG10108-MONOMER" -"EG10109_RNA" "mRNA" [] "CHD-MONOMER" -"EG10110_RNA" "mRNA" [] "BADH-MONOMER" -"EG10111_RNA" "mRNA" [] "PD00251" -"EG10112_RNA" "mRNA" [] "BETT-MONOMER" -"EG10113_RNA" "mRNA" [] "EG10113-MONOMER" -"EG10114_RNA" "mRNA" [] "EG10114-MONOMER" -"EG10115_RNA" "mRNA" [] "BGLF-MONOMER" -"EG10116_RNA" "mRNA" [] "EG10116-MONOMER" -"EG10117_RNA" "mRNA" [] "DAPASYN-MONOMER" -"EG10118_RNA" "mRNA" [] "BIOTIN-SYN-MONOMER" -"EG10119_RNA" "mRNA" [] "EG10119-MONOMER" -"EG10120_RNA" "mRNA" [] "DETHIOBIOTIN-SYN-MONOMER" -"EG10121_RNA" "mRNA" [] "7KAPSYN-MONOMER" -"EG10122_RNA" "mRNA" [] "EG10122-MONOMER" -"EG10123_RNA" "mRNA" [] "BIOTINLIG-MONOMER" -"EG10124_RNA" "mRNA" [] "EG10124-MONOMER" -"EG10125_RNA" "mRNA" [] "EG10125-MONOMER" -"EG10126_RNA" "mRNA" [] "EG10126-MONOMER" -"EG10127_RNA" "mRNA" [] "BTUC-MONOMER" -"EG10128_RNA" "mRNA" [] "BTUD-MONOMER" -"EG10129_RNA" "mRNA" [] "BTUE-MONOMER" -"EG10130_RNA" "mRNA" [] "COBALADENOSYLTRANS-MONOMER" -"EG10131_RNA" "mRNA" [] "LYSDECARBOX-MONOMER" -"EG10132_RNA" "mRNA" [] "CADB-MONOMER" -"EG10133_RNA" "mRNA" [] "PD00436" -"EG10134_RNA" "mRNA" [] "CARBPSYN-SMALL" -"EG10135_RNA" "mRNA" [] "CARBPSYN-LARGE" -"EG10136_RNA" "mRNA" [] "EG10136-MONOMER" -"EG10137_RNA" "mRNA" [] "CYTIDEAM-MONOMER" -"EG10138_RNA" "mRNA" [] "CDPDIGLYPYPHOSPHA-MONOMER" -"EG10139_RNA" "mRNA" [] "CDPDIGLYSYN-MONOMER" -"EG10140_RNA" "mRNA" [] "CELA-MONOMER" -"EG10141_RNA" "mRNA" [] "CELB-MONOMER" -"EG10142_RNA" "mRNA" [] "CELC-MONOMER" -"EG10143_RNA" "mRNA" [] "EG10143-MONOMER" -"EG10144_RNA" "mRNA" [] "EG10144-MONOMER" -"EG10145_RNA" "mRNA" [] "EG10145-MONOMER" -"EG10146_RNA" "mRNA" [] "PROTEIN-CHEA" -"EG10147_RNA" "mRNA" [] "CHEB-MONOMER" -"EG10148_RNA" "mRNA" [] "CHER-MONOMER" -"EG10149_RNA" "mRNA" [] "CHEW-MONOMER" -"EG10150_RNA" "mRNA" [] "CHEY-MONOMER" -"EG10151_RNA" "mRNA" [] "CHEZ-MONOMER" -"EG10152_RNA" "mRNA" [] "MODC-MONOMER" -"EG10153_RNA" "mRNA" [] "EG10153-MONOMER" -"EG10154_RNA" "mRNA" [] "EG10154-MONOMER" -"EG10155_RNA" "mRNA" [] "EG10155-MONOMER" -"EG10156_RNA" "mRNA" [] "EG10156-MONOMER" -"EG10157_RNA" "mRNA" [] "EG10157-MONOMER" -"EG10158_RNA" "mRNA" [] "EG10158-MONOMER" -"EG10159_RNA" "mRNA" [] "EG10159-MONOMER" -"EG10160_RNA" "mRNA" [] "CPDB-MONOMER" -"EG10161_RNA" "mRNA" [] "MANNPGUANYLTRANGDP-MONOMER" -"EG10162_RNA" "mRNA" [] "PHOSMANMUT-MONOMER" -"EG10163_RNA" "mRNA" [] "CPXA-MONOMER" -"EG10164_RNA" "mRNA" [] "PD00257" -"EG10165_RNA" "mRNA" [] "CRR-MONOMER" -"EG10166_RNA" "mRNA" [] "PD03695" -"EG10167_RNA" "mRNA" [] "EG10167-MONOMER" -"EG10168_RNA" "mRNA" [] "EG10168-MONOMER" -"EG10169_RNA" "mRNA" [] "EG10169-MONOMER" -"EG10170_RNA" "mRNA" [] "ADENYLATECYC-MONOMER" -"EG10172_RNA" "mRNA" [] "CYTOCHROME-B561-MONOMER" -"EG10173_RNA" "mRNA" [] "CYDA-MONOMER" -"EG10174_RNA" "mRNA" [] "CYDB-MONOMER" -"EG10175_RNA" "mRNA" [] "CYANLY-MONOMER" -"EG10176_RNA" "mRNA" [] "CARBODEHYDRAT-MONOMER" -"EG10177_RNA" "mRNA" [] "CYNX-MONOMER" -"EG10178_RNA" "mRNA" [] "CYOA-MONOMER" -"EG10179_RNA" "mRNA" [] "CYOB-MONOMER" -"EG10180_RNA" "mRNA" [] "CYOC-MONOMER" -"EG10181_RNA" "mRNA" [] "CYOD-MONOMER" -"EG10182_RNA" "mRNA" [] "HEMEOSYN-MONOMER" -"EG10183_RNA" "mRNA" [] "CYSA-MONOMER" -"EG10184_RNA" "mRNA" [] "PD00232" -"EG10185_RNA" "mRNA" [] "ADENYLYLSULFKIN-MONOMER" -"EG10186_RNA" "mRNA" [] "CYSD-MONOMER" -"EG10187_RNA" "mRNA" [] "SERINE-O-ACETTRAN-MONOMER" -"EG10188_RNA" "mRNA" [] "SIROHEMESYN-MONOMER" -"EG10189_RNA" "mRNA" [] "PAPSSULFOTRANS-MONOMER" -"EG10190_RNA" "mRNA" [] "BETACOMP-MONOMER" -"EG10191_RNA" "mRNA" [] "ALPHACOMP-MONOMER" -"EG10192_RNA" "mRNA" [] "ACSERLYA-MONOMER" -"EG10193_RNA" "mRNA" [] "ACSERLYB-MONOMER" -"EG10194_RNA" "mRNA" [] "CYSN-MONOMER" -"EG10195_RNA" "mRNA" [] "CYSP-MONOMER" -"EG10196_RNA" "mRNA" [] "CYSS-MONOMER" -"EG10197_RNA" "mRNA" [] "CYST-MONOMER" -"EG10198_RNA" "mRNA" [] "CYSW-MONOMER" -"EG10200_RNA" "mRNA" [] "PD04028" -"EG10201_RNA" "mRNA" [] "EG10201-MONOMER" -"EG10202_RNA" "mRNA" [] "EG10202-MONOMER" -"EG10203_RNA" "mRNA" [] "EG10203-MONOMER" -"EG10204_RNA" "mRNA" [] "EG10204-MONOMER" -"EG10205_RNA" "mRNA" [] "DIHYDRODIPICSYN-MONOMER" -"EG10206_RNA" "mRNA" [] "DIHYDROPICRED-MONOMER" -"EG10207_RNA" "mRNA" [] "MONOMER0-2001" -"EG10208_RNA" "mRNA" [] "MONOMER0-1981" -"EG10209_RNA" "mRNA" [] "DIAMINOPIMEPIM-MONOMER" -"EG10210_RNA" "mRNA" [] "EG10210-MONOMER" -"EG10211_RNA" "mRNA" [] "EG10211-MONOMER" -"EG10212_RNA" "mRNA" [] "EG10212-MONOMER" -"EG10213_RNA" "mRNA" [] "DALADALALIGA-MONOMER" -"EG10214_RNA" "mRNA" [] "DALADALALIGB-MONOMER" -"EG10215_RNA" "mRNA" [] "EG10215-MONOMER" -"EG10216_RNA" "mRNA" [] "EG10216-MONOMER" -"EG10217_RNA" "mRNA" [] "CARBOXYL-TRANSFERASE-BETA-MONOMER" -"EG10218_RNA" "mRNA" [] "EG10218-MONOMER" -"EG10219_RNA" "mRNA" [] "DEOA-MONOMER" -"EG10220_RNA" "mRNA" [] "PPENTOMUT-MONOMER" -"EG10221_RNA" "mRNA" [] "DEOXYRIBOSE-P-ALD-MONOMER" -"EG10222_RNA" "mRNA" [] "DEOD-MONOMER" -"EG10223_RNA" "mRNA" [] "PD01196" -"EG10224_RNA" "mRNA" [] "DIACYLGLYKIN-MONOMER" -"EG10225_RNA" "mRNA" [] "DGTPTRIPHYDRO-MONOMER" -"EG10226_RNA" "mRNA" [] "EG10226-MONOMER" -"EG10227_RNA" "mRNA" [] "EG10227-MONOMER" -"EG10228_RNA" "mRNA" [] "EG10228-MONOMER" -"EG10229_RNA" "mRNA" [] "EG10229-MONOMER" -"EG10230_RNA" "mRNA" [] "EG10230-MONOMER" -"EG10231_RNA" "mRNA" [] "DLACTDEHYDROGFAD-MONOMER" -"EG10232_RNA" "mRNA" [] "DMSA-MONOMER" -"EG10233_RNA" "mRNA" [] "DMSB-MONOMER" -"EG10234_RNA" "mRNA" [] "DMSC-MONOMER" -"EG10235_RNA" "mRNA" [] "PD03831" -"EG10236_RNA" "mRNA" [] "EG10236-MONOMER" -"EG10237_RNA" "mRNA" [] "EG10237-MONOMER" -"EG10238_RNA" "mRNA" [] "EG10238-MONOMER" -"EG10239_RNA" "mRNA" [] "EG10239-MONOMER" -"EG10240_RNA" "mRNA" [] "EG10240-MONOMER" -"EG10241_RNA" "mRNA" [] "EG10241-MONOMER" -"EG10242_RNA" "mRNA" [] "EG10242-MONOMER" -"EG10243_RNA" "mRNA" [] "EG10243-MONOMER" -"EG10244_RNA" "mRNA" [] "EG10244-MONOMER" -"EG10245_RNA" "mRNA" [] "MONOMER0-2383" -"EG10246_RNA" "mRNA" [] "EG10246-MONOMER" -"EG10247_RNA" "mRNA" [] "HOLO-ACP-SYNTH-MONOMER" -"EG10248_RNA" "mRNA" [] "DPPA-MONOMER" -"EG10249_RNA" "mRNA" [] "DSERDEAM-MONOMER" -"EG10250_RNA" "mRNA" [] "DSDX-MONOMER" -"EG10251_RNA" "mRNA" [] "DUTP-PYROP-MONOMER" -"EG10252_RNA" "mRNA" [] "EG10252-MONOMER" -"EG10253_RNA" "mRNA" [] "EG10253-MONOMER" -"EG10254_RNA" "mRNA" [] "PD03254" -"EG10255_RNA" "mRNA" [] "EG10255-MONOMER" -"EG10256_RNA" "mRNA" [] "KDPGALDOL-4OH2OXOGLUTARALDOL-MONOMER" -"EG10257_RNA" "mRNA" [] "PGLUCONDEHYDRAT-MONOMER" -"EG10258_RNA" "mRNA" [] "ENOLASE-MONOMER" -"EG10259_RNA" "mRNA" [] "ENTA-MONOMER" -"EG10260_RNA" "mRNA" [] "ENTB-MONOMER" -"EG10261_RNA" "mRNA" [] "ENTC-MONOMER" -"EG10262_RNA" "mRNA" [] "ENTD-MONOMER" -"EG10263_RNA" "mRNA" [] "ENTE-MONOMER" -"EG10264_RNA" "mRNA" [] "ENTF-MONOMER" -"EG10265_RNA" "mRNA" [] "UDPACYLGLCNACDEACETYL-MONOMER" -"EG10266_RNA" "mRNA" [] "EG10266-MONOMER" -"EG10267_RNA" "mRNA" [] "ACRF-MONOMER" -"EG10268_RNA" "mRNA" [] "PD00969" -"EG10269_RNA" "mRNA" [] "ENVZ-MONOMER" -"EG10270_RNA" "mRNA" [] "EG10270-MONOMER" -"EG10271_RNA" "mRNA" [] "EG10271-MONOMER" -"EG10272_RNA" "mRNA" [] "EG10272-MONOMER" -"EG10273_RNA" "mRNA" [] "FABA-MONOMER" -"EG10274_RNA" "mRNA" [] "FABB-MONOMER" -"EG10275_RNA" "mRNA" [] "BCCP-MONOMER" -"EG10276_RNA" "mRNA" [] "BIOTIN-CARBOXYL-MONOMER" -"EG10277_RNA" "mRNA" [] "FABH-MONOMER" -"EG10278_RNA" "mRNA" [] "FADA-MONOMER" -"EG10279_RNA" "mRNA" [] "FADB-MONOMER" -"EG10280_RNA" "mRNA" [] "EG10280-MONOMER" -"EG10281_RNA" "mRNA" [] "PD01520" -"EG10282_RNA" "mRNA" [] "FRUCTBISALD-CLASSII-MONOMER" -"EG10283_RNA" "mRNA" [] "F16B-MONOMER" -"EG10284_RNA" "mRNA" [] "EG10284-MONOMER" -"EG10285_RNA" "mRNA" [] "FORMATEDEHYDROGH-MONOMER" -"EG10286_RNA" "mRNA" [] "EG10286-MONOMER" -"EG10287_RNA" "mRNA" [] "FECB-MONOMER" -"EG10288_RNA" "mRNA" [] "FECC-MONOMER" -"EG10289_RNA" "mRNA" [] "FECD-MONOMER" -"EG10290_RNA" "mRNA" [] "FECE-MONOMER" -"EG10291_RNA" "mRNA" [] "PD00440" -"EG10292_RNA" "mRNA" [] "EG10292-MONOMER" -"EG10293_RNA" "mRNA" [] "EG10293-MONOMER" -"EG10294_RNA" "mRNA" [] "FEPB-MONOMER" -"EG10295_RNA" "mRNA" [] "FEPC-MONOMER" -"EG10296_RNA" "mRNA" [] "FEPD-MONOMER" -"EG10297_RNA" "mRNA" [] "EG10297-MONOMER" -"EG10298_RNA" "mRNA" [] "FEPG-MONOMER" -"EG10299_RNA" "mRNA" [] "EG10299-MONOMER" -"EG10300_RNA" "mRNA" [] "EG10300-MONOMER" -"EG10301_RNA" "mRNA" [] "PD02936" -"EG10302_RNA" "mRNA" [] "EG10302-MONOMER" -"EG10303_RNA" "mRNA" [] "FHUB-MONOMER" -"EG10304_RNA" "mRNA" [] "FHUC-MONOMER" -"EG10305_RNA" "mRNA" [] "FHUD-MONOMER" -"EG10306_RNA" "mRNA" [] "EG10306-MONOMER" -"EG10307_RNA" "mRNA" [] "EG10307-MONOMER" -"EG10308_RNA" "mRNA" [] "EG10308-MONOMER" -"EG10309_RNA" "mRNA" [] "EG10309-MONOMER" -"EG10310_RNA" "mRNA" [] "EG10310-MONOMER" -"EG10311_RNA" "mRNA" [] "EG10311-MONOMER" -"EG10312_RNA" "mRNA" [] "EG10312-MONOMER" -"EG10313_RNA" "mRNA" [] "EG10313-MONOMER" -"EG10314_RNA" "mRNA" [] "EG10314-MONOMER" -"EG10315_RNA" "mRNA" [] "EG10315-MONOMER" -"EG10316_RNA" "mRNA" [] "UDPHYDROXYMYRGLUCOSAMNACETYLTRANS-MONO" -"EG10317_RNA" "mRNA" [] "PD00196" -"EG10318_RNA" "mRNA" [] "FLAVODOXIN1-MONOMER" -"EG10319_RNA" "mRNA" [] "MONOMER0-2488" -"EG10320_RNA" "mRNA" [] "EG10320-MONOMER" -"EG10321_RNA" "mRNA" [] "EG10321-MONOMER" -"EG10322_RNA" "mRNA" [] "EG10322-MONOMER" -"EG10323_RNA" "mRNA" [] "FLIM-FLAGELLAR-C-RING-SWITCH" -"EG10324_RNA" "mRNA" [] "FLIN-FLAGELLAR-C-RING-SWITCH" -"EG10325_RNA" "mRNA" [] "PD00197" -"EG10326_RNA" "mRNA" [] "DIHYDROFOLATEREDUCT-MONOMER" -"EG10327_RNA" "mRNA" [] "FOLC-MONOMER" -"EG10328_RNA" "mRNA" [] "FOLD-MONOMER" -"EG10329_RNA" "mRNA" [] "EG10329-MONOMER" -"EG10330_RNA" "mRNA" [] "FUM-FLAVO" -"EG10331_RNA" "mRNA" [] "FUM-FE-S" -"EG10332_RNA" "mRNA" [] "FUM-MEMB1" -"EG10333_RNA" "mRNA" [] "FUM-MEMB2" -"EG10334_RNA" "mRNA" [] "FMNREDUCT-MONOMER" -"EG10335_RNA" "mRNA" [] "EG10335-MONOMER" -"EG10336_RNA" "mRNA" [] "FRUA-MONOMER" -"EG10337_RNA" "mRNA" [] "1-PFK-MONOMER" -"EG10338_RNA" "mRNA" [] "PD00521" -"EG10339_RNA" "mRNA" [] "EG10339-MONOMER" -"EG10340_RNA" "mRNA" [] "FTSE-MONOMER" -"EG10341_RNA" "mRNA" [] "EG10341-MONOMER" -"EG10342_RNA" "mRNA" [] "EG10342-MONOMER" -"EG10343_RNA" "mRNA" [] "EG10343-MONOMER" -"EG10344_RNA" "mRNA" [] "EG10344-MONOMER" -"EG10345_RNA" "mRNA" [] "FTSX-MONOMER" -"EG10346_RNA" "mRNA" [] "EG10346-MONOMER" -"EG10347_RNA" "mRNA" [] "EG10347-MONOMER" -"EG10348_RNA" "mRNA" [] "FUCPALDOL-MONOMER" -"EG10349_RNA" "mRNA" [] "FUCISOM-MONOMER" -"EG10350_RNA" "mRNA" [] "FUCULOKIN-MONOMER" -"EG10351_RNA" "mRNA" [] "LACTALDREDUCT-MONOMER" -"EG10352_RNA" "mRNA" [] "FUCP-MONOMER" -"EG10353_RNA" "mRNA" [] "PD00444" -"EG10355_RNA" "mRNA" [] "EG10355-MONOMER" -"EG10356_RNA" "mRNA" [] "FUMA-MONOMER" -"EG10357_RNA" "mRNA" [] "FUMB-MONOMER" -"EG10358_RNA" "mRNA" [] "FUMC-MONOMER" -"EG10359_RNA" "mRNA" [] "PD00260" -"EG10360_RNA" "mRNA" [] "EG10360-MONOMER" -"EG10361_RNA" "mRNA" [] "GABATRANSAM-MONOMER" -"EG10362_RNA" "mRNA" [] "UDPGLUCEPIM-MONOMER" -"EG10363_RNA" "mRNA" [] "GALACTOKIN-MONOMER" -"EG10364_RNA" "mRNA" [] "PD03028" -"EG10365_RNA" "mRNA" [] "PD00261" -"EG10366_RNA" "mRNA" [] "GALACTURIDYLYLTRANS-MONOMER" -"EG10367_RNA" "mRNA" [] "GAPDH-A-MONOMER" -"EG10368_RNA" "mRNA" [] "ERYTH4PDEHYDROG-MONOMER" -"EG10369_RNA" "mRNA" [] "GLUCDEHYDROG-MONOMER" -"EG10370_RNA" "mRNA" [] "EG10370-MONOMER" -"EG10371_RNA" "mRNA" [] "GCVH-MONOMER" -"EG10372_RNA" "mRNA" [] "GDHA-MONOMER" -"EG10373_RNA" "mRNA" [] "EG10373-MONOMER" -"EG10374_RNA" "mRNA" [] "EG10374-MONOMER" -"EG10375_RNA" "mRNA" [] "EG10375-MONOMER" -"EG10376_RNA" "mRNA" [] "EG10376-MONOMER" -"EG10377_RNA" "mRNA" [] "GLYCOGENSYN-MONOMER" -"EG10378_RNA" "mRNA" [] "GLYCOGEN-BRANCH-MONOMER" -"EG10379_RNA" "mRNA" [] "GLUC1PADENYLTRANS-MONOMER" -"EG10380_RNA" "mRNA" [] "GLYCOPHOSPHORYL-MONOMER" -"EG10381_RNA" "mRNA" [] "EG10381-MONOMER" -"EG10382_RNA" "mRNA" [] "L-GLN-FRUCT-6-P-AMINOTRANS-MONOMER" -"EG10383_RNA" "mRNA" [] "GLUTAMINESYN-MONOMER" -"EG10384_RNA" "mRNA" [] "PROTEIN-PII" -"EG10385_RNA" "mRNA" [] "PROTEIN-NRI" -"EG10386_RNA" "mRNA" [] "GLNH-MONOMER" -"EG10387_RNA" "mRNA" [] "PROTEIN-NRII" -"EG10388_RNA" "mRNA" [] "GLNP-MONOMER" -"EG10389_RNA" "mRNA" [] "GLNQ-MONOMER" -"EG10390_RNA" "mRNA" [] "GLNS-MONOMER" -"EG10391_RNA" "mRNA" [] "ANGLYC3PDEHYDROGSUBUNITA-MONOMER" -"EG10392_RNA" "mRNA" [] "ANGLYC3PDEHYDROGSUBUNITB-MONOMER" -"EG10393_RNA" "mRNA" [] "ANGLYC3PDEHYDROGSUBUNITC-MONOMER" -"EG10394_RNA" "mRNA" [] "AERGLYC3PDEHYDROG-MONOMER" -"EG10395_RNA" "mRNA" [] "EG10395-MONOMER" -"EG10396_RNA" "mRNA" [] "GLPF-MONOMER" -"EG10397_RNA" "mRNA" [] "EG10397-MONOMER" -"EG10398_RNA" "mRNA" [] "GLYCEROL-KIN-MONOMER" -"EG10399_RNA" "mRNA" [] "GLYCPDIESTER-PERI-MONOMER" -"EG10400_RNA" "mRNA" [] "PD03576" -"EG10401_RNA" "mRNA" [] "GLPT-MONOMER" -"EG10402_RNA" "mRNA" [] "CITSYN-MONOMER" -"EG10403_RNA" "mRNA" [] "GLUSYNLARGE-MONOMER" -"EG10404_RNA" "mRNA" [] "GLUSYNSMALL-MONOMER" -"EG10405_RNA" "mRNA" [] "GLTP-MONOMER" -"EG10406_RNA" "mRNA" [] "GLTS-MONOMER" -"EG10407_RNA" "mRNA" [] "GLURS-MONOMER" -"EG10408_RNA" "mRNA" [] "GLYOHMETRANS-MONOMER" -"EG10409_RNA" "mRNA" [] "GLYQ-MONOMER" -"EG10410_RNA" "mRNA" [] "GLYS-MONOMER" -"EG10411_RNA" "mRNA" [] "6PGLUCONDEHYDROG-MONOMER" -"EG10412_RNA" "mRNA" [] "GLUTATHIONE-REDUCT-NADPH-MONOMER" -"EG10413_RNA" "mRNA" [] "PPPGPPHYDRO-MONOMER" -"EG10414_RNA" "mRNA" [] "GPT-MONOMER" -"EG10415_RNA" "mRNA" [] "EG10415-MONOMER" -"EG10416_RNA" "mRNA" [] "EG10416-MONOMER" -"EG10417_RNA" "mRNA" [] "RED-GLUTAREDOXIN" -"EG10418_RNA" "mRNA" [] "GLUTCYSLIG-MONOMER" -"EG10419_RNA" "mRNA" [] "GLUTATHIONE-SYN-MONOMER" -"EG10420_RNA" "mRNA" [] "GMP-SYN-MONOMER" -"EG10421_RNA" "mRNA" [] "IMP-DEHYDROG-MONOMER" -"EG10422_RNA" "mRNA" [] "GMP-REDUCT-MONOMER" -"EG10423_RNA" "mRNA" [] "EG10423-MONOMER" -"EG10424_RNA" "mRNA" [] "EG10424-MONOMER" -"EG10425_RNA" "mRNA" [] "7-ALPHA-HYDROXYSTEROID-DEH-MONOMER" -"EG10426_RNA" "mRNA" [] "EG10426-MONOMER" -"EG10427_RNA" "mRNA" [] "GLUTRNAREDUCT-MONOMER" -"EG10428_RNA" "mRNA" [] "PORPHOBILSYNTH-MONOMER" -"EG10429_RNA" "mRNA" [] "OHMETHYLBILANESYN-MONOMER" -"EG10430_RNA" "mRNA" [] "UROGENIIISYN-MONOMER" -"EG10431_RNA" "mRNA" [] "PROTOHEME-FERROCHELAT-MONOMER" -"EG10432_RNA" "mRNA" [] "GSAAMINOTRANS-MONOMER" -"EG10433_RNA" "mRNA" [] "HEMX-MONOMER" -"EG10434_RNA" "mRNA" [] "EG10434-MONOMER" -"EG10435_RNA" "mRNA" [] "EG10435-MONOMER" -"EG10436_RNA" "mRNA" [] "EG10436-MONOMER" -"EG10437_RNA" "mRNA" [] "EG10437-MONOMER" -"EG10438_RNA" "mRNA" [] "EG10438-MONOMER" -"EG10439_RNA" "mRNA" [] "EG10439-MONOMER" -"EG10440_RNA" "mRNA" [] "PD00347" -"EG10441_RNA" "mRNA" [] "PD00348" -"EG10442_RNA" "mRNA" [] "EG10442-MONOMER" -"EG10443_RNA" "mRNA" [] "EG10443-MONOMER" -"EG10444_RNA" "mRNA" [] "PRIBFAICARPISOM-MONOMER" -"EG10445_RNA" "mRNA" [] "IMIDPHOSPHADEHYDHISTIDPHOSPHA-MONOMER" -"EG10446_RNA" "mRNA" [] "HISTPHOSTRANS-MONOMER" -"EG10447_RNA" "mRNA" [] "HISTDEHYD-MONOMER" -"EG10448_RNA" "mRNA" [] "CYCLASE-MONOMER" -"EG10449_RNA" "mRNA" [] "ATPPHOSRIBOSTRANS-MONOMER" -"EG10450_RNA" "mRNA" [] "GLUTAMIDOTRANS-MONOMER" -"EG10451_RNA" "mRNA" [] "HISTCYCLOPRATPPHOS" -"EG10452_RNA" "mRNA" [] "HISP-MONOMER" -"EG10453_RNA" "mRNA" [] "HISS-MONOMER" -"EG10454_RNA" "mRNA" [] "EG10454-MONOMER" -"EG10455_RNA" "mRNA" [] "EG10455-MONOMER" -"EG10456_RNA" "mRNA" [] "EG10456-MONOMER" -"EG10457_RNA" "mRNA" [] "PD00288" -"EG10458_RNA" "mRNA" [] "EG10458-MONOMER" -"EG10459_RNA" "mRNA" [] "EG10459-MONOMER" -"EG10460_RNA" "mRNA" [] "EG10460-MONOMER" -"EG10461_RNA" "mRNA" [] "EG10461-MONOMER" -"EG10462_RNA" "mRNA" [] "EG10462-MONOMER" -"EG10463_RNA" "mRNA" [] "EG10463-MONOMER" -"EG10464_RNA" "mRNA" [] "LAUROYLACYLTRAN-MONOMER" -"EG10465_RNA" "mRNA" [] "DIOHBUTANONEPSYN-MONOMER" -"EG10466_RNA" "mRNA" [] "EG10466-MONOMER" -"EG10467_RNA" "mRNA" [] "EG10467-MONOMER" -"EG10468_RNA" "mRNA" [] "HYAA-MONOMER" -"EG10469_RNA" "mRNA" [] "HYAB-MONOMER" -"EG10470_RNA" "mRNA" [] "HYAC-MONOMER" -"EG10471_RNA" "mRNA" [] "EG10471-MONOMER" -"EG10472_RNA" "mRNA" [] "EG10472-MONOMER" -"EG10473_RNA" "mRNA" [] "EG10473-MONOMER" -"EG10474_RNA" "mRNA" [] "EG10474-MONOMER" -"EG10475_RNA" "mRNA" [] "HYCBSMALL-MONOMER" -"EG10476_RNA" "mRNA" [] "HYCC-MONOMER" -"EG10477_RNA" "mRNA" [] "HYCD-MONOMER" -"EG10478_RNA" "mRNA" [] "HYCELARGE-MONOMER" -"EG10479_RNA" "mRNA" [] "HYCF-MONOMER" -"EG10480_RNA" "mRNA" [] "HYCG-MONOMER" -"EG10481_RNA" "mRNA" [] "EG10481-MONOMER" -"EG10482_RNA" "mRNA" [] "HYDG-MONOMER" -"EG10483_RNA" "mRNA" [] "EG10483-MONOMER" -"EG10484_RNA" "mRNA" [] "EG10484-MONOMER" -"EG10485_RNA" "mRNA" [] "EG10485-MONOMER" -"EG10486_RNA" "mRNA" [] "EG10486-MONOMER" -"EG10487_RNA" "mRNA" [] "EG10487-MONOMER" -"EG10488_RNA" "mRNA" [] "EG10488-MONOMER" -"EG10489_RNA" "mRNA" [] "ISOCITDEH-SUBUNIT" -"EG10490_RNA" "mRNA" [] "EG10490-MONOMER" -"EG10491_RNA" "mRNA" [] "PD04099" -"EG10492_RNA" "mRNA" [] "ILES-MONOMER" -"EG10493_RNA" "mRNA" [] "THREDEHYDSYN-MONOMER" -"EG10494_RNA" "mRNA" [] "LARGEILVB-MONOMER" -"EG10495_RNA" "mRNA" [] "KETOLREDUCTOISOM-MONOMER" -"EG10496_RNA" "mRNA" [] "DIHYDROXYACIDDEHYDRAT-MONOMER" -"EG10497_RNA" "mRNA" [] "BRANCHED-CHAINAMINOTRANSFER-MONOMER" -"EG10498_RNA" "mRNA" [] "LARGEILVG-MONOMER" -"EG10499_RNA" "mRNA" [] "ACETOLACTSYNIII-HCHAIN-MONOMER" -"EG10500_RNA" "mRNA" [] "ACETOLACTSYNIII-ICHAIN-MONOMER" -"EG10501_RNA" "mRNA" [] "SMALLILVM-MONOMER" -"EG10502_RNA" "mRNA" [] "SMALLILVN-MONOMER" -"EG10503_RNA" "mRNA" [] "PD00200" -"EG10504_RNA" "mRNA" [] "EG10504-MONOMER" -"EG10505_RNA" "mRNA" [] "EG10505-MONOMER" -"EG10506_RNA" "mRNA" [] "EG10506-MONOMER" -"EG10507_RNA" "mRNA" [] "EG10507-MONOMER" -"EG10508_RNA" "mRNA" [] "FPPSYN-MONOMER" -"EG10509_RNA" "mRNA" [] "HYDROPEROXIDII-MONOMER" -"EG10510_RNA" "mRNA" [] "RPOS-MONOMER" -"EG10511_RNA" "mRNA" [] "HYDROPEROXIDI-MONOMER" -"EG10512_RNA" "mRNA" [] "AKBLIG-MONOMER" -"EG10513_RNA" "mRNA" [] "EG10513-MONOMER" -"EG10514_RNA" "mRNA" [] "KDPB-MONOMER" -"EG10515_RNA" "mRNA" [] "EG10515-MONOMER" -"EG10516_RNA" "mRNA" [] "KDPD-MONOMER" -"EG10517_RNA" "mRNA" [] "KDPE-MONOMER" -"EG10518_RNA" "mRNA" [] "KDO-8PSYNTH-MONOMER" -"EG10519_RNA" "mRNA" [] "CPM-KDOSYNTH-MONOMER" -"EG10520_RNA" "mRNA" [] "KDOTRANS-MONOMER" -"EG10521_RNA" "mRNA" [] "KEFC-MONOMER" -"EG10522_RNA" "mRNA" [] "KGTP-MONOMER" -"EG10523_RNA" "mRNA" [] "EG10523-MONOMER" -"EG10524_RNA" "mRNA" [] "GALACTOACETYLTRAN-MONOMER" -"EG10525_RNA" "mRNA" [] "PD00763" -"EG10526_RNA" "mRNA" [] "LACY-MONOMER" -"EG10527_RNA" "mRNA" [] "BETAGALACTOSID-MONOMER" -"EG10528_RNA" "mRNA" [] "EG10528-MONOMER" -"EG10529_RNA" "mRNA" [] "EG10529-MONOMER" -"EG10530_RNA" "mRNA" [] "EG10530-MONOMER" -"EG10531_RNA" "mRNA" [] "PD00519" -"EG10532_RNA" "mRNA" [] "LEUS-MONOMER" -"EG10533_RNA" "mRNA" [] "PD00205" -"EG10534_RNA" "mRNA" [] "EG10534-MONOMER" -"EG10535_RNA" "mRNA" [] "EG10535-MONOMER" -"EG10536_RNA" "mRNA" [] "LIVF-MONOMER" -"EG10537_RNA" "mRNA" [] "LIVG-MONOMER" -"EG10538_RNA" "mRNA" [] "LIVH-MONOMER" -"EG10539_RNA" "mRNA" [] "LIVJ-MONOMER" -"EG10540_RNA" "mRNA" [] "LIVK-MONOMER" -"EG10541_RNA" "mRNA" [] "LIVM-MONOMER" -"EG10542_RNA" "mRNA" [] "EG10542-MONOMER" -"EG10543_RNA" "mRNA" [] "E3-MONOMER" -"EG10544_RNA" "mRNA" [] "EG10544-MONOMER" -"EG10545_RNA" "mRNA" [] "UDPNACETYLGLUCOSAMACYLTRANS-MONOMER" -"EG10546_RNA" "mRNA" [] "LIPIDADISACCHARIDESYNTH-MONOMER" -"EG10547_RNA" "mRNA" [] "PD00353" -"EG10548_RNA" "mRNA" [] "EG10548-MONOMER" -"EG10549_RNA" "mRNA" [] "DIAMINOPIMDECARB-MONOMER" -"EG10550_RNA" "mRNA" [] "ASPKINIII-MONOMER" -"EG10551_RNA" "mRNA" [] "PD00360" -"EG10552_RNA" "mRNA" [] "LYSS-MONOMER" -"EG10553_RNA" "mRNA" [] "LYSU-MONOMER" -"EG10554_RNA" "mRNA" [] "MALE-MONOMER" -"EG10555_RNA" "mRNA" [] "MALF-MONOMER" -"EG10556_RNA" "mRNA" [] "MALG-MONOMER" -"EG10557_RNA" "mRNA" [] "PD00361" -"EG10558_RNA" "mRNA" [] "MALK-MONOMER" -"EG10559_RNA" "mRNA" [] "EG10559-MONOMER" -"EG10560_RNA" "mRNA" [] "MALDEXPHOSPHORYL-MONOMER" -"EG10561_RNA" "mRNA" [] "AMYLOMALT-MONOMER" -"EG10562_RNA" "mRNA" [] "PD00237" -"EG10563_RNA" "mRNA" [] "MALX-MONOMER" -"EG10564_RNA" "mRNA" [] "EG10564-MONOMER" -"EG10565_RNA" "mRNA" [] "MALTODEXGLUCOSID-MONOMER" -"EG10566_RNA" "mRNA" [] "MANNPISOM-MONOMER" -"EG10567_RNA" "mRNA" [] "MANX-MONOMER" -"EG10568_RNA" "mRNA" [] "MANY-MONOMER" -"EG10569_RNA" "mRNA" [] "MANZ-MONOMER" -"EG10570_RNA" "mRNA" [] "EG10570-MONOMER" -"EG10571_RNA" "mRNA" [] "EG10571-MONOMER" -"EG10572_RNA" "mRNA" [] "EG10572-MONOMER" -"EG10573_RNA" "mRNA" [] "EG10573-MONOMER" -"EG10574_RNA" "mRNA" [] "EG10574-MONOMER" -"EG10575_RNA" "mRNA" [] "EG10575-MONOMER" -"EG10576_RNA" "mRNA" [] "MALATE-DEHASE-MONOMER" -"EG10577_RNA" "mRNA" [] "ALPHAGALACTOSID-MONOMER" -"EG10578_RNA" "mRNA" [] "MELB-MONOMER" -"EG10579_RNA" "mRNA" [] "MEND-MONOMER" -"EG10580_RNA" "mRNA" [] "EG10580-MONOMER" -"EG10581_RNA" "mRNA" [] "HOMSUCTRAN-MONOMER" -"EG10582_RNA" "mRNA" [] "O-SUCCHOMOSERLYASE-MONOMER" -"EG10583_RNA" "mRNA" [] "CYSTATHIONINE-BETA-LYASE-MONOMER" -"EG10584_RNA" "mRNA" [] "HOMOCYSMET-MONOMER" -"EG10585_RNA" "mRNA" [] "METHYLENETHFREDUCT-MONOMER" -"EG10586_RNA" "mRNA" [] "METG-MONOMER" -"EG10587_RNA" "mRNA" [] "HOMOCYSMETB12-MONOMER" -"EG10588_RNA" "mRNA" [] "PD04032" -"EG10589_RNA" "mRNA" [] "S-ADENMETSYN-MONOMER" -"EG10590_RNA" "mRNA" [] "ASPKINIIHOMOSERDEHYDROGII-MONOMER" -"EG10591_RNA" "mRNA" [] "PD03938" -"EG10592_RNA" "mRNA" [] "MGLA-MONOMER" -"EG10593_RNA" "mRNA" [] "MGLB-MONOMER" -"EG10594_RNA" "mRNA" [] "MGLC-MONOMER" -"EG10595_RNA" "mRNA" [] "EG10595-MONOMER" -"EG10596_RNA" "mRNA" [] "EG10596-MONOMER" -"EG10597_RNA" "mRNA" [] "EG10597-MONOMER" -"EG10598_RNA" "mRNA" [] "EG10598-MONOMER" -"EG10599_RNA" "mRNA" [] "EG10599-MONOMER" -"EG10600_RNA" "mRNA" [] "EG10600-MONOMER" -"EG10601_RNA" "mRNA" [] "MOTA-FLAGELLAR-MOTOR-STATOR-PROTEIN" -"EG10602_RNA" "mRNA" [] "MOTB-FLAGELLAR-MOTOR-STATOR-PROTEIN" -"EG10603_RNA" "mRNA" [] "EG10603-MONOMER" -"EG10604_RNA" "mRNA" [] "PHOSNACMURPENTATRANS-MONOMER" -"EG10605_RNA" "mRNA" [] "EG10605-MONOMER" -"EG10606_RNA" "mRNA" [] "EG10606-MONOMER" -"EG10607_RNA" "mRNA" [] "EG10607-MONOMER" -"EG10608_RNA" "mRNA" [] "EG10608-MONOMER" -"EG10609_RNA" "mRNA" [] "EG10609-MONOMER" -"EG10610_RNA" "mRNA" [] "EG10610-MONOMER" -"EG10611_RNA" "mRNA" [] "EG10611-MONOMER" -"EG10612_RNA" "mRNA" [] "EG10612-MONOMER" -"EG10613_RNA" "mRNA" [] "EG10613-MONOMER" -"EG10614_RNA" "mRNA" [] "MYRISTOYLACYLTRAN-MONOMER" -"EG10615_RNA" "mRNA" [] "MTLA-MONOMER" -"EG10616_RNA" "mRNA" [] "MANNPDEHYDROG-MONOMER" -"EG10617_RNA" "mRNA" [] "MTR-MONOMER" -"EG10618_RNA" "mRNA" [] "EG10618-MONOMER" -"EG10619_RNA" "mRNA" [] "UDP-NACMUR-ALA-LIG-MONOMER" -"EG10620_RNA" "mRNA" [] "UDP-NACMURALA-GLU-LIG-MONOMER" -"EG10621_RNA" "mRNA" [] "UDP-NACMURALGLDAPLIG-MONOMER" -"EG10622_RNA" "mRNA" [] "UDP-NACMURALGLDAPAALIG-MONOMER" -"EG10623_RNA" "mRNA" [] "NACGLCTRANS-MONOMER" -"EG10624_RNA" "mRNA" [] "EG10624-MONOMER" -"EG10625_RNA" "mRNA" [] "EG10625-MONOMER" -"EG10626_RNA" "mRNA" [] "EG10626-MONOMER" -"EG10627_RNA" "mRNA" [] "EG10627-MONOMER" -"EG10628_RNA" "mRNA" [] "FLAVONADPREDUCT-MONOMER" -"EG10629_RNA" "mRNA" [] "EMRE-MONOMER" -"EG10630_RNA" "mRNA" [] "QUINOLINATE-SYNTHA-MONOMER" -"EG10631_RNA" "mRNA" [] "L-ASPARTATE-OXID-MONOMER" -"EG10632_RNA" "mRNA" [] "NAG6PDEACET-MONOMER" -"EG10633_RNA" "mRNA" [] "GLUCOSAMINE-6-P-DEAMIN-MONOMER" -"EG10634_RNA" "mRNA" [] "EG10634-MONOMER" -"EG10635_RNA" "mRNA" [] "NAGE-MONOMER" -"EG10636_RNA" "mRNA" [] "PD00266" -"EG10637_RNA" "mRNA" [] "ACNEULY-MONOMER" -"EG10638_RNA" "mRNA" [] "NARG-MONOMER" -"EG10639_RNA" "mRNA" [] "NARH-MONOMER" -"EG10640_RNA" "mRNA" [] "NARI-MONOMER" -"EG10641_RNA" "mRNA" [] "NARJ-MONOMER" -"EG10642_RNA" "mRNA" [] "NARK-MONOMER" -"EG10643_RNA" "mRNA" [] "NARL-MONOMER" -"EG10644_RNA" "mRNA" [] "NARV-MONOMER" -"EG10645_RNA" "mRNA" [] "NARW-MONOMER" -"EG10646_RNA" "mRNA" [] "NARX-MONOMER" -"EG10647_RNA" "mRNA" [] "NARY-MONOMER" -"EG10648_RNA" "mRNA" [] "NARZ-MONOMER" -"EG10649_RNA" "mRNA" [] "NADH-DHII-MONOMER" -"EG10650_RNA" "mRNA" [] "NUCLEOSIDE-DIP-KIN-MONOMER" -"EG10651_RNA" "mRNA" [] "EG10651-MONOMER" -"EG10652_RNA" "mRNA" [] "NHAA-MONOMER" -"EG10653_RNA" "mRNA" [] "NIRB-MONOMER" -"EG10654_RNA" "mRNA" [] "NIRC-MONOMER" -"EG10655_RNA" "mRNA" [] "NIRD-MONOMER" -"EG10656_RNA" "mRNA" [] "EG10656-MONOMER" -"EG10657_RNA" "mRNA" [] "EG10657-MONOMER" -"EG10658_RNA" "mRNA" [] "EG10658-MONOMER" -"EG10659_RNA" "mRNA" [] "EG10659-MONOMER" -"EG10660_RNA" "mRNA" [] "NRDA-MONOMER" -"EG10661_RNA" "mRNA" [] "NRDB-MONOMER" -"EG10662_RNA" "mRNA" [] "EG10662-MONOMER" -"EG10663_RNA" "mRNA" [] "NAD-SYNTH-MONOMER" -"EG10664_RNA" "mRNA" [] "NUPG-MONOMER" -"EG10665_RNA" "mRNA" [] "EG10665-MONOMER" -"EG10666_RNA" "mRNA" [] "EG10666-MONOMER" -"EG10667_RNA" "mRNA" [] "EG10667-MONOMER" -"EG10668_RNA" "mRNA" [] "EG10668-MONOMER" -"EG10669_RNA" "mRNA" [] "EG10669-MONOMER" -"EG10670_RNA" "mRNA" [] "EG10670-MONOMER" -"EG10671_RNA" "mRNA" [] "EG10671-MONOMER" -"EG10672_RNA" "mRNA" [] "OMPR-MONOMER" -"EG10673_RNA" "mRNA" [] "EG10673-MONOMER" -"EG10674_RNA" "mRNA" [] "OPPA-MONOMER" -"EG10675_RNA" "mRNA" [] "OPPB-MONOMER" -"EG10676_RNA" "mRNA" [] "OPPC-MONOMER" -"EG10677_RNA" "mRNA" [] "OPPD-MONOMER" -"EG10678_RNA" "mRNA" [] "OPPF-MONOMER" -"EG10679_RNA" "mRNA" [] "EG10679-MONOMER" -"EG10680_RNA" "mRNA" [] "EG10680-MONOMER" -"EG10681_RNA" "mRNA" [] "PD00214" -"EG10682_RNA" "mRNA" [] "PABASYN-COMPII-MONOMER" -"EG10683_RNA" "mRNA" [] "PABASYN-COMPI-MONOMER" -"EG10684_RNA" "mRNA" [] "EG10684-MONOMER" -"EG10685_RNA" "mRNA" [] "PANF-MONOMER" -"EG10686_RNA" "mRNA" [] "EG10686-MONOMER" -"EG10687_RNA" "mRNA" [] "EG10687-MONOMER" -"EG10688_RNA" "mRNA" [] "PEPCARBOXYKIN-MONOMER" -"EG10689_RNA" "mRNA" [] "EG10689-MONOMER" -"EG10690_RNA" "mRNA" [] "EG10690-MONOMER" -"EG10691_RNA" "mRNA" [] "PDXA-MONOMER" -"EG10693_RNA" "mRNA" [] "PDXJ-MONOMER" -"EG10694_RNA" "mRNA" [] "EG10694-MONOMER" -"EG10695_RNA" "mRNA" [] "EG10695-MONOMER" -"EG10696_RNA" "mRNA" [] "EG10696-MONOMER" -"EG10697_RNA" "mRNA" [] "EG10697-MONOMER" -"EG10698_RNA" "mRNA" [] "EG10698-MONOMER" -"EG10699_RNA" "mRNA" [] "6PFK-1-MONOMER" -"EG10700_RNA" "mRNA" [] "6PFK-2-MONOMER" -"EG10701_RNA" "mRNA" [] "PYRUVFORMLY-MONOMER" -"EG10702_RNA" "mRNA" [] "PGLUCISOM" -"EG10703_RNA" "mRNA" [] "PGK" -"EG10704_RNA" "mRNA" [] "PGPPHOSPHAA-MONOMER" -"EG10705_RNA" "mRNA" [] "PGPPHOSPHAB-MONOMER" -"EG10706_RNA" "mRNA" [] "PHOSPHAGLYPSYN-MONOMER" -"EG10707_RNA" "mRNA" [] "CHORISMUTPREPHENDEHYDRAT-MONOMER" -"EG10708_RNA" "mRNA" [] "PHEP-MONOMER" -"EG10709_RNA" "mRNA" [] "PHES-MONOMER" -"EG10710_RNA" "mRNA" [] "PHET-MONOMER" -"EG10711_RNA" "mRNA" [] "EG10711-MONOMER" -"EG10712_RNA" "mRNA" [] "EG10712-MONOMER" -"EG10713_RNA" "mRNA" [] "PHNC-MONOMER" -"EG10714_RNA" "mRNA" [] "PHND-MONOMER" -"EG10715_RNA" "mRNA" [] "EG10715-MONOMER" -"EG10716_RNA" "mRNA" [] "EG10716-MONOMER" -"EG10717_RNA" "mRNA" [] "EG10717-MONOMER" -"EG10718_RNA" "mRNA" [] "EG10718-MONOMER" -"EG10719_RNA" "mRNA" [] "EG10719-MONOMER" -"EG10720_RNA" "mRNA" [] "PHNK-MONOMER" -"EG10721_RNA" "mRNA" [] "PHNL-MONOMER" -"EG10722_RNA" "mRNA" [] "EG10722-MONOMER" -"EG10723_RNA" "mRNA" [] "EG10723-MONOMER" -"EG10724_RNA" "mRNA" [] "EG10724-MONOMER" -"EG10725_RNA" "mRNA" [] "EG10725-MONOMER" -"EG10727_RNA" "mRNA" [] "ALKAPHOSPHA-MONOMER" -"EG10728_RNA" "mRNA" [] "PHOB-MONOMER" -"EG10729_RNA" "mRNA" [] "MONOMER0-282" -"EG10730_RNA" "mRNA" [] "CREC-MONOMER" -"EG10731_RNA" "mRNA" [] "PHOP-MONOMER" -"EG10732_RNA" "mRNA" [] "PHOQ-MONOMER" -"EG10733_RNA" "mRNA" [] "PHOR-MONOMER" -"EG10734_RNA" "mRNA" [] "PSTS-MONOMER" -"EG10735_RNA" "mRNA" [] "EG10735-MONOMER" -"EG10736_RNA" "mRNA" [] "EG10736-MONOMER" -"EG10737_RNA" "mRNA" [] "EG10737-MONOMER" -"EG10738_RNA" "mRNA" [] "MONOMER0-341" -"EG10739_RNA" "mRNA" [] "EG10739-MONOMER" -"EG10740_RNA" "mRNA" [] "GLYCEROL-3-P-ACYLTRANSFER-MONOMER" -"EG10741_RNA" "mRNA" [] "EG10741-MONOMER" -"EG10742_RNA" "mRNA" [] "NICOTINATEPRIBOSYLTRANS-MONOMER" -"EG10743_RNA" "mRNA" [] "EG10743-MONOMER" -"EG10744_RNA" "mRNA" [] "PNTA-MONOMER" -"EG10745_RNA" "mRNA" [] "PNTB-MONOMER" -"EG10746_RNA" "mRNA" [] "EG10746-MONOMER" -"EG10747_RNA" "mRNA" [] "EG10747-MONOMER" -"EG10748_RNA" "mRNA" [] "EG10748-MONOMER" -"EG10749_RNA" "mRNA" [] "POTA-MONOMER" -"EG10750_RNA" "mRNA" [] "POTB-MONOMER" -"EG10751_RNA" "mRNA" [] "POTC-MONOMER" -"EG10752_RNA" "mRNA" [] "POTD-MONOMER" -"EG10753_RNA" "mRNA" [] "POTE-MONOMER" -"EG10754_RNA" "mRNA" [] "PYRUVOXID-MONOMER" -"EG10755_RNA" "mRNA" [] "INORGPYROPHOSPHAT-MONOMER" -"EG10756_RNA" "mRNA" [] "PEPCARBOX-MONOMER" -"EG10757_RNA" "mRNA" [] "EG10757-MONOMER" -"EG10758_RNA" "mRNA" [] "EG10758-MONOMER" -"EG10759_RNA" "mRNA" [] "PEPSYNTH-MONOMER" -"EG10760_RNA" "mRNA" [] "EG10760-MONOMER" -"EG10761_RNA" "mRNA" [] "EG10761-MONOMER" -"EG10762_RNA" "mRNA" [] "EG10762-MONOMER" -"EG10763_RNA" "mRNA" [] "EG10763-MONOMER" -"EG10764_RNA" "mRNA" [] "EG10764-MONOMER" -"EG10765_RNA" "mRNA" [] "EG10765-MONOMER" -"EG10766_RNA" "mRNA" [] "SECY" -"EG10767_RNA" "mRNA" [] "GLUTSEMIALDEHYDROG-MONOMER" -"EG10768_RNA" "mRNA" [] "GLUTKIN-MONOMER" -"EG10769_RNA" "mRNA" [] "PYRROLINECARBREDUCT-MONOMER" -"EG10770_RNA" "mRNA" [] "PROS-MONOMER" -"EG10771_RNA" "mRNA" [] "PROV-MONOMER" -"EG10772_RNA" "mRNA" [] "PROW-MONOMER" -"EG10773_RNA" "mRNA" [] "PROX-MONOMER" -"EG10774_RNA" "mRNA" [] "PRPPSYN-MONOMER" -"EG10775_RNA" "mRNA" [] "PSD-MONOMER" -"EG10776_RNA" "mRNA" [] "EG10776-MONOMER" -"EG10777_RNA" "mRNA" [] "EG10777-MONOMER" -"EG10778_RNA" "mRNA" [] "EG10778-MONOMER" -"EG10779_RNA" "mRNA" [] "EG10779-MONOMER" -"EG10780_RNA" "mRNA" [] "EG10780-MONOMER" -"EG10781_RNA" "mRNA" [] "PHOSPHASERSYN-MONOMER" -"EG10782_RNA" "mRNA" [] "PSTA-MONOMER" -"EG10783_RNA" "mRNA" [] "PSTB-MONOMER" -"EG10784_RNA" "mRNA" [] "PSTC-MONOMER" -"EG10785_RNA" "mRNA" [] "EG10785-MONOMER" -"EG10786_RNA" "mRNA" [] "EG10786-MONOMER" -"EG10787_RNA" "mRNA" [] "PTSG-MONOMER" -"EG10788_RNA" "mRNA" [] "PTSH-MONOMER" -"EG10789_RNA" "mRNA" [] "PTSI-MONOMER" -"EG10790_RNA" "mRNA" [] "ADENYLOSUCCINATE-SYN-MONOMER" -"EG10791_RNA" "mRNA" [] "SAICARSYN-MONOMER" -"EG10792_RNA" "mRNA" [] "GLYCRIBONUCSYN-MONOMER" -"EG10793_RNA" "mRNA" [] "PURE-MONOMER" -"EG10794_RNA" "mRNA" [] "PRPPAMIDOTRANS-MONOMER" -"EG10795_RNA" "mRNA" [] "AICARTRANSIMPCYCLO-CPLX" -"EG10796_RNA" "mRNA" [] "PURK-MONOMER" -"EG10797_RNA" "mRNA" [] "FGAMSYN-MONOMER" -"EG10798_RNA" "mRNA" [] "AIRS-MONOMER" -"EG10799_RNA" "mRNA" [] "GART-MONOMER" -"EG10800_RNA" "mRNA" [] "PD00219" -"EG10801_RNA" "mRNA" [] "PUTA-MONOMER" -"EG10802_RNA" "mRNA" [] "PUTP-MONOMER" -"EG10803_RNA" "mRNA" [] "PKII-MONOMER" -"EG10804_RNA" "mRNA" [] "PKI-MONOMER" -"EG10805_RNA" "mRNA" [] "ASPCARBCAT-MONOMER" -"EG10806_RNA" "mRNA" [] "DIHYDROOROT-MONOMER" -"EG10807_RNA" "mRNA" [] "DIHYDROOROTOX-MONOMER" -"EG10808_RNA" "mRNA" [] "OROPRIBTRANS-MONOMER" -"EG10809_RNA" "mRNA" [] "OROTPDECARB-MONOMER" -"EG10810_RNA" "mRNA" [] "CTPSYN-MONOMER" -"EG10811_RNA" "mRNA" [] "ASPCARBREG-MONOMER" -"EG10812_RNA" "mRNA" [] "EG10812-MONOMER" -"EG10813_RNA" "mRNA" [] "EG10813-MONOMER" -"EG10814_RNA" "mRNA" [] "RBSA-MONOMER" -"EG10815_RNA" "mRNA" [] "RBSB-MONOMER" -"EG10816_RNA" "mRNA" [] "RBSC-MONOMER" -"EG10817_RNA" "mRNA" [] "EG10817-MONOMER" -"EG10818_RNA" "mRNA" [] "RIBOKIN-MONOMER" -"EG10819_RNA" "mRNA" [] "PD03867" -"EG10820_RNA" "mRNA" [] "PD02233" -"EG10821_RNA" "mRNA" [] "RCSB-MONOMER" -"EG10822_RNA" "mRNA" [] "RCSC-MONOMER" -"EG10823_RNA" "mRNA" [] "EG10823-MONOMER" -"EG10824_RNA" "mRNA" [] "EG10824-MONOMER" -"EG10825_RNA" "mRNA" [] "EG10825-MONOMER" -"EG10826_RNA" "mRNA" [] "EG10826-MONOMER" -"EG10827_RNA" "mRNA" [] "EG10827-MONOMER" -"EG10828_RNA" "mRNA" [] "EG10828-MONOMER" -"EG10829_RNA" "mRNA" [] "EG10829-MONOMER" -"EG10830_RNA" "mRNA" [] "EG10830-MONOMER" -"EG10831_RNA" "mRNA" [] "EG10831-MONOMER" -"EG10832_RNA" "mRNA" [] "EG10832-MONOMER" -"EG10833_RNA" "mRNA" [] "EG10833-MONOMER" -"EG10834_RNA" "mRNA" [] "EG10834-MONOMER" -"EG10835_RNA" "mRNA" [] "RELA-MONOMER" -"EG10836_RNA" "mRNA" [] "EG10836-MONOMER" -"EG10837_RNA" "mRNA" [] "EG10837-MONOMER" -"EG10838_RNA" "mRNA" [] "EG10838-MONOMER" -"EG10839_RNA" "mRNA" [] "EG10839-MONOMER" -"EG10840_RNA" "mRNA" [] "GLCNACPTRANS-MONOMER" -"EG10841_RNA" "mRNA" [] "EG10841-MONOMER" -"EG10842_RNA" "mRNA" [] "PD00222" -"EG10843_RNA" "mRNA" [] "PD00221" -"EG10844_RNA" "mRNA" [] "EG10844-MONOMER" -"EG10845_RNA" "mRNA" [] "EG10845-MONOMER" -"EG10846_RNA" "mRNA" [] "EG10846-MONOMER" -"EG10847_RNA" "mRNA" [] "EG10847-MONOMER" -"EG10848_RNA" "mRNA" [] "EG10848-MONOMER" -"EG10849_RNA" "mRNA" [] "EG10849-MONOMER" -"EG10850_RNA" "mRNA" [] "EG10850-MONOMER" -"EG10851_RNA" "mRNA" [] "EG10851-MONOMER" -"EG10852_RNA" "mRNA" [] "EG10852-MONOMER" -"EG10853_RNA" "mRNA" [] "EG10853-MONOMER" -"EG10854_RNA" "mRNA" [] "EG10854-MONOMER" -"EG10855_RNA" "mRNA" [] "EG10855-MONOMER" -"EG10856_RNA" "mRNA" [] "EG10856-MONOMER" -"EG10857_RNA" "mRNA" [] "EG10857-MONOMER" -"EG10858_RNA" "mRNA" [] "EG10858-MONOMER" -"EG10859_RNA" "mRNA" [] "EG10859-MONOMER" -"EG10860_RNA" "mRNA" [] "EG10860-MONOMER" -"EG10861_RNA" "mRNA" [] "EG10861-MONOMER" -"EG10862_RNA" "mRNA" [] "EG10862-MONOMER" -"EG10863_RNA" "mRNA" [] "EG10863-MONOMER" -"EG10864_RNA" "mRNA" [] "EG10864-MONOMER" -"EG10865_RNA" "mRNA" [] "EG10865-MONOMER" -"EG10866_RNA" "mRNA" [] "EG10866-MONOMER" -"EG10867_RNA" "mRNA" [] "EG10867-MONOMER" -"EG10868_RNA" "mRNA" [] "EG10868-MONOMER" -"EG10869_RNA" "mRNA" [] "EG10869-MONOMER" -"EG10870_RNA" "mRNA" [] "EG10870-MONOMER" -"EG10871_RNA" "mRNA" [] "EG10871-MONOMER" -"EG10872_RNA" "mRNA" [] "EG10872-MONOMER" -"EG10873_RNA" "mRNA" [] "EG10873-MONOMER" -"EG10874_RNA" "mRNA" [] "EG10874-MONOMER" -"EG10875_RNA" "mRNA" [] "EG10875-MONOMER" -"EG10876_RNA" "mRNA" [] "EG10876-MONOMER" -"EG10877_RNA" "mRNA" [] "EG10877-MONOMER" -"EG10878_RNA" "mRNA" [] "EG10878-MONOMER" -"EG10879_RNA" "mRNA" [] "EG10879-MONOMER" -"EG10880_RNA" "mRNA" [] "EG10880-MONOMER" -"EG10881_RNA" "mRNA" [] "EG10881-MONOMER" -"EG10882_RNA" "mRNA" [] "EG10882-MONOMER" -"EG10883_RNA" "mRNA" [] "EG10883-MONOMER" -"EG10884_RNA" "mRNA" [] "EG10884-MONOMER" -"EG10885_RNA" "mRNA" [] "EG10885-MONOMER" -"EG10886_RNA" "mRNA" [] "EG10886-MONOMER" -"EG10887_RNA" "mRNA" [] "EG10887-MONOMER" -"EG10888_RNA" "mRNA" [] "EG10888-MONOMER" -"EG10889_RNA" "mRNA" [] "EG10889-MONOMER" -"EG10890_RNA" "mRNA" [] "EG10890-MONOMER" -"EG10891_RNA" "mRNA" [] "EG10891-MONOMER" -"EG10892_RNA" "mRNA" [] "EG10892-MONOMER" -"EG10893_RNA" "mRNA" [] "EG10893-MONOMER" -"EG10894_RNA" "mRNA" [] "RPOB-MONOMER" -"EG10895_RNA" "mRNA" [] "RPOC-MONOMER" -"EG10896_RNA" "mRNA" [] "RPOD-MONOMER" -"EG10897_RNA" "mRNA" [] "RPOH-MONOMER" -"EG10898_RNA" "mRNA" [] "RPON-MONOMER" -"EG10899_RNA" "mRNA" [] "EG10899-MONOMER" -"EG10900_RNA" "mRNA" [] "EG10900-MONOMER" -"EG10901_RNA" "mRNA" [] "EG10901-MONOMER" -"EG10902_RNA" "mRNA" [] "EG10902-MONOMER" -"EG10903_RNA" "mRNA" [] "EG10903-MONOMER" -"EG10904_RNA" "mRNA" [] "EG10904-MONOMER" -"EG10905_RNA" "mRNA" [] "EG10905-MONOMER" -"EG10906_RNA" "mRNA" [] "EG10906-MONOMER" -"EG10907_RNA" "mRNA" [] "EG10907-MONOMER" -"EG10908_RNA" "mRNA" [] "EG10908-MONOMER" -"EG10909_RNA" "mRNA" [] "EG10909-MONOMER" -"EG10910_RNA" "mRNA" [] "EG10910-MONOMER" -"EG10911_RNA" "mRNA" [] "EG10911-MONOMER" -"EG10912_RNA" "mRNA" [] "EG10912-MONOMER" -"EG10913_RNA" "mRNA" [] "EG10913-MONOMER" -"EG10914_RNA" "mRNA" [] "EG10914-MONOMER" -"EG10915_RNA" "mRNA" [] "EG10915-MONOMER" -"EG10916_RNA" "mRNA" [] "EG10916-MONOMER" -"EG10917_RNA" "mRNA" [] "EG10917-MONOMER" -"EG10918_RNA" "mRNA" [] "EG10918-MONOMER" -"EG10919_RNA" "mRNA" [] "EG10919-MONOMER" -"EG10920_RNA" "mRNA" [] "EG10920-MONOMER" -"EG10921_RNA" "mRNA" [] "EG10921-MONOMER" -"EG10922_RNA" "mRNA" [] "PANTOTHENATE-KIN-MONOMER" -"EG10925_RNA" "mRNA" [] "EG10925-MONOMER" -"EG10926_RNA" "mRNA" [] "EG10926-MONOMER" -"EG10927_RNA" "mRNA" [] "EG10927-MONOMER" -"EG10928_RNA" "mRNA" [] "SBMA-MONOMER" -"EG10929_RNA" "mRNA" [] "SBP-MONOMER" -"EG10930_RNA" "mRNA" [] "LSERINEDEAM1-MONOMER" -"EG10931_RNA" "mRNA" [] "SDH-FLAVO" -"EG10932_RNA" "mRNA" [] "SDH-FE-S" -"EG10933_RNA" "mRNA" [] "SDH-MEMB1" -"EG10934_RNA" "mRNA" [] "SDH-MEMB2" -"EG10935_RNA" "mRNA" [] "PD02198" -"EG10936_RNA" "mRNA" [] "SECA" -"EG10937_RNA" "mRNA" [] "SECB" -"EG10938_RNA" "mRNA" [] "SECD" -"EG10939_RNA" "mRNA" [] "SECE" -"EG10940_RNA" "mRNA" [] "SECF" -"EG10941_RNA" "mRNA" [] "EG10941-MONOMER" -"EG10942_RNA" "mRNA" [] "EG10942-MONOMER" -"EG10943_RNA" "mRNA" [] "EG10943-MONOMER" -"EG10944_RNA" "mRNA" [] "PGLYCDEHYDROG-MONOMER" -"EG10945_RNA" "mRNA" [] "PSERPHOSPHA-MONOMER" -"EG10946_RNA" "mRNA" [] "PSERTRANSAM-MONOMER" -"EG10947_RNA" "mRNA" [] "SERS-MONOMER" -"EG10948_RNA" "mRNA" [] "MALIC-NAD-MONOMER" -"EG10949_RNA" "mRNA" [] "EG10949-MONOMER" -"EG10950_RNA" "mRNA" [] "EG10950-MONOMER" -"EG10951_RNA" "mRNA" [] "EG10951-MONOMER" -"EG10952_RNA" "mRNA" [] "EG10952-MONOMER" -"EG10953_RNA" "mRNA" [] "SUPEROX-DISMUTMN-MONOMER" -"EG10954_RNA" "mRNA" [] "SUPEROX-DISMUTFE-MONOMER" -"EG10955_RNA" "mRNA" [] "EG10955-MONOMER" -"EG10956_RNA" "mRNA" [] "EG10956-MONOMER" -"EG10957_RNA" "mRNA" [] "PD04132" -"EG10958_RNA" "mRNA" [] "PD00406" -"EG10959_RNA" "mRNA" [] "ARGDECARBOXBIO-MONOMER" -"EG10960_RNA" "mRNA" [] "AGMATIN-MONOMER" -"EG10961_RNA" "mRNA" [] "ORNDECARBOX-BIO-MONOMER" -"EG10962_RNA" "mRNA" [] "SPED-MONOMER" -"EG10963_RNA" "mRNA" [] "SPERMIDINESYN-MONOMER" -"EG10964_RNA" "mRNA" [] "ORNDECARBOXDEG-MONOMER" -"EG10965_RNA" "mRNA" [] "GUANYL-KIN-MONOMER" -"EG10966_RNA" "mRNA" [] "SPOT-MONOMER" -"EG10967_RNA" "mRNA" [] "EG10967-MONOMER" -"EG10968_RNA" "mRNA" [] "EG10968-MONOMER" -"EG10969_RNA" "mRNA" [] "GUTA-MONOMER" -"EG10970_RNA" "mRNA" [] "GUTB-MONOMER" -"EG10971_RNA" "mRNA" [] "SORB6PDEHYDROG-MONOMER" -"EG10972_RNA" "mRNA" [] "PD00345" -"EG10973_RNA" "mRNA" [] "EG10973-MONOMER" -"EG10974_RNA" "mRNA" [] "PD00283" -"EG10975_RNA" "mRNA" [] "EG10975-MONOMER" -"EG10976_RNA" "mRNA" [] "EG10976-MONOMER" -"EG10977_RNA" "mRNA" [] "EG10977-MONOMER" -"EG10978_RNA" "mRNA" [] "EG10978-MONOMER" -"EG10979_RNA" "mRNA" [] "E1O-MONOMER" -"EG10980_RNA" "mRNA" [] "E2O-MONOMER" -"EG10981_RNA" "mRNA" [] "SUCCCOASYN-BETA" -"EG10982_RNA" "mRNA" [] "SUCCCOASYN-ALPHA" -"EG10983_RNA" "mRNA" [] "EG10983-MONOMER" -"EG10984_RNA" "mRNA" [] "EG10984-MONOMER" -"EG10985_RNA" "mRNA" [] "EG10985-MONOMER" -"EG10986_RNA" "mRNA" [] "EG10986-MONOMER" -"EG10987_RNA" "mRNA" [] "TAP-MONOMER" -"EG10988_RNA" "mRNA" [] "TAR-MONOMER" -"EG10989_RNA" "mRNA" [] "PD00268" -"EG10990_RNA" "mRNA" [] "THREDEHYDCAT-MONOMER" -"EG10991_RNA" "mRNA" [] "TDCC-MONOMER" -"EG10992_RNA" "mRNA" [] "PD03292" -"EG10993_RNA" "mRNA" [] "THREODEHYD-MONOMER" -"EG10994_RNA" "mRNA" [] "TDK-MONOMER" -"EG10995_RNA" "mRNA" [] "THIOESTERII-MONOMER" -"EG10996_RNA" "mRNA" [] "EG10996-MONOMER" -"EG10997_RNA" "mRNA" [] "EG10997-MONOMER" -"EG10998_RNA" "mRNA" [] "ASPKINIHOMOSERDEHYDROGI-MONOMER" -"EG10999_RNA" "mRNA" [] "HOMOSERKIN-MONOMER" -"EG11000_RNA" "mRNA" [] "THRESYN-MONOMER" -"EG11001_RNA" "mRNA" [] "THRS-MONOMER" -"EG11002_RNA" "mRNA" [] "THYMIDYLATESYN-MONOMER" -"EG11003_RNA" "mRNA" [] "EG11003-MONOMER" -"EG11004_RNA" "mRNA" [] "EG11004-MONOMER" -"EG11005_RNA" "mRNA" [] "TRYPTOPHAN-MONOMER" -"EG11006_RNA" "mRNA" [] "TNAB-MONOMER" -"EG11007_RNA" "mRNA" [] "EG11007-MONOMER" -"EG11008_RNA" "mRNA" [] "EG11008-MONOMER" -"EG11009_RNA" "mRNA" [] "EG11009-MONOMER" -"EG11010_RNA" "mRNA" [] "EG11010-MONOMER" -"EG11011_RNA" "mRNA" [] "EG11011-MONOMER" -"EG11012_RNA" "mRNA" [] "EG11012-MONOMER" -"EG11013_RNA" "mRNA" [] "EG11013-MONOMER" -"EG11014_RNA" "mRNA" [] "EG11014-MONOMER" -"EG11015_RNA" "mRNA" [] "TPI-MONOMER" -"EG11016_RNA" "mRNA" [] "EG11016-MONOMER" -"EG11017_RNA" "mRNA" [] "TREHALAPERI-MONOMER" -"EG11018_RNA" "mRNA" [] "TRG-MONOMER" -"EG11019_RNA" "mRNA" [] "TRKA-MONOMER" -"EG11020_RNA" "mRNA" [] "TRKG-MONOMER" -"EG11021_RNA" "mRNA" [] "TRKH-MONOMER" -"EG11022_RNA" "mRNA" [] "EG11022-MONOMER" -"EG11023_RNA" "mRNA" [] "EG11023-MONOMER" -"EG11024_RNA" "mRNA" [] "TRYPSYN-APROTEIN" -"EG11025_RNA" "mRNA" [] "TRYPSYN-BPROTEIN" -"EG11026_RNA" "mRNA" [] "PRAI-IGPS" -"EG11027_RNA" "mRNA" [] "ANTHRANSYNCOMPII-MONOMER" -"EG11028_RNA" "mRNA" [] "ANTHRANSYNCOMPI-MONOMER" -"EG11029_RNA" "mRNA" [] "PD00423" -"EG11030_RNA" "mRNA" [] "TRPS-MONOMER" -"EG11031_RNA" "mRNA" [] "RED-THIOREDOXIN-MONOMER" -"EG11032_RNA" "mRNA" [] "THIOREDOXIN-REDUCT-NADPH-MONOMER" -"EG11033_RNA" "mRNA" [] "EG11033-MONOMER" -"EG11034_RNA" "mRNA" [] "TSR-MONOMER" -"EG11035_RNA" "mRNA" [] "EG11035-MONOMER" -"EG11036_RNA" "mRNA" [] "EG11036-MONOMER" -"EG11037_RNA" "mRNA" [] "EG11037-MONOMER" -"EG11038_RNA" "mRNA" [] "EG11038-MONOMER" -"EG11039_RNA" "mRNA" [] "CHORISMUTPREPHENDEHYDROG-MONOMER" -"EG11040_RNA" "mRNA" [] "TYRB-MONOMER" -"EG11041_RNA" "mRNA" [] "TYRP-MONOMER" -"EG11042_RNA" "mRNA" [] "PD00413" -"EG11043_RNA" "mRNA" [] "TYRS-MONOMER" -"EG11044_RNA" "mRNA" [] "UBIX-MONOMER" -"EG11045_RNA" "mRNA" [] "URPHOS-MONOMER" -"EG11046_RNA" "mRNA" [] "UGPA-MONOMER" -"EG11047_RNA" "mRNA" [] "UGPB-MONOMER" -"EG11048_RNA" "mRNA" [] "UGPC-MONOMER" -"EG11049_RNA" "mRNA" [] "UGPE-MONOMER" -"EG11050_RNA" "mRNA" [] "GLYCPDIESTER-CYTO-MONOMER" -"EG11051_RNA" "mRNA" [] "UHPA-MONOMER" -"EG11052_RNA" "mRNA" [] "UHPB-MONOMER" -"EG11053_RNA" "mRNA" [] "UHPC-MONOMER" -"EG11054_RNA" "mRNA" [] "UHPT-MONOMER" -"EG11055_RNA" "mRNA" [] "BETA-GLUCURONID-MONOMER" -"EG11056_RNA" "mRNA" [] "EG11056-MONOMER" -"EG11057_RNA" "mRNA" [] "EG11057-MONOMER" -"EG11058_RNA" "mRNA" [] "EG11058-MONOMER" -"EG11059_RNA" "mRNA" [] "EG11059-MONOMER" -"EG11060_RNA" "mRNA" [] "USHA-MONOMER" -"EG11061_RNA" "mRNA" [] "EG11061-MONOMER" -"EG11062_RNA" "mRNA" [] "EG11062-MONOMER" -"EG11063_RNA" "mRNA" [] "EG11063-MONOMER" -"EG11064_RNA" "mRNA" [] "EG11064-MONOMER" -"EG11065_RNA" "mRNA" [] "ALTRO-OXIDOREDUCT-MONOMER" -"EG11066_RNA" "mRNA" [] "MANNONDEHYDRAT-MONOMER" -"EG11067_RNA" "mRNA" [] "VALS-MONOMER" -"EG11068_RNA" "mRNA" [] "EG11068-MONOMER" -"EG11069_RNA" "mRNA" [] "EG11069-MONOMER" -"EG11070_RNA" "mRNA" [] "DSBC-MONOMER" -"EG11071_RNA" "mRNA" [] "EG11071-MONOMER" -"EG11072_RNA" "mRNA" [] "EG11072-MONOMER" -"EG11073_RNA" "mRNA" [] "EG11073-MONOMER" -"EG11074_RNA" "mRNA" [] "XYLISOM-MONOMER" -"EG11075_RNA" "mRNA" [] "XYLULOKIN-MONOMER" -"EG11076_RNA" "mRNA" [] "XYLE-MONOMER" -"EG11078_RNA" "mRNA" [] "PD00474" -"EG11079_RNA" "mRNA" [] "RIBF-MONOMER" -"EG11080_RNA" "mRNA" [] "EG11080-MONOMER" -"EG11081_RNA" "mRNA" [] "EG11081-MONOMER" -"EG11082_RNA" "mRNA" [] "EG11082-MONOMER" -"EG11083_RNA" "mRNA" [] "EG11083-MONOMER" -"EG11084_RNA" "mRNA" [] "EG11084-MONOMER" -"EG11085_RNA" "mRNA" [] "EG11085-MONOMER" -"EG11086_RNA" "mRNA" [] "EG11086-MONOMER" -"EG11087_RNA" "mRNA" [] "EG11087-MONOMER" -"EG11088_RNA" "mRNA" [] "EG11088-MONOMER" -"EG11089_RNA" "mRNA" [] "EG11089-MONOMER" -"EG11090_RNA" "mRNA" [] "EG11090-MONOMER" -"EG11091_RNA" "mRNA" [] "EG11091-MONOMER" -"EG11092_RNA" "mRNA" [] "EG11092-MONOMER" -"EG11093_RNA" "mRNA" [] "EG11093-MONOMER" -"EG11094_RNA" "mRNA" [] "EG11094-MONOMER" -"EG11095_RNA" "mRNA" [] "EG11095-MONOMER" -"EG11096_RNA" "mRNA" [] "EG11096-MONOMER" -"EG11097_RNA" "mRNA" [] "EG11097-MONOMER" -"EG11098_RNA" "mRNA" [] "EG11098-MONOMER" -"EG11099_RNA" "mRNA" [] "EG11099-MONOMER" -"EG11100_RNA" "mRNA" [] "EG11100-MONOMER" -"EG11101_RNA" "mRNA" [] "EG11101-MONOMER" -"EG11102_RNA" "mRNA" [] "GSK-MONOMER" -"EG11103_RNA" "mRNA" [] "EG11103-MONOMER" -"EG11104_RNA" "mRNA" [] "YBDA-MONOMER" -"EG11105_RNA" "mRNA" [] "EG11105-MONOMER" -"EG11108_RNA" "mRNA" [] "EG11108-MONOMER" -"EG11109_RNA" "mRNA" [] "PD01103" -"EG11110_RNA" "mRNA" [] "EG11110-MONOMER" -"EG11111_RNA" "mRNA" [] "EG11111-MONOMER" -"EG11112_RNA" "mRNA" [] "EG11112-MONOMER" -"EG11113_RNA" "mRNA" [] "EG11113-MONOMER" -"EG11116_RNA" "mRNA" [] "EG11116-MONOMER" -"EG11117_RNA" "mRNA" [] "EG11117-MONOMER" -"EG11118_RNA" "mRNA" [] "EG11118-MONOMER" -"EG11119_RNA" "mRNA" [] "EG11119-MONOMER" -"EG11120_RNA" "mRNA" [] "EG11120-MONOMER" -"EG11121_RNA" "mRNA" [] "EG11121-MONOMER" -"EG11122_RNA" "mRNA" [] "EG11122-MONOMER" -"EG11123_RNA" "mRNA" [] "EG11123-MONOMER" -"EG11124_RNA" "mRNA" [] "EG11124-MONOMER" -"EG11125_RNA" "mRNA" [] "EG11125-MONOMER" -"EG11126_RNA" "mRNA" [] "EG11126-MONOMER" -"EG11127_RNA" "mRNA" [] "EG11127-MONOMER" -"EG11128_RNA" "mRNA" [] "EG11128-MONOMER" -"EG11129_RNA" "mRNA" [] "EG11129-MONOMER" -"EG11130_RNA" "mRNA" [] "EG11130-MONOMER" -"EG11131_RNA" "mRNA" [] "EG11131-MONOMER" -"EG11132_RNA" "mRNA" [] "EG11132-MONOMER" -"EG11133_RNA" "mRNA" [] "EG11133-MONOMER" -"EG11134_RNA" "mRNA" [] "EG11134-MONOMER" -"EG11135_RNA" "mRNA" [] "NICOTINAMID-MONOMER" -"EG11136_RNA" "mRNA" [] "EG11136-MONOMER" -"EG11137_RNA" "mRNA" [] "EG11137-MONOMER" -"EG11138_RNA" "mRNA" [] "H2NEOPTERINP3PYROPHOSPHOHYDRO-MONOMER" -"EG11139_RNA" "mRNA" [] "EG11139-MONOMER" -"EG11140_RNA" "mRNA" [] "EG11140-MONOMER" -"EG11141_RNA" "mRNA" [] "EG11141-MONOMER" -"EG11142_RNA" "mRNA" [] "EG11142-MONOMER" -"EG11143_RNA" "mRNA" [] "DHHB-METHYLTRANSFER-MONOMER" -"EG11144_RNA" "mRNA" [] "EG11144-MONOMER" -"EG11145_RNA" "mRNA" [] "EG11145-MONOMER" -"EG11146_RNA" "mRNA" [] "EG11146-MONOMER" -"EG11147_RNA" "mRNA" [] "EG11147-MONOMER" -"EG11149_RNA" "mRNA" [] "EG11149-MONOMER" -"EG11150_RNA" "mRNA" [] "MONOMER0-152" -"EG11151_RNA" "mRNA" [] "EG11151-MONOMER" -"EG11152_RNA" "mRNA" [] "EG11152-MONOMER" -"EG11153_RNA" "mRNA" [] "EG11153-MONOMER" -"EG11154_RNA" "mRNA" [] "EG11154-MONOMER" -"EG11155_RNA" "mRNA" [] "EG11155-MONOMER" -"EG11156_RNA" "mRNA" [] "EG11156-MONOMER" -"EG11157_RNA" "mRNA" [] "EG11157-MONOMER" -"EG11158_RNA" "mRNA" [] "EG11158-MONOMER" -"EG11159_RNA" "mRNA" [] "YGGA-MONOMER" -"EG11160_RNA" "mRNA" [] "EG11160-MONOMER" -"EG11161_RNA" "mRNA" [] "EG11161-MONOMER" -"EG11162_RNA" "mRNA" [] "EG11162-MONOMER" -"EG11163_RNA" "mRNA" [] "EG11163-MONOMER" -"EG11164_RNA" "mRNA" [] "EG11164-MONOMER" -"EG11165_RNA" "mRNA" [] "EG11165-MONOMER" -"EG11166_RNA" "mRNA" [] "EG11166-MONOMER" -"EG11167_RNA" "mRNA" [] "EG11167-MONOMER" -"EG11168_RNA" "mRNA" [] "TTDA-MONOMER" -"EG11169_RNA" "mRNA" [] "TTDB-MONOMER" -"EG11171_RNA" "mRNA" [] "EG11171-MONOMER" -"EG11172_RNA" "mRNA" [] "PROPKIN-MONOMER" -"EG11173_RNA" "mRNA" [] "EG11173-MONOMER" -"EG11174_RNA" "mRNA" [] "EG11174-MONOMER" -"EG11175_RNA" "mRNA" [] "GKI-MONOMER" -"EG11176_RNA" "mRNA" [] "TSA-REDUCT-MONOMER" -"EG11177_RNA" "mRNA" [] "EG11177-MONOMER" -"EG11178_RNA" "mRNA" [] "EG11178-MONOMER" -"EG11179_RNA" "mRNA" [] "EG11179-MONOMER" -"EG11180_RNA" "mRNA" [] "EG11180-MONOMER" -"EG11181_RNA" "mRNA" [] "EG11181-MONOMER" -"EG11182_RNA" "mRNA" [] "EG11182-MONOMER" -"EG11183_RNA" "mRNA" [] "EG11183-MONOMER" -"EG11184_RNA" "mRNA" [] "EG11184-MONOMER" -"EG11186_RNA" "mRNA" [] "EG11186-MONOMER" -"EG11187_RNA" "mRNA" [] "EG11187-MONOMER" -"EG11188_RNA" "mRNA" [] "EG11188-MONOMER" -"EG11189_RNA" "mRNA" [] "EG11189-MONOMER" -"EG11190_RNA" "mRNA" [] "PANTEPADENYLYLTRAN-MONOMER" -"EG11191_RNA" "mRNA" [] "EG11191-MONOMER" -"EG11192_RNA" "mRNA" [] "EG11192-MONOMER" -"EG11193_RNA" "mRNA" [] "EG11193-MONOMER" -"EG11194_RNA" "mRNA" [] "YICE-MONOMER" -"EG11195_RNA" "mRNA" [] "EG11195-MONOMER" -"EG11196_RNA" "mRNA" [] "EG11196-MONOMER" -"EG11197_RNA" "mRNA" [] "YIDC" -"EG11198_RNA" "mRNA" [] "NAG1P-URIDYLTRANS-MONOMER" -"EG11199_RNA" "mRNA" [] "EG11199-MONOMER" -"EG11201_RNA" "mRNA" [] "EG11201-MONOMER" -"EG11202_RNA" "mRNA" [] "EG11202-MONOMER" -"EG11203_RNA" "mRNA" [] "EG11203-MONOMER" -"EG11204_RNA" "mRNA" [] "GLUTRACE-MONOMER" -"EG11205_RNA" "mRNA" [] "UDPNACETYLMURAMATEDEHYDROG-MONOMER" -"EG11206_RNA" "mRNA" [] "EG11206-MONOMER" -"EG11207_RNA" "mRNA" [] "EG11207-MONOMER" -"EG11208_RNA" "mRNA" [] "EG11208-MONOMER" -"EG11209_RNA" "mRNA" [] "EG11209-MONOMER" -"EG11210_RNA" "mRNA" [] "EG11210-MONOMER" -"EG11211_RNA" "mRNA" [] "EG11211-MONOMER" -"EG11212_RNA" "mRNA" [] "EG11212-MONOMER" -"EG11213_RNA" "mRNA" [] "EG11213-MONOMER" -"EG11214_RNA" "mRNA" [] "EG11214-MONOMER" -"EG11215_RNA" "mRNA" [] "EG11215-MONOMER" -"EG11217_RNA" "mRNA" [] "EG11217-MONOMER" -"EG11218_RNA" "mRNA" [] "CREB-MONOMER" -"EG11219_RNA" "mRNA" [] "EG11219-MONOMER" -"EG11221_RNA" "mRNA" [] "GLU6PDEHYDROG-MONOMER" -"EG11222_RNA" "mRNA" [] "EG11222-MONOMER" -"EG11223_RNA" "mRNA" [] "ARGSUCCINLYA-MONOMER" -"EG11224_RNA" "mRNA" [] "EG11224-MONOMER" -"EG11225_RNA" "mRNA" [] "DCUA-MONOMER" -"EG11226_RNA" "mRNA" [] "2-ISOPROPYLMALATESYN-MONOMER" -"EG11227_RNA" "mRNA" [] "FDNG-MONOMER" -"EG11228_RNA" "mRNA" [] "FDNH-MONOMER" -"EG11229_RNA" "mRNA" [] "FDNI-MONOMER" -"EG11230_RNA" "mRNA" [] "PD00208" -"EG11231_RNA" "mRNA" [] "EG11231-MONOMER" -"EG11232_RNA" "mRNA" [] "EG11232-MONOMER" -"EG11233_RNA" "mRNA" [] "RSTB-MONOMER" -"EG11234_RNA" "mRNA" [] "EG11234-MONOMER" -"EG11235_RNA" "mRNA" [] "EG11235-MONOMER" -"EG11236_RNA" "mRNA" [] "EG11236-MONOMER" -"EG11237_RNA" "mRNA" [] "EG11237-MONOMER" -"EG11238_RNA" "mRNA" [] "EG11238-MONOMER" -"EG11239_RNA" "mRNA" [] "EG11239-MONOMER" -"EG11241_RNA" "mRNA" [] "EG11241-MONOMER" -"EG11242_RNA" "mRNA" [] "YCAD-MONOMER" -"EG11244_RNA" "mRNA" [] "EG11244-MONOMER" -"EG11245_RNA" "mRNA" [] "EG11245-MONOMER" -"EG11246_RNA" "mRNA" [] "EG11246-MONOMER" -"EG11247_RNA" "mRNA" [] "EG11247-MONOMER" -"EG11249_RNA" "mRNA" [] "EG11249-MONOMER" -"EG11250_RNA" "mRNA" [] "EG11250-MONOMER" -"EG11251_RNA" "mRNA" [] "EG11251-MONOMER" -"EG11252_RNA" "mRNA" [] "EG11252-MONOMER" -"EG11253_RNA" "mRNA" [] "EG11253-MONOMER" -"EG11254_RNA" "mRNA" [] "EG11254-MONOMER" -"EG11255_RNA" "mRNA" [] "EG11255-MONOMER" -"EG11256_RNA" "mRNA" [] "EG11256-MONOMER" -"EG11257_RNA" "mRNA" [] "EG11257-MONOMER" -"EG11258_RNA" "mRNA" [] "FOCA-MONOMER" -"EG11259_RNA" "mRNA" [] "EG11259-MONOMER" -"EG11260_RNA" "mRNA" [] "EG11260-MONOMER" -"EG11261_RNA" "mRNA" [] "EG11261-MONOMER" -"EG11262_RNA" "mRNA" [] "YHFC-MONOMER" -"EG11263_RNA" "mRNA" [] "EG11263-MONOMER" -"EG11265_RNA" "mRNA" [] "CMPKI-MONOMER" -"EG11266_RNA" "mRNA" [] "EG11266-MONOMER" -"EG11267_RNA" "mRNA" [] "EG11267-MONOMER" -"EG11268_RNA" "mRNA" [] "EG11268-MONOMER" -"EG11269_RNA" "mRNA" [] "EG11269-MONOMER" -"EG11270_RNA" "mRNA" [] "EG11270-MONOMER" -"EG11271_RNA" "mRNA" [] "EG11271-MONOMER" -"EG11272_RNA" "mRNA" [] "EG11272-MONOMER" -"EG11274_RNA" "mRNA" [] "EG11274-MONOMER" -"EG11275_RNA" "mRNA" [] "EG11275-MONOMER" -"EG11276_RNA" "mRNA" [] "EG11276-MONOMER" -"EG11277_RNA" "mRNA" [] "EG11277-MONOMER" -"EG11279_RNA" "mRNA" [] "EG11279-MONOMER" -"EG11280_RNA" "mRNA" [] "EG11280-MONOMER" -"EG11281_RNA" "mRNA" [] "EG11281-MONOMER" -"EG11282_RNA" "mRNA" [] "MONOMER0-153" -"EG11283_RNA" "mRNA" [] "PHNE-MONOMER" -"EG11284_RNA" "mRNA" [] "FABZ-MONOMER" -"EG11285_RNA" "mRNA" [] "EG11285-MONOMER" -"EG11286_RNA" "mRNA" [] "ACETYLORNDEACET-MONOMER" -"EG11287_RNA" "mRNA" [] "EG11287-MONOMER" -"EG11288_RNA" "mRNA" [] "EG11288-MONOMER" -"EG11289_RNA" "mRNA" [] "EG11289-MONOMER" -"EG11290_RNA" "mRNA" [] "EG11290-MONOMER" -"EG11291_RNA" "mRNA" [] "EG11291-MONOMER" -"EG11292_RNA" "mRNA" [] "EG11292-MONOMER" -"EG11293_RNA" "mRNA" [] "EG11293-MONOMER" -"EG11294_RNA" "mRNA" [] "EG11294-MONOMER" -"EG11295_RNA" "mRNA" [] "EG11295-MONOMER" -"EG11296_RNA" "mRNA" [] "EG11296-MONOMER" -"EG11297_RNA" "mRNA" [] "DISULFOXRED-MONOMER" -"EG11298_RNA" "mRNA" [] "EG11298-MONOMER" -"EG11299_RNA" "mRNA" [] "EG11299-MONOMER" -"EG11300_RNA" "mRNA" [] "EG11300-MONOMER" -"EG11301_RNA" "mRNA" [] "EG11301-MONOMER" -"EG11302_RNA" "mRNA" [] "EG11302-MONOMER" -"EG11303_RNA" "mRNA" [] "EG11303-MONOMER" -"EG11304_RNA" "mRNA" [] "EG11304-MONOMER" -"EG11305_RNA" "mRNA" [] "EG11305-MONOMER" -"EG11306_RNA" "mRNA" [] "EG11306-MONOMER" -"EG11309_RNA" "mRNA" [] "EG11309-MONOMER" -"EG11310_RNA" "mRNA" [] "EG11310-MONOMER" -"EG11311_RNA" "mRNA" [] "EG11311-MONOMER" -"EG11312_RNA" "mRNA" [] "EG11312-MONOMER" -"EG11313_RNA" "mRNA" [] "RHAT-MONOMER" -"EG11314_RNA" "mRNA" [] "ASL-MONOMER" -"EG11315_RNA" "mRNA" [] "EG11315-MONOMER" -"EG11316_RNA" "mRNA" [] "ALPHA-AMYL-PERI-MONOMER" -"EG11317_RNA" "mRNA" [] "MALONYL-COA-ACP-TRANSACYL-MONOMER" -"EG11318_RNA" "mRNA" [] "3-OXOACYL-ACP-REDUCT-MONOMER" -"EG11319_RNA" "mRNA" [] "GLUC1PURIDYLTRANS-MONOMER" -"EG11320_RNA" "mRNA" [] "EG11320-MONOMER" -"EG11321_RNA" "mRNA" [] "RIBOFLAVINSYNDEAM-MONOMER" -"EG11322_RNA" "mRNA" [] "LUMAZINESYN-MONOMER" -"EG11323_RNA" "mRNA" [] "EG11323-MONOMER" -"EG11324_RNA" "mRNA" [] "OCTAPRENYL-METHOXYPHENOL-OH-MONOMER" -"EG11325_RNA" "mRNA" [] "ACONITASE-MONOMER" -"EG11326_RNA" "mRNA" [] "CYTDEAM-MONOMER" -"EG11327_RNA" "mRNA" [] "CODB-MONOMER" -"EG11328_RNA" "mRNA" [] "FERREDOXIN-MONOMER" -"EG11329_RNA" "mRNA" [] "SUCCSEMIALDDEHYDROG-MONOMER" -"EG11330_RNA" "mRNA" [] "GABP-MONOMER" -"EG11331_RNA" "mRNA" [] "GTP-CYCLOHYDRO-II-MONOMER" -"EG11332_RNA" "mRNA" [] "URACIL-PRIBOSYLTRANS-MONOMER" -"EG11333_RNA" "mRNA" [] "EG11333-MONOMER" -"EG11334_RNA" "mRNA" [] "EG11334-MONOMER" -"EG11335_RNA" "mRNA" [] "PD04413" -"EG11336_RNA" "mRNA" [] "EG11336-MONOMER" -"EG11337_RNA" "mRNA" [] "LYSP-MONOMER" -"EG11338_RNA" "mRNA" [] "EG11338-MONOMER" -"EG11339_RNA" "mRNA" [] "EG11339-MONOMER" -"EG11340_RNA" "mRNA" [] "EG11340-MONOMER" -"EG11341_RNA" "mRNA" [] "EG11341-MONOMER" -"EG11342_RNA" "mRNA" [] "EG11342-MONOMER" -"EG11343_RNA" "mRNA" [] "YCEE-MONOMER" -"EG11344_RNA" "mRNA" [] "EG11344-MONOMER" -"EG11345_RNA" "mRNA" [] "EG11345-MONOMER" -"EG11346_RNA" "mRNA" [] "EG11346-MONOMER" -"EG11347_RNA" "mRNA" [] "FLIF-FLAGELLAR-MS-RING" -"EG11350_RNA" "mRNA" [] "EG11350-MONOMER" -"EG11351_RNA" "mRNA" [] "EG11351-MONOMER" -"EG11352_RNA" "mRNA" [] "EG11352-MONOMER" -"EG11353_RNA" "mRNA" [] "EG11353-MONOMER" -"EG11354_RNA" "mRNA" [] "EG11354-MONOMER" -"EG11355_RNA" "mRNA" [] "EG11355-MONOMER" -"EG11356_RNA" "mRNA" [] "EG11356-MONOMER" -"EG11357_RNA" "mRNA" [] "EG11357-MONOMER" -"EG11358_RNA" "mRNA" [] "UDPNACETYLGLUCOSAMENOLPYRTRANS-MONOMER" -"EG11359_RNA" "mRNA" [] "EG11359-MONOMER" -"EG11360_RNA" "mRNA" [] "EG11360-MONOMER" -"EG11361_RNA" "mRNA" [] "EG11361-MONOMER" -"EG11362_RNA" "mRNA" [] "EG11362-MONOMER" -"EG11363_RNA" "mRNA" [] "NACMURLALAAMI2-MONOMER" -"EG11364_RNA" "mRNA" [] "EG11364-MONOMER" -"EG11366_RNA" "mRNA" [] "PD04418" -"EG11367_RNA" "mRNA" [] "BARA-MONOMER" -"EG11368_RNA" "mRNA" [] "NAPHTHOATE-SYN-MONOMER" -"EG11369_RNA" "mRNA" [] "CHORPYRLY-MONOMER" -"EG11370_RNA" "mRNA" [] "4OHBENZOATE-OCTAPRENYLTRANSFER-MONOMER" -"EG11371_RNA" "mRNA" [] "EG11371-MONOMER" -"EG11372_RNA" "mRNA" [] "EG11372-MONOMER" -"EG11373_RNA" "mRNA" [] "EG11373-MONOMER" -"EG11374_RNA" "mRNA" [] "H2PTERIDINEPYROPHOSPHOKIN-MONOMER" -"EG11375_RNA" "mRNA" [] "GTP-CYCLOHYDRO-I-MONOMER" -"EG11376_RNA" "mRNA" [] "EG11376-MONOMER" -"EG11377_RNA" "mRNA" [] "1-ACYLGLYCEROL-3-P-ACYLTRANSFER-MONOMER" -"EG11378_RNA" "mRNA" [] "EG11378-MONOMER" -"EG11379_RNA" "mRNA" [] "APPB-MONOMER" -"EG11380_RNA" "mRNA" [] "APPC-MONOMER" -"EG11381_RNA" "mRNA" [] "EG11381-MONOMER" -"EG11383_RNA" "mRNA" [] "EG11383-MONOMER" -"EG11384_RNA" "mRNA" [] "EG11384-MONOMER" -"EG11385_RNA" "mRNA" [] "EG11385-MONOMER" -"EG11386_RNA" "mRNA" [] "EG11386-MONOMER" -"EG11387_RNA" "mRNA" [] "ALPHA-AMYL-CYTO-MONOMER" -"EG11388_RNA" "mRNA" [] "EG11388-MONOMER" -"EG11389_RNA" "mRNA" [] "EG11389-MONOMER" -"EG11390_RNA" "mRNA" [] "EG11390-MONOMER" -"EG11391_RNA" "mRNA" [] "EG11391-MONOMER" -"EG11392_RNA" "mRNA" [] "NHAB-MONOMER" -"EG11393_RNA" "mRNA" [] "DSBBPROT-MONOMER" -"EG11394_RNA" "mRNA" [] "EG11394-MONOMER" -"EG11395_RNA" "mRNA" [] "EG11395-MONOMER" -"EG11396_RNA" "mRNA" [] "EG11396-MONOMER" -"EG11398_RNA" "mRNA" [] "EG11398-MONOMER" -"EG11399_RNA" "mRNA" [] "EG11399-MONOMER" -"EG11400_RNA" "mRNA" [] "EG11400-MONOMER" -"EG11401_RNA" "mRNA" [] "EG11401-MONOMER" -"EG11402_RNA" "mRNA" [] "TRE6PHYDRO-MONOMER" -"EG11403_RNA" "mRNA" [] "PPX-MONOMER" -"EG11404_RNA" "mRNA" [] "EG11404-MONOMER" -"EG11405_RNA" "mRNA" [] "CYDD-MONOMER" -"EG11406_RNA" "mRNA" [] "RIBOFLAVIN-SYN-MONOMER" -"EG11407_RNA" "mRNA" [] "DALADEHYDROGA-MONOMER" -"EG11408_RNA" "mRNA" [] "ALARACECAT-MONOMER" -"EG11409_RNA" "mRNA" [] "TETRAACYLDISACC4KIN-MONOMER" -"EG11410_RNA" "mRNA" [] "EG11410-MONOMER" -"EG11411_RNA" "mRNA" [] "GLND-MONOMER" -"EG11412_RNA" "mRNA" [] "EG11412-MONOMER" -"EG11413_RNA" "mRNA" [] "EG11413-MONOMER" -"EG11414_RNA" "mRNA" [] "EG11414-MONOMER" -"EG11415_RNA" "mRNA" [] "EG11415-MONOMER" -"EG11417_RNA" "mRNA" [] "RIBONUCLEOSIDE-TRIP-REDUCT-MONOMER" -"EG11418_RNA" "mRNA" [] "DCTP-DEAM-MONOMER" -"EG11419_RNA" "mRNA" [] "BCR-MONOMER" -"EG11421_RNA" "mRNA" [] "PD00291" -"EG11422_RNA" "mRNA" [] "EG11422-MONOMER" -"EG11423_RNA" "mRNA" [] "EG11423-MONOMER" -"EG11424_RNA" "mRNA" [] "EG11424-MONOMER" -"EG11425_RNA" "mRNA" [] "EG11425-MONOMER" -"EG11426_RNA" "mRNA" [] "EG11426-MONOMER" -"EG11427_RNA" "mRNA" [] "TRANSKETOI-MONOMER" -"EG11428_RNA" "mRNA" [] "UDHA-MONOMER" -"EG11429_RNA" "mRNA" [] "EG11429-MONOMER" -"EG11430_RNA" "mRNA" [] "EG11430-MONOMER" -"EG11431_RNA" "mRNA" [] "EG11431-MONOMER" -"EG11432_RNA" "mRNA" [] "EG11432-MONOMER" -"EG11433_RNA" "mRNA" [] "EG11433-MONOMER" -"EG11434_RNA" "mRNA" [] "PD00365" -"EG11435_RNA" "mRNA" [] "PD00364" -"EG11436_RNA" "mRNA" [] "EG11436-MONOMER" -"EG11437_RNA" "mRNA" [] "EG11437-MONOMER" -"EG11438_RNA" "mRNA" [] "EG11438-MONOMER" -"EG11439_RNA" "mRNA" [] "EMRB-MONOMER" -"EG11440_RNA" "mRNA" [] "EG11440-MONOMER" -"EG11441_RNA" "mRNA" [] "EG11441-MONOMER" -"EG11442_RNA" "mRNA" [] "GCVT-MONOMER" -"EG11443_RNA" "mRNA" [] "RIB5PISOMA-MONOMER" -"EG11444_RNA" "mRNA" [] "METHYLMALONYL-COA-MUT-MONOMER" -"EG11445_RNA" "mRNA" [] "EG11445-MONOMER" -"EG11447_RNA" "mRNA" [] "EG11447-MONOMER" -"EG11448_RNA" "mRNA" [] "ACS-MONOMER" -"EG11449_RNA" "mRNA" [] "EG11449-MONOMER" -"EG11450_RNA" "mRNA" [] "EG11450-MONOMER" -"EG11451_RNA" "mRNA" [] "UDPGLCNACEPIM-MONOMER" -"EG11452_RNA" "mRNA" [] "UDPMANNACADEHYDROG-MONOMER" -"EG11453_RNA" "mRNA" [] "DTDPGLUCDEHYDRAT2-MONOMER" -"EG11454_RNA" "mRNA" [] "DTDPGLUCOSEPP2-MONOMER" -"EG11455_RNA" "mRNA" [] "TDPFUCACTRANS-MONOMER" -"EG11456_RNA" "mRNA" [] "RFFTRANS-MONOMER" -"EG11457_RNA" "mRNA" [] "FUC4NACTRANS-MONOMER" -"EG11458_RNA" "mRNA" [] "UDPMANACATRANS-MONOMER" -"EG11459_RNA" "mRNA" [] "YIFK-MONOMER" -"EG11460_RNA" "mRNA" [] "NARQ-MONOMER" -"EG11462_RNA" "mRNA" [] "EG11462-MONOMER" -"EG11463_RNA" "mRNA" [] "CORA-MONOMER" -"EG11464_RNA" "mRNA" [] "EG11464-MONOMER" -"EG11465_RNA" "mRNA" [] "EG11465-MONOMER" -"EG11466_RNA" "mRNA" [] "EG11466-MONOMER" -"EG11467_RNA" "mRNA" [] "EG11467-MONOMER" -"EG11468_RNA" "mRNA" [] "RHTC-MONOMER" -"EG11469_RNA" "mRNA" [] "RHTB-MONOMER" -"EG11470_RNA" "mRNA" [] "EG11470-MONOMER" -"EG11471_RNA" "mRNA" [] "EG11471-MONOMER" -"EG11472_RNA" "mRNA" [] "EG11472-MONOMER" -"EG11473_RNA" "mRNA" [] "2-OCTAPRENYL-METHOXY-BENZOQ-METH-MONOMER" -"EG11474_RNA" "mRNA" [] "EG11474-MONOMER" -"EG11476_RNA" "mRNA" [] "2-OCTAPRENYLPHENOL-HYDROX-MONOMER" -"EG11479_RNA" "mRNA" [] "EG11479-MONOMER" -"EG11481_RNA" "mRNA" [] "EG11481-MONOMER" -"EG11484_RNA" "mRNA" [] "EG11484-MONOMER" -"EG11485_RNA" "mRNA" [] "PROTOPORGENOXI-MONOMER" -"EG11486_RNA" "mRNA" [] "EG11486-MONOMER" -"EG11487_RNA" "mRNA" [] "PDXH-MONOMER" -"EG11488_RNA" "mRNA" [] "EG11488-MONOMER" -"EG11489_RNA" "mRNA" [] "EG11489-MONOMER" -"EG11490_RNA" "mRNA" [] "GLUTDECARBOXB-MONOMER" -"EG11491_RNA" "mRNA" [] "DINF-MONOMER" -"EG11492_RNA" "mRNA" [] "QOR-MONOMER" -"EG11493_RNA" "mRNA" [] "ADCLY-MONOMER" -"EG11494_RNA" "mRNA" [] "EG11494-MONOMER" -"EG11495_RNA" "mRNA" [] "EG11495-MONOMER" -"EG11496_RNA" "mRNA" [] "EG11496-MONOMER" -"EG11497_RNA" "mRNA" [] "EG11497-MONOMER" -"EG11498_RNA" "mRNA" [] "EG11498-MONOMER" -"EG11499_RNA" "mRNA" [] "EG11499-MONOMER" -"EG11500_RNA" "mRNA" [] "EG11500-MONOMER" -"EG11501_RNA" "mRNA" [] "ARGDECARBOXDEG-MONOMER" -"EG11502_RNA" "mRNA" [] "RCSF-MONOMER" -"EG11503_RNA" "mRNA" [] "EG11503-MONOMER" -"EG11504_RNA" "mRNA" [] "METQ-MONOMER" -"EG11505_RNA" "mRNA" [] "EG11505-MONOMER" -"EG11506_RNA" "mRNA" [] "EG11506-MONOMER" -"EG11507_RNA" "mRNA" [] "EG11507-MONOMER" -"EG11508_RNA" "mRNA" [] "EG11508-MONOMER" -"EG11509_RNA" "mRNA" [] "EG11509-MONOMER" -"EG11510_RNA" "mRNA" [] "PPK-MONOMER" -"EG11511_RNA" "mRNA" [] "EG11511-MONOMER" -"EG11512_RNA" "mRNA" [] "EG11512-MONOMER" -"EG11514_RNA" "mRNA" [] "EG11514-MONOMER" -"EG11515_RNA" "mRNA" [] "EG11515-MONOMER" -"EG11516_RNA" "mRNA" [] "EG11516-MONOMER" -"EG11517_RNA" "mRNA" [] "EG11517-MONOMER" -"EG11519_RNA" "mRNA" [] "EG11519-MONOMER" -"EG11520_RNA" "mRNA" [] "EG11520-MONOMER" -"EG11521_RNA" "mRNA" [] "EG11521-MONOMER" -"EG11522_RNA" "mRNA" [] "EG11522-MONOMER" -"EG11523_RNA" "mRNA" [] "EG11523-MONOMER" -"EG11524_RNA" "mRNA" [] "EG11524-MONOMER" -"EG11525_RNA" "mRNA" [] "EG11525-MONOMER" -"EG11526_RNA" "mRNA" [] "EG11526-MONOMER" -"EG11527_RNA" "mRNA" [] "NARP-MONOMER" -"EG11528_RNA" "mRNA" [] "ENOYL-ACP-REDUCT-NADH-MONOMER" -"EG11529_RNA" "mRNA" [] "EG11529-MONOMER" -"EG11530_RNA" "mRNA" [] "ACYLCOASYN-MONOMER" -"EG11531_RNA" "mRNA" [] "CFA-MONOMER" -"EG11532_RNA" "mRNA" [] "O-SUCCINYLBENZOATE-COA-SYN-MONOMER" -"EG11533_RNA" "mRNA" [] "EG11533-MONOMER" -"EG11534_RNA" "mRNA" [] "EG11534-MONOMER" -"EG11535_RNA" "mRNA" [] "EG11535-MONOMER" -"EG11536_RNA" "mRNA" [] "EG11536-MONOMER" -"EG11537_RNA" "mRNA" [] "EG11537-MONOMER" -"EG11538_RNA" "mRNA" [] "EG11538-MONOMER" -"EG11539_RNA" "mRNA" [] "UMPKI-MONOMER" -"EG11540_RNA" "mRNA" [] "PD01343" -"EG11541_RNA" "mRNA" [] "KUP-MONOMER" -"EG11542_RNA" "mRNA" [] "THIOESTERI-MONOMER" -"EG11543_RNA" "mRNA" [] "UROGENDECARBOX-MONOMER" -"EG11544_RNA" "mRNA" [] "EG11544-MONOMER" -"EG11545_RNA" "mRNA" [] "EG11545-MONOMER" -"EG11546_RNA" "mRNA" [] "QUINOPRIBOTRANS-MONOMER" -"EG11547_RNA" "mRNA" [] "EG11547-MONOMER" -"EG11548_RNA" "mRNA" [] "EG11548-MONOMER" -"EG11549_RNA" "mRNA" [] "EG11549-MONOMER" -"EG11551_RNA" "mRNA" [] "EG11551-MONOMER" -"EG11552_RNA" "mRNA" [] "EG11552-MONOMER" -"EG11553_RNA" "mRNA" [] "PHOSGLUCOSAMINEMUT-MONOMER" -"EG11554_RNA" "mRNA" [] "EG11554-MONOMER" -"EG11555_RNA" "mRNA" [] "YAAJ-MONOMER" -"EG11556_RNA" "mRNA" [] "TRANSALDOLB-MONOMER" -"EG11557_RNA" "mRNA" [] "CARNRACE-MONOMER" -"EG11558_RNA" "mRNA" [] "CAIC-MONOMER" -"EG11559_RNA" "mRNA" [] "CARNDEHYDRA-MONOMER" -"EG11560_RNA" "mRNA" [] "CROBETREDUCT-MONOMER" -"EG11561_RNA" "mRNA" [] "CAIT-MONOMER" -"EG11562_RNA" "mRNA" [] "EG11562-MONOMER" -"EG11563_RNA" "mRNA" [] "EG11563-MONOMER" -"EG11564_RNA" "mRNA" [] "EG11564-MONOMER" -"EG11565_RNA" "mRNA" [] "EG11565-MONOMER" -"EG11566_RNA" "mRNA" [] "YAAU-MONOMER" -"EG11568_RNA" "mRNA" [] "EG11568-MONOMER" -"EG11569_RNA" "mRNA" [] "EG11569-MONOMER" -"EG11570_RNA" "mRNA" [] "EG11570-MONOMER" -"EG11571_RNA" "mRNA" [] "EG11571-MONOMER" -"EG11572_RNA" "mRNA" [] "SFUC-MONOMER" -"EG11573_RNA" "mRNA" [] "SFUB-MONOMER" -"EG11574_RNA" "mRNA" [] "SFUA-MONOMER" -"EG11575_RNA" "mRNA" [] "LEUD-MONOMER" -"EG11576_RNA" "mRNA" [] "LEUC-MONOMER" -"EG11577_RNA" "mRNA" [] "3-ISOPROPYLMALDEHYDROG-MONOMER" -"EG11578_RNA" "mRNA" [] "EG11578-MONOMER" -"EG11579_RNA" "mRNA" [] "EG11579-MONOMER" -"EG11580_RNA" "mRNA" [] "EG11580-MONOMER" -"EG11581_RNA" "mRNA" [] "EG11581-MONOMER" -"EG11583_RNA" "mRNA" [] "GLYOCARBOLIG-MONOMER" -"EG11585_RNA" "mRNA" [] "THIC-MONOMER" -"EG11586_RNA" "mRNA" [] "THIE-MONOMER" -"EG11587_RNA" "mRNA" [] "THIF-MONOMER" -"EG11589_RNA" "mRNA" [] "THIG-MONOMER" -"EG11590_RNA" "mRNA" [] "THIH-MONOMER" -"EG11591_RNA" "mRNA" [] "EG11591-MONOMER" -"EG11592_RNA" "mRNA" [] "EG11592-MONOMER" -"EG11594_RNA" "mRNA" [] "EG11594-MONOMER" -"EG11595_RNA" "mRNA" [] "EG11595-MONOMER" -"EG11596_RNA" "mRNA" [] "MONOMER0-1501" -"EG11597_RNA" "mRNA" [] "EG11597-MONOMER" -"EG11598_RNA" "mRNA" [] "EG11598-MONOMER" -"EG11599_RNA" "mRNA" [] "EG11599-MONOMER" -"EG11600_RNA" "mRNA" [] "EG11600-MONOMER" -"EG11601_RNA" "mRNA" [] "EG11601-MONOMER" -"EG11602_RNA" "mRNA" [] "GLNE-MONOMER" -"EG11603_RNA" "mRNA" [] "EG11603-MONOMER" -"EG11604_RNA" "mRNA" [] "EG11604-MONOMER" -"EG11605_RNA" "mRNA" [] "EG11605-MONOMER" -"EG11606_RNA" "mRNA" [] "KCH-MONOMER" -"EG11607_RNA" "mRNA" [] "EG11607-MONOMER" -"EG11608_RNA" "mRNA" [] "CARDIOLIPSYN-MONOMER" -"EG11609_RNA" "mRNA" [] "EVGA-MONOMER" -"EG11610_RNA" "mRNA" [] "EVGS-MONOMER" -"EG11611_RNA" "mRNA" [] "EG11611-MONOMER" -"EG11612_RNA" "mRNA" [] "PROP-MONOMER" -"EG11613_RNA" "mRNA" [] "EG11613-MONOMER" -"EG11614_RNA" "mRNA" [] "BASS-MONOMER" -"EG11615_RNA" "mRNA" [] "BASR-MONOMER" -"EG11616_RNA" "mRNA" [] "SUGE-MONOMER" -"EG11617_RNA" "mRNA" [] "BAES-MONOMER" -"EG11618_RNA" "mRNA" [] "BAER-MONOMER" -"EG11619_RNA" "mRNA" [] "EG11619-MONOMER" -"EG11620_RNA" "mRNA" [] "EG11620-MONOMER" -"EG11621_RNA" "mRNA" [] "ABC-MONOMER" -"EG11622_RNA" "mRNA" [] "MDLB-MONOMER" -"EG11623_RNA" "mRNA" [] "LSERINEDEAM2-MONOMER" -"EG11624_RNA" "mRNA" [] "ARTP-MONOMER" -"EG11625_RNA" "mRNA" [] "ARTI-MONOMER" -"EG11626_RNA" "mRNA" [] "ARTQ-MONOMER" -"EG11627_RNA" "mRNA" [] "ARTM-MONOMER" -"EG11628_RNA" "mRNA" [] "ARTJ-MONOMER" -"EG11629_RNA" "mRNA" [] "POTF-MONOMER" -"EG11630_RNA" "mRNA" [] "POTG-MONOMER" -"EG11631_RNA" "mRNA" [] "POTH-MONOMER" -"EG11632_RNA" "mRNA" [] "POTI-MONOMER" -"EG11634_RNA" "mRNA" [] "EG11634-MONOMER" -"EG11635_RNA" "mRNA" [] "EG11635-MONOMER" -"EG11636_RNA" "mRNA" [] "YDEA-MONOMER" -"EG11637_RNA" "mRNA" [] "EG11637-MONOMER" -"EG11639_RNA" "mRNA" [] "EG11639-MONOMER" -"EG11640_RNA" "mRNA" [] "YDEF-MONOMER" -"EG11643_RNA" "mRNA" [] "EG11643-MONOMER" -"EG11644_RNA" "mRNA" [] "EG11644-MONOMER" -"EG11645_RNA" "mRNA" [] "EG11645-MONOMER" -"EG11646_RNA" "mRNA" [] "EG11646-MONOMER" -"EG11647_RNA" "mRNA" [] "CARBOXYL-TRANSFERASE-ALPHA-MONOMER" -"EG11648_RNA" "mRNA" [] "MONOMER0-149" -"EG11649_RNA" "mRNA" [] "EG11649-MONOMER" -"EG11650_RNA" "mRNA" [] "EG11650-MONOMER" -"EG11651_RNA" "mRNA" [] "EG11651-MONOMER" -"EG11652_RNA" "mRNA" [] "EG11652-MONOMER" -"EG11653_RNA" "mRNA" [] "EG11653-MONOMER" -"EG11654_RNA" "mRNA" [] "FLIG-FLAGELLAR-SWITCH-PROTEIN" -"EG11656_RNA" "mRNA" [] "EG11656-MONOMER" -"EG11657_RNA" "mRNA" [] "YBBA-MONOMER" -"EG11658_RNA" "mRNA" [] "UIDB-MONOMER" -"EG11659_RNA" "mRNA" [] "EG11659-MONOMER" -"EG11660_RNA" "mRNA" [] "EG11660-MONOMER" -"EG11661_RNA" "mRNA" [] "EG11661-MONOMER" -"EG11662_RNA" "mRNA" [] "EG11662-MONOMER" -"EG11663_RNA" "mRNA" [] "EG11663-MONOMER" -"EG11664_RNA" "mRNA" [] "EG11664-MONOMER" -"EG11665_RNA" "mRNA" [] "EG11665-MONOMER" -"EG11666_RNA" "mRNA" [] "EG11666-MONOMER" -"EG11667_RNA" "mRNA" [] "ATOS-MONOMER" -"EG11668_RNA" "mRNA" [] "ATOC-MONOMER" -"EG11669_RNA" "mRNA" [] "ATOD-MONOMER" -"EG11670_RNA" "mRNA" [] "ATOA-MONOMER" -"EG11671_RNA" "mRNA" [] "EG11671-MONOMER" -"EG11672_RNA" "mRNA" [] "ACETYL-COA-ACETYLTRANSFER-MONOMER" -"EG11673_RNA" "mRNA" [] "H2NEOPTERINALDOL-MONOMER" -"EG11674_RNA" "mRNA" [] "EG11674-MONOMER" -"EG11675_RNA" "mRNA" [] "3-CH3-2-OXOBUTANOATE-OH-CH3-XFER-MONOMER" -"EG11676_RNA" "mRNA" [] "EG11676-MONOMER" -"EG11677_RNA" "mRNA" [] "MODF-MONOMER" -"EG11678_RNA" "mRNA" [] "EG11678-MONOMER" -"EG11679_RNA" "mRNA" [] "AAS-MONOMER" -"EG11680_RNA" "mRNA" [] "YHBG-MONOMER" -"EG11681_RNA" "mRNA" [] "EG11681-MONOMER" -"EG11682_RNA" "mRNA" [] "EG11682-MONOMER" -"EG11683_RNA" "mRNA" [] "EG11683-MONOMER" -"EG11684_RNA" "mRNA" [] "EG11684-MONOMER" -"EG11685_RNA" "mRNA" [] "EG11685-MONOMER" -"EG11686_RNA" "mRNA" [] "YICJ-MONOMER" -"EG11687_RNA" "mRNA" [] "B3659-MONOMER" -"EG11688_RNA" "mRNA" [] "EG11688-MONOMER" -"EG11689_RNA" "mRNA" [] "YICM-MONOMER" -"EG11690_RNA" "mRNA" [] "EG11690-MONOMER" -"EG11691_RNA" "mRNA" [] "EG11691-MONOMER" -"EG11692_RNA" "mRNA" [] "EG11692-MONOMER" -"EG11693_RNA" "mRNA" [] "EMRD-MONOMER" -"EG11694_RNA" "mRNA" [] "EG11694-MONOMER" -"EG11695_RNA" "mRNA" [] "EG11695-MONOMER" -"EG11696_RNA" "mRNA" [] "EG11696-MONOMER" -"EG11697_RNA" "mRNA" [] "EG11697-MONOMER" -"EG11698_RNA" "mRNA" [] "ALDOSE1EPIM-MONOMER" -"EG11699_RNA" "mRNA" [] "GPMA-MONOMER" -"EG11700_RNA" "mRNA" [] "PNUC-MONOMER" -"EG11701_RNA" "mRNA" [] "UDK-MONOMER" -"EG11702_RNA" "mRNA" [] "EG11702-MONOMER" -"EG11703_RNA" "mRNA" [] "EG11703-MONOMER" -"EG11704_RNA" "mRNA" [] "ACRB-MONOMER" -"EG11705_RNA" "mRNA" [] "EG11705-MONOMER" -"EG11706_RNA" "mRNA" [] "YIDK-MONOMER" -"EG11707_RNA" "mRNA" [] "EG11707-MONOMER" -"EG11708_RNA" "mRNA" [] "EG11708-MONOMER" -"EG11709_RNA" "mRNA" [] "GLVB-MONOMER" -"EG11710_RNA" "mRNA" [] "GLVC-MONOMER" -"EG11711_RNA" "mRNA" [] "EG11711-MONOMER" -"EG11712_RNA" "mRNA" [] "EG11712-MONOMER" -"EG11713_RNA" "mRNA" [] "EG11713-MONOMER" -"EG11714_RNA" "mRNA" [] "EG11714-MONOMER" -"EG11719_RNA" "mRNA" [] "EG11719-MONOMER" -"EG11720_RNA" "mRNA" [] "YIDY-MONOMER" -"EG11721_RNA" "mRNA" [] "EG11721-MONOMER" -"EG11722_RNA" "mRNA" [] "EG11722-MONOMER" -"EG11723_RNA" "mRNA" [] "EG11723-MONOMER" -"EG11724_RNA" "mRNA" [] "EG11724-MONOMER" -"EG11725_RNA" "mRNA" [] "EG11725-MONOMER" -"EG11726_RNA" "mRNA" [] "EG11726-MONOMER" -"EG11727_RNA" "mRNA" [] "EG11727-MONOMER" -"EG11728_RNA" "mRNA" [] "EG11728-MONOMER" -"EG11729_RNA" "mRNA" [] "EG11729-MONOMER" -"EG11730_RNA" "mRNA" [] "EG11730-MONOMER" -"EG11731_RNA" "mRNA" [] "EG11731-MONOMER" -"EG11732_RNA" "mRNA" [] "YIEO-MONOMER" -"EG11733_RNA" "mRNA" [] "EG11733-MONOMER" -"EG11734_RNA" "mRNA" [] "EG11734-MONOMER" -"EG11735_RNA" "mRNA" [] "EG11735-MONOMER" -"EG11736_RNA" "mRNA" [] "EG11736-MONOMER" -"EG11737_RNA" "mRNA" [] "METI-MONOMER" -"EG11738_RNA" "mRNA" [] "EG11738-MONOMER" -"EG11739_RNA" "mRNA" [] "EG11739-MONOMER" -"EG11740_RNA" "mRNA" [] "EG11740-MONOMER" -"EG11741_RNA" "mRNA" [] "EG11741-MONOMER" -"EG11742_RNA" "mRNA" [] "YDDA-MONOMER" -"EG11743_RNA" "mRNA" [] "EG11743-MONOMER" -"EG11744_RNA" "mRNA" [] "EG11744-MONOMER" -"EG11746_RNA" "mRNA" [] "PANTOATE-BETA-ALANINE-LIG-MONOMER" -"EG11747_RNA" "mRNA" [] "ASPDECARBOX-MONOMER" -"EG11748_RNA" "mRNA" [] "EG11748-MONOMER" -"EG11749_RNA" "mRNA" [] "EG11749-MONOMER" -"EG11750_RNA" "mRNA" [] "EG11750-MONOMER" -"EG11751_RNA" "mRNA" [] "TREHALOSE6PSYN-MONOMER" -"EG11752_RNA" "mRNA" [] "TREHALOSEPHOSPHASYN-MONOMER" -"EG11753_RNA" "mRNA" [] "CHAA-MONOMER" -"EG11754_RNA" "mRNA" [] "B0070-MONOMER" -"EG11757_RNA" "mRNA" [] "EG11757-MONOMER" -"EG11758_RNA" "mRNA" [] "EG11758-MONOMER" -"EG11759_RNA" "mRNA" [] "EG11759-MONOMER" -"EG11760_RNA" "mRNA" [] "EG11760-MONOMER" -"EG11761_RNA" "mRNA" [] "EG11761-MONOMER" -"EG11762_RNA" "mRNA" [] "EG11762-MONOMER" -"EG11763_RNA" "mRNA" [] "EG11763-MONOMER" -"EG11764_RNA" "mRNA" [] "EG11764-MONOMER" -"EG11765_RNA" "mRNA" [] "EG11765-MONOMER" -"EG11766_RNA" "mRNA" [] "EG11766-MONOMER" -"EG11767_RNA" "mRNA" [] "YHHJ-MONOMER" -"EG11768_RNA" "mRNA" [] "EG11768-MONOMER" -"EG11769_RNA" "mRNA" [] "EG11769-MONOMER" -"EG11770_RNA" "mRNA" [] "EG11770-MONOMER" -"EG11773_RNA" "mRNA" [] "NUOM-MONOMER" -"EG11774_RNA" "mRNA" [] "NUOF-MONOMER" -"EG11775_RNA" "mRNA" [] "EG11775-MONOMER" -"EG11776_RNA" "mRNA" [] "EG11776-MONOMER" -"EG11777_RNA" "mRNA" [] "EG11777-MONOMER" -"EG11778_RNA" "mRNA" [] "EG11778-MONOMER" -"EG11779_RNA" "mRNA" [] "EG11779-MONOMER" -"EG11780_RNA" "mRNA" [] "EG11780-MONOMER" -"EG11781_RNA" "mRNA" [] "CYTOCHROMEC552-MONOMER" -"EG11782_RNA" "mRNA" [] "EG11782-MONOMER" -"EG11783_RNA" "mRNA" [] "EG11783-MONOMER" -"EG11784_RNA" "mRNA" [] "EG11784-MONOMER" -"EG11785_RNA" "mRNA" [] "EG11785-MONOMER" -"EG11786_RNA" "mRNA" [] "EG11786-MONOMER" -"EG11787_RNA" "mRNA" [] "GDPMANDEHYDRA-MONOMER" -"EG11788_RNA" "mRNA" [] "FCL-MONOMER" -"EG11789_RNA" "mRNA" [] "GDPMANMANHYDRO-MONOMER" -"EG11790_RNA" "mRNA" [] "EG11790-MONOMER" -"EG11791_RNA" "mRNA" [] "CMTB-MONOMER" -"EG11792_RNA" "mRNA" [] "CMTA-MONOMER" -"EG11793_RNA" "mRNA" [] "EG11793-MONOMER" -"EG11794_RNA" "mRNA" [] "EG11794-MONOMER" -"EG11795_RNA" "mRNA" [] "PD00339" -"EG11796_RNA" "mRNA" [] "EG11796-MONOMER" -"EG11797_RNA" "mRNA" [] "TRANSALDOLA-MONOMER" -"EG11798_RNA" "mRNA" [] "EG11798-MONOMER" -"EG11799_RNA" "mRNA" [] "HYBA-MONOMER" -"EG11800_RNA" "mRNA" [] "EG11800-MONOMER" -"EG11801_RNA" "mRNA" [] "HYBC-MONOMER" -"EG11802_RNA" "mRNA" [] "EG11802-MONOMER" -"EG11803_RNA" "mRNA" [] "EG11803-MONOMER" -"EG11804_RNA" "mRNA" [] "EG11804-MONOMER" -"EG11805_RNA" "mRNA" [] "EG11805-MONOMER" -"EG11806_RNA" "mRNA" [] "EG11806-MONOMER" -"EG11807_RNA" "mRNA" [] "EG11807-MONOMER" -"EG11808_RNA" "mRNA" [] "EG11808-MONOMER" -"EG11809_RNA" "mRNA" [] "GARTRANSFORMYL2-MONOMER" -"EG11810_RNA" "mRNA" [] "GCVP-MONOMER" -"EG11811_RNA" "mRNA" [] "EG11811-MONOMER" -"EG11812_RNA" "mRNA" [] "EG11812-MONOMER" -"EG11814_RNA" "mRNA" [] "TORA-MONOMER" -"EG11815_RNA" "mRNA" [] "EG11815-MONOMER" -"EG11816_RNA" "mRNA" [] "EG11816-MONOMER" -"EG11817_RNA" "mRNA" [] "EG11817-MONOMER" -"EG11819_RNA" "mRNA" [] "FORMYLTHFDEFORMYL-MONOMER" -"EG11820_RNA" "mRNA" [] "EG11820-MONOMER" -"EG11821_RNA" "mRNA" [] "AMTB-MONOMER" -"EG11822_RNA" "mRNA" [] "EG11822-MONOMER" -"EG11823_RNA" "mRNA" [] "NACMURLALAAMI1-MONOMER" -"EG11824_RNA" "mRNA" [] "EG11824-MONOMER" -"EG11825_RNA" "mRNA" [] "EG11825-MONOMER" -"EG11826_RNA" "mRNA" [] "EG11826-MONOMER" -"EG11827_RNA" "mRNA" [] "RIB5PISOMB-MONOMER" -"EG11828_RNA" "mRNA" [] "EG11828-MONOMER" -"EG11829_RNA" "mRNA" [] "EG11829-MONOMER" -"EG11830_RNA" "mRNA" [] "EG11830-MONOMER" -"EG11831_RNA" "mRNA" [] "EG11831-MONOMER" -"EG11832_RNA" "mRNA" [] "EG11832-MONOMER" -"EG11833_RNA" "mRNA" [] "EG11833-MONOMER" -"EG11835_RNA" "mRNA" [] "EG11835-MONOMER" -"EG11836_RNA" "mRNA" [] "HEMN-MONOMER" -"EG11837_RNA" "mRNA" [] "EG11837-MONOMER" -"EG11838_RNA" "mRNA" [] "EG11838-MONOMER" -"EG11839_RNA" "mRNA" [] "EG11839-MONOMER" -"EG11840_RNA" "mRNA" [] "YIHN-MONOMER" -"EG11841_RNA" "mRNA" [] "YIHO-MONOMER" -"EG11842_RNA" "mRNA" [] "YIHP-MONOMER" -"EG11843_RNA" "mRNA" [] "EG11843-MONOMER" -"EG11844_RNA" "mRNA" [] "EG11844-MONOMER" -"EG11845_RNA" "mRNA" [] "EG11845-MONOMER" -"EG11846_RNA" "mRNA" [] "EG11846-MONOMER" -"EG11847_RNA" "mRNA" [] "EG11847-MONOMER" -"EG11848_RNA" "mRNA" [] "EG11848-MONOMER" -"EG11849_RNA" "mRNA" [] "EG11849-MONOMER" -"EG11850_RNA" "mRNA" [] "EG11850-MONOMER" -"EG11851_RNA" "mRNA" [] "EG11851-MONOMER" -"EG11852_RNA" "mRNA" [] "EG11852-MONOMER" -"EG11853_RNA" "mRNA" [] "EG11853-MONOMER" -"EG11854_RNA" "mRNA" [] "EG11854-MONOMER" -"EG11855_RNA" "mRNA" [] "EG11855-MONOMER" -"EG11856_RNA" "mRNA" [] "FDOI-MONOMER" -"EG11857_RNA" "mRNA" [] "FDOH-MONOMER" -"EG11858_RNA" "mRNA" [] "FDOG-MONOMER" -"EG11859_RNA" "mRNA" [] "EG11859-MONOMER" -"EG11860_RNA" "mRNA" [] "EG11860-MONOMER" -"EG11861_RNA" "mRNA" [] "EG11861-MONOMER" -"EG11862_RNA" "mRNA" [] "EG11862-MONOMER" -"EG11863_RNA" "mRNA" [] "FRVB-MONOMER" -"EG11864_RNA" "mRNA" [] "FRVA-MONOMER" -"EG11865_RNA" "mRNA" [] "EG11865-MONOMER" -"EG11866_RNA" "mRNA" [] "RHAMNULPALDOL-MONOMER" -"EG11867_RNA" "mRNA" [] "RHAMNISOM-MONOMER" -"EG11868_RNA" "mRNA" [] "RHAMNULOKIN-MONOMER" -"EG11869_RNA" "mRNA" [] "KDGT-MONOMER" -"EG11870_RNA" "mRNA" [] "EG11870-MONOMER" -"EG11871_RNA" "mRNA" [] "GPH-MONOMER" -"EG11873_RNA" "mRNA" [] "YIIP-MONOMER" -"EG11874_RNA" "mRNA" [] "EG11874-MONOMER" -"EG11875_RNA" "mRNA" [] "EG11875-MONOMER" -"EG11876_RNA" "mRNA" [] "EG11876-MONOMER" -"EG11877_RNA" "mRNA" [] "EG11877-MONOMER" -"EG11878_RNA" "mRNA" [] "EG11878-MONOMER" -"EG11879_RNA" "mRNA" [] "EG11879-MONOMER" -"EG11880_RNA" "mRNA" [] "DMK-MONOMER" -"EG11881_RNA" "mRNA" [] "EG11881-MONOMER" -"EG11882_RNA" "mRNA" [] "EG11882-MONOMER" -"EG11883_RNA" "mRNA" [] "TEHA-MONOMER" -"EG11884_RNA" "mRNA" [] "EG11884-MONOMER" -"EG11885_RNA" "mRNA" [] "EG11885-MONOMER" -"EG11886_RNA" "mRNA" [] "EG11886-MONOMER" -"EG11887_RNA" "mRNA" [] "RED-THIOREDOXIN2-MONOMER" -"EG11888_RNA" "mRNA" [] "EG11888-MONOMER" -"EG11889_RNA" "mRNA" [] "EG11889-MONOMER" -"EG11890_RNA" "mRNA" [] "EG11890-MONOMER" -"EG11891_RNA" "mRNA" [] "EG11891-MONOMER" -"EG11892_RNA" "mRNA" [] "EG11892-MONOMER" -"EG11893_RNA" "mRNA" [] "RPOA-MONOMER" -"EG11894_RNA" "mRNA" [] "EG11894-MONOMER" -"EG11895_RNA" "mRNA" [] "EG11895-MONOMER" -"EG11896_RNA" "mRNA" [] "YEEF-MONOMER" -"EG11897_RNA" "mRNA" [] "RPOE-MONOMER" -"EG11899_RNA" "mRNA" [] "EG11899-MONOMER" -"EG11900_RNA" "mRNA" [] "EG11900-MONOMER" -"EG11901_RNA" "mRNA" [] "EG11901-MONOMER" -"EG11902_RNA" "mRNA" [] "EG11902-MONOMER" -"EG11903_RNA" "mRNA" [] "EG11903-MONOMER" -"EG11904_RNA" "mRNA" [] "GLYCDEH-MONOMER" -"EG11905_RNA" "mRNA" [] "EG11905-MONOMER" -"EG11906_RNA" "mRNA" [] "EG11906-MONOMER" -"EG11908_RNA" "mRNA" [] "FRWC-MONOMER" -"EG11909_RNA" "mRNA" [] "FRWB-MONOMER" -"EG11910_RNA" "mRNA" [] "EG11910-MONOMER" -"EG11911_RNA" "mRNA" [] "EG11911-MONOMER" -"EG11912_RNA" "mRNA" [] "EG11912-MONOMER" -"EG11913_RNA" "mRNA" [] "EG11913-MONOMER" -"EG11914_RNA" "mRNA" [] "EG11914-MONOMER" -"EG11915_RNA" "mRNA" [] "EG11915-MONOMER" -"EG11916_RNA" "mRNA" [] "EG11916-MONOMER" -"EG11917_RNA" "mRNA" [] "EG11917-MONOMER" -"EG11918_RNA" "mRNA" [] "EG11918-MONOMER" -"EG11919_RNA" "mRNA" [] "EG11919-MONOMER" -"EG11920_RNA" "mRNA" [] "EG11920-MONOMER" -"EG11921_RNA" "mRNA" [] "EG11921-MONOMER" -"EG11922_RNA" "mRNA" [] "EG11922-MONOMER" -"EG11923_RNA" "mRNA" [] "EG11923-MONOMER" -"EG11924_RNA" "mRNA" [] "EG11924-MONOMER" -"EG11925_RNA" "mRNA" [] "EG11925-MONOMER" -"EG11926_RNA" "mRNA" [] "EG11926-MONOMER" -"EG11927_RNA" "mRNA" [] "EG11927-MONOMER" -"EG11928_RNA" "mRNA" [] "EG11928-MONOMER" -"EG11929_RNA" "mRNA" [] "EG11929-MONOMER" -"EG11930_RNA" "mRNA" [] "EG11930-MONOMER" -"EG11931_RNA" "mRNA" [] "EG11931-MONOMER" -"EG11932_RNA" "mRNA" [] "EG11932-MONOMER" -"EG11933_RNA" "mRNA" [] "EG11933-MONOMER" -"EG11934_RNA" "mRNA" [] "APHA-MONOMER" -"EG11935_RNA" "mRNA" [] "EG11935-MONOMER" -"EG11936_RNA" "mRNA" [] "EG11936-MONOMER" -"EG11937_RNA" "mRNA" [] "EG11937-MONOMER" -"EG11938_RNA" "mRNA" [] "EG11938-MONOMER" -"EG11939_RNA" "mRNA" [] "EG11939-MONOMER" -"EG11940_RNA" "mRNA" [] "YJCE-MONOMER" -"EG11941_RNA" "mRNA" [] "EG11941-MONOMER" -"EG11942_RNA" "mRNA" [] "YJCG-MONOMER" -"EG11943_RNA" "mRNA" [] "YJCH-MONOMER" -"EG11945_RNA" "mRNA" [] "CYTOCHROMEC-MONOMER" -"EG11946_RNA" "mRNA" [] "NRFC-MONOMER" -"EG11947_RNA" "mRNA" [] "NRFD-MONOMER" -"EG11948_RNA" "mRNA" [] "EG11948-MONOMER" -"EG11949_RNA" "mRNA" [] "EG11949-MONOMER" -"EG11950_RNA" "mRNA" [] "EG11950-MONOMER" -"EG11951_RNA" "mRNA" [] "EG11951-MONOMER" -"EG11952_RNA" "mRNA" [] "EG11952-MONOMER" -"EG11953_RNA" "mRNA" [] "YJCQ-MONOMER" -"EG11954_RNA" "mRNA" [] "EG11954-MONOMER" -"EG11955_RNA" "mRNA" [] "EG11955-MONOMER" -"EG11956_RNA" "mRNA" [] "EG11956-MONOMER" -"EG11957_RNA" "mRNA" [] "EG11957-MONOMER" -"EG11958_RNA" "mRNA" [] "YJCV-MONOMER" -"EG11959_RNA" "mRNA" [] "YJCW-MONOMER" -"EG11961_RNA" "mRNA" [] "LCTP-MONOMER" -"EG11962_RNA" "mRNA" [] "EG11962-MONOMER" -"EG11963_RNA" "mRNA" [] "L-LACTDEHYDROGFMN-MONOMER" -"EG11964_RNA" "mRNA" [] "EG11964-MONOMER" -"EG11965_RNA" "mRNA" [] "PD00369" -"EG11966_RNA" "mRNA" [] "EG11966-MONOMER" -"EG11967_RNA" "mRNA" [] "EG11967-MONOMER" -"EG11969_RNA" "mRNA" [] "EG11969-MONOMER" -"EG11970_RNA" "mRNA" [] "EG11970-MONOMER" -"EG11971_RNA" "mRNA" [] "NUPC-MONOMER" -"EG11972_RNA" "mRNA" [] "EG11972-MONOMER" -"EG11973_RNA" "mRNA" [] "EG11973-MONOMER" -"EG11974_RNA" "mRNA" [] "EG11974-MONOMER" -"EG11975_RNA" "mRNA" [] "EG11975-MONOMER" -"EG11976_RNA" "mRNA" [] "EG11976-MONOMER" -"EG11977_RNA" "mRNA" [] "EG11977-MONOMER" -"EG11978_RNA" "mRNA" [] "DTDPGLUCOSEPP-MONOMER" -"EG11979_RNA" "mRNA" [] "DTDPDEHYDRHAMEPIM-MONOMER" -"EG11980_RNA" "mRNA" [] "RFBX-MONOMER" -"EG11981_RNA" "mRNA" [] "GALPMUT-MONOMER" -"EG11982_RNA" "mRNA" [] "EG11982-MONOMER" -"EG11983_RNA" "mRNA" [] "EG11983-MONOMER" -"EG11984_RNA" "mRNA" [] "EG11984-MONOMER" -"EG11985_RNA" "mRNA" [] "EG11985-MONOMER" -"EG11986_RNA" "mRNA" [] "EG11986-MONOMER" -"EG11987_RNA" "mRNA" [] "EG11987-MONOMER" -"EG11988_RNA" "mRNA" [] "EG11988-MONOMER" -"EG11989_RNA" "mRNA" [] "EG11989-MONOMER" -"EG11990_RNA" "mRNA" [] "EG11990-MONOMER" -"EG11991_RNA" "mRNA" [] "EG11991-MONOMER" -"EG11992_RNA" "mRNA" [] "EG11992-MONOMER" -"EG11995_RNA" "mRNA" [] "EG11995-MONOMER" -"EG11998_RNA" "mRNA" [] "EG11998-MONOMER" -"EG11999_RNA" "mRNA" [] "EG11999-MONOMER" -"EG12002_RNA" "mRNA" [] "EG12002-MONOMER" -"EG12003_RNA" "mRNA" [] "EG12003-MONOMER" -"EG12004_RNA" "mRNA" [] "EG12004-MONOMER" -"EG12005_RNA" "mRNA" [] "EG12005-MONOMER" -"EG12006_RNA" "mRNA" [] "EG12006-MONOMER" -"EG12007_RNA" "mRNA" [] "EG12007-MONOMER" -"EG12008_RNA" "mRNA" [] "EG12008-MONOMER" -"EG12009_RNA" "mRNA" [] "YEHW-MONOMER" -"EG12010_RNA" "mRNA" [] "YEHX-MONOMER" -"EG12011_RNA" "mRNA" [] "YEHY-MONOMER" -"EG12012_RNA" "mRNA" [] "YEHZ-MONOMER" -"EG12013_RNA" "mRNA" [] "EG12013-MONOMER" -"EG12015_RNA" "mRNA" [] "EG12015-MONOMER" -"EG12016_RNA" "mRNA" [] "EG12016-MONOMER" -"EG12017_RNA" "mRNA" [] "EG12017-MONOMER" -"EG12019_RNA" "mRNA" [] "EG12019-MONOMER" -"EG12020_RNA" "mRNA" [] "EG12020-MONOMER" -"EG12021_RNA" "mRNA" [] "EG12021-MONOMER" -"EG12022_RNA" "mRNA" [] "EG12022-MONOMER" -"EG12023_RNA" "mRNA" [] "EG12023-MONOMER" -"EG12024_RNA" "mRNA" [] "EG12024-MONOMER" -"EG12025_RNA" "mRNA" [] "EG12025-MONOMER" -"EG12026_RNA" "mRNA" [] "EG12026-MONOMER" -"EG12027_RNA" "mRNA" [] "EG12027-MONOMER" -"EG12028_RNA" "mRNA" [] "EG12028-MONOMER" -"EG12029_RNA" "mRNA" [] "YEIJ-MONOMER" -"EG12030_RNA" "mRNA" [] "EG12030-MONOMER" -"EG12031_RNA" "mRNA" [] "EG12031-MONOMER" -"EG12032_RNA" "mRNA" [] "YEIM-MONOMER" -"EG12033_RNA" "mRNA" [] "EG12033-MONOMER" -"EG12034_RNA" "mRNA" [] "B2170-MONOMER" -"EG12035_RNA" "mRNA" [] "EG12035-MONOMER" -"EG12036_RNA" "mRNA" [] "EG12036-MONOMER" -"EG12037_RNA" "mRNA" [] "YEJA-MONOMER" -"EG12038_RNA" "mRNA" [] "YEJB-MONOMER" -"EG12040_RNA" "mRNA" [] "YEJE-MONOMER" -"EG12041_RNA" "mRNA" [] "YEJF-MONOMER" -"EG12042_RNA" "mRNA" [] "EG12042-MONOMER" -"EG12043_RNA" "mRNA" [] "EG12043-MONOMER" -"EG12044_RNA" "mRNA" [] "EG12044-MONOMER" -"EG12045_RNA" "mRNA" [] "EG12045-MONOMER" -"EG12048_RNA" "mRNA" [] "EG12048-MONOMER" -"EG12049_RNA" "mRNA" [] "EG12049-MONOMER" -"EG12051_RNA" "mRNA" [] "EG12051-MONOMER" -"EG12052_RNA" "mRNA" [] "EG12052-MONOMER" -"EG12053_RNA" "mRNA" [] "EG12053-MONOMER" -"EG12054_RNA" "mRNA" [] "EG12054-MONOMER" -"EG12055_RNA" "mRNA" [] "CCME-MONOMER" -"EG12057_RNA" "mRNA" [] "CCMC-MONOMER" -"EG12058_RNA" "mRNA" [] "CCMB-MONOMER" -"EG12059_RNA" "mRNA" [] "CCMA-MONOMER" -"EG12060_RNA" "mRNA" [] "NAPC-MONOMER" -"EG12061_RNA" "mRNA" [] "NAPB-MONOMER" -"EG12062_RNA" "mRNA" [] "NAPH-MONOMER" -"EG12064_RNA" "mRNA" [] "NAPG-MONOMER" -"EG12067_RNA" "mRNA" [] "NAPA-MONOMER" -"EG12068_RNA" "mRNA" [] "NAPF-MONOMER" -"EG12069_RNA" "mRNA" [] "EG12069-MONOMER" -"EG12070_RNA" "mRNA" [] "YOJI-MONOMER" -"EG12073_RNA" "mRNA" [] "EG12073-MONOMER" -"EG12075_RNA" "mRNA" [] "NIKA-MONOMER" -"EG12076_RNA" "mRNA" [] "NIKB-MONOMER" -"EG12077_RNA" "mRNA" [] "NIKC-MONOMER" -"EG12078_RNA" "mRNA" [] "NIKD-MONOMER" -"EG12079_RNA" "mRNA" [] "NIKE-MONOMER" -"EG12080_RNA" "mRNA" [] "EG12080-MONOMER" -"EG12081_RNA" "mRNA" [] "EG12081-MONOMER" -"EG12082_RNA" "mRNA" [] "NUOA-MONOMER" -"EG12083_RNA" "mRNA" [] "NUOB-MONOMER" -"EG12084_RNA" "mRNA" [] "NUOC-MONOMER" -"EG12086_RNA" "mRNA" [] "NUOE-MONOMER" -"EG12087_RNA" "mRNA" [] "NUOG-MONOMER" -"EG12088_RNA" "mRNA" [] "NUOH-MONOMER" -"EG12089_RNA" "mRNA" [] "NUOI-MONOMER" -"EG12090_RNA" "mRNA" [] "NUOJ-MONOMER" -"EG12091_RNA" "mRNA" [] "NUOK-MONOMER" -"EG12092_RNA" "mRNA" [] "NUOL-MONOMER" -"EG12093_RNA" "mRNA" [] "NUON-MONOMER" -"EG12094_RNA" "mRNA" [] "EG12094-MONOMER" -"EG12095_RNA" "mRNA" [] "SECG" -"EG12096_RNA" "mRNA" [] "EG12096-MONOMER" -"EG12097_RNA" "mRNA" [] "EG12097-MONOMER" -"EG12098_RNA" "mRNA" [] "EG12098-MONOMER" -"EG12099_RNA" "mRNA" [] "EG12099-MONOMER" -"EG12100_RNA" "mRNA" [] "TRANSKETOII-MONOMER" -"EG12101_RNA" "mRNA" [] "EG12101-MONOMER" -"EG12102_RNA" "mRNA" [] "FEOB-MONOMER" -"EG12103_RNA" "mRNA" [] "EG12103-MONOMER" -"EG12104_RNA" "mRNA" [] "EG12104-MONOMER" -"EG12105_RNA" "mRNA" [] "EG12105-MONOMER" -"EG12106_RNA" "mRNA" [] "EG12106-MONOMER" -"EG12107_RNA" "mRNA" [] "EG12107-MONOMER" -"EG12108_RNA" "mRNA" [] "EG12108-MONOMER" -"EG12110_RNA" "mRNA" [] "EG12110-MONOMER" -"EG12111_RNA" "mRNA" [] "EG12111-MONOMER" -"EG12112_RNA" "mRNA" [] "PD02850" -"EG12113_RNA" "mRNA" [] "EG12113-MONOMER" -"EG12114_RNA" "mRNA" [] "EG12114-MONOMER" -"EG12115_RNA" "mRNA" [] "EG12115-MONOMER" -"EG12116_RNA" "mRNA" [] "EG12116-MONOMER" -"EG12117_RNA" "mRNA" [] "EG12117-MONOMER" -"EG12119_RNA" "mRNA" [] "EG12119-MONOMER" -"EG12120_RNA" "mRNA" [] "EG12120-MONOMER" -"EG12121_RNA" "mRNA" [] "EG12121-MONOMER" -"EG12122_RNA" "mRNA" [] "EG12122-MONOMER" -"EG12123_RNA" "mRNA" [] "EG12123-MONOMER" -"EG12124_RNA" "mRNA" [] "HISJ-MONOMER" -"EG12125_RNA" "mRNA" [] "HISQ-MONOMER" -"EG12127_RNA" "mRNA" [] "TREB-MONOMER" -"EG12128_RNA" "mRNA" [] "EG12128-MONOMER" -"EG12129_RNA" "mRNA" [] "URAA-MONOMER" -"EG12130_RNA" "mRNA" [] "EG12130-MONOMER" -"EG12131_RNA" "mRNA" [] "EG12131-MONOMER" -"EG12132_RNA" "mRNA" [] "EG12132-MONOMER" -"EG12133_RNA" "mRNA" [] "EG12133-MONOMER" -"EG12134_RNA" "mRNA" [] "EG12134-MONOMER" -"EG12136_RNA" "mRNA" [] "B2077-MONOMER" -"EG12137_RNA" "mRNA" [] "EG12137-MONOMER" -"EG12138_RNA" "mRNA" [] "EG12138-MONOMER" -"EG12139_RNA" "mRNA" [] "EG12139-MONOMER" -"EG12140_RNA" "mRNA" [] "EG12140-MONOMER" -"EG12141_RNA" "mRNA" [] "YDHC-MONOMER" -"EG12142_RNA" "mRNA" [] "SDAC-MONOMER" -"EG12143_RNA" "mRNA" [] "NAPD-MONOMER" -"EG12144_RNA" "mRNA" [] "PHOSPHOGLUCMUT-MONOMER" -"EG12146_RNA" "mRNA" [] "EG12146-MONOMER" -"EG12147_RNA" "mRNA" [] "EG12147-MONOMER" -"EG12148_RNA" "mRNA" [] "GALP-MONOMER" -"EG12150_RNA" "mRNA" [] "COBS-MONOMER" -"EG12151_RNA" "mRNA" [] "DMBPPRIBOSYLTRANS-MONOMER" -"EG12152_RNA" "mRNA" [] "GLUCONOKINI-MONOMER" -"EG12153_RNA" "mRNA" [] "NARU-MONOMER" -"EG12154_RNA" "mRNA" [] "EG12154-MONOMER" -"EG12155_RNA" "mRNA" [] "EG12155-MONOMER" -"EG12158_RNA" "mRNA" [] "EG12158-MONOMER" -"EG12159_RNA" "mRNA" [] "EG12159-MONOMER" -"EG12161_RNA" "mRNA" [] "EG12161-MONOMER" -"EG12162_RNA" "mRNA" [] "PD00338" -"EG12163_RNA" "mRNA" [] "EG12163-MONOMER" -"EG12164_RNA" "mRNA" [] "PGAM2-MONOMER" -"EG12165_RNA" "mRNA" [] "EG12165-MONOMER" -"EG12166_RNA" "mRNA" [] "EG12166-MONOMER" -"EG12167_RNA" "mRNA" [] "EG12167-MONOMER" -"EG12168_RNA" "mRNA" [] "BRNQ-MONOMER" -"EG12169_RNA" "mRNA" [] "EG12169-MONOMER" -"EG12171_RNA" "mRNA" [] "EG12171-MONOMER" -"EG12172_RNA" "mRNA" [] "EG12172-MONOMER" -"EG12173_RNA" "mRNA" [] "EG12173-MONOMER" -"EG12176_RNA" "mRNA" [] "EG12176-MONOMER" -"EG12177_RNA" "mRNA" [] "EG12177-MONOMER" -"EG12178_RNA" "mRNA" [] "DSBD-MONOMER" -"EG12179_RNA" "mRNA" [] "EG12179-MONOMER" -"EG12180_RNA" "mRNA" [] "EG12180-MONOMER" -"EG12181_RNA" "mRNA" [] "EG12181-MONOMER" -"EG12182_RNA" "mRNA" [] "EG12182-MONOMER" -"EG12183_RNA" "mRNA" [] "AMPG-MONOMER" -"EG12188_RNA" "mRNA" [] "EG12188-MONOMER" -"EG12189_RNA" "mRNA" [] "COPROGENOXI-MONOMER" -"EG12190_RNA" "mRNA" [] "EG12190-MONOMER" -"EG12191_RNA" "mRNA" [] "PROTEIN-PII2" -"EG12192_RNA" "mRNA" [] "MONOMER0-541" -"EG12193_RNA" "mRNA" [] "EG12193-MONOMER" -"EG12194_RNA" "mRNA" [] "EG12194-MONOMER" -"EG12195_RNA" "mRNA" [] "EG12195-MONOMER" -"EG12196_RNA" "mRNA" [] "EG12196-MONOMER" -"EG12197_RNA" "mRNA" [] "EG12197-MONOMER" -"EG12198_RNA" "mRNA" [] "EG12198-MONOMER" -"EG12200_RNA" "mRNA" [] "EG12200-MONOMER" -"EG12201_RNA" "mRNA" [] "EG12201-MONOMER" -"EG12202_RNA" "mRNA" [] "EG12202-MONOMER" -"EG12203_RNA" "mRNA" [] "EG12203-MONOMER" -"EG12204_RNA" "mRNA" [] "EG12204-MONOMER" -"EG12205_RNA" "mRNA" [] "EG12205-MONOMER" -"EG12207_RNA" "mRNA" [] "EG12207-MONOMER" -"EG12208_RNA" "mRNA" [] "EG12208-MONOMER" -"EG12209_RNA" "mRNA" [] "EG12209-MONOMER" -"EG12210_RNA" "mRNA" [] "EG12210-MONOMER" -"EG12211_RNA" "mRNA" [] "EG12211-MONOMER" -"EG12212_RNA" "mRNA" [] "EG12212-MONOMER" -"EG12213_RNA" "mRNA" [] "EG12213-MONOMER" -"EG12214_RNA" "mRNA" [] "EG12214-MONOMER" -"EG12215_RNA" "mRNA" [] "YHHO-MONOMER" -"EG12216_RNA" "mRNA" [] "EG12216-MONOMER" -"EG12217_RNA" "mRNA" [] "EG12217-MONOMER" -"EG12219_RNA" "mRNA" [] "YHHS-MONOMER" -"EG12220_RNA" "mRNA" [] "EG12220-MONOMER" -"EG12221_RNA" "mRNA" [] "EG12221-MONOMER" -"EG12223_RNA" "mRNA" [] "YHIH-MONOMER" -"EG12224_RNA" "mRNA" [] "EG12224-MONOMER" -"EG12225_RNA" "mRNA" [] "EG12225-MONOMER" -"EG12226_RNA" "mRNA" [] "EG12226-MONOMER" -"EG12227_RNA" "mRNA" [] "EG12227-MONOMER" -"EG12228_RNA" "mRNA" [] "MONOMER0-2489" -"EG12229_RNA" "mRNA" [] "EG12229-MONOMER" -"EG12230_RNA" "mRNA" [] "PITA-MONOMER" -"EG12231_RNA" "mRNA" [] "EG12231-MONOMER" -"EG12232_RNA" "mRNA" [] "YHIP-MONOMER" -"EG12233_RNA" "mRNA" [] "EG12233-MONOMER" -"EG12234_RNA" "mRNA" [] "EG12234-MONOMER" -"EG12235_RNA" "mRNA" [] "EG12235-MONOMER" -"EG12236_RNA" "mRNA" [] "ARSF-MONOMER" -"EG12237_RNA" "mRNA" [] "EG12237-MONOMER" -"EG12238_RNA" "mRNA" [] "EG12238-MONOMER" -"EG12240_RNA" "mRNA" [] "EG12240-MONOMER" -"EG12241_RNA" "mRNA" [] "YHIV-MONOMER" -"EG12242_RNA" "mRNA" [] "EG12242-MONOMER" -"EG12243_RNA" "mRNA" [] "EG12243-MONOMER" -"EG12244_RNA" "mRNA" [] "EG12244-MONOMER" -"EG12245_RNA" "mRNA" [] "TREHALACYTO-MONOMER" -"EG12246_RNA" "mRNA" [] "EG12246-MONOMER" -"EG12247_RNA" "mRNA" [] "EG12247-MONOMER" -"EG12248_RNA" "mRNA" [] "EG12248-MONOMER" -"EG12249_RNA" "mRNA" [] "YHJE-MONOMER" -"EG12251_RNA" "mRNA" [] "EG12251-MONOMER" -"EG12252_RNA" "mRNA" [] "EG12252-MONOMER" -"EG12253_RNA" "mRNA" [] "DEOXYGLUCONOKIN-MONOMER" -"EG12254_RNA" "mRNA" [] "EG12254-MONOMER" -"EG12256_RNA" "mRNA" [] "EG12256-MONOMER" -"EG12257_RNA" "mRNA" [] "EG12257-MONOMER" -"EG12258_RNA" "mRNA" [] "EG12258-MONOMER" -"EG12259_RNA" "mRNA" [] "EG12259-MONOMER" -"EG12260_RNA" "mRNA" [] "EG12260-MONOMER" -"EG12261_RNA" "mRNA" [] "EG12261-MONOMER" -"EG12262_RNA" "mRNA" [] "EG12262-MONOMER" -"EG12263_RNA" "mRNA" [] "EG12263-MONOMER" -"EG12264_RNA" "mRNA" [] "EG12264-MONOMER" -"EG12265_RNA" "mRNA" [] "EG12265-MONOMER" -"EG12266_RNA" "mRNA" [] "YHJV-MONOMER" -"EG12267_RNA" "mRNA" [] "EG12267-MONOMER" -"EG12268_RNA" "mRNA" [] "YHJX-MONOMER" -"EG12269_RNA" "mRNA" [] "EG12269-MONOMER" -"EG12270_RNA" "mRNA" [] "EG12270-MONOMER" -"EG12271_RNA" "mRNA" [] "EG12271-MONOMER" -"EG12272_RNA" "mRNA" [] "MONOMER-43" -"EG12273_RNA" "mRNA" [] "EG12273-MONOMER" -"EG12274_RNA" "mRNA" [] "EG12274-MONOMER" -"EG12275_RNA" "mRNA" [] "XYLG-MONOMER" -"EG12276_RNA" "mRNA" [] "XYLH-MONOMER" -"EG12277_RNA" "mRNA" [] "EG12277-MONOMER" -"EG12278_RNA" "mRNA" [] "EG12278-MONOMER" -"EG12279_RNA" "mRNA" [] "EG12279-MONOMER" -"EG12280_RNA" "mRNA" [] "EG12280-MONOMER" -"EG12281_RNA" "mRNA" [] "MONOMER0-422" -"EG12282_RNA" "mRNA" [] "EG12282-MONOMER" -"EG12283_RNA" "mRNA" [] "EG12283-MONOMER" -"EG12284_RNA" "mRNA" [] "LYXK-MONOMER" -"EG12285_RNA" "mRNA" [] "EG12285-MONOMER" -"EG12286_RNA" "mRNA" [] "EG12286-MONOMER" -"EG12287_RNA" "mRNA" [] "EG12287-MONOMER" -"EG12288_RNA" "mRNA" [] "EG12288-MONOMER" -"EG12289_RNA" "mRNA" [] "EG12289-MONOMER" -"EG12290_RNA" "mRNA" [] "EG12290-MONOMER" -"EG12291_RNA" "mRNA" [] "EG12291-MONOMER" -"EG12292_RNA" "mRNA" [] "ALDDEHYDROGB-MONOMER" -"EG12293_RNA" "mRNA" [] "EG12293-MONOMER" -"EG12294_RNA" "mRNA" [] "GRXC-MONOMER" -"EG12295_RNA" "mRNA" [] "EG12295-MONOMER" -"EG12296_RNA" "mRNA" [] "PGMI-MONOMER" -"EG12297_RNA" "mRNA" [] "EG12297-MONOMER" -"EG12298_RNA" "mRNA" [] "EG12298-MONOMER" -"EG12301_RNA" "mRNA" [] "PD01352" -"EG12302_RNA" "mRNA" [] "DTMPKI-MONOMER" -"EG12303_RNA" "mRNA" [] "EG12303-MONOMER" -"EG12304_RNA" "mRNA" [] "SAPD-MONOMER" -"EG12305_RNA" "mRNA" [] "SAPF-MONOMER" -"EG12308_RNA" "mRNA" [] "EG12308-MONOMER" -"EG12309_RNA" "mRNA" [] "EG12309-MONOMER" -"EG12310_RNA" "mRNA" [] "EG12310-MONOMER" -"EG12311_RNA" "mRNA" [] "EG12311-MONOMER" -"EG12312_RNA" "mRNA" [] "EG12312-MONOMER" -"EG12313_RNA" "mRNA" [] "EG12313-MONOMER" -"EG12314_RNA" "mRNA" [] "EG12314-MONOMER" -"EG12315_RNA" "mRNA" [] "EG12315-MONOMER" -"EG12316_RNA" "mRNA" [] "ACONITATEDEHYDRB-MONOMER" -"EG12318_RNA" "mRNA" [] "EG12318-MONOMER" -"EG12319_RNA" "mRNA" [] "EG12319-MONOMER" -"EG12320_RNA" "mRNA" [] "YADG-MONOMER" -"EG12321_RNA" "mRNA" [] "YADH-MONOMER" -"EG12322_RNA" "mRNA" [] "AGAX-MONOMER" -"EG12323_RNA" "mRNA" [] "EG12323-MONOMER" -"EG12325_RNA" "mRNA" [] "EG12325-MONOMER" -"EG12326_RNA" "mRNA" [] "EG12326-MONOMER" -"EG12327_RNA" "mRNA" [] "EG12327-MONOMER" -"EG12328_RNA" "mRNA" [] "EG12328-MONOMER" -"EG12329_RNA" "mRNA" [] "EG12329-MONOMER" -"EG12330_RNA" "mRNA" [] "EG12330-MONOMER" -"EG12331_RNA" "mRNA" [] "YADQ-MONOMER" -"EG12332_RNA" "mRNA" [] "EG12332-MONOMER" -"EG12333_RNA" "mRNA" [] "EG12333-MONOMER" -"EG12334_RNA" "mRNA" [] "EG12334-MONOMER" -"EG12335_RNA" "mRNA" [] "EG12335-MONOMER" -"EG12336_RNA" "mRNA" [] "EG12336-MONOMER" -"EG12337_RNA" "mRNA" [] "EG12337-MONOMER" -"EG12338_RNA" "mRNA" [] "EG12338-MONOMER" -"EG12339_RNA" "mRNA" [] "EG12339-MONOMER" -"EG12340_RNA" "mRNA" [] "YAGC-MONOMER" -"EG12341_RNA" "mRNA" [] "EG12341-MONOMER" -"EG12342_RNA" "mRNA" [] "EG12342-MONOMER" -"EG12343_RNA" "mRNA" [] "YJJK-MONOMER" -"EG12344_RNA" "mRNA" [] "EG12344-MONOMER" -"EG12345_RNA" "mRNA" [] "EG12345-MONOMER" -"EG12347_RNA" "mRNA" [] "EG12347-MONOMER" -"EG12352_RNA" "mRNA" [] "EG12352-MONOMER" -"EG12354_RNA" "mRNA" [] "EG12354-MONOMER" -"EG12356_RNA" "mRNA" [] "EG12356-MONOMER" -"EG12357_RNA" "mRNA" [] "EG12357-MONOMER" -"EG12358_RNA" "mRNA" [] "YCBE-MONOMER" -"EG12359_RNA" "mRNA" [] "EG12359-MONOMER" -"EG12360_RNA" "mRNA" [] "EG12360-MONOMER" -"EG12361_RNA" "mRNA" [] "KDUD-MONOMER" -"EG12362_RNA" "mRNA" [] "MENF-MONOMER" -"EG12363_RNA" "mRNA" [] "EG12363-MONOMER" -"EG12364_RNA" "mRNA" [] "EG12364-MONOMER" -"EG12365_RNA" "mRNA" [] "EG12365-MONOMER" -"EG12366_RNA" "mRNA" [] "EG12366-MONOMER" -"EG12367_RNA" "mRNA" [] "YBDE-MONOMER" -"EG12368_RNA" "mRNA" [] "ZNUB-MONOMER" -"EG12369_RNA" "mRNA" [] "YDJE-MONOMER" -"EG12370_RNA" "mRNA" [] "EG12370-MONOMER" -"EG12371_RNA" "mRNA" [] "EG12371-MONOMER" -"EG12372_RNA" "mRNA" [] "EG12372-MONOMER" -"EG12373_RNA" "mRNA" [] "EG12373-MONOMER" -"EG12374_RNA" "mRNA" [] "EG12374-MONOMER" -"EG12375_RNA" "mRNA" [] "EG12375-MONOMER" -"EG12376_RNA" "mRNA" [] "EG12376-MONOMER" -"EG12378_RNA" "mRNA" [] "EG12378-MONOMER" -"EG12379_RNA" "mRNA" [] "EG12379-MONOMER" -"EG12380_RNA" "mRNA" [] "GNTT-MONOMER" -"EG12381_RNA" "mRNA" [] "NRDF-MONOMER" -"EG12384_RNA" "mRNA" [] "EG12384-MONOMER" -"EG12385_RNA" "mRNA" [] "EG12385-MONOMER" -"EG12386_RNA" "mRNA" [] "EG12386-MONOMER" -"EG12387_RNA" "mRNA" [] "EG12387-MONOMER" -"EG12388_RNA" "mRNA" [] "EG12388-MONOMER" -"EG12391_RNA" "mRNA" [] "EG12391-MONOMER" -"EG12392_RNA" "mRNA" [] "YCHM-MONOMER" -"EG12393_RNA" "mRNA" [] "YGJE-MONOMER" -"EG12394_RNA" "mRNA" [] "EG12394-MONOMER" -"EG12395_RNA" "mRNA" [] "EG12395-MONOMER" -"EG12396_RNA" "mRNA" [] "EG12396-MONOMER" -"EG12397_RNA" "mRNA" [] "EG12397-MONOMER" -"EG12399_RNA" "mRNA" [] "EG12399-MONOMER" -"EG12400_RNA" "mRNA" [] "YDHE-MONOMER" -"EG12401_RNA" "mRNA" [] "EG12401-MONOMER" -"EG12402_RNA" "mRNA" [] "EG12402-MONOMER" -"EG12403_RNA" "mRNA" [] "EG12403-MONOMER" -"EG12404_RNA" "mRNA" [] "EG12404-MONOMER" -"EG12405_RNA" "mRNA" [] "EG12405-MONOMER" -"EG12406_RNA" "mRNA" [] "EG12406-MONOMER" -"EG12407_RNA" "mRNA" [] "EG12407-MONOMER" -"EG12409_RNA" "mRNA" [] "EG12409-MONOMER" -"EG12410_RNA" "mRNA" [] "EG12410-MONOMER" -"EG12411_RNA" "mRNA" [] "DTDPDEHYRHAMREDUCT-MONOMER" -"EG12412_RNA" "mRNA" [] "DTDPGLUCDEHYDRAT-MONOMER" -"EG12414_RNA" "mRNA" [] "GATA-MONOMER" -"EG12415_RNA" "mRNA" [] "GATB-MONOMER" -"EG12416_RNA" "mRNA" [] "GATC-MONOMER" -"EG12417_RNA" "mRNA" [] "GALACTITOLPDEHYD-MONOMER" -"EG12419_RNA" "mRNA" [] "TAGAALDOL2-MONOMER" -"EG12421_RNA" "mRNA" [] "EG12421-MONOMER" -"EG12422_RNA" "mRNA" [] "EG12422-MONOMER" -"EG12423_RNA" "mRNA" [] "MONOMER0-147" -"EG12424_RNA" "mRNA" [] "EG12424-MONOMER" -"EG12427_RNA" "mRNA" [] "MODA-MONOMER" -"EG12428_RNA" "mRNA" [] "EG12428-MONOMER" -"EG12429_RNA" "mRNA" [] "EG12429-MONOMER" -"EG12431_RNA" "mRNA" [] "EG12431-MONOMER" -"EG12432_RNA" "mRNA" [] "EG12432-MONOMER" -"EG12433_RNA" "mRNA" [] "EG12433-MONOMER" -"EG12434_RNA" "mRNA" [] "EG12434-MONOMER" -"EG12436_RNA" "mRNA" [] "EG12436-MONOMER" -"EG12437_RNA" "mRNA" [] "O-SUCCINYLBENZOATE-COA-LIG-MONOMER" -"EG12438_RNA" "mRNA" [] "EG12438-MONOMER" -"EG12439_RNA" "mRNA" [] "YJFF-MONOMER" -"EG12440_RNA" "mRNA" [] "EG12440-MONOMER" -"EG12442_RNA" "mRNA" [] "G7356-MONOMER" -"EG12443_RNA" "mRNA" [] "EG12443-MONOMER" -"EG12444_RNA" "mRNA" [] "EG12444-MONOMER" -"EG12445_RNA" "mRNA" [] "EG12445-MONOMER" -"EG12446_RNA" "mRNA" [] "EG12446-MONOMER" -"EG12448_RNA" "mRNA" [] "EG12448-MONOMER" -"EG12449_RNA" "mRNA" [] "EG12449-MONOMER" -"EG12450_RNA" "mRNA" [] "EG12450-MONOMER" -"EG12454_RNA" "mRNA" [] "EG12454-MONOMER" -"EG12455_RNA" "mRNA" [] "EG12455-MONOMER" -"EG12458_RNA" "mRNA" [] "YJCX-MONOMER" -"EG12462_RNA" "mRNA" [] "YJDE-MONOMER" -"EG12469_RNA" "mRNA" [] "YJDL-MONOMER" -"EG12475_RNA" "mRNA" [] "YJEM-MONOMER" -"EG12494_RNA" "mRNA" [] "YJFT-MONOMER" -"EG12495_RNA" "mRNA" [] "YJFU-MONOMER" -"EG12504_RNA" "mRNA" [] "CYCA-MONOMER" -"EG12517_RNA" "mRNA" [] "YTFQ-MONOMER" -"EG12518_RNA" "mRNA" [] "YTFR-MONOMER" -"EG12520_RNA" "mRNA" [] "YTFT-MONOMER" -"EG12522_RNA" "mRNA" [] "GALACTARDEHYDRA-MONOMER" -"EG12525_RNA" "mRNA" [] "MGTA-MONOMER" -"EG12539_RNA" "mRNA" [] "YJGT-MONOMER" -"EG12544_RNA" "mRNA" [] "YJHB-MONOMER" -"EG12548_RNA" "mRNA" [] "YJHF-MONOMER" -"EG12554_RNA" "mRNA" [] "SGCA-MONOMER" -"EG12556_RNA" "mRNA" [] "SGCC-MONOMER" -"EG12557_RNA" "mRNA" [] "SGCB-MONOMER" -"EG12563_RNA" "mRNA" [] "GNTP-MONOMER" -"EG12576_RNA" "mRNA" [] "YJIO-MONOMER" -"EG12587_RNA" "mRNA" [] "YJIZ-MONOMER" -"EG12591_RNA" "mRNA" [] "PGLYCEROLTRANSI-MONOMER" -"EG12600_RNA" "mRNA" [] "EG12600-MONOMER" -"EG12605_RNA" "mRNA" [] "EG12605-MONOMER" -"EG12606_RNA" "mRNA" [] "3-OXOACYL-ACP-SYNTHII-MONOMER" -"EG12608_RNA" "mRNA" [] "CAIE-MONOMER" -"EG12609_RNA" "mRNA" [] "EG12609-MONOMER" -"EG12610_RNA" "mRNA" [] "EG12610-MONOMER" -"EG12611_RNA" "mRNA" [] "EG12611-MONOMER" -"EG12615_RNA" "mRNA" [] "TORR-MONOMER" -"EG12623_RNA" "mRNA" [] "YBAL-MONOMER" -"EG12624_RNA" "mRNA" [] "EG12624-MONOMER" -"EG12625_RNA" "mRNA" [] "DPPB-MONOMER" -"EG12626_RNA" "mRNA" [] "DPPC-MONOMER" -"EG12627_RNA" "mRNA" [] "DPPD-MONOMER" -"EG12628_RNA" "mRNA" [] "DPPF-MONOMER" -"EG12629_RNA" "mRNA" [] "GLUCONOKINII-MONOMER" -"EG12630_RNA" "mRNA" [] "PD03585" -"EG12631_RNA" "mRNA" [] "GNTU-MONOMER" -"EG12633_RNA" "mRNA" [] "EG12633-MONOMER" -"EG12634_RNA" "mRNA" [] "EG12634-MONOMER" -"EG12656_RNA" "mRNA" [] "EG12656-MONOMER" -"EG12657_RNA" "mRNA" [] "EG12657-MONOMER" -"EG12658_RNA" "mRNA" [] "EG12658-MONOMER" -"EG12661_RNA" "mRNA" [] "GLTJ-MONOMER" -"EG12662_RNA" "mRNA" [] "GLTK-MONOMER" -"EG12663_RNA" "mRNA" [] "GLTL-MONOMER" -"EG12666_RNA" "mRNA" [] "EG12666-MONOMER" -"EG12688_RNA" "mRNA" [] "GRXB-MONOMER" -"EG12689_RNA" "mRNA" [] "EG12689-MONOMER" -"EG12690_RNA" "mRNA" [] "EG12690-MONOMER" -"EG12691_RNA" "mRNA" [] "EG12691-MONOMER" -"EG12692_RNA" "mRNA" [] "EG12692-MONOMER" -"EG12693_RNA" "mRNA" [] "EG12693-MONOMER" -"EG12694_RNA" "mRNA" [] "EG12694-MONOMER" -"EG12697_RNA" "mRNA" [] "FLAVODOXIN2-MONOMER" -"EG12702_RNA" "mRNA" [] "EG12702-MONOMER" -"EG12703_RNA" "mRNA" [] "EG12703-MONOMER" -"EG12704_RNA" "mRNA" [] "EG12704-MONOMER" -"EG12705_RNA" "mRNA" [] "EG12705-MONOMER" -"EG12707_RNA" "mRNA" [] "EG12707-MONOMER" -"EG12708_RNA" "mRNA" [] "EG12708-MONOMER" -"EG12709_RNA" "mRNA" [] "EG12709-MONOMER" -"EG12710_RNA" "mRNA" [] "EG12710-MONOMER" -"EG12712_RNA" "mRNA" [] "EG12712-MONOMER" -"EG12713_RNA" "mRNA" [] "EG12713-MONOMER" -"EG12715_RNA" "mRNA" [] "DXPREDISOM-MONOMER" -"EG12717_RNA" "mRNA" [] "EG12717-MONOMER" -"EG12720_RNA" "mRNA" [] "YGJI-MONOMER" -"EG12732_RNA" "mRNA" [] "YGJU-MONOMER" -"EG12734_RNA" "mRNA" [] "ALTRODEHYDRAT-MONOMER" -"EG12738_RNA" "mRNA" [] "EXUT-MONOMER" -"EG12739_RNA" "mRNA" [] "PD03270" -"EG12754_RNA" "mRNA" [] "YHAO-MONOMER" -"EG12760_RNA" "mRNA" [] "YHAU-MONOMER" -"EG12766_RNA" "mRNA" [] "AGAA-MONOMER" -"EG12768_RNA" "mRNA" [] "TAGAALDOL1-MONOMER" -"EG12769_RNA" "mRNA" [] "AGAB-MONOMER" -"EG12770_RNA" "mRNA" [] "AGAC-MONOMER" -"EG12780_RNA" "mRNA" [] "YRAO-MONOMER" -"EG12794_RNA" "mRNA" [] "EG12794-MONOMER" -"EG12799_RNA" "mRNA" [] "EG12799-MONOMER" -"EG12800_RNA" "mRNA" [] "YRBE-MONOMER" -"EG12801_RNA" "mRNA" [] "YRBF-MONOMER" -"EG12802_RNA" "mRNA" [] "YRBG-MONOMER" -"EG12830_RNA" "mRNA" [] "EG12830-MONOMER" -"EG12834_RNA" "mRNA" [] "YHDW-MONOMER" -"EG12835_RNA" "mRNA" [] "YHDX-MONOMER" -"EG12836_RNA" "mRNA" [] "YHDY-MONOMER" -"EG12837_RNA" "mRNA" [] "YHDZ-MONOMER" -"EG12842_RNA" "mRNA" [] "EG12842-MONOMER" -"EG12843_RNA" "mRNA" [] "EG12843-MONOMER" -"EG12844_RNA" "mRNA" [] "EG12844-MONOMER" -"EG12845_RNA" "mRNA" [] "EG12845-MONOMER" -"EG12850_RNA" "mRNA" [] "EG12850-MONOMER" -"EG12851_RNA" "mRNA" [] "EG12851-MONOMER" -"EG12853_RNA" "mRNA" [] "ABGT-MONOMER" -"EG12854_RNA" "mRNA" [] "EG12854-MONOMER" -"EG12855_RNA" "mRNA" [] "EG12855-MONOMER" -"EG12857_RNA" "mRNA" [] "EG12857-MONOMER" -"EG12859_RNA" "mRNA" [] "EG12859-MONOMER" -"EG12860_RNA" "mRNA" [] "EG12860-MONOMER" -"EG12861_RNA" "mRNA" [] "EG12861-MONOMER" -"EG12865_RNA" "mRNA" [] "EG12865-MONOMER" -"EG12866_RNA" "mRNA" [] "EG12866-MONOMER" -"EG12867_RNA" "mRNA" [] "EG12867-MONOMER" -"EG12868_RNA" "mRNA" [] "EG12868-MONOMER" -"EG12870_RNA" "mRNA" [] "EG12870-MONOMER" -"EG12874_RNA" "mRNA" [] "EG12874-MONOMER" -"EG12875_RNA" "mRNA" [] "EG12875-MONOMER" -"EG12876_RNA" "mRNA" [] "EG12876-MONOMER" -"EG12877_RNA" "mRNA" [] "EG12877-MONOMER" -"EG12878_RNA" "mRNA" [] "EG12878-MONOMER" -"EG12879_RNA" "mRNA" [] "EG12879-MONOMER" -"EG12880_RNA" "mRNA" [] "EG12880-MONOMER" -"EG12881_RNA" "mRNA" [] "EG12881-MONOMER" -"EG12882_RNA" "mRNA" [] "GSP-MONOMER" -"EG12883_RNA" "mRNA" [] "PITB-MONOMER" -"EG12903_RNA" "mRNA" [] "YHES-MONOMER" -"EG12908_RNA" "mRNA" [] "YHFM-MONOMER" -"EG12933_RNA" "mRNA" [] "EG12933-MONOMER" -"EG12957_RNA" "mRNA" [] "GLUCOKIN-MONOMER" -"EG13139_RNA" "mRNA" [] "AMINEOXID-MONOMER" -"EG13159_RNA" "mRNA" [] "XAPB-MONOMER" -"EG13161_RNA" "mRNA" [] "PD00297" -"EG13174_RNA" "mRNA" [] "B2775-MONOMER" -"EG13217_RNA" "mRNA" [] "EG13217-MONOMER" -"EG13235_RNA" "mRNA" [] "HRSA-MONOMER" -"EG13236_RNA" "mRNA" [] "EG13236-MONOMER" -"EG13238_RNA" "mRNA" [] "COBU-MONOMER" -"EG13270_RNA" "mRNA" [] "AQPZ-MONOMER" -"EG13283_RNA" "mRNA" [] "EMRY-MONOMER" -"EG20044_RNA" "mRNA" [] "DCTA-MONOMER" -"EG20049_RNA" "mRNA" [] "DEHYDDEOXPHOSGALACT-ALDOL-MONOMER" -"EG20051_RNA" "mRNA" [] "DEHYDDEOXGALACTKIN-MONOMER" -"EG20053_RNA" "mRNA" [] "YIDT-MONOMER" -"EG20080_RNA" "mRNA" [] "MALSYNG-MONOMER" -"EG20091_RNA" "mRNA" [] "GLYC3PDEHYDROGBIOSYN-MONOMER" -"EG20098_RNA" "mRNA" [] "HYPOXANPRIBOSYLTRAN-MONOMER" -"EG20110_RNA" "mRNA" [] "KEFB-MONOMER" -"EG20173_RNA" "mRNA" [] "PHOSACETYLTRANS-MONOMER" -"EG20248_RNA" "mRNA" [] "MANNONOXIDOREDUCT-MONOMER" -"EG20249_RNA" "mRNA" [] "EG20249-MONOMER" -"EG20252_RNA" "mRNA" [] "XYLF-MONOMER" -"EG20253_RNA" "mRNA" [] "EG20253-MONOMER" -"EG20257_RNA" "mRNA" [] "NRDE-MONOMER" -"EG50001_RNA" "mRNA" [] "EG50001-MONOMER" -"EG50002_RNA" "mRNA" [] "EG50002-MONOMER" -"EG50003_RNA" "mRNA" [] "EG50003-MONOMER" -"EG50004_RNA" "mRNA" [] "EG50004-MONOMER" -"EG50005_RNA" "mRNA" [] "DIHYDROPTERIREDUCT-MONOMER" -"EG50006_RNA" "mRNA" [] "EUTB-MONOMER" -"EG50007_RNA" "mRNA" [] "EUTC-MONOMER" -"EG50008_RNA" "mRNA" [] "CYTOCHROME-B562-MONOMER" -"EG50009_RNA" "mRNA" [] "GLUTDECARBOXA-MONOMER" -"EG50010_RNA" "mRNA" [] "ADHC-MONOMER" -"EG50011_RNA" "mRNA" [] "H2PTEROATESYNTH-MONOMER" -"FFS-RNA" "miscRNA" [] "null" -"G0-10241_RNA" "mRNA" [] "MONOMER0-2121" -"G0-10261_RNA" "mRNA" [] "MONOMER0-2141" -"G0-10430_RNA" "mRNA" [] "MONOMER0-4228" -"G0-10431_RNA" "mRNA" [] "MONOMER0-2653" -"G0-10432_RNA" "mRNA" [] "MONOMER0-2654" -"G0-10433_RNA" "mRNA" [] "MONOMER0-2655" -"G0-10434_RNA" "mRNA" [] "MONOMER0-2656" -"G0-10435_RNA" "mRNA" [] "MONOMER0-2657" -"G0-10436_RNA" "mRNA" [] "MONOMER0-2658" -"G0-10437_RNA" "mRNA" [] "MONOMER0-2659" -"G0-10438_RNA" "mRNA" [] "MONOMER0-2660" -"G0-10439_RNA" "mRNA" [] "MONOMER0-12" -"G0-10440_RNA" "mRNA" [] "MONOMER0-2662" -"G0-10441_RNA" "mRNA" [] "MONOMER0-2663" -"G0-10443_RNA" "mRNA" [] "MONOMER0-2665" -"G0-10444_RNA" "mRNA" [] "MONOMER0-2666" -"G0-10445_RNA" "mRNA" [] "MONOMER0-2667" -"G0-10446_RNA" "mRNA" [] "MONOMER0-2668" -"G0-10448_RNA" "mRNA" [] "MONOMER0-2670" -"G0-10449_RNA" "mRNA" [] "MONOMER0-2671" -"G0-10450_RNA" "mRNA" [] "MONOMER0-2672" -"G0-10451_RNA" "mRNA" [] "MONOMER0-2673" -"G0-10452_RNA" "mRNA" [] "MONOMER0-2674" -"G0-10453_RNA" "mRNA" [] "MONOMER0-2675" -"G0-10454_RNA" "mRNA" [] "MONOMER0-2676" -"G0-10455_RNA" "mRNA" [] "MONOMER0-2677" -"G0-10456_RNA" "mRNA" [] "MONOMER0-2678" -"G0-10458_RNA" "mRNA" [] "MONOMER0-2680" -"G0-10459_RNA" "mRNA" [] "MONOMER0-2681" -"G0-10460_RNA" "mRNA" [] "MONOMER0-2682" -"G0-10461_RNA" "mRNA" [] "MONOMER0-2683" -"G0-10462_RNA" "mRNA" [] "MONOMER0-2684" -"G0-10463_RNA" "mRNA" [] "MONOMER0-2685" -"G0-10464_RNA" "mRNA" [] "MONOMER0-2686" -"G0-10465_RNA" "mRNA" [] "MONOMER0-2687" -"G0-10466_RNA" "mRNA" [] "MONOMER0-2688" -"G0-10467_RNA" "mRNA" [] "MONOMER0-2689" -"G0-10468_RNA" "mRNA" [] "MONOMER0-2690" -"G0-10469_RNA" "mRNA" [] "MONOMER0-2691" -"G0-10470_RNA" "mRNA" [] "MONOMER0-2692" -"G0-10471_RNA" "mRNA" [] "MONOMER0-2693" -"G0-10472_RNA" "mRNA" [] "MONOMER0-2694" -"G0-10473_RNA" "mRNA" [] "MONOMER0-2695" -"G0-10474_RNA" "mRNA" [] "MONOMER0-2696" -"G0-10475_RNA" "mRNA" [] "MONOMER0-2697" -"G0-10511_RNA" "mRNA" [] "MONOMER0-2726" -"G0-10512_RNA" "mRNA" [] "MONOMER0-2885" -"G0-10513_RNA" "mRNA" [] "MONOMER0-2886" -"G0-10525_RNA" "mRNA" [] "MONOMER0-2748" -"G0-10528_RNA" "mRNA" [] "MONOMER0-4249" -"G0-10529_RNA" "mRNA" [] "MONOMER0-4246" -"G0-10530_RNA" "mRNA" [] "MONOMER0-4247" -"G0-10531_RNA" "mRNA" [] "MONOMER0-4248" -"G0-10535_RNA" "mRNA" [] "MONOMER0-2755" -"G0-10536_RNA" "mRNA" [] "MONOMER0-2756" -"G0-10537_RNA" "mRNA" [] "MONOMER0-2757" -"G0-10538_RNA" "mRNA" [] "MONOMER0-4231" -"G0-10539_RNA" "mRNA" [] "MONOMER0-4229" -"G0-10540_RNA" "mRNA" [] "MONOMER0-4230" -"G0-10541_RNA" "mRNA" [] "MONOMER0-2761" -"G0-10542_RNA" "mRNA" [] "MONOMER0-4255" -"G0-10543_RNA" "mRNA" [] "MONOMER0-4256" -"G0-10544_RNA" "mRNA" [] "MONOMER0-4257" -"G0-10545_RNA" "mRNA" [] "MONOMER0-4258" -"G0-10546_RNA" "mRNA" [] "MONOMER0-4259" -"G0-10550_RNA" "mRNA" [] "MONOMER0-2772" -"G0-10554_RNA" "mRNA" [] "MONOMER0-2776" -"G0-10555_RNA" "mRNA" [] "MONOMER0-2777" -"G0-10556_RNA" "mRNA" [] "MONOMER0-2778" -"G0-10557_RNA" "mRNA" [] "MONOMER0-2779" -"G0-10558_RNA" "mRNA" [] "MONOMER0-2780" -"G0-10559_RNA" "mRNA" [] "MONOMER0-2781" -"G0-10580_RNA" "mRNA" [] "MONOMER0-2801" -"G0-10583_RNA" "mRNA" [] "MONOMER0-2812" -"G0-10584_RNA" "mRNA" [] "MONOMER0-2813" -"G0-10585_RNA" "mRNA" [] "MONOMER0-2814" -"G0-10586_RNA" "mRNA" [] "MONOMER0-2815" -"G0-10588_RNA" "mRNA" [] "MONOMER0-2817" -"G0-10589_RNA" "mRNA" [] "MONOMER0-2818" -"G0-10590_RNA" "mRNA" [] "MONOMER0-2819" -"G0-10591_RNA" "mRNA" [] "MONOMER0-2820" -"G0-10593_RNA" "mRNA" [] "MONOMER0-2821" -"G0-10594_RNA" "mRNA" [] "MONOMER0-2822" -"G0-10595_RNA" "mRNA" [] "MONOMER0-2823" -"G0-10596_RNA" "mRNA" [] "MONOMER0-2824" -"G0-10601_RNA" "mRNA" [] "MONOMER0-2825" -"G0-10603_RNA" "mRNA" [] "MONOMER0-2826" -"G0-10605_RNA" "mRNA" [] "MONOMER0-2827" -"G0-10606_RNA" "mRNA" [] "MONOMER0-2828" -"G0-10607_RNA" "mRNA" [] "MONOMER0-2829" -"G0-10608_RNA" "mRNA" [] "MONOMER0-2830" -"G0-10616_RNA" "mRNA" [] "MONOMER0-2840" -"G0-10617_RNA" "mRNA" [] "MONOMER0-2842" -"G0-10624_RNA" "mRNA" [] "MONOMER0-2851" -"G0-10629_RNA" "mRNA" [] "MONOMER0-2855" -"G0-10630_RNA" "mRNA" [] "MONOMER0-2856" -"G0-10631_RNA" "mRNA" [] "MONOMER0-2857" -"G0-10632_RNA" "mRNA" [] "MONOMER0-2858" -"G0-10633_RNA" "mRNA" [] "MONOMER0-2859" -"G0-10634_RNA" "mRNA" [] "MONOMER0-2860" -"G0-10641_RNA" "mRNA" [] "MONOMER0-2868" -"G0-10642_RNA" "mRNA" [] "MONOMER0-2869" -"G0-10643_RNA" "mRNA" [] "MONOMER0-2870" -"G0-10644_RNA" "mRNA" [] "MONOMER0-2871" -"G0-10645_RNA" "mRNA" [] "MONOMER0-2872" -"G0-10646_RNA" "mRNA" [] "MONOMER0-2873" -"G0-10647_RNA" "mRNA" [] "MONOMER0-2874" -"G0-10648_RNA" "mRNA" [] "MONOMER0-2875" -"G0-10649_RNA" "mRNA" [] "MONOMER0-2876" -"G0-10650_RNA" "mRNA" [] "MONOMER0-2877" -"G0-10651_RNA" "mRNA" [] "MONOMER0-2878" -"G0-10652_RNA" "mRNA" [] "MONOMER0-2879" -"G0-10653_RNA" "mRNA" [] "MONOMER0-2880" -"G0-10654_RNA" "mRNA" [] "MONOMER0-2881" -"G0-10655_RNA" "mRNA" [] "MONOMER0-2882" -"G0-10656_RNA" "mRNA" [] "MONOMER0-2883" -"G0-10657_RNA" "mRNA" [] "MONOMER0-2884" -"G0-10689_RNA" "mRNA" [] "MONOMER0-4201" -"G0-10707_RNA" "mRNA" [] "MONOMER0-4214" -"G0-10715_RNA" "mRNA" [] "MONOMER0-4216" -"G0-10716_RNA" "mRNA" [] "MONOMER0-4224" -"G0-41_RNA" "mRNA" [] "MONOMER0-1562" -"G0-8601_RNA" "mRNA" [] "MONOMER0-561" -"G0-8887_RNA" "mRNA" [] "MONOMER0-761" -"G0-8888_RNA" "mRNA" [] "MONOMER0-762" -"G0-8891_RNA" "mRNA" [] "MONOMER0-765" -"G0-8892_RNA" "mRNA" [] "MONOMER0-766" -"G0-9041_RNA" "mRNA" [] "MONOMER0-921" -"G0-9081_RNA" "mRNA" [] "MONOMER0-1001" -"G0-9121_RNA" "mRNA" [] "MONOMER0-1041" -"G0-9461_RNA" "mRNA" [] "ERYTHRON4PDEHYDROG-MONOMER" -"G0-9541_RNA" "mRNA" [] "MONOMER0-1541" -"G0-9561_RNA" "mRNA" [] "MONOMER0-1561" -"G0-9562_RNA" "mRNA" [] "MONOMER0-1563" -"G0-9563_RNA" "mRNA" [] "MONOMER0-1564" -"G0-9582_RNA" "mRNA" [] "MONOMER0-1581" -"G0-9602_RNA" "mRNA" [] "MONOMER0-1601" -"G0-9605_RNA" "mRNA" [] "MONOMER0-1602" -"G0-9607_RNA" "mRNA" [] "MONOMER0-1603" -"G0-9610_RNA" "mRNA" [] "MONOMER0-1604" -"G0-9613_RNA" "mRNA" [] "MONOMER0-1605" -"G0-9621_RNA" "mRNA" [] "MONOMER0-1641" -"G0-9662_RNA" "mRNA" [] "MONOMER0-1701" -"G0-9962_RNA" "mRNA" [] "MONOMER0-1922" -"G0-9981_RNA" "mRNA" [] "MONOMER0-1941" -"G198_RNA" "mRNA" [] "HMP-KIN-MONOMER" -"G1_RNA" "mRNA" [] "THIS-MONOMER" -"G2000_RNA" "mRNA" [] "SAPC-MONOMER" -"G2001_RNA" "mRNA" [] "SAPB-MONOMER" -"G2002_RNA" "mRNA" [] "SAPA-MONOMER" -"G357_RNA" "mRNA" [] "G357-MONOMER" -"G358_RNA" "mRNA" [] "FLGB-FLAGELLAR-MOTOR-ROD-PROTEIN" -"G359_RNA" "mRNA" [] "FLGC-FLAGELLAR-MOTOR-ROD-PROTEIN" -"G360_RNA" "mRNA" [] "G360-MONOMER" -"G361_RNA" "mRNA" [] "G361-MONOMER" -"G362_RNA" "mRNA" [] "FLGF-FLAGELLAR-MOTOR-ROD-PROTEIN" -"G363_RNA" "mRNA" [] "FLGG-FLAGELLAR-MOTOR-ROD-PROTEIN" -"G364_RNA" "mRNA" [] "FLGH-FLAGELLAR-L-RING" -"G365_RNA" "mRNA" [] "FLGI-FLAGELLAR-P-RING" -"G366_RNA" "mRNA" [] "G366-MONOMER" -"G369_RNA" "mRNA" [] "G369-MONOMER" -"G36_RNA" "mRNA" [] "DIENOYLCOAREDUCT-MONOMER" -"G370_RNA" "mRNA" [] "G370-MONOMER" -"G372_RNA" "mRNA" [] "MONOMER0-741" -"G377_RNA" "mRNA" [] "G377-MONOMER" -"G378_RNA" "mRNA" [] "G378-MONOMER" -"G379_RNA" "mRNA" [] "G379-MONOMER" -"G436_RNA" "mRNA" [] "NANT-MONOMER" -"G495_RNA" "mRNA" [] "G495-MONOMER" -"G58_RNA" "mRNA" [] "MALTACETYLTRAN-MONOMER" -"G592_RNA" "mRNA" [] "DLACTDEHYDROGNAD-MONOMER" -"G6081_RNA" "mRNA" [] "G6081-MONOMER" -"G6082_RNA" "mRNA" [] "G6082-MONOMER" -"G6083_RNA" "mRNA" [] "G6083-MONOMER" -"G6085_RNA" "mRNA" [] "G7762-MONOMER" -"G6086_RNA" "mRNA" [] "G6086-MONOMER" -"G6087_RNA" "mRNA" [] "G6087-MONOMER" -"G6088_RNA" "mRNA" [] "G6088-MONOMER" -"G6092_RNA" "mRNA" [] "UPPSYN-MONOMER" -"G6093_RNA" "mRNA" [] "G6093-MONOMER" -"G6094_RNA" "mRNA" [] "LDC2-MONOMER" -"G6095_RNA" "mRNA" [] "G6095-MONOMER" -"G6096_RNA" "mRNA" [] "G6096-MONOMER" -"G6097_RNA" "mRNA" [] "G6097-MONOMER" -"G6098_RNA" "mRNA" [] "G6098-MONOMER" -"G6099_RNA" "mRNA" [] "GLYOXII-MONOMER" -"G6100_RNA" "mRNA" [] "G6100-MONOMER" -"G6101_RNA" "mRNA" [] "G6101-MONOMER" -"G6102_RNA" "mRNA" [] "G6102-MONOMER" -"G6103_RNA" "mRNA" [] "G6103-MONOMER" -"G6104_RNA" "mRNA" [] "G6104-MONOMER" -"G6105_RNA" "mRNA" [] "ACYLCOADEHYDROG-MONOMER" -"G6106_RNA" "mRNA" [] "G6106-MONOMER" -"G6107_RNA" "mRNA" [] "G6107-MONOMER" -"G6108_RNA" "mRNA" [] "G6108-MONOMER" -"G6109_RNA" "mRNA" [] "G6109-MONOMER" -"G6110_RNA" "mRNA" [] "G6110-MONOMER" -"G6111_RNA" "mRNA" [] "G6111-MONOMER" -"G6112_RNA" "mRNA" [] "G6112-MONOMER" -"G6113_RNA" "mRNA" [] "G6113-MONOMER" -"G6114_RNA" "mRNA" [] "G6114-MONOMER" -"G6115_RNA" "mRNA" [] "G6115-MONOMER" -"G6116_RNA" "mRNA" [] "G6116-MONOMER" -"G6117_RNA" "mRNA" [] "G6117-MONOMER" -"G6118_RNA" "mRNA" [] "G6118-MONOMER" -"G6119_RNA" "mRNA" [] "G6119-MONOMER" -"G6120_RNA" "mRNA" [] "G6120-MONOMER" -"G6121_RNA" "mRNA" [] "G6121-MONOMER" -"G6122_RNA" "mRNA" [] "G6122-MONOMER" -"G6123_RNA" "mRNA" [] "G6123-MONOMER" -"G6124_RNA" "mRNA" [] "G6124-MONOMER" -"G6125_RNA" "mRNA" [] "G6125-MONOMER" -"G6126_RNA" "mRNA" [] "G6126-MONOMER" -"G6127_RNA" "mRNA" [] "G6127-MONOMER" -"G6128_RNA" "mRNA" [] "G6128-MONOMER" -"G6129_RNA" "mRNA" [] "G6129-MONOMER" -"G6130_RNA" "mRNA" [] "G6130-MONOMER" -"G6131_RNA" "mRNA" [] "G6131-MONOMER" -"G6132_RNA" "mRNA" [] "G6132-MONOMER" -"G6133_RNA" "mRNA" [] "G6133-MONOMER" -"G6134_RNA" "mRNA" [] "G7769-MONOMER" -"G6135_RNA" "mRNA" [] "B0260-MONOMER" -"G6136_RNA" "mRNA" [] "MMUM-MONOMER" -"G6137_RNA" "mRNA" [] "G6137-MONOMER" -"G6138_RNA" "mRNA" [] "G6138-MONOMER" -"G6139_RNA" "mRNA" [] "G6139-MONOMER" -"G6140_RNA" "mRNA" [] "G6140-MONOMER" -"G6141_RNA" "mRNA" [] "G6141-MONOMER" -"G6142_RNA" "mRNA" [] "B0270-MONOMER" -"G6143_RNA" "mRNA" [] "G6143-MONOMER" -"G6144_RNA" "mRNA" [] "G6144-MONOMER" -"G6146_RNA" "mRNA" [] "MONOMER0-4227" -"G6147_RNA" "mRNA" [] "G6147-MONOMER" -"G6148_RNA" "mRNA" [] "G6148-MONOMER" -"G6149_RNA" "mRNA" [] "G6149-MONOMER" -"G6150_RNA" "mRNA" [] "G6150-MONOMER" -"G6151_RNA" "mRNA" [] "G6151-MONOMER" -"G6152_RNA" "mRNA" [] "G6152-MONOMER" -"G6153_RNA" "mRNA" [] "G6153-MONOMER" -"G6154_RNA" "mRNA" [] "G6154-MONOMER" -"G6155_RNA" "mRNA" [] "G6155-MONOMER" -"G6156_RNA" "mRNA" [] "G6156-MONOMER" -"G6157_RNA" "mRNA" [] "G6157-MONOMER" -"G6158_RNA" "mRNA" [] "G6158-MONOMER" -"G6159_RNA" "mRNA" [] "G6159-MONOMER" -"G6160_RNA" "mRNA" [] "G6160-MONOMER" -"G6161_RNA" "mRNA" [] "G6161-MONOMER" -"G6162_RNA" "mRNA" [] "G6162-MONOMER" -"G6163_RNA" "mRNA" [] "G6163-MONOMER" -"G6164_RNA" "mRNA" [] "G6164-MONOMER" -"G6165_RNA" "mRNA" [] "G6165-MONOMER" -"G6166_RNA" "mRNA" [] "G6166-MONOMER" -"G6167_RNA" "mRNA" [] "G6167-MONOMER" -"G6168_RNA" "mRNA" [] "G6534-MONOMER" -"G6169_RNA" "mRNA" [] "G7126-MONOMER" -"G6170_RNA" "mRNA" [] "G6170-MONOMER" -"G6171_RNA" "mRNA" [] "G6171-MONOMER" -"G6173_RNA" "mRNA" [] "G6173-MONOMER" -"G6174_RNA" "mRNA" [] "G6174-MONOMER" -"G6175_RNA" "mRNA" [] "G6175-MONOMER" -"G6176_RNA" "mRNA" [] "G6176-MONOMER" -"G6177_RNA" "mRNA" [] "G6177-MONOMER" -"G6178_RNA" "mRNA" [] "G6178-MONOMER" -"G6180_RNA" "mRNA" [] "G6180-MONOMER" -"G6181_RNA" "mRNA" [] "G6181-MONOMER" -"G6182_RNA" "mRNA" [] "G6182-MONOMER" -"G6183_RNA" "mRNA" [] "G6183-MONOMER" -"G6184_RNA" "mRNA" [] "G6184-MONOMER" -"G6185_RNA" "mRNA" [] "G6185-MONOMER" -"G6186_RNA" "mRNA" [] "G6186-MONOMER" -"G6188_RNA" "mRNA" [] "G6188-MONOMER" -"G6189_RNA" "mRNA" [] "G6189-MONOMER" -"G6190_RNA" "mRNA" [] "G6190-MONOMER" -"G6191_RNA" "mRNA" [] "G6191-MONOMER" -"G6192_RNA" "mRNA" [] "G6192-MONOMER" -"G6193_RNA" "mRNA" [] "G6193-MONOMER" -"G6194_RNA" "mRNA" [] "G6194-MONOMER" -"G6195_RNA" "mRNA" [] "G6195-MONOMER" -"G6196_RNA" "mRNA" [] "G6196-MONOMER" -"G6198_RNA" "mRNA" [] "G6198-MONOMER" -"G6199_RNA" "mRNA" [] "G6199-MONOMER" -"G6200_RNA" "mRNA" [] "G6200-MONOMER" -"G6201_RNA" "mRNA" [] "G6201-MONOMER" -"G6205_RNA" "mRNA" [] "MHPELY-MONOMER" -"G6206_RNA" "mRNA" [] "MHPT-MONOMER" -"G6207_RNA" "mRNA" [] "G6207-MONOMER" -"G6208_RNA" "mRNA" [] "G6208-MONOMER" -"G6209_RNA" "mRNA" [] "G6209-MONOMER" -"G6210_RNA" "mRNA" [] "G6210-MONOMER" -"G6211_RNA" "mRNA" [] "G6211-MONOMER" -"G6212_RNA" "mRNA" [] "G6212-MONOMER" -"G6213_RNA" "mRNA" [] "G7480-MONOMER" -"G6214_RNA" "mRNA" [] "G6214-MONOMER" -"G6215_RNA" "mRNA" [] "G6215-MONOMER" -"G6216_RNA" "mRNA" [] "G6216-MONOMER" -"G6217_RNA" "mRNA" [] "TAUA-MONOMER" -"G6218_RNA" "mRNA" [] "TAUB-MONOMER" -"G6219_RNA" "mRNA" [] "TAUC-MONOMER" -"G6222_RNA" "mRNA" [] "G6222-MONOMER" -"G6224_RNA" "mRNA" [] "MONOMER0-4242" -"G6225_RNA" "mRNA" [] "G6225-MONOMER" -"G6226_RNA" "mRNA" [] "G6226-MONOMER" -"G6227_RNA" "mRNA" [] "G6227-MONOMER" -"G6228_RNA" "mRNA" [] "G6228-MONOMER" -"G6229_RNA" "mRNA" [] "G6229-MONOMER" -"G6230_RNA" "mRNA" [] "G6230-MONOMER" -"G6231_RNA" "mRNA" [] "G6231-MONOMER" -"G6233_RNA" "mRNA" [] "PROY-MONOMER" -"G6234_RNA" "mRNA" [] "THI-P-KIN-MONOMER" -"G6236_RNA" "mRNA" [] "G6236-MONOMER" -"G6237_RNA" "mRNA" [] "DXS-MONOMER" -"G6238_RNA" "mRNA" [] "THII-MONOMER" -"G6239_RNA" "mRNA" [] "2-DEHYDROPANTOATE-REDUCT-MONOMER" -"G6240_RNA" "mRNA" [] "G6240-MONOMER" -"G6241_RNA" "mRNA" [] "B0427-MONOMER" -"G6242_RNA" "mRNA" [] "G6242-MONOMER" -"G6243_RNA" "mRNA" [] "G6243-MONOMER" -"G6244_RNA" "mRNA" [] "G6244-MONOMER" -"G6245_RNA" "mRNA" [] "G6245-MONOMER" -"G6246_RNA" "mRNA" [] "G6246-MONOMER" -"G6247_RNA" "mRNA" [] "G6247-MONOMER" -"G6248_RNA" "mRNA" [] "MDLA-MONOMER" -"G6250_RNA" "mRNA" [] "G6250-MONOMER" -"G6251_RNA" "mRNA" [] "G6251-MONOMER" -"G6252_RNA" "mRNA" [] "G6252-MONOMER" -"G6253_RNA" "mRNA" [] "G6253-MONOMER" -"G6255_RNA" "mRNA" [] "G6255-MONOMER" -"G6256_RNA" "mRNA" [] "FSR-MONOMER" -"G6258_RNA" "mRNA" [] "G6258-MONOMER" -"G6259_RNA" "mRNA" [] "G6259-MONOMER" -"G6260_RNA" "mRNA" [] "G6260-MONOMER" -"G6261_RNA" "mRNA" [] "G6261-MONOMER" -"G6262_RNA" "mRNA" [] "B0486-MONOMER" -"G6263_RNA" "mRNA" [] "G6263-MONOMER" -"G6264_RNA" "mRNA" [] "G6264-MONOMER" -"G6265_RNA" "mRNA" [] "G6265-MONOMER" -"G6266_RNA" "mRNA" [] "YBBL-MONOMER" -"G6267_RNA" "mRNA" [] "G6267-MONOMER" -"G6268_RNA" "mRNA" [] "G6268-MONOMER" -"G6269_RNA" "mRNA" [] "G6269-MONOMER" -"G6270_RNA" "mRNA" [] "YBBP-MONOMER" -"G6271_RNA" "mRNA" [] "G6271-MONOMER" -"G6273_RNA" "mRNA" [] "G6273-MONOMER" -"G6274_RNA" "mRNA" [] "G6274-MONOMER" -"G6275_RNA" "mRNA" [] "G6275-MONOMER" -"G6276_RNA" "mRNA" [] "G6276-MONOMER" -"G6277_RNA" "mRNA" [] "G6277-MONOMER" -"G6278_RNA" "mRNA" [] "G6278-MONOMER" -"G6280_RNA" "mRNA" [] "B0511-MONOMER" -"G6281_RNA" "mRNA" [] "G6281-MONOMER" -"G6282_RNA" "mRNA" [] "G6282-MONOMER" -"G6283_RNA" "mRNA" [] "GLY3KIN-MONOMER" -"G6284_RNA" "mRNA" [] "G6284-MONOMER" -"G6285_RNA" "mRNA" [] "G6285-MONOMER" -"G6286_RNA" "mRNA" [] "G6286-MONOMER" -"G6287_RNA" "mRNA" [] "G6287-MONOMER" -"G6288_RNA" "mRNA" [] "G6288-MONOMER" -"G6289_RNA" "mRNA" [] "G6289-MONOMER" -"G6290_RNA" "mRNA" [] "G6290-MONOMER" -"G6291_RNA" "mRNA" [] "G6291-MONOMER" -"G6292_RNA" "mRNA" [] "G6292-MONOMER" -"G6293_RNA" "mRNA" [] "G6293-MONOMER" -"G6295_RNA" "mRNA" [] "G6295-MONOMER" -"G6296_RNA" "mRNA" [] "MONOMER0-4243" -"G6298_RNA" "mRNA" [] "G6298-MONOMER" -"G6300_RNA" "mRNA" [] "G6300-MONOMER" -"G6301_RNA" "mRNA" [] "G6301-MONOMER" -"G6302_RNA" "mRNA" [] "G6302-MONOMER" -"G6303_RNA" "mRNA" [] "G6303-MONOMER" -"G6304_RNA" "mRNA" [] "G6304-MONOMER" -"G6305_RNA" "mRNA" [] "G6305-MONOMER" -"G6306_RNA" "mRNA" [] "G6306-MONOMER" -"G6307_RNA" "mRNA" [] "G6307-MONOMER" -"G6308_RNA" "mRNA" [] "MONOMER0-4234" -"G6309_RNA" "mRNA" [] "G6309-MONOMER" -"G6310_RNA" "mRNA" [] "G6310-MONOMER" -"G6311_RNA" "mRNA" [] "G6311-MONOMER" -"G6312_RNA" "mRNA" [] "G6312-MONOMER" -"G6313_RNA" "mRNA" [] "G6313-MONOMER" -"G6314_RNA" "mRNA" [] "G6314-MONOMER" -"G6315_RNA" "mRNA" [] "G6315-MONOMER" -"G6316_RNA" "mRNA" [] "G6316-MONOMER" -"G6317_RNA" "mRNA" [] "G6317-MONOMER" -"G6318_RNA" "mRNA" [] "G6318-MONOMER" -"G6319_RNA" "mRNA" [] "G6319-MONOMER" -"G6320_RNA" "mRNA" [] "G6320-MONOMER" -"G6321_RNA" "mRNA" [] "G6321-MONOMER" -"G6322_RNA" "mRNA" [] "G6322-MONOMER" -"G6323_RNA" "mRNA" [] "G6323-MONOMER" -"G6324_RNA" "mRNA" [] "G6324-MONOMER" -"G6325_RNA" "mRNA" [] "G6325-MONOMER" -"G6326_RNA" "mRNA" [] "G6326-MONOMER" -"G6327_RNA" "mRNA" [] "MONOMER0-4232" -"G6329_RNA" "mRNA" [] "G6329-MONOMER" -"G6330_RNA" "mRNA" [] "G6330-MONOMER" -"G6331_RNA" "mRNA" [] "G6331-MONOMER" -"G6332_RNA" "mRNA" [] "G6332-MONOMER" -"G6333_RNA" "mRNA" [] "DSBG-MONOMER" -"G6334_RNA" "mRNA" [] "G6334-MONOMER" -"G6335_RNA" "mRNA" [] "G6335-MONOMER" -"G6337_RNA" "mRNA" [] "G6337-MONOMER" -"G6338_RNA" "mRNA" [] "B0612-MONOMER" -"G6339_RNA" "mRNA" [] "G6339-MONOMER" -"G6340_RNA" "mRNA" [] "G6340-MONOMER" -"G6341_RNA" "mRNA" [] "CITTRANS-MONOMER" -"G6342_RNA" "mRNA" [] "CITRYLY-MONOMER" -"G6343_RNA" "mRNA" [] "ACPSUB-MONOMER" -"G6344_RNA" "mRNA" [] "CITC-MONOMER" -"G6345_RNA" "mRNA" [] "G6345-MONOMER" -"G6346_RNA" "mRNA" [] "G6346-MONOMER" -"G6347_RNA" "mRNA" [] "DCUC-MONOMER" -"G6348_RNA" "mRNA" [] "G6348-MONOMER" -"G6349_RNA" "mRNA" [] "RIBAZOLEPHOSPHAT-MONOMER" -"G6350_RNA" "mRNA" [] "NICONUCADENYLYLTRAN-MONOMER" -"G6351_RNA" "mRNA" [] "G6351-MONOMER" -"G6352_RNA" "mRNA" [] "G6352-MONOMER" -"G6353_RNA" "mRNA" [] "G6353-MONOMER" -"G6354_RNA" "mRNA" [] "G6354-MONOMER" -"G6355_RNA" "mRNA" [] "G6355-MONOMER" -"G6356_RNA" "mRNA" [] "G6356-MONOMER" -"G6357_RNA" "mRNA" [] "G6357-MONOMER" -"G6358_RNA" "mRNA" [] "G6358-MONOMER" -"G6359_RNA" "mRNA" [] "G6359-MONOMER" -"G6360_RNA" "mRNA" [] "MONOMER0-4235" -"G6361_RNA" "mRNA" [] "G6361-MONOMER" -"G6362_RNA" "mRNA" [] "G6362-MONOMER" -"G6363_RNA" "mRNA" [] "G6363-MONOMER" -"G6364_RNA" "mRNA" [] "G6364-MONOMER" -"G6365_RNA" "mRNA" [] "OCTAPRENYL-METHYL-METHOXY-BENZOQ-OH-MON" -"G6370_RNA" "mRNA" [] "G6370-MONOMER" -"G6371_RNA" "mRNA" [] "G6371-MONOMER" -"G6374_RNA" "mRNA" [] "G6374-MONOMER" -"G6376_RNA" "mRNA" [] "G6376-MONOMER" -"G6377_RNA" "mRNA" [] "G6377-MONOMER" -"G6378_RNA" "mRNA" [] "B0709-MONOMER" -"G6379_RNA" "mRNA" [] "G6379-MONOMER" -"G6380_RNA" "mRNA" [] "G6380-MONOMER" -"G6381_RNA" "mRNA" [] "G6381-MONOMER" -"G6382_RNA" "mRNA" [] "G6382-MONOMER" -"G6383_RNA" "mRNA" [] "G6383-MONOMER" -"G6384_RNA" "mRNA" [] "G6384-MONOMER" -"G6385_RNA" "mRNA" [] "G6385-MONOMER" -"G6386_RNA" "mRNA" [] "G6386-MONOMER" -"G6387_RNA" "mRNA" [] "G6387-MONOMER" -"G6393_RNA" "mRNA" [] "B0752-MONOMER" -"G6394_RNA" "mRNA" [] "G6394-MONOMER" -"G6395_RNA" "mRNA" [] "MONOMER0-185" -"G6396_RNA" "mRNA" [] "G6396-MONOMER" -"G6397_RNA" "mRNA" [] "6PGLUCONOLACT-MONOMER" -"G6398_RNA" "mRNA" [] "G6398-MONOMER" -"G6399_RNA" "mRNA" [] "G6399-MONOMER" -"G6400_RNA" "mRNA" [] "B0770-MONOMER" -"G6401_RNA" "mRNA" [] "G6401-MONOMER" -"G6402_RNA" "mRNA" [] "G6402-MONOMER" -"G6403_RNA" "mRNA" [] "G6403-MONOMER" -"G6404_RNA" "mRNA" [] "G6404-MONOMER" -"G6405_RNA" "mRNA" [] "G6405-MONOMER" -"G6406_RNA" "mRNA" [] "G6406-MONOMER" -"G6407_RNA" "mRNA" [] "G6407-MONOMER" -"G6408_RNA" "mRNA" [] "G6408-MONOMER" -"G6409_RNA" "mRNA" [] "YBHR-MONOMER" -"G6410_RNA" "mRNA" [] "YBHS-MONOMER" -"G6411_RNA" "mRNA" [] "YBHF-MONOMER" -"G6412_RNA" "mRNA" [] "G6412-MONOMER" -"G6413_RNA" "mRNA" [] "G6413-MONOMER" -"G6414_RNA" "mRNA" [] "G6414-MONOMER" -"G6415_RNA" "mRNA" [] "G6415-MONOMER" -"G6416_RNA" "mRNA" [] "G6416-MONOMER" -"G6417_RNA" "mRNA" [] "G6417-MONOMER" -"G6418_RNA" "mRNA" [] "G6418-MONOMER" -"G6420_RNA" "mRNA" [] "G6420-MONOMER" -"G6421_RNA" "mRNA" [] "G6421-MONOMER" -"G6422_RNA" "mRNA" [] "G6422-MONOMER" -"G6423_RNA" "mRNA" [] "G6423-MONOMER" -"G6424_RNA" "mRNA" [] "G6424-MONOMER" -"G6425_RNA" "mRNA" [] "G6425-MONOMER" -"G6426_RNA" "mRNA" [] "G6426-MONOMER" -"G6427_RNA" "mRNA" [] "G6427-MONOMER" -"G6428_RNA" "mRNA" [] "G6428-MONOMER" -"G6429_RNA" "mRNA" [] "YLIA-MONOMER" -"G6430_RNA" "mRNA" [] "YLIB-MONOMER" -"G6431_RNA" "mRNA" [] "YLIC-MONOMER" -"G6432_RNA" "mRNA" [] "YLID-MONOMER" -"G6433_RNA" "mRNA" [] "G6433-MONOMER" -"G6434_RNA" "mRNA" [] "G6434-MONOMER" -"G6435_RNA" "mRNA" [] "G6435-MONOMER" -"G6436_RNA" "mRNA" [] "G6436-MONOMER" -"G6437_RNA" "mRNA" [] "G6437-MONOMER" -"G6438_RNA" "mRNA" [] "G6438-MONOMER" -"G6439_RNA" "mRNA" [] "G6439-MONOMER" -"G6440_RNA" "mRNA" [] "CMR-MONOMER" -"G6441_RNA" "mRNA" [] "G6441-MONOMER" -"G6442_RNA" "mRNA" [] "G6442-MONOMER" -"G6443_RNA" "mRNA" [] "G6443-MONOMER" -"G6444_RNA" "mRNA" [] "G6444-MONOMER" -"G6445_RNA" "mRNA" [] "G6445-MONOMER" -"G6446_RNA" "mRNA" [] "G6446-MONOMER" -"G6447_RNA" "mRNA" [] "G6447-MONOMER" -"G6448_RNA" "mRNA" [] "G6448-MONOMER" -"G6449_RNA" "mRNA" [] "G6449-MONOMER" -"G6450_RNA" "mRNA" [] "G6450-MONOMER" -"G6451_RNA" "mRNA" [] "G6451-MONOMER" -"G6452_RNA" "mRNA" [] "G6452-MONOMER" -"G6453_RNA" "mRNA" [] "G6453-MONOMER" -"G6454_RNA" "mRNA" [] "G6454-MONOMER" -"G6455_RNA" "mRNA" [] "LTAA-MONOMER" -"G6456_RNA" "mRNA" [] "G6456-MONOMER" -"G6457_RNA" "mRNA" [] "G6457-MONOMER" -"G6458_RNA" "mRNA" [] "G6458-MONOMER" -"G6459_RNA" "mRNA" [] "G6459-MONOMER" -"G6460_RNA" "mRNA" [] "G6460-MONOMER" -"G6461_RNA" "mRNA" [] "MACA" -"G6462_RNA" "mRNA" [] "MACB" -"G6463_RNA" "mRNA" [] "G6463-MONOMER" -"G6464_RNA" "mRNA" [] "G6464-MONOMER" -"G6465_RNA" "mRNA" [] "G6465-MONOMER" -"G6466_RNA" "mRNA" [] "YCAM" -"G6467_RNA" "mRNA" [] "G6467-MONOMER" -"G6468_RNA" "mRNA" [] "G6468-MONOMER" -"G6469_RNA" "mRNA" [] "G6469-MONOMER" -"G6470_RNA" "mRNA" [] "G6470-MONOMER" -"G6471_RNA" "mRNA" [] "G6471-MONOMER" -"G6472_RNA" "mRNA" [] "G6472-MONOMER" -"G6473_RNA" "mRNA" [] "G6473-MONOMER" -"G6474_RNA" "mRNA" [] "G6474-MONOMER" -"G6475_RNA" "mRNA" [] "G6475-MONOMER" -"G6476_RNA" "mRNA" [] "YCBM-MONOMER" -"G6477_RNA" "mRNA" [] "MONOMER-162" -"G6478_RNA" "mRNA" [] "G6478-MONOMER" -"G6479_RNA" "mRNA" [] "MONOMER0-146" -"G6480_RNA" "mRNA" [] "G6480-MONOMER" -"G6481_RNA" "mRNA" [] "G6481-MONOMER" -"G6482_RNA" "mRNA" [] "G6482-MONOMER" -"G6483_RNA" "mRNA" [] "G6483-MONOMER" -"G6484_RNA" "mRNA" [] "G6484-MONOMER" -"G6485_RNA" "mRNA" [] "G6485-MONOMER" -"G6486_RNA" "mRNA" [] "G6486-MONOMER" -"G6487_RNA" "mRNA" [] "G6487-MONOMER" -"G6488_RNA" "mRNA" [] "G6488-MONOMER" -"G6489_RNA" "mRNA" [] "UUP-MONOMER" -"G6490_RNA" "mRNA" [] "G6490-MONOMER" -"G6491_RNA" "mRNA" [] "G6491-MONOMER" -"G6492_RNA" "mRNA" [] "G6492-MONOMER" -"G6493_RNA" "mRNA" [] "G6493-MONOMER" -"G6494_RNA" "mRNA" [] "G6494-MONOMER" -"G6495_RNA" "mRNA" [] "G6495-MONOMER" -"G6496_RNA" "mRNA" [] "G6496-MONOMER" -"G6497_RNA" "mRNA" [] "METHGLYSYN-MONOMER" -"G6498_RNA" "mRNA" [] "G6498-MONOMER" -"G6499_RNA" "mRNA" [] "G6499-MONOMER" -"G6500_RNA" "mRNA" [] "G6500-MONOMER" -"G6501_RNA" "mRNA" [] "G6501-MONOMER" -"G6502_RNA" "mRNA" [] "G6502-MONOMER" -"G6503_RNA" "mRNA" [] "G6503-MONOMER" -"G6504_RNA" "mRNA" [] "G6504-MONOMER" -"G6505_RNA" "mRNA" [] "G6505-MONOMER" -"G6506_RNA" "mRNA" [] "G6506-MONOMER" -"G6507_RNA" "mRNA" [] "G6507-MONOMER" -"G6508_RNA" "mRNA" [] "G6508-MONOMER" -"G6509_RNA" "mRNA" [] "G6509-MONOMER" -"G6510_RNA" "mRNA" [] "G6510-MONOMER" -"G6511_RNA" "mRNA" [] "G6511-MONOMER" -"G6512_RNA" "mRNA" [] "G6512-MONOMER" -"G6513_RNA" "mRNA" [] "G6513-MONOMER" -"G6514_RNA" "mRNA" [] "TORS-MONOMER" -"G6515_RNA" "mRNA" [] "TORT-MONOMER" -"G6517_RNA" "mRNA" [] "B1006-MONOMER" -"G6518_RNA" "mRNA" [] "G6518-MONOMER" -"G6519_RNA" "mRNA" [] "G6519-MONOMER" -"G6520_RNA" "mRNA" [] "G6520-MONOMER" -"G6521_RNA" "mRNA" [] "G6521-MONOMER" -"G6522_RNA" "mRNA" [] "G6522-MONOMER" -"G6523_RNA" "mRNA" [] "G6523-MONOMER" -"G6525_RNA" "mRNA" [] "G6525-MONOMER" -"G6527_RNA" "mRNA" [] "G6527-MONOMER" -"G6528_RNA" "mRNA" [] "G6528-MONOMER" -"G6529_RNA" "mRNA" [] "G6529-MONOMER" -"G6530_RNA" "mRNA" [] "G6530-MONOMER" -"G6531_RNA" "mRNA" [] "G6531-MONOMER" -"G6532_RNA" "mRNA" [] "G6532-MONOMER" -"G6534_RNA" "mRNA" [] "MONOMER0-4244" -"G6535_RNA" "mRNA" [] "G6535-MONOMER" -"G6536_RNA" "mRNA" [] "G6536-MONOMER" -"G6539_RNA" "mRNA" [] "G6539-MONOMER" -"G6540_RNA" "mRNA" [] "G6540-MONOMER" -"G6541_RNA" "mRNA" [] "G6541-MONOMER" -"G6542_RNA" "mRNA" [] "G6542-MONOMER" -"G6543_RNA" "mRNA" [] "G6543-MONOMER" -"G6544_RNA" "mRNA" [] "G6544-MONOMER" -"G6545_RNA" "mRNA" [] "G6545-MONOMER" -"G6546_RNA" "mRNA" [] "PD01379" -"G6547_RNA" "mRNA" [] "G6547-MONOMER" -"G6548_RNA" "mRNA" [] "G6548-MONOMER" -"G6549_RNA" "mRNA" [] "G6549-MONOMER" -"G6550_RNA" "mRNA" [] "G6550-MONOMER" -"G6551_RNA" "mRNA" [] "G6551-MONOMER" -"G6552_RNA" "mRNA" [] "G6552-MONOMER" -"G6554_RNA" "mRNA" [] "G6554-MONOMER" -"G6555_RNA" "mRNA" [] "G6555-MONOMER" -"G6556_RNA" "mRNA" [] "SARCOX-MONOMER" -"G6557_RNA" "mRNA" [] "G6557-MONOMER" -"G6558_RNA" "mRNA" [] "G6558-MONOMER" -"G6559_RNA" "mRNA" [] "B1065-MONOMER" -"G6560_RNA" "mRNA" [] "G6560-MONOMER" -"G6561_RNA" "mRNA" [] "G6561-MONOMER" -"G6562_RNA" "mRNA" [] "G6562-MONOMER" -"G6563_RNA" "mRNA" [] "G6563-MONOMER" -"G6564_RNA" "mRNA" [] "G6564-MONOMER" -"G6565_RNA" "mRNA" [] "G6565-MONOMER" -"G6566_RNA" "mRNA" [] "THIKIN-MONOMER" -"G6567_RNA" "mRNA" [] "G6567-MONOMER" -"G6568_RNA" "mRNA" [] "G6568-MONOMER" -"G6569_RNA" "mRNA" [] "G6569-MONOMER" -"G6570_RNA" "mRNA" [] "G6570-MONOMER" -"G6571_RNA" "mRNA" [] "G6571-MONOMER" -"G6572_RNA" "mRNA" [] "G6572-MONOMER" -"G6573_RNA" "mRNA" [] "YCFU-MONOMER" -"G6574_RNA" "mRNA" [] "YCFV-MONOMER" -"G6575_RNA" "mRNA" [] "YCFW-MONOMER" -"G6576_RNA" "mRNA" [] "G6576-MONOMER" -"G6577_RNA" "mRNA" [] "G6577-MONOMER" -"G6578_RNA" "mRNA" [] "G6578-MONOMER" -"G6579_RNA" "mRNA" [] "G6579-MONOMER" -"G6580_RNA" "mRNA" [] "G6580-MONOMER" -"G6581_RNA" "mRNA" [] "G6581-MONOMER" -"G6582_RNA" "mRNA" [] "G6582-MONOMER" -"G6583_RNA" "mRNA" [] "G6583-MONOMER" -"G6585_RNA" "mRNA" [] "G6585-MONOMER" -"G6586_RNA" "mRNA" [] "G6586-MONOMER" -"G6587_RNA" "mRNA" [] "G6587-MONOMER" -"G6588_RNA" "mRNA" [] "G6588-MONOMER" -"G6589_RNA" "mRNA" [] "G6589-MONOMER" -"G6590_RNA" "mRNA" [] "G6590-MONOMER" -"G6591_RNA" "mRNA" [] "G6591-MONOMER" -"G6592_RNA" "mRNA" [] "G6592-MONOMER" -"G6593_RNA" "mRNA" [] "G6593-MONOMER" -"G6594_RNA" "mRNA" [] "G6594-MONOMER" -"G6595_RNA" "mRNA" [] "G6595-MONOMER" -"G6596_RNA" "mRNA" [] "G6596-MONOMER" -"G6597_RNA" "mRNA" [] "G6597-MONOMER" -"G6598_RNA" "mRNA" [] "G6598-MONOMER" -"G6599_RNA" "mRNA" [] "G6599-MONOMER" -"G6600_RNA" "mRNA" [] "G6600-MONOMER" -"G6601_RNA" "mRNA" [] "G6601-MONOMER" -"G6602_RNA" "mRNA" [] "G6602-MONOMER" -"G6603_RNA" "mRNA" [] "G6603-MONOMER" -"G6604_RNA" "mRNA" [] "G6604-MONOMER" -"G6605_RNA" "mRNA" [] "G6605-MONOMER" -"G6606_RNA" "mRNA" [] "G6606-MONOMER" -"G6607_RNA" "mRNA" [] "G6607-MONOMER" -"G6608_RNA" "mRNA" [] "G6608-MONOMER" -"G6609_RNA" "mRNA" [] "G6609-MONOMER" -"G6610_RNA" "mRNA" [] "G6610-MONOMER" -"G6611_RNA" "mRNA" [] "G6611-MONOMER" -"G6612_RNA" "mRNA" [] "G6612-MONOMER" -"G6613_RNA" "mRNA" [] "G6613-MONOMER" -"G6614_RNA" "mRNA" [] "G6614-MONOMER" -"G6615_RNA" "mRNA" [] "G6615-MONOMER" -"G6616_RNA" "mRNA" [] "G6616-MONOMER" -"G6617_RNA" "mRNA" [] "G6617-MONOMER" -"G6618_RNA" "mRNA" [] "G6618-MONOMER" -"G6619_RNA" "mRNA" [] "G6619-MONOMER" -"G6620_RNA" "mRNA" [] "YCGO-MONOMER" -"G6621_RNA" "mRNA" [] "G6621-MONOMER" -"G6622_RNA" "mRNA" [] "G6622-MONOMER" -"G6623_RNA" "mRNA" [] "G6623-MONOMER" -"G6624_RNA" "mRNA" [] "G6624-MONOMER" -"G6625_RNA" "mRNA" [] "G6625-MONOMER" -"G6626_RNA" "mRNA" [] "MONOMER0-1261" -"G6627_RNA" "mRNA" [] "G6627-MONOMER" -"G6628_RNA" "mRNA" [] "G6628-MONOMER" -"G6629_RNA" "mRNA" [] "G6629-MONOMER" -"G6630_RNA" "mRNA" [] "G6630-MONOMER" -"G6631_RNA" "mRNA" [] "G6631-MONOMER" -"G6632_RNA" "mRNA" [] "G6632-MONOMER" -"G6633_RNA" "mRNA" [] "G6633-MONOMER" -"G6634_RNA" "mRNA" [] "G6634-MONOMER" -"G6635_RNA" "mRNA" [] "G6635-MONOMER" -"G6636_RNA" "mRNA" [] "G6636-MONOMER" -"G6637_RNA" "mRNA" [] "G6637-MONOMER" -"G6638_RNA" "mRNA" [] "G6638-MONOMER" -"G6639_RNA" "mRNA" [] "G6639-MONOMER" -"G6640_RNA" "mRNA" [] "G6640-MONOMER" -"G6641_RNA" "mRNA" [] "G6641-MONOMER" -"G6642_RNA" "mRNA" [] "G6642-MONOMER" -"G6643_RNA" "mRNA" [] "B1296-MONOMER" -"G6644_RNA" "mRNA" [] "G6644-MONOMER" -"G6645_RNA" "mRNA" [] "G6645-MONOMER" -"G6646_RNA" "mRNA" [] "G6646-MONOMER" -"G6647_RNA" "mRNA" [] "G6647-MONOMER" -"G6648_RNA" "mRNA" [] "YCJN-MONOMER" -"G6649_RNA" "mRNA" [] "YCJO-MONOMER" -"G6650_RNA" "mRNA" [] "YCJP-MONOMER" -"G6651_RNA" "mRNA" [] "G6651-MONOMER" -"G6652_RNA" "mRNA" [] "G6652-MONOMER" -"G6653_RNA" "mRNA" [] "G6653-MONOMER" -"G6654_RNA" "mRNA" [] "G6654-MONOMER" -"G6655_RNA" "mRNA" [] "G6655-MONOMER" -"G6656_RNA" "mRNA" [] "YCJV-MONOMER" -"G6657_RNA" "mRNA" [] "G6657-MONOMER" -"G6658_RNA" "mRNA" [] "G6658-MONOMER" -"G6659_RNA" "mRNA" [] "G6659-MONOMER" -"G6660_RNA" "mRNA" [] "G6660-MONOMER" -"G6661_RNA" "mRNA" [] "G6661-MONOMER" -"G6662_RNA" "mRNA" [] "G6662-MONOMER" -"G6663_RNA" "mRNA" [] "G6663-MONOMER" -"G6664_RNA" "mRNA" [] "G6664-MONOMER" -"G6665_RNA" "mRNA" [] "G6665-MONOMER" -"G6666_RNA" "mRNA" [] "MONOMER0-82" -"G6667_RNA" "mRNA" [] "MONOMER0-4236" -"G6668_RNA" "mRNA" [] "G6668-MONOMER" -"G6669_RNA" "mRNA" [] "G6669-MONOMER" -"G6670_RNA" "mRNA" [] "G6670-MONOMER" -"G6671_RNA" "mRNA" [] "G6671-MONOMER" -"G6672_RNA" "mRNA" [] "G6672-MONOMER" -"G6673_RNA" "mRNA" [] "G6673-MONOMER" -"G6674_RNA" "mRNA" [] "G6674-MONOMER" -"G6675_RNA" "mRNA" [] "G6675-MONOMER" -"G6676_RNA" "mRNA" [] "G6676-MONOMER" -"G6677_RNA" "mRNA" [] "G6677-MONOMER" -"G6679_RNA" "mRNA" [] "G6679-MONOMER" -"G6680_RNA" "mRNA" [] "G6680-MONOMER" -"G6681_RNA" "mRNA" [] "G6681-MONOMER" -"G6682_RNA" "mRNA" [] "G6682-MONOMER" -"G6683_RNA" "mRNA" [] "G6683-MONOMER" -"G6684_RNA" "mRNA" [] "G6684-MONOMER" -"G6685_RNA" "mRNA" [] "G6685-MONOMER" -"G6686_RNA" "mRNA" [] "G6686-MONOMER" -"G6688_RNA" "mRNA" [] "G6688-MONOMER" -"G6689_RNA" "mRNA" [] "G6689-MONOMER" -"G6691_RNA" "mRNA" [] "G6691-MONOMER" -"G6692_RNA" "mRNA" [] "G6692-MONOMER" -"G6693_RNA" "mRNA" [] "G6693-MONOMER" -"G6694_RNA" "mRNA" [] "G6694-MONOMER" -"G6695_RNA" "mRNA" [] "G6695-MONOMER" -"G6696_RNA" "mRNA" [] "G6696-MONOMER" -"G6697_RNA" "mRNA" [] "G6697-MONOMER" -"G6698_RNA" "mRNA" [] "G6698-MONOMER" -"G6699_RNA" "mRNA" [] "G6699-MONOMER" -"G6700_RNA" "mRNA" [] "G6700-MONOMER" -"G6701_RNA" "mRNA" [] "G6701-MONOMER" -"G6702_RNA" "mRNA" [] "G6702-MONOMER" -"G6703_RNA" "mRNA" [] "G6703-MONOMER" -"G6704_RNA" "mRNA" [] "G6704-MONOMER" -"G6705_RNA" "mRNA" [] "G6705-MONOMER" -"G6706_RNA" "mRNA" [] "G6706-MONOMER" -"G6708_RNA" "mRNA" [] "G6708-MONOMER" -"G6709_RNA" "mRNA" [] "G6709-MONOMER" -"G6710_RNA" "mRNA" [] "G6710-MONOMER" -"G6711_RNA" "mRNA" [] "G6711-MONOMER" -"G6712_RNA" "mRNA" [] "G6712-MONOMER" -"G6713_RNA" "mRNA" [] "G6713-MONOMER" -"G6714_RNA" "mRNA" [] "G6714-MONOMER" -"G6715_RNA" "mRNA" [] "G6715-MONOMER" -"G6716_RNA" "mRNA" [] "G6716-MONOMER" -"G6717_RNA" "mRNA" [] "G6717-MONOMER" -"G6718_RNA" "mRNA" [] "G6718-MONOMER" -"G6719_RNA" "mRNA" [] "G6719-MONOMER" -"G6720_RNA" "mRNA" [] "G6720-MONOMER" -"G6721_RNA" "mRNA" [] "G6721-MONOMER" -"G6722_RNA" "mRNA" [] "G6722-MONOMER" -"G6724_RNA" "mRNA" [] "MONOMER0-4250" -"G6725_RNA" "mRNA" [] "G6725-MONOMER" -"G6727_RNA" "mRNA" [] "G6727-MONOMER" -"G6728_RNA" "mRNA" [] "G6728-MONOMER" -"G6729_RNA" "mRNA" [] "G6729-MONOMER" -"G6730_RNA" "mRNA" [] "G6730-MONOMER" -"G6731_RNA" "mRNA" [] "G6731-MONOMER" -"G6732_RNA" "mRNA" [] "G6732-MONOMER" -"G6736_RNA" "mRNA" [] "G6736-MONOMER" -"G6737_RNA" "mRNA" [] "G6737-MONOMER" -"G6738_RNA" "mRNA" [] "G6738-MONOMER" -"G6741_RNA" "mRNA" [] "G6741-MONOMER" -"G6742_RNA" "mRNA" [] "G6742-MONOMER" -"G6743_RNA" "mRNA" [] "G6743-MONOMER" -"G6744_RNA" "mRNA" [] "B1433-MONOMER" -"G6745_RNA" "mRNA" [] "G6745-MONOMER" -"G6746_RNA" "mRNA" [] "G6746-MONOMER" -"G6747_RNA" "mRNA" [] "G6747-MONOMER" -"G6749_RNA" "mRNA" [] "G6749-MONOMER" -"G6750_RNA" "mRNA" [] "G6750-MONOMER" -"G6751_RNA" "mRNA" [] "YDCS-MONOMER" -"G6752_RNA" "mRNA" [] "YDCT-MONOMER" -"G6753_RNA" "mRNA" [] "YDCU-MONOMER" -"G6754_RNA" "mRNA" [] "YDCV-MONOMER" -"G6755_RNA" "mRNA" [] "G6755-MONOMER" -"G6756_RNA" "mRNA" [] "G6756-MONOMER" -"G6757_RNA" "mRNA" [] "G6757-MONOMER" -"G6758_RNA" "mRNA" [] "G6758-MONOMER" -"G6759_RNA" "mRNA" [] "G6759-MONOMER" -"G6760_RNA" "mRNA" [] "G6760-MONOMER" -"G6761_RNA" "mRNA" [] "G6761-MONOMER" -"G6762_RNA" "mRNA" [] "G6762-MONOMER" -"G6763_RNA" "mRNA" [] "G6763-MONOMER" -"G6764_RNA" "mRNA" [] "ANSP-MONOMER" -"G6765_RNA" "mRNA" [] "G6765-MONOMER" -"G6766_RNA" "mRNA" [] "G6766-MONOMER" -"G6767_RNA" "mRNA" [] "G6767-MONOMER" -"G6768_RNA" "mRNA" [] "G6768-MONOMER" -"G6769_RNA" "mRNA" [] "G6769-MONOMER" -"G6770_RNA" "mRNA" [] "G6770-MONOMER" -"G6771_RNA" "mRNA" [] "G6771-MONOMER" -"G6772_RNA" "mRNA" [] "G6772-MONOMER" -"G6773_RNA" "mRNA" [] "G6773-MONOMER" -"G6774_RNA" "mRNA" [] "G6774-MONOMER" -"G6775_RNA" "mRNA" [] "ADHP-MONOMER" -"G6776_RNA" "mRNA" [] "G6776-MONOMER" -"G6777_RNA" "mRNA" [] "YDDO-MONOMER" -"G6778_RNA" "mRNA" [] "YDDP-MONOMER" -"G6779_RNA" "mRNA" [] "YDDQ-MONOMER" -"G6780_RNA" "mRNA" [] "YDDR-MONOMER" -"G6781_RNA" "mRNA" [] "YDDS-MONOMER" -"G6782_RNA" "mRNA" [] "G6782-MONOMER" -"G6783_RNA" "mRNA" [] "G6783-MONOMER" -"G6784_RNA" "mRNA" [] "G6784-MONOMER" -"G6785_RNA" "mRNA" [] "G6785-MONOMER" -"G6786_RNA" "mRNA" [] "XASA-MONOMER" -"G6787_RNA" "mRNA" [] "G6787-MONOMER" -"G6788_RNA" "mRNA" [] "G6788-MONOMER" -"G6789_RNA" "mRNA" [] "G6789-MONOMER" -"G6790_RNA" "mRNA" [] "MONOMER0-2841" -"G6791_RNA" "mRNA" [] "G6791-MONOMER" -"G6792_RNA" "mRNA" [] "G6792-MONOMER" -"G6793_RNA" "mRNA" [] "G6793-MONOMER" -"G6794_RNA" "mRNA" [] "G6794-MONOMER" -"G6795_RNA" "mRNA" [] "G6795-MONOMER" -"G6796_RNA" "mRNA" [] "G6796-MONOMER" -"G6797_RNA" "mRNA" [] "G6797-MONOMER" -"G6798_RNA" "mRNA" [] "G6798-MONOMER" -"G6799_RNA" "mRNA" [] "G6799-MONOMER" -"G6800_RNA" "mRNA" [] "YDEX-MONOMER" -"G6801_RNA" "mRNA" [] "YDEY-MONOMER" -"G6802_RNA" "mRNA" [] "YDEZ-MONOMER" -"G6803_RNA" "mRNA" [] "YNEA-MONOMER" -"G6804_RNA" "mRNA" [] "G6804-MONOMER" -"G6805_RNA" "mRNA" [] "G6805-MONOMER" -"G6806_RNA" "mRNA" [] "G6806-MONOMER" -"G6807_RNA" "mRNA" [] "G6807-MONOMER" -"G6808_RNA" "mRNA" [] "G6808-MONOMER" -"G6809_RNA" "mRNA" [] "G6809-MONOMER" -"G6810_RNA" "mRNA" [] "G6810-MONOMER" -"G6811_RNA" "mRNA" [] "G6811-MONOMER" -"G6812_RNA" "mRNA" [] "G6812-MONOMER" -"G6813_RNA" "mRNA" [] "G6813-MONOMER" -"G6814_RNA" "mRNA" [] "G6814-MONOMER" -"G6815_RNA" "mRNA" [] "G6815-MONOMER" -"G6816_RNA" "mRNA" [] "G6816-MONOMER" -"G6817_RNA" "mRNA" [] "B1543-MONOMER" -"G6818_RNA" "mRNA" [] "G6818-MONOMER" -"G6819_RNA" "mRNA" [] "G6819-MONOMER" -"G6820_RNA" "mRNA" [] "G6820-MONOMER" -"G6821_RNA" "mRNA" [] "G6821-MONOMER" -"G6822_RNA" "mRNA" [] "G6822-MONOMER" -"G6823_RNA" "mRNA" [] "G6823-MONOMER" -"G6824_RNA" "mRNA" [] "G6824-MONOMER" -"G6825_RNA" "mRNA" [] "G6825-MONOMER" -"G6826_RNA" "mRNA" [] "G6826-MONOMER" -"G6827_RNA" "mRNA" [] "G6827-MONOMER" -"G6828_RNA" "mRNA" [] "G6828-MONOMER" -"G6829_RNA" "mRNA" [] "G6829-MONOMER" -"G6830_RNA" "mRNA" [] "G6830-MONOMER" -"G6831_RNA" "mRNA" [] "G6831-MONOMER" -"G6832_RNA" "mRNA" [] "G6832-MONOMER" -"G6833_RNA" "mRNA" [] "G6833-MONOMER" -"G6834_RNA" "mRNA" [] "G6834-MONOMER" -"G6835_RNA" "mRNA" [] "G6835-MONOMER" -"G6836_RNA" "mRNA" [] "G6836-MONOMER" -"G6837_RNA" "mRNA" [] "G6837-MONOMER" -"G6838_RNA" "mRNA" [] "G6838-MONOMER" -"G6839_RNA" "mRNA" [] "G6839-MONOMER" -"G6840_RNA" "mRNA" [] "G6840-MONOMER" -"G6841_RNA" "mRNA" [] "G6841-MONOMER" -"G6842_RNA" "mRNA" [] "SPERMACTRAN-MONOMER" -"G6843_RNA" "mRNA" [] "G6843-MONOMER" -"G6844_RNA" "mRNA" [] "G6844-MONOMER" -"G6845_RNA" "mRNA" [] "G6845-MONOMER" -"G6846_RNA" "mRNA" [] "G6846-MONOMER" -"G6847_RNA" "mRNA" [] "G6847-MONOMER" -"G6848_RNA" "mRNA" [] "G6848-MONOMER" -"G6849_RNA" "mRNA" [] "G6849-MONOMER" -"G6850_RNA" "mRNA" [] "YNFJ-MONOMER" -"G6851_RNA" "mRNA" [] "G6851-MONOMER" -"G6852_RNA" "mRNA" [] "PD01896" -"G6853_RNA" "mRNA" [] "G6853-MONOMER" -"G6854_RNA" "mRNA" [] "B1596-MONOMER" -"G6855_RNA" "mRNA" [] "G6855-MONOMER" -"G6856_RNA" "mRNA" [] "G6856-MONOMER" -"G6857_RNA" "mRNA" [] "B1599-MONOMER" -"G6858_RNA" "mRNA" [] "B1600-MONOMER" -"G6859_RNA" "mRNA" [] "G6859-MONOMER" -"G6860_RNA" "mRNA" [] "G6860-MONOMER" -"G6861_RNA" "mRNA" [] "ARCD-MONOMER" -"G6862_RNA" "mRNA" [] "G6862-MONOMER" -"G6863_RNA" "mRNA" [] "G6863-MONOMER" -"G6864_RNA" "mRNA" [] "RSTA-MONOMER" -"G6865_RNA" "mRNA" [] "G6865-MONOMER" -"G6866_RNA" "mRNA" [] "G6866-MONOMER" -"G6867_RNA" "mRNA" [] "G6867-MONOMER" -"G6868_RNA" "mRNA" [] "G6868-MONOMER" -"G6869_RNA" "mRNA" [] "G6869-MONOMER" -"G6870_RNA" "mRNA" [] "G6870-MONOMER" -"G6871_RNA" "mRNA" [] "G6871-MONOMER" -"G6872_RNA" "mRNA" [] "G6872-MONOMER" -"G6873_RNA" "mRNA" [] "G6873-MONOMER" -"G6874_RNA" "mRNA" [] "G6874-MONOMER" -"G6875_RNA" "mRNA" [] "G6875-MONOMER" -"G6876_RNA" "mRNA" [] "G6876-MONOMER" -"G6877_RNA" "mRNA" [] "B1634-MONOMER" -"G6878_RNA" "mRNA" [] "GST-MONOMER" -"G6879_RNA" "mRNA" [] "PDXY-MONOMER" -"G6880_RNA" "mRNA" [] "G6880-MONOMER" -"G6881_RNA" "mRNA" [] "G6881-MONOMER" -"G6882_RNA" "mRNA" [] "G6882-MONOMER" -"G6883_RNA" "mRNA" [] "G6883-MONOMER" -"G6884_RNA" "mRNA" [] "G6884-MONOMER" -"G6885_RNA" "mRNA" [] "G6885-MONOMER" -"G6886_RNA" "mRNA" [] "G6886-MONOMER" -"G6887_RNA" "mRNA" [] "G6887-MONOMER" -"G6888_RNA" "mRNA" [] "G6888-MONOMER" -"G6889_RNA" "mRNA" [] "G6889-MONOMER" -"G6890_RNA" "mRNA" [] "G6890-MONOMER" -"G6891_RNA" "mRNA" [] "GLYOXI-MONOMER" -"G6892_RNA" "mRNA" [] "G6892-MONOMER" -"G6893_RNA" "mRNA" [] "B1657-MONOMER" -"G6894_RNA" "mRNA" [] "G6894-MONOMER" -"G6895_RNA" "mRNA" [] "G6895-MONOMER" -"G6896_RNA" "mRNA" [] "G6896-MONOMER" -"G6897_RNA" "mRNA" [] "G6897-MONOMER" -"G6898_RNA" "mRNA" [] "G6898-MONOMER" -"G6899_RNA" "mRNA" [] "G6899-MONOMER" -"G6900_RNA" "mRNA" [] "G6900-MONOMER" -"G6901_RNA" "mRNA" [] "G6901-MONOMER" -"G6902_RNA" "mRNA" [] "G6902-MONOMER" -"G6903_RNA" "mRNA" [] "G6903-MONOMER" -"G6904_RNA" "mRNA" [] "G6904-MONOMER" -"G6905_RNA" "mRNA" [] "G6905-MONOMER" -"G6906_RNA" "mRNA" [] "G6906-MONOMER" -"G6907_RNA" "mRNA" [] "G6907-MONOMER" -"G6908_RNA" "mRNA" [] "G6908-MONOMER" -"G6909_RNA" "mRNA" [] "G6909-MONOMER" -"G6911_RNA" "mRNA" [] "G6911-MONOMER" -"G6912_RNA" "mRNA" [] "G6912-MONOMER" -"G6913_RNA" "mRNA" [] "G6913-MONOMER" -"G6914_RNA" "mRNA" [] "G6914-MONOMER" -"G6915_RNA" "mRNA" [] "G6915-MONOMER" -"G6916_RNA" "mRNA" [] "B1690-MONOMER" -"G6917_RNA" "mRNA" [] "B1691-MONOMER" -"G6918_RNA" "mRNA" [] "G6918-MONOMER" -"G6919_RNA" "mRNA" [] "G6919-MONOMER" -"G6920_RNA" "mRNA" [] "G6920-MONOMER" -"G6921_RNA" "mRNA" [] "G6921-MONOMER" -"G6922_RNA" "mRNA" [] "G6922-MONOMER" -"G6923_RNA" "mRNA" [] "G6923-MONOMER" -"G6924_RNA" "mRNA" [] "G6924-MONOMER" -"G6925_RNA" "mRNA" [] "G6925-MONOMER" -"G6926_RNA" "mRNA" [] "G6926-MONOMER" -"G6927_RNA" "mRNA" [] "G6927-MONOMER" -"G6928_RNA" "mRNA" [] "G6928-MONOMER" -"G6929_RNA" "mRNA" [] "G6929-MONOMER" -"G6930_RNA" "mRNA" [] "G6930-MONOMER" -"G6931_RNA" "mRNA" [] "G6931-MONOMER" -"G6932_RNA" "mRNA" [] "G6932-MONOMER" -"G6933_RNA" "mRNA" [] "G6933-MONOMER" -"G6934_RNA" "mRNA" [] "G6934-MONOMER" -"G6935_RNA" "mRNA" [] "G6935-MONOMER" -"G6936_RNA" "mRNA" [] "G6936-MONOMER" -"G6937_RNA" "mRNA" [] "G6937-MONOMER" -"G6938_RNA" "mRNA" [] "G6938-MONOMER" -"G6939_RNA" "mRNA" [] "G6939-MONOMER" -"G6940_RNA" "mRNA" [] "SUCCGLUDESUCC-MONOMER" -"G6941_RNA" "mRNA" [] "SUCCARGDIHYDRO-MONOMER" -"G6942_RNA" "mRNA" [] "SUCCGLUALDDEHYD-MONOMER" -"G6943_RNA" "mRNA" [] "ARGSUCCTRAN-MONOMER" -"G6944_RNA" "mRNA" [] "SUCCORNTRANSAM-MONOMER" -"G6945_RNA" "mRNA" [] "G6945-MONOMER" -"G6946_RNA" "mRNA" [] "G6946-MONOMER" -"G6947_RNA" "mRNA" [] "G6947-MONOMER" -"G6948_RNA" "mRNA" [] "G6948-MONOMER" -"G6949_RNA" "mRNA" [] "G6949-MONOMER" -"G6950_RNA" "mRNA" [] "YNJC-MONOMER" -"G6951_RNA" "mRNA" [] "YNJD-MONOMER" -"G6952_RNA" "mRNA" [] "G6952-MONOMER" -"G6953_RNA" "mRNA" [] "G6953-MONOMER" -"G6954_RNA" "mRNA" [] "G6954-MONOMER" -"G6955_RNA" "mRNA" [] "G6955-MONOMER" -"G6956_RNA" "mRNA" [] "G6956-MONOMER" -"G6957_RNA" "mRNA" [] "G6957-MONOMER" -"G6958_RNA" "mRNA" [] "G6958-MONOMER" -"G6959_RNA" "mRNA" [] "G6959-MONOMER" -"G6960_RNA" "mRNA" [] "G6960-MONOMER" -"G6961_RNA" "mRNA" [] "G6961-MONOMER" -"G6962_RNA" "mRNA" [] "B1775-MONOMER" -"G6963_RNA" "mRNA" [] "G6963-MONOMER" -"G6964_RNA" "mRNA" [] "G6964-MONOMER" -"G6966_RNA" "mRNA" [] "G6966-MONOMER" -"G6967_RNA" "mRNA" [] "G6967-MONOMER" -"G6968_RNA" "mRNA" [] "G6968-MONOMER" -"G6969_RNA" "mRNA" [] "G6969-MONOMER" -"G6970_RNA" "mRNA" [] "G6970-MONOMER" -"G6971_RNA" "mRNA" [] "G6971-MONOMER" -"G6972_RNA" "mRNA" [] "G6972-MONOMER" -"G6973_RNA" "mRNA" [] "G6973-MONOMER" -"G6974_RNA" "mRNA" [] "G6974-MONOMER" -"G6975_RNA" "mRNA" [] "G6975-MONOMER" -"G6976_RNA" "mRNA" [] "G6976-MONOMER" -"G6977_RNA" "mRNA" [] "B1791-MONOMER" -"G6978_RNA" "mRNA" [] "G6978-MONOMER" -"G6979_RNA" "mRNA" [] "G6979-MONOMER" -"G6980_RNA" "mRNA" [] "G6980-MONOMER" -"G6981_RNA" "mRNA" [] "G6981-MONOMER" -"G6982_RNA" "mRNA" [] "G6982-MONOMER" -"G6983_RNA" "mRNA" [] "G6983-MONOMER" -"G6984_RNA" "mRNA" [] "G6984-MONOMER" -"G6985_RNA" "mRNA" [] "G6985-MONOMER" -"G6986_RNA" "mRNA" [] "G6986-MONOMER" -"G6987_RNA" "mRNA" [] "YEAV-MONOMER" -"G6988_RNA" "mRNA" [] "G6988-MONOMER" -"G6989_RNA" "mRNA" [] "G6989-MONOMER" -"G6990_RNA" "mRNA" [] "G6990-MONOMER" -"G6991_RNA" "mRNA" [] "G6991-MONOMER" -"G6992_RNA" "mRNA" [] "G6992-MONOMER" -"G6993_RNA" "mRNA" [] "G6993-MONOMER" -"G6994_RNA" "mRNA" [] "G6994-MONOMER" -"G6995_RNA" "mRNA" [] "G6995-MONOMER" -"G6996_RNA" "mRNA" [] "G6996-MONOMER" -"G6997_RNA" "mRNA" [] "G6997-MONOMER" -"G6998_RNA" "mRNA" [] "G6998-MONOMER" -"G6999_RNA" "mRNA" [] "G6999-MONOMER" -"G7000_RNA" "mRNA" [] "G7000-MONOMER" -"G7001_RNA" "mRNA" [] "G7001-MONOMER" -"G7002_RNA" "mRNA" [] "G7002-MONOMER" -"G7003_RNA" "mRNA" [] "G7003-MONOMER" -"G7004_RNA" "mRNA" [] "B1828-MONOMER" -"G7005_RNA" "mRNA" [] "G7005-MONOMER" -"G7006_RNA" "mRNA" [] "G7006-MONOMER" -"G7007_RNA" "mRNA" [] "G7007-MONOMER" -"G7008_RNA" "mRNA" [] "G7008-MONOMER" -"G7009_RNA" "mRNA" [] "G7009-MONOMER" -"G7010_RNA" "mRNA" [] "G7010-MONOMER" -"G7011_RNA" "mRNA" [] "G7011-MONOMER" -"G7012_RNA" "mRNA" [] "G7012-MONOMER" -"G7013_RNA" "mRNA" [] "G7013-MONOMER" -"G7014_RNA" "mRNA" [] "G7014-MONOMER" -"G7015_RNA" "mRNA" [] "G7015-MONOMER" -"G7016_RNA" "mRNA" [] "G7016-MONOMER" -"G7017_RNA" "mRNA" [] "ZNUA-MONOMER" -"G7018_RNA" "mRNA" [] "ZNUC-MONOMER" -"G7019_RNA" "mRNA" [] "G7019-MONOMER" -"G7020_RNA" "mRNA" [] "G7020-MONOMER" -"G7021_RNA" "mRNA" [] "G7021-MONOMER" -"G7022_RNA" "mRNA" [] "G7022-MONOMER" -"G7023_RNA" "mRNA" [] "G7023-MONOMER" -"G7024_RNA" "mRNA" [] "G7024-MONOMER" -"G7025_RNA" "mRNA" [] "G7025-MONOMER" -"G7026_RNA" "mRNA" [] "G7026-MONOMER" -"G7027_RNA" "mRNA" [] "G7027-MONOMER" -"G7028_RNA" "mRNA" [] "G7028-MONOMER" -"G7030_RNA" "mRNA" [] "MONOMER0-4225" -"G7031_RNA" "mRNA" [] "G7031-MONOMER" -"G7033_RNA" "mRNA" [] "G7033-MONOMER" -"G7035_RNA" "mRNA" [] "G7035-MONOMER" -"G7036_RNA" "mRNA" [] "G7036-MONOMER" -"G7037_RNA" "mRNA" [] "G7037-MONOMER" -"G7038_RNA" "mRNA" [] "DCYSDESULF-MONOMER" -"G7039_RNA" "mRNA" [] "G7039-MONOMER" -"G7040_RNA" "mRNA" [] "G7040-MONOMER" -"G7041_RNA" "mRNA" [] "G7041-MONOMER" -"G7042_RNA" "mRNA" [] "G7042-MONOMER" -"G7043_RNA" "mRNA" [] "G7043-MONOMER" -"G7044_RNA" "mRNA" [] "G7044-MONOMER" -"G7045_RNA" "mRNA" [] "G7045-MONOMER" -"G7046_RNA" "mRNA" [] "G7046-MONOMER" -"G7048_RNA" "mRNA" [] "G7048-MONOMER" -"G7049_RNA" "mRNA" [] "G7049-MONOMER" -"G7050_RNA" "mRNA" [] "G7050-MONOMER" -"G7051_RNA" "mRNA" [] "G7051-MONOMER" -"G7052_RNA" "mRNA" [] "G7052-MONOMER" -"G7053_RNA" "mRNA" [] "G7053-MONOMER" -"G7054_RNA" "mRNA" [] "G7054-MONOMER" -"G7055_RNA" "mRNA" [] "G7055-MONOMER" -"G7056_RNA" "mRNA" [] "G7056-MONOMER" -"G7057_RNA" "mRNA" [] "G7057-MONOMER" -"G7058_RNA" "mRNA" [] "G7058-MONOMER" -"G7059_RNA" "mRNA" [] "G7059-MONOMER" -"G7060_RNA" "mRNA" [] "G7060-MONOMER" -"G7061_RNA" "mRNA" [] "G7061-MONOMER" -"G7062_RNA" "mRNA" [] "G7062-MONOMER" -"G7063_RNA" "mRNA" [] "G7063-MONOMER" -"G7064_RNA" "mRNA" [] "G7064-MONOMER" -"G7065_RNA" "mRNA" [] "G7065-MONOMER" -"G7066_RNA" "mRNA" [] "G7066-MONOMER" -"G7067_RNA" "mRNA" [] "SHIA-MONOMER" -"G7068_RNA" "mRNA" [] "G7068-MONOMER" -"G7070_RNA" "mRNA" [] "YEEO-MONOMER" -"G7071_RNA" "mRNA" [] "G7071-MONOMER" -"G7072_RNA" "mRNA" [] "G7072-MONOMER" -"G7073_RNA" "mRNA" [] "G7073-MONOMER" -"G7074_RNA" "mRNA" [] "G7074-MONOMER" -"G7075_RNA" "mRNA" [] "G7075-MONOMER" -"G7077_RNA" "mRNA" [] "MONOMER0-4251" -"G7078_RNA" "mRNA" [] "G7078-MONOMER" -"G7079_RNA" "mRNA" [] "G7079-MONOMER" -"G7080_RNA" "mRNA" [] "G7080-MONOMER" -"G7081_RNA" "mRNA" [] "G7081-MONOMER" -"G7082_RNA" "mRNA" [] "G7082-MONOMER" -"G7083_RNA" "mRNA" [] "G7083-MONOMER" -"G7084_RNA" "mRNA" [] "G7084-MONOMER" -"G7085_RNA" "mRNA" [] "G7085-MONOMER" -"G7086_RNA" "mRNA" [] "G7086-MONOMER" -"G7087_RNA" "mRNA" [] "G7087-MONOMER" -"G7088_RNA" "mRNA" [] "G7088-MONOMER" -"G7089_RNA" "mRNA" [] "G7089-MONOMER" -"G7090_RNA" "mRNA" [] "G7090-MONOMER" -"G7091_RNA" "mRNA" [] "UGD-MONOMER" -"G7092_RNA" "mRNA" [] "MONOMER0-4237" -"G7093_RNA" "mRNA" [] "G7093-MONOMER" -"G7094_RNA" "mRNA" [] "G7094-MONOMER" -"G7095_RNA" "mRNA" [] "G7095-MONOMER" -"G7096_RNA" "mRNA" [] "G7096-MONOMER" -"G7097_RNA" "mRNA" [] "G7097-MONOMER" -"G7098_RNA" "mRNA" [] "G7098-MONOMER" -"G7099_RNA" "mRNA" [] "G7099-MONOMER" -"G7100_RNA" "mRNA" [] "G7100-MONOMER" -"G7101_RNA" "mRNA" [] "G7101-MONOMER" -"G7102_RNA" "mRNA" [] "G7102-MONOMER" -"G7103_RNA" "mRNA" [] "G7103-MONOMER" -"G7104_RNA" "mRNA" [] "G7104-MONOMER" -"G7105_RNA" "mRNA" [] "G7105-MONOMER" -"G7106_RNA" "mRNA" [] "G7106-MONOMER" -"G7107_RNA" "mRNA" [] "G7107-MONOMER" -"G7108_RNA" "mRNA" [] "G7108-MONOMER" -"G7109_RNA" "mRNA" [] "G7109-MONOMER" -"G7110_RNA" "mRNA" [] "G7110-MONOMER" -"G7111_RNA" "mRNA" [] "G7111-MONOMER" -"G7112_RNA" "mRNA" [] "G7112-MONOMER" -"G7113_RNA" "mRNA" [] "MDTA" -"G7114_RNA" "mRNA" [] "B2075-MONOMER" -"G7115_RNA" "mRNA" [] "B2076-MONOMER" -"G7117_RNA" "mRNA" [] "G7117-MONOMER" -"G7118_RNA" "mRNA" [] "G7118-MONOMER" -"G7119_RNA" "mRNA" [] "G7119-MONOMER" -"G7120_RNA" "mRNA" [] "G7120-MONOMER" -"G7122_RNA" "mRNA" [] "G7122-MONOMER" -"G7123_RNA" "mRNA" [] "G7123-MONOMER" -"G7125_RNA" "mRNA" [] "MONOMER0-4245" -"G7128_RNA" "mRNA" [] "G7128-MONOMER" -"G7129_RNA" "mRNA" [] "FRUCBISALD-CLASSI-MONOMER" -"G7130_RNA" "mRNA" [] "B2098-MONOMER" -"G7131_RNA" "mRNA" [] "G7131-MONOMER" -"G7132_RNA" "mRNA" [] "G7132-MONOMER" -"G7133_RNA" "mRNA" [] "G7133-MONOMER" -"G7134_RNA" "mRNA" [] "G7134-MONOMER" -"G7135_RNA" "mRNA" [] "HMP-P-KIN-MONOMER" -"G7137_RNA" "mRNA" [] "G7137-MONOMER" -"G7138_RNA" "mRNA" [] "G7138-MONOMER" -"G7139_RNA" "mRNA" [] "G7139-MONOMER" -"G7144_RNA" "mRNA" [] "G7144-MONOMER" -"G7145_RNA" "mRNA" [] "G7145-MONOMER" -"G7146_RNA" "mRNA" [] "G7146-MONOMER" -"G7147_RNA" "mRNA" [] "G7147-MONOMER" -"G7148_RNA" "mRNA" [] "G7148-MONOMER" -"G7150_RNA" "mRNA" [] "MONOMER0-4238" -"G7152_RNA" "mRNA" [] "G7152-MONOMER" -"G7153_RNA" "mRNA" [] "G7153-MONOMER" -"G7154_RNA" "mRNA" [] "G7154-MONOMER" -"G7155_RNA" "mRNA" [] "G7155-MONOMER" -"G7156_RNA" "mRNA" [] "G7156-MONOMER" -"G7158_RNA" "mRNA" [] "G7158-MONOMER" -"G7159_RNA" "mRNA" [] "B2246-MONOMER" -"G7160_RNA" "mRNA" [] "G7160-MONOMER" -"G7161_RNA" "mRNA" [] "G7161-MONOMER" -"G7162_RNA" "mRNA" [] "G7162-MONOMER" -"G7163_RNA" "mRNA" [] "G7163-MONOMER" -"G7164_RNA" "mRNA" [] "G7164-MONOMER" -"G7165_RNA" "mRNA" [] "G7165-MONOMER" -"G7166_RNA" "mRNA" [] "G7166-MONOMER" -"G7167_RNA" "mRNA" [] "G7167-MONOMER" -"G7168_RNA" "mRNA" [] "G7168-MONOMER" -"G7169_RNA" "mRNA" [] "G7169-MONOMER" -"G7170_RNA" "mRNA" [] "G7170-MONOMER" -"G7171_RNA" "mRNA" [] "G7171-MONOMER" -"G7172_RNA" "mRNA" [] "G7172-MONOMER" -"G7173_RNA" "mRNA" [] "G7173-MONOMER" -"G7174_RNA" "mRNA" [] "G7174-MONOMER" -"G7175_RNA" "mRNA" [] "G7175-MONOMER" -"G7176_RNA" "mRNA" [] "G7176-MONOMER" -"G7177_RNA" "mRNA" [] "G7177-MONOMER" -"G7178_RNA" "mRNA" [] "G7178-MONOMER" -"G7179_RNA" "mRNA" [] "G7179-MONOMER" -"G7180_RNA" "mRNA" [] "G7180-MONOMER" -"G7181_RNA" "mRNA" [] "G7181-MONOMER" -"G7182_RNA" "mRNA" [] "G7182-MONOMER" -"G7184_RNA" "mRNA" [] "G7184-MONOMER" -"G7185_RNA" "mRNA" [] "G7185-MONOMER" -"G7186_RNA" "mRNA" [] "G7186-MONOMER" -"G7187_RNA" "mRNA" [] "G7187-MONOMER" -"G7188_RNA" "mRNA" [] "G7188-MONOMER" -"G7189_RNA" "mRNA" [] "G7189-MONOMER" -"G7190_RNA" "mRNA" [] "G7190-MONOMER" -"G7191_RNA" "mRNA" [] "G7191-MONOMER" -"G7192_RNA" "mRNA" [] "G7192-MONOMER" -"G7193_RNA" "mRNA" [] "G7193-MONOMER" -"G7194_RNA" "mRNA" [] "G7194-MONOMER" -"G7195_RNA" "mRNA" [] "H2NTPEPIM-MONOMER" -"G7196_RNA" "mRNA" [] "G7196-MONOMER" -"G7197_RNA" "mRNA" [] "G7197-MONOMER" -"G7198_RNA" "mRNA" [] "B2322-MONOMER" -"G7199_RNA" "mRNA" [] "G7199-MONOMER" -"G7200_RNA" "mRNA" [] "G7200-MONOMER" -"G7201_RNA" "mRNA" [] "G7201-MONOMER" -"G7202_RNA" "mRNA" [] "G7202-MONOMER" -"G7203_RNA" "mRNA" [] "G7203-MONOMER" -"G7204_RNA" "mRNA" [] "G7204-MONOMER" -"G7205_RNA" "mRNA" [] "G7205-MONOMER" -"G7206_RNA" "mRNA" [] "G7206-MONOMER" -"G7207_RNA" "mRNA" [] "G7207-MONOMER" -"G7208_RNA" "mRNA" [] "G7208-MONOMER" -"G7209_RNA" "mRNA" [] "G7209-MONOMER" -"G7210_RNA" "mRNA" [] "G7210-MONOMER" -"G7211_RNA" "mRNA" [] "G7211-MONOMER" -"G7212_RNA" "mRNA" [] "G7212-MONOMER" -"G7213_RNA" "mRNA" [] "G7213-MONOMER" -"G7214_RNA" "mRNA" [] "G7214-MONOMER" -"G7215_RNA" "mRNA" [] "G7215-MONOMER" -"G7216_RNA" "mRNA" [] "G7216-MONOMER" -"G7217_RNA" "mRNA" [] "G7217-MONOMER" -"G7218_RNA" "mRNA" [] "G7218-MONOMER" -"G7219_RNA" "mRNA" [] "G7219-MONOMER" -"G7220_RNA" "mRNA" [] "G7220-MONOMER" -"G7221_RNA" "mRNA" [] "G7221-MONOMER" -"G7222_RNA" "mRNA" [] "G7222-MONOMER" -"G7223_RNA" "mRNA" [] "G7223-MONOMER" -"G7224_RNA" "mRNA" [] "G7224-MONOMER" -"G7225_RNA" "mRNA" [] "G7225-MONOMER" -"G7226_RNA" "mRNA" [] "G7226-MONOMER" -"G7227_RNA" "mRNA" [] "G7227-MONOMER" -"G7228_RNA" "mRNA" [] "G7228-MONOMER" -"G7229_RNA" "mRNA" [] "G7229-MONOMER" -"G7230_RNA" "mRNA" [] "G7230-MONOMER" -"G7231_RNA" "mRNA" [] "G7231-MONOMER" -"G7232_RNA" "mRNA" [] "G7232-MONOMER" -"G7233_RNA" "mRNA" [] "G7233-MONOMER" -"G7234_RNA" "mRNA" [] "G7234-MONOMER" -"G7235_RNA" "mRNA" [] "B2372-MONOMER" -"G7236_RNA" "mRNA" [] "G7236-MONOMER" -"G7237_RNA" "mRNA" [] "G7237-MONOMER" -"G7238_RNA" "mRNA" [] "G7238-MONOMER" -"G7239_RNA" "mRNA" [] "G7239-MONOMER" -"G7240_RNA" "mRNA" [] "G7240-MONOMER" -"G7241_RNA" "mRNA" [] "PALMITOTRANS-MONOMER" -"G7242_RNA" "mRNA" [] "G7242-MONOMER" -"G7243_RNA" "mRNA" [] "G7243-MONOMER" -"G7244_RNA" "mRNA" [] "G7244-MONOMER" -"G7245_RNA" "mRNA" [] "G7245-MONOMER" -"G7246_RNA" "mRNA" [] "G7246-MONOMER" -"G7247_RNA" "mRNA" [] "G7247-MONOMER" -"G7248_RNA" "mRNA" [] "G7248-MONOMER" -"G7249_RNA" "mRNA" [] "MONOMER0-6" -"G7250_RNA" "mRNA" [] "G7250-MONOMER" -"G7251_RNA" "mRNA" [] "G7251-MONOMER" -"G7252_RNA" "mRNA" [] "G7252-MONOMER" -"G7254_RNA" "mRNA" [] "YFEP-MONOMER" -"G7255_RNA" "mRNA" [] "G7255-MONOMER" -"G7256_RNA" "mRNA" [] "G7256-MONOMER" -"G7257_RNA" "mRNA" [] "G7257-MONOMER" -"G7258_RNA" "mRNA" [] "G7258-MONOMER" -"G7259_RNA" "mRNA" [] "PDXK-MONOMER" -"G7260_RNA" "mRNA" [] "G7260-MONOMER" -"G7261_RNA" "mRNA" [] "G7261-MONOMER" -"G7262_RNA" "mRNA" [] "G7262-MONOMER" -"G7263_RNA" "mRNA" [] "G7263-MONOMER" -"G7264_RNA" "mRNA" [] "MONOMER0-5" -"G7265_RNA" "mRNA" [] "G7265-MONOMER" -"G7266_RNA" "mRNA" [] "G7266-MONOMER" -"G7267_RNA" "mRNA" [] "G7267-MONOMER" -"G7268_RNA" "mRNA" [] "G7268-MONOMER" -"G7269_RNA" "mRNA" [] "G7269-MONOMER" -"G7270_RNA" "mRNA" [] "G7270-MONOMER" -"G7271_RNA" "mRNA" [] "G7271-MONOMER" -"G7272_RNA" "mRNA" [] "G7272-MONOMER" -"G7273_RNA" "mRNA" [] "G7273-MONOMER" -"G7274_RNA" "mRNA" [] "G7274-MONOMER" -"G7275_RNA" "mRNA" [] "G7275-MONOMER" -"G7276_RNA" "mRNA" [] "G7276-MONOMER" -"G7277_RNA" "mRNA" [] "G7277-MONOMER" -"G7278_RNA" "mRNA" [] "G7278-MONOMER" -"G7279_RNA" "mRNA" [] "G7279-MONOMER" -"G7280_RNA" "mRNA" [] "G7280-MONOMER" -"G7281_RNA" "mRNA" [] "G7281-MONOMER" -"G7282_RNA" "mRNA" [] "G7282-MONOMER" -"G7283_RNA" "mRNA" [] "G7283-MONOMER" -"G7284_RNA" "mRNA" [] "G7284-MONOMER" -"G7285_RNA" "mRNA" [] "G7285-MONOMER" -"G7286_RNA" "mRNA" [] "G7286-MONOMER" -"G7287_RNA" "mRNA" [] "G7287-MONOMER" -"G7288_RNA" "mRNA" [] "G7288-MONOMER" -"G7289_RNA" "mRNA" [] "G7289-MONOMER" -"G7290_RNA" "mRNA" [] "G7290-MONOMER" -"G7291_RNA" "mRNA" [] "G7291-MONOMER" -"G7292_RNA" "mRNA" [] "G7292-MONOMER" -"G7293_RNA" "mRNA" [] "MALIC-NADP-MONOMER" -"G7295_RNA" "mRNA" [] "G7295-MONOMER" -"G7296_RNA" "mRNA" [] "G7296-MONOMER" -"G7297_RNA" "mRNA" [] "G7297-MONOMER" -"G7298_RNA" "mRNA" [] "G7298-MONOMER" -"G7300_RNA" "mRNA" [] "MONOMER0-154" -"G7301_RNA" "mRNA" [] "MONOMER0-141" -"G7302_RNA" "mRNA" [] "MONOMER0-142" -"G7303_RNA" "mRNA" [] "MONOMER0-143" -"G7304_RNA" "mRNA" [] "MONOMER0-150" -"G7305_RNA" "mRNA" [] "MONOMER0-144" -"G7306_RNA" "mRNA" [] "MONOMER0-151" -"G7307_RNA" "mRNA" [] "G7307-MONOMER" -"G7308_RNA" "mRNA" [] "G7308-MONOMER" -"G7309_RNA" "mRNA" [] "FOCB-MONOMER" -"G7310_RNA" "mRNA" [] "G7310-MONOMER" -"G7311_RNA" "mRNA" [] "G7311-MONOMER" -"G7312_RNA" "mRNA" [] "G7312-MONOMER" -"G7313_RNA" "mRNA" [] "G7313-MONOMER" -"G7314_RNA" "mRNA" [] "G7314-MONOMER" -"G7315_RNA" "mRNA" [] "G7315-MONOMER" -"G7316_RNA" "mRNA" [] "G7316-MONOMER" -"G7317_RNA" "mRNA" [] "G7317-MONOMER" -"G7318_RNA" "mRNA" [] "G7318-MONOMER" -"G7319_RNA" "mRNA" [] "G7319-MONOMER" -"G7320_RNA" "mRNA" [] "G7320-MONOMER" -"G7321_RNA" "mRNA" [] "G7321-MONOMER" -"G7322_RNA" "mRNA" [] "G7322-MONOMER" -"G7323_RNA" "mRNA" [] "G7323-MONOMER" -"G7324_RNA" "mRNA" [] "G7324-MONOMER" -"G7325_RNA" "mRNA" [] "G7325-MONOMER" -"G7326_RNA" "mRNA" [] "G7326-MONOMER" -"G7327_RNA" "mRNA" [] "G7327-MONOMER" -"G7328_RNA" "mRNA" [] "G7328-MONOMER" -"G7329_RNA" "mRNA" [] "G7329-MONOMER" -"G7330_RNA" "mRNA" [] "HCAT-MONOMER" -"G7331_RNA" "mRNA" [] "G7331-MONOMER" -"G7334_RNA" "mRNA" [] "HCAC-MONOMER" -"G7335_RNA" "mRNA" [] "PHENPRODIOLDEHYDROG-MONOMER" -"G7336_RNA" "mRNA" [] "HCAD-MONOMER" -"G7337_RNA" "mRNA" [] "G7337-MONOMER" -"G7338_RNA" "mRNA" [] "G7338-MONOMER" -"G7339_RNA" "mRNA" [] "YPHC-MONOMER" -"G7340_RNA" "mRNA" [] "YPHD-MONOMER" -"G7341_RNA" "mRNA" [] "YPHE-MONOMER" -"G7342_RNA" "mRNA" [] "G7342-MONOMER" -"G7343_RNA" "mRNA" [] "G7343-MONOMER" -"G7344_RNA" "mRNA" [] "G7344-MONOMER" -"G7345_RNA" "mRNA" [] "G7345-MONOMER" -"G7346_RNA" "mRNA" [] "G7346-MONOMER" -"G7347_RNA" "mRNA" [] "G7347-MONOMER" -"G7348_RNA" "mRNA" [] "G7348-MONOMER" -"G7349_RNA" "mRNA" [] "G7349-MONOMER" -"G7350_RNA" "mRNA" [] "G7350-MONOMER" -"G7352_RNA" "mRNA" [] "G7352-MONOMER" -"G7354_RNA" "mRNA" [] "G7354-MONOMER" -"G7355_RNA" "mRNA" [] "G7355-MONOMER" -"G7357_RNA" "mRNA" [] "G7357-MONOMER" -"G7358_RNA" "mRNA" [] "G7358-MONOMER" -"G7359_RNA" "mRNA" [] "G7359-MONOMER" -"G7360_RNA" "mRNA" [] "G7360-MONOMER" -"G7361_RNA" "mRNA" [] "G7361-MONOMER" -"G7362_RNA" "mRNA" [] "G7362-MONOMER" -"G7363_RNA" "mRNA" [] "G7363-MONOMER" -"G7364_RNA" "mRNA" [] "G7364-MONOMER" -"G7365_RNA" "mRNA" [] "G7365-MONOMER" -"G7366_RNA" "mRNA" [] "G7366-MONOMER" -"G7367_RNA" "mRNA" [] "G7367-MONOMER" -"G7368_RNA" "mRNA" [] "G7368-MONOMER" -"G7369_RNA" "mRNA" [] "G7369-MONOMER" -"G7370_RNA" "mRNA" [] "G7370-MONOMER" -"G7371_RNA" "mRNA" [] "G7371-MONOMER" -"G7372_RNA" "mRNA" [] "G7372-MONOMER" -"G7373_RNA" "mRNA" [] "G7373-MONOMER" -"G7374_RNA" "mRNA" [] "G7374-MONOMER" -"G7375_RNA" "mRNA" [] "G7375-MONOMER" -"G7376_RNA" "mRNA" [] "G7376-MONOMER" -"G7377_RNA" "mRNA" [] "G7377-MONOMER" -"G7378_RNA" "mRNA" [] "G7378-MONOMER" -"G7379_RNA" "mRNA" [] "G7379-MONOMER" -"G7380_RNA" "mRNA" [] "G7380-MONOMER" -"G7381_RNA" "mRNA" [] "G7381-MONOMER" -"G7382_RNA" "mRNA" [] "G7382-MONOMER" -"G7383_RNA" "mRNA" [] "G7383-MONOMER" -"G7384_RNA" "mRNA" [] "G7384-MONOMER" -"G7385_RNA" "mRNA" [] "G7385-MONOMER" -"G7389_RNA" "mRNA" [] "G7389-MONOMER" -"G7391_RNA" "mRNA" [] "G7390-MONOMER" -"G7392_RNA" "mRNA" [] "G7392-MONOMER" -"G7393_RNA" "mRNA" [] "G7393-MONOMER" -"G7394_RNA" "mRNA" [] "G7394-MONOMER" -"G7395_RNA" "mRNA" [] "G7395-MONOMER" -"G7396_RNA" "mRNA" [] "G7396-MONOMER" -"G7397_RNA" "mRNA" [] "G7397-MONOMER" -"G7398_RNA" "mRNA" [] "G7398-MONOMER" -"G7399_RNA" "mRNA" [] "G7399-MONOMER" -"G7400_RNA" "mRNA" [] "B0899-MONOMER" -"G7401_RNA" "mRNA" [] "G7401-MONOMER" -"G7402_RNA" "mRNA" [] "G7402-MONOMER" -"G7403_RNA" "mRNA" [] "YGAY-MONOMER" -"G7404_RNA" "mRNA" [] "G7404-MONOMER" -"G7405_RNA" "mRNA" [] "G7405-MONOMER" -"G7406_RNA" "mRNA" [] "G7406-MONOMER" -"G7407_RNA" "mRNA" [] "G7407-MONOMER" -"G7408_RNA" "mRNA" [] "G7408-MONOMER" -"G7409_RNA" "mRNA" [] "G7409-MONOMER" -"G7410_RNA" "mRNA" [] "G7410-MONOMER" -"G7413_RNA" "mRNA" [] "G7413-MONOMER" -"G7414_RNA" "mRNA" [] "G7414-MONOMER" -"G7415_RNA" "mRNA" [] "G7415-MONOMER" -"G7416_RNA" "mRNA" [] "G7416-MONOMER" -"G7417_RNA" "mRNA" [] "G7417-MONOMER" -"G7418_RNA" "mRNA" [] "G7418-MONOMER" -"G7419_RNA" "mRNA" [] "G7419-MONOMER" -"G7420_RNA" "mRNA" [] "G7420-MONOMER" -"G7421_RNA" "mRNA" [] "B2740-MONOMER" -"G7422_RNA" "mRNA" [] "G7422-MONOMER" -"G7423_RNA" "mRNA" [] "G7423-MONOMER" -"G7424_RNA" "mRNA" [] "G7424-MONOMER" -"G7425_RNA" "mRNA" [] "G7425-MONOMER" -"G7426_RNA" "mRNA" [] "G7426-MONOMER" -"G7427_RNA" "mRNA" [] "G7427-MONOMER" -"G7428_RNA" "mRNA" [] "G7428-MONOMER" -"G7429_RNA" "mRNA" [] "G7429-MONOMER" -"G7430_RNA" "mRNA" [] "G7430-MONOMER" -"G7431_RNA" "mRNA" [] "G7431-MONOMER" -"G7432_RNA" "mRNA" [] "G7432-MONOMER" -"G7433_RNA" "mRNA" [] "G7433-MONOMER" -"G7434_RNA" "mRNA" [] "G7434-MONOMER" -"G7435_RNA" "mRNA" [] "G7435-MONOMER" -"G7436_RNA" "mRNA" [] "G7436-MONOMER" -"G7437_RNA" "mRNA" [] "B2771-MONOMER" -"G7439_RNA" "mRNA" [] "G7439-MONOMER" -"G7440_RNA" "mRNA" [] "G7440-MONOMER" -"G7442_RNA" "mRNA" [] "G7442-MONOMER" -"G7443_RNA" "mRNA" [] "G7443-MONOMER" -"G7444_RNA" "mRNA" [] "G7444-MONOMER" -"G7445_RNA" "mRNA" [] "GLUCARDEHYDRA-MONOMER" -"G7446_RNA" "mRNA" [] "G7446-MONOMER" -"G7447_RNA" "mRNA" [] "B2789-MONOMER" -"G7448_RNA" "mRNA" [] "G7448-MONOMER" -"G7449_RNA" "mRNA" [] "G7449-MONOMER" -"G7450_RNA" "mRNA" [] "G7450-MONOMER" -"G7451_RNA" "mRNA" [] "G7451-MONOMER" -"G7452_RNA" "mRNA" [] "G7452-MONOMER" -"G7453_RNA" "mRNA" [] "G7453-MONOMER" -"G7454_RNA" "mRNA" [] "G7454-MONOMER" -"G7455_RNA" "mRNA" [] "G7455-MONOMER" -"G7456_RNA" "mRNA" [] "G7456-MONOMER" -"G7457_RNA" "mRNA" [] "G7457-MONOMER" -"G7458_RNA" "mRNA" [] "G7458-MONOMER" -"G7459_RNA" "mRNA" [] "G7459-MONOMER" -"G7460_RNA" "mRNA" [] "G7460-MONOMER" -"G7461_RNA" "mRNA" [] "G7461-MONOMER" -"G7462_RNA" "mRNA" [] "G7462-MONOMER" -"G7463_RNA" "mRNA" [] "G7463-MONOMER" -"G7464_RNA" "mRNA" [] "G7464-MONOMER" -"G7465_RNA" "mRNA" [] "B2845-MONOMER" -"G7466_RNA" "mRNA" [] "G7466-MONOMER" -"G7467_RNA" "mRNA" [] "G7467-MONOMER" -"G7468_RNA" "mRNA" [] "G7468-MONOMER" -"G7469_RNA" "mRNA" [] "G7469-MONOMER" -"G7470_RNA" "mRNA" [] "G7470-MONOMER" -"G7471_RNA" "mRNA" [] "G7471-MONOMER" -"G7472_RNA" "mRNA" [] "G7472-MONOMER" -"G7473_RNA" "mRNA" [] "G7473-MONOMER" -"G7474_RNA" "mRNA" [] "G7474-MONOMER" -"G7475_RNA" "mRNA" [] "G7475-MONOMER" -"G7476_RNA" "mRNA" [] "G7476-MONOMER" -"G7477_RNA" "mRNA" [] "G7477-MONOMER" -"G7478_RNA" "mRNA" [] "G7478-MONOMER" -"G7479_RNA" "mRNA" [] "G7479-MONOMER" -"G7481_RNA" "mRNA" [] "MONOMER0-4252" -"G7482_RNA" "mRNA" [] "G7482-MONOMER" -"G7483_RNA" "mRNA" [] "G7483-MONOMER" -"G7484_RNA" "mRNA" [] "G7484-MONOMER" -"G7485_RNA" "mRNA" [] "G7485-MONOMER" -"G7486_RNA" "mRNA" [] "G7486-MONOMER" -"G7487_RNA" "mRNA" [] "G7487-MONOMER" -"G7488_RNA" "mRNA" [] "G7488-MONOMER" -"G7489_RNA" "mRNA" [] "G7489-MONOMER" -"G7490_RNA" "mRNA" [] "G7490-MONOMER" -"G7491_RNA" "mRNA" [] "G7491-MONOMER" -"G7492_RNA" "mRNA" [] "G7492-MONOMER" -"G7493_RNA" "mRNA" [] "G7493-MONOMER" -"G7494_RNA" "mRNA" [] "G7494-MONOMER" -"G7495_RNA" "mRNA" [] "G7495-MONOMER" -"G7496_RNA" "mRNA" [] "G7496-MONOMER" -"G7497_RNA" "mRNA" [] "G7497-MONOMER" -"G7498_RNA" "mRNA" [] "G7498-MONOMER" -"G7499_RNA" "mRNA" [] "G7499-MONOMER" -"G7500_RNA" "mRNA" [] "G7500-MONOMER" -"G7501_RNA" "mRNA" [] "YGFO-MONOMER" -"G7502_RNA" "mRNA" [] "G7502-MONOMER" -"G7503_RNA" "mRNA" [] "G7504-MONOMER" -"G7505_RNA" "mRNA" [] "G7505-MONOMER" -"G7506_RNA" "mRNA" [] "G7506-MONOMER" -"G7507_RNA" "mRNA" [] "YGFU-MONOMER" -"G7508_RNA" "mRNA" [] "IPPISOM-MONOMER" -"G7509_RNA" "mRNA" [] "G7509-MONOMER" -"G7510_RNA" "mRNA" [] "G7510-MONOMER" -"G7511_RNA" "mRNA" [] "G7511-MONOMER" -"G7512_RNA" "mRNA" [] "G7512-MONOMER" -"G7513_RNA" "mRNA" [] "G7513-MONOMER" -"G7514_RNA" "mRNA" [] "G7514-MONOMER" -"G7515_RNA" "mRNA" [] "G7515-MONOMER" -"G7516_RNA" "mRNA" [] "G7516-MONOMER" -"G7517_RNA" "mRNA" [] "G7517-MONOMER" -"G7518_RNA" "mRNA" [] "G7518-MONOMER" -"G7520_RNA" "mRNA" [] "G7520-MONOMER" -"G7521_RNA" "mRNA" [] "G7521-MONOMER" -"G7522_RNA" "mRNA" [] "G7522-MONOMER" -"G7523_RNA" "mRNA" [] "G7523-MONOMER" -"G7524_RNA" "mRNA" [] "G7524-MONOMER" -"G7525_RNA" "mRNA" [] "G7525-MONOMER" -"G7526_RNA" "mRNA" [] "G7526-MONOMER" -"G7527_RNA" "mRNA" [] "G7527-MONOMER" -"G7528_RNA" "mRNA" [] "G7528-MONOMER" -"G7529_RNA" "mRNA" [] "G7529-MONOMER" -"G7530_RNA" "mRNA" [] "G7530-MONOMER" -"G7531_RNA" "mRNA" [] "G7531-MONOMER" -"G7532_RNA" "mRNA" [] "G7532-MONOMER" -"G7533_RNA" "mRNA" [] "G7533-MONOMER" -"G7534_RNA" "mRNA" [] "G7534-MONOMER" -"G7535_RNA" "mRNA" [] "G7535-MONOMER" -"G7536_RNA" "mRNA" [] "G7536-MONOMER" -"G7537_RNA" "mRNA" [] "G7537-MONOMER" -"G7538_RNA" "mRNA" [] "G7538-MONOMER" -"G7539_RNA" "mRNA" [] "G7539-MONOMER" -"G7541_RNA" "mRNA" [] "G7541-MONOMER" -"G7542_RNA" "mRNA" [] "B2975-MONOMER" -"G7543_RNA" "mRNA" [] "G7543-MONOMER" -"G7544_RNA" "mRNA" [] "G7544-MONOMER" -"G7545_RNA" "mRNA" [] "G7545-MONOMER" -"G7546_RNA" "mRNA" [] "G7546-MONOMER" -"G7547_RNA" "mRNA" [] "G7547-MONOMER" -"G7548_RNA" "mRNA" [] "MONOMER0-4239" -"G7549_RNA" "mRNA" [] "G7549-MONOMER" -"G7550_RNA" "mRNA" [] "G7550-MONOMER" -"G7551_RNA" "mRNA" [] "G7551-MONOMER" -"G7552_RNA" "mRNA" [] "G7552-MONOMER" -"G7553_RNA" "mRNA" [] "G7553-MONOMER" -"G7554_RNA" "mRNA" [] "MONOMER0-145" -"G7555_RNA" "mRNA" [] "G7555-MONOMER" -"G7556_RNA" "mRNA" [] "G7556-MONOMER" -"G7557_RNA" "mRNA" [] "G7557-MONOMER" -"G7558_RNA" "mRNA" [] "G7558-MONOMER" -"G7559_RNA" "mRNA" [] "G7559-MONOMER" -"G7563_RNA" "mRNA" [] "G7563-MONOMER" -"G7564_RNA" "mRNA" [] "G7564-MONOMER" -"G7565_RNA" "mRNA" [] "MONOMER0-148" -"G7566_RNA" "mRNA" [] "G7566-MONOMER" -"G7567_RNA" "mRNA" [] "G7567-MONOMER" -"G7568_RNA" "mRNA" [] "G7568-MONOMER" -"G7570_RNA" "mRNA" [] "YGIS-MONOMER" -"G7571_RNA" "mRNA" [] "G7571-MONOMER" -"G7572_RNA" "mRNA" [] "G7572-MONOMER" -"G7573_RNA" "mRNA" [] "G7573-MONOMER" -"G7574_RNA" "mRNA" [] "G7574-MONOMER" -"G7575_RNA" "mRNA" [] "G7575-MONOMER" -"G7577_RNA" "mRNA" [] "G7577-MONOMER" -"G7578_RNA" "mRNA" [] "G7578-MONOMER" -"G7579_RNA" "mRNA" [] "G7579-MONOMER" -"G7580_RNA" "mRNA" [] "G7580-MONOMER" -"G7582_RNA" "mRNA" [] "G7582-MONOMER" -"G7583_RNA" "mRNA" [] "MONOMER0-4253" -"G7585_RNA" "mRNA" [] "G7585-MONOMER" -"G7586_RNA" "mRNA" [] "G7586-MONOMER" -"G7587_RNA" "mRNA" [] "G7587-MONOMER" -"G7588_RNA" "mRNA" [] "G7588-MONOMER" -"G7589_RNA" "mRNA" [] "G7589-MONOMER" -"G7590_RNA" "mRNA" [] "G7590-MONOMER" -"G7593_RNA" "mRNA" [] "G7593-MONOMER" -"G7594_RNA" "mRNA" [] "G7594-MONOMER" -"G7595_RNA" "mRNA" [] "G7595-MONOMER" -"G7596_RNA" "mRNA" [] "G7596-MONOMER" -"G7597_RNA" "mRNA" [] "G7597-MONOMER" -"G7598_RNA" "mRNA" [] "G7598-MONOMER" -"G7599_RNA" "mRNA" [] "G7599-MONOMER" -"G7601_RNA" "mRNA" [] "G7601-MONOMER" -"G7602_RNA" "mRNA" [] "G7602-MONOMER" -"G7603_RNA" "mRNA" [] "G7603-MONOMER" -"G7604_RNA" "mRNA" [] "G7604-MONOMER" -"G7605_RNA" "mRNA" [] "G7605-MONOMER" -"G7606_RNA" "mRNA" [] "G7606-MONOMER" -"G7607_RNA" "mRNA" [] "G7607-MONOMER" -"G7608_RNA" "mRNA" [] "G7608-MONOMER" -"G7609_RNA" "mRNA" [] "G7609-MONOMER" -"G7610_RNA" "mRNA" [] "G7610-MONOMER" -"G7611_RNA" "mRNA" [] "G7611-MONOMER" -"G7612_RNA" "mRNA" [] "G7612-MONOMER" -"G7613_RNA" "mRNA" [] "G7613-MONOMER" -"G7614_RNA" "mRNA" [] "G7614-MONOMER" -"G7615_RNA" "mRNA" [] "G7615-MONOMER" -"G7616_RNA" "mRNA" [] "G7616-MONOMER" -"G7617_RNA" "mRNA" [] "G7617-MONOMER" -"G7618_RNA" "mRNA" [] "G7618-MONOMER" -"G7619_RNA" "mRNA" [] "G7619-MONOMER" -"G7620_RNA" "mRNA" [] "G7620-MONOMER" -"G7621_RNA" "mRNA" [] "G7621-MONOMER" -"G7622_RNA" "mRNA" [] "G7622-MONOMER" -"G7624_RNA" "mRNA" [] "LSERINEDEAM3-MONOMER" -"G7626_RNA" "mRNA" [] "G7626-MONOMER" -"G7627_RNA" "mRNA" [] "KETOBUTFORMLY-INACT-MONOMER" -"G7629_RNA" "mRNA" [] "G7629-MONOMER" -"G7630_RNA" "mRNA" [] "G7630-MONOMER" -"G7631_RNA" "mRNA" [] "G7631-MONOMER" -"G7632_RNA" "mRNA" [] "G7632-MONOMER" -"G7633_RNA" "mRNA" [] "G7633-MONOMER" -"G7634_RNA" "mRNA" [] "G7634-MONOMER" -"G7635_RNA" "mRNA" [] "AGAD-MONOMER" -"G7636_RNA" "mRNA" [] "G7636-MONOMER" -"G7637_RNA" "mRNA" [] "G7637-MONOMER" 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"YHBN-MONOMER" -"G7667_RNA" "mRNA" [] "G7667-MONOMER" -"G7668_RNA" "mRNA" [] "G7668-MONOMER" -"G7669_RNA" "mRNA" [] "G7669-MONOMER" -"G7670_RNA" "mRNA" [] "G7670-MONOMER" -"G7671_RNA" "mRNA" [] "G7671-MONOMER" -"G7672_RNA" "mRNA" [] "MONOMER0-4240" -"G7673_RNA" "mRNA" [] "G7673-MONOMER" -"G7674_RNA" "mRNA" [] "G7674-MONOMER" -"G7675_RNA" "mRNA" [] "G7675-MONOMER" -"G7676_RNA" "mRNA" [] "NANK-MONOMER" -"G7677_RNA" "mRNA" [] "NANE-MONOMER" -"G7678_RNA" "mRNA" [] "G7678-MONOMER" -"G7679_RNA" "mRNA" [] "YHCL-MONOMER" -"G7680_RNA" "mRNA" [] "G7680-MONOMER" -"G7681_RNA" "mRNA" [] "G7681-MONOMER" -"G7682_RNA" "mRNA" [] "G7682-MONOMER" -"G7683_RNA" "mRNA" [] "G7683-MONOMER" -"G7684_RNA" "mRNA" [] "G7684-MONOMER" -"G7685_RNA" "mRNA" [] "G7685-MONOMER" -"G7686_RNA" "mRNA" [] "G7686-MONOMER" -"G7687_RNA" "mRNA" [] "G7687-MONOMER" -"G7688_RNA" "mRNA" [] "G7688-MONOMER" -"G7689_RNA" "mRNA" [] "G7689-MONOMER" -"G7690_RNA" "mRNA" [] "G7690-MONOMER" -"G7693_RNA" "mRNA" [] "G7693-MONOMER" -"G7694_RNA" "mRNA" [] "G7694-MONOMER" -"G7695_RNA" "mRNA" [] "G7695-MONOMER" -"G7696_RNA" "mRNA" [] "G7696-MONOMER" -"G7697_RNA" "mRNA" [] "G7697-MONOMER" -"G7698_RNA" "mRNA" [] "G7698-MONOMER" -"G7699_RNA" "mRNA" [] "G7699-MONOMER" -"G7701_RNA" "mRNA" [] "G7701-MONOMER" -"G7702_RNA" "mRNA" [] "G7702-MONOMER" -"G7703_RNA" "mRNA" [] "G7703-MONOMER" -"G7704_RNA" "mRNA" [] "G7704-MONOMER" -"G7705_RNA" "mRNA" [] "G7705-MONOMER" -"G7706_RNA" "mRNA" [] "G7706-MONOMER" -"G7707_RNA" "mRNA" [] "G7707-MONOMER" -"G7708_RNA" "mRNA" [] "G7708-MONOMER" -"G7709_RNA" "mRNA" [] "G7709-MONOMER" -"G7710_RNA" "mRNA" [] "G7710-MONOMER" -"G7711_RNA" "mRNA" [] "G7711-MONOMER" -"G7712_RNA" "mRNA" [] "G7712-MONOMER" -"G7713_RNA" "mRNA" [] "G7713-MONOMER" -"G7714_RNA" "mRNA" [] "G7714-MONOMER" -"G7715_RNA" "mRNA" [] "G7715-MONOMER" -"G7716_RNA" "mRNA" [] "G7716-MONOMER" -"G7717_RNA" "mRNA" [] "G7717-MONOMER" -"G7718_RNA" "mRNA" [] "G7718-MONOMER" -"G7719_RNA" "mRNA" [] "G7719-MONOMER" -"G7721_RNA" "mRNA" [] "G7721-MONOMER" 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"G7748-MONOMER" -"G7750_RNA" "mRNA" [] "G7750-MONOMER" -"G7751_RNA" "mRNA" [] "G7751-MONOMER" -"G7752_RNA" "mRNA" [] "G7752-MONOMER" -"G7753_RNA" "mRNA" [] "G7753-MONOMER" -"G7756_RNA" "mRNA" [] "G7756-MONOMER" -"G7757_RNA" "mRNA" [] "G7757-MONOMER" -"G7758_RNA" "mRNA" [] "G7758-MONOMER" -"G7759_RNA" "mRNA" [] "G7759-MONOMER" -"G7760_RNA" "mRNA" [] "G7760-MONOMER" -"G7761_RNA" "mRNA" [] "MONOMER0-4226" -"G7763_RNA" "mRNA" [] "G7763-MONOMER" -"G7767_RNA" "mRNA" [] "G7767-MONOMER" -"G7769_RNA" "mRNA" [] "MONOMER0-4241" -"G7776_RNA" "mRNA" [] "G7776-MONOMER" -"G7777_RNA" "mRNA" [] "G7777-MONOMER" -"G7789_RNA" "mRNA" [] "G7790-MONOMER" -"G7797_RNA" "mRNA" [] "G7797-MONOMER" -"G7798_RNA" "mRNA" [] "G7798-MONOMER" -"G7800_RNA" "mRNA" [] "G7800-MONOMER" -"G7802_RNA" "mRNA" [] "G7802-MONOMER" -"G7804_RNA" "mRNA" [] "G7804-MONOMER" -"G7806_RNA" "mRNA" [] "TATA" -"G7808_RNA" "mRNA" [] "G7808-MONOMER" -"G7814_RNA" "mRNA" [] "G7814-MONOMER" -"G7816_RNA" "mRNA" [] "G7816-MONOMER" -"G7821_RNA" "mRNA" [] "G7821-MONOMER" -"G7822_RNA" "mRNA" [] "G7822-MONOMER" -"G7823_RNA" "mRNA" [] "G7823-MONOMER" -"G7825_RNA" "mRNA" [] "G7825-MONOMER" -"G7826_RNA" "mRNA" [] "DCUR-MONOMER" -"G7827_RNA" "mRNA" [] "DCUS-MONOMER" -"G7828_RNA" "mRNA" [] "G7828-MONOMER" -"G7829_RNA" "mRNA" [] "G7829-MONOMER" -"G7830_RNA" "mRNA" [] "G7830-MONOMER" -"G7832_RNA" "mRNA" [] "G7832-MONOMER" -"G7833_RNA" "mRNA" [] "B4141-MONOMER" -"G7834_RNA" "mRNA" [] "G7834-MONOMER" -"G7835_RNA" "mRNA" [] "G7835-MONOMER" -"G7836_RNA" "mRNA" [] "G7836-MONOMER" -"G7837_RNA" "mRNA" [] "G7837-MONOMER" -"G7838_RNA" "mRNA" [] "G7838-MONOMER" -"G7839_RNA" "mRNA" [] "G7839-MONOMER" -"G7840_RNA" "mRNA" [] "G7840-MONOMER" -"G7841_RNA" "mRNA" [] "G7841-MONOMER" -"G7842_RNA" "mRNA" [] "G7842-MONOMER" -"G7843_RNA" "mRNA" [] "G7843-MONOMER" -"G7844_RNA" "mRNA" [] "G7844-MONOMER" -"G7845_RNA" "mRNA" [] "G7845-MONOMER" -"G7846_RNA" "mRNA" [] "G7846-MONOMER" -"G7847_RNA" "mRNA" [] "G7847-MONOMER" -"G7848_RNA" "mRNA" [] "G7848-MONOMER" 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"G7875-MONOMER" -"G7876_RNA" "mRNA" [] "G7876-MONOMER" -"G7877_RNA" "mRNA" [] "G7877-MONOMER" -"G7879_RNA" "mRNA" [] "G7879-MONOMER" -"G7880_RNA" "mRNA" [] "G7880-MONOMER" -"G7882_RNA" "mRNA" [] "G7882-MONOMER" -"G7883_RNA" "mRNA" [] "G7883-MONOMER" -"G7884_RNA" "mRNA" [] "G7884-MONOMER" -"G7885_RNA" "mRNA" [] "G7885-MONOMER" -"G7886_RNA" "mRNA" [] "G7886-MONOMER" -"G7887_RNA" "mRNA" [] "G7887-MONOMER" -"G7888_RNA" "mRNA" [] "G7888-MONOMER" -"G7889_RNA" "mRNA" [] "G7889-MONOMER" -"G7890_RNA" "mRNA" [] "G7890-MONOMER" -"G7891_RNA" "mRNA" [] "G7891-MONOMER" -"G7892_RNA" "mRNA" [] "GLUCONREDUCT-MONOMER" -"G7893_RNA" "mRNA" [] "IDONDEHYD-MONOMER" -"G7894_RNA" "mRNA" [] "MONOMER0-4254" -"G7896_RNA" "mRNA" [] "G7896-MONOMER" -"G7897_RNA" "mRNA" [] "G7897-MONOMER" -"G7898_RNA" "mRNA" [] "G7898-MONOMER" -"G7899_RNA" "mRNA" [] "G7899-MONOMER" -"G7900_RNA" "mRNA" [] "G7900-MONOMER" -"G7901_RNA" "mRNA" [] "G7901-MONOMER" -"G7902_RNA" "mRNA" [] "G7902-MONOMER" -"G7903_RNA" "mRNA" [] "G7903-MONOMER" -"G7904_RNA" "mRNA" [] "G7904-MONOMER" -"G7905_RNA" "mRNA" [] "MONOMER0-4233" -"G7906_RNA" "mRNA" [] "G7906-MONOMER" -"G7907_RNA" "mRNA" [] "G7907-MONOMER" -"G7908_RNA" "mRNA" [] "G7908-MONOMER" -"G7909_RNA" "mRNA" [] "G7909-MONOMER" -"G7910_RNA" "mRNA" [] "G7910-MONOMER" -"G7911_RNA" "mRNA" [] "G7911-MONOMER" -"G7912_RNA" "mRNA" [] "G7912-MONOMER" -"G7913_RNA" "mRNA" [] "G7913-MONOMER" -"G7914_RNA" "mRNA" [] "G7914-MONOMER" -"G7915_RNA" "mRNA" [] "G7915-MONOMER" -"G7916_RNA" "mRNA" [] "G7916-MONOMER" -"G7917_RNA" "mRNA" [] "G7917-MONOMER" -"G7918_RNA" "mRNA" [] "G7918-MONOMER" -"G7919_RNA" "mRNA" [] "G7919-MONOMER" -"G7920_RNA" "mRNA" [] "G7920-MONOMER" -"G7921_RNA" "mRNA" [] "G7921-MONOMER" -"G7922_RNA" "mRNA" [] "G7922-MONOMER" -"G7923_RNA" "mRNA" [] "G7923-MONOMER" -"G7924_RNA" "mRNA" [] "G7924-MONOMER" -"G7925_RNA" "mRNA" [] "G7925-MONOMER" -"G7926_RNA" "mRNA" [] "G7926-MONOMER" -"G7927_RNA" "mRNA" [] "G7927-MONOMER" -"G7928_RNA" "mRNA" [] "G7928-MONOMER" -"G7929_RNA" "mRNA" [] "G7929-MONOMER" -"G7930_RNA" "mRNA" [] "G7930-MONOMER" -"G7931_RNA" "mRNA" [] "G7931-MONOMER" -"G7932_RNA" "mRNA" [] "G7932-MONOMER" -"G7933_RNA" "mRNA" [] "G7933-MONOMER" -"G7934_RNA" "mRNA" [] "G7934-MONOMER" -"G7935_RNA" "mRNA" [] "G7935-MONOMER" -"G7936_RNA" "mRNA" [] "G7936-MONOMER" -"G7937_RNA" "mRNA" [] "G7937-MONOMER" -"G7938_RNA" "mRNA" [] "G7938-MONOMER" -"G7940_RNA" "mRNA" [] "G7940-MONOMER" -"G7941_RNA" "mRNA" [] "G7941-MONOMER" -"G7942_RNA" "mRNA" [] "G7942-MONOMER" -"G7944_RNA" "mRNA" [] "G7944-MONOMER" -"G7945_RNA" "mRNA" [] "G7945-MONOMER" -"G7946_RNA" "mRNA" [] "G7946-MONOMER" -"G7947_RNA" "mRNA" [] "G7947-MONOMER" -"G7948_RNA" "mRNA" [] "G7948-MONOMER" -"G7949_RNA" "mRNA" [] "G7949-MONOMER" -"G7950_RNA" "mRNA" [] "G7950-MONOMER" -"G7951_RNA" "mRNA" [] "G7951-MONOMER" -"G7952_RNA" "mRNA" [] "G7952-MONOMER" -"G7953_RNA" "mRNA" [] "G7953-MONOMER" -"G7954_RNA" "mRNA" [] "G7954-MONOMER" -"G7961_RNA" "mRNA" [] "PHENDEHYD-MONOMER" -"G7990_RNA" "mRNA" [] "FRUB-MONOMER" -"G812_RNA" "mRNA" [] "RNTRACTIV-MONOMER" -"G81_RNA" "mRNA" [] "UXAC-MONOMER" -"G8202_RNA" "mRNA" [] "G8202-MONOMER" -"G8204_RNA" "mRNA" [] "G8204-MONOMER" -"G8205_RNA" "mRNA" [] "G8205-MONOMER" -"G8207_RNA" "mRNA" [] "PD02366" -"G8208_RNA" "mRNA" [] "G8208-MONOMER" -"G8209_RNA" "mRNA" [] "G8209-MONOMER" -"G8210_RNA" "mRNA" [] "G8210-MONOMER" -"G8221_RNA" "mRNA" [] "G8221-MONOMER" -"G85_RNA" "mRNA" [] "XANTHOSINEPHOSPHORY-MONOMER" -"GB4478_RNA" "mRNA" [] "GALACTONATE-DEHYDRATASE-MONOMER" -"GCVB-RNA" "miscRNA" [] "null" -"IS061-RNA" "miscRNA" [] "null" -"IS092-RNA" "miscRNA" [] "null" -"IS102-RNA" "miscRNA" [] "null" -"IS128-RNA" "miscRNA" [] "null" -"IS183-RNA" "miscRNA" [] "null" -"M004_RNA" "mRNA" [] "RIBULP3EPIM-MONOMER" -"M007_RNA" "mRNA" [] "THZ-KIN-MONOMER" -"M009_RNA" "mRNA" [] "PHENYLPRODIOXY-MONOMER" -"M010_RNA" "mRNA" [] "MHPHYDROXY-MONOMER" -"M011_RNA" "mRNA" [] "DHPDIOXYGEN-MONOMER" -"M012_RNA" "mRNA" [] "MHPCHYDROL-MONOMER" -"M013_RNA" "mRNA" [] "MHPDHYDROL-MONOMER" -"M014_RNA" "mRNA" [] "MHPF-MONOMER" -"M015_RNA" "mRNA" [] "HCAA2-MONOMER" -"MICF-RNA" "miscRNA" [] "null" -"OXYS-RNA" "miscRNA" [] "null" -"RDLD-RNA" "miscRNA" [] "null" -"RNA0-122" "miscRNA" [] "null" -"RNA0-123" "miscRNA" [] "null" -"RNA0-124" "miscRNA" [] "null" -"RNA0-125" "miscRNA" [] "null" -"RNA0-126" "miscRNA" [] "null" -"RNA0-127" "miscRNA" [] "null" -"RNA0-128" "miscRNA" [] "null" -"RNA0-141" "miscRNA" [] "null" -"RNA0-161" "miscRNA" [] "null" -"RNA0-162" "miscRNA" [] "null" -"RNA0-163" "miscRNA" [] "null" -"RNA0-164" "miscRNA" [] "null" -"RNA0-165" "miscRNA" [] "null" -"RNA0-241" "miscRNA" [] "null" -"RNA0-281" "miscRNA" [] "null" -"RNA0-282" "miscRNA" [] "null" -"RNA0-300" "tRNA" ["RNA0-311"] "null" -"RNA0-301" "tRNA" ["RNA0-312"] "null" -"RNA0-302" "tRNA" ["RNA0-313"] "null" -"RNA0-303" "tRNA" ["RNA0-314"] "null" -"RNA0-304" "tRNA" ["RNA0-310"] "null" -"RNA0-305" "tRNA" ["RNA0-309"] "null" -"RNA0-306" "tRNA" ["CHARGED-FMETV-TRNA", "RNA0-321"] "null" -"RNA0-327" "miscRNA" [] "null" -"RNA0-328" "miscRNA" [] "null" -"RNA0-330" "miscRNA" [] "null" -"RNA0-331" "miscRNA" [] "null" -"RNA0-332" "miscRNA" [] "null" -"RNA0-333" "miscRNA" [] "null" -"RNA0-334" "miscRNA" [] "null" -"RNA0-348" "miscRNA" [] "null" -"RNA0-349" "miscRNA" [] "null" -"RNA0-351" "miscRNA" [] "null" -"RNA0-357" "miscRNA" [] "null" -"RNA0-358" "miscRNA" [] "null" -"RNA0-359" "miscRNA" [] "null" -"RNA0-360" "miscRNA" [] "null" -"RNA0-361" "miscRNA" [] "null" -"RNA0-362" "miscRNA" [] "null" -"RNA0-363" "miscRNA" [] "null" -"RNA0-364" "miscRNA" [] "null" -"RNA0-365" "miscRNA" [] "null" -"RNA0-366" "miscRNA" [] "null" -"RNA0-367" "miscRNA" [] "null" -"RNA0-368" "miscRNA" [] "null" -"RNA0-372" "miscRNA" [] "null" -"RNA0-378" "miscRNA" [] "null" -"RNA0-379" "miscRNA" [] "null" -"RNA0-380" "miscRNA" [] "null" -"RNPB-RNA" "miscRNA" [] "null" -"RPRA-RNA" "miscRNA" [] "null" -"RRFA-RRNA" "rRNA" [] "null" -"RRFB-RRNA" "rRNA" [] "null" -"RRFC-RRNA" "rRNA" [] "null" -"RRFD-RRNA" "rRNA" [] "null" -"RRFE-RRNA" "rRNA" [] "null" -"RRFF-RRNA" "rRNA" [] "null" -"RRFG-RRNA" "rRNA" [] "null" -"RRFH-RRNA" "rRNA" [] "null" -"RRLA-RRNA" "rRNA" [] "null" -"RRLB-RRNA" "rRNA" [] "null" -"RRLC-RRNA" "rRNA" [] "null" -"RRLD-RRNA" "rRNA" [] "null" -"RRLE-RRNA" "rRNA" [] "null" -"RRLG-RRNA" "rRNA" [] "null" -"RRLH-RRNA" "rRNA" [] "null" -"RRSA-RRNA" "rRNA" [] "null" -"RRSB-RRNA" "rRNA" [] "null" -"RRSC-RRNA" "rRNA" [] "null" -"RRSD-RRNA" "rRNA" [] "null" -"RRSE-RRNA" "rRNA" [] "null" -"RRSG-RRNA" "rRNA" [] "null" -"RRSH-RRNA" "rRNA" [] "null" -"RUVA_RNA" "mRNA" [] "EG10923-MONOMER" -"RUVB_RNA" "mRNA" [] "EG10924-MONOMER" -"RYBA-RNA" "miscRNA" [] "null" -"RYBB-RNA" "miscRNA" [] "null" -"RYDB-RNA" "miscRNA" [] "null" -"RYEA-RNA" "miscRNA" [] "null" -"RYEB-RNA" "miscRNA" [] "null" -"RYEC-RNA" "miscRNA" [] "null" -"RYED-RNA" "miscRNA" [] "null" -"RYEE-RNA" "miscRNA" [] "null" -"RYFA-RNA" "miscRNA" [] "null" -"RYGB-RNA" "miscRNA" [] "null" -"RYGC-RNA" "miscRNA" [] "null" -"SPF-RNA" "miscRNA" [] "null" -"SRAA-RNA" "miscRNA" [] "null" -"SRAB-RNA" "miscRNA" [] "null" -"SRAD-RNA" "miscRNA" [] "null" -"SRAE-RNA" "miscRNA" [] "null" -"SRAG-RNA" "miscRNA" [] "null" -"SRAH-RNA" "miscRNA" [] "null" -"SRAI-RNA" "miscRNA" [] "null" -"SRAJ-RNA" "miscRNA" [] "null" -"SRAL-RNA" "miscRNA" [] "null" -"SSRA-RNA" "miscRNA" [] "null" -"T44-RNA" "miscRNA" [] "null" -"TKE1-RNA" "miscRNA" [] "null" -"TKE8-RNA" "miscRNA" [] "null" -"TP2-RNA" "miscRNA" [] "null" -"TPKE11-RNA" "miscRNA" [] "null" -"TPKE70-RNA" "miscRNA" [] "null" -"alaT-tRNA" "tRNA" ["charged-alaT-tRNA"] "null" -"alaU-tRNA" "tRNA" ["charged-alaU-tRNA"] "null" -"alaV-tRNA" "tRNA" ["charged-alaV-tRNA"] "null" -"alaW-tRNA" "tRNA" ["charged-alaW-tRNA"] "null" -"alaX-tRNA" "tRNA" ["charged-alaX-tRNA"] "null" -"argQ-tRNA" "tRNA" ["charged-argQ-tRNA"] "null" -"argU-tRNA" "tRNA" ["charged-argU-tRNA"] "null" -"argV-tRNA" "tRNA" ["charged-argV-tRNA"] "null" -"argW-tRNA" "tRNA" ["charged-argW-tRNA"] "null" -"argX-tRNA" "tRNA" ["charged-argX-tRNA"] "null" -"argY-tRNA" "tRNA" ["charged-argY-tRNA"] "null" -"argZ-tRNA" "tRNA" ["charged-argZ-tRNA"] "null" -"asnT-tRNA" "tRNA" ["charged-asnT-tRNA"] "null" -"asnU-tRNA" "tRNA" ["charged-asnU-tRNA"] "null" -"asnV-tRNA" "tRNA" ["charged-asnV-tRNA"] "null" -"aspT-tRNA" "tRNA" ["charged-aspT-tRNA"] "null" -"aspU-tRNA" "tRNA" ["charged-aspU-tRNA"] "null" -"aspV-tRNA" "tRNA" ["charged-aspV-tRNA"] "null" -"cysT-tRNA" "tRNA" ["charged-cysT-tRNA"] "null" -"glnU-tRNA" "tRNA" ["charged-glnU-tRNA"] "null" -"glnV-tRNA" "tRNA" ["charged-glnV-tRNA"] "null" -"glnW-tRNA" "tRNA" ["charged-glnW-tRNA"] "null" -"glnX-tRNA" "tRNA" ["charged-glnX-tRNA"] "null" -"gltT-tRNA" "tRNA" ["charged-gltT-tRNA"] "null" -"gltU-tRNA" "tRNA" ["charged-gltU-tRNA"] "null" -"gltV-tRNA" "tRNA" ["charged-gltV-tRNA"] "null" -"gltW-tRNA" "tRNA" ["charged-gltW-tRNA"] "null" -"glyT-tRNA" "tRNA" ["charged-glyT-tRNA"] "null" -"glyU-tRNA" "tRNA" ["charged-glyU-tRNA"] "null" -"glyV-tRNA" "tRNA" ["charged-glyV-tRNA"] "null" -"glyW-tRNA" "tRNA" ["charged-glyW-tRNA"] "null" -"glyX-tRNA" "tRNA" ["charged-glyX-tRNA"] "null" -"glyY-tRNA" "tRNA" ["charged-glyY-tRNA"] "null" -"hisR-tRNA" "tRNA" ["charged-hisR-tRNA"] "null" -"ileT-tRNA" "tRNA" ["charged-ileT-tRNA"] "null" -"ileU-tRNA" "tRNA" ["charged-ileU-tRNA"] "null" -"ileV-tRNA" "tRNA" ["charged-ileV-tRNA"] "null" -"ileX-tRNA" "tRNA" ["charged-ileX-tRNA"] "null" -"leuP-tRNA" "tRNA" ["charged-leuP-tRNA"] "null" -"leuQ-tRNA" "tRNA" ["charged-leuQ-tRNA"] "null" -"leuT-tRNA" "tRNA" ["charged-leuT-tRNA"] "null" -"leuU-tRNA" "tRNA" ["charged-leuU-tRNA"] "null" -"leuV-tRNA" "tRNA" ["charged-leuV-tRNA"] "null" -"leuW-tRNA" "tRNA" ["charged-leuW-tRNA"] "null" -"leuX-tRNA" "tRNA" ["charged-leuX-tRNA"] "null" -"leuZ-tRNA" "tRNA" ["charged-leuZ-tRNA"] "null" -"lysT-tRNA" "tRNA" ["charged-lysT-tRNA"] "null" -"lysV-tRNA" "tRNA" ["charged-lysV-tRNA"] "null" -"lysW-tRNA" "tRNA" ["charged-lysW-tRNA"] "null" -"metT-tRNA" "tRNA" ["charged-metT-tRNA"] "null" -"metU-tRNA" "tRNA" ["charged-metU-tRNA"] "null" -"metW-tRNA" "tRNA" ["CHARGED-FMETW-TRNA", "RNA0-319"] "null" -"metY-tRNA" "tRNA" ["CHARGED-FMETY-TRNA", "RNA0-322"] "null" -"metZ-tRNA" "tRNA" ["CHARGED-FMETZ-TRNA", "RNA0-323"] "null" -"pheU-tRNA" "tRNA" ["charged-pheU-tRNA"] "null" -"pheV-tRNA" "tRNA" ["charged-pheV-tRNA"] "null" -"proK-tRNA" "tRNA" ["charged-proK-tRNA"] "null" -"proL-tRNA" "tRNA" ["charged-proL-tRNA"] "null" -"proM-tRNA" "tRNA" ["charged-proM-tRNA"] "null" -"selC-tRNA" "tRNA" ["charged-selC-tRNA", "modified-charged-selC-tRNA"] "null" -"serT-tRNA" "tRNA" ["charged-serT-tRNA"] "null" -"serU-tRNA" "tRNA" ["charged-serU-tRNA"] "null" -"serV-tRNA" "tRNA" ["charged-serV-tRNA"] "null" -"serW-tRNA" "tRNA" ["charged-serW-tRNA"] "null" -"serX-tRNA" "tRNA" ["charged-serX-tRNA"] "null" -"thrT-tRNA" "tRNA" ["charged-thrT-tRNA"] "null" -"thrU-tRNA" "tRNA" ["charged-thrU-tRNA"] "null" -"thrV-tRNA" "tRNA" ["charged-thrV-tRNA"] "null" -"thrW-tRNA" "tRNA" ["charged-thrW-tRNA"] "null" -"trpT-tRNA" "tRNA" ["charged-trpT-tRNA"] "null" -"tyrT-tRNA" "tRNA" ["charged-tyrT-tRNA"] "null" -"tyrU-tRNA" "tRNA" ["charged-tyrU-tRNA"] "null" -"tyrV-tRNA" "tRNA" ["charged-tyrV-tRNA"] "null" -"valT-tRNA" "tRNA" ["charged-valT-tRNA"] "null" -"valU-tRNA" "tRNA" ["charged-valU-tRNA"] "null" -"valV-tRNA" "tRNA" ["charged-valV-tRNA"] "null" -"valW-tRNA" "tRNA" ["charged-valW-tRNA"] "null" -"valX-tRNA" "tRNA" ["charged-valX-tRNA"] "null" -"valY-tRNA" "tRNA" ["charged-valY-tRNA"] "null" +# Organism: Escherichia coli K-12 substr. MG1655 +# Database: EcoCyc +# Version: 25.5 +# Date and time generated: April 22, 2021, 16:00:10 +"id" "common_name" "synonyms" "type" "modified_forms" "gene_id" "monomer_ids" "anticodon" "coding_segments" +"EG10001_RNA" "alr" ["alr", "alr5", "b4053", "ECK4045"] "mRNA" [] "EG10001" ["ALARACEBIOSYN-MONOMER"] null [] +"EG10002_RNA" "modB" ["modB", "chlJ", "tslJ", "b0764", "ECK0753"] "mRNA" [] "EG10002" ["MODB-MONOMER"] null [] +"EG10003_RNA" "cysZ" ["cysZ", "b2413", "ECK2408"] "mRNA" [] "EG10003" ["EG10003-MONOMER"] null [] +"EG10004_RNA" "dfp" ["dfp", "coaBC", "b3639", "ECK3629"] "mRNA" [] "EG10004" ["EG10004-MONOMER"] null [] +"EG10006_RNA" "dcuB" ["dcuB", "genF", "b4123", "ECK4116"] "mRNA" [] "EG10006" ["DCUB-MONOMER"] null [] +"EG10007_RNA" "hisM" ["hisM", "b2307", "ECK2301"] "mRNA" [] "EG10007" ["HISM-MONOMER"] null [] +"EG10008_RNA" "zraS" ["zraS", "hydH", "b4003", "ECK3995"] "mRNA" [] "EG10008" ["HYDH-MONOMER"] null [] +"EG10010_RNA" "rhsE" ["rhsE", "b1456", "ECK1450"] "pseudo" [] "EG10010" ["EG10010-MONOMER"] null [] +"EG10011_RNA" "yaaA" ["yaaA", "b0006", "ECK0006"] "mRNA" [] "EG10011" ["EG10011-MONOMER"] null [] +"EG10012_RNA" "cydC" ["cydC", "mdrA", "mdrH", "surB", "ycaB", "b0886", "ECK0877"] "mRNA" [] "EG10012" ["CYDC-MONOMER"] null [] +"EG10013_RNA" "mepM" ["mepM", "yebA", "b1856", "ECK1857"] "mRNA" [] "EG10013" ["EG10013-MONOMER"] null [] +"EG10014_RNA" "acrD" ["acrD", "yffA", "b2470", "ECK2465"] "mRNA" [] "EG10014" ["ACRD-MONOMER"] null [] +"EG10015_RNA" "rodZ" ["rodZ", "yfgA", "b2516", "ECK2512"] "mRNA" [] "EG10015" ["EG10015-MONOMER"] null [] +"EG10016_RNA" "garL" ["garL", "yhaF", "b3126", "ECK3114"] "mRNA" [] "EG10016" ["KDGALDOL-MONOMER"] null [] +"EG10017_RNA" "ispB" ["ispB", "cel", "yhbD", "b3187", "ECK3176"] "mRNA" [] "EG10017" ["OPPSYN-MONOMER"] null [] +"EG10018_RNA" "csrD" ["csrD", "yhdA", "b3252", "ECK3240"] "mRNA" [] "EG10018" ["EG10018-MONOMER"] null [] +"EG10020_RNA" "cpxR" ["cpxR", "yiiA", "b3912", "ECK3905"] "mRNA" [] "EG10020" ["CPXR-MONOMER"] null [] +"EG10021_RNA" "yjiA" ["yjiA", "b4352", "ECK4342"] "mRNA" [] "EG10021" ["EG10021-MONOMER"] null [] +"EG10022_RNA" "aceA" ["aceA", "icl", "b4015", "ECK4007"] "mRNA" [] "EG10022" ["ISOCIT-LYASE-MONOMER"] null [] +"EG10023_RNA" "aceB" ["aceB", "mas", "b4014", "ECK4006"] "mRNA" [] "EG10023" ["MALATE-SYNTHASE"] null [] +"EG10024_RNA" "aceE" ["aceE", "b0114", "ECK0113"] "mRNA" [] "EG10024" ["E1P-MONOMER"] null [] +"EG10025_RNA" "aceF" ["aceF", "b0115", "ECK0114"] "mRNA" [] "EG10025" ["E2P-MONOMER"] null [] +"EG10026_RNA" "aceK" ["aceK", "b4016", "ECK4008"] "mRNA" [] "EG10026" ["ICITDEHASE-KIN-PHOSPHA"] null [] +"EG10027_RNA" "ackA" ["ackA", "b2296", "ECK2290"] "mRNA" [] "EG10027" ["ACETATEKINA-MONOMER"] null [] +"EG10028_RNA" "pflA" ["pflA", "act", "b0902", "ECK0893"] "mRNA" [] "EG10028" ["PFLACTENZ-MONOMER"] null [] +"EG10029_RNA" "ada" ["ada", "b2213", "ECK2205"] "mRNA" [] "EG10029" ["PD00230"] null [] +"EG10030_RNA" "add" ["add", "b1623", "ECK1618"] "mRNA" [] "EG10030" ["ADENODEAMIN-MONOMER"] null [] +"EG10031_RNA" "adhE" ["adhE", "adhC", "ana", "b1241", "ECK1235"] "mRNA" [] "EG10031" ["ADHE-MONOMER"] null [] +"EG10032_RNA" "adk" ["adk", "dnaW", "plsA", "b0474", "ECK0468"] "mRNA" [] "EG10032" ["ADENYL-KIN-MONOMER"] null [] +"EG10033_RNA" "agp" ["agp", "b1002", "ECK0993"] "mRNA" [] "EG10033" ["GLUCOSE-1-PHOSPHAT-MONOMER"] null [] +"EG10034_RNA" "alaS" ["alaS", "act", "ala-act", "lovB", "b2697", "ECK2692"] "mRNA" [] "EG10034" ["ALAS-MONOMER"] null [] +"EG10035_RNA" "aldA" ["aldA", "ald", "b1415", "ECK1408"] "mRNA" [] "EG10035" ["LACTALDDEHYDROG-MONOMER"] null [] +"EG10036_RNA" "puuC" ["puuC", "aldH", "b1300", "ECK1295"] "mRNA" [] "EG10036" ["ALDHDEHYDROG-MONOMER"] null [] +"EG10037_RNA" "alkB" ["alkB", "aidD", "b2212", "ECK2204"] "mRNA" [] "EG10037" ["EG10037-MONOMER"] null [] +"EG10039_RNA" "amn" ["amn", "b1982", "ECK1977"] "mRNA" [] "EG10039" ["AMP-NUCLEOSID-MONOMER"] null [] +"EG10040_RNA" "ampC" ["ampC", "ampA", "b4150", "ECK4146"] "mRNA" [] "EG10040" ["EG10040-MONOMER"] null [] +"EG10041_RNA" "ampD" ["ampD", "b0110", "ECK0109"] "mRNA" [] "EG10041" ["EG10041-MONOMER"] null [] +"EG10042_RNA" "ampE" ["ampE", "b0111", "ECK0110"] "mRNA" [] "EG10042" ["EG10042-MONOMER"] null [] +"EG10043_RNA" "cysQ" ["cysQ", "amt", "amtA", "b4214", "ECK4210"] "mRNA" [] "EG10043" ["EG10043-MONOMER"] null [] +"EG10044_RNA" "osmE" ["osmE", "anr", "b1739", "ECK1737"] "mRNA" [] "EG10044" ["EG10044-MONOMER"] null [] +"EG10045_RNA" "ansA" ["ansA", "b1767", "ECK1765"] "mRNA" [] "EG10045" ["ANSA-MONOMER"] null [] +"EG10046_RNA" "ansB" ["ansB", "b2957", "ECK2952"] "mRNA" [] "EG10046" ["ANSB-MONOMER"] null [] +"EG10047_RNA" "apaG" ["apaG", "b0050", "ECK0051"] "mRNA" [] "EG10047" ["EG10047-MONOMER"] null [] +"EG10048_RNA" "apaH" ["apaH", "cfcB", "b0049", "ECK0050"] "mRNA" [] "EG10048" ["EG10048-MONOMER"] null [] +"EG10049_RNA" "appA" ["appA", "b0980", "ECK0971"] "mRNA" [] "EG10049" ["APPA-MONOMER"] null [] +"EG10050_RNA" "appY" ["appY", "b0564", "ECK0556"] "mRNA" [] "EG10050" ["PD00967"] null [] +"EG10051_RNA" "apt" ["apt", "b0469", "ECK0463"] "mRNA" [] "EG10051" ["ADENPRIBOSYLTRAN-MONOMER"] null [] +"EG10052_RNA" "araA" ["araA", "b0062", "ECK0063"] "mRNA" [] "EG10052" ["ARABISOM-MONOMER"] null [] +"EG10053_RNA" "araB" ["araB", "b0063", "ECK0064"] "mRNA" [] "EG10053" ["RIBULOKIN-MONOMER"] null [] +"EG10054_RNA" "araC" ["araC", "b0064", "ECK0065"] "mRNA" [] "EG10054" ["PD00242"] null [] +"EG10055_RNA" "araD" ["araD", "b0061", "ECK0062"] "mRNA" [] "EG10055" ["RIBULPEPIM-MONOMER"] null [] +"EG10056_RNA" "araE" ["araE", "b2841", "ECK2839"] "mRNA" [] "EG10056" ["ARAE-MONOMER"] null [] +"EG10057_RNA" "araF" ["araF", "b1901", "ECK1899"] "mRNA" [] "EG10057" ["ARAF-MONOMER"] null [] +"EG10058_RNA" "araG" ["araG", "b1900", "ECK1898"] "mRNA" [] "EG10058" ["ARAG-MONOMER"] null [] +"EG10059_RNA" "araH" ["araH", "b1898", "b1899", "b4460", "ECK1897"] "mRNA" [] "EG10059" ["ARAH-MONOMER"] null [] +"EG10060_RNA" "araJ" ["araJ", "araT", "b0396", "ECK0390"] "mRNA" [] "EG10060" ["ARAJ-MONOMER"] null [] +"EG10061_RNA" "arcA" ["arcA", "sfrA", "cpxC", "dye", "fexA", "msp", "seg", "b4401", "ECK4393"] "mRNA" [] "EG10061" ["ARCA-MONOMER"] null [] +"EG10062_RNA" "arcB" ["arcB", "b3210", "ECK3200"] "mRNA" [] "EG10062" ["ARCB-MONOMER"] null [] +"EG10063_RNA" "argA" ["argA", "Arg2", "Arg1", "b2818", "ECK2814"] "mRNA" [] "EG10063" ["N-ACETYLTRANSFER-MONOMER"] null [] +"EG10064_RNA" "argB" ["argB", "b3959", "ECK3950"] "mRNA" [] "EG10064" ["ACETYLGLUTKIN-MONOMER"] null [] +"EG10065_RNA" "argC" ["argC", "Arg2", "b3958", "ECK3949"] "mRNA" [] "EG10065" ["N-ACETYLGLUTPREDUCT-MONOMER"] null [] +"EG10066_RNA" "argD" ["argD", "Arg1", "dapC", "dtu", "b3359", "ECK3347"] "mRNA" [] "EG10066" ["ACETYLORNTRANSAM-MONOMER"] null [] +"EG10067_RNA" "argF" ["argF", "b0273", "ECK0274"] "mRNA" [] "EG10067" ["CHAINF-MONOMER"] null [] +"EG10068_RNA" "argG" ["argG", "b3172", "ECK3161"] "mRNA" [] "EG10068" ["ARGSUCCINSYN-MONOMER"] null [] +"EG10069_RNA" "argI" ["argI", "b4254", "ECK4247"] "mRNA" [] "EG10069" ["CHAINI-MONOMER"] null [] +"EG10070_RNA" "argR" ["argR", "Rarg", "xerA", "b3237", "ECK3226"] "mRNA" [] "EG10070" ["PD00194"] null [] +"EG10071_RNA" "argS" ["argS", "lov", "lov-1", "b1876", "ECK1877"] "mRNA" [] "EG10071" ["ARGS-MONOMER"] null [] +"EG10072_RNA" "argT" ["argT", "b2310", "ECK2304"] "mRNA" [] "EG10072" ["ARGT-MONOMER"] null [] +"EG10073_RNA" "aroA" ["aroA", "b0908", "ECK0899"] "mRNA" [] "EG10073" ["AROA-MONOMER"] null [] +"EG10074_RNA" "aroB" ["aroB", "b3389", "ECK3376"] "mRNA" [] "EG10074" ["AROB-MONOMER"] null [] +"EG10075_RNA" "aroC" ["aroC", "b2329", "ECK2323"] "mRNA" [] "EG10075" ["AROC-MONOMER"] null [] +"EG10076_RNA" "aroD" ["aroD", "b1693", "ECK1691"] "mRNA" [] "EG10076" ["AROD-MONOMER"] null [] +"EG10077_RNA" "aroE" ["aroE", "b3281", "ECK3268"] "mRNA" [] "EG10077" ["AROE-MONOMER"] null [] +"EG10078_RNA" "aroF" ["aroF", "b2601", "ECK2598"] "mRNA" [] "EG10078" ["AROF-MONOMER"] null [] +"EG10079_RNA" "aroG" ["aroG", "b0754", "ECK0743"] "mRNA" [] "EG10079" ["AROG-MONOMER"] null [] +"EG10080_RNA" "aroH" ["aroH", "b1704", "ECK1702"] "mRNA" [] "EG10080" ["AROH-MONOMER"] null [] +"EG10081_RNA" "aroK" ["aroK", "b3390", "ECK3377"] "mRNA" [] "EG10081" ["AROK-MONOMER"] null [] +"EG10082_RNA" "aroL" ["aroL", "b0388", "ECK0383"] "mRNA" [] "EG10082" ["AROL-MONOMER"] null [] +"EG10083_RNA" "aroM" ["aroM", "b0390", "ECK0385"] "mRNA" [] "EG10083" ["EG10083-MONOMER"] null [] +"EG10084_RNA" "aroP" ["aroP", "aroR", "b0112", "ECK0111"] "mRNA" [] "EG10084" ["AROP-MONOMER"] null [] +"EG10085_RNA" "ascB" ["ascB", "sac", "b2716", "ECK2711"] "mRNA" [] "EG10085" ["EG10085-MONOMER"] null [] +"EG10086_RNA" "ascF" ["ascF", "sac", "b2715", "ECK2710"] "mRNA" [] "EG10086" ["ASCF-MONOMER"] null [] +"EG10087_RNA" "ascG" ["ascG", "sac", "b2714", "ECK2709"] "mRNA" [] "EG10087" ["EG10087-MONOMER"] null [] +"EG10088_RNA" "asd" ["asd", "dap", "hom", "b3433", "ECK3419"] "mRNA" [] "EG10088" ["ASP-SEMIALDEHYDE-DEHYDROGENASE-MONOMER"] null [] +"EG10089_RNA" "aslA" ["aslA", "gppB", "atsA", "b3801", "ECK3794"] "mRNA" [] "EG10089" ["ARYLSULFAT-MONOMER"] null [] +"EG10090_RNA" "aslB" ["aslB", "gppB", "atsB", "b3800", "ECK3793"] "mRNA" [] "EG10090" ["EG10090-MONOMER"] null [] +"EG10091_RNA" "asnA" ["asnA", "b3744", "ECK3738"] "mRNA" [] "EG10091" ["ASNSYNA-MONOMER"] null [] +"EG10092_RNA" "asnB" ["asnB", "b0674", "ECK0662"] "mRNA" [] "EG10092" ["ASNSYNB-MONOMER"] null [] +"EG10093_RNA" "asnC" ["asnC", "b3743", "ECK3737"] "mRNA" [] "EG10093" ["PD00250"] null [] +"EG10094_RNA" "asnS" ["asnS", "lcs", "tss", "b0930", "ECK0921"] "mRNA" [] "EG10094" ["ASNS-MONOMER"] null [] +"EG10095_RNA" "aspA" ["aspA", "b4139", "ECK4133"] "mRNA" [] "EG10095" ["ASPARTASE-MONOMER"] null [] +"EG10096_RNA" "aspC" ["aspC", "b0928", "ECK0919"] "mRNA" [] "EG10096" ["ASPAMINOTRANS-MONOMER"] null [] +"EG10097_RNA" "aspS" ["aspS", "tls", "b1866", "ECK1867"] "mRNA" [] "EG10097" ["ASPS-MONOMER"] null [] +"EG10098_RNA" "atpA" ["atpA", "papA", "uncA", "b3734", "ECK3727"] "mRNA" [] "EG10098" ["ATPA-MONOMER"] null [] +"EG10099_RNA" "atpB" ["atpB", "papD", "uncB", "b3738", "ECK3731"] "mRNA" [] "EG10099" ["ATPB-MONOMER"] null [] +"EG10100_RNA" "atpC" ["atpC", "papG", "uncC", "b3731", "ECK3724"] "mRNA" [] "EG10100" ["ATPC-MONOMER"] null [] +"EG10101_RNA" "atpD" ["atpD", "papB", "uncD", "b3732", "ECK3725"] "mRNA" [] "EG10101" ["ATPD-MONOMER"] null [] +"EG10102_RNA" "atpE" ["atpE", "papH", "uncE", "b3737", "ECK3730"] "mRNA" [] "EG10102" ["ATPE-MONOMER"] null [] +"EG10103_RNA" "atpF" ["atpF", "papF", "uncF", "b3736", "ECK3729"] "mRNA" [] "EG10103" ["ATPF-MONOMER"] null [] +"EG10104_RNA" "atpG" ["atpG", "papC", "uncG", "b3733", "ECK3726"] "mRNA" [] "EG10104" ["ATPG-MONOMER"] null [] +"EG10105_RNA" "atpH" ["atpH", "papE", "uncH", "b3735", "ECK3728"] "mRNA" [] "EG10105" ["ATPH-MONOMER"] null [] +"EG10106_RNA" "atpI" ["atpI", "uncI", "b3739", "ECK3732"] "mRNA" [] "EG10106" ["EG10106-MONOMER"] null [] +"EG10107_RNA" "avtA" ["avtA", "b3572", "ECK3561"] "mRNA" [] "EG10107" ["VALINE-PYRUVATE-AMINOTRANSFER-MONOMER"] null [] +"EG10108_RNA" "bcp" ["bcp", "b2480", "ECK2476"] "mRNA" [] "EG10108" ["EG10108-MONOMER"] null [] +"EG10109_RNA" "betA" ["betA", "b0311", "ECK0309"] "mRNA" [] "EG10109" ["CHD-MONOMER"] null [] +"EG10110_RNA" "betB" ["betB", "b0312", "ECK0310"] "mRNA" [] "EG10110" ["BADH-MONOMER"] null [] +"EG10111_RNA" "betI" ["betI", "b0313", "ECK0311"] "mRNA" [] "EG10111" ["PD00251"] null [] +"EG10112_RNA" "betT" ["betT", "b0314", "ECK0312"] "mRNA" [] "EG10112" ["BETT-MONOMER"] null [] +"EG10113_RNA" "bfr" ["bfr", "b3336", "ECK3323"] "mRNA" [] "EG10113" ["EG10113-MONOMER"] null [] +"EG10114_RNA" "bglB" ["bglB", "blgA", "b3721", "ECK3714"] "mRNA" [] "EG10114" ["EG10114-MONOMER"] null [] +"EG10115_RNA" "bglF" ["bglF", "bglS", "b3722", "ECK3715"] "mRNA" [] "EG10115" ["BGLF-MONOMER"] null [] +"EG10116_RNA" "bglG" ["bglG", "bglC", "b3723", "ECK3716"] "mRNA" [] "EG10116" ["EG10116-MONOMER"] null [] +"EG10117_RNA" "bioA" ["bioA", "b0774", "ECK0763"] "mRNA" [] "EG10117" ["DAPASYN-MONOMER"] null [] +"EG10118_RNA" "bioB" ["bioB", "b0775", "ECK0764"] "mRNA" [] "EG10118" ["BIOTIN-SYN-MONOMER"] null [] +"EG10119_RNA" "bioC" ["bioC", "b0777", "ECK0766"] "mRNA" [] "EG10119" ["EG10119-MONOMER"] null [] +"EG10120_RNA" "bioD" ["bioD", "b0778", "ECK0767"] "mRNA" [] "EG10120" ["DETHIOBIOTIN-SYN-MONOMER"] null [] +"EG10121_RNA" "bioF" ["bioF", "b0776", "ECK0765"] "mRNA" [] "EG10121" ["7KAPSYN-MONOMER"] null [] +"EG10122_RNA" "bioH" ["bioH", "bioB", "b3412", "ECK3399"] "mRNA" [] "EG10122" ["EG10122-MONOMER"] null [] +"EG10123_RNA" "birA" ["birA", "bioR", "dhbB", "b3973", "ECK3965"] "mRNA" [] "EG10123" ["BIOTINLIG-MONOMER"] null [] +"EG10124_RNA" "bisC" ["bisC", "b3551", "ECK3538"] "mRNA" [] "EG10124" ["EG10124-MONOMER"] null [] +"EG10125_RNA" "bolA" ["bolA", "b0435", "ECK0429"] "mRNA" [] "EG10125" ["EG10125-MONOMER"] null [] +"EG10126_RNA" "btuB" ["btuB", "bfe", "cer", "b3966", "ECK3958"] "mRNA" [] "EG10126" ["EG10126-MONOMER"] null [] +"EG10127_RNA" "btuC" ["btuC", "b1711", "ECK1709"] "mRNA" [] "EG10127" ["BTUC-MONOMER"] null [] +"EG10128_RNA" "btuD" ["btuD", "b1709", "ECK1707"] "mRNA" [] "EG10128" ["BTUD-MONOMER"] null [] +"EG10129_RNA" "btuE" ["btuE", "b1710", "ECK1708"] "mRNA" [] "EG10129" ["BTUE-MONOMER"] null [] +"EG10130_RNA" "btuR" ["btuR", "cobA", "b1270", "ECK1264"] "mRNA" [] "EG10130" ["COBALADENOSYLTRANS-MONOMER"] null [] +"EG10131_RNA" "cadA" ["cadA", "ldcI", "b4131", "ECK4125"] "mRNA" [] "EG10131" ["LYSDECARBOX-MONOMER"] null [] +"EG10132_RNA" "cadB" ["cadB", "b4132", "ECK4126"] "mRNA" [] "EG10132" ["CADB-MONOMER"] null [] +"EG10133_RNA" "cadC" ["cadC", "b4133", "ECK4127"] "mRNA" [] "EG10133" ["PD00436"] null [] +"EG10134_RNA" "carA" ["carA", "arg", "cap", "pyrA", "b0032", "ECK0033"] "mRNA" [] "EG10134" ["CARBPSYN-SMALL"] null [] +"EG10135_RNA" "carB" ["carB", "cap", "pyrA", "b0033", "ECK0034"] "mRNA" [] "EG10135" ["CARBPSYN-LARGE"] null [] +"EG10136_RNA" "cca" ["cca", "b3056", "ECK3046"] "mRNA" [] "EG10136" ["EG10136-MONOMER"] null [] +"EG10137_RNA" "cdd" ["cdd", "b2143", "ECK2136"] "mRNA" [] "EG10137" ["CYTIDEAM-MONOMER"] null [] +"EG10138_RNA" "cdh" ["cdh", "b3918", "ECK3910"] "mRNA" [] "EG10138" ["CDPDIGLYPYPHOSPHA-MONOMER"] null [] +"EG10139_RNA" "cdsA" ["cdsA", "cds", "b0175", "ECK0174"] "mRNA" [] "EG10139" ["CDPDIGLYSYN-MONOMER"] null [] +"EG10140_RNA" "chbB" ["chbB", "celA", "b1738", "ECK1736"] "mRNA" [] "EG10140" ["CELA-MONOMER"] null [] +"EG10141_RNA" "chbC" ["chbC", "celB", "hic", "b1737", "ECK1735"] "mRNA" [] "EG10141" ["CELB-MONOMER"] null [] +"EG10142_RNA" "chbA" ["chbA", "celC", "b1736", "ECK1734"] "mRNA" [] "EG10142" ["CELC-MONOMER"] null [] +"EG10143_RNA" "chbR" ["chbR", "celD", "b1735", "ECK1733"] "mRNA" [] "EG10143" ["EG10143-MONOMER"] null [] +"EG10144_RNA" "chbF" ["chbF", "ydjD", "celF", "b1734", "ECK1732"] "mRNA" [] "EG10144" ["EG10144-MONOMER"] null [] +"EG10145_RNA" "creD" ["creD", "refII", "cet", "b4400", "ECK4392"] "mRNA" [] "EG10145" ["EG10145-MONOMER"] null [] +"EG10146_RNA" "cheA" ["cheA", "b1888", "ECK1889"] "mRNA" [] "EG10146" ["PROTEIN-CHEA", "CHEA-SMALL"] null [[], [[292, 1965]]] +"EG10147_RNA" "cheB" ["cheB", "b1883", "ECK1884"] "mRNA" [] "EG10147" ["CHEB-MONOMER"] null [] +"EG10148_RNA" "cheR" ["cheR", "cheX", "b1884", "ECK1885"] "mRNA" [] "EG10148" ["CHER-MONOMER"] null [] +"EG10149_RNA" "cheW" ["cheW", "b1887", "ECK1888"] "mRNA" [] "EG10149" ["CHEW-MONOMER"] null [] +"EG10150_RNA" "cheY" ["cheY", "b1882", "ECK1883"] "mRNA" [] "EG10150" ["CHEY-MONOMER"] null [] +"EG10151_RNA" "cheZ" ["cheZ", "b1881", "ECK1882"] "mRNA" [] "EG10151" ["CHEZ-MONOMER"] null [] +"EG10152_RNA" "modC" ["modC", "chlD", "narD", "b0765", "ECK0754"] "mRNA" [] "EG10152" ["MODC-MONOMER"] null [] +"EG10153_RNA" "moeA" ["moeA", "bisB", "chlE", "narE", "b0827", "ECK0817"] "mRNA" [] "EG10153" ["EG10153-MONOMER"] null [] +"EG10154_RNA" "moeB" ["moeB", "chlN", "b0826", "ECK0816"] "mRNA" [] "EG10154" ["EG10154-MONOMER"] null [] +"EG10155_RNA" "cirA" ["cirA", "cir", "feuA", "b2155", "ECK2148"] "mRNA" [] "EG10155" ["EG10155-MONOMER"] null [] +"EG10156_RNA" "clpA" ["clpA", "lopD", "b0882", "ECK0873"] "mRNA" [] "EG10156" ["EG10156-MONOMER"] null [] +"EG10157_RNA" "clpB" ["clpB", "htpM", "b2592", "ECK2590"] "mRNA" [] "EG10157" ["MONOMER0-4519", "EG10157-MONOMER"] null [[[445, 2574]], []] +"EG10158_RNA" "clpP" ["clpP", "lopP", "b0437", "ECK0431"] "mRNA" [] "EG10158" ["EG10158-MONOMER"] null [] +"EG10159_RNA" "clpX" ["clpX", "lopC", "b0438", "ECK0432"] "mRNA" [] "EG10159" ["EG10159-MONOMER"] null [] +"EG10160_RNA" "cpdB" ["cpdB", "b4213", "ECK4209"] "mRNA" [] "EG10160" ["CPDB-MONOMER"] null [] +"EG10161_RNA" "cpsB" ["cpsB", "rfbM", "manC", "mni", "b2049", "ECK2043"] "mRNA" [] "EG10161" ["MANNPGUANYLTRANGDP-MONOMER"] null [] +"EG10162_RNA" "cpsG" ["cpsG", "rfbK", "manB", "b2048", "ECK2042"] "mRNA" [] "EG10162" ["PHOSMANMUT-MONOMER"] null [] +"EG10163_RNA" "cpxA" ["cpxA", "rssE", "ecfB", "eup", "ssd", "ecf", "b3911", "ECK3904"] "mRNA" [] "EG10163" ["CPXA-MONOMER"] null [] +"EG10164_RNA" "crp" ["crp", "cap", "csm", "gurB", "b3357", "ECK3345"] "mRNA" [] "EG10164" ["PD00257"] null [] +"EG10165_RNA" "crr" ["crr", "treD", "gsr", "iex", "tgs", "b2417", "ECK2412"] "mRNA" [] "EG10165" ["CRR-MONOMER"] null [] +"EG10166_RNA" "cspA" ["cspA", "b3556", "ECK3543"] "mRNA" [] "EG10166" ["PD03695"] null [] +"EG10167_RNA" "cstA" ["cstA", "ybdC", "b0598", "ECK0591"] "mRNA" [] "EG10167" ["EG10167-MONOMER"] null [] +"EG10168_RNA" "lnt" ["lnt", "cutE", "b0657", "ECK0649"] "mRNA" [] "EG10168" ["EG10168-MONOMER"] null [] +"EG10169_RNA" "cvpA" ["cvpA", "dedE", "b2313", "ECK2307"] "mRNA" [] "EG10169" ["EG10169-MONOMER"] null [] +"EG10170_RNA" "cyaA" ["cyaA", "cya", "b3806", "ECK3800"] "mRNA" [] "EG10170" ["ADENYLATECYC-MONOMER"] null [] +"EG10172_RNA" "cybB" ["cybB", "b1418", "ECK1410"] "mRNA" [] "EG10172" ["CYTOCHROME-B561-MONOMER"] null [] +"EG10173_RNA" "cydA" ["cydA", "cyd-1", "b0733", "ECK0721"] "mRNA" [] "EG10173" ["CYDA-MONOMER"] null [] +"EG10174_RNA" "cydB" ["cydB", "cyd-2", "b0734", "ECK0722"] "mRNA" [] "EG10174" ["CYDB-MONOMER"] null [] +"EG10175_RNA" "cynS" ["cynS", "cnt", "cyaN", "b0340", "ECK0337"] "mRNA" [] "EG10175" ["CYANLY-MONOMER"] null [] +"EG10176_RNA" "cynT" ["cynT", "b0339", "ECK0336"] "mRNA" [] "EG10176" ["CARBODEHYDRAT-MONOMER"] null [] +"EG10177_RNA" "cynX" ["cynX", "b0341", "ECK0338"] "mRNA" [] "EG10177" ["CYNX-MONOMER"] null [] +"EG10178_RNA" "cyoA" ["cyoA", "b0432", "ECK0426"] "mRNA" [] "EG10178" ["CYOA-MONOMER"] null [] +"EG10179_RNA" "cyoB" ["cyoB", "b0431", "ECK0425"] "mRNA" [] "EG10179" ["CYOB-MONOMER"] null [] +"EG10180_RNA" "cyoC" ["cyoC", "b0430", "ECK0424"] "mRNA" [] "EG10180" ["CYOC-MONOMER"] null [] +"EG10181_RNA" "cyoD" ["cyoD", "b0429", "ECK0423"] "mRNA" [] "EG10181" ["CYOD-MONOMER"] null [] +"EG10182_RNA" "cyoE" ["cyoE", "b0428", "ECK0422"] "mRNA" [] "EG10182" ["HEMEOSYN-MONOMER"] null [] +"EG10183_RNA" "cysA" ["cysA", "b2422", "ECK2417"] "mRNA" [] "EG10183" ["CYSA-MONOMER"] null [] +"EG10184_RNA" "cysB" ["cysB", "b1275", "ECK1269"] "mRNA" [] "EG10184" ["PD00232"] null [] +"EG10185_RNA" "cysC" ["cysC", "b2750", "ECK2745"] "mRNA" [] "EG10185" ["ADENYLYLSULFKIN-MONOMER"] null [] +"EG10186_RNA" "cysD" ["cysD", "b2752", "ECK2747"] "mRNA" [] "EG10186" ["CYSD-MONOMER"] null [] +"EG10187_RNA" "cysE" ["cysE", "b3607", "ECK3597"] "mRNA" [] "EG10187" ["SERINE-O-ACETTRAN-MONOMER"] null [] +"EG10188_RNA" "cysG" ["cysG", "b3368", "ECK3356"] "mRNA" [] "EG10188" ["SIROHEMESYN-MONOMER"] null [] +"EG10189_RNA" "cysH" ["cysH", "b2762", "ECK2757"] "mRNA" [] "EG10189" ["PAPSSULFOTRANS-MONOMER"] null [] +"EG10190_RNA" "cysI" ["cysI", "b2763", "ECK2758"] "mRNA" [] "EG10190" ["BETACOMP-MONOMER"] null [] +"EG10191_RNA" "cysJ" ["cysJ", "b2764", "ECK2759"] "mRNA" [] "EG10191" ["ALPHACOMP-MONOMER"] null [] +"EG10192_RNA" "cysK" ["cysK", "ssi5", "b2414", "ECK2409"] "mRNA" [] "EG10192" ["ACSERLYA-MONOMER"] null [] +"EG10193_RNA" "cysM" ["cysM", "b2421", "ECK2416"] "mRNA" [] "EG10193" ["ACSERLYB-MONOMER"] null [] +"EG10194_RNA" "cysN" ["cysN", "b2751", "ECK2746"] "mRNA" [] "EG10194" ["CYSN-MONOMER"] null [] +"EG10195_RNA" "cysP" ["cysP", "b2425", "ECK2420"] "mRNA" [] "EG10195" ["CYSP-MONOMER"] null [] +"EG10196_RNA" "cysS" ["cysS", "syc", "b0526", "ECK0519"] "mRNA" [] "EG10196" ["CYSS-MONOMER"] null [] +"EG10197_RNA" "cysU" ["cysU", "cysT", "b2424", "ECK2419"] "mRNA" [] "EG10197" ["CYST-MONOMER"] null [] +"EG10198_RNA" "cysW" ["cysW", "b2423", "ECK2418"] "mRNA" [] "EG10198" ["CYSW-MONOMER"] null [] +"EG10200_RNA" "cytR" ["cytR", "b3934", "ECK3926"] "mRNA" [] "EG10200" ["PD04028"] null [] +"EG10201_RNA" "dacA" ["dacA", "pfv", "b0632", "ECK0625"] "mRNA" [] "EG10201" ["EG10201-MONOMER"] null [] +"EG10202_RNA" "dacB" ["dacB", "b3182", "ECK3171"] "mRNA" [] "EG10202" ["EG10202-MONOMER"] null [] +"EG10203_RNA" "dacC" ["dacC", "b0839", "ECK0829"] "mRNA" [] "EG10203" ["EG10203-MONOMER"] null [] +"EG10204_RNA" "dam" ["dam", "b3387", "ECK3374"] "mRNA" [] "EG10204" ["EG10204-MONOMER"] null [] +"EG10205_RNA" "dapA" ["dapA", "b2478", "ECK2474"] "mRNA" [] "EG10205" ["DIHYDRODIPICSYN-MONOMER"] null [] +"EG10206_RNA" "dapB" ["dapB", "b0031", "ECK0032"] "mRNA" [] "EG10206" ["DIHYDROPICRED-MONOMER"] null [] +"EG10207_RNA" "dapD" ["dapD", "ssa", "b0166", "ECK0164"] "mRNA" [] "EG10207" ["MONOMER0-2001"] null [] +"EG10208_RNA" "dapE" ["dapE", "msgB", "b2472", "ECK2467"] "mRNA" [] "EG10208" ["MONOMER0-1981"] null [] +"EG10209_RNA" "dapF" ["dapF", "b3809", "ECK3804"] "mRNA" [] "EG10209" ["DIAMINOPIMEPIM-MONOMER"] null [] +"EG10210_RNA" "dbpA" ["dbpA", "rhlC", "b1343", "ECK1340"] "mRNA" [] "EG10210" ["EG10210-MONOMER"] null [] +"EG10211_RNA" "dcm" ["dcm", "mec", "b1961", "ECK1959"] "mRNA" [] "EG10211" ["EG10211-MONOMER"] null [] +"EG10212_RNA" "dcp" ["dcp", "b1538", "ECK1531"] "mRNA" [] "EG10212" ["EG10212-MONOMER"] null [] +"EG10213_RNA" "ddlA" ["ddlA", "b0381", "ECK0376"] "mRNA" [] "EG10213" ["DALADALALIGA-MONOMER"] null [] +"EG10214_RNA" "ddlB" ["ddlB", "ddl", "b0092", "ECK0093"] "mRNA" [] "EG10214" ["DALADALALIGB-MONOMER"] null [] +"EG10215_RNA" "deaD" ["deaD", "csdA", "mssB", "rhlD", "b3162", "ECK3150"] "mRNA" [] "EG10215" ["EG10215-MONOMER"] null [] +"EG10216_RNA" "dedA" ["dedA", "b2317", "ECK2311"] "mRNA" [] "EG10216" ["EG10216-MONOMER"] null [] +"EG10217_RNA" "accD" ["accD", "dedB", "usg", "b2316", "ECK2310"] "mRNA" [] "EG10217" ["CARBOXYL-TRANSFERASE-BETA-MONOMER"] null [] +"EG10218_RNA" "dedD" ["dedD", "b2314", "ECK2308"] "mRNA" [] "EG10218" ["EG10218-MONOMER"] null [] +"EG10219_RNA" "deoA" ["deoA", "TP", "tpp", "ttg", "b4382", "ECK4374"] "mRNA" [] "EG10219" ["DEOA-MONOMER"] null [] +"EG10220_RNA" "deoB" ["deoB", "tlr", "drm", "thyR", "b4383", "ECK4375"] "mRNA" [] "EG10220" ["PPENTOMUT-MONOMER"] null [] +"EG10221_RNA" "deoC" ["deoC", "tlr", "dra", "thyR", "b4381", "ECK4373"] "mRNA" [] "EG10221" ["DEOXYRIBOSE-P-ALD-MONOMER"] null [] +"EG10222_RNA" "deoD" ["deoD", "pup", "b4384", "ECK4376"] "mRNA" [] "EG10222" ["DEOD-MONOMER"] null [] +"EG10223_RNA" "deoR" ["deoR", "nucR", "b0840", "ECK0830"] "mRNA" [] "EG10223" ["PD01196"] null [] +"EG10224_RNA" "dgkA" ["dgkA", "b4042", "ECK4034"] "mRNA" [] "EG10224" ["DIACYLGLYKIN-MONOMER"] null [] +"EG10225_RNA" "dgt" ["dgt", "optA", "b0160", "ECK0159"] "mRNA" [] "EG10225" ["DGTPTRIPHYDRO-MONOMER"] null [] +"EG10226_RNA" "dicA" ["dicA", "ftsT", "b1570", "ECK1564"] "mRNA" [] "EG10226" ["EG10226-MONOMER"] null [] +"EG10227_RNA" "dicB" ["dicB", "ftsT", "b1575", "ECK1569"] "mRNA" [] "EG10227" ["EG10227-MONOMER"] null [] +"EG10228_RNA" "dicC" ["dicC", "ftsT", "b1569", "ECK1563"] "mRNA" [] "EG10228" ["EG10228-MONOMER"] null [] +"EG10229_RNA" "flk" ["flk", "div", "b2321", "ECK2315"] "mRNA" [] "EG10229" ["EG10229-MONOMER"] null [] +"EG10230_RNA" "dksA" ["dksA", "msmA", "b0145", "ECK0144"] "mRNA" [] "EG10230" ["EG10230-MONOMER"] null [] +"EG10231_RNA" "dld" ["dld", "ldh", "b2133", "ECK2126"] "mRNA" [] "EG10231" ["DLACTDEHYDROGFAD-MONOMER"] null [] +"EG10232_RNA" "dmsA" ["dmsA", "b0894", "ECK0885"] "mRNA" [] "EG10232" ["DMSA-MONOMER"] null [] +"EG10233_RNA" "dmsB" ["dmsB", "b0895", "ECK0886"] "mRNA" [] "EG10233" ["DMSB-MONOMER"] null [] +"EG10234_RNA" "dmsC" ["dmsC", "b0896", "ECK0887"] "mRNA" [] "EG10234" ["DMSC-MONOMER"] null [] +"EG10235_RNA" "dnaA" ["dnaA", "b3702", "ECK3694"] "mRNA" [] "EG10235" ["PD03831"] null [] +"EG10236_RNA" "dnaB" ["dnaB", "groP", "grpA", "grpD", "b4052", "ECK4044"] "mRNA" [] "EG10236" ["EG10236-MONOMER"] null [] +"EG10237_RNA" "dnaC" ["dnaC", "dnaD", "b4361", "ECK4351"] "mRNA" [] "EG10237" ["EG10237-MONOMER"] null [] +"EG10238_RNA" "dnaE" ["dnaE", "sdgC", "polC", "b0184", "ECK0183"] "mRNA" [] "EG10238" ["EG10238-MONOMER"] null [] +"EG10239_RNA" "dnaG" ["dnaG", "dnaP", "parB", "sdgA", "b3066", "ECK3056"] "mRNA" [] "EG10239" ["EG10239-MONOMER"] null [] +"EG10240_RNA" "dnaJ" ["dnaJ", "groP", "grpC", "b0015", "ECK0015"] "mRNA" [] "EG10240" ["EG10240-MONOMER"] null [] +"EG10241_RNA" "dnaK" ["dnaK", "groPF", "groPC", "seg", "grpF", "grpC", "groPAB", "b0014", "ECK0014"] "mRNA" [] "EG10241" ["EG10241-MONOMER"] null [] +"EG10242_RNA" "dnaN" ["dnaN", "b3701", "ECK3693"] "mRNA" [] "EG10242" ["EG10242-MONOMER"] null [] +"EG10243_RNA" "dnaQ" ["dnaQ", "mutD", "b0215", "ECK0215"] "mRNA" [] "EG10243" ["EG10243-MONOMER"] null [] +"EG10244_RNA" "dnaT" ["dnaT", "b4362", "ECK4352"] "mRNA" [] "EG10244" ["EG10244-MONOMER"] null [] +"EG10245_RNA" "dnaX" ["dnaX", "dnaZ", "b0470", "ECK0464"] "mRNA" [] "EG10245" ["MONOMER0-2383", "EG10245-MONOMER"] null [[[1, 1284], [1284, 1295]], []] +"EG10246_RNA" "mltD" ["mltD", "yafG", "dniR", "b0211", "ECK0211"] "mRNA" [] "EG10246" ["EG10246-MONOMER"] null [] +"EG10247_RNA" "acpS" ["acpS", "dpj", "b2563", "ECK2561"] "mRNA" [] "EG10247" ["HOLO-ACP-SYNTH-MONOMER"] null [] +"EG10248_RNA" "dppA" ["dppA", "alu", "dpp", "fpp", "b3544", "ECK3531"] "mRNA" [] "EG10248" ["DPPA-MONOMER"] null [] +"EG10249_RNA" "dsdA" ["dsdA", "b2366", "ECK2362"] "mRNA" [] "EG10249" ["DSERDEAM-MONOMER"] null [] +"EG10250_RNA" "dsdX" ["dsdX", "yfdD", "yfdA", "dsdC", "b2365", "ECK2361"] "mRNA" [] "EG10250" ["DSDX-MONOMER"] null [] +"EG10251_RNA" "dut" ["dut", "dnaS", "sof", "b3640", "ECK3630"] "mRNA" [] "EG10251" ["DUTP-PYROP-MONOMER"] null [] +"EG10252_RNA" "ebgA" ["ebgA", "b3076", "ECK3066"] "mRNA" [] "EG10252" ["EG10252-MONOMER"] null [] +"EG10253_RNA" "ebgC" ["ebgC", "b3077", "ECK3067"] "mRNA" [] "EG10253" ["EG10253-MONOMER"] null [] +"EG10254_RNA" "ebgR" ["ebgR", "b3075", "ECK3065"] "mRNA" [] "EG10254" ["PD03254"] null [] +"EG10255_RNA" "eco" ["eco", "eti", "b2209", "ECK2201"] "mRNA" [] "EG10255" ["EG10255-MONOMER"] null [] +"EG10256_RNA" "eda" ["eda", "hga", "kdgA", "kga", "b1850", "ECK1851"] "mRNA" [] "EG10256" ["KDPGALDOL-4OH2OXOGLUTARALDOL-MONOMER"] null [] +"EG10257_RNA" "edd" ["edd", "b1851", "ECK1852"] "mRNA" [] "EG10257" ["PGLUCONDEHYDRAT-MONOMER"] null [] +"EG10258_RNA" "eno" ["eno", "b2779", "ECK2773"] "mRNA" [] "EG10258" ["ENOLASE-MONOMER"] null [] +"EG10259_RNA" "entA" ["entA", "b0596", "ECK0589"] "mRNA" [] "EG10259" ["ENTA-MONOMER"] null [] +"EG10260_RNA" "entB" ["entB", "entG", "b0595", "ECK0588"] "mRNA" [] "EG10260" ["ENTB-MONOMER"] null [] +"EG10261_RNA" "entC" ["entC", "fepF", "b0593", "ECK0586"] "mRNA" [] "EG10261" ["ENTC-MONOMER"] null [] +"EG10262_RNA" "entD" ["entD", "b0583", "ECK0575"] "mRNA" [] "EG10262" ["ENTD-MONOMER"] null [] +"EG10263_RNA" "entE" ["entE", "b0594", "ECK0587"] "mRNA" [] "EG10263" ["ENTE-MONOMER"] null [] +"EG10264_RNA" "entF" ["entF", "b0586", "ECK0579"] "mRNA" [] "EG10264" ["ENTF-MONOMER"] null [] +"EG10265_RNA" "lpxC" ["lpxC", "asmB", "envA", "b0096", "ECK0097"] "mRNA" [] "EG10265" ["UDPACYLGLCNACDEACETYL-MONOMER"] null [] +"EG10266_RNA" "acrE" ["acrE", "envC", "b3265", "ECK3252"] "mRNA" [] "EG10266" ["EG10266-MONOMER"] null [] +"EG10267_RNA" "acrF" ["acrF", "envD", "b3266", "ECK3253"] "mRNA" [] "EG10267" ["ACRF-MONOMER"] null [] +"EG10268_RNA" "envY" ["envY", "b0566", "ECK0558"] "mRNA" [] "EG10268" ["PD00969"] null [] +"EG10269_RNA" "envZ" ["envZ", "tpo", "perA", "ompB", "b3404", "ECK3391"] "mRNA" [] "EG10269" ["ENVZ-MONOMER"] null [] +"EG10270_RNA" "era" ["era", "rbaA", "sdgE", "b2566", "ECK2564"] "mRNA" [] "EG10270" ["EG10270-MONOMER"] null [] +"EG10271_RNA" "exbB" ["exbB", "b3006", "ECK2999"] "mRNA" [] "EG10271" ["EG10271-MONOMER"] null [] +"EG10272_RNA" "exbD" ["exbD", "b3005", "ECK2998"] "mRNA" [] "EG10272" ["EG10272-MONOMER"] null [] +"EG10273_RNA" "fabA" ["fabA", "b0954", "ECK0945"] "mRNA" [] "EG10273" ["FABA-MONOMER"] null [] +"EG10274_RNA" "fabB" ["fabB", "fabC", "b2323", "ECK2317"] "mRNA" [] "EG10274" ["FABB-MONOMER"] null [] +"EG10275_RNA" "accB" ["accB", "fabE", "b3255", "ECK3242"] "mRNA" [] "EG10275" ["BCCP-MONOMER"] null [] +"EG10276_RNA" "accC" ["accC", "fabG", "b3256", "ECK3243"] "mRNA" [] "EG10276" ["BIOTIN-CARBOXYL-MONOMER"] null [] +"EG10277_RNA" "fabH" ["fabH", "b1091", "ECK1077"] "mRNA" [] "EG10277" ["FABH-MONOMER"] null [] +"EG10278_RNA" "fadA" ["fadA", "oldA", "b3845", "ECK3837"] "mRNA" [] "EG10278" ["FADA-MONOMER"] null [] +"EG10279_RNA" "fadB" ["fadB", "oldB", "b3846", "ECK3838"] "mRNA" [] "EG10279" ["FADB-MONOMER"] null [] +"EG10280_RNA" "fadL" ["fadL", "ttr", "b2344", "ECK2338"] "mRNA" [] "EG10280" ["EG10280-MONOMER"] null [] +"EG10281_RNA" "fadR" ["fadR", "dec", "ole", "oleR", "thdB", "b1187", "ECK1175"] "mRNA" [] "EG10281" ["PD01520"] null [] +"EG10282_RNA" "fbaA" ["fbaA", "ald", "fba", "fda", "b2925", "ECK2921"] "mRNA" [] "EG10282" ["FRUCTBISALD-CLASSII-MONOMER"] null [] +"EG10283_RNA" "fbp" ["fbp", "fdp", "b4232", "ECK4227"] "mRNA" [] "EG10283" ["F16B-MONOMER"] null [] +"EG10284_RNA" "fdhE" ["fdhE", "b3891", "ECK3884"] "mRNA" [] "EG10284" ["EG10284-MONOMER"] null [] +"EG10285_RNA" "fdhF" ["fdhF", "chlF", "b4079", "ECK4072"] "mRNA" [] "EG10285" ["FORMATEDEHYDROGH-MONOMER"] null [] +"EG10286_RNA" "fecA" ["fecA", "b4291", "ECK4281"] "mRNA" [] "EG10286" ["EG10286-MONOMER"] null [] +"EG10287_RNA" "fecB" ["fecB", "b4290", "ECK4280"] "mRNA" [] "EG10287" ["FECB-MONOMER"] null [] +"EG10288_RNA" "fecC" ["fecC", "b4289", "ECK4279"] "mRNA" [] "EG10288" ["FECC-MONOMER"] null [] +"EG10289_RNA" "fecD" ["fecD", "b4288", "ECK4278"] "mRNA" [] "EG10289" ["FECD-MONOMER"] null [] +"EG10290_RNA" "fecE" ["fecE", "b4287", "ECK4277"] "mRNA" [] "EG10290" ["FECE-MONOMER"] null [] +"EG10291_RNA" "fecI" ["fecI", "b4293", "ECK4283"] "mRNA" [] "EG10291" ["PD00440"] null [] +"EG10292_RNA" "fecR" ["fecR", "b4292", "ECK4282"] "mRNA" [] "EG10292" ["EG10292-MONOMER"] null [] +"EG10293_RNA" "fepA" ["fepA", "cbr", "cbt", "fep", "feuB", "b0584", "ECK0576"] "mRNA" [] "EG10293" ["EG10293-MONOMER"] null [] +"EG10294_RNA" "fepB" ["fepB", "b0592", "ECK0585"] "mRNA" [] "EG10294" ["FEPB-MONOMER"] null [] +"EG10295_RNA" "fepC" ["fepC", "b0588", "ECK0581"] "mRNA" [] "EG10295" ["FEPC-MONOMER"] null [] +"EG10296_RNA" "fepD" ["fepD", "b0590", "ECK0583"] "mRNA" [] "EG10296" ["FEPD-MONOMER"] null [] +"EG10297_RNA" "fepE" ["fepE", "b0587", "ECK0580"] "mRNA" [] "EG10297" ["EG10297-MONOMER"] null [] +"EG10298_RNA" "fepG" ["fepG", "b0589", "ECK0582"] "mRNA" [] "EG10298" ["FEPG-MONOMER"] null [] +"EG10299_RNA" "fes" ["fes", "b0585", "ECK0577"] "mRNA" [] "EG10299" ["EG10299-MONOMER"] null [] +"EG10300_RNA" "ffh" ["ffh", "b2610", "ECK2607"] "mRNA" [] "EG10300" ["EG10300-MONOMER"] null [] +"EG10301_RNA" "fhlA" ["fhlA", "fhl", "b2731", "ECK2726"] "mRNA" [] "EG10301" ["PD02936"] null [] +"EG10302_RNA" "fhuA" ["fhuA", "T1", "T5rec", "tonA", "b0150", "ECK0149"] "mRNA" [] "EG10302" ["EG10302-MONOMER"] null [] +"EG10303_RNA" "fhuB" ["fhuB", "b0153", "ECK0152"] "mRNA" [] "EG10303" ["FHUB-MONOMER"] null [] +"EG10304_RNA" "fhuC" ["fhuC", "b0151", "ECK0150"] "mRNA" [] "EG10304" ["FHUC-MONOMER"] null [] +"EG10305_RNA" "fhuD" ["fhuD", "b0152", "ECK0151"] "mRNA" [] "EG10305" ["FHUD-MONOMER"] null [] +"EG10306_RNA" "fhuE" ["fhuE", "b1102", "ECK1088"] "mRNA" [] "EG10306" ["EG10306-MONOMER"] null [] +"EG10307_RNA" "fic" ["fic", "ficT", "b3361", "ECK3349"] "mRNA" [] "EG10307" ["EG10307-MONOMER"] null [] +"EG10308_RNA" "fimA" ["fimA", "fimD", "pilA", "b4314", "ECK4305"] "mRNA" [] "EG10308" ["EG10308-MONOMER"] null [] +"EG10309_RNA" "fimB" ["fimB", "pil", "b4312", "ECK4303"] "mRNA" [] "EG10309" ["EG10309-MONOMER"] null [] +"EG10310_RNA" "fimC" ["fimC", "pilB", "b4316", "ECK4307"] "mRNA" [] "EG10310" ["EG10310-MONOMER"] null [] +"EG10311_RNA" "fimD" ["fimD", "fimD_1", "fimD_2", "b4317", "ECK4308"] "mRNA" [] "EG10311" ["EG10311-MONOMER"] null [] +"EG10312_RNA" "fimE" ["fimE", "hyp", "pilH", "b4313", "ECK4304"] "mRNA" [] "EG10312" ["EG10312-MONOMER"] null [] +"EG10313_RNA" "fimF" ["fimF", "b4318", "ECK4309"] "mRNA" [] "EG10313" ["EG10313-MONOMER"] null [] +"EG10314_RNA" "fimG" ["fimG", "b4319", "ECK4310"] "mRNA" [] "EG10314" ["EG10314-MONOMER"] null [] +"EG10315_RNA" "fimH" ["fimH", "pilE", "b4320", "ECK4311"] "mRNA" [] "EG10315" ["EG10315-MONOMER"] null [] +"EG10316_RNA" "lpxD" ["lpxD", "omsA", "firA", "b0179", "ECK0178"] "mRNA" [] "EG10316" ["UDPHYDROXYMYRGLUCOSAMNACETYLTRANS-MONO"] null [] +"EG10317_RNA" "fis" ["fis", "nbp", "b3261", "ECK3248"] "mRNA" [] "EG10317" ["PD00196"] null [] +"EG10318_RNA" "fldA" ["fldA", "b0684", "ECK0672"] "mRNA" [] "EG10318" ["FLAVODOXIN1-MONOMER"] null [] +"EG10319_RNA" "flhC" ["flhC", "flaI", "b1891", "ECK1892"] "mRNA" [] "EG10319" ["MONOMER0-2488"] null [] +"EG10320_RNA" "flhD" ["flhD", "flbB", "b1892", "ECK1893"] "mRNA" [] "EG10320" ["EG10320-MONOMER"] null [] +"EG10321_RNA" "fliC" ["fliC", "H", "flaF", "hag", "b1923", "ECK1922"] "mRNA" [] "EG10321" ["EG10321-MONOMER"] null [] +"EG10322_RNA" "fliL" ["fliL", "flaQI", "flaAI", "cheC1", "b1944", "ECK1942"] "mRNA" [] "EG10322" ["EG10322-MONOMER"] null [] +"EG10323_RNA" "fliM" ["fliM", "flaQ", "fla", "flaQII", "flaAII", "flaA", "cheC2", "b1945", "ECK1943"] "mRNA" [] "EG10323" ["FLIM-FLAGELLAR-C-RING-SWITCH"] null [] +"EG10324_RNA" "fliN" ["fliN", "motD", "b1946", "ECK1944"] "mRNA" [] "EG10324" ["FLIN-FLAGELLAR-C-RING-SWITCH"] null [] +"EG10325_RNA" "fnr" ["fnr", "nirA", "nirR", "ossA", "oxrA", "b1334", "ECK1330"] "mRNA" [] "EG10325" ["PD00197"] null [] +"EG10326_RNA" "folA" ["folA", "tmr", "tmrA", "b0048", "ECK0049"] "mRNA" [] "EG10326" ["DIHYDROFOLATEREDUCT-MONOMER"] null [] +"EG10327_RNA" "folC" ["folC", "dedC", "b2315", "ECK2309"] "mRNA" [] "EG10327" ["FOLC-MONOMER"] null [] +"EG10328_RNA" "folD" ["folD", "ads", "b0529", "ECK0522"] "mRNA" [] "EG10328" ["FOLD-MONOMER"] null [] +"EG10329_RNA" "mutM" ["mutM", "fpg", "b3635", "ECK3625"] "mRNA" [] "EG10329" ["EG10329-MONOMER"] null [] +"EG10330_RNA" "frdA" ["frdA", "b4154", "ECK4150"] "mRNA" [] "EG10330" ["FUM-FLAVO"] null [] +"EG10331_RNA" "frdB" ["frdB", "b4153", "ECK4149"] "mRNA" [] "EG10331" ["FUM-FE-S"] null [] +"EG10332_RNA" "frdC" ["frdC", "b4152", "ECK4148"] "mRNA" [] "EG10332" ["FUM-MEMB1"] null [] +"EG10333_RNA" "frdD" ["frdD", "b4151", "ECK4147"] "mRNA" [] "EG10333" ["FUM-MEMB2"] null [] +"EG10334_RNA" "fre" ["fre", "fadI", "flrD", "fsrC", "b3844", "ECK3836"] "mRNA" [] "EG10334" ["FMNREDUCT-MONOMER"] null [] +"EG10335_RNA" "frr" ["frr", "rrf", "b0172", "ECK0171"] "mRNA" [] "EG10335" ["EG10335-MONOMER"] null [] +"EG10336_RNA" "fruA" ["fruA", "ptsF", "b2167", "ECK2160"] "mRNA" [] "EG10336" ["FRUA-MONOMER"] null [] +"EG10337_RNA" "fruK" ["fruK", "fpk", "b2168", "ECK2161"] "mRNA" [] "EG10337" ["1-PFK-MONOMER"] null [] +"EG10338_RNA" "cra" ["cra", "fruR", "fruC", "shl", "b0080", "ECK0081"] "mRNA" [] "EG10338" ["PD00521"] null [] +"EG10339_RNA" "ftsA" ["ftsA", "divA", "b0094", "ECK0095"] "mRNA" [] "EG10339" ["EG10339-MONOMER"] null [] +"EG10340_RNA" "ftsE" ["ftsE", "b3463", "ECK3447"] "mRNA" [] "EG10340" ["FTSE-MONOMER"] null [] +"EG10341_RNA" "ftsI" ["ftsI", "pbpB", "sep", "b0084", "ECK0085"] "mRNA" [] "EG10341" ["EG10341-MONOMER"] null [] +"EG10342_RNA" "ftsQ" ["ftsQ", "b0093", "ECK0094"] "mRNA" [] "EG10342" ["EG10342-MONOMER"] null [] +"EG10343_RNA" "rsmD" ["rsmD", "yhhF", "b3465", "ECK3449"] "mRNA" [] "EG10343" ["EG10343-MONOMER"] null [] +"EG10344_RNA" "ftsW" ["ftsW", "b0089", "ECK0090"] "mRNA" [] "EG10344" ["EG10344-MONOMER"] null [] +"EG10345_RNA" "ftsX" ["ftsX", "ftsS", "b3462", "ECK3446"] "mRNA" [] "EG10345" ["FTSX-MONOMER"] null [] +"EG10346_RNA" "ftsY" ["ftsY", "b3464", "ECK3448"] "mRNA" [] "EG10346" ["EG10346-MONOMER"] null [] +"EG10347_RNA" "ftsZ" ["ftsZ", "sfiB", "sulB", "b0095", "ECK0096"] "mRNA" [] "EG10347" ["EG10347-MONOMER"] null [] +"EG10348_RNA" "fucA" ["fucA", "fucC", "prd", "b2800", "ECK2795"] "mRNA" [] "EG10348" ["FUCPALDOL-MONOMER"] null [] +"EG10349_RNA" "fucI" ["fucI", "b2802", "ECK2797"] "mRNA" [] "EG10349" ["FUCISOM-MONOMER"] null [] +"EG10350_RNA" "fucK" ["fucK", "b2803", "ECK2798"] "mRNA" [] "EG10350" ["FUCULOKIN-MONOMER"] null [] +"EG10351_RNA" "fucO" ["fucO", "b2799", "ECK2794"] "mRNA" [] "EG10351" ["LACTALDREDUCT-MONOMER"] null [] +"EG10352_RNA" "fucP" ["fucP", "b2801", "ECK2796"] "mRNA" [] "EG10352" ["FUCP-MONOMER"] null [] +"EG10353_RNA" "fucR" ["fucR", "b2805", "ECK2800"] "mRNA" [] "EG10353" ["PD00444"] null [] +"EG10355_RNA" "fucU" ["fucU", "b2804", "ECK2799"] "mRNA" [] "EG10355" ["EG10355-MONOMER"] null [] +"EG10356_RNA" "fumA" ["fumA", "b1612", "ECK1607"] "mRNA" [] "EG10356" ["FUMA-MONOMER"] null [] +"EG10357_RNA" "fumB" ["fumB", "b4122", "ECK4115"] "mRNA" [] "EG10357" ["FUMB-MONOMER"] null [] +"EG10358_RNA" "fumC" ["fumC", "b1611", "ECK1606"] "mRNA" [] "EG10358" ["FUMC-MONOMER"] null [] +"EG10359_RNA" "fur" ["fur", "b0683", "ECK0671"] "mRNA" [] "EG10359" ["PD00260"] null [] +"EG10360_RNA" "fusA" ["fusA", "far", "fus", "b3340", "ECK3327"] "mRNA" [] "EG10360" ["EG10360-MONOMER"] null [] +"EG10361_RNA" "gabT" ["gabT", "b2662", "ECK2656"] "mRNA" [] "EG10361" ["GABATRANSAM-MONOMER"] null [] +"EG10362_RNA" "galE" ["galE", "galD", "b0759", "ECK0748"] "mRNA" [] "EG10362" ["UDPGLUCEPIM-MONOMER"] null [] +"EG10363_RNA" "galK" ["galK", "galA", "b0757", "ECK0746"] "mRNA" [] "EG10363" ["GALACTOKIN-MONOMER"] null [] +"EG10364_RNA" "galR" ["galR", "Rgal", "b2837", "ECK2835"] "mRNA" [] "EG10364" ["PD03028"] null [] +"EG10365_RNA" "galS" ["galS", "mglD", "b2151", "ECK2144"] "mRNA" [] "EG10365" ["PD00261"] null [] +"EG10366_RNA" "galT" ["galT", "galB", "b0758", "ECK0747"] "mRNA" [] "EG10366" ["GALACTURIDYLYLTRANS-MONOMER"] null [] +"EG10367_RNA" "gapA" ["gapA", "gad", "gap1", "b1779", "ECK1777"] "mRNA" [] "EG10367" ["GAPDH-A-MONOMER"] null [] +"EG10368_RNA" "epd" ["epd", "gapB", "gap2", "b2927", "ECK2923"] "mRNA" [] "EG10368" ["ERYTH4PDEHYDROG-MONOMER"] null [] +"EG10369_RNA" "gcd" ["gcd", "b0124", "ECK0123"] "mRNA" [] "EG10369" ["GLUCDEHYDROG-MONOMER"] null [] +"EG10370_RNA" "ispG" ["ispG", "gcpE", "b2515", "ECK2511"] "mRNA" [] "EG10370" ["EG10370-MONOMER"] null [] +"EG10371_RNA" "gcvH" ["gcvH", "gcv", "b2904", "ECK2899"] "mRNA" [] "EG10371" ["GCVH-MONOMER"] null [] +"EG10372_RNA" "gdhA" ["gdhA", "b1761", "ECK1759"] "mRNA" [] "EG10372" ["GDHA-MONOMER"] null [] +"EG10373_RNA" "mokC" ["mokC", "gefL", "b0018", "ECK0018"] "mRNA" [] "EG10373" ["EG10373-MONOMER"] null [] +"EG10374_RNA" "ggt" ["ggt", "b3447", "ECK3431"] "mRNA" [] "EG10374" ["EG10374-MONOMER"] null [] +"EG10375_RNA" "mnmG" ["mnmG", "gidA", "trmF", "b3741", "ECK3734"] "mRNA" [] "EG10375" ["EG10375-MONOMER"] null [] +"EG10376_RNA" "rsmG" ["rsmG", "gidB", "b3740", "ECK3733"] "mRNA" [] "EG10376" ["EG10376-MONOMER"] null [] +"EG10377_RNA" "glgA" ["glgA", "b3429", "ECK3415"] "mRNA" [] "EG10377" ["GLYCOGENSYN-MONOMER"] null [] +"EG10378_RNA" "glgB" ["glgB", "b3432", "ECK3418"] "mRNA" [] "EG10378" ["GLYCOGEN-BRANCH-MONOMER"] null [] +"EG10379_RNA" "glgC" ["glgC", "b3430", "ECK3416"] "mRNA" [] "EG10379" ["GLUC1PADENYLTRANS-MONOMER"] null [] +"EG10380_RNA" "glgP" ["glgP", "glgY", "b3428", "ECK3414"] "mRNA" [] "EG10380" ["GLYCOPHOSPHORYL-MONOMER"] null [] +"EG10381_RNA" "glgX" ["glgX", "b3431", "ECK3417"] "mRNA" [] "EG10381" ["EG10381-MONOMER"] null [] +"EG10382_RNA" "glmS" ["glmS", "b3729", "ECK3722"] "mRNA" [] "EG10382" ["L-GLN-FRUCT-6-P-AMINOTRANS-MONOMER"] null [] +"EG10383_RNA" "glnA" ["glnA", "b3870", "ECK3863"] "mRNA" [] "EG10383" ["GLUTAMINESYN-MONOMER"] null [] +"EG10384_RNA" "glnB" ["glnB", "b2553", "ECK2550"] "mRNA" [] "EG10384" ["PROTEIN-PII"] null [] +"EG10385_RNA" "glnG" ["glnG", "glnT", "ntrC", "b3868", "ECK3861"] "mRNA" [] "EG10385" ["PROTEIN-NRI"] null [] +"EG10386_RNA" "glnH" ["glnH", "b0811", "ECK0800"] "mRNA" [] "EG10386" ["GLNH-MONOMER"] null [] +"EG10387_RNA" "glnL" ["glnL", "glnR", "ntrB", "b3869", "ECK3862"] "mRNA" [] "EG10387" ["PROTEIN-NRII"] null [] +"EG10388_RNA" "glnP" ["glnP", "b0810", "ECK0799"] "mRNA" [] "EG10388" ["GLNP-MONOMER"] null [] +"EG10389_RNA" "glnQ" ["glnQ", "b0809", "ECK0798"] "mRNA" [] "EG10389" ["GLNQ-MONOMER"] null [] +"EG10390_RNA" "glnS" ["glnS", "b0680", "ECK0668"] "mRNA" [] "EG10390" ["GLNS-MONOMER"] null [] +"EG10391_RNA" "glpA" ["glpA", "b2241", "ECK2233"] "mRNA" [] "EG10391" ["ANGLYC3PDEHYDROGSUBUNITA-MONOMER"] null [] +"EG10392_RNA" "glpB" ["glpB", "psi-51", "b2242", "ECK2234"] "mRNA" [] "EG10392" ["ANGLYC3PDEHYDROGSUBUNITB-MONOMER"] null [] +"EG10393_RNA" "glpC" ["glpC", "b2243", "ECK2235"] "mRNA" [] "EG10393" ["ANGLYC3PDEHYDROGSUBUNITC-MONOMER"] null [] +"EG10394_RNA" "glpD" ["glpD", "glyD", "b3426", "ECK3412"] "mRNA" [] "EG10394" ["AERGLYC3PDEHYDROG-MONOMER"] null [] +"EG10395_RNA" "glpE" ["glpE", "b3425", "ECK3411"] "mRNA" [] "EG10395" ["EG10395-MONOMER"] null [] +"EG10396_RNA" "glpF" ["glpF", "b3927", "ECK3919"] "mRNA" [] "EG10396" ["GLPF-MONOMER"] null [] +"EG10397_RNA" "glpG" ["glpG", "b3424", "ECK3410"] "mRNA" [] "EG10397" ["EG10397-MONOMER"] null [] +"EG10398_RNA" "glpK" ["glpK", "b3926", "ECK3918"] "mRNA" [] "EG10398" ["GLYCEROL-KIN-MONOMER"] null [] +"EG10399_RNA" "glpQ" ["glpQ", "b2239", "ECK2231"] "mRNA" [] "EG10399" ["GLYCPDIESTER-PERI-MONOMER"] null [] +"EG10400_RNA" "glpR" ["glpR", "b3423", "ECK3409"] "pseudo" [] "EG10400" ["PD03576"] null [] +"EG10401_RNA" "glpT" ["glpT", "b2240", "ECK2232"] "mRNA" [] "EG10401" ["GLPT-MONOMER"] null [] +"EG10402_RNA" "gltA" ["gltA", "gluT", "icdB", "b0720", "ECK0709"] "mRNA" [] "EG10402" ["CITSYN-MONOMER"] null [] +"EG10403_RNA" "gltB" ["gltB", "psiQ", "ossB", "aspB", "b3212", "ECK3202"] "mRNA" [] "EG10403" ["GLUSYNLARGE-MONOMER"] null [] +"EG10404_RNA" "gltD" ["gltD", "psiQ", "ossB", "aspB", "b3213", "ECK3203"] "mRNA" [] "EG10404" ["GLUSYNSMALL-MONOMER"] null [] +"EG10405_RNA" "gltP" ["gltP", "b4077", "ECK4070"] "mRNA" [] "EG10405" ["GLTP-MONOMER"] null [] +"EG10406_RNA" "gltS" ["gltS", "gltC", "b3653", "ECK3643"] "mRNA" [] "EG10406" ["GLTS-MONOMER"] null [] +"EG10407_RNA" "gltX" ["gltX", "gltM", "gluRS", "b2400", "ECK2394"] "mRNA" [] "EG10407" ["GLURS-MONOMER"] null [] +"EG10408_RNA" "glyA" ["glyA", "b2551", "ECK2548"] "mRNA" [] "EG10408" ["GLYOHMETRANS-MONOMER"] null [] +"EG10409_RNA" "glyQ" ["glyQ", "cfcA", "glyS(A)", "b3560", "ECK3548"] "mRNA" [] "EG10409" ["GLYQ-MONOMER"] null [] +"EG10410_RNA" "glyS" ["glyS", "glyS(B)", "gly", "gly-act", "b3559", "ECK3547"] "mRNA" [] "EG10410" ["GLYS-MONOMER"] null [] +"EG10411_RNA" "gnd" ["gnd", "b2029", "ECK2024"] "mRNA" [] "EG10411" ["6PGLUCONDEHYDROG-MONOMER"] null [] +"EG10412_RNA" "gor" ["gor", "gorA", "b3500", "ECK3485"] "mRNA" [] "EG10412" ["GLUTATHIONE-REDUCT-NADPH-MONOMER"] null [] +"EG10413_RNA" "gpp" ["gpp", "gppA", "b3779", "ECK3771"] "mRNA" [] "EG10413" ["PPPGPPHYDRO-MONOMER"] null [] +"EG10414_RNA" "gpt" ["gpt", "glyD", "gpp", "gxu", "b0238", "ECK0239"] "mRNA" [] "EG10414" ["GPT-MONOMER"] null [] +"EG10415_RNA" "greA" ["greA", "b3181", "ECK3170"] "mRNA" [] "EG10415" ["EG10415-MONOMER"] null [] +"EG10416_RNA" "grpE" ["grpE", "b2614", "ECK2610"] "mRNA" [] "EG10416" ["EG10416-MONOMER"] null [] +"EG10417_RNA" "grxA" ["grxA", "grx", "b0849", "ECK0840"] "mRNA" [] "EG10417" ["RED-GLUTAREDOXIN"] null [] +"EG10418_RNA" "gshA" ["gshA", "gsh-I", "b2688", "ECK2683"] "mRNA" [] "EG10418" ["GLUTCYSLIG-MONOMER"] null [] +"EG10419_RNA" "gshB" ["gshB", "gsh-II", "b2947", "ECK2942"] "mRNA" [] "EG10419" ["GLUTATHIONE-SYN-MONOMER"] null [] +"EG10420_RNA" "guaA" ["guaA", "b2507", "ECK2503"] "mRNA" [] "EG10420" ["GMP-SYN-MONOMER"] null [] +"EG10421_RNA" "guaB" ["guaB", "guaR", "b2508", "ECK2504"] "mRNA" [] "EG10421" ["IMP-DEHYDROG-MONOMER"] null [] +"EG10422_RNA" "guaC" ["guaC", "b0104", "ECK0104"] "mRNA" [] "EG10422" ["GMP-REDUCT-MONOMER"] null [] +"EG10423_RNA" "gyrA" ["gyrA", "hisW", "nalA", "nfxA", "norA", "parD", "b2231", "ECK2223"] "mRNA" [] "EG10423" ["EG10423-MONOMER"] null [] +"EG10424_RNA" "gyrB" ["gyrB", "cou", "hopA", "pcpA", "pcbA", "parA", "nalC", "Cou", "acrB", "himB", "hisU", "b3699", "ECK3691"] "mRNA" [] "EG10424" ["EG10424-MONOMER"] null [] +"EG10425_RNA" "hdhA" ["hdhA", "hsd", "hsdH", "b1619", "ECK1614"] "mRNA" [] "EG10425" ["7-ALPHA-HYDROXYSTEROID-DEH-MONOMER"] null [] +"EG10426_RNA" "helD" ["helD", "srjB", "b0962", "ECK0953"] "mRNA" [] "EG10426" ["EG10426-MONOMER"] null [] +"EG10427_RNA" "hemA" ["hemA", "gtrA", "b1210", "ECK1198"] "mRNA" [] "EG10427" ["GLUTRNAREDUCT-MONOMER"] null [] +"EG10428_RNA" "hemB" ["hemB", "ncf", "b0369", "ECK0366"] "mRNA" [] "EG10428" ["PORPHOBILSYNTH-MONOMER"] null [] +"EG10429_RNA" "hemC" ["hemC", "popE", "b3805", "ECK3799"] "mRNA" [] "EG10429" ["OHMETHYLBILANESYN-MONOMER"] null [] +"EG10430_RNA" "hemD" ["hemD", "b3804", "ECK3798"] "mRNA" [] "EG10430" ["UROGENIIISYN-MONOMER"] null [] +"EG10431_RNA" "hemH" ["hemH", "popA", "visA", "b0475", "ECK0469"] "mRNA" [] "EG10431" ["PROTOHEME-FERROCHELAT-MONOMER"] null [] +"EG10432_RNA" "hemL" ["hemL", "gsa", "popC", "b0154", "ECK0153"] "mRNA" [] "EG10432" ["GSAAMINOTRANS-MONOMER"] null [] +"EG10433_RNA" "hemX" ["hemX", "b3803", "ECK3797"] "mRNA" [] "EG10433" ["HEMX-MONOMER"] null [] +"EG10434_RNA" "hemY" ["hemY", "b3802", "ECK3796"] "mRNA" [] "EG10434" ["EG10434-MONOMER"] null [] +"EG10435_RNA" "hflC" ["hflC", "hflA", "b4175", "ECK4171"] "mRNA" [] "EG10435" ["EG10435-MONOMER"] null [] +"EG10436_RNA" "hflK" ["hflK", "hslY", "hflA", "b4174", "ECK4170"] "mRNA" [] "EG10436" ["EG10436-MONOMER"] null [] +"EG10437_RNA" "hflX" ["hflX", "hslX", "hflA", "b4173", "ECK4169"] "mRNA" [] "EG10437" ["EG10437-MONOMER"] null [] +"EG10438_RNA" "hfq" ["hfq", "b4172", "ECK4168"] "mRNA" [] "EG10438" ["EG10438-MONOMER"] null [] +"EG10439_RNA" "hha" ["hha", "b0460", "ECK0454"] "mRNA" [] "EG10439" ["EG10439-MONOMER"] null [] +"EG10440_RNA" "ihfA" ["ihfA", "hid", "himA", "b1712", "ECK1710"] "mRNA" [] "EG10440" ["PD00347"] null [] +"EG10441_RNA" "ihfB" ["ihfB", "hip", "himD", "b0912", "ECK0903"] "mRNA" [] "EG10441" ["PD00348"] null [] +"EG10442_RNA" "hipB" ["hipB", "b1508", "ECK1501"] "mRNA" [] "EG10442" ["EG10442-MONOMER"] null [] +"EG10443_RNA" "hipA" ["hipA", "b1507", "ECK1500"] "mRNA" [] "EG10443" ["EG10443-MONOMER"] null [] +"EG10444_RNA" "hisA" ["hisA", "b2024", "ECK2019"] "mRNA" [] "EG10444" ["PRIBFAICARPISOM-MONOMER"] null [] +"EG10445_RNA" "hisB" ["hisB", "b2022", "ECK2017"] "mRNA" [] "EG10445" ["IMIDPHOSPHADEHYDHISTIDPHOSPHA-MONOMER"] null [] +"EG10446_RNA" "hisC" ["hisC", "b2021", "ECK2016"] "mRNA" [] "EG10446" ["HISTPHOSTRANS-MONOMER"] null [] +"EG10447_RNA" "hisD" ["hisD", "b2020", "ECK2015"] "mRNA" [] "EG10447" ["HISTDEHYD-MONOMER"] null [] +"EG10448_RNA" "hisF" ["hisF", "b2025", "ECK2020"] "mRNA" [] "EG10448" ["CYCLASE-MONOMER"] null [] +"EG10449_RNA" "hisG" ["hisG", "b2019", "ECK2014"] "mRNA" [] "EG10449" ["ATPPHOSRIBOSTRANS-MONOMER"] null [] +"EG10450_RNA" "hisH" ["hisH", "b2023", "ECK2018"] "mRNA" [] "EG10450" ["GLUTAMIDOTRANS-MONOMER"] null [] +"EG10451_RNA" "hisI" ["hisI", "hisE", "hisIE", "b2026", "ECK2021"] "mRNA" [] "EG10451" ["HISTCYCLOPRATPPHOS"] null [] +"EG10452_RNA" "hisP" ["hisP", "b2306", "ECK2300"] "mRNA" [] "EG10452" ["HISP-MONOMER"] null [] +"EG10453_RNA" "hisS" ["hisS", "b2514", "ECK2510"] "mRNA" [] "EG10453" ["HISS-MONOMER"] null [] +"EG10454_RNA" "truA" ["truA", "asuC", "hisT", "leuK", "b2318", "ECK2312"] "mRNA" [] "EG10454" ["EG10454-MONOMER"] null [] +"EG10455_RNA" "skp" ["skp", "ompH", "hlpA", "firA", "b0178", "ECK0177"] "mRNA" [] "EG10455" ["EG10455-MONOMER"] null [] +"EG10456_RNA" "hmp" ["hmp", "fsrB", "hmpA", "b2552", "ECK2549"] "mRNA" [] "EG10456" ["EG10456-MONOMER"] null [] +"EG10457_RNA" "hns" ["hns", "B1", "H1", "virR", "topX", "topS", "pilG", "osmZ", "msyA", "irk", "hnsA", "bglY", "cur", "drc", "drdX", "drs", "fimG", "b1237", "ECK1232"] "mRNA" [] "EG10457" ["PD00288"] null [] +"EG10458_RNA" "hsdM" ["hsdM", "hsm", "hsp", "b4349", "ECK4339"] "mRNA" [] "EG10458" ["EG10458-MONOMER"] null [] +"EG10459_RNA" "hsdR" ["hsdR", "hsp", "hsr", "b4350", "ECK4340"] "mRNA" [] "EG10459" ["EG10459-MONOMER"] null [] +"EG10460_RNA" "hsdS" ["hsdS", "hsp", "hss", "rm", "b4348", "ECK4338"] "mRNA" [] "EG10460" ["EG10460-MONOMER"] null [] +"EG10461_RNA" "htpG" ["htpG", "b0473", "ECK0467"] "mRNA" [] "EG10461" ["EG10461-MONOMER"] null [] +"EG10462_RNA" "htpX" ["htpX", "b1829", "ECK1828"] "mRNA" [] "EG10462" ["EG10462-MONOMER"] null [] +"EG10463_RNA" "degP" ["degP", "htrA", "ptd", "b0161", "ECK0160"] "mRNA" [] "EG10463" ["EG10463-MONOMER"] null [] +"EG10464_RNA" "lpxL" ["lpxL", "htrB", "waaM", "b1054", "ECK1039"] "mRNA" [] "EG10464" ["LAUROYLACYLTRAN-MONOMER"] null [] +"EG10465_RNA" "ribB" ["ribB", "luxH", "htrP", "luxH-l", "b3041", "ECK3032"] "mRNA" [] "EG10465" ["DIOHBUTANONEPSYN-MONOMER"] null [] +"EG10466_RNA" "hupA" ["hupA", "b4000", "ECK3992"] "mRNA" [] "EG10466" ["EG10466-MONOMER"] null [] +"EG10467_RNA" "hupB" ["hupB", "dpeA", "dbhB", "hopD", "b0440", "ECK0434"] "mRNA" [] "EG10467" ["EG10467-MONOMER"] null [] +"EG10468_RNA" "hyaA" ["hyaA", "b0972", "ECK0963"] "mRNA" [] "EG10468" ["HYAA-MONOMER"] null [] +"EG10469_RNA" "hyaB" ["hyaB", "b0973", "ECK0964"] "mRNA" [] "EG10469" ["HYAB-MONOMER"] null [] +"EG10470_RNA" "hyaC" ["hyaC", "cybH", "b0974", "ECK0965"] "mRNA" [] "EG10470" ["HYAC-MONOMER"] null [] +"EG10471_RNA" "hyaD" ["hyaD", "b0975", "ECK0966"] "mRNA" [] "EG10471" ["EG10471-MONOMER"] null [] +"EG10472_RNA" "hyaE" ["hyaE", "b0976", "ECK0967"] "mRNA" [] "EG10472" ["EG10472-MONOMER"] null [] +"EG10473_RNA" "hyaF" ["hyaF", "b0977", "ECK0968"] "mRNA" [] "EG10473" ["EG10473-MONOMER"] null [] +"EG10474_RNA" "hycA" ["hycA", "hevA", "b2725", "ECK2720"] "mRNA" [] "EG10474" ["EG10474-MONOMER"] null [] +"EG10475_RNA" "hycB" ["hycB", "hevB", "b2724", "ECK2719"] "mRNA" [] "EG10475" ["HYCBSMALL-MONOMER"] null [] +"EG10476_RNA" "hycC" ["hycC", "hevC", "b2723", "ECK2718"] "mRNA" [] "EG10476" ["HYCC-MONOMER"] null [] +"EG10477_RNA" "hycD" ["hycD", "hevD", "b2722", "ECK2717"] "mRNA" [] "EG10477" ["HYCD-MONOMER"] null [] +"EG10478_RNA" "hycE" ["hycE", "hevE", "b2721", "ECK2716"] "mRNA" [] "EG10478" ["HYCELARGE-MONOMER"] null [] +"EG10479_RNA" "hycF" ["hycF", "hevF", "b2720", "ECK2715"] "mRNA" [] "EG10479" ["HYCF-MONOMER"] null [] +"EG10480_RNA" "hycG" ["hycG", "hevG", "b2719", "ECK2714"] "mRNA" [] "EG10480" ["HYCG-MONOMER"] null [] +"EG10481_RNA" "hycH" ["hycH", "hevH", "b2718", "ECK2713"] "mRNA" [] "EG10481" ["EG10481-MONOMER"] null [] +"EG10482_RNA" "zraR" ["zraR", "hydG", "b4004", "ECK3996"] "mRNA" [] "EG10482" ["HYDG-MONOMER"] null [] +"EG10483_RNA" "hypA" ["hypA", "b2726", "ECK2721"] "mRNA" [] "EG10483" ["EG10483-MONOMER"] null [] +"EG10484_RNA" "hypB" ["hypB", "hydB", "b2727", "ECK2722"] "mRNA" [] "EG10484" ["EG10484-MONOMER"] null [] +"EG10485_RNA" "hypC" ["hypC", "b2728", "ECK2723"] "mRNA" [] "EG10485" ["EG10485-MONOMER"] null [] +"EG10486_RNA" "hypD" ["hypD", "hydF", "b2729", "ECK2724"] "mRNA" [] "EG10486" ["EG10486-MONOMER"] null [] +"EG10487_RNA" "hypE" ["hypE", "hydB", "b2730", "ECK2725"] "mRNA" [] "EG10487" ["EG10487-MONOMER"] null [] +"EG10488_RNA" "iap" ["iap", "b2753", "ECK2748"] "mRNA" [] "EG10488" ["EG10488-MONOMER"] null [] +"EG10489_RNA" "icd" ["icd", "icdE", "icdA", "b1136", "ECK1122"] "mRNA" [] "EG10489" ["ISOCITDEH-SUBUNIT"] null [] +"EG10490_RNA" "argP" ["argP", "iciA", "b2916", "ECK2912"] "mRNA" [] "EG10490" ["EG10490-MONOMER"] null [] +"EG10491_RNA" "iclR" ["iclR", "b4018", "ECK4010"] "mRNA" [] "EG10491" ["PD04099"] null [] +"EG10492_RNA" "ileS" ["ileS", "ilvS", "b0026", "ECK0027"] "mRNA" [] "EG10492" ["ILES-MONOMER"] null [] +"EG10493_RNA" "ilvA" ["ilvA", "ile", "b3772", "ECK3764"] "mRNA" [] "EG10493" ["THREDEHYDSYN-MONOMER"] null [] +"EG10494_RNA" "ilvB" ["ilvB", "b3671", "ECK3662"] "mRNA" [] "EG10494" ["LARGEILVB-MONOMER"] null [] +"EG10495_RNA" "ilvC" ["ilvC", "b3774", "ECK3766"] "mRNA" [] "EG10495" ["KETOLREDUCTOISOM-MONOMER"] null [] +"EG10496_RNA" "ilvD" ["ilvD", "b3771", "ECK3763"] "mRNA" [] "EG10496" ["DIHYDROXYACIDDEHYDRAT-MONOMER"] null [] +"EG10497_RNA" "ilvE" ["ilvE", "b3770", "ECK3762"] "mRNA" [] "EG10497" ["BRANCHED-CHAINAMINOTRANSFER-MONOMER"] null [] +"EG10499_RNA" "ilvH" ["ilvH", "brnP", "b0078", "ECK0080"] "mRNA" [] "EG10499" ["ACETOLACTSYNIII-HCHAIN-MONOMER"] null [] +"EG10500_RNA" "ilvI" ["ilvI", "b0077", "ECK0079"] "mRNA" [] "EG10500" ["ACETOLACTSYNIII-ICHAIN-MONOMER"] null [] +"EG10501_RNA" "ilvM" ["ilvM", "b3769", "ECK3761"] "mRNA" [] "EG10501" ["SMALLILVM-MONOMER"] null [] +"EG10502_RNA" "ilvN" ["ilvN", "b3670", "ECK3661"] "mRNA" [] "EG10502" ["SMALLILVN-MONOMER"] null [] +"EG10503_RNA" "ilvY" ["ilvY", "b3773", "ECK3765"] "mRNA" [] "EG10503" ["PD00200"] null [] +"EG10504_RNA" "infA" ["infA", "bypA1", "b0884", "ECK0875"] "mRNA" [] "EG10504" ["EG10504-MONOMER"] null [] +"EG10505_RNA" "infB" ["infB", "ssyG", "b3168", "ECK3157"] "mRNA" [] "EG10505" ["EG10505-MONOMER"] null [[[493, 2673]], [[472, 2673]], []] +# "EG10505_RNA" "infB" ["infB", "ssyG", "b3168", "ECK3157"] "mRNA" [] "EG10505" ["MONOMER0-4539", "MONOMER0-4538", "EG10505-MONOMER"] null [[[493, 2673]], [[472, 2673]], []] +"EG10506_RNA" "infC" ["infC", "fit", "srjA", "b1718", "ECK1716"] "mRNA" [] "EG10506" ["EG10506-MONOMER"] null [] +"EG10507_RNA" "intD" ["intD", "int", "b0537", "ECK0530"] "mRNA" [] "EG10507" ["EG10507-MONOMER"] null [] +"EG10508_RNA" "ispA" ["ispA", "b0421", "ECK0415"] "mRNA" [] "EG10508" ["FPPSYN-MONOMER"] null [] +"EG10509_RNA" "katE" ["katE", "b1732", "ECK1730"] "mRNA" [] "EG10509" ["HYDROPEROXIDII-MONOMER"] null [] +"EG10510_RNA" "rpoS" ["rpoS", "sigS", "otsX", "abrD", "appR", "csi2", "dpeB", "katF", "nur", "b2741", "ECK2736"] "mRNA" [] "EG10510" ["RPOS-MONOMER"] null [] +"EG10511_RNA" "katG" ["katG", "b3942", "ECK3934"] "mRNA" [] "EG10511" ["HYDROPEROXIDI-MONOMER"] null [] +"EG10512_RNA" "kbl" ["kbl", "b3617", "ECK3607"] "mRNA" [] "EG10512" ["AKBLIG-MONOMER"] null [] +"EG10513_RNA" "kdpA" ["kdpA", "kac", "b0698", "ECK0686"] "mRNA" [] "EG10513" ["EG10513-MONOMER"] null [] +"EG10514_RNA" "kdpB" ["kdpB", "kac", "b0697", "ECK0685"] "mRNA" [] "EG10514" ["KDPB-MONOMER"] null [] +"EG10515_RNA" "kdpC" ["kdpC", "kac", "b0696", "ECK0684"] "mRNA" [] "EG10515" ["EG10515-MONOMER"] null [] +"EG10516_RNA" "kdpD" ["kdpD", "kac", "b0695", "ECK0683"] "mRNA" [] "EG10516" ["KDPD-MONOMER"] null [] +"EG10517_RNA" "kdpE" ["kdpE", "b0694", "ECK0682"] "mRNA" [] "EG10517" ["KDPE-MONOMER"] null [] +"EG10518_RNA" "kdsA" ["kdsA", "b1215", "ECK1203"] "mRNA" [] "EG10518" ["KDO-8PSYNTH-MONOMER"] null [] +"EG10519_RNA" "kdsB" ["kdsB", "b0918", "ECK0909"] "mRNA" [] "EG10519" ["CPM-KDOSYNTH-MONOMER"] null [] +"EG10520_RNA" "waaA" ["waaA", "kdtA", "b3633", "ECK3623"] "mRNA" [] "EG10520" ["KDOTRANS-MONOMER"] null [] +"EG10521_RNA" "kefC" ["kefC", "trkC", "b0047", "ECK0048"] "mRNA" [] "EG10521" ["KEFC-MONOMER"] null [] +"EG10522_RNA" "kgtP" ["kgtP", "witA", "b2587", "ECK2585"] "mRNA" [] "EG10522" ["KGTP-MONOMER"] null [] +"EG10523_RNA" "rsmA" ["rsmA", "ksgA", "b0051", "ECK0052"] "mRNA" [] "EG10523" ["EG10523-MONOMER"] null [] +"EG10524_RNA" "lacA" ["lacA", "b0342", "ECK0339"] "mRNA" [] "EG10524" ["GALACTOACETYLTRAN-MONOMER"] null [] +"EG10525_RNA" "lacI" ["lacI", "b0345", "ECK0342"] "mRNA" [] "EG10525" ["PD00763"] null [] +"EG10526_RNA" "lacY" ["lacY", "b0343", "ECK0340"] "mRNA" [] "EG10526" ["LACY-MONOMER"] null [] +"EG10527_RNA" "lacZ" ["lacZ", "b0344", "ECK0341"] "mRNA" [] "EG10527" ["BETAGALACTOSID-MONOMER"] null [] +"EG10528_RNA" "lamB" ["lamB", "malL", "malB", "b4036", "ECK4028"] "mRNA" [] "EG10528" ["EG10528-MONOMER"] null [] +"EG10529_RNA" "lepA" ["lepA", "b2569", "ECK2567"] "mRNA" [] "EG10529" ["EG10529-MONOMER"] null [] +"EG10530_RNA" "lepB" ["lepB", "lep", "b2568", "ECK2566"] "mRNA" [] "EG10530" ["EG10530-MONOMER"] null [] +"EG10531_RNA" "leuO" ["leuO", "b0076", "ECK0078"] "mRNA" [] "EG10531" ["PD00519"] null [] +"EG10532_RNA" "leuS" ["leuS", "syl", "b0642", "ECK0635"] "mRNA" [] "EG10532" ["LEUS-MONOMER"] null [] +"EG10533_RNA" "lexA" ["lexA", "exrA", "spr", "tsl", "umuA", "b4043", "ECK4035"] "mRNA" [] "EG10533" ["PD00205"] null [] +"EG10534_RNA" "ligA" ["ligA", "dnaL", "lig", "lop", "pdeC", "b2411", "ECK2406"] "mRNA" [] "EG10534" ["EG10534-MONOMER"] null [] +"EG10535_RNA" "lit" ["lit", "b1139", "ECK1125"] "mRNA" [] "EG10535" ["EG10535-MONOMER"] null [] +"EG10536_RNA" "livF" ["livF", "b3454", "ECK3438"] "mRNA" [] "EG10536" ["LIVF-MONOMER"] null [] +"EG10537_RNA" "livG" ["livG", "hrbD", "hrbC", "hrbB", "b3455", "ECK3439"] "mRNA" [] "EG10537" ["LIVG-MONOMER"] null [] +"EG10538_RNA" "livH" ["livH", "hrbD", "hrbC", "hrbB", "b3457", "ECK3441"] "mRNA" [] "EG10538" ["LIVH-MONOMER"] null [] +"EG10539_RNA" "livJ" ["livJ", "hrbD", "hrbC", "hrbB", "b3460", "ECK3444"] "mRNA" [] "EG10539" ["LIVJ-MONOMER"] null [] +"EG10540_RNA" "livK" ["livK", "hrbD", "hrbC", "hrbB", "b3458", "ECK3442"] "mRNA" [] "EG10540" ["LIVK-MONOMER"] null [] +"EG10541_RNA" "livM" ["livM", "b3456", "ECK3440"] "mRNA" [] "EG10541" ["LIVM-MONOMER"] null [] +"EG10542_RNA" "lon" ["lon", "capR", "deg", "dir", "lopA", "muc", "b0439", "ECK0433"] "mRNA" [] "EG10542" ["EG10542-MONOMER"] null [] +"EG10543_RNA" "lpd" ["lpd", "dhl", "lpdA", "b0116", "ECK0115"] "mRNA" [] "EG10543" ["E3-MONOMER"] null [] +"EG10544_RNA" "lpp" ["lpp", "mlpA", "b1677", "ECK1673"] "mRNA" [] "EG10544" ["EG10544-MONOMER"] null [] +"EG10545_RNA" "lpxA" ["lpxA", "b0181", "ECK0180"] "mRNA" [] "EG10545" ["UDPNACETYLGLUCOSAMACYLTRANS-MONOMER"] null [] +"EG10546_RNA" "lpxB" ["lpxB", "pgsB", "b0182", "ECK0181"] "mRNA" [] "EG10546" ["LIPIDADISACCHARIDESYNTH-MONOMER"] null [] +"EG10547_RNA" "lrp" ["lrp", "rblA", "oppI", "mbf", "lstR", "alsB", "ihb", "livR", "lrs", "lss", "b0889", "ECK0880"] "mRNA" [] "EG10547" ["PD00353"] null [] +"EG10548_RNA" "lspA" ["lspA", "lsp", "b0027", "ECK0028"] "mRNA" [] "EG10548" ["EG10548-MONOMER"] null [] +"EG10549_RNA" "lysA" ["lysA", "b2838", "ECK2836"] "mRNA" [] "EG10549" ["DIAMINOPIMDECARB-MONOMER"] null [] +"EG10550_RNA" "lysC" ["lysC", "apk", "b4024", "ECK4016"] "mRNA" [] "EG10550" ["ASPKINIII-MONOMER"] null [] +"EG10551_RNA" "lysR" ["lysR", "b2839", "ECK2837"] "mRNA" [] "EG10551" ["PD00360"] null [] +"EG10552_RNA" "lysS" ["lysS", "asuD", "herC", "b2890", "ECK2885"] "mRNA" [] "EG10552" ["LYSS-MONOMER"] null [] +"EG10553_RNA" "lysU" ["lysU", "b4129", "ECK4123"] "mRNA" [] "EG10553" ["LYSU-MONOMER"] null [] +"EG10554_RNA" "malE" ["malE", "b4034", "ECK4026"] "mRNA" [] "EG10554" ["MALE-MONOMER"] null [] +"EG10555_RNA" "malF" ["malF", "b4033", "ECK4025"] "mRNA" [] "EG10555" ["MALF-MONOMER"] null [] +"EG10556_RNA" "malG" ["malG", "b4032", "ECK4024"] "mRNA" [] "EG10556" ["MALG-MONOMER"] null [] +"EG10557_RNA" "malI" ["malI", "b1620", "ECK1615"] "mRNA" [] "EG10557" ["PD00361"] null [] +"EG10558_RNA" "malK" ["malK", "malB", "b4035", "ECK4027"] "mRNA" [] "EG10558" ["MALK-MONOMER"] null [] +"EG10559_RNA" "malM" ["malM", "molA", "b4037", "ECK4029"] "mRNA" [] "EG10559" ["EG10559-MONOMER"] null [] +"EG10560_RNA" "malP" ["malP", "malA", "blu", "b3417", "ECK3404"] "mRNA" [] "EG10560" ["MALDEXPHOSPHORYL-MONOMER"] null [] +"EG10561_RNA" "malQ" ["malQ", "malA", "b3416", "ECK3403"] "mRNA" [] "EG10561" ["AMYLOMALT-MONOMER"] null [] +"EG10562_RNA" "malT" ["malT", "malA", "b3418", "ECK3405"] "mRNA" [] "EG10562" ["PD00237"] null [] +"EG10563_RNA" "malX" ["malX", "b1621", "ECK1616"] "mRNA" [] "EG10563" ["MALX-MONOMER"] null [] +"EG10564_RNA" "malY" ["malY", "b1622", "ECK1617"] "mRNA" [] "EG10564" ["EG10564-MONOMER"] null [] +"EG10565_RNA" "malZ" ["malZ", "b0403", "ECK0397"] "mRNA" [] "EG10565" ["MALTODEXGLUCOSID-MONOMER"] null [] +"EG10566_RNA" "manA" ["manA", "pmi", "b1613", "ECK1608"] "mRNA" [] "EG10566" ["MANNPISOM-MONOMER"] null [] +"EG10567_RNA" "manX" ["manX", "gptB", "mpt", "ptsL", "ptsX", "b1817", "ECK1815"] "mRNA" [] "EG10567" ["MANX-MONOMER"] null [] +"EG10568_RNA" "manY" ["manY", "pel", "ptsP", "ptsX", "b1818", "ECK1816"] "mRNA" [] "EG10568" ["MANY-MONOMER"] null [] +"EG10569_RNA" "manZ" ["manZ", "gptB", "mpt", "ptsM", "ptsX", "b1819", "ECK1817"] "mRNA" [] "EG10569" ["MANZ-MONOMER"] null [] +"EG10570_RNA" "map" ["map", "b0168", "ECK0166"] "mRNA" [] "EG10570" ["EG10570-MONOMER"] null [] +"EG10571_RNA" "mazE" ["mazE", "chpAI", "chpR", "b2783", "ECK2777"] "mRNA" [] "EG10571" ["EG10571-MONOMER"] null [] +"EG10572_RNA" "mazG" ["mazG", "b2781", "ECK2775"] "mRNA" [] "EG10572" ["EG10572-MONOMER"] null [] +"EG10573_RNA" "mcrA" ["mcrA", "rglA", "b1159", "ECK1145"] "mRNA" [] "EG10573" ["EG10573-MONOMER"] null [] +"EG10574_RNA" "mcrB" ["mcrB", "rglB", "b4346", "ECK4336"] "mRNA" [] "EG10574" ["MONOMER0-4524", "EG10574-MONOMER"] null [[[484, 1380]], []] +"EG10575_RNA" "mcrC" ["mcrC", "b4345", "ECK4335"] "mRNA" [] "EG10575" ["EG10575-MONOMER"] null [] +"EG10576_RNA" "mdh" ["mdh", "b3236", "ECK3225"] "mRNA" [] "EG10576" ["MALATE-DEHASE-MONOMER"] null [] +"EG10577_RNA" "melA" ["melA", "mel-7", "b4119", "ECK4112"] "mRNA" [] "EG10577" ["ALPHAGALACTOSID-MONOMER"] null [] +"EG10578_RNA" "melB" ["melB", "mel-4", "b4120", "ECK4113"] "mRNA" [] "EG10578" ["MELB-MONOMER"] null [] +"EG10579_RNA" "menD" ["menD", "b2264", "ECK2258"] "mRNA" [] "EG10579" ["MEND-MONOMER"] null [] +"EG10580_RNA" "mepA" ["mepA", "b2328", "ECK2322"] "mRNA" [] "EG10580" ["EG10580-MONOMER"] null [] +"EG10581_RNA" "metA" ["metA", "b4013", "ECK4005"] "mRNA" [] "EG10581" ["HOMSUCTRAN-MONOMER"] null [] +"EG10582_RNA" "metB" ["metB", "met-1", "b3939", "ECK3931"] "mRNA" [] "EG10582" ["O-SUCCHOMOSERLYASE-MONOMER"] null [] +"EG10583_RNA" "metC" ["metC", "b3008", "ECK3000"] "mRNA" [] "EG10583" ["CYSTATHIONINE-BETA-LYASE-MONOMER"] null [] +"EG10584_RNA" "metE" ["metE", "metB12", "b3829", "ECK3823"] "mRNA" [] "EG10584" ["HOMOCYSMET-MONOMER"] null [] +"EG10585_RNA" "metF" ["metF", "b3941", "ECK3933"] "mRNA" [] "EG10585" ["METHYLENETHFREDUCT-MONOMER"] null [] +"EG10586_RNA" "metG" ["metG", "b2114", "ECK2107"] "mRNA" [] "EG10586" ["METG-MONOMER"] null [] +"EG10587_RNA" "metH" ["metH", "b4019", "ECK4011"] "mRNA" [] "EG10587" ["HOMOCYSMETB12-MONOMER"] null [] +"EG10588_RNA" "metJ" ["metJ", "b3938", "ECK3930"] "mRNA" [] "EG10588" ["PD04032"] null [] +"EG10589_RNA" "metK" ["metK", "metX", "b2942", "ECK2937"] "mRNA" [] "EG10589" ["S-ADENMETSYN-MONOMER"] null [] +"EG10590_RNA" "metL" ["metL", "metM", "b3940", "ECK3932"] "mRNA" [] "EG10590" ["ASPKINIIHOMOSERDEHYDROGII-MONOMER"] null [] +"EG10591_RNA" "metR" ["metR", "b3828", "ECK3822"] "mRNA" [] "EG10591" ["PD03938"] null [] +"EG10592_RNA" "mglA" ["mglA", "mglP", "mgl", "b2149", "ECK2142"] "mRNA" [] "EG10592" ["MGLA-MONOMER"] null [] +"EG10593_RNA" "mglB" ["mglB", "b2150", "ECK2143"] "mRNA" [] "EG10593" ["MGLB-MONOMER"] null [] +"EG10594_RNA" "mglC" ["mglC", "mglP", "b2148", "ECK2141"] "mRNA" [] "EG10594" ["MGLC-MONOMER"] null [] +"EG10595_RNA" "miaA" ["miaA", "trpX", "b4171", "ECK4167"] "mRNA" [] "EG10595" ["EG10595-MONOMER"] null [] +"EG10596_RNA" "minC" ["minC", "minB", "b1176", "ECK1164"] "mRNA" [] "EG10596" ["EG10596-MONOMER"] null [] +"EG10597_RNA" "minD" ["minD", "minB", "b1175", "ECK1163"] "mRNA" [] "EG10597" ["EG10597-MONOMER"] null [] +"EG10598_RNA" "minE" ["minE", "minB", "b1174", "ECK1162"] "mRNA" [] "EG10598" ["EG10598-MONOMER"] null [] +"EG10599_RNA" "groL" ["groL", "groEL", "mopA", "b4143", "ECK4137"] "mRNA" [] "EG10599" ["EG10599-MONOMER"] null [] +"EG10600_RNA" "groS" ["groS", "groES", "mopB", "b4142", "ECK4136"] "mRNA" [] "EG10600" ["EG10600-MONOMER"] null [] +"EG10601_RNA" "motA" ["motA", "flaJ", "b1890", "ECK1891"] "mRNA" [] "EG10601" ["MOTA-FLAGELLAR-MOTOR-STATOR-PROTEIN"] null [] +"EG10602_RNA" "motB" ["motB", "flaJ", "b1889", "ECK1890"] "mRNA" [] "EG10602" ["MOTB-FLAGELLAR-MOTOR-STATOR-PROTEIN"] null [] +"EG10603_RNA" "mprA" ["mprA", "emrR", "b2684", "ECK2678"] "mRNA" [] "EG10603" ["EG10603-MONOMER"] null [] +"EG10604_RNA" "mraY" ["mraY", "murX", "b0087", "ECK0088"] "mRNA" [] "EG10604" ["PHOSNACMURPENTATRANS-MONOMER"] null [] +"EG10605_RNA" "mrcB" ["mrcB", "pbpF", "ponB", "b0149", "ECK0148"] "mRNA" [] "EG10605" ["MONOMER0-4521", "EG10605-MONOMER"] null [[[136, 2535]], []] +"EG10606_RNA" "mrdA" ["mrdA", "pbpA", "b0635", "ECK0628"] "mRNA" [] "EG10606" ["EG10606-MONOMER"] null [] +"EG10607_RNA" "mrdB" ["mrdB", "rodA", "b0634", "ECK0627"] "mRNA" [] "EG10607" ["EG10607-MONOMER"] null [] +"EG10608_RNA" "mreB" ["mreB", "rodY", "envB", "mon", "mreB_1", "b3251", "ECK3239"] "mRNA" [] "EG10608" ["EG10608-MONOMER"] null [] +"EG10609_RNA" "mreC" ["mreC", "b3250", "ECK3238"] "mRNA" [] "EG10609" ["EG10609-MONOMER"] null [] +"EG10610_RNA" "mreD" ["mreD", "b3249", "ECK3237"] "mRNA" [] "EG10610" ["EG10610-MONOMER"] null [] +"EG10611_RNA" "mrp" ["mrp", "b2113", "ECK2106"] "mRNA" [] "EG10611" ["EG10611-MONOMER"] null [] +"EG10612_RNA" "mrr" ["mrr", "b4351", "ECK4341"] "mRNA" [] "EG10612" ["EG10612-MONOMER"] null [] +"EG10613_RNA" "msbA" ["msbA", "b0914", "ECK0905"] "mRNA" [] "EG10613" ["EG10613-MONOMER"] null [] +"EG10614_RNA" "lpxM" ["lpxM", "mlt", "waaN", "msbB", "b1855", "ECK1856"] "mRNA" [] "EG10614" ["MYRISTOYLACYLTRAN-MONOMER"] null [] +"EG10615_RNA" "mtlA" ["mtlA", "mtlC", "b3599", "ECK3588"] "mRNA" [] "EG10615" ["MTLA-MONOMER"] null [] +"EG10616_RNA" "mtlD" ["mtlD", "b3600", "ECK3589"] "mRNA" [] "EG10616" ["MANNPDEHYDROG-MONOMER"] null [] +"EG10617_RNA" "mtr" ["mtr", "b3161", "ECK3149"] "mRNA" [] "EG10617" ["MTR-MONOMER"] null [] +"EG10618_RNA" "mukB" ["mukB", "b0924", "ECK0915"] "mRNA" [] "EG10618" ["EG10618-MONOMER"] null [] +"EG10619_RNA" "murC" ["murC", "b0091", "ECK0092"] "mRNA" [] "EG10619" ["UDP-NACMUR-ALA-LIG-MONOMER"] null [] +"EG10620_RNA" "murD" ["murD", "b0088", "ECK0089"] "mRNA" [] "EG10620" ["UDP-NACMURALA-GLU-LIG-MONOMER"] null [] +"EG10621_RNA" "murE" ["murE", "b0085", "ECK0086"] "mRNA" [] "EG10621" ["UDP-NACMURALGLDAPLIG-MONOMER"] null [] +"EG10622_RNA" "murF" ["murF", "mra", "b0086", "ECK0087"] "mRNA" [] "EG10622" ["UDP-NACMURALGLDAPAALIG-MONOMER"] null [] +"EG10623_RNA" "murG" ["murG", "b0090", "ECK0091"] "mRNA" [] "EG10623" ["NACGLCTRANS-MONOMER"] null [] +"EG10624_RNA" "mutH" ["mutH", "mutR", "prv", "b2831", "ECK2827"] "mRNA" [] "EG10624" ["EG10624-MONOMER"] null [] +"EG10625_RNA" "mutS" ["mutS", "ant", "plm", "fdv", "b2733", "ECK2728"] "mRNA" [] "EG10625" ["EG10625-MONOMER"] null [] +"EG10626_RNA" "mutT" ["mutT", "nudA", "b0099", "ECK0100"] "mRNA" [] "EG10626" ["EG10626-MONOMER"] null [] +"EG10627_RNA" "mutY" ["mutY", "micA", "b2961", "ECK2956"] "mRNA" [] "EG10627" ["EG10627-MONOMER"] null [] +"EG10628_RNA" "fpr" ["fpr", "flxR", "mvrA", "b3924", "ECK3916"] "mRNA" [] "EG10628" ["FLAVONADPREDUCT-MONOMER"] null [] +"EG10629_RNA" "emrE" ["emrE", "eb", "mvrC", "b0543", "ECK0534"] "mRNA" [] "EG10629" ["EMRE-MONOMER"] null [] +"EG10630_RNA" "nadA" ["nadA", "nicA", "b0750", "ECK0739"] "mRNA" [] "EG10630" ["QUINOLINATE-SYNTHA-MONOMER"] null [] +"EG10631_RNA" "nadB" ["nadB", "nic", "nicB", "b2574", "ECK2572"] "mRNA" [] "EG10631" ["L-ASPARTATE-OXID-MONOMER"] null [] +"EG10632_RNA" "nagA" ["nagA", "b0677", "ECK0665"] "mRNA" [] "EG10632" ["NAG6PDEACET-MONOMER"] null [] +"EG10633_RNA" "nagB" ["nagB", "glmD", "b0678", "ECK0666"] "mRNA" [] "EG10633" ["GLUCOSAMINE-6-P-DEAMIN-MONOMER"] null [] +"EG10634_RNA" "umpH" ["umpH", "nagD", "b0675", "ECK0663"] "mRNA" [] "EG10634" ["EG10634-MONOMER"] null [] +"EG10635_RNA" "nagE" ["nagE", "pstN", "ptsN", "b0679", "ECK0667"] "mRNA" [] "EG10635" ["NAGE-MONOMER"] null [] +"EG10636_RNA" "nagC" ["nagC", "nagR", "b0676", "ECK0664"] "mRNA" [] "EG10636" ["PD00266"] null [] +"EG10637_RNA" "nanA" ["nanA", "npl", "b3225", "ECK3214"] "mRNA" [] "EG10637" ["ACNEULY-MONOMER"] null [] +"EG10638_RNA" "narG" ["narG", "chlC", "narC", "b1224", "ECK1218"] "mRNA" [] "EG10638" ["NARG-MONOMER"] null [] +"EG10639_RNA" "narH" ["narH", "chlC", "b1225", "ECK1219"] "mRNA" [] "EG10639" ["NARH-MONOMER"] null [] +"EG10640_RNA" "narI" ["narI", "chlI", "b1227", "ECK1221"] "mRNA" [] "EG10640" ["NARI-MONOMER"] null [] +"EG10641_RNA" "narJ" ["narJ", "b1226", "ECK1220"] "mRNA" [] "EG10641" ["NARJ-MONOMER"] null [] +"EG10642_RNA" "narK" ["narK", "b1223", "ECK1217"] "mRNA" [] "EG10642" ["NARK-MONOMER"] null [] +"EG10643_RNA" "narL" ["narL", "frdR", "narR", "b1221", "ECK1215"] "mRNA" [] "EG10643" ["NARL-MONOMER"] null [] +"EG10644_RNA" "narV" ["narV", "chlZ", "b1465", "ECK1459"] "mRNA" [] "EG10644" ["NARV-MONOMER"] null [] +"EG10645_RNA" "narW" ["narW", "chlZ", "b1466", "ECK1460"] "mRNA" [] "EG10645" ["NARW-MONOMER"] null [] +"EG10646_RNA" "narX" ["narX", "frdR", "narR", "frd1", "b1222", "ECK1216"] "mRNA" [] "EG10646" ["NARX-MONOMER"] null [] +"EG10647_RNA" "narY" ["narY", "chlZ", "b1467", "ECK1461"] "mRNA" [] "EG10647" ["NARY-MONOMER"] null [] +"EG10648_RNA" "narZ" ["narZ", "chlZ", "b1468", "ECK1462"] "mRNA" [] "EG10648" ["NARZ-MONOMER"] null [] +"EG10649_RNA" "ndh" ["ndh", "b1109", "ECK1095"] "mRNA" [] "EG10649" ["NADH-DHII-MONOMER"] null [] +"EG10650_RNA" "ndk" ["ndk", "b2518", "ECK2514"] "mRNA" [] "EG10650" ["NUCLEOSIDE-DIP-KIN-MONOMER"] null [] +"EG10651_RNA" "nfo" ["nfo", "b2159", "ECK2152"] "mRNA" [] "EG10651" ["EG10651-MONOMER"] null [] +"EG10652_RNA" "nhaA" ["nhaA", "ant", "antA", "b0019", "ECK0020"] "mRNA" [] "EG10652" ["NHAA-MONOMER"] null [] +"EG10653_RNA" "nirB" ["nirB", "b3365", "ECK3353"] "mRNA" [] "EG10653" ["NIRB-MONOMER"] null [] +"EG10654_RNA" "nirC" ["nirC", "b3367", "ECK3355"] "mRNA" [] "EG10654" ["NIRC-MONOMER"] null [] +"EG10655_RNA" "nirD" ["nirD", "b3366", "ECK3354"] "mRNA" [] "EG10655" ["NIRD-MONOMER"] null [] +"EG10656_RNA" "sfsB" ["sfsB", "nlp", "sfs7", "b3188", "ECK3177"] "mRNA" [] "EG10656" ["EG10656-MONOMER"] null [] +"EG10657_RNA" "nlpA" ["nlpA", "b3661", "ECK3651"] "mRNA" [] "EG10657" ["EG10657-MONOMER"] null [] +"EG10658_RNA" "bamC" ["bamC", "dapX", "nlpB", "b2477", "ECK2473"] "mRNA" [] "EG10658" ["EG10658-MONOMER"] null [] +"EG10659_RNA" "nmpC" ["nmpC", "phmA", "b0553", "ECK0544"] "pseudo" [] "EG10659" ["EG10659-MONOMER"] null [] +"EG10660_RNA" "nrdA" ["nrdA", "dnaF", "b2234", "ECK2226"] "mRNA" [] "EG10660" ["NRDA-MONOMER"] null [] +"EG10661_RNA" "nrdB" ["nrdB", "ftsB", "b2235", "ECK2227"] "mRNA" [] "EG10661" ["NRDB-MONOMER"] null [] +"EG10662_RNA" "nth" ["nth", "b1633", "ECK1629"] "mRNA" [] "EG10662" ["EG10662-MONOMER"] null [] +"EG10663_RNA" "nadE" ["nadE", "efg", "ntrL", "b1740", "ECK1738"] "mRNA" [] "EG10663" ["NAD-SYNTH-MONOMER"] null [] +"EG10664_RNA" "nupG" ["nupG", "b2964", "ECK2959"] "mRNA" [] "EG10664" ["NUPG-MONOMER"] null [] +"EG10665_RNA" "nusA" ["nusA", "b3169", "ECK3158"] "mRNA" [] "EG10665" ["EG10665-MONOMER"] null [] +"EG10666_RNA" "nusB" ["nusB", "groNB", "ssaD", "ssyB", "b0416", "ECK0410"] "mRNA" [] "EG10666" ["EG10666-MONOMER"] null [] +"EG10667_RNA" "nusG" ["nusG", "b3982", "ECK3973"] "mRNA" [] "EG10667" ["EG10667-MONOMER"] null [] +"EG10668_RNA" "ogt" ["ogt", "b1335", "ECK1331"] "mRNA" [] "EG10668" ["EG10668-MONOMER"] null [] +"EG10669_RNA" "ompA" ["ompA", "con", "tolG", "tut", "b0957", "ECK0948"] "mRNA" [] "EG10669" ["EG10669-MONOMER"] null [] +"EG10670_RNA" "ompC" ["ompC", "meoA", "par", "b2215", "ECK2207"] "mRNA" [] "EG10670" ["EG10670-MONOMER"] null [] +"EG10671_RNA" "ompF" ["ompF", "nfxB", "tolF", "cmlB", "cry", "b0929", "ECK0920"] "mRNA" [] "EG10671" ["EG10671-MONOMER"] null [] +"EG10672_RNA" "ompR" ["ompR", "cry", "kmt", "ompB", "b3405", "ECK3392"] "mRNA" [] "EG10672" ["OMPR-MONOMER"] null [] +"EG10673_RNA" "ompT" ["ompT", "b0565", "ECK0557"] "mRNA" [] "EG10673" ["EG10673-MONOMER"] null [] +"EG10674_RNA" "oppA" ["oppA", "b1243", "ECK1237"] "mRNA" [] "EG10674" ["OPPA-MONOMER"] null [] +"EG10675_RNA" "oppB" ["oppB", "b1244", "ECK1238"] "mRNA" [] "EG10675" ["OPPB-MONOMER"] null [] +"EG10676_RNA" "oppC" ["oppC", "b1245", "ECK1239"] "mRNA" [] "EG10676" ["OPPC-MONOMER"] null [] +"EG10677_RNA" "oppD" ["oppD", "b1246", "ECK1240"] "mRNA" [] "EG10677" ["OPPD-MONOMER"] null [] +"EG10678_RNA" "oppF" ["oppF", "b1247", "ECK1241"] "mRNA" [] "EG10678" ["OPPF-MONOMER"] null [] +"EG10679_RNA" "osmB" ["osmB", "b1283", "ECK1278"] "mRNA" [] "EG10679" ["EG10679-MONOMER"] null [] +"EG10680_RNA" "osmC" ["osmC", "b1482", "ECK1476"] "mRNA" [] "EG10680" ["EG10680-MONOMER"] null [] +"EG10681_RNA" "oxyR" ["oxyR", "momR", "mor", "b3961", "ECK3953"] "mRNA" [] "EG10681" ["PD00214"] null [] +"EG10682_RNA" "pabA" ["pabA", "b3360", "ECK3348"] "mRNA" [] "EG10682" ["PABASYN-COMPII-MONOMER"] null [] +"EG10683_RNA" "pabB" ["pabB", "b1812", "ECK1810"] "mRNA" [] "EG10683" ["PABASYN-COMPI-MONOMER"] null [] +"EG10684_RNA" "pal" ["pal", "excC", "b0741", "ECK0730"] "mRNA" [] "EG10684" ["EG10684-MONOMER"] null [] +"EG10685_RNA" "panF" ["panF", "b3258", "ECK3245"] "mRNA" [] "EG10685" ["PANF-MONOMER"] null [] +"EG10686_RNA" "parC" ["parC", "b3019", "ECK3010"] "mRNA" [] "EG10686" ["EG10686-MONOMER"] null [] +"EG10687_RNA" "parE" ["parE", "nfxD", "b3030", "ECK3021"] "mRNA" [] "EG10687" ["EG10687-MONOMER"] null [] +"EG10688_RNA" "pck" ["pck", "pckA", "b3403", "ECK3390"] "mRNA" [] "EG10688" ["PEPCARBOXYKIN-MONOMER"] null [] +"EG10689_RNA" "pcm" ["pcm", "b2743", "ECK2738"] "mRNA" [] "EG10689" ["EG10689-MONOMER"] null [] +"EG10690_RNA" "pcnB" ["pcnB", "b0143", "ECK0142"] "mRNA" [] "EG10690" ["EG10690-MONOMER"] null [] +"EG10691_RNA" "pdxA" ["pdxA", "b0052", "ECK0053"] "mRNA" [] "EG10691" ["PDXA-MONOMER"] null [] +"EG10693_RNA" "pdxJ" ["pdxJ", "b2564", "ECK2562"] "mRNA" [] "EG10693" ["PDXJ-MONOMER"] null [] +"EG10694_RNA" "pepA" ["pepA", "carP", "xerB", "b4260", "ECK4253"] "mRNA" [] "EG10694" ["EG10694-MONOMER"] null [] +"EG10695_RNA" "pepD" ["pepD", "pepH", "b0237", "ECK0238"] "mRNA" [] "EG10695" ["EG10695-MONOMER"] null [] +"EG10696_RNA" "pepN" ["pepN", "b0932", "ECK0923"] "mRNA" [] "EG10696" ["EG10696-MONOMER"] null [] +"EG10697_RNA" "pepP" ["pepP", "b2908", "ECK2903"] "mRNA" [] "EG10697" ["EG10697-MONOMER"] null [] +"EG10698_RNA" "pepQ" ["pepQ", "b3847", "ECK3839"] "mRNA" [] "EG10698" ["EG10698-MONOMER"] null [] +"EG10699_RNA" "pfkA" ["pfkA", "b3916", "ECK3908"] "mRNA" [] "EG10699" ["6PFK-1-MONOMER"] null [] +"EG10700_RNA" "pfkB" ["pfkB", "b1723", "ECK1721"] "mRNA" [] "EG10700" ["6PFK-2-MONOMER"] null [] +"EG10701_RNA" "pflB" ["pflB", "pfl", "b0903", "ECK0894"] "mRNA" [] "EG10701" ["PYRUVFORMLY-MONOMER"] null [] +"EG10702_RNA" "pgi" ["pgi", "b4025", "ECK4017"] "mRNA" [] "EG10702" ["PGLUCISOM"] null [] +"EG10703_RNA" "pgk" ["pgk", "b2926", "ECK2922"] "mRNA" [] "EG10703" ["PGK"] null [] +"EG10704_RNA" "pgpA" ["pgpA", "yajN", "b0418", "ECK0412"] "mRNA" [] "EG10704" ["PGPPHOSPHAA-MONOMER"] null [] +"EG10705_RNA" "pgpB" ["pgpB", "b1278", "ECK1273"] "mRNA" [] "EG10705" ["PGPPHOSPHAB-MONOMER"] null [] +"EG10706_RNA" "pgsA" ["pgsA", "b1912", "ECK1911"] "mRNA" [] "EG10706" ["PHOSPHAGLYPSYN-MONOMER"] null [] +"EG10707_RNA" "pheA" ["pheA", "b2599", "ECK2596"] "mRNA" [] "EG10707" ["CHORISMUTPREPHENDEHYDRAT-MONOMER"] null [] +"EG10708_RNA" "pheP" ["pheP", "b0576", "ECK0568"] "mRNA" [] "EG10708" ["PHEP-MONOMER"] null [] +"EG10709_RNA" "pheS" ["pheS", "phe-act", "b1714", "ECK1712"] "mRNA" [] "EG10709" ["PHES-MONOMER"] null [] +"EG10710_RNA" "pheT" ["pheT", "b1713", "ECK1711"] "mRNA" [] "EG10710" ["PHET-MONOMER"] null [] +"EG10711_RNA" "yjdM" ["yjdM", "phnA", "b4108", "ECK4101"] "mRNA" [] "EG10711" ["EG10711-MONOMER"] null [] +"EG10712_RNA" "yjdN" ["yjdN", "phnB", "b4107", "ECK4100"] "mRNA" [] "EG10712" ["EG10712-MONOMER"] null [] +"EG10713_RNA" "phnC" ["phnC", "b4106", "ECK4099"] "mRNA" [] "EG10713" ["PHNC-MONOMER"] null [] +"EG10714_RNA" "phnD" ["phnD", "phn", "psiD", "b4105", "ECK4098"] "mRNA" [] "EG10714" ["PHND-MONOMER"] null [] +"EG10715_RNA" "phnF" ["phnF", "b4102", "ECK4095"] "mRNA" [] "EG10715" ["EG10715-MONOMER"] null [] +"EG10716_RNA" "phnG" ["phnG", "b4101", "ECK4094"] "mRNA" [] "EG10716" ["EG10716-MONOMER"] null [] +"EG10717_RNA" "phnH" ["phnH", "b4100", "ECK4093"] "mRNA" [] "EG10717" ["EG10717-MONOMER"] null [] +"EG10718_RNA" "phnI" ["phnI", "b4099", "ECK4092"] "mRNA" [] "EG10718" ["EG10718-MONOMER"] null [] +"EG10719_RNA" "phnJ" ["phnJ", "b4098", "ECK4091"] "mRNA" [] "EG10719" ["EG10719-MONOMER"] null [] +"EG10720_RNA" "phnK" ["phnK", "b4097", "ECK4090"] "mRNA" [] "EG10720" ["PHNK-MONOMER"] null [] +"EG10721_RNA" "phnL" ["phnL", "b4096", "ECK4089"] "mRNA" [] "EG10721" ["PHNL-MONOMER"] null [] +"EG10722_RNA" "phnM" ["phnM", "b4095", "ECK4088"] "mRNA" [] "EG10722" ["EG10722-MONOMER"] null [] +"EG10723_RNA" "phnN" ["phnN", "b4094", "ECK4087"] "mRNA" [] "EG10723" ["EG10723-MONOMER"] null [] +"EG10724_RNA" "phnO" ["phnO", "b4093", "ECK4086"] "mRNA" [] "EG10724" ["EG10724-MONOMER"] null [] +"EG10725_RNA" "phnP" ["phnP", "b4092", "ECK4085"] "mRNA" [] "EG10725" ["EG10725-MONOMER"] null [] +"EG10727_RNA" "phoA" ["phoA", "psiA", "b0383", "ECK0378"] "mRNA" [] "EG10727" ["ALKAPHOSPHA-MONOMER"] null [] +"EG10728_RNA" "phoB" ["phoB", "phoRc", "phoT", "b0399", "ECK0393"] "mRNA" [] "EG10728" ["PHOB-MONOMER"] null [] +"EG10729_RNA" "phoE" ["phoE", "ompE", "b0241", "ECK0242"] "mRNA" [] "EG10729" ["MONOMER0-282"] null [] +"EG10730_RNA" "creC" ["creC", "phoM", "b4399", "ECK4391"] "mRNA" [] "EG10730" ["CREC-MONOMER"] null [] +"EG10731_RNA" "phoP" ["phoP", "b1130", "ECK1116"] "mRNA" [] "EG10731" ["PHOP-MONOMER"] null [] +"EG10732_RNA" "phoQ" ["phoQ", "b1129", "ECK1115"] "mRNA" [] "EG10732" ["PHOQ-MONOMER"] null [] +"EG10733_RNA" "phoR" ["phoR", "R1pho", "phoR1", "nmpB", "b0400", "ECK0394"] "mRNA" [] "EG10733" ["PHOR-MONOMER"] null [] +"EG10734_RNA" "pstS" ["pstS", "R2pho", "T", "nmpA", "phoR2a", "phoS", "b3728", "ECK3721"] "mRNA" [] "EG10734" ["PSTS-MONOMER"] null [] +"EG10735_RNA" "phoU" ["phoU", "phoT", "pst", "b3724", "ECK3717"] "mRNA" [] "EG10735" ["EG10735-MONOMER"] null [] +"EG10736_RNA" "phr" ["phr", "phrB", "b0708", "ECK0697"] "mRNA" [] "EG10736" ["EG10736-MONOMER"] null [] +"EG10737_RNA" "pinE" ["pinE", "pin", "b1158", "ECK1144"] "mRNA" [] "EG10737" ["EG10737-MONOMER"] null [] +"EG10738_RNA" "pldA" ["pldA", "b3821", "ECK3815"] "mRNA" [] "EG10738" ["MONOMER0-341"] null [] +"EG10739_RNA" "pldB" ["pldB", "b3825", "ECK3819"] "mRNA" [] "EG10739" ["EG10739-MONOMER"] null [] +"EG10740_RNA" "plsB" ["plsB", "b4041", "ECK4033"] "mRNA" [] "EG10740" ["GLYCEROL-3-P-ACYLTRANSFER-MONOMER"] null [] +"EG10741_RNA" "tldE" ["tldE", "mcb", "pmbA", "b4235", "ECK4230"] "mRNA" [] "EG10741" ["EG10741-MONOMER"] null [] +"EG10742_RNA" "pncB" ["pncB", "b0931", "ECK0922"] "mRNA" [] "EG10742" ["NICOTINATEPRIBOSYLTRANS-MONOMER"] null [] +"EG10743_RNA" "pnp" ["pnp", "bfl", "b3164", "ECK3152"] "mRNA" [] "EG10743" ["EG10743-MONOMER"] null [] +"EG10744_RNA" "pntA" ["pntA", "b1603", "ECK1598"] "mRNA" [] "EG10744" ["PNTA-MONOMER"] null [] +"EG10745_RNA" "pntB" ["pntB", "b1602", "ECK1597"] "mRNA" [] "EG10745" ["PNTB-MONOMER"] null [] +"EG10746_RNA" "polA" ["polA", "resA", "b3863", "ECK3855"] "mRNA" [] "EG10746" ["EG10746-MONOMER"] null [] +"EG10747_RNA" "polB" ["polB", "dinA", "b0060", "ECK0061"] "mRNA" [] "EG10747" ["EG10747-MONOMER"] null [] +"EG10748_RNA" "mrcA" ["mrcA", "ponA", "b3396", "ECK3383"] "mRNA" [] "EG10748" ["EG10748-MONOMER"] null [] +"EG10749_RNA" "potA" ["potA", "b1126", "ECK1112"] "mRNA" [] "EG10749" ["POTA-MONOMER"] null [] +"EG10750_RNA" "potB" ["potB", "b1125", "ECK1111"] "mRNA" [] "EG10750" ["POTB-MONOMER"] null [] +"EG10751_RNA" "potC" ["potC", "b1124", "ECK1110"] "mRNA" [] "EG10751" ["POTC-MONOMER"] null [] +"EG10752_RNA" "potD" ["potD", "b1123", "ECK1109"] "mRNA" [] "EG10752" ["POTD-MONOMER"] null [] +"EG10753_RNA" "potE" ["potE", "b0692", "ECK0680"] "mRNA" [] "EG10753" ["POTE-MONOMER"] null [] +"EG10754_RNA" "poxB" ["poxB", "b0871", "ECK0862"] "mRNA" [] "EG10754" ["PYRUVOXID-MONOMER"] null [] +"EG10755_RNA" "ppa" ["ppa", "b4226", "ECK4222"] "mRNA" [] "EG10755" ["INORGPYROPHOSPHAT-MONOMER"] null [] +"EG10756_RNA" "ppc" ["ppc", "asp", "glu", "b3956", "ECK3947"] "mRNA" [] "EG10756" ["PEPCARBOX-MONOMER"] null [] +"EG10757_RNA" "ppiA" ["ppiA", "rot", "rotA", "b3363", "ECK3351"] "mRNA" [] "EG10757" ["EG10757-MONOMER"] null [] +"EG10758_RNA" "ppiB" ["ppiB", "b0525", "ECK0518"] "mRNA" [] "EG10758" ["EG10758-MONOMER"] null [] +"EG10759_RNA" "ppsA" ["ppsA", "pps", "b1702", "ECK1700"] "mRNA" [] "EG10759" ["PEPSYNTH-MONOMER"] null [] +"EG10760_RNA" "prc" ["prc", "tsp", "b1830", "ECK1829"] "mRNA" [] "EG10760" ["EG10760-MONOMER"] null [] +"EG10761_RNA" "prfA" ["prfA", "ups?", "sueB", "uar", "b1211", "ECK1199"] "mRNA" [] "EG10761" ["EG10761-MONOMER"] null [] +"EG10762_RNA" "prfB" ["prfB", "supK", "b2891", "ECK2886"] "mRNA" [] "EG10762" ["EG10762-MONOMER"] null [[[1, 75], [77, 1099]]] +"EG10763_RNA" "priA" ["priA", "srgA", "b3935", "ECK3927"] "mRNA" [] "EG10763" ["EG10763-MONOMER"] null [] +"EG10764_RNA" "priB" ["priB", "b4201", "ECK4197"] "mRNA" [] "EG10764" ["EG10764-MONOMER"] null [] +"EG10765_RNA" "priC" ["priC", "b0467", "ECK0461"] "mRNA" [] "EG10765" ["EG10765-MONOMER"] null [] +"EG10766_RNA" "secY" ["secY", "prlA", "b3300", "ECK3287"] "mRNA" [] "EG10766" ["SECY"] null [] +"EG10767_RNA" "proA" ["proA", "pro(1)", "pro1", "b0243", "ECK0244"] "mRNA" [] "EG10767" ["GLUTSEMIALDEHYDROG-MONOMER"] null [] +"EG10768_RNA" "proB" ["proB", "pro(2)", "pro2", "b0242", "ECK0243"] "mRNA" [] "EG10768" ["GLUTKIN-MONOMER"] null [] +"EG10769_RNA" "proC" ["proC", "pro(3)", "Pro2", "pro3", "b0386", "ECK0381"] "mRNA" [] "EG10769" ["PYRROLINECARBREDUCT-MONOMER"] null [] +"EG10770_RNA" "proS" ["proS", "drp", "drpA", "b0194", "ECK0194"] "mRNA" [] "EG10770" ["PROS-MONOMER"] null [] +"EG10771_RNA" "proV" ["proV", "osrA", "proU", "b2677", "ECK2671"] "mRNA" [] "EG10771" ["PROV-MONOMER"] null [] +"EG10772_RNA" "proW" ["proW", "osrA", "proU", "b2678", "ECK2672"] "mRNA" [] "EG10772" ["PROW-MONOMER"] null [] +"EG10773_RNA" "proX" ["proX", "osrA", "proU", "b2679", "ECK2673"] "mRNA" [] "EG10773" ["PROX-MONOMER"] null [] +"EG10774_RNA" "prs" ["prs", "dnaR", "prsA", "b1207", "ECK1195"] "mRNA" [] "EG10774" ["PRPPSYN-MONOMER"] null [] +"EG10775_RNA" "psd" ["psd", "b4160", "ECK4156"] "mRNA" [] "EG10775" ["PSD-MONOMER"] null [] +"EG10776_RNA" "pspA" ["pspA", "cog", "b1304", "ECK1299"] "mRNA" [] "EG10776" ["EG10776-MONOMER"] null [] +"EG10777_RNA" "pspB" ["pspB", "b1305", "ECK1300"] "mRNA" [] "EG10777" ["EG10777-MONOMER"] null [] +"EG10778_RNA" "pspC" ["pspC", "b1306", "ECK1301"] "mRNA" [] "EG10778" ["EG10778-MONOMER"] null [] +"EG10779_RNA" "pspD" ["pspD", "b1307", "ECK1302"] "mRNA" [] "EG10779" ["EG10779-MONOMER"] null [] +"EG10780_RNA" "pspE" ["pspE", "b1308", "ECK1303"] "mRNA" [] "EG10780" ["EG10780-MONOMER"] null [] +"EG10781_RNA" "pssA" ["pssA", "pss", "b2585", "ECK2583"] "mRNA" [] "EG10781" ["PHOSPHASERSYN-MONOMER"] null [] +"EG10782_RNA" "pstA" ["pstA", "R2pho", "phoR2", "phoR2b", "phoT", "b3726", "ECK3719"] "mRNA" [] "EG10782" ["PSTA-MONOMER"] null [] +"EG10783_RNA" "pstB" ["pstB", "phoT", "b3725", "ECK3718"] "mRNA" [] "EG10783" ["PSTB-MONOMER"] null [] +"EG10784_RNA" "pstC" ["pstC", "phoW", "b3727", "ECK3720"] "mRNA" [] "EG10784" ["PSTC-MONOMER"] null [] +"EG10785_RNA" "pth" ["pth", "rap", "b1204", "ECK1192"] "mRNA" [] "EG10785" ["EG10785-MONOMER"] null [] +"EG10786_RNA" "ptrA" ["ptrA", "ptr", "b2821", "ECK2817"] "mRNA" [] "EG10786" ["EG10786-MONOMER"] null [] +"EG10787_RNA" "ptsG" ["ptsG", "umgC", "umg", "tgl", "CR", "car", "cat", "catB2", "glcA", "gptA", "b1101", "ECK1087"] "mRNA" [] "EG10787" ["PTSG-MONOMER"] null [] +"EG10788_RNA" "ptsH" ["ptsH", "ctr", "hpr", "b2415", "ECK2410"] "mRNA" [] "EG10788" ["PTSH-MONOMER"] null [] +"EG10789_RNA" "ptsI" ["ptsI", "ctr", "b2416", "ECK2411"] "mRNA" [] "EG10789" ["PTSI-MONOMER"] null [] +"EG10790_RNA" "purA" ["purA", "adeK", "b4177", "ECK4173"] "mRNA" [] "EG10790" ["ADENYLOSUCCINATE-SYN-MONOMER"] null [] +"EG10791_RNA" "purC" ["purC", "ade(g)", "ade", "b2476", "ECK2472"] "mRNA" [] "EG10791" ["SAICARSYN-MONOMER"] null [] +"EG10792_RNA" "purD" ["purD", "adth(a)", "adth", "b4005", "ECK3997"] "mRNA" [] "EG10792" ["GLYCRIBONUCSYN-MONOMER"] null [] +"EG10793_RNA" "purE" ["purE", "ade(f)", "Pur2", "ade3", "ade", "b0523", "ECK0516"] "mRNA" [] "EG10793" ["PURE-MONOMER"] null [] +"EG10794_RNA" "purF" ["purF", "ade", "purC", "b2312", "ECK2306"] "mRNA" [] "EG10794" ["PRPPAMIDOTRANS-MONOMER"] null [] +"EG10795_RNA" "purH" ["purH", "b4006", "ECK3998"] "mRNA" [] "EG10795" ["AICARTRANSIMPCYCLO-CPLX"] null [] +"EG10796_RNA" "purK" ["purK", "purE2", "b0522", "ECK0515"] "mRNA" [] "EG10796" ["PURK-MONOMER"] null [] +"EG10797_RNA" "purL" ["purL", "purI", "b2557", "ECK2555"] "mRNA" [] "EG10797" ["FGAMSYN-MONOMER"] null [] +"EG10798_RNA" "purM" ["purM", "purG", "purI", "b2499", "ECK2495"] "mRNA" [] "EG10798" ["AIRS-MONOMER"] null [] +"EG10799_RNA" "purN" ["purN", "ade(c)", "ade", "b2500", "ECK2496"] "mRNA" [] "EG10799" ["GART-MONOMER"] null [] +"EG10800_RNA" "purR" ["purR", "b1658", "ECK1654"] "mRNA" [] "EG10800" ["PD00219"] null [] +"EG10801_RNA" "putA" ["putA", "putC", "poaA", "b1014", "ECK1005"] "mRNA" [] "EG10801" ["PUTA-MONOMER"] null [] +"EG10802_RNA" "putP" ["putP", "putC", "b1015", "ECK1006"] "mRNA" [] "EG10802" ["PUTP-MONOMER"] null [] +"EG10803_RNA" "pykA" ["pykA", "b1854", "ECK1855"] "mRNA" [] "EG10803" ["PKII-MONOMER"] null [] +"EG10804_RNA" "pykF" ["pykF", "b1676", "ECK1672"] "mRNA" [] "EG10804" ["PKI-MONOMER"] null [] +"EG10805_RNA" "pyrB" ["pyrB", "b4245", "ECK4240"] "mRNA" [] "EG10805" ["ASPCARBCAT-MONOMER"] null [] +"EG10806_RNA" "pyrC" ["pyrC", "b1062", "ECK1047"] "mRNA" [] "EG10806" ["DIHYDROOROT-MONOMER"] null [] +"EG10807_RNA" "pyrD" ["pyrD", "b0945", "ECK0936"] "mRNA" [] "EG10807" ["DIHYDROOROTOX-MONOMER"] null [] +"EG10808_RNA" "pyrE" ["pyrE", "b3642", "ECK3632"] "mRNA" [] "EG10808" ["OROPRIBTRANS-MONOMER"] null [] +"EG10809_RNA" "pyrF" ["pyrF", "b1281", "ECK1276"] "mRNA" [] "EG10809" ["OROTPDECARB-MONOMER"] null [] +"EG10810_RNA" "pyrG" ["pyrG", "b2780", "ECK2774"] "mRNA" [] "EG10810" ["CTPSYN-MONOMER"] null [] +"EG10811_RNA" "pyrI" ["pyrI", "b4244", "ECK4239"] "mRNA" [] "EG10811" ["ASPCARBREG-MONOMER"] null [] +"EG10812_RNA" "queA" ["queA", "tsaA", "b0405", "ECK0399"] "mRNA" [] "EG10812" ["EG10812-MONOMER"] null [] +"EG10813_RNA" "racC" ["racC", "sbcA", "b1351", "ECK1348"] "mRNA" [] "EG10813" ["EG10813-MONOMER"] null [] +"EG10814_RNA" "rbsA" ["rbsA", "rbsT", "rbsP", "b3749", "ECK3743"] "mRNA" [] "EG10814" ["RBSA-MONOMER"] null [] +"EG10815_RNA" "rbsB" ["rbsB", "prlB", "rbsP", "b3751", "ECK3745"] "mRNA" [] "EG10815" ["RBSB-MONOMER"] null [] +"EG10816_RNA" "rbsC" ["rbsC", "rbsP", "rbsT", "b3750", "ECK3744"] "mRNA" [] "EG10816" ["RBSC-MONOMER"] null [] +"EG10817_RNA" "rbsD" ["rbsD", "rbsP", "b3748", "ECK3742"] "mRNA" [] "EG10817" ["EG10817-MONOMER"] null [] +"EG10818_RNA" "rbsK" ["rbsK", "b3752", "ECK3746"] "mRNA" [] "EG10818" ["RIBOKIN-MONOMER"] null [] +"EG10819_RNA" "rbsR" ["rbsR", "b3753", "ECK3747"] "mRNA" [] "EG10819" ["PD03867"] null [] +"EG10820_RNA" "rcsA" ["rcsA", "cpsR", "b1951", "ECK1949"] "mRNA" [] "EG10820" ["PD02233"] null [] +"EG10821_RNA" "rcsB" ["rcsB", "b2217", "ECK2210"] "mRNA" [] "EG10821" ["RCSB-MONOMER"] null [] +"EG10822_RNA" "rcsC" ["rcsC", "b2218", "ECK2211"] "mRNA" [] "EG10822" ["RCSC-MONOMER"] null [] +"EG10823_RNA" "recA" ["recA", "zab", "umuB", "tif", "lexB", "recH", "rnmB", "srf", "b2699", "ECK2694"] "mRNA" [] "EG10823" ["EG10823-MONOMER"] null [] +"EG10824_RNA" "recB" ["recB", "ior", "rorA", "b2820", "ECK2816"] "mRNA" [] "EG10824" ["EG10824-MONOMER"] null [] +"EG10825_RNA" "recC" ["recC", "b2822", "ECK2818"] "mRNA" [] "EG10825" ["EG10825-MONOMER"] null [] +"EG10826_RNA" "recD" ["recD", "hopE", "b2819", "ECK2815"] "mRNA" [] "EG10826" ["EG10826-MONOMER"] null [] +"EG10827_RNA" "recE" ["recE", "rmuB", "rac", "sbcA", "b1350", "ECK1347"] "mRNA" [] "EG10827" ["EG10827-MONOMER"] null [] +"EG10828_RNA" "recF" ["recF", "uvrF", "b3700", "ECK3692"] "mRNA" [] "EG10828" ["EG10828-MONOMER"] null [] +"EG10829_RNA" "recG" ["recG", "radC", "spoV", "b3652", "ECK3642"] "mRNA" [] "EG10829" ["EG10829-MONOMER"] null [] +"EG10830_RNA" "recJ" ["recJ", "b2892", "ECK2887"] "mRNA" [] "EG10830" ["EG10830-MONOMER"] null [] +"EG10831_RNA" "recN" ["recN", "radB", "b2616", "ECK2612"] "mRNA" [] "EG10831" ["EG10831-MONOMER"] null [] +"EG10832_RNA" "recO" ["recO", "b2565", "ECK2563"] "mRNA" [] "EG10832" ["EG10832-MONOMER"] null [] +"EG10833_RNA" "recQ" ["recQ", "b3822", "ECK3816"] "mRNA" [] "EG10833" ["EG10833-MONOMER"] null [] +"EG10834_RNA" "recR" ["recR", "b0472", "ECK0466"] "mRNA" [] "EG10834" ["EG10834-MONOMER"] null [] +"EG10835_RNA" "relA" ["relA", "RC", "b2784", "ECK2778"] "mRNA" [] "EG10835" ["RELA-MONOMER"] null [] +"EG10836_RNA" "relB" ["relB", "RC", "b1564", "ECK1558"] "mRNA" [] "EG10836" ["EG10836-MONOMER"] null [] +"EG10837_RNA" "rep" ["rep", "dasC", "mbrA", "mmrA", "b3778", "ECK3770"] "mRNA" [] "EG10837" ["EG10837-MONOMER"] null [] +"EG10838_RNA" "rfaD" ["rfaD", "waaD", "hldD", "htrM", "nbsB", "b3619", "ECK3609"] "mRNA" [] "EG10838" ["EG10838-MONOMER"] null [] +"EG10839_RNA" "rfaH" ["rfaH", "hlyT", "sfrB", "b3842", "ECK3834"] "mRNA" [] "EG10839" ["EG10839-MONOMER"] null [] +"EG10840_RNA" "rfe" ["rfe", "wecA", "b3784", "ECK3776"] "mRNA" [] "EG10840" ["GLCNACPTRANS-MONOMER"] null [] +"EG10841_RNA" "fliD" ["fliD", "flbC", "rfs", "b1924", "ECK1923"] "mRNA" [] "EG10841" ["EG10841-MONOMER"] null [] +"EG10842_RNA" "rhaR" ["rhaR", "rhaC1", "b3906", "ECK3899"] "mRNA" [] "EG10842" ["PD00222"] null [] +"EG10843_RNA" "rhaS" ["rhaS", "rhaC2", "b3905", "ECK3898"] "mRNA" [] "EG10843" ["PD00221"] null [] +"EG10844_RNA" "rhlB" ["rhlB", "mmrA", "b3780", "ECK3772"] "mRNA" [] "EG10844" ["EG10844-MONOMER"] null [] +"EG10845_RNA" "rho" ["rho", "nusD", "sun", "tsu", "rnsC", "nitA", "psu", "psuA", "sbaA", "b3783", "ECK3775"] "mRNA" [] "EG10845" ["EG10845-MONOMER"] null [] +"EG10846_RNA" "rhsA" ["rhsA", "b3593", "ECK3582"] "mRNA" [] "EG10846" ["EG10846-MONOMER"] null [] +"EG10847_RNA" "rhsB" ["rhsB", "b3482", "ECK3466"] "mRNA" [] "EG10847" ["EG10847-MONOMER"] null [] +"EG10848_RNA" "rhsC" ["rhsC", "b0700", "ECK0689"] "mRNA" [] "EG10848" ["EG10848-MONOMER"] null [] +"EG10849_RNA" "rhsD" ["rhsD", "b0497", "ECK0491"] "mRNA" [] "EG10849" ["EG10849-MONOMER"] null [] +"EG10850_RNA" "rimI" ["rimI", "b4373", "ECK4364"] "mRNA" [] "EG10850" ["EG10850-MONOMER"] null [] +"EG10851_RNA" "rimJ" ["rimJ", "tcp", "b1066", "ECK1051"] "mRNA" [] "EG10851" ["EG10851-MONOMER"] null [] +"EG10852_RNA" "rimK" ["rimK", "nek", "b0852", "ECK0843"] "mRNA" [] "EG10852" ["EG10852-MONOMER"] null [] +"EG10853_RNA" "rimL" ["rimL", "b1427", "ECK1420"] "mRNA" [] "EG10853" ["EG10853-MONOMER"] null [] +"EG10854_RNA" "rlpA" ["rlpA", "b0633", "ECK0626"] "mRNA" [] "EG10854" ["EG10854-MONOMER"] null [] +"EG10855_RNA" "lptE" ["lptE", "rlpB", "b0641", "ECK0634"] "mRNA" [] "EG10855" ["EG10855-MONOMER"] null [] +"EG10856_RNA" "rna" ["rna", "rnsA", "b0611", "ECK0604"] "mRNA" [] "EG10856" ["EG10856-MONOMER"] null [] +"EG10857_RNA" "rnc" ["rnc", "ranA", "b2567", "ECK2565"] "mRNA" [] "EG10857" ["EG10857-MONOMER"] null [] +"EG10858_RNA" "rnd" ["rnd", "b1804", "ECK1802"] "mRNA" [] "EG10858" ["EG10858-MONOMER"] null [] +"EG10859_RNA" "rne" ["rne", "smbB", "ams", "hmp1", "b1084", "ECK1069"] "mRNA" [] "EG10859" ["EG10859-MONOMER"] null [] +"EG10860_RNA" "rnhA" ["rnhA", "cer", "sin", "dasF", "herA", "rnh", "sdrA", "b0214", "ECK0214"] "mRNA" [] "EG10860" ["EG10860-MONOMER"] null [] +"EG10861_RNA" "rnhB" ["rnhB", "b0183", "ECK0182"] "mRNA" [] "EG10861" ["EG10861-MONOMER"] null [] +"EG10862_RNA" "rnpA" ["rnpA", "b3704", "ECK3696"] "mRNA" [] "EG10862" ["EG10862-MONOMER"] null [] +"EG10863_RNA" "rph" ["rph", "b3643", "ECK3633"] "mRNA" [] "EG10863" ["EG10863-MONOMER"] null [] +"EG10864_RNA" "rplA" ["rplA", "rpy", "b3984", "ECK3975"] "mRNA" [] "EG10864" ["EG10864-MONOMER"] null [] +"EG10865_RNA" "rplB" ["rplB", "b3317", "ECK3304"] "mRNA" [] "EG10865" ["EG10865-MONOMER"] null [] +"EG10866_RNA" "rplC" ["rplC", "b3320", "ECK3307"] "mRNA" [] "EG10866" ["EG10866-MONOMER"] null [] +"EG10867_RNA" "rplD" ["rplD", "eryA", "b3319", "ECK3306"] "mRNA" [] "EG10867" ["EG10867-MONOMER"] null [] +"EG10868_RNA" "rplE" ["rplE", "b3308", "ECK3295"] "mRNA" [] "EG10868" ["EG10868-MONOMER"] null [] +"EG10869_RNA" "rplF" ["rplF", "b3305", "ECK3292"] "mRNA" [] "EG10869" ["EG10869-MONOMER"] null [] +"EG10870_RNA" "rplI" ["rplI", "b4203", "ECK4199"] "mRNA" [] "EG10870" ["EG10870-MONOMER"] null [] +"EG10871_RNA" "rplJ" ["rplJ", "b3985", "ECK3976"] "mRNA" [] "EG10871" ["EG10871-MONOMER"] null [] +"EG10872_RNA" "rplK" ["rplK", "relC", "b3983", "ECK3974"] "mRNA" [] "EG10872" ["EG10872-MONOMER"] null [] +"EG10873_RNA" "rplL" ["rplL", "b3986", "ECK3977"] "mRNA" [] "EG10873" ["EG10873-MONOMER"] null [] +"EG10874_RNA" "rplM" ["rplM", "b3231", "ECK3220"] "mRNA" [] "EG10874" ["EG10874-MONOMER"] null [] +"EG10875_RNA" "rplN" ["rplN", "b3310", "ECK3297"] "mRNA" [] "EG10875" ["EG10875-MONOMER"] null [] +"EG10876_RNA" "rplO" ["rplO", "b3301", "ECK3288"] "mRNA" [] "EG10876" ["EG10876-MONOMER"] null [] +"EG10877_RNA" "rplP" ["rplP", "b3313", "ECK3300"] "mRNA" [] "EG10877" ["EG10877-MONOMER"] null [] +"EG10878_RNA" "rplQ" ["rplQ", "b3294", "ECK3281"] "mRNA" [] "EG10878" ["EG10878-MONOMER"] null [] +"EG10879_RNA" "rplR" ["rplR", "b3304", "ECK3291"] "mRNA" [] "EG10879" ["EG10879-MONOMER"] null [] +"EG10880_RNA" "rplS" ["rplS", "b2606", "ECK2603"] "mRNA" [] "EG10880" ["EG10880-MONOMER"] null [] +"EG10881_RNA" "rplT" ["rplT", "pdzA", "b1716", "ECK1714"] "mRNA" [] "EG10881" ["EG10881-MONOMER"] null [] +"EG10882_RNA" "rplV" ["rplV", "eryB", "b3315", "ECK3302"] "mRNA" [] "EG10882" ["EG10882-MONOMER"] null [] +"EG10883_RNA" "rplW" ["rplW", "b3318", "ECK3305"] "mRNA" [] "EG10883" ["EG10883-MONOMER"] null [] +"EG10884_RNA" "rplX" ["rplX", "b3309", "ECK3296"] "mRNA" [] "EG10884" ["EG10884-MONOMER"] null [] +"EG10885_RNA" "rplY" ["rplY", "b2185", "ECK2179"] "mRNA" [] "EG10885" ["EG10885-MONOMER"] null [] +"EG10886_RNA" "rpmB" ["rpmB", "b3637", "ECK3627"] "mRNA" [] "EG10886" ["EG10886-MONOMER"] null [] +"EG10887_RNA" "rpmC" ["rpmC", "b3312", "ECK3299"] "mRNA" [] "EG10887" ["EG10887-MONOMER"] null [] +"EG10888_RNA" "rpmD" ["rpmD", "b3302", "ECK3289"] "mRNA" [] "EG10888" ["EG10888-MONOMER"] null [] +"EG10889_RNA" "rpmE" ["rpmE", "b3936", "ECK3928"] "mRNA" [] "EG10889" ["EG10889-MONOMER"] null [] +"EG10890_RNA" "rpmF" ["rpmF", "b1089", "ECK1075"] "mRNA" [] "EG10890" ["EG10890-MONOMER"] null [] +"EG10891_RNA" "rpmG" ["rpmG", "b3636", "ECK3626"] "mRNA" [] "EG10891" ["EG10891-MONOMER"] null [] +"EG10892_RNA" "rpmH" ["rpmH", "rimA", "ssaF", "b3703", "ECK3695"] "mRNA" [] "EG10892" ["EG10892-MONOMER"] null [] +"EG10893_RNA" "rpoA" ["rpoA", "pez", "phs", "sez", "b3295", "ECK3282"] "mRNA" [] "EG10893" ["EG10893-MONOMER"] null [] +"EG10894_RNA" "rpoB" ["rpoB", "sdgB", "tabD", "stv", "stl", "ftsR", "groN", "nitB", "rif", "ron", "b3987", "ECK3978"] "mRNA" [] "EG10894" ["RPOB-MONOMER"] null [] +"EG10895_RNA" "rpoC" ["rpoC", "tabB", "b3988", "ECK3979"] "mRNA" [] "EG10895" ["RPOC-MONOMER"] null [] +"EG10896_RNA" "rpoD" ["rpoD", "alt", "b3067", "ECK3057"] "mRNA" [] "EG10896" ["RPOD-MONOMER"] null [] +"EG10897_RNA" "rpoH" ["rpoH", "fam", "hin", "htpR", "b3461", "ECK3445"] "mRNA" [] "EG10897" ["RPOH-MONOMER"] null [] +"EG10898_RNA" "rpoN" ["rpoN", "glnF", "ntrA", "b3202", "ECK3191"] "mRNA" [] "EG10898" ["RPON-MONOMER"] null [] +"EG10899_RNA" "rpoZ" ["rpoZ", "spoS", "b3649", "ECK3639"] "mRNA" [] "EG10899" ["EG10899-MONOMER"] null [] +"EG10900_RNA" "rpsA" ["rpsA", "ssyF", "b0911", "ECK0902"] "mRNA" [] "EG10900" ["EG10900-MONOMER"] null [] +"EG10901_RNA" "rpsB" ["rpsB", "b0169", "ECK0168"] "mRNA" [] "EG10901" ["EG10901-MONOMER"] null [] +"EG10902_RNA" "rpsC" ["rpsC", "b3314", "ECK3301"] "mRNA" [] "EG10902" ["EG10902-MONOMER"] null [] +"EG10903_RNA" "rpsD" ["rpsD", "ramA", "sud(2)", "sud2", "b3296", "ECK3283"] "mRNA" [] "EG10903" ["EG10903-MONOMER"] null [] +"EG10904_RNA" "rpsE" ["rpsE", "spc", "eps", "spcA", "b3303", "ECK3290"] "mRNA" [] "EG10904" ["EG10904-MONOMER"] null [] +"EG10905_RNA" "rpsF" ["rpsF", "sdgH", "b4200", "ECK4196"] "mRNA" [] "EG10905" ["EG10905-MONOMER"] null [] +"EG10906_RNA" "rpsG" ["rpsG", "b3341", "ECK3328"] "mRNA" [] "EG10906" ["EG10906-MONOMER"] null [] +"EG10907_RNA" "rpsH" ["rpsH", "b3306", "ECK3293"] "mRNA" [] "EG10907" ["EG10907-MONOMER"] null [] +"EG10908_RNA" "rpsI" ["rpsI", "b3230", "ECK3219"] "mRNA" [] "EG10908" ["EG10908-MONOMER"] null [] +"EG10909_RNA" "rpsJ" ["rpsJ", "nusE", "b3321", "ECK3308"] "mRNA" [] "EG10909" ["EG10909-MONOMER"] null [] +"EG10910_RNA" "rpsK" ["rpsK", "b3297", "ECK3284"] "mRNA" [] "EG10910" ["EG10910-MONOMER"] null [] +"EG10911_RNA" "rpsL" ["rpsL", "asuB", "strA", "b3342", "ECK3329"] "mRNA" [] "EG10911" ["EG10911-MONOMER"] null [] +"EG10912_RNA" "rpsM" ["rpsM", "b3298", "ECK3285"] "mRNA" [] "EG10912" ["EG10912-MONOMER"] null [] +"EG10913_RNA" "rpsN" ["rpsN", "b3307", "ECK3294"] "mRNA" [] "EG10913" ["EG10913-MONOMER"] null [] +"EG10914_RNA" "rpsO" ["rpsO", "secC", "b3165", "ECK3154"] "mRNA" [] "EG10914" ["EG10914-MONOMER"] null [] +"EG10915_RNA" "rpsP" ["rpsP", "b2609", "ECK2606"] "mRNA" [] "EG10915" ["EG10915-MONOMER"] null [] +"EG10916_RNA" "rpsQ" ["rpsQ", "neaA", "b3311", "ECK3298"] "mRNA" [] "EG10916" ["EG10916-MONOMER"] null [] +"EG10917_RNA" "rpsR" ["rpsR", "b4202", "ECK4198"] "mRNA" [] "EG10917" ["EG10917-MONOMER"] null [] +"EG10918_RNA" "rpsS" ["rpsS", "b3316", "ECK3303"] "mRNA" [] "EG10918" ["EG10918-MONOMER"] null [] +"EG10919_RNA" "rpsT" ["rpsT", "supS", "sup(s20)", "supS20", "b0023", "ECK0024"] "mRNA" [] "EG10919" ["EG10919-MONOMER"] null [] +"EG10920_RNA" "rpsU" ["rpsU", "b3065", "ECK3055"] "mRNA" [] "EG10920" ["EG10920-MONOMER"] null [] +"EG10921_RNA" "ftnA" ["ftnA", "ftn", "gen-165", "rsgA", "b1905", "ECK1904"] "mRNA" [] "EG10921" ["EG10921-MONOMER"] null [] +"EG10922_RNA" "coaA" ["coaA", "panK", "rts", "ts-9", "b3974", "ECK3966"] "mRNA" [] "EG10922" ["PANTOTHENATE-KIN-MONOMER"] null [] +"EG10925_RNA" "ruvC" ["ruvC", "b1863", "ECK1864"] "mRNA" [] "EG10925" ["EG10925-MONOMER"] null [] +"EG10926_RNA" "sbcB" ["sbcB", "exoI", "rmuA", "cpeA", "xonA", "b2011", "ECK2005"] "mRNA" [] "EG10926" ["EG10926-MONOMER"] null [] +"EG10927_RNA" "sbcC" ["sbcC", "b0397", "ECK0391"] "mRNA" [] "EG10927" ["EG10927-MONOMER"] null [] +"EG10928_RNA" "sbmA" ["sbmA", "b0377", "ECK0372"] "mRNA" [] "EG10928" ["SBMA-MONOMER"] null [] +"EG10929_RNA" "sbp" ["sbp", "b3917", "ECK3909"] "mRNA" [] "EG10929" ["SBP-MONOMER"] null [] +"EG10930_RNA" "sdaA" ["sdaA", "b1814", "ECK1812"] "mRNA" [] "EG10930" ["LSERINEDEAM1-MONOMER"] null [] +"EG10931_RNA" "sdhA" ["sdhA", "dhsA", "b0723", "ECK0712"] "mRNA" [] "EG10931" ["SDH-FLAVO"] null [] +"EG10932_RNA" "sdhB" ["sdhB", "dhsB", "b0724", "ECK0713"] "mRNA" [] "EG10932" ["SDH-FE-S"] null [] +"EG10933_RNA" "sdhC" ["sdhC", "cybL", "cybA", "dhsC", "b0721", "ECK0710"] "mRNA" [] "EG10933" ["SDH-MEMB1"] null [] +"EG10934_RNA" "sdhD" ["sdhD", "cybS", "dhsD", "b0722", "ECK0711"] "mRNA" [] "EG10934" ["SDH-MEMB2"] null [] +"EG10935_RNA" "sdiA" ["sdiA", "b1916", "ECK1915"] "mRNA" [] "EG10935" ["PD02198"] null [] +"EG10936_RNA" "secA" ["secA", "azi", "pea", "prlD", "b0098", "ECK0099"] "mRNA" [] "EG10936" ["SECA"] null [] +"EG10937_RNA" "secB" ["secB", "b3609", "ECK3599"] "mRNA" [] "EG10937" ["SECB"] null [] +"EG10938_RNA" "secD" ["secD", "b0408", "ECK0402"] "mRNA" [] "EG10938" ["SECD"] null [] +"EG10939_RNA" "secE" ["secE", "mbrC", "prlG", "b3981", "ECK3972"] "mRNA" [] "EG10939" ["SECE"] null [] +"EG10940_RNA" "secF" ["secF", "b0409", "ECK0403"] "mRNA" [] "EG10940" ["SECF"] null [] +"EG10941_RNA" "selA" ["selA", "fdhA", "b3591", "ECK3580"] "mRNA" [] "EG10941" ["EG10941-MONOMER"] null [] +"EG10942_RNA" "selB" ["selB", "fdhA", "b3590", "ECK3579"] "mRNA" [] "EG10942" ["EG10942-MONOMER"] null [] +"EG10943_RNA" "selD" ["selD", "fdhB", "b1764", "ECK1762"] "mRNA" [] "EG10943" ["EG10943-MONOMER"] null [] +"EG10944_RNA" "serA" ["serA", "b2913", "ECK2909"] "mRNA" [] "EG10944" ["PGLYCDEHYDROG-MONOMER"] null [] +"EG10945_RNA" "serB" ["serB", "b4388", "ECK4380"] "mRNA" [] "EG10945" ["PSERPHOSPHA-MONOMER"] null [] +"EG10946_RNA" "serC" ["serC", "pdxC", "pdxF", "b0907", "ECK0898"] "mRNA" [] "EG10946" ["PSERTRANSAM-MONOMER"] null [] +"EG10947_RNA" "serS" ["serS", "b0893", "ECK0884"] "mRNA" [] "EG10947" ["SERS-MONOMER"] null [] +"EG10948_RNA" "maeA" ["maeA", "sfcA", "b1479", "ECK1473"] "mRNA" [] "EG10948" ["MALIC-NAD-MONOMER"] null [] +"EG10949_RNA" "sfsA" ["sfsA", "sfs", "sfs1", "b0146", "ECK0145"] "mRNA" [] "EG10949" ["EG10949-MONOMER"] null [] +"EG10950_RNA" "slt" ["slt", "sltY", "b4392", "ECK4384"] "mRNA" [] "EG10950" ["EG10950-MONOMER"] null [] +"EG10951_RNA" "ytjB" ["ytjB", "smp", "b4387", "ECK4379"] "mRNA" [] "EG10951" ["EG10951-MONOMER"] null [] +"EG10952_RNA" "bamE" ["bamE", "smpA", "smqA", "b2617", "ECK2613"] "mRNA" [] "EG10952" ["EG10952-MONOMER"] null [] +"EG10953_RNA" "sodA" ["sodA", "b3908", "ECK3901"] "mRNA" [] "EG10953" ["SUPEROX-DISMUTMN-MONOMER"] null [] +"EG10954_RNA" "sodB" ["sodB", "b1656", "ECK1652"] "mRNA" [] "EG10954" ["SUPEROX-DISMUTFE-MONOMER"] null [] +"EG10955_RNA" "prlF" ["prlF", "sohA", "prlFA", "b3129", "ECK3117"] "mRNA" [] "EG10955" ["EG10955-MONOMER"] null [] +"EG10956_RNA" "sohB" ["sohB", "b1272", "ECK1266"] "mRNA" [] "EG10956" ["EG10956-MONOMER"] null [] +"EG10957_RNA" "soxR" ["soxR", "marC", "b4063", "ECK4055"] "mRNA" [] "EG10957" ["PD04132"] null [] +"EG10958_RNA" "soxS" ["soxS", "b4062", "ECK4054"] "mRNA" [] "EG10958" ["PD00406"] null [] +"EG10959_RNA" "speA" ["speA", "b2938", "ECK2933"] "mRNA" [] "EG10959" ["ARGDECARBOXBIO-MONOMER"] null [] +"EG10960_RNA" "speB" ["speB", "b2937", "ECK2932"] "mRNA" [] "EG10960" ["AGMATIN-MONOMER"] null [] +"EG10961_RNA" "speC" ["speC", "b2965", "ECK2960"] "mRNA" [] "EG10961" ["ORNDECARBOX-BIO-MONOMER"] null [] +"EG10962_RNA" "speD" ["speD", "b0120", "ECK0119"] "mRNA" [] "EG10962" ["SPED-MONOMER"] null [] +"EG10963_RNA" "speE" ["speE", "b0121", "ECK0120"] "mRNA" [] "EG10963" ["SPERMIDINESYN-MONOMER"] null [] +"EG10964_RNA" "speF" ["speF", "b0693", "ECK0681"] "mRNA" [] "EG10964" ["ORNDECARBOXDEG-MONOMER"] null [] +"EG10965_RNA" "gmk" ["gmk", "spoR", "b3648", "ECK3638"] "mRNA" [] "EG10965" ["GUANYL-KIN-MONOMER"] null [] +"EG10966_RNA" "spoT" ["spoT", "b3650", "ECK3640"] "mRNA" [] "EG10966" ["SPOT-MONOMER"] null [] +"EG10967_RNA" "trmH" ["trmH", "spoU", "b3651", "ECK3641"] "mRNA" [] "EG10967" ["EG10967-MONOMER"] null [] +"EG10968_RNA" "sppA" ["sppA", "b1766", "ECK1764"] "mRNA" [] "EG10968" ["EG10968-MONOMER"] null [] +"EG10969_RNA" "srlE" ["srlE", "sbl", "gutA", "gutE", "srlA", "srlA-2", "b2703", "ECK2698"] "mRNA" [] "EG10969" ["GUTA-MONOMER"] null [] +"EG10970_RNA" "srlB" ["srlB", "gutB", "b2704", "ECK2699"] "mRNA" [] "EG10970" ["GUTB-MONOMER"] null [] +"EG10971_RNA" "srlD" ["srlD", "gutD", "b2705", "ECK2700"] "mRNA" [] "EG10971" ["SORB6PDEHYDROG-MONOMER"] null [] +"EG10972_RNA" "gutM" ["gutM", "gut", "srlM", "b2706", "ECK2701"] "mRNA" [] "EG10972" ["PD00345"] null [] +"EG10973_RNA" "gutQ" ["gutQ", "srlQ", "b2708", "ECK2703"] "mRNA" [] "EG10973" ["EG10973-MONOMER"] null [] +"EG10974_RNA" "srlR" ["srlR", "gutR", "b2707", "ECK2702"] "mRNA" [] "EG10974" ["PD00283"] null [] +"EG10975_RNA" "srmB" ["srmB", "rbaB", "rhlA", "b2576", "ECK2574"] "mRNA" [] "EG10975" ["EG10975-MONOMER"] null [] +"EG10976_RNA" "ssb" ["ssb", "exrB", "lexC", "b4059", "ECK4051"] "mRNA" [] "EG10976" ["EG10976-MONOMER"] null [] +"EG10977_RNA" "sspA" ["sspA", "ssp", "pog", "b3229", "ECK3218"] "mRNA" [] "EG10977" ["EG10977-MONOMER"] null [] +"EG10978_RNA" "sspB" ["sspB", "b3228", "ECK3217"] "mRNA" [] "EG10978" ["EG10978-MONOMER"] null [] +"EG10979_RNA" "sucA" ["sucA", "lys+met", "b0726", "ECK0714"] "mRNA" [] "EG10979" ["E1O-MONOMER"] null [] +"EG10980_RNA" "sucB" ["sucB", "b0727", "ECK0715"] "mRNA" [] "EG10980" ["E2O-MONOMER"] null [] +"EG10981_RNA" "sucC" ["sucC", "b0728", "ECK0716"] "mRNA" [] "EG10981" ["SUCCCOASYN-BETA"] null [] +"EG10982_RNA" "sucD" ["sucD", "b0729", "ECK0717"] "mRNA" [] "EG10982" ["SUCCCOASYN-ALPHA"] null [] +"EG10983_RNA" "suhB" ["suhB", "ssyA", "b2533", "ECK2530"] "mRNA" [] "EG10983" ["EG10983-MONOMER"] null [] +"EG10984_RNA" "sulA" ["sulA", "sfiA", "suf", "b0958", "ECK0949"] "mRNA" [] "EG10984" ["EG10984-MONOMER"] null [] +"EG10985_RNA" "surA" ["surA", "b0053", "ECK0054"] "mRNA" [] "EG10985" ["EG10985-MONOMER"] null [] +"EG10986_RNA" "tag" ["tag", "tagA", "b3549", "ECK3536"] "mRNA" [] "EG10986" ["EG10986-MONOMER"] null [] +"EG10987_RNA" "tap" ["tap", "b1885", "ECK1886"] "mRNA" [] "EG10987" ["TAP-MONOMER"] null [] +"EG10988_RNA" "tar" ["tar", "cheM", "b1886", "ECK1887"] "mRNA" [] "EG10988" ["TAR-MONOMER"] null [] +"EG10989_RNA" "tdcA" ["tdcA", "b3118", "ECK3107"] "mRNA" [] "EG10989" ["PD00268"] null [] +"EG10990_RNA" "tdcB" ["tdcB", "tdc", "b3117", "ECK3106"] "mRNA" [] "EG10990" ["THREDEHYDCAT-MONOMER"] null [] +"EG10991_RNA" "tdcC" ["tdcC", "b3116", "ECK3105"] "mRNA" [] "EG10991" ["TDCC-MONOMER"] null [] +"EG10992_RNA" "tdcR" ["tdcR", "b3119", "ECK3108"] "mRNA" [] "EG10992" ["PD03292"] null [] +"EG10993_RNA" "tdh" ["tdh", "b3616", "ECK3606"] "mRNA" [] "EG10993" ["THREODEHYD-MONOMER"] null [] +"EG10994_RNA" "tdk" ["tdk", "b1238", "ECK1233"] "mRNA" [] "EG10994" ["TDK-MONOMER"] null [] +"EG10995_RNA" "tesB" ["tesB", "b0452", "ECK0446"] "mRNA" [] "EG10995" ["THIOESTERII-MONOMER"] null [] +"EG10996_RNA" "tgt" ["tgt", "vacC(S.f.)", "b0406", "ECK0400"] "mRNA" [] "EG10996" ["EG10996-MONOMER"] null [] +"EG10997_RNA" "mnmE" ["mnmE", "trmE", "thdF", "b3706", "ECK3699"] "mRNA" [] "EG10997" ["EG10997-MONOMER"] null [] +"EG10998_RNA" "thrA" ["thrA", "thrA2", "Hs", "thrA1", "thrD", "b0002", "ECK0002"] "mRNA" [] "EG10998" ["ASPKINIHOMOSERDEHYDROGI-MONOMER"] null [] +"EG10999_RNA" "thrB" ["thrB", "b0003", "ECK0003"] "mRNA" [] "EG10999" ["HOMOSERKIN-MONOMER"] null [] +"EG11000_RNA" "thrC" ["thrC", "b0004", "ECK0004"] "mRNA" [] "EG11000" ["THRESYN-MONOMER"] null [] +"EG11001_RNA" "thrS" ["thrS", "b1719", "ECK1717"] "mRNA" [] "EG11001" ["THRS-MONOMER"] null [] +"EG11002_RNA" "thyA" ["thyA", "b2827", "ECK2823"] "mRNA" [] "EG11002" ["THYMIDYLATESYN-MONOMER"] null [] +"EG11003_RNA" "tig" ["tig", "b0436", "ECK0430"] "mRNA" [] "EG11003" ["EG11003-MONOMER"] null [] +"EG11004_RNA" "ptrB" ["ptrB", "tlp", "b1845", "ECK1846"] "mRNA" [] "EG11004" ["EG11004-MONOMER"] null [] +"EG11005_RNA" "tnaA" ["tnaA", "ind", "tnaR", "b3708", "ECK3701"] "mRNA" [] "EG11005" ["TRYPTOPHAN-MONOMER"] null [] +"EG11006_RNA" "tnaB" ["tnaB", "tnaP", "trpP", "b3709", "ECK3702"] "mRNA" [] "EG11006" ["TNAB-MONOMER"] null [] +"EG11007_RNA" "tolA" ["tolA", "cim", "excC", "lky", "tol-2", "b0739", "ECK0728"] "mRNA" [] "EG11007" ["EG11007-MONOMER"] null [] +"EG11008_RNA" "tolB" ["tolB", "lky", "lkyA", "tol-3", "b0740", "ECK0729"] "mRNA" [] "EG11008" ["EG11008-MONOMER"] null [] +"EG11009_RNA" "tolC" ["tolC", "weeA", "colE1-i", "mtcB", "mukA", "refI", "toc", "b3035", "ECK3026"] "mRNA" [] "EG11009" ["EG11009-MONOMER"] null [] +"EG11010_RNA" "tolQ" ["tolQ", "fii", "tolP", "b0737", "ECK0726"] "mRNA" [] "EG11010" ["EG11010-MONOMER"] null [] +"EG11011_RNA" "tolR" ["tolR", "b0738", "ECK0727"] "mRNA" [] "EG11011" ["EG11011-MONOMER"] null [] +"EG11012_RNA" "tonB" ["tonB", "T1rec", "exbA", "b1252", "ECK1246"] "mRNA" [] "EG11012" ["EG11012-MONOMER"] null [] +"EG11013_RNA" "topA" ["topA", "supX", "b1274", "ECK1268"] "mRNA" [] "EG11013" ["EG11013-MONOMER"] null [] +"EG11014_RNA" "topB" ["topB", "mutR", "b1763", "ECK1761"] "mRNA" [] "EG11014" ["EG11014-MONOMER"] null [] +"EG11015_RNA" "tpiA" ["tpiA", "tpi", "b3919", "ECK3911"] "mRNA" [] "EG11015" ["TPI-MONOMER"] null [] +"EG11016_RNA" "tpr" ["tpr", "b1229", "ECK1224"] "mRNA" [] "EG11016" ["EG11016-MONOMER"] null [] +"EG11017_RNA" "treA" ["treA", "osmA", "tre", "b1197", "ECK1185"] "mRNA" [] "EG11017" ["TREHALAPERI-MONOMER"] null [] +"EG11018_RNA" "trg" ["trg", "b1421", "ECK1415"] "mRNA" [] "EG11018" ["TRG-MONOMER"] null [] +"EG11019_RNA" "trkA" ["trkA", "b3290", "ECK3276"] "mRNA" [] "EG11019" ["TRKA-MONOMER"] null [] +"EG11020_RNA" "trkG" ["trkG", "b1363", "ECK1362"] "mRNA" [] "EG11020" ["TRKG-MONOMER"] null [] +"EG11021_RNA" "trkH" ["trkH", "b3849", "ECK3841"] "mRNA" [] "EG11021" ["TRKH-MONOMER"] null [] +"EG11022_RNA" "trmA" ["trmA", "rT", "rumT", "b3965", "ECK3957"] "mRNA" [] "EG11022" ["EG11022-MONOMER"] null [] +"EG11023_RNA" "trmD" ["trmD", "b2607", "ECK2604"] "mRNA" [] "EG11023" ["EG11023-MONOMER"] null [] +"EG11024_RNA" "trpA" ["trpA", "try", "tryp", "b1260", "ECK1254"] "mRNA" [] "EG11024" ["TRYPSYN-APROTEIN"] null [] +"EG11025_RNA" "trpB" ["trpB", "b1261", "ECK1255"] "mRNA" [] "EG11025" ["TRYPSYN-BPROTEIN"] null [] +"EG11026_RNA" "trpC" ["trpC", "trpF", "trpCF", "b1262", "ECK1256"] "mRNA" [] "EG11026" ["PRAI-IGPS"] null [] +"EG11027_RNA" "trpD" ["trpD", "trpGD", "b1263", "ECK1257"] "mRNA" [] "EG11027" ["ANTHRANSYNCOMPII-MONOMER"] null [] +"EG11028_RNA" "trpE" ["trpE", "anth", "tryD", "tryp-4", "b1264", "ECK1258"] "mRNA" [] "EG11028" ["ANTHRANSYNCOMPI-MONOMER"] null [] +"EG11029_RNA" "trpR" ["trpR", "rtrY", "b4393", "ECK4385"] "mRNA" [] "EG11029" ["PD00423"] null [] +"EG11030_RNA" "trpS" ["trpS", "b3384", "ECK3371"] "mRNA" [] "EG11030" ["TRPS-MONOMER"] null [] +"EG11031_RNA" "trxA" ["trxA", "dasC", "fipA", "tsnC", "b3781", "ECK3773"] "mRNA" [] "EG11031" ["RED-THIOREDOXIN-MONOMER"] null [] +"EG11032_RNA" "trxB" ["trxB", "trxR", "b0888", "ECK0879"] "mRNA" [] "EG11032" ["THIOREDOXIN-REDUCT-NADPH-MONOMER"] null [] +"EG11033_RNA" "tsf" ["tsf", "b0170", "ECK0169"] "mRNA" [] "EG11033" ["EG11033-MONOMER"] null [] +"EG11034_RNA" "tsr" ["tsr", "cheD", "b4355", "ECK4345"] "mRNA" [] "EG11034" ["TSR-MONOMER"] null [] +"EG11035_RNA" "tsx" ["tsx", "T6rec", "nupA", "b0411", "ECK0405"] "mRNA" [] "EG11035" ["EG11035-MONOMER"] null [] +"EG11036_RNA" "tufA" ["tufA", "pulT", "kirT", "b3339", "ECK3326"] "mRNA" [] "EG11036" ["EG11036-MONOMER"] null [] +"EG11037_RNA" "tufB" ["tufB", "pulT", "kirT", "b3980", "ECK3971"] "mRNA" [] "EG11037" ["EG11037-MONOMER"] null [] +"EG11038_RNA" "tus" ["tus", "tau", "b1610", "ECK1605"] "mRNA" [] "EG11038" ["EG11038-MONOMER"] null [] +"EG11039_RNA" "tyrA" ["tyrA", "b2600", "ECK2597"] "mRNA" [] "EG11039" ["CHORISMUTPREPHENDEHYDROG-MONOMER"] null [] +"EG11040_RNA" "tyrB" ["tyrB", "b4054", "ECK4046"] "mRNA" [] "EG11040" ["TYRB-MONOMER"] null [] +"EG11041_RNA" "tyrP" ["tyrP", "b1907", "ECK1906"] "mRNA" [] "EG11041" ["TYRP-MONOMER"] null [] +"EG11042_RNA" "tyrR" ["tyrR", "b1323", "ECK1319"] "mRNA" [] "EG11042" ["PD00413"] null [] +"EG11043_RNA" "tyrS" ["tyrS", "b1637", "ECK1633"] "mRNA" [] "EG11043" ["TYRS-MONOMER"] null [] +"EG11044_RNA" "ubiX" ["ubiX", "dedF", "b2311", "ECK2305"] "mRNA" [] "EG11044" ["UBIX-MONOMER"] null [] +"EG11045_RNA" "udp" ["udp", "b3831", "ECK3825"] "mRNA" [] "EG11045" ["URPHOS-MONOMER"] null [] +"EG11046_RNA" "ugpA" ["ugpA", "psiB", "psiC", "ugp", "b3452", "ECK3436"] "mRNA" [] "EG11046" ["UGPA-MONOMER"] null [] +"EG11047_RNA" "ugpB" ["ugpB", "psiB", "psiC", "b3453", "ECK3437"] "mRNA" [] "EG11047" ["UGPB-MONOMER"] null [] +"EG11048_RNA" "ugpC" ["ugpC", "b3450", "ECK3434"] "mRNA" [] "EG11048" ["UGPC-MONOMER"] null [] +"EG11049_RNA" "ugpE" ["ugpE", "b3451", "ECK3435"] "mRNA" [] "EG11049" ["UGPE-MONOMER"] null [] +"EG11050_RNA" "ugpQ" ["ugpQ", "b3449", "ECK3433"] "mRNA" [] "EG11050" ["GLYCPDIESTER-CYTO-MONOMER"] null [] +"EG11051_RNA" "uhpA" ["uhpA", "b3669", "ECK3660"] "mRNA" [] "EG11051" ["UHPA-MONOMER"] null [] +"EG11052_RNA" "uhpB" ["uhpB", "b3668", "ECK3659"] "mRNA" [] "EG11052" ["UHPB-MONOMER"] null [] +"EG11053_RNA" "uhpC" ["uhpC", "b3667", "ECK3658"] "mRNA" [] "EG11053" ["UHPC-MONOMER"] null [] +"EG11054_RNA" "uhpT" ["uhpT", "b3666", "ECK3657"] "mRNA" [] "EG11054" ["UHPT-MONOMER"] null [] +"EG11055_RNA" "uidA" ["uidA", "gurA", "gusA", "b1617", "ECK1612"] "mRNA" [] "EG11055" ["BETA-GLUCURONID-MONOMER"] null [] +"EG11056_RNA" "umuC" ["umuC", "uvm", "b1184", "ECK1172"] "mRNA" [] "EG11056" ["EG11056-MONOMER"] null [] +"EG11057_RNA" "umuD" ["umuD", "b1183", "ECK1171"] "mRNA" [] "EG11057" ["EG11057-MONOMER"] null [] +"EG11058_RNA" "ung" ["ung", "b2580", "ECK2578"] "mRNA" [] "EG11058" ["EG11058-MONOMER"] null [] +"EG11059_RNA" "usg" ["usg", "usg-1", "b2319", "ECK2313"] "mRNA" [] "EG11059" ["EG11059-MONOMER"] null [] +"EG11060_RNA" "ushA" ["ushA", "b0480", "ECK0474"] "mRNA" [] "EG11060" ["USHA-MONOMER"] null [] +"EG11061_RNA" "uvrA" ["uvrA", "dar", "dinE", "b4058", "ECK4050"] "mRNA" [] "EG11061" ["EG11061-MONOMER"] null [] +"EG11062_RNA" "uvrB" ["uvrB", "dar-1", "dar-6", "b0779", "ECK0768"] "mRNA" [] "EG11062" ["EG11062-MONOMER"] null [] +"EG11063_RNA" "uvrC" ["uvrC", "b1913", "ECK1912"] "mRNA" [] "EG11063" ["EG11063-MONOMER"] null [] +"EG11064_RNA" "uvrD" ["uvrD", "uvr502", "srjC", "uvrE", "dar-2", "dda", "mutU", "pdeB", "rad", "recL", "b3813", "ECK3808"] "mRNA" [] "EG11064" ["EG11064-MONOMER"] null [] +"EG11065_RNA" "uxaB" ["uxaB", "b1521", "ECK1514"] "mRNA" [] "EG11065" ["ALTRO-OXIDOREDUCT-MONOMER"] null [] +"EG11066_RNA" "uxuA" ["uxuA", "b4322", "ECK4313"] "mRNA" [] "EG11066" ["MANNONDEHYDRAT-MONOMER"] null [] +"EG11067_RNA" "valS" ["valS", "val-act", "b4258", "ECK4251"] "mRNA" [] "EG11067" ["VALS-MONOMER"] null [] +"EG11068_RNA" "vsr" ["vsr", "b1960", "ECK1958"] "mRNA" [] "EG11068" ["EG11068-MONOMER"] null [] +"EG11069_RNA" "xerC" ["xerC", "b3811", "ECK3806"] "mRNA" [] "EG11069" ["EG11069-MONOMER"] null [] +"EG11070_RNA" "dsbC" ["dsbC", "xprA", "b2893", "ECK2888"] "mRNA" [] "EG11070" ["DSBC-MONOMER"] null [] +"EG11071_RNA" "xerD" ["xerD", "xprB", "b2894", "ECK2889"] "mRNA" [] "EG11071" ["EG11071-MONOMER"] null [] +"EG11072_RNA" "xseA" ["xseA", "xse", "b2509", "ECK2505"] "mRNA" [] "EG11072" ["EG11072-MONOMER"] null [] +"EG11073_RNA" "xthA" ["xthA", "xth", "b1749", "ECK1747"] "mRNA" [] "EG11073" ["EG11073-MONOMER"] null [] +"EG11074_RNA" "xylA" ["xylA", "b3565", "ECK3554"] "mRNA" [] "EG11074" ["XYLISOM-MONOMER"] null [] +"EG11075_RNA" "xylB" ["xylB", "b3564", "ECK3553"] "mRNA" [] "EG11075" ["XYLULOKIN-MONOMER"] null [] +"EG11076_RNA" "xylE" ["xylE", "b4031", "ECK4023"] "mRNA" [] "EG11076" ["XYLE-MONOMER"] null [] +"EG11078_RNA" "nhaR" ["nhaR", "antO", "yaaB", "b0020", "ECK0021"] "mRNA" [] "EG11078" ["PD00474"] null [] +"EG11079_RNA" "ribF" ["ribF", "yaaC", "b0025", "ECK0026"] "mRNA" [] "EG11079" ["RIBF-MONOMER"] null [] +"EG11080_RNA" "fkpB" ["fkpB", "slpA", "yaaD", "b0028", "ECK0029"] "mRNA" [] "EG11080" ["EG11080-MONOMER"] null [] +"EG11081_RNA" "ispH" ["ispH", "yaaE", "lytB", "b0029", "ECK0030"] "mRNA" [] "EG11081" ["EG11081-MONOMER"] null [] +"EG11082_RNA" "rihC" ["rihC", "yaaF", "b0030", "ECK0031"] "mRNA" [] "EG11082" ["EG11082-MONOMER"] null [] +"EG11083_RNA" "rapA" ["rapA", "yabA", "hepA", "b0059", "ECK0060"] "mRNA" [] "EG11083" ["EG11083-MONOMER"] null [] +"EG11084_RNA" "mraZ" ["mraZ", "yabB", "b0081", "ECK0082"] "mRNA" [] "EG11084" ["EG11084-MONOMER"] null [] +"EG11085_RNA" "rsmH" ["rsmH", "yabC", "mraW", "b0082", "ECK0083"] "mRNA" [] "EG11085" ["EG11085-MONOMER"] null [] +"EG11086_RNA" "ftsL" ["ftsL", "mraR", "yabD", "b0083", "ECK0084"] "mRNA" [] "EG11086" ["EG11086-MONOMER"] null [] +"EG11087_RNA" "secM" ["secM", "srrA", "yacA", "b0097", "ECK0098"] "mRNA" [] "EG11087" ["EG11087-MONOMER"] null [] +"EG11088_RNA" "pdhR" ["pdhR", "aceC", "genA", "yacB", "b0113", "ECK0112"] "mRNA" [] "EG11088" ["EG11088-MONOMER"] null [] +"EG11089_RNA" "yacC" ["yacC", "b0122", "ECK0121"] "mRNA" [] "EG11089" ["EG11089-MONOMER"] null [] +"EG11090_RNA" "mtn" ["mtn", "pfs", "yadA", "mtnN", "b0159", "ECK0158"] "mRNA" [] "EG11090" ["EG11090-MONOMER"] null [] +"EG11091_RNA" "frsA" ["frsA", "yafA", "b0239", "ECK0240"] "mRNA" [] "EG11091" ["EG11091-MONOMER"] null [] +"EG11092_RNA" "crl" ["crl", "b0240", "ECK0241"] "pseudo" [] "EG11092" ["EG11092-MONOMER"] null [] +"EG11093_RNA" "yaiA" ["yaiA", "b0389", "ECK0384"] "mRNA" [] "EG11093" ["EG11093-MONOMER"] null [] +"EG11094_RNA" "sbcD" ["sbcD", "yajA", "b0398", "ECK0392"] "mRNA" [] "EG11094" ["EG11094-MONOMER"] null [] +"EG11095_RNA" "acpH" ["acpH", "yajB", "b0404", "ECK0398"] "mRNA" [] "EG11095" ["EG11095-MONOMER"] null [] +"EG11096_RNA" "yajC" ["yajC", "b0407", "ECK0401"] "mRNA" [] "EG11096" ["EG11096-MONOMER"] null [] +"EG11097_RNA" "yajD" ["yajD", "b0410", "ECK0404"] "mRNA" [] "EG11097" ["EG11097-MONOMER"] null [] +"EG11098_RNA" "xseB" ["xseB", "yajE", "b0422", "ECK0416"] "mRNA" [] "EG11098" ["EG11098-MONOMER"] null [] +"EG11099_RNA" "ybaA" ["ybaA", "b0456", "ECK0450"] "mRNA" [] "EG11099" ["EG11099-MONOMER"] null [] +"EG11100_RNA" "ybaB" ["ybaB", "b0471", "ECK0465"] "mRNA" [] "EG11100" ["EG11100-MONOMER"] null [] +"EG11101_RNA" "aes" ["aes", "ybaC", "b0476", "ECK0470"] "mRNA" [] "EG11101" ["EG11101-MONOMER"] null [] +"EG11102_RNA" "gsk" ["gsk", "b0477", "ECK0471"] "mRNA" [] "EG11102" ["GSK-MONOMER"] null [] +"EG11103_RNA" "fimZ" ["fimZ", "ybcA", "b0535", "ECK0528"] "mRNA" [] "EG11103" ["EG11103-MONOMER"] null [] +"EG11104_RNA" "entS" ["entS", "ybdA", "b0591", "ECK0584"] "mRNA" [] "EG11104" ["YBDA-MONOMER"] null [] +"EG11105_RNA" "entH" ["entH", "ybdB", "b0597", "ECK0590"] "mRNA" [] "EG11105" ["EG11105-MONOMER"] null [] +"EG11108_RNA" "ybgA" ["ybgA", "tkp", "b0707", "ECK0696"] "mRNA" [] "EG11108" ["EG11108-MONOMER"] null [] +"EG11109_RNA" "mngR" ["mngR", "ybgB", "farR", "b0730", "ECK0718"] "mRNA" [] "EG11109" ["PD01103"] null [] +"EG11110_RNA" "ybgC" ["ybgC", "b0736", "ECK0725"] "mRNA" [] "EG11110" ["EG11110-MONOMER"] null [] +"EG11111_RNA" "cspD" ["cspD", "ybjA", "cspH", "b0880", "ECK0871"] "mRNA" [] "EG11111" ["EG11111-MONOMER"] null [] +"EG11112_RNA" "aat" ["aat", "ycaA", "b0885", "ECK0876"] "mRNA" [] "EG11112" ["EG11112-MONOMER"] null [] +"EG11113_RNA" "yccA" ["yccA", "b0970", "ECK0961"] "mRNA" [] "EG11113" ["EG11113-MONOMER"] null [] +"EG11116_RNA" "trhO" ["trhO", "yceA", "b1055", "ECK1040"] "mRNA" [] "EG11116" ["EG11116-MONOMER"] null [] +"EG11117_RNA" "yceB" ["yceB", "b1063", "ECK1048"] "mRNA" [] "EG11117" ["EG11117-MONOMER"] null [] +"EG11118_RNA" "rluC" ["rluC", "yceC", "b1086", "ECK1071"] "mRNA" [] "EG11118" ["EG11118-MONOMER"] null [] +"EG11119_RNA" "yceD" ["yceD", "b1088", "ECK1074"] "mRNA" [] "EG11119" ["EG11119-MONOMER"] null [] +"EG11120_RNA" "tfaE" ["tfaE", "ycfA", "b1156", "ECK1142"] "mRNA" [] "EG11120" ["EG11120-MONOMER"] null [] +"EG11121_RNA" "yciA" ["yciA", "b1253", "ECK1247"] "mRNA" [] "EG11121" ["EG11121-MONOMER"] null [] +"EG11122_RNA" "yciB" ["yciB", "b1254", "ECK1248"] "mRNA" [] "EG11122" ["EG11122-MONOMER"] null [] +"EG11123_RNA" "yciC" ["yciC", "b1255", "ECK1249"] "mRNA" [] "EG11123" ["EG11123-MONOMER"] null [] +"EG11124_RNA" "ompW" ["ompW", "yciD", "b1256", "ECK1250"] "mRNA" [] "EG11124" ["EG11124-MONOMER"] null [] +"EG11125_RNA" "yciE" ["yciE", "b1257", "ECK1251"] "mRNA" [] "EG11125" ["EG11125-MONOMER"] null [] +"EG11126_RNA" "yciF" ["yciF", "b1258", "ECK1252"] "mRNA" [] "EG11126" ["EG11126-MONOMER"] null [] +"EG11127_RNA" "yciG" ["yciG", "b1259", "ECK1253"] "mRNA" [] "EG11127" ["EG11127-MONOMER"] null [] +"EG11128_RNA" "yciH" ["yciH", "b1282", "ECK1277"] "mRNA" [] "EG11128" ["EG11128-MONOMER"] null [] +"EG11129_RNA" "rem" ["rem", "b1561", "ECK1555"] "mRNA" [] "EG11129" ["EG11129-MONOMER"] null [] +"EG11130_RNA" "hokD" ["hokD", "relF", "b1562", "ECK1556"] "mRNA" [] "EG11130" ["EG11130-MONOMER"] null [] +"EG11131_RNA" "relE" ["relE", "b1563", "ECK1557"] "mRNA" [] "EG11131" ["EG11131-MONOMER"] null [] +"EG11132_RNA" "ppsR" ["ppsR", "ydiA", "b1703", "ECK1701"] "mRNA" [] "EG11132" ["EG11132-MONOMER"] null [] +"EG11133_RNA" "nlpC" ["nlpC", "b1708", "ECK1706"] "mRNA" [] "EG11133" ["EG11133-MONOMER"] null [] +"EG11134_RNA" "ydjA" ["ydjA", "b1765", "ECK1763"] "mRNA" [] "EG11134" ["EG11134-MONOMER"] null [] +"EG11135_RNA" "pncA" ["pncA", "nam", "ydjB", "b1768", "ECK1766"] "mRNA" [] "EG11135" ["NICOTINAMID-MONOMER"] null [] +"EG11136_RNA" "yebB" ["yebB", "b1862", "ECK1863"] "mRNA" [] "EG11136" ["EG11136-MONOMER"] null [] +"EG11137_RNA" "yebC" ["yebC", "b1864", "ECK1865"] "mRNA" [] "EG11137" ["EG11137-MONOMER"] null [] +"EG11138_RNA" "nudB" ["nudB", "yebD", "ntpA", "b1865", "ECK1866"] "mRNA" [] "EG11138" ["H2NEOPTERINP3PYROPHOSPHOHYDRO-MONOMER"] null [] +"EG11139_RNA" "yecA" ["yecA", "b1908", "ECK1907"] "mRNA" [] "EG11139" ["EG11139-MONOMER"] null [] +"EG11140_RNA" "uvrY" ["uvrY", "yecB", "b1914", "ECK1913"] "mRNA" [] "EG11140" ["EG11140-MONOMER"] null [] +"EG11141_RNA" "yedA" ["yedA", "b1959", "ECK1957"] "mRNA" [] "EG11141" ["EG11141-MONOMER"] null [] +"EG11142_RNA" "yfaA" ["yfaA", "pufY", "b2230", "ECK2222"] "mRNA" [] "EG11142" ["EG11142-MONOMER"] null [] +"EG11143_RNA" "ubiG" ["ubiG", "pufX", "yfaB", "b2232", "ECK2224"] "mRNA" [] "EG11143" ["DHHB-METHYLTRANSFER-MONOMER"] null [] +"EG11144_RNA" "yfcA" ["yfcA", "b2327", "ECK2321"] "mRNA" [] "EG11144" ["EG11144-MONOMER"] null [] +"EG11145_RNA" "pdeA" ["pdeA", "yfeA", "b2395", "ECK2389"] "mRNA" [] "EG11145" ["EG11145-MONOMER"] null [] +"EG11146_RNA" "xapR" ["xapR", "pRndR", "pndR", "yfeB", "b2405", "ECK2399"] "mRNA" [] "EG11146" ["EG11146-MONOMER"] null [] +"EG11147_RNA" "yffB" ["yffB", "b2471", "ECK2466"] "mRNA" [] "EG11147" ["EG11147-MONOMER"] null [] +"EG11149_RNA" "gcvR" ["gcvR", "yffD", "b2479", "ECK2475"] "mRNA" [] "EG11149" ["EG11149-MONOMER"] null [] +"EG11150_RNA" "hyfA" ["hyfA", "yffE", "b2481", "ECK2477"] "mRNA" [] "EG11150" ["MONOMER0-152"] null [] +"EG11151_RNA" "raiA" ["raiA", "urf1", "yfiA", "pY", "b2597", "ECK2594"] "mRNA" [] "EG11151" ["EG11151-MONOMER"] null [] +"EG11152_RNA" "yfiB" ["yfiB", "b2605", "ECK2602"] "mRNA" [] "EG11152" ["EG11152-MONOMER"] null [] +"EG11153_RNA" "rimM" ["rimM", "yfjA", "b2608", "ECK2605"] "mRNA" [] "EG11153" ["EG11153-MONOMER"] null [] +"EG11154_RNA" "ppdC" ["ppdC", "ygdA", "b2823", "ECK2819"] "mRNA" [] "EG11154" ["EG11154-MONOMER"] null [] +"EG11155_RNA" "ygdB" ["ygdB", "b2824", "ECK2820"] "mRNA" [] "EG11155" ["EG11155-MONOMER"] null [] +"EG11156_RNA" "ppdB" ["ppdB", "ygdC", "b2825", "ECK2821"] "mRNA" [] "EG11156" ["EG11156-MONOMER"] null [] +"EG11157_RNA" "ygeA" ["ygeA", "b2840", "ECK2838"] "mRNA" [] "EG11157" ["EG11157-MONOMER"] null [] +"EG11158_RNA" "fau" ["fau", "ygfA", "b2912", "ECK2907"] "mRNA" [] "EG11158" ["EG11158-MONOMER"] null [] +"EG11159_RNA" "argO" ["argO", "yggA", "b2923", "ECK2919"] "mRNA" [] "EG11159" ["YGGA-MONOMER"] null [] +"EG11160_RNA" "mscS" ["mscS", "yggB", "b2924", "ECK2920"] "mRNA" [] "EG11160" ["EG11160-MONOMER"] null [] +"EG11161_RNA" "yggC" ["yggC", "b2928", "ECK2924"] "mRNA" [] "EG11161" ["EG11161-MONOMER"] null [] +"EG11162_RNA" "fumE" ["fumE", "yggD", "b2929", "ECK2925"] "mRNA" [] "EG11162" ["EG11162-MONOMER"] null [] +"EG11163_RNA" "ygiA" ["ygiA", "b3036", "ECK3027"] "phantom" [] "EG11163" [] null [] +"EG11164_RNA" "ygiB" ["ygiB", "b3037", "ECK3028"] "mRNA" [] "EG11164" ["EG11164-MONOMER"] null [] +"EG11165_RNA" "ygiC" ["ygiC", "b3038", "ECK3029"] "mRNA" [] "EG11165" ["EG11165-MONOMER"] null [] +"EG11166_RNA" "ygiD" ["ygiD", "b3039", "ECK3030"] "mRNA" [] "EG11166" ["EG11166-MONOMER"] null [] +"EG11167_RNA" "zupT" ["zupT", "ygiE", "b3040", "ECK3031"] "mRNA" [] "EG11167" ["EG11167-MONOMER"] null [] +"EG11168_RNA" "ttdA" ["ttdA", "ygjA", "b3061", "ECK3051"] "mRNA" [] "EG11168" ["TTDA-MONOMER"] null [] +"EG11169_RNA" "ttdB" ["ttdB", "ygjB", "b3062", "ECK3052"] "mRNA" [] "EG11169" ["TTDB-MONOMER"] null [] +"EG11171_RNA" "tsaD" ["tsaD", "gcp", "ygjD", "b3064", "ECK3054"] "mRNA" [] "EG11171" ["EG11171-MONOMER"] null [] +"EG11172_RNA" "tdcD" ["tdcD", "yhaA", "b3115", "ECK3104"] "mRNA" [] "EG11172" ["PROPKIN-MONOMER"] null [] +"EG11173_RNA" "yhaB" ["yhaB", "b3120", "ECK3109"] "mRNA" [] "EG11173" ["EG11173-MONOMER"] null [] +"EG11174_RNA" "yhaC" ["yhaC", "b3121", "ECK3110"] "mRNA" [] "EG11174" ["EG11174-MONOMER"] null [] +"EG11175_RNA" "garK" ["garK", "yhaD", "b3124", "ECK3112"] "mRNA" [] "EG11175" ["GKI-MONOMER"] null [] +"EG11176_RNA" "garR" ["garR", "yhaE", "b3125", "ECK3113"] "mRNA" [] "EG11176" ["TSA-REDUCT-MONOMER"] null [] +"EG11177_RNA" "truB" ["truB", "yhbA", "b3166", "ECK3155"] "mRNA" [] "EG11177" ["EG11177-MONOMER"] null [] +"EG11178_RNA" "rbfA" ["rbfA", "sdr-43", "yhbB", "b3167", "ECK3156"] "mRNA" [] "EG11178" ["EG11178-MONOMER"] null [] +"EG11179_RNA" "rimP" ["rimP", "yhbC", "b3170", "ECK3159"] "mRNA" [] "EG11179" ["EG11179-MONOMER"] null [] +"EG11180_RNA" "mscL" ["mscL", "yhdC", "b3291", "ECK3277"] "mRNA" [] "EG11180" ["EG11180-MONOMER"] null [] +"EG11181_RNA" "bfd" ["bfd", "yheA", "b3337", "ECK3324"] "mRNA" [] "EG11181" ["EG11181-MONOMER"] null [] +"EG11182_RNA" "yhfA" ["yhfA", "b3356", "ECK3344"] "mRNA" [] "EG11182" ["EG11182-MONOMER"] null [] +"EG11183_RNA" "damX" ["damX", "yhfB", "b3388", "ECK3375"] "mRNA" [] "EG11183" ["EG11183-MONOMER"] null [] +"EG11184_RNA" "yhhA" ["yhhA", "b3448", "ECK3432"] "mRNA" [] "EG11184" ["EG11184-MONOMER"] null [] +"EG11186_RNA" "yiaA" ["yiaA", "b3562", "ECK3551"] "mRNA" [] "EG11186" ["EG11186-MONOMER"] null [] +"EG11187_RNA" "yibA" ["yibA", "b3594", "ECK3583"] "mRNA" [] "EG11187" ["EG11187-MONOMER"] null [] +"EG11188_RNA" "htrL" ["htrL", "yibB", "b3618", "ECK3608"] "mRNA" [] "EG11188" ["EG11188-MONOMER"] null [] +"EG11189_RNA" "waaC" ["waaC", "rfa-2", "rfaC", "yibC", "b3621", "ECK3611"] "mRNA" [] "EG11189" ["EG11189-MONOMER"] null [] +"EG11190_RNA" "coaD" ["coaD", "yicA", "kdtB", "b3634", "ECK3624"] "mRNA" [] "EG11190" ["PANTEPADENYLYLTRAN-MONOMER"] null [] +"EG11191_RNA" "slmA" ["slmA", "yicB", "ttk", "b3641", "ECK3631"] "mRNA" [] "EG11191" ["EG11191-MONOMER"] null [] +"EG11192_RNA" "yicC" ["yicC", "b3644", "ECK3634"] "mRNA" [] "EG11192" ["EG11192-MONOMER"] null [] +"EG11193_RNA" "dinD" ["dinD", "pcsA", "yicD", "b3645", "ECK3635"] "mRNA" [] "EG11193" ["EG11193-MONOMER"] null [] +"EG11194_RNA" "xanP" ["xanP", "yicE", "b3654", "ECK3644"] "mRNA" [] "EG11194" ["YICE-MONOMER"] null [] +"EG11195_RNA" "yidA" ["yidA", "b3697", "ECK3689"] "mRNA" [] "EG11195" ["EG11195-MONOMER"] null [] +"EG11196_RNA" "yidB" ["yidB", "b3698", "ECK3690"] "mRNA" [] "EG11196" ["EG11196-MONOMER"] null [] +"EG11197_RNA" "yidC" ["yidC", "b3705", "ECK3698"] "mRNA" [] "EG11197" ["YIDC"] null [] +"EG11198_RNA" "glmU" ["glmU", "yieA", "b3730", "ECK3723"] "mRNA" [] "EG11198" ["NAG1P-URIDYLTRANS-MONOMER"] null [] +"EG11199_RNA" "mioC" ["mioC", "yieB", "b3742", "ECK3736"] "mRNA" [] "EG11199" ["EG11199-MONOMER"] null [] +"EG11201_RNA" "yigA" ["yigA", "b3810", "ECK3805"] "mRNA" [] "EG11201" ["EG11201-MONOMER"] null [] +"EG11202_RNA" "yigB" ["yigB", "b3812", "ECK3807"] "mRNA" [] "EG11202" ["EG11202-MONOMER"] null [] +"EG11203_RNA" "yihA" ["yihA", "engB", "b3865", "ECK3857"] "mRNA" [] "EG11203" ["EG11203-MONOMER"] null [] +"EG11204_RNA" "murI" ["murI", "yijA", "dga", "glr", "b3967", "ECK3959"] "mRNA" [] "EG11204" ["GLUTRACE-MONOMER"] null [] +"EG11205_RNA" "murB" ["murB", "yijB", "b3972", "ECK3964"] "mRNA" [] "EG11205" ["UDPNACETYLMURAMATEDEHYDROG-MONOMER"] null [] +"EG11206_RNA" "yjaA" ["yjaA", "b4011", "ECK4003"] "mRNA" [] "EG11206" ["EG11206-MONOMER"] null [] +"EG11207_RNA" "yjaB" ["yjaB", "b4012", "ECK4004"] "mRNA" [] "EG11207" ["EG11207-MONOMER"] null [] +"EG11208_RNA" "arpA" ["arpA", "arp", "yjaC", "b4017", "ECK4009"] "mRNA" [] "EG11208" ["EG11208-MONOMER"] null [] +"EG11209_RNA" "psiE" ["psiE", "yjbA", "b4030", "ECK4022"] "mRNA" [] "EG11209" ["EG11209-MONOMER"] null [] +"EG11210_RNA" "rdcA" ["rdcA", "yjdA", "crfC", "b4109", "ECK4102"] "mRNA" [] "EG11210" ["EG11210-MONOMER"] null [] +"EG11211_RNA" "epmA" ["epmA", "genX", "poxA", "yjeA", "b4155", "ECK4151"] "mRNA" [] "EG11211" ["EG11211-MONOMER"] null [] +"EG11212_RNA" "nsrR" ["nsrR", "yjeB", "b4178", "ECK4174"] "mRNA" [] "EG11212" ["EG11212-MONOMER"] null [] +"EG11213_RNA" "yzfA" ["yzfA", "yjfA", "ileR", "b4223", "ECK4219"] "phantom" [] "EG11213" [] null [] +"EG11214_RNA" "yjjA" ["yjjA", "b4360", "ECK4350"] "mRNA" [] "EG11214" ["EG11214-MONOMER"] null [] +"EG11215_RNA" "yjjB" ["yjjB", "b4363", "ECK4353"] "mRNA" [] "EG11215" ["EG11215-MONOMER"] null [] +"EG11217_RNA" "creA" ["creA", "yjjD", "b4397", "ECK4389"] "mRNA" [] "EG11217" ["EG11217-MONOMER"] null [] +"EG11218_RNA" "creB" ["creB", "yjjE", "ORF2", "b4398", "ECK4390"] "mRNA" [] "EG11218" ["CREB-MONOMER"] null [] +"EG11219_RNA" "ydcA" ["ydcA", "b1419", "ECK1411"] "mRNA" [] "EG11219" ["EG11219-MONOMER"] null [] +"EG11221_RNA" "zwf" ["zwf", "b1852", "ECK1853"] "mRNA" [] "EG11221" ["GLU6PDEHYDROG-MONOMER"] null [] +"EG11222_RNA" "alkA" ["alkA", "aidA", "b2068", "ECK2062"] "mRNA" [] "EG11222" ["EG11222-MONOMER"] null [] +"EG11223_RNA" "argH" ["argH", "b3960", "ECK3951"] "mRNA" [] "EG11223" ["ARGSUCCINLYA-MONOMER"] null [] +"EG11224_RNA" "fliO" ["fliO", "flbD", "b1947", "ECK1945"] "mRNA" [] "EG11224" ["EG11224-MONOMER"] null [] +"EG11225_RNA" "dcuA" ["dcuA", "genA", "b4138", "ECK4132"] "mRNA" [] "EG11225" ["DCUA-MONOMER"] null [] +"EG11226_RNA" "leuA" ["leuA", "b0074", "ECK0076"] "mRNA" [] "EG11226" ["2-ISOPROPYLMALATESYN-MONOMER"] null [] +"EG11227_RNA" "fdnG" ["fdnG", "b1474", "ECK1468"] "mRNA" [] "EG11227" ["FDNG-MONOMER"] null [] +"EG11228_RNA" "fdnH" ["fdnH", "b1475", "ECK1469"] "mRNA" [] "EG11228" ["FDNH-MONOMER"] null [] +"EG11229_RNA" "fdnI" ["fdnI", "b1476", "ECK1470"] "mRNA" [] "EG11229" ["FDNI-MONOMER"] null [] +"EG11230_RNA" "melR" ["melR", "b4118", "ECK4111"] "mRNA" [] "EG11230" ["PD00208"] null [] +"EG11231_RNA" "rpmI" ["rpmI", "b1717", "ECK1715"] "mRNA" [] "EG11231" ["EG11231-MONOMER"] null [] +"EG11232_RNA" "rpmJ" ["rpmJ", "secX", "b3299", "ECK3286"] "mRNA" [] "EG11232" ["EG11232-MONOMER"] null [] +"EG11233_RNA" "rstB" ["rstB", "uspT", "b1609", "ECK1604"] "mRNA" [] "EG11233" ["RSTB-MONOMER"] null [] +"EG11234_RNA" "ydiB" ["ydiB", "b1692", "ECK1690"] "mRNA" [] "EG11234" ["EG11234-MONOMER"] null [] +"EG11235_RNA" "rhlE" ["rhlE", "b0797", "ECK0786"] "mRNA" [] "EG11235" ["EG11235-MONOMER"] null [] +"EG11236_RNA" "pdeL" ["pdeL", "yahA", "b0315", "ECK0313"] "mRNA" [] "EG11236" ["EG11236-MONOMER"] null [] +"EG11237_RNA" "chiA" ["chiA", "yheB", "b3338", "ECK3325"] "mRNA" [] "EG11237" ["EG11237-MONOMER"] null [] +"EG11238_RNA" "ybhB" ["ybhB", "b0773", "ECK0762"] "mRNA" [] "EG11238" ["EG11238-MONOMER"] null [] +"EG11239_RNA" "ybhA" ["ybhA", "b0766", "ECK0755"] "mRNA" [] "EG11239" ["EG11239-MONOMER"] null [] +"EG11241_RNA" "ycaC" ["ycaC", "b0897", "ECK0888"] "mRNA" [] "EG11241" ["EG11241-MONOMER"] null [] +"EG11242_RNA" "ycaD" ["ycaD", "b0898", "ECK0889"] "mRNA" [] "EG11242" ["YCAD-MONOMER"] null [] +"EG11244_RNA" "yggE" ["yggE", "b2922", "ECK2918"] "mRNA" [] "EG11244" ["EG11244-MONOMER"] null [] +"EG11245_RNA" "yggF" ["yggF", "yggK", "b2930", "ECK2926"] "mRNA" [] "EG11245" ["EG11245-MONOMER"] null [] +"EG11246_RNA" "uspE" ["uspE", "ydaA", "b1333", "ECK1329"] "mRNA" [] "EG11246" ["EG11246-MONOMER"] null [] +"EG11247_RNA" "rlmD" ["rlmD", "ygcA", "rumA", "b2785", "ECK2779"] "mRNA" [] "EG11247" ["EG11247-MONOMER"] null [] +"EG11249_RNA" "mazF" ["mazF", "chpAK", "chpA", "b2782", "ECK2776"] "mRNA" [] "EG11249" ["EG11249-MONOMER"] null [] +"EG11250_RNA" "chpS" ["chpS", "chpBI", "yjfB", "b4224", "ECK4220"] "mRNA" [] "EG11250" ["EG11250-MONOMER"] null [] +"EG11251_RNA" "ychA" ["ychA", "sirB1", "b1214", "ECK1202"] "mRNA" [] "EG11251" ["EG11251-MONOMER"] null [] +"EG11252_RNA" "mukE" ["mukE", "kicA", "ycbA", "b0923", "ECK0914"] "mRNA" [] "EG11252" ["EG11252-MONOMER"] null [] +"EG11253_RNA" "ldtD" ["ldtD", "ycbB", "b0925", "ECK0916"] "mRNA" [] "EG11253" ["EG11253-MONOMER"] null [] +"EG11254_RNA" "rlmH" ["rlmH", "ybeA", "b0636", "ECK0629"] "mRNA" [] "EG11254" ["EG11254-MONOMER"] null [] +"EG11255_RNA" "rsfS" ["rsfS", "ybeB", "rsfA", "b0637", "ECK0630"] "mRNA" [] "EG11255" ["EG11255-MONOMER"] null [] +"EG11256_RNA" "iraP" ["iraP", "yaiB", "b0382", "ECK0377"] "mRNA" [] "EG11256" ["EG11256-MONOMER"] null [] +"EG11257_RNA" "dgcC" ["dgcC", "yaiC", "adrA", "b0385", "ECK0380"] "mRNA" [] "EG11257" ["EG11257-MONOMER"] null [] +"EG11258_RNA" "focA" ["focA", "ycaE", "b0904", "ECK0895"] "mRNA" [] "EG11258" ["FOCA-MONOMER"] null [] +"EG11259_RNA" "rnr" ["rnr", "vacB", "yjeC", "b4179", "ECK4175"] "mRNA" [] "EG11259" ["EG11259-MONOMER"] null [] +"EG11260_RNA" "yifB" ["yifB", "b3765", "ECK3758"] "mRNA" [] "EG11260" ["EG11260-MONOMER"] null [] +"EG11261_RNA" "nfsA" ["nfsA", "mda18", "mdaA", "ybjB", "b0851", "ECK0842"] "mRNA" [] "EG11261" ["EG11261-MONOMER"] null [] +"EG11262_RNA" "tsgA" ["tsgA", "yhfH", "gutS", "yhfC", "b3364", "ECK3352"] "mRNA" [] "EG11262" ["YHFC-MONOMER"] null [] +"EG11263_RNA" "gspB" ["gspB", "pioO", "pinO", "b3322", "ECK3309"] "mRNA" [] "EG11263" ["EG11263-MONOMER"] null [] +"EG11265_RNA" "cmk" ["cmk", "ycaF", "mssA", "ycaG", "b0910", "ECK0901"] "mRNA" [] "EG11265" ["CMPKI-MONOMER"] null [] +"EG11266_RNA" "waaH" ["waaH", "yibD", "b3615", "ECK3605"] "mRNA" [] "EG11266" ["EG11266-MONOMER"] null [] +"EG11267_RNA" "yiaB" ["yiaB", "b3563", "ECK3552"] "mRNA" [] "EG11267" ["EG11267-MONOMER"] null [] +"EG11268_RNA" "fmt" ["fmt", "ftm", "yhdD", "b3288", "ECK3274"] "mRNA" [] "EG11268" ["EG11268-MONOMER"] null [] +"EG11269_RNA" "hisL" ["hisL", "b2018", "ECK2013"] "mRNA" [] "EG11269" ["EG11269-MONOMER"] null [] +"EG11270_RNA" "ilvL" ["ilvL", "b3766", "ECK3759"] "mRNA" [] "EG11270" ["EG11270-MONOMER"] null [] +"EG11271_RNA" "pheL" ["pheL", "pheAE", "b2598", "ECK2595"] "mRNA" [] "EG11271" ["EG11271-MONOMER"] null [] +"EG11272_RNA" "pheM" ["pheM", "phtL", "b1715", "ECK1713"] "mRNA" [] "EG11272" ["EG11272-MONOMER"] null [] +"EG11273_RNA" "fruL" ["fruL", "b0079"] "phantom" [] "EG11273" [] null [] +"EG11274_RNA" "trpL" ["trpL", "trpEE", "b1265", "ECK1259"] "mRNA" [] "EG11274" ["EG11274-MONOMER"] null [] +"EG11275_RNA" "ivbL" ["ivbL", "b3672", "ECK3663"] "mRNA" [] "EG11275" ["EG11275-MONOMER"] null [] +"EG11276_RNA" "tnaC" ["tnaC", "tnaL", "b3707", "ECK3700"] "mRNA" [] "EG11276" ["EG11276-MONOMER"] null [] +"EG11277_RNA" "thrL" ["thrL", "b0001", "ECK0001"] "mRNA" [] "EG11277" ["EG11277-MONOMER"] null [] +"EG11279_RNA" "pyrL" ["pyrL", "pyrE-", "pyrE-LP", "b4246", "ECK4241"] "mRNA" [] "EG11279" ["EG11279-MONOMER"] null [] +"EG11280_RNA" "leuL" ["leuL", "leuLP", "leulL", "leulLP", "leuIP", "b0075", "ECK0077"] "mRNA" [] "EG11280" ["EG11280-MONOMER"] null [] +"EG11281_RNA" "mutL" ["mutL", "b4170", "ECK4166"] "mRNA" [] "EG11281" ["EG11281-MONOMER"] null [] +"EG11282_RNA" "hyfB" ["hyfB", "yffF", "b2482", "ECK2478"] "mRNA" [] "EG11282" ["MONOMER0-153"] null [] +"EG11283_RNA" "phnE" ["phnE", "ECK4097", "b4103", "b4104", "b4583", "ECK4096"] "pseudo" [] "EG11283" ["PHNE-MONOMER"] null [] +"EG11284_RNA" "fabZ" ["fabZ", "sfhC21", "sabA1", "sefA", "yaeA", "b0180", "ECK0179"] "mRNA" [] "EG11284" ["FABZ-MONOMER"] null [] +"EG11285_RNA" "glrR" ["glrR", "yfhA", "qseF", "b2554", "ECK2551"] "mRNA" [] "EG11285" ["EG11285-MONOMER"] null [] +"EG11286_RNA" "argE" ["argE", "b3957", "ECK3948"] "mRNA" [] "EG11286" ["ACETYLORNDEACET-MONOMER"] null [] +"EG11287_RNA" "ygbA" ["ygbA", "b2732", "ECK2727"] "mRNA" [] "EG11287" ["EG11287-MONOMER"] null [] +"EG11288_RNA" "mak" ["mak", "yajF", "b0394", "ECK0389"] "mRNA" [] "EG11288" ["EG11288-MONOMER"] null [] +"EG11289_RNA" "preA" ["preA", "yeiA", "b2147", "ECK2140"] "mRNA" [] "EG11289" ["EG11289-MONOMER"] null [] +"EG11290_RNA" "yeiB" ["yeiB", "b2152", "ECK2145"] "mRNA" [] "EG11290" ["EG11290-MONOMER"] null [] +"EG11291_RNA" "loiP" ["loiP", "yggG", "b2936", "ECK2931"] "mRNA" [] "EG11291" ["EG11291-MONOMER"] null [] +"EG11292_RNA" "yghA" ["yghA", "b3003", "ECK2997"] "mRNA" [] "EG11292" ["EG11292-MONOMER"] null [] +"EG11293_RNA" "lolB" ["lolB", "hemM", "ychC", "b1209", "ECK1197"] "mRNA" [] "EG11293" ["EG11293-MONOMER"] null [] +"EG11294_RNA" "ispE" ["ispE", "ipk", "ychB", "b1208", "ECK1196"] "mRNA" [] "EG11294" ["EG11294-MONOMER"] null [] +"EG11295_RNA" "wzzE" ["wzzE", "wzz", "yifC", "b3785", "ECK3777"] "mRNA" [] "EG11295" ["EG11295-MONOMER"] null [] +"EG11296_RNA" "radA" ["radA", "sms", "b4389", "ECK4381"] "mRNA" [] "EG11296" ["EG11296-MONOMER"] null [] +"EG11297_RNA" "dsbA" ["dsbA", "dsf", "iarA", "ppfA", "b3860", "ECK3852"] "mRNA" [] "EG11297" ["DISULFOXRED-MONOMER"] null [] +"EG11298_RNA" "yhdE" ["yhdE", "b3248", "ECK3236"] "mRNA" [] "EG11298" ["EG11298-MONOMER"] null [] +"EG11299_RNA" "rng" ["rng", "adhR", "cafA", "yhdF", "b3247", "ECK3235"] "mRNA" [] "EG11299" ["EG11299-MONOMER"] null [] +"EG11300_RNA" "ydfA" ["ydfA", "b1571", "ECK1565"] "mRNA" [] "EG11300" ["EG11300-MONOMER"] null [] +"EG11301_RNA" "ydfB" ["ydfB", "b1572", "ECK1566"] "mRNA" [] "EG11301" ["EG11301-MONOMER"] null [] +"EG11302_RNA" "ydfC" ["ydfC", "b1573", "ECK1567"] "mRNA" [] "EG11302" ["EG11302-MONOMER"] null [] +"EG11303_RNA" "ydfD" ["ydfD", "b1576", "ECK1570"] "mRNA" [] "EG11303" ["EG11303-MONOMER"] null [] +"EG11304_RNA" "ydfE" ["ydfE", "b1577", "ECK1571"] "pseudo" [] "EG11304" ["EG11304-MONOMER"] null [] +"EG11305_RNA" "tatE" ["tatE", "ybeC", "b0627", "ECK0620"] "mRNA" [] "EG11305" ["EG11305-MONOMER"] null [] +"EG11306_RNA" "lipA" ["lipA", "lip", "b0628", "ECK0621"] "mRNA" [] "EG11306" ["EG11306-MONOMER"] null [] +"EG11309_RNA" "pdxI" ["pdxI", "ydbC", "b1406", "ECK1399"] "mRNA" [] "EG11309" ["EG11309-MONOMER"] null [] +"EG11310_RNA" "ydbD" ["ydbD", "b1407", "ECK1400"] "mRNA" [] "EG11310" ["EG11310-MONOMER"] null [] +"EG11311_RNA" "dusB" ["dusB", "yhdG", "b3260", "ECK3247"] "mRNA" [] "EG11311" ["EG11311-MONOMER"] null [] +"EG11312_RNA" "yicR" ["yicR", "radC", "b3638", "ECK3628"] "mRNA" [] "EG11312" ["EG11312-MONOMER"] null [] +"EG11313_RNA" "rhaT" ["rhaT", "b3907", "ECK3900"] "mRNA" [] "EG11313" ["RHAT-MONOMER"] null [] +"EG11314_RNA" "purB" ["purB", "ade(h)", "ade", "b1131", "ECK1117"] "mRNA" [] "EG11314" ["ASL-MONOMER"] null [] +"EG11315_RNA" "yhdH" ["yhdH", "acuI", "b3253", "ECK3241"] "mRNA" [] "EG11315" ["EG11315-MONOMER"] null [] +"EG11316_RNA" "malS" ["malS", "b3571", "ECK3560"] "mRNA" [] "EG11316" ["ALPHA-AMYL-PERI-MONOMER"] null [] +"EG11317_RNA" "fabD" ["fabD", "tfpA", "b1092", "ECK1078"] "mRNA" [] "EG11317" ["MALONYL-COA-ACP-TRANSACYL-MONOMER"] null [] +"EG11318_RNA" "fabG" ["fabG", "b1093", "ECK1079"] "mRNA" [] "EG11318" ["3-OXOACYL-ACP-REDUCT-MONOMER"] null [] +"EG11319_RNA" "galU" ["galU", "ychD", "b1236", "ECK1231"] "mRNA" [] "EG11319" ["GLUC1PURIDYLTRANS-MONOMER"] null [] +"EG11320_RNA" "nrdR" ["nrdR", "ybaD", "b0413", "ECK0407"] "mRNA" [] "EG11320" ["EG11320-MONOMER"] null [] +"EG11321_RNA" "ribD" ["ribD", "nusII", "ribG", "ybaE", "b0414", "ECK0408"] "mRNA" [] "EG11321" ["RIBOFLAVINSYNDEAM-MONOMER"] null [] +"EG11322_RNA" "ribE" ["ribE", "nusIII", "ribH", "ybaF", "b0415", "ECK0409"] "mRNA" [] "EG11322" ["LUMAZINESYN-MONOMER"] null [] +"EG11323_RNA" "ygfB" ["ygfB", "b2909", "ECK2904"] "mRNA" [] "EG11323" ["EG11323-MONOMER"] null [] +"EG11324_RNA" "ubiH" ["ubiH", "acd", "visB", "b2907", "ECK2902"] "mRNA" [] "EG11324" ["OCTAPRENYL-METHOXYPHENOL-OH-MONOMER"] null [] +"EG11325_RNA" "acnA" ["acnA", "acn", "b1276", "ECK1271"] "mRNA" [] "EG11325" ["ACONITASE-MONOMER"] null [] +"EG11326_RNA" "codA" ["codA", "b0337", "ECK0334"] "mRNA" [] "EG11326" ["CYTDEAM-MONOMER"] null [] +"EG11327_RNA" "codB" ["codB", "b0336", "ECK0333"] "mRNA" [] "EG11327" ["CODB-MONOMER"] null [] +"EG11328_RNA" "fdx" ["fdx", "b2525", "ECK2522"] "mRNA" [] "EG11328" ["FERREDOXIN-MONOMER"] null [] +"EG11329_RNA" "gabD" ["gabD", "b2661", "ECK2655"] "mRNA" [] "EG11329" ["SUCCSEMIALDDEHYDROG-MONOMER"] null [] +"EG11330_RNA" "gabP" ["gabP", "b2663", "ECK2657"] "mRNA" [] "EG11330" ["GABP-MONOMER"] null [] +"EG11331_RNA" "ribA" ["ribA", "b1277", "ECK1272"] "mRNA" [] "EG11331" ["GTP-CYCLOHYDRO-II-MONOMER"] null [] +"EG11332_RNA" "upp" ["upp", "uraP", "b2498", "ECK2494"] "mRNA" [] "EG11332" ["URACIL-PRIBOSYLTRANS-MONOMER"] null [] +"EG11333_RNA" "ubiI" ["ubiI", "visC", "b2906", "ECK2901"] "mRNA" [] "EG11333" ["EG11333-MONOMER"] null [] +"EG11334_RNA" "ligB" ["ligB", "yicF", "b3647", "ECK3637"] "mRNA" [] "EG11334" ["EG11334-MONOMER"] null [] +"EG11335_RNA" "nadR" ["nadR", "nadI", "b4390", "ECK4382"] "mRNA" [] "EG11335" ["PD04413"] null [] +"EG11336_RNA" "endA" ["endA", "b2945", "ECK2940"] "mRNA" [] "EG11336" ["EG11336-MONOMER"] null [] +"EG11337_RNA" "lysP" ["lysP", "cadR", "b2156", "ECK2149"] "mRNA" [] "EG11337" ["LYSP-MONOMER"] null [] +"EG11338_RNA" "msyB" ["msyB", "b1051", "ECK1037"] "mRNA" [] "EG11338" ["EG11338-MONOMER"] null [] +"EG11339_RNA" "waaG" ["waaG", "rfaG", "b3631", "ECK3621"] "mRNA" [] "EG11339" ["EG11339-MONOMER"] null [] +"EG11340_RNA" "waaP" ["waaP", "rfaP", "b3630", "ECK3620"] "mRNA" [] "EG11340" ["EG11340-MONOMER"] null [] +"EG11341_RNA" "waaQ" ["waaQ", "rfaQ", "b3632", "ECK3622"] "mRNA" [] "EG11341" ["EG11341-MONOMER"] null [] +"EG11342_RNA" "ychE" ["ychE", "b1242", "ECK1236"] "mRNA" [] "EG11342" ["EG11342-MONOMER"] null [] +"EG11343_RNA" "mdtG" ["mdtG", "yceE", "b1053", "ECK1038"] "mRNA" [] "EG11343" ["YCEE-MONOMER"] null [] +"EG11344_RNA" "mnmA" ["mnmA", "asuE", "ycfB", "trmU", "b1133", "ECK1119"] "mRNA" [] "EG11344" ["EG11344-MONOMER"] null [] +"EG11345_RNA" "hflD" ["hflD", "hslZ", "ycfC", "b1132", "ECK1118"] "mRNA" [] "EG11345" ["EG11345-MONOMER"] null [] +"EG11346_RNA" "fliE" ["fliE", "fla", "flaAI", "flaN", "b1937", "ECK1935"] "mRNA" [] "EG11346" ["EG11346-MONOMER"] null [] +"EG11347_RNA" "fliF" ["fliF", "flaAII.1", "flaBI", "b1938", "ECK1936"] "mRNA" [] "EG11347" ["FLIF-FLAGELLAR-MS-RING"] null [] +"EG11350_RNA" "waaS" ["waaS", "rfaS", "b3629", "ECK3619"] "mRNA" [] "EG11350" ["EG11350-MONOMER"] null [] +"EG11351_RNA" "waaB" ["waaB", "lps", "syn", "rfaB", "b3628", "ECK3618"] "mRNA" [] "EG11351" ["EG11351-MONOMER"] null [] +"EG11352_RNA" "waaO" ["waaO", "waaI", "rfaI", "b3627", "ECK3617"] "mRNA" [] "EG11352" ["EG11352-MONOMER"] null [] +"EG11353_RNA" "waaJ" ["waaJ", "rfaJ", "waaR", "b3626", "ECK3616"] "mRNA" [] "EG11353" ["EG11353-MONOMER"] null [] +"EG11354_RNA" "emrA" ["emrA", "b2685", "ECK2679"] "mRNA" [] "EG11354" ["EG11354-MONOMER"] null [] +"EG11355_RNA" "fliA" ["fliA", "rpoF", "flaD", "b1922", "ECK1921"] "mRNA" [] "EG11355" ["EG11355-MONOMER"] null [] +"EG11356_RNA" "fliZ" ["fliZ", "yedH", "b1921", "ECK1920"] "mRNA" [] "EG11356" ["EG11356-MONOMER"] null [] +"EG11357_RNA" "dinG" ["dinG", "rarB", "b0799", "ECK0788"] "mRNA" [] "EG11357" ["EG11357-MONOMER"] null [] +"EG11358_RNA" "murA" ["murA", "mrbA", "murZ", "b3189", "ECK3178"] "mRNA" [] "EG11358" ["UDPNACETYLGLUCOSAMENOLPYRTRANS-MONOMER"] null [] +"EG11359_RNA" "gspO" ["gspO", "hofD", "hopD", "hopO", "yheC", "b3335", "ECK3322"] "mRNA" [] "EG11359" ["EG11359-MONOMER"] null [] +"EG11360_RNA" "bax" ["bax", "b3570", "ECK3559"] "mRNA" [] "EG11360" ["EG11360-MONOMER"] null [] +"EG11361_RNA" "asmA" ["asmA", "yegA", "b2064", "ECK2058"] "mRNA" [] "EG11361" ["EG11361-MONOMER"] null [] +"EG11362_RNA" "gluQ" ["gluQ", "yadB", "b0144", "ECK0143"] "mRNA" [] "EG11362" ["EG11362-MONOMER"] null [] +"EG11363_RNA" "amiB" ["amiB", "yjeD", "b4169", "ECK4165"] "mRNA" [] "EG11363" ["NACMURLALAAMI2-MONOMER"] null [] +"EG11364_RNA" "bglH" ["bglH", "yieC", "b3720", "ECK3713"] "mRNA" [] "EG11364" ["EG11364-MONOMER"] null [] +"EG11366_RNA" "rob" ["rob", "cbpB", "robA", "b4396", "ECK4388"] "mRNA" [] "EG11366" ["PD04418"] null [] +"EG11367_RNA" "barA" ["barA", "airS", "b2786", "ECK2780"] "mRNA" [] "EG11367" ["BARA-MONOMER"] null [] +"EG11368_RNA" "menB" ["menB", "b2262", "ECK2256"] "mRNA" [] "EG11368" ["NAPHTHOATE-SYN-MONOMER"] null [] +"EG11369_RNA" "ubiC" ["ubiC", "b4039", "ECK4031"] "mRNA" [] "EG11369" ["CHORPYRLY-MONOMER"] null [] +"EG11370_RNA" "ubiA" ["ubiA", "cyr", "b4040", "ECK4032"] "mRNA" [] "EG11370" ["4OHBENZOATE-OCTAPRENYLTRANSFER-MONOMER"] null [] +"EG11371_RNA" "pgpC" ["pgpC", "yfhB", "b2560", "ECK2558"] "mRNA" [] "EG11371" ["EG11371-MONOMER"] null [] +"EG11372_RNA" "tadA" ["tadA", "yfhC", "b2559", "ECK2557"] "mRNA" [] "EG11372" ["EG11372-MONOMER"] null [] +"EG11373_RNA" "mltF" ["mltF", "yfhD", "b2558", "ECK2556"] "mRNA" [] "EG11373" ["EG11373-MONOMER"] null [] +"EG11374_RNA" "folK" ["folK", "b0142", "ECK0141"] "mRNA" [] "EG11374" ["H2PTERIDINEPYROPHOSPHOKIN-MONOMER"] null [] +"EG11375_RNA" "folE" ["folE", "b2153", "ECK2146"] "mRNA" [] "EG11375" ["GTP-CYCLOHYDRO-I-MONOMER"] null [] +"EG11376_RNA" "ftsP" ["ftsP", "sui", "sufI", "b3017", "ECK3008"] "mRNA" [] "EG11376" ["EG11376-MONOMER"] null [] +"EG11377_RNA" "plsC" ["plsC", "parF", "b3018", "ECK3009"] "mRNA" [] "EG11377" ["1-ACYLGLYCEROL-3-P-ACYLTRANSFER-MONOMER"] null [] +"EG11378_RNA" "sufA" ["sufA", "ydiC", "b1684", "ECK1680"] "mRNA" [] "EG11378" ["EG11378-MONOMER"] null [] +"EG11379_RNA" "appB" ["appB", "cbdB", "cyxB", "b0979", "ECK0970"] "mRNA" [] "EG11379" ["APPB-MONOMER"] null [] +"EG11380_RNA" "appC" ["appC", "cbdA", "cyxA", "b0978", "ECK0969"] "mRNA" [] "EG11380" ["APPC-MONOMER"] null [] +"EG11381_RNA" "glgS" ["glgS", "scoR", "b3049", "ECK3038"] "mRNA" [] "EG11381" ["EG11381-MONOMER"] null [] +"EG11383_RNA" "elbB" ["elbB", "yzzB", "elb2", "s27a", "yhbL", "b3209", "ECK3198"] "mRNA" [] "EG11383" ["EG11383-MONOMER"] null [] +"EG11384_RNA" "ahpC" ["ahpC", "tpx", "ssi8", "b0605", "ECK0599"] "mRNA" [] "EG11384" ["EG11384-MONOMER"] null [] +"EG11385_RNA" "ahpF" ["ahpF", "b0606", "ECK0600"] "mRNA" [] "EG11385" ["EG11385-MONOMER"] null [] +"EG11386_RNA" "yjiV" ["yjiV", "mcrD", "yjiU", "b4343", "b4344", "b4486", "ECK4334"] "pseudo" [] "EG11386" ["EG11386-MONOMER"] null [] +"EG11387_RNA" "amyA" ["amyA", "yedC", "b1927", "ECK1926"] "mRNA" [] "EG11387" ["ALPHA-AMYL-CYTO-MONOMER"] null [] +"EG11388_RNA" "fliS" ["fliS", "b1925", "ECK1924"] "mRNA" [] "EG11388" ["EG11388-MONOMER"] null [] +"EG11389_RNA" "fliT" ["fliT", "b1926", "ECK1925"] "mRNA" [] "EG11389" ["EG11389-MONOMER"] null [] +"EG11390_RNA" "uspA" ["uspA", "b3495", "ECK3480"] "mRNA" [] "EG11390" ["EG11390-MONOMER"] null [] +"EG11391_RNA" "osmY" ["osmY", "csi-5", "b4376", "ECK4367"] "mRNA" [] "EG11391" ["EG11391-MONOMER"] null [] +"EG11392_RNA" "nhaB" ["nhaB", "b1186", "ECK1174"] "mRNA" [] "EG11392" ["NHAB-MONOMER"] null [] +"EG11393_RNA" "dsbB" ["dsbB", "ycgA", "roxB", "dsbX", "iarB", "rosB", "b1185", "ECK1173"] "mRNA" [] "EG11393" ["DSBBPROT-MONOMER"] null [] +"EG11394_RNA" "fabR" ["fabR", "yijC", "b3963", "ECK3955"] "mRNA" [] "EG11394" ["EG11394-MONOMER"] null [] +"EG11395_RNA" "yijD" ["yijD", "b3964", "ECK3956"] "mRNA" [] "EG11395" ["EG11395-MONOMER"] null [] +"EG11396_RNA" "ubiD" ["ubiD", "yigY", "yigC", "b3843", "ECK3835"] "mRNA" [] "EG11396" ["EG11396-MONOMER"] null [] +"EG11398_RNA" "hdeA" ["hdeA", "yhiB", "yhhC", "b3510", "ECK3494"] "mRNA" [] "EG11398" ["EG11398-MONOMER"] null [] +"EG11399_RNA" "hdeB" ["hdeB", "yhiC", "yhhD", "b3509", "ECK3493"] "mRNA" [] "EG11399" ["EG11399-MONOMER"] null [] +"EG11400_RNA" "yhiD" ["yhiD", "yhhE", "b3508", "ECK3492"] "mRNA" [] "EG11400" ["EG11400-MONOMER"] null [] +"EG11401_RNA" "psiF" ["psiF", "b0384", "ECK0379"] "mRNA" [] "EG11401" ["EG11401-MONOMER"] null [] +"EG11402_RNA" "treC" ["treC", "treE", "olgH", "b4239", "ECK4234"] "mRNA" [] "EG11402" ["TRE6PHYDRO-MONOMER"] null [] +"EG11403_RNA" "ppx" ["ppx", "b2502", "ECK2498"] "mRNA" [] "EG11403" ["PPX-MONOMER"] null [] +"EG11404_RNA" "ychF" ["ychF", "gtp1", "b1203", "ECK1191"] "mRNA" [] "EG11404" ["EG11404-MONOMER"] null [] +"EG11405_RNA" "cydD" ["cydD", "htrD", "b0887", "ECK0878"] "mRNA" [] "EG11405" ["CYDD-MONOMER"] null [] +"EG11406_RNA" "ribC" ["ribC", "ribE", "b1662", "ECK1658"] "mRNA" [] "EG11406" ["RIBOFLAVIN-SYN-MONOMER"] null [] +"EG11407_RNA" "dadA" ["dadA", "dadR", "b1189", "ECK1177"] "mRNA" [] "EG11407" ["DALADEHYDROGA-MONOMER"] null [] +"EG11408_RNA" "dadX" ["dadX", "alnA", "alnB", "dadB", "b1190", "ECK1178"] "mRNA" [] "EG11408" ["ALARACECAT-MONOMER"] null [] +"EG11409_RNA" "lpxK" ["lpxK", "ycaH", "b0915", "ECK0906"] "mRNA" [] "EG11409" ["TETRAACYLDISACC4KIN-MONOMER"] null [] +"EG11410_RNA" "yjgA" ["yjgA", "b4234", "ECK4229"] "mRNA" [] "EG11410" ["EG11410-MONOMER"] null [] +"EG11411_RNA" "glnD" ["glnD", "glnD5", "b0167", "ECK0165"] "mRNA" [] "EG11411" ["GLND-MONOMER"] null [] +"EG11412_RNA" "holA" ["holA", "b0640", "ECK0633"] "mRNA" [] "EG11412" ["EG11412-MONOMER"] null [] +"EG11413_RNA" "holC" ["holC", "b4259", "ECK4252"] "mRNA" [] "EG11413" ["EG11413-MONOMER"] null [] +"EG11414_RNA" "holD" ["holD", "b4372", "ECK4363"] "mRNA" [] "EG11414" ["EG11414-MONOMER"] null [] +"EG11415_RNA" "dps" ["dps", "pexB", "vtm", "b0812", "ECK0801"] "mRNA" [] "EG11415" ["EG11415-MONOMER"] null [] +"EG11417_RNA" "nrdD" ["nrdD", "b4238", "ECK4233"] "mRNA" [] "EG11417" ["RIBONUCLEOSIDE-TRIP-REDUCT-MONOMER"] null [] +"EG11418_RNA" "dcd" ["dcd", "dus", "paxA", "b2065", "ECK2059"] "mRNA" [] "EG11418" ["DCTP-DEAM-MONOMER"] null [] +"EG11419_RNA" "bcr" ["bcr", "bicA", "bicR", "sur", "suxA", "b2182", "ECK2176"] "mRNA" [] "EG11419" ["BCR-MONOMER"] null [] +"EG11421_RNA" "cynR" ["cynR", "b0338", "ECK0335"] "mRNA" [] "EG11421" ["PD00291"] null [] +"EG11422_RNA" "inaA" ["inaA", "yfaG", "b2237", "ECK2229"] "mRNA" [] "EG11422" ["EG11422-MONOMER"] null [] +"EG11423_RNA" "waaU" ["waaU", "rfaK", "b3623", "ECK3613"] "mRNA" [] "EG11423" ["EG11423-MONOMER"] null [] +"EG11424_RNA" "waaL" ["waaL", "rfaL", "b3622", "ECK3612"] "mRNA" [] "EG11424" ["EG11424-MONOMER"] null [] +"EG11425_RNA" "waaY" ["waaY", "rfaY", "b3625", "ECK3615"] "mRNA" [] "EG11425" ["EG11425-MONOMER"] null [] +"EG11426_RNA" "waaZ" ["waaZ", "rfaZ", "b3624", "ECK3614"] "mRNA" [] "EG11426" ["EG11426-MONOMER"] null [] +"EG11427_RNA" "tktA" ["tktA", "tkt", "b2935", "ECK2930"] "mRNA" [] "EG11427" ["TRANSKETOI-MONOMER"] null [] +"EG11428_RNA" "sthA" ["sthA", "sth", "udhA", "b3962", "ECK3954"] "mRNA" [] "EG11428" ["UDHA-MONOMER"] null [] +"EG11429_RNA" "yjaZ" ["yjaZ", "htrC", "b3989", "ECK3980"] "mRNA" [] "EG11429" ["EG11429-MONOMER"] null [] +"EG11430_RNA" "roxA" ["roxA", "ycfD", "b1128", "ECK1114"] "mRNA" [] "EG11430" ["EG11430-MONOMER"] null [] +"EG11431_RNA" "yfeC" ["yfeC", "b2398", "ECK2392"] "mRNA" [] "EG11431" ["EG11431-MONOMER"] null [] +"EG11432_RNA" "yfeD" ["yfeD", "b2399", "ECK2393"] "mRNA" [] "EG11432" ["EG11432-MONOMER"] null [] +"EG11433_RNA" "msrA" ["msrA", "pms", "pmsR", "b4219", "ECK4215"] "mRNA" [] "EG11433" ["EG11433-MONOMER"] null [] +"EG11434_RNA" "marA" ["marA", "norB", "inaR", "cfxB", "nfxC", "soxQ", "b1531", "ECK1524"] "mRNA" [] "EG11434" ["PD00365"] null [] +"EG11435_RNA" "marR" ["marR", "cfxB", "inaR", "soxQ", "b1530", "ECK1523"] "mRNA" [] "EG11435" ["PD00364"] null [] +"EG11436_RNA" "ahr" ["ahr", "yjgB", "b4269", "ECK4262"] "mRNA" [] "EG11436" ["EG11436-MONOMER"] null [] +"EG11437_RNA" "plsX" ["plsX", "b1090", "ECK1076"] "mRNA" [] "EG11437" ["EG11437-MONOMER"] null [] +"EG11438_RNA" "yceF" ["yceF", "b1087", "ECK1072"] "mRNA" [] "EG11438" ["EG11438-MONOMER"] null [] +"EG11439_RNA" "emrB" ["emrB", "b2686", "ECK2680"] "mRNA" [] "EG11439" ["EMRB-MONOMER"] null [] +"EG11440_RNA" "def" ["def", "fms", "b3287", "ECK3273"] "mRNA" [] "EG11440" ["EG11440-MONOMER"] null [] +"EG11441_RNA" "prlC" ["prlC", "opdA", "b3498", "ECK3483"] "mRNA" [] "EG11441" ["EG11441-MONOMER"] null [] +"EG11442_RNA" "gcvT" ["gcvT", "b2905", "ECK2900"] "mRNA" [] "EG11442" ["GCVT-MONOMER"] null [] +"EG11443_RNA" "rpiA" ["rpiA", "ygfC", "b2914", "ECK2910"] "mRNA" [] "EG11443" ["RIB5PISOMA-MONOMER"] null [] +"EG11444_RNA" "scpA" ["scpA", "yliK", "sbm", "b2917", "ECK2913"] "mRNA" [] "EG11444" ["METHYLMALONYL-COA-MUT-MONOMER"] null [] +"EG11445_RNA" "argK" ["argK", "ygfD", "b2918", "ECK2914"] "mRNA" [] "EG11445" ["EG11445-MONOMER"] null [] +"EG11447_RNA" "csrA" ["csrA", "zfiA", "b2696", "ECK2691"] "mRNA" [] "EG11447" ["EG11447-MONOMER"] null [] +"EG11448_RNA" "acs" ["acs", "yfaC", "acsA", "b4069", "ECK4062"] "mRNA" [] "EG11448" ["ACS-MONOMER"] null [] +"EG11449_RNA" "hdfR" ["hdfR", "b3762", "yifA", "yifD", "b3763", "b4480", "ECK3756"] "mRNA" [] "EG11449" ["EG11449-MONOMER"] null [] +"EG11450_RNA" "maoP" ["maoP", "yifE", "b3764", "ECK3757"] "mRNA" [] "EG11450" ["EG11450-MONOMER"] null [] +"EG11451_RNA" "wecB" ["wecB", "yifF", "nfrC", "rffE", "mnaA", "b3786", "ECK3778"] "mRNA" [] "EG11451" ["UDPGLCNACEPIM-MONOMER"] null [] +"EG11452_RNA" "wecC" ["wecC", "rff", "rffD", "mnaB", "b3787", "ECK3779"] "mRNA" [] "EG11452" ["UDPMANNACADEHYDROG-MONOMER"] null [] +"EG11453_RNA" "rffG" ["rffG", "rff", "b3788", "ECK3780"] "mRNA" [] "EG11453" ["DTDPGLUCDEHYDRAT2-MONOMER"] null [] +"EG11454_RNA" "rffH" ["rffH", "yifG", "b3789", "ECK3781"] "mRNA" [] "EG11454" ["DTDPGLUCOSEPP2-MONOMER"] null [] +"EG11455_RNA" "rffC" ["rffC", "rff", "wecD", "yifH", "b3790", "ECK3782"] "mRNA" [] "EG11455" ["TDPFUCACTRANS-MONOMER"] null [] +"EG11456_RNA" "wecE" ["wecE", "rff", "fcnA", "rffA", "yifI", "b3791", "ECK3783"] "mRNA" [] "EG11456" ["RFFTRANS-MONOMER"] null [] +"EG11457_RNA" "wzyE" ["wzyE", "rffT", "b3793", "ECK3786"] "mRNA" [] "EG11457" ["FUC4NACTRANS-MONOMER"] null [] +"EG11458_RNA" "rffM" ["rffM", "rff", "wecG", "b3794", "ECK3787"] "mRNA" [] "EG11458" ["UDPMANACATRANS-MONOMER"] null [] +"EG11459_RNA" "yifK" ["yifK", "b3795", "ECK3788"] "mRNA" [] "EG11459" ["YIFK-MONOMER"] null [] +"EG11460_RNA" "narQ" ["narQ", "b2469", "ECK2464"] "mRNA" [] "EG11460" ["NARQ-MONOMER"] null [] +"EG11462_RNA" "yigE" ["yigE", "b3815", "b3814", "b4482", "ECK3809"] "mRNA" [] "EG11462" ["EG11462-MONOMER"] null [] +"EG11463_RNA" "corA" ["corA", "b3816", "ECK3810"] "mRNA" [] "EG11463" ["CORA-MONOMER"] null [] +"EG11464_RNA" "yigF" ["yigF", "b3817", "ECK3811"] "mRNA" [] "EG11464" ["EG11464-MONOMER"] null [] +"EG11465_RNA" "yigG" ["yigG", "b3818", "ECK3812"] "mRNA" [] "EG11465" ["EG11465-MONOMER"] null [] +"EG11466_RNA" "rarD" ["rarD", "yigH", "b3819", "ECK3813"] "mRNA" [] "EG11466" ["EG11466-MONOMER"] null [] +"EG11467_RNA" "yigI" ["yigI", "b3820", "ECK3814"] "mRNA" [] "EG11467" ["EG11467-MONOMER"] null [] +"EG11468_RNA" "rhtC" ["rhtC", "yigJ", "b3823", "ECK3817"] "mRNA" [] "EG11468" ["RHTC-MONOMER"] null [] +"EG11469_RNA" "rhtB" ["rhtB", "yigK", "b3824", "ECK3818"] "mRNA" [] "EG11469" ["RHTB-MONOMER"] null [] +"EG11470_RNA" "yigL" ["yigL", "b3826", "ECK3820"] "mRNA" [] "EG11470" ["EG11470-MONOMER"] null [] +"EG11471_RNA" "bioP" ["bioP", "yigM", "b3827", "ECK3821"] "mRNA" [] "EG11471" ["EG11471-MONOMER"] null [] +"EG11472_RNA" "rmuC" ["rmuC", "yigN", "b3832", "ECK3826"] "mRNA" [] "EG11472" ["EG11472-MONOMER"] null [] +"EG11473_RNA" "ubiE" ["ubiE", "yigO", "b3833", "ECK3827"] "mRNA" [] "EG11473" ["2-OCTAPRENYL-METHOXY-BENZOQ-METH-MONOMER"] null [] +"EG11474_RNA" "ubiJ" ["ubiJ", "yigP", "b3834", "ECK3828"] "mRNA" [] "EG11474" ["EG11474-MONOMER"] null [] +"EG11476_RNA" "ubiB" ["ubiB", "yigS", "yigQ", "yigR", "aarF", "b3835", "ECK3829"] "mRNA" [] "EG11476" ["2-OCTAPRENYLPHENOL-HYDROX-MONOMER"] null [] +"EG11479_RNA" "tatC" ["tatC", "mttB", "yigU", "yigV", "b3839", "ECK3832"] "mRNA" [] "EG11479" ["EG11479-MONOMER"] null [] +"EG11481_RNA" "tatD" ["tatD", "b3841", "yigX", "b3840", "mttC", "yigW", "b4483", "ECK3833"] "mRNA" [] "EG11481" ["EG11481-MONOMER"] null [] +"EG11484_RNA" "yigZ" ["yigZ", "b3848", "ECK3840"] "mRNA" [] "EG11484" ["EG11484-MONOMER"] null [] +"EG11485_RNA" "hemG" ["hemG", "yihB", "b3850", "ECK3842"] "mRNA" [] "EG11485" ["PROTOPORGENOXI-MONOMER"] null [] +"EG11486_RNA" "wzxE" ["wzxE", "wzx", "yifJ", "b3792", "ECK3784"] "mRNA" [] "EG11486" ["EG11486-MONOMER"] null [] +"EG11487_RNA" "pdxH" ["pdxH", "b1638", "ECK1634"] "mRNA" [] "EG11487" ["PDXH-MONOMER"] null [] +"EG11488_RNA" "mliC" ["mliC", "ydhA", "b1639", "ECK1635"] "mRNA" [] "EG11488" ["EG11488-MONOMER"] null [] +"EG11489_RNA" "csgA" ["csgA", "b1042", "ECK1028"] "mRNA" [] "EG11489" ["EG11489-MONOMER"] null [] +"EG11490_RNA" "gadB" ["gadB", "b1493", "ECK1487"] "mRNA" [] "EG11490" ["GLUTDECARBOXB-MONOMER"] null [] +"EG11491_RNA" "dinF" ["dinF", "b4044", "ECK4036"] "mRNA" [] "EG11491" ["DINF-MONOMER"] null [] +"EG11492_RNA" "qorA" ["qorA", "hzc", "hcz", "qor", "b4051", "ECK4043"] "mRNA" [] "EG11492" ["QOR-MONOMER"] null [] +"EG11493_RNA" "pabC" ["pabC", "b1096", "ECK1082"] "mRNA" [] "EG11493" ["ADCLY-MONOMER"] null [] +"EG11494_RNA" "mltG" ["mltG", "yceG", "b1097", "ECK1083"] "mRNA" [] "EG11494" ["EG11494-MONOMER"] null [] +"EG11495_RNA" "hdeD" ["hdeD", "yhiA", "b3511", "ECK3495"] "mRNA" [] "EG11495" ["EG11495-MONOMER"] null [] +"EG11496_RNA" "prfH" ["prfH", "b0236", "ECK0237"] "pseudo" [] "EG11496" ["EG11496-MONOMER"] null [] +"EG11497_RNA" "prmA" ["prmA", "yhdI", "prm-1", "b3259", "ECK3246"] "mRNA" [] "EG11497" ["EG11497-MONOMER"] null [] +"EG11498_RNA" "yhdJ" ["yhdJ", "ccrM", "b3262", "ECK3249"] "mRNA" [] "EG11498" ["EG11498-MONOMER"] null [] +"EG11499_RNA" "yhbE" ["yhbE", "b3184", "ECK3173"] "mRNA" [] "EG11499" ["EG11499-MONOMER"] null [] +"EG11500_RNA" "holB" ["holB", "b1099", "ECK1085"] "mRNA" [] "EG11500" ["EG11500-MONOMER"] null [] +"EG11501_RNA" "adiA" ["adiA", "adi", "b4117", "ECK4110"] "mRNA" [] "EG11501" ["ARGDECARBOXDEG-MONOMER"] null [] +"EG11502_RNA" "rcsF" ["rcsF", "b0196", "ECK0196"] "mRNA" [] "EG11502" ["RCSF-MONOMER"] null [] +"EG11503_RNA" "trmO" ["trmO", "tsaA", "yaeB", "b0195", "ECK0195"] "mRNA" [] "EG11503" ["EG11503-MONOMER"] null [] +"EG11504_RNA" "metQ" ["metQ", "metD", "yaeC", "b0197", "ECK0197"] "mRNA" [] "EG11504" ["METQ-MONOMER"] null [] +"EG11505_RNA" "holE" ["holE", "b1842", "ECK1843"] "mRNA" [] "EG11505" ["EG11505-MONOMER"] null [] +"EG11506_RNA" "ftsH" ["ftsH", "std", "hflB", "mrsC", "tolZ", "b3178", "ECK3167"] "mRNA" [] "EG11506" ["EG11506-MONOMER"] null [] +"EG11507_RNA" "rlmE" ["rlmE", "ftsJ", "mrsF", "rrmJ", "b3179", "ECK3168"] "mRNA" [] "EG11507" ["EG11507-MONOMER"] null [] +"EG11508_RNA" "sra" ["sra", "rpsV", "b1480", "ECK1474"] "mRNA" [] "EG11508" ["EG11508-MONOMER"] null [] +"EG11509_RNA" "mbiA" ["mbiA", "htpY", "htgA", "b0012", "ECK0012"] "mRNA" [] "EG11509" ["EG11509-MONOMER"] null [] +"EG11510_RNA" "ppk" ["ppk", "b2501", "ECK2497"] "mRNA" [] "EG11510" ["PPK-MONOMER"] null [] +"EG11511_RNA" "mog" ["mog", "yaaG", "bisD", "chlG", "mogA", "b0009", "ECK0009"] "mRNA" [] "EG11511" ["EG11511-MONOMER"] null [] +"EG11512_RNA" "satP" ["satP", "yaaH", "b0010", "ECK0010"] "mRNA" [] "EG11512" ["EG11512-MONOMER"] null [] +"EG11514_RNA" "gltF" ["gltF", "ossB", "b3214", "ECK3204"] "mRNA" [] "EG11514" ["EG11514-MONOMER"] null [] +"EG11515_RNA" "yhcA" ["yhcA", "b3215", "ECK3205"] "mRNA" [] "EG11515" ["EG11515-MONOMER"] null [] +"EG11516_RNA" "ycgB" ["ycgB", "b1188", "ECK1176"] "mRNA" [] "EG11516" ["EG11516-MONOMER"] null [] +"EG11517_RNA" "glpX" ["glpX", "b3925", "ECK3917"] "mRNA" [] "EG11517" ["EG11517-MONOMER"] null [] +"EG11519_RNA" "nikR" ["nikR", "yhhG", "b3481", "ECK3465"] "mRNA" [] "EG11519" ["EG11519-MONOMER"] null [] +"EG11520_RNA" "yhhH" ["yhhH", "b3483", "ECK3467"] "mRNA" [] "EG11520" ["EG11520-MONOMER"] null [] +"EG11521_RNA" "ybfA" ["ybfA", "b0699", "ECK0688"] "mRNA" [] "EG11521" ["EG11521-MONOMER"] null [] +"EG11522_RNA" "ybfB" ["ybfB", "b0702", "ECK0690"] "mRNA" [] "EG11522" ["EG11522-MONOMER"] null [] +"EG11523_RNA" "ybfC" ["ybfC", "b0704", "ECK0692"] "mRNA" [] "EG11523" ["EG11523-MONOMER"] null [] +"EG11524_RNA" "ybfD" ["ybfD", "b0706", "ECK0695"] "mRNA" [] "EG11524" ["EG11524-MONOMER"] null [] +"EG11525_RNA" "yhhI" ["yhhI", "b3484", "ECK3469"] "mRNA" [] "EG11525" ["EG11525-MONOMER"] null [] +"EG11526_RNA" "ydcC" ["ydcC", "b1460", "ECK1454"] "mRNA" [] "EG11526" ["EG11526-MONOMER"] null [] +"EG11527_RNA" "narP" ["narP", "b2193", "ECK2185"] "mRNA" [] "EG11527" ["NARP-MONOMER"] null [] +"EG11528_RNA" "fabI" ["fabI", "envM", "gts", "qmeA", "b1288", "ECK1283"] "mRNA" [] "EG11528" ["ENOYL-ACP-REDUCT-NADH-MONOMER"] null [] +"EG11529_RNA" "ftsN" ["ftsN", "msgA", "b3933", "ECK3925"] "mRNA" [] "EG11529" ["EG11529-MONOMER"] null [] +"EG11530_RNA" "fadD" ["fadD", "oldD", "b1805", "ECK1803"] "mRNA" [] "EG11530" ["ACYLCOASYN-MONOMER"] null [] +"EG11531_RNA" "cfa" ["cfa", "cdfA", "b1661", "ECK1657"] "mRNA" [] "EG11531" ["CFA-MONOMER"] null [] +"EG11532_RNA" "menC" ["menC", "b2261", "ECK2255"] "mRNA" [] "EG11532" ["O-SUCCINYLBENZOATE-COA-SYN-MONOMER"] null [] +"EG11533_RNA" "ychH" ["ychH", "b1205", "ECK1193"] "mRNA" [] "EG11533" ["EG11533-MONOMER"] null [] +"EG11534_RNA" "ibpA" ["ibpA", "hslT", "htpN", "b3687", "ECK3679"] "mRNA" [] "EG11534" ["EG11534-MONOMER"] null [] +"EG11535_RNA" "ibpB" ["ibpB", "hslS", "htpE", "b3686", "ECK3678"] "mRNA" [] "EG11535" ["EG11535-MONOMER"] null [] +"EG11536_RNA" "yidE" ["yidE", "yibE", "b3685", "ECK3677"] "mRNA" [] "EG11536" ["EG11536-MONOMER"] null [] +"EG11537_RNA" "yceH" ["yceH", "b1067", "ECK1052"] "mRNA" [] "EG11537" ["EG11537-MONOMER"] null [] +"EG11538_RNA" "yfiC" ["yfiC", "trmM", "b2575", "ECK2573"] "mRNA" [] "EG11538" ["EG11538-MONOMER"] null [] +"EG11539_RNA" "pyrH" ["pyrH", "umk", "smbA", "b0171", "ECK0170"] "mRNA" [] "EG11539" ["UMPKI-MONOMER"] null [] +"EG11540_RNA" "wrbA" ["wrbA", "b1004", "ECK0995"] "mRNA" [] "EG11540" ["PD01343"] null [] +"EG11541_RNA" "kup" ["kup", "trkD", "b3747", "ECK3741"] "mRNA" [] "EG11541" ["KUP-MONOMER"] null [] +"EG11542_RNA" "tesA" ["tesA", "apeA", "pldC", "b0494", "ECK0488"] "mRNA" [] "EG11542" ["THIOESTERI-MONOMER"] null [] +"EG11543_RNA" "hemE" ["hemE", "b3997", "ECK3989"] "mRNA" [] "EG11543" ["UROGENDECARBOX-MONOMER"] null [] +"EG11544_RNA" "gadE" ["gadE", "yhiE", "yhiT", "b3512", "ECK3496"] "mRNA" [] "EG11544" ["EG11544-MONOMER"] null [] +"EG11545_RNA" "flgL" ["flgL", "flaT", "b1083", "ECK1068"] "mRNA" [] "EG11545" ["EG11545-MONOMER"] null [] +"EG11546_RNA" "nadC" ["nadC", "b0109", "ECK0108"] "mRNA" [] "EG11546" ["QUINOPRIBOTRANS-MONOMER"] null [] +"EG11547_RNA" "rnt" ["rnt", "b1652", "ECK1648"] "mRNA" [] "EG11547" ["EG11547-MONOMER"] null [] +"EG11548_RNA" "lhr" ["lhr", "rhlF", "b1653", "ECK1649"] "mRNA" [] "EG11548" ["EG11548-MONOMER"] null [] +"EG11549_RNA" "pepT" ["pepT", "b1127", "ECK1113"] "mRNA" [] "EG11549" ["EG11549-MONOMER"] null [] +"EG11551_RNA" "hypF" ["hypF", "hydA", "b2712", "ECK2707"] "mRNA" [] "EG11551" ["EG11551-MONOMER"] null [] +"EG11552_RNA" "hydN" ["hydN", "b2713", "ECK2708"] "mRNA" [] "EG11552" ["EG11552-MONOMER"] null [] +"EG11553_RNA" "glmM" ["glmM", "yhbF", "mrsA", "b3176", "ECK3165"] "mRNA" [] "EG11553" ["PHOSGLUCOSAMINEMUT-MONOMER"] null [] +"EG11554_RNA" "stpA" ["stpA", "hnsB", "b2669", "ECK2663"] "mRNA" [] "EG11554" ["EG11554-MONOMER"] null [] +"EG11555_RNA" "yaaJ" ["yaaJ", "b0007", "ECK0007"] "mRNA" [] "EG11555" ["YAAJ-MONOMER"] null [] +"EG11556_RNA" "talB" ["talB", "yaaK", "b0008", "ECK0008"] "mRNA" [] "EG11556" ["TRANSALDOLB-MONOMER"] null [] +"EG11557_RNA" "caiD" ["caiD", "yaaL", "b0036", "ECK0037"] "mRNA" [] "EG11557" ["CARNRACE-MONOMER"] null [] +"EG11558_RNA" "caiC" ["caiC", "yaaM", "b0037", "ECK0038"] "mRNA" [] "EG11558" ["CAIC-MONOMER"] null [] +"EG11559_RNA" "caiB" ["caiB", "yaaN", "b0038", "ECK0039"] "mRNA" [] "EG11559" ["CARNDEHYDRA-MONOMER"] null [] +"EG11560_RNA" "caiA" ["caiA", "yaaO", "b0039", "ECK0040"] "mRNA" [] "EG11560" ["CROBETREDUCT-MONOMER"] null [] +"EG11561_RNA" "caiT" ["caiT", "yaaP", "b0040", "ECK0041"] "mRNA" [] "EG11561" ["CAIT-MONOMER"] null [] +"EG11562_RNA" "fixA" ["fixA", "yaaQ", "b0041", "ECK0042"] "mRNA" [] "EG11562" ["EG11562-MONOMER"] null [] +"EG11563_RNA" "fixB" ["fixB", "yaaR", "b0042", "ECK0043"] "mRNA" [] "EG11563" ["EG11563-MONOMER"] null [] +"EG11564_RNA" "fixC" ["fixC", "yaaS", "b0043", "ECK0044"] "mRNA" [] "EG11564" ["EG11564-MONOMER"] null [] +"EG11565_RNA" "fixX" ["fixX", "yaaT", "b0044", "ECK0045"] "mRNA" [] "EG11565" ["EG11565-MONOMER"] null [] +"EG11566_RNA" "yaaU" ["yaaU", "yabE", "b0045", "ECK0046"] "mRNA" [] "EG11566" ["YAAU-MONOMER"] null [] +"EG11568_RNA" "kefF" ["kefF", "yabF", "b0046", "ECK0047"] "mRNA" [] "EG11568" ["EG11568-MONOMER"] null [] +"EG11569_RNA" "lptD" ["lptD", "yabG", "ostA", "imp", "b0054", "ECK0055"] "mRNA" [] "EG11569" ["EG11569-MONOMER"] null [] +"EG11570_RNA" "djlA" ["djlA", "yabH", "b0055", "ECK0056"] "mRNA" [] "EG11570" ["EG11570-MONOMER"] null [] +"EG11571_RNA" "yabI" ["yabI", "b0065", "ECK0066"] "mRNA" [] "EG11571" ["EG11571-MONOMER"] null [] +"EG11572_RNA" "thiQ" ["thiQ", "sfuC", "yabJ", "b0066", "ECK0067"] "mRNA" [] "EG11572" ["SFUC-MONOMER"] null [] +"EG11573_RNA" "thiP" ["thiP", "sfuB", "yabK", "b0067", "ECK0068"] "mRNA" [] "EG11573" ["SFUB-MONOMER"] null [] +"EG11574_RNA" "thiB" ["thiB", "yabL", "sfuA", "tbpA", "b0068", "ECK0069"] "mRNA" [] "EG11574" ["SFUA-MONOMER"] null [] +"EG11575_RNA" "leuD" ["leuD", "b0071", "ECK0073"] "mRNA" [] "EG11575" ["LEUD-MONOMER"] null [] +"EG11576_RNA" "leuC" ["leuC", "b0072", "ECK0074"] "mRNA" [] "EG11576" ["LEUC-MONOMER"] null [] +"EG11577_RNA" "leuB" ["leuB", "b0073", "ECK0075"] "mRNA" [] "EG11577" ["3-ISOPROPYLMALDEHYDROG-MONOMER"] null [] +"EG11578_RNA" "greB" ["greB", "b3406", "ECK3393"] "mRNA" [] "EG11578" ["EG11578-MONOMER"] null [] +"EG11579_RNA" "ybiA" ["ybiA", "b0798", "ECK0787"] "mRNA" [] "EG11579" ["EG11579-MONOMER"] null [] +"EG11580_RNA" "ybiB" ["ybiB", "b0800", "ECK0789"] "mRNA" [] "EG11580" ["EG11580-MONOMER"] null [] +"EG11581_RNA" "hcxB" ["hcxB", "ybiC", "b0801", "ECK0790"] "mRNA" [] "EG11581" ["EG11581-MONOMER"] null [] +"EG11583_RNA" "gcl" ["gcl", "b0507", "ECK0500"] "mRNA" [] "EG11583" ["GLYOCARBOLIG-MONOMER"] null [] +"EG11585_RNA" "thiC" ["thiC", "b3994", "ECK3986"] "mRNA" [] "EG11585" ["THIC-MONOMER"] null [] +"EG11586_RNA" "thiE" ["thiE", "thiA", "b3993", "ECK3985"] "mRNA" [] "EG11586" ["THIE-MONOMER"] null [] +"EG11587_RNA" "thiF" ["thiF", "thiA", "b3992", "ECK3984"] "mRNA" [] "EG11587" ["THIF-MONOMER"] null [] +"EG11589_RNA" "thiG" ["thiG", "thiB", "b3991", "ECK3982"] "mRNA" [] "EG11589" ["THIG-MONOMER"] null [] +"EG11590_RNA" "thiH" ["thiH", "thiB", "b3990", "ECK3981"] "mRNA" [] "EG11590" ["THIH-MONOMER"] null [] +"EG11591_RNA" "lipB" ["lipB", "cde", "lip", "b0630", "ECK0623"] "mRNA" [] "EG11591" ["EG11591-MONOMER"] null [] +"EG11592_RNA" "ybeD" ["ybeD", "b0631", "ECK0624"] "mRNA" [] "EG11592" ["EG11592-MONOMER"] null [] +"EG11594_RNA" "ybeF" ["ybeF", "b0629", "ECK0622"] "mRNA" [] "EG11594" ["EG11594-MONOMER"] null [] +"EG11595_RNA" "moaA" ["moaA", "bisA", "chlA", "chlA1", "narA", "b0781", "ECK0770"] "mRNA" [] "EG11595" ["EG11595-MONOMER"] null [] +"EG11596_RNA" "moaB" ["moaB", "chlA2", "b0782", "ECK0771"] "mRNA" [] "EG11596" ["MONOMER0-1501"] null [] +"EG11597_RNA" "moaD" ["moaD", "chlA4", "chlM", "b0784", "ECK0773"] "mRNA" [] "EG11597" ["EG11597-MONOMER"] null [] +"EG11598_RNA" "moaE" ["moaE", "chlA5", "b0785", "ECK0774"] "mRNA" [] "EG11598" ["EG11598-MONOMER"] null [] +"EG11599_RNA" "marB" ["marB", "b1532", "ECK1525"] "mRNA" [] "EG11599" ["EG11599-MONOMER"] null [] +"EG11600_RNA" "sseA" ["sseA", "mstA", "b2521", "ECK2517"] "mRNA" [] "EG11600" ["EG11600-MONOMER"] null [] +"EG11601_RNA" "sseB" ["sseB", "b2522", "ECK2519"] "mRNA" [] "EG11601" ["EG11601-MONOMER"] null [] +"EG11602_RNA" "glnE" ["glnE", "b3053", "ECK3043"] "mRNA" [] "EG11602" ["GLNE-MONOMER"] null [] +"EG11603_RNA" "ygiF" ["ygiF", "b3054", "ECK3044"] "mRNA" [] "EG11603" ["EG11603-MONOMER"] null [] +"EG11604_RNA" "smf" ["smf", "b3286", "b3285", "smf1", "smf2", "b4473", "ECK3272"] "mRNA" [] "EG11604" ["EG11604-MONOMER"] null [] +"EG11605_RNA" "smg" ["smg", "b3284", "ECK3271"] "mRNA" [] "EG11605" ["EG11605-MONOMER"] null [] +"EG11606_RNA" "kch" ["kch", "b1250", "ECK1244"] "mRNA" [] "EG11606" ["KCH-MONOMER"] null [] +"EG11607_RNA" "yciI" ["yciI", "b1251", "ECK1245"] "mRNA" [] "EG11607" ["EG11607-MONOMER"] null [] +"EG11608_RNA" "clsA" ["clsA", "yciJ", "nov", "cls", "b1249", "ECK1243"] "mRNA" [] "EG11608" ["CARDIOLIPSYN-MONOMER"] null [] +"EG11609_RNA" "evgA" ["evgA", "b2369", "ECK2365"] "mRNA" [] "EG11609" ["EVGA-MONOMER"] null [] +"EG11610_RNA" "evgS" ["evgS", "b2370", "ECK2366"] "mRNA" [] "EG11610" ["EVGS-MONOMER"] null [] +"EG11612_RNA" "proP" ["proP", "b4111", "ECK4104"] "mRNA" [] "EG11612" ["PROP-MONOMER"] null [] +"EG11613_RNA" "eptA" ["eptA", "yjdB", "b4114", "ECK4107"] "mRNA" [] "EG11613" ["EG11613-MONOMER"] null [] +"EG11614_RNA" "basS" ["basS", "pmrB", "dgkR", "b4112", "ECK4105"] "mRNA" [] "EG11614" ["BASS-MONOMER"] null [] +"EG11615_RNA" "basR" ["basR", "pmrA", "b4113", "ECK4106"] "mRNA" [] "EG11615" ["BASR-MONOMER"] null [] +"EG11616_RNA" "gdx" ["gdx", "sugE", "b4148", "ECK4144"] "mRNA" [] "EG11616" ["SUGE-MONOMER"] null [] +"EG11617_RNA" "baeS" ["baeS", "b2078", "ECK2074"] "mRNA" [] "EG11617" ["BAES-MONOMER"] null [] +"EG11618_RNA" "baeR" ["baeR", "b2079", "ECK2075"] "mRNA" [] "EG11618" ["BAER-MONOMER"] null [] +"EG11619_RNA" "mfd" ["mfd", "b1114", "ECK1100"] "mRNA" [] "EG11619" ["EG11619-MONOMER"] null [] +"EG11620_RNA" "rnb" ["rnb", "b1286", "ECK1281"] "mRNA" [] "EG11620" ["EG11620-MONOMER"] null [] +"EG11621_RNA" "metN" ["metN", "metD", "abc", "b0199", "ECK0199"] "mRNA" [] "EG11621" ["ABC-MONOMER"] null [] +"EG11622_RNA" "mdlB" ["mdlB", "mdl", "b0449", "ECK0443"] "mRNA" [] "EG11622" ["MDLB-MONOMER"] null [] +"EG11623_RNA" "sdaB" ["sdaB", "b2797", "ECK2792"] "mRNA" [] "EG11623" ["LSERINEDEAM2-MONOMER"] null [] +"EG11624_RNA" "artP" ["artP", "b0864", "ECK0855"] "mRNA" [] "EG11624" ["ARTP-MONOMER"] null [] +"EG11625_RNA" "artI" ["artI", "b0863", "ECK0854"] "mRNA" [] "EG11625" ["ARTI-MONOMER"] null [] +"EG11626_RNA" "artQ" ["artQ", "b0862", "ECK0853"] "mRNA" [] "EG11626" ["ARTQ-MONOMER"] null [] +"EG11627_RNA" "artM" ["artM", "b0861", "ECK0852"] "mRNA" [] "EG11627" ["ARTM-MONOMER"] null [] +"EG11628_RNA" "artJ" ["artJ", "b0860", "ECK0851"] "mRNA" [] "EG11628" ["ARTJ-MONOMER"] null [] +"EG11629_RNA" "potF" ["potF", "b0854", "ECK0845"] "mRNA" [] "EG11629" ["POTF-MONOMER"] null [] +"EG11630_RNA" "potG" ["potG", "b0855", "ECK0846"] "mRNA" [] "EG11630" ["POTG-MONOMER"] null [] +"EG11631_RNA" "potH" ["potH", "b0856", "ECK0847"] "mRNA" [] "EG11631" ["POTH-MONOMER"] null [] +"EG11632_RNA" "potI" ["potI", "b0857", "ECK0848"] "mRNA" [] "EG11632" ["POTI-MONOMER"] null [] +"EG11634_RNA" "nohA" ["nohA", "nohQ", "b1548", "ECK1541"] "mRNA" [] "EG11634" ["EG11634-MONOMER"] null [] +"EG11635_RNA" "nohD" ["nohD", "nohB", "b0560", "ECK0552"] "mRNA" [] "EG11635" ["EG11635-MONOMER"] null [] +"EG11636_RNA" "ydeA" ["ydeA", "b1528", "ECK1521"] "mRNA" [] "EG11636" ["YDEA-MONOMER"] null [] +"EG11637_RNA" "marC" ["marC", "ydeC", "ydeB", "b1529", "ECK1522"] "mRNA" [] "EG11637" ["EG11637-MONOMER"] null [] +"EG11639_RNA" "eamA" ["eamA", "ydeD", "b1533", "ECK1526"] "mRNA" [] "EG11639" ["EG11639-MONOMER"] null [] +"EG11640_RNA" "ydeE" ["ydeE", "ydeF", "b1534", "ECK1527"] "mRNA" [] "EG11640" ["YDEF-MONOMER"] null [] +"EG11643_RNA" "dgcZ" ["dgcZ", "ydeG", "ydeH", "b1535", "ECK1528"] "mRNA" [] "EG11643" ["EG11643-MONOMER"] null [] +"EG11644_RNA" "ydeI" ["ydeI", "b1536", "ECK1529"] "mRNA" [] "EG11644" ["EG11644-MONOMER"] null [] +"EG11645_RNA" "ydeJ" ["ydeJ", "b1537", "ECK1530"] "mRNA" [] "EG11645" ["EG11645-MONOMER"] null [] +"EG11646_RNA" "psuK" ["psuK", "yeiC", "pscK", "b2166", "ECK2159"] "mRNA" [] "EG11646" ["EG11646-MONOMER"] null [] +"EG11647_RNA" "accA" ["accA", "b0185", "ECK0184"] "mRNA" [] "EG11647" ["CARBOXYL-TRANSFERASE-ALPHA-MONOMER"] null [] +"EG11648_RNA" "dkgB" ["dkgB", "yafB", "b0207", "ECK0207"] "mRNA" [] "EG11648" ["MONOMER0-149"] null [] +"EG11649_RNA" "yafC" ["yafC", "b0208", "ECK0208"] "mRNA" [] "EG11649" ["EG11649-MONOMER"] null [] +"EG11650_RNA" "yafD" ["yafD", "b0209", "ECK0209"] "mRNA" [] "EG11650" ["EG11650-MONOMER"] null [] +"EG11651_RNA" "yafE" ["yafE", "b0210", "ECK0210"] "mRNA" [] "EG11651" ["EG11651-MONOMER"] null [] +"EG11652_RNA" "degS" ["degS", "hhoB", "htrH", "b3235", "ECK3224"] "mRNA" [] "EG11652" ["EG11652-MONOMER"] null [] +"EG11653_RNA" "cyaY" ["cyaY", "b3807", "ECK3801"] "mRNA" [] "EG11653" ["EG11653-MONOMER"] null [] +"EG11654_RNA" "fliG" ["fliG", "flaAII.2", "flaBII", "b1939", "ECK1937"] "mRNA" [] "EG11654" ["FLIG-FLAGELLAR-SWITCH-PROTEIN"] null [] +"EG11656_RNA" "fliH" ["fliH", "flaAII.3", "flaBIII", "b1940", "ECK1938"] "mRNA" [] "EG11656" ["EG11656-MONOMER"] null [] +"EG11657_RNA" "ybbA" ["ybbA", "b0495", "ECK0489"] "mRNA" [] "EG11657" ["YBBA-MONOMER"] null [] +"EG11658_RNA" "uidB" ["uidB", "gusB", "uidP", "b1616", "ECK1611"] "mRNA" [] "EG11658" ["UIDB-MONOMER"] null [] +"EG11659_RNA" "yedD" ["yedD", "b1928", "ECK1927"] "mRNA" [] "EG11659" ["EG11659-MONOMER"] null [] +"EG11660_RNA" "yedE" ["yedE", "b1929", "ECK1928"] "mRNA" [] "EG11660" ["EG11660-MONOMER"] null [] +"EG11661_RNA" "yedF" ["yedF", "b1930", "ECK1929"] "mRNA" [] "EG11661" ["EG11661-MONOMER"] null [] +"EG11662_RNA" "yedK" ["yedK", "yedG", "b1931", "ECK1930"] "mRNA" [] "EG11662" ["EG11662-MONOMER"] null [] +"EG11663_RNA" "slyD" ["slyD", "b3349", "ECK3336"] "mRNA" [] "EG11663" ["EG11663-MONOMER"] null [] +"EG11664_RNA" "slyX" ["slyX", "b3348", "ECK3335"] "mRNA" [] "EG11664" ["EG11664-MONOMER"] null [] +"EG11665_RNA" "bacA" ["bacA", "uppP", "b3057", "ECK3047"] "mRNA" [] "EG11665" ["EG11665-MONOMER"] null [] +"EG11666_RNA" "moaC" ["moaC", "chlA3", "b0783", "ECK0772"] "mRNA" [] "EG11666" ["EG11666-MONOMER"] null [] +"EG11667_RNA" "atoS" ["atoS", "b2219", "ECK2212"] "mRNA" [] "EG11667" ["ATOS-MONOMER"] null [] +"EG11668_RNA" "atoC" ["atoC", "b2220", "ECK2213"] "mRNA" [] "EG11668" ["ATOC-MONOMER"] null [] +"EG11669_RNA" "atoD" ["atoD", "b2221", "ECK2214"] "mRNA" [] "EG11669" ["ATOD-MONOMER"] null [] +"EG11670_RNA" "atoA" ["atoA", "b2222", "ECK2215"] "mRNA" [] "EG11670" ["ATOA-MONOMER"] null [] +"EG11671_RNA" "atoE" ["atoE", "b2223", "ECK2216"] "mRNA" [] "EG11671" ["EG11671-MONOMER"] null [] +"EG11672_RNA" "atoB" ["atoB", "b2224", "ECK2217"] "mRNA" [] "EG11672" ["ACETYL-COA-ACETYLTRANSFER-MONOMER"] null [] +"EG11673_RNA" "folB" ["folB", "ygiG", "b3058", "ECK3048"] "mRNA" [] "EG11673" ["H2NEOPTERINALDOL-MONOMER"] null [] +"EG11674_RNA" "plsY" ["plsY", "ygiH", "b3059", "ECK3049"] "mRNA" [] "EG11674" ["EG11674-MONOMER"] null [] +"EG11675_RNA" "panB" ["panB", "b0134", "ECK0133"] "mRNA" [] "EG11675" ["3-CH3-2-OXOBUTANOATE-OH-CH3-XFER-MONOMER"] null [] +"EG11676_RNA" "hslV" ["hslV", "yiiC", "clpQ", "htpO", "b3932", "ECK3924"] "mRNA" [] "EG11676" ["EG11676-MONOMER"] null [] +"EG11677_RNA" "modF" ["modF", "chlD", "phrA", "b0760", "ECK0749"] "mRNA" [] "EG11677" ["MODF-MONOMER"] null [] +"EG11678_RNA" "yadC" ["yadC", "b0135", "ECK0134"] "mRNA" [] "EG11678" ["EG11678-MONOMER"] null [] +"EG11679_RNA" "aas" ["aas", "b2836", "ECK2832"] "mRNA" [] "EG11679" ["AAS-MONOMER"] null [] +"EG11680_RNA" "lptB" ["lptB", "yhbG", "b3201", "ECK3190"] "mRNA" [] "EG11680" ["YHBG-MONOMER"] null [] +"EG11681_RNA" "hpf" ["hpf", "yhbH", "b3203", "ECK3192"] "mRNA" [] "EG11681" ["EG11681-MONOMER"] null [] +"EG11682_RNA" "ptsN" ["ptsN", "yhbI", "rpoP", "b3204", "ECK3193"] "mRNA" [] "EG11682" ["EG11682-MONOMER"] null [] +"EG11683_RNA" "yicG" ["yicG", "b3646", "ECK3636"] "mRNA" [] "EG11683" ["EG11683-MONOMER"] null [] +"EG11684_RNA" "yicH" ["yicH", "b3655", "ECK3645"] "mRNA" [] "EG11684" ["EG11684-MONOMER"] null [] +"EG11685_RNA" "yicI" ["yicI", "b3656", "ECK3646"] "mRNA" [] "EG11685" ["EG11685-MONOMER"] null [] +"EG11686_RNA" "yicJ" ["yicJ", "b3657", "ECK3647"] "mRNA" [] "EG11686" ["YICJ-MONOMER"] null [] +"EG11687_RNA" "setC" ["setC", "yicK", "b3659", "ECK3649"] "mRNA" [] "EG11687" ["B3659-MONOMER"] null [] +"EG11688_RNA" "yicL" ["yicL", "b3660", "ECK3650"] "mRNA" [] "EG11688" ["EG11688-MONOMER"] null [] +"EG11689_RNA" "nepI" ["nepI", "yicM", "b3662", "ECK3653"] "mRNA" [] "EG11689" ["YICM-MONOMER"] null [] +"EG11690_RNA" "yicN" ["yicN", "b3663", "ECK3654"] "mRNA" [] "EG11690" ["EG11690-MONOMER"] null [] +"EG11691_RNA" "adeQ" ["adeQ", "yicO", "b3664", "ECK3655"] "mRNA" [] "EG11691" ["EG11691-MONOMER"] null [] +"EG11692_RNA" "adeD" ["adeD", "adeC(B.s.)", "adu", "yicP", "ade", "b3665", "ECK3656"] "mRNA" [] "EG11692" ["EG11692-MONOMER"] null [] +"EG11693_RNA" "emrD" ["emrD", "yicQ", "b3673", "ECK3664"] "mRNA" [] "EG11693" ["EMRD-MONOMER"] null [] +"EG11694_RNA" "yidF" ["yidF", "b3674", "ECK3665"] "mRNA" [] "EG11694" ["EG11694-MONOMER"] null [] +"EG11695_RNA" "yidG" ["yidG", "b3675", "ECK3666"] "mRNA" [] "EG11695" ["EG11695-MONOMER"] null [] +"EG11696_RNA" "yidH" ["yidH", "b3676", "ECK3667"] "mRNA" [] "EG11696" ["EG11696-MONOMER"] null [] +"EG11697_RNA" "yidI" ["yidI", "b3677", "ECK3668"] "mRNA" [] "EG11697" ["EG11697-MONOMER"] null [] +"EG11698_RNA" "galM" ["galM", "b0756", "ECK0745"] "mRNA" [] "EG11698" ["ALDOSE1EPIM-MONOMER"] null [] +"EG11699_RNA" "gpmA" ["gpmA", "gpm", "b0755", "ECK0744"] "mRNA" [] "EG11699" ["GPMA-MONOMER"] null [] +"EG11700_RNA" "pnuC" ["pnuC", "b0751", "ECK0740"] "mRNA" [] "EG11700" ["PNUC-MONOMER"] null [] +"EG11701_RNA" "udk" ["udk", "b2066", "ECK2060"] "mRNA" [] "EG11701" ["UDK-MONOMER"] null [] +"EG11702_RNA" "nudC" ["nudC", "yjaD", "b3996", "ECK3988"] "mRNA" [] "EG11702" ["EG11702-MONOMER"] null [] +"EG11703_RNA" "acrA" ["acrA", "sipB", "Mb", "lir", "mbl", "mtcA", "nbsA", "b0463", "ECK0457"] "mRNA" [] "EG11703" ["EG11703-MONOMER"] null [] +"EG11704_RNA" "acrB" ["acrB", "acrE", "b0462", "ECK0456"] "mRNA" [] "EG11704" ["ACRB-MONOMER"] null [] +"EG11705_RNA" "yidJ" ["yidJ", "b3678", "ECK3669"] "mRNA" [] "EG11705" ["EG11705-MONOMER"] null [] +"EG11706_RNA" "yidK" ["yidK", "b3679", "ECK3670"] "mRNA" [] "EG11706" ["YIDK-MONOMER"] null [] +"EG11707_RNA" "yidL" ["yidL", "b3680", "ECK3671"] "mRNA" [] "EG11707" ["EG11707-MONOMER"] null [] +"EG11708_RNA" "glvG" ["glvG", "b3681 (obsolete)", "ECK3672 (obsolete)", "ysdC", "yidM", "b4556", "ECK3673"] "pseudo" [] "EG11708" [] null [] +"EG11709_RNA" "glvB" ["glvB", "yidN", "yidO", "b3682", "ECK3674"] "mRNA" [] "EG11709" ["GLVB-MONOMER"] null [] +"EG11710_RNA" "glvC" ["glvC", "ptiC", "b3683", "ECK3675"] "mRNA" [] "EG11710" ["GLVC-MONOMER"] null [] +"EG11711_RNA" "yidP" ["yidP", "b3684", "ECK3676"] "mRNA" [] "EG11711" ["EG11711-MONOMER"] null [] +"EG11712_RNA" "yidQ" ["yidQ", "ecfI", "b3688", "ECK3680"] "mRNA" [] "EG11712" ["EG11712-MONOMER"] null [] +"EG11713_RNA" "yidR" ["yidR", "b3689", "ECK3681"] "mRNA" [] "EG11713" ["EG11713-MONOMER"] null [] +"EG11714_RNA" "cbrA" ["cbrA", "yidS", "b3690", "ECK3682"] "mRNA" [] "EG11714" ["EG11714-MONOMER"] null [] +"EG11719_RNA" "yidX" ["yidX", "b3696", "ECK3688"] "mRNA" [] "EG11719" ["EG11719-MONOMER"] null [] +"EG11720_RNA" "mdtL" ["mdtL", "yidY", "b3710", "ECK3703"] "mRNA" [] "EG11720" ["YIDY-MONOMER"] null [] +"EG11721_RNA" "yidZ" ["yidZ", "b3711", "ECK3704"] "mRNA" [] "EG11721" ["EG11721-MONOMER"] null [] +"EG11722_RNA" "yieE" ["yieE", "b3712", "ECK3705"] "mRNA" [] "EG11722" ["EG11722-MONOMER"] null [] +"EG11723_RNA" "yieF" ["yieF", "chrR", "b3713", "ECK3706"] "mRNA" [] "EG11723" ["EG11723-MONOMER"] null [] +"EG11724_RNA" "adeP" ["adeP", "yieG", "purP", "b3714", "ECK3707"] "mRNA" [] "EG11724" ["EG11724-MONOMER"] null [] +"EG11725_RNA" "yieH" ["yieH", "b3715", "ECK3708"] "mRNA" [] "EG11725" ["EG11725-MONOMER"] null [] +"EG11726_RNA" "cbrB" ["cbrB", "yieI", "b3716", "ECK3709"] "mRNA" [] "EG11726" ["EG11726-MONOMER"] null [] +"EG11727_RNA" "cbrC" ["cbrC", "yieJ", "b3717", "ECK3710"] "mRNA" [] "EG11727" ["EG11727-MONOMER"] null [] +"EG11728_RNA" "yieK" ["yieK", "b3718", "ECK3711"] "mRNA" [] "EG11728" ["EG11728-MONOMER"] null [] +"EG11729_RNA" "yieL" ["yieL", "b3719", "ECK3712"] "mRNA" [] "EG11729" ["EG11729-MONOMER"] null [] +"EG11730_RNA" "viaA" ["viaA", "yieD", "yieD_1", "yieD_2", "yieM", "b3745", "ECK3739"] "mRNA" [] "EG11730" ["EG11730-MONOMER"] null [] +"EG11731_RNA" "ravA" ["ravA", "yieN", "b3746", "ECK3740"] "mRNA" [] "EG11731" ["EG11731-MONOMER"] null [] +"EG11732_RNA" "hsrA" ["hsrA", "yieO", "b3754", "ECK3748"] "mRNA" [] "EG11732" ["YIEO-MONOMER"] null [] +"EG11733_RNA" "yieP" ["yieP", "b3755", "ECK3749"] "mRNA" [] "EG11733" ["EG11733-MONOMER"] null [] +"EG11734_RNA" "phoH" ["phoH", "psiH", "b1020", "ECK1010"] "mRNA" [] "EG11734" ["EG11734-MONOMER"] null [] +"EG11735_RNA" "efeB" ["efeB", "ycdB", "b1019", "ECK1009"] "mRNA" [] "EG11735" ["EG11735-MONOMER"] null [] +"EG11736_RNA" "gmhB" ["gmhB", "yaeD", "b0200", "ECK0200"] "mRNA" [] "EG11736" ["EG11736-MONOMER"] null [] +"EG11737_RNA" "metI" ["metI", "metD", "yaeE", "b0198", "ECK0198"] "mRNA" [] "EG11737" ["METI-MONOMER"] null [] +"EG11738_RNA" "rsd" ["rsd", "yjaE", "b3995", "ECK3987"] "mRNA" [] "EG11738" ["EG11738-MONOMER"] null [] +"EG11739_RNA" "nfrB" ["nfrB", "b0569", "ECK0561"] "mRNA" [] "EG11739" ["EG11739-MONOMER"] null [] +"EG11740_RNA" "nfrA" ["nfrA", "b0568", "ECK0560"] "mRNA" [] "EG11740" ["EG11740-MONOMER"] null [] +"EG11741_RNA" "envR" ["envR", "acrS", "yhdK", "b3264", "ECK3251"] "mRNA" [] "EG11741" ["EG11741-MONOMER"] null [] +"EG11742_RNA" "yddA" ["yddA", "b1496", "ECK1490"] "mRNA" [] "EG11742" ["YDDA-MONOMER"] null [] +"EG11743_RNA" "yddB" ["yddB", "b1495", "ECK1489"] "mRNA" [] "EG11743" ["EG11743-MONOMER"] null [] +"EG11744_RNA" "pqqL" ["pqqL", "pqqM", "pqqE", "yddC", "b1494", "ECK1488"] "mRNA" [] "EG11744" ["EG11744-MONOMER"] null [] +"EG11746_RNA" "panC" ["panC", "b0133", "ECK0132"] "mRNA" [] "EG11746" ["PANTOATE-BETA-ALANINE-LIG-MONOMER"] null [] +"EG11747_RNA" "panD" ["panD", "b0131", "ECK0130"] "mRNA" [] "EG11747" ["ASPDECARBOX-MONOMER"] null [] +"EG11748_RNA" "rpnC" ["rpnC", "yadD", "b0132", "ECK0131"] "mRNA" [] "EG11748" ["EG11748-MONOMER"] null [] +"EG11749_RNA" "yadE" ["yadE", "b0130", "ECK0129"] "mRNA" [] "EG11749" ["EG11749-MONOMER"] null [] +"EG11750_RNA" "rpnA" ["rpnA", "yhgA", "b3411", "ECK3398"] "mRNA" [] "EG11750" ["EG11750-MONOMER"] null [] +"EG11751_RNA" "otsA" ["otsA", "b1896", "ECK1895"] "mRNA" [] "EG11751" ["TREHALOSE6PSYN-MONOMER"] null [] +"EG11752_RNA" "otsB" ["otsB", "otsP", "b1897", "ECK1896"] "mRNA" [] "EG11752" ["TREHALOSEPHOSPHASYN-MONOMER"] null [] +"EG11753_RNA" "chaA" ["chaA", "b1216", "ECK1210"] "mRNA" [] "EG11753" ["CHAA-MONOMER"] null [] +"EG11754_RNA" "setA" ["setA", "yabM", "b0070", "ECK0072"] "mRNA" [] "EG11754" ["B0070-MONOMER"] null [] +"EG11757_RNA" "tsaE" ["tsaE", "yjeE", "b4168", "ECK4164"] "mRNA" [] "EG11757" ["EG11757-MONOMER"] null [] +"EG11758_RNA" "nnr" ["nnr", "yjeF", "b4167", "ECK4163"] "mRNA" [] "EG11758" ["EG11758-MONOMER"] null [] +"EG11759_RNA" "yciK" ["yciK", "b1271", "ECK1265"] "mRNA" [] "EG11759" ["EG11759-MONOMER"] null [] +"EG11760_RNA" "ydcD" ["ydcD", "b1457", "ECK1451"] "mRNA" [] "EG11760" ["EG11760-MONOMER"] null [] +"EG11761_RNA" "pptA" ["pptA", "ydcE", "b1461", "ECK1455"] "mRNA" [] "EG11761" ["EG11761-MONOMER"] null [] +"EG11762_RNA" "yibF" ["yibF", "b3592", "ECK3581"] "mRNA" [] "EG11762" ["EG11762-MONOMER"] null [] +"EG11763_RNA" "yibG" ["yibG", "b3596", "ECK3585"] "mRNA" [] "EG11763" ["EG11763-MONOMER"] null [] +"EG11764_RNA" "yibH" ["yibH", "b3597", "ECK3586"] "mRNA" [] "EG11764" ["EG11764-MONOMER"] null [] +"EG11765_RNA" "yibI" ["yibI", "b3598", "ECK3587"] "mRNA" [] "EG11765" ["EG11765-MONOMER"] null [] +"EG11766_RNA" "yibJ" ["yibJ", "rhsJ", "b3595", "ECK3584"] "pseudo" [] "EG11766" ["EG11766-MONOMER"] null [] +"EG11767_RNA" "yhhJ" ["yhhJ", "b3485", "ECK3470"] "mRNA" [] "EG11767" ["YHHJ-MONOMER"] null [] +"EG11768_RNA" "selU" ["selU", "ybbB", "mnmH", "b0503", "ECK0496"] "mRNA" [] "EG11768" ["EG11768-MONOMER"] null [] +"EG11769_RNA" "ybbC" ["ybbC", "b0498", "ECK0492"] "mRNA" [] "EG11769" ["EG11769-MONOMER"] null [] +"EG11770_RNA" "ybbD" ["ybbD", "b0500", "b0501", "ECK0494"] "pseudo" [] "EG11770" ["EG11770-MONOMER"] null [] +"EG11773_RNA" "nuoM" ["nuoM", "nuoA", "b2277", "ECK2271"] "mRNA" [] "EG11773" ["NUOM-MONOMER"] null [] +"EG11774_RNA" "nuoF" ["nuoF", "b2284", "ECK2278"] "mRNA" [] "EG11774" ["NUOF-MONOMER"] null [] +"EG11775_RNA" "ybfE" ["ybfE", "b0685", "ECK0673"] "mRNA" [] "EG11775" ["EG11775-MONOMER"] null [] +"EG11776_RNA" "ybfF" ["ybfF", "b0686", "ECK0674"] "mRNA" [] "EG11776" ["EG11776-MONOMER"] null [] +"EG11778_RNA" "ybfG" ["ybfG", "b0690", "ECK0679", "ybfH", "b0691", "ECK0678"] "pseudo" [] "EG11778" ["EG11778-MONOMER"] null [] +"EG11779_RNA" "trmB" ["trmB", "trmI", "yggH", "b2960", "ECK2955"] "mRNA" [] "EG11779" ["EG11779-MONOMER"] null [] +"EG11780_RNA" "yneO" ["yneO", "orfT", "ydeK", "ydeU", "b1509", "b1510", "ECK1502", "b4696", "ECK1503"] "pseudo" [] "EG11780" ["EG11780-MONOMER"] null [] +"EG11781_RNA" "nrfA" ["nrfA", "b4070", "ECK4063"] "mRNA" [] "EG11781" ["CYTOCHROMEC552-MONOMER"] null [] +"EG11782_RNA" "smpB" ["smpB", "smqB", "b2620", "ECK2616"] "mRNA" [] "EG11782" ["EG11782-MONOMER"] null [] +"EG11783_RNA" "intA" ["intA", "intX", "slpA", "b2622", "ECK2618"] "mRNA" [] "EG11783" ["EG11783-MONOMER"] null [] +"EG11784_RNA" "grcA" ["grcA", "yfiD", "b2579", "ECK2577"] "mRNA" [] "EG11784" ["EG11784-MONOMER"] null [] +"EG11785_RNA" "yfiE" ["yfiE", "b2577", "ECK2575"] "mRNA" [] "EG11785" ["EG11785-MONOMER"] null [] +"EG11786_RNA" "yfiF" ["yfiF", "b2581", "ECK2579"] "mRNA" [] "EG11786" ["EG11786-MONOMER"] null [] +"EG11787_RNA" "gmd" ["gmd", "yefN", "yefA", "b2053", "ECK2047"] "mRNA" [] "EG11787" ["GDPMANDEHYDRA-MONOMER"] null [] +"EG11788_RNA" "fcl" ["fcl", "wcaG", "yefB", "b2052", "ECK2046"] "mRNA" [] "EG11788" ["FCL-MONOMER"] null [] +"EG11789_RNA" "gmm" ["gmm", "nudD", "wcaH", "yefC", "b2051", "ECK2045"] "mRNA" [] "EG11789" ["GDPMANMANHYDRO-MONOMER"] null [] +"EG11790_RNA" "wcaI" ["wcaI", "yefD", "b2050", "ECK2044"] "mRNA" [] "EG11790" ["EG11790-MONOMER"] null [] +"EG11791_RNA" "cmtB" ["cmtB", "tolM", "b2934", "ECK2929"] "mRNA" [] "EG11791" ["CMTB-MONOMER"] null [] +"EG11792_RNA" "cmtA" ["cmtA", "b2933", "ECK2928"] "mRNA" [] "EG11792" ["CMTA-MONOMER"] null [] +"EG11793_RNA" "ygdD" ["ygdD", "b2807", "ECK2802"] "mRNA" [] "EG11793" ["EG11793-MONOMER"] null [] +"EG11794_RNA" "rlmM" ["rlmM", "ygdE", "b2806", "ECK2801"] "mRNA" [] "EG11794" ["EG11794-MONOMER"] null [] +"EG11795_RNA" "gcvA" ["gcvA", "b2808", "ECK2803"] "mRNA" [] "EG11795" ["PD00339"] null [] +"EG11796_RNA" "lplA" ["lplA", "yjjF", "slr", "b4386", "ECK4378"] "mRNA" [] "EG11796" ["EG11796-MONOMER"] null [] +"EG11797_RNA" "talA" ["talA", "b2464", "ECK2459"] "mRNA" [] "EG11797" ["TRANSALDOLA-MONOMER"] null [] +"EG11798_RNA" "hofC" ["hofC", "yacD", "hopC", "b0106", "ECK0105"] "mRNA" [] "EG11798" ["EG11798-MONOMER"] null [] +"EG11799_RNA" "hybA" ["hybA", "hydL", "b2996", "ECK2990"] "mRNA" [] "EG11799" ["HYBA-MONOMER"] null [] +"EG11800_RNA" "hybB" ["hybB", "b2995", "ECK2989"] "mRNA" [] "EG11800" ["EG11800-MONOMER"] null [] +"EG11801_RNA" "hybC" ["hybC", "b2994", "ECK2988"] "mRNA" [] "EG11801" ["HYBC-MONOMER"] null [] +"EG11802_RNA" "hybD" ["hybD", "b2993", "ECK2987"] "mRNA" [] "EG11802" ["EG11802-MONOMER"] null [] +"EG11803_RNA" "hybE" ["hybE", "b2992", "ECK2986"] "mRNA" [] "EG11803" ["EG11803-MONOMER"] null [] +"EG11804_RNA" "hybF" ["hybF", "b2991", "ECK2985"] "mRNA" [] "EG11804" ["EG11804-MONOMER"] null [] +"EG11805_RNA" "hybG" ["hybG", "b2990", "ECK2984"] "mRNA" [] "EG11805" ["EG11805-MONOMER"] null [] +"EG11806_RNA" "yebE" ["yebE", "b1846", "ECK1847"] "mRNA" [] "EG11806" ["EG11806-MONOMER"] null [] +"EG11807_RNA" "yebF" ["yebF", "b1847", "ECK1848"] "mRNA" [] "EG11807" ["EG11807-MONOMER"] null [] +"EG11808_RNA" "yebG" ["yebG", "b1848", "ECK1849"] "mRNA" [] "EG11808" ["EG11808-MONOMER"] null [] +"EG11809_RNA" "purT" ["purT", "b1849", "ECK1850"] "mRNA" [] "EG11809" ["GARTRANSFORMYL2-MONOMER"] null [] +"EG11810_RNA" "gcvP" ["gcvP", "b2903", "ECK2898"] "mRNA" [] "EG11810" ["GCVP-MONOMER"] null [] +"EG11811_RNA" "aidB" ["aidB", "b4187", "ECK4183"] "mRNA" [] "EG11811" ["EG11811-MONOMER"] null [] +"EG11812_RNA" "yjfC" ["yjfC", "b4186", "ECK4182"] "mRNA" [] "EG11812" ["EG11812-MONOMER"] null [] +"EG11814_RNA" "torA" ["torA", "b0997", "ECK0988"] "mRNA" [] "EG11814" ["TORA-MONOMER"] null [] +"EG11815_RNA" "torC" ["torC", "b0996", "ECK0987"] "mRNA" [] "EG11815" ["EG11815-MONOMER"] null [] +"EG11816_RNA" "ispF" ["ispF", "ygbB", "b2746", "ECK2741"] "mRNA" [] "EG11816" ["EG11816-MONOMER"] null [] +"EG11817_RNA" "umpG" ["umpG", "ygbC", "surE", "b2744", "ECK2739"] "mRNA" [] "EG11817" ["EG11817-MONOMER"] null [] +"EG11819_RNA" "purU" ["purU", "ychI", "tgs", "b1232", "ECK1227"] "mRNA" [] "EG11819" ["FORMYLTHFDEFORMYL-MONOMER"] null [] +"EG11820_RNA" "yceI" ["yceI", "b1056", "ECK1041"] "mRNA" [] "EG11820" ["EG11820-MONOMER"] null [] +"EG11821_RNA" "amtB" ["amtB", "ybaG", "b0451", "ECK0445"] "mRNA" [] "EG11821" ["AMTB-MONOMER"] null [] +"EG11822_RNA" "puuB" ["puuB", "ycjA", "ordL", "b1301", "ECK1296"] "mRNA" [] "EG11822" ["EG11822-MONOMER"] null [] +"EG11823_RNA" "amiA" ["amiA", "yfeE", "b2435", "ECK2430"] "mRNA" [] "EG11823" ["NACMURLALAAMI1-MONOMER"] null [] +"EG11824_RNA" "yghB" ["yghB", "b3009", "ECK3001"] "mRNA" [] "EG11824" ["EG11824-MONOMER"] null [] +"EG11825_RNA" "yddE" ["yddE", "b1464", "ECK1458"] "mRNA" [] "EG11825" ["EG11825-MONOMER"] null [] +"EG11826_RNA" "etk" ["etk", "yccC", "b0981", "ECK0972"] "mRNA" [] "EG11826" ["EG11826-MONOMER"] null [] +"EG11827_RNA" "rpiB" ["rpiB", "yjcA", "alsI", "b4090", "ECK4083"] "mRNA" [] "EG11827" ["RIB5PISOMB-MONOMER"] null [] +"EG11828_RNA" "mobB" ["mobB", "yihC", "b3856", "ECK3848"] "mRNA" [] "EG11828" ["EG11828-MONOMER"] null [] +"EG11829_RNA" "mobA" ["mobA", "chlB", "mob", "narB", "b3857", "ECK3849"] "mRNA" [] "EG11829" ["EG11829-MONOMER"] null [] +"EG11830_RNA" "yihD" ["yihD", "b3858", "ECK3850"] "mRNA" [] "EG11830" ["EG11830-MONOMER"] null [] +"EG11831_RNA" "srkA" ["srkA", "orfA", "yihE", "b3859", "ECK3851"] "mRNA" [] "EG11831" ["EG11831-MONOMER"] null [] +"EG11832_RNA" "yihF" ["yihF", "b3861", "ECK3853"] "mRNA" [] "EG11832" ["EG11832-MONOMER"] null [] +"EG11833_RNA" "yihG" ["yihG", "b3862", "ECK3854"] "mRNA" [] "EG11833" ["EG11833-MONOMER"] null [] +"EG11835_RNA" "yihI" ["yihI", "b3866", "ECK3859"] "mRNA" [] "EG11835" ["EG11835-MONOMER"] null [] +"EG11836_RNA" "hemN" ["hemN", "yihJ", "b3867", "ECK3860"] "mRNA" [] "EG11836" ["HEMN-MONOMER"] null [] +"EG11837_RNA" "bipA" ["bipA", "typA", "yihK", "b3871", "ECK3864"] "mRNA" [] "EG11837" ["EG11837-MONOMER"] null [] +"EG11838_RNA" "yihL" ["yihL", "b3872", "ECK3865"] "mRNA" [] "EG11838" ["EG11838-MONOMER"] null [] +"EG11839_RNA" "yihM" ["yihM", "b3873", "ECK3866"] "mRNA" [] "EG11839" ["EG11839-MONOMER"] null [] +"EG11840_RNA" "yihN" ["yihN", "b3874", "ECK3867"] "mRNA" [] "EG11840" ["YIHN-MONOMER"] null [] +"EG11841_RNA" "yihO" ["yihO", "squO", "b3876", "ECK3869"] "mRNA" [] "EG11841" ["YIHO-MONOMER"] null [] +"EG11842_RNA" "yihP" ["yihP", "b3877", "ECK3870"] "mRNA" [] "EG11842" ["YIHP-MONOMER"] null [] +"EG11843_RNA" "yihQ" ["yihQ", "squQ", "b3878", "ECK3871"] "mRNA" [] "EG11843" ["EG11843-MONOMER"] null [] +"EG11844_RNA" "yihR" ["yihR", "squR", "b3879", "ECK3872"] "mRNA" [] "EG11844" ["EG11844-MONOMER"] null [] +"EG11845_RNA" "yihS" ["yihS", "squS", "b3880", "ECK3873"] "mRNA" [] "EG11845" ["EG11845-MONOMER"] null [] +"EG11846_RNA" "yihT" ["yihT", "squT", "b3881", "ECK3874"] "mRNA" [] "EG11846" ["EG11846-MONOMER"] null [] +"EG11847_RNA" "yihU" ["yihU", "squU", "b3882", "ECK3875"] "mRNA" [] "EG11847" ["EG11847-MONOMER"] null [] +"EG11848_RNA" "yihV" ["yihV", "squV", "b3883", "ECK3876"] "mRNA" [] "EG11848" ["EG11848-MONOMER"] null [] +"EG11849_RNA" "csqR" ["csqR", "yihW", "b3884", "ECK3877"] "mRNA" [] "EG11849" ["EG11849-MONOMER"] null [] +"EG11850_RNA" "yihX" ["yihX", "b3885", "ECK3878"] "mRNA" [] "EG11850" ["EG11850-MONOMER"] null [] +"EG11851_RNA" "yihY" ["yihY", "rbn", "b3886", "ECK3879"] "mRNA" [] "EG11851" ["EG11851-MONOMER"] null [] +"EG11852_RNA" "dtd" ["dtd", "yihZ", "b3887", "ECK3880"] "mRNA" [] "EG11852" ["EG11852-MONOMER"] null [] +"EG11853_RNA" "fabY" ["fabY", "yiiD", "b3888", "ECK3881"] "mRNA" [] "EG11853" ["EG11853-MONOMER"] null [] +"EG11854_RNA" "yiiE" ["yiiE", "b3889", "ECK3882"] "mRNA" [] "EG11854" ["EG11854-MONOMER"] null [] +"EG11855_RNA" "yiiF" ["yiiF", "b3890", "ECK3883"] "mRNA" [] "EG11855" ["EG11855-MONOMER"] null [] +"EG11856_RNA" "fdoI" ["fdoI", "b3892", "ECK3885"] "mRNA" [] "EG11856" ["FDOI-MONOMER"] null [] +"EG11857_RNA" "fdoH" ["fdoH", "b3893", "ECK3886"] "mRNA" [] "EG11857" ["FDOH-MONOMER"] null [] +"EG11858_RNA" "fdoG" ["fdoG", "b3894", "ECK3887"] "mRNA" [] "EG11858" ["FDOG-MONOMER"] null [] +"EG11859_RNA" "fdhD" ["fdhD", "b3895", "ECK3888"] "mRNA" [] "EG11859" ["EG11859-MONOMER"] null [] +"EG11860_RNA" "yiiG" ["yiiG", "b3896", "ECK3889"] "mRNA" [] "EG11860" ["EG11860-MONOMER"] null [] +"EG11861_RNA" "frvR" ["frvR", "yiiH", "b3897", "ECK3890"] "mRNA" [] "EG11861" ["EG11861-MONOMER"] null [] +"EG11862_RNA" "frvX" ["frvX", "yiiI", "b3898", "ECK3891"] "mRNA" [] "EG11862" ["EG11862-MONOMER"] null [] +"EG11863_RNA" "frvB" ["frvB", "yiiJ", "b3899", "ECK3892"] "mRNA" [] "EG11863" ["FRVB-MONOMER"] null [] +"EG11864_RNA" "frvA" ["frvA", "yiiK", "b3900", "ECK3893"] "mRNA" [] "EG11864" ["FRVA-MONOMER"] null [] +"EG11865_RNA" "rhaM" ["rhaM", "yiiL", "b3901", "ECK3894"] "mRNA" [] "EG11865" ["EG11865-MONOMER"] null [] +"EG11866_RNA" "rhaD" ["rhaD", "b3902", "ECK3895"] "mRNA" [] "EG11866" ["RHAMNULPALDOL-MONOMER"] null [] +"EG11867_RNA" "rhaA" ["rhaA", "b3903", "ECK3896"] "mRNA" [] "EG11867" ["RHAMNISOM-MONOMER"] null [] +"EG11868_RNA" "rhaB" ["rhaB", "b3904", "ECK3897"] "mRNA" [] "EG11868" ["RHAMNULOKIN-MONOMER"] null [] +"EG11869_RNA" "kdgT" ["kdgT", "b3909", "ECK3902"] "mRNA" [] "EG11869" ["KDGT-MONOMER"] null [] +"EG11870_RNA" "yiiM" ["yiiM", "b3910", "ECK3903"] "mRNA" [] "EG11870" ["EG11870-MONOMER"] null [] +"EG11871_RNA" "gph" ["gph", "yhfE", "b3385", "ECK3372"] "mRNA" [] "EG11871" ["GPH-MONOMER"] null [] +"EG11873_RNA" "fieF" ["fieF", "yiiP", "b3915", "ECK3907"] "mRNA" [] "EG11873" ["YIIP-MONOMER"] null [] +"EG11874_RNA" "yiiQ" ["yiiQ", "b3920", "ECK3912"] "mRNA" [] "EG11874" ["EG11874-MONOMER"] null [] +"EG11875_RNA" "yiiR" ["yiiR", "b3921", "ECK3913"] "mRNA" [] "EG11875" ["EG11875-MONOMER"] null [] +"EG11876_RNA" "yiiS" ["yiiS", "b3922", "ECK3914"] "mRNA" [] "EG11876" ["EG11876-MONOMER"] null [] +"EG11877_RNA" "uspD" ["uspD", "yiiT", "b3923", "ECK3915"] "mRNA" [] "EG11877" ["EG11877-MONOMER"] null [] +"EG11878_RNA" "zapB" ["zapB", "yiiU", "b3928", "ECK3920"] "mRNA" [] "EG11878" ["EG11878-MONOMER"] null [] +"EG11879_RNA" "rraA" ["rraA", "menG", "yiiV", "b3929", "ECK3921"] "mRNA" [] "EG11879" ["EG11879-MONOMER"] null [] +"EG11880_RNA" "menA" ["menA", "yiiW", "b3930", "ECK3922"] "mRNA" [] "EG11880" ["DMK-MONOMER"] null [] +"EG11881_RNA" "hslU" ["hslU", "clpY", "htpI", "b3931", "ECK3923"] "mRNA" [] "EG11881" ["EG11881-MONOMER"] null [] +"EG11882_RNA" "yiiX" ["yiiX", "b3937", "ECK3929"] "mRNA" [] "EG11882" ["EG11882-MONOMER"] null [] +"EG11883_RNA" "tehA" ["tehA", "b1429", "ECK1422"] "mRNA" [] "EG11883" ["TEHA-MONOMER"] null [] +"EG11884_RNA" "tehB" ["tehB", "b1430", "ECK1423"] "mRNA" [] "EG11884" ["EG11884-MONOMER"] null [] +"EG11885_RNA" "opgG" ["opgG", "mdoA", "mdoG", "b1048", "ECK1034"] "mRNA" [] "EG11885" ["EG11885-MONOMER"] null [] +"EG11886_RNA" "opgH" ["opgH", "mdoA", "mdoH", "b1049", "ECK1035"] "mRNA" [] "EG11886" ["EG11886-MONOMER"] null [] +"EG11887_RNA" "trxC" ["trxC", "yfiG", "b2582", "ECK2580"] "mRNA" [] "EG11887" ["RED-THIOREDOXIN2-MONOMER"] null [] +"EG11888_RNA" "trmL" ["trmL", "yibK", "b3606", "ECK3596"] "mRNA" [] "EG11888" ["EG11888-MONOMER"] null [] +"EG11889_RNA" "dctR" ["dctR", "yhiF", "b3507", "ECK3491"] "mRNA" [] "EG11889" ["EG11889-MONOMER"] null [] +"EG11890_RNA" "slp" ["slp", "b3506", "ECK3490"] "mRNA" [] "EG11890" ["EG11890-MONOMER"] null [] +"EG11891_RNA" "yeeA" ["yeeA", "b2008", "ECK2002"] "mRNA" [] "EG11891" ["EG11891-MONOMER"] null [] +"EG11892_RNA" "sbmC" ["sbmC", "dgi", "gyrI", "yeeB", "b2009", "ECK2003"] "mRNA" [] "EG11892" ["EG11892-MONOMER"] null [] +"EG11893_RNA" "dacD" ["dacD", "phsE", "yeeC", "b2010", "ECK2004"] "mRNA" [] "EG11893" ["RPOA-MONOMER"] null [] +"EG11894_RNA" "yeeD" ["yeeD", "b2012", "ECK2006"] "mRNA" [] "EG11894" ["EG11894-MONOMER"] null [] +"EG11895_RNA" "yeeE" ["yeeE", "b2013", "ECK2007"] "mRNA" [] "EG11895" ["EG11895-MONOMER"] null [] +"EG11896_RNA" "plaP" ["plaP", "yeeF", "b2014", "ECK2008"] "mRNA" [] "EG11896" ["YEEF-MONOMER"] null [] +"EG11897_RNA" "rpoE" ["rpoE", "sigE", "b2573", "ECK2571"] "mRNA" [] "EG11897" ["RPOE-MONOMER"] null [] +"EG11899_RNA" "recT" ["recT", "b1349", "ECK1346"] "mRNA" [] "EG11899" ["EG11899-MONOMER"] null [] +"EG11900_RNA" "ralR" ["ralR", "ydaB", "lar", "b1348", "ECK1345"] "mRNA" [] "EG11900" ["EG11900-MONOMER"] null [] +"EG11901_RNA" "rcbA" ["rcbA", "ydaC", "b1347", "ECK1344"] "mRNA" [] "EG11901" ["EG11901-MONOMER"] null [] +"EG11902_RNA" "yijE" ["yijE", "b3943", "ECK3935"] "mRNA" [] "EG11902" ["EG11902-MONOMER"] null [] +"EG11903_RNA" "yijF" ["yijF", "b3944", "ECK3936"] "mRNA" [] "EG11903" ["EG11903-MONOMER"] null [] +"EG11904_RNA" "gldA" ["gldA", "b3945", "ECK3937"] "mRNA" [] "EG11904" ["GLYCDEH-MONOMER"] null [] +"EG11905_RNA" "fsaB" ["fsaB", "yijG", "talC", "b3946", "ECK3938"] "mRNA" [] "EG11905" ["EG11905-MONOMER"] null [] +"EG11906_RNA" "ptsA" ["ptsA", "yijH", "frwA", "pt1A", "b3947", "ECK3939"] "mRNA" [] "EG11906" ["EG11906-MONOMER"] null [] +"EG11908_RNA" "frwC" ["frwC", "yijJ", "b3949", "ECK3940"] "mRNA" [] "EG11908" ["FRWC-MONOMER"] null [] +"EG11909_RNA" "frwB" ["frwB", "yijK", "b3950", "ECK3941"] "mRNA" [] "EG11909" ["FRWB-MONOMER"] null [] +"EG11910_RNA" "pflD" ["pflD", "yijL", "b3951", "ECK3942"] "mRNA" [] "EG11910" ["EG11910-MONOMER"] null [] +"EG11911_RNA" "pflC" ["pflC", "yijM", "b3952", "ECK3943"] "mRNA" [] "EG11911" ["EG11911-MONOMER"] null [] +"EG11912_RNA" "frwD" ["frwD", "yijN", "b3953", "ECK3944"] "mRNA" [] "EG11912" ["EG11912-MONOMER"] null [] +"EG11913_RNA" "yijO" ["yijO", "b3954", "ECK3945"] "mRNA" [] "EG11913" ["EG11913-MONOMER"] null [] +"EG11914_RNA" "eptC" ["eptC", "yijP", "b3955", "ECK3946"] "mRNA" [] "EG11914" ["EG11914-MONOMER"] null [] +"EG11915_RNA" "nfi" ["nfi", "yjaF", "b3998", "ECK3990"] "mRNA" [] "EG11915" ["EG11915-MONOMER"] null [] +"EG11916_RNA" "yjaG" ["yjaG", "b3999", "ECK3991"] "mRNA" [] "EG11916" ["EG11916-MONOMER"] null [] +"EG11917_RNA" "yjaH" ["yjaH", "b4001", "ECK3993"] "mRNA" [] "EG11917" ["EG11917-MONOMER"] null [] +"EG11918_RNA" "zraP" ["zraP", "yjaI", "zra", "b4002", "ECK3994"] "mRNA" [] "EG11918" ["EG11918-MONOMER"] null [] +"EG11919_RNA" "yjbB" ["yjbB", "b4020", "ECK4012"] "mRNA" [] "EG11919" ["EG11919-MONOMER"] null [] +"EG11920_RNA" "pepE" ["pepE", "b4021", "ECK4013"] "mRNA" [] "EG11920" ["EG11920-MONOMER"] null [] +"EG11921_RNA" "rluF" ["rluF", "yjbC", "b4022", "ECK4014"] "mRNA" [] "EG11921" ["EG11921-MONOMER"] null [] +"EG11922_RNA" "yjbD" ["yjbD", "b4023", "ECK4015"] "mRNA" [] "EG11922" ["EG11922-MONOMER"] null [] +"EG11923_RNA" "yjbE" ["yjbE", "b4026", "ECK4018"] "mRNA" [] "EG11923" ["EG11923-MONOMER"] null [] +"EG11924_RNA" "yjbF" ["yjbF", "b4027", "ECK4019"] "mRNA" [] "EG11924" ["EG11924-MONOMER"] null [] +"EG11925_RNA" "yjbG" ["yjbG", "b4028", "ECK4020"] "mRNA" [] "EG11925" ["EG11925-MONOMER"] null [] +"EG11926_RNA" "yjbH" ["yjbH", "b4029", "ECK4021"] "mRNA" [] "EG11926" ["EG11926-MONOMER"] null [] +"EG11927_RNA" "yjbI" ["yjbI", "b4038", "ECK4030"] "pseudo" [] "EG11927" ["EG11927-MONOMER"] null [] +"EG11928_RNA" "yjbJ" ["yjbJ", "b4045", "ECK4037"] "mRNA" [] "EG11928" ["EG11928-MONOMER"] null [] +"EG11929_RNA" "zur" ["zur", "yjbK", "znuR", "b4046", "ECK4038"] "mRNA" [] "EG11929" ["EG11929-MONOMER"] null [] +"EG11930_RNA" "yjbL" ["yjbL", "b4047", "ECK4039"] "mRNA" [] "EG11930" ["EG11930-MONOMER"] null [] +"EG11931_RNA" "yjbM" ["yjbM", "b4048", "ECK4040"] "mRNA" [] "EG11931" ["EG11931-MONOMER"] null [] +"EG11932_RNA" "dusA" ["dusA", "yjbN", "b4049", "ECK4041"] "mRNA" [] "EG11932" ["EG11932-MONOMER"] null [] +"EG11933_RNA" "pspG" ["pspG", "yjbO", "b4050", "ECK4042"] "mRNA" [] "EG11933" ["EG11933-MONOMER"] null [] +"EG11934_RNA" "aphA" ["aphA", "yjbP", "hobH", "b4055", "ECK4047"] "mRNA" [] "EG11934" ["APHA-MONOMER"] null [] +"EG11935_RNA" "yjbQ" ["yjbQ", "b4056", "ECK4048"] "mRNA" [] "EG11935" ["EG11935-MONOMER"] null [] +"EG11936_RNA" "yjbR" ["yjbR", "b4057", "ECK4049"] "mRNA" [] "EG11936" ["EG11936-MONOMER"] null [] +"EG11937_RNA" "yjcB" ["yjcB", "b4060", "ECK4052"] "mRNA" [] "EG11937" ["EG11937-MONOMER"] null [] +"EG11938_RNA" "pdeC" ["pdeC", "yjcC", "b4061", "ECK4053"] "mRNA" [] "EG11938" ["EG11938-MONOMER"] null [] +"EG11939_RNA" "ghxP" ["ghxP", "yjcD", "b4064", "ECK4057"] "mRNA" [] "EG11939" ["EG11939-MONOMER"] null [] +"EG11940_RNA" "yjcE" ["yjcE", "b4065", "ECK4058"] "mRNA" [] "EG11940" ["YJCE-MONOMER"] null [] +"EG11941_RNA" "yjcF" ["yjcF", "b4066", "ECK4059"] "mRNA" [] "EG11941" ["EG11941-MONOMER"] null [] +"EG11942_RNA" "actP" ["actP", "yjcG", "b4067", "ECK4060"] "mRNA" [] "EG11942" ["YJCG-MONOMER"] null [] +"EG11943_RNA" "yjcH" ["yjcH", "b4068", "ECK4061"] "mRNA" [] "EG11943" ["YJCH-MONOMER"] null [] +"EG11945_RNA" "nrfB" ["nrfB", "yjcI", "b4071", "ECK4064"] "mRNA" [] "EG11945" ["CYTOCHROMEC-MONOMER"] null [] +"EG11946_RNA" "nrfC" ["nrfC", "yjcJ", "b4072", "ECK4065"] "mRNA" [] "EG11946" ["NRFC-MONOMER"] null [] +"EG11947_RNA" "nrfD" ["nrfD", "yjcK", "b4073", "ECK4066"] "mRNA" [] "EG11947" ["NRFD-MONOMER"] null [] +"EG11948_RNA" "nrfE" ["nrfE", "yjcL", "b4074", "ECK4067"] "mRNA" [] "EG11948" ["EG11948-MONOMER"] null [] +"EG11949_RNA" "nrfF" ["nrfF", "yjcM", "b4075", "ECK4068"] "mRNA" [] "EG11949" ["EG11949-MONOMER"] null [] +"EG11950_RNA" "nrfG" ["nrfG", "yjcN", "aidC", "b4076", "ECK4069"] "mRNA" [] "EG11950" ["EG11950-MONOMER"] null [] +"EG11951_RNA" "yjcO" ["yjcO", "b4078", "ECK4071"] "mRNA" [] "EG11951" ["EG11951-MONOMER"] null [] +"EG11952_RNA" "mdtP" ["mdtP", "yjcP", "sdsP", "b4080", "ECK4073"] "mRNA" [] "EG11952" ["EG11952-MONOMER"] null [] +"EG11953_RNA" "mdtO" ["mdtO", "yjcQ", "sdsQ", "b4081", "ECK4074"] "mRNA" [] "EG11953" ["YJCQ-MONOMER"] null [] +"EG11954_RNA" "mdtN" ["mdtN", "yjcR", "sdsR", "b4082", "ECK4075"] "mRNA" [] "EG11954" ["EG11954-MONOMER"] null [] +"EG11955_RNA" "yjcS" ["yjcS", "b4083", "ECK4076"] "mRNA" [] "EG11955" ["EG11955-MONOMER"] null [] +"EG11956_RNA" "alsK" ["alsK", "yjcT", "b4084", "ECK4077"] "mRNA" [] "EG11956" ["EG11956-MONOMER"] null [] +"EG11957_RNA" "alsE" ["alsE", "yjcU", "b4085", "ECK4078"] "mRNA" [] "EG11957" ["EG11957-MONOMER"] null [] +"EG11958_RNA" "alsC" ["alsC", "yjcV", "b4086", "ECK4079"] "mRNA" [] "EG11958" ["YJCV-MONOMER"] null [] +"EG11959_RNA" "alsA" ["alsA", "yjcW", "b4087", "ECK4080"] "mRNA" [] "EG11959" ["YJCW-MONOMER"] null [] +"EG11961_RNA" "lldP" ["lldP", "lct", "lctP", "b3603", "ECK3593"] "mRNA" [] "EG11961" ["LCTP-MONOMER"] null [] +"EG11962_RNA" "lldR" ["lldR", "lct", "lctR", "b3604", "ECK3594"] "mRNA" [] "EG11962" ["EG11962-MONOMER"] null [] +"EG11963_RNA" "lldD" ["lldD", "lct", "lctD", "b3605", "ECK3595"] "mRNA" [] "EG11963" ["L-LACTDEHYDROGFMN-MONOMER"] null [] +"EG11964_RNA" "yibL" ["yibL", "b3602", "ECK3592"] "mRNA" [] "EG11964" ["EG11964-MONOMER"] null [] +"EG11965_RNA" "mtlR" ["mtlR", "b3601", "ECK3590"] "mRNA" [] "EG11965" ["PD00369"] null [] +"EG11966_RNA" "adiY" ["adiY", "b4116", "ECK4109"] "mRNA" [] "EG11966" ["EG11966-MONOMER"] null [] +"EG11967_RNA" "flgK" ["flgK", "flaS", "b1082", "ECK1067"] "mRNA" [] "EG11967" ["EG11967-MONOMER"] null [] +"EG11969_RNA" "zntR" ["zntR", "yhdM", "b3292", "ECK3279"] "mRNA" [] "EG11969" ["EG11969-MONOMER"] null [] +"EG11970_RNA" "yhdN" ["yhdN", "b3293", "ECK3280"] "mRNA" [] "EG11970" ["EG11970-MONOMER"] null [] +"EG11971_RNA" "nupC" ["nupC", "cru", "b2393", "ECK2388"] "mRNA" [] "EG11971" ["NUPC-MONOMER"] null [] +"EG11972_RNA" "htrE" ["htrE", "b0139", "ECK0138"] "mRNA" [] "EG11972" ["EG11972-MONOMER"] null [] +"EG11973_RNA" "yadV" ["yadV", "ecpD", "b0140", "ECK0139"] "mRNA" [] "EG11973" ["EG11973-MONOMER"] null [] +"EG11974_RNA" "fimI" ["fimI", "b4315", "ECK4306"] "mRNA" [] "EG11974" ["EG11974-MONOMER"] null [] +"EG11975_RNA" "fliP" ["fliP", "flaR", "b1948", "ECK1946"] "mRNA" [] "EG11975" ["EG11975-MONOMER"] null [] +"EG11976_RNA" "fliQ" ["fliQ", "flaQ", "b1949", "ECK1947"] "mRNA" [] "EG11976" ["EG11976-MONOMER"] null [] +"EG11977_RNA" "fliR" ["fliR", "flaP", "b1950", "ECK1948"] "mRNA" [] "EG11977" ["EG11977-MONOMER"] null [] +"EG11978_RNA" "rfbA" ["rfbA", "rmlA", "som", "b2039", "ECK2033"] "mRNA" [] "EG11978" ["DTDPGLUCOSEPP-MONOMER"] null [] +"EG11979_RNA" "rfbC" ["rfbC", "rfbD", "rmlC", "b2038", "ECK2032"] "mRNA" [] "EG11979" ["DTDPDEHYDRHAMEPIM-MONOMER"] null [] +"EG11980_RNA" "rfbX" ["rfbX", "wzx", "wzxB", "b2037", "ECK2031"] "mRNA" [] "EG11980" ["RFBX-MONOMER"] null [] +"EG11981_RNA" "glf" ["glf", "yefE", "b2036", "ECK2030"] "mRNA" [] "EG11981" ["GALPMUT-MONOMER"] null [] +"EG11982_RNA" "wbbH" ["wbbH", "yefF", "rfc", "b2035", "ECK2029"] "mRNA" [] "EG11982" ["EG11982-MONOMER"] null [] +"EG11983_RNA" "wbbI" ["wbbI", "yefG", "b2034", "ECK2028"] "mRNA" [] "EG11983" ["EG11983-MONOMER"] null [] +"EG11984_RNA" "wbbJ" ["wbbJ", "yefH", "b2033", "ECK2027"] "mRNA" [] "EG11984" ["EG11984-MONOMER"] null [] +"EG11985_RNA" "wbbK" ["wbbK", "yefI", "b2032", "ECK2026"] "mRNA" [] "EG11985" ["EG11985-MONOMER"] null [] +"EG11986_RNA" "wbbL" ["wbbL", "yefJ", "b2031", "b4540", "b4571", "ECK2025"] "pseudo" [] "EG11986" ["EG11986-MONOMER"] null [] +"EG11987_RNA" "yehA" ["yehA", "b2108", "ECK2101"] "mRNA" [] "EG11987" ["EG11987-MONOMER"] null [] +"EG11988_RNA" "yehB" ["yehB", "b2109", "ECK2102"] "mRNA" [] "EG11988" ["EG11988-MONOMER"] null [] +"EG11989_RNA" "yehC" ["yehC", "b2110", "ECK2103"] "mRNA" [] "EG11989" ["EG11989-MONOMER"] null [] +"EG11990_RNA" "yehD" ["yehD", "b2111", "ECK2104"] "mRNA" [] "EG11990" ["EG11990-MONOMER"] null [] +"EG11991_RNA" "yehE" ["yehE", "b2112", "ECK2105"] "mRNA" [] "EG11991" ["EG11991-MONOMER"] null [] +"EG11992_RNA" "yehF" ["yehF", "molR_1", "sosF", "dinO", "b2115", "ECK2108"] "mRNA" [] "EG11992" ["EG11992-MONOMER"] null [] +"EG11995_RNA" "yehI" ["yehI", "b2118", "ECK2109"] "mRNA" [] "EG11995" ["EG11995-MONOMER"] null [] +"EG11998_RNA" "yehL" ["yehL", "b2119", "ECK2111"] "mRNA" [] "EG11998" ["EG11998-MONOMER"] null [] +"EG11999_RNA" "yehM" ["yehM", "yehO", "yehN", "b2120", "ECK2112"] "mRNA" [] "EG11999" ["EG11999-MONOMER"] null [] +"EG12002_RNA" "yehP" ["yehP", "b2121", "ECK2113"] "mRNA" [] "EG12002" ["EG12002-MONOMER"] null [] +"EG12003_RNA" "yehQ" ["yehQ", "b2122", "ECK2114"] "mRNA" [] "EG12003" ["EG12003-MONOMER"] null [] +"EG12004_RNA" "yehR" ["yehR", "b2123", "ECK2115"] "mRNA" [] "EG12004" ["EG12004-MONOMER"] null [] +"EG12005_RNA" "yehS" ["yehS", "b2124", "ECK2116"] "mRNA" [] "EG12005" ["EG12005-MONOMER"] null [] +"EG12006_RNA" "btsR" ["btsR", "yehT", "b2125", "ECK2117"] "mRNA" [] "EG12006" ["EG12006-MONOMER"] null [] +"EG12007_RNA" "btsS" ["btsS", "yehU", "b2126", "ECK2118"] "mRNA" [] "EG12007" ["EG12007-MONOMER"] null [] +"EG12008_RNA" "mlrA" ["mlrA", "yehV", "b2127", "ECK2119"] "mRNA" [] "EG12008" ["EG12008-MONOMER"] null [] +"EG12009_RNA" "yehW" ["yehW", "b2128", "ECK2121"] "mRNA" [] "EG12009" ["YEHW-MONOMER"] null [] +"EG12010_RNA" "yehX" ["yehX", "b2129", "ECK2122"] "mRNA" [] "EG12010" ["YEHX-MONOMER"] null [] +"EG12011_RNA" "yehY" ["yehY", "b2130", "ECK2123"] "mRNA" [] "EG12011" ["YEHY-MONOMER"] null [] +"EG12012_RNA" "osmF" ["osmF", "yehZ", "b2131", "ECK2124"] "mRNA" [] "EG12012" ["YEHZ-MONOMER"] null [] +"EG12013_RNA" "bglX" ["bglX", "glh", "yohA", "b2132", "ECK2125"] "mRNA" [] "EG12013" ["EG12013-MONOMER"] null [] +"EG12015_RNA" "pbpG" ["pbpG", "yohB", "b2134", "ECK2127"] "mRNA" [] "EG12015" ["EG12015-MONOMER"] null [] +"EG12016_RNA" "yohC" ["yohC", "b2135", "ECK2128"] "mRNA" [] "EG12016" ["EG12016-MONOMER"] null [] +"EG12017_RNA" "yohD" ["yohD", "b2136", "ECK2129"] "mRNA" [] "EG12017" ["EG12017-MONOMER"] null [] +"EG12019_RNA" "yohF" ["yohF", "yohE", "b2137", "ECK2130"] "mRNA" [] "EG12019" ["EG12019-MONOMER"] null [] +"EG12020_RNA" "mdtQ" ["mdtQ", "yohH", "yohG", "b2138", "ECK2132", "b2139", "ECK2131"] "pseudo" [] "EG12020" ["EG12020-MONOMER"] null [] +"EG12022_RNA" "dusC" ["dusC", "yohI", "b2140", "ECK2133"] "mRNA" [] "EG12022" ["EG12022-MONOMER"] null [] +"EG12023_RNA" "yohJ" ["yohJ", "b2141", "ECK2134"] "mRNA" [] "EG12023" ["EG12023-MONOMER"] null [] +"EG12024_RNA" "yohK" ["yohK", "b2142", "ECK2135"] "mRNA" [] "EG12024" ["EG12024-MONOMER"] null [] +"EG12025_RNA" "sanA" ["sanA", "sfiXSt", "yeiF", "b2144", "ECK2137"] "mRNA" [] "EG12025" ["EG12025-MONOMER"] null [] +"EG12026_RNA" "yeiG" ["yeiG", "b2154", "ECK2147"] "mRNA" [] "EG12026" ["EG12026-MONOMER"] null [] +"EG12027_RNA" "yeiH" ["yeiH", "b2158", "ECK2151"] "mRNA" [] "EG12027" ["EG12027-MONOMER"] null [] +"EG12028_RNA" "yeiI" ["yeiI", "b2160", "ECK2153"] "mRNA" [] "EG12028" ["EG12028-MONOMER"] null [] +"EG12029_RNA" "nupX" ["nupX", "yeiJ", "b2161", "ECK2154"] "mRNA" [] "EG12029" ["YEIJ-MONOMER"] null [] +"EG12030_RNA" "rihB" ["rihB", "yeiK", "b2162", "ECK2155"] "mRNA" [] "EG12030" ["EG12030-MONOMER"] null [] +"EG12031_RNA" "yeiL" ["yeiL", "b2163", "ECK2156"] "mRNA" [] "EG12031" ["EG12031-MONOMER"] null [] +"EG12032_RNA" "psuT" ["psuT", "pscT", "yeiM", "b2164", "ECK2157"] "mRNA" [] "EG12032" ["YEIM-MONOMER"] null [] +"EG12033_RNA" "psuG" ["psuG", "yeiN", "pscG", "b2165", "ECK2158"] "mRNA" [] "EG12033" ["EG12033-MONOMER"] null [] +"EG12034_RNA" "setB" ["setB", "yeiO", "b2170", "ECK2163"] "mRNA" [] "EG12034" ["B2170-MONOMER"] null [] +"EG12035_RNA" "yeiP" ["yeiP", "b2171", "ECK2165"] "mRNA" [] "EG12035" ["EG12035-MONOMER"] null [] +"EG12036_RNA" "yeiQ" ["yeiQ", "b2172", "ECK2166"] "mRNA" [] "EG12036" ["EG12036-MONOMER"] null [] +"EG12037_RNA" "yejA" ["yejA", "b2177", "ECK2171"] "mRNA" [] "EG12037" ["YEJA-MONOMER"] null [] +"EG12038_RNA" "yejB" ["yejB", "b2178", "ECK2172"] "mRNA" [] "EG12038" ["YEJB-MONOMER"] null [] +"EG12040_RNA" "yejE" ["yejE", "b2179", "ECK2173"] "mRNA" [] "EG12040" ["YEJE-MONOMER"] null [] +"EG12041_RNA" "yejF" ["yejF", "b2180", "ECK2174"] "mRNA" [] "EG12041" ["YEJF-MONOMER"] null [] +"EG12042_RNA" "yejG" ["yejG", "b2181", "ECK2175"] "mRNA" [] "EG12042" ["EG12042-MONOMER"] null [] +"EG12043_RNA" "yejL" ["yejL", "b2187", "ECK2181"] "mRNA" [] "EG12043" ["EG12043-MONOMER"] null [] +"EG12044_RNA" "rsuA" ["rsuA", "yejD", "b2183", "ECK2177"] "mRNA" [] "EG12044" ["EG12044-MONOMER"] null [] +"EG12045_RNA" "radD" ["radD", "yejJ", "yejI", "yejH", "b2184", "ECK2178"] "mRNA" [] "EG12045" ["EG12045-MONOMER"] null [] +"EG12048_RNA" "yejK" ["yejK", "ndpA", "b2186", "ECK2180"] "mRNA" [] "EG12048" ["EG12048-MONOMER"] null [] +"EG12049_RNA" "lapC" ["lapC", "yejN", "pbgA", "yejM", "b2188", "ECK2182"] "mRNA" [] "EG12049" ["EG12049-MONOMER"] null [] +"EG12051_RNA" "yejO" ["yejO", "b2190", "ECK2184"] "pseudo" [] "EG12051" ["EG12051-MONOMER"] null [] +"EG12052_RNA" "ccmH" ["ccmH", "yejP", "b2194", "ECK2186"] "mRNA" [] "EG12052" ["EG12052-MONOMER"] null [] +"EG12053_RNA" "ccmG" ["ccmG", "yejQ", "dsbE", "b2195", "ECK2187"] "mRNA" [] "EG12053" ["EG12053-MONOMER"] null [] +"EG12054_RNA" "ccmF" ["ccmF", "yejR", "b2196", "ECK2188"] "mRNA" [] "EG12054" ["EG12054-MONOMER"] null [] +"EG12055_RNA" "ccmE" ["ccmE", "yejS", "b2197", "ECK2189"] "mRNA" [] "EG12055" ["CCME-MONOMER"] null [] +"EG12057_RNA" "ccmC" ["ccmC", "yejT", "yejU", "b2199", "ECK2191"] "mRNA" [] "EG12057" ["CCMC-MONOMER"] null [] +"EG12058_RNA" "ccmB" ["ccmB", "yejV", "b2200", "ECK2192"] "mRNA" [] "EG12058" ["CCMB-MONOMER"] null [] +"EG12059_RNA" "ccmA" ["ccmA", "yejW", "b2201", "ECK2193"] "mRNA" [] "EG12059" ["CCMA-MONOMER"] null [] +"EG12060_RNA" "napC" ["napC", "yejX", "b2202", "ECK2194"] "mRNA" [] "EG12060" ["NAPC-MONOMER"] null [] +"EG12061_RNA" "napB" ["napB", "yejY", "b2203", "ECK2195"] "mRNA" [] "EG12061" ["NAPB-MONOMER"] null [] +"EG12062_RNA" "napH" ["napH", "yejZ", "b2204", "ECK2196"] "mRNA" [] "EG12062" ["NAPH-MONOMER"] null [] +"EG12064_RNA" "napG" ["napG", "yojA", "yojB", "b2205", "ECK2197"] "mRNA" [] "EG12064" ["NAPG-MONOMER"] null [] +"EG12067_RNA" "napA" ["napA", "yojD", "yojC", "yojE", "b2206", "ECK2198"] "mRNA" [] "EG12067" ["NAPA-MONOMER"] null [] +"EG12068_RNA" "napF" ["napF", "yojG", "b2208", "ECK2200"] "mRNA" [] "EG12068" ["NAPF-MONOMER"] null [] +"EG12069_RNA" "mqo" ["mqo", "yojH", "b2210", "ECK2202"] "mRNA" [] "EG12069" ["EG12069-MONOMER"] null [] +"EG12070_RNA" "yojI" ["yojI", "yojJ", "b2211", "ECK2203"] "mRNA" [] "EG12070" ["YOJI-MONOMER"] null [] +"EG12073_RNA" "ftp" ["ftp", "yojK", "yojL", "apbE", "b2214", "ECK2206"] "mRNA" [] "EG12073" ["EG12073-MONOMER"] null [] +"EG12075_RNA" "nikA" ["nikA", "hydD", "hydC", "b3476", "ECK3460"] "mRNA" [] "EG12075" ["NIKA-MONOMER"] null [] +"EG12076_RNA" "nikB" ["nikB", "hydC", "hydD", "b3477", "ECK3461"] "mRNA" [] "EG12076" ["NIKB-MONOMER"] null [] +"EG12077_RNA" "nikC" ["nikC", "hydD", "hydC", "b3478", "ECK3462"] "mRNA" [] "EG12077" ["NIKC-MONOMER"] null [] +"EG12078_RNA" "nikD" ["nikD", "hydD", "hydC", "b3479", "ECK3463"] "mRNA" [] "EG12078" ["NIKD-MONOMER"] null [] +"EG12079_RNA" "nikE" ["nikE", "hydD", "hydC", "b3480", "ECK3464"] "mRNA" [] "EG12079" ["NIKE-MONOMER"] null [] +"EG12080_RNA" "recX" ["recX", "oraA", "b2698", "ECK2693"] "mRNA" [] "EG12080" ["EG12080-MONOMER"] null [] +"EG12081_RNA" "ppdA" ["ppdA", "b2826", "ECK2822"] "mRNA" [] "EG12081" ["EG12081-MONOMER"] null [] +"EG12082_RNA" "nuoA" ["nuoA", "b2288", "ECK2282"] "mRNA" [] "EG12082" ["NUOA-MONOMER"] null [] +"EG12083_RNA" "nuoB" ["nuoB", "b2287", "ECK2281"] "mRNA" [] "EG12083" ["NUOB-MONOMER"] null [] +"EG12084_RNA" "nuoC" ["nuoC", "nuoD", "b2286", "ECK2280"] "mRNA" [] "EG12084" ["NUOC-MONOMER"] null [] +"EG12086_RNA" "nuoE" ["nuoE", "b2285", "ECK2279"] "mRNA" [] "EG12086" ["NUOE-MONOMER"] null [] +"EG12087_RNA" "nuoG" ["nuoG", "b2283", "ECK2277"] "mRNA" [] "EG12087" ["NUOG-MONOMER"] null [] +"EG12088_RNA" "nuoH" ["nuoH", "b2282", "ECK2276"] "mRNA" [] "EG12088" ["NUOH-MONOMER"] null [] +"EG12089_RNA" "nuoI" ["nuoI", "b2281", "ECK2275"] "mRNA" [] "EG12089" ["NUOI-MONOMER"] null [] +"EG12090_RNA" "nuoJ" ["nuoJ", "b2280", "ECK2274"] "mRNA" [] "EG12090" ["NUOJ-MONOMER"] null [] +"EG12091_RNA" "nuoK" ["nuoK", "b2279", "ECK2273"] "mRNA" [] "EG12091" ["NUOK-MONOMER"] null [] +"EG12092_RNA" "nuoL" ["nuoL", "b2278", "ECK2272"] "mRNA" [] "EG12092" ["NUOL-MONOMER"] null [] +"EG12093_RNA" "nuoN" ["nuoN", "b2276", "ECK2270"] "mRNA" [] "EG12093" ["NUON-MONOMER"] null [] +"EG12094_RNA" "sgrR" ["sgrR", "yabN", "b0069", "ECK0070"] "mRNA" [] "EG12094" ["EG12094-MONOMER"] null [] +"EG12095_RNA" "secG" ["secG", "prlH", "b3175", "ECK3164"] "mRNA" [] "EG12095" ["SECG"] null [] +"EG12096_RNA" "chpB" ["chpB", "yjfE", "chpBK", "b4225", "ECK4221"] "mRNA" [] "EG12096" ["EG12096-MONOMER"] null [] +"EG12097_RNA" "pgeF" ["pgeF", "yfiH", "b2593", "ECK2591"] "mRNA" [] "EG12097" ["EG12097-MONOMER"] null [] +"EG12098_RNA" "rluD" ["rluD", "yfiI", "sfhB", "yfil", "b2594", "ECK2592"] "mRNA" [] "EG12098" ["EG12098-MONOMER"] null [] +"EG12099_RNA" "efp" ["efp", "b4147", "ECK4141"] "mRNA" [] "EG12099" ["EG12099-MONOMER"] null [] +"EG12100_RNA" "tktB" ["tktB", "b2465", "ECK2460"] "mRNA" [] "EG12100" ["TRANSKETOII-MONOMER"] null [] +"EG12101_RNA" "feoA" ["feoA", "b3408", "ECK3395"] "mRNA" [] "EG12101" ["EG12101-MONOMER"] null [] +"EG12102_RNA" "feoB" ["feoB", "b3409", "ECK3396"] "mRNA" [] "EG12102" ["FEOB-MONOMER"] null [] +"EG12104_RNA" "yeiR" ["yeiR", "b2173", "ECK2167"] "mRNA" [] "EG12104" ["EG12104-MONOMER"] null [] +"EG12105_RNA" "yeiE" ["yeiE", "b2157", "ECK2150"] "mRNA" [] "EG12105" ["EG12105-MONOMER"] null [] +"EG12106_RNA" "hofB" ["hofB", "hopB", "b0107", "ECK0106"] "mRNA" [] "EG12106" ["EG12106-MONOMER"] null [] +"EG12107_RNA" "ppdD" ["ppdD", "b0108", "ECK0107"] "mRNA" [] "EG12107" ["EG12107-MONOMER"] null [] +"EG12108_RNA" "norR" ["norR", "ygaA", "b2709", "ECK2704"] "mRNA" [] "EG12108" ["EG12108-MONOMER"] null [] +"EG12110_RNA" "ydcF" ["ydcF", "b1414", "ECK1407"] "mRNA" [] "EG12110" ["EG12110-MONOMER"] null [] +"EG12111_RNA" "nlpD" ["nlpD", "b2742", "ECK2737"] "mRNA" [] "EG12111" ["EG12111-MONOMER"] null [] +"EG12112_RNA" "alpA" ["alpA", "b2624", "ECK2620"] "mRNA" [] "EG12112" ["PD02850"] null [] +"EG12113_RNA" "hofQ" ["hofQ", "hopQ", "b3391", "ECK3378"] "mRNA" [] "EG12113" ["EG12113-MONOMER"] null [] +"EG12114_RNA" "prfC" ["prfC", "miaD", "tos", "b4375", "ECK4366"] "mRNA" [] "EG12114" ["EG12114-MONOMER"] null [] +"EG12115_RNA" "yjjG" ["yjjG", "b4374", "ECK4365"] "mRNA" [] "EG12115" ["EG12115-MONOMER"] null [] +"EG12116_RNA" "acrR" ["acrR", "ybaH", "b0464", "ECK0458"] "mRNA" [] "EG12116" ["EG12116-MONOMER"] null [] +"EG12117_RNA" "ompX" ["ompX", "ybiG", "ompP", "b0814", "ECK0803"] "mRNA" [] "EG12117" ["EG12117-MONOMER"] null [] +"EG12119_RNA" "ychJ" ["ychJ", "b1233", "ECK1228"] "mRNA" [] "EG12119" ["EG12119-MONOMER"] null [] +"EG12120_RNA" "rssA" ["rssA", "ychK", "b1234", "ECK1229"] "mRNA" [] "EG12120" ["EG12120-MONOMER"] null [] +"EG12121_RNA" "rssB" ["rssB", "ychL", "sprE", "hnr", "b1235", "ECK1230"] "mRNA" [] "EG12121" ["EG12121-MONOMER"] null [] +"EG12122_RNA" "yggI" ["yggI", "sprT", "b2944", "ECK2939"] "mRNA" [] "EG12122" ["EG12122-MONOMER"] null [] +"EG12123_RNA" "lrhA" ["lrhA", "genR", "b2289", "ECK2283"] "mRNA" [] "EG12123" ["EG12123-MONOMER"] null [] +"EG12124_RNA" "hisJ" ["hisJ", "b2309", "ECK2303"] "mRNA" [] "EG12124" ["HISJ-MONOMER"] null [] +"EG12125_RNA" "hisQ" ["hisQ", "b2308", "ECK2302"] "mRNA" [] "EG12125" ["HISQ-MONOMER"] null [] +"EG12127_RNA" "treB" ["treB", "b4240", "ECK4235"] "mRNA" [] "EG12127" ["TREB-MONOMER"] null [] +"EG12128_RNA" "lgt" ["lgt", "umpA", "b2828", "ECK2824"] "mRNA" [] "EG12128" ["EG12128-MONOMER"] null [] +"EG12129_RNA" "uraA" ["uraA", "b2497", "ECK2493"] "mRNA" [] "EG12129" ["URAA-MONOMER"] null [] +"EG12130_RNA" "hscA" ["hscA", "hsc", "b2526", "ECK2523"] "mRNA" [] "EG12130" ["EG12130-MONOMER"] null [] +"EG12131_RNA" "hscB" ["hscB", "yfhE", "b2527", "ECK2524"] "mRNA" [] "EG12131" ["EG12131-MONOMER"] null [] +"EG12132_RNA" "iscA" ["iscA", "yfhF", "b2528", "ECK2525"] "mRNA" [] "EG12132" ["EG12132-MONOMER"] null [] +"EG12133_RNA" "ucpA" ["ucpA", "yfeF", "b2426", "ECK2421"] "mRNA" [] "EG12133" ["EG12133-MONOMER"] null [] +"EG12134_RNA" "rhtA" ["rhtA", "ybiF", "b0813", "ECK0802"] "mRNA" [] "EG12134" ["EG12134-MONOMER"] null [] +"EG12136_RNA" "mdtD" ["mdtD", "yegB", "iceT", "b2077", "ECK2073"] "mRNA" [] "EG12136" ["B2077-MONOMER"] null [] +"EG12137_RNA" "nlpE" ["nlpE", "cutF", "b0192", "ECK0192"] "mRNA" [] "EG12137" ["EG12137-MONOMER"] null [] +"EG12138_RNA" "yaeF" ["yaeF", "yaeK", "b0193", "ECK0193"] "mRNA" [] "EG12138" ["EG12138-MONOMER"] null [] +"EG12139_RNA" "qseG" ["qseG", "yfhG", "b2555", "ECK2552"] "mRNA" [] "EG12139" ["EG12139-MONOMER"] null [] +"EG12140_RNA" "ydhB" ["ydhB", "b1659", "ECK1655"] "mRNA" [] "EG12140" ["EG12140-MONOMER"] null [] +"EG12141_RNA" "ydhC" ["ydhC", "b1660", "ECK1656"] "mRNA" [] "EG12141" ["YDHC-MONOMER"] null [] +"EG12142_RNA" "sdaC" ["sdaC", "dcrA", "b2796", "ECK2791"] "mRNA" [] "EG12142" ["SDAC-MONOMER"] null [] +"EG12143_RNA" "napD" ["napD", "yojF", "b2207", "ECK2199"] "mRNA" [] "EG12143" ["NAPD-MONOMER"] null [] +"EG12144_RNA" "pgm" ["pgm", "blu", "b0688", "ECK0676"] "mRNA" [] "EG12144" ["PHOSPHOGLUCMUT-MONOMER"] null [] +"EG12146_RNA" "rapZ" ["rapZ", "yhbJ", "b3205", "ECK3194"] "mRNA" [] "EG12146" ["EG12146-MONOMER"] null [] +"EG12147_RNA" "npr" ["npr", "yhbK", "ptsO", "rpoR", "b3206", "ECK3195"] "mRNA" [] "EG12147" ["EG12147-MONOMER"] null [] +"EG12148_RNA" "galP" ["galP", "Pgal", "b2943", "ECK2938"] "mRNA" [] "EG12148" ["GALP-MONOMER"] null [] +"EG12150_RNA" "cobS" ["cobS", "b1992", "ECK1987"] "mRNA" [] "EG12150" ["COBS-MONOMER"] null [] +"EG12151_RNA" "cobT" ["cobT", "b1991", "ECK1986"] "mRNA" [] "EG12151" ["DMBPPRIBOSYLTRANS-MONOMER"] null [] +"EG12152_RNA" "idnK" ["idnK", "gntV", "b4268", "ECK4261"] "mRNA" [] "EG12152" ["GLUCONOKINI-MONOMER"] null [] +"EG12153_RNA" "narU" ["narU", "yddF", "b1469", "ECK1463"] "mRNA" [] "EG12153" ["NARU-MONOMER"] null [] +"EG12154_RNA" "sieB" ["sieB", "b1353", "ECK1351"] "mRNA" [] "EG12154" ["EG12154-MONOMER"] null [] +"EG12155_RNA" "kilR" ["kilR", "ydaD", "kil", "b1352", "ECK1350"] "mRNA" [] "EG12155" ["EG12155-MONOMER"] null [] +"EG12158_RNA" "rdgC" ["rdgC", "yaiD", "b0393", "ECK0388"] "mRNA" [] "EG12158" ["EG12158-MONOMER"] null [] +"EG12159_RNA" "ppnP" ["ppnP", "yaiE", "b0391", "ECK0386"] "mRNA" [] "EG12159" ["EG12159-MONOMER"] null [] +"EG12161_RNA" "eaeH" ["eaeH", "b0297", "ECK0297"] "pseudo" [] "EG12161" ["EG12161-MONOMER"] null [] +"EG12162_RNA" "gatR" ["gatR", "b2090", "b2087", "b4498", "ECK2083"] "pseudo" [] "EG12162" ["PD00338"] null [] +"EG12163_RNA" "rsmB" ["rsmB", "yhdB", "rrmB", "fmu", "fmv", "sun", "b3289", "ECK3275"] "mRNA" [] "EG12163" ["EG12163-MONOMER"] null [] +"EG12164_RNA" "ytjC" ["ytjC", "gpmB", "b4395", "ECK4387"] "mRNA" [] "EG12164" ["PGAM2-MONOMER"] null [] +"EG12165_RNA" "mukF" ["mukF", "kicB", "b0922", "ECK0913"] "mRNA" [] "EG12165" ["EG12165-MONOMER"] null [] +"EG12166_RNA" "elyC" ["elyC", "ycbC", "b0920", "ECK0911"] "mRNA" [] "EG12166" ["EG12166-MONOMER"] null [] +"EG12167_RNA" "cmoM" ["cmoM", "ycbD", "smtA", "b0921", "ECK0912"] "mRNA" [] "EG12167" ["EG12167-MONOMER"] null [] +"EG12168_RNA" "brnQ" ["brnQ", "hrbA", "b0401", "ECK0395"] "mRNA" [] "EG12168" ["BRNQ-MONOMER"] null [] +"EG12169_RNA" "ccmD" ["ccmD", "yojM", "b2198", "ECK2190"] "mRNA" [] "EG12169" ["EG12169-MONOMER"] null [] +"EG12171_RNA" "yjjI" ["yjjI", "yjjH", "b4380", "ECK4372"] "mRNA" [] "EG12171" ["EG12171-MONOMER"] null [] +"EG12172_RNA" "hinT" ["hinT", "ycfF", "b1103", "ECK1089"] "mRNA" [] "EG12172" ["EG12172-MONOMER"] null [] +"EG12173_RNA" "gspM" ["gspM", "hopZ", "pshM", "b3334", "ECK3321"] "mRNA" [] "EG12173" ["EG12173-MONOMER"] null [] +"EG12176_RNA" "yjdC" ["yjdC", "cutA3", "b4135", "ECK4129"] "mRNA" [] "EG12176" ["EG12176-MONOMER"] null [] +"EG12177_RNA" "cutA" ["cutA", "cutA1", "b4137", "ECK4131"] "mRNA" [] "EG12177" ["EG12177-MONOMER"] null [] +"EG12178_RNA" "dsbD" ["dsbD", "htrI", "cutA2", "cycZ", "dipZ", "b4136", "ECK4130"] "mRNA" [] "EG12178" ["DSBD-MONOMER"] null [] +"EG12179_RNA" "cspE" ["cspE", "gicA", "msmC", "b0623", "ECK0616"] "mRNA" [] "EG12179" ["EG12179-MONOMER"] null [] +"EG12180_RNA" "pagP" ["pagP", "ybeG", "crcA", "b0622", "ECK0615"] "mRNA" [] "EG12180" ["EG12180-MONOMER"] null [] +"EG12181_RNA" "grxD" ["grxD", "ydhD", "b1654", "ECK1650"] "mRNA" [] "EG12181" ["EG12181-MONOMER"] null [] +"EG12182_RNA" "yajG" ["yajG", "b0434", "ECK0428"] "mRNA" [] "EG12182" ["EG12182-MONOMER"] null [] +"EG12183_RNA" "ampG" ["ampG", "b0433", "ECK0427"] "mRNA" [] "EG12183" ["AMPG-MONOMER"] null [] +"EG12188_RNA" "ptsP" ["ptsP", "ygdO", "ygdF", "b2829", "ECK2825"] "mRNA" [] "EG12188" ["EG12188-MONOMER"] null [] +"EG12189_RNA" "hemF" ["hemF", "popB", "sec", "b2436", "ECK2431"] "mRNA" [] "EG12189" ["COPROGENOXI-MONOMER"] null [] +"EG12190_RNA" "eutR" ["eutR", "yfeG", "b2437", "ECK2432"] "mRNA" [] "EG12190" ["EG12190-MONOMER"] null [] +"EG12191_RNA" "glnK" ["glnK", "ybaI", "b0450", "ECK0444"] "mRNA" [] "EG12191" ["PROTEIN-PII2"] null [] +"EG12192_RNA" "nadK" ["nadK", "yfjE", "yfjB", "b2615", "ECK2611"] "mRNA" [] "EG12192" ["MONOMER0-541"] null [] +"EG12193_RNA" "cbpA" ["cbpA", "b1000", "ECK0991"] "mRNA" [] "EG12193" ["EG12193-MONOMER"] null [] +"EG12194_RNA" "cbpM" ["cbpM", "yccD", "b0999", "ECK0990"] "mRNA" [] "EG12194" ["EG12194-MONOMER"] null [] +"EG12195_RNA" "torD" ["torD", "b0998", "ECK0989"] "mRNA" [] "EG12195" ["EG12195-MONOMER"] null [] +"EG12196_RNA" "yccE" ["yccE", "b1001", "ECK0992"] "mRNA" [] "EG12196" ["EG12196-MONOMER"] null [] +"EG12197_RNA" "seqA" ["seqA", "hsm-1", "b0687", "ECK0675"] "mRNA" [] "EG12197" ["EG12197-MONOMER"] null [] +"EG12198_RNA" "chbG" ["chbG", "celG", "ydjC", "b1733", "ECK1731"] "mRNA" [] "EG12198" ["EG12198-MONOMER"] null [] +"EG12200_RNA" "yegD" ["yegD", "b2069", "ECK2063"] "mRNA" [] "EG12200" ["EG12200-MONOMER"] null [] +"EG12201_RNA" "ygaC" ["ygaC", "b2671", "ECK2665"] "mRNA" [] "EG12201" ["EG12201-MONOMER"] null [] +"EG12202_RNA" "treR" ["treR", "b4241", "ECK4236"] "mRNA" [] "EG12202" ["EG12202-MONOMER"] null [] +"EG12203_RNA" "cspB" ["cspB", "b1557", "ECK1551"] "mRNA" [] "EG12203" ["EG12203-MONOMER"] null [] +"EG12204_RNA" "cspC" ["cspC", "msmB", "b1823", "ECK1821"] "mRNA" [] "EG12204" ["EG12204-MONOMER"] null [] +"EG12205_RNA" "cspF" ["cspF", "b1558", "ECK1552"] "mRNA" [] "EG12205" ["EG12205-MONOMER"] null [] +"EG12207_RNA" "rlmA" ["rlmA", "rrmA", "yebH", "b1822", "ECK1820"] "mRNA" [] "EG12207" ["EG12207-MONOMER"] null [] +"EG12208_RNA" "ybeM" ["ybeM", "ybeH", "b0626", "b0625", "ECK0619", "b4581", "ECK0618"] "pseudo" [] "EG12208" ["EG12208-MONOMER"] null [] +"EG12209_RNA" "crcB" ["crcB", "ybeI", "b0624", "ECK0617"] "mRNA" [] "EG12209" ["EG12209-MONOMER"] null [] +"EG12210_RNA" "waaF" ["waaF", "rfaF", "b3620", "ECK3610"] "mRNA" [] "EG12210" ["EG12210-MONOMER"] null [] +"EG12211_RNA" "panZ" ["panZ", "livL", "panM", "yhhK", "b3459", "ECK3443"] "mRNA" [] "EG12211" ["EG12211-MONOMER"] null [] +"EG12212_RNA" "yhhL" ["yhhL", "b3466", "ECK3450"] "mRNA" [] "EG12212" ["EG12212-MONOMER"] null [] +"EG12213_RNA" "yhhM" ["yhhM", "b3467", "ECK3451"] "mRNA" [] "EG12213" ["EG12213-MONOMER"] null [] +"EG12214_RNA" "yhhN" ["yhhN", "b3468", "ECK3452"] "mRNA" [] "EG12214" ["EG12214-MONOMER"] null [] +"EG12215_RNA" "zntA" ["zntA", "yhhO", "b3469", "ECK3453"] "mRNA" [] "EG12215" ["YHHO-MONOMER"] null [] +"EG12216_RNA" "tusA" ["tusA", "yhhP", "sirA", "b3470", "ECK3454"] "mRNA" [] "EG12216" ["EG12216-MONOMER"] null [] +"EG12217_RNA" "yhhQ" ["yhhQ", "b3471", "ECK3455"] "mRNA" [] "EG12217" ["EG12217-MONOMER"] null [] +"EG12219_RNA" "yhhS" ["yhhS", "b3473", "ECK3457"] "mRNA" [] "EG12219" ["YHHS-MONOMER"] null [] +"EG12220_RNA" "yhhT" ["yhhT", "b3474", "ECK3458"] "mRNA" [] "EG12220" ["EG12220-MONOMER"] null [] +"EG12221_RNA" "acpT" ["acpT", "yhhU", "b3475", "ECK3459"] "mRNA" [] "EG12221" ["EG12221-MONOMER"] null [] +"EG12223_RNA" "rbbA" ["rbbA", "yhiG", "yhiH", "b3486", "ECK3471"] "mRNA" [] "EG12223" ["YHIH-MONOMER"] null [] +"EG12224_RNA" "yhiI" ["yhiI", "b3487", "ECK3472"] "mRNA" [] "EG12224" ["EG12224-MONOMER"] null [] +"EG12225_RNA" "yhiJ" ["yhiJ", "b3488", "ECK3473"] "mRNA" [] "EG12225" ["EG12225-MONOMER"] null [] +"EG12227_RNA" "yhiL" ["yhiL", "b3490", "b3489", "ECK3474", "yhiK", "b4660", "ECK3475"] "pseudo" [] "EG12227" ["EG12227-MONOMER"] null [] +"EG12228_RNA" "yhiM" ["yhiM", "b3491", "ECK3476"] "mRNA" [] "EG12228" ["MONOMER0-2489"] null [] +"EG12229_RNA" "yhiN" ["yhiN", "b3492", "ECK3477"] "mRNA" [] "EG12229" ["EG12229-MONOMER"] null [] +"EG12230_RNA" "pitA" ["pitA", "pit", "b3493", "ECK3478"] "mRNA" [] "EG12230" ["PITA-MONOMER"] null [] +"EG12231_RNA" "uspB" ["uspB", "yhiO", "b3494", "ECK3479"] "mRNA" [] "EG12231" ["EG12231-MONOMER"] null [] +"EG12232_RNA" "dtpB" ["dtpB", "yhiP", "b3496", "ECK3481"] "mRNA" [] "EG12232" ["YHIP-MONOMER"] null [] +"EG12233_RNA" "rsmJ" ["rsmJ", "yhiQ", "b3497", "ECK3482"] "mRNA" [] "EG12233" ["EG12233-MONOMER"] null [] +"EG12234_RNA" "rlmJ" ["rlmJ", "yhiR", "b3499", "ECK3484"] "mRNA" [] "EG12234" ["EG12234-MONOMER"] null [] +"EG12235_RNA" "arsR" ["arsR", "arsE", "b3501", "ECK3486"] "mRNA" [] "EG12235" ["EG12235-MONOMER"] null [] +"EG12236_RNA" "arsB" ["arsB", "arsF", "b3502", "ECK3487"] "mRNA" [] "EG12236" ["ARSF-MONOMER"] null [] +"EG12237_RNA" "arsC" ["arsC", "arsG", "b3503", "ECK3488"] "mRNA" [] "EG12237" ["EG12237-MONOMER"] null [] +"EG12238_RNA" "yhiS" ["yhiS", "b3504", "ECK3489"] "pseudo" [] "EG12238" ["EG12238-MONOMER"] null [] +"EG12240_RNA" "mdtE" ["mdtE", "yhiU", "b3513", "ECK3497"] "mRNA" [] "EG12240" ["EG12240-MONOMER"] null [] +"EG12241_RNA" "mdtF" ["mdtF", "yhiV", "b3514", "ECK3498"] "mRNA" [] "EG12241" ["YHIV-MONOMER"] null [] +"EG12242_RNA" "gadW" ["gadW", "yhiW", "b3515", "ECK3499"] "mRNA" [] "EG12242" ["EG12242-MONOMER"] null [] +"EG12243_RNA" "gadX" ["gadX", "yhiX", "b3516", "ECK3501"] "mRNA" [] "EG12243" ["EG12243-MONOMER"] null [] +"EG12244_RNA" "ccp" ["ccp", "yhjA", "b3518", "ECK3503"] "mRNA" [] "EG12244" ["EG12244-MONOMER"] null [] +"EG12245_RNA" "treF" ["treF", "b3519", "ECK3504"] "mRNA" [] "EG12245" ["TREHALACYTO-MONOMER"] null [] +"EG12246_RNA" "yhjB" ["yhjB", "b3520", "ECK3505"] "mRNA" [] "EG12246" ["EG12246-MONOMER"] null [] +"EG12247_RNA" "rcdB" ["rcdB", "yhjC", "b3521", "ECK3506"] "mRNA" [] "EG12247" ["EG12247-MONOMER"] null [] +"EG12248_RNA" "yhjD" ["yhjD", "b3522", "ECK3507"] "mRNA" [] "EG12248" ["EG12248-MONOMER"] null [] +"EG12249_RNA" "yhjE" ["yhjE", "b3523", "ECK3508"] "mRNA" [] "EG12249" ["YHJE-MONOMER"] null [] +"EG12251_RNA" "yhjG" ["yhjG", "yhjF", "b3524", "ECK3509"] "mRNA" [] "EG12251" ["EG12251-MONOMER"] null [] +"EG12252_RNA" "pdeH" ["pdeH", "yhjH", "b3525", "ECK3510"] "mRNA" [] "EG12252" ["EG12252-MONOMER"] null [] +"EG12253_RNA" "kdgK" ["kdgK", "yhjI", "b3526", "ECK3511"] "mRNA" [] "EG12253" ["DEOXYGLUCONOKIN-MONOMER"] null [] +"EG12254_RNA" "yhjJ" ["yhjJ", "b3527", "ECK3512"] "mRNA" [] "EG12254" ["EG12254-MONOMER"] null [] +"EG12256_RNA" "pdeK" ["pdeK", "yhjK", "b3529", "ECK3514"] "mRNA" [] "EG12256" ["EG12256-MONOMER"] null [] +"EG12257_RNA" "bcsC" ["bcsC", "yhjL", "b3530", "ECK3515"] "mRNA" [] "EG12257" ["EG12257-MONOMER"] null [] +"EG12258_RNA" "bcsZ" ["bcsZ", "bcsC", "yhjM", "b3531", "ECK3516"] "mRNA" [] "EG12258" ["EG12258-MONOMER"] null [] +"EG12259_RNA" "bcsB" ["bcsB", "yhjN", "b3532", "ECK3517"] "mRNA" [] "EG12259" ["EG12259-MONOMER"] null [] +"EG12260_RNA" "bcsA" ["bcsA", "yhjP", "yhjO", "b3533", "ECK3518"] "mRNA" [] "EG12260" ["EG12260-MONOMER"] null [] +"EG12261_RNA" "bcsQ" ["bcsQ", "yhjQ", "b3534", "ECK3519"] "pseudo" [] "EG12261" ["EG12261-MONOMER"] null [] +"EG12262_RNA" "yhjR" ["yhjR", "bcsR", "b3535", "ECK3520"] "mRNA" [] "EG12262" ["EG12262-MONOMER"] null [] +"EG12263_RNA" "bcsE" ["bcsE", "yhjS", "b3536", "ECK3521"] "mRNA" [] "EG12263" ["EG12263-MONOMER"] null [] +"EG12264_RNA" "bcsF" ["bcsF", "yhjT", "b3537", "ECK3522"] "mRNA" [] "EG12264" ["EG12264-MONOMER"] null [] +"EG12265_RNA" "bcsG" ["bcsG", "yhjU", "b3538", "ECK3523"] "mRNA" [] "EG12265" ["EG12265-MONOMER"] null [] +"EG12266_RNA" "yhjV" ["yhjV", "b3539", "ECK3526"] "mRNA" [] "EG12266" ["YHJV-MONOMER"] null [] +"EG12267_RNA" "eptB" ["eptB", "yhjW", "b3546", "ECK3533"] "mRNA" [] "EG12267" ["EG12267-MONOMER"] null [] +"EG12268_RNA" "yhjX" ["yhjX", "b3547", "ECK3534"] "mRNA" [] "EG12268" ["YHJX-MONOMER"] null [] +"EG12269_RNA" "yhjY" ["yhjY", "b3548", "ECK3535"] "mRNA" [] "EG12269" ["EG12269-MONOMER"] null [] +"EG12270_RNA" "yiaC" ["yiaC", "b3550", "ECK3537"] "mRNA" [] "EG12270" ["EG12270-MONOMER"] null [] +"EG12271_RNA" "yiaD" ["yiaD", "b3552", "ECK3539"] "mRNA" [] "EG12271" ["EG12271-MONOMER"] null [] +"EG12272_RNA" "ghrB" ["ghrB", "tkrA", "yiaE", "b3553", "ECK3540"] "mRNA" [] "EG12272" ["MONOMER-43"] null [] +"EG12273_RNA" "yiaF" ["yiaF", "b3554", "ECK3541"] "mRNA" [] "EG12273" ["EG12273-MONOMER"] null [] +"EG12274_RNA" "wecH" ["wecH", "yiaH", "b3561", "ECK3550"] "mRNA" [] "EG12274" ["EG12274-MONOMER"] null [] +"EG12275_RNA" "xylG" ["xylG", "b3567", "ECK3556"] "mRNA" [] "EG12275" ["XYLG-MONOMER"] null [] +"EG12276_RNA" "xylH" ["xylH", "b3568", "ECK3557"] "mRNA" [] "EG12276" ["XYLH-MONOMER"] null [] +"EG12277_RNA" "ysaA" ["ysaA", "yiaI", "b3573", "ECK3562"] "mRNA" [] "EG12277" ["EG12277-MONOMER"] null [] +"EG12278_RNA" "plaR" ["plaR", "yiaJ", "b3574", "ECK3563"] "mRNA" [] "EG12278" ["EG12278-MONOMER"] null [] +"EG12279_RNA" "yiaK" ["yiaK", "b3575", "ECK3564"] "mRNA" [] "EG12279" ["EG12279-MONOMER"] null [] +"EG12280_RNA" "yiaL" ["yiaL", "b3576", "ECK3565"] "mRNA" [] "EG12280" ["EG12280-MONOMER"] null [] +"EG12281_RNA" "yiaM" ["yiaM", "b3577", "ECK3566"] "mRNA" [] "EG12281" ["MONOMER0-422"] null [] +"EG12282_RNA" "yiaN" ["yiaN", "b3578", "ECK3567"] "mRNA" [] "EG12282" ["EG12282-MONOMER"] null [] +"EG12283_RNA" "yiaO" ["yiaO", "b3579", "ECK3568"] "mRNA" [] "EG12283" ["EG12283-MONOMER"] null [] +"EG12284_RNA" "lyxK" ["lyxK", "lyx", "xylK", "sgbK", "yiaP", "b3580", "ECK3569"] "mRNA" [] "EG12284" ["LYXK-MONOMER"] null [] +"EG12285_RNA" "sgbH" ["sgbH", "yiaQ", "b3581", "ECK3570"] "mRNA" [] "EG12285" ["EG12285-MONOMER"] null [] +"EG12286_RNA" "sgbU" ["sgbU", "yiaR", "b3582", "ECK3571"] "mRNA" [] "EG12286" ["EG12286-MONOMER"] null [] +"EG12287_RNA" "sgbE" ["sgbE", "yiaS", "b3583", "ECK3572"] "mRNA" [] "EG12287" ["EG12287-MONOMER"] null [] +"EG12288_RNA" "yiaT" ["yiaT", "b3584", "ECK3573"] "mRNA" [] "EG12288" ["EG12288-MONOMER"] null [] +"EG12289_RNA" "yiaU" ["yiaU", "b3585", "ECK3574"] "mRNA" [] "EG12289" ["EG12289-MONOMER"] null [] +"EG12290_RNA" "yiaV" ["yiaV", "b3586", "ECK3575"] "mRNA" [] "EG12290" ["EG12290-MONOMER"] null [] +"EG12291_RNA" "yiaW" ["yiaW", "b3587", "ECK3576"] "mRNA" [] "EG12291" ["EG12291-MONOMER"] null [] +"EG12292_RNA" "aldB" ["aldB", "yiaX", "b3588", "ECK3577"] "mRNA" [] "EG12292" ["ALDDEHYDROGB-MONOMER"] null [] +"EG12293_RNA" "yiaY" ["yiaY", "b3589", "ECK3578"] "mRNA" [] "EG12293" ["EG12293-MONOMER"] null [] +"EG12294_RNA" "grxC" ["grxC", "yibM", "b3610", "ECK3600"] "mRNA" [] "EG12294" ["GRXC-MONOMER"] null [] +"EG12295_RNA" "yibN" ["yibN", "b3611", "ECK3601"] "mRNA" [] "EG12295" ["EG12295-MONOMER"] null [] +"EG12296_RNA" "gpmM" ["gpmM", "gpmC", "pgmI", "gpmI", "yibO", "b3612", "ECK3602"] "mRNA" [] "EG12296" ["PGMI-MONOMER"] null [] +"EG12297_RNA" "envC" ["envC", "yibP", "slm11", "b3613", "ECK3603"] "mRNA" [] "EG12297" ["EG12297-MONOMER"] null [] +"EG12298_RNA" "yibQ" ["yibQ", "b3614", "ECK3604"] "mRNA" [] "EG12298" ["EG12298-MONOMER"] null [] +"EG12301_RNA" "rutR" ["rutR", "ycdC", "b1013", "ECK1004"] "mRNA" [] "EG12301" ["PD01352"] null [] +"EG12302_RNA" "tmk" ["tmk", "ycfG", "b1098", "ECK1084"] "mRNA" [] "EG12302" ["DTMPKI-MONOMER"] null [] +"EG12303_RNA" "ycfH" ["ycfH", "b1100", "ECK1086"] "mRNA" [] "EG12303" ["EG12303-MONOMER"] null [] +"EG12304_RNA" "sapD" ["sapD", "trkE", "b1291", "ECK1286"] "mRNA" [] "EG12304" ["SAPD-MONOMER"] null [] +"EG12305_RNA" "sapF" ["sapF", "b1290", "ECK1285"] "mRNA" [] "EG12305" ["SAPF-MONOMER"] null [] +"EG12308_RNA" "yfhH" ["yfhH", "b2561", "ECK2559"] "mRNA" [] "EG12308" ["EG12308-MONOMER"] null [] +"EG12309_RNA" "yjtD" ["yjtD", "lasT", "b4403", "ECK4395"] "mRNA" [] "EG12309" ["EG12309-MONOMER"] null [] +"EG12310_RNA" "pepB" ["pepB", "yfhI", "b2523", "ECK2520"] "mRNA" [] "EG12310" ["EG12310-MONOMER"] null [] +"EG12311_RNA" "iscX" ["iscX", "yfhJ", "b2524", "ECK2521"] "mRNA" [] "EG12311" ["EG12311-MONOMER"] null [] +"EG12312_RNA" "coaE" ["coaE", "yacE", "b0103", "ECK0103"] "mRNA" [] "EG12312" ["EG12312-MONOMER"] null [] +"EG12313_RNA" "zapD" ["zapD", "yacF", "b0102", "ECK0102"] "mRNA" [] "EG12313" ["EG12313-MONOMER"] null [] +"EG12314_RNA" "yacG" ["yacG", "b0101", "ECK0101"] "mRNA" [] "EG12314" ["EG12314-MONOMER"] null [] +"EG12315_RNA" "yacH" ["yacH", "b0117", "ECK0116"] "mRNA" [] "EG12315" ["EG12315-MONOMER"] null [] +"EG12316_RNA" "acnB" ["acnB", "yacJ", "yacI", "b0118", "ECK0117"] "mRNA" [] "EG12316" ["ACONITATEDEHYDRB-MONOMER"] null [] +"EG12318_RNA" "cueO" ["cueO", "yacK", "b0123", "ECK0122"] "mRNA" [] "EG12318" ["EG12318-MONOMER"] null [] +"EG12319_RNA" "can" ["can", "yadF", "b0126", "ECK0125"] "mRNA" [] "EG12319" ["EG12319-MONOMER"] null [] +"EG12320_RNA" "yadG" ["yadG", "b0127", "ECK0126"] "mRNA" [] "EG12320" ["YADG-MONOMER"] null [] +"EG12321_RNA" "yadH" ["yadH", "b0128", "ECK0127"] "mRNA" [] "EG12321" ["YADH-MONOMER"] null [] +"EG12322_RNA" "yadI" ["yadI", "agaX", "b0129", "ECK0128"] "mRNA" [] "EG12322" ["AGAX-MONOMER"] null [] +"EG12323_RNA" "rpnE" ["rpnE", "yfaD", "b2244", "ECK2236"] "mRNA" [] "EG12323" ["EG12323-MONOMER"] null [] +"EG12325_RNA" "yadK" ["yadK", "b0136", "ECK0135"] "mRNA" [] "EG12325" ["EG12325-MONOMER"] null [] +"EG12326_RNA" "yadL" ["yadL", "b0137", "ECK0136"] "mRNA" [] "EG12326" ["EG12326-MONOMER"] null [] +"EG12327_RNA" "yadM" ["yadM", "b0138", "ECK0137"] "mRNA" [] "EG12327" ["EG12327-MONOMER"] null [] +"EG12328_RNA" "yadN" ["yadN", "b0141", "ECK0140"] "mRNA" [] "EG12328" ["EG12328-MONOMER"] null [] +"EG12329_RNA" "hrpB" ["hrpB", "yadO", "b0148", "ECK0147"] "mRNA" [] "EG12329" ["EG12329-MONOMER"] null [] +"EG12330_RNA" "thpR" ["thpR", "yadP", "ligT", "b0147", "ECK0146"] "mRNA" [] "EG12330" ["EG12330-MONOMER"] null [] +"EG12331_RNA" "clcA" ["clcA", "eriC", "yadQ", "b0155", "ECK0154"] "mRNA" [] "EG12331" ["YADQ-MONOMER"] null [] +"EG12332_RNA" "erpA" ["erpA", "yadR", "b0156", "ECK0155"] "mRNA" [] "EG12332" ["EG12332-MONOMER"] null [] +"EG12333_RNA" "yadS" ["yadS", "b0157", "ECK0156"] "mRNA" [] "EG12333" ["EG12333-MONOMER"] null [] +"EG12334_RNA" "btuF" ["btuF", "yadT", "b0158", "ECK0157"] "mRNA" [] "EG12334" ["EG12334-MONOMER"] null [] +"EG12335_RNA" "cdaR" ["cdaR", "sdaR", "yaeG", "b0162", "ECK0161"] "mRNA" [] "EG12335" ["EG12335-MONOMER"] null [] +"EG12336_RNA" "yaeH" ["yaeH", "b0163", "ECK0162"] "mRNA" [] "EG12336" ["EG12336-MONOMER"] null [] +"EG12337_RNA" "yaeI" ["yaeI", "b0164", "ECK0163"] "mRNA" [] "EG12337" ["EG12337-MONOMER"] null [] +"EG12338_RNA" "yagA" ["yagA", "b0267", "ECK0268"] "mRNA" [] "EG12338" ["EG12338-MONOMER"] null [] +"EG12339_RNA" "yagB" ["yagB", "b0266", "ECK0267"] "mRNA" [] "EG12339" ["EG12339-MONOMER"] null [] +"EG12340_RNA" "afuC" ["afuC", "fbpC", "yagC", "b0262", "ECK0264"] "mRNA" [] "EG12340" ["YAGC-MONOMER"] null [] +"EG12341_RNA" "rseA" ["rseA", "yfiJ", "mclA", "b2572", "ECK2570"] "mRNA" [] "EG12341" ["EG12341-MONOMER"] null [] +"EG12342_RNA" "yjjJ" ["yjjJ", "b4385", "ECK4377"] "mRNA" [] "EG12342" ["EG12342-MONOMER"] null [] +"EG12343_RNA" "ettA" ["ettA", "yjjK", "b4391", "ECK4383"] "mRNA" [] "EG12343" ["YJJK-MONOMER"] null [] +"EG12344_RNA" "pspF" ["pspF", "ycjB", "b1303", "ECK1298"] "mRNA" [] "EG12344" ["EG12344-MONOMER"] null [] +"EG12345_RNA" "ydfG" ["ydfG", "b1539", "ECK1532"] "mRNA" [] "EG12345" ["EG12345-MONOMER"] null [] +"EG12347_RNA" "tcyN" ["tcyN", "yecC", "b1917", "ECK1916"] "mRNA" [] "EG12347" ["EG12347-MONOMER"] null [] +"EG12352_RNA" "ppiC" ["ppiC", "parvA", "b3775", "ECK3767"] "mRNA" [] "EG12352" ["EG12352-MONOMER"] null [] +"EG12354_RNA" "arfB" ["arfB", "yaeJ", "b0191", "ECK0191"] "mRNA" [] "EG12354" ["EG12354-MONOMER"] null [] +"EG12356_RNA" "rtcR" ["rtcR", "yhgB", "b3422", "ECK3408"] "mRNA" [] "EG12356" ["EG12356-MONOMER"] null [] +"EG12357_RNA" "fadK" ["fadK", "ydiD", "b1701", "ECK1699"] "mRNA" [] "EG12357" ["EG12357-MONOMER"] null [] +"EG12358_RNA" "ssuB" ["ssuB", "ycbE", "b0933", "ECK0924"] "mRNA" [] "EG12358" ["YCBE-MONOMER"] null [] +"EG12359_RNA" "ybgD" ["ybgD", "b0719", "ECK0708"] "mRNA" [] "EG12359" ["EG12359-MONOMER"] null [] +"EG12360_RNA" "yfaE" ["yfaE", "b2236", "ECK2228"] "mRNA" [] "EG12360" ["EG12360-MONOMER"] null [] +"EG12361_RNA" "kduD" ["kduD", "yqeD", "ygeC", "b2842", "ECK2840"] "mRNA" [] "EG12361" ["KDUD-MONOMER"] null [] +"EG12362_RNA" "menF" ["menF", "yfbA", "b2265", "ECK2259"] "mRNA" [] "EG12362" ["MENF-MONOMER"] null [] +"EG12363_RNA" "ygiL" ["ygiL", "b3043", "ECK3034"] "mRNA" [] "EG12363" ["EG12363-MONOMER"] null [] +"EG12364_RNA" "intB" ["intB", "int(P4)", "yjgC", "b4271", "ECK4264"] "pseudo" [] "EG12364" ["EG12364-MONOMER"] null [] +"EG12365_RNA" "prkB" ["prkB", "yhfF", "b3355", "ECK3343"] "mRNA" [] "EG12365" ["EG12365-MONOMER"] null [] +"EG12366_RNA" "rsmE" ["rsmE", "yggJ", "b2946", "ECK2941"] "mRNA" [] "EG12366" ["EG12366-MONOMER"] null [] +"EG12367_RNA" "cusA" ["cusA", "ybdE", "b0575", "ECK0567"] "mRNA" [] "EG12367" ["YBDE-MONOMER"] null [] +"EG12368_RNA" "znuB" ["znuB", "yebI", "b1859", "ECK1860"] "mRNA" [] "EG12368" ["ZNUB-MONOMER"] null [] +"EG12369_RNA" "ydjE" ["ydjE", "b1769", "ECK1767"] "mRNA" [] "EG12369" ["YDJE-MONOMER"] null [] +"EG12370_RNA" "intE" ["intE", "int(Lambda)", "ycfI", "b1140", "ECK1126"] "mRNA" [] "EG12370" ["EG12370-MONOMER"] null [] +"EG12371_RNA" "nlpI" ["nlpI", "yhbM", "b3163", "ECK3151"] "mRNA" [] "EG12371" ["EG12371-MONOMER"] null [] +"EG12372_RNA" "ygdG" ["ygdG", "xni", "exo", "b2798", "ECK2793"] "mRNA" [] "EG12372" ["EG12372-MONOMER"] null [] +"EG12373_RNA" "ppnN" ["ppnN", "ygdH", "b2795", "ECK2790"] "mRNA" [] "EG12373" ["EG12373-MONOMER"] null [] +"EG12374_RNA" "yhfG" ["yhfG", "ficA", "b3362", "ECK3350"] "mRNA" [] "EG12374" ["EG12374-MONOMER"] null [] +"EG12375_RNA" "ycaI" ["ycaI", "b0913", "ECK0904"] "mRNA" [] "EG12375" ["EG12375-MONOMER"] null [] +"EG12376_RNA" "yfeH" ["yfeH", "b2410", "ECK2404"] "mRNA" [] "EG12376" ["EG12376-MONOMER"] null [] +"EG12378_RNA" "yecD" ["yecD", "b1867", "ECK1868"] "mRNA" [] "EG12378" ["EG12378-MONOMER"] null [] +"EG12379_RNA" "yecE" ["yecE", "b1868", "ECK1869"] "mRNA" [] "EG12379" ["EG12379-MONOMER"] null [] +"EG12380_RNA" "gntT" ["gntT", "gntTalpha", "yhgC", "gntM", "usgA", "b3415", "ECK3402"] "mRNA" [] "EG12380" ["GNTT-MONOMER"] null [] +"EG12381_RNA" "nrdF" ["nrdF", "ygaD", "b2676", "ECK2670"] "mRNA" [] "EG12381" ["NRDF-MONOMER"] null [] +"EG12384_RNA" "ybcF" ["ybcF", "arcC", "b0521", "ECK0514"] "mRNA" [] "EG12384" ["EG12384-MONOMER"] null [] +"EG12385_RNA" "rcsD" ["rcsD", "yojP", "yojQ", "yojN", "b2216", "ECK2209"] "mRNA" [] "EG12385" ["EG12385-MONOMER"] null [] +"EG12386_RNA" "glaR" ["glaR", "ygaE", "gabC", "csiR", "b2664", "ECK2658"] "mRNA" [] "EG12386" ["EG12386-MONOMER"] null [] +"EG12387_RNA" "lhgD" ["lhgD", "ygaF", "lhgO", "b2660", "ECK2654"] "mRNA" [] "EG12387" ["EG12387-MONOMER"] null [] +"EG12388_RNA" "sfmF" ["sfmF", "ybcG", "b0534", "ECK0527"] "mRNA" [] "EG12388" ["EG12388-MONOMER"] null [] +"EG12391_RNA" "ydiE" ["ydiE", "b1705", "ECK1703"] "mRNA" [] "EG12391" ["EG12391-MONOMER"] null [] +"EG12392_RNA" "dauA" ["dauA", "ychM", "b1206", "ECK1194"] "mRNA" [] "EG12392" ["YCHM-MONOMER"] null [] +"EG12393_RNA" "ttdT" ["ttdT", "ygjC", "ygjE", "b3063", "ECK3053"] "mRNA" [] "EG12393" ["YGJE-MONOMER"] null [] +"EG12394_RNA" "msrB" ["msrB", "yeaA", "b1778", "ECK1776"] "mRNA" [] "EG12394" ["EG12394-MONOMER"] null [] +"EG12395_RNA" "ybgE" ["ybgE", "b0735", "ECK0724"] "mRNA" [] "EG12395" ["EG12395-MONOMER"] null [] +"EG12396_RNA" "dgcE" ["dgcE", "yegE", "b2067", "ECK2061"] "mRNA" [] "EG12396" ["EG12396-MONOMER"] null [] +"EG12397_RNA" "ycbF" ["ycbF", "b0944", "ECK0935"] "mRNA" [] "EG12397" ["EG12397-MONOMER"] null [] +"EG12399_RNA" "dhaM" ["dhaM", "ycgC", "dhaH", "ptsD", "b1198", "ECK1186"] "mRNA" [] "EG12399" ["EG12399-MONOMER"] null [] +"EG12400_RNA" "mdtK" ["mdtK", "norE", "norM", "ydhE", "b1663", "ECK1659"] "mRNA" [] "EG12400" ["YDHE-MONOMER"] null [] +"EG12401_RNA" "rlmN" ["rlmN", "yfgB", "b2517", "ECK2513"] "mRNA" [] "EG12401" ["EG12401-MONOMER"] null [] +"EG12402_RNA" "chaB" ["chaB", "b1217", "ECK1211"] "mRNA" [] "EG12402" ["EG12402-MONOMER"] null [] +"EG12403_RNA" "chaC" ["chaC", "b1218", "ECK1212"] "mRNA" [] "EG12403" ["EG12403-MONOMER"] null [] +"EG12404_RNA" "ychN" ["ychN", "b1219", "ECK1213"] "mRNA" [] "EG12404" ["EG12404-MONOMER"] null [] +"EG12405_RNA" "ychO" ["ychO", "ychP", "b1220", "ECK1214"] "mRNA" [] "EG12405" ["EG12405-MONOMER"] null [] +"EG12406_RNA" "cecR" ["cecR", "ybiH", "b0796", "ECK0785"] "mRNA" [] "EG12406" ["EG12406-MONOMER"] null [] +"EG12407_RNA" "iaaA" ["iaaA", "spt", "ybiK", "b0828", "ECK0818"] "mRNA" [] "EG12407" ["EG12407-MONOMER"] null [] +"EG12409_RNA" "aegA" ["aegA", "yffG", "b2468", "ECK2463"] "mRNA" [] "EG12409" ["EG12409-MONOMER"] null [] +"EG12410_RNA" "nudK" ["nudK", "yffH", "b2467", "ECK2462"] "mRNA" [] "EG12410" ["EG12410-MONOMER"] null [] +"EG12411_RNA" "rfbD" ["rfbD", "rmlD", "b2040", "ECK2034"] "mRNA" [] "EG12411" ["DTDPDEHYRHAMREDUCT-MONOMER"] null [] +"EG12412_RNA" "rfbB" ["rfbB", "som", "rmlB", "b2041", "ECK2035"] "mRNA" [] "EG12412" ["DTDPGLUCDEHYDRAT-MONOMER"] null [] +"EG12414_RNA" "gatA" ["gatA", "b2094", "ECK2087"] "mRNA" [] "EG12414" ["GATA-MONOMER"] null [] +"EG12415_RNA" "gatB" ["gatB", "b2093", "ECK2086"] "mRNA" [] "EG12415" ["GATB-MONOMER"] null [] +"EG12416_RNA" "gatC" ["gatC", "b2092", "ECK2085"] "pseudo" [] "EG12416" ["GATC-MONOMER"] null [] +"EG12417_RNA" "gatD" ["gatD", "b2091", "ECK2084"] "mRNA" [] "EG12417" ["GALACTITOLPDEHYD-MONOMER"] null [] +"EG12419_RNA" "gatY" ["gatY", "yegF", "b2096", "ECK2089"] "mRNA" [] "EG12419" ["TAGAALDOL2-MONOMER"] null [] +"EG12421_RNA" "ybiI" ["ybiI", "b0803", "ECK0792"] "mRNA" [] "EG12421" ["EG12421-MONOMER"] null [] +"EG12422_RNA" "ybiJ" ["ybiJ", "b0802", "ECK0791"] "mRNA" [] "EG12422" ["EG12422-MONOMER"] null [] +"EG12423_RNA" "tauD" ["tauD", "ssiD", "yaiG", "b0368", "ECK0365"] "mRNA" [] "EG12423" ["MONOMER0-147"] null [] +"EG12424_RNA" "prmC" ["prmC", "hemK", "b1212", "ECK1200"] "mRNA" [] "EG12424" ["EG12424-MONOMER"] null [] +"EG12427_RNA" "modA" ["modA", "b0763", "ECK0752"] "mRNA" [] "EG12427" ["MODA-MONOMER"] null [] +"EG12428_RNA" "rhoL" ["rhoL", "b3782", "ECK3774"] "mRNA" [] "EG12428" ["EG12428-MONOMER"] null [] +"EG12429_RNA" "tomB" ["tomB", "ybaJ", "b0461", "ECK0455"] "mRNA" [] "EG12429" ["EG12429-MONOMER"] null [] +"EG12431_RNA" "puuR" ["puuR", "ycjC", "b1299", "ECK1294"] "mRNA" [] "EG12431" ["EG12431-MONOMER"] null [] +"EG12432_RNA" "ydiF" ["ydiF", "b1694", "ECK1692"] "mRNA" [] "EG12432" ["EG12432-MONOMER"] null [] +"EG12433_RNA" "rluB" ["rluB", "yciL", "b1269", "ECK1263"] "mRNA" [] "EG12433" ["EG12433-MONOMER"] null [] +"EG12434_RNA" "ygiM" ["ygiM", "ecfG", "htrG", "b3055", "ECK3045"] "mRNA" [] "EG12434" ["EG12434-MONOMER"] null [] +"EG12436_RNA" "rseP" ["rseP", "ecfE", "yaeL", "b0176", "ECK0175"] "mRNA" [] "EG12436" ["EG12436-MONOMER"] null [] +"EG12437_RNA" "menE" ["menE", "b2260", "ECK2254"] "mRNA" [] "EG12437" ["O-SUCCINYLBENZOATE-COA-LIG-MONOMER"] null [] +"EG12438_RNA" "menH" ["menH", "yfbB", "b2263", "ECK2257"] "mRNA" [] "EG12438" ["EG12438-MONOMER"] null [] +"EG12439_RNA" "yjfF" ["yjfF", "b4231", "ECK4226"] "mRNA" [] "EG12439" ["YJFF-MONOMER"] null [] +"EG12440_RNA" "mpl" ["mpl", "tpl", "yjfG", "b4233", "ECK4228"] "mRNA" [] "EG12440" ["EG12440-MONOMER"] null [] +"EG12442_RNA" "yfjD" ["yfjD", "b2612", "ypjE", "b2613", "b4461", "ECK2609"] "mRNA" [] "EG12442" ["G7356-MONOMER"] null [] +"EG12443_RNA" "yggL" ["yggL", "b2959", "ECK2954"] "mRNA" [] "EG12443" ["EG12443-MONOMER"] null [] +"EG12444_RNA" "ycfJ" ["ycfJ", "b1110", "ECK1096"] "mRNA" [] "EG12444" ["EG12444-MONOMER"] null [] +"EG12445_RNA" "eamB" ["eamB", "yfiK", "b2578", "ECK2576"] "mRNA" [] "EG12445" ["EG12445-MONOMER"] null [] +"EG12446_RNA" "yfiL" ["yfiL", "b2602", "ECK2599"] "mRNA" [] "EG12446" ["EG12446-MONOMER"] null [] +"EG12448_RNA" "ybcH" ["ybcH", "b0567", "ECK0559"] "mRNA" [] "EG12448" ["EG12448-MONOMER"] null [] +"EG12449_RNA" "prmB" ["prmB", "yfcB", "b2330", "ECK2324"] "mRNA" [] "EG12449" ["EG12449-MONOMER"] null [] +"EG12450_RNA" "norW" ["norW", "ygaL", "ygbD", "b2711", "ECK2706"] "mRNA" [] "EG12450" ["EG12450-MONOMER"] null [] +"EG12454_RNA" "ybaK" ["ybaK", "b0481", "ECK0475"] "mRNA" [] "EG12454" ["EG12454-MONOMER"] null [] +"EG12455_RNA" "lplT" ["lplT", "ygeD", "b2835", "ECK2831"] "mRNA" [] "EG12455" ["EG12455-MONOMER"] null [] +"EG12458_RNA" "alsB" ["alsB", "yjcX", "b4088", "ECK4081"] "mRNA" [] "EG12458" ["YJCX-MONOMER"] null [] +"EG12462_RNA" "adiC" ["adiC", "yjdD", "yjdE", "b4115", "ECK4108"] "mRNA" [] "EG12462" ["YJDE-MONOMER"] null [] +"EG12469_RNA" "dtpC" ["dtpC", "yjdL", "b4130", "ECK4124"] "mRNA" [] "EG12469" ["YJDL-MONOMER"] null [] +"EG12475_RNA" "yjeM" ["yjeM", "b4156", "ECK4152"] "mRNA" [] "EG12475" ["YJEM-MONOMER"] null [] +"EG12494_RNA" "ulaB" ["ulaB", "yjfT", "sgaB", "b4194", "ECK4190"] "mRNA" [] "EG12494" ["YJFT-MONOMER"] null [] +"EG12495_RNA" "ulaC" ["ulaC", "ptxA", "yjfU", "sgaA", "b4195", "ECK4191"] "mRNA" [] "EG12495" ["YJFU-MONOMER"] null [] +"EG12504_RNA" "cycA" ["cycA", "ytfD", "dagA", "b4208", "ECK4204"] "mRNA" [] "EG12504" ["CYCA-MONOMER"] null [] +"EG12517_RNA" "ytfQ" ["ytfQ", "b4227", "ECK4223"] "mRNA" [] "EG12517" ["YTFQ-MONOMER"] null [] +"EG12518_RNA" "ytfR" ["ytfR", "ytfS", "b4228", "b4229", "b4485", "ECK4224"] "mRNA" [] "EG12518" ["YTFR-MONOMER"] null [] +"EG12520_RNA" "ytfT" ["ytfT", "b4230", "ECK4225"] "mRNA" [] "EG12520" ["YTFT-MONOMER"] null [] +"EG12522_RNA" "garD" ["garD", "yhaG", "b3128", "ECK3116"] "mRNA" [] "EG12522" ["GALACTARDEHYDRA-MONOMER"] null [] +"EG12525_RNA" "mgtA" ["mgtA", "atmA", "corB", "mgt", "mtg", "b4242", "ECK4237"] "mRNA" [] "EG12525" ["MGTA-MONOMER"] null [] +"EG12539_RNA" "idnT" ["idnT", "gntW", "yjgT", "b4265", "ECK4258"] "mRNA" [] "EG12539" ["YJGT-MONOMER"] null [] +"EG12544_RNA" "nanX" ["nanX", "yjhB", "b4279", "ECK4269"] "mRNA" [] "EG12544" ["YJHB-MONOMER"] null [] +"EG12548_RNA" "yjhF" ["yjhF", "b4296", "ECK4285"] "mRNA" [] "EG12548" ["YJHF-MONOMER"] null [] +"EG12554_RNA" "sgcA" ["sgcA", "yjhL", "b4302", "ECK4291"] "mRNA" [] "EG12554" ["SGCA-MONOMER"] null [] +"EG12556_RNA" "sgcC" ["sgcC", "yjhN", "b4304", "ECK4293"] "mRNA" [] "EG12556" ["SGCC-MONOMER"] null [] +"EG12557_RNA" "sgcX" ["sgcX", "yjhO", "b4305", "ECK4295"] "mRNA" [] "EG12557" ["SGCB-MONOMER"] null [] +"EG12563_RNA" "gntP" ["gntP", "yjiB", "b4321", "ECK4312"] "mRNA" [] "EG12563" ["GNTP-MONOMER"] null [] +"EG12576_RNA" "mdtM" ["mdtM", "yjiO", "b4337", "ECK4328"] "mRNA" [] "EG12576" ["YJIO-MONOMER"] null [] +"EG12587_RNA" "lgoT" ["lgoT", "yjiZ", "yjjL", "b4356", "ECK4346"] "mRNA" [] "EG12587" ["YJIZ-MONOMER"] null [] +"EG12591_RNA" "opgB" ["opgB", "yjjO", "mdoB", "b4359", "ECK4349"] "mRNA" [] "EG12591" ["PGLYCEROLTRANSI-MONOMER"] null [] +"EG12600_RNA" "yjjX" ["yjjX", "b4394", "ECK4386"] "mRNA" [] "EG12600" ["EG12600-MONOMER"] null [] +"EG12605_RNA" "yacL" ["yacL", "b0119", "ECK0118"] "mRNA" [] "EG12605" ["EG12605-MONOMER"] null [] +"EG12606_RNA" "fabF" ["fabF", "vtr", "cvc", "fabJ", "vtrB", "b1095", "ECK1081"] "mRNA" [] "EG12606" ["3-OXOACYL-ACP-SYNTHII-MONOMER"] null [] +"EG12608_RNA" "caiE" ["caiE", "b0035", "ECK0036"] "mRNA" [] "EG12608" ["CAIE-MONOMER"] null [] +"EG12609_RNA" "rluA" ["rluA", "yabO", "b0058", "ECK0059"] "mRNA" [] "EG12609" ["EG12609-MONOMER"] null [] +"EG12610_RNA" "yabP" ["yabP", "b4659", "b0056", "ECK0057"] "mRNA" [] "EG12610" ["EG12610-MONOMER"] null [] +"EG12611_RNA" "yabQ" ["yabQ", "b4659", "b0057", "ECK0058"] "mRNA" [] "EG12611" ["EG12611-MONOMER"] null [] +"EG12615_RNA" "torR" ["torR", "b0995", "ECK0986"] "mRNA" [] "EG12615" ["TORR-MONOMER"] null [] +"EG12623_RNA" "ybaL" ["ybaL", "ylaA", "b0478", "ECK0472"] "mRNA" [] "EG12623" ["YBAL-MONOMER"] null [] +"EG12624_RNA" "yiaG" ["yiaG", "b3555", "ECK3542"] "mRNA" [] "EG12624" ["EG12624-MONOMER"] null [] +"EG12625_RNA" "dppB" ["dppB", "b3543", "ECK3530"] "mRNA" [] "EG12625" ["DPPB-MONOMER"] null [] +"EG12626_RNA" "dppC" ["dppC", "b3542", "ECK3529"] "mRNA" [] "EG12626" ["DPPC-MONOMER"] null [] +"EG12627_RNA" "dppD" ["dppD", "b3541", "ECK3528"] "mRNA" [] "EG12627" ["DPPD-MONOMER"] null [] +"EG12628_RNA" "dppF" ["dppF", "dppE", "b3540", "ECK3527"] "mRNA" [] "EG12628" ["DPPF-MONOMER"] null [] +"EG12629_RNA" "gntK" ["gntK", "b3437", "ECK3422"] "mRNA" [] "EG12629" ["GLUCONOKINII-MONOMER"] null [] +"EG12630_RNA" "gntR" ["gntR", "b3438", "ECK3423"] "mRNA" [] "EG12630" ["PD03585"] null [] +"EG12631_RNA" "gntU" ["gntU", "b3435", "b3436", "b4476", "ECK3421"] "mRNA" [] "EG12631" ["GNTU-MONOMER"] null [] +"EG12633_RNA" "nudF" ["nudF", "trgB", "aspP", "yqiE", "b3034", "ECK3025"] "mRNA" [] "EG12633" ["EG12633-MONOMER"] null [] +"EG12634_RNA" "cas3" ["cas3", "ygcB", "b2761", "ECK2756"] "mRNA" [] "EG12634" ["EG12634-MONOMER"] null [] +"EG12656_RNA" "mdaB" ["mdaB", "mda66", "b3028", "ECK3019"] "mRNA" [] "EG12656" ["EG12656-MONOMER"] null [] +"EG12657_RNA" "ygiN" ["ygiN", "b3029", "ECK3020"] "mRNA" [] "EG12657" ["EG12657-MONOMER"] null [] +"EG12658_RNA" "qseC" ["qseC", "ygiY", "b3026", "ECK3017"] "mRNA" [] "EG12658" ["EG12658-MONOMER"] null [] +"EG12661_RNA" "gltJ" ["gltJ", "b0654", "ECK0647"] "mRNA" [] "EG12661" ["GLTJ-MONOMER"] null [] +"EG12662_RNA" "gltK" ["gltK", "b0653", "ECK0646"] "mRNA" [] "EG12662" ["GLTK-MONOMER"] null [] +"EG12663_RNA" "gltL" ["gltL", "b0652", "ECK0645"] "mRNA" [] "EG12663" ["GLTL-MONOMER"] null [] +"EG12666_RNA" "lpxH" ["lpxH", "ybbF", "b0524", "ECK0517"] "mRNA" [] "EG12666" ["EG12666-MONOMER"] null [] +"EG12688_RNA" "grxB" ["grxB", "b1064", "ECK1049"] "mRNA" [] "EG12688" ["GRXB-MONOMER"] null [] +"EG12689_RNA" "yceK" ["yceK", "b1050", "ECK1036"] "mRNA" [] "EG12689" ["EG12689-MONOMER"] null [] +"EG12690_RNA" "rarA" ["rarA", "ycaJ", "mgsA", "b0892", "ECK0883"] "mRNA" [] "EG12690" ["EG12690-MONOMER"] null [] +"EG12691_RNA" "lapB" ["lapB", "yciM", "b1280", "ECK1275"] "mRNA" [] "EG12691" ["EG12691-MONOMER"] null [] +"EG12692_RNA" "hcxA" ["hcxA", "ybdH", "b0599", "ECK0593"] "mRNA" [] "EG12692" ["EG12692-MONOMER"] null [] +"EG12693_RNA" "nudL" ["nudL", "yeaB", "b1813", "ECK1811"] "mRNA" [] "EG12693" ["EG12693-MONOMER"] null [] +"EG12694_RNA" "ttdR" ["ttdR", "dan", "ygiP", "b3060", "ECK3050"] "mRNA" [] "EG12694" ["EG12694-MONOMER"] null [] +"EG12697_RNA" "fldB" ["fldB", "b2895", "ECK2890"] "mRNA" [] "EG12697" ["FLAVODOXIN2-MONOMER"] null [] +"EG12702_RNA" "ycaK" ["ycaK", "b0901", "ECK0892"] "mRNA" [] "EG12702" ["EG12702-MONOMER"] null [] +"EG12703_RNA" "yccJ" ["yccJ", "b1003", "ECK0994"] "mRNA" [] "EG12703" ["EG12703-MONOMER"] null [] +"EG12704_RNA" "yggM" ["yggM", "b2956", "ECK2951"] "mRNA" [] "EG12704" ["EG12704-MONOMER"] null [] +"EG12705_RNA" "yggN" ["yggN", "ecfF", "b2958", "ECK2953"] "mRNA" [] "EG12705" ["EG12705-MONOMER"] null [] +"EG12707_RNA" "ygbE" ["ygbE", "b2749", "ECK2744"] "mRNA" [] "EG12707" ["EG12707-MONOMER"] null [] +"EG12708_RNA" "ybcI" ["ybcI", "b0527", "ECK0520"] "mRNA" [] "EG12708" ["EG12708-MONOMER"] null [] +"EG12709_RNA" "yedI" ["yedI", "b1958", "ECK1956"] "mRNA" [] "EG12709" ["EG12709-MONOMER"] null [] +"EG12710_RNA" "yedJ" ["yedJ", "b1962", "ECK1960"] "mRNA" [] "EG12710" ["EG12710-MONOMER"] null [] +"EG12712_RNA" "luxS" ["luxS", "ygaG", "b2687", "ECK2681"] "mRNA" [] "EG12712" ["EG12712-MONOMER"] null [] +"EG12713_RNA" "yddG" ["yddG", "b1473", "ECK1467"] "mRNA" [] "EG12713" ["EG12713-MONOMER"] null [] +"EG12715_RNA" "dxr" ["dxr", "yaeM", "ispC", "b0173", "ECK0172"] "mRNA" [] "EG12715" ["DXPREDISOM-MONOMER"] null [] +"EG12717_RNA" "mug" ["mug", "ygjF", "b3068", "ECK3058"] "mRNA" [] "EG12717" ["EG12717-MONOMER"] null [] +"EG12720_RNA" "ygjI" ["ygjI", "b3078", "ECK3068"] "mRNA" [] "EG12720" ["YGJI-MONOMER"] null [] +"EG12732_RNA" "sstT" ["sstT", "ygjU", "b3089", "ECK3080"] "mRNA" [] "EG12732" ["YGJU-MONOMER"] null [] +"EG12734_RNA" "uxaA" ["uxaA", "ygjW", "b3091", "ECK3082"] "mRNA" [] "EG12734" ["ALTRODEHYDRAT-MONOMER"] null [] +"EG12738_RNA" "exuT" ["exuT", "b3093", "ECK3084"] "mRNA" [] "EG12738" ["EXUT-MONOMER"] null [] +"EG12739_RNA" "exuR" ["exuR", "b3094", "ECK3085"] "mRNA" [] "EG12739" ["PD03270"] null [] +"EG12754_RNA" "cyuP" ["cyuP", "dlsT", "yhaO", "b3110", "ECK3100"] "mRNA" [] "EG12754" ["YHAO-MONOMER"] null [] +"EG12760_RNA" "garP" ["garP", "yhaU", "b3127", "ECK3115"] "mRNA" [] "EG12760" ["YHAU-MONOMER"] null [] +"EG12766_RNA" "agaA" ["agaA", "yraA", "b3135", "ECK3123"] "pseudo" [] "EG12766" ["AGAA-MONOMER"] null [] +"EG12768_RNA" "kbaY" ["kbaY", "yraC", "kba", "agaY", "b3137", "ECK3125"] "mRNA" [] "EG12768" ["TAGAALDOL1-MONOMER"] null [] +"EG12769_RNA" "agaB" ["agaB", "yraD", "b3138", "ECK3126"] "mRNA" [] "EG12769" ["AGAB-MONOMER"] null [] +"EG12770_RNA" "agaC" ["agaC", "yraE", "b3139", "ECK3127"] "mRNA" [] "EG12770" ["AGAC-MONOMER"] null [] +"EG12780_RNA" "diaA" ["diaA", "yraO", "b3149", "ECK3137"] "mRNA" [] "EG12780" ["YRAO-MONOMER"] null [] +"EG12794_RNA" "yhbY" ["yhbY", "b3180", "ECK3169"] "mRNA" [] "EG12794" ["EG12794-MONOMER"] null [] +"EG12799_RNA" "mlaD" ["mlaD", "yrbD", "b3193", "ECK3182"] "mRNA" [] "EG12799" ["EG12799-MONOMER"] null [] +"EG12800_RNA" "mlaE" ["mlaE", "yrbE", "b3194", "ECK3183"] "mRNA" [] "EG12800" ["YRBE-MONOMER"] null [] +"EG12801_RNA" "mlaF" ["mlaF", "yrbF", "b3195", "ECK3184"] "mRNA" [] "EG12801" ["YRBF-MONOMER"] null [] +"EG12802_RNA" "yrbG" ["yrbG", "b3196", "ECK3185"] "mRNA" [] "EG12802" ["YRBG-MONOMER"] null [] +"EG12830_RNA" "ybaM" ["ybaM", "b0466", "ECK0460"] "mRNA" [] "EG12830" ["EG12830-MONOMER"] null [] +"EG12834_RNA" "yhdW" ["yhdW", "b3268", "ECK3255"] "pseudo" [] "EG12834" ["YHDW-MONOMER"] null [] +"EG12835_RNA" "yhdX" ["yhdX", "b3269", "ECK3256"] "mRNA" [] "EG12835" ["YHDX-MONOMER"] null [] +"EG12836_RNA" "yhdY" ["yhdY", "b3270", "ECK3257"] "mRNA" [] "EG12836" ["YHDY-MONOMER"] null [] +"EG12837_RNA" "yhdZ" ["yhdZ", "b3271", "ECK3258"] "mRNA" [] "EG12837" ["YHDZ-MONOMER"] null [] +"EG12842_RNA" "ybjC" ["ybjC", "b0850", "ECK0841"] "mRNA" [] "EG12842" ["EG12842-MONOMER"] null [] +"EG12843_RNA" "ybaN" ["ybaN", "b0468", "ECK0462"] "mRNA" [] "EG12843" ["EG12843-MONOMER"] null [] +"EG12844_RNA" "yefM" ["yefM", "b2017", "ECK2012"] "mRNA" [] "EG12844" ["EG12844-MONOMER"] null [] +"EG12845_RNA" "cas2" ["cas2", "ygbF", "b2754", "ECK2749"] "mRNA" [] "EG12845" ["EG12845-MONOMER"] null [] +"EG12850_RNA" "yfaL" ["yfaL", "yfaF", "yfaK", "yfaJ", "b2233", "ECK2225"] "mRNA" [] "EG12850" ["EG12850-MONOMER"] null [] +"EG12851_RNA" "ybeL" ["ybeL", "b0643", "ECK0636"] "mRNA" [] "EG12851" ["EG12851-MONOMER"] null [] +"EG12853_RNA" "abgT" ["abgT", "ydaH", "b1336", "ECK1332"] "mRNA" [] "EG12853" ["ABGT-MONOMER"] null [] +"EG12854_RNA" "cpoB" ["cpoB", "ybgF", "b0742", "ECK0731"] "mRNA" [] "EG12854" ["EG12854-MONOMER"] null [] +"EG12855_RNA" "matP" ["matP", "ycbG", "b0956", "ECK0947"] "mRNA" [] "EG12855" ["EG12855-MONOMER"] null [] +"EG12857_RNA" "yfiM" ["yfiM", "b2586", "ECK2584"] "mRNA" [] "EG12857" ["EG12857-MONOMER"] null [] +"EG12859_RNA" "opgD" ["opgD", "yzzZ", "ydcG", "mdoD", "b1424", "ECK1418"] "mRNA" [] "EG12859" ["EG12859-MONOMER"] null [] +"EG12860_RNA" "yebK" ["yebK", "hexR(P.a.)", "b1853", "ECK1854"] "mRNA" [] "EG12860" ["EG12860-MONOMER"] null [] +"EG12861_RNA" "yecF" ["yecF", "b1915", "ECK1914"] "mRNA" [] "EG12861" ["EG12861-MONOMER"] null [] +"EG12865_RNA" "ydcH" ["ydcH", "b1426", "ECK1419"] "mRNA" [] "EG12865" ["EG12865-MONOMER"] null [] +"EG12866_RNA" "proQ" ["proQ", "yoeC", "yobE", "yebJ", "b1831", "ECK1830"] "mRNA" [] "EG12866" ["EG12866-MONOMER"] null [] +"EG12867_RNA" "ampH" ["ampH", "yaiH", "b0376", "ECK0371"] "mRNA" [] "EG12867" ["EG12867-MONOMER"] null [] +"EG12868_RNA" "yciN" ["yciN", "b1273", "ECK1267"] "mRNA" [] "EG12868" ["EG12868-MONOMER"] null [] +"EG12870_RNA" "ycjF" ["ycjF", "b1322", "ECK1318"] "mRNA" [] "EG12870" ["EG12870-MONOMER"] null [] +"EG12874_RNA" "yajI" ["yajI", "b0412", "ECK0406"] "mRNA" [] "EG12874" ["EG12874-MONOMER"] null [] +"EG12875_RNA" "ybhC" ["ybhC", "b0772", "ECK0761"] "mRNA" [] "EG12875" ["EG12875-MONOMER"] null [] +"EG12876_RNA" "tusE" ["tusE", "yccK", "b0969", "ECK0960"] "mRNA" [] "EG12876" ["EG12876-MONOMER"] null [] +"EG12877_RNA" "ycfK" ["ycfK", "stfP", "b1154", "ECK1140"] "mRNA" [] "EG12877" ["EG12877-MONOMER"] null [] +"EG12878_RNA" "zapA" ["zapA", "ygfE", "b2910", "ECK2905"] "mRNA" [] "EG12878" ["EG12878-MONOMER"] null [] +"EG12879_RNA" "ybcJ" ["ybcJ", "b0528", "ECK0521"] "mRNA" [] "EG12879" ["EG12879-MONOMER"] null [] +"EG12880_RNA" "dgcN" ["dgcN", "yfiN", "b2604", "ECK2601"] "mRNA" [] "EG12880" ["EG12880-MONOMER"] null [] +"EG12881_RNA" "yfaH" ["yfaH", "b2238", "ECK2230"] "pseudo" [] "EG12881" ["EG12881-MONOMER"] null [] +"EG12882_RNA" "gss" ["gss", "gsp", "b2988", "ECK2982"] "mRNA" [] "EG12882" ["GSP-MONOMER"] null [] +"EG12883_RNA" "pitB" ["pitB", "b2987", "ECK2981"] "mRNA" [] "EG12883" ["PITB-MONOMER"] null [] +"EG12903_RNA" "yheS" ["yheS", "b3352", "ECK3340"] "mRNA" [] "EG12903" ["YHES-MONOMER"] null [] +"EG12908_RNA" "frlA" ["frlA", "yhfM", "b3370", "ECK3358"] "mRNA" [] "EG12908" ["YHFM-MONOMER"] null [] +"EG12933_RNA" "feoC" ["feoC", "yhgG", "b3410", "ECK3397"] "mRNA" [] "EG12933" ["EG12933-MONOMER"] null [] +"EG12957_RNA" "glk" ["glk", "b2388", "ECK2384"] "mRNA" [] "EG12957" ["GLUCOKIN-MONOMER"] null [] +"EG13139_RNA" "tynA" ["tynA", "feaA", "maoA", "b1386", "ECK1383"] "mRNA" [] "EG13139" ["AMINEOXID-MONOMER"] null [] +"EG13159_RNA" "xapB" ["xapB", "b2406", "ECK2400"] "mRNA" [] "EG13159" ["XAPB-MONOMER"] null [] +"EG13161_RNA" "dsdC" ["dsdC", "b2364", "ECK2360"] "mRNA" [] "EG13161" ["PD00297"] null [] +"EG13174_RNA" "yqcE" ["yqcE", "yqcF", "b2775", "ECK2769"] "mRNA" [] "EG13174" ["B2775-MONOMER"] null [] +"EG13217_RNA" "ybaE" ["ybaE", "b0445", "ECK0439"] "mRNA" [] "EG13217" ["EG13217-MONOMER"] null [] +"EG13235_RNA" "mngA" ["mngA", "frx", "hrsA", "b0731", "ECK0719"] "mRNA" [] "EG13235" ["HRSA-MONOMER"] null [] +"EG13236_RNA" "mngB" ["mngB", "ybgG", "b0732", "ECK0720"] "mRNA" [] "EG13236" ["EG13236-MONOMER"] null [] +"EG13238_RNA" "cobU" ["cobU", "b1993", "ECK1988"] "mRNA" [] "EG13238" ["COBU-MONOMER"] null [] +"EG13270_RNA" "aqpZ" ["aqpZ", "bniP", "b0875", "ECK0866"] "mRNA" [] "EG13270" ["AQPZ-MONOMER"] null [] +"EG13283_RNA" "emrY" ["emrY", "b2367", "ECK2363"] "mRNA" [] "EG13283" ["EMRY-MONOMER"] null [] +"EG20044_RNA" "dctA" ["dctA", "b3528", "ECK3513"] "mRNA" [] "EG20044" ["DCTA-MONOMER"] null [] +"EG20049_RNA" "dgoA" ["dgoA", "b3692", "yidU", "b4477", "ECK3685"] "mRNA" [] "EG20049" ["DEHYDDEOXPHOSGALACT-ALDOL-MONOMER"] null [] +"EG20051_RNA" "dgoK" ["dgoK", "yidV", "b3693", "ECK3686"] "mRNA" [] "EG20051" ["DEHYDDEOXGALACTKIN-MONOMER"] null [] +"EG20053_RNA" "dgoT" ["dgoT", "yidT", "b3691", "ECK3683"] "mRNA" [] "EG20053" ["YIDT-MONOMER"] null [] +"EG20080_RNA" "glcB" ["glcB", "glc", "b2976", "ECK2970"] "mRNA" [] "EG20080" ["MALSYNG-MONOMER"] null [] +"EG20091_RNA" "gpsA" ["gpsA", "b3608", "ECK3598"] "mRNA" [] "EG20091" ["GLYC3PDEHYDROGBIOSYN-MONOMER"] null [] +"EG20098_RNA" "hpt" ["hpt", "b0125", "ECK0124"] "mRNA" [] "EG20098" ["HYPOXANPRIBOSYLTRAN-MONOMER"] null [] +"EG20110_RNA" "kefB" ["kefB", "trkB", "b3350", "ECK3338"] "mRNA" [] "EG20110" ["KEFB-MONOMER"] null [] +"EG20173_RNA" "pta" ["pta", "b2297", "ECK2291"] "mRNA" [] "EG20173" ["PHOSACETYLTRANS-MONOMER"] null [] +"EG20248_RNA" "uxuB" ["uxuB", "b4323", "ECK4314"] "mRNA" [] "EG20248" ["MANNONOXIDOREDUCT-MONOMER"] null [] +"EG20249_RNA" "uxuR" ["uxuR", "b4324", "ECK4315"] "mRNA" [] "EG20249" ["EG20249-MONOMER"] null [] +"EG20252_RNA" "xylF" ["xylF", "xylT", "b3566", "ECK3555"] "mRNA" [] "EG20252" ["XYLF-MONOMER"] null [] +"EG20253_RNA" "xylR" ["xylR", "b3569", "ECK3558"] "mRNA" [] "EG20253" ["EG20253-MONOMER"] null [] +"EG20257_RNA" "nrdE" ["nrdE", "b2675", "ECK2669"] "mRNA" [] "EG20257" ["NRDE-MONOMER"] null [] +"alaT-tRNA" "tRNA-Ala(UGC)" ["tRNAalaT"] "tRNA" ["charged-alaT-tRNA"] "EG30008" [] "UGC" [] +"alaU-tRNA" "tRNA-Ala(UGC)" ["tRNAalaU"] "tRNA" ["charged-alaU-tRNA"] "EG30009" [] "UGC" [] +"alaV-tRNA" "tRNA-Ala(UGC)" ["tRNAalaV"] "tRNA" ["charged-alaV-tRNA"] "EG30010" [] "UGC" [] +"alaW-tRNA" "tRNA-Ala(GGC)" ["tRNAalaW"] "tRNA" ["charged-alaW-tRNA"] "EG30011" [] "GGC" [] +"alaX-tRNA" "tRNA-Ala(GGC)" ["tRNAalaX"] "tRNA" ["charged-alaX-tRNA"] "EG30012" [] "GGC" [] +"argQ-tRNA" "tRNA-Arg(ACG)" ["tRNAargQ"] "tRNA" ["charged-argQ-tRNA"] "EG30013" [] "ACG" [] +"argU-tRNA" "tRNA-Arg(UCU)" ["tRNAargU"] "tRNA" ["charged-argU-tRNA"] "EG30014" [] "UCU" [] +"argV-tRNA" "tRNA-Arg(ACG)" ["tRNA(Arg2)", "tRNAargV"] "tRNA" ["charged-argV-tRNA"] "EG30015" [] "ACG" [] +"argW-tRNA" "tRNA-Arg(CCU)" ["tRNAargW"] "tRNA" ["charged-argW-tRNA"] "EG30016" [] "CCU" [] +"argX-tRNA" "tRNA-Arg(CCG)" ["tRNAargX"] "tRNA" ["charged-argX-tRNA"] "EG30017" [] "CCG" [] +"argY-tRNA" "tRNA-Arg(ACG)" ["tRNAargY"] "tRNA" ["charged-argY-tRNA"] "EG30018" [] "ACG" [] +"argZ-tRNA" "tRNA-Arg(ACG)" ["tRNAargZ"] "tRNA" ["charged-argZ-tRNA"] "EG30019" [] "ACG" [] +"asnT-tRNA" "tRNA-Asn(GUU)" ["tRNAasnT"] "tRNA" ["charged-asnT-tRNA"] "EG30020" [] "GUU" [] +"asnU-tRNA" "tRNA-Asn(GUU)" ["tRNAasnU"] "tRNA" ["charged-asnU-tRNA"] "EG30021" [] "GUU" [] +"asnV-tRNA" "tRNA-Asn(GUU)" ["tRNAasnV"] "tRNA" ["charged-asnV-tRNA"] "EG30022" [] "GUU" [] +"aspT-tRNA" "tRNA-Asp(GUC)" ["tRNAaspT"] "tRNA" ["charged-aspT-tRNA"] "EG30023" [] "GUC" [] +"aspU-tRNA" "tRNA-Asp(GUC)" ["tRNAaspU"] "tRNA" ["charged-aspU-tRNA"] "EG30024" [] "GUC" [] +"aspV-tRNA" "tRNA-Asp(GUC)" ["tRNAaspV"] "tRNA" ["charged-aspV-tRNA"] "EG30025" [] "GUC" [] +"FFS-RNA" "signal recognition particle 4.5S RNA" ["Ffs"] "miscRNA" [] "EG30027" [] null [] +"glnU-tRNA" "tRNA-Gln(UUG)" ["tRNAglnU", "tRNAGln1"] "tRNA" ["charged-glnU-tRNA"] "EG30028" [] "UUG" [] +"glnV-tRNA" "tRNA-Gln(CUG)" ["tRNAglnV", "tRNAGln2"] "tRNA" ["charged-glnV-tRNA"] "EG30029" [] "CUG" [] +"glnW-tRNA" "tRNA-Gln(UUG)" ["tRNAglnW", "tRNAGln1"] "tRNA" ["charged-glnW-tRNA"] "EG30030" [] "UUG" [] +"glnX-tRNA" "tRNA-Gln(CUG)" ["tRNAglnX", "tRNAGln2"] "tRNA" ["charged-glnX-tRNA"] "EG30031" [] "CUG" [] +"gltT-tRNA" "tRNA-Glu(UUC)" ["tRNAgltT"] "tRNA" ["charged-gltT-tRNA"] "EG30032" [] "UUC" [] +"gltU-tRNA" "tRNA-Glu(UUC)" ["tRNAgltU"] "tRNA" ["charged-gltU-tRNA"] "EG30033" [] "UUC" [] +"gltV-tRNA" "tRNA-Glu(UUC)" ["tRNAgltV"] "tRNA" ["charged-gltV-tRNA"] "EG30034" [] "UUC" [] +"gltW-tRNA" "tRNA-Glu(UUC)" ["tRNAgltW"] "tRNA" ["charged-gltW-tRNA"] "EG30035" [] "UUC" [] +"glyT-tRNA" "tRNA-Gly(UCC)" ["tRNAglyT"] "tRNA" ["charged-glyT-tRNA"] "EG30036" [] "UCC" [] +"glyU-tRNA" "tRNA-Gly(CCC)" ["tRNAglyU"] "tRNA" ["charged-glyU-tRNA"] "EG30037" [] "CCC" [] +"glyV-tRNA" "tRNA-Gly(GCC)" ["tRNAglyV"] "tRNA" ["charged-glyV-tRNA"] "EG30038" [] "GCC" [] +"glyW-tRNA" "tRNA-Gly(GCC)" ["tRNAglyW"] "tRNA" ["charged-glyW-tRNA"] "EG30039" [] "GCC" [] +"glyX-tRNA" "tRNA-Gly(GCC)" ["tRNAglyX"] "tRNA" ["charged-glyX-tRNA"] "EG30040" [] "GCC" [] +"glyY-tRNA" "tRNA-Gly(GCC)" ["tRNAglyY"] "tRNA" ["charged-glyY-tRNA"] "EG30041" [] "GCC" [] +"hisR-tRNA" "tRNA-His(GUG)" ["tRNAhisR"] "tRNA" ["charged-hisR-tRNA"] "EG30042" [] "GUG" [] +"ileT-tRNA" "tRNA-Ile(GAU)" ["tRNAileT"] "tRNA" ["charged-ileT-tRNA"] "EG30043" [] "GAU" [] +"ileU-tRNA" "tRNA-Ile(GAU)" ["tRNAileU"] "tRNA" ["charged-ileU-tRNA"] "EG30044" [] "GAU" [] +"ileV-tRNA" "tRNA-Ile(GAU)" ["tRNAileV"] "tRNA" ["charged-ileV-tRNA"] "EG30045" [] "GAU" [] +"ileX-tRNA" "tRNA-Ile(CAU)" ["tRNA(2Ile)", "tRNA(minorIle)", "tRNAileX"] "tRNA" ["charged-ileX-tRNA"] "EG30046" [] "CAU" [] +"leuP-tRNA" "tRNA-Leu(CAG)" ["tRNAleuP"] "tRNA" ["charged-leuP-tRNA"] "EG30047" [] "CAG" [] +"leuQ-tRNA" "tRNA-Leu(CAG)" ["tRNAleuQ"] "tRNA" ["charged-leuQ-tRNA"] "EG30048" [] "CAG" [] +"leuT-tRNA" "tRNA-Leu(CAG)" ["tRNAleuT"] "tRNA" ["charged-leuT-tRNA"] "EG30049" [] "CAG" [] +"leuU-tRNA" "tRNA-Leu(GAG)" ["tRNAleuU"] "tRNA" ["charged-leuU-tRNA"] "EG30050" [] "GAG" [] +"leuV-tRNA" "tRNA-Leu(CAG)" ["tRNAleuV"] "tRNA" ["charged-leuV-tRNA"] "EG30051" [] "CAG" [] +"leuW-tRNA" "tRNA-Leu(UAG)" ["tRNAleuW"] "tRNA" ["charged-leuW-tRNA"] "EG30052" [] "UAG" [] +"leuX-tRNA" "tRNA-Leu(CAA)" ["tRNAleuX"] "tRNA" ["charged-leuX-tRNA"] "EG30053" [] "CAA" [] +"leuZ-tRNA" "tRNA-Leu(UAA)" ["tRNAleuZ"] "tRNA" ["charged-leuZ-tRNA"] "EG30054" [] "UAA" [] +"lysT-tRNA" "tRNA-Lys(UUU)" ["tRNAlysT"] "tRNA" ["charged-lysT-tRNA"] "EG30055" [] "UUU" [] +"lysV-tRNA" "tRNA-Lys(UUU)" ["tRNAlysV"] "tRNA" ["charged-lysV-tRNA"] "EG30056" [] "UUU" [] +"lysW-tRNA" "tRNA-Lys(UUU)" ["tRNAlysW"] "tRNA" ["charged-lysW-tRNA"] "EG30057" [] "UUU" [] +"metT-tRNA" "tRNA-Met(CAU)" ["tRNAmetT"] "tRNA" ["charged-metT-tRNA"] "EG30058" [] "CAU" [] +"metU-tRNA" "tRNA-Met(CAU)" ["tRNAmetU"] "tRNA" ["charged-metU-tRNA"] "EG30059" [] "CAU" [] +"RNA0-306" "tRNA-initiator Met(CAU)" ["tRNAmetV", "tRNAfMet1"] "tRNA" ["RNA0-321", "CHARGED-FMETV-TRNA"] "EG30060" [] "CAU" [] +"metY-tRNA" "tRNA-initiator Met(CAU)" ["tRNAmetY", "tRNAfMet2"] "tRNA" ["RNA0-322", "CHARGED-FMETY-TRNA"] "EG30061" [] "CAU" [] +"metZ-tRNA" "tRNA-initiator Met(CAU)" ["tRNAmetZ", "tRNAfMet1"] "tRNA" ["RNA0-323", "CHARGED-FMETZ-TRNA"] "EG30062" [] "CAU" [] +"MICF-RNA" "small regulatory RNA MicF" ["MicF", "Stc"] "miscRNA" [] "EG30063" [] null [] +"pheU-tRNA" "tRNA-Phe(GAA)" ["tRNApheU"] "tRNA" ["charged-pheU-tRNA"] "EG30064" [] "GAA" [] +"pheV-tRNA" "tRNA-Phe(GAA)" ["tRNApheV"] "tRNA" ["charged-pheV-tRNA"] "EG30065" [] "GAA" [] +"proK-tRNA" "tRNA-Pro(CGG)" ["tRNAproK"] "tRNA" ["charged-proK-tRNA"] "EG30066" [] "CGG" [] +"proL-tRNA" "tRNA-Pro(GGG)" ["tRNAproL"] "tRNA" ["charged-proL-tRNA"] "EG30067" [] "GGG" [] +"proM-tRNA" "tRNA-Pro(UGG)" ["tRNAproM"] "tRNA" ["charged-proM-tRNA"] "EG30068" [] "UGG" [] +"RNPB-RNA" "RNase P catalytic RNA component" ["RnpB", "RnpB RNA", "M1 ribozyme", "RNase P ribozyme", "ribonuclease P ribozyme", "RNase P RNA", "M1 RNA", "RNase P catalytic RNA subunit", "ribonuclease P catalytic RNA component", "catalytic subunit of RNase P"] "miscRNA" [] "EG30069" [] null [] +"RRFA-RRNA" "5S ribosomal RNA" ["rrfA", "rrfA 5S ribosomal RNA", "5S rRNA"] "rRNA" [] "EG30070" [] null [] +"RRFB-RRNA" "5S ribosomal RNA" ["rrfB", "rrfB 5S ribosomal RNA", "5S rRNA"] "rRNA" [] "EG30071" [] null [] +"RRFC-RRNA" "5S ribosomal RNA" ["rrfC", "rrfC 5S ribosomal RNA", "5S rRNA"] "rRNA" [] "EG30072" [] null [] +"RRFD-RRNA" "5S ribosomal RNA" ["rrfD", "rrfD 5S ribosomal RNA", "5S rRNA"] "rRNA" [] "EG30073" [] null [] +"RRFE-RRNA" "5S ribosomal RNA" ["rrfE", "rrfE 5S ribosomal RNA", "5S rRNA"] "rRNA" [] "EG30074" [] null [] +"RRFG-RRNA" "5S ribosomal RNA" ["rrfG", "rrfG 5S ribosomal RNA", "5S rRNA"] "rRNA" [] "EG30075" [] null [] +"RRFH-RRNA" "5S ribosomal RNA" ["rrfH", "rrfH 5S ribosomal RNA", "5S rRNA"] "rRNA" [] "EG30076" [] null [] +"RRLA-RRNA" "23S ribosomal RNA" ["rrlA", "rrlA 23S ribosomal RNA", "23S rRNA"] "rRNA" [] "EG30077" [] null [] +"RRLB-RRNA" "23S ribosomal RNA" ["rrlB", "rrlB 23S ribosomal RNA", "23S rRNA"] "rRNA" [] "EG30078" [] null [] +"RRLC-RRNA" "23S ribosomal RNA" ["rrlC", "rrlC 23S ribosomal RNA", "23S rRNA"] "rRNA" [] "EG30079" [] null [] +"RRLD-RRNA" "23S ribosomal RNA" ["rrlD", "rrlD 23S ribosomal RNA", "23S rRNA"] "rRNA" [] "EG30080" [] null [] +"RRLE-RRNA" "23S ribosomal RNA" ["rrlE", "rrlE 23S ribosomal RNA", "23S rRNA"] "rRNA" [] "EG30081" [] null [] +"RRLG-RRNA" "23S ribosomal RNA" ["rrlG", "rrlG 23S ribosomal RNA", "23S rRNA"] "rRNA" [] "EG30082" [] null [] +"RRLH-RRNA" "23S ribosomal RNA" ["rrlH", "rrlH 23S ribosomal RNA", "23S rRNA"] "rRNA" [] "EG30083" [] null [] +"RRSA-RRNA" "16S ribosomal RNA" ["rrsA", "rrsA 16S ribosomal RNA", "16S rRNA"] "rRNA" [] "EG30084" [] null [] +"RRSB-RRNA" "16S ribosomal RNA" ["rrsB", "rrsB 16S ribosomal RNA", "16S rRNA"] "rRNA" [] "EG30085" [] null [] +"RRSC-RRNA" "16S ribosomal RNA" ["rrsC", "rrsC 16S ribosomal RNA", "16S rRNA"] "rRNA" [] "EG30086" [] null [] +"RRSD-RRNA" "16S ribosomal RNA" ["rrsD", "rrsD 16S ribosomal RNA", "16S rRNA"] "rRNA" [] "EG30087" [] null [] +"RRSE-RRNA" "16S ribosomal RNA" ["rrsE", "rrsE 16S ribosomal RNA", "16S rRNA"] "rRNA" [] "EG30088" [] null [] +"RRSG-RRNA" "16S ribosomal RNA" ["rrsG", "rrsG 16S ribosomal RNA", "16S rRNA"] "rRNA" [] "EG30089" [] null [] +"RRSH-RRNA" "16S ribosomal RNA" ["rrsH", "rrsH 16S ribosomal RNA", "16S rRNA"] "rRNA" [] "EG30090" [] null [] +"RRFF-RRNA" "5S ribosomal RNA" ["rrfF", "rrfF 5S ribosomal RNA", "5S rRNA"] "rRNA" [] "EG30091" [] null [] +"selC-tRNA" "tRNA-Sec(UCA)" ["tRNAsec"] "tRNA" ["charged-selC-tRNA"] "EG30092" [] "UCA" [] +"serT-tRNA" "tRNA-Ser(UGA)" ["tRNAserT", "tRNASer1"] "tRNA" ["charged-serT-tRNA"] "EG30093" [] "UGA" [] +"serU-tRNA" "tRNA-Ser(CGA)" ["tRNAserU", "tRNASer2"] "tRNA" ["charged-serU-tRNA"] "EG30094" [] "CGA" [] +"serV-tRNA" "tRNA-Ser(GCU)" ["tRNAserV", "tRNASer3"] "tRNA" ["charged-serV-tRNA"] "EG30095" [] "GCU" [] +"serW-tRNA" "tRNA-Ser(GGA)" ["tRNAserW", "tRNASer5"] "tRNA" ["charged-serW-tRNA"] "EG30096" [] "GGA" [] +"serX-tRNA" "tRNA-Ser(GGA)" ["tRNAserX", "tRNASer5"] "tRNA" ["charged-serX-tRNA"] "EG30097" [] "GGA" [] +"SPF-RNA" "small regulatory RNA Spot 42" ["Spf", "Spf RNA", "IS197"] "miscRNA" [] "EG30098" [] null [] +"6S-RNA" "6S RNA" ["SsrS", "Ssr"] "miscRNA" [] "EG30099" [] null [] +"SSRA-RNA" "tmRNA" ["SsrA", "10Sa RNA", "transfer-messenger RNA", "SipB"] "miscRNA" [] "EG30100" [] null [] +"thrT-tRNA" "tRNA-Thr(GGU)" ["tRNAThr3(GGU)", "tRNAthrT"] "tRNA" ["charged-thrT-tRNA"] "EG30101" [] "GGU" [] +"thrU-tRNA" "tRNA-Thr(UGU)" ["tRNAThr4(UGU)", "tRNAthrU"] "tRNA" ["charged-thrU-tRNA"] "EG30102" [] "UGU" [] +"thrV-tRNA" "tRNA-Thr(GGU)" ["tRNAThr1(GGU)", "tRNAthrV"] "tRNA" ["charged-thrV-tRNA"] "EG30103" [] "GGU" [] +"thrW-tRNA" "tRNA-Thr(CGU)" ["tRNAThr2(CGU)", "tRNAthrW"] "tRNA" ["charged-thrW-tRNA"] "EG30104" [] "CGU" [] +"trpT-tRNA" "tRNA-Trp(CCA)" ["tRNAtrpT", "tRNATrp"] "tRNA" ["charged-trpT-tRNA"] "EG30105" [] "CCA" [] +"tyrT-tRNA" "tRNA-Tyr(GUA)" ["tRNAtyrT"] "tRNA" ["charged-tyrT-tRNA"] "EG30106" [] "GUA" [] +"tyrU-tRNA" "tRNA-Tyr(GUA)" ["tRNAtyrU"] "tRNA" ["charged-tyrU-tRNA"] "EG30107" [] "GUA" [] +"tyrV-tRNA" "tRNA-Tyr(GUA)" ["tRNAtyrV"] "tRNA" ["charged-tyrV-tRNA"] "EG30108" [] "GUA" [] +"valT-tRNA" "tRNA-Val(UAC)" ["tRNAvalT"] "tRNA" ["charged-valT-tRNA"] "EG30109" [] "UAC" [] +"valU-tRNA" "tRNA-Val(UAC)" ["tRNAvalU"] "tRNA" ["charged-valU-tRNA"] "EG30110" [] "UAC" [] +"valV-tRNA" "tRNA-Val(GAC)" ["tRNAvalV"] "tRNA" ["charged-valV-tRNA"] "EG30111" [] "GAC" [] +"valW-tRNA" "tRNA-Val(GAC)" ["tRNAvalW"] "tRNA" ["charged-valW-tRNA"] "EG30112" [] "GAC" [] +"valX-tRNA" "tRNA-Val(UAC)" ["tRNAvalX"] "tRNA" ["charged-valX-tRNA"] "EG30113" [] "UAC" [] +"valY-tRNA" "tRNA-Val(UAC)" ["tRNAvalY"] "tRNA" ["charged-valY-tRNA"] "EG30114" [] "UAC" [] +"DICF-RNA" "Qin prophage; small regulatory RNA DicF" ["DicF"] "miscRNA" [] "EG31115" [] null [] +"OXYS-RNA" "small regulatory RNA OxyS" ["OxyS"] "miscRNA" [] "EG31116" [] null [] +"metW-tRNA" "tRNA-initiator Met(CAU)" ["tRNAmetW", "tRNAfMet1"] "tRNA" ["RNA0-319", "CHARGED-FMETW-TRNA"] "EG31117" [] "CAU" [] +"EG50001_RNA" "rplU" ["rplU", "b3186", "ECK3175"] "mRNA" [] "EG50001" ["EG50001-MONOMER"] null [] +"EG50002_RNA" "rpmA" ["rpmA", "rpz", "b3185", "ECK3174"] "mRNA" [] "EG50002" ["EG50002-MONOMER"] null [] +"EG50003_RNA" "acpP" ["acpP", "b1094", "ECK1080"] "mRNA" [] "EG50003" ["EG50003-MONOMER"] null [] +"EG50004_RNA" "rmf" ["rmf", "res", "rimF", "b0953", "ECK0944"] "mRNA" [] "EG50004" ["EG50004-MONOMER"] null [] +"EG50005_RNA" "nfsB" ["nfsB", "ntr", "dprA", "nfnB", "b0578", "ECK0570"] "mRNA" [] "EG50005" ["DIHYDROPTERIREDUCT-MONOMER"] null [] +"EG50006_RNA" "eutB" ["eutB", "b2441", "ECK2436"] "mRNA" [] "EG50006" ["EUTB-MONOMER"] null [] +"EG50007_RNA" "eutC" ["eutC", "b2440", "ECK2435"] "mRNA" [] "EG50007" ["EUTC-MONOMER"] null [] +"EG50008_RNA" "cybC" ["cybC", "cytochrome b562", "b4236", "ECK4231"] "pseudo" [] "EG50008" [] null [] +"EG50009_RNA" "gadA" ["gadA", "gadS", "b3517", "ECK3502"] "mRNA" [] "EG50009" ["GLUTDECARBOXA-MONOMER"] null [] +"EG50010_RNA" "frmA" ["frmA", "adhC", "b0356", "ECK0353"] "mRNA" [] "EG50010" ["ADHC-MONOMER"] null [] +"EG50011_RNA" "folP" ["folP", "dhpS", "b3177", "ECK3166"] "mRNA" [] "EG50011" ["H2PTEROATESYNTH-MONOMER"] null [] +"RNA0-282" "small regulatory RNA IstR-1" ["IstR-1"] "miscRNA" [] "G0-10201" [] null [] +"RNA0-281" "small RNA IstR-2" ["PsrA19", "IstR-2"] "miscRNA" [] "G0-10201" [] null [] +"G0-10202_RNA" "istR-1" ["istR-1"] "phantom" [] "G0-10202" [] null [] +"G0-10241_RNA" "sgcB" ["sgcB", "b4565", "ECK4294"] "mRNA" [] "G0-10241" ["MONOMER0-2121"] null [] +"G0-10261_RNA" "ymgF" ["ymgF", "b4520", "ECK1156"] "mRNA" [] "G0-10261" ["MONOMER0-2141"] null [] +"G0-10430_RNA" "insA4" ["insA4", "b4516", "ECK0023"] "mRNA" [] "G0-10430" ["MONOMER0-4228"] null [] +"G0-10431_RNA" "yafF" ["yafF", "b4503", "ECK0219"] "pseudo" [] "G0-10431" ["MONOMER0-2653"] null [] +"G0-10432_RNA" "ykfH" ["ykfH", "b4504", "ECK0248"] "mRNA" [] "G0-10432" ["MONOMER0-2654"] null [] +"G0-10433_RNA" "insX" ["insX", "ykgN", "ECK0266", "b4505", "ECK4473"] "pseudo" [] "G0-10433" [] null [] +"G0-10434_RNA" "ykgO" ["ykgO", "b4506", "ECK0295"] "mRNA" [] "G0-10434" ["MONOMER0-2656"] null [] +"G0-10435_RNA" "ylcG" ["ylcG", "b4509", "ECK0542"] "mRNA" [] "G0-10435" ["MONOMER0-2657"] null [] +"G0-10436_RNA" "rzoD" ["rzoD", "b4510", "ECK0548"] "mRNA" [] "G0-10436" ["MONOMER0-2658"] null [] +"G0-10437_RNA" "ybdZ" ["ybdZ", "b4511", "ECK0578"] "mRNA" [] "G0-10437" ["MONOMER0-2659"] null [] +"G0-10438_RNA" "ybdD" ["ybdD", "b4512", "ECK0592"] "mRNA" [] "G0-10438" ["MONOMER0-2660"] null [] +"G0-10439_RNA" "kdpF" ["kdpF", "b4513", "ECK0687"] "mRNA" [] "G0-10439" ["MONOMER0-12"] null [] +"G0-10440_RNA" "ybfQ" ["ybfQ", "b4514", "ECK0693"] "mRNA" [] "G0-10440" ["MONOMER0-2662"] null [] +"G0-10441_RNA" "cydX" ["cydX", "ybgT", "b4515", "ECK0723"] "mRNA" [] "G0-10441" ["MONOMER0-2663"] null [] +"G0-10443_RNA" "ymdF" ["ymdF", "b4518", "ECK0996"] "mRNA" [] "G0-10443" ["MONOMER0-2665"] null [] +"G0-10444_RNA" "ycgI" ["ycgI", "ymgH", "b1173", "ECK1160", "b4521", "ECK1161"] "pseudo" [] "G0-10444" ["MONOMER0-2666"] null [] +"G0-10445_RNA" "ymjB" ["ymjB", "b4524", "ECK1314"] "pseudo" [] "G0-10445" ["MONOMER0-2667"] null [] +"G0-10446_RNA" "ymjC" ["ymjC", "b4525", "ECK1323"] "mRNA" [] "G0-10446" ["MONOMER0-2668"] null [] +"G0-10448_RNA" "ydaF" ["ydaF", "b4527", "ECK1352"] "mRNA" [] "G0-10448" ["MONOMER0-2670"] null [] +"G0-10449_RNA" "rzoR" ["rzoR", "b4528", "ECK1361"] "mRNA" [] "G0-10449" ["MONOMER0-2671"] null [] +"G0-10450_RNA" "ydbJ" ["ydbJ", "b4529", "ECK1375"] "mRNA" [] "G0-10450" ["MONOMER0-2672"] null [] +"G0-10451_RNA" "hicA" ["hicA", "yncN", "b4532", "ECK1431"] "mRNA" [] "G0-10451" ["MONOMER0-2673"] null [] +"G0-10452_RNA" "ynfO" ["ynfO", "b4533", "ECK1542"] "mRNA" [] "G0-10452" ["MONOMER0-2674"] null [] +"G0-10453_RNA" "yniD" ["yniD", "b4535", "ECK1719"] "mRNA" [] "G0-10453" ["MONOMER0-2675"] null [] +"G0-10454_RNA" "yobH" ["yobH", "b4536", "ECK1825"] "mRNA" [] "G0-10454" ["MONOMER0-2676"] null [] +"G0-10455_RNA" "yecJ" ["yecJ", "b4537", "ECK1901"] "mRNA" [] "G0-10455" ["MONOMER0-2677"] null [] +"G0-10456_RNA" "yoeF" ["yoeF", "b4538", "ECK2000"] "mRNA" [] "G0-10456" ["MONOMER0-2678"] null [] +"G0-10458_RNA" "yehK" ["yehK", "b4541", "ECK2110"] "mRNA" [] "G0-10458" ["MONOMER0-2680"] null [] +"G0-10459_RNA" "yohO" ["yohO", "b4542", "ECK2120"] "mRNA" [] "G0-10459" ["MONOMER0-2681"] null [] +"G0-10460_RNA" "arnE" ["arnE", "yfbW", "b4544", "ECK2251"] "mRNA" [] "G0-10460" ["MONOMER0-2682"] null [] +"G0-10461_RNA" "ypdJ" ["ypdJ", "b4545", "ECK2358"] "mRNA" [] "G0-10461" ["MONOMER0-2683"] null [] +"G0-10462_RNA" "ypeB" ["ypeB", "b4546", "ECK2405"] "mRNA" [] "G0-10462" ["MONOMER0-2684"] null [] +"G0-10463_RNA" "ypfN" ["ypfN", "b4547", "ECK2468"] "mRNA" [] "G0-10463" ["MONOMER0-2685"] null [] +"G0-10464_RNA" "ypjJ" ["ypjJ", "b4548", "ECK2641"] "mRNA" [] "G0-10464" ["MONOMER0-2686"] null [] +"G0-10465_RNA" "arfA" ["arfA", "yhdL", "b4550", "ECK3278"] "mRNA" [] "G0-10465" ["MONOMER0-2687"] null [] +"G0-10466_RNA" "yheV" ["yheV", "b4551", "ECK3337"] "mRNA" [] "G0-10466" ["MONOMER0-2688"] null [] +"G0-10467_RNA" "ysaB" ["ysaB", "b4553", "ECK3549"] "mRNA" [] "G0-10467" ["MONOMER0-2689"] null [] +"G0-10468_RNA" "yibT" ["yibT", "b4554", "ECK3591"] "mRNA" [] "G0-10468" ["MONOMER0-2690"] null [] +"G0-10469_RNA" "yicS" ["yicS", "b4555", "ECK3652"] "mRNA" [] "G0-10469" ["MONOMER0-2691"] null [] +"G0-10470_RNA" "yidD" ["yidD", "b4557", "ECK3697"] "mRNA" [] "G0-10470" ["MONOMER0-2692"] null [] +"G0-10471_RNA" "yifL" ["yifL", "b4558", "ECK3803"] "mRNA" [] "G0-10471" ["MONOMER0-2693"] null [] +"G0-10472_RNA" "ghoT" ["ghoT", "yjdO", "b4559", "ECK4122"] "mRNA" [] "G0-10472" ["MONOMER0-2694"] null [] +"G0-10473_RNA" "topAI" ["topAI", "yjhX", "b4566", "ECK4298"] "mRNA" [] "G0-10473" ["MONOMER0-2695"] null [] +"G0-10474_RNA" "yjjZ" ["yjjZ", "b4567", "ECK4358"] "mRNA" [] "G0-10474" ["MONOMER0-2696"] null [] +"G0-10475_RNA" "ytjA" ["ytjA", "b4568", "ECK4368"] "mRNA" [] "G0-10475" ["MONOMER0-2697"] null [] +"G0-10511_RNA" "yeiW" ["yeiW", "b4502", "ECK2164"] "mRNA" [] "G0-10511" ["MONOMER0-2726"] null [] +"G0-10512_RNA" "ymiA" ["ymiA", "yciX_1", "b4522", "ECK4433"] "mRNA" [] "G0-10512" ["MONOMER0-2885"] null [] +"G0-10513_RNA" "yciX" ["yciX", "yciX_2", "b4523", "ECK1270"] "mRNA" [] "G0-10513" ["MONOMER0-2886"] null [] +"G0-10525_RNA" "insEF1" ["insEF1"] "mRNA" [] "G0-10525" ["MONOMER0-2748"] null [[[1, 275], [275, 1163]]] +"G0-10528_RNA" "insEF5" ["insEF5"] "mRNA" [] "G0-10528" ["MONOMER0-4249"] null [[[1, 275], [275, 1163]]] +"G0-10529_RNA" "insEF2" ["insEF2"] "mRNA" [] "G0-10529" ["MONOMER0-4246"] null [[[1, 275], [275, 1163]]] +"G0-10530_RNA" "insEF3" ["insEF3"] "mRNA" [] "G0-10530" ["MONOMER0-4247"] null [[[1, 275], [275, 1163]]] +"G0-10531_RNA" "insEF4" ["insEF4"] "mRNA" [] "G0-10531" ["MONOMER0-4248"] null [[[1, 275], [275, 1163]]] +"G0-10535_RNA" "insAB1" ["insAB1"] "mRNA" [] "G0-10535" ["MONOMER0-2755"] null [[[1, 257], [257, 698]]] +"G0-10536_RNA" "insAB4" ["insAB4"] "mRNA" [] "G0-10536" ["MONOMER0-2756"] null [[[1, 257], [257, 698]]] +"G0-10537_RNA" "insAB2" ["insAB2"] "mRNA" [] "G0-10537" ["MONOMER0-2757"] null [[[1, 257], [257, 698]]] +"G0-10538_RNA" "insAB3" ["insAB3"] "mRNA" [] "G0-10538" ["MONOMER0-4231"] null [[[1, 257], [257, 698]]] +"G0-10539_RNA" "insAB5" ["insAB5"] "mRNA" [] "G0-10539" ["MONOMER0-4229"] null [[[1, 257], [257, 698]]] +"G0-10540_RNA" "insAB6" ["insAB6"] "mRNA" [] "G0-10540" ["MONOMER0-4230"] null [[[1, 257], [257, 698]]] +"G0-10541_RNA" "insCD1" ["insCD1"] "mRNA" [] "G0-10541" ["MONOMER0-2761"] null [[[1, 323], [323, 1229]]] +"G0-10542_RNA" "insCD2" ["insCD2"] "mRNA" [] "G0-10542" ["MONOMER0-4255"] null [[[1, 323], [323, 1229]]] +"G0-10543_RNA" "insCD3" ["insCD3"] "mRNA" [] "G0-10543" ["MONOMER0-4256"] null [[[1, 323], [323, 1229]]] +"G0-10544_RNA" "insCD4" ["insCD4"] "mRNA" [] "G0-10544" ["MONOMER0-4257"] null [[[1, 323], [323, 1229]]] +"G0-10545_RNA" "insCD5" ["insCD5"] "mRNA" [] "G0-10545" ["MONOMER0-4258"] null [[[1, 323], [323, 1229]]] +"G0-10546_RNA" "insCD6" ["insCD6"] "mRNA" [] "G0-10546" ["MONOMER0-4259"] null [[[1, 323], [323, 1229]]] +"G0-10550_RNA" "yahH" ["yahH", "b0322", "ECK0320"] "mRNA" [] "G0-10550" ["MONOMER0-2772"] null [] +"G0-10555_RNA" "peaD" ["peaD", "ybcD", "b4508", "ECK0532"] "pseudo" [] "G0-10555" [] null [] +"G0-10556_RNA" "icdC" ["icdC", "b4519", "ECK1146"] "pseudo" [] "G0-10556" ["MONOMER0-2778"] null [] +"G0-10557_RNA" "yncK" ["yncK", "insP", "b4531", "b4530", "b4578", "ECK1425"] "pseudo" [] "G0-10557" [] null [] +"G0-10559_RNA" "ynfP" ["ynfP", "ydfJ_1", "b4534", "ECK1574"] "mRNA" [] "G0-10559" ["MONOMER0-4428"] null [] +"G0-10561_RNA" "ypaA" ["ypaA", "b4543", "ECK2237"] "pseudo" [] "G0-10561" ["MONOMER0-4395"] null [] +"G0-10563_RNA" "yrhC" ["yrhC", "b4552", "ECK3468"] "pseudo" [] "G0-10563" [] null [] +"G0-10567_RNA" "insM" ["insM", "b4561", "ECK4273"] "pseudo" [] "G0-10567" [] null [] +"G0-10569_RNA" "insB7" ["insB7", "b4563", "b4564", "b4576", "ECK0022"] "pseudo" [] "G0-10569" [] null [] +"RNA0-327" "small regulatory RNA RseX" ["RseX"] "miscRNA" [] "G0-10574" [] null [] +"G0-10580_RNA" "uof" ["uof", "b4637", "ECK4461"] "mRNA" [] "G0-10580" ["MONOMER0-2801"] null [] +"G0-10583_RNA" "ykfM" ["ykfM", "b4586", "ECK4397"] "mRNA" [] "G0-10583" ["MONOMER0-2812"] null [] +"G0-10584_RNA" "ylcH" ["ylcH", "b4588", "ECK4398"] "mRNA" [] "G0-10584" ["MONOMER0-2813"] null [] +"G0-10585_RNA" "ylcI" ["ylcI", "b4589", "ECK4399"] "mRNA" [] "G0-10585" ["MONOMER0-2814"] null [] +"G0-10586_RNA" "ybfK" ["ybfK", "b4590", "ECK4400"] "phantom" [] "G0-10586" [] null [] +"G0-10587_RNA" "ybhU" ["ybhU", "b4591", "ECK4401"] "phantom" [] "G0-10587" [] null [] +"G0-10588_RNA" "appX" ["appX", "yccB", "cbdX", "b4592", "ECK4402"] "mRNA" [] "G0-10588" ["MONOMER0-2817"] null [] +"G0-10589_RNA" "ymgI" ["ymgI", "b4593", "ECK4403"] "mRNA" [] "G0-10589" ["MONOMER0-2818"] null [] +"G0-10590_RNA" "ymgJ" ["ymgJ", "b4594", "ECK4404"] "mRNA" [] "G0-10590" ["MONOMER0-2819"] null [] +"G0-10591_RNA" "yciZ" ["yciZ", "deoL", "b4596", "ECK4406"] "mRNA" [] "G0-10591" ["MONOMER0-2820"] null [] +"RNA0-328" "small regulatory RNA RydC" ["RydC"] "miscRNA" [] "G0-10592" [] null [] +"G0-10593_RNA" "ydgU" ["ydgU", "b4601", "ECK4410"] "mRNA" [] "G0-10593" ["MONOMER0-2821"] null [] +"G0-10594_RNA" "cydH" ["cydH", "ynhF", "b4602", "ECK4411"] "mRNA" [] "G0-10594" ["MONOMER0-2822"] null [] +"G0-10595_RNA" "yojO" ["yojO", "b4604", "ECK4413"] "mRNA" [] "G0-10595" ["MONOMER0-2823"] null [] +"G0-10596_RNA" "ypaB" ["ypaB", "b4605", "ECK4414"] "mRNA" [] "G0-10596" ["MONOMER0-2824"] null [] +"G0-10597_RNA" "ryfB" ["ryfB", "shoB", "b4607", "ECK4416"] "phantom" [] "G0-10597" [] null [] +"RNA0-330" "small regulatory RNA OhsC" ["RyfC", "OhsC"] "miscRNA" [] "G0-10598" [] null [] +"RNA0-331" "small regulatory RNA RyfD" ["RyfD"] "miscRNA" [] "G0-10600" [] null [] +"G0-10601_RNA" "ygdT" ["ygdT", "b4610", "ECK4419"] "mRNA" [] "G0-10601" ["MONOMER0-2825"] null [] +"RNA0-332" "small RNA SibE" ["RygE", "QUAD1e", "SibE"] "miscRNA" [] "G0-10602" [] null [] +"G0-10603_RNA" "yrhD" ["yrhD", "b4612", "ECK4421"] "mRNA" [] "G0-10603" ["MONOMER0-2826"] null [] +"G0-10604_RNA" "sokA" ["sokA", "b4614", "ECK4423"] "pseudo" [] "G0-10604" [] null [] +"G0-10605_RNA" "yibV" ["yibV", "b4615", "ECK4424"] "mRNA" [] "G0-10605" ["MONOMER0-2827"] null [] +"G0-10606_RNA" "yjbT" ["yjbT", "b4620", "ECK4428"] "mRNA" [] "G0-10606" ["MONOMER0-2828"] null [] +"G0-10607_RNA" "yjbS" ["yjbS", "b4621", "ECK4429"] "mRNA" [] "G0-10607" ["MONOMER0-2829"] null [] +"G0-10608_RNA" "ytcA" ["ytcA", "b4622", "ECK4430"] "mRNA" [] "G0-10608" ["MONOMER0-2830"] null [] +"RNA0-333" "small RNA RyjB" ["RyjB"] "miscRNA" [] "G0-10609" [] null [] +"RNA0-334" "small regulatory RNA antitoxin SymR" ["RyjC", "SymR"] "miscRNA" [] "G0-10610" [] null [] +"G0-10614_RNA" "ykfL" ["ykfL", "b4627", "ECK4445"] "pseudo" [] "G0-10614" [] null [] +"G0-10615_RNA" "ykfK" ["ykfK", "b4628", "ECK4444"] "pseudo" [] "G0-10615" [] null [] +"G0-10616_RNA" "ythA" ["ythA", "b4655", "ECK4434"] "mRNA" [] "G0-10616" ["MONOMER0-2840"] null [] +"G0-10617_RNA" "sgrT" ["sgrT", "b4662", "ECK4477"] "mRNA" [] "G0-10617" ["MONOMER0-2842"] null [] +"G0-10624_RNA" "insJK" ["insJK"] "mRNA" [] "G0-10624" ["MONOMER0-2851"] null [[[1, 489], [489, 1369]]] +"G0-10629_RNA" "ibsE" ["ibsE", "b4666", "ECK4481"] "mRNA" [] "G0-10629" ["MONOMER0-2855"] null [] +"G0-10630_RNA" "ibsD" ["ibsD", "b4664", "ECK4479"] "mRNA" [] "G0-10630" ["MONOMER0-2856"] null [] +"G0-10631_RNA" "ibsC" ["ibsC", "b4665", "ECK4480"] "mRNA" [] "G0-10631" ["MONOMER0-2857"] null [] +"G0-10632_RNA" "ibsB" ["ibsB", "b4668", "ECK4483"] "mRNA" [] "G0-10632" ["MONOMER0-2858"] null [] +"G0-10633_RNA" "ibsA" ["ibsA", "b4667", "ECK4482"] "mRNA" [] "G0-10633" ["MONOMER0-2859"] null [] +"G0-10634_RNA" "shoB" ["shoB", "yphI", "ryfB", "b4681", "b4687", "ECK4502"] "mRNA" [] "G0-10634" ["MONOMER0-2860"] null [] +"G0-10641_RNA" "ilvX" ["ilvX", "b4669", "ECK4484"] "mRNA" [] "G0-10641" ["MONOMER0-2868"] null [] +"G0-10642_RNA" "yjeV" ["yjeV", "b4670", "ECK4485"] "mRNA" [] "G0-10642" ["MONOMER0-2869"] null [] +"G0-10643_RNA" "yoeI" ["yoeI", "b4678", "ECK4493"] "mRNA" [] "G0-10643" ["MONOMER0-2870"] null [] +"G0-10644_RNA" "yobI" ["yobI", "b4677", "ECK4492"] "mRNA" [] "G0-10644" ["MONOMER0-2871"] null [] +"G0-10645_RNA" "ymjD" ["ymjD", "b4673", "ECK4488"] "mRNA" [] "G0-10645" ["MONOMER0-2872"] null [] +"G0-10646_RNA" "ynbG" ["ynbG", "b4674", "ECK4489"] "mRNA" [] "G0-10646" ["MONOMER0-2873"] null [] +"G0-10647_RNA" "ypdK" ["ypdK", "b4680", "ECK4495"] "mRNA" [] "G0-10647" ["MONOMER0-2874"] null [] +"G0-10648_RNA" "yoaJ" ["yoaJ", "b4675", "ECK4490"] "mRNA" [] "G0-10648" ["MONOMER0-2875"] null [] +"G0-10649_RNA" "yoaK" ["yoaK", "b4676", "ECK4491"] "mRNA" [] "G0-10649" ["MONOMER0-2876"] null [] +"G0-10650_RNA" "yqeL" ["yqeL", "b4683", "ECK4498"] "mRNA" [] "G0-10650" ["MONOMER0-2877"] null [] +"G0-10651_RNA" "yrbN" ["yrbN", "b4685", "ECK4500"] "mRNA" [] "G0-10651" ["MONOMER0-2878"] null [] +"G0-10652_RNA" "yohP" ["yohP", "b4679", "ECK4494"] "mRNA" [] "G0-10652" ["MONOMER0-2879"] null [] +"G0-10653_RNA" "azuC" ["azuC", "b4663", "ECK4478"] "mRNA" [] "G0-10653" ["MONOMER0-2880"] null [] +"G0-10654_RNA" "ykgR" ["ykgR", "b4671", "ECK4486"] "mRNA" [] "G0-10654" ["MONOMER0-2881"] null [] +"G0-10655_RNA" "yqcG" ["yqcG", "b4682", "ECK4497"] "mRNA" [] "G0-10655" ["MONOMER0-2882"] null [] +"G0-10656_RNA" "yqfG" ["yqfG", "b4684", "ECK4499"] "mRNA" [] "G0-10656" ["MONOMER0-2883"] null [] +"G0-10657_RNA" "yshB" ["yshB", "b4686", "ECK4501"] "mRNA" [] "G0-10657" ["MONOMER0-2884"] null [] +"RNA0-348" "small regulatory RNA MgrR" ["MgrR"] "miscRNA" [] "G0-10671" [] null [] +"RNA0-349" "small regulatory RNA FnrS" ["FnrS"] "miscRNA" [] "G0-10677" [] null [] +"G0-10682_RNA" "ykgQ" ["ykgQ", "b4631", "ECK4454"] "pseudo" [] "G0-10682" [] null [] +"G0-10689_RNA" "mgtL" ["mgtL", "b4702", "ECK4513"] "mRNA" [] "G0-10689" ["MONOMER0-4201"] null [] +"RNA0-351" "small regulatory RNA ArrS" ["6H57", "ArrS"] "miscRNA" [] "G0-10694" [] null [] +"RNA0-357" "small RNA SokX" ["SokX"] "miscRNA" [] "G0-10695" [] null [] +"RNA0-358" "CP4-6 prophage; small RNA EyeA" ["I001", "EyeA"] "miscRNA" [] "G0-10696" [] null [] +"G0-10697_RNA" null [] "pseudo" [] "G0-10697" [] null [] +"G0-10698_RNA" null [] "phantom" [] "G0-10698" [] null [] +"RNA0-361" "small regulatory RNA SdsN" ["SdsN"] "miscRNA" [] "G0-10699" [] null [] +"G0-10700_RNA" null [] "phantom" [] "G0-10700" [] null [] +"RNA0-363" "small regulatory RNA Och5" ["Och5"] "miscRNA" [] "G0-10701" [] null [] +"G0-10702_RNA" null [] "phantom" [] "G0-10702" [] null [] +"G0-10703_RNA" null [] "phantom" [] "G0-10703" [] null [] +"G0-10704_RNA" null [] "phantom" [] "G0-10704" [] null [] +"G0-10705_RNA" null [] "phantom" [] "G0-10705" [] null [] +"RNA0-368" "small RNA" [] "miscRNA" [] "G0-10706" [] null [] +"G0-10707_RNA" "pmrR" ["pmrR", "b4703", "ECK4515"] "mRNA" [] "G0-10707" ["MONOMER0-4214"] null [] +"G0-10715_RNA" "mntS" ["mntS", "G0-8881", "b4705", "ECK4517"] "mRNA" [] "G0-10715" ["MONOMER0-4216"] null [] +"G0-10716_RNA" "iroK" ["iroK", "b4706", "ECK4518"] "mRNA" [] "G0-10716" ["MONOMER0-4224"] null [] +"RNA0-372" "small RNA EsrE" ["EsrE"] "miscRNA" [] "G0-10737" [] null [] +"RNA0-378" "small noncoding RNA involved in nucleoid organization" ["Nc1"] "miscRNA" [] "G0-10738" [] null [] +"RNA0-379" "small RNA AgrA" ["AgrA"] "miscRNA" [] "G0-10751" [] null [] +"RNA0-380" "small regulatory RNA AgrB" ["AgrB"] "miscRNA" [] "G0-10752" [] null [] +"RNA0-385" "Rac prophage; small regulatory RNA antitoxin RalA" ["RalA", "RalA antitoxin of the RalRA toxin-antitoxin system"] "miscRNA" [] "G0-16600" [] null [] +"RNA0-386" "small regulatory RNA MicL-S" ["SlrA", "MicL-S", "RyeF"] "miscRNA" [] "G0-16601" [] null [] +"RNA0-387" "small RNA RyeG" ["IS118", "RyeG"] "miscRNA" [] "G0-16635" [] null [] +"RNA0-388" "small regulatory RNA 3'ETSleuZ" [] "miscRNA" [] "G0-16636" [] null [] +"G0-16637_RNA" "insB9" ["insB9", "b4710", "ECK4567"] "mRNA" [] "G0-16637" ["MONOMER0-4345"] null [] +"G0-16638_RNA" "insA9" ["insA9", "b4709", "ECK4566"] "mRNA" [] "G0-16638" ["MONOMER0-4346"] null [] +"G0-16639_RNA" "insH21" ["insH21", "b4711", "ECK4568"] "mRNA" [] "G0-16639" ["MONOMER0-4347"] null [] +"G0-16640_RNA" "ytiA" ["ytiA", "b4715", "ECK4572"] "mRNA" [] "G0-16640" ["MONOMER0-4349"] null [] +"RNA0-389" "small regulatory RNA CpxQ" ["CpxQ"] "miscRNA" [] "G0-16649" [] null [] +"G0-16653_RNA" "ypjI" ["ypjI", "b4644", "ECK4438"] "pseudo" [] "G0-16653" ["G0-16653-MONOMER"] null [] +"G0-16654_RNA" "pawZ" ["pawZ", "b4643", "ECK4464"] "pseudo" [] "G0-16654" [] null [] +"G0-16655_RNA" "yoeD" ["yoeD", "b4642", "ECK4443"] "pseudo" [] "G0-16655" [] null [] +"G0-16656_RNA" "yoeH" ["yoeH", "b4641", "ECK4452"] "pseudo" [] "G0-16656" [] null [] +"G0-16657_RNA" "yoeG" ["yoeG", "b4640", "ECK4451"] "pseudo" [] "G0-16657" [] null [] +"G0-16658_RNA" "yeeH" ["yeeH", "b4639", "ECK4437"] "pseudo" [] "G0-16658" [] null [] +"G0-16659_RNA" "ttcC" ["ttcC", "b4638", "ECK4447"] "pseudo" [] "G0-16659" ["G0-16659-MONOMER"] null [] +"G0-16660_RNA" "psaA" ["psaA", "b4645", "ECK4465"] "pseudo" [] "G0-16660" [] null [] +"G0-16661_RNA" "yrdE" ["yrdE", "b4646", "ECK4442"] "pseudo" [] "G0-16661" [] null [] +"RNA0-390" "small regulatory RNA RirA" ["RirA"] "miscRNA" [] "G0-16662" [] null [] +"G0-16663_RNA" "mokA" ["mokA", "b4647", "ECK4448"] "pseudo" [] "G0-16663" [] null [] +"G0-16664_RNA" "ysaC" ["ysaC", "b4648", "ECK4459"] "pseudo" [] "G0-16664" [] null [] +"G0-16665_RNA" "ysaD" ["ysaD", "b4649", "ECK4460"] "pseudo" [] "G0-16665" [] null [] +"G0-16666_RNA" "yibS" ["yibS", "b4650", "ECK4440"] "pseudo" [] "G0-16666" ["G0-16666-MONOMER"] null [] +"G0-16667_RNA" "yibW" ["yibW", "b4651", "ECK4450"] "pseudo" [] "G0-16667" [] null [] +"G0-16668_RNA" "yibU" ["yibU", "b4652", "ECK4449"] "pseudo" [] "G0-16668" [] null [] +"G0-16669_RNA" "yicT" ["yicT", "erhM", "rhuM", "b4653", "ECK4456"] "pseudo" [] "G0-16669" [] null [] +"G0-16670_RNA" "yjdQ" ["yjdQ", "b4654", "ECK4457"] "pseudo" [] "G0-16670" [] null [] +"G0-16671_RNA" "yjhY" ["yjhY", "b4656", "ECK4453"] "pseudo" [] "G0-16671" [] null [] +"G0-16672_RNA" "yjhZ" ["yjhZ", "b4657", "ECK4455"] "pseudo" [] "G0-16672" ["G0-16672-MONOMER"] null [] +"G0-16673_RNA" "ymiB" ["ymiB", "b4672", "ECK4487"] "mRNA" [] "G0-16673" ["MONOMER0-4368"] null [] +"G0-16674_RNA" "ykgS" ["ykgS", "b4688", "ECK4504"] "mRNA" [] "G0-16674" ["MONOMER0-4436"] null [] +"G0-16675_RNA" "rzoQ" ["rzoQ", "b4689", "ECK4503"] "mRNA" [] "G0-16675" ["MONOMER0-4369"] null [] +"G0-16676_RNA" "yrdF" ["yrdF", "b4697", "ECK4509"] "pseudo" [] "G0-16676" [] null [] +"RNA0-391" "small RNA SokE" ["SokE"] "miscRNA" [] "G0-16677" [] null [] +"G0-16679_RNA" "insI2" ["insI2", "b4708", "ECK4564"] "pseudo" [] "G0-16679" [] null [] +"RNA0-392" "small regulatory RNA GadF" ["GadF"] "miscRNA" [] "G0-16680" [] null [] +"G0-16685_RNA" "idlP" ["idlP", "b4722", "ECK4579"] "mRNA" [] "G0-16685" ["MONOMER0-4390"] null [] +"G0-16686_RNA" "ytiC" ["ytiC", "b4720", "ECK4577"] "mRNA" [] "G0-16686" ["MONOMER0-4391"] null [] +"G0-16687_RNA" "ytiD" ["ytiD", "b4721", "ECK4578"] "mRNA" [] "G0-16687" ["MONOMER0-4392"] null [] +"G0-16688_RNA" "ymcF" ["ymcF", "b4723", "ECK4580"] "mRNA" [] "G0-16688" ["MONOMER0-4393"] null [] +"G0-16689_RNA" "ynfQ" ["ynfQ", "b4724", "ECK4581"] "mRNA" [] "G0-16689" ["MONOMER0-4394"] null [] +"G0-16690_RNA" "rseD" ["rseD", "b4725", "ECK4582"] "mRNA" [] "G0-16690" ["MONOMER0-4396"] null [] +"G0-16693_RNA" "gndA" ["gndA"] "mRNA" [] "G0-16693" ["MONOMER0-4397"] null [] +"RNA0-393" "naRNA1" [] "miscRNA" [] "G0-16694" [] null [] +"RNA0-394" "naRNA2" [] "miscRNA" [] "G0-16695" [] null [] +"RNA0-395" "naRNA3" [] "miscRNA" [] "G0-16696" [] null [] +"RNA0-396" "naRNA4" [] "miscRNA" [] "G0-16697" [] null [] +"RNA0-397" "naRNA5" [] "miscRNA" [] "G0-16698" [] null [] +"RNA0-398" "naRNA6" [] "miscRNA" [] "G0-16699" [] null [] +"RNA0-400" "small regulatory RNA PspH" ["PspH"] "miscRNA" [] "G0-16700" [] null [] +"G0-16713_RNA" "ylbI" ["ylbI", "b4632", "ECK4441"] "pseudo" [] "G0-16713" ["G0-16713-MONOMER"] null [] +"G0-16714_RNA" "ybfI" ["ybfI", "b4636", "ECK4436"] "pseudo" [] "G0-16714" [] null [] +"G0-16715_RNA" "ykfN" ["ykfN", "b4626", "ECK4458"] "pseudo" [] "G0-16715" ["G0-16715-MONOMER"] null [] +"G0-16716_RNA" "ykgP" ["ykgP", "b4630", "ECK4446"] "pseudo" [] "G0-16716" ["G0-16716-MONOMER"] null [] +"G0-16717_RNA" "xisD" ["xisD", "ybcB", "b4633", "ECK4435"] "pseudo" [] "G0-16717" ["G0-16717-MONOMER"] null [] +"G0-16718_RNA" "aaaD" ["aaaD", "ylcF", "b4634", "ECK4439"] "pseudo" [] "G0-16718" ["G0-16718-MONOMER"] null [] +"G0-16719_RNA" "oweE" ["oweE", "b4692", "ECK4507"] "pseudo" [] "G0-16719" ["G0-16719-MONOMER"] null [] +"G0-16720_RNA" "aaaE" ["aaaE", "b4693", "ECK1135"] "pseudo" [] "G0-16720" ["G0-16720-MONOMER"] null [] +"G0-16721_RNA" "yabR" ["yabR", "b4726", "ECK4583"] "mRNA" [] "G0-16721" ["MONOMER0-4403"] null [] +"G0-16722_RNA" "yacM" ["yacM", "b4727", "ECK4584"] "mRNA" [] "G0-16722" ["MONOMER0-4404"] null [] +"G0-16723_RNA" "yadW" ["yadW", "b4728", "ECK4585"] "mRNA" [] "G0-16723" ["MONOMER0-4405"] null [] +"G0-16724_RNA" "ykgV" ["ykgV", "b4729", "ECK4586"] "mRNA" [] "G0-16724" ["MONOMER0-4406"] null [] +"G0-16725_RNA" "yahV" ["yahV", "b4730", "ECK4587"] "mRNA" [] "G0-16725" ["MONOMER0-4407"] null [] +"G0-16726_RNA" "ykiC" ["ykiC", "b4731", "ECK4588"] "mRNA" [] "G0-16726" ["MONOMER0-4408"] null [] +"G0-16727_RNA" "ykiD" ["ykiD", "b4732", "ECK4589"] "mRNA" [] "G0-16727" ["MONOMER0-4409"] null [] +"G0-16728_RNA" "ylcJ" ["ylcJ", "b4733", "ECK4590"] "mRNA" [] "G0-16728" ["MONOMER0-4410"] null [] +"G0-16729_RNA" "yldA" ["yldA", "b4734", "ECK4591"] "mRNA" [] "G0-16729" ["MONOMER0-4411"] null [] +"G0-16730_RNA" "ybgU" ["ybgU", "b4735", "ECK4592"] "mRNA" [] "G0-16730" ["MONOMER0-4412"] null [] +"G0-16731_RNA" "yliM" ["yliM", "b4736", "ECK4593"] "mRNA" [] "G0-16731" ["MONOMER0-4413"] null [] +"G0-16732_RNA" "ymdG" ["ymdG", "b4737", "ECK4594"] "mRNA" [] "G0-16732" ["MONOMER0-4414"] null [] +"G0-16733_RNA" "ymgK" ["ymgK", "b4738", "ECK4595"] "mRNA" [] "G0-16733" ["MONOMER0-4415"] null [] +"G0-16734_RNA" "ymgL" ["ymgL", "b4739", "ECK4596"] "mRNA" [] "G0-16734" ["MONOMER0-4416"] null [] +"G0-16735_RNA" "ymgM" ["ymgM", "b4740", "ECK4597"] "mRNA" [] "G0-16735" ["MONOMER0-4417"] null [] +"G0-16736_RNA" "ymiC" ["ymiC", "b4741", "ECK4598"] "mRNA" [] "G0-16736" ["MONOMER0-4418"] null [] +"G0-16737_RNA" "ymjE" ["ymjE", "b4742", "ECK4599"] "mRNA" [] "G0-16737" ["MONOMER0-4419"] null [] +"G0-16738_RNA" "ynaM" ["ynaM", "b4744", "ECK4601"] "mRNA" [] "G0-16738" ["MONOMER0-4421"] null [] +"G0-16739_RNA" "yncO" ["yncO", "b4745", "ECK4602"] "mRNA" [] "G0-16739" ["MONOMER0-4422"] null [] +"G0-16740_RNA" "yddY" ["yddY", "b4746", "ECK4603"] "mRNA" [] "G0-16740" ["MONOMER0-4423"] null [] +"G0-16741_RNA" "yneP" ["yneP", "b4747", "ECK4604"] "mRNA" [] "G0-16741" ["MONOMER0-4424"] null [] +"G0-16742_RNA" "ynfT" ["ynfT", "b4748", "ECK4605"] "mRNA" [] "G0-16742" ["MONOMER0-4425"] null [] +"G0-16743_RNA" "ynfR" ["ynfR", "b4749", "ECK4606"] "mRNA" [] "G0-16743" ["MONOMER0-4426"] null [] +"G0-16744_RNA" "ynfS" ["ynfS", "b4750", "ECK4607"] "mRNA" [] "G0-16744" ["MONOMER0-4427"] null [] +"G0-16745_RNA" "yoaL" ["yoaL", "b4751", "ECK4608"] "mRNA" [] "G0-16745" ["MONOMER0-4429"] null [] +"G0-16746_RNA" "yecU" ["yecU", "b4752", "ECK4609"] "mRNA" [] "G0-16746" ["MONOMER0-4430"] null [] +"G0-16747_RNA" "yqfH" ["yqfH", "b4753", "ECK4610"] "mRNA" [] "G0-16747" ["MONOMER0-4431"] null [] +"G0-16748_RNA" "yqfI" ["yqfI", "b4754", "ECK4611"] "mRNA" [] "G0-16748" ["MONOMER0-4432"] null [] +"G0-16749_RNA" "yqhI" ["yqhI", "b4755", "ECK4612"] "mRNA" [] "G0-16749" ["MONOMER0-4433"] null [] +"G0-16750_RNA" "yqiD" ["yqiD", "b4756", "ECK4613"] "mRNA" [] "G0-16750" ["MONOMER0-4434"] null [] +"G0-16751_RNA" "ysdD" ["ysdD", "b4757", "ECK4614"] "mRNA" [] "G0-16751" ["MONOMER0-4435"] null [] +"RNA0-403" "small regulatory RNA SdhX" ["SdhX", "RybD"] "miscRNA" [] "G0-17009" [] null [] +"G0-17011_RNA" "yadX" ["yadX", "b4765", "ECK4622"] "mRNA" [] "G0-17011" ["MONOMER0-4478"] null [] +"G0-17012_RNA" "argL" ["argL", "b4766", "ECK4623"] "mRNA" [] "G0-17012" ["MONOMER0-4479"] null [] +"G0-17013_RNA" "ytiB" ["ytiB", "b4767", "ECK4624"] "mRNA" [] "G0-17013" ["MONOMER0-4480"] null [] +"G0-17014_RNA" "ybgV" ["ybgV", "b4768", "ECK4625"] "mRNA" [] "G0-17014" ["MONOMER0-4481"] null [] +"G0-17015_RNA" "ybiE" ["ybiE", "b4769", "ECK4626"] "mRNA" [] "G0-17015" ["MONOMER0-4507"] null [] +"G0-17016_RNA" "yljB" ["yljB", "b4770", "ECK4627"] "mRNA" [] "G0-17016" ["MONOMER0-4482"] null [] +"G0-17017_RNA" "ychT" ["ychT", "b4771", "ECK4627"] "mRNA" [] "G0-17017" ["MONOMER0-4483"] null [] +"G0-17018_RNA" "ymiD" ["ymiD", "b4772", "ECK4629"] "mRNA" [] "G0-17018" ["MONOMER0-4484"] null [] +"G0-17019_RNA" "ynaN" ["ynaN", "b4773", "ECK4630"] "mRNA" [] "G0-17019" ["MONOMER0-4485"] null [] +"G0-17020_RNA" "yncP" ["yncP", "b4774", "ECK4631"] "mRNA" [] "G0-17020" ["MONOMER0-4486"] null [] +"G0-17021_RNA" "mgtT" ["mgtT", "b4775", "ECK4632"] "mRNA" [] "G0-17021" ["MONOMER0-4487"] null [] +"G0-17022_RNA" "ynfU" ["ynfU", "b4776", "ECK4633"] "mRNA" [] "G0-17022" ["MONOMER0-4488"] null [] +"G0-17023_RNA" "mdtU" ["mdtU", "ydgV", "b4777", "ECK4634"] "mRNA" [] "G0-17023" ["MONOMER0-4489"] null [] +"G0-17024_RNA" "yecV" ["yecV", "b4778", "ECK4635"] "mRNA" [] "G0-17024" ["MONOMER0-4490"] null [] +"G0-17025_RNA" "yoaM" ["yoaM", "b4779", "ECK4636"] "mRNA" [] "G0-17025" ["MONOMER0-4491"] null [] +"G0-17026_RNA" "yodE" ["yodE", "b4780", "ECK4637"] "mRNA" [] "G0-17026" ["MONOMER0-4492"] null [] +"G0-17027_RNA" "evgL" ["evgL", "b4781", "ECK4638"] "mRNA" [] "G0-17027" ["MONOMER0-4493"] null [] +"G0-17028_RNA" "pssL" ["pssL", "b4782", "ECK4639"] "mRNA" [] "G0-17028" ["MONOMER0-4494"] null [] +"G0-17029_RNA" "yfiS" ["yfiS", "b4783", "ECK4639"] "mRNA" [] "G0-17029" ["MONOMER0-4495"] null [] +"G0-17030_RNA" "yqgG" ["yqgG", "b4784", "ECK4641"] "mRNA" [] "G0-17030" ["MONOMER0-4496"] null [] +"G0-17031_RNA" "yqgH" ["yqgH", "b4785", "ECK4642"] "mRNA" [] "G0-17031" ["MONOMER0-4497"] null [] +"G0-17032_RNA" "yqhJ" ["yqhJ", "b4786", "ECK4643"] "mRNA" [] "G0-17032" ["MONOMER0-4498"] null [] +"G0-17033_RNA" "yqiM" ["yqiM", "b4787", "ECK4644"] "mRNA" [] "G0-17033" ["MONOMER0-4499"] null [] +"G0-17034_RNA" "yhgO" ["yhgO", "b4788", "ECK4645"] "mRNA" [] "G0-17034" ["MONOMER0-4500"] null [] +"G0-17035_RNA" "yhgP" ["yhgP", "b4789", "ECK4646"] "mRNA" [] "G0-17035" ["MONOMER0-4501"] null [] +"G0-17036_RNA" "yhiY" ["yhiY", "b4790", "ECK4647"] "mRNA" [] "G0-17036" ["MONOMER0-4502"] null [] +"G0-17037_RNA" "yriA" ["yriA", "b4791", "ECK4648"] "mRNA" [] "G0-17037" ["MONOMER0-4503"] null [] +"G0-17038_RNA" "yriB" ["yriB", "b4792", "ECK4649"] "mRNA" [] "G0-17038" ["MONOMER0-4504"] null [] +"G0-17039_RNA" "ysaE" ["ysaE", "b4793", "ECK4650"] "mRNA" [] "G0-17039" ["MONOMER0-4505"] null [] +"G0-17040_RNA" "baxL" ["baxL", "b4794", "ECK4651"] "mRNA" [] "G0-17040" ["MONOMER0-4506"] null [] +"G0-17041_RNA" "yibX" ["yibX", "b4795", "ECK4652"] "mRNA" [] "G0-17041" ["MONOMER0-4509", "MONOMER0-4508"] null [[[169, 243]], []] +"G0-17042_RNA" "yibY" ["yibY", "b4796", "ECK4653"] "mRNA" [] "G0-17042" ["MONOMER0-4510"] null [] +"G0-17043_RNA" "yicU" ["yicU", "b4797", "ECK4654"] "mRNA" [] "G0-17043" ["MONOMER0-4511"] null [] +"G0-17044_RNA" "ysdE" ["ysdE", "b4798", "ECK4655"] "mRNA" [] "G0-17044" ["MONOMER0-4512"] null [] +"G0-17045_RNA" "ysgD" ["ysgD", "b4799", "ECK4656"] "mRNA" [] "G0-17045" ["MONOMER0-4513"] null [] +"G0-17046_RNA" "ytgA" ["ytgA", "b4800", "ECK4657"] "mRNA" [] "G0-17046" ["MONOMER0-4514"] null [] +"G0-17047_RNA" "ykiE" ["ykiE", "b4801", "ECK4658"] "mRNA" [] "G0-17047" ["MONOMER0-4515"] null [] +"G0-17048_RNA" "ythB" ["ythB", "b4802", "ECK4659"] "mRNA" [] "G0-17048" ["MONOMER0-4516"] null [] +"G0-17074_RNA" "speFL" ["speFL", "b4803", "ECK4660"] "mRNA" [] "G0-17074" ["MONOMER0-4532"] null [] +"RNA0-405" "small RNA OrzP" ["OrzP"] "miscRNA" [] "G0-17076" [] null [] +"RNA0-406" "small regulatory RNA RbsZ" ["RbsZ"] "miscRNA" [] "G0-17077" [] null [] +"RNA0-407" "small RNA RaiZ" ["RaiZ"] "miscRNA" [] "G0-17078" [] null [] +"RNA0-408" "small RNA IpeX" ["IpeX"] "miscRNA" [] "G0-17079" [] null [] +"RNA0-410" "small regulatory RNA MalH" ["MalH"] "miscRNA" [] "G0-17082" [] null [] +"RNA0-411" "small regulatory RNA ChiZ" ["ChiZ"] "miscRNA" [] "G0-17083" [] null [] +"RNA0-412" "small regulatory RNA IspZ" ["IspZ"] "miscRNA" [] "G0-17084" [] null [] +"RNA0-413" "small regulatory RNA FtsO" ["FtsO"] "miscRNA" [] "G0-17085" [] null [] +"G0-17086_RNA" "timR" ["timR", "b4811", "ECK4668"] "mRNA" [] "G0-17086" [] null [] +"G0-17087_RNA" "timP" ["timP", "b4812", "ECK4669"] "mRNA" [] "G0-17087" ["MONOMER0-4540"] null [] +"G0-41_RNA" "ecnA" ["ecnA", "b4410", "ECK4142"] "mRNA" [] "G0-41" ["MONOMER0-1562"] null [] +"G0-8601_RNA" "glcF" ["glcF", "gox", "yghL", "b2978", "b4467", "ECK2972"] "mRNA" [] "G0-8601" ["MONOMER0-561"] null [] +"CSRB-RNA" "small regulatory RNA CsrB" ["CsrB"] "miscRNA" [] "G0-8785" [] null [] +"SRAA-RNA" "small RNA SraA" ["SraA", "PsrA3", "T15"] "miscRNA" [] "G0-8861" [] null [] +"SRAB-RNA" "small RNA SraB" ["SraB", "PsrA4", "Pke20", "PsrD"] "miscRNA" [] "G0-8862" [] null [] +"RPRA-RNA" "small regulatory RNA RprA" ["RprA", "PsrA5", "IS083"] "miscRNA" [] "G0-8863" [] null [] +"RYEA-RNA" "small antisense RNA RyeA" ["RyeA", "SraC", "PsrA8", "Tkpe79", "IS091"] "miscRNA" [] "G0-8865" [] null [] +"SRAD-RNA" "small regulatory RNA MicA" ["SraD", "PsrA10", "MicA"] "miscRNA" [] "G0-8866" [] null [] +"GCVB-RNA" "small regulatory RNA GcvB" ["GcvB", "PsrA11", "IS145"] "miscRNA" [] "G0-8867" [] null [] +"SRAE-RNA" "small regulatory RNA OmrA" ["SraE", "PsrA12", "RygA", "PAIR2a", "T59", "OmrA"] "miscRNA" [] "G0-8868" [] null [] +"G0-8869_RNA" "sraF" ["sraF", "psrA14", "tpk1", "IS160", "psrN", "b4448", "ECK3078"] "phantom" [] "G0-8869" [] null [] +"SRAG-RNA" "small regulatory RNA SraG" ["SraG", "PsrA15", "P3", "PsrO"] "miscRNA" [] "G0-8870" [] null [] +"SRAH-RNA" "small regulatory RNA ArcZ" ["SraH", "PsrA16", "RyhA", "ArcZ"] "miscRNA" [] "G0-8871" [] null [] +"SRAI-RNA" "small regulatory RNA RyhB" ["SraI", "PsrA18", "RyhB", "IS176", "RyhB small regulatory RNA involved in iron homeostasis"] "miscRNA" [] "G0-8872" [] null [] +"SRAJ-RNA" "small regulatory RNA GlmZ" ["SraJ", "PsrA20", "RyiA", "K19", "GlmZ"] "miscRNA" [] "G0-8873" [] null [] +"CSRC-RNA" "small regulatory RNA CsrC" ["CsrC", "SraK", "PsrA21", "RyiB", "Tpk2", "IS198", "RNA inhibitor of CsrA"] "miscRNA" [] "G0-8874" [] null [] +"SRAL-RNA" "small RNA RyjA" ["SraL", "PsrA24", "RyjA"] "miscRNA" [] "G0-8875" [] null [] +"RYDB-RNA" "small regulatory RNA RydB" ["RydB", "Tpe7", "IS082", "RydB small RNA regulator of RpoS"] "miscRNA" [] "G0-8876" [] null [] +"RYEE-RNA" "small regulatory RNA CyaR" ["CyaR", "RyeE"] "miscRNA" [] "G0-8878" [] null [] +"RYFA-RNA" "small regulatory RNA RyfA" ["RyfA", "PAIR3b", "Tp1"] "miscRNA" [] "G0-8879" [] null [] +"RYBB-RNA" "small regulatory RNA RybB" ["RybB", "P25"] "miscRNA" [] "G0-8880" [] null [] +"RYBA-RNA" "small RNA RybA" ["RybA"] "miscRNA" [] "G0-8881" [] null [] +"RYGB-RNA" "small regulatory RNA OmrB" ["RygB", "PAIR2b", "T59", "OmrB"] "miscRNA" [] "G0-8882" [] null [] +"RYEB-RNA" "small regulatory RNA SdsR" ["RyeB", "Tkpe79", "SdsR"] "miscRNA" [] "G0-8883" [] null [] +"RYEC-RNA" "small RNA SibA" ["RyeC", "QUAD1a", "Tp11", "SibA"] "miscRNA" [] "G0-8884" [] null [] +"RYED-RNA" "small RNA SibB" ["RyeD", "QUAD1b", "Tpe60", "SibB"] "miscRNA" [] "G0-8885" [] null [] +"RYGC-RNA" "small regulatory RNA antitoxin SibC" ["RygC", "QUAD1c", "T27", "SibC"] "miscRNA" [] "G0-8886" [] null [] +"G0-8887_RNA" "yncL" ["yncL", "b4598", "ECK4408"] "mRNA" [] "G0-8887" ["MONOMER0-761"] null [] +"G0-8888_RNA" "ypfM" ["ypfM", "b4606", "ECK4415"] "mRNA" [] "G0-8888" ["MONOMER0-762"] null [] +"G0-8891_RNA" "yciY" ["yciY", "b4595", "ECK4405"] "mRNA" [] "G0-8891" ["MONOMER0-765"] null [] +"G0-8892_RNA" "mgtS" ["mgtS", "yneM", "b4599", "ECK4409"] "mRNA" [] "G0-8892" ["MONOMER0-766"] null [] +"G0-8893_RNA" "tpke11" ["tpke11"] "phantom" [] "G0-8893" [] null [] +"G0-8894_RNA" "tp2" ["tp2"] "phantom" [] "G0-8894" [] null [] +"T44-RNA" "putative small RNA T44" ["T44", "Tff", "T44 putative small RNA or attenuator"] "miscRNA" [] "G0-8895" [] null [] +"G0-8896_RNA" "C0067" ["C0067"] "phantom" [] "G0-8896" [] null [] +"RNA0-409" "e14 prophage; small regulatory RNA C0293" ["C0293"] "miscRNA" [] "G0-8897" [] null [] +"G0-8898_RNA" "C0299" ["C0299"] "phantom" [] "G0-8898" [] null [] +"IS061-RNA" "small regulatory RNA McaS" ["IS061", "IsrA", "McaS"] "miscRNA" [] "G0-8899" [] null [] +"G0-8900_RNA" "ynaL" ["ynaL", "C0343", "b4743", "ECK4600"] "mRNA" [] "G0-8900" ["MONOMER0-4420"] null [] +"TKE8-RNA" "small regulatory RNA MicC" ["Tke8", "IS063", "MicC"] "miscRNA" [] "G0-8901" [] null [] +"G0-8902_RNA" "C0362" ["C0362"] "phantom" [] "G0-8902" [] null [] +"G0-8903_RNA" "C0465" ["C0465"] "phantom" [] "G0-8903" [] null [] +"G0-8904_RNA" "isrB" ["isrB", "IS092", "b4434", "ECK1902"] "phantom" [] "G0-8904" [] null [] +"IS102-RNA" "CP4-44 prophage; small RNA IsrC" ["IS102", "IsrC"] "miscRNA" [] "G0-8905" [] null [] +"G0-8906_RNA" "tpke70" ["tpke70"] "phantom" [] "G0-8906" [] null [] +"G0-8907_RNA" "C0614" ["C0614"] "phantom" [] "G0-8907" [] null [] +"G0-8908_RNA" "IS128" ["IS128"] "phantom" [] "G0-8908" [] null [] +"TKE1-RNA" "small regulatory RNA GlmY" ["Tke1", "SroF", "GlmY"] "miscRNA" [] "G0-8910" [] null [] +"G0-8911_RNA" "C0664" ["C0664"] "phantom" [] "G0-8911" [] null [] +"G0-8912_RNA" "C0719" ["C0719"] "phantom" [] "G0-8912" [] null [] +"C0730-RNA" "small RNA SibD" ["C0730", "Tp8", "RygD", "QUAD1d", "IS156", "SibD"] "miscRNA" [] "G0-8913" [] null [] +"IS183-RNA" "small regulatory RNA GadY" ["IS183", "GadY"] "miscRNA" [] "G0-8914" [] null [] +"G0-9041_RNA" "ldrD" ["ldrD", "b4453", "ECK3524"] "mRNA" [] "G0-9041" ["MONOMER0-921"] null [] +"RDLD-RNA" "antisense regulatory RNA RdlD" ["RdlD", "RdlD antisense regulatory RNA of the LdrD-RdlD toxin-antitoxin system"] "miscRNA" [] "G0-9042" [] null [] +"G0-9081_RNA" "ydaE" ["ydaE", "b4526", "ECK1349"] "mRNA" [] "G0-9081" ["MONOMER0-1001"] null [] +"G0-9121_RNA" "yoeB" ["yoeB", "b4539", "ECK2011"] "mRNA" [] "G0-9121" ["MONOMER0-1041"] null [] +"G0-9281_RNA" "alaB" ["alaB"] "mRNA" [] "G0-9281" ["MONOMER0-1241"] null [] +"RNA0-404" "small RNA SroA" ["SroA"] "miscRNA" [] "G0-9381" [] null [] +"RNA0-123" "small regulatory RNA ChiX" ["SroB", "RybC", "MicM", "ChiX"] "miscRNA" [] "G0-9382" [] null [] +"RNA0-124" "small regulatory RNA SroC" ["SroC", "HB_314"] "miscRNA" [] "G0-9383" [] null [] +"G0-9384_RNA" "sroD" ["sroD", "p24"] "phantom" [] "G0-9384" [] null [] +"RNA0-126" "small RNA SroE" ["SroE", "k20"] "miscRNA" [] "G0-9385" [] null [] +"G0-9387_RNA" "sroG" ["sroG", "HB_456/7"] "phantom" [] "G0-9387" [] null [] +"RNA0-128" "small RNA SroH" ["SroH"] "miscRNA" [] "G0-9388" [] null [] +"G0-9461_RNA" "pdxB" ["pdxB", "usg-2", "b2320", "ECK2314"] "mRNA" [] "G0-9461" ["ERYTHRON4PDEHYDROG-MONOMER"] null [] +"G0-9541_RNA" "yjdP" ["yjdP", "b4487", "ECK4084"] "mRNA" [] "G0-9541" ["MONOMER0-1541"] null [] +"G0-9561_RNA" "blr" ["blr", "b4409", "ECK1620"] "mRNA" [] "G0-9561" ["MONOMER0-1561"] null [] +"G0-9562_RNA" "ecnB" ["ecnB", "yjeU", "b4411", "ECK4143"] "mRNA" [] "G0-9562" ["MONOMER0-1563"] null [] +"G0-9563_RNA" "hokC" ["hokC", "gef", "b4412", "ECK0017"] "mRNA" [] "G0-9563" ["MONOMER0-1564"] null [] +"RNA0-141" "small regulatory RNA antitoxin SokC" ["sof", "SokC", "antisense RNA blocking mokC and hokC translation"] "miscRNA" [] "G0-9581" [] null [] +"G0-9582_RNA" "hokE" ["hokE", "ybdY", "b4415", "ECK0574"] "mRNA" [] "G0-9582" ["MONOMER0-1581"] null [] +"G0-9602_RNA" "ldrA" ["ldrA", "b4419", "ECK1204"] "mRNA" [] "G0-9602" ["MONOMER0-1601"] null [] +"RNA0-161" "putative antisense regulatory RNA RdlA" ["RdlA"] "miscRNA" [] "G0-9603" [] null [] +"G0-9605_RNA" "ldrB" ["ldrB", "b4421", "ECK1206"] "mRNA" [] "G0-9605" ["MONOMER0-1602"] null [] +"RNA0-162" "putative antisense regulatory RNA RdlB" ["RdlB"] "miscRNA" [] "G0-9606" [] null [] +"G0-9607_RNA" "ldrC" ["ldrC", "b4423", "ECK1208"] "mRNA" [] "G0-9607" ["MONOMER0-1603"] null [] +"RNA0-163" "putative antisense regulatory RNA RdlC" ["RdlC"] "miscRNA" [] "G0-9608" [] null [] +"RNA0-164" "small RNA RttR" ["rttR", "small RNA processed from tyrT transcript"] "miscRNA" [] "G0-9609" [] null [] +"G0-9610_RNA" "hokB" ["hokB", "ydcB", "b4428", "ECK1412"] "mRNA" [] "G0-9610" ["MONOMER0-1604"] null [] +"RNA0-165" "putative small regulatory RNA antitoxin SokB" ["SokB", "antisense RNA blocking mokB and hokB translation"] "miscRNA" [] "G0-9611" [] null [] +"G0-9613_RNA" "hokA" ["hokA", "yiaZ", "b4455", "ECK3544"] "mRNA" [] "G0-9613" ["MONOMER0-1605"] null [] +"G0-9621_RNA" "torI" ["torI", "b4501", "ECK2359"] "mRNA" [] "G0-9621" ["MONOMER0-1641"] null [] +"G0-9662_RNA" "gnsA" ["gnsA", "yccL", "sfa", "b4517", "ECK0982"] "mRNA" [] "G0-9662" ["MONOMER0-1701"] null [] +"RNA0-241" "small regulatory RNA SgrS" ["SgrS", "RyaA"] "miscRNA" [] "G0-9941" [] null [] +"G0-9961_RNA" "tisA" ["tisA", "ysdA", "b4617", "ECK4426"] "phantom" [] "G0-9961" [] null [] +"G0-9962_RNA" "tisB" ["tisB", "ysdB", "b4618", "ECK4427"] "mRNA" [] "G0-9962" ["MONOMER0-1922"] null [] +"G0-9981_RNA" "dinQ" ["dinQ", "b4613", "ECK4422"] "mRNA" [] "G0-9981" ["MONOMER0-1941"] null [] +"G1_RNA" "thiS" ["thiS", "thiG1", "b4407", "ECK3983"] "mRNA" [] "G1" ["THIS-MONOMER"] null [] +"G14_RNA" "ackB" ["ackB"] "phantom" [] "G14" [] null [] +"G198_RNA" "yajL" ["yajL", "thiJ", "b0424", "ECK0418"] "mRNA" [] "G198" ["HMP-KIN-MONOMER"] null [] +"G2000_RNA" "sapC" ["sapC", "b1292", "ECK1287"] "mRNA" [] "G2000" ["SAPC-MONOMER"] null [] +"G2001_RNA" "sapB" ["sapB", "b1293", "ECK1288"] "mRNA" [] "G2001" ["SAPB-MONOMER"] null [] +"G2002_RNA" "sapA" ["sapA", "b1294", "ECK1289"] "mRNA" [] "G2002" ["SAPA-MONOMER"] null [] +"G26_RNA" "dgd" ["dgd"] "mRNA" [] "G26" ["MONOMER0-4223"] null [] +"G357_RNA" "flgA" ["flgA", "flaU", "b1072", "ECK1057"] "mRNA" [] "G357" ["G357-MONOMER"] null [] +"G358_RNA" "flgB" ["flgB", "flbA", "b1073", "ECK1058"] "mRNA" [] "G358" ["FLGB-FLAGELLAR-MOTOR-ROD-PROTEIN"] null [] +"G359_RNA" "flgC" ["flgC", "flaW", "b1074", "ECK1059"] "mRNA" [] "G359" ["FLGC-FLAGELLAR-MOTOR-ROD-PROTEIN"] null [] +"G36_RNA" "fadH" ["fadH", "ygjL", "b3081", "ECK3071"] "mRNA" [] "G36" ["DIENOYLCOAREDUCT-MONOMER"] null [] +"G360_RNA" "flgD" ["flgD", "flaV", "b1075", "ECK1060"] "mRNA" [] "G360" ["G360-MONOMER"] null [] +"G361_RNA" "flgE" ["flgE", "flaK", "b1076", "ECK1061"] "mRNA" [] "G361" ["G361-MONOMER"] null [] +"G362_RNA" "flgF" ["flgF", "flaX", "b1077", "ECK1062"] "mRNA" [] "G362" ["FLGF-FLAGELLAR-MOTOR-ROD-PROTEIN"] null [] +"G363_RNA" "flgG" ["flgG", "flaL", "b1078", "ECK1063"] "mRNA" [] "G363" ["FLGG-FLAGELLAR-MOTOR-ROD-PROTEIN"] null [] +"G364_RNA" "flgH" ["flgH", "flaY", "b1079", "ECK1064"] "mRNA" [] "G364" ["FLGH-FLAGELLAR-L-RING"] null [] +"G365_RNA" "flgI" ["flgI", "flaM", "b1080", "ECK1065"] "mRNA" [] "G365" ["FLGI-FLAGELLAR-P-RING"] null [] +"G366_RNA" "flgJ" ["flgJ", "flaZ", "b1081", "ECK1066"] "mRNA" [] "G366" ["G366-MONOMER"] null [] +"G369_RNA" "flgM" ["flgM", "b1071", "ECK1056"] "mRNA" [] "G369" ["G369-MONOMER"] null [] +"G370_RNA" "flhA" ["flhA", "flaH", "b1879", "ECK1880"] "mRNA" [] "G370" ["G370-MONOMER"] null [] +"G372_RNA" "yaeP" ["yaeP", "b4406", "ECK0189"] "mRNA" [] "G372" ["MONOMER0-741"] null [] +"G377_RNA" "fliI" ["fliI", "fla", "flaAIII", "flaC", "b1941", "ECK1939"] "mRNA" [] "G377" ["G377-MONOMER"] null [] +"G378_RNA" "fliJ" ["fliJ", "flaO", "b1942", "ECK1940"] "mRNA" [] "G378" ["G378-MONOMER"] null [] +"G379_RNA" "fliK" ["fliK", "flaE", "b1943", "ECK1941"] "mRNA" [] "G379" ["G379-MONOMER"] null [] +"G436_RNA" "nanT" ["nanT", "b3224", "ECK3213"] "mRNA" [] "G436" ["NANT-MONOMER"] null [] +"G495_RNA" "bglA" ["bglA", "yqfC", "bglD", "b2901", "ECK2896"] "mRNA" [] "G495" ["G495-MONOMER"] null [] +"G58_RNA" "maa" ["maa", "ylaD", "b0459", "ECK0453"] "mRNA" [] "G58" ["MALTACETYLTRAN-MONOMER"] null [] +"G592_RNA" "ldhA" ["ldhA", "htpH", "hslF", "hslI", "b1380", "ECK1377"] "mRNA" [] "G592" ["DLACTDEHYDROGNAD-MONOMER"] null [] +"G6081_RNA" "yaaX" ["yaaX", "b0005", "ECK0005"] "mRNA" [] "G6081" ["G6081-MONOMER"] null [] +"G6082_RNA" "yaaW" ["yaaW", "b0011", "ECK0011"] "mRNA" [] "G6082" ["G6082-MONOMER"] null [] +"G6083_RNA" "insL1" ["insL1", "yi81-1", "b0016", "ECK0016"] "mRNA" [] "G6083" ["G6083-MONOMER"] null [] +"G6084_RNA" null ["yi82_1", "b0017"] "phantom" [] "G6084" [] null [] +"G6085_RNA" "insB1" ["insB1", "b0021", "ECK0022"] "mRNA" [] "G6085" ["G7762-MONOMER"] null [] +"G6086_RNA" "insA1" ["insA1", "b0022", "ECK0023"] "mRNA" [] "G6086" ["G6086-MONOMER"] null [] +"G6087_RNA" "yaaY" ["yaaY", "b0024", "ECK0025"] "mRNA" [] "G6087" ["G6087-MONOMER"] null [] +"G6088_RNA" "caiF" ["caiF", "b0034", "ECK0035"] "mRNA" [] "G6088" ["G6088-MONOMER"] null [] +"G6089_RNA" "b0100" ["b0100", "b0100"] "phantom" [] "G6089" [] null [] +"G6090_RNA" "b0105" ["b0105", "b0105"] "phantom" [] "G6090" [] null [] +"G6091_RNA" "b0165" ["b0165", "b0165"] "phantom" [] "G6091" [] null [] +"G6092_RNA" "ispU" ["ispU", "uppS", "rth", "yaeS", "b0174", "ECK0173"] "mRNA" [] "G6092" ["UPPSYN-MONOMER"] null [] +"G6093_RNA" "bamA" ["bamA", "yzzY", "yzzN", "ecfK", "yaeT", "b0177", "ECK0176"] "mRNA" [] "G6093" ["G6093-MONOMER"] null [] +"G6094_RNA" "ldcC" ["ldcC", "ldc", "ldcH", "b0186", "ECK0185"] "mRNA" [] "G6094" ["LDC2-MONOMER"] null [] +"G6095_RNA" "yaeR" ["yaeR", "b0187", "ECK0186"] "mRNA" [] "G6095" ["G6095-MONOMER"] null [] +"G6096_RNA" "tilS" ["tilS", "yaeN", "mesJ", "b0188", "ECK0187"] "mRNA" [] "G6096" ["G6096-MONOMER"] null [] +"G6097_RNA" "rof" ["rof", "yaeO", "b0189", "ECK0188"] "mRNA" [] "G6097" ["G6097-MONOMER"] null [] +"G6098_RNA" "yaeQ" ["yaeQ", "b0190", "ECK0190"] "mRNA" [] "G6098" ["G6098-MONOMER"] null [] +"G6099_RNA" "gloB" ["gloB", "yafR", "b0212", "ECK0212"] "mRNA" [] "G6099" ["GLYOXII-MONOMER"] null [] +"G6100_RNA" "yafS" ["yafS", "b0213", "ECK0213"] "mRNA" [] "G6100" ["G6100-MONOMER"] null [] +"G6101_RNA" "yafT" ["yafT", "b0217", "ECK0217"] "mRNA" [] "G6101" ["G6101-MONOMER"] null [] +"G6102_RNA" "yafU" ["yafU", "b0218", "ECK0218"] "pseudo" [] "G6102" ["G6102-MONOMER"] null [] +"G6103_RNA" "yafV" ["yafV", "b0219", "ECK0220"] "mRNA" [] "G6103" ["G6103-MONOMER"] null [] +"G6104_RNA" "ivy" ["ivy", "ykfE", "b0220", "ECK0221"] "mRNA" [] "G6104" ["G6104-MONOMER"] null [] +"G6105_RNA" "fadE" ["fadE", "yafH", "b0221", "ECK0222"] "mRNA" [] "G6105" ["ACYLCOADEHYDROG-MONOMER"] null [] +"G6106_RNA" "gmhA" ["gmhA", "yafI", "lpcA", "tfrA", "b0222", "ECK0223"] "mRNA" [] "G6106" ["G6106-MONOMER"] null [] +"G6107_RNA" "yafJ" ["yafJ", "b0223", "ECK0224"] "mRNA" [] "G6107" ["G6107-MONOMER"] null [] +"G6108_RNA" "ldtF" ["ldtF", "yafK", "b0224", "ECK0225"] "mRNA" [] "G6108" ["G6108-MONOMER"] null [] +"G6109_RNA" "yafQ" ["yafQ", "b0225", "ECK0226"] "mRNA" [] "G6109" ["G6109-MONOMER"] null [] +"G6110_RNA" "dinJ" ["dinJ", "sosA", "b0226", "ECK0227"] "mRNA" [] "G6110" ["G6110-MONOMER"] null [] +"G6111_RNA" "yafL" ["yafL", "b0227", "ECK0228"] "mRNA" [] "G6111" ["G6111-MONOMER"] null [] +"G6112_RNA" "rayT" ["rayT", "yafM", "b0228", "ECK0229"] "mRNA" [] "G6112" ["G6112-MONOMER"] null [] +"G6113_RNA" "lfhA" ["lfhA", "fhiA", "b0229", "ECK0230"] "pseudo" [] "G6113" ["G6113-MONOMER"] null [] +"G6114_RNA" "lafU" ["lafU", "mbhA", "b0230", "ECK0231"] "pseudo" [] "G6114" ["G6114-MONOMER"] null [] +"G6115_RNA" "dinB" ["dinB", "dinP", "b0231", "ECK0232"] "mRNA" [] "G6115" ["G6115-MONOMER"] null [] +"G6116_RNA" "yafN" ["yafN", "b0232", "ECK0233"] "mRNA" [] "G6116" ["G6116-MONOMER"] null [] +"G6117_RNA" "yafO" ["yafO", "b0233", "ECK0234"] "mRNA" [] "G6117" ["G6117-MONOMER"] null [] +"G6118_RNA" "yafP" ["yafP", "b0234", "ECK0235"] "mRNA" [] "G6118" ["G6118-MONOMER"] null [] +"G6119_RNA" "ykfJ" ["ykfJ", "b0235", "ECK0236"] "pseudo" [] "G6119" ["G6119-MONOMER"] null [] +"G6120_RNA" "ykfI" ["ykfI", "b0245", "ECK0246"] "mRNA" [] "G6120" ["G6120-MONOMER"] null [] +"G6121_RNA" "yafW" ["yafW", "b0246", "ECK0247"] "mRNA" [] "G6121" ["G6121-MONOMER"] null [] +"G6122_RNA" "ykfG" ["ykfG", "b0247", "ECK0249"] "mRNA" [] "G6122" ["G6122-MONOMER"] null [] +"G6123_RNA" "yafX" ["yafX", "b0248", "ECK0250"] "mRNA" [] "G6123" ["G6123-MONOMER"] null [] +"G6124_RNA" "ykfF" ["ykfF", "b0249", "ECK0251"] "mRNA" [] "G6124" ["G6124-MONOMER"] null [] +"G6125_RNA" "ykfB" ["ykfB", "b0250", "ECK0252"] "mRNA" [] "G6125" ["G6125-MONOMER"] null [] +"G6126_RNA" "yafY" ["yafY", "b0251", "ECK0253"] "mRNA" [] "G6126" ["G6126-MONOMER"] null [] +"G6127_RNA" "yafZ" ["yafZ", "b0252", "ECK0254"] "mRNA" [] "G6127" ["G6127-MONOMER"] null [] +"G6128_RNA" "ykfA" ["ykfA", "b0253", "ECK0255"] "mRNA" [] "G6128" ["G6128-MONOMER"] null [] +"G6129_RNA" "perR" ["perR", "b0254", "ECK0256"] "mRNA" [] "G6129" ["G6129-MONOMER"] null [] +"G6130_RNA" "insN" ["insN", "yi91a", "b0255", "b0257", "b4587", "ECK0257"] "pseudo" [] "G6130" ["G6130-MONOMER"] null [] +"G6131_RNA" "insI1" ["insI1", "tra8-1", "b0256", "ECK0258"] "mRNA" [] "G6131" ["G6131-MONOMER"] null [] +"G6133_RNA" "ykfC" ["ykfC", "b0258", "ECK0260"] "mRNA" [] "G6133" ["G6133-MONOMER"] null [] +"G6134_RNA" "insH1" ["insH1", "trs5", "trs5-1", "yi52_1", "b0259", "ECK0261"] "mRNA" [] "G6134" ["G7769-MONOMER"] null [] +"G6135_RNA" "mmuP" ["mmuP", "ykfD", "b0260", "ECK0262"] "mRNA" [] "G6135" ["B0260-MONOMER"] null [] +"G6136_RNA" "mmuM" ["mmuM", "yagD", "b0261", "ECK0263"] "mRNA" [] "G6136" ["MMUM-MONOMER"] null [] +"G6137_RNA" "afuB" ["afuB", "fbpB", "b0263", "ECK0265"] "pseudo" [] "G6137" ["G6137-MONOMER"] null [] +"G6138_RNA" "insB2" ["insB2", "b0264", "ECK0022"] "mRNA" [] "G6138" ["G6138-MONOMER"] null [] +"G6139_RNA" "insA2" ["insA2", "b0265", "ECK0023"] "mRNA" [] "G6139" ["G6139-MONOMER"] null [] +"G6140_RNA" "yagE" ["yagE", "b0268", "ECK0269"] "mRNA" [] "G6140" ["G6140-MONOMER"] null [] +"G6141_RNA" "yagF" ["yagF", "b0269", "ECK0270"] "mRNA" [] "G6141" ["G6141-MONOMER"] null [] +"G6142_RNA" "yagG" ["yagG", "b0270", "ECK0271"] "mRNA" [] "G6142" ["B0270-MONOMER"] null [] +"G6143_RNA" "yagH" ["yagH", "b0271", "ECK0272"] "mRNA" [] "G6143" ["G6143-MONOMER"] null [] +"G6144_RNA" "xynR" ["xynR", "yagI", "b0272", "ECK0273"] "mRNA" [] "G6144" ["G6144-MONOMER"] null [] +"G6145_RNA" "insB3" ["insB3", "b0274", "ECK0022"] "mRNA" [] "G6145" ["MONOMER0-4440"] null [] +"G6146_RNA" "insA3" ["insA3", "b0275", "ECK0023"] "mRNA" [] "G6146" ["MONOMER0-4227"] null [] +"G6147_RNA" "yagJ" ["yagJ", "b0276", "ECK0275"] "mRNA" [] "G6147" ["G6147-MONOMER"] null [] +"G6148_RNA" "yagK" ["yagK", "b0277", "ECK0276"] "mRNA" [] "G6148" ["G6148-MONOMER"] null [] +"G6149_RNA" "yagL" ["yagL", "b0278", "ECK0277"] "mRNA" [] "G6149" ["G6149-MONOMER"] null [] +"G6150_RNA" "yagM" ["yagM", "b0279", "ECK0278"] "mRNA" [] "G6150" ["G6150-MONOMER"] null [] +"G6151_RNA" "yagN" ["yagN", "b0280", "ECK0279"] "mRNA" [] "G6151" ["G6151-MONOMER"] null [] +"G6152_RNA" "intF" ["intF", "yagO", "b0281", "ECK0280"] "mRNA" [] "G6152" ["G6152-MONOMER"] null [] +"G6153_RNA" "yagP" ["yagP", "ykgT", "b4695", "b0282", "ECK0281"] "mRNA" [] "G6153" ["G6153-MONOMER"] null [] +"G6154_RNA" "paoD" ["paoD", "yagQ", "b0283", "ECK0282"] "mRNA" [] "G6154" ["G6154-MONOMER"] null [] +"G6155_RNA" "paoC" ["paoC", "yagR", "b0284", "ECK0283"] "mRNA" [] "G6155" ["G6155-MONOMER"] null [] +"G6156_RNA" "paoB" ["paoB", "yagS", "b0285", "ECK0284"] "mRNA" [] "G6156" ["G6156-MONOMER"] null [] +"G6157_RNA" "paoA" ["paoA", "yagT", "b0286", "ECK0285"] "mRNA" [] "G6157" ["G6157-MONOMER"] null [] +"G6158_RNA" "yagU" ["yagU", "b0287", "ECK0286"] "mRNA" [] "G6158" ["G6158-MONOMER"] null [] +"G6159_RNA" "ykgJ" ["ykgJ", "b0288", "ECK0287"] "mRNA" [] "G6159" ["G6159-MONOMER"] null [] +"G6160_RNA" "ecpE" ["ecpE", "yagV", "matF", "b0289", "ECK0288"] "mRNA" [] "G6160" ["G6160-MONOMER"] null [] +"G6161_RNA" "ecpD" ["ecpD", "yagW", "matE", "b0290", "ECK0289"] "mRNA" [] "G6161" ["G6161-MONOMER"] null [] +"G6162_RNA" "ecpC" ["ecpC", "yagX", "matD", "b0291", "ECK0290"] "mRNA" [] "G6162" ["G6162-MONOMER"] null [] +"G6163_RNA" "ecpB" ["ecpB", "yagY", "matC", "b0292", "ECK0291"] "mRNA" [] "G6163" ["G6163-MONOMER"] null [] +"G6164_RNA" "ecpA" ["ecpA", "yagZ", "matB", "b0293", "ECK0292"] "mRNA" [] "G6164" ["G6164-MONOMER"] null [] +"G6165_RNA" "matA" ["matA", "ykgK", "ecpR", "b0294", "ECK0293"] "mRNA" [] "G6165" ["G6165-MONOMER"] null [] +"G6166_RNA" "ykgL" ["ykgL", "b0295", "ECK0294"] "mRNA" [] "G6166" ["G6166-MONOMER"] null [] +"G6167_RNA" "ykgM" ["ykgM", "b0296", "ECK0296"] "mRNA" [] "G6167" ["G6167-MONOMER"] null [] +"G6168_RNA" "insE1" ["insE1", "b0298", "ECK0298"] "mRNA" [] "G6168" ["G6534-MONOMER"] null [] +"G6169_RNA" "insF1" ["insF1", "tra5-5", "b0299", "ECK0299"] "mRNA" [] "G6169" ["G7126-MONOMER"] null [] +"G6170_RNA" "ykgA" ["ykgA", "b0300", "ECK0300"] "pseudo" [] "G6170" ["G6170-MONOMER"] null [] +"G6171_RNA" "rclC" ["rclC", "ykgB", "b0301", "ECK0301"] "mRNA" [] "G6171" ["G6171-MONOMER"] null [] +"G6173_RNA" "rclB" ["rclB", "ykgI", "b0303", "ECK0302"] "mRNA" [] "G6173" ["G6173-MONOMER"] null [] +"G6174_RNA" "rclA" ["rclA", "ykgC", "b0304", "ECK0303"] "mRNA" [] "G6174" ["G6174-MONOMER"] null [] +"G6175_RNA" "rclR" ["rclR", "ykgD", "b0305", "ECK0304"] "mRNA" [] "G6175" ["G6175-MONOMER"] null [] +"G6176_RNA" "ykgE" ["ykgE", "b0306", "ECK0305"] "mRNA" [] "G6176" ["G6176-MONOMER"] null [] +"G6177_RNA" "ykgF" ["ykgF", "b0307", "ECK0306"] "mRNA" [] "G6177" ["G6177-MONOMER"] null [] +"G6178_RNA" "ykgG" ["ykgG", "b0308", "ECK0307"] "mRNA" [] "G6178" ["G6178-MONOMER"] null [] +"G6179_RNA" "b0309" ["b0309", "b0309"] "phantom" [] "G6179" [] null [] +"G6180_RNA" "ykgH" ["ykgH", "b0310", "ECK0308"] "mRNA" [] "G6180" ["G6180-MONOMER"] null [] +"G6181_RNA" "yahB" ["yahB", "b0316", "ECK0314"] "mRNA" [] "G6181" ["G6181-MONOMER"] null [] +"G6182_RNA" "yahC" ["yahC", "b0317", "ECK0315"] "mRNA" [] "G6182" ["G6182-MONOMER"] null [] +"G6183_RNA" "yahD" ["yahD", "b0318", "ECK0316"] "mRNA" [] "G6183" ["G6183-MONOMER"] null [] +"G6184_RNA" "yahE" ["yahE", "b0319", "ECK0317"] "mRNA" [] "G6184" ["G6184-MONOMER"] null [] +"G6185_RNA" "yahF" ["yahF", "b0320", "ECK0318"] "mRNA" [] "G6185" ["G6185-MONOMER"] null [] +"G6186_RNA" "yahG" ["yahG", "b0321", "ECK0319"] "mRNA" [] "G6186" ["G6186-MONOMER"] null [] +"G6188_RNA" "yahI" ["yahI", "b0323", "ECK0321"] "mRNA" [] "G6188" ["G6188-MONOMER"] null [] +"G6189_RNA" "yahJ" ["yahJ", "b0324", "ECK0322"] "mRNA" [] "G6189" ["G6189-MONOMER"] null [] +"G6190_RNA" "yahK" ["yahK", "b0325", "ECK0323"] "mRNA" [] "G6190" ["G6190-MONOMER"] null [] +"G6191_RNA" "yahL" ["yahL", "b0326", "ECK0324"] "mRNA" [] "G6191" ["G6191-MONOMER"] null [] +"G6192_RNA" "yahM" ["yahM", "b0327", "ECK0325"] "mRNA" [] "G6192" ["G6192-MONOMER"] null [] +"G6193_RNA" "yahN" ["yahN", "b0328", "ECK0326"] "mRNA" [] "G6193" ["G6193-MONOMER"] null [] +"G6194_RNA" "yahO" ["yahO", "b0329", "ECK0327"] "mRNA" [] "G6194" ["G6194-MONOMER"] null [] +"G6195_RNA" "prpR" ["prpR", "yahP", "b0330", "ECK0328"] "mRNA" [] "G6195" ["G6195-MONOMER"] null [] +"G6196_RNA" "prpB" ["prpB", "yahQ", "b0331", "ECK0329"] "mRNA" [] "G6196" ["G6196-MONOMER"] null [] +"G6198_RNA" "prpC" ["prpC", "yzzD", "yahS", "b0333", "ECK0330"] "mRNA" [] "G6198" ["G6198-MONOMER"] null [] +"G6199_RNA" "prpD" ["prpD", "yahT", "acnC", "b0334", "ECK0331"] "mRNA" [] "G6199" ["G6199-MONOMER"] null [] +"G6200_RNA" "prpE" ["prpE", "yahU", "b0335", "ECK0332"] "mRNA" [] "G6200" ["G6200-MONOMER"] null [] +"G6201_RNA" "mhpR" ["mhpR", "b0346", "ECK0343"] "mRNA" [] "G6201" ["G6201-MONOMER"] null [] +"G6205_RNA" "mhpE" ["mhpE", "b0352", "ECK0349"] "mRNA" [] "G6205" ["MHPELY-MONOMER"] null [] +"G6206_RNA" "mhpT" ["mhpT", "yaiK", "b0353", "ECK0350"] "mRNA" [] "G6206" ["MHPT-MONOMER"] null [] +"G6207_RNA" "yaiL" ["yaiL", "b0354", "ECK0351"] "mRNA" [] "G6207" ["G6207-MONOMER"] null [] +"G6208_RNA" "frmB" ["frmB", "yaiM", "b0355", "ECK0352"] "mRNA" [] "G6208" ["G6208-MONOMER"] null [] +"G6209_RNA" "frmR" ["frmR", "yaiN", "b0357", "ECK0354"] "mRNA" [] "G6209" ["G6209-MONOMER"] null [] +"G6210_RNA" "yaiO" ["yaiO", "b0358", "ECK0355"] "mRNA" [] "G6210" ["G6210-MONOMER"] null [] +"G6212_RNA" "insC1" ["insC1", "yi21-1", "b0360", "ECK0357"] "mRNA" [] "G6212" ["G6212-MONOMER"] null [] +"G6213_RNA" "insD1" ["insD1", "yi22-1", "b0361", "ECK0358"] "mRNA" [] "G6213" ["G7480-MONOMER"] null [] +"G6214_RNA" "yaiX" ["yaiX", "yaiF", "b0362", "b0359", "ECK0359", "b4579", "ECK0356"] "pseudo" [] "G6214" ["G6214-MONOMER"] null [] +"G6215_RNA" "yaiP" ["yaiP", "b0363", "ECK0360"] "mRNA" [] "G6215" ["G6215-MONOMER"] null [] +"G6216_RNA" "yaiS" ["yaiS", "b0364", "ECK0361"] "mRNA" [] "G6216" ["G6216-MONOMER"] null [] +"G6217_RNA" "tauA" ["tauA", "yaiR", "ssiA", "b0365", "ECK0362"] "mRNA" [] "G6217" ["TAUA-MONOMER"] null [] +"G6218_RNA" "tauB" ["tauB", "yaiQ", "ssiB", "b0366", "ECK0363"] "mRNA" [] "G6218" ["TAUB-MONOMER"] null [] +"G6219_RNA" "tauC" ["tauC", "yaiJ", "ssiC", "b0367", "ECK0364"] "mRNA" [] "G6219" ["TAUC-MONOMER"] null [] +"G6221_RNA" "ykiB" ["ykiB", "b0370", "ECK0367"] "phantom" [] "G6221" [] null [] +"G6222_RNA" "yaiT" ["yaiT", "yaiU", "b0371", "b0374", "ECK0369", "b4580", "ECK0368"] "pseudo" [] "G6222" ["G6222-MONOMER"] null [] +"G6223_RNA" "insF2" ["insF2", "tra5-1", "b0372", "ECK0299"] "mRNA" [] "G6223" ["MONOMER0-4441"] null [] +"G6224_RNA" "insE2" ["insE2", "b0373", "ECK0298"] "mRNA" [] "G6224" ["MONOMER0-4242"] null [] +"G6226_RNA" "iprA" ["iprA", "yaiV", "b0375", "ECK0370"] "mRNA" [] "G6226" ["G6226-MONOMER"] null [] +"G6227_RNA" "yaiW" ["yaiW", "b0378", "ECK0373"] "mRNA" [] "G6227" ["G6227-MONOMER"] null [] +"G6228_RNA" "yaiY" ["yaiY", "b0379", "ECK0374"] "mRNA" [] "G6228" ["G6228-MONOMER"] null [] +"G6229_RNA" "yaiZ" ["yaiZ", "b0380", "ECK0375"] "mRNA" [] "G6229" ["G6229-MONOMER"] null [] +"G6230_RNA" "yaiI" ["yaiI", "b0387", "ECK0382"] "mRNA" [] "G6230" ["G6230-MONOMER"] null [] +"G6231_RNA" "ykiA" ["ykiA", "b0392", "ECK0387"] "pseudo" [] "G6231" ["G6231-MONOMER"] null [] +"G6233_RNA" "proY" ["proY", "yajM", "b0402", "ECK0396"] "mRNA" [] "G6233" ["PROY-MONOMER"] null [] +"G6234_RNA" "thiL" ["thiL", "thiJ", "b0417", "ECK0411"] "mRNA" [] "G6234" ["THI-P-KIN-MONOMER"] null [] +"G6236_RNA" "yajO" ["yajO", "b0419", "ECK0413"] "mRNA" [] "G6236" ["G6236-MONOMER"] null [] +"G6237_RNA" "dxs" ["dxs", "yajP", "b0420", "ECK0414"] "mRNA" [] "G6237" ["DXS-MONOMER"] null [] +"G6238_RNA" "thiI" ["thiI", "nuvA", "yajK", "b0423", "ECK0417"] "mRNA" [] "G6238" ["THII-MONOMER"] null [] +"G6239_RNA" "panE" ["panE", "apbA", "b0425", "ECK0419"] "mRNA" [] "G6239" ["2-DEHYDROPANTOATE-REDUCT-MONOMER"] null [] +"G6240_RNA" "yajQ" ["yajQ", "b0426", "ECK0420"] "mRNA" [] "G6240" ["G6240-MONOMER"] null [] +"G6241_RNA" "yajR" ["yajR", "b0427", "ECK0421"] "mRNA" [] "G6241" ["B0427-MONOMER"] null [] +"G6242_RNA" "ppiD" ["ppiD", "ybaU", "b0441", "ECK0435"] "mRNA" [] "G6242" ["G6242-MONOMER"] null [] +"G6243_RNA" "ybaV" ["ybaV", "comEA", "b0442", "ECK0436"] "mRNA" [] "G6243" ["G6243-MONOMER"] null [] +"G6244_RNA" "fadM" ["fadM", "ybaW", "tesC", "b0443", "ECK0437"] "mRNA" [] "G6244" ["G6244-MONOMER"] null [] +"G6245_RNA" "queC" ["queC", "ybaX", "b0444", "ECK0438"] "mRNA" [] "G6245" ["G6245-MONOMER"] null [] +"G6246_RNA" "cof" ["cof", "b0446", "ECK0440"] "mRNA" [] "G6246" ["G6246-MONOMER"] null [] +"G6247_RNA" "decR" ["decR", "ybaO", "cyuR", "b0447", "ECK0441"] "mRNA" [] "G6247" ["G6247-MONOMER"] null [] +"G6248_RNA" "mdlA" ["mdlA", "mdl", "b0448", "ECK0442"] "mRNA" [] "G6248" ["MDLA-MONOMER"] null [] +"G6250_RNA" "ybaY" ["ybaY", "b0453", "ECK0447"] "mRNA" [] "G6250" ["G6250-MONOMER"] null [] +"G6251_RNA" "ybaZ" ["ybaZ", "atl", "b0454", "ECK0448"] "mRNA" [] "G6251" ["G6251-MONOMER"] null [] +"G6252_RNA" "pdeB" ["pdeB", "ylaB", "b0457", "ECK0451"] "mRNA" [] "G6252" ["G6252-MONOMER"] null [] +"G6253_RNA" "ylaC" ["ylaC", "b0458", "ECK0452"] "mRNA" [] "G6253" ["G6253-MONOMER"] null [] +"G6255_RNA" "mscK" ["mscK", "aefA", "kefA", "b0465", "ECK0459"] "mRNA" [] "G6255" ["G6255-MONOMER"] null [] +"G6256_RNA" "fsr" ["fsr", "b0479", "ECK0473"] "mRNA" [] "G6256" ["FSR-MONOMER"] null [] +"G6258_RNA" "ybaP" ["ybaP", "b0482", "ECK0476"] "mRNA" [] "G6258" ["G6258-MONOMER"] null [] +"G6259_RNA" "ybaQ" ["ybaQ", "b0483", "ECK0477"] "mRNA" [] "G6259" ["G6259-MONOMER"] null [] +"G6260_RNA" "copA" ["copA", "ybaR", "b0484", "ECK0478"] "mRNA" [] "G6260" ["MONOMER0-4382", "G6260-MONOMER"] null [[[1, 204], [204, 212]], []] +"G6261_RNA" "glsA" ["glsA", "ybaS", "b0485", "ECK0479"] "mRNA" [] "G6261" ["G6261-MONOMER"] null [] +"G6262_RNA" "ybaT" ["ybaT", "b0486", "ECK0480"] "mRNA" [] "G6262" ["B0486-MONOMER"] null [] +"G6263_RNA" "cueR" ["cueR", "copR", "ybbI", "b0487", "ECK0481"] "mRNA" [] "G6263" ["G6263-MONOMER"] null [] +"G6264_RNA" "ybbJ" ["ybbJ", "b0488", "ECK0482"] "mRNA" [] "G6264" ["G6264-MONOMER"] null [] +"G6265_RNA" "qmcA" ["qmcA", "ybbK", "b0489", "ECK0483"] "mRNA" [] "G6265" ["G6265-MONOMER"] null [] +"G6266_RNA" "fetA" ["fetA", "ybbL", "b0490", "ECK0484"] "mRNA" [] "G6266" ["YBBL-MONOMER"] null [] +"G6267_RNA" "fetB" ["fetB", "ybbM", "b0491", "ECK0485"] "mRNA" [] "G6267" ["G6267-MONOMER"] null [] +"G6268_RNA" "cnoX" ["cnoX", "ybbN", "b0492", "ECK0486"] "mRNA" [] "G6268" ["G6268-MONOMER"] null [] +"G6269_RNA" "ybbO" ["ybbO", "b0493", "ECK0487"] "mRNA" [] "G6269" ["G6269-MONOMER"] null [] +"G6270_RNA" "ybbP" ["ybbP", "b0496", "ECK0490"] "mRNA" [] "G6270" ["YBBP-MONOMER"] null [] +"G6271_RNA" "ylbH" ["ylbH", "rhsH", "b0499", "ECK0493"] "pseudo" [] "G6271" ["G6271-MONOMER"] null [] +"G6273_RNA" "ylbG" ["ylbG", "b0502", "ECK0495"] "mRNA" [] "G6273" ["G6273-MONOMER"] null [] +"G6274_RNA" "allS" ["allS", "ybbS", "glxA1", "b0504", "ECK0497"] "mRNA" [] "G6274" ["G6274-MONOMER"] null [] +"G6275_RNA" "allA" ["allA", "glxA2", "ybbT", "b0505", "ECK0498"] "mRNA" [] "G6275" ["G6275-MONOMER"] null [] +"G6276_RNA" "allR" ["allR", "glxA3", "ybbU", "b0506", "ECK0499"] "mRNA" [] "G6276" ["G6276-MONOMER"] null [] +"G6277_RNA" "hyi" ["hyi", "ybbG", "gip", "b0508", "ECK0501"] "mRNA" [] "G6277" ["G6277-MONOMER"] null [] +"G6278_RNA" "glxR" ["glxR", "glxB1", "ybbQ", "b0509", "ECK0502"] "mRNA" [] "G6278" ["G6278-MONOMER"] null [] +"G6280_RNA" "ybbW" ["ybbW", "allP", "glxB2", "b0511", "ECK0504"] "mRNA" [] "G6280" ["B0511-MONOMER"] null [] +"G6281_RNA" "allB" ["allB", "glxB3", "ybbX", "b0512", "ECK0505"] "mRNA" [] "G6281" ["G6281-MONOMER"] null [] +"G6282_RNA" "ybbY" ["ybbY", "glxB4", "b0513", "ECK0506"] "mRNA" [] "G6282" ["G6282-MONOMER"] null [] +"G6283_RNA" "glxK" ["glxK", "glxB5", "ybbZ", "b0514", "ECK0507"] "mRNA" [] "G6283" ["GLY3KIN-MONOMER"] null [] +"G6284_RNA" "allE" ["allE", "glxB6", "ylbA", "ughY", "b0515", "ECK0508"] "mRNA" [] "G6284" ["G6284-MONOMER"] null [] +"G6285_RNA" "allC" ["allC", "glxB7", "ylbB", "b0516", "ECK0509"] "mRNA" [] "G6285" ["G6285-MONOMER"] null [] +"G6286_RNA" "allD" ["allD", "glxB8", "ylbC", "b0517", "ECK0510"] "mRNA" [] "G6286" ["G6286-MONOMER"] null [] +"G6287_RNA" "fdrA" ["fdrA", "ylbD", "b0518", "ECK0511"] "mRNA" [] "G6287" ["G6287-MONOMER"] null [] +"G6288_RNA" "ylbE" ["ylbE", "b0519", "G0-10554", "b4507", "b4572", "ECK0512"] "mRNA" [] "G6288" ["G6288-MONOMER"] null [] +"G6289_RNA" "ylbF" ["ylbF", "b0520", "ECK0513"] "mRNA" [] "G6289" ["G6289-MONOMER"] null [] +"G6290_RNA" "sfmA" ["sfmA", "b0530", "ECK0523"] "mRNA" [] "G6290" ["G6290-MONOMER"] null [] +"G6291_RNA" "sfmC" ["sfmC", "b0531", "ECK0524"] "mRNA" [] "G6291" ["G6291-MONOMER"] null [] +"G6292_RNA" "sfmD" ["sfmD", "b0532", "ECK0525"] "mRNA" [] "G6292" ["G6292-MONOMER"] null [] +"G6293_RNA" "sfmH" ["sfmH", "b0533", "ECK0526"] "mRNA" [] "G6293" ["G6293-MONOMER"] null [] +"G6294_RNA" null ["b0538"] "phantom" [] "G6294" [] null [] +"G6295_RNA" "exoD" ["exoD", "ybcC", "b0539", "ECK0531"] "pseudo" [] "G6295" ["G6295-MONOMER"] null [] +"G6296_RNA" "insE3" ["insE3", "b0540", "ECK0298"] "mRNA" [] "G6296" ["MONOMER0-4243"] null [] +"G6297_RNA" "insF3" ["insF3", "tra5-2", "b0541", "ECK0299"] "mRNA" [] "G6297" ["MONOMER0-4442"] null [] +"G6298_RNA" "renD" ["renD", "ybcE", "b0542", "ECK0533"] "pseudo" [] "G6298" ["G6298-MONOMER"] null [] +"G6300_RNA" "ybcK" ["ybcK", "b0544", "ECK0535"] "mRNA" [] "G6300" ["G6300-MONOMER"] null [] +"G6301_RNA" "ybcL" ["ybcL", "b0545", "ECK0536"] "mRNA" [] "G6301" ["G6301-MONOMER"] null [] +"G6302_RNA" "ybcM" ["ybcM", "b0546", "ECK0537"] "mRNA" [] "G6302" ["G6302-MONOMER"] null [] +"G6303_RNA" "ybcN" ["ybcN", "b0547", "ECK0538"] "mRNA" [] "G6303" ["G6303-MONOMER"] null [] +"G6304_RNA" "ninE" ["ninE", "b0548", "ECK0539"] "mRNA" [] "G6304" ["G6304-MONOMER"] null [] +"G6305_RNA" "ybcO" ["ybcO", "b0549", "ECK0540"] "mRNA" [] "G6305" ["G6305-MONOMER"] null [] +"G6306_RNA" "rusA" ["rusA", "ybcP", "rus", "b0550", "ECK0541"] "mRNA" [] "G6306" ["G6306-MONOMER"] null [] +"G6307_RNA" "quuD" ["quuD", "ybcQ", "b0551", "ECK0543"] "mRNA" [] "G6307" ["G6307-MONOMER"] null [] +"G6308_RNA" "insH2" ["insH2", "trs5-2", "yi52_2", "b0552", "ECK0261"] "mRNA" [] "G6308" ["MONOMER0-4234"] null [] +"G6309_RNA" "essD" ["essD", "vlyS", "ybcR", "b0554", "ECK0545"] "mRNA" [] "G6309" ["G6309-MONOMER"] null [] +"G6310_RNA" "rrrD" ["rrrD", "lycV", "ybcS", "b0555", "ECK0546"] "mRNA" [] "G6310" ["G6310-MONOMER"] null [] +"G6311_RNA" "rzpD" ["rzpD", "ybcT", "b0556", "ECK0547"] "mRNA" [] "G6311" ["G6311-MONOMER"] null [] +"G6312_RNA" "borD" ["borD", "iss", "vboR", "bor", "ybcU", "b0557", "ECK0549"] "mRNA" [] "G6312" ["G6312-MONOMER"] null [] +"G6313_RNA" "ybcV" ["ybcV", "b0558", "ECK0550"] "mRNA" [] "G6313" ["G6313-MONOMER"] null [] +"G6314_RNA" "ybcW" ["ybcW", "b0559", "ECK0551"] "mRNA" [] "G6314" ["G6314-MONOMER"] null [] +"G6315_RNA" "tfaD" ["tfaD", "ybcX", "b0561", "ECK0553"] "mRNA" [] "G6315" ["G6315-MONOMER"] null [] +"G6316_RNA" "ybcY" ["ybcY", "b0562", "ECK0554"] "pseudo" [] "G6316" ["G6316-MONOMER"] null [] +"G6317_RNA" "tfaX" ["tfaX", "ylcE", "b0563", "ECK0555"] "mRNA" [] "G6317" ["G6317-MONOMER"] null [] +"G6318_RNA" "cusS" ["cusS", "ybcZ", "b0570", "ECK0562"] "mRNA" [] "G6318" ["G6318-MONOMER"] null [] +"G6319_RNA" "cusR" ["cusR", "ylcA", "b0571", "ECK0563"] "mRNA" [] "G6319" ["G6319-MONOMER"] null [] +"G6320_RNA" "cusC" ["cusC", "ibeB", "ylcB", "b0572", "ECK0564"] "mRNA" [] "G6320" ["G6320-MONOMER"] null [] +"G6321_RNA" "cusF" ["cusF", "cusX", "ylcC", "b0573", "ECK0565"] "mRNA" [] "G6321" ["G6321-MONOMER"] null [] +"G6322_RNA" "cusB" ["cusB", "ylcD", "b0574", "ECK0566"] "mRNA" [] "G6322" ["G6322-MONOMER"] null [] +"G6323_RNA" "ybdG" ["ybdG", "b0577", "ECK0569"] "mRNA" [] "G6323" ["G6323-MONOMER"] null [] +"G6324_RNA" "ybdF" ["ybdF", "b0579", "ECK0571"] "mRNA" [] "G6324" ["G6324-MONOMER"] null [] +"G6325_RNA" "ybdJ" ["ybdJ", "b0580", "ECK0572"] "mRNA" [] "G6325" ["G6325-MONOMER"] null [] +"G6326_RNA" "ybdK" ["ybdK", "b0581", "ECK0573"] "mRNA" [] "G6326" ["G6326-MONOMER"] null [] +"G6327_RNA" "insL2" ["insL2", "yi81-2", "b0582", "ECK0016"] "mRNA" [] "G6327" ["MONOMER0-4232"] null [] +"G6329_RNA" "ybdL" ["ybdL", "b0600", "ECK0594"] "mRNA" [] "G6329" ["G6329-MONOMER"] null [] +"G6330_RNA" "ybdM" ["ybdM", "b0601", "ECK0595"] "mRNA" [] "G6330" ["G6330-MONOMER"] null [] +"G6331_RNA" "ybdN" ["ybdN", "b0602", "ECK0596"] "mRNA" [] "G6331" ["G6331-MONOMER"] null [] +"G6332_RNA" "ybdO" ["ybdO", "b0603", "ECK0597"] "mRNA" [] "G6332" ["G6332-MONOMER"] null [] +"G6333_RNA" "dsbG" ["dsbG", "ybdP", "b0604", "ECK0598"] "mRNA" [] "G6333" ["DSBG-MONOMER"] null [] +"G6334_RNA" "uspG" ["uspG", "UP12", "yzzU", "ybdQ", "b0607", "ECK0601"] "mRNA" [] "G6334" ["G6334-MONOMER"] null [] +"G6335_RNA" "ybdR" ["ybdR", "b0608", "ECK0602"] "mRNA" [] "G6335" ["G6335-MONOMER"] null [] +"G6336_RNA" null ["b0609"] "phantom" [] "G6336" [] null [] +"G6337_RNA" "rnk" ["rnk", "b0610", "ECK0603"] "mRNA" [] "G6337" ["G6337-MONOMER"] null [] +"G6338_RNA" "citT" ["citT", "ybdS", "b0612", "ECK0605"] "mRNA" [] "G6338" ["B0612-MONOMER"] null [] +"G6339_RNA" "citG" ["citG", "ybdT", "b0613", "ECK0606"] "mRNA" [] "G6339" ["G6339-MONOMER"] null [] +"G6340_RNA" "citX" ["citX", "ybdU", "b0614", "ECK0607"] "mRNA" [] "G6340" ["G6340-MONOMER"] null [] +"G6341_RNA" "citF" ["citF", "ybdV", "b0615", "ECK0608"] "mRNA" [] "G6341" ["CITTRANS-MONOMER"] null [] +"G6342_RNA" "citE" ["citE", "ybdW", "b0616", "ECK0609"] "mRNA" [] "G6342" ["CITRYLY-MONOMER"] null [] +"G6343_RNA" "citD" ["citD", "ybdX", "b0617", "ECK0610"] "mRNA" [] "G6343" ["ACPSUB-MONOMER"] null [] +"G6344_RNA" "citC" ["citC", "ybeO", "b0618", "ECK0611"] "mRNA" [] "G6344" ["CITC-MONOMER"] null [] +"G6345_RNA" "dpiB" ["dpiB", "ybeP", "mpdB", "citA", "b0619", "ECK0612"] "mRNA" [] "G6345" ["G6345-MONOMER"] null [] +"G6346_RNA" "dpiA" ["dpiA", "citB", "criR", "mpdA", "b0620", "ECK0613"] "mRNA" [] "G6346" ["G6346-MONOMER"] null [] +"G6347_RNA" "dcuC" ["dcuC", "b0621", "ECK0614"] "mRNA" [] "G6347" ["DCUC-MONOMER"] null [] +"G6349_RNA" "cobC" ["cobC", "phpB", "b0638", "ECK0631"] "mRNA" [] "G6349" ["RIBAZOLEPHOSPHAT-MONOMER"] null [] +"G6350_RNA" "nadD" ["nadD", "ybeN", "fusB", "b0639", "ECK0632"] "mRNA" [] "G6350" ["NICONUCADENYLYLTRAN-MONOMER"] null [] +"G6351_RNA" "ybeQ" ["ybeQ", "b0644", "ECK0637"] "mRNA" [] "G6351" ["G6351-MONOMER"] null [] +"G6352_RNA" "ybeR" ["ybeR", "b0645", "ECK0638"] "mRNA" [] "G6352" ["G6352-MONOMER"] null [] +"G6353_RNA" "djlB" ["djlB", "ybeS", "b0646", "ECK0639"] "mRNA" [] "G6353" ["G6353-MONOMER"] null [] +"G6354_RNA" "ybeT" ["ybeT", "b0647", "ECK0640"] "mRNA" [] "G6354" ["G6354-MONOMER"] null [] +"G6355_RNA" "ybeU" ["ybeU", "b0648", "ECK0641"] "mRNA" [] "G6355" ["G6355-MONOMER"] null [] +"G6356_RNA" "djlC" ["djlC", "hscD", "ybeV", "hsc56", "b0649", "ECK0642"] "mRNA" [] "G6356" ["G6356-MONOMER"] null [] +"G6357_RNA" "hscC" ["hscC", "ybeW", "b0650", "ECK0643"] "mRNA" [] "G6357" ["G6357-MONOMER"] null [] +"G6358_RNA" "rihA" ["rihA", "ybeK", "b0651", "ECK0644"] "mRNA" [] "G6358" ["G6358-MONOMER"] null [] +"G6359_RNA" "gltI" ["gltI", "yzzK", "ybeJ", "b0655", "ECK0648"] "mRNA" [] "G6359" ["G6359-MONOMER"] null [] +"G6360_RNA" "insH3" ["insH3", "trs5-3", "yi52_3", "b0656", "ECK0261"] "mRNA" [] "G6360" ["MONOMER0-4235"] null [] +"G6361_RNA" "ybeX" ["ybeX", "b0658", "ECK0650"] "mRNA" [] "G6361" ["G6361-MONOMER"] null [] +"G6362_RNA" "ybeY" ["ybeY", "b0659", "ECK0651"] "mRNA" [] "G6362" ["G6362-MONOMER"] null [] +"G6363_RNA" "ybeZ" ["ybeZ", "phoL", "b0660", "ECK0652"] "mRNA" [] "G6363" ["G6363-MONOMER"] null [] +"G6364_RNA" "miaB" ["miaB", "yleA", "b0661", "ECK0653"] "mRNA" [] "G6364" ["G6364-MONOMER"] null [] +"G6365_RNA" "ubiF" ["ubiF", "yleB", "b0662", "ECK0654"] "mRNA" [] "G6365" ["OCTAPRENYL-METHYL-METHOXY-BENZOQ-OH-MON"] null [] +"G6370_RNA" "chiP" ["chiP", "ybfM", "b0681", "ECK0669"] "mRNA" [] "G6370" ["G6370-MONOMER"] null [] +"G6371_RNA" "chiQ" ["chiQ", "ybfN", "b0682", "ECK0670"] "mRNA" [] "G6371" ["G6371-MONOMER"] null [] +"G6374_RNA" "ybfP" ["ybfP", "b0689", "ECK0677"] "mRNA" [] "G6374" ["G6374-MONOMER"] null [] +"G6376_RNA" "ybfO" ["ybfO", "b0703", "ECK0691"] "pseudo" [] "G6376" ["G6376-MONOMER"] null [] +"G6377_RNA" "ybfL" ["ybfL", "b0705", "ECK0694"] "pseudo" [] "G6377" ["G6377-MONOMER"] null [] +"G6378_RNA" "dtpD" ["dtpD", "ybgH", "b0709", "ECK0698"] "mRNA" [] "G6378" ["B0709-MONOMER"] null [] +"G6379_RNA" "ybgI" ["ybgI", "b0710", "ECK0699"] "mRNA" [] "G6379" ["G6379-MONOMER"] null [] +"G6380_RNA" "pxpB" ["pxpB", "ybgJ", "b0711", "ECK0700"] "mRNA" [] "G6380" ["G6380-MONOMER"] null [] +"G6381_RNA" "pxpC" ["pxpC", "ybgK", "b0712", "ECK0701"] "mRNA" [] "G6381" ["G6381-MONOMER"] null [] +"G6382_RNA" "pxpA" ["pxpA", "ybgL", "b0713", "ECK0702"] "mRNA" [] "G6382" ["G6382-MONOMER"] null [] +"G6383_RNA" "nei" ["nei", "b0714", "ECK0703"] "mRNA" [] "G6383" ["G6383-MONOMER"] null [] +"G6384_RNA" "abrB" ["abrB", "ybgN", "b0715", "ECK0704"] "mRNA" [] "G6384" ["G6384-MONOMER"] null [] +"G6385_RNA" "ybgO" ["ybgO", "b0716", "ECK0705"] "mRNA" [] "G6385" ["G6385-MONOMER"] null [] +"G6386_RNA" "ybgP" ["ybgP", "b0717", "ECK0706"] "mRNA" [] "G6386" ["G6386-MONOMER"] null [] +"G6387_RNA" "ybgQ" ["ybgQ", "b0718", "ECK0707"] "mRNA" [] "G6387" ["G6387-MONOMER"] null [] +"G6388_RNA" "b0725" ["b0725", "b0725"] "phantom" [] "G6388" [] null [] +"RNA0-300" "tRNA-Val(UAC)" ["tRNAvalZ"] "tRNA" ["RNA0-311"] "G6389" [] "UAC" [] +"RNA0-301" "tRNA-Lys(UUU)" ["tRNAlysY"] "tRNA" ["RNA0-312"] "G6390" [] "UUU" [] +"RNA0-302" "tRNA-Lys(UUU)" ["tRNAlysZ"] "tRNA" ["RNA0-313"] "G6391" [] "UUU" [] +"RNA0-303" "tRNA-Lys(UUU)" ["tRNAlysQ"] "tRNA" ["RNA0-314"] "G6392" [] "UUU" [] +"G6393_RNA" "zitB" ["zitB", "ybgR", "b0752", "ECK0741"] "mRNA" [] "G6393" ["B0752-MONOMER"] null [] +"G6394_RNA" "ybgS" ["ybgS", "b0753", "ECK0742"] "mRNA" [] "G6394" ["G6394-MONOMER"] null [] +"G6395_RNA" "modE" ["modE", "chlD", "modR", "b0761", "ECK0750"] "mRNA" [] "G6395" ["MONOMER0-185"] null [] +"G6396_RNA" "acrZ" ["acrZ", "ybhT", "b0762", "ECK0751"] "mRNA" [] "G6396" ["G6396-MONOMER"] null [] +"G6397_RNA" "pgl" ["pgl", "ybhE", "b0767", "ECK0756"] "mRNA" [] "G6397" ["6PGLUCONOLACT-MONOMER"] null [] +"G6398_RNA" "ybhD" ["ybhD", "b0768", "ECK0757"] "mRNA" [] "G6398" ["G6398-MONOMER"] null [] +"G6399_RNA" "ybhH" ["ybhH", "b0769", "ECK0758"] "mRNA" [] "G6399" ["G6399-MONOMER"] null [] +"G6400_RNA" "ybhI" ["ybhI", "b0770", "ECK0759"] "mRNA" [] "G6400" ["B0770-MONOMER"] null [] +"G6401_RNA" "ybhJ" ["ybhJ", "b0771", "ECK0760"] "mRNA" [] "G6401" ["G6401-MONOMER"] null [] +"G6402_RNA" "ybhK" ["ybhK", "b0780", "ECK0769"] "mRNA" [] "G6402" ["G6402-MONOMER"] null [] +"G6403_RNA" "ybhL" ["ybhL", "b0786", "ECK0775"] "mRNA" [] "G6403" ["G6403-MONOMER"] null [] +"G6404_RNA" "ybhM" ["ybhM", "b0787", "ECK0776"] "mRNA" [] "G6404" ["G6404-MONOMER"] null [] +"G6405_RNA" "ybhN" ["ybhN", "b0788", "ECK0777"] "mRNA" [] "G6405" ["G6405-MONOMER"] null [] +"G6406_RNA" "clsB" ["clsB", "ybhO", "b0789", "ECK0778"] "mRNA" [] "G6406" ["G6406-MONOMER"] null [] +"G6407_RNA" "ybhP" ["ybhP", "b0790", "ECK0779"] "mRNA" [] "G6407" ["G6407-MONOMER"] null [] +"G6408_RNA" "ybhQ" ["ybhQ", "b0791", "ECK0780"] "mRNA" [] "G6408" ["G6408-MONOMER"] null [] +"G6409_RNA" "ybhR" ["ybhR", "b0792", "ECK0781"] "mRNA" [] "G6409" ["YBHR-MONOMER"] null [] +"G6410_RNA" "ybhS" ["ybhS", "b0793", "ECK0782"] "mRNA" [] "G6410" ["YBHS-MONOMER"] null [] +"G6411_RNA" "ybhF" ["ybhF", "b0794", "ECK0783"] "mRNA" [] "G6411" ["YBHF-MONOMER"] null [] +"G6412_RNA" "ybhG" ["ybhG", "b0795", "ECK0784"] "mRNA" [] "G6412" ["G6412-MONOMER"] null [] +"G6413_RNA" "ybiX" ["ybiX", "b0804", "ECK0793"] "mRNA" [] "G6413" ["G6413-MONOMER"] null [] +"G6414_RNA" "fiu" ["fiu", "ybiL", "b0805", "ECK0794"] "mRNA" [] "G6414" ["G6414-MONOMER"] null [] +"G6415_RNA" "mcbA" ["mcbA", "ybiM", "b0806", "ECK0795"] "mRNA" [] "G6415" ["G6415-MONOMER"] null [] +"G6416_RNA" "rlmF" ["rlmF", "ybiN", "b0807", "ECK0796"] "mRNA" [] "G6416" ["G6416-MONOMER"] null [] +"G6417_RNA" "ybiO" ["ybiO", "b0808", "ECK0797"] "mRNA" [] "G6417" ["G6417-MONOMER"] null [] +"G6418_RNA" "opgE" ["opgE", "ybiP", "b0815", "ECK0804"] "mRNA" [] "G6418" ["G6418-MONOMER"] null [] +"G6419_RNA" "yliL" ["yliL", "b0816", "ECK0805"] "phantom" [] "G6419" [] null [] +"G6420_RNA" "mntR" ["mntR", "ybiQ", "b0817", "ECK0807"] "mRNA" [] "G6420" ["G6420-MONOMER"] null [] +"G6421_RNA" "ybiR" ["ybiR", "b0818", "ECK0808"] "mRNA" [] "G6421" ["G6421-MONOMER"] null [] +"G6422_RNA" "ldtB" ["ldtB", "ybiS", "b0819", "ECK0809"] "mRNA" [] "G6422" ["G6422-MONOMER"] null [] +"G6423_RNA" "ybiT" ["ybiT", "b0820", "ECK0810"] "mRNA" [] "G6423" ["G6423-MONOMER"] null [] +"G6424_RNA" "ybiU" ["ybiU", "b0821", "ECK0811"] "mRNA" [] "G6424" ["G6424-MONOMER"] null [] +"G6425_RNA" "ybiV" ["ybiV", "supH", "b0822", "ECK0812"] "mRNA" [] "G6425" ["G6425-MONOMER"] null [] +"G6426_RNA" "ybiW" ["ybiW", "pflF", "b0823", "ECK0813"] "mRNA" [] "G6426" ["G6426-MONOMER"] null [] +"G6427_RNA" "ybiY" ["ybiY", "pflE", "b0824", "ECK0814"] "mRNA" [] "G6427" ["G6427-MONOMER"] null [] +"G6428_RNA" "fsaA" ["fsaA", "ybiZ", "fsa", "mipB", "b0825", "ECK0815"] "mRNA" [] "G6428" ["G6428-MONOMER"] null [] +"G6429_RNA" "gsiA" ["gsiA", "yliA", "b0829", "ECK0819"] "mRNA" [] "G6429" ["YLIA-MONOMER"] null [] +"G6430_RNA" "gsiB" ["gsiB", "yliB", "b0830", "ECK0820"] "mRNA" [] "G6430" ["YLIB-MONOMER"] null [] +"G6431_RNA" "gsiC" ["gsiC", "yliC", "b0831", "ECK0821"] "mRNA" [] "G6431" ["YLIC-MONOMER"] null [] +"G6432_RNA" "gsiD" ["gsiD", "yliD", "b0832", "ECK0822"] "mRNA" [] "G6432" ["YLID-MONOMER"] null [] +"G6433_RNA" "pdeI" ["pdeI", "yliE", "b0833", "ECK0823"] "mRNA" [] "G6433" ["G6433-MONOMER"] null [] +"G6434_RNA" "dgcI" ["dgcI", "yliF", "b0834", "ECK0824"] "mRNA" [] "G6434" ["G6434-MONOMER"] null [] +"G6435_RNA" "rimO" ["rimO", "yliG", "b0835", "ECK0825"] "mRNA" [] "G6435" ["G6435-MONOMER"] null [] +"G6436_RNA" "bssR" ["bssR", "yliH", "b0836", "ECK0826"] "mRNA" [] "G6436" ["G6436-MONOMER"] null [] +"G6437_RNA" "yliI" ["yliI", "b0837", "ECK0827"] "mRNA" [] "G6437" ["G6437-MONOMER"] null [] +"G6438_RNA" "gstB" ["gstB", "yliJ", "b0838", "ECK0828"] "mRNA" [] "G6438" ["G6438-MONOMER"] null [] +"G6439_RNA" "ybjG" ["ybjG", "b0841", "ECK0831"] "mRNA" [] "G6439" ["G6439-MONOMER"] null [] +"G6440_RNA" "mdfA" ["mdfA", "cmlA", "cmr", "b0842", "ECK0832"] "mRNA" [] "G6440" ["CMR-MONOMER"] null [] +"G6441_RNA" "ybjH" ["ybjH", "b0843", "ECK0833"] "mRNA" [] "G6441" ["G6441-MONOMER"] null [] +"G6442_RNA" "ybjI" ["ybjI", "b0844", "ECK0834"] "mRNA" [] "G6442" ["G6442-MONOMER"] null [] +"G6443_RNA" "ybjJ" ["ybjJ", "b0845", "ECK0835"] "mRNA" [] "G6443" ["G6443-MONOMER"] null [] +"G6444_RNA" "rcdA" ["rcdA", "ybjK", "b0846", "ECK0836"] "mRNA" [] "G6444" ["G6444-MONOMER"] null [] +"G6445_RNA" "ybjL" ["ybjL", "b0847", "ECK0838"] "mRNA" [] "G6445" ["G6445-MONOMER"] null [] +"G6446_RNA" "ybjM" ["ybjM", "b0848", "ECK0839"] "mRNA" [] "G6446" ["G6446-MONOMER"] null [] +"G6447_RNA" "ybjN" ["ybjN", "b0853", "ECK0844"] "mRNA" [] "G6447" ["G6447-MONOMER"] null [] +"G6448_RNA" "ybjO" ["ybjO", "b0858", "ECK0849"] "mRNA" [] "G6448" ["G6448-MONOMER"] null [] +"G6449_RNA" "rlmC" ["rlmC", "ybjF", "rumB", "b0859", "ECK0850"] "mRNA" [] "G6449" ["G6449-MONOMER"] null [] +"G6450_RNA" "ybjP" ["ybjP", "b0865", "ECK0856"] "mRNA" [] "G6450" ["G6450-MONOMER"] null [] +"G6451_RNA" "ybjQ" ["ybjQ", "b0866", "ECK0857"] "mRNA" [] "G6451" ["G6451-MONOMER"] null [] +"G6452_RNA" "amiD" ["amiD", "ybjR", "b0867", "ECK0858"] "mRNA" [] "G6452" ["G6452-MONOMER"] null [] +"G6453_RNA" "ybjS" ["ybjS", "b0868", "ECK0859"] "mRNA" [] "G6453" ["G6453-MONOMER"] null [] +"G6454_RNA" "ybjT" ["ybjT", "b0869", "ECK0860"] "mRNA" [] "G6454" ["G6454-MONOMER"] null [] +"G6455_RNA" "ltaE" ["ltaE", "ltaA", "ybjU", "b0870", "ECK0861"] "mRNA" [] "G6455" ["LTAA-MONOMER"] null [] +"G6456_RNA" "hcr" ["hcr", "ybjV", "b0872", "ECK0863"] "mRNA" [] "G6456" ["G6456-MONOMER"] null [] +"G6457_RNA" "hcp" ["hcp", "priS", "ybjW", "b0873", "ECK0864"] "mRNA" [] "G6457" ["G6457-MONOMER"] null [] +"G6458_RNA" "lysO" ["lysO", "ybjE", "b0874", "ECK0865"] "mRNA" [] "G6458" ["G6458-MONOMER"] null [] +"G6459_RNA" "ybjD" ["ybjD", "b0876", "ECK0867"] "mRNA" [] "G6459" ["G6459-MONOMER"] null [] +"G6460_RNA" "ybjX" ["ybjX", "b0877", "ECK0868"] "mRNA" [] "G6460" ["G6460-MONOMER"] null [] +"G6461_RNA" "macA" ["macA", "ybjY", "b0878", "ECK0869"] "mRNA" [] "G6461" ["MACA"] null [] +"G6462_RNA" "macB" ["macB", "ybjZ", "b0879", "ECK0870"] "mRNA" [] "G6462" ["MACB"] null [] +"G6463_RNA" "clpS" ["clpS", "yljA", "b0881", "ECK0872"] "mRNA" [] "G6463" ["G6463-MONOMER"] null [] +"G6464_RNA" "ftsK" ["ftsK", "dinH", "b0890", "ECK0881"] "mRNA" [] "G6464" ["G6464-MONOMER"] null [] +"G6465_RNA" "lolA" ["lolA", "yzzV", "lplA", "b0891", "ECK0882"] "mRNA" [] "G6465" ["G6465-MONOMER"] null [] +"G6466_RNA" "ycaM" ["ycaM", "b0899", "ECK0890"] "mRNA" [] "G6466" ["YCAM"] null [] +"G6467_RNA" "ycaN" ["ycaN", "b0900", "ECK0891"] "mRNA" [] "G6467" ["G6467-MONOMER"] null [] +"G6468_RNA" "ycaO" ["ycaO", "b0905", "ECK0896"] "mRNA" [] "G6468" ["G6468-MONOMER"] null [] +"G6469_RNA" "ycaP" ["ycaP", "b0906", "ECK0897"] "mRNA" [] "G6469" ["G6469-MONOMER"] null [] +"G6470_RNA" "ycaL" ["ycaL", "b0909", "ECK0900"] "mRNA" [] "G6470" ["G6470-MONOMER"] null [] +"G6471_RNA" "ycaQ" ["ycaQ", "alkZ", "b0916", "ECK0907"] "mRNA" [] "G6471" ["G6471-MONOMER"] null [] +"G6472_RNA" "ycaR" ["ycaR", "b0917", "ECK0908"] "mRNA" [] "G6472" ["G6472-MONOMER"] null [] +"G6473_RNA" "ycbJ" ["ycbJ", "b0919", "ECK0910"] "mRNA" [] "G6473" ["G6473-MONOMER"] null [] +"G6474_RNA" "mepK" ["mepK", "ycbK", "b0926", "ECK0917"] "mRNA" [] "G6474" ["G6474-MONOMER"] null [] +"G6475_RNA" "gloC" ["gloC", "ycbL", "b0927", "ECK0918"] "mRNA" [] "G6475" ["G6475-MONOMER"] null [] +"G6476_RNA" "ssuC" ["ssuC", "ycbM", "b0934", "ECK0925"] "mRNA" [] "G6476" ["YCBM-MONOMER"] null [] +"G6477_RNA" "ssuD" ["ssuD", "ssi6", "ycbN", "b0935", "ECK0926"] "mRNA" [] "G6477" ["MONOMER-162"] null [] +"G6478_RNA" "ssuA" ["ssuA", "ycbO", "b0936", "ECK0927"] "mRNA" [] "G6478" ["G6478-MONOMER"] null [] +"G6479_RNA" "ssuE" ["ssuE", "ssi4", "ycbP", "b0937", "ECK0928"] "mRNA" [] "G6479" ["MONOMER0-146"] null [] +"G6480_RNA" "elfA" ["elfA", "ycbQ", "b0938", "ECK0929"] "mRNA" [] "G6480" ["G6480-MONOMER"] null [] +"G6481_RNA" "elfD" ["elfD", "ycbR", "b0939", "ECK0930"] "mRNA" [] "G6481" ["G6481-MONOMER"] null [] +"G6482_RNA" "elfC" ["elfC", "ycbS", "b0940", "ECK0931"] "mRNA" [] "G6482" ["G6482-MONOMER"] null [] +"G6483_RNA" "elfG" ["elfG", "ycbT", "b0941", "ECK0932"] "mRNA" [] "G6483" ["G6483-MONOMER"] null [] +"G6484_RNA" "ycbU" ["ycbU", "b0942", "ECK0933"] "mRNA" [] "G6484" ["G6484-MONOMER"] null [] +"G6485_RNA" "ycbV" ["ycbV", "b0943", "ECK0934"] "mRNA" [] "G6485" ["G6485-MONOMER"] null [] +"G6486_RNA" "zapC" ["zapC", "ycbW", "b0946", "ECK0937"] "mRNA" [] "G6486" ["G6486-MONOMER"] null [] +"G6487_RNA" "ycbX" ["ycbX", "b0947", "ECK0938"] "mRNA" [] "G6487" ["G6487-MONOMER"] null [] +"G6488_RNA" "rlmL" ["rlmL", "ycbY", "rlmK", "rlmKL", "b0948", "ECK0939"] "mRNA" [] "G6488" ["G6488-MONOMER"] null [] +"G6489_RNA" "uup" ["uup", "ycbI", "ycbH", "b0949", "ECK0940"] "mRNA" [] "G6489" ["UUP-MONOMER"] null [] +"G6490_RNA" "pqiA" ["pqiA", "pqi5", "pqi5A", "b0950", "ECK0941"] "mRNA" [] "G6490" ["G6490-MONOMER"] null [] +"G6491_RNA" "pqiB" ["pqiB", "pqi5", "pqi5B", "b0951", "ECK0942"] "mRNA" [] "G6491" ["G6491-MONOMER"] null [] +"G6492_RNA" "pqiC" ["pqiC", "ymbA", "b0952", "ECK0943"] "mRNA" [] "G6492" ["G6492-MONOMER"] null [] +"G6493_RNA" "ycbZ" ["ycbZ", "b0955", "ECK0946"] "mRNA" [] "G6493" ["G6493-MONOMER"] null [] +"G6494_RNA" "sxy" ["sxy", "yccR", "b0959", "ECK0950"] "mRNA" [] "G6494" ["G6494-MONOMER"] null [] +"G6495_RNA" "yccS" ["yccS", "b0960", "ECK0951"] "mRNA" [] "G6495" ["G6495-MONOMER"] null [] +"G6496_RNA" "yccF" ["yccF", "b0961", "ECK0952"] "mRNA" [] "G6496" ["G6496-MONOMER"] null [] +"G6497_RNA" "mgsA" ["mgsA", "mgs", "yccG", "b0963", "ECK0954"] "mRNA" [] "G6497" ["METHGLYSYN-MONOMER"] null [] +"G6498_RNA" "yccT" ["yccT", "b0964", "ECK0955"] "mRNA" [] "G6498" ["G6498-MONOMER"] null [] +"G6499_RNA" "yccU" ["yccU", "b0965", "ECK0956"] "mRNA" [] "G6499" ["G6499-MONOMER"] null [] +"G6500_RNA" "hspQ" ["hspQ", "yccV", "b0966", "ECK0957"] "mRNA" [] "G6500" ["G6500-MONOMER"] null [] +"G6501_RNA" "rlmI" ["rlmI", "yccW", "b0967", "ECK0958"] "mRNA" [] "G6501" ["G6501-MONOMER"] null [] +"G6502_RNA" "yccX" ["yccX", "b0968", "ECK0959"] "mRNA" [] "G6502" ["G6502-MONOMER"] null [] +"G6503_RNA" "etp" ["etp", "yccY", "b0982", "ECK0973"] "mRNA" [] "G6503" ["G6503-MONOMER"] null [] +"G6504_RNA" "gfcE" ["gfcE", "yccZ", "b0983", "ECK0974"] "mRNA" [] "G6504" ["G6504-MONOMER"] null [] +"G6505_RNA" "gfcD" ["gfcD", "ymcA", "b0984", "ECK0975"] "mRNA" [] "G6505" ["G6505-MONOMER"] null [] +"G6506_RNA" "gfcC" ["gfcC", "ymcB", "b0985", "ECK0976"] "mRNA" [] "G6506" ["G6506-MONOMER"] null [] +"G6507_RNA" "gfcB" ["gfcB", "ymcC", "b0986", "ECK0977"] "mRNA" [] "G6507" ["G6507-MONOMER"] null [] +"G6508_RNA" "gfcA" ["gfcA", "ymcD", "b0987", "ECK0978"] "mRNA" [] "G6508" ["G6508-MONOMER"] null [] +"G6509_RNA" "insB4" ["insB4", "b0988", "ECK0022"] "mRNA" [] "G6509" ["G6509-MONOMER"] null [] +"G6510_RNA" "cspH" ["cspH", "cspK", "b0989", "ECK0979"] "mRNA" [] "G6510" ["G6510-MONOMER"] null [] +"G6511_RNA" "cspG" ["cspG", "b0990", "ECK0980"] "mRNA" [] "G6511" ["G6511-MONOMER"] null [] +"G6512_RNA" "ymcE" ["ymcE", "b0991", "ECK0981"] "mRNA" [] "G6512" ["G6512-MONOMER"] null [] +"G6513_RNA" "yccM" ["yccM", "b0992", "ECK0983"] "mRNA" [] "G6513" ["G6513-MONOMER"] null [] +"G6514_RNA" "torS" ["torS", "yccI", "b0993", "ECK0984"] "mRNA" [] "G6514" ["TORS-MONOMER"] null [] +"G6515_RNA" "torT" ["torT", "yccH", "b0994", "ECK0985"] "mRNA" [] "G6515" ["TORT-MONOMER"] null [] +"G6516_RNA" "ycdF" ["ycdF", "b1005"] "phantom" [] "G6516" [] null [] +"G6517_RNA" "rutG" ["rutG", "ycdG", "b1006", "ECK0997"] "mRNA" [] "G6517" ["B1006-MONOMER"] null [] +"G6518_RNA" "rutF" ["rutF", "ycdH", "b1007", "ECK0998"] "mRNA" [] "G6518" ["G6518-MONOMER"] null [] +"G6519_RNA" "rutE" ["rutE", "ycdI", "b1008", "ECK0999"] "mRNA" [] "G6519" ["G6519-MONOMER"] null [] +"G6520_RNA" "rutD" ["rutD", "ycdJ", "b1009", "ECK1000"] "mRNA" [] "G6520" ["G6520-MONOMER"] null [] +"G6521_RNA" "rutC" ["rutC", "ycdK", "b1010", "ECK1001"] "mRNA" [] "G6521" ["G6521-MONOMER"] null [] +"G6522_RNA" "rutB" ["rutB", "ycdL", "b1011", "ECK1002"] "mRNA" [] "G6522" ["G6522-MONOMER"] null [] +"G6523_RNA" "rutA" ["rutA", "ycdM", "b1012", "ECK1003"] "mRNA" [] "G6523" ["G6523-MONOMER"] null [] +"G6525_RNA" "efeU" ["efeU", "ycdN", "b1016", "b1017", "b4490", "ECK1007"] "pseudo" [] "G6525" ["MONOMER0-4386"] null [] +"G6527_RNA" "efeO" ["efeO", "ycdO", "b1018", "ECK1008"] "mRNA" [] "G6527" ["G6527-MONOMER"] null [] +"G6528_RNA" "pgaD" ["pgaD", "hmsS", "ycdP", "b1021", "ECK1011"] "mRNA" [] "G6528" ["G6528-MONOMER"] null [] +"G6529_RNA" "pgaC" ["pgaC", "hmsR", "ycdQ", "b1022", "ECK1012"] "mRNA" [] "G6529" ["G6529-MONOMER"] null [] +"G6530_RNA" "pgaB" ["pgaB", "hmsF", "ycdR", "b1023", "ECK1013"] "mRNA" [] "G6530" ["G6530-MONOMER"] null [] +"G6531_RNA" "pgaA" ["pgaA", "hmsH", "ycdS", "b1024", "ECK1014"] "mRNA" [] "G6531" ["G6531-MONOMER"] null [] +"G6532_RNA" "dgcT" ["dgcT", "ycdT", "b1025", "ECK1015"] "mRNA" [] "G6532" ["G6532-MONOMER"] null [] +"G6533_RNA" "insF4" ["insF4", "tra5-3", "b1026", "ECK0299"] "mRNA" [] "G6533" ["MONOMER0-4443"] null [] +"G6534_RNA" "insE4" ["insE4", "b1027", "ECK0298"] "mRNA" [] "G6534" ["MONOMER0-4244"] null [] +"G6535_RNA" "ymdE" ["ymdE", "b1028", "ECK1016"] "pseudo" [] "G6535" ["G6535-MONOMER"] null [] +"G6536_RNA" "ycdU" ["ycdU", "b1029", "ECK1017"] "mRNA" [] "G6536" ["G6536-MONOMER"] null [] +"G6539_RNA" "ghrA" ["ghrA", "ycdW", "b1033", "ECK1019"] "mRNA" [] "G6539" ["G6539-MONOMER"] null [] +"G6540_RNA" "ycdX" ["ycdX", "b1034", "ECK1020"] "mRNA" [] "G6540" ["G6540-MONOMER"] null [] +"G6541_RNA" "ycdY" ["ycdY", "b1035", "ECK1021"] "mRNA" [] "G6541" ["G6541-MONOMER"] null [] +"G6542_RNA" "ycdZ" ["ycdZ", "nupT", "b1036", "ECK1022"] "mRNA" [] "G6542" ["G6542-MONOMER"] null [] +"G6543_RNA" "csgG" ["csgG", "b1037", "ECK1023"] "mRNA" [] "G6543" ["G6543-MONOMER"] null [] +"G6544_RNA" "csgF" ["csgF", "b1038", "ECK1024"] "mRNA" [] "G6544" ["G6544-MONOMER"] null [] +"G6545_RNA" "csgE" ["csgE", "b1039", "ECK1025"] "mRNA" [] "G6545" ["G6545-MONOMER"] null [] +"G6546_RNA" "csgD" ["csgD", "b1040", "ECK1026"] "mRNA" [] "G6546" ["PD01379"] null [] +"G6547_RNA" "csgB" ["csgB", "b1041", "ECK1027"] "mRNA" [] "G6547" ["G6547-MONOMER"] null [] +"G6548_RNA" "csgC" ["csgC", "ycdE", "b1043", "ECK1029"] "mRNA" [] "G6548" ["G6548-MONOMER"] null [] +"G6549_RNA" "ymdA" ["ymdA", "b1044", "ECK1030"] "mRNA" [] "G6549" ["G6549-MONOMER"] null [] +"G6550_RNA" "ymdB" ["ymdB", "b1045", "ECK1031"] "mRNA" [] "G6550" ["G6550-MONOMER"] null [] +"G6551_RNA" "clsC" ["clsC", "ymdC", "b1046", "ECK1032"] "mRNA" [] "G6551" ["G6551-MONOMER"] null [] +"G6552_RNA" "opgC" ["opgC", "ymdD", "mdoC", "b1047", "ECK1033"] "mRNA" [] "G6552" ["G6552-MONOMER"] null [] +"G6553_RNA" "b1052" ["b1052", "b1052"] "phantom" [] "G6553" [] null [] +"G6554_RNA" "yceJ" ["yceJ", "b1057", "ECK1042"] "mRNA" [] "G6554" ["G6554-MONOMER"] null [] +"G6555_RNA" "yceO" ["yceO", "b1058", "ECK1043"] "mRNA" [] "G6555" ["G6555-MONOMER"] null [] +"G6556_RNA" "solA" ["solA", "b1059", "ECK1044"] "mRNA" [] "G6556" ["SARCOX-MONOMER"] null [] +"G6557_RNA" "bssS" ["bssS", "yceP", "b1060", "ECK1045"] "mRNA" [] "G6557" ["G6557-MONOMER"] null [] +"G6558_RNA" "dinI" ["dinI", "b1061", "ECK1046"] "mRNA" [] "G6558" ["G6558-MONOMER"] null [] +"G6559_RNA" "mdtH" ["mdtH", "yceL", "b1065", "ECK1050"] "mRNA" [] "G6559" ["B1065-MONOMER"] null [] +"G6560_RNA" "yceM" ["yceM", "mviM", "b1068", "ECK1053"] "mRNA" [] "G6560" ["G6560-MONOMER"] null [] +"G6561_RNA" "murJ" ["murJ", "mviN", "yceN", "b1069", "ECK1054"] "mRNA" [] "G6561" ["G6561-MONOMER"] null [] +"G6562_RNA" "flgN" ["flgN", "b1070", "ECK1055"] "mRNA" [] "G6562" ["G6562-MONOMER"] null [] +"G6563_RNA" "yceQ" ["yceQ", "b1085", "ECK1070"] "mRNA" [] "G6563" ["G6563-MONOMER"] null [] +"G6564_RNA" "ycfL" ["ycfL", "b1104", "ECK1090"] "mRNA" [] "G6564" ["G6564-MONOMER"] null [] +"G6565_RNA" "lpoB" ["lpoB", "ycfM", "b1105", "ECK1091"] "mRNA" [] "G6565" ["G6565-MONOMER"] null [] +"G6566_RNA" "thiK" ["thiK", "ycfN", "b1106", "ECK1092"] "mRNA" [] "G6566" ["THIKIN-MONOMER"] null [] +"G6567_RNA" "nagZ" ["nagZ", "ycfO", "b1107", "ECK1093"] "mRNA" [] "G6567" ["G6567-MONOMER"] null [] +"G6568_RNA" "ycfP" ["ycfP", "b1108", "ECK1094"] "mRNA" [] "G6568" ["G6568-MONOMER"] null [] +"G6569_RNA" "comR" ["comR", "ycfQ", "b1111", "ECK1097"] "mRNA" [] "G6569" ["G6569-MONOMER"] null [] +"G6570_RNA" "bhsA" ["bhsA", "ycfR", "comC", "b1112", "ECK1098"] "mRNA" [] "G6570" ["G6570-MONOMER"] null [] +"G6571_RNA" "ldtC" ["ldtC", "ycfS", "b1113", "ECK1099"] "mRNA" [] "G6571" ["G6571-MONOMER"] null [] +"G6572_RNA" "ycfT" ["ycfT", "b1115", "ECK1101"] "mRNA" [] "G6572" ["G6572-MONOMER"] null [] +"G6573_RNA" "lolC" ["lolC", "ycfU", "b1116", "ECK1102"] "mRNA" [] "G6573" ["YCFU-MONOMER"] null [] +"G6574_RNA" "lolD" ["lolD", "ycfV", "b1117", "ECK1103"] "mRNA" [] "G6574" ["YCFV-MONOMER"] null [] +"G6575_RNA" "lolE" ["lolE", "ycfW", "b1118", "ECK1104"] "mRNA" [] "G6575" ["YCFW-MONOMER"] null [] +"G6576_RNA" "nagK" ["nagK", "ycfX", "b1119", "ECK1105"] "mRNA" [] "G6576" ["G6576-MONOMER"] null [] +"G6577_RNA" "cobB" ["cobB", "ycfY", "b1120", "ECK1106"] "mRNA" [] "G6577" ["MONOMER0-4534", "G6577-MONOMER"] null [[[112, 840]], []] +"G6578_RNA" "ycfZ" ["ycfZ", "b1121", "ECK1107"] "mRNA" [] "G6578" ["G6578-MONOMER"] null [] +"G6579_RNA" "ymfA" ["ymfA", "b1122", "ECK1108"] "mRNA" [] "G6579" ["G6579-MONOMER"] null [] +"G6580_RNA" "nudJ" ["nudJ", "ymfB", "b1134", "ECK1120"] "mRNA" [] "G6580" ["G6580-MONOMER"] null [] +"G6581_RNA" "rluE" ["rluE", "ymfC", "b1135", "ECK1121"] "mRNA" [] "G6581" ["G6581-MONOMER"] null [] +"G6582_RNA" "ymfD" ["ymfD", "b1137", "ECK1123"] "mRNA" [] "G6582" ["G6582-MONOMER"] null [] +"G6583_RNA" "ymfE" ["ymfE", "b1138", "ECK1124"] "mRNA" [] "G6583" ["G6583-MONOMER"] null [] +"G6585_RNA" "xisE" ["xisE", "ymfG", "b1141", "ECK1127"] "mRNA" [] "G6585" ["G6585-MONOMER"] null [] +"G6586_RNA" "ymfH" ["ymfH", "b1142", "ECK1128"] "mRNA" [] "G6586" ["G6586-MONOMER"] null [] +"G6587_RNA" "ymfI" ["ymfI", "b1143", "ECK1129"] "mRNA" [] "G6587" ["G6587-MONOMER"] null [] +"G6588_RNA" "ymfJ" ["ymfJ", "b1144", "ECK1130"] "mRNA" [] "G6588" ["G6588-MONOMER"] null [] +"G6589_RNA" "ymfK" ["ymfK", "cohE", "b1145", "ECK1131"] "mRNA" [] "G6589" ["G6589-MONOMER"] null [] +"G6590_RNA" "ymfT" ["ymfT", "croE", "b1146", "ECK1132"] "mRNA" [] "G6590" ["G6590-MONOMER"] null [] +"G6591_RNA" "ymfL" ["ymfL", "b1147", "ECK1133"] "mRNA" [] "G6591" ["G6591-MONOMER"] null [] +"G6592_RNA" "ymfM" ["ymfM", "sfiC", "b1148", "ECK1134"] "mRNA" [] "G6592" ["G6592-MONOMER"] null [] +"G6593_RNA" "ymfN" ["ymfN", "b1149", "ECK1135"] "mRNA" [] "G6593" ["G6593-MONOMER"] null [] +"G6594_RNA" "ymfR" ["ymfR", "b1150", "ECK1136"] "mRNA" [] "G6594" ["G6594-MONOMER"] null [] +"G6595_RNA" "beeE" ["beeE", "ymfO", "b1151", "ECK1137"] "mRNA" [] "G6595" ["G6595-MONOMER"] null [] +"G6596_RNA" "jayE" ["jayE", "ymfP", "b1152", "ECK1138"] "pseudo" [] "G6596" ["G6596-MONOMER"] null [] +"G6597_RNA" "ymfQ" ["ymfQ", "b1153", "ECK1139"] "mRNA" [] "G6597" ["G6597-MONOMER"] null [] +"G6598_RNA" "tfaP" ["tfaP", "ymfS", "b1155", "ECK1141"] "mRNA" [] "G6598" ["G6598-MONOMER"] null [] +"G6599_RNA" "stfE" ["stfE", "ycfE", "b1157", "ECK1143"] "pseudo" [] "G6599" ["G6599-MONOMER"] null [] +"G6600_RNA" "iraM" ["iraM", "elb1", "ycgW", "elbA", "b1160", "ECK1147"] "mRNA" [] "G6600" ["G6600-MONOMER"] null [] +"G6601_RNA" "ycgX" ["ycgX", "b1161", "ECK1148"] "mRNA" [] "G6601" ["G6601-MONOMER"] null [] +"G6602_RNA" "bluR" ["bluR", "ycgE", "b1162", "ECK1149"] "mRNA" [] "G6602" ["G6602-MONOMER"] null [] +"G6603_RNA" "bluF" ["bluF", "ycgF", "b1163", "ECK1150"] "mRNA" [] "G6603" ["G6603-MONOMER"] null [] +"G6604_RNA" "ycgZ" ["ycgZ", "b1164", "ECK1151"] "mRNA" [] "G6604" ["G6604-MONOMER"] null [] +"G6605_RNA" "ymgA" ["ymgA", "b1165", "ECK1152"] "mRNA" [] "G6605" ["G6605-MONOMER"] null [] +"G6606_RNA" "ariR" ["ariR", "ymgB", "b1166", "ECK1153"] "mRNA" [] "G6606" ["G6606-MONOMER"] null [] +"G6607_RNA" "ymgC" ["ymgC", "b1167", "ECK1154"] "mRNA" [] "G6607" ["G6607-MONOMER"] null [] +"G6608_RNA" "pdeG" ["pdeG", "ycgG", "b1168", "ECK1155"] "mRNA" [] "G6608" ["G6608-MONOMER"] null [] +"G6609_RNA" "ycgH" ["ycgH", "b1169", "b1170", "b4491", "ECK1157"] "pseudo" [] "G6609" ["G6609-MONOMER"] null [] +"G6611_RNA" "ymgD" ["ymgD", "b1171", "ECK1158"] "mRNA" [] "G6611" ["G6611-MONOMER"] null [] +"G6612_RNA" "ymgG" ["ymgG", "b1172", "ECK1159"] "mRNA" [] "G6612" ["G6612-MONOMER"] null [] +"G6614_RNA" "ycgJ" ["ycgJ", "b1177", "ECK1165"] "mRNA" [] "G6614" ["G6614-MONOMER"] null [] +"G6615_RNA" "pliG" ["pliG", "ycgK", "b1178", "ECK1166"] "mRNA" [] "G6615" ["G6615-MONOMER"] null [] +"G6616_RNA" "ycgL" ["ycgL", "b1179", "ECK1167"] "mRNA" [] "G6616" ["G6616-MONOMER"] null [] +"G6617_RNA" "ycgM" ["ycgM", "b1180", "ECK1168"] "mRNA" [] "G6617" ["G6617-MONOMER"] null [] +"G6618_RNA" "ycgN" ["ycgN", "b1181", "ECK1169"] "mRNA" [] "G6618" ["G6618-MONOMER"] null [] +"G6619_RNA" "hlyE" ["hlyE", "ycgD", "clyA", "hpr", "sheA", "b1182", "ECK1170"] "mRNA" [] "G6619" ["G6619-MONOMER"] null [] +"G6620_RNA" "cvrA" ["cvrA", "ycgO", "b1191", "ECK1179"] "mRNA" [] "G6620" ["YCGO-MONOMER"] null [] +"G6621_RNA" "ldcA" ["ldcA", "ycgQ", "b1192", "ECK1180"] "mRNA" [] "G6621" ["G6621-MONOMER"] null [] +"G6622_RNA" "emtA" ["emtA", "ycgP", "mltE", "sltZ", "b1193", "ECK1181"] "mRNA" [] "G6622" ["G6622-MONOMER"] null [] +"G6623_RNA" "ycgR" ["ycgR", "b1194", "ECK1182"] "mRNA" [] "G6623" ["G6623-MONOMER"] null [] +"G6624_RNA" "ymgE" ["ymgE", "tag", "b1195", "ECK1183"] "mRNA" [] "G6624" ["G6624-MONOMER"] null [] +"G6625_RNA" "ycgY" ["ycgY", "b1196", "ECK1184"] "mRNA" [] "G6625" ["G6625-MONOMER"] null [] +"G6626_RNA" "dhaL" ["dhaL", "ysgS", "ycgS", "dhaK2", "b1199", "ECK1187"] "mRNA" [] "G6626" ["MONOMER0-1261"] null [] +"G6627_RNA" "dhaK" ["dhaK", "ycgT", "dhaK1", "b1200", "ECK1188"] "mRNA" [] "G6627" ["G6627-MONOMER"] null [] +"G6628_RNA" "dhaR" ["dhaR", "ycgU", "b1201", "ECK1189"] "mRNA" [] "G6628" ["G6628-MONOMER"] null [] +"G6629_RNA" "ycgV" ["ycgV", "b1202", "ECK1190"] "mRNA" [] "G6629" ["G6629-MONOMER"] null [] +"G6630_RNA" "ychQ" ["ychQ", "sirB2", "b1213", "ECK1201"] "mRNA" [] "G6630" ["G6630-MONOMER"] null [] +"G6631_RNA" "ychS" ["ychS", "b1228", "ECK1222"] "mRNA" [] "G6631" ["G6631-MONOMER"] null [] +"G6632_RNA" "insZ" ["insZ", "ychG", "b1240", "b1239", "b4573", "ECK1234"] "pseudo" [] "G6632" ["G6632-MONOMER"] null [] +"G6633_RNA" "yciU" ["yciU", "b1248", "ECK1242"] "mRNA" [] "G6633" ["G6633-MONOMER"] null [] +"G6634_RNA" "yciV" ["yciV", "trpH", "b1266", "ECK1260"] "mRNA" [] "G6634" ["G6634-MONOMER"] null [] +"G6635_RNA" "yciO" ["yciO", "b1267", "ECK1261"] "mRNA" [] "G6635" ["G6635-MONOMER"] null [] +"G6636_RNA" "yciQ" ["yciQ", "yciP", "b1268", "ECK1262"] "mRNA" [] "G6636" ["G6636-MONOMER"] null [] +"G6637_RNA" "lapA" ["lapA", "yciS", "b1279", "ECK1274"] "mRNA" [] "G6637" ["G6637-MONOMER"] null [] +"G6638_RNA" "yciT" ["yciT", "deoT", "b1284", "ECK1279"] "mRNA" [] "G6638" ["G6638-MONOMER"] null [] +"G6639_RNA" "pdeR" ["pdeR", "yciR", "gmr", "b1285", "ECK1280"] "mRNA" [] "G6639" ["G6639-MONOMER"] null [] +"G6640_RNA" "yciW" ["yciW", "b1287", "ECK1282"] "mRNA" [] "G6640" ["G6640-MONOMER"] null [] +"G6641_RNA" "ycjD" ["ycjD", "b1289", "ECK1284"] "mRNA" [] "G6641" ["G6641-MONOMER"] null [] +"G6642_RNA" "ymjA" ["ymjA", "b1295", "ECK1290"] "mRNA" [] "G6642" ["G6642-MONOMER"] null [] +"G6643_RNA" "puuP" ["puuP", "ycjJ", "b1296", "ECK1291"] "mRNA" [] "G6643" ["B1296-MONOMER"] null [] +"G6644_RNA" "puuA" ["puuA", "ycjK", "b1297", "ECK1292"] "mRNA" [] "G6644" ["G6644-MONOMER"] null [] +"G6645_RNA" "puuD" ["puuD", "ycjL", "b1298", "ECK1293"] "mRNA" [] "G6645" ["G6645-MONOMER"] null [] +"G6646_RNA" "puuE" ["puuE", "goaG", "b1302", "ECK1297"] "mRNA" [] "G6646" ["G6646-MONOMER"] null [] +"G6647_RNA" "ycjM" ["ycjM", "ggaP", "b1309", "ECK1304"] "mRNA" [] "G6647" ["G6647-MONOMER"] null [] +"G6648_RNA" "ycjN" ["ycjN", "b1310", "ECK1305"] "mRNA" [] "G6648" ["YCJN-MONOMER"] null [] +"G6649_RNA" "ycjO" ["ycjO", "b1311", "ECK1306"] "mRNA" [] "G6649" ["YCJO-MONOMER"] null [] +"G6650_RNA" "ycjP" ["ycjP", "b1312", "ECK1307"] "mRNA" [] "G6650" ["YCJP-MONOMER"] null [] +"G6651_RNA" "ycjQ" ["ycjQ", "b1313", "ECK1308"] "mRNA" [] "G6651" ["G6651-MONOMER"] null [] +"G6652_RNA" "ycjR" ["ycjR", "dte", "b1314", "ECK1309"] "mRNA" [] "G6652" ["G6652-MONOMER"] null [] +"G6653_RNA" "ycjS" ["ycjS", "b1315", "ECK1310"] "mRNA" [] "G6653" ["G6653-MONOMER"] null [] +"G6654_RNA" "ycjT" ["ycjT", "b1316", "ECK1311"] "mRNA" [] "G6654" ["G6654-MONOMER"] null [] +"G6655_RNA" "ycjU" ["ycjU", "pgmB", "b1317", "ECK1312"] "mRNA" [] "G6655" ["G6655-MONOMER"] null [] +"G6656_RNA" "ycjV" ["ycjV", "b1318", "ECK1313"] "pseudo" [] "G6656" ["YCJV-MONOMER"] null [] +"G6657_RNA" "ompG" ["ompG", "b1319", "ECK1315"] "mRNA" [] "G6657" ["G6657-MONOMER"] null [] +"G6658_RNA" "ycjW" ["ycjW", "b1320", "ECK1316"] "mRNA" [] "G6658" ["G6658-MONOMER"] null [] +"G6659_RNA" "ycjX" ["ycjX", "b1321", "ECK1317"] "mRNA" [] "G6659" ["G6659-MONOMER"] null [] +"G6660_RNA" "tpx" ["tpx", "yzzJ", "b1324", "ECK1320"] "mRNA" [] "G6660" ["G6660-MONOMER"] null [] +"G6661_RNA" "ycjG" ["ycjG", "ycjH", "b1325", "ECK1321"] "mRNA" [] "G6661" ["G6661-MONOMER"] null [] +"G6662_RNA" "mpaA" ["mpaA", "ycjI", "b1326", "ECK1322"] "mRNA" [] "G6662" ["G6662-MONOMER"] null [] +"G6663_RNA" "ycjY" ["ycjY", "b1327", "ECK1324"] "mRNA" [] "G6663" ["G6663-MONOMER"] null [] +"G6664_RNA" "pgrR" ["pgrR", "ycjZ", "b1328", "ECK1325"] "mRNA" [] "G6664" ["G6664-MONOMER"] null [] +"G6665_RNA" "mppA" ["mppA", "ynaH", "b1329", "ECK1326"] "mRNA" [] "G6665" ["G6665-MONOMER"] null [] +"G6666_RNA" "ynaI" ["ynaI", "b1330", "ECK1327"] "mRNA" [] "G6666" ["MONOMER0-82"] null [] +"G6667_RNA" "insH4" ["insH4", "trs5-4", "yi52_4", "b1331", "ECK0261"] "mRNA" [] "G6667" ["MONOMER0-4236"] null [] +"G6668_RNA" "ynaJ" ["ynaJ", "b1332", "ECK1328"] "mRNA" [] "G6668" ["G6668-MONOMER"] null [] +"G6669_RNA" "abgB" ["abgB", "ydaI", "b1337", "ECK1333"] "mRNA" [] "G6669" ["G6669-MONOMER"] null [] +"G6670_RNA" "abgA" ["abgA", "ydaJ", "b1338", "ECK1334"] "mRNA" [] "G6670" ["G6670-MONOMER"] null [] +"G6671_RNA" "abgR" ["abgR", "b1339", "ECK1335"] "mRNA" [] "G6671" ["G6671-MONOMER"] null [] +"G6672_RNA" "smrA" ["smrA", "ydaL", "b1340", "ECK1337"] "mRNA" [] "G6672" ["G6672-MONOMER"] null [] +"G6673_RNA" "dgcM" ["dgcM", "ydaM", "b1341", "ECK1338"] "mRNA" [] "G6673" ["G6673-MONOMER"] null [] +"G6674_RNA" "zntB" ["zntB", "ydaN", "b1342", "ECK1339"] "mRNA" [] "G6674" ["G6674-MONOMER"] null [] +"G6675_RNA" "ttcA" ["ttcA", "ydaO", "b1344", "ECK1341"] "mRNA" [] "G6675" ["G6675-MONOMER"] null [] +"G6676_RNA" "intR" ["intR", "ydaP", "b1345", "ECK1342"] "mRNA" [] "G6676" ["G6676-MONOMER"] null [] +"G6677_RNA" "xisR" ["xisR", "ydaQ", "b1346", "ECK1343"] "mRNA" [] "G6677" ["G6677-MONOMER"] null [] +"G6678_RNA" null ["b1354"] "phantom" [] "G6678" [] null [] +"G6679_RNA" "ydaG" ["ydaG", "gatA", "b1355", "ECK1353"] "mRNA" [] "G6679" ["G6679-MONOMER"] null [] +"G6680_RNA" "racR" ["racR", "rarC", "ydaR", "b1356", "ECK1354"] "mRNA" [] "G6680" ["G6680-MONOMER"] null [] +"G6681_RNA" "ydaS" ["ydaS", "b1357", "ECK1355"] "mRNA" [] "G6681" ["G6681-MONOMER"] null [] +"G6682_RNA" "ydaT" ["ydaT", "b1358", "ECK1356"] "mRNA" [] "G6682" ["G6682-MONOMER"] null [] +"G6683_RNA" "ydaU" ["ydaU", "b1359", "ECK1357"] "mRNA" [] "G6683" ["G6683-MONOMER"] null [] +"G6684_RNA" "ydaV" ["ydaV", "b1360", "ECK1358"] "mRNA" [] "G6684" ["G6684-MONOMER"] null [] +"G6685_RNA" "ydaW" ["ydaW", "b1361", "ECK1359"] "mRNA" [] "G6685" ["G6685-MONOMER"] null [] +"G6686_RNA" "rzpR" ["rzpR", "ydaX", "b1362", "ECK1360"] "pseudo" [] "G6686" ["G6686-MONOMER"] null [] +"G6687_RNA" "b1364" ["b1364", "b1364"] "phantom" [] "G6687" [] null [] +"G6688_RNA" "ynaK" ["ynaK", "b1365", "ECK1363"] "mRNA" [] "G6688" ["G6688-MONOMER"] null [] +"G6689_RNA" "ydaY" ["ydaY", "b1366", "ECK1364"] "mRNA" [] "G6689" ["G6689-MONOMER"] null [] +"G6690_RNA" null ["b1367"] "phantom" [] "G6690" [] null [] +"G6691_RNA" "ynaA" ["ynaA", "tmpR", "b1368", "ECK1365"] "mRNA" [] "G6691" ["G6691-MONOMER"] null [] +"G6692_RNA" "lomR" ["lomR", "b1369", "b1371", "b4570", "ECK1366"] "pseudo" [] "G6692" ["G6692-MONOMER"] null [] +"G6693_RNA" "insH5" ["insH5", "yi52_5", "trs5-5", "b1370", "ECK0261"] "mRNA" [] "G6693" ["G6693-MONOMER"] null [] +"G6695_RNA" "stfR" ["stfR", "ynaB", "b1372", "ECK1367"] "mRNA" [] "G6695" ["G6695-MONOMER"] null [] +"G6696_RNA" "tfaR" ["tfaR", "ynaC", "b1373", "ECK1368"] "mRNA" [] "G6696" ["G6696-MONOMER"] null [] +"G6697_RNA" "pinR" ["pinR", "ynaD", "b1374", "ECK1369"] "mRNA" [] "G6697" ["G6697-MONOMER"] null [] +"G6698_RNA" "ynaE" ["ynaE", "b1375", "ECK1370"] "mRNA" [] "G6698" ["G6698-MONOMER"] null [] +"G6699_RNA" "uspF" ["uspF", "yzzL", "ynaF", "UP03", "b1376", "ECK1371"] "mRNA" [] "G6699" ["G6699-MONOMER"] null [] +"G6700_RNA" "ompN" ["ompN", "ynaG", "b1377", "ECK1372"] "mRNA" [] "G6700" ["G6700-MONOMER"] null [] +"G6701_RNA" "ydbK" ["ydbK", "pfo", "b1378", "ECK1374"] "mRNA" [] "G6701" ["G6701-MONOMER"] null [] +"G6702_RNA" "hslJ" ["hslJ", "ydbI", "b1379", "ECK1376"] "mRNA" [] "G6702" ["G6702-MONOMER"] null [] +"G6703_RNA" "ydbH" ["ydbH", "b1381", "ECK1378"] "mRNA" [] "G6703" ["G6703-MONOMER"] null [] +"G6704_RNA" "ynbE" ["ynbE", "b1382", "ECK1379"] "mRNA" [] "G6704" ["G6704-MONOMER"] null [] +"G6705_RNA" "ydbL" ["ydbL", "b1383", "ECK1380"] "mRNA" [] "G6705" ["G6705-MONOMER"] null [] +"G6706_RNA" "feaR" ["feaR", "ydbM", "maoX", "maoB", "b1384", "ECK1381"] "mRNA" [] "G6706" ["G6706-MONOMER"] null [] +"G6708_RNA" "paaZ" ["paaZ", "ydbN", "maoC", "b1387", "ECK1384"] "mRNA" [] "G6708" ["G6708-MONOMER"] null [] +"G6709_RNA" "paaA" ["paaA", "ydbO", "b1388", "ECK1385"] "mRNA" [] "G6709" ["G6709-MONOMER"] null [] +"G6710_RNA" "paaB" ["paaB", "ynbF", "b1389", "ECK1386"] "mRNA" [] "G6710" ["G6710-MONOMER"] null [] +"G6711_RNA" "paaC" ["paaC", "ydbP", "b1390", "ECK1387"] "mRNA" [] "G6711" ["G6711-MONOMER"] null [] +"G6712_RNA" "paaD" ["paaD", "ydbQ", "b1391", "ECK1388"] "mRNA" [] "G6712" ["G6712-MONOMER"] null [] +"G6713_RNA" "paaE" ["paaE", "ydbR", "b1392", "ECK1389"] "mRNA" [] "G6713" ["G6713-MONOMER"] null [] +"G6714_RNA" "paaF" ["paaF", "ydbR", "ydbS", "b1393", "ECK1390"] "mRNA" [] "G6714" ["G6714-MONOMER"] null [] +"G6715_RNA" "paaG" ["paaG", "ydbT", "b1394", "ECK1391"] "mRNA" [] "G6715" ["G6715-MONOMER"] null [] +"G6716_RNA" "paaH" ["paaH", "hbdH", "ydbU", "b1395", "ECK1392"] "mRNA" [] "G6716" ["G6716-MONOMER"] null [] +"G6717_RNA" "paaI" ["paaI", "ydbV", "b1396", "ECK1393"] "mRNA" [] "G6717" ["G6717-MONOMER"] null [] +"G6718_RNA" "paaJ" ["paaJ", "ydbW", "b1397", "ECK1394"] "mRNA" [] "G6718" ["G6718-MONOMER"] null [] +"G6719_RNA" "paaK" ["paaK", "b1398", "ECK1395"] "mRNA" [] "G6719" ["G6719-MONOMER"] null [] +"G6720_RNA" "paaX" ["paaX", "ydbY", "b1399", "ECK1396"] "mRNA" [] "G6720" ["G6720-MONOMER"] null [] +"G6721_RNA" "paaY" ["paaY", "ydbZ", "b1400", "ECK1397"] "mRNA" [] "G6721" ["G6721-MONOMER"] null [] +"G6722_RNA" "ydbA" ["ydbA", "b1401", "b1405", "b4492", "ECK1398"] "pseudo" [] "G6722" ["G6722-MONOMER"] null [] +"G6723_RNA" "insD2" ["insD2", "yi22-2", "b1402", "ECK0358"] "mRNA" [] "G6723" ["MONOMER0-4444"] null [] +"G6724_RNA" "insC2" ["insC2", "yi21-2", "b1403", "ECK0357"] "mRNA" [] "G6724" ["MONOMER0-4250"] null [] +"G6725_RNA" "insI2" ["insI2", "tra8-2", "b1404", "ECK0258"] "mRNA" [] "G6725" ["G6725-MONOMER"] null [] +"G6727_RNA" "ynbA" ["ynbA", "b1408", "ECK1401"] "mRNA" [] "G6727" ["G6727-MONOMER"] null [] +"G6728_RNA" "ynbB" ["ynbB", "b1409", "ECK1402"] "mRNA" [] "G6728" ["G6728-MONOMER"] null [] +"G6729_RNA" "ynbC" ["ynbC", "b1410", "ECK1403"] "mRNA" [] "G6729" ["G6729-MONOMER"] null [] +"G6730_RNA" "ynbD" ["ynbD", "b1411", "ECK1404"] "mRNA" [] "G6730" ["G6730-MONOMER"] null [] +"G6731_RNA" "azoR" ["azoR", "acpD", "b1412", "ECK1405"] "mRNA" [] "G6731" ["G6731-MONOMER"] null [] +"G6732_RNA" "hrpA" ["hrpA", "b1413", "ECK1406"] "mRNA" [] "G6732" ["G6732-MONOMER"] null [] +"G6736_RNA" "mokB" ["mokB", "b1420", "ECK1413"] "mRNA" [] "G6736" ["G6736-MONOMER"] null [] +"G6737_RNA" "ydcI" ["ydcI", "b1422", "ECK1416"] "mRNA" [] "G6737" ["G6737-MONOMER"] null [] +"G6738_RNA" "ydcJ" ["ydcJ", "b1423", "ECK1417"] "mRNA" [] "G6738" ["G6738-MONOMER"] null [] +"G6740_RNA" null ["b1425"] "phantom" [] "G6740" [] null [] +"G6741_RNA" "ydcK" ["ydcK", "b1428", "ECK1421"] "mRNA" [] "G6741" ["G6741-MONOMER"] null [] +"G6742_RNA" "ydcL" ["ydcL", "b1431", "ECK1424"] "mRNA" [] "G6742" ["G6742-MONOMER"] null [] +"G6743_RNA" "insQ" ["insQ", "ydcM", "b1432", "ECK1426"] "mRNA" [] "G6743" ["G6743-MONOMER"] null [] +"G6744_RNA" "ydcO" ["ydcO", "b1433", "ECK1427"] "mRNA" [] "G6744" ["B1433-MONOMER"] null [] +"G6745_RNA" "sutR" ["sutR", "ydcN", "b1434", "ECK1428"] "mRNA" [] "G6745" ["G6745-MONOMER"] null [] +"G6746_RNA" "rlhA" ["rlhA", "ydcP", "b1435", "ECK1429"] "mRNA" [] "G6746" ["G6746-MONOMER"] null [] +"G6747_RNA" "yncJ" ["yncJ", "b1436", "ECK1430"] "mRNA" [] "G6747" ["G6747-MONOMER"] null [] +"G6748_RNA" null ["b1437"] "phantom" [] "G6748" [] null [] +"G6749_RNA" "hicB" ["hicB", "ydcQ", "b1438", "ECK1432"] "mRNA" [] "G6749" ["G6749-MONOMER"] null [] +"G6750_RNA" "ydcR" ["ydcR", "b1439", "ECK1433"] "mRNA" [] "G6750" ["G6750-MONOMER"] null [] +"G6751_RNA" "ydcS" ["ydcS", "b1440", "ECK1434"] "mRNA" [] "G6751" ["YDCS-MONOMER"] null [] +"G6752_RNA" "ydcT" ["ydcT", "b1441", "ECK1435"] "mRNA" [] "G6752" ["YDCT-MONOMER"] null [] +"G6753_RNA" "ydcU" ["ydcU", "b1442", "ECK1436"] "mRNA" [] "G6753" ["YDCU-MONOMER"] null [] +"G6754_RNA" "ydcV" ["ydcV", "b1443", "ECK1437"] "mRNA" [] "G6754" ["YDCV-MONOMER"] null [] +"G6755_RNA" "patD" ["patD", "prr", "ydcW", "b1444", "ECK1438"] "mRNA" [] "G6755" ["G6755-MONOMER"] null [] +"G6756_RNA" "ortT" ["ortT", "ydcX", "b1445", "ECK1439"] "mRNA" [] "G6756" ["G6756-MONOMER"] null [] +"G6757_RNA" "ydcY" ["ydcY", "b1446", "ECK1440"] "mRNA" [] "G6757" ["G6757-MONOMER"] null [] +"G6758_RNA" "ydcZ" ["ydcZ", "b1447", "ECK1441"] "mRNA" [] "G6758" ["G6758-MONOMER"] null [] +"G6759_RNA" "mnaT" ["mnaT", "yncA", "b1448", "ECK1442"] "mRNA" [] "G6759" ["G6759-MONOMER"] null [] +"G6760_RNA" "curA" ["curA", "yncB", "b1449", "ECK1443"] "mRNA" [] "G6760" ["G6760-MONOMER"] null [] +"G6761_RNA" "mcbR" ["mcbR", "yncC", "b1450", "ECK1444"] "mRNA" [] "G6761" ["G6761-MONOMER"] null [] +"G6762_RNA" "yncD" ["yncD", "b1451", "ECK1445"] "mRNA" [] "G6762" ["G6762-MONOMER"] null [] +"G6763_RNA" "yncE" ["yncE", "b1452", "ECK1446"] "mRNA" [] "G6763" ["G6763-MONOMER"] null [] +"G6764_RNA" "ansP" ["ansP", "yncF", "b1453", "ECK1447"] "mRNA" [] "G6764" ["ANSP-MONOMER"] null [] +"G6765_RNA" "yncG" ["yncG", "b1454", "ECK1448"] "mRNA" [] "G6765" ["G6765-MONOMER"] null [] +"G6766_RNA" "yncH" ["yncH", "b1455", "ECK1449"] "mRNA" [] "G6766" ["G6766-MONOMER"] null [] +"G6767_RNA" "yncI" ["yncI", "yncM", "b1458", "ECK1453", "b1459", "ECK1452"] "pseudo" [] "G6767" ["G6767-MONOMER"] null [] +"G6769_RNA" "yddH" ["yddH", "b1462", "ECK1456"] "mRNA" [] "G6769" ["G6769-MONOMER"] null [] +"G6770_RNA" "nhoA" ["nhoA", "yddI", "b1463", "ECK1457"] "mRNA" [] "G6770" ["G6770-MONOMER"] null [] +"G6771_RNA" "yddJ" ["yddJ", "b1470", "ECK1464"] "pseudo" [] "G6771" ["G6771-MONOMER"] null [] +"G6772_RNA" "yddK" ["yddK", "b1471", "ECK1465"] "mRNA" [] "G6772" ["G6772-MONOMER"] null [] +"G6773_RNA" "yddL" ["yddL", "b1472", "ECK1466"] "mRNA" [] "G6773" ["G6773-MONOMER"] null [] +"G6774_RNA" "yddM" ["yddM", "b1477", "ECK1471"] "mRNA" [] "G6774" ["G6774-MONOMER"] null [] +"G6775_RNA" "adhP" ["adhP", "yddN", "b1478", "ECK1472"] "mRNA" [] "G6775" ["ADHP-MONOMER"] null [] +"G6776_RNA" "bdm" ["bdm", "yddX", "b1481", "ECK1475"] "mRNA" [] "G6776" ["G6776-MONOMER"] null [] +"G6777_RNA" "ddpF" ["ddpF", "yddO", "b1483", "ECK1477"] "mRNA" [] "G6777" ["YDDO-MONOMER"] null [] +"G6778_RNA" "ddpD" ["ddpD", "yddP", "b1484", "ECK1478"] "mRNA" [] "G6778" ["YDDP-MONOMER"] null [] +"G6779_RNA" "ddpC" ["ddpC", "yddQ", "b1485", "ECK1479"] "mRNA" [] "G6779" ["YDDQ-MONOMER"] null [] +"G6780_RNA" "ddpB" ["ddpB", "yddR", "b1486", "ECK1480"] "mRNA" [] "G6780" ["YDDR-MONOMER"] null [] +"G6781_RNA" "ddpA" ["ddpA", "yddS", "b1487", "ECK1481"] "mRNA" [] "G6781" ["YDDS-MONOMER"] null [] +"G6782_RNA" "ddpX" ["ddpX", "vanX", "yddT", "b1488", "ECK1482"] "mRNA" [] "G6782" ["G6782-MONOMER"] null [] +"G6783_RNA" "dosP" ["dosP", "yddU", "dos", "pdeO", "b1489", "ECK1483"] "mRNA" [] "G6783" ["G6783-MONOMER"] null [] +"G6784_RNA" "dosC" ["dosC", "yddV", "dgcO", "b1490", "ECK1484"] "mRNA" [] "G6784" ["G6784-MONOMER"] null [] +"G6785_RNA" "digH" ["digH", "yddW", "b1491", "ECK1485"] "mRNA" [] "G6785" ["G6785-MONOMER"] null [] +"G6786_RNA" "gadC" ["gadC", "acsA", "xasA", "b1492", "ECK1486"] "mRNA" [] "G6786" ["XASA-MONOMER"] null [] +"G6787_RNA" "ydeM" ["ydeM", "b1497", "ECK1491"] "mRNA" [] "G6787" ["G6787-MONOMER"] null [] +"G6788_RNA" "ydeN" ["ydeN", "b1498", "ECK1492"] "mRNA" [] "G6788" ["G6788-MONOMER"] null [] +"G6789_RNA" "ydeO" ["ydeO", "b1499", "ECK1493"] "mRNA" [] "G6789" ["G6789-MONOMER"] null [] +"G6790_RNA" "safA" ["safA", "yneN", "b1500", "ECK4475"] "mRNA" [] "G6790" ["MONOMER0-2841"] null [] +"G6791_RNA" "ydeP" ["ydeP", "b1501", "ECK1494"] "mRNA" [] "G6791" ["G6791-MONOMER"] null [] +"G6792_RNA" "ydeQ" ["ydeQ", "b1502", "ECK1495"] "mRNA" [] "G6792" ["G6792-MONOMER"] null [] +"G6793_RNA" "ydeR" ["ydeR", "b1503", "ECK1496"] "mRNA" [] "G6793" ["G6793-MONOMER"] null [] +"G6794_RNA" "ydeS" ["ydeS", "b1504", "ECK1497"] "mRNA" [] "G6794" ["G6794-MONOMER"] null [] +"G6795_RNA" "ydeT" ["ydeT", "fmlC", "b1505", "ECK1498"] "mRNA" [] "G6795" ["G6795-MONOMER"] null [] +"G6796_RNA" "yneL" ["yneL", "b1506", "ECK1499"] "pseudo" [] "G6796" ["G6796-MONOMER"] null [] +"G6798_RNA" "lsrK" ["lsrK", "ydeV", "b1511", "ECK1504"] "mRNA" [] "G6798" ["G6798-MONOMER"] null [] +"G6799_RNA" "lsrR" ["lsrR", "ydeW", "b1512", "ECK1505"] "mRNA" [] "G6799" ["G6799-MONOMER"] null [] +"G6800_RNA" "lsrA" ["lsrA", "ego", "ydeX", "b1513", "ECK1506"] "mRNA" [] "G6800" ["YDEX-MONOMER"] null [] +"G6801_RNA" "lsrC" ["lsrC", "ydeY", "b1514", "ECK1507"] "mRNA" [] "G6801" ["YDEY-MONOMER"] null [] +"G6802_RNA" "lsrD" ["lsrD", "ydeZ", "b1515", "ECK1508"] "mRNA" [] "G6802" ["YDEZ-MONOMER"] null [] +"G6803_RNA" "lsrB" ["lsrB", "yneA", "b1516", "ECK1509"] "mRNA" [] "G6803" ["YNEA-MONOMER"] null [] +"G6804_RNA" "lsrF" ["lsrF", "yneB", "b1517", "ECK1510"] "mRNA" [] "G6804" ["G6804-MONOMER"] null [] +"G6805_RNA" "lsrG" ["lsrG", "yneC", "b1518", "ECK1511"] "mRNA" [] "G6805" ["G6805-MONOMER"] null [] +"G6806_RNA" "tam" ["tam", "yneD", "lsrE", "b1519", "ECK1512"] "mRNA" [] "G6806" ["G6806-MONOMER"] null [] +"G6807_RNA" "yneE" ["yneE", "b1520", "ECK1513"] "mRNA" [] "G6807" ["G6807-MONOMER"] null [] +"G6808_RNA" "dgcF" ["dgcF", "yneF", "b1522", "ECK1515"] "mRNA" [] "G6808" ["G6808-MONOMER"] null [] +"G6809_RNA" "yneG" ["yneG", "b1523", "ECK1516"] "mRNA" [] "G6809" ["G6809-MONOMER"] null [] +"G6810_RNA" "glsB" ["glsB", "yneH", "b1524", "ECK1517"] "mRNA" [] "G6810" ["G6810-MONOMER"] null [] +"G6811_RNA" "sad" ["sad", "yneI", "b1525", "ECK1518"] "mRNA" [] "G6811" ["G6811-MONOMER"] null [] +"G6812_RNA" "yneJ" ["yneJ", "b1526", "ECK1519"] "mRNA" [] "G6812" ["G6812-MONOMER"] null [] +"G6813_RNA" "yneK" ["yneK", "b1527", "ECK1520"] "mRNA" [] "G6813" ["G6813-MONOMER"] null [] +"G6814_RNA" "ydfH" ["ydfH", "b1540", "ECK1533"] "mRNA" [] "G6814" ["G6814-MONOMER"] null [] +"G6815_RNA" "ydfZ" ["ydfZ", "b1541", "ECK1534"] "mRNA" [] "G6815" ["G6815-MONOMER"] null [] +"G6816_RNA" "ydfI" ["ydfI", "b1542", "ECK1535"] "mRNA" [] "G6816" ["G6816-MONOMER"] null [] +"G6817_RNA" "ydfJ" ["ydfJ", "ydfJ_2", "b1543", "ECK1536"] "mRNA" [] "G6817" ["B1543-MONOMER"] null [] +"G6818_RNA" "ydfK" ["ydfK", "b1544", "ECK1537"] "mRNA" [] "G6818" ["G6818-MONOMER"] null [] +"G6819_RNA" "pinQ" ["pinQ", "ydfL", "b1545", "ECK1538"] "mRNA" [] "G6819" ["G6819-MONOMER"] null [] +"G6820_RNA" "tfaQ" ["tfaQ", "ydfM", "b1546", "ECK1539"] "mRNA" [] "G6820" ["G6820-MONOMER"] null [] +"G6821_RNA" "stfQ" ["stfQ", "ydfN", "b1547", "ECK1540"] "mRNA" [] "G6821" ["G6821-MONOMER"] null [] +"G6822_RNA" "ydfO" ["ydfO", "b1549", "ECK1543"] "mRNA" [] "G6822" ["G6822-MONOMER"] null [] +"G6823_RNA" "gnsB" ["gnsB", "ydfY", "b1550", "ECK1544"] "mRNA" [] "G6823" ["G6823-MONOMER"] null [] +"G6824_RNA" "ynfN" ["ynfN", "b1551", "ECK1545"] "mRNA" [] "G6824" ["G6824-MONOMER"] null [] +"G6825_RNA" "cspI" ["cspI", "cspJ", "b1552", "ECK1546"] "mRNA" [] "G6825" ["G6825-MONOMER"] null [] +"G6826_RNA" "rzpQ" ["rzpQ", "ydfP", "b1553", "ECK1547"] "mRNA" [] "G6826" ["G6826-MONOMER"] null [] +"G6827_RNA" "rrrQ" ["rrrQ", "ydfQ", "b1554", "ECK1548"] "mRNA" [] "G6827" ["G6827-MONOMER"] null [] +"G6828_RNA" "ydfR" ["ydfR", "b1555", "ECK1549"] "mRNA" [] "G6828" ["G6828-MONOMER"] null [] +"G6829_RNA" "essQ" ["essQ", "ydfS", "b1556", "ECK1550"] "mRNA" [] "G6829" ["G6829-MONOMER"] null [] +"G6830_RNA" "ydfT" ["ydfT", "quuQ", "b1559", "ECK1553"] "mRNA" [] "G6830" ["G6830-MONOMER"] null [] +"G6831_RNA" "ydfU" ["ydfU", "b1560", "ECK1554"] "mRNA" [] "G6831" ["G6831-MONOMER"] null [] +"G6832_RNA" "ydfV" ["ydfV", "b1565", "ECK1559"] "mRNA" [] "G6832" ["G6832-MONOMER"] null [] +"G6833_RNA" "flxA" ["flxA", "b1566", "ECK1560"] "mRNA" [] "G6833" ["G6833-MONOMER"] null [] +"G6834_RNA" "ydfW" ["ydfW", "intK", "b1567", "ECK1561"] "mRNA" [] "G6834" ["G6834-MONOMER"] null [] +"G6835_RNA" "ydfX" ["ydfX", "b1568", "ECK1562"] "mRNA" [] "G6835" ["G6835-MONOMER"] null [] +"G6836_RNA" "insD7" ["insD7", "insD", "b1578", "ECK1572"] "pseudo" [] "G6836" ["G6836-MONOMER"] null [] +"G6837_RNA" "intQ" ["intQ", "b1579", "ECK1573"] "pseudo" [] "G6837" ["G6837-MONOMER"] null [] +"G6838_RNA" "rspB" ["rspB", "b1580", "ECK1575"] "mRNA" [] "G6838" ["G6838-MONOMER"] null [] +"G6839_RNA" "rspA" ["rspA", "b1581", "ECK1576"] "mRNA" [] "G6839" ["G6839-MONOMER"] null [] +"G6840_RNA" "ynfA" ["ynfA", "b1582", "ECK1577"] "mRNA" [] "G6840" ["G6840-MONOMER"] null [] +"G6841_RNA" "ynfB" ["ynfB", "b1583", "ECK1578"] "mRNA" [] "G6841" ["G6841-MONOMER"] null [] +"G6842_RNA" "speG" ["speG", "b1584", "ECK1579"] "mRNA" [] "G6842" ["SPERMACTRAN-MONOMER"] null [] +"G6843_RNA" "ynfC" ["ynfC", "b1585", "ECK1580"] "mRNA" [] "G6843" ["G6843-MONOMER"] null [] +"G6844_RNA" "ynfD" ["ynfD", "b1586", "ECK1581"] "mRNA" [] "G6844" ["G6844-MONOMER"] null [] +"G6845_RNA" "ynfE" ["ynfE", "b1587", "ECK1582"] "mRNA" [] "G6845" ["G6845-MONOMER"] null [] +"G6846_RNA" "ynfF" ["ynfF", "b1588", "ECK1583"] "mRNA" [] "G6846" ["G6846-MONOMER"] null [] +"G6847_RNA" "ynfG" ["ynfG", "b1589", "ECK1584"] "mRNA" [] "G6847" ["G6847-MONOMER"] null [] +"G6848_RNA" "ynfH" ["ynfH", "b1590", "ECK1585"] "mRNA" [] "G6848" ["G6848-MONOMER"] null [] +"G6849_RNA" "dmsD" ["dmsD", "ynfI", "b1591", "ECK1586"] "mRNA" [] "G6849" ["G6849-MONOMER"] null [] +"G6850_RNA" "clcB" ["clcB", "ynfJ", "mriT", "b1592", "ECK1587"] "mRNA" [] "G6850" ["YNFJ-MONOMER"] null [] +"G6851_RNA" "ynfK" ["ynfK", "b1593", "ECK1588"] "mRNA" [] "G6851" ["G6851-MONOMER"] null [] +"G6852_RNA" "mlc" ["mlc", "dgsA", "b1594", "ECK1589"] "mRNA" [] "G6852" ["PD01896"] null [] +"G6853_RNA" "ynfL" ["ynfL", "b1595", "ECK1590"] "mRNA" [] "G6853" ["G6853-MONOMER"] null [] +"G6854_RNA" "ynfM" ["ynfM", "yzyC", "b1596", "ECK1591"] "mRNA" [] "G6854" ["B1596-MONOMER"] null [] +"G6855_RNA" "asr" ["asr", "b1597", "ECK1592"] "mRNA" [] "G6855" ["G6855-MONOMER"] null [] +"G6856_RNA" "ydgD" ["ydgD", "b1598", "ECK1593"] "mRNA" [] "G6856" ["G6856-MONOMER"] null [] +"G6857_RNA" "mdtI" ["mdtI", "ydgE", "b1599", "ECK1594"] "mRNA" [] "G6857" ["B1599-MONOMER"] null [] +"G6858_RNA" "mdtJ" ["mdtJ", "ydgF", "b1600", "ECK1595"] "mRNA" [] "G6858" ["B1600-MONOMER"] null [] +"G6859_RNA" "tqsA" ["tqsA", "ydgG", "b1601", "ECK1596"] "mRNA" [] "G6859" ["G6859-MONOMER"] null [] +"G6860_RNA" "ydgH" ["ydgH", "b1604", "ECK1599"] "mRNA" [] "G6860" ["G6860-MONOMER"] null [] +"G6861_RNA" "ydgI" ["ydgI", "arcD", "b1605", "ECK1600"] "mRNA" [] "G6861" ["ARCD-MONOMER"] null [] +"G6862_RNA" "folM" ["folM", "ydgB", "b1606", "ECK1601"] "mRNA" [] "G6862" ["G6862-MONOMER"] null [] +"G6863_RNA" "ydgC" ["ydgC", "b1607", "ECK1602"] "mRNA" [] "G6863" ["G6863-MONOMER"] null [] +"G6864_RNA" "rstA" ["rstA", "urpT", "b1608", "ECK1603"] "mRNA" [] "G6864" ["RSTA-MONOMER"] null [] +"G6865_RNA" "ydgA" ["ydgA", "b1614", "ECK1609"] "mRNA" [] "G6865" ["G6865-MONOMER"] null [] +"G6866_RNA" "uidC" ["uidC", "gusC", "b1615", "ECK1610"] "mRNA" [] "G6866" ["G6866-MONOMER"] null [] +"G6867_RNA" "uidR" ["uidR", "gusR", "b1618", "ECK1613"] "mRNA" [] "G6867" ["G6867-MONOMER"] null [] +"G6868_RNA" "ydgJ" ["ydgJ", "b1624", "ECK1619"] "mRNA" [] "G6868" ["G6868-MONOMER"] null [] +"G6869_RNA" "cnu" ["cnu", "ydgT", "b1625", "ECK1621"] "mRNA" [] "G6869" ["G6869-MONOMER"] null [] +"G6870_RNA" "ydgK" ["ydgK", "rsxP", "b1626", "ECK1622"] "mRNA" [] "G6870" ["G6870-MONOMER"] null [] +"G6871_RNA" "rsxA" ["rsxA", "ydgL", "b1627", "ECK1623"] "mRNA" [] "G6871" ["G6871-MONOMER"] null [] +"G6872_RNA" "rsxB" ["rsxB", "ydgM", "b1628", "ECK1624"] "mRNA" [] "G6872" ["G6872-MONOMER"] null [] +"G6873_RNA" "rsxC" ["rsxC", "ydgN", "b1629", "ECK1625"] "mRNA" [] "G6873" ["G6873-MONOMER"] null [] +"G6874_RNA" "rsxD" ["rsxD", "ydgO", "b1630", "ECK1626"] "mRNA" [] "G6874" ["G6874-MONOMER"] null [] +"G6875_RNA" "rsxG" ["rsxG", "ydgP", "b1631", "ECK1627"] "mRNA" [] "G6875" ["G6875-MONOMER"] null [] +"G6876_RNA" "rsxE" ["rsxE", "ydgQ", "b1632", "ECK1628"] "mRNA" [] "G6876" ["G6876-MONOMER"] null [] +"G6877_RNA" "dtpA" ["dtpA", "ydgR", "tppB", "b1634", "ECK1630"] "mRNA" [] "G6877" ["B1634-MONOMER"] null [] +"G6878_RNA" "gstA" ["gstA", "gst", "b1635", "ECK1631"] "mRNA" [] "G6878" ["GST-MONOMER"] null [] +"G6879_RNA" "pdxY" ["pdxY", "ydgS", "b1636", "ECK1632"] "mRNA" [] "G6879" ["PDXY-MONOMER"] null [] +"G6880_RNA" "anmK" ["anmK", "ydhH", "b1640", "ECK1636"] "mRNA" [] "G6880" ["G6880-MONOMER"] null [] +"G6881_RNA" "slyB" ["slyB", "b1641", "ECK1637"] "mRNA" [] "G6881" ["G6881-MONOMER"] null [] +"G6882_RNA" "slyA" ["slyA", "b1642", "ECK1638"] "mRNA" [] "G6882" ["G6882-MONOMER"] null [] +"G6883_RNA" "ydhI" ["ydhI", "b1643", "ECK1639"] "mRNA" [] "G6883" ["G6883-MONOMER"] null [] +"G6884_RNA" "ydhJ" ["ydhJ", "b1644", "ECK1640"] "mRNA" [] "G6884" ["G6884-MONOMER"] null [] +"G6885_RNA" "ydhK" ["ydhK", "b1645", "ECK1641"] "mRNA" [] "G6885" ["G6885-MONOMER"] null [] +"G6886_RNA" "sodC" ["sodC", "b1646", "ECK1642"] "mRNA" [] "G6886" ["G6886-MONOMER"] null [] +"G6887_RNA" "ydhF" ["ydhF", "b1647", "ECK1643"] "mRNA" [] "G6887" ["G6887-MONOMER"] null [] +"G6888_RNA" "ydhL" ["ydhL", "b1648", "ECK1644"] "mRNA" [] "G6888" ["G6888-MONOMER"] null [] +"G6889_RNA" "nemR" ["nemR", "ydhM", "b1649", "ECK1645"] "mRNA" [] "G6889" ["G6889-MONOMER"] null [] +"G6890_RNA" "nemA" ["nemA", "ydhN", "b1650", "ECK1646"] "mRNA" [] "G6890" ["G6890-MONOMER"] null [] +"G6891_RNA" "gloA" ["gloA", "b1651", "ECK1647"] "mRNA" [] "G6891" ["GLYOXI-MONOMER"] null [] +"G6892_RNA" "mepH" ["mepH", "ydhO", "b1655", "ECK1651"] "mRNA" [] "G6892" ["G6892-MONOMER"] null [] +"G6893_RNA" "ydhP" ["ydhP", "b1657", "ECK1653"] "mRNA" [] "G6893" ["B1657-MONOMER"] null [] +"G6894_RNA" "ydhQ" ["ydhQ", "b1664", "ECK1660"] "mRNA" [] "G6894" ["G6894-MONOMER"] null [] +"G6895_RNA" "ydhR" ["ydhR", "b1667", "ECK1663"] "mRNA" [] "G6895" ["G6895-MONOMER"] null [] +"G6896_RNA" "ydhS" ["ydhS", "b1668", "ECK1664"] "mRNA" [] "G6896" ["G6896-MONOMER"] null [] +"G6897_RNA" "ydhT" ["ydhT", "b1669", "ECK1665"] "mRNA" [] "G6897" ["G6897-MONOMER"] null [] +"G6898_RNA" "ydhU" ["ydhU", "b1670", "ECK1666"] "mRNA" [] "G6898" ["G6898-MONOMER"] null [] +"G6899_RNA" "ydhX" ["ydhX", "b1671", "ECK1667"] "mRNA" [] "G6899" ["G6899-MONOMER"] null [] +"G6900_RNA" "ydhW" ["ydhW", "b1672", "ECK1668"] "mRNA" [] "G6900" ["G6900-MONOMER"] null [] +"G6901_RNA" "ydhV" ["ydhV", "b1673", "ECK1669"] "mRNA" [] "G6901" ["G6901-MONOMER"] null [] +"G6902_RNA" "ydhY" ["ydhY", "b1674", "ECK1670"] "mRNA" [] "G6902" ["G6902-MONOMER"] null [] +"G6903_RNA" "fumD" ["fumD", "ydhZ", "b1675", "ECK1671"] "mRNA" [] "G6903" ["G6903-MONOMER"] null [] +"G6904_RNA" "ldtE" ["ldtE", "ynhG", "b1678", "ECK1674"] "mRNA" [] "G6904" ["G6904-MONOMER"] null [] +"G6905_RNA" "sufE" ["sufE", "ynhA", "b1679", "ECK1675"] "mRNA" [] "G6905" ["G6905-MONOMER"] null [] +"G6906_RNA" "sufS" ["sufS", "csdB", "ynhB", "b1680", "ECK1676"] "mRNA" [] "G6906" ["G6906-MONOMER"] null [] +"G6907_RNA" "sufD" ["sufD", "ynhC", "b1681", "ECK1677"] "mRNA" [] "G6907" ["G6907-MONOMER"] null [] +"G6908_RNA" "sufC" ["sufC", "ynhD", "b1682", "ECK1678"] "mRNA" [] "G6908" ["G6908-MONOMER"] null [] +"G6909_RNA" "sufB" ["sufB", "ynhE", "b1683", "ECK1679"] "mRNA" [] "G6909" ["G6909-MONOMER"] null [] +"G6911_RNA" "ydiH" ["ydiH", "b1685", "ECK1682"] "mRNA" [] "G6911" ["G6911-MONOMER"] null [] +"G6912_RNA" "menI" ["menI", "ydiI", "b1686", "ECK1683"] "mRNA" [] "G6912" ["G6912-MONOMER"] null [] +"G6913_RNA" "ydiJ" ["ydiJ", "b1687", "ECK1684"] "mRNA" [] "G6913" ["G6913-MONOMER"] null [] +"G6914_RNA" "ydiK" ["ydiK", "b1688", "ECK1685"] "mRNA" [] "G6914" ["G6914-MONOMER"] null [] +"G6915_RNA" "ydiL" ["ydiL", "b1689", "ECK1687"] "mRNA" [] "G6915" ["G6915-MONOMER"] null [] +"G6916_RNA" "ydiM" ["ydiM", "b1690", "ECK1688"] "mRNA" [] "G6916" ["B1690-MONOMER"] null [] +"G6917_RNA" "ydiN" ["ydiN", "b1691", "ECK1689"] "mRNA" [] "G6917" ["B1691-MONOMER"] null [] +"G6918_RNA" "ydiO" ["ydiO", "b1695", "ECK1693"] "mRNA" [] "G6918" ["G6918-MONOMER"] null [] +"G6919_RNA" "ydiP" ["ydiP", "b1696", "ECK1694"] "mRNA" [] "G6919" ["G6919-MONOMER"] null [] +"G6920_RNA" "ydiQ" ["ydiQ", "b1697", "ECK1695"] "mRNA" [] "G6920" ["G6920-MONOMER"] null [] +"G6921_RNA" "ydiR" ["ydiR", "b1698", "ECK1696"] "mRNA" [] "G6921" ["G6921-MONOMER"] null [] +"G6922_RNA" "ydiS" ["ydiS", "b1699", "ECK1697"] "mRNA" [] "G6922" ["G6922-MONOMER"] null [] +"G6923_RNA" "ydiT" ["ydiT", "b1700", "ECK1698"] "mRNA" [] "G6923" ["G6923-MONOMER"] null [] +"G6924_RNA" "selO" ["selO", "ydiU", "b1706", "ECK1704"] "mRNA" [] "G6924" ["G6924-MONOMER"] null [] +"G6925_RNA" "rflP" ["rflP", "ydiV", "b1707", "ECK1705"] "mRNA" [] "G6925" ["G6925-MONOMER"] null [] +"G6926_RNA" "arpB" ["arpB", "ydiW", "ydiX", "b1721", "b1720", "b4494", "ECK1718"] "pseudo" [] "G6926" ["G6926-MONOMER"] null [] +"G6928_RNA" "ydiY" ["ydiY", "b1722", "ECK1720"] "mRNA" [] "G6928" ["G6928-MONOMER"] null [] +"G6929_RNA" "ydiZ" ["ydiZ", "b1724", "ECK1722"] "mRNA" [] "G6929" ["G6929-MONOMER"] null [] +"G6930_RNA" "yniA" ["yniA", "b1725", "ECK1723"] "mRNA" [] "G6930" ["G6930-MONOMER"] null [] +"G6931_RNA" "yniB" ["yniB", "b1726", "ECK1724"] "mRNA" [] "G6931" ["G6931-MONOMER"] null [] +"G6932_RNA" "hxpB" ["hxpB", "yniC", "b1727", "ECK1725"] "mRNA" [] "G6932" ["G6932-MONOMER"] null [] +"G6933_RNA" "ydjM" ["ydjM", "b1728", "ECK1726"] "mRNA" [] "G6933" ["G6933-MONOMER"] null [] +"G6934_RNA" "tcyP" ["tcyP", "ydjN", "b1729", "ECK1727"] "mRNA" [] "G6934" ["G6934-MONOMER"] null [] +"G6935_RNA" "ydjO" ["ydjO", "b1730", "ECK1728"] "mRNA" [] "G6935" ["G6935-MONOMER"] null [] +"G6936_RNA" "cedA" ["cedA", "ydjP", "b1731", "ECK1729"] "mRNA" [] "G6936" ["G6936-MONOMER"] null [] +"G6937_RNA" "cho" ["cho", "ydjQ", "b1741", "ECK1739"] "mRNA" [] "G6937" ["G6937-MONOMER"] null [] +"G6938_RNA" "ves" ["ves", "ydjR", "b1742", "ECK1740"] "mRNA" [] "G6938" ["G6938-MONOMER"] null [] +"G6939_RNA" "spy" ["spy", "b1743", "ECK1741"] "mRNA" [] "G6939" ["G6939-MONOMER"] null [] +"G6940_RNA" "astE" ["astE", "ydjS", "b1744", "ECK1742"] "mRNA" [] "G6940" ["SUCCGLUDESUCC-MONOMER"] null [] +"G6941_RNA" "astB" ["astB", "ydjT", "b1745", "ECK1743"] "mRNA" [] "G6941" ["SUCCARGDIHYDRO-MONOMER"] null [] +"G6942_RNA" "astD" ["astD", "ydjU", "b1746", "ECK1744"] "mRNA" [] "G6942" ["SUCCGLUALDDEHYD-MONOMER"] null [] +"G6943_RNA" "astA" ["astA", "ydjV", "b1747", "ECK1745"] "mRNA" [] "G6943" ["ARGSUCCTRAN-MONOMER"] null [] +"G6944_RNA" "astC" ["astC", "ydjW", "argM", "cstC", "b1748", "ECK1746"] "mRNA" [] "G6944" ["SUCCORNTRANSAM-MONOMER"] null [] +"G6945_RNA" "ydjX" ["ydjX", "b1750", "ECK1748"] "mRNA" [] "G6945" ["G6945-MONOMER"] null [] +"G6946_RNA" "ydjY" ["ydjY", "b1751", "ECK1749"] "mRNA" [] "G6946" ["G6946-MONOMER"] null [] +"G6947_RNA" "ydjZ" ["ydjZ", "b1752", "ECK1750"] "mRNA" [] "G6947" ["G6947-MONOMER"] null [] +"G6948_RNA" "ynjA" ["ynjA", "b1753", "ECK1751"] "mRNA" [] "G6948" ["G6948-MONOMER"] null [] +"G6949_RNA" "ynjB" ["ynjB", "b1754", "ECK1752"] "mRNA" [] "G6949" ["G6949-MONOMER"] null [] +"G6950_RNA" "ynjC" ["ynjC", "b1755", "ECK1753"] "mRNA" [] "G6950" ["YNJC-MONOMER"] null [] +"G6951_RNA" "ynjD" ["ynjD", "b1756", "ECK1754"] "mRNA" [] "G6951" ["YNJD-MONOMER"] null [] +"G6952_RNA" "ynjE" ["ynjE", "b1757", "ECK1755"] "mRNA" [] "G6952" ["G6952-MONOMER"] null [] +"G6953_RNA" "ynjF" ["ynjF", "b1758", "ECK1756"] "mRNA" [] "G6953" ["G6953-MONOMER"] null [] +"G6954_RNA" "nudG" ["nudG", "ynjG", "orf135", "b1759", "ECK1757"] "mRNA" [] "G6954" ["G6954-MONOMER"] null [] +"G6955_RNA" "ynjH" ["ynjH", "b1760", "ECK1758"] "mRNA" [] "G6955" ["G6955-MONOMER"] null [] +"G6956_RNA" "ynjI" ["ynjI", "b1762", "ECK1760"] "mRNA" [] "G6956" ["G6956-MONOMER"] null [] +"G6957_RNA" "ydjF" ["ydjF", "b1770", "ECK1768"] "mRNA" [] "G6957" ["G6957-MONOMER"] null [] +"G6958_RNA" "ydjG" ["ydjG", "b1771", "ECK1769"] "mRNA" [] "G6958" ["G6958-MONOMER"] null [] +"G6959_RNA" "ydjH" ["ydjH", "b1772", "ECK1770"] "mRNA" [] "G6959" ["G6959-MONOMER"] null [] +"G6960_RNA" "ydjI" ["ydjI", "b1773", "ECK1771"] "mRNA" [] "G6960" ["G6960-MONOMER"] null [] +"G6961_RNA" "ydjJ" ["ydjJ", "b1774", "ECK1772"] "mRNA" [] "G6961" ["G6961-MONOMER"] null [] +"G6962_RNA" "ydjK" ["ydjK", "b1775", "ECK1773"] "mRNA" [] "G6962" ["B1775-MONOMER"] null [] +"G6963_RNA" "ydjL" ["ydjL", "b1776", "ECK1774"] "mRNA" [] "G6963" ["G6963-MONOMER"] null [] +"G6964_RNA" "yeaC" ["yeaC", "b1777", "ECK1775"] "mRNA" [] "G6964" ["G6964-MONOMER"] null [] +"G6966_RNA" "yeaD" ["yeaD", "yzzQ", "b1780", "ECK1778"] "mRNA" [] "G6966" ["G6966-MONOMER"] null [] +"G6967_RNA" "yeaE" ["yeaE", "b1781", "ECK1779"] "mRNA" [] "G6967" ["G6967-MONOMER"] null [] +"G6968_RNA" "mipA" ["mipA", "yeaF", "b1782", "ECK1780"] "mRNA" [] "G6968" ["G6968-MONOMER"] null [] +"G6969_RNA" "yeaG" ["yeaG", "b1783", "ECK1781"] "mRNA" [] "G6969" ["G6969-MONOMER"] null [] +"G6970_RNA" "yeaH" ["yeaH", "b1784", "ECK1782"] "mRNA" [] "G6970" ["G6970-MONOMER"] null [] +"G6971_RNA" "cdgI" ["cdgI", "yeaI", "b1785", "ECK1783"] "mRNA" [] "G6971" ["G6971-MONOMER"] null [] +"G6972_RNA" "dgcJ" ["dgcJ", "yeaJ", "b1786", "ECK1784"] "mRNA" [] "G6972" ["G6972-MONOMER"] null [] +"G6973_RNA" "yeaK" ["yeaK", "b1787", "ECK1785"] "mRNA" [] "G6973" ["G6973-MONOMER"] null [] +"G6974_RNA" "yoaI" ["yoaI", "b1788", "ECK1786"] "mRNA" [] "G6974" ["G6974-MONOMER"] null [] +"G6975_RNA" "yeaL" ["yeaL", "b1789", "ECK1787"] "mRNA" [] "G6975" ["G6975-MONOMER"] null [] +"G6976_RNA" "nimR" ["nimR", "yeaM", "b1790", "ECK1788"] "mRNA" [] "G6976" ["G6976-MONOMER"] null [] +"G6977_RNA" "nimT" ["nimT", "yeaN", "b1791", "ECK1789"] "mRNA" [] "G6977" ["B1791-MONOMER"] null [] +"G6978_RNA" "yeaO" ["yeaO", "b1792", "ECK1790"] "mRNA" [] "G6978" ["G6978-MONOMER"] null [] +"G6979_RNA" "yoaF" ["yoaF", "b1793", "ECK1791"] "mRNA" [] "G6979" ["G6979-MONOMER"] null [] +"G6980_RNA" "dgcP" ["dgcP", "yeaP", "b1794", "ECK1792"] "mRNA" [] "G6980" ["G6980-MONOMER"] null [] +"G6981_RNA" "yeaQ" ["yeaQ", "b1795", "ECK1793"] "mRNA" [] "G6981" ["G6981-MONOMER"] null [] +"G6982_RNA" "yoaG" ["yoaG", "b1796", "ECK1794"] "mRNA" [] "G6982" ["G6982-MONOMER"] null [] +"G6983_RNA" "yeaR" ["yeaR", "b1797", "ECK1795"] "mRNA" [] "G6983" ["G6983-MONOMER"] null [] +"G6984_RNA" "leuE" ["leuE", "yeaS", "b1798", "ECK1796"] "mRNA" [] "G6984" ["G6984-MONOMER"] null [] +"G6985_RNA" "dmlR" ["dmlR", "yeaT", "b1799", "ECK1797"] "mRNA" [] "G6985" ["G6985-MONOMER"] null [] +"G6986_RNA" "dmlA" ["dmlA", "ttuC", "yeaU", "b1800", "ECK1798"] "mRNA" [] "G6986" ["G6986-MONOMER"] null [] +"G6987_RNA" "yeaV" ["yeaV", "b1801", "ECK1799"] "mRNA" [] "G6987" ["YEAV-MONOMER"] null [] +"G6988_RNA" "yeaW" ["yeaW", "b1802", "ECK1800"] "mRNA" [] "G6988" ["G6988-MONOMER"] null [] +"G6989_RNA" "yeaX" ["yeaX", "b1803", "ECK1801"] "mRNA" [] "G6989" ["G6989-MONOMER"] null [] +"G6990_RNA" "yeaY" ["yeaY", "b1806", "ECK1804"] "mRNA" [] "G6990" ["G6990-MONOMER"] null [] +"G6991_RNA" "tsaB" ["tsaB", "yeaZ", "b1807", "ECK1805"] "mRNA" [] "G6991" ["G6991-MONOMER"] null [] +"G6992_RNA" "yoaA" ["yoaA", "b1808", "ECK1806"] "mRNA" [] "G6992" ["G6992-MONOMER"] null [] +"G6993_RNA" "yoaB" ["yoaB", "b1809", "ECK1807"] "mRNA" [] "G6993" ["G6993-MONOMER"] null [] +"G6994_RNA" "yoaC" ["yoaC", "b1810", "ECK1808"] "mRNA" [] "G6994" ["G6994-MONOMER"] null [] +"G6995_RNA" "yoaH" ["yoaH", "b1811", "ECK1809"] "mRNA" [] "G6995" ["G6995-MONOMER"] null [] +"G6996_RNA" "pdeD" ["pdeD", "yoaD", "b1815", "ECK1813"] "mRNA" [] "G6996" ["G6996-MONOMER"] null [] +"G6997_RNA" "yoaE" ["yoaE", "borG", "b1816", "ECK1814"] "mRNA" [] "G6997" ["G6997-MONOMER"] null [] +"G6998_RNA" "yobD" ["yobD", "b1820", "ECK1818"] "mRNA" [] "G6998" ["G6998-MONOMER"] null [] +"G6999_RNA" "mntP" ["mntP", "yebN", "b1821", "ECK1819"] "mRNA" [] "G6999" ["G6999-MONOMER"] null [] +"G7000_RNA" "yobF" ["yobF", "b1824", "ECK1822"] "mRNA" [] "G7000" ["G7000-MONOMER"] null [] +"G7001_RNA" "yebO" ["yebO", "b1825", "ECK1823"] "mRNA" [] "G7001" ["G7001-MONOMER"] null [] +"G7002_RNA" "mgrB" ["mgrB", "yobG", "b1826", "ECK1824"] "mRNA" [] "G7002" ["G7002-MONOMER"] null [] +"G7003_RNA" "kdgR" ["kdgR", "yebP", "b1827", "ECK1826"] "mRNA" [] "G7003" ["G7003-MONOMER"] null [] +"G7004_RNA" "yebQ" ["yebQ", "b1828", "ECK1827"] "mRNA" [] "G7004" ["B1828-MONOMER"] null [] +"G7005_RNA" "msrC" ["msrC", "yebR", "b1832", "ECK1831"] "mRNA" [] "G7005" ["G7005-MONOMER"] null [] +"G7006_RNA" "letA" ["letA", "yebS", "b1833", "ECK1832"] "mRNA" [] "G7006" ["G7006-MONOMER"] null [] +"G7007_RNA" "letB" ["letB", "yebT", "b1834", "ECK1833"] "mRNA" [] "G7007" ["G7007-MONOMER"] null [] +"G7008_RNA" "rsmF" ["rsmF", "yebU", "b1835", "ECK1834"] "mRNA" [] "G7008" ["G7008-MONOMER"] null [] +"G7009_RNA" "yebV" ["yebV", "b1836", "ECK1835"] "mRNA" [] "G7009" ["G7009-MONOMER"] null [] +"G7010_RNA" "yebW" ["yebW", "b1837", "ECK1836"] "mRNA" [] "G7010" ["G7010-MONOMER"] null [] +"G7011_RNA" "pphA" ["pphA", "yebX", "prpA", "b1838", "ECK1837"] "mRNA" [] "G7011" ["G7011-MONOMER"] null [] +"G7012_RNA" "yebY" ["yebY", "b1839", "ECK1840"] "mRNA" [] "G7012" ["G7012-MONOMER"] null [] +"G7013_RNA" "yebZ" ["yebZ", "b1840", "ECK1841"] "mRNA" [] "G7013" ["G7013-MONOMER"] null [] +"G7014_RNA" "yobA" ["yobA", "b1841", "ECK1842"] "mRNA" [] "G7014" ["G7014-MONOMER"] null [] +"G7015_RNA" "yobB" ["yobB", "b1843", "ECK1844"] "mRNA" [] "G7015" ["G7015-MONOMER"] null [] +"G7016_RNA" "exoX" ["exoX", "yobC", "b1844", "ECK1845"] "mRNA" [] "G7016" ["G7016-MONOMER"] null [] +"G7017_RNA" "znuA" ["znuA", "yzzP", "yebL", "b1857", "ECK1858"] "mRNA" [] "G7017" ["ZNUA-MONOMER"] null [] +"G7018_RNA" "znuC" ["znuC", "yebM", "b1858", "ECK1859"] "mRNA" [] "G7018" ["ZNUC-MONOMER"] null [] +"G7019_RNA" "yecN" ["yecN", "b1869", "ECK1870"] "mRNA" [] "G7019" ["G7019-MONOMER"] null [] +"G7020_RNA" "cmoA" ["cmoA", "yecO", "b1870", "ECK1871"] "mRNA" [] "G7020" ["G7020-MONOMER"] null [] +"G7021_RNA" "cmoB" ["cmoB", "yecP", "b1871", "ECK1872"] "mRNA" [] "G7021" ["G7021-MONOMER"] null [] +"G7022_RNA" "torZ" ["torZ", "bisZ", "b1872", "ECK1873"] "mRNA" [] "G7022" ["G7022-MONOMER"] null [] +"G7023_RNA" "torY" ["torY", "yecK", "b1873", "ECK1874"] "mRNA" [] "G7023" ["G7023-MONOMER"] null [] +"G7024_RNA" "cutC" ["cutC", "b1874", "ECK1875"] "mRNA" [] "G7024" ["G7024-MONOMER"] null [] +"G7025_RNA" "yecM" ["yecM", "yecL", "b1875", "ECK1876"] "mRNA" [] "G7025" ["G7025-MONOMER"] null [] +"G7026_RNA" "yecT" ["yecT", "b1877", "ECK1878"] "mRNA" [] "G7026" ["G7026-MONOMER"] null [] +"G7027_RNA" "flhE" ["flhE", "b1878", "ECK1879"] "mRNA" [] "G7027" ["G7027-MONOMER"] null [] +"G7028_RNA" "flhB" ["flhB", "yecQ", "flaG", "b1880", "ECK1881"] "mRNA" [] "G7028" ["G7028-MONOMER"] null [] +"G7029_RNA" "insB5" ["insB5", "b1893", "ECK0022"] "mRNA" [] "G7029" ["MONOMER0-4445"] null [] +"G7030_RNA" "insA5" ["insA5", "b1894", "ECK0023"] "mRNA" [] "G7030" ["MONOMER0-4225"] null [] +"G7031_RNA" "uspC" ["uspC", "yecG", "b1895", "ECK1894"] "mRNA" [] "G7031" ["G7031-MONOMER"] null [] +"G7033_RNA" "ftnB" ["ftnB", "yecI", "b1902", "ECK1900"] "mRNA" [] "G7033" ["G7033-MONOMER"] null [] +"G7034_RNA" null ["b1903"] "phantom" [] "G7034" [] null [] +"G7035_RNA" "yecR" ["yecR", "b1904", "ECK1903"] "mRNA" [] "G7035" ["G7035-MONOMER"] null [] +"G7036_RNA" "yecH" ["yecH", "b1906", "ECK1905"] "mRNA" [] "G7036" ["G7036-MONOMER"] null [] +"G7037_RNA" "tcyL" ["tcyL", "yecS", "b1918", "ECK1917"] "mRNA" [] "G7037" ["G7037-MONOMER"] null [] +"G7038_RNA" "dcyD" ["dcyD", "yedO", "b1919", "ECK1918"] "mRNA" [] "G7038" ["DCYSDESULF-MONOMER"] null [] +"G7039_RNA" "tcyJ" ["tcyJ", "yzzR", "ssi7", "fliY", "b1920", "ECK1919"] "mRNA" [] "G7039" ["G7039-MONOMER"] null [] +"G7040_RNA" "yedL" ["yedL", "b1932", "ECK1931"] "mRNA" [] "G7040" ["G7040-MONOMER"] null [] +"G7043_RNA" "yedN" ["yedN", "b1934", "yedM", "b1935", "ECK1933", "b1933", "b4495", "ECK1932"] "pseudo" [] "G7043" ["G7043-MONOMER"] null [] +"G7044_RNA" "intG" ["intG", "b1936", "ECK1934"] "pseudo" [] "G7044" ["G7044-MONOMER"] null [] +"G7045_RNA" "dsrB" ["dsrB", "b1952", "ECK1950"] "mRNA" [] "G7045" ["G7045-MONOMER"] null [] +"G7046_RNA" "yodD" ["yodD", "b1953", "ECK1951"] "mRNA" [] "G7046" ["G7046-MONOMER"] null [] +"DSRA-RNA" "small regulatory RNA DsrA" ["DsrA", "DsrA small regulatory RNA; riboregulator of RpoS and H-NS production"] "miscRNA" [] "G7047" [] null [] +"G7048_RNA" "yedP" ["yedP", "b1955", "ECK1953"] "mRNA" [] "G7048" ["G7048-MONOMER"] null [] +"G7049_RNA" "dgcQ" ["dgcQ", "yedQ", "b1956", "ECK1954"] "mRNA" [] "G7049" ["G7049-MONOMER"] null [] +"G7050_RNA" "yodC" ["yodC", "b1957", "ECK1955"] "mRNA" [] "G7050" ["G7050-MONOMER"] null [] +"G7051_RNA" "drpB" ["drpB", "yedR", "b1963", "ECK1961"] "mRNA" [] "G7051" ["G7051-MONOMER"] null [] +"G7052_RNA" "yedS" ["yedS", "b1964", "yedT", "b1965", "b1966", "b4496", "ECK1962"] "pseudo" [] "G7052" ["G7052-MONOMER"] null [] +"G7055_RNA" "hchA" ["hchA", "yzzC", "yedU", "b1967", "ECK1963"] "mRNA" [] "G7055" ["G7055-MONOMER"] null [] +"G7056_RNA" "hprS" ["hprS", "yedV", "b1968", "ECK1964"] "mRNA" [] "G7056" ["G7056-MONOMER"] null [] +"G7057_RNA" "hprR" ["hprR", "yedW", "b1969", "ECK1965"] "mRNA" [] "G7057" ["G7057-MONOMER"] null [] +"G7058_RNA" "hiuH" ["hiuH", "yedX", "b1970", "ECK1966"] "mRNA" [] "G7058" ["G7058-MONOMER"] null [] +"G7059_RNA" "msrP" ["msrP", "yedY", "b1971", "ECK1967"] "mRNA" [] "G7059" ["G7059-MONOMER"] null [] +"G7060_RNA" "msrQ" ["msrQ", "yedZ", "b1972", "ECK1968"] "mRNA" [] "G7060" ["G7060-MONOMER"] null [] +"G7061_RNA" "zinT" ["zinT", "yodA", "b1973", "ECK1969"] "mRNA" [] "G7061" ["G7061-MONOMER"] null [] +"G7062_RNA" "yodB" ["yodB", "b1974", "ECK1970"] "mRNA" [] "G7062" ["G7062-MONOMER"] null [] +"G7063_RNA" "mtfA" ["mtfA", "yeeI", "b1976", "ECK1972"] "mRNA" [] "G7063" ["G7063-MONOMER"] null [] +"G7064_RNA" "yeeJ" ["yeeJ", "b1978", "ECK1974"] "mRNA" [] "G7064" ["G7064-MONOMER"] null [] +"G7066_RNA" "yeeL" ["yeeL", "yeeK", "b1980", "b1979", "b4497", "ECK1975"] "pseudo" [] "G7066" ["G7066-MONOMER"] null [] +"G7067_RNA" "shiA" ["shiA", "yeeM", "b1981", "ECK1976"] "mRNA" [] "G7067" ["SHIA-MONOMER"] null [] +"G7068_RNA" "yeeN" ["yeeN", "b1983", "ECK1978"] "mRNA" [] "G7068" ["G7068-MONOMER"] null [] +"RNA0-304" "tRNA-Asn(GUU)" ["tRNAasnW"] "tRNA" ["RNA0-310"] "G7069" [] "GUU" [] +"G7070_RNA" "yeeO" ["yeeO", "b1985", "ECK1980"] "mRNA" [] "G7070" ["YEEO-MONOMER"] null [] +"G7071_RNA" "cbl" ["cbl", "b1987", "ECK1982"] "mRNA" [] "G7071" ["G7071-MONOMER"] null [] +"G7072_RNA" "nac" ["nac", "b1988", "ECK1983"] "mRNA" [] "G7072" ["G7072-MONOMER"] null [] +"G7073_RNA" "ldtA" ["ldtA", "yzzT", "yeeG", "erfK", "b1990", "ECK1985"] "mRNA" [] "G7073" ["G7073-MONOMER"] null [] +"G7074_RNA" "insH6" ["insH6", "yi52_6", "trs5-6", "b1994", "ECK0261"] "mRNA" [] "G7074" ["G7074-MONOMER"] null [] +"G7075_RNA" "yoeA" ["yoeA", "yoeE", "b1995", "b1998", "ECK1990", "b4582", "ECK1989"] "pseudo" [] "G7075" ["G7075-MONOMER"] null [] +"G7076_RNA" "insD3" ["insD3", "yi22-3", "b1996", "ECK0358"] "mRNA" [] "G7076" ["MONOMER0-4446"] null [] +"G7077_RNA" "insC3" ["insC3", "yi21-3", "b1997", "ECK0357"] "mRNA" [] "G7077" ["MONOMER0-4251"] null [] +"G7079_RNA" "yeeP" ["yeeP", "b1999", "ECK1991"] "pseudo" [] "G7079" ["G7079-MONOMER"] null [] +"G7080_RNA" "flu" ["flu", "agn43", "yzzX", "yeeQ", "agn", "b2000", "ECK1993"] "mRNA" [] "G7080" ["G7080-MONOMER"] null [] +"G7081_RNA" "yeeR" ["yeeR", "b2001", "ECK1994"] "mRNA" [] "G7081" ["G7081-MONOMER"] null [] +"G7082_RNA" "yeeS" ["yeeS", "b2002", "ECK1995"] "mRNA" [] "G7082" ["G7082-MONOMER"] null [] +"G7083_RNA" "yeeT" ["yeeT", "b2003", "ECK1996"] "mRNA" [] "G7083" ["G7083-MONOMER"] null [] +"G7084_RNA" "cbeA" ["cbeA", "yeeU", "b2004", "ECK1997"] "mRNA" [] "G7084" ["G7084-MONOMER"] null [] +"G7085_RNA" "cbtA" ["cbtA", "yeeV", "b2005", "ECK1998"] "mRNA" [] "G7085" ["G7085-MONOMER"] null [] +"G7086_RNA" "yeeW" ["yeeW", "b2006", "ECK1999"] "mRNA" [] "G7086" ["G7086-MONOMER"] null [] +"G7087_RNA" "tmaR" ["tmaR", "yeeX", "b2007", "ECK2001"] "mRNA" [] "G7087" ["G7087-MONOMER"] null [] +"G7088_RNA" "yeeY" ["yeeY", "b2015", "ECK2009"] "mRNA" [] "G7088" ["G7088-MONOMER"] null [] +"G7089_RNA" "yeeZ" ["yeeZ", "b2016", "ECK2010"] "mRNA" [] "G7089" ["G7089-MONOMER"] null [] +"G7090_RNA" "wzzB" ["wzzB", "wzz", "rol", "cld", "b2027", "ECK2022"] "mRNA" [] "G7090" ["G7090-MONOMER"] null [] +"G7091_RNA" "ugd" ["ugd", "yefA", "udg", "UDG8", "pmrE", "b2028", "ECK2023"] "mRNA" [] "G7091" ["UGD-MONOMER"] null [] +"G7092_RNA" "insH7" ["insH7", "yi52_7", "trs5-7", "b2030", "ECK0261"] "mRNA" [] "G7092" ["MONOMER0-4237"] null [] +"G7093_RNA" "galF" ["galF", "wcaN", "yefG", "b2042", "ECK2036"] "mRNA" [] "G7093" ["G7093-MONOMER"] null [] +"G7094_RNA" "wcaM" ["wcaM", "yefK", "b2043", "ECK2037"] "mRNA" [] "G7094" ["G7094-MONOMER"] null [] +"G7095_RNA" "wcaL" ["wcaL", "yefL", "b2044", "ECK2038"] "mRNA" [] "G7095" ["G7095-MONOMER"] null [] +"G7096_RNA" "wcaK" ["wcaK", "b2045", "ECK2039"] "mRNA" [] "G7096" ["G7096-MONOMER"] null [] +"G7097_RNA" "wzxC" ["wzxC", "wzx", "b2046", "ECK2040"] "mRNA" [] "G7097" ["G7097-MONOMER"] null [] +"G7098_RNA" "wcaJ" ["wcaJ", "b2047", "ECK2041"] "mRNA" [] "G7098" ["G7098-MONOMER"] null [] +"G7099_RNA" "wcaF" ["wcaF", "b2054", "ECK2048"] "mRNA" [] "G7099" ["G7099-MONOMER"] null [] +"G7100_RNA" "wcaE" ["wcaE", "b2055", "ECK2049"] "mRNA" [] "G7100" ["G7100-MONOMER"] null [] +"G7101_RNA" "wcaD" ["wcaD", "b2056", "ECK2050"] "mRNA" [] "G7101" ["G7101-MONOMER"] null [] +"G7102_RNA" "wcaC" ["wcaC", "b2057", "ECK2051"] "mRNA" [] "G7102" ["G7102-MONOMER"] null [] +"G7103_RNA" "wcaB" ["wcaB", "b2058", "ECK2052"] "mRNA" [] "G7103" ["G7103-MONOMER"] null [] +"G7104_RNA" "wcaA" ["wcaA", "b2059", "ECK2053"] "mRNA" [] "G7104" ["G7104-MONOMER"] null [] +"G7105_RNA" "wzc" ["wzc", "b2060", "ECK2054"] "mRNA" [] "G7105" ["G7105-MONOMER"] null [] +"G7106_RNA" "wzb" ["wzb", "b2061", "ECK2055"] "mRNA" [] "G7106" ["G7106-MONOMER"] null [] +"G7107_RNA" "wza" ["wza", "b2062", "ECK2056"] "mRNA" [] "G7107" ["G7107-MONOMER"] null [] +"G7108_RNA" "yegH" ["yegH", "b2063", "ECK2057"] "mRNA" [] "G7108" ["G7108-MONOMER"] null [] +"G7109_RNA" "yegI" ["yegI", "b2070", "ECK2064"] "mRNA" [] "G7109" ["G7109-MONOMER"] null [] +"G7110_RNA" "yegJ" ["yegJ", "b2071", "ECK2065"] "mRNA" [] "G7110" ["G7110-MONOMER"] null [] +"G7111_RNA" "pphC" ["pphC", "yegK", "b2072", "ECK2066"] "mRNA" [] "G7111" ["G7111-MONOMER"] null [] +"G7112_RNA" "yegL" ["yegL", "b2073", "ECK2067"] "mRNA" [] "G7112" ["G7112-MONOMER"] null [] +"G7113_RNA" "mdtA" ["mdtA", "yegM", "b2074", "ECK2070"] "mRNA" [] "G7113" ["MDTA"] null [] +"G7114_RNA" "mdtB" ["mdtB", "yegN", "b2075", "ECK2071"] "mRNA" [] "G7114" ["B2075-MONOMER"] null [] +"G7115_RNA" "mdtC" ["mdtC", "yegO", "b2076", "ECK2072"] "mRNA" [] "G7115" ["B2076-MONOMER"] null [] +"G7117_RNA" "yegP" ["yegP", "b2080", "ECK2076"] "mRNA" [] "G7117" ["G7117-MONOMER"] null [] +"G7118_RNA" "trhP" ["trhP", "yegQ", "b2081", "ECK2077"] "mRNA" [] "G7118" ["G7118-MONOMER"] null [] +"G7119_RNA" "ogrK" ["ogrK", "b2082", "ECK2079"] "mRNA" [] "G7119" ["G7119-MONOMER"] null [] +"G7120_RNA" "yegZ" ["yegZ", "b2083", "ECK2080"] "pseudo" [] "G7120" ["G7120-MONOMER"] null [] +"G7121_RNA" null ["b2084"] "phantom" [] "G7121" [] null [] +"G7122_RNA" "yegR" ["yegR", "b2085", "ECK2081"] "mRNA" [] "G7122" ["G7122-MONOMER"] null [] +"G7123_RNA" "yegS" ["yegS", "b2086", "ECK2082"] "mRNA" [] "G7123" ["G7123-MONOMER"] null [] +"G7125_RNA" "insE5" ["insE5", "b2088", "ECK0298"] "mRNA" [] "G7125" ["MONOMER0-4245"] null [] +"G7126_RNA" "insF5" ["insF5", "tra5-4", "b2089", "ECK0299"] "mRNA" [] "G7126" ["MONOMER0-4447"] null [] +"G7128_RNA" "gatZ" ["gatZ", "b2095", "ECK2088"] "mRNA" [] "G7128" ["G7128-MONOMER"] null [] +"G7129_RNA" "fbaB" ["fbaB", "dhnA", "b2097", "ECK2090"] "mRNA" [] "G7129" ["FRUCBISALD-CLASSI-MONOMER"] null [] +"G7130_RNA" "yegT" ["yegT", "b2098", "ECK2091"] "mRNA" [] "G7130" ["B2098-MONOMER"] null [] +"G7131_RNA" "yegU" ["yegU", "b2099", "ECK2092"] "mRNA" [] "G7131" ["G7131-MONOMER"] null [] +"G7132_RNA" "yegV" ["yegV", "b2100", "ECK2093"] "mRNA" [] "G7132" ["G7132-MONOMER"] null [] +"G7133_RNA" "yegW" ["yegW", "b2101", "ECK2094"] "mRNA" [] "G7133" ["G7133-MONOMER"] null [] +"G7134_RNA" "yegX" ["yegX", "b2102", "ECK2095"] "mRNA" [] "G7134" ["G7134-MONOMER"] null [] +"G7135_RNA" "thiD" ["thiD", "thiN", "thiA", "thiJ", "b2103", "ECK2096"] "mRNA" [] "G7135" ["HMP-P-KIN-MONOMER"] null [] +"G7137_RNA" "rcnR" ["rcnR", "yohL", "b2105", "ECK2098"] "mRNA" [] "G7137" ["G7137-MONOMER"] null [] +"G7138_RNA" "rcnA" ["rcnA", "yohM", "b2106", "ECK2099"] "mRNA" [] "G7138" ["G7138-MONOMER"] null [] +"G7139_RNA" "rcnB" ["rcnB", "yohN", "b2107", "ECK2100"] "mRNA" [] "G7139" ["G7139-MONOMER"] null [] +"G7144_RNA" "yeiS" ["yeiS", "b2145", "ECK2138"] "mRNA" [] "G7144" ["G7144-MONOMER"] null [] +"G7145_RNA" "preT" ["preT", "yeiT", "b2146", "ECK2139"] "mRNA" [] "G7145" ["G7145-MONOMER"] null [] +"G7146_RNA" "lpxT" ["lpxT", "yeiU", "b2174", "ECK2168"] "mRNA" [] "G7146" ["G7146-MONOMER"] null [] +"G7147_RNA" "mepS" ["mepS", "yeiV", "spr", "b2175", "ECK2169"] "mRNA" [] "G7147" ["G7147-MONOMER"] null [] +"G7148_RNA" "pdeN" ["pdeN", "rtn", "b2176", "ECK2170"] "mRNA" [] "G7148" ["G7148-MONOMER"] null [] +"G7149_RNA" "b2191" ["b2191", "b2191"] "phantom" [] "G7149" [] null [] +"G7150_RNA" "insH8" ["insH8", "trs5-8", "yi52_8", "b2192", "ECK0261"] "mRNA" [] "G7150" ["MONOMER0-4238"] null [] +"G7152_RNA" "yfaP" ["yfaP", "b2225", "ECK2218"] "mRNA" [] "G7152" ["G7152-MONOMER"] null [] +"G7153_RNA" "yfaQ" ["yfaQ", "b2226", "ECK2219"] "mRNA" [] "G7153" ["G7153-MONOMER"] null [] +"G7155_RNA" "yfaS" ["yfaS", "yfaR", "b2228", "b2227", "b4500", "ECK2220"] "pseudo" [] "G7155" ["G7155-MONOMER"] null [] +"G7156_RNA" "yfaT" ["yfaT", "b2229", "ECK2221"] "mRNA" [] "G7156" ["G7156-MONOMER"] null [] +"G7158_RNA" "yfaU" ["yfaU", "b2245", "ECK2238"] "mRNA" [] "G7158" ["G7158-MONOMER"] null [] +"G7159_RNA" "yfaV" ["yfaV", "b2246", "ECK2239"] "mRNA" [] "G7159" ["B2246-MONOMER"] null [] +"G7160_RNA" "rhmD" ["rhmD", "yfaW", "b2247", "ECK2240"] "mRNA" [] "G7160" ["G7160-MONOMER"] null [] +"G7161_RNA" "yfaX" ["yfaX", "b2248", "ECK2241"] "mRNA" [] "G7161" ["G7161-MONOMER"] null [] +"G7162_RNA" "yfaY" ["yfaY", "b2249", "ECK2242"] "mRNA" [] "G7162" ["G7162-MONOMER"] null [] +"G7163_RNA" "yfaZ" ["yfaZ", "b2250", "ECK2243"] "mRNA" [] "G7163" ["G7163-MONOMER"] null [] +"G7164_RNA" "nudI" ["nudI", "yfaO", "b2251", "ECK2244"] "mRNA" [] "G7164" ["G7164-MONOMER"] null [] +"G7165_RNA" "ais" ["ais", "pagH", "pmrG", "b2252", "ECK2245"] "mRNA" [] "G7165" ["G7165-MONOMER"] null [] +"G7166_RNA" "arnB" ["arnB", "pmrH", "yfbE", "b2253", "ECK2246"] "mRNA" [] "G7166" ["G7166-MONOMER"] null [] +"G7167_RNA" "arnC" ["arnC", "pmrF", "yfbF", "b2254", "ECK2247"] "mRNA" [] "G7167" ["G7167-MONOMER"] null [] +"G7168_RNA" "arnA" ["arnA", "SAF", "yfbG", "pmrI", "b2255", "ECK2248"] "mRNA" [] "G7168" ["G7168-MONOMER"] null [] +"G7169_RNA" "arnD" ["arnD", "pmrJ", "yfbH", "b2256", "ECK2249"] "mRNA" [] "G7169" ["G7169-MONOMER"] null [] +"G7170_RNA" "arnT" ["arnT", "yfbI", "pmrK", "b2257", "ECK2250"] "mRNA" [] "G7170" ["G7170-MONOMER"] null [] +"G7171_RNA" "arnF" ["arnF", "yfbJ", "b2258", "ECK2252"] "mRNA" [] "G7171" ["G7171-MONOMER"] null [] +"G7172_RNA" "pmrD" ["pmrD", "b2259", "ECK2253"] "mRNA" [] "G7172" ["G7172-MONOMER"] null [] +"G7173_RNA" "elaB" ["elaB", "yfbD", "b2266", "ECK2260"] "mRNA" [] "G7173" ["G7173-MONOMER"] null [] +"G7174_RNA" "elaA" ["elaA", "yfbC", "b2267", "ECK2261"] "mRNA" [] "G7174" ["G7174-MONOMER"] null [] +"G7175_RNA" "rbn" ["rbn", "zipD", "ecoZ", "rnz", "elaC", "b2268", "ECK2262"] "mRNA" [] "G7175" ["G7175-MONOMER"] null [] +"G7176_RNA" "elaD" ["elaD", "b2269", "ECK2263"] "mRNA" [] "G7176" ["G7176-MONOMER"] null [] +"G7177_RNA" "yfbK" ["yfbK", "b2270", "ECK2264"] "mRNA" [] "G7177" ["G7177-MONOMER"] null [] +"G7178_RNA" "yfbL" ["yfbL", "b2271", "ECK2265"] "mRNA" [] "G7178" ["G7178-MONOMER"] null [] +"G7179_RNA" "yfbM" ["yfbM", "b2272", "ECK2266"] "mRNA" [] "G7179" ["G7179-MONOMER"] null [] +"G7180_RNA" "yfbN" ["yfbN", "b2273", "ECK2267"] "mRNA" [] "G7180" ["G7180-MONOMER"] null [] +"G7181_RNA" "yfbO" ["yfbO", "b2274", "ECK2268"] "mRNA" [] "G7181" ["G7181-MONOMER"] null [] +"G7182_RNA" "yfbP" ["yfbP", "b2275", "ECK2269"] "mRNA" [] "G7182" ["G7182-MONOMER"] null [] +"G7184_RNA" "alaA" ["alaA", "yfbQ", "b2290", "ECK2284"] "mRNA" [] "G7184" ["G7184-MONOMER"] null [] +"G7185_RNA" "yfbR" ["yfbR", "b2291", "ECK2285"] "mRNA" [] "G7185" ["G7185-MONOMER"] null [] +"G7186_RNA" "yfbS" ["yfbS", "b2292", "ECK2286"] "mRNA" [] "G7186" ["G7186-MONOMER"] null [] +"G7187_RNA" "hxpA" ["hxpA", "yfbT", "b2293", "ECK2287"] "mRNA" [] "G7187" ["G7187-MONOMER"] null [] +"G7188_RNA" "yfbU" ["yfbU", "b2294", "ECK2288"] "mRNA" [] "G7188" ["G7188-MONOMER"] null [] +"G7189_RNA" "yfbV" ["yfbV", "b2295", "ECK2289"] "mRNA" [] "G7189" ["G7189-MONOMER"] null [] +"G7190_RNA" "yfcC" ["yfcC", "b2298", "ECK2292"] "mRNA" [] "G7190" ["G7190-MONOMER"] null [] +"G7191_RNA" "yfcD" ["yfcD", "b2299", "ECK2293"] "mRNA" [] "G7191" ["G7191-MONOMER"] null [] +"G7192_RNA" "yfcE" ["yfcE", "b2300", "ECK2294"] "mRNA" [] "G7192" ["G7192-MONOMER"] null [] +"G7193_RNA" "yfcF" ["yfcF", "b2301", "ECK2295"] "mRNA" [] "G7193" ["G7193-MONOMER"] null [] +"G7194_RNA" "yfcG" ["yfcG", "b2302", "ECK2296"] "mRNA" [] "G7194" ["G7194-MONOMER"] null [] +"G7195_RNA" "folX" ["folX", "b2303", "ECK2297"] "mRNA" [] "G7195" ["H2NTPEPIM-MONOMER"] null [] +"G7196_RNA" "yfcH" ["yfcH", "b2304", "ECK2298"] "mRNA" [] "G7196" ["G7196-MONOMER"] null [] +"G7197_RNA" "rpnB" ["rpnB", "yfcI", "b2305", "ECK2299"] "mRNA" [] "G7197" ["G7197-MONOMER"] null [] +"G7198_RNA" "yfcJ" ["yfcJ", "b2322", "ECK2316"] "mRNA" [] "G7198" ["B2322-MONOMER"] null [] +"G7199_RNA" "mnmC" ["mnmC", "yfcK", "trmC", "b2324", "ECK2318"] "mRNA" [] "G7199" ["G7199-MONOMER"] null [] +"G7200_RNA" "yfcL" ["yfcL", "b2325", "ECK2319"] "mRNA" [] "G7200" ["G7200-MONOMER"] null [] +"G7201_RNA" "epmC" ["epmC", "yfcM", "b2326", "ECK2320"] "mRNA" [] "G7201" ["G7201-MONOMER"] null [] +"G7202_RNA" "smrB" ["smrB", "yfcN", "b2331", "ECK2325"] "mRNA" [] "G7202" ["G7202-MONOMER"] null [] +"G7203_RNA" "yfcO" ["yfcO", "b2332", "ECK2326"] "mRNA" [] "G7203" ["G7203-MONOMER"] null [] +"G7204_RNA" "yfcP" ["yfcP", "b2333", "ECK2327"] "mRNA" [] "G7204" ["G7204-MONOMER"] null [] +"G7205_RNA" "yfcQ" ["yfcQ", "b2334", "ECK2328"] "mRNA" [] "G7205" ["G7205-MONOMER"] null [] +"G7206_RNA" "yfcR" ["yfcR", "b2335", "ECK2329"] "mRNA" [] "G7206" ["G7206-MONOMER"] null [] +"G7207_RNA" "yfcS" ["yfcS", "b2336", "ECK2330"] "mRNA" [] "G7207" ["G7207-MONOMER"] null [] +"G7209_RNA" "yfcU" ["yfcU", "ECK2331", "yfcT", "b2338", "b2337", "b4661", "ECK2332"] "pseudo" [] "G7209" ["G7209-MONOMER"] null [] +"G7210_RNA" "yfcV" ["yfcV", "b2339", "ECK2333"] "mRNA" [] "G7210" ["G7210-MONOMER"] null [] +"G7211_RNA" "sixA" ["sixA", "yfcW", "b2340", "ECK2334"] "mRNA" [] "G7211" ["G7211-MONOMER"] null [] +"G7212_RNA" "fadJ" ["fadJ", "yfcX", "b2341", "ECK2335"] "mRNA" [] "G7212" ["G7212-MONOMER"] null [] +"G7213_RNA" "fadI" ["fadI", "yfcY", "b2342", "ECK2336"] "mRNA" [] "G7213" ["G7213-MONOMER"] null [] +"G7214_RNA" "yfcZ" ["yfcZ", "b2343", "ECK2337"] "mRNA" [] "G7214" ["G7214-MONOMER"] null [] +"G7215_RNA" "yfdF" ["yfdF", "b2345", "ECK2339"] "mRNA" [] "G7215" ["G7215-MONOMER"] null [] +"G7216_RNA" "mlaA" ["mlaA", "vacJ", "b2346", "ECK2340"] "mRNA" [] "G7216" ["G7216-MONOMER"] null [] +"G7217_RNA" "yfdC" ["yfdC", "b2347", "ECK2341"] "mRNA" [] "G7217" ["G7217-MONOMER"] null [] +"G7218_RNA" "intS" ["intS", "intC", "yfdB", "b2349", "ECK2343"] "mRNA" [] "G7218" ["G7218-MONOMER"] null [] +"G7219_RNA" "yfdG" ["yfdG", "gtrA", "b2350", "ECK2344"] "mRNA" [] "G7219" ["G7219-MONOMER"] null [] +"G7220_RNA" "yfdH" ["yfdH", "gtrB", "b2351", "ECK2345"] "mRNA" [] "G7220" ["G7220-MONOMER"] null [] +"G7221_RNA" "yfdI" ["yfdI", "gtrS", "gtrIV", "b2352", "ECK2346"] "mRNA" [] "G7221" ["G7221-MONOMER"] null [] +"G7222_RNA" "tfaS" ["tfaS", "yfdJ", "b2353", "ECK2347"] "pseudo" [] "G7222" [] null [] +"G7223_RNA" "yfdK" ["yfdK", "b2354", "ECK2348"] "mRNA" [] "G7223" ["G7223-MONOMER"] null [] +"G7224_RNA" "yfdL" ["yfdL", "b2355", "ECK2349"] "pseudo" [] "G7224" ["G7224-MONOMER"] null [] +"G7225_RNA" "yfdM" ["yfdM", "yzyB", "b2356", "ECK2350"] "mRNA" [] "G7225" ["G7225-MONOMER"] null [] +"G7226_RNA" "yfdN" ["yfdN", "yzyA", "b2357", "ECK2351"] "mRNA" [] "G7226" ["G7226-MONOMER"] null [] +"G7227_RNA" "yfdO" ["yfdO", "oweS", "b2358", "ECK2352"] "mRNA" [] "G7227" ["G7227-MONOMER"] null [] +"G7228_RNA" "yfdP" ["yfdP", "b2359", "ECK2353"] "mRNA" [] "G7228" ["G7228-MONOMER"] null [] +"G7229_RNA" "yfdQ" ["yfdQ", "b2360", "ECK2354"] "mRNA" [] "G7229" ["G7229-MONOMER"] null [] +"G7230_RNA" "yfdR" ["yfdR", "b2361", "ECK2355"] "mRNA" [] "G7230" ["G7230-MONOMER"] null [] +"G7231_RNA" "yfdS" ["yfdS", "b2362", "ECK2356"] "mRNA" [] "G7231" ["G7231-MONOMER"] null [] +"G7232_RNA" "yfdT" ["yfdT", "b2363", "ECK2357"] "mRNA" [] "G7232" ["G7232-MONOMER"] null [] +"G7233_RNA" "emrK" ["emrK", "b2368", "ECK2364"] "mRNA" [] "G7233" ["G7233-MONOMER"] null [] +"G7234_RNA" "yfdE" ["yfdE", "b2371", "ECK2367"] "mRNA" [] "G7234" ["G7234-MONOMER"] null [] +"G7235_RNA" "yfdV" ["yfdV", "b2372", "ECK2368"] "mRNA" [] "G7235" ["B2372-MONOMER"] null [] +"G7236_RNA" "oxc" ["oxc", "yfdU", "b2373", "ECK2369"] "mRNA" [] "G7236" ["G7236-MONOMER"] null [] +"G7237_RNA" "frc" ["frc", "yfdW", "b2374", "ECK2370"] "mRNA" [] "G7237" ["G7237-MONOMER"] null [] +"G7238_RNA" "yfdX" ["yfdX", "b2375", "ECK2371"] "mRNA" [] "G7238" ["G7238-MONOMER"] null [] +"G7239_RNA" "ypdI" ["ypdI", "b2376", "ECK2372"] "mRNA" [] "G7239" ["G7239-MONOMER"] null [] +"G7240_RNA" "yfdY" ["yfdY", "b2377", "ECK2373"] "mRNA" [] "G7240" ["G7240-MONOMER"] null [] +"G7241_RNA" "lpxP" ["lpxP", "ddg", "b2378", "ECK2374"] "mRNA" [] "G7241" ["PALMITOTRANS-MONOMER"] null [] +"G7242_RNA" "alaC" ["alaC", "yfdZ", "b2379", "ECK2375"] "mRNA" [] "G7242" ["G7242-MONOMER"] null [] +"G7243_RNA" "pyrS" ["pyrS", "ypdA", "b2380", "ECK2376"] "mRNA" [] "G7243" ["G7243-MONOMER"] null [] +"G7244_RNA" "pyrR" ["pyrR", "ypdB", "b2381", "ECK2377"] "mRNA" [] "G7244" ["G7244-MONOMER"] null [] +"G7245_RNA" "ypdC" ["ypdC", "b2382", "ECK2378"] "mRNA" [] "G7245" ["G7245-MONOMER"] null [] +"G7246_RNA" "fryA" ["fryA", "ypdD", "b2383", "ECK2379"] "mRNA" [] "G7246" ["G7246-MONOMER"] null [] +"G7247_RNA" "ypdE" ["ypdE", "b2384", "ECK2380"] "mRNA" [] "G7247" ["G7247-MONOMER"] null [] +"G7248_RNA" "ypdF" ["ypdF", "b2385", "ECK2381"] "mRNA" [] "G7248" ["G7248-MONOMER"] null [] +"G7249_RNA" "fryC" ["fryC", "ypdG", "b2386", "ECK2382"] "mRNA" [] "G7249" ["MONOMER0-6"] null [] +"G7250_RNA" "fryB" ["fryB", "ypdH", "b2387", "ECK2383"] "mRNA" [] "G7250" ["G7250-MONOMER"] null [] +"G7251_RNA" "yfeO" ["yfeO", "b2389", "ECK2385"] "mRNA" [] "G7251" ["G7251-MONOMER"] null [] +"G7252_RNA" "ypeC" ["ypeC", "b2390", "ECK2386"] "mRNA" [] "G7252" ["G7252-MONOMER"] null [] +"G7254_RNA" "mntH" ["mntH", "mntA", "yfeP", "b2392", "ECK2387"] "mRNA" [] "G7254" ["YFEP-MONOMER"] null [] +"G7255_RNA" "insL3" ["insL3", "yi81-3", "b2394", "ECK0016"] "mRNA" [] "G7255" ["G7255-MONOMER"] null [] +"G7256_RNA" "yfeN" ["yfeN", "b2408", "ECK2402"] "mRNA" [] "G7256" ["G7256-MONOMER"] null [] +"G7257_RNA" "yfeR" ["yfeR", "b2409", "ECK2403"] "mRNA" [] "G7257" ["G7257-MONOMER"] null [] +"G7258_RNA" "zipA" ["zipA", "b2412", "ECK2407"] "mRNA" [] "G7258" ["G7258-MONOMER"] null [] +"G7259_RNA" "pdxK" ["pdxK", "yfeI", "thiJ", "pdxL", "b2418", "ECK2413"] "mRNA" [] "G7259" ["PDXK-MONOMER"] null [] +"G7260_RNA" "yfeK" ["yfeK", "b2419", "ECK2414"] "mRNA" [] "G7260" ["G7260-MONOMER"] null [] +"G7261_RNA" "yfeS" ["yfeS", "b2420", "ECK2415"] "mRNA" [] "G7261" ["G7261-MONOMER"] null [] +"G7262_RNA" "murR" ["murR", "yfeT", "b2427", "ECK2422"] "mRNA" [] "G7262" ["G7262-MONOMER"] null [] +"G7263_RNA" "murQ" ["murQ", "yfeU", "b2428", "ECK2423"] "mRNA" [] "G7263" ["G7263-MONOMER"] null [] +"G7264_RNA" "murP" ["murP", "yfeV", "b2429", "ECK2424"] "mRNA" [] "G7264" ["MONOMER0-5"] null [] +"G7265_RNA" "yfeW" ["yfeW", "b2430", "ECK2425"] "mRNA" [] "G7265" ["G7265-MONOMER"] null [] +"G7266_RNA" "yfeX" ["yfeX", "b2431", "ECK2426"] "mRNA" [] "G7266" ["G7266-MONOMER"] null [] +"G7267_RNA" "yfeY" ["yfeY", "b2432", "ECK2427"] "mRNA" [] "G7267" ["G7267-MONOMER"] null [] +"G7268_RNA" "yfeZ" ["yfeZ", "b2433", "ECK2428"] "mRNA" [] "G7268" ["G7268-MONOMER"] null [] +"G7269_RNA" "ypeA" ["ypeA", "b2434", "ECK2429"] "mRNA" [] "G7269" ["G7269-MONOMER"] null [] +"G7270_RNA" "eutK" ["eutK", "yffI", "b2438", "ECK2433"] "mRNA" [] "G7270" ["G7270-MONOMER"] null [] +"G7271_RNA" "eutL" ["eutL", "yffJ", "b2439", "ECK2434"] "mRNA" [] "G7271" ["G7271-MONOMER"] null [] +"G7272_RNA" "intZ" ["intZ", "b2442", "ECK2437"] "mRNA" [] "G7272" ["G7272-MONOMER"] null [] +"G7273_RNA" "yffL" ["yffL", "b2443", "ECK2438"] "mRNA" [] "G7273" ["G7273-MONOMER"] null [] +"G7274_RNA" "yffM" ["yffM", "b2444", "ECK2439"] "mRNA" [] "G7274" ["G7274-MONOMER"] null [] +"G7275_RNA" "yffN" ["yffN", "b2445", "ECK2440"] "mRNA" [] "G7275" ["G7275-MONOMER"] null [] +"G7276_RNA" "yffO" ["yffO", "b2446", "ECK2441"] "mRNA" [] "G7276" ["G7276-MONOMER"] null [] +"G7277_RNA" "yffP" ["yffP", "b2447", "ECK2442"] "mRNA" [] "G7277" ["G7277-MONOMER"] null [] +"G7278_RNA" "yffQ" ["yffQ", "b2448", "ECK2443"] "mRNA" [] "G7278" ["G7278-MONOMER"] null [] +"G7279_RNA" "yffR" ["yffR", "b2449", "ECK2444"] "mRNA" [] "G7279" ["G7279-MONOMER"] null [] +"G7280_RNA" "yffS" ["yffS", "b2450", "ECK2445"] "mRNA" [] "G7280" ["G7280-MONOMER"] null [] +"G7281_RNA" "eutA" ["eutA", "yffT", "b2451", "ECK2446"] "mRNA" [] "G7281" ["G7281-MONOMER"] null [] +"G7282_RNA" "eutH" ["eutH", "yffU", "b2452", "ECK2447"] "mRNA" [] "G7282" ["G7282-MONOMER"] null [] +"G7283_RNA" "eutG" ["eutG", "yffV", "b2453", "ECK2448"] "mRNA" [] "G7283" ["G7283-MONOMER"] null [] +"G7284_RNA" "eutJ" ["eutJ", "yffW", "b2454", "ECK2449"] "mRNA" [] "G7284" ["G7284-MONOMER"] null [] +"G7285_RNA" "eutE" ["eutE", "yffX", "b2455", "ECK2450"] "mRNA" [] "G7285" ["G7285-MONOMER"] null [] +"G7286_RNA" "eutN" ["eutN", "yffY", "cchB", "b2456", "ECK2451"] "mRNA" [] "G7286" ["G7286-MONOMER"] null [] +"G7287_RNA" "eutM" ["eutM", "yffZ", "cchA", "b2457", "ECK2452"] "mRNA" [] "G7287" ["G7287-MONOMER"] null [] +"G7288_RNA" "eutD" ["eutD", "ypfA", "eutI", "b2458", "ECK2453"] "mRNA" [] "G7288" ["G7288-MONOMER"] null [] +"G7289_RNA" "eutT" ["eutT", "ypfB", "b2459", "ECK2454"] "mRNA" [] "G7289" ["G7289-MONOMER"] null [] +"G7290_RNA" "eutQ" ["eutQ", "ypfC", "b2460", "ECK2455"] "mRNA" [] "G7290" ["G7290-MONOMER"] null [] +"G7291_RNA" "eutP" ["eutP", "ypfD", "b2461", "ECK2456"] "mRNA" [] "G7291" ["G7291-MONOMER"] null [] +"G7292_RNA" "eutS" ["eutS", "ypfE", "b2462", "ECK2457"] "mRNA" [] "G7292" ["G7292-MONOMER"] null [] +"G7293_RNA" "maeB" ["maeB", "ypfF", "b2463", "ECK2458"] "mRNA" [] "G7293" ["MALIC-NADP-MONOMER"] null [] +"G7295_RNA" "ypfG" ["ypfG", "b2466", "ECK2461"] "mRNA" [] "G7295" ["G7295-MONOMER"] null [] +"G7296_RNA" "ypfH" ["ypfH", "b2473", "ECK2469"] "mRNA" [] "G7296" ["G7296-MONOMER"] null [] +"G7297_RNA" "tmcA" ["tmcA", "ypfI", "b2474", "ECK2470"] "mRNA" [] "G7297" ["G7297-MONOMER"] null [] +"G7298_RNA" "ypfJ" ["ypfJ", "b2475", "ECK2471"] "mRNA" [] "G7298" ["G7298-MONOMER"] null [] +"G7300_RNA" "hyfC" ["hyfC", "b2483", "ECK2479"] "mRNA" [] "G7300" ["MONOMER0-154"] null [] +"G7301_RNA" "hyfD" ["hyfD", "b2484", "ECK2480"] "mRNA" [] "G7301" ["MONOMER0-141"] null [] +"G7302_RNA" "hyfE" ["hyfE", "b2485", "ECK2481"] "mRNA" [] "G7302" ["MONOMER0-142"] null [] +"G7303_RNA" "hyfF" ["hyfF", "b2486", "ECK2482"] "mRNA" [] "G7303" ["MONOMER0-143"] null [] +"G7304_RNA" "hyfG" ["hyfG", "b2487", "ECK2483"] "mRNA" [] "G7304" ["MONOMER0-150"] null [] +"G7305_RNA" "hyfH" ["hyfH", "b2488", "ECK2484"] "mRNA" [] "G7305" ["MONOMER0-144"] null [] +"G7306_RNA" "hyfI" ["hyfI", "b2489", "ECK2485"] "mRNA" [] "G7306" ["MONOMER0-151"] null [] +"G7307_RNA" "hyfJ" ["hyfJ", "b2490", "ECK2486"] "mRNA" [] "G7307" ["G7307-MONOMER"] null [] +"G7308_RNA" "hyfR" ["hyfR", "b2491", "ECK2487"] "mRNA" [] "G7308" ["G7308-MONOMER"] null [] +"G7309_RNA" "focB" ["focB", "b2492", "ECK2488"] "mRNA" [] "G7309" ["FOCB-MONOMER"] null [] +"G7310_RNA" "yfgO" ["yfgO", "perM", "b2493", "ECK2489"] "mRNA" [] "G7310" ["G7310-MONOMER"] null [] +"G7311_RNA" "bepA" ["bepA", "yfgC", "b2494", "ECK2490"] "mRNA" [] "G7311" ["G7311-MONOMER"] null [] +"G7312_RNA" "yfgD" ["yfgD", "b2495", "ECK2491"] "mRNA" [] "G7312" ["G7312-MONOMER"] null [] +"G7313_RNA" "hda" ["hda", "idaB", "yfgE", "b2496", "ECK2492"] "mRNA" [] "G7313" ["G7313-MONOMER"] null [] +"G7314_RNA" "pdeF" ["pdeF", "yfgF", "b2503", "ECK2499"] "mRNA" [] "G7314" ["G7314-MONOMER"] null [] +"G7315_RNA" "yfgG" ["yfgG", "b2504", "ECK2500"] "mRNA" [] "G7315" ["G7315-MONOMER"] null [] +"G7316_RNA" "yfgH" ["yfgH", "b2505", "ECK2501"] "mRNA" [] "G7316" ["G7316-MONOMER"] null [] +"G7317_RNA" "yfgI" ["yfgI", "b2506", "ECK2502"] "mRNA" [] "G7317" ["G7317-MONOMER"] null [] +"G7318_RNA" "yfgJ" ["yfgJ", "b2510", "ECK2506"] "mRNA" [] "G7318" ["G7318-MONOMER"] null [] +"G7319_RNA" "der" ["der", "engA", "yfgK", "b2511", "ECK2507"] "mRNA" [] "G7319" ["G7319-MONOMER"] null [] +"G7320_RNA" "bamB" ["bamB", "yfgL", "b2512", "ECK2508"] "mRNA" [] "G7320" ["G7320-MONOMER"] null [] +"G7321_RNA" "yfgM" ["yfgM", "b2513", "ECK2509"] "mRNA" [] "G7321" ["G7321-MONOMER"] null [] +"G7322_RNA" "pbpC" ["pbpC", "yfgN", "b2519", "ECK2515"] "mRNA" [] "G7322" ["G7322-MONOMER"] null [] +"G7323_RNA" "yfhM" ["yfhM", "b2520", "ECK2516"] "mRNA" [] "G7323" ["G7323-MONOMER"] null [] +"G7324_RNA" "iscU" ["iscU", "yfhN", "nifU", "b2529", "ECK2526"] "mRNA" [] "G7324" ["G7324-MONOMER"] null [] +"G7325_RNA" "iscS" ["iscS", "nuvC", "yzzO", "yfhO", "b2530", "ECK2527"] "mRNA" [] "G7325" ["G7325-MONOMER"] null [] +"G7326_RNA" "iscR" ["iscR", "yfhP", "b2531", "ECK2528"] "mRNA" [] "G7326" ["G7326-MONOMER"] null [] +"G7327_RNA" "trmJ" ["trmJ", "yfhQ", "b2532", "ECK2529"] "mRNA" [] "G7327" ["G7327-MONOMER"] null [] +"G7328_RNA" "yfhR" ["yfhR", "b2534", "ECK2531"] "mRNA" [] "G7328" ["G7328-MONOMER"] null [] +"G7329_RNA" "csiE" ["csiE", "csi-16", "b2535", "ECK2532"] "mRNA" [] "G7329" ["G7329-MONOMER"] null [] +"G7330_RNA" "hcaT" ["hcaT", "yfhS", "b2536", "ECK2533"] "mRNA" [] "G7330" ["HCAT-MONOMER"] null [] +"G7331_RNA" "hcaR" ["hcaR", "phdR", "yfhT", "b2537", "ECK2534"] "mRNA" [] "G7331" ["G7331-MONOMER"] null [] +"G7334_RNA" "hcaC" ["hcaC", "yfhW", "hcaa3", "phdB", "b2540", "ECK2537"] "mRNA" [] "G7334" ["HCAC-MONOMER"] null [] +"G7335_RNA" "hcaB" ["hcaB", "yfhX", "phdD", "b2541", "ECK2538"] "mRNA" [] "G7335" ["PHENPRODIOLDEHYDROG-MONOMER"] null [] +"G7336_RNA" "hcaD" ["hcaD", "hcaa4", "phdA", "yfhY", "b2542", "ECK2539"] "mRNA" [] "G7336" ["HCAD-MONOMER"] null [] +"G7337_RNA" "yphA" ["yphA", "b2543", "ECK2540"] "mRNA" [] "G7337" ["G7337-MONOMER"] null [] +"G7338_RNA" "yphB" ["yphB", "b2544", "ECK2541"] "mRNA" [] "G7338" ["G7338-MONOMER"] null [] +"G7339_RNA" "yphC" ["yphC", "b2545", "ECK2542"] "mRNA" [] "G7339" ["YPHC-MONOMER"] null [] +"G7340_RNA" "yphD" ["yphD", "b2546", "ECK2543"] "mRNA" [] "G7340" ["YPHD-MONOMER"] null [] +"G7341_RNA" "yphE" ["yphE", "b2547", "ECK2544"] "mRNA" [] "G7341" ["YPHE-MONOMER"] null [] +"G7342_RNA" "yphF" ["yphF", "b2548", "ECK2545"] "mRNA" [] "G7342" ["G7342-MONOMER"] null [] +"G7343_RNA" "yphG" ["yphG", "b2549", "ECK2546"] "mRNA" [] "G7343" ["G7343-MONOMER"] null [] +"G7344_RNA" "yphH" ["yphH", "b2550", "ECK2547"] "mRNA" [] "G7344" ["G7344-MONOMER"] null [] +"G7345_RNA" "glrK" ["glrK", "yfhZ", "yfhK", "qseE", "b2556", "ECK2553"] "mRNA" [] "G7345" ["G7345-MONOMER"] null [] +"G7346_RNA" "yfhL" ["yfhL", "b2562", "ECK2560"] "mRNA" [] "G7346" ["G7346-MONOMER"] null [] +"G7347_RNA" "rseC" ["rseC", "b2570", "ECK2568"] "mRNA" [] "G7347" ["G7347-MONOMER"] null [] +"G7348_RNA" "rseB" ["rseB", "b2571", "ECK2569"] "mRNA" [] "G7348" ["G7348-MONOMER"] null [] +"G7349_RNA" "tapT" ["tapT", "yfiP", "tuaA", "b2583", "ECK2581"] "mRNA" [] "G7349" ["G7349-MONOMER"] null [] +"G7350_RNA" "patZ" ["patZ", "yfiQ", "pka", "b2584", "ECK2582"] "mRNA" [] "G7350" ["G7350-MONOMER"] null [] +"G7352_RNA" "bamD" ["bamD", "ecfD", "yfiO", "b2595", "ECK2593"] "mRNA" [] "G7352" ["G7352-MONOMER"] null [] +"G7353_RNA" null ["b2596"] "phantom" [] "G7353" [] null [] +"G7354_RNA" "yfiR" ["yfiR", "b2603", "ECK2600"] "mRNA" [] "G7354" ["G7354-MONOMER"] null [] +"G7355_RNA" "ypjD" ["ypjD", "b2611", "ECK2608"] "mRNA" [] "G7355" ["G7355-MONOMER"] null [] +"G7357_RNA" "yfjF" ["yfjF", "ratB", "b2618", "ECK2614"] "mRNA" [] "G7357" ["G7357-MONOMER"] null [] +"G7358_RNA" "ratA" ["ratA", "yfjG", "b2619", "ECK2615"] "mRNA" [] "G7358" ["G7358-MONOMER"] null [] +"G7359_RNA" "yfjH" ["yfjH", "b2623", "ECK2619"] "mRNA" [] "G7359" ["G7359-MONOMER"] null [] +"G7360_RNA" "yfjI" ["yfjI", "b2625", "ECK2621"] "mRNA" [] "G7360" ["G7360-MONOMER"] null [] +"G7361_RNA" "yfjJ" ["yfjJ", "b2626", "ECK2622"] "mRNA" [] "G7361" ["G7361-MONOMER"] null [] +"G7362_RNA" "abpB" ["abpB", "yfjK", "b2627", "ECK2623"] "mRNA" [] "G7362" ["G7362-MONOMER"] null [] +"G7363_RNA" "abpA" ["abpA", "yfjL", "b2628", "ECK2624"] "mRNA" [] "G7363" ["G7363-MONOMER"] null [] +"G7364_RNA" "yfjM" ["yfjM", "b2629", "ECK2625"] "mRNA" [] "G7364" ["G7364-MONOMER"] null [] +"G7365_RNA" "rnlA" ["rnlA", "yfjN", "std", "b2630", "ECK2626"] "mRNA" [] "G7365" ["G7365-MONOMER"] null [] +"G7366_RNA" "rnlB" ["rnlB", "yfjO", "b2631", "ECK2627"] "mRNA" [] "G7366" ["G7366-MONOMER"] null [] +"G7367_RNA" "yfjP" ["yfjP", "b2632", "ECK2628"] "mRNA" [] "G7367" ["G7367-MONOMER"] null [] +"G7368_RNA" "yfjQ" ["yfjQ", "b2633", "ECK2629"] "mRNA" [] "G7368" ["G7368-MONOMER"] null [] +"G7369_RNA" "yfjR" ["yfjR", "b2634", "ECK2630"] "mRNA" [] "G7369" ["G7369-MONOMER"] null [] +"G7370_RNA" "ypjK" ["ypjK", "b2635", "ECK2631"] "mRNA" [] "G7370" ["G7370-MONOMER"] null [] +"G7371_RNA" "yfjS" ["yfjS", "b2636", "ECK2632"] "mRNA" [] "G7371" ["G7371-MONOMER"] null [] +"G7372_RNA" "yfjT" ["yfjT", "b2637", "ECK2633"] "mRNA" [] "G7372" ["G7372-MONOMER"] null [] +"G7373_RNA" "yfjU" ["yfjU", "b2638", "ECK2634"] "mRNA" [] "G7373" ["G7373-MONOMER"] null [] +"G7376_RNA" "yfjV" ["yfjV", "ypjM", "ypjL", "ECK2637", "ECK2636", "b2640", "b2639", "b2641", "ECK2635"] "pseudo" [] "G7376" ["G7376-MONOMER"] null [] +"G7377_RNA" "yfjW" ["yfjW", "b2642", "ECK2638"] "mRNA" [] "G7377" ["G7377-MONOMER"] null [] +"G7378_RNA" "yfjX" ["yfjX", "b2643", "ECK2639"] "mRNA" [] "G7378" ["G7378-MONOMER"] null [] +"G7379_RNA" "yfjY" ["yfjY", "b2644", "ECK2640"] "mRNA" [] "G7379" ["G7379-MONOMER"] null [] +"G7380_RNA" "yfjZ" ["yfjZ", "b2645", "ECK2642"] "mRNA" [] "G7380" ["G7380-MONOMER"] null [] +"G7381_RNA" "ypjF" ["ypjF", "b2646", "ECK2643"] "mRNA" [] "G7381" ["G7381-MONOMER"] null [] +"G7382_RNA" "ypjA" ["ypjA", "b2647", "ECK2644"] "mRNA" [] "G7382" ["G7382-MONOMER"] null [] +"G7383_RNA" "pinH" ["pinH", "ypjG", "b2648", "ECK2645"] "pseudo" [] "G7383" ["G7383-MONOMER"] null [] +"G7384_RNA" "ypjB" ["ypjB", "b2649", "ECK2646"] "mRNA" [] "G7384" ["G7384-MONOMER"] null [] +"G7385_RNA" "ypjC" ["ypjC", "b2650", "ECK2647"] "mRNA" [] "G7385" ["G7385-MONOMER"] null [] +"G7386_RNA" "b2651" ["b2651", "b2651"] "phantom" [] "G7386" [] null [] +"RNA0-305" "tRNA-Ile(CAU)" ["tRNAileY"] "tRNA" ["RNA0-309"] "G7387" [] "CAU" [] +"G7388_RNA" null ["b2653"] "phantom" [] "G7388" [] null [] +"G7389_RNA" "ygaQ" ["ygaQ", "G7393", "yqaD", "G7392", "G7391", "ygaR", "b2656", "b2655", "yqaC", "b2654", "b2657", "b2658", "b4462", "ECK2649"] "pseudo" [] "G7389" ["G7389-MONOMER"] null [] +"G7394_RNA" "glaH" ["glaH", "csi-12", "ygaT", "csiD", "b2659", "ECK2653"] "mRNA" [] "G7394" ["G7394-MONOMER"] null [] +"G7395_RNA" "kbp" ["kbp", "yzzM", "ygaU", "b2665", "ECK2659"] "mRNA" [] "G7395" ["G7395-MONOMER"] null [] +"G7396_RNA" "yqaE" ["yqaE", "b2666", "ECK2660"] "mRNA" [] "G7396" ["G7396-MONOMER"] null [] +"G7397_RNA" "ygaV" ["ygaV", "b2667", "ECK2661"] "mRNA" [] "G7397" ["G7397-MONOMER"] null [] +"G7398_RNA" "ygaP" ["ygaP", "b2668", "ECK2662"] "mRNA" [] "G7398" ["G7398-MONOMER"] null [] +"G7399_RNA" "alaE" ["alaE", "ygaW", "b2670", "ECK2664"] "mRNA" [] "G7399" ["G7399-MONOMER"] null [] +"G7400_RNA" "ygaM" ["ygaM", "b2672", "ECK2666"] "mRNA" [] "G7400" ["B0899-MONOMER"] null [] +"G7401_RNA" "nrdH" ["nrdH", "ygaN", "b2673", "ECK2667"] "mRNA" [] "G7401" ["G7401-MONOMER"] null [] +"G7402_RNA" "nrdI" ["nrdI", "ygaO", "b2674", "ECK2668"] "mRNA" [] "G7402" ["G7402-MONOMER"] null [] +"G7403_RNA" "ygaY" ["ygaY", "ygaX", "b2680", "ECK2675", "b2681", "ECK2674"] "pseudo" [] "G7403" ["YGAY-MONOMER"] null [] +"G7405_RNA" "ygaZ" ["ygaZ", "b2682", "ECK2676"] "mRNA" [] "G7405" ["G7405-MONOMER"] null [] +"G7406_RNA" "ygaH" ["ygaH", "b2683", "ECK2677"] "mRNA" [] "G7406" ["G7406-MONOMER"] null [] +"G7407_RNA" "yqaA" ["yqaA", "b2689", "ECK2684"] "mRNA" [] "G7407" ["G7407-MONOMER"] null [] +"G7408_RNA" "yqaB" ["yqaB", "b2690", "ECK2685"] "mRNA" [] "G7408" ["G7408-MONOMER"] null [] +"G7409_RNA" "pncC" ["pncC", "ygaD", "b2700", "ECK2695"] "mRNA" [] "G7409" ["G7409-MONOMER"] null [] +"G7410_RNA" "mltB" ["mltB", "slt", "b2701", "ECK2696"] "mRNA" [] "G7410" ["G7410-MONOMER"] null [] +"G7413_RNA" "norV" ["norV", "ygaJ", "ygaI", "ygaK", "b2710", "ECK2705"] "mRNA" [] "G7413" ["G7413-MONOMER"] null [] +"G7414_RNA" "hycI" ["hycI", "b2717", "ECK2712"] "mRNA" [] "G7414" ["G7414-MONOMER"] null [] +"G7415_RNA" "pphB" ["pphB", "ygbH", "prpB", "b2734", "ECK2729"] "mRNA" [] "G7415" ["G7415-MONOMER"] null [] +"G7416_RNA" "ygbI" ["ygbI", "b2735", "ECK2730"] "mRNA" [] "G7416" ["G7416-MONOMER"] null [] +"G7417_RNA" "ygbJ" ["ygbJ", "b2736", "ECK2731"] "mRNA" [] "G7417" ["G7417-MONOMER"] null [] +"G7418_RNA" "ygbK" ["ygbK", "b2737", "ECK2732"] "mRNA" [] "G7418" ["G7418-MONOMER"] null [] +"G7419_RNA" "ygbL" ["ygbL", "b2738", "ECK2733"] "mRNA" [] "G7419" ["G7419-MONOMER"] null [] +"G7420_RNA" "ygbM" ["ygbM", "b2739", "ECK2734"] "mRNA" [] "G7420" ["G7420-MONOMER"] null [] +"G7421_RNA" "ygbN" ["ygbN", "b2740", "ECK2735"] "mRNA" [] "G7421" ["B2740-MONOMER"] null [] +"G7422_RNA" "truD" ["truD", "ygbO", "b2745", "ECK2740"] "mRNA" [] "G7422" ["G7422-MONOMER"] null [] +"G7423_RNA" "ispD" ["ispD", "ygbP", "b2747", "ECK2742"] "mRNA" [] "G7423" ["G7423-MONOMER"] null [] +"G7424_RNA" "ftsB" ["ftsB", "ygbQ", "b2748", "ECK2743"] "mRNA" [] "G7424" ["G7424-MONOMER"] null [] +"G7425_RNA" "cas1" ["cas1", "ygbT", "b2755", "ECK2750"] "mRNA" [] "G7425" ["G7425-MONOMER"] null [] +"G7426_RNA" "casE" ["casE", "ygcH", "cse3", "cas6e", "b2756", "ECK2751"] "mRNA" [] "G7426" ["G7426-MONOMER"] null [] +"G7427_RNA" "casD" ["casD", "ygcI", "cas5e", "b2757", "ECK2752"] "mRNA" [] "G7427" ["G7427-MONOMER"] null [] +"G7428_RNA" "casC" ["casC", "ygcJ", "cse4", "cas7", "b2758", "ECK2753"] "mRNA" [] "G7428" ["G7428-MONOMER"] null [] +"G7429_RNA" "casB" ["casB", "ygcK", "cse2", "b2759", "ECK2754"] "mRNA" [] "G7429" ["G7429-MONOMER"] null [] +"G7430_RNA" "casA" ["casA", "ygcL", "cse1", "b2760", "ECK2755"] "mRNA" [] "G7430" ["G7430-MONOMER"] null [] +"G7431_RNA" "queD" ["queD", "ygcM", "sscR", "b2765", "ECK2760"] "mRNA" [] "G7431" ["G7431-MONOMER"] null [] +"G7432_RNA" "ygcN" ["ygcN", "b2766", "ECK2761"] "mRNA" [] "G7432" ["G7432-MONOMER"] null [] +"G7433_RNA" "ygcO" ["ygcO", "b2767", "ECK2762"] "mRNA" [] "G7433" ["G7433-MONOMER"] null [] +"G7434_RNA" "ygcP" ["ygcP", "b2768", "ECK2763"] "mRNA" [] "G7434" ["G7434-MONOMER"] null [] +"G7435_RNA" "ygcQ" ["ygcQ", "b2769", "ECK2764"] "mRNA" [] "G7435" ["G7435-MONOMER"] null [] +"G7436_RNA" "ygcR" ["ygcR", "b2770", "ECK2765"] "mRNA" [] "G7436" ["G7436-MONOMER"] null [] +"G7437_RNA" "ygcS" ["ygcS", "b2771", "ECK2766"] "mRNA" [] "G7437" ["B2771-MONOMER"] null [] +"G7439_RNA" "ygcU" ["ygcU", "ygcT", "b2772", "ygcV", "b2773", "b4463", "ECK2767"] "mRNA" [] "G7439" ["G7439-MONOMER"] null [] +"G7440_RNA" "ygcW" ["ygcW", "b2774", "ECK2768"] "mRNA" [] "G7440" ["G7440-MONOMER"] null [] +"G7442_RNA" "ygcE" ["ygcE", "b2776", "ECK2770"] "mRNA" [] "G7442" ["G7442-MONOMER"] null [] +"G7443_RNA" "queE" ["queE", "ygcF", "b2777", "ECK2771"] "mRNA" [] "G7443" ["G7443-MONOMER"] null [] +"G7444_RNA" "ygcG" ["ygcG", "b2778", "ECK2772"] "mRNA" [] "G7444" ["G7444-MONOMER"] null [] +"G7445_RNA" "gudD" ["gudD", "ygcX", "b2787", "ECK2781"] "mRNA" [] "G7445" ["GLUCARDEHYDRA-MONOMER"] null [] +"G7446_RNA" "gudX" ["gudX", "ygcY", "b2788", "ECK2782"] "mRNA" [] "G7446" ["G7446-MONOMER"] null [] +"G7447_RNA" "gudP" ["gudP", "gudT", "ygcZ", "b2789", "ECK2783"] "mRNA" [] "G7447" ["B2789-MONOMER"] null [] +"G7448_RNA" "yqcA" ["yqcA", "b2790", "ECK2784"] "mRNA" [] "G7448" ["G7448-MONOMER"] null [] +"G7449_RNA" "truC" ["truC", "yqcB", "b2791", "ECK2785"] "mRNA" [] "G7449" ["G7449-MONOMER"] null [] +"G7450_RNA" "yqcC" ["yqcC", "b2792", "ECK2786"] "mRNA" [] "G7450" ["G7450-MONOMER"] null [] +"G7451_RNA" "syd" ["syd", "ydr", "b2793", "ECK2788"] "mRNA" [] "G7451" ["G7451-MONOMER"] null [] +"G7452_RNA" "queF" ["queF", "yqcD", "b2794", "ECK2789"] "mRNA" [] "G7452" ["G7452-MONOMER"] null [] +"G7453_RNA" "ygdI" ["ygdI", "b2809", "ECK2805"] "mRNA" [] "G7453" ["G7453-MONOMER"] null [] +"G7454_RNA" "csdA" ["csdA", "ygdJ", "b2810", "ECK2806"] "mRNA" [] "G7454" ["G7454-MONOMER"] null [] +"G7455_RNA" "csdE" ["csdE", "ygdK", "b2811", "ECK2807"] "mRNA" [] "G7455" ["G7455-MONOMER"] null [] +"G7456_RNA" "tcdA" ["tcdA", "ygdL", "csdL", "b2812", "ECK2808"] "mRNA" [] "G7456" ["G7456-MONOMER"] null [] +"G7457_RNA" "mltA" ["mltA", "ygdM", "mlt", "b2813", "ECK2809"] "mRNA" [] "G7457" ["G7457-MONOMER"] null [] +"G7458_RNA" "amiC" ["amiC", "ygdN", "b2817", "ECK2813"] "mRNA" [] "G7458" ["G7458-MONOMER"] null [] +"G7459_RNA" "rppH" ["rppH", "ygdP", "nudH", "b2830", "ECK2826"] "mRNA" [] "G7459" ["G7459-MONOMER"] null [] +"G7460_RNA" "ygdQ" ["ygdQ", "b2832", "ECK2828"] "mRNA" [] "G7460" ["G7460-MONOMER"] null [] +"G7461_RNA" "ygdR" ["ygdR", "b2833", "ECK2829"] "mRNA" [] "G7461" ["G7461-MONOMER"] null [] +"G7462_RNA" "tas" ["tas", "ygdS", "b2834", "ECK2830"] "mRNA" [] "G7462" ["G7462-MONOMER"] null [] +"G7463_RNA" "kduI" ["kduI", "yqeE", "b2843", "ECK2841"] "mRNA" [] "G7463" ["G7463-MONOMER"] null [] +"G7464_RNA" "yqeF" ["yqeF", "b2844", "ECK2842"] "mRNA" [] "G7464" ["G7464-MONOMER"] null [] +"G7465_RNA" "yqeG" ["yqeG", "b2845", "ECK2843"] "mRNA" [] "G7465" ["B2845-MONOMER"] null [] +"G7466_RNA" "yqeH" ["yqeH", "b2846", "ECK2844"] "mRNA" [] "G7466" ["G7466-MONOMER"] null [] +"G7467_RNA" "yqeI" ["yqeI", "b2847", "ECK2845"] "mRNA" [] "G7467" ["G7467-MONOMER"] null [] +"G7468_RNA" "yqeJ" ["yqeJ", "b2848", "ECK2846"] "mRNA" [] "G7468" ["G7468-MONOMER"] null [] +"G7469_RNA" "yqeK" ["yqeK", "b2849", "ECK2847"] "mRNA" [] "G7469" ["G7469-MONOMER"] null [] +"G7470_RNA" "ygeF" ["ygeF", "b2850", "ECK2848"] "pseudo" [] "G7470" ["G7470-MONOMER"] null [] +"G7471_RNA" "ygeG" ["ygeG", "b2851", "ECK2849"] "mRNA" [] "G7471" ["G7471-MONOMER"] null [] +"G7472_RNA" "ygeH" ["ygeH", "b2852", "ECK2850"] "mRNA" [] "G7472" ["G7472-MONOMER"] null [] +"G7473_RNA" "ygeI" ["ygeI", "b2853", "ECK2851"] "mRNA" [] "G7473" ["G7473-MONOMER"] null [] +"G7474_RNA" "pbl" ["pbl", "ygeJ", "b2854", "ECK2852"] "pseudo" [] "G7474" ["G7474-MONOMER"] null [] +"G7475_RNA" "ygeK" ["ygeK", "b2855", "ECK2853"] "pseudo" [] "G7475" ["G7475-MONOMER"] null [] +"G7476_RNA" "ygeL" ["ygeL", "b2856", "ECK2854"] "pseudo" [] "G7476" ["G7476-MONOMER"] null [] +"G7478_RNA" "ygeN" ["ygeN", "ygeM", "b2857", "ECK2856", "b2858", "ECK2855"] "pseudo" [] "G7478" ["G7478-MONOMER"] null [] +"G7479_RNA" "ygeO" ["ygeO", "b2859", "ECK2857"] "pseudo" [] "G7479" ["G7479-MONOMER"] null [] +"G7480_RNA" "insD4" ["insD4", "yi22-4", "b2860", "ECK0358"] "mRNA" [] "G7480" ["MONOMER0-4448"] null [] +"G7481_RNA" "insC4" ["insC4", "yi21-4", "b2861", "ECK0357"] "mRNA" [] "G7481" ["MONOMER0-4252"] null [] +"G7482_RNA" "ygeP" ["ygeP", "b2862", "ECK2858"] "pseudo" [] "G7482" ["G7482-MONOMER"] null [] +"G7483_RNA" "ygeQ" ["ygeQ", "b2863", "ECK2859"] "mRNA" [] "G7483" ["G7483-MONOMER"] null [] +"G7484_RNA" "actS" ["actS", "ygeR", "b2865", "ECK2861"] "mRNA" [] "G7484" ["G7484-MONOMER"] null [] +"G7485_RNA" "xdhA" ["xdhA", "ygeS", "b2866", "ECK2862"] "mRNA" [] "G7485" ["G7485-MONOMER"] null [] +"G7486_RNA" "xdhB" ["xdhB", "ygeT", "b2867", "ECK2863"] "mRNA" [] "G7486" ["G7486-MONOMER"] null [] +"G7487_RNA" "xdhC" ["xdhC", "ygeU", "b2868", "ECK2864"] "mRNA" [] "G7487" ["G7487-MONOMER"] null [] +"G7488_RNA" "ygeV" ["ygeV", "b2869", "ECK2865"] "mRNA" [] "G7488" ["G7488-MONOMER"] null [] +"G7489_RNA" "ygeW" ["ygeW", "b2870", "ECK2866"] "mRNA" [] "G7489" ["G7489-MONOMER"] null [] +"G7490_RNA" "ygeX" ["ygeX", "b2871", "ECK2867"] "mRNA" [] "G7490" ["G7490-MONOMER"] null [] +"G7491_RNA" "ygeY" ["ygeY", "b2872", "ECK2868"] "mRNA" [] "G7491" ["G7491-MONOMER"] null [] +"G7492_RNA" "hyuA" ["hyuA", "ygeZ", "b2873", "ECK2869"] "mRNA" [] "G7492" ["G7492-MONOMER"] null [] +"G7493_RNA" "yqeA" ["yqeA", "b2874", "ECK2870"] "mRNA" [] "G7493" ["G7493-MONOMER"] null [] +"G7494_RNA" "yqeB" ["yqeB", "b2875", "ECK2871"] "mRNA" [] "G7494" ["G7494-MONOMER"] null [] +"G7495_RNA" "yqeC" ["yqeC", "b2876", "ECK2872"] "mRNA" [] "G7495" ["G7495-MONOMER"] null [] +"G7496_RNA" "mocA" ["mocA", "ygfJ", "b2877", "ECK2873"] "mRNA" [] "G7496" ["G7496-MONOMER"] null [] +"G7497_RNA" "ygfK" ["ygfK", "b2878", "ECK2874"] "mRNA" [] "G7497" ["G7497-MONOMER"] null [] +"G7498_RNA" "ssnA" ["ssnA", "ygfL", "b2879", "ECK2875"] "mRNA" [] "G7498" ["G7498-MONOMER"] null [] +"G7499_RNA" "ygfM" ["ygfM", "b2880", "ECK2876"] "mRNA" [] "G7499" ["G7499-MONOMER"] null [] +"G7500_RNA" "xdhD" ["xdhD", "ygfN", "b2881", "ECK2877"] "mRNA" [] "G7500" ["G7500-MONOMER"] null [] +"G7501_RNA" "xanQ" ["xanQ", "ygfO", "b2882", "ECK2878"] "mRNA" [] "G7501" ["YGFO-MONOMER"] null [] +"G7502_RNA" "guaD" ["guaD", "ygfP", "b2883", "ECK2879"] "mRNA" [] "G7502" ["G7502-MONOMER"] null [] +"G7503_RNA" "ghxQ" ["ghxQ", "b2885", "ygfR", "b2884", "ygfQ", "b4464", "ECK2880"] "mRNA" [] "G7503" ["G7504-MONOMER"] null [] +"G7505_RNA" "ygfS" ["ygfS", "b2886", "ECK2881"] "mRNA" [] "G7505" ["G7505-MONOMER"] null [] +"G7506_RNA" "ygfT" ["ygfT", "b2887", "ECK2882"] "mRNA" [] "G7506" ["G7506-MONOMER"] null [] +"G7507_RNA" "uacT" ["uacT", "ygfU", "b2888", "ECK2883"] "mRNA" [] "G7507" ["YGFU-MONOMER"] null [] +"G7508_RNA" "idi" ["idi", "ygfV", "b2889", "ECK2884"] "mRNA" [] "G7508" ["IPPISOM-MONOMER"] null [] +"G7509_RNA" "ygfX" ["ygfX", "cptA", "b2896", "ECK2891"] "mRNA" [] "G7509" ["G7509-MONOMER"] null [] +"G7510_RNA" "sdhE" ["sdhE", "ygfY", "cptB", "b2897", "ECK2892"] "mRNA" [] "G7510" ["G7510-MONOMER"] null [] +"G7511_RNA" "ygfZ" ["ygfZ", "yzzW", "b2898", "ECK2893"] "mRNA" [] "G7511" ["G7511-MONOMER"] null [] +"G7512_RNA" "yqfA" ["yqfA", "b2899", "ECK2894"] "mRNA" [] "G7512" ["G7512-MONOMER"] null [] +"G7513_RNA" "yqfB" ["yqfB", "b2900", "ECK2895"] "mRNA" [] "G7513" ["G7513-MONOMER"] null [] +"G7514_RNA" "ygfF" ["ygfF", "yqfD", "b2902", "ECK2897"] "mRNA" [] "G7514" ["G7514-MONOMER"] null [] +"G7515_RNA" "yqfE" ["yqfE", "b2915", "ECK2911"] "pseudo" [] "G7515" ["G7515-MONOMER"] null [] +"G7516_RNA" "scpB" ["scpB", "ygfG", "b2919", "ECK2915"] "mRNA" [] "G7516" ["G7516-MONOMER"] null [] +"G7517_RNA" "scpC" ["scpC", "ygfH", "b2920", "ECK2916"] "mRNA" [] "G7517" ["G7517-MONOMER"] null [] +"G7518_RNA" "ygfI" ["ygfI", "b2921", "ECK2917"] "mRNA" [] "G7518" ["G7518-MONOMER"] null [] +"G7520_RNA" "yggP" ["yggP", "b2931", "b2932", "b4465", "ECK2927"] "mRNA" [] "G7520" ["G7520-MONOMER"] null [] +"G7521_RNA" "yqgB" ["yqgB", "b2939", "ECK2934"] "mRNA" [] "G7521" ["G7521-MONOMER"] null [] +"G7522_RNA" "yqgC" ["yqgC", "b2940", "ECK2935"] "mRNA" [] "G7522" ["G7522-MONOMER"] null [] +"G7523_RNA" "yqgD" ["yqgD", "b2941", "ECK2936"] "mRNA" [] "G7523" ["G7523-MONOMER"] null [] +"G7524_RNA" "yqgE" ["yqgE", "b2948", "ECK2943"] "mRNA" [] "G7524" ["G7524-MONOMER"] null [] +"G7525_RNA" "yqgF" ["yqgF", "b2949", "ECK2944"] "mRNA" [] "G7525" ["G7525-MONOMER"] null [] +"G7526_RNA" "yggR" ["yggR", "b2950", "ECK2945"] "mRNA" [] "G7526" ["G7526-MONOMER"] null [] +"G7527_RNA" "yggS" ["yggS", "b2951", "ECK2946"] "mRNA" [] "G7527" ["G7527-MONOMER"] null [] +"G7528_RNA" "yggT" ["yggT", "b2952", "ECK2947"] "mRNA" [] "G7528" ["G7528-MONOMER"] null [] +"G7529_RNA" "yggU" ["yggU", "b2953", "ECK2948"] "mRNA" [] "G7529" ["G7529-MONOMER"] null [] +"G7530_RNA" "rdgB" ["rdgB", "yggV", "b2954", "ECK2949"] "mRNA" [] "G7530" ["G7530-MONOMER"] null [] +"G7531_RNA" "hemW" ["hemW", "yggW", "b2955", "ECK2950"] "mRNA" [] "G7531" ["G7531-MONOMER"] null [] +"G7532_RNA" "yggX" ["yggX", "b2962", "ECK2957"] "mRNA" [] "G7532" ["G7532-MONOMER"] null [] +"G7533_RNA" "mltC" ["mltC", "yggZ", "b2963", "ECK2958"] "mRNA" [] "G7533" ["G7533-MONOMER"] null [] +"G7534_RNA" "yqgA" ["yqgA", "b2966", "ECK2961"] "mRNA" [] "G7534" ["G7534-MONOMER"] null [] +"G7535_RNA" "yghD" ["yghD", "ecfC", "b2968", "ECK2963"] "mRNA" [] "G7535" ["G7535-MONOMER"] null [] +"G7536_RNA" "yghE" ["yghE", "ecfB", "b2969", "ECK2964"] "mRNA" [] "G7536" ["G7536-MONOMER"] null [] +"G7537_RNA" "yghF" ["yghF", "ecfA", "b2970", "ECK2965"] "mRNA" [] "G7537" ["G7537-MONOMER"] null [] +"G7538_RNA" "yghG" ["yghG", "b2971", "ECK2966"] "mRNA" [] "G7538" ["G7538-MONOMER"] null [] +"G7539_RNA" "pppA" ["pppA", "yghH", "b2972", "ECK2967"] "mRNA" [] "G7539" ["G7539-MONOMER"] null [] +"G7541_RNA" "yghJ" ["yghJ", "b2974", "b2973", "sslE", "b4466", "ECK2968"] "mRNA" [] "G7541" ["G7541-MONOMER"] null [] +"G7542_RNA" "glcA" ["glcA", "yghK", "b2975", "ECK2969"] "mRNA" [] "G7542" ["B2975-MONOMER"] null [] +"G7543_RNA" "glcG" ["glcG", "yghC", "b2977", "ECK2971"] "mRNA" [] "G7543" ["G7543-MONOMER"] null [] +"G7544_RNA" "glcE" ["glcE", "yghL", "gox", "b2978", "b4468", "ECK2973"] "mRNA" [] "G7544" ["G7544-MONOMER"] null [] +"G7545_RNA" "glcD" ["glcD", "yghM", "gox", "b2979", "ECK2974"] "mRNA" [] "G7545" ["G7545-MONOMER"] null [] +"G7546_RNA" "glcC" ["glcC", "yghN", "b2980", "ECK2975"] "mRNA" [] "G7546" ["G7546-MONOMER"] null [] +"G7547_RNA" "yghO" ["yghO", "b2981", "ECK2976"] "mRNA" [] "G7547" ["G7547-MONOMER"] null [] +"G7548_RNA" "insH9" ["insH9", "trs5-9", "yi52_9", "b2982", "ECK0261"] "mRNA" [] "G7548" ["MONOMER0-4239"] null [] +"G7549_RNA" "yghQ" ["yghQ", "b2983", "ECK2977"] "mRNA" [] "G7549" ["G7549-MONOMER"] null [] +"G7550_RNA" "yghR" ["yghR", "b2984", "ECK2978"] "mRNA" [] "G7550" ["G7550-MONOMER"] null [] +"G7551_RNA" "yghS" ["yghS", "b2985", "ECK2979"] "mRNA" [] "G7551" ["G7551-MONOMER"] null [] +"G7552_RNA" "yghT" ["yghT", "b2986", "ECK2980"] "mRNA" [] "G7552" ["G7552-MONOMER"] null [] +"G7553_RNA" "yghU" ["yghU", "b2989", "ECK2983"] "mRNA" [] "G7553" ["G7553-MONOMER"] null [] +"G7554_RNA" "hybO" ["hybO", "yghV", "b2997", "ECK2991"] "mRNA" [] "G7554" ["MONOMER0-145"] null [] +"G7555_RNA" "yghW" ["yghW", "b2998", "ECK2992"] "mRNA" [] "G7555" ["G7555-MONOMER"] null [] +"G7557_RNA" "yghX" ["yghX", "b2999", "yghY", "b3000", "ECK2994", "orf_f136", "b4658", "ECK2993"] "pseudo" [] "G7557" ["G7557-MONOMER"] null [] +"G7558_RNA" "gpr" ["gpr", "mgrA", "yghZ", "b3001", "ECK2995"] "mRNA" [] "G7558" ["G7558-MONOMER"] null [] +"G7559_RNA" "yqhA" ["yqhA", "b3002", "ECK2996"] "mRNA" [] "G7559" ["G7559-MONOMER"] null [] +"G7561_RNA" null ["b3004"] "phantom" [] "G7561" [] null [] +"G7562_RNA" null ["b3007"] "phantom" [] "G7562" [] null [] +"G7563_RNA" "yqhC" ["yqhC", "b3010", "ECK3002"] "mRNA" [] "G7563" ["G7563-MONOMER"] null [] +"G7564_RNA" "yqhD" ["yqhD", "b3011", "ECK3003"] "mRNA" [] "G7564" ["G7564-MONOMER"] null [] +"G7565_RNA" "dkgA" ["dkgA", "yqhE", "b3012", "ECK3004"] "mRNA" [] "G7565" ["MONOMER0-148"] null [] +"G7566_RNA" "yqhG" ["yqhG", "yqhF", "b3013", "ECK3005"] "mRNA" [] "G7566" ["G7566-MONOMER"] null [] +"G7567_RNA" "yqhH" ["yqhH", "b3014", "ECK3006"] "mRNA" [] "G7567" ["G7567-MONOMER"] null [] +"G7568_RNA" "ygiQ" ["ygiQ", "ygiR", "b3016", "b3015", "b4469", "ECK3007"] "mRNA" [] "G7568" ["G7568-MONOMER"] null [] +"G7570_RNA" "ygiS" ["ygiS", "b3020", "ECK3011"] "mRNA" [] "G7570" ["YGIS-MONOMER"] null [] +"G7571_RNA" "mqsA" ["mqsA", "ygiT", "b3021", "ECK3012"] "mRNA" [] "G7571" ["G7571-MONOMER"] null [] +"G7572_RNA" "mqsR" ["mqsR", "ygiU", "b3022", "ECK3013"] "mRNA" [] "G7572" ["G7572-MONOMER"] null [] +"G7573_RNA" "ygiV" ["ygiV", "b3023", "ECK3014"] "mRNA" [] "G7573" ["G7573-MONOMER"] null [] +"G7574_RNA" "ygiW" ["ygiW", "visP", "b3024", "ECK3015"] "mRNA" [] "G7574" ["G7574-MONOMER"] null [] +"G7575_RNA" "qseB" ["qseB", "ygiX", "b3025", "ECK3016"] "mRNA" [] "G7575" ["G7575-MONOMER"] null [] +"G7577_RNA" "ygiZ" ["ygiZ", "b3027", "ECK3018"] "mRNA" [] "G7577" ["G7577-MONOMER"] null [] +"G7578_RNA" "yqiA" ["yqiA", "yzzI", "b3031", "ECK3022"] "mRNA" [] "G7578" ["G7578-MONOMER"] null [] +"G7579_RNA" "cpdA" ["cpdA", "icc", "b3032", "ECK3023"] "mRNA" [] "G7579" ["G7579-MONOMER"] null [] +"G7580_RNA" "yqiB" ["yqiB", "yzzH", "b3033", "ECK3024"] "mRNA" [] "G7580" ["G7580-MONOMER"] null [] +"G7582_RNA" "ubiK" ["ubiK", "yqiC", "b3042", "ECK3033"] "mRNA" [] "G7582" ["G7582-MONOMER"] null [] +"G7583_RNA" "insC5" ["insC5", "yi21-5", "b3044", "ECK0357"] "mRNA" [] "G7583" ["MONOMER0-4253"] null [] +"G7584_RNA" "insD5" ["insD5", "yi22-5", "b3045", "ECK0358"] "mRNA" [] "G7584" ["MONOMER0-4449"] null [] +"G7585_RNA" "yqiG" ["yqiG", "b3046", "ECK3035"] "pseudo" [] "G7585" ["G7585-MONOMER"] null [] +"G7586_RNA" "yqiH" ["yqiH", "b3047", "ECK3036"] "mRNA" [] "G7586" ["G7586-MONOMER"] null [] +"G7587_RNA" "yqiI" ["yqiI", "b3048", "ECK3037"] "mRNA" [] "G7587" ["G7587-MONOMER"] null [] +"G7588_RNA" "yqiJ" ["yqiJ", "b3050", "ECK3039"] "mRNA" [] "G7588" ["G7588-MONOMER"] null [] +"G7589_RNA" "yqiK" ["yqiK", "b3051", "ECK3040"] "mRNA" [] "G7589" ["G7589-MONOMER"] null [] +"G7590_RNA" "hldE" ["hldE", "yqiF", "rfaE", "gmhC", "waaE", "b3052", "ECK3042"] "mRNA" [] "G7590" ["G7590-MONOMER"] null [] +"G7593_RNA" "nfeF" ["nfeF", "yqjH", "b3070", "ECK3060"] "mRNA" [] "G7593" ["G7593-MONOMER"] null [] +"G7594_RNA" "nfeR" ["nfeR", "yqjI", "b3071", "ECK3061"] "mRNA" [] "G7594" ["G7594-MONOMER"] null [] +"G7595_RNA" "aer" ["aer", "yqjJ", "air", "b3072", "ECK3062"] "mRNA" [] "G7595" ["G7595-MONOMER"] null [] +"G7596_RNA" "patA" ["patA", "oat", "pat", "ygjG", "b3073", "ECK3063"] "mRNA" [] "G7596" ["G7596-MONOMER"] null [] +"G7597_RNA" "ygjH" ["ygjH", "b3074", "ECK3064"] "mRNA" [] "G7597" ["G7597-MONOMER"] null [] +"G7598_RNA" "ygjJ" ["ygjJ", "b3079", "ECK3069"] "mRNA" [] "G7598" ["G7598-MONOMER"] null [] +"G7599_RNA" "ygjK" ["ygjK", "b3080", "ECK3070"] "mRNA" [] "G7599" ["G7599-MONOMER"] null [] +"G7601_RNA" "higA" ["higA", "ygjM", "b3082", "ECK3072"] "mRNA" [] "G7601" ["G7601-MONOMER"] null [] +"G7602_RNA" "higB" ["higB", "ygjN", "b3083", "ECK3073"] "mRNA" [] "G7602" ["G7602-MONOMER"] null [] +"G7603_RNA" "rlmG" ["rlmG", "ygjO", "b3084", "ECK3074"] "mRNA" [] "G7603" ["G7603-MONOMER"] null [] +"G7604_RNA" "ygjP" ["ygjP", "b3085", "ECK3075"] "mRNA" [] "G7604" ["G7604-MONOMER"] null [] +"G7605_RNA" "ygjQ" ["ygjQ", "b3086", "ECK3076"] "mRNA" [] "G7605" ["G7605-MONOMER"] null [] +"G7606_RNA" "ygjR" ["ygjR", "b3087", "ECK3077"] "mRNA" [] "G7606" ["G7606-MONOMER"] null [] +"G7607_RNA" "alx" ["alx", "ygjT", "b3088", "ECK3079"] "mRNA" [] "G7607" ["G7607-MONOMER"] null [] +"G7608_RNA" "ygjV" ["ygjV", "b3090", "ECK3081"] "mRNA" [] "G7608" ["G7608-MONOMER"] null [] +"G7609_RNA" "yqjA" ["yqjA", "ecfL", "b3095", "ECK3086"] "mRNA" [] "G7609" ["G7609-MONOMER"] null [] +"G7610_RNA" "mzrA" ["mzrA", "ecfM", "yqjB", "b3096", "ECK3087"] "mRNA" [] "G7610" ["G7610-MONOMER"] null [] +"G7611_RNA" "yqjC" ["yqjC", "b3097", "ECK3088"] "mRNA" [] "G7611" ["G7611-MONOMER"] null [] +"G7612_RNA" "yqjD" ["yqjD", "b3098", "ECK3089"] "mRNA" [] "G7612" ["G7612-MONOMER"] null [] +"G7613_RNA" "yqjE" ["yqjE", "b3099", "ECK3090"] "mRNA" [] "G7613" ["G7613-MONOMER"] null [] +"G7614_RNA" "yqjK" ["yqjK", "b3100", "ECK3091"] "mRNA" [] "G7614" ["G7614-MONOMER"] null [] +"G7615_RNA" "yqjF" ["yqjF", "b3101", "ECK3092"] "mRNA" [] "G7615" ["G7615-MONOMER"] null [] +"G7616_RNA" "yqjG" ["yqjG", "b3102", "ECK3093"] "mRNA" [] "G7616" ["G7616-MONOMER"] null [] +"G7617_RNA" "yhaH" ["yhaH", "b3103", "ECK3094"] "mRNA" [] "G7617" ["G7617-MONOMER"] null [] +"G7618_RNA" "yhaI" ["yhaI", "b3104", "ECK3095"] "mRNA" [] "G7618" ["G7618-MONOMER"] null [] +"G7619_RNA" "yhaJ" ["yhaJ", "b3105", "ECK3096"] "mRNA" [] "G7619" ["G7619-MONOMER"] null [] +"G7620_RNA" "yhaK" ["yhaK", "b3106", "ECK3097"] "mRNA" [] "G7620" ["G7620-MONOMER"] null [] +"G7621_RNA" "yhaL" ["yhaL", "b3107", "ECK3098"] "mRNA" [] "G7621" ["G7621-MONOMER"] null [] +"G7622_RNA" "cyuA" ["cyuA", "b3109", "yhaN", "b3108", "yhaM", "b4470", "ECK3099"] "mRNA" [] "G7622" ["G7622-MONOMER"] null [] +"G7624_RNA" "tdcG" ["tdcG", "b3111", "yhaQ", "b3112", "tdcGa", "yhaP", "sdhY", "b4471", "ECK3101"] "mRNA" [] "G7624" ["LSERINEDEAM3-MONOMER"] null [] +"G7626_RNA" "tdcF" ["tdcF", "yhaR", "b3113", "ECK3102"] "mRNA" [] "G7626" ["G7626-MONOMER"] null [] +"G7627_RNA" "tdcE" ["tdcE", "yhaS", "b3114", "ECK3103"] "mRNA" [] "G7627" ["KETOBUTFORMLY-INACT-MONOMER"] null [] +"G7629_RNA" "yhaV" ["yhaV", "b3130", "ECK3118"] "mRNA" [] "G7629" ["G7629-MONOMER"] null [] +"G7630_RNA" "agaR" ["agaR", "yhaW", "b3131", "ECK3119"] "mRNA" [] "G7630" ["G7630-MONOMER"] null [] +"G7631_RNA" "kbaZ" ["kbaZ", "yhaX", "agaZ", "b3132", "ECK3120"] "mRNA" [] "G7631" ["G7631-MONOMER"] null [] +"G7632_RNA" "agaV" ["agaV", "yhaY", "b3133", "ECK3121"] "mRNA" [] "G7632" ["G7632-MONOMER"] null [] +"G7633_RNA" "agaW" ["agaW", "yhaZ", "b3134", "ECK3122"] "pseudo" [] "G7633" ["G7633-MONOMER"] null [] +"G7634_RNA" "agaS" ["agaS", "yraB", "b3136", "ECK3124"] "mRNA" [] "G7634" ["G7634-MONOMER"] null [] +"G7635_RNA" "agaD" ["agaD", "yraF", "b3140", "ECK3128"] "mRNA" [] "G7635" ["AGAD-MONOMER"] null [] +"G7636_RNA" "agaI" ["agaI", "yraG", "b3141", "ECK3129"] "mRNA" [] "G7636" ["G7636-MONOMER"] null [] +"G7637_RNA" "yraH" ["yraH", "b3142", "ECK3130"] "mRNA" [] "G7637" ["G7637-MONOMER"] null [] +"G7638_RNA" "yraI" ["yraI", "b3143", "ECK3131"] "mRNA" [] "G7638" ["G7638-MONOMER"] null [] +"G7639_RNA" "yraJ" ["yraJ", "b3144", "ECK3132"] "mRNA" [] "G7639" ["G7639-MONOMER"] null [] +"G7640_RNA" "yraK" ["yraK", "b3145", "ECK3133"] "mRNA" [] "G7640" ["G7640-MONOMER"] null [] +"G7641_RNA" "rsmI" ["rsmI", "yraL", "b3146", "ECK3134"] "mRNA" [] "G7641" ["G7641-MONOMER"] null [] +"G7642_RNA" "lpoA" ["lpoA", "yraM", "b3147", "ECK3135"] "mRNA" [] "G7642" ["G7642-MONOMER"] null [] +"G7643_RNA" "yraN" ["yraN", "b3148", "ECK3136"] "mRNA" [] "G7643" ["G7643-MONOMER"] null [] +"G7644_RNA" "dolP" ["dolP", "ecfH", "yraP", "b3150", "ECK3138"] "mRNA" [] "G7644" ["G7644-MONOMER"] null [] +"G7645_RNA" "yraQ" ["yraQ", "b3151", "ECK3139"] "mRNA" [] "G7645" ["G7645-MONOMER"] null [] +"G7646_RNA" "yraR" ["yraR", "b3152", "ECK3140"] "mRNA" [] "G7646" ["G7646-MONOMER"] null [] +"G7647_RNA" "yhbO" ["yhbO", "b3153", "ECK3141"] "mRNA" [] "G7647" ["G7647-MONOMER"] null [] +"G7648_RNA" "yhbP" ["yhbP", "b3154", "ECK3142"] "mRNA" [] "G7648" ["G7648-MONOMER"] null [] +"G7649_RNA" "yhbQ" ["yhbQ", "b3155", "ECK3143"] "mRNA" [] "G7649" ["G7649-MONOMER"] null [] +"G7650_RNA" "yhbS" ["yhbS", "b3156", "ECK3144"] "mRNA" [] "G7650" ["G7650-MONOMER"] null [] +"G7651_RNA" "ubiT" ["ubiT", "yhbT", "b3157", "ECK3145"] "mRNA" [] "G7651" ["G7651-MONOMER"] null [] +"G7652_RNA" "ubiU" ["ubiU", "yhbU", "b3158", "ECK3146"] "mRNA" [] "G7652" ["G7652-MONOMER"] null [] +"G7653_RNA" "ubiV" ["ubiV", "yhbV", "b3159", "ECK3147"] "mRNA" [] "G7653" ["G7653-MONOMER"] null [] +"G7654_RNA" "yhbW" ["yhbW", "b3160", "ECK3148"] "mRNA" [] "G7654" ["G7654-MONOMER"] null [] +"G7655_RNA" "yhbX" ["yhbX", "b3173", "ECK3162"] "mRNA" [] "G7655" ["G7655-MONOMER"] null [] +"G7656_RNA" "obgE" ["obgE", "yhbZ", "cgtA", "obg", "b3183", "ECK3172"] "mRNA" [] "G7656" ["G7656-MONOMER"] null [] +"G7657_RNA" "ibaG" ["ibaG", "yrbA", "b3190", "ECK3179"] "mRNA" [] "G7657" ["G7657-MONOMER"] null [] +"G7658_RNA" "mlaB" ["mlaB", "yrbB", "b3191", "ECK3180"] "mRNA" [] "G7658" ["G7658-MONOMER"] null [] +"G7659_RNA" "mlaC" ["mlaC", "yrbC", "b3192", "ECK3181"] "mRNA" [] "G7659" ["G7659-MONOMER"] null [] +"G7662_RNA" "kdsD" ["kdsD", "yrbH", "b3197", "ECK3186"] "mRNA" [] "G7662" ["G7662-MONOMER"] null [] +"G7663_RNA" "kdsC" ["kdsC", "yrbJ", "yrbI", "b3198", "ECK3187"] "mRNA" [] "G7663" ["G7663-MONOMER"] null [] +"G7664_RNA" "lptC" ["lptC", "yrbK", "b3199", "ECK3188"] "mRNA" [] "G7664" ["G7664-MONOMER"] null [] +"G7665_RNA" "lptA" ["lptA", "yhbN", "b3200", "ECK3189"] "mRNA" [] "G7665" ["YHBN-MONOMER"] null [] +"G7667_RNA" "yrbL" ["yrbL", "b3207", "ECK3196"] "mRNA" [] "G7667" ["G7667-MONOMER"] null [] +"G7668_RNA" "mtgA" ["mtgA", "mgt", "yrbM", "b3208", "ECK3197"] "mRNA" [] "G7668" ["G7668-MONOMER"] null [] +"G7669_RNA" "yhcC" ["yhcC", "b3211", "ECK3201"] "mRNA" [] "G7669" ["G7669-MONOMER"] null [] +"G7670_RNA" "yhcD" ["yhcD", "b3216", "ECK3206"] "mRNA" [] "G7670" ["G7670-MONOMER"] null [] +"G7671_RNA" "yhcE" ["yhcE", "b3217", "b4549", "b4569", "ECK3207"] "pseudo" [] "G7671" ["G7671-MONOMER"] null [] +"G7672_RNA" "insH10" ["insH10", "trs5-10", "yi52_10", "b3218", "ECK0261"] "mRNA" [] "G7672" ["MONOMER0-4240"] null [] +"G7673_RNA" "yhcF" ["yhcF", "b3219", "ECK3208"] "mRNA" [] "G7673" ["G7673-MONOMER"] null [] +"G7674_RNA" "yhcG" ["yhcG", "b3220", "ECK3209"] "mRNA" [] "G7674" ["G7674-MONOMER"] null [] +"G7675_RNA" "yhcH" ["yhcH", "b3221", "ECK3210"] "mRNA" [] "G7675" ["G7675-MONOMER"] null [] +"G7676_RNA" "nanK" ["nanK", "yhcI", "b3222", "ECK3211"] "mRNA" [] "G7676" ["NANK-MONOMER"] null [] +"G7677_RNA" "nanE" ["nanE", "yhcJ", "b3223", "ECK3212"] "mRNA" [] "G7677" ["NANE-MONOMER"] null [] +"G7678_RNA" "nanR" ["nanR", "yhcK", "b3226", "ECK3215"] "mRNA" [] "G7678" ["G7678-MONOMER"] null [] +"G7679_RNA" "dcuD" ["dcuD", "yhcL", "b3227", "ECK3216"] "mRNA" [] "G7679" ["YHCL-MONOMER"] null [] +"G7680_RNA" "zapE" ["zapE", "yhcM", "b3232", "ECK3221"] "mRNA" [] "G7680" ["G7680-MONOMER"] null [] +"G7681_RNA" "yhcB" ["yhcB", "b3233", "ECK3222"] "mRNA" [] "G7681" ["G7681-MONOMER"] null [] +"G7682_RNA" "degQ" ["degQ", "hhoA", "b3234", "ECK3223"] "mRNA" [] "G7682" ["G7682-MONOMER"] null [] +"G7683_RNA" "yhcN" ["yhcN", "b3238", "ECK3227"] "mRNA" [] "G7683" ["G7683-MONOMER"] null [] +"G7684_RNA" "yhcO" ["yhcO", "b3239", "ECK3228"] "mRNA" [] "G7684" ["G7684-MONOMER"] null [] +"G7685_RNA" "aaeB" ["aaeB", "yhcP", "b3240", "ECK3229"] "mRNA" [] "G7685" ["G7685-MONOMER"] null [] +"G7686_RNA" "aaeA" ["aaeA", "yhcQ", "b3241", "ECK3230"] "mRNA" [] "G7686" ["G7686-MONOMER"] null [] +"G7687_RNA" "aaeX" ["aaeX", "yhcR", "b3242", "ECK3231"] "mRNA" [] "G7687" ["G7687-MONOMER"] null [] +"G7688_RNA" "aaeR" ["aaeR", "yhcS", "qseA", "b3243", "ECK3232"] "mRNA" [] "G7688" ["G7688-MONOMER"] null [] +"G7689_RNA" "tldD" ["tldD", "yhdO", "b3244", "ECK3233"] "mRNA" [] "G7689" ["G7689-MONOMER"] null [] +"G7690_RNA" "yhdP" ["yhdP", "b3246", "yhdR", "yhdQ", "b3245", "b4472", "ECK3234"] "mRNA" [] "G7690" ["G7690-MONOMER"] null [] +"G7692_RNA" "b3254" ["b3254", "b3254"] "phantom" [] "G7692" [] null [] +"G7693_RNA" "yhdT" ["yhdT", "b3257", "ECK3244"] "mRNA" [] "G7693" ["G7693-MONOMER"] null [] +"G7694_RNA" "yhdU" ["yhdU", "b3263", "ECK3250"] "mRNA" [] "G7694" ["G7694-MONOMER"] null [] +"G7695_RNA" "yhdV" ["yhdV", "b3267", "ECK3254"] "mRNA" [] "G7695" ["G7695-MONOMER"] null [] +"G7696_RNA" "yrdA" ["yrdA", "b3279", "ECK3266"] "mRNA" [] "G7696" ["G7696-MONOMER"] null [] +"G7697_RNA" "yrdB" ["yrdB", "b3280", "ECK3267"] "mRNA" [] "G7697" ["G7697-MONOMER"] null [] +"G7698_RNA" "tsaC" ["tsaC", "yrdC", "rimN", "b3282", "ECK3269"] "mRNA" [] "G7698" ["G7698-MONOMER"] null [] +"G7699_RNA" "yrdD" ["yrdD", "b3283", "ECK3270"] "mRNA" [] "G7699" ["G7699-MONOMER"] null [] +"G7701_RNA" "gspA" ["gspA", "yheD", "b3323", "ECK3310"] "mRNA" [] "G7701" ["G7701-MONOMER"] null [] +"G7702_RNA" "gspC" ["gspC", "yheE", "b3324", "ECK3311"] "mRNA" [] "G7702" ["G7702-MONOMER"] null [] +"G7703_RNA" "gspD" ["gspD", "yheF", "b3325", "ECK3312"] "mRNA" [] "G7703" ["G7703-MONOMER"] null [] +"G7704_RNA" "gspE" ["gspE", "yheG", "b3326", "ECK3313"] "mRNA" [] "G7704" ["G7704-MONOMER"] null [] +"G7705_RNA" "gspF" ["gspF", "hofF", "hopF", "b3327", "ECK3314"] "mRNA" [] "G7705" ["G7705-MONOMER"] null [] +"G7706_RNA" "gspG" ["gspG", "hofG", "hopG", "b3328", "ECK3315"] "mRNA" [] "G7706" ["G7706-MONOMER"] null [] +"G7707_RNA" "gspH" ["gspH", "hofH", "hopH", "b3329", "ECK3316"] "mRNA" [] "G7707" ["G7707-MONOMER"] null [] +"G7708_RNA" "gspI" ["gspI", "yheH", "b3330", "ECK3317"] "mRNA" [] "G7708" ["G7708-MONOMER"] null [] +"G7709_RNA" "gspJ" ["gspJ", "yheI", "b3331", "ECK3318"] "mRNA" [] "G7709" ["G7709-MONOMER"] null [] +"G7710_RNA" "gspK" ["gspK", "yheJ", "b3332", "ECK3319"] "mRNA" [] "G7710" ["G7710-MONOMER"] null [] +"G7711_RNA" "gspL" ["gspL", "yheK", "b3333", "ECK3320"] "mRNA" [] "G7711" ["G7711-MONOMER"] null [] +"G7712_RNA" "tusB" ["tusB", "yheL", "b3343", "ECK3330"] "mRNA" [] "G7712" ["G7712-MONOMER"] null [] +"G7713_RNA" "tusC" ["tusC", "yheM", "b3344", "ECK3331"] "mRNA" [] "G7713" ["G7713-MONOMER"] null [] +"G7714_RNA" "tusD" ["tusD", "yheN", "b3345", "ECK3332"] "mRNA" [] "G7714" ["G7714-MONOMER"] null [] +"G7715_RNA" "yheO" ["yheO", "b3346", "ECK3333"] "mRNA" [] "G7715" ["G7715-MONOMER"] null [] +"G7716_RNA" "fkpA" ["fkpA", "yzzS", "b3347", "ECK3334"] "mRNA" [] "G7716" ["G7716-MONOMER"] null [] +"G7717_RNA" "kefG" ["kefG", "yheR", "b3351", "ECK3339"] "mRNA" [] "G7717" ["G7717-MONOMER"] null [] +"G7718_RNA" "yheT" ["yheT", "b3353", "ECK3341"] "mRNA" [] "G7718" ["G7718-MONOMER"] null [] +"G7719_RNA" "yheU" ["yheU", "b3354", "ECK3342"] "mRNA" [] "G7719" ["G7719-MONOMER"] null [] +"G7721_RNA" "yhfK" ["yhfK", "b3358", "ECK3346"] "mRNA" [] "G7721" ["G7721-MONOMER"] null [] +"G7722_RNA" "yhfL" ["yhfL", "b3369", "ECK3357"] "mRNA" [] "G7722" ["G7722-MONOMER"] null [] +"G7723_RNA" "frlB" ["frlB", "yhfN", "b3371", "ECK3359"] "mRNA" [] "G7723" ["G7723-MONOMER"] null [] +"G7724_RNA" "frlC" ["frlC", "b3373", "yhfP", "yhfO", "b3372", "b4474", "ECK3360"] "mRNA" [] "G7724" ["G7724-MONOMER"] null [] +"G7726_RNA" "frlD" ["frlD", "yhfQ", "b3374", "ECK3361"] "mRNA" [] "G7726" ["G7726-MONOMER"] null [] +"G7727_RNA" "frlR" ["frlR", "yhfR", "b3375", "ECK3362"] "mRNA" [] "G7727" ["G7727-MONOMER"] null [] +"G7728_RNA" "yhfS" ["yhfS", "b3376", "ECK3363"] "mRNA" [] "G7728" ["G7728-MONOMER"] null [] +"G7729_RNA" "yhfT" ["yhfT", "b3377", "ECK3364"] "mRNA" [] "G7729" ["G7729-MONOMER"] null [] +"G7730_RNA" "yhfU" ["yhfU", "b3378", "ECK3365"] "mRNA" [] "G7730" ["G7730-MONOMER"] null [] +"G7731_RNA" "php" ["php", "yhfV", "b3379", "ECK3366"] "mRNA" [] "G7731" ["G7731-MONOMER"] null [] +"G7732_RNA" "yhfW" ["yhfW", "b3380", "ECK3367"] "mRNA" [] "G7732" ["G7732-MONOMER"] null [] +"G7733_RNA" "yhfX" ["yhfX", "b3381", "ECK3368"] "mRNA" [] "G7733" ["G7733-MONOMER"] null [] +"G7734_RNA" "yhfY" ["yhfY", "b3382", "ECK3369"] "mRNA" [] "G7734" ["G7734-MONOMER"] null [] +"G7735_RNA" "yhfZ" ["yhfZ", "b3383", "ECK3370"] "mRNA" [] "G7735" ["G7735-MONOMER"] null [] +"G7736_RNA" "hofP" ["hofP", "yrfA", "b3392", "ECK3379"] "mRNA" [] "G7736" ["G7736-MONOMER"] null [] +"G7737_RNA" "hofO" ["hofO", "yrfB", "b3393", "ECK3380"] "mRNA" [] "G7737" ["G7737-MONOMER"] null [] +"G7738_RNA" "hofN" ["hofN", "yrfC", "b3394", "ECK3381"] "mRNA" [] "G7738" ["G7738-MONOMER"] null [] +"G7739_RNA" "hofM" ["hofM", "yrfD", "b3395", "ECK3382"] "mRNA" [] "G7739" ["G7739-MONOMER"] null [] +"G7740_RNA" "nudE" ["nudE", "yrfE", "b3397", "ECK3384"] "mRNA" [] "G7740" ["G7740-MONOMER"] null [] +"G7741_RNA" "igaA" ["igaA", "yrfF", "b3398", "ECK3385"] "mRNA" [] "G7741" ["G7741-MONOMER"] null [] +"G7742_RNA" "yrfG" ["yrfG", "b3399", "ECK3386"] "mRNA" [] "G7742" ["G7742-MONOMER"] null [] +"G7743_RNA" "hslR" ["hslR", "hsp15", "yrfH", "b3400", "ECK3387"] "mRNA" [] "G7743" ["G7743-MONOMER"] null [] +"G7744_RNA" "hslO" ["hslO", "yrfI", "b3401", "ECK3388"] "mRNA" [] "G7744" ["G7744-MONOMER"] null [] +"G7745_RNA" "yhgE" ["yhgE", "b3402", "ECK3389"] "mRNA" [] "G7745" ["G7745-MONOMER"] null [] +"G7746_RNA" "yhgF" ["yhgF", "b3407", "ECK3394"] "mRNA" [] "G7746" ["G7746-MONOMER"] null [] +"G7747_RNA" "yhgH" ["yhgH", "gntX", "b3413", "ECK3400"] "mRNA" [] "G7747" ["G7747-MONOMER"] null [] +"G7748_RNA" "nfuA" ["nfuA", "yhgI", "gntY", "b3414", "ECK3401"] "mRNA" [] "G7748" ["G7748-MONOMER"] null [] +"G7750_RNA" "rtcA" ["rtcA", "yhgJ", "yhgK", "b3420", "b3419", "b4475", "ECK3406"] "mRNA" [] "G7750" ["G7750-MONOMER"] null [] +"G7751_RNA" "rtcB" ["rtcB", "yhgL", "b3421", "ECK3407"] "mRNA" [] "G7751" ["G7751-MONOMER"] null [] +"G7752_RNA" "yzgL" ["yzgL", "b3427", "ECK3413"] "mRNA" [] "G7752" ["G7752-MONOMER"] null [] +"G7753_RNA" "yhgN" ["yhgN", "b3434", "ECK3420"] "mRNA" [] "G7753" ["G7753-MONOMER"] null [] +"G7756_RNA" "yhhW" ["yhhW", "b3439", "ECK3424"] "mRNA" [] "G7756" ["G7756-MONOMER"] null [] +"G7757_RNA" "yhhX" ["yhhX", "b3440", "ECK3425"] "mRNA" [] "G7757" ["G7757-MONOMER"] null [] +"G7758_RNA" "yhhY" ["yhhY", "b3441", "ECK3427"] "mRNA" [] "G7758" ["G7758-MONOMER"] null [] +"G7759_RNA" "yhhZ" ["yhhZ", "b3442", "ECK3428"] "mRNA" [] "G7759" ["G7759-MONOMER"] null [] +"G7760_RNA" "yrhA" ["yrhA", "b3443", "ECK3429"] "pseudo" [] "G7760" ["G7760-MONOMER"] null [] +"G7761_RNA" "insA6" ["insA6", "b3444", "ECK0023"] "mRNA" [] "G7761" ["MONOMER0-4226"] null [] +"G7762_RNA" "insB6" ["insB6", "b3445", "ECK0022"] "mRNA" [] "G7762" ["MONOMER0-4450"] null [] +"G7763_RNA" "yrhB" ["yrhB", "b3446", "ECK3430"] "mRNA" [] "G7763" ["G7763-MONOMER"] null [] +"G7767_RNA" "dcrB" ["dcrB", "yhhR", "b3472", "ECK3456"] "mRNA" [] "G7767" ["G7767-MONOMER"] null [] +"G7769_RNA" "insH11" ["insH11", "yi52_11", "trs5-11", "b3505", "ECK0261"] "mRNA" [] "G7769" ["MONOMER0-4241"] null [] +"G7776_RNA" "insJ" ["insJ", "yi5A", "b3557", "ECK3545"] "mRNA" [] "G7776" ["G7776-MONOMER"] null [] +"G7777_RNA" "insK" ["insK", "dinS", "yi5B", "t150", "b3558", "ECK3546"] "mRNA" [] "G7777" ["G7777-MONOMER"] null [] +"G7789_RNA" "dgoR" ["dgoR", "yidW", "b3695", "b3694", "b4479", "ECK3687"] "mRNA" [] "G7789" ["G7790-MONOMER"] null [] +"G7798_RNA" "yifN" ["yifN", "ECK3769", "yifO", "b3777", "ECK3768"] "pseudo" [] "G7798" ["G7798-MONOMER"] null [] +"G7800_RNA" "wecF" ["wecF", "yifM", "b4404", "rff", "rffT", "b4405", "b4481", "ECK3785"] "mRNA" [] "G7800" ["G7800-MONOMER"] null [] +"G7802_RNA" "yzcX" ["yzcX", "b3808", "ECK3802"] "mRNA" [] "G7802" ["G7802-MONOMER"] null [] +"G7804_RNA" "ysgA" ["ysgA", "b3830", "ECK3824"] "mRNA" [] "G7804" ["G7804-MONOMER"] null [] +"G7806_RNA" "tatA" ["tatA", "yigT", "mttA1", "b3836", "ECK3830"] "mRNA" [] "G7806" ["TATA"] null [] +"G7808_RNA" "tatB" ["tatB", "ysgB", "mttA2", "b3838", "ECK3831"] "mRNA" [] "G7808" ["G7808-MONOMER"] null [] +"G7814_RNA" "ompL" ["ompL", "yshA", "b3875", "ECK3868"] "mRNA" [] "G7814" ["G7814-MONOMER"] null [] +"G7816_RNA" "cpxP" ["cpxP", "yiiO", "b3913", "b4484", "ECK3906"] "mRNA" [] "G7816" ["G7816-MONOMER"] null [] +"G7818_RNA" null ["b3975"] "phantom" [] "G7818" [] null [] +"G7821_RNA" "alsR" ["alsR", "yjcY", "rpiR", "b4089", "ECK4082"] "mRNA" [] "G7821" ["G7821-MONOMER"] null [] +"G7823_RNA" "rdcB" ["rdcB", "yjcZ", "b4110", "ECK4103"] "mRNA" [] "G7823" ["G7823-MONOMER"] null [] +"G7825_RNA" "yjdF" ["yjdF", "b4121", "ECK4114"] "mRNA" [] "G7825" ["G7825-MONOMER"] null [] +"G7826_RNA" "dcuR" ["dcuR", "yjdG", "b4124", "ECK4117"] "mRNA" [] "G7826" ["DCUR-MONOMER"] null [] +"G7827_RNA" "dcuS" ["dcuS", "yjdH", "b4125", "ECK4118"] "mRNA" [] "G7827" ["DCUS-MONOMER"] null [] +"G7828_RNA" "yjdI" ["yjdI", "b4126", "ECK4119"] "mRNA" [] "G7828" ["G7828-MONOMER"] null [] +"G7829_RNA" "yjdJ" ["yjdJ", "b4127", "ECK4120"] "mRNA" [] "G7829" ["G7829-MONOMER"] null [] +"G7830_RNA" "ghoS" ["ghoS", "yjdK", "b4128", "ECK4121"] "mRNA" [] "G7830" ["G7830-MONOMER"] null [] +"G7832_RNA" "fxsA" ["fxsA", "yjeG", "b4140", "ECK4134"] "mRNA" [] "G7832" ["G7832-MONOMER"] null [] +"G7833_RNA" "yjeH" ["yjeH", "b4141", "ECK4135"] "mRNA" [] "G7833" ["B4141-MONOMER"] null [] +"G7834_RNA" "yjeI" ["yjeI", "b4144", "ECK4138"] "mRNA" [] "G7834" ["G7834-MONOMER"] null [] +"G7835_RNA" "yjeJ" ["yjeJ", "b4145", "ECK4139"] "mRNA" [] "G7835" ["G7835-MONOMER"] null [] +"G7836_RNA" "epmB" ["epmB", "yjeK", "b4146", "ECK4140"] "mRNA" [] "G7836" ["G7836-MONOMER"] null [] +"G7837_RNA" "blc" ["blc", "yjeL", "b4149", "ECK4145"] "mRNA" [] "G7837" ["G7837-MONOMER"] null [] +"G7838_RNA" "yjeN" ["yjeN", "b4157", "ECK4153"] "mRNA" [] "G7838" ["G7838-MONOMER"] null [] +"G7839_RNA" "yjeO" ["yjeO", "b4158", "ECK4154"] "mRNA" [] "G7839" ["G7839-MONOMER"] null [] +"G7840_RNA" "mscM" ["mscM", "yjeP", "b4159", "ECK4155"] "mRNA" [] "G7840" ["G7840-MONOMER"] null [] +"G7841_RNA" "rsgA" ["rsgA", "yjeQ", "b4161", "ECK4157"] "mRNA" [] "G7841" ["G7841-MONOMER"] null [] +"G7842_RNA" "orn" ["orn", "yjeR", "b4162", "ECK4158"] "mRNA" [] "G7842" ["G7842-MONOMER"] null [] +"G7843_RNA" "queG" ["queG", "yjeS", "b4166", "ECK4162"] "mRNA" [] "G7843" ["G7843-MONOMER"] null [] +"G7844_RNA" "yjeT" ["yjeT", "b4176", "ECK4172"] "mRNA" [] "G7844" ["G7844-MONOMER"] null [] +"G7845_RNA" "rlmB" ["rlmB", "yjfH", "b4180", "ECK4176"] "mRNA" [] "G7845" ["G7845-MONOMER"] null [] +"G7846_RNA" "yjfI" ["yjfI", "b4181", "ECK4177"] "mRNA" [] "G7846" ["G7846-MONOMER"] null [] +"G7847_RNA" "yjfJ" ["yjfJ", "b4182", "ECK4178"] "mRNA" [] "G7847" ["G7847-MONOMER"] null [] +"G7848_RNA" "yjfK" ["yjfK", "b4183", "ECK4179"] "mRNA" [] "G7848" ["G7848-MONOMER"] null [] +"G7849_RNA" "yjfL" ["yjfL", "b4184", "ECK4180"] "mRNA" [] "G7849" ["G7849-MONOMER"] null [] +"G7850_RNA" "yjfM" ["yjfM", "b4185", "ECK4181"] "mRNA" [] "G7850" ["G7850-MONOMER"] null [] +"G7851_RNA" "yjfN" ["yjfN", "b4188", "ECK4184"] "mRNA" [] "G7851" ["G7851-MONOMER"] null [] +"G7852_RNA" "bsmA" ["bsmA", "yjfO", "b4189", "ECK4185"] "mRNA" [] "G7852" ["G7852-MONOMER"] null [] +"G7853_RNA" "yjfP" ["yjfP", "b4190", "ECK4186"] "mRNA" [] "G7853" ["G7853-MONOMER"] null [] +"G7854_RNA" "ulaR" ["ulaR", "yjfQ", "b4191", "ECK4187"] "mRNA" [] "G7854" ["G7854-MONOMER"] null [] +"G7855_RNA" "ulaG" ["ulaG", "yjfR", "b4192", "ECK4188"] "mRNA" [] "G7855" ["G7855-MONOMER"] null [] +"G7856_RNA" "ulaA" ["ulaA", "yjfS", "sgaT", "b4193", "ECK4189"] "mRNA" [] "G7856" ["SGAT-MONOMER"] null [] +"G7858_RNA" "ulaD" ["ulaD", "yjfV", "sgaH", "b4196", "ECK4192"] "mRNA" [] "G7858" ["G7858-MONOMER"] null [] +"G7859_RNA" "ulaE" ["ulaE", "sgaU", "yjfW", "b4197", "ECK4193"] "mRNA" [] "G7859" ["G7859-MONOMER"] null [] +"G7860_RNA" "ulaF" ["ulaF", "yjfX", "sgaE", "b4198", "ECK4194"] "mRNA" [] "G7860" ["G7860-MONOMER"] null [] +"G7861_RNA" "yjfY" ["yjfY", "b4199", "ECK4195"] "mRNA" [] "G7861" ["G7861-MONOMER"] null [] +"G7862_RNA" "yjfZ" ["yjfZ", "b4204", "ECK4200"] "mRNA" [] "G7862" ["G7862-MONOMER"] null [] +"G7863_RNA" "ytfA" ["ytfA", "b4205", "ECK4201"] "pseudo" [] "G7863" ["G7863-MONOMER"] null [] +"G7864_RNA" "ytfB" ["ytfB", "b4206", "ECK4202"] "mRNA" [] "G7864" ["G7864-MONOMER"] null [] +"G7865_RNA" "fklB" ["fklB", "ytfC", "b4207", "ECK4203"] "mRNA" [] "G7865" ["G7865-MONOMER"] null [] +"G7866_RNA" "ytfE" ["ytfE", "dnrN", "b4209", "ECK4205"] "mRNA" [] "G7866" ["G7866-MONOMER"] null [] +"G7867_RNA" "ytfF" ["ytfF", "b4210", "ECK4206"] "mRNA" [] "G7867" ["G7867-MONOMER"] null [] +"G7868_RNA" "qorB" ["qorB", "ytfG", "b4211", "ECK4207"] "mRNA" [] "G7868" ["G7868-MONOMER"] null [] +"G7869_RNA" "ytfH" ["ytfH", "b4212", "ECK4208"] "mRNA" [] "G7869" ["G7869-MONOMER"] null [] +"G7870_RNA" "ytfI" ["ytfI", "b4215", "ECK4211"] "mRNA" [] "G7870" ["G7870-MONOMER"] null [] +"G7871_RNA" "ytfJ" ["ytfJ", "ecfJ", "b4216", "ECK4212"] "mRNA" [] "G7871" ["G7871-MONOMER"] null [] +"G7872_RNA" "ytfK" ["ytfK", "b4217", "ECK4213"] "mRNA" [] "G7872" ["G7872-MONOMER"] null [] +"G7873_RNA" "paeA" ["paeA", "ytfL", "b4218", "ECK4214"] "mRNA" [] "G7873" ["G7873-MONOMER"] null [] +"G7874_RNA" "tamA" ["tamA", "ytfM", "b4220", "ECK4216"] "mRNA" [] "G7874" ["G7874-MONOMER"] null [] +"G7875_RNA" "tamB" ["tamB", "ytfO", "ytfN", "b4221", "ECK4217"] "mRNA" [] "G7875" ["G7875-MONOMER"] null [] +"G7876_RNA" "ytfP" ["ytfP", "b4222", "ECK4218"] "mRNA" [] "G7876" ["G7876-MONOMER"] null [] +"G7877_RNA" "ridA" ["ridA", "yjgF", "b4243", "ECK4238"] "mRNA" [] "G7877" ["G7877-MONOMER"] null [] +"G7878_RNA" null ["b4247"] "phantom" [] "G7878" [] null [] +"G7879_RNA" "yjgH" ["yjgH", "b4248", "ECK4242"] "mRNA" [] "G7879" ["G7879-MONOMER"] null [] +"G7880_RNA" "bdcA" ["bdcA", "yjgI", "b4249", "ECK4243"] "mRNA" [] "G7880" ["G7880-MONOMER"] null [] +"G7881_RNA" null ["b4250"] "phantom" [] "G7881" [] null [] +"G7882_RNA" "bdcR" ["bdcR", "yjgJ", "b4251", "ECK4244"] "mRNA" [] "G7882" ["G7882-MONOMER"] null [] +"G7883_RNA" "tabA" ["tabA", "yjgK", "b4252", "ECK4245"] "mRNA" [] "G7883" ["G7883-MONOMER"] null [] +"G7884_RNA" "yjgL" ["yjgL", "b4253", "ECK4246"] "mRNA" [] "G7884" ["G7884-MONOMER"] null [] +"G7885_RNA" "rraB" ["rraB", "yjgD", "b4255", "ECK4248"] "mRNA" [] "G7885" ["G7885-MONOMER"] null [] +"G7886_RNA" "yjgM" ["yjgM", "b4256", "ECK4249"] "mRNA" [] "G7886" ["G7886-MONOMER"] null [] +"G7887_RNA" "yjgN" ["yjgN", "b4257", "ECK4250"] "mRNA" [] "G7887" ["G7887-MONOMER"] null [] +"G7888_RNA" "lptF" ["lptF", "yjgP", "b4261", "ECK4254"] "mRNA" [] "G7888" ["G7888-MONOMER"] null [] +"G7889_RNA" "lptG" ["lptG", "yjgQ", "b4262", "ECK4255"] "mRNA" [] "G7889" ["G7889-MONOMER"] null [] +"G7890_RNA" "yjgR" ["yjgR", "b4263", "ECK4256"] "mRNA" [] "G7890" ["G7890-MONOMER"] null [] +"G7891_RNA" "idnR" ["idnR", "gntS?", "gntH", "yjgS", "b4264", "ECK4257"] "mRNA" [] "G7891" ["G7891-MONOMER"] null [] +"G7892_RNA" "idnO" ["idnO", "yjgU", "b4266", "ECK4259"] "mRNA" [] "G7892" ["GLUCONREDUCT-MONOMER"] null [] +"G7893_RNA" "idnD" ["idnD", "yjgV", "b4267", "ECK4260"] "mRNA" [] "G7893" ["IDONDEHYD-MONOMER"] null [] +"G7894_RNA" "insC6" ["insC6", "yi21-6", "b4272", "ECK0357"] "mRNA" [] "G7894" ["MONOMER0-4254"] null [] +"G7895_RNA" "insD6" ["insD6", "yi22-6", "b4273", "ECK0358"] "mRNA" [] "G7895" ["MONOMER0-4451"] null [] +"G7896_RNA" "yjgW" ["yjgW", "b4274", "ECK4265"] "phantom" [] "G7896" [] null [] +"G7898_RNA" "yjgX" ["yjgX", "yjgY", "b4276", "b4275", "b4560", "b4575", "ECK4266"] "pseudo" [] "G7898" ["G7898-MONOMER"] null [] +"G7899_RNA" "yjgZ" ["yjgZ", "b4277", "ECK4267"] "mRNA" [] "G7899" ["G7899-MONOMER"] null [] +"G7900_RNA" "insG" ["insG", "yi41", "b4278", "ECK4268"] "mRNA" [] "G7900" ["G7900-MONOMER"] null [] +"G7901_RNA" "nanY" ["nanY", "yjhC", "b4280", "ECK4270"] "mRNA" [] "G7901" ["G7901-MONOMER"] null [] +"G7902_RNA" "yjhD" ["yjhD", "b4281", "ECK4271"] "pseudo" [] "G7902" ["G7902-MONOMER"] null [] +"G7903_RNA" "yjhE" ["yjhE", "b4282", "ECK4272"] "pseudo" [] "G7903" ["G7903-MONOMER"] null [] +"G7904_RNA" "insO" ["insO", "yi91", "yi91b", "b4283", "ECK0257", "insN2", "insO2", "b4285", "ECK4274", "b4562", "ECK4275", "yjhW", "b4623", "ECK4476"] "pseudo" [] "G7904" ["G7904-MONOMER"] null [] +"G7905_RNA" "insI3" ["insI3", "tra8-3", "b4284", "ECK0258"] "mRNA" [] "G7905" ["MONOMER0-4233"] null [] +"G7907_RNA" "yjhV" ["yjhV", "b4286", "ECK4276"] "pseudo" [] "G7907" ["G7907-MONOMER"] null [] +"G7908_RNA" "insA7" ["insA7", "b4294", "ECK0023"] "mRNA" [] "G7908" ["G7908-MONOMER"] null [] +"G7909_RNA" "yjhU" ["yjhU", "b4295", "ECK4284"] "mRNA" [] "G7909" ["G7909-MONOMER"] null [] +"G7910_RNA" "yjhG" ["yjhG", "b4297", "ECK4286"] "mRNA" [] "G7910" ["G7910-MONOMER"] null [] +"G7911_RNA" "yjhH" ["yjhH", "b4298", "ECK4287"] "mRNA" [] "G7911" ["G7911-MONOMER"] null [] +"G7912_RNA" "yjhI" ["yjhI", "b4299", "ECK4288"] "mRNA" [] "G7912" ["G7912-MONOMER"] null [] +"G7913_RNA" "sgcR" ["sgcR", "yjhJ", "b4300", "ECK4289"] "mRNA" [] "G7913" ["G7913-MONOMER"] null [] +"G7914_RNA" "sgcE" ["sgcE", "yjhK", "b4301", "ECK4290"] "mRNA" [] "G7914" ["G7914-MONOMER"] null [] +"G7915_RNA" "sgcQ" ["sgcQ", "yjhM", "b4303", "ECK4292"] "mRNA" [] "G7915" ["G7915-MONOMER"] null [] +"G7916_RNA" "yjhP" ["yjhP", "b4306", "ECK4296"] "mRNA" [] "G7916" ["G7916-MONOMER"] null [] +"G7917_RNA" "yjhQ" ["yjhQ", "b4307", "ECK4297"] "mRNA" [] "G7917" ["G7917-MONOMER"] null [] +"G7918_RNA" "yjhR" ["yjhR", "b4308", "ECK4299"] "pseudo" [] "G7918" ["G7918-MONOMER"] null [] +"G7919_RNA" "nanS" ["nanS", "yjhS", "b4309", "ECK4300"] "mRNA" [] "G7919" ["G7919-MONOMER"] null [] +"G7920_RNA" "nanM" ["nanM", "yjhT", "b4310", "ECK4301"] "mRNA" [] "G7920" ["G7920-MONOMER"] null [] +"G7921_RNA" "nanC" ["nanC", "yjhA", "b4311", "ECK4302"] "mRNA" [] "G7921" ["G7921-MONOMER"] null [] +"G7922_RNA" "yjiC" ["yjiC", "b4325", "ECK4316"] "mRNA" [] "G7922" ["G7922-MONOMER"] null [] +"G7923_RNA" "iraD" ["iraD", "yjiD", "b4326", "ECK4317"] "mRNA" [] "G7923" ["G7923-MONOMER"] null [] +"G7924_RNA" "hypT" ["hypT", "qseD", "yjiE", "b4327", "ECK4318"] "mRNA" [] "G7924" ["G7924-MONOMER"] null [] +"G7925_RNA" "iadA" ["iadA", "yjiF", "b4328", "ECK4319"] "mRNA" [] "G7925" ["G7925-MONOMER"] null [] +"G7926_RNA" "yjiG" ["yjiG", "b4329", "ECK4320"] "mRNA" [] "G7926" ["G7926-MONOMER"] null [] +"G7927_RNA" "yjiH" ["yjiH", "b4330", "ECK4321"] "mRNA" [] "G7927" ["G7927-MONOMER"] null [] +"G7928_RNA" "kptA" ["kptA", "yjiI", "b4331", "ECK4322"] "mRNA" [] "G7928" ["G7928-MONOMER"] null [] +"G7929_RNA" "yjiJ" ["yjiJ", "b4332", "ECK4323"] "mRNA" [] "G7929" ["G7929-MONOMER"] null [] +"G7930_RNA" "yjiK" ["yjiK", "b4333", "ECK4324"] "mRNA" [] "G7930" ["G7930-MONOMER"] null [] +"G7931_RNA" "yjiL" ["yjiL", "b4334", "ECK4325"] "mRNA" [] "G7931" ["G7931-MONOMER"] null [] +"G7932_RNA" "yjiM" ["yjiM", "b4335", "ECK4326"] "mRNA" [] "G7932" ["G7932-MONOMER"] null [] +"G7933_RNA" "yjiN" ["yjiN", "b4336", "ECK4327"] "mRNA" [] "G7933" ["G7933-MONOMER"] null [] +"G7934_RNA" "rpnD" ["rpnD", "yjiP", "b4338", "ECK4330", "yjiQ", "b4339", "b4584", "ECK4329"] "pseudo" [] "G7934" ["G7934-MONOMER"] null [] +"G7936_RNA" "yjiR" ["yjiR", "b4340", "ECK4331"] "mRNA" [] "G7936" ["G7936-MONOMER"] null [] +"G7937_RNA" "yjiS" ["yjiS", "b4341", "ECK4332"] "mRNA" [] "G7937" ["G7937-MONOMER"] null [] +"G7938_RNA" "yjiT" ["yjiT", "b4342", "ECK4333"] "mRNA" [] "G7938" ["G7938-MONOMER"] null [] +"G7940_RNA" "symE" ["symE", "yjiW", "dinL", "sosC", "b4347", "ECK4337"] "mRNA" [] "G7940" ["G7940-MONOMER"] null [] +"G7941_RNA" "yjiX" ["yjiX", "b4353", "ECK4343"] "mRNA" [] "G7941" ["G7941-MONOMER"] null [] +"G7942_RNA" "btsT" ["btsT", "yjiY", "b4354", "ECK4344"] "mRNA" [] "G7942" ["G7942-MONOMER"] null [] +"G7944_RNA" "lgoR" ["lgoR", "yjjM", "b4357", "ECK4347"] "mRNA" [] "G7944" ["G7944-MONOMER"] null [] +"G7945_RNA" "lgoD" ["lgoD", "yjjN", "b4358", "ECK4348"] "mRNA" [] "G7945" ["G7945-MONOMER"] null [] +"G7946_RNA" "yjjP" ["yjjP", "b4364", "ECK4354"] "mRNA" [] "G7946" ["G7946-MONOMER"] null [] +"G7947_RNA" "yjjQ" ["yjjQ", "b4365", "ECK4355"] "mRNA" [] "G7947" ["G7947-MONOMER"] null [] +"G7948_RNA" "bglJ" ["bglJ", "yjjR", "b4366", "ECK4356"] "mRNA" [] "G7948" ["G7948-MONOMER"] null [] +"G7949_RNA" "fhuF" ["fhuF", "yjjS", "b4367", "ECK4357"] "mRNA" [] "G7949" ["G7949-MONOMER"] null [] +"G7950_RNA" "rsmC" ["rsmC", "yjjT", "b4371", "ECK4362"] "mRNA" [] "G7950" ["G7950-MONOMER"] null [] +"G7951_RNA" "yjjU" ["yjjU", "b4377", "ECK4369"] "mRNA" [] "G7951" ["G7951-MONOMER"] null [] +"G7952_RNA" "yjjV" ["yjjV", "b4378", "ECK4370"] "mRNA" [] "G7952" ["G7952-MONOMER"] null [] +"G7953_RNA" "yjjW" ["yjjW", "b4379", "ECK4371"] "mRNA" [] "G7953" ["G7953-MONOMER"] null [] +"G7954_RNA" "yjjY" ["yjjY", "b4402", "ECK4394"] "mRNA" [] "G7954" ["G7954-MONOMER"] null [] +"G7961_RNA" "feaB" ["feaB", "ydbG", "padA", "b1385", "ECK1382"] "mRNA" [] "G7961" ["PHENDEHYD-MONOMER"] null [] +"G7990_RNA" "fruB" ["fruB", "fpr", "fruF", "b2169", "ECK2162"] "mRNA" [] "G7990" ["FRUB-MONOMER"] null [] +"cysT-tRNA" "tRNA-Cys(GCA)" ["tRNAcysT"] "tRNA" ["charged-cysT-tRNA"] "G7991" [] "GCA" [] +"G81_RNA" "uxaC" ["uxaC", "ygjY", "ygjX", "ygjZ", "b3092", "ECK3083"] "mRNA" [] "G81" ["UXAC-MONOMER"] null [] +"G812_RNA" "nrdG" ["nrdG", "yjgE", "b4237", "ECK4232"] "mRNA" [] "G812" ["RNTRACTIV-MONOMER"] null [] +"G8202_RNA" "yaaI" ["yaaI", "b0013", "ECK0013"] "mRNA" [] "G8202" ["G8202-MONOMER"] null [] +"G8203_RNA" null ["rhsC", "b0701"] "phantom" [] "G8203" [] null [] +"G8205_RNA" "gapC" ["gapC", "b1416", "b1417", "b4493", "ECK1409"] "pseudo" [] "G8205" ["G8205-MONOMER"] null [] +"G8208_RNA" "yehH" ["yehH", "molR", "b2116", "yehG", "b2117", "b4499", "ECK2108"] "pseudo" [] "G8208" [] null [] +"G8210_RNA" "srlA" ["srlA", "gutA", "sbl", "srlA-1", "b2702", "ECK2697"] "mRNA" [] "G8210" ["G8210-MONOMER"] null [] +"G8221_RNA" "ilvG" ["ilvG", "ilvO", "b3767", "b3768", "b4488", "ECK3760"] "pseudo" [] "G8221" ["G8221-MONOMER"] null [] +"G85_RNA" "xapA" ["xapA", "pndA", "b2407", "ECK2401"] "mRNA" [] "G85" ["XANTHOSINEPHOSPHORY-MONOMER"] null [] +"GB4478_RNA" "dgoD" ["dgoD", "b3692", "yidU", "b4478", "ECK3684"] "mRNA" [] "GB4478" ["GALACTONATE-DEHYDRATASE-MONOMER"] null [] +"M004_RNA" "rpe" ["rpe", "dod", "yhfD", "b3386", "ECK3373"] "mRNA" [] "M004" ["RIBULP3EPIM-MONOMER"] null [] +"M007_RNA" "thiM" ["thiM", "b2104", "ECK2097"] "mRNA" [] "M007" ["THZ-KIN-MONOMER"] null [] +"M009_RNA" "hcaE" ["hcaE", "yfhU", "digA", "phdC1", "hcaA", "hcaA1", "b2538", "ECK2535"] "mRNA" [] "M009" ["PHENYLPRODIOXY-MONOMER"] null [] +"M010_RNA" "mhpA" ["mhpA", "b0347", "ECK0344"] "mRNA" [] "M010" ["MHPHYDROXY-MONOMER"] null [] +"M011_RNA" "mhpB" ["mhpB", "b0348", "ECK0345"] "mRNA" [] "M011" ["DHPDIOXYGEN-MONOMER"] null [] +"M012_RNA" "mhpC" ["mhpC", "b0349", "ECK0346"] "mRNA" [] "M012" ["MHPCHYDROL-MONOMER"] null [] +"M013_RNA" "mhpD" ["mhpD", "mhpS", "b0350", "ECK0347"] "mRNA" [] "M013" ["MHPDHYDROL-MONOMER"] null [] +"M014_RNA" "mhpF" ["mhpF", "b0351", "ECK0348"] "mRNA" [] "M014" ["MHPF-MONOMER"] null [] +"M015_RNA" "hcaF" ["hcaF", "yfhV", "hcaA", "phdC2", "digB", "hcaB", "hcaA2", "b2539", "ECK2536"] "mRNA" [] "M015" ["HCAA2-MONOMER"] null [] +"RUVA_RNA" "ruvA" ["ruvA", "b1861", "ECK1862"] "mRNA" [] "RUVA" ["EG10923-MONOMER"] null [] +"RUVB_RNA" "ruvB" ["ruvB", "b1860", "ECK1861"] "mRNA" [] "RUVB" ["EG10924-MONOMER"] null [] diff --git a/reconstruction/ecoli/flat/secretions.tsv b/reconstruction/ecoli/flat/secretions.tsv index 41e1a05ffc..3869384be0 100644 --- a/reconstruction/ecoli/flat/secretions.tsv +++ b/reconstruction/ecoli/flat/secretions.tsv @@ -3,7 +3,7 @@ "WATER[c]" 3.15 3.15 "CARBON-DIOXIDE[p]" null null "WATER[p]" null null -"PI[p]" null null +"Pi[p]" null null "PROTON[p]" null null "FORMATE[p]" null null "ACET[p]" null null diff --git a/reconstruction/ecoli/flat/sequence.fasta b/reconstruction/ecoli/flat/sequence.fasta index 1e5d2ada0e..76def07ae3 100644 --- a/reconstruction/ecoli/flat/sequence.fasta +++ b/reconstruction/ecoli/flat/sequence.fasta @@ -1,61864 +1,66312 @@ ->E. coli K-12 MG1655 U00096.2 (1 to 4639675 = 4639675 bp) -AGCTTTTCATTCTGACTGCAACGGGCAATATGTCTCTGTGTGGATTAAAAAAAGAGTGTCTGATAGCAGCTTCTG -AACTGGTTACCTGCCGTGAGTAAATTAAAATTTTATTGACTTAGGTCACTAAATACTTTAACCAATATAGGCATA -GCGCACAGACAGATAAAAATTACAGAGTACACAACATCCATGAAACGCATTAGCACCACCATTACCACCACCATC -ACCATTACCACAGGTAACGGTGCGGGCTGACGCGTACAGGAAACACAGAAAAAAGCCCGCACCTGACAGTGCGGG -CTTTTTTTTTCGACCAAAGGTAACGAGGTAACAACCATGCGAGTGTTGAAGTTCGGCGGTACATCAGTGGCAAAT -GCAGAACGTTTTCTGCGTGTTGCCGATATTCTGGAAAGCAATGCCAGGCAGGGGCAGGTGGCCACCGTCCTCTCT -GCCCCCGCCAAAATCACCAACCACCTGGTGGCGATGATTGAAAAAACCATTAGCGGCCAGGATGCTTTACCCAAT -ATCAGCGATGCCGAACGTATTTTTGCCGAACTTTTGACGGGACTCGCCGCCGCCCAGCCGGGGTTCCCGCTGGCG -CAATTGAAAACTTTCGTCGATCAGGAATTTGCCCAAATAAAACATGTCCTGCATGGCATTAGTTTGTTGGGGCAG -TGCCCGGATAGCATCAACGCTGCGCTGATTTGCCGTGGCGAGAAAATGTCGATCGCCATTATGGCCGGCGTATTA -GAAGCGCGCGGTCACAACGTTACTGTTATCGATCCGGTCGAAAAACTGCTGGCAGTGGGGCATTACCTCGAATCT -ACCGTCGATATTGCTGAGTCCACCCGCCGTATTGCGGCAAGCCGCATTCCGGCTGATCACATGGTGCTGATGGCA -GGTTTCACCGCCGGTAATGAAAAAGGCGAACTGGTGGTGCTTGGACGCAACGGTTCCGACTACTCTGCTGCGGTG -CTGGCTGCCTGTTTACGCGCCGATTGTTGCGAGATTTGGACGGACGTTGACGGGGTCTATACCTGCGACCCGCGT -CAGGTGCCCGATGCGAGGTTGTTGAAGTCGATGTCCTACCAGGAAGCGATGGAGCTTTCCTACTTCGGCGCTAAA -GTTCTTCACCCCCGCACCATTACCCCCATCGCCCAGTTCCAGATCCCTTGCCTGATTAAAAATACCGGAAATCCT -CAAGCACCAGGTACGCTCATTGGTGCCAGCCGTGATGAAGACGAATTACCGGTCAAGGGCATTTCCAATCTGAAT -AACATGGCAATGTTCAGCGTTTCTGGTCCGGGGATGAAAGGGATGGTCGGCATGGCGGCGCGCGTCTTTGCAGCG -ATGTCACGCGCCCGTATTTCCGTGGTGCTGATTACGCAATCATCTTCCGAATACAGCATCAGTTTCTGCGTTCCA -CAAAGCGACTGTGTGCGAGCTGAACGGGCAATGCAGGAAGAGTTCTACCTGGAACTGAAAGAAGGCTTACTGGAG -CCGCTGGCAGTGACGGAACGGCTGGCCATTATCTCGGTGGTAGGTGATGGTATGCGCACCTTGCGTGGGATCTCG -GCGAAATTCTTTGCCGCACTGGCCCGCGCCAATATCAACATTGTCGCCATTGCTCAGGGATCTTCTGAACGCTCA -ATCTCTGTCGTGGTAAATAACGATGATGCGACCACTGGCGTGCGCGTTACTCATCAGATGCTGTTCAATACCGAT -CAGGTTATCGAAGTGTTTGTGATTGGCGTCGGTGGCGTTGGCGGTGCGCTGCTGGAGCAACTGAAGCGTCAGCAA -AGCTGGCTGAAGAATAAACATATCGACTTACGTGTCTGCGGTGTTGCCAACTCGAAGGCTCTGCTCACCAATGTA -CATGGCCTTAATCTGGAAAACTGGCAGGAAGAACTGGCGCAAGCCAAAGAGCCGTTTAATCTCGGGCGCTTAATT -CGCCTCGTGAAAGAATATCATCTGCTGAACCCGGTCATTGTTGACTGCACTTCCAGCCAGGCAGTGGCGGATCAA -TATGCCGACTTCCTGCGCGAAGGTTTCCACGTTGTCACGCCGAACAAAAAGGCCAACACCTCGTCGATGGATTAC -TACCATCAGTTGCGTTATGCGGCGGAAAAATCGCGGCGTAAATTCCTCTATGACACCAACGTTGGGGCTGGATTA -CCGGTTATTGAGAACCTGCAAAATCTGCTCAATGCAGGTGATGAATTGATGAAGTTCTCCGGCATTCTTTCTGGT -TCGCTTTCTTATATCTTCGGCAAGTTAGACGAAGGCATGAGTTTCTCCGAGGCGACCACGCTGGCGCGGGAAATG -GGTTATACCGAACCGGACCCGCGAGATGATCTTTCTGGTATGGATGTGGCGCGTAAACTATTGATTCTCGCTCGT -GAAACGGGACGTGAACTGGAGCTGGCGGATATTGAAATTGAACCTGTGCTGCCCGCAGAGTTTAACGCCGAGGGT -GATGTTGCCGCTTTTATGGCGAATCTGTCACAACTCGACGATCTCTTTGCCGCGCGCGTGGCGAAGGCCCGTGAT -GAAGGAAAAGTTTTGCGCTATGTTGGCAATATTGATGAAGATGGCGTCTGCCGCGTGAAGATTGCCGAAGTGGAT -GGTAATGATCCGCTGTTCAAAGTGAAAAATGGCGAAAACGCCCTGGCCTTCTATAGCCACTATTATCAGCCGCTG -CCGTTGGTACTGCGCGGATATGGTGCGGGCAATGACGTTACAGCTGCCGGTGTCTTTGCTGATCTGCTACGTACC -CTCTCATGGAAGTTAGGAGTCTGACATGGTTAAAGTTTATGCCCCGGCTTCCAGTGCCAATATGAGCGTCGGGTT -TGATGTGCTCGGGGCGGCGGTGACACCTGTTGATGGTGCATTGCTCGGAGATGTAGTCACGGTTGAGGCGGCAGA -GACATTCAGTCTCAACAACCTCGGACGCTTTGCCGATAAGCTGCCGTCAGAACCACGGGAAAATATCGTTTATCA -GTGCTGGGAGCGTTTTTGCCAGGAACTGGGTAAGCAAATTCCAGTGGCGATGACCCTGGAAAAGAATATGCCGAT -CGGTTCGGGCTTAGGCTCCAGTGCCTGTTCGGTGGTCGCGGCGCTGATGGCGATGAATGAACACTGCGGCAAGCC -GCTTAATGACACTCGTTTGCTGGCTTTGATGGGCGAGCTGGAAGGCCGTATCTCCGGCAGCATTCATTACGACAA -CGTGGCACCGTGTTTTCTCGGTGGTATGCAGTTGATGATCGAAGAAAACGACATCATCAGCCAGCAAGTGCCAGG -GTTTGATGAGTGGCTGTGGGTGCTGGCGTATCCGGGGATTAAAGTCTCGACGGCAGAAGCCAGGGCTATTTTACC -GGCGCAGTATCGCCGCCAGGATTGCATTGCGCACGGGCGACATCTGGCAGGCTTCATTCACGCCTGCTATTCCCG -TCAGCCTGAGCTTGCCGCGAAGCTGATGAAAGATGTTATCGCTGAACCCTACCGTGAACGGTTACTGCCAGGCTT -CCGGCAGGCGCGGCAGGCGGTCGCGGAAATCGGCGCGGTAGCGAGCGGTATCTCCGGCTCCGGCCCGACCTTGTT -CGCTCTGTGTGACAAGCCGGAAACCGCCCAGCGCGTTGCCGACTGGTTGGGTAAGAACTACCTGCAAAATCAGGA -AGGTTTTGTTCATATTTGCCGGCTGGATACGGCGGGCGCACGAGTACTGGAAAACTAAATGAAACTCTACAATCT -GAAAGATCACAACGAGCAGGTCAGCTTTGCGCAAGCCGTAACCCAGGGGTTGGGCAAAAATCAGGGGCTGTTTTT -TCCGCACGACCTGCCGGAATTCAGCCTGACTGAAATTGATGAGATGCTGAAGCTGGATTTTGTCACCCGCAGTGC -GAAGATCCTCTCGGCGTTTATTGGTGATGAAATCCCACAGGAAATCCTGGAAGAGCGCGTGCGCGCGGCGTTTGC -CTTCCCGGCTCCGGTCGCCAATGTTGAAAGCGATGTCGGTTGTCTGGAATTGTTCCACGGGCCAACGCTGGCATT -TAAAGATTTCGGCGGTCGCTTTATGGCACAAATGCTGACCCATATTGCGGGTGATAAGCCAGTGACCATTCTGAC -CGCGACCTCCGGTGATACCGGAGCGGCAGTGGCTCATGCTTTCTACGGTTTACCGAATGTGAAAGTGGTTATCCT -CTATCCACGAGGCAAAATCAGTCCACTGCAAGAAAAACTGTTCTGTACATTGGGCGGCAATATCGAAACTGTTGC -CATCGACGGCGATTTCGATGCCTGTCAGGCGCTGGTGAAGCAGGCGTTTGATGATGAAGAACTGAAAGTGGCGCT -AGGGTTAAACTCGGCTAACTCGATTAACATCAGCCGTTTGCTGGCGCAGATTTGCTACTACTTTGAAGCTGTTGC -GCAGCTGCCGCAGGAGACGCGCAACCAGCTGGTTGTCTCGGTGCCAAGCGGAAACTTCGGCGATTTGACGGCGGG -TCTGCTGGCGAAGTCACTCGGTCTGCCGGTGAAACGTTTTATTGCTGCGACCAACGTGAACGATACCGTGCCACG -TTTCCTGCACGACGGTCAGTGGTCACCCAAAGCGACTCAGGCGACGTTATCCAACGCGATGGACGTGAGTCAGCC -GAACAACTGGCCGCGTGTGGAAGAGTTGTTCCGCCGCAAAATCTGGCAACTGAAAGAGCTGGGTTATGCAGCCGT -GGATGATGAAACCACGCAACAGACAATGCGTGAGTTAAAAGAACTGGGCTACACTTCGGAGCCGCACGCTGCCGT -AGCTTATCGTGCGCTGCGTGATCAGTTGAATCCAGGCGAATATGGCTTGTTCCTCGGCACCGCGCATCCGGCGAA -ATTTAAAGAGAGCGTGGAAGCGATTCTCGGTGAAACGTTGGATCTGCCAAAAGAGCTGGCAGAACGTGCTGATTT -ACCCTTGCTTTCACATAATCTGCCCGCCGATTTTGCTGCGTTGCGTAAATTGATGATGAATCATCAGTAAAATCT -ATTCATTATCTCAATCAGGCCGGGTTTGCTTTTATGCAGCCCGGCTTTTTTATGAAGAAATTATGGAGAAAAATG -ACAGGGAAAAAGGAGAAATTCTCAATAAATGCGGTAACTTAGAGATTAGGATTGCGGAGAATAACAACCGCCGTT -CTCATCGAGTAATCTCCGGATATCGACCCATAACGGGCAATGATAAAAGGAGTAACCTGTGAAAAAGATGCAATC -TATCGTACTCGCACTTTCCCTGGTTCTGGTCGCTCCCATGGCAGCACAGGCTGCGGAAATTACGTTAGTCCCGTC -AGTAAAATTACAGATAGGCGATCGTGATAATCGTGGCTATTACTGGGATGGAGGTCACTGGCGCGACCACGGCTG -GTGGAAACAACATTATGAATGGCGAGGCAATCGCTGGCACCTACACGGACCGCCGCCACCGCCGCGCCACCATAA -GAAAGCTCCTCATGATCATCACGGCGGTCATGGTCCAGGCAAACATCACCGCTAAATGACAAATGCCGGGTAACA -ATCCGGCATTCAGCGCCTGATGCGACGCTGGCGCGTCTTATCAGGCCTACGTTAATTCTGCAATATATTGAATCT -GCATGCTTTTGTAGGCAGGATAAGGCGTTCACGCCGCATCCGGCATTGACTGCAAACTTAACGCTGCTCGTAGCG -TTTAAACACCAGTTCGCCATTGCTGGAGGAATCTTCATCAAAGAAGTAACCTTCGCTATTAAAACCAGTCAGTTG -CTCTGGTTTGGTCAGCCGATTTTCAATAATGAAACGACTCATCAGACCGCGTGCTTTCTTAGCGTAGAAGCTGAT -GATCTTAAATTTGCCGTTCTTCTCATCGAGGAACACCGGCTTGATAATCTCGGCATTCAATTTCTTCGGCTTCAC -CGATTTAAAATACTCATCTGACGCCAGATTAATCACCACATTATCGCCTTGTGCTGCGAGCGCCTCGTTCAGCTT -GTTGGTGATGATATCTCCCCAGAATTGATACAGATCTTTCCCTCGGGCATTCTCAAGACGGATCCCCATTTCCAG -ACGATAAGGCTGCATTAAATCGAGCGGGCGGAGTACGCCATACAAGCCGGAAAGCATTCGCAAATGCTGTTGGGC -AAAATCGAAATCGTCTTCGCTGAAGGTTTCGGCCTGCAAGCCGGTGTAGACATCACCTTTAAACGCCAGAATCGC -CTGGCGGGCATTCGCCGGCGTGAAATCTGGCTGCCAGTCATGAAAGCGAGCGGCGTTGATACCCGCCAGTTTGTC -GCTGATGCGCATCAGCGTGCTAATCTGCGGAGGCGTCAGTTTCCGCGCCTCATGGATCAACTGCTGGGAATTGTC -TAACAGCTCCGGCAGCGTATAGCGCGTGGTGGTCAACGGGCTTTGGTAATCAAGCGTTTTCGCAGGTGAAATAAG -AATCAGCATATCCAGTCCTTGCAGGAAATTTATGCCGACTTTAGCAAAAAATGAGAATGAGTTGATCGATAGTTG -TGATTACTCCTGCGAAACATCATCCCACGCGTCCGGAGAAAGCTGGCGACCGATATCCGGATAACGCAATGGATC -AAACACCGGGCGCACGCCGAGTTTACGCTGGCGTAGATAATCACTGGCAATGGTATGAACCACAGGCGAGAGCAG -TAAAATGGCGGTCAAATTGGTAATAGCCATGCAGGCCATTATGATATCTGCCAGTTGCCACATCAGCGGAAGGCT -TAGCAAGGTGCCGCCGATGACCGTTGCGAAGGTGCAGATCCGCAAACACCAGATCGCTTTAGGGTTGTTCAGGCG -TAAAAAGAAGAGATTGTTTTCGGCATAAATGTAGTTGGCAACGATGGAGCTGAAGGCAAACAGAATAACCACAAG -GGTAACAAACTCAGCACCCCAGGAACCCATTAGCACCCGCATCGCCTTCTGGATAAGCTGAATACCTTCCAGCGG -CATGTAGGTTGTGCCGTTACCCGCCAGTAATATCAGCATGGCGCTTGCCGTACAGATGACCAGGGTGTCGATAAA -AATGCCAATCATCTGGACAATCCCTTGCGCTGCCGGATGCGGAGGCCAGGACGCCGCTGCCGCTGCCGCGTTTGG -CGTCGAACCCATTCCCGCCTCATTGGAAAACATACTGCGCTGAAAACCGTTAGTAATCGCCTGGCTTAAGGTATA -TCCCGCCGCGCCGCCTGCCGCTTCCTGCCAGCCAAAAGCACTCTCAAAAATAGACCAAATGACGTGGGGAAGTTG -CCCGATATTCATTACGCAAATTACCAGGCTGGTCAGTACCCAGATTATCGCCATCAACGGGACAAAGCCCTGCAT -GAGCCGGGCGACGCCATGAAGACCGCGAGTGATTGCCAGCAGAGTAAAGACAGCGAGAATAATGCCTGTCACCAG -CGGGGGAAAATCAAAAGAAAAACTCAGGGCGCGGGCAACGGCGTTCGCTTGAACTCCGCTGAAAATTATGCCATA -GGCGATGAGCAAAAAGACGGCGAACAGAACGCCCATCCAGCGCATCCCCAGCCCGCGCGCCATATACCATGCCGG -TCCGCCACGAAACTGCCCATTGACGTCACGTTCTTTATAAAGTTGTGCCAGAGAACATTCGGCAAACGAGGTCGC -CATGCCGATAAACGCGGCAACCCACATCCAAAAGACGGCTCCAGGTCCACCGGCGGTAATAGCCAGCGCAACGCC -GGCCAGGTTGCCGCTACCCACGCGCGCCGCAAGACTGGTACACAATGACTGAAATGAGGTTAAACCGCCTGGCTG -TGGATGAATGCTATTTTTAAGACTTTTGCCAAACTGGCGGATGTAGCGAAACTGCACAAATCCGGTGCGAAAAGT -GAACCAACAACCTGCGCCGAAGAGCAGGTAAATCATTACCGATCCCCAAAGGACGCTGTTAATGAAGGAGAAAAA -ATCTGGCATGCATATCCCTCTTATTGCCGGTCGCGATGACTTTCCTGTGTAAACGTTACCAATTGTTTAAGAAGT -ATATACGCTACGAGGTACTTGATAACTTCTGCGTAGCATACATGAGGTTTTGTATAAAAATGGCGGGCGATATCA -ACGCAGTGTCAGAAATCCGAAACAGTCTCGCCTGGCGATAACCGTCTTGTCGGCGGTTGCGCTGACGTTGCGTCG -TGATATCATCAGGGCAGACCGGTTACATCCCCCTAACAAGCTGTTTAAAGAGAAATACTATCATGACGGACAAAT -TGACCTCCCTTCGTCAGTACACCACCGTAGTGGCCGACACTGGGGACATCGCGGCAATGAAGCTGTATCAACCGC -AGGATGCCACAACCAACCCTTCTCTCATTCTTAACGCAGCGCAGATTCCGGAATACCGTAAGTTGATTGATGATG -CTGTCGCCTGGGCGAAACAGCAGAGCAACGATCGCGCGCAGCAGATCGTGGACGCGACCGACAAACTGGCAGTAA -ATATTGGTCTGGAAATCCTGAAACTGGTTCCGGGCCGTATCTCAACTGAAGTTGATGCGCGTCTTTCCTATGACA -CCGAAGCGTCAATTGCGAAAGCAAAACGCCTGATCAAACTCTACAACGATGCTGGTATTAGCAACGATCGTATTC -TGATCAAACTGGCTTCTACCTGGCAGGGTATCCGTGCTGCAGAACAGCTGGAAAAAGAAGGCATCAACTGTAACC -TGACCCTGCTGTTCTCCTTCGCTCAGGCTCGTGCTTGTGCGGAAGCGGGCGTGTTCCTGATCTCGCCGTTTGTTG -GCCGTATTCTTGACTGGTACAAAGCGAATACCGATAAGAAAGAGTACGCTCCGGCAGAAGATCCGGGCGTGGTTT -CTGTATCTGAAATCTACCAGTACTACAAAGAGCACGGTTATGAAACCGTGGTTATGGGCGCAAGCTTCCGTAACA -TCGGCGAAATTCTGGAACTGGCAGGCTGCGACCGTCTGACCATCGCACCGGCACTGCTGAAAGAGCTGGCGGAGA -GCGAAGGGGCTATCGAACGTAAACTGTCTTACACCGGCGAAGTGAAAGCGCGTCCGGCGCGTATCACTGAGTCCG -AGTTCCTGTGGCAGCACAACCAGGATCCAATGGCAGTAGATAAACTGGCGGAAGGTATCCGTAAGTTTGCTATTG -ACCAGGAAAAACTGGAAAAAATGATCGGCGATCTGCTGTAATCATTCTTAGCGTGACCGGGAAGTCGGTCACGCT -ACCTCTTCTGAAGCCTGTCTGTCACTCCCTTCGCAGTGTATCATTCTGTTTAACGAGACTGTTTAAACGGAAAAA -TCTTGATGAATACTTTACGTATTGGCTTAGTTTCCATCTCTGATCGCGCATCCAGCGGCGTTTATCAGGATAAAG -GCATCCCTGCGCTGGAAGAATGGCTGACATCGGCGCTAACCACGCCGTTTGAACTGGAAACCCGCTTAATCCCCG -ATGAGCAGGCGATCATCGAGCAAACGTTGTGTGAGCTGGTGGATGAAATGAGTTGCCATCTGGTGCTCACCACGG -GCGGAACTGGCCCGGCGCGTCGTGACGTAACGCCCGATGCGACGCTGGCAGTAGCGGACCGCGAGATGCCTGGCT -TTGGTGAACAGATGCGCCAGATCAGCCTGCATTTTGTACCAACTGCGATCCTTTCGCGTCAGGTGGGCGTGATTC -GCAAACAGGCGCTGATCCTTAACTTACCCGGTCAGCCGAAGTCTATTAAAGAGACGCTGGAAGGTGTGAAGGACG -CTGAGGGTAACGTTGTGGTACACGGTATTTTTGCCAGCGTACCGTACTGCATTCAGTTGCTGGAAGGGCCATACG -TTGAAACGGCACCGGAAGTGGTTGCAGCATTCAGACCGAAGAGTGCAAGACGCGACGTTAGCGAATAAAAAAATC -CCCCCGAGCGGGGGGATCTCAAAACAATTAGTGGGATTCACCAATCGGCAGAACGGTGCGACCAAACTGCTCGTT -CAGTACTTCACCCATCGCCAGATAGATTGCGCTGGCACCGCAGATCAGCCCAATCCAGCCGGCAAAGTGGATGAT -TGCGGCGTTACCGGCAATGTTACCGATCGCCAGCAGGGCAAACAGCACGGTCAGGCTAAAGAAAACGAATTGCAG -AACGCGTGCGCCTTTCAGCGTGCCGAAGAACATAAACAGCGTAAATACGCCCCACAGACCCAGGTAGACACCAAG -GAACTGTGCATTTGGCGCATCGGTCAGACCCAGTTTCGGCATCAGCAGAATCGCAACCAGCGTCAGCCAGAAAGA -ACCGTAAGAGGTGAATGCGGTTAAACCGAAAGTGTTGCCTTTTTTGTACTCCAGCAGACCAGCAAAAATTTGCGC -GATGCCGCCGTAGAAAATGCCCATGGCAAGAATAATACCGTCCAGAGCGAAATAACCCACGTTGTGCAGGTTAAG -CAGAATGGTGGTCATGCCGAAGCCCATCAGGCCCAGCGGTGCCGGATTAGCCAACTTAGTGTTGCCCATAATTCC -TCAAAAATCATCATCGAATGAATGGTGAAATAATTTCCCTGAATAACTGTAGTGTTTTCAGGGCGCGGCATAATA -ATCAGCCAGTGGGGCAGTGTCTACGATCTTTTGAGGGGAAAATGAAAATTTTCCCCGGTTTCCGGTATCAGACCT -GAGTGGCGCTAACCATCCGGCGCAGGCAGGCGATTTGCAGTACGGCTGGAATCGTCACGCGATAGGCGCTGCCGC -TGACCGCTTTAACCCCATTTAGTGCCGCACCTACAGGGCCTCCCAGCCCCGCGCCGCGCAGCAAACCATGCCCAA -GTACGCTCATTGCTGCGTGGGTGCGTAAAATGCGGGTCAGTTGGCTGGAAAGCAAATGCGACACACCTTTTGCCA -ATAATTTGTCTTTCATCAGCAGCGGCAGCAGCTCTTCCAGCTCATTCACCCTGGCATCGACCGCGTGCAGAAACT -CCTGCTTATGTTCCTCGTCCATTTTCTTCCAGGTATTACGCAGAAATTGTTCCAGTAACTGTTGCTCAATTTCAA -ACGTAGACATCTCTTTGTCGGCTTTCAGCTTCAATCGCTTTGAAACATCGAGCAAAATGGCCCGATACAATTTAC -CGTGTCCGCGCAGTTTGTTGGCGATACTATCGCCACCAAAATGCTGTAATTCTCCGGCAATCAGCTGCCAGTTGC -GGCGATGTTGCTCGGGATGCCCTTCCATCGATTTAAACAGTTCGTTGCGCATCAGTACGCTGGAGAGGCGAGTTT -TGCCTTTTTCATTATGGGTGAGCAATCGGGCGAAATTTGCCAACTGTTCCTCACTACAATGCTGAAGAAAATCCA -GATCTGAATCATTCAGGTAATTAACATTCATTTTTTGTGGCTTCTATATTCTGGCGTTAGTCGTCGCCGATAATT -TTCAGCGTGGCCATATCCGATGAGTTCACCGTATGACCCGAAAAGGTGATTTTTGAGACGCAGCGTTTATTGTCG -TTATCGCTGTTAATGTTGATCCAGTCAGTGGTTTGCCCTTCTTTTATTTCTGAAGGAATATTCAGGCTCTGACTG -GCGCTACGGGCGGCTTTGAAATAAACCGATGCACCGCTTAACTGTAAATCGCCATGGTCGGCAGAGAGTTGTATG -CGTTTCACAATGCGACAAACAGGAAGTTTCAGCGCCAGATCGTTGGTTTCGTTACGCGGCATTGCAATGGCGCCG -AGGAGTTTATGGTCGTTTGCCTGCGCCGTGCAGCACAGCATCAGGCTAATCGCCAGGCTGGCGGAAATCGTAAAA -ACGGATTTCATAAGGATTCTCTTAGTGGGAAGAGGTAGGGGGATGAATACCCACTAGTTTACTGCTGATAAAGAG -AAGATTCAGGCACGTAATCTTTTCTTTTTATTACAATTTTTTGATGAATGCCTTGGCTGCGATTCATTCTTTATA -TGAATAAAATTGCTGTCAATTTTACGTCTTGTCCTGCCATATCGCGAAATTTCTGCGCAAAAGCACAAAAAATTT -TTGCATCTCCCCCTTGATGACGTGGTTTACGACCCCATTTAGTAGTCAACCGCAGTGAGTGAGTCTGCAAAAAAA -TGAAATTGGGCAGTTGAAACCAGACGTTTCGCCCCTATTACAGACTCACAACCACATGATGACCGAATATATAGT -GGAGACGTTTAGATGGGTAAAATAATTGGTATCGACCTGGGTACTACCAACTCTTGTGTAGCGATTATGGATGGC -ACCACTCCTCGCGTGCTGGAGAACGCCGAAGGCGATCGCACCACGCCTTCTATCATTGCCTATACCCAGGATGGT -GAAACTCTAGTTGGTCAGCCGGCTAAACGTCAGGCAGTGACGAACCCGCAAAACACTCTGTTTGCGATTAAACGC -CTGATTGGTCGCCGCTTCCAGGACGAAGAAGTACAGCGTGATGTTTCCATCATGCCGTTCAAAATTATTGCTGCT -GATAACGGCGACGCATGGGTCGAAGTTAAAGGCCAGAAAATGGCACCGCCGCAGATTTCTGCTGAAGTGCTGAAA -AAAATGAAGAAAACCGCTGAAGATTACCTGGGTGAACCGGTAACTGAAGCTGTTATCACCGTACCGGCATACTTT -AACGATGCTCAGCGTCAGGCAACCAAAGACGCAGGCCGTATCGCTGGTCTGGAAGTAAAACGTATCATCAACGAA -CCGACCGCAGCTGCGCTGGCTTACGGTCTGGACAAAGGCACTGGCAACCGTACTATCGCGGTTTATGACCTGGGT -GGTGGTACTTTCGATATTTCTATTATCGAAATCGACGAAGTTGACGGCGAAAAAACCTTCGAAGTTCTGGCAACC -AACGGTGATACCCACCTGGGGGGTGAAGACTTCGACAGCCGTCTGATCAACTATCTGGTTGAAGAATTCAAGAAA -GATCAGGGCATTGACCTGCGCAACGATCCGCTGGCAATGCAGCGCCTGAAAGAAGCGGCAGAAAAAGCGAAAATC -GAACTGTCTTCCGCTCAGCAGACCGACGTTAACCTGCCATACATCACTGCAGACGCGACCGGTCCGAAACACATG -AACATCAAAGTGACTCGTGCGAAACTGGAAAGCCTGGTTGAAGATCTGGTAAACCGTTCCATTGAGCCGCTGAAA -GTTGCACTGCAGGACGCTGGCCTGTCCGTATCTGATATCGACGACGTTATCCTCGTTGGTGGTCAGACTCGTATG -CCAATGGTTCAGAAGAAAGTTGCTGAGTTCTTTGGTAAAGAGCCGCGTAAAGACGTTAACCCGGACGAAGCTGTA -GCAATCGGTGCTGCTGTTCAGGGTGGTGTTCTGACTGGTGACGTAAAAGACGTACTGCTGCTGGACGTTACCCCG -CTGTCTCTGGGTATCGAAACCATGGGCGGTGTGATGACGACGCTGATCGCGAAAAACACCACTATCCCGACCAAG -CACAGCCAGGTGTTCTCTACCGCTGAAGACAACCAGTCTGCGGTAACCATCCATGTGCTGCAGGGTGAACGTAAA -CGTGCGGCTGATAACAAATCTCTGGGTCAGTTCAACCTAGATGGTATCAACCCGGCACCGCGCGGCATGCCGCAG -ATCGAAGTTACCTTCGATATCGATGCTGACGGTATCCTGCACGTTTCCGCGAAAGATAAAAACAGCGGTAAAGAG -CAGAAGATCACCATCAAGGCTTCTTCTGGTCTGAACGAAGATGAAATCCAGAAAATGGTACGCGACGCAGAAGCT -AACGCCGAAGCTGACCGTAAGTTTGAAGAGCTGGTACAGACTCGCAACCAGGGCGACCATCTGCTGCACAGCACC -CGTAAGCAGGTTGAAGAAGCAGGCGACAAACTGCCGGCTGACGACAAAACTGCTATCGAGTCTGCGCTGACTGCA -CTGGAAACTGCTCTGAAAGGTGAAGACAAAGCCGCTATCGAAGCGAAAATGCAGGAACTGGCACAGGTTTCCCAG -AAACTGATGGAAATCGCCCAGCAGCAACATGCCCAGCAGCAGACTGCCGGTGCTGATGCTTCTGCAAACAACGCG -AAAGATGACGATGTTGTCGACGCTGAATTTGAAGAAGTCAAAGACAAAAAATAATCGCCCTATAAACGGGTAATT -ATACTGACACGGGCGAAGGGGAATTTCCTCTCCGCCCGTGCATTCATCTAGGGGCAATTTAAAAAAGATGGCTAA -GCAAGATTATTACGAGATTTTAGGCGTTTCCAAAACAGCGGAAGAGCGTGAAATCAGAAAGGCCTACAAACGCCT -GGCCATGAAATACCACCCGGACCGTAACCAGGGTGACAAAGAGGCCGAGGCGAAATTTAAAGAGATCAAGGAAGC -TTATGAAGTTCTGACCGACTCGCAAAAACGTGCGGCATACGATCAGTATGGTCATGCTGCGTTTGAGCAAGGTGG -CATGGGCGGCGGCGGTTTTGGCGGCGGCGCAGACTTCAGCGATATTTTTGGTGACGTTTTCGGCGATATTTTTGG -CGGCGGACGTGGTCGTCAACGTGCGGCGCGCGGTGCTGATTTACGCTATAACATGGAGCTCACCCTCGAAGAAGC -TGTACGTGGCGTGACCAAAGAGATCCGCATTCCGACTCTGGAAGAGTGTGACGTTTGCCACGGTAGCGGTGCAAA -ACCAGGTACACAGCCGCAGACTTGTCCGACCTGTCATGGTTCTGGTCAGGTGCAGATGCGCCAGGGATTCTTCGC -TGTACAGCAGACCTGTCCACACTGTCAGGGCCGCGGTACGCTGATCAAAGATCCGTGCAACAAATGTCATGGTCA -TGGTCGTGTTGAGCGCAGCAAAACGCTGTCCGTTAAAATCCCGGCAGGGGTGGACACTGGAGACCGCATCCGTCT -TGCGGGCGAAGGTGAAGCGGGCGAGCATGGCGCACCGGCAGGCGATCTGTACGTTCAGGTTCAGGTTAAACAGCA -CCCGATTTTCGAGCGTGAAGGCAACAACCTGTATTGCGAAGTCCCGATCAACTTCGCTATGGCGGCGCTGGGTGG -CGAAATCGAAGTACCGACCCTTGATGGTCGCGTCAAACTGAAAGTGCCTGGCGAAACCCAGACCGGTAAGCTATT -CCGTATGCGCGGTAAAGGCGTCAAGTCTGTCCGCGGTGGCGCACAGGGTGATTTGCTGTGCCGCGTTGTCGTCGA -AACACCGGTAGGCCTGAACGAAAGGCAGAAACAGCTGCTGCAAGAGCTGCAAGAAAGCTTCGGTGGCCCAACCGG -CGAGCACAACAGCCCGCGCTCAAAGAGCTTCTTTGATGGTGTGAAGAAGTTTTTTGACGACCTGACCCGCTAACC -TCCCCAAAAGCCTGCCCGTGGGCAGGCCTGGGTAAAAATAGGGTGCGTTGAAGATATGCGAGCACCTGTAAAGTG -GCGGGGATCACTCCCATAAGCGCTAACTTAAGGGTTGTGGTATTACGCCTGATATGATTTAACGTGCCGATGAAT -TACTCTCACGATAACTGGTCAGCAATTCTGGCCCATATTGGTAAGCCCGAAGAACTGGATACTTCGGCACGTAAT -GCCGGGGCTCTAACCCGCCGCCGCGAAATTCGTGATGCTGCAACTCTGCTACGTCTGGGGCTGGCTTACGGCCCC -GGGGGGATGTCATTACGTGAAGTCACTGCATGGGCTCAGCTCCATGACGTTGCAACATTATCTGACGTGGCTCTC -CTGAAGCGGCTGCGGAATGCCGCCGACTGGTTTGGCATACTTGCCGCACAAACACTTGCTGTACGCGCCGCAGTT -ACGGGTTGTACAAGCGGAAAGAGATTGCGTCTTGTCGATGGAACAGCAATCAGTGCGCCCGGGGGCGGCAGCGCT -GAATGGCGACTACATATGGGATATGATCCTCATACCTGTCAGTTCACTGATTTTGAGCTAACCGACAGCAGAGAC -GCTGAACGGCTGGACCGATTTGCGCAAACGGCAGACGAGATACGCATTGCTGACCGGGGATTCGGTTCGCGTCCC -GAATGTATCCGCTCACTTGCTTTTGGAGAAGCTGATTATATCGTCCGGGTTCACTGGCGAGGATTGCGCTGGTTA -ACTGCAGAAGGAATGCGCTTTGACATGATGGGTTTTCTGCGCGGGCTGGATTGCGGTAAGAACGGTGAAACCACT -GTAATGATAGGCAATTCAGGTAATAAAAAAGCCGGAGCTCCCTTTCCGGCACGTCTCATTGCCGTATCACTTCCT -CCCGAAAAAGCATTAATCAGTAAAACCCGACTGCTCAGCGAGAATCGTCGAAAAGGACGAGTAGTTCAGGCGGAA -ACGCTGGAAGCAGCGGGCCATGTGCTATTGCTAACATCATTACCGGAAGATGAATATTCAGCAGAGCAAGTGGCT -GATTGTTACCGTCTGCGATGGCAAATTGAACTGGCTTTTAAGCGGCTCAAAAGTTTGCTGCACCTGGATGCTTTG -CGTGCAAAGGAACCTGAACTCGCGAAAGCGTGGATATTTGCTAATCTACTCGCCGCATTTTTAATTGACGACATA -ATCCAGCCATCGCTGGATTTCCCCCCCAGAAGTGCCGGATCCGAAAAGAAGAACTAACTCGTTGTGGAGAATAAC -AAAAATGGTCATCTGGAGCTTACAGGTGGCCATTCGTGGGACAGTATCCCTGACAGCCTACAAAACGCAATTGAA -GAACGCGAGGCATCGTCTTAACGAGGCACCGAGGCGTCGCATTCTTCAGATGGTTCAACCCTTAAGTTAGCGCTT -ATGGGATCACTCCCCGCCGTTGCTCTTACTCGGATTCGTAAGCCGTGAAAACAGCAACCTCCGTCTGGCCAGTTC -GGATGTGAACCTCACAGAGGTCTTTTCTCGTTACCAGCGCCGCCACTACGGCGGTGATACAGATGACGATCAGGG -CGACAATCATCGCCTTATGCTGCTTCATTGCTCTCTTCTCCTTGACCTTACGGTCAGTAAGAGGCACTCTACATG -TGTTCAGCATATAGGAGGCCTCGGGTTGATGGTAAAATATCACTCGGGGCTTTTCTCTATCTGCCGTTCAGCTAA -TGCCTGAGACAGACAGCCTCAAGCACCCGCCGCTATTATATCGCTCTCTTTAACCCATTTTGTTTTATCGATTCT -AATCCTGAAGACGCCTCGCATTTTTGTGGCGTAATTTTTTAATGATTTAATTATTTAACTTTAATTTATCTCTTC -ATCGCAATTATTGACGACAAGCTGGATTATTTTTGAAATATTGGCCTAACAAGCATCGCCGACTGACAACAAATT -AATTATTACTTTTCCTAATTAATCCCTCAGGAATCCTCACCTTAAGCTATGATTATCTAGGCTTAGGGTCACTCG -TGAGCGCTTACAGCCGTCAAAAACGCATCTCACCGCTGATGGCGCAAATTCTTCAATAGCTCGTAAAAAACGAAT -TATTCCTACACTATAATCTGATTTTAACGATGATTCGTGCGGGGTAAAATAGTAAAAACGATCTATTCACCTGAA -AGAGAAATAAAAAGTGAAACATCTGCATCGATTCTTTAGCAGTGATGCCTCGGGAGGCATTATTCTTATCATTGC -CGCTATCCTGGCGATGATTATGGCCAACAGCGGCGCAACCAGTGGATGGTATCACGACTTTCTGGAGACGCCGGT -TCAGCTCCGGGTTGGTTCACTCGAAATCAACAAAAACATGCTGTTATGGATAAATGACGCGCTGATGGCGGTATT -TTTCCTGTTAGTCGGTCTGGAAGTTAAACGTGAACTGATGCAAGGATCGCTAGCCAGCTTACGCCAGGCCGCATT -TCCAGTTATCGCCGCTATTGGTGGGATGATTGTGCCGGCATTACTCTATCTGGCTTTTAACTATGCCGATCCGAT -TACCCGCGAAGGGTGGGCGATCCCGGCGGCTACTGACATTGCTTTTGCACTTGGTGTACTGGCGCTGTTGGGAAG -TCGTGTTCCGTTAGCGCTGAAGATCTTTTTGATGGCTCTGGCTATTATCGACGATCTTGGGGCCATCATTATCAT -CGCATTGTTCTACACTAATGACTTATCGATGGCCTCTCTTGGCGTCGCGGCTGTAGCAATTGCGGTACTCGCGGT -ATTGAATCTGTGTGGTGCACGCCGCACGGGCGTCTATATTCTTGTTGGCGTGGTGTTGTGGACTGCGGTGTTGAA -ATCGGGGGTTCACGCAACTCTGGCGGGGGTAATTGTCGGCTTCTTTATTCCTTTGAAAGAGAAGCATGGGCGTTC -TCCAGCGAAGCGACTGGAGCATGTGTTGCACCCGTGGGTGGCGTATCTGATTTTGCCGCTGTTTGCATTTGCTAA -TGCTGGCGTTTCACTGCAAGGCGTCACGCTGGATGGCTTGACCTCCATTCTGCCATTGGGGATCATCGCTGGCTT -GCTGATTGGCAAACCGCTGGGGATTAGTCTGTTCTGCTGGTTGGCGCTGCGTTTGAAACTGGCGCATCTGCCTGA -GGGAACGACTTATCAGCAAATTATGGTGGTGGGGATCCTGTGCGGTATCGGTTTTACTATGTCTATCTTTATTGC -CAGCCTGGCCTTTGGTAGCGTAGATCCAGAACTGATTAACTGGGCGAAACTCGGTATCCTGGTCGGTTCTATCTC -TTCGGCGGTAATTGGATACAGCTGGTTACGCGTTCGTTTGCGTCCATCAGTTTGACAGGACGGTTTACCGGGGAG -CCATAAACGGCTCCCTTTTCATTGTTATCAGGGAGAGAAATGAGCATGTCTCATATCAATTACAACCACTTGTAT -TACTTCTGGCATGTCTATAAAGAAGGTTCCGTGGTTGGCGCAGCGGAGGCGCTTTATTTAACTCCACAAACCATT -ACCGGACAGATTCGAGCGCTGGAAGAGCGCCTGCAAGGCAAATTATTTAAACGCAAGGGACGTGGTCTCGAACCC -AGCGAGCTGGGAGAACTGGTCTATCGCTATGCCGATAAAATGTTCACCTTAAGCCAGGAAATGCTGGATATTGTG -AACTATCGCAAAGAATCCAATTTATTGTTTGACGTTGGCGTGGCTGATGCACTTTCCAAACGCCTGGTCAGTAGC -GTACTTAACGCCGCAGTGGTAGAAGGCGAGCCCATTCATCTTCGCTGCTTCGAATCCACCCACGAAATGCTGCTG -GAGCAATTAAGTCAGCATAAACTGGATATGATCATTTCTGACTGTCCGATAGACTCTACGCAGCAGGAAGGCCTG -TTCTCCGTGAGAATTGGCGAATGTGGCGTGAGTTTCTGGTGTACAAATCCACCACCAGAAAAACCGTTCCCGGCT -TGTCTGGAAGAACGGCGACTTTTGATTCCTGGGCGACGTTCAATGTTAGGGCGCAAATTGCTTAACTGGTTTAAC -TCCCAGGGATTAAACGTAGAAATCCTCGGCGAGTTTGATGATGCCGCTTTGATGAAAGCTTTTGGTGCGATGCAC -AATGCAATCTTCGTTGCCCCAACGCTTTATGCATATGACTTTTATGCCGATAAAACTGTCGTAGAAATTGGTCGC -GTCGAGAATGTGATGGAAGAGTACCATGCTATTTTTGCTGAGCGGATGATTCAGCACCCGGCGGTACAGCGAATC -TGCAATACGGATTATTCTGCGCTTTTTAGTCCAGCGGTGCGTTAATCGGCAGCTCCCCCAAAGTTAAGGTGGGGG -AGATAGATTAGTTGTACATTACCACGATTTTGACTCGGCTCATTATTTGCCCGCTTGAGACATTGTTTCCATATG -TACGCGGGCGAATAAATAGAGGAATCTGATTACTTCCTTCATGGGGATGCTGAAAAGAGTAGTAATTGCTGGTAA -TGACTCCAACTTATTGATAGTGTTTTATGTTCAGATAATGCCCGATGACTTTGTCATGCAGCTCCACCGATTTTG -AGAACGACAGCGACTTCCGTCCCAGCCGTGCCAGGTGCTGCCTCAGATTCAGGTTATGCCGCTCAATTCGCTGCG -TATATCGCTTGCTGATTACGTGCAGCTTTCCCTTCAGGCGGGATTCATACAGCGGCCAGCCATCCGTCATCCATA -TCACCACGTCAAAGGGTGACAGCAGGCTCATAAGACGCCCCAGCGTCGCCATAGTGCGTTCACCGAATACGTGCG -CAACAACCGTCTTCCGGAGACTGTCATACGCGTAAAACAGCCAGCGCTGGCGCGATTTAGCCCCGACATAGCCCC -ACTGTTCGTCCATTTCCGCGCAGACGATGACGTCACTGCCCGGCTGTATGCGCGAGGTTACCGACTGCGGCCTGA -GTTTTTTAAGTGACGTAAAATCGTGTTGAGGCCAACGCCCATAATGCGGGCTGTTGCCCGGCATCCAACGCCATT -CATGGCCATATCAATGATTTTCTGGTGCGTACCGGGTTGAGAAGCGGTGTAAGTGAACTGCAGTTGCCATGTTTT -ACGGCAGTGAGAGCAGAGATAGCGCTGATGTCCGGCGGTGCTTTTGCCGTTACGCACCACCCCGTCAGTAGCTGA -ACAGGAGGGACAGCTGATAGAAACAGAAGCCACTGGAGCACCTCAAAAACACCATCATACACTAAATCAGTAAGT -TGGCAGCATCACCTACCTCAATGTGTATCACAATATCCATATTCTTTGTGGGGGAGTCTGGAGATTGAGTAGATA -TTCTTGTTCAGAATGTATCAGCCGATGGTTCTACGATTCTTAAGCCACGAAGAGTTCAGATAGTACAACGGCATG -TCTCTTTTGACTATCTGGCAACCGGCAGTGTGTTCTCTCACGCATCACAAAAGCAGCAGGCATAAAAAAACCCGC -TTGCGCGGGCTTTTTCACAAAGCTTCAGCAAATTGGCGATTAAGCCAGTTTGTTGATCTGTGCAGTCAGGTTAGC -CTTATGACGTGCAGCTTTGTTTTTGTGGATCAGACCTTTAGCAGCCTGACGGTCCACGATCGGTTGCATTTCGTT -AAATGCTTTCTGTGCAGCAGCTTTGTCGCCAGCTTCGATAGCTGCGTATACTTTCTTGATGAAAGTACGCATCAT -AGAGCGACGGCTTGCGTTGTGCTTACGAGCCTTTTCAGACTGAATGGCGCGCTTCTTAGCTGATTTGATATTAGC -CAAGGTCCAACTCCCAAATGTGTTCTATATGGACAATTCAAAGGCCGAGGAATATGCCCTTTTAGCCTTCTTTTG -TCAATGGATTTGTGCAAATAAGCGCCGTTAATGTGCCGGCACTCGTTACGTAGTGATGGCGCAGGATTCTACCAG -CTTGCGGGGTGTGAATACAGCTTTTCCGCGATAAAAATTGCAGCAGGCGGTCAGTTTCTTCCCGTGATTTGCGCC -ATGGCAATGAAAAGCCACTTCTTTCTGATTTCGGTACTCAATCGCCGGTTAACCTTGACCGCTGTACAAGGTATA -CTCGGACGATTTTCACTGTTTTGAGCCAGACATGAAGCTGATACGCGGCATACATAATCTCAGCCAGGCCCCGCA -AGAAGGGTGTGTGCTGACTATTGGTAATTTCGACGGCGTGCATCGCGGTCATCGCGCGCTGTTACAGGGCTTGCA -GGAAGAAGGGCGCAAGCGCAACTTACCGGTGATGGTGATGCTTTTTGAACCTCAACCACTGGAACTGTTTGCTAC -CGATAAAGCCCCGGCAAGACTGACCCGGCTGCGGGAAAAACTGCGTTACCTTGCAGAGTGTGGCGTTGATTACGT -GCTGTGCGTGCGTTTCGACAGGCGTTTCGCGGCGTTAACCGCGCAAAATTTCATCAGCGATCTTCTGGTGAAGCA -TTTGCGCGTAAAATTTCTTGCCGTAGGTGATGATTTCCGCTTTGGCGCTGGTCGTGAAGGCGATTTCTTGTTATT -ACAGAAAGCTGGCATGGAATACGGCTTCGATATCACCAGTACGCAAACTTTTTGCGAAGGTGGCGTGCGCATCAG -CAGCACCGCCGTGCGTCAGGCCCTTGCGGATGACAATCTGGCTCTGGCAGAGAGTTTACTGGGGCACCCGTTTGC -CATCTCCGGGCGTGTAGTCCACGGTGATGAATTAGGGCGCACTATAGGTTTCCCGACGGCGAATGTACCGCTGCG -CCGTCAGGTTTCCCCGGTGAAAGGGGTTTATGCGGTAGAAGTGCTGGGCCTCGGTGAAAAGCCGTTACCCGGCGT -GGCAAACATCGGAACACGCCCAACGGTTGCCGGTATTCGCCAGCAGCTGGAAGTGCATTTGTTAGATGTTGCAAT -GGACCTTTACGGTCGCCATATACAAGTAGTGCTGCGTAAAAAAATACGCAATGAGCAGCGATTTGCGTCGCTGGA -CGAACTGAAAGCGCAGATTGCGCGTGATGAATTAACCGCCCGCGAATTTTTTGGGCTAACAAAACCGGCTTAAGC -CTGTTATGTAATCAAACCGAAATACGGAACCGAGAATCTGATGAGTGACTATAAATCAACCCTGAATTTGCCGGA -AACAGGGTTCCCGATGCGTGGCGATCTCGCCAAGCGCGAACCCGGAATGCTGGCGCGTTGGACTGATGATGATCT -GTACGGCATCATCCGTGCGGCTAAAAAAGGCAAAAAAACCTTCATTCTGCATGATGGCCCTCCTTATGCGAATGG -CAGCATTCATATTGGTCACTCGGTTAACAAGATTCTGAAAGACATTATCGTGAAGTCCAAAGGGCTTTCCGGTTA -TGACTCGCCGTATGTGCCTGGCTGGGACTGCCACGGTCTGCCGATCGAGCTGAAAGTCGAGCAAGAATACGGTAA -GCCGGGTGAGAAATTCACCGCCGCCGAGTTCCGCGCCAAGTGCCGCGAATACGCGGCGACCCAGGTTGACGGTCA -ACGCAAAGACTTTATCCGTCTGGGCGTGCTGGGCGACTGGTCGCACCCGTACCTGACCATGGACTTCAAAACTGA -AGCCAACATCATCCGCGCGCTGGGCAAAATCATCGGCAACGGTCACCTGCACAAAGGCGCGAAGCCAGTTCACTG -GTGCGTTGACTGCCGTTCTGCGCTGGCGGAAGCGGAAGTTGAGTATTACGACAAAACTTCTCCGTCCATCGACGT -TGCTTTCCAGGCAGTCGATCAGGATGCACTGAAAGCAAAATTTGCCGTAAGCAACGTTAACGGCCCAATCTCGCT -GGTAATCTGGACCACCACGCCGTGGACTCTGCCTGCCAACCGCGCAATCTCTATTGCACCAGATTTCGACTATGC -GCTGGTGCAGATCGACGGTCAGGCCGTGATTCTGGCGAAAGATCTGGTTGAAAGCGTAATGCAGCGTATCGGCGT -GACCGATTACACCATTCTCGGCACGGTAAAAGGTGCGGAGCTTGAGCTGCTGCGCTTTACCCATCCGTTTATGGG -CTTCGACGTTCCGGCAATCCTCGGCGATCACGTTACCCTGGATGCCGGTACCGGTGCCGTTCACACCGCGCCTGG -CCACGGCCCGGACGACTATGTGATCGGTCAGAAATACGGCCTGGAAACCGCTAACCCGGTTGGCCCGGACGGCAC -TTATCTGCCGGGCACTTATCCGACGCTGGATGGCGTGAACGTCTTCAAAGCGAACGACATCGTCGTTGCGCTGCT -GCAGGAAAAAGGCGCGCTGCTGCACGTTGAGAAAATGCAGCACAGCTATCCGTGCTGCTGGCGTCACAAAACGCC -GATCATCTTCCGCGCGACGCCGCAGTGGTTCGTCAGCATGGATCAGAAAGGTCTGCGTGCGCAGTCACTGAAAGA -GATCAAAGGCGTGCAGTGGATCCCGGACTGGGGCCAGGCGCGTATCGAGTCGATGGTTGCTAACCGTCCTGACTG -GTGTATCTCCCGTCAGCGCACCTGGGGTGTACCGATGTCACTGTTCGTGCACAAAGACACGGAAGAGCTGCATCC -GCGTACCCTTGAACTGATGGAAGAAGTGGCAAAACGCGTTGAAGTCGATGGCATCCAGGCGTGGTGGGATCTCGA -TGCGAAAGAGATCCTCGGCGACGAAGCTGATCAGTACGTGAAAGTGCCGGACACATTGGATGTATGGTTTGACTC -CGGATCTACCCACTCTTCTGTTGTTGACGTGCGTCCGGAATTTGCCGGTCACGCAGCGGACATGTATCTGGAAGG -TTCTGACCAACACCGCGGCTGGTTCATGTCTTCCCTAATGATCTCCACCGCGATGAAGGGTAAAGCGCCGTATCG -TCAGGTACTGACCCACGGCTTTACCGTGGATGGTCAGGGCCGCAAGATGTCTAAATCCATCGGCAATACCGTTTC -GCCGCAGGATGTGATGAACAAACTGGGCGCGGATATTCTGCGTCTGTGGGTGGCATCAACCGACTACACCGGTGA -AATGGCCGTTTCTGACGAGATCCTGAAACGTGCTGCCGATAGCTATCGTCGTATCCGTAACACCGCGCGCTTCCT -GCTGGCAAACCTGAACGGTTTTGATCCAGCAAAAGATATGGTGAAACCGGAAGAGATGGTGGTACTGGATCGCTG -GGCCGTAGGTTGTGCGAAAGCGGCACAGGAAGACATCCTCAAGGCGTACGAAGCATACGATTTCCACGAAGTGGT -ACAGCGTCTGATGCGCTTCTGCTCCGTTGAGATGGGTTCCTTCTACCTCGACATCATCAAAGACCGTCAGTACAC -CGCCAAAGCGGACAGTGTGGCGCGTCGTAGCTGCCAGACTGCGCTATATCACATCGCAGAAGCGCTGGTGCGCTG -GATGGCACCAATCCTCTCCTTCACCGCTGATGAAGTGTGGGGCTACCTGCCGGGCGAACGTGAAAAATACGTCTT -CACCGGTGAGTGGTACGAAGGCCTGTTTGGCCTGGCAGACAGTGAAGCGATGAACGATGCGTTCTGGGACGAGCT -GTTGAAAGTGCGTGGCGAAGTGAACAAAGTCATTGAGCAAGCGCGTGCCGACAAGAAAGTGGGTGGCTCGCTGGA -AGCGGCAGTAACCTTGTATGCAGAACCGGAACTGTCGGCGAAACTGACCGCGCTGGGCGATGAATTACGATTTGT -CCTGTTGACCTCCGGCGCTACCGTTGCAGACTATAACGACGCACCTGCTGATGCTCAGCAGAGCGAAGTACTCAA -AGGGCTGAAAGTCGCGTTGAGTAAAGCCGAAGGTGAGAAGTGCCCACGCTGCTGGCACTACACCCAGGATGTCGG -CAAGGTGGCGGAACACGCAGAAATCTGCGGCCGCTGTGTCAGCAACGTCGCCGGTGACGGTGAAAAACGTAAGTT -TGCCTGATGAGTCAATCGATCTGTTCAACAGGGCTACGCTGGCTGTGGCTGGTGGTAGTCGTGCTGATTATCGAT -CTGGGCAGCAAATACCTGATCCTCCAGAACTTTGCTCTGGGGGATACGGTCCCGCTGTTCCCGTCGCTTAATCTG -CATTATGCGCGTAACTATGGCGCGGCGTTTAGTTTCCTTGCCGATAGCGGCGGCTGGCAGCGTTGGTTCTTTGCC -GGTATTGCGATTGGTATTAGCGTGATCCTGGCAGTGATGATGTATCGCTCGAAGGCCACGCAGAAGCTAAACAAT -ATCGCTTACGCGCTGATTATTGGCGGCGCGCTGGGCAACCTGTTCGACCGCCTGTGGCACGGCTTCGTTGTCGAT -ATGATCGACTTCTACGTCGGCGACTGGCACTTCGCCACCTTCAACCTTGCCGATACTGCCATCTGTGTCGGTGCG -GCACTGATTGTGCTGGAAGGTTTTTTGCCTTCTAGAGCGAAAAAACAATAATAAACCCTGCCGGATGCGATGCTG -ACGCATCTTATCCGGCCTACAGATTGCTGCGAAATCGTAGGCCGGATAAGGCGTTTACGCCGCATCCGGCAAAAA -TCCTTAAATATAAGAGCAAACCTGCATGTCTGAATCTGTACAGAGCAATAGCGCCGTCCTGGTGCACTTCACGCT -AAAACTCGACGATGGCACCACCGCCGAGTCTACCCGCAACAACGGTAAACCGGCGCTGTTCCGCCTGGGTGATGC -TTCTCTTTCTGAAGGGCTGGAGCAACACCTGTTGGGGCTGAAAGTGGGCGATAAAACCACCTTCTCGTTGGAGCC -AGATGCGGCGTTTGGCGTGCCGTCACCGGACCTGATTCAGTACTTCTCCCGCCGTGAATTTATGGATGCAGGCGA -GCCAGAAATTGGCGCAATCATGCTTTTTACCGCAATGGATGGCAGTGAGATGCCTGGCGTGATCCGCGAAATTAA -CGGCGACTCCATTACCGTTGATTTCAACCATCCGCTGGCCGGGCAGACCGTTCATTTTGATATTGAAGTGCTGGA -AATCGATCCGGCACTGGAGGCGTAACATGCAGATCCTGTTGGCCAACCCGCGTGGTTTTTGTGCCGGGGTAGACC -GCGCTATCAGCATTGTTGAAAACGCGCTGGCCATTTACGGCGCACCGATATATGTCCGTCACGAAGTGGTACATA -ACCGCTATGTGGTCGATAGCTTGCGTGAGCGTGGGGCTATCTTTATTGAGCAGATTAGCGAAGTACCGGACGGCG -CGATCCTGATTTTCTCCGCACACGGTGTTTCTCAGGCGGTACGTAACGAAGCAAAAAGTCGCGATTTGACGGTGT -TTGATGCCACCTGTCCGCTGGTGACCAAAGTGCATATGGAAGTCGCCCGCGCCAGTCGCCGTGGCGAAGAATCTA -TTCTCATCGGTCACGCCGGGCACCCGGAAGTGGAAGGGACAATGGGCCAGTACAGTAACCCGGAAGGGGGAATGT -ATCTGGTCGAATCGCCGGACGATGTGTGGAAACTGACGGTCAAAAACGAAGAGAAGCTCTCCTTTATGACCCAGA -CCACGCTGTCGGTGGATGACACGTCTGATGTGATCGACGCGCTGCGTAAACGCTTCCCGAAAATTGTCGGTCCGC -GCAAAGATGACATCTGCTACGCCACGACTAACCGTCAGGAAGCGGTACGCGCCCTGGCAGAACAGGCGGAAGTTG -TGTTGGTGGTCGGTTCGAAAAACTCCTCCAACTCCAACCGTCTGGCGGAGCTGGCCCAGCGTATGGGCAAACGCG -CGTTTTTGATTGACGATGCGAAAGACATCCAGGAAGAGTGGGTGAAAGAGGTTAAATGCGTCGGCGTGACTGCGG -GCGCATCGGCTCCGGATATTCTGGTGCAGAATGTGGTGGCACGTTTGCAGCAGCTGGGCGGTGGTGAAGCCATTC -CGCTGGAAGGCCGTGAAGAAAACATTGTTTTCGAAGTGCCGAAAGAGCTGCGTGTCGATATTCGTGAAGTCGATT -AAGTCATTAGCAGCCTAAGTTATGCGAAAATGCCGGTCTTGTTACCGGCATTTTTTATGGAGAAAACATGCGTTT -ACCTATCTTCCTCGATACTGACCCCGGCATTGACGATGCCGTCGCCATTGCCGCCGCGATTTTTGCACCCGAACT -CGACCTGCAACTGATGACCACCGTCGCGGGTAATGTCTCGGTTGAGAAAACTACCCGCAATGCCCTGCAACTGCT -GCATTTCTGGAATGCGGAGATTCCGCTCGCCCAAGGGGCCGCTGTGCCACTGGTACGCGCACCGCGTGATGCGGC -ATCTGTGCACGGCGAATCGGGAATGGCTGGCTACGACTTTGTTGAGCACAACCGAAAGCCGCTCGGGATACCGGC -GTTTCTGGCGATTCGGGATGCCCTGATGCGTGCACCAGAGCCTGTTACCCTGGTGGCCATCGGCCCGTTAACCAA -TATTGCGCTGTTACTTTCACAATGCCCGGAATGCAAGCCGTATATTCGCCGTCTGGTGATCATGGGTGGTTCTGC -CGGACGCGGCAACTGTACGCCAAACGCCGAGTTTAATATTGCTGCCGATCCAGAAGCTGCTGCCTGTGTCTTCCG -CAGTGGTATTGAAATCGTCATGTGCGGTTTGGATGTCACCAATCAGGCAATATTAACTCCTGACTATCTCTCTAC -ACTGCCGCAGTTAAACCGTACCGGGAAAATGCTTCACGCCCTGTTTAGCCACTACCGTAGCGGCAGTATGCAAAG -CGGCTTGCGAATGCACGATCTCTGCGCCATCGCCTGGCTGGTGCGCCCGGACCTGTTCACTCTCAAACCCTGTTT -TGTGGCAGTGGAAACTCAGGGCGAATTTACCTCAGGCACGACGGTGGTTGATATCGACGGTTGCCTGGGCAAGCC -AGCCAATGTACAGGTGGCATTGGATCTGGATGTGAAAGGCTTCCAGCAGTGGGTGGCTGAGGTGCTGGCTCTGGC -GTCGTAACCTGTCACATGTTATTGGCATGCAGTCATTCATCGACTCATGCCTTTCACTGATATCCCTCCCTGTTT -ATCATTAATTTCTAATTATCAGCGTTTTTGGCTGGCGGCGTAGCGATGCGCTGGTTACTCTGAAAACGGTCTATG -CAAATTAACAAAAGAGAATAGCTATGCATGATGCAAACATCCGCGTTGCCATCGCGGGAGCCGGGGGGCGTATGG -GCCGCCAGTTGATTCAGGCGGCGCTGGCATTAGAGGGCGTGCAGTTGGGCGCTGCGCTGGAGCGTGAAGGATCTT -CTTTACTGGGCAGCGACGCCGGTGAGCTGGCCGGAGCCGGGAAAACAGGCGTTACCGTGCAAAGCAGCCTCGATG -CGGTAAAAGATGATTTTGATGTGTTTATCGATTTTACCCGTCCGGAAGGTACGCTGAACCATCTCGCTTTTTGTC -GCCAGCATGGCAAAGGGATGGTGATCGGCACTACGGGGTTTGACGAAGCCGGTAAACAAGCAATTCGTGACGCCG -CTGCCGATATTGCGATTGTCTTTGCTGCCAATTTTAGCGTTGGCGTTAACGTCATGCTTAAGCTGCTGGAGAAAG -CAGCCAAAGTGATGGGTGACTACACCGATATCGAAATTATTGAAGCACATCATAGACATAAAGTTGATGCGCCGT -CAGGCACCGCACTGGCAATGGGAGAGGCGATCGCCCACGCCCTTGATAAAGATCTGAAAGATTGCGCGGTCTACA -GTCGTGAAGGCCACACCGGTGAACGTGTGCCTGGCACCATTGGTTTTGCCACCGTGCGTGCAGGTGACATCGTTG -GTGAACATACCGCGATGTTTGCCGATATTGGCGAGCGTCTGGAGATCACCCATAAGGCGTCCAGCCGTATGACAT -TTGCTAACGGCGCGGTAAGATCGGCTTTGTGGTTGAGTGGTAAGGAAAGCGGTCTTTTTGATATGCGAGATGTAC -TTGATCTCAATAATTTGTAACCACAAAATATTTGTTATGGTGCAAAAATAACACATTTAATTTATTGATTATAAA -GGGCTTTAATTTTTGGCCCTTTTATTTTTGGTGTTATGTTTTTAAATTGTCTATAAGTGCCAAAAATTACATGTT -TTGTCTTCTGTTTTTGTTGTTTTAATGTAAATTTTGACCATTTGGTCCACTTTTTTCTGCTCGTTTTTATTTCAT -GCAATCTTCTTGCTGCGCAAGCGTTTTCCAGAACAGGTTAGATGATCTTTTTGTCGCTTAATGCCTGTAAAACAT -GCATGAGCCACAAAATAATATAAAAAATCCCGCCATTAAGTTGACTTTTAGCGCCCATATCTCCAGAATGCCGCC -GTTTGCCAGAAATTCGTCGGTAAGCAGATTTGCATTGATTTACGTCATCATTGTGAATTAATATGCAAATAAAGT -GAGTGAATATTCTCTGGAGGGTGTTTTGATTAAGTCAGCGCTATTGGTTCTGGAAGACGGAACCCAGTTTCACGG -TCGGGCCATAGGGGCAACAGGTTCGGCGGTTGGGGAAGTCGTTTTCAATACTTCAATGACCGGTTATCAAGAAAT -CCTCACTGATCCTTCCTATTCTCGTCAAATCGTTACTCTTACTTATCCCCATATTGGCAATGTCGGCACCAATGA -CGCCGATGAAGAATCTTCTCAGGTACATGCACAAGGTCTGGTGATTCGCGACCTGCCGCTGATTGCCAGCAACTT -CCGTAATACCGAAGACCTCTCTTCTTACCTGAAACGCCATAACATCGTGGCGATTGCCGATATCGATACCCGTAA -GCTGACGCGTTTACTGCGCGAGAAAGGCGCACAGAATGGCTGCATTATCGCGGGCGATAACCCGGATGCGGCGCT -GGCGTTAGAAAAAGCCCGCGCGTTCCCAGGTCTGAATGGCATGGATCTGGCAAAAGAAGTGACCACCGCAGAAGC -CTATAGCTGGACACAAGGGAGCTGGACGTTGACCGGTGGCCTGCCAGAAGCGAAAAAAGAAGACGAGCTGCCGTT -CCACGTCGTGGCTTATGATTTTGGTGCCAAGCGCAACATCCTGCGGATGCTGGTGGATAGAGGCTGTCGCCTGAC -CATCGTTCCGGCGCAAACTTCTGCGGAAGATGTGCTGAAAATGAATCCAGACGGCATCTTCCTCTCCAACGGTCC -TGGCGACCCGGCCCCGTGCGATTACGCCATTACCGCCATCCAGAAATTCCTCGAAACCGATATTCCGGTATTCGG -CATCTGTCTCGGTCATCAGCTGCTGGCGCTGGCGAGCGGTGCGAAGACTGTCAAAATGAAATTTGGTCACCACGG -CGGCAACCATCCGGTTAAAGATGTGGAGAAAAACGTGGTAATGATCACCGCCCAGAACCACGGTTTTGCGGTGGA -CGAAGCAACATTACCTGCAAACCTGCGTGTCACGCATAAATCCCTGTTCGACGGTACGTTACAGGGCATTCATCG -CACCGATAAACCGGCATTCAGCTTCCAGGGGCACCCTGAAGCCAGCCCTGGTCCACACGACGCCGCGCCGTTGTT -CGACCACTTTATCGAGTTAATTGAGCAGTACCGTAAAACCGCTAAGTAATCAGGAGTAAAAGAGCCATGCCAAAA -CGTACAGATATAAAAAGTATCCTGATTCTGGGTGCGGGCCCGATTGTTATCGGTCAGGCGTGTGAGTTTGACTAC -TCTGGCGCGCAAGCGTGTAAAGCCCTGCGTGAAGAGGGTTACCGCGTCATTCTGGTGAACTCCAACCCGGCGACC -ATCATGACCGACCCGGAAATGGCTGATGCAACCTACATCGAGCCGATTCACTGGGAAGTTGTACGCAAGATTATT -GAAAAAGAGCGCCCGGACGCGGTGCTGCCAACGATGGGCGGTCAGACGGCGCTGAACTGCGCGCTGGAGCTGGAA -CGTCAGGGCGTGTTGGAAGAGTTCGGTGTCACCATGATTGGTGCCACTGCCGATGCGATTGATAAAGCAGAAGAC -CGCCGTCGTTTCGACGTAGCGATGAAGAAAATTGGTCTGGAAACCGCGCGTTCCGGTATCGCACACACGATGGAA -GAAGCGCTGGCGGTTGCCGCTGACGTGGGCTTCCCGTGCATTATTCGCCCATCCTTTACCATGGGCGGTAGCGGC -GGCGGTATCGCTTATAACCGTGAAGAGTTTGAAGAAATTTGCGCCCGCGGTCTGGATCTCTCTCCGACCAAAGAG -TTGCTGATTGATGAGTCGCTGATCGGCTGGAAAGAGTACGAGATGGAAGTGGTGCGTGATAAAAACGACAACTGC -ATCATCGTCTGCTCTATCGAAAACTTCGATGCGATGGGCATCCACACCGGTGACTCCATCACTGTCGCGCCAGCC -CAAACGCTGACCGACAAAGAATATCAAATCATGCGTAACGCCTCGATGGCGGTGCTGCGTGAAATCGGCGTTGAA -ACCGGTGGTTCCAACGTTCAGTTTGCGGTGAACCCGAAAAACGGTCGTCTGATTGTTATCGAAATGAACCCACGC -GTGTCCCGTTCTTCGGCGCTGGCGTCGAAAGCGACCGGTTTCCCGATTGCTAAAGTGGCGGCGAAACTGGCGGTG -GGTTACACCCTCGACGAACTGATGAACGACATCACTGGCGGACGTACTCCGGCCTCCTTCGAGCCGTCCATCGAC -TATGTGGTTACTAAAATTCCTCGCTTCAACTTCGAAAAATTCGCCGGTGCTAACGACCGTCTGACCACTCAGATG -AAATCGGTTGGCGAAGTGATGGCGATTGGTCGCACGCAGCAGGAATCCCTGCAAAAAGCGCTGCGCGGCCTGGAA -GTCGGTGCGACTGGATTCGACCCGAAAGTGAGCCTGGATGACCCGGAAGCGTTAACCAAAATCCGTCGCGAACTG -AAAGACGCAGGCGCAGATCGTATCTGGTACATCGCCGATGCGTTCCGTGCGGGCCTGTCTGTGGACGGCGTCTTC -AACCTGACCAACATTGACCGCTGGTTCCTGGTACAGATTGAAGAGCTGGTGCGTCTGGAAGAGAAAGTGGCGGAA -GTGGGCATCACTGGCCTGAACGCTGACTTCCTGCGCCAGCTGAAACGCAAAGGCTTTGCCGATGCGCGCTTGGCA -AAACTGGCGGGCGTACGCGAAGCGGAAATCCGTAAGCTGCGTGACCAGTATGACCTGCACCCGGTTTATAAGCGC -GTGGATACCTGTGCGGCAGAGTTCGCCACCGACACCGCTTACATGTACTCCACTTATGAAGAAGAGTGCGAAGCG -AATCCGTCTACCGACCGTGAAAAAATCATGGTGCTTGGCGGCGGCCCGAACCGTATCGGTCAGGGTATCGAATTC -GACTACTGTTGCGTACACGCCTCGCTGGCGCTGCGCGAAGACGGTTACGAAACCATTATGGTTAACTGTAACCCG -GAAACCGTCTCCACCGACTACGACACTTCCGACCGCCTCTACTTCGAGCCGGTAACTCTGGAAGATGTGCTGGAA -ATCGTGCGTATCGAGAAGCCGAAAGGCGTTATCGTCCAGTACGGCGGTCAGACCCCGCTGAAACTGGCGCGCGCG -CTGGAAGCTGCTGGCGTACCGGTTATCGGCACCAGCCCGGATGCTATCGACCGTGCAGAAGACCGTGAACGCTTC -CAGCATGCGGTTGAGCGTCTGAAACTGAAACAACCGGCGAACGCCACCGTTACCGCTATTGAAATGGCGGTAGAG -AAGGCGAAAGAGATTGGCTACCCGCTGGTGGTACGTCCGTCTTACGTTCTCGGCGGTCGGGCGATGGAAATCGTC -TATGACGAAGCTGACCTGCGTCGCTACTTCCAGACGGCGGTCAGCGTGTCTAACGATGCGCCAGTGTTGCTGGAC -CACTTCCTCGATGACGCGGTAGAAGTTGACGTGGATGCCATCTGCGACGGCGAAATGGTGCTGATTGGCGGCATC -ATGGAGCATATTGAGCAGGCGGGCGTGCACTCCGGTGACTCCGCATGTTCTCTGCCAGCCTACACCTTAAGTCAG -GAAATTCAGGATGTGATGCGCCAGCAGGTGCAGAAACTGGCCTTCGAATTGCAGGTGCGCGGCCTGATGAACGTG -CAGTTTGCGGTGAAAAACAACGAAGTCTACCTGATTGAAGTTAACCCGCGTGCGGCGCGTACCGTTCCGTTCGTC -TCCAAAGCCACCGGCGTACCGCTGGCAAAAGTGGCGGCGCGCGTGATGGCTGGCAAATCGCTGGCTGAGCAGGGC -GTAACCAAAGAAGTTATCCCGCCGTACTACTCGGTGAAAGAAGTGGTGCTGCCGTTCAATAAATTCCCGGGCGTT -GACCCGCTGTTAGGGCCAGAAATGCGCTCTACCGGGGAAGTCATGGGCGTGGGCCGCACCTTCGCTGAAGCGTTT -GCCAAAGCGCAGCTGGGCAGCAACTCCACCATGAAGAAACACGGTCGTGCGCTGCTTTCCGTGCGCGAAGGCGAT -AAAGAACGCGTGGTGGACCTGGCGGCAAAACTGCTGAAACAGGGCTTCGAGCTGGATGCGACCCACGGCACGGCG -ATTGTGCTGGGCGAAGCAGGTATCAACCCGCGTCTGGTAAACAAGGTGCATGAAGGCCGTCCGCACATTCAGGAC -CGTATCAAGAATGGCGAATATACCTACATCATCAACACCACCTCAGGCCGTCGTGCGATTGAAGACTCCCGCGTG -ATTCGTCGCAGTGCGCTGCAATATAAAGTGCATTACGACACCACCCTGAACGGCGGCTTTGCCACCGCGATGGCG -CTGAATGCCGATGCGACTGAAAAAGTAATTTCGGTGCAGGAAATGCACGCACAGATCAAATAATAGCGTGTCATG -GCAGATATTTTTCATCCGCTAATTTGATCGAATAACTAATACGGTTCTCTGATGAGGACCGTTTTTTTTTGCCCA -TTAAGTAAATCTTTTGGGGAATCGATATTTTTGATGACATAAGCAGGATTTAGCTCACACTTATCGACGGTGAAG -TTGCATACTATCGATATATCCACAATTTTAATATGGCCTTGTTTAATTGCTTCAAAACGAGTCATAGCCAGACTT -TTAATTTGTGAAACTGGAGTTCGTATGTGTGAAGGATATGTTGAAAAACCACTCTACTTGTTAATCGCCGAATGG -ATGATGGCTGAAAATCGGTGGGTGATAGCAAGAGAGATCTCTATTCATTTCGATATTGAACACAGCAAGGCGGTT -AATACCCTGACTTATATTCTGTCGGAAGTCACAGAAATAAGCTGCGAAGTTAAGATGATCCCTAATAAGCTGGAA -GGGCGGGGATGCCAGTGTCAGCGACTGGTTAAAGTGGTCGATATCGATGAGCAAATTTACGCGCGCCTGCGCAAT -AACAGTCGGGAAAAATTAGTCGGTGTAAGAAAGACGCCGCGTATTCCTGCCGTTCCGCTCACGGAACTTAACCGC -GAGCAGAAGTGGCAGATGATGTTGTCAAAGAGTATGCGTCGTTAATTTTATCTCGTTGATACCGGGCGTCCTGCT -TGCCAGATGCGATGTTGTAGCATCTTATCCAGCAACCAGGTCGCATCCGGCAAGATCACCGTTTAGGCGTCACAT -CCGTCGTCCCCTGCAAACGGGGGCGATTTTCCTCCATTTGCCTCAGTGGCTGCGTTTCATGTAACGATACATGAC -AGCGCCCGACAAGATCCTGATACTCTTTGGTATTCAACCGTTTCCAGTGTAACTCGTCGTCACTAACATTGCGTA -CAGCGCGGGCTGGCGTACCCATCAACAACTGGCGTTTCTCGCCGCGAAAGCCCGCTTTGACAAAGCTCATGGCGG -CAACAATGCTCTCTTCGCCAATGACCGCGCCATCCATAATCACGCTGTTCATCCCGACCAATGCATCGCGACCAA -TCAAACAACCATGCAGGATCGCTCCGTGCCCGATATGGCCGTTTTCCCCAACGATAGTGTCAGTGTCGCAGTAGC -CATGCATAATGCAGCCATCCTGAATATTGGCTCCCGCTTGCACGATCAACCGCCCGTAGTCACCACGCAGTGAGG -CGAGTGGGCCGATGTAGACACCGGCTCCCACAATCACATCGCCAATCAAGACGGCACTGGGATGGACAAACGCCG -TCGGGTGAACCACCGGAATTAACCCCTCAAAGGCGTAATAGCTCACGGTTGTTAACGTCCTTTCCACACCGGATC -GCGCTTCTCGGCAAACGCCAGCGGCCCTTCAATGGCATCTTCCGAATGCAGAACCGATGGATAGTGTTTCAACAC -GCCGCTGCGAATATAGCGATACGCTTCTTCTACCGGCATTTCGCTGGTGGTGCGGTAGATCTCTTTCAGCGCCGC -AATCGCCAGCGGGGCGCTGTTAACCAGCTGCTGAGCCAGTTCGCGGGCGTTATCCATCAGTTCCGCCTGGCTAAC -CACGCGGTTGACTATCCCCCAACGCAGCGCCTCTTCTGCGCCCATTCGTCTGCCGGTCATCACCATTTCATTGAC -GATGGCAGGCGGCAGGATCTTCGGCAGACGCAGCACACCGCCGCTGTCAGGAACGATGCCCAGTTTGGCTTCCGG -CAGGGCGAAGCTGGCGTTATCGGCACAAACAATAAAATCTGCCGCCAGCGCCAGTTCAAAGCCGCCGCCAAAGGC -ATAGCCGTTCACAGCTGCGATAACCGGTTTGTCGAGATTGAAAATTTCGGTTAATCCCGCAAAACCACCCGGACC -AAAGTCAGCATCCGGTGCTTCGCCTTCTGCTGCCGCTTTTAAATCCCAGCCCGCGGAAAAGAACTTCTCTCCGGC -ACCGGTAATAATGGCGACACGTAATTGCGGATCGTCACGGAAATTTAGAAATACTTCGCCCATTTCAAAGCTGGT -TTTTGCATCAATAGCATTCGCTTTTGGACGATCAAGGGTAATTTCCAGAATTGATCCATTGCGGGTCAGATGTAA -TGATTCACTCATTCCTTTTCTCCATTTTTGCTTTTTCAGGGACGACAACATCCCTGCAAAAAATGCATATTGTTT -TAGAGTGTGATTATTAGCTGGCAGGGTAGTTCCCTGCTGTTTCATTTATTTCAGATTCTTTCTAATTATTTTCCC -CGAGCAATTACGTGGCAGATCTTTTCTGATCTCCAGATAAGAGGGCACTTTAAATTTCGCCATATTTTGTTCGCA -GAAGCGGAAAAATTCCTCTTCGCTCAATGTTTCACCTTCATTCAGCACCACAAATGCTTTGATGGCTTCATCGCG -AATCGAATCTTTAATACCCACAACCACGATGTCCTGAATTTTCGGGTGCGCGGCGATAATATTTTCCAGCTCCAC -GCAGGAGACATTCTCGCCGCCACGTTTAATCATATTGCAGCGGCGATCGACGAAATAAAAAAAGTCCTCTTCGTC -GCGGTATCCGGTATCGCCGGTATGCAGCCAGCCATCGGCTTCCAGCACTTTCGCAGTGGCTTGTGGGTTGAGAAA -GTACTCTTTGAAGATGGTTTTCCCAGGTATGCCTTTAATGCAGATTTCACCGATCTCACCAGCCGGGAGCGGGCG -ATTGTGATCGTCGCGGATCTCCGCTTCGTAGCAAAACCCCACCCGACCAATCGACGGCCAGCGTCGTTTATCGCC -AGGACGATCGCCGATAATGCCCACAATGGTTTCCGTCATCCCATAAGACGTCAGCAAGCGAACGCCGAAGCGTTC -ACAAAACGCATCTTTTTCCTGCTCCGACAAGTTGAGATAAAACATCACTTCCCGCAGGCGGTGTTGCTGATCGTT -CGCTGAAGGCGGCTGTACCATCAACGTACGGATCATCATCGGAATACATTCGGTAACGGTGGCGCGGTACTTCTG -TACCTGTCCCCAGAAGGCGCGGGCGCTGTATTTCTCGACCAGCACAAAGGTGGCCCCGGCAGAAAACGCCGCCAT -CGCCGCAGTACACTGGCAATCGATATGAAACGCAGGCATTACCGTCAGGTAGACGTCATCGTCACGCAGTGCACA -CTGCCAGGCGGAGTAATATCCAGCGAAGCGCAGGTTGTAATGGGTAATCACCACACCTTTCGGTCGGGAGGTGGT -GCCGGAGGTGAAGAGAATTTCCGCCGTATCGTCAGTCGATAGCGGCGGTGCATAGCACAAGGTGGCAGGTTGTTG -ATTTTTCAGTTGAGTAAACGAACTCACGCCATCATCAGCGGGAAGTGCCACATCTGTCAGGCAAATGTGCCGCAA -TTGAGTGGCATCTTCCTGCTGAATCTGTTGATACATAGGATAGAATTGCGCACTGGTCACCAGCAGGCACGCCTG -GCTATTTTGCAGGATCCACGCGCTTTCCTCGCACAACAGGCGGGCGTTAATCGGCACCATAATCGCGCCAATTTT -TGCCAGCCCGAACCAGCAAAAGATAAATTCCGGGCAGTTGTCGAGATGTAGTGCAACCTTGTCGCCTTTGCGAAT -CCCCAGCGTATAAAACAGGTTTGCCGTGCGGTTAATCTCCTGATTTAACTCAAGATAACTATACCGGTTAACGAC -TCCGCCGCTGGATTCACAAATCAGCGCCGTTTTATGACCGTAAACGTCCGCAAGATCGTCCCACATTTGACGTAG -ATGTTGTCCGCCAATGATATCCATTGCACCTCTATCCATTTTTGTTCGTTTGTTATTGGGCGGGCGCTAGTCAGG -CAAGCCGACTGACGCCACGCGTTTAGTCCTCAACTTTGGCCAGACCTTTGCTGACCAACTCCTGAATGTCGTTTT -CGCTGTAGCCGATATTTTTCAAAATGGCAGCCGTGTCCATGCCATGTGAGGGCATTCCGCGCCAGATTTGTCCGG -GGTTATTTTTGAATTTCGGCATGATGTTCGGCCCTTTGCAGGTGCGACCATCCATCGTTTGCCACTGAGTGATTG -ATTCGCGAGCCACATACTGTGGATTGCTTTCCAGTTCCGGTACGGTCAGCACTTTGGCGCAGGCGATATTCAGTT -CAGCAAAGCGTTCTTTTACTTCCGCGATGGTATGTGTCGCCAGCCAGGCATCGAGTTTCTCTTCAACCAGTGGGC -CGTAAGGGCATTCGATACGGTGGATAAGCTGAGTGCCTTCCGGGATTTCTGGCGTGCCAAGCAGATGTGCGAGGC -CAATATCTTTAAAGCACTCTTCAATTTGGGTAATGCCCACCAGTTCCATCACGATGTAGCCGTCGGCACATTTAT -ACAGACCGCAACCGGCGTAGTAGGGATCTTTACCTTTGCTCATGCGCGGGCACATTTCGCCGCCGTTGAAGTAAT -CCATCATGAAGTACTGGCCCATACGCAGCATCACTTCATACATGGCGATGTCGATACTTTCGCCTTTACCGGTTT -CACGCACTTTATGCAGTGCTGCCAGCGCCGCCGTGGTGGCGGTCAGGCCAGAAAAGTAATCGGCGGTATACGGGA -AGGCAGGCATTGGCTGGTCAACATCACCGTTCTGAATCAGGTAACCACTAAAGGCCTGGGCGATAGTGTTATAGG -CCGGAAGATTGGTGTACTCCTCGGTGCCGTACTGACCAAAACCGGACAGGTGAGCGATAACCAGTTTCGGGTTGT -GCTGCCACAGTACTTCATCGGTAATGCCACGACGGGCAAAGGCCGGACCTTTACTGGCTTCGATGAAGATATCGG -TGGTTTCCATTAATTTCAGAAACGCTTCGCGGCCTTCATCTTTGAAAATATTTAACGACAGCGCGTGCAAATTGC -GGCGGGAGAGTTGCGGGTAGTTCGGTTGAACGCGAATGGTGTCGGCCCAGGCGACGTTCTCGATCCAGATAACTT -CCGCGCCCCATTCTGCGAACATTTGCCCGGCAAACGGTCCGGCGATTTCGATACCGGAGAAGACAACGCGCAATC -CGGCCAACGGCCCGAATTTCGGCATGGGTAGATGATCCATTATTTGCTCCTGAAAAATTTATGTAGCGCATGACT -GCCGGATGCGGCGTAAACGCTTTATCCGGCCTACATTCGTGCTCCCGTAGGCCTGATAAGACGCATCAGCGTCGC -ATCAGGCAGCGCACGGACTTAGCGGTATTGCTTCAGCACCGCACGACCCAGCGTCAGGATCTGCATTTCGTCAGA -TCCCCCGGAGACGCGGTCTACACGCAGATCACGCCAGAAGCGGCTGATGCGGTGGTTGCCCGCAATCCCGACACC -GCCCAGCACCTGCATTGCGCTATCCACAACTTCAAATGCCGCATTGGCGCAGAAGTATTTGCACATCGCTGCATC -GCCAGAGGTGATGGTGCCGTTGTCTGCTTTCCACGCTGCTTCATACAGCATGTTTTTCATGGAGTTTAATTTGAT -CGCCATGTGGGCGAATTTTTCCTGAATCAACTGGAAACGACCAATAGCCTCGCCAAACTGCACGCGCTGATTGGC -GTAGCGCGCCGCATCTTCAAAGGCGCACATCGCCGTACCGTAGTTGGTGAGGGCTACCAGGAAACGTTCATGGTC -GAACTCTTCTTTGACGCGGTTAAAGCCGTTACCTTCCCGACCGAACATGTCTTTCTCGTCCAGTTCCACGTCGTC -AAAGGTGATTTCACAGCAGCTATCCATACGCAGACCGAGCTTTTCAAGTTTGGTCACTTTGATGCCCGGTTTGCT -CATATCAACAAACCATTCGGTGTAGACAGGTTTGTCCGGAGAAGCCCCGTCGCGCGCCATCACCACGATGTACGG -GGTGTAGGCGCTGCTGGTAATAAAACACTTACTACCATTAAGATAAATCTTACCATTTCTACGGGTATAAGTCGT -TTTCAGGCTACCCACGTCGGAGCCCGCGCCCGGTTCGGTAATCGCTGAGTTCCACATCTGCTTACCGGTGCCGCG -GAAAGCCATAATTTTGTCGATCTGCTCTTGTGTGCCTTCGCGCAGGAAGGTGTTGAACCCGCCCGGCAACTGGTA -CAGCACATAGGTTGGTGCCCCCAGACGTCCCAGCTCCATCCACACGGCGGCGAGAGTAACAAACCCCGCGTCCAG -ACCACCGTGCTCTTCAGGGATCAGCAGACTGTCGATACCCATATCCGCCAGTGCTTTGACAAAACGTTCCGGGTA -GACGCTGTCACGGTCGCACTCGGCAAAATAGGCCTCCCAGTTTTCGCTGGCCATCAGTTCGCGGATACCGGCGAC -AAACAGTTCCTGCTCATCATTTAAATTAAAATCCATCTTTCAACCTCTTGATATTTTGGGGGTTAATTAATCTTT -CCAGTTCTGTTTCGCGTCTTTAATAAAGGAGAGCGTCACCATAATGTTGACGAAGAACAGCGGGCATCCTCCGGC -GATAATGGCGGTTTGAATCGGTTTCAGGCCGCCGAGCGCCAGCAGAACAATACCGATAATGCCAACCAGAATTGA -CCAACCGATACGCACCAGCAGAGGTGGTTCTTCACCATCGCGTACTTCGCGGCAAGTGGACATCGCCAGGGTATA -AGAGCAGGCGTTAACCAGCGTAACGGTGGCAATAAAGCAGAGGATGAAGAAGCCCCACATGGTGGCGGTGCTGAG -TGGCAGAGCGGCCCAGGTTTCAATGATGGCGCGCGCCACACCGTACTGTTCGATCAGATTTGGAATGTTGATGAT -GTTTTTATCTATCAACAGCAGAGTGTTACTACCGAGTACAGTCCACAGGATCCAGGTTGACGCTGTCAGCCCCAG -CACCATGCCGAAGCACAGTTCACGCACAGTACGACCACGGGAGATGCGGGCGAGGAAGATACTCATCTGGATAGC -ATAAATCACCCACCATGCCCAGTAGAACACGGTCCAGCCCTGCGGGAAGCCGCCTTTAGCGATGGGATCGGTATA -GAACAACATGCGCGGCAGATACATCAGCAACATCCCCACCGAATCGGTGAAGTAGTTCATGATGAAGCTGGCACC -GCTGACAATGAACACCCAACCCAGCATCAGGAAGCTCAGGTAACTACGCACGTCACTGGCGATACGTACCCCTTT -TTGCAGACCGCAAGCGACGCAAATGGCGTTGAGGATAATCCAGCAGGTAATGATGATAGCGTCCAGTTGCAGGGT -ATGCGGAATGCCAAACAACCATTGCATACACTCGGTCACCAGCGGCGTGGCAAGGCCCAGACTGGTACCCATCGC -GAAGATCAAGGCGACGAGATAGAAGTTGTCGACGATAGTGCCGAACAACCCTTTGGCGTGTTTTTCACCTACCAG -CGGCACCAGTGTCGAGCTGGGGCGAATCACTTCCATTTTGCGGACAAAGAAGAAGTAAGCGAAGGCGACTGAAAG -GAAGCTGTAAGTGGCCCACGGCAGAGGTCCCCAGTGGAACAAGCTGTAAGCCAGCCCCAACTCTTTCGCCCCTGT -CGAGTTCGGTTCTAAGCCAAACGGCGGGGTGGAGATGTAGTAGTAGATCTCAATCGATCCCCAGAACAGTACGGC -AGCAGACGTACAGGAGGCGAACATCATAAAGATCCAACTGGCGGTGCTAAATTCTGGCGGTTCGTTACCTAAACG -CTTTTTGGCATACGGGCCAAACACCAGCCAGAACCAACCGAAAAGCATCACCACCATATACCATTCAAATGCCCA -TCCCCATACATTGGTGACGTAACTGAATACAGCATTAATAACGACATTCGCTGCATCCAGATCTCTGACTGTAAG -CCAACAAAGTATGCCGACGATTATTAACGGCGGAAAGAAAACCTTCGGTTCTATTCCCGTTTTTCTCTTTTCATT -CTTCATGAGTTAATTCCACTGTGAAAACGAATATTTATTTTGCGTTCCCGTTTGTTTTATTTTTGTTAACATTTA -ATATAATTATTATTAACCTCGTGGACGCGTTAATGGCTAACTCATAATGGGTATTCAATAAGCTGTATTCTGTGA -TTGGTATCACATTTTTGTTTCGGGTGAATAGAGGGCGTTTTTTCGTTAATTTTGATTAATAATCAGTTTGTTATG -CTCTGTTGTGAGTAAAAAATAACATCTGACTTTCAATATTGGTGATCCATAAAACAATATTGAAAATTTCTTTTT -GCTACGCCGTGTTTTCAATATTGGTGAGGAACTTAACAATATTGAAAGTTGGATTTATCTGCGTGTGACATTTTC -AATATTGGTGATTAAAGTTTTATTTCAAAATTAAAGGGCGTGATATCTGTAATTAACACCACCGATATGAACGAC -GTTTCCTTCATGATTTCTGGAGATGCAATGAAGATTATTACTTGCTATAAGTGCGTGCCTGATGAACAGGATATT -GCGGTCAATAATGCTGATGGTTCATTAGACTTCAGCAAAGCCGATGCCAAAATAAGCCAATACGATCTCAACGCT -ATTGAAGCGGCTTGCCAGCTAAAGCAACAGGCAGCAGAGGCGCAGGTGACAGCCTTAAGTGTGGGCGGTAAAGCC -CTGACCAACGCCAAAGGGCGTAAAGATGTGCTATCGCGCGGCCCGGATGAACTGATTGTGGTGATTGATGACCAG -TTCGAGCAGGCACTGCCGCAACAAACGGCGAGCGCACTGGCTGCAGCCGCCCAGAAAGCAGGCTTTGATCTGATC -CTCTGTGGCGATGGTTCTTCCGACCTTTATGCCCAGCAGGTTGGTCTGCTGGTGGGCGAAATCCTCAATATTCCG -GCAGTTAACGGCGTCAGCAAAATTATCTCCCTGACGGCAGATACCCTCACCGTTGAGCGCGAACTGGAAGATGAA -ACCGAAACCTTAAGCATTCCGCTGCCTGCGGTTGTTGCTGTTTCCACTGATATCAACTCCCCACAAATTCCTTCG -ATGAAAGCCATTCTCGGCGCGGCGAAAAAGCCCGTCCAGGTATGGTCGGCGGCGGATATTGGTTTTAACGCAGAG -GCAGCCTGGTCAGAACAACAGGTTGCCGCGCCGAAACAGCGCGAACGTCAGCGCATCGTGATTGAAGGCGACGGC -GAAGAACAGATCGCCGCATTTGCTGAAAATCTTCGCAAAGTCATTTAATTACAGGGGATGCTATGAACACGTTTT -CTCAAGTCTGGGTATTCAGCGATACCCCTTCTCGTCTGCCGGAACTGATGAACGGTGCGCAGGCTTTAGCTAATC -AAATCAACACCTTTGTCCTCAATGATGCCGACGGCGCACAGGCAATCCAGCTCGGCGCTAATCATGTCTGGAAAT -TAAACGGCAAACCGGACGATCGGATGATCGAAGATTACGCCGGTGTCATGGCTGACACTATTCGCCAGCACGGCG -CAGACGGCCTGGTGCTGCTGCCAAACACCCGTCGCGGCAAATTACTGGCGGCAAAACTGGGTTATCGCCTTAAAG -CGGCGGTGTCTAACGATGCCAGCACCGTCAGCGTACAGGACGGTAAAGCGACAGTGAAACACATGGTTTACGGTG -GTCTGGCGATTGGCGAAGAACGCATTGCCACGCCGTATGCGGTACTGACCATCAGCAGCGGCACGTTCGATGCGG -CTCAGCCAGACGCGTCACGCACTGGCGAAACGCACACCGTGGAGTGGCAGGCTCCGGCTGTGGCGATTACCCGCA -CGGCAACCCAGGCGCGCCAGAGCAACAGCGTCGATCTCGACAAAGCCCGTCTGGTGGTCAGCGTCGGTCGCGGTA -TTGGCAGCAAAGAGAACATTGCGCTGGCAGAACAGCTTTGCAAGGCGATAGGTGCGGAGTTGGCCTGTTCTCGTC -CGGTGGCGGAAAACGAAAAATGGATGGAGCACGAACGCTATGTCGGTATCTCCAACCTGATGCTGAAACCTGAAC -TGTACCTGGCGGTGGGGATCTCCGGGCAGATCCAGCACATGGTTGGCGCTAACGCGTCGCAAACCATTTTCGCCA -TCAATAAAGATAAAAATGCGCCGATCTTCCAGTACGCGGATTACGGCATTGTTGGCGACGCCGTGAAGATCCTTC -CGGCGCTGACCGCAGCTTTAGCGCGTTGATCCACTCTGGCAGGGCTGCATTTTGGCCCTGCCGCTGACAGGGAGC -TCTTATGTCCGAAGATATCTTTGACGCCATCATCGTCGGTGCAGGGCTTGCCGGTTCGGTTGCCGCACTGGTGCT -CGCCCGCGAAGGTGCGCAAGTGTTAGTTATCGAGCGTGGCAATTCCGCAGGTGCCAAGAACGTCACCGGCGGGCG -TCTCTATGCCCACAGTCTGGAACACATTATTCCTGGTTTCGCCGACTCCGCCCCCGTAGAACGCCTGATCACCCA -TGAAAAACTCGCGTTTATGACGGAAAAGTCAGCGATGACTATGGACTACTGCAATGGTGACGAAACCTCGCCATC -CCAGCGTTCTTACTCCGTTTTGCGCAGTAAATTTGATGCCTGGCTGATGGAGCAGGCCGAAGAAGCGGGCGCGCA -GTTAATTACCGGGATCCGCGTCGATAACCTCGTACAGCGCGATGGCAAAGTCGTCGGTGTAGAAGCCGATGGCGA -TGTGATTGAAGCGAAAACGGTGATCCTTGCTGATGGGGTGAACTCCATCCTTGCCGAAAAATTGGGGATGGCAAA -ACGCGTCAAACCGACGGATGTGGCGGTTGGCGTGAAGGAACTGATCGAGTTACCGAAGTCGGTTATTGAAGACCG -TTTTCAGTTGCAGGGTAATCAGGGGGCGGCTTGCCTGTTTGCGGGATCACCCACCGATGGCCTGATGGGCGGCGG -CTTCCTTTATACCAATGAAAACACCCTGTCGCTGGGGCTGGTTTGTGGTTTGCATCATCTGCATGACGCGAAAAA -ATCGGTGCCGCAAATGCTGGAAGATTTCAAACAGCATCCGGCCGTTGCACCGCTGATCGCGGGCGGCAAGCTGGT -GGAATATTCCGCTCACGTAGTGCCGGAAGCAGGCATCAACATGCTGCCGGAGTTGGTTGGTGACGGCGTATTGAT -TGCCGGTGATGCCGCCGGAATGTGTATGAACCTCGGTTTTACCATTCGCGGTATGGATCTGGCGATTGCCGCCGG -GGAAGCCGCAGCAAAAACCGTGCTTTCAGCGATGAAAAGCGACGATTTCAGTAAGCAAAAACTGGCGGAATATCG -TCAGCATCTTGAGAGTGGTCCGCTGCGCGATATGCGTATGTACCAGAAACTACCGGCGTTCCTTGATAACCCACG -CATGTTTAGCGGCTACCCGGAGCTGGCGGTGGGTGTGGCGCGTGACCTGTTCACCATTGATGGCAGCGCGCCGGA -ACTGATGCGCAAGAAAATCCTCCGCCACGGCAAGAAAGTGGGCTTCATCAATCTAATCAAGGATGGCATGAAAGG -AGTGACCGTTTTATGACTTCTCCCGTCAATGTGGACGTCAAACTGGGCGTCAATAAATTCAATGTCGATGAAGAG -CATCCGCACATTGTTGTGAAGGCCGATGCTGATAAACAGGCGCTGGAGCTGCTGGTGAAAGCGTGCCCCGCAGGT -CTGTACAAGAAGCAGGATGACGGCAGTGTGCGCTTCGATTACGCCGGATGTCTGGAGTGCGGCACCTGTCGCATT -CTGGGGCTGGGGTCGGCGCTGGAACAGTGGGAATACCCGCGCGGCACCTTTGGTGTGGAGTTCCGTTACGGCTGA -TGTTGGTTTGATACGTAACGCCGCACTGACTCTCATTGCAAAAAACAGGAATAACCATGCAACCGTCCAGAAACT -TTGACGATCTCAAATTCTCCTCTATTCACCGCCGCATTTTGCTGTGGGGAAGCGGTGGTCCGTTTCTGGATGGTT -ATGTACTGGTAATGATTGGCGTGGCGCTGGAGCAACTGACGCCGGCGCTGAAACTGGACGCTGACTGGATTGGCT -TGCTGGGCGCGGGAACGCTCGCCGGGCTGTTCGTTGGCACATCGCTGTTTGGTTATATTTCCGATAAAGTCGGAC -GGCGCAAAATGTTCCTCATTGATATCATCGCCATCGGCGTGATATCGGTGGCGACGATGTTTGTTTCATCCCCCG -TCGAACTGTTGGTGATGCGGGTACTTATCGGCATTGTCATCGGTGCAGATTATCCCATCGCCACCTCAATGATCA -CCGAGTTCTCCAGTACCCGTCAGCGGGCGTTTTCCATCAGCTTTATTGCCGCGATGTGGTATGTCGGCGCGACCT -GTGCCGATCTGGTCGGCTACTGGCTTTATGATGTGGAAGGCGGCTGGCGCTGGATGCTGGGTAGCGCGGCGATCC -CCTGTTTGTTGATTTTGATTGGTCGATTCGAACTGCCTGAATCTCCCCGCTGGTTATTACGCAAAGGGCGAGTAA -AAGAGTGCGAAGAGATGATGATCAAACTGTTTGGCGAACCGGTGGCTTTCGATGAAGAGCAGCCGCAGCAAACCC -GTTTTCGCGATCTGTTTAATCGCCGCCATTTTCCTTTTGTTCTGTTTGTTGCCGCCATCTGGACCTGCCAGGTGA -TCCCAATGTTCGCCATTTACACCTTTGGCCCGCAAATCGTTGGTTTGTTGGGATTGGGGGTTGGCAAAAACGCGG -CACTAGGGAATGTGGTGATTAGCCTGTTCTTTATGCTCGGCTGTATTCCGCCGATGCTGTGGTTAAACACTGCCG -GACGGCGTCCATTGTTGATTGGCAGCTTTGCCATGATGACGCTGGCGCTGGCGGTTTTGGGGCTAATCCCGGATA -TGGGGATCTGGCTGGTAGTGATGGCCTTTGCGGTGTATGCCTTTTTCTCTGGCGGGCCGGGTAATTTGCAGTGGC -TCTATCCTAATGAACTCTTCCCGACAGATATCCGCGCCTCTGCCGTGGGCGTGATTATGTCCTTAAGTCGTATTG -GCACCATTGTTTCGACCTGGGCACTACCGATCTTTATCAATAATTACGGTATCAGTAACACGATGCTAATGGGGG -CGGGTATCTCGCTGTTTGGCTTGTTGATTTCCGTAGCGTTTGCCCCGGAGACTCGAGGGATGTCACTGGCGCAGA -CCAGCAATATGACGATCCGCGGGCAGAGAATGGGGTAAATTGTTCAGATTTCTCTCTTTTCTGAATCAATATTAT -TGACTATAAGCCGCGTGAATATATGACTACACTTTGTGGGAAAACAAAGGCGTAATCACGCGGGCTACCTATGAT -TCTTATAATTTATGCGCATCCGTATCCGCATCATTCCCATGCGAATAAACGGATGCTTGAACAGGCAAGGACGCT -GGAAGGCGTCGAAATTCGCTCTCTTTATCAACTCTATCCTGACTTCAATATCGATATTGCCGCCGAGCAGGAGGC -GCTGTCTCGCGCCGATCTGATCGTCTGGCAGCATCCGATGCAGTGGTACAGCATTCCTCCGCTCCTCAAACTTTG -GATCGATAAAGTTTTCTCCCACGGCTGGGCTTACGGTCATGGCGGCACGGCGCTGCATGGCAAACATTTGCTGTG -GGCGGTGACGACCGGCGGCGGGGAAAGCCATTTTGAAATTGGTGCGCATCCGGGCTTTGATGTGCTGTCGCAGCC -GCTACAGGCGACGGCAATCTACTGCGGGCTGAACTGGCTGCCACCGTTTGCCATGCACTGCACCTTTATTTGTGA -CGACGAAACCCTCGAAGGGCAGGCGCGTCACTATAAGCAACGTCTGCTGGAATGGCAGGAGGCCCATCATGGATA -GCCATACGCTGATTCAGGCGCTGATTTATCTCGGTTCGGCAGCGCTGATTGTACCCATTGCGGTACGTCTTGGTC -TGGGATCGGTACTTGGCTACCTGATCGCCGGCTGCATTATTGGCCCGTGGGGGCTGCGACTGGTGACCGATGCCG -AATCTATTCTGCACTTTGCCGAGATTGGGGTGGTGCTGATGCTGTTTATTATCGGCCTCGAACTCGATCCACAAA -GGCTGTGGAAGCTGCGTGCGGCAGTGTTCGGCTGTGGCGCATTGCAGATGGTGATTTGCGGCGGCCTGCTGGGGC -TGTTCTGCATGTTACTTGGGCTGCGCTGGCAGGTCGCGGAATTGATCGGCATGACGCTGGCGCTCTCCTCTACGG -CGATTGCCATGCAGGCGATGAATGAACGCAATCTGATGGTGACGCAAATGGGTCGCAGTGCCTTTGCGGTGCTGC -TGTTCCAGGATATCGCGGCGATCCCGCTGGTGGCGATGATTCCGCTACTGGCAACGAGCAGTGCCTCGACGACGA -TGGGCGCATTTGCTCTCTCGGCGTTAAAAGTGGCGGGTGCGCTGGTGCTGGTGGTATTGCTGGGGCGCTATGTCA -CGCGTCCGGCGCTGCGTTTTGTAGCCCGCTCTGGCTTGCGGGAAGTGTTTAGTGCCGTGGCGTTATTCCTCGTGT -TTGGCTTTGGTTTGCTGCTGGAAGAGGTCGGCTTGTCGATGGCGATGGGCGCGTTTCTGGCGGGCGTACTGCTGG -CAAGCTCGGAATACCGTCATGCGCTGGAGAGCGATATCGAACCATTTAAAGGTTTGCTGTTGGGGCTGTTTTTCA -TCGGTGTTGGCATGTCGATAGACTTTGGCACGCTGCTTGAAAACCCATTGCGCATTGTCATTTTGCTGCTCGGTT -TCCTCATCATCAAAATCGCCATGCTGTGGCTGATTGCCCGACCGTTGCAAGTGCCAAATAAACAGCGTCGTTGGT -TTGCGGTGTTGTTAGGGCAGGGCAGTGAGTTTGCCTTTGTGGTATTTGGCGCGGCGCAGATGGCGAATGTGCTGG -AGCCGGAGTGGGCGAAATCGCTGACCCTGGCGGTGGCGCTGTCGATGGCAGCAACGCCGATTCTGCTGGTGATCC -TCAATCGCCTTGAGCAATCTTCTACTGAGGAAGCGCGTGAAGCCGATGAGATCGACGAAGAACAGCCGCGCGTGA -TTATCGCCGGATTCGGTCGTTTTGGGCAGATTACCGGACGTTTACTGCTCTCCAGCGGGGTGAAAATGGTGGTAC -TCGATCACGATCCGGACCATATCGAAACCTTGCGTAAATTTGGTATGAAAGTGTTTTATGGCGATGCCACGCGGA -TGGATTTACTGGAATCTGCCGGAGCGGCGAAAGCGGAAGTGCTGATTAACGCCATCGACGATCCGCAAACCAACC -TGCAACTGACAGAGATGGTGAAAGAACATTTCCCGCATTTGCAGATTATTGCCCGCGCCCGCGATGTCGACCACT -ACATTCGTTTGCGTCAGGCAGGCGTTGAAAAGCCGGAGCGTGAAACCTTCGAAGGTGCGCTGAAAACCGGGCGTC -TGGCACTGGAAAGTTTAGGTCTGGGGCCGTATGAAGCGCGAGAACGTGCCGATGTGTTCCGCCGCTTTAATATTC -AGATGGTGGAAGAGATGGCAATGGTTGAGAACGACACCAAAGCCCGCGCGGCGGTCTATAAACGCACCAGCGCGA -TGTTAAGTGAGATCATTACCGAGGACCGCGAACATCTGTCATTAATTCAACGACATGGCTGGCAGGGAACCGAAG -AAGGTAAACATACCGGCAACATGGCGGATGAACCGGAAACGAAACCCTCATCCTAATAAAGAGTGACGTAAATCA -CACTTTACAGCTAACTGTTTGTTTTTGTTTCATTGTAATGCGGCGAGTCCAGGGAGAGAGCGTGGACTCGCCAGC -AGAATATAAAATTTTCCTCAACATCATCCTCGCACCAGTCGACGACGGTTTACGCTTTACGTATAGTGGCGACAA -TTTTTTTTATCGGGAAATCTCAATGATCAGTCTGATTGCGGCGTTAGCGGTAGATCGCGTTATCGGCATGGAAAA -CGCCATGCCGTGGAACCTGCCTGCCGATCTCGCCTGGTTTAAACGCAACACCTTAAATAAACCCGTGATTATGGG -CCGCCATACCTGGGAATCAATCGGTCGTCCGTTGCCAGGACGCAAAAATATTATCCTCAGCAGTCAACCGGGTAC -GGACGATCGCGTAACGTGGGTGAAGTCGGTGGATGAAGCCATCGCGGCGTGTGGTGACGTACCAGAAATCATGGT -GATTGGCGGCGGTCGCGTTTATGAACAGTTCTTGCCAAAAGCGCAAAAACTGTATCTGACGCATATCGACGCAGA -AGTGGAAGGCGACACCCATTTCCCGGATTACGAGCCGGATGACTGGGAATCGGTATTCAGCGAATTCCACGATGC -TGATGCGCAGAACTCTCACAGCTATTGCTTTGAGATTCTGGAGCGGCGGTAATTTTGTATAGAATTTACGGCTAG -CGCCGGATGCGACGCCGGTCGCGTCTTATCCGGCCTTCCTATATCAGGCTGTGTTTAAGACGCCGCCGCTTCGCC -CAAATCCTTATGCCGGTTCGACGGCTGGACAAAATACTGTTTATCTTCCCAGCGCAGGCAGGTTAATGTACCACC -CCAGCAGCAGCCGGTATCCAGCGCGTATATACCTTCCGGCGTACCTTTGCCCTCCAGCGATGCCCAGTGACCAAA -GGCGATGCTGTATTCTTCAGCGACAGGGCCAGGAATCGCAAACCACGGTTTCAGTGGGGCAGGGGCCTCTTCCGG -CGATTCTTTGCTGTACATATCCAGTTGACCGTTCGGGAAGCAAAAACGCATACGGGTAAAAGCGTTGGTGATAAA -ACGCAGTCTTCCCAGCCCCCGCAATTCCGGTGACCAGTTATTTGGCATATCGCCGTACATGGCATCAAGAAAGAA -GGGATAGGAGTCACTCGATAGCACCGCTTCTACATCGCGTGCGCACTCTTTGGCGGTCTGCAGATCCCACTGCGG -CGTGATCCCTGCGTGGGCCATCACCAGCTTTTTCTCTTCGTCGATTTGCAGCAGAGGCTGGCGCCGCAGCCAGTT -AAGCAGCTCGTCGGCATCCGGCGCTTCCAGCAGCGGTGTCAGGCGATCTTTCGGTTTATTGCGGCTGATCCCGGC -AAATACCGCCAGCAGATGCAGATCGTGATTGCCCAGCACCAGACGTACGCTGTCGCCTAAGGATTTCACATAGCG -CAGAACATCCAGCGAACCCGGCCCGCGCGCGACCAGATCGCCCGTCAGCCAGAGGGTATCTTTCCCAGGGGTAAA -TTCTACTTTATGCAGCAATGCGATCAGTTCATCGTAACAACCATGAACGTCGCCAATAAGGTATGTCGCCATATT -CTTTTAATGAATGAGTGTGGGAACGGCGAGTCGGAATACGGGAATGTCGATGCTGAAAGGGACGCCATTTTCATC -GATCATTTCGTAGTGACCCTGCATGGTGCCCAGCGGGGTTTCAATGATTGCACCGCTGGTGTACTGGTACTCTTC -GCCAGGCGCGATAAGTGGCTGGACGCCAACCACTCCTTCGCCCTGGACTTCGGTTTCACGGCCATTGCCATTGGT -GATCAGCCAGTAACGCCCCAACAACTGCACTGGCGCTCGCCCCAGATTGCGTATGGTTACGGTATAAGCAAAAAC -GTAACGTTCATTATCAGGTGAAGATTGAGCCTCAATGTAGACGCTTTGAACCTGAATACACACTCGGGGCGAATT -GATCATCGTTAACTCTCCTGCAAAGGCGCGTTCTCCGCCAGATAGTTCGCCATCTGGCAATATTGCGCGACAGAG -ATATTTTCCGCTCGCATCGCCGGGTCGATCCCCATTCCCGTTAACACCTCGACGCTAAACAGGTTGCCGAGGCTG -TTACGAATGGTTTTACGACGCTGGTTAAAGGCTTCGGTGGTGATGCGGCTCAACACACGAACATCTTTAACCGGG -TGAGGCATCGTTGCATGAGGAACCAGGCGCACGACGGCGGAATCCACTTTGGGTGGTGGTGTAAAGGCTGACGGC -GGTACTTCCAGTACCGGGATCACATTGCAATAGTATTGCGCCATGACGCTTAATCGACCATACGCTTTGCTGTTC -GGTCCTGCAACCAGACGATTCACCACCTCTTTTTGCAACATAAAGTGCATGTCGGCAATGGCATCAGTATAGCTA -AACAGATGGAACATCAACGGCGTGGAGATGTTATAAGGCAGGTTGCCGAAAACACGCAGCGGCTGACCCATTTTC -TCGGCCAGTTCACCAAAGTTAAAGGTCATCGCATCCTGCTGATAAATCGTCAGTTTCGGGCCTAAGAATGGATGC -GTTTGCAGACGTGCCGCCAGATCGCGGTCAAGTTCGATGACCGTCAGCTGGTCCAGACGTTCGCCGACCGGTTCG -GTCAATGCCGCCAGACCGGGGCCGATTTCGACCATCGCCTGGCCCTTTTGCGGGTTAATGGCAGACACAATACTG -TCGATCACGAACTGATCGTTGAGAAAGTTTTGCCCGAAGCGTTTACGGGCTAAGTGGCCCTGGTGGACTCGATTA -TTCATTGGGTGTTAACAATCATTTTGATGGCGAGATTAAGCGCCGTAATAAAACTGCCGACATCGGCTTTGCCAC -GTCCCGCCAGTTCAAGCGCGGTGCCGTGGTCCACTGATGTGCGAATAAAGGGCAGGCCCAGCGTAATGTTCACAC -CGCGCCCGAAGCCCTGGTATTTTAGCACGGGAAGACCCTGATCGTGGTACATCGCCAGCACGGCGTCGGCGTTAT -CAAGATATTTCGGCTGAAACAGGGTATCGGCAGGCAGCGGCCCGTTGAGTTTCATCCCCTGCGCCCGCAGCTCAT -TGAGCACCGGAATAATGGTGTCTATCTCTTCCGTACCCATATGACCGCCTTCGCCCGCGTGCGGATTCAGCCCGC -AGACCAGAATGCGCGGTTCGGCAATACCAAATTTGGTCCGCAAATCGTGATGCAAAATAGCAATCACTTCGTGCA -AAAGTGCAGGGGTGATAGCGTCTGCGATATCGCGCAGCGGTAAATGCGTCGTTGCCAGCGCCACGCGAAGTTCTT -CGGTCGCCAGCATCATCACCACCTTTTTCGCCTGCGAACGCTCTTCGAAAAACTCGGTATGACCGGTAAAAGGAA -TGCCAGCGTCGTTAATAACGCCTTTATGCACCGGACCTGTGATCAGCGCGGCAAATTCGCCGTTCAGACAACCAT -CGCACGCTCGCGCCAGCGTTTCCACCACATAATGCCCATTTTCAACCGCTAACTGCCCCGCAGTGACAGGTGCAC -GTAGCGCGACAGGAAGTAGCGTTAATGTGCCCGCAGTTTGCGGTTGTGCAGGGGAGTTGGGGGAATAAGGGCGGA -GGGTGAGCGGCAAACCGAGCATCGCTGCCCGGTTGGTAAGGAGAGTGGCATCGGCACAAACAACCAGTTCGACCG -GCCACTCACGCTGTGCAAGCTGGACAACTAAGTCCGGGCCAATCCCGGCGGGCTCGCCGGGAGTGATCACAACAC -GTTGGGTTTTAACCATTAGTTGCTCAGGATTTTAACGTAGGCGCTGGCACGTTGTTCCTGCATCCAGCTTGCTGC -TTCTTCCGAGAACTTACGGTTCATCAGCATGCGGTATGCACGATCTTTCTGCGCAGCGTCGGTTTTATCGACATT -ACGGGTATCCAGCAGTTCGATTAAATGCCAGCCGAATGAAGAGTGAACCGGTGCACTCATTTGACCTTTGTTCAG -GCGAGTCAGGGCGTCACGGAAGGCCGGATCGAAAATATCTGGTGTAGCCCAGCCGAGATCGCCGCCCTGGTTAGC -AGAGCCTGGATCCTGAGAGAACTCTTTCGCTGCGGCAGCAAAAGTCGTTTTACCACTCTTGATATCAGCAGCAAT -CTGTTCCAGTTTCACACGGGCCTGTTCGTCAGTCATGATCGGCGACGGTTTCAGCAGAATATGGCGAGCATGAAC -TTCGGTCACCGAGATATTTTTGCTTTCGCCGCGCAGGTCGTTAACTTTCAGAATATGGAAGCCAACGCCGGAACG -AATCGGGCCAACAATGTCGCCTTTCTTCGCGGTGCTTAATGCCTGGGCGAAGATCCCGGGCAACTCCTGAATACG -GCCCCAGCCCATCTGGCCGCCGTTCAGCGCCTGCTGGTCGGCAGAATGAGCAATCGCCAGCTTACCGAAATCAGC -GCCGTTACGCGCCTGATCGACAATGGCGCGCGCCTGGCTTTCCGCTTCGTTCACCTGATCAGAGGTCGGGTTTTC -CGGCAGCGGGATCAGGATGTGGCTCAGGTTCAGCTCAGTGCTGGCGTCGTTTTGGTTACCCACCTGCTGCGCCAG -GGATTCGACTTCCTGCGGCAGGATGGTGATGCGACGACGCACCTCGTTGTTACGCACTTCAGAGATAATCATCTC -TTTGCGGATCTGGTTACGATAGGTGTTGTAGTTCAGTCCATCGTAAGCCAGACGGCTGCGCATCTGATCCAGCGT -CATGTTGTTCTGTTTCGCGATGTTAGCAATCGCCTGATCCAGCTGCTCATCGGAGATTTTCACTCCCATTTTCTG -CCCCATCTGCAGGATGATTTGATCCATGATCAAACGTTCCATGATTTGGTGGCGCAGCGTCGCGTCATCAGGAAG -TTGCTGCCTTGCCTGAGCAGCGTTCAGTTTTACCGACTGCATTAATCCATCAACGTCGCTTTCCAGCACGACGCC -GTTATTGACGACGGCTGCGACTTTATCGACTACCTGGGGGGCAGCGAAACTGGTATTCGCGATCATGGCGATACC -GAGAAGCAGCGTTTTCCAGTTCTTCATACTTTTTCCATTTCAATTAACCGCACTGCGGATTACGTGGTAAATCAA -CAAATCACAAAGTGTTTTGATACGGCAGAATGTTCGAACGCAGCATCTCTTGCGTACCCAGACCGTAGTTGGAGC -TCAGGCCGCGAAGTTCGATGTTAAAGCCGATTGCGTTGTCATATACCGCATGTTGTTTATCGTTATCCCAACCGT -TCAGCTTCCGCTCGTAACCGACGCGAATTGCATAGCAGCAGGAGCTGTATTGCACACCTAACATAGAGTCGGCTT -GCTTGTTAGCATTGGTGTCGTAGTAGTAGGCCCCAACAATGGACCAACGATCGGCAATTGGCCAGCTGGCGACAG -CACCTACCTGCGAAATACCATTCTTATATTGCTCAGCAGTGGAATAGTACTTAGGCAGCGTAGCCTGAATATATT -CCGGGCTGGCGTAACGGTAATTCAGCTGTACCAGACGGTCTTCATCCCGACGGTATTCAATGCTGGAGTTACTGG -TCGCTACGTTATCCAGACGTGTATCGTACTGAATCCCGCCACGCAATCCCCAACGCTCGGAGATACGCCAGTAAG -TATCGCCTGCCCACACCAGTGAACCCGTTTTGTCGTCATTCTCCCATGTTATGTTGTCATCGCCAGTGCGAGACT -CCGTGAAATAGTAGATTTGACCAACGGAAATATTAAAACGTTCAACGGCAGCATCATCATATATGCGAGATGTGA -CACCGGTCGTCACCTGGTTAGCGGAGGCAATACGGTCAAGACCGCCGTAAGTCCGGTCCCGGAACAGGCCAGAGT -AGTCAGATTGCAGCAGAGACGAGTCGTAGTTATAGATGTCGCTCTGATCGCGATACGGCACGTACAAATACTGCG -CGCGCGGTTCCAGCGTTTGGGTATAACCCGGAGCCAGCATTTCCATATCGCGTTCAAAGACCATTTTGCCGTCAA -CTTTGAATTGCGGCATTACGCGGTTAACGGATTCGTCCAGCTTGGTCGTGTTTCTGGAGTTATACCAGTCAAGAT -TGGTTTGCTGATAATGGGTTGCCAGCAACTTCGCTTCGGTATTGATGCTGCCCCAGTTATTAGAGAGCGGCAAAT -TGATGGTCGGTTCCAGGTGAACACGGGTTGCTTCAGGCATGTCGTCTCTGGTGTTAACAAAGTGCACTGCCTGGC -CGTAAATACGCGTATCAAACGGACCAACATCATTCTGGTAGTAATTAACGTCTAACTGCGGCTCTGCCGAGTAGC -TACTGGTGTTCTGTTCGCTGAAAACCTGGAACTGCTTGGTTGAAACGGTGGCATTGAAGTTTTGCACCGCATAGC -CAACGCTGAATTTTTGCGTTGCGTAGCCGTCAGTACTGGAACCGTACTTGTTATCGAAATCATTGAAGTAGCTAG -GATCGCTGACCTTGGTGTAGTCGACGTTGAAACGCCACACCTGATCCATGACCCCGGAGTGGTTCCAGTAGAATA -ACCAACGACGTGAACTGTCATCGTTCGGGTGTTCATCTTCATAGACTTTATCTGAAGGCAGATAGTCCAGTTCCA -TCAAGCCAGCGCCCGCCTGGGAGAGGTAGCGGAATTCGTTCTCCCACATGATGTTGCCACGACGATGCATATAAT -GCGGCGTGATGGTGGCATCCATATTTGGCGCGATGTTCCAGTAATATGGCAGGTAGAACTCAAAGTAGTTGGTGG -TGGTGTACTTGGCGTTCGGGATCAAGAAACCAGAGCGACGTTTGTCACCCACCGGCAACTGCAAATAGGGGCTAT -AAAAGATCGGTACCGGACCCACCTTAAAGCGGGCGTTCCAGATCTCCGCAACTTGTTCTTCGCGGTCATGAATAA -TTTCGCTACCTACCACGCTCCAGGTGTCAGAACCCGGCAGACAGGAGGTAAAGCTACCGTTATCCAGAATGGTAT -AGCGGTTTTCGCCACGTTGTTTCATCAGGTCCGCTTTACCGCGACCCTGGCGACCCACCATCTGGTAATCACCTT -CCCAGACGTTGGTATCTTTGGTGTTCAGATTCGCCCAGCCTTTCGGCCCTTTGAGGATCACCTGGTTATCGTCGT -AATGGACATTACCGAGCGCATCAACGGTACGTACCGGCTCCGGTTGTCCTGGTGCCTCTTTTTGATGGAGCTGCA -CTTCGTCGGCCTGCAGACGGCTGTTACCCTGCATGATATCCACGCTGCCAGTAAACACGGCGTCATCCGGGTAGT -CCCCTTTCGCGTGGTCAGCATTGATAGTCACGGGTAAGTCATTGGTATCGCCCTGTACCAGAGGACGGTCATAGC -TTGGCACGCCCAACATGCACTGTGAGGCGAGGTCGGCTGCCAGTCCCTGTTGACTATAAAGGGCGGTGGCAATCA -TGGTGGCCAGGAGAGTGGGGATACGTTTTTTCATACGTTGATTTTATTGTTCCATCATCGGTAACGTTGCGCGTG -ACAAACGGTCAGAGACTAACGTACTCGTCATCTCTACGCTAGTGTTAATCCTGTCCGAATAGCGTCAGTGGTGTT -AGGCACGGCATTGAATGACAGGTATGATAATGCAAATTATAGGCGATGTCCCACAATTGACCGCAGCCGGAAAAC -GGTAAAAGCACCTTTATATTGTGGGAGATAGCCCTGATATCCGTGTGTCGATTTGGGGAATATATGCAGTATTGG -GGAAAAATCATTGGCGTGGCCGTGGCCTTACTGATGGGCGGCGGCTTTTGGGGCGTAGTGTTAGGCCTGTTAATT -GGCCATATGTTTGATAAAGCCCGTAGCCGTAAAATGGCGTGGTTCGCCAACCAGCGTGAGCGTCAGGCGCTGTTT -TTTGCCACCACTTTTGAAGTGATGGGGCATTTAACCAAATCCAAAGGTCGCGTCACGGAGGCTGATATTCATATC -GCCAGCCAGTTGATGGACCGAATGAATCTTCATGGCGCTTCCCGTACTGCGGCGCAAAATGCGTTCCGGGTGGGA -AAATCAGACAATTACCCGCTGCGCGAAAAGATGCGCCAGTTTCGCAGTGTCTGCTTTGGTCGTTTTGACTTAATT -CGTATGTTTCTGGAGATCCAGATTCAGGCGGCGTTTGCTGATGGTTCACTGCACCCGAATGAACGGGCGGTGCTG -TATGTCATTGCAGAAGAATTAGGGATCTCCCGCGCTCAGTTTGACCAGTTTTTGCGCATGATGCAGGGCGGTGCA -CAGTTTGGCGGCGGTTATCAGCAGCAAACTGGCGGTGGTAACTGGCAGCAAGCGCAGCGTGGCCCAACGCTGGAA -GATGCCTGTAATGTGCTGGGCGTGAAGCCGACGGATGATGCGACCACCATCAAACGTGCCTACCGTAAGCTGATG -AGTGAACACCATCCCGATAAGCTGGTGGCGAAAGGTTTGCCGCCTGAGATGATGGAGATGGCGAAGCAGAAAGCG -CAGGAAATTCAGCAGGCATATGAGCTGATAAAGCAGCAGAAAGGGTTTAAATGACCCTGTAAATGATGCTGAGTA -ACTGCCCACGATTAAAGGTGGCCGCCCTGGCGGTCACTTCTTTGAGAAAAGGCGTTTACTCAGAATGGTGGACAG -GCTCAATGCACGGTTTACGGGAGGGGTTCTGTAGGTTTTATCGCGTTGACCCTGCTTAAGGTTGAGAGCTTTACG -ACGAGCGGAATTATATTTTTACGTCTTAAAAATAAAAAACACATACCTGAATGAGCGATTTTTGAAAGTATATTT -ATTCAGAACGCGCATCATGAGTTTTTAACTCAATGCGAGGCTATTACCATGAAAGTATCAGTTCCAGGCATGCCG -GTTACACTTTTAAATATGAGCAAGAACGATATTTATAAGATGGTGAGCGGGGACAAGATGGACGTGAAGATGAAT -ATCTTTCAACGCTTGTGGGAGACGTTACGCCATCTGTTCTGGTCAGATAAACAGACTGAGGCTTATAAACTTCTG -TTCAATTTCGTGAATAACCAGACTGGCAACATCAACGCCTCAGAATACTTTACTGGGGCTATCAACGAGAATGAG -AGAGAAAAGTTTATCAATAGCCTGGAATTATTCAATAAACTTAAAACATGCGCAAAAAATCCGGATGAGTTGGTC -GCAAAGGGCAATATGCGCTGGGTCGCCCAGACCTTCGGGGATATCGAGTTAAGTGTCACTTTTTTCATTGAAAAG -AATAAGATATGTACTCAGACGTTGCAGCTGCATAAGGGCCAAGGTAACTTGGGCGTTGATCTTAGAAAGGCTTAC -CTTCCCGGCGTTGACATGAGGGATTGTTACCTTGGTAAAAAAACAATGAAAGGTAGCAATGATATCCTTTATGAG -AGACCTGGGTGGAATGCTAACCTGGGCGTGCTACCCCGGACGGTGCTACCCCGGACGGTGCTAACCCGGACGGTG -CTAACCTGGACGGTGCTACCGTGAACGGTGCTACCTCCTTATATGATGAGGTAATTATTATTAATAAAATCCCCC -CCAAAAAAATTGATACTAAAGGAGTTGCTACTGAAGAAGTTGCTACTAAAAAAGTACTGCTGAACAAATTACTGA -CAACGCAATTATTGAATGAGCCAGAATAAGCTAAGGTTGAAGGGGCTGGAACGCCCCTTCAACCTTAGCAGTAGC -GTGGGATGATTTCACAATTAGAAAGACCTGCATGATGAGCTAGAGAAGAGGCTAGTGACGCAAGGCGTCGTGCAG -GACACGGATCACCGAGATGGGCATCGCCAACCAGACTGCTAATTAGCCCATGAATAACAATCAGAAAGGACCATA -ACAGACCCGTTAAAATGAAATATAAGAGACGGTCAACGGGTGAAGAAAAAGTTCAAAAATTCGCTGTGGAGCAGG -AAGGGAATTACCGAATGGAAAGCGTAGCCACACGCAACAACTGAAAGCAGTTTGGCAGAAACAAAAAATCCCCGG -ACTCGGGGATTTATGTACAAGAGGCAGCCCTTAGGATGAGGGTATAAACGTACAGGAAAGGTTAAAAATCCGCTG -GCGCTTTAAACGTCATACTATTGCCATACGCCGGATGGGTAATCGTCAACATCTCTGCATGTAGCAACAAACGTG -GTGCCATCGCTCTCGCTTCTGGTGATGCATAAAAACGATCGCCGAGAATCGGATGACCCAGCGCCAGCATATGCA -CACGCAATTGATGCGAACGCCCGGTAATCGGTTTTAACACCACTCTTGCCGTGTTATCCGCCGCATACTCCACCA -CTTCATATTCCGTCTGCGCAGGTTTACCCGTTTCGTAACAGACTTTCTGTTTCGGGCGGTTTGGCCAGTCGCAAA -TCAGCGGCAGATCCACCAGACCTTCTGCGGGGGATGGATGCCCCCAGACGCGGGCCACATACTGCTTTTTCGGCT -CGCGCTCGCGGAACTGGCGTTTTAACTCCCGCTCCGCGGCTTTGGTCAGCGCCACTACAATCACGCCGCTGGTAG -CCATATCCAGACGATGCACCGATTCTGCCTGCGGATAATCACGCTGAATGCGCGTCATCACGCTGTCTTTGTGCT -CTTCCAGACGACCCGGCACTGACAACAAACCGCTCGGCTTGTTGACCACCATAATATGGTCATCCTGATACAGGA -TAACCAACCAGGGTTCCTGCGGTGGATTGTAGTTTTCCATCCCCATTTTCGGCTCCGTTACTGATGCGTTACAAC -GATCAAACGCAGGGCATCCAGACGCCAACCTGCCTGATCCAGGCTTTCCATTACCTGCTGACGGTTGCTCTCAAT -GGCGGTCAGTTCGTCGTCACGAATGTTCGGGTTCACTGCACGCAGAGCTTCCAGACGAGACAGCTCGGCAGACAG -TTTTTCGTCGGCTTCGTTACGCGCTGCATCAATCAATGCACGGGCAGATTTCTCGATCTGCGCTTCACCCAGTTG -AAGGATAGCGTGAACATCCTGCTGCACGGCGTTAACCAGTTTGCTGCCGGTGTGACGGTTAACCGCGTTAAGCTG -GCGGTTAAAGGTTTCAAACTCTACCTGCGCCGCCAGGTTGTTGCCGTTTTTATCCAGCAGCATACGTACCGGCGT -CGGTGGCAGGAAGCGGTTGAGCTGCAACTGCTTCGGAGCCTGGGCTTCAACCACATAAATCAGTTCCACCAACAG -CGTACCTACCGGCAACGCTTTGTTTTTTAACAGTGAAATCGTGCTGCTACCGGTATCGCCAGAAAGGATCAGATC -CAGACCGTTGCGGATCAGCGGATGCTCCCAGGTAATAAACTGTGCATCTTCACGCGCCAGCGCCACTTCACGATC -AAAGGTGATGGTGATGCCATCTTCCGACAGGCCAGGGAAGTCCGGCACCAGCATATGATCGGACGGCGTCAGCAC -GATCATGTTGTCGCCGCGATCGTCCTGATTGATACCGATAATATCGAACAGGTTCATGGCGAAGGCGATCAGGTT -GGTATCGTCATCCTGCTCTTCAATGCTTTCTGCCAGTGCCTGGGCTTTTTCGCCACCGTTGGAGTGGATTTCCAG -CAGGCGGTCACGACCCTGTTCCAGCTGTGCTTTCAGCGCTTCATGTTGCTCGCGGCAGTTTTTGATCAGATCGTC -AAAGCCTTCGGTTTGATCCGGTGAAGCCAGATAGTTAATCAGATCGTTGTATACGCTATCGTAAATAGTGCGTCC -GGTCGGGCAGGTGTGCTCAAATGCATCCAGACCTTCGTGATACCAGCGCACCAGCACCGACTGAGCGGTTTTCTC -CAGATAAGGCACATGGATCTGAATATCGTGCGCCTGGCCGATACGATCCAGACGACCAATACGCTGCTCCAGTAG -ATCCGGGTTGAATGGCAGGTCAAACATCACCATGTGGCTGGCGAACTGGAAGTTACGTCCTTCAGAACCGATTTC -TGAGCACAGCAGTACCTGTGCGCCGGTGTCTTCTTCGGCAAACCAGGCGGCAGCGCGGTCACGTTCGATAATCGA -CATACCTTCGTGGAACACCGCAGCGCGAATACCTTCACGTTCGCGCAGTACCTGCTCCAGTTGCAGCGCAGTGGC -AGCTTTGGCGCAGATCACCAGCACTTTCTGAGAGCGATGGCTGGTCAGGTAGCCCATCAGCCACTCAACGCGCGG -ATCGAAGTTCCACCAGGTGGCGTTATCACCTTCAAATTCCTGATAAATACGCTCCGGGTAGAGCATATCGCGAGC -ACGATCTTCCGCACTTTTACGTGCGCCCATAATGCCGGAGACTTTAATAGCCGTCTGATACTGCGTCGGTAGCGG -CAGCTTAATGGTGTGCAGCTCGCGTTTCGGGAATCCTTTCACACCGTTACGCGTGTTACGGAACAGCACGCGGCT -GGTGCCGTGGCGATCCATCAGCATCGAAACCAGCTCCTGACGGGCGCTCTGGGCATCTTCGCTGTCGCTGTTTGC -TGCCTGCAACAGCGGCTCGATATCCTGCTCGCCGATCATCTCGCCGAGCATGTTCAGTTCGTCATTGCTCAGTTT -GTTACCTGCCAGCAGCATGGCAACGGCGTCCGCAACCGGACGATAATTTTTCTGCTCTTCAACGAACTGCGCAAA -ATCGTGGAAACGGTTCGGGTCCAGCAGACGCAGACGGGCGAAGTGGCTTTCCATCCCCAGCTGTTCCGGGGTCGC -GGTCAGCAGCAGAACGCCCGGCACGTGCTCTGCCAGTTGTTCAATGGCCTGATATTCACGGCTTGGCGCATCTTC -GCTCCACACCAGGTGATGCGCTTCATCGACCACCAGCAGGTCCCATTCGGCTTCACAGAGATGTTCCAGGCGCTG -TTTGCTACGACGGGCAAAATCCAGCGAGCAAATCACCAGCTGTTCGGTGTCAAACGGGTTGTAAGCATCGTGCTG -AGCTTCGGCATAACGCTCATCATCAAATAGCGCAAAGCGCAGGTTGAAACGGCGCAGCATTTCTACCAGCCACTG -ATGCTGTAAGGTTTCCGGGACGATAATTAGCACACGTTCAGCAGCGCCAGAGAGCAGTTGCTGATGCAGGATCAT -CCCGGCTTCAATGGTTTTCCCTAAACCCACTTCGTCAGCCAGCAGGACGCGCGGCGCGTGGCGGCGACCAACATC -ATGAGCGATGTTGAGCTGATGCGGGATCAGGCTGGTACGCTGACCGCGCAGGCCGCTGTACGGCATACGGAACTG -TTCGCTGGAATATTTACGCGCGCGATAACGCAGCGCAAAGCGGTCCATACGGTCAATCTGCCCGGCAAACAGACG -GTCCTGCGGTTTGCTGAACACCAGTTTGCTATCAAGGAAAACTTCACGCAGGGCTACGCCGGACTCTTCAGTATC -CAGGCGAGTACCGATATAGGTCAGCAAGCCATTTTCTTCTTTTACTTCTTCGACTTGCATCTGCCAGCCGTCATG -GCTGGTAATGGTATCACCAGGGTTGAACATCACGCGGGTCACGGGGGAATCACTGCGTGCGTACAGACGGTTTTC -ACCAGTAGATGGGAAAAGTAAAGTGACAGTTCGCGCATCCACCGCGACAACGGTTCCAAGTCCCAATTCGCTTTC -TGTATCGCTGATCCAGCGTTGACCAAGTGTAAAAGGCATATGTGTTCGGCTCTATATCTTTAATTGCAGGCAATA -ACCACCCGCTACCGTGCTTATGAGGTAGTGGTGTTATTCAGGTCCAGGAATGGAAAGGGCGCTATGGTACTGGAT -GGCAAAGCATTCGTCACGCATCAAAATGGTATCTGGCGAACTCTTTTTTTTGCTCAAAATAGCCCAAGTTGCCCG -GTCATAAGTGTAGCAAAATTATCCTCAATAAAAGGGAGTATTCCCTCCGCCACGGGTTGTAGCTGGCGGGTCAGA -TAGTGTTCGTAATCCAGTGGTGAACGTTGGTAGTCCAGCGGCTCCGGGCCGTTGGTGGTCCATACGTACTTAATG -GTGCCGCGATTCTGATATTGCAAGGGGCGACCACGCTTTTGGTTTTCTTCATCGGCAAGGCGAGCGGCGCGTACA -TGAGGCGGCACATTACGCTGATACTCGCTCAGCGGACGGCGAAGGCGTTTACGGTAAACCAGTCGCGCATCCAGT -TCACCCGCCATCAGTTTGTCGATGGTTTCGCGTACATATTCCTGATATGGCTCGTTGCGGAAGATGCGCAGGTAT -AGCTCCTGCTGAAACTGCTGGGCCAGCGGCGTCCAGTCGGTGCGCACGGTTTCCAGCCCTTTAAACACCATCCGC -TGCTTGTCGCCCTCCTGAATCAGTCCGGCATAACGCTTTTTACTGCCGGTATCGGCTCCGCGAATGGTTGGCATC -AGAAAACGGCAGAAATGGGTTTCATACTCCAGTTCTAATGCGCTGGTCAGCCGTTGTTTTTGCAGCGTTTCCGCC -CACCAGGCGTTAACGTGCTGCACCAGTGCACGACCGATTTTCGCCGCTTCTTCTTCCGAATGTGCGCCTTTCAGC -CAGACAAACGTTGAGTCGGTATCGCCGTAGATAACGTCGTAGCCCTGTGCTTCAATCAACGCTTTGGTTTGCCGC -ATGATCTGATGACCACGCATGGTGATCGACGATGCCAGCCGCGGATCGAAGAAGCGGCAGGCGGTGGTGCCGAGC -ACGCCATAAAAGGCATTCATGATGATTTTCAGCGCCTGCGACAGCGGTTTGTTACCCTGGCGTTTGGCTTCATCG -CGCCCGTGCCAGATGTTAGTCACAATCTCCGGCAGGCAATGTTTTTCTCGCGAGAACCAGGCATCGAGAAAACCT -TCGGTACTGTGCTCTGGATCAGGCTGCGCCATGCCTTCCACCAGCCCGACGGGATCAATCAGAAAGGTGCGGATG -ATCGACGGGTACAGGCTTTTATAGTCCAGCACCAGCACTGAATCATAAAGCCCTGGCCGTGAATCCATCACGTAG -CCGCCAGGGCTGGCGTGCGGCGGCACTTCGCCGAGATTAGGCGCGACATAACCAGCGCGATGCATTCGCGGAAAA -TAGAGATGACCAAATGCCGCCACCGAACCGCCGTGTCGGTCCACCGGCAGGCCGTTCACCGTTGCCCGTTCGAGT -AAAAATGGCATGATTTCAGTTTTGTGGAAGATCTGCGTCACCAGCTCGCAATCTTTCAGGTTATAAGTTGCCAGC -GCAGGTTTATCTTCGGCGAAACGGCGGTCAATTTCGTCCATTCGATCCCACGGGTTATCGATAGATTTTCCTTCG -CCTAATAGCTCCTGAGCGACAGTTTCCAGCGAGAATGAAGAGAAATTCCAGAACGCGGATTTCAGCGCCTCGATA -CCGTCGATAATTAGCCGACCTTTAGCCTGGGCAAAAAAGACGCCGTTTTTAAAGCCGTGCTCGCGCCACTCCAGC -TCGCTATTATCGCGCCCAAGACGCAGCGGAAGACGGTAACGCTCGGCATGTTTTTGCAGCATTCGCAGATCGAAC -TGCACCACGTTCCAACCGATGATCACATCAGGATCGTAGTTGGCAAACCAGGCGTTGAGTTTTTCCAGCAACTGC -GGGCGGCTGGCGACGTATTCCAGTTCGAAATCAAGCGAGGAGGCGTCGCCATTCTCCGGCCCCAGCATATAAACG -ATGCGCTGCCCGCAGCCTTCCAGGCCGATGCAGTACAGCTCACCGTGGCGGGTGGTTTCAATATCTATAGAAACC -CACTTGAGCGGCGGACGATAGTCGGGATGCGGTTTCAGACGGGCATTAACGATAGTGCCATTGTGCATATCACCC -TCGACCCACACCGGTGAGGTGATAAACCGCTCCATCAGATAGCGTTCTGGCGGACGCACATCGGCCTCGTAGACG -GTAACGCCACCTTCACGCAGGCGCTTTTCGTAATTCATCAATTGGCGATGGGCGCGACAGTAAAGGCCATACACC -GGCTGGCGGTGAAAATCCTTTAACGCCAGCGGTGTCAGGCGAAAGCCTTGTTCACCCTGCAAAATATGCTGAGCG -CGGGGAACCTGATCGGCGGGAATAAACGCCACGGACTCTTGCGGTGCAAGCGTAACCTGCAACGGCCCGTTGTCC -GTCGCCAGCCAGAAGGAGACTTCTGTCCCTTGCGGGGTGTCCCGCCAGTGTCGGGTTAAGATAAAACCTGCCTGC -GCCACGCTGAAAATCCATCAAAAAACCAGGCTTGAGTATAGCCTGGTTTCGTTTGATTGGCTGTGGTTTTATACA -GTCATTACTGCCCGTAATATGCCTTCGCGCCATGCTTACGCAGATAGTGTTTATCCAGCAGCGTTTGCTGCATAT -CCGGTAACTGCGGCGCTAACTGACGGCAGAATATCCCCATATAAGCGACCTCTTCCAGCACGATGGCGTTATGCA -CCGCATCTTCGGCATTTTTGCCCCATGCAAACGGGCCGTGGGAATGGACCAGAACGCCGGGCATTTGCGCTGCAT -CGATACCCTGTTTTTCAAAGGTTTCTACGATGACGTTACCGGTTTCCCACTCATATTCGCCGTTGATTTCTGCGT -CGGTCATTTTGCGGGTGCAGGGAATGGTGCCGTAGAAATAGTCGGCGTGGGTGGTGCCGGTTGCTGGAATCGACT -GACCCGCCTGCGCCCAGATGGTGGCGTGGCGCGAGTGCGTATGCACAATGCCGCCAATGGAGGGGAATGCCTGAT -AGAGCAGCCGGTGAGTTGGCGTGTCGGAGGAGGGCTTTTTCGTACCTTCAACCACTTCACCGGTTTCGATGCTAA -CCACGACCATATCGTCAGCGGTCATGACGCTGTAATCGACGCCGGAAGGTTTGATCACAAAGACGCCGCGCTCGC -GATCAACGGCGCTGACGTTGCCCCATGTGAGCGTGACCAGGTTGTGTTTTGGCAGCGCCAGGTTGGCTTCTAATA -CCTGGCGTTTGAGATCTTCTAACATGTTGACTCCTTCGTGCCGGATGCGCTTTGCTTATCCGGCCTACAAAATCG -CAGCGTGTAGGCCTGATAAGACGCGCCAGCGTCGCATCAGGCGTTGAATGCCGGATGCGCTTTGCTTATCCGGCC -TACAAAATCGCAGCGCGTAGGCCTGATAAGACGCGCCAGCGTCGCATCAGGCGTTGAATGCCGGATGCGCTTTGC -TTATCCGGCCTACAAAATCGCAGCGTGTAGGCCAGATAAGACGCGTCAGCGTCGCATCAGGCGTTACATACCGGA -TGCGGCTACTTAGCGACGAAACCCGTAATACACTTCGTTCCAGCGCAGCGCGTCTTTAAACGCTGGCAGGCGTGT -GTCGTTATCAATCACCGTGATTTCAATGTCGTGCATCTCGGCGAATTGGCGCATATCGTTGAGGTTCAGTGCATG -GCTGAAGACGGTATGGTGCGCGCCACCAGCGAGGATCCACGCTTCGGAAGCAGTTGGCAGATCCGGTTGCGCTTT -CCACAGCGCATTCGCCACCGGCAGTTTCGGCAGGGAGTGCGGTGTTTTCACCGTGTCGATGCAGTTAACCAGTAG -ACGGTAACGATCGCCGAGATCAATCAAGCTGGCGACAATCGCTGGGCCGGTTTGGGTATTGAAGATCAGGCGGGC -AGGATCGTCCTTACCACCAATACCGAGATGCTGAACGTCGAGGATCGGTTTCTCTTCTGCGGCGATCGACGGGCA -GACTTCCAGCATATGGGAGCCGAGCACCAGGTCATTACCTTTCTCGAAGTGATAGGTGTAGTCCTCCATAAAGGA -GGTGCCGCCCTGCAGACCGGTTGACATCACCTTCATGATGCGAAGCAGGGCGGCAGTTTTCCAGTCGCCTTCGCC -CGCAAAGCCGTAACCCTGCTGCATCAGACGCTGTACGGCCAGACCAGGAAGCTGTTTCAGACCGTGCAAATCTTC -AAAGGTGGTGGTGAACGCGTGGAAGCCACCTTGTTCCAGGAAACGCTTCATCCCCAGCTCAATACGCGCCGCTTC -CAGCACGTTCTGTCGTTTTTTGCCGTGGATTTGTGTGGCAGGCGTCATGGTGTAGCAGCTTTCGTACTCATCGAC -CAGCGCGTTAACATCGCCGTCGCTGATGGAGTTCACCACCTGCACCAGATCGCCAACCGCCCAGGTATTGACGGA -GAAACCGAACTTGATCTGTGCGGCAACTTTATCGCCATCGGTGACCGCCACTTCACGCATGTTATCGCCAAATCG -GCAGACTTTCAGATGACGGGTATCCTGTTTAGAGACCGCCTGACGCATCCAGGAGCCGATACGCTCATGGGCTTG -TTTATCCTGCCAGTGACCGGTAACCACGGCATGTTGCTGACGCATACGCGCGCCAATGAAGCCGAACTCGCGACC -GCCATGTGCAGTCTGGTTCAGGTTCATAAAGTCCATATCGATACTGTCCCACGGCAGCGCCGCGTTGAACTGGGT -GTGGAATTGCAGCAACGGTTTGTTGAGCATGGTCAGGCCGTTGATCCACATTTTGGCCGGGGAGAAGGTGTGCAG -CCACACCACCAGACCAGCGCAACGATCGTCGTAATTCGCGTCGCGGCAAATAGCGGTGATTTCATCCGGCGTGGT -GCCCAGCGGTTTCAACACCAGTTTGCAGGGCAGTTTCGCTTCCGTATTCAGCGCATTAACGACGTGCTCGGCATG -TTGGGTGACCTGACGCAGGGTTTCCGGGCCATACAGATGCTGGCTGCCAATGACAAACCACACTTCATAATTATC -AAAAATCGTCATTATCGTGTCCTTATAGAGTCGCAACGGCCTGGGCAGCCTGTGCCGGGGCGGAAGTTGGAAGAT -AGTGTTGTTCGGCGCTCATCGCCCATTGCTGATAGCGGCGATAAAGCTGTTCAAAGCGTTGTGCCTGCTCGCTGC -ACGGTTGCAGGGTTTTCTCTACCGCACTGGCCATTTTTTGCTGAGCTGATGGGATGTCTGCGTGCACTTTCGCGG -CGACGGCAGCAAAAATCGCCGCACCGAGCGCACAGCACTGGTCAGAGGCAACAATTTGCAGCGGGCGATTCAGCA -CGTCGCAGCAGGCCTGCATAATGACCTGGTTTTTCCGCGCGATGCCGCCCAGTGCCATCACGTTATTAACGGCGA -TCCCCTGATCGGTAAAGCACTCCATGATTGCGCGTGCGCCAAAGGCGGTGGCAGCAATCAAACCGCCGAACAGCA -GCGGAGCGTCGGTAGCGAGGTTAAGATCGGTAATCACCCCTTTCAGGCGTTGGTTAGCGTTCGGTGTGCGGCGGC -CGTTAAACCAGTCGAGCACCACCGGCAGGTGATCCAGAGACGGATTTTTGGCCCATGCTTCGGTCAGCGCCGGAA -GCAGTTGTTTCTGGCTGGCGTTGATTTGCGTTTTCAGTTCCGGATGCTGGGCGGCAAGCTGTTCCAGCGGCCAGC -CGAGTACGCGACCAAACCAGGCGTAGATATCACCAAACGCCGATTGGCCTGCTTCCAGACCGATAAATCCAGGCA -CCACGCTGCCATCAACCTGACCGCAAATACCTTTAACTGCCCGCTCGCCAACGCTCTGTTTGTCGGCAATCAGAA -TGTCGCAGGTGGAAGTACCGATAACTTTTACCAGTGCGTTAGGCTGTGCGCCTGCGCCAACTGCGCCCATATGGC -AGTCAAACGCGCCGCCGGAAATCACCACGCTTTCAGGCAGGCCGAGACGCTGCGCCCATTCCGGGCATAAGGTGC -CCACCGGAATATCGGCAGTCCAAGTGTCAGTGAACAGCGGGGAAGGCAAATGGCGATTGAGGATCGGGTCCAGCT -CATCAAAGAAACTGGCTGGCGGCAGGCCGCCCCAGCTTTCGTGCCACAGAGATTTATGCCCGGCGCTGCAACGTC -CGCGACGAATATCCTGCGGGCGGGTGGTACCGGAAAGCAGAGCTGGCACCCAGTCGCACAGCTCAATCCACGATG -CGGCAGATTGCGCCACGGCGCTGTCCTGGCGAGTCACATGCAGGATTTTTGCCCAGAACCATTCGCTGGAATAAA -TACCACCAATGTAGCGGGAGTAGTCAACGTTGCCCGGCGCGTGGCACAAACGGGTAATCTCTTCCGCTTCTTCAA -CCGCAGTGTGGTCTTTCCACAATACGAACATCGCGTTCGGGTTTTCGGCAAACTCCGGGCGCAGCGCCAGCACGT -TTCCGTCGGCATCAATCGGTGCGGGCGTCGAGCCGGTACTGTCAACGCCAATCCCGACCACAGCTGCGCGCTGTT -CGACGCTAAGCTCTGCAAGCACGGTTTTCAGTGCCGCTTCCATTGACTCAATGTAGTCACGCGGATGATGACGGA -ACTGGTTATTCGGGGCATCACAAAATTGCCCTTTCTGCCAACGGGGATACCACTCTACGCTGGTGGCGATCTCTT -CACCGGTAGCGCAGTCCACCGCCAAAGCTCGCACAGAATCACTGCCAAAATCGAGGCCAATTGCAATCGCCATCG -TTTCACTCCATCCAAAAAAACGGGTATGGAGAAACAGTAGAGAGTTGCGATAAAAAGCGTCAGGTAGGATCCGCT -AATCTTATGGATAAAAATGCTATGGCATAGCAAAGTGTGACGCCGTGCAAATAATCAATGTGGACTTTTCTGCCG -TGATTATAGACACTTTTGTTACGCGTTTTTGTCATGGCTTTGGTCCCGCTTTGTTACAGAATGCTTTTAATAAGC -GGGGTTACCGGTTGGGTTAGCGAGAAGAGCCAGTAAAAGACGCAGTGACGGCAATGTCTGATGCAATATGGACAA -TTGGTTTCTTCTCTGAATGGTGGGAGTATGAAAAGTATGGCTGAAGCGCAAAATGATCCCCTGCTGCCGGGATAC -TCGTTTAACGCCCATCTGGTGGCGGGTTTAACGCCGATTGAGGCCAACGGTTATCTCGATTTTTTTATCGACCGA -CCGCTGGGAATGAAAGGTTATATTCTCAATCTCACCATTCGCGGTCAGGGGGTGGTGAAAAATCAGGGACGAGAA -TTTGTCTGCCGACCGGGTGATATTTTGCTGTTCCCGCCAGGAGAGATTCATCACTACGGTCGTCATCCGGAGGCT -CGCGAATGGTATCACCAGTGGGTTTACTTTCGTCCGCGCGCCTACTGGCATGAATGGCTTAACTGGCCGTCAATA -TTTGCCAATACGGGTTTCTTTCGCCCGGATGAAGCGCACCAGCCGCATTTCAGCGACCTGTTTGGGCAAATCATT -AACGCCGGGCAAGGGGAAGGGCGCTATTCGGAGCTGCTGGCGATAAATCTGCTTGAGCAATTGTTACTGCGGCGC -ATGGAAGCGATTAACGAGTCGCTCCATCCACCGATGGATAATCGGGTACGCGAGGCTTGTCAGTACATCAGCGAT -CACCTGGCAGACAGCAATTTTGATATCGCCAGCGTCGCACAGCATGTTTGCTTGTCGCCGTCGCGTCTGTCACAT -CTTTTCCGCCAGCAGTTAGGGATTAGCGTCTTAAGCTGGCGCGAGGACCAACGCATTAGTCAGGCGAAGCTGCTT -TTGAGCACTACCCGGATGCCTATCGCCACCGTCGGTCGCAATGTTGGTTTTGACGATCAACTCTATTTCTCGCGA -GTATTTAAAAAATGCACCGGGGCCAGCCCGAGCGAGTTTCGTGCCGGTTGTGAAGAAAAAGTGAATGATGTAGCC -GTCAAGTTGTCATAATTGGTAACGAATCAGACAATTGACGGCTTGACGGAGTAGCATAGGGTTTGCAGAATCCCT -GCTTCGTCCATTTGACAGGCACATTATGCAAGCATTGCTGGAACACTTTATTACCCAATCCACCGTGTATTCATT -GATGGCGGTGGTGTTGGTGGCCTTTCTGGAGTCGCTGGCGCTGGTCGGTTTGATTCTACCCGGTACGGTGCTGAT -GGCGGGGCTGGGAGCGCTGATTGGCAGCGGCGAGTTAAGTTTCTGGCACGCCTGGCTGGCAGGGATTATTGGCTG -CTTGATGGGCGACTGGATTTCTTTCTGGCTGGGTTGGCGTTTTAAAAAGCCGTTGCATCGCTGGTCATTTCTGAA -GAAAAACAAAGCACTACTTGATAAAACTGAACATGCGTTGCATCAACACAGCATGTTCACCATTCTGGTCGGTCG -TTTTGTTGGCCCGACGCGTCCGCTGGTGCCAATGGTGGCGGGAATGCTGGATCTGCCGGTGGCTAAATTTATTAC -GCCGAATATTATCGGCTGCCTGCTGTGGCCGCCGTTTTACTTCCTGCCAGGGATTCTGGCGGGCGCGGCGATCGA -TATTCCTGCCGGAATGCAGAGCGGTGAGTTTAAATGGTTGCTGCTGGCAACAGCGGTGTTTTTGTGGGTTGGTGG -CTGGCTGTGCTGGCGGTTATGGCGCAGCGGTAAAGCGACTGACCGTTTGAGTCATTATTTGTCCCGCGGTCGTTT -GTTGTGGCTGACGCCGTTGATTTCTGCCATCGGCGTGGTGGCGCTGGTGGTGTTAATTCGCCACCCGTTGATGCC -GGTGTATATCGATATTTTGCGTAAAGTGGTTGGGGTTTAGGAGATAGTCTTGTGCGGGTTGCCTGATGCGACGCT -TGCCGCGTCTTATCAGGCCTACAAAACGCACTACCCGTAGGTCGGATAAGGCGTTCACGCCGCATCCGACAGTGC -ATACTAACCCGTAATCCCCAATAGTGCCGAAGCACTCGCCTTACCGCTCAACAACTCATTGGTCATACCCTGCCA -GGCGATGCGCCCGTCGGCGACTACTACCGAGCGCGTGGCGATCCGCGCCGCATCTTCCACGCTGTGCGACACCAT -CAATAGCGTCATTTTTTGCTGCTGGCAGCTCGTGCTCACCAGCGTCAACATCTCCTGACGTAACGCCGGATCGAG -CGCAGAGAACGGTTCATCGAGCAATAAAATCGGCTGTTCGCGTACCAGACAACGCGCTAACGCCACTCGCTGTCG -CTGACCGCCGGAAAGCTCGCCCGGTAACCGCGCCATTAAATTATCAATCCCCATCTGGCGGGCGATAGCGTGCAT -TTTCCCCTGCTGTACCGCGTTCAGTTTCAATCCCGGATTTAGCCCCAGCCCGATGTTCTGTGCGACCGTCAGGTG -GCTGAACAGGTTGTTCTCCTGAAACAGCATCGACACCGGACGGCGTGACGGCGGCATAGTTGTGTGATCTACGCC -ATCGATAGTCAGCGAACCGCTGGCTGGCGTCAGAAAACCGGCGATCAAATTCAGCAGGGTACTTTTACCCGCGCC -GCTTGGCCCGAGGATCGCCACCTGCTCGCCGCGTTCCACCGTTAAGCTAAAACGCATCGGCAAATGGTGGTAAAG -CCAGGTGATATCAGTCAGTTTTAACATTTCGCCCCGGTAGTTTTTCAATCACGGTAAACAGCAGAAAACAGAGCA -GCAGCAGAATTAACGCGGTGACCGCACCGTCCTGGCTGCGATAGGAGCCAATTTGCTGGTAGAGATAAAACGGCA -GGGTGCGGAAATCATCGTTACCGAACAACGCCACCACGCCAAAATCACCAATCGACAGCACGCATGCAAAGGCCA -GCGCCTGCGCCAGTGGACGTTTCAGGGCGCGCAGCTCCACCACTTTTAAGCGTGACCAGCCTTCAATCCCCAGCG -ACTGACATAACATGCTGTAGCGGGCGGTGATATCGCGCATCGGGTTTTCCAGCACTTTCAGCGCATAAGGGATCG -CCATTAACGCATTGGTGAAAATCACAATGCCGTCAGCAGATTGTGGCAGGCCGATAGTGTTGTTGAGCAGTAAAA -AGAAGCCGGTAGCCAGCACAATCCCCGGCATGGCGAGGATCAACATGCCGCTCATCTCCAGCACCTGACCCGCCA -GCATTTTCTGCCGCGCCCGCAGTTCGCGACTGCTCCATAGCAGCATCATGGTCAGCACTACGCACAATACACCTG -CCGCCAGCGCAATACGCAACGAGGTCCACAGCGCCTGCCACAGCACCGGTTGTGCCAGCACTTCCGGCAACTGGC -GATTTACCCCATCGACGATCACCGCCAGTAACGGTGGCAGCAACAGCAGCAGCGCCAGCACAATTAACACCGTGT -CGCAAATGCGGCTATGCAGACGATCGTCCGGGTCGCGCCAGCCTTGCAGCAGCGTGGTGCCGGGCGCAATGGCCT -TACTCAATCGCTGACTCAACAGCACCAGCCCGAGGCAGCACACCATCTGGAGCAGCGCCAGCATTGCCGCGCGGG -CAGGATCGTAGTCGTAACTCAGCGCCTGATAGATTGCCAGCTCGATAGTGGTCGCCTGCGGACCGCCCCCCAGCG -ATAGCACGGTGGCGAAGCTGGCGAAACAGAGCATAAAGATAAGCGCAGCAACCGGCGGGATTTGTCGCCGTAACC -ACGGCCATTCGACGAAGCGGAAAAAATGCCAGCTACGCATCCCAAGCTGGGCGGCAAGTTGACGCTGTTCGCCGG -GGATGTTTTCCAGTGCCTGGAGTAATAAGCGGCTCGCCATCGGCAGATTAAAAAACACATGGGCCAGCAAAATAC -CTTGCAGGCCGTAGGGCGAAAAGGTCCACTCCAGACCGAGCGATTGGCAGAGTGTTGCCAGCCAGCCCTGGCGAC -CATAGACGCTAAGAATGCCGAAAACAGCGACCAACACCGGGAGGATCAAGGTCATTGCACACAGACGCAACAGCG -CCAGCCGACCCGGAAAGCGCCTGCGATAGAGCGCGCGGGCGAGGAATATCGCGGGTATGACAGAGAGCAGTGCCG -AGAGAAACGCCTGCCAGAAGGAGAAGCGCACCACATGCCACAGATAGCTGTCCTGCCAGACTGCCACCCAGTCAT -CCTGCGGCGCGTTCCACCACAGGGCGAGAAACGCCGCCAGCGCAACCGCTACCACCAGCGTGGTGGCGCTTACAC -CTGGAATTAACCAGCCGGGAATTAACGGCTGACGGCGCGTTGCCATTCGCTAATCCATGCCTGACGTTGTGCCGC -CACTTCGGCTGGCGTGAACTCCAACGTGGTTGCGGGTTTGGTCAATTTTTCAAAACCGGCAGGCAGCGTGACGTT -TGCCACCGGATACATCCAGTTGCCGGTTGGGATCGCATTCTGGAAAGCCGGAGAAACCATAAACTGGAGGAATTT -TTGCGCCAGCTCCGGCTGCTTGCTGGCAGCGGTGCGGGCGGCGACTTCCACTTGCAGATAGTGACCTTCGCTGAA -GTTCGCGGCGGCGTAGTTATCTTTCTTCTCTTCGAGAATGTGATAAGCCGGAGAGGTGGTGTAACTCAGTACCAG -ATCGCTTTCACCTTTTAAAAACAGGCCGTAGGCTTCGCTCCAGCCTTTGGTGACCGTGACCGTTTTCTTCGCCAG -TTTCTGCCAGGCTTGTGGGGCGTCATCGCCATAGACTTTTTGCATCCATAGCAACAGACCCAGCCCCGGTGTACT -GGTGCGCGGATCCTGATAAATCACCCGCCAGTTTTGATCGCTCTCAACCAGTTCTTTCAGGCTTTGTGGCGGGTT -TTTCAGTTTGTTCTTGTCATAAACGAAGGCGAAGTAGCCATAATCAAACGGTACGAAAGTGTCATTATTCCAGCC -GCCGGGAACGTTAACGGCATCCGCTGCCACACCGCTTTTGGCAAACAGTCCGGTTTTACTGGCGGCGTCTAACAG -GTTGTTATCCAGCCCCAGCACCACATCGGCTTTACTGTTTTTGCCTTCCATCCGTAGACGGTTGAGAAGCGAAAC -GCCATCTTCCAGCGCCACCAGTTTCAGTTCGCAATTACAGTCGGCTTCAAAGGCTTTTTTAACCACCGGACCAGG -CCCCCAGTCGGCGGCGAAGGAATCGTAGGTATAAACAGTCAGAACGGGTTTAGCGAAAACGGGCGCTGTGCACAG -CAACAGCAGGGGCAGACATTTTTTTAACACTTTGCACCTCAAAAAAGAGTGGCAAAGGACTTGAGAAGGAGCCTC -AAATCCCTTCGCCGGCGTTATCCGGATCAGGTTCGACGGGTATTTTCTCAGCGCACGCGTACGCGTGGCACCCCG -TTGAGAACGGCGTTAGTGTAGTGATTTTGTTATCAACCAGCAATCATGGATCCGGTGGCGCAAACCACGCTGATT -TAAAATCGAACCAGCCGAGGGTATTCATGCGCAGGCCGCGCATACTGCGTTGCCCCTGAATGATCAGCCAGTGGT -GCAATAATGGCACCATCGCTTTGCTGGCGACCAGTTGCTGGCACCAGTTCGCCAGATTCATCTCGCCATTGCGCC -AGCGAGCAGCGTCGGCTTGCCAGTCAATGGGAATGCAATGTTGTAGCAGTGGCACTTCGCATAAATGTGCGAAAA -CAGAGAAGTCCAGCGGCAGGGTAAAGTTGGCGCTGTTTAGCCAGATATCACTTTCGATCTCTCCTGTATGCCACT -GATCGTAGTCGATCTCTTTGATTTTCAGCGTGACCTGGTGACTTGCCAGAATCTGCTGCATGATCCCGGCAATCA -CCCGATGCTCACTGTGATCCTGATAAAAGGTTAGGGTGAGGCTTTCCAGGCCAGCCGGTTTTTCGCTCTTTATGG -TGCGGGCATGGTGCCAACGGGGGAGCAGTCCATAAGCCGGGAACCACAGTTGCTGGTACTGTTCCTCAGCGAAAT -AGACCAGATTAGTTGGAGAAAGCACATAGCTTACCCAGTCCCTGACTTGCTGATTCGCCCCGCGATGGGTGCGGC -TGTCGAACAGTAAATAGTAGCAACCTTCCTCCAGGCGGCTTTCAATCTCTTTTTCCTCGCCCTGTGGACCTTTTA -GCATCAGCCCTCCGGCTGGCTCGTCGGCAATTTCCGGCAGAACCCAGACGTTAACTTCGTCGATTAATGCCCGGT -AACCGAAGAAGTCATCGAATGCCTGAATTTTCAGTTGATTGGTGCTGTTGCGAATCACCGCATACGGACCGGTGC -CGATGGGATGGCTGGCAAAGTTACTGAGGGTTTCCCATTCGCGCGGCAGGATCATCGCCGGAACTTGCCCCAGCA -GTAACGGTAACCAGCGGTCCGGTTGCGTGAGATGGATATCCAGCGTCCAGGGCGTCGGCGACACAATGTCAGCAA -TATGCGAATAGAGCGGCAGCGTATTGATTCGTTTTAAAGAGGCGATCACATCGTCCATTTCCAGTTCACGACCAT -GGTGAAAATGGACTCCTGGACGCAAAAAGAAACGCCAGTGAAGCGGTGAAATTTGCTGCCAGTGGTGGGCGATGT -CTGCTTCCAGTTCCCCATTTTCCTCATTTATGCGCGTTAGCGAACTGAAGATTTGCCGGGCGATATGGGTTTCGG -AACGGCGCAATGCGCTGCCAGGTAGCAGATTACGCAACGGACGATAGTAGAGCACGCGCAGGATGTGCCGCCCCT -GGCGGAAGCTGCGGCCCAGATGAGAAACCAGCATTTGCCGCACAGTCGCTTTGTCGCCAACCAACTGCACCAGTT -GATCGATACGATCCTGCTCCAGCAGGTCTTCCGCCCGCTGTTGCTGAAGCGCCAGCCCGGTATAGAGGAATGTCA -GACGCGAGCGTTTACCGCGCCCGACTTCCGCTTCCCACGTCAGCCAGCCGCGATCCTGCATGGTGTTGAGCAGGG -TGCGCATATGACGACGCGAGCAGCTCAATAACGCTGCCAGTTCGTTGAGCGTTGTGTCCTGCGATTTACCCTCGC -AGCATTGCCACAGGCGGATGAACTGTTGTTGCAGACGAGCAGATGGCATAAAAGGGGAACTCCTGTGCAAAAGAC -AGCAATTTTATTTTCCCTATATTAAGTCAATAATTCCTAACGATGAAGCAAGGGGGTGCCCCATGCGTCAGTTTT -ATCAGCACTATTTTACCGCGACAGCGAAGTTGTGCTGGTTGCGTTGGTTAAGCGTCCCACAACGATTAACCATGC -TTGAAGGACTGATGCAGTGGGATGACCGCAATTCTGAAAGTTGACTTGCCTGCATCATGTGTGACTGAGTATTGG -TGTAAAATCACCCGCCAGCAGATTATACCTGCTGGTTTTTTTTATTCTCGCCGCGCTAAAAAGGGAACGTATGAT -CTGGATAATGACGATGGCTCGCCGTATGAACGGTGTTTACGCGGCATTTATGCTGGTCGCTTTTATGATGGGGGT -GGCCGGGGCGCTACAGGCTCCTACATTGAGCTTATTTCTGAGTCGTGAGGTTGGCGCGCAACCTTTCTGGATCGG -CCTCTTTTATACGGTGAATGCTATTGCTGGGATCGGCGTAAGCCTCTGGTTGGCAAAACGTTCTGACAGTCAGGG -CGATCGGCGAAAACTGATTATATTTTGCTGTTTGATGGCTATCGGCAATGCGCTATTGTTTGCATTTAATCGTCA -TTATCTGACGCTTATCACCTGTGGTGTGCTTCTGGCATCTCTGGCCAATACGGCAATGCCACAGTTATTTGCTCT -GGCGCGGGAATATGCGGATAACTCGGCGCGAGAAGTGGTGATGTTTAGCTCGGTGATGCGTGCGCAGCTTTCTCT -GGCATGGGTTATCGGTCCACCGTTGGCCTTTATGCTGGCGTTGAATTACGGCTTTACGGTGATGTTTTCGATTGC -CGCCGGGATATTCACACTCAGTCTGGTATTGATTGCATTTATGCTTCCGTCTGTGGCGCGGGTAGAACTGCCGTC -GGAAAATGCTTTATCAATGCAAGGTGGCTGGCAGGATAGTAACGTACGGATGTTATTTGTCGCCTCGACGTTAAT -GTGGACCTGCAACACCATGTACATTATTGATATGCCGTTGTGGATCAGTAGCGAGTTAGGATTGCCAGACAAACT -GGCGGGTTTCCTGATGGGGACGGCAGCTGGACTGGAAATACCAGCAATGATTCTGGCTGGCTACTATGTCAAACG -TTATGGTAAGCGGCGAATGATGGTCATAGCAGTGGCGGCAGGAGTACTGTTTTACACCGGATTGATTTTCTTTAA -TAGCCGTATGGCGTTGATGACGCTGCAACTTTTTAACGCTGTATTTATCGGCATTGTTGCGGGTATTGGGATGCT -ATGGTTTCAGGATTTAATGCCTGGAAGAGCGGGGGCAGCTACCACCTTATTTACTAACAGTATTTCTACCGGGGT -AATTCTGGCTGGCGTTATTCAGGGAGCAATTGCACAAAGTTGGGGGCACTTTGCTGTCTACTGGGTAATTGCGGT -TATTTCTGTTGTCGCATTATTTTTAACCGCAAAGGTTAAAGACGTTTGATGACGTGGACGATAGCGGAAAGCCCG -GTCATTTGACCGGGCAAGGGGATTAATTCATAAACGCAGGTTGTTTTGCTTCATAAGCGGCAATGGCGTCGTCGT -GCTGCAAGGTAAGCCCAATACTGTCCAGACCGTTCATCATGCAGTGGCGGCGGAAGGCATCGATGGTAAAGCGAT -AGGTTTTCTCTCCCGCTTTCACCTCTTGCGCTTCCAGATCCACGTCGAAATGGATCCCCGGATTAGCTTTCACCA -GCGCAAACAGTTCGTCCACTTCTGCATCGCTTAATTTCACCGGCAGCAGCTGGTTGTTAAAGCTATTGCCGTAGA -AGATGTCAGCAAAACTCGGCGCAATCACCACTTTAAAACCGTAGTCGGTCAATGCCCAGGGCGCGTGCTCACGCG -AAGAGCCACAGCCGAAGTTTTCTCGTGCCAGCAAAATGGAAGCGCCCTGATACTGCGGGAAGTTCAGCACGAAGT -CCGGGTTTGGCTGTTGGCCTTTTTCATCCAGAAAACGCCAGTCGTTAAACAGATGCGCGCCAAAACCCGTACGGG -TCACTTTCTGCAAAAACTGTTTCGGGATGATTGCATCGGTATCGACATTGGCGGCATCCAGCGGAACCACCAGGC -CTGTGTGTTTGATAAATTTCTCTGCCATGGTGTGCTCCTTATTTAATGTTGCGAATGTCGGCGAAATGTCCGGTC -ACAGCAGCAGCGGCAGCCATTGCCGGGCTGACCAGATGCGTGCGCCCGCCGCGCCCCTGGCGGCCTTCAAAGTTA -CGGTTGCTGGTGGAGGCACAACGTTCGCCCGGATTCAGACGGTCGTTGTTCATCGCCAGACACATTGAGCAGCCA -GGCAAGCGCCATTCAAAACCGGCTTCAATAAAGATTTTATCCAGACCTTCCGCTTCCGCCTGGGCTTTTACCGGG -CCAGAGCCGGGAACCACCAGTGCCTGCACGCCTGGCGCGACTTTTCGCCCTTTGGCGATCTCCGCTGCCGCGCGT -AAATCTTCAATGCGCGAGTTGGTACAGGAACCGATAAACACTTTGTCGATAGCCACTTCGGTCAGCGGAATACCC -GGTTTCAGCCCCATATAGGCCAGCGCTTTTTCTGCCGACGCGCGTTCAACCGGATCGGCAAACGAAGCCGGATCG -GGAATATTGTCGTTCACGGAAATCACCTGGCCGGGATTGGTGCCCCAGGTGACCTGCGGTGAAATTTCTTCTGCT -TGCAGAGTGACAACGGTATCGAAAGTTGCGCCTTCGTCGGTTTGCAGGGTTTTCCAGTAGGCAACGGCGTCGTCG -AAATCTTTGCCTTTCGGCGCATGCAGACGGCCTTTGACATAGTTAAAGGTGGTTTCGTCCGGTGCAACCAGACCG -GCTTTTGCGCCCATTTCGATTGCCATATTGCACAGGGTCATACGACCTTCCATGCTTAAATCACGGATTGCTTCG -CCGCAAAACTCCACCACATGCCCGGTGCCGCCTGCGCTACCGGTTTTACCGATAATTGCCAGCACGATATCTTTT -GCGGTAATGCCCGGCGCGGCTTTGCCCTGGACTTCAATTTTCATGGTTTTTGCGCGGCCCTGTTTCAGGGTTTGC -GTTGCCAGTACGTGTTCAACTTCGGAAGTGCCGATACCAAAGGCCAGTGCGCCAAACGCGCCGTGGGTGGCGGTA -TGCGAGTCGCCGCAGACAATGGTCATCCCCGGCAAGGTGACGCCCTGTTCCGGCCCCATTACGTGGACGATCCCC -TGATACGGGTGATTCAGGTCATACAGTTCGACGCCAAATTCTTTGCAGTTTTTGATCAGTTCCTGCATCTGGATA -CGCGCCATTTCACCGCAGGCATTAATGTCTTTGGTCTGGGTAGAGACGTTGTGATCCATGGTAGCGAAGGTTTTG -CCCGGCTGACGTACCGGGCGACCGTGGGCGCGCAGACCATCGAACGCCTGCGGTGAGGTCACTTCATGCACCAGG -TGGCGGTCGATATATAACAGTGGGGTTTCGTTTTCGGCTTCGTACACAACGTGAGCGTCGAACAATTTTTCGTAT -AACGTCTTAGCCATGATTACACCCCTTCTGCTACATAGCGGGCAATGATATCGCCCATTTCATCGGTACTAACGG -CGGCAGCGCCACGGGCTAAATCCCCGGTGCGAATGCCTTCTTCTAATGCGCGGTTAATGGCGCGTTCAATGGCGC -AAGCCGCATCATCGGCATCCAGGCTGTAACGCAGCAGCAGTGCCAGCGAAAGGATTTGTGCAATCGGGTTGGCGA -TGTTTTTGCCTGCGATATCTGGTGCCGAGCCGCCCGCCGGTTCATACAGTCCAAAACCTTGCTCGTTCAGGCTGG -CGGAAGGCAACATCCCCATCGAGCCAGTGATCATTGCGCACTCGTCAGACAGAATGTCGCCAAACAGGTTGGAGC -ACAGCAGAACGTCAAACTGTGATGGATCTTTAATCAGCTGCATGGTGGCGTTGTCGATGTACATATGCGCCAGTT -CGACATCCGGGTATTCCGTGGCGATCTCGTTAACGATCTCCCGCCATAAAATAGAGGATTGCAGCACGTTGGCTT -TATCGATCGACGTCACTTTGTGGCGACGCTTGCGAGCAGATTCAAACGCGATGCGGGCGATACGTTCGATCTCAA -AACGGTGATACACCTCGGTATCAAAGGCTTTTTCATATTGTCCGCTACCTTCGCGGCCTTTTGGCTGACCGAAAT -AGATGCCGCCGGTCAGTTCGCGCACACACAGGATGTCGAAGCCGTTTGCGGCAATGTCTGCACGCAGCGGACAGA -ATGCTTCCAGCCCCTGATACAGTTTTGCCGGGCGCAGGTTGCTGAATAATTTGAAGTGCTTACGCAGAGGCAGCA -GCGCGCCGCGTTCTGGTTGCTGGTCTGGTGGTAAATGTTCCCACTTCGGGCCGCCTACCGAGCCAAACAGCACGG -CATCGGCTTGCTCACAACCTTCAACCGTCGCAGGCGGCAGTGGTTGCCCGTGGTTATCAATGGCTGCGCCGCCTA -CATCGTAATGGCTGGTGGTGATGCGCATCGCAAAGCGGTTGCGCACGGCATCCAGCACTTTCAGCGCCTGGGTCA -TCACTTCCGGACCAATACCGTCCCCCGGCAATACGGCAATATGGTAATTCTTCGACATCACACGGTTTCCTTGTT -GTTTTCGTTGTGTTGAGCTTTGCGTTGCAACTCTTTTTCGACTTCTGCGGCACGCCAGATATTGTTCAGAACGTG -CACCATGGCTTTGGCAGATGACTCGACAATATCGGTAGCCAGGCCGACGCCGTGGAAGCGGCGACCGTTGTAGTT -AGCGACGATATCCACCTGACCCAGCGCATCTTTACCGTGGCCTTTGGCGGTCAGGCTGTATTTCACCAGTTCGAC -GTTATATTCAGTGATGCGGTTAATTGCCTGATAGACGGCATCGACCGGACCGTTACCGTTGGCGGCTTCTGCTTT -GACTTCTTCGCCACAGGCCAGTTTGACGGCGGCGGTGGCGATATCGTTAGAGCCAGACTGCACGCTGAAGTAATC -CAGACGGAAATGCTCCGGCTCTTCTTGCTGCTTACCGATGAAGGCCAGCGCCTCCAGATCGTAATCAAACACCTG -ACCTTTTTTGTCCGCCAGCTTCAGGAAAGCATCGTACAAATTGTCTAAATTATATTCACTTTCTTTATACCCCAT -CTCATCCATGCGATGTTTCACCGCCGCACGCCCCGAACGAGAGGTCAGATTCAGCTGGATTTGGTTCAGACCAAT -AGATTCTGGTGTCATGATTTCGTAGTTTTCGCGGTTTTTCAGCACGCCATCCTGGTGTATACCGGAGGAGTGTGC -GAATGCGCCGCTGCCAACAATGGCTTTGTTTGCCGGGATCGGCATATTACAAATCTGGCTAACTAACTGGCTGGT -GCGCCATATCTCCTGGTGATTAATGGCGGTGTGGACGTTGAGAATATCCTTACGAACTTTGATCGCCATGATGAC -TTCTTCCAGGGAACAGTTTCCGGCACGCTCGCCGATCCCGTTCATTGCGCCTTCCACCTGGCGTGCACCGGCATG -TACCGCCGCCAGTGAGTTTCCGACCGCCAGGCCCAAATCGTCGTGGGTATGTACGGAGATAATGGCTTTGTCGAT -GTTAGGCACGCGTTCATACAGGCCGCTGATGATTCCGGCGAACTCAAACGGCATGGTGTAGCCCACGGTGTCCGG -AATGTTGATGGTGGTGGCACCGGCATTAATCGCCGCTTCGACCACTCGCGCCAGATCGGCAATGGGTGTACGCCC -GGCATCTTCGCAAGAAAATTCAACATCATCGGTGTAATTACGGGCGCGTTTCACCATATAGATAGCGCGTTCGAT -CACCTCGTCCAGCGTGCTGCGCAGCTTGGTGGCGATGTGCATTGGCGAAGTGGCAATAAAGGTATGAATACGGAA -GGCTTCGGCGACTTTCAGGGATTCGGCCGCCACGTCGATATCTTTTTCCACGCAGCGAGCTAACGCACATACGCG -GCTGTTTTTAACCTGGCGGGCGATGGTTTGCACCGATTCAAAATCGCCCGGCGAAGAGACGGGGAAACCGACTTC -CATCACGTCAACACCCATACGCTCAAGGGCCAGCGCAATTTGCAGTTTTTCTTTCACACTCAAGCTTGCCTGTAA -CGCCTGTTCACCGTCGCGCAATGTGGTATCGAAAATAATGACTTGCTGGCTCATGGTTTGGGTCCTTGTCTCTTT -TAGAGCGCCTCGCTTCGGGCATAAAAAAACCCGCGCAATGGCGCGGGTTTTTTGTTTGACTGCGTGCTGGCTTAA -TGCTGGATGCCGCTCACTCGTCTACCGCGCAAAGAAGATGCGTTTAGTAGTAGTAGACCGATAAAGCGAACGATG -TGAGTCATTAAATCAGCTCCAGATGAATGCGATATGCTTTTAGAGTTACTGGATACAAAAACGGATGTCAACCCT -GACGCAATAAAAACGTCCCGCCAGCGTGAGTTCTGCATCCGTAAAATTAGCTAATTGTGCTGCGGTGGTTAAAGT -AAGCGATATTAATTTCTGCTTAACTACCGACGCTTTTCATCGGTTGACATATTTCAGCATAAATTTTTGCATCTA -ATCAACGAGGAAAAAGGGGACAAAATGCACGCGTTGCAAAACCTATCCTGATGATTTGTATTGAATTATATGTTT -TGCGATTTTTTTTGATATTGATTTGGTGAATATTATTGATCAATTAATGTTAAGAATTAATGCATTAAATATATA -AATTAATTATTAAATAAGCACATTTAATCCATTTTGTAGATGATTGAGTATTCGCGGTAGTTATGATTAGATTGT -TTTCGCAACAAAAACATTATGGATTATTATGCTGTGGTAAATGACTCATTCCACGGCAATGGATTCTGTTTTTAT -CAGAACCCGTATCTTTATGTTTTCCGAATTTTACTCATTTTGCTTTTTCTTATTTTATATGCATGATAAATCATA -TTCTTCAGGATTATTTCTCTGCATTCCAATAAGGGAAAGGGAGTTAAGTGTGACAGTGGAGTTAAGTATGCCAGA -GGTACAAACAGATCATCCAGAGACGGCGGAGTTAAGCAAACCACAGCTACGCATGGTCGATCTCAACTTATTAAC -CGTTTTCGATGCCGTGATGCAGGAGCAAAACATTACTCGTGCCGCTCATGTTCTGGGAATGTCGCAACCTGCGGT -CAGTAACGCTGTTGCACGCCTGAAGGTGATGTTTAATGACGAGCTTTTTGTTCGTTATGGCCGTGGTATTCAACC -GACTGCTCGCGCATTTCAACTTTTTGGTTCAGTTCGTCAGGCATTGCAACTAGTACAAAATGAATTGCCTGGTTC -AGGTTTTGAACCCGCGAGCAGTGAACGTGTATTTCATCTTTGTGTTTGCAGCCCGTTAGACAGCATTCTGACCTC -GCAGATTTATAATCACATTGAGCAGATTGCGCCAAATATACATGTTATGTTCAAGTCTTCATTAAATCAGAACAC -TGAACATCAGCTGCGTTATCAGGAAACGGAGTTTGTGATTAGTTATGAAGACTTCCATCGTCCTGAATTTACCAG -CGTACCATTATTTAAAGATGAAATGGTGCTGGTAGCCAGCAAAAATCATCCAACAATTAAGGGCCCGTTACTGAA -ACATGATGTTTATAACGAACAACATGCGGCGGTTTCGCTCGATCGTTTCGCGTCATTTAGTCAACCTTGGTATGA -CACGGTAGATAAGCAAGCCAGTATCGCGTATCAGGGCATGGCAATGATGAGCGTACTTAGCGTGGTGTCGCAAAC -GCATTTGGTCGCTATTGCGCCGCGTTGGCTGGCTGAAGAGTTCGCTGAATCCTTAGAATTACAGGTATTACCGCT -GCCGTTAAAACAAAACAGCAGAACCTGTTATCTCTCCTGGCATGAAGCTGCCGGGCGCGATAAAGGCCATCAGTG -GATGGAAGAGCAATTAGTCTCAATTTGCAAACGCTAACTGATTGCAGAATAGGTCAGACATGAATGTCTGGTTTA -TTCTGCATTTTTTATTGAATGTAGAATTTTATTCTGAATGTGTGGGCTCTCTATTTTAGGATTAATTAAAAAAAT -AGAGAAATTGCTGTAAGTTGTGGGATTCAGCCGATTTATTATCAATTTAATCCTCTGTAATGGAGGATTTTATCG -TTTCTTTTCACCTTTCCTCCTGTTTATTCTTATTACCCCGTGTTTATGTCTCTGGCTGCCAATTGCTTAAGCAAG -ATCGGACGGTTAATGTGTTTTACACATTTTTTCCGTCAAACAGTGAGGCAGGCCATGGAGATGTTGTCTGGAGCC -GAGATGGTCGTCCGATCGCTTATCGATCAGGGCGTTAAACAAGTATTCGGTTATCCCGGAGGCGCAGTCCTTGAT -ATTTATGATGCATTGCATACCGTGGGTGGTATTGATCATGTATTAGTTCGTCATGAGCAGGCGGCGGTGCATATG -GCCGATGGCCTGGCGCGCGCGACCGGGGAAGTCGGCGTCGTGCTGGTAACGTCGGGTCCAGGGGCGACCAATGCG -ATTACTGGCATCGCCACCGCTTATATGGATTCCATTCCATTAGTTGTCCTTTCCGGGCAGGTAGCGACCTCGTTG -ATAGGTTACGATGCCTTTCAGGAGTGCGACATGGTGGGGATTTCGCGACCGGTGGTTAAACACAGTTTTCTGGTT -AAGCAAACGGAAGACATTCCGCAGGTGCTGAAAAAGGCTTTCTGGCTGGCGGCAAGTGGTCGCCCAGGACCAGTA -GTCGTTGATTTACCGAAAGATATTCTTAATCCGGCGAACAAATTACCCTATGTCTGGCCGGAGTCGGTCAGTATG -CGTTCTTACAATCCCACTACTACCGGACATAAAGGGCAAATTAAGCGTGCTCTGCAAACGCTGGTAGCGGCAAAA -AAACCGGTTGTCTACGTAGGCGGTGGGGCAATCACGGCGGGCTGCCATCAGCAGTTGAAAGAAACGGTGGAGGCG -TTGAATCTGCCCGTTGTTTGCTCATTGATGGGGCTGGGGGCGTTTCCGGCAACGCATCGTCAGGCACTGGGCATG -CTGGGAATGCACGGTACCTACGAAGCCAATATGACGATGCATAACGCGGATGTGATTTTCGCCGTCGGGGTACGA -TTTGATGACCGAACGACGAACAATCTGGCAAAGTACTGCCCAAATGCCACTGTTCTGCATATCGATATTGATCCT -ACTTCCATTTCTAAAACCGTGACTGCGGATATCCCGATTGTGGGGGATGCTCGCCAGGTCCTCGAACAAATGCTT -GAACTCTTGTCGCAAGAATCCGCCCATCAACCACTGGATGAGATCCGCGACTGGTGGCAGCAAATTGAACAGTGG -CGCGCTCGTCAGTGCCTGAAATATGACACTCACAGTGAAAAGATTAAACCGCAGGCGGTGATCGAGACTCTTTGG -CGGTTGACGAAGGGAGACGCTTACGTGACGTCCGATGTCGGGCAGCACCAGATGTTTGCTGCACTTTATTATCCA -TTCGACAAACCGCGTCGCTGGATCAATTCCGGTGGCCTCGGCACGATGGGTTTTGGTTTACCTGCGGCACTGGGC -GTCAAAATGGCGTTGCCAGAAGAAACCGTGGTTTGCGTCACTGGCGACGGCAGTATTCAGATGAACATCCAGGAA -CTGTCTACCGCGTTGCAATACGAGTTGCCCGTACTGGTGGTGAATCTCAATAACCGCTATCTGGGGATGGTGAAG -CAGTGGCAGGACATGATCTATTCCGGCCGTCATTCACAATCTTATATGCAATCGCTACCCGATTTCGTCCGTCTG -GCGGAAGCCTATGGGCATGTCGGGATCCAGATTTCTCATCCGCATGAGCTGGAAAGCAAACTTAGCGAGGCGCTG -GAACAGGTGCGCAATAATCGCCTGGTGTTTGTTGATGTTACCGTCGATGGCAGCGAGCACGTCTACCCGATGCAG -ATTCGCGGGGGCGGAATGGATGAAATGTGGTTAAGCAAAACGGAGAGAACCTGATTATGCGCCGGATATTATCAG -TCTTACTCGAAAATGAATCAGGCGCGTTATCCCGCGTGATTGGCCTTTTTTCCCAGCGTGGCTACAACATTGAAA -GCCTGACCGTTGCGCCAACCGACGATCCGACATTATCGCGTATGACCATCCAGACCGTGGGCGATGAAAAAGTAC -TTGAGCAGATCGAAAAGCAATTACACAAACTGGTCGATGTCTTGCGCGTGAGTGAGTTGGGGCAGGGCGCGCATG -TTGAGCGGGAAATCATGCTGGTGAAAATTCAGGCCAGCGGTTACGGGCGTGACGAAGTGAAACGTAATACGGAAA -TATTCCGTGGGCAAATTATCGATGTCACACCCTCGCTTTATACCGTTCAATTAGCAGGCACCAGCGGTAAGCTTG -ATGCATTTTTAGCATCGATTCGCGATGTGGCGAAAATTGTGGAGGTTGCTCGCTCTGGTGTGGTCGGACTTTCGC -GCGGCGATAAAATAATGCGTTGAGAATGATCTCAATGCGCAATTTACAGCCCAACATGTCACGTTGGGCTTTTTT -TGCGAAATCAGTGGGAACCTGGAATAAAAGCAGTTGCCGCAGTTAATTTTCTGCGCTTAGATGTTAATGAATTTA -ACCCATACCAGTACAATGGCTATGGTTTTTACATTTTACGCAAGGGGCAATTGTGAAACTGGATGAAATCGCTCG -GCTGGCGGGAGTGTCGCGGACCACTGCAAGCTATGTTATTAACGGCAAAGCGAAGCAATACCGTGTGAGCGACAA -AACCGTTGAAAAAGTCATGGCTGTGGTGCGTGAGCACAATTACCACCCGAACGCCGTGGCAGCTGGGCTTCGTGC -TGGACGCACACGTTCTATTGGTCTTGTGATCCCCGATCTGGAGAACACCAGCTATACCCGCATCGCTAACTATCT -TGAACGCCAGGCGCGGCAACGGGGTTATCAACTGCTGATTGCCTGCTCAGAAGATCAGCCAGACAACGAAATGCG -GTGCATTGAGCACCTTTTACAGCGTCAGGTTGATGCCATTATTGTTTCGACGTCGTTGCCTCCTGAGCATCCTTT -TTATCAACGCTGGGCTAACGACCCGTTCCCGATTGTCGCGCTGGACCGCGCCCTCGATCGTGAACACTTCACCAG -CGTGGTTGGTGCCGATCAGGATGATGCCGAAATGCTGGCGGAAGAGTTACGTAAGTTTCCCGCCGAGACGGTGCT -TTATCTTGGTGCGCTACCGGAGCTTTCTGTCAGCTTCCTGCGTGAACAAGGTTTCCGTACTGCCTGGAAAGATGA -TCCGCGCGAAGTGCATTTCCTGTATGCCAACAGCTATGAGCGGGAGGCGGCTGCCCAGTTATTCGAAAAATGGCT -GGAAACGCATCCGATGCCGCAGGCGCTGTTCACAACGTCGTTTGCGTTGTTGCAAGGAGTGATGGATGTCACGCT -GCGTCGCGACGGCAAACTGCCTTCTGACCTGGCAATTGCCACCTTTGGCGATAACGAACTGCTCGACTTCTTACA -GTGTCCGGTGCTGGCAGTGGCTCAACGTCACCGCGATGTCGCAGAGCGTGTGCTGGAGATTGTCCTGGCAAGCCT -GGACGAACCGCGTAAGCCAAAACCTGGTTTAACGCGCATTAAACGTAATCTCTATCGCCGCGGCGTGCTCAGCCG -TAGCTAAGCCGCGAACAAAAATACGCGCCAGGTGAATTTCCCTCTGGCGCGTAGAGTACGGGACTGGACATCAAT -ATGCTTAAAGTAAATAAGACTATTCCTGACTATTATTGATAAATGCTTTTAAACCCGCCCGTTAATTAACTCACC -AGCTGAAATTCACAATAATTAAGTGATATCGACAGCGCGTTTTTGCATTATTTTGTTACATGCGGCGATGAATTG -CCGATTTAACAAACACTTTTCTTTGCTTTTGCGCAAACCCGCTGGCATCAAGCGCCACACAGACGTAACAAGGAC -TGTTAACCGGGGAAGATATGTCCTAAAATGCCGCTCGCGTCGCAAACTGACACTTTATATTTGCTGTGGAAAATA -GTGAGTCATTTTAAAACGGTGATGACGATGAGGGATTTTTTCTTACAGCTATTCATAACGTTAATTTGCTTCGCA -CGTTGGACGTAAAATAAACAACGCTGATATTAGCCGTAAACATCGGGTTTTTTACCTCGGTATGCCTTGTGACTG -GCTTGACAAGCTTTTCCTCAGCTCCGTAAACTCCTTTCAGTGGGAAATTGTGGGGCAAAGTGGGAATAAGGGGTG -AGGCTGGCATGTTCCGGGGAGCAACGTTAGTCAATCTCGACAGCAAAGGGCGCTTATCAGTGCCTACCCGTTATC -GGGAACAGCTGCTTGAGAACGCTGCCGGTCAAATGGTTTGCACCATTGACATTTATCACCCGTGCCTGCTGCTTT -ACCCCCTGCCTGAATGGGAAATTATCGAGCAAAAATTATCGCGTCTGTCGAGCATGAACCCGGTTGAGCGCCGTG -TGCAGCGCCTACTGTTAGGTCATGCCAGCGAATGTCAGATGGATGGCGCAGGTCGATTGTTAATCGCGCCAGTAC -TGCGGCAACATGCCGGGCTGACAAAAGAAGTGATGCTGGTTGGACAGTTCAACAAGTTTGAGCTGTGGGATGAAA -CAACCTGGCATCAACAGGTCAAGGAAGATATCGACGCAGAGCAGTTGGCTACCGGAGACTTATCGGAGCGACTGC -AGGACTTGTCTCTATAAAATGATGGAAAACTATAAACATACTACGGTGCTGCTGGATGAAGCCGTTAATGGCCTC -AATATCCGTCCTGATGGCATCTACATTGATGGGACTTTTGGTCGCGGTGGTCACTCACGTCTGATCCTCTCGCAG -CTTGGCGAAGAGGGGCGTTTGCTGGCGATCGATCGCGACCCGCAGGCTATCGCCGTTGCGAAGACTATTGATGAT -CCGCGCTTCTCCATCATCCACGGACCTTTCTCCGCGCTGGGCGAATACGTTGCCGAGCGCGATCTTATCGGCAAG -ATCGACGGCATTCTCCTCGATCTTGGCGTCTCTTCACCGCAACTTGATGATGCTGAACGTGGCTTTTCCTTTATG -CGCGATGGTCCGCTGGACATGCGTATGGACCCAACCCGTGGGCAGTCAGCCGCTGAATGGCTACAAACCGCAGAA -GAAGCCGATATCGCCTGGGTATTGAAAACCTATGGTGAAGAGCGTTTTGCCAAACGCATTGCCCGCGCCATTGTC -GAGCGTAACCGCGAACAGCCGATGACCCGCACCAAAGAACTGGCGGAAGTCGTGGCTGCTGCAACGCCGGTGAAA -GATAAGTTTAAACATCCCGCGACCCGTACCTTCCAGGCGGTGCGCATTTGGGTAAACAGTGAACTGGAGGAGATA -GAGCAGGCGCTAAAAAGCTCGCTCAACGTGCTGGCCCCGGGTGGGCGGCTTTCGATCATCAGCTTCCACTCGCTG -GAAGACCGTATTGTGAAACGTTTTATGCGTGAAAACAGCCGCGGTCCGCAAGTTCCGGCAGGGTTACCGATGACT -GAAGAGCAGCTCAAAAAACTGGGTGGCCGTCAGCTGCGAGCACTAGGCAAGTTAATGCCGGGCGAAGAAGAGGTG -GCTGAGAACCCTCGTGCCCGTAGTTCAGTTCTGCGTATTGCAGAGAGGACGAATGCATGATCAGCAGAGTGACAG -AAGCTCTAAGCAAAGTTAAAGGATCGATGGGAAGCCACGAGCGCCATGCATTGCCTGGTGTTATCGGTGACGATC -TTTTGCGATTTGGGAAGCTGCCACTCTGCCTGTTCATTTGCATTATTTTGACGGCGGTGACTGTGGTAACCACGG -CGCACCATACCCGTTTACTGACCGCTCAGCGCGAACAACTGGTGCTGGAGCGAGATGCTTTAGACATTGAATGGC -GCAACCTGATCCTTGAAGAGAATGCGCTCGGCGACCATAGCCGGGTGGAAAGGATCGCCACGGAAAAGCTGCAAA -TGCAGCATGTTGATCCGTCACAAGAAAATATCGTAGTGCAAAAATAAGGATAAACGCGACGCATGAAAGCAGCGG -CGAAAACGCAGAAACCAAAACGTCAGGAAGAACATGCCAACTTTATCAGTTGGCGTTTTGCGTTGTTATGCGGCT -GTATTCTCCTGGCGCTGGCTTTTCTGCTCGGACGCGTAGCGTGGTTACAAGTTATCTCCCCGGATATGCTGGTGA -AAGAGGGCGACATGCGTTCTCTTCGCGTTCAGCAAGTTTCCACCTCCCGCGGCATGATTACTGACCGTTCTGGTC -GCCCGTTAGCGGTGAGCGTGCCGGTAAAAGCGATTTGGGCTGACCCGAAAGAAGTGCATGACGCTGGCGGTATCA -GCGTCGGTGACCGCTGGAAGGCGCTGGCTAACGCGCTCAATATTCCGCTGGATCAGCTTTCAGCCCGCATTAACG -CCAACCCGAAAGGGCGCTTTATTTATCTGGCGCGTCAGGTGAACCCTGACATGGCGGACTACATCAAAAAACTGA -AACTGCCGGGGATTCATCTGCGTGAAGAGTCTCGCCGTTACTATCCGTCCGGCGAAGTGACTGCTCACCTCATCG -GCTTTACTAACGTCGATAGTCAAGGGATTGAGGGCGTTGAGAAGAGTTTCGATAAATGGCTTACCGGGCAGCCGG -GTGAGCGCATTGTGCGTAAAGACCGCTATGGTCGCGTAATTGAAGATATTTCTTCTACTGACAGCCAGGCAGCGC -ACAACCTGGCGCTGAGTATTGATGAACGCCTGCAGGCGCTGGTTTATCGCGAACTGAACAACGCGGTGGCCTTTA -ACAAGGCTGAATCTGGTAGCGCCGTGCTGGTGGATGTCAACACCGGTGAAGTGCTGGCGATGGCTAACAGCCCGT -CATACAACCCTAACAATCTGAGCGGCACGCCGAAAGAGGCGATGCGTAACCGTACCATCACCGACGTGTTTGAAC -CGGGCTCAACGGTTAAACCGATGGTGGTAATGACCGCGTTGCAACGTGGCGTGGTGCGGGAAAACTCGGTACTCA -ATACCATTCCTTATCGAATTAACGGCCACGAAATCAAAGACGTGGCACGCTACAGCGAATTAACCCTGACCGGGG -TATTACAGAAGTCGAGTAACGTCGGTGTTTCCAAGCTGGCGTTAGCGATGCCGTCCTCAGCGTTAGTAGATACTT -ACTCACGTTTTGGACTGGGAAAAGCGACCAATTTGGGGTTGGTCGGAGAACGCAGTGGCTTATATCCTCAAAAAC -AACGGTGGTCTGACATAGAGAGGGCCACCTTCTCTTTCGGCTACGGGCTAATGGTAACACCATTACAGTTAGCGC -GAGTCTACGCAACTATCGGCAGCTACGGCATTTATCGCCCACTGTCGATTACCAAAGTTGACCCCCCGGTTCCCG -GTGAACGTGTCTTCCCGGAATCCATTGTCCGCACTGTGGTGCATATGATGGAAAGCGTGGCGCTACCAGGCGGCG -GCGGCGTGAAGGCGGCGATTAAAGGCTATCGTATCGCCATTAAAACCGGTACCGCGAAAAAGGTCGGGCCGGACG -GTCGCTACATCAATAAATATATTGCTTATACCGCAGGCGTTGCGCCTGCGAGTCAGCCGCGCTTCGCGCTGGTTG -TTGTTATCAACGATCCGCAGGCGGGTAAATACTACGGCGGCGCCGTTTCCGCGCCGGTCTTTGGTGCCATCATGG -GCGGCGTATTGCGTACCATGAACATCGAGCCGGATGCGCTGACAACGGGCGATAAAAATGAATTTGTGATTAATC -AAGGCGAGGGGACAGGTGGCAGATCGTAATTTGCGCGACCTTCTTGCTCCGTGGGTGCCAGACGCACCTTCGCGA -GCACTGCGAGAGATGACACTCGACAGCCGTGTGGCTGCGGCGGGCGATCTCTTTGTAGCTGTAGTAGGTCATCAG -GCGGACGGGCGTCGATATATCCCGCAGGCGATAGCGCAAGGTGTGGCTGCCATTATTGCAGAGGCGAAAGATGAG -GCGACCGATGGTGAAATCCGTGAAATGCACGGCGTACCGGTCATCTATCTCAGCCAGCTCAACGAGCGTTTATCT -GCACTGGCGGGCCGCTTTTACCATGAACCCTCTGACAATTTACGTCTCGTGGGCGTAACGGGCACCAACGGCAAA -ACCACGACTACCCAGCTGTTGGCGCAGTGGAGCCAACTGCTTGGCGAAATCAGCGCGGTAATGGGCACCGTTGGT -AACGGCCTGCTGGGGAAAGTGATCCCGACAGAAAATACAACCGGTTCGGCAGTCGATGTTCAGCATGAGCTGGCG -GGGCTGGTGGATCAGGGCGCGACGTTTTGCGCAATGGAAGTTTCCTCCCACGGGCTGGTACAGCACCGTGTGGCG -GCATTGAAATTTGCGGCGTCGGTCTTTACCAACTTAAGCCGCGATCACCTTGATTATCATGGTGATATGGAACAC -TACGAAGCCGCGAAATGGCTGCTTTATTCTGAGCATCATTGCGGTCAGGCGATTATTAACGCCGACGATGAAGTG -GGCCGCCGCTGGCTGGCAAAACTGCCGGACGCGGTTGCGGTATCAATGGAAGATCATATTAATCCGAACTGTCAC -GGACGCTGGTTGAAAGCGACCGAAGTGAACTATCACGACAGCGGTGCGACGATTCGCTTTAGCTCAAGTTGGGGC -GATGGCGAAATTGAAAGCCATCTGATGGGCGCTTTTAACGTCAGCAACCTGCTGCTCGCGCTGGCGACACTGTTG -GCACTCGGCTATCCACTGGCTGATCTGCTGAAAACCGCCGCGCGTCTGCAACCGGTTTGCGGACGTATGGAAGTG -TTCACTGCGCCAGGCAAACCGACGGTGGTGGTGGATTACGCGCATACGCCGGATGCACTGGAAAAAGCCTTACAG -GCGGCGCGTCTGCACTGTGCGGGCAAGCTGTGGTGTGTCTTTGGCTGTGGTGGCGATCGCGATAAAGGTAAGCGT -CCACTGATGGGCGCAATTGCCGAAGAGTTTGCTGACGTGGCGGTGGTGACGGACGATAACCCGCGTACCGAAGAA -CCGCGTGCCATCATCAACGATATTCTGGCGGGAATGTTAGATGCCGGACATGCCAAAGTGATGGAAGGCCGTGCT -GAAGCGGTGACTTGCGCCGTTATGCAGGCTAAAGAGAATGATGTGGTACTGGTCGCGGGCAAAGGCCATGAAGAT -TACCAGATTGTTGGCAATCAGCGTCTGGACTACTCCGATCGCGTCACGGTGGCGCGTCTGCTGGGGGTGATTGCA -TGATTAGCGTAACCCTTAGCCAACTTACCGACATTCTCAACGGTGAACTGCAAGGTGCAGATATCACCCTTGATG -CTGTAACCACTGATACCCGAAAACTGACGCCGGGCTGCCTGTTTGTTGCCCTGAAAGGCGAACGTTTTGATGCCC -ACGATTTTGCCGACCAGGCGAAAGCTGGCGGCGCAGGCGCACTACTGGTTAGCCGTCCGCTGGACATCGACCTGC -CGCAGTTAATCGTCAAGGATACGCGTCTGGCGTTTGGTGAACTGGCTGCATGGGTTCGCCAGCAAGTTCCGGCGC -GCGTGGTTGCTCTGACGGGGTCCTCCGGCAAAACCTCCGTTAAAGAGATGACGGCGGCGATTTTAAGCCAGTGCG -GCAACACGCTTTATACGGCAGGCAATCTCAACAACGACATCGGTGTACCGATGACGCTGTTGCGCTTAACGCCGG -AATACGATTACGCAGTTATTGAACTTGGCGCGAACCATCAGGGCGAAATAGCCTGGACTGTGAGTCTGACTCGCC -CGGAAGCTGCGCTGGTCAACAACCTGGCAGCGGCGCATCTGGAAGGTTTTGGCTCGCTTGCGGGTGTCGCGAAAG -CGAAAGGTGAAATCTTTAGCGGCCTGCCGGAAAACGGTATCGCCATTATGAACGCCGACAACAACGACTGGCTGA -ACTGGCAGAGCGTAATTGGCTCACGCAAAGTGTGGCGTTTCTCACCCAATGCCGCCAACAGCGATTTCACCGCCA -CCAATATCCATGTGACCTCGCACGGTACGGAATTTACCCTACAAACCCCAACCGGTAGCGTCGATGTTCTGCTGC -CGTTGCCGGGGCGTCACAATATTGCGAATGCGCTGGCAGCCGCTGCGCTCTCCATGTCCGTGGGCGCAACGCTTG -ATGCTATCAAAGCGGGGCTGGCAAATCTGAAAGCTGTTCCAGGCCGTCTGTTCCCCATCCAACTGGCAGAAAACC -AGTTGCTGCTCGACGACTCCTACAACGCCAATGTCGGTTCAATGACTGCAGCAGTCCAGGTACTGGCTGAAATGC -CGGGCTACCGCGTGCTGGTGGTGGGCGATATGGCGGAACTGGGCGCTGAAAGCGAAGCCTGCCATGTACAGGTGG -GCGAGGCGGCAAAAGCTGCTGGTATTGACCGCGTGTTAAGCGTGGGTAAACAAAGCCATGCTATCAGCACCGCCA -GCGGCGTTGGCGAACATTTTGCTGATAAAACTGCGTTAATTACGCGTCTTAAATTACTGATTGCTGAGCAACAGG -TAATTACGATTTTAGTTAAGGGTTCACGTAGTGCCGCCATGGAAGAGGTAGTACGCGCTTTACAGGAGAATGGGA -CATGTTAGTTTGGCTGGCCGAACATTTGGTCAAATATTATTCCGGCTTTAACGTCTTTTCCTATCTGACGTTTCG -CGCCATCGTCAGCCTGCTGACCGCGCTGTTCATCTCATTGTGGATGGGCCCGCGTATGATTGCTCATTTGCAAAA -ACTTTCCTTTGGTCAGGTGGTGCGTAACGACGGTCCTGAATCACACTTCAGCAAGCGCGGTACGCCGACCATGGG -CGGGATTATGATCCTGACGGCGATTGTGATCTCCGTACTGCTGTGGGCTTACCCGTCCAATCCGTACGTCTGGTG -CGTGTTGGTGGTGCTGGTAGGTTACGGTGTTATTGGCTTTGTTGATGATTATCGCAAAGTGGTGCGTAAAGACAC -CAAAGGGTTGATCGCTCGTTGGAAGTATTTCTGGATGTCGGTCATTGCGCTGGGTGTCGCCTTCGCCCTGTACCT -TGCCGGCAAAGACACGCCCGCAACGCAGCTGGTGGTCCCATTCTTTAAAGATGTGATGCCGCAGCTGGGGCTGTT -CTACATTCTGCTGGCTTACTTCGTCATTGTGGGTACTGGCAACGCGGTAAACCTGACCGATGGTCTCGACGGCCT -GGCAATTATGCCGACCGTATTTGTCGCCGGTGGTTTTGCGCTGGTGGCGTGGGCGACCGGCAATATGAACTTTGC -CAGCTACTTGCATATACCGTATCTGCGACACGCCGGGGAACTGGTTATTGTCTGTACCGCGATAGTCGGGGCAGG -ACTGGGCTTCCTGTGGTTTAACACCTATCCGGCGCAGGTCTTTATGGGCGATGTAGGTTCGCTGGCGTTAGGTGG -TGCGTTAGGCATTATCGCCGTACTGCTACGTCAGGAATTCCTGCTGGTGATTATGGGGGGCGTGTTCGTGGTAGA -AACGCTTTCTGTCATCCTGCAGGTCGGCTCCTTTAAACTGCGCGGACAACGTATTTTCCGCATGGCACCGATTCA -TCACCACTATGAACTGAAAGGCTGGCCGGAACCGCGCGTCATTGTGCGTTTCTGGATTATTTCGCTGATGCTGGT -TCTGATTGGTCTGGCAACGCTGAAGGTACGTTAATCATGGCTGATTATCAGGGTAAAAATGTCGTCATTATCGGC -CTGGGCCTCACCGGGCTTTCCTGCGTGGACTTTTTCCTCGCTCGCGGTGTGACGCCGCGCGTTATGGATACGCGT -ATGACACCGCCTGGCCTGGATAAATTACCCGAAGCCGTAGAACGCCACACGGGCAGTCTGAATGATGAATGGCTG -ATGGCGGCAGATCTGATTGTCGCCAGTCCCGGTATTGCACTGGCGCATCCATCCTTAAGCGCTGCCGCTGATGCC -GGAATCGAAATCGTTGGCGATATCGAGCTGTTCTGTCGCGAAGCACAAGCACCGATTGTGGCGATTACCGGTTCT -AACGGCAAAAGCACGGTCACCACGCTAGTGGGTGAAATGGCGAAAGCGGCGGGGGTTAACGTTGGTGTGGGTGGC -AATATTGGCCTGCCTGCGTTGATGCTACTGGATGATGAGTGTGAACTGTACGTGCTGGAACTGTCGAGCTTCCAG -CTGGAAACCACCTCCAGCTTACAGGCGGTAGCAGCGACCATTCTGAACGTGACTGAAGATCATATGGATCGCTAT -CCGTTTGGTTTACAACAGTATCGTGCAGCAAAACTGCGCATTTACGAAAACGCGAAAGTTTGCGTGGTTAATGCT -GATGATGCCTTAACAATGCCGATTCGCGGTGCGGATGAACGCTGCGTCAGCTTTGGCGTCAACATGGGTGACTAT -CACCTGAATCATCAGCAGGGCGAAACCTGGCTGCGGGTTAAAGGCGAGAAAGTGCTGAATGTGAAAGAGATGAAA -CTTTCCGGGCAGCATAACTACACCAATGCGCTGGCGGCGCTGGCGCTGGCAGATGCTGCAGGGTTACCGCGTGCC -AGCAGCCTGAAAGCGTTAACCACATTCACTGGTCTGCCGCATCGCTTTGAAGTTGTGCTGGAGCATAACGGCGTA -CGTTGGATTAACGATTCGAAAGCGACCAACGTCGGCAGTACGGAAGCGGCGCTGAATGGCCTGCACGTAGACGGC -ACACTGCATTTGTTGCTGGGTGGCGATGGTAAATCGGCGGACTTTAGCCCACTGGCGCGTTACCTGAATGGCGAT -AACGTACGTCTGTATTGTTTCGGTCGTGACGGCGCGCAGCTGGCGGCGCTACGCCCGGAAGTGGCAGAACAAACC -GAAACTATGGAACAGGCGATGCGCTTGCTGGCTCCGCGTGTTCAGCCGGGCGATATGGTTCTGCTCTCCCCAGCC -TGTGCCAGCCTTGATCAGTTCAAGAACTTTGAACAACGAGGCAATGAGTTTGCCCGTCTGGCGAAGGAGTTAGGT -TGATGCGTTTATCTCTCCCTCGCCTGAAAATGCCGCGCCTGCCAGGATTCAGTATCCTGGTCTGGATCTCCACGG -CGCTAAAGGGCTGGGTGATGGGCTCGCGGGAAAAAGATACCGACAGCCTGATCATGTACGATCGCACCTTACTGT -GGCTGACCTTCGGCCTCGCGGCGATTGGCTTTATCATGGTGACCTCGGCGTCAATGCCCATAGGGCAACGCTTAA -CCAACGATCCGTTCTTCTTCGCGAAGCGTGATGGTGTCTATCTGATTTTGGCGTTTATTCTGGCGATCATTACGC -TGCGTCTGCCGATGGAGTTCTGGCAACGCTACAGTGCCACGATGCTGCTCGGATCTATCATCCTGCTGATGATCG -TCCTGGTAGTGGGTAGCTCGGTTAAAGGGGCATCGCGTTGGATCGATCTCGGTTTGCTGCGTATCCAGCCTGCGG -AGCTGACAAAACTGTCGCTGTTTTGCTATATCGCCAACTATCTGGTGCGTAAAGGCGACGAAGTACGTAATAACC -TGCGCGGCTTCCTGAAACCGATGGGCGTGATTCTGGTGTTGGCAGTGTTACTGCTGGCACAGCCAGACCTTGGTA -CGGTGGTGGTGTTGTTTGTGACTACGCTGGCGATGTTGTTCCTGGCGGGAGCGAAATTGTGGCAGTTCATTGCCA -TTATCGGTATGGGCATTTCAGCGGTTGTGTTGCTGATACTCGCCGAACCGTACCGTATCCGCCGTGTTACCGCAT -TCTGGAACCCGTGGGAAGATCCCTTTGGCAGCGGCTATCAGTTAACGCAATCGCTGATGGCGTTTGGTCGCGGCG -AACTTTGGGGGCAAGGTTTAGGTAACTCGGTACAAAAACTGGAGTATCTGCCGGAAGCGCACACTGACTTTATTT -TCGCCATTATCGGCGAAGAACTGGGGTATGTCGGTGTGGTGCTGGCACTTTTAATGGTATTCTTCGTCGCTTTTC -GCGCGATGTCGATTGGCCGTAAAGCATTAGAAATTGACCACCGTTTTTCCGGTTTTCTCGCCTGTTCTATTGGCA -TCTGGTTTAGCTTCCAGGCGCTGGTTAACGTAGGCGCGGCGGCGGGGATGTTACCGACCAAAGGTCTGACATTGC -CGCTGATCAGTTACGGTGGTTCGAGCTTACTGATTATGTCGACAGCCATCATGATGCTGTTGCGTATTGATTATG -AAACGCGTCTGGAGAAAGCGCAGGCGTTTGTACGAGGTTCACGATGAGTGGTCAAGGAAAGCGATTAATGGTGAT -GGCAGGCGGAACCGGTGGACATGTATTCCCGGGACTGGCGGTTGCGCACCATCTAATGGCTCAGGGTTGGCAAGT -TCGCTGGCTGGGGACTGCCGACCGTATGGAAGCGGACTTAGTGCCAAAACATGGCATCGAAATTGATTTCATTCG -TATCTCTGGTCTGCGTGGAAAAGGTATAAAAGCACTGATAGCTGCCCCGCTGCGTATCTTCAACGCCTGGCGTCA -GGCGCGGGCGATTATGAAAGCGTACAAACCTGACGTGGTGCTCGGTATGGGAGGCTACGTGTCAGGTCCAGGTGG -TCTGGCCGCGTGGTCGTTAGGCATTCCGGTTGTACTTCATGAACAAAACGGTATTGCGGGCTTAACCAATAAATG -GCTGGCGAAGATTGCCACCAAAGTGATGCAGGCGTTTCCAGGTGCTTTCCCTAATGCGGAAGTAGTGGGTAACCC -GGTGCGTACCGATGTGTTGGCGCTGCCGTTGCCGCAGCAACGTTTGGCTGGACGTGAAGGTCCGGTTCGTGTGCT -GGTAGTGGGTGGTTCTCAGGGCGCACGCATTCTTAACCAGACAATGCCGCAGGTTGCTGCGAAACTGGGTGATTC -AGTCACTATCTGGCATCAGAGCGGCAAAGGTTCGCAACAATCCGTTGAACAGGCGTATGCCGAAGCGGGGCAACC -GCAGCATAAAGTGACGGAATTTATTGATGATATGGCGGCGGCGTATGCGTGGGCGGATGTCGTCGTTTGCCGCTC -CGGTGCGTTAACGGTGAGTGAAATCGCCGCGGCAGGACTACCGGCGTTGTTTGTGCCGTTTCAACATAAAGACCG -CCAGCAATACTGGAATGCGCTACCGCTGGAAAAAGCGGGCGCAGCCAAAATTATCGAGCAGCCACAGCTTAGCGT -GGATGCTGTCGCCAACACCCTGGCCGGGTGGTCGCGAGAAACCTTATTAACCATGGCAGAACGCGCCCGCGCTGC -ATCCATTCCGGATGCCACCGAGCGAGTGGCAAATGAAGTGAGCCGGGTTGCCCGGGCGTAATTGTAGCGATGCCT -TTTGCATCGTATGAATTTAAGAAGTTAATGGCGTAAAGAATGAATACACAACAATTGGCAAAACTGCGTTCCATC -GTGCCCGAAATGCGTCGCGTTCGGCACATACATTTTGTCGGCATTGGTGGTGCCGGTATGGGCGGTATTGCCGAA -GTTCTGGCCAATGAAGGTTATCAGATCAGTGGTTCCGATTTAGCGCCAAATCCGGTCACGCAGCAGTTAATGAAT -CTGGGTGCGACGATTTATTTCAACCATCGCCCGGAAAACGTACGTGATGCCAGCGTGGTCGTTGTTTCCAGCGCG -ATTTCTGCCGATAACCCGGAAATTGTCGCCGCTCATGAAGCGCGTATTCCGGTGATCCGTCGTGCCGAAATGCTG -GCTGAGTTAATGCGTTTTCGTCATGGCATCGCCATTGCCGGAACGCACGGCAAAACGACAACCACCGCGATGGTT -TCCAGCATCTACGCAGAAGCGGGGCTCGACCCAACCTTCGTTAACGGCGGGCTGGTAAAAGCGGCGGGGGTTCAT -GCGCGTTTGGGGCATGGTCGGTACCTGATTGCCGAAGCAGATGAGAGTGATGCATCGTTCCTGCATCTGCAACCG -ATGGTGGCGATTGTCACCAATATCGAAGCCGACCACATGGATACCTACCAGGGCGACTTTGAGAATTTAAAACAG -ACTTTTATTAATTTTCTGCACAACCTGCCGTTTTACGGTCGTGCGGTGATGTGTGTTGATGATCCGGTGATCCGC -GAATTGTTACCGCGAGTGGGGCGTCAGACCACGACTTACGGCTTCAGCGAAGATGCCGACGTGCGTGTAGAAGAT -TATCAGCAGATTGGCCCGCAGGGGCACTTTACGCTGCTGCGCCAGGACAAAGAGCCGATGCGCGTCACCCTGAAT -GCGCCAGGTCGTCATAACGCGCTGAACGCCGCAGCTGCGGTTGCGGTTGCTACGGAAGAGGGCATTGACGACGAG -GCTATTTTGCGGGCGCTTGAAAGCTTCCAGGGGACTGGTCGCCGTTTTGATTTCCTCGGTGAATTCCCGCTGGAG -CCAGTGAATGGTAAAAGCGGTACGGCAATGCTGGTCGATGACTACGGCCACCACCCGACGGAAGTGGACGCCACC -ATTAAAGCGGCGCGCGCAGGCTGGCCGGATAAAAACCTGGTAATGCTGTTTCAGCCGCACCGTTTTACCCGTACG -CGCGACCTGTATGATGATTTCGCCAATGTGCTGACGCAGGTTGATACCCTGTTGATGCTGGAAGTGTATCCGGCT -GGCGAAGCGCCAATTCCGGGAGCGGACAGCCGTTCGCTGTGTCGCACAATTCGTGGACGTGGGAAAATTGATCCC -ATTCTGGTGCCGGATCCGGCGCGGGTAGCCGAGATGCTGGCACCGGTATTAACCGGTAACGACCTGATTCTCGTT -CAGGGGGCTGGTAATATTGGAAAAATTGCCCGTTCTTTAGCTGAAATCAAACTGAAGCCGCAAACTCCGGAGGAA -GAACAACATGACTGATAAAATCGCGGTCCTGTTGGGTGGGACCTCCGCTGAGCGGGAAGTTTCTCTGAATTCTGG -CGCAGCGGTGTTAGCCGGACTGCGTGAAGGCGGTATTGACGCGTATCCTGTCGACCCGAAAGAAGTCGACGTGAC -GCAACTGAAGTCGATGGGCTTTCAGAAAGTGTTTATCGCGCTACACGGTCGCGGCGGTGAAGATGGTACGCTGCA -GGGGATGCTCGAGCTGATGGGCTTGCCTTATACCGGAAGCGGAGTGATGGCATCTGCGCTTTCAATGGATAAACT -ACGCAGCAAACTTCTATGGCAAGGTGCCGGTTTACCGGTCGCGCCGTGGGTAGCGTTAACCCGCGCAGAGTTTGA -AAAAGGCCTGAGCGATAAGCAGTTAGCAGAAATTTCTGCTCTGGGTTTGCCGGTTATCGTTAAGCCGAGCCGCGA -AGGTTCCAGTGTGGGAATGTCAAAAGTAGTAGCAGAAAATGCTCTACAAGATGCATTAAGATTGGCATTTCAGCA -CGATGAAGAAGTATTGATTGAAAAATGGCTAAGTGGGCCGGAGTTCACGGTTGCGATACTCGGTGAAGAAATTTT -ACCGTCAATACGTATTCAACCGTCCGGAACCTTCTATGATTATGAGGCGAAGTATCTCTCTGATGAGACACAGTA -TTTCTGCCCCGCAGGTCTGGAAGCGTCACAAGAGGCCAATTTGCAGGCATTAGTGCTGAAAGCATGGACGACGTT -AGGTTGCAAAGGATGGGGACGTATTGACGTTATGCTGGACAGCGATGGACAGTTTTATCTGCTGGAAGCCAATAC -CTCACCGGGTATGACCAGCCACAGCCTGGTGCCGATGGCGGCACGTCAGGCAGGTATGAGCTTCTCGCAGTTGGT -AGTACGAATTCTGGAACTGGCGGACTAATATGTCGCAGGCTGCTCTGAACACGCGAAACAGCGAAGAAGAGGTTT -CTTCTCGCCGCAATAATGGAACGCGTCTGGCGGGGATCCTTTTCCTGCTGACCGTTTTAACGACAGTGTTGGTGA -GCGGCTGGGTCGTGTTGGGCTGGATGGAAGATGCGCAACGCCTGCCGCTCTCAAAGCTGGTGTTGACCGGTGAAC -GCCATTACACACGTAATGACGATATCCGGCAGTCGATCCTGGCATTGGGTGAGCCGGGTACCTTTATGACCCAGG -ATGTCAACATCATCCAGACGCAAATAGAACAACGCCTGCCGTGGATTAAGCAGGTGAGCGTCAGAAAGCAGTGGC -CTGATGAATTGAAGATTCATCTGGTTGAATATGTGCCGATTGCGCGGTGGAATGATCAACATATGGTAGACGCGG -AAGGAAATACCTTCAGCGTGCCGCCAGAACGCACCAGCAAGCAGGTGCTTCCAATGCTGTATGGCCCGGAAGGCA -GCGCCAATGAAGTGTTGCAGGGCTATCGCGAAATGGGGCAGATGCTGGCAAAGGACAGATTTACTCTGAAGGAAG -CGGCGATGACCGCGCGGCGTTCCTGGCAGTTGACGCTGAATAACGATATTAAGCTCAATCTTGGCCGGGGCGATA -CGATGAAACGTTTGGCTCGCTTTGTAGAACTTTATCCGGTTTTACAGCAGCAGGCGCAAACCGATGGCAAACGGA -TTAGCTACGTTGATTTGCGTTATGACTCTGGAGCGGCAGTAGGCTGGGCGCCCTTGCCGCCAGAGGAATCTACTC -AGCAACAAAATCAGGCACAGGCAGAACAACAATGATCAAGGCGACGGACAGAAAACTGGTAGTAGGACTGGAGAT -TGGTACCGCGAAGGTTGCCGCTTTAGTAGGGGAAGTTCTGCCCGACGGTATGGTCAATATCATTGGCGTGGGCAG -CTGCCCGTCGCGTGGTATGGATAAAGGCGGGGTGAACGACCTCGAATCCGTGGTCAAGTGCGTACAACGCGCCAT -TGACCAGGCAGAATTGATGGCAGATTGTCAGATCTCTTCGGTATATCTGGCGCTTTCTGGTAAGCACATCAGCTG -CCAGAATGAAATTGGTATGGTGCCTATTTCTGAAGAAGAAGTGACGCAAGAAGATGTGGAAAACGTCGTCCATAC -CGCGAAATCGGTGCGTGTGCGCGATGAGCATCGTGTGCTGCATGTGATCCCGCAAGAGTATGCGATTGACTATCA -GGAAGGGATCAAGAATCCGGTAGGACTTTCGGGCGTGCGGATGCAGGCAAAAGTGCACCTGATCACATGTCACAA -CGATATGGCGAAAAACATCGTCAAAGCGGTTGAACGTTGTGGGCTGAAAGTTGACCAACTGATATTTGCCGGACT -GGCATCAAGTTATTCGGTATTGACGGAAGATGAACGTGAACTGGGTGTCTGCGTCGTCGATATCGGTGGTGGTAC -AATGGATATCGCCGTTTATACCGGTGGGGCATTGCGCCACACTAAGGTAATTCCTTATGCTGGCAATGTCGTGAC -CAGTGATATCGCTTACGCCTTTGGCACGCCGCCAAGCGACGCCGAAGCGATTAAAGTTCGCCACGGTTGTGCGCT -GGGTTCCATCGTTGGAAAAGATGAGAGCGTGGAAGTGCCGAGCGTAGGTGGTCGTCCGCCACGGAGTCTGCAACG -TCAGACACTGGCAGAGGTGATCGAGCCGCGCTATACCGAGCTGCTCAACCTGGTCAACGAAGAGATATTGCAGTT -GCAGGAAAAGCTTCGCCAACAAGGGGTTAAACATCACCTGGCGGCAGGCATTGTATTAACCGGTGGCGCAGCGCA -GATCGAAGGTCTTGCAGCCTGTGCTCAGCGCGTGTTTCATACGCAAGTGCGTATCGGCGCGCCGCTGAACATTAC -CGGTTTAACGGATTATGCTCAGGAGCCGTATTATTCGACGGCGGTGGGATTGCTTCACTATGGGAAAGAGTCACA -TCTTAACGGTGAAGCTGAAGTAGAAAAACGTGTTACAGCATCAGTTGGCTCGTGGATCAAGCGACTCAATAGTTG -GCTGCGAAAAGAGTTTTAATTTTTATGAGGCCGACGATGATTACGGCCTCAGGCGACAGGCACAAATCGGAGAGA -AACTATGTTTGAACCAATGGAACTTACCAATGACGCGGTGATTAAAGTCATCGGCGTCGGCGGCGGCGGCGGTAA -TGCTGTTGAACACATGGTGCGCGAGCGCATTGAAGGTGTTGAATTCTTCGCGGTAAATACCGATGCACAAGCGCT -GCGTAAAACAGCGGTTGGACAGACGATTCAAATCGGTAGCGGTATCACCAAAGGACTGGGCGCTGGCGCTAATCC -AGAAGTTGGCCGCAATGCGGCTGATGAGGATCGCGATGCATTGCGTGCGGCGCTGGAAGGTGCAGACATGGTCTT -TATTGCTGCGGGTATGGGTGGTGGTACCGGTACAGGTGCAGCACCAGTCGTCGCTGAAGTGGCAAAAGATTTGGG -TATCCTGACCGTTGCTGTCGTCACTAAGCCTTTCAACTTTGAAGGCAAGAAGCGTATGGCATTCGCGGAGCAGGG -GATCACTGAACTGTCCAAGCATGTGGACTCTCTGATCACTATCCCGAACGACAAACTGCTGAAAGTTCTGGGCCG -CGGTATCTCCCTGCTGGATGCGTTTGGCGCAGCGAACGATGTACTGAAAGGCGCTGTGCAAGGTATCGCTGAACT -GATTACTCGTCCGGGTTTGATGAACGTGGACTTTGCAGACGTACGCACCGTAATGTCTGAGATGGGCTACGCAAT -GATGGGTTCTGGCGTGGCGAGCGGTGAAGACCGTGCGGAAGAAGCTGCTGAAATGGCTATCTCTTCTCCGCTGCT -GGAAGATATCGACCTGTCTGGCGCGCGCGGCGTGCTGGTTAACATCACGGCGGGCTTCGACCTGCGTCTGGATGA -GTTCGAAACGGTAGGTAACACCATCCGTGCATTTGCTTCCGACAACGCGACTGTGGTTATCGGTACTTCTCTTGA -CCCGGATATGAATGACGAGCTGCGCGTAACCGTTGTTGCGACAGGTATCGGCATGGACAAACGTCCTGAAATCAC -TCTGGTGACCAATAAGCAGGTTCAGCAGCCAGTGATGGATCGCTACCAGCAGCATGGGATGGCTCCGCTGACCCA -GGAGCAGAAGCCGGTTGCTAAAGTCGTGAATGACAATGCGCCGCAAACTGCGAAAGAGCCGGATTATCTGGATAT -CCCAGCATTCCTGCGTAAGCAAGCTGATTAAGAATTGACTGGAATTTGGGTTTCGAGGCTCTTTGTGCTAAACTG -GCCCGCCGAATGTATAGTACACTTCGGTTGGATAGGTAATTTGGCGAGATAATACGATGATCAAACAAAGGACAC -TTAAACGTATCGTTCAGGCGACGGGTGTCGGTTTACATACCGGCAAGAAAGTCACCCTGACGTTACGCCCTGCGC -CGGCCAACACCGGGGTCATCTATCGTCGCACCGACTTGAATCCACCGGTAGATTTCCCGGCCGATGCCAAATCTG -TGCGTGATACCATGCTCTGTACGTGTCTGGTCAACGAGCATGATGTACGGATTTCAACCGTAGAGCACCTCAATG -CTGCTCTCGCGGGCTTGGGCATCGATAACATTGTTATCGAAGTTAACGCGCCGGAAATCCCGATCATGGACGGCA -GCGCCGCTCCGTTTGTATACCTGCTGCTTGACGCCGGTATCGACGAGTTGAACTGCGCCAAAAAATTTGTTCGCA -TCAAAGAGACTGTTCGTGTCGAAGATGGCGATAAGTGGGCTGAATTTAAGCCGTACAATGGTTTTTCGCTGGATT -TCACCATCGATTTTAACCATCCGGCTATTGATTCCAGCAACCAGCGCTATGCGATGAACTTCTCCGCTGATGCGT -TTATGCGCCAGATCAGCCGTGCGCGTACGTTCGGTTTCATGCGTGATATCGAATATCTGCAGTCCCGTGGTTTGT -GCCTGGGCGGCAGCTTCGATTGTGCCATCGTTGTTGACGATTATCGCGTACTGAACGAAGACGGCCTGCGTTTTG -AAGACGAATTTGTGCGTCACAAAATGCTCGATGCGATCGGTGACTTGTTCATGTGTGGTCACAATATTATTGGTG -CATTTACCGCTTATAAATCCGGTCATGCACTGAATAACAAACTGCTGCAGGCTGTCCTGGCGAAACAGGAAGCCT -GGGAATATGTGACCTTCCAGGACGACGCAGAACTGCCGTTGGCCTTCAAAGCGCCTTCAGCTGTACTGGCATAAC -GACATTTATACTGTCGTATAAAATTCGACTGGCAAATCTGGCACTCTCTCCGGCCAGGTGAACCAGTCGTTTTTT -TTTGAATTTTATAAGAGCTATAAAAAACGGTGCGAACGCTGTTTTCTTAAGCACTTTTCCGCACAACTTATCTTC -ATTCGTGCTGTGGACTGCAGGCTTTAATGATAAGATTTGTGCGCTAAATACGTTTGAATATGATCGGGATGGCAA -TAACGTGAGTGGAATACTGACGCGCTGGCGACAGTTTGGTAAACGCTACTTCTGGCCGCATCTCTTATTAGGGAT -GGTTGCGGCGAGTTTAGGTTTGCCTGCGCTCAGCAACGCCGCCGAACCAAACGCGCCCGCAAAAGCGACAACCCG -CAACCACGAGCCTTCAGCCAAAGTTAACTTTGGTCAATTGGCCTTGCTGGAAGCGAACACACGCCGCCCGAATTC -GAACTATTCCGTTGATTACTGGCATCAACATGCCATTCGCACGGTAATCCGTCATCTTTCTTTCGCAATGGCACC -GCAAACACTGCCCGTTGCTGAAGAATCTTTGCCTCTTCAGGCGCAACATCTTGCATTACTGGATACGCTCAGCGC -GCTGCTGACCCAGGAAGGCACGCCGTCTGAAAAGGGTTATCGCATTGATTATGCGCATTTTACCCCACAAGCAAA -ATTCAGCACGCCCGTCTGGATAAGCCAGGCGCAAGGCATCCGTGCTGGCCCTCAACGCCTCACCTAACAACAATA -AACCTTTACTTCATTTTATTAACTCCGCAACGCGGGGCGTTTGAGATTTTATTATGCTAATCAAATTGTTAACTA -AAGTTTTCGGTAGTCGTAACGATCGCACCCTGCGCCGGATGCGCAAAGTGGTCAACATCATCAATGCCATGGAAC -CGGAGATGGAAAAACTCTCCGACGAAGAACTGAAAGGGAAAACCGCAGAGTTTCGTGCACGTCTGGAAAAAGGCG -AAGTGCTGGAAAATCTGATCCCGGAAGCTTTCGCCGTGGTACGTGAGGCAAGTAAGCGCGTCTTTGGTATGCGTC -ACTTCGACGTTCAGTTACTCGGCGGTATGGTTCTTAACGAACGCTGCATCGCCGAAATGCGTACCGGTGAAGGAA -AAACCCTGACCGCAACGCTGCCTGCTTACCTGAACGCACTAACCGGTAAAGGCGTGCACGTAGTTACCGTCAACG -ACTACCTGGCGCAACGTGACGCCGAAAACAACCGTCCGCTGTTTGAATTCCTTGGCCTGACTGTCGGTATCAACC -TGCCGGGCATGCCAGCACCGGCAAAGCGCGAAGCTTACGCAGCTGACATCACTTACGGTACGAACAACGAATACG -GCTTTGACTACCTGCGCGACAACATGGCGTTCAGCCCTGAAGAACGTGTACAGCGTAAACTGCACTATGCGCTGG -TGGACGAAGTGGACTCCATCCTGATCGATGAAGCGCGTACACCGCTGATCATTTCCGGCCCGGCAGAAGACAGCT -CGGAAATGTATAAACGCGTGAATAAAATTATTCCGCACCTGATCCGTCAGGAAAAAGAAGACTCCGAAACCTTCC -AGGGCGAAGGCCACTTCTCGGTGGACGAAAAATCTCGCCAGGTGAACCTGACCGAACGTGGTCTGGTGCTGATTG -AAGAACTGCTGGTGAAAGAGGGCATCATGGATGAAGGGGAGTCTCTGTACTCTCCGGCCAACATCATGCTGATGC -ACCACGTAACGGCGGCGCTGCGCGCTCATGCGCTGTTTACCCGTGACGTCGACTACATCGTTAAAGATGGTGAAG -TTATCATCGTTGACGAACACACCGGTCGTACCATGCAGGGCCGTCGCTGGTCCGATGGTCTGCACCAGGCTGTGG -AAGCGAAAGAAGGTGTGCAGATCCAGAACGAAAACCAAACGCTGGCTTCGATCACCTTCCAGAACTACTTCCGTC -TGTATGAAAAACTGGCGGGGATGACCGGTACTGCTGATACCGAAGCTTTCGAATTTAGCTCAATCTACAAGCTGG -ATACCGTCGTTGTTCCGACCAACCGTCCAATGATTCGTAAAGATCTGCCGGACCTGGTCTACATGACTGAAGCGG -AAAAAATTCAGGCGATCATTGAAGATATCAAAGAACGTACTGCGAAAGGCCAGCCGGTGCTGGTGGGTACTATCT -CCATCGAAAAATCGGAGCTGGTGTCAAACGAACTGACCAAAGCCGGTATTAAGCACAACGTCCTGAACGCCAAAT -TCCACGCCAACGAAGCGGCGATTGTTGCTCAGGCAGGTTATCCGGCTGCGGTGACTATCGCGACCAATATGGCGG -GTCGTGGTACAGATATTGTGCTCGGTGGTAGCTGGCAGGCAGAAGTTGCCGCGCTGGAAAATCCGACCGCAGAGC -AAATTGAAAAAATTAAAGCCGACTGGCAGGTACGTCACGATGCGGTACTGGAAGCAGGTGGCCTGCATATCATCG -GTACCGAGCGTCACGAATCCCGTCGTATCGATAACCAGTTGCGCGGTCGTTCTGGTCGTCAGGGGGATGCTGGTT -CTTCCCGTTTCTACCTGTCGATGGAAGATGCGCTGATGCGTATTTTTGCTTCCGACCGAGTATCCGGCATGATGC -GTAAACTGGGTATGAAGCCAGGCGAAGCCATTGAACACCCGTGGGTGACTAAAGCGATTGCCAACGCCCAGCGTA -AAGTTGAAAGCCGTAACTTCGACATTCGTAAGCAACTGCTGGAATATGATGACGTGGCTAACGATCAGCGTCGCG -CCATTTACTCCCAGCGTAACGAACTGTTGGATGTCAGCGATGTGAGCGAAACCATTAACAGCATTCGTGAAGATG -TGTTCAAAGCGACCATTGATGCCTACATTCCACCACAGTCGCTGGAAGAAATGTGGGATATTCCGGGGCTGCAGG -AACGTCTGAAGAACGATTTCGACCTCGATTTGCCAATTGCCGAGTGGCTGGATAAAGAACCAGAACTGCATGAAG -AGACGCTGCGTGAGCGCATTCTGGCGCAGTCCATCGAAGTGTATCAGCGTAAAGAAGAAGTGGTTGGTGCTGAGA -TGATGCGTCACTTCGAGAAAGGCGTCATGCTGCAAACGCTTGACTCCCTGTGGAAAGAGCACCTGGCAGCGATGG -ACTATCTGCGTCAGGGTATCCACCTGCGTGGCTACGCACAGAAAGATCCGAAGCAGGAATACAAACGTGAATCGT -TCTCCATGTTTGCAGCGATGCTGGAGTCGTTGAAATATGAAGTTATCAGTACGCTGAGCAAAGTTCAGGTACGTA -TGCCTGAAGAGGTTGAGGAGCTGGAACAACAGCGTCGTATGGAAGCCGAGCGTTTAGCGCAAATGCAGCAGCTTA -GCCATCAGGATGACGACTCTGCAGCCGCAGCTGCACTGGCGGCGCAAACCGGAGAGCGCAAAGTAGGACGTAACG -ATCCTTGCCCGTGCGGTTCTGGTAAAAAATACAAGCAGTGCCATGGCCGCCTGCAATAAAAGCTAACTGTTGAAG -TAAAAGGCGCAGGATTCTGCGCCTTTTTTATAGGTTTAAGACAATGAAAAAGCTGCAAATTGCGGTAGGTATTAT -TCGCAACGAGAACAATGAAATCTTTATAACGCGTCGCGCAGCAGATGCGCACATGGCGAATAAACTGGAGTTTCC -CGGCGGTAAAATTGAAATGGGTGAAACGCCGGAACAGGCGGTGGTGCGTGAACTTCAGGAAGAAGTCGGGATTAC -CCCCCAACATTTTTCGCTATTTGAAAAACTGGAATATGAATTCCCGGACAGGCATATAACACTGTGGTTTTGGCT -GGTCGAACGCTGGGAAGGGGAGCCGTGGGGTAAAGAAGGGCAACCCGGTGAGTGGATGTCGCTGGTCGGTCTTAA -TGCCGATGATTTTCCGCCAGCCAATGAACCGGTAATTGCGAAGCTTAAACGTCTGTAGGTCAGATAAGGCGTTTT -CGCCGCATCCGACATTCGCACACGATGCCTGATGCGACGCTGGCGCGTCTTATCAGGCCTAAAGGGATTTCTAAC -TCATTGATAAATTTGTTTTTGTAGGTCGGATAAGGCGTTCACGCCGCATCCGACATTTGCACAAGATGCCTGATG -CGACGCTGTCCGCGTCTTATCAGGCCTACGTGCGGCATCAGACAAATGTCACTGCTTTGGTTCTTCGCTCCAGTC -ATCGCTTTCGGAAAGATCGCCACTGCTGGGGATTCGTTTTTCTTCAGCAGCCCATTCTCCGAGGTCGATCAGCTG -ACAACGTTTGGAGCAAAATGGCCGAAACGGGCTGATTTCACCCCACACCACCGTTTTCCCGCAGGTTGGGCAATT -CACCGTAATAGTTTCTGACATTTTTACTCCTTAGCAACAGGCCAGTTCGAAATCCAGACGTTCCGGTACCTGTCC -GTTTTCAGTGTCCAGCGGCATAAAACGAATGGCAAAACGGCTCTTATGTCCGGAAATTTGCGGATAAAGCTGTGA -ATCGAGCGACAGATTCAGGCGCAGCAAGTCGGCATCGCCACCGTTATCCTGATAAAAACCATTCAGGCTGGTTTG -TTTACGGAAGGGGGCCGACTGGCGAATTAAATCCAGCACCATGGTAAGTGCCTGGGTGAGCGGGTTCAGGCTGGC -AATCCAGGTTTCTACCTGGCTGTCGCGCTGCGCCTGGGGTAGATGCAGCCAAATGTGCAATGTAGGTAAATCAAA -GCTGCAACAGCCGCCTGGGATGCTCAGTCGCTGACGCACCAGAGCAATCAAACGATCTTCACGCAGAAATTGCCC -GATACGCGGCGCGGAAATTAATACGCTCCCCGCCGCTTTTAACTGCTGAATTAATGCTTCAATACGGCTCTGGTC -CACGCCAGGCACGCCAATCCAGGTCTGGAGTTTACGTTGCTGCCGGTCAAGTTCTTTCAACAGCTCAGTGCGGAC -TTCGCCGCGCTCGAAAACATCCAGTAATTCACTGACATTACGGAAGAAATGCAGCGCGCCAGCGTGGTCAACGAT -GGGTAAATTAACGGTGAGTTGCTGAATCAAAAACTCAATGCGCAGCCATGTACGCATTTTTTCATTTAGTGGATG -TTCAAAAAGGACCTGGGTCTGCATTACGGTTTTTCCTGTGAGACAAACTGCGACGCAAGCTGCAAATAGTGTGCG -TGCAGGCGGGCAACATCCGATGCGATAGCATCCGGTGCGCCGTTATTATCAATGACGTCATCTGCCACGGCAAGG -CGGGCTTCGCGCGTTGCCTGAGCAGCAAGGATTTGTTCGACATGCTCGCGAGTTACATCATCGCGCTGCATGGTG -CGCTTAAGTTGCGTTTCTGGGCTGACATCCACCACAAGCACTCGATTCGCTTTTTTATACAGTGAGTTTTCTACC -AGCAATGGCACAACCCACAGTACATAGGGGGAAGTAGCTTGCTGGATCTGGTGTTGCGTCTCTTGCTGAATCAGC -GGATGCAGCAGGGCGTTAAGCCAGTTTTTCTCTTCCGGGTTGGCGAAGATCCGCTCGCGCAAGGCCCGGCGCTGC -AATGTTCCATCAGCAGCAATCATGTTAGCGCCAAAGTGATCAGCAATGGCATGTAGCGCAGGTGCACCTGGTTCA -ACCACCTGACGCGCAATAATATCGGCATCAATGACGTTAATTCCGAGATCAGCAAACGCATTGGCAACGGTACTC -TTGCCACTGCCAATGCCTCCCGTTAAGGCAACTATATACCTCATAATTTATATTCCCGGGAATTCATCATGATTA -TCAAAACGTTAAAAATGAGTGCACGAAAGCGAAATTGATGAAACGTTCGCTCACTATTTACCAGGTAAATTTATG -GGATTGTAGCGTAAAAAAAGACAATTTCGCAGTCTTGCGCCGCATTGATTAGTGCGTATGATAGCGTCACTGGAG -TTGCGCTCTTACCCTTATAGCCATTAACCCCAGGAATCCGCACATGCGTATTGAAGAAGATCTGAAGTTAGGTTT -TAAAGACGTTCTCATCCGCCCTAAACGCTCCACTCTTAAAAGCCGTTCCGATGTTGAACTGGAACGTCAATTCAC -CTTCAAACATTCAGGTCAGAGCTGGTCCGGCGTGCCGATTATCGCCGCAAATATGGACACCGTAGGCACATTTTC -TATGGCCTCTGCGCTGGCTTCTTTTGATATTTTGACTGCTGTGCATAAACACTATTCTGTCGAAGAGTGGCAAGC -GTTTATCAACAATTCTTCCGCTGATGTGCTGAAACATGTGATGGTTTCTACCGGTACGTCTGATGCGGATTTCGA -AAAAACTAAACAGATTCTCGACCTGAACCCGGCATTAAACTTCGTTTGTATTGACGTGGCGAATGGTTATTCCGA -ACACTTCGTGCAGTTCGTTGCGAAAGCGCGTGAAGCGTGGCCGACCAAAACCATTTGTGCTGGTAACGTAGTGAC -TGGTGAAATGTGTGAGGAGCTTATCCTCTCAGGTGCCGATATCGTTAAAGTTGGCATTGGCCCAGGTTCTGTTTG -TACAACTCGCGTCAAAACAGGCGTCGGTTATCCGCAACTTTCTGCGGTAATCGAATGTGCCGATGCTGCGCACGG -TCTGGGCGGAATGATCGTCAGCGATGGTGGCTGCACCACGCCGGGCGATGTGGCGAAAGCCTTTGGCGGCGGTGC -CGATTTCGTCATGCTTGGCGGCATGCTGGCGGGCCACGAAGAGAGCGGCGGTCGCATCGTTGAGGAGAACGGCGA -GAAATTTATGCTGTTCTACGGCATGAGCTCCGAGTCTGCGATGAAACGTCACGTTGGCGGCGTTGCGGAATATCG -CGCAGCAGAAGGTAAAACCGTTAAGCTGCCGCTGCGAGGCCCGGTTGAAAATACCGCGCGAGATATTTTGGGCGG -CCTGCGTTCAGCTTGTACATACGTTGGGGCTTCACGCCTGAAAGAGCTGACCAAGCGCACCACGTTTATTCGTGT -GCAGGAACAAGAAAACCGCATCTTCAACAACCTGTAATCTCCCAACGCTGGCGTGGAGCAACACGCCAGCGTTAT -CCCATCCCACTCATCGCATCGCCTAAATGGAAAATTGGCAGATACATTGCCACCACCAGCGTACCAATAATTCCT -CCCGTTATGATCAGCAACGCCGGTTCCAGTAAGGCTGCGAGGTTATCCGCCAGCGCCATTGTGTTTTCCCGATGA -TGATGGGCGAGGTTGTCTAACATGAGATCCAGAGAGCCGGATGCCTCTCCTGTTCTCACTAATTGCAAACAGAGC -GGGCTAAACTCACCGGTATTTTTTAGCGCCAGCCAGATGGGTTGACCGTTACTGATATCGTGCTGGATTTGTGTC -AGAAGTTGCACCCAGTACGGGCAGCGCATTGTTTCTCTGACGCTCTCTACGCCCTGTAAAAAAGTAATGCCTGCA -CTTTGTGTCAGCGCCAGAATCGTAAAGATCTGCGTGAGTTTTTGTCCCCGCATCAGTGAACCCATAATCGGGATG -CGTAACAGCAATTTCTGCCGCACTATAAGCCAGGTCGGTCGGCGCATCAGCAACTTATTGGCTATCGCCAGCAGA -AAGCCGAACAACACCAGCAGCCAGCTCCATTCGCCACTAAAGTCTGCCAGCGTCATGATCCCCTGCGTTAGTGCC -GGTAGTGGGGTGTTGAAGGTCTTATAGATAGCGGCAAACTCCGGCAGAACAAAATGCAGCATTGCCACAACCACC -ATGATTGCCATCGCTAAAATGATGATGGGATAACGTAACGCTGATTTCACTTTGTCGGTCAACTGACGCTGGGCT -TTTTGCTGACGCGCCAGTTCAAAGCAGCATTCATCCAGCTTACCGGTCAGTTCACCCGTGCGGATCATCGCCTGA -TAGAGCGGCGGAAATACCTCTGACCAGGGTAATAAGGCATTGGAAAAAGCAATGCCCTGTTCGAGATCGTGCGCC -AGCGATTGCAGCAACGCTTGCCATTGCTTACTGGGATGCTGTTCCGCCAGCAGAGCCAGCCCTTCAGAAAGCGTT -AACCCTGCTTTGAGTAGCGTCGCCAGTTGATGAATGACTTCCGCGCTTTTATCTCCTCGCCACTGCGCAGAATTG -ATGGCGATTCGCTTCAGGCTTAGTGGGGTAACCATCTGTTGCTGTAGTGCCATAAGCAGTAAAGTACGGCTCTCT -GCCCATAGCATCCCATCTTGCGCATTGCCGTCGCCGGTTATGCCATGCCAGCGCCAGAGTTGCTTACTCGCCATG -CGGCATCCCCAGTACGCGGATTAACTCTTCAAAGGTGGTTAAGCCTTGCTCTACGGCCAGGCAGCCGTTTTCAAA -AAGCGTACGCATACCCGCCTGTCGTGCGTGCGTTTCCAGCGATTCAACGTCGGTATTAGCGGAAATAAGCTGACG -AATGACCGGCGTTATGGGCAGAACTTCAAATAAGGCCGTACGACCATAAAAACCGTGGTAGCAATGTACACAACC -GGGTGCCTGCCAGTGGGGCAGCGGCGATGGCCATACATTGTCTGGAATGTGGATGGGCTCCCCTTGCTGCCGGCG -ACAATGTGGGCAAAGTTTGCGTACCAGACGCTGGGCTATTACCAGCGTAAGCGCCGATGATAGCATCCAGCGGGC -GACCCCCATTTGCTGTAAACGTACCAGCGTTTCGCAGGTGGAATTAGTGTGTAGGGTAGACAACACCAGGTGACC -AGTTTGCGCCGCTTTAATAGCGATCTCTGCTGTTTCGCCATCGCGGATCTCTCCGATCATGATGACGTCAGGATC -CTGGCGCAATAACGCACGCAAAACGCCCTGAAAGGTGAGTCCGGCACGCGGATGGATTTGCGTCTGGTTTAGTCC -GGCTATGGGGATCTCAACTGGATCTTCGACGCTACAAATATTAATGTCAGCGGTATTCAGCTTTTGCAGGGCACT -ATAAAGCGTGACCGTTTTGCCGCTGCCGGTAGGGCCAGTTACCAGCACCAGTCCCTGTGGTTGTTGCAAGGCATG -AGCAAAGTCCGCCAGTTGTAACGGCTGCATTCCAAGCGTGTTGACATCCAGTGCCTGACCCACCTGCTGTAACAA -CCTTAATACCACCTTTTCACCACCCCGACATGGTAAGGTCGCAATACGAAATGAGACGGCGTTTCCTGCCAGTTC -GACAGTGAATTGCCCGTCCTGCGGCAGGCGATGTTCCGCAATATCCAGGTTTCCCAGCACTTTTAATCTGGCGGT -TAATGCGACTCCGGCATCCGGTGAAACATCCGGTAAAGGATGCAATACGCCGTCGATACGCAAGCGGATGCGGTA -GGCATTGTCCGCTGGTTCGATATGAATATCAGACGCGCGTTGTTCCAGCGCAGATTGTAACGTTCGAGTTAGCAA -CTCTGCTTTGGGCTGATGCTTCTCCTGAACAGCTACGGGCAATGTCTGTTGTGTGCGACTGGCGTGACCTTCCAT -TTGTTGGCGCGTCCAGCAGGTGATCTCAATACGTTTGGTGGTAGCGAAATGCAATGCGTCCAGTAGCTCATGCGA -AGGTGCATCGACTACCGCAACATGAACCACCTCTTCGCTGGCATCCAGCAAGACTCCATGATAACGCAGACACAG -GGCAGTGAGCTGTGGAATATTCATTGCCGCTCCTTAGTTGGCGTCATCAAAGCGGAAGACATCTTCGCAGGCTTG -CTGCAATGCGCTGTCACTTTGAATATTGCAGTTGCGCGTCCAGCCGGTGACGCCGTTTGCGTTATCCCAACCCGG -TGTCATGACGACGCTTAGCCCATTGAGACTTTCTTGCCCGGTCAGCGACACCACGCCCTTTGCCACACTCATGGC -TGAAACATAGCGGGTGGTGGTAGGCGAGGGAATGCCATTGCTGCCACCGTCGCAGGTATCTAATCCACCATGTTC -CAGCGCGCACAACTCTACGGCGGTACGGTAAGGCACAAAGGTTTGTAGCATGTCGGTGAGTGCGGCTTTGCGCAG -GTAGTTTTGATAAGCGGGAATACCAATGGCGCTTAAAATGGCAATGATGCCAATAACCACCATCAGTTCGATAAG -TGTAAAACCGCGTTGCTTGTCCATCTGTTTCGCTCCTTGATTTGGTTGGCGCTACTTTGGCAAACGCCATCAGCA -CAGGCGAGGGGCAAAAAACGAAACGGGAAAGCAGATTCCGAGGTTTTTTATTTCGTTGCAGCGAAAGACAAGAAA -TTTGCGAGGCGTTACGAAGAAAGTTGGGGAAGGGGAGATTATCCGCCCGCGATGGAGCGGATAAATCTGTCAACT -ATTAGCGAAAACGCATTGAAAGGTCGAGTGCTTGTACGTGTTTAGTTAGCGCACCGACGGAGATAAAGTCCACGC -CCGTTTCGGCAAATTCACGCAGTGTTTTGTCAGTGACGTTGCCAGACACTTCCAGTAGCGCCTTGCCGTTGGTGC -GTTTGACGGCTTCGCGCATCTGTTCTGTTTCGAAGTTATCCAGCATGATGATATCGGCTCCTGCTTTCAGGGCTT -CATCAAGTTCTTCCAGATTCTCTACTTCGACTTCTACTGGCGCATCCGGGTGCAGCCAGGACGCTTTTTCGACCG -CCTGGCGCACTGAGCCGGAGGCAATAATATGGTTTTCTTTGATCAGGAAGGCATCAGAAAGCCCCAGACGGTGAT -TCGCTCCGCCGCCGCAAAGTACCGCGTATTTCAGAGCTGAACGCAGGCCGGGTAAGGTTTTGCGCGTATCCAACA -ACTGCGTGTTGGTGCCTTCCAGCAATTCGACATAGTGGCGTACCTTACTGGCAACTCCTGAAAGGGTTTGCACAA -AATTAAGCGCAGTGCGTTCGCCCGTTAACAGCACGCGGGATGGGCCTTCAAGTTCGAACAAGGATTGATTGGCAT -TGATGACATCGCCGTCATCCACATGCCAGATTATGGTGACATCGTCGCCTGCCAGTTGAATAAACACCTCTTCAA -CCCAGCGTTTGCCGCAAAAGACGCCATTCTCGCGGGTGATCACCGTGGCATGAGAGCGAGAATTTTCCGGTAAAA -GTTTTGCCGTAATATCATTGTTGGCATCGACTGTTCCGCCTAAATCTTCCCGCAGCGCCTGGGCCACCGCGCCGG -GGATATCGAGATTAATGCGTTCCAGCAGCTCGTCACGTCGGGTGTCAGGGTTATAGCGGCGAGGCGGCATGTTAA -AACTCCAGATAGCTAACGAATCATAAGGTAGAAACATGCTACTCTGAACCGGGTATTAGCACCACATATAAGGAG -ATCCTGCATGTTGTTAGAACAGGGGTGGCTGGTTGGCGCGCGCCGCGTTCCCTCACCACATTACGATTGCCGCCC -GGATGACGAAACACCCACCCTGCTGGTGGTGCACAATATTAGCCTGCCGCCAGGCGAGTTTGGCGGTCCGTGGAT -CGACGCATTATTCACTGGAACTATTGATCCGCAGGCACATCCTTTCTTTGCTGAGATCGCCCATTTGCGCGTCTC -CGCTCACTGTTTGATTCGCCGTGATGGTGAAATAGTCCAGTATGTTCCTTTCGATAAACGTGCATGGCATGCGGG -AGTCTCTCAGTATCAGGGGCGCGAACGCTGCAATGATTTTTCTATTGGGATTGAGCTTGAAGGCACCGATACGCT -GGCGTATACCGATGCGCAGTATCAACAGCTTGCGGCGGTTACGCGGGCACTGATTGATTGCTATCCGGATATCGC -TAAAAACATGACGGGCCATTGTGATATTGCGCCGGATCGGAAAACCGATCCCGGTCCTGCATTTGATTGGGCACG -GTTTCGTGTGCTGGTCAGCAAGGAGACAACATGACGCTATTTACAACCTTACTGGTGTTAATTTTCGAGCGCCTG -TTTAAGTTGGGCGAGCACTGGCAGCTTGATCATCGTCTTGAAGCGTTCTTTCGGCGGGTGAAACATTTTTCTCTC -GGGCGCACGTTAGGCATGACCATTATTGCGATGGGCGTGACTTTTTTACTGTTACGCGCATTGCAGGGAGTATTG -TTCAACGTTCCCACGCTACTGGTGTGGCTGCTGATTGGTTTGCTGTGTATTGGCGCAGGTAAAGTTCGTCTTCAT -TATCATGCTTATCTGACAGCTGCTTCACGTAATGATAGCCATGCCCGTGCCACGATGGCTGGCGAACTCACCATG -ATTCACGGCGTCCCGGCAGGCTGCGACGAACGTGAGTATTTGCGTGAGCTGCAAAATGCATTGCTGTGGATTAAC -TTTCGTTTTTATCTTGCACCGCTGTTCTGGCTGATTGTGGGGGGAACCTGGGGACCCGTTACGCTGATGGGGTAT -GCGTTTTTGCGTGCATGGCAATACTGGCTGGCGCGATATCAGACGCCGCATCATCGTTTACAGTCCGGCATTGAT -GCCGTGCTTCATGTACTGGATTGGGTGCCGGTTCGTCTTGCGGGTGTGGTATATGCCTTGATCGGTCATGGTGAG -AAAGCGTTACCGGCCTGGTTTGCTTCGCTGGGTGATTTCCATACTTCGCAGTATCAGGTGTTAACGCGTCTGGCG -CAGTTCTCTCTGGCGCGTGAACCGCATGTCGATAAGGTGGAGACGCCGAAGGCAGCGGTTTCAATGGCGAAGAAA -ACCTCGTTCGTGGTCGTGGTGGTGATTGCACTACTGACGATTTACGGGGCGTTGGTGTAAAGATTATTGCCCTCA -CCCTGTACGGGTGAGGGCGTAGAGAGATTAATGCGCTTTTACGGCTTTGGCGGTTTTCTCTTTAAACAGATAGCC -GATACCTAACACGATCAGCCATACCGGGATCAGGTATACCGAAATCGCCATTCCTGGGGTCATCAGCATAATCAC -CAGTACCGCCGCCATAAACAGCAGGCAGATCCAGTTACCCAGCGGATAAAGCAGAGCAGGGAAGCGAGTTACCAC -GCCTTGTTCCTGCTTGGCGCGACGGAATTTCATATGCGCCAGGCTAATCATCGCCCAGTTGATTACCAGTGCAGA -TACCACCAGCGCCATTAACAGTCCGAAAGCGGACTCTGGGGCAAGGTAGTTAATCAGTACGCACAACGCCGTTAC -CAGTGCAGACACCAGAATGGTATTTACTGGTACACCACGTTTATCGACAGACGCCAGCGCTTTTGGCGCATTACC -CTGTTGTGCCAGACCAAACAGCATACGGCTGTTGCAATATACGCAGCTGTTGTACACGGAGAGCGCCGCAGTCAG -TACCACGATGTTCAGCGCATTCGCCACAAAGGTATCGCCTAACTCGTGGAAGATCAGCACAAACGGACTGGTATC -GGCGGTAACGCGGGTCCACGGCATCAGTGAGAGCAGAACGGCTAACGAACCAATATAGAAAATCAGGATGCGGTA -GATAACCTGGTTAGTTGCTTTCGGTATACTTTGCTCCGGGTTATCAGCTTCTGCTGCGGTGATCCCCACCAGTTC -CAGACCACCGAACGAGAACATGATAATCGCCATCATCATCACCAGCCCGGTGAAGCCGTGCGGCAGGAAACCACC -CTGATCCCACAGGTTGCTAACGGTCGCCTGCGGGCCGCCGTTGCCACTGAATAGCAGCCAGCCGCCGAAGATGAT -CATCGCTACCACCGCGATAACTTTGATAATGGCAAACCAGAACTCCATCTCGCCAAACACTTTAACGTTGGTCAG -GTTGATGGCGTTAATCACCACAAAGAATACGGCGGCAGAAACCCAGGTGGGGATTTCCGGATACCAGAACTGAAT -GTATTTACCCACGGCAGTCAGCTCAGCCATGGCAACTAAAACGTACAGTACCCAGTAGTTCCAGCCAGAGGCGAA -ACCGGCAAAACTGCCCCAGTATTTATAAGCAAAGTGGCTAAAGGAGCCTGCGACAGGTTCTTCGACCACCATTTC -ACCCAGCTGACGCATGATCAGAAAGGCGATAAAACCAGCAATGGCGTAACCCAGGATAATCCCTGGCCCTGCGGA -CTGTATTACGGAGGCGCTACCCAGGAATAACCCGGTCCCTATCGCGCCACCCAGCGCGATAAGCTGAATATGGCG -GTTTTTAAGGCCGCGCTTTAGCTGCTCGCCGTGCTGTTGACCTTCCATCATGAAACCTCGTGCGGTGGTTGTTTT -TTTGATCTACGCAGTGATGCGTGTGTAAGTTTGCAATTCCGTTTGTTGTATTAATTTGTTTACATCAAAGAAGTT -TGAATTGTTACAAAAAGACTTCCGTCAGATCAAGAATAATGGTATGCGGCAGCGAATGCACCCGCTTTATGCATG -GTTGAAGATGAGTTGCTTAAAAAGAAACCGTTTGTAAAGCTCAGCCTCAACCCCTCTCAATATGTAGAATGAATT -TAAATTCGTTTTAATTGAATTAAAAATCACAAAATTGGTAAGTGAATCGGTTCAATTCGGATTTTTATAGTTTAA -TAATCGTTAAAAAACTCCTTTCCTACGTAAAGTCTACATTTGTGCATAGTTACAACTTTGAAACGTTATATATGT -CAAGTTGTTAAAATGTGCACAGTTTCATGATTTCAATCAAAACCTGTATGGACATAAGGTGAATACTTTGTTACT -TTAGCGTCACAGACATGAAATTGGTAAGACCAATTGACTTCGGCAAGTGGCTTAAGACAGGAACTCATGGCCTAC -AGCAAAATCCGCCAACCAAAACTCTCCGATGTGATTGAGCAGCAACTGGAGTTTTTGATCCTCGAAGGCACTCTC -CGCCCGGGCGAAAAACTCCCACCGGAACGCGAACTGGCAAAACAGTTTGACGTCTCCCGTCCCTCCTTGCGTGAG -GCGATTCAACGTCTCGAAGCGAAGGGCTTGTTGCTTCGTCGCCAGGGTGGCGGCACTTTTGTCCAGAGCAGCCTA -TGGCAAAGCTTCAGCGATCCGCTGGTGGAGCTGCTCTCCGACCATCCTGAGTCACAGTATGACTTGCTCGAAACA -CGACACGCCCTGGAAGGTATCGCCGCTTATTACGCCGCGCTGCGTAGTACCGATGAAGACAAGGAACGCATCCGT -GAACTCCACCACGCCATAGAGCTGGCGCAGCAGTCTGGCGATCTGGACGCGGAATCAAACGCCGTACTCCAGTAT -CAGATTGCCGTCACCGAAGCGGCCCACAATGTGGTTCTGCTTCATCTGCTAAGGTGTATGGAGCCGATGTTGGCC -CAGAATGTCCGCCAGAACTTCGAATTGCTCTATTCGCGTCGCGAGATGCTGCCGCTGGTGAGTAGTCACCGCACC -CGCATATTTGAAGCGATTATGGCCGGTAAGCCGGAAGAAGCGCGCGAAGCATCGCATCGCCATCTGGCCTTTATC -GAAGAAATTTTGCTCGACAGAAGTCGTGAAGAGAGCCGCCGTGAGCGTTCTCTGCGTCGTCTGGAGCAACGAAAG -AATTAGTGATTTTTCTGGTAAAAATTATCCAGAAGATGTTGTAAATCAAGCGCATATAAAAGCGCGGCAACTAAA -CGTAGAACCTGTCTTATTGAGCTTTCCGGCGAGAGTTCAATGGGACAGGTTCCAGAAAACTCAACGTTATTAGAT -AGATAAGGAATAACCCATGTCAGAACGTTTCCCAAATGACGTGGATCCGATCGAAACTCGCGACTGGCTCCAGGC -GATCGAATCGGTCATCCGTGAAGAAGGTGTTGAGCGTGCTCAGTATCTGATCGACCAACTGCTTGCTGAAGCCCG -CAAAGGCGGTGTAAACGTAGCCGCAGGCACAGGTATCAGCAACTACATCAACACCATCCCCGTTGAAGAACAACC -GGAGTATCCGGGTAATCTGGAACTGGAACGCCGTATTCGTTCAGCTATCCGCTGGAACGCCATCATGACGGTGCT -GCGTGCGTCGAAAAAAGACCTCGAACTGGGCGGCCATATGGCGTCCTTCCAGTCTTCCGCAACCATTTATGATGT -GTGCTTTAACCACTTCTTCCGTGCACGCAACGAGCAGGATGGCGGCGACCTGGTTTACTTCCAGGGCCACATCTC -CCCGGGCGTGTACGCTCGTGCTTTCCTGGAAGGTCGTCTGACTCAGGAGCAGCTGGATAACTTCCGTCAGGAAGT -TCACGGCAATGGCCTCTCTTCCTATCCGCACCCGAAACTGATGCCGGAATTCTGGCAGTTCCCGACCGTATCTAT -GGGTCTGGGTCCGATTGGTGCTATTTACCAGGCTAAATTCCTGAAATATCTGGAACACCGTGGCCTGAAAGATAC -CTCTAAACAAACCGTTTACGCGTTCCTCGGTGACGGTGAAATGGACGAACCGGAATCCAAAGGTGCGATCACCAT -CGCTACCCGTGAAAAACTGGATAACCTGGTCTTCGTTATCAACTGTAACCTGCAGCGTCTTGACGGCCCGGTCAC -CGGTAACGGCAAGATCATCAACGAACTGGAAGGCATCTTCGAAGGTGCTGGCTGGAACGTGATCAAAGTGATGTG -GGGTAGCCGTTGGGATGAACTGCTGCGTAAGGATACCAGCGGTAAACTGATCCAGCTGATGAACGAAACCGTTGA -CGGCGACTACCAGACCTTCAAATCGAAAGATGGTGCGTACGTTCGTGAACACTTCTTCGGTAAATATCCTGAAAC -CGCAGCACTGGTTGCAGACTGGACTGACGAGCAGATCTGGGCACTGAACCGTGGTGGTCACGATCCGAAGAAAAT -CTACGCTGCATTCAAGAAAGCGCAGGAAACCAAAGGCAAAGCGACAGTAATCCTTGCTCATACCATTAAAGGTTA -CGGCATGGGCGACGCGGCTGAAGGTAAAAACATCGCGCACCAGGTTAAGAAAATGAACATGGACGGTGTGCGTCA -TATCCGCGACCGTTTCAATGTGCCGGTGTCTGATGCAGATATCGAAAAACTGCCGTACATCACCTTCCCGGAAGG -TTCTGAAGAGCATACCTATCTGCACGCTCAGCGTCAGAAACTGCACGGTTATCTGCCAAGCCGTCAGCCGAACTT -CACCGAGAAGCTTGAGCTGCCGAGCCTGCAAGACTTCGGCGCGCTGTTGGAAGAGCAGAGCAAAGAGATCTCTAC -CACTATCGCTTTCGTTCGTGCTCTGAACGTGATGCTGAAGAACAAGTCGATCAAAGATCGTCTGGTACCGATCAT -CGCCGACGAAGCGCGTACTTTCGGTATGGAAGGTCTGTTCCGTCAGATTGGTATTTACAGCCCGAACGGTCAGCA -GTACACCCCGCAGGACCGCGAGCAGGTTGCTTACTATAAAGAAGACGAGAAAGGTCAGATTCTGCAGGAAGGGAT -CAACGAGCTGGGCGCAGGTTGTTCCTGGCTGGCAGCGGCGACCTCTTACAGCACCAACAATCTGCCGATGATCCC -GTTCTACATCTATTACTCGATGTTCGGCTTCCAGCGTATTGGCGATCTGTGCTGGGCGGCTGGCGACCAGCAAGC -GCGTGGCTTCCTGATCGGCGGTACTTCCGGTCGTACCACCCTGAACGGCGAAGGTCTGCAGCACGAAGATGGTCA -CAGCCACATTCAGTCGCTGACTATCCCGAACTGTATCTCTTACGACCCGGCTTACGCTTACGAAGTTGCTGTCAT -CATGCATGACGGTCTGGAGCGTATGTACGGTGAAAAACAAGAGAACGTTTACTACTACATCACTACGCTGAACGA -AAACTACCACATGCCGGCAATGCCGGAAGGTGCTGAGGAAGGTATCCGTAAAGGTATCTACAAACTCGAAACTAT -TGAAGGTAGCAAAGGTAAAGTTCAGCTGCTCGGCTCCGGTTCTATCCTGCGTCACGTCCGTGAAGCAGCTGAGAT -CCTGGCGAAAGATTACGGCGTAGGTTCTGACGTTTATAGCGTGACCTCCTTCACCGAGCTGGCGCGTGATGGTCA -GGATTGTGAACGCTGGAACATGCTGCACCCGCTGGAAACTCCGCGCGTTCCGTATATCGCTCAGGTGATGAACGA -CGCTCCGGCAGTGGCATCTACCGACTATATGAAACTGTTCGCTGAGCAGGTCCGTACTTACGTACCGGCTGACGA -CTACCGCGTACTGGGTACTGATGGCTTCGGTCGTTCCGACAGCCGTGAGAACCTGCGTCACCACTTCGAAGTTGA -TGCTTCTTATGTCGTGGTTGCGGCGCTGGGCGAACTGGCTAAACGTGGCGAAATCGATAAGAAAGTGGTTGCTGA -CGCAATCGCCAAATTCAACATCGATGCAGATAAAGTTAACCCGCGTCTGGCGTAAGAGGTAAAAGAATAATGGCT -ATCGAAATCAAAGTACCGGACATCGGGGCTGATGAAGTTGAAATCACCGAGATCCTGGTCAAAGTGGGCGACAAA -GTTGAAGCCGAACAGTCGCTGATCACCGTAGAAGGCGACAAAGCCTCTATGGAAGTTCCGTCTCCGCAGGCGGGT -ATCGTTAAAGAGATCAAAGTCTCTGTTGGCGATAAAACCCAGACCGGCGCACTGATTATGATTTTCGATTCCGCC -GACGGTGCAGCAGACGCTGCACCTGCTCAGGCAGAAGAGAAGAAAGAAGCAGCTCCGGCAGCAGCACCAGCGGCT -GCGGCGGCAAAAGACGTTAACGTTCCGGATATCGGCAGCGACGAAGTTGAAGTGACCGAAATCCTGGTGAAAGTT -GGCGATAAAGTTGAAGCTGAACAGTCGCTGATCACCGTAGAAGGCGACAAGGCTTCTATGGAAGTTCCGGCTCCG -TTTGCTGGCACCGTGAAAGAGATCAAAGTGAACGTGGGTGACAAAGTGTCTACCGGCTCGCTGATTATGGTCTTC -GAAGTCGCGGGTGAAGCAGGCGCGGCAGCTCCGGCCGCTAAACAGGAAGCAGCTCCGGCAGCGGCCCCTGCACCA -GCGGCTGGCGTGAAAGAAGTTAACGTTCCGGATATCGGCGGTGACGAAGTTGAAGTGACTGAAGTGATGGTGAAA -GTGGGCGACAAAGTTGCCGCTGAACAGTCACTGATCACCGTAGAAGGCGACAAAGCTTCTATGGAAGTTCCGGCG -CCGTTTGCAGGCGTCGTGAAGGAACTGAAAGTCAACGTTGGCGATAAAGTGAAAACTGGCTCGCTGATTATGATC -TTCGAAGTTGAAGGCGCAGCGCCTGCGGCAGCTCCTGCGAAACAGGAAGCGGCAGCGCCGGCACCGGCAGCAAAA -GCTGAAGCCCCGGCAGCAGCACCAGCTGCGAAAGCGGAAGGCAAATCTGAATTTGCTGAAAACGACGCTTATGTT -CACGCGACTCCGCTGATCCGCCGTCTGGCACGCGAGTTTGGTGTTAACCTTGCGAAAGTGAAGGGCACTGGCCGT -AAAGGTCGTATCCTGCGCGAAGACGTTCAGGCTTACGTGAAAGAAGCTATCAAACGTGCAGAAGCAGCTCCGGCA -GCGACTGGCGGTGGTATCCCTGGCATGCTGCCGTGGCCGAAGGTGGACTTCAGCAAGTTTGGTGAAATCGAAGAA -GTGGAACTGGGCCGCATCCAGAAAATCTCTGGTGCGAACCTGAGCCGTAACTGGGTAATGATCCCGCATGTTACT -CACTTCGACAAAACCGATATCACCGAGTTGGAAGCGTTCCGTAAACAGCAGAACGAAGAAGCGGCGAAACGTAAG -CTGGATGTGAAGATCACCCCGGTTGTCTTCATCATGAAAGCCGTTGCTGCAGCTCTTGAGCAGATGCCTCGCTTC -AATAGTTCGCTGTCGGAAGACGGTCAGCGTCTGACCCTGAAGAAATACATCAACATCGGTGTGGCGGTGGATACC -CCGAACGGTCTGGTTGTTCCGGTATTCAAAGACGTCAACAAGAAAGGCATCATCGAGCTGTCTCGCGAGCTGATG -ACTATTTCTAAGAAAGCGCGTGACGGTAAGCTGACTGCGGGCGAAATGCAGGGCGGTTGCTTCACCATCTCCAGC -ATCGGCGGCCTGGGTACTACCCACTTCGCGCCGATTGTGAACGCGCCGGAAGTGGCTATCCTCGGCGTTTCCAAG -TCCGCGATGGAGCCGGTGTGGAATGGTAAAGAGTTCGTGCCGCGTCTGATGCTGCCGATTTCTCTCTCCTTCGAC -CACCGCGTGATCGACGGTGCTGATGGTGCCCGTTTCATTACCATCATTAACAACACGCTGTCTGACATTCGCCGT -CTGGTGATGTAAGTAAAAGAGCCGGCCCAACGGCCGGCTTTTTTCTGGTAATCTCATGAATGTATTGAGGTTATT -AGCGAATAGACAAATCGGTTGCCGTTTGTTGTTTAAAAATTGTTAACAATTTTGTAAAATACCGACGGATAGAAC -GACCCGGTGGTGGTTAGGGTATTACTTCACATACCCTATGGATTTCTGGGTGCAGCAAGGTAGCAAGCGCCAGAA -TCCCCAGGAGCTTACATAAGTAAGTGACTGGGGTGAGGGCGTGAAGCTAACGCCGCTGCGGCCTGAAAGACGACG -GGTATGACCGCCGGAGATAAATATATAGAGGTCATGATGAGTACTGAAATCAAAACTCAGGTCGTGGTACTTGGG -GCAGGCCCCGCAGGTTACTCCGCTGCCTTCCGTTGCGCTGATTTAGGTCTGGAAACCGTAATCGTAGAACGTTAC -AACACCCTTGGCGGTGTTTGCCTGAACGTCGGCTGTATCCCTTCTAAAGCACTGCTGCACGTAGCAAAAGTTATC -GAAGAAGCCAAAGCGCTGGCTGAACACGGTATCGTCTTCGGCGAACCGAAAACCGATATCGACAAGATTCGTACC -TGGAAAGAGAAAGTGATCAATCAGCTGACCGGTGGTCTGGCTGGTATGGCGAAAGGCCGCAAAGTCAAAGTGGTC -AACGGTCTGGGTAAATTCACCGGGGCTAACACCCTGGAAGTTGAAGGTGAGAACGGCAAAACCGTGATCAACTTC -GACAACGCGATCATTGCAGCGGGTTCTCGCCCGATCCAACTGCCGTTTATTCCGCATGAAGATCCGCGTATCTGG -GACTCCACTGACGCGCTGGAACTGAAAGAAGTACCAGAACGCCTGCTGGTAATGGGTGGCGGTATCATCGGTCTG -GAAATGGGCACCGTTTACCACGCGCTGGGTTCACAGATTGACGTGGTTGAAATGTTCGACCAGGTTATCCCGGCA -GCTGACAAAGACATCGTTAAAGTCTTCACCAAGCGTATCAGCAAGAAATTCAACCTGATGCTGGAAACCAAAGTT -ACCGCCGTTGAAGCGAAAGAAGACGGCATTTATGTGACGATGGAAGGCAAAAAAGCACCCGCTGAACCGCAGCGT -TACGACGCCGTGCTGGTAGCGATTGGTCGTGTGCCGAACGGTAAAAACCTCGACGCAGGCAAAGCAGGCGTGGAA -GTTGACGACCGTGGTTTCATCCGCGTTGACAAACAGCTGCGTACCAACGTACCGCACATCTTTGCTATCGGCGAT -ATCGTCGGTCAACCGATGCTGGCACACAAAGGTGTTCACGAAGGTCACGTTGCCGCTGAAGTTATCGCCGGTAAG -AAACACTACTTCGATCCGAAAGTTATCCCGTCCATCGCCTATACCGAACCAGAAGTTGCATGGGTGGGTCTGACT -GAGAAAGAAGCGAAAGAGAAAGGCATCAGCTATGAAACCGCCACCTTCCCGTGGGCTGCTTCTGGTCGTGCTATC -GCTTCCGACTGCGCAGACGGTATGACCAAGCTGATTTTCGACAAAGAATCTCACCGTGTGATCGGTGGTGCGATT -GTCGGTACTAACGGCGGCGAGCTGCTGGGTGAAATCGGCCTGGCAATCGAAATGGGTTGTGATGCTGAAGACATC -GCACTGACCATCCACGCGCACCCGACTCTGCACGAGTCTGTGGGCCTGGCGGCAGAAGTGTTCGAAGGTAGCATT -ACCGACCTGCCGAACCCGAAAGCGAAGAAGAAGTAATTTTTCGTTTGCCGGAACATCCGGCAATTAAAAAAGCGG -CTAACCACGCCGCTTTTTTTACGTCTGCAATTTACCTTTCCAGTCTTCTTGCTCCACGTTCAGAGAGACGTTCGC -ATACTGCTGACCGTTGCTCGTTATTCAGCCTGACAGTATGGTTACTGTCGTTTAGACGTTGTGGGCGGCTCTCCT -GAACTTTCTCCCGAAAAACCTGACGTTGTTCAGGTGATGCCGATTGAACACGCTGGCGGGCGTTATCACGTTGCT -GTTGATTCAGTGGGCGCTGCTGTACTTTTTCCTTAAACACCTGGCGCTGCTCTGGTGATGCGGACTGAATACGCT -CACGCGCTGCGTCTCTTCGCTGCTGGTTCTGCGGGTTAGTCTGCATTTTCTCGCGAACCGCCTGGCGCTGCTCAG -GCGAGGCGGACTGAATGCGCTCACGCGCTGCCTCTCTTCGCTGCTGGATCTTCGGGTTAGTCTGCATTCTCTCGC -GAACTGCCTGGCGCTGCTCAGGCGAGGCGGACTGATAACGCTGACGAGCGGCGTCCTTTTGTTGCTGGGTCAGTG -GTTGGCGACGGCTGAAGTCGTGGAAGTCGTCATAGCTCCCATAGTGTTCAGCTTCATTAAACCGCTGTGCCGCTG -CCTGACGTTGGGTATCTCGTGTAATGACTGGTGCGGCGTGTGTTCGTTGCTGAAACTGATTTGCTGCCGCCTGAC -GCTGGCTGTCGCGCGTTGGGGCAGGTAATTGCGTGGCGCTCATTCCGCCGTTGACATCGGTTTGATGAAACCGCT -TTGCCATATCCTGATCATGATAGGGCACACCATTACGGTAGTTTGGATTGTGCCGCCATGCCATATTCTTATCAG -TAAGATGCTCACCGGTGATACGGTTGAAATTGTTGACGTCGATATTGATGTTGTCGCCGTTGTGTTGCCAGCCAT -TACCGTCACGATGACCGCCATCGTGGTGATGATAATCATCATTGTCATGATGATGATGGTCATGATCGTCGTCGT -CCCAGTCGATGCTGCTGAATAGTGCGTACGTGGTAGCAACGCCCATGCTATAGCCGAATCCGCGTACAAAGCTGT -CAACAAACGGTTCTCCGGCTGGTGGTGGCAGATAAACCGGCGGATACGCAGTATTGGCCCAGTTCCCGTAAACCA -CGGTTGGGTTGTAGTTGGGAATATAGACCACATCAGGATTGGCGGGCTCAATGGAAATGACGGTTGTTGCCGGCT -CTGTAATGACGGGGTTGGCAGTTAAAACTGTATTGGATGGTATGACGGGTGCCGTGACTGTCTGTTTTACCGGTA -CAGCTTTCTTCGTTGTGGTAATAACTTTCTGTTCGGTTGATGACTTCAGCGAGCCGGTTTGTTGCGCCAGTTGCC -GCAATCGCTGTACCGAGTCCATCACGTCCTGCGGCTGGGCCAGAAAAGCATCGCCCAGGTTTTGCACCCATTGCG -GGTTTTCGCCCATCAATGCCATCAATTGTGGAAAGGCCACCAGTGATTTAACGCTGGCGTCCCACGGCTGGTCAG -ATACCGCCTGAATAGCAGCATCGCCTTGTTTAAGTGGATTATCGTGCGACCATTGCACTGCTTGAGCAACGTTTG -TCGGATAGGTTGATGCCATCAGCACCTGCGAAAGTAGGGCGTCGGGATACAGCGCGACGGGCGCGACCCATTGAT -CTATTTGTGCAGTGCTGAATGCGGATTTGACGACGGCGGGTGTTACGGGAGGTGCGGAAACCGTTGCAGGAAACG -TAACCGCGGCAGCGTCAGACACAGCCAGTTGTGTCGATTGCGGTTCCACAGGCGCTTCCACTGTGCGGCTTTTTA -TATATAGCCCGGTAGAGGCGGCACAAAGCCCGGCACTGCAAATTAGCGCCAGCACATGGGGTTTAAACGGCAAAG -TCATTTTCATAATTCGGATCTCAAGGAAATCGCAATGGTCGGCGAACTGCCACCCGCAGGTGCTGTGAATCCGAG -TATAAAGAGGCGGTAGTTTAAATTTTGACTAATCTTGGGATTCGTTGAGAAAGGTGATTATCACCATGCGAATTA -ACGAAGTTTTTACGGAGGGAAACAATCTCTAGACCATCCTTAACGATTCAGCCACTTTTTTATGTTGCTTTTTTG -TAAACAGATTAACACCTCGTCAAAATCCTGCTATTCTGCCCGTTGCGGTACTGGGCATTTACCCTACAAACTGCT -GTCTCACAGGAGCGTGAAGAGAATCGCCTGCCGCACTATGACAATGAGAGCGAGGAGAACCGTCGTGCTAGAAGA -ATACCGTAAGCACGTAGCTGAGCGTGCCGCTGAGGGGATTGCGCCCAAACCCCTGGATGCAAACCAAATGGCCGC -ACTTGTAGAGCTGCTGAAAAACCCGCCCGCGGGCGAAGAAGAATTCCTGTTAGATCTGTTAACCAACCGTGTTCC -CCCAGGCGTCGATGAAGCCGCCTATGTCAAAGCAGGCTTCCTGGCTGCTATCGCGAAAGGCGAAGCCAAATCCCC -TCTGCTGACTCCGGAAAAAGCCATCGAACTGCTGGGCACCATGCAGGGTGGTTACAACATTCATCCGCTGATCGA -CGCGCTGGATGATGCCAAACTGGCACCTATTGCTGCCAAAGCACTTTCTCACACGCTGCTGATGTTCGATAACTT -CTATGACGTAGAAGAGAAAGCGAAAGCAGGCAACGAATATGCGAAGCAGGTTATGCAGTCCTGGGCGGATGCCGA -ATGGTTCCTGAATCGCCCGGCGCTGGCTGAAAAACTGACCGTTACTGTCTTCAAAGTCACTGGCGAAACTAACAC -CGATGACCTTTCTCCGGCACCGGATGCGTGGTCACGCCCGGATATCCCACTGCACGCGCTGGCGATGCTGAAAAA -CGCCCGTGAAGGTATTGAGCCAGACCAGCCTGGTGTTGTTGGTCCGATCAAGCAAATCGAAGCTCTGCAACAGAA -AGGTTTCCCGCTGGCGTACGTCGGTGACGTTGTGGGTACGGGTTCTTCGCGTAAATCCGCCACTAACTCCGTTCT -GTGGTTTATGGGCGATGATATTCCACATGTGCCGAACAAACGCGGCGGTGGTTTGTGCCTCGGCGGTAAAATTGC -ACCCATCTTCTTTAACACGATGGAAGACGCGGGTGCACTGCCAATCGAAGTCGACGTCTCTAACCTGAACATGGG -CGACGTGATTGACGTTTACCCGTACAAAGGTGAAGTGCGTAACCACGAAACCGGCGAACTGCTGGCGACCTTCGA -ACTGAAAACCGACGTGCTGATTGATGAAGTGCGTGCTGGTGGCCGTATTCCGCTGATTATCGGGCGTGGCCTGAC -CACCAAAGCGCGTGAAGCACTTGGTCTGCCGCACAGTGATGTGTTCCGTCAGGCGAAAGATGTCGCTGAGAGCGA -TCGCGGCTTCTCGCTGGCGCAAAAAATGGTAGGCCGTGCCTGTGGCGTGAAAGGCATTCGTCCGGGCGCGTACTG -TGAACCGAAAATGACTTCTGTAGGTTCCCAGGACACCACCGGCCCGATGACCCGTGATGAACTGAAAGACCTGGC -GTGCCTGGGCTTCTCGGCTGACCTGGTGATGCAGTCTTTCTGCCACACCGCGGCGTATCCGAAGCCAGTTGACGT -GAACACGCACCACACGCTGCCGGACTTCATTATGAACCGTGGCGGTGTGTCGCTGCGTCCGGGTGACGGCGTCAT -TCACTCCTGGCTGAACCGTATGCTGCTGCCGGATACCGTCGGTACCGGTGGTGACTCCCATACCCGTTTCCCGAT -CGGTATCTCTTTCCCGGCGGGTTCTGGTCTGGTGGCGTTTGCTGCCGCAACTGGCGTAATGCCGCTTGATATGCC -GGAATCCGTTCTGGTGCGCTTCAAAGGCAAAATGCAGCCGGGCATCACCCTGCGCGATCTGGTACACGCTATTCC -GCTGTATGCGATCAAACAAGGTCTGCTGACCGTTGAGAAGAAAGGCAAGAAAAACATCTTCTCTGGCCGCATCCT -GGAAATTGAAGGTCTGCCGGATCTGAAAGTTGAGCAGGCCTTTGAGCTAACCGATGCGTCCGCCGAGCGTTCTGC -CGCTGGTTGTACCATCAAGCTGAACAAAGAACCGATCATCGAATACCTGAACTCTAACATCGTCCTGCTGAAGTG -GATGATCGCGGAAGGTTACGGCGATCGTCGTACCCTGGAACGTCGTATTCAGGGCATGGAAAAATGGCTGGCGAA -TCCTGAGCTGCTGGAAGCCGATGCAGATGCGGAATACGCGGCAGTGATCGACATCGATCTGGCGGATATTAAAGA -GCCAATCCTGTGTGCTCCGAACGACCCGGATGACGCGCGTCCGCTGTCTGCGGTACAGGGTGAGAAGATCGACGA -AGTGTTTATCGGTTCCTGCATGACCAACATCGGTCACTTCCGTGCTGCGGGTAAACTGCTGGATGCGCATAAAGG -TCAGTTGCCGACCCGCCTGTGGGTGGCACCGCCAACCCGTATGGACGCCGCACAGTTGACCGAAGAAGGCTACTA -CAGCGTCTTCGGTAAGAGTGGTGCGCGTATCGAGATCCCTGGCTGTTCCCTGTGTATGGGTAACCAGGCGCGTGT -GGCGGACGGTGCAACGGTGGTTTCCACCTCTACCCGTAACTTCCCGAACCGTCTGGGTACTGGCGCGAATGTCTT -CCTGGCTTCTGCGGAACTGGCGGCTGTTGCGGCGCTGATTGGCAAACTGCCGACGCCGGAAGAGTACCAGACCTA -CGTGGCGCAGGTAGATAAAACAGCCGTTGATACTTACCGTTATCTGAACTTCAACCAGCTTTCTCAGTACACCGA -GAAAGCCGATGGGGTGATTTTCCAGACTGCGGTTTAAAAAGTCAGCGCACGCGCTGCGCATAAACGACACAATGC -CCGGTGAATGAGATTCCCGGGCATTTTTTTATTTCTAAACCATCGCCGTTCCGCTGTTTTTCTCCGGTAAGGCTG -CGATAATTACATCAATGGCGCAATGCGATTTCGGTGCATTGCCGGGAGCAGAGGAACACACTATGGATTACGAAT -TTCTGCGCGATATTACCGGAGTGGTAAAGGTGCGTATGTCCATGGGGCATGAAGTGGTCGGGCACTGGTTTAATG -AAGAGGTGAAAGAAAACCTGGCCTTGCTTGATGAAGTGGAACAAGCAGCGCACGCACTGAAAGGTAGCGAACGGT -CCTGGCAACGGGCAGGGCATGAATACACCCTGTGGATGGACGGTGAAGAGGTGATGGTTCGCGCCAATCAACTGG -AATTCGCTGGCGATGAAATGGAAGAGGGGATGAACTACTACGACGAAGAAAGCCTGTCGCTATGCGGCGTTGAGG -ATTTTCTGCAGGTCGTGGCGGCTTACCGCAATTTCGTGCAGCAGAAGTAAATAAATCTGGCGGAGCCTGGGAGCT -CCGCCAGAGCCGTTAAACAGCTGGCATATTGCGCCCGTAATAAATCTCGCGCATTTCTTTCCACAGCGCAGCGGT -AATTTCCTGGCGCTCGCTGTCGGTTAAGTCTTCCGGTTTGGTGTGGAACATGTAGTGCTTAAGGTCGAACTCTTT -AAGCAACATCTTGGTATGGAAGATATTTTCCTGATAGACGTTCACATCCACCATGTCATACAGCGCCTTCATATC -GTCAGACATAAAGTTCTGAATCGAATTAATCTCATGGTCGATAAAGTGCTTCATACCGTTAATGTCGCGGGTAAA -ACCGCGCACGCGATAATCAATGGTTACGATATCGGACTCAAGCTGGTGGATCAGGTAATTCAGCGCCTTCAGCGG -AGAAATCACGCCGCAGGTAGAGACTTCAATATCGGCGCGGAAGGTACATAAACCGCCTTCAGGATGACTTTCCGG -GTAGGTATGTACGCAAATATGACTTTTATCAAGATGGGCAACGACCGTTTCTGGCAGTGGGCCGGGGTGTTCTGT -TTTGTCGATGAGTTTCGGGTCAACCGGTTCTTCACTCACCAGAATAGTGACGCTGGCACCCTGTGGTTCGTAATC -CTGGCGGGCGATGTTAAGAATATTAGCCCCGATAATGGAACAGGTTTCTGACAGGATTTCGGTCAGACGGTTGGC -ATTATAGAGTTCATCGATATAAGCAATATAACCGTCGCGCTCTTCGGCAGTTTTGGCGTAGCAGATATCGTAAAT -ACAAAAACTCAGACTTTTGGTCAGATTATTAAAGCCATGCAGTTTCAGTTTTTTCAATTTCTTATCTTCTCCTTA -GGACGGCTGTGAAGCCAGTGCGTCTTGCAGATACTGAGGTAAGGCAAAAGCTGCCGTATGGATTGCCGGATTGTA -ATAACGGCATTTCAGGCCAGAGGCGAGAAAACGCGCCTGAATAATTTCGGTTGAGAGATGGCGTAAGGCGTCGTT -ATCTGTCGCCCATGCAAAAGTCATGATACCGCCGTAATAGGTCGGGATCGCCGCCTGATAAAAGCCAACGTCGCT -GAAGTAATGGCTGAGTTTGCGATGGCTGTCGATGGCTTCTTCCTGCTGTAAAAAGCAGACGCCGTTTTGTGCGAC -GAAGATACCGCCAGGATTCAGGCAACGTTTGCAGCCTTCATAAAATGCCGAAGTGAAAAGGCTTTCGCCGGGACC -GATAGGATCGGTGCAGTCGGAGATAATGACATCAAAGGTCTGGCTGGTTTGATTAACGAAATTGACGCCATCGTC -GATCACCAGCTTAAAGCGCGGATCGTCGTAGCTACCGGCGTTATGGTTGGGTAGATACTGACGGCAGAACGATAC -GACACCCGCATCGATTTCCACCATCGTGATTGACTCAACGTTTTTATGTCGGGTTACTTCACGCAGCATGGCACC -GTCGCCGCCGCCGATAATCAGCACATGTTTCGCGTGACCATGGGCCAGTAGCGGAACATGGGTCATCATCTCATG -ATAGATAAACTCGTCGCGCTCGGTGGTTTGTACTACGCCATCCAGCGCCATTACGCGACCAAATGCAGCGTTCTC -AAAAATGATCAGATCCTGGTGATCGGTCTTTTCATGATACAGAACGTTATCTACCGCAAAGTACTGCCCAAACTG -GTCGTGTAGCGTTTCATGCCACTGTTTTTTTTCGGCCATGGGTTGATACCTCCTTTGTTAACACCCGTAAAAAAA -GGGCGCAACATAATAGCTAACATTGACCGCGGATGCACGGTCAATATTTCTACAAAAAGGTATCAGGGATTATTT -GACGTAGGCAAGCAGGCTTAAGGAATCGCGGGCCAGGGCTTTGCATTTTTTAGCGACGGGAATGCCAATGCCGCT -GAGATCGCGGTAGCTGTCTTCACCGAGGGCTTTCATGTCGAAGGTGTCGTAATTACTGAGGTCCCACTGGTTTTG -CTGAGCGAAAAAGACCAGTGCGCGACGAATTTGCCCGTTAGGTAAGTTCTGGTAACCACAATCGTTCTTCAGAAA -GACAAAAACTGCCGTTAAATCGGCCATATCTTCGGCTTCAGACTCGCTGAGCGCGTAACTGTTTGCGCAGACGGC -CATCAGGCTGCCGAATAACACTGTTCTGAAAAACGTCTTCATTGCTTCTACCAGGGGCTTAAAGAAGATAAACGT -TAGCACACTGCGAGCGAGGCGACGACCATTATTGTCGATTAAATTGTGTCTGCGGCTTGACCTTCCCGTAAGGGG -AAGGACTATGCTCAACGTTTGATTTTGTTTCGCCTGCTTAAGAATAAGGAAATAACTATGCAACGTCGTGATTTC -TTAAAATATTCCGTCGCGCTGGGTGTGGCTTCGGCTTTGCCGCTGTGGAGCCGCGCAGTATTTGCGGCAGAACGC -CCAACGTTACCGATCCCTGATTTGCTCACGACCGATGCCCGTAATCGCATTCAGTTAACTATTGGCGCAGGCCAG -TCCACCTTTGGCGGGAAAACTGCAACTACCTGGGGCTATAACGGCAATCTGCTGGGGCCGGCGGTGAAATTACAG -CGCGGCAAAGCGGTAACGGTTGATATCTACAACCAACTGACGGAAGAGACAACGTTGCACTGGCACGGGCTGGAA -GTACCGGGTGAAGTCGACGGCGGCCCGCAGGGAATTATTCCGCCAGGTGGCAAGCGCTCGGTGACGTTGAACGTT -GATCAACCTGCCGCTACCTGCTGGTTCCATCCGCATCAGCACGGCAAAACCGGGCGACAGGTGGCGATGGGGCTG -GCTGGGCTGGTGGTGATTGAAGATGACGAGATCCTGAAATTAATGCTGCCAAAACAGTGGGGTATCGATGATGTT -CCGGTGATCGTTCAGGATAAGAAATTTAGCGCCGACGGGCAGATTGATTATCAACTGGATGTGATGACCGCCGCC -GTGGGCTGGTTTGGCGATACGTTGCTGACCAACGGTGCAATCTACCCGCAACACGCTGCCCCGCGTGGTTGGCTG -CGCCTGCGTTTGCTCAATGGCTGTAATGCCCGTTCGCTCAATTTCGCCACCAGCGACAATCGCCCGCTGTATGTG -ATTGCCAGCGACGGTGGTCTGCTACCTGAACCAGTGAAGGTGAGCGAACTGCCGGTGCTGATGGGCGAGCGTTTT -GAAGTGCTGGTGGAGGTTAACGATAACAAACCCTTTGACCTGGTGACGCTGCCGGTCAGCCAGATGGGGATGGCG -ATTGCGCCGTTTGATAAGCCTCATCCGGTAATGCGGATTCAGCCGATTGCTATTAGTGCCTCCGGTGCTTTGCCA -GACACATTAAGTAGCCTGCCTGCGTTACCTTCGCTGGAAGGGCTGACGGTACGCAAGCTGCAACTCTCTATGGAC -CCGATGCTCGATATGATGGGGATGCAGATGCTAATGGAGAAATATGGCGATCAGGCGATGGCCGGGATGGATCAC -AGCCAGATGATGGGCCATATGGGGCACGGCAATATGAATCATATGAACCACGGCGGGAAGTTCGATTTCCACCAT -GCCAACAAAATCAACGGTCAGGCGTTTGATATGAACAAGCCGATGTTTGCGGCGGCGAAAGGGCAATACGAACGT -TGGGTTATCTCTGGCGTGGGCGACATGATGCTGCATCCGTTCCATATCCACGGCACGCAGTTCCGTATCTTGTCA -GAAAATGGCAAACCGCCAGCGGCTCATCGCGCGGGCTGGAAAGATACCGTTAAGGTAGAAGGTAATGTCAGCGAA -GTGCTGGTGAAGTTTAATCACGATGCACCGAAAGAACATGCTTATATGGCGCACTGCCATCTGCTGGAGCATGAA -GATACGGGGATGATGTTAGGGTTTACGGTATAAAAAGACCGTATTCGGAAATATGCCCGGATCTCTCCGGGCATT -AAACTGATGACAAACGCAAATCTGCCTGATGCGCTACGCTTATCAGGCCTACGCTAGCTGTGCAATCCATTGATT -TTGCACAATTTTGTAGGCTGGATAAGGCGTTCACGCCGCATCCGGCATGAACAACGCGCACGTTGTCAGCAATCT -GAGCAAGTCTTACTTCACATCATCCGGCAGCGCATAAGCCACAATATAGTCGCCCATCTTCGTACCAAATGAACC -GTGACCGCCTGCGGAGATCACCACATACTGCTTACCATTCACTTCATAGGTCATTGGCGTAGCCTGACCACCCGC -TGGTAAACGACCCTGCCACAGTTTTTCACCGTTGCTCATGTTGTAAGCGCGCAGGTAGTTATCTGCCGTAGCGGC -GATAAACAGCACGTTACCCGCCGTGGAGATTGGCCCGCCCAGCATCGGCATACCCATATTGAACGGCACCGGAAC -CGGCATCGGGAACGGCATACTGTCCTGCGGCGTACCAATACGTTTCTTCCACACCACTTCATTAGTTTTCAGATC -CAGCGCCGAGATATAACCCCATGCTGGCTGTTTACATGGCAGACCAAATGGTGAGAGGAACGGGTTGAGCGTGAC -ACCATACGGTACACCGTACTGTGGCTGAATGCCGGATTCCGTACCCGTGCCTTTGGCATCTTTCGGCTGCTCCAT -CGGGTTGCCAGGACCACGCGGGATCAGTTTCGAAACAAACGGCAGTGCCATTGGGTTGGCAATCGCCACTTCACG -ATTTGGATCAACGGAAATCCCGCCCCATTCGAACATCCCCAGGTTACCCGGGAAGACCAGCGTACCCTGTTCAGA -TGGCGGGGTGAAAATGCCTTCATAGCGCATCTGGTGGAACATCACGCGGCACACCAGTTGGTCAAACATGGTGGC -TCCCCACATATCCGCACCGCTCAAATCTTTCGTCGGACGGAAGCTCAGTTCAGAAAACGGTTGAGTTGGGGTTAC -GTAATCGCCTTTCGCTGCACCTTGGGGAACCGGTTTTTCCGGTGCCGGAACCACCAGTTCGCCATTACGACGATC -GAGCACAAAAATGTTGCCGGTTTTCGCCGGAGCGTAAATAACTGGCACTTTCTGACCATTAACGGTGATGTCCGC -CAGCGTCGGCTGTGCCGGAAGATCCATGTCCCACAGGTCGTGGTGAACGGTCTGGTAGCTCCACGCCAGTTTCCC -GGTAGTGGCATTCAGCGCCAGAATCGAGCTGGCATAACGTTCCTGTTCCGGTGTGCGGTTACCGCCCCAGATATC -CGGCGTGGTCACGCCCATCGGCAGATAGACCAGATCCAGCTTCGCGTCATAGGCCGCTGGTGCCCAGGAGTTTGG -CGAGTTAAAGGTAAAGGTGTGTTCGTCAGACGGGATTGCGTTCGGATCTTTCGCGCCGGGATCAAAAGCCCACAG -CAGCTCCCCGGTGTTGACATCAAAACCACGGATCACGCCAGACGTTTCGCGGGTTGAGAAGTTATCGGTAACTGA -ACCGGCCATCACGATGGTTTTATCGGTGATAATCGGTGGCGAAGTCGGTTCATACAGACCCGGTTTGGTGTCTGG -CATATTGCTTTGCAGATTGAGCACGCCTTTATTGGCGAAGGTTTCGCACAGTTTGCCGTTTTCAGCGTTAATCGC -AATCAGTCGACCATCATTGACCGGAAGAATGATACGACGCGGGCAATCCGCCATCACTTCCGGCGAAGCGGTTTC -TGCTTTGGCTTCATGATAAGAGACACCACGGCAGGTTACGTGCTGGAAAGACTCGTTGGTTTTCAGCTCAGGATC -GTAATGCCATTTCTCTTTGCCGCTGGCGGCATCAAGCGCAAACAGGCGCTGGTGAGCGGTACACAGGTAAAGGGT -GTCGCCCACTTTAATCGGCGTCACTTCATTGGTGATTTCACCCGGATCGTTCGGCTGCTTCACATCGCCAGTACG -GAACACCCAGGCTTCTTTCAGATTATGGACGTTATCGGCGTTAATTTGTTTCAGCGGCGAAAAGCGTTGACCTTC -CTGATTACGACCATAGGCAGGCCAGTCCTGATCGGCTACGGGGGAGATAGCTTCAGCAGGTGTGGCATCGGCGCT -TAAGGTGCCGTTGATCTCCTGCGGATCGTTAAATCCGGCCCAGGTCAGGATACCACCGCTAATCAGCAGTGCGAC -CACCAGTGCGGCAACTGCGCCGCTGGCAGGAATGACCAGGCGACGCCAGACAAACGGCAGGATCAGCCAGATGCC -GAAGAAGACCAGAATGTCGCTGCGCGGAGTCAGCGCCCAGAAGTCGAAACCAACTTCCCAGACGCCCCAAATCAT -GGTGCCGAGCAGCAGGGCTGCGTATAGCCAAAGCGCGGCGCGTTTACTGCGCCACAGCATCCAGGCGACGCCGAG -CATCACAAGGCCAGCGATAGGGTAGTACCAGGAGCCGCCAATCGCGACCAGCCAGCCTCCGCCAATGAGTAGATA -CAGCCCGCAAAGCGCTGCAAAAAGGGCTGTTAGCGTGACGAGTAATCGTCGCGAGCCTGTATTGTTAATTGCCAT -AAAGAGACACCATTTCAATTCATTAATATTTTAGTAGCAATTAATTATAGGTTTTAACATGTGTGATCGTCATCA -CAATTCGAGCTTTATTAACAGATTCCGCGAATGAATAGTTTTACTGGTATACTGCGTGTCTTGCGCTTTGTTGCG -GTGCCAAAACCTGCCCGTGCGAAGTGATTTGTTTTTAAATCATATGGTTAGAGATATGAAACATACTGTAGAAGT -AATGATCCCCGAAGCGGAGATTAAAGCGCGTATCGCCGAACTGGGTCGTCAGATTACTGAGCGTTACAAAGACAG -CGGCAGCGATATGGTGCTGGTGGGTCTGCTGCGTGGCTCATTTATGTTTATGGCGGACCTGTGCCGTGAAGTTCA -GGTATCTCATGAAGTCGACTTTATGACCGCCTCCAGCTACGGTAGCGGCATGTCCACCACCCGTGATGTGAAAAT -CCTCAAAGATCTGGATGAAGATATCCGTGGCAAGGACGTGCTGATTGTTGAAGATATCATCGACTCGGGGAATAC -ACTGTCGAAAGTGCGTGAGATCTTAAGCCTGCGCGAACCGAAGTCGCTGGCGATTTGTACGCTGCTGGATAAACC -GTCCCGTCGTGAAGTGAACGTCCCGGTAGAATTTATCGGTTTCTCGATCCCGGATGAGTTTGTGGTGGGTTACGG -CATTGATTACGCACAGCGTTACCGTCATCTGCCGTATATCGGCAAAGTGATTCTGCTGGACGAGTAAGTGTGAAG -TTGCCGGATGTGTTGCATCCGGCATGGCATTTTTATTTGTGGTTGGCGTGTTTCAGCTTGAGGTTGGAAATCCCG -TGACGGTAACGTTGCTCAAGGGTTTCGCGGTTGGTGGCGGTAACATCCAGATCACGCAGCAAGCCGTCGTGAATG -CCGTAGGCCCAGCCGTGAATGGTAACTTTCTGCCCGCGTTTCCACGCTGATTGCATAATGGTGGAGTGGCCCAGG -TTATACACCTGTTCCATGACGTTCAGTTCACACAAGGTATCCAGACGGCGCTCTTGCGGCATTTCGCCGAGCAAT -GAGCTATGTTTGAACCAGATATCGCGGATATGCAGCAGCCAGTTGTTGATAAGCCCCAGTTCCGGGTTTTCAACT -GCGGCTTGTACGCCGCCGCAACCGTAGTGGCCACAGATAATAATGTGTTCAACTTCGAGTACATCCACTGCATAC -TGAACCACGGAAAGGCAGTTCAGGTCAGTGTGAATGACCAGGTTAGCAACATTACGGTGAACAAAGAGTTCGCCC -GGCTCAAGACCGGTTAAACGTTCTGCAGGAACGCGACTGTCGGAACATCCAATCCATAGAAAGCGCGGTTTTTGC -GCTTGTGCCAGTTTCTCAAAAAACCCGGGATCCTCTTCCACCAGCATTTTTGACCATAGTGCATTGTTGCTGATG -AGTGTATCTATGTCTTTCATGGAGGTTAACGACCTGTAACCAAATAATTACGTTTGGCTAATATAGGGCAACTCC -GGGACGATTTAAACCACAGATAAAGTGTAAGAACGTAAGGTAAGTAAAAATTTATGACCATTGCACTGGAACTTC -AACAGCTTAAAAAAACCTATCCAGGCGGCGTTCAGGCGCTTCGTGGGATAGATTTGCAGGTCGAAGCGGGTGATT -TTTATGCGCTTCTCGGGCCGAACGGGGCCGGGAAATCGACCACTATCGGTATTATCAGCTCTCTGGTAAATAAAA -CCTCCGGGCGGGTCAGCGTATTTGGTTACGATCTCGAGAAGGATGTCGTGAACGCTAAACGTCAGTTGGGACTGG -TGCCGCAGGAATTTAACTTCAACCCGTTTGAAACCGTGCAGCAAATTGTGGTGAATCAGGCAGGGTACTACGGCG -TGGAGCGCAAAGAAGCGTACATCCGCAGCGAAAAGTATCTTAAACAACTCGATCTATGGGGAAAACGCAACGAAC -GTGCGCGTATGTTATCTGGCGGGATGAAGCGCCGTTTAATGATTGCCCGTGCGTTAATGCATGAACCTAAACTAC -TGATTCTCGACGAACCGACCGCAGGCGTGGATATTGAACTTCGCCGCTCAATGTGGGGCTTTTTGAAGGATTTAA -ACGACAAAGGCACCACCATCATTCTCACCACACACTACCTGGAAGAAGCAGAAATGCTGTGCCGCAATATCGGCA -TTATTCAACACGGTGAGCTGGTGGAAAATACCTCGATGAAGGCGCTGCTGGCGAAGCTGAAATCGGAAACCTTTA -TTCTCGATCTCGCACCGAAAAGCCCGTTACCGAAGCTCGATGGCTATCAGTATCGACTGGTCGATACCGCGACGC -TGGAAGTTGAAGTGCTGCGTGAGCAGGGGATCAACAGCGTATTTACGCAGTTAAGTGAGCAGGGCATTCAGGTAT -TAAGTATGCGTAACAAAGCTAACCGTCTGGAAGAGCTGTTTGTTTCACTGGTTAATGAAAAACAAGGAGATCGCG -CATGATGCATCTTTACTGGGTGGCGCTAAAAAGCATCTGGGCGAAAGAGATCCATCGCTTTATGCGTATCTGGGT -GCAGACGCTGGTGCCGCCAGTCATCACCATGACCCTTTACTTTATTATCTTCGGTAACCTGATTGGTTCGCGTAT -TGGCGATATGCATGGCTTCAGCTATATGCAGTTCATCGTACCGGGGCTGATCATGATGTCGGTGATCACCAATGC -CTACGCCAACGTTGCGTCATCATTTTTTGGTGCCAAGTTCCAGCGTAATATTGAAGAGCTGCTGGTAGCGCCGGT -TCCGACTCACGTCATTATTGCCGGATATGTCGGCGGTGGCGTGGCGCGTGGTCTGTTTGTTGGCATTCTGGTGAC -GGCAATTTCACTGTTTTTTGTGCCATTTCAGGTGCATTCGTGGGTATTCGTTGCCTTAACGCTGGTGCTCACGGC -GGTGTTGTTCTCCCTTGCGGGTTTGCTGAACGGTGTGTTTGCCAAAACGTTCGATGACATCAGCCTGGTGCCAAC -CTTTGTGTTAACGCCACTCACGTATTTGGGCGGGGTCTTTTACTCACTGACTTTGTTGCCGCCGTTCTGGCAAGG -GCTGTCGCACCTGAACCCAATCGTTTATATGATCAGTGGTTTCCGCTACGGCTTCCTCGGTATCAATGATGTTCC -GCTGGTCACTACCTTTGGCGTACTGGTGGTCTTTATTGTGGCGTTTTATTTGATCTGTTGGTCGCTGATCCAACG -TGGACGTGGTTTGCGTAGCTAAGGCTATTTCCTCTCCTCTGGATTTGGGGGAGAGGAGTTTTGACGGCTATCACC -CTTTATCAACAATGGTCAGGGTAGACTGATTTTCGGCTAAGGAGGAAGGCGATGTTAGGTTGGGTAATTACCTGT -CACGATGACCGGGCGCAAGAGATACTGGATGCGCTGGAGAAAAAACATGGGGCACTTCTTCAGTGCCGGGCCGTG -AATTTCTGGCGCGGATTAAGCTCTAATATGCTCAGCCGCATGATGTGCGATGCTCTGCATGAAGCGGACTCTGGT -GAGGGTGTCATCTTCTTAACCGATATAGCCGGAGCGCCACCGTATCGCGTGGCTTCATTATTAAGCCACAAACAC -TCCCGTTGCGAAGTGATTTCTGGTGTCACGTTACCGTTAATTGAACAGATGATGGCTTGCCGTGAAACCATGACC -AGTTCAGAGTTTCGCGAGCGTATTGTCGAACTGGGTGCGCCGGAGGTGAGTAGTCTTTGGCACCAACAACAAAAA -AATCCGCCTTTCGTCCTCAAACATAATTTGTATGAGTATTAACCCGCGATTCTGATGGCGCTTTTGCTACAATAA -AAGCGTTGTTTCACCCTCGGTTATTTTTTCATGTACAAACAAGCTGTTATTCTCCTGCTGATGCTGTTTACCGCA -AGTGTCAGTGCCGCGTTACCTGCCCGTTATATGCAAACCATCGAAAATGCTGCGGTCTGGGCGCAAATTGGTGAC -AAGATGGTGACCGTGGGGAATATTCGGGCCGGACAAATCATTGCCGTGGAGCCCACTGCCGCAAGTTATTACGCA -TTTAATTTTGGCTTTGGCAAAGGTTTTATCGATAAAGGTCATCTCGAGCCGGTTCAGGGGCGACAAAAAGTTGAA -GACGGTTTGGGCGACCTCAACAAGCCGCTGAGTAATCAGAACTTAGTTACCTGGAAAGATACGCCGGTCTATAAC -GCGCCGAGTGCGGGAAGTGCGCCATTTGGGGTACTGGCGGACAATTTGCGCTACCCGATTTTGCATAAACTGAAA -GACAGGTTAAATCAAACCTGGTATCAGATCCGTATTGGCGATCGACTGGCCTATATCAGCGCACTGGATGCCCAA -CCCGATAATGGCCTGTCGGTGCTAACCTATCACCATATTCTGCGCGACGAAGAAAACACCCGTTTTCGCCATACT -TCGACGACCACATCGGTACGCGCTTTCAATAACCAGATGGCCTGGCTGCGTGACAGGGGATACGCGACACTGAGC -ATGGTGCAGCTGGAAGGCTACGTGAAGAATAAGATCAATCTCCCTGCGCGAGCGGTGGTGATTACCTTTGATGAT -GGCCTCAAGTCGGTGAGCCGCTATGCGTATCCTGTGTTGAAACAATATGGCATGAAGGCGACGGCGTTTATTGTT -ACCTCACGCATCAAACGTCACCCGCAGAAGTGGAACCCAAAATCGCTGCAATTTATGAGCGTTTCTGAGCTTAAC -GAAATTCGCGATGTATTTGATTTCCAGTCACATACCCATTTTTTGCATCGGGTAGATGGTTATCGCCGACCCATA -TTACTGAGCCGTAGTGAGCACAATATTCTGTTTGATTTTGCACGTTCACGCCGCGCTCTGGCGCAATTTAATCCG -CATGTCTGGTATCTTTCGTATCCGTTTGGCGGATTTAATGACAACGCCGTGAAGGCAGCAAACGATGCCGGATTT -CACCTGGCGGTGACAACCATGAAAGGCAAAGTAAAACCGGGGGATAATCCGTTGTTACTAAAACGACTTTATATC -TTAAGAACGGATTCGCTGGAGACGATGTCGCGGCTGGTGAGTAACCAGCCGCAGGGATAACAATCAAGCAACCTG -TACCGGAATCGCTTTCGCGGTACGTTTCATTTCATTGTCGCCTTCAAAATAGGCGACGTTGGGTCGCCAGGTGCG -AGCTTCTTCATCTGGCATGGTAACGAAGCTGGCGATGATGACAATATCGCCGACACTGGCGCAGTGGGCCGCCGC -ACCGTTAACAGAAATAATTCTCGAACCGCGTTCTGCCGCGATGGCATAAGTGGAGAAACGCTTGCCGTTGGTGAC -ATTCCAGATATCAATGGCTTCGTTTTCGAGAATACCGGCTGCGTCAAGAAAATCCTGGTCAATGGCGCAAGAACC -TTCATAGTGCAGGTCCGCATGAGTCACTTTCACGCGGTGGAGTTTGCCCTGCAGCATCGTGCGAATCATAACTTC -TACCTTTCTACCCTGTCGTTAACGAAGCAGGCGATGCCTGCTTTGAGGAAATTCTCACGCAGTATTGCCCGATTT -TTGTTTAGTGTCTACTCATCTGACGGCATTTGCGTCAGCAGTTTGCGTACCGCGCCGAAGCGTGCCATGTATCGC -CTGTAACGAATTGATATTTCTCTGAACGCTGCTCGGTAAACAATAAAGAGGTGGCTGACGATAGCGCGCCTTGAC -TGGATACTGCCTTCACGCAAAGCCACACGGAAGACAGGGAAGATGGATGCACCGAGTACCACACCGCATGACGCG -GTATTTAAACAATTTTTAATGCATGCGGAGACGGCTCGCGACTTTCTGGAGATACATTTGCCAGTGGAATTACGC -GAACTTTGTGACCTCAACACGCTTCATTTAGAGTCGGGGAGTTTCATTGAAGAGAGCCTGAAAGGACACAGCACG -GACGTGCTCTATTCCGTGCAAATGCAGGGCAATCCCGGTTATCTGCATGTTGTGATTGAACACCAAAGCAAGCCG -GATAAGAAAATGGCCTTTCGCATGATGCGTTATTCTATAGCCGCCATGCACCGGCATCTGGAGGCTGACCACGAT -AAGCTGCCGCTGGTGGTGCCGATACTGTTTTATCAGGGCGAGGCCACACCTTATCCGCTATCAATGTGCTGGTTT -GATATGTTTTACTCGCCGGAGCTGGCGCGACGCGTCTATAACAGTCCTTTCCCGCTGGTGGATATCACCATCACA -CCGGATGACGAAATCATGCAACATCGGCGGATTGCGATTCTCGAACTACTGCAAAAACATATTCGCCAGCGCGAC -TTAATGTTATTGCTTGAGCAACTGGTCACGCTGATCGACGAAGGGTACACTAGCGGAAGTCAGTTAGTTGCCATG -CAAAACTATATGCTGCAACGCGGTCATACTGAACAAGCGGATTTGTTTTACGGTGTGTTGAGAGACAGGGAAACG -GGAGGGGAGTCTATGATGACGCTGGCGCAGTGGTTTGAAGAGAAAGGGATTGAGAAGGGGATTCAGCAGGGAAGA -CAGGAAGTAAGTCAGGAATTCGCCCAGCGTCTTCTGAGTAAAGGAATGTCTCGGGAAGACGTTGCAGAGATGGCA -AATTTACCTCTTGCTGAGATTGATAAGGTAATTAACCTTATTTAAGTTACCTGTGTTATGACAGATGACGTGGGG -TAAATTAATAACTGGCGCCATCAGCCGTAGCGCCAGTTAAGTATTACGCCAGCTCGACCATTTTGTTGTCGATCA -GGCGAGCATCGCCAAGCCAGGCGGCTACCAGAATTACTGCCCGTTTGCTGGTTTCAGAAACTTCCAGCAATGTGT -CGGCATCGCGAATCTGAATATCATCGGCGCGGAAGCCTTTTTCATTCAGTTCTTGCCCCGCAATGGTAATAATTT -CATCGAGATCCCGTTCCCCAGCCTGCAATTTGTCAGCAATCGAACTTAAAACTTTGTACAGACCAGGCGCAATTT -TGCGTTGTTCCGCCGTCAGATAACCGTTACGGGAACTTAGCGCCAGACCGTCTTTGGCGCGCATAATTGGCACAC -CGACAATCTCAATATCGAAGCCCATATCGGCAACCATTTTGCGGATCAGCGCCAGTTGCTGAAAATCTTTTTCAC -CGAAGCAGGCGATGTCCGGCTGGACCAGGTTGAACAGCTTGCTGACAATAGTCGAAACGCCGCGAAAATGTCCCG -GACGGCTGGCACCTTCCAGCATGGTCGAAAGGCCAGGAACGTCAACGTAAGTGTGGGTTTCAGTACCGTTCGGGT -AGATCTCTTTTACCGAAGGGGCGAAAACTAAATCCACTTTACGTTTGTTTAGCTTCTCGCAGTCCTCCTGCAAGG -TCCGTGGATAACGAGCCAGATCTTCCGGGCGGTCGAACTGCATCGGGTTAACGAAAATACTGACGACGACCACAT -CGGCGCGGGCTTTGGCTTCGTCGACCAGCTTCATATGGCCATCGTGCAGGTTACCCATGGTAGGCACCAGCGCCA -CGCGCTTGCCTTCCATACGCAGGCGGCGAATTTGCTGACGCAGCAGCGGCAGGGTTTCGATAATTAACACAACGT -GACTCCTTAATGGAAACTGTGTTCTTCGCCCGGATAAACGCCGGACTCCACTTCAGCCATATACTGCCGCACAGC -CGCGCGGATGTCGCCCGTTTCGGCGAGGAAATTTTTAGCGAATTTAGGAATGTGACCGCCGGTAATACCAAAGGC -GTCGTGCATCACGAGGATCTGCCCGTCAGTGACGTTGCCTGCGCCAATGCCAATAACCGGGATCGCCAGTGCTTC -GGTAATACGTTTTGCCAGTTCAACCGGCACGCATTCCAGCACCAGCAGCTGTGCCCCAGCAGCTTCTAAGGCTAA -TGCATCGCTGAGCAGTTGATCGCCCGCTTCATCGCCGCGCCCCTGAACTTTGTAGCCACCGAAAATATTCACTGA -CTGTGGTGTTAAACCTAAGTGACCACATACAGGAACGGCACGTTCGGTCAGCATTTGTACGGTTTCTACCAGCCA -CTCACCGCCTTCAATTTTGACCATGTTAGCACCGGCACGCATAACCGTTGCGGCGTTTTCGAAGGCTTGTTCCGG -CGTGGCATACGCCATAAACGGCAGGTCAGCCAGCAGCAGGCAGTTTGGTGCGCCGCGACGTACGGCGGCAGTGTG -GTAGGCGATATCGGCAACGGTAACTGGCAGGGTGGAGTCGTGCCCCTGAACCGTCATGCCCAGCGAATCGCCCAC -CAGCATGACGTTAAGCCCTTCATCAGCAAAGAGTTTGGCGAAGCTATAGTCATAAGCGGTGATGGTCGCGAAACG -TTTTTTTTCCTGTTTGTACTTCTGCAGTAAGGAGATGGTGGTCGGTTTCATAACGTATCCTGATAAATTGATGTT -GTGCTGTCTGGCATTTTATCAGTCACATTGGTGGGGGCAATGATTTATCCGTAGCAGCACTGCCAGAAGGTGACA -GTGCTGCTACGTTATCAGGGATAGGTTACCTGGAAAGTACTGGTGGCTTTAAATTCGCCGGGTTCGATAGCAATA -TTCCCGTCTTGCTTTAATGTTGCCTGGAAATGAAGAGGCTGTGATGTGCCGTTACCTTGATTAGGGTAAACCCCA -TCGGAGGTGTCATCTTCGGTTTCATAATCTATATAAACAGAATTCGTATCATTAGGTTTTAATGTCATTAGCGGA -TTTTTACTGGTTGCTAAACCTTCAATGAGTACGCCAACGCCTTTGGCGGCAGTGCTTCCAGTAAGCGTATTACCA -AGCAGTTGTGTGTTTTGAGTACCTACTTTTCCAGTGACGAGTTTTGTTTCAATATTACGCACACGAATACAATTC -TGAAGCGAGATATCAAAGGGAACAGGTGAAGCGCCATTTTTAATTGTCCCAGAGCTATATTCTCCCATTCTAACC -GTTGAACCATTGACTGATGGCCCGGTAAGTATGGAGGTAAAACATGTTGGTAAGGTTAATTTGACATTATTCAGT -GTGAAATTGACATAAATGTGGTTGCTGTGATCTACAACTTTTGTACCAGGACTGTAGGCCTTAAACGAATAAAGG -TAATTTGATGAACTGGATAACTGGACTTGCTGATTAAGTGTAGGATCGAAATTAGTATCTGTATAAAATTCAACA -GTTATGTTGTGTACTATACCACCAATAGCCCAAAACTTATCGTAGTCGTCTGCTTTGTTGCAACCCTTAGTTTGT -AGATCGCTGTCTGTGACGGAAAAGAAAAATTCTTGGTTGGAAGGATCTCCGATATAGATTCCTGGCGATTGAATG -TCAGTTATTGTATCGTATGCAGACCAGACCCTTGATATTAACATGGTGTAATACAGACCAGGAACAGATGTATTA -AATAGTTTATGTCCGCCATAATCTTTACCTGAATAGACCATGGCATTTTCAATAGTTATTGGACCAGGATTCGCT -CTGCCAGATGTATTGCAGTAAAGAATACCACCACCGGTACCTGTATCCAGGTATGACCAGTACATTTTTACCCCA -GTCGGGCCGAGCTGCGTGGGTTTATAAAAAACCAAGTTGCTTGCTGTTGATGTGTAATTAAAGGTCATCTGTGCG -GCAGTGGAGGGGCCTCGATAGTTATCAACTCCTGCATTATTTCCCACAATAAAACTTGTATATGCACTGACTGTA -TTACAACAAGAATACAGTGCTAAAAAAAGAATGTACCTGAAGATAGTCTTCATTTTTACTCCAATGTTTCTTTAT -TGTTATGGTTTGCGCTGTTTTTGTTTGTTATTCGTAGTAAATATCCACTAACACATGGCTCATAAGTTGACCAGA -TGTAACACTCAATGCAGGATCGATTTTTTGCATTCGGGTGCTAAATTTCCAGGATGAACCATTCATGTCATCCGA -CATTACTGGATAAACGGAACGAGATCCGCCTGAAGCATTAAGAACATTGAATGTATTCGCCGAATCCTGAGTAGA -AAATATAACTACTCCTACATTACTTGCTCCTGACGAAATTTCATTAGCAAATATTTGCCTAGAGCCAGCAGCCAT -GACACCGCTAAGGGCTCTAAAATCAATATGTAACTGATTTAGCACATCGCCAGTTCCCTGTAATGCACAGTCGGA -TACAGTGATAGTGAACTCTTTTCCACCTGGTTGATAACTTTCAGGAGTAACATTACCTGAAAAATATCCCACCCC -AACGACGCCAAGATCAATATTACCCTGGTTACTGATTCCGCTTTTGCAGGTGCTGTTTTTTACATTGGCAACAAG -GTCAATATCCTGTCCAGCAATGGCTGGACAGGCGATGCAAAACAGTAATGACAGAAACAGAATTATTCTCTTCAT -CAGCTTACGTTGAGTGGGATGCATATATAGTTCCTGAATCTGTAAGTCTGTTAGTTATAGGTTACTGTAAATGTG -GCTGGTGCAGAAAACTTACCCGCAGTGACATTGTTTACGGTTTTATTTTTTTCCACGACCAGGCGTGCACTCATC -GGATAATAAACGACCGCATTGGCTGCAGTGGAGATTGTTACCTCTTGTGATGCTGGTGTTACACAGCTAAATTGT -GTTGCACTCCCTGTTGCCGGAGTTACAGTGCTCCAGACTTCAACGGCGACAGCACTTGCTTTATCTGCGGCTGTG -GAACCATTTGCAAACCCCGCACCGTCATTAGCAGTTCCCTCGCATGTGGCTCGCTTGGTTAATTTTATTTGCGCT -TTTTTATTGGGGATACCCGCACAGTCTTTGAATTTGAGTTTGAATGTTTTTACTTTGGTCTTGGCATTGATTTCA -GAAATATATACATCACCAAAATCAACAACAGAAATGTCCTGATCAGAGTCATTTACTAATGTAGCGGTACAAGTA -CCCATTTCTACAGTAGTAATAACGGTCAGTCCAATACTGTCTGTTGCCGCATAAGAGAGTACGCTGAACAATGAG -GCAGCCAAAACGACACTGCTGGATAATCCATAACGTAAATTTTTAAATGTCATCATAATTATCCTTCTTATTGAT -AGATGAAATTAAACGTCGCCAGTGCACGAAAATTCCCCGGTACGCCTTGCCCTGCATCTGTTTCACGTAGCGCAA -CGGTCATTTCAAGACCCTTATCGGGCTGCATCTCGTCTGTGCTCCAGCGTATCTTTTCCGCACTGTTAGGTTTAA -GGAAAGTGGCATCATCAGTAGTCCGTTTTTTGAAACCCATACCGATATTACTTGTCGTCGAAGATGAATCACCAG -ACTGCGGTATAATAAGCTTAGGTGAGCTTGATGATGCATTTCCGGTCAGAGTGGTATCAATCCAACTGATGCCAC -TGCTGCACCCACTGGCAACCAGTTTAAAATCAGCCTGAGATTCTGTCGTTTTATTCGCGATCTTATCCAGACCCA -TCTTAGGGATTCTCAATGTGTAGTTATTATTGCCATCATTCGTGACGTTATTACCAGTAAGTGTGATGTTACAGG -TTGTCGCTTTGACAGTGGCTGTAAACTCTACATTAATATCCGTTGCAAATACTGAGGGTGATAATAATATTCCCA -TCAGTATCACTATTTTATGTGGCGTTGTTTTTATCATTTGACGTCCCTTGTAGTTACTGAATCTGACACCGAATT -CCATTCAGAATAATAGATTGTGCTATTTTTTCTGCTTCTGGGCTTTGTTGATAATGCGCAAGACAACTTACGGGT -TTACTTTGTTCGAGCCATTTAATGCTGATATTTCCCTGCTGCTCAATACCACGAACAAATGCTTGTCCACCCTGT -CCAACATTACCAATGACATTGCCTTGCTCATCATAAATATCTGCAGCAAATGGAATATTTTTACCATCACTTCGT -GTGATGTTCATAATGGCTGATTGCCCTTGCACGGTTTCAAAATCAGCAAAGACGACTGAACCCTGACGCGGTACA -GCTACTGCACTGGTACTTTTTAATTCAACATCGTTCTCAAGATCGTTGATATCCAGCGCGATACGGTTTTCATGA -TAAGGAGAAAGAGCGCTGGTGACACCATAACCCCATCGATCGATAGTACTGTTGCCATAATTTATTCGCGCTCCT -TGAGCACCTGGAGCCTGAACTACCGCCAGTGTATCGGAGTCGCTAAAACTATCATTACTGAAAGTCAGTCCACCG -CTATGCAATACAAAACCACCGTCGGTGCTGAGAGAAACTTGACGGCTGTTATCGCTATTTGCAGAAATTGAACCT -GCCAGCGTTCCCCATGGTGACTCATAGCTGGCATAACCCCCAACATAACTCAAATCTTTGCTGGCTTTATTCATC -GTATAGCCAGTATTCACGCTATAACTGACGCGAGCGTTATCGCTATAGCCACTGCTGCTAACGTTGAGTTGGTTA -TTACCCTTAAAGTCACTGCTTATTTGAGTATCAATACTCTGGAAACCTGAAGTACGTTGTTCAGTGCCAAGTAAT -TTTTCAATTGGAATGGTGAAACTAAGATAAACGCTATCGTCAGTGTCGCCGTCTTCATTCCATGAACGCTGGGCA -CTGACACTGTAGCTGCCCCAGGATGTACTGTTACTGTAGCCAATAGAGTAATTGCTACGATTTTGTCCGGAAGCC -CAGTAATCGGACCAACTTCCGGAAAGATAAAATGAACCGTAATCTTTTTTCTCAAATTTCAACGGTTGGTTAATA -CTGACCGTAACCTGATTTTTCATGCGTGAGTAATTACGCATGGATTTCGGTTCAAGATCTTGTTCGGGATGTTTC -ACTTCATCAATTAGAGTTAGTGCATCATTAAGACCAAGGTAATTCTGTGTCGAATAGCGATAGGCCGCGATATTC -AGTGAAGTACTTGTTTCTTCGAATAACTTGTTCCAGGAAACACGATAACTTTGCCCCTGGTATGTTTTATCATCC -GGGATACGAACATTGGAATGAGTCACATCGAAAGAAAATGCACCAACTGAAGTATTCAGACCAAGACCTAACAAA -CCAGCGGTATAGTTATTATCGGTTATCTGAATACCGGTATAACCCGTCAGATAGTTATTCAGGCCGTAGTAGTAG -CTTGCTTGAAATAAATTAGGCTCATCCTGAATATCATCTTTTAAGACCTGACCGCCGCTAATATCCCAACGTCCA -ACGCCAGGGCGTAACATTTGAACAACGGATGAGAAAGGTTGCGAGAATGTCCGCTTTGAGCCATCGGATTCTTCG -ATGGTAACAATAAGATCGCTGCCGTACCCTGACGGACTCAGATCATCAATGACGAAAGCGCCTGGCGGCACCGTC -GTTTCATAAATCTTATAGCCACCTTGCGTAATAGTGACTTTGGCGTTGGTATTGGCAACGCCATGAATGATAGGC -GCAAAGCTGGCTAAAGTCGGAGGCAACATGCGGCTGTCACTGTATAAACGAATGCCTCGGATACTGACGGAATCA -AAGGTTTCGCCCGTCGTATAAGACTCACCAAGAATGAGTTGAGAACGCAGCGAGGCGATATCACGCTGAACATAC -CGATTCTTAAAATCATAATTACTGCCAGAATCGGTCATCCAGTTGTAGTTGCCCGAGGCACGCAGTCGCCATGCA -CCTAAATTCATCCCACCGTTAAATGCAGCATAAATGCTTTCATTTTTTCGACCAGGGGTTTCACTATGATATCCG -TTGAGGTTGTATGACAACATGGCCGCATTAATGCCGTTTTCCCATAACGATGGATCAACATAGTTTTGGTAATTT -TTCATTACCCAGGCTTGAGGAACGTCTATATCCAGACGTTGATCGTTAACGTCATAACGAACAGAAGCCTGAGGG -ATAATTTCCGTCAAATTGAGGCAATTGCCGAGCGTTTCATCCCTGGCAAGCAGAACGGCTTTTTCGTTATTTATA -TCGGGAGAATTAATATGAAACTGCAATAAATTCTTTAATGTGATACAAGCCTGGGCGTTCTTTTTTCCTTCAATT -GCGACAAATGTAATACTTTGGTTAATGATTGGTTGGTCGTTTACATAAACACTGACGTCGTAAACACCCGGTATA -GCGGGGTTACCTTCACTGTACCGGCTGAGATCAATATTAGATGCATTCTGCCCCATCAGGAAGGTATGGTCATAT -TCAACGAGTTCAGCACTGAAAGCAGTATTGCAATACAGCAGCGCGCAAAACGTGGCGATACGGGTCAGATGATGA -TAATTTTTAGTATATTCTATAGTCACGCTATGCTTCCTGCGGAATTATATCCTTGCCTGATTACAGCCTGGCATT -ACCTTCAATTGCGCCACCAAAGTCATTAATGGCGTAAAAATGCACTTTTGCAGAATTCGCTTTGCCATTAAGGCC -ATTGACTTTCATGACCTCATCACTAAATGGTGCAATCATTTTCACATCAATCGGATAGCGTTTACCGCTAGCTTC -TAAATCACCACTGCTAAAAGAGACGTAGTAAGGGGTTGGATTGGTCACTCGTAATGACGCCTTACCTTCTGAACC -TGACCAGAACCACTTCAGGGCTAACGGGGCTTCAGAGGGATTTCCCTTCAATCCATCCGGGCGATAGAAAAGTTT -TATACGTGTGCGAAATGCCAGTTGCAGCAGGCTTTGATTCGCGACCTTTTCTGCATCTGGTTTTGGTGGAACTTC -CAGTACGTTAAACCAGAACACGCTCTCTCTGTCTTTAGGCAGTGAGGTGCTGGCTGTGTACATTAATTTGATTGT -TTGCCCACGTTTGGCATCAATACGCGATACTGGCGGCGTAGCAGTAAAAGGGACTGTAATACTGCCAGGCTCAGC -GTTGTCATCGCCAGTATCTAACCAACTCTGGACAAGCAACGGGTTATTCCCTTTATTTTCCAGACGTACGTTGAC -ACTTTTTTGATCGCTTTTATATATTACGCGAGTACCCGAAATGACAATGTCCGCAATAGACGATGAACTAAAAGC -CATACAGGTTACGAAGCATAAAGCTGTTGTATGTTTGGTGTTAAAAAACATAAACCATCCCTGATAGAGTTAATT -AAAACAGGGAATAATATAAAATAGAAATTATTATTCCCTGTATATTCATTCAATCAATTTAACTGGTGAATACTT -ACTGATAAGTAATGGTGTATGCAGTGTTAGTTTTTACATAACCAGCAGTTGCTGTTTGGTCTGCGACGGCACGAA -CGTAAGACGCTTTAAAATCATAAACAGCAGATTTTGTCGTTGCATCCAGGGCTTTAGTATACACATCGCCAGGGT -TGTTAATTTGAACCTGTTTGATAGTGGAACCATCAATATTGTGTAGAGCGATATTAACGCCGTCAGATGGGTTGT -TAATAGACATGTCGTTGTTCAAAGTCCCTTTGCTGTTACCAAAGAAAACAGAACCGAAGGTCATTTTAGCCGTGC -TACCTGGATTCGGATTTGCTTTGCTGCAGTCAACGGTGATGCTGAAAGGTTTAGCTTTAGCGCCAACGGTGTCAT -TCAGTACGCCAGCATCGATTTCACCAACGGTTGCGGTTTGCAGCAGGATCAGACCATCCTTGTTACCGCCGTCAA -CGCGGGTTTCACAGGTGTTATCAACAACCAGACCACTGATATTTAACTGACCGCCGTCCATATCAGCAGAAGCAG -TACCTGCAACCATCGCCAGCATAAGACCAGACAGGGCAAAACCTAATTTTTTAGACATAAAAATCCTTTAATAAA -ATTCCATTAGTCAGACTACATGTTTGAAGAATGACTATTCATGACACAAATAGGAGAAACAAATGTTAGATATTA -ATGAGCAATGATATTTGTTACCCAAATTTACAACCATTGTTCATTAGGTCGCCTATTGTGCACTTTAGAAGCTTT -TGAACAAATTAAATTTACTTAATTCAAAATTAAGTAAAAATAAGTTCACAAGTGCAATTGGTTAGGGTATGGAGA -TGGGATTGATATTTATTTATAGGAAGTTATATTATTTCCGCAAAGAGATGTTTAAACTAAAATCGTAATTAAGGA -AAGAGATGAGATATGATTTTCAGAAAATATTTATATTCGCAATATAAATAAATTACCATTTGTTTAATTTGTCAA -ATGCTCTTGTATGTAAGATTTGACGCAACATCTCCCCATCAGGAAACACCAACTCCGGCGCGATTTCAAACAGCG -GCCACAGCATAAATCCACGATTCTTCATATCGTAGTGCGGAACGGTCAGGCGTTCAGTATTTATCACTTCATTAC -CAAACAGCATGATGTCGAGATCCAGCGTGCGTGGTCCCCAGCGTTCAGCTTTGCGGACGCGACCTTGCTGCAATT -CAATACGCTGTGTGTGATTGAGTAGCTCTTCAGGTGCAAGAGAGGTTTCCAGCGCCACGGCTGCGTTTAAGTAAT -CGGGTTGATCTTGCGGCCCCAGCGGTGGGGTGCGGTAAAACGAAGAAACGGTAAGAATGTGGCTTTCAGGGATAT -CGCCTAATGCTTTCAGGGCAGCATTGACCTGCTCCAGCGGAGAGGCCAGATTGCTGCCTATGGCAATATACGCCA -CTGTCATGCGGTACCCTCACGACGTGGTGCGCGTTTGCGTGGACGACGAGTACGACGACGCGGTGACGGTTCTTC -ATCCAGCTCGTTGAGCATCCCTTTTTGGTCTGGTGGCGCGGAAACCTGGAACTCACCCCACCATTTCACCAGACG -CTGCAGTTCAGCGTTACGCTCAACTTCAGCTCGCAAGGCCAACAGGTCATAAGCCGCACGGAACTTAGGATGCTC -CAGCAGTTTCCATGCGCGTTTACCCTGACGACGGGACATACGCAACTGCAACTGCCAGATATCGCGGGTTAATGT -CGTCAGACGTTTCGGGATTGCCAGTGAACGGCAGGCTTCGTCCAGCACGTCGTTCATCGCCAGCGCGAAAGCGTC -GTGATAGGTCAGGCCGCTTTCCTGGGCGATCTTCTGTGCCGTCTCCAGCAGTGGGTACCAGAACATGGCGGCAAA -CAGGAACGCCGGGTTCACGCGCATATCGTTATGGATACGCGTATCGGTATTCTTCAGCACCTGTTCAATGATCCG -CTCCATCGGGCTGTCGCCATTTTCCGTGAAGTAGCGGGTAATGGTCGGGAACAGCGGCTGGAACAGATGATATTC -ACACAACAGCTTATAGGTTTCGTAACCGTAGCCCGCTTGTAGCAGTTTAAGCGATTCTTCAAACAGGCGTGCCGG -TGGGATATCGTTCAGCAGGGTAGCGAGGCGAGGGATCGGTTCTGCGGTTTCCGGGCTGATGCGCATACCCAATTT -GGCGGCAAAACGTACCGCGCGCAGCATACGTACCGGATCTTCACGGTAGCGCGTTTCCGGGTTACCAATCAGACG -GATAACGCCGTCCTTCAGATCCTTCATGCCGCCAACGTAATCACGGACGGTAAAATCCGCTACGCTGTAATACAG -GCTGTTGATAGTGAAATCGCGGCGCTGGGCGTCTTCTTCGATGGAGCCGAAAATGTTGTCGCGCAGCAACATGCC -GTTTTGCCCGCGTTGGGAGGTCGTGCGGTCGCTGACGTTACCTTCGTGGTGTCCACGGAAGGTCGCAACTTCGAT -AATCTCCGGGCCAAACATTACATGAGCCAGACGGAAACGGCGACCCACCAGGCGGCAGTTACGGAACAGTTTGCG -CACCTGCTCAGGCGTGGCGTTAGTGGTTACGTCAAAATCTTTCGGCTTTTTGCCAAGTAACAGGTCGCGCACGCC -GCCGCCAACCAGCCAGGCTTCGTATCCCGCTTTATTGAGCCTGTACATTACCTTCAGGGCATTTTCACTGATATC -TTTGCGGGAAATAGCATGCTGCTCACGCGGGATCACCGTCACCTGTGGACGGGCGACTGCCTGTTCAGCCTCGCT -TTCCTCGCGGCTTAGCACCTTGCGGCAAAAATTAGCGACTCGGGTAAAAATAGTACACCTCGGTAGTGTCAAACA -TCATTCAGGACAAAAAAATAGCGGCTAATCATAGCTCAGCATGACGCATTTGAGAATGTTGAATTTACAATTGCC -GACTCGGGCACGGCGGTAAGCCGCCAGTTTTTGACGGCTGACTGAAGGATTTGCTCGACGCTGAAATCCTGCCAG -TGTGCTTCTGCCTGCTGCCCCAGAAATTGAAGTGCCGCGATTAGTACCGGGCGTGGATCGCCTTTCGGCAACGCA -GGCGCATGATTCTGCTTGGAAAGTTTAGCGCCTTGTGGATTAAGCGCCAGCGGCAGATGAATGTAATCTGGCACT -TTCCAGCCAAAAAGCTGGTACAGCGAGATTTGCCTTACTGTTGGTTCAATCAGATCAGCCCCACGCACTATTTCT -GTAACGCCCTGGAAATGATCATCAACCACAACAGCCAGGTTGTAGGCGAACAACCCATCACGGCGATGAATGATA -AAATCTTCCCGTGCCAGTTTTTCGTCGGCGTGAATAATGCCGCGCAGCTGGTCAGTAAATTGCGTGACCGGATGC -TGCTGGCGGATACGCACTGCGGCGTTGTCTGGTCCATGATGCAACACCCGGCAATGACCGTCGTAAATACCGCCA -ATGCTTTGAATACGCGCACGCGTACAGGTGCAGTAATAACTTAGTCCTTGTTCATGTAACCAGGCGAGTGCTTCA -CGATAGGCGTCGTGACGTTGCGATTGCCAGAGAACATCGCCGTCCCAGTGCAGACCGTAATGTTCCAGCTGGCGC -AGGATAGTTTCTGCGGCACCGGGAACTTCACGAGGCGGGTCGATATCTTCTATGCGTACCAGCCAGCGACCTTGC -CGGGCGCGAGCCTGCAAATAGCTGCCGAGCGCGGCGATCAGAGAGCCAAAATGAAGCTCGCCGGAAGGAGAGGGG -GCGAAGCGGCCAATATACTGTGTGTCTGTCATCTCTTTGAACAAAAAATAAGGCGGGAGCATTTCCCGCCTGTGG -TAAACGTGATGGAACGGCTGTAATTAGCCAGCCATCTGTTTTTCGCGAATTTCAGCCAGCGTTTTGCAGTCGATG -CACAGATCGGCTGTCGGGCGCGCTTCCAGACGGCGAATACCAATTTCAACACCGCAGGATTCGCAGTAGCCGAAA -TCTTCGTCTTCCACTTTTTTCAGCGTCTTCTCGATCTTTTTGATCAGCTTACGCTCGCGATCGCGGTTACGCAGT -TCGAGGCTGAACTCTTCTTCCTGGGCTGCACGGTCTACCGGGTCCGGGAAGTTGGCTGCTTCATCCTGCATATGT -GTAACGGTGCGATCGACTTCATCCCTGAGTTGATTACGCCATGCTTCCAGAATACGACGGAAGTGCGCCAGCTGG -GCTTCATTCATATACTCTTCGCCCGGCTTCTCCTGATATGGTTCCACCCCAGCGATGGCGAGAATACTCAGGGAC -GATGTTTTACGGTTTTGCCCTTCTTGCATGTTGCTTCTCCTTAACACGCACTATCGATCCCCATGTTCGGGGGAA -AAATGAGGCCGCTATAAATAGCAGATGCTTTTCCGGATAGCAATTATCTAAACGTAACACTTGACAACTGTGTGA -GGAAAAGCGTATTTGCGCACGCGACCAGAATGTAAATTAACCAGTTACTTACTTTACTACAATGTAACCGGCAGT -GATTTTTTAAGAGCCATGCCTTCAGCAGAAATTTCCGCTTTGTAAGCCAGAATTTCTACCCCCCTCTGTTGAGCT -TCTGACAATAGTTGCGCGTATTTCTCATCGATGTGGCGCGCGGGTGAAAACCGTGTAATGGCTGAATGCAGCACG -GCGAAAAAGATAACCGCACGCTGGCCTTCAGCCGCTACGCTCATCAACTCCCGAAGGTGTTTCTGACCTCGTTCA -GTGACCGCATCGGGAAAATATCCCTGTTCGTTCTCCGCTAACGTAACCGATTTCACTTCAATATAGCAGTCTGGA -CGCGAATCCGCCTGCAACATAAAGTCAATACGGCTGCGTTCTGCGCCGTATTTTACTTCGCTTTTCAGCGAGCTA -TAGCCTGACAGTTCTGAAATTGATTCATTAAGGATAGCCTCTTTCGTCAACCTGTTAGCCCAAAGCGTGTTGACG -CAAATAAATGCGCCGCTCTGGCTTTGAGTTAATTCCCAGGTGTGTGGGTATTTCCGTTTGGTGTTGTCTGAAGTC -GAATACCAGACGGTATCGCCAGGCGTTGCACAACCGGTCATCGCACCCGTATTCGGGCAGTGTAGCGTTAATTCG -CGACCATCGGGTGTGATCACATCGGCTAAAAAACGTTTGTAACGCTGAATTAGCGTCGCGCGCTGTAGAGGGGGA -GAAAATTCCATTGCGACAATCCTTGTTATTGCGTTAGCGCCCAGCGTTTTAGCGGCGTGTAGCGTGTGCGTCCAC -GGGCAAACGAGGAGGCGTAAAGGGTGAACTCCGTCACCGCATACGACCAGTTAAAACCTGGCGGCGGGATTGTCA -CCGCCTCGCTGGCGTCGCGCAATAAGGTAATATGTGGATGAAACGGACGATTGCTTTGAAAACAACCGCTGCGGG -CAGCCTGTGAACGGAGCATATTCGCCAGCTGGATTAAGCCGCGTGGCGGCTGACGCATCCCTAACCACACCACAC -GCGAACGCAGCCATTGTCCGGCGTCATCAAGCGTGAGTGTGAAACCAGGTTGACGAATCCGTCCGGCTAAAAGAG -AAAGCGCCTTCTCTTTCTCGGCGCTCACTTCGCCTAAAAATGCCAGAGTCAGATGCAAATTATCGGCGGCGACCG -GACGTCCCGCCTCAGGTGGGAAGTGTGTGGCGCGCCAATGGATAATCTGTTCGCGGATTTCTGCAGGTAAGTCGA -TAGCAAAGAACAGACGTTGCGGTTCAGACATGTGAGGCACTCGGTTATGAATTACCGCGATGCTACAATGTGGCG -CGAAGAATGTTAACCCTCTGGAGCGTTTTGTGTCGTCGTTGCCCGTTGCTGCCGTCTTACCTGAATTACTTACCG -CTCTCGATTGTGCGCCGCAGGTATTATTAAGTGCGCCGACCGGGGCCGGGAAATCAACCTGGCTGCCGCTGCAAC -TGCTGGCGCATCCCGGCATTAACGGGAAAATTATCCTGCTGGAGCCGCGTCGTCTGGCGGCGCGTAACGTCGCGC -AACGGCTGGCGGAGCTGCTTAACGAAAAGCCAGGCGATACCGTTGGCTACCGGATGCGTGCGCAAAACTGCGTCG -GGCCGAATACCCGCCTGGAAGTGGTTACCGAAGGCGTGCTGACGCGCATGATCCAGCGTGACCCGGAACTGAGCG -GTGTTGGACTGGTGATCCTTGATGAATTTCATGAGCGCAGCTTGCAGGCGGATTTGGCGTTGGCGCTGTTACTCG -ATGTGCAACAAGGTCTGCGTGATGACCTTAAACTGCTGATTATGTCGGCTACCCTGGACAACGACCGCTTGCAGC -AAATGCTGCCAGAAGCGCCTGTCGTCATCTCAGAAGGGCGCTCGTTTCCGGTTGAACGCCGTTATTTACCGCTGC -CCGCGCATCAGCGTTTTGACGATGCCGTTGCGGTAGCCACCGCTGAAATGCTGCGTCAGGAAAGCGGATCATTAC -TGTTATTTTTACCTGGCGTCGGAGAAATTCAGCGTGTGCAGGAACAACTGGCTTCGCGCATCGGCAGTGATGTAT -TGCTCTGCCCGCTGTATGGCGCGTTGTCGCTGAACGATCAGCGAAAAGCGATCCTCCCGGCACCGCAAGGGATGC -GCAAAGTGGTGCTGGCGACCAATATTGCTGAAACCAGTTTAACCATTGAAGGTATTCGTCTGGTGGTGGATTGTG -CCCAGGAGCGTGTGGCGCGTTTTGATCCGCGCACGGGGCTTACGCGACTGATTACTCAACGCGTTAGCCAGGCAT -CCATGACGCAGCGTGCCGGGCGCGCCGGGCGTCTGGAGCCGGGTATCAGCCTGCATTTAATCGCCAAAGAACAAG -CAGAACGCGCCGCGGCGCAAAGTGAACCGGAGATCTTACAAAGCGATCTTTCCGGTTTGCTGATGGAATTACTGC -AATGGGGATGCAGCGATCCGGCGCAGATGAGCTGGCTGGATCAACCGCCAGTAGTGAATCTACTGGCCGCGAAAC -GTCTGTTACAAATGCTGGGGGCACTGGAGGGTGAACGGCTTAGTGCGCAAGGGCAAAAAATGGCAGCGCTGGGTA -ACGATCCGCGTTTAGCGGCAATGCTGGTTAGCGCGAAGAACGACGACGAAGCTGCTACCGCGGCAAAAATTGCCG -CCATTCTCGAAGAGCCGCCACGGATGGGCAATAGTGACCTGGGCGTGGCGTTTTCGCGCAATCAACCAGCCTGGC -AGCAACGTAGTCAGCAACTGTTAAAACGCTTAAACGTACGTGGCGGTGAGGCAGACAGTTCGCTTATCGCGCCGC -TACTTGCCGGGGCGTTTGCCGATCGCATTGCTCGTCGCCGTGGGCAAGATGGACGCTATCAACTGGCAAACGGCA -TGGGAGCGATGCTCGATGCCAACGACGCGCTAAGCCGCCACGAATGGTTGATCGCACCGTTATTATTGCAGGGCA -GCGCCTCGCCGGATGCGCGGATTTTACTGGCGCTGCTGGTCGATATTGATGAGTTAGTACAACGCTGCCCGCAGC -TGGTACAGCAGTCTGACACTGTGGAGTGGGATGACGCGCAAGGTACGCTGAAAGCCTGGCGTCGGCTACAAATCG -GTCAGTTGACGGTGAAAGTGCAGCCGCTGGCGAAACCGTCAGAAGACGAGTTGCATCAGGCGATGCTTAATGGCA -TCCGTGATAAAGGTTTAAGCGTGCTCAACTGGACGGCGGAAGCGGAACAGCTACGCTTGCGTTTGTTATGCGCCG -CAAAGTGGTTGCCGGAATATGACTGGCCAGCGGTTGATGATGAAAGTTTATTGGCAGCGCTGGAAACGTGGCTGC -TGCCACATATGACTGGCGTACATTCACTACGCGGCCTGAAATCACTCGACATTTATCAGGCACTACGCGGATTAC -TTGATTGGGGAATGCAGCAACGTCTGGATAGTGAATTGCCTGCGCATTACACTGTGCCGACGGGAAGCCGGATCG -CCATTCGTTATCATGAAGATAACCCGCCCGCGCTGGCGGTGAGAATGCAAGAGATGTTTGGCGAGGCCACCAATC -CGACGATCGCCCAGGGGCGCGTGCCGCTGGTGCTGGAGTTGCTTTCACCTGCCCAAAGGCCATTACAAATCACAC -GAGATTTGAGCGACTTCTGGAAAGGAGCGTACCGTGAGGTGCAAAAAGAGATGAAAGGGCGTTATCCCAAACATG -TCTGGCCGGACGACCCGGCAAATACTGCACCGACGCGACGGACGAAAAAGTATTCGTAAGGTTGGTTTTCTCCCT -CTCCCTGTGGGAGAGGGCCGGGGTGAGGGCATCAGCGCGCACGTTCACCCTCACCCTAACCCTCTCCCTCAAGGG -AGAGGGGACCGATCGAGCACAAATTTTGAGAGATATCTTCTTCTGTCTTGTAACAGAAGAACAGAAAATCGGGCT -TTTGCGCCTGAATATTGCGGAGAAAAAGCATGGCCGGGAATGACCGCGAGCCAATTGGACGCAAAGGGAAACCGA -CGCGTCCGGTCAAACAAAAGGTAAGCCGTCGTCGTTACGAAGATGACGATGATTACGACGATTATGATGACTATG -AGGATGAAGAACCGATGCCGCGCAAAGGTAAGGGCAAAGGCAAAGGGCGTAAGCCTCGTGGCAAACGCGGCTGGC -TATGGCTACTGCTAAAACTGGCTATCGTTTTTGCCGTGCTGATCGCCATTTACGGCGTTTATCTCGATCAAAAAA -TTCGTAGCCGTATTGATGGCAAGGTCTGGCAACTGCCTGCGGCAGTTTATGGCCGAATGGTCAATCTTGAGCCAG -ACATGACCATCAGCAAGAACGAGATGGTGAAGCTGCTGGAGGCGACCCAGTATCGTCAGGTGTCGAAAATGACCC -GTCCTGGCGAATTTACCGTGCAGGCCAACAGCATTGAGATGATTCGCCGTCCGTTTGATTTCCCGGACAGTAAAG -AAGGACAGGTGCGCGCGCGTCTGACCTTTGATGGCGATCATCTGGCGACGATCGTCAATATGGAGAACAACCGTC -AGTTCGGTTTCTTCCGTCTTGATCCGCGTCTGATCACCATGATCTCTTCGCCAAACGGTGAGCAGCGTCTGTTTG -TGCCGCGCAGTGGTTTCCCGGATTTGCTGGTGGATACTTTGCTGGCGACAGAAGACCGTCATTTTTACGAGCATG -ATGGAATCAGTCTCTACTCAATCGGACGTGCGGTGCTGGCAAACCTGACCGCCGGACGCACGGTACAGGGTGCGA -GTACGCTGACGCAACAGCTGGTGAAAAACCTGTTCCTCTCCAGCGAGCGTTCTTACTGGCGTAAAGCGAACGAAG -CTTACATGGCGCTGATCATGGACGCGCGTTACAGCAAAGACCGTATTCTTGAGCTGTATATGAACGAGGTGTATC -TCGGTCAGAGCGGCGACAACGAAATCCGCGGCTTCCCGCTGGCAAGCTTGTATTACTTTGGTCGCCCGGTAGAAG -AGCTAAGCCTCGACCAGCAGGCGCTGTTAGTCGGTATGGTGAAAGGGGCGTCCATCTACAACCCGTGGCGTAACC -CAAAACTGGCGCTGGAGCGACGTAATCTGGTGCTGCGTCTGCTGCAACAGCAACAGATTATTGATCAAGAACTCT -ATGACATGTTGAGTGCCCGTCCGCTGGGGGTTCAGCCGCGCGGTGGGGTGATCTCTCCTCAGCCAGCCTTTATGC -AACTGGTGCGTCAGGAGCTGCAGGCAAAACTGGGCGATAAGGTAAAAGATCTCTCCGGCGTGAAGATCTTCACTA -CCTTTGACTCGGTGGCCCAGGACGCGGCAGAAAAAGCCGCCGTGGAAGGCATTCCGGCACTGAAGAAACAGCGTA -AGTTGAGCGATCTTGAAACTGCGATTGTGGTCGTCGACCGCTTTAGTGGTGAAGTTCGTGCGATGGTCGGAGGTT -CTGAGCCGCAGTTTGCGGGCTACAACCGTGCGATGCAGGCGCGTCGTTCGATTGGTTCCCTTGCAAAACCAGCGA -CTTATCTGACGGCCTTAAGCCAGCCGAAAATCTATCGTCTGAATACGTGGATTGCGGATGCGCCAATTGCGCTGC -GTCAGCCGAATGGCCAGGTCTGGTCACCGCAGAATGATGACCGTCGTTATAGCGAAAGCGGCAGAGTGATGCTGG -TGGATGCGTTGACCCGTTCGATGAACGTGCCGACGGTAAATCTGGGGATGGCGCTGGGGCTGCCTGCGGTTACGG -AGACCTGGATTAAACTGGGCGTACCGAAAGATCAGTTGCATCCGGTTCCGGCAATGCTGCTGGGGGCGTTGAACT -TAACGCCAATCGAAGTGGCGCAGGCATTCCAGACCATCGCCAGCGGTGGTAACCGTGCACCGCTTTCTGCGCTGC -GTTCGGTAATCGCGGAAGATGGCAAAGTGCTGTATCAGAGCTTCCCGCAGGCGGAACGCGCTGTTCCGGCGCAGG -CGGCGTATCTGACACTATGGACCATGCAGCAGGTGGTACAACGCGGTACGGGTCGTCAGCTTGGGGCGAAATACC -CGAACCTGCATCTGGCAGGGAAAACAGGGACTACCAACAATAACGTAGATACCTGGTTTGCGGGCATTGACGGCA -GCACGGTGACCATCACCTGGGTCGGCCGTGATAACAACCAGCCGACCAAACTGTATGGTGCCAGCGGGGCAATGT -CGATTTATCAGCGTTATCTGGCTAACCAGACGCCAACGCCGCTGAATCTTGTTCCGCCAGAAGATATTGCAGATA -TGGGCGTGGACTACGACGGCAACTTTGTTTGCAGCGGTGGCATGCGTATCTTGCCGGTCTGGACCAGCGATCCGC -AATCGCTGTGCCAGCAGAGCGAGATGCAGCAGCAGCCGTCAGGCAATCCGTTTGATCAGTCTTCTCAGCCGCAGC -AACAGCCGCAACAGCAACCTGCTCAGCAAGAGCAGAAAGACAGCGACGGTGTAGCCGGTTGGATCAAGGATATGT -TTGGTAGTAATTAACATCTAAGCGTGAAATACCGGATGGCGAGTTGCCATCCGGTAAAATAACATCCCATCTAAG -ATATTAACCCTTTCTTTTCATCTGGTTGTTTATTAACCCTTCAGGAACGCTCAGATTGCGTACCGCTTGCGAACC -CGCCAGCGTTTCGAATATTATCTTATCTTTATAATAATCATTCTCGTTTACGTTATCATTCACTTTACATCAGAG -ATATACCAATGGCGCGTTCCAAAACTGCTCAGCCAAAACACTCACTGCGTAAAATCGCAGTTGTAGTAGCCACAG -CGGTTAGCGGCATGTCTGTTTATGCACAGGCAGCGGTTGAACCGAAAGAAGACACTATCACCGTTACCGCTGCAC -CTGCGCCGCAAGAAAGCGCATGGGGGCCTGCTGCAACTATTGCGGCGCGACAGTCTGCTACCGGCACTAAAACCG -ATACGCCGATTCAAAAAGTGCCACAGTCTATTTCTGTTGTGACCGCCGAAGAGATGGCGCTGCATCAGCCGAAGT -CGGTAAAAGAAGCGCTTAGCTACACGCCGGGTGTCTCTGTTGGTACGCGTGGCGCATCCAACACCTATGACCACC -TGATCATTCGCGGCTTTGCGGCAGAAGGCCAAAGCCAGAATAACTATCTGAATGGCCTGAAGTTGCAGGGCAACT -TCTATAACGATGCGGTCATTGACCCGTATATGCTGGAACGCGCTGAAATTATGCGTGGCCCGGTTTCCGTGCTTT -ACGGTAAAAGCAGTCCTGGCGGCCTGTTGAATATGGTCAGCAAGCGTCCGACCACCGAACCGCTGAAAGAAGTTC -AGTTTAAAGCCGGTACTGACAGCCTGTTCCAGACTGGTTTTGACTTTAGCGATTCGTTGGATGATGACGGTGTTT -ACTCTTATCGCCTGACCGGTCTTGCGCGTTCTGCCAATGCCCAGCAGAAAGGGTCAGAAGAGCAGCGTTATGCTA -TTGCACCGGCGTTCACCTGGCGTCCGGATGATAAAACCAATTTTACCTTCCTTTCTTACTTCCAGAACGAGCCGG -AAACCGGTTATTACGGCTGGTTGCCGAAAGAGGGAACCGTTGAGCCGCTGCCGAACGGTAAGCGTCTGCCGACAG -ACTTTAATGAAGGGGCGAAGAACAACACCTATTCTCGTAATGAGAAGATGGTCGGCTACAGCTTCGATCACGAAT -TTAACGACACCTTTACTGTGCGTCAGAACCTGCGCTTTGCTGAAAACAAAACCTCGCAAAACAGCGTTTATGGTT -ACGGCGTCTGCTCCGATCCGGCGAATGCTTACAGCAAACAGTGTGCGGCATTAGCGCCAGCGGATAAAGGCCATT -ATCTGGCACGTAAATACGTCGTTGATGATGAGAAGCTGCAAAACTTCTCCGTTGATACCCAGTTGCAGAGCAAGT -TTGCCACTGGCGATATCGACCACACCCTGCTGACCGGTGTCGACTTTATGCGTATGCGTAATGACATCAACGCCT -GGTTTGGTTACGACGACTCTGTGCCACTGCTCAATCTGTACAATCCGGTGAATACCGATTTCGACTTCAATGCCA -AAGATCCGGCAAACTCCGGCCCTTACCGCATTCTGAATAAACAGAAACAAACGGGCGTTTATGTTCAGGATCAGG -CGCAGTGGGATAAAGTGCTGGTCACCCTAGGCGGTCGTTATGACTGGGCAGATCAAGAATCTCTTAACCGCGTTG -CCGGGACGACCGATAAACGTGATGACAAACAGTTTACCTGGCGTGGTGGTGTTAACTACCTGTTTGATAATGGTG -TAACACCTTACTTCAGCTATAGCGAATCGTTTGAACCTTCTTCGCAAGTTGGGAAGGATGGTAATATTTTCGCAC -CGTCTAAAGGTAAGCAGTATGAAGTCGGCGTGAAATATGTACCGGAAGATCGTCCGATTGTAGTTACTGGTGCCG -TGTATAATCTCACTAAAACCAACAACCTGATGGCGGACCCTGAGGGTTCCTTCTTCTCGGTTGAAGGTGGCGAGA -TCCGCGCACGTGGCGTAGAAATCGAAGCGAAAGCGGCGCTGTCGGCGAGTGTTAACGTAGTCGGTTCTTATACTT -ACACCGATGCGGAATACACCACCGATACTACCTATAAAGGCAATACGCCTGCACAGGTGCCAAAACACATGGCTT -CGTTGTGGGCTGACTACACCTTCTTTGACGGTCCGCTTTCAGGTCTGACGCTGGGCACCGGTGGTCGTTATACTG -GCTCCAGTTATGGTGATCCGGCTAACTCCTTTAAAGTGGGAAGTTATACGGTCGTGGATGCGTTAGTACGTTATG -ATCTGGCGCGAGTCGGCATGGCTGGCTCCAACGTGGCGCTGCATGTTAACAACCTGTTCGATCGTGAATACGTCG -CCAGCTGCTTTAACACTTATGGCTGCTTCTGGGGCGCAGAACGTCAGGTCGTTGCAACCGCAACCTTCCGTTTCT -AATTTCTCTTTTGGGGCACGGATTTCCGTGCCCATTTCACAAGTTGGCTGTTATGCAGGAATACACGAATCATTC -CGATACCACTTTTGCACTGCGTAATATCTCCTTTCGTGTGCCCGGGCGCACGCTTTTGCATCCGCTGTCGTTAAC -CTTTCCTGCCGGGAAAGTGACCGGTCTGATTGGTCACAACGGTTCTGGTAAATCCACTCTGCTCAAAATGCTTGG -CCGTCATCAGCCGCCGTCGGAAGGGGAGATTCTTCTTGATGCCCAACCGCTGGAAAGCTGGAGCAGCAAAGCGTT -TGCCCGCAAAGTGGCTTATTTGCCGCAGCAGCTTCCTCCGGCAGAAGGGATGACCGTGCGTGAACTGGTGGCGAT -TGGTCGTTACCCGTGGCATGGCGCGCTGGGGCGCTTTGGGGCGGCAGATCGCGAAAAAGTCGAGGAAGCTATCTC -GCTGGTTGGCTTAAAACCGCTGGCGCATCGGCTGGTCGATAGTCTCTCTGGCGGCGAACGTCAGCGGGCGTGGAT -CGCCATGCTGGTGGCGCAGGATAGCCGTTGTCTGTTGCTCGACGAACCGACCTCGGCGCTGGATATCGCCCACCA -GGTTGATGTGCTGTCGCTGGTGCACCGTTTAAGTCAGGAGCGTGGCCTGACGGTCATTGCCGTGTTGCACGATAT -CAATATGGCGGCACGCTACTGTGATTATCTGGTCGCCCTGCGCGGCGGTGAAATGATTGCTCAGGGAACGCCTGC -GGAAATTATGCGCGGCGAAACCCTCGAAATGATTTATGGCATCCCGATGGGTATTTTGCCGCATCCGGCGGGTGC -TGCACCTGTGAGTTTTGTTTATTGATGAGCGGCTTACCTCTTATTTCGCGCCGTCGACTGTTAACGGCGATGGCG -CTTTCTCCGTTGTTATGGCAGATGAATACCGCCCACGCGGCGGCTATTGATCCCAATCGTATTGTGGCGCTGGAG -TGGTTGCCGGTGGAATTACTGCTGGCGCTCGGCATCGTGCCTTACGGCGTGGCGGATACCATCAACTATCGCCTG -TGGGTCAGCGAACCACCATTGCCGGACTCAGTGATCGACGTCGGTTTGCGCACAGAACCTAACCTTGAACTGCTG -ACCGAAATGAAACCATCGTTTATGGTCTGGTCGGCAGGATATGGCCCTTCACCAGAAATGCTGGCTCGTATTGCG -CCGGGTCGCGGATTTAACTTCAGTGACGGCAAACAGCCGTTGGCGATGGCGCGTAAATCGCTGACGGAAATGGCA -GATTTACTTAACCTGCAAAGCGCAGCGGAAACGCATTTAGCGCAATATGAAGACTTTATCCGCAGCATGAAACCC -CGCTTTGTGAAGCGTGGTGCGCGTCCGTTATTGCTGACGACGCTTATCGATCCGCGCCATATGCTGGTCTTCGGT -CCAAACAGCTTGTTCCAGGAAATTCTTGATGAGTACGGCATCCCAAATGCCTGGCAAGGGGAAACCAACTTCTGG -GGCAGTACCGCCGTCAGTATCGATCGTCTGGCGGCGTATAAAGACGTTGATGTGCTCTGTTTTGATCACGACAAC -AGCAAAGACATGGATGCGCTAATGGCAACGCCGCTGTGGCAGGCCATGCCGTTTGTCCGCGCCGGACGCTTTCAG -CGCGTACCTGCAGTCTGGTTTTATGGTGCGACGCTCTCGGCAATGCACTTTGTGCGCGTTCTGGATAACGCCATC -GGAGGTAAAGCGTGAGTAAACGAATTGCGCTTTTCCCGGCGTTATTGCTGGCGCTGTTAGTGATTGTCGCTACGG -CGCTCACCTGGATGAACTTCTCGCAGGCGCTGCCGCGTAGCCAGTGGGCGCAGGCTGCCTGGTCGCCGGATATTG -ACGTCATCGAGCAGATGATTTTTCACTACAGCTTGTTGCCGCGTCTGGCGATTTCGCTGCTGGTGGGCGCGGGTC -TGGGGCTGGTGGGCGTGCTGTTTCAGCAAGTGCTGCGTAACCCGCTGGCGGAGCCGACGACGCTTGGCGTTGCTA -CAGGCGCGCAACTGGGGATTACCGTCACTACGCTCTGGGCGATCCCTGGTGCGATGGCGAGCCAGTTTGCTGCGC -AGGCAGGGGCTTGTGTTGTTGGCTTAATTGTCTTTGGCGTCGCGTGGGGGAAACGGCTGTCGCCGGTAACGCTGA -TTCTCGCGGGGTTGGTAGTGAGCCTTTATTGCGGCGCAATCAATCAGTTACTGGTTATCTTCCATCATGACCAAC -TGCAAAGCATGTTTCTGTGGAGCACTGGAACGCTGACGCAAACCGACTGGGGCGGCGTTGAGCGTTTATGGCCGC -AGCTGCTGGGCGGTGTGATGCTGACGTTGCTGCTACTTCGTCCGTTAACCCTGATGGGGCTTGATGATGGCGTGG -CGCGCAATCTCGGGCTGGCCTTGTCGCTTGCGCGTCTGGCAGCGCTGTCGCTGGCGATTGTCATCAGTGCGCTGC -TGGTGAACGCTGTGGGGATTATCGGCTTTATCGGGTTGTTCGCGCCGCTGCTGGCAAAAATGCTGGGGGCGCGGC -GTCTGCTGCCACGACTGATGCTGGCGTCGTTGATTGGTGCGCTGATCCTCTGGCTTTCCGATCAAATCATCCTCT -GGCTGACTCGCGTGTGGATGGAAGTGTCCACCGGTTCGGTCACTGCGTTGATCGGTGCGCCGCTGCTACTGTGGC -TGTTGCCGCGTTTACGCAGCATTAGCGCGCCGGATATGAAGGTCAACGATCGTGTCGCGGCTGAACGCCAACATG -TGCTGGCGTTTGCCCTCGCGGGCGGCGTGCTGCTGTTGATGGCTGTGGTGGTGGCGCTGTCGTTTGGTCGTGATG -CGCACGGCTGGACGTGGGCGAGCGGGGCGTTGCTCGAGGATTTAATGCCCTGGCGCTGGCCGCGAATTATGGCGG -CGCTGTTTGCGGGCGTCATGCTGGCGGTGGCGGGCTGTATTATTCAGCGACTGACCGGAAACCCGATGGCAAGCC -CGGAAGTGCTGGGGATTAGCTCCGGCGCGGCGTTTGGCGTGGTGTTGATGCTGTTTCTGGTGCCGGGTAATGCCT -TTGGCTGGCTGTTACCTGCAGGCAGTCTCGGCGCGGCGGTGACGCTGTTGATCATTATGATCGCCGCCGGCCGCG -GTGGATTTTCCCCACACCGTATGTTACTGGCGGGGATGGCGTTAAGCACCGCGTTCACCATGCTTTTGATGATGT -TGCAGGCAAGTGGTGACCCGCGAATGGCGCAAGTGCTGACCTGGATTTCCGGTTCGACCTACAACGCGACCGATG -CGCAGGTCTGGCGCACCGGAATTGTGATGGTGATTTTGCTGGCGATTACCCCGCTGTGCCGCCGCTGGCTGACCA -TTTTACCGCTGGGTGGTGATACCGCCCGAGCCGTAGGAATGGCGCTGACGCCGACGCGAATTGCGCTGCTGCTGT -TAGCGGCTTGCCTGACGGCGACCGCGACGATGACTATTGGACCGTTGAGTTTTGTTGGTTTAATGGCACCGCATA -TTGCGCGGATGATGGGCTTTCGACGGACGATGCCACACATCGTAATTTCGGCGCTGGTGGGTGGTTTACTGCTGG -TGTTCGCTGACTGGTGTGGGCGGATGGTGCTGTTTCCATTCCAGATCCCGGCGGGGCTGCTGTCAACCTTTATCG -GCGCGCCATATTTTATCTATTTGTTGAGAAAGCAGAGCCGTTAATTTTTCCATATAACGGCCCTGTACGCCTGGA -CGGATAAAGCGTTTACGCGACAACGGATGCCCGATGCGACGCTGGCGCGTCTTATCGGGCCTACAAACGGCCCCG -AATCGTAGGTCGGATAAGGCGTTCACGCCGCATCCGACAAACCATGCTGGATCACAACTTCGCAAACACCCGACG -TGCAGCATCGATGGTGTTATTGATATCTTCCATGCTGTGCGCCACGGACATAAAGCCCGCTTCAAACGCTGACGG -TGCCAGGTAAACACCTTCGTCCAGCATCATATGGAAGAAACGCTTAAAGCGTTCCACGTCACAGGCCATCACATC -CTGATAGCACGTCACGGACTCGGCGTCGGTAAAGAAAATACCGAACATGCCGCCAACGTGGTTAACGACCAGCGG -AATTCCGGCTTCTTCTGCCGCTTCCAGCAGACCTTCTGCCAGACGTGTTGTCAGCTCATCCAGCGTTTCGTGAAC -GCCCGGCTGCGCGACTTCATTCAGACAGGCGAAACCCGCTGCCATCGCAATCGGGTTACCGGAAAGCGTACCCGC -CTGATAGACCGGACCCGTCGGGGCCAGCGCATCCATTACATCACGACGACCACCGAATGCGCCTACCGGCATTCC -ACCGCCGATGATTTTGCCGAGGCAGGTTAAATCTGGCACTACGCCGTAATAATCCTGTGCGCCAGCTAGCGCTAC -GCGGAAACCGGTCATCACTTCATCGATGATCAGCAACGCGCCAAATTCGTCGCACAGCGCGCGCAGACCTGGCAG -GAACTCTGGCAGCGGCGGAACACAGTTCATATTGCCTGCCACCGGCTCGACGATAATACAGGCAATCTCTTGCGG -GTATTGCTCAAATGCGGCGCGTACAGAAGCCAGATCATTATAAGTACAGGTTAAGGTATATTTGGCGAAATCTGC -CGGAACGCCCGGCGAGTTTGGCTGGCCTAACGTGAGTGCGCCAGAACCGGCTTTCACCAGCAGGCAGTCAGCGTG -ACCATGGTAACACCCTTCAAATTTAATAATTTTGTCGCGACCGGTAAAACCACGGGCCAGGCGGATGGCGCTCAT -GGTCGCTTCAGTGCCGGAGTTCACCATGCGCACCATATCCATGGTCGGGACCAGTTCGGTCACCAGTTGCGCCAT -TTTCACTTCCATTTCGGTTGGTGCACCAAAGCTTAAACCACGCTCGGCGGCTTCAATCACGGCATTGCGGATTGC -CGGATGGTTATGGCCCAGCACCATCGGCCCCCAGGAACCGACATAATCGATATAGGCTTTGCCATCAACATCGTA -CAGATAAGCGCCGTCCGCTTTTTCGATAAACAGTGGAGTGCCGCCCACGCCAGTAAAGGCGCGAACAGGGGAGTT -CACACCGCCAGGGATCAGCTCGCGCGCTGCGCTGTAAAGATTTTCAGACTTACTCATGGAGGGTTCCTGATTCGT -AGAAAAAGTGAATGGCTGCTATTCTATGTTATTCATAACAAGTTAAATACTCGTCAAACATCAGGCTGCTTGTAC -TGGTGCAATCCTGATTTCTTAGAGTATAAAAGTTTTGTGCATTTGAAACATTACGCTTTGCAAAGGATTTTCATG -GAACGTGCGAGTAAAATGCCGTCATCTTATTTGTATGACCAATAAGTGATCATTGGATGAAAACTGATACTCCCT -CTTTAGAAACACCGCAGGCCGCGCGCCTGCGACGCAGACAACTGATTCGCCAACTTCTTGAGCGCGATAAAACCC -CGTTAGCCATTTTGTTTATGGCGGCAGTCGTCGGCACGCTTGTTGGGCTGGCAGCGGTTGCTTTTGACAAAGGTG -TCGCCTGGTTGCAGAACCAACGTATGGGGGCGCTGGTACATACTGCTGATAATTATCCGCTTCTGTTAACCGTCG -CTTTTCTCTGTTCGGCGGTGCTGGCGATGTTTGGCTACTTTTTGGTGCGCAAATACGCGCCGGAAGCAGGTGGTT -CGGGGATCCCGGAAATTGAAGGGGCGCTGGAAGATCAACGTCCCGTTCGCTGGTGGCGTGTATTGCCGGTGAAGT -TCTTTGGCGGGCTGGGGACACTCGGCGGAGGCATGGTGTTGGGGCGCGAAGGGCCAACCGTGCAGATCGGCGGTA -ACATTGGCCGTATGGTGCTTGATATTTTCCGCCTGAAAGGTGACGAAGCTCGCCATACGCTGCTGGCAACCGGTG -CTGCTGCGGGGCTGGCTGCGGCCTTTAACGCGCCGCTGGCGGGTATTTTGTTTATTATCGAAGAGATGCGTCCGC -AGTTTCGCTATACGTTAATTTCGATTAAAGCGGTATTTATTGGTGTCATTATGTCGACCATTATGTACCGGATTT -TTAATCATGAAGTTGCGTTGATTGACGTCGGTAAACTTTCTGATGCGCCGCTTAATACGCTGTGGCTTTATCTGA -TCCTCGGTATTATTTTTGGCATTTTCGGCCCTATTTTTAATAAATGGGTGCTGGGGATGCAGGATTTGCTGCACC -GTGTGCACGGCGGCAATATTACCAAATGGGTGCTAATGGGCGGTGCGATTGGCGGTCTGTGTGGATTGCTGGGGT -TTGTGGCACCAGCAACGTCGGGCGGCGGTTTTAACCTGATTCCTATCGCTACCGCGGGGAATTTCAGCATGGGAA -TGCTGGTGTTTATCTTCGTCGCGCGGGTCATTACCACCTTACTCTGCTTCTCTTCCGGCGCGCCGGGCGGTATTT -TTGCCCCGATGCTGGCGCTGGGTACTGTGCTGGGAACCGCTTTCGGAATGGTTGCCGTTGAGCTGTTTCCGCAAT -ATCACCTTGAGGCGGGGACGTTTGCTATTGCCGGAATGGGGGCATTACTGGCGGCATCTATTCGCGCGCCGTTAA -CGGGGATCATTCTGGTTCTGGAGATGACCGATAACTACCAGCTCATTTTGCCAATGATTATTACCGGTCTTGGCG -CAACACTATTAGCGCAATTTACCGGCGGGAAACCGCTATACTCGGCGATTCTTGCGCGCACGCTGGCAAAACAGG -AAGCTGAGCAACTGGCGCGAAGCAAGGCCGCATCAGCCAGCGAGAATACTTGAACGAAATACCAGGGTATTAGAT -AATGGCGATTATTATTGGGTTAGAATTTGCCCAATTGCCGATGTCGTTTGGAGCAAAATATGAGTGATGACGTAG -CACTGCCGCTGGAGTTTACCGACGCAGCAGCCAACAAAGTTAAAAGCCTGATCGCTGACGAAGATAACCCGAATC -TGAAATTACGCGTGTATATCACCGGTGGCGGTTGCAGCGGCTTCCAGTATGGTTTCACCTTTGATGATCAGGTGA -ACGAAGGCGATATGACCATCGAAAAACAGGGCGTTGGCCTGGTGGTTGATCCGATGAGCCTGCAATATCTGGTCG -GCGGTTCCGTTGATTATACCGAAGGTCTGGAAGGTTCTCGTTTCATCGTGACCAACCCGAACGCGAAAAGCACCT -GCGGTTGCGGTTCTTCCTTTAGTATCTAATCTGTTGTTCATGTGCCGGATAAACTATCCGGCACATCTTCTCTCT -TCAACGCCCATTCTCATCCAGCGCAAACGTCGGTAGCTTAAGATGCCAACGAATAGCCGCCAGCCGAATCAATAG -CGTCACGACCATGCCCATCATACTGGCTGTTTCCAGTGGTACGGAAAATGTGTAATAAGCCGTAGCGTGGACAAT -ACCGCCGATAATACAGGCAGTTGCGTAGATTTCTGTACGTAAAATCATGGGGATTTCGCGGGCCAGAACATCACG -AATGATCCCGCCGCCAACGCCAGTAATGACGCCCATACAAACCGCGATTAACGGACCGGCTTCCGCATTAAAGGC -TTTATTCACGCCAATGCCGACAAACACCGCCAGACCAACGGCGTCCAGCACCGGCAACATCCATTTTGGTAAGCG -TCTTGGCTGGCGCACCAGCACGATGGTCAGCATGCTGGTGACCATTGCAACGACCAGATCGGTGGGATCTTTCAC -CCAAAATACCGGGCCGTGATCCAGCGCCATGTCGCGAATTGTCCCGCCGCCTACTGCGGTTACCACGCCCAGTAC -CAGAACACCAAAAGGGTCCATACGCAATTTTCCGGCTAACAAAACGCCGGAGATGGCAAATACCGCTGTGCCGAC -TATATCCAGCCAATAGACGAGCATTGTTCAATCCCCACTGAGCACCTGAAAAGGTCAGGCGCTAATCTACCTGTG -AAAGCGCATTACAGAGCTGTTGTGCAGCGAGGATAATACGTGGGCTTGCACGTTCAAACCAGTCACTCGTGAGAG -GAATAACGGGAATTTTGAGCTGTTCACCCCAGTATTGTTTGATTTTAGGAATTTGGTCCGGTCCGCCTGTAATGA -CAATCGCCTGTGGCGAGCGTGCTAACACCTGTTCGCGGCTAACTTGCGGCCAGGGAACCCGGCTGTCTTTAAAGA -TGTTTTCTCCGCCACAAACTTCGAGTACCTGGTTCTGAATCGACTCTTTTCCACTGGTAAATGGCGGATTAATGC -CGAATTGCAGAAAAACACGTTTTTTAGGTTTATCAGCATATTGCGCTTTCAATTGCGCGTACTGATCCAGCAGGG -ATTGCGCGGCTTGTTCGGCCTTGTCTGGTTGCGGACTCCAGGGGGCCAGTTGACGTAACGCATTGGCAATTTGTT -CAATGCTTGTCGCATCGACCCACATCACTTTTATTCCCAGCGAAGCCAGCTGGTCAACCTGCCGCTCGGCATTAC -CTCCACGCCAGGCAATCACCAGATCGGGTTTCAGCGCGACAATGCGTTCCAGATTCATCCCCTGCCAGGTGGAAA -CCTGCTCAATCTTTTGCGCTTGTGGAGGATAGTCGGAATAGCTGCTGACCCCAACCGGCGTGATCCCGGCGGCAA -AGGCAAGTTCAGTGTTGGCGGGAGAAAGCGTGATGACGCGCGGCGCGGCGTTGAGCCACAGTGGCGCAAGAAAAG -ACAGGGCGACCAGCGCCCTGAACAGTGACTTAGCCATGTGCAAGTTTCTGCACCAGTGACTCAACCATCAGGCTG -GACTGTTTAGCGGCAACAGCCAGGAACTCATCGAAGCTAAGATGAGACTGTTGATCGGCCACGTCGGAGATGGCG -CGTACGACAACAAACGGGACGTTGAAATTGTGGCAGACATGGGCGATTGCCGTCGCTTCCATCTCTACAGCAATG -GCCTGTGGGAAGTTGTGGCGGATTTTCGCCAGACCAACAGAACCGTTGATGAAAGCGTCGCCGCTAACAATCAGG -CCACGTACAGCGTTAAGATTCAGTTCGGCAATGCAGGCCTCAGCGGCAGCGATCAGTTTATCGTCAGCTTTAAAG -CCTGCCGGACAGCCTGGTAACTGACCGTATTCATAACCAAATGCCGTGACATCCGCGTCGTGATAACGTGCTTCG -TCCGAGACAACGATATCGCCCACTTTCAACGTTGGTGCCAGGCCACCGGCAGAACCGGTGTTAATAATCACATCT -GGCTTGCAGTGTTCCAACAGCAAAGTGGCACCCAGCGCCGCAGCGACTTTACCGATGCCCGATTTCAGAAGCGCA -ACCTCGGTTCCATTCAGTTGGCCGGTATAGATTTCGCAACCGCCGAGACTGATAGTTTGACGGTTTTCGATTTTG -TCACGCAGCAGCGTAACTTCTTCTTCCATTGCACCAATGATGCCGATTTTCATAGATTTACTCGCGATAAGCCCG -ATTTGAAGGCATAGTTTACCATGCGCTTACGGGGAAGCGTATTTCTCACGCGGGAGAGGACATGGCACAGATTGA -TTTCCGAAAAAAAATAAACTGGCATCGTCGTTACCGTTCACCGCAGGGCGTTAAAACCGAACATGAGATCCTGCG -GATCTTCGAGAGCGATCGCGGGCGTATCATCAACTCTCCGGCAATTCGTCGTCTGCAACAAAAGACCCAGGTTTT -TCCACTGGAGCGCAATGCCGCCGTGCGCACGCGTCTTACCCACTCGATGGAAGTCCAGCAGGTGGGGCGCTACAT -CGCCAAAGAAATTTTAAGCCGTCTGAAAGAGCTTAAATTACTGGAAGCATACGGCCTGGATGAACTGACCGGTCC -CTTTGAAAGCATTGTTGAGATGTCATGCCTGATGCACGATATCGGCAATCCGCCGTTTGGTCATTTTGGCGAAGC -GGCGATAAATGACTGGTTTCGCCAACGTTTGCACCCGGAAGATGCCGAAAGCCAGCCTCTGACTGACGATCGCTG -CAGCGTGGCGGCACTACGTTTACGGGACGGGGAAGAACCGCTTAACGAGCTGCGGCGCAAGATTCGTCAGGACTT -ATGTCATTTTGAGGGGAATGCACAAGGCATTCGCCTGGTGCATACATTGATGCGGATGAATCTCACCTGGGCACA -GGTTGGCGGTATTTTAAAATATACCCGTCCGGCGTGGTGGCGTGGCGAAACGCCTGAGACACATCACTATTTAAT -GAAAAAGCCGGGTTATTATCTTTCTGAAGAAGCCTATATTGCCCGGTTGCGTAAAGAACTTAATTTGGCGCTTTA -CAGTCGTTTTCCATTAACGTGGATTATGGAAGCTGCCGACGACATCTCCTATTGTGTGGCAGACCTTGAAGATGC -GGTAGAGAAAAGAATATTTACCGTTGAGCAGCTTTATCATCATTTGCACGAAGCGTGGGGCCAGCATGAGAAAGG -TTCGCTCTTTTCGCTGGTGGTTGAAAATGCCTGGGAAAAATCACGCTCAAATAGTTTAAGCCGCAGTACGGAAGA -TCAGTTTTTTATGTATTTACGGGTAAACACCCTAAATAAACTGGTACCCTACGCGGCACAACGATTTATTGATAA -TCTGCCTGCGATTTTCGCCGGAACGTTTAATCATGCATTATTGGAAGATGCCAGCGAATGCAGCGATCTTCTTAA -GCTATATAAAAATGTCGCTGTAAAACATGTGTTTAGCCATCCAGATGTCGAGCGGCTTGAATTGCAGGGCTATCG -GGTCATTAGCGGATTATTAGAGATTTATCGTCCTTTATTAAGCCTGTCGTTATCAGACTTTACTGAACTGGTAGA -AAAAGAACGGGTGAAACGTTTCCCTATTGAATCGCGCTTATTCCACAAACTCTCGACGCGCCATCGGCTGGCCTA -TGTCGAGGCTGTCAGTAAATTACCGTCAGATTCTCCTGAGTTTCCGCTATGGGAATATTATTACCGTTGCCGCCT -GCTGCAGGATTATATCAGCGGTATGACCGACCTCTATGCGTGGGATGAATACCGACGTCTGATGGCCGTAGAACA -ATAACCAGGCTTTTGTAAAGACGAACAATAAATTTTTACCTTTTGCAGAAACTTTAGTTCGGAACTTCAGGCTAT -AAAACGAATCTGAAGAACACAGCAATTTTGCGTTATCTGTTAATCGAGACTGAAATACATGAAAAAAACCACATT -AGCACTGAGTGCACTGGCTCTGAGTTTAGGTTTGGCGTTATCTCCGCTCTCTGCAACGGCGGCTGAGACTTCTTC -AGCAACGACAGCCCAGCAGATGCCAAGCCTTGCACCGATGCTCGAAAAGGTGATGCCTTCAGTGGTCAGCATTAA -CGTAGAAGGTAGCACAACCGTTAATACGCCGCGTATGCCGCGTAATTTCCAGCAGTTCTTCGGTGATGATTCTCC -GTTCTGCCAGGAAGGTTCTCCGTTCCAGAGCTCTCCGTTCTGCCAGGGTGGCCAGGGCGGTAATGGTGGCGGCCA -GCAACAGAAATTCATGGCGCTGGGTTCCGGCGTCATCATTGATGCCGATAAAGGCTATGTCGTCACCAACAACCA -CGTTGTTGATAACGCGACGGTCATTAAAGTTCAACTGAGCGATGGCCGTAAGTTCGACGCGAAGATGGTTGGCAA -AGATCCGCGCTCTGATATCGCGCTGATCCAAATCCAGAACCCGAAAAACCTGACCGCAATTAAGATGGCGGATTC -TGATGCACTGCGCGTGGGTGATTACACCGTAGCGATTGGTAACCCGTTTGGTCTGGGCGAGACGGTAACTTCCGG -GATTGTCTCTGCGCTGGGGCGTAGCGGCCTGAATGCCGAAAACTACGAAAACTTCATCCAGACCGATGCAGCGAT -CAACCGTGGTAACTCCGGTGGTGCGCTGGTTAACCTGAACGGCGAACTGATCGGTATCAACACCGCGATCCTCGC -ACCGGACGGCGGCAACATCGGTATCGGTTTTGCTATCCCGAGTAACATGGTGAAAAACCTGACCTCGCAGATGGT -GGAATACGGCCAGGTGAAACGCGGTGAGCTGGGTATTATGGGGACTGAGCTGAACTCCGAACTGGCGAAAGCGAT -GAAAGTTGACGCCCAGCGCGGTGCTTTCGTAAGCCAGGTTCTGCCTAATTCCTCCGCTGCAAAAGCGGGCATTAA -AGCGGGTGATGTGATCACCTCACTGAACGGTAAGCCGATCAGCAGCTTTGCCGCACTGCGTGCTCAGGTGGGTAC -TATGCCGGTAGGCAGCAAACTGACCCTGGGCTTACTGCGCGACGGTAAGCAGGTTAACGTGAACCTGGAACTGCA -GCAGAGCAGCCAGAATCAGGTTGATTCCAGCTCCATCTTCAACGGCATTGAAGGCGCTGAGATGAGCAACAAAGG -CAAAGATCAGGGCGTGGTAGTGAACAACGTGAAAACGGGCACTCCGGCTGCGCAGATCGGCCTGAAGAAAGGTGA -TGTGATTATTGGCGCGAACCAGCAGGCAGTGAAAAACATCGCTGAACTGCGTAAAGTTCTCGACAGCAAACCGTC -TGTGCTGGCACTCAACATTCAGCGCGGCGACAGCACCATCTACCTGTTAATGCAGTAATCTCCCTCAACCCCTTC -CTGAAAACGGGAAGGGGTTCTCCTTACAATCTGTGAACTTCACCACAACTCCATACATCTTCATCATCCTTTAGG -CATTTGCACAATGCCGTACGTTACGTACTTCCTTATGCTAAGCCGTGCATAACGGAGGACTTATGGCTGGCTGGC -ATCTTGATACCAAAATGGCGCAGGATATCGTGGCACGTACCATGCGCATCATCGATACCAATATCAACGTAATGG -ATGCCCGTGGGCGAATTATCGGCAGCGGCGATCGTGAGCGTATTGGTGAATTGCACGAAGGTGCATTGCTGGTAC -TTTCACAGGGACGAGTCGTCGATATCGATGACGCGGTAGCACGTCATCTGCACGGTGTGCGGCAGGGGATTAATC -TACCGTTACGGCTGGAAGGTGAAATTGTCGGCGTAATTGGCCTGACAGGTGAACCAGAGAATCTGCGTAAATATG -GCGAACTGGTCTGCATGACGGCTGAAATGATGCTGGAACAGTCGCGGTTGATGCACTTGTTGGCGCAGGATAGCC -GTTTGCGGGAAGAACTGGTGATGAACCTGATTCAGGCAGAGGAGAATACTCCCGCACTTACTGAATGGGCGCAAC -GGCTGGGGATCGATCTCAATCAACCGCGAGTGGTGGCTATTGTTGAGGTCGACAGCGGTCAGCTTGGCGTGGACA -GCGCAATGGCGGAGTTACAACAACTGCAAAACGCGCTGACTACGCCCGAGCGTAATAATCTGGTGGCGATTGTCT -CGCTAACCGAAATGGTGGTGTTGAAACCGGCGTTGAACTCTTTTGGGCGCTGGGATGCAGAAGATCATCGTAAGC -GAGTTGAACAACTGATTACCCGCATGAAAGAGTACGGCCAGCTGCGTTTTCGCGTTTCACTGGGCAACTATTTTA -CCGGTCCTGGCAGTATTGCCCGATCCTATCGTACGGCGAAAACGACGATGGTGGTGGGTAAACAGCGGATGCCAG -AAAGTCGCTGCTATTTTTATCAGGATCTGATGTTACCTGTGTTACTCGACAGTTTGCGTGGCGACTGGCAGGCCA -ACGAACTGGCGCGACCGCTGGCGCGGCTGAAAACGATGGACAATAACGGCTTGCTGCGACGAACGCTGGCGGCGT -GGTTTCGCCACAATGTGCAACCGCTGGCAACGTCAAAGGCGTTGTTTATTCATCGTAATACCCTGGAGTATCGGC -TTAATCGTATATCGGAACTGACCGGGCTTGATTTGGGCAATTTTGATGACAGGTTGCTGCTGTATGTGGCGTTAC -AACTGGATGAAGAGCGGTAGGTTATGCGTTAAGGTTGAGGCGGCGCTGGCTCATTCCCCTCAGCCCGAAGGGTAG -AGGGGAATGCCCGAATTAACCGTCAGTTCGGGATTATTTACGCGTTAGTTTTTCCAGATCGGCTTCAATCTCGCT -GATCTTATTGGTTACGACTGACTCCAGGTGACGTAAGTCGTCGAGGATCTTACGCTTAAGATCAACTTCGCTGCG -GTCACGCTGGCAGATTTGATCAAGCTCATCAATGATATACCGTAGATTCGGGCTGATTTCCTGGACTTCTTTATA -ACCCTGACCCACACCATCAGCGACGACCGTTTTACGCTGACGCGGATATTTAAACTTAACGCTCTTGGCGAAAAA -CTCGCCTTTGTCTTTCTGGAAATAGATTTTCAGAATATCGTTGTTGGCTTCCTGCCGGAGGCTGTAACGATCAAT -TTCTTCAGGATTGGTAATACCCAGACTTTTCAGATTGTCGTACATAGCGTTACCTCAAAATGAGTCAGTAAATTG -TGCTTATTTTAGCATTTGGCCTGGCCCGCCCGGCTCGACTGTGATCGCAGAAAGCCTTTTTCTTCCAGACTTCTA -TCATGGCGTAAAAATCAAAAAATTACCTGCTTTATTCTGGTGATAAAATTCACGATCTACACCAGTTCCAGCATC -GTTACTTCCGGGCGGCAGTTCAGACGCAAACCATACAAACTGCCCACGCCACGGGTTGTGTAGATGTGTCTTTCG -CCAAAGGCATTTAATCCGGCGACGTAACGTTTATCTTCGACAGGGGCAAAAGGTTCACCAACCAACGGTACGCGC -AGTTGCCCGCCGTGAGTATGGCCGCACAGCATCAGATCCCAGGGTTCATCACGCATGACTTCTTTGCTGTCGGGA -TTATGCGCCAGCACCAGTCTTGGCAGATTGGCTTCGCTGGCGGGAGGCGGTTTGCATTGTCCGGCCCATAAGTCA -CCAGTGCCTACCAGTTCGAATTGCCTGTTCGGCGTGGCGATCACCGTAGCCTGGTTAAACAACACCGTGATGCCC -GCTGATTTCAACGTCTCGCCAATTAAGTGATTTTTTTCTGTACCAACAGGGCGATCGTGGTTGCCGAAGCAGGCA -AACGTCGGCGCACATTCGGCAAGGGGGGAGAGTACGTCACTAAACGCCGAAAAATTCAGCGACATATCAAATAAT -ACGTAATCGCCGCCCAGTAATATCAAATCGGGCTTTTGTTCTATGCCAAGAGCAATCGCGTCAGAAATCAGGCTT -AAAGGAACAAAACGAGAGTAATGGAGATCGGCCAGAAAAAGAATTTTGAATGGTGCTGCGTTGTCTTTAAAAAAG -GCGAGGCGGTGACGGATTAATTCAAACCAGCCTGGCTCACAGTAATGCATATAACCGAAACCTGAGCTCGTGGCT -ATCGTCGCGGCAGTAGCCTGCAAAAATCGGCGGCGTGAAATCATCGCTCATCCCTGCAAAAAAATCGGGCAGCGT -CGTGCTGCCCGTGTGCATACTTTTAGTCGATGGTACGCAGCAGTTCGTTAATGCCGACTTTGCCGCGAGTTTTCG -CGTCAACTTTCTTAACGATAACCGCACAGTAGAGGCTGTATTTGCCATCTTTTGACGGCAGATTACCTGAAACAA -CCACAGACCCCGCCGGAACGCGACCGTAGTGGATTTCGCCGGTTTCACGGTCGTAAATACGGGTGCTCTGACCAA -TGTATACGCCCATGGAAATGACGGAACCTTCTTCGACAATCACCCCTTCAACCACTTCAGAGCGCGCGCCGATGA -AGCAATTATCTTCAATGATGGTTGGGTTAGCCTGCAGCGGTTCCAGCACGCCGCCGATGCCCACGCCACCGGAAA -GGTGGACGTTTTTACCAATCTGCGCACAAGAACCGACGGTCGCCCAGGTATCAACCATGGTGCCTTCATCAACAT -ATGCGCCGATGTTGACGTAAGACGGCATCAGCACGGTGTTACGGGCAATAAACGCACCCTGACGTACCGCCGCTG -GTGGCACAACGCGGAAGCCTTCTTTCTGGAAACGTGCTTCGTCGTAGTCGGCGAATTTCATCGGCACTTTGTCGA -AGTAGCGGCTTTCTGCCCCTTCGATCACCTGATTATCATTAATACGGAAAGAGAGCAGCACCGCTTTTTTCAACC -ACTGATGCGTCACCCACTGACCGTCAATTTTTTCCGCTACACGCAGTGCGCCGGAATCCAGCAGGGCGATCACCT -GATTTACCGCTTCGCGGGTAACGGTGTCTGCATTGGCTGGCGTGATCTCGGCACGGCGTTCAAAAGCGGTTTCAA -TAATGTTCTGTAACTGCTGCATTGTTAAACTCTTTTCATATCAGTAAACACATCACCCTTTATCGTTTGGATTGA -GGGCCTCTGTCAACCGCTGATGCACTTCCTGCTGCAACTCGTTATTAAGCGCACGCCGGTCAGCGGTGGCAATTA -TGAATAAATCTTCTACTCGCTCGCCAATGGTTGTAATTCGGGCACCATGAAGCGAAATTCCCAGATCGGCAAAAA -TTTTCCCGACTCGCGCCAGCAGTCCAGGTTGGTCGAGGGCGATCAGTTCGAGGAACGATTTGCGGTCGGTATGGG -TCGGCAAAAACGTTACTTCGGTTTCAACAGTAAAATGGCGTAATTTGGCGGGTTGGCGACGGGGCTGCGGTGGCT -GCCAGCTACTTTGCGTCAGTACTTGCTCCAGACCAAACCGAATAACCTCATGACGATCTGCGGACAGCGGGTTGC -CATCGGGTTCCAGCACGATAAAGGTATCCATCGCCATACCGTCGCGAGTGGTGAAAATTTGTGCGTCGTGAACAC -TTAAATTGCGGCGGTCTAATTCGGCACAGACGGCGGCAAACAGATAAGGGCGGTCCGGGCTCCAGATAAAAATCT -CGGTGCCTCCACGCGTAGCCTGCGGGCTAAGCAATACCAGCGGTTTGCTTAAATCATGCTGTAATAAATGGCGGG -CATGCCAGGCCAGTTGATTTGGGCTATGGCGGACAAAATAGTTAGCACGACAGCGTGACCAAATTTGGTGCAGCG -CCTCTTCGTCGATGTTATCCATGCGCAGTAGTGCCAGTGCCTGGAGTTGGTGATGGCGAACCCGTTCGCGCATAT -CCGGCGTGTTTTGCATTCCGCGTCGTAGCTGCTTTTCGGTGGCAAAGTAGAGCTCACGCAACAGACTTTGCTTCC -AGCTATTCCACAGCGTTTCGTTGGTGGCGCAAATGTCAGCCACAGTCAGGCATACCAGATAGCGCAGACGATTTT -CCGTTTGCACTTCTTCGGCAAACTGCTTGATGACTTCCGGGTCCTGAATATCGCGGCGTTGGGCGGTCACCGACA -TCAACAGGTGCTGGCGAACCAGCCAGGCGACCAGCTGTGTTTCGCGTGAGTTCAGCCCGTGGAGTTCGGCAAAAT -GCACTACATCCTGAGCACCGAGAATGGAGTGGTCGCCGCCGCGTCCTTTGGCGATATCGTGAAACAGCGCGGCGA -TGAAAATCAGCTCAGTTGACGGCAGGCGCGGCCAGACGTCCACACACAACGGATGGCGCTGGCGCGTTTCTTCAC -TGGCAAAACTCTCCAGTTTCAGCATCACGCGGATAGTATGTTCATCCACCGTGTAGGCGTGGAACAGATCAAACT -GCATCTGCCCGACGATATGCGACCATTGCGGCATATACGCGCCGAGCACGCTATGGCGATGCATTGGCAATAGCC -CGCGCCGCACCGCTCCGGGGTGACGCAGAATGCTCAAAAACAGTTTTCGTGCTTCCGGAATATTACACAGCGGTT -GTTGCAGATGGCGACGGGCATGGCGTAACTGGCGCAGCGTGGTGGAGTAAATGCCGGTGATCGCACTGTTGTGCA -CCATGGTGTAGAACATACGCAAGATGGCTTCCGGCTGGCGCATAAATAGTGTTTCATCACGCAGGTCGATTAGCG -TACCGCGTAGCTGAAACTCATCGTCGATTGGACGTGGTTTTTCGTCGGCGGGAAGGGCGAGGATGGCTTCATCGA -ACAGTTGCAGCAGCATCTGGTTGAGTTCACTGACGCGGCGTGTAACGCGGAAGTAATCCTTCATCATCCGCTCGA -CCGGTTCGTTACCTTCACCACTGTAATTCAGACGCTGGGCGACGCTAAGCTGGCGATCGAATAACAGGCGATTAT -CGTAACGGCTGACGACCAGATGCAGGGCAAAGCGAATACGCCACAATATATGCAGACATTCGTTTAATTCCGCCC -GCTCCGCTGAGGTTAAGAAGCCAAACCCGACCATTTCATCCAGCGATGTTGCGCCAAAATGACGGCGGGCCACCC -ATTGCAGAGTGTGGATATCGCGCAAGCCGCCAGGGCTGCTTTTGATGTCTGGTTCAAGGTTGTAGCTGGTGCCAT -GGTAACGCTGATGGCGCTGGTTCTGTTCTTCAACTTTCGCCGCGTAGAACTTGTCGGAAGGCCAGAATCCTTCGC -TGAAAATATGTTTTTGCAGTTCGAGGAACAGCGCAACATCGCCAATTAATAAGCGGGATTCGATTAAATTGGTGG -CGACGGTTAAATCCGATAACCCTTCCAGCATGCACTCTTCAAGCGTGCGCACGCTATGACCGACTTCCAGCTTTA -CATCCCAGAGCAGCGTTAACAGCTCGCCCACTTTTTGCGCCTGATCGTCCGGGAGCTTTTTACGGCTTAAAATCA -GTAAATCGACGTCTGAAAGTGGATGCAGCTCGCCACGACCGTAGCCACCGACGGCGACCAATGCCAGGTCGGCAA -TCTGGCTGAATCCCGCTTCAATCCATAATCGTTGCAGGAGCTGGTCGATAAACTCGGTGCGCGCCTCAATCAACT -GTTCTGCAGAGATCCCATTGTCAAAGGCATCACCCAGCCAACGCTGGAAAGTATCGATATGGGCTTTTATCCCAC -CGACGGTTAATTCATCACGGGGCCAGACGCATGGATTTTGCGGTTGACCGGGCAGGGTGGGGAGAGCGGTGTTTG -CGTACTGTTCTGGAAGGGTATTCATTGTGCGCCACCCATAAGATTAAATTATCGCATTAAAAAAGCCGGCATTCG -CCGGCTTCATCTTATTCGTCGTGCGAGATTATCGCCGGGATGGTGTCATCCTTGCGTAGCGTCAGAATTTCGCAG -CCGTTATCAGTCACCACAATAGTATGCTCATATTGTGCAGACAAGCTGCGATCTTTGGTTTTTACCGTCCAGCCA -TCTTTCATGGTGCGGATCTCTTTTTTACCCGCGTTGACCATTGGCTCGATGGTGAACGTCATCCCAGGTTTCAGT -ACGACGTTGGTTTCACGGGAGTCATAGTGCAGCACCTGCGGTTCTTCATGGAAGCCGCGACCAATACCGTGTCCG -CAATATTCACGAACGACGGAGAAGCCTTCTGCTTCGACAAATTTCTGAATCGCCGCACCGATTTCGCGCAGATTA -ATGCCTGGTTTTACCATGCGTAGCGCCAGGTACAGGCTTTCTTGCGTGATGCGGCACAGACGTTCGCCCATGATG -GTCGGCTTACCGACGATAAACATTTTCGAGGTATCGCCGTGGAAACCATCTTTGATTACGGTGACATCAATGTTA -ACGATATCGCCATCTTTCAGCAGCTTAGCATCGTCCGGGATACCGTGGCACACCACTTCATTAATAGAGATGCAA -ACGGATTTCGGATAGCCGTGATAGCCGAGGCAGGCAGAAACCGCGTGTTGTTCATTAACAATGTAATCATTACAG -ATGCGATCCAGCTCGCCGGTGCTGACGCCCGGTTTAACATACGGTTCGATCATCTCCAGCACTTCGGCAGCCAGT -CGGCCAGCGACGCGCATTTTTTCGATATCTTCTGGGGTCTTGATTGAGATAGCCATTAATTCTGTCCATCAGCGT -CGGTGATACCGACAATATATATGTAAGTGCCGTCAATGGTATCACACCCGGGCAAATTGAGAATCATTCTGAATT -TCGCCAAACGTGCCACTGAAGGTTTTCTATAATAGAAAATTCGACGTCTGATGCTGTACACAGCGCCAACAATTA -TTGGTGTCCACGACGTATTTGTGGTATAAAGCGCGCCGGACTTCCGATCCATTTCGTATACACAGACTGGACGGA -AGCGACAATCTCACTTTGTGTAACAACACACACGTATCGGCACATATTCCGGGGTGCCCTTTGGGGTCGGTAATA -TGGGATACGTGGAGGCATAACCCCAACTTTTATATAGAGGTTTTAATCATGGCAACTGTTTCCATGCGCGACATG -CTCAAGGCTGGTGTTCACTTCGGTCACCAGACCCGTTACTGGAACCCGAAAATGAAGCCGTTCATCTTCGGTGCG -CGTAACAAAGTTCACATCATCAACCTTGAGAAAACTGTACCGATGTTCAACGAAGCTCTGGCTGAACTGAACAAG -ATTGCTTCTCGCAAAGGTAAAATCCTTTTCGTTGGTACTAAACGCGCTGCAAGCGAAGCGGTGAAAGACGCTGCT -CTGAGCTGCGACCAGTTCTTCGTGAACCATCGCTGGCTGGGCGGTATGCTGACTAACTGGAAAACCGTTCGTCAG -TCCATCAAACGTCTGAAAGACCTGGAAACTCAGTCTCAGGACGGTACTTTCGACAAGCTGACCAAGAAAGAAGCG -CTGATGCGCACTCGTGAGCTGGAGAAACTGGAAAACAGCCTGGGCGGTATCAAAGACATGGGCGGTCTGCCGGAC -GCTCTGTTTGTAATCGATGCTGACCACGAACACATTGCTATCAAAGAAGCAAACAACCTGGGTATTCCGGTATTT -GCTATCGTTGATACCAACTCTGATCCGGACGGTGTTGACTTCGTTATCCCGGGTAACGACGACGCAATCCGTGCT -GTGACCCTGTACCTGGGCGCTGTTGCTGCAACCGTACGTGAAGGCCGTTCTCAGGATCTGGCTTCCCAGGCGGAA -GAAAGCTTCGTAGAAGCTGAGTAATAAGGCTTGATAACTCCCCCAAAATAGTTCGAGTTGCAGAAAGGCGGCAAG -CTCGAGAATTCCCGGGAGCTTACATCAGTAAGTGACCGGGATGAGCGAGCGAAGATAACGCATCTGCGGCGCGAA -ATATGAAGGGGGAGAGCCCTTATAGACCAGGTAGTACACGTTTGGTTAGGGGGCCTGCATATGGCCCCCTTTTTC -ACTTTTATATCTGTGCGGTTTAATGCCGGGCAGATCACATCTCCGAGGATTTTAGAATGGCTGAAATTACCGCAT -CCCTGGTAAAAGAGCTGCGTGAGCGTACTGGCGCAGGCATGATGGATTGCAAAAAAGCACTGACTGAAGCTAACG -GCGACATCGAGCTGGCAATCGAAAACATGCGTAAGTCCGGTGCTATTAAAGCAGCGAAAAAAGCAGGCAACGTTG -CTGCTGACGGCGTGATCAAAACCAAAATCGACGGCAACTACGGCATCATTCTGGAAGTTAACTGCCAGACTGACT -TCGTTGCAAAAGACGCTGGTTTCCAGGCGTTCGCAGACAAAGTTCTGGACGCAGCTGTTGCTGGCAAAATCACTG -ACGTTGAAGTTCTGAAAGCACAGTTCGAAGAAGAACGTGTTGCGCTGGTAGCGAAAATTGGTGAAAACATCAACA -TTCGCCGCGTTGCTGCGCTGGAAGGCGACGTTCTGGGTTCTTATCAGCACGGTGCGCGTATCGGCGTTCTGGTTG -CTGCTAAAGGCGCTGACGAAGAGCTGGTTAAACACATCGCTATGCACGTTGCTGCAAGCAAGCCAGAATTCATCA -AACCGGAAGACGTATCCGCTGAAGTGGTAGAAAAAGAATACCAGGTACAGCTGGATATCGCGATGCAGTCTGGTA -AGCCGAAAGAAATCGCAGAGAAAATGGTTGAAGGCCGCATGAAGAAATTCACCGGCGAAGTTTCTCTGACCGGTC -AGCCGTTCGTTATGGAACCAAGCAAAACTGTTGGTCAGCTGCTGAAAGAGCATAACGCTGAAGTGACTGGCTTCA -TCCGCTTCGAAGTGGGTGAAGGCATCGAGAAAGTTGAGACTGACTTTGCAGCAGAAGTTGCTGCGATGTCCAAGC -AGTCTTAATTATCAAAAAGGAGCCGCCTGAGGGCGGCTTCTTTTTGTGCCCATCTTGTAAATTCAGCTAACCCTT -GTGGGGCTGCGCTGAAAAGCGACGTACAATGTCGCTAGTATTAATTCATTTCAATCGTTGACAGTCTCAGGAAAG -AAACATGGCTACCAATGCAAAACCCGTCTATAAACGCATTCTGCTTAAGTTGAGTGGCGAAGCTCTGCAGGGCAC -TGAAGGCTTCGGTATTGATGCAAGCATACTGGATCGTATGGCTCAGGAAATCAAAGAACTGGTTGAACTGGGTAT -TCAGGTTGGTGTGGTGATTGGTGGGGGTAACCTGTTCCGTGGCGCTGGTCTGGCGAAAGCGGGTATGAACCGCGT -TGTGGGCGACCACATGGGGATGCTGGCGACCGTAATGAACGGCCTGGCAATGCGTGATGCACTGCACCGCGCCTA -TGTGAACGCTCGTCTGATGTCCGCTATTCCATTGAATGGCGTGTGCGACAGCTACAGCTGGGCAGAAGCTATCAG -CCTGTTGCGCAACAACCGTGTGGTGATCCTCTCCGCCGGTACAGGTAACCCGTTCTTTACCACCGACTCAGCAGC -TTGCCTGCGTGGTATCGAAATTGAAGCCGATGTGGTGCTGAAAGCAACCAAAGTTGACGGCGTGTTTACCGCTGA -TCCGGCGAAAGATCCAACCGCAACCATGTACGAGCAACTGACTTACAGCGAAGTGCTGGAAAAAGAGCTGAAAGT -CATGGACCTGGCGGCCTTCACGCTGGCTCGTGACCATAAATTACCGATTCGTGTTTTCAATATGAACAAACCGGG -TGCGCTGCGCCGTGTGGTAATGGGTGAAAAAGAAGGGACTTTAATCACGGAATAATTCCCGTGATGGATAAATAA -GGGTAAGATTCCGCGTAAGTATCGCGGGGGCGTAAGTCTGGTTATAAGGCGTTATTGTTGCAGGCAGTTTGGTCA -CGGCCAGCGCGCAGCAACCGGAGCGTACAAAAGTACGTGAGGATGGCGAGCACTGCCCGGGGCCAAAATGGCAAA -TAAAATAGCCTAATAATCCAGACGATTACCCGTAATATGTTTAATCAGGGCTATACTTAGCACACTTCCACTGTG -TGTGACTGTCTGGTCTGACTGAGACAAGTTTTCAAGGATTCGTAACGTGATTAGCGATATCAGAAAAGATGCTGA -AGTACGCATGGACAAATGCGTAGAAGCGTTCAAAACCCAAATCAGCAAAATACGCACGGGTCGTGCTTCTCCCAG -CCTGCTGGATGGCATTGTCGTGGAATATTACGGCACGCCGACGCCGCTGCGTCAGCTGGCAAGCGTAACGGTAGA -AGATTCCCGTACACTGAAAATCAACGTGTTTGATCGTTCAATGTCTCCGGCCGTTGAAAAAGCGATTATGGCGTC -CGATCTTGGCCTGAACCCGAACTCTGCGGGTAGCGACATCCGTGTTCCGCTGCCGCCGCTGACGGAAGAACGTCG -TAAAGATCTGACCAAAATCGTTCGTGGTGAAGCAGAACAAGCGCGTGTTGCAGTACGTAACGTGCGTCGTGACGC -GAACGACAAAGTGAAAGCACTGTTGAAAGATAAAGAGATCAGCGAAGACGACGATCGCCGTTCTCAGGACGATGT -ACAGAAACTGACTGATGCTGCAATCAAGAAAATTGAAGCGGCGCTGGCAGACAAAGAAGCAGAACTGATGCAGTT -CTGATTTCTTGAACGACAAAAACGCCGCTCAGTAGATCCTTGCGGATCGGCTGGCGGCGTTTTGCTTTTTATTCT -GTCTCAACTCTGGATGTTTCATGAAGCAACTCACCATTCTGGGCTCGACCGGCTCGATTGGTTGCAGCACGCTGG -ACGTGGTGCGCCATAATCCCGAACACTTCCGCGTAGTTGCGCTGGTGGCAGGCAAAAATGTCACTCGCATGGTAG -AACAGTGCCTGGAATTCTCTCCCCGCTATGCCGTAATGGACGATGAAGCGAGTGCGAAACTTCTTAAAACGATGC -TACAGCAACAGGGTAGCCGCACCGAAGTCTTAAGTGGGCAACAAGCCGCTTGCGATATGGCAGCGCTTGAGGATG -TTGATCAGGTGATGGCAGCCATTGTTGGCGCTGCTGGGCTGTTACCTACGCTTGCTGCGATCCGCGCGGGTAAAA -CCATTTTGCTGGCCAATAAAGAATCACTGGTTACCTGCGGACGTCTGTTTATGGACGCCGTAAAGCAGAGCAAAG -CGCAATTGTTACCGGTCGATAGCGAACATAACGCCATTTTTCAGAGTTTACCGCAACCTATCCAGCATAATCTGG -GATACGCTGACCTTGAGCAAAATGGCGTGGTGTCCATTTTACTTACCGGGTCTGGTGGCCCTTTCCGTGAGACGC -CATTGCGCGATTTGGCAACAATGACGCCGGATCAAGCCTGCCGTCATCCGAACTGGTCGATGGGGCGTAAAATTT -CTGTCGATTCGGCTACCATGATGAACAAAGGTCTGGAATACATTGAAGCGCGTTGGCTGTTTAACGCCAGCGCCA -GCCAGATGGAAGTGCTGATTCACCCGCAGTCAGTGATTCACTCAATGGTGCGCTATCAGGACGGCAGTGTTCTGG -CGCAGCTGGGGGAACCGGATATGCGTACGCCAATTGCCCACACCATGGCATGGCCGAATCGCGTGAACTCTGGCG -TGAAGCCGCTCGATTTTTGCAAACTAAGTGCGTTGACATTTGCCGCACCGGATTATGATCGTTATCCATGCCTGA -AACTGGCGATGGAGGCGTTCGAACAAGGCCAGGCAGCGACGACAGCATTGAATGCCGCAAACGAAATCACCGTTG -CTGCTTTTCTTGCGCAACAAATCCGCTTTACGGATATCGCTGCGTTGAATTTATCCGTACTGGAAAAAATGGATA -TGCGCGAACCACAATGTGTGGACGATGTGTTATCTGTTGATGCGAACGCGCGTGAAGTCGCCAGAAAAGAGGTGA -TGCGTCTCGCAAGCTGAGGATAATCCGGCTACAGAGAGTCGCGCTATTTGTTAGCGTAGGGCTTCAGTGATATAG -TCTGCGCCATCTGATCGTAAGTAGTTGGCTTTATAAGGTCAGATATGCCGTGGTTTTACACGGCTTTTTTTTGTA -TAGGCTTCAGTATTCCTGAGTACCGTAAACCCTGTCAGGGAATAAAAAACGCGTGATGTTGTCTGCTACTCAACC -ACTTAGCGAAAAATTGCCAGCGCATGGCTGCCGTCATGTTGCGATCATTATGGACGGCAATGGCCGCTGGGCAAA -AAAGCAAGGGAAGATTCGTGCCTTTGGGCATAAAGCCGGGGCAAAATCCGTCCGCCGGGCTGTCTCTTTTGCGGC -CAACAACGGTATTGAGGCGTTAACGCTGTATGCCTTTAGTAGTGAAAACTGGAACCGACCAGCGCAGGAAGTCAG -TGCGTTAATGGAACTGTTTGTGTGGGCGCTCGATAGCGAAGTAAAAAGTCTGCACCGACATAACGTGCGTCTGCG -TATTATTGGCGATACCAGTCGCTTTAACTCGCGTTTGCAAGAACGTATTCGTAAATCTGAAGCGCTAACAGCCGG -GAATACCGGTCTGACGCTGAATATTGCGGCGAACTACGGTGGACGTTGGGATATAGTCCAGGGAGTCAGGCAACT -GGCTGAAAAGGTGCAGCAAGGAAACCTGCAACCAGATCAGATAGATGAAGAGATGCTAAACCAGCATGTCTGTAT -GCATGAACTGGCCCCTGTAGATTTAGTAATTAGGACTGGGGGGGAGCATCGCATTAGTAACTTTTTGCTTTGGCA -AATTGCCTATGCCGAACTTTACTTTACAGATGTTCTCTGGCCCGATTTCGATGAACAAGACTTTGAAGGGGCGTT -AAATGCCTTTGCTAATCGAGAGCGTCGTTTCGGCGGCACCGAGCCCGGTGATGAAACAGCCTGATGGGGGTCGCT -TTTGCTGAAGTATCGCCTGATATCTGCTTTTGTGTTAATACCCGTCGTCATCGCGGCGTTGTTTCTGTTGCCGCC -GGTGGGGTTCGCCATTGTAACGCTGGTGGTCTGCATGCTGGCAGCGTGGGAATGGGGACAGCTTAGCGGTTTTAC -CACTCGTTCGCAGCGAGTATGGTTGGCGGTGTTATGCGGGTTATTGTTGGCGCTGATGCTTTTTCTGTTGCCGGA -ATATCACCGAAATATTCATCAACCGCTGGTTGAAATCTCACTTTGGGCTTCGCTGGGTTGGTGGATTGTCGCGCT -ATTGCTGGTGCTGTTTTACCCAGGTTCCGCAGCAATCTGGCGTAACTCTAAAACATTGCGCCTTATTTTTGGCGT -GCTAACCATTGTTCCCTTCTTCTGGGGCATGCTGGCGTTACGGGCCTGGCACTATGACGAGAATCATTACAGTGG -CGCAATATGGCTGCTCTATGTCATGATCCTGGTATGGGGCGCTGACTCCGGCGCATATATGTTTGGCAAATTGTT -TGGTAAACATAAGCTGGCACCGAAGGTTTCTCCGGGTAAAACCTGGCAAGGCTTTATCGGTGGACTCGCTACTGC -AGCGGTAATCTCATGGGGTTATGGCATGTGGGCGAATCTCGACGTCGCTCCCGTCACCTTACTCATTTGCTCTAT -TGTCGCAGCGTTAGCCTCAGTGCTCGGCGATCTGACCGAGAGTATGTTTAAGCGTGAAGCAGGAATTAAGGACAG -CGGTCATTTAATTCCAGGACACGGTGGTATTTTAGATCGTATTGATAGCCTGACGGCTGCGGTACCGGTCTTTGC -TTGCTTGTTGTTACTGGTATTCAGGACGCTTTAACGGAAGGTAATATGCTGAGTTTTCTCTGGGATTTGGCTTCG -TTCATCGTTGCACTGGGTGTACTTATCACCGTGCATGAATTTGGTCATTTCTGGGTTGCCCGGCGTTGTGGTGTT -CGCGTTGAGCGTTTCTCAATAGGGTTTGGTAAGGCGCTCTGGCGGCGAACTGATAAGCTCGGCACCGAATATGTT -ATCGCCCTGATCCCGTTGGGCGGTTATGTCAAAATGCTGGATGAGCGCGCAGAACCGGTCGTTCCGGAACTCCGC -CACCATGCCTTCAATAATAAATCTGTCGGCCAACGAGCGGCGATTATTGCCGCAGGTCCGGTTGCAAACTTCATT -TTTGCTATCTTTGCCTACTGGCTGGTTTTTATTATTGGTGTGCCTGGCGTACGTCCGGTGGTTGGCGAAATAGCA -GCCAATTCGATAGCTGCGGAAGCACAAATTGCACCAGGTACGGAACTAAAAGCCGTAGATGGTATCGAAACGCCT -GATTGGGATGCCGTGCGTTTGCAGTTGGTCGATAAAATTGGCGATGAAAGCACCACCATTACAGTAGCGCCATTT -GGCAGCGACCAACGGCGGGATGTAAAGCTCGATTTACGTCACTGGGCGTTTGAGCCTGATAAAGAAGATCCGGTA -TCTTCGCTGGGGATTCGTCCTCGTGGGCCGCAAATTGAACCTGTACTGGAAAATGTGCAGCCAAACTCGGCGGCA -AGCAAGGCAGGTTTGCAAGCAGGCGACAGGATCGTTAAAGTCGATGGTCAGCCCTTAACGCAGTGGGTGACCTTT -GTGATGCTTGTCCGGGATAACCCGGGTAAATCCTTAGCGTTAGAAATCGAAAGGCAGGGGAGTCCCTTGTCTTTG -ACATTAATCCCGGAGAGTAAACCGGGTAATGGTAAAGCGATTGGTTTTGTCGGTATTGAGCCGAAAGTCATTCCT -TTGCCAGATGAGTATAAAGTTGTACGCCAGTATGGGCCGTTCAACGCCATCGTCGAAGCCACGGACAAAACGTGG -CAGCTGATGAAGCTGACGGTCAGTATGCTGGGAAAATTGATCACCGGTGATGTGAAACTGAACAACCTCAGTGGG -CCGATCTCTATCGCCAAGGGGGCTGGGATGACAGCGGAACTCGGGGTTGTTTATTACCTGCCGTTTCTTGCGCTT -ATTAGCGTGAACTTAGGGATAATTAACCTGTTTCCGTTGCCCGTACTTGACGGGGGGCATCTGCTGTTCCTTGCG -ATCGAAAAGATCAAGGGCGGACCGGTATCCGAGCGGGTTCAAGACTTTTGTTATCGCATTGGCTCGATTCTGCTG -GTGCTGTTAATGGGGCTTGCACTTTTCAATGATTTCTCTCGGTTATGAGAGTTAGTTAGGAAGAACGCATAATAA -CGATGGCGATGAAAAAGTTGCTCATAGCGTCGCTGCTGTTTAGCAGCGCCACCGTATACGGTGCTGAAGGGTTCG -TAGTGAAAGATATTCATTTCGAAGGCCTTCAGCGTGTCGCCGTTGGTGCGGCCCTCCTCAGTATGCCGGTGCGCA -CAGGCGACACGGTTAATGATGAAGATATCAGTAATACCATTCGCGCTCTGTTTGCTACCGGCAACTTTGAGGATG -TTCGCGTCCTTCGTGATGGTGATACCCTTCTGGTTCAGGTAAAAGAACGTCCGACCATTGCCAGCATTACTTTCT -CCGGTAACAAATCGGTGAAAGATGACATGCTGAAGCAAAACCTCGAGGCTTCTGGTGTGCGTGTGGGCGAATCCC -TCGATCGCACCACCATTGCCGATATCGAGAAAGGTCTGGAAGACTTCTACTACAGCGTCGGTAAATATAGCGCCA -GCGTAAAAGCTGTCGTGACCCCGCTGCCGCGCAACCGTGTTGACCTAAAACTGGTGTTCCAGGAAGGTGTGTCAG -CTGAAATCCAGCAAATTAACATTGTTGGTAACCATGCTTTCACCACCGACGAACTGATCTCTCATTTCCAACTGC -GTGACGAAGTGCCGTGGTGGAACGTGGTAGGCGATCGTAAATACCAGAAACAGAAACTGGCGGGCGACCTTGAAA -CCCTGCGCAGCTACTATCTGGATCGCGGTTATGCCCGTTTCAACATCGACTCTACCCAGGTCAGTCTGACGCCAG -ATAAAAAAGGTATTTACGTCACGGTGAACATCACCGAAGGCGATCAGTACAAGCTTTCTGGCGTTGAAGTGAGCG -GCAACCTTGCCGGGCACTCCGCTGAAATTGAGCAGCTGACTAAGATCGAGCCGGGTGAGCTGTATAACGGCACCA -AAGTGACCAAGATGGAAGATGACATCAAAAAGCTTCTCGGTCGCTATGGTTATGCCTATCCGCGCGTACAGTCGA -TGCCCGAAATTAACGATGCCGACAAAACCGTTAAATTACGTGTGAACGTTGATGCGGGTAACCGTTTCTACGTGC -GTAAGATCCGTTTTGAAGGTAACGATACCTCGAAAGATGCCGTCCTGCGTCGCGAAATGCGTCAGATGGAAGGTG -CATGGCTGGGGAGCGATCTGGTCGATCAGGGTAAGGAGCGTCTGAATCGTCTGGGCTTCTTTGAAACTGTCGATA -CCGATACCCAACGTGTTCCGGGTAGCCCGGACCAGGTTGATGTCGTCTACAAGGTAAAAGAGCGCAACACCGGTA -GCTTCAACTTTGGTATTGGTTACGGTACTGAAAGTGGCGTGAGCTTCCAGGCTGGTGTGCAGCAGGATAACTGGT -TAGGTACAGGTTATGCTGTTGGTATCAACGGGACCAAAAACGATTACCAGACCTATGCTGAACTGTCGGTAACCA -ACCCGTACTTCACCGTAGATGGCGTAAGCCTCGGTGGTCGTCTCTTCTATAATGACTTCCAGGCAGATGACGCCG -ACCTGTCCGACTATACCAACAAGAGTTATGGTACAGACGTGACGTTGGGCTTCCCGATTAACGAATATAACTCGC -TGCGTGCAGGTCTGGGTTATGTACATAACTCCCTGTCCAACATGCAGCCTCAGGTTGCGATGTGGCGTTATCTGT -ACTCTATGGGTGAACATCCGAGCACCTCTGATCAGGATAACAGCTTCAAAACGGACGACTTCACGTTCAACTATG -GTTGGACCTATAACAAGCTTGACCGTGGTTACTTCCCGACAGATGGTTCACGTGTCAACCTGACCGGTAAAGTGA -CCATTCCTGGATCGGATAACGAATACTACAAAGTGACGTTAGACACGGCGACTTATGTGCCGATCGATGACGATC -ACAAATGGGTTGTTCTGGGGCGTACCCGCTGGGGTTATGGTGATGGTTTAGGCGGCAAAGAGATGCCGTTCTACG -AGAACTTCTATGCCGGTGGTTCCAGCACCGTGCGTGGCTTCCAGTCCAATACCATTGGTCCGAAAGCAGTTTACT -TCCCGCATCAGGCCAGTAATTATGATCCGGACTATGATTACGAATGTGCGACTCAGGACGGCGCGAAAGACCTGT -GTAAATCGGATGATGCTGTAGGCGGTAACGCCATGGCGGTTGCCAGCCTCGAGTTCATCACCCCGACGCCGTTTA -TTAGCGATAAGTATGCTAACTCGGTTCGTACTTCCTTCTTCTGGGATATGGGTACCGTTTGGGATACAAACTGGG -ATTCCAGCCAATATTCTGGATATCCGGACTATAGTGATCCAAGCAATATCCGTATGTCTGCGGGTATCGCATTAC -AATGGATGTCCCCATTGGGGCCGTTGGTGTTCTCCTACGCCCAGCCGTTCAAAAAGTACGATGGAGACAAGGCAG -AACAGTTCCAGTTTAACATCGGTAAAACCTGGTAAGTGTTCTCCACAAAGGAATGTAGTGGTAGTGTAGCGATGA -CTTTAGGCGATCAATATAAGATCGCCGGGCCACGCAAAGAACTGCACCCTCCGGTGCAAATGGGATGGTAAGGAG -TTTATTGTGAAAAAGTGGTTATTAGCTGCAGGTCTCGGTTTAGCACTGGCAACTTCTGCTCAGGCGGCTGACAAA -ATTGCAATCGTCAACATGGGCAGCCTGTTCCAGCAGGTAGCGCAGAAAACCGGTGTTTCTAACACGCTGGAAAAT -GAGTTCAAAGGCCGTGCCAGCGAACTGCAGCGTATGGAAACCGATCTGCAGGCTAAAATGAAAAAGCTGCAGTCC -ATGAAAGCGGGCAGCGATCGCACTAAGCTGGAAAAAGACGTGATGGCTCAGCGCCAGACTTTTGCTCAGAAAGCG -CAGGCTTTTGAGCAGGATCGCGCACGTCGTTCCAACGAAGAACGCGGCAAACTGGTTACTCGTATCCAGACTGCT -GTGAAATCCGTTGCCAACAGCCAGGATATCGATCTGGTTGTTGATGCAAACGCCGTTGCTTACAACAGCAGCGAT -GTAAAAGACATCACTGCCGACGTACTGAAACAGGTTAAATAAGTAATGCCTTCAATTCGACTGGCTGATTTAGCG -CAGCAGTTGGATGCAGAACTACACGGTGATGGCGATATCGTCATCACCGGCGTTGCGTCCATGCAATCTGCACAA -ACAGGTCACATTACGTTCATGGTTAACCCAAAATACCGTGAGCATTTAGGCTTGTGCCAGGCGTCCGCGGTTGTC -ATGACCCAGGACGATCTTCCTTTCGCGAAAAGTGCCGCACTGGTAGTGAAGAATCCCTACCTGACTTACGCGCGC -ATGGCGCAAATTTTAGATACCACGCCGCAGCCCGCGCAGAACATTGCACCCAGTGCGGTGATCGACGCGACGGCG -AAGCTGGGTAACAACGTATCGATTGGCGCTAACGCGGTGATTGAGTCCGGCGTTGAACTGGGCGATAACGTGATT -ATCGGTGCCGGTTGCTTCGTAGGTAAAAACAGCAAAATCGGTGCAGGTTCGCGTCTCTGGGCGAACGTAACCATT -TACCATGAGATCCAGATCGGTCAGAATTGCCTGATCCAGTCCGGAACAGTGGTAGGCGCAGACGGCTTTGGTTAT -GCCAACGATCGTGGTAACTGGGTGAAGATCCCACAGATTGGTCGCGTAATTATTGGCGATCGCGTGGAGATCGGT -GCCTGCACAACCATCGATCGCGGCGCGCTGGATGACACTATTATTGGCAATGGCGTGATCATTGATAACCAGTGC -CAGATTGCACATAACGTCGTGATTGGCGACAATACGGCGGTTGCCGGTGGCGTCATTATGGCGGGCAGCCTGAAA -ATTGGTCGTTACTGCATGATCGGCGGAGCCAGCGTAATCAACGGGCATATGGAAATATGCGACAAAGTGACGGTT -ACGGGCATGGGTATGGTGATGCGTCCCATCACTGAACCAGGCGTCTATTCCTCAGGCATTCCGCTGCAACCCAAC -AAAGTCTGGCGCAAAACCGCTGCACTGGTGATGAACATTGATGACATGAGCAAGCGTCTGAAATCGCTTGAGCGC -AAGGTTAATCAACAAGACTAACGTTCCATCTTTTGTTCGCCAAACTTTACGGCCTGTCTCATTCTTACGATTGCG -GCAGGCCGTGTTATTATTGTCGTTTCTTATATTTTGACAGGAAGAGTATCTTGACTACTAACACTCATACTCTGC -AGATTGAAGAGATTTTAGAACTTCTGCCGCACCGTTTCCCGTTCTTACTGGTGGATCGCGTGCTGGATTTTGAAG -AAGGTCGTTTTCTGCGCGCAGTAAAAAATGTCTCTGTCAATGAGCCATTCTTCCAGGGCCATTTCCCTGGAAAAC -CGATTTTCCCGGGTGTGCTGATTCTGGAAGCAATGGCACAGGCAACAGGTATTCTGGCGTTTAAAAGCGTAGGAA -AACTGGAACCGGGTGAGCTGTACTACTTCGCTGGTATTGACGAAGCGCGCTTCAAGCGCCCGGTCGTGCCTGGCG -ATCAAATGATCATGGAAGTCACTTTCGAAAAAACGCGCCGCGGCCTGACCCGTTTTAAAGGGGTTGCTCTGGTCG -ATGGTAAAGTAGTTTGCGAAGCAACGATGATGTGTGCTCGTAGCCGGGAGGCCTGATACGTGATTGATAAATCCG -CCTTTGTGCATCCAACCGCCATTGTGGAAGAGGGCGCGTCAATTGGCGCGAACGCACACATTGGTCCTTTTTGTA -TCGTTGGACCCCATGTCGAAATTGGTGAGGGTACCGTACTGAAATCTCACGTTGTCGTGAATGGTCATACTAAAA -TTGGCCGCGATAATGAGATTTATCAGTTCGCCTCCATCGGCGAAGTTAACCAGGATCTGAAATATGCTGGCGAAC -CGACCCGTGTGGAAATCGGCGATCGTAACCGCATTCGCGAAAGCGTCACCATTCATCGTGGCACAGTCCAGGGCG -GTGGATTGACGAAGGTGGGCAGCGACAACTTACTGATGATCAACGCGCACATTGCGCACGATTGTACGGTAGGTA -ACCGCTGTATTCTCGCCAACAACGCAACGCTGGCGGGTCACGTATCGGTTGACGACTTCGCGATCATCGGCGGCA -TGACCGCAGTCCATCAGTTCTGCATCATTGGTGCGCACGTGATGGTTGGCGGCTGCTCCGGTGTGGCGCAGGACG -TCCCTCCTTATGTCATTGCGCAGGGTAACCACGCAACGCCGTTCGGTGTCAATATCGAAGGGCTGAAGCGCCGCG -GATTCAGCCGTGAGGCGATTACCGCTATCCGCAATGCGTATAAGCTGATTTATCGTAGCGGTAAAACGCTCGATG -AAGTGAAACCGGAAATTGCTGAACTGGCGGAAACATATCCGGAAGTGAAAGCCTTTACCGATTTCTTTGCACGCT -CAACGCGCGGTCTGATTCGTTAATGACTGAACAGCGTCCATTAACGATTGCCCTGGTCGCCGGAGAAACCTCCGG -CGATATCCTGGGGGCCGGTTTAATCCGCGCTCTGAAAGAACATGTGCCCAACGCCCGCTTTGTTGGTGTTGCCGG -GCCACGAATGCAGGCTGAAGGCTGCGAAGCCTGGTACGAAATGGAAGAACTGGCGGTGATGGGCATTGTTGAAGT -GCTCGGTCGTCTGCGTCGCTTACTGCATATTCGTGCCGATCTGACAAAGCGTTTTGGCGAACTGAAGCCAGATGT -TTTTGTTGGTATTGATGCGCCTGACTTCAATATTACTCTTGAAGGTAACCTCAAAAAGCAGGGTATCAAAACCAT -TCATTACGTCAGTCCGTCAGTCTGGGCGTGGCGACAGAAACGTGTTTTCAAAATAGGCAGAGCCACCGATCTGGT -GCTCGCATTTCTGCCTTTCGAAAAAGCGTTTTATGACAAATACAACGTACCGTGCCGCTTTATCGGTCATACCAT -GGCTGATGCCATGCCATTAGATCCAGATAAAAATGCCGCCCGTGATGTGCTGGGGATCCCTCACGATGCCCACTG -CCTGGCGTTGCTACCGGGGAGCCGTGGTGCAGAAGTTGAAATGCTTAGTGCCGATTTCCTGAAAACGGCCCAGCT -TTTGCGCCAGACATATCCGGATCTCGAAATCGTGGTGCCACTGGTGAATGCCAAACGCCGCGAGCAGTTTGAACG -CATCAAAGCTGAAGTCGCGCCAGACCTTTCAGTTCATTTGCTGGATGGGATGGGCCGTGAGGCGATGGTCGCCAG -CGATGCGGCGCTACTGGCGTCGGGTACGGCAGCCCTGGAGTGTATGCTGGCGAAATGCCCGATGGTGGTGGGATA -TCGCATGAAGCCTTTTACCTTCTGGTTGGCGAAGCGGCTGGTGAAAACTGATTATGTCTCGCTGCCAAATCTGCT -GGCGGGCAGAGAGTTAGTCAAAGAATTATTGCAGGAAGAGTGTGAGCCGCAAAAACTGGCTGCGGCGCTGTTACC -GCTGTTGGCGAACGGGAAAACCAGCCACGCGATGCACGATACCTTCCGTGAACTGCATCAGCAGATCCGCTGCAA -TGCCGATGAGCAGGCGGCACAAGCCGTTCTGGAGTTAGCACAATGATCGAATTTGTTTATCCGCACACGCAGCTG -GTTGCGGGTGTGGATGAAGTCGGACGCGGGCCGTTAGTTGGCGCGGTCGTCACCGCTGCGGTGATCCTTGACCCG -GCGCGCCCGATTGCCGGGCTGAATGATTCCAAAAAGCTGAGCGAAAAACGCCGTCTGGCGCTCTATGAAGAGATC -AAAGAGAAAGCGTTGAGCTGGAGTCTGGGCCGCGCGGAACCCCACGAAATCGACGAGCTGAACATTCTTCATGCG -ACCATGCTGGCGATGCAGCGTGCCGTCGCTGGGCTGCATATTGCGCCGGAATATGTGTTGATTGATGGTAACCGC -TGCCCGAAATTACCGATGCCTGCGATGGCTGTGGTGAAAGGCGATAGCCGCGTACCGGAAATCAGTGCCGCGTCT -ATCCTGGCGAAAGTGACGCGTGACGCCGAAATGGCGGCGCTGGATATTGTTTTCCCGCAATATGGTTTTGCCCAA -CACAAAGGGTACCCAACCGCTTTTCATCTGGAAAAACTGGCTGAACACGGCGCGACCGAACACCATCGGCGCAGC -TTTGGGCCTGTCAAACGCGCACTGGGACTTGCGTCCTGATTCTTGTGTCGAGATTAAGTAAACCGGAATCTGAAG -ATGTCTGAACCACGTTTCGTACACCTGCGGGTGCACAGCGACTACTCGATGATCGATGGCCTGGCCAAAACCGCA -CCGTTGGTAAAAAAGGCGGCGGCGTTGGGTATGCCAGCACTGGCGATCACCGATTTCACCAACCTTTGTGGTCTG -GTGAAGTTCTACGGAGCGGGACATGGCGCAGGGATTAAGCCTATCGTCGGGGCAGATTTTAACGTCCAGTGCGAC -CTGCTGGGTGATGAGTTAACCCACCTGACGGTACTGGCGGCGAACAATACCGGCTATCAGAATCTGACGTTGCTG -ATCTCAAAAGCGTATCAGCGCGGGTACGGTGCCGCCGGGCCGATCATCGATCGCGACTGGCTTATCGAATTAAAC -GAAGGGTTGATCCTTCTTTCCGGCGGACGCATGGGCGACGTCGGACGCAGTCTTTTGCGTGGTAACAGCGCGCTG -GTAGATGAGTGTGTCGCGTTTTATGAAGAACACTTCCCGGATCGCTATTTTCTCGAGCTGATCCGCACCGGCAGG -CCGGATGAAGAAAGCTATCTGCACGCGGCGGTGGAACTGGCGGAAGCGCGCGGTTTGCCCGTCGTGGCGACCAAC -GACGTGCGCTTTATCGACAGCAGCGACTTTGACGCACACGAAATCCGCGTCGCGATCCACGACGGCTTTACCCTC -GACGATCCTAAACGCCCGCGTAACTATTCGCCGCAGCAATATATGCGTAGCGAAGAGGAGATGTGTGAGCTGTTT -GCCGACATCCCCGAAGCCCTTGCCAACACCGTTGAGATCGCCAAACGCTGTAACGTAACCGTGCGTCTTGGTGAA -TACTTCCTGCCGCAGTTCCCGACCGGGGACATGAGCACCGAAGATTATCTGGTCAAGCGTGCAAAAGAGGGCCTG -GAAGAGCGTCTGGCCTTTTTATTCCCTGATGAGGAAGAACGTCTTAAGCGCCGCCCGGAATATGACGAACGTCTG -GAGACTGAACTTCAGGTTATCAACCAGATGGGCTTCCCGGGCTACTTCCTCATCGTTATGGAATTTATCCAGTGG -TCGAAAGATAACGGCGTACCGGTAGGGCCAGGCCGTGGCTCCGGTGCGGGTTCACTGGTGGCCTACGCGCTGAAA -ATCACCGACCTCGATCCGCTGGAATTTGACCTGCTGTTCGAACGTTTCCTTAACCCGGAACGTGTCTCCATGCCT -GACTTCGACGTTGACTTCTGTATGGAGAAACGCGATCAGGTTATCGAGCACGTAGCGGACATGTACGGTCGTGAT -GCGGTATCGCAGATCATCACCTTCGGTACAATGGCGGCGAAAGCGGTGATCCGCGACGTAGGCCGCGTGCTGGGG -CATCCGTACGGCTTTGTCGATCGTATCTCGAAACTGATCCCGCCCGATCCGGGGATGACGCTGGCGAAAGCGTTT -GAAGCCGAGCCGCAGCTGCCGGAAATCTACGAAGCGGATGAAGAAGTTAAGGCGCTGATCGACATGGCGCGCAAA -CTGGAAGGGGTCACCCGTAACGCCGGTAAGCACGCCGGTGGGGTGGTTATCGCGCCGACCAAAATTACCGATTTT -GCGCCGCTTTACTGCGATGAAGAGGGCAAACATCCGGTCACCCAGTTTGATAAAAGCGACGTTGAATACGCCGGA -CTGGTGAAGTTCGACTTCCTTGGTTTGCGTACGCTCACCATCATCAACTGGGCGCTGGAGATGATCAACAAGCGG -CGGGCGAAGAATGGCGAGCCGCCGCTGGATATCGCTGCGATCCCGCTGGATGATAAGAAAAGCTTCGACATGCTG -CAACGCTCGGAAACCACGGCGGTATTCCAGCTTGAATCGCGCGGCATGAAGGACCTGATCAAGCGTCTACAACCT -GACTGCTTCGAAGATATGATCGCCCTAGTGGCACTGTTCCGCCCCGGTCCGTTGCAATCAGGGATGGTGGATAAC -TTTATCGACCGTAAACATGGTCGTGAAGAGATCTCCTATCCGGACGTACAGTGGCAGCATGAAAGCCTGAAACCG -GTACTGGAGCCAACCTACGGCATTATCCTGTATCAGGAACAGGTCATGCAGATTGCGCAGGTGCTTTCTGGTTAT -ACCCTCGGTGGCGCGGATATGCTGCGTCGTGCGATGGGTAAGAAAAAGCCGGAAGAGATGGCTAAGCAACGTTCT -GTATTTGCTGAAGGTGCAGAAAAGAACGGAATCAACGCTGAACTGGCGATGAAAATCTTCGACCTGGTGGAGAAA -TTCGCTGGTTACGGATTTAACAAATCGCACTCTGCGGCCTATGCTTTGGTGTCATATCAAACGTTATGGCTGAAA -GCGCACTATCCTGCGGAGTTTATGGCGGCGGTAATGACCGCCGATATGGACAACACCGAGAAGGTGGTGGGTCTG -GTGGATGAGTGCTGGCGGATGGGGCTGAAAATCCTGCCACCAGATATAAACTCCGGTCTTTACCATTTCCACGTC -AACGACGACGGCGAAATCGTGTATGGTATTGGCGCGATCAAAGGGGTCGGTGAAGGTCCGATTGAGGCCATCATC -GAAGCCCGTAATAAAGGCGGCTACTTCCGCGAACTGTTTGATCTCTGCGCCCGTACCGACACCAAAAAGTTGAAC -CGTCGCGTGCTGGAAAAACTGATCATGTCCGGGGCGTTTGACCGTCTTGGGCCACATCGCGCAGCGCTGATGAAC -TCGCTGGGCGATGCGTTAAAAGCGGCAGATCAACACGCGAAAGCGGAAGCTATCGGTCAGGCCGATATGTTCGGC -GTGCTGGCCGAAGAGCCGGAACAAATTGAACAATCCTACGCCAGCTGCCAACCGTGGCCGGAGCAGGTGGTATTA -GATGGGGAACGTGAAACGTTAGGCCTGTACCTGACCGGACACCCTATCAACCAGTATTTAAAAGAGATTGAGCGT -TATGTCGGAGGCGTAAGGCTGAAAGACATGCACCCGACAGAACGTGGTAAAGTCATCACGGCTGCGGGGCTCGTT -GTTGCCGCGCGGGTTATGGTCACCAAGCGCGGCAATCGTATCGGTATCTGCACGCTGGATGACCGTTCCGGGCGG -CTGGAAGTGATGTTGTTTACTGACGCCCTGGATAAATACCAGCAATTGCTGGAAAAAGACCGCATACTTATCGTC -AGCGGACAGGTCAGCTTTGATGACTTCAGCGGTGGGCTTAAAATGACCGCTCGCGAAGTGATGGATATTGACGAA -GCCCGGGAAAAATATGCTCGCGGGCTTGCTATCTCGCTGACGGACAGGCAAATTGATGACCAGCTTTTAAACCGA -CTCCGTCAGTCTCTGGAACCCCACCGCTCTGGGACAATTCCAGTACATCTCTACTATCAGAGGGCGGATGCACGC -GCGCGGTTGCGTTTTGGCGCGACGTGGCGTGTCTCTCCGAGCGATCGTTTATTAAACGATCTCCGTGGCCTCATT -GGTTCGGAGCAGGTGGAACTGGAGTTTGACTAATACAGGAATACTATGAGTCTGAATTTCCTTGATTTTGAACAG -CCGATTGCAGAGCTGGAAGCGAAAATCGATTCTCTGACTGCGGTTAGCCGTCAGGATGAGAAACTGGATATTAAC -ATCGATGAAGAAGTGCATCGTCTGCGTGAAAAAAGCGTAGAACTGACACGTAAAATCTTCGCCGATCTCGGTGCA -TGGCAGATTGCGCAACTGGCACGCCATCCACAGCGTCCTTATACCCTGGATTACGTTCGCCTGGCATTTGATGAA -TTTGACGAACTGGCTGGCGACCGCGCGTATGCAGACGATAAAGCTATCGTCGGTGGTATCGCCCGTCTCGATGGT -CGTCCGGTGATGATCATTGGTCATCAAAAAGGTCGTGAAACCAAAGAAAAAATTCGCCGTAACTTTGGTATGCCA -GCGCCAGAAGGTTACCGCAAAGCACTGCGTCTGATGCAAATGGCTGAACGCTTTAAGATGCCTATCATCACCTTT -ATCGACACCCCGGGGGCTTATCCTGGCGTGGGCGCAGAAGAGCGTGGTCAGTCTGAAGCCATTGCACGCAACCTG -CGTGAAATGTCTCGCCTCGGCGTACCGGTAGTTTGTACGGTTATCGGTGAAGGTGGTTCTGGCGGTGCGCTGGCG -ATTGGCGTGGGCGATAAAGTGAATATGCTGCAATACAGCACCTATTCCGTTATCTCGCCGGAAGGTTGTGCGTCC -ATTCTGTGGAAGAGCGCCGACAAAGCGCCGCTGGCGGCTGAAGCGATGGGTATCATTGCTCCGCGTCTGAAAGAA -CTGAAACTGATCGACTCCATCATCCCGGAACCACTGGGTGGTGCTCACCGTAACCCGGAAGCGATGGCGGCATCG -TTGAAAGCGCAACTGCTGGCGGATCTGGCCGATCTCGACGTGTTAAGCACTGAAGATTTAAAAAATCGTCGTTAT -CAGCGCCTGATGAGCTACGGTTACGCGTAATTCGCAAAAGTTCTGAAAAAGGGTCACTTCGGTGGCCCTTTTTTA -TCGCCACGGTTTGAGCAGGCTATGATTAAGGAAGGATTTTCCAGGAGGAACACATGAACATCATTGCCATTATGG -GACCGCATGGCGTCTTTTATAAAGATGAGCCCATCAAAGAACTGGAGTCGGCGCTGGTGGCGCAAGGCTTTCAGA -TTATCTGGCCACAAAACAGCGTTGATTTGCTGAAATTTATCGAGCATAACCCTCGAATTTGCGGCGTGATTTTTG -ACTGGGATGAGTACAGTCTCGATTTATGTAGCGATATCAATCAGCTTAATGAATATCTCCCGCTTTATGCCTTCA -TCAACACCCACTCGACGATGGATGTCAGCGTGCAGGATATGCGGATGGCGCTCTGGTTTTTTGAATATGCGCTGG -GGCAGGCGGAAGATATCGCCATTCGTATGCGTCAGTACACCGACGAATATCTTGATAACATTACACCGCCGTTCA -CGAAAGCCTTGTTTACCTACGTCAAAGAGCGGAAGTACACCTTTTGTACGCCGGGGCATATGGGCGGCACCGCAT -ATCAAAAAAGCCCGGTTGGCTGTCTGTTTTATGATTTTTTCGGCGGGAATACTCTTAAGGCTGATGTCTCTATTT -CGGTCACCGAGCTTGGTTCGTTGCTCGACCACACCGGGCCACACCTGGAAGCGGAAGAGTACATCGCGCGGACTT -TTGGCGCGGAACAGAGTTATATCGTTACCAACGGAACATCGACGTCGAACAAAATTGTGGGTATGTACGCCGCGC -CATCCGGCAGTACGCTGTTGATCGACCGCAATTGTCATAAATCGCTGGCGCATCTGTTGATGATGAACGATGTAG -TGCCAGTCTGGCTGAAACCGACGCGTAATGCGTTGGGGATTCTTGGTGGGATCCCGCGCCGTGAATTTACTCGCG -ACAGCATCGAAGAGAAAGTCGCTGCTACCACGCAAGCACAATGGCCGGTTCATGCGGTGATCACCAACTCCACCT -ATGATGGCTTGCTCTACAACACCGACTGGATCAAACAGACGCTGGATGTCCCGTCGATTCACTTCGATTCTGCCT -GGGTGCCGTACACCCATTTTCATCCGATCTACCAGGGTAAAAGTGGTATGAGCGGCGAGCGTGTTGCGGGAAAAG -TGATCTTCGAAACGCAATCGACCCACAAAATGCTGGCGGCGTTATCGCAGGCTTCGCTGATCCACATTAAAGGCG -AGTATGACGAAGAGGCCTTTAACGAAGCCTTTATGATGCATACCACCACCTCGCCCAGTTATCCCATTGTTGCTT -CGGTTGAGACGGCGGCGGCGATGCTGCGTGGTAATCCGGGCAAACGGCTGATTAACCGTTCAGTAGAACGAGCTC -TGCATTTTCGCAAAGAGGTCCAGCGGCTGCGGGAAGAGTCTGACGGTTGGTTTTTCGATATCTGGCAACCGCCGC -AGGTGGATGAAGCCGAATGCTGGCCCGTTGCGCCTGGCGAACAGTGGCACGGCTTTAACGATGCGGATGCCGATC -ATATGTTTCTCGATCCGGTTAAAGTCACTATTTTGACACCGGGGATGGACGAGCAGGGCAATATGAGCGAGGAGG -GGATCCCGGCGGCGCTGGTAGCAAAATTCCTCGACGAACGTGGGATCGTAGTAGAGAAAACCGGCCCTTATAACC -TGCTGTTTCTCTTTAGTATTGGCATCGATAAAACCAAAGCAATGGGATTATTGCGTGGGTTGACGGAATTCAAAC -GCTCTTACGATCTCAACCTGCGGATCAAAAATATGCTACCCGATCTCTATGCAGAAGATCCCGATTTCTACCGCA -ATATGCGTATTCAGGATCTGGCACAAGGGATCCATAAGCTGATTCGTAAACACGATCTTCCCGGTTTGATGTTGC -GGGCATTCGATACTTTGCCGGAGATGATCATGACGCCACATCAGGCATGGCAACGACAAATTAAAGGCGAAGTAG -AAACCATTGCGCTGGAACAACTGGTCGGTAGAGTATCGGCAAATATGATCCTGCCTTATCCACCGGGCGTACCGC -TGTTGATGCCTGGAGAAATGCTGACCAAAGAGAGCCGCACAGTACTCGATTTTCTACTGATGCTTTGTTCCGTCG -GGCAACATTACCCCGGTTTTGAAACGGATATTCACGGCGCGAAACAGGACGAAGACGGCGTTTACCGCGTACGAG -TCCTAAAAATGGCGGGATAACTTGCCAGAGCGGCTTCCGGGCGAGTAACGTGCTGTTAACAAATAAAGGAGACGT -TATGCTGGGTTTAAAACAGGTTCACCATATTGCGATTATTGCGACGGATTATGCGGTGAGCAAAGCTTTCTACTG -CGATATTCTTGGTTTCACGCTGCAAAGCGAAGTCTATCGCGAAGCGCGCGACTCATGGAAAGGGGATTTGGCGCT -TAATGGGCAATATGTGATTGAGCTTTTCTCATTTCCGTTCCCGCCGGAACGACCCAGCCGACCGGAAGCTTGCGG -TCTGCGTCATCTGGCTTTTAGCGTTGATGACATCGATGCGGCAGTGGCGCACCTTGAAAGCCATAACGTGAAGTG -TGAAACCATCCGTGTCGATCCATACACGCAAAAACGCTTCACCTTCTTTAACGATCCGGACGGGCTGCCGTTGGA -ACTGTATGAGCAGTAAGGCTTGTCATCGCCGCATTTGCCCGGTAACGTGCCGGGCATTGCTACTGTAAAATCGCA -CCATCATGACACTCACGCTCAATAGACAACTTCTCACCTCACGCCAGATTCTGGTGGCCTTTAGCGGCGGGCTTG -ACTCCACCGTTCTGCTGCATCAGTTGGTGCAGTGGCGGACGGAAAATCCGGGTGTCGCTCTGCGCGCTATTCATG -TGCATCACGGTTTAAGTGCCAATGCCGATGCCTGGGTTACGCATTGCGAAAACGTCTGCCAACAGTGGCAGGTGC -CGCTGGTGGTCGAACGCGTACAACTTGCGCAAGAAGGACTGGGCATTGAGGCCCAGGCGCGGCAGGCACGTTATC -AGGCATTTGCCCGCACCTTGTTGCCCGGTGAAGTGCTGGTCACCGCGCAACATCTCGACGATCAATGTGAAACCT -TTCTGCTGGCGCTAAAACGCGGCAGTGGCCCTGCCGGGCTTTCGGCTATGGCGGAAGTCTCGGAGTTTGCCGGAA -CGCGGCTTATTCGCCCGTTGCTCGCCCGCACGCGGGGGGAACTGGTGCAGTGGGCGCGTCAGTATGATTTACGCT -GGATTGAAGACGAAAGTAATCAGGACGACTCATACGATCGTAACTTTCTGCGCCTGCGCGTAGTGCCGTTATTGC -AGCAGCGTTGGCCGCATTTTGCCGAAGCAACGGCCCGCAGCGCCGCACTTTGTGCTGAACAAGAGAGCCTGCTGG -ATGAACTGCTGGCAGATGATTTAGCACACTGTCAATCGCCGCAGGGGACGCTGCAGATTGTGCCAATGCTGGCGA -TGAGTGATGCCCGCCGCGCGGCGATTATCCGCCGCTGGCTGGCAGGGCAGAATGCACCGATGCCTTCCCGCGACG -CGTTGGTGAGGATCTGGCAGGAAGTGGCGCTGGCGCGGGAAGATGCCTCACCCTGTTTACGTTTGGGCGCGTTTG -AAATCCGACGCTATCAGTCGCAACTGTGGTGGATTAAATCCGTCACCGGGCAAAGCGAAAACATTGTGCCGTGGC -AGACGTGGCTTCAACCGCTGGAATTACCGGCGGGGCTGGGAAGTGTACAGCTTAATGCGGGAGGCGATATTCGCC -CTCCGCGTGCAGACGAAGCGGTCAGCGTGCGTTTCAAAGCGCCAGGATTGCTGCATATTGTCGGGCGTAACGGCG -GACGTAAGCTAAAGAAAATCTGGCAAGAGCTGGGCGTGCCGCCGTGGCTACGTGACACCACGCCACTGCTGTTTT -ATGGCGAAACGCTGATTGCGGCGGCAGGGGTATTTGTGACGCAAGAAGGTGTGGCTGAAGGTGAGAATGGCGTAA -GTTTTGTCTGGCAGAAAACGCTTAGTTAAGTGAAAGCCGGATAAGACGCATCAAACGTCGCATCCGGCGAAAGTC -AATCAGGATTCGCTTACCACCACCGTACCGATTTCCGGGTGGCTAAAGCTGGTAATTTTATCCAGACGCAGCTCG -CGGGTTTCGCCAGCGGCCTCGACGACCAGGTACTCCACATTTTTGCGGGAGACTAAATCACTGGCTTTTGCCTGC -AATTTTTCGCCATCTTTCAGCTCAAGTGTCAGCATTAAATGATGCTGGCAGGCGAGCTCAAGATTATCGTAATCA -TCACAATTGATTGGTTGATACGTATCATTCATTGACATAATCGCTCACCAGTAAGTTTGCCGCAGCGTATGCTGC -TTTTTCCCTGACAGCCTCAGAAAGGGCGTCGTCGGCAGCCATTTCATTCAGCACTTTCAAAACGCAGCCCAGCGC -GTCCGGAACGTATCCTAAGTCTCCGCTGGCGATTTCCGCGTACCGCTTGCGTATTAACTCACAATATTTTTCCAC -ATGCCCTCCTGTCAGCACTCTGACTTAACCGTGGATGCAAGTCTAAGCCTACGAAGATAAACTCTGTTTCGCAAG -GTGACTATACCACACTCATTTCTGCAATATCAGCGCCGCAACTGCACGTATTCCGTTACAATGGCCTCCTGATTC -GAAAGGAGTTTTCTTATGGCGCTTAAAGCGACAATTTATAAAGCGACGGTTAATGTGGCCGATCTCGACCGCAAC -CAGTTTCTCGATGCCTCTCTGACGCTGGCGCGCCATCCTTCAGAAACCCAGGAGCGTATGATGCTGCGCTTGCTG -GCGTGGCTGAAATATGCTGATGAACGTCTGCAATTTACCCGTGGTTTGTGTGCCGATGATGAGCCGGAAGCGTGG -CTGCGTAACGATCACCTGGGCATTGATTTGTGGATTGAGCTGGGGCTGCCGGATGAGCGGCGGATTAAGAAAGCC -TGCACCCAGGCCGCAGAAGTGGCGCTGTTTACCTATAATAGTCGGGCGGCGCAAATCTGGTGGCAGCAAAATCAG -AGCAAATGTGTGCAGTTTGCCAATCTTTCCGTCTGGTATCTGGACGATGAACAACTGGCGAAAGTAAGCGCCTTT -GCCGATCGTACCATGACGCTGCAGGCAACGATTCAGGATGGCGTGATCTGGTTATCGGATGATAAGAATAATCTG -GAAGTGAACTTAACCGCCTGGCAACAACCTTCATGATTGTGATTTCCCGACATGTTGCTATTCCCGATGGTGAGC -TTGAGATCACCGCCATTCGTGCGCAGGGCGCGGGCGGGCAGCATGTTAATAAGACCTCAACGGCTATTCATCTGC -GTTTTGACATTCGGGCGTCCAGCCTGCCAGAGTATTACAAAGAGCGTCTGCTCGCCGCCAGCCATCATTTGATCA -GCAGTGATGGCGTGATTGTCATTAAGGCACAGGAATACCGCAGTCAGGAACTGAACCGCGAAGCAGCTCTGGCCC -GGCTGGTGGCTATGATTAAAGAATTAACAACAGAAAAAAAAGCCCGACGACCCACGCGGCCCACCCGTGCATCGA -AAGAGCGCAGGCTGGCATCGAAAGCACAAAAATCAAGCGTGAAGGCGATGCGCGGCAAAGTGCGCAGCGGTCGGG -AATAAAAAGAAGGAATGGATGGTGAAAAAAGCGATAGTGACAGCGATGGCTGTAATCAGCCTCTTTACTCTGATG -GGATGTAATAATCGGGCCGAAGTCGATACGCTTTCTCCGGCGCAGGCTGCCGAACTGAAACCGATGCCGCAAAGT -TGGCGCGGCGTGCTGCCGTGTGCCGATTGCGAAGGAATCGAAACCTCTCTGTTCCTCGAAAAAGACGGAACATGG -GTGATGAATGAGCGTTATCTCGGTGCTCGTGAAGAACCTTCCTCCTTCGCTTCCTACGGTACATGGGCGCGAACC -GCTGACAAGCTGGTATTAACCGACAGCAAAGGTGAAAAGTCATATTATCGGGCGAAAGGCGATGCGCTGGAGATG -CTCGATCGTGAAGGCAATCCGATTGAATCGCAGTTCAACTATACGCTGGAAGCGGCACAATCCAGTTTACCTATG -ACGCCGATGACCCTGCGGGGCATGTATTTTTATATGGCTGATGCGGCGACCTTCACTGATTGCGCGACCGGAAAA -CGTTTCATGGTAGCGAATAACGCAGAGCTGGAGCGTAGCTACCTGGCTGCGCGCGGTCACAGTGAAAAACCGGTG -TTACTGTCAGTAGAAGGTCACTTTACGCTTGAGGGTAATCCGGATACCGGTGCGCCGACTAAAGTATTGGCACCC -GATACGGCAGGGAAATTTTACCCCAACCAGGATTGCAGTAGTTTGGGGCAGTAACCCGTCTTGAGACAGAAACAA -ACGCAAAACAGGCCAGAAGGATATATTTCAACATTTTGAATTTGCACGTTTTTTGTAGGCCGGATAAGGCGTTTA -CGCCGCATCCGGCAATGGTGCTCAACGCCTGATGCGACGCTGGCGCGTCTTATCATGCCTACAACCCCCCTCATA -CCTTAAGGCGGATAAGGCATTTACTTTATCACCGGGTCAAACCAACAAAGCGACCCGCCTTGATATAAATCCCAG -GCTTCAGGTGCCCAACATACTGTAACTGCGTTTCTGGCTTAAACGCAGAGACATCACCAATACGCATATGCATCA -GATCGGCAGGGCTAATCCAGCCCGATTGCGCCAGTGTAAGTGGATGCCCGGCTTTGGCAAAGGCATCCGTGACAA -ATTCCGAACAAAACCACGACTTTTTGTCTCCTTCGCCCACACTGCTTAACTGCGCTTTCGCCAGGCCGCTGACGC -ACTGTTGGCGAAAATCCTCGGAGAACGGATTCAGTGAGCACATCTGGCGAGTCACCATAAAGGGAATAAATTCGA -CAATGCCGCGATAGTTATAACCGCTATCTTTGATTTTATTGGCAAACGCGGTGATATCTGTGGCTTGTTGCGGGG -TAAGATCCGGGACTCGTAAGACGAAAAGCTTATCACTATGCTTCATCGCTTTTTTAAGGGAAACGATCTGGACGC -CAGCGCCTGTCGCTTCTGCAACGTTATTATCACCCAGAAAGATTGCAACGTGACTCACAGAGGAAGTGCTGAAGA -CGCGGATTCCAAATGAGGTTACCCCAAGGCTTGAGGAGAACAGCAAATCGCCGGGTTTGAGATCAGGTGCCGTTA -TTTCTTTTATTGATTGTTCGGTGAAAGAGCTTTGATGCTGGAATTTGACAGCCCATGTTTTTGCCTCGGCATCTA -CTGCTGTGGCTGATGGGTCTGGCTGGCTGATATCAACGGTACAAGCCGAAAGTAAAAGAAAGCTGGGGAGAAACA -GGCGGCAGTACGCCTTTGGTTTATCCATTTTATACAATCCATGTAAAAAAAGGGCCCTGAAATTCAGGACCCTTT -CTGGCATCAGCCTTTAATCTGTTTCACCAGATATTCGACGATGTCACCAGTCTTAATTAACTGTTTCTCGCCGTT -GCGACGATATTTATATTCGATATCGTCGTTGTCGAGGTTACGGTCGCCCAGCACAATAGTGTGCGGAATACCGAT -CAGTTCCATATCAGCAAACATCACGCCCGGACGCTCTTTGCGGTCATCCAGCAGCACTTCGATACCTTGTGCACG -CAGTTCGCTGTACAGTTTCTCAGCAAGCTCTTGTACGCGGAAGGATTTGTGCATGTTCATCGGCAGAATCGCCAC -CTGGAACGGCGCGATAGCGTCAGGCCATACGATGCCTCGTTCGTCGTAGTTCTGCTCAATCGCCGCAGCTACCAC -ACGCGTTACCCCGATACCGTAGCAACCCATCGTCAGGATTTGGTTACGGCCATCTTCACCCTGTACGGAGGCTTT -CAGTGCTTCGGAGTACTTGGTACCCAGCTGGAAGATGTGACCAACTTCGATACCACGTTTGATCAGCAGCCTACC -CTGGCCATCCGGGCTTGGATCGCCAGCCACCACGTTACGGATATCTGCAACTTCCGGGGTAGCGACATCGCGATC -CCAGTTGATGCCGAAGTAGTGTTTACCATCGATGTTAGCACCAGCAGCGAAATCACTCATCGCCGCAACGGTACG -GTCAATCACCACCGGAATCGGCATGTTTACCGGACCCAGTGAACCCGGACCGGCTTTAACCACGGCACGAATTTC -TTCTTCGGTCGCGAAAGTCAGCGGGCTTGCAACCTGCGGCAGTTTTTCTGCTTTAACTTCGTTCAGCTCGTGATC -ACCGCGCACCAGCAGCGCAACCTGCGGGAAGCTGCTGCCTTCAACCGCTTTAACCAGCAGAGTCTTAACCGTTTT -CTCAATCGGCAGATTGAACTGTTCAACCAGTTCCGCGATGGTTTTCGCGTTCGGCGTATCAACCAGCGTCATTTC -CTGGGTAGCAGCAGCGCGCGGTTCTTTCGGCGCGATAGCTTCTGCCAGTTCAATGTTCGCTGCATAGTCAGAGGT -GTCGGAGAAGACCACATCGTCTTCACCGCTCTGCGCCAGCACCTGGAATTCGTGAGAGGCGCTGCCGCCGATAGA -ACCGGTGTCGGCTTGTACGGCGCGGAAATCCAGCCCCATGCGGCTGAAGATTTTGCTGTAGGCCGCATACATTGC -ATCGTAGGTTTCCTGCAGGGATTCCTGAGAAGTATGGAAAGAGTAAGCATCTTTCATCAGGAATTCGCGGGAACG -CATGACGCCGAAACGCGGACGCACTTCGTCGCGGAACTTGGTCTGGATCTGATAGAAGTTCAGCGGCAGCTGTTT -GTAAGAGCTAAGCTCGTTACGAATCAGGTCAGTGATAACTTCTTCATGAGTTGGGCCGAGTACGAACGGACGCTC -GCCACGGTCAACAAAACGCAGCAGTTCCGGACCGTACTGTTCCCAACGACCACTCTCTTGCCACAAATCGGCTGG -CTGAACCACCGGCATCGACACCTCGATCGCACCGGCGTTGTTCATCTCTTCACGCACGATGTTTTCGACTTTTTT -CAGAACGCGCACGCCGGTCGGCAGCCAGGTATATAACCCGGAGGCCAGCTTGCGGATCATCCCGGCGCGCAGCAT -CAGCTGATGGCTGATCACCTCGGCGTCGGCAGGTGTCTCCTTGAGAGTGGAGAGCAGGTATTGGCTAGTACGCAT -GTTGTTACGGTTCCAGTTGGAAGGTAGAACAGGCTCAAGGCGAGCCTGGGACAAAAAAAAGTGATTTAGTTTACC -AGTGCAAAAGAAATGTCAAAAGAGAAGGGCGTGAATTTAACGCGGTTCCAGCGCAAAGACTTCAAAACCTGCGTC -GGTGACGCGCCAGCGAACGTTAAAATCATGTAGCCAGACGGCATAGGTTTTGCCCGTTTCCTCACCTTTACGATA -GGCCGGGCGCGGGTCCTGCGCCAGTACTTCGCGGATAAACAGCGTTAACTGCGGATAACGCTTCTCCAGCGTCAA -AAGCTGCTTTTCGACCTCTGCGGTAAAACTCACCGCCATCTCTGCAGCTGGCGCACTTTGCGCATAGCTGGCACT -GGCATCGGGAAGCGATTCGGCAAAGGGGAGATACGGTTTGATATCCACTACCGGCGTACCATCGACCAGATCCAG -ACTGCCGAGCTTCAGAATCACGCTGTCTTTATGGCAAACAACCTCTTTCAGCTCTACCAGCGACATGCCAATTGG -GTTAGGGCGGAAAGTAGAGCGTGTTGCGAAAACCCCCATTCTGGCGTTACCGCCGAGGCGCGGTGGACGCACAGT -CGGACGCCAGCCGCCTTCCATCGTTTGATGAAAGACGAAAAGGATCCATAAATGGCTGAACGCTTCCAGGCCGCG -AACGGCGTCGGCCTGGTTGTAGGGAGCAATGAGATGCAGTTCGCCGTTGGCGCTTTTTACCAGACCTGGCTGGCG -CGGAACGGCGAACTTTTCTTTATAGGGCGAGCGAATAACGCCTATTTGCTCGAACTGGAAACTGCTCATTTCGCC -GTAATGTTAAGCGCAGAACCGATACATACAGCCTGACGATAGCAGCCTGGCGTACCGCTGGTGACTTCGCAGCTA -TGCAGTAATACAGCATTGGCTTTCATTTTAGAGGCGTTGATTTGCATCCGCTTACGTGCGGTTGGAATGCTCGGC -GGAGAGTCCTGATTAGAGGCCTGGCAAGAGTCGCCACTGACTTCACCGAGATCGCGGAACGGTTTGCCGACTAAT -TCTTCTGCATTGGTATAAATTCGGACCGGCGTGGCGCGCGGCGCTTTCGGTTTTGCAGGCTCCGCTTTCGGCTGG -GGTGCAGTGCTTTGAACGGGTTCGACAGGGGATCTGCTTAACATGGAACAGCCGCTTAGCATGAGTGCTACTAAA -CAGATCGGTAAAGCACGCATAGTATTTCCTCAATGTATGATCAAAACGTCAATATTGAATCAGGAGCTTGTAAAA -ATGACAAGACGGGCAAGCGCCCGTCCTGAATGATATTACAAATTGTGGAAACAGCCTAAAAATTACCAGCCTTTA -ACAGCTCCGCCGTTAAACACTTTGTTTGCTGCTTCGTAAACTTCGTCAGACTGATAAGCCTGGACGAATTTCTTC -ACGTTCTCGGCGTCTTTGTTATCTTCACGCGTCACGATCAGGTTTACGTACGGGGACTCTTTATCTTCAACAAAG -ATACCGTCTTTCGCCGGAGTCAGGCCAATCTGGCTGGCATAGGTGGTATTGATAACTGCCAGAGCGATTTGCGCG -TCGTCCAGAGAACGCGGCAGTTGCGGTGCTTCCAGTTCAACAATTTTCAGATTTTTGGGGTTCTCAACAACATCA -AGAACGGTCGGCAGCAGGCCAACGCCATCTTTCAGTTTGATCAAGCCCACTTTTTGCAGCAGCAGCAGTGAACGA -CCAAGGTTAGTTGGGTCGTTTGGCACGGCAACCTGCGAACCATCCTGCAGTTCATCCAGTGATTTGATTTTCTTG -GAGTAACCAGCAATCGGATAAACAAAAGTGTTGCCTACTGCGACCAGTTTGTAGCCACGATCTTTCAGTTGCTGA -TCAAGGTACGGTTTATGCTGGAAGGCGTTGGCGTCGATATCGCCTTTGCTCAATGCTTCGTTTGGCAGAACATAG -TCGTTGAAGGTTACCAGCTCAACGTCCAGGCCATATTTGTCTTTCGCAACTTTCTGCGCGACTTCTGCAACCTGC -TGTTCGGCACCAACAATCACGCCGACTTTAATGTGGTTTGGATCTTTTTCATCCTGACCGCAGCCTACCAGTGCC -AGTGATCCGATCAGGGCTCCCACTGCCGCAAAGGTTTTGAATTTGAACGCCATACCTTATTCCTTCTTCAATTAT -TTATGTTGTGTTGAACGTTACTTGCGAGTGACAGCCCGGACGATGCGGTCGCCTGCGAACTGAATTAAATAAACC -AGAATGACCAGCAATACCAGTACCGTATTCATCACCGTCGCGTTATAGCCGATGTAGCCATACTGATAGCCAATC -TGACCTAAACCACCGGCACCGACTGCACCACCCATCGCGGAATAACCGACCAGGGTAATCAGGGTGATAGTTGCC -GCATTCACCAGACCCGGCAGCGCTTCCGGTAACAGCACCTTACGGACGATCTGCATCGGCGTGGCACCCATTGCG -CGGGAAGCTTCAATTAACCCGGTTGGGATCTCCAGCAGAGCGTTCTCGACCATACGGGCAATAAACGGTGCTGCA -CCAACGGTTAACGGAACAATCGCTGCCTGCAAACCAATCGATGTACCGACAATAACGCGGGTAAACGGAATCATC -CATACAAGCAAGATAATGAACGGGATGGAACGGAAAATGTTCACAATCGCAGAAACGGTACGATACAGCTTCGCG -TTAGCAATAATTTGCCCCGGACGCGTGACATAAAGCAGAACGCCAACCGGCAGACCAATCACAAAGCCAAAAAAA -CCGGATACGAAGGTCATTGCCAGCGTTTCCCATACGCCACGAACCAGCAGCCACATCATCGGCTCAGACATAACC -CAGTACCTCTACTTTTACATGGTGTTCCTGCAGCCAGGCAATGGCGGCTTGCGTATCTTGTTGTGTGCCGTGCAT -TTCAGTCAGCATGATGCCGAACTTAACGCCACCGGCGTAATCCATCTGCGCGCTAATAATGTTGTTGTTGACGTT -GAAACGACGCGCGGTTTCAGAAAGCAGTGGGGCATCGACCGATTGACCGGTAAACTCCAGACGCAGCATCGGCAC -GCAGTCAGTAAATGGCTCCGCTTGCAGACGTTCCTGGTAATCTTCCGGGATATCCAGATGCAGGGTCGACTGAAT -AAACTTCTGCGCCAGCGGCGTTTTCGGATGCGAGAACACTTCACTTACCGTGTCCTGCTCGATCAGTTCTCCATT -GCTGATGACCGCCACGCAATCACAAATGCGCTTCACAACGTCCATTTCGTGGGTGATCAACAGAATCGTCAACCC -CAGACGGCGGTTGATGTCTTTCAGCAGTTCGAGAATAGAACGTGTCGTTGCCGGGTCCAGCGCGCTGGTGGCTTC -ATCACACAGCAATACTTTGGGATTGCTGGCTAACGCACGGGCAATTGCCACACGTTGTTTCTGCCCACCGGAAAG -ATTCGACGGGTAGCTATCATGCTTATCGCCAAGACCAACCAATGACAGCAATTCCGTCACGCGACGTTTGACCTC -GTCTTTCGGTGTGTTGTCCAGCTCCAGCGGCAGAGCCACGTTGCCAAAAACAGTACGCGAAGAGAGCAGGTTAAA -ATGCTGGAAAATCATACCAATCTGGCGGCGAGCTTTGGTCAACTCGGATTCTGACAGCGTGGTCAGTTCCTGGCC -ATCGACCAGCACGCTACCCTCGGTTGGGCGCTCCAGCAGGTTTACACAACGTATAAGCGTACTCTTACCCGCGCC -TGAGGCACCGATAACGCCATAAATTTGTCCAGCTGGCACATGCAGGCTGACGTTGTTCAACGCCTGGATGGTGCG -GGTGCCCTGGTGGAACACTTTGGTGATATTCGAAAGTTTTATCATTGATTATTTATTATCGTCATTAAGTTAGTC -GTGGCATCTCGAATGCCTGAAACGGGCAACGCCGTCAATGAAATGGATGTTAAGGCATCCAGACGTCTAAATCAA -TCAGGTTTATGCGAAGAGCACTTTCTTGCAGGTCGAAACATGCGATACTAGCGTCACATGCCTTATTAAGGAGCT -ATAAAAGGTGGCGAAGAGCGTACCCGCAATTTTTCTTGACCGTGATGGCACCATTAATGTCGATCACGGCTATGT -CCATGAGATCGACAACTTTGAATTTATCGACGGTGTTATTGACGCCATGCGCGAGCTAAAAAAAATGGGCTTTGC -GCTGGTGGTAGTAACCAACCAGTCTGGCATTGCTCGCGGTAAATTTACCGAAGCACAGTTTGAAACGCTGACCGA -GTGGATGGACTGGTCGCTGGCGGACCGAGATGTCGATCTGGATGGTATCTATTATTGCCCGCATCATCCGCAGGG -TAGTGTTGAAGAGTTTCGCCAGGTCTGCGATTGCCGCAAACCACATCCGGGGATGCTTTTGTCAGCACGCGATTA -TTTGCATATTGATATGGCCGCTTCTTATATGGTGGGCGATAAATTAGAAGATATGCAGGCAGCGGTTGCGGCGAA -CGTGGGAACAAAAGTGCTGGTGCGTACGGGTAAACCTATTACGCCTGAAGCAGAAAACGCGGCGGATTGGGTGTT -AAATAGCCTGGCAGACCTGCCGCAAGCGATAAAAAAGCAGCAAAAACCGGCACAATGATTAAAAGATGAGCGGTT -GAAATAAAAATGCATTTTTCCGCTTGTCTTCCTGAGCCGACTCCCTATAATGCGCCTCCATCGACACGGCGGATG -TGAATCACTTCACACAAACAGCCGGTTCGGTTGAAGAGAAAAATCCTGAAATTCAGGGTTGACTCTGAAAGAGGA -AAGCGTAATATACGCCACCTCGCGACAGTGAGCTGAAAGCCGCGTCGCAACTGCTCTTTAACAATTTATCAGACA -ATCTGTGTGGGCACTCGAAGATACGGATTCTTAACGTCGCAAGACGAAAAATGAATACCAAGTCTCAAGAGTGAA -CACGTAATTCATTACAAAGTTTAATTCTTTGAGCATCAAACTTTTAAATTGAAGAGTTTGATCATGGCTCAGATT -GAACGCTGGCGGCAGGCCTAACACATGCAAGTCGAACGGTAACAGGAAGAAGCTTGCTTCTTTGCTGACGAGTGG -CGGACGGGTGAGTAATGTCTGGGAAACTGCCTGATGGAGGGGGATAACTACTGGAAACGGTAGCTAATACCGCAT -AACGTCGCAAGACCAAAGAGGGGGACCTTCGGGCCTCTTGCCATCGGATGTGCCCAGATGGGATTAGCTAGTAGG -TGGGGTAACGGCTCACCTAGGCGACGATCCCTAGCTGGTCTGAGAGGATGACCAGCCACACTGGAACTGAGACAC -GGTCCAGACTCCTACGGGAGGCAGCAGTGGGGAATATTGCACAATGGGCGCAAGCCTGATGCAGCCATGCCGCGT -GTATGAAGAAGGCCTTCGGGTTGTAAAGTACTTTCAGCGGGGAGGAAGGGAGTAAAGTTAATACCTTTGCTCATT -GACGTTACCCGCAGAAGAAGCACCGGCTAACTCCGTGCCAGCAGCCGCGGTAATACGGAGGGTGCAAGCGTTAAT -CGGAATTACTGGGCGTAAAGCGCACGCAGGCGGTTTGTTAAGTCAGATGTGAAATCCCCGGGCTCAACCTGGGAA -CTGCATCTGATACTGGCAAGCTTGAGTCTCGTAGAGGGGGGTAGAATTCCAGGTGTAGCGGTGAAATGCGTAGAG -ATCTGGAGGAATACCGGTGGCGAAGGCGGCCCCCTGGACGAAGACTGACGCTCAGGTGCGAAAGCGTGGGGAGCA -AACAGGATTAGATACCCTGGTAGTCCACGCCGTAAACGATGTCGACTTGGAGGTTGTGCCCTTGAGGCGTGGCTT -CCGGAGCTAACGCGTTAAGTCGACCGCCTGGGGAGTACGGCCGCAAGGTTAAAACTCAAATGAATTGACGGGGGC -CCGCACAAGCGGTGGAGCATGTGGTTTAATTCGATGCAACGCGAAGAACCTTACCTGGTCTTGACATCCACAGAA -CTTTCCAGAGATGGATTGGTGCCTTCGGGAACTGTGAGACAGGTGCTGCATGGCTGTCGTCAGCTCGTGTTGTGA -AATGTTGGGTTAAGTCCCGCAACGAGCGCAACCCTTATCTTTTGTTGCCAGCGGTCCGGCCGGGAACTCAAAGGA -GACTGCCAGTGATAAACTGGAGGAAGGTGGGGATGACGTCAAGTCATCATGGCCCTTACGACCAGGGCTACACAC -GTGCTACAATGGCGCATACAAAGAGAAGCGACCTCGCGAGAGCAAGCGGACCTCATAAAGTGCGTCGTAGTCCGG -ATTGGAGTCTGCAACTCGACTCCATGAAGTCGGAATCGCTAGTAATCGTGGATCAGAATGCCACGGTGAATACGT -TCCCGGGCCTTGTACACACCGCCCGTCACACCATGGGAGTGGGTTGCAAAAGAAGTAGGTAGCTTAACCTTCGGG -AGGGCGCTTACCACTTTGTGATTCATGACTGGGGTGAAGTCGTAACAAGGTAACCGTAGGGGAACCTGCGGTTGG -ATCACCTCCTTACCTTAAAGAAGCGTACTTTGCAGTGCTCACACAGATTGTCTGATGAAAATGAGCAGTAAAACC -TCTACAGGCTTGTAGCTCAGGTGGTTAGAGCGCACCCCTGATAAGGGTGAGGTCGGTGGTTCAAGTCCACTCAGG -CCTACCAAATTTGCACGGCAAATTTGAAGAGGTTTTAACTACATGTTATGGGGCTATAGCTCAGCTGGGAGAGCG -CCTGCTTTGCACGCAGGAGGTCTGCGGTTCGATCCCGCATAGCTCCACCATCTCTGTAGTGGTTAAATAAAAAAT -ACTTCAGAGTGTACCTGCAAAGGTTCACTGCGAAGTTTTGCTCTTTAAAAATCTGGATCAAGCTGAAAATTGAAA -CACTGAACAATGAAAGTTGTTCGTGAGTCTCTCAAATTTTCGCAACACGATGATGGATCGCAAGAAACATCTTCG -GGTTGTGAGGTTAAGCGACTAAGCGTACACGGTGGATGCCCTGGCAGTCAGAGGCGATGAAGGACGTGCTAATCT -GCGATAAGCGTCGGTAAGGTGATATGAACCGTTATAACCGGCGATTTCCGAATGGGGAAACCCAGTGTGTTTCGA -CACACTATCATTAACTGAATCCATAGGTTAATGAGGCGAACCGGGGGAACTGAAACATCTAAGTACCCCGAGGAA -AAGAAATCAACCGAGATTCCCCCAGTAGCGGCGAGCGAACGGGGAGGAGCCCAGAGCCTGAATCAGTGTGTGTGT -TAGTGGAAGCGTCTGGAAAGGCGCGCGATACAGGGTGACAGCCCCGTACACAAAAATGCACATGCTGTGAGCTCG -ATGAGTAGGGCGGGACACGTGGTATCCTGTCTGAATATGGGGGGACCATCCTCCAAGGCTAAATACTCCTGACTG -ACCGATAGTGAACCAGTACCGTGAGGGAAAGGCGAAAAGAACCCCGGCGAGGGGAGTGAAAAAGAACCTGAAACC -GTGTACGTACAAGCAGTGGGAGCATGCTTAGGCGTGTGACTGCGTACCTTTTGTATAATGGGTCAGCGACTTATA -TTCTGTAGCAAGGTTAACCGAATAGGGGAGCCGAAGGGAAACCGAGTCTTAACTGGGCGTTAAGTTGCAGGGTAT -AGACCCGAAACCCGGTGATCTAGCCATGGGCAGGTTGAAGGTTGGGTAACACTAACTGGAGGACCGAACCGACTA -ATGTTGAAAAATTAGCGGATGACTTGTGGCTGGGGGTGAAAGGCCAATCAAACCGGGAGATAGCTGGTTCTCCCC -GAAAGCTATTTAGGTAGCGCCTCGTGAACTCATCTCCGGGGGTAGAGCACTGTTTCGGCAAGGGGGTCATCCCGA -CTTACCAACCCGATGCAAACTGCGAATACCGGAGAATGTTATCACGGGAGACACACGGCGGGTGCTAACGTCCGT -CGTGAAGAGGGAAACAACCCAGACCGCCAGCTAAGGTCCCAAAGTCATGGTTAAGTGGGAAACGATGTGGGAAGG -CCCAGACAGCCAGGATGTTGGCTTAGAAGCAGCCATCATTTAAAGAAAGCGTAATAGCTCACTGGTCGAGTCGGC -CTGCGCGGAAGATGTAACGGGGCTAAACCATGCACCGAAGCTGCGGCAGCGACGCTTATGCGTTGTTGGGTAGGG -GAGCGTTCTGTAAGCCTGTGAAGGTGTACTGTGAGGTATGCTGGAGGTATCAGAAGTGCGAATGCTGACATAAGT -AACGATAAAGCGGGTGAAAAGCCCGCTCGCCGGAAGACCAAGGGTTCCTGTCCAACGTTAATCGGGGCAGGGTGA -GTCGACCCCTAAGGCGAGGCCGAAAGGCGTAGTCGATGGGAAACAGGTTAATATTCCTGTACTTGGTGTTACTGC -GAAGGGGGGACGGAGAAGGCTATGTTGGCCGGGCGACGGTTGTCCCGGTTTAAGCGTGTAGGCTGGTTTTCCAGG -CAAATCCGGAAAATCAAGGCTGAGGCGTGATGACGAGGCACTACGGTGCTGAAGCAACAAATGCCCTGCTTCCAG -GAAAAGCCTCTAAGCATCAGGTAACATCAAATCGTACCCCAAACCGACACAGGTGGTCAGGTAGAGAATACCAAG -GCGCTTGAGAGAACTCGGGTGAAGGAACTAGGCAAAATGGTGCCGTAACTTCGGGAGAAGGCACGCTGATATGTA -GGTGAAGCGACTTGCTCGTGGAGCTGAAATCAGTCGAAGATACCAGCTGGCTGCAACTGTTTATTAAAAACACAG -CACTGTGCAAACACGAAAGTGGACGTATACGGTGTGACGCCTGCCCGGTGCCGGAAGGTTAATTGATGGGGTTAG -CGCAAGCGAAGCTCTTGATCGAAGCCCCGGTAAACGGCGGCCGTAACTATAACGGTCCTAAGGTAGCGAAATTCC -TTGTCGGGTAAGTTCCGACCTGCACGAATGGCGTAATGATGGCCAGGCTGTCTCCACCCGAGACTCAGTGAAATT -GAACTCGCTGTGAAGATGCAGTGTACCCGCGGCAAGACGGAAAGACCCCGTGAACCTTTACTATAGCTTGACACT -GAACATTGAGCCTTGATGTGTAGGATAGGTGGGAGGCTTTGAAGTGTGGACGCCAGTCTGCATGGAGCCGACCTT -GAAATACCACCCTTTAATGTTTGATGTTCTAACGTTGACCCGTAATCCGGGTTGCGGACAGTGTCTGGTGGGTAG -TTTGACTGGGGCGGTCTCCTCCTAAAGAGTAACGGAGGAGCACGAAGGTTGGCTAATCCTGGTCGGACATCAGGA -GGTTAGTGCAATGGCATAAGCCAGCTTGACTGCGAGCGTGACGGCGCGAGCAGGTGCGAAAGCAGGTCATAGTGA -TCCGGTGGTTCTGAATGGAAGGGCCATCGCTCAACGGATAAAAGGTACTCCGGGGATAACAGGCTGATACCGCCC -AAGAGTTCATATCGACGGCGGTGTTTGGCACCTCGATGTCGGCTCATCACATCCTGGGGCTGAAGTAGGTCCCAA -GGGTATGGCTGTTCGCCATTTAAAGTGGTACGCGAGCTGGGTTTAGAACGTCGTGAGACAGTTCGGTCCCTATCT -GCCGTGGGCGCTGGAGAACTGAGGGGGGCTGCTCCTAGTACGAGAGGACCGGAGTGGACGCATCACTGGTGTTCG -GGTTGTCATGCCAATGGCACTGCCCGGTAGCTAAATGCGGAAGAGATAAGTGCTGAAAGCATCTAAGCACGAAAC -TTGCCCCGAGATGAGTTCTCCCTGACTCCTTGAGAGTCCTGAAGGAACGTTGAAGACGACGACGTTGATAGGCCG -GGTGTGTAAGCGCAGCGATGCGTTGAGCTAACCGGTACTAATGAACCGTGAGGCTTAACCTTACAACGCCGAAGC -TGTTTTGGCGGATTGAGAGAAGATTTTCAGCCTGATACAGATTAAATCAGAACGCAGAAGCGGTCTGATAAAACA -GAATTTGCCTGGCGGCCGTAGCGCGGTGGTCCCACCTGACCCCATGCCGAACTCAGAAGTGAAACGCCGTAGCGC -CGATGGTAGTGTGGGGTCTCCCCATGCGAGAGTAGGGAACTGCCAGGCATCAAATTAAGCAGTAAGCCGGTCATA -AAACCGGTGGTTGTAAAAGAATTCGGTGGAGCGGTAGTTCAGTCGGTTAGAATACCTGCCTGTCACGCAGGGGGT -CGCGGGTTCGAGTCCCGTCCGTTCCGCCACTTATTAAGAAGCCTCGAGTTAACGCTCGAGGTTTTTTTTCGTCTG -TATATCTATTATTGCCAGAATCGCAAAAATCCTCTGCATTTTACGCTCTTTTTCCTCAACAGTCTGAAGCCCATA -ATCACCTCAGTTAACGAAAATAGCATTAAAAGAGGCATATTATGGCTATCCCTGCATTTGGTTTAGGTACTTTCC -GTCTGAAAGACGACGTTGTTATTTCATCTGTGATAACGGCGCTTGAACTTGGTTATCGCGCAATTGATACCGCAC -AAATCTATGATAACGAAGCCGCAGTAGGTCAGGCGATTGCAGAAAGTGGCGTGCCACGTCATGAACTCTACATCA -CCACTAAAATCTGGATTGAAAATCTCAGCAAAGACAAATTGATCCCAAGTCTGAAAGAGAGCCTGCAAAAATTGC -GTACCGATTATGTTGATCTGACGCTAATCCACTGGCCGTCACCAAACGATGAAGTCTCTGTTGAAGAGTTTATGC -AGGCGCTGCTGGAAGCCAAAAAACAAGGGCTGACGCGTGAGATCGGTATTTCCAACTTCACGATCCCGTTGATGG -AAAAAGCGATTGCTGCTGTTGGTGCTGAAAACATCGCTACTAACCAGATTGAACTCTCTCCTTATCTGCAAAACC -GTAAAGTGGTTGCCTGGGCTAAACAGCACGGCATCCATATTACTTCCTATATGACGCTGGCGTATGGTAAGGCCC -TGAAAGATGAGGTTATTGCTCGTATCGCAGCTAAACACAATGCGACTCCGGCACAAGTGATTCTGGCGTGGGCTA -TGGGGGAAGGTTACTCAGTAATTCCTTCTTCTACTAAACGTAAAAACCTGGAAAGTAATCTTAAGGCACAAAATT -TACAGCTTGATGCCGAAGATAAAAAAGCGATCGCCGCACTGGATTGCAACGACCGCCTGGTTAGCCCGGAAGGTC -TGGCTCCTGAATGGGATTAAGCCTCTCTGACAGCTCCTCCGGGAGCTGTTTTTACATGCTCGCTAAGGAAATCGA -TAAAAGCCCGGATGCGCGTACTTACCGCACGGTCGCTGTAATAGACGGCACTGAATGGCATTTCCACTGGCAACA -CTTTATCTGCCATTAACTCCACCAATTCTCCGCGAGCGATTTCTTTGTCGATCATGTAGTCGGACAAACACGCAA -TCCCGTTGCCACTCAGGCAAAGCTGTTTCAGTGTTTCCCCACTATTGGATGACAAACCGTACTTCACCTCATGTA -ATTGTCCATCGCTACGGGCTATCGGCCAGGTATTGAGGGAAGCGGGTTCAGTGAATCCCAGGCAAATATGTTGCT -TTAAATCGTCGATCGTTTCTGGCTTCCCGTAGCGGGAAATATAATCGGGGGAGGCGATAATTTTTCGATAACTGT -TAAATAACGGCCTGGCACGTAAGCTGGAATCCGTTAACGTACCAGCGCGTATCGCGACATCCACTTTTCTTTCGA -TCAAATTAATAATCGTTTCGGAGGAGACTAGCGACAAAGTGACTTCCGGATAGCGTTCACGGAAAGGCTTAATTA -ACGGCATCAGAAAGTGCAGCACCACTGGAGTTGCGGCATCGATCCGTAACAGTCCACGCGGTGTATTACGCGTCT -CCATAATTTCTGATTCTGCCGCTGCCATCTCCTGCAAAATTGACTGTACGCGACGAAAATAACGCTCGCCTTCTT -CCGTCAGGCTAAGTTGTCGCGTGGTCCGATTAAGCAGGCTAACGCCAAGTTTCATCTCCAGCTTTTTCACCGCCC -GGCTTACCGCTGAGTTTGCTTGCCCTAATTGTTCCGCTGCCCGGCTAAAGCTGCCGCTTTCGACGACCGAAACAA -AAATGGCGAGTTCTTCCGACGTGGCTTTCATTTTTGCTCCTGTTGCAAAATAGAAGAGATATTTTGAATTTATTT -GTCATTAAACCATCAGGATGCGTGATATGTCATGCGATTTAATGTTCTCCATAATGAGCAAAATTCTGACCGGTG -TAAGCACTTGCTTACATAACAATATACAATTGCTCGTTGAAAGAGTGAGCTAAAATCCCTATAACAGTAGAACCC -TCCCGAGTGCGGAAGGGTTGACGTAATAGAGGTTTCAAAGTCAAAAGTGCGAAAAAACACCTATGCCATGCGCTA -TGTTGCCGGACAACCTGCGGAAAGGATCTTACCGCCGGGGTCTTTTGCGAGCATCGGCCAGGCATTACCACCTGG -GGAACCGTTAAGTACCGAAGAGCGTATTCGGATCCTGGTGTGGAACATATACAAACAGCAACGCGCTGAATGGTT -GTCGGTATTAAAGAACTACGGCAAAGATGCACATCTGGTGTTATTGCAGGAAGCGCAGACAACGCCAGAGTTAGT -ACAGTTTGCGACCGCTAACTATCTTGCCGCCGATCAGGTACCCGCTTTCGTGCTGCCACAACATCCTTCTGGCGT -AATGACCCTTTCGGCGGCACATCCAGTGTATTGCTGCCCGTTACGTGAACGAGAACCCATTTTGCGTCTGGCGAA -GTCGGCACTGGTGACGGTCTATCCATTACCTGACACCCGCCTGTTGATGGTGGTTAATATACACGCCGTCAACTT -CAGTCTGGGCGTGGATGTCTATAGTAAGCAGTTACTTCCTATTGGCGATCAGATAGCTCACCACAGCGGCCCGGT -CATTATGGCGGGAGATTTCAATGCCTGGAGCCGTAGAAGGATGAACGCGTTATATCGCTTTGCGCGGGAAATGTC -GCTGCGCCAGGTGCGTTTTACCGATGATCAGCGCCGTCGGGCGTTTGGTCGCCCGCTCGATTTTGTTTTCTACCG -TGGTCTGAACGTCAGTGAAGCTTCTGTACTGGTTACGCGCGCTTCCGATCACAATCCGCTACTCGTTGAATTCAG -TCCCGGCAAGCCTGATAAATAAGGTATGTCAGGTCTGCCACAGGGCAGACCAACGTTTGGCGCTGCGCAAAACGT -GAGCGCGGTGGTGGCGTATGACTTATCTGCCCACATGCTGGATGTCGTGGCACAAGCTGCCGAAGCCCGGCAACT -GAAAAATATCACCACCCGCCAGGGATATGCCGAAAGTCTGCCATTTGCCGATAACGCATTTGATATTGTTATCAG -CCGTTATTCTGCCCATCACTGGCATGATGTTGGTGCAGCACTGCGAGAAGTGAATAGGATATTGAAACCTGGCGG -TAGGCTGATTGTGATGGACGTAATGTCTCCGGGTCACCCAGTGCGCGACATCTGGTTACAGACGGTAGAAGCATT -ACGCGATACCTCTCACGTACGAAACTACGCCAGCGGTGAGTGGTTGACGTTAATCAATGAAGCCAATCTGATAGT -TGATAATTTAATTACAGATAAGTTACCGCTGGAATTTTCTTCATGGGTCGCGAGAATGCGTACGCCAGAAGCGTT -AGTAGACGCTATTCGCATTTACCAACAGAGCGCATCGACAGAGGTGAGAACGTATTTTGCCTTGCAGAATGATGG -CTTTTTCACCAGTGATATCATCATGGTAGATGCACATAAAGCGGCATAAATAAAAAAGGCACCGGGGGAATCGGT -GCCTTTTTATTATCTGGTTTGTCAGGAATCTGGCATGTTGTTGTTTTTCACAAACAACGTCAGCTTATCGCCTGG -TTGCAGATTCGCAGTGTCGCTGTTCCAGCGCATCACATCTTTGATGTTCACGCCGTGGCGTTTAGCAATGCTTGA -AAGCGAATCGCCTTTGCGCACACGATACGTAATGCTATCGCTGTTGTTTGCCAGTCGCTGTGCGCTACTGCCTGC -ACCAATCGTCAAACTTTGGCCTGGCTTCAGCTTAGATCCGCGCAGTTTGTTCCACTGCTGCAAATCTTTGGTGCT -TACGCCGAGACGTGAAGCGATACTTGAAAGCGTGTCGCCAGAGCGTACGGTGTAAACACGGCTGTTAAGCGGCGT -ATTGTCGGCAACCAGCGTCGACTGTACAGCAGCAATTTCGCCTGAAGCCAGAGATTCACGCAGTTGATCTGCATG -CTTCTTTGGCACCATCACGTACTGCGGGCCACTTGCGCCCAGCGTGGAGCCTTTTACGCCAGCGTTGAATGTCTT -CAGCTTGCTGACGGAAATCCCCGCCATATCTGCTACCTTCGCCATTTCAACCGGGCTGCTCAGGTGCACACGCGC -CAGAGCACGGCTTTCATCGGTCGTTGGCAGACGTACGCCATAACGCTTGCTGTTTTTGAGAATATCACTCAATGC -CAGCATTTTAGGCACGTACTGCTTCGTTTCCTGCGGCAACGGTAACGACCAGAAGTCCGTGGATTTCCCACGCGC -TTTGTTCGTTTTAATTGCCTTCATGACCCGACCTTCGCCGCTGTTATAAGCCGCTACGGTCAGAAGCCAGTCGCC -GTCAAACATTTTGTTCAGACGCTGCATCATATTCAGCGCGGCAGTTGTTGAAGCAACAACATCGCGACGCGCGTC -ATAATTGCGGGTCTGTTTCAAACCATAATTGCGCCCCGTGCTCGGAATGATCTGCCAGATGCCTGCGGCATTGGC -GCCAGACGTTGCGTGAGGATCAAAAGCGCTCTCCACTATGGGTAGTAGTACCAGTTCCATAGGCATGTTACGTTT -TTTAACTTGCCCTGCTATCCAGTACATATACGGCTCTGCCCGTAAAGTTACATCGTGGAGATAGCTCTTATTGCG -TAAATATTTCTGTTTCTGTTCGCGAATCCGGTCATTTTCCGGAATTCCCATCTTTAGCTCGTCGCCAATGAAAGC -CCACAAGTCACCATCTGGCGCGATAGACGTCCCATCGTCCATCCATCGTGCCTGACTTGTAAACTTTGCTGCTTC -CCCTTGACCAGCTGCAGAAAGGCTCTGTGCGTGCTGTTGAACGTTGCCGGTACTCTGGCAACCCACGAGCAGGAC -AGAGGCGAGTAATATCGCTTTTGCCTTCATGTGTGTGTCAATAGTTGCTTAAAAGACGACCGATCATAACGGCGA -ACGGAGCCGATGACAAGAAAGTTTTATCAGAACCTATCTTTCTTTGACCTTAACCATGCAAAACGCTCTTCAGGT -TGTTGCAATAATGTTTCTTCATTAATTACATTAATTAAATCAATATCTTCCGTTCTTAAAAAAACATTAATTTGC -CGCTCATTTTTCAGAATTACGGGTAGTGTTATTTGATTTTTTGCCCGTAACTCCTTAACTTTACGATAATAATCA -TTTATGGACAAATCGTGCGGAAGAATACTCAAAGCAAACTTCATATTTGATAAGGTATATTCATGAGCACAACAT -ACCAATGTATCGTCAGGTAACGCACTTAACTTTTTAAGTGATTGATACATTTGTGATGCTGTCCCTTCAAACAAC -CGACCACACCCACCAGAAAACAGTGTGTCGCCGCAAAATAGATAAGGTTTACTGAAGTAACAGATATGTCCTAAA -GTGTGACCCGGCGTAGCAATTACACTAAATTCATGCCCCAAAACGAAGGCAGTTTCGCCATCTTTGACTACCTGT -GTTGTTCCCTTATCTTGTGTCTCTTGTGGACCATACACCACAATTTGTGGAAACTTTTCCACCAGTTCTTTTACG -CCGCCAACGTGATCGTGGTGATGGTGGGTGAGAAATATGGCCTCCGGTTGCCAGTTATTGGCGGCAATGGCGTTT -AATACTGGCTCTGCGTCTCCGGGATCGACAATCAGGCAGCGACCTGCTTCATCATTCAAAACCCAGATGTAATTG -TCATCAAAGGCGGGAATACTGTTAAGATTCATAGATTACCTCTCAGTGTGAAACGGAAGGTTGTGATGAAACCGG -CAAGAGTCCCTCAAACTGTCGTGGCTCCTGATTGCTGGGGCGATTTGCCCTGGGGAAAGCTTTATCGCAAGGCGC -TGGAGCGCCAGCTCAACCCGTGGTTCACTAAAATGTATGGTTTTCATCTGCTTAAGATTGGCAATTTAAGCGCAG -AAATCAATTGCGAAGCGTGCGCGGTTTCTCATCAAGTGAATGTTTCTGCGCAAGGAATGCCCGTCCAGGTACAGG -CGGACCCACTTCATCTTCCTTTTGCCGATAAATCCGTTGATGTTTGTCTACTGGCACATACATTGCCGTGGTGCA -CCGATCCGCATCGTTTATTGCGTGAAGCCGATCGGGTATTGATTGATGATGGCTGGCTGGTCATTAGTGGCTTCA -ATCCCATCAGTTTTATGGGATTACGCAAACTTGTGCCGGTATTGCGCAAAACCTCGCCCTATAACAGCCGGATGT -TTACTCTGATGCGGCAGCTGGACTGGCTCTCTTTGTTGAATTTTGAAGTGCTACACGCCAGCCGTTTCCACGTTC -TCCCGTGGAACAAACACGGAGGAAAACTATTGAATGCGCATATTCCTGCGCTTGGTTGCTTACAACTTATTGTTG -CCCGGAAACGGACTATTCCTTTAACGCTAAATCCGATGAAACAGAGTAAAAACAAGCCACGAATTCGCCAGGCGG -TTGGAGCCACCCGGCAATGTCGTAAACCACAGGCTTAAACTTCAACTTGGTAGCCTGTATCTTCCAGTGTGGGAT -TCATCGCCGCGGCACGAGCCAGTTCATCACAGCGTTCGTTTTCCGGGTGTCCGGCATGGCCTTTAACCCATTCCC -ATTTGATTTGATGCTGCCCCAATGCAGCATCAAGACGTTGCCAGAGATCGACATTTTTTACTGGTTTTTTGTCTG -CGGTTTTCCAGCCACGTTTTTTCCAGTTATGGATCCACTGGGTGATACCCTGGCGGACATACTGGCTGTCGGTAC -TCAAAATGACTTCGCAATGTTCTTTTAACGCCTCCAGCGCGACAATAGCGGCCATCAACTCCATACGGTTGTTGG -TGGTGCGGGTGTAGCCAGCGCTAAAGGTTTTCTCGCGTCCGCGATAGCGTAAAATAGCGCCGTAACCCCCAGGTC -CTGGATTGCCCAGACACGAACCATCGGTGAAAATTTCTACCTGTTTAAGCATCTCTGGTAGACTTCCTGTAATTG -AATCGAACTGTAAAACGACAAGTCTGACATAAATGACCGCTATGAGCACTGCAATTACACGCCAGATCGTTCTCG -ATACCGAAACCACCGGTATGAACCAGATTGGTGCGCACTATGAAGGCCACAAGATCATTGAGATTGGTGCCGTTG -AAGTGGTGAACCGTCGCCTGACGGGCAATAACTTCCATGTTTATCTCAAACCCGATCGGCTGGTGGATCCGGAAG -CCTTTGGCGTACATGGTATTGCCGATGAATTTTTGCTCGATAAGCCCACGTTTGCCGAAGTAGCCGATGAGTTCA -TGGACTATATTCGCGGCGCGGAGTTGGTGATCCATAACGCAGCGTTCGATATCGGCTTTATGGACTACGAGTTTT -CGTTGCTTAAGCGCGATATTCCGAAGACCAATACTTTCTGTAAGGTCACCGATAGCCTTGCGGTGGCGAGGAAAA -TGTTTCCCGGTAAGCGCAACAGCCTCGATGCGTTATGTGCTCGCTACGAAATAGATAACAGTAAACGAACGCTGC -ACGGGGCATTACTCGATGCCCAGATCCTTGCGGAAGTTTATCTGGCGATGACCGGTGGTCAAACGTCGATGGCTT -TTGCGATGGAAGGAGAGACACAACAGCAACAAGGTGAAGCAACAATTCAGCGCATTGTACGTCAGGCAAGTAAGT -TACGCGTTGTTTTTGCGACAGATGAAGAGATTGCAGCTCATGAAGCCCGTCTCGATCTGGTGCAGAAGAAAGGCG -GAAGTTGCCTCTGGCGAGCATAAATACCTGTGAAAGGCGCTAAAAATAGCGACTTGGGCGATTTTTGCAGCAAAC -GATTCAAAAGATGAGAAAAACCGTTGACGAAGGTCGAGGCAATCCGTAATATTCGCCTCGTTCCCAACGGAACAC -AACGCGGAGCGGTAGTTCAGTCGGTTAGAATACCTGCCTGTCACGCAGGGGGTCGCGGGTTCGAGTCCCGTCCGT -TCCGCCACTATTCACTCATGAAAATGAGTTCAGAGAGCCGCAAGATTTTTAATTTTGCGGTTTTTTTGTATTTGA -ATTCCACCATTTCTCTGTTCAATGATTTTACTCTGGCGTAGGTGCGTGATTCTCGCTTGTTGTCTCATTCATTAA -AATTCAATAATGATATCGAACCATTCAGCTTAAATATATTTCTAGAGAATAAATTTATATTGATTAAATGAATGT -ATATTTCAAATTGATTTTGTTTGTTATTATTTAAGTGAGGTATATAATTAGAGTCCGTTATCAATGCTAAATATT -CTAATCATTATGACAGGCGAGGGAGTGTCCAATTATGAATTCAAAAAAGCTTTGTTGCATATGTGTGTTATTCTC -GCTGCTTGCAGGATGTGCCTCTGAATCTTCTATTGATGAAAAGAAGAAAAAAGCTCAAGTCACACAAAGTAATAT -TAATAAAAACACTCCCCAGCAACTGACAGACAAAGATTTATTCGGTAATGAAACCACTCTGGCCGTATCCGAAGA -GGATATTCAAGCTGCGCTTGATGGAGATGAGTTCCGCGTTCCCCTTAATTCTCCTGTAATACTTGTTCAATCCGG -CAACCGCGCACCGGAAACCATTATGCAGGAGGAGATGCGAAAATATTATACTGTTTCCACATTCTCTGGTATCCC -GGACAGGCAAAAGCCTCTGACTTGTAACAAAAACAAAGATAAAAATGAGAACGAGGATGTTGCCAGTGCTGAGAA -TATGAACTGGATGCAGGCACTGCGTTTTGTGGCTGCAAAAGGACATCAGAAAGCGATTATTGTTTACCAGGATAT -GTTGCAGACAGGAAAATATGACTCTGCGCTGAAATCAACAGTATGGTCCGACTATAAAAATGACAAACTCACTGA -CGCTATCTCCCTGCGCTACCTGGTACGTTTCACGCTGGTGGATGTGGCAACAGGTGAGTGGGCTACCTGGTCGCC -GGTGAATTATGAATATAAAGTGCTTCCACCATTGCCCGACAAGAATGAAGCCAGTACGACTGATATGACAGAGCA -GCAAATCATGCAACTTAAGCAAAAGACCTATAAAGCGATGGTAAAAGATTTGGTTAACCGCTATCAATAATAAAT -TATATCTGCCGCCAGGAATTTCTGGCGGCAATAATACAAAATTCTTTGCATAAGAAATTTTTCTTGACAAAGACA -GTGCAAGAAAGGACATGGAATCCGGAGTTAAAAACTGTTTGTTTTAGAATATTTAATTATTTAACTGCTGAATCT -TCCTTGCGAGAAATATATCCATTATTACATTTCATGCCATTTTTAATATAGATTGCTCCTGGGAAAATTCCCGTA -TTATTACCGCAGGGGTGATAATTAGTATTGACATATCCTGTGACAAAAGGAGCTATTAAAGGTGCTATTACGATA -GCTATTAGTAAAAATATAAGAGTTAGCTGTATTGTTATGTCTGTGGCGAAATTGACTACCTTCGTTTTTTTGATT -AAGAATGATTTTATTATCGTAAGTAAAATTACATGAATATTTAAAAAGGAAAACGACATGAAACCGAAGCACAGA -ATCAACATTCTCCAATCATAAAATATTTCCGTGGAGCATTTTATTATTGAATATAGAGGTTTAACTCCGGTAAAA -AACAAAGAAGCATTGAATGCAGGGAAAAATAATATGGCCATAAAAAACATCGAAAGAAACTCTTTTAATTTAACA -TGTAAACGCATGGTTAATCCTCATATCACGGGTGGAGTGTTAAGAACATACATAAATGGAGTCATGTTTTCCCTT -TTCCATTTATCAAGTTCCTGTTGCCGTTTTAGTCCATCTCTAATTGCATATTTTAATTTTTCTGATAAATGGCAT -TGAGCATCGATTTCATTTAAAACAACTGTACACACTATCCCTGTCAGTAAAATTGCTCCTCCGACAAGAATTACT -GGAAAGCCAAAGCTAACACAGGCAAAAGAAGCCAGACTTCCAATAGCGGTTGCAACACCACCGGCTATAACTGCT -TTGGCCACATCCATTGAAAAATCGCCAAGAAAATTAACCAGATCTCGCTCTGAACTCATAATAAATTCTATGGTT -CTGCTGATTTAACCGCAGAGAAGTTCGCCACAGCAATCCGAAACCACTGGCACGTGGAGAATAAGCTGCACAGGC -GTCTGGACGTGGTAATGAATGAAGACGACTACAAAATAAGAAGAGGAAACGCAGCAGAATTATTTTCAGGGATAC -GGCACATTGCTATTAATATTTTGACGAATGAGAAGGTATTCAAGGCAGGGTTAAGACGTAAGATGCGAAAAGCAG -CCATGGACAGAAACTACCTGGCGTCAGTCCTTGCGGGGAGCGGGCTTTCGTAGTAATACCCCGACTCTCCCCGTC -CTTAAACACAACCCCCACTCACCACAACCTAAACTCATCCGCATCCTGCCATGCCGGAAACTTTTCTCTATATTC -CCGCAATGCTGCCATCGACAGCTCCGCATCAATGCGCGTTGCCTGATGCGCGTCGGCAGTAGCGATAATCTCTCC -TTGCGGATTAATCACCCGGCTGTCACCGCGATAATGGCAGCCGTTGCCATCGCTGCCGACGCGATTGCATCCCGC -CACATACGCCTGATTCTCAATCGCGCGGGCCGTCAGCAATGCCTGCCAGTGCAGAGAGCGCGGAGCAGGCCAGTT -GGCGACGTACAGGGCGAGGTCATAATCGTTGAGATTGCGCGACCACACAGGAAAACGTAAGTCGTAGCACACCAG -CGGCAAAATACGCCAGCCGCGCCATTCCACAATCACTCGCGCATTGCCCGCTTTATAATGTAGATGCTCATCTGC -CATGCGGAACAGATGACGCTTATCATAAAAATGTACCGTGCCGCCCGGCTCAACCAGCAAAAAGCGGTTAACCGA -ACCAGACTCCGTTTGTAATGCAACACTGCCTGCAATCAGCGCATTGCACTGCTGCGCCTTAGCTGTCATCCAGTT -CACTACGTCATCTTGTGCTAGCGACGAAGCTGCCGCTTCCATGGCAAAGCCGCTGGTAAACATCTCCGGTAGAAC -GATCACATCGCGCCCGGTAATACCTTCCAGTTGACGATCAAAATGACGCAGGTTGGCAGGACCATCCATCCACAC -CAGTGGTTGCTGCAAAAGCGTAATCTTCAAACCAGGCACGGTGTACAACTCCTTTATGCGAAGGGTTTTATAACT -TTAACACCTTATCAGGCAGTTGCCTTAGCGCAGAATAAATTGATAACAAATGCTGATATTGGAAATATCTGATTT -GCAAATTATCGTGTTATCGCCAGGCTTTAGGAGGTTAATAACATGGGCAGGATAAGCTCGGGAGGAATGATGTTT -AAGGCAATAACGACAGTCGCCGCTCTGGTCATCGCCACCAGTGCAATGGCGCAGGATGATTTAACCATTAGCAGC -CTTGCAAAGGGCGAAACCACCAAAGCTGCATTTAATCAGATGGTACAAGGGCATAAGCTGCCTGCCTGGGTGATG -AAAGGCGGTACTTATACTCCCGCACAAACCGTAACGTTGGGAGATGAGACGTATCAGGTGATGAGCGCGTGCAAA -CCGCATGACTGTGGCTCGCAACGTATCGCTGTGATGTGGTCCGAGAAATCTAATCAGATGACGGGGCTGTTCTCG -ACTATTGATGAGAAAACGTCGCAAGAGAAACTCACCTGGCTGAATGTGAACGATGCGCTTTCGATTGATGGTAAA -ACGGTGTTGTTCGCGGCGTTGACCGGCAGCCTGGAAAACCATCCGGATGGCTTTAATTTTAAATAATTAGCGGAT -AAAGAAACGGAGCCTTTCGGCTCCGTTATTCATTTACGCGGCTTCAACTTTCCGCACTTTCTCCGGCAACTTTAC -CGGCTTCGTCGCCAGCTCTTCCGGATCAAAGTCATCAACGTTAATACTGCGCAGACGGCTTTCTTCAGCTTTCAC -CAGAATAGCGGCTTCATCTTTATCAATCAGCCCCTTCACCAGCGCGTTGTGCGCCAGTTCATCCAGACGGGTAAA -CGGCAGGTTTTTACCCAGCTCTTTACAGATCCGCTGATGAATTGGGTCGGCGGCAATCACATCCACCAGCGCCTC -TTCCAGCAAGCCAACCGGATTATGCTCGCTCGGCGTCAGGTACTGACCGCGACCAATGCGGGAACGGGTGGCGTT -CGGCACTTGTAAAATCTTCGCCACTTTATGATCCAGCTTGTCAGAAGGTGCCAGATAATGACGTCCGGTCGGGAA -GATCACCACATTCAGCAGCCCGGCAACCACGCGGTTCGGGAAGTTTTGCAGTAAATCATCCATCGCCTGTTCAGC -CTGATACAGCGCATCTTGTACGCCCCAGTGCACCAGCGGCAGGTCGGCTTCATTACGGCCTTCGTCGTCATAACG -CTTCAGCACGGCAGAGGCGAGGTAGAGCTGGCTTAAAATATCCCCCAGACGGGCCGAGATGCGCTCGCGACGTTT -CAGGCTGCCGCCCAGCACTGCCATCGAGACATCAGAAAGCAGGGCGAGGTTGGCGCTCAGGCGGTTCAGGTGCTG -ATAGTAGCGTTTAGTGGCATCGCCGGTTGGCGTGCTGCTGGTTAAACCGCGCGTCAGGCCCAGCCAGAAGCTGCG -AACTTTGTTGCTACCGACGTGACCGATATGTTTGAACAACAGTTTATCGAACGCGTTGACGTCATTGTTCTTCGC -CGCTTCCATCTCTTCCAGCACGTACGGATGGCAACGAATCGCTCCTTGTCCGAAGATCATCATGCTGCGGGTCAG -AATGTTAGCCCCTTCAACGGTGATGGCAATCGGTGCGCCCTGGTAAGCACGCGCCAGGAAGTTGCTTTGCCCGAG -CATAATGCCTTTACCGCCGGTAATATCCATCGCATCAATAATCGACTGCTGCCCGCGGTGGGTACAGTGATACTT -AACGATAGCCGACAGCACGGCAGGTTTTTCGCCGAGCATAATGCCGTAGGTAATCAGCGATGCCGCAGCATCCAT -CACGTAGGCATTACCGGCAATACGCGCCAGCGGCTCTTCAATCCCTTCCATCTTACCAATAGAGATTTTGAACTG -ACGGCGAATGTGAGCATACGCGCCGGTTGCCAGCGCTACCGATTTCACGCCGCCGGTTGAGTTGGAAGGCAGGGT -GATGCCGCGGCCTACCGAGAGGCACTCCACCAGCATCCGCCAGCCTTGCCCGGCCATTTTCGGCCCGCCGATGAT -GTAATCGATCGGCACGAAGACATCTTTACCGCGCGTCGGTCCGTTCTGGAACGGTACGTTCAGCGGGAAGTGGCG -ACGACCAATTTCCACGCCCGGCGTGGTGGTTGGGATCAGCGCACAGGTAATGCCTAAATCTTCTGCACCGCCGAG -TAATTTTTCCGGGTCGGAGAGTTTAAACGCCAGCCCAAGCACGGTCGCAATCGGTGCCAGCGTAATGTAGCGTTT -GTTCCAGGTCAGACGCATCCCCAGCACCTGCTGGCCCTGCCATTCGCCCATGCAGACAATCCCGGTGTCCGGAAT -CGCGCCCGCATCGGAACCCGCTTCCGGGCTGGTCAGTGCAAAGCAGGGGATCTCCTGACCACGCGCCAGACGCGG -CAGATAGTGATCTTTCTGCTCGTCAGTGCCGTAATGTTGCAACAGTTCGCCCGGGCCTAATGAGTTTGGCACGCC -GACGGTAATCGCCAGGATCCCGCTCACGCCGGAGAGTTTTTGCAGCACGCGAGACTGGGCATAAGCCGAGAACTC -CAGCCCGCCGTACTCTTTTTTGATGATCATCGCGAAGAAACGATGCTCTTTAAGGTACGCCCACAACTCCGGCGG -CAGATCCGCCAGCTCATGGGTGATCTGGAAATCATTCGCCATCCGGCAGGCTTCTTCTACCGGGCCGTCGAGAAA -CGCTTGCTCTTCGGCGGTCAGGCGCGGCTGCGGATAGTTATGCAGCTTTTTCCAGTCCGGCTTGCCCTGGAACAA -GTCGCCCTCCCACCAGGTGGTGCCCGCATCAATCGCTTCTTTCTCAGTGCGCGACATCGGCGGCATCACCTTACG -GAAACCGCGAAATACCGGCGCGGAAATCATCGACTTACGCATAGGCGCAAAGTTAAATGGCACGAGGATAATGGC -CAGAGGCACCAGTACCCACGCCGACCACAGACCAGCAACGCCGAGGGCGGCTGTCCAGGCGAGCAAAATCAGACT -GCTGATAAATAAGCTCACGCGGTGATAGAACAACGCGCCGAGCAGGACAACCGTAGCGAGAATACTCAAAATCAT -CATAACGAAAAGCCCCTTACTTGTAGGAGGTCTGACCACTTGTGATGATATGGTTGTAGTGGATGTAAAAACATT -TAGCAATATGTTTACAATATAATTACAACAAAGCTCACATTGTTGCTGTTTTTATCCGCACTTCAGGTCAAAAAG -TCCTGGTCATAGCACCTGCCCGTACTTCTCGCTTTTGGCGGTATCCGGTACACTGCATTTTGTCTATTACATTTA -TGCTGAAGGATATCCTCATGTACCAGGATCTTATTCGTAACGAACTGAACGAAGCGGCGGAAACGCTGGCTAACT -TTTTAAAAGATGACGCCAATATTCACGCCATTCAGCGCGCGGCGGTCCTGTTAGCAGACAGCTTTAAAGCCGGTG -GCAAAGTGCTTTCCTGCGGCAACGGCGGTTCCCATTGCGACGCTATGCACTTTGCCGAAGAGTTGACCGGTCGCT -ACCGTGAAAACCGTCCGGGCTACCCGGCGATTGCTATTTCTGACGTTAGTCATATTTCCTGCGTCGGTAATGATT -TCGGTTTCAATGATATTTTCTCCCGCTACGTTGAAGCGGTAGGTCGCGAAGGCGATGTACTGCTGGGGATCTCCA -CCTCCGGTAACTCTGCAAACGTGATCAAAGCGATCGCAGCGGCGCGTGAGAAGGGAATGAAAGTGATCACCCTGA -CCGGTAAAGACGGCGGCAAAATGGCTGGCACGGCGGATATCGAAATTCGCGTACCGCACTTTGGTTATGCCGACC -GCATTCAGGAGATTCACATTAAAGTGATCCATATCCTGATCCAGTTGATTGAAAAAGAGATGGTTAAGTAAGTCT -GGCGTAGGCCGGATAAGACGTTTACGCCGCATCCGGCATTTGTGCGCTGATGCCTGATGCGACGCTGACGCGTCT -TATCATGCCTACAAATCTGTACGCGAACCGTAGGCCGAATAATGCGTTCACGCCGCATCCGACCTGAAAATTCTT -AAATCAATCTTCGCCGGGGGCCATGCGCTCCCGCTGTTGTGGAGGTTACCCATGTGCGAATTGCTCGGGATGAGC -GCCAACGTCCCTACCGATATCTGCTTTAGTTTCACCGGGCTTGTACAGCGTGGTGGTGGAACCGGGCCACATAAA -GATGGCTGGGGCATTACCTTTTACGAAGGTAAAGGCTGTCGCACATTTAAAGATCCACAACCCAGCTTTAATTCC -CCCATCGCCAAACTTGTCCAGGACTACCCGATAAAATCCTGTTCGGTGGTGGCTCATATTCGCCAGGCTAATCGG -GGCGAGGTGGCGCTGGAAAATACTCACCCATTTACCCGCGAGTTATGGGGGCGTAACTGGACTTATGCCCATAAC -GGACAACTGACGGGCTACAAATCACTGGAAACCGGCAACTTCCGCCCGGTAGGCGAAACCGACAGCGAAAAAGCC -TTCTGCTGGCTCCTGCATAAATTAACGCAGCGTTACCCGCGCACACCGGGCAACATGGCGGCGGTATTTAAATAT -ATCGCCTCACTGGCGGATGAACTGCGGCAGAAGGGCGTTTTCAACATGCTGCTTTCGGACGGGCGCTATGTAATG -GCGTATTGCTCGACTAATTTACACTGGATCACCCGCCGCGCGCCGTTTGGCGTGGCAACGTTGCTGGATCAGGAT -GTGGAAATCGACTTCAGCTCGCAGACCACACCGAATGATGTGGTCACGGTGATTGCAACACAGCCGCTGACGGGC -AATGAAACCTGGCAAAAGATTATGCCAGGCGAATGGCGCTTATTTTGCCTCGGGGAGCGTGTAGTTTGATGCCAG -TTGTGGCTGCACAACTTCGTGGCTTAACGGCTTGCTGACCACGTAACGACCATTGACCACAGAAACGGTTGGTGG -CTTACGGGTTTGCTCAAAGTAGTCGTAACCCGGCTTCAGTTGCTCCCAGAAGTCCTTAAAGTTGGAATATTTATG -GCGCTTCATATTGGCGTCGGTCATGCGGAACGGGTAAATACTCACTTGCACGCTCGGCTGACCAAACACCAGCGC -ACCAGTAACGAACTGGAATATCTCATCAATACCCTGATTGGTCATTGCGTAGCAGCCGATGGAAACACAATCGCC -GTGGATCATCAGGTATTTCCCTTCATAACCATGCGCACGGTCATAGGCATTGGGGAAACCAATATTAATCGCTTT -GTAGTAACGGCTGTCTGGTTTTAACTGATTACGCTGGACGCTATAAAACCCTTCCGGGCTTTTGAAATCGCCCTG -ACGCTGTTTTGGCCCTAAGCCGCCGGAATATTTACAGATTTTATAGCTGTCGAGCAGTTGATATTGCTCGCCCAT -TTTGACGTAGAGATCGAGCGTACGTTCTTCCTTGAAGATCTGGATGTAGACAGGGGATCCCATCAACTGCTGCTT -ATACTCTTTGCTCACAGGCGTGGTAGAGCTACTGCTGCCCAGCAAACCGGCAAATGAAACGCACGGGATCAACAA -CATCGCAAGAATTAATGCGATTTTACGCATACTGCTTATTCCTTGATAAAACGGTTACACACGCCAGGACGGCAA -AATGGATCCCAAATCGGAATAGTCTGGATTTGGAAGGCTCACATTATCACCAAAAGAGTTTTACGCAAGCCTGTC -GGCGCAGGGTTTACAAATTTCATCGGAAGCGGGCTTTACCCAAAGAGCGCCGCGTGAGTTCCAGTTCTCTCAAAT -CGTAAAAGTTTATCGGTAAGTTTGTAAATCAGGATCCAGTCCGGTTCGACATGAGCATCGCGATAACCTTTCCAT -GAACCTTGCAGCGGGTGGTCTTTATAAACAGCTGGAAGCGGTAAAGTATTATTGATAAGAAGCGTCATAAGATAT -TTCAATTTATTCATATCCTTATGACGCTTTTGTGCAAGTTTTACATCCTTTGAATATTGTCCCGAGTATTCAATA -TCCCTTTGAATCATATTTAAATTCCTAATTTATCAAATAAATCATCGGCGTCTTTGGCCTTATGAACATCAATGC -CAGCTTCGCTGTTTTTGATTGATTGAATGGTTAATTGATTAGGCTCGCGTAAATCAAACGGCAATGCCTTTTCAC -GCGCGACCTTTGTGAGGGTTATGCGAACCAGGTCAGAGATGGTCAGCCCCATCCCGGCCAGTACGTCCGCTGCCT -GATTCTTCAGATCTTCATCGATTCGGGCGCGAACAAACGCGTTAGCAGCCATTGGGGTATCTCCTGTGCTGTATA -TTTATTCAGCTTGAATTGTAGCTCAAATGAGCAACAGCGACAATCCATGAGTAATTTAATAAACGGATGTTTTTA -CATAATTAACTGAAATATATATGTTAATTTTATAATAATGGTTTATTAAGTTTGTTCAGAAACGATCCGGGATAC -ACTGCAACATTAAAGCATGACCAGCCATTATTGAGTATGTCCTTGCCGTCGATTCCATCCTTTGTATTGTCGGGA -TTACTGTTGATTTGTTTGCCGTTTTCTTCATTTGCCAGCGCCACCACATCACATATCTCTTTCAGCTACGCCGCC -CGCCAGCGGATGCAAAACCGTGCGCGTTTATTAAAACAGTACCAAACTCATCTGAAAAAGCAGGCCAGCTATATT -GTGGAAGGCAATGCCGAAAGCAAAAGGGCGCTACGCCAGCACAACCGGGAGCAGATAAAACAGCATCCAGAATGG -TTTCCTGCTCCGCTCAAGGCGAGTGACAGACGCTGGCAGGCGCTGGCGGAAAACAACCACTTTTTAAGCAGCGAC -CATCTGCATAACATTACCGAAGTGGCGATTCACCGCCTGGAGCAGCAGCTTGGCAAGCCTTACGTCTGGGGCGGT -ACGCGGCCTGATAAAGGCTTTGACTGTAGCGGGTTGGTTTTTTATGCCTACAACAAGATCCTTGAGGCTAAGCTC -CCGCGCACGGCCAATGAGATGTACCACTATCGCCGGGCAACGATTGTGGCGAACAACGACCTGCGCCGGGGAGAT -TTGCTGTTTTTCCATATCCACAGCCGCGAGATAGCCGATCATATGGGCGTGTATTTGGGCGATGGGCAATTTATC -GAGTCGCCACGTACCGGCGAAACCATTCGGATAAGCCGATTAGCCGAACCTTTCTGGCAGGACCATTTTTTGGGC -GCGCGCAGGATTTTGACGGAAGAGACGATTTTGTAGGACGGATAAGGCGTTTACGCCGCATCCGGCAGTTGTACG -CAGGTGCCTGATGCGACGCTGGCGCGTCTTATCATGCCTACGAGCCCGCGAATATTTGCGAGCCGCTTTCCCGAT -ATAAAACAACCTCATTGCCAACCTTTCCTTTTCTTCTTACCGTTGAGAAAAAGGAGTCGCCATGTCTGAATATCG -TCGTTATTACATCAAGGGGGGAACATGGTTTTTCACGGTGAATTTACGAAATCGTCGAAGCCAACTTTTGACCAC -CCAGTACCAGATGCTCCGTCACGCCATTATTAAAGTTAAGCGAGACAGGCCTTTTGAAATCAACGCCTGGGTCGT -TTTGCCAGAGCATATGCACTGTATCTGGACATTACCTGAAGGCGATGATGATTTTTCCTCGCGCTGGCGGGAAAT -TAAAAAGCAATTTACCCATGCTTGTGGATTGAAAAATATCTGGCAACCACGTTTTTGGGAGCACGCCATCCGCAA -TACCAAAGATTATAGGCATCATGTTGATTATATTTATATAAATCCAGTAAAGCATGGTTGGGTAAAGCAAGTGAG -TGATTGGCCATTCTCAACGTTCCATCGCGATGTCGCGCGAGGGTTATATCCCATCGATTGGGCGGGGGACGTAAC -GGATTTTAGTGCCGGGGAGCGTATCATTTCATAATTGTGCGCAGATGCCTGATGCGACGCTAGCGCGTCTTATCA -TGCCTACAAACTTGTGCCGGATCGGTAGGCCGGATAAGGCGTTTATGCCGCATCCGGCAGTTATGCGCAGATGCC -TGATGCGACGCTGGCGCGTCTTATCATGCCTACAAACTTGTGCCTGAACGGTAGGACGGATAAGGCGTTCACGCC -GCATCCGGCAGTTGTGCACCAATGCTGGATACTTACATCAACGCCCCCATAATCTTCAACTCCAGCTCATCCGGC -ACTTCGTTATACGACAGCACATGCAGCCCCGGCGCAAACAACCTTGCATAACGCGCCAGCAAAGGGCGCAGCTGC -GGTGGCACCAGCAGCACCGGGTCTTTCCCCGCCGCTTTCATCTGCTCTTTCACCTGTGGCATCGTACTCTGGAAC -TGGTTGAGCATATTCGGATCGACCGGCACGCTGTCGAGCATCACTTTCCCGCCCTGTTGCGCCTGATTCACCACG -TTGGTCAGCAGATTTTCCAGCTCATTATTCAGCGTATACACCGTCAGCTCCTGCTTGCGAACGAACGGATGGGTA -ATGCTGCGCCGCAATGCCAGGCGCACATCGGCCGCCAGCAGAATATGATCTTTCGTCACCGTGCTACTGGCGACC -AGCACGGTGGCGATGGTGACGATATCGCGCAGGGAAACGCCTTCGGTCAGCAGCGCCCGGTACACTTTCAGCAAC -TGGCTGTAATTGAGCGCCGCGCTCAAATCTTCCGCCAGACGCGGTGCCGTCGACGATAAACGGTTATGCAACTGC -GTAATATCATCATAGTTAAACAAATCAGGAATATAGCTGCGCACAATCTTATTTACATGGGTAGCGATCACGCTG -GCGCTGTCGATCACCTGATACCCCATATTCAGCGCCTTCGCTTTCTGCGCCGCCTGGATCCAGGTGACCGGCATC -CCGTACGCCGGGTCGTTCCCCTGCACGCCGTCAATCTCGCCGTAGGTTTCGCTGGAGGGCAGGGCCATCAGTTTA -TCCGCCGGAATATCCGCTTCATCAGCCTTTATGCCGTTGATGAAAATGGCGTACTGACTGGGCTTAAGGCGGAAG -TTTTCCCGAATGCGGATCTCCGGCAGCAGCACGCCGTTGCCGTCAGAAATCACCTGCCGCACGCCGCGAATCCGC -TGGGTGAGCGGGTTACCCTGTGCTTTGTCCACCAGCGCCACCAGTTTGTAACCGAGGCTTAAACTGATAGGCTCG -ATCAGCGGAATGGTTTCCCAACTGACCTGCTGCTCGCTGGTTTCGGTGATGGTGCGGGTCAGCGTTTCGAGGCTT -TTCTCTTCCGCCTCCGCCGCCAGCGGCTGTTTGCTCATCCGCCAGCCGGTAAAACCAAGCAGGGCGCTGAACAGC -AAAAACGGCAGGTGCGGCATTCCCGGTACCACCGCCAGCACGAACATAATCCCGGTGGCGGTGTAGAGCACCGAC -GGGCTTGCCAGCAGCTGGTTACGCACGTCATGGGCGATATCGCCGTTGTCGCTGACGCGGGTGACGATAATCGCC -GCCGCGGTGGAGAGCAGCAGGGAAGGGATCTGCGCCACCAGGCCGTCGCCGATGGTCATCAGCACATACTGCTGG -AAGGCAGCATCGGCGCTCAGGTTGTATTTGAAGATCCCGATACAGACGCCGCCGATCAGGTTGATCGCCAGAATC -ATCATCCCGGCGATGGCGTCCCCGCGCACAAACTTCGATGCCCCGTCCATCGCGCCGTAGAAATCGGCCTCGCTG -GCAACATCTTTACGCCGGGTTTGCGCCTGCGCCTGGTTGATCAATCCGGCGTTAAGATCGGCGTCAATCGCCATC -TGTTTGCCGGGCATCGCGTCTAAGGTAAAGCGGGCAGAAACCTCGGAAATACGCTCGGCCCCTTTGGTGACGACA -ATAAAGTTGATTGTCAACAGCGTCAGTAAATCCGAGCGTGAAAGCATTATCGCCGCGCTGCACGGGCAGTCGATT -TTTAACGGTGGTGGGCTGTCGCCGTTAAATAAAATCAGCCCGTCTCATCCGCCAAAACCTGCCACCGTGGCGGTG -CCGGAAGAGACGGAGAAAAAAGCGCGTGATGTGAATGAGAAAACGGCGCTGCTGAAGAAGAAATCCGCCACCGAG -CTTGGTGAGCTGGCAACCAGTATCAACACCATTGCCCGTGATGCGCATATGGAAGCGAATCTGGAGATGGAGATT -GTTCCCCAGGGATTACGCGTGCTGATTAAAGACGACCAGAACCGCAATATGTTTGAACGCGGCAGCGCGAAGATT -ATGCCGTTCTTTAAAACGCTGCTGGTGGAGCTCGCGCCAGTGTTCGACTCGCTCGATAATAAAATTATTATTACC -GGGCATACCGATGCGATGGCCTACAAAAACAATATCTACAACAACTGGAACCTTTCGGGTGACCGCGCGCTTTCG -GCTCGTCGGGTGCTGGAAGAGGCCGGAATGCCGGAAGATAAAGTGATGCAGGTAAGCGCAATGGCGGACCAGATG -CTGCTGGATTCCAAAAATCCGCAAAGCGCGGGCAACCGGCGCATTGAGATTATGGTGCTGACCAAAAGTGCGTCC -GATACGCTGTATCAATACTTTGGTCAGCATGGGGATAAAGTGGTGCAGCCGCTGGTGCAAAAGCTGGATAAGCAG -CAGGTGCTTTCGCAGCGAACGCGTTAAATGCTGAATCTTTACGCATTTCTCAAACCCTGAAATCACTGTATACTT -TACCAGTGTTGAGAGGTGAGCAATGCGTAAAATCATTCATGTGGATATGGACTGCTTTTTCGCCGCAGTGGAGAT -GCGCGACAATCCCGCCCTGCGCGATATCCCTATTGCTATTGGCGGCAGCCGCGAACGTCGGGGGGTGATCAGCAC -CGCCAATTATCCCGCGCGTAAATTTGGCGTACGTAGCGCTATGCCGACAGGGATGGCGCTCAAATTATGCCCACA -TCTCACCTTGCTTCCGGGGCGCTTTGACGCCTACAAAGAAGCCTCAAATCATATCCGTGAAATCTTCTCGCGCTA -CACCTCGCGCATTGAACCGTTGTCACTGGATGAGGCTTATCTCGATGTCACCGATAGCGTCCATTGCCACGGTTC -TGCGACCCTCATCGCCCAGGAAATCCGCCAGACAATCTTCAACGAGCTGCAACTGACGGCGTCTGCGGGCGTGGC -ACCAGTAAAGTTTCTCGCCAAAATCGCCTCCGACATGAATAAACCCAACGGCCAGTTTGTGATTACGCCGGCAGA -AGTTCCGGCATTTTTACAAACCTTACCGCTGGCAAAAATCCCCGGCGTCGGCAAAGTCTCAGCGGCAAAACTGGA -AGCGATGGGGCTGCGGACCTGCGGTGATGTACAAAAGTGTGATCTGGTGATGCTGCTTAAACGCTTTGGCAAATT -TGGCCGCATTTTGTGGGAGCGTAGTCAGGGGATTGACGAACGCGATGTTAACAGCGAACGGTTGCGAAAATCCGT -CGGCGTGGAACGCACGATGGCGGAAGATATTCATCACTGGTCTGAATGTGAAGCGATTATCGAGCGGCTGTATCC -GGAACTTGAACGCCGTCTGGCAAAGGTAAAACCTGATTTACTGATTGCTCGCCAGGGGGTGAAATTAAAGTTCGA -CGATTTTCAGCAAACCACCCAGGAGCACGTCTGGCCGCGGCTGAATAAAGCTGATCTAATCGCCACCGCGCGTAA -AACCTGGGATGAACGCCGCGGCGGGCGCGGTGTGCGTCTGGTGGGGCTGCATGTGACGTTGCTTGACCCGCAAAT -GGAAAGACAACTGGTGCTGGGATTATGATGTATACTATTATGTATATTCTGGTGTGCATTATTATGAGGGTATCA -CTGTATGCATCGAATTCTCGCTGAAAAATCGGTCAATATCACTGAGTTACGTAAAAACCCAGCTAAATACTTTAT -TGATCAACCGGTTGCGGTTCTTTCTAATAATCGCCCCGCAGGATATCTCTTAAGTGCCAGCGCATTCGAAGCGTT -AATGGACATGCTTGCTGAACAAGAGGAGAAAAAGCCCATAAAGGCGCGCTTCCGTCCAAGTGCTGCAAGATTAGA -GGAAATTACACGCCGCGCTGAACAATATCTTAATGATATGACGGATGATGATTTCAATGACTTTAAGGAATAAGG -ATGCGGGTATTCAAAACAAAACTTATTCGCCTGCAACTTACAGCAGAGGAACTTGATGCGTTAACGGCGGATTTT -ATTTCCTATAAGCGTGACGGTGTTTTGCCAGATATATTTGGTCGCGATGCACTCTACGACGACTCCTTTACCTGG -CCATTAATCAAATTTGAGCGAGTTGCTCATATTCATCTGGCAAATGAGAATAATCCATTTCCGCCACAGTTGCGC -CAATTCAGCAGAACGAATGACGAAGCGCATTTGGTATATTGTCAGGGGGCGTTTGATGAGCAAGCATGGTTGCTC -ATTGCCATTCTGAAACCTGAACCTCATAAACTGGCTCGAGATAACAACCAAATGCATAAAATTGGGAAAATGGCA -GAAGCGTTTCGCATGCGTTTTTGAATTTATATTATGAATAACATACAAATAAGAAACTATCAGCCTGGCGATTTT -CAGCAACTATGCGCTATTTTCATTAGAGCGGTTACGATGACCGCCAGTCAGCATTATTCACCACAACAAATTTCC -GCCTGGGCGCAGATTGACGAATCTCGCTGGAAGGAGAAACTCGCGAAATCACAAGTGTGGGTTGCGATCATTAAT -GCACAACCGGTTGGTTTTATTTCCCGCATTGAACATTATATCGATATGTTATTTGTTGACCCTGAATACACCCGC -CGTGGGGTTGCCAGCGCTTTGTTAAAACCTTTGATTAAGTCTGAATCCGAACTTACGGTGGACGCAAGCATAACC -GCAAAACCCTTTTTTGAACGTTATGGTTTTCAGACAGTTAAGCAGCAGCGCGTTGAATGCCGGGGAGCGTGGTTT -ACTAATTTTTATATGCGATATAAACCGCAACATTAAATCCAGCTTGCAATGAAAATAACGCCCGCCTGGTATGTG -CGCGTTTTCTGATTCCACAAACTGCAAGGAGGTAAATCATGACAAATCCTTTATCAATGACTCTTTGCAGACCTT -TCCAGGATTAATTCTTTTTTTCTTGCCCTGGATTCGTCTGCCATTTCCTGATTTTTATATTTATATACTCTAAAT -AATTCGAGTTGCAGGAAGGCGACAAGCGAGTGAATCGCCAGGAGCTTACATAAGTAAGTGACTGGGGTGAACGAA -CGCAGTCGCAGTACATGCAACTTGAAGTATGACGAGTATAAATGGAATGGTACATGGGCAAATATATTCGTCCCT -TATCCGATGCGGTATTTACCATCGCATCTGATGACCTGTGGATCGAGAGTTTAGCGATCCAACAATTACACACCA -CGGCAAATTTACCCAACATGCAGCGCGTAGTGGGGATGCCAGATTTACACCCCGGACGCGGCTACCCGATTGGCG -CAGCGTTCTTCTCTGTTGGTCGTTTTTACCCGGCAAGACGTCGCGGTAACGGTGCTGGAAACAGAAACGGGCCGC -TACTCTGACACACTGCGTTCGGCGCTGGTTTCTCTCGATGGCGATAACGCATGGGCATTAAGCGAAAGCTGGTGT -GGCACTATTCAGTGGATTTGTCCGAGTCCGTATCGGCCTCATCATGGGCGCAAAAACTGGTTTCTGGGCATTGGG -CGTTTTACCGCTGATGAGCAGGAACAATCGGATGCAATCCGTTATGAGACGCTGCGTTCGTCGGGGCCGGGCGGT -CAACATGTCAATAAAACCGACTCGGCGGTACGCGCCACGCATTTGGCATCCGGTATTAGCGTGAAGGTTCAGTCA -GAGCGTAGTCAGCATGCTAACAAGCGGCTGGCACGATTGCTGATTGCCTGGAAGCTGGAGCAACAGCAACAGGAA -AATAGCGCGGCGCTGAAATCGCAGCGGCGAATGTTCCATCACCAGATTGAACGTGGCAACCCGCGACGGACATTT -ACAGGGATGGCTTTTATCGAAGGATAATGAAGGATGAAACTGCCGGAAGGCGATTAAACGCCATCCGGCAGCAAA -TCAAATAATTACTTCGCCGGAATTTCTTTCAGCAGTTCAGTCAGCAGTGTCCAGTAATGACCTACGCTTTCGATG -TGAACTTGCTCATCCGGAGAGTGTGGACCGGTGATAGTTGGCCCGATAGAAACCATGTCCATTTCCGGATACGGT -TTTTTGAACAGACCACATTCCAGGCCCGCGTGGATAATCTGGATGTTCGGCGTCTTGTTGAACAGGCGCTGATAG -GTTTCACGTACCAGATGCATCACCGGAGAATTAGCGTCCGGCTGCCAGCCAGGATATGCGCCTTTCGCTTCGGTT -TTCGCGCCAGCCAGTTTACCCAGCGAATCCAGCATGCTCACCACGTAGTCTTTACCGCTGTCGATCAGTGAACGG -ATCAGGCAGTGAATTTCTACGTTATTGTCAGTCATGGTCACCACACCGACGTTCAGGGAGGTTTCAACCACACCT -TTGGCTACATCGGAGTTACGAATCACACCGTTCGGGGTGGCGTTCAGCAGACGAATAAAGGTATCGCGAGATTTC -GCAATCAGGGCAGCTTTATCGTTCGCTACAGAGTCCAGCAACAAGGCCAGATTTTTCTCTTTTTCTGCCAGCTCG -TTTTTCAGGATCTCCTGATAGGTATTCACCAGAGATTTCAGGACGTCGACTTTATCAGCTGCGACAGCAATGGTC -GCAAAGGCTTCACGCGGGATGGCGTTACGCAGTGTGCCGCCGTTGAAATCGATAAGGCGCAGATCCAGTTCTTCC -GCATGACCCGCCAGGAAGCGCACCAGCAGTTTGTTGGCATTACCCAGCCCAACGTGGATTTCCCCGCCGGAGTGA -CCGCCTTTCAGACCTTTTAAGGTTAACTTGAAGGTTTCAAAACCAGCTGGAACCGCTTCACGATCTAAATGCAGG -TTGGAGGTGAAGTCGATACCCCCCGCACAACCCATGTAGATTTCACCTTCTTCTTCGGAGTCGGTGTTAATCAGA -ATATCAGCCTGCAACCAGTTGCCCTGTAAGCCGAACGCACCGTCCATACCGGCTTCTTCGGTCATGGTCAGCAGC -ACTTCCAGCGGGCCGTGAACCACGTTTTCGTCAGCCAGAACCGCCAGCGCAGAGGCCATACCAATGCCGTTATCC -GCACCCAGCGTGGTGCCGCGCGCTTTAACCCATTCGCCATCAATATAAGGCTGGATAGGATCTTTCGTGAAGTCA -TGCACGGTGTCGTTATTTTTCTGCGGCACCATATCGAGGTGGGCCTGTAAGACGACCGGTTTACGATTTTCCATA -CCTGCGGTAGCAGGTTTACGAATCAGGATATTACCTACCTGATCGCGTTCGACATGGAAACCTTTCTCTTTTGCC -CAACCAACAATGTATTCAGCGAGTTGCTCTTCATGATAGGACGGGTGAGGAATAGAACAGATTTTGGCAAAAATA -TCCCACAGCGGCTGTGGAGATAATTGAGACAGTTCAGACACGTTAAGTCTCCTTGTCGATCACCCGCAAAACAGT -ATTGCAGGTCACAGGGTTAGCAGAAAATGTTGTCAACACAAGACAGGCTTGCGAGATATGTTTGAGAATACCACT -TTATCCCGCGTCAGGGAGAGGCAGTGCGTAAAAAGACGCGGACTCATGTGAAATACTGGTTTTTAGTGCGCCAGA -TCTCTATAATCTCGCGCAACCTATTTTCCCCTCGAACACTTTTTAAGCCGTAGATAAACAGGCTGGGACACTTCA -CATGAGCGAAAAATACATCGTCACCTGGGACATGTTGCAGATCCATGCACGTAAACTCGCAAGCCGACTGATGCC -TTCTGAACAATGGAAAGGCATTATTGCCGTAAGCCGTGGCGGTCTGGTACCGGGTGCGTTACTGGCGCGTGAACT -GGGTATTCGTCATGTCGATACCGTTTGTATTTCCAGCTACGATCACGACAACCAGCGCGAGCTTAAAGTGCTGAA -ACGCGCAGAAGGCGATGGCGAAGGCTTCATCGTTATTGATGACCTGGTGGATACCGGTGGTACTGCGGTTGCGAT -TCGTGAAATGTATCCAAAAGCGCACTTTGTCACCATCTTCGCAAAACCGGCTGGTCGTCCGCTGGTTGATGACTA -TGTTGTTGATATCCCGCAAGATACCTGGATTGAACAGCCGTGGGATATGGGCGTCGTATTCGTCCCGCCAATCTC -CGGTCGCTAATCTTTTCAACGCCTGGCACTGCCGGGCGTTGTTCTTTTTAACTTCAGGCGGGTTACAATAGTTTC -CAGTAAGTATTCTGGAGGCTGCATCCATGACACAGGCAAACCTGAGCGAAACCCTGTTCAAACCCCGCTTTAAAC -ATCCTGAAACCTCGACGCTAGTCCGCCGCTTTAATCACGGCGCACAACCGCCTGTGCAGTCGGCCCTTGATGGTA -AAACCATCCCTCACTGGTATCGCATGATTAACCGTCTGATGTGGATCTGGCGCGGCATTGACCCACGCGAAATCC -TCGACGTCCAGGCACGTATTGTGATGAGCGATGCCGAACGTACCGACGATGATTTATACGATACGGTGATTGGCT -ACCGTGGCGGCAACTGGATTTATGAGTGGGCCACCCAGGCGATGGTGTGGCAACAAAAAGCCTGTGCGGAAGACG -ATCCGCAACTCAGTGGTCGTCACTGGCTGCATGCGGCTACGTTGTACAACATTGCCGCCTATCCTCATCTGAAAG -GAGATGACCTGGCCGAGCAAGCGCAGGCTTTGTCAAACCGCGCCTATGAAGAGGCCGCTCAGCGTCTACCGGGCA -CGATGCGGCAGATGGAGTTTACCGTACCCGGCGGTGCGCCCATCACCGGCTTTTTGCATATGCCGAAAGGCGATG -GCCCGTTCCCGACGGTATTAATGTGTGGTGGTCTGGATGCGATGCAGACGGACTATTACAGCCTGTATGAACGTT -ATTTTGCGCCGCGCGGCATTGCGATGCTGACTATTGATATGCCGTCGGTGGGCTTTTCTTCAAAATGGAAGCTCA -CCCAGGACTCCAGCCTGTTGCATCAGCACGTCTTAAAGGCGCTGCCTAACGTACCGTGGGTGGATCACACTCGCG -TCGCGGCCTTTGGTTTCCGTTTCGGCGCTAACGTTGCCGTGCGTCTGGCATACCTTGAATCGCCGCGTCTGAAAG -CGGTTGCCTGTCTTGGTCCGGTAGTTCATACCCTGTTGAGTGATTTTAAGTGCCAGCAACAGGTGCCGGAAATGT -ATCTTGACGTTCTGGCCAGTCGTTTGGGGATGCATGATGCTTCCGATGAAGCGTTGCGCGTGGAGCTGAATCGCT -ATTCATTAAAAGTGCAAGGATTGCTGGGACGTCGCTGCCCAACGCCAATGTTATCAGGCTACTGGAAGAACGATC -CGTTCAGCCCGGAAGAGGACTCACGCTTAATCACCTCATCATCTGCTGACGGTAAATTATTAGAGATCCCATTTA -ACCCGGTGTATCGGAATTTTGACAAAGGTCTTCAGGAAATCACCGACTGGATCGAAAAACGCTTGTGTTAAAAAT -TTGCTAAATTTTGCCAATTTGGTAAAACAGTTGCATCACAACAGGAGATAGCAATGACGTTACCGAGTGGACACC -CGAAGAGCAGATTGATCAAAAAATTTACCGCACTAGGCCCGTATATTCGTGAAGGTAAGTGCAAAGATAATCGAT -TCTTTTTCGATTGTCTGGCTGTATGCGTCAACGTGAAACCGGCACCGGAAGTGCGTGAATTCTGGGGCTGGTGGA -TGGAGCTGGAAGCGCAGGAATCCCGTTTTACCTACAGTTACCAGTTTGGTCTGTTCGATAAAGCAGGCGACTGGA -AGAGTGTTCCGGTAAAAGACACTGAAGTGGTTGAACGACTGGAGCACACCCTGCGTGAGTTTCACGAGAAGCTGC -GTGAACTGCTGACGACGCTGAATCTGAAGCTGGAACCGGCGGATGATTTTCGTGACGAGCCGGTGAAGTTAACGG -CGTGAGTGAAATGTGCCGGATGCATCACATCCGGCAATATTCATTAAAACTGATACGTCATGCCAACCGCGACAA -TATCATCATTATTAATATTCAATTTGTTATCGCTATCCAGTTGGTTGATTTTATAATCAACAAACGCTGACATAT -TTTTGTTGAAATAATACGTAGCACCGACGTCGATATAATTGACCAGATCTTCATCACCGATACCTTCAATATCTT -TCCCTTTCGATAAGACATAACCCAGCGATGGACGCAGACCAAAGTCAAACTGGTATTGAGCGACCGCTTCAAAGT -TCTGTGTCTTATTGGCAAAGCCGCCAGTTATTGGCGTCATTTTGCGTGTTTCAGAATAGAAAGTTGCCAGATAAA -TATTATTGGCATCGTATTTCAGACCTGTTGCCCATGCTTCTGCACGCTTGCCTGTGCCACGGCTTTGCAGGTTCT -GCTCGTTGGTGCGATCTGAGTTGGTATAGGCCCCACTAATGGCGAAATCGCTGCCGCCAAAGTCATATGTCAATG -ACGTGCCGAAGCCATCGCCGTTTTGCTTTTTAACGTCGCGGTTTTCGTTTTTCCCTTGATATTGCAGGGTTAAGT -TCAGGCCATCGATAACGCCGAAGAAGTCGGTGTTCCGATACGTCGCCAGACCGCTGGCGCGTTTGGTCATAAAGT -TGTCGGTCTGCGCCGAGGAATCGCCACCAAATTCCGGGAACATATCGGTCCAGGCTTCCACGTCATACAACGCCC -CCAGGTTACGACCATAATCGAAAGAACCCAAATCTTTATATTTCAACCCGGCAAAAGCGAGACGCGTTTTTTGCT -GTGCAGTATCACTCTCTGCTTTATTACCGGCAAACTCTGCTTCCCAACGACCATAACCAGTCAGTTGATCGTTAA -TTTGTGTTTCGCCTTTGAAACCAAAACGGATATAACTCTGGTCGCCATCTTTACTGGCGTTATCACTCATATAAT -GCATGGCTTTAACTTTGCCATAGACATCCAGTTTATTACCGTCTTTATTATATATTTCTGCAGCCTGTACAGATG -CAGATGCCACAATGCCCATCACCACTAATGCCAGAGTGCTCTTTTTCATTTTCATTCCTGATTTTAATTAACGCG -CGAATATTCAGCGGGAGAGTCCCGTTGAAAACAGGAAAGTTTTTAACCTGAGATTGTTAAAGATATATTACAGAT -TAATAATATTCTTAAAATGTGGTAATTTATTAAATCTGTAATAAAAGCGTAAACAACTGCCGCTAGGCTTGCTGA -TCCCGCGCAACAAAACGCCATGCTTTGCTCGCAGATGGTTGGCAACCGACGACAGTCCTGCTAAAACGTTCGTTT -GATATCATTTTTCCTAAAATTGAATGGCAGAGAATCATGAGTGACAGCCAGACGCTGGTGGTAAAACTCGGCACC -AGTGTGCTAACAGGCGGATCGCGCCGTCTGAACCGTGCCCATATCGTTGAACTTGTTCGCCAGTGCGCGCAGTTA -CATGCCGCCGGGCATCGGATTGTTATTGTGACGTCGGGCGCGATCGCCGCCGGACGTGAGCACCTGGGTTACCCG -GAACTGCCAGCGACCATCGCCTCGAAACAACTGCTGGCGGCGGTAGGGCAGAGTCGACTGATTCAACTGTGGGAA -CAGCTGTTTTCGATTTATGGCATTCACGTCGGGCAAATGCTGCTGACCCGTGCTGATATGGAAGACCGTGAACGC -TTCCTGAACGCCCGCGACACCCTGCGAGCGTTGCTCGATAACAATATCGTTCCGGTAATCAATGAGAACGATGCT -GTCGCTACGGCAGAGATTAAGGTCGGCGATAACGATAACCTTTCTGCGCTGGCGGCGATTCTTGCGGGTGCCGAT -AAACTGTTGCTGCTGACCGATCAAAAAGGTTTGTATACCGCTGACCCGCGCAGCAATCCGCAGGCAGAACTGATT -AAAGATGTTTACGGCATTGATGACGCACTGCGCGCGATTGCCGGTGACAGCGTTTCAGGCCTCGGAACTGGCGGC -ATGAGTACCAAATTGCAGGCCGCTGACGTGGCTTGCCGTGCGGGTATCGACACCATTATTGCCGCGGGCAGCAAG -CCGGGCGTTATTGGTGATGTGATGGAAGGCATTTCCGTCGGTACGCTGTTCCATGCCCAGGCGACTCCGCTTGAA -AACCGTAAACGCTGGATTTTCGGTGCGCCGCCGGCGGGTGAAATCACGGTAGATGAAGGGGCAACTGCCGCCATT -CTGGAACGCGGCAGCTCCCTGTTGCCGAAAGGCATTAAAAGCGTGACTGGCAATTTCTCGCGTGGTGAAGTCATC -CGCATTTGCAACCTCGAAGGCCGCGATATCGCCCACGGCGTCAGTCGTTACAACAGCGATGCATTACGCCGTATT -GCCGGACACCACTCGCAAGAAATTGATGCAATACTGGGATATGAATACGGCCCGGTTGCCGTTCACCGTGATGAC -ATGATTACCCGTTAAGGAGCAGGCTGATGCTGGAACAAATGGGCATTGCCGCGAAGCAAGCCTCGTATAAATTAG -CGCAACTCTCCAGCCGCGAAAAAAATCGCGTGCTGGAAAAAATCGCCGATGAACTGGAAGCACAAAGCGAAATCA -TCCTCAACGCTAACGCCCAGGATGTTGCTGACGCGCGAGCCAATGGCCTTAGCGAAGCGATGCTTGACCGTCTGG -CACTGACGCCCGCACGGCTGAAAGGCATTGCCGACGATGTACGTCAGGTGTGCAACCTCGCCGATCCGGTGGGGC -AGGTAATCGATGGCGGCGTACTGGACAGCGGCCTGCGTCTTGAGCGTCGTCGCGTACCGCTGGGGGTTATTGGCG -TGATTTATGAAGCGCGCCCGAACGTGACGGTTGATGTCGCTTCGCTGTGCCTGAAAACCGGTAATGCGGTGATCC -TGCGCGGTGGCAAAGAAACGTGTCGCACTAACGCTGCAACGGTGGCGGTGATTCAGGACGCCCTGAAATCCTGCG -GCTTACCGGCGGGTGCCGTGCAGGCGATTGATAATCCTGACCGTGCGCTGGTCAGTGAAATGCTGCGTATGGATA -AATACATCGACATGCTGATCCCGCGTGGTGGCGCTGGTTTGCATAAACTGTGCCGTGAACAGTCGACAATCCCGG -TGATCACAGGTGGTATAGGCGTATGCCATATTTACGTTGATGAAAGTGTAGAGATCGCTGAAGCATTAAAAGTGA -TCGTCAACGCGAAAACTCAGCGTCCGAGCACATGTAATACGGTTGAAACGTTGCTGGTGAATAAAAACATCGCCG -ATAGCTTCCTGCCCGCATTAAGCAAACAAATGGCGGAAAGCGGCGTGACATTACACGCAGATGCAGCTGCACTGG -CGCAGTTGCAGGCAGGCCCTGCGAAGGTGGTTGCTGTTAAAGCCGAAGAGTATGACGATGAGTTTCTGTCATTAG -ATTTGAACGTCAAAATCGTCAGCGATCTTGACGATGCCATCGCCCATATTCGTGAACACGGCACACAACACTCCG -ATGCGATCCTGACCCGCGATATGCGCAACGCCCAGCGTTTTGTTAACGAAGTGGATTCGTCCGCTGTTTACGTTA -ACGCCTCTACGCGTTTTACCGACGGCGGCCAGTTTGGTCTGGGTGCGGAAGTGGCGGTAAGCACACAAAAACTCC -ACGCGCGTGGCCCAATGGGGCTGGAAGCACTGACCACTTACAAGTGGATCGGCATTGGTGATTACACCATTCGTG -CGTAAATAAAACCGGGTGATGCAAAAGTAGCCATTTGATTCACAAGGCCATTGACGCATCGCCCGGTTAGTTTTA -ACCTTGTCCACCGTGATTCACGTTCGTGAACATGTCCTTTCAGGGCCGATATAGCTCAGTTGGTAGAGCAGCGCA -TTCGTAATGCGAAGGTCGTAGGTTCGACTCCTATTATCGGCACCATTAAAATCAAATTGTTACGTAAGATCTTAT -CATTCTCCCACCAAAAAATTATCTTAATGTAACAGCTGGTGTAAGTAAATTCTATCAACGAAGATCAATCTTATC -TACTGACCAAAAAGGCCTGATAGGGCTTCGCTCACTATACATCCTTGGCTGCAGGTTTAGTTGTACACCACTCCT -AAATTTAATGTGTTGGCAATGTGTTCAATAAAGCTCGAACAAATTAGCTCATTATGATCGGTTAATACTTCAACT -TCTGGTTGCATGATTGTTTGTCCGTAAAAAGATAACGCGCCTGCCGGGTAGTAGCAGGCGCATTACGCAATAGGT -AAACAAGGGAGGAAGTTCAGAAATGTAAATCGGGAAGGTTGTACGCAATGTTCATCGTACTACGTTGTTACGGCT -TTGCCGCAACAAGCCAGTTGCCTGCCGCGCTCGCAGAATGTCTGCAGCCCGGAGATAAGGAGATTGTTCCTGCCA -GCTAAATCCCTTCCTGTCGATACGAACCAGCTCGTATTTTTCTACCAGAAAATTCACGGCATCGGCTAGGGTGAT -ACCGGCATCGATGTGTTCCTTAATCACAGCCTCATTGCAGAATGGCGTGTCGTTTATTGTCAGACCATAGTGCTG -TTCCAGCAGACGTGTCAGTAACATTTGCCAGACAGCCACGGGTGACAGGCAGGGCTTCACCGCCCGCTGAGTTAT -TGCAGGTAAAGTTTTCATGTTTGCTCTCGTGTAGGTAATTAACGCTGAGTGGGGTAAATGGCGATGTATACGTAG -CCGCAACTGCCAAGGGTGTCGGCTTCGCAGGTTAAATCGTTGTGGTACAGGGTAACGCAGTGGGCATGGTGGGGG -CTGAGTTCACCGGTGGTCAGCATCGATTCCATCTGGAGGATAAAGTGCGGGAATGTTTCATCCAGCTTCCGGCAT -TCGATGTCACTGAACTTGCCGGTGATGCTGGCCCGGTCAGCCAGATAATGCAGTCGGTTGCCTTCCTGCACCAGA -CGGGCTCCCAGGCGCAGTGTAATCTCCCGCTGCAGGCCCCTGGTAGGGTTGCTCATTACAGTTCTCCACTATTGT -CAGTTCAGGGTGATGCTCATCAGGCAGGTATAGGGCCCATTGCGGTCCTGGCGGCGTTCGGCGTATACCGCGAGG -ACTCCGGCGATATCCGGAACGTCCCTGCCGGTGTAATGACAGACGCTACCGTGCCACTGGTATTTGCCGGTGCAG -TAGCGAAAGATTCGGGACTCAGGATGCTGGCGGTATATCGTCATTGCCCTGCGTTTACTGATAATTTTCATGTAA -TACCTCAAAGCAGACCGTGTTCTGCGAACGAATAGATTTGCCTGCCACCGACAATCAGATGGTCAGGGACACGGA -TATCCACCAGCTGAAGCACCTGAACCAGTCGCTGCGTGAGGGTTTTGTCGGCCTGGCTAGGTGTCGTCTCGCCGG -AAGGATGGTTATGCGCGAGTATCACCGCCGCCGCGTTGAAGTGCAGAGCACGTTTGACCACCTCCCGGGGATGCA -CCTCGGTGCGGTTAATCGTGCCGGTGAAGAGCGTTTCATGGGCAATCAACTGATTCTGGTTGTCCAGATACAACA -CCCGGAACTCTTCCCGCTCAAGCGCGGCCATATGCAGTCGCAGCCATTCACGTACGGCGTGGGTAGAGGTGAAGG -CTACGCCGGGCTCATGCAGGTGGCGGTCCAGAGCCCTGAGCGCCCGCTGAATGAGACGCCGGTCCTGTGGCGTCA -TCTCGCCGGGTAAAAAGGAAAGCTGTTTCATCTGTTGCTCCTTCGGTCAGTCGATAATACGCAGAATGGCGTGAG -CCTCTGGATGTTGCATGGCATACTCCCGCAGGCGGTAATAGTGTGCGGTCATCGCGTCACATTCTGTACGGCAGG -CATGGTGGCTATACGCAATCAGGCAGACAGCAATACCTGCTGCTTCTGCACTCATTTGGGCATCGTTACCGTTCA -GGCAGTTAAACAGACGCCATGTCTCATCGTTGTCAGGCTCGGGGGACATAAATGCGCCGCCATTGCTGAGGGTGT -AGAACGACCAGATACCACCGCTGTAGCCCTCACAGAAGCGGTCCATCCAGGCGAAGATATGCGGCTCCAGGAGTA -GCCACTGCGGGATAGCGCCAAAGTACTGTGGCCAGAAATCGATACGCTGTTCATCGGGGACCGGCGTGACGGTCA -GTTCAAATTCGGGTTGGTTAGCGGGTGCGAGGTCGTGCTGCGTCTGTGTTGTCATGGGTATGTCTCCGTCAATAA -AAACGCCAGCGGCGATGGCTGGCGTATGGGGATATAAAGTGTGTTCGGGGAGGTGAATGCGGGTAAATGCTTCGC -GATCAGCGGGTGGCCGTGTCTGTACGGATGCCTGAGGTGCGGATATAGCGGTTAAGACCTTCACCGGCATCCGGC -TCAAAGTTCCATGCCCGCCAGACCATCCGGCCTTCAGTATCACGAACCACCAGACGGAAGTGACTGCCCTGGTCG -TCTTCGAGTGTGATATTGCTGTACGTGGTAGTGACCGCTTGCGCTTGTCTCCGGGTGAAAGGCCCCGGTGGCAGC -AACACGGATTGGGTCATTTTCGGGCTCCTGATAAAAGAAAACCCCGGCAGCCTGCTAGCTGTCGGGGTGAATTTG -CTGGGGAAGATACTACTATCAGTCGTTGCTGCAGTCTCCGAGAGTGGACAGAACTTTCTCAGCGTTCTTCCGGTC -CGCAGTGAAGGTCCCTGCTTTGTGGTCATTGACGTAGACGTCGAACTGCCCGGCCTCAGAGATATTGCTGATGAA -GTCAAACCAGGCGTTATCGCCGTTACGCCAGCCCAGGCTGGACGGAATAATGTACTGCTGGTGATCCATCACTAC -GGTGATAGTAGTGTCGTCATCGTGCGAACTGACCATCTTGTCATCGGCAAGGGTAAGAAAGACTGAATGCTGATA -GAAACCATTCTGGTCCGGGTTCCCTGTGCAGTTGATGGTAAACGTCTTTCCGCTGGCTTCGGTCACGCTGTATTC -CGTATTGCCCTGACCGTAACCCTGCTGCCAGAACCCCGGGATAGCAGAGGCATTAAAGCTCGCGAGCAGTACACC -CGCCAGCATAAACCGACTTAGTGAAAGTATTGTCATTCTTGTCTCCTTTGTCGTTGTTTTATTCCTGATTGTCAG -GGTTCGAGGGTATCAGTAGCTGCCCCATCAGTTTGCCGTCATGGGCGTACTCAAAGTATTTTTCTTTGGTATACG -GGTCCGTCACCTCCTGGTATTCCAGTTTGATGTTATCGGCAATACACAGCGCATTCATCAGTGGCTGGACGGTTT -TTTCCTGCATATCCACGAGGTAGTAGTAACTGCCATCCTCGCAGCCATCGGGCGACTGGCGGGTACGTAAAACCT -GCAAGGTGGGACCGGATAAGTAGTCAACCTGTGACCATTCTTCGCTGACATCATCCTGGTGGCTGACCACATCAC -TGAAACGCGGTGGGGTGAGGTCCTTAAATTTACTGATGGCCTTCAGGTCATCACTTCTGTCATCGCATGCGATGA -GAAACAGAGTGGTGGCAACCAGCGCCAGCAGAGGCAGTGTTTTACGTTTCATTATTTTTTTCCTGAAATCAGACG -AACCACTTTGGCAAAGACATAAATGCCCACGAAAATACCCACCGGCACGCCGACGAACGGTGTCAGCGCGACACT -GGCAGCACCGGCTGCGCCACCTCCCGTCAGCAGTGCGGCAACAGTGGCAAGGGTCAGGGCCGCGAGACTGTCGGA -CACCCCGGTTTTGTTCAGAATGATGACGATGACAACAATGGCGATAATGGCAATATCCGGACTGATACTCCAGGT -CCAGATACATCAGCCGCTCACGAAAATCACGCCGCAGCGTGCGCACCGACACACCAAACTCAGCGGCAAGCTTAC -GCACACTCAGCGTTTCCCCTGCCACCAGACGGCTGATTATCAGTGACAGCCTGACAGCCAGCCGGTCATGGCGGC -GTTCTGCCTGTGTCATGAGACGTTCTCCGTGAAAGTTAACTGACTGAAAATGATGTGATTACTTTAAAGAGGGGG -TCGGACAGGGTATGGACACCACAGAAACTATTTTTCATTTCTGCAAAAGCCAGAGGCAGCGGGGGTTACAGGCCT -TCCCTCGGTGAGTGAGGACCGTCAGCACGGTGCGATGCGGACAGGTGGTGTCCGATATTAACAAAGCAGCAACAT -TAAACGGTCACTGCAGTTGCGTGAGCAGGGCTTCCGCCATCACCCACAGTGCCCGGTTAAGTTTCACGTCCCCGT -CGATACCGCGAACGGCACGGGTATGTGACCGTCCTCCTTTGGCATTACGGCCACTGAGCCCGCCCTTAATCAGGT -TCTCCTGAATACGCTGGTACGTGGTCCACAGGTCATTGCTCTCATCCTGCCAGCGGCGAGGGGAGAGGATCTGCG -ATTCAGTCACCGGCTGGTGGTCTTCACCAAAGCGGTATGTGAGGGCGGCTTTTGCCAGTGCCTGCTGTGCCGGGG -GTGGCAACAGCAACGACTGCATGGCATCCCGTTTCTCCTCCACCCGGTCAAAAATCCCCAGCACCTCATACGCGC -CTTCAATCACCTGACTCACCACGTCCCCCTTGTGTGGCACCCGCACCTCGCCAAACGACTCACCGCAGACGAGCC -CGTTCTGACAAACCGCACGAAATAGTCCCGGCAACATCTGATACGAACTGGTTCCATCGTGAGAGTTGAGTAGAA -TAATTTCCGGCACCTGTTTACCGGTGATCTGCCCTTCCCGCCGCAGACGCAGCATATGCTTTGTATGTTCACGAC -GACCCGGGTCACGCACGCGGGTCTGACAGGCAAAGAATGGCTGGAAGCCTTCTCGCTGTAGGCTGTCGAGCAGGG -AGATGGTGGGTATATAGGTATAACGCTCACTACGGGACTCGTGTTTGTCCTCACTGAATACACTGGGCACTACGC -GAAACAGCTCTTCACGGGTTAACGGACGGTCGCGACGGATAAGGTTTGCTGCGCCAAAGCGCGAAGCCAGACGGG -TCATAAGCAGACTCCTCATAACGGGAAAACAAATAAAAGGGATCCCCGTCGCATCGGCGACAGGGGCAGGGAAGT -AACAGGGATGGGTTAAATACTCAGAAGAAGAAATCCCAGACGGCGCGGGCCACTGACACCACCGTGGTGCGCACG -GCCTGAATGACGGCCCGCACCGGGGCGGGTATCAGGGGAAAGGCACTGATGCTATCGAGTACGGCCCCGACGGTT -TCACCAAAATCGCTACGAGCCTGTTCCCGGACTACCGTCGTGCGAAAGGAAGGATGGAGTTGCGACACCACCGGG -CTGGTGGCCTCACGTGGCAGGCACTTAATCATCCGCTCGGCCATCACCTTAAGCCCCCATTGTAGACGGACCGAC -ACAGCACACACCGGATGGACGGGCTGGAACAGCTCATGCAGCAGGCAGATTTTGCGGCTGATATTCTGCTTCTGC -GCCGTGGACAACTGTCCCCCACCGCTGGTAGGTTCGGCCTTATCCGACTGGCTGATAACAAACAGCACCTTATGC -CGGTATACCTCTCCAATCACCTGATGATAAAAATGTTCATCCACCGTCAGCGCCCGGTCATCGGCCTTAATCAGC -CACAGTACCAGGTCGAGGCGAGGAAGCTGTTCGCGGTACAGCGCAGCATACTCGGTATCGCGAGCGCCACTTTCG -CCCACGCCGGGCAGATCCATCAGCGTTATATAGCGGTCGCCGACTTGCAGGCGAAAGCGCAGTGGCTCACGTGTA -CAGGCCGCCACATCGCTGACCGGTGATATATCTCCGGCAAACAGGGCATTGCACAGACTGCTCTTCCCAACACCG -GTTTTACCCATAATGCCGATCACTGGCTCGTAGTTAGTTAACTGGTTAATTTGCTGCAGAAGCCGCTCTGATACC -CATTGCGGCAGATCAGCAAGCGATTGCTGAAACGACTTCAAACCTTCAGAATTATTCATCACTACTCCTCTGAAA -AATAATAAAAAACGGTAGAATCGTGAGATTCCGCCGTTAATTGCGTATGTTCAGAGTGATGATATATATCTGAAG -ATTTTTTCAATCCTCTGCGCTTGAGGCAGCTGCGCGACTGCTGGCTCAGGCAATGAATGAGTTATAATAGCAGCA -TTTACTAACAGGGATTTATTGAGAGTATGAGCCGCCGTGATACACCTTAAAATCTCAACCCAGCAAAGTTTCGGA -GCCGCGAGCAAAAGTGAGAGCCTTCACAAAATAATGCTTAGTAATAAAGTTACTTTGAATTCAGAGCCCCGATTA -ATGTGAACATGATCAACGAATTTTACCCAGATTGAGTTCATTCAGTAGCCAGGTTTTGAACACATCAAGCGCAGA -ATGCATGTGTTGGTGCTGGGGGAAAACCAAATAATGACCGATGTAATGTATTTCGCTGGTACTGTTTACAAGTGG -GCATACCAGTTTACCGCTAGCGATTTCACGTTCAGCCAGTAGTTTTGATTCAAGCACAACTCCCAAGCCGTCAAC -TGCGGCAGCAATCGCCATAAAGCTACGGTCAAATCGAAGGCCATAATTATTGGGTGGCGTCATCTTATTCGCCTC -AAACCATCCTTTCCACTGGTACAACTGCACATCGCACTGAATCAATGTCAACGCATAGAGATCCTCTGGTTTCTT -TAGCCGCTCAGCCAGTTGGGGAGAACACAGTGGCGTAAGTTCTTCAACAGCAAGCGGGATCTTCTCATAGGGTGA -TGGGCGGGGTTCACCGTAGACTATATCGAGATCAAAATCATCCTGTTCAAAACGTGCATATTCTGTGCTGGCTGA -AAGTCGCAGATCGATGCTTGGGTTCTCACGTATGAACTTACCAAGACGTGGTAAAAGCCATTGATGGGCAAAACT -CGGTGCAGTATGAAGGCGCAAAGGCCTGGATTCATCAGCCGTCACTAATGCCAACCCCTGCTGTAATTCGTTAAA -TCCCCGCTGTATGTGCTCAAGCAGTATTTCACCTTCTTTCGTCAGCGTAATTTCTCGCGTACTGCGCTGAAAAAG -GCGTACATCAAGCAAGTTTTCCAGTTTGCGGATGGCATGGCTGATCGCACTGGGTGACAGTTCCAACTCAGAGGC -GGCCAACGCAAAAGCTCCGGTACGACCAGCCGCTTCAAAGGCGCGTAACAGATTTAGAGGTGCTTTTGCTAAGAG -CTTCATTCATGAATCCTTTTCACTAGGGATGAAGTGGTTTACTGAATTTGGCCACCTGAACAGAGGTGATATGCT -CACCTCAGAACAACACAGGTGTCATAATGAAAAAAAGAAATTTCAGCGCAGAGTTTAAACGCGAATCCGCTCAAC -TGGTCGTTGACCAGAACTACACCGTGGCAGATGCAGCCAGCGCTATGGATGTCGGCCTTTCCACAATGACGCGAT -GGGTGAAACAATTACGTGATGAACGGCAGGGCAAAACACCAAAAGCCTCCCCCATTACCCCGGAACAAATTGAAA -TCCGTGAGCTCAGGAAAAAGCTACAACGTATTGAAATGGAAAATGAAATATTAAAAAAGGCTACTGTAGATTCAA -TTGGTCAACGCAACAGTTATGTGAAAACATGGGGTTGCGGAGGTTTTTTGAATGAGACGAACATTTACAGCAGAG -GAAAAAGCCTCTGTTTTTGAACTATGGAAGAACGGAACAGGCTTCAGTGAAATAGCGAATATCCTGGGTTCAAAA -CCCGGAACGATCTTCACTATGTTAAGGGATACTGGCGGCATAAAACCCCATGAGCGTAAGCGGGCTGTAGCTCAC -CTGACACTGTCTGAGCGCGAGGAGATACGAGCTGGTTTGTCAGCCAAAATGAGCATTCGTGCGATAGCTACTGCG -CTGAATCGCAGTCCTTCGACGATCTCACGTGAAGTTCAGCGTAATCGGGGCAGACGCTATTACAAAGCTGTTGAT -GCTAATAACCGAGCCAACAGAATGGCGAAAAGGCCAAAACCGTGCTTACTGGATCAAAATTTACCATTGCGAAAG -CTTGTTCTGGAAAAGCTGGAGATGAAATGGTCTCCAGAGCAAATATCAGGATGGTTAAGGCGAACAAAACCACGT -CAAAAAACGCTGCGAATATCACCTGAGACAATTTATAAAACGCTGTACTTTCGTAGCCGTGAAGCGCTACACCAC -CTGAATATACAGCATCTGCGACGGTCGCATAGCCTTCGCCATGGCAGGCGTCATACCCGCAAAGGCGAAAGAGGT -ACGATTAACATAGTGAACGGAACACCAATTCACGAACGTTCCCGAAATATCGATAACAGACGCTCTCTGGGGCAT -TGGGAGGGCGATTTAGTCTCAGGTACAAAAAACTCTCATATAGCCACACTTGTAGACCGAAAATCACGTTATACG -ATCATCGTTAGACTCAGGGGCAAAGATTCTGTCTCAGTAAATCAGGCTCTTACCGACAAATTCCTGAGTTTACCG -TCAGAACTCAGAAAATCACTGACATGGGACAGAGGAATGGAACTGGCCAGACATCTAGAATTTACTGTCAGCACC -GGCGTTAAAGTTTACTTCTGCGATCCTCAGAGTCCTTGGCAGCGGGGAACAAATGAGAATACAAATGGGCTAATT -CGGCAGTACTTTCCTAAAAAGACATGTCTTGCCCAATATACTCAACATGAACTAGATCTGGTTGCTGCTCAGCTA -AACAACAGACCGAGAAAGACACTGAAGTTCAAAACACCGAAAGAGATAATTGAAAGGGGTGTTGCATTGACAGAT -TGAATCTACAACCGCGCTCTTGATGTCAGACTCCCTGAACAGTTCTCGATAATCGGGAAACTCAGGGCGCGTTAT -CCTGTGGCCACTCTCTGCCATGTGTTCGGGGTTCATCGCAGCAGCTACAAATACTGGAAAAACCGTCCTGAAAAG -CCAGACGGCAGACGGGCTGTATTACGCAGTCAGGTACTTGAACTGCATGGCATCAGCCACGGCTCTGCCGGAGCA -AGAAGCATCGCCACAATGGCAACCCAGAGAGGATACCAGATGGGGCGCTGGCTTGCTGGCAGACTCATGAAAGAG -CTGGGGCTGGTCAGTTGCCAGCAGCCGACTCACCGGTATAAGCGTGGCGGTCATGAGCACGTTGCTATCCCGAAT -CATCTTGAGCGACAGTTCGCCGTAACGGAACCAAATCAGGTGTGGTGCGGTGATGTGACCTATAGTGTGCCCGGA -GTTCAGGGCGGGCATGGATGCTTAAATGAACCGCGAGTCTGTCTGGAATATTGAACCGGTAACTCACGATGAGAA -ACCCAACAATCCCACCGGGTGTGACGGTGGAGAACCTGAGCGGCAGTGACCTGCGGCATGCCCGCAGGGTGATGT -AACCCGCTGACAACGGGGATTGAGGCGAGATCACTAAGCCGAGATGATCCTCAAGGTTAAGTACTGAAAGGTTGA -AGAACATGAACCCGTTAATCCGCCTCTGTGGGTTGAAAACGTCACCACGGCCTACGTGATCTGACAGGCCGTGCA -GGAGGAACTGGCAGTGATACGTAAGCACTGCCGGTCGAAGGTGTTTTGACATGTATGCGAAACACCGGGGCAGCA -GCGTCTATCACGCTTGCGTTGCTGACTTCTGCCAACTTGCGGCAAGCAAGGATAAAGAGTGCGACGGGCAGCCTC -CTCAGTATGCCTGAGTCCAGGCAGGTAAACCGGGGAAGGTCAGCGACGGATGTTAAGGGGGCATGGCTCCGATGA -CGCGCTGGCTGGCGGAGCTTCCGTAGTAGTCCGCGATGGGGAAAGCCCATTACATGGCGAAGGGAAGCAGTTTGA -ATGTGTTTGCGACGTGAATTAACTGACCTAACGAGGTGAAGACCTTTGATAATCAGCGAAATGCAACGCAAGCTT -GCCACATGGGCAGCCACCGATCCGTCCCTACGGATTCAACGGCTGCTGCGTCTGATAACACAACCAGAATGGCTG -GCTGAAGCGGCGCGGATCACGCTTTCATCAAAGGGGGCCCATACCCCCGGCGTTGATGGCGTGAACAAAACAATG -CTACAGGCCAGACTGGCTGTTGAGCTGCAAATCCTCAGGGATGAATTACTCTCAGGCCACTACCAGCCCTTGCCC -GCCAGACGGGTTTACATCCCTAAAAGCAACGGCAAACTGCGACCACTGGGTATCCCCGCGTTGCGGGATCGTATT -GTTCAGCGGGCCATGCTGATGGCGATGGAGCCGATATGGGAGAGTGATTTTCATACGCTCTCATATGGCTTCCGG -CCTGAGCGCAGTGTCCACCACGCGATCCGCACGGTGAAATTACAGCTCACAGACTGTGGTGAAACCCGGGGACGC -TGGGTGATTGAAGGCGACCTGTCCAGTTACTTCGACACCGTACATCATCGACTGCTGATGAAGGCTGTACGCCGC -AGGATCAGTGACGCACGTTTCATGACTCTGCTGTGGAAAACCATCAAGGCGGGACATATCGATGTCGGTCTCTTT -CGGGCGGCCAGTGAAGGTGTGCCACAGGGCGGTGTTATATCGCCGCTATTATCGAACATCATGCTGAATGAGTTC -GATCAATACCTGCATGAGCGCTACCTGAGCGGGAAAGCCAGAAAAGATCGGTGGTACTGGAATAACAGTATCCAA -CGGGGCCGAAGTACGGCGGTCAGAGAAAACTGGCAGTGGAAACCCGCGGTGGCGTACTGCCGCTATGCCGATGAT -TTTGTCCTCATCGTCAAAGGCACCAAAGCACAGGTGGAAGCCATCAGGGAGGAGTGTCGGGGTGTGCTCGAAGGC -AGTCTGAAACTCAGGCTGAACATGGATAAGACTAAAATCCCCCATGTTAATGACGGCTTTATCTTTCTGGGGCAC -AGGCTCATTCGCAAACGCAGTCGTTATGGCGAGATGCGAGTGGTCTCAACGATCCCGCAGGAGAAAGCCAGAAAC -TTCGCCGCATCGCTGACAGCACTGTTATGGAAGGTGCGAATAAGCGGGGAAATTCTTCTCGGCTGACTCAGTCAT -TTCATTTCTTCATGTTTGAGCCGATTTTTTCTCCCGTAAATGCCTTGAATCAGCCTATTTAGACCGTTTCTTCGC -CATTTAAGGCGTTATCCCCAGTTTTTAGTGAGATCTCTCCCACTGACGTATCATTTGGTCCGCCCGAAACAGGTT -GGCCAGCGTGAATAACATCGCCAGTTGGTTATCGTTTTTCAGCAACCCCTTGTATCTGGCTTTCACGAAGCCGAA -CTGTCGCTTGATGATGCGAAATGGGTGCTCCACCCTGGCCCGGATGCTGGCTTTCATGTATTCGATGTTGATGGC -CGTTTTGTTCTTGCGTGGATGCTGTTTCAAGGTTCTTACCTTGCCGGGGCGCTCGGCGATCAGCCAGTCCACATC -CACCTCGGCCAGCTCCTCGCGCTGTGGCGCCCCTTGGTAGCCGGCATCGGCTGAGACAAATTGCTCCTCTCCATG -CAGCAGATTACCCAGCTGATTGAGGTCATGCTCGTTGGCCGCGGTGGTGACCAGGCTGTGGGTCAGGCCACTCTT -GGCATCGACACCAATGTGGGCCTTCATGCCAAAGTGCCACTGATTGCCTTTCTTGGTCTGATGCATCTCCGGATC -GCGTTGCTGCTCTTTGTTCTTGGTCGAGCTGGGTGCCTCAATGATGGTGGCATCGACCAAGGTGCCTTGAGTCAT -CATGACGCCTGCTTCGGCCAGCCAGCGATTGATGGTCTTGAACAATTGGCGGGCCAGTTGATGCTGCTCCAGCAG -GTGGCGGAAATTCATGATGGTGGTGCGGTCCGGCAAGGCGCTATCCAGGGATAACCGGGCAAACAGACGCATGGA -GGCGATTTCGTACAGAGCATCTTCCATCGCGCCATCGCTCAGGTTGTACCAATGCTGCATGCAGTGAATGCGTAG -CATGGTTTCCAGCGGATAAGGTCGCCGGCCATTACCAGCCTTGGGGTAAAACGGCTCGATGACTTCCACCATGTT -TTGCCATGGCAGAATCTGCTCCATGCGGGACAAGAAAATCTCTTTTCTGGTCTGACGGCGCTTACTGCTGAATTC -ACTGTCGGCGAAGGTAAGTTGATGACTCATGATGAACCCTGTTCTATGGCTCCAGATGACAAACATGATCTCATA -TCAGGGACTTGTTCGCACCTTCCGGAGGCGTTATGAGCTGGCGGCCCTTTTTGTATCTGATTATTAATCCCCACC -CGCTATTAAGCGCCCGGCGCGGGCATCTGCGTCTGGTGCAGGGTTGACTTTGCATTCTGTTAACAAACGCGGTAT -AACAAACCTTCTTTGGATGTTTAGATGTCCATACGTTTAGAAGGTTATATGCAAACAACACAACAAAATGCGCCA -CTGAAGCGCACAATGAAAACGCGTCACCTGATTATGCTTTCCTTGGGCGGCGTGATTGGCACAGGATTATTCTTC -AATACCGGGTACATCATTTCCACCACTGGAGCGGCGGGAACGCTGCTGGCCTATCTGATTGGTGCGCTGGTGGTC -TGGCTGGTTATGCAGTGTCTGGGCGAGCTGTCGGTCGCGATGCCGGAGACCGGAGCGTTTCACGTTTATGCCGCG -CGCTATCTTGGTCCGGCTACCGGGTATACCGTGGCCTGGCTTTACTGGCTGACCTGGACCGTGGCGCTGGGTTCG -AGCTTTACCGCCGCTGGATTCTGTATGCAGTACTGGTTTCCACAGGTGCCGGTATGGGTCTGGTGCGTGGTGTTC -TGCGCGATTATTTTTGGTCTGAATGTTATCTCCACGCGCTTTTTTGCCGAAGGGGAGTTCTGGTTCTCGCTGGTC -AAAGTGGTCACTATCATCGCCTTTATCATCCTCGGTGGGGCGGCGATTTTCGGCTTTATTCCGATGCAGGATGGC -TCGCCCGCGCCGGGGCTGAGTAATATCACGGCAGAAGGCTGGTTCCCGCACGGTGGCTTACCGATTTTGATGACT -ATGGTGGCAGTGAACTTTGCTTTTTCGGGTACCGAGCTTATCGGCATTGCCGCCGGTGAAACGGAAAACCCGCGC -AAAGTTATCCCGGTAGCGATTCGTACTACCATCGCGCGACTGATTATTTTCTTTATCGGCACCGTGTTTGTGCTG -GCAGCGCTGATCCCGATGCAGCAGGTGGGCGTGGAGAAAAGCCCGTTTGTGCTGGTATTTGAGAAAGTAGGGATC -CCGTACGCCGCTGATATTTTTAACTTCGTGATCCTGACGGCTATTCTTTCTGCAGCGAACTCCGGGTTATATGCC -TCCGGGCGCATGCTGTGGTCGTTGTCGAATGAACGTACGCTACCGGCCTGTTTTGCGCGAGTAACGAAAAACGGC -GTGCCACTGACGGCGCTGTCGGTCAGTATGCTCGGTGGTGTGCTGGCGCTGTTTTCCAGCGTGGTGGCCCCGGAC -ACGGTATTTGTTGCGCTGTCGGCAATCTCCGGGTTTGCGGTGGTAGCGGTGTGGCTGAGTATCTGCGCCTCGCAT -TTTGTTTTTCGTCGCCGTCATCTGCAACAAGGTAAGGCATTGAGTGAATTACATTATCGCGCGCCGTGGTATCCG -CTGGTGCCAGTATTAGGTTTTGTGCTGTGCCTGGTGGCCTGTGTTGGGCTGGCATTCGATCCAGCGCAGAGAATT -GCGTTGTGGTGCGGGTTACCGTTTGTTGCGTTGTGCTATGGTGCTTATTTCCTTACTCAACCCCGAAACGCAAAA -CAGGAGCCAGAACATGTCGCAGAATAATCCGTTACGCGCTCTTCTTGATAAACAGGATATCCTGCTGCTGGATGG -CGCGATGGCGACGGAGCTGGAAGCGCGAGGGTGTAACTTAGCCGACAGCCTGTGGTCAGCCAAAGTGCTGGTAGA -AAACCCGGAGCTTATCCGCGAAGTGCATCTTGATTACTACCGGGCGGGGGCGCAATGCGCGATCACTGCCAGCTA -TCAGGCGACGCCGGCGGGCTTCGCCGCGCGAGGTCTGGATGAAGCGCAGTCGAAAGCGCTGATTGGCAAAAGCGT -GGAGCTGGCGCGTAAAGCCCGTGAAGCGTATCTGGCAGAGAACCCGCAGGCGGGAACGCTTCTGGTGGCGGGATC -CGTCGGGCCTTACGGCGCGTATCTGGCGGATGGCTCTGAATACCGTGGCGATTATCATTGTAGCGTTGAGGCATT -TCAGGCGTTTCATCGCCCGCGCGTGGAAGCCTTGCTGGATGCCGGGGCCGATCTGCTGGCCTGCGAAACCCTGCC -GAATTTTTCCGAGATTGAGGCGTTGGCCGAGCTGTTGACCGCATATCCGCGTGCGCGGGCGTGGTTCTCATTTAC -CCTGCGCGACAGCGAACACCTGAGCGACGGTACGCCGCTGCGTGACGTGGTTGCGTTGCTGGCGGGTTATCCGCA -GGTGGTGGCGCTAGGCATTAACTGTATTGCGCTGGAAAACACCACCGCTGCGTTGCAGCATTTACACGGTTTAAC -GGTGCTGCCGCTGGTGGTGTATCCGAACTCGGGCGAGCATTACGATGCCGTGAGCAAAACCTGGCATCATCACGG -TGAACATTGCGCGCAGCTGGCGGATTATCTGCCGCAGTGGCAGGCCGCTGGCGCACGGTTGATTGGCGGGTGCTG -TCGCACCACGCCTGCGGATATCGCCGCGTTAAAAGCGCGAAGCTGAGGGTTTATCGGGTCTACATCGTTCATTGT -AGGCCTGATAAGCGCAGCGCATCAGGCATTGCCGGATGGCGGCACAAGCGCCTTATCCGGCCTACAAAACCACAA -AACGTTATGCCGCATCCGCCAGAACAAACATGCCGTACGGATGGATTTCAAGATAATACTGCTCGCCGACGTCCG -GTTGCAGACGCGTAGCGTTGACCTGCAATAATATCTCCTGCCCGTGCCATTCCACCGTCACTTCATACTGCGGCC -CCATATAGGCGACATGGCGGATCACGCAGCGCTGGCTCTCTTCGCCGCGATCGCTGAGCGTGATCGCTTCCGGGC -GCACACCGACCATCCCTTCACCCTGTGTACCAAAGTGCAGCGGGCGCGGCAGATGATAGCCGTAGATATCAACGT -ATCCGTCGCTGAAGGTTGCCGGGAACAGGTTGGCATCGCCCATAAAGCTCGCCATAAAGCGGGAGGCGGGCTGGC -GGTAAAGATCCTGCGGTGAGCCGATCTGCATGATGTGTCCCTTGTTCATCACCAGCACAGTATCAGAAACCGCAA -AGGCTTCGCTCTGATCGTGGGTGACGTACAGCGAGGTGATATCAAACTGCTTTTGCAACTCGCGGATCTTGTCGC -GCATGCTGCGACGCAGGTTGGCGTCGAGGTTACTCAACGGCTCATCAAACAGCAGCACTTTCGGCTTGAGGATCA -GCGCGCGGGCCAGCGCCACGCGCTGCTGCTGCCCGCCGGAGATCTGATCGACAAAGCGGTCTTCGAATCCTTCCA -GATCCACCATCGCCAACGCCTCTTTGACGCGGGCTTTCAGCTCTGCGCGCGGTACGCCGAGCATTTTCAGGCCAT -AACCGACATTCTCTCCCAGCGACATATGCGGGAACAGGGCATAGGACTGAAACACCATACAGATATCGCGCTGCT -GAATAGAGCGATGGGTGACGTCTTCGCCATCAATGAAAATTTGCCCTTCGCTCGGTTTTTCCAGCCCGGCAACCA -GGCGCAAAATAGTGGTTTTGCCGCAGCCGGACGGGCCGAGCAGCGTCACCATTTGCCCCTGCGGGATGGTGAGGT -TGATATTGTCGATTACCGTATTACTGCCAAATCGTTTAGTGACGTTGCGCAGTTCAACGAAATTTTTCTGAGTCA -TAGTGCGCTCCATTACGCCTGGTTTTTGGCTTTTGAACGGGAGGTACGTGATTCACCGATCAGCCAGTCAAAGAT -GAAAATAATCGCCAGCATCACCACGATCAGAATGGAACCGTAGGCAATCGCTACACCGTATTCGCCATCTTCCAC -GCGGTTGAGGATGTAAGCCGTCGCTACGCGGGTATCCGGCGTGACGAGGAACACAATGGCGCTGACGGTGGTAAT -GGCGCGCACAAAGCTGTAAATCAGCGCCGAGAGGATCGCCGGGCGCAGCAGCGGCAGCAGGATGTGCGTAATGGT -ACGCAGGGAACCGGCGCGCAGGCTGAGTGAGGCTTCATCGAGCGATTTATCGATTTGGCCCGGTAATGACTCCAA -CTTATTGATAGTGTTTTATGTTCAGATAATGCCCGATGACTTTGTCATGCTGCTCCACCGATTTTGAGAACGACA -GCGACTTCCGTCCCAGCCGTGCCAGGTGCTGCCTCAGATTCAGGTTATGCCGCTCAATTCGCTGCGTATATCGCT -TGCTGATTACGTGCAGCTTTCCCTTCAGGCGGGATTCATACAGCGGCCAGCCATCCGTCATCCATATCACCACGT -CAAAGGGTGACAGCAGGCTCATAAGACGCCCCAGCGTCGCCATAGTGCGTTCACCGAATACGTGCGCAACAACCG -TCTTCCGGAGCCTGTCATACGCGTAAAACAGCCAGCGCTGGCGCGATTTAGCCCCGACGTATCCCCACTGTTCGT -CCATTTCCGCGCAGACGATGACGTCACTGCCCGGCTGTATGCGCGAGGTTACCGACTGCGGCCTGAGTTTTTTAA -ATGGCGGAAAATCGTGTTGAGGCCAACGCCCATAATGCGGGCGGTTGCCCGGCATCCAACGCCATTCATGGCCAT -ATCAATGATTTTCTGGTGCGTACCGGGTTGAGAAGCGGTGTAAGTGAACTGCAGTTGCCATGTTTTACGGCAGTG -AGAGCAGAGATAGCGCTGATGTCCGGCAGTGCTTTTGCCGTTACGCACCACCCCGTCAGTAGCTGAACAGGAGGG -ACAGCTGATAGAAACAGAAGCCACTGGAGCACCTCAAAAACACCATCATACACTAAATCAGTAAGTTGGCAGCAT -CACCGAGAACACAAATGGGCTAATTCGGCAGTACTTTCCTAAAAAGACATGTCTTGCCCAATATACTCAACATGA -ACTAGATCTGGTTGCTGCTCAGCTAAACAACAGACCGAGAAAGACACTGAAGTTCAAAACACCGAAAGAGATAAT -TGAAAGGGGTGTTGCATTGACAGATTGAATCTACAGCAGCTTTTTTTAATATGTCCCGTTCGTCGGTAACCCGTT -TCAGCTCTTTCTGGAGACGGCGGATCTCGGCCTGAGCATCTGACTGTTCTTTATTAGTGGAAGAATCCGGACCGT -ACTTCTTTATCCAGGCATAAAGGCTGTGGGTGGTGATATCGAGACGTGTTGCAACGCTGGCAACAGAATAACCGA -GATCAACAACCTGTTTGACTGCTTCAGTTTTAAACTCTTCGGGATAACGCTTACCGCTCATGGGCACCTCTCTTT -AAGCCATTTTAAATGACTCGGAGGTGTCTGTTAAACCCGTGGCGATTCAAAATTGCGATATATACATACCCATGA -CTGCCCAGCGTATCGGCTTCACCAGTCAGCCCGTTACGGTACAGTGTGACACAGTGCGCGTACCTGGGATTCAGC -TCACAGGAGAGCAGCATCAGCTCCAGATGTGCGACAAAATGCGGGAAGGCTTCATCCAGTTGTAGAGTCTGCACC -TCACTGAATGAGCCGGTGAATCCAGCCCGGTCAGCCAGAAAATGCAGACGATGACCTTCCTGCACCAGTCGTGCT -CCGAAACACGGTGTGATATCTCGTTTAAGCCCCCAAGTTTGAGTAGAGTCTTTATTCATAATTTTATTCCTGTTA -AAGAAGACCATGTTCGGCGAATGAGAATATTTGCCTGCCGCCGACAATCAGGTGGTCGGGGACATGGTGAACACT -TTTTAACATCCTTTACCCATGGTGATCGACTTTTTCTTCAGGTCGATCACCCCCACTTTCGTGCTGTACCACCAC -ACCTCGTAGCTGCCGTCTTCCTGCATCTCCTTCAGCCCGACCCGTTCTCCCCTGAACGCCTTGCCTGCGCTCAGA -CTTACCCCTTTCACGCTCAGCTTTCCGCTGATATCCACTTTCCTGACCATCACCCCTTCATCGTATTCCGGGGGC -GTTGTGTTGCCGCTGTACTGCCGCGCTGACGGCTGATACCGCGAGCCCGGTACCGCCATATCCAGCGCCTCGTGC -GGGCGTTCAAGGTTATAGACCGTCCGCCAGTGGTCGAAGGCGCGCTGCAGTTCACCGCTGTCTGCGAACCATTTT -CCCTGCAGCACTTCCGCCTTCAGGCTGCGGTGAAAACGCTCCAGCTTCCCCTGCGTCTGCGGATGATAAGGCCGG -GAGTGCCCCACCCGGATACCCAGGCGCATCAGCCACAGCTCCAGCGCCGTCCAGGTGCCGGTGGTGTCGCCCCAC -GGTGAGCCGTTATCCATGGTCATCCGGTCCGGCAGGCCGTAACGCTCAAACACGCTGACCAGCTGCTGCTGCACG -GTCTCGCGCCGTTCATCGGTACAGTGCGCCAGGCACAGGGAAAAACGGGAGTGGTCGTCCAGCAGGGTGAGCGGA -TGGCAGCGTCCACCGCCAAAAGGAAAGTGGCCCTTAAAATCCATCTGCCAGAGGCGGTTCGGCGCGTCGTGTTCG -AACCGGCCCGTGGCGGGAATGCCCGGTGAAGCGCCCGGCAGCAGGCCATGGCGGGCCATCAGGTTATGGACGGTG -CTGAAGGCGGGCATGGTGTGCCCCTGGTCCTCGAGCCAGCGCTTAATCTTGCGGGCTCCCCAGCGTTCATGACGG -TCATGGGCCATACGCAGCAGGGCCGTGATGTCGTCAGATGAGCGGTTCGGGGAATGGTGCGGAATGCGCGGGCGG -TCCTGAAGACCGGCGGCACCTTCCTGAGCCCAGCGCTGGAGCCACTTGTAGCCGGTGGCAGGTGAAATGCCGAAG -CGACGGCAGAGGGAACGGATGTTCGCCCCGTCCTGCGAGGCGAACAAAACAAACTCAGTACGTAATGACATGGTA -TCTCTCGCATCCCAGGGCATAAGCGACTCCATAAACGGGTTCTTATGCCTTAGTTGTAAGTGTCTACCATGTCCC -CGAACAAGTGTTCACTATGTCCCCGGACCGTACACCCCAAAGGGGAGAGGGGACTGCACCGAGCCATCTTTTCCC -CCTCGCCCCTTTGGGGAGAGGGCCGGGGTGAGGGGCAATATGTGATCCAGCTTAAATTTCCCGCACTCCCTCTTC -CCTTCCGATTTACCTCTCCTTGTTCTGCGTCATAGTATGATCGTTAAATAAACGAACGCTGTTCTATAATGTAGA -ACAAAATGATTCAGCAAGGAGATCTCATGCCGCAGTCCGCGTTGTTCACGGGAATCATTCCCCCTGTCTCCACCA -TTTTTACCGCCGACGGCCAGCTCGATAAGCCGGGCACCGCCGCGCTGATCGACGATCTGATCAAAGCAGGCGTTG -ACGGCCTGTTCTTCCTGGGCAGCGGTGGCGAGTTCTCCCAGCTCGGCGCCGAAGAGCGTAAAGCCATTGCCCGCT -TTGCTATCGATCATGTCGATCGTCGCGTGCCGGTGCTGATCGGCACCGGCGGCACCAACGCCCGGGAAACCATCG -AACTCAGCCAGCACGCGCAGCAGGCGGGCGCGGACGGCATCGTGGTGATCAACCCCTACTACTGGAAAGTGTCGG -AAGCGAACCTGATCCGCTATTTCGAGCAGGTGGCCGACAGCGTCACGCTGCCGGTGATGCTCTATAACTTCCCGG -CGCTGACCGGGCAGGATCTGACTCCGGCGCTGGTGAAAACCCTCGCCGACTCGCGCAGCAATATTATCGGCATCA -AAGACACCATCGACTCCGTCGCCCACCTGCGCAGCATGATCCATACCGTCAAAGGTGCCCATCCGCACTTCACCG -TGCTCTGCGGCTACGACGATCATCTGTTCAATACCCTGCTGCTCGGCGGCGACGGGGCGATATCGGCGAGCGGCA -ACTTTGCCCCGCAGGTGTCGGTGAATCTTCTGAAAGCCTGGCGCGACGGGGACGTGGCGAAAGCGGCCGGGTATC -ATCAGACCTTGCTGCAAATTCCGCAGATGTATCAGCTGGATACGCCGTTTGTGAACGTGATTAAAGAGGCGATCG -TGCTCTGCGGTCGTCCTGTCTCCACGCACGTGCTGCCGCCCGCCTCGCCGCTGGACGAGCCGCGCAAGGCGCAGC -TGAAAACCCTGCTGCAACAGCTCAAGCTTTGCTGAGCCGGACGATAACGATGACCATTGAGAAAATTTTCACCCC -GCAGGACGACGCGTTTTATGCGGTGATCACCCACGCGGCGGGGCCGCAGGGCGCTCTGCCGCTGACCCCGCAGAT -GCTGATGGAATCTCCCAGCGGCAACCTGTTCGGCATGACGCAGAACGCCGGGATGGGCTGGGACGCCAACAAGCT -CACCGGCAAAGAGGTGCTGATTATCGGCACTCAGGGCGGCATCCGCGCCGGAGACGGACGCCCAATCGCGCTGGG -CTACCACACCGGGCATTGGGAGATCGGCATGCAGATGCAGGCGGCGGCGAAGGAGATCACCCGCAATGGCGGGAT -CCCGTTCGCGGCCTTCGTCAGCGATCCGTGCGACGGGCGCTCGCAGGGCACGCACGGTATGTTCGATTCCCTGCC -GTACCGCAACGACGCGGCGATCGTGTTTCGCCGCCTGATCCGCTCCCTGCCGACGCGGCGGGCGGTGATCGGCGT -AGCGACCTGCGATAAAGGGCTGCCCGCCACCATGATTGCGCTGGCCGCGATGCACGACCTGCCGACTATTCTGGT -GCCGGGCGGGGCGACGCTGCCGCCGACCGTCGGGGAAGACGCGGGCAAGGTGCAGACCATCGGCGCGCGTTTCGC -CAACCACGAACTCTCCCTGCAGGAGGCCGCCGAACTGGGCTGTCGCGCCTGCGCCTCGCCGGGCGGCGGGTGTCA -GTTCCTCGGCACGGCGGGCACCTCGCAGGTGGTCGCGGAGGCGCTGGGTCTGGCGCTGCCGCACTCCGCGCTGGC -GCCGTCCGGGCAGGCGGTGTGGCTGGAGATCGCCCGCCAGTCGGCGCGCGCGGTCAGCGAGCTGGATAGCCGCGG -CATCACCACGCGGGATATCCTCTCCGATAAAGCCATCGAAAACGCGATGGTGATCCACGCGGCGTTCGGCGGCTC -CACCAATTTACTGCTGCACATTCCGGCCATCGCCCACGCGGCGGGCTGCACGATCCCGGACGTTGAGCACTGGAC -GCGCATCAACCGTAAAGTGCCGCGTCTGGTGAGCGTGCTGCCCAACGGCCCGGACTATCACCCGACCGTGCGCGC -CTTCCTCGCGGGCGGCGTGCCGGAGGTGATGCTCCACCTGCGCGACCTCGGCCTGCTGCATCTGGACGCCATGAC -CGTGACCGGCCAGACGGTGGGCGAGAACCTTGAATGGTGGCAGGCGTCCGAGCGCCGGGCGCGCTTCCGCCAGTG -CCTGCGCGAGCAGGACGGCGTAGAGCCGGATGACGTGATCCTGCCGCCGGAGAAGGCAAAAGCGAAAGGGCTGAC -CTCGACGGTCTGCTTCCCGACGGGCAACATCGCTCCGGAAGGTTCGGTGATCAAGGCCACGGCGATCGACCCGTC -GGTGGTGGGCGAAGATGGCGTATACCACCACACCGGCCGGGTGCGGGTGTTTGTCTCGGAAGCGCAGGCGATCAA -GGCGATCAAGCGGGAAGAGATTGTGCAGGGCGATATCATGGTGGTGATCGGCGGCGGGCCGTCCGGCACCGGCAT -GGAAGAGACCTACCAGCTCACCTCCGCGCTAAAGCATATCTCGTGGGGCAAGACGGTGTCGCTCATCACCGATGC -GCGCTTCTCGGGCGTGTCGACGGGCGCCTGCTTCGGCCACGTGTCGCCGGAGGCGCTGGCGGGCGGGCCGATTGG -CAAGCTGCGCGATAACGACATCATCGAGATTGCCGTGGATCGTCTGACGTTAACTGGCAGCGTGAACTTCATCGG -CACCGCGGACAACCCGCTGACGCCGGAAGAGGGCGCGCGCGAGCTGGCGCGGCGGCAGACGCACCCGGACCTGCA -CGCCCACGACTTTTTGCCGGACGACACCCGGCTGTGGGCGGCACTGCAGTCGGTGAGCGGCGGCACCTGGAAAGG -CTGTATTTATGACACCGATAAAATTATCGAGGTAATTAACGCCGGTAAAAAAGCGCTCGGAATTTAATTATTTTA -AGAGATAAAACCGTCTGCGGAATATTTCCCGCAGACGGCTTTGTTGTTTTTGAAATTTATTAATTTAAACAATTA -GTTGAGATATATCGTTGGCGTCACAAAAGCAAAATAACGTAATTCGGAAATAAGATATGACCATTGCTGGTTAAT -TGAATAGCTCATTACACTCCATTAACACGATGTTGTAATTCGGCACACTACATAAGGGTGTAATTCTGATGACGC -AATTAACCATGAAAGACAAAATTGGCTACGGGCTGGGAGACACCGCCTGCGGCTTCGTCTGGCAGGCCACGATGT -TCCTGCTGGCCTATTTCTACACCGACGTCTTCGGCCTGTCGGCGGGGATTATGGGCACGCTGTTTTTGGTCTCCC -GCGTGCTCGACGCCGTCACCGACCCGCTGATGGGGCTGCTGGTAGACCGCACCCGCACGCGGCACGGCCAGTTCC -GCCCGTTCCTGCTGTGGGGGGCCATCCCGTTCGGCATCGTCTGCGTGCTGACCTTCTACACGCCGGACTTCTCCG -CACAGGGCAAGATCATCTACGCCTGCGTGACCTACATTCTCCTGACCCTGGTCTACACCTTCGTTAACGTGCCGT -ACTGCGCCATGCCGGGCGTCATCACCGCCGACCCGAAAGAGCGTCACGCCCTGCAGTCCTGGCGCTTCTTCCTGG -CGGCGGCGGGCTCGCTCGCTATCAGCGGCATCGCGCTGCCGCTGGTGAGCATCATCGGCAAAGGGGACGAGCAGG -TGGGCTACTTCGGCGCCATGTGCGTGCTGGGGCTGAGCGGCGTGGTGCTGCTCTACGTCTGCTTCTTCACGACCA -AAGAGCGCTACACCTTTGAGGTGCAGCCGGGCTCGTCGGTGGCGAAAGACCTTAAGCTGCTGCTGGGCAACAGCC -AGTGGCGCATCATGTGCGCGTTCAAGATGATGGCGACCTGCTCCAACGTGGTGCGCGGCGGGGCGACGCTCTACT -TCGTGAAATACGTGATGGATCACCCGGAGTTGGCGACCCAGTTTTTACTTTACGGCAGCCTCGCCACCATGTTCG -GCTCGCTTTGCTCCTCACGCCTGCTGGGCCGCTTCGACCGCGTCACCGCCTTCAAGTGGATCATCGTCGCCTACT -CGCTGATCAGCCTGCTGATTTTCGTCACCCCGGCGGAGCACATCGCGCTCATTTTTGCCCTCAACATCCTGTTCC -TGTTCGTCTTTAATACCACCACGCCGCTGCAGTGGCTGATGGCTTCTGACGTGGTGGACTACGAGGAGAGCCGCA -GCGGTCGCCGCCTCGACGGGCTGGTGTTCTCCACCTACCTGTTCAGCCTGAAGATTGGCCTGGCGATTGGCGGGG -CGGTGGTGGGCTGGATCCTGGCGTACGTCAACTATTCCGCCAGCAGCAGCGTGCAGCCGGTTGAGGTGCTCACCA -CCATCAAAATTCTGTTCTGCGTGGTGCCGGTGGTGCTCTACGCGGGCATGTTCATCATGCTGTCGCTCTACAAGC -TCACCGATGCCCGCGTGGAGGCCATCAGCCGGCAGCTGATTAAGCACCGCGCGGCGCAGGGCGAGGCCGTTCCCG -ACGCCGCGACAGCCGCATCCCATTAACCGGAGGCAATATGGAAATCACTAACCCGATACTCACCGGCTTCAACCC -GGACCCGTCCCTGTGCCGCCAGGGCGAGGACTACTACATCGCCACCTCGACCTTCGAGTGGTTCCCGGGCGTGCG -CATCTACCACTCCCGTGACCTGAAAAACTGGTCGCTGGTCAGCACCCCGTTGGACCGCGTGTCGATGCTGGACAT -GAAGGGCAACCCGGACTCCGGCGGCATCTGGGCGCCGTGCCTGAGCTACGCCGACGGTAAATTCTGGCTGCTCTA -CACCGACGTGAAGATTGTCGACTCGCCGTGGAAAAACGGCCGCAACTTCCTCGTCACCGCGCCCTCCATCGAGGG -GCCATGGAGCGAGCCAATCCCGATGGGCAACGGCGGGTTTGACCCGTCCCTGTTCCACGACGACGATGGCCGCAA -ATACTATATCTACCGCCCGTGGGGGCCGCGCCACCACAGCAACCCGCACAACACCATCGTGTTACAGGCGTTTGA -CCCGCAGACCGGCACGCTCTCGCCCGAGCGCAAAACGCTGTTTACCGGCACGCCGCTCTGCTACACCGAAGGCGC -GCACCTGTATCGCCACGCGGGATGGTACTACCTGATGGCCGCCGAGGGCGGCACCAGCTACGAGCACGCCGTCGT -GGTGCTGCGTTCCAAAAATATCGACGGGCCGTACGAGCTGCACCCGGACGTAACGATGATGACCAGCTGGCACCT -GCCGGAGAACCCGCTGCAGAAGAGCGGCCACGGCTCGCTGCTGCAGACGCATACGGGTGAATGGTACATGGCCTA -CCTCACCAGCCGCCCGCTGCGCCTGCCCGGCGTGCCGCTGCTGGCCTCCGGCGGACGCGGCTACTGCCCGCTGGG -GCGCGAGACCGGCATCGCCCGCATTGAATGGCGCGACGGCTGGCCGTACGTGGAAGGCGGCAAGCACGCGCAGCT -GACCGTGAAAGGCCCGCAAGTAGCCGAGCAGCCTGCAGCCGTTCCGGGCAACTGGCGGGACGATTTCGACGCCAG -TTCGCTTGACCCGGAGCTGCAGACCCTGCGCATTCCGTTCGACGACACCCTCGGCTCGCTCACCGCGCGCCCGGG -CTTCTTACGGCTCTATGGCAACGACTCGCTCAATTCGACCTTCACCCAATCGACCGTGGCGCGCCGCTGGCAGCA -CTTCGCCTTCCGGGCAGAAACGCGGATGGAGTTCTCGCCGGTGCACTTCCAGCAGAGCGCGGGGCTGACCTGCTA -CTACAACAGCAAAAACTGGAGCTACTGCTTTGTGGACTACGAGGAGGGACAGGGTAGAACCATCAAAGTTATCCA -GCTCGACCACAACGTGCCGTCGTGGCCGCTGCACGAGCAGCCCATTCCGGTGCCGGAACATGCGGAGAGCGTCTG -GCTGCGGGTGGACGTGGATACGCTGGTCTACCGCTACAGCTACTCGTTTGATGGCGAGACGTGGCACACCGTGCC -GGTGACGTATGAGGCGTGGAAGCTGTCGGACGACTACATCGGCGGGCGCGGCTTCTTCACCGGCGCGTTTGTGGG -CCTGCACTGCGAGGACATCAGCGGCGACGGCTGCTACGCGGACTTCGACTACTTCACCTACGAGCCGGTCTAACG -GCTCAGGCCGGGTAGCCCAGCGCGCGCGAGAGCGCGAGCCCGGCCTGCTGAAGCTGCTCGCGGAAATTAGCCAGC -TCCGCGTCGTCCACGCGGGAGGTCAGCGTCGACAGGCTCAGGGCGGCGATGACGCGGGACTCGTGGTTCCACACC -GGCACCGCCACGCAGCGCACGCCCTGCTCGTTCTCTTCGCTGTCCAGGGCGTAGCCTTGCTCGCGGGTCTGCGCC -AGGGCGCTCATTAAGGCTTCGCGAGACGCGAGGGTGGCGGGCGTAAAGGTAGTGTACTGATAGCCCTCCAGCAGG -GCGTTCAGCTCGGCCTCGCCCAGCCAGGCAATCAACACCTTGCCGATGGCGGTGGCGTGCACCGGCAGGCGGCGG -CCGATGCGTGAATAGGCGATGGCGGCCAGCTTGCCTTCAATCTTCTCGATATAGACCCCTTCACGCCCGTCCAGG -ATCCCCAGATGGGTGGTCTGCCCGGTCCGCCGGGACAGCTCCGTCAGCCAGCCTTTTGCCTTCTGCCGAATATCG -ATGGAGCCCACGACAAAATGGCCGCGCTCGACCAGCTTCATGCCGAGGCGATACTTGCCGTTCTCCGGGTTCTGA -TCGATATAGCCGTGAAGCTGCAGGGTTTTTAGCAGCGAGTGGAGGGTACTCTTGCTCAGCCCCATCAGTTTGCTG -ATGTCGGTGATCTTAAGCTCGGTGGCCTGCTCGTTGAACAGGTCGAGGATCTGCAACGCACGTTCAACAGACTGA -ATAATCGGCATAATGCTGGCATGTCCACGCTGGAATTAAGGCGAAAACGTACCTTTTTCGGGATGAAAAATCAAT -GAAATGGAGCCGGTGTTCTCCCTCTCCCTGTGGGAGAGGGCCGGGGTGAGGGCACCAACGCGCAGCGGACCCAAT -CACTCCCCAAGCGTTGCCATCATCACCGCCTTAATCGTATGCATCCGGTTTTCCGCCTGGTCGAACACGATGCTC -GCCGCCGACTCAAACACCTCGTCCGTCACCTCCATCCCGCCGTGCAGATCGAACTCCTTCGCCATCTGCTTGCCG -AGCGTAGTCTGGTCGTCATGGAACGCCGGCAGACAGTGCAGGAACTTCACGTTCGGGTTGTCGGTCAGCGCCATC -ATCTGCGCGTTCACCTGATACCCGCGCAGCAGCGCAATCCGCTCTGCCCACTTCTCTTTGGCCTCGCCCATCGAC -ACCCACACGTCGGTATAGATAAAGTCCGCGCCCTTAACGCCTGCCGCCACGTCTTCCGTCAGAGTAATTTTCCCG -CCGTGCTTCTCCGCCAGCGCGCTGCACTCCGCCACCAGGCTCTCTTCCGGCCAGCAGGCTTTCGGGGCCAACAGG -CGCAGATCCAGCCCGGTCAGCGCCGCCGCTTCCAGCATCGAGTTGCCCATGTTGTTGCGCGCATCGCCCGCGTAG -ACCAGCGTCATCTCGTTAAACGCCTTGCCCGGCAGGTGCTCCTGCATGGTCATCAGGTCCGCCAGCAGCTGGGTC -GGGTGGAACTCGTTGGTCAGCCCGTTCCACACCGGCACGCCCGCATACTGCGCCAGCGTTTCGACCACTTCCTGG -CCGTGACCGCGATACTGAATGCCGTCATACATCCGCCCGAGAACCCGCGCGGTGTCCTTAATTGACTCTTTATGC -CCAATCTGGCTGCCGCTCGGCCCTAAATAGGTAACGCGCGCGCCCTGGTCAAATGCGGCAACTTCGAAAGAGCAA -CGGGTACGAGTCGAGTCTTTTTCGAAGATGAGCGCGATGTTTTTACCGGTAAGCTTCTGTACTTCCTTGCCATTT -TTTTTATCGGCTTTGAGCTGTGCGGCAAGGGTCAGCAGAGAAGTGAACTGTGCAGGGGTAAAGTCGAGCAGTTTC -AGAAAGTGTTTTTTGTATAAATCGGACATTTTATCCTCGCATGGCGAACGCCACTTATTGAATTAAAATTCACTT -TATATGTGTAATTATTCATTTGCAACCCCATTTCACAATTCTTTCTTACAAAGGTGGAGGCAAACCCGTCCGTGT -GTGAAAATAATCGTATCTGCCTCCGATTCTCTGCAGAAGCAGAAAGACATTGGATCGAATTCTACAACCAGGTCG -AGTCAGAAATGAGAATGATTGGCCTTCTTTATGATTTTAAGGATTATGCTTCTAAAATGGCGGAGAACATGGCGA -GGCTTGCTGCCTTACTTCATTACTTCAGCGGTGATGGAGGCGATATATCTGTTACCGGGTAATGACTCCAACTTA -TTGATAGTGTTTTATGTTCAGATAATGCCCGATGACTTTGTCATGCTGCTCCACCGATTTTGAGAACGACAGCGA -CTTCCGTCCCAGCCGTGCCAGGTGCTGCCTCAGATTCAGGTTATGCCGCTCAATTCGCTGCGTATATCGCTTGCT -GATTACGTGCAGCTTTCCCTTCAGGCGGGATTCATACAGCGGCCAGCCATCCGTCATCCATATCACCACGTCAAA -GGGTGACAGCAGGCTCATAAGACGCCCCAGCGTCGCCATAGTGCGTTCACCGAATACGTGCGCAACAACCGTCTT -CCGGAGCCTGTCATACGCGTAAAACAGCCAGCGCTGGCGCGATTTAGCCCCGACGTATCCCCACTGTTCGTCCAT -TTCCGCGCAGACGATGACGTCACTGCCCGGCTGTATGCGCGAGGTTACCGACTGCGGCCTGAGTTTTTTAAATGG -CGGAAAATCGTGTTGAGGCCAACGCCCATAATGCGGGCGGTTGCCCGGCATCCAACGCCATTCATGGCCATATCA -ATGATTTTCTGGTGCGTACCGGGTTGAGAAGCGGTGTAAGTGAACTGCAGTTGCCATGTTTTACGGCAGTGAGAG -CAGAGATAGCGCTGATGTCCGGCAGTGCTTTTGCCGTTACGCACCACCCCGTCAGTAGCTGAACAGGAGGGACAG -CTGATAGAAACAGAAGCCACTGGAGCACCTCAAAAACACCATCATACACTAAATCAGTAAGTTGGCAGCATCACC -GAATTTTCAGCCCGGATGTTTCACGTACCTATGTCGAATATCTGGCCGATAAGGTTGCGGATCGAGAAGAGGATG -CAGAGGAATATCTGGAAGCAATCATGGAGGCTCGTGTTACCGTTGCTGGCATGGGGCTGGTGATGGAGGTGCAGG -ATTACTTCGATGGCGAGGCCGATAGACTGGCGAAGGCGTGGCTGGCCGAGTACACACCGCAAATCAAGTCGTTGA -AAGATGAGCGTAAAGAGGCCTATCGTCAAATCGTCGAAATGAGTACCGAACCGCAGGATGTGGATCTGGTCAGGC -CGGCGAACAAGTTTGAAATGACCAGGGTGCGTGAAGGTGAAAAGGAAGCTGACCTTCCAGTCTGGAAACACCATT -TGTTGTGTGACGAAAGCGGGAACTATCCGGCTCTGTTGAACCATTGGGAAACCAAGGTTTTTGAGATCGAAACCA -AACGTGAAGGATTTGCTTTCTGGTATCGTAATCCACAGTACACAGGGCAGTCGTCACTGGGAATCGCTTATGTTG -AAGCTGAACAGTACAAGATTGTTCGTCCCGATTTCCTGTTCTTTGCCGAACAGGATGGCAAAATGGTTGTGGACC -TGGTAGATCCACATAGCCTACATCTGGCTGATGCTTTGCCCAAACTGGAAGGACTTGCGCTATATGCCGAACATC -ATTCTGATGCTTACAGGCGAATCGAATCTGTCGCCGAAGTAAAGGGTAAATTACGAGTGTTAGATTTGAAACGGC -AGGATGTGCAGGATGCTGTTGCTACCGCTGAAAATGCAGAAACGTTATTTAGTAGCGGACTTGCTGATGACTATC -AGTAATCTATAGAAAATTGCGTAACGAAACTGCATTTTAGTAATTTTTTGAAACAATACAAATAAGGCCTTCTCA -CTGAGAAGGCCATTACCGACTTACAGTTCGATTTGGCTACAGCCGAAGTTACGGTCTCCTTCACCAAACACTTTG -CTTTCAACTTTGGTCAGGTAGTCCAGTCGGGTTAACAGCGCCTGGTAGTTCTGCTGGAAGTCAGTACTATTGGTG -TCTAGCACATACTTACAGTTTTCAGGAAAATGGACCAGACCAGGGTGATCGTCTCTCTCCAGTCTCAGGGCGCTG -TACCAGGCTCCTGTGATCATCCCTCTAAGGTTATCGTCCTGATCGTAATCCCCGAGGTGGTAGTAAGCGTCTTTG -TTGAACAACAGGCAAATGTGATAGTGGCATTTACCTGATTCAGAATACTCTTTCGCCCATATAATAAATAAAGGG -CAACGGTAAATGCGTTTATCCTCACGCACCTTACGGGTACGGTCAGCCTCCAGCTTAGCTCTGAGGGATTCACGC -ATCCGGGATATCACCCCAGGTTCCAGGTTAGGGAAGCAACAGATATTGTCACCGTTATCAACTATTTTGGGATAG -TGGAGATCGACACGTACAGCAATTAACCTAGGATACCGGTTAGTCAAATAACATAATAATTTATTAATCTTACTC -TGATATTCGAGGATATGTACTCCATGAGTACCTTGATATGTTTTCATAATATATACCTGTATTTGGTCCTACGGT -CTATAGCAGACCGTACAGGGATGCCATACAGGCAGGGCTATTCCTGGTCACTGTTGTCGGTATATACTGGTATCA -GATTTTAGTACGGACATACTGATCTGATTACTACTCTTACTGGTGAATACAGGTAGTAAGAGTACACAATGCCAT -TATATAATACCTATCCAACATCTAAATTTGAGACGAAGGTAGCCCCAGCCTGTGATGGCTGTTAAAAAGTTACTC -TGCAATTAGCTTCTGGAATTAACCGATGATTCCGTTATTCCAGTGCCGCTTCACAGTCGATAAACTGATACTCAA -TTTCTTTGCAATCTCAGCCTGAGTAAATCCACCTTTCTTAAGTATTGTGATATCACGTCGGTATTTGCTTCCCTC -CTTTCGTCCTAATTTTTTCTTAACATGTCGATATCGGCTTTTAGTTGATTTCAGATTGTGAATGTCAATCGTATC -CTGACGAGCAATCAAAAAAGACAAGCAACTTTCAGCAGAAGGCTCTATCCTTGAAGCTGGATGGTAGCTGTAGAT -AAACATTTCTTTTTGAAGGCAAAAAAATAAAATATTCTGTAAGTCCTCCACAGTTCTGCCAAGACAGCTTAGATC -TGGAATGACAAGCGTGTCCTGCCGGTTCATTTCATGATGAATCAATTGTCTGAGTAAACGTTGCTCTGAAACAAC -CTCTTTAATATCTACCTGCTCGATCACAACATGTTCAGGTAGAATATTAAATTTTTGGCATATCTCAGCAAGTGA -GTGATGATCTGTAATGCTTTCTTGCTGTTCGCTACTGCATATGGTGTAAAAAAATGAACGCATCTGATGCACTCC -GGTGTCATAAATTATTTTTTGATACCTGAATAATGTCATTTTGCATAAAAAACAACCAAAAATAGAGAGTGATTG -CCAGCGATACTTTAACTGGTAAAGTAGTATTTTACCTCTCATAATTGTTTGTCCTTCTTTGTTACCTCTTAGGTT -CTGCTCTCTTGTGAGTATGGGTTTATAATGATGTCATCCGGTACATTAACACGGTTGGAAACATCTGTTTTGCGG -AGCACTGGCAGCATAACCACCATTTCATTGACATGGTAAATATCAATCCAACAAACAACCGGATAAGGCATAACA -ATCCCCTTTCTTCTAAGAACTTCATTTATCCCGAATATAATCAATTGGGATGTTGACAAGAGTAGAGCCTGCCCG -GCATCAAAGTAATAACCCTCAAAGGTTGTTCTATGAATAAGAATAATGTTTGAATATCCTGAGACACTTTGATGC -TTTACATCAAAATGTCTTTGATTGTAAATGTAAATGGCTTTTTCCATATCGTAATTTTCCCTTAGCGAGGATAGC -CTTTCACGTATAACTGTTTTTTCATCTTTCCCCATGAATTCATCATTAGCGTTCAGTTGAAAGTAATCTGCAATG -GGGATTTTTAATGGACTCATGATGTTCGTTTTCCAGATTAACGAACAGTACTCTTCCAGAGTTACTTCTGTTTTA -CCTCGGCTTCGATTGATGCTTTCTTTTATAGAGAACTTTAACAGGTCATTTTTTATTTCATTTATTGACCAGTTA -TGACGATTGCATTTTTCTAATATAGGGATAGCCAAATCCACAACTTCCGCTATTACGGAAGAGTGAGATTTATTT -GTTAGTCTGGCATAATGATCAATTACTCCTAATGAAGATTGATTTTTGAACGTGACTGAGTGTTTTTTTATGGGA -GTAGTCTGTACTACCTGTGACTCATTGTTTTTGCCTTGACAAGGTTTTTTTCCTGGTAGAACGCTGCTCATCTCA -AAATTAGTAACACTATTAGACATTTTTAAGGAAACCTCTTTGTTATCTCAATATAAAACTACTATCTGAAATTTC -TCAGTGTTGCCCCATTTTTCTCGGGGCAACATCGCTATAAATCAATAAAATTAAATCTGTAATTTATTACAGACT -TTCTCGTACAGAAAATGTATCTATAAAATCGAGGACATCTTTACGTAACCAGTAATGGCGGCCATTGATTTGTTT -TGGGCGAGGTAGCCCCTCAGGCAATTTGTCCTGACAAAGCCATTTACGAATGGTTTGAGATTTGTAGCTAATGAT -TTTAGCTAACTCAGCTGTTGAAATGAGCTGTGATTGAGATGTATCCGGGAGTTTGAATGCGCTCATTTTGCCACC -TCAGTGATTGAGATATTGGCAAAGAAAGCTTTAAGCATTATTGAATTAGTAGGGGTAGTAATGAAGGCAGAAGGA -AACGTTTCGGGCTCGGGGTCGGGGTCACTACCATCACCTGAATCTGATGATAAGGCACTTTTAGCTGATTTAGCC -GTACTGTGATGCGATCTGGATGCCTGATTTTTACATGACATCAGACGCGCGAGAAAGTTAGTAGCATTTTGCATT -CTTTGTTTAAGATGTAAAATTTTCAGTTTGGCGCATGCGACAGACTTGCGAAGAGCTGAGTATGTTCCTTTGAGA -TACTCGACAACCTCTTCCATGGACGCAGGATCGTTAAAGGATTGAGTTGTTTTACTTGAATTAATACACCAGCGA -GCTCTGATAGCTGCCAGAGTGGGTTCTATGGATACAGTTGCTGGGGTTGCCATTGGCTTATCTCCTGTGTAGTTG -CTGTATCATTGACTAAACTGTGTATTACGATACATGAAAATCTATCTTGATCAATAGTTGATGATATTTTGTAAT -ATGTTGATTTTTAATGGAATCAACGCATATCAACGTTGTTTTTTATGGTAATACCTGCTTCATTTAAGATCCATG -TCTCAATTTTCTCGTGCCATTTTCGTAACAGATCTAACGGACGACGGCGATAGTGTTTTTCGGCAAGAGCGCTGG -GTTTGTGTCCCATAATTTGAGCAACAATACCAGTGGGAACTTCAACCCACTCGGCCAAAGTACCAAAACTACGAC -GTAAACCGTGAAGGCTGATATGTGGTAACTCAGCCAGCACTAATGCTCTGTTGTGCGCTGAACGCGGCTCAATAA -TTTTGCCACTTTTACTGTTACTTCTGAAAACCCAACCCTCCTTATTTACGTCAGAATTTGGGGATTGCGCTAGTA -CATTTAACAATTCAGAAACATAAGGAGTGAGAGGGATGATACGTTCACCTTCGATCTTGTCTTTAATTCGCATGC -TTGACCATTTGAAATCTACGTCTGACCAGCGAAGCGACGCAATTTCTTCACGCCGAGCACCAGTGAGCAAAAGTA -CTTGGAGATAGGCCGATGCAATAGGATTATTGAGGCTACGCACGGCACTAAACCAGCTTTTTAGTTGTTCCTTTT -GCAGGCAATCATCAGCTTTACTCGCTGACACGGGAACCATTTTTCTTACGTTGTAATCTTGTGCCAGATCGCCAG -GAATGATCCCTTGATATTTTTTCTGATAATTACTCCATTTGATGAAAGCACGTAGTAGGCGATAAGCGTGAGCAG -TGACGGTAGGTCTATTTTGCCTTTCTGTACTCAGCCACGCTGCTATGTAATCTGGGGTTAGCTCCGATAACGGCA -GGTTGAGCAAACTAGCCAATGGTCCAGCCGAAGTCGGGCCTTGGCCTCTTTTTTTACTTTCGCCTCCACGACTGG -ACAAGTTAATGTGATCGGCAATGTATCGAGTAGAATATGGGCGTTTAGTTTTTGCACTGATACCGGTTCTCAATT -CTTGAAGATAGTCTTCCCAGGCGACGGAGAAAGTCACTTTTGTTTTACGTGATTCTGCCTGCAGGGATTCTGCTT -CTGCGATTTTTACAGCCTTAGCAATTCGTGGATCTATCCCTGTATCGATCAATGTTTGTAACCGTCTTGCCTCGG -CTCTCGCATCATCAATCTTCCAGTCGTTAATGTTGCCAATAGTCATGCGAAGGGTTTTCCCCGCATATACGCTTT -GGAATACAAAGGCTTTTGCTCCGCTAGTTGCTCGGCATGCCAGGGTTGTTACATCTGCATCCCAAAGAAAAGTTT -GTTTTTTCCCTTCCGGTAAGGTGAATCTGCGAAGTCTTTCGAAGGTAAATTTTTGTCTTGAAAGCGCCATTTTTC -GGCTCCAGTTGAGAATTGCTGTCTTACAATAATGTAACTGCTGGTGTAAGTAAATGGAGGGAATAAACATCAACT -TTTGTTAATTTCAATCAACGGGTTTATTGCTATAACTTGGTGTTTTATAATATAAAGTATGTTGTTTTGATTGAT -TGCTCAAGTAGTTAAAAATGCATTAACATCGCATTCGTAATGCGAAGGTCGTAGGTTCGACTCCTATTATCGGCA -CCATTAAAATCAAAGAGTTACCCCATATTTAAATACACCACGTTTCCTCCTGTGCCGTATTTGTGCCATTGTAAC -CTTGGCAATTCATCAAAATACTGTTCTGACATCAGGCAGTGCAGGTGCAGACATTTAAGCCAATTGCTGCCGCCA -TTCTTTGACGTAGTCAATCAGGGCGCGGAGCTTTGGTGCAATATTGCGACGCTGTGGGAAATACAGATAGAAGCC -CGGAAATTGTGGAAGAAAGTCATCAAGCAGCGATACAAGCTTACCGCTTTCAATATATGGCCTGAAAGTTTCCTG -AGTGGCAATTGTTATTCCTCCGCCGGCAAGAGCCAGCCTCAACATCAGACGCAGATCATTAGTCGTAATCTGCGG -TTCAATCGCAAGGTCGAAAGTTCTCCCGTTTTCTTCAAATGGCCAGCGATAAGGCGCAACCTCCGGGGACTGACG -CCAGCCGATACACTTATGGGTATTTCCCCCGGAGGCGAGAAAGCACTCTCCACGCCCGGCCGCAAGGATCAGGAC -GACGGGGGCAGGCATGAATCCTCCTCCTGATGGAGACGTACAGAGGCGACTTCTGCCAGCACGGAGAGTGCCAGA -GTATGCGCATCCCGGGCTTTGGGGAATATCCCGACGGGTGCCCGGATTTGCGTTGTTTCCTCCCTGGACCATCCC -AGCTCGTGGAGCTTTTGCAGACGTAACGTGTGGGTTCGATAGCTGCCCAATGCGCCGAGATAAAAGGGTTTTGCT -TCTCGCGCGGCCTGCAACACTGGCAGCTCCCGGTTGAGATCATGGCACAGCAAAATGACCGCCGTATCGGTATCG -ATCTGAGCGCTGGCTGAGGCCGGAAAAAGATCGAAGATATGGCTGTCATAGCCTGTGGCTGCTGCAAGACTCGCG -GTTGCCTGCGCCTCAAGAGAACGTCCGTAAATCATCAGCCTGACGCATGGCCTGAACCCCACCTCAAAGCCATTG -AGATTCCAGCCCGTCCGGGTTTGCGTGGGCAGGCACACCAGCGATTGTGCTTGCGGATCGTAGCGCAGCCCCACC -GGTTTTCTCTGTTCCAGGCGGTTCAGCACGGCGAGCAGAGGCTGTGCCGAGCGTAGTTTATGGAGCGTCAGCGTG -ATCCCACCGCCGCAGGGCAGAACGATGTCAAACCACGGCGAACCTTCGCCATAGCGAATTTCGCGATCGCGGCCT -GAGCCCATCATCTCCAGCGCTTCAAAAGCGGCAGCGGCCTCCACGCAGCCGCCAGAGACAAAACCGCAGTAACGA -CCATCTTCGCGCACCACCATCTGCGCCCCGAGCGGGCGCGCCGCGCCGCCGCGTATCTCCACCAGCGTCACCAGC -ACCGCTCCTTTACCGGACATTAGCGCCTCTACGGCGAAGCGCAGAATGGTCCGGTGGTCATCGGTGAGAAACGCC -TGCTCTGGCTTATGCCAGTGTTCGTCTTTGTCAAAAAGCGGGTATGACATTGTTCCTCCTTAAACCACATCCGGC -AGCTTATCGAGCAGCTTATCCAGAGTGATGGGATAATCCCGTACCCGAATACCGGTGGCGTTATACACCGCGTTG -GCGATAGCCGCGCTCACGCCGCACAGGCCCAGCTCACCGACACCTTTGGCCTTCATCGGGGAGGATATGGGGTCG -GTATCATCCAGGAAAATCACCTCCTGTTTTGGGATATCCGCATGAACCGGCACCTCATACCCCGCCATATCGTGA -TTAACGAAGTAGCCCAAACGGTCATCCACCGCCAGCTCCTCCATCAGTGCCGCGCCCATGCCCATAGTCATTGCG -CCAATGACCTGGCTGCGCGCAGTTTTCGGATTCAGGATGCGTCCTGCAGCACACACAGCGAGCATACGCCGGACC -CGAACTTCTCCCGTCGCGCTATGCACGCCGACCTCCACAAAATGCCCGGCAAAGGTCGACTGCTGGTACTCTTTG -CTCAGTGTTCCGAATTCAATGCTCTCTTCCGCTGTCAGTCTGCCGCCTGCGGTGGCTTCATGTAGCGTGGCGCTT -CGGGTACCGTTGGTAATCTTGCCGTCGGCAAACTGCGACTGCTCAGGATCAAACCCGACTGCCGAGGCAATCATT -TCGCGAAGCTTCATACAGGCGGCGTAAACGCCGGAGGTGGAGGTATTCGCGCCCCATTGTCCACCAGAACCCGCA -GAAACCGGGAAACTGGAATCGCCGAGGTGAACCGCAACCTGCTCCAGCGGTACGCCAAGCATTTCCGCTGCCGTC -TGGGCCAGAATGGTGTAGCTGCCGGTGCCAATGTCGGTCATGTCCGTTTCTACGGTAACGGTGCCGTTTTGTTCG -AGGTGAACCCGAGCACCCGATTTTTCCAGCAGATTATTGCGAAAGCCCGCCGCAACACCGTGGCCGACTAGCCAC -TCCCCGTCGCGCACCTGTCCGGGTGTGGCGTTGCGCTGCTTCCAGCCAAATTTATCCGCTCCGGTGCGCAAGCAC -TCGATAAGCTGACGGCGAGAGAAGCAGCGCGTCGGGTCGGCGGGGTCAACCTGAGTGTCATTCAGGATGCGAAAC -TCGACGGGATCGATGCCCGCTTTTTCCGCCAGTTCGTCGATCGCGATTTCGAGCGCCATCAGACCGGGGGCTTCG -CCGGGCGCACGCATGGCGTTCCCTTCCGGCAAATCAAGCGTGGCGAGCCGCAGGCCGGTATGACGATTCGCCCCG -GCGTAGAGTAATTCGCTTTGCTGTACCGCCGTTTCCGGCGTGCCGCCGGGCAGGTTTCCAGACCAGCTTTCATGT -GAGATAGCGGTGATTTTCCCGCTCTGGTCGGCACCGATACGCAAGTGCTGAAGGGTGGCGGGGCGGTGCGTGGTG -TTATTGGGAATAGAGGGGCGGGGGAGCATCACTTTAACCGGACGTTTCACCGCTCGGGCGGCGAGGGCCGCCAGC -AGCGCATCGCTTCTCAGGAACAGCTTGCCGCCAAACCCTCCGCCGATATACGGGGAGATAATACGCACATTCTCC -ACGGGAACTTTCAGCGTTTTTGCCAGATCGGTGCGGCACCAGTCAATCATCTGATTTGAGGTCCAGAGGGTAAGC -TTATTTCCATCCCAGACGGCCATCGAGGCATGCGGCTCCATCGCCATATGGCTCTGGTCCGGGGTCGTGTAGGTA -GCATCAATCTTCACCGCAGCGGAGGTGAAAGCCCCGTCAAAGTCACCGACGTTTTTGTCGGGCGTGTCTTCCGGC -GGCTGATTGACGGCCTGTTTTTCGTCCGCCAGGGAGTAAGCTCCTTTATTACGGCGATAGTGTGCCTGCACCAGC -GAGGCCGCCGCTCGCGCCTGTTCGAAGGTCTCGGCCACTACCAGCGCAATGGCCTGATGATAGTGCTCAATAGTG -GGGCCGCCTAACAGCCTGGCGGTGTTTTTGTCGCCTTTGCCGAGTGCCCCGGCGTTACTGGCGGTAATGACAGCC -AGTACGCCCGGCGCTTTTTGCGCGGCGTCCGTATCAAGGGCGGTGAGGCGTCCTTTGGCAATGGCGGAACCGACG -ATATAGCCATAGGCGGCGTTGGGGGCTTCTTCATGCCATTCGTAGGCGTAGCGTGCCGTGCCGGTAGTTTTCAGC -GGTCCGTCGATGCGGTCATGGGGACGACCGACAACCTTCAGCTGATCGATCGGGTTTTCCCCTGCGGGTTTATCA -AATTTCATGCCTGTGCCCTCGCTTCAGCCAGTACGGAGGCAAGCGTTCGCTTCGCCAACAGGAGTTTAAAGGTGT -TTTCAGCGGTGGGATGGGCGCTGGCGAACAGCGTGTCATATACGGCCTGCGCCCCCTGGGATAGCTGAGCATCCG -CAGCCTCAATGCGCCAGGGCTTATGTGCTACTCCGCCCAGCGCGACGCGCCCGCTGCCGTCAGGCTGAATAATCG -CCGCGACCGATACCAGGGCAAAGGCGTAGGAGGCGCGATCGCGCACCTTACGGTAGATATGTTTTCCGCCGAGCG -GTGGAGGTAACGTCACCGCAACGATAAGCTCACCGGGAAGCAGGGCGGTTTCAATGTGCGGCGTTTTTCCCGGAG -GGTGATAAAAATCAGCCAGTGTGATACTGCGAGTCTTTCCCTCCGGCGTGATGGTTTCCACCACCGCATCCAGCA -ACCGCATTGCGACCGCCATATCGCTCGGATGGGTGGCAATGCAGGCTTCGCTTACGCCTACCACCGCGTGCTGAC -GGCTAAAGCCTTCAAGCGCCGCGCAGCCGCTCCCGGGCAGGCGCTTATTGCAGGGCTGATTGGTGTCGTAAAAAT -AGGGGCAGCGCGTGCGCTGGAGCAGATTACCTGCGGTGGTTGCCTGATTACGTAACTGACCAGACGCGCCAGCGA -GCAGGGCGCGGGAGAGTACCGCGTAATCACGACGCACGCGCTCGTGAGCCGCCAGGTCGGTGTTCCGTACCAGTG -CGCCGATGCGCAGCCCACCCGCGTCGGTCACTTCAATCTTATCGAGCCCGAGGCCGTTCACATCGATAAGGTGGG -TGGGCGTTTCAATTTCCAGCTTCATCAGGTCCAGCAGATTGGTCCCGCCCGCGATAAATTTTGCGCCGGGTACGC -GCTGAGCGCTAAGTGCCGCCTCGGCTGGGGTATTCACTCGTTCATAGGTAAACGCCTTCATGATTTTATCTCCCC -CGCAGCATCTTCAATGGCGGCAAGGATGTTAGCGTATGCACCACAGCGACAGATGTTGCCGCTCATACGTTCACG -GATCTCATCGGCAGTTGTTTCTGGAGCGGAAACCAAATCGACCGTGACGTGACTGGGAATGCCGTCCTGAATCTC -TTTTAGCACCGCTACTGATGAGCAAATTTGCCCGGAGGTGCAGTAGCCGCACTGGAAGCCATCATGCTTGATAAA -GGCCGCCTGCATGGGGTGAAGATTATCTGGCGAACCCAGGCCTTCAATGGTGGTGATCTCGGCCCCCTGATGCAT -GACTGCAAGCGTCAGGCAGGCATTAAGCCTGCGACCATTGACCAGCACGGTACAGGCTCCGCACTGTCCGTGATC -GCAACCTTTCTTGGTACCGATCAAATGCAGATTTTCACGCAAAGTGTCCAGTAGCGTGGTTCGGGTATCCACCTC -AAGCTGCTCGGTTTTGCCGTTCACCTTCAGTGTCAGGGGCATTATCTCTGGCGCGGGTGTAGCTGCCGGAACGCT -TGCCGCCAGCGTAGAATGAGGATAAACCACGGCGGTCGCCGCTGTTGCGGCGCTCACTTTAATCAGATCGCGACG -GGTCAAACTTAAATCGTGCGGCTCGTGCTTCCCAACCCGATTATCTTCGGGGTATTCGCCTTGGTTGCTCATACC -AGGCCTCCGGTATTCTAAAGGGGAAAATAAGAGTGCGTTGCGAGAGTGCTGATGCTTTTTTAAACGTTAAGCATA -GTCGGCGACAGCAGGAGGATTATTCTTAAAACGCGAATGCAGCTATGAGCCCGGCTAATAAATTCATGTTCGCCG -GGATGTTGATGATGATGGGAGCTGGTTTATTGCTTTAGTTGTACGATGCAAAAACCAATAAGGAAACCTGTGATT -TTCAGCTCTACATCACCCTGCAAATCTCTGTCACTTCTAATATAAAAATAGGGAGAAATGATGGAGCTTATATTC -ATTGGCGATTAGGAAACTATCTTGTTATACAAAACAATACAGTTCTTTACATTTGCCTTGTTTTATGAATACTCC -TGAAGAGGTGTATAACATAATGGTACAAGCAGGGTAGATATGAATATATTTGAACAAACTCCACCGAACCGCAGA -CGTTATGGTCTTGCTGCATTCATTGGGCTGATTGCTGGCGTTGTTTCCGCATTCGTGAAGTGGGGGGCTGAAGTT -CCATTGCCGCCACGTAGCCCGGTGGATATGTTTAATGCAGCGTGTGGCCCGGAATCATTAATCAGGGCTGCAGGC -CAAATTGATTGCTCGCGTAATTTTCTCAATCCACCGTATATTTTTCTTCGAGACTGGTTGGGGCTGACAGATCCC -AATGCGGCTGTTTATACCTTTGCCGGGCATGTCTTTAACTGGGTTGGTGTTACGCACATTATCTTTTCGATAGTG -TTTGCTGTCGGTTATTGTGTGGTCGCTGAAGTATTTCCAAAAATTAAACTCTGGCAGGGCTTACTGGCAGGTGCT -TTAGCCCAACTTTTTGTTCATATGATTTCATTCCCTCTCATGGGACTGACGCCACCTCTGTTTGATCTCCCGTGG -TATGAGAATGTTTCTGAAATTTTTGGACATTTAGTCTGGTTCTGGTCTATTGAAATTATTCGCAGAGATTTACGA -AACAGAATTACTCATGAGCCAGACCCTGAGATCCCTTTAGGCTCAAACAGATAATGCATTGAATGATAAAAATGG -CGCAAATACAGCGCCATTTTTATAGGTTAAAAACATTGCTTTTTATATTCTGATGCAGATAGTCAGTGAGTATAT -CGCGCTACTTCAGGATGATGTAGATCCGAAGAACGCTACAGAAGAGAGGCATTGTTGCTGGCAAATAGAAGAAGT -ATCGGGTTTTGTTACCCCTGAAAAACGAAGCCCCGCTATTATCGCTGGCGGGGCAGTGCAATTAATTATTGTATG -TTTATAACGGTGTCAGCCCGTATTTAGCCCTTGCACGATTGCAAGCCTCATTGACGACTCCGTTCTCACCAGACA -TGGCGAATTCTCTGCATGTGGACGATCGATTTTTATATATCGTGCAGCAGGCATTTTTGCCCGGGGTTCCTGCAA -GGGCAATACATCGGGGGTTTTTCTGATTGGTACCGCTCATGCATCGGTGAAAAGGGGATATTTGTTCAGTGAGCC -TGGCGGGAATAGTACCGCCAGCATCGTCGGCTTCGGCCCAGTAAAAAGAGACGCGGAAAAATGCACAACAGGCAC -CACACGTCATGCATGGATTCAGATTGCTCATAATTCACCAGTACAGCTAAAAATCGTAAAGAGAACAGCGGTACA -TCGTATGTAAGAACGTACCGCGGTTGGCTGGGGAACTTTCGATAGTGTGAGTATTGAATGATTTCCAGCCGTTAC -CGATTTTACGTACTAATTCGTGATTAAACCACTCGTTAGCAGGCTGCCTGATACCTTTCCGTGTCTCCTGAACAC -TATGGTGTGCATATGAGAAAGCCCATCGTTACAGGTGATATTGACGATCGCTTCCACATCATTTAAACGATTTTT -GGGGCTCTGAGGTGGAATTCTTCCCTCGACCGATGGATAAGTCTTAGTCCGCCGAAGGGGGCTTAGCCGGACAGG -AATCGCTAATCTTAATGAATTTGTCGTTATAGACCAGATAGTGATTCCCCGGCTGACGTAACTCAGGCTGATGAA -CCACGTCTCCCGGACGTAGATACCAGGCATCGCCTTCCTCTTCGGTCGAATCACATCCTGGCTTAATCAGTAGCT -TAAACCATGTGTTGCCAGTGTTACTTACCGTTCCTGTCACCTTGTCGAAGGACCATTTAAACTGAACCTGACGTG -GTCGTACTACCAGAATGGTATCCATCACCACCACCGGCTCCGTGCTGACCACGCCGCCGGTTGGGCTGCGTCTTG -TATGGTTACGAGTGGGGACCTCGCGAAATGAGACCCGGTAGTAGCGCTCGCGGTTATCCCGTGGACCATGATAGT -AAAATTTAAAATACTCGCTCTCACCAGCCTGCAACGCCAGCTGGCGGGGGGCGAAAAGCAGTTCACCATCCACCG -GTCGGGTGCGCAATTCACTGCTGCCCGGGCTATCAATAGCACTGATGGCAATACGGTATATCCGTGCGCTTTTGT -TGTTATTCACTACACGTTTGCTGACAAAGTCAGTCTCGGACGGCAGCGAAAATGTCAGATTGCCGACCGAAATCG -CCTGTGTCAAAGGTGCCGCCAGCATACAGACCGCTGTCAGCAGGGCCTTAGTTAATGTTACGCCACGTCGCCTGA -ACATGAATCTCTCCTGAAGCGCTGACTTCGCCAAACCAGCCGTTATCATCTACCGTACGCAGCGAAATGGCGTTA -TCCATTGGAATCGAAAATTTGACTGTGGTCTTATCCATCTGCCCCACTTCGCCAGAGATATCAGTCCACGGTGTG -GTCAACCACAGCGCATCGGTCATATCCCGCCAGCTATCATCGCACCCGGCATCGTAGGTTTTTGTAGCTCCGTTG -CGGGTAATAAAGGAAAGTGTCGCCGGGAACGGTACTTTCGCCTTACCGTCATCGGAGCTGAAGACACAATAGGAG -CGCCCGCCAATCACCTGCGCGGGTCCGGTCACCTTGATCAGCACTTCGTCGGCAGCTGTTTTACCGCTGGTGGTT -ACGATATAGCCGAAATCGAGTGCCGACTCGCCGCTGCCAACATATCCCTCCCGCGACGGTGTCTGAGTATATTCA -TCGGAGATAATACTGATGCTGAAATCACGGGGTTTGATAATCAGCGTGTTGGAGGTAGAAAATTCATACCAGCCA -GACTCCGGTGATGTGGTGTTCTGAAAGCGAAAGTTGAATAGATCTTTGGTGTTGATATCGCTGATCCCGAGGTTC -ACCATCTGCTTAAAGAAGTTGCTCGAGAAGAAAACATAGATCGAGTCTGCGCTCTTCATCTCGTTGAAGGTGTAG -TAATAGGCGGTATTGCTCACCGGTTTCCATGAACTGCCATTCAGACTGAACTGCATATCGTACGCCCCGACGGCC -GAGGCTAACGACGAGTTGGCGATCGCCGGGAATATATGGATTGAGGTGTTGCTGAGTCCGTTTGTTTGCAGGGTA -TAGTTAACCATCTTACAACTTAATCCTGAACGGCTGCCGATGGTTTGCGTCCGGCAGTCGGCGTTCCCTTCGCCC -AGAGTCGGTACTCCGTCGCTGTTGATAAATACTTCCGCCAGCGAGTGGGTATTTATCAACCGTAGATTTGCTGCT -TTCGTATGGGTGACGTTGCGAACATACCAGTTGCCGGAGGCCTGATCCTTACAGCGTGCGCCGCTGCTGGCGTCA -TAGTTCACAGAGGTCTGGCAGGCATTGATGGTCATTGTAAAGCTGCTGCCGACGGGCATTTGTTGCATATACTGG -TAAAACGCGTCTGACAACATGCCGTGCATCCACTTCGCGCCGCCGCTGGTCACCGTCGCGCCATAAAATCCACTG -GCGTCGGTGGTTTGCGGCAGGATAAGACTGGTGGTCATATTACACCCAGCGTACCAGTTGATGCAGCGCAAGCCA -GTTAAAGGAGATGAAACTGGTGAATTTTCCAGCCACATATCAAACTTCCAGTTGGTATAAAGGCCGGTGTTGTAA -CCGTTATCAATGTAGCCGAGGCTTTGCTGATAGATGGTTCCTGAACCAGTGTATTTTAAACCGGTCCAGCGGTTG -GCACCGGTCAGGCGCGGATCCAGCGCCCCGCCAGGAGTGACGAAAAAGTTGTCGTCTGAGTTGTTTTCGACAAAC -ACAAACTCGCGTGCCGGTGCATCCGCCCAGGTTGTTTTGCTCACTGCCGCTCTGAGCGCAGTTACTGGCCAGATT -AGCGCGAAAATTATCATCGTTATTAGTAGGTTAACTCTCATTCTCTTCTCCTGTCTGCGTCACCGCCGCCCACGA -TGAGAGGCCGCTGCAGACCACATCACCGACCCAGACGGCACCGCGCGCCTGGTTGAGTTCCAGAGCCACTTCGCA -GGTTTTATTGCCACTGTAGCGAAAATCGATAGTGGGGTATTTCTTATCCACGTCCATGACAAACTCGCCGTTTTC -ATCGGTTCGGGTTCGGCCGATATGGTTGTTAATCCGTGCGTTAGCCAGCAGTGTGCCGTCTTCCGCACGGATACG -ACCGGAGACGGTAACCATCTGCTTCACCTCTGGCTCAATGACAGCGACATTGCCTGGATAGAGAGTCAGACGACT -TTTGCGGCCGCTGACGATATCGTAACTGTCGAGTGAGTTTTTGCTGTTCTGTAACTCCACCTCATATCTTCCATA -GGGAGAGAGCGGGAGATAGTTACGCTTGCCGTTAAGCGGGAAAATCCGCCCGTTGATTTTGGCGCTGATCTGACC -GTCGTCCTCCAGCCCGGTGTTGAATATCACCCCAGCGTTGCCATCAGTCCGCCCGCTGGCAGCAATGTTTTTACC -CTGCCAGCCGACGCTGCCATTGGCGGTCAAGTTGGTATTGACGTAGCCGTCCGCCGCGCTATTGACGTTCAGCGT -TCCGCTGGCGTAACGAGCGTCGAATTGTGCATACGCCCCGCCGCTGAGGGTTTTGTCATCACCGGTATCGCCGGA -GATGGCACGTGACAGATTGGCACCAACAGTGCGAATGGTTCCTTCATCAAACTGTTTGCGTGCTGACAGGTTTGC -CATGGTGTAGCCGTTTTGATGAGTCATCCCTGCGCTAAACCAGTTGCCCAGTGGTAGCGAGAGATCGAGAGCGAT -ATATTTTCCTGTATTGGCGTTGCTGTCGCCGTTGTTATAGCGCTGAATACCGGCCCGCAGGCCAAGCGAACCAAA -GGTACCGCTGTAGACATTTTGATAGTAATCTGCCGTGTAATAATGGCTGTTGTAACGGCGGTCATCATTGTAGCT -GATGCTGAATGTGCCCAGCTTCGACCACAGTGAGTTCAGGTTGAGTGTGCCGCCGATTGCACGGTTGTCGGCATC -GCTACGTCGCAATTGATTGCCAATGCGGGTTTTTTCCTGATTAACCCACAGCGAACTAAAGCCTCCCGGTAGAGT -GGCGCTGATGCTGCCGATGCTGCTCCATGAGCTGTCACTGGCCAGCATATTTTGCAGGTTAACGTTGATCGCCCC -CCCAAGCGGCAGCGTCAGACGGGTTTCACCCACCGCCTGATTATCGTATCCATATCCCGTTGCCGCCCAGCTAAG -CGTACTCAATGAGCCGGAGGTCGAGGCACCTGCTAGCCAACTCTCTTTAGCTGGTCGCGTCTTTTTCCCGTTTTC -CGACCAGCGATCCATATGAAAGCTACCGCCCCATACCTGCCACGCCAGTGGTGCACCGACGCCGCGCCCCCGGCT -AAACAGCTTATTGACCCGCTGGGTGCGTTTGCTGATCACGCGACCGTTAACGATCACCTCAACTTCCACATCGTA -AATCCCGTACGGTAGACCCCGGGTATCCACTTCATGATTGCCCATAGTGAAGTTCTGAACGCTTAGTAGCCGCCC -ATCACGGGTGAGATGTACTTCGCCCGCCGCCGGTAAAAAGGCGATCACTGGCGTGGCTGACTGGCTGCTGTCGAA -GATGGTGGAGCTGGCCTGGTTTCCCCAGGAAAGGCCGTAAATCTTCCCTGCTGAAATGGCGGTCATCGGCCCTAA -GGACTGCAAGTTCCAGGTGTCGAGCATTCCACCGGCAAATCGGTGACCGGCAAAATCGCGTTCATACATCGCTTT -ATATAATTCACTGTCCTGTTGACCGCTACCGATCCCGTACAGCGAGCCGTCGAGCACCACATGATGTTCGCGCAG -TGCAGTAACGTTATTCAGCGACAGATAGCTGGATGTGTTGCTCCCGCCGTTACGCAACTGGTTGTTATAGACGCC -CAAGTTATAGCTCAGATTACTGCTGAGGGTGTTAACACTGGACTGCCCGATGTCTTCGCTACGTGAGCGTAGTAC -GGTGCCCAGCGCTTCGCGCTTGACCACTAGCTGCAGCAGCAGTTGGCGCAAGCTGAGATCCAGCTGCGCGTTGTC -AGTCAGGGGGATGGTAAGGGCCTCATTGAACGGGGCGTTGGCCAGAGCCATCAGCTGCTGTCGAGTTTGTTCGCT -GACACTGGCGTTATCTTCACTCTCTTCCAGCTGTATTTTCCGGATGCGTAGCTGTCCATCGTCCAGCCAGATAAA -AGCGCTGCCGATTCGCTGATCGTCCTGGCGACCCTGGCTACCGGCGAGATGAATATAGAGCGGGACGCTCATGCC -GTCCTGAAGCGCCTGACTGAAGGCCTGCGGAATAATCACCCCACCTATTTGCTGCGCACTTATGTCAGCAGCGCT -GGCATCGGGCTGAACGAACAAAAAGACCATGCCGAAGGCAAACTGGGCTTTCAGTCCTGGGGAGAACCGTCGTAA -AGGCATTGTCGTTATCCATCTGCACAGCTATCTATTTCACGGGAATGAACTTATCACCCTGCCAAAGTGCAACCC -GTCCTTTGTTATCCGCAGTGTCCACGCGGGTAAAACGACGCGACTTGCCCGGCATCAGGTAGTAATTCTCTTTAC -ACTCCTTACCGTTGGCGGCTTTCAGGCAAGGTCCGTAGGCGAGGATCCGCAGCGTCGCATTTCCTGTATTTGTCA -GGGAGCCGTTGGCGTACTGAAAGTGGTAGTTCGCCTGACGAGGGGCGACGACCAGAATGGTGCCGATGCGGGCGG -AAGCAGTGGCCACAGCGCTGCGGTTGGCATTATCGCGCTGCGCATCACTGAGGGCCTGATCAAACCAGACAATGC -GGTAGTAGCGCTCTTTTTCATCTGCGGGTCCCTTATAGAAGAAGCGGATCACTTCGCTGGCTTGGGCGGGTAGCA -GCAAGCTGGCGGGAGTGAGTAGCAACTCATCCGGCTTGTCCATTGAGATAACCTGCCCGTCGTCAAGCGGTGAAG -AGAGCCGTTCGAGACGGATATTGATAAGGCGACCACTGTCGGTACTGTTTTTGATCGTTTTGCTCAGCGTGCTGC -TGTCACTGTTCATAAACGATGATATATCGCCGACATCCAGCGCCTGGGCCGGAGATATTCCGGAAAACAGCAGAG -CGAGAGGCAGAAGGTGCTTTTTCATAACAATTCCGTCCAGGAATAAAGCAGGGGGGCTACCCCTGCTGGTACATC -AGAGAGATTAACTGGTCCAGGTCGCGTCGAACTGTACGCTAACGTCGCCGCTCCAGATGCCTTCCGGTAGAGTGC -TGTAATCTGTTACTGCGGTGGTACCATTGGTGGTACCGCTGATGATGGAGAAGGTGAAACCATCCTGTGCGGTGG -TACGATTGCTGGCATTGTAACCGTTAGCCAGCGGGCTAAGGTTGCCGCCCAGTACGCCGTTGGCGGTATCGATCA -TCACGGTATCGCCAGTTTTTTCGACTGCCGCGCCGTTATAATCCACGCCCACATTCAGTGTGGAACCTGAGGTAT -CCAACTGGGTTAATGTGTTGGTGATAAGACGTGAGGTCAGTTTAAAGGCGGTAGCCGTTGAGTCACCCTCGATAG -CCACGTCAAATAGACCTTTCTGTGAGTTAAAACCTTTAATGCCTTCGGCATACTGGAACGCCAGGCTACCGAGTG -GCGTCACAACCAGCTTACTGGTGGTGTCTTTTTTGGCTGTTGCCGACCAGGTCGCTACAGCCTGAGCTGTTACGT -CAGCAGCCTGCGCCACACCCATGCCGGTAAACACCGTTACCAGAGCTATTGCCAGAACCTTTTTTTTCATTGCAT -TTCTTCCCGAGTTGAATTGAGGACGTGATGTCCCAGTGAGTCATTTTTTAAAACTAACTTGCCTGGAGTTTACTG -AACCAACTTATATATTTTTGAGTACAGCTTGGCCTCAGCATTACGCCGATGGGTATACACTGTCTTCACACTACA -ATTTTCAATTCTGGCAATCGATTTAGGTTGCATTCCCTGGGCCGTCATGCGGATAATTTCCATTTCCCGGTCCGT -GATTTTATCTTTCTTAATATCTTTTCTCAGGAACCTGCCATTAATCACATAGACCAGTTCTTTTCTAATATCACG -ACTCAGTCCAGCGTATACCACGCCCCTAATATTGCTATTGTAATACCAATAATTTGCTAAGGCCTCTGACTTTCT -GGCCGCAATCAATACGACCTGTTTCCCCTTTACCGCGGATAACCATTCATTATCACGGTTTATAAATTCAGATAA -AGAATCCGTACTGAGATTGATAAACACGAAATCTTTTCTAATTTTCTCCAACGATAGATAAATTAATCTGTCGAT -ATCCACAATCAGTTCAGATAGTCCTTTATAGAAGTAGGCGTCATGGGGAGACCAGATGTATTTATCAGAACGGTT -TTGACATTCCATATGGTTTTTAACCTCATAGTCCCTACTGTAATCACTTTGCCATGTCACTACTTTCCAAACCTG -TAATTTTTACAGGTGCATTCAGTTTCCTTAGTAAACCGGAAGTAAATAAGATACGTAGTACATATCAATAAAGGT -TAAACGAGATTAAGTTTAATTATTTTCGATTGGGCTTAAATTTATGTTTTTTTTCCCGATGAGTGTCAATATGTG -AACGGAAAAGGAATTCAATGGTTAAGTCAATATTTAGAAAAACTGAAAATATTGCTTTTTTGATAAGAAGAAAAA -GACATTTGGTTTCATAAGGTTATTGGCAATATAACGTTCAATTCTTACTTGCATTTTATATTGGTCAGGAACTTT -GCCCTGAAGTGTTAGGAATAGTCTTAATGCGCTGTGTGATGGACTAGTAAAAAAACAAGTTTTAAGGGTAAGGGA -TAGAATATAAAACTATGATGAGCTGTCATTGAAGATGATTTGCCAATCAGTAAGATATTTTAATGGATTAACATG -CCGCACAAAATGGTTACAGGTGTTCATTCCAATAAGTAATGGAAAATTGAACGGGCGTATGTACGTCATCTGTTC -GGTAAGCCCCCAAGAGCCAGATTAAGTGAAGTTAAACGAAGGCTGCCAGCTGTCACAGGAACGATGGCCTTTTTG -TCAGGGCACTGCATTCAGTTATCTGTGCGCGTTACTCTAACTGGCACTCGAACGTCGGCGACGGGGTTACCGGTG -GATCAGACTGTTCCTGTGGCGTAAACGTTTTTATGTTAGTACCAACAGATTTACCACATTTATCATCTTAACAGT -TTGAGTGAAAATGCAGGCTGCGCCGCAAAGGGAGGAGACTGAGTGGCGTGTTCAGTCTAAAAGAGGGTTGATGCC -AGCATACAGGGGCGAAGCTGGTCAACAAGTCAACATTAAGATAATGGAATATTCGGAGAGAAACGTCAGGCAGTT -GGCCTCAAATGAACAGGAAGAATATATCCCCAGGAAAATTAATGTTGGTGTTATAAACACACCAACATTAATCCG -ATCTGATTATTAATCAGACAAATATCGTTAATCCGTCGAATTTTGAATCAACGTTTTTTCTTACGACCCTGAACG -GCCTTAAAACGTGGATTAGATTTACAAATCACATATAGCCGTCCTTTTCGCTTCACAATCTGACAGTCTGGATGG -CGTTCTTTTGCGGTACGCAGAGAGTTAAGAACTTTCATCACGCCCCCTTTTTCGTGCTAACAAAACGACCAAAAC -GTTGGGTGAATCGTGCAACATTTCCTTCTGATGCCACTGTTCTCAGCTTCCCTGTATAGAACGGGTGCGATTTAG -AAGAGACATCAATTGTCACGTATGGATACGTTACGCCATCCAGCTCAATCTCACGGTCTGTTTTGATAGTCGAGC -CGATTTTAAAGTACTCATCAACACTGGTGTCGTGGAACACCACAGTACGATACTCAGGATGGATATTGGGCTTCA -TCATTTTTACCTGTTATGTTATAACATAACCATAAAGATACATGCTCATCCGGATCATTTCAACACTCAATCCCT -GTGACTCTTTGTGGATGTGGAATTTTCGCAACGGGGAACTCTGGCATTGTTAGCAGCCATTGGTGACGCTCCCAT -AAACGCCTGGATGAGTGATTGATGATGGTTTTGCTGAGAGTATGGATTTTTCGAGAATGGAGGTTATCTCCACTT -TACTGGCCGATAATTTATCGCAGTATGATTGATTACCTGACAGCGTGTATTCCTCTCCCACGGATATAATAATTA -CTTACAAAAAAGGGAGAGGATGCATATTTTAAATATCACTGAAGTGAACAGTTTATTTCCGTTATTAATAGAAAT -GGAGAAATAAATAGGCGTATTCTACAATTGCGACAAAAACAACGATATTAATCAGTTTATGACTGATTTGCTGTA -CTTTATTCTCTTTCATTGGTACTTCCTCGCTTTAAAAAAGAGTGCACTTCGTAAGTGCCCTTATATAAATAACGA -GTTTGGTCAACCAATTTTTTGACATGTATCACAAATTTGAATAGATGTATTACATCAACTATCTTTTATTGCACC -AACGTCATTGATATATGTCGCCTGAAGTCAGTTCCGGGAATGAGTCTGATCTCAAGACTGGCCCAGTCCGGGCGT -TGATTGGTGCTGAGGAGCATATCGCATCTCATCATAATGTCGTATCTCCTGGGGTGTTATACAAGATATCGTTGT -TGGTGACCTGGGAGAGGAATTGAGTTCTATTAAACCGTCAACTATGCCGGATACATACTGGATTACACTGCAGGC -ACGCCTTATGAGAGAACGTGCCGCAGTGACGGGTTAATTATCTGAAAGAATTTGTGAGGCTGTATCGGTTACTCA -TTGATTTGATAGTTTTACTCTCGGGAGAATAATAGATATTTAATCCATTAACGGAAACCAGCCAGTTCCTTTCGA -TGCCTGAATTTGATCCCATAGTTTATCCGGAATGGTTAATTCATGAACAAGTTGTGTTATCGTTCATGAGAAGCA -TAACGTAAAGGGAAAAGCTCGATTAGACGGCAGAATTTGTCAGGGGTTATGAACGAAATTCATAAATCTGTTTGA -GTGTTGCGATGGGTAGTGCAAGTTCGATATCTCCGCAATTTACAGTCCGATGAAGGAAAATGAATATCCATAAAA -AATATATTGGTTTATCCTGGCATATATACCTATTTCGACGTATTTCCAATAGTTTTAATTAAAGGCAGGTCATTG -TTATTCACTCTGAATAGTGAATTATTCACTGTCCGCAGAGTAAGAAATATAACTTAGGTATCTATTTAATGACTT -GCACAAAAAGCTAAATTTTCCCCCATAAATAAAAATATAATCCCGCGCCCAACCACCTGATGAGTGGCTATAGGC -ACTGGATATATTAGGTGGCGGTGCACTTTCTTACATAAAGGTATTTCCTTTTCTGCGGAAAAGGAAATCGGGAAA -TCCCCGGTTTTTCTGACAAGCAGACGCCATTATTTGTGTCTGCCTATGTTCGTTAATTCGTTCATCAGGAAATTA -TCTCAATGTCACATTATAAAACAGGTCATAAACAACCACGATTTCGTTATTCAGTTCTGGCCCGCTGCGTGGCGT -GGGCAAATATCTCTGTTCAGGTTCTTTTTCCACTCGCTGTCACCTTTACCCCAGTAATGGCGGCACGTGCGCAGC -ATGCGGTTCAGCCACGGTTGAGCATGGGAAATACTACGGTAACTGCTGATAATAACGTGGAGAAAAATGTCGCGT -CGTTTGCCGCAAATGCCGGGACATTTTTAAGCAGTCAGCCAGATAGCGATGCGACACGTAACTTTATTACCGGAA -TGGCCACAGCTAAAGCTAACCAGGAAATACAGGAGTGGCTCGGGAAATATGGTACTGCGCGCGTCAAACTGAATG -TCGATAAAGATTTCTCGCTGAAGGATTCTTCGCTGGAAATGCTTTATCCGATTTATGATACGCCGACAAATATGT -TGTTCACTCAGGGGGCAATACATCGTACAGACGATCGTACTCAGTCAAATATTGGTTTTGGCTGGCGTCATTTTT -CAGGAAATGACTGGATGGCGGGGGTGAATACTTTTATCGATCATGATTTATCCCGTAGTCATACCCGCATTGGTG -TTGGTGCGGAATACTGGCGCGATTATCTGAAACTGAGCGCCAATGGTTATATTCGGGCTTCTGGCTGGAAAAAAT -CGCCGGATATTGAGGATTATCAGGAACGCCCGGCGAATGGCTGGGATATTCGTGCTGAGGGCTATTTACCCGCCT -GGCCGCAGCTTGGCGCAAGCCTGATGTATGAACAGTATTATGGCGATGAAGTCGGGCTGTTTGGTAAAGATAAGC -GCCAGAAAGACCCGCATGCTATTTCTGCCGAGGTGACCTATACGCCAGTGCCTCTTACCCAGCAATAGTGGACAC -GCGGCTAAGTGAGTAAACTCTCAGTCAGAGGTGACTCACATGACAAAAACAGTATCAACCAGTAAAAAACCCCGT -AAACAGCATTCGCCTGAATTTCGCAGTGAAGCCCTGAAGCTTGCTGAACGCATCGGTGTTACTGCCGCAGCCCGT -GAACTCAGCCTGTATGAATCACAACTCTACAACTGGCGCAGTAAACAGCAAAATCAGCAGACGTCTTCTGAACGT -GAACTGGAGATGTCTACCGAGATTGCACGTCTCAAACGCCAGCTGGCAGAACGGGATGAAGAGCTGGCTATCCTC -CAAAAGGCCGCGACATACTTCGCGAAGCGCCTGAAATGAAGTATGTCTTTATTGAAAAACATCAGGCTGAGTTCA -GCATCAAAGCAATGTGCCGCGTGCTCCGGGTGGCCCGCAGCGGCTGGTATACGTGGTGTCAGCGGCGGACAAGGA -TAAGCACGCGTCAGCAGTTCCGCCAACACTGCGACAGCGTTGTCCTCGCGGCTTTTACCCGGTCAAAACAGCGTT -ACGGTGCCCCACGCCTGACGGATGAACTGCGTGCTCAGGGTTACCCCTTTAACGTAAAAACCGTGGCGGCAAGCC -TGCGCCGTCAGGGACTGAGGGCAAAGGCCTCCCGGAAGTTCAGCCCGGTCAGCTACCGCGCACACGGCCTGCCTG -TGTCAGAAAATCTGTTGGAGCAGGATTTTTACGCCAGTGGCCCGAACCAGAAGTGGGCAGGAGACATCACGTACT -TACGTACAGATGAAGGCTGGCTGTATCTGGCAGTGGTCATTGACCTGTGGTCACGTGCCGTTATTGGCTGGTCAA -TGTCGCCACGCATGACGGCGCAACTGGCCTGCGATGCCCTGCAGATGGCGCTGTGGCGGCGTAAGAGGCCCCGGA -ACGTTATCGTTCACACGGACCGTGGAGGCCAGTACTGTTCAGCAGATTATCAGGCGCAACTGAAGCGGCATAATC -TGCGTGGAAGTATGAGCGCAAAAGGTTGCTGCTACGATAATGCCTGCGTGGAAAGCTTCTTTCATTCGCTGAAAG -TGGAATGTATCCATGGAGAACACTTTATCAGCCGGGAAATAATGCGGGCAACGGTGTTTAATTATATCGAATGTG -ATTACAATCGGTGGCGGCGGCACAGTTGGTGTGGCGGCCTCAGTCCGGAACAATTTGAAAACAAGAACCTCGCTT -AGGCCTGTGTCCATATTACGTGGGTAGGATCATAAAGTCCTCGGGTCGTTGTCCACTCTTTTGGCATGTCAGCAT -ATTCACATACCGTACCAGCAAAAGTTTCAACCGTGAGCAAATCGACCGATTTTGTTGACGGTTCAAACGTGGAAA -CGAAATAGATATCCGTCTTAAAATTCTTCATACATCTGGCTAAATGATGACGTCGTAGTTTGACTTCTTCATCCG -GTGATTTATTCGACACTTCAATGTCATATTTAAATGAGTTGCCAAAAATAGGTGTCTCAGGAAAGTTGATTAATC -TACACTCCGTCTTTTGCTGTTGACGTATTAAAAAAGAAGGGAAGATATTTGCGAGATCCCAATAATCACGGTGGC -GGTATTCACGGGGAGAGCAGCCGAATAACTTTTTAAATTCGCGGCTGAATGACTGCTGTGAATCAAAATGCAAAG -AGAGTGCAATATCAAGCATAGATTTCGCGGTGAGCCGGACAAGAATGGCGGCACGACAAAGCCTTCGTTTGCGAA -TGTATTCTCCCAAAGGCACATGCATGAAATTTCGGAACAGAAGCTGGATGTTGCGTCTGCTGTAGCCAGATTTCT -GTGCGATATCTTCGATTGAAATAGGGTGCTCAAGATTGCACTCAATCCACTCCAGGAGCTGCTGTAGAATCTTCT -GCCTGATCATCTCATTCTCCGTTAATTCTTTGTCATATCGCACATTTTCGTTATACCCTGGGCCCTAAGTGTATC -AAAAATAGCAAGGGCGAAGGCAAAAGCACTGGTAGCGTCTGCTTCGTTGTCCCCGAAAATAGAGAGGTTTCAGTC -CTACATTATTAATGAATTTTTTGCATAAGTGATATCAAAATCCACATACTACTTTGAGGTTACGTTTTAACGTAG -ACTCATTGTTCATGCCTAATGGAGGGACTGACAGTGGAATTTTCCGTATAGTCTGCTTCAGAGTATTGCAGATGC -CCATCAAAAATCGATTTCTCACTGACAGATAAAGAAATGGCACAAATTAGTTCGCTTGATTTGGGTTATGTTGGG -GAGTCGGTAAAACATTTTAATCCTGAATTTGTTCGTGGTTGTCTTGCTGTAAAAATACATGATTGATATTAATCA -TGTATTTTACCTAAGACGACAAAAACCTTTTAACAGGGAGTGATATTGATCTTCACTCTGTCATATCTCCGGTAA -TATGGCGTCAGGCTTCATCATCAGAAAGGGGGCCTGACGCCTGAAAAAGTGAACAACAGACAGTGTTCGGATTAT -CAATATTCAGTTTTTAACGTTGAACTGGATTCATTACTGCGTTGTTTAAGAATTTCCCGCGCCGAATCTGCCATT -ATCATGACTGCACCTGCCAGCATCAGAGTATCTTTCAATACCAGGCGACCAGCACCGGATAAATAAGGGAAACCA -TGATGAGCGTCACCCAATGCGGGTACCCATGCCTCCGGGGTGGTGATTAAAAATGAGAGTGTTACCAGCGGCGTG -GTAAATGCCATCAGTCCTCCCAATAAACCTAACCAGCGATTGACAGGATTAGCCAAAACCAGCAGAGCAATAATC -ACCTCCACGACGCCAAGACCGTTGGAAAAACCATAGGTATTATTGGCCGTTTGCCATGCCCTTGCTTCTGGTTTG -TATTCGCCTTCGTGAGTCAGATACTGTTTATAGTCTTCCGGGTGTTCATAAAAGAACGACATTAGTGGACTGTTT -GCGACGAATGGTGTAATGCTGTCTGCCTCGTAAGGGACAAACTTTAATAACCCAATCCACATAAAAACAATTGCA -ATACTCAGACGAATCAATGTCAGGCCAATTTTATCTCCCCGACTTAACAGGTGCAGGTATTTTTCCATTGTGAAC -ATCCTTATTTATACAATACTGCTGTTGCGGTTGAATTATTATCAATTCGCATCGATGTGACTTTCCAGGATGAAG -CATTATATTTTCTGGCTATATCAGCAATGGTATCCTCCAGAACTGTCGGTGATGCTGATACTGACGAGACGCTGA -TATGTTTCAGAATTATTTTATCATCTGCATTGGTGGAAAATGCCATAACGCCAGATAATAGTGTTGCAAATAAAA -CAGATTTTTTAAACATATAAAATACCATCAATGAAGTGATTAAGAAGTTATAGAGTAACAGAGAATTAATAAGAT -TCTTTTCTCTGAGACGCCAGAATATTTGTTCTGGCGTCTGATTTTGAGTTTATTTGACTAATGAAAATAGATCAT -TGAGTGATTCGCTCATCGACGGATGAGTAAATATCTGATCGCGTAATATGCTATAAGGCAGCCCGGCATCCATCA -CCATTTTCACTATATTGATCATCTCGTGGGAGTCAACACACAGCAGTGATGCCCCTAACATACGTTGGGTTTTAT -TATCAACAATCGCTTTTAATACCCCACGAGTATCATTCATCACTCTGGCACGCGGAATTGCAGCTACAGGCAATG -TCACCACCTGAATATCAGCACCACTCTCTCTGGCTTGTTCTTCTGTCATACCAACCCTGGACAGGGGCGGTGTCA -TAAATACGGAATAAGGCACATTTTTCCGATCATCAGTACTACGTTTGCCTTCACCCAGTAACTCATCACGTACAA -TGCGGTAATCATCCAGTGATATGTAAGTAAATTGCAGCCCGCCGGTAACATCTCCCATCGCCCAAATATTGTCTG -CGGTGGTATGTAATCGCTTGTCAACGACAATTGCCCCGCGCTCGTTTACTGCGATACCGGCATTTTCTGGATGTA -ACGAAGCGGTAGCCGGTTGACGACCGGAAGCTATTAACAGTGCATCCACCGCCAGTTGGGCGTGCTCGCTATGCA -CTTGCACTTGATTTTCATGGTGACTGATTCGCTCCACATGGGCATTGAGGATAATATCGACGCCCTGATCGCGTA -AAATCGTCGCGATATTATCAGCAATATCCCGATCTTCCCGAGGCAAAAACAGCGAAGCTGCTTCTAAAATGGTTA -CCTTGCTGCCAAAATTAGCGAACATAGAGGCGAACTCAACGCCAATATATCCGCCGCCCAAAATACCTAAATGCC -CAGGCAATTCTTTTAGATTAAGTAATCCGGTGCTGTCATATACTCCTGGCGTGGTGGTAATTCCAGGAATTGGCG -GAACCACGGTTTGTGCACCGGTATTAATAAAAATTTTCTCGCCATGAATTTCCAGATTTCCCTCAGGCCGATGAA -CACGCAGGCTATGATTATTGATAAACTCCGCCTGGCCGTCGATCACGTCGATATTGGGCATATCCGCAAGATTAT -GAAAATTCTTATTACGTAAAAAATTAACCACTTCATTTTTACGCTGTATGGCACGGACAAAATCTGTGTGCTGCT -GTGCGTCATGAACCAATGTTTTGGTTGGGATGCAGCCGATATTAATACAGGTCCCGCCATACATTGCATTTGATT -GTTCGATGAGAGCCACTCGCCAACCTGCTTTTGCCAGCGTGACGGCTAATGTTTTTCCAGCCTTGCCAAAACCAA -TAATCACTGCCTGATATTTATTCATGATGATTTCCTGTCGAAACGCGTTCATTTGACATCATGACTATAGACGCA -AAAGAGCAAATAACATTTCTTCACAACGCTTGATATTTTGTCTTATCGTCTGATATTTTCTTTTTCTTAATCAGA -ATCACAAAACAAAAATCATGATTAACTATTTGATGGTATTAGATTAGTTATTTACTAAGATTGTTGGTGTTTGTA -ATCAAAAACCACTCAGGAGTCTGATATGGATGCCCTTAGCCGTTTGTTGATGCTTAACGCTCCACAAGGAACGAT -CGATAAGAATTGCGTGTTAGGAAGTGACTGGCAGCTTCCACATGGTGCCGGGGAATTATCGGTTATTCGTTGGCA -TGCGTTAACGCAAGGAGCGGCGAAGCTGGAAATGCCGACGGGGGAGATTTTTACATTACGCCCGGGAAATGTGGT -CCTGCTACCACAAAATTCAGCTCATCGCCTGAGTCATGTCGATAATGAATCGACCTGTATTGTCTGCGGCACTCT -TCGGTTGCAACATTCGGCGCGTTATTTTTTAACGTCTTTGCCGGAAACGCTGTTTTTAGCACCGGTTAACCACAG -CGTGGAATATAACTGGCTGAGGGAGGCGATCCCGTTTTTACAACAGGAATCCAGATCGGCAATGCCGGGAGTGGA -TGCACTGTGTAGCCAGATCTGCGCTACATTCTTTACCCTCGCGGTGCGTGAGTGGATTGCACAGGTTAATACTGA -GAAAAACATTCTCAGTTTGCTTCTGCATCCACGTCTTGGTGCGGTAATACAGCAAATGCTGGAAATGCCAGGACA -CGCCTGGACCGTCGAATCGCTGGCCAGCATCGCTCACATGTCCCGGGCAAGTTTTGCCCAGCTTTTCCGTGATGT -TTCCGGAACCACGCCGCTGGCTGTATTAACAAAGTTGCGTCTACAAATAGCGGCCCAGATGTTTTCCCGGGAAAC -GCTCCCTGTTGTGGTGATCGCTGAGTCAGTAGGCTATGCCAGTGAATCATCTTTTCACAAGGCGTTTGTCCGCGA -GTTTGGTTGTACCCCGGGAGAATATCGGGAAAGGGTCAGACAGCTTGCACCCTGAATAAAACCGCCAGAAATCAG -GGCAAAGATAATCCGCATTCCGGGAGTTGTGAGCCTTTCAACTATTTCTATTTCCAACGGTGGTTTGGGCTTTAT -ATATTTTTTCTGATGGACTCTAGCTCAGTTTTTAAATAAAAATGCAAACTAAATTGCTTCAATTAAATAAAATCC -CGACTATTACTTGATACGTGATTATTGTCGGTGATTTTTTTGTACACCATCAGTGTATATCTCAATAACCCCTGA -ATAAGTAGCTCTGAATAGGTATAAGGGATGTAGCCATTTTTAAATGGATTTCTTATGCCAAAAATGATCGTCGAT -TTCCCCATAAAATGTGAGCGATGCCGAAAGAAATAAAATTAGTTATTGCATTTGACGTTTGGATGAAAGATTATC -ATTTGTCATACAAATGAGGGGTGGTATGTTGCTAGCCAATTAAAAAAGAACGCCATATTTATTGATGATTGATCC -CCCGGTGGGGGGGAAACATCGGGCATAAATGGGCATGAAGTAATGGAGTATTAGTTGTGAATGTCAATTTCTTTG -TCACCTGTATTGGTGACGCCCTGAAATCAAGAATGGCACGAGACTCCGTGCTGCTACTGGAAAAACTCGGCTGTC -GCGTAAATTTCCCGGAGAAACAGGGATGCTGCGGTCAGCCTGCGATCAATAGCGGTTATATCAAAGAAGCGATTC -CAGGGATGAAAAATCTGATCGCCGCACTGGAGGATAACGACGATCCCATTATTTCACCGGCTGGCTCTTGCACCT -ATGCCGTAAAAAGTTACCCGACGTATCTGGCGGATGAACCTGAATGGGCATCACGTGCCGCAAAGGTTGCCGCGC -GTATGCAGGATCTCACCTCTTTTATTGTTAATAAATTAGGGGTAGTCGATGTAGGTGCCAGTTTGCAAGGGAGAG -CGGTGTATCACCCATCTTGTAGCCTGGCCCGTAAGCTGGGAGTGAAGGACGAGCCACTTACGCTGCTGAAAAATG -TGCGTGGACTGGAGCTGTTGACCTTTGCTGAACAGGATACCTGCTGCGGATTTGGCGGCACGTTCTCGGTCAAAA -TGGCCGAAATATCCGGCGAGATGGTGAAAGAAAAGGTTGCGCACCTGATGGAAGTCCGCCCTGAGTATTTAATTG -GTGCTGACGTGAGTTGCCTGCTAAACATCAGTGGGCGATTACAACGGGAAGGGCAGAAAGTCAAAGTGATGCATA -TTGCTGAAGTGTTGATGAGCCGCTGAGGATATAAAGATGTCGATCAAAACCAGTAATACAGATTTTAAGACACGC -ATCCGTCAGCAAATTGAAGATCCGATCATGCGCAAAGCGGTGGCAAACGCGCAGCAGCGTATTGGGGCAAATCGG -CAAAAAATGGTCGATGAATTGGGGCACTGGGAGGAGTGGCGCGATCGGGCCGCCCAGATACGTGATCATGTTCTG -AGTAATCTCGACGCTTATCTGTACCAGCTCTCAGAAAAAGTGACGCAAAACGGCGGTCACGTCTATTTTGCAAGA -ACCAAAGAAGACGCTACCCGCTACATTTTACAGGTTGCCCAACGCAAAAATGCCCGGAAGGTGGTGAAATCTAAA -TCGATGGTGACCGAAGAGATTGGTGTCAATCATGTGTTGCAGGATGCTGGCATTCAGGTGATTGAAACCGATCTG -GGTGAATATATTCTCCAGCTGGATCAAGATCCGCCATCTCATGTTGTGGTCCCGGCAATTCATAAAGATCGCCAT -CAGATCCGTCGAGTGCTACACGAACGTCTGGGCTATGAGGGGCCGGAAACGCCTGAAGCGATGACCTTATTCATC -CGGCAAAAAATCCGCGAAGATTTCCTCAGTGCTGAAATAGGTATTACCGGCTGTAATTTCGCGGTGGCAGAGACC -GGTTCGGTATGCCTGGTGACCAATGAAGGTAATGCGCGAATGTGTACCACGCTGCCTAAAACGCATATTGCAGTG -ATGGGAATGGAGCGTATTGCCCCCACGTTTGCCGAGGTAGATGTATTGATCACCATGCTGGCGCGCAGTGCCGTT -GGTGCACGTTTGACGGGATACAACACCTGGCTGACAGGACCGCGCGAAGCTGGGCACGTTGATGGTCCTGAAGAG -TTTCATCTGGTTATTGTCGATAACGGGCGTTCTGAGGTGCTGGCCTCTGAATTTCGGGATGTGCTGCGCTGTATT -CGCTGCGGGGCTTGTATGAATACTTGTCCGGCATATCGCCATATTGGCGGTCATGGATATGGCTCTATTTATCCA -GGGCCAATTGGTGCGGTGATTTCTCCGCTACTTGGCGGCTATAAAGATTTTAAAGATTTACCCTACGCCTGCTCT -TTATGCACAGCTTGTGACAACGTGTGTCCGGTGCGTATTCCGCTGTCAAAACTGATTTTGCGTCATCGTCGGGTG -ATGGCTGAAAAAGGGATCACCGCAAAAGCAGAGCAACGGGCGATAAAAATGTTCGCTTATGCCAATAGTCATCCA -GGATTGTGGAAAGTCGGGATGATGGCCGGTGCTCATGCGGCAAGCTGGTTTATCAATGGCGGCAAAACACCACTC -AAATTTGGCGCGATTAGCGACTGGATGGAAGCACGCGATCTTCCTGAAGCTGACGGAGAGAGTTTCCGTAGTTGG -TTTAAGAAACATCAGGCGCAGGAGAAAAAGAATGGATAATCGAGGCGAATTTTTGAATAACGTTGCTCAGGCACT -GGGTCGCCCGCTGCGACTTGAACCGCAAGCAGAAGATGCGCCGCTTAACAACTATGCTAACGAGCGGCTTACCCA -ACTTAACCAACAGCAGCGCTGTGACGCGTTTATTCAGTTTGCCAGCGATGTTATGTTGACGCGCTGTGAGCTGAC -CAGCGAGGCGAAGGCGGCAGAAGCTGCAATACGTCTGTGTAAAGAGCTGGGAGATCAGTCGGTCGTGATTAGCGG -TGACACGAGGCTGGAGGAATTGGGGATTAGCGAACGTTTGCAGCAGGAATGCAATGCCGTTGTTTGGGATCCGGC -GAAAGGTGCCGAGAATATCTCGCAGGCAGAGCAGGCTAAAGTGGGTGTTGTGTATGCTGAATATGGTTTAACCGA -ATCGGGAGGCGTGGTTCTTTTTTCCGCCGCCGAGCGCGGGCGTTCATTGAGCCTGCTCCCGGAATATTCTCTTTT -TATCCTGCGTAAAAGCACTATCCTGCCGCGTGTAGCGCAACTCGCAGAAAAATTGCATCAGAAAGCGCAGGCCGG -TGAACGAATGCCTTCCTGCATTAACATCATTAGCGGCCCCAGTTCAACGGCGGATATTGAGCTTATCAAAGTCGT -CGGAGTTCATGGCCCGGTGAAAGCGGTGTATCTGATTATTGAGGATTGTTGAGAGAGATATGAAGTCTGGACATA -AACCTGAAGAAGGCATACGAGGTTGAAAATAGCGTTTAGGACAACCTGACTTAACCCCGTTCCGTCATGGTTATG -CTGCTCTTCTGTAAATATCCTGGTATTACCAATGCCAGGATATTTACAGTGAAAAAGACAGGCATCCATTCCTGA -AAACGGGTTCCCTTCCCGGTCATTGTCACTTCAGCTTTATACAGGCACTCTCTATCAGAATGTTGTTTATTACTG -CCCAGAGTTTTGTTGGTATTCATCTACCATTTTTTTGACAAGGCAAAACATTACAGAAATTACAATGCTTAGAAA -AAATCCCAGAGCCAGGCAAATGGCAGCAGGGTATTTATTTTTTATTTCTGGTGAGCTTATAGTTACACAGCCATC -ACCGTTCGGATACAATGACCAGTTCCTGGTCAGGTATATCATTTTTGTATAAAGCTCACTGTTAATTGCTGAAGG -CGTTTGTATCTCATCGAGAACTTGCCTGCCATTATGATATTCTGACGCATACCATTTGATAATAGAGGCCTGCAC -GCGAGATATTTCCTCTTCAGCAGTTGGTAAAGCTCTCTTATCTCCTGACCATTCCAGCCTTATTTCTCTGTTCTT -GACATCTGGGCTGGTGTGAAAAAATGTAGTAATTCGCTGAATAACATCTTCAGTCATTGTAGTCTGACAGGCAAA -ATTATTATTGCTATCACAGCTAACAAGTATACCTGGCGTTGTCTGGTTTATTTTTAGGCTGTAAATCACTTTTAT -ATTGTCTTTATTGATATACAGAAACAACAGCACCATAGCCATACATATAGCCATAATAAAAAGGATAACACGAAT -CTTTTTCTTCAGATAAAATAAAATCTCAATCAGATCGATATCCTGTTTGATTTGTTCACGCATAATATATCCAGA -GAATAAAATCTGTCGCAGATAAGGTTGTATTAATAGTCTGTATCAGGAATGTTCGGGTTAAATATCAGCAAAAAG -CCCGCATCATGAATACTGGATATGAAGCATGAGAGTTACCTCAGTGTTTATATAAGGATTCGGTCCCCCTCTCTG -GAACGGTAACTCTCAATCTGATCGGTTCCTGCGTTAGTTCACATCACGACTCATTTTTTCGCTCTCACCGGCATC -CCATTTGCCACAAAATATCCCGCCGTGCTCCTCGGCAGCGCTTCCTGTCCACGAATCATATCCGCTATTTTCTCG -CCAATCATAATTGTCGTGGCGTTCAAATTCCCGGTGATAATCTGCGGCATAATCGACGCATCCACCACACGCAGG -CCTTCTAACCCGTGTACGCGGCCTTCGCCGTCAACCACGGACATCTCGTCGTAACCCATTTTGCAGGTACCGCAC -GGATGGAAGGCGGTTTCGGCGTGGTTACGCACGAACTCATCGAGCTGTTCATCCGTCTGGCATTCGACACCGGGG -CTGATTTCGCGGCCACGATACTGATCCAGCGCGGGTTGATGCATGATCTCGCGGGTGATGCGAATTGCGTCGCGG -AACTCCTGCCAGTCCTGCTCGTGCGACATGTAGTTAAACAGAATCGCCGGATGCTGGTGCGGGTCGCGGGATTTA -ATCCGCACATGCCCACGGCTTGGCGAGCGCATTGAGCCGACGTGGCACTGGAAACCGTGCTCTTTCACTGCATTC -GAGCCGTTATAGTTAATCGCTACTGGCAGGAAATGGTACTGAATATTCGGCCACGCAAATTCCTCACGGCTGCGA -ATAAATCCACCTGCTTCAAAGTGGTTGCTGGCACCAACGCCAGTGCCGCCAAACAGCCACTCCGCACCGATTTTC -GGCTGGTTCCACCACTGCAGGGCAGGGTAGAGGGAAACCGGTTCTTTGCACTCATATTGCAGATACATCTCCAGA -TGATCCTGAAGATTTTCGCCGACGCCGGGTAATTCATGCACCAGCGGAATATCAAACTCCGCCAGCAGTTCAGCG -TTGCCGACGCCGGAGCGTTGCAGGATCTGCGGTGAGGCAATCGCGCCTGCACATAACAGCACTTCTTTGTTGGCC -GTTGCGCGGGTTGGGATGGTGCTGTCGCCTTCCAGCCATTCGACGCCCACCGCGCGTTTGCCGTCAAAAATGATG -TGATCGGTCATAGCGTGAGTACGAATGGTCAGGTTAGGACGCGATTTGGCCTGATCGAGATAGCCACGCGCGGTG -CTGGCGCGACGGCCCTGCGGCGTGACGGTGCGATCCATCGGACCAAAACCTTCCTGCTGATAACCGTTGAGATCG -TCCGTGCGCGGGTAGCCCGCCTGCACGCCCGCTTCAATCATCGCTTCAAACAGCGGATTGACGCCGGGTTTGGAG -GTAGTGACGCTCACCGGGCCATCACCGCCGTGATAGTCGTTTTCACCCATATCGCGAGTCTCGGCCTTGCGGTAG -TAGGGCAGGCAGTCGAGGTAGCTCCAGTTCTCCAGACCGGGTTCTTGCGCCCAGTTATCGAGATCCAGCGCATTG -CCACGGATGTAGCACATGCCGTTGATCAGCGACGATCCACCCAGACCTTTACCGCGTCCGCACTCCATGCGGCGG -TTATTCATAAACGGTTCAGGTTCCGTTTCATAGGCCCAGTTGTAGCGTTTACCCTGTAGCGGGAATGCCAGGGCA -GCGGGCATCTGGGTGCGGAAGTCAAAGCGATAGTCCGGGCCGCCCGCTTCAAGCAGCAGCACGGAGGTATTCGGA -TCTTCAGTCAGACGGGTAGCGAGAACGTTGCCGGCTGAGCCGGCACCAATAATGATGTAGTCAAATTGCAAATAA -ACCTCCTGGTTAGAATATGGACTGGAATTTAGCCATCTCAACCTGGATGGACTTCACCTGGGTGTAACTCTGGAG -CGTCATCACGCCGTTCTCGCGACCAATGCCGGAGTGTTTGTAGCCGCCAACGGGCATCTCTGCCGGGGATTCGCC -CCAGGTGTTGATCCAGCAAATACCCGCTTCCAGCTGATGAATGACGCGATGCGCGCGGTTCAGGTCCGCTGTCAC -GATGCCCGCCGCCAGGCCGTAGTCGGTATCGTTAGCGCGGCGAATGACTTCGTCTTCCGACTCGTAGGTCAGAAT -GGACATCACTGGCCCGAAGATCTCTTCACGCACGATGGTCATATCGTCGCTGCAATCGGTGAACACTGTCGGTGC -AACCCATGCGCCGTTATCGAAGCCATCGCCTTTCAGTACATCGCCGCCGCACAGTACGCGCGCGCCTTCCTCTTT -GCCTTTGGCGATATAGCGCAGCACGTTATCGCGATGCGGGAAGCTGACCAGCGGGCCGAAGTTAGTTTGCGGATC -GAAAACGTCGCCCGCGCGAATGCGCTCAACGCGCGCCAGAATTTTCTGCTCAAATGCGGCTTTGCATTTCGCCGG -AACGAAGACGCGGGTGCCATTGGTACACACCTGACCGGAGCTGAAGAAGTTTGCCATCATGGCGATATCGGCGGC -GAGATCGAGATCCGCATCATCGAAAACGATCAGCGGTGATTTACCGCCCAGTTCCATGGTCACTTCTTTCAGGGA -AGAGGCCGCCGAGTTAGCCATCACTTTTTTGCCGCTGGCGACACCGCCGGTAAATGACACTTTGGCAATGCCCGG -ATGCTCGGTCAGATATTGCCCGGTCTCCGCGCCCACGCCCGGCAACACGTTAAATACGCCGTCCGGCAGGCCCGC -TTCGCTGTAAATTTCAGCCAGCTTTAACGCGGTAAGCGGGGTAACTTCGCTCGGTTTGAAAATCATTGCGTTGCC -TGCCGCCAGCGCCGGGGCGGATTTCCACAGGGCAATCTGGATCGGGTAGTTCCATGCGCCAATCCCTGCCACTAC -GCCCAGCGGTTCGCGGCGGGTATACACAAAGGACGTTTCACGCAACGGGATCTGGCTGCCTTCCAGCGCCGGGAT -CAGCCCGGCGTAGTACTCCAGCACGTCCGCACCGGTAACGATATCGACGGTTGAGGTTTCCGAATATGCTTTTCC -GGTGTCGAGGGTTTCCAGTTTTGCGAGTTCGTCATTGCGTTCACGCAGAATATCAACGGCCCGACGCAGAATACG -CGAGCGCTCCATGGCGGTCATCGACGCCCAGATTTTTTGCCCCTGCTGGGCGCTTTTCACGGCGCGATCGACATC -CTCGCGCCCGGCGGCCTGCACGGTCGCCAGCACGTTACCGTTGGCCGGGTTAATGGTCTCGAAGGTGCGACCGCT -GGTGGCGGAGGTATAACCACCATGTATATAAAGCTGCTGTTCTGCCATTCGGGACATCACGTCTCCTCGGTTAAT -CGGTGGGTAGATGCTGAGTGATAAAGTGGCGGGTCAGGGAATTAGCGCGGGTTTTATCCAGCGGTTTGCCGCTCA -GAGCCGCGCGCAGCCATAATCCATCAATCAGCGCGGCCAGGCCGTAGCCCGCTTCCTGTGCCTGTTCGCGCGGCA -ATTCGCGACGAAACTCGCTCACCAGATTCGACAGCAAGCGGCGGCTGCTGACCTGCTGTAAACGATAGAGCATCG -GCTGATGCATACTGCTGGCCCAGAACGCCAGCCAGGCTTTCATCGCCGCACTGCTCACCTGCGTTTCATCGAAGT -TTCCGCCAACAATCGCCTGTAATCGCTGCTCTGCACTGCCCTGCGGAAGTGCATGTAATCGATTCAAAACCGCGT -CACGCAGCTGACTGGTGATATCGCGCATGGTTGCTTCCAGCAGACCATTTTTGTCCCTGAAATAGTGGCTGATGA -TCCCCGTAGAAACGCCTGCACGGCGGGCGATCTGCGCGATCGTTGCATCGTGCATGCCCACTTCATTTATTGCTT -CCAGTGTGGCGTCGATCAGTTGTCTGCGCCGGATCGACTGCATCCCCAATTTGGGCATTTTCGCCACTCCATTCA -TCAGCGGTGTTTATCTATTAAAGCGGTTATTGATTGGACGTTCAATATAAAATGTGTCTTAATTGTTACGAATTT -GATTTTAAATAGTAACAATAACAGTGGGGATACTGGATGACAGACCTTTCACACAGCAGGGAAAAGGACAAAATC -AATCCGGTGGTGTTTTACACCTCCGCCGGACTGATTTTGTTGTTTTCCCTGACAACGATCCTGTTTCGCGACTTC -TCGGCCCTGTGGATTGGCCGCACGCTGGACTGGGTTTCTAAAACCTTCGGTTGGTACTATCTGCTGGCGGCAACG -CTCTATATTGTCTTTGTGGTCTGTATCGCTTGTTCGCGTTTTGGTTCGGTGAAGCTCGGGCCAGAACAATCCAAA -CCGGAATTCAGCCTGCTGAGTTGGGCGGCGATGCTGTTTGCTGCCGGGATCGGTATCGACCTGATGTTCTTCTCC -GTAGCCGAACCGGTAACGCAGTATATGCAGCCGCCGGAAGGCGCGGGACAGACGATTGAGGCCGCGCGTCAGGCG -ATGGTCTGGACGCTGTTTCACTACGGCTTAACCGGCTGGTCGATGTATGCGCTGATGGGCATGGCGCTCGGATAC -TTTAGCTATCGTTATAATTTGCCGCTCACCATCCGCTCGGCGCTGTACCCGATCTTCGGTAAACGGATTAACGGG -CCGATAGGTCACTCAGTGGATATTGCAGCGGTGATCGGCACTATCTTCGGTATTGCCACTACGCTCGGTATCGGT -GTGGTGCAGCTTAACTATGGCTTGAGCGTACTGTTTGATATTCCCGATTCGATGGCGGCGAAAGCGGCACTGATC -GCCTTGTCGGTGATAATCGCCACGATCTCTGTCACCTCCGGTGTCGATAAGGGCATTCGCGTGTTATCGGAGCTT -AATGTCGCGCTGGCGCTGGGATTGATCCTGTTCGTATTGTTTATGGGCGACACTTCGTTCCTGCTTAATGCACTG -GTGCTGAATGTTGGCGACTATGTGAATCGCTTTATGGGCATGACGCTCAACAGTTTTGCCTTCGACCGTCCGGTT -GAGTGGATGAATAACTGGACGCTCTTCTTCTGGGCATGGTGGGTGGCATGGTCGCCGTTTGTCGGCTTGTTCCTG -GCGCGTATCTCGCGTGGGCGTACCATTCGCCAGTTCGTGCTGGGCACGTTGATTATTCCGTTTACCTTCACGCTG -TTATGGCTCTCGGTGTTCGGCAATAGCGCGCTGTATGAAATCATCCACGGCGGCGCGGCATTTGCCGAGGAAGCG -ATGGTCCATCCGGAGCGCGGCTTCTACAGCCTGCTGGCGCAGTATCCGGCGTTTACCTTTAGCGCCTCCGTCGCC -ACCATTACTGGCCTGCTGTTTTATGTGACCTCGGCGGACTCCGGGGCGCTGGTGCTGGGGAATTTCACCTCGCAG -CTTAAAGATATCAACAGCGACGCCCCCGGCTGGCTGCGCGTCTTCTGGTCGGTGGCGATTGGCCTGCTGACGCTC -GGCATGCTGATGACTAACGGGATATCCGCGCTGCAAAACACCACGGTGATTATGGGGCTGCCGTTCAGCTTTGTG -ATCTTCTTCGTGATGGCGGGGTTGTATAAATCTCTGAAGGTAGAAGATTACCGCCGTGAAAGTGCCAACCGCGAT -ACCGCACCGCGACCGCTGGGGCTTCAGGATCGCCTGAGCTGGAAAAAACGTCTCTCGCGCCTGATGAATTATCCG -GGCACGCGTTACACTAAACAGATGATGGAGACGGTCTGTTACCCGGCAATGGAAGAAGTGGCGCAGGAGTTGCGG -TTGCGCGGCGCGTACGTGGAGCTAAAAAGCCTGCCACCGGAAGAGGGACAGCAGTTGGGTCATCTGGATTTGTTG -GTGCATATGGGCGAAGAGCAAAACTTTGTCTATCAGATTTGGCCGCAGCAATATTCGGTGCCGGGCTTTACCTAC -CGCGCACGCAGCGGTAAATCGACCTACTACCGGCTGGAAACCTTCCTGTTAGAAGGCAGCCAGGGCAACGACCTG -ATGGACTACAGCAAAGAGCAGGTGATCACCGATATTCTTGACCAGTACGAGCGGCACCTTAACTTTATTCATCTC -CATCGTGAAGCGCCGGGCCATAGCGTGATGTTCCCGGACGCGTGATTGTTATTGCATAAAACCGCGCCATGTCTG -CATATGGCGCTGTTTCTCCTACCTCTTGATACGTTATATCTATACGGTTAAGCCCTTAGTATCTATTGATGATTA -CCAGACAACAGATAATAAAAAAGAAAAGAACTATTGCAGCCCAAAACCTACATTTGGGCTGTTGCGAATGTTCAA -TAAGTTTAGTCTTATTTAATGTAAATATTGCTGATCATTTGAAATGACGCATTATTCATGAGAAATGTGTATCGT -AAATCAACTGAAATTAACGCAACCATTTGTTATTTAAGGTTTAATTATCTGTGTGTGATATTTTATTGAATGTTT -TAAATATTGTTTTTATTGGCATTGCTATAATATTGGTTATCATTTGCTGAATGGATTCAGTCTTAATGAGTGGGT -TTTTAAGGGACAGGCATAGAGTAATGATACGTATGCATAACCAACATCTTTACTCATTATGTCATTGAATGTTGA -CGCTATGTGTTTATGAGGGAGAGGTATTTTCAGTTGATCTGGATTGTTAAATTCATATAATGCGCCTTTGCTCAT -GAATGGATGCCAGTATGTAGTGGGAAATTATAAATATTGAAATAGTCCAACTACTTCTTTATTACCAAAAATGAG -TATCTGAATTTTAATATTGCATTCTTGCGTGATTATCTCCTGAGTTTGACTTGTGATTACCTTTTTAAGGTATTT -AGCGTAACTGTTTTTGAGCGAGCATCAGAGGTAAAGATAATCTTCTTGATAGTGATGTGGGATGTTATACGTATG -GCATCGCTGATGTTTATGGTTACCCCTTATGTGTGCTCAGGAATCGACAGGTAATCACTCATACTGAACAGCGAT -AAAAGATAAAGGTGTGTTCATGAATTCATGTGATTTTCGTGTTTTTCTGCAAGAGTTCGGTACAACGGTTCATTT -GTCATTGCCTGGTAGCGTATCCGAGAAAGAACGACTGCTACTCAAGCTGCTGATGCAGGGAATGTCTGTAACAGA -AATATCACAGTACAGAAATCGCAGTGCAAAGACAATTTCACATCAAAAGAAACAGCTCTTTGAGAAACTGGGGAT -TCAGAGCGATATTACTTTCTGGCGCGATATTTTCTTTCAGTACAATCCGGAGATCATATCCGCCACGGGGAGTAA -TAGTCACAGATATATTAATGATAATCACTATCACCATATCGTCACGCCTGAAGCCATCAGTCTGGCGTTGGAAAA -CCACGAATTCAAACCGTGGATCCAACCGGTTTTCTGCGCGCAGACTGGCGTACTGACGGGCTGTGAGGTGCTTGT -CCGCTGGGAACATCCACAAACGGGAATTATCCCACCGGATCAGTTTATTCCTCTGGCGGAGTCATCCGGTCTTAT -TGTCATAATGACCCGCCAACTGATGAAACAGACTGCGGATATTCTGATGCCGGTAAAACATTTGCTGCCGGACAA -TTTCCATATTGGCATCAACGTCTCGGCGGGTTGTTTTTTGGCAGCGGGATTTGAAAAAGAGTGTCTGAACCTGGT -TAATAAATTAGGTAACGATAAAATCAAGCTGGTTCTCGAGCTAACGGAACGTAACCCTATTCCGGTAACGCCAGA -AGCCAGAGCGATATTTGACAGCCTTCATCAGCACAACATTACCTTTGCGCTGGATGACTTTGGTACGGGTTATGC -GACCTATCGTTACTTGCAGGCGTTCCCGGTCGATTTTATTAAGATCGATAAGTCATTTGTGCAAATGGCGAGTGT -CGACGAAATCTCCGGTCATATTGTGGACAATATTGTCGAACTAGCGCGTAAGCCTGGTCTGAGTATCGTGGCGGA -AGGGGTAGAAACCCAGGAGCAGGCGGATTTAATGATCGGTAAAGGCGTTCACTTTTTGCAGGGCTATTTGTACTC -TCCGCCAGTACCGGGTAATAAATTTATCTCTGAATGGGTAATGAAAGCAGGTGGTTGATGTAAACCGCTATTCAC -AGCGCATCGGGAGGTTGGCAGCGATTAATTCTCCCGATGCAGTAAATCCTGATAGATCCCCGTTAATATGCCATT -TGGCGCAAATTGTTTTTTAATCCACTGCGTCACCTGACCCGTAGCAGAATGCTGAGTCGCCAGTAACATGCGCGA -ATCCTGGCGCGGATTATGGATTTGTCGGGTAACCAGCAGGGATTGCGTCATCGCCTCACGGACCATGTAATCCGG -CAAAAAACCAATTCCTTCACCTAAAATCTGGCACTGACATTTGGTGTTGAAATCTGGCACCAGAATTGACTCCTG -CCCGTGCAGCAACCAGCCCACTTTTTTATTAATCGTATGCGCGGTGTCCTCCACCATAATATTAGGGTAGAGACG -CAGTTGGCTTTCGGCGATGGGTTCCGGCACAAAGGCTAACGGGTGATCCGGGGCGATAGCAAAAGCCCAGCGAAT -CGCGCCAATTTCAGTGTAATCAATACCGCCGCCGTCCAGTAGTGTATCGGGTGCGCCGATGGCGATATTGGCCTG -ATTATTAATAATCGCATCCCAGACGCCGTTATACACTTCGGTGGTGACGGTAATCTGGCAGGTAGGAAACTGCTT -TTTCAGCACCTGTAACAAGCGTGCGGTGTGTTTGGGCGTATAAAGCAGCTGATTAATACAAATGCGCACACGCGC -TTCTATGCCCTGCGAAATAGTATCGATTCTGCGTTTGATGGCATAAAAATCATTCAGCAGGTCGGTAGCTTTGCG -GAAAAAATAACGCCCGGACTCCGTTAACTCAATGCTGCGGGTACTGCGAGTGAACAGCACCACATCCAGCCCCGT -CTCCATACGCTTAATGGTGTAGCTAATGGCGGAAGTGGTTAAACCCAACTCTTCTGCGGCTTTACTGAAGCTGCC -AAAACGCGCAGCGGTAGTAAATGCCAACAGATTCTCTTCGGTAAAAATTGAGTTCATTAAACCATTCTCGCCATT -ATCTACTATGAATTTCTCCAGCTATGACTGTAGAGGTATCGGTTAAAGATAGATAATCATTTTTGAATAACTTTT -AATACCCGTCGCGTTTAGTCGTCGCTTCGCTTAATTTTTGTCCACCATATTCTGAAATTACCCCCACGCAGTTAC -CCGCCAGAAAACCCAGTAACGTCACCGTCCAGTTCATCCCGCTGGCAAAAAACAGCGTCATGCCGAGAAAGCCAC -CGGGAATAAAGGACAGTAACCAGAAACGCCCTTGCCAGACCACTACCGCCGAGAAGGGTACGGTAGTAATTACGC -TCGCCCAGAACGCGGACAGTCCACTTACAGAGGCCAGCCAACCAGCAGTCAGCGCGGCGAAAAACGCCCACACCA -TCCCGGAATAATTAACCGCCAGACTTCTGATAAACCCCGATTTACCGCCGCCTGCGGCATAAAAACTGCAAAAGG -CGACGAAGCCAATGGTTCCTAATAATTCCCATCCTTGAGAGAGCCCGACATGTGAAGACACTAACTGCCAAAGCC -CTGCACAAATACCGACGGTGACACCCGTTGCCGTGAGTCCGTTCATCTTGTTCCCCTCTGGTTAGACATGGACGA -AAGCTACTCTTACATGTGCAGACTATAGAGAAATAAAACCTGATTGAGTGAAAGGGTATCGGGTCAAAGAAACAA -ATATTGCACTACCGCACACTGCGAAAAGATTGTTGAATATTATTCAACAAAAAGGCGAGATACGGCGAATTAAAT -TTAAGCGGGTTCTTTTATCAGATTATCGTTGCTATTCTCAATTCATCGAAAACAGCCACAAAAACCAGGGGAATG -TGAATGAGTATAAAAAATCTACCTGCCGACTATTTATTGGCTGCACAACAGGGTGATATCGATAAAGTAAAAACC -TGCCTTGCGCTGGGTGTCGATATTAATACCTGCGATCGTCAGGGGAAAACGGCAATTACGCTGGCAAGTTTATAT -CAGCAATATGCTTGCGTTCAGGCATTAATTGATGCCGGAGCGGATATTAATAAGCAAGATCATACCTGTTTAAAT -CCTTTTTTAATTAGCTGTCTGAACGATGATTTAACGCTACTACGAATTATTTTACCGGCTAAACCCGATCTTAAT -TGCGTAACCCGTTTTGGCGGTGTCGGCCTGACGCCTGCCTGTGAAAAAGGCCATTTAAGTATTGTAAAAGAGCTT -TTGGCGCATACGGAGATTAACGTTAACCAGACCAACCATGTAGGCTGGACGCCGCTACTGGAAGCGATTGTGCTT -AATGATGGTGGTATTAAACAGCAGGCGATTGTGCAGTTATTGCTGGAACACGGTGCCAGCCCGCATCTGACCGAT -AAATATGGCAAAACGCCACTGGAACTGGCGCGGGAACGGGGCTTTGAAGAGATTGCGCAGTTACTGATTGCCGCA -GGTGCATAAACCGGGAGGCTTGCTATCAACACACCAGAAAGACGGTGTGTGTGGGCGCTAACTGCGGATGCGGAT -TTTCTGGCGCAGCGGGGGCAAGGACAGGTTGAACAGGTCTTTGCCAGAGCGGTAAATATCGCACTCCCGGCTCGC -CAGCAGTTGCTGACGCTGCTTTGTGAAGAGTACGACAATGCGCCAAACAGTTGTCGGTTGGCACTCACTCACTTT -GATGATCTGTTCCGGCATGGTGATAAGGTTCAGTTTGACGATCAAGGTATTACGGTTGGTCAACATCTTCATATA -GAGATGAGTCGTTGTCGGCGTTGGCTGTCCCCAACCTTGCAAATGACCGCTGTGAATTTTCACCTTATCGCCTGG -CTACAGTGGCACGACATTATTCATCAGCACCTGGGGGAAAATGAAACCCTGTTTAATTATCGCGGCGATAATCCG -TTTTATCAGGCGTTAAATAAAGAATTACATATTAAACGACGGGCAGTTATTCAGGCCGTAAACGATAAACAAAAT -ATCGCCTCAGCGGTCGCCAGTATGATGGGGTTAGGGATTGGCCTTACGCCATCAGCCGACGATTATTTAACAGGT -CTGGCGCTTATTTTATTTATTCCCGGGCATCCGGCGGAAAAATACAAAGAGGAATTTTATCTCGGTCTGCAACGC -GGCAAAAATAATACCACATTATTAAGTGCCATAACGCTGGAAGCCGCATTACAACAACGCTGCCGGGAAAATATT -CATCGTTTTATTCACAACATTATTTATGACATCCCTGGGAACGCAACTCAGGCAATAGAAAAAATTAAACATATT -GGCTCCAGTTCCGGCTGCGACATGCTGTATGGCATGGCCGATGGTTGTGCGCTGAGCCAAACCTACGGAGGGAAT -TATGTCAGTTAAAATAGTCATTAAACCGAATACCTATTTTGATTCTGTCTCGCTGATGTCTATCTCCACGCGTGC -AAATAAACTCGACGGCGTCGAGCAGGCATTTGTGGCGATGGCGACCGAAATGAATAAAGGCGTGCTGAAGAATTT -AGGACTGCTGACGCCGGAGCTGGAGCAGGCGAAAAACGGCGACCTGATGATTGTCATCAATGGTAAATCGGGTGC -GGACAACGAGCAGTTACTGGTGGAGATTGAAGAACTGTTCAACACCAAAGCGCAAAGCGGCTCGCACGAGGCGCG -TTACGCCACTATTGGCAGCGCCAAAAAGCATATCCCGGAAAGTAACCTGGCGGTGATTTCGGTCAACGGTCTGTT -TGCCGCTCGCGAAGCGCGTCAGGCGCTGCAAAACGATCTCAACGTGATGCTGTTTTCCGATAACGTCTCAGTTGA -AGATGAACTGGCGCTCAAGCAACTGGCCCACGAAAAAGGGCTGCTGATGATGGGGCCAGACTGTGGCACGGCGAT -TATCAACGGCGCGGCGCTCTGTTTTGGTAACGCCGTGCGTCGCGGCAACATCGGTATTGTTGGCGCATCCGGCAC -CGGCAGTCAGGAGTTGAGCGTCCGCATTCATGAATTTGGCGGCGGCGTTTCGCAACTGATTGGCACCGGCGGGCG -CGACCTGAGCGAGAAAATCGGCGGCCTGATGATGCTCGACGCCATCGGGATGCTGGAAAACGATCCGCAAACTGA -AATCATTGCGCTTATCTCCAAACCGCCTGCGCCTGCGGTGGCCCGCAAAGTGCTGGAACGTGCGCGCGCCTGCCG -CAAGCCGGTGGTCGTCTGCTTCCTCGATCGTGGCGAAACGCCAGTGGATGAGCAGGGGCTACAGTTTGCCCGCGG -CACCAAAGAGGCAGCGCTAAAAGCGGTGATGCTCTCCGGCGTGAAACAGGAAAATCTCGACCTGCATACGCTTAA -CCAGCCGTTGATTGCGGATGTGCGTGCGCGTCTGCAACCGCAGCAGAAATACATTCGTGGCCTGTTCTGCGGCGG -CACGCTGTGCGACGAAACCATGTTCGCGGTGATGGAAAAACATGGCGATGTCTACAGCAACATTCAGCCCGATCC -GGAATTCCGCCTGAAAGATATCAACCGCAGCATCAAACACACCTTCCTCGACTTTGGCGATGACGACTTCACCAA -TGGCAAGCCGCACCCGATGATTGACCCCACCAACCGCATCAGTCGCTTGATCGAAGAGGCGCGCGATCCAGAAGT -GGCGGTGATCGTGATGGATTTTGTGCTCGGATTTGGATCGCATGAAGATCCGGTCGGCTCCACCATCGAGACGAT -CAAAGAAGCGAAAGCGATCGCCGCTGCCGAAGGACGCGAGTTGATCATTCTCGCCTATGTGCTGGGTACCGATCT -TGATACGCCATCGTTAGAACAACAAAGCCAGATGCTGCTTGATGCCGGAGTGATTCTGGCGAGCAGCAGCACCAA -TACCGGATTGCTGGCGCGTGAATTTATCTGCAAAGGGGAGGAAGCCTGATGAGCCAGTCACTGTTTAGCCAACCA -TTGAACGTTATTAACGTCGGCATCGCCATGTTTAGCGATGACCTGAAAAAGCAGCATGTAGAAGTGACTCAACTC -GACTGGACGCCGCCGGGGCAGGGCAATATGCAGGTGGTGCAGGCGCTGGATAACATTGCCGATTCGCCGCTGGCG -GACAAAATCGCCGCCGCTAACCAGCAGGCGCTGGAGCGTATTATCCAGTCGCATCCGGTGCTGATTGGTTTTGAT -CAGGCGATTAACGTGGTGCCGGGCATGACGGCGAAAACCATTCTTCACGCCGGGCCGCCGATCACCTGGGAAAAA -ATGTGCGGCGCGATGAAAGGCGCGGTCACCGGAGCGCTGGTGTTCGAAGGACTGGCGAAAGATCTCGACGAGGCG -GCTGAACTGGCGGCTTCCGGGGAGATCACCTTCTCGCCGTGTCACGAGCACGACTGCGTGGGATCGATGGCGGGT -GTTACCTCGGCCTCGATGTTTATGCACATCGTAAAAAACAAAACCTACGGCAACATCGCTTATACCAACATGAGC -GAGCAGATGGCGAAGATTTTGCGTATGGGCGCTAACGACCAGAGCGTGATTGACCGCCTGAACTGGATGCGTGAT -GTGCAGGGACCAATACTGCGCGACGCGATGAAAATTATCGGCGAAATCGATCTGCGCTTAATGCTGGCGCAGGCG -CTGCATATGGGCGATGAGTGCCATAACCGCAATAACGCCGGGACGACACTGCTGATTCAGGCGCTGACGCCGGGG -ATTATTCAGGCGGGTTATTCCGTCGAGCAACAGCGCGAAGTGTTTGAGTTTGTCGCCAGCAGCGACTACTTCTCC -GGCCCGACGTGGATGGCGATGTGTAAAGCGGCGATGGATGCGGCGCATGGCATCGAATACAGCACCGTGGTCACC -ACCATGGCGCGTAACGGCGTCGAGTTCGGCCTGCGGGTCAGCGGCCTGCCGGGGCAATGGTTTACCGGCCCGGCG -CAGCAGGTGATCGGCCCGATGTTTGCCGGTTATAAGCCGGAAGATTCGGGGCTGGATATCGGCGACAGCGCCATC -ACCGAAACCTACGGTATTGGCGGATTTGCTATGGCGACCGCGCCCGCTATCGTCGCGCTGGTGGGCGGCACGGTG -GAAGAAGCTATTGATTTCTCCCGTCAGATGCGCGAAATCACCCTCGGTGAAAACCCCAACGTCACCATTCCGCTG -CTCGGTTTTATGGGCGTGCCGTCGGCAATCGACATCACCCGCGTGGGTAGCAGCGGCATTCTGCCGGTGATCAAC -ACCGCCATCGCCCATAAAGATGCGGGCGTCGGCATGATTGGCGCGGGCATTGTGCATCCACCTTTTGCCTGCTTC -GAGAAAGCCATTCTTGGCTGGTGCGAACGTTACGGCGTCTGACCTACATGTTCATGCCGGATGCGGCGTGAACGC -CTTATCCGGCCTACGAATGGCGCAAGAATCTGTAGGCCTGATAAGCGTAGCGCATCAGGCATTTGTCACCATTGC -CGGATGCGGCGTGAACGCCTTATCCGGCCTACGAATGGCGCAAGAATCTGTAGGCCTGATAAGCGTAGCGCATCA -GGCATTTGCCACCACTGCCGGATGCGGCGTGGACGCCTTATCCGGCCTACGAGTGGCGCGAGAATCTGTAGGCCT -GATAAGCGTAGCGCATCAGGCATTTGTCACCATTGCCGGATGCGGCGTGAACGCCTTATCCGGCCTACGAGTGGC -GCGAGAATTGTAGGCCTGATAAGCGTAGCGCATCAGGCAGTCTGGCGTTGGTCATAACCCCATCACCCTCTGTAG -CGGACATAACAACATGAAAGAGCTTGTGGTCGTTGCCATTGGTGGCAACAGCATTATCAAAGATAACGCCAGCCA -GTCGATTGAGCATCAGGCGGAGGCGGTGAAAGCCGTCGCCGATACGGTGCTGGAAATGCTGGCTTCCGATTACGA -CATTGTGCTGACCCACGGCAACGGGCCGCAGGTCGGGCTGGATTTACGCCGTGCGGAGATTGCCCACAAGCGCGA -AGGGCTGCCCTTAACGCCGCTGGCGAACTGTGTGGCAGATACGCAGGGCGGCATCGGCTATCTGATCCAACAGGC -GCTGAATAACCGGCTGGCGCGTCACGGCGAGAAGAAAGCCGTCACCGTGGTGACTCAGGTGGAAGTGGATAAAAA -CGATCCAGGTTTTGCCCATCCCACCAAGCCCATCGGCGCATTCTTTAGTGACAGCCAGCGTGACGAATTACAAAA -GGCAAACCCTGACTGGTGTTTTGTTGAAGATGCCGGGCGGGGCTATCGCCGCGTGGTCGCCTCGCCGGAACCGAA -ACGTATTGTCGAAGCACCTGCCATTAAAGCGCTGATCCAACAAGGTTTTGTCGTAATTGGCGCGGGCGGCGGTGG -AATTCCGGTAGTGCGTACTGACGCGGGAGATTACCAAAGCGTGGACGCGGTTATCGACAAAGATCTCTCTACCGC -GCTGCTGGCCCGTGAAATTCACGCCGACATTCTTGTGATCACCACTGGCGTCGAAAAAGTGTGTATTCACTTTGG -CAAACCGCAGCAGCAGGCGCTCGATCGGGTGGATATTGCCACCATGACCCGCTATATGCAGGAAGGGCATTTCCC -GCCCGGCAGCATGTTGCCAAAAATCATCGCCAGCCTGACATTTTTAGAACAAGGCGGCAAAGAAGTGATTATCAC -CACGCCGGAATGCCTGCCTGCGGCGCTGCGCGGCGAAACGGGCACTCATATTATTAAAACGTAAGGACGTAAGAT -GAAAGAAAGCAATAGCCGCCGTGAATTTCTGAGCCAGAGCGGTAAGATGGTCACCGCCGCCGCGCTGTTTGGTAC -CTCTGTGCCGCTCGCCCATGCGGCGGTAGCTGGCACCCTAAACTGCGAAGCGAACAACACCATGAAAATCACTGA -CCCGCATTACTATCTCGATAACGTGCTGCTGGAAACCGGTTTTGACTACGAAAATGGCGTGGCGGTGCAGACCCG -CACGGCGCGCCAGACCGTGGAGATTCAGGACGGCAAAATTGTCGCCCTGCGCGAGAACAAGCTGCATCCGGACGC -CACGCTGCCGCACTATGACGCTGGCGGTAAGCTGATGCTGCCCACCACCCGCGACATGCATATTCATCTCGACAA -AACCTTTTACGGCGGGCCGTGGCGCTCGCTCAATCGTCCGGCAGGCACCACCATCCAGGACATGATCAAACTCGA -GCAGAAAATGCTGCCGGAACTGCAACCGTACACTCAGGAGCGGGCAGAAAAACTGATTGATTTATTGCAGTCGAA -AGGCACCACCATTGCCCGCAGCCACTGCAATATCGAACCGGTTTCCGGCCTGAAAAATCTGCAAAATTTGCAGGC -GGTGCTGGCGCGACGTCAGGCGGGCTTTGAGTGTGAAATCGTCGCCTTCCCGCAGCACGGTTTGCTGCTGTCGAA -ATCTGAACCTTTAATGCGTGAAGCGATGCAGGCGGGGGCGCATTACGTCGGCGGCCTGGACCCGACCAGTGTTGA -TGGCGCGATGGAAAAATCCCTCGACACCATGTTCCAGATTGCGCTGGACTACGACAAAGGCGTCGATATTCACCT -GCACGAAACCACTCCGGCAGGCGTGGCAGCCATCAATTATATGGTTGAAACGGTAGAGAAAACGCCACAGCTGAA -GGGCAAGCTGACCATCAGTCACGCCTTTGCGCTGGCAACGCTCAACGAGCAACAGGTAGATGAACTGGCGAACCG -GATGGTGGTGCAACAAATTTCTATCGCCTCGACGGTGCCGATTGGCACGCTGCATATGCCGCTCAAACAGTTGCA -CGACAAAGGCGTAAAAGTGATGACTGGCACTGACAGCGTTATCGACCACTGGTCGCCTTATGGTCTGGGCGACAT -GCTGGAAAAAGCCAATCTGTACGCGCAGCTCTATATTCGTCCTAACGAACAGAACCTCTCCCGCTCGCTGTTTTT -AGCCACTGGCGATGTATTGCCGCTGAATGAAAAAGGCGAGCGTGTATGGCCAAAAGCGCAGGATGACGCCAGCTT -TGTGCTGGTGGACGCCTCCTGTTCCGCCGAGGCGGTGGCGCGTATCTCGCCGAGAACCGCAACGTTCCATAAAGG -GCAACTGGTGTGGGGGAGTGTGGCAGGTTGATGCGCATTTGAAACGCCTGCAACGGTGAATAGTAAGAGATTTAA -GCCCCAGGGAGTGGGGCAATCTGAATATGAGTGTGTCGGCAGAAATGGACATTATCTTTGAGGAATATGCCCTTA -TTGACGTTGTGTAGATAACTATTTGTCTACGTGAAAAGATCATCAGTTTTGCCGATTTTAGTCTTTTACAGATAG -CAAATATCACACTTACAGGCGCTCGCCTTATGGGGAACGTTGCTGCTCTGTTTCATTCAGGCTCGCGGCATGTTG -GGGCTGGATCGGGTGGTTTAAATATTGGCTATATTCAATGGACGCGTTTTGCCGCGATGACATATCAGGCGTTGC -CAAATACACATAGCTAATCAGGAGTAAACACAATGAAGATCAAAGCTGTTGGTGCATATTCCGCTAAACAACCAC -TTGAACCGATGGATATCACCCGGCGTGAACCGGGACCGAATGATGTCAAAATCGAAATCGCTTACTGTGGCGTTT -GCCATTCCGATCTCCACCAGGTCCGTTCCGAGTGGGCGGGGACGGTTTACCCCTGCGTGCCGGGTCATGAAATTG -TGGGGCGTGTGGTAGCCGTTGGTGATCAGGTAGAAAAATATGCGCCGGGCGATCTGGTCGGTGTCGGCTGCATTG -TCGACAGTTGTAAACATTGCGAAGAGTGTGAAGACGGGTTGGAAAACTACTGTGATCACATGACCGGCACCTATA -ACTCGCCGACGCCGGACGAACCGGGCCATACTCTGGGCGGCTACTCACAACAGATCGTCGTTCATGAGCGATATG -TTCTGCGTATTCGTCACCCGCAAGAGCAGCTGGCGGCGGTGGCTCCTTTGTTGTGTGCAGGGATCACCACGTATT -CGCCGCTACGTCACTGGCAGGCCGGGCCGGGTAAAAAAGTGGGCGTGGTCGGCATCGGCGGTCTGGGACATATGG -GGATTAAGCTGGCCCACGCGATGGGGGCACATGTGGTGGCATTTACCACTTCTGAGGCAAAACGCGAAGCGGCAA -AAGCCCTGGGGGCCGATGAAGTTGTTAACTCACGCAATGCCGATGAGATGGCGGCTCATCTGAAGAGTTTCGATT -TCATTTTGAATACAGTAGCTGCGCCACATAATCTCGACGATTTTACCACCTTGCTGAAGCGTGATGGCACCATGA -CGCTGGTTGGTGCGCCTGCGACACCGCATAAATCGCCGGAAGTTTTCAACCTGATCATGAAACGCCGTGCGATAG -CCGGTTCTATGATTGGCGGCATTCCAGAAACTCAGGAGATGCTCGATTTTTGCGCCGAACATGGCATCGTGGCTG -ATATAGAGATGATTCGGGCCGATCAAATTAATGAAGCCTATGAGCGAATGCTGCGCGGTGATGTGAAATATCGTT -TTGTTATCGATAATCGCACACTAACAGACTGAAAAAATTAATAAATACCCTGTGGTTTAACATATTAACTTCGCT -CTCCACTTAACTTTTTAGTTAAGGAGAGCGAAATAATATCAAAGTAGCAGTAAAACCTATAACGTAAATTTAAAT -TGTTAAATTAACGCCCTCCAGTACACAATACTTCACACGTTAGTTATGAGCGATTTCTGATAGTGCCTGGTTTAA -TCAGAGCTTTATTATCTGCGACGTTTATTTTTATTTAAGAGAGATCGCGATGATATCATTAAAAGCTCCGCACAA -TAATTTGATGCCATATACGCAACAAAGCATACTTAATACGGTTAAAAACAATCAGTTACCAGAGGATATCAAAAG -CTCCCTGGTTTCCTGTGTCGATATATTCAAGGTTTTGATTAAACAATATTATGATTATCCTTATGATTGTCGTGA -TGATTTAGTCGATGACGACAAACTCATTCATCTCATGGCTGCCGTACGAGACTGTGAGTGGTCAGACGATAACGC -ACTCACCATAAATGTGCAGTTTAATGATTTCCCTGGATTTTATGACTGGATGGATTACCCTGATCACCCGGTTAA -GTTTGTTTTTCACATACTTGAAAATCAAAAAGGGACAGTTTGGGTATATGACCAGGATGATGCGTTTCTTGATAT -TAAAGCAAACGTGCAGGCTGGACGCTTTACCGGGCTTAAGAAATTAGTGCAGTTTATCGATTCAGTGCGAACAGA -TTGCAAATGTATTCTTCTTGAATACCATATGCCTTTGCTGAGAATTTTCCCTAAAGGGAAAGAGTGTATGCATGT -GGAAAAATGGCTTCGCGAAATGTCGTCTATTCCGGAGACAGACGCGCCCATTAAGCAGGCGCTTGCGCATGGATT -ATTATTACACTTAAAAAATATCTACCCTGTTTTTCCTGAATCACTGGTGATGTTATTGCTCTCTGTTCTGGACGT -AAAAACATACAGAGATGATGCGCGATTAAATGAATGGATATCTAATAGAGTGCAGGAATTAGGTGACAGATATTA -TCCTGTAAATAAGCACGTTAAAATCCGCTACACTCTTTAGTTCAGAAAGGGTTCCACCTGCAAGTTGTTATTCCA -CCTGAGAGTGAATCGCAATGCAGGTAATCATTTCATCTGTATATCTGTATGCCAACTGGCATTCCATCTCTTTTT -TCGCCGATATTTTGTTGTGATCGGCGACACTTCGCTTAAAAAAGCACCAGTAGTGGTTTCGCAGCCATGCGGTGT -ATAAAAAATGATCTCATGCAGATGTTTTGTGAATGTGTTGGTTGACATTCATATGAAAAAAATCATAATTCCATC -ATGTTTGTGTGGGGTCTTTTCTGTATCTTACGCATCGCACTCAAGCCTGACAGAAAATATGCTGTAAGGCTCATA -TCAAAAACCGCCATTAGCTCATCAGGAAGAGCAGACGACAACCAGGATTGTTGTATGGTACGGGGTTCGAGGCCT -CGATGGCGGTCCAACTTTTCAAAACTCTTCTGAATCAGATCCCCTTATTATCATCCCTGCAAAGTGGAACATTGC -CATTGTTTGGCTATTCAGGATGGGGCAGACCAATGAAAAAAGCCCACACAGGGGAGAGTGGGCTGAAATGGGAAG -CTAAAGACTCAAGTAAACTTATCGGAAATAAGGACCACGCATTACGGGGGCTATCATCGCCGATGGCCGTGATTC -GGCAAATCAGGTTGATTACGTAGAGAGTAAATTATCTGCTCACCGCTGCGTCACCCCTTCGTAAATCAGGCGTAG -CGCGAATACACCAATAATTGCACCAATAACCCGACTGGCAACGCGTTGCATACGCCCATAAGCACGACGCACAGC -GGGCAAAGAAAACGCCTGACTAAGAAAAACTCGCCAGATAATTGATGCGAGCACAATCCCCGCCCAGGCCATTAA -ACGTGCCCATGTTGGTGTTTCGGCATTTAATGTTACTGAGAAAATACTGATAAAAAATAAAACGGTTTGCGGGTT -AGAGAGATCGGTAATTAATCCGCGGCGAAAAAAGACATACCAGGGGGCGCTAATCGGTTGTTGTAGTGTGCTCAT -TTGCGGTGTTGACTGGCGGCGCATGCTGCACCACGCAAACCATAAGAGATAAGCGCCGCCGACGATTCTGATAAG -CGAAAAAATCTCCTCACACTGCGTAATTAGCGTTGCAAGACCAAACAAACCCAACCCGGAATAAAATGCATCGCC -CAGCGCCACGCCCAGCCCGGTCAGCACCCCTGCGCGTCGACCGGAAGCCAGGCTGGTTTGTACTACCACAAAGAG -ATTGGCTCCCGGATTAAAAAAAGTAATCACGAACAGTCCTACGGTCAGGTAAACGGCATGCAAAGGATCCATAGT -GATTTCATCCATAAATAAGTGAACTAACTGCATCATATTTCTACCAAAAATAATCGGGTGCGAGAGAGATCACAA -AGTGTCTTATTTCCGGTTACTGGCGTTTATGCCCTGACTGAACTAATTATTAATCAACCCAATAATGTGGGTGGG -TGATAGTGTGATAACAACTCTGGAGCCGTAATATGAAAATAATCTCTAAAATGTTAGTCGGTGCGTTAGCGTTAG -CCGTTACCAATGTCTATGCCGCTGAATTGATGACCAAAGCGGAATTTGAAAAAGTTGAATCGCAGTATGAAAAAA -TAGGTGATATTTCAACCAGCAATGAAATGTCGACTGCAGATGCAAAAGAAGATTTGATCAAAAAAGCGGATGAAA -AAGGGGCTGATGTGTTGGTACTGACCTCCGGTCAAACTGACAATAAGATCCACGGCACGGCAAATATTTATAAGA -AGAAGTAATTCTGAATCCTATGTAAACATCTCCGATGCGTAAGTTTATCGGTGATCATCTATTGAAATTTATGCC -GGATAAAGCGTTCGCGCTGCATTCGGCAGTTCAGCTTTTCAGCCGCCGCCAGAACGTCGTCCGGCTGATGCCTAA -ATAATTCGCCGCTGCTGTTTTATCGCCATTAAATTTCTCCAGTGCCTGTTGTGGTGTCAGTAAGCGTGGAGCGGG -AGTTTTCGCCGACTCGCGCGCCAGTTCCGGCAGTAGCAGTTGCATAAACTGCGGCGTTAAATCCGGCGTCGGTTC -CACACTTAAAAACAGCGCCAGTCGTTCCATCATATTGCGCAGTTCACGAATATTGCCTGGCCAGTCGTAGTGCAG -CAGCACAGTTTCACTTGCCTGTAACCCCTGGCGTAATGCAGCAGAAAATGGGGCGGAGAGCGCCGCCAGAGACAC -TTTCAAAAAGCTTTCCGCCAGCGGAAGAATATCCGCCACCCGCTCGCGCAGTGGTGGCAATTGCAGACGCAAAAT -ACTCAGCCGATAAAACAGATCACGGCGAAAACGTCCTTGCTGCATATCTTCTTCCAGATTGCAGTGAGTGGCGCT -AATGACCCGTACATCTACCGGAACAGGCTGATGCCCGCCGACGCGGGTGACCTCTTTTTCTTCCAGCACCCGCAG -CAGCCGGGTCTGCAAAGGTAGCGGCATTTCGCCAATCTCATCCAGAAACAGCGTACCGCCGTGGGCAATTTCGAA -CAGCCCGGCGCGACCTCCGCGTCGCGAGCCGGTAAACGCCCCTTCCTCATAGCCAAACAGTTCTGCTTCCAGCAG -CGATTCGGCAATCGCCCCGCAGTTGACGGCAACAAACGGATGCGACTTTTTGCCCTGTCGCGCATCGTGGCGGGC -AAAATATTCCCGATGAATCGCCTGGGCCGCCAGCTCTTTGCCCGTCCCCGTTTCCCCCTCAATCAACACCGCCGC -ACTGGAGCGGGCATACAGCAAAATAGTCTGCCGTACTTGTTCCATCTGTGGTGATTGACCGAGCATATCGCCCAG -CACGTAACGAGTACGCAGGGCGTTGCGGGTGGCATCGTGAGTGTTATGGCGTAACGACATGCGCGTCATATCCAG -CGCATCGCTGAACGCCTGGCGCACGGTGGCGGCGGAATAGATAAAAATTCCGGTCATTCCGGCTTCTTCTGCCAA -ATCGGTAATCAGCCCTGCGCCGACCACCGCTTCGGTGCCGTTAGCTTTTAGCTCGTTAATCTGCCCGCGTGCGTC -TTCCTCGGTAATGTAGCTACGTTGGTCGAGGCGCAAATTAAAGGTTTTTTGAAACGCCACCAGCGCTGGAATGGT -TTCCTGATAGGTGACAACGCCGATAGAAGAGGTGAGTTTTCCGGCTTTTGCCAGTGCCTGTAACACATCGTAGCC -GCTCGGTTTAATCAAAATAACTGGCACTGACAGGCGGCTTTTCAGGTACGCGCCGTTAGAGCCAGCCGCGATGAT -GGCGTCACAGCGTTCGTTTGCCAGTTTCTTGCGGATGTAGGTCACTGCTTTTTCAAAGCCAAGCTGAATAGGGGT -AATGTTCGCCAGGTGATCAAACTCGAGGCTGATATCGCGAAACAGCTCGAACAGGCGCGTTACAGATACCGTCCA -GATAACCGGTTTGTCGTCATTAAGCCGTGGTGGATGTGCCATAGCGCACCGCAAAGTTAAGAAACCGAATATTGG -GTTTAGTCTTGTTTCATAATTGTTGCAATGAAACGCGGTGAAACATTGCCTGAAACGTTAACTGAAACGCATATT -TGCGGATTAGTTCATGACTTTATCTCTAACAAATTGAAATTAAACATTTAATTTTATTAAGGCAATTGTGGCACA -CCCCTTGCTTTGTCTTTATCAACGCAAATAACAAGTTGATAACAAAGGATGGGCTATGTCTCTACACTCTCCAGG -TAAAGCGTTTCGCGCTGCACTGACTAAAGAAAATCCATTGCAGATTGTTGGCACCATCAACGCTAATCATGCGCT -GTTGGCGCAGCGTGCCGGATATCAGGCAATTTATCTTTCTGGCGGTGGCGTGGCGGCAGGTTCGCTGGGGCTGCC -CGATCTCGGTATTTCTACCCTTGATGATGTGCTGACCGACATTCGCCGTATCACCGACGTTTGTTCGCTGCCGCT -GCTGGTGGATGCGGATATCGGTTTTGGTTCTTCGGCCTTTAACGTGGCGCGCACCGTGAAATCGATGATTAAAGC -CGGTGCGGCAGGATTGCATATTGAAGATCAGGTTGGTGCGAAACGCTGCGGTCATCGTCCGAATAAAGCGATCGT -CTCGAAAGAAGAGATGGTGGATCGGATCCGCGCGGCGGTGGATGCGAAAACCGATCCTGATTTTGTGATCATGGC -GCGCACCGATGCTCTGGCGGTAGAGGGGCTGGATGCGGCGATCGAGCGTGCGCAGGCCTATGTTGAAGCGGGTGC -CGAGATGTTGTTCCCGGAGGCGATTACCGAACTCGCCATGTACCGCCAGTTTGCCGATGCGGTGCAGGTGCCGAT -CCTCGCCAACATCACCGAATTTGGTGCCACGCCGCTGTTTACCACCGACGAATTACGCAGCGCCCATGTCGCAAT -GGCGCTGTACCCACTTTCAGCGTTCCGCGCCATGAACCGCGCCGCTGAACATGTCTACAACGTCCTGCGCCAGGA -AGGCACGCAGAAAAGCGTCATCGACACCATGCAGACCCGCAACGAGCTGTACGAAAGCATCAACTACTACCAGTA -CGAAGAGAAGCTCGACAACCTGTTTGCCCGTAGCCAGGTGAAATAAAAAACGCCCGTTGATTGTATTCGACAGCC -GATGCCTGATGCGTCGCTGACGCGACTTATCAGGCCTACGAGGTGCACTGAACTGTAGGTCGGATAAGACGGATG -GCGTCGCATCCGACAACCGATGCCTGATGCGCCGCTGACGTGACTTATCAGGCCTACGGGGTGCACTGAACTGTA -GGTCGGATAAGACGCATAGCGTCGCATCCGACAACCGATGCCTGATGCGCCGCTGACGCGACTTATCAGGCCTAC -GGGGTGCACTGAACTGTAGGTCGGATAAGACGCATAGCGTCGCATCCGACAACCGATGCCTGATGCGCCGCTGAC -GCGACTTATCAGGCCTACGGGGTGAACTGAACTGTAGGTCGGATAAGACGCATAGCGTCGCATCCGACAACAATC -TCGACCCTACAAATGATAACAATGACGAGGACAACATGAGCGACACAACGATCCTGCAAAACAGTACCCATGTCA -TTAAACCGAAAAAATCTGTGGCACTTTCTGGCGTTCCGGCGGGCAATACGGCGCTCTGCACCGTGGGTAAAAGTG -GCAATGACCTGCATTACCGCGGCTACGATATTCTTGATCTGGCGAAACATTGCGAATTTGAAGAAGTGGCGCATC -TGCTGATCCACGGCAAACTGCCGACCCGTGACGAACTCGCCGCTTACAAAACGAAACTGAAAGCCCTGCGCGGTT -TACCGGCTAACGTGCGTACCGTGCTGGAAGCCTTACCGGCGGCGTCGCACCCGATGGATGTTATGCGCACCGGTG -TTTCCGCGCTCGGCTGCACGCTGCCAGAAAAAGAGGGGCATACCGTCTCTGGCGCGCGGGATATTGCCGACAAAC -TGCTGGCGTCGCTTAGCTCGATTCTCCTTTATTGGTATCACTACAGCCACAACGGCGAACGCATCCAACCGGAAA -CCGATGACGACTCCATCGGCGGTCACTTCCTGCATCTGCTGCACGGCGAAAAGCCATCGCAAAGCTGGGAAAAGG -CGATGCATATCTCGCTGGTGCTGTACGCCGAACACGAGTTTAACGCCTCCACCTTTACCAGTCGGGTGATTGCGG -GCACCGGCTCTGATATGTATTCCGCGATTATTGGCGCGATTGGCGCACTGCGCGGGCCAAAACACGGCGGGGCGA -ATGAAGTGTCGCTGGAGATCCAGCAACGCTACGAAACGCCGGACGAAGCCGAAGCAGATATCCGCAAGCGCGTGG -AAAACAAAGAAGTGGTCATTGGTTTTGGTCATCCGGTTTACACCATCGCTGACCCGCGCCACCAGGTGATTAAAC -GTGTGGCGAAGCAGCTCTCGCAGGAAGGCGGCTCGCTGAAGATGTACAACATCGCCGATCGCCTGGAAACGGTGA -TGTGGGAGAGCAAAAAGATGTTCCCCAATCTCGACTGGTTCTCTGCTGTTTCCTACAACATGATGGGCGTTCCCA -CCGAGATGTTCACACCACTGTTTGTTATCGCCCGCGTCACCGGCTGGGCGGCGCACATTATCGAACAACGTCAGG -ACAACAAAATTATCCGTCCTTCCGCCAATTATGTTGGACCGGAAGACCGCCCGTTTGTCGCGCTGGATAAGCGCC -AGTAAACCTCTACGAATAACAATAAGGAAACGTACCCAATGTCAGCTCAAATCAACAACATCCGCCCGGAATTTG -ATCGTGAAATCGTTGATATCGTCGATTACGTCATGAACTACGAAATCAGCTCTAAAGTGGCCTACGACACCGCAC -ATTACTGCCTGCTCGACACGCTCGGCTGCGGTCTGGAAGCTCTCGAATACCCGGCCTGTAAAAAACTGCTGGGGC -CAATTGTTCCCGGCACCGTCGTACCCAACGGCGTGCGCGTCCCCGGAACTCAGTTCCAGCTCGACCCCGTCCAGG -CGGCATTTAACATCGGCGCGATGATCCGCTGGCTCGATTTCAACGATACCTGGCTGGCGGCGGAGTGGGGCCATC -CTTCCGACAACCTCGGCGGCATTCTGGCAACGGCGGACTGGCTTTCGCGCAACGCGGTCGCCAGCGGCAAAGCGC -CGTTGACCATGAAACAGGTGCTGACCGCAATGATCAAAGCCCATGAAATTCAGGGCTGCATCGCGCTGGAAAACT -CCTTTAACCGCGTCGGCCTCGACCACGTTCTGTTAGTGAAAGTGGCTTCCACCGCCGTGGTCGCCGAAATGCTCG -GCCTGACCCGCGAGGAAATTCTCAACGCCGTTTCGCTGGCGTGGGTGGACGGTCAGTCGCTGCGCACCTATCGCC -ATGCGCCGAACACCGGCACGCGTAAATCCTGGGCGGCGGGCGATGCCACTTCCCGCGCGGTACGTCTGGCACTGA -TGGCGAAAACGGGCGAAATGGGTTACCCGTCAGCCCTGACTGCGCCGGTGTGGGGCTTCTACGACGTCTCCTTTA -AAGGTGAATCGTTCCGCTTCCAGCGCCCGTACGGTTCCTACGTTATGGAAAATGTGCTGTTCAAAATCTCCTTCC -CGGCGGAGTTCCACTCCCAGACGGCAGTTGAAGCAGCGATGACGCTCTATGAACAGATGCAGGCAGCAGGCAAAA -CGGCGGCGGATATCGAAAAAGTGACCATTCGCACCCACGAAGCCTGTATTCGCATCATCGACAAAAAAGGGCCGC -TCAATAACCCGGCAGACCGCGATCACTGCATTCAGTACATGGTGGCGATCCCGCTGCTATTCGGGCGCTTAACGG -CGGCAGATTACGAGGACAACGTTGCGCAAGATAAACGCATTGACGCCCTGCGCGAGAAGATCAATTGCTTTGAAG -ATCCGGCATTTACCGCTGACTACCACGACCCGGAAAAACGCGCCATCGCCAATGCCATTACCCTTGAGTTCACCG -ACGGCACACGATTTGAAGAAGTGGTGGTGGAGTACCCCATTGGTCATGCTCGCCGCCGTCAGGATGGTATTCCGA -AACTGGTCGATAAATTCAAAATCAATCTCGCGCGCCAGTTCCCGACTCGCCAACAGCAGCGCATTCTGGAGGTTT -CTCTCGACAGAGCTCGCCTGGAACAGATGCCGGTCAATGAGTATCTCGACCTGTACGTCATTTAAGTAAACGGCG -GTAAGGCGTAAGTTCAACAGGAGAGCATTATGTCTTTTAGCGAATTTTATCAGCGTTCGATTAACGAACCGGAGC -AGTTCTGGGCCGAGCAGGCCCGGCGTATTGACTGGCAGACGCCCTTTACGCAAACGCTCGATCACAGCAATCCGC -CGTTTGCCCGTTGGTTTTGTGAAGGCCGAACCAACTTGTGCCACAACGCCATCGACCGCTGGCTGGAGAAACAGC -CAGAGGCGCTGGCGCTGATTGCCGTCTCTTCGGAAACAGAAGAAGAGCGCACCTTTACCTTTCGTCAGCTGCATG -ACGAAGTGAACGCGGTGGCCTCAATGTTGCGTTCATTGGGTGTGCAGCGCGGCGATCGGGTGCTGGTGTATATGC -CGATGATTGCCGAAGCGCATATTACTCTGCTGGCCTGCGCGCGCATTGGCGCTATTCACTCGGTGGTGTTTGGTG -GATTTGCCTCGCACAGCGTGGCGGCGCGAATTGATGACGCTAAACCGGTGCTGATTGTCTCGGCTGATGCCGGAG -CGCGCGGTGGCAAAATCATTCCCTATAAAAAATTGCTCGACGATGCGATAAGTCAGGCGCAGCACCAGCCACGCC -ATGTTTTGCTGGTGGATCGCGGGCTGGCGAAAATGGCGCGCGTCAGCGGGCGGGATGTCGATTTCGCGTCGTTGC -GCCATCAACACATCGGCGCGCGGGTACCGGTGGCGTGGCTGGAATCCAACGAAACCTCCTGCATTCTCTACACTT -CCGGCACGACCGGCAAACCTAAAGGCGTGCAGCGTGACGTCGGCGGATATGCGGTGGCGCTGGCGACCTCGATGG -ACACCATTTTTGGCGGCAAAGCGGGCAGCGTGTTCTTTTGCGCATCGGATATCGGCTGGGTGGTGGGGCATTCGT -ATATCGTTTACGCGCCGCTGCTGGCGGGGATGGCGACTATCGTTTACGAAGGATTGCCGACCTGGCCGGACTGCG -GCGTGTGGTGGACAATCGTCGAGAAATATCAGGTTAGCCGGATGTTCTCAGCGCCGACCGCCATTCGCGTGCTGA -AAAAATTCCCTACCGCTGAAATTCGCAAACACGATCTCTCGTCGCTGGAAGTGCTCTATCTGGCTGGAGAACCGC -TGGACGAGCCGACCGCCAGTTGGGTGAGCAATACGCTGGATGTGCCGGTCATCGACAACTACTGGCAGACCGAAT -CCGGCTGGCCGATTATGGCGATTGCTCGCGGTCTGGACGACAGGCCGACGCGTCTGGGAAGCCCCGGTGTGCCGA -TGTATGGCTATAACGTGCAGTTGCTTAATGAAGTCACCGGCGAACCGTGTGGCGTCAACGAGAAAGGGATGCTGG -TGGTGGAAGGGCCGCTGCCGCCGGGGTGTATTCAGACCATCTGGGGCGACGACGGCCGCTTTGTGAAGACTTACT -GGTCGCTGTTTTCCCGCCCGGTGTACGCCACCTTTGACTGGGGCATCCGTGACGCTGACGGTTATCACTTTATTC -TCGGGCGCACTGACGATGTAATTAACGTTGCCGGGCATCGGCTGGGGACGCGCGAGATTGAAGAGAGTATCTCCA -GCCATCCGGGCGTTGCCGAAGTGGCGGTGGTTGGGGTGAAAGATGCGCTGAAAGGGCAGGTGGCGGTGGCGTTTG -TCATTCCGAAAGAGAGCGACAGTCTGGAAGATCGTGATGTGGCGCACTCGCAAGAGAAGGCGATTATGGCGCTGG -TGGACAGCCAGATTGGCAACTTTGGCCGCCCGGCGCACGTCTGGTTTGTCTCGCAATTGCCAAAAACGCGATCCG -GAAAAATGCTGCGCCGCACGATCCAGGCGATTTGCGAAGGACGCGATCCTGGAGATCTGACGACCATTGATGATC -CTGCGTCGTTGGATCAGATCCGCCAGGCGATGGAAGAGTAGGTTATTGTCGGATGCGTCGCGCGGTGCATCCGGC -ACTGTGTGCCGATGCCTGATGCGACGCTGACGCGTTTTATCATGCCTACGGACCTGAACCGTAGGTCGGATAAGG -CGCTCGCGTCGCATCCGACACCATGCTCAGATGCCTGATGCGACGCTGACGCGTCTTATCAGGCCTACCCACTGT -TTTTACACCGATAATTTTTCCCCCACCTTTTTGCACTCATTCATATAAAAAATATATTTCCCCACGAAAACGATT -GCTTTTTATCTTCAGATGAATAGAATGCGGCGGATTTTTTGGGTTTCAAACAGCAAAAAGGGGGAATTTCGTGTC -GCAAGATAACAACTTTAGCCAGGGGCCAGTCCCGCAGTCGGCGCGGAAAGGGGTATTGGCATTGACGTTCGTCAT -GCTGGGATTAACCTTCTTTTCCGCCAGTATGTGGACCGGCGGCACTCTCGGAACCGGTCTTAGCTATCATGATTT -CTTCCTCGCAGTTCTCATCGGTAATCTTCTCCTCGGTATTTACACTTCATTTCTCGGTTACATTGGCGCAAAAAC -CGGCCTGACCACTCATCTTCTTGCTCGCTTCTCGTTTGGTGTTAAAGGCTCATGGCTGCCTTCACTGCTACTGGG -CGGAACTCAGGTTGGCTGGTTTGGCGTCGGTGTGGCGATGTTTGCCATTCCGGTGGGTAAGGCAACCGGGCTGGA -TATTAATTTGCTGATTGCCGTTTCCGGTTTACTGATGACCGTCACCGTCTTTTTTGGCATTTCGGCGCTGACGGT -TCTTTCGGTGATTGCGGTTCCGGCTATCGCCTGCCTGGGCGGTTATTCCGTGTGGCTGGCTGTTAACGGCATGGG -CGGCCTGGACGCATTAAAAGCGGTCGTTCCCGCACAACCGTTAGATTTCAATGTCGCGCTGGCGCTGGTTGTGGG -GTCATTTATCAGTGCGGGTACGCTCACCGCTGACTTTGTCCGGTTTGGTCGCAATGCCAAACTGGCGGTGCTGGT -GGCGATGGTGGCCTTTTTCCTCGGCAACTCGTTGATGTTTATTTTCGGTGCAGCGGGCGCTGCGGCACTGGGCAT -GGCGGATATCTCTGATGTGATGATTGCTCAGGGCCTGCTGCTGCCTGCGATTGTGGTGCTGGGGCTGAATATCTG -GACCACCAACGATAACGCACTCTATGCGTCGGGTTTAGGTTTCGCCAACATTACCGGGATGTCGAGCAAAACCCT -TTCGGTAATCAACGGTATTATCGGTACGGTCTGCGCATTATGGCTGTATAACAATTTTGTCGGCTGGTTGACCTT -CCTTTCGGCAGCTATTCCTCCAGTGGGTGGCGTGATCATCGCCGACTATCTGATGAACCGTCGCCGCTATGAGCA -CTTTGCGACCACGCGTATGATGAGTGTCAATTGGGTGGCGATTCTGGCGGTCGCCTTGGGGATTGCTGCAGGCCA -CTGGTTACCGGGAATTGTTCCGGTCAACGCGGTATTAGGTGGCGCGCTGAGCTATCTGATCCTTAACCCGATTTT -GAATCGTAAAACGACAGCAGCAATGACGCATGTGGAGGCTAACAGTGTCGAATAACGCTTTACAAACAATTATTA -ACGCCCGGTTACCAGGCGAAGAGGGGCTGTGGCAGATTCATCTGCAGGACGGAAAAATCAGCGCCATTGATGCGC -AATCCGGCGTGATGCCCATAACTGAAAACAGCCTGGATGCCGAACAAGGTTTAGTTATACCGCCGTTTGTGGAGC -CACATATTCACCTGGACACCACGCAAACCGCCGGACAACCGAACTGGAATCAGTCCGGCACGCTGTTTGAAGGCA -TTGAACGCTGGGCCGAGCGCAAAGCGTTATTAACCCATGACGATGTGAAACAACGCGCATGGCAAACGCTGAAAT -GGCAGATTGCCAACGGCATTCAGCATGTGCGTACCCATGTCGATGTTTCGGATGCAACGCTAACTGCGCTGAAAG -CAATGCTGGAAGTGAAGCAGGAAGTCGCGCCGTGGATTGATCTGCAAATCGTCGCCTTCCCTCAGGAAGGGATTT -TGTCGTATCCCAACGGTGAAGCGTTGCTGGAAGAGGCGTTACGCTTAGGGGCAGATGTAGTGGGGGCGATTCCGC -ATTTTGAATTTACCCGTGAATACGGCGTGGAGTCGCTGCATAAAACCTTCGCCCTGGCGCAAAAATACGACCGTC -TCATCGACGTTCACTGTGATGAGATCGATGACGAGCAGTCGCGCTTTGTCGAAACCGTTGCTGCCCTGGCGCACC -ATGAAGGCATGGGCGCGCGAGTCACCGCCAGCCACACCACGGCAATGCACTCCTATAACGGGGCGTATACCTCAC -GCCTGTTCCGCTTGCTGAAAATGTCCGGTATTAACTTTGTCGCCAACCCGCTGGTCAATATTCATCTGCAAGGAC -GTTTCGATACGTATCCAAAACGTCGCGGCATCACGCGCGTTAAAGAGATGCTGGAGTCCGGCATTAACGTCTGCT -TTGGTCACGATGATGTCTTCGATCCGTGGTATCCGCTGGGAACGGCGAATATGCTGCAAGTGCTGCATATGGGGC -TGCATGTTTGCCAGTTGATGGGCTACGGGCAGATTAACGATGGCCTGAATTTAATCACCCACCACAGCGCAAGGA -CGTTGAATTTGCAGGATTACGGCATTGCCGCCGGAAACAGCGCCAACCTGATTATCCTGCCGGCTGAAAATGGGT -TTGATGCGCTGCGCCGTCAGGTTCCGGTACGTTATTCGGTACGTGGCGGCAAGGTGATTGCCAGCACACAACCGG -CACAAACCACCGTATATCTGGAGCAGCCAGAAGCCATCGATTACAAACGTTGAACGACTGGGTTACAGCGAGCTT -AGTTTATGCCGGATGCGGCGTGAACGCCTTATCCGGCCTACGTAGAGCACTGAACTCGTAGGCCTGATAAGCGTA -GCGCATCAGGCAATTCCAGCCGCTGATCTGTGTCAGCGGCTACCGTGATTCATTCCCGCCAACAACCGCGCATTC -CTCCAACGCCATGTGCAAAAATGCCTTCGCAGCGGCTGTCTGCCAGCTGTAGTTTATGCCGGATGCGGCGTGAAC -GCCTTATCCGGCCTACGTAGAGCACTGAACTCGTAGGCCTGATAAGCGTAGCGCATCAGGCAATTCCAGCCGCAG -ACCTGTGTCAGCGGCTACCGTGATTCATTTCCGCCAACAACCGCGCATTTATCCAACGCCATGTGCAAAAATGCC -TTCGCGGCGGCTGTCTGCCAGCTATTTTTCCGCCGCAACAAAACCGCCGTTCTCTCCAGTAGTGGCGGGGCAAGA -GAAATAGCTTTAAGCCCGTCATGTTGTGTGGCAATCGCTGCTGGTAACAATGTGGAAAGGGAAGTGCGGCGAATC -AGCTCCAGAACCGCGCTAATTGAGTTCGCCTCAATGACCACCTGTGGATGTAGCCCCGCTTTCTCGCAGTAGTGG -TCAATTTGCTCTCTGGTGGCAAATTCCGCGCTGAGCAGGACCAGTTTTTCATCATGCAAGCGACTCAACGCCACC -TGTTCATGGACGGCCAGCGGATGATGTTGCGCCACGACTAACGCTAAACTTTCTGTCAGTAAAGGAATTGCCTCC -AGCTCCGGCGAATGCACAGGCGCGAAGGCAATCCCAACGTCCAACTCGTCGCGGCAAAGCATATCCTCGATTTTC -TCCTGCGACATTTCCTGTAGCTGGAGCGTGATGCTGGGATAGCGCGCATAGAAATCCGCCATTAAGGGGCCGATA -AAGTAGCTCGTAAAGGTGGGGGTGACGGCGATACGCAGCGATCCTCGCGTCAGATCGGCAACATCATGAATCGCC -CGTTTACCCGCCCCCAGTTCCTGTAACGCCCGGCTGGCGTACTGTCGCCAGACTTCTCCTGCATCAGTGAGACGA -ATCGTTCGCCCGCTACGGTCAAACAGCGGCACGCCTAAACTCTCCTCTAACTGGCGAATCTGCTGGGAAAGCGCA -GGTTGGGAGACGTGCAACGCACTGGCGGCACGGGTGAAGCTGCCATGTTCAGCCACGGCAAGAAAATAATTGATA -TGTCGAGAGAGCATTCGCAACCTATAAGTAAATCCAATGGAACTCATCATAAATGAGACTTTTACCTTATGACAA -TCGGCGAGTAGTCTGCCTCTCATTCCAGAGACAGACAGAGGTTAACGGTGAAAGAGATTATTGATGGATTCCTTA -AATTCCAGCGCGAGGCATTTCCGAAGCGGGAAGCCTTGTTTAAACAGCTGGCGACACAGCAAAGCCCGCGCACAC -TTTTTATCTCCTGCTCCGACAGCCGTCTGGTCCCTGAGCTGGTGACGCAACGTGAGCCTGGCGATCTGTTCGTTA -TTCGCAACGCGGGCAATATCGTCCCTTCCTACGGGCCGGAACCCGGTGGCGTTTCTGCTTCGGTGGAGTATGCCG -TCGCTGCGCTTCGGGTATCTGACATTGTGATTTGTGGTCATTCCAACTGTGGCGCGATGACCGCCATTGCCAGCT -GTCAGTGCATGGACCATATGCCTGCCGTCTCCCACTGGCTGCGTTATGCCGATTCAGCCCGCGTCGTTAATGAGG -CGCGCCCGCATTCCGATTTACCGTCAAAAGCTGCGGCGATGGTACGTGAAAACGTCATTGCTCAGTTGGCTAATT -TGCAAACTCATCCATCGGTGCGCCTGGCGCTCGAAGAGGGGCGGATCGCCCTGCACGGCTGGGTCTACGACATTG -AAAGCGGCAGCATCGCAGCTTTTGACGGCGCAACCCGCCAGTTTGTGCCACTGGCCGCTAATCCTCGCGTTTGTG -CCATACCGCTACGCCAACCGACCGCAGCGTAACCTTATTTTTAAACCATCAGGAGTTCCACCATGATTCAGTCAC -AAATTAACCGCAATATTCGTCTTGATCTTGCCGATGCCATTTTGCTCAGCAAAGCTAAAAAAGATCTCTCATTTG -CCGAGATTGCCGACGGCACCGGTCTGGCAGAAGCCTTTGTAACCGCGGCTTTGCTGGGTCAGCAGGCGCTTCCTG -CCGACGCCGCCCGCCTGGTCGGGGCGAAGCTGGATCTCGACGAAGACTCCATTCTACTGTTGCAGATGATTCCAC -TGCGTGGCTGCATTGATGACCGTATTCCAACTGACCCAACGATGTATCGTTTCTATGAAATGTTGCAGGTGTACG -GTACAACCCTGAAAGCGTTGGTTCATGAGAAATTTGGCGATGGCATTATTAGCGCGATTAACTTCAAACTCGACG -TTAAGAAAGTGGCGGACCCGGAAGGTGGCGAACGTGCGGTCATCACCTTAGATGGTAAATATCTGCCGACCAAAC -CGTTCTGACAGCCATGCGCAACCATCAAAAGACGTTCACGATGCTGCTGGTACTGGTGCTGATTGGTCTTAATAT -GCGACCACTGCTCACCTCCGTCGGGCCACTGCTACCGCAATTGCGCCAGGCGAGCGGAATGAGCTTTAGCGTGGC -TGCCCTGTTGACCGCTCTGCCGGTGGTTACCATGGGCGGGCTGGCGCTGGCCGGAAGCTGGCTTCATCAGCATGT -CAGCGAACGTCGCAGTGTCGCCATCAGTCTGTTGCTGATTGCCGTCGGTGCATTGATGCGTGAGCTTTACCCGCA -AAGTGCGCTGCTGCTTAGCAGCGCACTGCTTGGTGGGGTGGGGATCGGCATCATTCAGGCGGTGATGCCTTCGGT -GATTAAACGGCGGTTTCAGCAGCGCACGCCACTGGTGATGGGGCTGTGGTCCGCGGCTCTGATGGGCGGCGGTGG -GCTTGGTGCCGCCATAACGCCCTGGTTAGTTCAACATAGCGAAACCTGGTATCAAACACTCGCCTGGTGGGCGCT -GCCTGCCGTTGTTGCGCTCTTTGCCTGGTGGTGGCAAAGCGCCCGCGAGGTCGCCTCTTCCCACAAGACAACAAC -CACTCCGGTTCGCGTGGTATTCACTCCCCGCGCGTGGACGCTGGGTGTTTACTTCGGTCTGATTAACGGCGGTTA -CGCCAGCCTGATTGCCTGGTTACCCGCTTTCTATATTGAGATTGGTGCCAGCGCGCAGTACAGCGGTTCCTTACT -GGCATTGATGACGCTTGGGCAAGCCGCAGGAGCTTTGCTGATGCCTGCTATGGCTCGCCATCAGGATCGGCGCAA -ACTGTTAATGCTGGCGCTGGTGTTACAACTGGTGGGGTTCTGCGGCTTTATCTGGCTGCCGATGCAATTGCCGGT -ATTGTGGGCGATGGTGTGTGGGTTAGGTCTGGGCGGCGCGTTTCCGCTCTGTTTGCTGCTGGCGCTCGATCACTC -TGTGCAACCGGCTATTGCTGGCAAGCTGGTGGCGTTTATGCAGGGAATCGGTTTTATCATCGCCGGGCTTGCCCC -GTGGTTTTCTGGCGTGCTGCGTAGTATCAGCGGCAATTACCTGATGGACTGGGCATTTCATGCGCTGTGCGTCGT -TGGGCTGATGATCATAACCCTGCGTTTTGCACCAGTACGTTTTCCGCAGCTGTGGGTCAAAGAGGCATGATGCGA -CGCTTGTTCCTGCGCTTTGTTCATGCCGGATGCGGCTAATGTAGATCGCTGAACTTGTAGGCCTGATAAGCGCAG -CGTATCAGGCAATTTTTATAATTTAAACTGACGATTCAACTTTATAATCTTTGAAATAATAGTGCTTATCCCGGT -CGTTTATTTCGCGAATAACCCGACAAGGAACGCCAGCCGCCACGACGTTTGGTGGAATGTCTTTTGTGACGATAC -TACCCGCGCCAATAACAGAATTATCCCCGATGGTGACGCCTGGATTAATAACCACATGACTTCCGATCCAGACGT -TATTGCCAATCGTTATCGGAAAAGAGTACATCTCGCCGTTTTTTCTCAATTCATGGTGTACAGGGTGTCCCGTAA -CGGAAAGAGTAACGTTGGGTGCAATCAGTACGTTATCACCGATTGTTACCGTGTAGTCATCGACAATGGTTAAAT -TGAAATTTGCATAAAAATTGCGGCCTATATGGATGTTGGAACCGTAAGAGAAATAGACAGGCGGTTCTACCCAGG -CGTTTTCCCCTACCGTGGCAAACATTTCTTTAATCAGGCTTTCTCTTTTTTCAACTTCTGATGGATGCGAGTGAT -TAAACTCATACATTAACGTTTTCCCACGAAGTCTTTTTTCCGGTAAGCCTTCGCACATATCGGTAAATAGCTTGC -CTGCTCTTATTCTTTCGGTCATTGGCATGTTCAATGCGATCACTCCGTTATGATATGTTGGTCGGATAAGGCGCT -CGCGCCGCATCCGACATTGATTGCTTAAGCGACTTCATTCACCTGACGACGCAGCAGGGAAAGCGGGCCGGGGCC -GCTAAGCGTGAACACGGAAATTAAGGTGAAGCCCAGCGCCACCAGACCCAGCACCAGATAAGCGCCCTGGAAACC -GATGCTTTCATACATATTGCCCGCCAGTACAGACATAAAAATCATCGCCAGTTGCTTAAAGAAGCAGAAACAGAC -CAGATAAATCGTCGCTGAAAAACGCACTTCAAACTGGCTGGTAATATATTTAAAGCAGCCCACCAGCAGGAACGG -TACTTCAAACATATGCAGCGTTTTCAGAATAACCACTTCCAGCGCTGAGGTGGCGAACGATGAGCCAATAATACG -TACAGACATAATAGTGCCAGCCAGCAGCAGGGCGTTTTTCCCACCGATGCGATTAATGATCAGTGGCGCAAAGAA -CATAATCGAGGCGTTAAGTAATTCGCCCATTGTCGTTACGTAGCCAAATACCCGCGTACCCTGTTCACCGGTAGC -AAAGAACGAAGTAAAGAAATTAGCAAACTGTTGGTCAAAAACATCGTAGGTGCAGGAAACGCCAATAACATACAG -TGACAAAAACCACAGTTTTGGCTGTCTGAACAGTTCCAGTGCCAGCTTAAGGCTAAATGCCGAATGGTTGGCACC -TACCGCATTGGCAACCGTGGCAGAAGAGGGCGCATCCGTTTTGGCGAAAAAGAGTAAAACGGCGAGGATGAGTGC -ACAGCCAGAGCCCAGCCAGAAAACAAACTGATTATTGATGGTGAACATGATGCCGACAATCGAGGCACACAGCGC -CCAGCCAACACAGCCAAACATCCGCGCGCGACCAAATTCGAAATTACTGCGACGGCTGACTTTCTCAATAAATGC -CTCTACTGCTGGCGCACCGGCGTTAAAACAAAAGCCTAGATAAATACCACCAACAATCGATCCTACTAAAATGTT -GTATTGTAACAGTGGCCCGAAGATAAAAATAAAGAACGGCGCAAACATCACTAACATGCCGGTAATAATCCACAG -CAGGTATTTGCGCAGCCCGAGTTTGTCAGAAAGCAGACCAAACAGCGGTTGGAATAATAGCGAGAACAGAGAAAT -AGCGGCAAAAATAATACCCGTATCACTTTTGCTGATATGGTTGATGTCATGTAGCCAAATCGGGAAAAACGGGAA -GTAGGCTCCCATGATAAAAAAGTAAAAGAAAAAGAATAAACCGAACATCCAAAAGTTTGTGTTTTTTAAATAGTA -CATAATGGATTTCCTTACGCGAAATACGGGCAGACATGGCCTGCCCGGTTATTATTATTTTTGACACCAGACCAA -CTGGTAATGGTAGCGACCGGCGCTCAGCTGGAATTCCGCCGATACTGACGGGCTCCAGGAGTCGTCGCCACCAAT -CCCCATATGGAAACCGTCGATATTCAGCCATGTGCCTTCTTCCGCGTGCAGCAGATGGCGATGGCTGGTTTCCAT -CAGTTGCTGTTGACTGTAGCGGCTGATGTTGAACTGGAAGTCGCCGCGCCACTGGTGTGGGCCATAATTCAATTC -GCGCGTCCCGCAGCGCAGACCGTTTTCGCTCGGGAAGACGTACGGGGTATACATGTCTGACAATGGCAGATCCCA -GCGGTCAAAACAGGCGGCAGTAAGGCGGTCGGGATAGTTTTCTTGCGGCCCTAATCCGAGCCAGTTTACCCGCTC -TGCTACCTGCGCCAGCTGGCAGTTCAGGCCAATCCGCGCCGGATGCGGTGTATCGCTCGCCACTTCAACATCAAC -GGTAATCGCCATTTGACCACTACCATCAATCCGGTAGGTTTTCCGGCTGATAAATAAGGTTTTCCCCTGATGCTG -CCACGCGTGAGCGGTCGTAATCAGCACCGCATCAGCAAGTGTATCTGCCGTGCACTGCAACAACGCTGCTTCGGC -CTGGTAATGGCCCGCCGCCTTCCAGCGTTCGACCCAGGCGTTAGGGTCAATGCGGGTCGCTTCACTTACGCCAAT -GTCGTTATCCAGCGGTGCACGGGTGAACTGATCGCGCAGCGGCGTCAGCAGTTGTTTTTTATCGCCAATCCACAT -CTGTGAAAGAAAGCCTGACTGGCGGTTAAATTGCCAACGCTTATTACCCAGCTCGATGCAAAAATCCATTTCGCT -GGTGGTCAGATGCGGGATGGCGTGGGACGCGGCGGGGAGCGTCACACTGAGGTTTTCCGCCAGACGCCACTGCTG -CCAGGCGCTGATGTGCCCGGCTTCTGACCATGCGGTCGCGTTCGGTTGCACTACGCGTACTGTGAGCCAGAGTTG -CCCGGCGCTCTCCGGCTGCGGTAGTTCAGGCAGTTCAATCAACTGTTTACCTTGTGGAGCGACATCCAGAGGCAC -TTCACCGCTTGCCAGCGGCTTACCATCCAGCGCCACCATCCAGTGCAGGAGCTCGTTATCGCTATGACGGAACAG -GTATTCGCTGGTCACTTCGATGGTTTGCCCGGATAAACGGAACTGGAAAAACTGCTGCTGGTGTTTTGCTTCCGT -CAGCGCTGGATGCGGCGTGCGGTCGGCAAAGACCAGACCGTTCATACAGAACTGGCGATCGTTCGGCGTATCGCC -AAAATCACCGCCGTAAGCCGACCACGGGTTGCCGTTTTCATCATATTTAATCAGCGACTGATCCACCCAGTCCCA -GACGAAGCCGCCCTGTAAACGGGGATACTGACGAAACGCCTGCCAGTATTTAGCGAAACCGCCAAGACTGTTACC -CATCGCGTGGGCGTATTCGCAAAGGATCAGCGGGCGCGTCTCTCCAGGTAGCGAAAGCCATTTTTTGATGGACCA -TTTCGGCACAGCCGGGAAGGGCTGGTCTTCATCCACGCGCGCGTACATCGGGCAAATAATATCGGTGGCCGTGGT -GTCGGCTCCGCCGCCTTCATACTGCACCGGGCGGGAAGGATCGACAGATTTGATCCAGCGATACAGCGCGTCGTG -ATTAGCGCCGTGGCCTGATTCATTCCCCAGCGACCAGATGATCACACTCGGGTGATTACGATCGCGCTGCACCAT -TCGCGTTACGCGTTCGCTCATCGCCGGTAGCCAGCGCGGATCATCGGTCAGACGATTCATTGGCACCATGCCGTG -GGTTTCAATATTGGCTTCATCCACCACATACAGGCCGTAGCGGTCGCACAGCGTGTACCACAGCGGATGGTTCGG -ATAATGCGAACAGCGCACGGCGTTAAAGTTGTTCTGCTTCATCAGCAGGATATCCTGCACCATCGTCTGCTCATC -CATGACCTGACCATGCAGAGGATGATGCTCGTGACGGTTAACGCCTCGAATCAGCAACGGCTTGCCGTTCAGCAG -CAGCAGACCATTTTCAATCCGCACCTCGCGGAAACCGACATCGCAGGCTTCTGCTTCAATCAGCGTGCCGTCGGC -GGTGTGCAGTTCAACCACCGCACGATAGAGATTCGGGATTTCGGCGCTCCACAGTTTCGGGTTTTCGACGTTCAG -ACGTAGTGTGACGCGATCGGCATAACCACCACGCTCATCGATAATTTCACCGCCGAAAGGCGCGGTGCCGCTGGC -GACCTGCGTTTCACCCTGCCATAAAGAAACTGTTACCCGTAGGTAGTCACGCAACTCGCCGCACATCTGAACTTC -AGCCTCCAGTACAGCGCGGCTGAAATCATCATTAAAGCGAGTGGCAACATGGAAATCGCTGATTTGTGTAGTCGG -TTTATGCAGCAACGAGACGTCACGGAAAATGCCGCTCATCCGCCACATATCCTGATCTTCCAGATAACTGCCGTC -ACTCCAGCGCAGCACCATCACCGCGAGGCGGTTTTCTCCGGCGCGTAAAAATGCGCTCAGGTCAAATTCAGACGG -CAAACGACTGTCCTGGCCGTAACCGACCCAGCGCCCGTTGCACCACAGATGAAACGCCGAGTTAACGCCATCAAA -AATAATTCGCGTCTGGCCTTCCTGTAGCCAGCTTTCATCAACATTAAATGTGAGCGAGTAACAACCCGTCGGATT -CTCCGTGGGAACAAACGGCGGATTGACCGTAATGGGATAGGTCACGTTGGTGTAGATGGGCGCATCGTAACCGTG -CATCTGCCAGTTTGAGGGGACGACGACAGTATCGGCCTCAGGAAGATCGCACTCCAGCCAGCTTTCCGGCACCGC -TTCTGGTGCCGGAAACCAGGCAAAGCGCCATTCGCCATTCAGGCTGCGCAACTGTTGGGAAGGGCGATCGGTGCG -GGCCTCTTCGCTATTACGCCAGCTGGCGAAAGGGGGATGTGCTGCAAGGCGATTAAGTTGGGTAACGCCAGGGTT -TTCCCAGTCACGACGTTGTAAAACGACGGCCAGTGAATCCGTAATCATGGTCATAGCTGTTTCCTGTGTGAAATT -GTTATCCGCTCACAATTCCACACAACATACGAGCCGGAAGCATAAAGTGTAAAGCCTGGGGTGCCTAATGAGTGA -GCTAACTCACATTAATTGCGTTGCGCTCACTGCCCGCTTTCCAGTCGGGAAACCTGTCGTGCCAGCTGCATTAAT -GAATCGGCCAACGCGCGGGGAGAGGCGGTTTGCGTATTGGGCGCCAGGGTGGTTTTTCTTTTCACCAGTGAGACG -GGCAACAGCTGATTGCCCTTCACCGCCTGGCCCTGAGAGAGTTGCAGCAAGCGGTCCACGCTGGTTTGCCCCAGC -AGGCGAAAATCCTGTTTGATGGTGGTTAACGGCGGGATATAACATGAGCTGTCTTCGGTATCGTCGTATCCCACT -ACCGAGATATCCGCACCAACGCGCAGCCCGGACTCGGTAATGGCGCGCATTGCGCCCAGCGCCATCTGATCGTTG -GCAACCAGCATCGCAGTGGGAACGATGCCCTCATTCAGCATTTGCATGGTTTGTTGAAAACCGGACATGGCACTC -CAGTCGCCTTCCCGTTCCGCTATCGGCTGAATTTGATTGCGAGTGAGATATTTATGCCAGCCAGCCAGACGCAGA -CGCGCCGAGACAGAACTTAATGGGCCCGCTAACAGCGCGATTTGCTGGTGACCCAATGCGACCAGATGCTCCACG -CCCAGTCGCGTACCGTCTTCATGGGAGAAAATAATACTGTTGATGGGTGTCTGGTCAGAGACATCAAGAAATAAC -GCCGGAACATTAGTGCAGGCAGCTTCCACAGCAATGGCATCCTGGTCATCCAGCGGATAGTTAATGATCAGCCCA -CTGACGCGTTGCGCGAGAAGATTGTGCACCGCCGCTTTACAGGCTTCGACGCCGCTTCGTTCTACCATCGACACC -ACCACGCTGGCACCCAGTTGATCGGCGCGAGATTTAATCGCCGCGACAATTTGCGACGGCGCGTGCAGGGCCAGA -CTGGAGGTGGCAACGCCAATCAGCAACGACTGTTTGCCCGCCAGTTGTTGTGCCACGCGGTTGGGAATGTAATTC -AGCTCCGCCATCGCCGCTTCCACTTTTTCCCGCGTTTTCGCAGAAACGTGGCTGGCCTGGTTCACCACGCGGGAA -ACGGTCTGATAAGAGACACCGGCATACTCTGCGACATCGTATAACGTTACTGGTTTCACATTCACCACCCTGAAT -TGACTCTCTTCCGGGCGCTATCATGCCATACCGCGAAAGGTTTTGCGCCATTCGATGGTGTCAACGTAAATGCAT -GCCGCTTCGCCTTCCGGCCACCAGAATAGCCTGCGATTCAACCCCTTCTTCGATCTGTTTTGCTACCCGTTGTAG -CGCCGGAAGATGCTTTTCCGCTGCCTGTTCAATGGTCATTGCGCTCGCCATATACACCAGATTCAGACAGCCAAT -CACCCGTTGTTCACTGCGCAGCGGTACGGCGATAGAGGCGATCTTCTCCTCCTGATCCCAGCCGCGGTAGTTCTG -TCCGTAACCCTCTTTGCGCGCGCGCGCCAGAATGGCTTCCAGCTTTAACGGTTCCCGTGCCAGTTGATAGTCATC -ACCGGGGCGGGAGGCTAACATTTCGATTAATTCCTTGCGGTCTTGTTCCGGGCAAAAGGCCAGCCAGGTCAGGCC -CGAGGCGGTTTTCAGAAGCGGCAAACGTCGCCCGACCATTGCCCGGTGAAAGGATAAGCGGCTGAAACGGTGAGT -GGTTTCGCGTACCACCATTGCATCAACATCCAGCGTGGACACATCTGTCGGCCATACCACTTCGCGCAACAGATC -GCCCAGCAGTGGGGCCGCCAGTGCAGAAATCCACTGTTCGTCACGAAATCCTTCGCTTAATTGCCGCACTTTGAT -GGTCAGTCGAAAACTATCATCGGAGGGGCTACGGCGGACATATCCCTCTTCCTGCAGCGTCTCCAGCAGTCGCCG -CACAGTGGTGCGATGCAGGCCGCTGAGTTCCGCCAGCAGCCCGACGCTGGCACCGCCATCAAGTTTATTTAACAT -ATTTAATAACATTAGACCGCGGGTTAAGCCGCGCACGGTTTTGTATTCCGTCTGCTCATTGTTCTGCATATTAAT -TGACATTTCTATAGTTAAAACAACGTGGTGCACCTGGTGCACATTCGGGCATGTTTTGATTGTAGCCGAAAACAC -CCTTCCTATACTGAGCGCACAATAAAAAATCATTTACATGTTTTTAACAAAATAAGTTGCGCTGTACTGTGCGCG -CAACGACATTTTGTCCGAGTCGTGAGGTACTGAAATGGCAATACAACACCCTGACATCCAGCCTGCTGTTAACCA -TAGCGTTCAGGTGGCGATCGCTGGTGCCGGCCCGGTTGGGCTGATGATGGCGAACTATCTCGGCCAGATGGGCAT -TGACGTGCTGGTGGTGGAGAAACTCGATAAGTTGATCGACTACCCGCGTGCGATTGGTATTGATGACGAGGCGCT -GCGCACCATGCAGTCGGTCGGCCTGGTCGATGATGTTCTGCCGCACACTACGCCGTGGCACGCGATGCGTTTTCT -CACCCCGAAAGGCCGCTGTTTTGCTGATATTCAGCCAATGACCGATGAATTTGGCTGGCCGCGCCGTAACGCCTT -TATTCAGCCGCAGGTCGATGCGGTGATGCTGGAAGGGGTGTCGCGTTTTCCGAATGTGCGCTGCTTGTTTTCCCG -CGAGCTGGAGGCCTTCAGTCAGCAAGATGACGAAGTGACCTTGCACCTGAAAACGGCAGAAGGGCAGCGGGAAAT -AGTCAAAGCCCAGTGGCTGGTAGCCTGTGACGGTGGAGCAAGTTTTGTCCGTCGCACTCTGAATGTGCCGTTTGA -AGGTAAAACTGCGCCAAATCAGTGGATTGTGGTAGATATCGCCAACGATCCGTTAAGTACGCCGCATATCTATTT -GTGTTGCGATCCGGTGCGCCCGTATGTTTCTGCCGCGCTGCCTCATGCGGTACGTCGCTTTGAATTTATGGTGAT -GCCGGGAGAAACCGAAGAGCAGCTGCGTGAGCCGCAAAATATGCGCAAGCTGTTAAGCAAAGTGCTGCCTAATCC -GGACAATGTTGAATTGATTCGCCAGCGTGTCTACACCCACAACGCGCGACTGGCGCAACGTTTCCGTATTGATCG -CGTACTGCTGGCGGGCGATGCCGCGCACATCATGCCGGTATGGCAGGGGCAGGGCTATAACAGTGGTATGCGCGA -CGCCTTTAACCTCGCATGGAAACTGGCGTTGGTTATCCAGGGGAAAGCCCGCGATGCGCTGCTCGATACCTATCA -ACAAGAACGTCGCGATCACGCCAAAGCGATGATTGACCTGTCCGTGACGGCGGGCAACGTGCTGGCTCCGCCGAA -ACGCTGGCAGGGTACGTTACGTGACGGCGTTTCCTGGCTGTTGAATTATCTGCCGCCAGTAAAACGCTACTTCCT -CGAAATGCGCTTCAAGCCGATGCCGCAATATTACGGCGGTGCGCTGATGCGTGAGGGCGAAGCGAAGCACTCTCC -GGTCGGCAAGATGTTTATTCAGCCGAAAGTCACGCTGGAAAACGGCGACGTGACGCTGCTCGATAACGCGATCGG -CGCGAACTTCGCGGTAATTGGCTGGGGATGCAATCCACTGTGGGGGATGAGCGACGAGCAAATCCAGCAGTGGCG -CGCGTTGGGCACACGCTTCATTCAGGTGGTGCCGGAAGTGCAAATTCATACCGCACAGGATAACCACGACGGCGT -ACTACGCGTGGGCGATACGCAAGGTCGCCTGCGTAGCTGGTTCGCGCAACACAATGCTTCGCTGGTGGTGATGCG -CCCGGATCGCTTTGTTGCCGCCACCGCCATTCCGCAAACCCTGGGCAAGACCCTGAATAAACTGGCGTCGGTGAT -GACGCTGACCCGCCCTGATGCCGACGTTTCTGTCGAAAAGGTAGCCTGATATGCACGCTTATCTTCACTGTCTTT -CCCACTCGCCGCTGGTGGGGTATGTCGACCCGGCGCAAGAGGTGCTCGATGAGGTCAATGGCGTGATTGCCAGCG -CCCGCGAGCGTATTGCGGCATTCTCCCCTGAACTGGTGGTGCTGTTTGCGCCAGATCACTACAACGGCTTTTTCT -ATGACGTGATGCCACCGTTCTGTTTAGGCGTTGGAGCGACGGCAATTGGTGATTTCGGCAGTGCGGCAGGAGAGC -TGCCCGTGCCTGTGGAGCTGGCGGAGGCCTGTGCGCATGCCGTCATGAAGAGCGGGATCGATCTTGCCGTTTCTT -ACTGTATGCAGGTGGACCACGGGTTCGCCCAGCCGCTGGAGTTCCTGCTCGGTGGGCTGGATAAGGTGCCAGTTC -TGCCTGTGTTCATCAACGGTGTCGCCACGCCGCTGCCCGGTTTCCAGCGTACCCGCATGTTGGGTGAAGCCATTG -GACGTTTCACCAGCACTCTCAATAAACGCGTGCTGTTCCTGGGTTCCGGTGGGCTTTCCCATCAGCCGCCGGTGC -CCGAACTGGCGAAAGCCGATGCCCATATGCGCGACCGTCTGTTGGGGAGCGGGAAAGATTTACCCGCCAGTGAGC -GCGAATTGCGTCAGCAACGGGTGATTAGCGCCGCTGAGAAGTTTGTTGAGGATCAGAGAACGCTGCATCCGCTCA -ACCCGATTTGGGATAACCAGTTCATGACTTTGCTGGAGCAGGGACGCATACAGGAACTGGATGCCGTCAGTAACG -AAGAGCTTTCCGCCATTGCCGGAAAGTCGACACATGAAATCAAAACCTGGGTCGCCGCTTTTGCCGCTATTTCTG -CGTTTGGCAACTGGCGTAGCGAAGGGCGTTATTACCGCCCAATCCCGGAGTGGATTGCCGGATTTGGCTCGTTAA -GCGCCAGAACAGAGAACTGAATATGCAGGAGAAGATGATGAGTTATCAGCCACAAACCGAAGCCGCCACCAGCCG -TTTTCTGAATGTAGAAGAAGCGGGTAAAACGCTGCGCATCCATTTTAATGACTGCGGACAAGGCGACGAAACCGT -TGTCCTGCTGCATGGTTCCGGCCCGGGTGCTACTGGCTGGGCGAACTTCAGCCGCAATATCGATCCGCTGGTAGA -GGCGGGCTATCGGGTGATCCTGCTGGATTGTCCGGGTTGGGGCAAGAGCGATTCGGTCGTTAATAGTGGTTCGCG -ATCGGATCTTAATGCACGAATCCTGAAAAGCGTGGTGGATCAACTGGATATCGCCAAAATCCACCTGCTGGGCAA -CTCGATGGGGGGCCATAGTTCTGTGGCGTTCACCCTTAAATGGCCGGAGCGCGTCGGCAAACTGGTGCTGATGGG -CGGCGGTACGGGCGGCATGAGTTTGTTTACGCCGATGCCAACCGAAGGTATTAAGCGACTGAATCAGCTTTATCG -TCAGCCGACTATCGAAAACCTGAAGCTGATGATGGATATCTTCGTTTTTGATACCAGCGATTTGACCGACGCCCT -GTTTGAAGCGCGCCTGAATAATATGCTGTCGCGCCGCGATCACCTGGAAAACTTCGTTAAGAGCCTGGAAGCTAA -TCCGAAACAGTTCCCGGATTTTGGCCCACGTCTGGCGGAAATCAAAGCGCAAACCCTGATTGTCTGGGGGCGCAA -CGACCGCTTTGTGCCGATGGATGCGGGTCTGCGTCTGCTGTCCGGCATTGCCGGTTCTGAACTGCATATCTTCCG -CGACTGTGGTCACTGGGCGCAGTGGGAACATGCCGACGCTTTCAATCAACTGGTGCTGAATTTCCTCGCACGCCC -TTAAGGAATGGTCATGACGAAGCATACTCTTGAGCAACTGGCGGCGGATTTACGCCGCGCCGCAGAGCAGGGCGA -AGCGATTGCACCGCTGCGCGATCTGATTGGTATCGATAACGCTGAAGCGGCTTACGCCATTCAGCACATAAATGT -GCAACATGACGTTGCGCAGGGGCGTCGCGTGGTAGGGCGTAAAGTGGGCCTGACACATCCGAAAGTGCAACAACA -ACTGGGCGTTGATCAACCGGATTTTGGGACGTTATTTGCCGACATGTGTTATGGCGATAACGAAATCATTCCTTT -TTCCCGTGTTCTGCAACCCCGCATTGAAGCGGAGATCGCACTGGTGTTGAACCGCGATTTGCCCGCAACCGATAT -CACCTTCGACGAATTGTATAACGCCATTGAATGGGTACTTCCGGCGCTGGAAGTGGTGGGGAGCCGCATTCGCGA -CTGGTCGATTCAGTTTGTCGATACCGTGGCAGATAACGCCTCCTGTGGGGTGTATGTCATCGGCGGTCCGGCGCA -ACGTCCGGCGGGGTTAGACCTGAAAAACTGCGCCATGAAGATGACGCGTAATAACGAAGAGGTTTCTAGCGGGCG -CGGCAGCGAATGCCTGGGACATCCGCTTAATGCGGCCGTCTGGCTGGCACGCAAAATGGCCAGTCTGGGTGAACC -GCTGCGCACCGGAGATATCATTCTTACCGGGGCATTAGGTCCGATGGTGGCGGTGAATGCGGGCGATCGTTTTGA -AGCCCATATTGAAGGCATAGGTTCAGTTGCTGCGACATTTTCAAGCGCAGCCCCAAAAGGAAGTCTGTCATGAGT -AAGCGTAAAGTCGCCATTATCGGTTCTGGCAACATTGGTACCGATCTGATGATTAAAATTTTGCGTCACGGTCAG -CATCTGGAGATGGCGGTGATGGTTGGCATTGATCCTCAGTCCGACGGTCTGGCGCGCGCCAGACGTATGGGCGTC -GCCACCACCCATGAAGGGGTGATCGGACTGATGAACATGCCTGAATTTGCTGATATCGACATTGTATTTGATGCG -ACCAGCGCCGGTGCTCATGTGAAAAACGATGCCGCTTTACGCGAAGCGAAACCGGATATTCGCTTAATTGACCTG -ACGCCTGCTGCCATCGGCCCTTACTGCGTGCCGGTGGTTAACCTCGAGGCGAACGTCGATCAACTGAACGTCAAC -ATGGTCACCTGCGGCGGCCAGGCCACCATTCCAATGGTGGCGGCAGTTTCACGCGTGGCGCGTGTTCATTACGCC -GAAATTATCGCTTCTATCGCCAGTAAATCTGCCGGACCTGGCACGCGTGCCAATATCGATGAATTTACGGAAACC -ACTTCCCGAGCCATTGAAGTGGTGGGCGGCGCGGCAAAAGGGAAGGCGATTATTGTGCTTAACCCAGCAGAGCCA -CCGTTGATGATGCGTGACACGGTGTATGTATTGAGCGACGAAGCTTCACAAGATGATATCGAAGCCTCAATCAAT -GAAATGGCTGAGGCGGTGCAGGCTTACGTACCGGGTTATCGCCTGAAACAGCGCGTGCAGTTTGAAGTTATCCCG -CAGGATAAACCGGTCAATTTACCGGGCGTGGGGCAATTCTCCGGACTGAAAACAGCGGTCTGGCTGGAAGTCGAA -GGCGCAGCGCATTATCTGCCTGCCTATGCGGGCAACCTCGACATTATGACTTCCAGTGCGCTGGCGACAGCGGAA -AAAATGGCCCAGTCACTGGCGCGCAAGGCAGGAGAAGCGGCATGAACGGTAAAAAACTTTATATCTCGGACGTCA -CATTGCGTGACGGTATGCACGCCATTCGTCATCAGTATTCGCTGGAAAACGTTCGCCAGATTGCCAAAGCACTGG -ACGATGCCCGCGTGGATTCGATTGAAGTGGCCCACGGCGACGGTTTGCAAGGTTCCAGCTTTAACTATGGTTTCG -GCGCACATAGCGACCTTGAATGGATTGAAGCGGCGGCGGATGTGGTGAAGCACGCCAAAATCGCGACGTTGTTGC -TGCCAGGAATCGGCACTATTCACGATCTGAAAAATGCCTGGCAGGCTGGCGCGCGGGTGGTTCGTGTGGCAACGC -ACTGTACCGAAGCTGATGTTTCCGCCCAGCATATTCAGTATGCCCGCGAGCTCGGAATGGACACCGTTGGTTTTC -TGATGATGAGCCATATGACCACGCCGGAGAATCTCGCCAAGCAGGCAAAGCTGATGGAAGGCTACGGTGCGACCT -GTATTTATGTGGTGGATTCTGGCGGTGCGATGAACATGAGCGATATCCGTGACCGTTTCCGCGCCCTGAAAGCAG -AGCTGAAACCAGAAACGCAAACTGGCATGCACGCTCACCATAACCTGAGTCTTGGCGTGGCGAACTCTATCGCGG -CGGTGGAAGAGGGCTGCGACCGAATCGACGCCAGCCTCGCGGGAATGGGCGCGGGCGCAGGTAACGCACCGCTGG -AAGTGTTTATTGCCGCCGCGGATAAACTGGGCTGGCAGCATGGGACCGATCTCTATGCGTTAATGGATGCCGCCG -ACGACCTGGTGCGTCCGTTGCAGGATCGACCGGTACGAGTCGATCGCGAAACGCTGGCGCTGGGATACGCTGGTG -TTTACTCGAGCTTCCTGCGTCACTGTGAAACGGCGGCGGCGCGTTATGGCTTAAGTGCGGTGGATATTCTCGTTG -AGCTGGGCAAACGCCGGATGGTTGGCGGCCAGGAGGATATGATCGTTGACGTGGCGCTGGATCTGCGCAACAACA -AATAATGATGACTGCCGAGAACGTGCATTTTGTATGCCCATCCCAGCACGACTGCCGGATGCGGCGTGAACGCCT -TATCCGGCCTACGGATGGCGTGAGAATTTGTAGGTCTGATAAGACGCGTTAGCGTCGCATCAGGCATCTGCGCAC -GACTGCCGGATGCGGCGTGAACGCCTTATCCGGCCTACGGATGGCGCGGGAATTTGTAGGCCTGATAAGACGCGT -TAGCGTCGCATCAGGCATCTGCGCACGACTGCCGGATGCGGCGTGAACGCCTTATCCGGCCTACGGGTGGCGCGA -GAATTTGTAGGCCTGATAAGACGCGTTAGCGTCGCATCAGGCATCTGCGCACGACTGCCGGATGCGGCGTAAACG -CCTTATCCGGCCTACGGATGGCGCGGGAATTTGTAGGCCTGATAAGACGCGTTAGCGTCGCATCAGGCATCTGCA -CACGACTGCCGGATGCGATAAACGTCTTGTCCGGCCTACATTTCGCCCGTAGGCAGTCATTAAATAGTTCTGATT -ACGCGGCTGGCAATGTATCAGTCGCGATTCACCTGCACTCGCAACGAGGTTCATCTTATGTCGACTCGTACCCCT -TCATCATCTTCATCCCGCCTGATGCTGACCATCGGGCTTTGTTTTTTGGTCGCTCTGATGGAAGGGCTGGATCTT -CAGGCGGCTGGCATTGCGGCGGGTGGCATCGCCCAGGCTTTCGCACTCGATAAAATGCAAATGGGCTGGATATTT -AGCGCCGGAATACTCGGTTTGCTACCCGGCGCGTTGGTTGGCGGAATGCTGGCGGACCGTTATGGTCGCAAGCGC -ATTTTGATTGGCTCAGTTGCGCTGTTTGGTTTGTTCTCACTGGCAACGGCGATTGCCTGGGATTTCCCCTCACTG -GTCTTTGCGCGGCTGATGACCGGTGTCGGGCTGGGGGCGGCGTTGCCGAATCTTATCGCCCTGACGTCTGAAGCC -GCGGGTCCACGTTTTCGTGGGACGGCAGTGAGCCTGATGTATTGCGGTGTTCCCATTGGCGCGGCGCTGGCGGCG -ACACTGGGTTTCGCGGGGGCAAACTTAGCATGGCAAACGGTGTTTTGGGTAGGTGGTGTGGTGCCGTTGATTCTG -GTGCCGCTATTAATGCGCTGGCTGCCGGAGTCGGCGGTTTTCGCTGGCGAAAAACAGTCTGCGCCACCACTGCGT -GCCTTATTTGCGCCAGAAACGGCAACCGCGACGCTGCTGCTGTGGTTGTGTTATTTCTTCACTCTGCTGGTGGTC -TACATGTTGATCAACTGGCTACCGCTACTTTTGGTGGAGCAAGGATTCCAGCCATCGCAGGCGGCAGGGGTGATG -TTTGCCCTGCAAATGGGGGCGGCAAGCGGGACGTTAATGTTGGGCGCATTGATGGATAAGCTGCGTCCAGTAACC -ATGTCGCTACTGATTTATAGCGGCATGTTAGCTTCGCTGCTGGCGCTTGGAACGGTGTCGTCATTTAACGGTATG -TTGCTGGCGGGATTTGTCGCGGGGTTGTTTGCGACAGGTGGGCAAAGCGTTTTGTATGCCCTGGCACCGTTGTTT -TACAGTTCGCAGATCCGCGCAACAGGTGTGGGAACAGCCGTGGCGGTAGGGCGTCTGGGGGCTATGAGCGGTCCG -TTACTGGCCGGGAAAATGCTGGCATTAGGCACTGGCACGGTCGGCGTAATGGCCGCTTCTGCACCGGGTATTCTT -GTTGCTGGGTTGGCGGTGTTTATTTTGATGAGCCGGAGATCACGAATACAGCCGTGCGCCGATGCCTGACGTGCC -TTATTAGGCAGGGGCGAAAGGGACTTCACCCCAATACACCTACGGCGTTTACAGGTATACTCGCTAAAAATTATT -CAGCGGGTTTGGAAACAAAGATGGCAAAACTTACCTTACAAGAGCAGTTGCTCAAAGCAGGATTAGTCACCAGCA -AAAAAGCGGCGAAGGTGGAGAGAACGGCGAAAAAATCGCGCGTTCAGGCGCGTGAAGCTCGGGCGGCGGTAGAAG -AAAATAAAAAGGCACAGCTTGAGCGTGATAAACAGCTTAGCGAACAGCAAAAACAAGCGGCGTTGGCGAAAGAAT -ATAAAGCTCAGGTGAAGCAGCTTATTGAAATGAACCGAATCACCATTGCCAATGGCGATATTGGTTTTAACTTCA -CTGACGGCAATCTGATTAAGAAGATTTTTGTCGATAAGCTCACACAGGCGCAGTTGATTAATGGTCGTCTGGCGA -TTGCCCGCTTGTTGGTCGATAACAATAGCGAAGGTGAATACGCCATTATTCCCGCCAGCGTTGCCGATAAAATTG -CTCAGCGCGATGCCAGCAGTATAGTGTTGCACAGCGCGCTCAGCGCCGAAGAGCAGGATGAAGACGACCCGTATG -CCGACTTCAAAGTGCCTGATGATTTGATGTGGTAAACATAGATAAGTCGTGCGCAGATGCCTGATGCGACGCTAT -GCGCGTCTTATCAGGCCTACGGTTTATGGGCGAAGTGTAGACCGGATAAGGCGTTCACGCCGCATCCGGCAGTCG -TGCGCCATGCCTGATGCGACGCTTTGCGCGTCTTATCAGGCCTACGGCTTACGGGCGAAGTGTAGGCCGGATAAG -GCGTTCACGCCGCATCCGGCAGTCGTGCTATTATCAACGCATATTCAGTTTATTGGCGTGGTAGGCAATATGCTC -GCCAATAAAACTGGAGACAAAATAATAGCTGTGATCATAACCCTCGTGATAACGGATTAACGTCTTGATATTCAT -CTCCTGGCAGATCTTTTCAAGATTTGGAGTCCGCAGCTGTTCTGCGTAAAAATCATCACTCAACCCCTGATCAAC -CATGATTTCCGCAACGCGTTGACCTTGTGAAATAAGACTCACCGGGTCGTAATCCAACCAGGCATCTTTATTTTC -AGCAAGATATGCAGCAAAGGCTTGCTGTCCCCACGGCACTTGCGATGGGGAGACAATGGGCGAAAACGCCGAGAC -GCTGACATATTCATCTGGGTTACGTAACGCCAGCACCAGCGCGCCCAGCCCGCCCATAGAATGACCAGAGATAGA -CTTTTTGGCCGTTGCCGGAAAATGATGCATCACTAAATCCGGCAGCTCGTTGCGGATATAGTCATACATTTTGTA -ATGTTCATTCCACGGCGCTTGCGTCGCGTTCAGGTAAAACCCGGCACCTTGCCCGAGATCGTAACGGTCAGCATC -TGCGACATGACTGCCTCGCGGACTGGTGTCCGGCGCAACAACAATAATGTTGTGCTCAGCCGCGTAACGCTGCAT -CCCCGATTTAGTAATGAAATTCTGCTCGTTGCAGGTCAGGCCTGAAAGCCAGTACAGCACCGGCAATTTTTCATT -CGCGGCTTTTGGTGGGAGATAGACGCCGACATTCATTTCACATTTCAGTGATTGGGAATAATGCCGATACATATT -TTGCCAGCCGCCAAAGCTGACATGTTTTTCAATGAGTTCCATCAGTCATTATCTCAGGGTTAATCCCCCGGACGG -CTGCCCGGGGAGAGTATTAAGAACCCCCGCCTGAAGTGGACGGGGTAAACCTGCGGGAAATCAGTAACGAATTAC -GGTTCGAATGGATTTGCCTTCATGCATCAGGTCGAAGGCGTCATTAATTTCATCCAGGCTCATGGTATGCGTGAC -AAACGGTTCCAGATCGATATCACCTTTCATCGCATCTTCAACCATGCCCGGTAACTGGGAACGACCTTTCACGCC -GCCAAACGCGGAACCTTTCCATACGCGACCAGTGACCAACTGGAATGGACGGGTGGAGATTTCCTGACCGGCAAC -CGCGACCCCGATGATCACCGACTGACCCCAGCCGCGGTGCGCACTTTCCAGCGCCGCACGCATCACGTTGACGTT -ACCGATGCATTCAAAGGTATGGTCGATACCCCATTTGTTGATATCCAACAGGACATCTTTTATCGGTTTGTCGTA -GTCATTCGGGTTAATGCAGTCGGTAGCACCGAAGCGACGCGCCAGATCGAATTTCTTCGGGTTGGTATCGATAGC -GATAATCCGACCCGCTTTCGCCTGACGCGCGCCCTGAACCACTGCCAGACCAATCGCGCCAAGACCAAACACGGC -AACAGAATCACCTGGCTGGACTTTAGCTGTGTTGTGTACCGCGCCAATACCGGTGGTCACGCCACAGCCCAGCAG -GCAGACGTGTTCATGGTTTGCTTCTGGATTAATTTTTGCCAGAGACACTTCCGCGACTACGGTGTATTCACTGAA -TGTAGAGCACCCCATGTAGTGATAAAGCGGCTGCCCGTTGTAAGAAAAACGGGTGGTGCCGTCTGGCATCAGGCC -TTTACCCTGGGTTTCGCGAACCGCAACACAGAGGTTAGTTTTGCCAGAACGACAGAACTCACACTCGCCGCACTC -CGCGGTGTAAAGCGGGATCACATGGTCGCCAGGTTTGACGCTGGTTACGCCTTCACCGACTTCAACCACAACGCC -GGCCCCTTCGTGACCGAGAACCACCGGGAATACACCTTCCGGGTCATCGCCGGAGAGGGTAAATGCGTCGGTATG -GCAAACGCCGGTATGGGTGACTTTAATTAGCACTTCACCTTTTTTCGGTGGTGCAACGTCAATTTCAACGATTTC -CAGCGGTTTACCGGGAGCAAATGCAACGGCAGCACGTGATTTCATCTCTCGCTCTTCCTCAATATGGTAATAGAT -TCAGCTATTTAAGATAGGCACGAACCAGTTCAATAGTGTCGTCAACGGATTGGCTGACTTCGCGGCTGTAGCAGT -CATTTCGGTCAAACGTTTCCCGGATATGGCTTTCAAGCACTTCTGCCATCAGCCCATTAGCCGCGCCCCGAACGG -CAGCGATCTGTTGGAGTATGGCACGGCATTCGGCATCACCCTCCAGCGACCGTTCCAGAGCATCAATCTGCCCCC -GAATACGACGAACTCGAGTAAGGACCTTTTTCTTCTCTTCCGGAGTACTGGGCATTTCGCACCTCATCATCTGCA -TGCAATATACTATAGGGGGGTATTCTATATGTCAATGCATACCCCCCTATAGTATATAACACTGGAGAATAAAAT -TTATCCGGTGAATGTGGTCGGAAAACAAAGAGGAAAGGGGGGGGGGCTAATCGGCAGGGAAGGCCGCCCCGGATA -GCGGGCGGCAGAAGGAATCAGAATTTCCAGGTCAGACGGGCTGCAAGTTGCAGACCGTTAAAATCATCGGTTGGG -GTGTCGTACCACACTTTACCTGCCGTCAGCCCGAGATTAAGTTGCTCAGTCAGCGGTTGAATACGTTGCAGACTG -ACGCTCTTCATGCTGCCGTAGCGTGTTTCTGGCGTCCAGTCATAGGTGTAAGCACCTGTTCCGCGGCTTAGCCAT -AGTTGCGTATAACCAGTGCCGCGCGGGTCATTCAGACGCACGGAAATCATATTGCTATAACTACCACCTGCATCG -CTGGAGTCATAATGGGTATAGCGGTAGCTGGTGATCACCGGGCCAGTATAGAGTGATACGCCGCCTTGCCAGGCA -TCGACTTCGACATCATCGTAATATTTAGTGTAGCGATAACCGGTCGTGAAAAGCGTTTTTGGTAACAGGGCCAGG -TTAATATCCTGACGAAAATCCTGGCGGGCAAAGACCGGCGTATTATCCGCAAAGGCAATACCCGTTCGGGTTGTC -AGCCAGTTATTCCATTTATACCAGACCGCACCCTGACCGCGAGTGGCATTGAAATGTTCAGTTTCATAATCACGA -CGCCCCTGGGAAAGATTAAAAAGCAGCGTTGCGTTTTCAACTTTCGCCACCAGTTCAGCATACGCTAAATTACGG -TTGCCATGATCGCCAGAATAATCGGTAAAATCGTAGCCCGCGGTAATGGAAGTTAACCCGGCATAAGCGGGCAAT -GCGCTAAAAATGGCCGCCGCTAATAACGTCCGTTTTATCATTTTAATCTCCTGTACGGATAAGTTCTTGTCGGAG -TGAATAAGTTCCGGTAGGTAAATTACGTTCTACAATCACGCGCGGGCCAAGTTGCGTGTTCGGGGAAATAATTCG -CCCAGGCAAAATAATAACTTGTACGCCAAGGCGTGAACGCTGCCCGATATAACAACCTAATTTATCGCATCCGGT -AGCGATAATTCCCTCTGGAGTTCGAACAGACACGGGCTGTTCATCCAGACGATGATTACTGGTACGTACTTGTGC -GCCTAAATATGCCTGGTTTGCAACTACCGAGTCGGCAATAAAACATTGCGGACCAATCGTTGCTTCCGCTTCAAT -AACCGCATTTTTAATCTCGGTGGCAAAACCAATTTTTACGCCATTGCTGATTATTGTGCCAGGACGAATAAACGC -ATAATTACTAGACTGGCCCCCTGAATCTCCAGACAACCAATATCACTTAAATAAGTGATAGTCTTAATACTAGTT -TTTAGACTAGTCATTGGAGAACAGATGATTGATGTCTTAGGGCCGGAGAAACGCAGACGGCGTACCACACAGGAA -AAGATCGCAATTGTTCAGCAGAGCTTTGAACCGGGGATGACGGTCTCCCTCGTTGCCCGGCAACATGGTGTAGCA -GCCAGCCAGTTATTTCTCTGGCGTAAGCAATACCAGGAAGGAAGTCTTACTGCTGTCGCCGCCGGAGAACAGGTT -GTTCCTGCCTCTGAACTTGCTGCCGCCATGAAGCAGATTAAAGAACTCCAGCGCCTGCTCGGCAAGAAAACGATG -GAAAATGAACTCCTCAAAGAAGCCGTTGAATATGGACGGGCAAAAAAGTGGATAGCGCACGCGCCCTTATTGCCC -GGGGATGGGGAGTAAGCTTAGTCAGCCGTTGTCTCCGGGTGTCGCGTGCGCAGTTGCACGTCATTCTCAGACGAA -CCGATGACTGGATGGATGGCCGCCGCAGTCGTCACACTGATGATACGGATGTGCTTCTCCGTATACACCATGTTA -TCGGAGAGCTGCCAACGTATGGTTATCGTCGGGTATGGGCGCTGCTTCGCAGACAGGCAGAACTTGATGGTATGC -CTGCGATCAATGCCAAACGTGTTTACCGGATCATGCGCCAGAATGCGCTGTTGCTTGAGCGAAAACCTGCTGTAC -CGCCATCGAAACGGGCACATACAGGCAGAGTGGCCGTGAAAGAAAGCAATCAGCGATGGTGCTCTGACGGGTTCG -AGTTCTGCTGTGATAACGGAGAGAGACTGCGTGTCACGTTCGCGCTGGACTGCTGTGATCGTGAGGCACTGCACT -GGGCGGTCACTACCGGCGGCTTCAACAGTGAAACAGTACAGGACGTCATGCTGGGAGCGGTGGAACGCCGCTTCG -GCAACGATCTTCCGTCGTCTCCAGTGGAGTGGCTGACGGATAATGGTTCATGCTACCGGGCTAATGAAACACGCC -AGTTCGCCCGGATGTTGGGACTTGAACCGAAGAACACGGCGGTGCGGAGTCCGGAGAGTAACGGAATAGCAGAGA -GCTTCGTGAAAACGATAAAGCGTGACTACATCAGTATCATGCCCAAACCAGACGGGTTAACGGCAGCAAAGAACC -TTGCAGAGGCGTTCGAGCATTATAACGAATGGCATCCGCATAGTGCGCTGGGTTATCGCTCGCCACGGGAATATC -TGCGGCAGCGGGCTTGTAATGGGTTAAGTGATAACAGATGTCTGGAAATATAGGGGCAAATCCAATTACCTATCA -GGCAGTTTGCGCCAATCACTACCGGACCCTGAATAACGGCACCATGACAAATACGGGTATTCGCGCCGATAACAA -CTTCACCTGCAGTTTCATCAATAATTACCTGGTCTGCAATCTGAATATTTTTCTCTTTAACATTAAGCTTCAGAT -AGTTTTTCAGTTCCTGTGACAGAAGGTTGGGAATAAGCGGTTGACGCTTCCACCAGTGCGGAATAGCGGGTGGGT -TTGTCGCGCTGAGGTTCGCGTCCAGTAAAAAAGGCAATAAGTCCATAAATAATCCAGATGGCATAAGCTAATAAT -ACATACACAACGGAAAGCGGCGCTAAAGGCACCAACAACCAGCAACGATGAAACCAGGCGCTAAAAGCACCAATA -ACACAAACTACGCCGACCCAGATAAGCGGAAACATTGCCAACACCACTCCATGCGGCCCGGTGGTGATGAATTCA -TTAAACCAGGTAGTGAGATAAATCCCAACGCCATAAAGCACAACCAACAGCATAGGAAATATACTGAAGATACCG -AAGCGGCTAAATAAAAGTCTTTTATGCAGGCGCATACAGACCGCGTATCCCACAATCCAACGCCGCCAGCGACGC -CACTCCTCACGCGGGCTGTTGCATTCCTGTGGGTATACGATGCAGCGATTCGCCTGCCGAATACGGTAGCCGTTT -GCCACCAATGTCCAGGTGAGATCAAGGTCTTCGACTTTAGTACGATCCGAGAAACCGAACTTACGCAATACATCA -GTACGGAACATCCCGCAGGCACCGCTGATAATAAACGGTGCGCCACCCAGGAGCTGCTGTAGCGTGCGCTTCATA -ACAATCATCGGCAACTTTACGGTCGCGCGGATGTGCGGTAACAGACCCGCGCCTTTCAACGCAGTAGAGGGAATG -CCGCCTACGGCATCGGCACCGCGCTCAATTTCTGCCAGCATATAGCCCATTCCGTCTTGATCGGGCGGAACATAG -GTGTCGGCATCACTTAAAAAAACCTGGTCGCAGGTGGCGTAATTGAGGCCATTCATCAGCGCACCACCTTTACCG -GTATTTTTTTGCGTGACGGCAACAAAGCGGTCGCCCCATTTGCGTTTGACTTCCGCCATGACCGCTTCGGTATTG -TCCGTGGAGCCGTCGTTAACGCAAATTACCCGGCAAAAATAAGGGTTACGCAGTAGATTATCCAGTGACTGCGCC -AGACACGGGCCTTCGTTATACGCAGGTATAATGGCGTCAATACAGCCTTTCTTTTGACTGGGTTTACGTCTTAGC -GTACTTAAAAACCATAGCAACATTGCTATGGACATACAGATAAATATCCAGGTTTTCATGCAATTTGCTCAAAGA -ATCATTTTATGAATTACAAAGCCTTCACCCAGATCGCTATTGACCTGTTGTCCGCGAAATTGTGCAACTGCACGC -AGGCGATCATGACGCATATAATCGCGTCGTTCCTAGCTTTTATGTTTTTTTAATGCAGCAAGTTTGACTGTGAAA -TATTCTTCTTTAACGGATTCAAAAACCTGAGGCATAAATGAAAGCCAGGTACTTGGGGTTTCGTAGCCGAGAATT -TGCGGAATAGTTCGGCAGGCAACCATTGAAGCTTGATAAACAGCAAGATGATCCTGATGGCGGTCGGCATCATGC -ATGGTATATACCCGCATGATTTCAACATCAGAAGGAATTTGATTTTTAATGATGTCTTCCAGGGCGGAAATCATA -TCATTGAGCTGTAAATGAGCGCGGGTGTCAGCAAAATTAAGATGAATAGTTTGGTGGCACCCTAATATCTTTAGG -GCGTTGCGCGATTCTTCATGGCGATCGATTATTCCATCTGTGCCAGAGTTGCCGGTAGTCATCACCACGGCTGCG -ATATAAATTCCTTTTTGCGCAAGACGAGCAAGCGATGCGCCACAGCCTAATTCTATATCGTCAGGATGTGCGCCA -ATAGCAAGGATACCCTTTCTTTTATTTGCCGAAGAAAGGAGGGCTGAATCTAAAACCTTATCCACTTAATGACAC -TCCATTTTATTTATTATACTACAAGCACAACGATGCACTCAGAGACGTAATCTCTGGCGCAGCCAGATGTTAATT -TATAAATGTTAAATGTTGCTAATAACTGAAAAGCAAGGGCTTTCAGACCCGTGGGTTCGACTGGGTAATGTTTCT -ATGCAATTCATATGTTAAGTGTTTGTATGTTTGGTATGTATAGTTATTTTGTTTTATACATTGTATTTAGATGTG -ATTTAGTTTGTCAATTAATTGCATTTAAAAAATATGTTCTGTGAACAAGCATTGTTTATATACATTATGTGAATG -TAATATGCGAGTGATTGAGAATGATACAGTGATATATACAATGCGAATATAATAGTTTTATTATATGTATTGATA -TTGATAGAAATAATGAAGTAATAAATCTCGTAATGTGGTTGTTTATGCATCACTAAAATGAAGTGTAGTAATTTT -CCCAATTGTTAGAACGGAGTAATTGCATATTTAATCTTTCCTTAGCCGTTTTTTTGCTAAGAATAAAATCATCTG -TGCGATAACGACTAATTCTTTTAATGAATGTTTTTATTCCTGAATACTGCTCCCATAACAAGACAGGGGAGCAGA -CAATCATGGCAATTTCATCGCGTAACACACTTCTTGCCGCACTGGCATTCATCGCTTTTCAGGCACAGGCGGTGA -ACGTCACCGTGGCGTATCAAACCTCAGCCGAACCGGCGAAAGTGGCTCAGGCCGACAACACCTTTGCTAAAGAAA -GCGGAGCAACCGTGGACTGGCGTAAGTTTGACAGCGGAGCCAGCATCGTGCGGGCGCTGGCTTCAGGCGACGTGC -AAATCGGCAACCTCGGTTCCAGCCCGTTAGCGGTTGCAGCCAGCCAACAGGTGCCGATTGAAGTCTTCTTGCTGG -CGTCAAAACTGGGTAACTCCGAAGCGCTGGTGGTAAAGAAAACTATCAGCAAACCGGAAGATCTGATTGGCAAAC -GCATCGCCGTACCGTTTATCTCCACCACCCACTACAGCCTGCTGGCGGCACTGAAACACTGGGGCATTAAACCCG -GGCAAGTGGAGATTGTGAACCTGCAGCCGCCCGCGATTATCGCTGCCTGGCAGCGGGGAGATATTGATGGTGCTT -ATGTCTGGGCACCGGCGGTTAACGCCCTGGAAAAAGACGGCAAGGTGTTGACCGATTCTGAACAGGTCGGGCAGT -GGGGCGCGCCAACGCTGGACGTCTGGGTGGTGCGCAAAGATTTTGCCGAGAAACATCCTGAGGTCGTGAAAGCGT -TCGCTAAAAGCGCCATCGATGCTCAGCAACCGTACATTGCTAACCCAGACGTGTGGCTGAAACAGCCGGAAAACA -TCAGCAAACTGGCGCGTTTAAGCGGCGTGCCTGAAGGTGACGTTCCGGGGCTGGTGAAGGGGAATACCTATCTGA -CGCCGCAGCAACAAACGGCAGAACTGACCGGACCGGTGAACAAAGCGATCATCGACACCGCGCAGTTTTTGAAAG -AGCAGGGCAAGGTCCCGGCTGTAGCGAATGATTACAGCCAGTACGTTACCTCGCGCTTCGTGCAATAAAAGGAGG -CGCAGATGCTGCAAATCTCTCATCTTTACGCCGATTATGGCGGCAAACCGGCACTGGAAGATATCAACCTGACGC -TGGAAAGCGGCGAGCTACTGGTGGTGCTGGGGCCGTCCGGCTGCGGTAAAACCACCCTGCTGAATCTGATTGCCG -GTTTTGTGCCTTATCAGCATGGCAGCATTCAACTGGCGGGTAAGCGTATTGAGGGACCGGGAGCAGAGCGTGGCG -TAGTTTTTCAGAATGAAGGGCTACTACCGTGGCGCAATGTACAGGACAACGTGGCGTTCGGCCTGCAATTGGCAG -GTATAGAGAAAATGCAGCGACTGGAAATCGCGCACCAGATGCTGAAAAAAGTGGGGCTGGAAGGCGCAGAAAAAC -GCTACATCTGGCAGCTTTCCGGTGGTCAACGTCAGCGGGTGGGGATTGCTCGTGCGCTGGCGGCGAATCCCCAGC -TGTTATTACTCGACGAACCGTTTGGTGCGCTGGACGCCTTCACCCGCGACCAGATGCAAACCCTGCTGCTGAAAC -TCTGGCAGGAGACGGGCAAGCAGGTGCTGTTGATTACCCACGATATAGAAGAAGCGGTGTTTATGGCGACTGAAC -TGGTTCTGCTTTCATCCGGCCCTGGCCGTGTGCTGGAGCGGCTGCCGCTCAACTTTGCTCGCCGCTTTGTTGCGG -GAGAGTCGAGCCGCAGCATCAAGTCCGATCCACAATTCATCGCCATGCGCGAATATGTTTTAAGCCGCGTATTTG -AGCAACGGGAGGCGTTCTCATGAGTGTGCTCATTAATGAAAAACTGCATTCGCGGCGGCTGAAATGGCGCTGGCC -GCTCTCGCGTCAGGTGACCTTAAGCATTGGCACGTTAGCGGTTTTACTCACCGTATGGTGGACGGTGGCGACGCT -GCAACTGATTAGCCCGCTATTTTTGCCGCCGCCGCAACAGGTACTGGAAAAACTACTCACCATTGCCGGACCGCA -AGGCTTTATGGACGCCACGCTGTGGCAGCATCTGGCAGCCAGTCTGACGCGCATTATGCTGGCGCTATTTGCAGC -GGTGTTGTTCGGTATTCCGGTCGGGATCGCGATGGGACTTAGCCCTACGGTACGCGGCATTCTGGATCCGATAAT -CGAGCTTTATCGTCCGGTGCCGCCGCTGGCTTATTTGCCGCTGATGGTGATCTGGTTTGGTATTGGTGAAACCTC -GAAGATCTTACTGATCTATTTAGCGATTTTTGCACCGGTGGCGATGTCGGCGCTGGCGGGGGTGAAAAGCGTGCA -GCAGGTTCGCATTCGTGCCGCCCAGTCGCTGGGTGCCAGCCGTGCGCAGGTGCTGTGGTTTGTCATTTTGCCCGG -TGCGCTGCCGGAAATCCTCACCGGATTACGTATTGGTCTGGGGGTGGGCTGGTCTACGCTGGTGGCGGCGGAGCT -GATTGCCGCGACGCGCGGTTTAGGATTTATGGTTCAGTCAGCGGGTGAATTTCTCGCAACTGACGTGGTGCTGGC -GGGGATCGCGGTGATTGCGATTATCGCCTTTCTTTTAGAACTGGGTCTGCGCGCGTTACAGCGCCGCCTGACGCC -CTGGCATGGAGAAGTACAATGAGTGAACGTCTGAGCATTACCCCGCTGGGGCCGTATATCGGCGCACAAATTTCG -GGTGCCGACCTGACGCGCCCGTTAAGCGATAATCAGTTTGAACAGCTTTACCATGCGGTGCTGCGCCATCAGGTG -GTGTTTCTACGCGATCAAGCTATTACGCCGCAGCAGCAACGCGCGCTGGCCCAGCGTTTTGGCGAATTGCATATT -CACCCTGTTTACCCGCATGCCGAAGGGGTTGACGAGATCATCGTGCTGGATACCCATAACGATAATCCGCCAGAT -AACGACAACTGGCATACCGATGTGACATTTATTGAAACGCCACCCGCAGGGGCGATTCTGGCAGCTAAAGAGTTA -CCTTCGACCGGCGGTGATACGCTCTGGACCAGCGGTATTGCGGCCTATGAGGCGCTCTCTGTTCCCTTCCGCCAG -CTGCTGAGTGGGCTGCGTGCGGAGCATGATTTCCGTAAATCGTTCCCGGAATACAAATACCGCAAAACCGAGGAG -GAACATCAACGCTGGCGCGAGGCGGTCGCGAAAAACCCGCCGTTGCTACATCCGGTGGTGCGAACGCATCCGGTG -AGCGGTAAACAGGCGCTGTTTGTGAATGAAGGCTTTACTACGCGAATTGTTGATGTGAGCGAGAAAGAGAGCGAA -GCCTTGTTAAGTTTTTTGTTTGCCCATATCACCAAACCGGAGTTTCAGGTGCGCTGGCGCTGGCAACCAAATGAT -ATTGCGATTTGGGATAACCGCGTGACCCAGCACTATGCCAATGCCGATTACCTGCCACAGCGACGGATAATGCAT -CGGGCGACGATCCTTGGGGATAAACCGTTTTATCGGGCGGGGTAATACGAGAGTGGACGGTCCCCTCGCCCCCTT -GGGGAGAGGGTTAGGGTGAGGGGGCGTTCACCGTACTTTCAACAGGTTAACTCCCCCTTTCTGAGAGGAAACAAA -ATTAACGCAGAATCTTCTTCTCAGCCAAATCCAGCGCAAAGTAGCTGAAAATCAGATCCGCACCCGCACGCTTAA -TCGAACCTAAGCTTTCGAGCACGACTTTCTCTTCATCTATAGCACCCGCCAGCGCGGCGAACTTAATCATCGCAT -ACTCACCGCTCACCTGATACGCGCCAATCGGCAATTCAGTACGTTCACGCAGCTCACGCACGATGTCGAGGTACG -CTCCAGCAGGTTTAACCATCAGGCAGTCTGCGCCCTGGGCTTCATCCAGCAGTGATTCACGAATCGCCTCACGAC -GGTTCATTGGGTTCATCTGATAGCTTTTGCGGTCGCCTTTTAATGCGCTTCCGGCAGCTTCACGGAACGGGCCAT -AAAAGGAGGAGGCGAACTTGGTCGAATACGACATAATCGCCGTATCTTTAAATCCCGCAGCGTCCAGCGCCTGAC -GAATCGCCTGTACCTGGCCGTCCATCGCGGCGGAAGGGGCGATGAAGTCTGCACCTGCAGCAGCTGCAACCACGG -CTTGCTTGCCTAAATTTTCCAGAGTCGCGTCGTTGTCGACGCCATGCTCGCACAGCACACCGCAGTGACCGTGAG -AAGTGTATTCACAGAAGCAGGTGTCTGACATAACGATCATTTCTGGCACGGTCTGCTTGCAGATGCGCGACATAC -GCGCCACCAGTCCATCTTCCCGCCAGGCATCGCTGCCGGTTTCATCGGTATGGTGAGAGATGCCAAAAGTCATCA -CGGAACGAATACCGGCGTTGGCGATGCGTTCAATTTCGCGTGCCAGATGTTTCTCTGGAATGCGCATCACGCCTG -GCATGGCTTCAACGGCTTTGTAGTCGTCAATTTCTTCTTCAACAAAGATCGGCAACACCAGGTCGTTAAGGCTAA -GTGTTGTCTCTTCAAACATAGCGCGCAGCGCAGGAGATTTGCGCAGGCGACGAGGGCGTTGGATTAAGTCTGTCA -TGGTCTGCCTGATGTTTGTGGAATCGAGGGGCATAGTATACCTGAAGCAGGGTAGGGATGTTTTACGAAAGTTGT -CGCGATGTTGACAAGAAGAGAATGGAAGAGAGGCCAGGACATCTTTTTAATAGAAACAGCAATAATTTTATATTC -ACTGAAAATATTTTTAATCTTTATTTATAGCTGTTGGTTATTATTTTTTGGAGTTTGGTTGCGCTGCTATAAATT -GAATAATTAAAACTTTGTTGCATATTCATAGGATATTTATCTGGTTTGTGTTTGTGATATTTATTATGCGTATGC -TTCAAAAACAAAATTATCTGCAACATGTTGAAATACTGTGCTTTTATGAATTTGATGCGTGTTTTTCTCCATAAA -TTATATATGTCCACATTCGGACTTAGGGGAAAGAATAATTGAACCATTCGTCTGTAACGCAGCATAATCGTTAGC -GCGAAACATAATATGTTTTCTATGCATTGATAATTGATGGATCAACTTATTACGTCCCTGAGGAGGGATGACAAA -TGCACTCCTGGAAAAAGAAACTTGTAGTATCACAATTAGCATTGGCTTGCACTCTGGCTATCACCTCTCAGGCTA -ATGCAGCAAACTATGATACCTGGACTTATATCGATAATCCCGTTACAGCACTTGATTGGGATCATATGGATAAGG -CAGGCACTGTAGATGGCAACTATGTAAACTATAGTGGTTTTGTCTATTACAACAACACCAATGGTGATTTCGATC -AGTCCTTTAACGGCGATACCGTTAACGGCACGATCTCAACCTATTATTTGAACCATGATTATGCAGACAGTACTG -CTAATCAGCTTGATATCAGTAATTCAGTGATTCACGGTTCGATTACTTCTATGCTGCCTGGCGGTTATTATGATC -GTTTTGATGCAGATGGTAATAATCTGGGTGGATATGATTTTTACACTGATGCGGTTGTTGATACACACTGGCGTG -ATGGTGATGTTTTCACTTTGAACATTGCTAACACTACTATTGATGATGATTATGAAGCTCTTTACTTCACTGATT -CTTATAAAGATGGTGATGTAACCAAGCACACAAATGAGACATTTGATACAAGTGAAGGCGTTGCTGTTAATCTTG -ATGTAGAAAGTAACATCAATATTTCCAATAACTCCCGCGTTGCAGGTATTGCATTATCTCAAGGTAATACTTACA -ACGAAACCTACACTACCGAATCTCATACTTGGGATAACAATATCTCTGTAAAAGATTCCACAGTGACTTCGGGTT -CAAATTATATCCTGGATAGCAATACTTATGGCAAAACTGGTCACTTTGGCAATTCTGATGAACCGAGTGATTATG -CTGGCCCGGGTGATGTTGCAATGTCCTTTACTGCTTCAGGTTCCGACTATGCGATGAAGAACAATGTATTCCTCA -GCAATTCAACGCTGATGGGTGATGTTGCCTTTACCAGCACCTGGAATAGTAATTTTGATCCGAATGGTCATGATT -CCAACGGTGACGGGGTGAAAGATACCAACGGGGGTTGGACTGATGATAGCCTCAACGTTGATGAACTAAATCTCA -CTCTCGATAACGGAAGCAAGTGGGTTGGTCAGGCAATTTATAACGTTGCTGAAACGTCAGCAATGTATGATGTTG -CTACAAACAGCCTTACTCCTGATGCAACATATGAAAACAATGACTGGAAACGTGTTGTTGATGACAAGGTCTTCC -AGAGCGGTGTATTTAACGTAGCGTTGAATAACGGTTCTGAATGGGATACTACAGGTCGTTCCATCGTTGATACCT -TGACAGTTAATAATGGTTCTCAGGTTAATGTTTCGGAATCTAAATTAACTTCAGATACTATCGATTTAACTAACG -GTTCTTCGCTGAACATTGGTGAAGATGGCTACGTTGATACCGATCATCTGACTATTAACTCCTACAGTACTGTTG -CGTTGACCGAATCTACTGGGTGGGGGGCTGATTGATCCTACCCACGTAATATGGACACAGGCCTAAGCGAGGTTC -TTGTTTTCAAATTGTTCCGGACTGAGGCCGCCACACCAACTGTGCCGCCGCCACCGATTGTAATCACATTCGATA -TAATTAAACACCGTTGCCCGCATTATTTCCCGGCTGATAAAGTGTTCTCCATGGATACATTCCACTTTCAGCGAA -TGAAAGAAGCTTTCCACGCAGGCATTATCGTAGCAGCAACCTTTTGCGCTCATACTTCCACGCAGATTATGCCGC -TTCAGTTGCGCCTGATAATCTGCTGAACAGTACTGGCCTCCACGGTCCGTGTGAACGATAACGTTCCGGGGCCTC -TTACGCCGCCACAGCGCCATCTGCAGGGCATCGCAGGCCAGTTGCGCCGTCATGCGTGGCGACATTGACCAGCCA -ATAACGGCACGTGACCACAGGTCAATGACCACTGCCAGATACAGCCAGCCTTCATCTGTACGTAAGTACGTGATG -TCTCCTGCCCACTTCTGGTTCGGGCCACTGGCGTAAAAATCCTGCTCCAACAGATTTTCTGACACAGGCAGGCCG -TGTGCGCGGTAGCTGACCGGGCTGAACTTCCGGGAGGCCTTTGCCCTCAGTCCCTGACGGCGCAGGCTTGCCGCC -ACGGTTTTTACGTTAAAGGGGTAACCCTGAGCACGCAGTTCATCCGTCAGGCGTGGGGCACCGTAACGCTGTTTT -GACCGGGTAAAAGCCGCGAGGACAACGCTGTCGCAGTGTTGGCGGAACTGCTGACGCGTGCTTATCCTTGTCCGC -CGCTGACACCACGTATACCAGCCGCTGCGGGCCACCCGGAGCACGCGGCACATTGCTTTGATGCTGAACTCAGCC -TGATGTTTTTCAATAAAGACATACTTCATTTCAGGCGCTTCGCGAAGTATGTCGCGGCCTTTTGGAGGATAGCCA -GCTCTTCATCCCGTTCTGCCAGCTGGCGTTTGAGACGTGCAATCTCGGTAGACATCTCCAGTTCACGTTCAGAAG -ACGTCTGCTGATTTTGCTGTTTACTGCGCCAGTTGTAGAGTTGTGATTCATACAGGCTGAGTTCACGGGCTGCGG -CAGTAACACCGATGCGTTCAGCAAGCTTCAGGGCTTCACTGCGAAATTCAGGCGAATGCTGTTTACGGGGTTTTT -TACTGGTTGATACTGTTTTTGTCATGTGAGTCACCTCTGACTGAGAGTTTACTCACTTAGCCGCGTGTCCACTAT -TGCTGGGTAAGATCAGATTACAACCTGTACGCCAATACTATCACCGTAACTAACGGCGGTGTATTGGATGTGAAC -GTTGATCAGTTCGATACTGAAGCTTTCCGTACTGACAAACTGGAACTGACCAGCGGCAACATCGCTGACCATAAC -GGTAACGTAGTATCTGGTGTGTTCGATATCCATAGCAGCGATTACGTTCTGAACGCTGATCTGGTGAACGACCGT -ACCTGGGATACTTCCAAGTCTAACTACGGTTACGGTATTGTTGCTATGAACTCTGATGGTCACCTGACTATCAAC -GGTAACGGCGACGTAGACAACGGTACTGAACTGGATAACAGCTCTGTAGACAATGTTGTTGCTGCAACCGGTAAC -TACAAAGTTCGTATCGACAACGCAACTGGCGCTGGCGCTATCGCTGATTACAAAGATAAAGAAATTATCTACGTA -AACGACGTCAACAGCAACGCGACCTTCTCTGCTGCTAACAAAGCTGACCTGGGTGCATACACCTATCAGGCTGAA -CAGCGCGGTAACACCGTTGTTCTGCAACAGATGGAGCTGACCGACTACGCTAACATGGCGCTGAGCATCCCGTCT -GCGAACACCAATATCTGGAACCTGGAACAAGACACCGTTGGTACTCGTCTGACCAACTCTCGTCATGGCCTGGCT -GATAACGGCGGCGCATGGGTAAGCTACTTCGGTGGTAACTTCAACGGCGACAACGGCACCATCAACTATGATCAG -GATGTTAACGGCATCATGGTCGGTGTTGATACCAAAATTGACGGTAACAACGCTAAGTGGATCGTCGGTGCGGCT -GCAGGCTTCGCTAAAGGTGACATGAATGACCGTTCTGGTCAGGTGGATCAAGACAGCCAGACTGCCTACATCTAC -TCTTCTGCTCACTTCGCGAACAACGTCTTTGTTGATGGTAGCTTGAGCTACTCTCACTTCAACAACGACCTGTCT -GCAACCATGAGCAACGGTACTTACGTTGACGGTAGCACCAACTCCGACGCTTGGGGCTTCGGTTTGAAAGCCGGT -TACGACTTCAAACTGGGTGATGCTGGTTACGTGACTCCTTACGGCAGCGTTTCTGGTCTGTTCCAGTCTGGTGAT -GACTACCAGCTGAGCAACGACATGAAAGTTGACGGTCAGTCTTACGACAGCATGCGTTATGAACTGGGTGTAGAT -GCAGGTTATACCTTCACCTACAGCGAAGATCAGGCTCTGACTCCGTACTTCAAACTGGCTTACGTCTACGACGAC -TCTAACAACGATAACGATGTGAACGGCGATTCCATCGATAACGGTACTGAAGGGTCTGCGGTACGTGTTGGTCTG -GGTACTCAGTTTAGCTTCACCAAGAACTTCAGCGCCTATACCGATGCTAACTACCTCGGTGGTGGTGACGTAGAT -CAAGACTGGTCCGCGAACGTGGGTGTTAAATATACCTGGTAATATTCTTCACTCCGAAGAAATACTGGTAATTTA -ATCTAAATAATGCCCGTCAAGGATTTGACGGGCATTACTGCAAAGGACGCGCAAATGTTATCTGTAGTTAAACCT -CTTCAGGAATTTGGTAAGCTCGATAAATGTTTGTCCAGATACGGTACGCGCTTCGAGTTTAATAATGAAAAGCAA -GTTATATTTTCCAGTGATGTCAATAACGAAGATACTTTCGTTATTTTAGAGGGAGTTATCTCTCTGCGTAGAGAA -GAAAACGTACTTATCGGTATTACCCAGGCTCCTTATATTATGGGGCTGGCTGATGGTTTAATGAAAAACGATATA -CCATACAAATTAATATCAGAAGGAAATTGTACGGGATATCATCTACCAGCCAAACAAACCATTACGCTTATTGAA -CAAAATCAACTCTGGCGAGACGCTTTTTACTGGTTAGCCTGGCAAAATAGAATTCTGGAATTACGCGACGTGCAG -CTCATTGGGCATAATTCCTACGAACAAATCCGCGCAACATTATTATCAATGATTGACTGGAATGAAGAATTGCGA -TCACGTATTGGTGTGATGAATTATATCCATCAACGTACACGCATATCGCGTTCTGTCGTCGCAGAAGTTCTCGCT -GCTTTGCGTAAAGGCGGCTATATCGAAATGAATAAAGGCAAACTGGTCGCTATCAACCGTTTGCCTTCAGAGTAT -TAATCAGGACGCGGGGATAACCAACGGTTTATTCCCGCTTAGCTCGGTCACCAGGTCATTGATGCCATCGCTCAT -ATTTTTAAAGCGCGTCAACGGCGAACGAGTGACCACCACAAACGCGCCAATATTCTTCTGCGGGATCATCGCCAT -ATAGGTAATGAAACCGCCACCACCGCCTGTCTTCTGAATAATCCCCGGACGACCCTCTTTCGGGGCCATATATAC -CCAACCTAAACCAAGCGCATCCGCTTTGCCGGGGACATCCATGCCAATCACTTTCGTAAACTGCGCGCGCTGATA -AATCAACGTCTGCATGCGATCTGCCTGGTTACTGCGCTGATAAAAATCAGATGACAAATACTGCTGCATCCAGCG -CATCATATCGCCAGGCGTGGAATAGACGCCGCCGCTGCCAATTGCCGCCAGCGTGTTATTGCACGGACTGGCACC -GCGCTCAGCAACCATTAAACGGCGGCACTGATCCGGTGAGGGGGTGTAGGTGGTGTCTTTCATCCCCAATGGACG -GGTAATCTGCTCTTCAAACAACTGGGTATAAGGCTTGCCGGACGCATTCGCCAGTGCATCTGCCAGCAGGTCGAA -CGCAAGGTTAGAGTACGCCGCCTGACTGCCTGGCGCGGCTTTCAGCTTCGCCGTAGAAAGGTATTTCCAGCGTTG -CTCGCGCGTTGGCCAGACAAACACCGGACGATGTGCCGCGCCACCGGGCTGTTCACGGGGCAGGGCGCTGGTATG -GGTTGCCAGATTGACCAGCGTAATGGGCGTCCCATTGTAGGTTGGCACGCGTGCGCCTGGCGGAGCATATTTACT -TAGCGGATCGTTTAACTTCACGGTCCCCTGGTCGAGCAATTTCACCAGCATCTCACTGGTCATTAGCTTGGTGAG -GGAAGCAATACGCACGACCGAATCCAGCTGCGGGCGAACGTTATTACCAGGTCGCGTTTCGCCATAACTGCGAAA -GACGCGCTGGTTACCGTCGATAACAACCAGAGCCATCCCCGTGGCACCGCTGCCGTAAAAAATATGATCGGCATA -ACGATCGACAATATCAGAGGCAAACTCCGGTTCAGTGATCGGCTGCGCCGCATGGACGGAGGTCAATGACGCCGC -ACACAGCACGGCAGAAAAAAGCAGACTACGTTTCAACGGTGGTGTCCATAGATTGAATGAAGGTAACTGAGCGTA -TTTATACTACTCATTGATAGATTGCAAAGGGCGAATTAGTGCAATAATAGTGTTAAAAACGTAACGGCGCGTAAA -CACGATCTTTTTCCTGCTCACCAATGCCTGCATTTGTGATCCTGCGCGTGTTAATCCGCTTATGTAAACAATCTT -TGGTTTGTGAAATCCGTCGAAACAATTCTTATGGTCAGGCTGGCGAACTAAGCGCCTTGCTATGGGTCACAATGG -GCGGTTTCATTTGGCTGACGCTTTGTAGCGGTCATGCGGTTAATACACAGCAGTTGTTAAAACGATAAGAAGTTA -GCAGGAGTGCATATGTTTAAGTCTTTTTTCCCAAAGCCGGGAACGTTTTTTCTCTCGGCCTTCGTTTGGGCATTG -ATTGCCGTTATCTTCTGGCAAGCCGGTGGGGGTGACTGGGTGGCGCGTATCACCGGCGCTTCCGGGCAGATCCCG -ATTAGCGCCGCGCGTTTCTGGTCGTTGGATTTCCTGATTTTTTACGCTTACTACATTGTTTGCGTAGGACTTTTT -GCATTGTTCTGGTTTATCTACAGCCCGCATCGTTGGCAATACTGGTCAATACTCGGTACTGCACTGATCATCTTC -GTCACCTGGTTTTTGGTGGAAGTCGGGGTCGCCGTCAACGCCTGGTATGCGCCGTTCTATGATCTGATTCAAACC -GCGCTAAGTTCGCCGCATAAAGTCACCATCGAACAATTTTACCGCGAAGTGGGCGTCTTTCTGGGGATTGCGCTG -ATCGCTGTGGTGATCAGTGTGCTGAACAACTTCTTTGTCAGTCACTACGTGTTCCGCTGGCGTACAGCGATGAAC -GAATATTACATGGCGAACTGGCAACAACTGCGTCATATCGAAGGGGCCGCACAGCGTGTGCAGGAAGACACCATG -CGTTTTGCTTCAACGCTGGAGAATATGGGCGTCAGTTTTATCAACGCCATCATGACGTTGATCGCCTTCCTGCCG -GTGCTGGTAACGCTCTCCGCGCATGTGCCGGAGCTGCCGATTATCGGGCACATTCCGTATGGTCTGGTGATTGCC -GCAATCGTCTGGTCGCTGATGGGGACCGGATTGCTGGCAGTGGTAGGGATCAAACTGCCGGGGCTGGAGTTTAAA -AACCAGCGTGTAGAGGCTGCCTACCGTAAAGAGCTGGTTTATGGTGAAGACGATGCCACGCGCGCGACGCCGCCT -ACGGTACGCGAGCTGTTTAGCGCCGTACGGAAAAACTATTTCCGCCTCTATTTTCACTATATGTATTTCAACATC -GCCCGCATTCTCTATTTGCAGGTCGATAACGTTTTCGGTTTGTTCTTGCTGTTTCCGTCAATTGTTGCCGGTACG -ATTACGCTCGGCCTGATGACGCAGATTACCAACGTTTTTGGTCAGGTTCGCGGTGCTTTCCAGTACCTGATTAAC -TCATGGACCACACTGGTTGAGTTGATGTCTATCTACAAACGTCTGCGCAGCTTTGAACATGAGCTGGATGGTGAC -AAAATTCAGGAAGTAACCCATACCTTGAGCTAAAAAGGAGAAGTAATGTCGCGCGTCAATCCTCTATCTTCGCTG -TCATTGTTGGCGGTTCTGGTTTTAGCGGGGTGTAGTAGTCAGGCTCCGCAACCGTTGAAAAAGGGCGAAAAAGCG -ATAGATGTAGCGAGCGTCGTGCGGCAGAAGATGCCTGCGAGCGTGAAAGACCGCGATGCCTGGGCGAAAGATCTC -GCCACCACCTTTGAAAGTCAGGGGCTGGCACCGACGCTGGAAAACGTCTGCTCGGTGCTGGCGGTGGCGCAGCAG -GAGTCAAATTATCAGGCAGATCCGGCCGTTCCGGGCTTAAGCAAGATCGCCTGGCAAGAGATTGACCGTCGTGCT -GAACGGATGCACATTCCTGCTTTTCTGGTTCATACCGCGCTAAAAATCAAATCGCCAAACGGCAAAAGTTATAGC -GAACGGTTAGATTCGGTGCGTACAGAAAAGCAATTGAGCGCGATTTTTGACGATCTGATCAACATGGTGCCAATG -GGGCAGACGCTGTTTGGTTCGCTCAATCCGGTGCGCACCGGTGGGCCGATGCAGGTCAGCATTGCTTTTGCCGAA -CAGCATACCAAAGGGTATCCGTGGAAAATGGACGGTACAGTCCGTCAGGAAGTCTTCAGTCGCCGCGGCGGGTTG -TGGTTTGGTACTTACCATTTACTGAATTATCCCGCCAGTTATAGCGCACCGATATACCGTTTTGCTGATTTTAAC -GCTGGCTGGTACGCCAGCCGTAATGCCGCGTTTCAGAACGCGGTCAGTAAGGCCAGCGGCGTGAAGCTGGCACTG -GACGGTGATTTAATTCGTTACGACAGTAAAGAACCCGGGAAAACCGAACTGGCAACGCGCAAACTGGCTGCAAAA -CTGGGGATGAGCGACAGCGAAATTCGCCGTCAGTTAGAGAAAGGTGACAGCTTCTCTTTTGAGGAGACGGCGCTG -TACAAGAAAGTTTATCAACTTGCCGAAACGAAAACGGGTAAATCACTCCCCCGCGAAATGTTGCCTGGCATTCAA -CTGGAAAGCCCGAAAATCACCCGCAACCTGACTACGGCCTGGTTTGCGAAGCGCGTAGACGAACGGCGGGCGCGT -TGTATGAAACAGTGATCAAACAGGAATGTCAGGCCAGATAAGGCGTTTCAGGCCGCATCTGACAATGTAAAACTT -ACTGGCGGCGATGTCGCCAGTGCAGCCATAGCGCCACCACTGCAAAAATGAGGCAGCCTACTAAAAACGGGATCA -GCCCGAAAATGGTGCCGACACCTAAACCAATTTCCACCCGTGGGCGACCTGTTTCCTGGACCTGCATTAAACGCT -CATAGACGCCGGGCGCATGCACTAACAGGTTCAGCAATTGCGCCCCAGCCCAAAAGCAAAACAGCACAAACAACG -CATAGGCAATGTTGCCAGGCGTTGAAGAGGCATTGCGATATTTTCCGCTAAACAGCGATTTTGACAGGGTGAAAT -CAGCCATAAAAACCTCCGGAAGTCATCTGCTTCTCTTCTGGTGTGATACCAGCGGCTTATGGCAAGTCTGACAGG -TCATTTAGATTGTCAATATCAGAATCATGGTAAATTGATGTTGGGAATATTCCCGAAGCGTGAATCTTCGTTGTG -AGTCACAAAATGGCAACCTTAAGTTAAATTTATTAACAATTACGAAAATGTTGTCTACACCACAGACGGTTGTTG -CAGAATATGCAAGGATGTTGTTTTTCGTTAACGGAGCTGCCATGAATCTGCCTGTAAAAATCCGCCGTGACTGGC -ACTACTATGCGTTCGCCATTGGCCTTATATTCATTCTTAATGGCGTGGTGGGGTTACTGGGATTTGAAGCAAAAG -GTTGGCAGACCTATGCCGTCGGTCTGGTGACGTGGGTGATTAGTTTCTGGCTGGCGGGGTTGATTATTCGTCGTC -GCGATGAAGAAACTGAAAACGCCCAATAAGAATATTATCGGGCGTTAAAATATTACATTGTGGTTTTCAATGCGT -TATCCGCAGCGTGACGCTCCAGCGCCAGTTCAATCAAACGTGTGATCAGATCGGTGTAACCCAGACCGCTGGCTT -GCCACAGCTTCGGATACATACTGATATTAGTGAAGCCAGGCAGGGTGTTGATCTCGTTGATCACCACTTCGTTCT -CTGGGGTTAAAAACACGTCTACACGCGCCATGCCTGCGCATCCCAACGTTTGATAAGCCTGAACGGCAATCGCCC -GGATCTTATCGTTGATTTCTGGCGCAATGGCTGCCGGAACTACCACTTTCGCGCCATCTTCGTCAATGTACTTGG -TGTCGTAGGCATAGAAATCGCTGGTGAGTACGATCTCTCCACAGGTGCTGGCTTGCGGATTGTCGTTGCCCAGAA -CTGCGCATTCGATCTCACGACCTTTGATCCCTTGCTCAACGATCACTTTATGATCGAACTCGAACGCCAGATCGA -CGGCAATTGCGTACTGTTCTTCACTGGTTACTTTGCTGACACCAACAGAAGAGCCCTGATTAGCCGGTTTTACAA -ACAGTGGTAACCCCAGTTTAGACTCCACTTCGGCAAAACTAATGTTGTGACGATTGGCGCGCGTCAGGGTAATAA -ATGGCGCAATGTTCAGCCCGGCATCGCGTAGCAGACGTTTGGTGACATCTTTGTCCATACAGGCTGCTGAAGCCA -GAACATCAGAACCTACAAACGGTAAATTGGCGACCCGCAGCATTCCCTGCAAGGAACCATCTTCGCCCAGCGTAC -CGTGGACAATCGGGAAAATGACATCCACCGTCGGCAACGGCTGACCGTTTTGCGCGTCGATAAGCTGATGCTCAT -GTTTACCTGGCACCTGCGCAAGGCTGGTCGCCGAAGGGCGCAACGCAATATGGGCAGGATCGTCTGCATTTAGCA -GATAATTGCTGGCATCGCTGACGTGCCATTGCCCTTGTTTATCAATGCCCAGCAGCACAACGTCGAAGCGACTTT -TATCAATGGCATCGACAATGTTTTTTGCCGATTGCAGAGACACTTCATGTTCCGCTGATTTACCACCAAAAACGA -TTCCTACCCGCAGTTTTTCCATCTTAAAAACCTATCCCGTCTAACACAAAGTGCATACATTACCACGACAAAACG -GGGGATTCGCGGCCTTCTGAAAGATTGTTGCAATCTTCTGCTGACAAAGCGTGCAACGTACTGGTGAAGAAAGTG -CGTTATCTCAAAGATGTGCGCAAGATCACAAAAATGATGAACGGGAAGCTAATTTATTCCTGGCTTAAATGGCCA -TGCGGTGAGTTTTTTTCTCTTAATTATAAGTTAACGAAGAGAATATATTTCATAACTTTTATTTATAATAAAGGT -TGATAATTAAAAGCCTATATTTTGTGTGGGTAATTATTTAAATAAGAGAAACGTTTCGCTGGTAATCAAACAAAA -AATATTTGCGCAAAGTATTTCCTTTGTCATAAAAATAATACTTCCAGACACTATGAAGTTGTGAAACATAATGTT -AACTTCTCCATACTTTGGATAAGGAAATACAGACATGAAAAATCTCATTGCTGAGTTGTTATTTAAGCTTGCCCA -AAAAGAAGAAGAGTCGAAAGAACTGTGTGCGCAGGTAGAAGCTTTGGAGATTATCGTCACTGCAATGCTTCGCAA -TATGGCGCAAAATGACCAACAGCGGTTGATTGATCAGGTAGAGGGGGCGCTGTACGAGGTAAAGCCCGATGCCAG -CATTCCTGACGACGATACGGAGCTGCTGCGCGATTACGTAAAGAAGTTATTGAAGCATCCTCGTCAGTAAAAAGT -TAATCTTTTCAACAGCTGTCATAAAGTTGTCACGGCCGAGACTTATAGTCGCTTTGTTTTTATTTTTTAATGTAT -TTGTACATGGAGAAAATAAAGTGAAACAAAGCACTATTGCACTGGCACTCTTACCGTTACTGTTTACCCCTGTGA -CAAAAGCCCGGACACCAGAAATGCCTGTTCTGGAAAACCGGGCTGCTCAGGGCGATATTACTGCACCCGGCGGTG -CTCGCCGTTTAACGGGTGATCAGACTGCCGCTCTGCGTGATTCTCTTAGCGATAAACCTGCAAAAAATATTATTT -TGCTGATTGGCGATGGGATGGGGGACTCGGAAATTACTGCCGCACGTAATTATGCCGAAGGTGCGGGCGGCTTTT -TTAAAGGTATAGATGCCTTACCGCTTACCGGGCAATACACTCACTATGCGCTGAATAAAAAAACCGGCAAACCGG -ACTACGTCACCGACTCGGCTGCATCAGCAACCGCCTGGTCAACCGGTGTCAAAACCTATAACGGCGCGCTGGGCG -TCGATATTCACGAAAAAGATCACCCAACGATTCTGGAAATGGCAAAAGCCGCAGGTCTGGCGACCGGTAACGTTT -CTACCGCAGAGTTGCAGGATGCCACGCCCGCTGCGCTGGTGGCACATGTGACCTCGCGCAAATGCTACGGTCCGA -GCGCGACCAGTGAAAAATGTCCGGGTAACGCTCTGGAAAAAGGCGGAAAAGGATCGATTACCGAACAGCTGCTTA -ACGCTCGTGCCGACGTTACGCTTGGCGGCGGCGCAAAAACCTTTGCTGAAACGGCAACCGCTGGTGAATGGCAGG -GAAAAACGCTGCGTGAACAGGCACAGGCGCGTGGTTATCAGTTGGTGAGCGATGCTGCCTCACTGAATTCGGTGA -CGGAAGCGAATCAGCAAAAACCCCTGCTTGGCCTGTTTGCTGACGGCAATATGCCAGTGCGCTGGCTAGGACCGA -AAGCAACGTACCATGGCAATATCGATAAGCCCGCAGTCACCTGTACGCCAAATCCGCAACGTAATGACAGTGTAC -CAACCCTGGCGCAGATGACCGACAAAGCCATTGAATTGTTGAGTAAAAATGAGAAAGGCTTTTTCCTGCAAGTTG -AAGGTGCGTCAATCGATAAACAGGATCATGCTGCGAATCCTTGTGGGCAAATTGGCGAGACGGTCGATCTCGATG -AAGCCGTACAACGGGCGCTGGAATTCGCTAAAAAGGAGGGTAACACGCTGGTCATAGTCACCGCTGATCACGCCC -ACGCCAGCCAGATTGTTGCGCCGGATACCAAAGCTCCGGGCCTCACCCAGGCGCTAAATACCAAAGATGGCGCAG -TGATGGTGATGAGTTACGGGAACTCCGAAGAGGATTCACAAGAACATACCGGCAGTCAGTTGCGTATTGCGGCGT -ATGGCCCGCATGCCGCCAATGTTGTTGGACTGACCGACCAGACCGATCTCTTCTACACCATGAAAGCCGCTCTGG -GGCTGAAATAAAACCGCGCCCGGCAGTGAATTTTCGCTGCCGGGTGGTTTTTTTGCTGTTAGCAACCAGACTTAA -TGGCAGATCACGGGCGCATACGCTCATGGTTAAAACATGAAGAGGGATGGTGCTATGAAAATAACATTACTGGTT -ACCTTGCTTTTCGGTCTGGTTTTTTTAACCACCGTCGGCGCTGCCGAGAGAACTTTAACCCCACAACAACAGCGT -ATGACCTCCTGTAATCAGCAGGCGACGGCGCAGGCGTTGAAAGGGGATGCTCGTAAGACCTACATGAGTGATTGC -CTGAAGAACAGCAAGTCTGCGCCTGGCGAAAAAAGTTTGACGCCACAGCAGCAAAAGATGCGCGAATGCAATAAT -CAAGCAACACAACAATCTCTGAAAGGTGATGATCGTAATAAGTTTATGAGTGCCTGCCTCAAGAAAGCCGCCTGA -TACCTGATAGTGCTAACGGGTGAGCTACGAAAATGGCTCACCCGAAATATCATACTTCTGCCTTTAGCTCCGTCT -CTATAATTTGGGAAAATTGTTTCTGAATGTTCCCAAAAATAATGAATGATGAAAACTTTTTCAAAAAAGCGGCGG -CGCACGGGGAGGAACCTCCTTTAACTCCTCAAAACGAACATCAGCGGTCCGGGCTGCGCTTCGCCCGTCGCGTCA -GACTACCCCGTGCGGTTGGCCTGGCTGGCATGTTCTTACCGATTGCTTCAACGCTGGTTTCACACCCGCCGCCGG -GCTGGTGGTGGCTGGTGTTGGTCGGCTGGGCGTTCGTCTGGCCGCATTTAGCCTGGCAGATAGCGAGCAGGGCCG -TCGATCCGCTTAGCCGGGAAATTTACAACTTAAAAACCGATGCAGTATTAGCGGGAATGTGGGTAGGCGTAATGG -GCGTAAACGTGCTGCCTTCCACCGCGATGTTGATGATTATGTGTCTGAATTTGATGGGGGCAGGCGGCCCCCGTC -TGTTTGTCGCGGGTCTGGTGTTGATGGTGGTTTCCTGCCTTGTCACCCTCGAGCTGACGGGCATTACCGTGTCGT -TCAATAGTGCGCCGCTGGAATGGTGGCTCTCCCTTCCCATTATTGTCATTTATCCTCTGCTGTTTGGCTGGGTCA -GCTACCAGACGGCAACCAAACTGGCGGAACATAAACGCAGGTTGCAGGTCATGAGTACCCGCGACGGCATGACGG -GCGTGTATAACCGACGTCATTGGGAAACTATGTTACGCAATGAATTTGATAACTGTCGGCGGCATAATCGCGATG -CAACGTTACTGATTATCGATATCGACCATTTCAAGAGCATCAACGATACCTGGGGCCATGATGTGGGCGATGAAG -CGATTGTGGCGCTTACCCGACAGTTACAAATTACCCTGCGCGGTAGCGATGTGATTGGTCGGTTTGGCGGCGATG -AGTTTGCAGTAATCATGTCCGGTACGCCAGCTGAGAGCGCCATTACCGCCATGTTACGGGTGCATGAAGGGCTAA -ATACATTACGTTTGCCGAATACGCCACAGGTAACTTTACGGATTAGTGTGGGGGTTGCGCCGCTGAACCCACAAA -TGAGTCACTATCGTGAGTGGTTGAAATCGGCAGATTTGGCGCTTTACAAAGCAAAGAAAGCCGGACGTAACCGCA -CCGAAGTGGCGGCCTGACGTCCGGCGAAAGTCATCAGGATTTGCTGAGTTTTTCTGATTTTTCCATACACTTCGT -CATCGCTTCGATCACTGCAGCACGGAAGCCTTTCTCTTCCAGTACGCGTACCGCTTCAATGGTGGTGCCTCCCGG -TGAGCAGACCATATCTTTCAGTGCCCCCGGATGTTCTCCCGTTTCCAGCACCATTTTTGCGGAACCCATTACCGC -CTGAGCGGCAAATTTATACGCCTGGGCGCGTGGCATCCCGCCCAGCACGGCGGCGTCGGCCATCGCTTCGATAAA -CATAAATACGTAGGCTGGCGAAGAACCGCTCACACCGACCACCGGGTGGATCATCGGCTCAGCAATTACTTCCGC -TTCGCCAAAGCAGCGGAAAATATTCAGCACATCAGCGGTATCTTCTGGGGTTACCAGCGCGTTTGGCGTTACGGA -GGTCATCCCGGCATTAACCAGTGCGGGAGTGTTCGGCATGGCGCGGATAATTTTCCGGTCATGGCCCAGCGCGCG -GGCAAGCTGGTCGAGCGTGACACCTGCAGCAATAGAAACGACCAGAGAGTCTTTATTCAGGCTGGAGGTGATTTC -GCTAAGCACTTTAATCATGATGCCAGGTTTAACGGCAGCAAAAATGATGTCGGCGATTTGCGCCACTTCTTGCGC -CGATTCTGCGGCGTTGATGCCGAACTGGTCATGCAGGGCGGCGACTTTATCCGGGGAGGGGGTGTATACCCAGAT -TTGCCCTGGAAGCACCTGACCGCTGGCAATCAGACCGCCGAGAATGGCTTTTCCCATATTGCCGCAGCCAATAAA -ACCGATTTTCTTTTCCATTGCCTCACTCCTGCCGTGAAATTCATTGTTTTGATAATCGCTGGCAGAAGCATAAAC -AGAACTATGCCGGAAGGCAAAAGCGCGACACAATAGAGGATTACCCAACAAAGGATGACTTTATGACAATTTGGG -TGGATGCCGACGCGTGTCCCAATGTAATTAAAGAGATTTTGTATCGCGCGGCGGAACGTATGCAGATGCCGCTGG -TACTGGTAGCAAACCAGAGTTTACGCGTGCCGCCATCGCGATTTATTCGTACGCTGCGCGTCGCGGCAGGTTTCG -ACGTTGCCGATAACGAAATTGTCCGGCAGTGTGAAGCGGGCGATTTGGTGATCACCGCAGATATACCTTTGGCTG -CTGAAGCCATCGAGAAAGGCGCTGCGGCGCTTAATCCGCGCGGCGAACGTTACACGCCAGCGACCATTCGTGAGC -GCCTGACGATGCGCGATTTTATGGATACCTTACGTGCCAGTGGGATCCAGACCGGCGGACCAGATAGCCTTTCAC -AACGTGACCGCCAGGCCTTTGCCGCGGAGCTGGAGAAGTGGTGGCTGGAAGTGCAACGTAGTCGTGGCTAAATGT -AATTTATTATTTACACTTCATTCTTGAATATTTATTGGTATAGTAAGGGGTGTATTGAGATTTTCACTTTAAGTG -GAATTTTTTCTTTACAATCGAAATTGTACTAGTTTGATGGTATGATCGCTATTCTCATGACACCGGCTTTCGCCG -CATTGCGACCTATTGGGGAAAACCCACGATGACACAACCTCTTTTTCTGATCGGGCCTCGGGGCTGTGGTAAAAC -AACGGTCGGAATGGCCCTTGCCGATTCGCTTAACCGTCGGTTTGTCGATACCGATCAGTGGTTGCAATCACAGCT -CAATATGACGGTCGCGGAGATCGTCGAAAGGGAAGAGTGGGCGGGATTTCGCGCCAGAGAAACGGCGGCGCTGGA -AGCGGTAACTGCGCCATCCACCGTTATCGCTACAGGCGGCGGCATTATTCTGACGGAATTTAATCGTCACTTCAT -GCAAAATAACGGGATCGTGGTTTATTTGTGTGCGCCAGTATCAGTCCTGGTTAACCGACTGCAAGCTGCACCGGA -AGAAGATTTACGGCCAACCTTAACGGGAAAACCGCTGAGCGAAGAAGTTCAGGAAGTGCTGGAAGAACGCGATGC -GCTATATCGCGAAGTTGCGCATATTATCATCGACGCAACAAACGAACCCAGCCAGGTGATTTCTGAAATTCGCAG -CGCCCTGGCACAGACGATCAATTGTTGATTTTCGAGCGCCTATACTTAACGTTCATCCCGTGAAATAAGGAAGAA -CGATGCCAACGAAACCGCCTTATCCTCGTGAAGCATATATAGTGACGATTGAAAAAGGAAAGCCAGGACAGACGG -TAACCTGGTACCAACTCAGAGCCGATCATCCTAAACCAGACTCGTTGATCAGTGAACATCCGACCGCTCAGGAAG -CGATGGATGCGAAAAAACGCTATGAGGACCCTGACAAAGAGTGACCGCATCAGACTGCTCGGAAGGGATTCTGAG -TGCCACTACAAGGGATCTGCGTCACATTTTTCATAATTCATGTTTTTCTAATAATTAGAATATTAAACAATAACA -ATCCATTACTGGAATCATTTGGAATCTTTACATTATGCCGTGCACGTCTGCTGCTACGCTTTTTGTCATTTGTAG -CACAAGTAAGTGTCAGCAGTGGTGCTTCACACTTGCCCGGTAATTAACGACGAAAGAAAAGTAAGGTGGATGAAC -AATGAGTGCGTCGTTGGCGATCCTGACCATCGGCATTGTACCTATGCAGGAAGTTTTGCCGCTCCTGACGGAATA -CATTGACGAAGATAATATTTCCCATCATAGCCTGCTGGGGAAGTTAAGTCGTGAAGAAGTGATGGCGGAGTACGC -GCCAGAAGCAGGCGAAGACACCATTCTCACATTATTAAATGACAACCAGCTGGCCCATGTTTCGCGTCGCAAAGT -GGAGCGTGACCTGCAAGGTGTGGTTGAAGTGCTCGATAATCAGGGTTATGACGTCATTTTATTAATGAGTACAGC -AAACATTAGTAGTATGACTGCGCGTAATACGATCTTTCTTGAGCCGTCGCGAATATTGCCTCCACTGGTTTCCTC -TATTGTTGAAGATCATCAGGTGGGGGTTATCGTTCCGGTTGAGGAGATGCTGCCCGTTCAGGCGCAAAAATGGCA -AATTTTGCAGAAATCGCCGGTATTTTCATTGGGTAACCCCATTCATGATTCAGAACAAAAAATCATTGATGCCGG -GAAAGAATTACTGGCAAAAGGGGCTGATGTCATCATGCTGGATTGTTTAGGATTTCACCAACGTCATCGCGATTT -ACTGCAAAAACAGCTCGATGTTCCTGTCTTGCTGTCTAACGTATTGATTGCACGGCTGGCTGCGGAATTACTGGT -GTAATTTTGCGTGACAGCCAGCGCCTCTGGCCCCTATAGTGAAGTAGATGTTCAACTACCAAACAGGGCCAGTTT -ATGCTTCAAAGTAATGAGTACTTTTCCGGCAAAGTGAAATCAATCGGCTTTTCCAGCAGCAGCACTGGTCGCGCC -AGCGTGGGTGTTATGGTTGAAGGCGAATACACCTTCAGCACCGCTGAGCCGGAAGAGATGACGGTAATCAGTGGC -GCGCTGAATGTGTTACTGCCTGACGCGACCGACTGGCAGGTGTATGAAGCCGGTTCGGTGTTTAATGTTCCCGGT -CACAGTGAGTTTCATCTGCAAGTTGCCGAACCCACCTCTTATCTGTGCCGCTATCTGTAATTCCTCGCCTTCCCC -TTGAACGGGAGGGCATTTTTCTGAAATATCCTTTCTTTAGCCCATAATAATATTTCCTTTGCTGCGATTTTTTCA -ATTTCCGATATATTCATAATTTATCAAGGTTGATATAAATATCAGTGAAGATCTCCAGATATTGTTGCGGAACTG -GCTACGATAAAAGATAAATCAGATGATGAATGGTGGCGTGCATTGCTGCAAAGTCGCAATGATCATTTACGCCAA -ACGGCATTGCGCAACGCACATACCCCGGCGTTGTTGTTAACGACATTGACTGAGCCTCAGGATCGGTCGCTGGCT -ATTAATAATCCACAGCTGGCTGCCGATGTGAAAACGGCGTGGTTAAAAGAGGATCCATCATTACTCTTATTTGTC -GAACAACCCGATCTTTCGCTGTTACGTGATTTAGTGAAAACCGGGGCAACGCGGAAAATTCGCAGTGAAGCGCGT -CACCGGCTTGAGGAAAAACAATGACACAACGTCCATGGAGCAAGTTACAGCGTAAAACGCATAATATTGCTGCGC -TAAAAATTATTGCTCGCCGTAGCGAATAATTATATGCCTGGTGTGGCTTCGTACGCCGGATAAGACGCGGCAGGC -GTCGCATCCGGCATTAAAGGAAAATCAGCAATTAACGTTGTGCTTCGCCACCTAATCCTTCAATCAGGTTTTGAA -TTAACGCTGCCAGTTCACCAGTCATCAGGATGAAATCGGCATCAAAACGCTGGGCGAAATCTTCACGGTCGATAT -CTTCGTTTTGATCGCGCAGCTCGTCGCAGAACTTCAGACGCTTGAGCGAACCATCGTCGCACATCACAAACTGAA -TGCGCTGCTGCCAGTCGAGCGCCAGTTTAGTCACCACTTTTCCGGCTTCAATGTGATTGGTGATCTCTTCGCTGG -TCAGATCTTGTTTCTTCGCGCGGATCACGCCGCCATCTTCCAGCAACGATTTCAGCTCGGCTTCATCAAGCAGCT -GGAAGCCCTGTGCCGCACTACCGGAGCGAACCCATTCGGTCAGCGTCAGTTCAATCGGGTTTTCCATGCTCAATG -GTACAACCGGTAACGACCCCAGGCTTTTACGCAGTAATGCCAGCGTATCTTCCGCTTTTTTGGCACTGGCGCAGT -CCACCATAATCAAACCGTTAACCGTGTCGATCCACATCATTGTCTGGCTAAAACGGCTGAAAGCACGCGGCAGCA -GAGAGTGCAGCACTTCGTCTTTCAGCGAATCTTTTTCGGTTTTCTTCAGCTTACGCGCCTGTTCCGCTTCCAGTT -TGGCGATTTTCGCTTCCAGCGCCTGTTTAATCACCGGAGACGGGAGGATTTTTTCTTCTTTGCGCGCGCAGATAA -CAATTTGACCATTGGCAACGTGCGTTAACGCATCGCTGTGCGATCCCATCGGAGGAACCCAGCCCATCTTCGCCA -TGTCCTGGCTGCCGCATGGGGTAAATGCCATCGAGGCTAGCTGTTTTTCCATCTCTTCTGCACGCAGCGAAATCT -CGCGGCTAAGACGGTAAACCATTAAATTTTTGAACCACAGCATGATAATTTCCACGGCCTTGTCGTTAAATTTAG -CGGGCATGATAACGAATTGTCGGCGGCCTTGCATTGCCAATCCGGTTGTCCGTCTCTACGCTATTGATATTGAAA -AAAATAAGGAGAGTACCGTGCGTATAGGTATCGATTTAGGCGGCACCAAAACTGAAGTGATTGCACTGGGCGATG -CAGGGGAGCAGTTGTACCGCCATCGTCTGCCCACGCCGCGTGATGATTACCGGCAGACTATTGAAACGATCGCCA -CGTTGGTTGATATGGCGGAGCAGGCGACGGGGCAGCGCGGAACGGTAGGTATGGGCATTCCTGGCTCAATTTCGC -CTTACACCGGTGTGGTGAAGAATGCCAATTCAACCTGGCTCAACGGTCAGCCATTCGATAAAGACTTAAGCGCGA -GGTTGCAGCGGGAAGTGCGGCTGGCAAATGACGCTAACTGTCTGGCGGTTTCAGAAGCAGTAGATGGCGCGGCAG -CGGGAGCGCAGACGGTATTTGCCGTGATTATCGGCACGGGATGCGGCGCGGGCGTGGCATTCAATGGGCGGGCGC -ATATCGGCGGCAATGGCACGGCAGGTGAGTGGGGACACAATCCGCTACCGTGGATGGACGAAGACGAACTGCGTT -ATCGCGAGGAAGTCCCTTGTTATTGCGGTAAACAAGGTTGTATTGAAACCTTTATTTCGGGCACGGGATTCGCGA -TGGATTATCGTCGTTTGAGCGGACATGCGCTGAAAGGCAGTGAAATTATCCGCCTGGTTGAAGAAAGCGATCCGG -TAGCGGAACTGGCATTGCGTCGCTACGAGCTGCGGCTGGCAAAATCGCTGGCACATGTCGTGAATATTCTCGATC -CGGATGTGATTGTCCTGGGGGGCGGGATGAGCAATGTAGACCGTTTATATCAAACGGTTGGGCAGTTGATTAAAC -AATTTGTCTTCGGCGGCGAATGTGAAACGCCGGTGCGTAAGGCGAAGCACGGTGATTCCAGCGGCGTACGCGGCG -CTGCGTGGTTATGGCCACAAGAGTAAAAAACGTAGGCAATTGGCGCATCATGCCTGATGCGACGCTTGCCGCGTC -TTATCAGGCCTACAAAAGGTGCCAGAACCGTAGGCCGGATAAGGCGTTCACGCCGCATCCGGCAATAAGTGCTCC -GATGCCTGATGCGACGCTTGCCGCGTCTTATCAGGCCTGCAAAATGTGCCAGAACCGCGTAGGGCGGATAAGGCG -TTCACGCCGCATCCGGCAATAAGTAATGAGCACCGAGACTATAACCTACCCCAGTGGTTTCGCCAGCACCGGAGT -ATCCGCCGCTTGCTGGCGCTTATAGCGACCATACAGCAGCAACGACGACATCGCAGCAAACGAAAGCAGGGCGGC -AGGCAGCGCCACGTAATTATATGCCAGCCCCAGCGTCAGCATCATACCTCCGCAATATGCGCCGACGGCGCTACC -GAGGTTAAACGCTATTTGCCCACCTGCGGCACCTAATAACTCTCCGCCTTTGGCGTTTTGTAGTAACAATATTTG -TAGCGGTGCTGAAAGGGCAAATAATCCCGCGCAACAAATAAAAGCAAAAATAAGCGACGTTGTTTTCATGCCGCC -GCAGAAAAAGAGCATCAGCAGTGCCAGTACAATTATAAAGTCAGTCACTGCTGCAATGCGCAGTGGTGAATAACG -TCCTGAAATCCTGCCACTTAGCATATTTCCCAGCACCATCCCTAGCCCAACTAACATCATAATAAAGGTCATCGC -CGTTTCCGAAAAACCGGAAATAAACATCATGTATGGCTTTACGTAGCTGAACCAGGCAAACACACCTGCGTTGCC -AAACATCGTGGCGGCGAAAATTAACCACGGGGCCGGGCTGCGCAAAAAGTGAAATTGTTCGCGCAGATTTCCTTT -CGCCTCGTCGCGAATATCTGGCACCCAAAAATAGACCGATGCCATCACCGCAATATTAAAAACAGCGATCAATAA -AAAGGTGTAACGCCAGCTAAATTCCTGACTTAAATACGTTCCCAGCGGAATGCCCAGCAAATTGGCGACTGTCAT -CCCGGAAACCATCCCCGCCACGGCGGCGGTGACTTTTCCGGGTTTGATAATTTTTGATAACACGATCGCTCCGAC -GCCAAAAAATGCGCCATGCGGAAAGCCGGATACCAGCCGACCAATGGCGAGCATCAGGTAAGACGAAGAGAGCGT -GAACATGGCGTTGCCAATGACGCACAACGCCACCAGAAACAACAAGATATGTTTGAGTGAGTAGCGGCTGGAAAA -GAGTGCGATGATTGGCGCACCGACCACCACCCCCAGTGCATAATACGAGATCATATGCCCGGCGGCAGGAATCGA -AATTCCTACGTTATGCGCCAGCTCCGTGAGCACGCCCATAATGCCAAATTCGGCCATCCCCAAACCAAACGTGCC -CAGAGCCAAAGATAAAATGACTTTTTTCATACCACCATCACAACCACCAGAACGGCTACCAATCACCGTAGCCAA -TAAAGTGATAGCTTGCAGGATAACGACCAGCAAGGCCAAGAGATAATTCGCCCCTCTGTATTCATTATCCTGCTG -AATAGTTATTTCACTGCAAACGTACTTTCCAGTTTGCTGTAGCCCAGGCCGTTGATCTTTTTCACTTTGATCTGC -ACCGGAATACGCTCTTTCATCGCTTCTACGTGGCTAATCACACCGATGGTTTTGCCACTGGCGTTCAGGGCATCC -AGCGCATCAAGGGCGGTATCCAGCGTTTCGCTATCCAGCGTGCCAAAACCTTCATCAAGGAACAGCGAGTCAATA -CGTGTTTTATGGCTGACCAGATCCGAAAGCGCCAGCGCCAGCGCCAGACTAACGAGGAAACTTTCGCCGCCGGAA -AGGGTACGGGTATCGCGTACCGCATCTGCCTGCCAGGTATCAACAACCTCGACTTCCAGCGCCTCGCTGGCTTTG -CGCTGTAACAGATAGCGCCCGTGCAGCCGGGTAAGTTGCTGATTAGCGAGATGGACTAAATTATCCAGCGTCAGC -CCCTGGGCAAACTTGCGGAATTTATCGCCCTCTTTGGAACCTATTAGCGAATTCAGATATCCCCAGTCCTCAACC -TGCTGCGTCATTTGAGCAATTTGCTGCATTAAGGTTTGTTGTTGCTGACGGTTATCTGCATCCTGCTTCAGCTGC -TGGCGAATCTCGCCTTGACTCGTGGTGTTTTCACGCAACTTTTGGTGAGTTTGCGCTAACTCTTGCTGAATCTGC -TCCACCGTCACAGTGAGAGCCAACCCGTCGTCAGGTCGGTGTTGTTGATGCTGTGCCAGCGTTTCTGCTGTCTGA -GTGACCAGAGTTTGCGCCTGACGGCGCTGGTTTTCCAGATTCTGCTTGAGCTGTTCCAGCTGCGTTAGTGTTTGT -TCATCCATTAGCGCCGCAAGGAACGCCTGCTGATCGTCAAAGACGCTGGCCTGTAGCGCGGTGTCAAACTGCGCC -TGGGCTTTTTGCAGACTTTGCGCCGCCAGAACATCCTGTTGCTGTAACGTCTGCTGCTGGCTGTGTAATGCGAGA -CATTGTTCATGTACCTGCCGCCAGTTTTCCAATACCACAGTTTCTTCGCAGTGCGGGAGTTCATCACTTTGCGGC -AACGTTTCCAGAATCGGCGTCAGCTGCTGAATACGGTTTTGCAGCGCGGTTAATTCGTTCTGGCGTTGCTGCCAG -CTCTGCGCTTCTTGCTGACGTGTCGCCAACCAGCTCTCTTCTTCATCTTCCTGTGGCAATGTCAGTGCATAACCC -GTCAATGTCGTTAAAAGTAGTTGCTGGCGTTGTTCAATTTGCTGTTGATACTGGATAATTTGCTGATTATGCGCG -GCAATCTGCCCTTGTAATTCATGCCGTTGGCTGAGTAACCGCAGCTGGCGTTCGTGCTCATCTTGTGCATCCAGC -CACGGTTGAATATCGTCCAGTGGCTGCAAGGTGATATTGAGGCTGGCCGTGACGGCTTGCCATTGTTGAGTAAGT -GCTTGCTCATCTTGTCGGAGGCTTTGCGCTTCGTTTTCATCACGCTGAAGCTGCTTTGTTATGGCGTCCAGTTGC -CCACGTAGCGTCGCACCTTCTTCACCGAGCTTTTTAACTTCGTTTTCCAGCGCCAGTAATCGAGACTGATTAACG -CCAGGCTCCAGCGCCTGATACGCCTCGACCGCCGGGTGGCTGGTGGAACCACAAAGTGGGCAAGGCTGACCCGCC -TGTAACTGTGCACGTTGAGCTTCCAGCGTTTTGATGCGCGCTTCCTGCTCGCAAATGGTTTTCACATCGGCAAGT -TGCTGCGTCTTTTCTTTATAACGCTGGCGCATTTCGTTAAGTGCGGCGTTACGTTGCGTCTGTTCTTGCGTGACA -TTCTGGATAGCGACCTGTAACTGCGCCAGACGTTTTTGTTGGGGAACAATCTGTCCATGCAGCGCGACCAGGTGC -TGACGCAGTGGGCGTTGCTCAGCATGTTGCGCCAGGGCGGTAGCAACTTCATCGGCGGTTAACGTCAACGTGATC -GCCGCAAGCGCATTAAGTTTTTGCTCAGCATGGGTTAACTGTTGCTGCCATTGCCGCAGATGCTCGCGATCGCTG -GTTTGTTGGGAGAACTGCGCACGCCAACCCGCCGGTTCGTTGTTCCACTGACGGAAGCGGTCGTGTTCCTGTAAC -CAGGTATTCAGGCTTTGTTGCTGCTGCTGTAATTCTGCTGACTGCTTCGCCGCGTGGTGGCGAATGCTCGCGCGA -AGCGCCATTGTGCTCTGTAAGCGAGTATTTACTTCTTCAATCTGCTGGCGAATATGCGCCAGCGCCGCGCTGTGT -TCTGCGATGCGTTCCCAGTGTGGACGAAGATTTCGTGCCGGTTGTGCCAGACTAAGCGCCGCCAGTTGAGGTTGC -GCTTTTTCTTCTTCGGCTAACGCCTGTTGCAAGGCCTGCTGACGGCGGCTGGCTTCTTGCTGCAATTCGTCCTGA -CGCGTTAACCAGTTTAGCGATTGTTGTTCTTGCTGCTGCGCGGTAATTAACTGTTTTTCTTCGTCAGTAAGTACC -TGCAAACTCGCTGTCAGCGATTGCACTTGTTCCGGCGTGAGCAACGTGACGCCGCTGGCCTGCGCTTGCAGCTTC -TCCAGCTCTGTGCGGGCCGATTTGTGCTGCTCAAAAACCATCGCCGAGATTTGCCCGTAGATTTCAGTGCCGGTT -AACTCCTCGAGCAATTCCGCGCGTTCTTTGGGTTTGGCATTCAGGAAGGCAGCAAATTGCCCCTGCGAAAGCAGC -ATCGAACGGGTGAAGCGCCCGTAATCCAGCCCGGTTAACGTCGCTGTCAGTTCCAGCTTATCTTTCACTTTGTCG -GCGAGAATTTTGCCGTCGGCGCAGCGCGCCAGCTCTACGCGTGGCACCTGCAAATTACCGTCGGGTTGGTTACGC -GCCCGATTCTGGCTCCAGAATGCACGGTACGCTTCACCTTTCACTTCAAACTCCACCTCCGCCAGACATTCGGCG -GTATCGCGGGTCATGAGATCATTTTGCGATTGTGAAACGTTAGAGAGACGCGGAGTTTCGTGATACAGCGCCAGA -CAAATGGCGTCCAGCAGGGTGGTTTTCCCCGCACCTGTTGGGCCGGTAATAGCAAACAGCCCGTTGCTGGCGAAC -GGCTCGCGGGTGAAATCAATCTTCCATTCGCCTTTTAATGAGTTCAGGTTTTTCAGGCGCAGGCTGAGAATTTTC -ATGCTTCGTGTTCTCCGGCGAGGGTATGCAACGTCGTGGTGAAAAGATGCTGCAGACGTTGCTGCTGCGATTCAT -CCAGTTCTTCCAGTGCCAGACGGCGATTGAACACCTCTTCGACGCTGAGTTCGCTGAGGGTTTCACGCTGTTGGC -TGGCTAACACACGCTCGCGCTGTTCACGACTCCGACGTACCAGCAATACTTCGACAGGCAATGATTCGGTTAATG -CCTGGATTTTGCGCTGAATATCATGCAGATACTCATCAGTAGTGATTTCGATATCCAGCCAGACAGGTGGCTCCT -GCGATACATCGCGCCACTGTTCCAGCTGTGCGGTAATCGACGCCAGATCGCCTTTCAGCACTGCCATGGGTTGCG -TTACCGGTACGTTCAGGTTTTCCACGCTCTCTAATTTGCCGTTTGAAAATGTCACCAGATGGACATATTTACTCT -TACCGCATTCATCAAAACTCAGTGGAATGGGGGAGCCGCAATAGCGAACATGTTCCATGCCGCCAATAATCTGTG -CGCGGTGAATATGCCCGAGCGCGATGTAGTCGGCTGGTGGAAAGTTTTGTGCCGGAAACGCGTCCAGCGTGCCAA -TATAAATGTCACGCACGGCGTCACTTTTACTGGCCCCCACGGTCGTTAAATGTCCCGTGGCGATGATGGGCAGAG -GCTGATCGCCGCGCAGTTTGCAGGCATCGGCATAGTGTTGTTGGTAATAATCGGTAATCGCTGCCAGTAAATGCT -GCTGTTTTTCAATACCGTTAAGCCCCGCCTGGCTGGTAATAATGTCACGCGGACGTAAAAACGGAATGGGGCACA -GCACTGCGCCTGGCGTCCCGTCGCGACGAGGCAAGATTTGCGGCGCATGTCCGGCGCTGGCGACCACGGTAGTAT -TGAGGAACGCCATGATATCGCGCGATTCATTCAGCGTGGCGACCGAGTCATGGTTTCCTGCCAGTACCACCAGAT -GACAGCCAGTTTGCTGTAAATTGACAACAAAACGGTTGTATAACGTGCGGGCGTAACTGGGCGGCGAGCCGGTAT -CGAAAACATCACCGGCAACAATAATCGCATCCACCTGATGGGTTTGTGCTGTCTCCAGCAGCCAGTCAAGAAAAG -CCTGATGTTCAGCTTCGCGGCTTTTACTGTAGAAGTTCTGGCCGAGATGCCAGTCTGAGGTGTGAAGGATGCGCA -TAACGGTTCCCTGGCGAAAAAGCATGGGCGCGATTATACCCAAACAGATGTGCCATTTGCTTTTTTCTGCGCCAC -GGAAATCAATAACCTGAAGATATGTGCGACGAGCTTTTCATAAATCTGTCATAAATCTGACGCATAATGACGTCG -CATTAATGATCGCAACCTATTTATTACAACAGGGCAAATCATGGCGAGACGTATTCTGGTCGTAGAAGATGAAGC -TCCAATTCGCGAAATGGTCTGCTTCGTGCTCGAACAAAATGGCTTTCAGCCGGTCGAAGCGGAAGATTATGACAG -TGCTGTGAATCAACTGAATGAACCCTGGCCGGATTTAATTCTCCTCGACTGGATGTTACCTGGCGGCTCCGGTAT -CCAGTTCATCAAACACCTCAAGCGCGAGTCGATGACCCGGGATATTCCAGTGGTGATGTTGACCGCCAGAGGGGA -AGAAGAAGATCGCGTGCGCGGCCTTGAAACCGGCGCGGATGACTATATCACCAAGCCGTTTTCGCCGAAGGAGCT -GGTGGCGCGAATCAAAGCGGTAATGCGCCGTATTTCGCCAATGGCGGTGGAAGAGGTGATTGAGATGCAGGGATT -AAGTCTCGACCCGACATCTCACCGAGTGATGGCGGGCGAAGAGCCGCTGGAGATGGGGCCGACAGAATTTAAACT -GCTGCACTTTTTTATGACGCATCCTGAGCGCGTGTACAGCCGCGAGCAGCTGTTAAACCACGTCTGGGGAACTAA -CGTGTATGTGGAAGACCGCACGGTCGATGTCCACATTCGTCGCCTGCGTAAAGCACTGGAGCCCGGCGGGCATGA -CCGCATGGTGCAGACCGTGCGCGGTACAGGATATCGTTTTTCAACCCGCTTTTAACGCCTTGCTCATCGGACGCA -GAGCAGGGCTTATGATTTCTTAACTGGAGTATCTTACGTGCTGGAACGGCTGTCGTGGAAAAGGCTGGTGCTGGA -GCTGCTACTTTGCTGCCTCCCGGCTTTCATCCTGGGTGCATTTTTTGGTTACCTGCCCTGGTTTTTGCTGGCATC -GGTAACAGGACTGCTTATCTGGCATTTCTGGAATTTATTGCGCCTTTCATGGTGGCTGTGGGTGGATCGCAGTAT -GACCCCGCCACCGGGGCGTGGTAGCTGGGAACCGCTACTATACGGCTTACACCAGATGCAGCTGCGAAATAAAAA -ACGCCGCCGTGAACTGGGCAATCTGATTAAACGCTTTCGTAGCGGCGCGGAGTCGCTGCCCGACGCGGTGGTGCT -GACCACGGAAGAGGGCGGTATTTTCTGGTGTAACGGTCTGGCGCAACAAATTCTTGGTTTGCGCTGGCCGGAAGA -TAACGGGCAGAACATCCTTAACCTACTGCGTTACCCGGAGTTTACGCAATATCTGAAAACGCGTGATTTTTCTCG -CCCGCTCAATCTGGTGCTCAACACCGGGCGGCATCTGGAAATTCGCGTCATGCCTTATACCCACAAACAGTTGCT -GATGGTGGCGCGTGATGTCACGCAAATGCATCAACTGGAAGGGGCGCGGCGTAACTTTTTTGCCAACGTGAGCCA -TGAGTTACGTACGCCATTGACCGTGTTACAGGGTTACCTGGAGATGATGAATGAGCAGCCGCTGGAAGGCGCGGT -ACGCGAAAAAGCGTTGCACACCATGCGCGAGCAGACCCAGCGGATGGAAGGACTGGTGAAGCAATTGCTGACGCT -GTCGAAAATAGAAGCCGCACCGACGCATTTGCTCAATGAAAAGGTTGATGTGCCGATGATGCTGCGCGTTGTTGA -GCGCGAGGCTCAGACTCTGAGTCAGAAAAAACAGACATTTACCTTTGAGATAGATAACGGCCTCAAGGTGTCTGG -CAACGAAGATCAGCTACGCAGTGCGATTTCGAACCTGGTCTATAACGCCGTGAATCATACGCCGGAAGGCACGCA -TATCACCGTACGCTGGCAGCGAGTGCCGCACGGTGCCGAATTTAGCGTTGAAGATAACGGACCGGGCATTGCACC -GGAGCATATTCCGCGCCTGACCGAGCGTTTTTATCGCGTTGATAAAGCGCGTTCCCGGCAAACCGGCGGTAGCGG -ATTAGGGTTAGCGATCGTGAAACATGCTGTGAATCATCACGAAAGTCGCCTGAATATTGAGAGTACAGTAGGAAA -AGGAACACGTTTCAGTTTTGTTATCCCGGAACGTTTAATTGCCAAAAACAGCGATTAATCCGCCTTTGTCATCTT -TTATTGCCATAAGCCAGTCGATGCTGGCTTATTTTCTTTGCAGTCAAAATACGGGCGTTAGATTTTACAACGATT -GGTGATTTTTTGTTCGCATGATTAGCCATGTCTTTTTCACGGAAATAGTGTTTTATACTGGTTGGTGATTTCTTA -TCGCTATATACCTCTGGTTTTTAGATCCCTCCTTGCTTTAAAACGTTATAAGCGTTTAAATTGCGCTTCAGGTGC -TGTCATACTGACTGCATTAACGCGGTAAATCGAAAAACTATTCTTCGCCGCGCCTGGTTGGGAGTATTTCCCGCT -AAAATTGTTTAAATATACCGCTGTATCATCCCCAGGGATTGGCACAAAAATTTAACGTTACAACACCACATCCAC -AGGCAGTATGATTTATGACCCATCAATTAAGATCGCGCGATATCATCGCTCTGGGCTTTATGACATTTGCGTTGT -TCGTCGGCGCAGGTAACATTATTTTCCCTCCAATGGTCGGCTTACAGGCAGGCGAACACGTCTGGACTGCGGCAT -TCGGCTTCCTCATTACTGCCGTTGGCCTGCCGGTATTAACGGTAGTGGCGCTGGCAAAAGTTGGCGGCGGTGTTG -ACAGCCTCAGCACGCCAATCGGTAAAGTCGCTGGCGTACTGCTGGCAACGGTTTGTTACCTGGCGGTGGGGCCGC -TTTTCGCTACGCCGCGTACAGCTACCGTTTCCTTTGAAGTGGGGATTGCGCCGCTGACGGGTGATTCCGCGCTGC -CGCTGTTTATCTACAGCCTGGTCTATTTCGCTATCGTTATTCTGGTTTCGCTCTATCCGGGCAAGCTGCTGGATA -CCGTGGGCAACTTCCTTGCGCCGCTGAAAATTATCGCGCTGGTCATCCTGTCTGTTGCCGCTATTGTCTGGCCGG -CGGGTTCTATCAGCACGGCGACTGAGGCTTATCAAAACGCTGCGTTTTCTAACGGCTTCGTTAACGGCTATCTGA -CCATGGATACGCTGGGCGCAATGGTGTTTGGTATCGTTATTGTTAACGCGGCGCGTTCTCGTGGCGTTACCGAAG -CGCGTCTGCTGACCCGTTATACCGTCTGGGCTGGCCTGATGGCGGGTGTTGGTCTGACTCTGCTGTACCTGGCGC -TGTTCCGTCTGGGGTCAGACAGCGCGTCGCTGGTCGATCAGTCTGCAAACGGCGCTGCTATTCTGCATGCTTACG -TTCAGCACACCTTTGGCGGCGGCGGTAGCTTCCTGCTGGCGGCGTTAATCTTCATCGCCTGCCTGGTAACGGCAG -TTGGCCTGACCTGTGCTTGTGCAGAATTCTTTGCCCAGTACGTACCGCTCTCTTATCGTACGCTGGTGTTTATCC -TCGGCGGCTTCTCGATGGTGGTTTCTAACCTCGGCTTAAGCCAGCTGATCCAGATCTCCGTACCGGTGCTGACCG -CTATTTATCCGCCGTGTATCGCACTGGTTGTATTAAGTTTTACACGCTCATGGTGGCATAATTCGTCCCGCGTGA -TTGCTCCGCCGATGTTTATCAGCCTGCTTTTTGGTATTCTCGACGGGATCAAAGCATCTGCATTCAGCGATATCT -TACCGTCCTGGGCGCAGCGTTTACCGCTGGCCGAACAAGGTCTGGCGTGGTTAATGCCAACAGTGGTGATGGTGG -TTCTGGCCATTATCTGGGATCGCGCGGCAGGTCGTCAGGTGACCTCCAGCGCTCACTAAATCACTGAACATTTGT -TTTAACCACGGGGCTGCGATGCCCCGTGGTTTTTTATTGTGTTGATGGGTTAGGAATTGATGGAAAGTAAGAACA -AGCTAAAGCGTGGGCTAAGTACCCGCCACATACGCTTTATGGCACTGGGTTCAGCAATTGGCACCGGGCTGTTTT -ACGGTTCGGCAGACGCCATCAAAATGGCCGGTCCGAGCGTGTTGTTGGCCTATATTATCGGTGGTATCGCGGCGT -ATATCATTATGCGTGCGCTGGGGGAAATGTCGGTACATAACCCGGCCGCCAGCTCTTTCTCGCGTTATGCGCAGG -AAAACCTCGGCCCGCTGGCAGGTTACATTACCGGCTGGACCTACTGCTTTGAAATCCTTATTGTCGCCATCGCCG -ATGTGACCGCTTTTGGTATCTATATGGGTGTCTGGTTCCCGACGGTGCCGCACTGGATTTGGGTACTGAGCGTGG -TGCTGATCATTTGCGCCGTAAACCTGATGAGCGTGAAGGTATTCGGTGAGCTGGAATTCTGGTTCTCGTTCTTTA -AAGTCGCCACCATCATCATCATGATTGTCGCCGGTTTCGGCATCATCATCTGGGGGATTGGCAACGGCGGGCAAC -CGACCGGTATTCATAACCTGTGGAGCAACGGCGGCTTCTTCAGTAACGGCTGGCTTGGCATGGTAATGTCGTTGC -AAATGGTGATGTTTGCTTACGGTGGGATCGAAATTATCGGGATTACCGCCGGTGAAGCGAAAGATCCTGAGAAAT -CGATACCGCGTGCGATTAACTCCGTGCCGATGCGTATTCTGGTGTTCTACGTCGGTACGCTGTTCGTCATTATGT -CTATCTACCCGTGGAATCAGGTTGGCACTGCCGGTAGCCCGTTCGTGCTGACGTTCCAGCATATGGGCATTACCT -TTGCCGCCAGCATTCTTAACTTTGTTGTGCTGACTGCTTCGCTGTCGGCAATTAACAGTGATGTATTTGGCGTAG -GCCGTATGCTCCACGGTATGGCAGAGCAGGGCAGCGCGCCGAAAATTTTCAGCAAAACGTCGCGTCGCGGTATTC -CGTGGGTTACGGTGCTGGTGATGACTACCGCGCTGCTGTTTGCGGTGTATCTGAACTACATCATGCCGGAAAACG -TCTTCCTGGTGATCGCTTCGCTGGCAACCTTCGCCACGGTGTGGGTGTGGATTATGATCCTGCTGTCGCAAATTG -CCTTCCGTCGCCGTTTGCCGCCAGAAGAAGTTAAGGCGCTGAAATTTAAAGTGCCGGGTGGGGTAGCAACGACCA -TCGGCGGGCTGATTTTCCTGCTCTTTATTATCGGGTTGATTGGTTATCACCCGGATACGCGTATCTCGCTGTATG -TCGGTTTCGCGTGGATTGTTGTGCTGTTGATTGGCTGGATGTTTAAACGCCGCCACGATCGTCAGCTGGCTGAAA -ACCAGTAATCCTTGCGTTCTGTAAGCCGGTTCAGGAGGAAATCCTGATCCGGCTATTCCGAAAGTTATCCGCCCC -CGTCCTCCTCCCCCAAATATCCTTCAGATGATGAGTGATCCTGCATTAGGCTATGGCAAGGTGATCAGATTTTCA -TCACAGGGGAATTATGATGTTAAATGCATGGCACCTGCCGGTGCCCCCATTTGTTAAACAAAGCAAAGATCAACT -GCTCATTACACTGTGGCTGACGGGCGAAGACCCACCGCAGCGCATTATGCTGCGTACAGAACACGATAACGAAGA -AATGTCAGTACCGATGCATAAGCAGCGCAGTCAGCCGCAGCCTGGCGTCACCGCATGGCGTGCGGCGATTGATCT -CTCCAGCGGACAACCCCGGCGGCGTTACAGTTTCAAACTGCTGTGGCACGATCGCCAGCGTTGGTTTACACCGCA -GGGCTTCAGCCGAATGCCGCCGGCACGACTGGAGCAGTTTGCCGTCGATGTACCGGATATCGGCCCACAATGGGC -TGCGGATCAGATTTTTTATCAGATCTTCCCTGATCGTTTTGCGCGTAGTCTTCCTCGTGAAGCTGAACAGGATCA -TGTCTATTACCATCATGCAGCCGGACAAGAGATCATCTTGCGTGACTGGGATGAACCGGTCACGGCGCAGGCGGG -CGGATCAACGTTCTATGGCGGCGATCTGGACGGGATAAGCGAAAAACTGCCGTATCTGAAAAAGCTTGGCGTGAC -AGCGCTGTATCTCAATCCGGTGTTTAAAGCTCCCAGCGTACATAAATACGATACCGAGGATTATCGCCATGTCGA -TCCGCAGTTTGGCGGTGATGGGGCGTTGCTGCGTTTGCGACACAATACGCAGCAGCTGGGAATGCGGCTGGTGCT -GGACGGCGTGTTTAACCACAGTGGCGATTCCCATGCCTGGTTTGACAGGCATAATCGTGGCACGGGTGGTGCTTG -TCACAACCCCGAATCGCCCTGGCGCGACTGGTACTCGTTTAGTGATGATGGCACGGCGCTCGACTGGCTTGGCTA -TGCCAGCTTGCCGAAGCTGGATTATCAGTCGGAAAGTCTGGTGAATGAAATTTATCGCGGGGAAGACAGTATTGT -CCGCCACTGGCTGAAAGCGCCGTGGAATATGGACGGCTGGCGGCTGGATGTGGTGCATATGCTGGGGGAGGCGGG -TGGGGCGCGCAATAATATGCAGCACGTTGCCGGGATCACCGAAGCGGCGAAAGAAACCCAGCCGGAAGCGTATAT -TGTCGGCGAACATTTTGGCGATGCACGGCAATGGTTACAGGCCGATGTGGAAGATGCCGCCATGAACTATCGTGG -CTTCACATTCCCGTTGTGGGGATTTCTTGCCAATACCGATATCTCTTACGATCCGCAGCAAATTGATGCCCAAAC -CTGTATGGCCTGGATGGATAATTACCGCGCAGGGCTTTCTCATCAACAACAATTACGTATGTTTAATCAGCTCGA -CAGCCACGATACTGCGCGATTTAAAACGCTGCTCGGTCGGGATATTGCGCGCCTGCCGCTGGCGGTGGTCTGGCT -GTTCACCTGGCCTGGTGTACCGTGCATTTATTACGGTGATGAAGTAGGACTGGATGGCAAAAACGATCCGTTTTG -CCGTAAACCGTTCCCCTGGCAGGTGGAAAAGCAGGATACGGCGTTATTCGCGCTGTACCAGCGAATGATTGCGCT -GCGTAAGAAAAGTCAGGCGCTACGTCATGGCGGCTGTCAGGTGCTGTATGCGGAAGATAACGTGGTGGTATTTGT -CCGCGTGCTGAATCAGCAACGTGTACTGGTGGCAATCAACCGTGGCGAGGCCTGTGAAGTGGTGCTACCCGCGTC -ACCGTTTCTCAATGCCGTGCAATGGCAATGCAAAGAAGGGCATGGGCAACTGACTGACGGGATTCTGGCTTTGCC -TGCCATTTCGGCTACGGTATGGATGAACTAACGTTTTATAACGCCTTGCGTGACGCCTGCGCCATCATCCGCGGA -TAAAACTGCCAGAAGCGGGTTTCGAGGGCGTCATAATGAGCGTCTAAATCGTACCAGGAGTCACGCAGGGCATCC -AGACGTGGGCGGCGGCTTGCCATGCCGTTTAACACGTTCTGGATGAAATCCATATCGCGATAGCGCACCAGCCAC -TGCTCTGACCACAAGTAATTGTTCAGATTGATAAAACGTGGCGGTGAGTCCGGCAAAATCGTCATCACTTGCTCG -CGGGCATAACAGACAAATTCCTGTAGCGGAAAGTCCGGCGACAGCTGCGACCAGTGGCGGGAAAGAAAGTGATCC -CACATGACATCCAGCGTAATAGGCGCAACGCGGCGCGTTTCACTACGAAACCACTCCCGTGCTTCGCGGACTTCC -GGCAGATTGTCAGTCAATACGTCGATACGTCGATGCATATGAATGCCAGCCACGACGTCGGGCGGAAAACTTTCT -TCAGGATTTCCGCGTACGAAATCAGCCAGTAAATTGCCGGAAAGCGAGCTTTCCGCGAGATGGGCTAAATGCAGG -TGAGCTAAAAAATTCATCGATTATATTCTATCCAAAAGGGGGTAAAGGTTGCAGGGAGAGCGCCCCGGCACTAGA -CTACCCGCCTCTTATTTTAGTCTGAGTCAGTGTCATGCGCGTTACCGATTTCTCCTTTGAATTGCCCGAATCCCT -GATTGCCCACTATCCCATGCCTGAACGCAGTAGCTGTCGTTTACTGTCGCTGGACGGGCCGACGGGCGCGCTGAC -GCACGGTACTTTCACCGATTTACTTGATAAGCTCAACCCCGGCGATCTTCTGGTTTTTAATAATACCCGCGTGAT -CCCGGCGCGCCTGTTTGGGCGTAAAGCCAGCGGCGGCAAGATTGAAGTGCTGGTTGAACGGATGCTCGACGACAA -ACGCATTCTTGCGCATATTCGCGCCTCGAAAGCGCCAAAACCTGGCGCAGAACTGCTGCTGGGCGATGACGAAAG -TATTAACGCAACAATGACCGCGCGCCACGGCGCACTGTTTGAAGTCGAATTTAATGATGAACGCTCGGTGCTGGA -TATTCTCAACAGCATCGGCCATATGCCGCTGCCGCCGTATATCGACCGTCCGGACGAAGACGCTGACCGCGAACT -TTATCAAACCGTTTATAGCGAAAAACCGGGCGCGGTTGCAGCCCCGACCGCAGGTCTGCATTTTGACGAGCCTTT -GCTGGAAAAATTGCGCGCCAAAGGCGTGGAGATGGCGTTTGTGACGTTGCACGTTGGTGCGGGCACCTTCCAGCC -GGTGCGCGTCGACACCATTGAAGATCACATCATGCACTCGGAATACGCTGAAGTACCGCAGGATGTGGTAGACGC -GGTACTGGCGGCGAAAGCGCGCGGTAACCGGGTGATTGCGGTTGGCACCACTTCAGTACGTTCGCTGGAAAGCGC -GGCTCAGGCAGCGAAAAACGATCTCATTGAACCGTTCTTCGACGATACCCAAATCTTTATCTATCCGGGCTTCCA -GTACAAAGTGGTCGATGCGCTGGTGACGAACTTCCACTTGCCAGAGTCGACGCTGATTATGCTGGTTTCGGCCTT -TGCCGGTTATCAACACACCATGAACGCCTATAAAGCAGCGGTAGAAGAGAAATATCGCTTTTTTAGTTACGGTGA -TGCGATGTTTATCACGTACAATCCGCAGGCAATTAATGAGCGCGTCGGGGAGTAATTCCGCGGCGCTGGTTTAAA -ACGTTGGACTGTTTTTCTGACGTAGTGGAGAAAAAATGAAATTTGAACTGGACACCACCGACGGTCGCGCACGCC -GTGGCCGCCTGGTCTTTGATCGTGGCGTAGTGGAAACGCCTTGTTTTATGCCTGTTGGCACCTACGGCACCGTAA -AAGGGATGACGCCGGAAGAAGTTGAAGCCACTGGCGCGCAAATTATCCTCGGCAACACCTTCCACCTGTGGCTGC -GCCCGGGCCAGGAAATCATGAAACTGCACGGCGATCTGCACGATTTTATGCAGTGGAAGGGGCCGATCCTCACCG -ACTCCGGCGGCTTCCAGGTCTTCAGCCTTGGCGATATTCGTAAAATCACCGAACAGGGCGTGCACTTCCGTAACC -CGATCAACGGCGATCCGATTTTCCTCGATCCTGAAAAATCAATGGAGATTCAGTACGATCTTGGTTCGGATATCG -TCATGATCTTTGATGAGTGTACGCCGTATCCTGCTGACTGGGATTACGCAAAACGCTCCATGGAGATGTCTCTGC -GTTGGGCGAAGCGTAGCCGTGAGCGTTTTGACAGTCTCGGAAACAAAAATGCGCTGTTTGGTATCATCCAGGGCA -GCGTTTACGAAGATTTACGTGATATTTCTGTTAAAGGTCTGGTAGATATCGGTTTTGATGGCTACGCTGTCGGCG -GTCTGGCTGTGGGTGAGCCGAAAGCAGATATGCACCGCATTCTGGAGCATGTATGCCCGCAAATTCCGGCAGACA -AACCGCGTTACCTGATGGGCGTTGGTAAACCAGAAGACCTGGTTGAAGGCGTACGTCGTGGTATCGATATGTTTG -ACTGCGTAATGCCAACCCGCAACGCCCGAAATGGTCATTTGTTCGTGACCGATGGCGTGGTGAAAATCCGCAATG -CGAAGTATAAGAGCGATACTGGCCCACTCGATCCTGAGTGTGATTGCTACACCTGTCGCAATTATTCACGCGCTT -ACTTGCATCATCTTGACCGTTGCAACGAAATATTAGGCGCGCGACTCAACACCATTCATAACCTTCGTTACTACC -AGCGTTTGATGGCGGGTTTACGCAAGGCTATTGAAGAGGGTAAATTAGAGAGCTTCGTAACTGATTTTTACCAGC -GTCAGGGGCGAGAAGTACCACCTTTGAACGTTGATTAATATTAATAATGAGGGAAATTTAATGAGCTTTTTTATT -TCTGATGCGGTAGCGGCAACGGGTGCACCGGCGCAAGGTAGCCCGATGTCTTTGATTTTGATGCTGGTGGTATTC -GGTCTGATTTTCTATTTCATGATCCTGCGTCCACAGCAGAAGCGCACCAAAGAACACAAAAAGCTGATGGACTCC -ATTGCCAAAGGTGATGAAGTTCTGACGAACGGTGGCCTGGTTGGTCGCGTAACCAAAGTAGCGGAAAACGGCTAC -ATTGCTATCGCGCTGAATGACACCACTGAAGTAGTTATTAAACGTGACTTCGTAGCTGCCGTCCTGCCGAAAGGC -ACCATGAAGGCGCTGTAATTAAAATTTTTCCCTAAGGGAATTGCCGTGTTAAACCGTTATCCTTTGTGGAAGTAC -GTCATGCTGATCGTGGTGATTGTCATCGGTCTGCTGTATGCGCTTCCCAACCTGTTTGGTGAGGATCCGGCTGTT -CAGATCACTGGTGCGCGCGGAGTCGCCGCCAGTGAGCAAACGCTGATCCAGGTCCAGAAAACGTTACAAGAAGAA -AAAATAACTGCTAAGTCTGTGGCACTGGAAGAGGGCGCTATTCTTGCGCGCTTCGACTCCACTGACACCCAGTTG -CGCGCTCGTGAAGCATTAATGGGCGTTATGGGTGACAAATACGTCGTGGCGCTTAACCTTGCCCCGGCAACGCCG -CGCTGGCTGGCAGCTATTCACGCTGAGCCGATGAAGCTCGGCCTTGACCTGCGTGGCGGCGTTCACTTCCTGATG -GAAGTGGATATGGACACCGCGCTTGGCAAACTCCAGGAACAAAATATCGATAGCCTACGCAGTGACCTGCGCGAA -AAGGGCATCCCGTATACCACTGTTCGTAAAGAAAACAACTACGGCCTGAGCATCACTTTCCGCGATGCTAAAGCT -CGTGATGAAGCCATTGCGTATCTGAGCAAGCGCCATCCGGACCTGGTGATTAGCAGCCAGGGCAGCAACCAGCTG -CGTGCGGTAATGAGCGATGCTCGTCTGAGTGAAGCGCGTGAATATGCGGTGCAGCAGAACATTAATATCCTGCGT -AACCGTGTAAACCAACTTGGCGTGGCGGAGCCGGTGGTTCAGCGTCAGGGTGCTGACCGTATCGTTGTTGAACTG -CCAGGTATTCAGGACACTGCGCGTGCGAAAGAGATTCTGGGTGCGACGGCAACGCTGGAATTCCGTCTGGTAAAC -ACCAACGTTGACCAGGCCGCTGCGGCATCCGGTCGCGTACCGGGCGACTCTGAAGTGAAACAGACCCGCGAAGGT -CAGCCAGTTGTGCTGTACAAACGCGTAATTCTGACCGGTGACCATATCACCGACTCCACTTCCAGCCAGGACGAA -TACAACCAACCGCAGGTTAACATCTCGCTCGATAGCGCTGGTGGTAACATCATGTCTAACTTCACTAAGGACAAC -ATCGGCAAACCGATGGCAACCCTGTTTGTGGAGTACAAAGACAGCGGTAAGAAAGATGCAAATGGTCGTGCGGTT -CTGGTGAAACAGGAAGAGGTGATTAACATCGCCAACATCCAGTCTCGTCTGGGTAACAGCTTCCGTATCACCGGC -ATCAACAACCCGAACGAAGCCCGTCAGCTGTCACTGCTGCTGCGTGCCGGTGCGTTGATCGCGCCGATTCAGATT -GTTGAAGAACGTACCATTGGCCCAACCCTGGGTATGCAGAACATTGAACAGGGGCTGGAGGCTTGCCTTGCCGGT -CTGCTGGTTTCTATTCTGTTCATGATCATCTTCTATAAGAAGTTTGGTCTGATTGCGACCAGTGCTCTGATTGCC -AACTTGATCTTAATCGTCGGCATTATGTCGCTGTTGCCAGGCGCAACGCTGAGTATGCCAGGTATCGCGGGTATC -GTCTTAACCCTTGCGGTGGCGGTCGATGCGAACGTACTGATCAACGAACGTATTAAAGAAGAGTTGAGCAACGGA -CGTACTGTTCAACAGGCAATTGATGAAGGTTATCGTGGCGCATTCAGTTCTATCTTCGATGCGAACATCACCACG -CTGATTAAAGTCATCATCCTGTACGCAGTGGGTACCGGGGCAATTAAAGGGTTCGCGATTACTACCGGTATCGGT -GTGGCGACGTCGATGTTTACCGCGATTGTCGGTACGCGTGCCATCGTAAACCTGCTATATGGCGGCAAGCGCGTC -AAGAAGCTGTCAATCTGAGGAGTGCGATGTGGCACAGGAATATACTGTTGAACAACTAAACCACGGCCGTAAAGT -CTATGACTTTATGCGCTGGGACTACTGGGCTTTCGGCATCTCTGGTCTGCTGTTAATCGCTGCTATCGTTATTAT -GGGCGTGCGCGGCTTTAACTGGGGGCTGGATTTCACCGGTGGTACGGTTATTGAAATTACGCTCGAAAAACCGGC -TGAAATTGACGTAATGCGTGATGCATTGCAAAAAGCCGGTTTTGAAGAGCCGATGCTGCAAAACTTTGGTAGCAG -CCATGACATCATGGTCCGTATGCCGCCTGCTGAAGGCGAAACCGGCGGTCAGGTGTTGGGCAGCCAGGTTCTGAA -GGTGATTAACGAATCCACCAATCAGAATGCAGCAGTGAAGCGTATTGAGTTCGTCGGTCCGAGCGTGGGGGCAGA -CCTTGCGCAAACCGGTGCGATGGCGTTGATGGCAGCGCTGCTGTCTATCCTCGTGTACGTAGGTTTCCGCTTTGA -GTGGCGACTGGCGGCAGGGGTGGTTATTGCGCTGGCGCACGACGTTATCATTACGCTGGGTATTTTGTCGTTATT -CCATATCGAGATTGACCTGACCATTGTGGCATCGTTGATGTCGGTTATCGGTTACTCGCTTAACGACAGTATCGT -GGTATCGGACCGTATTCGTGAAAACTTCCGCAAGATCCGTCGCGGTACGCCTTACGAAATCTTTAACGTGTCCTT -GACCCAGACGCTGCACCGTACCTTGATCACATCCGGTACTACCTTGATGGTTATCCTGATGCTGTACCTCTTCGG -TGGTCCGGTACTGGAAGGCTTCTCGCTGACCATGCTTATCGGTGTTTCCATCGGTACTGCATCTTCCATCTATGT -GGCATCTGCGTTGGCTCTGAAACTGGGTATGAAGCGCGAACACATGTTGCAGCAGAAAGTGGAAAAAGAAGGGGC -GGATCAGCCGTCAATTCTGCCGTAATCAAGTTCCCGTTGATGTTGAAAATCCCGGTCAGAAGATCGGGATTTTTT -TTGATGTATGGAGATTGCGAAAATCCCCGCATCTTGGGAAACTGCGCGTAACCCTACATTTCATCCAGGTAACTT -TTCATGGCTATCATCCCAAAAAACTATGCGCGGTTAGAAAGCGGCTATCGCGAAAAAGCATTAAAAATCTATCCG -TGGGTCTGCGGTCGCTGTTCCCGCGAGTTTGTTTATTCCAACCTGCGTGAACTTACCGTTCACCACATTGATCAC -GACCATACCAATAACCCGGAAGATGGCAGTAACTGGGAATTGTTGTGTCTCTATTGCCACGATCATGAGCATTCG -AAATATACCGAAGCGGATCAGTATGGTACGACCGTTATCGCAGGGGAAGATGCGCAGAAAGATGTCGGTGAAGCG -AAGTACAACCCATTCGCTGACCTGAAAGCGATGATGAACAAGAAGAAGTGATTAAAACGTAAAATTGCCTGATGC -GCTACGCTTATCAGGCCTACGTTATTTCAGCAATATATTGAATTTACGTGCTTTTGTTGGCCGGACAAAGCGTTT -ACGCCGCATCCGGCATGAACAAAGCACACGTTGTTAACAATCAGAAATGCCGGGAATAAATCCCGGCATTTTCAT -AATCAGAAGTTGTAACCTACTACCAGGTAACCACCCCAGCCGGTAGAGCGAACGTTGAAGTTGCCGTTGCCGAAG -TTCAGTTCTGCATCGTCGTTCCACTGACCACCGTCGTGCCAGTAACGAGCTACGACAGAGTAGTGCCAGTGATCG -TAGTTCAGAGCCAGAATATGGCTGGAAGCGATAGAGTTATTAGTACGGGTCTTAATACCGTTGATTGCGTTACCG -CTGTCATCCCCTAAATCGGAACCCCAGTCGAAGTTGGTGAAGCCGATGTAGCTCAGCTGACCGCCCCACAGATCG -GTAATCGGCACAAAGTATTTAATTTTGAAACGGTAACCGTCCCACTCGTTTTCGTTCGCTGCGCCATAGTTCTGC -CACTGGTATTTCGCATAGACGTTCATGGACAGGCTCATCGGCAGGCCAGTGTCGATATCGGTACCCAGACCCATG -TACCAGGTGCTCTGGCGACCATCTTTATTACGACCCATGTCGTAAATGTAGTTGTTCGCGAAGTACCACTCTTTG -AACGGACCGAAGCTAAGGTCAGTATTGGTCAGCTTGTCGATGGAGAAACGTGGTTCGATTTCCATAAACAGCGGA -GAACCGTGGTTCCAGATACCTTTAGCATCGGAGTTACCGCCGAAGAATACCGGCGCATCCGCATAACCATAGAAG -TCGAACCAGTCTTTTTTAGCGAATGCTTCGTACTCAAGGTAGGTATCGTTGCGGATCTGCGGTCCGAAACGGGTG -TGATAGCTTCCGACAACGTTAACGCTCTGGTGCCACCAGTCGGAAAGATACTGCGGTTTGTCGTTTTCAGCTGCG -TTGACAGTAAAAGACGAAGAGAGCGCCAGTACCGCACCGGCTGCCAGTAATGTTTTTTTCATATGTATGCCACTG -TTTGAAAATCCCTTGCGGGAGTGAAAAAGGCGCAAATTGCGTTTCTAAATATTTCGTATACAGAGGAGCCTATTA -TAAAAATCATTGCTCACAAAAATATGTTTCGTTTCACAGTTCTATCATTTACGTAATCGATTGCGTTCACGTTTA -CACACATTCGGGCGGGGATTGTACTGACTTTCGCCCTTGTTGCAAACTTTTACTATCAATCCAGGTGATGTAAGC -AGAGTAACAAAATGACGGGGAAAGATGTTGCGGGACGCACAAAATCGTCCCGAAATACGTTTACTGCATAACAGG -TTGAATGTCGTGGATACGTACAAAGCCTAACTGATCCACAGAAATCCCCTTTAACTGTAACGGAATATCAACATC -GCTGGGGGCGAGGACGCTGGCAGGGGCATTAATCAATTGATTCTGCACATTGATTTCCTGAAAGTTGTCTATTGT -TCCCTGAATTTGCCCATATTCAACAGTTCCGCTGAATGCGGGCAAGGGATCATTCGACTCACCCTGAATACGTAG -TGTAAGGGTGGTGCCATCTGCATCAGGCGTAATATTCACCAGCGACATACGTAAAGTACCGATCTGGCTTTCCAG -TCTTGCCGGTGTTTTCGCTCCAGGCAGAAGGTAAACCCCACTGCTGGATTTTGCATTCAGCCTGTTTTGCTGAGT -GATTTTGACTGTTTCTTGATTGAGTTGCGTCATCTCCTGGTTCAGCGTGCTGACGCTGTGTTTCATCTGTCGCAC -TTCACTTTGCTGCACACAGGCGCTAAGGCTGAACAGGCTTCCCAGCAGGAGCAGTCGAAAAACGTTAGTATTCAT -AGGTCGTCCCTTTCTCGTCGCAATTAGCCTAATGGTAGAGGGTAAAAGCAGCGAAAGCATCGATCCTTTATCTCA -AAAGCGTTGCGCCTTTGTTGTATCGTCAGTTCAGGGTAAAATAGATTTCCGTTAACCACCTGGTCAGGACGCCGT -ATGCATTGCCCATTCTGTTTCGCCGTGGACACTAAGGTAATTGACTCTCGTCTCGTGGGCGAGGGTTCATCCGTA -CGCCGCCGTCGGCAGTGTCTGGTGTGTAATGAACGTTTCACCACCTTTGAAGTGGCGGAGCTGGTTATGCCGCGT -GTTGTAAAAAGCAACGACGTGCGTGAACCGTTTAATGAAGAGAAATTGCGTAGCGGAATGCTGCGGGCGCTGGAA -AAACGTCCGGTGAGTTCCGATGACGTCGAAATGGCAATCAATCATATTAAATCGCAGCTGCGCGCCACCGGTGAG -CGCGAAGTGCCGAGCAAGATGATTGGCAATCTGGTGATGGAGCAATTGAAAAAGCTCGATAAAGTCGCCTATATC -CGTTTTGCCTCTGTCTACCGCAGTTTCGAAGATATCAAAGAATTTGGCGAAGAGATCGCGCGCCTGGAGGACTAA -GCCGTGCAGGACGAGTATTACATGGCGCGGGCGCTAAAGCTGGCGCAACGAGGACGTTTTACCACGCATCCCAAC -CCGAATGTCGGGTGCGTCATTGTCAAAGATGGCGAAATTGTCGGTGAAGGTTACCACCAACGTGCGGGTGAACCA -CATGCCGAAGTACACGCGTTGCGTATGGCGGGTGAAAAAGCCAAAGGTGCGACCGCCTATGTCACACTCGAACCC -TGTAGCCATCATGGTCGTACGCCACCGTGCTGTGACGCACTCATCGCCGCTGGCGTAGCGCGCGTGGTTGCCTCG -ATGCAAGATCCTAACCCGCAGGTCGCTGGGCGTGGACTTTACCGTCTGCAACAGGCTGGCATTGACGTCAGCCAC -GGCCTGATGATGAGTGAAGCCGAGCAATTGAATAAAGGCTTTCTCAAGCGGATGCGCACCGGCTTTCCTTATATT -CAGTTAAAACTTGGCGCATCGCTTGATGGTCGCACGGCGATGGCGAGCGGCGAAAGCCAGTGGATCACTTCGCCC -CAGGCGCGGCGTGATGTACAACTACTGCGCGCGCAAAGTCATGCCATTTTAACCAGCAGCGCCACGGTGCTGGCG -GATGATCCTGCCTTAACGGTGCGTTGGTCTGAACTGGATGAACAAACTCAGGCGCTCTATCCGCAACAAAATCTC -CGTCAGCCGATACGTATTGTGATTGATAGCCAAAATCGCGTGACGCCGGTACATCGCATTGTGCAGCAGCCCGGC -GAAACCTGGTTCGCGCGTACGCAGGAAGATTCTCGTGAGTGGCCGGAAACGGTGCGTACCTTGCTGATTCCAGAG -CATAAAGGTCATCTGGATCTGGTTGTACTGATGATGCAACTGGGTAAACAGCAAATTAACAGCATCTGGGTGGAA -GCGGGGCCAACGCTCGCTGGCGCATTGCTGCAGGCGGGTTTAGTCGATGAGCTGATTGTCTATATCGCACCTAAA -CTATTAGGCAGCGACGCCCGCGGATTATGCACGCTGCCAGGGCTTGAGAAATTAGCCGACGCCCCCCAATTTAAA -TTCAAAGAGATACGTCATGTAGGCCCGGATGTTTGCCTGCATTTAGTGGGTGCATGATCTCCCGGCTCGAAAGGG -AAGCAGCGCACGAAATATTATGCTAAAATCCGCCCCCCTGCGGGGCCATACTCGAACCCGAAGGAAGAAAATGAA -CATTATTGAAGCTAACGTTGCTACCCCGGACGCTCGCGTCGCCATCACCATCGCGCGTTTCAACAACTTTATCAA -TGACAGCCTGCTGGAAGGTGCAATTGACGCACTGAAACGTATCGGTCAGGTAAAAGATGAAAACATTACCGTTGT -TTGGGTGCCTGGTGCCTATGAGCTGCCGCTGGCGGCGGGTGCACTGGCTAAAACCGGTAAATACGACGCGGTGAT -TGCGCTGGGTACGGTTATTCGTGGTGGCACTGCCCACTTTGAATATGTCGCTGGTGGTGCAAGCAACGGCCTGGC -GCATGTTGCCCAGGACAGCGAAATTCCGGTTGCTTTTGGGGTTCTGACCACTGAAAGCATTGAACAAGCGATCGA -ACGTGCTGGCACCAAAGCTGGCAACAAAGGTGCAGAAGCTGCACTGACCGCGCTTGAAATGATTAATGTATTGAA -AGCCATCAAGGCCTGAAATTAGTAAGGGGAAATCCGTGAAACCTGCTGCTCGTCGCCGCGCTCGTGAGTGTGCCG -TCCAGGCGCTCTACTCCTGGCAGTTGTCCCAGAACGACATCGCTGATGTTGAATACCAGTTCCTGGCTGAACAGG -ATGTAAAAGACGTTGACGTCCTGTACTTCCGTGAGCTGCTGGCCGGGGTGGCGACTAATACCGCATACCTCGACG -GACTGATGAAGCCATACCTGTCCCGCCTGCTGGAAGAACTGGGACAGGTAGAAAAAGCAGTACTGCGCATTGCGC -TGTACGAACTGTCTAAACGTAGCGATGTGCCATACAAAGTGGCCATTAACGAAGCGATCGAACTGGCGAAATCGT -TCGGCGCAGAAGACAGCCATAAGTTCGTCAACGGCGTACTCGATAAAGCAGCACCTGTGATTCGCCCTAACAAAA -AGTGATATCCAGGCCGGTAGATTCACGGAAGACCGTTCCATGATCGCCGGCCTTTTCTTTTTTACCTGCTGAGGC -ATAACGTATGGCATGTGGCGAGTTCTCCCTGATTGCCCGTTATTTTGACCGTGTAAGAAGTTCTCGTCTTGATGT -CGAACTGGGCATCGGCGACGATTGCGCACTTCTCAATATCCCCGAGAAACAGACCCTGGCGATCAGCACTGATAC -GCTGGTGGCGGGTAACCATTTCCTCCCTGATATCGATCCTGCTGATCTGGCTTATAAAGCACTGGCGGTGAACCT -AAGCGATCTGGCAGCGATGGGGGCCGATCCGGCCTGGCTGACGCTGGCATTAACCTTACCGGACGTAGACGAAGC -GTGGCTTGAGTCCTTCAGCGACAGTTTGTTTGATCTTCTCAATTATTACGATATGCAACTCATTGGCGGCGATAC -CACGCGTGGGCCATTATCAATGACGTTGGGTATCCACGGCTTTGTTCCGATGGGACGAGCCTTAACGCGCTCTGG -GGCGAAACCGGGTGACTGGATCTATGTGACCGGTACACCGGGCGATAGCGCCGCCGGGCTGGCGATTTTGCAAAA -CCGTTTGCAGGTTGCCGATGCTAAAGATGCGGACTACTTGATCAAACGTCATCTCCGTCCATCGCCGCGTATTTT -ACAGGGGCAGGCACTGCGCGATCTGGCAAATTCAGCCATCGATCTCTCTGACGGTTTGATTTCCGATCTCGGGCA -TATCGTGAAAGCCAGCGACTGCGGCGCACGTATTGACCTGGCATTGCTGCCGTTTTCTGATGCGCTTTCTCGCCA -TGTTGAACCGGAACAGGCGCTGCGCTGGGCGCTCTCTGGCGGTGAAGATTACGAGTTGTGTTTCACTGTGCCGGA -ACTGAACCGTGGCGCGCTGGATGTGGCTCTCGGACACCTGGGCGTACCGTTTACCTGTATCGGGCAAATGACCGC -CGATATCGAAGGGCTTTGTTTTATTCGTGACGGCGAACCTGTTACATTAGACTGGAAAGGATATGACCATTTTGC -CACGCCATAAAGATGTCGCGAAAAGTCGCCTGAAGATGAGTAATCCGTGGCATCTACTTGCTGTCGGATTCGGAA -GTGGATTAAGCCCGATCGTTCCTGGGACGATGGGCTCGCTGGCAGCGATTCCGTTCTGGTATCTGATGACCTTTT -TGCCCTGGCAGCTCTACTCGCTGGTGGTGATGCTGGGGATCTGTATCGGCGTCTATCTTTGTCATCAAACGGCGA -AAGACATGGGTGTGCACGATCATGGCAGCATTGTCTGGGACGAATTTATTGGTATGTGGATCACGCTCATGGCGC -TGCCGACCAATGACTGGCAGTGGGTTGCCGCCGGGTTTGTGATTTTCCGTATTCTGGATATGTGGAAGCCGTGGC -CGATCCGCTGGTTTGATCGCAATGTGCATGGCGGCATGGGGATCATGATCGACGATATTGTCGCCGGGGTGATTT -CCGCAGGCATCCTGTATTTTATCGGTCATCACTGGCCGCTGGGTATTCTGTCGTAGTTGTGCACCGATGCCTGAT -GTGACGCTTGTCACGTCTCATCAGGCCTGGACTCTTATTTAAATCCTACGACAGGATGCGGTTTATACGGCGTTT -CCAGTTCGGCAATCTGTTCCGGCTTCAAAGTGATATCCACCGCGTTCAATAGCTCATCAAGCTGTTCTTCGCGCG -AAGTTCCGATAATCGGTGCGGCAATGCCCGGTTTACTCAACAACCAGGCCAGCGCAACTTGTGCTCGTGTCGCCC -CCAGTTCTTCACTGACGCCTGTTAACCGCTCTGCGATCTGCGCGTCATTTTCATCGCTTTCTTTATAGAGATTTT -TCCCCACCTCATCAGACACCAGTCGTGCGGTAGTTTCTCCCCACGGACGCGTCAGACGGCCCCTTGCCAGCGGGC -TCCATGGAATTACCGCCACGCCCTCCTGATAACACAGTGGTAGCATCTCGCGCTCTTCTTCACGATAAATCAGAT -TGTAGTGATCCTGCATACTGACAAACTGCGCCCAGCCGTGCTGTTTTTGGAGTTCCAGTGCCTGAGCAAACTGCG -AAGCGTGCATTGATGACGCGCCGATATAACGCGCTTTCCCGGCTTTTACCACGTCGTTGAGGGCTTCCAGCGTCT -CTTCGATCGGCGTGTTGTAATCCCAGCGATGAATTTGCAGGATATCGACATAATCCATGCCGAGACGTCGCAGGC -TGTCGTCGATAGAGCGCAAAATTTGCGCACGGGATAATCCTTCCGGTAAATCACCAACGCGATGGAACACTTTGG -TCGCAACGACCACGTCTTCACGACGGGCGAAATCCCGCAGTGCGCGACCGACGATCTCTTCGCTGCTGCCGTCAG -AATAACTGTTGGCGGTATCAAAGAAATTTATGCCGCCTTCCAGTGCACGTTTAATTATGGGACGGCTGCTTTCTT -CCGGCAGTGTCCATGCGTGATTACCGCGATCTGGCTCGCCAAAGGTCATACAGCCGAGGCAAAGTCGGGAAACGC -GAAGGTCGGTTTTTCCTAAGGGGTTGTATTGCATGCTGCCACTCCTGCTATACTCGTCATACTTCAAGTTGCATG -TGCTGCGGCTGCATTCGTTCACCCCAGTCACTTACTTATGTAAGCTCCTGGGGCTTCACTCGTTTGCCGCCTTCC -TGCAACTCGAATTATTTAGAGTCTATGAATAATTTCTTAAGCATAGCAGGAGTGGAGTAGGGATTATGCCAGCCA -GGCCTTGATTTTGGCTTCCATACCAGCGGCATCGAGGCCGAGTTCGGCGCGCATTTCTTCCTGAGTTCCTTGCGG -AATAAAGAAGTCCGGCAGGCCAATGTTCAGCACGGGTACTGGTTTACGATGGGCCATCAGCACTTCGTTCACGCC -GCTGCCTGCGCCGCCCATAATGGCGTTTTCTTCTACGGTGACCAGCGCTTCATGGCTGGCGGCCATTTCCAGAAT -TAACGCTTCATCAAGCGGTTTCACAAAACGCATATCGACCAGCGTGGCGTTCAGCGATTCGGCGACTTTCGCCGC -TTCTGGCATCAGCGTACCAAAGTTAAGGATCGCCAGTTTCTCGCCACGACGCTTCACAATGCCTTTGCCAATTGG -TAGTTTTTCCAGCGGCGTCAGTTCCACGCCGACCGCGTTGCCACGCGGGTAGCGCACCGCTGACGGGCCATCGTT -ATAGTGATAGCCGGTATAGAGCATCTGGCGACATTCGTTTTCATCGCTCGGGGTCATAATGACCATTTCCGGTAT -GCAGCGCAGGTAAGAGAGATCAAAAGCACCCTGATGGGTTTGACCGTCAGCACCAACAATGCCCGCGCGGTCGAT -GGCGAACAGGACCGGAAGCTTTTGAATCGCCACGTCATGCAGCACCTGATCATAGGCGCGTTGCAGGAAAGTGGA -GTAAATCGCGACAATGGGTTTGTACCCACCAATCGCCAGACCCGCAGCAAAGGTCACCGCGTGTTGCTCGGCAAT -TGCCACGTCGAAGTAGCGATCCGGGAATTTACGTGAAAACTCGACCATGCCGGAACCTTCACGCATCGCCGGAGT -AATCGCCATCAGCTTGTTGTCTTTCGCTGCCGTTTCGCACAACCAGTCGCCAAAGATTTTTGAATAGCTCGGCAA -ACCGCCGCTACTTTTCGGCAAACAACCGCTGGAGGGATCAAATTTAGGCACGGCGTGGAAAGTGATCGGGTCTTT -TTCTGCCGGTTCATAACCACGACCTTTTTTGGTCATGATATGCAGGAACTGCGGGCCTTTCAGGTCGCGCATGTT -CTTTAGCGTGGTGATAAGCCCCAGCACATCGTGACCGTCCACCGGGCCGATGTAGTTAAAGCCCAGCTCTTCAAA -CAACGTGCCAGGCACTACCATGCCTTTAATATGTTCTTCGGTGCGTTTGAGCAGCTCTTTAATTGGCGGCACGCC -AGAGAAAACTTTTTTCCCGCCTTCGCGCAGTGAAGAGTAAAGCTTACCGGAAAGCAGCTGTGCCAGATGGTTGTT -GAGCGCGCCGACATTTTCGGAAATCGACATTTCATTGTCGTTGAGAATCACCAGCATATCAGGACGGATATCGCC -CGCGTGATTCATCGCTTCAAACGCCATGCCTGCGGTAATCGCGCCATCGCCAATGACACAGACGGTGCGGCGATT -TTTGCCTTCTTTTTCGGCAGCAACCGCAATACCAATTCCGGCACTGATGGAGGTTGATGAATGCCCGACGCTTAA -TACGTCATATTCGCTTTCGCCGCGCCACGGGAACGGGTGCAGACCGCCTTTCTGACGGATGGTGCCGATTTTGTC -GCGGCGTCCGGTCAAAATTTTATGCGGATAAGCCTGATGCCCCACATCCCAAATCAATTGGTCAAACGGGGTGTT -GTAGACATAGTGCAGCGCCACGGTCAGTTCGACCGTGCCCAGCCCGGAGGCGAAGTGCCCGCTGGAACGGCTCAC -GCTGTCGAGTAAATAGCGGCGCAGTTCGTCGCAGAGTTTCGGTAAACTCTCTTTCGGCAACAGTCGTAACTCCTG -GGTGGAGTCGACCAGTGCCAGGGTCGGGTATTTGGCAATATCAAAACTCATCAGGGGCCTATTAATACTTATTGT -TTATTTATTACGCTGGATGATGTAGTCCGCTAGCGCTTCCAGTGCCGAGGTATCGAGTGACTGTTCAGCCAGTTG -TTTCAGCGACTGACGGGCATCGTCGATCAGATCCCGGGCTTTCTTCCGGGCTTGCTCAAGACCCAGAAGTGCAGG -GTAGGTACTTTTACCAAGTTGCTGGTCGGCACCCTGGCGTTTTCCCAACGTTGCAGTATCTCCCACCACATCCAG -GATGTCATCCTGAACCTGGAAGGCAAGGCCGATGCTCTCTGCATACTTGTCGAGTACCGGCAGAGCACGACGTCC -TTTATCTCCGGCGCTTAATGCACCAAGGCGAACGGCGGCGCGAATCAATGCGCCGGTTTTATGACGATGAATACG -CTCAAGCGCGTCCAGAGGTACGTGTTTGCCTTCCGCGTCTAAATCTAATGCCTGACCACCGCACATTCCGGCAAT -ACCACTGGCGCTCGCCAGTTCAGAAATCATCGAAATTCTGTCGCGGTCCGACACTTCCGGCATATCGGCATCGCT -TAAAATCGAGAACGCCAGCGTTTGTAAAGCGTCGCCAGCGAGAATCGCGTTTGCTTCGCCAAACTTCACATGGCA -GGTTGGCAAACCGCGACGCAGATCGTCATCATCCATTGCCGGTAAATCATCATGAATTAATGAGTAAGCGTGGAT -ACACTCAACGGCGGCAGCGGGTGCGTCCAGCGTGTTTGTGCTAACGCCGAACATATGACCGGTGGCATAAACCAG -GAAAGGTCGCAGGCGCTTACCACCTAATAATGCGCCATACTGCATGGTTTCGACCACGGGAGTGTTCTGAAAGGG -CAGTGGGGCGATAAAACGGCTCAGCGCCTGGTTGGCCTGCTTAACGCAGGCTTCGAGTTGCTGCGGAAAGTCCAT -TACTCATTGTCCGGTGTAAAAGGGGTTAGAGAGGCGTCTTCATTGTCAGACAGCAGAATTTGTACGCGCTGTTCG -GCTTGTTGTAATTTGGCCTGCCCCTGACGTGCCAGCTGCACGCCGCGTTCGAACTCGTTCAGCGCCTCTTCCAGC -GGCAGGTCGCCACTTTCCAGACGGGTTACAATCTGTTCCAGCTCGCTCAGCGCCTTTTCAAAGCTGGCGGGCGCC -TCATTTTTCTTCGGCATAATGAATGTCTGACTCTCAATATTTTTCGCCCCGTCATGGTAACGGACTCAGGGCAAA -TAGCAAATAACGCGCAATGGTAAGGTGATGTGCACAGCAAAGCGATGTTAGTGGTATACTTCCGCGCCTGGATGC -AGCCGCAGGTGTGGGCTGCTGTATTTTTCCCTATACAAGTCGCTTAAGGCTTGCCAACGAACCATTGCCGCCATG -AAGTTTATCATTAAATTGTTCCCGGAAATCACCATCAAAAGCCAATCTGTGCGCTTGCGCTTTATAAAAATCCTT -ACCGGGAACATTCGTAACGTTTTAAAGCACTATGATGAGACGCTCGCTGTCGTCCGCCACTGGGATAACATCGAA -GTTCGCGCAAAAGATGAAAACCAGCGTCTGGCTATTCGCGACGCTCTGACCCGTATTCCGGGTATCCACCATATT -CTCGAAGTCGAAGACGTGCCGTTTACCGACATGCACGATATTTTCGAGAAAGCGTTGGTTCAGTATCGCGATCAG -CTGGAAGGCAAAACCTTCTGCGTACGCGTGAAGCGCCGTGGCAAACATGATTTTAGCTCGATTGATGTGGAACGT -TACGTCGGCGGCGGTTTAAATCAGCATATTGAATCCGCGCGCGTGAAGCTGACCAATCCGGATGTGACTGTCCAT -CTGGAAGTGGAAGACGATCGTCTCCTGCTGATTAAAGGCCGCTACGAAGGTATTGGCGGTTTCCCGATCGGCACC -CAGGAAGATGTGCTGTCGCTCATTTCCGGTGGTTTCGACTCCGGTGTTTCCAGTTATATGTTGATGCGTCGCGGC -TGCCGCGTGCATTACTGCTTCTTTAACCTCGGCGGCGCGGCGCATGAAATTGGCGTGCGTCAGGTGGCGCATTAT -CTGTGGAACCGCTTTGGCAGCTCCCACCGCGTGCGTTTTGTCGCTATTAATTTCGAACCGGTCGTCGGGGAAATT -CTCGAGAAAATCGACGACGGTCAGATGGGCGTTATCCTCAAACGTATGATGGTGCGTGCCGCATCTAAAGTGGCT -GAACGTTACGGCGTACAGGCGCTGGTCACCGGCGAAGCGCTCGGCCAGGTGTCCAGCCAGACGCTGACCAACCTG -CGCCTGATTGATAACGTCTCCGACACGCTGATCCTGCGTCCGCTGATCTCTTACGACAAAGAGCACATCATCAAC -CTGGCCCGCCAGATTGGCACCGAAGACTTTGCTCGCACGATGCCGGAATATTGTGGTGTGATCTCCAAAAGCCCG -ACGGTGAAAGCAGTTAAATCGAAGATTGAAGCGGAAGAAGAGAAGTTCGACTTCAGCATTCTCGATAAAGTGGTT -GAGGAAGCGAATAACGTTGATATCCGCGAAATCGCCCAGCAGACCGAGCAGGAAGTGGTGGAAGTGGAAACCGTC -AATGGCTTCGGCCCGAACGACGTGATCCTCGATATCCGTTCTATCGATGAACAGGAAGATAAGCCACTGAAAGTC -GAAGGGATTGATGTGGTTTCTCTGCCGTTCTATAAACTGAGCACCAAATTTGGCGATCTCGACCAGAACAAAACC -TGGCTGCTGTGGTGTGAGCGCGGGGTGATGAGCCGTCTGCAGGCGCTCTATCTGCGCGAGCAGGGCTTTAACAAT -GTGAAGGTATATCGCCCGTAATTTGTGGTTTTTACGTCGCATCTGGTCAGATGCGACGTTTGCCGCATCCGACAC -TACTCGTAATAATTATAAATCCCTGCCGCCATCACCAGTTGTGATGCCACTTCATGGGCTTTTTCACGCCCAACC -AACAGGTCGATAATTTTCAGACCAAAGTCGATAGCTGTACCCGGCCCCTGGCTGGTCAGCAATTTTACCCGTGCA -TCCCAGACGACGCGCTTGTCCAGCCATTGTTCGGCGGGAATTTTGTCTTTCAGCGTCGGGAAGCCGGTCATATTA -CCAATCGGGAAGATATCGTGCGGCACCAGCACGGTGGCTGGCGCGGCGCAAATAGCCGCGACGATACGCCCGGAA -CGGTGGAACTGTTTAACGGTTTCAACCAGCAGAGTGCTATCGCGAAAACACTCCGCGCCTTTAATGCCACCAGGC -AGCACGATCACGTCATATTCGCCATCAGCCACTTCGACCAGCGGCGCATCCGCCAGCAGCTTCACGCCGCGCGAG -CAGGTAATCGCCAGGTTACCATCGCTGGCGACGCTGGCAGTGGTGACTTTGATACCGCCGCGAACCAGCAGATCG -ATAGTGGTGACGGCTTCAGTCTCTTCACTACCAGGGGCGAGGCAAACCAGTGCCGATGCGCTCATATTCACTCTC -CTTTCTTTTTACCATTTCAAACAGGCGGGTGTTTTCCGGTACGGCAATCCCATGCGCGCGGGCGCGGCGTAAGAG -AAAACCATTGATATAGTCGATTTCAGTGTGGCGCAGCGCGCGGATATCCTGCAACATCGACGAGATATTTTCCGC -TGTGGCATCAATCACCTGCATCACGTAATCACGCAAATCTTCTGCTGAAGTATGATGCCCTTCGCGTTCGATCAC -CGCCGCGACTTCTTCGCATATCTGCATAATTTCTTGCGGATGATGACGTAATTCACCGTTCGGGCAATTCCAGAT -GGCAGTCAGTGGATTAATCACGCAGTTGACTGCCAGCTTGCGCCACAGCTCGGCGCGAATATTGTTATGCCAGGC -AACGTCAGGCAACACGGTTTGCAAAATATCCGCCAGATAACTGTAATCCCCGTCCTGTTGCCGTGCCGGGCCAAT -ATGCGTGATACCGTTTGCCACATGAATAATGACATTGCCGTCGCGGCGGGCTGCATGGGTGGTGGTGCCCATCAG -TAATGGCTGCTGAATGTTTTGCAACTCTTCGATGGTGCCCATGCCGTTGTGAATTAACAGTATTGGCGTAGTTAC -AGGCAGTGTGGACGCGAGGCTTTTGACGGCATCGGAAACCTGCCATGCTTTCAGCGTCACCAGGAGCAGATCGCT -GGTGGCGAGAAAATCGGGATCGTTGGCGGTCAGCGATTCGTTAAATATCGAACCATCTGTCTCAACCAGATTCAC -GCTACAATAAGGTTGCGGTACGCGCAGCCAGCCCTGAACTTCATGACCCTGTTTGCAAAGTGCTGTAAGCCATAA -TTGCCCTAAGGCACCGCATCCCAATACGGTAATTTTCATTGTTCCTCCTCACCCGCAACCACTCCGGGTGTTCAA -TAAGGCTATCCCTTAATTGTGCATGCTGTTGCGACTATGCACAATTAAGGGATACGTCCTGGTGCAGGACTGTCG -GTTATTTAACTTTGCGGGTATTATGCTTCGCATCAAAAATGAAGGGAGAGGAAAAGATGCCATCTTTCGATATTG -TCTCTGAAGTTGATCTTCAGGAAGCACGTAACGCGGTCGATAACGCGAGCCGCGAAGTGGAGTCCCGTTTTGACT -TCCGTAACGTTGAAGCCTCATTTGAGCTGAACGACGCCAGCAAAACCATCAAAGTGTTGAGCGAGTCCGATTTCC -AGGTCAATCAGTTGCTGGATATTCTGCGTGCCAAGCTGCTGAAGCGCGGCATTGAAGGCAGTTCGCTGGATGTAC -CGGAGAATATCGTTCATAGCGGTAAAACCTGGTTTGTGGAAGCGAAACTGAAACAGGGCATTGAGAGCGCGACCC -AGAAGAAAATCGTCAAGATGATCAAAGACAGCAAACTGAAAGTGCAGGCGCAAATTCAGGGCGATGAAATCCGCG -TAACGGGCAAATCTCGTGATGATTTGCAGGCTGTCATGGCGATGGTACGTGGTGGCGATCTCGGTCAGCCGTTCC -AGTTCAAAAACTTCCGCGATTAATCGCGACTATGTGCGTTTTGTTCATGTCAGATGCGGCATGAACGCCTGATTC -GGCCTACAAAGGTTTGTAATTCAGAAACTTTGTAGGCCTGATAAGCGTAGCGCAGCAGGCAATTCGCCGCGTTTT -TTATGCCTGACGAATTGCCTGTTCTATCTCAAAGCGATTCGTCACTTTGCTGTCGATTTTCACATAAGCTGAATG -TTCTTCTTCTGCAATCAACACTTCTTTGATGCCTTCAGTTTCTAGCAAACGCACTTTTAACGCCTCGTTTGCGGC -AATGTTCGCCGGGATTTCAATGCGCAAACTGCTGACATACGGCGGTTCTTTCATGGTACTGGCGACTGTCAGCCA -CACTGCGGCCAGCATTGCGCCAGCGAGAAATACCCCCTGACCGTCAAACATGCCGTTAATCCAGCCGCCCAGCGA -ACCGCCAATCGCCACGCCAAGAAACTGGCTGGTGGAGTAAACACCCATCGCCGTACCTTTGTAACCTGCTGGCGA -CTCTTTACTGATAAGTGAGGGCAGGAGGGCTTCCATCAAATTAAACGCCACAAAGAAAAGCTGCACGCCGACCAC -CAGTTGCCAGAACTGCGTTTGCGCGTTCCACAACACAATTTCCGCAACCACGATCAACCCGACGCAGAAGACAAA -GACTTGCTTCATTTTGCGCTTAACTTCAGCGTAGATAATGAAAGGCACGACCGAGCCAAAGGCGATTAGCATTGT -CGCCAGATAGACCTTCCAGTGTTCAGCCGCCGGGAACCCTGCATCAGCCAGTTGTCCGGGCAGGGCAACAAACGT -CGACATCAGCAAAATATGCAGACACATAATGCCAAAGTTGAGTTTCAGCAGCCGCGGTTCCGCCAGCACTTTACT -GAAACTGCCTTTCACCATTCCGGACTCACGATTAAGTACGTGAGTGCTACTGTTGGGCACAACCCAAATGGTCAA -CGCAATGCCGGTCGTTGCCAGAATAGCGATCATCCAGAACAGCGCGTGCAGCCCAAGTTTGTGAGTGATGATCGG -GCCAAGCACCATCGCAATGGCAAAGGTAATGCCAAAGCTCACGCCGATAAACGCCATCGCTTTGGTGCGGTTTTG -TTCGCGCGTGAGATCGGAAAGCAGCGCCATAACGGCGGCGGCAATTGCTCCAGAGCCTTGTAGCGCCCGGCCCAG -AATAATTCCCCAGATGGAGTCGGAAAGCGCAGCGATAACGCTACCGGCGGCAAACACCGCCAGCCCACCGACAAT -TAATGGTTTGCGACCAATGCGGTCGGAAAGCAGGCCAAACGGAATCTGAAAAACGGCCTGAGTCAGACCATAAAT -ACCAATGGCAATACCGATTAATGCTTCGCTGGCACCTTGCAGAGCCATGCCGTACGTGGTCAGAACCGGCAGAAC -CATAAACATGCCCAGCATGCGCAACGAGAATACGGTCCCTAAACCCCAGGTCGCGCGCCTCTCACCTGGCGTCAT -TTTATAATCGTTCATTACCACCTCTGTTTTAAATTCGCGACTAGTGTAAAGCGGCAAACGAATGGGGTAAACATG -CGGATTTTTTAGTAAATATTTCGAGAGGGATATGTTTCTAATGCTAAGAAAAAAGGTGCCGTAGCACCTTTTTAA -TAGAGAGGTTTTGTTACCACACAGCAGCCAGCAGCGTATGCGAGTCCGGTACCATAAAATCAACGGACATCATCA -CCGAGAGGGCAGTGATGGCGATGATAGAGAAGCCGAACAGCTTGCGCGCCCAGATTCTGTCATCAGCAACTTTAT -AACCGCGCAGAGCCATACCTAACCACCAGACGCTAACCGCCGCGGCGACCACCAGATATTTATACCCAGCGTAAC -CGCCAAGAGAGAGCATCAGCGTGGCAACGGCAAAGGCGATGATATACAGCGTGATGTGATTCTTCGCCACCGAAA -TGCCTTTTACCACTGGCAATACCGGAATGTTTGCCGCCTGGTAATCCTTAAAGCGGAAAATGGCGATGGCATAGG -AGTGAGGCATCTGCCACAGGCTGAAGATAGCCAGCAGGATCGCTGCGCCGCTATCGAACTCACCGGTTACCGCAC -AGTAGCCGATCACCGGCGGCGCAGCGCCGGAGAGCGAACCAATCAACGTGCCGTAGACAGAGTGGCGTTTCATGT -ACAGGCTATAAACGCCGACATAAACCACAAAGCCCATCACCCCCAGCCAGCAGGCCAGCGGATTCGCGCCAAACC -ACAGCAGCATAAAGCCAGCAATACCCAGCAACGTGGCGTACACCAGCGAGACAGCAGGAGAGATCAGGCCTTTCA -CCAGCACCCGATTCTTCGTCCTTTCCATCTTTCTGTCGATATCCCTGTCGATGTAGTTGTTAAACACACAACCCG -ACGCCACAACCAGTGACACCCCAACCAGCGTGTAGATAAACAGGGGATAATCAATGCTGCCCTTTGAGGCCAGCA -GGAATCCCCCAATCACCGAGATCAGGTTGCCAAAGATGATGCCTGGTTTCGTTACTTGCAGGTATTGCTTAAACA -TCATAACCGCCGCTCTTAGTGCATCATCATGTTGTAGTTGAGGTTCCACATAATCCAGATGGAGCCTACAACCAG -GATAGCGATGATTAGCACGGTGAAGACAAACGCCGTCATGTTCCAGCCTTCATCTGATTTGGTATTCATGTGCAG -GAAGCACACCAGATGCACCAGAACCTGTACCACTGCCATTGCCAGGATTGTTCCCAGAATTACGGCCGGAGAGGC -AGCTCCTGTCATCACCATCCAGAACGGAATCACCGTCAGAATGATCGACAGGATAAAGCCTGTCATGTAGGTTTT -TACGCTGCCATGGGACGCGCCGCTGTGATCGGTAGAATGACTCATTACATCGCCCCCATCAGATAAACAACAGTG -AACACACAGATCCAAACCACATCCAGGAAGTGCCAGAACAGGCTCAGGCACATGATGCGGGTACGGTTAGTGCTG -GTCAGGCCGCGACGGGCGATTTGCACCATCAGCACCGCCATCCAGATAAGACCAGAAGTGACGTGCAGACCGTGC -GTGCCGACCAGCGCAAAGAACGCTGACAGGAAGCCGCTGCGATCCGGACCCATGCCGTTAACAATCAGGTGATGG -AATTCATAGATTTCCATCCCGATAAATCCGGCACCAAACAACCAGGTCAACGCCAGCCAGGAGATAACCTGGCTT -TTGTTGTTTTTGTACATGGCGATAGCCGCCATGCCGTAGGTGATGGAGCTGAACAACAGCAAGAAAGTTTCAACC -AGAACGAACGGCAGTTCGAAAATGTCCTTACCTGTCGGGCCGCCTGCGGTGCCGTTCACCAGAACGGCATAGGTA -GCAAACAAGATAGAGAACAGAATGCAGTCGCTCATCAGGTAGATCCAAAATCCGAAGATTTTGGTTCCGCCTGCA -TCGTGGTGCCCGTGTTCGTGCGCGTGGGCAGTCGCGTGCGTCAAAGTATCAGTTGCCATTTTTCAGCCCTGCCTT -AGTAATCTCATCGAAATGCTGGTTTTCCAGTTTTTCGATTTCTGCCACCGGCACGTAGTAATCCACGTCCTCGTC -GAAGCTTTTCACGATCCAGGTGATGATCATGCCTGCGAAGCCAACAATCGCCAGCCACCAGATATGCCAGATCAT -GGCGAAACCGAAGATGGTGGAGAAAGCTGCAATGACGATACCTGCACCGCTGTTTTTCGGCATATGAATTTCTTC -ATAGTGGTCAGGCTTTTTATACGCTTCGCCTTTCTCTTTCATTTCCCAGAATGCATCACGTTCGTGAACGTGCGG -CACTACGGCAAAGTTATAGAACGGAGGCGGGGAAGAGGTTGCCCACTCCAGCGTACGGCCACCCCACGGGTCGCC -AGTCAGGTCACGGTTCTGGTCGCGGTCGCGAATAGAAACGTACATCTGAATAACGAGGCAGAGAATACCCAGCGC -AATCAGTACTGCACCGCTGGCTGCAATCATCAGCATGGTGTGGAACTGCGGGTCAATCTGCTGGCTCAAACGACG -GGTCATGCCCATGAAGCCCAGCGCATACAGTGGCATAAAGGCAACGAAGAAGCCGATGATCCAGAACCAGAACGC -GCGTTTACCCCAGGTTTCGTTCAGTTTGAAACCGAACGCTTTAGGCCACCAGTAGGTCATCCCTGCGAAGCAGCC -GAAGACCACGCCGCCGATGATCACGTTATGGAAGTGCGCAATCAGGAACAGGCTGTTATGCAGAACGAAGTCCGC -GCCCGGTACGGCCAGCAGCACGCCAGTCATCCCGCCCACCGAGAAGGTGACGATAAAACCGATGGTCCACAGCAT -CGCAGAATGGAACACGATGCGGCCCTGATACATGGTGAACAGCCAGTTGAAGATCTTCACCCCGGTCGGGATGGC -GATAATCATTGTGGTGATACCAAAGAAGGCGTTTACGTTCGCGCCCGCACCCATCGTAAAGAAGTGGTGCAGCCA -AACGATGAACGACAGCACGGTGATACAGACGGTTGCCCATACCAGCGAGGTATAACCAAACAGACGTTTACGCGA -GAAGGTTGCCGCAATTTCGGAGAACACACCGAAAACAGGCAGGATCAGGATGTAAACTTCCGGGTGGCCCCAGGC -CCAAATCAGGTTGATGTACATCATCATGTTGCCACCCATATCGTTGGTAAAGAAATGGGTGCCCAGATAGCGATC -CAGGGTCAACAACGCGACGGTAACCGTCAGAATTGGGAAGGAAGCAATAATCAGTACGTTCGCGCACAGTGATGC -CCAGGTAAATACTGGCATCTTGAACATGGTCATGCCCGGTGCGCGCATCTTCAGAATGGTAACGAAGAAGTTGAT -ACCGGTAAGCGTCGTACCTATACCGGATAGCTGGAGACTCCATATCCAGTAATCGACACCGACTCCCGGACTGTA -CTCTATTCCCGATAGCGGTGGATAGGCCAGCCAGCCGGTCTGCGCAAATTCGCCCACGCCGAGAGAAACGTTAAC -CAGAATCACACCAACAACGGTAAACCAGAAGCTTAAGTTGTTGAGGAACGGGAACGCAACGTCACGCGCGCCGAT -CTGCAGCGGAACCACCAGGTTCATCAGACCGATAACGAAAGGCATCGCCACGAAGAAGATCATAATCACGCCGTG -CGCGGTAAAGATCTGATCGTAGTGGTGAGGTGGCAGGAAGCCCGCTTCGCCCGCCGAGGCAAGAGCCTGCTGGCT -ACGCATCATAATGGCGTCAGCAAAACCACGCAGCAACATCACAATCGCCACGATGATATACATGATACCGAGGCG -TTTATGGTCGACGGAGGTCAGCCACTCTTTCCACAGGTAGGTCCACTTACCGAAGTAAGTGATCAGGCCAACGAG -CGCCAGACCTCCCAAAATAATGCCAGCGATCGTAACCATGACGATAGGTTCATGGAACGGGACTGCATCAAGTGA -TAATTTTCCGAACATCTTTATTCTTCCTCAACCCCTTTAATGGGCGGATTCCGCGTGGCTCATGTCCATGCCTTC -CATACCTTCGTGTGCGCTGTGCTCACCTTCTGGCTGGGTCATGTCCATGCTCTTACCGTGAGCCATAAACTTGTT -AATTACATCGGCAAACAAGTCTGGTTTCACGTTGGAGAAATATTCCACCTGGTTGTATTCGCTAGGCGCGGCCAG -TTTTTCGAACGCAGCCATGTCAGACATGGTGTTCGGCGACTGCTTCGCTTTTGCGACCCACTGGTCGAATGCGGC -GCGATCCGGTGTTGCAATAGCTTTGAACTTCATGCCTGAGAAGCCCGGGCCGCTGTAGCTGGCGGAGATACCGTC -ATAAGTGCCGGGTTCGTTGGCGATCAGATGCAGGCGAGTCTGCATACCGGCCATGGCATAAATCTGGCTACCCAG -ACGCGGAATGAAGAAGGAGTTCATCACGGAGTTGGAGGTCACTTTGAAGTACACCGGAGTGTTCGCCGGGAAAGC -GATTTCATTCACGGTAGCAATGCCCTGTTCCGGGTAGATGAAGAACCATTTCCAGTCCATGGAAACCACTTCGAT -GGTAATGGGCTTCTCGTCGTGTGCCAGCGGCTTGCTAGGCTCAAGAGCGTGAGTGGTTTTCCAGGTCAGTACTGC -AAGGAAGATGATGATTAAGATAGGTACCGTCCAGACCACAGCTTCCACTTTATTGGAGTGTGACCAGTTCGGGCT -GTACTTAGCATCTTTATTGCTCGCACGGTACTTCCAGGCGAAACCAACAGCCATCAAGATTGCGGGAATAACGAC -AATCAACATCAGGCCAAATGCCGTCAGTATCAGTGAACGTTGCTCCAGACCAATCTGTCCTTTGGGATCTAACAG -CGCAGAATTACAGCCACTGAGCAATACAGTGCCTGCAAATAATGACAACCATCCCAAACTTTTATTGTATTTCCT -GAGTCTCATTTAACGACCTCAATTCCACGGGATCTGGTGGCGTTTAAAGTGTGTGGGCATTTTACGGGAAGGTTA -CATTACTGTAAACATGATTAAATTCCTGTTACTTGGATTTGGCTGCCAGGTCACATATGTTGCAAAACATATCAG -GTTGATTTTAAGAAGCTGTTGCAAAAGGGCGTTATAACAAAAGGGGAGTGCTGAAGGAGTCTGGGCGGGCAATTG -GTATAACCAATGTGAAATAAAACAATTATTTAACAAATAATTATCATTAGAGTGACAACTGGGTGATGAGAAAAT -AAAGACTCATTAGCTGAATCGTGTAAGAAAAATAGAATTTATAAATGGCGCCAATAATTTCCAAACGCTAAGCCG -CACAAAAGAACAAATATTAATAAGCGATACTGATGTTTATTTAGCCGTAATAATTACGGCGAGTGATTACTACAG -CTAAATAATATTTACAGATTACGTCAGATGCGTTTTTCGTAGCGCCAGATAATCCAGCAAACCACCAAGCACGAC -GCCAGAAAGGGCGACTAAAACCCCGACTTCCAGCAGAGCAGGCAGGAAAGAGAAGTGCGTCAAATCCAGCGCGTC -CATCGTCAATAGCAGTAACCACACGGCCAACAGGCTGACGCCCGCCGCCAGTGTCCACATGGCAAAGGCATAACC -TGCCGGATATGCGGTACGGGAGATAAAGTTGTCATTTACTCGTGTATATTCAAGCGTCTGGCGGCAAACCAGCAG -CAAAATAAGCCCTGGTACGGCAGCGGCGACGGAGAATAGATAGAATGTCGACCAGCCGTGTGCTTCAACAAACCA -ACCCGCCACGGGGCCGACATAAACTCGCCCTACAGCAGAAAGCGCTGAGAGCAGGGCAAATTGAGTAGCGGAAAA -TGACTTATTACATAGCGTCATTAACAGCGCGACAAAGGCTGATGTGCCCATCCCGCCACAGAGGTTTTCGAAAAA -GACGGCTGCGCCCATGCTGTAGAGATGCTTATCAGTAATCGACAGCAGCCAGTAACCGGCGTTAGACGCACCTTG -TAAAATGCCGAAAATCAGCAGTGCCCGGAACAGTGACAGGCGCTGCATCAAAATCCCACCGTACAATGCGCCAAC -AATGGTCGCTAGTAAGCCAAGCGTTTTGTTAACCACGCCTACTTCACCCGCATCAAACCCGACGCCGCGAATCAA -AAACGTGGTTGTCAGGCTCATGGCGAATGCGTCGCCCAGCTTATACAGCACGATAAGAAGCAAAATAAGCCAGGC -ATTATTGCGACCAAAGAAATCTCGCAGAGGTGCAACAACCGCTTGTTCCAGCGTTTTGGGCACAGGAATGGTGTC -GGTTGGTTCTGGTGCAAGCAACGTCGCGATAATACAGGGGATCAACAGTGCCGCCATTAACCAGTACATGCCCTG -CCAGCCCAGCCATTTATCTGCCAGCCACAGGGCTAGGCCGCCGGAAACCAGCATCCCTAAACGGTAACCCAGCAC -GCTGATTGCCGCGCCCGCACCACGTTCTTCTGCCGGAAGCACATCGGTTTTCCACGCATCGAAGACTATATCCTG -GGAAGCAGAGCAAAAAGCGATCACCACTGCCAGCGCCGCCATCCAGCGGAGTTGGGTGCCTGGTTCGAGAAAACC -CATCGCCGCAATGGCGACTAATAACAGGATTTGCGTGGCGAGCAGCCAACCGCGCCGCCGCCCAAAAAATGGAGG -CGTGTAGCGGTCCATCAGCGGTGACCAGAGGAATTTAAAAACGTAAGCCTGGCCTACCAGAGAGAAGAAACCAAT -GGTTTTGAGATCGATATTCTCGACCGTCATCCAGGCCTGTAAGGTACCGGATGTCAGGGCGAGCGGTAGCCCGGA -AGCAAAACCCAGGATCAGCAATATGGCTGAACGCGGCTGTTGAAAAATACGTAAATATTGACTGGACATGGGCGT -CTACAGGCCCGGCTTGCACCGGGCCAGAGGGCAGAAATTAACGCGCGTTCTGCTTGATGAATTCGTGGATGCTGG -TGTCCTGAGACATATCAGCGATGGTATCGGTCAGCACACTGTTAACCGCATCGGCGATATTTTTGTTGGAGGCCT -GGAACGCACCTTCAACGTTGTAGCTGGCACGATAGTTTTTGGTCATTTTGTTGCCATTCTGCGCGGTAGCGATGA -TGGCGATATCCGCTTTGGTCGCGATGTTGTAGCGCACGTTGCCCTGGGACACGTCAGCATACAGTTGGCTAACGA -TGATTTGCAGATTAACCGGGCCATTCGGACCAACCATGTAACCACGCGCGGTCATCTGTTTTTCCAGCACTTCTT -GCAGCAGGAAACGCAGATCGCGGGAGGCGGTCAGGGTAACGATTTGATTATCGCGGGTGACTTTTGCCAGCGCCT -GATCGGTACGCTGATCGGCACCATTAATGCTTACGGTGACGCCCATCAGGCTTGGATCCTGCTGTGGCAGTGTAA -TCGTCGGGGAAACTTCAATAGTTGTTGGCGGTTTTGCGCATCCTGCAAGCATAAACAGAGCAACTAACGGGAAGA -GGATTTTTTTGAACATGTTCGGGCTCTCAGAGACTCTTAAGCGTGTTTGGTAAAAATTCCCGCCATCATAACATT -GCCAACGGCGAGGGGAAGTGGGTAAGGCATGTAAATTCATCATGTTGACGAAATAATCGCCCCTGGTAAAAGAAA -CACTGATGCGAGGCCTGTGTTTCAATCTTTAAATCAGTAAACTTCATACGCTTGACGGAAAAACCAGGACGAAAC -CTAAATATTTGTTGTTAAGCTGCAATGGAAACGGTAAAAGCGGCTAGTATTTAAAGGGATGGATGACATCTCAGC -GTTGTCGGAGGAGATATTTCATGATGATACGTGAGCGGATAGAAGAAAAATTAAGGGCGGCGTTCCAACCCGTAT -TCCTCGAAGTAGTGGATGAAAGCTATCGTCACAATGTCCCAGCCGGCTCTGAAAGCCATTTTAAAGTTGTGCTGG -TCAGCGATCGTTTTACGGGTGAACGTTTTCTGAATCGTCATCGAATGATTTACAGTACTTTAGCGGAGGAACTCT -CTACTACCGTTCATGCGCTGGCTCTGCATACTTACACTATTAAGGAGTGGGAAGGGTTGCAGGACACCGTCTTTG -CCTCTCCTCCCTGTCGTGGAGCAGGAAGCATCGCGTAAAAACGCATTTGCAACTGTCGGCGCTTTTCCAGTATGT -TGCTAAAGATTTTATGAAAAACGGCCTGCGGGCCGTTTTGTTTTGTCTGGATTTTGCGCTTTTTGCCCAGCATTC -AGACGAAAATTGCCCGGGAATTGTGAAAAAATACGCGACAGCGCGCAATAACCGTTCTCGACTCATAAAAGTGAT -GCCGCTATAATGCCGCGTCCTATTTGAATGCTTTCGGGATGATTCTGGTAACAGGGAATGTGATTGATTATAAGA -ACATCCCGGTTCCGCGAAGCCAACAACCTGTGCTTGCGGGGTAAGAGTTGACCGAGCACTGTGATTTTTTGAGGT -AACAAGATGCAAGTTTCAGTTGAAACCACTCAAGGCCTTGGCCGCCGTGTAACGATTACTATCGCTGCTGACAGC -ATCGAGACCGCTGTTAAAAGCGAGCTGGTCAACGTTGCGAAAAAAGTACGTATTGACGGCTTCCGCAAAGGCAAA -GTGCCAATGAATATCGTTGCTCAGCGTTATGGCGCGTCTGTACGCCAGGACGTTCTGGGTGACCTGATGAGCCGT -AACTTCATTGACGCCATCATTAAAGAAAAAATCAATCCGGCTGGCGCACCGACTTATGTTCCGGGCGAATACAAG -CTGGGTGAAGACTTCACTTACTCTGTAGAGTTTGAAGTTTATCCGGAAGTTGAACTGCAGGGTCTGGAAGCGATC -GAAGTTGAAAAACCGATCGTTGAAGTGACCGACGCTGACGTTGACGGCATGCTGGATACTCTGCGTAAACAGCAG -GCGACCTGGAAAGAAAAAGACGGCGCTGTTGAAGCAGAAGACCGCGTAACCATCGACTTCACCGGTTCTGTAGAC -GGCGAAGAGTTCGAAGGCGGTAAAGCGTCTGATTTCGTACTGGCGATGGGCCAGGGTCGTATGATCCCGGGCTTT -GAAGACGGTATCAAAGGCCACAAAGCTGGCGAAGAGTTCACCATCGACGTGACCTTCCCGGAAGAATACCACGCA -GAAAACCTGAAAGGTAAAGCAGCGAAATTCGCTATCAACCTGAAGAAAGTTGAAGAGCGTGAACTGCCGGAACTG -ACTGCAGAATTCATCAAACGTTTCGGCGTTGAAGATGGTTCCGTAGAAGGTCTGCGCGCTGAAGTGCGTAAAAAC -ATGGAGCGCGAGCTGAAGAGCGCCATCCGTAACCGCGTTAAGTCTCAGGCGATCGAAGGTCTGGTAAAAGCTAAC -GACATCGACGTACCGGCTGCGCTGATCGACAGCGAAATCGACGTTCTGCGTCGCCAGGCTGCACAGCGTTTCGGT -GGCAACGAAAAACAAGCTCTGGAACTGCCGCGCGAACTGTTCGAAGAACAGGCTAAACGCCGCGTAGTTGTTGGC -CTGCTGCTGGGCGAAGTTATCCGCACCAACGAGCTGAAAGCTGACGAAGAGCGCGTGAAAGGCCTGATCGAAGAG -ATGGCTTCTGCGTACGAAGATCCGAAAGAAGTTATCGAGTTCTACAGCAAAAACAAAGAACTGATGGACAACATG -CGCAATGTTGCTCTGGAAGAACAGGCTGTTGAAGCTGTACTGGCGAAAGCGAAAGTGACTGAAAAAGAAACCACT -TTCAACGAGCTGATGAACCAGCAGGCGTAATTTACGCAGCATAACGCGCTAAATTCGCACAAAGGCCCGTCACCG -CCAGGTGGTGGGCTTTTTTTTGTCATGAATTTTGCATGGAACCGTGCGAAAAGCCTCTTTCGGTGTTAGCGTAAC -AACAAAAGATTGTTATGCTTGAAATATGGTGATGCCGTACCCATAACACAGGGACTAGCTGATAATCCGTCCATA -AGGTTACAATCGGTACAGCAGGTTTTTTCAATTTTATCCAGGAGACGGAAATGTCATACAGCGGCGAACGAGATA -ACTTTGCACCCCATATGGCGCTGGTGCCGATGGTCATTGAACAGACCTCACGCGGTGAGCGCTCTTTTGATATCT -ATTCTCGTCTACTTAAGGAACGCGTCATTTTTCTGACTGGCCAGGTTGAAGACCACATGGCTAACCTGATTGTGG -CGCAGATGCTGTTCCTGGAAGCGGAAAACCCAGAAAAAGATATCTATCTGTACATTAACTCCCCAGGCGGGGTGA -TCACTGCCGGGATGTCTATCTATGACACCATGCAGTTTATCAAGCCTGATGTCAGCACCATCTGTATGGGCCAGG -CGGCCTCGATGGGCGCTTTCTTGCTGACCGCAGGGGCAAAAGGTAAACGTTTTTGCCTGCCGAATTCGCGCGTGA -TGATTCACCAACCGTTGGGCGGCTACCAGGGCCAGGCGACCGATATCGAAATTCATGCCCGTGAAATTCTGAAAG -TTAAAGGGCGCATGAATGAACTTATGGCGCTTCATACGGGTCAATCATTAGAACAGATTGAACGTGATACCGAGC -GCGATCGCTTCCTTTCCGCCCCTGAAGCGGTGGAATACGGTCTGGTCGATTCGATTCTGACCCATCGTAATTGAT -GCCAGAGGCGCAACTGTGCCGCTATACTTATCCAGGGCGGCACAACGCTGTAAGCGGCTTGCGCCTGAGAATGGC -ATTTGCGTCGTCGTGTGCGGCACAAAGAACAAAGAAGAGGTTTTGACCCATGACAGATAAACGCAAAGATGGCTC -AGGCAAATTGCTGTATTGCTCTTTTTGCGGCAAAAGCCAGCATGAAGTGCGCAAGCTGATTGCCGGTCCATCCGT -GTATATCTGCGACGAATGTGTTGATTTATGTAACGACATCATTCGCGAAGAGATTAAAGAAGTTGCACCGCATCG -TGAACGCAGTGCGCTACCGACGCCGCATGAAATTCGCAACCACCTGGACGATTACGTTATCGGCCAGGAACAGGC -GAAAAAAGTGCTGGCGGTCGCGGTATACAACCATTACAAACGTCTGCGCAACGGCGATACCAGCAATGGCGTCGA -GTTGGGCAAAAGTAACATTCTGCTGATCGGTCCGACCGGTTCCGGTAAAACGCTGCTGGCTGAAACGCTGGCGCG -CCTGCTGGATGTTCCGTTCACCATGGCCGACGCGACTACACTGACCGAAGCCGGTTATGTGGGTGAAGACGTTGA -AAACATCATTCAGAAGCTGTTGCAGAAATGCGACTACGATGTCCAGAAAGCACAGCGTGGTATTGTCTACATCGA -TGAAATCGACAAGATTTCTCGTAAGTCAGACAACCCGTCCATTACCCGAGACGTTTCCGGTGAAGGCGTACAGCA -GGCACTGTTGAAACTGATCGAAGGTACGGTAGCTGCTGTTCCACCGCAAGGTGGGCGTAAACATCCGCAGCAGGA -ATTCTTGCAGGTTGATACCTCTAAGATCCTGTTTATTTGTGGCGGTGCGTTTGCCGGTCTGGATAAAGTGATTTC -CCACCGTGTAGAAACCGGCTCCGGCATTGGTTTTGGCGCGACGGTAAAAGCGAAGTCCGACAAAGCAAGCGAAGG -CGAGCTGCTGGCGCAGGTTGAACCGGAAGATCTGATCAAGTTTGGTCTTATCCCTGAGTTTATTGGTCGTCTGCC -GGTTGTCGCAACGTTGAATGAACTGAGCGAAGAAGCTCTGATTCAGATCCTCAAAGAGCCGAAAAACGCCCTGAC -CAAGCAGTATCAGGCGCTGTTTAATCTGGAAGGCGTGGATCTGGAATTCCGTGACGAGGCGCTGGATGCTATCGC -TAAGAAAGCGATGGCGCGTAAAACCGGTGCCCGTGGCCTGCGTTCCATCGTAGAAGCCGCACTGCTCGATACCAT -GTACGATCTGCCGTCCATGGAAGACGTCGAAAAAGTGGTTATCGACGAGTCGGTAATTGATGGTCAAAGCAAACC -GTTGCTGATTTATGGCAAGCCGGAAGCGCAACAGGCATCTGGTGAATAATTAACCATTCCCATACAATTAGTTAA -CCAAAAAGGGGGGATTTTATCTCCCCTTTAATTTTTCCTCTATTCTCGGCGTTGAATGTGGGGGAAACATCCCCA -TATACTGACGTACATGTTAATAGATGGCGTGAAGCACAGTCGTGTCATCTGATTACCTGGCGGAAATTAAACTAA -GAGAGAGCTCTATGAATCCTGAGCGTTCTGAACGCATTGAAATCCCCGTATTGCCGCTGCGCGATGTGGTGGTTT -ATCCGCACATGGTCATCCCCTTATTTGTCGGGCGGGAAAAATCTATCCGTTGTCTGGAAGCGGCGATGGACCATG -ATAAAAAAATTATGCTGGTCGCGCAGAAAGAAGCTTCAACGGATGAGCCGGGTGTAAACGATCTTTTCACCGTCG -GGACCGTGGCCTCTATATTGCAGATGCTGAAACTGCCTGACGGCACCGTCAAAGTGCTGGTCGAGGGGTTACAGC -GCGCGCGTATTTCTGCGCTCTCTGACAATGGCGAACACTTTTCTGCGAAGGCGGAGTATCTGGAGTCGCCGACCA -TTGATGAGCGGGAACAGGAAGTGCTGGTGCGTACTGCAATCAGCCAGTTCGAAGGCTACATCAAGCTGAACAAAA -AAATCCCACCAGAAGTGCTGACGTCGCTGAATAGCATCGACGATCCGGCGCGTCTGGCGGATACCATTGCTGCAC -ATATGCCGCTGAAACTGGCTGACAAACAGTCTGTTCTGGAGATGTCCGACGTTAACGAACGTCTGGAATATCTGA -TGGCAATGATGGAATCGGAAATCGATCTGCTGCAGGTTGAGAAACGCATTCGCAACCGCGTTAAAAAGCAGATGG -AGAAATCCCAGCGTGAGTACTATCTGAACGAGCAAATGAAAGCTATTCAGAAAGAACTCGGTGAAATGGACGACG -CGCCGGACGAAAACGAAGCCCTGAAGCGCAAAATCGACGCGGCGAAGATGCCGAAAGAGGCAAAAGAGAAAGCGG -AAGCAGAGTTGCAGAAGCTGAAAATGATGTCTCCGATGTCGGCAGAAGCGACCGTAGTGCGTGGTTATATCGACT -GGATGGTACAGGTGCCGTGGAATGCGCGTAGCAAGGTCAAAAAAGACCTGCGTCAGGCGCAGGAAATCCTTGATA -CCGACCATTATGGTCTGGAGCGCGTGAAAGATCGAATCCTTGAGTATCTTGCGGTTCAAAGCCGTGTCAACAAAA -TCAAGGGACCGATCCTCTGCCTGGTAGGGCCGCCGGGGGTAGGTAAAACCTCTCTTGGTCAGTCCATTGCCAAAG -CCACCGGGCGTAAATATGTCCGTATGGCGCTGGGCGGCGTGCGTGATGAAGCGGAAATCCGTGGTCACCGCCGTA -CTTACATCGGTTCTATGCCGGGTAAACTGATCCAGAAAATGGCGAAAGTGGGCGTGAAAAACCCGCTGTTCCTGC -TCGATGAGATCGACAAAATGTCTTCTGACATGCGTGGCGATCCGGCCTCTGCACTGCTTGAAGTGCTGGATCCAG -AGCAGAACGTAGCGTTCAGCGACCACTACCTGGAAGTGGATTACGATCTCAGCGACGTGATGTTTGTCGCGACGT -CGAACTCCATGAACATTCCGGCACCGCTGCTGGATCGTATGGAAGTGATTCGCCTCTCCGGTTATACCGAAGATG -AAAAACTGAACATCGCCAAACGTCACCTGCTGCCGAAGCAGATTGAACGTAATGCACTGAAAAAAGGTGAGCTGA -CCGTCGACGATAGCGCCATTATCGGCATTATTCGTTACTACACCCGTGAGGCGGGCGTGCGTGGTCTGGAGCGTG -AAATCTCCAAACTGTGTCGCAAAGCGGTTAAGCAGTTACTGCTCGATAAGTCATTAAAACATATCGAAATTAACG -GCGATAACCTGCATGACTATCTCGGTGTTCAGCGTTTCGACTATGGTCGCGCGGATAACGAAAACCGTGTCGGTC -AGGTAACCGGTCTGGCGTGGACGGAAGTGGGCGGTGACTTGCTGACCATTGAAACCGCATGTGTTCCGGGTAAAG -GCAAACTGACCTATACCGGTTCGCTCGGCGAAGTGATGCAGGAGTCCATTCAGGCGGCGTTAACGGTGGTTCGTG -CGCGTGCGGAAAAACTGGGGATCAACCCTGATTTTTACGAAAAACGTGACATCCACGTCCACGTACCGGAAGGTG -CGACGCCGAAAGATGGTCCGAGTGCCGGTATTGCTATGTGCACCGCGCTGGTTTCTTGCCTGACCGGTAACCCGG -TTCGTGCCGATGTGGCAATGACCGGTGAGATCACTCTGCGTGGTCAGGTACTGCCGATCGGTGGTTTGAAAGAAA -AACTCCTGGCAGCGCATCGCGGCGGGATTAAAACAGTGCTAATTCCGTTCGAAAATAAACGCGATCTGGAAGAGA -TTCCTGACAACGTAATTGCCGATCTGGACATTCATCCTGTGAAGCGCATTGAGGAAGTTCTGACTCTGGCGCTGC -AAAATGAACCGTCTGGTATGCAGGTTGTGACTGCAAAATAGTGACCTCGCGCAAAATGCACTAATAAAAACAGGG -CTGGCAGGCTAATTCGGGCTTGCCAGCCTTTTTTTGTCTCGCTAAGTTAGATGGCGGATCGGGCTTGCCCTTATT -AAGGGGTGTTGTAAGGGGATGGCTGGCCTGATATAACTGCTGCGCGTTCGTACCTTGAAGGATTCAAGTGCGATA -TAAATTATAAAGAGGAAGAGAAGAGTGAATAAATCTCAATTGATCGACAAGATTGCTGCAGGGGCTGATATCTCT -AAAGCTGCGGCTGGCCGTGCGTTAGATGCTATTATTGCTTCCGTAACTGAATCTCTGAAAGAAGGGGATGATGTA -GCACTGGTAGGTTTTGGTACTTTTGCCGTTAAAGAGCGTGCTGCCCGTACTGGCCGCAACCCGCAGACCGGTAAA -GAGATCACCATCGCTGCTGCTAAAGTACCGAGCTTCCGTGCAGGTAAAGCACTGAAAGACGCGGTAAACTAAGCG -TTGTCCCCAGTGGGGATGTGACGAAGTTCAAGGGCGCATCTACTGATGTGCCTTTTTTATTTGTATTCGGTGACT -TTCTGCGTCTTGTGGGCTGACAATTGCCCCCGTTTCTTGTCACAATAGGCCTTTGCGCGCATCGATACGTTGCGT -GAGGTACACAGTCATCTACAGCGGAGTGTTGTTACACCATGATGGACAGCTTACGCACGGCTGCAAACAGTCTCG -TGCTCAAGATTATTTTCGGTATCATTATCGTGTCGTTCATATTGACCGGCGTGAGTGGTTACCTGATTGGCGGAG -GCAATAACTACGCCGCAAAAGTGAATGACCAGGAAATCAGCCGTGGGCAATTCGAGAACGCCTTCAACAGCGAGC -GTAATCGCATGCAGCAACAGCTGGGCGATCAATACTCCGAGCTGGCAGCGAACGAAGGCTATATGAAAACCCTGC -GTCAACAGGTGCTGAATCGTCTGATCGACGAGGCGCTGCTGGATCAGTACGCACGTGAGCTGAAACTGGGTATCA -GCGATGAGCAGGTTAAACAGGCGATTTTCGCGACCCCAGCCTTCCAGGTTGACGGCAAATTTGATAACAGCCGCT -ATAACGGTATCCTCAACCAGATGGGGATGACCGCCGATCAGTACGCCCAGGCGCTGCGTAACCAGCTCACTACCC -AACAGCTGATTAACGGCGTTGCCGGTACCGATTTTATGCTGAAAGGTGAAACCGACGAGCTGGCGGCACTGGTCG -CGCAACAACGCGTGGTGCGTGAGGCGACTATCGATGTTAACGCGCTGGCGGCGAAGCAGCCTGTGACCGAACAGG -AGATTGCCAGCTACTACGAACAAAACAAAAACAATTTCATGACGCCGGAACAATTCCGCGTGAGTTACATCAAGC -TGGATGCCGCAACGATGCAGCAACCGGTTAGCGATGCGGATATCCAGAGCTACTACGACCAGCATCAGGATCAAT -TCACCCAGCCGCAGCGTACCCGCTACAGCATCATCCAGACCAAAACTGAAGATGAAGCGAAAGCGGTACTTGATG -AGCTGAATAAAGGCGGTGATTTTGCTGCATTAGCCAAAGAAAAATCTGCCGATATTATCTCTGCTCGTAACGGCG -GCGATATGGGTTGGTTAGAAGATGCCACTATCCCGGACGAACTGAAAAATGCTGGTCTGAAAGAAAAAGGCCAAC -TGTCTGGTGTCATCAAATCTTCGGTCGGTTTCCTGATTGTACGTCTGGACGACATTCAGCCAGCGAAAGTGAAAT -CGTTAGACGAAGTACGTGACGACATTGCGGCGAAAGTGAAACACGAAAAAGCCCTCGATGCGTACTACGCGCTGC -AGCAGAAAGTGAGCGATGCGGCAAGCAACGACACCGAGTCTCTGGCCGGTGCAGAGCAAGCTGCCGGCGTTAAAG -CCACTCAGACGGGTTGGTTCAGCAAAGATAACCTGCCGGAAGAGTTGAACTTCAAGCCGGTTGCCGACGCTATCT -TTAACGGCGGTCTGGTAGGTGAAAACGGCGCGCCGGGCATCAACTCTGACATCATCACCGTAGACGGCGACCGCG -CATTCGTGCTGCGCATCAGCGAGCACAAACCGGAAGCGGTGAAACCGTTGGCAGATGTTCAGGAACAAGTTAAGG -CATTGGTTCAGCACAACAAAGCTGAACAACAGGCGAAAGTGGATGCTGAGAAACTGCTGGTTGATTTGAAAGCCG -GCAAAGGTGCGGAAGCTATGCAGGCTGCCGGTCTGAAATTTGGCGAGCCGAAAACCTTAAGCCGTTCCGGTCGTG -ACCCGATTAGCCAGGCGGCGTTTGCACTGCCACTGCCAGCGAAAGACAAACCGAGCTACGGTATGGCGACCGATA -TGCAAGGTAATGTGGTTCTGCTGGCGCTGGATGAAGTGAAACAAGGTTCAATGCCGGAAGATCAGAAAAAAGCGA -TGGTGCAGGGTATCACCCAGAACAACGCACAAATCGTCTTTGAAGCTCTGATGAGTAACCTGCGTAAAGAGGCGA -AAATCAAAATTGGCGATGCGCTGGAACAGCAATAATCCTGAAGCCGCCTCGCAAAAAAATGCGTTGCAGCTGTAA -CAAGAAAAGGTCGCTTTCGCGGCCTTTTCCATTTCTGAACATTGCCATTTGTTTACTGTTTTCACTGCCGTTAAG -GTGATTCCACTGTTAACAAACAAGGAGAAAACAGTATGAAACACGGAATTAAAGCACTGCTCATTACCCTGTCCC -TGGCCTGTGCCGGAATGTCTCATAGCGCGCTGGCGGCAGCTTCTGTGGCGAAACCGACGGCGGTAGAAACCAAAG -CGGAAGCTCCTGCAGCACAAAGTAAAGCAGCAGTACCGGCGAAAGCCAGTGACGAAGAAGGCACCCGGGTCAGCA -TTAATAATGCCAGCGCGGAAGAGCTAGCCCGCGCGATGAATGGCGTTGGCCTGAAGAAAGCGCAGGCGATTGTCA -GTTATCGCGAAGAGTACGGTCCGTTTAAAACTGTGGAGGATCTAAAGCAGGTGCCGGGGATGGGCAATTCGCTGG -TGGAACGTAATCTGGCGGTATTAACCCTGTAATTAATTTGCATAGTGGCAATTTTTTGCCAGACTGAAGAGGTCA -TACCAGTTATGACCTCTGTACTTATAACAACAACGTAAGGTTATTGCGCTATGCAAACACAAATCAAAGTTCGTG -GATATCATCTCGACGTTTACCAGCACGTCAACAACGCCCGCTACCTTGAATTTCTCGAAGAAGCCCGCTGGGATG -GGTTGGAAAATAGCGACAGTTTTCAGTGGATGACGGCCCATAACATCGCCTTCGTCGTGGTCAATATCAATATTA -ACTATCGTCGCCCAGCGGTATTAAGTGACCTGTTAACTATTACCAGTCAGTTGCAGCAATTAAACGGTAAAAGCG -GCATCTTAAGCCAGGTCATTACACTGGAGCCGGAAGGGCAGGTGGTAGCGGATGCGCTTATTACGTTTGTTTGTA -TTGATCTTAAAACGCAGAAAGCATTAGCTCTGGAAGGGGAATTGCGCGAAAAGCTGGAGCAGATGGTTAAGTAAA -CGTTTTGTGGTGCCGGATGCTCAAGCCGCATCCGGCGACACCCGGAATAATTACCTCAACCCGGTTTTCTGCTTC -ATCGCTGCCATCACCGTCGGTTTATCGGCCAGATAATGATTCAAACCGTTGGCGCGTAAATTACATGCCGCACAA -TGACCGCAACCGTCGCCTTTAAAGCCGTTATAGCAGGTCAACGTTTCGTTACGGACTAAATCCAGTTTGCCGTAA -TAATCTGCCAGCGCCCAGGTTTCCGCTTTATCAATCCACATCAGCGGCGTTTCAAAACGAATATCTTTCGCCATG -CCCAAACTGACGGCATGGTTTAGTGCTTTCACAAACTCATCGCGGCAATCCGGGTAGCCGGAGAAATCCGTTTCG -CAGACGCCAGTAATTACGGCTTCTGCTTTTACCTGATACGCATATATTGCCGCCAGCGTCAGGAACAAAATATTA -CGCCCTGGGACAAACGTATTCGGGATACCATCGGCTTCAGGTTCATAATCAGGCACCGGAATGCTGTCACGCGTC -AGGCTACTGACCGCCAGCTCGTTGAGCAGGGTGACATCCAGCACCTTATGCGCGCGTGCCCCCAGTTTCAGCGCC -AGTTCGCGTGCCACGTCGATTTCTGCGCGATGCCGCTGACCGTAATCGAACGTCACGCAATGGACTTCATCATAT -TGTTGTAATGCCTGCACCAGACAGGTGGTGGAATCCTGACCTCCACTGAACACAACGACAGCACGTTTCATAGAT -AATCCTGCTTGAACAATAAAAGCGTTATGGTAACGCCTGCGATTAACCCGGACCAGCTATTCATTGCGATGGCGC -GGGAAGCCAGGCTTCGGTAAATTCAAACCAGCCGCGCGGTGTCAGTCGCACACCGTTCACGCCGGGAGGGGCACT -AATGCGATAGTGATAGTTGAACAGCGGCGTCAGCGTCGCATCTGTCATTAACTGGCTAAAAACCGCTTTCAGGGC -ATTAAATCGGTTTTCTTCATCAGGCATTATTTGCACGGCATCCAGTGTCGATTGTAGATGTGCGTATGCTGGAGC -GTCGAAAACATGTGGCCACAGCGGATCGCAGCGCAGCCATTGCTCCAGAGTATATTCCGGTGCTTCGCCAATTAA -TCTGTCGCCCATCATGAGGTCTGCGTGTGCCTGTAGGGTCGTGTCGTCCCAGTTTTTTGCGTTATGAAAAATAAT -TGTGAGTTCACAGCCTTCCGCTGCCAGTGTCGCCTGTAGGCGTTCTGCCATGGTATGAAGTTCTATCGGTAGGTG -ATAAACCAGCGTCAAGGTTTTCGGTAGTTTGACTTCATCCGGTACCTGCCAATGCGGAATAGTCCAGCCTGGCAG -TAATGCATGACTGGCGGTGATCAGGTTTTCTCCGACTTCTAACGTTTGTAATAAACCGGATTGATGAATAATGGA -GATCACTTTTCGCGCCTGCCAGAGGGAGAGTCGGGGACTTTTGCGCAACGTCAAATAGCAAAAACCTAAACTGAT -GCCGCTACTGACCTGGCTGACCCGTTGCAGCTCCTCCGGTTTGCCGATGGTGATTTGCACGGGATGCCGACAACT -GGTTCCCAAATCTTTTTCGAAAAGCGGCGGAGTTATCCAGTACTCAACCGCTTTAAGCAGCGGATGACGTAAATG -GTAATAATCATGGCTTTCCAGGCGCACCAGCTCTGCTGTGAATTGTGTTAAGCGAAAAGGACCCGTGCCGATCAG -TGGGAATTGCGGATGCGCCAGATGGCTGCAATAGCTCGCCAGCCGGTGCGCAAGCCAGTAATCAGGGCGATGTAA -AAAGAAGGTCAGACACTGCGGATGGGTGACTTCAATACGCTTCACGCTAATAAATAATTGATCCAGTGCTGGCAG -TTGTAACAGCATCAATAATCGCTGGTGTAAGTGTGAGGCTTTTACTGCATCGCCGTTATGCCAGTGTAGGGTTGA -ACGAAGATAAAAGTCCCAGCGTAACCCGTCAGTAGAGGTTTCCCAGTGATGCGCTAAATCGCCAATCGGGCGCTG -AGTATTATTATCGAAGCGGGTCAGGCCGGAAAATATCTGCCCGGCGAGATGCTGCTCGGCACGGCCGGGCAAAAA -GCCTGGTTGTAGCGGTTCGAGCGGGCGATAGTAGGGAATACGCAACGTGGGTGTATCGTTTTGCCATTGTCCGCC -CATAAACGGCTGTAACAGAGTGCGCAGCTCACCTGGGGCCAGTTGCGCCAGCTCCAGCACATCTTGCTGCTTTCC -GGTTTCCAGTGCCTGTTCCATCATCGCATTGCGTAGCGATTCCGGCGTGACCAGAAAGCGTAATTGTCCGCGCTT -TCCGCGTCCTGACTGCGCCTGCCACTCCAGCCATCCCGCCTCCTGTGCCTGACGCAACAGCGTACGAACATGGCG -TTCGCTGCAAAAACAGCGTTCGGCCAGTTCGCTGACGGTGACGGTTTGCGGCTTTCCGGCGGAAGGTTGCCACAG -ACGTTGATACTGGTTAAGACGGTTGAGCAATCGCATATAAACCCGGAACAATATTATTTAACTATTCACTATTAC -TTCCGTATATATCAGGTGATACTCAATCACCATTAACCGTGTCACAGAGTGGAGAAAGAAATGGCTCGTCTGGCA -GCATTTGATATGGATGGCACTTTATTGATGCCCGACCATCATTTAGGTGAGAAAACCCTCTCTACTTTGGCGCGA -CTGCGTGAACGCGACATTACCCTCACTTTTGCCACGGGGCGTCATGCGCTGGAGATGCAGCATATTCTCGGGGCG -CTATCGCTGGATGCGTATTTGATTACCGGCAACGGAACGCGCGTGCATTCTCTGGAAGGTGAACTTTTACATCGT -GATGATTTACCTGCGGATGTCGCGGAGCTGGTGCTGTATCAGCAATGGGATACCCGAGCCAGCATGCATATCTTC -AATGACGACGGTTGGTTTACCGGGAAAGAGATCCCTGCGTTGTTGCAGGCATTTGTCTATAGCGGTTTTCGTTAT -CAGATAATCGATGTCAAAAAAATGCCACTCGGCAGCGTCACCAAGATCTGCTTCTGTGGCGATCACGACGATCTT -ACACGCTTGCAGATCCAGCTATACGAAGCATTAGGCGAGCGTGCACATTTGTGTTTTTCCGCCACGGATTGCCTC -GAAGTGCTGCCGGTGGGCTGCAATAAAGGCGCTGCATTGACGGTGCTGACCCAACATTTAGGTTTATCGTTGCGC -GATTGCATGGCCTTTGGTGATGCGATGAACGATCGCGAAATGTTAGTCAGCGTCGGTAGCGGATTTATTATGGGC -AATGCGATGCCGCAACTGCGCGCGGAGCTCCCGCATTTACCGGTGATTGGACATTGCCGAAATCAGGCTGTCTCT -CACTATTTGACGCACTGGCTGGACTATCCACATCTACCTTATTCCCCCGAATAACGAGATCCCTTCCAGCACCGG -GCAATTGCCCGGTTTTTTTTGCGTTGAATTTGTCATTTTGTGCCGTGGTGTTTAAACCGCACAGAATAAATTGTC -GTGATTTCACCTTTAAAATAAAATTAAAAGAGAAAAAAATTCTCTGTGGAAGGGCTATGTTAGATAAAATTGACC -GTAAGCTGCTGGCCTTACTGCAGCAGGATTGCACCCTCTCTTTGCAGGCACTGGCTGAAGCCGTTAATCTGACAA -CCACCCCTTGCTGGAAGCGCCTGAAACGGCTGGAGGACGACGGTATCCTTATCGGCAAAGTCGCCCTGCTGGATC -CGGAAAAAATAGGCCTCGGCCTGACCGCTTTTGTGCTGATAAAAACGCAACATCACAGCAGCGAATGGTATTGCC -GCTTTGTCACGGTGGTTACCGAAATGCCAGAAGTGCTGGGGTTCTGGCGCATGGCTGGTGAATACGATTATCTGA -TGCGCGTCCAGGTTGCCGACATGAAACGCTACGACGAGTTTTATAAGCGTCTGGTAAACAGCGTGCCGGGGCTGT -CGGACGTCACTTCCAGCTTCGCGATGGAACAGATTAAATACACCACTTCTTTACCCATCGAATAAATATCCAGAA -TCAGGTCAGGACACAACGCGTGCGATTATTTGCTCAATTAAGCTGGTATTTCCGTCGGGAATGGCGTCGCTATCT -CGGGGCTGTCGCCTTGCTTGTCATTATCGCGATGCTGCAACTGGTTCCGCCAAAAGTGGTTGGTATTGTTGTCGA -TGGCGTGACAGAACAACACTTTACTACCGGGCAGATCCTGATGTGGATCGCCACCATGGTGCTGATTGCCGTTGT -GGTTTATCTCCTGCGTTACGTCTGGCGGGTATTGCTGTTTGGTGCGTCTTATCAACTGGCTGTTGAACTGCGTGA -AGATTATTACCGTCAGCTAAGCCGGCAGCATCCTGAGTTTTACCTGCGTCATCGCACCGGTGACCTCATGGCTCG -TGCGACCAATGACGTCGATCGCGTCGTGTTTGCCGCCGGAGAAGGGGTGCTGACGCTGGTGGATTCACTGGTGAT -GGGCTGCGCTGTGTTGATTATGATGTCTACGCAAATTAGCTGGCAGTTGACCTTATTTTCCCTGTTGCCGATGCC -AGTGATGGCGATCATGATTAAGCGCAACGGCGATGCTTTGCATGAACGCTTTAAGCTGGCACAGGCGGCGTTTTC -CAGTCTTAATGACCGCACCCAGGAAAGCCTCACCAGTATCCGCATGATCAAAGCCTTTGGTCTGGAAGATCGCCA -GTCGGCGTTATTTGCCGCGGATGCCGAAGATACCGGCAAAAAAAACATGCGGGTGGCGCGTATTGATGCTCGTTT -CGACCCGACCATCTATATCGCGATTGGTATGGCGAACTTGCTGGCGATTGGCGGCGGTAGTTGGATGGTGGTGCA -GGGCAGTTTAACGCTGGGCCAGCTCACCAGTTTTATGATGTATTTAGGTCTGATGATTTGGCCAATGCTGGCGCT -GGCATGGATGTTTAACATTGTGGAACGTGGTAGTGCTGCGTACAGCCGTATTCGCGCGATGCTGGCGGAAGCGCC -GGTGGTGAACGATGGTAGCGAACCCGTGCCGGAAGGGCGTGGCGAACTGGATGTAAATATTCACCAGTTCACGTA -TCCGCAGACTGACCATCCTGCGCTGGAAAACGTCAATTTCGCCCTGAAACCCGGTCAGATGCTGGGTATCTGCGG -GCCGACTGGTTCCGGCAAAAGTACCCTGTTGTCGCTCATTCAGCGTCATTTCGACGTCAGCGAGGGGGATATTCG -CTTTCATGATATTCCTCTGACGAAGTTACAACTCGATAGCTGGCGTAGCCGCCTGGCGGTAGTTAGCCAGACGCC -ATTCCTTTTTTCTGACACTGTGGCGAATAACATCGCGCTGGGTTGCCCGAATGCCACCCAGCAAGAGATTGAGCA -TGTCGCGCGGTTAGCCAGCGTACATGACGATATTTTGCGTCTACCGCAAGGTTACGATACAGAGGTGGGCGAGCG -CGGTGTGATGCTTTCCGGCGGGCAAAAACAGCGTATCTCCATTGCTCGTGCGTTATTAGTCAACGCGGAAATCCT -CATCCTTGATGATGCGCTTTCGGCGGTGGACGGACGCACTGAGCACCAGATCCTGCATAACCTGCGTCAGTGGGG -GCAGGGAAGAACGGTAATCATCAGTGCCCATCGCCTTTCTGCACTGACGGAAGCCAGTGAAATTATTGTGATGCA -GCACGGACATATCGCCCAGCGTGGCAATCATGATGTGCTGGCACAACAAAGCGGCTGGTATCGCGATATGTATCG -CTATCAACAACTGGAGGCGGCGCTCGACGACGCTCCGGAAAATCGCGAGGAGGCCGTCGATGCGTAGTTTTAGCC -AACTGTGGCCGACTCTCAAGCGCCTGTTAGCGTACGGTTCGCCGTGGCGTAAACCGCTGGGGATTGCGGTCCTGA -TGATGTGGGTTGCGGCGGCGGCAGAAGTCAGTGGGCCGCTGCTTATCAGCTATTTTATCGACAATATGGTAGCGA -AAAATAACCTGCCGTTGAAAGTGGTTGCAGGGCTGGCTGCGGCGTATGTTGGGCTGCAACTGTTTGCCGCCGGGC -TACATTACGCGCAGTCGCTGCTGTTTAATCGGGCGGCAGTAGGCGTAGTGCAACAGTTGCGTACCGACGTGATGG -ATGCTGCGTTACGCCAGCCATTAAGCGAGTTTGATACCCAACCCGTCGGGCAGGTGATTTCCCGCGTCACTAATG -ACACTGAAGTGATCCGCGATCTCTACGTTACCGTAGTGGCAACTGTCCTGCGCAGTGCCGCGCTGGTGGGCGCGA -TGCTGGTGGCGATGTTCAGCCTCGACTGGCGAATGGCACTGGTGGCGATAATGATTTTCCCGGTGGTGCTGGTGG -TAATGGTGATATACCAGCGTTACAGCACGCCGATTGTCCGTCGTGTGCGCGCCTATTTGGCGGATATCAACGACG -GCTTTAACGAAATCATCAATGGCATGAGCGTTATCCAGCAGTTTCGTCAGCAGGCGCGATTTGGCGAACGTATGG -GGGAGGCCAGTCGTTCACACTATATGGCGAGGATGCAAACCCTGCGCCTCGACGGTTTTCTGCTGCGTCCGCTGC -TGAGTCTGTTTTCATCGCTCATTCTTTGTGGCTTGTTGATGCTGTTTGGCTTCTCCGCCAGCGGCACCATTGAAG -TGGGCGTGCTGTATGCGTTTATCAGCTATCTTGGGCGACTTAACGAACCATTAATCGAACTGACCACGCAACAGG -CGATGCTGCAACAGGCTGTTGTTGCTGGTGAGCGCGTGTTTGAACTGATGGACGGACCGCGCCAGCAATATGGCA -ATGATGATCGCCCGTTACAGAGTGGCACCATCGAAGTCGATAACGTGTCATTTGCTTATCGCGATGACAATCTGG -TGCTAAAGAACATTAATCTCTCTGTGCCTTCGCGCAATTTTGTGGCGCTGGTCGGGCATACCGGCAGTGGCAAAA -GCACCCTCGCCAGTTTATTGATGGGCTATTACCCGCTAACGGAAGGTGAGATTCGCCTTGATGGTCGTCCATTAA -GTTCGCTAAGTCACAGCGCGCTGCGCCAGGGCGTGGCAATGGTGCAGCAAGATCCGGTGGTGCTGGCGGATACCT -TCCTCGCCAACGTGACGCTGGGGCGGGATATCTCCGAAGAACGCGTCTGGCAGGCGCTGGAAACCGTGCAACTGG -CGGAGCTGGCGCGTAGCATGAGCGACGGTATTTACACGCCGCTGGGCGAGCAGGGGAATAATCTCTCAGTTGGGC -AAAAGCAACTGCTGGCACTGGCGCGCGTGCTGGTCGAGACGCCGCAAATCCTGATCCTTGATGAGGCAACCGCCA -GCATTGACTCCGGTACTGAACAGGCGATTCAACATGCTCTGGCGGCGGTGCGTGAACATACCACGCTGGTAGTGA -TTGCTCACCGCTTATCGACCATTGTTGATGCCGACACCATTCTGGTGCTTCATCGTGGGCAAGCCGTGGAGCAGG -GCACTCACCAGCAACTGCTGGCGGCCCAGGGACGCTACTGGCAGATGTATCAACTGCAACTTGCGGGCGAAGAGC -TGGCAGCCAGCGTGCGTGAAGAGGAATCATTGAGCGCCTGAATAGCGCAATATTTCATCGTTGGTGCAAAAATGT -AACGCACTGTGCACTGTCATAGTGCGTTTTCATTTTCAAACTTCTTAACTTCCTGCTCTCTTTCTCGTTTTTCAT -TTCTGGCACACCGCTTGCAATACCTTCTTCGTGTAGCAGAACCATTACCGAATTCTGACCGGAGGGGATCTATGA -AGCTGGTGACCGTGATAATCAAACCATTCAAGCTGGAAGACGTTCGTGAAGCGTTATCTTCCATTGGTATTCAGG -GCCTGACCGTCACCGAAGTGAAAGGTTTCGGGCGTCAGAAAGGGCATGCCGAGCTGTACCGGGGGGCGGAATACA -GCGTCAATTTCCTGCCAAAAGTAAAAATTGATGTGGCGATTGCTGATGACCAACTCGATGAAGTGATCGATATCG -TCAGTAAGGCGGCTTACACCGGAAAAATTGGCGACGGCAAAATCTTCGTCGCTGAATTGCAACGCGTCATTCGTA -TTCGTACCGGCGAAGCCGACGAAGCGGCGCTGTAATCTCTGGCACACAGCAACAGGAACGAAAAATGAAGATAGC -GACGATAAAAACTGGGCTTGCTTCACTGGCGATGCTTCCGGGACTGGTAATGGCTGCACCTGCGGTGGCCGATAA -AGCCGACAATGCGTTTATGATGATTTGTACTGCGCTGGTGCTGTTTATGACTATTCCGGGGATTGCCCTGTTTTA -CGGTGGGTTGATTCGCGGCAAAAACGTGCTGTCGATGCTGACGCAGGTGACGGTGACATTTGCACTGGTCTGTAT -TCTCTGGGTGGTTTACGGTTACTCGCTGGCGTTTGGTGAGGGCAACAACTTCTTCGGCAACATTAACTGGTTGAT -GCTGAAAAACATCGAACTGACGGCGGTGATGGGCAGCATTTATCAGTATATCCACGTGGCGTTTCAGGGATCGTT -TGCCTGCATTACCGTCGGCTTGATAGTTGGGGCGCTGGCGGAACGAATCCGCTTCTCAGCTGTGTTGATTTTCGT -GGTGGTATGGCTGACGCTCTCTTACATTCCGATTGCGCATATGGTGTGGGGCGGTGGTTTGCTGGCTTCTCACGG -TGCGCTGGATTTCGCGGGTGGCACCGTGGTGCACATTAACGCCGCAATCGCCGGTCTGGTGGGCGCGTATCTGAT -AGGAAAACGCGTGGGCTTCGGTAAAGAGGCGTTTAAACCGCACAACCTGCCGATGGTCTTCACCGGGACTGCCAT -TCTCTATATCGGTTGGTTTGGCTTTAACGCCGGGTCAGCGGGCACGGCGAATGAAATCGCGGCACTGGCATTTGT -GAATACTGTGGTCGCAACGGCGGCGGCAATTCTTGGCTGGATCTTCGGTGAATGGGCGCTGCGTGGTAAGCCTTC -ACTGCTGGGGGCGTGTTCTGGCGCGATTGCCGGTCTGGTCGGCGTGACGCCAGCCTGCGGCTACATTGGGGTTGG -CGGCGCGTTGATTATCGGCGTGGTAGCTGGTCTGGCGGGCTTGTGGGGCGTTACCATGCTCAAACGCTTGCTGCG -GGTGGATGATCCCTGCGATGTCTTCGGTGTGCACGGCGTTTGTGGCATTGTCGGCTGTATCATGACCGGGATTTT -TGCCGCCAGCTCGCTGGGCGGCGTGGGCTTCGCTGAAGGTGTGACGATGGGCCATCAGTTGCTGGTACAGCTGGA -AAGCATCGCCATTACGATCGTCTGGTCCGGTGTTGTGGCATTTATCGGCTACAAATTGGCGGATCTGACGGTTGG -TCTGCGTGTACCGGAAGAGCAGGAGCGAGAAGGGCTGGATGTCAACAGCCACGGCGAGAATGCCTATAACGCGTA -ACAAGCACTGCAAAAAACAGCCGGACGGTTTTCACCTCCGGCTATTTTTTTAATTGTGATTACGCATCACCCCTT -CCTGAACGGTCGAGGCAACCAGTACGCCGTCTTGGGTATAAAACTCACCGCGCACAAAGCCACGTGCGCTGGACG -CCGAGGTGCTCTCCACGCTATACAGCAGCCATTCATTCAAATTAAACGGGCGATGGAACCACATGGAATGGTCAA -TGGTGGCAATCTGAATCCCCGGTTCGAGAAAACCGATGCCGTGCGGCTGTAGAGCTACCGGCAGGAAGTTAAGAT -CAGAAGCGTAACCGAGCAGATACTGATGAACGCGCAGGTCATCCGGCACGCTACCATTTGCGCGGATCCACACCT -GACGATGTGGTTCTGCGACGTGACCTTTCAGTGGGTTATGAAACTCCACCGGACGGACTTCCAGCGGACGATCGC -AGATGAATTTATCTTTCAGCACTGGCGGCAGCAGGTGCGCCAGCGATTGGGCGATTTGCGTTTCCGAAGGGAGGC -CATCAGGCGCTGGCGCGGACGGCATTGTTTTTTGATGTTCGAAACCCGCTTCTGGTGCCTGGAAAGAGGCAGTCA -TATAAAAAATCGGTTTGCCGTTTTGAATAGCAGCAACCCGGCGGGCGCTGAAGCTGTTACCGTCACGCAGCGTTT -CGACATCATAAATAATCGGCTTCTTACTATCGCCAGGGCGAAGAAAGTAGCTGTGAAACGAATGTACCAGCCGCT -CTTCAGGGACGGTCTCTTTTGCAGCATACAAGGCCTGACCCACGACCTGGCCGCCAAACACCTGGCGTAAACCTA -AATCTTCACTCTGGCCGCGAAAGAGTCCTTCCTCAATTTTTTCCAGATTTAACAATGTCAGTAAATTTTTTAGCG -CCTGACTCATATAACTCTCCAGTAACAAAGCTGCCGCAGCAAGCCAAAGTGAGTTGAGTATAACGCAAATTTGCT -ACTGGTCCGATGGGTGCAATGGTCTGAATTACGGGCTAATTACAGGCAGAAATGCGTGATGTGTGCCACACTTGT -TGACGTTACTATTTTGTTAACCACTCTTCCGGCGAGGAAAGTTAGCCCGCTGGTGCATTGATAATAAGGAGAAAT -GAATGAAACTCGTGCACATGGCCAGTGGTTTAGCGGTTGCGATTGCGTTGGCGGCTTGCGCAGATAAAAGCGCGG -ATATTCAGACGCCAGCACCGGCTGCAAATACGTCTATTTCAGCAACACAACAACCAGCTATCCAGCAACCGAATG -TCTCCGGTACCGTCTGGATCCGTCAGAAAGTCGCACTGCCGCCTGATGCTGTGCTGACCGTGACACTTTCTGACG -CGTCGTTAGCCGATGCACCGTCAAAAGTGCTGGCGCAGAAAGCGGTGCGTACTGAAGGTAAACAGTCACCATTCA -GCTTTGTTCTGTCATTTAACCCGGCAGATGTTCAGCCGAACGCGCGTATTCTGTTGAGTGCGGCGATTACCGTGA -ATGACAAACTGGTATTTATCACCGATACCGTTCAGCCGGTGATCAACCAGGGCGGAACTAAAGCCGACCTGACAT -TGGTGCCGGTACAGCAAACCGCCGTGCCGGTTCAGGCCAGCGGTGGCGCAACGACTACCGTACCTTCGACTTCAC -CAACTCAGGTGAATCCGTCTTCGGCAGTTCCAGCTCCTACGCAATATTAAGCGACGTTAACCCTCTCCGCCCGGA -GAGGGTTAGTAGTTCCAGCGATAACGCTGCAAGTCGATTTGCCCGCTTCCCGATACCATCACACCTTCTGCCAGT -AATGCCTGTCGCTGACGCTGTAAATCCGGTCCGGTTAGCGAAATTGTGCCGTGGCGATTAACCACCCGGTGCCAG -GGTAAGGTGCTGCCTTCAGGGAGACGCTTTAACACACCGCCCACCTGGCGCGCGGCGCGGGGCGATCCCGCCAGT -TTCGCCACATCACCGTAAGTGGTGACATAGCCTTCGGGAATAGCGGCGACGATTTGCCAGACGCGTTGGGGAAAT -GAATCTTCTTTTTCCATCTTTTCTTCCTGAGGTAATTTTTCAGCATAATCTGGAAAAACGCCCGAGTGAAGTCGC -ATTGCGCAAGAAACCAGCATCTGGCACGCGATGGGTTGCAATTAGCCGGGGCAGCAGTGATAATGCGCCTGCGCG -TTGGTTCTCAACGCTCTCAATGGGGGCTCTGTTGGTTCTCCCGCAACGCTACTCTGTTTACCAGGTCAGGTCCGG -AAGGAAGCAGCCAAGGCAGATGACGCGTGTGCCGGGATGTAGCTGGCAGGGCCCCCACCCATTTCTGCCTCCCAC -CGTTTCGTCAAAAAATCCCAACATGGCTAAACTTTAACCACAACTGACGTCGCAAGAATTGTCTGGCTGCGCAGT -ACGCTTCGGAGGTATGTCTGATGAAGTATGTTGATGGTTTTGTGGTTGCCGTTCCTGCCGATAAAAAGGATGCCT -ATCGGGAAATGGCCGCTAAGGCTGCGCCATTGTTTAAAGAGTTTGGCGCGCTTCGTATTGTCGAATGCTGGGCCA -GCGATGTACCGGATGGCAAAGTGACCGATTTTCGTATGGCGGTGAAAGCGGAAGAGAATGAAGAGGTTGTCTTTA -GCTGGATTGAATACCCTTCAAAAGAGGTCCGCGACGCTGCTAATCAAAAGATGATGTCGGACCCACGGATGAAAG -AGTTCGGCGAGTCCATGCCGTTTGACGGCAAGCGAATGATCTATGGCGGATTCGAGTCAATCATCGACGAATAGG -TAGCGTGACGGGCTGTGCGGCGTGCCGTCAGCCCAAAAATTCACAAATGTTGCTCGGCCCAGCGTAAGAAATCTT -CTTTCGGTAATGCCTTGCTGTAGAGCCAGCCCTGACCGTAGTGCACGCCATGCTGGCGTAACCACTCTTCTTGTT -TACTGGTTTCGATTCCCTCCGCTACCATTTTCAGTTTCAGTGTTTTTGCCATTTCGATGATATGCGGCGTGACAT -TTTTATATTCCAGCGCATCAACGAAAGATTTATCGATCTTCAGAATGTCGACATCCAGATCCTGTAAATAACTTA -AACTTGAATACCCCGTACCAAAATCATCAAGATAAATTTCATGGCCCGCCTCCCGGTAGCGAGAAATTATCGGGG -CGCTGGTTTTCGGATCGGCAAACTCGCGTTCAGTGAGTTCAAGCGCGATCTGTCTGGGATTAACCTGATAGTGAT -TGATCATGTCACGCAGCAATTGCGGGATTTTTTCCGAGGTGAGCACGGGGGATTCAAGATTGATCGAAATATGCT -GCTGTGGATGCTGACGCAGCCAGTCGCCCATATCTTCAAAGACGCTTCTTATAATCAGTAGCGTCAATGGCTCAG -AAAGGCCCGTTTGCTGTGCCAGCGGAATAAAACTATCTGGTGACAACCAACTACCGTCTGTCTGCGGCCAGCGCG -CCAGTGCCTCAGCACCGACAATTTTGCCATTGGCTAAGGAGACAATCGGCTGATAGTGCACGCAAATATCACGAT -TTTCGATAGCATCCTGCAGCCGATGATGCGGTGACTGAATACGGCGCAAAATACGCAGCACAAACATCGCTGCCA -GCAGGCCAATCACCAACCCGAGCGGTAACCAAATAAAGACTTGCCGATGCCAGCCTTTCTGCAACATTTTCGTTG -AAGCCCATGTGATGATCGAAATATTCATCTCCGGTAAGGGCAGGATATCGTAAATGATTCCATTATTTTCGATAT -GCTCACCGGGTGTTTTTTGTAGCCTGGTAATAATTCCCTGAGCAATTTCATCGCTGCTGGTTATGACAACGTTAT -GGGCATTGCCAATAATGGCGGCATCAATTTGCCATGAGCTATAGGGAATGACATCAATAAAGGAAGCGGGGTCGA -TCATGACGACATAATGTGCCGTTCCCATGGCGACCATGTAACGGATAATGCCTAAATCGTTATGCGATGTTAACC -AGACACGATAACCATCTTTCGAAATTTTACCTGGCTCGGGGAAGGTATCGGGCGGACTTTCATGCTCCAGAGACG -AACACTGGGGAACGTTGTTATCGATATAAGCCACTTCCTGAATATAGCGATAACTGTAAGATACCCGACGCATTT -CCATGAGATGGGCTTCGCTACAGGCAGCGCCTTGCCATCTTTCCAGCTCCTGCAGCGCATCTTTCCCTTGTGTCG -CCACCTTATTGGCTCGAATAGCGACGCGGGAGGAATAGGTATCCAGCTCTTCAATAAACGATGTTTCTACCTGCT -GATGGGCCAGCCAGATGCTTAAGCCGACAGGCAGCAATACTGAAAGAATCAGTACTCCCGAAATAAGGCCGACCA -GATGTCGTGTTCTCACCAGCATATCCTTATTAACACAGTGTAGGGAAAGTATATCTGATTGTGGAAAAAGGCTGG -CTGGAGATAAGGAGGTAGAGCTGGTATTTCATGAAGTGATGGGTGGAAACGATCATTGTCATTTGACCAGGCGCA -GAGCTTTACGCCTGGTATGTAACCCTAACTTAAGATGTTGATTCGGCGCGAGCGAGGGTAAAAATATCGTAAAAA -GACAGTTCACCTTTACGGACGATCATTTTTTGCAGTTGTTCCTTATGAACATCCGCGACACGCGGAGAGTTCAAG -ATGGCTTCAACCAGCGCGGCAGGTACAAAGCGCGTGTTGTACCATTCGCCGTTATAGCAAACGCGGAAATCCAGC -ACGTCGATATCTTCATAGCGGTAGCGTGGGTAGACATCGAAAAAGAAGAAACCATTAAGCAGGATAAATAATACA -ACCAGTAGCCAGACAGAGCCTGACAGCGTTTCGGACTGCAACATCACCGCCAGGGTGGCAAAAAAAGCAACGTAC -ATACCGATAAACAGCCCCGGATGTTTACGGATAAAACTGATACTAAAGCGGGGTTTGTTGTCGCGTTTTTCGCGG -GTATTCAGAGACTCAATCGTTTCGGTCAGCAGGCGTTGTATTTCGGTCATCGTTTGCCTTCGTGGTATCTGCAAC -TTTCCAGGGAACACCCTATTTTAACGTGGGAATAGTAGAGGGGAAGTAACAGATCTACCACAATTTTGCATAACA -GTTGCGAAAAACCGATTACAATTTTTTAATTATTCTGGCTGGATTACCGCCCACGACAACGTTGTCCGGGACATC -TTTTGTGACAACTGCACCTGAGGCTACCACGACGTTATCACCAATGGTCACACCAGGGTTAATGACCGCGCGTCC -GCCAATCCAGACGTTATTACCGATGGTGACGGGTTTCCCCAGTTCAGCACCGCTATTACGTGCTACAGGGTCGAT -GGGATGTGTTGCCGTGTAGATATGAACGCCTGGTGCCAACATACAGTTATCACCGATGCGAATAGGGCAGACATC -AAGCATCACGCAATCGAAGTTGGCGAAAAAATTATTACCGAGAAAAATGTTATAGCCATAGTCACAGCGAAACGT -TGGCTCAATATAAGCCTCTGTCACCTGACCGAATAGATCAGCGAGAATTTGCTGGCGTAATGTGTGCTCTTCCGC -CAGGGAATGATTGTATCGGTGAATAAGCTGACGAGCGCGCAGGCGATCGCGAGATAACGTCTCATCTGCCGAGCG -ATACAACTCACCAGCAATCATCTTTTCTTTTTCTGTGCTCATTACTGACCTCCGGTTGCTGAAAATGCGGCAACA -CAGTAAGACGAAAAGTCAGTGAAGAGAACGTTCCCATTACATCTGTGTGATAAAGATCACATAGGGTATGTCTTC -ATGGCGAAAAAGTATAAAATTCTTAATAAACAGCCGGTTATAGCTCCGAAAGCGAATTATTTATTAGCGAATAAA -TTTCCATACTGAGGAAGGGATCTTGTCGTACAGTTTATTCATGGTCAATTCGGCGAGGCGGTGATCTGCGGCTGA -GTAAAATACCGCCAGTTCATTATCTGATAATTCGTATTTATTTTTCTCGATAACACGCTCCAGCGTGTCAATTGT -CTGGCAACGACGTAAACGCATTAAATAATCGGTTTTCGTTAAAGGTTTTTCGGACATACTTCTACCTATGGTTGT -AATAATTCTAACAAGATAAACTCGCAGGATTCTCTTTCGTCGCATTGACAAAACAACGGAATAGTCGATTACCTG -ACTTCCGCCATTTCTGAAGATCCTGCATATTAATACCATAACTACTGAACAACATAAAGGTGTCATCCAGATATT -CGTCGATCTGCTCAATGAGCTTATTGTCTTCATTATACTTAATTTTGTAATTAAGTGCGAAGGTCGCAATATGCT -CAATCAGTTCATTCAACTGGAGGTTGATCGCCGAGGTTGGGTCGTTTACCCAGCCATGATTGCTTTCTTCAAGGT -TTGCAAGGCAGTCATGATACAGGGTTTCACAGAGAAACTTAAGCTGTGCGATATCATGTCTTTTGGGTGAGTATT -CATCCATAACGCGTCCCCTTCTTAGCGGTTGAACTAACGGACACCTTTCGGGATGGAAAAAACTTACTGACCTGG -ACTTGCCCTCTCGTTTGTTAGCTTAACTATAAGCCACTCTTTGCAGGTTTTCATCGCATTATTACGAAAAATTAC -AATTAGGAAGGAAGCGGGACAGGACTCACTTTTTCATACTAGCACTAACCCGCAGCAGGTAAAAGCAGTTTGCTC -GAACTATTCATAACATTTCAGGATTATCGCCAGATGAAATTGGTGACACTAATACCAGGATTGCTCTGAATATGA -CGTAATAACCGAGGAATGAATAAAGAATTACCGCAAATAATTAAGAATAGCCTCTAAATGATTATGGATTATTAA -ATCTATTAGCGCTACTTAATATAAATTAACTAACAATCAGTATTTTTTATGAATTTTATCCGTGGTTAATACTGG -TTTTCGTATGAGATCCTGAGTTGGTGGTTCAATTACTCCTTAATGTTCGTAGGTTATGCATAAAAAAGGCCGCTT -ACGCGGCCTTAGTGATTACACGTTGTATCAATGATGATCGACAGTATGGCTGTGCTCGATATCTTCATTCTTGCG -GCTAAAGCGGCGGCGAACCACCACAAAGAATACCGGAACGAAGAAGATTGCCAGTACCGTTGCGGTCACCATCCC -GCCCATTACACCGGTACCTACTGCGTTCTGCGCGCCGGAACCAGCACCAGTACTGATAACCAGCGGCATAACGCC -GAGGATAAACGCCAGCGAGGTCATCAGGATCGGACGTAAACGCATCCGCACCGCATCAAGCGTCGCTTCAATCAG -ACCTTTACCTTCTTTATCCATCAAGTCTTTGGCGAATTCGACGATAAGGATCGCGTTCTTCGCCGACAACCCAAT -GGTTGTGAGCAGGCCTACCTGGAAGTAAACGTCATTGGTCAGGCCACGGAAGGTGGCAGCCAGCAACGCACCGAT -AACCCCCAGCGGAACGACCAGCATAACGGAGAACGGAATCGACCAGCTCTCGTACAGCGCCGCCAGACACAGGAA -CACGACAATCAACGAAATCGCGTACAGTGAAGGTGCCTGGTTGCCGGAGAGACGTTCCTGATAGGACATCCCCGT -CCAGTCATAGCCAACACCGGTAGGCAGTTTGCTCGCCAGTTGTTCCATCAGCTCCATTGCTTCACCGGTACTTTT -ACCCGGTGCCGCCTGGCCTAAGATTTCCATGGATGGCAGGCCGTTGTAACGTTCCAGACGCGGCGAACCGTACTC -CCAACGAGAAGAGGAGAACGCCGAGAATGGCACCATCTGACCATCAGCAGCACGAACATACCAGTCGCCGATATC -ATCCGGCAGCATACGGTATTTCGCTTCTGACATGACATAAACTTTCTTCACACGACCGCGGTCGATAAAGTCGTT -CACATAGCTGCCGCCCCATGCAGCGCCCAGAGTGGTGTTAATGTCGTTGATAGAAACACCCAGCGCCTGCGCTTT -TTCCTGGTCGATATCAATCTTAAACTGCGGGGTATCTTCCAGACCGTTTGGACGTACGCTGGTCAACATATCAGG -GTGCTTCGCTGCTTCTGCAAGCAACTGGTTACGCGCCTGAGTCAGTTTTTCGTGACCAAGGCCAGCCTGGTCAAT -CAGCTCAAAGTCAAAGCCGGTTGCAGTACCCAGTTCCACGATTGCGGGCAGGTTAAAGGCGAAAACCATCGCATC -TTTGATTTGCGAGAAAGCGCGTGTTGCACGCATGGTAATCGCTTCAACTTTGTTTTCTTCGCCCGGACGATCGGC -CCAGTCCTTCAAGGAAACGAACGCAATACCGGTATTCTGACCACGTCCCGCAAAGCCGAAGCCGTTAACGGCGAA -CACCGACTCAACGTTGTTCTTTTCTTTGGTCAGATAGTAATGCGTTACCTCATTGAGCACTTTCTGTGTACGTTC -CTGCGTTGCACCTGCTGGCAGCTGAACCATGGTCATAAACACGCCCTGGTCCTCATCTGGCAAGAAGGAGCTTGG -CAGACGCACGAACAGATAGGCCATGCCGACCACGATGATCAGATACAGCACCAGGTAACGCCCCGTACTGCGCAG -AATACCGCCTACGCTGTCGGTGTAGTGGTGCGTGCTCTTCTCGAACATGCGGTTAAACCAGCCGAAGAAGCCTTT -TTTACCTTCCCCGTGATCGCCTTTGGCAATCGGTTTCAGCATGGTGGCACAAAGAGCTGGAGTCAGGATCAACGC -CACCAGTACCGACAGCGCCATTGCTGAAACAATGGTAATAGAGAACTGACGATAGATAGCACCAGTAGAACCGCC -AAAGAAGGCCATCGGTACGAATACCGCCGACAGTACCATCGCGATACCGACCAGAGCGCCCTGAATCTGCCCCAT -CGACTTACGGGTAGCTTCTTTTGGCGGCAAACCTTCTTCCGCCATAACACGCTCAACGTTTTCTACCACAACGAT -GGCGTCATCCACCAACAGGCCGATGGCGAGCACCATCCCGAACATTGTTAGCGTGTTTATCGAGAAGCCAAAGGC -GGCAAGGACGGCAAAGGTCCCGAGCAATACCACCGGTACGGCAATGGTCGGAATCAACGTCGCGCGGAAGTTCTG -CAGGAACAGATACATAACCAGGAACACGAGGATGATCGCTTCGACCAGCGTTTTAACCACTTCGTGAATAGAGAT -TTTCACGAACGGCGTGGTGTCGTATGGGTAAACAATTTTCAGACCCGACGGGAAGAACGGTTCCATCTTCGCCAG -TTCAGCACGGATTGCCGCAGCGGTATCCAGCGCGTTTGCACCGGTCGCCAGCTTGATCCCCAGACCGGAAGCCGG -TTGGCCGTTAAACTCTGCGATGATGTCGTAGTTCTCACCACCCAGCTCAATCTTCGCGACGTCACGCAGCAGCAC -GCGGGAACCATCCTGATTCACTTTCAGCAGGATTTTGCCGAACTCTTCAGTAGAGGTCAGACGCGTCTGAGCAAT -AATAGAGGCGTTAAGCTGTTGGCCTTTCACCGGCGGCGTACCACCGAGCTGACCCGCCGCAACCTGGGCGTTCTG -CGCTTTGATGGCGGTAATGACATCAACCGGCGTTAGCTGGAATTTGTTCAGCTCATTCGGGTTCATCCAGATACG -CATCGCGTACTGTGAACCGAACAACTGAACATCACCCACGCCCGACGTACGGCTGATGGCATCTTTCATATTCGC -CGCCACGTAGTCGGAGATATCCTCCTGCGTCATGGTGCCATCGGTGTTGATAACGCCGACAACCATCAGGAAGCT -GCTGGATGATTTCTCAACGCTCACCCCTTGCTGCTGAACTTCTTGCGGCAGCAACGGCATCGCCAGCTGCAGTTT -GTTCTGCACCTGAACCTGCGCGATATCCGCATCAGTACCAGACTCAAAGGTCAGGGTGATCTGCACGGTACCCGT -GGAGTCACTGTTAGAGGACATGTACATCAGGTTATCGATACCGTTCATATTCTGTTCGATAACCTGTGTCACCGT -GTCCTGCACTGTTTTCGCATCAGCGCCGGGGTAGGAGGCGGAGATCGTTACTGCCGGCGGTGCAATCGTAGGATA -TTGCGCCACCGGCAGTTTGAGGATCGCCAGCCCCCCTGCCAACATGATGATAATGGCGATCACCCACGCAAAAAT -CGGGCGATCGATAAAGAAATTAGGCATGTCTTAACGGCTCCTGTTTAAGTTAAGACTTGGACTGTTCAGGCTGAG -CACCGCTTGCGGCTTGCTGGTTATTATCAGCGGTAACTTCTTGTGCTTTTACCTGGACACCAGGACGCACTTTCT -GCAGCCCACTTATTACTACGCGATCGCCTGCTTTCAGACCTTCTGTCACCAGCCACTTATCGCCAATAGCCTGGC -TTGCAACGATCGGACGGGTTTCCACTTTGTCATCCGCGCCAACTACCAGTACGGTGGCATCGCCACGCGGCGTAC -GGGTTACGCCCTGTTGCGGGACTAAAATAGCGTTTGGATTAAGCCCTTCTTCCAGACGTGCGCGCACGAACATAC -CCGGCAGCAGAGTGTGATCCGGGTTCGGGAAGATAGCGCGTAGGGTGATAGACCCAGTGGTCTGATCAACGGTAA -CGTCAGAGAATTCCAGCGTACCGTCCTGCGGGAACTTAATGCCGTCACTGGTGATCAGTGACACTTTGGCTTTGC -CGTTCTCTTGTTTCAGCGTGCCATTCGCCAGTTCCTGTTTCAGGCGCAGGAAGTCGTTGCTGGACTGGGTCACAT -CAACGTAGATCGGATCAAGTTGCTGCACGGTTGCCAGCGCAGTCGCCTGACCGTTCTGTACCAATGCGCCTTCCG -TCACGTTCGACTTACCAATGCGACCGCTAATCGGAGAGGTGACTTTGGTGTAAGCCAGATTGATCCGCGCAGTTT -CAACGGCAGCTTTCGCCGCAGTTACCGCAGCATTCGCCTGTTGCGCATCAGCCAGAGCCTGATCGTACTCTTGCT -TACTGATGTACTGAGTACCGAGCAGTTTCTGATAACGATTCACCGTCAATTGCGCGATATTGGCTGCAGCCTGGG -CTTTCGCCAGATCACCTTTCGCACTGTCGTATGTCGCCTGATAGGTCGCAGGATCAATCTGATAGAGAGAGACAC -CTGCTTCGATGTCGCTACCTTCTTTGAAATTACGCTTCAGGATAATCCCGCTAACTTGAGGACGAACTTCTGCGA -TCCGGTAGGCACTGGTGCGACCCGGAAGCTCGGTTGTGATCTGCAGAGGTTCAGTTTTGACTGTTACTACGCCAA -CGGCGGGCATCTGCTGGCCACCTTGTTGGGCCTGTTTGTCGTCACATCCTGTTAGGGCTAAGCTGCCTGAGAGCA -TCAGAACGACCGCCAGAGGCGTAAACCCTCTGTTTTTGTTCATATGTAAACCTCGAGTGTCCGATTTCAAATTGG -TCAATGGTCAAAAGTTAATAAACCCATTGCTGCGTTTATATTATCGTCGTGCTATGGTACATACATTCACAAATG -TATGTAAATCTAACGCCTGTAAATTCACGAACATATGGCACGAAAAACCAAACAAGAAGCGCAAGAAACGCGCCA -ACACATCCTCGATGTGGCTCTACGTCTTTTCTCACAGCAGGGGGTATCATCCACCTCGCTGGGCGAGATTGCAAA -AGCAGCTGGCGTTACGCGCGGTGCAATCTACTGGCATTTTAAAGACAAGTCGGATTTGTTCAGTGAGATCTGGGA -ACTGTCAGAATCCAATATTGGTGAACTAGAGCTTGAGTATCAGGCAAAATTCCCTGGCGATCCACTCTCAGTATT -AAGAGAGATATTAATTCATGTTCTTGAATCCACGGTGACAGAAGAACGGCGTCGATTATTGATGGAGATTATATT -CCACAAATGCGAATTTGTCGGAGAAATGGCTGTTGTGCAACAGGCACAACGTAATCTCTGTCTGGAAAGTTATGA -CCGTATAGAACAAACGTTAAAACATTGTATTGAAGCGAAAATGTTGCCTGCGGATTTAATGACGCGTCGCGCAGC -AATTATTATGCGCGGCTATATTTCCGGCCTGATGGAAAACTGGCTCTTTGCCCCGCAATCTTTTGATCTTAAAAA -AGAAGCCCGCGATTACGTTGCCATCTTACTGGAGATGTATCTCCTGTGCCCCACGCTTCGTAATCCTGCCACTAA -CGAATAACCCTGAATCTGACTCCAGGATTTTTCCTGGACATTTTCGTCGTTGCTATTCTGGTTCACTGCGTCGTG -ATATTCTTGCGGTTTGACTTTTTCAGGTCGTTCTTCAGGTTCAGAAACCTTCATTCATCATGACTATGTTCCAGT -ATTACAAACGATCACGGCATTTTGTTTTTTCAGCATTTATTGCTTTTGTTTTTGTCTTGTTATGCCAGAACACGG -CGTTTGCGCGGGCGTCATCGAATGGTGATCTGCCGACAAAAGCGGACCTGCAGGCGCAACTTGACTCACTAAATA -AACAAAAAGATCTTTCTGCTCAGGACAAACTGGTGCAGCAGGATCTGACAGATACATTAGCCACCCTCGATAAAA -TCGATCGCATAAAAGAAGAGACAGTTCAGCTACGGCAAAAAGTCGCTGAAGCGCCGGAAAAAATGCGCCAGGCGA -CCGCGGCGTTAACAGCACTTAGCGATGTCGATAACGACGAAGAAACGCGCAAAATTCTGAGCACGCTGTCGTTGC -GCCAGCTGGAAACTCGCGTTGCCCAGGCGCTGGACGATTTGCAAAACGCACAAAACGATCTGGCGTCTTATAACA -GCCAGCTGGTTTCGTTACAGACGCAGCCCGAACGCGTGCAAAATGCGATGTATAACGCTTCGCAGCAGCTGCAAC -AAATTCGCAGTCGTCTGGATGGGACTGATGTCGGCGAGACAGCCTTACGTCCCAGCCAGAAAGTGTTAATGCAGG -CCCAGCAGGCGTTGCTGAATGCGGAGATTGACCAGCAGCGTAAAAGCCTGGAAGGGAACACCGTCTTGCAGGATA -CCTTGCAAAAGCAACGTGATTACGTGACGGCGAACAGCGCTCGTCTGGAGCACCAGTTACAACTGTTGCAAGAAG -CGGTAAACAGCAAGCGCCTGACTTTAACCGAAAAAACGGCGCAGGAAGCCGTCTCCCCGGATGAAGCCGCGCGTA -TTCAGGCTAATCCGCTGGTGAAGCAGGAACTGGAAATTAACCAGCAGTTAAGTCAGCGTCTGATTACCGCGACTG -AAAACGGTAATCAGTTGATGCAGCAAAACATTAAAGTCAAAAACTGGCTGGAGCGGGCGCTGCAATCGGAACGCA -ATATTAAAGAGCAGATTGCCGTCCTGAAGGGCAGCCTGCTGTTGTCTCGTATCCTTTACCAGCAACAACAAACGC -TGCCCTCGGCGGATGAACTGGAAAACATGACCAACCGCATCGCGGATTTGCGTCTCGAACAGTTTGAAGTTAACC -AGCAGCGTGATGCACTCTTCCAGAGCGATGCGTTCGTCAACAAACTGGAAGAAGGTCACACCAACGAAGTCAACA -GCGAAGTTCACGATGCGTTATTGCAAGTGGTTGATATGCGTCGCGAATTGCTGGATCAACTCAACAAACAGTTGG -GTAACCAGCTGATGATGGCCATTAACCTGCAAATCAACCAGCAGCAGTTAATGAGTGTGTCGAAAAACCTGAAAT -CCATCCTGACTCAGCAAATCTTTTGGGTGAACAGTAACCGTCCAATGGACTGGGACTGGATCAAAGCGTTCCCGC -AAAGCCTGAAAGATGAATTTAAGTCGATGAAAATCACGGTGAACTGGCAAAAAGCCTGGCCCGCCGTTTTTATCG -CTTTCCTCGCTGGTTTGCCGCTGCTGTTGATTGCCGGGCTGATCCACTGGCGTCTGGGCTGGCTGAAAGCGTATC -AACAAAAACTGGCTTCCGCTGTGGGTTCCCTGCGTAACGACAGCCAGCTCAACACACCAAAAGCGATCCTTATCG -ACCTGATCCGTGCGCTGCCGGTGTGCCTGATTATTCTCGCGGTTGGCCTGATTCTGTTGACCATGCAGCTCAACA -TCAGCGAACTGCTATGGTCGTTCAGCAAAAAACTGGCGATATTCTGGCTGGTGTTTGGCCTGTGCTGGAAGGTAC -TGGAGAAAAACGGCGTTGCCGTACGTCACTTCGGCATGCCGGAACAGCAGACCAGCCACTGGCGTCGGCAAATTG -TCCGCATCAGTCTCGCATTGCTGCCTATCCATTTCTGGTCTGTGGTGGCAGAACTTTCCCCGCTGCATCTGATGG -ATGATGTGCTGGGGCAAGCGATGATTTTCTTCAACCTGCTGCTGATTGCCTTCCTGGTATGGCCGATGTGCCGCG -AAAGCTGGCGTGATAAAGAGTCGCACACCATGCGACTGGTCACCATTACCGTGCTGTCGATAATCCCGATTGCGC -TGATGGTGCTGACTGCTACAGGCTACTTCTACACTACGCTGCGTCTGGCAGGACGCTGGATTGAAACCGTTTATC -TGGTGATCATCTGGAACCTGCTGTACCAGACGGTACTGCGTGGCTTAAGCGTAGCGGCGCGGCGTATCGCCTGGC -GTCGTGCGCTGGCGCGTCGGCAGAATCTGGTGAAAGAGGGCGCAGAAGGTGCTGAACCGCCGGAAGAACCCACCA -TTGCACTGGAGCAAGTTAACCAGCAGACGCTGCGTATTACCATGTTGCTGATGTTTGCGCTGTTCGGTGTCATGT -TCTGGGCAATTTGGTCCGATTTGATCACCGTGTTCAGCTATCTCGACAGCATCACGCTCTGGCATTACAACGGCA -CTGAAGCTGGCGCTGCGGTGGTGAAAAACGTCACCATGGGCAGTCTGTTGTTTGCGATTATCGCCTCAATGGTGG -CCTGGGCGTTGATTCGCAACCTGCCTGGTTTACTGGAAGTGCTGGTGCTCTCGCGACTGAATATGCGCCAGGGCG -CGTCGTATGCCATTACTACCATCCTTAACTACATCATTATTGCTGTTGGTGCGATGACGGTGTTCGGATCGCTGG -GCGTCTCTTGGGATAAACTCCAGTGGCTGGCCGCAGCATTATCCGTAGGTCTTGGTTTTGGTTTACAAGAAATTT -TCGGTAACTTCGTCTCCGGTTTGATCATTCTATTCGAACGTCCGGTGCGTATTGGCGATACGGTAACCATTGGTA -GCTTCTCGGGGACGGTAAGTAAGATCCGTATTCGTGCGACAACGATTACCGATTTCGATCGCAAAGAAGTGATCA -TCCCGAACAAAGCGTTTGTTACCGAGCGTCTGATCAACTGGTCGTTGACTGACACTACTACGCGTCTGGTGATCC -GTCTCGGCGTGGCCTATGGCTCCGATCTGGAAAAAGTGCGTAAAGTGTTACTGAAGGCGGCGACTGAGCACCCAA -GGGTGATGCACGAACCAATGCCGGAAGTCTTCTTTACGGCATTTGGTGCCAGCACGTTGGATCATGAGCTGCGTC -TGTATGTGCGTGAACTGCGTGACCGTAGTCGTACTGTCGATGAGCTGAACCGTACTATCGATCAGCTGTGCCGTG -AAAACGACATCAACATTGCCTTTAACCAGCTTGAAGTGCATCTGCACAACGAGAAGGGCGATGAGGTGACGGAAG -TAAAACGCGACTACAAAGGCGATGACCCGACGCCAGCGGTAGGGTAAAAACGAAAGGGGGCAACATTTAGTTGCC -CCGAGATTGCTAACAAAGTGCGCGTTGTTCATGCCGGATGCGGCGTGACCGCCTTATCCGGCCTACGAAACCGCA -AGAATTCAATATATTGCAGGAGCGGTGTAGGCCTGATAAGCGTAGCGCATCAGGCAGTTTTGCGTTTGCCCGCAA -CCTTAGGGGACATTTAGCGACCCCATTTATTTCTCACTTTTCCGCCTCATCATCGCGCGTTAATTTCTTTTCATA -ATCACGCTTTACAATATCCAGCGCGCGCAGCACGGTACTGGCAGGGATCTGATTTTCCTCCAGCAGCACAATCAA -ATCGACAGCCAGTTTGACATCGTCAGGGGCATTTTCCAGTGACATATTCTCTCCATTGCTAGCGGGTTAAACGCG -CTAACCTGTTTTCGATTTTTTCCAGCGCATGGCGGCAGCGTGCCAGGCGCGCTTCATAGGCTTCCACTTCACGAT -GCAGCGTTTGCTGTTCCACGAGATCGGTCACCCGCGCCAGACGGGCTCTGCGTTCGGCAACCATCTCACGTAGCC -GCCGCTCAAAATCCTGATGCTGAATACGTTTACGCTGCCAGCGGGCAATTTTCGGTGGTGCACTGTCCCACTCGC -GCAATGACCAGGCGGAGGCTTCACGCGCGATGGCTTCCAGTTGTGCCGCCAGATGTTCCGCCAGCCAGGCCACTT -GCGGCAGCTGTTGCTGCTCAACTGCATGACGAAGCGCAGCCAGATTATCGCCCGCCTCGTCGAGACAAGCCTGTA -GTGTTGTCGCACGAGTCTGAAAAAGATGCCTGTCGAAACGAGCACTTAGCGTGGCGAACTGTGACACCGGGGCAC -AACGCTGACGCAGCGTAGCGAGCTGTCCTTCCAGTTTTTCCAGCAGCAGGGCGGTTTTCACGATAAGACCTCAAT -GAAAATGATAATTGTTATGCTAAAGTAGCCACTCTGTAAGCTGACAACACTCAATATGCAACGAATCATTTTAAT -CATCATTGGCTGGCTGGCGGTAGTGCTGGGTACGCTGGGCGTGGTATTACCGGTATTACCGACGACGCCGTTTAT -CCTGCTGGCGGCCTGGTGCTTTGCCCGTTCTTCCCCGCGCTTTCACGCCTGGTTGCTGTACCGCTCATGGTTTGG -CAGCTATCTACGTTTCTGGCAGAAACATCATGCGATGCCGCGCGGCGTCAAACCGCGGGCGATTTTGCTTATTTT -GCTCACGTTTGCCATTTCTCTGTGGTTCGTCCAGATGCCATGGGTGCGCATCATGTTGCTGGTAATTCTCGCCTG -TTTGCTTTTCTATATGTGGCGAATTCCGGTGATTGATGAAAAGCAAGAAAAGCACTGAAGCACAACAATCGCAGT -TGCAATTATTGCGTACAGCCAGTACATTCTGGCGTTTTCGAGCACAGGCGCAGGCGGTCAAAGGTTAAACAACTG -TTACTTTTGATACGTTTAAAACGCGCCGTGAGTACCACCGTAACAAGCAGGCATACACTTATGACCGCGACTGCA -CAGCAGCTTGAGTATCTCAAAAATAGCATCAAAAGCATTCAGGACTACCCAAAACCCGGCATTCTTTTCCGCGAT -GTCACCAGCTTACTGGAAGACCCGAAAGCTTACGCTCTCAGCATCGACTTGCTGGTTGAGCGTTACAAAAATGCG -GGCATTACCAAAGTTGTCGGCACCGAAGCGCGTGGCTTCTTGTTTGGCGCTCCGGTAGCTCTGGGTCTGGGCGTT -GGCTTTGTACCGGTCCGTAAACCGGGCAAACTGCCGCGTGAAACCATCAGTGAAACTTACGACCTGGAATACGGC -ACCGATCAGCTGGAGATCCACGTTGATGCCATCAAACCGGGCGACAAAGTTCTGGTGGTGGACGACCTGCTGGCA -ACCGGCGGCACTATCGAAGCGACCGTTAAACTGATCCGTCGTCTGGGTGGTGAAGTGGCTGACGCTGCGTTCATT -ATCAACCTGTTCGATCTCGGCGGCGAACAGCGTCTCGAAAAACAGGGCATTACCAGCTACAGCCTTGTCCCGTTC -CCGGGCCATTAATTATCGCCAGTCTTGTGCTGCCCACGCTACGGACAGCACAAGATGTGCATTCAGCCTCGCCGT -TCTGACGGGGCTGTGTTAGCATTACCCCTTCGTGAATCCACCTTCCAGCGTTTCAGAGCCTGCCAATGAGTTATC -AGGTCTTAGCCCGAAAATGGCGCCCACAAACCTTTGCTGACGTCGTCGGCCAGGAACATGTGCTGACCGCACTGG -CGAACGGCTTGTCGTTAGGGCGTATTCATCATGCTTATCTTTTTTCCGGCACCCGTGGCGTCGGAAAAACCTCTA -TCGCCCGACTGCTGGCGAAGGGGCTAAACTGCGAAACCGGCATTACCGCGACGCCGTGCGGCGTGTGCGATAACT -GTCGTGAAATCGAGCAGGGGCGCTTTGTCGATCTGATTGAAATCGACGCCGCCTCGCGCACCAAAGTTGAAGATA -CCCGCGACCTGCTGGATAACGTCCAGTACGCTCCGGCGCGTGGTCGTTTCAAAGTTTATCTGATCGACGAAGTGC -ATATGCTGTCGCGCCACAGCTTTAACGCACTGTTAAAAACCCTTGAAGAGCCGCCGGAGCACGTTAAGTTTCTGC -TGGCGACGACCGATCCACAGAAATTGCCGGTGACGATTTTGTCACGCTGTCTGCAATTTCATCTCAAGGCGCTGG -ATGTCGAGCAAATTCGCCATCAGCTTGAGCACATCCTCAACGAAGAACATATCGCTCACGAGCCGCGGGCGCTGC -AATTGCTGGCACGCGCCGCTGAAGGCAGCCTGCGAGATGCCTTAAGTCTGACCGACCAGGCGATTGCCAGCGGTG -ACGGCCAGGTTTCAACCCAGGCGGTCAGTGCGATGCTGGGTACGCTTGACGACGATCAGGCGCTGTCGCTGGTTG -AAGCGATGGTCGAGGCCAACGGCGAGCGCGTAATGGCGCTGATTAATGAAGCCGCTGCCCGTGGTATCGAGTGGG -AAGCGTTGCTGGTGGAAATGCTCGGCCTGTTGCATCGTATTGCGATGGTACAACTTTCGCCTGCTGCACTTGGCA -ACGACATGGCCGCCATCGAGCTGCGGATGCGTGAACTGGCGCGCACCATACCGCCGACGGATATTCAGCTTTACT -ATCAGACGCTGTTGATTGGTCGCAAAGAATTACCGTATGCGCCGGACCGTCGCATGGGCGTTGAGATGACGCTGC -TGCGCGCGCTGGCATTCCATCCGCGTATGCCGCTGCCTGAGCCAGAAGTGCCACGACAGTCCTTTGCACCCGTCG -CGCCAACGGCAGTAATGACGCCAACCCAGGTGCCGCCGCAACCGCAATCAGCGCCGCAGCAGGCACCGACTGTAC -CGCTCCCGGAAACCACCAGCCAGGTGCTGGCGGCGCGCCAGCAGTTGCAGCGCGTGCAGGGAGCAACCAAAGCAA -AAAAGAGTGAACCGGCAGCCGCTACCCGCGCGCGGCCGGTGAATAACGCTGCGCTGGAAAGACTGGCTTCGGTCA -CCGATCGCGTTCAGGCGCGTCCGGTGCCATCGGCGCTGGAAAAAGCGCCAGCCAAAAAAGAAGCGTATCGCTGGA -AGGCGACCACTCCGGTGATGCAGCAAAAAGAAGTGGTCGCCACGCCGAAGGCGCTGAAAAAAGCGCTGGAACATG -AAAAAACGCCGGAACTGGCGGCGAAGCTAGCGGCAGAAGCCATTGAGCGCGACCCGTGGGCGGCACAGGTGAGCC -AACTTTCGCTACCAAAACTGGTCGAACAGGTGGCGTTAAATGCCTGGAAAGAGGAGAGCGACAACGCAGTATGTC -TGCATTTGCGCTCCTCTCAGCGGCATTTGAACAACCGCGGTGCACAGCAAAAACTGGCTGAAGCGTTGAGCATGT -TAAAAGGTTCAACGGTTGAACTGACTATCGTTGAAGATGATAATCCCGCGGTGCGTACGCCGCTGGAGTGGCGTC -AGGCGATATACGAAGAAAAACTTGCGCAGGCGCGCGAGTCCATTATTGCGGATAATAATATTCAGACCCTGCGTC -GGTTCTTCGATGCGGAGCTGGATGAAGAAAGTATCCGCCCCATTTGATCGTAAGCACAGCTTACGTTCGTCATCC -TTAACGTGATTGAGAGAGAAACCTATGTTTGGTAAAGGCGGTCTGGGTAACCTGATGAAGCAAGCCCAGCAGATG -CAAGAAAAAATGCAGAAAATGCAGGAAGAGATCGCGCAGCTGGAAGTCACCGGCGAATCTGGCGCAGGTCTGGTA -AAAGTGACCATCAACGGTGCACACAACTGCCGTCGCGTAGAGATCGACCCGAGCCTGCTGGAAGACGACAAAGAG -ATGCTGGAAGACCTGGTGGCTGCAGCATTCAACGACGCAGCACGTCGTATTGAAGAAACGCAGAAAGAAAAAATG -GCCTCTGTATCCTCCGGAATGCAGCTGCCGCCTGGCTTTAAGATGCCGTTCTGATGCAAACCAGCCCGCTGTTAA -CACAGCTTATGGAAGCACTGCGCTGTCTGCCGGGCGTTGGCCCGAAGTCGGCGCAGCGTATGGCGTTCACGCTGC -TTCAGCGCGATCGTAGCGGCGGGATGCGTCTGGCGCAGGCGCTCACCCGGGCGATGTCGGAAATCGGCCACTGCG -CCGATTGCCGCACTTTCACCGAACAGGAAGTCTGTAACATCTGTTCGAATCCGCGTCGTCAGGAAAACGGTCAAA -TCTGCGTGGTGGAGAGTCCGGCGGACATCTACGCCATTGAGCAGACGGGGCAGTTTTCAGGTCGTTATTTTGTGT -TGATGGGGCATCTGTCACCGCTGGACGGCATCGGTCCGGATGATATCGGGCTTGATCGTCTGGAACAGCGTCTGG -CAGAGGAAAAAATCACTGAAGTGATCCTCGCCACCAACCCCACGGTTGAAGGTGAAGCTACCGCTAACTACATTG -CCGAGCTTTGCGCGCAATATGACGTGGAAGCCAGCCGAATCGCTCATGGCGTTCCGGTTGGCGGCGAGCTGGAAA -TGGTCGACGGCACCACGTTGTCACACTCCCTTGCCGGGCGTCATAAGATTCGTTTTTAAGCAAACGAGAGCAGGA -TCACCTGCTCTCGCTTGAAATTATTCTCCCTTGTCCCCATCTCTCCCACATCCTGTTTTTAACCTTAAAATGGCA -TTATTGAGGTAGACCTACATGAAAGGACAAGAAACTCGTGGTTTTCAGTCAGAAGTGAAACAGCTTCTGCACCTG -ATGATCCATTCTCTCTATTCCAATAAAGAAATCTTCCTGCGTGAGCTTATCTCTAACGCCTCCGATGCGGCGGAC -AAGCTGCGTTTCCGTGCGCTCTCTAACCCGGACCTGTACGAAGGTGATGGCGAACTACGCGTTCGTGTCTCTTTC -GATAAAGACAAGCGTACGCTGACCATCTCCGATAACGGCGTGGGGATGACCCGCGACGAAGTGATTGACCATCTG -GGGACTATCGCTAAATCCGGTACCAAATCATTCCTCGAATCCCTGGGTTCTGACCAGGCGAAAGACAGCCAGCTG -ATCGGTCAGTTTGGTGTTGGTTTCTACTCTGCGTTTATCGTGGCCGACAAAGTGACCGTGCGTACTCGCGCGGCA -GGCGAAAAACCAGAAAATGGCGTCTTCTGGGAATCGGCTGGCGAAGGTGAATACACCGTTGCCGACATCACCAAA -GAAGATCGTGGTACTGAAATCACCCTGCATCTGCGTGAAGGCGAAGACGAGTTCCTCGATGACTGGCGCGTGCGT -TCCATCATCAGCAAATACTCCGACCATATCGCGCTGCCGGTAGAGATCGAAAAACGCGAAGAGAAAGACGGCGAA -ACCGTTATCTCCTGGGAGAAAATCAACAAAGCGCAGGCGCTGTGGACTCGTAACAAGTCGGAAATCACCGATGAA -GAGTACAAAGAGTTCTACAAACACATCGCCCACGACTTTAATGATCCGCTGACCTGGAGCCACAACCGTGTTGAA -GGTAAGCAGGAGTACACCAGCCTGCTGTACATCCCGTCCCAGGCTCCGTGGGATATGTGGAACCGCGATCATAAA -CACGGCCTGAAACTGTATGTTCAGCGTGTGTTCATCATGGACGACGCAGAACAGTTCATGCCGAACTATCTGCGC -TTCGTGCGTGGTCTGATTGACTCCAGCGATCTGCCGCTGAACGTTTCCCGTGAAATCCTCCAGGACAGCACGGTA -ACGCGTAACCTGCGCAATGCGCTGACCAAGCGTGTGCTGCAAATGCTGGAAAAACTGGCGAAAGACGACGCGGAA -AAATACCAGACCTTCTGGCAACAGTTTGGCCTGGTACTGAAAGAAGGTCCGGCGGAAGATTTCGCTAACCAGGAA -GCGATCGCCAAACTGCTGCGTTTTGCTTCTACCCATACCGATTCTTCTGCGCAGACCGTATCTCTGGAAGACTAC -GTTTCCCGCATGAAAGAAGGGCAGGAGAAAATCTACTACATCACCGCAGACAGCTATGCGGCAGCGAAGAGCAGC -CCGCACCTGGAACTGCTGCGTAAGAAAGGCATCGAAGTTCTGCTGCTTTCCGACCGCATCGATGAGTGGATGATG -AACTATCTGACTGAGTTCGACGGTAAACCGTTCCAGTCGGTGTCTAAAGTTGACGAGTCGCTTGAAAAACTGGCT -GACGAAGTTGATGAGAGCGCGAAAGAAGCGGAGAAAGCACTGACTCCGTTCATCGACCGTGTGAAAGCCCTGCTC -GGCGAGCGCGTGAAAGATGTCCGTCTGACTCACCGTCTGACCGATACGCCAGCGATCGTTTCGACCGACGCGGAC -GAAATGAGCACTCAGATGGCGAAACTGTTCGCTGCGGCGGGCCAGAAAGTGCCAGAAGTGAAATACATCTTCGAA -CTGAACCCGGATCACGTACTGGTGAAACGTGCGGCAGATACTGAAGATGAAGCGAAGTTCAGCGAGTGGGTAGAA -CTGCTGCTGGATCAGGCGCTGCTGGCAGAACGCGGCACGCTGGAAGATCCGAACCTGTTTATTCGTCGTATGAAC -CAGCTGCTGGTTTCCTGATGTAATGCCGGATGACCTTCGTGTCATCCGGCATTTTTCTTTTCATCATCTGCACTT -TCCGCAAATTATCTCGCCATTAACCGTTTCAGCCCCAGGTGCCTTTCTTGAGGCAATCGCCTGTTGGTGGTATCG -TTTATCGCTTTTTCAAAAAATTCGACACATTTTAAGGGGATTTTCGCAATGCGTATCATTCTGCTTGGCGCTCCG -GGCGCGGGGAAAGGGACTCAGGCTCAGTTCATCATGGAGAAATATGGTATTCCGCAAATCTCCACTGGCGATATG -CTGCGTGCTGCGGTCAAATCTGGCTCCGAGCTGGGTAAACAAGCAAAAGACATTATGGATGCTGGCAAACTGGTC -ACCGACGAACTGGTGATCGCGCTGGTTAAAGAGCGCATTGCTCAGGAAGACTGCCGTAATGGTTTCCTGTTGGAC -GGCTTCCCGCGTACCATTCCGCAGGCAGACGCGATGAAAGAAGCGGGCATCAATGTTGATTACGTTCTGGAATTC -GACGTACCGGACGAACTGATCGTTGACCGTATCGTCGGTCGCCGCGTTCATGCGCCGTCTGGTCGTGTTTATCAC -GTTAAATTCAATCCGCCGAAAGTAGAAGGCAAAGACGACGTTACCGGTGAAGAACTGACTACCCGTAAAGATGAT -CAGGAAGAGACCGTACGTAAACGTCTGGTTGAATACCATCAGATGACAGCACCGCTGATCGGCTACTACTCCAAA -GAAGCAGAAGCGGGTAATACCAAATACGCGAAAGTTGACGGCACCAAGCCGGTTGCTGAAGTTCGCGCTGATCTG -GAAAAAATCCTCGGCTAATTCGAAAGCGCGCACGGACAGTCCCCTCGCCCCCTCGGGGAGAGGGTTAGGGTGAGG -GGAACAGGCCCGCACAAGCAAACTTATCAGCAATCTCAGGCCGGATATTCATTCGGCCTTTTACAAAAACCTCAA -TCTGCGCTATTCCTTTTTCTGATTTGACCTCTCACAGCAATTAGTTCTTCTTCCTCACTTTTCCGCTACAATTAT -CAACAAGTTGAATCGATAAGAGGCGGTAATGCGTCAGACTAAAACCGGTATCCTGCTGGCAAACCTGGGTACGCC -CGATGCCCCCACACCTGAAGCGGTAAAACGCTATCTGAAACAATTTTTAAGCGACAGACGCGTGGTTGATACCTC -ACGGTTGTTATGGTGGCCATTGCTGCGCGGCGTGATTTTGCCGCTGCGCTCGCCGCGTGTGGCGAAGCTGTATGC -CTCTGTCTGGATGGAAGGTGGCTCGCCGCTGATGGTTTACAGCCGCCAGCAACAGCAGGCGCTGGCACAACGTTT -ACCGGAGATGCCCGTAGCGCTGGGAATGAGCTACGGCTCGCCATCACTGGAAAGCGCCGTAGATGAACTCCTGGC -AGAGCATGTAGATCATATTGTGGTGCTGCCGCTTTATCCGCAATTCTCCTGTTCTACGGTCGGTGCGGTATGGGA -TGAACTGGCACGCATTCTGGCGCGCAAACGTAGCATTCCGGGGATATCGTTTATACGTGATTACGCCGATAACCA -CGATTACATTAATGCACTGGCGAACAGCGTACGCGCTTCTTTTGCCAAACATGGCGAACCGGATCTGCTACTGCT -CTCTTATCATGGCATTCCCCAGCGTTATGCAGATGAAGGCGATGATTACCCGCAACGTTGCCGCACAACGACTCG -TGAACTGGCTTCCGCATTGGGGATGGCACCGGAAAAAGTGATGATGACCTTTCAGTCGCGCTTTGGTCGGGAACC -CTGGCTGATGCCTTATACCGACGAAACGCTGAAAATGCTCGGAGAAAAAGGCGTAGGTCATATTCAGGTGATGTG -CCCGGGCTTTGCTGCGGATTGTCTGGAGACGCTGGAAGAGATTGCCGAGCAAAACCGTGAGGTCTTCCTCGGTGC -CGGCGGGAAAAAATATGAATATATTCCGGCGCTTAATGCCACGCCGGAACATATCGAAATGATGGCTAATCTTGT -TGCCGCGTATCGCTAAAGCTGAGCGGTAAAGAACTGAGCGCCGTCGCGAAGAGCCTCGTCGGCGGTTTTCATCAT -CCGTGAATAATGCAAAAAGGCGTGCAGCGTGCCTGGGTAGAGTTTGAACTCACAGGGCTGCTGATGCGCCGCTAA -CGTCTGGTAAAGCAGACGGCTGTCATCCAGCAGCGGATCGAACTCCGCCCCGGCAATAAAACAGGGCGGAACTTC -GCGAGTGAGATCATTATTAAACAGACAGTAATACGGCGACTCGCGGTCCGCGTCGTTGCTTAAATATGCCTCTTC -GTACATCTGCAAATCCTGTTGCGTTAAGCCATCCCAGACACCGCCCAACAGACGACGAGTCACGGAATCCCGTAA -TCCGTAAAGCCCATACCACAGCAAAACGCCCGCAACTTTACCGCAATCGATCTGTTTATCACGCAACCACAACGC -ACTGGCGAGCGCCAGCATGGCACCTGCGGAATCACCGGCAAAGCCAATGCGGGACATATTGATTTGATAATCCTC -CGCCTGCTGGTGGAAATAACAACAAGCAGCCACAATTTCCTCTATCGCTTGCGGAAAACGCGCTTCAGGTGAAAG -GGTGTAATCAATACCAATCACCGTACATTGGCTGTAGCTTGCCAGCAGGCGCATGATGCGATCGTGGGTATCGAG -ATTGCCGAGAATAAAACCGCCTCCATGCAAATAAAATAGCGTCGCTGGGCTATCTGGCTGCGGACAAAAGAGACG -TGTTTCCACCTGCCCATATTTTGTTGGAACCATGTAAGCTCTGGTTGCCATTTCTGGAGCGCCCGCATTCCAGAA -TCGGCGCTCAAGCGTGTAATACTGTCGTTGCTCAGCAATCGTTCCCGTTGCGGGCCAGGGCGGTAAATCCGGCTG -AAGAGTATTCACAACGGTCTTCATTTCAGCAGAAATAAGGTCCAGAACAGGTAGTTTGTTTTCCGGCTTCATACA -AAAACTCCTTTCAAATTACGTCATTGTAAGGAACCACTGCCATGAAAATGCGATCCCGCCTGCTGATATTGAAAC -TGGCTGCGTCTCGCGCGCTCCCGTCAGATTGTGTTAACATTCGCCGCTCAGTTAACCACCCGTAAAAACAACCAT -GAAATTTCCCGGTAAACGTAAATCCAAACATTACTTCCCCGTAAACGCACGCGATCCGCTGCTTCAGCAATTCCA -GCCAGAAAACGAAACCAGCGCTGCCTGGGTAGTGGGTATCGATCAAACGCTGGTCGATATTGAAGCGAAAGTGGA -TGATGAATTTATTGAGCGTTATGGATTAAGCGCCGGGCATTCACTGGTGATTGAGGATGATGTAGCCGAAGCGCT -TTATCAGGAACTAAAACAGAAAAACCTGATTACCCATCAGTTTGCGGGTGGCACCATTGGTAACACCATGCACAA -CTACTCGGTGCTCGCGGACGACCGTTCGGTGCTGCTGGGCGTCATGTGCAGCAATATTGAAATTGGCAGTTATGC -CTATCGTTACCTGTGTAACACTTCCAGCCGTACCGATCTTAACTATCTACAAGGCGTGGATGGCCCGATTGGTCG -TTGCTTTACGCTGATTGGCGAGTCCGGGGAACGTACCTTTGCTATCAGTCCAGGCCACATGAACCAGCTGCGGGC -TGAAAGCATTCCGGAAGATGTGATTGCCGGAGCCTCGGCACTGGTTCTCACCTCATATCTGGTGCGTTGCAAGCC -GGGTGAACCCATGCCGGAAGCAACCATGAAAGCCATTGAGTACGCGAAGAAATATAACGTACCGGTGGTGCTGAC -GCTGGGCACCAAGTTTGTCATTGCCGAGAATCCGCAGTGGTGGCAGCAATTCCTCAAAGATCACGTCTCTATCCT -TGCGATGAACGAAGATGAAGCCGAAGCGTTGACCGGAGAAAGCGATCCGTTGTTGGCATCTGACAAGGCGCTGGA -CTGGGTAGATCTGGTGCTGTGCACCGCCGGGCCAATCGGCTTGTATATGGCGGGCTTTACCGAAGACGAAGCGAA -ACGTAAAACCCAGCATCCGCTGCTGCCGGGCGCTATAGCGGAATTCAACCAGTATGAGTTTAGCCGCGCCATGCG -CCACAAGGATTGCCAGAATCCGCTGCGTGTATATTCGCACATTGCGCCGTACATGGGCGGGCCGGAAAAAATCAT -GAACACTAATGGAGCGGGGGATGGCGCATTGGCAGCGTTGCTGCATGACATTACCGCCAACAGCTACCATCGTAG -CAACGTACCAAACTCCAGCAAACATAAATTCACCTGGTTAACTTATTCATCGTTAGCGCAGGTGTGTAAATATGC -TAACCGTGTGAGCTATCAGGTACTGAACCAGCATTCACCTCGTTTAACGCGCGGCTTGCCGGAGCGTGAAGACAG -CCTGGAAGAGTCTTACTGGGATCGTTAAGTTATCGTCGGTTCGTAGGCCAGATAAGGCGTTCACGCCGCATCTGG -CATTTGGCTCTCGATGCCTGATGCGACGCTGGCGCGTCTTATCATGCCTACATATTTTTCATATTTTACATCCGG -CAACCACCGTTTACCCCGTCACCACCTCACCCGCCGGTGGCGTTTCCAGCAGTTCCAGCATGGTACGGGCGATTT -CACGCTCGCCCATCACTACCTGATTCGCACCACGTTCGGTGATATACGCCACTTCATCGTCATAATGGGCGCGGG -CAATAATCTCAATATCCGGATTTTTCGCGCGGGCAGATGCCACAATCTCACCCGCTTCATAACCGTTGGGAATCG -TCAGGATCAGCCATTTTGCACATTCCAGATGCGCCAGTTGCATAATTTCTTCGTTCGCCGCATTGCCCAATACTG -CGCGGACCCCGCGCTCTCGCAGCTCATCAACACGGGTTCGTGACGTCTCAATCACCACCAGCGGAATATCAGAGG -CGAGCAATTTCTCCCCCAGCAGGCTGCCTACACGACCGTAACCCACCAGTAGCGCATGGTTGCAAATATCCACTG -GGATCTGCTTCTCTTCTTCGATTGCCTCTTCCAGCGTCTGCTCTTCCAGCGTTTCGGTCTTCGCCAGATATTTCT -CCAGTAGTGCGAACAGTACCGGGTTGAGCATAATCGACAGGATCGCCCCTGCCAGTACCAGGTTTTGTCCGGCCT -GCGGCAGTAAATTCAATGCCATTCCCAGTCCCGCCAGGATAAACGCGAACTCACCAATCTGCGCCAGGCTGGCGG -CGATGGTTAATGCCGTACGTTGGGAGTGACCAAACAGTCGCACCAGGAAAAATGCGGCTAACGACTTACCAAACA -GAATAATCGCCAGCGTCGCCAGCACTGCCAGCGGTTGCTGAATCAGAATTAACGGATCAAACAACATCCCGACGG -AGACAAAAAACAGCACCGCAAACGCGTCGCGCAATGGCAGCGTATCGTGGGCGGCACGGTGACTCAGTTCAGACT -CGTTCAGTACCATCCCGGCAAAGAACGCACCGAGTGCAAAGGAGACATCAAACAGCTCTACCGCACCAAAGGCAA -CCCCTAACGCCAGCGCCAGCACCGACAGGGTAAACAGCTCGCGAGAACCGGTTGCCGCGCTGCGTGCCATAATCC -ACGGCACCAGACGGCGACCTACCAGCATCATAATGGCGATAAATGCGATCACTTTGCCGATGGTGATCCCCATAT -CGACTGCAAGAGTGGCAAAGCCCACATCGCCCTGTTCCATCATTCCTGCCACTGCGGGCAGCAACACCAGCGTCA -GAACCATTACCAGGTCTTCCACAATCAACCAACCGATGGCGATTTGCCCACGCTGACTGTCAATTAATTGCCGTT -CTTCAAGTGCGCGCAGTAACACCACGGTACTGGCGGTGGAAAGACATAAACCGAACACGATACCGGTCATTAACG -ACCAGCCCAGCACGGCAGAGAGCGCCATACCCAGCAGCGTCGCCACGGCTATCTGGGCGATCGCACCGGGAATGG -CGATGGCCTTTACCGCCATCAAATCCTTCAGCGAAAAGTGCAAACCGACGCCAAACATCAACAGAATGACGCCCA -GTTCAGCCAGTTCCGGGGCAAGCTTGGTATCGGCAACAAAGCCCGGAGTGAATGGTCCTGCCAGCACACCCGCTA -ACAGATATCCCACCAGAGGAGAAATACGTAGTTTATTGGCCAGCATGCCGAGGATAAAGGCGAGCACAAGGCCGC -CAACAATGGTGGTGATAAGCGGGGTGGCGTGATGCATTCCGTCTCCTTTTCCTGGTGGTTATTGTCCATTTTTGG -CCGGGAAAACCAAAATTACAGGTAATAGTTTATGACAATTTCATTGATGATGTTCATGAATAATTATTGAATTTT -GCAGAAAAATGGAATTAGCTGCAAAAAAAGCACGGATCGGAAAACAGAAGGCGGTTTAACAGAGGAAAGGCTTAT -GGCGACTGTAAAACGATGCAGCCAAAGTTTGCCTTTGGCTGCAATGAAATCAGTCTTTATGCCGGTTATCAGGCA -GGAATATGGTCAACATCCCCAATAGTGGCAGGAAAGCACAGATTTTATAGACTAACTCGATGCTGGTGTGATCGG -CGATAAGCCCCAGAACTGCCGCTCCCAGACCTCCCATGCCAAAAGCAAAACCGAAAAAGAGTCCAGAAACCATAC -CGATACGTCCTGGAAGCAGCTCCTGAGCGTAGACCAGAATGGCAGAGAATGCCGAAGCGAGGATAAATCCAATAA -TCACCGTTAAAACCCCCGTCCAGTGCAGGCTGGCGTAGGGTAAAATCAGCGTAAACGGCGCAACGCCGAGGATAG -AGCCCCAAATCACATATTTCCGCCCAATTTTATCCCCTACAGGCCCGCCGATCACCGTACCTGCCGCAACGGCAA -ACAGGAAGGCAAACAGATGAAGCTGAGCATTCTGGATAGATAATCCGAATTTTTGCATCAGATAAAAGGTGTAAT -AGCTGCTGATGCTCGCCATATAGAAATATTTCGAGAAAATGAGGATTAACAGAATGCTGACCGCCAGTACAACTT -TATTGCGCGGCAGTGGATTGATAATCGTCGCTTTGGGTTTTCCTTTATTCATTCGGTGCTGTGCCGAGTACCAAC -GGCTGATTTGCGCCAACACCACGATCGCCAGCAGTGCCGCAAGCACAAACCAGGCAACGTTGCCTTTGCCATAAG -GCGCGATAATCACCGCCGCCAGCAAGGGTCCCAGGGAACTGCCAAAGTTGCCGCCGACCTGAAAGATAGATTGCG -CCAGGCCATGCCGCCCGCCGGAAGCCATACGGGCCACGCGAGAAGATTCCGGATGAAAGACCGATGAACCGGTAC -CGACCAGCGCCGCCGCCAGCAGAACTGCGCCAAAACTGCCCGCCAGCGCAAGCAGCACCAGACCGCTTAAGGTAA -AGCACATGCCAATTGGCAACGACCATGGCATCGGATATTTATCGGTCCAGTAGCCGACCACTGGTTGCAGTAGCG -AAGAGGCGAGCTGGAAGGTGAGGGTTATCATGCCAATCTGCATAAATGTCAGAGAAAATTCTGACTGAAGCAGCG -GATAAATCGCCAGAATCAGCGATTGGATCATGTCGTTCAGCAGATGTGAGAGGCTGATAGCACCTAAAATACCAA -ACGATGTTCGGGCCTTGGTCGTTGACGCAGCCGCGCCCGCCACAGGCTGGGGTTGTTCACTCATTGCCATAGGAA -AGTCACTTTTTCAGGGTTGCGATGTAAAGAATGATCTTATTTGTGATTATTACCAGACTAACATACCTGTATGCG -TCGTCTGAAGGAAGTCTCAACGCCGAATACAGAATTTCTAATCTGGATGCAGATTTATCTTCACCGGACGCAGAC -TTGTCTATGATGTCGCGTCATACTATTTTTCAACACGTTGAAATCAGGTCAGGGAGAGAAGTATGAAATTATTGC -AGCGGGGCGTGGCGTTAGCGCTGTTAACCACATTTACACTGGCGAGTGAAACTGCTCTGGCGTATGAGCAGGATA -AAACCTACAAAATTACAGTTCTGCATACCAATGATCATCATGGGCATTTTTGGCGCAATGAATATGGCGAATATG -GTCTGGCGGCGCAAAAAACGCTGGTGGATGGTATCCGCAAAGAGGTTGCGGCTGAAGGCGGTAGCGTGCTGCTAC -TTTCCGGTGGCGACATTAACACTGGCGTGCCCGAGTCTGACTTACAGGATGCCGAACCTGATTTTCGCGGTATGA -ATCTGGTGGGCTATGACGCGATGGCGATCGGTAATCATGAATTTGATAATCCGCTCACCGTATTACGCCAGCAGG -AAAAGTGGGCCAAGTTCCCGTTGCTTTCCGCGAATATCTACCAGAAAAGTACTGGCGAGCGCCTGTTTAAACCGT -GGGCGCTGTTTAAGCGTCAGGATCTGAAAATTGCCGTTATTGGGCTGACAACCGATGACACAGCAAAAATTGGTA -ACCCGGAATACTTCACTGATATCGAATTTCGTAAGCCCGCCGATGAAGCGAAGCTGGTGATTCAGGAGCTGCAAC -AGACAGAAAAGCCAGACATTATTATCGCGGCGACCCATATGGGGCATTACGATAATGGTGAGCACGGCTCTAACG -CACCGGGCGATGTGGAGATGGCACGCGCGCTGCCTGCCGGATCGCTGGCGATGATCGTCGGTGGTCACTCGCAAG -ATCCGGTCTGCATGGCGGCAGAAAACAAAAAACAGGTCGATTACGTGCCGGGTACGCCATGCAAACCAGATCAAC -AAAACGGCATCTGGATTGTGCAGGCGCATGAGTGGGGCAAATACGTGGGACGGGCTGATTTTGAGTTTCGTAATG -GCGAAATGAAAATGGTTAACTACCAGCTGATTCCGGTGAACCTGAAGAAGAAAGTGACCTGGGAAGACGGGAAAA -GCGAGCGCGTGCTTTACACTCCTGAAATCGCTGAAAACCAGCAAATGATCTCGCTGTTATCACCGTTCCAGAACA -AAGGCAAAGCGCAGCTGGAAGTGAAAATAGGCGAAACCAATGGTCGTCTGGAAGGCGATCGTGACAAAGTGCGTT -TTGTACAGACCAATATGGGGCGGTTGATTCTGGCAGCCCAAATGGATCGCACTGGTGCCGACTTTGCGGTGATGA -GCGGAGGCGGAATTCGTGATTCTATCGAAGCAGGCGATATCAGCTATAAAAACGTGCTGAAAGTGCAGCCATTCG -GCAATGTGGTGGTGTATGCCGACATGACCGGTAAAGAGGTGATTGATTACCTGACCGCCGTCGCGCAGATGAAGC -CAGATTCAGGTGCCTACCCGCAATTTGCCAACGTTAGCTTTGTGGCGAAAGACGGCAAACTGAACGACCTTAAAA -TCAAAGGCGAACCGGTCGATCCGGCGAAAACTTACCGTATGGCGACATTAAACTTCAATGCCACCGGCGGTGATG -GATATCCGCGCCTTGATAACAAACCGGGCTATGTGAATACCGGCTTTATTGATGCCGAAGTGCTGAAAGCGTATA -TCCAGAAAAGCTCGCCGCTGGATGTGAGTGTTTATGAACCGAAAGGTGAGGTGAGCTGGCAGTAATCCGAAAGTG -CCGGATGTTTGCATCCGGCACAATGCTTAATCGCGGCGGGCGATATCAGCAAATTTGGCATCGAGGATCTTTGCC -AGATCGCCTGCCGCCAGTTCGATATCCAGTCCGCGCTTGCCGCCGGAAACATAAATAGTGGCAAATTCTTGTGCG -GGGGCGTCGATAATCGTTGGCAGACGTTTTTTCTGCCCCAGTGGGCTAATCCCCCCAACCAGGTATCCCGTCGAA -CGCTGCGCGACCATCGGATCGGCCATCTCAACTTTCTTGGCACCCAGCGCTTTTGCTACTTTTTTAAGATCCAGT -TGACCTGCGACCGGCGTAACGGCCACGGCAAGGTGTTTCATATCACCGTTCACTGCCACCAGCAGCGTTTTGTAG -ACCTGATCCGGATTCAAACCTAATTTTTTGACGACTTCATCGCCAAAATTGGTTTCAGCCGGATCGTGCTCGTAG -GTATGGATTTGAAACGAAATCTTGTTTTTTTCGAGTAATTTAACTGCGGGTGTCATGGTAATTTTCCTGCCTTAA -ACAAAAAAACGAAGCAAGCATACGCCTGATGGCGGTCCAAAAAAAAGAGTCATCTTGCCTAAGAGTATTGGCAGG -ATGGTGAGATTGAGCGACAATCGAGTTACACCGTCGCTTAAAGTGACGGCATAATAATAAAAAAATGAAATTCCT -CTTTGACGGGCCAATAGCGATATTGGCCATTTTTTTAGCGCAACATTTGCGGCAAATTCCCTTCTCCATACAGGT -GTAGTGCACCGACCGCGACCACATATCGCCCCGGCGGCATGGCGCGTAATTTATCCCGCCAGGCGAGATTTCGCT -GATGCATCAGCACATCGTACAGCGACTGACTGAACGTATTGGGCAGCGTTATATCATTATTTTGCGGCGGTGCAT -TCAGCCACCAGCTCATCATTTGTTGCAGCAACCGTGCGTTGGTATGCCAGTGGGTCAGCGTATCGTCCAGCAGCG -CCAGTCCTTTGTCAGGGAGCTGGAGCAACATGGCAATCTGGTTTTCAGCCCCTTCCAGTTCAATCACGGGTTTAT -GTTGTTGCTTCGCCGCCTGCAATAGCTGGTAATCGATACCGTATTCTGCCCGCAGCCCCAGTTTTTGTGCCTGCG -TCGCCTGAAGAACCATCGCGATTTGCCACAGCGGTTGGGTAGAAAAGAGTGAGGGAGAAATGCCCATCTCCTGGC -TAATGTGCTGCAGGTTTTGGAGTTGCTCCTCGCTAATGCGCTCTTCCAGCGCCTCGCAGGCAGGCAAATTAGCAA -AAGGCGTATCGCTGGTGGAAACATCCGCCTCGACGATCAGCGCATCGGCGTTTTTGAGCTTTTTGAGCAAACGGG -TGGGCAGGGGAGCCATATCGTGGCTACCCATATGAATACTGCCAATCAGATGAAAATGGCGATTGCCGGGGAGGG -TGATATCGATGGCAGGCCAGGTGTAATGATTACCGCGCAGCGCGGCCCAAAGCGTTTTTACCCGGTACAACAGAT -CCATACGACCTCCCTTTGTGAAATATCATGCTAGCGCGCGGTGAGGGATGGCGCAAATGGAGTTGGAGACTTGTT -TAATGTGTTTGTATGATTCAGTATGTTCTTGCATCGCTATTCACAAGGAAGCAACAGTTAAAAACCATGAAACAG -GCAACAAGAAAACCGACGACACCCGGAGATATTCTTCTCTATGAATATCTGGAACCGCTCGATTTGAAAATCAAT -GAGTTAGCAGAGTTGCTGCATGTTCATCGTAATAGCGTCAGTGCACTGATCAATAACAATCGTAAACTCACTACT -GAGATGGCATTTCGTCTGGCGAAAGTTTTTGATACCACAGTCGATTTTTGGCTAAACCTCCAGGCGGCGGTTGAT -CTTTGGGAAGTTGAAAACAACATGCGCACCCAGGAAGAATTGGGACGGATTGAAACAGTGGCTGAATATTTGGCA -CGCCGTGAAGAGCGTGCAAAAAAGGTCGCGTAAGGCCAAAACATCGCTTCATCTCGTAGGCCGGATAAGGCGTTC -ACGCCGCATCCGGCATCCGAGCACCATTGCCTGATGCGACGCTTACCCGTCTTATCAGGCCTACAAACTTGTGCC -TGAACCGTAGGCCGGATAAGGCGTTTACGCCGCATCCGGCATCCGAGCACCATTGCCTGATGCGACGCTTACGCG -TCTTATCAGGCCTACAAACCTGTGCCTGAACCGTAGGCCGGATAAGGCGTTTACGCCGCATCCGGCAGTCATGCG -TCGATGCCAAATGCGCCACCCTAAAGCAGCGCATCCGCAATGATGTACTTATTCCTTCGGTTTAAACCGCAGCAA -CCGGTTGGCGTTACTCACTACGGTAATCGACGAGAGCGCCATTGCCGCTCCGGCAACTACCGGGTTAAGCAGTGT -TCCAGTGAACGGCCACAAAATACCGGCGGCGACCGGAATACCGATACTGTTGTAGATAAACGCACCGAGCAGGTT -CTGCTTCATGTTGTGCAGCGTTGCGCGGGAAATAGCGAGCGCATCCGCAACGCCCATCAGGCTATGGCGCATCAG -GGTAATCGCCGCGGTTTCAATGGCAACATCACTGCCGCCACCCATCGCAATGCCGACATCCGCCTGAGCCAGCGC -TGGCGCGTCGTTAATGCCGTCGCCCACCATTGCCACCTGACGTCCTTCACTTTGCAGATGTTTGATCGCTTCGGC -TTTACCGTCCGGCAGCACCCCGGCGATCACCTCATCAATCCCTGCTTCTTTGGCGATCGCATTGGCGGTGGTTGG -GTTATCCCCGGTCAACATCACCAGACGATATCCCGCTTTATGCAGGCGTTGCAGCGCCGCCACGCTATCACTACG -CAACGGATCGCGTACTGCCAGCAGGGCTACCGCTTTCCCGTCAACCGCCAGCAGCACAGGCGTTGCCCCTTGCGA -TGCCTGAGCAGTAATCTCCGCTTCGATAGCTTTGGTACCAACCTGTTGCTCATTTAACAGCGCCTGATTGCCCAG -CAATAACGCATGACCTTCAGCTTCACCGCTCACGCCCAGCCCGCGCAATGTGCGGAAACCGTTGACCTGCGGTAG -CTGCATATCACCTGCTTTATCGAGGATCGCTCGTGCCAGCGGATGGCTGGAACCTTGCTCCAGTGCCGCCGCCAG -ACGCAATGCCTGCGCTTCATCAACATCAGCAAATGTTTTCACTGCGACAACCTGCGGCTTCCCTTCAGTCAGCGT -CCCGGTTTTATCGAACACTACAGTGTCGAGTGTACTGGCGCGTTGCAGCGCGTCAGCGTCCCGCACCAGCACGCC -AAACTCAGCCGCCCGCCCGACGCCGGAAATAATCGACATCGGCGTCGCCAGCCCCAGCGCACACGGACAGGCAAT -AATCAGTACCGTGGTGGCAATCACCAGGGTATAGACAATCTGCGGTGCCGGACCAAAGAAATACCAGATTGCCGC -ACTGACAAGCGCAATAACCACCACTACCGGCACAAATACGGCTGAGATTTTATCCGCCAGCTGACCGATTTCTGG -CTTGCTGCTCTGGGCCTGGCGCACCATGCGAATGATTCGTGACAGCGTAGTATGGCTGCCAACCGCACTGGCACG -AAACAGCACACTGCCGTCCTGTACCACTGTCCCGGCATGGACGCTATCGCCTTCGCCTTTTTGCTGCGGGATTGG -TTCGCCCGTCAGCATCGCTTCATCCAGCCATGCTTCGCCCTGGGTAATCTCGCCATCTACCGGCACGCGATCGCC -GGTCGTCAGGCGCAGCAACATACCTGGCTGCACTTCTGCCAGAGGCACGCTTTTTTCACCTTCGTCAGTAACCAG -GCGTGCCGTCGGCGGGGTTAAATCGAGTAACTTTTCCAGCGCCTTAGAAGAACGCTGGCGTGCGCGCGCTTCCAG -CATATGGCCGAGATTGATCAGACCGATAATCATCGCGCTGGCTTCGTAATAAAGATGTCGCGCTTCCATCGGGAA -CCACTGCGGCCACAGGTTGACGCTCATCGAATAGAGCCACGCCACGCCAGTACCCAGCGCCACCAGCGTATCCAT -CGTCGCCGCACCGTTCAGCAGGCTTTTCCATGCACTGCGGTAAAAATGGCCGCCGGCGAAAACCATCACTGCCAG -GGTTATCAGGCCGATAACCAACCACAGGCTGCGGTTGTCAGCGGTGACCATCATGTTATCGCCGATCATCCCCCA -GACCATCACCGGGATACCCACCGCCAGTGCGACAATTGCCTGCCAGCGGAAGCGCTTCATCGTAGCGACGGCGGT -TTCTTGCTGGCGCTCGCGGCGTTTAGCGTCATCTTCAATCGCTTCCGCGCCGTAGCCCGCTTTTTCCACCGCCTG -CACTAAATCTTGTGGGGAGGCACTGCCCATCACCAGCGCAGTACGCTCCGCCAGGTTTACCCGTGCCTGAGTGAC -GCCCGGTACGCTTTGCAGCGCATTTTGTACGCGGGTGACACAGCTGGCGCAGCTCATGCCGCTCAGCAGCAACTG -CTGGCTGTCATCGTCATCGGCGGTCGCTGCCGGAAGCGCCTCAGAAACCGCTGTCAGTGCTTCCGACGGGATTGA -TGACTCCGCCAGCGGTTTAGCCTTTGGGTGGCTTACAGATGCGTCATAACCCGCTTGTTTGATGGTTTCGATCAG -CTGTTCTGCACTGGCAGTCCCGGTAACGTGCGCTTCAGTGATAGACACATCCGCCTGCTCAACATCCGGACGCTG -TTCAAGACTTTCTTTCACGCGTTTAACGCAGTGACCGCAGGACAGGCCGTCCAGGGTCAGGTCGATAGTTTGTGA -CATAAAACACTCCTTTAAGACAGTTTTGACTGGCTGTGATAAAGGTTAAACCTTCCAGCAAGGGGAAGGTCAAGA -AATTAATAAACCAGGCGGGTAAAAGTCCGTAAAGATTAAAAAATCGGCTCGATTTGCATCAGGATTAGACATTTA -TCTCTTTGTTTTCCTGTAGTTAAGTTGCGGGTGCTAAGTTAAATCAGGATGCCTGAAAATCGGCACCGGGGTGAG -GAATTACCTCCCGCATCTATAAAAAGGAGTTAACAAAAGATGTTAGATGCAAACAAATTACAGCAGGCAGTGGAT -CAGGCTTACACCCAATTTCACTCACTTAACGGCGGACAAAATGCCGATTACATTCCCTTTCTGGCGAATGTACCA -GGTCAACTGGCGGCAGTGGCTATCGTGACCTGCGATGGCAACGTCTATAGTGCGGGTGACAGTGATTACCGCTTT -GCACTGGAATCCATCTCGAAAGTCTGTACGTTAGCCCTTGCGTTAGAAGATGTCGGCCCGCAGGCGGTACAGGAC -AAAATTGGCGCTGACCCGACCGGATTGCCCTTTAACTCAGTTATCGCCTTAGAGTTGCATGGCGGCAAACCGCTT -TCGCCACTGGTAAATGCTGGCGCTATTGCCACCACCAGCCTGATTAACGCTGAAAATGTTGAACAACGCTGGCAG -CGAATTTTACATATCCAACAGCAACTGGCTGGCGAGCAGGTAGCGCTCTCTGACGAAGTCAACCAGTCGGAACAA -ACAACCAACTTCCATAACCGGGCCATAGCCTGGCTGCTGTACTCCGCCGGATATCTCTATTGTGATGCAATGGAA -GCCTGTGACGTGTATACCCGTCAGTGCTCCACGCTCCTCAATACTATTGAACTGGCAACGCTTGGCGCGACGCTG -GCGGCAGGTGGTGTGAATCCGTTGACGCATAAACGCGTTCTTCAGGCCGACAACGTGCCGTACATTCTGGCCGAA -ATGATGATGGAAGGGCTGTATGGTCGCTCCGGTGACTGGGCGTATCGTGTTGGTTTACCGGGCAAAAGCGGTGTA -GGTGGCGGTATTCTGGCGGTCGTCCCTGGAGTGATGGGAATTGCCGCGTTCTCACCACCGCTGGACGAAGATGGC -AACAGTGTTCGCGGTCAAAAAATGGTGGCATCGGTCGCTAAGCAACTCGGCTATAACGTGTTTAAGGGCTGATCA -TGATGAACACGGAAGGTAATAACGGTAACAAACCTCTCGGTCTATGGAACGTCGTTTCCATCGGCATTGGGGCAA -TGGTGGGGGCGGGGATCTTCGCGCTGCTGGGGCAGGCTGCATTGCTAATGGAAGCCTCGACCTGGGTCGCCTTTG -CTTTTGGCGGTATTGTGGCGATGTTTTCCGGTTATGCCTATGCGCGTCTGGGGGCGAGCTATCCCAGCAATGGCG -GCATTATCGACTTCTTTCGTCGCGGATTAGGCAACGGCGTCTTTTCGCTGGCGCTCTCGTTACTGTACCTGTTGA -CGCTGGCGGTGAGCATCGCCATGGTCGCCCGTGCTTTTGGCGCTTATGCCGTGCAGTTTTTGCATGAAGGCAGCC -AGGAGGAGCACCTTATTTTGCTCTACGCGTTGGGGATCATTGCGGTGATGACGCTTTTCAACTCCTTAAGCAACC -ATGCGGTAGGGCGGCTGGAAGTGATCCTCGTCGGCATTAAAATGATGATCCTGTTATTGCTGATTATTGCCGGTG -TCTGGTCGCTGCAACCGGCGCATATTTCCGTCTCTGCGCCCCCCAGCTCCGGTGCGTTCTTCTCCTGTATTGGGA -TAACTTTCCTTGCCTATGCGGGCTTTGGCATGATGGCGAACGCGGCGGATAAAGTGAAAGATCCGCAGGTCATTA -TGCCACGGGCGTTTCTGGTGGCGATTGGCGTTACCACGTTGCTTTATATCTCGCTGGCACTGGTTTTGCTTAGCG -ATGTATCGGCATTAGAGTTAGAAAAATATGCCGATACCGCCGTAGCGCAGGCTGCTTCTCCGCTGCTCGGGCATG -TGGGTTATGTGATCGTCGTCATCGGCGCTTTACTGGCGACGGCTTCAGCCATTAACGCGAACCTGTTCGCCGTGT -TTAACATCATGGACAACATGGGCAGCGAACGCGAACTGCCGAAGCTAATGAATAAATCCCTGTGGCGGCAGAGTA -CCTGGGGCAACATTATTGTCGTGGTGTTGATTATGCTGATGACGGCGGCACTGAATTTAGGCTCACTCGCCAGCG -TTGCCAGCGCCACCTTTTTGATTTGCTACCTGGCGGTGTTTGTGGTGGCGATCCGCCTGCGTCATGATATTCACG -CCTCGTTGCCGATTCTTATCGTTGGTACGTTGGTGATGTTGTTGGTGATCGTTGGCTTTATCTACAGTCTGTGGT -CCCAGGGTAGCCGTGCGTTGATATGGATTATTGGCTCACTCTTACTCAGCCTTATTGTGGCAATGGTCATGAAGC -GCAATAAAACCGTATAACATCTCTCTGTGCGCAGTACTTCCTGTATTATTGTGGTGGCGGTCGATATTCGCACTG -GCAAAAAAACGTGCTTGAATATCTGTTGAAACCCTTTAACAAAGCACAGGAGGCGTTGCGCGAACGATGAACATC -AGCGATGTAGCAAAAATTACCGGCCTGACCAGCAAAGCCATTCGCTTCTATGAAGAGAAGGGGCTGGTGACGCCG -CCGATGCGCAGCGAAAACGGTTATCGCACCTACACGCAGCAGCATCTCAACGAACTGACCTTACTGCGCCAGGCA -CGGCAGGTGGGCTTTAACCTGGAAGAGAGCGGCGAGCTGGTGAATCTGTTTAACGACCCGCAGCGGCACAGCGCC -GACGTCAAACGGCGCACGCTGGAGAAGGTGGCGGAGATCGAACGACACATTGAGGAGCTGCAATCCATGCGCGAC -CAGCTGCTGGCACTGGCGAATGCCTGCCCTGGCGATGACAGCGCCGACTGCCCGATTATCGAAAATCTCTCCGGC -TGCTGTCATCATCGGGCAGGGTGATTAAGACGAGACGGCTCGGATATGTAGGGTTATCCCTTCTATCGCAATGAC -TTCAACATGCGTACCTGCACCGAGATCCTCGCTGGCGCTGACAGGCCATGAACTGTCACCGACGCGCATATGACC -GCGCCCGTTGACCAGCGGAGATTCCAGCACAAAACGTCGGCCAATCAGCTGCTGCCCGCGCTGGTTTAAATGACT -ATCGCTGTGCTTTTGTTCGCGCACCCGCCGCGACAACCATTTCCACCACAGCCAGGCGGCGAGCAGCGTCAGGAT -GGCAAACATTACCCCTTGCCACTCCCAACCCAGCGGCACCAGCCAGACCACCAGGCCGGTAATCACCGCTGCCAC -GCCGCTCCACAACAAATAACCATTTCCGCCCAGCATCTCGGCTGCCAGCAGCAAACCGCCGAGACTGAGCCAGAA -AATATGTGGATGAACGACCATTAACTCCATCATGGCTGAGTCCGTTTGTTGGCGCTGTCTTTCACCAGCTCGGCA -ATCCCGGCAATCGACCCCATCAGGCTGCTGGCCTCTAATGGCATCATCACTACTTTGCTGTTACTGGAGGAACCG -ATCTGCTGTAACGCTTCGGTGTATTTCTGCGCTACGAAGTAGTTCACCGCCTGAATATCACCGGAGGCGATAGCT -TCAGACACCATTTTGGTGGCGCGGGCTTCTGCTTCGGCGGAACGTTCACGCGCTTCAGCCTGTAAAAACGCCGAC -TGACGTTCGCCTTCCGCTTTCAGGATTTGCGACTGTTTTTCACCTTCGGCTTTGAGGATTTCCGCCTGACGGATC -CCTTCCGCTTCAAGAATGTAAGCGCGTTTGGTACGTTCCGCTTTCATCTGCGCGTTCATTGAAGAGATAAGCTCT -GCCGGTGGGCGCACGTCGCGAATTTCAATACGGGTGACTTTAATCCCCCACGGGTTGGTGGCTTCATCGACAATA -CGCAGCAGGCGTGAGTTGATGCTGTCGCGCTGAGAGAGCATTTCGTCAAGTTCCATTGAACCCAGCACGGTACGG -ATGTTAGTCATGGTCAGGTTGATGATCGCCAGCTCCAGATTGCTGACTTCATAAGCCGCGCGCGGCGCGTCAATC -ACCTGAATAAAGCACACGGCGTCGATGGTAACGTTGGCGTTATCTTTCGAGATAACTTCCTGGGAAGGGATATCG -AGCACTTGCTCCATCATATTGATCTTGCGACCAATGCGATCCATAAACGGCACCACCAGACTGAGCCCCGGCTGT -AACGTTTTGGTATAGCGACCAAAGCGTTCTACTGTCCACTGATAGCCCTGCGGTACGATTTTGACACCCGCGCCG -ACAATGACCAGCGCGACAAAAATGAGAATCGGGATAAAGATAAGCATCGGAAAAACCTCCTGTTGTACCGTCCAT -AATCAGCAAAATTGCTGCTTGATTAAACAAATTATACCTGATTACTGAAAGAGAGTTCCCCCTTATTCCTGCGAA -GGATAAACTGTTTTTAGTAAAAATCAGAAAAAGGGAACAGCGATGCAGGAAAATAGTCCTTTGCTTCAGCTACAA -AACGTAGGATATCTGGCGGGTGATGCGAAGATTCTTAATAACATCAATTTTTCGCTGCGTGCTGGCGAATTTAAG -TTAATTACCGGTCCTTCTGGTTGTGGCAAAAGTACGCTGCTAAAAATAGTTGCTTCATTGATCAGCCCAACCAGC -GGAACGTTACTGTTTGAAGGTGAGGATGTCAGCACACTAAAGCCAGAAATCTACCGCCAACAAGTCTCTTACTGC -GCCCAGACACCGACGCTGTTTGGCGATACGGTATACGATAATCTGATCTTTCCCTGGCAGATCCGTAACCGGCAG -CCTGACCCAGCCATTTTTCTCGATTTTCTCGAACGCTTCGCCTTGCCGGACAGCATTTTGACGAAGAATATCGCC -GAGCTATCTGGTGGTGAAAAACAACGCATCTCATTGATTCGTAACCTGCAATTTATGCCGAAGGTTTTATTGCTG -GATGAAATAACCAGTGCGCTGGATGAAAGTAATAAACATAACGTCAATGAGATGATCCATCGTTATGTGCGCGAG -CAAAATATTGCCGTGCTGTGGGTGACACACGATAAAGACGAAATTAATCATGCGGATAAAGTGATTACACTGCAA -CCGCATGCCGGAGAAATGCAGGAAGCACGCTATGAACTCGCATAATATTACTAACGAATCATTAGCACTGGCATT -AATGCTGGTGGTGGTGGCAATCTTAATTAGCCATAAAGAAAAACTGGCGCTGGAGAAAGATATTCTCTGGAGCGT -CGGGCGAGCGATAATTCAGCTGATTATTGTCGGCTATGTGCTGAAGTATATTTTCAGCGTGGATGATGCCAGCCT -GACATTATTGATGGTGTTATTTATCTGCTTTAATGCGGCGTGGAACGCGCAAAAACGCAGTAAATATATTGCTAA -AGCTTTTATCTCATCGTTTATTGCCATTACGGTCGGGGCGGGAATTACCCTGGCGGTGCTGATTCTCTCAGGGTC -GATTGAATTTATCCCGATGCAGGTGATCCCTATCGCCGGGATGATTGCCGGTAACGCCATGGTAGCGGTGGGGTT -GTGTTACAACAATTTAGGGCAACGGGTCATTAGCGAACAGCAACAGATTCAGGAGAAACTGAGTCTTGGTGCGAC -GCCGAAGCAGGCTTCAGCGATATTGATTCGCGACAGTATTCGCGCGGCTTTAATTCCGACGGTCGATTCAGCAAA -AACGGTTGGCTTAGTGAGTTTACCAGGAATGATGTCCGGGCTGATATTTGCCGGGATTGATCCGGTGAAGGCGAT -TAAATATCAGATTATGGTGACCTTTATGCTGCTCTCAACCGCCAGCTTGTCGACCATTATTGCCTGCTATTTAAC -CTATCGTAAGTTTTATAATTCGCGCCACCAGTTGGTGGTGACGCAATTGAAGAAGAAATGATGCGATGCCGGATG -CGCAGCATCGCATCCGGCGTTGTGGTTCATGTGCCGATCAACGGAATATCAATACAACAATGCATACAGCTGGCG -GCGATACTTCGACGCCAGTGCATCACCCGTACCCAGCGCAGCGAGGATCTCCTGGAACGTTTTACGCGTCTGACC -GTCTGCGGCGGTGAGATCTTTACGCAGATGCCCGAACAGCAACTCCAGCGCCTCTTCATTGCGCCCAACCTGATG -CAGTTGCAGCGCCAGTTGCGTCGCCAGTGCGGCATCTTCTGGATTCTCCGCCACCTGCTGTTGCAACTGTTGAAT -TTCCGGCGTATCAGCCGCCTGCTTCAGCAGTTCGATTTGCGCCACCAGCCCCTGGTAGCGGGTGTCCTGATCCTG -CAACGGAATGGTTTTCAGCACCGCTTCCGCATCTTCAGAACGGTTCAGCGCAATCAGCGTTTCTGCCAGCAGCAG -GCCGATCTCCCCGTTCTGATTCGACAACTGCCAGGCGTCTTTCAGCAATGGCAGGGCATCGGTGTAATTGCTTTC -CTGCATCAGTTGCATCGCCTGCTGCGCTTTCAGCTCTTCTTCGCGCGGCAGCACTTTATCCAGCAGGGCGCGGAT -CGCCTCTTCCGGTTGCGGCCCCTGGAAGCCATCTACCGGTTGCCCGTTCTGGAACAGATACACGGTCGGAATCGC -ACGCAGACCAAACTGCGCGGCAATCATCTGCTCCGCGTCGCAGTCCAGCTTCGCCAGAATAAATTGCCCGTTGTA -CTGCGCCGCGAGGCTTTCCAGAATTGGGGTTAACTGCAAACAGTGCTGGCTACGTTCAGACCAAAAATAGAACAG -CACCGGAGTGGTCATCGACTGTTCAAGAACCTGTTGCAGGTTAGATTCGTTAATGTTGACAATATTTTCTACGGA -CATGGAGTCGCTCTCTGTTGTCGATATTTTCTTTGACATGGGGGCTTAAGCGCGCGCTTCAACTCACCCCTGCAA -TATTTTGTCCATCACGCGCCCCGGCAGCAGGCGCTTAAGCACCATTACCGCCCAGGTCACCAGCGTCACCGGATA -GCGCATCTTCGGCTTCTCGCTAATAAAAGCATGGCGTACTTTGTCCACCACCGCTTCCGGTCCCAACGTAAAGCG -GGCGGCGATGCCGGGATTTTCGACTGGTTTATCACTTTGCGTCTGGTTGACGTTGTCGGTGAAGCGAGTACGAAT -GGGACCGGGTTCGATCAGGCTGACTTTAATTCCGCTGTGGCGCAGCTCCATGCGCAGTGCATCTGACCACGCCTC -CAGCGCATATTTACTGGCCGCGTAAGCGCCACGACCCGGCGTGGAGATTAATCCCATCACCGATGATGTCATCAC -AATACGCCCTTCACCGTGCGGTAACATCGCGGGTAACAGGCGCATGGTGAGCTGGTGTGCGCCGAAAAAGTTGGC -GGAAAACTGCTGTTCCATCTGCGCACGGCTGATGGTGGAAAGGGGGCCATACATGCCGAATCCGGCATTGTTAAA -GATCCCATACAGACAATTATCGGTCAGGGCGATCACCTCGTCGGCTGCGCGATCAACACTTTCTGGTGAATCCAG -ATCGATCAACACGCCGGTAAATCCCATGCTGTTCATGCGCTCAACATCATCCGGTTTCCGGCAACCTGCCAGCAC -ATGAAAACCCTGGCGTTTTAATTCGAGCGCGCTTTCCAGGCCAATTCCACTGGAACATCCGGTAATTAAGACCGA -TTTTTGCATAACTTTACCTGTCAGGATCTCCGTTGCTTTATGAGTCATGATTTACTAAAGGCTGCAACTGCTTCG -CCATCCAGTCGGCAATAAACGGCTGGGCGTCGCGGTTGGGATGAATACCGTCATCCTGCATCCATTGTGGCTTGA -GGTAGACCTCTTCCATAAAAAAGGGCAGCAGCGGAACATCAAACTCTTTGGCGAGTTTGGGGTAAATGGCGCTAA -AGGCTTCATTATAACGGCGACCATAGTTTGCAGGCAGACGTATTTGCATTAACAATGGTTCAGCGTTGGCGGCTT -TGACATCCTGCAAAATCTGGCGCAGCGTTTGCTCGGTTTGCTGTGGCTGAAAACCACGCAAACCGTCATTGCCGC -CCAGTTCAACCAGCACCCAACGCGGCTGATGCTGTTTCAGCAGAGCCGGAAGGCGCGCCAGTCCTTGTTGCGAGG -TGTCGCCGCTGATGCTGGCATTAACTACCGACGTTTTACTCTGCCACTTATCATTCAACAAGGCAGGCCAGGCCG -CGCTGGCAGACATTCGATACCCGGCGCTCAGGCTATCACCCAGAATCAATAACGTGTCCGCTGCGGCGGCACGGA -AGGTTAACAGGACCAGGAACAGGAAGGGCAAATGCCAGCGGAAAACATTGTTGAAGTTCATCATCTTAAGAAGTC -CGTCGGTCAGGGGGAGCATGAACTCTCCATCCTCACCGGAGTTGAGCTGGTTGTCAAACGTGGCGAGACCATCGC -ACTGGTGGGCGAGTCGGGATCGGGTAAGTCAACCTTGCTGGCGATCCTCGCCGGGCTTGATGACGGCAGCAGTGG -CGAAGTGAGTCTGGTGGGACAACCGCTACATAATATGGACGAAGAAGCGCGGGCAAAGTTGCGCGCGAAGCACGT -CGGCTTTGTTTTTCAGTCATTTATGTTAATTCCTACCCTTAACGCGCTGGAAAACGTCGAGCTTCCGGCTCTGCT -GCGCGGTGAGAGTAGCGCGGAAAGTCGTAACGGGGCGAAAGCGTTGCTCGAACAGTTAGGGCTGGGTAAACGTCT -GGATCATCTTCCGGCACAGCTTTCCGGCGGTGAACAGCAACGAGTGGCGCTGGCACGAGCCTTTAATGGTCGACC -TGATGTGCTGTTTGCCGACGAACCCACCGGCAACCTTGACCGCCAGACGGGCGATAAAATTGCCGACCTGCTGTT -TTCCCTCAACCGTGAACATGGCACCACGTTGATTATGGTGACCCACGACCTGCAACTGGCGGCACGCTGCGACCG -CTGCTTACGGCTGGTGAACGGGCAGTTGCAGGAGGAAGCATGATTGCACGTTGGTTCTGGCGCGAATGGCGTTCG -CCGTCGCTATTAATTGTCTGGCTGGCGCTAAGCCTGGCGGTGGCCTGCGTGCTGGCGCTGGGCAATATCAGCGAT -CGCATGGAGAAGGGCTTAAGCCAGCAAAGCCGTGAGTTTATGGCGGGCGATCGGGCGTTGCGCAGTTCACGCGAA -GTGCCGCAAGCGTGGCTGGAGGAAGCGCAAAAGCGCGGCCTGAAAGTCGGCAAGCAGCTGACTTTCGCCACAATG -ACCTTTGCAGGCGACACACCGCAGCTGGCGAACGTCAAAGCGGTGGATGATATCTACCCGATGTATGGCGATCTG -CAAACTAATCCCCCTGGCCTGAAACCGCAGGCGGGCAGCGTATTGCTGGCCCCACGCCTGATGGCACTGCTTAAC -CTGAAAACGGGCGACACCATTGACGTGGGCGATGCCACCTTGCGGATTGCCGGAGAAGTGATTCAGGAACCGGAT -TCCGGTTTTAACCCCTTCCAGATGGCTCCGCGTCTGATGATGAATCTGGCGGATGTCGATAAAACCGGAGCCGTG -CAGCCGGGGAGTCGGGTCACCTGGCGTTATAAATTCGGCGGCAACGAGAACCAGCTCGACGGCTATGAGAAATGG -TTGTTACCTCAGCTTAAACCCGAACAACGCTGGTACGGTCTGGAACAGGACGAAGGCGCGCTGGGGCGATCGATG -GAACGCTCGCAACAGTTCCTGCTGCTTTCGGCGCTTCTGACCTTGCTGCTGGCAGTGGCAGCGGTGGCGGTAGCG -ATGAATCATTACTGTCGCAGTCGCTACGATCTGGTGGCGATCCTCAAAACGCTGGGGGCAGGGCGAGCGCAACTG -CGTAAGCTAATCGTCGGTCAGTGGTTGATGGTGCTGACGCTTTCAGCCGTTACCGGTGGGGCCATAGGCCTGTTG -TTCGAAAACGTGTTGATGGTGCTGCTCAAGCCCGTTCTGCCTGCTGCACTACCGCCAGCCAGCCTCTGGCCGTGG -CTGTGGGCGCTTGGCACCATGACGGTCATCTCGCTGCTGGTGGGGCTACGACCATATCGCTTGTTGCTGGCAACG -CAGCCTTTACGCGTATTACGTAATGATGTGGTAGCGAACGTCTGGCCGCTGAAGTTTTATCTGCCGATTGTCAGT -GTGGTGGTTGTGCTGCTGCTCGCCGGATTAATGGGTGGCAGCATGCTGCTTTGGGCGGTGCTGGCGGGCGCGGTA -GTACTGGCTTTGCTGTGCGGTGTGCTGGGCTGGATGCTGCTGAATGTACTTCGCCGCATGACGCTGAAATCGCTG -CCTCTGCGCCTGGCGGTTAGCCGCCTGTTACGTCAGCCGTGGTCAACGTTAAGTCAGCTTTCGGCATTTTCGCTC -TCCTTTATGCTGCTGGCACTGCTGCTGGTGTTGCGTGGCGATCTGCTCGACCGCTGGCAGCAGCAGCTACCTCCA -GAAAGCCCGAACTACTTTTTAATTAACATCGCCACAGAACAGGTAGCACCGCTAAAAGCGTTCCTCGCGGAACAT -CAGATAGTCCCGGAATCGTTTTATCCGGTGGTGCGGGCGCGGCTGACGGCGATTAACGATAAGCCGACAGAAGGT -AATGAAGATGAGGCGCTTAACCGCGAACTCAATCTTACCTGGCAAAATACGCGGCCCGATCATAATCCGATTGTC -GCCGGTAACTGGCCGCCAAAAGCCGATGAAGTGTCGATGGAAGAGGGGCTGGCGAAACGCTTAAACGTTGCCCTC -GGTGATACCGTGACTTTTATGGGCGATACCCAGGAGTTCCGCGCTAAAGTGACCAGCCTGCGCAAAGTGGACTGG -GAAAGTCTGCGGCCTAATTTCTATTTTATTTTCCCTGAAGGGGCATTAGACGGGCAACCGCAGAGCTGGCTTACC -AGTTTCCGCTGGGAGAATGGCAACGGCATGTTGACACAACTCAACCGCCAGTTCCCGACCATTAGCCTGTTAGAT -ATTGGCGCGATTTTAAAACAGGTCGGTCAGGTGCTGGAGCAGGTAAGTCGGGCGCTGGAAGTGATGGTGGTACTG -GTCACCGCCTGCGGTATGTTGCTGTTGCTGGCACAGGTGCAGGTGGGAATGCGTCAGCGTCATCAGGAGCTGGTG -GTGTGGCGCACACTCGGTGCGGGGAAAAAACTGCTGCGTACCACGTTGTGGTGTGAGTTCGCCATGCTTGGGTTT -GTTTCCGGCCTGGTGGCCGCAATTGGTGCGGAAACGGCGCTGGCAGTGTTGCAGGCGAAAGTGTTTGATTTTCCG -TGGGAGCCAGACTGGCGATTGTGGATTGTTCTGCCGTGCAGCGGAGCGCTGCTGCTGTCGCTTTTCGGCGGCTGG -CTGGGTGCGCGACTGGTTAAGGGTAAGGCGCTGTTCAGGCAGTTTGCGGGGTGATGAGAGTAAATAAGGGGCGTT -CTGGTTGAATGGAACGCCTTGTTTAAATTAATTCTACAATATGTTTCATTGATGATGTTATTGAATTGGTGATTT -CCTATCTTTCTATTGCTGATATTAATCTGAATCGGTGGAGTTTATTGATTTTAAATATAGCCCTACAAAAATAAC -TCAGACTAATAAAATCATAAATCATATGCGTTGAATGGATATTATCCATATAGTGAATTTGTTGATGATGAATTC -ATCTGTGCTAAAAATGTTAGTTTAATAAAATATTGAAAGTGACCTGTAATAACAGTTGTTGTTGATTGAGAACAA -ATAAGTTTATGTGAAAAATATATAAATACATTAGCTGGTCTTGTGTGTCATTTTATTTTTTTTTGTTGCTAACAC -AGGGATATGAACAATAACTAAAAGGGCACTTTATATGAGCGGAAAACCAGCGGCGCGTCAGGGAGATATGACTCA -GTATGGCGGTCCCATTGTCCAGGGTTCGGCAGGTGTAAGAATTGGCGCGCCCACCGGCGTGGCGTGCTCGGTGTG -TCCGGGCGGGATGACTTCGGGCAACCCGGTAAATCCGCTGCTGGGGGCGAAGGTGCTGCCCGGCGAGACGGACCT -TGCGCTGCCCGGCCCGCTGCCGTTCATTCTCTCCCGCACCTACAGCAGCTACCGGACGAAGACGCCTGCACCGGT -GGGCGTTTTCGGCCCCGGCTGGAAAGCGCCTTCTGATATCCGCTTACAGCTACGTGATGACGGACTGATACTCAA -CGACAACGGCGGGCGGAGCATTCACTTTGAGCCGCTGCTGCCGGGGGAGGCGGTGTACAGCCGCAGTGAGTCAAT -GTGGCTGGTGCGCGGTGGTAAGGCAGCACAGCCGGACGGCCATACGCTGGCGCGGCTGTGGGGGGCGCTGCCGCC -GGATATCCGGTTAAGCCCGCATCTTTACCTGGCGACCAACAGCGCACAGGGGCCGTGGTGGATACTGGGGTGGTC -TGAGCGGGTGCCGGGTGCTGAGGACGTACTGCCAGCGCCGCTGCCGCCGTACCGGGTGCTTACCGGGATGGCGGA -CCGCTTCGGGCGGACGCTGACGTACCGGCGTGAGGCCGCCGGTGACCTGGCCGGGGAAATCACCGGCGTGACGGA -CGGTGCCGGGCGGGAGTTCCGTCTGGTGCTGACCACGCAGGCGCAGCGTGCGGAAGAGGCCCGCACCTCTTCGCT -ATCTTCTTCTGACAGTTCCCGCCCTCTCTCAGCCTCAGCGTTCCCCGACACACTGCCCGGTACCGAATACGGCCC -CGACAGGGGTATCCGCCTTTCGGCGGTGTGGCTGATGCACGACCCGGCATACCCGGAGAGCCTGCCCGCTGCGCC -ACTGGTGCGGTACACGTATACGGAAGCCGGTGAACTGCTGGCGGTATATGACCGCAGCAATACGCAGGTGCGCGC -TTTCACGTATGACGCGCAGCACCCGGGCCGGATGGTGGCGCACCGTTACGCGGGAAGGCCGGAGATGCGCTACCG -CTACGACGATACGGGGCGGGTGGTGGAGCAACTGAACCCGGCAGGGTTAAGCTACCGCTATCTTTATGAGCAGGA -CCGCATCACCGTCACCGACAGCCTGAACCGGCGTGAGGTGCTGCATACAGAAGGCGGGGCCGGGCTGAAACGGGT -GGTGAAAAAAGAACTGGCGGACGGCAGCGTCACGCGCAGCGGGTATGACGCGGCAGGAAGGCTCACGGCGCAGAC -GGACGCGGCGGGACGGAGGACAGAGTACGGTCTGAATGTGGTGTCCGGCGATATCACGGACATCACCACACCGGA -CGGGCGGGAGACGAAATTTTACTATAACGACGGGAACCAGCTGACGGCGGTGGTGTCCCCGGACGGGCTGGAGAG -CCGCCGGGAATATGATGAACCGGGCAGGCTGGTATCGGAGACATCGCGCAGCGGGGAGACAGTACGCTACCGCTA -CGATGACGCGCACAGTGAGTTACCGGCGACGACAACGGATGCGACGGGCAGCACCCGGCAGATGACCTGGAGCCG -CTACGGGCAGTTGCTGGCGTTCACCGACTGCTCGGGCTACCAGACCCGTTATGAATACGACCGCTTCGGCCAGAT -GACGGCGGTCCACCGCGAGGAAGGCATCAGCCTTTACCGCCGCTATGACAACCGTGGCCGGTTAACCTCGGTGAA -AGACGCACAGGGCCGTGAAACGCGGTATGAATACAACGCCGCAGGCGACCTGACTGCCGTTATCACCCCGGACGG -CAACCGGAGCGAGACACAGTACGATGCGTGGGGAAAGGCGGTCAGCACCACGCAGGGCGGGCTGACGCGCAGTAT -GGAGTACGATGCTGCCGGACGTGTCATCAGCCTGACCAACGAGAACGGCAGCCACAGCGTCTTCAGTTACGATGC -GCTGGACCGGCTGGTACAGCAGGGCGGCTTTGACGGGCGGACGCAACGTTATCATTATGACCTGACCGGAAAACT -CACACAGAGTGAGGATGAGGGACTTGTCATCCTCTGGTACTACGATGAATCGGACCGTATCACTCACCGCACGGT -GAACGGCGAACCGGCAGAGCAGTGGCAGTATGATGGCCACGGCTGGCTGACAGACATCAGCCACCTGAGCGAAGG -CCACCGTGTTGCCGTCCACTATGGCTATGACGATAAAGGCCGCCTGACCGGCGAATGCCAGACGGTGGAGAACCC -GGAGACGGGGGAACTGCTGTGGCAGCATGAGACGAAACACGCATACAACGAGCAGGGGCTGGCAAACCGCGTCAC -GCCGGACAGCCTGCCGCCGGTGGAGTGGCTGACGTATGGCAGCGGTTACCTGGCGGGAATGAAGCTGGGCGGGAC -GCCGCTGGTCGAGTATACGCGGGACAGGCTGCACCGTGAGACGGTGCGCAGCTTCGGCAGCATGGCAGGCAGTAA -TGCCGCATACGAACTGACCAGCACATACACCCCCGCAGGCCAGTTACAGAGCCAGCACCTGAACAGCCTGGTATA -TGACCGTGACTACGGGTGGAGTGACAACGGCGACCTGGTGCGCATCAGCGGCCCGCGACAGACGCGGGAATACGG -CTACAGCGCCACGGGCAGGCTGGAGAGTGTGCGCACCCTCGCACCAGACCTGGACATCCGCATCCCGTATGCCAC -GGACCCGGCGGGCAACCGGCTGCCGGACCCGGAGCTGCACCCGGACAGTACACTCACAGTGTGGCCGGATAACCG -CATCGCGGAGGATGCGCACTATGTCTACCGCCACGATGAATACGGCAGGCTGACGGAGAAGACGGACCGCATCCC -GGCGGGTGTGATACGGACGGACGACGAGCGGACCCACCACTACCACTACGACAGCCAGCACCGCCTGGTGTTCTA -CACGCGGATACAGCATGGCGAGCCACTGGTCGAGAGCCGCTACCTCTACGACCCGCTGGGACGGCGAATGGCAAA -ACGGGTCTGGCGGCGGGAGCGTGACCTGACGGGGTGGATGTCGCTGTCGCGTAAACCGGAGGTGACGTGGTATGG -CTGGGACGGAGACAGGCTGACGACGGTGCAGACTGACACCACACGTATCCAGACGGTATACGAGCCGGGAAGCTT -CACGCCGCTCATCCGGGTCGAGACAGAGAACGGCGAGCGGGAAAAAGCGCAGCGGCGCAGCCTGGCAGAGACGCT -CCAGCAGGAAGGGAGTGAGAACGGCCACGGCGTGGTGTTCCCGGCTGAACTGGTGCGGCTGCTGGACAGGCTGGA -GGAAGAAATCCGGGCAGACCGCGTGAGCAGTGAAAGCCGGGCGTGGCTTGCGCAGTGCGGGCTGACGGTGGAGCA -ACTGGCCAGACAGGTGGAGCCGGAATACACACCGGCGCGAAAAGCTCATCTTTATCACTGCGACCACCGGGGACT -GCCGCTGGCGCTTATCAGCGAAGACGGCAATACGGCGTGGAGCGCGGAATATGATGAATGGGGCAACCAGCTTAA -TGAGGAGAACCCGCATCATGTGTATCAGCCGTACCGTCTGCCAGGGCAGCAGCATGATGAGGAATCAGGGCTGTA -CTATAACCGTCACCGGTACTACGATCCGTTGCAGGGGCGGTATATTACTCAGGACCCGATGGGGTTGAAAGGGGG -ATGGAATTTATATCAGTATCCTTTAAATCCACTACAACAAATTGACCCTATGGGATTATTGCAGACTTGGGATGA -TGCCAGATCTGGAGCATGTACGGGGGGAGTTTGTGGTGTTCTTTCACGTATAATAGGACCAAGTAAATTTGATAG -TACTGCAGATGCTGCGTTAGATGCTTTGAAAGAAACGCAGAATAGATCTCTATGTAATGATATGGAATACTCTGG -TATTGTCTGTAAAGATACTAATGGAAAATATTTTGCATCTAAGGCAGAAACTGATAATTTAAGAAAGGAGTCATA -TCCTCTGAAAAGAAAATGTCCCACAGGTACAGATAGAGTTGCTGCTTATCATACTCACGGTGCAGATAGTCATGG -CGATTATGTTGATGAATTTTTTTCAAGTAGCGATAAAAATCTTGTAAGAAGTAAAGATAATAATCTTGAAGCATT -TTATCTCGCAACACCTGATGGACGATTTGAGGCGCTTAATAATAAAGGAGAATATATTTTTATCAGAAATAGTGT -CCCGGGATTGAGTTCAGTATGCATACCGTATCATGATTAATTTTAGTGCTTTTATTAGTGGGGCCTATAAGGAGA -TTCAATGAAATATAGTTCAATATTTTCGATGCTTTCATTTTTTATACTATTTGCCTGTAATGAGACAGCTGTTTA -CGGTTCTGATGAAAACATTATTTTTATGAGGTATGTGGAAAAATTACATTTAGATAAATACTCTGTTAAAAATAC -GGTAAAAACTGAAACAATGGCGATACAATTAGCTGAAATATATGTTAGGTATCGCTATGGCGAACGGATTGCAGA -AGAAGAAAAACCATATTTAATTACGGAACTACCAGATAGTTGGGTTGTTGAGGGAGCAAAGTTACCTTATGAAGT -TGCGGGTGGTGTATTTATTATAGAAATTAATAAGAAAAATGGATGTGTTTTGAATTTCCTACATAGTAAATAATG -CTGGCGCTGATGGATGCGGATGGAAACATTGCGTGGAGCGGGGAGTATGATGAGTGGGGCAACCAGCTGAATGAA -GAGAACCCGCATCACCTGCACCAGCCGTACCGGCTGCCGGGGCAGCAGTATGATAAGGAGTCGGGGCTGTACTAC -AACCGGAACCGGTACTACGATCCGTTGCAGGGGCGGTATATCACTCAGGACCCGATAGGGCTGGAGGGGGGATGG -AGTCTGTATGCGTATCCGCTGAATCCGGTGAATGGTATTGATCCATTAGGGTTAAGTCCCGCAGATGTAGCGCTA -ATAAGAAGAAAAGATCAACTAAACCATCAAAGAGCATGGGATATATTATCTGATACTTATGAAGATATGAAGAGA -TTAAATTTAGGTGGGACTGATCAATTTTTCCATTGTATGGCATTTTGTCGAGTGTCTAAATTAAATGACGCTGGT -GTTAGCCGATCGGCGAAAGGGCTGGGTTATGAAAAAGAGATTAGAGATTACGGGTTAAATCTGTTCGGTATGTAC -GGCAGAAAAGTAAAGCTATCCCATTCTGAAATGATTGAAGATAATAAAAAAGACTTGGCTGTAAATGACCATGGG -TTGACATGTCCATCAACAACAGATTGCTCAGATAGATGTAGTGATTATATTAATCCAGAGCATAAAAAAACGATA -AAGGCTTTACAAGATGCTGGCTATCTCAAGTAATCTATCAAAGATGATAATATTTATTTTTGCTATTATAATCAT -TGTTGTTTTATGCGTAATTACTTATCTTTATTTATACAAAGATGAATCTCTTGTAAGTAAACATTACATAAACTA -TATGGCAATACCAGAAAATGATGGAGTTTTTACATGGCTCCCAGATTTTTTTCCGCACGTAGCGGTGGATATATC -AATATACACAAATGTAGAAGATGATTATTTTTTTCTTATTTTTCCCTAACAAATGATGATGGGGGTAGGTTTAAG -AAAACATTGACAGTGAGGGCCAGGGAACAAGTGGCGAAAATCGTATCAAAGAATGATCCAGATACAAAAAAAGTG -TGGTGTAAATATGGTAAGATACCAGGGCAAGGGGATGGTGTAAACCTTTTTTTTGTTGGTGAAATTAATGTTACG -CATTATTTTATAACAAATATTGGAGCTGGATTGCCTGATGCTTGTGCAGAGTAATTGCTTGAATTAAGAGTCTAT -CCCATATCGAAGTCGTCAACTTCGTAGTGAGGAAAAGTAAAATTCCTGACTGAGAAAAGACATGTCGGCTATTGT -GTAAAGCCATATAGCTCAGACGATGAATATCTACTCGTATTCAGTTGTTTATTGAGGGTGAGTTCCGACCCTGAA -ACAACAAATAAAATGAACAGTCAGAGAGTTTACATAGAATTGCACTGGTCTTTTACGATATCTGACATTGTGTAA -TACATATTCAGCCATGCATTAATTAAAATGTTACGTGTTTAATGTGAGTCCCTATCTGAAAATAAATAATCCTTC -CGGATTAAAATAAATTCTTGCCGGGAAAGAAAGAGGAAATAAACCATTAGCGGAAAACCAGCGGCACGCCAGGGT -GACATGCCCCAGTACGGCGGCCCGATAGTCCAGGGTTCAGCGGGGGTACTGATAGTCGCGCCGACTGCATCGAGA -ACTCCATACAACTTTTTACGGAACGTCACCTGATAAAATTTGTTCAGTATCGTCTTTTGAGATTCTCAAGGTTAT -GGAGTAACCAGACAGAACGGACACCACTGTCGGAGATAAAAACCCCCTGTTTACGCAGCTCGTTGCTGGCCCGGT -GCTGACCATGTGTCGGGAAAGCGACGGCGTAATCAACAACAGCCTGTTCAGTTGCCTCATCGGTACGGTTCTTAA -GGTTAGGAGCGCGGCGACTACGATTAATCTGCGCATCCACACCGCCTTCAGCGACCAGTTCGCGGTAACGATAAA -ACGTATCACGCGAAACGCCCATGATTTTACAGGCTTTTGATACGTTGCTGAGTTCTTCAGCCAGATTGAGCAAAC -CGGCTTTGTGTTTGATGACGGGATTGGCAGTATGAAGCATGAGAGTTACCTCTTGTTTTGGATAAGGATTCGACA -CTCATATCAAAACCGGTAACTCTCAACCTTTCAAGGCCATGTGTCAGATCAAGTCGCGACTAATACAAATACGTC -CCTCATTACCGCGCCTTAACCCATTCCGCCACTTCCGCCCACTCACCGCGAAAGACAACTTTTTCCGCTTTTTTC -TCAAGCTGATAGCGATACATCGGGTCGTAATATTCTTCAAGTAACGGCACCAGCCAGGCCAGATGACCGTCGGTG -CTGCCGGTGGTGAGTTGCGTTGTCAGTGCTGCATCCAGCCTTGCAGCCAGTTCGTTATAGCGCTGTAGCCCCAGC -CGACGCTTAATCGCCGAAAGTCCGTGATGCAGGTATTCGCAATACTCCTGCCAGCCCTGTTCGTCGCCGTACGCG -TGGGTAAAATCATGATGCATACGCAAGAAATACTCTTCGTTCAGGCGCTCAAGACGGATCTCAAACGGATCTTCT -ACCACCGCAATCGCCGCCTGAGTCATTCGCTCGCGCAGGCATTCCGGCAGGTGATTCGAACCGATCATCCGGCTT -TCGTCTTCCAGCACCCACAGGCGCAAATTCTGACGGGCGTCGGTTTTTAGCATTTCGGCAGCCAGCAGGTTTTCA -AAACTCGCCTGGCTAAGTTGTGGTTGTAACGTGCGACCAAACGCCGAACCGCGATGACGCGCCAACCCTTCCAGA -TCAACACCGTTCGGCTGTTGCTGCACTAACAGCGTTTTACCGCTGCCGGTACAACCGCCAATCAGCACTATCGGT -TTTTGTGCCAGTTCAATAGTCGCCTGAATCGCGGTCTGGCGCAGTGCCTTATAACCGCCTTCCACCAGCGGATAA -TCAATCCCCGCTGCATGCAACCAGCTTTGCACAATATGTGAGCGCTGACCGCCACGGGCGCAGCAGAGAATACCT -TGCGGATTTTGCAGGCACGCTGCCCGCCAGGCGTCCATGCGCTGCTGACGAATTTCACCCGCCACCAGTTTATGT -CCCAGCGCCAGCGCTGCGTCTGAGCCTTGCTGTTTATAGCAGGTGCCAACGGCGGCGCGTTCATCGTTATTCATT -AACGGCAGATTGATAGCGGCGGGCATTGCGCCGTGCTCAAACTCGATAGGGGCGCGAACATCAATAATGGGCGTA -TCAGCAATCAGCAGGGCACGATAGTCCTGTTCCGTGTGTCTCTCTTGCATAGTTAAAAGTGAACCTCAAATCAGC -TTGCGCGCTATTTTACGCGCCAACGCGCAAGGAAACTTGATTTTTAACTGCGTGGGTTGCCGAAAATTTCTAAAA -ATCCGCTGATTTCCGGCCTGCGCTGGGTAAACAAGGTCACAATATCTTCTACCGCTTTGCCGCTGCCAAATTTGC -GCCATGCCAGACTCAATGGCGAAGGAGGGCGCATCGTTGGGATTACCCGGCTGACCAGTTGTTGATTATCGATCA -TTGACTGGCAAAGCGATTTTGGCAAAAAACCAATGCCAACGCCCGCCAGATGGGCGGCGATTTTCGTTTCCATAT -CGGGAACAATAATCTCTTTTTGCCCTGGCAATCGCCAGGCGACGCGTTTGGTTAAGGTGCGGGCGCTGTCTTCAA -TATTGACCGCCGGAAAGCGCCGCAACTGCGCTTCTGTTAGCGGCTCTTCAACGTTCGCCAGCGGATGATCCGCCG -CCATGACAAAGCGCCATTGCACCGATCCTAAGGGATCAAGACTAAAGGTATTTGCCAGCGCCTCAGTTCCCGTGA -CGCCGATAGCCAGCGAAAAACCTTCGTACAATAGCGAGTCCCAGACGCCCATATAGATTTGTCGGGAGATGTGAA -ACTGGGTAAAGGGGTAACGCTCATTCAGCCACGCCAGCAACTGGGCGACGGCCTGGGGGTTGTAGAGCAGGTTGT -TGATGACAATATTCACCTGGCGTTCCACGCCATCATTCACCTGTTGCAGCTCGCTTGGCATACTTTCCAGCCAGC -TCAGCCAGTCTCTGGCCTGGGAAAGTAGATGCTCGCCAGCCGCTGTCAACGTCACGCTGCGAGTCGTACGGAAAA -ACAGCGCTACTCCGGTATTCTCTTCCAGAAGTTTAATGCGATAACTGATCGTCGCCGTGGTTTTACATAATCGTT -CTGCCGCTTTTGAAAAACTTCCTGTTTCAGCAACCGCAATGAAAGTCCGCAAGGTTTCTGGATCGAACATCTTCA -GGTATCCCCTTTTAAATCCGCAAGTTGCGTGATTTTCTTATCCTCTGATTTATCAGTATTTTTACATGATAACCC -TGTTCAATTTGTGGACTAAATCTAGTTTTGGAAAAATATTCCAACTTTTGTATTGATGTTGTTCTCTTAAGGTTT -TAGATTGCCTGTTATTGAAACCAAGCTGACCGGTCGGCGGTGGTTGAACGGAATTATGTTACAAGGACAAAAAGA -TGAAACTTCAGGTATTACCGTTAAGTCAGGAAGCCTTTAGTGCTTATGGCGACGTAATCGAAACGCAGCAACGGG -ATTTTTTCCATATTAACAATGGCCTGGTGGAGCGTTACCACGATTTGGCGCTGGTTGAGATTCTTGAGCAAGACT -GTACGCTTATCAGCATTAACCGCGCGCAACCGGCGAATCTGCCGCTGACCATTCACGAACTCGAACGTCATCCGC -TGGGTACTCAGGCCTTTATCCCGATGAAAGGTGAGGTGTTTGTGGTGGTCGTGGCGTTAGGTGACGACAAACCAG -ACCTGTCAACGCTGCGGGCGTTTATCACCAACGGCGAACAGGGAGTGAATTACCATCGTAACGTCTGGCATCACC -CACTTTTCGCCTGGCAGCGCGTCACCGATTTTCTGACCATCGATCGCGGCGGCAGTGACAACTGTGATGTTGAAA -GTATTCCTGAACAGGAACTCTGTTTTGCGTGACGCCTGCAACCGACTTGCATAAGATAAACTAATTGTTCATTGT -TTATGCTCACTTGTAGGTCGGAGTTAACGTAGGTATGACGGAAGTTAGACGGCGCGGCAGGCCAGGACAGGCGGA -GCCTGTGGCACAGAAGGGCGCACAGGCGTTAGAGCGGGGAATTGCGATTCTGCAATATTTGGAAAAAAGTGGGGG -AAGTTCGTCGGTTAGCGATATTTCTCTCAATCTGGATTTGCCGCTCTCCACGACCTTTCGCTTGCTGAAGGTTTT -ACAGGCAGCGGATTTTGTCTATCAGGACAGTCAATTAGGCTGGTGGCATATAGGATTAGGTGTCTTTAACGTCGG -TGCGGCGTACATCCATAACCGCGATGTCCTCTCCGTCGCCGGGCCGTTTATGCGCCGCCTGATGTTACTTTCCGG -CGAAACGGTCAATGTCGCGATCCGTAACGGCAATGAAGCGGTATTAATTGGTCAGTTAGAGTGTAAATCGATGGT -CAGGATGTGTGCGCCACTGGGCAGTCGTCTGCCACTGCATGCTTCCGGTGCGGGCAAAGCGCTGCTTTATCCGCT -GGCGGAAGAGGAGTTGATGAGCATCATTCTGCAAACCGGTTTGCAGCAGTTTACGCCAACTACGCTTGTGGATAT -GCCCACCTTGCTGAAGGACCTGGAACAAGCGCGTGAACTGGGCTATACCGTAGATAAAGAAGAGCATGTTGTAGG -TCTGAATTGCATAGCTTCAGCAATTTACGATGATGTCGGTAGTGTTGTTGCCGCTATCTCCATCTCCGGGCCTTC -ATCAAGACTGACAGAAGATCGTTTTGTCAGTCAGGGTGAGCTGGTCAGAGACACCGCCCGCGATATCAGCACGGC -GTTGGGACTGAAAGCACATCCATAATGTCTGTCGCATCCCGCTCTGCGGAGCGGGTTTTTTTGACAAAATTTGAA -AGTTGGAAAAATTTTCCAATAAATAGAGGTAGGAATAAAATGGCAAAAATGAGAGCCGTTGACGCGGCAATGTAT -GTGCTGGAGAAAGAAGGTATCACTACCGCCTTCGGTGTTCCGGGAGCTGCAATCAATCCGTTCTACTCAGCGATG -CGTAAGCACGGCGGTATTCGTCACATTCTGGCGCGTCATGTGGAAGGTGCTTCGCACATGGCGGAAGGTTATACC -CGCGCAACGGCAGGGAATATCGGCGTATGTCTGGGGACTTCCGGTCCTGCGGGCACGGACATGATCACCGCGCTC -TATTCCGCTTCTGCTGATTCCATTCCTATTCTGTGCATTACCGGCCAGGCACCGCGCGCCCGTCTGCATAAAGAA -GATTTTCAGGCCGTAGATATTGAAGCAATTGCTAAACCGGTCAGCAAAATGGCGGTTACAGTTCGTGAAGCGGCG -CTGGTGCCTCGCGTGCTGCAACAGGCATTTCACCTGATGCGTTCTGGTCGTCCGGGTCCGGTACTGGTGGATTTA -CCGTTCGACGTTCAGGTTGCGGAAATCGAGTTTGATCCTGACATGTACGAACCGCTGCCGGTCTACAAACCTGCT -GCCAGCCGTATGCAGATCGAAAAAGCTGTAGAAATGTTAATCCAGGCCGAACGTCCGGTGATTGTTGCCGGGGGC -GGGGTAATTAATGCTGACGCAGCTGCACTGTTACAACAGTTTGCTGAACTGACCAGCGTTCCGGTGATCCCAACG -CTAATGGGCTGGGGCTGTATCCCGGACGATCATGAACTGATGGCCGGGATGGTGGGTCTGCAAACCGCGCATCGT -TACGGTAACGCAACGCTGCTGGCGTCTGACATGGTGTTTGGTATCGGTAACCGTTTTGCTAACCGTCATACCGGC -TCGGTAGAGAAATACACCGAAGGGCGCAAAATCGTTCATATTGATATTGAGCCGACGCAAATTGGTCGCGTGCTG -TGTCCGGATCTCGGTATTGTCTCTGATGCTAAAGCGGCGCTGACACTGCTGGTTGAAGTGGCGCAGGAGATGCAA -AAAGCGGGTCGTCTGCCGTGTCGTAAAGAATGGGTCGCCGACTGCCAGCAGCGTAAACGCACTTTGCTGCGCAAA -ACCCACTTCGACAACGTGCCGGTGAAACCGCAGCGCGTGTATGAAGAGATGAACAAAGCCTTTGGTCGCGATGTT -TGTTATGTCACCACCATTGGTCTGTCACAAATCGCTGCGGCACAAATGCTGCATGTCTTTAAAGACCGCCACTGG -ATCAACTGTGGTCAGGCTGGTCCGTTAGGCTGGACGATTCCGGCTGCGCTAGGGGTTTGTGCCGCTGATCCGAAA -CGCAATGTGGTGGCGATTTCTGGCGACTTTGACTTCCAGTTCCTGATTGAAGAGTTAGCTGTTGGCGCGCAGTTC -AACATTCCGTACATCCATGTGCTGGTCAACAACGCTTATCTGGGGCTGATTCGTCAGTCACAACGCGCTTTTGAC -ATGGACTACTGCGTGCAACTCGCTTTCGAGAATATCAACTCCAGTGAAGTGAATGGCTACGGTGTTGACCACGTA -AAAGTAGCGGAAGGTTTAGGTTGTAAAGCTATTCGGGTCTTCAAACCGGAAGATATTGCGCCAGCCTTTGAACAG -GCGAAAGCCTTAATGGCGCAATATCGGGTACCGGTAGTCGTGGAAGTTATTCTCGAGCGTGTGACCAATATTTCG -ATGGGCAGCGAACTGGATAACGTCATGGAATTTGAAGATATCGCCGATAACGCAGCGGACGCACCGACTGAAACC -TGCTTCATGCACTATGAATAAGGGAGATAAATAATGTTACGTTTCTCTGCTAATTTATCGATGTTATTTGGAGAA -TATGATTTTCTCGCCCGTTTTGAGAAAGCTGCGCAGTGTGGTTTTCGCGGCGTTGAATTTATGTTTCCTTATGAC -TACGACATTGAAGAATTAAAACATGTGCTGGCGAGTAATAAACTCGAACATACGCTGCACAATTTACCGGCGGGT -GACTGGGCGGCGGGGGAGCGCGGTATTGCCTGTATTCCTGGCCGTGAAGAAGAGTTTCGGGATGGCGTAGCAGCA -GCGATTCGTTATGCCCGTGCGCTGGGTAATAAAAAAATTAACTGTCTGGTCGGTAAAACGCCGGCTGGTTTCAGC -AGTGAACAGATTCACGCAACGCTTGTAGAAAACCTGCGTTATGCCGCGAATATGCTGATGAAAGAAGATATTTTA -TTACTGATTGAACCTATTAACCATTTTGATATTCCTGGTTTCCATCTCACCGGAACTCGGCAGGCGCTGAAATTG -ATTGATGATGTTGGTTGCTGCAATTTGAAAATTCAGTATGACATTTATCATATGCAGCGGATGGAAGGTGAATTA -ACCAACACCATGACTCAGTGGGCTGATAAAATTGGTCACCTGCAAATTGCCGATAATCCGCATCGCGGCGAACCG -GGAACCGGAGAAATTAATTATGATTATCTCTTTAAGGTAATCGAAAATTCTGACTACAACGGTTGGGTTGGGTGT -GAATATAAACCCCAAACCACCACGGAAGCCGGTTTACGCTGGATGGATCCGTACCGTTAAAACGTAACGCTATTC -AGACAATGCTTTTTTAGGCCGCTAAGTTGGCAGGGGATCGTGTTGTCTGAATTCAGGAAAAGCGAAATTTAAAAG -AGGTTAATTATGAAACTGGGATTTATTGGCTTAGGCATTATGGGTACACCGATGGCCATTAATCTGGCGCGTGCC -GGTCATCAATTACATGTCACGACCATTGGACCGGTTGCTGATGAATTACTGTCACTGGGTGCCGTCAGTGTTGAA -ACTGCTCGCCAGGTAACGGAAGCATCGGACATCATTTTTATTATGGTGCCGGACACACCTCAGGTTGAAGAAGTT -CTGTTCGGTGAAAATGGTTGTACCAAAGCCTCGCTGAAGGGCAAAACCATTGTTGATATGAGCTCCATTTCCCCG -ATTGAAACTAAGCGTTTCGCTCGTCAGGTGAATGAACTGGGCGGCGATTATCTCGATGCGCCAGTCTCCGGCGGT -GAAATCGGTGCGCGTGAAGGGACGTTGTCGATTATGGTTGGCGGTGATGAAGCGGTATTTGAACGTGTTAAACCG -CTGTTTGAACTGCTCGGTAAAAATATCACCCTCGTGGGCGGTAACGGCGATGGTCAAACCTGCAAAGTGGCAAAT -CAGATTATCGTGGCGCTCAATATTGAAGCGGTTTCTGAAGCCCTGCTATTTGCTTCAAAAGCCGGTGCGGACCCG -GTACGTGTGCGCCAGGCGCTGATGGGCGGCTTTGCTTCCTCACGTATTCTGGAAGTTCATGGCGAGCGTATGATT -AAACGCACCTTTAATCCGGGCTTCAAAATCGCTCTGCACCAGAAAGATCTCAACCTGGCACTGCAAAGTGCGAAA -GCACTTGCGCTGAACCTGCCAAACACTGCGACCTGCCAGGAGTTATTTAATACCTGTGCGGCAAACGGTGGCAGC -CAGTTGGATCACTCTGCGTTAGTGCAGGCGCTGGAATTAATGGCTAACCATAAACTGGCCTGATACCCGCAATAA -AAATGGCCGATATCAGAAAATGAATCGGCCAGCAATATTAAAAAAGAAAGCAGCCAAAGATGTTGCTTCAGTATT -AAAAATAATATTTTTATTTTATTTGTTCCTCATAGCTAGATTAAAACAACGTTATTCGATACGTGAAATTAAGAG -GGATTTATGGAACATCAGAGAAAACTATTCCAGCAACGCGGCTATAGCGAAGATCTATTGCCGAAAACGCAAAGC -CAGCGGACCTGGAAAACATTTAACTATTTTACCTTATGGATGGGTTCGGTTCATAACGTTCCCAATTATGTGATG -GTCGGCGGCTTTTTTATTCTCGGCTTGTCTACCTTTAGTATTATGCTGGCAATTATCCTCAGCGCCTTTTTCATT -GCCGCGGTAATGGTATTAAACGGTGCTGCGGGCAGTAAATACGGTGTGCCTTTTGCCATGATCCTGCGTGCTTCT -TACGGTGTACGTGGTGCACTGTTTCCCGGATTATTAAGGGGCGGAATTGCCGCCATCATGTGGTTTGGTTTGCAA -TGTTACGCGGGGTCACTGGCCTGCTTGATTCTGATTGGCAAAATCTGGCCGGGATTTTTAACTCTCGGTGGTGAT -TTCACTCTGTTAGGCCTTTCTCTACCGGGCTTAATTACTTTCTTAATCTTCTGGCTGGTCAACGTTGGTATAGGT -TTTGGCGGTGGCAAAGTTTTAAATAAATTCACTGCCATTCTTAACCCGTGCATCTATATCGTTTTCGGCGGTATG -GCGATTTGGGCGATTTCACTGGTCGGGATCGGTCCAATCTTTGACTACATTCCGAGCGGTATTCAGAAAGCAGAA -AACGGTGGCTTCCTGTTCCTGGTGGTGATTAACGCGGTAGTTGCGGTCTGGGCGGCACCGGCGGTGAGCGCATCC -GACTTTACGCAAAACGCCCACTCGTTTCGTGAGCAGGCGCTGGGGCAAACGCTGGGTTTAGTTGTGGCCTATATT -CTGTTTGCGGTCGCCGGGGTATGTATTATTGCCGGAGCCAGTATTCACTACGGCGCTGATACCTGGAACGTGCTG -GATATTGTTCAGCGTTGGGACAGCCTGTTCGCCTCGTTCTTTGCGGTACTGGTTATTCTGATGACAACTATCTCC -ACTAACGCGACCGGTAATATTATTCCAGCCGGTTATCAGATTGCCGCCATTGCACCGACAAAACTGACCTATAAA -AACGGCGTACTGATTGCCAGTATTATCAGCTTGCTGATCTGCCCGTGGAAATTAATGGAAAATCAGGACAGCATT -TATCTTTTCCTCGATATTATCGGCGGAATGCTTGGTCCGGTAATTGGTGTCATGATGGCGCATTATTTTGTGGTG -ATGCGCGGACAAATTAATCTTGATGAACTGTATACCGCACCTGGCGATTATAAATATTACGATAACGGTTTTAAC -CTCACTGCGTTTTCAGTAACTCTGGTGGCCGTTATTTTATCTCTTGGCGGTAAGTTTATTCACTTTATGGAACCG -TTATCGCGTGTTTCATGGTTTGTCGGCGTCATCGTCGCCTTTGCGGCCTACGCCTTATTAAAGAAACGTACAACA -GCAGAAAAAACAGGAGAGCAAAAAACCATAGGTTAATTAATCCCGATATTGAACATTGAGTTAAAAACCAATCTG -TATTTTACAAGGAGTTTGTTATGTCTTTTGATTTAATCATTAAAAACGGCACCGTTATTTTAGAAAACGAAGCTC -GCGTTGTAGATATCGCCGTTAAAGGCGGAAAAATTGCTGCTATCGGTCAGGATCTGGGCGATGCAAAAGAAGTTA -TGGATGCGTCTGGTCTGGTGGTTTCGCCGGGCATGGTTGATGCGCACACCCATATTTCTGAACCGGGTCGTAGCC -ACTGGGAAGGTTATGAAACCGGTACTCGCGCAGCGGCAAAAGGTGGTATCACCACCATGATCGAAATGCCGCTCA -ACCAGCTGCCTGCAACGGTTGACCGCGCTTCAATTGAACTGAAGTTCGATGCCGCTAAAGGCAAGCTGACTATTG -ATGCGGCACAACTCGGTGGCCTGGTGTCTTACAACATCGACCGTCTGCATGAGCTGGATGAAGTGGGCGTTGTCG -GCTTCAAATGCTTCGTTGCGACCTGTGGCGATCGCGGTATCGACAACGACTTCCGTGATGTAAACGACTGGCAGT -TCTTCAAAGGTGCGCAGAAGCTGGGCGAACTGGGTCAGCCGGTGCTGGTGCACTGCGAAAACGCGCTGATTTGTG -ACGAACTGGGCGAAGAAGCGAAGCGTGAAGGTCGCGTAACCGCTCATGACTATGTGGCTTCGCGTCCGGTATTTA -CCGAAGTGGAAGCAATTCGCCGCGTACTGTATCTGGCGAAAGTTGCTGGTTGCCGTCTGCACGTTTGCCACGTCA -GCAGCCCGGAAGGTGTTGAGGAAGTGACTCGTGCACGTCAGGAAGGTCAGGACGTTACTTGTGAATCCTGCCCGC -ATTACTTTGTACTGGATACCGATCAGTTCGAAGAAATCGGTACTCTGGCGAAGTGTTCACCGCCGATCCGCGATC -TGGAAAACCAGAAAGGCATGTGGGAAAAACTGTTTAACGGTGAAATCGACTGCCTGGTTTCCGACCACTCTCCAT -GCCCGCCGGAAATGAAAGCCGGTAACATCATGAAAGCATGGGGCGGTATCGCCGGTCTGCAAAGCTGCATGGACG -TGATGTTCGATGAAGCGGTACAGAAACGCGGTATGTCTCTGCCAATGTTCGGCAAATTAATGGCGACTAACGCAG -CAGATATTTTCGGTCTGCAGCAAAAAGGCCGTATCGCCCCAGGAAAAGATGCCGACTTCGTCTTCATTCAGCCGA -ATAGCAGCTATGTTCTTACCAATGACGATCTGGAATATCGCCACAAAGTCAGCCCGTATGTTGGCCGTACCATTG -GCGCGCGTATCACGAAAACCATCTTACGTGGTGATGTGATTTACGACATTGAACAGGGCTTCCCTGTTGCGCCGA -AAGGTCAATTTATCCTTAAACATCAGCAGTAATCTGGCCCCTGCAATGCCCGTCCTTGCGGCGGGCATTCTCCGG -TTAAGGTGTGTTTATGTTCAATTTTGCAGTCAGCCGCGAAAGCCTGTTATCAGGATTTCAGTGGTTTTTCTTTAT -TTTTTGCAACACGGTTGTGGTTCCTCCTACGCTACTTTCTGCTTTTCAGTTGCCGCAAAGTAGCCTGCTTACGCT -CACGCAATATGCTTTTCTTGCTACCGCACTGGCCTGCTTCGCTCAGGCGTTTTGCGGTCATCGTCGCGCTATTAT -GGAAGGGCCAGGTGGCCTGTGGTGGGGAACCATCCTTACTATCACCCTTGGTGAAGCATCGCGCGGGACACCGAT -CAACGATATCGCCACCAGCCTGGCAGTGGGGATTGCACTCTCCGGCGTGCTGACGATGTTGATTGGTTTTAGCGG -ATTAGGCCATCGCCTGGCACGGTTATTTACGCCGTCGGTGATGGTCTTGTTTATGTTGATGCTGGGCGCGCAGCT -GACCACTATCTTTTTCAAAGGTATGCTCGGGCTGCCGTTTGGCATAGCCGACCCGAATTTTAAAATTCAGTTACC -GCCGTTCGCGCTCTCGGTGGCGGTGATGTGCCTGGTACTGGCGATGATTATCTTCCTGCCGCAACGTTTTGCCCG -TTATGGCCTGCTGGTCGGCACCATAACCGGCTGGTTGTTGTGGTACTTTTGCTTTCCTTCTTCGCACTCGCTCTC -CGGTGAGTTGCACTGGCAGTGGTTCCCGCTCGGCAGTGGCGGTGCTTTGTCGCCGGGAATTATTCTGACGGCGGT -GATTACAGGTCTGGTAAATATCAGCAATACCTACGGTGCGATTCGGGGCACGGATGTTTTTTATCCGCAGCAGGG -CGCAGGGAATACGCGTTATCGTCGTAGCTTTGTGGCGACCGGATTTATGACGCTGATAACCGTACCGCTGGCGGT -AATTCCATTTTCACCGTTTGTTTCATCCATTGGTTTATTAACCCAGACTGGCGATTACACGCGGCGTTCGTTTAT -TTATGGCAGCGTTATTTGCCTGCTGGTGGCGCTGGTTCCTGCACTCACGCGACTGTTTTGCAGTATCCCTTTACC -CGTGAGTAGTGCGGTCATGCTGGTTTCTTATCTGCCTTTACTCTTTTCCGCGCTGGTGTTTAGCCAGCAAATAAC -GTTTACCGCTCGCAATATTTATCGACTCGCATTGCCGTTATTTGTCGGCATATTTTTAATGGCATTACCGCCTGT -GTATCTGCAAGACCTTCCATTAACGCTTCGTCCTCTGCTCAGTAACGGCTTATTGGTCGGGATTTTACTGGCTGT -TCTTATGGATAACCTTATTCCGTGGGAACGCATCGAATAATTTGTTGAAAAAGGATTGATAATGAAGATTGTCAT -TGCGCCAGACTCTTTTAAAGAGAGCTTAAGTGCAGAAAAATGTTGTCAGGCAATTAAAGCCGGGTTTTCGACCCT -CTTTCCCGATGCGAACTATATCTGTTTGCCGATAGCGGATGGCGGCGAAGGGACGGTGGATGCGATGGTCGCCGC -GACGGGCGGCAACATCGTGACGCTTGAAGTCTGCGGGCCGATGGGCGAAAAAGTGAATGCTTTTTATGGCCTTAC -CGGCGACGGGAAAACGGCGGTGATTGAGATGGCGGCAGCAAGTGGCCTGATGCTGGTCGCGCCTGAAAAGCGTAA -TCCGTTGCTGGCCTCCAGTTTTGGTACGGGGGAGTTAATTCGTCATGCGCTGGATAACGACATTCGCCATATTAT -TCTCGGCATTGGCGGCAGTGCGACGGTCGACGGCGGTATGGGCATGGCGCAGGCGCTCGGTGTGCGTTTCCTTGA -TGCCGACGGTCAGGCGCTGGCGGCAAACGGTGGTAATTTAGCGCGCGTGGCAAGCATTGAGATGGATGAATGCGA -TCCGCGTCTGGCGAATTGCCATATTGAAGTAGCATGTGACGTTGATAACCCGCTGGTAGGGGCACGCGGCGCGGC -GGCGGTGTTTGGCCCGCAAAAAGGGGCAACGCCGGAGATGGTCGAAGAACTTGAACAGGGGCTGCAAAATTACGC -CCGTGTTTTACAACAGCAAACTGAAATTAATGTCTGCCAGATGGCGGGCGGCGGCGCTGCGGGCGGTATGGGTAT -TGCGGCGGCGGTATTTCTCAATGCGGATATTAAACCGGGCATTGAAATTGTGTTGAATGCGGTCAATCTTGCGCA -GGCAGTGCAGGGCGCAGCACTGGTGATTACCGGGGAAGGGCGCATCGACTCGCAAACGGCAGGCGGTAAAGCGCC -GCTGGGTGTGGCGTCGGTGGCGAAGCAGTTTAATGTACCGGTGATTGGGATTGCTGGCGTATTGGGTGATGGCGT -GGAAGTGGTGCACCAGTACGGCATTGACGCGGTATTCAGCATTTTGCCTCGTCTGGCACCTTTAGCCGAAGTGCT -CGCCAGCGGTGAAACCAATCTCTTCAACAGCGCGCGAAATATTGCCTGCGCCATTAAAATAGGTCAGGGAATTAA -AAACTAACCCTTACCTTTAAAGCGGATGCGATTTATATCGCATAAGAGTGCAGTACTCATGCCGGATGCGGCATG -AGTACCATATCCTTCCTGAAAATCGCGCAAATTCTATATATTGCAGAGATCATGTAGGCCTGATAAGCGAAGCGC -ATCAGGCAATGTTACAAAAAAAGCCACGGTATAAACCGTGGCAAAATCCAACATAGCTAAAAATAATCAGGCGAG -TGGTATGACTTAAATCTCTACGTCGCGGTTACAATCTTTCGAGTAAATATAGCTGAACGCTTCACCACGCCCTAC -ACCATAACCAGCCTGTAAAGAATAAGCGCCCATAAAGATGTAATCGCCTTTTTTCACCGGGATCCAGTTATTGTC -GAGGTTATAAACCCCCTGACCGGAAAGAATATAGGCACCGTGTTCCTGAACGTGTGTTTCGATATAACCGTGGCT -GGCACCTGGTGCAAAAGAGAGGATATGCATGTTCATATCAAAACCTAACTCTTTGGGCAGAAAATCCAGCAGAAT -AACATCGTCCATGCCTTCATAATGAATGCGTTCCAGTTCGCTGGCATTGCCAGAAACCAGCCACGGTGCATAGCC -TTCTACCGGAACATAGCGGCGCTTATATAAAAAGATTTGGCTGTCTTCGGCCTGGGCGTTAACAAACGTCATTAA -GGAGCCTGGCGGGCAATAAAGATAGCCACCTTCGCTTAAGGCAAATGTTTTGCCTTCGGCTTTGGCAGTGATATT -TCCAGAGATCACATACAGGAACGTTTCAATGCCTTCGCCACCGAAGCCCTGTTGGTTGCCACCGTTTTGATGCAG -TGTGACCAGATAATCAACAAAAGAGGCACCCAGCTTTGGCGTGGAGAGGATTGTCGCGTCACAATTTTCAAAGCC -CGGAATAATATTTTTTACCAGACCATCCGGGGTTAACAGTGCGAAATTACCGTGTTTAACAATCGCACGGTTAGC -CAGTAAATCTTCGCGGTAACCGGTGACGTTATTTAAATATCCCATTTATGACTCCTTATTTCTGCCAGGCAAGTT -GATAAAGCATGAGTGCCAACGTTTTGACCCCTTCGGCAAGGTCGGTAATATTGGTGCGTTCCGCCGGGTTATGGC -TGATCCCGTTGATGCTGGGGATAAAAATCATGCAGGTTGGTACGCGAGGCGCGAAAATTTGCGCGTCGTGCCCGG -CACCACTGTGCATCACCCGGTAATTCAGTTTTTCTCTTTCACACAATTCTGTCAGGGTGGCGACCAGCTCCTTAT -TCATCGGCACGGGTTCTTCGTCCATCCATAAATCGATATCAATACCAATGTCCATTTCATCGCAAATCGCCCGCA -TGTCGTTTTCTAACTGTTGGGTGAAATCGCGCAGCACGGCAGCGTCGGTATGACGACAATCAATGGTGAACGTGG -TTTTACCCGGCACCACATTTACCGTATTCGGGCGCGGCTCTACTTTGCCAAAGGTCAGAACCAGCGGATCGCCCA -TCCTTTTCGCTTTTTCGACCGACTGATGGCAAATGCGACTGAAAGCGTAAACTGTATCACGACGATAACCCATCG -GCGTGGTGCCTGCATGGTTTGATTCGCCGTTCAGCGTTACCGTATAACGACGCTGCCCGACAATTGCATTCACCA -CGCCAATTGATTGCCCATTACTTTCCAGCACACAGCCCTGTTCAATATGCAGTTCAACAAAGGCTTTAATATCCT -GACGCGGAGTTAGTGGGGCGTTCGGAAGAGTAAATCCGCAAGCCTTCATCGCATCGACAAAACTATTTCCTTTGG -CATCACAGATATTCCGCACGTCGTCAGGATTCGCCAGCCCAAAAATATTTTTACTGCCCCAGAAGACATACGGGA -AGCGGCTGCCTTCTTCTTCTGCCATCGCCACCACTTCGACCGTACGTAGCGGCGCGCCGTATTGCGTTTTCAGCC -AGTCAATTGCCAGCCACGCCGCCAGCGCGCCGAATTGCCCGTCAAGGTTACCGCCGTTAACCACGGTATCGATAT -GCGAACCGCTCAGAACCACTTCCTGTGGATATTCGGTGCCATTCAGGCGACCGTATAAATTCCCCACTTCATCGA -AACGTGTTTCCAGCCCGCTTGCTGCCATTCTTTTTTTAAATTGCTGCTGGGTTTCCAGCCATTCCGGCGAATAAA -GTAAACGGGTCATCCCACCCGCTGGGTCAGCGCCAAAAGAGGAAAGCCAGGGCAGCGTTTCTTCTATAGCTTGAC -GGAAATGTGTAATCATAAGAAAGTCCTGTCTCAATAATTATTGCGCAAAGGGATTTTTCGTTTCGTATGACGTGT -TATAAAGCGCGTCGGAAATTAAATACTGGTAAATATCATCAACAATTTCGATGCCTTCGACGGCGGCTTTGCGTT -GTTTAATATCCTGATCCTGTCCGGGATAATAAACCTGATTAAAACCGGGCGCGGGGGTAATGGCATTTAATTCGC -GCATGGTCTGGCTAAGATGTTGACGGAATAATTCGCTGGAGGAGAAAAAGTTCGGATTAATAACTATATGTAATT -GCCCCAAATTACGCCCTGCGTGTAAATCGTCATACATCGAACTAACCTGTCGCCCGAACGGTAAGCCGAGTAAGA -CGCCTGAGAGGACGTCAATCATCATCATCAGGCCATACCCTTTTGGCCCGGCGGCGGGGAGCAGAGCATGTACCG -CGAACGGATCGGTTGTTGGTACACCGTTTTTATCGACCGCCCAGGTATCCGGGATAGACATATTACGCGAGCGGG -CGTCGAGCACTTTTCCCCATGCCTGTACGGTAGTCGCCATATCAAAGGTAAGGATCTCGTCGCCTTCTCCCGGCG -CGGCAAAGGCCAGGGGGTTAGTACCGTAGTAAATTTCCGCGCCGCCAAACGGCACCACCATTGGATCGGACTGGC -ACATCGAAATGCCAATGAATCCGGCGCGGGCTGCCTGCTGCACAAAATAAGAGATTGCGCCGCTGTGACCCATCC -GGCTGATACCGACCACCGCAACGCCATTTTGCTGGGCGGTTTTGATGGCATGTTCCATACCCATTTTCGCCGCGA -CCTGTCCGGCGGCATTGTCGGCATGTAAAATTGCCGAGCACGGCCCGGTTTCCTCAAGACGAAACTCCGGTTCGC -GGTTGGTGCCGCCTTTTGAAATGCGTTCCGCGTAGTATTCCACGCGCACCGCGCCATGAGAGTGGATCCCTCTGG -CATCGGCGTAAACCAATACTTCAGCCACGGTTGCAGCGTGCTCACGTTTTAACCCAGCCTGGCAGAGTTTATTCT -CAATTAGCTGGTGGAGTGTTTCCCGACTGATTTTCATCTGTCTTCCTTTTTAACGACGGTGTGAAGCATGACTGC -AATTAACATACAGGGAAAATATCTGGATTATGTGATCCAGACAGGCAAAAAAATATAGTTAGAATTTATTTGATA -ATCCGCTCACTTTTAACCTGATTTTTAAAACAACAACGCTTATTAAAAAATAATGAGTAATAGCCTGGTGGTTAT -TTGAATTCTTTTGTTAATAATTCCTGTGTGATATTCATCACCTTATTTACTCGTTGTCATCGATACCGTAATCGC -CACATTAACACTGCTCGTGCAATTGCCATGGGTGCAATTTTTAAGGAGTTGTTATGATCCACGCCTTTATTAAAA -AAGGGTGTTTTCAGGATTCGGTCAGTTTAATGATTATTTCACGAAAACTCAGCGAATCAGAAAATGTTGATGATG -TTTCCGTAATGATGGGTACGCCCGCCAATAAAGCGTTATTAGATACCACAGGTTTCTGGCATGACGATTTTAATA -ACGCCACGCCGAACGATATTTGCGTGGCAATTCGTAGCGAAGCGGCGGATGCGGGGATCGCGCAGGCGATTATGC -AGCAGCTTGAAGAGGCGCTAAAACAACTGGCGCAGGGGTCAGGCAGCAGCCAGGCGTTGACGCAGGTGCGTCGCT -GGGACAGTGCCTGTCAGAAATTACCCGATGCCAATCTGGCGCTGATTTCAGTGGCTGGCGAGTATGCGGCGGAGC -TGGCAAACCAGGCGCTGGATCGCAACCTCAACGTGATGATGTTCTCCGATAACGTCACGCTGGAAGATGAAATCC -AACTTAAAACCCGCGCGCGGGAAAAAGGCTTGCTGGTGATGGGGCCGGACTGCGGTACGTCGATGATTGCCGGCA -CACCGCTGGCTTTTGCTAACGTGATGCCGGAAGGCAATATTGGCGTCATTGGCGCTTCCGGTACCGGGATTCAGG -AGCTGTGTTCGCAGATTGCGCTGGCAGGGGAGGGAATTACTCACGCGATTGGCCTTGGCGGGCGCGACCTCAGCC -GTGAAGTGGGCGGCATCAGTGCGCTAACAGCGCTGGAAATGCTCAGTGCAGACGAGAAAAGCGAAGTGCTGGCAT -TTGTTTCAAAACCACCTGCCGAAGCTGTGCGTCTGAAAATTGTTAATGCCATGAAAGCAACCGGCAAACCGACGG -TGGCGCTGTTTTTAGGTTATACCCCGGCGGTGGCCCGCGACGAGAATGTCTGGTTTGCCTCCTCGCTGGATGAGG -CCGCACGCCTGGCTTGCCTGCTTTCACGCGTCACGGCGCGACGTAACGCAATAGCGCCTGTCAGCAGCGGATTTA -TTTGCGGTTTGTATACCGGCGGTACGCTGGCTGCCGAAGCGGCGGGATTACTTGCCGGACACCTTGGCGTGGAAG -CCGACGATACCCATCAACATGGCATGATGCTGGACGCCGATAGCCACCAGATTATTGACCTCGGCGATGATTTCT -ACACCGTCGGGCGTCCCCATCCGATGATCGACCCAACCTTACGCAACCAGTTAATTGCCGATCTCGGCGCTAAAC -CGCAAGTGCGCGTGTTGCTGCTTGATGTCGTGATTGGCTTCGGTGCGACCGCCGATCCTGCCGCCTCGCTGGTGA -GCGCCTGGCAAAAAGCCTGTGCCGCGCGTTTAGATAATCAACCACTGTATGCCATTGCCACGGTGACAGGCACTG -AACGTGACCCGCAATGCCGCTCGCAGCAAATCGCCACGCTGGAAGATGCGGGGATTGCGGTCGTGAGTTCGCTAC -CGGAAGCCACCTTGCTGGCGGCAGCGTTAATTCATCCGCTCTCGCCTGCCGCACAGCAACACACACCGTCATTAC -TGGAAAACGTCGCCGTGATTAACATCGGATTACGCAGCTTTGCGCTGGAGCTACAAAGCGCCAGCAAACCGGTTG -TGCATTACCAATGGTCGCCAGTCGCCGGTGGCAATAAAAAACTGGCTCGTTTATTAGAACGTTTGCAATAAGGGG -TTCCCATGTTTACATCAGTGGCGCAAGCCAATGCTGCGGTTATCGAACAAATTCGTCGCGCTCGTCCACACTGGC -TGGATGTGCAACCGGCTTCTTCACTTATCAGCGAACTAAACGAAGGCAAAACACTGCTTCACGCCGGGCCGCCAA -TGCGCTGGCAGGAGATGACCGGACCCATGAAAGGGGCGTGCGTGGGCGCATGTCTGTTCGAAGGTTGGGCGAAAG -ATGAAGCGCAGGCGCTGGCAATACTGGAGCAGGGGAAGTGAACTTCATTCCTTGTCACCATGTGAATGCCGTCGG -GCCAATGGGCGGTATTACTTCTGCCAGTATGCCGATGCTGGTGGTTGAGAACGTGACCGACGGCAACCGGGCGTA -CTGCAACCTCAACGAAGGTATCGGCAAAGTGATGCGTTTTGGCGCTTACGGCGAAGATGTCCTGACTCGCCATCG -CTGGATGCGCGATGTGTTAATGCCAGTATTAAGCGCGGCGCTGGGGCGCATGGAGCGCGGTATCGATCTCACGGC -GATGATGGCGCAGGGCATTACGATGGGCGATGAGTTCCATCAACGCAATATTGCTTCCTCTGCACTGTTAATGCG -TGCGCTGGCCCCACAAATTGCTCGCCTCGATCATGATAAACAGCACATCGCCGAAGTGATGGATTTCCTCAGCGT -GACCGATCAGTTCTTCCTCAACCTCGCGATGGCTTACTGCAAGGCGGCGATGGATGCTGGCGCGATGATCCGCGC -AGGCAGCATCGTCACGGCAATGACCCGCAACGGCAATATGTTCGGGATTCGGGTAAGCGGGCTGGGCGAACGCTG -GTTTACTGCGCCTGTAAACACTCCGCAAGGTCTGTTTTTCACCGGCTTCTCGCAGGAGCAGGCGAACCCGGATAT -GGGCGATAGCGCGATTACCGAAACCTTTGGTATCGGAGGTGCGGCAATGATCGCAGCGCCTGGCGTAACGCGCTT -TGTCGGTGCGGGTGGCATGGAAGCGGCAAGAGCGGTATCTGAAGAGATGGCGGAAATTTACCTTGAACGCAATAT -GCAGTTGCAGATCCCAAGCTGGGATTTTCAGGGCGCGTGCCTGGGGCTGGACATTCGTCGCGTGGTAGAAACCGG -CATTACGCCACTCATCAATACCGGTATCGCCCATAAAGAGGCGGGGATCGGGCAGATTGGCGCAGGCACCGTGCG -GGCACCGCTGGCGTGCTTTGAACAGGCGCTGGAAGCACTGGCTGAAAGCATGGGTATTGGTTGAGGAACGCGCAA -TGACGATCATCCATCCTCTGCTTGCCAGTAGTAGCGCACCGAATTATCGCCAGTCCTGGCGGTTAGCGGGAGTGT -GGCGGCGGGCGATTAACCTGATGACGGAAAGCGGCGAACTGTTAACGTTGCATCGTCAGGGTAGTGGTTTCGGCC -CCGGAGGATGGGTGCTTCGCCGTGCGCAATTCGATGCGTTATGCGGTGGATTATGCGGCAATGAACGACCACAGG -TTGTGGCTCAAGGGATTCGCCTCGGGCGTTTCACGGTTAAACAGCCACAGCGTTATTGTTTGCTGCGTATTACGC -CGCCTGCGCATCCTCAACCACTTGCAGCTGCATGGATGCAACGCGCGGAGGAAACCGGGCTTTTCGGGCCACTGG -CGTTGGCGGCAAGCGATCCGCTGCCTGCTGAGTTACGCCAGTTTCGTCACTGTTTTCAGGCCGCGCTCAATGGCG -TTAAGACCGACTGGCGGCACTGGCTGGGTAAAGGCCCCGGATTAACGCCGAGTCATGATGACACGCTGAGCGGAA -TGCTGCTGGCGGCCTGGTATTATGGCGCTTTAGATGCGCGCTCCGGTCGTCCGTTTTTTGCCTGTTCCGACAATC -TGCAACTCGTTACCACAGCGGTGAGCGTCAGTTATTTACGTTATGCCGCGCAAGGATATTTCGCCTCGCCACTCC -TGCACTTTGTTCATGCTCTGAGTTGCCCGAAACGTACCGCTGTTGCGATTGATTCGCTGCTGGCGCTGGGGCATA -CGTCAGGGGCAGATACGCTGCTGGGGTTCTGGCTTGGCCAACAATTATTACAAGGAAAACCATGAAAACACTGGT -TGTGGCTCTTGGGGGCAACGCCTTACTCCAGCGCGGTGAGGCGCTGACGGCAGAAAATCAATATCGCAATATCGC -CAGTGCTGTACCCGCGCTGGCACGCCTGGCCCGTTCTTATCGGTTGGCGATTGTTCACGGCAACGGGCCGCAGGT -GGGGCTGCTGGCATTGCAGAATCTGGCGTGGAAAGAGGTAGAACCGTATCCGCTGGATGTGCTGGTTGCGGAAAG -CCAGGGGATGATTGGCTATATGCTGGCGCAGAGTTTGAGCGCACAGCCGCAGATGCCGCCCGTGACGACGGTGCT -GACGCGCATTGAGGTTTCGCCTGATGATCCGGCGTTTTTGCAGCCAGAGAAATTTATTGGTCCGGTTTATCAGCC -AGAAGAACAAGAGGCACTGGAAGCGGCTTACGGCTGGCAGATGAAACGTGATGGTAAATATTTGCGCCGGGTGGT -GGCGTCTCCGCAACCGCGTAAAATTCTCGACAGCGAAGCCATCGAGTTGTTGCTCAAAGAGGGGCATGTGGTGAT -TTGCAGTGGCGGCGGCGGTGTGCCTGTGACGGATGACGGAGCAGGGAGTGAAGCAGTGATTGATAAAGATCTCGC -CGCTGCGTTGCTCGCCGAGCAGATTAATGCAGATGGACTGGTGATCCTCACCGATGCTGATGCGGTATATGAAAA -CTGGGGAACGCCGCAGCAACGTGCCATTCGCCATGCCACACCGGATGAGTTAGCGCCATTTGCCAAAGCCGATGG -TTCGATGGGGCCGAATGTAACGGCGGTGAGTGGTTATGTCAGAAGCCGTGGTAAACCCGCGTGGATTGGGGCGTT -ATCGCGAATTGAAGAGACGCTGGCGGGCGAAGCGGGGACCTGTATTTCGCTGTAGTCGTAGGCATTAGACATTTG -TGCCTGATGCGACGCTTGACGCGTCTTATCAGGCCTACAACCGGTGCCGCATCCGGCAATTGGTGCACAATGCCT -GATGCGATGCTTGACGCATCTTATCAGGCCTACAATGGGTACCGGATCGGTAGGCCGGATAAGGCGTTTACGCCG -CATCCGGCAAGAATAGAGCACCAGTTAACCGAACTTACTCTGCGCCCAAATCACGCCGCTGGCATATTCCGGCGG -CAGCAGCGGGATTAAGGCTTCCAGCGTCGCAGTCAGACGCGATGTGTCGCTGTCGGTCAAATTCAGATGCCCCAC -TTTACGCCCCGGACGGACTTCTTTGTCGTACCAGTGCAGATGCACCAGCGGCAGTTTCAGCCAGTCATAATTCAC -ATCGCTACCAATCAGATTGATCATCACCGACGGATTATTCACCACTGGTTGCGGTAACGGCAGATCGGTAATCGC -CCGCAGATGCAGCTCAAACTGGCTGATGCTGGCACCGTTTTGTGTCCAGTGACCGCTGTTATGCACACGCGGTGC -CAGTTCGTTGATCAACAGACCTTGCGGGGTGACAAAACACTCCATCGCCATCACGCCCACATAGCCCAGCTCCTG -CATAATCGCCGACAGCATCTCTTCGGCTTGCGCCTGCTGCTGTGCGTTGGCCTGCGGAAAAGCGACGCTGGTGCG -CAAAATACCGTCCTGATGCAGGTTATGCGTCAGCGGATAAAACACGGTGCTGCCATCAAAGCCGCGCGCGCCAAC -CAGCGACACTTCACCAGAGAAGTTAATGCCCTGCTCGACAATACATTCGCCGTAACACTCTGCCGGTAACTGTTC -GGTTTCATTTGCGCGTAAACGCCATTGACCGCGACCGTCATAACCACCAGTGCGACGCTTAACAATCGCCAGCTC -ACCTAAACGATCAAACACCGCAGGCCACTCGCTGCGTTCGGCAAGTAACTGCCACGGTGCAGTCGGCAGGTGGAG -CTTATCGAAAAGCTGCTTCTGAGTCAGACGGTCAGCAATAATCGGGAACACATCGCGGTTCACAAAGGCCGGATG -GCGCGCCAGCTCGCGGGTTAATGCGGTTTCCGGCCAGCGTTCTATCTCAGCGGTAATCACGCTTTGTTGAAAAGG -CACCGCCGCCGGTTCAGCGTCCAGCCCGACTGGCCAGACAGCAATGCCTAACGGTTCGCCTGCCTGACGCAGCAT -ACGGCCTAACTGCCCGTTACCGAGGACGCAAACCTGTTTCATGCCGCACCTCGCGGGTCCGGGTTTTCCAGCACT -TCGTCGGTCTGGGCTTTGCGCCAGTCATTCAGACGCTGGTGCAGTTCTTTATCATGAGTCGCAAGAATTTGTGCT -GCCAGTAACGCCGCGTTTGCCGCGCCAGCTTTACCAATCGCCAGCGTACCCACCGGAATGCCGCGCGGCATTTGT -ACGATGGAGTAGAGGCTATCGACACCGCTCAGTGCGGCGCTCTGTACTGGCACGCCCAGCACCGGCACCAGCGTT -TTGGCGGCAATCATGCCTGGCAGATGCGCTGCGCCGCCTGCGCCCGCAATAATCACCTGATAACCGTTCTCTTCG -GCGCTTTCGGCGAAGCTGAACAGTTTATCGGGGGTGCGGTGAGCAGAAACCACTTCAACGTGGTGCGGGACATTC -AGGATTTCGAAGATTTCGGCGGCGAACTGCATGGTAGCCCAGTCGCTTTTGGACCCCATCACGATGGCGACACGC -GCCGGATTATTGCGGGAAGACATGCGTCTTAAAACTCCTGTGGTGCACAACTCTCGGCTTTAGAGGGCACAGAGA -ATAGCACGGAAAGAGAGCAAGGAAAACGGTTGCGTGGCTGTGAAATCAGCAAAGTTGCGGGTTTTTTAAAACGGA -AAATGAATCAGCTCAACGTCATCCGCCGTGACTTTCACCATTGAACCTTCCGTATGCCAGGCACCCAGTACCACG -CGAAAAGCAGGTTGCTGATTGGCGATAAGTTCATGCACCGCCGGGCGATGGGTATGCCCGTGGATCAGCCATTGC -ACCTGATGTTTTTCCATCGCACTGACCACCGCGTTTTGGTTAACGTCCATGATCGCCAGCGATTTACTGCTGTTG -GCTTCTTTGCTGTTCGCGCGCATTCGCGCGGCAATGCGTTTGCGCACAAACAACGGCAGGGCGAGGAATAGCGTC -TGCAGCCAGGGTTTGTGGACCTTGGCGCGAAAAGCCTGATAACCCGCGTCATCGGTGCACAGCGTGTCGCCATGC -ATAATCAACACCCGGCGACCATAAAGTTCGAGCACCTTTTCTTCCGGCAATAACGTCATGCCACTTTCACGGGCA -AAGCGTTTGCCGAGCAGAAAATCACGGTTGCCATGAATGAAATAACAGGGAACGCCGGAATCGGACACCGCTTTG -ATCGCCGCCGCCATCTTGCGATGGAGTGGGTTGGGATCGTCGTCGCCAATCCATGCTTCAAACAGATCGCCAAGA -ATATACAGCGCGTCGGCCTTGCGGGCTTCCCCCGCTAAAAAACGCAGAAAACCGGCGGTGATCGCCGGTTCTTCC -ACGCAGAGATGAAGATCTGCAATAAAGAGTGTCGCCACGATTACTCGCTAACGGTCACGCTTTCAATGATAACGT -CTTCTTTTGGCACGTCCTGGTGCATACCGCTACGACCGGTTGCAACACCTTTGATTTTGTCTACCACGTCCATGC -CGTCAACCACTTCAGCAAACACGCAGTAGCCCCAACCTTGCAGGCTTTCGCCAGAGAAGTTCAGGAAGTCGTTAT -CAACCACGTTGATGAAGAACTGTGCAGTTGCAGAGTGCGGAGCCTGAGTACGTGCCATTGCCAGCGTACCACGGG -TATTTTTCAGGCCGTTGTTGGCTTCGTTTTTGATCGGTTCTTTGGTGGCTTTTTGTTTCATGCCCGGTTCAAAAC -CGCCGCCCTGAATCATAAAGCCGTTGATAACACGGTGGAAAATGGTGTTGTTGTAAAAACCTTCGCGGCAGTAGT -CCAGGAAGTTTTTAACTGTTTCAGGTGCTTTATCGTCAAAAGTTTTGATGACAATATCGCCGTGATTGGTGTGGA -AAGTAACCATTTTTGCATCCTGTTCCGTTTGATTGGTGCTTCAACCCAGTTCGGGTCATATATAGGGTGGTGTTA -TAGCATAACCGCACGATCGGATCATCACGCAATGTATGCTGATTCGCGCGGGAAATATGGGTATTATACGCAACT -CAATTACCCACACATGTCTAAACGGAATCTTCGATGCTAAAAATCTTCAATACTCTGACACGCCAAAAAGAGGAA -TTTAAGCCTATTCACGCCGGGGAAGTCGGCATGTACGTGTGTGGAATCACCGTTTACGATCTCTGTCATATCGGT -CACGGGCGTACCTTTGTTGCTTTTGACGTGGTTGCGCGCTATCTGCGTTTCCTCGGCTATAAACTGAAGTATGTG -CGCAACATTACCGATATCGACGACAAAATCATCAAACGCGCCAATGAAAATGGCGAAAGCTTTGTGGCGATGGTG -GATCGCATGATCGCCGAAATGCACAAAGATTTTGATGCTTTGAACATTCTGCGCCCGGATATGGAGCCGCGCGCG -ACGCACCATATCGCAGAAATTATTGAACTCACTGAACAACTGATCGCCAAAGGTCACGCTTATGTGGCGGACAAC -GGCGACGTGATGTTCGACGTCCCGACCGATCCAACTTATGGCGTGCTGTCGCGTCAGGATCTCGACCAGCTGCAG -GCAGGCGCGCGCGTTGACGTGGTCGACGACAAACGCAACCCAATGGACTTCGTTCTGTGGAAGATGTCGAAAGAG -GGCGAACCGAGCTGGCCGTCTCCGTGGGGCGCGGGTCGTCCTGGCTGGCACATTGAATGTTCGGCAATGAACTGC -AAGCAGCTGGGTAACCACTTTGATATCCACGGCGGCGGTTCAGACCTGATGTTCCCGCACCACGAAAACGAAATC -GCGCAGTCCACCTGTGCCCATGATGGTCAGTATGTGAACTACTGGATGCACTCGGGGATGGTGATGGTTGACCGC -GAGAAGATGTCCAAATCGCTGGGTAACTTCTTTACCGTGCGCGATGTGCTGAAATACTACGACGCGGAAACCGTG -CGTTACTTCCTGATGTCGGGCCACTATCGCAGCCAGTTGAACTACAGCGAAGAGAACCTGAAGCAGGCGCGTGCG -GCGCTGGAGCGTCTCTACACTGCGCTGCGCGGCACAGATAAAACCGTTGCGCCTGCCGGTGGCGAAGCGTTTGAA -GCGCGCTTTATTGAAGCGATGGACGACGATTTCAACACCCCGGAAGCCTATTCCGTACTGTTTGATATGGCGCGT -GAAGTAAACCGTCTGAAAGCAGAAGATATGGCAGCGGCGAATGCAATGGCATCTCACCTGCGTAAACTTTCCGCT -GTATTGGGCCTGCTGGAGCAAGAACCGGAAGCGTTCCTGCAAAGCGGCGCGCAGGCAGACGACAGCGAAGTGGCT -GAGATTGAAGCGTTAATTCAACAGCGTCTGGATGCCCGTAAAGCGAAAGACTGGGCGGCGGCGGATGCGGCGCGT -GATCGTCTTAACGAGATGGGGATCGTGCTGGAAGATGGCCCGCAAGGGACCACCTGGCGTCGTAAGTAATTGCGC -TATTGCCGGATGCGAGTTTTCGCATCCGGTTATCGTCTGCGCCACCACAACATTCCCATCAGTAGCATCCCCGGC -AACCACACCCACATCAATTCAGAAATAATCACCTGATGCCCGTACGGCGTGGTGTAACGAGACAATGCAAACGGC -GCGACTTTTATCACCTGCCAGGGAGCGAAAAAGCGTTCATCTGACCACGGCCACAGCCAGCCAACGCCTTTACCG -CCAGTGGTTACCGAATCCAGCAAGCTGTGCGATAGCAACGAGACGGTTAAAAACAGCCAGCAGCGAATCAGCCCA -GCCCTGAACCATCGGCGTCCAATAAACACACATAACAGCGGGACAACAAACGCAAACACCAGCGAATGGGTAAAC -CCGCGATGACCAAAAACATTGCCGTAAGCAACGCCAAATTTAAACGACAATACGTCGGCGTCGGGCAGCATCGCC -AGGATGATTCCGGCAAATAACAGACGCGGAGGGATGACTTTCGAACCCAACCCTAAACCAATGCATAGGGGAACG -GCGGCGTGCGTAATAACGGTTGGCATGATGGTCGCTTCGGCAAAATGTCGATGCTATCAGCATGGATGAACGGGG -CGTAGAGGGCAAAAGTCTGAAAAGAGAACCGGCCTGTTGATACAGGCCGGGAAAGGGATCAGGCAACAACCTGTA -CGCTGTGACCTGCAAAACTCACTGTCTGACCGGCGACGATTTTGCAGCGTTTGCGCGTTTCAACCGCACCGTCGA -CTTTCACCTGGCCTTCGGCAATCGCGATTTTCGCCTGCGCGCCGCTTTCGCTCCAGCCTTCCAGTTTCAGCAAGT -CGCACAGCTCAACGTGCGGATGTTTACCTAAAGAAAATGTCGCCATGTTACTCATCCTGTGGATCATGATATTCA -ACGCACGCCTGTAGCGTGTTTTCAATCAGCGTGGCAACCGTCATCGGGCCAACGCCGCCGGGAACAGGCGTAATG -TATGAGGCGCGTTTAGCCGCGTCTTCAAACACGACGTCGCCCACAACTTTGCCATTTTCCAGACGGTTGATGCCG -ACATCAATCACAATTGCGCCTTCTTTGATCCAGTCACCGGGAATAAAGCCTGGCTTGCCAACGGCAACGATCAAT -AGATCGGCATTTTCTACGTGATGACGCAGATTTTTAGTGAAGCGGTGAGTCACTGTAGTGGTGCAACCTGCCAGC -AGCAGTTCCATGCTCATCGGGCGGCCAACGATATTCGATGCGCCAATCACCACGGCGTTGAGGCCGAAGGTATCA -ATGTTGTAACGCTCAAGCAGCGTGACGATACCGCGCGGGGTGCAGGGACGCAGACGCGGCGCGCGCTGGCACAGA -CGACCGACGTTGTAAGGATGGAAACCGTCCACGTCTTTGTCCGGATGAATACGTTCCAGCACTTTGACGTTATCA -ATACCCGCCGGTAACGGCAGTTGAACCAGAATGCCATCGATGGTGTTGTCGGCATTCAGCGTATCGATAAGCTCC -AGCAGCTCCGCTTCGCTGGTGGTTTCCGGGAGGTCATAAGAGCGGGAGACGAACCCGACTTCTTCACAAGCCTTG -CGTTTGCTTGCGACATAAATTTGCGATGCAGGGTTACTACCCACCAGCACAACGGCCAGTCCTGGTGCCCGCAGT -CCGGCTGCAATACGCGCCTGAACTTTTTGAGCAACTTCAGAGCGCACCTGCTGCGCAATCGTTTTACCGTCAATA -ATCTTTGCTGCCATCAGAGAGAGGATTCCATCTGTTACGTAGATCGAAGGGGATGCGCCTATTTTGTCAGAAGCG -GGGCGCGCTGTCAGGTTTCGTTTCAGATTTATCGCGTGAAGCGACCTCTTGCGAAGGTGAGGCGCACCGTCGCTG -AGACTGAAAGCTTCATTTTTCGTCCATGATGGCGTTGTAAATCTGGAACTGATTTATTTCCTTGTCTAAGGATTA -AGATAATTTAAGAAATACCTGACAATATAAAAAGAATTTTCAGCCTGGTAATTTACCGCTTCAGGTCTATATTTG -TGTTGAATATATTTTGCGCGGAAGTATTCATCTAACGGGGCTCTCTATTTTTTAGAATAGAGTGCATATTTTCAA -TTAAGACATTCTTAGAGGATAAAAAGGAATTTACTACTATCAGTGTCTTAAATAAAGTAATCGGTTATATACGGA -TGTGGAGTCGATAAATGAGATTGAAGGAATATATATGAAATTAAGATTTATTTCGTCTGCGCTGGCTGCCGCACT -ATTCGCCGCTACGGGTAGTTATGCTGCCGTTGTAGATGGCGGTACAATTCACTTTGAAGGCGAACTGGTGAATGC -TGCCTGTTCAGTGAATACTGACTCGGCAGACCAGGTTGTCACACTCGGTCAATATCGTACCGATATTTTCAATGC -TGTTGGTAATACCTCTGCATTAATTCCATTCACCATTCAGTTGAACGACTGCGATCCTGTTGTTGCCGCTAATGC -TGCCGTTGCATTTTCTGGTCAGGCTGATGCAATCAATGATAATTTATTGGCCATTGCATCCAGTACCAATACAAC -AACAGCAACGGGTGTCGGTATTGAAATACTTGATAATACATCCGCAATTCTCAAACCTGATGGGAATAGCTTCTC -AACCAACCAGAACTTGATCCCCGGGACCAACGTTCTTCATTTTTCTGCACGTTATAAAGGCACCGGTACAAGTGC -ATCAGCAGGGCAAGCAAATGCTGACGCGACTTTTATTATGAGATATGAATAATCAAAACCACGTTGTTTTGAATT -ATATATCACGTCTTATAACAAAGTAATGTACCGGTTGTCTGAAGCGGTATGGTGGCAATGTAAATCGAAATCATG -TTCACTTTGTATCATGCCGCTTTATTAAATGAAAAGGGAATGATGTGTTGTAAGAAACCAAAGCAATCATTTCTT -TATATTCCTTATTTTTGCCGTCAGGAATACACAAGGCGTATTAACTATGATGACTAAAATAAAGTTATTGATGCT -CATTATATTTTATTTAATCATTTCGGCCAGCGCCCATGCTGCCGGAGGGATCGCATTAGGTGCCACGCGTATTAT -TTATCCCGCTGATGCTAAACAGACTGCGGTATGGATTAGAAATAGCCATACCAATGAGCGCTTTCTGGTCAATTC -GTGGATTGAAAACAGCAGCGGTGTAAAAGAAAAGTCATTCATCATTACACCGCCACTGTTTGTTAGTGAACCCAA -AAGCGAAAATACTTTGCGTATTATTTACACCGGTCCACCGCTGGCAGCAGATCGTGAGTCTCTGTTCTGGATGAA -TGTTAAGACGATCCCTTCGGTAGATAAAAATGCATTGAACGGCAGGAATGTTTTGCAACTGGCGATTTTATCGCG -CATGAAATTATTTCTCCGTCCAATTCAATTACAAGAATTACCCGCAGAAGCGCCGGACACACTCAAGTTTTCGCG -ATCCGGTAACTATATCAATGTTCATAATCCATCACCTTTTTATGTCACCCTGGTTAACTTACAAGTGGGCAGCCA -AAAGTTGGGGAATGCTATGGCTGCACCCAGAGTTAATTCACAAATTCCCTTACCCTCAGGAGTGCAGGGAAAGCT -GAAATTTCAGACCGTTAATGATTATGGTTCAGTAACTCCGGTCAGAGAAGTGAACTTAAACTAACCGAATCATCT -GACAATATCAGAGCTAATTATGAAAATACCCACTACTACGGATATTCCGCAGAGGTATACCTGGTGTCTGGCCGG -AATTTGTTATTCATCTCTTGCCATTTTACCCTCCTTTTTAAGCTATGCGGAAAGTTATTTCAACCCGGCATTTTT -ATTAGAGAATGGCACATCCGTTGCTGATTTATCGCGCTTTGAGAGAGGTAATCATCAACCTGCGGGCGTGTATCG -GGTGGATCTCTGGCGTAATGATGAGTTCATTGGTTCGCAGGATATCGTATTTGAATCGACAACAGAAAATACAGG -TGATAAATCAGGTGGGTTAATGCCCTGTTTTAACCAGGTACTTCTTGAACGAATTGGCCTTAATAGCAGTGCATT -TCCCGAGTTAGCCCAGCAGCAAAACAATAAATGCATCAATTTACTGAAAGCTGTACCTGATGCCACAATTAACTT -TGATTTTGCAGCGATGCGCCTGAACATCACTATTCCTCAGATAGCGTTGTTGAGTAGCGCTCACGGTTACATTCC -GCCTGAAGAGTGGGATGAAGGTATTCCTGCTTTACTCCTGAATTATAATTTCACCGGTAACAGAGGTAATGGTAA -CGATAGCTATTTTTTTAGTGAGCTCAGCGGGATTAATATTGGCCCGTGGCGTTTACGCAACAATGGTTCCTGGAA -CTATTTTCGCGGAAATGGATATCATTCAGAACAGTGGAATAATATTGGCACCTGGGTACAGCGCGCCATTATTCC -GCTGAAAAGTGAACTGGTAATGGGAGACGGCAATACAGGAAGTGATATTTTCGATGGCGTTGGATTTCGTGGTGT -ACGGCTTTATTCTTCTGATAATATGTATCCTGATAGCCAGCAAGGGTTTGCCCCAACGGTACGTGGGATTGCCCG -TACGGCGGCCCAGCTAACGATTCGGCAAAATGGTTTTATTATCTATCAAAGCTATGTTTCCCCCGGCGCTTTTGA -AATTACAGATTTGCACCCGACATCTTCAAATGGCGATCTGGACGTCACCATCGACGAGCGCGATGGCAATCAGCA -GAATTACACAATTCCGTATTCAACAGTGCCAATTTTACAACGCGAAGGGCGTTTCAAATTTGACCTGACGGCGGG -CGATTTTCGTAGCGGTAATAGTCAGCAATCATCGCCTTTCTTTTTTCAGGGTACGGCACTCGGCGGTTTACCACA -GGAATTTACTGCCTACGGCGGGACGCAATTATCTGCCAATTACACCGCCTTTTTATTAGGGCTGGGGCGCAATCT -CGGGAACTGGGGCGCAGTGTCGCTGGATGTAACGCATGCGCGCAGTCAGTTAGCCGACGCCAGTCGTCATGAGGG -GGATTCTATTCGCTTCCTCTATGCGAAATCGATGAACACCTTCGGCACCAATTTTCAGTTAATGGGTTACCGCTA -TTCGACACAAGGTTTTTATACCCTTGATGATGTTGCGTATCGTCGAATGGAGGGGTACGAATATGATTACGACGG -TGAGCATCGCGATGAACCGATAATCGTGAATTACCACAATTTACGCTTTAGCCGTAAAGACCGTTTGCAGTTAAA -TGTTTCACAATCACTTAATGACTTTGGCTCGCTTTATATTTCTGGTACCCATCAAAAATACTGGAATACTTCGGA -TTCAGATACGTGGTATCAGGTGGGGTATACCAGCAGCTGGGTTGGCATCAGTTATTCGCTCTCATTTTCGTGGAA -TGAATCTGTAGGGATCCCCGATAACGAACGTATTGTCGGACTTAATGTTTCAGTGCCTTTCAATGTTTTGACCAA -ACGTCGCTACACCCGGGAAAATGCGCTCGACCGCGCTTATGCCTCCTTTAACGCCAACCGTAACAGCAACGGGCA -AAATAGCTGGCTGGCAGGTGTAGGTGGGACCTTACTGGAAGGCCACAACCTGAGTTATCACGTAAGCCAGGGTGA -TACCTCGAATAATGGGTACACGGGCAGCGCCACGGCAAACTGGCAGGCCGCTTACGGTACGCTGGGGGGCGGGTA -TAACTACGACCGCGATCAACATGACGTTAACTGGCAGCTGTCTGGCGGTGTGGTCGGGCATGAAAATGGCATAAC -GCTGAGCCAGCCTTTAGGGGATACCAATGTTTTGATTAAAGCGCCTGGCGCAGGCGGTGTACGCATTGAAAATCA -AACTGGCATTTTAACCGACTGGCGCGGCTATGCGGTGATGCTGTATGCCACGGTTTATCGGTATAACCGTATCGC -GCTTGATACCAATACGATGGGGAATTCCATCGATGTTGAAAAAAATATTAGCAGCGTTGTGCCGACGCAAGGCGC -GTTGGTTCGTGCCAATTTTGATACCCGCATAGGCGTGCGGGCGCTCATTACCGTTACCCAGGGCGGAAAACCGGT -GCCGTTTGGATCACTGGTACGGGAAAACAGTACCGGAATAACCAGTATGGTGGGTGATGACGGGCAAGTTTATTT -AAGTGGTGCGCCATTGTCTGGTGAATTACTGGTTCAGTGGGGAGACGGCGCGAACTCACGCTGCATTGCGCACTA -TGTATTGCCGAAGCAAAGCTTACAGCAAGCCGTCACTGTTATTTCGGCAGTTTGCACACATCCTGGCTCATAAAG -GAAATTATCAATAAGATAATCTGCAGATTATTATTGGCGATGGCATGTTTGTGTCTGGCAAACATATCCTGGGCT -ACTGTTTGTGCAAATAGTACTGGCGTAGCAGAAGATGAACACTATGATCTCTCAAATATCTTTAATAGCACCAAT -AACCAGCCAGGGCAGATTGTTGTTTTACCGGAAAAATCCGGCTGGGTAGGTGTCTCAGCAATTTGTCCACCCGGT -ACGCTGGTGAATTATACATACCGTAGTTATGTCACCAACTTTATTGTTCAGGAAACTATCGATAATTATAAATAT -ATGCAATTACATGATTATCTATTAGGTGCGATGAGTCTGGTTGATAGTGTGATGGATATTCAGTTCCCCCCGCAA -AATTATATTCGGATGGGAACAGATCCTAACGTTTCGCAAAACCTTCCATTCGGGGTGATGGATTCTCGTTTAATA -TTTCGTTTAAAGGTTATTCGTCCCTTTATTAACATGGTGGAGATCCCCAGACAGGTGATGTTTACCGTGTATGTG -ACATCAACGCCTTACGATCCGTTGGTTACACCTGTTTATACCATTAGTTTTGGTGGCCGGGTTGAAGTACCGCAA -AACTGCGAATTAAATGCCGGGCAGATTGTTGAATTTGATTTTGGTGATATCGGCGCATCGTTATTTAGTGCGGCA -GGGCCGGGTAATCGACCTGCTGGTGTCATGCCGCAAACCAAGAGCATTGCGGTCAAATGTACGAATGTTGCTGCG -CAGGCTTATTTAACAATGCGTCTGGAAGCCAGTGCCGTTTCTGGTCAGGCGATGGTGTCGGACAATCAGGATTTA -GGTTTTATTGTCGCCGATCAGAACGATACGCCGATCACGCCTAACGATCTCAATAGCGTTATTCCTTTCCGTCTG -GATGCAGCTGCGGCAGCCAATGTCACACTTCGCGCCTGGCCTATCAGTATTACCGGTCAAAAACCGACCGAAGGG -CCGTTTAGCGCGCTGGGGTATTTACGCGTCGATTATCAATGAGGTACGGAGAATGAGAAGAGTACTCTTTAGCTG -TTTCTGCGGGCTACTGTGGAGTTCCAGTGGATGGGCAGTTGACCCTTTAGGAACGATTAATATCAATTTGCACGG -TAACGTTGTTGATTTCTCCTGTACCGTAAACACAGCGGATATTGATAAGACGGTAGATTTAGGCAGATGGCCTAC -GACACAACTACTGAACGCTGGCGATACCACGGCACTCGTCCCTTTTAGCCTGCGGCTGGAGGGATGTCCTCCGGG -TTCAGTTGCGATTTTATTTACGGGAACGCCGGCATCCGATACCAACCTGCTGGCTCTGGATGATCCCGCAATGGC -ACAAACCGTCGCCATCGAATTACGTAATAGCGATCGCTCCCGGCTCGCACTGGGGGAGGCGAGCCCGACTGAGGA -AGTAGATGCAAATGGCAATGTCACACTAAACTTTTTTGCCAATTATCGAGCGTTAGCCAGCGGTGTTCGGCCAGG -TGTGGCGAAAGCGGATGCGATATTTATGATCAATTATAATTAATATTATATTAATTCGTATAATTTGGCGTAGTC -GATAAGCTCTACAATTGAATGCAAACCTAGCTTGCCATAAATATTAGATTTATGCGCACTAACTGTTTTATTGCT -AAGTAATAACTTATCGGCAATTTCTTTATTAGATAATCCGCTAACCAGATAACGTAATATGGTCACTTCACGATT -AGATAGCACAGTGACCGTTGAACTATTCGTACTACATTTATTGCTTTTTATATAGTTAAGCGTTTCGCTGGGAAA -AAACGTGTATCCGGAGAGGATCATCTGAACGGCATGAAAAATATCATTCTGATCATTGCATTTACTGACAAAACC -GTTAGCACCAGCTTGTATCGCTCTGCCAGCATAAAAGCATTCTGATTTCGATGATAAAAATAACACTTTCACTGT -GCTCTGGATTTGTTTGATCCTTTTCAGGAAGGTAAAACCGTCTGTTCCGGGCAAGTCTATATCCATAATGATTAA -ATCAACAGGACGGGTTCGGAGATAATCGATGGTTATGCGATAATCATCCGTTTTCAGGACAATCTGCAATTCACT -GTTTTTTTGCAACAGAACTTCAATAGACATTCTGATGATAGGATGAGTATCCATAATGATCACCGACGTTGGTTT -CATAGTTACCAGTCTCATAGGAGCGGACAATTTTCCGTTAGGTCGGGAAATTGTACTTTGATACATGAAAATACG -GGTTTTCTTGATTCAGACGCGCAGCGGTGTGCGTTTGTTTGCCGCTATAGCGAAATAAATCAGAAAATCAGACGC -GGTCGTTCACTTGTTCAGCAACCAGATCAAAAGCCATTGACTCAGCAAGGGTTGACCGTATAATTCACGCGATTA -CACCGCATTGCGGTATCAACGCGCCCTTAGCTCAGTTGGATAGAGCAACGACCTTCTAAGTCGTGGGCCGCAGGT -TCGAATCCTGCAGGGCGCGCCATTACAATTCAATCAGTTACGCCTTCTTTATATCCTCCATAATTTCAGAGTGGG -ACATATTTGGGACATTATCACCAAAAATGTCGTCTATTTTCCTCGCATGCTCTGTCAAATGATTAGGCGCAAGGT -GAGCATACCTACGAACCATTTCTATGGACTCCCATCCGCCCATTTCCTGAAGCACTGATAATGGGACGCCTGACT -GAATCAGCCAGCTTGCCCAGGTGTGTCTGAGGTCATGGAAACGGAAATCTTCAATTCCTGCACGACGACAAGCTG -ATAGCCATGATGTCTTGCTGTCGATGCGCATCTTCCTGACCGCAGGCGTTGATGTTCCATCTGCTCGCTTAGCCG -CCTTGGTATGTACAAACACCCATTTGTGATGCTTGCCTATTTGATCACGCAACACTTTACAGGCGGTATCGTTCA -GCGCCACACCAATGGCGCGGTTTGATTTGCTCTCTTCTGGATTCACCCAGGCAACTCGTCGCTGCATGTCGATTT -GTTGCCATTCCAGATTTATGATGTTCGACTTTCTCAGACCAGTTGCCAGCGCAAACTTGACGACAGATTTCAGTG -GTTCGGGGCACTCATCAATAAGGCGTTTTGCTTCCTCCTTTTCCAGCCATCTGACTCGCTTGTTTCTGACCGCTG -GTATCTTGATGACAGGCGCTTTTTCCAGCCACTTCCAGTCGCGTTCTGCAGCACGGAGAATGGCCTTTATCATGG -CAAGATGCTTTGCCTTTGTCTGAGTTGATACTGGCTTTGGTTCATAAACAGGCAGTTCTTTACCTTTCCTGATGG -CGGCCTGAACTTTCTGTTTCCATATTTCTTTCGTCTTTCTGTTATGCATTCTGCTTACAGCAGAGTAAATCTTTG -CCTCCGAGATATCTTTAAGCCTTATACCCTCAAAATGTTCAAGCCAGAACTCAATCCGGCTTTTATCTGAATCGA -GAGATTTTTTATCAGCTTTTTCCTCAAGCCATCTTAGGCAGGCCTCTTCAAAAGTGACATCAGGTAAATCCCCTA -GCTTTTCTACTCGCCAGAGTTCTGCTTTTCGCTTGTCGTGCAACTCCTGAGCTTGCCGTTTGTCCTTTGTGCCAA -GAGATTCCTTAATTCGTTTCCCGCCCGGGAGCGAATACGAGGCATACCATATTTCATTTCTGCGGAAGAGTGACA -TTTTCTTTCCTCTGTTATGCCATCACCCGCGCTCACCTGGACAGTATGCAGCGGAGACTGAAGCGCCGCAATGCA -GGCTTGCCGTGTTGTGAGGTACCCGGATATTATCGTGAGGATGCGTCATCGCCATTGCTCCCCAAATACAAAACC -AATTTCAGCCAGTGCCTCGTCCATTTTTTCGATGAACTCCGGCACCATCTCGTCAAAACTCGCCATGTACTTTTC -ATTCCGCTCAATCACGACATAATGCAGGCCTTCACGCTTCATGCGCGGGTCATAGTTGGCAAAGTACCAGGCATC -TTTTCGCGTCACCCACATGCTGTACTGCACCTGGGCCATGTAAGCCGATTTTATTGCCTCGAAACCACCGAGCCG -GAATTTCATGAAATCCCGGGAGGTACGAGTATTGCCGGAAGCGTGGCCTGTATCCGGATGCAGAGTCTTATCCGT -GGAAATCGAACGCGCATTACTGGTTGGTTACCAACTTGTACCAGAACATGCGGGCCAATGCGCTGGCTGACGCGG -AATTACGGCGCAAGGCTGCCGATGAACTGACCTGTATGACAGCGCGAATTAACCGTGGTGAGACGATACCTGAAC -CAGTAAAACAACTTCCTGTTATGGGCGGTAGACCTCTAAATCGTGCACAGGCTCTGGCGAAGATCGCAGAAATTA -AAGCTAAGTTCGGACTGAAAGGAGCAAGTGTATGACGGGCAAAGAGGCAATTATTCATTACCTGGGGACGCATAA -GAGCTTCTGTGCACAGGACGTTGCCGCGGTAACAGGCGCAACCGTAATCTGATCTTACCCAGCAATAGTGGACAC -GCGGCTAAGTGAGTAAACTCTCAGTCAGAGGTGACTCACATGACAAAAACAGTATCAACCAGTAAAAAACCCCGT -AAACAGCATTCGCCTGAATTTCGCAGTGAAGCCCTGAAGCTTGCTGAACGCATCGGTGTTACTGCCGCAGCCCGT -GAACTCAGCCTGTATGAATCACAACTCTACAACTGGCGCAGTAAACAGCAAAATCAGCAGACGTCTTCTGAACGT -GAACTGGAGATGTCTACCGAGATTGCACGTCTCAAACGCCAGCTGGCAGAACGGGATGAAGAGCTGGCTATCCTC -CAAAAGGCCGCGACATACTTCGCGAAGCGCCTGAAATGAAGTATGTCTTTATTGAAAAACATCAGGCTGAGTTCA -GCATCAAAGCAATGTGCCGCGTGCTCCGGGTGGCCCGCAGCGGCTGGTATACGTGGTGTCAGCGGCGGACAAGGA -TAAGCACGCGTCAGCAGTTCCGCCAACACTGCGACAGCGTTGTCCTCGCGGCTTTTACCCGGTCAAAACAGCGTT -ACGGTGCCCCACGCCTGACGGATGAACTGCGTGCTCAGGGTTACCCCTTTAACGTAAAAACCGTGGCGGCAAGCC -TGCGCCGTCAGGGACTGAGGGCAAAGGCCTCCCGGAAGTTCAGCCCGGTCAGCTACCGCGCACACGGCCTGCCTG -TGTCAGAAAATCTGTTGGAGCAGGATTTTTACGCCAGTGGCCCGAACCAGAAGTGGGCAGGAGACATCACGTACT -TACGTACAGATGAAGGCTGGCTGTATCTGGCAGTGGTCATTGACCTGTGGTCACGTGCCGTTATTGGCTGGTCAA -TGTCGCCACGCATGACGGCGCAACTGGCCTGCGATGCCCTGCAGATGGCGCTGTGGCGGCGTAAGAGGCCCCGGA -ACGTTATCGTTCACACGGACCGTGGAGGCCAGTACTGTTCAGCAGATTATCAGGCGCAACTGAAGCGGCATAATC -TGCGTGGAAGTATGAGCGCAAAAGGTTGCTGCTACGATAATGCCTGCGTGGAAAGCTTCTTTCATTCGCTGAAAG -TGGAATGTATCCATGGAGAACACTTTATCAGCCGGGAAATAATGCGGGCAACGGTGTTTAATTATATCGAATGTG -ATTACAATCGGTGGCGGCGGCACAGTTGGTGTGGCGGCCTCAGTCCGGAACAATTTGAAAACAAGAACCTCGCTT -AGGCCTGTGTCCATATTACGTGGGTAGGATCAACCAGCATAAATCAGGCTGCGGCTAAAATGGCGCGGGCAGGAA -TCCTGGTCGTTGATGGTAAGGTCTGGCGAACGGTGTATTACCGGTTCGCTACCAGAGAAGAATGGGAAGGAAAGG -TGAGCACGAATCTGATTTTTAAGGAGTGTCGCCAGAGTGCCGCGATGAAACGGGTATTGAGGGTATATAAAAGAA -CATCAATGGGAACACAATGATGAAACAGGTGAGTTGAGTTCAAACTGTAGTACAATTCTCTCCAGTTTGAACAGG -AAAGAATATGCTATGAACCCTTATATTTATCTTGGTGGTGCAATACTTGCAGAGGTCATTGGTACAACCTTAATG -AAGTTTTCAGAAGGTTTTACACGGTTATGGCCATCTGTTGGTACAATTATTTGTTATTGTGCATCATTCTGGTTA -TTAGCTCAGACGCTGGCTTATATTCCTACAGGGATTGCTTATGCTATCTGGTCAGGAGTCGGTATTGTCCTGATT -AGCTTACTGTCATGGGGATTTTTCGGCCAACGGCTGGACCTGCCAGCCATTATAGGCATGATGTTGATTTGTGCC -GGTGTGTTGATTATTAATTTATTGTCACGAAGCACACCACATTAAAATAATTTGTTTCTAAACGACTAAAATATG -GAGGCTCTTATATTTATATGAGCCTCGTTTTATGCTTTTTGTTAATGTCTTTATTTTTTATGTATTCTTTTGTGC -TTTCAAGATTATGGCGTAAGAAAATTGCAATACGATTATTGTTGTATATTCAAGATAATGTGACCTTAATTGTCT -TTTTAAATAAAAAATAAACAAAAATTATATCCCACCACTAAGGTTTATAAAAGCATACGTTAGCAGGTGTCACCA -TGAAAAAAGCCATAGCATATATGCGATTTTCATCACCAGGTCAGATGTCTGGCGACTCATTAAACCGACAGAGAA -GACTTATTGCTGAATGGTTAAAGGTAAATAGTGATTATTATCTTGATACCATAACATATGAAGATTTAGGATTAA -GTGCATTCAAAGGAAAGCATGCACAATCAGGAGCTTTTTCGGAATTTTTAGATGCTATAGAGCATGGTTATATAT -TGCCAGGAACTACATTGTTAGTTGAAAGTCTGGACAGACTTTCAAGAGAAAAAGTCGGTGAAGCGATTGAACGTC -TGAAATTGATTTTGAATCACGGTATTGATGTTATAACTCTTTGCGACAATACAGTCTATAATATTGACTCTTTGA -ATGAGCCATATTCATTAATAAAAGCCATACTTATAGCACAAAGGGCAAATGAAGAAAGCGAGATAAAGTCAAGTC -GGGTTAAATTATCATGGAAGAAAAAACGGCAGGATGCACTGGAATCAGGTACGATTATGACGGCGTCTTGTCCGA -GATGGCTCTCCTTAGATGACAAAAGAACGGCTTTTGTTCCAGACCCCGACAGGGTGAAAACTATTGAGCTAATTT -TTAAACTCAGGATGGAAAGGCGCTCATTGAATGCAATAGCCAAGTATTTAAATGATCATGCTGTAAAGAATTTCT -CAGGAAAAGAAAGTGCATGGGGACCTTCTGTAATTGAAAAATTATTAGCGAATAAAGCTCTGATAGGTATTTGCG -TACCTTCATATCGTGCAAGAGGGAAAGGGATAAGTGAAATCGCTGGCTATTATCCCAGAGTCATATCAGATGATT -TGTTTTACGCTGTACAGGAAATTCGGTTGGCACCTTTTGGTATTAGCAATAGTAGCAAGAATCCTATGCTAATAA -ATCTACTTCGAACAGTTATGAAGTGTGAGGCTTGTGGTAATACCATGATTGTTCATGCGGTATCTGGAAGTTTGC -ATGGCTATTATGTTTGTCCGATGAGAAGATTACATCGATGTGACAGGCCATCAATAAAAAGAGATTTGGTTGATT -ATAATATCATTAATGAATTGCTTTTTAATTGTAGCAAAATTCAACCAGTTGAAAACAAGAAAGATGCTAATGAAA -CTTTAGAGTTAAAAATTATTGAGCTTCAGATGAAAATTAATAATTTAATCGTTGCATTGTCTGTCGCGCCTGAAG -TTACCGCTATAGCAGAGAAAATAAGACTATTAGATAAGGAATTACGAAGGGCTTCGGTATCATTGAAAACTTTGA -AGAGTAAAGGTGTAAATTCATTCAGTGATTTTTATGCTATTGACTTAACCAGTAAAAATGGACGAGAGTTATGCC -GTACACTTGCCTATAAAACATTCGAAAAAATCATAATTAATACGGATAATAAAACCTGTGATATCTATTTTATGA -ATGGCATTGTTTTTAAACACTATCCTTTAATGAAAGTAATATCCGCCCAGCAGGCGATAAGTGCTCTCAAATATA -TGGTTGATGGTGAGATTTATTTCTAAATAATGATCTCGGATTTTAAGTTATGCTATGGTGATAAAGTGCAAGACA -GAATTAATTATCTTTGACGAAACTTAATGGGTAATTACTTTGTTTGCTCCCACAAGCGAGTTTTGTACGGCTGTA -TTGGGGTAGTAAATGAGCTATACAATCTTAATCATTTGTTAGGTGAGAACTCTTGGTCGCAGATTCAAATACTGA -AAATACGTGACAAATTATTATGAGCAAAATGGTGTATGTCACGTATTTTGAATGGTAGGTTAAAAAATAACACCG -ACTTTCGTAGGTGTTACTAATAATAAAGCAGAGTTTTTAGATAGTATCAATGTGCTTTGTGTATATTGTGGCAAA -TAATTGGGTTGGGGGTACAATTGTGATTGCTTTTGCATGAACATTGCGCCTTTATGCATAATGAGATAAAGGAAT -ATCAAATAAAATAACGATAGGTCATAACAAAGAGGTTTTTATGAAAACACTTATCGTTTCAACTGTATTGGCATT -CATAACATTTTCTGCGCAGGCTGCAGCATTTCAGGTCACTAGTAATGAAATAAAAACAGGAGAGCAACTTACAAC -GTCTCATGTCTTTTCTGGATTTGGGTGTGAAGGTGGTAATACATCGCCCTCATTAACCTGGTCTGGTGTTCCTGA -AGGTACCAAAAGCTTTGCCGTAACTGTATATGATCCAGATGCACCTACAGGCAGTGGTTGGTGGCATTGGACTGT -TGTTAATATTCCAGCAACAGTAACATATTTGCCCGTTGATGCAGGGAGACGTGATGGAACAAAACTGCCGACTGG -TGCTGTTCAAGGCCGAAATGATTTTGGCTATGCTGGGTTTGGTGGCGCATGTCCTCCTAAAGGAGATAAACCACA -TCATTACCAGTTTAAAGTATGGGCTCTAAAAACTGAAAAGATTCCTGTAGATTCTAACTCCAGCGGAGCGTTAGT -TGGTTATATGCTTAATGCTAATAAAATCGCAACCGCTGAGATAACACCAGTTTATGAGATAAAGTAGGGTGAGAG -TATGCTGGCAAGAGGTAAGACTAACTTAAAGATCGAAGAAATACGGATGCATAAACATCATGAGATTCATAGGGT -TAAGCCTCTTATGCCAGCTTTGTGTCGTATCCGTCAGGGAAAGAAAGTTATCAATTGGGAGACGCATACTTTAAC -TGTTGATAATAATCAAATAATATTATTTCCTTGTGGTTATGAATTTTATATTGAGAATTATCCTGAAGCAGGGCT -TTATCTTGCAGAAATGCTTTACTTACCCATTGATTTAATTGAGAGTTTCCAAAAACTTTATACGGTAACTGATCA -AATACGTAACAAAACAAGTTTCTTTTTACCTCAGAATCCTGAGTTAATATATTGTTGGGAGCAACTAAAAACATC -TGTTTCCCGAGGCTTCTCAACTAAAATTCAGGAGCACTTAGCAATGGGCGTTCTACTTTCGTTAGGAGTGAATCA -TGTTAATCATTTACTTTTATCATATAGTAAACAATCATTGATAAGTCGTTGTTATAACCTGCTGCTATCCGAACC -CGGCACAAAATGGACAGCAAACAAGGTTGCTCGATATCTCTACATTTCTGTTTCTACATTACATCGCCGTCTAGC -AAGCGAGGGGGTAAGTTTCCAAAGTATACTGGACGATGTGAGGTTAAATAATGCGTTGTCTGCTATACAAACGAC -GGTAAAACCTATAAGCGAGATTGCCAGAGAAAATGGTTATAAGTGTCCTTCTCGTTTTACTGAAAGATTTCATAA -TCGTTTTAATATAACACCAAGAGAGATAAGAAAAGCTTCCAGAGAGTAAAAGTGTTTTAAGAAGGAGCAATTCTA -TCGATTTTGATTTTGGGAAATCAACACGGCATAATTATGTCACCGGAGCCTGAACAACTCCGGTGACTTCTGCGC -TAAACGGGGACGTTTATGCGCACATACAATCCAAACTCTCTTCTCCCTTCACAGATGCAGAAATGCACCTGCAAT -TCTTTGCATCTAGCGTTTGACCTCTGCGGAGGGGAAGCGTGAACCTCTCACAAGACGGCATCAAATTACATCGCG -GCAACTTCACCGCTATCGGTCGGCAGATCCAGCCTTATCTGGAGGAGGGCAAATGCTTTCGCATGGTGCTTAAAC -CGTGGCGTGAGAAACGCAGTCTTTCCCAGAATGCACTCAGCCACATGTGGTACAGCGAAATCAGTGAATACCTCA -TCAGCAGGGGTAAAACGTTCGCCACTCCAGCTTGGGTAAAAGATGCTCTCAAACACACATATCTCGGTTATGAAA -CCAAAGACCTGGTTGATGTCGTAACCGGTGATATCACCACTATCCAGTCGTTACGCCATACCTCCGATCTTGATA -CCGGAGAGATGTATGTCTTCCTGTGTAAGGTTGAAGCCTGGGCGATGAATATTGGTTGCCACCTGACTATTCCAC -AGAGCTGCGAGTTCCAGCTGCTGCGCGACAAGCAGGAGGCGTAATGGCTACACCGCTTATTCGTGTCATGAACGG -ACACATCTACAGAGTACCAAATCGTCGTAAGCGTAAACCTGAGCTGAAGCCATCCGAAATACCAACACTGCTCGG -ATATACCGCCAGCTTGGTTGATAAAAAATGGTTGCGACTGGCAGCAAGGAGGAGTCATGGCTGATTTGAGAAAAG -CAGCGCGTGGTCGGGAATGCCAGGTAAGAATCCCTGGCGTATGTAATGGCAACCCTGAAACGTCTGTACTGGCAC -ATATCCGGCTGACTGGATTGTGCGGCACCGGTACGAAACCGCCAGACCTGATTGCCACCATTGCATGTTCTGCCT -GCCACGACGAAATCGACCGCCGCACGCATTTTGTTGACGCTGGATATGCAAAAGAATGCGCGCTGGAAGGTATGG -CGAGAACACAGGTTATCTGGCTGAAAGAGGGGGTTATTAAGGCGTGAATACCTACAGCATCACATTACCCTGGCC -TCCGAGCAATAATCGCTATTACCGCCATAATCGCGGGCGCACGCACGTCAGCGCAGAGGGGCAGGCATACCGCGA -TAACGTCGCCCGAATCATTAAAAACGCAATGCTGGATATCGGCCTGGCTATGCCTGTGAAAATCCGCATTGAGTG -CCACATGCCGGATCGCCGTCGCCGTGACCTGGATAATCTGCAAAAAGCCGCTTTTGACGCACTCACTAAAGCAGG -TTTCTGGCTGGATGATGCTCAGGTCGTTGATTACCGCGTTGTGAAGATGCCTGTTACCAAAGGTGGGAGGCTGGA -ACTGACCATCACCGAAATGGGGAATGAATGATGTTTGAGTTTAATATGGCAGAACTTCTTCGCCACCGCTGGGGG -CGTCTGCGCTTATATCGTTTCCCCGGTTCTGTTTTGACCGATTACCGAATACTGAAGAATTACGCCAAAACCCTG -ACAGGAGCAGGAGTATGAAGTCAGAGATAACAATCAACTAATACTGTTTTGTTGATTTTTGCTTGTAATTGGCGT -TCTGGTCTGATTTTTGTGGAGTAAGTTGATGCGTGATATTCAGATGGTTCTTGAGCGTTGGGGAGCGTGGGCGGC -TAATAATCATGAAGATGTGACCTGGTCGTCCATTGCCGCCGGTTTTAAGGGATTAATTACTTCAAAAGTAAAATC -TCGCCCGCAATGTTGTGACGATGACGCGATGATCATTTGCGGGTGCATGGCCCGTCTGAAAAAGAACAACAGCGA -TTTGCACGATTTATTAGTAGATTATTATGTAGTCGGTATGACATTCATGTCACTGGCAGGTAAGCATTGCTGCTC -TGATGGTTATATCGGGAAAAGGTTACAGAAGGCTGAGGGCATAATTGAAGGGATGTTAATGGCATTAGATATCCG -GTTAGAGATGGATATCGTTGTTAATAACTCTAATTAATATGCCAATTGTTTACTAAAAATTATTAAAAATGGGGC -GTTGAGACGCCCCCAAAAATAAAGGGTAATATATAACAGAAGGTTTATATAGTTAGAAGCAAGGTTGTGCTTCTA -AAGGAAGTGGCTTGAGGGAGCCACTTATATGTTGGGGAGGCAACGCCTCCCGCAACATATCTTTTTCGTAATCAG -ATTAGAACTGGTAAACCAGACCTACAGCAACGATGTCATCAGTGCTTACACCGAGTGCTTTAGGGAAGGTGCGAA -TAAGCGGGGAAATTCTTCTCGGCTGACTCAGTCATTTCATTTCTTCATGTTTGAGCCGATTTTTTCTCCCGTAAA -TGCCTTGAATCAGCCTATTTAGACCGTTTCTTCGCCATTTAAGGCGTTATCCCCAGTTTTTAGTGAGATCTCTCC -CACTGACGTATCATTTGGTCCGCCCGAAACAGGTTGGCCAGCGTGAATAACATCGCCAGTTGGTTATCGTTTTTC -AGCAACCCCTTGTATCTGGCTTTCACGAAGCCGAACTGTCGCTTGATGATGCGAAATGGGTGCTCCACCCTGGCC -CGGATGCTGGCTTTCATGTATTCGATGTTGATGGCCGTTTTGTTCTTGCGTGGATGCTGTTTCAAGGTTCTTACC -TTGCCGGGGCGCTCGGCGATCAGCCAGTCCACATCCACCTCGGCCAGCTCCTCGCGCTGTGGCGCCCCTTGGTAG -CCGGCATCGGCTGAGACAAATTGCTCCTCTCCATGCAGCAGATTACCCAGCTGATTGAGGTCATGCTCGTTGGCC -GCGGTGGTGACCAGGCTGTGGGTCAGGCCACTCTTGGCATCGACACCAATGTGGGCCTTCATGCCAAAGTGCCAC -TGATTGCCTTTCTTGGTCTGATGCATCTCCGGATCGCGTTGCTGCTCTTTGTTCTTGGTCGAGCTGGGTGCCTCA -ATGATGGTGGCATCGACCAAGGTGCCTTGAGTCATCATGACGCCTGCTTCGGCCAGCCAGCGATTGATGGTCTTG -AACAATTGGCGGGCCAGTTGATGCTGCTCCAGCAGGTGGCGGAAATTCATGATGGTGGTGCGGTCCGGCAAGGCG -CTATCCAGGGATAACCGGGCAAACAGACGCATGGAGGCGATTTCGTACAGAGCATCTTCCATCGCGCCATCGCTC -AGGTTGTACCAATGCTGCATGCAGTGAATGCGTAGCATGGTTTCCAGCGGATAAGGTCGCCGGCCATTACCAGCC -TTGGGGTAAAACGGCTCGATGACTTCCACCATGTTTTGCCATGGCAGAATCTGCTCCATGCGGGACAAGAAAATC -TCTTTTCTGGTCTGACGGCGCTTACTGCTGAATTCACTGTCGGCGAAGGTAAGTTGATGACTCATGATGAACCCT -GTTCTATGGCTCCAGATGACAAACATGATCTCATATCAGGGACTTGTTCGCACCTTCCTTAGTGAAGTCATTTTT -GTCAAGCAGGTTGATTTTGTAATCAACGAAAGTAGACATATTTTTGTTGAAGTAATAGGTTGCACCTACATCAAC -ATATTTGACTAAGTCCTGATCGCCCCATACTCCAAGATCCTTACCTTTAGATTGCAGGTAAGCAACGGACGGACG -CAGACCGAAATCGAACTGATATTGTGCAACAGCTTCGAAGTTTTGGGCTTTATTAGCAACGAAGTGATCAGCAAA -TACAGTCATATTCTGGGTTTCAGAATAGGTAGTGGCCAGGTAAATGTTGTTAGCGTCATATTTCAGACCTGCGGC -CCAAACTTCTGCATTTTTACCGGAAGCAAATACTTCAGGAAGAACTTTCCCTGCATTAACTTGAGTGTCGGTACG -ATCAGATTTCGCATAAGTTGCACCGATACCGAATCCTTCGTATTCATAGGTAGCAGAGAAACCGAAGCCATCACC -GTTACCTTCAGTGTAGTTATCGAAATCGCTACGATCGTTTTTGCCTTGGTACTGAGCAGCAAAGTTCAGACCATC -AACCAGACCAAAGAAGTCGTTGTTACGATAGGTTGCAACACCAGTTGCACGTTGAGTCATGAACACGTCGGTTTG -AGTCCAAGTGTCACCACCGAATTCTGGCAGGACGTCAGTCCACGCACCGATGTCGTATGCTACACCGTAGTTACG -GCCGTAATCGATGGAGCCGTAGTCACCGAATTTCAGGCCAGCGAAGGCAAGACGGGTTTTATCTTTGGAGGAACC -TTGAGATTCAGCGCGGTTGCCTTTGAATTCATATTCCCACTGACCGAAACCAGTCAGTTGATCGTTGATTTGGGT -TTCACCTTTGAAGCCAAGACGGGCATAAGTAGTATCACCATCATCTGCATCATTAGAGGAGAAGTAGTGCTTAGC -ATTAACTTTCCCGTACAGATCCAGCTTGTTACTGTCTTTATTATAAATTTCAGCTGCCTGAGCAGACATCGCCAT -TAGTACTGATGCAGCTACAGCAGAAATTGCCACTGTTAATTTTTTCATCGTGAGCCCTTTTTTTGAACTATTATT -AAAAAATGATGTCACTGCGCGATAAATATTCATCTAATCAATGTGATTATTTCAAGATGTAAGTTTTGGTTTCTC -GTTTGATTTGTGAAGTAGATCTCTATTTTTATCTGAACTTTTTTCTATCGAATCCTATTCATGGCTCTTGGCTGA -ATAAAAATAAATCTATTAGCCAATTTATATTAACGGCTGTTATTTATAAGTGCTCTATAATTTGAAGGTTCAATT -TAAACCGGCTAAAAATAACACTGGAAATTATTTTTTGGTTATTTGTTGAGATTTGCTTATGTATTTGTAGTGGTG -TTTTCAATACTCGGTAGCATTCTCTCAAATATCATTTAGTGGTTTACGTACGTAAAAAATTGGTTATGCTGTTAA -GAGTGGTTACTTCGTCACACAGCTTAAACCCGCCGTCGAGCGGGTTTTTCCATTTTTTGAGTCTCGATATTAGCT -GATAACCCAATACCTGAGTTATTCACTGACTCCGAGTCTGTTACGTTTCGTAGTATTCCCTCAATTTACACCCGC -TTTGTCTGCGAGGTGGGGTTATGAAATCCATGGATAAGTTAACAACGGGTGTCGCCTATGGCACCTCAGCAGGTA -GTGCCGGGTACTGGTTTTTACAGCTGCTAGATAAAGTCACTCCCTCACAGTGGGCAGCAATAGGTGTGCTGGGTA -GCCTGGTATTTGGCCTGCTGACGTACCTGACAAACCTTTATTTCAAGATTAAAGAAGATAAGCGCAAGGCTGCGA -GAGGTGAATAATGCCTCCATCATTACGAAAAGCCGTTGCTGCTGCTATTGGTGGCGGAGCAATTGCTATAGCATC -AGTGTTAATCACTGGCCCAAGTGGTAACGATGGTCTGGAAGGTGTCAGCTACATACCATACAAAGATATTGTTGG -TGTATGGACTGTATGTCACGGACACACCGGAAAAGACATCATGCTCGGTAAAACGTATACCAAAGCAGAATGCAA -AGCACTCTTGAATAAAGACCTTGCCACTGTCGCCAGACAAATTAACCCGTATATCAAAGTCGATATACCGGAAAC -AACGCGCGGCGCTCTTTACTCATTCGTTTACAACGTGGGTGCTGGCAATTTTAGAACATCGACGCTTCTTCGCAA -AATAAACCAGGGCGATATCAAAGGCGCATGTGATCAGCTGCGTCGCTGGACATACGCTGGCGGTAAGCAATGGAA -AGGCCTGATGACTCGTCGTGAGATTGAGCGTGAAGTCTGTTTGTGGGGGCAACAGTGAGCAGAGTAACCGCGATT -ATATCCGCTCTGATTATCTGCATCATCGTCAGCCTGTCATGGGCGGTCAATCATTACCGTGATAACGCAATCGCC -TACAAAGTCCAGCGCGACAAAAATGCCAGAGAACTGAAGCTAGCGAACGCGGCAATTACTGACATGCAGATGCGT -CAGCGTGATGTTGCTGCGCTCGATGCAAAATACACGAAGGAGTTAGCTGATGCGAAAGCTGAAAATGATGCTCTG -CGTGATGATGTTGCCGCTGGTCGTCGTCGGTTGCACATCAAAGCAGTCTGTCAGTCAGTGCGTGAAGCCACCACG -GCCTCCGGCGTGGATAATGCAGCCTCCCCCCGACTGGCAGACACCGCTGAACGGGATTATTTCACCCTCAGAGAG -AGGCTGATCACTATGCAAAAACAACTGGAAGGAACCCAGAAGTATATTAATGAGCAGTGCAGATAGAGCTGACCA -TATCGATGGGCAACTCATGCAATTATTTTGAGCAATACACACGCGCTTCCAGCGGAGTATAAATGCCTAAAGTAA -TAAAACCGAGCAATCCATTTACGAATGTTTGCTGGGTTTCTGTTTTAACAACATTTTCTGCGCCGCCACAAATTT -TAGCTGCATCGACAGTTTTCTTCTGCCCAATTCCAGAAACGAAGAAATGATGGGTGATGGTTTCCTTTGGTGCTA -CTGCTGTCTGTTTGTTTTGAACAGTAAATGTCTGTTGAGCACATCCTGTAATAAGCAGGGCCAGCGCAGTAGCGA -GTAGCATTTTTTTCATGGTGTTATTCCCGATGCTTTTTGAAGTTCGCAGAATCGTATGTGTAGAAAATTAAACAA -ACCCTAAACAATGAGTTGAAATTTCATATTGTTAATATTTATTAATGTATGCCAGGTGCGATGAATCGTCATTGT -ATTCCCGGATTAACTATGTCCACAGCCCTGACGGGGAACTTCTCTGCGGGAGTGTCCGGGAATAATTAAAAACGA -TGCACACAGGGTTTAGCGCGTACATGTATTGTATTATGCCAACACCCCGGTGCTGACACGGAAGAAACCGGACGT -TATGATTTAGCGTGGAAAGATTTGTGTAGTGTTCTGAATGCTCTCAGTAAATAGTAATGAATTATCAAAGGTATA -GTAATATCTTTTATGTTCGTGGATATTTGTAATCCATCGGAAAACTCCTGCTTTAGCAAGATTTTCCCTGTATTG -CTGAAATGTGATTTCTCTTGATTTCAACCTATCATAGGACGTTTCTATAAGATGCGTATTTCTTGAGAATTTAAC -ATTTACAACCTTTTTAAGTCCTTTTATTAACACGGTGTTATCGTTTTCTAACACAATGTGAATATTATCTGTGGC -TAGATAGTAAATATAATGTGAGACATTGTGACGTTTTAGTTCAGAATAAAACAATTCACAGTTTAAATCTTTTCG -CACTTGATCGAATATTTCTTTAAAAATGGCAACCTGAGCCATTGGTAAAACCTTCCATGTGATACGAGGGCGCGT -AGTTTGCATTATCGTTTTTATCGCTTCAATCTGGTCTGACCTCTTTGTGTTTTGTTGATGATTTATGTCAAATAT -TAGGAATGTTTTCAATTAATAGTATTGGTTGCGTAACAAAGTGCGGTCCTGCTGGCATTCTGGAGGGAAATACAA -CCGACAGATGTATGTAAGGCCAACGTGCTCAAACCTTCATACAGAAAGATTTGAAGTAATATTTTAACCGCTAGA -TGAAGAGCAAGCGCATGGAGCGACAAAATGAATAAAGAACAATCTGCTGATGATCCCTCCGTGGATCTGATTCGT -GTAAAAAATATGCTTAATAGCACCATTTCTATGAGTTACCCTGATGTTGTAATTGCATGTATAGAACATAAGGTG -TCTCTGGAAGCATTCAGGGCAATTGAGGCAGCGTTGGTGAAGCACGATAATAATATGAAGGATTATTCCCTGGTG -GTTGACTGATCACCATAACTGCTAATCATTCAAACTACTTAACCTGTGACAGAGCCAACACGCAGTCTGTCACTG -TCAGGAAAGTGGTAAAACTGCAACTCAATTACTGCAATGCCCTCGTAATTAAGTGAATTTACAATATCGTCCTGT -TCGGAGGGAAGAACGCGGGATGTTCATTCTTCATCACTTTTAATTGATGTATATGCTCTCTTTTCTGACGTTAGC -CTCCGACGGCAGGCTTCAATGACCCAGGCTGAGAAATTCCCGGACCCTTTTTGCTCAAGAGCGATGTTAATTTGT -TCAATCATTTGGTTAGGAAAGCGGATGTTGCGGGTTGTTGTTCTGCGGGTTCTGTTCTTAGTTGACATGAGGTTG -CCCCGTATTCAGTGTCGCTGATTTGTATTGTCTGAAGTTGTTTTTACGTTAAGTTGATGCAGATCAATTAATACG -ATACCTGCGTCATAATTGATTATTTGACGTGGTTTGATGGCGTAGATGCACGTTGTGACATGTAGATGATAATTA -TTATCATTTTGTGGGTCCTTTCCGGCGATCCGACAGGTTACGGGGCGGCGACCTCGCGGGTTTTCGCTATTTATG -AAAATTTTCCGGTTTAAGGTGTTTCCGTTCTTCTTCGTCGTAACTTAATGTATTTATTTAAAATACCCCCTGAAA -AGAAAGGAAACGACAGGTGCTGAAAGCGAGCTTTTTGGCCTCTGTCGTTTCCTTTCTCTGTTTTTGTCCGTGGAA -TGTGCAATGGAAGTCAACAAAAAGCAGCTGGCTGACATTTTCGGTGCGAGTATCCGTACCATTCAGAACTGGCAG -GAACAGGGAATGCCCGTTCTGCGAGGCGGTGGCAAGGGTAATGAGGTGCTTTATGACTCTGCCGCCGTCATAAAA -TGGTATGCCGAAAGGGATGCTGAAATTGAGAACGAAAAGCTGCGCCGGGAGGTTGAAGAACTGCTGCAGGCCAGC -GAGACAGATCTCCAGCCAGGGACTATTGAGTACGAACGCCATCGACTTACGCGTGCGCAGGCCGATGCACAGGAG -CTGAAAAATGCCAGAGACTCCGCTGAAGTGGTGGAAACCGCATTCTGTACTTTCGTGCTGTCGCGGATCGCAGGT -GAAATTGCCAGTATTCTCGACGGGATCCCCCTGTCGGTGCAGCGGCGTTTTCCGGAACTGGAAAACCGACATGTT -GATTTCCTGAAACGGGATATCATCAAAGCCATGAACAAAGCAGCCGCGCTGGATGAACTGATACCGGGGTTGCTG -AGTGAATATATCGAACAGTCAGGTTAACAGGCTGCGGCATTTTGTCCGCGCCGGGCTTCGCTCACTGTTCAGGCC -GGAGCCACAGACCGCCGTTGAATGGGCGGATGCTAATTACTATCTCCCGAAAGAATCCGCATACCAGGAAGGGCG -CTGGGAAACACTGCCCTTTCAGCGGGCCATCATGAATGCGATGGGCAGCGACTACATCCGTGAGGTGAATGTGGT -GAAGTCTGCCCGTGTCGGTTATTCCAAAATGCTGCTGGGTGTTTATGCCTACTTTATAGAGCATAAGCAGCGCAA -CACCCTTATTCCAGCTGGCTTCGTGGCTGTTTTCAACAGTGATGAGTCATCGTGGCATCTCGTTGAAGATCATCG -GGGTAAAACGGTTTATGACGTAGCGTCAGGGGACGCGTTATTTATTTCTGAACTCGGTCCGTTACCGGAAAATGT -TACCTGGTTATCGCCGGAAGGGGAGTTTCAGAAGTGGAACGGTACAGCCTGGGTGAAAGATGCAGAAGCAGAAAA -ACTGTTCCGGATTCGGGAGGCGGAAGAAACAAAAAACAGCCTGATGCAGGTAGCCAGTGAGCATATTGCGCCACT -TCAGGATGCTGTAGATCTGGAAATCGCAACGGAGGAAGAAACCTCATTGCTGGAAGCCTGGAAAAAATATCGGGT -GTTGCTGAACCGTGTTGATACATCAACTGCACCTGATATTGAGTGGCCTACGAACCCTGTCAGGGAGTAATCATT -GGGATTATGCCGCAGCACGTCTTAAGCAAGAACATGCTGCGGTTGGATGCTATTTTTTTCCTGAAGCGGAAAACA -TTACTACAGTACCTTGAACCTTGGTTTTAACATTCTCGAAATGCTCTGAGAGTATATGTGTTAAGCCTTCTTCGG -AATCTTTTGTGTTTGAAAAGATGCCTTTCTGATTGTAAATGCGCATCAGTTTTTGACCGAAGCTATTGTGCACAA -CTCCATCGCCAAGAATTGTGGCTCCGTATAGAGTTCCATCGTCAGTTAAGGCCTGCGCCGCATTGCGTATTACAC -AGCTTTTTGTAGATATATTTCCAGGCAGGCAGTGAAGAAGGTAAGACATGGAAATGGAATCAAATTGACCATGTA -ACGCCGCGGGATAAGGTTCAAAAACATCATGGCTAATTTTATGTTTAATTTTTGATTCCCCAGCCCTTGTAGATG -CCGCGTTCAGGCTAGCTTCGTTCAAATCCATTAAAGATATCAGACTACTCTCAGGTACGTGAGTAAGGTAAAACC -CAGTTCCAACACCAATATCCAGATGGTTGTTACCTAAATGTTCCAGAAAGTGTGGAAGAAGGTGTTCCTTTGTAG -GACATCCCCATGCAAGCCGATTTGATACTCCCAAAACCCACCAGTCATAAAGCTTTAGGGTAAGTGGTGTGTAAA -TTCTAGCCCCATCATCTGTGTTTTTTTATTAATTTCACCATGTTATAGTTTTATTTGTGAATTAAATCAATTATG -GCAATGAATTACAAGGGGTTAAATGCTGCCGCAGCATAGCGATATTGAAATAGCCTGGTATGCTTCAATACAGCA -GGAGCCGAATGGCTGGAAGACCGTCACCACACAGTTCTACATCCAGGAATTCAGTGAGTATATTGCGCCACTGCA -GGATGCTGTAGATCTGGAAATCGCAACGGAGGAAGAAAGATCGTTGCTGGAAGCCTGAAAAAAGTATCGGGTGCT -GCTAAACCGTGTGGACACTTCCGTAGCACCAGATATCGAGTGGCTTATTCAACCATAATAAACAGTATGTATATC -ATAGGTTATTAATTGTGAGTTTTTTCGGTGTGTTATTTGTTTGTTTGATGTTATGCTTTTGCGCCCCAAAAGGTT -GTTTAGATGTATTTTATCAATTGATTTTCAATATCGTTTAATAAAGAAAAATTAAGCAAGCTGGATGTTGGTTTT -TTGTTAATTGAATGGTTCTAATAATGTTTTTTTACTGTTGTTGAATGTGACTTGATAAGAAATGCAAGTAAAAAT -GATACTCTTTTTATTTTAAATTCAAACGGTTGACATATATATAGCAAGAGGTTTCAGGTGCGTTGTAGTGAGTTT -ATGTTAATAAAAAGCATAGTAAGCGTTGAAAAATGTAACTTTGAAATAAGTTAGAATAAAAAACAACATACATAT -AATAATTTAATCTTAAATGAAATTTATTAAAATTTGCAAACTATAATTTTGTGTATAAAAATATAAATGCACATC -ATCCTGATTATGATTGTGTATTTAATTGGTTGTTATTTGACTACTATCAACTTGTTTTAATTTTATGATAGGTGC -AAGATGGATTATGTTTGCTCCGTAGTTTTCATCTGTCAATCATTTGATTTAATTATAAACAGGAGAGTTATCTCG -TTCAAAAAAAATTCATTGTTTATTGTAAGCGACAAAATTAGAAGGGAGTTACCAGTATGCCCCTCTAAACTAAGA -ATTGTTGATATAGATAAGAAAACATGTTTATCCTTTTTTATCGACGTGAATAATGAGCTGCCTGGCAAATTTACT -CTTGATAAGAATGGCTATATTGCTGAAGAGGAACCTCCATTATCGCTTGTTTTTTCTCTGTTTGAAGGGATTAAA -ATAGCAGACTCACACTCCCTTTGGTTAAAAGAAAGACTATGTATATCCTTACTTGCCATGTTCAAAAAACGCGAA -AGTGTAAATTCATTTATACTAACAAATATAAATACATTTACCTGTAAAATTACTGGAATAATCAGTTTTAATATT -GAGCGGCAATGGCATTTAAAAGATATTGCGGAATTGATTTATACGAGTGAAAGTTTAATAAAAAAAAGATTAAGG -GATGAAGGAACGTCATTTACTGAAATATTGAGAGATACTAGGATGAGGTATGCAAAAAAACTCATAACTTCAAAC -TCTTATTCTATCAATGTCGTAGCCCAGAAATGTGGCTATAACAGTACTTCATATTTCATATGTGCATTTAAAGAT -TATTATGGTGTCACGCCATCTCATTATTTTGAGAAAATAATCGGCGTCACAGATGGAATAAACAAAACAATTGAC -TGATAATGTTTATTACAAGTTGTCTACATGTTAATTATAATATTATACAGCGTTTTTTTTGATGTGATATTCTGG -AACCATTAATTTGTAATTGGGTTGCTGTCGCCTATTTTATACATACTATAATTGATGGTTTTCTATGTGATTTAG -TTAATAACCTTCTGGGTTTATTTTAAGGGTTAATTGTTACATTGAAATGGCTAGTTATTCCCCGGGGCGATTTTC -ACCTCGGGGAAATTTTAGTTGGCGTTCTTAAAATGTGTACTTAAGACCAGCAGTAGTGATGAAGTTATAGTTTTC -TATACCTGCTCCATTTTTGCTGTAGTCTGAAGTGTTATTATTGTGATCATAAAGTGAAGTATTACCTTTTTTATT -CGTAACCCGATTCCATGCGCCTTCAACATAAACTTTTGCGTTAGGTGTGACGTAATAACCTGCATTGACTGCAAC -AGAATAGTAATTTTGGTCTTTGACCTTACTGCGATAAGTGATTCTTTTTCCCGGGTCATAGTGTTCATCGTTATC -AGATGATTCCACCCAGCCGCTGTATTTAAATGTGCCACCGAGTTCAAAATCTTCATAACGATAACTTCCAGTCAA -GCCAATGTAGGGCATTTTAAAACGTTGTTTGTAGCCGATTGCTCTTTCTCCATTCGGGAAGGAGCCGATATCATC -TCTGAATCCCTCCTCAGAACTGTAGATATAGGAACCACCTCTGGCTGTAAAGCTATAACGGCTTTCCTGATATCC -GGCCATGAGTCCCAGGCGGTAATTGGGTTCGTTGAGGAGCCAGCCTTTGATATTCAGATCAAATTCGTTGGCATA -ATTGAGTTGTGTATCAGGGTGTCTACTTTCATCCGTCCAGGTTCCGGGGTTACTGGAATCCATCCAGTCCTGATC -GACCATATTGCCACCTCGGCTGCCGAGAGTTGTCCAGCCAGCAGCCCCGATAGATATCTGGGGCATCAAATCCCA -ATTAATTGCACCTTTAATAATTGCAGCGTTATTGAATTTCCAGTCGAGTTGACTGACTTTTCGGCCTCCTTCTTC -GGCTAGATAAACACGCTCTTTTGTTTTTCCGCTCAGAGTTCCAAGACTAATGTCCGCATTTATGTTGTCAGGAGT -AAACGATAAAGTCTCGGTAGAAGCAAAAGAGCTGATCGCAATAGGGGTTGTCAGGACTATTCCCAGAAGTTTCGC -CCGCATAAAAGTTCTCCATTCAATCGTTTTAATGATTGAATATGTATTTTTTATATCTAACTTAATGAGTCAATT -ACATATTGCTCCACTGTTTATATTTTGTTTAGTATTGAATGATTATCACAATGCGCTATCTGTTTTTGGTTTAAT -TATCTGTTATTGTTTCATATTTCGGTTTTACTGTGTGGTTTTTTTATGCTTTTGTGGTGCTTTTATCTATTTAAG -TGCCATGCCTTTAGAGGCATATAAGCGAAAATAGCATGAGGTTTATCCTCAATTACTATGTTTTTTAGTACAAAA -AAGAGGGACAAAACTGAGACACATAAGGCCTCGCAATGGCTTGCAAGGCTTTACATGTTTTGAGGTAGTGGGACG -TGTGAGCGCAGAGATGGCGCGGTAAGTTGTTGACTTAAAATGTCGTTCTAGGAACTTCTAAGTCGTGGGCCGCAG -GTTCGAATCCTGCAGGGCGCGCCATTTCTTCCTCATTTATGCCCGTCTTATCCGTTTCCGCTTTGCCCTTCACCA -CATCACTTTTTGTCGCTGTTTGGCGAGATAATTCAACGGTGTCAGGCCGTAAAACGCCTTAAAAACAGAGATAAA -GTACGACGTGCTGCTATAGCCACATAATTGCGCCACCTGAGTGATATTTTTGTTATCCATCAATAACATCTGTAC -GGCGTAACGCATACGACACTCTGTGACAATCTGGCTATAGCTGGTATTTTCGTTTTTTAATTTCTTTTTGAGCAG -GCTGGGGCTTAAACATAGCGAACTGGCGACAATTCGCAGATTCCAGTAATGCTGAATATCGCTTTGAATAATGCG -GCAGACGCTGTCGCGGACGCTGCTGCGTAAGATATACATCAGTAGGGCAATAAACCGCGATTGCTCAAGAAAGTT -AGACAATACGGTAAAAAGCAATGCGCGCGTCAACTCCGCTTCGCAGGGTCTGCTGGGTTGCTGCTTGCTGTGGTT -GGCGGCTAGCCGGAACACTTCCGGTGTACGGCTATGACAAGCGATAACCGGGGTTGCCAGCCGCGACCAGGGCTT -TACACAGGTTAAGTTCTTATTTAAAAACAACAGATAATCGTTGATGATGTTACGGTTGATGTGGGTGATTAATAC -GTGATTTAACGTTGAGAGTTCAATGACGTTATTGTTGCACGCGAAGGCGGCCAGGTAGTTTTTCGGAAGGGTAAA -CGTAGCATGGTTATTGACGCTTACCTCTACCTCTTTTTCGGTCAGGATCACCACGCAAGGTTCACTGCTGCTCAA -TTGCATTTCGCACTCCTCAGATATCAGAAACTCCGCTCAAAGGATCTATGCTTCCTGCATGAGTGATCGGCCCGT -TCGCCGATAACGATCTTCTTTCTTTAGCACGCTTTTTAGCAATTAATCTTGATGGAATTCTGATGAGAGCGAAAG -AGGTAAGCCAGGTCGTACCCGACTTACCTGGAGGAGATTTAATACTCGAGAATGCCGTGCGCGACGGGCAAATAG -CGCAGAGAGAAATAGAGAGTGTCTTTACCGCAAGAGGAACGTTTCGCTAACAGCGAGGCAATTTCTGCGTCCGGT -TTCGGTTTCGCTGTAAAGGTTTTGCCTTTGCCGGCGACAAAAAGTTCATAAACAACGCCGCTGGCAGGGGCGGGA -CTTTGGCAATCGGCGCTGGCCTGTAAATAACGTTCACGCTGTTCAGCGGTCAGTTTATCCACGCCGCTGCCATCC -TGTACCCAGACATTAACGCCGGTTGCTTTAACGTGTTCCAGCAGTTGGCGATAGCCATCGGGCGACATGTTTCCG -GCGAAAAAACTACTGATATAAACCGGTTTTGCTGAAACATCGCTAATCAGCCGCTGCGCGTTGTTTAACCATGTT -AGCAAAGGCTGACGGGCGGCTTCGCTGCGCCAGTTCAGGTCGTCAATTTCCGCGCTGATGTACCAGCCATCCGGC -GTTATGCCAGGCGCGGCGCTCCATAATCTGGCTTGCTGGAGATCGGCAGCCAGCAGGCGATTAAGATAGCTTTCC -AGCGCTGCGGACGACTGTTTCTGGTGCATAAAAAATTCCGGATCGGCGTTCAGCCCGACAATAAGCTTCAGACCA -GCCTGTTGCGCAGCTGCGGCCCGCTTAAACAATAACGTGCGCTGTTCTGGCTGGGTAAATGCATCGCCGTAACGG -GTCCATTGCAAAACAAGGGTATCGAAGCCTTGCAAACGTAACTGACTCATCAGCCCCTGCCACTGGGTATCGGTA -ACCTGACTATCTCGGTTTTGTGGTTGCCAGATAATACCTTTCATCGCAAAGGAAAAAGGGCTGACCAAAAGCAGT -GTCAGCAATACGAAAATGAACTTACGCATTTACCAGTGCACTCCAATGGTGAGAAACGCGTTGTTGCGCTCTCCG -TTACGTTGATTAATCGCCTTAAAGGTATGTTGATACTCGACGCCGAGACTGACTTTGTGCGGCCAGGCGTCGTAG -TGCGTCTCGCCGGTCCAGATATTCCAGCGGACCCCGACTCCGCCAAGCTGCGCGCCCTGAGTGCCTTTATCACGA -TAGCCGTTGTCCTGAACGTGAGCGTAAGGCTCAATAGTCTGTCCGTTAGCTACCTTCTGATGCCAGCTGACGCGA -TAATCTGCCGTCCACGCCTGAATATCCTGGCGGATATATTGCGCCGCATCGAGGTACAGGTTTTGGGCAAACCAG -CCTGAACCGTTCGGGTGCCATTCGTCGCTGTATTTGCCGCCATTAAAGAATGAGGCGCTGGCGCGCAGCATGGTA -TCGGATGCGCCATTTTGGCCGTTCAGCGGCAACTGCTGTTCGACGGCGATGAAAAAGATCTGATCGCGCAGCGGC -TTCCAGCGCAGACCGGTGCCGGACATCGGATTTTTCACCGGCATCATCACCCCGTTTTCTCCGGTATCGGCAAAG -ACGCGGCTATAAACTGAGAGCAGGTCGCCTTCCAGCAGCATATTGCGTCCGATGCGGTACTCGGCTTCCAGTTGT -CCGTAGCTACGATAGCTTTTCCCTGGCGCTGCGCCGCCGACATTATTGTTAGCGGTACTCATTGCGCCGGAACGC -AAGCCGATGGAAGAATCGAAACTGAACGTCCAGCGGCGACCGACCTCCTCATGCAAACGGCGGAAATTGAAGCGT -TGTTGATTTTGTTCTGGGGTCAGTGGGGTTATCAGCGCCTGATTATCAATGTCATCAATCACCAGCCGGGCGTAG -TGCTGCGTCGCAGGCATGTCATCCAGACGCTGGTTCACGTAGGCCAGTTGTCGGATCAGTGCCGGATCGTCCGGA -AGCCCTTTATGCGCCGGTTCGAGCATTTCCCGCGACTGTGCGATATCACCGCTATCCCACAAGGCGTAACCAAGC -GCTGCCTGGGTGTTGCTATTATTCGGTTCCAGTTCCAGCGCGGCGCGCAAATCACTCACCGCGGCCGGGACATTA -TGACGTTGGCGATAAATTGTCGCCCGCGCAACGTAAGCGTTGGCAGAAGGCGCAATATTGATTGAGCGCGTGAGA -TCGTTCAGTGCGAGTTCCGGCTGACCAGGAATGTAACGTTGCGCATGCAGCCACCAGTAGAGGGCATTGCTTCCC -AGTCCACGTTTTTCTGCCTGTTGTAGCCAGCGATCGCGAGCCGCACCATTTCCTGCCGCCTGGGCGGTATTGGCA -GCAGCAAGCAGATCCTCATTGCTCATGTCGTGAAGACTGATTTTCTGCCAGGCCGCCAGTGCGGTGGCGTAGTCC -TCAACCTGATACGCCTGATAGGCTACCGCACGATGTTGCCAGGCGCTCGGTTGTCGTTGTTCGGCCTGAAGCCAT -GCATACAACGCCACACCGGGTAGCGTGTCCCGATAACACTTTGCCAGACGGTTCCAGGCGGCGGCATCGTAGGAA -GGCGACATATCGCCCAGCAAGCGAACTATTGCCGGGCAATTATCTGCAATACCCGGCAACTGACTTTGCCACTGA -CGTTGCTCCGCCAGCGGTAAGGGTTTCGATAAAATCGCCACCTTCGCCGGCGTTGCCAGGTAAGGATGACTTTCC -AGCAGAGACGCCAGTCGCGCCATTAAAGTCTGGCTGACACGCGCATCGCCCTGGAAAGGATAGCGTTGCAGCAAT -AAATCGGCAGCTTCGCGTGACTGCTCGTTCTGCATCAGTTGCCAGGTTAGTTGATCCAGGCGGGTAAGATTTGCC -GGTTCTTGCTGATACAGCAATCGTGCCAGACGCAGAGCTTCAGCCTTGTTACGGGTCGCCACGCTGACAGCATAA -CGCTCCTCAAGCATTTCATTGGCGGGGAGGGTGGCGAGCAGTTTTTGCGCTGCGTCGTACTGACCTTCTTTTAAC -AGCACCGGTAGCGTCGCGCCAACAACATACTGGCGGTTGTCGGCAAACTGTACCGTATAATTCGCCAACGCCTGA -ACGGGGTTAGCGCTGTATTTAGATAACAGATAGAGCCAACTTTTCTCTTGTGCGTCCGTGGTAAATAGTGGCTTA -TTTTCAATGAGATAATGCTGGAGGCGTGCTTTTTCGCCACGATAAGCCAGCGCGGTCGCGTAAGTAATATATGAC -TGAGGATCGGTGAAGATCCCCTGTGATTGCAGTGCCAGGATCCGATCGTCCAGCTGCCCGGCAAGAAGCACGTCA -AACCACTGACGGCGTTCTGCCGCGCTTAATGTGTTCTGCTGGCGTGCTTCATTGTATAGCGTATCTGCCTGGGAC -CATTGTTTCAGGTAGATTGCCCGTTGCAGCAGATCGGTTCGCAGCGTTTTTCCTTCCGGCGATGCAGCAAACGTC -GCATCGTTCAGTTGCGCTCTGGCGACAGGTAACTGTGCCAGCCGCAGGGCATTCTGCCCGACTTCACTGCGACAA -CGCAGGGTCGGCGCAGCATCGCACGCTTTTTGCTGGGCAAGCAGTTCTTCAACTGTCGTAACGCTTTTCACTTCA -ACCGGAATAGCCGCCAGACTGCGCTCAAGTCGGGCATCTCCTGGGTGACGTTTCAGTTGATCCTCAAGCAACAGC -CGCGCCCGGTCATCATGACCAAAATGGCGATAGGCTTCCGCAAGGTATAAAGTCAGCGGAATATTATCCGGCACC -TGCTGGTGTATATATTCAAATTCGCGGATGGCGGTTGCTTCGTCGTTATTTTTCTGTGCCTTCAGCGCTTTATCG -AGACGGGGATAAATAACAAAATGGCGATAATCGCTCAGCCCCAGCTCTTCTGCGCTGGTGCCGATATTGTCTGCG -AGTGCGCTGGTACTCAATAAAGACGTCAGCAGTAAACCAGACCATCCGATGACGCGATTAAGGTTATTCTCCTTC -ATTTTCGGACTCCAGTTGCGCAACCTGTTCTGTGTTTAAACCTGCTTTGAGTAATAGTGATTGCATCGAAACTTG -TAATTCGCGTTGAATTGTCAGGACGCGATCCAACGTTTCCTGGCTGATAACGCCTTCGGTGACCAAAAACTTGCC -GAGCGGCAGAGAACTGCGTTCATGGCGCAATAACAACACGTTAATTGCTGAACGATTAATATGACCGAGCGTGGT -CAGTATTTCGGCGAACAGGAACTGATGCGGCACATATTGCCGCCAGATTTCACCGGCCTGCTGTTCCGTGAGCCA -CTGATGCTGAACCGCATTGTACAACATTGCCCGCGGATCGTGACCGCGTCGGCGTGCATACCAGTGACGTAACCC -TGTGACAATTTGTCCCCGCAGAACAATGACGTAACGCACTTTGCGTCCGACTTTACGCGTCAGGGCCGCCAGCGA -AACCGGGTCAATACCATCTTCACTGCCGACAATTAACTCGTCATTTTCCAGACGCAGCGGCAGTACCGCATAATG -CAGCGCCACGGAGGCCGGCATTTCGGCAATCAGCGAGGAAGGGATCTGCCAGGCATCGATGGATTCCCACGCCAC -GCCGTTTTGCTCTGCCAGCGCCTGTGCCAGCTGCTCGGCGCTAATCAGCCCCTGCATCAGCATTGAACCGCCCAG -GCGTAGACCTTCGACGCGATTACGCAGTGCTGTATCGAGTTGTTCTTCAGTGATGACCTGATTTTCCAGCAGAAT -TTGACCTAACGGGCGCAACGAGCGGGTATCGCCAGTCACGCTGGGGAAGTCATGCGTTGTTTTATCCCACGCCAC -GCGACGTGGATCGCCGTGTTGAAGTACCTGTTTTAGCGCGCGCCAGTTGGCCATGAAGTTAATCAGGTTGCCCCA -GAAAAGACGCAGGACGGAAAGCAGCCCCTGCGTCAGGCCGTAGTAGCCAGTAACGAAAATCACCCGCTGCACGAT -GCGGTTAACCATCAAACCAAAGTTTAGCCACAGCAGGGTCATTAACCATGCGCTGCCGCTGAAAATAGAAAGGAA -ATGCCAGGCATCGGGCCACAAACTTTCATACGCCAGCAACAGCAAAAGCTGGATCATCACCAGCATCGCGAGGAA -GCTGACAAAGTTACTGATTGCCCCTTTGCGGTCGCGCCAGAGAAAGTAGTTCAGCGTCAGGCTGGAGGTCCATTT -ATGGGTTTTAAAGCCTTGGAAAACAATGCCGATGATCCAGCGGGATTTTTGTCGAACCGCAGTCGAAAAGGTATC -GGGGAAATATTCGCGCACGCAGATCATGTTTGATGTCCGCGCGTGCTGTAAAAATTTACGCTGCTCGCGTTCTTT -GGCTTCGTCCACCACCGGAAAACGGACAAAAATTTCCGTCATACCTTTTTCTTTCAGGCGGAAGCCAATGTCGTA -ATCTTCAGTAAGACTCTGCACGTCGAAAGCAATACCGTCACCGTCAGCTAACAGTGCGGTCACGGCGCGGCGGCT -GAAACAGGTGCCGACGCCTGCGCTGGGCACTTGTCCGGCGAGGGCTTCACGCACCGGAACATCTTTGCCATGCAG -CTCTGAAAACTCATCAATGTAAGTCATGCTGGTGAAGTGCGTCCATTCGCGTTCGAACGGATACACCGGGATCTG -AATCAGATCTTTACGCTCGACCAGATAGTTGAACAGACGCAATTCCATCGGTGAAATCACATCTTCGGCGTCATG -CAGAATAAAACCAGCAAAAGCGAAATTGGCGCTACGCTCAAATTGGGTGATGGCGTCCAGCACGTTGTTCAGACA -GTCGGCTTTGCTGGTGGGGCCAGGACGCGCGCAGACTACCTTATGCACATTCGGGAAGCGAGCGCACACTTCGTC -AACATCACGCTGAGTATCGGGGTCGTTGGGGTAGGTGCCAACAAAGATATGATAGTTTTCGTAGTCGAGCGTGGT -CGCCGCCAGCTCGGCCATATTGCCGATGACGCCCGTTTCATTCCACGCCGGAACCATAATCGCTAACGGTTTTTC -ATCTGGTTTATACAGTTCGCGGTAACTCATTCGCGGGTAGCGGCGATAAACACTCAACTTGCGTTTAATGCGGCG -TACCCAGTAGACGACATCAATAAAAAAATCGTCCAGCCCGCTGATGAACATGATGACCGCTAACGTTATCGCGAT -TACTTTTAAGCCGTAGAGCCAGGTAGCAAAAACATCAAGAAGCCAGTCCACACAAAAACCTTACATTAACGCTGG -TTATGTTTAGGGTGGCGTATATTAAGGTTTTTTATGAATTGTGACAGCTTTTTACCATTAATAGGTATGACTATT -GCGGCACGTTATTTTTACACTGGTTATAAAAGTTGCCGTTTGCTGAAGGATTAAGCGGGTAATGTGATAACAAAC -CTTGTCCCCCGCGCATCCGACGTTACCGCAACCGTGCCTTTATGCGCGACAACAATCGATTTCACTATCGCCAGG -CCAATACCGCTACCTTCACCTTTTCGCTGGCGGGAGGGGTCAACGCGATAGAAACGGTCAAACAATCGCGGTAAG -TGCTCGGGCGCAATGGGCGTACCGGGGTTTTCGACGATAACTTGCACCAGGTGATCGACCGTCTGACAGCGCACT -ACAATTGTCTCTCCGGTTGGCGTATAACGCAGGGCGTTCGAAAGCAGGTTGCTTAGCGCCCGACGCAGCATCAGC -GGATCGCCCGCGACCTGACACTTGTCGCCAACAAACCGCAACTCCACGCCGCGATCTTCCGCTAACGCCTCGAAA -AAATCGAACACTTTGCCGACTTCATCCGCCAGGTTGAGCATTTTCTTTTCGGGGATTAGCTGGTTGTTATCGGCC -TGAGCGAGAAACAGCATATCGCTGACCATTTTCGCCATTCGCGTCAGCTCTTCGAGATTAGAGTAGAGCACATCT -TCCAGCTCCTTCTGGCTGCGCGACTGGCTGAGGGCGATTTCGGTTTGCGTTATGAGATTCGTAATTGGTGTGCGA -ATTTCGTGAGCGATATCCGCTGAGAAATTGGACTGGCGGGTAAAGACATCCTCAATACGCTCGATCATATGGTTG -AACGACAGTACCAGCTGTTCCAGCTCAATGGGCACGGTCTGCGGGTCGAGGCGAACGTCGAGATCTTTCGAGGTA -ATATTCTGGATTTGACGGCTGACGCTGCGGATCGGCGCGTGACCTTTATGTACCGCCAACAGTACGATAAAGACG -ATCAGGATGCTGATTACCGATGCGGTCATAATAAGTTTATTCATCAAATCATTTATGTAATGAAGATGAAAATCG -ATCGAAAGCGCGATGTAGAGCGTATAAATCGGTTTGCCGTCCACCAACGGGCCAACCGGCAAGTTAATCATCCGC -CAGTTGCTGTGTTCCATATGCCCGTGACCGTGGCCTGGCATCATCATCGTCGGGCCGGAAAGGAGATACACCTCG -CCACCCTGAGCGTCTTTATCGGGTATGGCGTCACGCGTAAACTCGCGGATATCCGGCGCACCGGGGGAGTGATAC -ACCGTTTTACCCTGACTATCTGCCAGGGAAATCAACACATTGGAATAACCACTGACGATATCTTCCAGCGTCATT -AAGCGTCGGGCTTGCGTTTCGTCAGGGTGATTTAGTACCCGTTCAAGGGTGGCGCTAATCTCTTTTAAATCATTA -ATATCCTGCTCGGCAAAATGAACTTTTACTGAGTGGATCATGATCCATGCAAAGGCGAAAAACGCCGCGATGGTG -GCCAGGCTGATAAAAAAGGTCAGGCGGGTTGCCAGCGAAAACGGGCGCTGAAATGGCTTACTGACCATCCGGCAC -CTCAAGCATGTAACCCACGCCGCGCACGGTCTGAATTAGCTTCGGCTCAAAGTCGTTGTCGATTTTGCCGCGCAG -CCGCTTCACCGCCACATCAATAGCATTGGTATCGCTGTCAAAATTCATGTCCCATACCTGCGAGGCGATAAGCGA -GCGGGGCAGCACTTCGCCCTGATGGCGAAGGAAGAACTCCAGCAGAGTAAACTCTTTACTGGTCAAAGTGATGCG -CGTGCCGCTGCGGGTGACTTTGCGGCTGACGAGATCGACCATCAAATCGGCAACCTGAAACTGACTTTCGATAAT -CACCGCCGCCCCGCGCCGCAGTAATGTGCGCACCCGCGCCAGCAGTTCAGCAAAAGCGAATGGCTTCACCAGGTA -GTCATCTGCCCCCAACTCCAGCCCCTTGACGCGATGTTCAATGGTGCCAAGCGCGGTAAGCAACAGAATCGGCAT -CCCTTTATTGGCGGAGCGTAACATGCGCACGATATCCCAGCCGTTCACGTCCGGCAGCATAATATCGAGGATTAT -CAGATCATAATCACCGGTCATCGCCAGATGGTAGCCATTCAGCCCGTTGTCGGCCAAATCGACCACAAAACCGGC -TTCGGTTAACCCTTTGGTCAAGTATTCTCCGGTTTTCTTTTCATCTTCGACAATCAACAGTTTCATATTTCCTCC -GCATGTTGCCCGGGCAATTCTAGAGTAGCGGGATCAGATGGCAATCGCTTATTGGCAAAATGACAATTTTGTCAT -TTTTCTGTCACCGGAAAATCAGAGCCTGGCGAGTAAAGTTGGCGGCATAAAATCACCAGAAATTATGAGCCTATG -TCTCCTTGTAAACTTCTGCCATTTTGTGTGGCCCTTGCGCTAACCGGTTGTTCACTGGCACCGGATTATCAGCGT -CCGGCAATGCCCGTGCCGCAGCAGTTCTCACTCAGCCAGAACGGCCTGGTTAACGCAGCAGATAACTATCAGAAC -GCGGGCTGGCGCACCTTTTTTGTTGATAATCAGGTGAAGACGCTGATTAGCGAGGCGCTGGTGAATAATCGGGAT -TTGCGCATGGCGACGCTGAAAGTGCAGGAGGCACGGGCGCAATATCGTCTGACCGATGCCGACCGCTACCCACAG -CTCAATGGCGAGGGCAGCGGCAGCTGGAGCGGTAATCTTAAAGGGAATACCGCCACGACACGGGAGTTTTCGACC -GGCCTTAACGCCAGCTTTGACCTCGATTTTTTCGGTCGCTTAAAGAACATGAGCGAAGCCGAGCGACAAAATTAT -TTAGCCACTGAGGAAGCTCAGCGCGCGGTGCATATTCTGCTGGTTTCTAATGTCGCGCAAAGCTATTTCAATCAG -CAACTGGCGTATGCGCAATTGCAAATAGCCGAAGAAACGCTGCGTAATTATCAGCAGTCATATGCGTTTGTCGAA -AAACAACTGTTGACAGGTAGCAGTAATGTTCTGGCGCTGGAACAGGCTCGCGGGGTGATAGAAAGTACCCGCAGC -GACATCGCTAAACGTCAGGGGGAACTGGCGCAGGCGAATAATGCATTGCAACTGTTGCTGGGAAGCTACGGCAAG -CTGCCGCAAGCGCAGACAGTAAACAGCGACAGCCTGCAAAGCGTTAAATTACCGGCGGGATTGTCGTCGCAAATC -TTATTGCAGCGCCCGGATATTATGGAAGCTGAACACGCGTTAATGGCGGCTAATGCCAATATTGGCGCTGCACGC -GCGGCATTTTTTCCGTCTATAAGCCTGACCAGCGGAATATCGACCGCCAGTAGCGATCTATCGTCATTATTTAAC -GCCAGCAGCGGGATGTGGAATTTTATACCCAAAATTGAGATCCCCATTTTTAATGCCGGACGCAACCAGGCCAAT -CTGGATATCGCCGAAATTCGCCAGCAGCAGTCGGTGGTGAATTATGAACAGAAAATCCAGAACGCCTTTAAAGAA -GTGGCAGATGCGCTGGCATTACGTCAAAGCCTGAACGATCAAATTAGCGCCCAGCAGCGTTATCTGGCATCGCTG -CAAATTACTTTGCAACGGGCGCGGGCATTATATCAGCACGGCGCAGTAAGTTATCTGGAAGTGCTGGATGCCGAG -CGTTCTTTATTTGCAACCCGACAAACTTTACTTGATCTGAATTATGCCCGTCAGGTTAACGAAATTTCTTTGTAT -ACCGCACTTGGTGGCGGTTGACAGCAATATACTCGTCATACTTCAAGTTGCATGTGCTGCGTCTGCGTTCGCTCA -CCCCAGTCACTTACTTATGTAAGCTCCTGGGGATTCACTCGCTTGTCGCCTTCCTGCAACTCGAATTATTTAGAG -TATGACTTTTAACTCCAGGAGAGAATAAATGAAAAAAGCACTGCAAGTCGCAATGTTCAGTCTGTTTACCGTTAT -TGGCTTTAATGCCCAGGCTAACGAACATCATCATGAAACCATGAGCGAAGCACAACCACAGGTTATTAGCGCCAC -TGGCGTGGTAAAGGGTATCGATCTGGAAAGCAAAAAAATCACCATCCATCACGATCCGATTGCTGCCGTGAACTG -GCCGGAGATGACCATGCGCTTTACCATCACCCCGCAGACGAAAATGAGTGAAATTAAAACCGGCGACAAAGTGGC -GTTTAATTTTGTCCAGCAGGGCAACCTTTCTTTATTACAGGATATTAAAGTCAGCCAGTAACCCAGGTTTAATGA -GATGAAAAAAATCGCGCTTATTATCGGCAGCATGATCGCGGGCGGTATTATTTCTGCGGCAGGTTTTACCTGGGT -TGCAAAGGCGGAACCGCCTGCAGAAAAAACGTCGACCGCAGAACGTAAAATCTTATTCTGGTACGACCCAATGTA -TCCCAATACGCGGTTCGATAAACCAGGTAAATCGCCGTTTATGGATATGGATCTGGTGCCGAAATATGCCGATGA -AGAGAGTTCTGCGTCTGGTGTGCGCATTGACCCGACTCAGACGCAGAATCTGGGGGTGAAAACGGCTACCGTCAC -GCGCGGACCGCTGACTTTTGCCCAGAGTTTCCCGGCGAATGTCAGTTACAACGAGTATCAGTATGCCATTGTGCA -GGCTCGCGCTGCCGGGTTTATCGACAAGGTGTATCCGCTTACCGTGGGCGATAAAGTACAAAAGGGCACACCGCT -TCTCGACCTGACCATTCCTGACTGGGTGGAAGCGCAGAGTGAGTATTTACTGCTGCGCGAAACCGGCGGTACGGC -GACCCAGACTGAAGGCATTCTTGAGCGGCTGCGACTGGCGGGAATGCCGGAGGCGGATATTCGCCGCCTGATCGC -CACGCAAAAAATCCAGACTCGCTTTACGCTCAAAGCGCCCATTGATGGCGTGATCACCGCGTTTGATCTGCGCGC -GGGAATGAATATCGCCAAAGATAACGTGGTAGCGAAAATTCAGGGTATGGACCCGGTGTGGGTCACTGCTGCGAT -CCCGGAGTCTATCGCCTGGCTGGTGAAAGATGCCTCGCAGTTTACCCTCACCGTTCCGGCGCGACCGGATAAAAC -ACTCACCATCCGCAAATGGACGCTGCTACCTGGCGTGGATGCCGCGACCCGCACGCTGCAGCTGCGTCTGGAAGT -CGACAACGCCGACGAGGCGCTAAAACCGGGCATGAACGCCTGGTTGCAACTCAACACCGCCAGCGAACCGATGCT -GCTCATTCCGTCACAAGCGCTGATTGATACCGGCAGCGAACAGCGGGTGATTACCGTTGATGCCGACGGGCGCTT -TGTACCGAAACGCGTTGCTGTTTTCCAGGCATCGCAAGGCGTCACCGCATTACGCTCTGGTCTGGCGGAAGGTGA -AAAGGTGGTTTCCAGCGGCCTGTTCCTGATTGATTCCGAAGCCAATATTTCTGGCGCACTGGAGCGGATGCGCTC -TGAAAGTGCTACCCATGCGCATTGAGGGAATAACCAATGATTGAATGGATTATTCGTCGCTCGGTGGCGAACCGT -TTTTTGGTGCTGATGGGCGCGTTGTTTCTGAGCATCTGGGGCACCTGGACCATCATTAATACGCCAGTGGATGCG -CTGCCGGATCTCTCCGATGTGCAGGTTATTATTAAAACCAGCTATCCCGGTCAGGCACCACAAATCGTTGAAAAT -CAGGTGACTTATCCGCTAACCACCACCATGTTGTCGGTGCCTGGCGCGAAGACTGTGCGCGGTTTCTCACAGTTT -GGCGACTCTTATGTGTATGTCATTTTCGAAGATGGCACCGATCCGTACTGGGCGCGTTCGCGGGTGCTGGAGTAC -CTCAACCAGGTACAGGGTAAGCTGCCTGCGGGAGTCAGCGCCGAGCTGGGGCCAGATGCCACGGGTGTTGGCTGG -ATCTATGAATATGCACTGGTGGATCGCAGCGGTAAGCACGATCTGGCCGATTTACGCTCATTACAGGACTGGTTT -CTCAAATATGAGCTGAAAACCATCCCTGACGTTGCGGAAGTGGCGTCGGTGGGCGGTGTGGTGAAAGAGTATCAG -GTGGTTATCGATCCCCAGCGCCTGGCGCAGTATGGCATCAGTCTCGCCGAAGTAAAAAGCGCGCTGGATGCTTCA -AACCAGGAAGCGGGCGGTTCGTCGATCGAACTGGCGGAAGCGGAATATATGGTGCGCGCCAGCGGCTATCTGCAA -ACGCTCGACGACTTTAATCACATCGTTTTAAAAGCCAGTGAAAATGGCGTGCCCGTTTATCTGCGCGATGTTGCG -AAGGTCCAGATTGGCCCGGAGATGCGCCGGGGCATTGCCGAACTAAACGGCGAAGGCGAAGTGGCGGGCGGGGTG -GTGATCCTGCGATCCGGCAAAAACGCCCGAGAAGTGATCGCCGCCGTGAAGGACAAACTGGAAACGCTGAAAAGT -AGTCTGCCGGAAGGCGTGGAGATAGTTACAACATACGATCGCAGCCAGCTCATTGACCGCGCCATCGACAACCTC -AGCGGCAAGTTGCTGGAAGAGTTTATTGTGGTGGCGGTAGTCTGTGCGCTGTTTCTCTGGCATGTGCGCTCGGCG -CTGGTGGCGATTATTTCGTTGCCGCTGGGGTTGTGTATTGCTTTTATTGTCATGCACTTCCAGGGACTGAATGCC -AATATTATGTCGTTGGGTGGCATTGCGATTGCCGTCGGGGCGATGGTCGATGCTGCTATCGTCATGATCGAGAAT -GCGCATAAACGGCTGGAAGAGTGGCAGCACCAGCATCCTGACGCCACGCTGGATAATAAAACGCGCTGGCAGGTG -ATCACCGATGCGTCTGTTGAAGTGGGGCCGGCGCTATTTATCAGTCTGCTGATTATCACGTTGTCGTTTATCCCG -ATCTTCACCCTGGAAGGGCAGGAAGGGCGTCTGTTTGGCCCGTTGGCGTTCACCAAAACGTATGCGATGGCGGGT -GCGGCGCTGCTGGCGATCGTAGTGATCCCGATCCTGATGGGCTACTGGATCCGTGGCAAAATTCCGCCGGAAAGC -AGTAACCCGCTCAATCGCTTTTTGATTCGTGTTTATCATCCGCTGTTGCTGAAAGTACTGCACTGGCCGAAAACC -ACGCTGCTGGTGGCGGCGCTTTCGGTGCTGACGGTTCTCTGGCCGCTCAATAAAGTTGGCGGGGAATTTTTACCG -CAGATCAATGAAGGCGACTTGTTGTATATGCCATCGACGCTGCCGGGGATTTCCGCAGCAGAGGCGGCGAGTATG -CTGCAAAAAACCGACAAGCTAATTATGAGCGTACCTGAAGTGGCGCGGGTATTTGGCAAAACCGGGAAAGCGGAA -ACCGCCACCGATTCTGCTCCGCTGGAGATGGTAGAAACGACCATCCAGCTTAAGCCGCAGGAGCAGTGGCGGCCA -GGCATGACGATGGACAAAATCATTGAGGAACTGGATAACACCGTGCGGCTGCCGGGGCTGGCGAATCTGTGGGTG -CCGCCAATTCGTAACCGTATCGATATGCTCTCAACCGGCATTAAAAGCCCCATCGGCATTAAAGTTTCCGGCACT -GTGCTGGCGGATATCGACGCGATGGCTGAGCAAATTGAAGAAGTAGCGCGAACGGTGCCAGGCGTAGCTTCTGCG -CTTGCCGAGCGGCTGGAAGGTGGGCGCTATATCAACGTTGAGATTAACCGTGAAAAAGCCGCACGTTACGGTATG -ACGGTGGCGGATGTGCAGTTGTTTGTGACTTCTGCGGTGGGCGGGGCGATGGTTGGCGAAACGGTGGAAGGGATT -GCCCGTTATCCAATTAATCTGCGTTATCCGCAAAGCTGGCGCGATAGTCCGCAGGCACTGCGCCAGCTGCCGATC -CTGACGCCGATGAAGCAGCAAATCACCCTGGCAGACGTGGCCGACATTAAAGTCTCTACCGGACCGTCGATGCTG -AAAACCGAGAATGCGCGCCCGACGAGCTGGATTTATATCGATGCCCGCGATCGTGACATGGTGTCGGTGGTTCAC -GATTTGCAAAAAGCGATAGCTGAAAAAGTGCAGTTAAAACCGGGCACCAGCGTGGCATTCTCCGGGCAGTTCGAG -CTACTGGAGCGCGCCAACCATAAGCTTAAACTCATGGTGCCGATGACGTTGATGATTATCTTCGTGCTGTTGTAT -CTGGCGTTCCGTCGGGTGGGCGAAGCGTTGCTGATTATCAGCAGCGTACCGTTTGCGCTGGTGGGCGGCATCTGG -TTGCTGTGGTGGATGGGCTTTCATCTTTCCGTGGCGACGGGCACTGGCTTTATCGCCCTCGCCGGGGTCGCCGCC -GAATTTGGCGTGGTGATGCTGATGTATTTACGTCACGCCATAGAGGCCGTGCCGTCGTTGAATAATCCACAAACA -TTCAGCGAGCAGAAGCTGGATGAGGCGTTATATCACGGCGCGGTCCTGCGCGTGCGCCCGAAAGCGATGACGGTG -GCGGTGATTATCGCCGGTCTGCTGCCGATTCTGTGGGGAACGGGGGCTGGTTCAGAGGTGATGAGCCGGATTGCC -GCGCCGATGATTGGCGGCATGATCACCGCACCTTTGCTGTCGCTGTTTATTATCCCGGCGGCGTATAAGCTGATG -TGGCTGCACCGACATCGGGTACGGAAATAAAAGCAGGATACCCCGTTTAACCGTGTGGATTGTGTCTTGCGACGA -TGGGCACTAAATGTTAAAAGGTGCCCCTCAACAAAAAAGACACACAGGGGAAAGGCGTGAAAAACGCGTCAACCG -TATCGGAAGATACTGCGTCGAATCAAGAGCCGACGCTTCATCGCGGATTACATAACCGTCATATTCAACTGATTG -CGTTGGGTGGCGCAATTGGTACTGGTCTGTTTCTTGGCATTGGCCCGGCGATTCAGATGGCGGGTCCGGCTGTAT -TGCTGGGCTACGGCGTCGCCGGGATCATCGCTTTCCTGATTATGCGCCAGCTTGGCGAAATGGTGGTTGAGGAGC -CGGTATCCGGTTCATTTGCCCACTTTGCCTATAAATACTGGGGACCGTTTGCGGGCTTCCTCTCTGGCTGGAACT -ACTGGGTAATGTTCGTGCTGGTGGGAATGGCAGAGCTGACCGCTGCGGGCATCTATATGCAGTACTGGTTCCCGG -ATGTTCCAACGTGGATTTGGGCTGCCGCCTTCTTTATTATCATCAACGCCGTTAACCTGGTGAACGTGCGCTTAT -ATGGCGAAACCGAGTTCTGGTTTGCGTTGATTAAAGTGCTGGCAATCATCGGTATGATCGGCTTTGGCCTGTGGC -TGCTGTTTTCTGGTCACGGCGGCGAGAAAGCCAGTATCGACAACCTCTGGCGCTACGGTGGTTTCTTCGCCACCG -GCTGGAATGGGCTGATTTTGTCGCTGGCGGTAATTATGTTCTCCTTCGGCGGTCTGGAGCTGATTGGGATTACTG -CCGCTGAAGCGCGCGATCCGGAAAAAAGCATTCCAAAAGCGGTAAATCAGGTGGTGTATCGCATCCTGCTGTTTT -ACATCGGTTCACTGGTGGTTTTACTGGCGCTCTATCCGTGGGTGGAAGTGAAATCCAACAGTAGCCCGTTTGTGA -TGATTTTCCATAATCTCGACAGCAACGTGGTAGCTTCTGCGCTGAACTTCGTCATTCTGGTAGCATCGCTGTCAG -TGTATAACAGCGGGGTTTACTCTAACAGCCGCATGCTGTTTGGCCTTTCTGTGCAGGGTAATGCGCCGAAGTTTT -TGACTCGCGTCAGCCGTCGCGGTGTGCCGATTAACTCGCTGATGCTTTCCGGAGCGATCACTTCGCTGGTGGTGT -TAATCAACTATCTGCTGCCGCAAAAAGCGTTTGGTCTGCTGATGGCGCTGGTGGTAGCAACGCTGCTGTTGAACT -GGATTATGATCTGTCTGGCGCATCTGCGTTTTCGTGCAGCGATGCGACGTCAGGGGCGTGAAACACAGTTTAAGG -CGCTGCTCTATCCGTTCGGCAACTATCTCTGCATTGCCTTCCTCGGCATGATTTTGCTGCTGATGTGCACGATGG -ATGATATGCGCTTGTCAGCGATCCTGCTGCCGGTGTGGATTGTATTCCTGTTTATGGCATTTAAAACGCTGCGTC -GGAAATAAGGCATTCACGCTACATCCGACAAAACGATGTCAACCATCCGAAACCGCTCTCATCCATTCGATGAGA -GCGGTTTTTTTAATTACTGCTTAAATGCACCCGCCAGAGAGCGAATATCATTGCCGGTTGGCGACTGATGAAGTC -GCAGACCAAACTCTTCGACAATCGCAAATATGTGATCGAATATATCAGCCTGAATGCTTTCATATTCCAGCCACA -CCACGGTGTTAGTAAACGCGTAGATCTCGAGCGGTAAACCGTTATCACCTGGAGCCAGTTGGCGTACCATTAAGG -TCATATCTTTACGAATCCGCGGATGGTTACGCAGATATTCGTTCAGATAGGCACGAAAGGTTCCAATATTGGTCA -TTCGGCGCAGATTTAATACCGACTCCGTAGAACCTTGCTGGCGATTCCACTCATTAATTTCCTGATGGCGGCTGG -TTAAATAAGGCTTTAACAAATGCGCTTTATTCAGACGTTGCATTTCGTCTTCATCAAGAAAACGAATACTGGTGA -CATCAATACTGATACTGCGCTTAATACGTCGCCCGCCAGATGCTGACATCCCGCTCCAGTTTTTAAAGGAGTCAG -AAACCAGAGACCAGGTGGGAATAGTGGTAATGGTATTGTCCCAGTTACGCACTTTGACGGTGGTTAACCCAATAT -CGATCACCGCGCCATCCGCGCCGTATTTCGGCATCTCCAGCCAGTCGCCCAGTTTCAGCATATCGTTCGCGGAAA -GCTGAATACCTGCCACCAGACCAAGAATCGGATCTTTAAATACCAACATCAGCACGGCAGCCATTGCACCAAGAC -CGCTGATCAGAATCGCTGGCGACTGACCAATCAGCAGCGAGATCATCAAAATGCCGACCAGAATCGCGCCGATCA -GTTTAATCCCCTGAAATATCCCTTTCAGCGGTAACTGAGATGCTGCCGGGAATTTCTGCGCCAGATTCAAAATAA -CATCCAGCAACGAGAAGACTGAAAGCAGCGCATACATCATGATCCACAACTGCGCGCAGGTAGTCAGAATATCTG -CCGCTTCGGTGCCTTTTTGCAGCCAGAATACCGCCTGAATATTGACGATAATCCCCTGCAGGGTAAAAGCTAAAC -GGTGGAAGAGTTTATTCTGGGTAATGATTTGCAACCAAAGCCGTGAACTGGCGATGGCACGTTTTTCGAAGGTCC -GCAGTACCACCCAATGCAAAATAATATGCACCACGACGGCGGTCAGAAAAATAATACCGAAAATCATCACCATCG -AGGTGGTGTGATCGATCTCAATACCCGCTAAATCTTCAACCTGGGATATTAAATCCTGCATAACGTCTCCTTTAT -ACAACAGCAGCCTATGATGACGGCTGAAACAGGGTTATGCAAATCAGGAGAATCTGAGAGGAAATAGCCGGGCAG -ATGCCCGGCAAGAGAGAATTACACTTCGGTTAAGGTGATGTTTTGCGGCAGACGAGATTTCGGCAGCGTAGCGTT -AAAATCTTCAACGCTGTGATGACCTACCGGAACAACCACCAGACTGGTGTAGCCTTTCTCTTTCAGACCAAATTC -TGCATCGAGGATGGCGGCGTCAAAACCTTCGATGGGTACCGCGTCCAGACCCAGAGCCGCCACGCCGAGCAGGAA -GTTACCGACGTTGAGATAAACCTGTTTTGCCATCCACTCTGCATCATCATGCAGATCTTTACGGTGCATATCAGC -GAAGAACTTGCGACCTTTATCGTTCGCGGCTTTCGCTTCCGGCGTGGCAAAGCGGCCATCGGCATCTTCCTGGTC -AACAACCAGCTTCAGCCAGACATCGTCCATCGCGGTTTTTGCACAGAACACCACGACGTGCGAGGCATCAAGCAT -TTTACGCTCGTTGAACACGTAATTACCGGCAGCGGATTTGGCAACACGCGCTTTACCTTCTTCCGTGCTGGCAAC -AATAAAATGCCACGGCTGGGAGTTGGTGCTGGATGGGCTGTATTGCAGTAGCGTTTTGATCTGCTCGGCCTGTTC -CGGGGTAAGTTTTTTGCTGGCATCAAATGCCTTAGTGGAATGACGCTTTAAGGCGACAGAAATGATATCCATAAA -GACTCCATGTGAAAGTAATTTTGCGTGCCAGCAGATTACAAGGTTCAACGAGAAATGGTAAGCGAGAAAAATGCG -CTATAGATTTCCGCTTTAGCCTGGACGCACTCTTTTTTGATCGCGTTTAGCCAGACCATCAACCACCAGATTCCA -CGAATCGTTGATCAGATCGCGAAGTAACGCTTCGGAGATTTCTTCGCCGGGATACACTGAAATCCAGTGCTTTTT -ATTCATGTGATACCCTGGCTTAATGCTTGGGTATATTTGCTGATTTAACAGGGATTTTTGTGGATCGGACTTCAG -ATTGATAAAGGGGACGCCGCGTAGCTCCGACGACAGCATAAAAATCTTGCCGCCAATTTTAAAAACATCGAACTC -CGGGCCAAAAGGCCAGCAAAGCTCGACAAAGGGTAACTCAAGGGCCAGGCGTTTCGCCGTTTCGTGCAGTGATTG -CTTATCCATAAACGTTCCTTTAGGCGAAGGAGAATAAGCAAAGTATGCCGCGAAGTACGGCGATAATCGACGTTT -AATCCGCCAGCGAGAACCAGCGTCGCCAGATAAAGCGCAGAACAAAATACTCAATAGCGCCCAGCACTAAAAACC -ACAGACAAAACAATAAAGTGTAAAGCTGACTAAGATCCATCAGATGGAACATGGTCACCAGTTTTTGTGCCAGCG -CCAGCCCCAGTGCGGGGGCGGGCAGCAGCAGGCAAGAGAGGAAAGCCATCAGCAAAATGCCTGCTGCGGTGGTCA -AGGTTTCTAAAGGGTGTTTCATAACATTGTTAAATGTAAGTTAAAACACCATTGTCAGGGATATTCTTCTGTAAG -GCAATTCCCGGCTTAGTCACCGGCCCAGATCTCACAATGCTTTTTCACCAGCCCAATCAGCGAGCCGCCATCGGC -GACGAAATCGCGCATTAGCTGCGCTTCATTCAGACCGCTGACGACCTGGCGATGCAGGGCCTCAATCGCGCTCGA -TGCACCAATTTTATGTGCGGAAGGGGCGATTTTTTCCAGCAATCGCAAGGTATCTTCCGTTAGCGGTCGACGATC -TCCAGTGTGCGGATCGGTGATGACGCCTTCAAGCCCATAGCGACAGGCCTGGAAACGGTTGAATTTATACAGCAG -GTAATCTTTTTCCTGATGTTTAAACGGGCGTTCCGTCAGTAACCAGTGGGCGGTAGCCTGAATTAATCCCGCCAT -ATTTACTGCGTGGCTAAGGGTTAACGGGGTATCCATCACCCGAACCTCCACCGTGCCAAAATGAGGACTGGGGCG -AATATCCCAGTGCAGATCTTTAATGCTGTCGATCATCGTGGTGTAACTCAGACAGCGAAACAGGGCTTCAAATTG -TTGCCAGTTACTGACCCACGGCATCGGGCCATTATCAGGAAAGGCGGAAAAAATATTCGGTCGTGAGGAGGCAAA -ACGCGTATCCGTTCCCTGCATATATGGCGACGCGGCGGAAAGGGCGATAAAGTGCGGCACAAATCGTGACAAGCC -GTGCAGCAAATAAATGGCGTCATCGCCACTGGCGCAGCCAACATGGACATGCTGACCAAAAACGGTCGCCTGCTG -AATGAGATAACCAAAGTTTTCCAGCGTGCGTTGATAGCGTTCGTTATCGCATACCTCCTGACGCTGCCATTTCTG -AAACGGGTGCGTGCCACCGCCGCAAATTTCCAGATGATGGTCTGTGGCTGCCTGCAATACGACTTTCTGCATCGC -TGAAAACTGCCCGGCAGCCTGGTTGATATCACGGCAAACATCCGTCGCCAGCTCCAGCATACTTTCGGTGATATC -GTGCTTTACCTCTCCGGCCGTGATCTTATTTTTAACCGCGTCAATCAGCATTGAAGAGTCCTGGCTTAAGTCATA -GCCCGGCGGATTAACCACCTGCATTTCCAGTTCAATACCGAGGGTAAAAGGTTCAGAAACATGAAAATCGGGTAA -TGGCATAGGTTTCTCTTATGTTGGCGTTTTCTATTCAGTATAGAAGTCGGAGCGGCTGGGCGAGATGCGGAAGTT -CTGGAATGTTTCTTTTTTTTGGTGATGGTGAACTGATGGTGCCTGAAGCAATTTGGCTACTTTTGCAATGTGACA -AGTTATGGCAGTGCTGACTGGTGGCGAAGAATTTTGACGATTGAGTCATGCAGAAAAAAACGGGTTCAGCTTCAG -TTGATTAAATGAGGAGTGAGAAGTCCGAAACAGGACTCACTGTATAAATAAACAGCTATTTTGTTGAGGAAGGGT -AAGATAACGGCGGGTGCCTGAAGCTTTCCGGTTTCAGGTTTACTCTGAGGTCTGGAAAGATGAAGCCCCAGGAGA -TATTTCTATCAACCCTGGGGCTGCCACTCCAAACCCGAACAATTTGGATGGTAGTCCCTTCTTCGCATGGAGGCA -ATATAAACATGCTGACGAAATATGCCCTTGCGGCAGTCATAGTGCTGTGTTTAACGGTGCTGGGATTTACGCTTC -TGGTCGGAGACTCGCTGTGTGAGTTTACGGTGAAGGAACGTAATATTGAGTTTAAGGCTGTTCTCGCTTACGAAC -CGAAGAAGTAGCCGTTGTGCGGGGAGTAATCCCATAAGCGCTAACTTAAGGGTTGTGGTATTACGCCTGATATGA -TTTAACGTGCCGATGAATTACTCTCACGATAACTGGTCAGCAATTCTGGCCCATATTGGTAAGCCCGAAGAACTG -GATACTTCGGCACGTAATGCCGGGGCTCTAACCCGCCGCCGCGAAATTCGTGATGCTGCAACTCTGCTACGTCTG -GGGCTGGCTTACGGCCCCGGGGGGATGTCATTACGTGAAGTCACTGCATGGGCTCAGCTCCATGACGTTGCAACA -TTATCTGACGTGGCTCTCCTGAAGCGGCTGCGGAATGCCGCCGACTGGTTTGGCATACTTGCCGCACAAACACTT -GCTGTACGCGCCGCAGTTACGGGTTGTACAAGCGGAAAGAGATTGCGTCTTGTCGATGGAACAGCAATCAGTGCG -CCCGGGGGCGGCAGCGCTGAATGGCGACTACATATGGGATATGATCCTCATACCTGTCAGTTCACTGATTTTGAG -CTAACCGACAGCAGAGACGCTGAACGGCTGGACCGATTTGCGCAAACGGCAGACGAGATACGCATTGCTGACCGG -GGATTCGGTTCGCGTCCCGAATGTATCCGCTCACTTGCTTTTGGAGAAGCTGATTATATCGTCCGGGTTCACTGG -CGAGGATTGCGCTGGTTAACTGCAGAAGGAATGCGCTTTGACATGATGGGTTTTCTGCGCGGGCTGGATTGCGGT -AAGAACGGTGAAACCACTGTAATGATAGGCAATTCAGGTAATAAAAAAGCCGGAGCTCCCTTTCCGGCACGTCTC -ATTGCCGTATCACTTCCTCCCGAAAAAGCATTAATCAGTAAAACCCGACTGCTCAGCGAGAATCGTCGAAAAGGA -CGAGTAGTTCAGGCGGAAACGCTGGAAGCAGCGGGCCATGTGCTATTGCTAACATCATTACCGGAAGATGAATAT -TCAGCAGAGCAAGTGGCTGATTGTTACCGTCTGCGATGGCAAATTGAACTGGCTTTTAAGCGGCTCAAAAGTTTG -CTGCACCTGGATGCTTTGCGTGCAAAGGAACCTGAACTCGCGAAAGCGTGGATATTTGCTAATCTACTCGCCGCA -TTTTTAATTGACGACATAATCCAGCCATCGCTGGATTTCCCCCCCAGAAGTGCCGGATCCGAAAAGAAGAACTAA -CTCGTTGTGGAGAATAACAAAAATGGTCATCTGGAGCTTACAGGTGGCCATTCGTGGGACAGTATCCCTGACAGC -CTACAAAACGCAATTGAAGAACGCGAGGCATCGTCTTAACGAGGCACCGAGGCGTCGCATTCTTCAGATGGTTCA -ACCCTTAAGTTAGCGCTTATGGGAGTAATCCCCGCATATCCGGTTGTCAGGTCAGGATGGTAAGGCACCTGCTTT -ACACTTTCGCCCGTGGTCAGTGATGGCTGCGGGCGAATCGTACCAGATGTTGTCAATTAATCGTGTTGGCACAGC -GTTATGACTATCTTTTCTTTTATCTGCCAGTGCACAGCAAACATCTCATTCTCACGATGAATGATGACCTGCTGT -TTATTCCAGCTAATTATCTGATAGTCCAGAAAACCTGCATCAGTTTGGATCTCACTTGCCTTAAATGCGCTCTCT -TTGGCGGAAAATGCCAGTGTCAGCGCCAGAGAAAAGGCTAAACCGCAGTCTGCGAGTCGCTCGTGTTCCGCTGGT -GTAATAATGTTGTCTGTCAATTCTCTTGCGGTTTGTACAGAAAAAATTTCTTCTATATCAATGCCAATCGGTTGA -CGAGATACCACGGCTAATGCCGTAGTCCCACAGTGGCTAATACTGCCGTATACCTCCGCAGGCCAGACAGGTTGG -CGTAGCTCGCCGATTGCGGGCACACATTTATAGCCATATTCCCGCAAAGCATAAACAGCAGCGATCCGTCCGGCT -AAATGCTCTGTTTTACGTTTACGTCCAGCGTGTTGCAGTTGTGCGTAGTGCGGCAGCCAGAGTAAATCCTGCTCA -CAAAAATTCGCCGGATCGAACTCAACAAAATGCAGCGTATGTCCGGCAAAGGGGAGGGAGGTATGCGTAGTTTTC -ATATCGACCATATTCGAGACTGATGACAAACGCAAAACTGCCTGATGCGCTACGCTTATCAGGCCTACATGGTCC -TGCAATATATTGAATTGGCAAGATTTTTGTAGGCCGGATAAGGCGTTCACGCCGCATCCGGCATGAACGACGCGC -ACTTTGTCAACAATCTGACGTTAGCATCAGAAGTGGGTGTTTACGCTCATATACCACGTACGTCCCGGCTCGTTA -TAGGTATACGCCCCGGCACCGGCGATATAGTTGGCCCCTGCCAAATCGCCCGTGGTCTGGGCATTACCCGCACGC -CACAAACGTTTGTCGAACAGATTGTCCACGCCGCCGGTCAGACTGACATTCTTCGTCACATCCCAGGTCGCGCTC -AGGCCAACAATGCTGTAAGGACTAATTTCTTTGGTTTCCGGTCCAACCGCTGGCTGACCTTTATAGTTGTACTTC -TTCGGCTGCTGCTTGCCGTACCAGGTGAAGGTCGTTTGCATCGACAAATCTTCCCGTGCCTGCCAGCTCAGCGTT -GAGTTCAACGTATACTCCGGGATGATCGACAAACGGTCGCCCGTGGTTTTGTTTTCACTCTTCAGCATATAAGTG -ATGTTATTGGTCCACATCACCGTTTCGCTAACCGGTACGTTTAACGATCCTTCCAGACCTTCAACCACCGCTTTC -GGCACGTTATCCCACTGATAGAGATCGGTGCCGACTGCGTTTTGCCCTACAGCCACATAGCCCGCTTCAATCTTA -TTGCGATAATCGTTACGGAACCAGGTGACGCCCGCCAGCCACCCGTCGCGTTTGAACTCCAGACCAATCTCTTTG -TTGATGCTGGTTTCTGCTTTCAGGTCATCGTTACCTTGCAGATAGCAGCCGCCCGCGCTGGCATAGCAACCCTGA -CCTTTACTGTAGAGAATGTAGTTCGGGTTAGTCTGGTACAGGCTCGGCGCTTTATAAGCACGGGCGATGCCCATT -TTCAGCGTGAAGTCATCGCCTAAACCTTGCGATATGTTCAGCGCCGGGCTCCAGTTATTGCCGACAATACTGTGA -TGATCGAAACGCAGCCCCGGCGTTACGATGGTGCTGTCAGTCAGCTCCATGTTGTTTTCGGCAAACAGCGAGAAA -ATTTCTGCTTTTGAATACGGGCTACGGTCGGTGGTACTCACGCCATCAATAGCGCCACCGGTATTCGTTCCGGTC -AGTGCCTGGGTGTTGGAACTTAAGTCCTTCATCCGTTGCTGATTCCACTCCGTACCCAGCGTCAGCGTCTGGTTA -ACGAGGAAATCAATCGGCAGGTTAACTTCGCTGTGCAGCATCACGTCATCAAGATCGATATCGACGAAATCCTGT -GTCGCTTTTTCGTTAAATTTCCCTTCGGTACCGCCCGCCAGACCTTCCGGAATACGCGAGTTACGGGTGTGTTCG -TACTGCACCCAGTTGCTGGTGGTCACGCCGTTATCCCAGCCACCGTTCCAGGTCAGCGCGTAGTTCTGGCGATAC -AGACGGTTGGTTTCATCGCCATATTTCGAGCGGGTATAGGAATCGGAGTTGGTATTCTGGGTGTCGCCCGCATAC -AGGTTACCCTGGCGGCTGTAACCTGCTTCCAGTTCCAGCGATTGCAATGGCGCGAAATCCCAGCGCACCACGCCA -TTAATATCTTTGTTGATTACCCCTTCGCGCCCGGCTGGTAACGTCGTGGCATACGTTCCGGCACGCGCGGACTGA -TGGCCCTGGTTGATATCCCACGCGTCAGCCTGGGTTTTGTCGAGGTTGCCATACAAACGGAAGCTGAATTCGTCG -CCCAGCGGACCGGTCAGGCTAAAGTTAGTGCGTTTGGTGGCACCTTCCTCTTTATGTTCTGGCGCATTGAAATAT -GCGTCCCAGGAGCCGTGCCACTCGCCGCTGCCTTTTTTGGTAATGATGTTAACCACGCCGCCCGCCGCGCCGTTG -CCATAACGCGCAGCTGCCGGACCACGCAGAACTTCAATACGTTCAATCATTTCAGGTGGCACCCAGGAAGTATCA -CCACGGGTATCGCGCTCGCCACGCCAGCCCTGACGCACCGAGTTACGGCTGCTTACCGGCTTGCCGTCAATCAAA -ATCAGCGTGTTTTCCGGACCCATACCGCGAATATCAATCTGTCGGTTATTCCCACGCTGACCACTGGTGGAGTTA -CCGGTCAGGTTAACGCCTGGCATGGTACGGATGATCTTCGACACATCGCGGGCAACCGGGTTTTTGCGGATTTCA -TCTGCGGTGATGGTCGAAACGCCAGGCGCCTGTAAGTTCTGCTCGGCGGCGGTAACGACAATAGTATCGTCATGT -GAAACAGGAGTATCGGTCGGCTCTTGTGCCTGCGCTACCCCATAAATCCCCAGATTGACCAACAAGGCCAGGGAA -TGAATCTTCTTGTTCATTGTTTTATTCCTGCATTTTTGCCACGAATTGCAACTGTCGGGCATGGTCGTCATCAAC -ACGACGCATCCCGCTACCGCGAAAACCTTTGATCCTGAAAGACACGCAGTGCAGTTGGTTAATTAATGTCCGCGC -TTCCCACGGCGCGCCATTACGCTATTGCAAATGCAAATAGTTATCAATAATATTATCAATATATTTCTGCAATCA -ATGAAAAATTGCACAGTAAACATGGGGTTATGGTGTGACGGCGTTAAAAGTAGGAAGTGAGAGCTGGTGGCAGTC -GAAACATGGCCCGGAATGGCAGCGTCTGAATGACGAAATGTTTGAGGTCACTTTCTGGTGGCGTGATCCCCAAGG -TTCTGAAGAATACTCGACGATAAAGCGCGTATGGGTCTACATCACTGGTGTGACCGATCACCATCAGAACAGCCA -GCCCCAGTCGATGCAGCGAATTGCAGGCACTAACGTCTGGCAGTGGACGACACAACTCAATGCCAACTGGCGCGG -CAGCTACTGCTTTATTCCCACCGAACGCGATGACATTTTTTCTGTACCATCCCCCGATCGCCTCGAATTGCGCGA -AGGCTGGCGAAAACTATTACCCCAGGCGATAGCCGATCCGCTGAACCTACAAAGCTGGAAAGGCGGGCGAGGGCA -CGCTGTTTCTGCACTCGAAATGCCGCAAGCGCCTCTGCAACCGGGATGGGATTGTCCGCAAGCGCCAGAAATACC -TGCCAAAGAAATTATCTGGAAAAGTGAACGGTTGAAAAAGTCACGGCGTGTATGGATTTTTACCACCGGCGATGC -AACAGCAGAAGAACGCCCGCTGGCAGTTTTGCTCGATGGCGAATTTTGGGCGCAAAGTATGCCCGTCTGGCCAGT -GCTGACTTCGCTGACCCATCGTCAGCAACTTCCTCCCGCCGTGTATGTGTTGATCGACGCTATCGACACCACGCA -CCGCGCCCACGAACTGCCGTGTAATGCGGATTTCTGGCTCGCAGTACAGCAAGAGTTATTACCCCTGGTGAAAGC -TATTGCCCCTTTTAGCGATCGTGCCGATCGCACCGTGGTTGCCGGGCAGAGTTTTGGTGGGCTTTCCGCGCTGTA -TGCCGGACTGCACTGGCCTGAACGCTTTGGCTGTGTATTAAGCCAGTCAGGATCGTACTGGTGGCCGCATCGGGG -CGGGCAGCAAGAGGGCGTGTTACTTGAAAAGCTAAAAGCTGGTGAAGTTAGCGCCGAAGGTCTGCGCATTGTGCT -GGAAGCGGGTATTCGCGAGCCGATGATCATGCGGGCCAATCAGGCGCTGTATGCGCAATTACACCCCATAAAAGA -ATCCATTTTCTGGCGTCAGGTTGACGGCGGACATGATGCGCTTTGTTGGCGCGGTGGCTTGATGCAGGGGCTAAT -CGACCTCTGGCAACCACTTTTCCATGACAGGAGTTGAATATGGCATTCAGTAATCCCTTCGATGATCCGCAGGGA -GCGTTTTACATATTGCGCAATGCGCAGGGGCAATTCAGTCTGTGGCCGCAACAATGCGTCTTACCGGCAGGCTGG -GACATTGTGTGTCAGCCGCAGTCACAGGCGTCCTGCCAGCAGTGGCTGGAAGCCCACTGGCGTACTCTGACACCG -ACGAATTTTACCCAGTTGCAGGAGGCACAATGAGCCAGCATTTACCTTTGGTCGCCGCACAGCCCGGCATCTGGA -TGGCAGAAAAACTGTCAGAATTACCCTCCGCCTGGAGCGTGGCGCATTACGTTGAGTTAACCGGAGAGGTTGATT -CGCCATTACTGGCCCGCGCGGTGGTTGCCGGACTAGCGCAAGCAGATACGCTGCGGATGCGTTTTACGGAAGATA -ACGGCGAAGTCTGGCAGTGGGTCGATGATGCGCTGACGTTCGAACTGCCAGAAATTATCGACCTACGAACCAACA -TTGATCCGCACGGTACTGCGCAGGCATTAATGCAGGCGGATTTGCAACAAGATCTGCGCGTCGATAGCGGTAAAC -CACTGGTCTTTCATCAGCTGATACAGGTGGCGGATAACCGCTGGTACTGGTATCAGCGTTATCACCATTTGCTGG -TCGATGGCTTTAGTTTCCCGGCCATTACCCGCCAGATCGCCAATATTTACTGCACATGGCTGCGTGGCGAACCAA -CGCCTGCTTCGCCATTTACGCCTTTCGCTGATGTAGTGGAAGAGTACCAGCAATACCGCGAAAGCGAAGCCTGGC -AGCGTGATGCGGCATTCTGGGCAGAACAGCGTCGTCAACTGCCGCCGCCCGCGTCACTTTCTCCGGCACCTTTAC -CGGGGCGCAGCGCCTCGGCAGATATTCTGCGCCTGAAACTGGAATTTACCGACGGGGAATTCCGCCAGCTGGCTA -CGCAACTTTCAGGTGTGCAGCGTACCGATTTAGCCCTTGCGCTGGCAGCCTTGTGGCTGGGGCGATTGTGCAATC -GTATGGACTACGCCGCCGGATTTATCTTTATGCGTCGACTGGGCTCGGCGGCGCTGACGGCTACCGGACCCGTGC -TCAACGTTTTGCCGTTGGGTATTCACATTGCGGCGCAAGAAACGCTGCCGGAACTGGCAACCCGACTGGCAGCAC -AACTGAAAAAAATGCGTCGTCATCAACGTTACGATGCCGAACAAATTGTCCGTGACAGCGGGCGAGCGGCAGGTG -ATGAACCGCTGTTTGGTCCGGTACTCAATATCAAGGTATTTGATTACCAACTGGATATTCCTGATGTTCAGGCGC -AAACCCATACCCTGGCAACCGGTCCGGTTAATGACCTTGAACTGGCCCTGTTCCCGGATGTACACGGTGATTTGA -GTATTGAGATCCTCGCCAATAAACAGCGTTACGATGAGCCAACGTTAATCCAGCATGCTGAACGCCTGAAAATGC -TGATTGCCCAGTTCGCCGCGGATCCGGCGCTGTTGTGCGGCGATGTCGATATTATGCTGCCAGGTGAGTATGCGC -AGCTGGCGCAGCTCAACGCCACTCAGGTTGAGATTCCAGAAACCACGCTTAGCGCGCTGGTGGCAGAACAAGCGG -CAAAAACACCGGATGCTCCGGCGCTGGCAGATGCGCGTTACCTGTTCAGCTATCGGGAAATGCGCGAGCAGGTGG -TGGCGCTGGCGAATCTGCTGCGTGAGCGCGGCGTTAAACCAGGGGACAGCGTGGCGGTGGCACTACCGCGCTCGG -TCTTTTTGACCCTGGCACTCCATGCGATAGTTGAAGCTGGAGCGGCCTGGCTACCGCTGGATACCGGCTATCCGG -ACGATCGCCTGAAAATGATGCTGGAAGATGCGCGTCCGTCGCTGTTAATTACCACCGACGATCAACTGCCGCGCT -TTAGCGATGTTCCCAATTTAACAAGCCTTTGCTATAACGCCCCGCTTACACCGCAGGGCAGTGCGCCGCTGCAAC -TTTCACAACCGCATCACACGGCTTATATCATCTTTACCTCTGGCTCCACCGGCAGGCCGAAAGGGGTAATGGTCG -GGCAGACGGCTATCGTCAACCGCCTGCTTTGGATGCAAAATCATTATCCGCTTACAGGCGAAGATGTCGTTGCCC -AAAAAACGCCGTGCAGTTTTGATGTCTCGGTGTGGGAGTTTTTCTGGCCGTTTATCGCAGGGGCAAAACTGGTGA -TGGCTGAACCGGAAGCGCACCGCGACCCGCTCGCTATGCAGCAATTCTTTGCCGAATATGGCGTAACGACCACGC -ACTTTGTGCCGTCGATGCTGGCGGCATTTGTTGCCTCGCTGACGCCGCAAACCGCTCGCCAGAGTTGCGCGACGT -TGAAACAGGTTTTCTGTAGTGGTGAGGCCTTACCGGCTGATTTATGCCGCGAATGGCAACAGTTAACTGGCGCGC -CGTTGCATAATCTATATGGCCCGACGGAAGCGGCGGTAGATGTCAGCTGGTATCCGGCTTTTGGCGAGGAACTGG -CACAGGTGCGCGGCAGCAGTGTGCCGATTGGTTATCCGGTATGGAATACGGGTCTGCGTATTCTTGATGCGATGA -TGCATCCGGTGCCGCCGGGTGTGGCGGGTGATCTCTATCTCACTGGCATTCAACTGGCGCAGGGCTATCTCGGAC -GCCCCGATCTGACCGCCAGCCGCTTTATTGCCGATCCTTTTGCCCCAGGTGAACGGATGTACCGTACCGGAGACG -TTGCCCGCTGGCTGGATAACGGCGCGGTGGAGTACCTCGGGCGCAGTGATGATCAGCTAAAAATTCGCGGGCAGC -GTATCGAACTGGGCGAAATCGATCGCGTGATGCAGGCGCTGCCGGATGTCGAACAAGCCGTTACCCACGCCTGTG -TGATTAACCAGGCGGCTGCCACCGGTGGTGATGCGCGTCAATTGGTGGGCTATCTGGTGTCGCAATCGGGCCTGC -CGTTGGATACCAGCGCATTGCAGGCGCAGCTTCGTGAAACATTGCCACCACATATGGTACCGGTGGTTCTGCTGC -AACTTCCACAGTTACCACTTAGCGCCAACGGCAAGCTGGATCGCAAAGCCTTACCGTTGCCTGAACTGAAGGCAC -AAGCGCCAGGGCGTGCGCCGAAAGCGGGCAGTGAAACGATTATCGCCGCGGCATTCTCGTCGTTGCTGGGGTGTG -ACGTGCAGGATGCCGATGCTGATTTCTTCGCGCTTGGCGGTCATTCGCTACTGGCAATGAAACTGGCAGCGCAGT -TAAGTCGGCAGGTTGCCCGCCAGGTGACGCCGGGGCAAGTGATGGTCGCGTCAACTGTCGCCAAACTGGCAACGA -TTATTGATGCTGAAGAAGACAGCACCCGGCGTATGGGATTCGAAACCATTCTGCCGTTGCGTGAAGGTAATGGCC -CGACGCTGTTTTGTTTCCATCCTGCGTCCGGTTTTGCCTGGCAGTTCAGCGTGCTCTCGCGTTATCTCGATCCAC -AATGGTCGATTATCGGCATTCAGTCACCGCGCCCCAATGGCCCCATGCAGACGGCGGCAAACCTGGATGAAGTCT -GCGAAGCGCATCTGGCAACGTTACTTGAACAACAACCGCATGGCCCTTATTACCTGCTGGGGTATTCCCTTGGCG -GTACGCTGGCGCAGGGTATTGCGGCGCGACTGCGTGCCCGTGGCGAACAGGTGGCATTTCTTGGCTTGCTGGATA -CCTGGCCGCCAGAAACGCAAAACTGGCAGGAAAAAGAAGCTAATGGTCTGGACCCGGAAGTGCTGGCGGAGATTA -ACCGCGAACGCGAGGCCTTCCTGGCAGCACAGCAGGGAAGTACTTCAACGGAGTTGTTTACCACCATTGAAGGCA -ACTACGCTGATGCTGTGCGCCTGCTGACGACTGCTCATAGCGTACCGTTTGACGGTAAAGCGACGCTGTTTGTTG -CTGAACGCACACTTCAGGAAGGTATGAGTCCCGAACGCGCCTGGTCGCCGTGGATAGCGGAGCTGGATATCTATC -GTCAGGATTGTGCGCATGTGGATATTATCTCTCCAGGGACGTTTGAAAAAATTGGGCCGATTATTCGCGCAACGC -TAAACAGGTAAATTAATATTATTTATAAACCCATAATTACAGAAAATAATTATGGGTTTTTTATTTGTTTGATTT -ATAGGTTTGATGAATATTTCTCTTAAATAGAGTGAATGTTGCATTCAGTGGAAGGAATTTACAAACTTCAGCTTC -GGATAATTATCACCAACTGGTAAAGTGAGCGCCGTGGAGATTTCCCCCTATTGGACTCATTTTCAGGTTATACCC -CATGTCATCACTGAATATTAAACAGGGAAGTGACGCTCATTTTCCCGATTATCCTCTGGCGTCGCCCAGTAATAA -TGAAATTGATTTACTTAATCTAATCTCAGTTTTATGGCGGGCCAAAAAAACGGTCATGGCGGTCGTTTTTGCGTT -TGCCTGCGCAGGCTTGCTGATCTCTTTCATCCTGCCGCAAAAATGGACCAGCGCGGCGGTTGTCACGCCTCCAGA -ACCTGTTCAGTGGCAAGAGTTGGAGAAATCATTCACTAAGCTTCGTGTGCTGGATCTGGATATCAAAATTGATCG -TACAGAAGCATTTAACCTGTTTATCAAGAAGTTTCAGTCGGTTAGCTTGCTGGAAGAGTACCTGCGTTCATCACC -TTATGTGATGGACCAATTAAAAGAGGCGAAAATCGACGAACTGGATTTGCATCGCGCAATTGTCGCATTGAGCGA -AAAAATGAAAGCGGTTGATGACAATGCCAGTAAGAAAAAAGATGAACCGTCACTGTATACCTCCTGGACGCTAAG -TTTTACCGCGCCAACCAGTGAAGAGGCGCAGACCGTTTTGAGCGGGTATATCGATTATATCTCTACGTTGGTGGT -GAAAGAGTCGCTAGAAAACGTCCGTAATAAACTGGAGATCAAAACCCAGTTTGAAAAAGAAAAACTGGCTCAGGA -TCGCATTAAAACGAAAAATCAACTTGATGCAAACATTCAGCGCCTCAATTATTCACTCGACATTGCCAACGCGGC -AGGAATTAAAAAGCCCGTTTACAGTAATGGTCAGGCCGTTAAAGATGACCCCGATTTTTCTATTTCTCTCGGTGC -AGACGGTATTGAACGCAAACTGGAAATAGAAAAAGCGGTCACTGACGTTGCGGAACTGAACGGTGAATTACGTAA -TCGGCAGTATCTTGTCGAGCAATTAACAAAAGCACATGTCAACGATGTGAATTTTACGCCGTTTAAATATCAGTT -AAGCCCGTCATTGCCAGTGAAAAAAGACGGTCCGGGTAAGGCGATTATTGTGATCCTTTCCGCGTTGATCGGCGG -GATGGTGGCTTGTGGTGGCGTGCTGTTGCGCTATGCGATGGCATCCAGAAAACAGGATGCCATGATGGCAGACCA -CTTAGTTTAACTATTTGCGGTTGAAGGTGCCGTTCGTCCGAGCGGCACCACAAGCGGCGTTCCGGCAACTGGATC -GTCAATGATCATGCAGCGCAGACCATAAATGCGCTCAATCAGTTCAGCAGTGACAATCTCCTTCGGCGCTCCCTG -AGCAACAATTTTCCCTTCCCGCAATGCAATCAAATGGCTGGCGTAACGACAGGCCTGATTAAGATCGTGCAGCAC -CGCCGCCAGGGTATAGCCTTTTTCGCGGTTCAGTTCGCTTAACAACTCCAGCAAATCAATCTGATGACTGATATC -CAGCCAGGTCGTGGGTTCGTCGAGCAGCATAATTGCCGTTTCCTGGGCCAGCACCATCGCGATCCACGCTCGCTG -GCGTTGTCCGCCAGAAAGGGTATCCACGCTTTGATCTGCCAGATGAGTTATTCCCGTGGCCTGCATTGCTTTCGT -TACCGCTTCTTCATCCTCTTTGCGCCAGCGGGTAAACAGCGGTTGATGCGGATAACGTCCACGCGCCACCAGCTC -CTGCACGGTGATATCGCCCGGCGTGGTAGCATTTTGCGCCAACAGACCAATCCGGCGTGCAACCTCTTTACTGGC -GTAATGTTGAATGTGCTCGCCATCCAGCCAGACATGCCCATGAGCAGGCGTCATCAGGCGGCTTAAGGTACGCAG -TAACGTGGATTTACCGCAGCCATTTGGCCCGATAATTGCCGTGAAGTGACCATCAGGTATTTCTACAGTCAGATT -TTCCGCAACGGTATATTTGCCATATCCCAGGGTTAACTGTTCGCCGCGCAAACGGGCTACTGATTCGGTCATTTT -TTGCGAGACTCCTGAATTAACAAGACGATAAGGTAAATACCGCCGAGGCTGACGGTAACGACGCCAACCGGAAGT -TGATACGGCATAAACAGTTGTTGGGCGCAGAGATCGGCCGCCAGCAGTAACAGCGCCCCGCATAGCGCCGCCTGG -GTTAGCCCCCAGCGAGCGGTGCCGCTAATGCGTCGGGCAATGTGCGGTGCGACTAAAGCAATAAAGGAAATCGGC -CCGGCAAGCGCTGTTGCCGCAGCGGTAAGCACCACTGCAACCAGCATCATTAACAGACGCGAACGTTCGACGCTG -ACGCCCAGCGCACACGCGGTATCATCGCCCATTTCCAGCAAGCGCATCCGGCGTACCAGTAAGGCGGCGGCAATG -AGCATCAATATAATGATGGGTGCGGAAGGCGAGGTTTTTGCCCACGTCAGGCCGTTGAGCGATCCGGCATTCCAC -AAACCTGCTGTTAGCGCCGTTTCTAAAGACGCTTTCAGCAACAGCCAGGTATTAAAGGCCACCAGCATGGCGCGA -ACGCCGATACCGATAATAATCAACCGAAAGGTGTCGATGCCGTTGCGCCAGGCGAGCAGCCAGACCAGCAGCGAA -GTGACAATGCCGCCCACCATTGCTGACAGCGCGATAGCCGTCAGGTCCTGACCAAACAGCACCATCGCCACCAGC -ACGCCGCTCCACGCCCCGGTGTTAAAGCCCATTACGTCAGGGCTGCCGAGCGGGTTACGCATCAGCGACTGAAAA -ATCGCGCCACTGACGCCCAGTGCTGCGCCAATCAACAGCGCCATCAGCACGCGTGGTAAACGCCATTCGGTGACC -ACCATCGTCATACTGCGCGGCGCATCGCCCATCAGCGCGGCGAATACCTGCGAGGTTTCCAGCGTGACGGCACCG -CTGCGTAATCCCCAGATACCTGCAACCACACAGGCGGAAACCAGCAGCAAACAGGTGATGAGTAATCGGCGAGAG -ACGTAAATCATGCACCACCTCGCGTTTTACGTCGCACGAGGAAGATCAGCACCGGTGCACCAATAAACGCACTGA -CCACAGAAACGCGCAGTTCGCCGGGCACAATCACCCGCCCGATGATATCGGCAAACAGCAGCAGGGCAGGGGTAG -CAAGTAGCGTGACGGGCAGCGACCAGCGATGATCGGCACCCACCAGCCAACGCGCCATATGCGGCATCATCAGGC -CAATAAAGGCAATCGGGCCAACTATTGCCGTCGCACTACCACAAAGCACGGTAATCGCCAGCAGACCAATCAACT -GTGTGCGCGCCACGCGACTGCCCAGCGCCGTCGCGGTGTCGCTGCCGAGGCTCAAACTGTTCAGCGCGCGACTCA -GTAATAGCGCAGTTGCTCCGGCGATCAGCACCGGGATCAGCACCACTTTTAAGGTATGTAGATTGCGAATATCCA -GCGAACCGGCTTGCCAGAAACGCAACTGATCGTAGACGTCAGGATTAAGCAGGGCGATGCCGCTGGTCAGTCCTT -CCAGCACCGCCGCCAGCGCCACGCCCGCCAGGGTTAAACGCACCGGACTTAACTGCCCGCCGCCCTGACTGCCGG -TAAAGGCAACAATCAATGAGGCCACCAGCGCCCCGGCGAAGGCCATCGCCAGTTGTTCCTGCGCGGAAGAGTAAC -CAAACAGCGCCGCACCCAGCACAATGGCAAAGCTGGCTCCGGCGTTCACGCCAAGCAAGCCGGGGTCGGCAAGTG -GGTTTCGGGTGAGGGTTTGCATTAACGCCCCGGCAAGGCCAAGCGCGCCGCCTGCCAGTAAACCGGCAAGGGTAC -GCGGCAGCCGCGCGTCGAGCACGATGGTGCAGTCGGCGCTCTGGCAGGTGCCGGAGAAGGCCTCCAGCACTACGG -AAGCGGGGAGTGATTTTGCCCCAATGAGCAGGCTTAATGCCGTCGCGATAATCAGTAATAACAGCAATCCGGGCA -CGGCAATGGCGCGTGTCACGGCAACAGAACCAGACATACGAACTTCCATGATAATGAAATTAATTATCGTTATCG -ATCTTATTTGGATATGTTAGCATGTGCAGCCTAAGAATAGGTATTTAAAATATTTGATGGCAAGGCATTGTAATG -AATAAACAATCCTGGCTGCTTAACCTCAGCCTGTTGAAAACGCACCCGGCGTTTCGCGCAGTATTCCTCGCTCGT -TTCATCTCAATTGTGTCTCTGGGTTTGCTCGGCGTCGCGGTGCCGGTGCAGATCCAGATGATGACACATTCCACC -TGGCAGGTGGGGCTTTCGGTGACGCTGACCGGCGGCGCGATGTTTGTTGGCCTGATGGTCGGCGGTGTGCTGGCG -GATCGCTATGAGCGCAAAAAAGTGATTTTGCTGGCGCGCGGCACCTGTGGCATTGGCTTCATTGGACTGTGCCTT -AATGCACTGCTGCCGGAGCCGTCATTGCTGGCAATCTATTTACTTGGTTTATGGGATGGTTTTTTCGCATCGCTT -GGCGTTACGGCGCTATTGGCGGCGACACCAGCACTGGTAGGGCGTGAAAACTTAATGCAGGCCGGGGCGATCACC -ATGTTGACCGTGCGTCTGGGGTCGGTGATTTCGCCCATGATTGGCGGTTTATTGCTGGCGACCGGTGGCGTAGCC -TGGAACTACGGGCTGGCGGCGGCGGGCACGTTTATTACCTTGCTACCGTTGTTAAGCCTTCCGGCGTTGCCACCG -CCACCGCAGCCGCGTGAGCATCCGTTGAAATCATTACTGGCAGGATTTCGTTTTCTGCTTGCCAGCCCGCTGGTG -GGCGGGATTGCGCTGCTGGGTGGTTTATTGACGATGGCGAGCGCGGTGCGGGTACTGTATCCGGCGCTGGCTGAC -AACTGGCAGATGTCAGCGGCACAGATTGGTTTTCTCTACGCGGCGATCCCGCTCGGCGCGGCTATTGGTGCGTTA -ACCAGCGGGAAGCTGGCACATAGTGCGCGACCAGGGTTATTGATGCTGCTCTCCACGCTGGGATCGTTCCTCGCC -ATTGGTCTGTTTGGCCTGATGCCGATGTGGATTTTAGGCGTGGTTTGTCTGGCGCTGTTCGGCTGGTTGAGTGCG -GTCAGCTCGTTGCTGCAATACACAATGCTGCAAACGCAAACCCCGGAAGCGATGTTAGGGCGGATTAACGGTTTG -TGGACGGCGCAGAACGTGACGGGCGATGCCATAGGCGCGGCGCTGCTGGGTGGTTTGGGCGCGATGATGACACCG -GTTGCTTCCGCAAGCGCGAGCGGTTTTGGTTTGTTGATTATCGGCGTGTTGTTATTGCTGGTGCTGGTGGAGTTG -CGACATTTTCGCCAGACGCCGCCGCAGGTGACAGCGTCCGACAGTTAATGCTTAAAACAGCGCCTTAAGCCTATC -CAGCACTTGCATGGCGCTGTAGTAATCCAGACGGAACGTCTCGGTTCCCAGCGCATAAACCTGCTTGTTTTGTAC -TGCAGGCAGGTGCGCGAGCAGCGGATTAGCATAAATAGCATCGGCATCTTTCTGATCACCGGCGAACAGGAATAG -TGACTCGCCATTTAACCCTGCAGCCAGATTTTCCCCACCAAGCTGAATGATGTCATGGCGTTTACCCTGACTTTG -GCTGGCATTTAACCCTGCGGGTAACTTCGCCAGCGTAAAGCCGAGTTGTTCCAGCATCTGCCCTTGTGCTGATTC -TGGCGTCCAGAGATTGGCACTGTGTGCAGCGGCAGTATAGACAATGGCAGTGACCGGCTGCGGCGGTAATTTGAT -TTGCTCTTTCGCCGCCGCCAGTTGCTTATCAAACTGCGCAATCCGCTCTGCCGCTTGTTTCTCATGCCCGGTAAT -TTCGCCAAGTTGCGTTAACAGCGACTGCCAGCTTTTGTCGTCGTAATTGATGATTAATGTCGGGGCGATGGTGGA -AAGCTGATCATACAGTGCCAGCGCCGAATCCCCGCCGGTTGCGCTAATTAAAATCAGATCCGGCATTTGCGCGGC -AACGGCTTCGGCGCTCGGTTCGCCGATATAGAGCCGTTGCAGTTTGCGTTCTTTCGCCACCTTGCTCCACTGGCG -TAAAAAGCCCTGGTCATCCGCGACGCGGTTATTCGGCGTGGTCGCGCCGCTGGCGATCACCGGAGCATCAATCGC -CAGCAGTGAGCCGGTCAGGGTGACGCTGGTGGAAACAATACGCTGCGGCTGGCTTTCCAGTGTATGTGTGCCACG -GCTGTCAGTAATCTGACGCGGCCAGTCAGCGGCCTGAACTGCGGCTATTCCTGAAAGCAAAAGTCCTGTTAATAG -AAGGGCGTTGCGGTAGAGCGGGGCGAGTCTCACAAATCAGCTTCCTGTTATTAATAAGGTTAAGGGCGTAATGAC -AAATTCGACAAAGCGCACAATCCGTCCCCTCGCCCCTTTGGGGAGAGGGTTAGGGTGAGGGGAACAGCCAGCACT -GGTGCGAACATTAACCCTCACCCCAGCCCTCACCCTGGAAGGGAGAGGGGGCAGAACGGCGCAGGACATCACATT -GCGCTTATGCGAATCCATCAATAATGCTTCTCATTTTCATTGTAACCACAACCAGATGCAACCCCGAGTTGCAGA -TTGCGTTACCTCAAGAGTTGACATAGTGCGCGTTTGCTTTTAGGTTAGCGACCGAAAATATAAATGATAATCATT -ATTAAAGCCTTTATCATTTTGTGGAGGATGATATGGATACGTCACTGGCTGAGGAAGTACAGCAGACCATGGCAA -CACTTGCGCCCAATCGCTTTTTCTTTATGTCGCCGTACCGCAGTTTTACGACGTCAGGATGTTTCGCCCGCTTCG -ATGAACCGGCTGTGAACGGGGATTCGCCCGACAGTCCCTTCCAGCAAAAACTCGCCGCGCTGTTTGCCGATGCCA -AAGCGCAGGGCATCAAAAATCCGGTGATGGTCGGGGCGATTCCCTTCGATCCACGTCAGCCTTCGTCGCTGTATA -TTCCTGAATCCTGGCAGTCGTTCTCCCGTCAGGAAAAACAAGCTTCCGCACGCCGTTTCACCCGCAGCCAGTCGC -TGAATGTGGTGGAACGCCAGGCAATTCCGGAGCAAACCACGTTTGAACAGATGGTTGCCCGCGCCGCCGCACTTA -CCGCCACGCCGCAGGTCGACAAAGTGGTGTTGTCACGGTTGATTGATATCACCACTGACGCCGCCATTGATAGTG -GCGTATTGCTGGAACGGTTGATTGCGCAAAACCCGGTTAGTTACAACTTCCATGTTCCGCTGGCTGATGGTGGCG -TCCTGCTGGGGGCCAGCCCGGAACTGCTGCTACGTAAAGACGGCGAGCGTTTTAGCTCCATTCCGTTAGCCGGTT -CCGCGCGTCGTCAGCCGGATGAAGTGCTCGATCGCGAAGCAGGTAATCGTCTGCTGGCGTCAGAAAAAGATCGCC -ATGAACATGAACTGGTGACTCAGGCGATGAAAGAGGTACTGCGCGAACGCAGTAGTGAGTTACACGTTCCTTCTT -CTCCACAGCTGATCACCACGCCGACGCTGTGGCATCTCGCAACTCCCTTTGAAGGTAAAGCGAATTCGCAAGAAA -ACGCACTGACTCTGGCCTGTCTGCTGCATCCGACCCCCGCGCTGAGCGGTTTCCCGCATCAGGCCGCGACCCAGG -TTATTGCTGAACTGGAACCGTTCGACCGCGAACTGTTTGGCGGCATTGTGGGTTGGTGTGACAGCGAAGGTAACG -GCGAATGGGTGGTGACCATCCGCTGCGCGAAGCTGCGGGAAAATCAGGTGCGTCTGTTTGCCGGAGCGGGGATTG -TGCCTGCGTCGTCACCGTTGGGTGAGTGGCGCGAAACAGGCGTCAAACTTTCTACCATGTTGAACGTTTTTGGAT -TGCATTAAGGAGCGAGGATGAGCATTCCATTCACCCGCTGGCCGGAAGAGTTTGCCCGTCGCTATCGGGAAAAAG -GCTACTGGCAGGATTTGCCGCTGACCGACATTCTGACGCGACATGCTGCGAGTGACAGCATCGCGGTTATCGACG -GCGAGCGACAGTTGAGTTATCGGGAGCTGAATCAGGCGGCGGATAACCTCGCGTGTAGTTTACGCCGTCAGGGCA -TTAAACCTGGTGAAACCGCGCTGGTACAACTGGGTAACGTCGCTGAATTGTATATTACCTTTTTCGCGCTGCTGA -AACTGGGCGTTGCGCCGGTGCTGGCGTTGTTCAGCCATCAGCGTAGTGAACTGAACGCCTATGCCAGCCAGATTG -AACCCGCATTGCTGATTGCCGATCGCCAACATGCGCTGTTTAGCGGGGATGATTTCCTCAATACTTTCGTCACAG -AACATTCCTCCATTCGCGTGGTGCAACTGCTCAACGACAGCGGTGAGCATAACTTGCAGGATGCGATTAACCATC -CGGCTGAGGATTTTACTGCCACGCCATCACCTGCTGATGAAGTGGCCTATTTCCAGCTTTCCGGTGGCACCACCG -GCACACCGAAACTGATCCCGCGCACTCATAACGACTACTACTACAGCGTGCGTCGTAGCGTCGAGATTTGTCAGT -TCACACAACAGACACGCTACCTGTGCGCGATCCCGGCGGCTCATAACTACGCCATGAGTTCGCCAGGATCGCTGG -GCGTCTTTCTTGCCGGAGGAACGGTTGTTCTGGCGGCCGATCCCAGCGCCACGCTCTGTTTCCCATTGATTGAAA -AACATCAGGTTAACGTTACCGCGCTGGTGCCACCCGCAGTCAGCCTGTGGTTGCAGGCGCTGATCGAAGGCGAAA -GCCGGGCGCAGCTTGCCTCGCTGAAACTGTTACAGGTCGGCGGCGCACGTCTTTCTGCCACCCTTGCGGCGCGTA -TTCCCGCTGAGATTGGCTGTCAGTTGCAGCAGGTGTTTGGCATGGCGGAAGGGCTGGTGAACTACACCCGACTTG -ATGATAGCGCGGAGAAAATTATCCATACCCAGGGTTACCCAATGTGTCCGGATGACGAAGTATGGGTTGCCGATG -CCGAAGGAAATCCACTGCCGCAAGGGGAAGTCGGACGCCTGATGACGCGCGGGCCGTACACCTTCCGCGGCTATT -ACAAAAGTCCACAGCACAATGCCAGCGCCTTTGATGCCAACGGTTTTTACTGTTCCGGCGATCTGATCTCTATTG -ATCCAGAGGGTTACATCACCGTGCAGGGGCGCGAGAAAGATCAGATTAACCGTGGCGGCGAGAAGATCGCTGCCG -AAGAGATCGAAAACCTGCTGCTGCGCCACCCGGCGGTGATCTACGCCGCACTGGTGAGCATGGAAGATGAGCTGA -TGGGCGAAAAAAGCTGCGCTTATCTGGTGGTAAAAGAGCCGCTGCGCGCGGTGCAGGTGCGTCGTTTCCTGCGTG -AACAGGGTATTGCCGAATTTAAATTACCGGATCGCGTGGAGTGTGTGGATTCACTTCCGCTGACGGCGGTCGGGA -AAGTCGATAAAAAACAATTACGTCAGTGGCTGGCGTCACGCGCATCAGCCTGAAGGAGAGAACACGATGGCTATT -CCAAAATTACAGGCTTACGCACTGCCGGAGTCTCACGATATTCCGCAGAATAAAGTTGACTGGGCCTTTGAACCG -CAACGTGCCGCGTTGTTAATCCATGATATGCAGGACTATTTTGTCAGCTTCTGGGGCGAGAACTGCCCGATGATG -GAGCAGGTGATCGCGAATATTGCTGCGCTGCGCGACTACTGCAAACAGCACAATATCCCGGTTTATTACACCGCC -CAGCCGAAAGAGCAGAGCGATGAAGATCGGGCGCTGTTGAATGATATGTGGGGGCCGGGCCTGACCCGCTCGCCG -GAACAGCAAAAGGTGGTGGATCGCCTGACGCCAGATGCCGACGACACGGTGCTGGTGAAGTGGCGCTACAGCGCG -TTTCATCGTTCTCCGCTGGAGCAAATGCTGAAAGAGAGTGGACGTAACCAGCTGATTATTACCGGGGTATATGCC -CACATTGGCTGTATGACCACCGCAACCGACGCATTTATGCGCGATATTAAACCGTTTATGGTGGCGGATGCGCTG -GCCGATTTCAGCCGTGACGAGCATTTGATGTCGCTGAAATATGTGGCCGGACGTTCTGGCCGGGTGGTGATGACT -GAAGAATTACTGCCAGCACCTATCCCCGCCAGCAAAGCGGCGCTGCGTGAGGTGATCCTGCCGTTGCTGGACGAG -TCCGATGAACCGTTCGATGACGACAACCTGATCGACTACGGTCTGGATTCGGTGCGCATGATGGCGCTGGCGGCG -CGCTGGCGCAAAGTGCATGGTGATATCGACTTTGTCATGCTGGCGAAAAACCCGACCATCGACGCCTGGTGGAAG -CTACTCTCCCGCGAGGTGAAATAATGGATTTCAGCGGTAAAAATGTCTGGGTAACCGGCGCAGGTAAAGGTATCG -GCTACGCCACGGCGCTGGCGTTTGTTGAGGCGGGAGCGAAAGTTACAGGTTTTGATCAAGCGTTCACTCAGGAGC -AATATCCCTTTGCGACCGAAGTGATGGATGTTGCCGACGCTGCGCAGGTCGCGCAAGTGTGTCAGCGACTGTTAG -CTGAAACGGAGCGACTGGACGCGCTGGTCAATGCGGCGGGAATTTTACGCATGGGCGCGACCGATCAGCTCAGTA -AAGAGGACTGGCAGCAGACTTTTGCGGTTAACGTCGGCGGTGCGTTTAACCTGTTCCAGCAAACCATGAACCAGT -TTCGCCGTCAGCGGGGCGGGGCGATTGTCACTGTGGCGTCCGACGCCGCGCACACGCCGCGTATTGGCATGAGTG -CTTATGGCGCATCGAAAGCGGCGCTGAAAAGCCTGGCGTTGAGCGTCGGGCTGGAACTGGCGGGTAGCGGCGTGC -GCTGTAATGTGGTTTCGCCTGGCTCCACCGACACCGATATGCAACGCACGCTGTGGGTGAGCGATGACGCCGAAG -AACAGCGTATTCGCGGCTTTGGCGAGCAGTTTAAACTCGGCATTCCGCTGGGGAAAATCGCCCGTCCACAAGAGA -TCGCCAACACGATTTTGTTCCTCGCCTCTGACCTCGCCAGCCATATTACCCTACAGGATATTGTGGTCGATGGCG -GCTCAACGCTGGGGGCATAAGCATGATCTGGAAACGCCATTTAACGCTCGACGAACTGAACGCCACCAGCGATAA -CACAATGGTGGCGCATCTGGGAATTGTGTATACCCGTCTGGGCGATGATGTGCTGGAAGCCGAAATGCCGGTTGA -TACCCGTACTCATCAGCCGTTCGGTTTACTACATGGCGGCGCGTCGGCGGCGCTGGCGGAAACGCTGGGATCGAT -GGCCGGATTTATGATGACCCGCGACGGACAGTGTGTGGTAGGCACAGAACTTAATGCAACACACCATCGCCCGGT -GTCTGAGGGAAAGGTACGCGGCGTCTGCCAGCCGCTGCATCTTGGTCGGCAAAATCAGAGCTGGGAAATCGTCGT -TTTCGATGAACAGGGGCGGCGTTGCTGCACTTGTCGGCTGGGTACGGCAGTTTTGGGATGAACCCGACAGAATTA -GATGAGATTGCAGGAAAACTCGGTTAACGGAGTGATCGAGTTAACATTGTTAAGTTAAATATTGGTTTCAACTCC -GATTTACATGGTTGCTGTGTTGTTAAATTGTACAAAGATGTTATAGAAACAAAATGTAACATCTCTATGGACACG -CACACGGATAACAACTATGAACAAATCAGGGAAATACCTCGTCTGGACAGTGCTCTCTGTAATGGGAGCATTTGC -TCTGGGATACATTGCTTTAAATCGTGGGGAACAGATCAACGCGCTGTGGATTGTGGTGGCGTCGGTCTGTATCTA -TCTGATCGCTTACCGTTTTTATGGGCTGTATATCGCCAAAAATGTGCTGGCGGTTGACCCGACGCGTATGACGCC -AGCGGTGCGCCATAACGACGGGCTGGACTATGTGCCGACGGACAAGAAAGTGCTGTTCGGTCACCATTTTGCGGC -CATTGCCGGAGCAGGTCCGCTGGTGGGGCCGGTACTGGCGGCGCAAATGGGCTACCTGCCGGGGATGATCTGGCT -GCTCGCTGGGGTGGTTCTCGCCGGTGCGGTGCAGGATTTCATGGTGCTGTTTGTTTCTACGCGCCGTGACGGTCG -CTCGCTGGGTGAGCTGGTCAAAGAAGAGATGGGGCCAACCGCCGGGGTGATTGCGCTGGTGGCCTGCTTTATGAT -CATGGTCATTATCCTTGCAGTGCTGGCGATGATCGTGGTGAAAGCCCTGACTCATAGCCCGTGGGGAACATATAC -CGTTGCGTTCACCATTCCGCTGGCGCTGTTTATGGGGATCTACCTGCGCTATCTGCGTCCGGGGCGTATTGGCGA -AGTGTCGGTCATCGGTCTGGTATTCCTGATTTTCGCCATTATCTCTGGCGGCTGGGTGGCAGAAAGTCCGACCTG -GGCACCGTACTTTGACTTTACCGGCGTGCAGTTGACCTGGATGCTGGTGGGTTACGGTTTTGTGGCGGCGGTGCT -GCCGGTGTGGTTACTGCTGGCCCCGCGTGACTACCTCTCTACCTTCCTGAAAATCGGGACTATCGTCGGTCTGGC -GGTAGGCATTTTGATTATGCGCCCGACGCTGACCATGCCTGCGCTGACCAAATTTGTCGATGGCACTGGCCCGGT -ATGGACCGGTAACCTGTTCCCGTTCCTGTTTATCACCATCGCCTGTGGCGCGGTGTCTGGCTTCCATGCGCTGAT -CTCTTCTGGGACCACGCCGAAGATGCTGGCGAACGAAGGGCAGGCGTGCTTTATCGGCTACGGTGGGATGTTAAT -GGAATCCTTCGTGGCGATTATGGCGCTGGTTTCCGCCTGTATCATCGATCCGGGCGTGTATTTTGCCATGAACAG -CCCGATGGCGGTGCTGGCTCCGGCAGGGACGGCGGATGTGGTCGCTTCTGCCGCGCAGGTGGTGAGTAGCTGGGG -CTTTAGCATTACACCAGATACGCTAAACCAGATTGCCAGCGAAGTGGGTGAACAGTCGATCATTTCCCGTGCGGG -CGGTGCGCCGACGCTGGCGGTGGGGATGGCCTACATTCTGCACGGCGCGCTGGGCGGCATGATGGATGTGGCGTT -CTGGTATCACTTCGCCATTTTGTTTGAAGCACTGTTTATTCTGACGGCGGTGGATGCAGGTACGCGTGCTGCGCG -CTTTATGTTGCAGGATCTGCTGGGCGTGGTGTCTCCTGGCCTGAAGCGGACCGATTCACTGCCTGCTAACCTGCT -GGCAACAGCGCTGTGCGTACTGGCGTGGGGCTACTTCCTCCATCAGGGCGTGGTCGATCCGCTGGGCGGCATTAA -CACTCTGTGGCCGCTGTTTGGTATTGCCAACCAGATGCTGGCAGGGATGGCGCTGATGCTCTGTGCCGTGGTGTT -GTTCAAGATGAAACGTCAACGTTACGCCTGGGTGGCGCTGGTACCAACGGCCTGGCTGCTGATTTGTACCCTGAC -CGCAGGCTGGCAGAAAGCGTTTAGCCCGGATGCGAAAGTCGGCTTCCTGGCCATTGCTAATAAGTTCCAGGCAAT -GATCGACAGCGGCAATATTCCGTCGCAGTATACTGAGTCACAGCTGGCGCAACTGGTGTTCAACAACCGTCTGGA -TGCCGGGTTAACCATCTTCTTTATGGTGGTCGTGGTGGTTCTGGCACTGTTCTCGATTAAGACGGCACTTGCGGC -ATTGAAAGATCCGAAGCCAACGGCGAAAGAAACGCCGTATGAACCAATGCCGGAAAATGTCGAGGAGATCGTGGC -GCAGGCAAAAGGCGCACACTAAAGTCAGAGTGAGGGGGGGATGTTGGCGAATGTTGGCTTAGTGCCCAGGGTTCC -CTCTCACCCTAACCCTCTCCCCGGTGGGGCGAGGGGACTGACCGAGCGCGTTGATAGCATTTGTAGGCCGGATAA -GGCGTTCACGCCGCATCCGGCACTCTTTCAGCAACATGGTTAGCGGAGGCCAAGATGTTTGATTCACTGGCAAAA -GCCGGAAAATATTTAGGTCAGGCGGCGAAGCTGATGATTGGTATGCCTGATTACGACAACTATGTCGAACATATG -CGGGTTAACCATCCCGATCAAACGCCGATGACCTACGAAGAGTTTTTCCGTGAGCGGCAGGACGCGCGCTACGGT -GGAAAAGGCGGCGCGCGCTGCTGCTAAATTTGTACGTCAGGCTTTAAACGATTCCACTTTTTTGAACGCTGCACG -CAACGTATCTGGTGTCAGCGTGACTGGCAGGTAATGAATGGACTCCACCGGACGCAGGGTGTGGGCAATCACTTT -GTCGATCTCCGCCTGATTATTGATATCCACTTCCAGCTCCGCCAGTGTAGTCGGCAGATGAAAACGCTGATACGC -TCCAGTTAATTGCGCCAGCACATCATCCTGACCCAGCAAGGCGCTTTGCACCAGAATTCCGTAGGCGACTTTGGT -GCCGTGGAGAAACTTCTCGGTTTGCGGCAGCACGGTCAGACCGTTATGCACGGCATGAGCTGCCGCCACACGCGT -AAAACGATCGCCCAGACCACCAACCATCCCACCACCAGCAATAATAGCATCCACCACATCGCAAAATGATTGCGT -TAACTGTTGATTTTGCTGATCGCTCAGCGCCTGTTCGCTACTGTTTAACAAGACGTCGCGAATGGCTTGCGCATT -ATTGATCCCCAGTCGCACGGTTAGCGGCAACGTTTCTGGTTGCGGAGCCAGCACCACCGCTTCATACCATTTCGC -CAGCGTGTCACCGATCCCCGCCAGCAGATATTGTTGCGGTGCATTGAGGATAATCTCCGGTTCCACCAGCACCAT -AAAATTGGCGTCGTCGAAAATCTCATAATGCAGCGCCTGTCCGGCATCATTATACCAGACGGAGAGCGGTGTCCA -GGCGGCGCAGGTGGCGGCGATCGTCGGAACGGCAACAAACGGCAGACCGAGACGGCGGGCGAGGGCTTTCGCGGT -GTCGAGCAGTGCACCGCCACCGACGCCAATCACCACGCTGCGGTCGTCACCGGACTCAGCCGCCAGTTGTTGTAC -ATCGCTTTCGCTGCAATGACCGCGAAACAAAATATGCTTTGCCCCTGGCAGTCCAAACGCTGGCGGAAGTTTGGT -TTGCGCCGCAGCAATGGCGCGTTTGCCGTAGATCCACACCGCGCGAGAAAGTTGTTCATCAGTGAAAAAATCGTG -CAGGTGATTGAAACTTCCTGGATGTGAAAAGTAGTTAGCCGGGCCGACGACCACGCGGATAGGATTGTGAGGCAT -GTTGTGTTGTCCTTATTGTTTTATTTAGACATCTAAACGTCTTGATTGCCAAATACTAGCATCGTGTTATAGTGC -CTTCAACACGCAACTTCGTCAGGTACAATAAAAATGACAAATAACCCTCTGATTCCACAAAGCAAACTTCCACAA -CTTGGCACCACTATTTTCACCCAGATGAGCGCGCTGGCGCAGCAACACCAGGCGATTAACCTGTCGCAAGGCTTT -CCTGATTTTGATGGTCCGCGCTATTTACAGGAGCGGCTGGCGCACCACGTTGCACAGGGGGCAAACCAATACGCG -CCCATGACCGGCGTGCAGGCCTTGCGCGAGGCGATTGCTCAGAAAACGGAACGTTTGTATGGCTATCAACCAGAT -GCCGATAGCGATATCACCGTAACGGCAGGGGCGACGGAAGCGTTATACGCGGCGATTACCGCACTGGTGCGCAAT -GGCGATGAAGTGATTTGTTTTGATCCCAGCTATGACAGTTACGCCCCCGCCATCGCGCTTTCTGGGGGAATAGTG -AAGCGTATGGCACTGCAACCACCGCATTTTCGCGTTGACTGGCAGGAATTTGCCGCATTATTAAGCGAGCGCACC -AGACTGGTGATCCTCAACACTCCGCATAACCCCAGTGCAACTGTCTGGCAGCAGGCTGATTTCGCCGCTTTGTGG -CAGGCGATCGCCGGGCACGAGATTTTTGTCATTAGCGATGAAGTCTACGAGCACATCAACTTTTCACAACAGGGC -CATGCCAGTGTGCTGGCGCATCCGCAGCTGCGTGAGCGGGCAGTGGCGGTTTCTTCATTTGGCAAGACCTATCAT -ATGACCGGCTGGAAAGTGGGTTATTGTGTTGCGCCAGCGCCCATCAGCGCCGAAATTCGCAAGGTACATCAGTAT -CTGACCTTTTCGGTGAATACCCCGGCACAGCTGGCGCTTGCTGATATGCTACGTGCAGAACCTGAGCATTATCTT -GCGTTACCGGACTTTTATCGCCAGAAGCGCGATATTCTGGTGAATGCTTTAAATGAAAGCCGGCTGGAGATTTTA -CCGTGTGAAGGTACATACTTTTTGCTGGTGGATTACAGCGCGGTTTCTACCCTGGATGATGTTGAGTTTTGCCAG -TGGCTGACGCAGGAGCACGGCGTAGCGGCGATTCCGCTGTCGGTGTTTTGCGCCGATCCCTTCCCACATAAACTG -ATTCGTCTCTGTTTTGCCAAGAAGGAATCGACGTTGCTGGCAGCAGCTGAACGCCTGCGCCAGCTTTAGCTATTT -AACCGTCCAGGCGCGGGAATATTGACGGTCGGCAAACAACTCTTGCAGGCCGTTAATTTGCTTCAGGCGCAGCAC -TTCGTCGCTGTCCATTCCCAGCTCTTTGCCAATTTTATTATCGTCCCATCCCAACTGGCTAAGTTCACGGACGAT -TTCCGACATGGCGGTGATTTGATGGCGTCCACGAGCGCGATTATGACGAATAGTCGCGGCGATGCGTTGATTACG -CGTACCTTCCAGACAGGTCACCGGCAAATAACCTTTTAAGCGTAATTTTAATGATGATGAGCCTTTACCAATTTC -ATGGCGGTGAAAACCATCCACGATTTCCATGGCATTTTTATCCGTATGTGTGACCACAATGGGTTGGGTAAAACC -ATCTATTTCAATGGATTTTTGCAGCAGTTTTTTTTCGGGTGGTGCCACGTTGTTTGGGTTGTAATCATTAGGCAT -AAGTTGGCTGTTTTTAACCCACAGAACGCAATCCACTGGCTCTTCACGAAAGGGGCTAACCTGATGGATCGCCAT -GCGGATTTCATTAATCGCTTTGATGCGATCATCTTCCGGCAAGCTGGCGAGAAATTGCGTTAAATCCTGCGTTAA -TCGTTGTTGCATAGTATCCCCCATTCCTGACGTTTTCCTTTTATCCGTTCGTTATAACGCTGATAGTTCTTCGAT -TTTGTGGGGCTAAATGATAATGCCCGACACCAGTAATCGTTATTGAGTAAAACTTTGCATATCCGCCGCCAGGAG -GGGATATCTTTCGCGCCAATGTCCCCTTGCTGGGTTTGTGGAACCTCGATGCCTTTTTTCTGATACCAGTGCAAA -TAAATGGCGATTTTATTGCGGTAATGCTCAGCTGTTTTTTCCGGCATGCTATTGAGCAGCAATAATGCATATTCT -TGCCAGTCTAAATGTTCTGGCTTGAGGATTTTCCGATGCCCATAGAAATGATTGTCATGTCCGGCGTAAATGCCG -CCACTTTTTACCCCGCTGACTCGTGCGCACATAGCAGCCCAGCGATCCGGTTCGATAACGTGATAGAGCCATAAT -CCTTGTCGTTGCTCCGGGCCAAAAGGTTCGCAAATTCGCATATGACGCAGAGGAACGCCTGCCTGATACATTAGG -TTATACAGTGGGTTGCAGAGACTTTGATGATTTGCATACCAGGTCCAGATATCAGCCACTTTCCAGTCGTAAATG -GGGTAAATGTACCAGCTATGACCGCCTGGTGCGGCCGTAGTCCAGGGTTTATCGTCGGCAAAACGTTGTTTATTT -AAACTGGCGATGGCGACAAAACGGTTGTAGGACTCATCCGCACGGATGCCGATCATCATCGCCGCCGGACGTTTT -TGTGAAAACCATTCGGCAAACTCACGTACAAATTGTTCGAAGGTCATGCCTGGCTGGTAAAAGCAGAAAAAGTCA -GGGTCGGTTATCGCATCTTGGGGAGGTTGACGTACCCATTCGACATCAGGTTCCCAGCACTGCCATTCGGGTTGG -TATTGTGAAAGGGAATTTTGCGTCGTAAGCGGGAGCGCAACCCAGTAAAACTCTTCGATGACATCGGTGTACAAC -TCGCGCAGGGACTGAACATAGTTAATGGTGCAAGAGAATTGCGCCTCCCAGTCGATAAACAAAACGCAGATTTTT -TTGCCCATTTGTCGGGCAAGTTCGGCTGTCAGATGCAGCATTAAACCAGAGTCTTTGCCGCCAGAAAATGAGACA -CAAACGCGGGGTAGGGTGTTGAGTGTCCAGGTAATACGCTCTCGTGCAGCTTCCAGAATATTGAGCGGAAGAGGA -ATTTTATAAATAGACATCTGAAGACGCTCTCTGAACGTTACAGGGTGATCAGTGAGATAAGTCTGTTAATTATAA -AGTAAACACTGTAAAGCAGAGTGTTTTATTTTTCATTCGCGCTGTGAATAAATAGATGAAAGTTATAGTAGCTGT -CTGTAGTTATATATCAAAAACTCTCATTTAGACGGTCAATAAATCGGGAGAACACCAAATTATTTAAAGAAGATT -TATTATAGGAAATGTAAAGCTTTATTGAAGGTAACGGATGTTCTAGTTTTATCTCTTTTAAGTTAAGAAAGTCAC -GGTAGGAATTATAAAGTTCATAGGGGACTATTCCCAGTAAATCTGTAACTGCAATGCTATTAATGATTGTCAGCA -AAGAGGAACCACGAAATGAGATTTTGCGATTCATAAATCTCTCGTCTATTTCCATTTGAATATCATCAACCCCTG -CTGATTTAGATATTAATTGGGTGAACTCTTCTGCCATAATTTGTTCATAAGTGCTATTGTCAGTAATTCGTGGAT -GCCTATTACTACAAATTAGAGTATTGCGAATCGTATGCAATGGCATGCAAATGACGGAACGGCTGATCACTGGCA -TTTGGGTGATCACCAGATCGGCTTTGCGGTGAACCAACAGTTCTTCAGCATTCTCTGCTGACATGAGGATATCAT -GGCACTCAATCTCGACAGAGGAATCTTGCCGTAGGCAGCGGATCAGCATACTATTATTAGAGCAAGAAATGAGCT -GAGGGCCGTAGATAATAAAGTTTTTCTTTAGTTCGGACTTATTGACTATATTAATTGTTTGTTCAAGGCCTCTGA -GATTTTTCTCAAGATGGTGATGCAGATTTAACCCTGTTGTCGTCGGCGCGATACCTTTTCCTGAGCGAATGAATA -AAGGGTCATTAAATTGCGCACGTAAGCGTTGTAACGACTGGCTCACGGCTGATGGGGTGATATATAGTGATTCAG -CAGCTTTGCTAATGCTTAAATGCTGGTAAATACACTCAAATATGACAAGAAGATTTAAGTCGAACTTTTTCAAGT -CGTAGAGATTGGCCATACACTACTCCGGTTATATTTTTCTTCCATGATATATTCACTTAATCAATGTTTTTTGCG -TATATATTTTTATTGATTATGTTTTTTTGCTTAACTCAGGATTAAGTTTTTCTAAAATAGCACAGCCACTTAGGG -CAGAGCGAGCAATTCATGCTTTTTTAGGATGGTTGAAAAGCAGGGATATAGTTCAACCATCCATGAATTACCTTT -TATTTATTCCCCATAATGATATTAAGCGTTTTCTGATCGGGCAACCCCACGGCCTGTTGTAGCGTATTTTCCTTA -CTCATGTAATAGATAGCCGGCGTGACATTTGCCCCCAGATCGTCCATCAGTTTCTCATTGTCACTTAACACTTTC -ATTTGCTCTGTACTTACGTTTGCAGGCACGTTTAGCTTAAGCTTGCCACCAGAGGCTTCATATTGTTGCCAGGTT -TTTGCGGGATCTTTGGAGGCAAGAATTGCCGCTGCTGTCGCCGGGCTTTCTGGCTTGATAACCCCAACCAACAAT -GTTCTTAATTGCACTTTGCCAGAATCTACCCACGGGCGCGCCTGCTGCCAGAACTGTTTACAATATGGGCAGAAC -GGATCGGCGAAGACGTAGACAATGACCGGCGCATCTTTTTTACCGTCGAGGAGCCAGTGGGATTGTTCCATCCGT -TGCCACATTTCGCGTCCGGCTGGTGCGTAAATTTCTTTTTCGATAAGTGTGTTACTCAGGTTTTCACCTTTCTCG -TTGTACATGTAACCAGAGATAGCGTGCTTACCATCTGGAGTCAGGTAGATGGTGACGCCCATATCCTGATACTTT -CCGAGATAACCTTTCATTCCTCCGGGGGCATCGAATGTTTTGATGATTGTAATGCCCTGTTTTTCAATCGCTTTT -ACTGGAGCAGGAAGTTCCTCTGCGAAGGCGATTGCAGGAAGCAGAGCCAGTAAAAGTATCTTTTTTAACATTAAT -TTGTCCTTTTCAGTCAGTGCAAAAGTCGAGTAAAAGGCATAACCTATCACTGTCATAGGTAAGAGCTTAGATCAG -GTGATTGCCCTTTGTTTATGAGGGTGTTGTAATCCATGTCGTTGTTGCATTTGTAAGGGCAACACCTCAGCCTGC -AGGCAGGCACTGAAGATACCAAAGGGTAGTTCAGATTACACGGTCACCTGGAAAGGGGGCCATTTTACTTTTTAT -CGCCGCTGGCGGTGCAAAGTTCACAAAGTTGTCTTACGAAGGTTGTAAGGTAAAACTTATCGATTTGATAATGGA -AACGCATTAGCCGAATCGGCAAAAATTGGTTACCTTACATCTCATCGAAAACACGGAGGAAGTATAGATGTCCTT -GATTAACACCAAAATTAAACCTTTTAAAAACCAGGCATTCAAAAACGGCGAATTCATCGAAATCACCGAAAAAGA -TACCGAAGGCCGCTGGAGCGTCTTCTTCTTCTACCCGGCTGACTTTACTTTCGTATGCCCGACCGAACTGGGTGA -CGTTGCTGACCACTACGAAGAACTGCAGAAACTGGGCGTAGACGTATACGCAGTATCTACCGATACTCACTTCAC -CCACAAAGCATGGCACAGCAGCTCTGAAACCATCGCTAAAATCAAATATGCGATGATCGGCGACCCGACTGGCGC -CCTGACCCGTAACTTCGACAACATGCGTGAAGATGAAGGTCTGGCTGACCGTGCGACCTTCGTTGTTGACCCGCA -GGGTATCATCCAGGCAATCGAAGTTACCGCTGAAGGCATTGGCCGTGACGCGTCTGACCTGCTGCGTAAAATCAA -AGCAGCACAGTACGTAGCTTCTCACCCAGGTGAAGTTTGCCCGGCTAAATGGAAAGAAGGTGAAGCAACTCTGGC -TCCGTCTCTGGACCTGGTTGGTAAAATCTAAATTTCCTTCGTCTTTCACGCCATAGCGGCGTTGGCGTCGCCCGC -TCACCCCGGTCACTTACTTGTGTAAGCTCCCGGGGATTCACAGGCTAGCCGCCTTGCTCTGACGCGAAATACTTC -GGAAATTCACCTAATTCTTCGGGTGCTGCGGCACCCGATTTTCTTCCCCGCACCATGATGCAAGCTGCATCCAGG -TAGCCGCAGAGGCCGCTTGCATGATGATGTTTAAAGCCCAGGAGATAAACATGCTCGACACAAATATGAAAACTC -AACTCAAGGCTTACCTTGAGAAATTGACCAAGCCTGTTGAGTTAATTGCCACGCTGGATGACAGCGCTAAATCGG -CAGAAATCAAGGAACTGTTGGCTGAAATCGCAGAACTGTCAGACAAAGTCACCTTTAAAGAAGATAACAGCTTGC -CGGTGCGTAAGCCGTCTTTCCTGATCACCAACCCAGGTTCCAACCAGGGGCCACGTTTTGCAGGCTCCCCGCTGG -GCCACGAGTTCACCTCGCTGGTACTGGCGTTGCTGTGGACCGGTGGTCATCCGTCGAAAGAAGCGCAGTCTCTGC -TGGAGCAGATTCGCCATATTGACGGTGATTTTGAATTCGAAACCTATTACTCGCTCTCTTGCCACAACTGCCCGG -ACGTGGTGCAGGCGCTGAACCTGATGAGCGTACTGAACCCGCGCATCAAGCACACTGCAATTGACGGCGGCACCT -TCCAGAACGAAATCACCGATCGCAACGTGATGGGCGTTCCGGCAGTGTTCGTAAACGGGAAAGAGTTTGGTCAGG -GCCGCATGACGTTGACTGAAATCGTTGCCAAAATTGATACTGGCGCGGAAAAACGTGCGGCAGAAGAGCTGAACA -AGCGTGATGCTTATGACGTATTAATCGTCGGTTCCGGCCCGGCGGGTGCAGCGGCAGCAATTTACTCCGCACGTA -AAGGCATCCGTACCGGTCTGATGGGCGAACGTTTTGGTGGTCAGATCCTCGATACCGTTGATATCGAAAACTACA -TTTCTGTACCGAAGACTGAAGGGCAGAAGCTGGCAGGCGCACTGAAAGTTCACGTTGATGAATACGACGTTGATG -TGATCGACAGCCAGAGCGCCAGCAAACTGATCCCAGCAGCAGTTGAAGGTGGTCTGCATCAGATTGAAACAGCTT -CTGGCGCGGTACTGAAAGCACGCAGCATTATCGTGGCGACCGGTGCAAAATGGCGCAACATGAACGTTCCGGGCG -AAGATCAGTATCGCACCAAAGGCGTGACCTACTGCCCGCACTGCGACGGCCCGCTGTTTAAAGGTAAACGCGTAG -CGGTTATCGGCGGCGGTAACTCCGGCGTGGAAGCGGCAATTGACCTGGCGGGTATCGTTGAGCACGTAACGCTGC -TGGAATTTGCGCCAGAAATGAAAGCCGACCAGGTTCTGCAGGACAAACTGCGCAGCCTGAAAAACGTCGACATTA -TTCTGAATGCGCAAACCACGGAAGTGAAAGGCGACGGCAGCAAAGTCGTTGGTCTGGAATATCGAGATCGTGTCA -GCGGCGATATTCACAACATCGAACTGGCCGGTATTTTCGTCCAGATTGGTCTGCTGCCGAACACCAACTGGCTCG -AAGGCGCAGTCGAACGTAACCGCATGGGCGAGATTATCATTGATGCGAAATGCGAAACCAACGTGAAAGGCGTGT -TCGCAGCGGGTGACTGTACGACGGTTCCGTACAAGCAGATCATCATCGCCACTGGCGAAGGTGCCAAAGCCTCTC -TGAGTGCTTTTGACTACCTGATTCGCACCAAAACTGCATAAGAAGAAGTAAGATTCACCTGCAATTGCTTAGCCG -CCGGGGTCAAACCTGGCGGCTTTTTTATGGCATTAAAAAGCCCCGCCGGGATGGCTCCGGGCAGGGCGGGATACT -TATTCTGGCAATTAACGCACAACCAGCACCGGCAGATTGGCGTGGCGGATCACGCTCGAGGCGTTAGAACCTAAC -AGATGGGTCGAAATCGATGGGTTGCGAGAACCAATAACTACAACATCAGCCCCCAGTTCTTCTGCCAACTCATTG -ACTTCATCCCGCACGCTACCAAAACGGACATGTTGTTTAATGCGGGAAGGATCGATGGTGAAGTGGCTGACCATC -GTTTGCAGACGTTCTTGTGCTTCATGTTGCAGATGCTCTTCAAAACGACGCACATCAGCGGCAAAACGGTGCAGG -CTCAGGCTGGCTGACCCGGGTAGTACGTGAAGTAGATGAATAACTCCGTCATCCTGGGCGAGGAATTCAGCGTGG -CGAACAGCTTTGTCGCTCAATTCCATTTCAAATACATCAACTGGCATAATGATTGTCTTATACATAACCCTTTCT -CCCTGTTAATCATGAACAAATCATTCGCCATGATTATAATATTTATCCCTGATATTTGTCTGGTTCTTTTTCCTT -ACGAACTGTTTCTGTGATGAATATATTCTCACTGAACACCAGGAATTCTCCCAAAACCTGTGGTACCGCCCGTTT -TCCCGCTGTGATAGCTACCCTTAAAGACTGACTCTTTTTTGAACTGTCTCTGGAGGTTGCATGAAAGCATTGACT -TATCACGGCCCACATCACGTTCAGGTAGAAAATGTTCCCGATCCGGGCGTTGAACAGGCAGATGATATTATTCTG -CGTATTACGGCAACGGCGATCTGTGGCTCTGACCTCCATCTTTATCGAGGCAAAATACCTCAGGTTAAACATGGC -GATATTTTTGGTCATGAATTTATGGGGGAAGTAGTTGAAACCGGAAAGGACGTAAAAAATTTGCAAAAAGGCGAC -CGAGTGGTAATTCCGTTCGTCATTGCTTGTGGCGACTGTTTTTTCTGTCGATTGCAACAATATGCCGCCTGCGAA -AATACCAATGCGGGTAAAGGCGCTGCGCTCAATAAAAAACAGATACCAGCTCCAGCGGCATTGTTTGGTTATAGT -CACCTGTATGGCGGCGTTCCTGGTGGGCAGGCGGAATATGTCCGCGTCCCTAAAGGGAATGTGGGGCCGTTTAAA -GTACCGCCTTTGCTTTCAGATGATAAAGCGCTTTTCCTTTCTGATATTCTGCCAACGGCATGGCAGGCAGCAAAA -AATGCGCAGATCCAACAAGGTTCAAGCGTTGCAGTCTATGGTGCTGGTCCTGTGGGATTGTTGACAATCGCCTGT -GCACGGTTGCTCGGTGCGGAACAGATTTTTGTTGTTGATCATCATCCCTACCGCTTGCATTTCGCCGCCGACCGC -TACGGCGCGATCCCGATTAATTTTGATGAAGACAGCGATCCGGCACAGTCAATTATTGAACAAACGGCAGGTCAC -CGGGGCGTGGATGCAGTAATAGACGCCGTCGGTTTTGAAGCGAAAGGCAGCACCACGGAAACGGTGCTGACTAAC -CTGAAACTGGAGGGCAGCAGCGGTAAAGCGTTGCGTCAGTGTATTGCGGCGGTCAGGCGTGGCGGCATTGTTAGC -GTACCGGGCGTCTACGCTGGATTTATTCACGGTTTCCTGTTTGGCGACGCCTTTGATAAAGGGTTGTCGTTTAAA -ATGGGACAGACCCACGTTCACGCATGGCTGGGAGAATTATTACCGTTAATTGAGAAAGGATTACTGAAACCAGAA -GAAATTGTTACCCACTATATGCCGTTTGAAGAGGCCGCCCGGGGATATGAGATTTTCGAAAAACGTGAAGAGGAG -TGCCGTAAGGTGATTCTGGTACCCGGTGCACAAAGCGCAGAGGCGGCGCAGAAGGCGGTTTCAGGTCTGGTGAAT -GCGATGCCGGGGGGAACAATATGATCGTCAGGAGTGGTTTTCGAGGTAAAGGACAGCCATGACGATAATCGCCGC -CATAATCAGAAATCCTATCAGGATGTAAAATGCTTCTGCCATGGTTATTCCCACAAACGAAACGGAATAATTTTG -CAGCAAAAGTGAACAGTGAGAACCAGGAAAAATTGCTGATTTTGCGTAAAGAGGATGCGAGTGCATCCTCTGGGC -AAAGCGAGTTATCGCTTGTGCAGATGGGATTAAAGCAGGTAGTCGCCAGCAGCTTCTGGCTGGTATTCGAGTTCC -AGCACTTCAAGGTGGGTTGCAACGCCGCCCGGAAGTTCCCAGTGAATGGAATCGCCAACGCGCAGCCCCAGCAGT -GCGGCACCTACCGGAGCCATAACGGAAAGCTGAGTATTGCTATCGGTCATTTTTGCCGGATACACCAGCGTGCGC -ACACGCACTTCGCCATCGCTAAGATTGCGGAATTTAACCCGGCTGTTCATTGTCACCACGTCGTGTGGCATCTCT -TCTGGCGAACACATTTGGGCGCGATCCAACTCTGCGTTTAACGCGTCGGCGATTGGCAAACCAGCATAGGCGGGT -TGCTCCAGCAGAATATCGATGCGTTCGGCATCCAGGTCGTTAATGATGATAGTTGGTCTGGACATTTTTACTCCA -TGTCGTCGGTGCTGCGAGTGTCGCAGATAAACATACCCAAAAGAAAACCCTCACCGTCAGGCGGCGAGGGTTTAA -CTCACATGATGATACTGACTGTTGCTCACTCTTTGAAGTGATTTGCGTCACATTCAGGGAATTCCTCAATGCAGC -GCATTATGTATAAATCTTAATCGCCTTGGTTTATGGAAGACGAATTAGCGTGTTTTGTAAATCAGATGATTAATA -ACCCGCTTTATCAATCACAAAGGTTTTGCCACAGTTACCTGGGTGAGGTTGTGGCAAGAATGAGTTTGCAGAAAG -CGGAGCGTTGATGGCGTCAGCTTTGATCGAGATCTGAATTTCAGTCAAATACGCAGGGTTACCCTGGCACGTTAG -CTTAACTGCTTTCACGTTCTCTTTTCCCCAGCTTTTGGCAAAGGCGGCGTCAAAGTCACGGCGGCTCACTGTTTT -ACCGTAATTATCCGCAAGGAATTTTCCGGCTTCGCTCTCTTTAATTTCTTGATTCAGGCGTACCATCGTACCGAA -GTATGCGTCCGGATCAAAACCAAAGCAGGCACCGTGTTTGGCATATTCGTAGCGTTCCAGGCAGGAACGTCCGCC -AGCTCCTGGCATGACTTCACTTAGTTTAGCGGCCGTTTCCAGTGATAATCCGGTTTCCGGCGATGAACACATTCG -GCTGGCGCGCGCTTCTGGTAGATTCGGGATTGGGCGAGTAGCGCAACCGAAGCGCATCCAGCGGCGTTCATCAAC -ACCACGGGCAGCAACCGATTTAGGCAATCCTGGCCACAGACCATGTACGGTCAGAAAATCAGCTTTGTTGGTCGT -TTCGGTTTGCAGGCGACATTCATCTCGTTCGTTACGATTTCGATCGTGTTGACTCTGGCAAAATCCGGTTTGCCA -GGAGAGGGCCAGGACATAGCGATCAAAATCGCCATACTGTTTTGCCTGCAACGCTAAGGCGTTGGCAGAAGAGAA -GGGAAGCAGAGAAACCGCGAGCAACGCGGCGTTACGCCAGAATGCTTTCATAATGGGTGTGGAACTCATACATAC -ACTGAATACTATCTATTAAATCATAAAAAAGCCCGCCAGGTGGGCTTACCTGGCGGGCGTGATGATTTATTCAGC -GTTTGGCGAACGTATTAGTTCCACATGGCGAGAATCGGCCAGCCAACCAACAGCAACATAGAGATGTAAATCACC -CCGAAGATTGCGCCAAGACGCCAGTAATCTTTTGATTTCACATAGCCACAGCCGTAAATAATCACCCCAGGACCG -GTTGCATACGGCGTCAGACAGCCCATGATACCGATAGACAGCACCAGCAGGATACACAGTTGTTCCATTGGTACG -CCCGGAATACCTTTACCGACGGCCAGAATAACCGGCAGCATGGTTGCGGTGTGCGCAGACAGGCTGGCAAACAGG -TAGTGTGCAAAGTAGAACACCAGAACCAGTACAATCACCGTTGCGTTTGGTGAGAATCCTTCCAGGTGCGTACTC -ATGGTACCGGCGAACCAGTCAATAAAACCAGAACGAGTCAGGCCGTTAGCCATCACAACCAGAGTTGCCAGGTTG -ACCAGTGTGTTCCATGCGCTGTTATAGCGGGTAATGTCTTTCCAAGGCACAACGTGCAGGGCCAGCATTAGCGAA -ACTGCCAGCAGACCAACCGCAGTAGCATTAATGACTTCACTGCCAAATACCCACAAACCTAAGCTGAGCAATACA -AGGCCAATCAGTGTCCACTCTCTGCGTGTCAGCGCACCCATGGTTTTCAGTTCATCACCCGCCCAGGTTGCCACT -TCTTCACTGTGTGTGATTTCCGGTTTGTACAGCACGTAGGAAAGCCACGGCGCAATGATAAGCAAGATAACCCCA -ACCGGCAGGAAGCAGAGGAACCACTGCAACCAGCTAATCTGGATACCGGCAATTTTGCTGACGAACTCCAGACCC -AGCACGTTTGGTGCCGCACCGGTGACAAACATGGACGAACTCAGACTGGTACTAATGACCATCATCCACATCAAA -TAGCCGCCAATACGACGCGCGGACGGATCGTTCGGGAATGATTTAAACAACGGCGGCAGGTTTTTAATGACCGGA -AAAACCGTACCCCCGGTACGCGCGGTGTTGGAAGGTGTAAACGGTGCCAGCAGAATGTCGATAATGACAATCGCA -TAACCCAACGTCAGCGTGCGTTTGCCCATGAATTTCACCAGGAAAAGGGCAATGCGACGACCTAACCCGGAAACT -TCATACCCTAATGCAAAAATAAATGCGCCAAATACCAGCCATACCGTGGTGCTGGAAAAACCAGCCAGGCCCCAT -TTCAGCGCCTGTTTTTGCGCATTAAACGCTGGGTCAGCTAATTCTTTGGCATCAAAGAGCAGGTAATTACTGCCA -ATAACGCAAATAGTAACCGCAATAAAACTGATCGCTGTTGCCGGAATTGGCTCGAGGATCATGCCGACAATCATT -GCCACAAACACAGCGAAGTAATGCCATGCCTGCGGCGGCATACCGTCGGGGACAGGGATAAGAAACATGACACCC -ATCACCACCAGTGGGGCCAATAGTTTCCATATATTATCTTTTGCTAAAGACATACGGGTTCTCCGAAAATTAATA -TTTCCAAATTTATCAAGTGCTTAAATAATTAAATCTGTGCTAAAAACCAGGTAAGGATCAGTAGGTCAGCACTGC -CGCCTGGACTGAGATTTCGTTCGATACACTCCCTGTCGAACTGCCGGAGATAATCGAGATCGGCGGGGGTTCGAA -TGCCCCCTTTTTGCAATAATGTTTGCGCCTCGCGCTGTAGCCAGCGCAGGCCCCCCTCGCCACCGCGCGATGCAA -CGTTGGTATCGCCGTTGATCGCCATCAGTAGGAGCAAGGTATCGAGCAATGCCAGTTCAGGATCTAACCCCTGAT -CCAGCAGAGTGAGGTAATGCGGCAAGGCGTGATTGATCACCAGTGGATAACCCGCTTCGGCTTCACCGCGTGCGC -CGGTAAGGCCAAGCTGTTGGTACAACCGTTGACCTGCCGTCAGTTGTGAATTATTGGTACGCAGTTCGCGATCGG -TCAGGCCACGGCAGAAACTTGCCGCCGTAGAACAAACGGTTGTTGGCGTTACCGGTTGGTTGAGTTGAAGCAAAC -GGCCAATTGCCGCACATAGCAGCCCTAAAGAAAAAATGCTGCCTTTATGCGTGTTTACGCCCGCAGTGGCGCGGA -ACATATCACCTTCGCAAGCCATACCAATTGGGCGTAATCCGTGGAGTACCGCTTCTGGTGCCATTTCCGCACTAC -AGGCACCAAATTCAATGAAACGGGGTAGCCAGCCCTGAATCGCCAGCGCGCTGCGGTGGAAATCTTCCAGCGCCA -TATCTTTGTGCGCACCGCAGTTAATGCGATCCACGAGGCCTGGTTTCGGTGACAGATTGACTTCAGTCAGCATGG -CGCGCCAGCCCAGCAGGGCGTACTCATCGATTAATGACGTCGCAAGCTTTGTGGTTTTAGTTGACGTTGCAGGCA -TCGACATCGTTCAGCAGTGCCTCCATGCGGTTGAGTAAATCGGTCAGTTGATGGGTTTTTCCACGCGCGCAGACG -GCTGCGCTTTGTTCGCACAACAGGCAGCGGCGAGGCGGCAGTGAATAGTCGCGGCGGGAGAGAATTTCGCCTTCG -GGCGTCAGGACATCGATATCCCATAACCGCCCGAGAGGATGACTATGTTCAAGCTCAATGGTGGCGAGCTTGAGG -TCGCGAGCCGGGGCGGCAATGCTCAACATGCCCTCCGGCCCGCTGGCGGAAACCAGTGCAGCCTGCTCCTGAATT -TGCCAGCCCTGTTTTGCGGCTAAGGCACGCAAGGCTGTCACGCCATGATTAAAAATTCGGCGTGTGACCTCGCTG -TCTTTAATCGGCCCAGGCGCAACCACGGTAAAGGAGACCAGTGGAACAGGATGGCGCTTGAGCCAGACGTGTTGC -CGTGCTTGCCTTTCATCCCGGCTGACGAGCAGCTCGGGAATTGATACCGCATGGTGGCTGGCGAGTTCAGGAAGC -AGGTGCATGGCTTATTCCTTCACCTGATGCACAACATCGATCACCGAGCCATCGCGGTAACGCACAACGGCAACG -ACGCGGTCTGTGAATTCAATCGGCTGTGGTTCACCGGTCAGCAGACGCGCACGTTCGCGCAGCCACTCAATGGAA -ACCACTTTAATGCCCGCTTCCTGCAGACGTTCTGCCAGTTCCGGACGTGCCGGGTTAACTGCGATACCGTGGTCT -GTGACCAGAATATCGACACTGGAGCCTGGGGTGATGCAGGTCAGTACGTTATCCACCAGAGTCGGAATACGACCG -CGTACCAGCGGCGCGACGATGATGGAAAGCGCAGAGGCAATCGCGGTATCGCAGTGACCACCGGAAGCACCACGC -AGTACGCCGTCAGAGCCGGTCAGCACGTTAACGTTGAACTGGGTGTCAATTTCCAGCGCGCTCAGTACCACCACG -TCGAGACGATCAACCGATGCGCCTTTCGAACCCCAGTTAGCGTACTGGTTGGCGCTGATTTCGATGTGATTGGGG -TTACGGGCCAGCGATTGCGCAGCATGGCTGTCAAAGCTCTGCACATCCAGCAGTTTGCGGATCAGACCTTTTTCG -TGCAGGTCAACCATCGTCGCGGTAATACCGCCAAGGGCGAAGTCGGCGCGAATATCGCGGCTACGCATTTTGTCT -TCCAGGAAACGGGTTACCGCCAGCGATGCGCCGCCGGTGCCGGTTTGCATGGAGAAACCTTCTTTGAAGTAGCCA -GAGTTGACAATCACATCCGCAGCGCTACGGGCAATAAGCAGTTCGCGCGGGTTAGTGGTCATACGGGTCGCGCCA -GCGCCGATTTTTGCAGCATCGCCAACGCGGTCAACTTTGACGATCAAATCAACCTGATCTTGCTCAATGCTTGCC -GGATTATGCGGATAAGGCAGCAGTTCTTCGGTAAGCATCACGACCTGTTTTGCGTTGTCGGCATCAACTATTGCA -TAGCCGAGGGAGCCGCAGCAGGCTTTACCGGTGTAGCCGTTGGCATTACCGAATTCATCACAGGACGGGACGCCG -AGGAAAGCCACGTCGATATTCAGTTCGCCGCTCTGTACCAGATGCACACGACCGCCGTGAGAGTGGATCTGCACC -GGTTCTGCCAGCAGACCACGGGAGATCTCTTCCGCCAGTGGACCACGCAGGCCGGAGGTATAAATGCGGGTAACC -ACGCCCTGGCGAATGTGTTCTACCAGCGGCGCATGGCAATCACTCAGGGAGCTGGACGCCAGGGTCAGGTTTTTA -AAGCCCATCTTCGCGATGACGTCCATCACCATATTGACGGTCAGGTCACCGCCACGGAAAGCGTGATGGAAGGAA -ACCGTCATGCCGTCCTGTAAACCAGAGCGACGAATCGCTTCTTCCAGGTTGGCGCACAGTTTGCGATCGCGCGCT -TTTTCAGCCTGGTAGGTTTGCTTTGGCGAGTTCTGGAAAGCGGCAAGATCGCATTCAGCGCGACGATTCCAGGCC -GCTACCCGTTCTTGTCGTTGAGATTGTTCAATTTTCTGCGTCATTTTGATTGCCTTATTCTTCGCGGATGCCGGA -AAGTTCTGCACGGGAGAGCACCAGACGGGCGCGATCGATAACCGGACCGTCCACCATCTTGCCGTTCAGGGAAAC -CACGCCGAGGCCTTCGCGAGCGGCGGCTTCAGCGGCTTCTACGACGCGGCGGGCGTGATCCACTTCTTTCTGGGT -CGGTGCGTAGAGGTTGTGCAGCAGATCAATCTGACGCGGGTTGATCAGCGATTTGCCGTCAAAGCCCAGCTGTTT -GATGTGGGCGGCTTCTTGCAGAAATCCGGCTTCGTTGTTAGCGTCGGAATAGACGGTATCGAACGCCTGAATACC -CGCAGAGCGCGCGGCCTGCAAAATGGAACAGCGTGCGAACAGCAGTTCAGTTCCTTCCGGGGAGCGTTCTGTACG -CAGGTTGCGCACATAGTCTTCTGCACCGAGGGCGATACCGATCAAACGCTCGGAAGCGTGAGCGATTTCCACTGC -GCGGGTAATCCCCAGCGGAGATTCAATCGCCGCCAGCAGGCCGGTGCTGCCGGGTTCACGACCACAGGCTTTTTC -GATACGCAGGATCTCTTTTTCAATATCCAGAACATCCTGAGCGGTATCGGTTTTCGGCAGACGCACAACGTCCGC -ACCACCGCGAACGACGGCTTCCAGGTCGTTAACACCCCATTCGGAATCCAGCGCGTTGACACGCACAATGGTTTC -AATATCGCGATACAGCGGATGTTGCAGCGCGTGGTAAACCATGCGGCGGGCGGTGTCTTTTTCACGCAATGCTAC -GGAGTCTTCGAGGTCAAACATCAGGGCATCAGCCGGGTAGATGAAGGAGTTGCTGACCATCGCGGCATTGGCACC -AGGCACAAACAACATGCTGCGGCGGGTGCGAGTTTTACGTTGTTGCAGCGAAGCGGAAATCATTGGCAATCCTCC -CATGGCAGAGCCGGGATACCGCTGGCGCGTGCCAGCAGGGCTTCCAGTCGTGCACGTAAAATGCAGTCCAGTGCG -CCTTTGTCATCGACATTCAGCTGTACGCCGCGCACGTTGTAGCGGGCGAGAACGTCCAGAATGGTGGTGCGAATT -GCATCGCCAAACTGTTTCTCAACGCTGCTATTGATTTGCAGGTCGATATCCTGCGTATCGAGTGGGGCGATGCGT -ATCATCACATCCCCAGACTCAAGGGTGCCTGCAACGGCGGGCTGGTTTATTTTCATTTTTCACCTGTTTCTCATG -CGGGGGTCTTTTGACGAGCTGCCGCGTCCTGGCGGGAGTGCTCAAGCAGGTTCTGCAAATAATGCAGCGTGACTG -CAGGGACCAGCGGCGCGATAGCCGTGAGATCGTTTTTCGCCAGCAGTTGACGTACCCGGGAAGCGGATATCGGCA -TCTCCTGGTAACGCAGCCGCTCAATTTCAACCAGTTCGATGGGCGGTGCGGAGATAGTCGGCGTTTCCAGCCAGT -AGCGCATATCCTGGTTGTACTGGGCGGTAACGCGACAAAAGGGTTCAGTACCGACAAAGCGGTGAGTTACACCCA -GCGCGGGAGCGAGGTACTGACGGAAAATCTTCAGATCAATTTCGGTGTAACAATGGTTAATGACGCTCTGTTCTT -TAATGAAGTAGCAAGGGAACGTAGCGCGGGAGATGATGTATTCGGAGCCACGATGCACAGTCAGGCGTGGAATAT -CGGCGGTGCCTTTTAACACCAAATCCAGCCGGTCTTCATAGGGGAAGCGTGAAGAATCTTCTTTGACTAAAAACA -GATGCAACCAGTCGCACTGTGCCGCAGCCTGTTGAATCAGATAACGGTGACCATTCGTAAAGGGATTGGCGTTCA -TCACAATGCAGCCAATCTTGTTCCCTGGATGACGAAATTTTTTCAGCGATTCGGCATAGCGTTTCAGTCGCGTGG -CGCTGTTTTCCATCAGCACCATCACGCCGGGTACGCTGGTCAGCGTGGAAAAACCGCACTGGCGGAACAGCGCCT -CGTATTCGGTTTTGGTATAAATAAACAGATGCGTGCTGTGCCGCTCATAGGCGAGGTTTATCAATTCAGTGGCTA -ATGTCAGCGCCAGTCCTTCACCGCGGACGGATTCACTGATAGCAACGCATTTAATAATATTTCCGGCAATTCCAC -CGCACGCGATAAGCTTTTCATCGCGGGTTACGGTAATAAATACTTCGACTGTGGTGTCAACGCTCAAATCATTTT -CATGCAGGAATTGGGCGATTTCCGCCATTTTTTTATTTTCTGAACGTTTTACGCGGGTGAAAATATCATTGCCGA -ACATAATAAATAGTATCCTGAAGGTGCATGTTGTTATCGATTTGCAACGAATGTTGTTCAATGTTGCAAACTGAT -AACCTTTTATTTTCACTTGGGAGAAAGGGGGTGATCGAGGTATATCTTTTTCTCCTTTCGCTATACATCCTAAGG -AGTATTTCGGCGTGAAATTTTGATTTATTTCACATAGAGTTAGTGGTTTTTTATTTATTTAATGATTTTAAGTTT -TTTAATTAATGTAATTACGAAATGACTCGCAGGTTTAAGTGATTTAATTGATTTAATGAATAAAATTTGCCACGA -TCATAATTAATATCTATGTATTTTGATTCAACATTTTAATTACATCCGTCAAAGAGGCTCGGGACAACCCGCAAG -GAAAACAATGTTGCAGCTTAACGAGAATAAACAGTTTGCATTTTTCCAAAGACTGGCATTTCCGCTGCGTATCTT -TTTGCTGATTCTGGTGTTCTCAATATTTGTCATTGCAGCCCTGGCGCAATATTTTACGGCCAGTTTTGAGGACTA -TTTAACGCTTCATGTACGCGACATGGCAATGAATCAGGCGAAAATTATTGCCTCCAATGACAGTGTCATCTCTGC -GGTGAAAACGCGTGACTACAAACGGCTGGCGACCATCGCTAACAAATTACAAAGAGATACCGATTTTGATTATGT -GGTGATTGGGGACCGGCACTCGATCCGCCTTTACCATCCTAATCCGGAGAAAATTGGTTATCCTATGCAGTTCAC -CAAACAGGGCGCGCTGGAGAAAGGGGAGAGCTACTTCATTACCGGGAAAGGGTCAATGGGGATGGCGATGCGCGC -CAAAACGCCAATCTTTGATGACGATGGAAAAGTCATCGGCGTGGTGTCGATTGGCTACCTGGTGAGTAAAATCGA -TAGCTGGCGGGCTGAGTTTTTATTACCGATGGCAGGTGTGTTTGTCGTGCTGTTAGGGATTCTGATGTTGCTGTC -GTGGTTCCTGGCCGCGCATATCCGTCGGCAGATGATGGGCATGGAGCCAAAGCAAATCGCACGCGTGGTCCGTCA -GCAAGAGGCGCTGTTTAGTTCGGTTTATGAAGGGCTGATTGCGGTGGATCCGCATGGTTACATTACCGCCATCAA -TCGTAACGCAAGAAAGATGCTGGGGCTGAGTTCCCCCGGACGGCAATGGTTGGGTAAACCCATTGTTGAAGTGGT -CAGGCCCGCCGATTTCTTTACCGAACAGATTGATGAAAAACGTCAGGATGTGGTGGCGAACTTTAACGGTCTGAG -CGTTATTGCCAACCGGGAAGCTATTCGTTCAGGTGATGATTTGCTGGGGGCCATTATCAGCTTTCGTAGTAAAGA -CGAAATTTCCACCCTCAATGCGCAACTGACGCAAATAAAACAATACGTTGAGAGCCTTCGTACATTGCGACACGA -GCATCTCAATTGGATGTCGACGCTCAATGGTCTGTTGCAGATGAAAGAGTATGATCGCGTGCTGGCGATGGTGCA -GGGGGAGTCTCAGGCCCAGCAACAGCTTATTGACAGCCTGCGCGAGGCGTTTGCCGATCGCCAGGTGGCGGGGCT -GCTTTTTGGTAAAGTGCAGCGCGCCCGGGAACTGGGGCTAAAAATGATCATTGTCCCCGGTAGCCAGCTTTCGCA -ACTGCCGCCAGGACTGGATAGCACCGAGTTTGCAGCCATTGTGGGCAATTTACTTGATAACGCCTTCGAAGCCAG -CCTGCGTAGCGATGAAGGAAACAAGATCGTTGAATTATTCCTCAGCGATGAAGGCGATGATGTGGTGATTGAAGT -CGCCGATCAGGGCTGCGGCGTTCCAGAGTCTCTACGAGACAAAATATTTGAGCAGGGGGTCAGTACGCGTGCTGA -CGAGCCCGGTGAACATGGCATTGGGTTGTACTTGATTGCCAGCTACGTAACGCGCTGCGGTGGTGTTATCACTCT -CGAAGATAATGATCCCTGCGGTACCTTATTTTCAATCTATATTCCGAAAGTGAAACCTAATGACAGCTCCATTAA -CCCTATTGATCGTTGAGGACGAAACGCCGCTGGCAGAGATGCATGCGGAATATATTCGTCACATTCCCGGATTCA -GTCAGATATTACTGGCGGGAAATCTGGCGCAGGCCCGAATGATGATCGAGCGTTTTAAGCCGGGGCTAATCTTGC -TCGATAACTATCTTCCTGACGGTAGAGGGATTAATTTACTGCATGAACTGGTGCAGGCGCATTATCCCGGCGACG -TGGTGTTTACCACTGCAGCCAGCGATATGGAAACGGTGTCTGAAGCCGTACGTTGTGGTGTATTTGATTATCTCA -TTAAGCCCATTGCCTATGAACGGCTGGGGCAAACGCTAACCCGTTTCCGCCAGCGTAAACATATGCTGGAAAGTA -TTGATAGCGCCAGCCAGAAGCAAATTGATGAGATGTTTAATGCTTATGCTCGCGGTGAACCTAAGGACGAGCTAC -CGACCGGCATTGACCCCTTGACGCTAAACGCGGTGCGAAAACTGTTTAAAGAGCCTGGTGTGCAACATACGGCAG -AAACGGTGGCGCAGGCACTGACCATCAGCCGCACCACTGCCAGGCGTTATCTTGAATATTGCGCCAGCCGCCATC -TGATTATTGCTGAAATTGTTCACGGCAAAGTTGGCAGACCACAACGCATATACCACAGTGGGTGACATGATAAAG -CCGGAGGAAACTTGCCTCCGGCATTACTATTTACTTGCCTGTGACCGCTGCTGCCGTTCCTGGCACCATCAGCTC -TGTAGCAACGATAACAATCACCAAACCAACAAGCACCGGTACCGAGGTGCGTTTTACGACTTCAAACGGCGAGAT -CTTCGCCATCCCGGCAACCGCAACGACTACGCCAGAAACGGGCGAAAGGGTACGGCCAAGGTTTGACGCCTGCAG -CATCGGGATAGTCAAATACGCCGGGTTAATGCCGGAAGAGTGCGCCAGTTTCGGGATCATCTCAACAAACGCATA -AAACGGCGCATTGCCTGAACCGGTCGTGACTGCCGCCAGCATTGTCAGAATCACCAATACCAGCATCAGGATGAT -ACTCGCCGAACCAAACGAGGTAGCGATAGAAATCAGACTTTGAATAAAGCCGATGGTGCTAAGCCCCTGAGCGAA -TACCCCAGCGGCAACCAGCAGCATCACCACGTTAGCAAACGCATCTGCCATCCCGCGATAAGCCACTTCCAGACC -AGAGAAAACTTTCTGGGTATTAAAGCTGCGGAGGAACTCCAGAATGGAGGCAATCAGCATACAAATCACCAGAAT -AGTGATGATGTGTAATTGCGGACCCCATTTACCGTCAAAAATCAGTACACCGATGATCGGCGTGAACGGCAAAAT -GGCATAAAACGCAGGAGCAGTGGTGGTGATTTCACTGACATCTAACATTTCATGAGAGATGTGCTCTTTTTTATC -CAGATAACGTTGCCAGAAGAAGTGGGCGATCGCCATGCCGATAATTGCAGCAATTGAGATAGGCAGCGTCGTTTT -GAAGGCGAAGTCAATCAGCGACATTTCGGAAGCTTGCGCCGCCAGCACCACATCCCCTGAAGTCGGTGCGAGAAT -AATCGCCGCCGGGGAGGCACAAATGGCAGCAGCTGCGCCACGACTGATACCAACGTTTACCATCACCGGAAATAG -GGTTGCCATCAGCAAAACACCCAGACCGGTTGCGGAAGAGACGGCCAGAGACATCAGACAGGCGACAAAATAGGC -GGCAATCATCAGCAGGTAAGGGGAGTTAATATACTGCAATGGTTTTGACGCCAGCTTGACCACCATATCATTCGC -GCCGATATGGGTCATGTAAGCGGCAAATCCACACAGCATCATAATCATCATGCCGAGGTCGCCGCCGCGGCTCAT -TAGTAATATTTTAACGTATTCAACGATATCCGTGGCGCTGTAGCCTGTTGAAGCCTGGCTGGACGGTAACACTTT -GTGCCCCATAATGGCACTGATAATCAGCAATAACAGGCCACCGACAAATAACACACCAGTGGCGGAATACCCTTT -AATGATGTAGCGAGCTACACCCACAATAACCACAACCCCAATAAGGAGCTCAATGAATGTCAGCATAATTTTTCC -TGTCTCCAGGCCCCAAAGTAAATAATAAAAAATTCCTAAAGCTTAAGGAAAAAATATGCCCAATAAATTGGCGAT -GAATGCTGATTAAAATCAAGAAAAACTGCCATTAAGACATTGAAGTTGCTGTTTTTATACATAGATAACAAAACG -CATATTTAGCGGTTGGCAATTATCACATAATAATGTGTGCAAATTGATGGTGGATTGATGCAAATTTGTTAATTG -CAATGGTGTTAGCTGCGGCTGTGCGCTCAAAAAATAATCTAATATGAGCATAGGTTGACGATATATATTATATAC -TTCGTTAAGATGATTGTTGTATCTCGTTAAAAAATAAAATAATTTTTCCTTGATTGCATTTTGTCATCAAAAAAG -ACTTGGTTTTTCTTTTTTGACTATTCCCATCGCAGAAAACGACGCATCATCTTTAATCGATGCGCGGAAATATTT -AACTTGAACAAGCGGAAATAAATAGAGCAGCTATTCAGATTATTCTTTATGTTGGGTCTATTAAGGTTATGTTAA -TTGTAGCTTTGCTATGCTAGTAGTAGATTTTTGATAAATGTTTTATGGTCACAAATGAACGTGAGTAAATATGTC -GCTATCTTTTCCTTTGTTTTTATTCAGTTAATCAGCGTTGGTAAAGTTTTTGCTAACGCAGATGAGTGGATGACA -ACGTTTAGAGAAAATATTGCACAAACCTGGCAACAGCCTGAACATTATGATTTATATATTCCTGCCATCACCTGG -CATGCACGTTTCGCTTACGACAAAGAAAAAACCGATCGCTATAACGAGCGACCGTGGGGTGGCGGTTTTGGCCTG -TCGCGTTGGGATGAAAAAGGAAACTGGCATGGCCTGTATGCCATGGCATTTAAGGACTCGTGGAACAAATGGGAA -CCGATTGCCGGATACGGATGGGAAAGTACCTGGCGACCGCTGGCGGATGAAAATTTTCATTTAGGTCTGGGATTC -ACCGCTGGCGTAACGGCACGCGATAACTGGAATTACATCCCTCTCCCGGTTCTACTGCCATTGGCCTCCGTGGGT -TATGGCCCAGTGACTTTTCAGATGACCTACATTCCGGGTACCTACAACAATGGCAATGTGTACTTTGCCTGGATG -CGCTTTCAGTTTTGAGACAAATGAAGTTTTAGTAACTTCTTTAAAATCAATAGCTAAAATAAGTAACATCAAAAA -TAACGCGACTTTTATCACTTTTTAGTAAAGTTACACTGGACAAAGCGTACCACAATTGGTGTACTGGTAACCGAC -ACAGCATTTGTGTCTATTTTTCATGTAAAGGTAATTTTGATGTCTAAGATTAAAGGTAACGTTAAGTGGTTTAAT -GAGTCCAAAGGATTCGGTTTCATTACTCCGGAAGACGGCAGCAAAGACGTGTTCGTACACTTCTCTGCAATCCAG -ACTAATGGTTTTAAAACTCTTGCTGAAGGTCAGCGCGTAGAGTTCGAAATCACTAACGGTGCCAAAGGCCCTTCT -GCTGCAAACGTAATCGCTCTGTAAGATACGTCAGCAAGAATTCAAAACCCGCTTAATCAGCGGGTTTTTTTTGGT -CTTTAGTGTGCGGTTGAGGCCGAAAACAGCCAGAATGCCAGTGCGGTCATGGCAAAAGACCCCAGAAGGTTGACG -AAAACGTTCAGTAATGCCCAGCCAAAGCGGCCCTCTTGTAACAAAAACACCACTTCTGCCGAAAATGTTGAGAAG -GTTGTTAGACCGCCACAAAATCCGGTGGTGATTAATACTTTCCACACTGGATCAATGTTCGTCATCCTGCTGAAC -CATGCGAATCCTATTCCTATGATGAATGCCCCAATCAGGTTTGCTGTCAGCGTCCCCAACGGAATCGCCTGATGC -AGTGGGTTAAATCGCATACTTAACAGCCATCTCGCCACGCTTCCCGTACCACCGCCAATAAAAACTGCTAAAAGA -AGTTGTAACACTGCAAAATCCTGCTATTTGATTTGTATGAGTGATAAGTGTAACGCCGAATAATCGTCGTTGGCG -AATTTTACGACTCTGACAGGAGGTGGCAATGCTGGTTGCCGCAGGACAGTTTGCTGTTACATCTGTGTGGGAAAA -GAACGCTGAGATTTGTGCCTCGTTGATGGCGCAGGCGGCGGAAAACGACGCATCGCTGTTTGCCCTGCCGGAAGC -ATTGCTGGCGCGCGATGATCATGATGCAGATCTATCGGTTAAATCAGCACAGCTGCTGGAAGGCGAATTCCTCGG -ACTTTACGGCGAGAAAGTAAACGTAACATGATGACGACAATTCTGACGATTCATGTTCCTTCAACGCCGGGGCGC -GCATGGAATATGCTGGTGGCACTTCAGGCAGGAAACATCGTCGCCCGTTATGCCAAACTGCATCTCTATGATGCA -TTTGCCATTCAGGAATCACGCCGTGTTGATGCTGGTAATGAAATCGCTCCGTTACTGGAGGTGGAAGGGATGAAG -GTCGGTCTGATGACCTGTTATGACTTACGCTTTCCAGAGCTGGCGCTGGCACAGGCATTACAGGGAGCTGAAATC -CTGGTACTTCCTGCCGCCTGGGTTCGCGGGCCGCTCAAAGAGCATCACTGGTCAACGTTGCTTGCCGCTCGTGCG -CTGGATACCACCTGTTATATGGTGGCGGCGGGGGAGTGCGGGAACAAAAATATCGGTCAAAGCCGGATTATAGAT -CCCTTTGGCGTCACCATTGCGGCAGCGTCAGAAATGCCTGCACTCATTATGGCGGAAGTGACGCCCGAACGTGTG -CGTCAGGTGCGCGCGCAACTGCCCGTCTTAAACAACCGTCGCTTTGCGCCGCCGCAATTATTATGATGTTTTTTT -ACTCGGCGCTTGATTCACCTTGTTACAGATTGCTATTGTGTGCGCGCGTCGAATGACCGTTAATATTCTCTGGTT -TTTAAGGCGCGTTCTGTTGCCGGTTATATGTCAAGAAGGTATCTATGGGTGAGATTAGTATTACCAAACTGCTGG -TAGTTGCGGCGCTGGTCGTTCTGCTGTTTGGGACTAAGAAGTTACGTACGCTGGGCGGAGACCTTGGAGCGGCCA -TTAAAGGGTTCAAGAAGGCGATGAATGATGACGATGCTGCGGCGAAAAAAGGCGCAGACGTTGATCTTCAGGCTG -AAAAGCTCTCTCATAAAGAGTGACGTGGCGAGCAGGACGCTCCCTCAATATCTTGTTCGATACAAAAAACCCGCT -TCAAAAAGCGGGTTTTTTATCAGACAGATGTAAGTAATTATTACAGGATTACTTAACTTCCATCCCTTTCGCCTG -CAAATCGGCGTGGTAAGAAGAGCGGACAAACGGACCGCATGCAGCATGGGTAAAGCCCATCGCCAGCGCTTCGGC -TTTCATTTCGTCGAACTCATCCGGGCTAACGTAACGTTGAACCGGCAGGTGATGGCGGCTTGGCTGCAAATATTG -CCCCAGCGTTAACATCGTCACACCATGACGGCGCAGGTCGCGCATTACCTCAATAATTTCTTCATTGGTTTCACC -CAGTCCCACCATCAGACCAGACTTGGTCGGGATTTCCGGATGCGCTTCTTTAAAGCGTTCCAGCAGCTTCAGCGA -CCAGTTGTAATCTGCACCAGGCCGTACCTGACGGTAAATACGCGGTACGTTTTCCAGGTTATGGTTGAACACATC -TGGTGGCGTTGCAGTCAGAATATCCAGAGCACGATCCATACGACCGCGGAAATCCGGCACCAGAGTTTCAATTTT -GATTTGCGGGCTTTTTTCCCGAATGGCAGTAATGCAATCCGCAAAGTGCTGGGCACCGCCATCGCGCAGGTCATC -ACGGTCAACGGAGGTGATAACCACATAACGCAGCGCCATATCGGCAATGGTCTGCGCCAGTTTCACTGGTTCATT -GGCATCAGGAGCTACCGGGCGACCGTGGGCAACATCACAGAACGGACAACGGCGGGTACAAATAGCGCCGAGGAT -CATAAACGTTGCTGTGCCGTGGTTGAAGCATTCCGCCAGGTTAGGGCAGGAGGCTTCCTCGCAGACAGAATGCAG -GCCATTTTTGCGCATTGCGGCTTTGATGCCCTGGATACGTGTAGAGTCCGCTGGAAGCTTGATTTTCATCCATTC -CGGCTTGCGCAGCAGGGCTTCGCGCTCTGTTGCCACGTTTTTAACCGGGATAAGGGCCATCTTATCGGCATCGCG -GTATTTAACACCGCGTTCCATCACAATGGGTTTACTCATAGCGTGCGTGTTCCAGTTGCGAATTACGAAGGAAAG -CGTTTCAATTCAATAGATTGTTGTAATTATCAACTATTTTTGAATTAACGACTGGCAGTATATCATTGAAACGGA -CCTGAAAGCAGCCAAAGCGGTCGCGAAAATGTAAAATTGTTGTTGGATTGTGCCATTTTATCGTTCTGCGCTGTG -ATCTGGCTGTAACAATACTTTTTCAAAATGCATTACGGATAACATCTATTACTCCGTGCAGGATGGGATCACGCA -GGCTGAATTTGTTGTAGTGGATAGAGAAATCTATTTGCTCCTCATTTAAGGACGGAAAAGGCAGTTTTTCCAGCG -GCCAGCAGCGGCTAAACAGGTTATAAAAACGGCTGGGAATAATCGCTAACATGTCACTGTTGGCAACCAGTGCAG -CGATTGTCAAAATGTTGTAGCTGGTGAAATTGATTTGCCGGTCCGGAAACATTTCTTGAACTCTCTGCCGCAGAC -CGCTGAAATTTTGCTCTTCCGGTAACAGAAGTACATGCGCAGCGTTGTCGATAGTCTCTCTGTCATCTTCTAAAG -AGAGTAGTGGATTTCCCTCGCGGCAAATTAACACCATATTGTCGGTGAACAGAACATGATGTTGCACCGTACGAT -TGGTGCAAAACATGTTATCGATGATGAGATCGGTTTGAAACTGACTGAGTTGGTTTTCCGCGTCGCTGATGGGCG -GGTTGCGCAGTAAAAGCTGCGGATAGTGAGTTTTAATCGCCCGATAGATGACAGGAAGGACCAGTGCTCCGACCG -AGGGAGTGGTCGCAATAGTTATCGTTCGTTGCTTATCATAGCTTCCTTCGATATCCAGCGCGCCAAGAATGGACT -CAAGGCCCTGACTGATATACTCATGTAGATGCATCGCAAATGCGGTAGGAGTGACACCCTGGCCTTTGCGAATAA -ACAATGGGTCAGGGAATATAACGCGCAGTTTCTGAATAGACTGACTGATTGCCGAGGGGGTCAGATTAAGCACTT -TCGCTGCATTAACGATCCCTTTATGTACATATACAGCTTCAAAAATAGTCAGAAGGTTAAGATCAATATTTCGTA -AGGTTGTAAATATTTGTGGTTTACCTTCTGACGACTTTCTGCTTAAACAGGGTTCAATTTGATTATTACTATCCA -CGCACTTACTCCAATTTTATTCATGGAAAAATAATATTTAAAAAATTACAATAATCTTATGTCTAATTGGAACGG -AACGCTTTTGCTCACCATAATCAACTATTTCAATAGGTTAATCAATGGGGTGAGTTACGGAGCAAGGCGTGGCAC -CGCATTTCTGCAAGTGATAAAGAAAATATACAAACGCGAAGGAGATGTAAAGCATTAGCAGATATTATGAGTAAT -GACCCAGTGTAAATTGGGCCATTGATGTATGGAATTAAGCGGTAATATATTCGAAGTCCGGATTGTTTAGTAGCG -CTAAAATATTTTCCAGTAAACGTGGAGCAATATTATTAGTCGTCGCTTCGGGTTTCCATTGTGATATTTTAGCCA -TTTCCATTCCGGCATACCCACAAGGATTAATACGTAAAAATGGTGAAAGATCCATATTGACGTTTAATGCCAGAC -CGTGGAATGAACAACCGCGTCGAATACGTAAACCCAGTGAGCAAATTTTCTTTTCCCCAACATAGACACCTGGCG -CGTCAGCCCGAGGATGCGCTTCTATACCCAGTTCAGCCAGGGTATTCACCACTGTTTGCTCAAGCAAGGTCACCA -GTTCACGCACACCGAGTTTACGGCGTTTCAGGTTAAGCAACACATACATCACCTGTTGCCCCGGCCCGTGATAAG -TCACCTGCCCACCGCGATCGCTCTGGATCACCGGAATATCACCCGGCATTAAAATGTGCTCCGCTTTTCCTGCCT -GACCTTGGGTGAATACCGGATAGTGCTCGACCAGCCAGATTTCATCAAGGGTACTATCATCGCGGGTATCGGTGA -ATTCATGCATAGCCTGGGAGATTGGCTCGTAAGGCTGAAGACCGAGCTGGCGGACAAGAATTTTATCCTGATACA -AAACGGCATCTCCGTGGAGAATGAGTAAAAGTGGGGGAAAAGTATATCACAGCGAGGAGAGGGGAGTTACCCGAC -CAGGAGCCGGGTAACGGAGAAGCGAGTTACAGAACCATGCGGACAATATCGATTTTGCCCAGTTCTTCATACAGT -GTTTCAACCTGCTCGATATGAGTGGCGTTGATAGTGATAGATACCGAGTGGTAGTTGCCTTTGCTGCTTGGTTTT -ACCGTTGGGGTGTAGTCACCTGGCGCATGGCGCTGTACCACTTCAACCACCTGATCAACCAGCTCAGGTAACGCC -TGCCCCATAACTTTGTAAGTAAAAGGAGTAGGGAATTCAAGCAGTTCGTTAAGTTTGGTTTTCATGTCAGCTCCG -GCGTAACGTAATTAAATAGCAACTCCCGCCAGAAGGCGGGAGTTTTTTACTGATGCTTAGTATATGGGGACGGAA -ATTACACTTTCAAGTGTTTAATTTTTAACCAAACCAGTGATGGAACATTAATTTAATGTAATCAATGATTTTGCC -GAAGAAGTTACCTTCCGGGATTTCTTGCAACACAACCAGCGGGCGTTGCTCGATCGTTTTGCCATCAAGCTGGAA -GTTGATAGTTCCGACGACCTGATTCTTTTGCAGCGGCGCATGCAATTCACTGCTGTTCAGCACATAGCTGGCTTT -CAGATCTTTCATGCGACCACGCGGAATGGTCAGGTACACGTCTTTATCAACCCCTAACGAAGCGCGATCAGAATC -ACCAAACCAAACCGGTTCAGAGGCGAACTCTTTACCTACTTTCAGTGGGTTAACGGTTTCAAAGAAACGGAAGCC -CCAGGTTAGCAGTTTTTTACTTTCGGCTTCACGGCCTTTAAAAGTACGTCCGCCCATTACCGCAGAAATCAAGCG -CATCTGGCCTTCAGTCGCAGAAGCAACAAGGTTGTAACCTGCTTTGTCAGTGTGTCCGGTTTTGATGCCGTCGAC -ATTCAGGCTGTTATCCCATAACAGGCCGTTACGGTTCAGCTGGCGAATACCGTTAAACGTAAATTCTTTTTCTTT -ATAGATCGAGTATTCATTCGGTACGTCACGGATCAATGCCTGGCCGATCAGCGCCATATCTCGCGCGGAGCTGTA -CTGACCATCAGCATCCAGACCATGTACCGTCTGGAAGTGGGTATTTTTCAGGCCCAGTGCGTTAACGTAGCTGTT -CATCAAGCCAACAAAAGCGTCCTGGCTACCAGCGGCAAAATCGGCCATGGCGACACAAGCATCGTTACCCGATTG -CAGGTTAATACCGCGGATCAGCTGAGAAACCGGAACCTGCATGCCCGGTTTGAGGAACATCAGCGAAGAACCTTT -AAACACCGGGTTACCGGTGGCCCATGCGTCGTTGCCGATAGTGACTAAATCAGTTTCTTTAAATTTACCGGCTTT -CATTGCCTGGCCGATAACGTAACTGGTCATCATTTTGGTCAGGCTGGCAGGATCGCGGCGGACATCTGCGTTCTG -TTCGGCGAGCACTTTGCCGGAGTTATAGTCAATCAGGATGTAGGACTCCGCATCGATCTGCGGTACACCCGGGAT -CATAGTTTTGATATTCAGGTCATCGGCATGTGCAGCAGAGATAAAGGCTGTGCAAAGAGCCGTGGTGAGCGCCAG -GCGCTTCATGATACGAGCGGAAAAAATGGTATTCATGGTCTGAACTACGACATCCGTGATGGAATTAAAAAAGTG -CCCTACTATAGCAAATGCACTACCGGCAGGCATCTGACTTTCCGCGTGACTTTGTTAACGTCATTTACAGAAATT -GACACATCAGATGCCTGCTTTACGCTACTGCGCGGTAGTAATAAATGACTGTAATTGGGCTTCGGTTTGCAAACG -TTGCTGCAAGGTACTGGCTTCGGCTTTGCTGGCGAATGGGCCAAGCTGGATCCGCCAGACCGCGCCATTTTGAGT -TACGCGACCGGGGACGCCGAACTTCTGTCCCAGTTGCTGTTGGTACTGTTGCGCACGAGCCTGATCGCTTACGGC -CCCGACTTGCACCATAAAGTTGCCGCTGGCGCTTTGCGAGACGGCTTGCGGTGTCACCATTGCAGGCGAGGTTGC -AGGCGTTGTCGACGGAGCTGTAACAACGGGCTGTGGCGCAGGCGTCGGTTCGCTGCCTTCCAGTACACCAGGCGC -TAAGGTCGTTGGTGCGCCGAGGAAACCGCTACTGGTTACCGGCGCGCCGGTCGGATCTTCGCTTTTTAGCGTCGA -ATTACTGACCGGAAGAATGTCACCCTGCGGGCCAGACACTGAACTTGTTCCCGCGCCACCGCTTAAATCGGGAGG -TGCAGGCAGGGCGTAAGTCTGTTTGGCGACTGTGGTACAAGCCATACCAGGACCAGAAAGCGAACCATCCTGGGC -AACAATAATCGGATCGATACGAACTTTGGTGTTGTTTGACGTGTTAAGACGGTCAGCTGCCGCGCGAGAAAGTGA -AATAACGCGGTCGTTGCCGTAAGGGCCGCGATCATTAATGCGCACCACGATCATTCGCCCGTTAGCCAGGTTAGT -GATTCTGGCGTAGCTGGGGATCGGAAGCGTTGGATGGGCTGCCGTCAGCTGTGTCGGATCGAATGCTTCGCCAGA -GGCCGTCAGGTTACTGCCGGGTTCGGCATCATAGATTGCCGCCAGTCCCGCCTGGCTAAATCGAGACGGATCCTG -CACGATTTTGTAGCTTTTACCGTCGCGCTGGTAATCCTGATTTGCCGTCGCGTTCAGTGGTTCGAAACGCGGGTC -CGCCCCGCTAATTTCAACTATAGGGCCGTTACATACCGCAGGCTGCGGTACACTTACCGTCTGTTGCTGACCATC -ATCGCTTGTACATGCCGCGAGCATTCCTGCCGCGATGCAGATCCCGAGCCACTGCTTACGCATTGCGCACCTCTT -ACACGCTTTTCGACAACATTTTCCTGTGGGTGTGGATTGACATTACAATCCCGAACCCAGCCATCAGCACAATTA -GCGCCGATCCTCCATAACTGACCAGTGGGAGCGGAACCCCTACAACCGGCAGAATACCGCTTACCATACCAATAT -TTACGAAGACATAAACGAATAATATCAGCATTAAGCCGCCAGCCATGACGCGACCAAAGGTGGTTTGCGCTCTGG -CGGCTATCCACAGCCCGCGCATGATCAGCAGAATGTAGAGAGCGAGCAGAATCAGAATGCCCACTAATCCCAGCT -CTTCCGCCAGTACCGCGAAGATAAAGTCAGTATGGCGTTCGGGGAGAAATTCAAGCTGTGACTGAGTGCCGTGCA -GCCAGCCTTTGCCGCGTAATCCGCCGGAGCCAATAGCAATTTTAGACTGAATAATGTGATAGCCCGCGCCGAGTG -GGTCTGATTCCGGGTCCAGGAGCATCATTACGCGCTGGCGCTGGTAATCATGCATCAGGAAGAACCACAGAATCG -GAATGAACGCCGCTACCAGCACTACTGCGACGCCAATCAGACGCCAGCTAAGGCCAGAGAGGAACAGTACAAACA -GACCGGAAAGCGCAACGAGGATTGATGTTCCCAGGTCAGGCTGTGCAGCCACCAGCAGCGTGGGCATAAATATCA -GCACCAGCGCGATGCCAGTGTTCTTCAACGATGGCGGGCAAACGTCGCGGTTGATAAAGCGCGCAACCATCAGTG -GTACGGCTATTTTGGCAATTTCCGACGGCTGAAAACGAACAATACCGAGGTCCAGCCAGCGTTGAGCACCTTTAG -AGATGGCACCGAAAGCATCTACCGCCACCAGCAAAATAATACAGATGATATAGAGATAGGGGGCCCAGCCTTCAT -AAACGCGTGGAGGAATTTGCGCCATCACCACCATGATGACCAGACCCATCGCGATTTGGCCGATTTTACGCTCCA -TCATGCCAATATCCTGACCGCTGGCGCTCCAGATAACCAGGGCGCTGTAAACCAGCAATGCCAGTAAGATCAGCA -GCATTGTGGGATCGAGATGGACTTTATCCCAGAATGTTTTTTTATTCGGATTATCCGTCATGATTAATGGTCCTC -CGCTGCGGCAACCGCTGGATTTTCCGCAGGCAGATCGGTGTTGTTATCACCCAGCATAATGTGGTCGAGGATCTG -GCGCATCAGTGTACCAACCGCCGGACCCGCACCACCGTTCTCCAGAATCATGGCGACAGCCACTTGCGGATTGTT -GTATGGCGCAAAGGCGGTCATCAGTTTGTGGTCACGTAAACGCTCGGCAATTTTGTGCGCATTATAGGTTTCGTT -CGCTTTCAGACCGAAGACCTGAGCGGTACCGGATTTCGCCGCAATTTTGTACGGTGCGCTAGCAAAGTATTTATG -CGCCGTACCGTTAGGGCGGTTAGCAACACCGTACATACCGTCTTTCGCCAGCTCCCAGTAACCGGAATGAATATC -GCCGACGGGCGGTTCATGCGGCTGTACCCATGGCACCTGTTTGCCGTCTTCGGCGGTGCTCATCAGCAAATGAGG -AACCTTCACGATACCGTCATTAATCAGGATCATCAGTGCCTTACTCATCTGGATTGGGGTCGCTGTCCAGTAACC -CTGACCGATACCAACCGGAATGGTGTCACCCTGATACCACGGTTTTTTAAAGCGTTTCTGTTTCCATTCGCGGGT -AGGCATGTTGCCGGAACGTTCTTCCGCCAGGTCGATACCGGTGTAATGACCATAACCGAATTTACCCATCCATTC -GGAGAGGCGATCGATCCCCATATCGTAGGCCACCTGATAGAAGAAGGTATCCGCAGATTCTTCCAGCGATCTTGT -GACATTCAGACGCCCGTGGCCCCATTTTTTCCAGTCACGATAACGTTTTTCCGAACCTGGCAGTTGCCACCAGCC -TGGGTCAAACAGCGTCGTATTGCGCGTGATCACCCCGGCGCTCAATGCCGAAACCGCCACATAGGGTTTAACTGT -AGACGCGGGAGGATAAACCCCCTGTGTGGCGCGGTTCACCAGCGGTGTATTCGGATCGTTCAACAAGGCGGAATA -ATCTTTGCTGGAGATACCGTCAACAAACAAGTTTGGGTCATAACTAGGCGTGGAAACCAGCGCCAGCACCCCACC -TGTACGCGGATCGGTGACTACCACAGCTGCGCGGCTACCCGCCAGCAGCGTTTCAATATATTGCTGGAGTTTGAG -ATCCAGCGTCAGGTAAATATCGTGTCCGGCTTGCGGTGGTACTTCTTTTAACTGGCGAATAACACGCCCACGGTT -GTTAACTTCAACCTCTTCATAACCGGTCTGACCGTGCAGCACATCTTCATAGTAACGCTCAATGCCCAGCTTACC -GATATCATGCGTTGCCGCATAGTTGGCCAGTTTGCCGTCATTATTCAGGCGTTCGACGTCTTTATCGTTGATTTT -CGACACATAGCCGATGACGTGGGTCAACGCCGAACCGTAAGGATAGTAACGACGTTTATAGCCTTTAACTTCGAC -ACCCGGAAAACGGTACTGATTGACGGCAAAGCGAGCTACTTGTACTTCGGTCAGGTTAGTTTTCACCGGAATAGA -GGTGAAACGGTGTGAACGTGCGCGCTCTTTTCGGAATGCAGCAATATCGTCATCGGTCAGATCTACCACGCTGCG -CAAAGCGTCCAGCGTTTGCTGCACGTTATCGACTTTCTCCGGCATCATTTCTATCTGGTAGATAGTGCGGTTGAG -GGCCAGAGGGATACCGTTACGATCGTAGATAATGCCGCGGCTGGGCGCGATAGGCACCAGCTTAATGCGGTTTTC -ATTAGAGCGGGTCTGGTAGTCGGTAAAGCGAACAATTTGCAGATTATACAGGTTGGCGATAAGCACGCCGGTCAG -CAGCAAAATCCCCAAAAAGGCGACCAGCGCCCGGCGCACAAACAGCGCGGACTCTGCCGTATAGTCGCGAAAAGA -GTTCTGTAGTTTCATCCGCTGCGTTTTCTACTCAAAGCTCCCTTATCACTCACGGTGATAAGGATGGTTGGTGGT -GATGCTCCACGCCCGGTACAGACTCTCTGCGACCAGCACGCGAACCAGCGGATGGGGGAGGGTAAGCGCCGACAG -CGACCAGCTCTGCTCAGCCGCCGCTTTACAGGCAGGCGACAACCCTTCAGGCCCGCCAATCAGTAGACTGACGTC -GCGACCATCCAGCTTCCAGCGTTCCAGCTCAGCGGCTAACTGCGGCGTATCCCAGGGCTTGCCTGGAATATCGAG -GGTGACAATGCGGTTTTTGCCTGCGGCCGCCAACATCTGCTCACCCTCTTTGTCGAGTATGCGCTTGATGTCCGC -ATTCTTGCCGCGTTTTCCGGCCGGAATTTCAATCAGCTCGAAGGGCATATCTTTCGGAAAACGACGCAGGTACTC -GGTAAAACCGGTTTGTACCCAGTCCGGCATTTTCGTTCCCACGGCGACAAGTTGCAGCTTCACGCATTAACTCCA -GAGTTTTTCCAGTTCATACAGGCGACGGCTCTCTTCCTGCATGACATGGACAATCACATCGCCCAAATCCACGAC -AATCCAGTCGGCGCTGTTTTCACCTTCTACGCCGAGCGGTAACAGGCCCGCTGCGCGAGACTCCTGCACAACGTG -GTCAGCAATGGACATAACATGACGGCTGGACGTACCCGTACAGATGATCATGCAGTCGGTGATGCTGGATTTGCC -CTGAACGTCTAAGGCGATGATGTCCTGACCTTTGAGGTCATCAATTTTGTCGATAACAAAATCCTGGAGTGCTTT -ACCCTGCAAGTTTTCCCCCTGGGTGAATCAAATAGATAAAAATGGTCTGTCAGTATACCTGAACCAGAGGCGATT -TCGGGACAATTGTCGCCGAATCGGCTTTCGAAAGTGGGCTATCATCCCACCCCGCGCCGCAGATTGCATCGCCAT -TTTTGTAAAACAATTTCTACAAAGTCGTGTCTGGCGGAAAAAGTCTGGCTGCGGAGAATATCAGCCTGCCCGGGT -CTGTCAATGGTCGTTGCGGCTTACCCGTAAAAAAACAGAAAAGTCATGCATTCTCGACCCCGATGGCACGGCTAT -TGAGGACGCGTAGCGTCGCGAATTTTTGGTTGATATCAATGGCGCTCCAACACCCCTGGTCAACGCGAAAATGCC -ACATAGCTTCGGCAGGCATGCCAATTAAACGGGCGATTAACAGACTCAGTACACCCTGATGGCTGACGACTAAAA -TATTCTGATAGTGCTGAAATTCACTAAGCCTTGCGATAAAGCGTTCCACACGTTGCGAAAATGCCTGAAATCCTT -CACCGTTCGTGGGGATTGCATGCTGCCAGTCATTGCACCACGCGCTATAGTTTTCGGCATCTTCTTGCATGAGGT -CGCGATGATGTCGCATCTCCCAGTCGCCAAAAAACATTTCGTTGAGTTCAGGTATGATTTGCACGGGGAGCTGGC -GGTCACTGAGAACCAGTCGCGCGGTATGCTGTGCCCGTTCCAGTTCACTGCATAAAACCAGATCAAAGGAAACAC -CATGTAGCAGCGTATGCAGATTTTGCGCTTGCTCAATACCGCGCGCGGTCAGGGGGGTGGGCGCATGACCGCTGT -AAAGACCATCGATATTCGCTTGCGTTTCACCATGACGAATTAACCACAGTCGCATCATGCCCTCCGTAACGACAG -GTATCAGCGATACAAGCCTTGTTGGTTAATGTAAGTCAGTACCGGTTCCGGCAATAAATCCTCACATGATTCACC -GTTTTGCAAACGTTCGCGGATGATGGTCGCCGAGATGTTAAACCACGGCGTTTCAGCCAGATAAATTTTACCGGC -AGGCTGAAGGTGAAGATCTTCCGGGTTATGTGTCAAATGATCTTCCAGCCATTGCTGGTATTGCGGTTGCGCCAT -TTCAAGTGGGTAACCTGGACGCCGACAGACGATCAAATGTGCATTGTCGAGTATCGTTTCGTATTCGTACCAGGT -CGGAAAGGTCAGCAGTGAATCCTGACCAATAATAAACGCCAGCGGCACGTCCGGTCCTTGTTCCTGCCGCCACTC -TTTCAGTGTTTGCGCAGTGTAAGAGGGGGCATTGCGCTTTAGCTCGCGTTCATCAAGAGTAAATAATGGCTTGTC -GGCAATCGCCAGTTCAAGCATGTGTTTACGCTGCACGCTGTTCGCTTCCGGCTGGGGACGATGCGGAGGAACATT -ATTAGGGATGATTGTGACCCGCGTCAGACCAATCAAATTCGCCAGCGTTTCCACGGGTTTTAGATGACCATAGTG -CACCGGATCAAAGGTGCCGCCAAACAGAGCCTGTAAAGATTTCATATCAACCGTCGATAAATACGTCCGCCAGGG -GTTTATGGCACAACAGAAGAGATAACCCTTCCAGCTCTGCCCACACTGACTGACCGTAATCTTGTTTGAGGGTGA -GTTCCGTTCGTGTCAGGAGTTGCACGGCCTGACGTAACTGCGTCTGACTTAAGCGATTTAACGCCTCGCCCATCA -TGCCCCGGCGGTTCTGCCATACCCGATGCTTATCAAACAACGCACGCAGTGGCGTATGGGCAGACTGGCGTTTCA -GGTTAACCAGTAACAACAGTTCACGTTGTAATGTGCGCAACAAAATAACCGGTTCGCTGCCTTCCAGACGCAGTT -GCTGAAGAATATGCAATGCGCGCTTACTTTTTCCCATCAACAAAGCATCAACCCAATGAAAAGGGGTGAAATGCG -CGGCATCATTCACCGCCTGTTCAACGCGCGGTAATGTCAATTTGCCGTCTGGCCAGAGCAGCGATAAACGCTCCA -GTGCCTGAGCCAGCGCCAGCAGGTTACCTTCATAACAGTAGCAGAGCACCTGATTTGCCGCGTCATCCAGTTCTA -AGTTGAGCTGTTTTGCGCGCGCAGCAACCCAGCGGGGAAGCTGAGCCTGCTCCGGTGTCTGACAGGTCACCTGCA -CGCTGCGATTCGCAAGCGCAGTAAACCAGGCGGCATTTTCTTGCGCTTTGCTTAATTTATTACCGCGGACGATCA -ACAGCAGGTCGTCATGCAGAAGTCCGGTGAGTGTGAGAAGTTGCTCATTGATCGCCGCATTCGGTCCGTTTTCTG -GTAACAACAGCAATAGCGTTTGTCGACTGGCAAACAGACTCATAGCCTGGCATAACGAAAAGATCGCATTCCAGT -CAGTGTTGGGATCAATGGAAAAAGTGTGGTGTTCTTCGAATCCTTGTGCCGCAGCTACCTGACGAACAGCGTCCT -GGCTTTCCTGCAATAACAGAGGATCGTTACCAAGTAAAAGATACGCCGCGCGCAGCCCTTCATTGAGCTGCGCGC -GGAGTTGTTCCGGGTACAACCGAATCATCAGTTACCCAGCGTGGTGGAGACGCGTGCAGGCGTTGCCGGAGTATC -CGTTGTGGTCGACGTCTGTTCTTCGTCGGAACGAATATCCGCAGCACGGATGCTTGGCAGCTTACGAATCAGCTG -TTCGGCAGCACGGTCGTACATCTCTTTTACGATCATGTCTTGTTCGTTATCTTTCGCTAACGCCATTTGCGGGTT -ATCGAAGAACGAACGGAAGACTTTGGCGCTAATCGGGTAGATATCACGGCCGGGGATCAACACGGTCGCATTAAC -CGTCATGATCATCTGATACTCTGCTGTTTGACCGTTACGGAATACCGATGCGGTATCTTTCGCGATGCTCACTTT -ACCCAAACGCAAGGATGGAACGTCCTTACGCGTGGTTTCTTTATCAAGCAACTCGACACCATTCAGACGTAACTG -GTTACGCACCGCACGGCTTAATGGCCCGTTCGGATCGCCTGAGTCCAGGATCATGACCTTCATAGTGGAAGGAAC -CTGCGTGGTATCACGCAGATGCCAGCCACACCCGGCGGTGATTAACACCGCCAGAGATAACAACAATGTTGCCAG -ATATCGCACGCTTCCTCCCGCGCTTAGCCAACGACCAGATTGAGGAGTTTACCTGGTACGTAAATCACTTTACGT -ACAGTAACGCCATCAAGATATTTTGCTACCAGATGTTCCTGGCCAGCACGTTCGCGAACCTGTTCTTCCGTTGCG -TCCACCGGAACGGTGATTTTGGCACGGACTTTACCGTTAACCTGCACCACGACCAGCGTGGAGTCTTCCACCATC -GCTTTTTCGTCAGCAACCGGCCACGGCGCGTTGTCGATATCGCCTTCGCCTTTCAGTTCCTGCCACAGCGTGAAG -CAGATGTGCGGGGTGAACGGGTTAAGCATACGGACAACGGCCAGCAGTGCTTCCTGCATCAGAGCGCGATCCTGC -TCGCCATCGGTTGGTGCTTTCGCCAGTTTGTTCATCAGCTCCATAATCGCCGCAATTGCGGTGTTGAAGGTCTGA -CGACGGCCGATATCATCGGTCACTTTAGCGATCGTTTTATGCACATCGCGACGCAGCGCTTTCTGATTTTCAGTC -AGCGCATCAACGTTCAGTGCCGCAACATCACCTTTTGCTGTGTGCTCGTAAACCAGTTTCCAGACACGTTTCAGG -AAGCGGTTAGCCCCTTCCACACCGGATTCCTGCCATTCGAGAGTCATATCAGCCGGAGAAGCAAACATCATAAAC -AGACGAACGGTGTCCGCGCCGTAACGTTCAACCATCACCTGCGGGTCGATACCGTTGTTCTTCGACTTGGACATT -TTGCTCATGCCGGTATAAACCAGTTCATGGCCTGCCGCATCTTTCGCTTTCACGATACGGCCTTTCTCGTCACGT -TCAACGATAGCATCAACCGGGGAAACCCAGTTACGTTCGCCGTTTTCGCCAACATAGTAGAAGGCATCTGCCAGC -ACCATACCCTGACACAGCAACTGTTTCGCTGGTTCGTCAGAGTTCACCATGCCTGCATCACGCATCAGTTTGTGG -AAGAAGCGGAAGTAGAGCAGGTGCATAATGGCGTGTTCAATACCACCAATGTAGATATCCACCGGCAGCCAGTAG -TTAGCCGCTTCGGAATCCAGCATACCTTCTTTGTACTGCGGGCAAGTGTAGCGCGCATAGTACCAGGAGGACTCC -ATAAAGGTGTCGAAAGTGTCGGTTTCACGCAGTGCTGGCATACCGTTAACGGTAGTTTTCGCCCACTCCGGATCT -GCTTTAATCGGGCTGGTAATGCCGTCCATTACCACATCTTCCGGCAGGATCACCGGCAGCTGGTCGTCCGGGGTC -GGCATTACGGTACCGTCTTCCAGCGTCACCATCGGAATCGGCGCGCCCCAGTAACGCTGACGGGAAACACCCCAG -TCGCGCAGGCGGTAGTTCACTTTACGCTCGCCAACGCCCATCGCAGTCAGTTTATCGGCGATGGCGTTGAAGGCC -GCTTCATGGTCAAGACCGTTGAACTCGCCAGAGTTGAACAGCACGCCTTTTTCAGTCAGGGCTTGCTGAGAAAGA -TCTGGCTCAGAGCCGTCAGCTGCCAGGATAACCGGTTTGATGTTCAGGCCGTATTTAGAGGCAAACTCGTAGTCG -CGCTGGTCGTGCCCCGGTACCGCCATAACTGCGCCCGTGCCGTACTCCATCAATACGAAGTTTGCTGCCCAAACG -GGAATTTCTTCGCCCGTTAATGGGTGAACCGCTTTAAAGCCAGTATCGACGCCTTTTTTCTCCATCGTCGCCATT -TCAGCTTCGGCAACTTTGGTGTTACGGCATTCGTCAATAAAGGCCGCCAGTTCAGGATTATTTTCCGCCGCTTTC -TGCGCCAGCGGATGACCCGCAGCTACCGCCAGGTAGGTACAACCCATAAAGGTGTCCGGGCGGGTAGTGTAAACG -GTCAGCGTGTTGTCATAGTCGTTAACGTTGAAGGTGATCTCCACGCCTTCGGAACGACCGATCCAGTTACGCTGC -ATGGTTTTAACGGTGTCTGGCCAGTGATCCAGTTTATCCAGATCGTTGAGCAGCTCGTCAGCGTAAGCAGTGATT -TTGATAAACCACTGCGGGATCTCTTTACGTTCAACTTTGGTATCGCAGCGCCAGCAGCAGCCGTCGATAACTTGT -TCGTTCGCCAGTACGGTCTGGTCGTTCGGGCACCAGTTGACCGCAGAAGTCTTCTTATATACCAGGCCTTTTTTA -TACAGCTCGGTGAAGAATTTCTGTTCCCAACGGTAGTATTCCGGCGTACAGGTTGCCAGCTCGCGGCTCCAGTCA -TAACCAAAGCCCAGCATTTTGAGCTGGTTTTTCATATACGCGATGTTGTCGTACGTCCACGGTGCCGGAGCGGTG -TTGTTTTTCACCGCCGCGCCTTCCGCAGGCAGACCAAACGCGTCCCAGCCGATCGGCTGCAGGACGTTTTTGCCC -AGCATACGCTGGTAGCGGGCGATCACGTCACCGATGGTGTAGTTACGTACGTGGCCCATGTGTAGTCGACCAGAA -GGATAGGGAAGCATAGACAGGCAGTAATACTTCTCTTTGCTCTCGTCTTCGGTTACTTCAAATGTGCGCTTCTCA -TCCCAATGAAGCTGTACTTTGGATTCTATCTCTTCCGGGCGGTATTGCTCTTGCATGGCAGCCAGTGGTCCTGTT -TTCAATACGGCTACAAATGTAGCGTTGAGGTGGTTTTTCAGATCCGCATAGCATAGCCCAAACGTCCGCGTCAAA -ACAGCCTTTCGCGCACTCGACGTTGAAATGATGCCCGGATTATTCATACATTAATTTACAGAGTTTGTGGGCGTA -TTAGCAAAGCAAGGAACAAAGAACGTCTATTATTATAGTCAGTTAACGACCCGGGAGATGAAACGATGAACAAGG -TTGCTCAATATTACCGTGAACTGGTTGCGTCACTGAGCGAACGCCTGCGCAATGGCGAACGTGATATCGACGCAC -TGGTGGAACAGGCGCGCGAGCGCGTAATAAAAACAGGGGAGTTAACGCGAACCGAGGTCGATGAGCTGACGCGAG -CTGTCAGACGTGACCTGGAAGAGTTCGCCATGAGCTATGAAGAGAGCCTGAAAGAAGAATCTGACAGCGTCTTTA -TGCGGGTGATTAAAGAAAGCTTGTGGCAGGAGCTGGCAGACATCACCGATAAAACGCAGCTTGAATGGCGCGAAG -TTTTCCAGGACCTCAATCATCATGGGGTTTATCACAGCGGAGAAGTGGTCGGGCTGGGAAATCTGGTCTGCGAGA -AATGTCACTTCCATCTCCCGATCTACACACCGGAAGTGCTGACGCTATGCCCGAAATGTGGTCATGACCAGTTCC -AGAGACGCCCGTTTGAGCCGTAATAGTCTGATTTCGCACAGCAATAAAGAGAATATGGGCCGAATGAAATTCCCC -GGCCCTTGTTTTTATCTCTACAGTAAATCTTCAGTCTCACGAATTTCCTGACTGACATCTCTGGTTCCGGATGAC -TGAACTTTACGATACAGGTCGAGAGCCTGTCGGAGATCGACAGGTCTTCCTTCTCCGTAGTGATACATAATGGCC -AGGTTATACCAGGCAGTGGCGTCATTGCATTCAGCGGCTTTCGTAAACCATTCAAAGGCAGCCTGATAATCTTTC -TCAACGCCTTGTCCGTGTTTATACATATAACCGATGTTGACGTAAGCGCCGACGCTCCCCTGAGCGGCAGCCTTC -AGATACCAGTACATCGCTTGCTTATAGTCCTGGTCCACCCCTTCGCCAGCGTTATAATCCCATGCAATTTGAAAC -TGGGCGTGCCGATTACCCTGCTGTGCGCTTTTCAAATACCAGAATGCGGCGAGTGTCTTGTTTTGAGCAACGCCT -TTTCCGTCTTCATAAAGATCGGCCAGATTGTTTTGCGCGTCACTATGGCCTTGTAATGCAGCTTGTTTGTACCAG -AAAAATGCCAGCGCATAGTCTTTTGCGACTCCGTTGCCATTTCTGTACATCCACCCAAGATTATTTTGCGCATAA -GACATTCCGCTCTCCGCGGCTATCTGATACCAGACAACCGCTTCTTTATAATTGGGGGCTTCTCCACGATCCAGT -GTCCAGCCAAGGGCGTTGGAAGCGAAAGTATGGCCTTGTAGGGCAGCTTTTTTCAGCCAGAAGATGGCTTGCTCA -TTATCTTTATGACGGCTTTTATCCTCGGTATACTTTTGCCCTAAGGAATACTGTGCTTCACAATGACCTTGCTCA -GCGGCCAGCTTCAGCCAGTAAAAGGCTTTTTCGTCGTCCGGAGAATCAATTGCGCTATCGCGATTATAATAAAAC -CCAACAATATATTGAGCCTCGCAATCGCCTTTTTCAGCACGTTCGATAATCTCATCTATTGATAAATTATCGCAG -CAACTTGACGTGAAAATCATTATCATTTCCTTATGGTTGCAGATAAAACATATTATATTTTTATGTGTTCCATTT -TTGCGTAAGCCTTATTTTATGCGTATTATGTCGCGTCAGAAAAGTATAAATAAACGAGCCTCGCAATGCGGCTAA -TATTCATTTAATGAATATTTAAGGATAAATTATATGGACATGGAGTCGCAAAAAATATTGTTTGCACTTTCCACT -CCGATGGAAATACGCAATGAATGCTGTTTACCTTCGCATTCATCACCCAAAATGTATTTAGGTACATGCTTTTTT -GACCTTTCTTCCTCATGGGGAATTGATGACCGTGATGACCTGCTGCGCACAATTCACCGAATGATCGATAACGGT -CATGCCGCTCGGTTGGCAGGGTTTTATCACCGCTGGTTTCGTTATTCGCCATGTGAATGGCGTGACTATCTTGCT -GAACTAAATGAGCAAGGTCAGGCTTATGCGCAATTTGTCGCCAGCACCGCCGAATGCTGTGGCGAAGGGGGAATC -AAAGCCTGGGATTATGTCCGGATGGGTTTTTTAAGCCGAATGGGCGTACTTAATAACTGGTTGAGCGAAGAAGAA -AGTCTATGGATCCAGTCGCGCATTCATCTACGGGCTCTACGTTATTATAGTAACTGGCGGCAATACTTTGCCGGT -TATACCTTTGGTCGGCAATATTGGCAGTCTCCCGAAGATGATCATCTGCCTTTATTACGCGAATTCTTAGCGCGT -AAAGAATACGACGATTCCGGCAATGATATGTTTTATCAATTATTTGCCAGTGATGATGCGTATTACCCTACCTTG -TCCTGGCAACCATTGGCTTACTATTCTGCATGCCCGGAAACGCTTAAGGATATGAGCGACCTATGAAAAATTGCT -GGAAGATCCTCGATATAGAGGAAACGACTGACGTCGATATTATCCGCCGCGCTTATCTGGCGCTGTTACCGTCCT -TTCATCCAGAAACCGATCCGCAGGGTTTTAAACAACTTCGTCAGGCGTATGAGGAGGCGCTACGGATTGCGCAGT -CGCCTGCTAAATCTGTTTGGCAACCAGAAGAATATGAGGTAGCAGAACATGAAATTCTGCTCGCCTTTCGTGCGT -TACTTGCCTCTGATAGTGAACGTTTTCTGCCCTCCGCCTGGCAGCGATTCATTCAGCAATTAAATTATTGCTCGA -TGGAGGAGATTGATGAATTACGCTGGTCGCTGTGCACAATCGCCATGAACACTGCCCATTTATCCTTCGAGTGCG -TGGTGTTATTAGCAGAAAGATTGCGGTGGTTACAGGAGGAAAATACCGGGGAAATAGACGAAGAAGAACTGGAAT -CCTTTTTATATGCCATTGCGAAGGGGAATGTTTTTAACTTCCAGACCATTCTGCATCTGCCCGTTGCCGTGCAAA -ATGACACCATCGATTTTTACCAAATGTTCGCTCGGATTTGGTCATCGCATCCACAATGGCTGACATTGTATTTAG -CGCAACATCGCGCAGTGATTATCCCCGATGATGCAAAACTGCACAGAAATTTACTCCGCTGGTATAGCGCAGGTC -GCCTGGATATCCCCGAACTTCTGGATTACGCCCAGTCATGGCGGGAAACTGAACCTGATAATGAAGATGCGCCTT -ATTATGAATACGCGCAACGCGTCTATTGTGGAGAAGGCGAAAGCCTGTTGGCAGAACTTTGTGACTACTGGCGCG -AGTATCCCTCCACCCAGGCGGATGCTTTAATGTTGCAATGGTGCCGTCAGCATCGGGTCGATTATTACCCATTAC -TGGTGATGATGATTGAAGCGCGTGATCTGGTTAACGATCAGGGAAAACCGCTACTTTATGTCCCCGGCGACAGCG -CCCGTACGCGTTTTCATTTATACGAAATACTCAGCGATGAAAAACTCTCTGCGCTGGGGCGTTCACTGGTCGAGA -TGGTTTTGCACAAAGGACGTAAGCCGCGGATCTCACTCACGCGTGATACAGAACATACCTTATGGCCATTATATC -TAGTTGCCAAACAATTAGTGCAGGCCTGCCAACCTACAGAAGAATCATTAATGCCGATTGTGAGCCGCCTTGATG -CAGAAAATCGTTGTCCACTGGAAGCATTAATTATTCGTCGATTATTAATTCAGGCGGCGAATTTTACCGAGAAGC -AAACTGTTGAACCGGAGCCGCAACCGCAGCCAATGCCCGTTGACGATGGTGGGCCAGGCTGTCTGGGCATCATTA -AAATTATTTTCTATATTTTTATCTTTGCTGGTTTGATAGGGAAAATACTCCATCTGTTCGGGTGACAGTCGACGT -TAATGTGCGGGAAGCCCGGCAAGTAATCTTTCCGCATTTTTGTAATGTTGTTTGGCGGTCAGTTTTAACCATTTT -TGAGATTCATAATGGTTAACATTAATACCTGAGCCATTTCTGTAGATCAAACCTAAAGTATATTGAGCATGAGCA -TACCCTTGTTCAGCTGCTTCCTTATACCAGAGAATTGCTTTACGGGTGTCGGGTTTGACCCCCAGACCTTTGAGG -TAGATCCACCCCAGTTTACTTTGCGCGCGTGGATTTTCCTGTTCCGCTGATTGCTCATACCAGTATCTCGCCTGT -GTATAATCCAGTGGTTTACCGTCGCTACCATGAAGATAAAATTCTCCAAGGCGATATTGCGACGTTGAGTGACCA -TGAATCGCGGAAAGCTCCGTGGCTGCCGTGGTGAATGGAAGACTGCCCGGTGAGCTTAAATAATCAAAGGCATAA -TTCACCATGGCTTTATCACGCAACGTCGTTTTCTTGGGTTGGCTAATACAGGTAATTGCTGCAACTATAAAAATT -GCGAATATATACATTAATTTTTTATTCATGTGTGAATGCTTCGATTTTCTTTTTATTTTGAAAGCGTCAAGTTTA -TACTCATCAATAATAAAAAAGTAGTCAGTTAATGCACTTAAGGGATTATTAACAAATGAATAAGGAAGAACAATA -TCTTCTTTTTGCGCTTTCTGCGCCCATGGAAATACTTAATCAGGGTTGCAAACCCGCGCATGACTCGCCAAAAAT -GTATACTGGGATAAAAGAATTCGAGCTCTCATCATCCTGGGGAATAAATAATCGTGATGATTTAATTCAGACTAT -TTATCAGATGACTGATGATGGTCATGCCAATGATTTAGCTGGCTTATATCTGACATGGCATCGCTCTTCCCCTGA -AGAGTGGAAAGCATTAATTGCTGGTGGCTCGGAGAGAGGGTTGATTTATACCCAATTCGTTGCCCAAACCGCTAT -GTGCTGTGGGGAAGGGGGAATCAAAGCCTGGGATTATGTTCGAATGGGGTTTCTGTCACGGGTCGGTGTGCTCAA -CAAGTGGCTGACGGAAGAAGAGAGTTTATGGCTGCAATCGCGCGTCTATGTACGAGCTCACCATTACTATCACAG -CTGGATGCACTATTTTTCCGCCTATTCGTTAGGACGTCTCTACTGGCAATCTTCTCAGTGCGAAGACAACACTTC -GCTACGCGAGGCGCTAACCCTGTACAAATACGATAGCGCCGGGAGTCGTATGTTCGAAGAGCTGGCAGCGGGAAG -CGATCGTTTCTATGCCACGCTTCCCTGGCAGCCATTAACTGTCCAGTCTGAATGCCCGGTAACGCTTAAGGATGT -GAGCGACCTATGAAAACATGTTGGCAAATCCTCGAAATTGAAAGCACGACGCAAATAGACATTATCCGCCAGGCT -TATCTTGCTCGCTTACCGTTGTGTCATCCCGAAACCGATCCGCAAGGGTTTAAAGCATTACGCCAGGCCTATGAA -GAGGCCCTGCGACTGGCGGTAAATCCTGTCGAGGAAGCAGATGATGAAGAAAAAGATGCTGCCGCTGAACATGAA -ATACTACGTGCATTCAGGACATTACTGGATTCAGAAAGTGATCGTTTTCAGCCTTCCGCCTGGCAGAAATTTATT -CAGCAATTAAATACCTGGAACATGGAGGATGTCGATCAATTACGCTGGCCGCTGTGTGCAATCGCCATAGAAGCG -CGATATCTTTCATTAAATTGTGCTTCTTTGCTGGCAGAGCGTTTGAACTGGCATTCATTTAATGACAGCGAAGGA -ATGGATGAGGAAGAAAGGGAGGCTTTTCTTGAGGCCATTCAGGCTGGTGATTGTTTCGATTTCCTTAGCCTTCTG -GAATATCCCATTGCGTTGCAGAACCAGACTGTTGAGTATTACTTCGCGCTGGAACGTTGCTGCCGTTACCATCCT -GACTATGTCACTGCGTTTTTGGCGATGGAAGGTCCGTGGTTAATTCCTGATGATGCAAAGTTACATCGCAAACTG -TTGCGCTGGTACAGCTCGGTGCAAACAGGTATGGCGGAACTCATTCCTGTCGCTCAACAGTGGCAAACGGAAGAA -CCAGAAAGCGAAGATGCCCGGTATTACTTGTGTGCACAACGTTTGTACTGCGGCGAGGGGGAAAGCCTGCTTGCC -GATCTCTGCGCGTACTGGGAAAGTTACCCATCTACACAAGCTGATAATTTGTTGTTGCAGTGGAGCAAGCGTCAT -TGCCCGGATTATTTCGCGTTATTAGTGATGGTTATCGAAGCGCGGAGCATGGTAGATGCGCAAGGTCAACCGCTG -AAATATGTTCCTGGTGAGAGCGCCCGGACGCGGCTGTTATGGGCGGAGATTTTACATAGCGGAAAATTATCGCCG -TTAGGTCAATCGTTTATTGAGTCGTTATTCTTCAAGCGCAAAGCATGGGCGTGGTGGAAATCGAGAGTCGGTAGC -GAGACAGAGCAAGATTCACCGTTCCTGGATTTGTATCGGGTAGCGGAACAGGTAGTACTTGAAGCGTTTCCGAAA -CAAGAGATGCTGGCCCGTCTTAATACAAGGCTGGAAGGCGGAGATGCTCATCCATTAGAGGCCATTGTCACCCGG -ATGCTTTTGACGAAAGTGAAACTCGAGCCGGAGGATGAAGATGTCGATGAGCCAACACCTGAAAATCATGAAGAA -AAAAATGATGAGGGTGAAAAACCACAGAGCATTACCAGCATTATCAAAATCAGTTTAACGGTGCTGGTGATAGGT -TATGCTCTCGGCAAAATCGCGATGTTGTTTAGCTGACGATGTGTTTTTTGCGCCGATGCCGGATGCAGCGTTTAC -GCCGCATCCGGCAGCCGTGTTTATGGGATCTCAATGGCTAAATAATCGCTCGCCCGCCGCCGAACTTCATCCACG -CGGGCCATATCGTTTGACTGCAACGCCGCATCAAAATCGGTGATCACCCGGCCGATCTCTTCTCGCTCGTCACCC -AGCGCCCGCGCCCACAACTCTTCCAGTTTGGCTTTAAAGGTGCGATTGATGAGCATATCGCGCGGATAAATTTTC -AATGCGGATAACCGCGTCCGACTCTCTTCAATCTGCTGCGCGCTCAATGTTACCGGGCTGTGGTTAATCACTCTG -GACTTAACGCTGCCGTCTTCCAGAAGCACGTCAACTTCAAGCAACCCGTTGATATCATAACTAAAGCGAATATCA -ATCGACTGATAAGCCCCGGTTTTCTTCAACGGCACATCGAAGGATTCCACCAGAATGTTGTTTTTAACTTTGTGG -TTTTCTCCCTGATAGACGTTAACCGTAATTGAATCCTGTTCCGGGTGCATGGTTGAATAAGTTTCTACACGCGAC -ACGGGCACAGTGGTGTTTCGTTCAATAATCGGCGAGAAAATGCCGGAAACGCCCTGGCGGTTAACTTCAACGCCC -AACGAGTAAGGGCAAATATCAGTGAGGATTACCTCTTCAATATCTTCACTGCGTAAGCGGCAGGCGGCCTGGATT -GCTGCGCCCAGCGCGACAATGGTGCTCGGATCGTAACTTTGATACGGTAATTTGCCAAACAGACGCACGGCGATT -CGCTGCACCAGCGGCATTTGTGACGCGCCGCCAACCAGCACCAGACTGTCGATTTGACTCGGCTTCAGACGCGCA -TCGCGCAACGCCTGTTCAATCGGCACTCGCAAGCGATTGAGCAGCGGCAACCACAAATCTTCCAGTTCGTTCTCG -TAAAATTCGCATTCCCGCGTTTCTTCCTGATACTGCCAGCGAATGTGCAATGGCGATTGATTGCTACATTTTGCC -GCTTCCACACAGGCGTACAAGGCTGCCAGTTCACTCTCGTTAAGCGTGGTCCTGGCGACATCCGCGCGTTTTAAA -ACCTCATCGACCAGCATATGGGTAAAATCTTCGCCACCAAGAAAGTTGTCGCCAGCGGAGGCGTGAACTTCAATC -ACCGGCGTGGCGTACTCAAGCACCGTAACGTCAAACGTGCCGCCACCGAGATCAAACACCAGCGAACGGGTATTT -TGTTGGGTATGCAGGCCATACGCCATCGCAGCTGCTGTGGGTTCATTAATTAAGCGTACCGCATTTAACCCGGCT -AACTCCGCTGCTAAACGGGTATGCTTGCGTTGTTCATCGCTGAAATAAGCCGGAACGGAGATCACCACATCTTTA -ATCGGACGTTGCAGAAATTCTTCGGCATCTTCTTTTAATGAGCGTAATACCAAAGAGGACAGTTCTGGCGCGTTA -AATGTGTCGCTGCCTAACCGCCAGTTGGTATTACTGCCCATTGCACGTTTAAATAACGCTGCCGTTTTATCCGGA -TGCGAAGTACGCCGTGATACAGCCGGTTTTCCGACTAAAATATGATTATTTTCATCCATGCTAATTATGGATGGT -GTTAAATATTCACCGAACTTATTTGGAATTAATTGCGCGGCACCGTCTTTCCAGACGGCAATTAAACTATTGGTA -GTACCGAGATCGATACCAATGGCGAGTTCTGCATTATCCATTGCATTTATATCTTGAAAGAAAAAGAGATAAACA -GATTAAGACCACCCAGGTAACGCGTGGTGATCTTAATCAATGACGTGTGTTAAGCGTAAAATTTCAGACGATCAG -CCAGTAAATCAACAAAGCCCTGACGATCAACATCGACCATTACGGTGGCATTCGGTTTATTGCCTGTCAGATAAT -AATAATCAACAACCGTCATACCCTGGGTATATTTCCCCTGTGTTTCCACGCCAACCCAGCGCTCAACAGAGGTAA -ATAACTCCGGTTTCAACAGCCAGGCGATGGTGCATGGGTCATGCAGTGGTGCGCCGACAAAGCCCCATTTTTCGT -CTTTATGATATTCGAGGAAGAAATCCAGCAGTTCGGCAACAATGGTTGAAACAGGGTTACCAATCGCGCGGAAAC -GCTCGGTGTCTTCAACGTGGATTTGTGCTTTATGAGTAACATCCAGACCGGCCATCACCACCGGGATCCCTGACT -GGAAGACAATTTCTGCCGCTTCCGGGTCAACGTAAATATTAAATTCAGCCGCAGGCGTCCAGTTACCCAGCCCCA -TAGCGCCACCCATAATCACGATACGGGCAATTTTGCTATGCAGTTCCGGATGGCTATTGAGCAGCAAGGCAACGT -TAGTTTGCGGTCCGGTAGACACAATGGTGACAGGTTCCGCACTTTCACGCAGCGTTTTCGCCATCAGCTCTACCG -CCGTACAGTTTTGCGGTGCGAATGTCGGTTCCGGTAATGCCGGGCCGTCGAGACCGCTTTCGCCGTGCACATTGT -CCGCGATAATCAACTCACGCATTAACGGTTTTACCGCGCCGCCTGCTACCGGAATATCGGTGCGATTAAGCAAGG -TCAGCATACGCAGAACATTGCGTAAGGTTTTTTCTGGTGTCTGGTTTCCGGCGGAAGACGTAATTGCTTTGACAT -CAAGCTCTGGTGAGGCGAGGGCGAGAACTATTGCGATAGCGTCGTCATGACCTGGGTCGCAATCTAACAGAATTG -GCAGTGCCATTGTTGCTCCTTGTTGTGTGCTTCTTTGCGACAAGGGTAACGCCAGGATGTAACAGATACGAGGGG -CGAAACGATAAAGCGTGAGATGGCGCGCAATTGGGTATGCGCGCCAGAGTGATTAATGCAGGATTTTCGCGAGGA -AGTCTTTTGCGCGGTCCGATTTCGGATCATCGAAGAAAGCGTCTTTCGGCGAGTCTTCGACAATTTTACCCTCGT -CCATAAAGATCACCCGATTCGCCACTTTACGGGCAAAGCCCATTTCGTGGGTCACCACCATCATGGTCATTCCTT -CGTTCGCCAGTTCCACCATCACGTCCAGTACTTCGTTGATCATCTCCGGATCCAGCGCCGATGTCGGTTCGTCAA -ACAGCATCGCAATAGGATCCATACACAACGCGCGAGCGATTGCCACACGCTGCTGCTGACCGCCGGAAAGCTGCG -CCGGAAACTTATTGGCGTGAGCAGAAAGCCCGACACGCTCCAGCAGTTTCAGGGCTTTTTCACGAGCCGGCGCTT -TATCGCGTTTAAGCACTTTCACCTGCGCCAGGGTCAGGTTTTCGATAATCGACAGATGAGGGAACAGCTCGAAAT -GCTGGAATACCATCCCGACGCGGGAACGCAGCTTTGCCAGATCGGTTTTCTTGTCGTTAACCACGATACCATCGA -CGGTGATTTCACCTTGCTGCACCGGTTCGAGGCCGTTGACGGTTTTAATCAGCGTTGATTTGCCGGAACCAGACG -GGCCGCAAACCACCACCACTTCGCCTTTTTTCACTTCGGTTGAGCAGTCGGTCAGCACCTGAAAGTGACCATACC -ATTTTGAAACATTTTTCAGGGTAATCATTATGCTGTCCTTCTTTTCAAGTAGCTGACCAACAACGACGCGCTAAG -ACTAATAACGAAATAAACAAATCCGGCAAACAGGATCATCTCAACCTGCGTACCATCACGCTCACCAATGGTTGA -GGCGGTACGGAAGAAATCGGCCAGGGATAACACATACACCAGTGAGGTATCCTGGAACAGTACGATGCCCTGAGT -GAGCAGCAGCGGCACCATCGCGCGGAACGCCTGCGGCAGAATAATCAGTTTCATCGACTGCCAGTGAGTCATTCC -CAACGCCAGCGCGGCGCTCGATTGACCACGAGAAATACTTTGAATACCAGCACGGATAATCTCTGAATAGTAGGC -CGCTTCAAACATCGAAAACGCCACCATCGCCGAAATTAAACGGATATCATTTTTTGGCGATAATCCCAGCACGTT -TTGCAGAAAACCCGGCACGATCAGGTAAAACCACAGCAAAACCATAACTAAAGGAATCGAGCGGAATACGTTAAC -GTAGGCTTTGGCAAACCACGCCACGGGCGCAAAGCTGGATAAACGCATCACCGCCAGCATCGTGCCCCACAAAAT -ACCAATCACTACCGCCGTGACGGTGATTTTCAGGGTGATCACCAGCCCGTCGAGCAGATATGGCAGGGAAGGGAC -AATGGAACTCCAGTCAAACTCGTACATTATTTGCCCCCCATGTTGCCAGGCAGGCGAACTTTACGTTCAACCAGC -GTCATCACCAGCATGATAAAAGCGTTAATCAACACATACGCCAGCGTAATGGCGGTAAACGACTCCCAGGCATGG -GCTGAGTAATCGAGCAATTTACCCGCCTGCGCCGCCATATCCACCAGACCGATAGTCGAGGCGATGGCGGAGTTT -TTCACCAGGTTCATCATCTCTGAGGTCATCGGCGGGACGATAACGCGATAAGCATTAGGCAGCAGTACGTATCGA -TAAGCCTGCGGTAGCGTCAGGCCCATCGCCAGCGCGGCATTTTTTTGCCCTCGCGGCAGCGACTGAATCGCGGCG -CGTACCTGTTCGCAAACACGGGCGGCGGTAAACAGCCCCAGGCAGAGCATGGATGAAAGGAAAAACTGAATATTG -GGATCCAGCTCGGCCTTAAACCACATGCCGATTTTCTCCGGCAGCAGCTCCGGGATCACCAGATACCAGGTAAAG -AATTGCACAATCAACGGCACGTTGCGGAACAGTTCGACATACAACGTACCCAGACCAGAGAGAAAACGGTTTGGA -ACGGTACGTAAAATGCCGAAAAATGAACCGACGAGGAAAGCGATAATCCAGGCGCAGATCGACAAAGCGATCGTC -ACCTGAAAACCACTCCAGATCCAACCAAGATAGGTGGTGTTGCCGAACGGGGCTTGTTGTAAAAAAATACCCCAG -TTCCAGTCTATAGACATAAATCTACTCCAGAAAAAAGAGGGTAGCAGCGTTAACTGCTACCCTCGAAGATTGTTA -CCCAGCGTATTGCGGTTTTCAGGCCCGATGGGGAACGACCATCAGGCGTATAGTCTGTCCGTGCTACGTAACAAT -CGAGAGGGCTGGAATTTCCGCCCCTGGTTCTTGTAATTAGTTCAGTGCCTTGTCATTCGGTTCTTTGAACAGTGC -TTTCATTTCGTCTGACAGTTCGAAATTCATGTTCAGGTTTTTCGGCGGAATTGGATTTTTGAACCACTTATCAAA -CCATTTTTCCGCTTCACCGGAGGTCTGCACCTGAGCGATGGTGTCATCCATCAGCTTTTTGAACTGCGGATCATC -TTTACGCAACATACAACCGTAGGCCTCCTGAGACTGCGGCTTGCCGACGATTTCCCAGTTGTCTGGTTTCTTCGC -TTTCGCACGTTCACCGGCCAGCAGAGCGTCATCCATCATAAAGGCAACGGCACGACCGCTTTCCAGGGTGCGGAA -AGAGTCACCGTGATCTTTGGCGCTGATGATGCGCATATTCATTTTTTGCTCTTCATTCAGTTTGTTGAGCAAAAC -TTCAGAGGTAGTGCCGGAAGTGACGACTACGGCTTTGTCTTTCAGGTTGGCAAAATCTTTGATATCGCCACCCTT -TTTGGTCAACAGGCGCGTACCGACCACGAAAATAGTGTCAGAGAAAGCCGCCTGTTTTTGGCGTTCGACGTTGTT -GGTGGTAGAACCACATTCAAAATCGAAAGTGCCGTTTTGCAGCAGTGGAATACGGTTTTGTGAGGTAATCGGAAT -CAGTTTTACCTGCAAGTCCGGTTTGTTGAGTTTCTTTTTCACTGCTTCAACAATGGCGTTGGAGTAATCCTGCGA -GTAACCCACCACTTTTTGCTGATTGTCGTAATAAGAGAAAGGCACTGAAGATTCACGGTGACCGACGACAATCAC -ACCGTTTTTGGCGATTTTGTCCAGAGTACTGCCCGCTGCCGGGGCGGCGTCATCTGCCTGTGCCAGTCCTGCGGA -AAGCGCCAGGGCGAGGATTGCTGTGGCAGGTTTACGTAATTGCATATCCAACTCCTTTATCTTCTGCGTTAAGAA -CGCATGGATACCCGTTGTGAGTGTTTGTGTTGTTATCGTCTGCAACTTTATTGTGCAGTGTTGTGCCTGTTAGGG -AAGGTGCGAATAAGCGGGGAAATTCTTCTCGGCTGACTCAGTCATTTCATTTCTTCATGTTTGAGCCGATTTTTT -CTCCCGTAAATGCCTTGAATCAGCCTATTTAGACCGTTTCTTCGCCATTTAAGGCGTTATCCCCAGTTTTTAGTG -AGATCTCTCCCACTGACGTATCATTTGGTCCGCCCGAAACAGGTTGGCCAGCGTGAATAACATCGCCAGTTGGTT -ATCGTTTTTCAGCAACCCCTTGTATCTGGCTTTCACGAAGCCGAACTGTCGCTTGATGATGCGAAATGGGTGCTC -CACCCTGGCCCGGATGCTGGCTTTCATGTATTCGATGTTGATGGCCGTTTTGTTCTTGCGTGGATGCTGTTTCAA -GGTTCTTACCTTGCCGGGGCGCTCGGCGATCAGCCAGTCCACATCCACCTCGGCCAGCTCCTCGCGCTGTGGCGC -CCCTTGGTAGCCGGCATCGGCTGAGACAAATTGCTCCTCTCCATGCAGCAGATTACCCAGCTGATTGAGGTCATG -CTCGTTGGCCGCGGTGGTGACCAGGCTGTGGGTCAGGCCACTCTTGGCATCGACACCAATGTGGGCCTTCATGCC -AAAGTGCCACTGATTGCCTTTCTTGGTCTGATGCATCTCCGGATCGCGTTGCTGCTCTTTGTTCTTGGTCGAGCT -GGGTGCCTCAATGATGGTGGCATCGACCAAGGTGCCTTGAGTCATCATGACGCCTGCTTCGGCCAGCCAGCGATT -GATGGTCTTGAACAATTGGCGGGCCAGTTGATGCTGCTCCAGCAGGTGGCGGAAATTCATGATGGTGGTGCGGTC -CGGCAAGGCGCTATCCAGGGATAACCGGGCAAACAGACGCATGGAGGCGATTTCGTACAGAGCATCTTCCATCGC -GCCATCGCTCAGGTTGTACCAATGCTGCATGCAGTGAATGCGTAGCATGGTTTCCAGCGGATAAGGTCGCCGGCC -ATTACCAGCCTTGGGGTAAAACGGCTCGATGACTTCCACCATGTTTTGCCATGGCAGAATCTGCTCCATGCGGGA -CAAGAAAATCTCTTTTCTGGTCTGACGGCGCTTACTGCTGAATTCACTGTCGGCGAAGGTAAGTTGATGACTCAT -GATGAACCCTGTTCTATGGCTCCAGATGACAAACATGATCTCATATCAGGGACTTGTTCGCACCTTCCTTAGGTA -ACATTTAGTTTGGCTAAATGTAAAGATATTGCTGTTTTATTGTTTGTTTTTGCGAGATGCGCCGCACCATTCCGA -AGCAAAATTCTTAAAATGCACTCTTTTAGTGCTACCGCTGGATTACTGTGGTGCAACTAGGTTGTACTGATGCTG -TTTCAGGGTTTGCCTTGTATAACAAAGCAATAGATGTGCCAAAGTTGGATAGGAGAATATTGTTATCCGGATAAT -GCACTGATGCCGCATCCGGTGAGCGTGCCGAAATATGGGATGTATTCCGGCACGATAAGAAGGGATTATTTACGT -CGCTGACGCAGACTCATCAACACAGCAGCAAAACCAAACAATGCCGTCAGCACCCACAGCGGCCAGTTGCCGGTA -CGTGCGTATGGTGTGAGTCCGGTGGTCGGCGTCACGTTAGTGGTTAACACCTCGCGGGTGAACTGCGGGATCATC -GCCTGAATCTCACCCTGCGGGCCAATCACCGCCGTAATGCCGTTGTTGGTGCTGCGCAACAGTGGGCGCGCCAGC -TCCAGCGCACGCATTCGCGCCATCTGGAAGTGTTGCCATGGACCAATAGATTTACCAAACCACGCATCGTTGGAG -ATAGTCAGCAGATAGTCGGTATCCGGGCGGAAGTTATCGCGCACTTGCTCGCCGAGAATGATCTCGTAGCAAATA -GCCGCAGTAAGCTCAATACCATTTGCCGACAGCGGCGGCTGGATATATGGCCCACGGCTGAACGACGACATCGGC -AGATCAAAGAACGGTGCTAACGGACGCAGAATCGACTCCAGCGGGACAAACTCGCCAAACGGCACCAGATGGTTT -TTGTTATAGCGATCGGCTGATTCGTAGCTGTACGGCGCACCTTTACCCAGCGTGATGATGGTGTTGTAGGTATCG -TAGCGGTTCTGCTTATTGAGACGCGCGTCGACAATCCCGGTTACCAGCGAGCTACCTTTATCACGCAACTCACCG -TCCAGTGCTTTGAGGAACGGTTGCTGATTAATTTCCAGATCGGTTATCGCCGACTCCGGCCAGATAATCAACGAT -GATTTGCCCATCAGCGGTGCCGTTGCGTTGTAGTAAATCTTCAGCGTATTAAGAAGCTGGCCTTCGTCCCATTTC -AGCGATTGCGGAATATCGCCCTGAACCATCGAAACCTGAATGGTTTTCTCCGGTTGTGGGGTAAACCACTGGATG -TAACGCAGCGGGAAGGGAAGGGCAAACAGCACGACGGCCACCACCAGCGGACGCCAGTTGCGTTTGACCAACGCC -AGTGCCAGCAGGCCACTAACCATCATCAGCAGGAAGTTAATGGCTTCCACGCCCATTATCGGTGCCAGCCCTTTT -AACGGGCCATCAATCTGGCTATAGCCGAACTGTAACCACGGGAAGCCGGTCAGTACCCAACCGCGCAGAAACTCG -GTCACTTGCCAGAGGGCAGGGGCGGCAATCGCTACGCGCAGCCAGGTGGTTTTCGGCCACAGACGCGACAGCACG -CCAGCAAACAGTCCGGTATACAGCGACAAATACGCCGCCAGCAGCACCACCAGGAAGATGTTAACCGGGCCAGGC -ATTCCGCCAAAGGTCGCGATGCTGACATAGACCCAGTTAATACCGCTGCCAAAGAGGCCAAATCCCCAGCAAAAG -CCAATAGCGGCAGACTGGAGTGGACGGCGGTTAAAGGTCAACGCCTGAAGCCCCATCAGCGAAATAATCGCCGCA -GGCCAGACGTCGTAAGGAGAGAAGGCCAGCGTTCCGCAGGCACCGAATAATAACGCCAGCAGCAGGCGAATGCGC -TGGCGTTCAATTAATGAGGCAAAAGCCATGTAGTTATCTATCCAGTTTCGGTTTTATTCATCCAGCTTCGGCTGG -GGTGAGTCATCCGGGATTTTGACATGAACCTGAATAATACGCCGACTGTCGGCCATCGCCACTTTGAACTGGTAA -CCGTCGATGTCGATAGTTTCGCCACGCGCCGGAAGATGCCCAAATGCCTGCATCACCAGACCACCGATAGTGTCG -ACTTCTTCATCGCTAAAGTGGGTGCCGAACGCTTCGTTGAAGTCTTCAATGGAAGCCAGTGCGCGTACGGTCCAG -GTATGACGACTCAGCTGACGGAAGTCGATATCATCTTCTTCGTCATACTCGTCTTCAATCTCACCAACAATCAGT -TCCAGGATGTCTTCAATGGTCACCAGACCGGAAACCCCACCGAATTCGTCAATAACGATCGCCATGTGGTAACGC -TGAGAGCGAAACTCTTTCAGCATCCGGTCTACGCGCTTACTTTCAGGAACGACAACCGCCTGACGTAACACTTTG -TCCATGCTGAAGGCTTCAGCATCGCTGCGCATAAACGGCAGCAAGTCTTTCGCCATCAGAATCCCTTCAATGTGA -TCTTTGTCTTCGCTAATCACCGGGAAACGTGAGTGGGCGGACTCGATGATGACATCAAGACATTCGTCCAGCGTC -TGGTTGCGTTTCAGGGTAATCATCTGGGAGCGGGGGATCATGATGTCGCGAACGCGTTGGTCTGCGATGTCCATC -ACCCCTTCGAGCATATCGCGCGTATCTTCGTCGATAAGGTCGTTCTGCCCGGAATCACGGATCAGCGCCAGCAGT -TCGTCACGGTTTTTCGGTTCACCGTGGAAAAGTTGGCTGAGTAACAGGGAGAAAAATCCCTTCTTGTTGCTTATC -GTGTCACTACTGTGTGAATTGTCGTCGCTCATGGCGTCGTATGGGTTCTCATGTTAGTTAATCAAAACGCCGTCG -TTAATCACCAACGGCGGGGACGTCTGCCAGTCAAATGCCTGGCAAATTATTCTTTCTCGGCAATGTACGGATCCT -CATAGCCCAGAGCAAGCATAATCTCTGTTTCGAGGGCTTCCATTTCTTCTGCTTCGTCATCTTCGATGTGATCGT -AACCTAACAAATGCAGACTGCCGTGCACCACCATATGCGCCCAGTGCGCCTCCAGTGGTTTGCCTTGCTCCTGAG -CTTCCTTCTCAACCACCTGACGGCAGATAACCAGATCGCCCAGTAGCGACATTTCCATGCCAGGCGGCACTTCAA -ACGGGAAGGAGAGCACGTTGGTCGGCTTATCCTTACCGCGATAGGTCAGATTCAGACTGTGGCTTTCGGCGGTAT -CGACCACGCGAATCGTCACTTCCGATTCTTCCTGAAACTGCGGGATCACCGCATTCAGCCATGTCTGAAACTGGC -TCTCTTCCGGTAACCCGGAATTATCTTCACATGCCAGTTGTAAATCGAGGATCACCTGACTCATTTTTGTTCCTG -TTCTTCGCGCTTGCGTTCTGCTGCCAGCGCCGCTTTTCGTTTTTGTTCGGCTTCTTCCCAGGCTTCATAGGCGTT -AACGATACGCGCCACCACAGGGTGACGAACCACGTCTTCGCTGTGGAAGAAGTTAAAGCTGATCTCTTCGACATC -GGCCAGCACTTCGATGGCGTGACGTAAGCCTGATTTAGTATTACGCGGCAGGTCGATCTGTGTGACGTCGCCGGT -GATAACCGCTTTTGAGTTAAAACCGATACGGGTCAGGAACATCTTCATCTGTTCGATGGTGGTGTTCTGGCTCTC -ATCGAGAATGATAAACGCGTCGTTCAGCGTACGACCACGCATATAGGCCAGCGGTGCGACTTCAATAACGTTGCG -CTCAATCAGTTTCTCGACTTTCTCAAAGCCCAGCATTTCAAACAGCGCGTCGTACAGCGGGCGCAGATACGGGTC -TACTTTCTGGCTTAAATCGCCAGGCAGGAAGCCCAGTTTCTCACCGGCTTCTACTGCCGGACGAGTCAGCAGAAT -ACGGCGAATTTCCTGACGCTCCAGGGCATCAACTGCCGCAGCCACTGCCAGGTAGGTTTTACCCGTACCCGCCGG -GCCAACGCCGAAGGTAATGTCATGGTCGAGAATATTGGCGATGTACTGCGCCTGGTTTGGCGTGCGCGGCTTAAT -TACGCCGCGTTTGGTTTTGATATTGACCGCTTTGCCGTACTCCGGCACGCTCTCCGCGCTTTGCTCCAGTACCCG -CGCTTCTTTAATCGCAAGGTGGATCTGTTCCGGTTCGATATCCTGAATCTGACCGCGCATCGGGGCAGTATCGAC -ATACAGGCTACGCAGAATGTCTGCCGCAGCGGTGACGCAAATCGGACGGCCGGTCAGTTTAAAGTGGTTATCGCG -GCGATTGATCTCGATGCCGAGACGGCGTTCGAGCTGCTTGATGTTGTCATCAAACGGGCCGCACAGGCTCAACAG -ACGCGCATTGTCTGCTGGCTCCAGGGTGATTTCGCGAGTGTCTATGTTCAAACCGTTCCTCTTATCTGTATGCCG -CCGGAAGCTGAACATTCACCGGCCTATAAGGAAATTATTCACGCCACAGGAAAAAGGCGCAAGCATTGCAATAAA -GATGGGGATAAAGAGAGAAAAAACAAGGCCCACCGGAACGGCAGGCCTGAGAATTACGGCTGATAATAACCCACG -CCAAGGTCGTTTTCTTTGCGGGTACGGGCAATCACTGATTCCGGTGTTTCTGCCACGCGCAGACCCATTTCATCT -TCAGTACGCACCACTTTACCGCGCAGAGAGTTCGGGTAGACGTCGGTAATTTCTACATCGACGAATTTACCGATC -ATATCCGGCGTGCCTTCGAAGTTGACCACGCGGTTATTTTCCGTACGCCCGGAAAGCTCCATGATGCTCTTACGC -GATGTACCTTCTACCAGAATACGCTGGGTGGTGCCGAGCATCCGGCGGCTCCACGCCATCGCTTGCTGATTAATG -CGCTCTTGCAGAATATACAGACGCTGCTTCTTCTCTTCTTCCGGAACATCATCAACCATATCGGCGGCTGGTGTA -CCCGGACGTGCAGAGAAGATAAAGCTGTAGCTCATGTCGAAATTGACGTCGGCAATCAGCTTCATCGTTTTCTCG -AAGTCTTCGGTGGTTTCGCCAGGGAAGCCAACGATGAAATCAGAACTGATCTGAATATCTGGACGCGCCGCACGC -AGTTTACGGATGATCGCTTTGTACTCCAGCGCCGTATGGGTACGGCCCATCAGGTTCAGAATGCGATCGGAACCG -CTCTGTACCGGCAGATGCAGGAAGCTCACCAGCTCCGGCGTGTCGCGATACACTTCGATGATATCGTCGGTGAAT -TCGATCGGATGGCTGGTGGTAAAGCGAATACGATCGATCCCGTCGATCGCAGCAACCAGACGCAGCAGATCGGCA -AACGATCCGGTGGTGCCGTCGTAGTTTTCACCACGCCAGGCGTTCACGTTCTGACCGAGCAGGTTGACTTCACGC -ACGCCCTGAGCCGCAAGCTGGGCAATCTCAAACAGAATATCGTCGGACGGACGGCTTACCTCTTCACCACGGGTG -TAAGGCACCACGCAGTAGGTGCAATATTTATTGCAGCCTTCCATGATGGAGACAAACGCGGTCGGCCCTTCGGCG -CGCGGTTCCGGTAGACGGTCAAACTTCTCGATTTCCGGGAAGCTGATATCTACAACCGGGCTGCGGTCGCCACGC -ACGGAGTTGATCATCTCCGGCAGACGGTGCAGCGTTTGCGGCCCAAAAATAATATCGACATAGTGGGCGCGCTGG -CGAATGTGCTCGCCTTCTTGCGATGCCACGCAGCCACCGACGCCGATAATCAGGTCTGGATTCTTCTCTTTTAAC -AGTTTCCAGCGACCCAACTGATGGAAGACTTTTTCCTGAGCCTTCTCGCGGATTGAGCAGGTGTTCAGCAGCAGC -ACATCCGCTTCTTCCGCCACGTCGGTCAGTTGATAGCCGTGGGTGGCATCCAGCAGATCGGCCATCTTCGATGAA -TCGTACTCGTTCATCTGACAGCCCCAGGTTTTAATATGGAGTTTTTTGGTCATCGACTTGCTCTTGCGAAATAGT -AGCCAGGAATGCAGGGCGCATAGTGTAATGCTTTGCTGCCGTTGTGACCAGTATGAGCGTTATCAGCCCTTAGGG -GTAAAAATCCTGTAAACTTAAAGCATATTGCTAACAGGATGATTGACCATGACAAATCAACCAACGGAAATTGCC -ATTGTCGGCGGAGGAATGGTCGGCGGCGCACTGGCGCTGGGGCTGGCACAGCACGGATTTGCGGTAACGGTGATC -GAGCACGCAGAACCAGCGCCGTTTGTCGCTGATAGCCAACCGGACGTGCGGATCTCGGCGATCAGCGCGGCTTCG -GTATCATTGCTTAAAGGGTTAGGGGTCTGGGATGCAGTACAGGCTATGCGTTGCCATCCTTACCGCAGACTGGAA -ACGTGGGAGTGGGAAACGGCGCATGTGGTGTTTGACGCCGCTGAACTTAAGCTACCGCTGCTTGGCTATATGGTG -GAAAACACTGTCCTGCAACAGGCGTTGTGGCAGGCGCTGGAAGCGCATCCGAAAGTAACGTTACGTGTGCCAGGC -TCGCTGATTGCGCTGCATCGCCATGATGATCTTCAGGAGCTGGAGCTGAAAGGCGGTGAAGTGATTCGCGCGAAG -CTGGTGATTGGTGCCGACGGCGCAAATTCGCAGGTGCGGCAGATGGCGGGAATTGGCGTTCATGCATGGCAGTAT -GCGCAGTCGTGCATGTTGATTAGCGTCCAGTGCGAGAACGATCCCGGCGACAGCACCTGGCAGCAATTTACTCCG -GACGGACCGCGTGCGTTTCTGCCGTTGTTTGATAACTGGGCATCGCTGGTGTGGTATGACTCTCCGGCGCGTATT -CGCCAGTTGCAGAATATGAATATGGCACAGCTCCAGGCGGAAATCGCGAAGCATTTCCCGTCGCGTCTGGGTTAC -GTTACACCGCTTGCCGCTGGTGCGTTTCCGCTGACGCGTCGCCATGCGTTGCAGTACGTGCAGCCAGGGCTTGCG -CTGGTGGGCGATGCCGCGCATACCATCCATCCGCTGGCGGGGCAGGGAGTGAATCTTGGTTATCGTGATGTCGAT -GCCCTGATTGATGTTCTGGTCAACGCCCGCAGCTACGGCGAAGCGTGGGCCAGTTATCCTGTCCTCAAGCGTTAC -CAGATGCGGCGCATGGCGGATAACTTCATTATGCAAAGCGGTATGGATCTGTTTTATGCCGGATTCAGCAATAAT -CTGCCACCACTGCGTTTTATGCGTAATCTCGGGTTAATGGCGGCGGAGCGTGCTGGCGTGTTGAAACGTCAGGCG -CTGAAATATGCGTTAGGGTTGTAGCCTTACAACATTGCCGGATGCGTGCCAACCGTAGGTCGGATAAGACGCGGC -AGCGTCGCATCCGACATTGAAGGATAAGACGTGTCAACATCGCATTCGACATTGAATGAACGCAGAAAAGCAAAA -AGCTCGCCGAAGCGAGCTTTTTTAATGTGGCTGGGGTACGAGGATTCGAACCTCGGAATGCCGGAATCAGAATCC -GGTGCCTTACCGCTTGGCGATACCCCAACTGGGTGCACTTACAAGGTAAGCGTCTTGAATAAATTGGCTGGGGTA -CGAGGATTCGAACCTCGGAATGCCGGAATCAGAATCCGGTGCCTTACCGCTTGGCGATACCCCAACAAATTGGTT -TTGAATTTGCCGAACATATTCGATACATTCAGAATTTGGTGGCTACGACGGGATTCGAACCTGTGACCCCATCAT -TATGAGTGATGTGCTCTAACCAACTGAGCTACGTAGCCAGATTGTTTCTTCGATGGCTGGGGTACCTGGATTCGA -ACCAGGGAATGCCGGTATCAAAAACCGGTGCCTTACCGCTTGGCGATACCCCAATAACCGGGCGGTGAACCGCTT -ACTCGAAGAAGATGGCTGGGGTACCTGGATTCGAACCAGGGAATGCCGGTATCAAAAACCGGTGCCTTACCGCTT -GGCGATACCCCATCCGTACAACGCTTTCTGGTGAATGGTGCGGGAGGCGAGACTTGAACTCGCACACCTTGCGGC -GCCAGAACCTAAATCTGGTGCGTCTACCAATTTCGCCACTCCCGCAAAAAAAGATGGTGGCTACGACGGGATTCG -AACCTGTGACCCCATCATTATGAGTGATGTGCTCTAACCAACTGAGCTACGTAGCCATCTTTTTTTTCGCGATAC -CTTATCGGCGTTGCGGGGCGCATTATGCGTATAGAGCCTTGCAGCGTCAACCTCTTTTTCAAGGAAAATTGCTCG -AAAGTGACTGTTTGGTTAGGTTGCGAACAGCGTGGCGCTATATTCGTCAATTATTGTTTACTTTGTGTTTTTTCC -CACCCTACAGCCATTCTTTTGTCATACAGGATGAAATTCGGAATTTAACAATAGTGGTGGGAAATTAATCTATGA -AATACTGGCCTACAGTGATGAGTTGTCAAACAGTGATGTGGCAAACCCGGAACATTTCCTTACTGCATATCAGAA -TCAACAAGCACCTCAATAACTGAAACAGCCCCGGATTTCACCGGGGCTGTTTCGCATTTCTTACTTATACGCCGA -CTGGTGAACACCAACCGCGCGACCAGACGGATCGTCCATTTTCTTGAACGCTTCATCCCATTCGATCGCTTTAGC -GGAAGAACAAGCGACGGAAGGACCGCCCGGCACGCACTCAGCGGCGCTCGGAAGCGGGAATAGTTCTTCAAAGAT -CTCCCGATACAAGTACGCTTCTTTAGAGGTTGGCGTGTTGTACGGGAAGCGGAAGCGGGCAGTTTCCAGTTGCTG -ATCAGAAACCTGCTGCGCAGCCACTTCTTTCAGGGTGTCGATCCAACTGTAACCGACGCCATCGGAGAACTGCTC -TTTCTGCCGCCAGGCCACGCTTGCAGGCAGATACGCTTCAAAACATTCACGCAGGATGTGTTTTTCCATTTTGCC -GTTACCGCACATTTTATCCTGTGGGTTAATACGCATCGCCACATCAAGGAATTTTTTGTCGAGGAACGGAACGCG -TGCTTCCACGCCCCAGGCTGACATCGCTTTGTTGGCACGCGCGCAGTCATACATATGCAGGGCCAGCAGTTTACG -CACCGTCTCTTCATGCAGTTCTTTGGCATTCGGTGCTTTGTGGAAGTAAAGATAACCGCCGAACACTTCATCAGA -ACCTTCACCGGACAGCACCATTTTAATGCCCATCGCCTTGATCTTACGCGACATTAAATACATCGGTGTTGAAGC -GCGAATAGTGGTCACATCATAAGTTTCGATGTGGTAAATCACGTCGCGGATGGCATCCAGACCTTCCTGTACAGT -GAAGTGAATTTCGTGATGCACCGTGCCCAGATGGTTTGCCACTTCCTGGGCTGCTTTCAGATCCGGTGAACCCGG -CAGACCTACAGCAAAGGAGTGTAACTGCGGCCACCAGGCTTCAGAGCGTTCCTGATCTTCCACGCGACGGGCTGC -GTATTTCTTGGTGATAGCGGAAATAATTGAGGAATCCAGACCACCAGAAAGCAGCACACCGTAAGGCACATCAGA -CATCAGATGGCTTTTAACTGAATCTTCCAGTGCCTGACGCAGCTCGTTTTTGTCGGTCACGTTATCTTTCACCGC -ATCGTAGTCGAACCAGTCGCGATGATAGTAAGAACGGATTTCGCCGTCCTGGCTCCACAAATAGCTCCCCGCCGG -GAACTCTTTAATCGTGCGGCAAACTGGCACCAGCGCTTTCATTTCTGAGGCCACATACAGCTGACCGTGTTCGTC -ATACCCCATATACAGTGGGATGATCCCCAGATGGTCGCGACCAATCAGGTAGGCATCTTTTTCGCTGTCGTACAG -TGCAAAGGCAAACATGCCCTGCAAGTCGTCGAGAAATTCCGGCCCTTTTTCCTGATACAGCGCGAGGATCACTTC -ACAGTCAGACCCGGTCTGGAACTGGTAACGATCGCCATATTCGGCGCGCAATGCCTGGTGGTTGTAGATTTCACC -GTTTACCGCCAGTACGTGGGTTTTTTGTTGGTTGTAGAGAGGTTGCGCCCCCGCGTTAACGTCAACAATTGACAG -ACGTTCGTGGGCGAGAATGGCGTTATCGCTGGCATAAATACCGGACCAGTCCGGGCCACGATGACGCATCAGGCG -TGACAGCTCGAGGGCTTTCTTACGCAGCTCAACTGCGTCTGTTTTGATATCGAATACGCCAAAAATTGAACACAT -AACCTTCTCCGTTAACCTGGTATTTGTTGCTTGTTGTGTTTGCTTGTTTAAAAAAATGCCGCAAAGCAGCACTGT -GCGCAAGCGATTTGGCGGTGAAAAAATAAAAAACGTAATGGTGATTGTCGATTGGTGAAAAAAGGTCTGGTGTGA -GGATATATTTATTGATGAATCGATAATTTTTAGCGGGTTTTATTGAATGTTTATATTTTACGGGGGCCAAATTGC -TGACAAAGTGCGATTTGTTCATGCCGGATGCGGCGTGAACGCCTTATCCGGCCTACAAAAGCATGAAAATTCAAT -ATATTGCAGGAGCTGCGTAGGCCTGATAAGCGTAGCGCATCAGGCAGTTTGGCGTTTGTCATCAGAGCCAACCAC -GTCCGCAGACGTGGTTGCTATTCAGATAACGTCGATTTCAGCGACTGACGGGTAAATCCAGCTGGGGCGGAAAGG -CATACTGTCGATATCGTCGAGCGACGAAACACCAGAAAGCACCAGAATCGTCTCCAGACCTGCCTGGAAGCCGGC -CAGAATATCGGTACGCAGGTTATCGCCGACAATCACCGTTTCTTCCGAATGCGCCTGCATTTTGTTTAATGCTGC -GCGGATGATCCACGGGCTGGGCTTACCAACATAGAACGGTTTGCGCCCGGAGATTTTCTCAATCCCTGCACACAA -CGCGCCACAAGCGGGATAAAAACCGCGCCCGTGGGTGTCCGGATTGGTGGCGATAAAACGTGCACCGTTAGCGAC -GAAATAGGCTGCTTTATGCATCATGTCCCAGTTGTAGGAACGCGTTTCGCCAACAATCACGAAATCAGGGTTCAC -ATCGGTAATAGTGAAACCGGCTTTGTACAGTTCATGAATCAGTGCGCCTTCGCCCACCACATACGCTTTCTTGCC -TTCCTGGCGACGCAGGAAATCGGCAGTCGCCATCGCAGAGGTATAAAACACGCTGTCAGGTACATCGACACCTGC -GGTGGCAAAGCGGTTCGCCAGATCTTGCCCAGTCTGCGAAGGATAGTTGGTCAGCAACACCAGCGGCAGGCCTTT -ATCCATAATCCCGTGCAAAAATTCCGCTGCACCCGGTACGGCGACGTTATCGTGCATCAGCACGCCGTCGATATC -GCAAATTACATTTTTAATGGTCATGGACTACCCAGAATATTGACAACAATAAGCGCCACTATAAAAGCACATTAA -TTTTCCAGCAAATGCTGGAGCAAAATACCGTTGAGCATGGCGCGTTTTACCAGCGCAAAAGCGCCGATTGCCGAG -CGGTGATCCAGCTCAGAACGTACCACCGGCAGATTAGTGCGAAACGCCTTCAGCGCCTGGGTATTAATGCAGCTT -TCAATAGCAGGGAGCAGCACTTTATCGGCTTCGGTGATTTCACCGGCAATAACAATTTTTTGCGGATTAAATAAG -TTGATAGCAATGGCGATGGTTTTACCCAGATGACGACCGACATACTCAATTACTTCCGACGCCAGACTATCGCCT -TTGTTCGCGGCTTTGCAGATAGTTTTGATGGTGCAGTCGTCCAGCGGCACGCGGCTCTGGTAGCCCTGCTTTAAC -AGATTCAACACCCGTTGTTCAATGGCAGCGTTGGCAGCGATAGTTTCCAGGCAGCCAAAGTTGCCGCAGTGGCAG -CGTTCACCCAGCGGTTCGACCTGAATATGGCCAATTTCACCGACGTTGCCGTTGCGGCCAATAAAAATGCGCCCG -TTAGAGATAATCCCGGCCCCGGTTCCGCGATGGACACGCACCAGAATGGAGTCTTCGCAATCCTGACTTGCACCG -AAGTAGTGCTCCGCCAGCGCCAGACTACGGATATCGTGACCAACGAAACAGGTCACTTTAAAACGTTCTTCCAGA -GCTTCTACCAGCCCCCAGTTTTCTACCTGAATATGCGGCATGTAATGAATTTTGCCGCTGTCCGGGTCAACAAGC -CCTGGCAGGATCACCGAAATCGCGATCAGCTCGCGCAGTTTGCGCTGGTAGCTATCAATAAACTGAGCAATGGCA -TTCAACAGGGCATGTTCCAGCGTTTGCTGGGTACGTTCCGGCAGCGGGTAATGTTCTTCTGCCAGCACTTTGCTG -CTGAGATCAAACAGAGTGATGGTGGCGTCATGACGACCAAGCCGTACGCCGATTGCGTGGAAATTGCGGGTTTCG -GTGACGATGGAGATAGCGCGGCGGCCCCCGGTGGAGGCCTGCTGATCAACTTCTTTGATCAGCCCGCGTTCGATA -AGCTGACGCGTAATTTTGGTTACGCTGGCGGGGGCAAGCTGGCTTTGCTCGGCAATCTGAATCCGCGAGATTGGC -CCGTACTGGTCAATCAGGCGATAAACCGCCGCGCTGTTAAGCTGTTTTACGAGATCAACATTACCTATCTGAGCT -TGTCCGCCTGGTGTCATACTTTCTCTTATTGAGTTACGACCTCGTTACCGTTAACGATGGTCTTGGTGATTTTAA -AATCAGGTGTGAATGCAGTCAGGTTGGCTACTTTACCTGCGGCGAGTGTGCCGAGACGTTTCTCAACGCCAATCG -CACGCGCCGGATAGAGCGTCGCCATACGTAGCACTTCATCCAGTGCGATACCGCAATGTTCGACCAGATTACGCA -CGCCTTCAATCATGGTTAAGGATGAACCGCTTAACGTACCGTTCTCATCCACACAAAGTCCGTTACGGTAGTATA -TTGTTTTACCCGCAAAAATGAACTGTTCAATGTTGGCACCTGCTGGCGCGGTGGCGTCAGTAACCAGACACAGTT -TGTCGCCTTTCAGACGTTTAGCGTTGCGAATGTTGGCGTAATCAACATGCAGGCCATCAGCAATAATACCGCAAT -AAATGTCAGCTTCGTCGAGGATCGCGCCCGCCAGGCCAGGTTCACGACCGGTAATATACGGCATCGCGTTGTACA -GATGGGTGGCAAAGGTAATCCCCGCGCGGAAACCGGCTTTTGCTTCTTTCAACGTCGCGTTGGAGTGACCGGCAG -AAACCACAATCCCGGCATTTGCCAGTTTGCTGATGACTTCCGCAGGAACCATTTCCGGTGCCAGGGTCACTTTGG -TAATGACGTCGGCGTTTTCACACAGGAAATCGACCAGCGCGGCATCAGGCTTACGCACAAAATTCGGATTATGGG -TGCCTTTTTTTACCAGATTCAGCCACGGACCTTCCAGATGCAGACCTAACGCCTGATTCGGATGTTTTGCCAGGT -ACTCGCGCATAACGCGCACGCCCTGTTTCATCAGCTCATCGCTGGTGGTGATAAGCGTCGGCAGATAGTTAGTAC -AGCCTGATTTCTCATTGGCTTTCTGCATGATTTCCAGCGTTTCCACGCTGACCGCTTCAGCGGTGTCGTTAAACT -GTACGCCGCCGCAGCCGTTTAACTGCACATCGATAAAACCGGGGGAGAGAATGGCCCCGTTCAGTGAACGTTGTT -CGATCTCTGGCGGCAGTTCCGCTACCGGACAGACGCTTTTAATCAGGCCATCAGCGATAACAACCGCGTGGTCAT -CAAGAAATTCGTGGCCGGTAAAGATCCGGCCCTGGGTTAATGCATACATTCTGACCCCCGATTTTAAAAAATATT -GCCCTGAGCAAGGAGCCAGGGCAGGGATAACAATTACAGACCTTTGATATTTTCTGCTTCTAATTCATTGAAATA -TCTTAAAGTCTTAACTTTCAGCTCCATGGTGGAAGGTTCATCGCACACCATGATCGCTTTCGGATGCAGTTGCAG -ACAGCTGATGGTCCACATATGGTTCACGCAACCTTCAACGGCGGCCTGCAGCGCCAGTGCTTTCTGGCTACCCAG -CACCAGAATCATCACTTCTTCGGCATCCAGCAGTGTACCAACACCGACAGTCAGGGCATATTTTGGCACCTGATT -AACATCGTTATCAAAGAAACGAGAGTTTGCGACGCGAGTGTCATGAGTCAGGGTTTTGATACGAGTACGAGAAGC -CAGAGAAGACGCCGGTTCGTTAAATGCAATATGACCGTCGTTACCTACACCGCCCATAAACAGATGAATTTTTCC -GTAAGAACGGATTTTTTCTTCATACTGGCGGCACTCGGCGTCGATATCCGGGGCGTTGCCGTTGAGAAGGTTGAT -GTTTTCTGCTGGAATATCAACGTGATCGAAGAAATTACGGTGCATAAAGCTGTAGTAGCTTTCCGGATGCTCTTT -CGGCAGACCGACATATTCGTCCATGTTGAAGGTGACAACGTGCTTAAAGCTGACCTGGCCTGCTTTATGCATTTC -GACTAACGCTTTATAGGTGGTCATCGGCGTGCCGCCAGTCGGCAGGCCCAGTACAAACGGACGATCGGCAGTCGG -TTTGAACGCATTGATACGATTGACGATATGGCGAGCAGCCCATTTGCCGACCTGTTCAGCGGTAGTCAGGGGGAT -CAGTCTCATTATTCACCTCAATAAGTAAAATGTAAGCCGTTGGCGGATTAGGCATCTTTAAGCGTAACCTGGATT -TGCGCAGACAGGCGTCAATCCGACCTGATTTTTTGAATGATAAAATAAGTTTTCTGGTTTAGCCAGTAAAAGGGA -GTGATAATAACGATATTTGGTGACAAAACTCACAAAAGACACGCGTTTAATTTGCGATACGAATTAAATTTTCAC -ACACTCTGTAGCAGATGATCTAACAATCTGATTACAGAACATCGGCAGTACAATTTGCAGCAAAATAAAAATACG -GCTTGAAACGAGCCAAATAGGGTTCTCGTAGGGGGAATAAGATGAATATTTTAGGTTTTTTCCAGCGACTCGGTA -GGGCGTTACAGCTCCCTATCGCGGTGCTGCCGGTGGCGGCACTGTTGCTGCGATTCGGTCAGCCAGATTTACTTA -ACGTTGCGTTTATTGCCCAGGCGGGCGGTGCGATTTTTGATAACCTCGCATTAATCTTCGCCATCGGTGTGGCAT -CCAGCTGGTCGAAAGACAGCGCTGGTGCGGCGGCGCTGGCGGGTGCGGTAGGTTACTTTGTGTTAACCAAAGCGA -TGGTGACCATCAACCCAGAAATTAACATGGGTGTACTGGCGGGTATCATTACCGGTCTGGTTGGTGGCGCAGCCT -ATAACCGTTGGTCCGATATTAAACTGCCGGACTTCCTGAGCTTCTTCGGCGGCAAACGCTTTGTGCCGATTGCCA -CCGGATTCTTCTGCCTGGTGCTGGCGGCCATTTTTGGTTACGTCTGGCCGCCGGTACAGCACGCTATCCATGCAG -GCGGCGAGTGGATCGTTTCTGCGGGCGCGCTGGGTTCCGGTATCTTTGGTTTCATCAACCGTCTGCTGATCCCAA -CCGGTCTGCATCAGGTACTGAACACCATCGCCTGGTTCCAGATTGGTGAATTCACCAACGCGGCGGGTACGGTTT -TCCACGGTGACATTAACCGCTTCTATGCCGGTGACGGCACCGCGGGGATGTTCATGTCCGGCTTCTTCCCGATCA -TGATGTTCGGTCTGCCGGGTGCGGCGCTGGCGATGTACTTCGCAGCACCGAAAGAGCGTCGTCCGATGGTTGGCG -GTATGCTGCTTTCTGTTGCTGTTACTGCGTTCCTGACCGGTGTGACTGAGCCGCTGGAATTCCTGTTCATGTTCC -TTGCTCCGCTGCTGTACCTCCTGCACGCACTGCTGACCGGTATCAGCCTGTTTGTGGCAACGCTGCTGGGTATCC -ACGCGGGCTTCTCTTTCTCTGCGGGGGCTATCGACTACGCGTTGATGTATAACCTGCCGGCCGCCAGCCAGAACG -TCTGGATGCTGCTGGTGATGGGCGTTATCTTCTTCGCTATCTACTTCGTGGTGTTCAGTTTGGTTATCCGCATGT -TCAACCTGAAAACGCCGGGTCGTGAAGATAAAGAAGACGAGATCGTTACTGAAGAAGCCAACAGCAACACTGAAG -AAGGTCTGACTCAACTGGCAACCAACTATATTGCTGCGGTTGGCGGCACTGACAACCTGAAAGCGATTGACGCCT -GTATCACCCGTCTGCGCCTTACAGTGGCTGACTCTGCCCGCGTTAACGATACGATGTGTAAACGTCTGGGTGCTT -CTGGGGTAGTGAAACTGAACAAACAGACTATTCAGGTGATTGTTGGCGCGAAAGCAGAATCCATCGGCGATGCGA -TGAAGAAAGTCGTTGCCCGTGGTCCGGTAGCCGCTGCGTCAGCTGAAGCAACTCCGGCAACTGCCGCGCCTGTAG -CAAAACCGCAGGCTGTACCAAACGCGGTATCTATCGCGGAGCTGGTATCGCCGATTACCGGTGATGTCGTGGCAC -TGGATCAGGTTCCTGACGAAGCATTCGCCAGCAAAGCGGTGGGTGACGGTGTGGCGGTGAAACCGACAGATAAAA -TCGTCGTATCACCAGCCGCAGGGACAATCGTGAAAATCTTCAACACCAACCACGCGTTCTGCCTGGAAACCGAAA -AAGGCGCGGAGATCGTCGTCCATATGGGTATCGACACCGTAGCGCTGGAAGGTAAAGGCTTTAAACGTCTGGTGG -AAGAGGGTGCGCAGGTAAGCGCAGGGCAACCGATTCTGGAAATGGATCTGGATTACCTGAACGCTAACGCCCGCT -CGATGATTAGCCCGGTGGTTTGCAGCAATATCGACGATTTCAGTGGCTTGATCATTAAAGCTCAGGGCCATATTG -TGGCGGGTCAAACACCGCTGTATGAAATCAAAAAGTAATCTGCTTTATGCCTGATGCGACGCTTGAGCGTCGCAT -CCAACAATGACAAGCGGTGGAGATCTTCTCTGCCGCTTTTTTTTTCATCAATCATCCCCATAATCCTTGTTAGAT -TATCAATTTTAAAAAACTAACAGTTGTCAGCCTGTCCCGCTTATAAGATCATACGCCGTTATACGTTGTTTACGC -TTTGAGGAATCCACGATGAGTGAGGCAGAAGCCCGCCCGACTAACTTTATCCGTCAGATCATCGATGAAGATCTG -GCCAGTGGTAAGCACACCACAGTACACACCCGTTTCCCGCCGGAGCCGAATGGCTATCTGCATATTGGCCATGCG -AAATCTATCTGCCTGAACTTCGGGATCGCCCAGGACTATAAAGGCCAGTGCAACCTGCGTTTCGACGACACTAAC -CCGGTAAAAGAAGATATCGAGTATGTTGAGTCGATCAAAAACGACGTAGAGTGGTTAGGTTTTCACTGGTCTGGT -AACGTCCGTTACTCCTCCGATTATTTTGATCAGCTCCACGCCTATGCGATCGAACTGATCAATAAAGGCCTGGCG -TACGTTGATGAACTGACGCCGGAACAGATCCGCGAATACCGCGGCACCCTGACGCAACCGGGTAAAAACAGCCCG -TACCGCGACCGCAGCGTTGAAGAGAACCTGGCGCTGTTCGAAAAAATGCGTGCCGGTGGTTTTGAAGAAGGTAAA -GCCTGCCTGCGTGCGAAAATCGACATGGCTTCACCGTTTATCGTGATGCGCGATCCGGTGCTGTACCGTATTAAA -TTTGCTGAACACCACCAGACTGGCAACAAGTGGTGCATCTACCCGATGTACGACTTCACCCACTGCATCAGCGAT -GCCCTGGAAGGTATTACGCACTCTCTGTGTACGCTTGAGTTCCAGGACAACCGTCGTCTGTACGACTGGGTACTG -GACAACATCACGATTCCTGTTCACCCGCGCCAGTATGAGTTCTCGCGCCTGAATCTGGAATACACCGTGATGTCC -AAGCGTAAGTTGAACCTGCTGGTGACCGACAAGCACGTTGAAGGCTGGGATGACCCGCGTATGCCGACCATTTCC -GGTCTGCGTCGTCGTGGTTACACTGCGGCTTCTATTCGTGAGTTCTGCAAACGCATCGGCGTGACCAAGCAGGAC -AACACCATTGAGATGGCGTCGCTGGAATCCTGCATCCGTGAAGATCTCAACGAAAATGCGCCGCGCGCAATGGCG -GTTATCGATCCGGTGAAACTGGTTATCGAAAACTATCAGGGCGAAGGCGAAATGGTTACCATGCCGAACCATCCG -AACAAACCGGAAATGGGCAGCCGTCAGGTGCCGTTTAGCGGTGAGATTTGGATTGATCGCGCCGATTTCCGCGAA -GAAGCTAACAAGCAGTACAAACGTCTGGTGCTGGGTAAAGAAGTGCGTCTGCGTAATGCTTATGTGATTAAGGCA -GAACGCGTCGAGAAAGATGCCGAAGGTAATATCACCACCATCTTCTGTACTTATGACGCCGATACCTTAAGCAAA -GATCCGGCAGATGGTCGTAAAGTCAAAGGTGTTATTCACTGGGTGAGCGCGGCACATGCGCTGCCGGTTGAAATC -CGTTTGTATGACCGTCTGTTCAGCGTGCCTAACCCAGGTGCTGCGGATGATTTCCTGTCGGTGATTAACCCGGAA -TCGCTGGTGATCAAACAGGGCTTTGCTGAACCGTCGCTGAAAGATGCGGTTGCGGGTAAAGCATTCCAGTTTGAG -CGTGAAGGTTACTTCTGCCTCGATAGCCGCCATTCTACGGCGGAAAAACCGGTATTTAACCGCACCGTTGGGCTG -CGTGATACCTGGGCGAAAGTAGGCGAGTAATTTTAAGTTTCGCTATGCCGGATGGGGCGTTTACGTCGCATCCGG -CAAGGAACAGACAAACAGTTTCAAACGCTAAATTGCCTGATGCGCTACGCTTATCAGGCCTACATGATCTCTGCA -ATATATTGAGTTTGCGTGCTTTTGTAGGCCGGATAAGGCGTTCACGCCGCATCCGGCAAGAAACAGCAAACAATC -CAAAACGCCGCGTTCAGCGGCGTTTTTTCTGCTTTTCTTCGCGAATTAATTCCGCTTCGCAATTTATCCATAAAA -TAAATTTAAAATAACAAAACATAATTAAATAAAATGTAACCGCTTTCATCTTGCTGGAATTTCACGCTTTTATTC -TTCTGCAAGCCTTTCAACCGCAAACTTAAGCCTTGTAACAAAAATCATCAAAATATGTGCGGTTGCTCATGTTCT -TACATTCTGGTTACAGAAAGAGATTGATAATTCGCGTCGCGAAAAATAGTCTGTTCCTGTAGTCAGCGAGACTTT -TCTCAACGCTACTTTTTTAATTTTTATTTTTTCGCTGTTCACCTTTGGTGCAGCAATTTATACGTCAAAGAGGAT -TAACCCATGCGTACGTTTAGTGGCAAACGTAGTACGCTGGCGCTGGCTATCGCCGGTGTTACAGCAATGTCGGGC -TTTATGGCAATGCCGGAGGCTCGCGCCGAAGGATTCATCGACGATTCAACCTTAACCGGCGGTATCTATTACTGG -CAGCGTGAACGCGACCGTAAAGATGTTACCGACGGCGACAAATACAAAACCAACCTTTCTCACTCCACCTGGAAT -GCCAACCTCGATTTTCAGTCCGGTTATGCTGCTGATATGTTCGGCCTTGATATTGCTGCGTTTACGGCGATTGAA -ATGGCGGAAAACGGCGACAGCTCCCACCCGAACGAAATCGCGTTTTCAAAAAGTAATAAAGCCTATGACGAAGAC -TGGTCCGGCGACAAAAGCGGTATAAGCCTGTATAAAGCTGCGGCCAAATTTAAATACGGTCCGGTTTGGGCGAGG -GCAGGTTACATTCAGCCAACTGGTCAAACGCTGTTAGCGCCGCACTGGAGCTTTATGCCAGGTACTTATCAGGGG -GCGGAAGCCGGGGCGAATTTTGATTACGGCGATGCTGGTGCGTTGAGTTTCTCCTACATGTGGACCAACGAATAC -AAAGCGCCGTGGCATCTGGAAATGGATGAGTTTTATCAGAACGATAAAACCACCAAAGTTGATTATCTGCACTCC -TTTGGGGCGAAATACGACTTCAAAAATAACTTCGTACTGGAAGCGGCATTTGGTCAGGCGGAAGGGTATATCGAT -CAATATTTTGCCAAAGCCAGCTACAAATTTGATATCGCCGGTAGCCCGTTAACCACCAGCTACCAGTTCTACGGT -ACCCGAGATAAAGTTGACGATCGCAGCGTCAACGACCTTTATGACGGCACCGCCTGGCTGCAAGCGTTGACCTTT -GGTTACCGGGCGGCTGACGTAGTGGATTTGCGCCTCGAAGGCACCTGGGTTAAGGCTGACGGTCAGCAGGGATAC -TTCCTGCAACGTATGACTCCAACCTACGCTTCCTCAAACGGTCGCCTGGATATCTGGTGGGATAACCGTTCTGAC -TTCAACGCCAACGGCGAAAAAGCGGTCTTCTTCGGTGCGATGTATGACCTGAAAAACTGGAATCTTCCAGGCTTC -GCCATCGGCGCTTCCTACGTTTACGCATGGGATGCTAAACCTGCGACCTGGCAGAGCAATCCGGATGCGTACTAC -GACAAAAACCGGACTATTGAAGAGTCTGCCTACAGCCTGGATGCGGTCTATACCATTCAGGACGGTCGCGCCAAA -GGCACGATGTTCAAACTGCATTTCACCGAATACGACAACCACTCCGACATCCCAAGCTGGGGCGGTGGTTACGGC -AACATCTTCCAGGATGAGCGTGACGTGAAATTTATGGTAATCGCACCATTCACCATCTTCTGATGCCCGACGCGG -CAGGTTTTGTGCCTGCCGCACGTTTGAGGAATTTGCTATGAAAAAACTGATTCTCATCGCCATAATGGCATCGGG -GCTGGTAGCTTGTGCGCAATCAACCGCGCCACAGGAAGACAGTCGTCTGAAAGAGGCATACAGCGCCTGTATCAA -CACCGCACAAGGTTCGCCAGAAAAAATTGAAGCCTGCCAGAGCGTGTTAAACGTGCTGAAGAAAGAGAAACAACA -TCAGCAGTTTGCCGACCAGGAAAGTGTACGCGTACTGGATTATCAGCAGTGTCTGCGTGCAACGCAAACCGGAAA -TGATCAGGCGGTGAAAGCCGATTGTGATAAAGTCTGGCAGGAAATACGCAGTAATAACAAATAAGTGAGAGCTGT -AACTCTCGCTTTTCTTATTTCCCTTGCATAAAAAAGCCAACCCGCAGGTTGGCTTTTCTCGTTCAGGCTGGCTTA -TTTGCCTTCGTGCGCATGTTCATCTTCGCGGCAATCGCCTTCGGCACAGTGACCGTAAAGATAGAGACTGTGGTT -AGTCAGGCGAATGCCATGTTTTGCGGCAATTTCACGCTGACGCGCTTCGATGGAATCATCACTAAATTCGATAAC -CTTGCCGCAGTCGAGGCAGATCAGGTGATCGTGGTGATGTTGCTGTGTCAGTTCAAATACGGATTTACCGCCTTC -AAAATTGTGGCGGGTGACGATACCAGCGTCGTCAAACTGGTTCAGTACGCGATATACCGTAGCCAGACCAATTTC -TTCACCCATATCGATCAGACGTTTGTATAAATCTTCCGCACTGACGTGATGGTTGTCCGGCTCCTGAAGAACTTC -CAGGATTTTTAAACGAGGAAGCGTTACTTTCAGGCCAGCTTTCTTTAGGGCGGTATTGTTATCAGTCATGCGGAA -TCTGTCCTGTTACTAAGCGGTTCACTTCATTAGAAGAAGTGACAGAATTTGCTCTTGAGATAATGCGTATCATTA -TAGAATTGCCACGCCTAAATGAAAACCACAAGTCCCTGGCAAATATTGTTAATAAAAACGTGGCACAGCTTACAT -TTACAACGGCAAGGCCACTTGAACACCGGGACATTGTACAGGTACAACAGCAAAAGTTACAAATTTGTAGCAATT -ATTTTGATTGGCATTATCTATTAATACGGCGTAGACATGAGTCTACGCCGCATCACATCAGGCATTGAGAATTTC -GTCGAGATGCAACTCTTCAGAAATCTGTTTAACCCATTTTTCTACACGTTCAGCGGTCAGTTCCGGCTGACGGTC -TTCGTCGATAGCCAGACCGACAAAGTGGTCGTCATCTGCCAGACCTTTTGATGCTTCGAAATGATAGCCCGCAGT -TGGCCAGTGACCAACGATGGTTGCACCGCGCGGTTCAATGATGTCGCGGATGGTGCCCAATGCGTCGCAGAAATA -TTCGGCGTAATCTTCCTGGTCACCACAACCAAACAGCGCAACCAGTTTGCCGTTGAAATCAATCTCTTCGAGAGT -CGGGAAGAAGTCATCCCAGTCACACTGCGCTTCGCCGTAATACCAGGTTGGGATGCCCAGCAGCAGAATGTCATA -AGCTTCCAGATCTTCTTTGCTGCTTTTTGCAATGTCATGGACATCGGCAACGTCTTTACCAAGCTGTTTTTGAAT -CATTTTTGCGATATTTTCGGTATTACCGGTGTCGCTGCCGAAAAAGATGCCAGTGATAGCCATGAGTGAAATAAC -CTCTTGAAACTTATTGAAATGGGGGTGGAAAATTGCCCACGGATAAAGGCAATCATAGCAGAACAGGCAGTCTTG -CGGAATCAGCAAACGAGCAGGACTGCACACTGTGCTACATGAAAGTGGAAATTTAAACGATGCCCTGACTACGCA -GCGCCGCCAGTTGCTGCATTAACATCTCTTCGATCAGTTCGCTACGGCTCATATTGCGCGACTCCGCCAGCTCGT -TCAGCGCCTCGACAGCTTCCGCGTTCAGCTTCAGTTCGACACGCTTAAGGCCACGTACTTTGTCGCGTTTTAGCT -GGTTGCGTTTATTAATACGCAGCTGTTCATCGCGCGAAAGCGGATTAGTTTTCGGTCGTCCCGGTCGACGCTCGT -GCGCGAACAGATCTAATGTCGTACGGTCCGTTTGTTCTTTGGCCATGATCTTGGTGACTTCGGGGGAAACAATCA -GCCAGGCCTCTGCCCGGATGGATAGCGCGCCATAATACATCAGCGCGATGAGTCACGCCAACGCCCACGCGCGGA -AAGCGACGCGGACGCTGGGTTTTTAATCAGTTGCGTTAATCATTGAGATAGCGACGGATAGCGCGTAATACCGCA -TCCGGTTTTTCAGCATGGACCCAGTGACCCGCGCCTGCAATCACATGCGCCCGTGCCTGTGGAAATTGAGCCAGT -AAATCATCACGGTACTGCTCGCTAACATACGGAGAATTGCCGCCAGGGATAAACAGGGCAGGGTGATCCCATGCC -GGGATTTTCTCCCAACCTACAATATGCGGATACTGATCCCACAATACCGGCACGTTAAAGCGCCACTCCCCGTCA -ACAAAAGATTTCAGCAGAAACTGAATCACCCCTTCTTCATTAAGATGCTGGCGCATTATTGCTGCTGCTTGCTGG -CGAGTTTGTGCGTCCGATTCACTGACCGCGTTGATAGCCGCAAAAATCTCATCATGACGGCGTACGTGATAGTCG -ACCGGCGCGATATCGATCGCCACCAGTTTATCGATGCGATCGGAGGCTAGTGCAGTAAGTGCCATTACCGCTTTA -CCGCCCATGGAGTGACCGATAAATGTTGCTTTGTCGATCTGCTGTGCATCCAGAGTATCAACAAGATCCTGCGCC -ATCGCCGGGTAATTCATTACCGGATCTCTCGGTGAAAGACCGTGGTTACGCATATCAACCTGGATGATATTGTGA -TCGTTTACCAGATCGCGAGCCAGTACGCCAAGGTTGTCGAGGCTGCCAAACAGACCGTGGACAAGAACGATGGGA -GAATTATTGTGCTGGTTTTGTGCAGTTTGCGCGCGGATATTCAATTTCATGGCAAAGTTCTTTTTTTCGCGTTGT -CGGGTTAGGGTATTATGTTGACCATTGTGCCACAGGGCTGCAACAAATAAGGTTTATTCCGAGTTTTTCTGCAAG -CCAGGCTTGACGCTATCCGCTGCCGGGATTTATTCATATACTCCTGGCGACTTGTATTCAGCTAAGACACTGCAC -TGGATTAAGATGAAAACGATTGAAGTTGATGATGAACTCTACAGCTATATTGCCAGCCACACTAAGCATATCGGC -GAGAGCGCATCCGACATTTTACGGCGTATGTTGAAATTTTCCGCCGCATCACAGCCTGCTGCTCCGGTGACGAAA -GAGGTTCGCGTTGCGTCACCTGCTATCGTCGAAGCGAAGCCGGTCAAAACGATTAAAGACAAGGTTCGCGCAATG -CGTGAACTTCTGCTTTCGGATGAATACGCAGAGCAAAAGCGAGCGGTCAATCGCTTTATGCTGCTGTTGTCTACA -CTATATTCTCTTGACGCCCAGGCGTTTGCCGAAGCAACGGAATCGTTGCACGGTCGTACACGCGTTTACTTTGCG -GCAGATGAACAAACGCTGCTGAAAAATGGTAATCAGACCAAGCCGAAACATGTGCCAGGCACGCCGTATTGGGTG -ATCACCAACACCAACACCGGCCGTAAATGCAGCATGATCGAACACATCATGCAGTCGATGCAATTCCCGGCGGAA -TTGATTGAGAAGGTTTGCGGAACTATCTAAAACGTTGCAGACAAAGGACAAAGCAATGGCAATCCACAATCGTGC -AGGCCAACCTGCACAACAGAGTGATTTGATTAACGTCGCCCAACTGACGGCGCAATATTATGTACTGAAACCAGA -AGCAGGGAATGCGGAGCACGCGGTGAAATTCGGTACTTCCGGTCACCGTGGCAGTGCAGCGCGCCACAGCTTTAA -CGAGCCGCACATTCTGGCGATCGCTCAGGCAATTGCTGAAGAACGTGCGAAAAACGGCATCACTGGCCCTTGCTA -TGTGGGTAAAGATACTCACGCCCTGTCCGAACCTGCATTCATTTCCGTTCTGGAAGTGCTGGCAGCGAACGGCGT -TGATGTCATTGTGCAGGAAAACAATGGCTTCACCCCGACGCCTGCCGTTTCCAATGCCATCCTGGTTCACAATAA -AAAAGGTGGCCCGCTGGCAGACGGTATCGTGATTACACCGTCCCATAACCCGCCGGAAGATGGTGGAATCAAATA -CAATCCGCCAAATGGTGGCCCGGCTGATACCAACGTCACTAAAGTGGTGGAAGACAGGGCCAACGCACTGCTGGC -CGATGGCCTGAAAGGCGTGAAGCGTATCTCCCTCGACGAAGCGATGGCATCCGGTCATGTGAAAGAGCAGGATCT -GGTGCAGCCGTTCGTGGAAGGTCTGGCCGATATCGTTGATATGGCCGCGATTCAGAAAGCGGGCCTGACGCTGGG -CGTTGATCCGCTGGGCGGTTCCGGTATCGAATACTGGAAGCGTATTGGCGAGTATTACAACCTCAACCTGACTAT -CGTTAACGATCAGGTCGATCAAACCTTCCGCTTTATGCACCTTGATAAAGACGGCGCGATCCGTATGGACTGCTC -CTCCGAGTGTGCGATGGCGGGCCTGCTGGCACTGCGTGATAAGTTCGATCTGGCGTTTGCTAACGACCCGGATTA -TGACCGTCACGGTATCGTCACTCCGGCAGGTTTGATGAATCCGAACCACTACCTGGCGGTGGCAATCAATTACCT -GTTCCAGCATCGTCCGCAGTGGGGCAAAGATGTTGCCGTCGGTAAAACGCTGGTTTCATCTGCGATGATCGACCG -TGTGGTCAACGACTTGGGCCGTAAACTGGTAGAAGTCCCGGTAGGTTTCAAATGGTTTGTCGATGGTCTGTTCGA -CGGCAGCTTCGGCTTTGGCGGCGAAGAGAGTGCAGGGGCTTCCTTCCTGCGTTTCGACGGCACGCCGTGGTCCAC -CGACAAAGACGGCATCATCATGTGTCTGCTGGCGGCGGAAATCACCGCTGTCACCGGTAAGAACCCGCAGGAACA -CTACAACGAACTGGCAAAACGCTTTGGTGCGCCGAGCTACAACCGTTTGCAGGCAGCTGCGACTTCCGCACAAAA -AGCGGCGCTGTCTAAGCTGTCTCCGGAAATGGTGAGCGCCAGCACCCTGGCAGGTGACCCGATCACCGCGCGCCT -GACTGCTGCTCCGGGCAACGGTGCTTCTATTGGCGGTCTGAAAGTGATGACTGACAACGGCTGGTTCGCCGCGCG -TCCGTCAGGCACGGAAGACGCATATAAGATCTACTGCGAAAGCTTCCTCGGTGAAGAACATCGCAAGCAGATTGA -GAAAGAAGCGGTTGAGATTGTTAGCGAAGTTCTGAAAAACGCGTAAACACATTTAATAAAAAAAGGGCGGTCGCA -AGATCGCCCTTTTTTACGTATGACAAACACAGAATTGCCTGATGCGCTACGCTTATCAGGCCTACGAGGATGGTG -CAATATATTGAATTTAAGCGATTTTGTAGGCCGGATAAGGCGTTCACGCCGCATCCGGCAAAAACAACGAACACT -TTGTCAACAAACTGAGTAGCTCAAGGAAATCCCAATGAAGACCAACAGGAGTCTGGTCGTCATAGTGTCACTAAT -TACCGCCACATTACTGCTGACTGCATGCGCCCAACCTGAACAATCATCATTAGCTGGCGACTGGTTACTGACCCC -TAAAGATAAAACCAGAGGATTAACGGGTAGCATTGCGGTAAATATTGCACCTTTCCGGTGTAAGACAAATTGCCG -TGGTGATAACTTACCTGATAATACCCGCCGCTGGCAGTTGTCAGGCGGGAACGAAAAAGAACTTACTTATCTTCA -TAATATGTCAGCACAAGAAAAGGTCGGTTTAAATCCCGGTTGGCAATGCTACACCTCATTTTTTATGCGGGTTTG -CCAGGGCAAGCCCGGCACTCGACCGATAGTCAATGAGGATTATGTCAGCGAAAGCGGATTTTTTGGCTCGATGAT -GCATGTCGGGATTATTGAGTTACGACGCTGCCAGTCAGAAAATTGCCAGCAAGAATTGAAAGCGATAAATACACA -TTAAAATAGTGAGTCCGGGAATGAAACCCGGACCTGAACATGTCTTATTGCGTGAATGTTTCTTTCATTTGATAC -TGCATTTCCCAGAGTTCAGTAAGCGAAATAACTTTTCTTGTTCTTGCTTCTTCACTTTGTACCCATAAGAAAGGG -TAGAACGTGAAGGCTTCCGTTGCCGATAATTTTATTACGTCTTCTCGCCATTGCTGCCATCGTACATTTTCATAG -AAGGTATCTAAATCACCGGATAATGCCCACTGAAGAAACTCAGAATATCCAACTTCCAGACTTTCCCAATTCAGC -GTATCTGGCGCAAAATAATAAACGCAGCCAGTATCTTCCCCAAGATCGCCACCATTAAGAGCAAAAATTACCCCT -GCGACATCGTCAGCGATGGGTAAAGCCCGCACGCCTGCGAATTCAGGGCGTTGTGTCCAACTTACTGGATCTCGT -GGCAACCGGGGGTGACCAGATCCTGCTATGCGTAACTAACCATTATCAATCAGCAGACCTCCGGAGCCATAGACA -AGCGCACCCATCGGTGATTTTGTTGTCACCTGTAATTGATAAAGTGCGGTTTCGGCTAAATCTTTATTAACCGGT -AAGAGTTCGGTATGGTTTGTGGCGTCTTTTAACCAGTTCTGGATTATTGGCCAGGCTGAATCTTCAGTATTTACT -AACTGATTCATTTCACGCATCGCTACTTGCTCCTTGTGTGCTACGGTGTCATTTATGATGAGGAATTGTATGGAA -CATTTTTTAAATATTAAGTTCCTTATATTTGAATAAAAAATGACTTTATCCATACATTGCCACTTTTTTCAAAGC -ATAAACCGATACCCAATACCGGTTTCAGTAATAAAATGGCGAGGCCGGGCCGGATCCTGTTCCAGTTTTTGTCGC -AGATGCCCCATATAATTACGCAAATAGTTGCTGTGTTCGATCGCGTTTAGACCCTACATCTGCCGGATGCGGCAT -AAATAACGAACTATTTGCCAACAAACAGAAAGGGCGATCATTCAATCGCCCTTTTTTACTTTGTTTTATTAACCG -TGTTTATTTTTCAGTTCAAAGCGTGGTGATACCAGACCATACAGTGTCCAACCAAGGAAGGTCACGATGGAACCG -TACAGCATGGCTTCTTCCCCGGATGAGTACAGCGCATAAAAGCTATACATCGCGCCAACAAAAGCAACAAAGTTT -GCAACTTTCGCTTTTGAGGGGGGCACATTAGCGACCTTCTGAATAATGACTAATGCCGCCATTGACAGAATATAC -GGAATGATATTGGTCACCACGGCCAGGTTAACCAGCACGTTGAACTGACTGTTTAGCGACGGGCTAATGGTCATC -AGTGCCAATCCACTCTGAATAATCACAATGGTCAACATTCCCTGCACCGGTGCATCCACTTTGGTTACACGGGAG -AAAATTTTAGGGAAGTAGCCTTCATCAGATGAAGATTTAAACACCTGGGCAATGGTGAACTGCCAGCCAAGTAGC -GAACCGCAGCAGGACATCACCATCAGCGCCATAATGACTTTACCCACTTCCGGCGTGAACATCTGCGCGAAGGCC -AGACCAAATGGTGCCGTTGAATTTGCCAGCTCCATATTTGGCACAATCCCGGCAATCACGTTGGTGGAGACGATA -TAAATCACCGCCGCACCTAACGTACCGCCGAGTACCGCGATTGGCACATTACGTTCCGGGTTTTCCACTACATCA -GTATTCGCACACGCAGACTCCAGACCAAGAAAAGCCCACAGCGTCATAGCGATGGAAGAACCTACCGCACTGAAG -AACGGTGCATGATGCGGATTCCAGGAATCAACGTACAGCGTCGGGCTAAACCAGAACCAGCCAATAATGCACAGA -CCGACGACCGGAATAATGACCCCCCACACGGTAATGCTACTGATTTGCCCGGTAATGCGCGCACCACCAAAGTTA -GCCACGGTACAAATCCACAGCACCCCGATGGTCGCAAGACCAATCTGCACTGGCGACAAACTCGCGCCGAGCAGT -TCGGTGCCGTAACCAACCGCCGAAATAGCAATCGCGACGTTAGCAATCAGCAGTGAGACGCCGTAGGTATAGTTC -GCCATAAAGTTACCGGATTTACCGAAAGCATACTCGGCATAACCGCCCATACCGCCTGATTTACGGCTGAACATA -CCGCATTTTGCGAATGCCCATGCCAGTGCCATTGAGCCTACGGCTGTCACCAGCCAGGAGATAATTGAGATTGTC -CCGACTTCGGCAAGCTTTGTCGGCAGCATGATGATACCGGAGCCCATCATGTTGACCATCGTCAGTATGGTTAAC -TGAACGACGCCCATTTTGTTCGATTTAGCCTGACTCATAATTTTTCCCCTTTCAACAGGGTGCTTTGCGCATCAC -GAGGCTTGATGACATAGCACCAAACTTGCTTACGACCATCATGTTCTTCGATATAGACACCCTGCAGCTCCGGTG -CAAAACCTGGCAGCAGGTTGATCCCTTCTTCCAGAGCGCTGAAGTAACGCAGAACAGCACCACCCCAGATTTCAC -CCGGAACAACACACAGCACACCCGGAGGATAAGGAAGCGCACCTTCGGCAGCGATACGGCCTTCTGCATCCGGCA -GACGAACCAGTTCCACTTCACCGCGTAAATAGGCGTAGTTGGCTTCTTGCGGATTCATGCTGACGCGTGGGAAGT -GCTCCTTACGGAACATCTCTTTTTGCAGTTGTTTCACGTTGTGGCGGGCATACAAATCATGCATTTCCTGACACA -ACTGACGCAGGGTATAACCGGCGTAGCGCTCTTCATGCTGTTTGTAGATGGAAGGTAGCACTTCTGCTAATGGCG -CGTCGGACTCAAGCAGTTTTTCGAAGCGTACCAGCAGGGCAACAAGTTGCTGAAGTTTGGCCATATCTTCTGCCG -GAGTCAGCAGGAAGAGGATGGAGTTAAGATCGCATTTTTCCGGCACTACGCCATTTTCGCGCAGGAAGTTAGCAA -GAATCGTCGCGGGTACACCGAACGCTTCATATTCGCCGTTACGTGCATCAATACCTGGGGTTGTCAGCAACAGTT -TGCATGGATCGACAAAGTATTGATTCTCTGCATAGCCTTCAAAAGAATGCCAGTGTTCCCCTGGTACAAACTGGA -AGAAGCGCAGATCAACCGCAATTTGCGCTGTTTCATACGACTGCCAGGGTTTACCATCCACCAGTTCAGGTACGA -ACGGACGAATATGCTGACAGTTATCGAGGATCAGTTTGCGGGCATTAATGCCATTTACCACACAATCCATCCACA -TATTACGACCGCTGACACCTTCATGCATTTTGGCGTTGATATTCAGTGCGGCAAACAGCGGATAGAACGGGCTGG -TGGAGGCGTGCATCATAAAGGCGTTGTTCATGCGTTTGTGCGGTACATAACGCTGTTGCCCTTTGATGTGGCTGT -CTTTTTTATGAATTTGTGAAGTCTGAGAAAAACCAGCCTGTTGTTTATGCACAGATTGCGTAACCAGAATACCCG -GATCGTTCTCATTAAGATCCAGCAACAGCGGCGAACAGTCCGCCATCATCGGAATAAACTGTTCATAGCCGACCC -ATGCTGAGTCAAACAGGATGTAGTCACACAGATGACCAATTTTATCCACCACTTGGCGGGCGTTATAAATCGTAC -CGTCGTAGGTGCCTAACTGAATCACAGCGAGGCGGAAAGGACGAGCCTCTTTTGCCCGCTGCGGTGCGACTTCCG -CGATCAGCTCACGCAGGTAACTTTCTTCAAAACAGTGCGCATCAATGCCACCGATAAAGCCATACGGGTTACGTG -CCGTTTCCAGATAAACCGGTGTTGCACCAGCCTGTAGCAACGCTCCGTGGTGGTTAGATTTGTGGTTATTGCGAT -CAAACAGCACCAGATCACCCGGTGTTAGCAGGGCGTTTAAAACCACTTTGTTAGAAGATGAAGTGCCATTTAAAA -CGAAGTAGGTTTTATCGGCATTAAACACTTTTGCCGCATGTTGCTGTGCAATGCATGGCGCGCCTTCGTGAATCA -GCAGATCGCCCATCGCTACGTCGGCGTTGCACAAGTCGGCACGGAACAGCGCCTCACCAAAGTATTCCACAAACT -GATTCCCCGCCGGATGGCGACGGAAAAATTCGCCGCCCTGATGACCAGGGCAATCAAACGCGCTGTTACCTTGAT -TGACATAATCGACCAGTGCGCGGAAGAAAGGTGGGCGCAGTTGAGTTTCATAATGGCTGGCAGCGGTTTCTAACT -GGCGACCATAAAATTCTCGTCGCGATTCGCAATTCTCAAAGACACCCGAAATACGGGGCAAATACTCTGCGGGTA -CACGTTCTTGATTTTCAGTAGCAATAAATACCGGGATGCCATAACCCGTGGCATCGATTTCATCGAGTTTTCCGC -ATGTAACATCGTTGAGCGATAAAACTATTGCCGCCACATCGATATTACGACTTTCATTAATGTAGATACATTCTC -GCTGCGTGGTAAAACAGTCCGGGCAAGAATCACTAACCGCAATTTTTAATTTTGACATTTTTCATCTCTTTATTT -TAGGTAATAGCAGGTCCTCAATTTCTCGAATGAGAAATCGATCGTGCCGGAAAAAAGCAAAGTTACCCCGCTGAT -AAATAAATCAGGTAGATTGCTTTTTTCAGAATGCAGAAACCCTTACCAGTCAGGTGGCTGATAATACAAGGGTTA -ACAGAGAATGAGCACTGCGGAATACAGGCATATGCCTGTAATACAGAGAGTCAGGAAGACCTGTACGCTGAAGTG -CCCTTAGTCGGTAGACTAACGGGCATTGAAGAAGTGAAAGTCGAAGCTATTGCGATGAGCAAACTTCATAATATG -AGTTGTCCGCCTTATATGGGGCATAGTGCGGCTGTTATTTTCCATTTAATTTACCTTTCCTGATGTGAATGAAGG -TGAAGATATTCTATCCAGGAAATACGGTTGAACTGTGAAGGTGATCAATAAAAAATGATCAATCTTAATTTATTT -AATGATGAGCTTTTTACTCAGTAATATAAAATATTGAATTGTTATTTTTGTGTGTTGTTTAAGATAAAAAGCCGT -ATTTATTATTACGGCTTTAATTAATAAAAGGCAGGCTGTATTAAAATTAATATTCAAAGCATAAACCGATAGCCA -ATACCGGTTTCAGTAATGAAATGGCGTGGGCGGGCGGGATCCTGTTCCAGTTTTTGTCGCAGATGTCCCATATAA -ATACGCAAATAGTGACTGTGTTCGACCGCGTTTGGCCCCCACACCTGGTTAAGGAGCTGGCGCTGGGTGAGTACT -TTTCCGGCATTGTTGAGCAGCACCGCCAGCAGGCGGAACTCAATTGGTGTGAGATGCACCTCTTCCTCACCCCGG -TGAATCACGCGGGCGGCTAAATCGACGGTAACATCGGAAAATTTTACCAGCGGATCGGGCGCGGTGGTGGCAGAG -TGGCGGCGTAATGCGACGCGCAGACGGGCCTGCAATTCGCCAATGCCAAACGGCTTACTCAGATAATCATCCGCT -CCGGCATCCAGCGCGGCGATTTTGTCGCTCTCTTCGCTGCGTGCGGAAAGCACAATCACCGGCACCGCGCTCCAC -TGGCGCAGGTCGCGGATAAACTCAATCCCATCACCATCGGGCAGGCCGAGATCGAGAATAATCAAATCTGGCTTA -CGGGTTGCCGCTTCCAGCAAGCCGCGTTGCAGCGTTTCGGCCTCAAAGACGCGCATCCCGTCGCCCTCCAGCGCC -GTGCGCAGAAAGCGACGAATAGCCTGTTCATCTTCAACAATCAGAACGTTTGTCACATATCCTCATGAAATTCTT -CAAGTTCAGGGGCAGTTTGCTGGGGAAGTGTAACACGAAAACAGGCACCACCTTCCGGTCGGTTGAACGCGGTAA -TAGTGCCCCCGTGTACATCCACTATCGCCCGACAAATTGCCAGTCCAAGCCCTACCCCCGGTACTGCCGACTCTT -TATTCCCGCGAGCAAACTTATCAAATATCGTCTGCTCCTGGCCTGGCGGAAGACCGGGGCCGTTATCCCAGACAT -CCAGTTGTAGATTTTCGCCCTCAACGTGGGCATCGATACCAATTTCGGCCTGCGCACCCGCATATTTCACCGCGT -TCTCCAGCAGATTAATCAGCACCCGTTCAAAGAGTGGCCCGTCAACGTGGATTAAGGTCAGCGGTTCTGGCAGAG -AAAGATTGATGGGCGACGATAAACCCGGTTCCAGCATTTGCAGCGCGCTGCCGACTACTTCTTCCAGCGTTAACC -ACTCTTTCTTCAAATTAAAGCCGCCGGACTGAATTCGCGCCATATCCAGTAGATTATTCACCAGTCGGGTAGTGT -TCAGCACATGCTGACGGATCTCGCTGGCCTGGCGGGCGTGGGGTGATCCTTCGCTTGCCAGATCGAGCGTTAAGA -TTTCTGCCTGACCAAACAGCACCGTAAGCGGCGTGCGTAAATCATGCGAAAGCGCCGCCAGCAGGGCGTTGCGGA -TCTGTTCACGTTCGCTTGCCATCCGCGCCTGTTCTTCGCTGGCGGTTAGCGTCAGCCGCTCAAGGGCATTGGCGA -CTAACAGCGTAAACGTCTCCAGCAGGCGCTGCTGTTCCGGGATCATCAACTGGCGCAGATTCCCCGGCTCCACCA -CCACCAGCCCGTAGGTTTTCTCGCCGCTTTTTAGCGGCAAAATCTGGTACGGTACACCGGGTAACGTGTCGGTGC -CCGCGCCCGCAGGCAGGCCTTTATCAAAACTCCACTGCGCGATGGCATCGTCCCACGGCGTCATTCCTTGCGGAT -GTGTTAACGGCTGCAATTTACCGTTGTCATCGGGCAACAACACCTGACTGCGGGCATGAAACGTGGAGGCAATAA -ATTGTTCGCTGGTGGCAGCGATATCCTGCGGACTGCGGCCCACCGCCAGAGCTTTCGACATTTCATATAAGTGCC -GTGTGCGTTGCTCGCGGTAACGGGCTACCCGCGCCTGATAACGCACGCCAGCAGTAAGGTTCCCGATCACCAGCC -CGACGGTTAACATCACCGCGAAGGTCAGCAGATATTGCACATCAGAGACGGCGAGCGTGCCGCGTGGGGCGATAA -AAAAGAGATCGAAACTCACTACATTAATGACGGTGGCAACCACTGAAGGCCAGCGTCCATAAAATAGCGCCACCA -CCACCACGCCAAGCAGATACAGCATCACCAGGTTGGCGGCATCAAACGCCATCAGCCACTGCATGGCAATTAAGG -TGATAACGGCGCATAACGCGGCGGCAACCACGCATCCCTGAATTTGTACACGCCACTTGTCTTTAAAAGAGCGGT -TATCCGGCGCGTTGTTAATCGTGCGGGCGGGTGGTTCATCAAGCGCGACCAGCACCTGATCGAGATCGGGGGCGA -TGCGCGCCAGTCGGTCAGCAAACGTTTCCCGACGCCACCAGCGGCGCGAGGCCGGGCGACCGAGAATAATCTTGC -CGAGATTATGTTCACGGGCATAACGCACTACCGCTTTCTCTTCCGCTGGATCAGAAAGTGTTGCCGTCTCCGCGC -CCAGTTCCTGCGCCAGACGTAAGGCGCTGAGAATTGCCCGACGTTTTTTTTCCGGTAAGCGGTGCAGGGCAGGGG -TTTCAACATACACCGCGTGCCAGACGCTACCCAGCCGTGACGCCAGCCGCGCCGCTGCGCGGACCAGTTTTTCGC -TGCCGGTGTTATGGCCGATGCATAAAAGGATCGCGTCGCGCGTGTGCCACACTTTCTCTTCGCCAGGATGCCCCC -GCCAGGCGCGCATTTGCTCATCAACGCGATCGGCAGTACGGCGCAGTGCCAGTTCGCGCAGGGCGATCAGATTAC -CTTTGCGGAAAAAATGTTCAATGGCGCGCTCCGCCTGCCCGGCAATATAGACTTTGCCTTCTTTCAGCCGCTGGC -GCAGATCGTCCGGGGGCAAGTCCACCAGCACCACGTCGTCGGCGGCATCGAAAAAAGGATCGGGCACGGTTTCCC -GTACCTGAATTCCGGTGACGCCGCTGACCACATCATTCAGACTTTCCAGATGCTGAACGTTGACGGTAGTGAAAA -CATCAATGCCAGCTTCCAGCAGTTCTTCGATATCCTGCCAGCGTTTGGGATGACGGGAACCTGGCGCATTACTGT -GCGCCAGTTCGTCCATTAAGATCAGCGCCGGGCGGCGGGCGAGGGCGGCATCGAGATCAAACTCGCTGATATGCC -GCCCACGGTACGCCTGGCGTTTTAACGGCAGAACAGCCAGCCCTTCCAGCATGGCGGCGGTATCTTTTCGCCCGT -GGGTTTCTACCACGCCAACCACAATATCCAGCCCTTGCGCCCGCAGTCGCTGGGCTTCTGCCAGCATCGCCCAGG -TCTTCCCGACGCCTGCACAGGCACCGAAGAAAACTTTCAGCTTCCCCCGATGCGGCGCGGCAGTTTGTTCCAGCA -GACGATCGGGGTCGGGACGTAAGGGTTCGTTATTCATCAAGTTTATCCAGCGCCAGATTGAGTTCAACAATGTTG -ACAACCGGCTGGCCGATATATTTCACCAGCGGTTGTTGGCTGTATTTTGCGATCAGTTGCGTGAGCTGTTCAACG -CTGAGATTACGCGCTTTCGCCACGCGTGGGATTTGCCAGGCCGCCGCTTGCGGGGTGATATTATTGTCCAGCCCG -CTTGCCGATGCCGTCACCAGTTCAACCGGAACGCTCGCGCTGGCATCCGGGTTAGCGGCCCGTAATGCAGCAACG -CGTGCGGCTATTAGTTTATCCAGCTCAGGGTTACTGACCGCCAGATTGCTCCCGCCAGAAGCCTGTGGATTATAG -GGCATTTCTGCCGTTGCCGACGGGCGACCATGAAAATAGCCGTTGCCGGTAAAATTCTGCCCGATTAATGCCGAA -CCGCGCACCGTATCACCTTCACGAATCAACGAACCATTGGCCTGCCAGGGAAACCACCATTGCCCCAGTACGGTG -GTCAGCAGCGGGTAAACGCCGCCAGTAATCAATAACAGAAAGATAAATGTTGATAATGCCGGACGTAATCCACTC -ATGGTAAACCTCACACCAGACCGCAAACGGTCAGCAGTAAATCAATGACTTTGATACCGATAAACGGCACCAGCA -GCCCACCCAGACCGTAAATCCATAAGTTACGGCGCAACATGGCAGAAGCGGTAAGCGGTTTATAACTCACGCCTT -TTAACGCCAGGGGAATCAAAAAGACGATAATCAAGGCGTTGAAAATCACCGCACTGAGGATTGCGGAGTCGGGCG -AATGCAGGCACATGATGTTCAGCGCATTTAACTGCGGATACGTTGCCGCGAATGCCGCCGGAATAATGGCGAAGT -ATTTCGCCACATCGTTGGCAATGCTGAAGGTGGTCAGCGAGCCACGGGTCATCAGCATCTGTTTGCCAATGTGCA -CCACCTCGATCAACTTGGTCGGGTTAGAGTCGAGATCGACCATATTGCCCGCCTCTTTCGCCGCCTGGGTGCCGG -AGTTCATCGCCACCGCGACATCTGCCTGCGCCAGCGCCGGAGCATCGTTGGTGCCGTCGCCGGTCATCGCTACCA -AACGACCTTCCGCCTGATACTGACGGATCAATGCCAGCTTGGCCTCCGGTGTCGCTTCGGCGAGAAAATCATCGA -CACCCGCTTCCGCAGCAATCGCGGCGGCAGTCAGACGGTTATCGCCGGTAATCATCACCGTTTTAATGCCCATTT -TGCGCAGCTGGGCGAAGCGCTCTTTAATACCGCCTTTGACGATATCTTTCAGCGCAATAACGCCCAGCACACGAG -AACCTTCCACCACCACCAGCGGCGTGGCTCCCTGACGCGCAACCTGATCGACTTTTTGATCAACATCGGTAGGGA -AGTGACCACCGTTAGCCTCAACATGGCGACGAATGGCATCGACAGAACCTTTACGGATCATGCGGTTGTCGATGT -TGATCCCGCTCATCCGGCTTTGCGCAGTAAACGGTACAAAGGTGGCATGGAGCGACTGCACATCGCGCTCGCGCA -GGTTAAAACGCTGCTTGGCGAGGATCACAATACTGCGGCCTTCCGGCGTTTCATCAGCCAGCGAAGCCAGTTGTG -CGGCGTCAGCCAGCGTTTTTTCATCCACGCCCTGCGCGGGGATAAACTCCGACGCCTGACGGTTACCGAGTGTGA -TGGTGCCGGTTTTATCCAGTAGCAGAACGTCAACGTCACCTGCCGCTTCAACTGCACGTCCGCTGGTGGCAATCA -CATTCGCGCCTAGCATCCGGCTCATCCCGGCGACGCCGATCGCTGACAACAGGCCGCCAATAGTGGTTGGGATCA -GACAGACCAGCAGCGCCACCAGTACCGTTACGCTGACTGCATTACCGCCCCACGCGGAAAACGGCCACAGCGTGG -CGGTTGCCAGTAAAAAGACGATAGTCAGGGCAATCAGCAGAATGGTCAGGGCAATTTCGTTCGGCGTTTTGCGTC -GCTGTGCGCCTTCCACCATCGCGATCATCCGATCCAGAAATGTCTCGCCGGGGTTAACGCTACACTCAATCACCA -GCCAGTCAGAAAGAATACGCGTGCCGCCGGTGACGGAGGCAAAATCGCCGCCGGATTCACGGATCACCGGTGCCG -ATTCCCCGGTGATGGCGCTTTCATCGACCGATGCACCCCCTTCAATAACTTCACCATCGCAGGGGATAATATCGC -CAGCTTCTACCAGTACGATATCGCCTTTACGAAGTTGGTCGGCAGGAACTTTGTCCGCCGCAGCGCCATATTTCG -GCTCACGCAGCTTGCGGGCAAAGGCAGTTTTTTTCACCCCTTTCAGACTGTTGGCCTGCGCTTTACTGCGGCCTT -CTGCCAGCGCCTCGGCGAAATTAGCGAACAGTACGGTGATCCACAGCCAACCGCTAATGGCCGCGCTAAACAGCG -CATTGCCGGGCATCGCACCGCTTGCCATCGCGATGCTAATACAGGTGGTCAGCAGACTGCCGATCCAGACGATAA -ACATCACCGGATTGCGCCATTGCGCCTGCGGGTTTAATTTTTTCACCGCTTCTTTCAGCGCCTGAACGACAAGTG -TTGGTTCGAATAGCGCCAGTTGTTTACGACTCATATTCAGTGCTCACTCAATATCATCAGGAGAGATATTCCGCC -ACCGGACCAAGCGCCAGGGCAGGGATAAAGGTCAGTGCGCCAACCAGCAACACGGTGCCGATTAACAGGCCAACA -AACAGCGGGCCGTGCGTTGGCAGCGTGCCGGAGCTGGCGGCTTGGCTCTTTTTACTCACCAGCGAACCGGCAATT -GCCATCACCGGGATAATCACCCCGAAGCGACCGACAAACATGCAGAACGCCAGTAAACAGTTCCAGAACGGAGAG -TTGGCGCTTAATCCGGCAAAGGCGCTGCCGTTGTTGTTAGCGGCGGATGACACGGCGTACAGCACTTCGCTAAAA -CCATGCGGGCCAGGGTTGAGCATGGCGCTACGTCCGGCGTCGGTCATCATCGCCAACGCCGCGCCCATCAGCACC -AGCGTCGGGGTAACCAGAATTGCCAGTGCAGTCAGTTTCATCTCGCGTACGTCGATTTTTTTACCCAGATATTCC -GGTGTACGACCAATCATCAGCCCGGCAATAAACACCGCCAGCAGGACAAACAGCATCATGCCGTAAAGACCAGAA -CCGACACCGCCGAACACCACTTCACCAATTTGCATCAGCCACATCGGCACCATGCCACCGAGAGCGGTAAACGAA -TCATGCATCGCAATCACCGCGCCACAGGAAGCCGCCGTCGTCACGACCGCAAACAGGCTACTGACCAGCACGCCG -AAACGGCTCTCTTTACCTTCCATATTGATGCTGCTGTCCGTGCCCAGTGCCAGCAGATGAGGATTACCCTGAACT -TCTGCCCACATCACCACGCCTACGCAGATGACAAAAATCACTGACATCGCCCACAGCAACATGCGCCCCTGGCGG -CGATCGCCCATCACTTCACCAAAGGCAAAGCACAGCGCCGTTGGGATCAAGAAGATCGCCAGCATCTGCACGAAG -TTGGTCAGTGCGGTTGGGTTTTCAAACGGATGCGACGAGTTGGCATTAAAGAAGCCACCGCCGTTAGTACCGAGC -ATCTTGATCGCTTCCTGAGAAGCTACAGGCCCCATGGGTAACAGCTGTTGCGCTCCTTCAACGGTATTCACAGCC -TGATAAGGCAGAAAGTTTTGCAGCGCACCTTGTTGAATAAAAAACAGTGCAATCAACAACGCCACAGGGACTAGC -ACCCATAACGTGATGCGTAGCAGATCGACCCAGGCATTCCCGAGCGTGCTCATGCTCTGGCGGGTAAACGCACGG -ATGAGGGCAAAAATCACCGCAATCCCGCTGGCGGCAGAAAGAAAGTTTTGCACCGTTAAGCCCGCCATCTGGCTG -AAATAGCTCAACGTGGTTTCACCGCTATAAGATTGCCAGTTGGTATTGGTGACAAAGCTGACGGCGGTATTCAGC -GCCAGATCCCACGACAGCCCTGGCAACTGCTGTGGATTAAGCGGCAGATAGTGCTGACCGAGCAACATAAAAAAC -AGCACCGCCAGCCCCAGCATGTTCAGGCCGAGAATGGCACAAAGATATTGCTTCCAGTTCATCTCACGGTCAGAG -ACGCCAAGTGCGCGAAAAAGTACGCGCTCAACGCCCGTTGTACCGGGAAGAGGAATGTCATTAATCAGCCGCGCC -AGCCCGCTGCCTAAAGGACGCGCCAGCACCATTAACACCAGTAAAAACGTGGCGATCAGTAAGAACCCTTGCGCA -GCCATCAGAACGCCTCCGCATTGATCAGGGCATAAACCAGATAACCCAGTAATAAAAACACCAGCAATACGCCGG -TTATCACGCCTGCACTCACAGTGCACCTCCAGTGGCCTAAAAGTGATACCGGAAGGGTAGAATTCTGGCTGCAAA -GATTTCGCAAAAATCTGCGGGCGGGGTGTAAAAAAAGTATAAAAATGGCAAAAGCCATGATTTAACTAATGTTTA -GTATTAATTTAACTTTTGTGTAACTTAATTACAGGATGAATGTAAATAAACCATCAATAAGCAAAAATAAGTGGT -CGGATGAGTAGTAAAATTACACAAAAGGCGGTACTATTTTCATCAGATAAACAAATTCATTTTTCCGGTGCCATT -CACCGGGTAGATACAAAAGGGGGAGAAAAGTATGGAACTCTACAGAGAATATCCTGCATGGCTTATCTTTTTACG -CCGTACTTATGCGGTTGCAGCGGGCGTTCTGGCGCTGCCTTTCATGCTTTTCTGGAAAGACCGCGCCCGCTTTTA -CAGCTACCTGCATCGCGTCTGGTCGAAAACCAGCGATAAACCGGTGTGGATGGATCAGGCCGAAAAGGCAACTGG -TGATTTTTATTGATTGCTGAGTTTTGAATACATTGAAAACCGCCAGCGGAAACGCTGGCGGTTTTTTGTATCAGG -AAGATGTTCAGAGGAATATTTAGACATCGTTATACCAATCGAAACATATATTCATGAAATATATATAAATATTTT -CCTAATTGTTCTTATCTGACAGATATCTCACTTAAGGCTTTCTTATAAATCTGTAGGGTTTCGCCTGTCAGCAGA -CAAATAACCCGATAAAACAAGGATGAGCAGATGAGCGGAAAACCGGCGGCGCGTCAGGGCGACATGACGCAGTAT -GGCGGTAGCATTGTCCAGGGTTCAGCCGGGGTACGCATCGGTGCCCCCACCGGCGTGGCCTGTTCGGTGTGCCCC -GGCGGGGTGACGTCCGGCCATCCGGTCAATCCGCTGCTCGGTGCAAAGGTCCTTCCCGGTGAAACCGACATCGCC -CTGCCCGGCCCGCTGCCGTTCATTCTCTCCCGCACCTACAGCAGTTACCGGACAAAAACGCCCGCGCCGGTGGGG -AGCCTCGGCCCCGGCTGGAAAATGCCTGCGGATATCCGCTTACAGCTGCGCGATAACACACTGATACTCAGTGAT -AACGGCGGCAGAAGCCTGTATTTTGAGCACCTGTTTCCCGGTGAGGACGGTTACAGCCGCAGCGAGTCACTGTGG -CTGGTGCGCGGCGGCGTGGCGAAACTGGATGAAGGTCACCGGCTGGCCGCACTCTGGCAGGCGCTGCCGGAAGAA -CTCCGCTTAAGTCCGCATCGTTATCTGGCGACAAACAGTCCGCAGGGGCCGTGGTGGCTGCTCGGCTGGTGTGAG -CGGGTGCCGGAAGCGGATGAGGTGCTGCCTGCGCCGCTGCCGCCGTACCGGGTACTGACCGGGCTGGTGGACCGC -TTCGGGCGCACACAGACGTTCCACCGCGAAGCCGCCGGTGAATTCAGCGGCGAAATCACCGGCGTGACGGATGGT -GCCGGGCGTCACTTCCGGCTGGTACTGACCACGCAGGCGCAGCGGGCAGAAGAAGCCCGGCAGCAGGCCATTTCC -GGCGGGACGGAACCGTCCGCTTTTCCTGATACCCTGCCGGGTTACACCGAATATGGCCGGGACAACGGCATCCGT -CTGTCTGCCGTGTGGCTGACGCACGACCCGGAATACCCGGAGAATTTACCTGCCGCGCCGCTGGTGCGCTATGGC -TGGACGCCCCGCGGCGAACTGGCGGCGGTGTATGACCGCAGCAATACACAGGTGCGCAGCTTTACTTACGATGAT -AAATACCGGGGCCGGATGGTGGCGCACCGTCACACGGGCCGACCGGAAATCTGTTACCGTTACGACAGCGACGGG -CGGGTGACAGAACAGCTAAACCCGGCAGGCTTAAGTTACACGTATCAGTATGAGAAGGACCGCATCACCATCACC -GACAGCCTGAACCGCCGTGAAGTCCTGCACACGCAGGGTGAAGGCGGGCTGAAGCGGGTGGTGAAAAAGGAACAC -GCGGACGGCAGCGTCACGCAGAGTCAGTTTGACGCGGTGGGCAGGCTCAGGGCACAGACGGATGCCGCAGGCAGG -ACAACAGAATACAGTCCGGATGTGGTGACGGGCCTCATCACGCGCATCACCACGCCGGATGGCAGGGCATCGGCG -TTTTACTATAACCACCACAGCCAGTTAACGTCAGCCACCGGGCCTGACGGGCTGGAAATACGCCGGGAATATGAT -GAATGGGGCCGTCTGATTCAGGAAACTGCCCCTGACGGCGATATCACCCGCTACCGTTATGATAATCCACACAGT -GACTTACCCTGCGCAACGGAAGATGCCACCGGCAGCCGGAAAACCATGACGTGGAGCCGTTACGGTCAGTTGCTG -AGCTTCACTGACTGTTCCGGTTATGTAACCCGCTATGACCATGACCGTTTTGGTCAGGTGACGGCGGTGCACCGC -GAGGAAGGGCTGAGTCAGTACCGCGCATACGACAGCCGTGGACAGTTAATTGCCGTGAAAGACACGCAGGGCCAT -GAAACGCGGTATGAATACAACGCCGCCGGTGACCTGACCACCGTCATTGCCCCGGACGGCAGCAGAAACGGGACA -CAGTACGATGCGTGGGGAAAAGCCATCTGTACCACGCAGGGCGGTCTGACGCGCAGTATGGAATACGATGCTGCC -GGACGGGTCATCCGCCTGACCAGTGAAAACGGCAGCCACACCACCTTCCGTTACGATGTACTCGACCGGCTGATA -CAGGAAACCGGCTTTGACGGCCGCACACAGCGTTATCACCACGACCTGACCGGCAAACTTATCCGCAGCGAGGAT -GAGGGGCTGGTCACCCACTGGCACTATGACGAAGCAGACCGCCTCACGCACCGCACCGTGAATGGCGAAACCGCA -GAGCGGTGGCAGTATGACGAACGCGGCTGGCTGACAGACATCAGCCATATCAGCGAAGGGCACCGGGTGACGGTG -CACTATGGTTATGACAGTAAAGGCCGCCTCGCCAGTGAACACCTGACGGTGCATCATCCGCAGACGAATGAACTG -CTCTGGCAGCATGAGACCAGACATGCGTACAACGCACAGGGACTGGCGAACCGCTGTATACCGGACAGCCTGCCC -GCCGTGGAATGGCTGACCTACGGCAGCGGCTGGCTGTCAGGCATGAAACTCGGCGACACACCGCTGGTGGAGTAC -ACCCGCGACCGCCTGCACCGGGAAACGCTGCGCAGCTTCGGCCGTTATGAACTCACCACCGCTTATACCCCTGCC -GGGCAGTTACAGAGCCAGCACCTGAACAGCCTGCTGTCTGACCGCGATTACACCTGGAACGACAACGGCGAACTC -ATCCGCATCAGCAGCCCGCGCCAGACCCGGAGTTACAGCTACAGCACCACCGGCAGGCTGACCGGCGTTCACACC -ACCGCAGCGAATCTGGATATCCGCATCCCGTATACCACAGACCCGGCAGGTAACCGCCTGCCCGACCCGGAGCTG -CACCCGGACAGCGCCCTCAGCATGTGGCCGGATAACCGTATCGCCCGTGACGCGCACTATCTTTACCGGTATGAC -CGTCACGGCAGGCTGACAGAGAAAACCGACCTCATCCCGGAAGGGGTTATCCGCACGGATGATGAGCGCACCCAC -CGGTACCATTACGACAGTCAGCACCGGCTGGTGCACTACACGCGGACACAATATGCAGAGCCGCTGGTCGAAAGT -CGCTATCTTTACGACCCGCTGGGCCGCAGGGTGGCAAAACGGGTATGGCGGCGTGAACGGGACCTGACGGGCTGG -ATGTCGCTGTCACGGAAACCGCAAGTGACCTGGTACGGCTGGGACGGCGACCGCCTGACCACGATACAGAACGAC -AGAACCCGCATCCAGACGATTTATCAGCCGGGGAGCTTCACGCCACTCATCAGGGTTGAAACCGCCACCGGTGAG -CTGGCGAAAACGCAGCGCCGCAGCCTGGCGGATACCCTTCAGCAGTCCGGTGGCGAAGACGGTGGCAGTGTGGTG -TTCCCGCCGGTGCTGGTGCAGATGCTCGACCGGCTGGAAAGTGAAATCCTGGCTGACCGGGTGAGTGAGGAAAGC -CGCCGCTGGCTGGCATCGTGCGGCCTGACGGTGGCGCAGATGCAAAGCCAGATGGACCCGGTATACACGCCGGCG -CGAAAAATTCACCTGTACCACTGCGACCATCGCGGCCTGCCGCTGGCCCTTATCAGCACGGAAGGGACAACAGCG -TGGTACGCAGAATACGATGAATGGGGTAACCTGCTGAATGAAGAGAACCCGCATCAGCTGCAGCAGCTTATCCGC -CTGCCGGGGCAGCAGTATGATGAGGAGTCCGGCCTGTATTACAACCGCCACCGCTATTATGACCCGCTGCAGGGG -CGATATATCACTCAGGATCCGATTGGGCTGAAAGGGGGATGGAATTTTTATCAGTATCCGTTGAATCCGATCTCA -AATATAGATCCATTAGGATTAGAAACACTAAAATGCATTAAGCCACTGCATTCAATGGGCGGAACTGGTGAAAGA -AGCGGTCCAGATATATGGGGGAATCCGTTCTATCATCAATATCTTTGTGTCCCAGATGGTAAAGGGGACTATACT -TGTGGTGGCCAAGACCAACGGGGAGAATCAAAAGGAGATGGTCTATGGGGGCCAGGTAAAGCAAGTAATGATACA -AAAGAAGCTGCTGGCCGTTGTGACCTCGTTGAAACCGATAATAGTTGTGTGGAGAACTGTTTAAAAGGGAAGTTT -AAAGAGGTAAGGCCGCGTTATTCTGTATTGCCTGATATATTCACACCTATAAATTTAGGGCTATTTAAAAACTGC -CAAGACTGGTCTAATGATTCTTTAGAAACATGTAAGATGAAGTGCTCCGGAAATAACATTGGACGTTTTATTAGA -TTTGTATTCACCGGAGTGATGTAATGAAATATATTATTTTTTTATTCAGAGCTATATGGCTGGCTTTATCGCTTT -TAATACTATTCTTTTCCATGCATAGACTTTCACTATTAGACTCCACTCGTGATGTGAGCGAGTTAATTAGTCTCA -TGTCTTATGGAATGATGGTAATATGTTTTCCAACAGGCATAGTATTCTTTATTGCTCTAATATTTATAGGGACTG -TATCAGACATTATTGGCGTAAGGATTGATAGTAAGTATATTATGGCGATAATAATATGGCTTTATTTTCTGTCAG -GAGGGTATATTCAATGGTTTGTATTAAGTAAGCGCATTATAAACAAATAAATTAAGTTAATTGCTCTTATTATTA -TATGTAACCTGGGCATTGATATCCCGTATGCCACAGACCCGGCAGGTAACCGCCTGCCCGACCCGGAGCTGCACC -CGGACAGCACCCTCAGCATGTGGCCGGATAACCGTATCGCCCGTGACGCGCACTATCTTTACCGGTATGACCGTC -ACGGCAGGCTGACGGAGAAAACCGACCTCATCCCGGAAGGGGTTATCCGCACGGATGATGAGCGCACCCACCGGT -ACCATTACGACAGTCAGCACCGGCTGGTGCACTACACGCGGACACAATATGCAGAGCCGCTGGTCGAAAGCCGCT -ATCTTTACGACCCGCTGGGCCGCAGGGTGGCAAAACGGGTGTGGCGACGTGAACGGGACCTGACGGGCTGGATGT -CGCTGTCACGGAAACCGCAAGTGACCTGGTACGGCTGGGACGGCGACCGCCTGACCACGATACAGAACGACAGAA -CCCGCATCCAGACGATTTATCAGCCGGGGAGCTTCACGCCACTCATCAGGGTTGAAACCGCCACCGGTGAGCTGG -CGAAAACGCAGCGCCGCAGCCTGGCGGATACCCTTCAGCAGTCCGGCGGCGAAGACGGTGGCAGTGTGGTGTTCC -CGCCGGTGCTGGTGCAGATGCTCGACCGGCTGGAAAGTGAAATCCTGGCTGACCGGGTGAGTGAGGAAAGCCGCC -GCTGGCTGGCATCGTGCGGCCTGACGGTGGAGCAGATGCAAAACCAGATGGACCCGGTGTACACGCCGGCGCGAA -AAATCCACCTGTACCACTGCGACCATCGCGGCCTGCCGCTGGCGCTTGTCAGCACGGAAGGGGCAACAGAATGGT -GCGCAGAATACGATGAATGGGGCAACCTGCTGAATGAAGAGAACCCGCATCAGCTGCAGCAGCTTATCCGCCTGC -CGGGGCAGCAGTATGATGAGGAGTCCGGCCTGTATTACAACCGCCACCGCTATTATGACCCGCTGCAGGGGAGGT -ATATCACTCAGGATCCGATTGGGCTGAAGGGGGGATGGAATTTTTATCAGTATCCGCTGAATCCGGTTCAGTATA -TAGATTCAATGGGACTGGCATCAAAATATGGACACTTAAATAATGGCGGATATGGAGCGAGACCCAACAAACCGC -CTACGCCCGATCCAAGTAAATTGCCGGACATAGCGAAACAATTAAGACTGCCATATCCTATTGACCAGGCCAGTA -GTGCGCCTAATGTTTTCAAAACATTCTTCAGAGCATTAAGCCCTTACGACTACACACTGTATTGCAGGAAGTGGG -TAAAACCAAATCTGACTTGTACGCCACAGGATGATTCCCAGTATCCAGGGATGGATACAAAGACAGCAAGTGATT -ACCTGCCACAGACAAATTGGCCAACAACTCAATTACCACCAGGATATACTTGTGCAGAACCCTATTTATTCCCAG -ACATTAATAAACCCGATGGGCCAGCAACAGCAGGGATAGATGATTTGGGTGAAATTTTAGCTAAGATGAAACAGA -GAACATCGAGAGGAATAAGAAAATGAAAAGAGTTTTGTTCTTTTTGCTGATGATATTTGTTAGTTTTGGTGTTAT -AGCTGATTGCGAAATACAAGCTAAAGATCATGATTGTTTTACTATTTTCGCTAAGGGTACTATTTTTTCCGCGTT -TCCTGTCTTAAATAATAAAGCCATGTGGAGATGGTATCAGAATGAGGACATCGGTGAGTATTATTGGCAAACAGA -ACTGGGTACATGTAAAAATAATAAATTCACACCAAGCGGGGCGAGACTCTTAATTCGCGTCGGGTCACTACGCCT -TAATGAAAATCATGCCATCAAAGGAACGTTGCAGGAGTTGATAAATACAGCAGAAAAAACGGCGTTTCTCGGCGA -TCGGTTTAGAAGTTATATAAGAGCGGGTATCTATCAAAAAAAGAGCAGTGATCCAGTTCAGTTGTTGGCAGTCCT -TGATAATTCAATCATGGTAAAATATTTTAAAGATGAGAAACCAACTTATGCTCGAATGACAGCACATCTCCCGAA -CAAAAATGAGTCTTACGAATGTTTAATAAAGATACAGCATGAACTAATTCGTAGTGAAGAGAAATAAAATCTCTT -CCTGAGAAAACAAATTAATCATTGTGAAAAATTATATAACTCATGGAATAGGTGTTTATTTTGCGTTCCATTTGC -AGGGAAAGATCACGTAACGCTACTTTTTTGTACTAAATAATTCGAATTTTAAGTTCAACAATTGAGATACTACTT -ATTGTCTAAAGCTGTTTTTCATAGCTTATACATGATCAAATACTCCTTACATAAATAAGGTGAACAAATGGAACT -TAAAAAATTGATGGAACATATTTCTATTACACCCGATTACAGACAAGCCTGGAAAGTGGTGCATAAATTGTCAGA -TATTCTACTGTTGACTATTTGTGCCGTTATTTCTGGTGCAGAAGGTTGGGAAGATATAGAGGATTTCGGGGAAAC -ACATCTCGATTTTTTGAAGCAATATGGTGATTTTGAAAATGGTATTCCTGTTCACGATACCATTGCCAGAGTTGT -ATCCCAGGGAAAGATCACGTAACGCTACTTTTTTGTACTAAATAATTCGCATTTTATGTTTAAAAATTGAGATAT -TCCTTATTACCTAAAGCTGTTTTTCATAGCTTATACATGATCAAATACTCCTTACATAAATAAGGTGAACAAATG -GAACTTAAAAAATTGATGGAACATATTTCTATTATTCCCGATTACAGATAAGCCTGGAAAGTAGAGCATAAATTG -TCAGGCATCCTACTATTGACTATTTTTGCCGTTATTTCTGGTGCAGAAAGTTGGGAAGATATAGAGGATTTCGGG -GAAACACATCTCGATTTCTTGAAGCAATATGGTGATTTTGAAAATGGTATTCCTGTTCACGATACTATTGCCAGA -GTTGTATCCTGTATCAGTCCTGCAAAATTTCACGAGTGCTTTATTAACTGGATGCGTGATTGCCATTCATCAAAT -GATAAAGACGTCATTGCAATTGATGGAAAAACGCTCCGGCACTCTTATGACAAGAGTCGCCGCAGGGGAGCGATT -CATGTCATTAGTGCGTTCTCAACAATGCACAGTCTGGTCATCGGGCAGATCAAGACGGATAAGAAATCCAATGAG -ATCACAGCTATCCCTGAACTTCTTAACATGCTGGATATTAAAGGAAAAATCATCACAACTGATGCGATGGGTTGC -CAGAAAGATATTGCAGAGAAGATACAAAAACAGGGAGGTGATTATTTATTCGCTGTAAAAGGAAACCAGGGGCGG -CTTAATAAAGCCTTTGAGGAAAAATTTCCGCTGAAAGAATTAAATAATCCAGAGCATGACAGTTACGCAATGAGT -GAAAAGAGTCACGGCAGAGAAGAAATCCGTCTTCATATTGTTTGCGATGTCCCTGATGAACTTATTGATTTCACG -TTTGAATGGAAAGGACTGAAGAAATTATGCGTGGCAGTCTCCTTTCGGTCAATAATAGCAGAACAAAAGAAAGAG -CCAGAAATGACGGTCAGATATTATATCAGTTCTGCTGATTTAACCGCAGAAAAGTTCGCCACAGCAATCCGAAAC -CACTGGCACGTGGAGAATAAGCTGCACTGGCGTCTGGACGTGGTAATGAATGAAGACGACTGCAAAATAAGAAGA -GGAAACGCCGCAGAATTATTTTCAGGGATACGGCACATCGCTATTAATATTTTAACGAATGATAAGGTATTCAAG -GCAGGGTTAAGACGTAAGATGCGAAAAGCAGCCATGGATAGAAACTATCTCGCGTCAGTCCTTGCGGGGAGCGGG -CTTTCGTAATCTTTCCCTGCTTTTTGTACTAAATAATTCGCATTTTATGTTTAAAAATTGAGATATTCCTTATTA -CCTGAAGCTGTTTTTTATTGCTTATACATGATCAAATACTTCTTACATAATTAAGGAGAACAAAATGGAACTTAA -AAAATTGATGGAACATATTTCTATTATCCCCGATTACAGACAAGCCTGGAAAGTGGAACATAAATTATCGGATAT -TCTACTGTTGACTATTTGTGCCGTTATTTCTGGTGCAGAAGGCTGGGAAGATATAGAGGATTTTGGGGAAACACA -TCCCGATTTTTTGAAGCAATATGGTGATTTTGAAAATGGTATTCCTGTTCACGATACCATTGCCAGAGTTGTATC -CTGTATCTGTCCTGCGAAATTTCATGAGAGCTTTATTAACTGGATGCTTGACTACCATTCTTCAGATGATAAAGA -CGTCATCGCAATTGATGGAAAAATACACCGGCATTCTTATGACAAGAGTCGCCGTAAGGGAGCGATTCATGTCAT -TAGTGCGTTCTCAACAATGCACAGTCTGGTCATCGGACAGATCAAGACGGATAAGAAATCCAATGAGATCACAGC -TATCCCTGAACTTCTTAACATGCTGGATATTAAAGGAAAAATCATCAAAACCGATGCGATGGGTTGCCAGAAAGA -TATTGCAGAGAAGATACAAAAACAGGGAGGTGATTATTTATTCGCTGTAAAAGGAAACCAGGGGCGGCTAAATAA -AGCCTTCGAGGAAAAATTTCCGCTGAAAGAATTAAATAATCCCAAGCATGACAGTTACGCAATTAGTGAAAAGAG -TCACGGCAGAGAAGAAACCCGTCTTCATATTGTTTGCGATGTCCCTGATGAGCTTATTGATTTCACGTTTGAATA -GAAAGGGCAGCTATGGTTAGAAACTACCTGACGTCAGTCCTTGCGGGGAGCAGGCTTTCGTAAATTTGTCCTGCT -ACAACAGGATTAACTTCACAAATATCATTTCTCAACGTCTACACTTACTCCTGTAAACCGCTCAGGAGCAGTAAT -GAATCTACAACGATTTGATGACAGCACCCTAATCCGTATCTTTGCCCTTCATGAGTTACATCGACTGAAAGAACA -TGGCTTAACGCGCGGGGCGCTTCTCGATTATCACAGCCGCTATAAACTCGTCTTTCTGGCGCATTCTCAGCCGGA -GTACCGCAAACTTGGCCCGTTCGTGGCTGATATTCACCAGTGGCAAAATCTGGATGACTATTACAACCAGTACCG -CCAACGCGTAGTTGTTTTGCTTTCTCACCCCGCCAACCCGCGCGATCACACCAATGTTTTGATGCACGTTCAGGG -TTATTTTCGCCCGCATATTGATTCCACAGAACGCCAGCAGCTGGCTGCGCTTATCGACAGTTATCGCCGTGGCGA -GCAACCACTTCTTGCGCCGCTGATGCGTATCAAACACTATATGGCGCTTTATCCTGACGCCTGGCTTTCAGGGCA -GCGTTATTTCGAACTTTGGCCGCGTGTGATTAACTTGCGCCATTCAGGAGTTTTATGACTACCCATCTGGTCTGG -TTTCGCCAGGATTTACGTCTGCACGATAATCTCGCACTGGCTGCCGCCTGCCGCAATTCGTCTGCACGCGTGCTG -GCGTTGTATATCGCTACACCACGCCAGTGGGCGACGCATAACATGTCGCCGCGTCAGGCTGAACTTATCAATGCT -CAACTGAATGGGCTACAAATAGCGCTTGCGGAAAAAGGTATTCCTTTATTGTTCCGTGAAGTGGATGACTTTGTC -GCCAGTGTCGAAATAGTTAAACAGGTGTGCGCGGAAAACAGCGTTACCCACCTGTTTTATAACTATCAGTATGAA -GTGAATGAGCGGGCGCGGGATGTGGAAGTTGAAAGAGCGCTGCGTAACGTGGTGTGTGAAGGATTTGATGACAGC -GTGATCCTGCCGCCTGGCGCGGTGATGACCGGTAATCACGAGATGTACAAAGTCTTTACGCCTTTTAAGAATGCC -TGGCTGAAACGGCTGCGGGAAGGGATGCCGGAGTGCGTCGCTGCGCCAAAAGTTCGTAGTAGCGGATCGATAGAG -CCCTCGCCATCCATTACGCTGAATTATCCTCGTCAGTCTTTCGATACTGCGCATTTTCCGGTGGAAGAAAAAGCG -GCGATTGCGCAATTACGCCAGTTTTGCCAGAACGGTGCCGGAGAATATGAGCAACAACGAGATTTTCCGGCAGTG -GAAGGCACCAGCCGTTTGTCGGCCAGCCTGGCAACGGGCGGGTTATCGCCTCGCCAGTGCTTGCATCGCTTGTTG -GCTGAACAGCCGCAGGCGCTGGACGGTGGGGCCGGTAGTGTCTGGCTTAATGAGCTGATCTGGCGCGAGTTTTAC -CGTCACCTGATAACGTATCACCCCTCGTTGTGTAAACATCGTCCATTTATTGCCTGGACGGATCGTGTACAGTGG -CAGAGCAATCCCGCACATTTACAGGCCTGGCAGGAAGGCAAAACGGGATACCCGATTGTTGATGCCGCTATGCGT -CAGCTTAACAGCACTGGCTGGATGCATAACAGGCTACGGATGATTACAGCCAGTTTTCTGGTGAAAGATTTATTG -ATCGACTGGCGCGAAGGCGAGCGATATTTCATGTCGCAGCTGATTGATGGTGATTTGGCAGCCAATAACGGTGGC -TGGCAGTGGGCCGCTTCAACCGGAACCGATGCAGCGCCGTATTTTCGTATTTTCAACCCGACAACCCAGGGCGAG -AAATTTGATCATGAGGGCGAGTTTATCCGCCAGTGGCTACCGGAACTGCGCGATGTGCCAGGGAAAGTGGTGCAT -GAGCCGTGGAAGTGGGCGCAGAAAGCAGGTGTGACGCTGGATTATCCGCAACCGATAGTCGAGCACAAAGAAGCG -AGAGTACAAACGTTGGCAGCGTATGAGGCGGCGCGGAAGGGGAAATAACAGACGCGTCAGGCAATCGAGCCCAGA -TGCCGGATGCGGCGTGAACGCCTTATCCAGCCTACAAATTTGTGCAAATTCAATAAATTGCAGGAAATACGTAGG -CCTGATAAGACGCGTCAAGCGTCGCATCAGGCATCGGTGCTGGCCTATTAAGACTCCAGCGCCAGCGCGCGGTTT -CTGAATTTCAGCGCCTGATACAGCCAAATCATCAGTACCAGTCCTACACACGCCAGTGCGCCCCAGGTAATTTGA -TCAAATACTTCAATATATGCATTGATGGAGTAGTTGATCGCCCCGGAAGCATCAAACGAAGCCTGCGATGTCTGA -TCGGCAATCACGCCCGCCAGATAGTTCGCGATCGCGCCAGAAAGCAGCATGTAGATGCCGGTTAATACGCCGGTC -ACACCGGGGATTTCAATGCGCGTAATTTGCGACATGGCAACCGGGTCGATAAACAGTTCCGCAAAGCCCATCACC -GCCAGGCCTAATACCATCAGTGGCAGAGAAGAGTGACCATACATTGCGGACCAGCGGGCGCTTAAGGTCAGAATG -CAGAATCCGGCGCTCATCAGGCCAAGGCCAAGAGCAAATTTCCCCCAGATGCGCACGGTACGATTACCCGCGACA -CTCTCTTTTACCACCCACGCCAGGAACACACCGCACAGCATAACTGCGAAGGCATTAATCGACTGGAACATCGCG -GTCGGAACGGTATAACCAAACATATCGCGGTTAACGAAGCGGTCGATATAAAGGCTAATCGAGCTACCGCCCTGT -TGTGCGAAGGCCCAGAACAACATACTGAAGAAGGTGAGCGTCACAATCAGCCCCAGCTCCTTCCGCTGTTTCTGG -TTTTCTGCTTTGCGATAAATTTTTGCCAGTACACCCAGGCCAATAATAGTCGCGACAATTAAGGCGTATACCGAC -CACTCTTTCCAGAACAGTATGGTAATCAGTGCAGGCGTTGCCACCAGCAGAACCAGCAGCCATCCCCAGTTCGGC -AGGAGAAAGTTTGTCGCACGCAGTACTTTTTTGTTAACGCCGCGGGTATGAGTGAAATGACGATTGCCACATAAG -AAAATGACCAGACCCGCGATCATGCCAACCGCCGCCAGGCCAAAGCCCATCGCCCAGCTGTACTCTTCCTGGGCG -TAACCACAGGCGATAGGTGCGATAATAGACCCCACGTTACCCGCCGCATACATCAGCGAGAAACCGCCATCACGA -CGCGGATCGGTTGGCTCATACAGCTCGCCGAGCAGACAGCTTACGTTAGATTTAAACAGGCCATAGCCGCAGACG -ATAATCGCCAGGGACAGATAGAGGAATGACGGATGGATCTCACTGGCACCCAGCACCACATGACCGATCGCCATC -AACAACGCCCCCAGCATCACCGCCATGCGATTGCCGAGAACTTTATCCGCCAAAAAGCCACCGAGGATTGGCGTG -ACATACACCAGCGAACAGTAGGCGCTAAATAACTCGTAGGCGTGAGTATCGTTGTATTTTAGTTGATTGGTGAGA -TAGAGAATCAGCAGGGCACGCATGCCGTAAAAGCTAAAATATTCCCAGATTTGCAGCGCAACGACATAGTAAATA -GCGCGCGGCTGTGATGCGTGTTTATTCATAATAATTCCACAATTGACGGCAACGTCACGTAATAGTTGCGCGGCG -TGCTTGTGTTTCCTTAAAGTTAAAACTTTGATACAGATCTGATTATTTATGCAATATGCTGTCTGATTGCATAAA -TATACATTAGCTGAAGCGTGATGATATAAACAATTTGCGTCTTTTGGCGTCGGGTTTGTTTCTTAATATGTCAAA -AGATTGGCTATCGACGAACTGGCGAGGTAACGCTATGTTAACGGTGTAGCTATCAGAATACGGAAGGCGCGAAGA -TGAAAAACACCGAACTGGAACAACTGATTAACGAAAAACTGAACAGCGCGGCGATTAGTGATTACGCGCCGAATG -GTTTGCAGGTGGAAGGCAAAGAGACGGTGCAAAAAATTGTTACCGGTGTCACCGCCAGCCAGGCTTTGCTCGATG -AGGCAGTGCGTCTGGGCGCGGATGCGGTCATTGTGCATCATGGCTACTTCTGGAAAGGAGAGTCTCCGGTCATTC -GCGGAATGAAGCGTAACCGTTTAAAAACGTTGCTGGCGAATGATATCAACCTGTATGGCTGGCATTTGCCGCTTG -ACGCACATCCTGAGCTGGGCAATAACGCACAGCTGGCGGCGTTACTGGGGATCACGGTCATGGGCGAAATTGAGC -CGTTGGTGCCGTGGGGCGAACTGACCATGCCTGTGCCGGGACTGGAGCTGGCTTCCTGGATTGAAGCGCGTCTGG -GACGTAAGCCGTTATGGTGTGGCGATACCGGACCTGAGGTGGTCCAGCGCGTCGCCTGGTGCACGGGCGGCGGGC -AAAGTTTTATCGATAGCGCCGCGCGTTTTGGCGTGGATGCTTTTATTACTGGCGAAGTTTCTGAACAGACCATTC -ATTCAGCCCGCGAGCAGGGATTGCATTTTTATGCTGCAGGTCACCATGCCACTGAACGTGGTGGTATTCGCGCAT -TGAGCGAGTGGCTGAATGAAAATACCGATCTTGATGTGACCTTTATTGATATTCCTAATCCTGCATAACGAATAA -TCAGAGGGATCGAAAGTGCAACGAGCGCGTTGTTATCTGATAGGTGAAACGGCGGTAGTGCTGGAACTGGAACCG -CCGGTGACGCTGGCTAGCCAGAAACGGATCTGGCGACTGGCGCAGCGTCTGGTGGATATGCCGAATGTGGTTGAA -GCCATTCCCGGCATGAACAATATCACGGTGATTTTGCGTAATCCTGAGTCGCTGGCGCTGGATGCCATAGAGCGT -TTGCAACGCTGGTGGGAGGAGAGCGAGGCGCTGGAGCCGGAGTCTCGCTTTATTGAAATTCCGGTGGTTTACGGT -GGTGCAGGCGGACCGGATTTGGCGGTGGTCGCGGCGCATTGCGGGTTGAGCGAAAAACAGGTTGTTGAATTGCAC -TCCTCCGTGGAATACGTGGTCTGGTTTTTAGGTTTTCAACCGGGCTTCCCGTATCTCGGGAGTTTGCCGGAACAA -CTACACACGCCACGGCGCGCTGAACCGCGCTTACTCGTTCCGGCAGGTTCTGTCGGGATCGGCGGGCCGCAGACT -GGTGTTTATCCGCTGGCAACGCCGGGTGGCTGGCAGTTGATTGGTCATACCTCACTCAGCCTGTTTGATCCGGCG -CGTGACGAACCCATCTTATTACGTCCGGGAGACAGCGTGCGCTTTGTACCGCAGAAGGAGGGAGTATGCTGAAGA -TTATTCGTGCGGGCATGTATACCACTGTGCAGGATGGCGGTCGTCACGGTTTTCGCCAGTCGGGTATCAGCCACT -GCGGCGCACTGGATATGCCCGCGTTACGCATTGCTAACCTACTGGTGGGTAATGACGCCAATGCCCCCGCGCTGG -AGATCACGCTCGGTCAGTTAACTGTTGAGTTCGAAACTGATGGGTGGTTTGCTCTGACGGGTGCCGGTTGCGAAG -CGCGGCTGGATGATAATGCCGTCTGGACCGGCTGGCGATTGCCGATGAAAGCAGGCCAGCGTTTAACGCTTAAAC -GCCCGCAGCACGGGATGCGCAGTTATCTGGCGGTCGCGGGTGGTATTGATGTTCCGCCGGTAATGGGCTCATGCA -GCACCGATCTCAAAGTGGGGATTGGCGGGCTGGAAGGCCGTTTACTGAAGGATGGTGACCGACTCCCGATTGGCA -AATCGAAGCGTGATTCTATGGAAGCGCAGGGCGTTAAACAGCTGCTGTGGGGCAACCGCATTCGCGCCTTGCCGG -GGCCGGAATATCATGAGTTCGATCGCGCCTCGCAGGATGCATTCTGGCGTTCGCCCTGGCAGCTTAGCTCGCAAA -GTAACCGCATGGGCTATCGCTTACAGGGGCAAATTTTAAAACGCACCACCGATCGCGAACTGTTATCTCACGGTT -TGTTACCGGGCGTGGTGCAGGTGCCACATAACGGGCAGCCGATTGTGTTGATGAACGACGCACAGACCACCGGTG -GTTACCCGCGTATTGCCTGTATCATTGAGGCTGATATGTACCATCTGGCGCAAATTCCGCTCGGTCAGCCGATTC -ATTTTGTCCAGTGTTCACTGGAAGAGGCACTAAAAGCACGGCAAGATCAGCAACGTTATTTTGAACAATTAGCGT -GGCGGCTGCACAATGAAAATTGACCTGAACGCCGATCTGGGCGAAGGCTGCGCCAGCGACGCAGAGCTATTAACG -CTGGTTTCCTCTGCCAATATTGCCTGTGGATTTCATGCAGGCGATGCGCAAATCATGCAGGCTTGCGTGCGTGAA -GCAATAAAAAATGGTGTCGCGATTGGCGCTCACCCGAGTTTTCCCGACAGGGAAAATTTTGGTCGCAGCGCCATG -CAGCTGCCGCCAGAAACCGTTTACGCCCAGACGCTGTATCAAATTGGCGCGCTGGCAACGATTGCCCGTGCGCAA -GGCGGCGTAATGCGTCATGTCAAACCGCACGGCATGTTGTACAACCAGGCGGCGAAAGAAGCACAACTGGCAGAC -GCCATCGCCAGAGCGGTATACGCTTGCGATCCAGCATTGATTCTCGTCGGGCTGGCGGGAAGCGAGCTGATTCGT -GCAGGCAAGCAATATGGTCTGACAACGCGCGAGGAAGTGTTTGCCGATCGCGGTTATCAGGCTGACGGCTCGCTG -GTGCCGCGAAGCCAGTCAGGCGCGTTGATTGAAAACGAAGAACAGGCGCTGGCGCAAACGCTGGAGATGGTGCAA -CACGGCAGAGTCAAAAGTATCACCGGCGAATGGGCAACGGTCGCGGCGCAAACGGTCTGCCTGCATGGCGACGGC -GAGCACGCACTGGCGTTCGCCCGCCGACTACGCTCTGCATTTGCCGAAAAGGGGATTGTTGTCGCAGCATAACCC -CGATTAATAAAGAATGAAAAAAGGATATCACCATGCCTGAAGGCCCGGAGATCCGCCGTGCAGCGGATAACCTGG -AGGCGGCGATCAAAGGCAAACCACTAACTGATGTCTGGTTTGCCTTCCCGCAGTTAAAACCTTATCAATCACAAC -TTATCGGTCAACACGTTACCCATGTGGAAACGCGTGGTAAGGCGTTGTTAACTCATTTTTCCAACGACTTAACGC -TCTACAGCCATAATCAGCTTTACGGCGTCTGGCGCGTGGTTGATACCGGCGAAGAGCCGCAGACCACGCGAGTAT -TGCGGGTAAAACTGCAAACGGCTGACAAAACCATTCTGCTTTATAGCGCCTCGGATATTGAGATGTTGACCCCGG -AACAACTGACCACGCATCCGTTTTTACAACGCGTTGGTCCCGATGTGCTGGATCCGAATCTGACGCCGGAGGTGG -TGAAAGAACGATTATTGTCGCCGCGCTTTCGTAACCGTCAGTTTGCTGGATTACTGCTCGATCAGGCGTTTCTGG -CTGGGCTTGGCAATTATTTGCGGGTGGAGATCCTCTGGCAGGTTGGGTTGACTGGAAATCATAAAGCGAAAGATC -TCAATGCGGCGCAACTGGATGCACTCGCACACGCGTTACTGGAGATTCCTCGATTTTCCTACGCTACGCGGGGGC -AGGTGGATGAGAATAAGCATCATGGGGCGCTGTTTCGCTTTAAGGTTTTTCATCGAGATGGCGAACCGTGCGAAC -GTTGTGGCAGCATCATTGAGAAAACCACGCTGTCATCTCGCCCGTTTTACTGGTGCCCTGGCTGCCAGCACTAGG -CCGACCGCTTCGGCGCATAGGTTGAAATAAACCGCGCAATGGCAGGCCCTGTCAGCAAAATACTGAACAGGCGTA -GGGTTTGCATCGCCATAATGAGCGCCATATCGGCATTGCTCCCTGCGGCGATGACCGCCACGGTATCAAGCCCGC -CGGGGCTGGTGGCGAGGTAGGCAGTCATAAAATCAATGTGCATAAACCGGGTCAGCCCCCACGCCATACCCGCAC -AAATAGCCAGCAGAGCAAAAATCGACAGCAGGATTTGCGGTAGCGGGCGTAGTGCCCGCAGTAAGATTTGTTTAT -CGAAACCAAGACCAATCCGCCAGCCAATTGCCATATACGCCATCGCCAGCAGCCATTCCGGTAGTTCGATGGTGA -TGAGCTGACCAGACTGGAGCACTGCGCCCGCCAGCATCGGGATGAGCATCGTGCCGGAAGGAAGACGCAGCAGGC -ATCCCACTGTACCGGCAACGACCGCGAGCAAAATAGTAAGCAGGAGATTAATGCTCACTGGCGGGAACCAGACGA -TATGCTGGTTAACCGCTTCAGCGTTATCGCCCAGCATCATGCGGGTGACCAGAACAGCGGCCCCCGCGACGAACA -GCACTCGCAGATATTGCATAAACGCCACCAGGCGAATATCTGCGCCGTAATCTTGCGCCATAGCGACCATTGCCG -CCGCGCCGCCAGGAGAGGAGCCCCAGGCACCGGTATTTCCAGGCAATGAGCTATAGCGCACCAATAACCAACCCA -CAATGGCGCTGGAAAGCAGCGTTACCAGTAAAATTGCAAGCACGATCGGCCAGTTGACGGCCAGGGTGGTGAGAA -TCGAACCAGTGAGGTTTTGCGCAATCATGCAGCCAAGAATGGCCTGGGCGGCGAGAAAAGCAGAGCGGGGAAGTT -GCAGAGTAATTCCGCGCATACTAAAGATGATCCCGGCGATCATCGGCCCAAGTAATAGCGCCGCCGGGAGATGTA -CCGCGAGGAAACCAATAGAAAGGAGAAGTGATAGCACACATAACATTCCCCACTGCAAAACTGGCATCCTTCGCT -CCCTCATTATTTTCTCTTTGGTGTATCGATACAGCATAAAGAAAGCTGGGCCAGGAAAAAATAACAGCAATCAAG -GAAAAGGGGAAAATCAGCAATTTTCTGAAAGAGATGCCCTTTCCGGCGGCAAAGGGCATCATGGTAAATCAGTTA -TAGTTAATCTTAAAAAGCACCACTGTATCGAAGGGGCCAGCCTCGATGGGGGTGCCTGGAATGGACGAAAGTTCA -GCCGTATAGGTTTTTTCGTAGACCAACATGTCACTGGTGAAATCGGCGTATTCAGCATATTTATTGAAGGTATAA -GGCGAGGCGTTTTCATCCAGTAAACGTAGCTTCAGACCATTACCAATCAACAATGCTTTATCTTCTTCAACCAAC -GTTTCTTCGGTATAAAAGGAGGAACTGACTTTAAATCCGTCGGTGCATTGATCGTTTTGGCTCTTGGTCGTTTTA -ATACTGAACGTTTTCGACATTGTGTGGCGACGTATATCCAGCAAATTAAATTTACCAAAATCAATCACCTGTGTT -TCCGGTGAAATGGAAAAATTGACGCTGCAATCCAGCACGCGAATGTTTTCCAGACCAGTAATATGATATTTCAGG -TTTTGGGCAGTAGGGTCTTCGTTAACGCTACCGGCACCGTCAAATTGCACGACGATATAGTCGCTAAGCGTACTT -TGATAATCATGCGGCGGCATTTCTCGTATTTTGACGTATAACCGCATGCGAGCGAGAAAGGTACGCGACATATGA -ATATTAGCGGGATCGCCCGAGCAAATTTTGTTCTGCCATCCCATCGCGATGATCTGCTCAGGGGTATAAATATCA -ATGTTCTTACTGTCGATACACTGGTTAGTGTCGATGCGACTTTTTCCCAGACTGGCATCGTAATCGACACCGTTG -TATGTCACGCCGAGTTGATAATAACGATCCTGCACCCCCGGATAGGGGTTTACCCAGGCGTAGACATGCTCGCTT -TCAAAGTTGCCGTTGGTATTGTTGTCACAATAGACGGGAATTTTAATATCGTCAGATTCCCAGATCTTATCACCG -GGTTTGGCATTGCCTGGTACAGCAAACGGTTGAATCGCTTCTGATTTTTCTACTGCGCCACCAGATGTACCAAAA -TAGCAGTTCAGCGCCATTGCAGACTTCAACGGCAGAAATAACAGGCAGATGACGAGCAACAATCCCTTGCCAGCA -CTCATTTCGCCTCCACTGCTTGTAAACGGCATTGTCCGCTGCAGTTGAGCGTCGTCATGCGTAATGCGCCGTAAT -CATCCATGTAACCGAGATAAAACTGGCTGCCGCTATAACTTCCGGTGTTTGTGTTGACCGTACTAAAAGGTGCAA -CCATCACGGTTTTGAAGCCTGGGAGAACGCCTTTTTCATTTCTCCCCAGATAGGCAATGGTCAGATAATACGCGG -TAGGATTTTTCAGTGTCAGTTGGTTGCCCTGCTGGCTGACCTGTAACTGCAGTTCGACCTTTTCTCCTGCTTTCT -TGCGTAATGCAGCCGGTCGCCAGAACAATTTAATACGACTTTGAATAGCGACCTGAAGTATCGCATGGTCGCTGC -TTTTATCCGGAGCGGGAGGAATTTCGCGCATATTGTAGAAAAATAGCGTTTCGCGATCGCCAGGTAATTGTGTGG -TTGAGGCTTGTTTCACAACCCGCACCTGCGATGTCGCTTTCGGTTCCAGACGTTGAATAGGGGGCAAAGCGACCA -GAAGAGCATCGCTTTTCTCCCCTTTTTCATTTTCTATCCAGGAATAAGCAAGATAAGGCAGTTTGTCACTTTGGT -TTTCGATACGCAGGCTGGTGGCTTTGTCATTGGCGTTAAACACAATGCGTGTGCGATCGGGTTGCACCGCAGCAT -TGCAACCCAAGCTGATGGTTAACAACATTAAGGGTAATCCTTTAATAAATGTCATTCTCTTTTCCTTAATTAATG -ACAAGGTAAAATCAGGCGTTTGGTCGTGTCTTCCAGACGTTCTGGCAGATGAATAATGCAGCTTTGCTCACCCCA -GACCACGGTAAACAGTTGATTTTCAGCGACACCGCTTAACCAGGCATGTCCTTCCTCGCCAACCATACCCACGCT -AATGCCGCTGTCATCCTGGCGGATATCCGCACCGAGGGGAGGGAACTGACCGCTGGCGTTGCGTATGATGACGTT -AACGTCTTTACCGGAACGGGAAGCCAGTGATTTGTAACCTATCGCGCCTTCAATCCATGTTTCCTTGATGACGTT -TTCTGCAACTGTTACGCCGTCGGGTAAGTCATTCATGTTCACCGCCACGGTGGAAGGCTGGTAACTGGAAATCAA -CGGCACCACCGCAATGCCAAAATGGTTGGTGTAGTCGAGATTGCCCTGAACCGGAATATCTGCCACGCCATCGGT -GCTGACCATCAGGCGTGGTTCATTGGTGGAGCTGCGGCGATGAAATGCTGCACCATATTGGGTTGCGGTGAAAGA -ACCGCTCCAGCTGCTGCTGACGGAACTGTAATCACTGGCGGCATAGGTACCAGAAATATCCCACTCACCCGCTGA -ACTCAGGTGCTGATAGTTACCGCTCACCTGGGCTCCATTGTCCGGACGATCGGATTGCAGTCCGGCAGACATGCC -CCAGCTATTACGTTCATCCAGCGTATCGTTCCACGACATGCGGTGTATGGTGCTGTGGCTACTGTTTTGCATGTC -ATAGCCAACCCGACCACCGTTACCGAAGGGGAGCGAAATCGACAGATAAATCTGGTTGTCGCGATCTTTATCTTC -GTAGTGGGTCGTATTGAATGACGTCGAAATCGAGATATCTCTCCAGTCACCAATATCAACATTAAAACCTGCTGT -GATGTTGGCGGTCGTGGAGGCGTCTGCATTCCACCAGGTTTGATGTAGCAGGTTGGCGTAAAGATTGAGGTTTAG -TGGGGTAATCGGTTGGCCCACGGATAAGCTGATCGTCTGTTTTTCGTCCTGCGCATCGCTGTCGTTGTATTTGTG -ATCCAGATAGTTGGCGTAGCTGTGAAAATGACGATCTGAGAAGCGATAAGCGGCGAGCGAAATCGTGCTGTTGGT -GGCATCCACTTGTTTGCTGTAATTAAAACGGTAGCTTAAGCCCCGCTCGTCCTGCTGAGTATCAAAATGGCTACT -GGCCCAGGTGACATCAAAGGACAGTGCGCCAAGCCACAGCATATTTTGCCCGATACCCATTGCGGCAGAATGGTA -GTCATCATCAGAAATCAGCAGGCCGCCGTACAGCGAGGTGTTTGAGAGCATCCCCCAGGAAACTTCATTGCTAAA -AAAGGTTTCATTTTCAGTTTGATGTGACATGGAAGGCCGTGGCTGACCCGCGGCCAATTTATAGCGAACCTGTCC -CTGGCGAGTCAGGAAGGGCGTCGATGCTGCCGAAACCTGGAAATTGTTCACCCGACCATCTTCTTCCGTCACTTT -GACATCCAGCGTGCCCTGAACAGACTGATTGAGGTCATCAATAATAAACGGGCCTGGCGGGACTTTTTTCTGGTA -AATGACGCGGCCTGATTGACTGATCGTCACCGTGGCATTGGTCTGTGCAATACCGCTAATTTGTGGGGCGTAGCC -ACGCAGCTCCCACGGTAACATTCGATCGTCACTCGCCAGTGCCGCGCCGGTATAAGAAAAACCATCGAAAATATT -GGAACTGAAATCGGTTTCGCCGAGGGTTAACTTAGAGCCTAATTGCGGTAATGGACGAAAAAGATAGGTGCGCGA -TATTCCGCCTGACTGGTCATGGTTATCTTCGCTATCGGTCTTATTAAGCTGGTAATCACTGCGTAAGCGCCATGC -CCCGGCGTTAATTCCGGCGGTACCGTAGGCATTCAGGTTAGTGCTGCTGCTGCCGTCCTGTGGGCGGTAGCTGCT -GGCAAACAAGTTGTAATCCATCAGGACACCGGCAACACCTTCTTTCCATGTAGAGGGGGGAGCCCAGTTTTCTGA -GTGCCACGCCAGCCAGGCTTGCGGAATACTAATATTCAGTTGCTGATTGGCTTGATCGAAATTGAAGAGCATTTC -AGGTCGGGAACTGAAATCAATACACCGATCTATCTGTGGCAAGGACTGACGGATATCTGGTTTTAAACCAAATTT -ATCGACCAGTGAATCATTGATGCATGGAATGGTTTTGTCACCCTTTTTTTGCCAGTTAATTTTTTGCCCATTACT -GATTTTGTTGTTATTCACCGCAACGCTAACAAAATATTCACCGGGAGCAATGACTCCTTTTTCCTTTAATAATGA -AATATCAATGCGGTCGCGCATTGATTTATCGAGAACATTCAGATTGAATTCGACCGCCATTGCGCAAGGCATCGC -CATGACCAGGCAGGATACAAAAGAGAGTCGATAAATATTCACGGTGTCCATACCTGATAAATATTTTATGAAAGG -CGGCGATGATGCCGCCAAAATAATACTTATTTATAATCCAGCACGTAGGTTGCGTTAGCGGTTACTTCACCTGCC -GTGACATCGACTGCATTATCAATTTGTTCCATCCAGGCGAAAAAGTTCAGCGTCTGTTCTGATGAGCTTGCATCC -AGGTCAAGATCTGGCGCGGCTGAACCTAATACGATGTTACCGTCATTTTTGTCCATCAGTCGTACACCGACCCCA -GTTGCTTCGCCTGCACTGGTGTTGCTCAACAAAGGCGTAGCACCAGTTGTCTTAGCCGTGCTATCGAAGGTTACG -CCAACTTTGGATACCGGCATTCCGCTACCGTTGTCAGAAGCAGGCAGATCACAGTTGATCAAGCGAATGTCGACG -GCCACTTTATTGCTATGATGCTCCCGGTTTATATGGGTTGTCGTGACTTGTCCAAGATCTATGTTTTTATCAATA -TCTTCTGGATGAATTTCACAAGGTGCTTCAATAACCTCCCCCTTAAAGTGAATTTCGCCAGAACCTTCATCAGCA -GCATAAACAGGTGCAGTGAACAGCAGAGATACGGCCAGTGCGGCCAATGTTTTTTGTCCTTTAAACATAACAGAG -TCCTTTAAGGATATAGAATAGGGGTATAGCTACGCCAGAATATCGTATTTGATTATTGCTAGTTTTTAGTTTTGC -TTAAAAATATTGTTAGTTTTATTAAATGCAAAACTAAATTATTGGTATCATGAATTTGTTGTATGATGAATAAAA -TATAGGGGGGTATAGATAGACGTCATTTTCATAGGGTTATAAATGCGACTACCATGAAGTTTTTAATTGAAAGTA -TTGGGTTGCTGATAATTTGAGCTGTTCTATTCTTTTTAAATATCTATATAGGTCTGTTAATGGATTTTATTTTTA -CAATTTTTTGTGTTTAGGCATATAAAAATCAACCCGCCATATGAACGGCGGGTTAAAATATTTACAACTTAGCAA -TCAACCATTAACGCTTGATATCGCTTTTAAAGTCGCGTTTTTCATATCCTGTATACAGCTGACGCGGACGGGCAA -TCTTCATACCGTCACTGTGCATTTCGCTCCAGTGGGCGATCCAGCCAACGGTACGTGCCATTGCGAAAATGACGG -TGAACATGGAAGACGGAATACCCATCGCTTTCAGGATGATACCAGAGTAGAAATCGACGTTCGGGTACAGTTTCT -TCTCGATAAAGTACGGGTCGTTCAGCGCGATGTTTTCCAGCTCCATAGCCACTTCCAGCAGGTCATCCTTCGTGC -CCAGCTCTTTCAGCACTTCATGGCAGGTTTCACGCATTACGGTGGCGCGCGGGTCGTAATTTTTGTACACGCGGT -GACCGAAGCCCATCAGGCGGAAAGAATCATTTTTGTCTTTCGCACGACGAACAAATTCCGGAATGTGTTTAACGG -AGCTGATTTCTTCCAGCATTTTCAGCGCCGCTTCGTTAGCACCGCCGTGCGCAGGTCCCCACAGTGAAGCAATAC -CTGCTGCGATACAGGCAAACGGGTTCGCACCCGAAGAGCCAGCGGTACGCACGGTGGAGGTAGAGGCGTTCTGTT -CATGGTCAGCGTGCAGGATCAGAATACGGTCCATAGCACGTTCCAGAATCGGATTAACTTCATACGGTTCGCACG -GCGTGGAGAACATCATATTCAGGAAGTTACCGGCGTAGGAGAGATCGTTGCGCGGGTAAACAAATGGCTGACCAA -TGGAATACTTGTAACACATCGCGGCCATGGTCGGCATTTTCGACAGCAGGCGGAACGCGGCAATTTCACGGTGAC -GAGGATTGTTAACATCCAGCGAGTCGTGATAGAACGCCGCCAGCGCGCCGGTAATACCACACATGACTGCCATTG -GATGCGAGTCGCGACGGAAAGCATGGAACAGACGGGTAATCTGCTCGTGGATCATGGTATGACGGGTCACCGTAG -TTTTAAATTCGTCATACTGTTCCTGAGTCGGTTTTTCACCATTCAGCAGGATGTAACAAACTTCCAGGTAGTTAG -AATCGGTCGCCAGCTGATCGATCGGGAAACCGCGGTGCAGCAAAATACCTTCATCACCATCAATAAAAGTAATTT -TAGATTCGCAGGATGCGGTTGAAGTGAAGCCTGGGTCAAAGGTGAACACACCTTTTGAACCGAGAGTACGGATAT -CAATAACATCTTGACCCAGCGTGCCTTTCAGCACATCCAGTTCAACAGCTGTATCCCCGTTGAGGGTGAGTTTTG -CTTTTGTATCAGCCATTTAAGGTCTCCTTAGCGCCTTATTGCGTAAGACTGCCGGAACTTAAATTTGCCTTCGCA -CATCAACCTGGCTTTACCCGTTTTTTATTTGGCTCGCCGCTCTGTGAAAGAGGGGAAAACCTGGGTACAGAGCTC -TGGGCGCTTGCAGGTAAAGGATCCATTGATGACGAATAAATGGCGAATCAAGTACTTAGCAATCCGAATTATTAA -ACTTGTCTACCACTAATAACTGTCCCGAATGAATTGGTCAATACTTCCACACTGTTACATAAGTTAATCTTAGGT -GAAATACCGACTTCATAACTTTTACGCATTATATGCTTTTCCTGGTAATGTTTGTAACAACTTTGTTGAATGATT -GTCAAATTAGATGATTAAAAATTAAATAAATGTTGTTATCGTGACCTGGATCACTGTTCAGGATAAAACCCGACA -AACTATATGTAGGTTAATTGTAATGATTTTGTGAACAGCCTATACTGCCGCCAGGTCTCCGGAACACCCTGCAAT -CCCGAGCCACCCAGCGTTGTAACGTGTCGTTTTCGCATCTGGAAGCAGTGTTTTGCATGACGCGCAGTTATAGAA -AGGACGCTGTCTGACCCGCAAGCAGACCGGAGGAAGGAAATCCCGACGTCTCCAGGTAACAGAAAGTTAACCTCT -GTGCCCGTAGTCCCCAGGGAATAATAAGAACAGCATGTGGGCGTTATTCATGATAAGAAATGTGAAAAAACAAAG -ACCTGTTAATCTGGACCTACAGACCATCCGGTTCCCCATCACGGCGATAGCGTCCATTCTCCATCGCGTTTCCGG -TGTGATCACCTTTGTTGCAGTGGGCATCCTGCTGTGGCTTCTGGGTACCAGCCTCTCTTCCCCTGAAGGTTTCGA -GCAAGCTTCCGCGATTATGGGCAGCTTCTTCGTCAAATTTATCATGTGGGGCATCCTTACCGCTCTGGCGTATCA -CGTCGTCGTAGGTATTCGCCACATGATGATGGATTTTGGCTATCTGGAAGAAACATTCGAAGCGGGTAAACGCTC -CGCCAAAATCTCCTTTGTTATTACTGTCGTGCTTTCACTTCTCGCAGGAGTCCTCGTATGGTAAGCAACGCCTCC -GCATTAGGACGCAATGGCGTACATGATTTCATCCTCGTTCGCGCTACCGCTATCGTCCTGACGCTCTACATCATT -TATATGGTCGGTTTTTTCGCTACCAGTGGCGAGCTGACATATGAAGTCTGGATCGGTTTCTTCGCCTCTGCGTTC -ACCAAAGTGTTCACCCTGCTGGCGCTGTTTTCTATCTTGATCCATGCCTGGATCGGCATGTGGCAGGTGTTGACC -GACTACGTTAAACCGCTGGCTTTGCGCCTGATGCTGCAACTGGTGATTGTCGTTGCACTGGTGGTTTACGTGATT -TATGGATTCGTTGTGGTGTGGGGTGTGTGATGAAATTGCCAGTCAGAGAATTTGATGCAGTTGTGATTGGTGCCG -GTGGCGCAGGTATGCGCGCGGCGCTGCAAATTTCCCAGAGCGGCCAGACCTGTGCGCTGCTCTCTAAAGTCTTCC -CGACCCGTTCCCATACCGTTTCTGCGCAAGGCGGCATTACCGTTGCGCTGGGTAATACCCATGAAGATAACTGGG -AATGGCATATGTACGACACCGTGAAAGGGTCGGACTATATCGGTGACCAGGACGCGATTGAATATATGTGTAAAA -CCGGGCCGGAAGCGATTCTGGAACTCGAACACATGGGCCTGCCGTTCTCGCGTCTCGATGATGGTCGTATCTATC -AACGTCCGTTTGGCGGTCAGTCGAAAAACTTCGGCGGCGAGCAGGCGGCACGCACTGCGGCAGCAGCTGACCGTA -CCGGTCACGCACTGTTGCACACGCTTTATCAGCAGAACCTGAAAAACCACACCACCATTTTCTCCGAGTGGTATG -CGCTGGATCTGGTGAAAAACCAGGATGGCGCGGTGGTGGGTTGTACCGCACTGTGCATCGAAACCGGTGAAGTGG -TTTATTTCAAAGCCCGCGCTACCGTGCTGGCGACTGGCGGAGCAGGGCGTATTTATCAGTCCACCACCAACGCCC -ACATTAACACCGGCGACGGTGTCGGCATGGCTATCCGTGCCGGCGTACCGGTGCAGGATATGGAAATGTGGCAGT -TCCACCCGACCGGCATTGCCGGTGCGGGCGTACTGGTCACCGAAGGTTGCCGTGGTGAAGGCGGTTATCTGCTGA -ACAAACATGGCGAACGTTTTATGGAGCGTTATGCGCCGAACGCCAAAGACCTGGCGGGCCGTGACGTGGTTGCGC -GTTCCATCATGATCGAAATCCGTGAAGGTCGCGGCTGTGATGGTCCGTGGGGGCCACACGCGAAACTGAAACTCG -ATCACCTGGGTAAAGAAGTTCTCGAATCCCGTCTGCCGGGTATCCTGGAGCTTTCCCGTACCTTCGCTCACGTCG -ATCCGGTGAAAGAGCCGATTCCGGTTATCCCAACCTGTCACTACATGATGGGCGGTATTCCGACCAAAGTTACCG -GTCAGGCACTGACTGTGAATGAGAAAGGCGAAGATGTGGTTGTTCCGGGACTGTTTGCCGTTGGTGAAATCGCTT -GTGTATCGGTACACGGCGCTAACCGTCTGGGCGGCAACTCGCTGCTGGACCTGGTGGTCTTTGGTCGCGCGGCAG -GTCTGCATCTGCAAGAGTCTATCGCCGAGCAGGGCGCACTGCGCGATGCCAGCGAGTCTGATGTTGAAGCGTCTC -TGGATCGCCTGAACCGCTGGAACAATAATCGTAACGGTGAAGATCCGGTGGCGATCCGTAAAGCGCTGCAAGAAT -GTATGCAGCATAACTTCTCGGTCTTCCGTGAAGGTGATGCGATGGCGAAAGGGCTTGAGCAGTTGAAAGTGATCC -GCGAGCGTCTGAAAAATGCCCGTCTGGATGACACTTCCAGCGAGTTCAACACCCAGCGCGTTGAGTGCCTGGAAC -TGGATAACCTGATGGAAACGGCGTATGCAACGGCTGTTTCTGCCAACTTCCGTACCGAAAGCCGTGGCGCGCATA -GCCGCTTCGACTTCCCGGATCGTGATGATGAAAACTGGCTGTGCCACTCCCTGTATCTGCCAGAGTCGGAATCCA -TGACGCGCCGAAGCGTCAACATGGAACCGAAACTGCGCCCGGCATTCCCGCCGAAGATTCGTACTTACTAATGCG -GAGACAGGAAAATGAGACTCGAGTTTTCAATTTATCGCTATAACCCGGATGTTGATGATGCTCCGCGTATGCAGG -ATTACACCCTGGAAGCGGATGAAGGTCGCGACATGATGCTGCTGGATGCGCTTATCCAGCTAAAAGAGAAAGATC -CCAGCCTGTCGTTCCGCCGCTCCTGCCGTGAAGGTGTGTGCGGTTCCGACGGTCTGAACATGAACGGCAAGAATG -GTCTGGCCTGTATTACCCCGATTTCGGCACTCAACCAGCCGGGCAAGAAGATTGTGATTCGCCCGCTGCCAGGTT -TACCGGTGATCCGCGATTTGGTGGTAGACATGGGACAATTCTATGCGCAATATGAGAAAATTAAGCCTTACCTGT -TGAATAATGGACAAAATCCGCCAGCTCGCGAGCATTTACAGATGCCAGAGCAGCGCGAAAAACTCGACGGGCTGT -ATGAATGTATTCTCTGCGCATGTTGTTCAACCTCTTGTCCGTCTTTCTGGTGGAATCCCGATAAGTTTATCGGCC -CGGCAGGCTTGTTAGCGGCATATCGTTTCCTGATTGATAGCCGTGATACCGAGACTGACAGCCGCCTCGACGGTT -TGAGTGATGCATTCAGCGTATTCCGCTGTCACAGCATCATGAACTGCGTCAGTGTATGTCCGAAGGGGCTGAACC -CGACGCGCGCCATCGGCCATATCAAGTCGATGTTGTTGCAACGTAATGCGTAAACCGTAGGCCTGATAAGACGCG -CAAGCGTCGCATCAGGCAACCAGTGCCGGATGCGGCGTGAACGCCTTATCCGGCCTACAAGTCATTACCCGTAGG -CCTGATAAGCGCAGCGCATCAGGCGTAACAAAGAAATGCAGGAAATCTTTAAAAACTGCCCCTGACACTAAGACA -GTTTTTAAAGGTTCCTTCGCGAGCCACTACGTAGACAAGAGCTCGCAAGTGAACCCCGGCACGCACATCACTGTG -CGTGGTAGTATCCACGGCGAAGTAAGCATAAAAAAGATGCTTAAGGGATCACGATGCAGAACAGCGCTTTGAAAG -CCTGGTTGGACTCTTCTTACCTCTCTGGCGCAAACCAGAGCTGGATAGAACAGCTCTATGAAGACTTCTTAACCG -ATCCTGACTCGGTTGACGCTAACTGGCGTTCGACGTTCCAGCAGTTACCTGGTACGGGAGTCAAACCGGATCAAT -TCCACTCTCAAACGCGTGAATATTTCCGCCGCCTGGCGAAAGACGCTTCACGTTACTCTTCAACGATCTCCGACC -CTGACACCAATGTGAAGCAGGTTAAAGTCCTGCAGCTCATTAACGCATACCGCTTCCGTGGTCACCAGCATGCGA -ATCTCGATCCGCTGGGACTGTGGCAGCAAGATAAAGTGGCCGATCTGGATCCGTCTTTCCACGATCTGACCGAAG -CAGACTTCCAGGAGACCTTCAACGTCGGTTCATTTGCCAGCGGCAAAGAAACCATGAAACTCGGCGAGCTGCTGG -AAGCCCTCAAGCAAACCTACTGCGGCCCGATTGGTGCCGAGTATATGCACATTACCAGCACCGAAGAAAAACGCT -GGATCCAACAGCGTATCGAGTCTGGTCGCGCGACTTTCAATAGCGAAGAGAAAAAACGCTTCTTAAGCGAACTGA -CCGCCGCTGAAGGTCTTGAACGTTACCTCGGCGCAAAATTCCCTGGCGCAAAACGCTTCTCGCTGGAAGGCGGTG -ACGCGTTAATCCCGATGCTTAAAGAGATGATCCGCCACGCTGGCAACAGCGGCACCCGCGAAGTGGTTCTCGGGA -TGGCGCACCGTGGTCGTCTGAACGTGCTGGTGAACGTGCTGGGTAAAAAACCGCAAGACTTGTTCGACGAGTTCG -CCGGTAAACATAAAGAACACCTCGGCACGGGTGACGTGAAATACCACATGGGCTTCTCGTCTGACTTCCAGACCG -ATGGCGGCCTGGTGCACCTGGCGCTGGCGTTTAACCCGTCTCACCTTGAGATTGTAAGCCCGGTAGTTATCGGTT -CTGTTCGTGCCCGTCTGGACAGACTTGATGAGCCGAGCAGCAACAAAGTGCTGCCAATCACCATCCACGGTGACG -CCGCAGTGACCGGGCAGGGCGTGGTTCAGGAAACCCTGAACATGTCGAAAGCGCGTGGTTATGAAGTTGGCGGTA -CGGTACGTATCGTTATCAACAACCAGGTTGGTTTCACCACCTCTAATCCGCTGGATGCCCGTTCTACGCCGTACT -GTACTGATATCGGTAAGATGGTTCAGGCCCCGATTTTCCACGTTAACGCGGACGATCCGGAAGCCGTTGCCTTTG -TGACCCGTCTGGCGCTCGATTTCCGTAACACCTTTAAACGTGATGTCTTCATCGACCTGGTGTGCTACCGCCGTC -ACGGCCACAACGAAGCCGACGAGCCGAGCGCAACCCAGCCGCTGATGTATCAGAAAATCAAAAAACATCCGACAC -CGCGCAAAATCTACGCTGACAAGCTGGAGCAGGAAAAAGTGGCGACGCTGGAAGATGCCACCGAGATGGTTAACC -TGTACCGCGATGCGCTGGATGCTGGCGATTGCGTAGTGGCAGAGTGGCGTCCGATGAACATGCACTCTTTCACCT -GGTCGCCGTACCTCAACCACGAATGGGACGAAGAGTACCCGAACAAAGTTGAGATGAAGCGCCTGCAGGAGCTGG -CGAAACGCATCAGCACGGTGCCGGAAGCAGTTGAAATGCAGTCTCGCGTTGCCAAGATTTATGGCGATCGCCAGG -CGATGGCTGCCGGTGAGAAACTGTTCGACTGGGGCGGTGCGGAAAACCTCGCTTACGCCACGCTGGTTGATGAAG -GCATTCCGGTTCGCCTGTCGGGTGAAGACTCCGGTCGCGGTACCTTCTTCCACCGCCACGCGGTGATCCACAACC -AGTCTAACGGTTCCACTTACACGCCGCTGCAACATATCCATAACGGGCAGGGCGCGTTCCGTGTCTGGGACTCCG -TACTGTCTGAAGAAGCAGTGCTGGCGTTTGAATATGGTTATGCCACCGCAGAACCACGCACTCTGACCATCTGGG -AAGCGCAGTTCGGTGACTTCGCCAACGGTGCGCAGGTGGTTATCGACCAGTTCATCTCCTCTGGCGAACAGAAAT -GGGGCCGGATGTGTGGTCTGGTGATGTTGCTGCCGCACGGTTACGAAGGGCAGGGGCCGGAGCACTCCTCCGCGC -GTCTGGAACGTTATCTGCAACTTTGTGCTGAGCAAAACATGCAGGTTTGCGTACCGTCTACCCCGGCACAGGTTT -ACCACATGCTGCGTCGTCAGGCGCTGCGCGGGATGCGTCGTCCGCTGGTCGTGATGTCGCCGAAATCCCTGCTGC -GTCATCCGCTGGCGGTTTCCAGCCTCGAAGAACTGGCGAACGGCACCTTCCTGCCAGCCATCGGTGAAATCGACG -AGCTTGATCCGAAGGGCGTGAAGCGCGTAGTGATGTGTTCTGGTAAGGTTTATTACGACCTGCTGGAACAGCGTC -GTAAGAACAATCAACACGATGTCGCCATTGTGCGTATCGAGCAACTCTACCCGTTCCCGCATAAAGCGATGCAGG -AAGTGTTGCAGCAGTTTGCTCACGTCAAGGATTTTGTCTGGTGCCAGGAAGAGCCGCTCAACCAGGGCGCATGGT -ACTGCAGCCAGCATCATTTCCGTGAAGTGATTCCGTTTGGGGCTTCTCTGCGTTATGCAGGCCGCCCGGCCTCCG -CCTCTCCGGCGGTAGGGTATATGTCCGTTCACCAGAAACAGCAACAAGATCTGGTTAATGACGCGCTGAACGTCG -AATAAATAAAGGATACACAATGAGTAGCGTAGATATTCTGGTCCCTGACCTGCCTGAATCCGTAGCCGATGCCAC -CGTCGCAACCTGGCATAAAAAACCCGGCGACGCAGTCGTACGTGATGAAGTGCTGGTAGAAATCGAAACTGACAA -AGTGGTACTGGAAGTACCGGCATCAGCAGACGGCATTCTGGATGCGGTTCTGGAAGATGAAGGTACAACGGTAAC -GTCTCGTCAGATCCTTGGTCGCCTGCGTGAAGGCAACAGCGCCGGTAAAGAAACCAGCGCCAAATCTGAAGAGAA -AGCGTCCACTCCGGCGCAACGCCAGCAGGCGTCTCTGGAAGAGCAAAACAACGATGCGTTAAGCCCGGCGATCCG -TCGCCTGCTGGCTGAACACAATCTCGACGCCAGCGCCATTAAAGGCACCGGTGTGGGTGGTCGTCTGACTCGTGA -AGATGTGGAAAAACATCTGGCGAAAGCCCCGGCGAAAGAGTCTGCTCCGGCAGCGGCTGCTCCGGCGGCGCAACC -GGCTCTGGCTGCACGTAGTGAAAAACGTGTCCCGATGACTCGCCTGCGTAAGCGTGTGGCAGAGCGTCTGCTGGA -AGCGAAAAACTCCACCGCCATGCTGACCACGTTCAACGAAGTCAACATGAAGCCGATTATGGATCTGCGTAAGCA -GTACGGTGAAGCGTTTGAAAAACGCCACGGCATCCGTCTGGGCTTTATGTCCTTCTACGTGAAAGCGGTGGTTGA -AGCCCTGAAACGTTACCCGGAAGTGAACGCTTCTATCGACGGCGATGACGTGGTTTACCACAACTATTTCGACGT -CAGCATGGCGGTTTCTACGCCGCGCGGCCTGGTGACGCCGGTTCTGCGTGATGTCGATACCCTCGGCATGGCAGA -CATCGAGAAGAAAATCAAAGAGCTGGCAGTCAAAGGCCGTGACGGCAAGCTGACCGTTGAAGATCTGACCGGTGG -TAACTTCACCATCACCAACGGTGGTGTGTTCGGTTCCCTGATGTCTACGCCGATCATCAACCCGCCGCAGAGCGC -AATTCTGGGTATGCACGCTATCAAAGATCGTCCGATGGCGGTGAATGGTCAGGTTGAGATCCTGCCGATGATGTA -CCTGGCGCTGTCCTACGATCACCGTCTGATCGATGGTCGCGAATCCGTGGGCTTCCTGGTAACGATCAAAGAGTT -GCTGGAAGATCCGACGCGTCTGCTGCTGGACGTGTAGTAGTTTAAGTTTCACCTGCACTGTAGACCGGATAAGGC -ATTATCGCCTTCTCCGGCAATTGAAGCCTGATGCGACGCTGACGCGTCTTATCAGGCCTACGGGACCACCAATGT -AGGTCGGATAAGGCGCAAGCGCCGCATCCGACAAGCGATGCCTGATGTGACGTTTAACGTGTCTTATCAGGCCTA -CGGGTGACCGACAATGCCCGGAAGCGATACGAAATATTCGGTCTACGGTTTAAAAGATAACGATTACTGAAGGAT -GGACAGAACACATGAACTTACATGAATATCAGGCAAAACAACTTTTTGCCCGCTATGGCTTACCAGCACCGGTGG -GTTATGCCTGTACTACTCCGCGCGAAGCAGAAGAAGCCGCTTCAAAAATCGGTGCCGGTCCGTGGGTAGTGAAAT -GTCAGGTTCACGCTGGTGGCCGCGGTAAAGCGGGCGGTGTGAAAGTTGTAAACAGCAAAGAAGACATCCGTGCTT -TTGCAGAAAACTGGCTGGGCAAGCGTCTGGTAACGTATCAAACAGATGCCAATGGCCAACCGGTTAACCAGATTC -TGGTTGAAGCAGCGACCGATATCGCTAAAGAGCTGTATCTCGGTGCCGTTGTTGACCGTAGTTCCCGTCGTGTGG -TCTTTATGGCCTCCACCGAAGGCGGCGTGGAAATCGAAAAAGTGGCGGAAGAAACTCCGCACCTGATCCATAAAG -TTGCGCTTGATCCGCTGACTGGCCCGATGCCGTATCAGGGACGCGAGCTGGCGTTCAAACTGGGTCTGGAAGGTA -AACTGGTTCAGCAGTTCACCAAAATCTTCATGGGCCTGGCGACCATTTTCCTGGAGCGCGACCTGGCGTTGATCG -AAATCAACCCGCTGGTCATCACCAAACAGGGCGATCTGATTTGCCTCGACGGCAAACTGGGCGCTGACGGCAACG -CACTGTTCCGCCAGCCTGATCTGCGCGAAATGCGTGACCAGTCGCAGGAAGATCCGCGTGAAGCACAGGCTGCAC -AGTGGGAACTGAACTACGTTGCGCTGGACGGTAACATCGGTTGTATGGTTAACGGCGCAGGTCTGGCGATGGGTA -CGATGGACATCGTTAAACTGCACGGCGGCGAACCGGCTAACTTCCTTGACGTTGGCGGCGGCGCAACCAAAGAAC -GTGTAACCGAAGCGTTCAAAATCATCCTCTCTGACGACAAAGTGAAAGCCGTTCTGGTTAACATCTTCGGCGGTA -TCGTTCGTTGCGACCTGATCGCTGACGGTATCATCGGCGCGGTAGCAGAAGTGGGTGTTAACGTACCGGTCGTGG -TACGTCTGGAAGGTAACAACGCCGAACTCGGCGCGAAGAAACTGGCTGACAGCGGCCTGAATATTATTGCAGCAA -AAGGTCTGACGGATGCAGCTCAGCAGGTTGTTGCCGCAGTGGAGGGGAAATAATGTCCATTTTAATCGATAAAAA -CACCAAGGTTATCTGCCAGGGCTTTACCGGTAGCCAGGGGACTTTCCACTCAGAACAGGCCATTGCATACGGCAC -TAAAATGGTTGGCGGCGTAACCCCAGGTAAAGGCGGCACCACCCACCTCGGCCTGCCGGTGTTCAACACCGTGCG -TGAAGCCGTTGCTGCCACTGGCGCTACCGCTTCTGTTATCTACGTACCAGCACCGTTCTGCAAAGACTCCATTCT -GGAAGCCATCGACGCAGGCATCAAACTGATTATCACCATCACTGAAGGCATCCCGACGCTGGATATGCTGACCGT -GAAAGTGAAGCTGGATGAAGCAGGCGTTCGTATGATCGGCCCGAACTGCCCAGGCGTTATCACTCCGGGTGAATG -CAAAATCGGTATCCAGCCTGGTCACATTCACAAACCGGGTAAAGTGGGTATCGTTTCCCGTTCCGGTACACTGAC -CTATGAAGCGGTTAAACAGACCACGGATTACGGTTTCGGTCAGTCGACCTGTGTCGGTATCGGCGGTGACCCGAT -CCCGGGCTCTAACTTTATCGACATTCTCGAAATGTTCGAAAAAGATCCGCAGACCGAAGCGATCGTGATGATCGG -TGAGATCGGCGGTAGCGCTGAAGAAGAAGCAGCTGCGTACATCAAAGAGCACGTTACCAAGCCAGTTGTGGGTTA -CATCGCTGGTGTGACTGCGCCGAAAGGCAAACGTATGGGCCACGCGGGTGCCATCATTGCCGGTGGGAAAGGGAC -TGCGGATGAGAAATTCGCTGCTCTGGAAGCCGCAGGCGTGAAAACCGTTCGCAGCCTGGCGGATATCGGTGAAGC -ACTGAAAACTGTTCTGAAATAAATATCTGTAATAAGAAATAGCCCTCGCCGCTTCCCTCTACAGGAATGGCGAAG -GGCTGTCGGTTTCGACATGGTTGGCCATCGTATGATGGCCTTTTTTGTGCTTATCGCGATGATTTTCGCTGCGCT -ATCAGGGTAAATTTATAGTCATCGGTATTAAAAGCGTTGCGGCTATATTCAAACACCCGACCATCAACTAAATAT -CCACGCGATACTTTTTCAAGAATCGGCTTTGTCTGGCTGATATTAAGCAGACGGCTCATCTCTTCGGTTGGCATC -AGAGGAATGATTTCCTGTTCGCTACGATCGATAACCATTTTCTTCACTTCTTCGATAAAGTGATATTTCGAATTT -TCCATGACCTGCCAGGTGAGATCCGGGAACAACGCAAGCGGCATCCAGGTTTCTTCCAGCGCCATTGGCTTTTGC -TTGCGATAGCGCACGCGCTTCACATGCCACACACGATCCTGCGGGGTGATTTGTAGCTGTTGCTGAAGAAAATCG -TCAGCCGGAATCACTTCGAATATCAGAACTTCACTGTGTGTATCGACGTGACGGTCCGACAGTTTTTCATCAAAA -CTGGTTAACTGAAAAATATCGTAATTGACCCGCTCTTCTTTGACGTAAGTCCCGCTGCCCTGAATGCTTTCGAGG -ATCTGCTGCTCGACTAGCTGGCGCAAAGCCTGACGCACCGTAACCCGGCTGACGCCAAACTCTGTTTGTAGCGCT -GATTCAGTGGGTAACGCATCGCCAGGTTTAAGCTCGCCACGCGCAATTTGTTCACGAATGCGATCGGCAATCTGC -CGGTATAAGGGCTTGTGTCCCATTTTTAGTATCTCATTAATACGAATTTAACCATTATGCCCGATAAATTCATCC -TGTAAATAATACAAATACAATACAAATAATTTCAATCAAGTGAAATTGATCACATAATGGTATTGTTTTATCGGG -CACACTGGCGCGACTATAAAAACGATCAAGTGAGGATCATGATGAATCTGACGACTCTGACCCACCGCGATGCGT -TGTGTCTGAATGCGCGCTTTACCAGCCGTGAAGAGGCCATCCACGCGTTGACTCAACGTCTTGCTGCTCTGGGGA -AAATTTCCAGTACTGAGCAATTTCTGGAAGAAGTGTATCGCCGTGAAAGCCTTGGCCCGACCGCCTTAGGTGAAG -GGTTGGCTGTGCCGCATGGCAAAACTGCTGCGGTAAAAGAAGCGGCGTTTGCGGTCGCCACACTCAGCGAGCCGC -TTCAGTGGGAAGGCGTTGATGGCCCGGAAGCAGTTGATTTAGTGGTGCTGCTGGCGATTCCCCCCAATGAAGCGG -GTACTACGCATATGCAACTGCTGACAGCGCTGACCACGCGCCTTGCGGATGATGAGATTCGGGCGCGTATACAGT -CGGCGACGACGCCTGATGAGTTGCTCTCGGCGCTGGATGACAAGGGAGGCACGCAACCTTCTGCCTCTTTTTCCA -ACGCGCCAACTATCGTCTGCGTAACGGCCTGTCCGGCGGGTATTGCTCACACCTATATGGCTGCGGAATATCTGG -AAAAAGCCGGACGCAAACTCGGCGTAAATGTTTACGTTGAAAAACAAGGCGCTAACGGCATTGAAGGGCGTTTAA -CGGCGGATCAACTCAATAGTGCAACCGCCTGTATTTTTGCGGCTGAAGTCGCCATCAAGGAGAGTGAGCGTTTTA -ATGGCATTCCCGCGCTTTCAGTGCCTGTTGCCGAGCCGATTCGCCATGCAGAAGCGTTGATCCAACAAGCGCTTA -CCCTCAAGCGTAGCGATGAGACGCGTACCGTACAGCAAGATACGCAACCGGTGAAAAGTGTCAAAACGGAGCTGA -AACAGGCACTGTTGAGCGGAATCTCTTTTGCCGTACCGTTGATTGTCGCGGGGGGCACGGTGCTGGCGGTCGCGG -TATTACTGTCGCAAATCTTCGGGCTACAAGATCTGTTTAATGAAGAAAACTCCTGGCTGTGGATGTACCGCAAGC -TGGGCGGCGGGCTGCTCGGAATTTTGATGGTACCGGTGCTCGCGGCCTATACCGCCTATTCTCTGGCAGATAAAC -CGGCGTTAGCGCCAGGCTTTGCGGCTGGACTTGCCGCCAACATGATCGGCTCCGGGTTTCTCGGCGCGGTCGTTG -GCGGATTGATAGCCGGTTACTTGATGCGCTGGGTGAAAAATCACTTGCGTCTTAGCAGTAAATTCAATGGATTCC -TGACTTTTTATCTCTACCCGGTGCTCGGTACGTTGGGAGCGGGCAGTCTGATGCTGTTTGTGGTGGGGGAACCTG -TCGCCTGGATCAATAACTCGCTTACCGCCTGGCTGAACGGTCTGTCAGGAAGTAACGCGCTGTTGCTGGGTGCCA -TTCTCGGTTTTATGTGTTCCTTTGACCTTGGAGGGCCAGTGAATAAAGCCGCTTATGCATTCTGCCTGGGCGCAA -TGGCGAACGGCGTTTACGGCCCGTATGCCATTTTCGCCTCCGTCAAAATGGTTTCGGCATTTACCGTAACCGCTT -CCACGATGCTCGCACCGCGCCTGTTTAAAGAGTTTGAAATTGAGACCGGGAAATCCACCTGGCTGTTAGGGCTGG -CAGGTATTACCGAAGGGGCGATCCCGATGGCGATTGAAGATCCGCTGCGGGTTATTGGTTCGTTTGTGCTGGGCT -CTATGGTAACGGGCGCTATTGTCGGTGCGATGAATATCGGCCTTTCGACACCCGGTGCCGGCATTTTCTCGCTCT -TTTTACTTCATGATAATGGCGCGGGCGGTGTTATGGCGGCAATTGGCTGGTTTGGCGCGGCATTGGTGGGGGCTG -CAATCTCGACTGCAATTCTCCTGATGTGGCGGCGTCACGCGGTTAAGCATGGCAACTATCTGACTGATGGCGTAA -TGCCATAAACAAAAAGGAAACGACGATGAAAGCAGTATCTCGCGTTCACATCACCCCGCATATGCACTGGGATCG -AGAGTGGTATTTCACCACCGAAGAGTCACGTATTCTGCTGGTCAATAATATGGAAGAGATCCTGTGCCGACTGGA -ACAGGACAACGAATACAAATATTACGTACTCGACGGGCAAACGGCGATCCTCGAAGATTATTTCGCGGTGAAACC -GGAAAACAAAGACCGTGTGAAGAAACAGGTAGAAGCCGGCAAGTTGATTATCGGCCCCTGGTATACCCAGACCGA -TACCACGATTGTTTCTGCGGAATCCATCGTCCGTAATCTGATGTACGGAATGCGTGACTGCCTCGCGTTTGGCGA -GCCGATGAAAATAGGTTATTTACCAGATTCCTTTGGCATGTCCGGGCAACTGCCGCATATCTACAATGGATTTGG -CATTACCCGCACCATGTTCTGGCGCGGATGTTCGGAGCGCCACGGTACTGATAAAACCGAGTTTTTGTGGCAAAG -CAGTGACGGTAGCGAAGTGACGGCGCAGGTGCTGCCGCTGGGCTACGCCATCGGTAAGTACTTACCTGCCGACGA -AAACGGATTACGTAAACGCCTCGACAGTTATTTTGACGTGCTGGAAAAAGCGTCTGTAACCAAAGAGATTTTGCT -GCCGAATGGGCATGACCAGATGCCATTGCAGCAAAATATCTTCGAAGTGATGGATAAGCTACGTGAGATCTACCC -TCAACGTAAGTTTGTGATGAGCCGCTTTGAAGAGGTATTTGAGAAGATCGAAGCGCAGCGAGATAATCTGGCAAC -CCTGAAAGGGGAATTTATTGATGGCAAATATATGCGCGTGCATCGCACCATCGGTTCTACGCGTATGGATATCAA -AATTGCCCACGCGCGTATTGAAAATAAGATTGTTAATCTGCTGGAACCGCTGGCAACACTGGCCTGGACGTTGGG -TTTTGAATACCACCACGGCTTGCTGGAGAAAATGTGGAAAGAGATCTTAAAAAATCATGCCCACGACAGTATCGG -CTGCTGCTGTAGTGACAAAGTTCATCGCGAAATCGTCGCCCGCTTCGAACTGGCTGAAGACATGGCGGATAATCT -GATTCGTTTCTACATGCGCAAAATTGCCGACAACATGCCGCAGAGCGACGCCGACAAACTCGTCCTGTTTAACCT -GATGCCCTGGCCGCGTGAAGAAGTTATCAACACCACTGTGCGGCTGCGCGCCAGCCAGTTTAATTTGCGGGACGA -TCGCGGTCAGCCTGTACCGTATTTTATTCGCCATGCCCGTGAGATCGATCCAGGCCTAATCGATCGGCAAATAGT -TCATTACGGTAATTACGATCCCTTTATGGAGTTTGATATACAGATCAACCAGATTGTCCCTTCTATGGGCTATCG -CACGCTTTATATCGAAGCGAATCAGCCTGGCAACGTAATTGCGGCAAAAAGTGACGCTGAAGGGATACTGGAAAA -TGCTTTCTGGCAAATTGCGCTCAATGAGGATGGTTCTCTGCAACTGGTAGATAAAGACAGCGGTGTGCGCTATGA -CCGGGTATTGCAAATTGAAGAAAGCTCTGATGATGGTGATGAATATGACTATTCACCCGCAAAAGAAGAGTGGGT -AATTACCGCAGCGAACGCGAAACCGCAATGCGATATTATTCATGAAGCCTGGCAGAGCAGGGCTGTTATCCGCTA -TGACATGGCAGTGCCGCTCAATTTGTCAGAACGCAGCGCCCGGCAATCCACTGGCAGAGTAGGGGTGGTGTTGGT -TGTCACTCTTAGTCATAACAGCAGGCGTATTGATGTGGATATCAATCTTGATAACCAGGCTGACGATCATCGCCT -TCGTGTCCTGGTCCCTACACCTTTTAACACCGACAGTGTTCTGGCAGATACGCAGTTTGGTTCGCTAACGCGCCC -CGTGAACGACAGTGCAATGAACAACTGGCAGCAAGAAGGCTGGAAAGAAGCGCCGGTTCCGGTATGGAATATGCT -CAACTATGTTGCCTTACAGGAAGGGCGTAACGGCATGGCTGTCTTTAGCGAAGGGTTACGTGAATTTGAAGTCAT -CGGTGAAGAGAAGAAAACCTTTGCCATTACGTTGCTGCGTGGCGTGGGCTTACTGGGCAAAGAAGATCTGCTTTT -AAGGCCTGGGCGGCCTTCGGGAATTAAAATGCCAGTCCCGGACTCACAACTACGTGGTCTGCTTTCTTGTCGCCT -AAGTTTATTGAGTTATACCGGTACGCCAACCGCCGCTGGTGTAGCTCAGCAGGCGCGAGCATGGCTGACTCCAGT -ACAGTGTTACAACAAAATCCCATGGGATGTGATGAAGCTCAACAAAGCCGGATTCAACGTGCCGGAAAGTTATAG -TTTGTTGAAAATGCCCCCAGTGGGATGCCTGATAAGCGCACTTAAGAAAGCTGAAGACCGACAAGAAGTGATTTT -ACGGCTGTTTAATCCGGCTGAATCAGCAACCTGTGATGCGACTGTTGCTTTCAGTCGCGAGGTGATTTCTTGCTC -AGAAACGATGATGGATGAACACATTACCACCGAGGAAAATCAAGGTTCAAATCTATCGGGGCCTTTTTTACCCGG -CCAGTCACGGACGTTCAGTTACCGGCTTGCCTGAATAGCAATCAAACCGAAGCCACATATGCGCGGCCAGATTGT -TGACAAAGGGCGCTTTGTTCATGCCGGATACGGCATGAACGCTTTATTCGGTCTACAAAAGCAGGCAAATTCAAT -ATATTGCAGAGATGATGTAGACACTGGCAAGCGTAGCGCATCAGGTAATTTTGCGTTTATCTTCACTCTCAAGCC -ACGTATATGTGGCTTTATTTTTAACAAAATAATAACCCTGGGTGAGTTAATTATAATATAATTATAAGTTAACTA -AATGTTAATATTGGCGGGGTGGATTTATGCCTTTATTAGTAATCCTGAAACTCTGCGTCGTATTAGCCAGTGACC -AAAAAAAGAATTAAGGTCAACCGTGCTGTTTTTGCTTCGTCTCTTTTTATCTTTAATTGCCAACCGAAACTAATT -TCAGCCTTATAACTCACACATTTTAAACATAAATGTCACTAAAGTTACCTTATTGAAACATGATTAACATAATTT -GTAGGAATTGATATTTATCAATGTATAAGTCTTGGAAATGGGCATCAAAAAGAGATAAATTGTTCTCGATCAAAT -TGGCTGAAAGGCGGTAATTTAGCTATAAATTGATCACCGTCGAAAAATGCAAATTTGCTTCAACAAAAACCTGTT -TATTGTAAGGATTTTGCGGCGTAATATATACGTGGGATCAATTTGAGTTTTTATTAACATGTTTGCAACCTTTCT -TTACGCCGTTTTTGTGTGCATTCACATGGTATGATGAAAGTGTTCAAACAAATTTCTATTGGGGCATGCGTGTGA -CCCTTTCTAACGGGGTTCACTCTCGGAGTCTTCATGCGATGAGCAAGGAGTCATGATGTTAGATATAGTCGAACT -GTCGCGCTTACAGTTTGCCTTGACCGCGATGTACCACTTCCTTTTTGTGCCACTGACGCTCGGTATGGCGTTCCT -GCTGGCCATTATGGAAACGGTCTACGTCCTCTCCGGCAAACAGATTTATAAAGATATGACCAAGTTCTGGGGCAA -GTTGTTTGGTATCAACTTCGCTCTGGGTGTGGCTACCGGTCTGACCATGGAGTTCCAGTTCGGGACTAACTGGTC -TTACTATTCCCACTATGTAGGGGATATCTTCGGTGCGCCGCTGGCAATCGAAGGTCTGATGGCCTTCTTCCTCGA -ATCCACCTTTGTAGGTCTGTTCTTCTTCGGTTGGGATCGTCTGGGTAAAGTTCAGCATATGTGTGTCACCTGGCT -GGTGGCGCTCGGTTCAAACCTGTCCGCACTGTGGATTCTGGTTGCGAACGGCTGGATGCAAAACCCAATCGCGTC -CGATTTCAACTTTGAAACTATGCGTATGGAGATGGTGAGCTTCTCCGAGCTGGTGCTTAACCCGGTTGCTCAGGT -GAAATTCGTTCACACTGTAGCGTCTGGTTATGTGACTGGCGCGATGTTCATCCTCGGTATCAGCGCATGGTATAT -GCTGAAAGGTCGTGACTTCGCCTTCGCTAAACGCTCCTTTGCTATCGCTGCCAGCTTCGGTATGGCTGCTGTTCT -GTCTGTTATTGTTCTGGGTGATGAATCCGGCTACGAAATGGGCGACGTGCAGAAAACCAAACTGGCTGCTATTGA -AGCCGAGTGGGAAACGCAACCTGCGCCTGCTGCCTTTACTCTGTTCGGCATTCCTGATCAGGAAGAGGAGACGAA -CAAATTTGCGATTCAGATCCCTTACGCACTGGGCATCATTGCAACGCGTTCCGTGGATACCCCGGTTATCGGCCT -GAAAGAGCTGATGGTGCAGCATGAAGAACGCATTCGTAACGGGATGAAGGCGTACTCTCTGCTCGAACAACTGCG -TTCTGGTTCTACCGACCAGGCGGTTCGTGACCAGTTCAATAGCATGAAGAAAGACCTCGGTTACGGTCTGCTGCT -GAAACGCTATACGCCAAACGTGGCTGATGCGACTGAAGCGCAGATTCAACAGGCAACCAAAGACTCCATCCCGCG -TGTAGCGCCGCTGTACTTTGCGTTCCGTATCATGGTGGCGTGTGGCTTCCTGCTTCTGGCAATCATCGCGCTCTC -TTTCTGGAGTGTCATCCGCAACCGCATTGGCGAGAAAAAATGGCTTCTGCGCGCCGCGCTGTACGGTATTCCGCT -GCCGTGGATTGCTGTAGAAGCGGGCTGGTTCGTGGCTGAATATGGCCGCCAACCGTGGGCTATCGGTGAAGTGCT -GCCGACAGCTGTGGCGAACTCGTCACTGACCGCAGGCGATCTCATCTTCTCAATGGTGCTGATTTGCGGCCTGTA -TACCCTGTTCCTGGTGGCAGAATTGTTCTTAATGTTCAAGTTTGCACGCCTCGGCCCAAGCAGCCTGAAAACCGG -TCGCTATCACTTTGAGCAGTCTTCCACGACTACTCAGCCGGCACGCTAAGACAGGAGTCGTCAAATGATCGATTA -TGAAGTATTGCGTTTTATCTGGTGGCTGCTGGTTGGCGTTCTGCTGATTGGTTTTGCAGTCACTGACGGTTTCGA -CATGGGGGTGGGCATGCTCACCCGTTTCCTCGGTCGTAACGACACCGAGCGTCGAATTATGATTAACTCCATTGC -ACCACACTGGGACGGTAACCAGGTTTGGCTGATCACCGCGGGCGGCGCACTCTTTGCTGCCTGGCCGATGGTCTA -TGCCGCTGCGTTCTCCGGCTTCTATGTGGCGATGATCCTCGTGCTGGCGTCTTTGTTCTTCCGTCCGGTCGGTTT -TGACTACCGCTCCAAGATTGAAGAAACCCGCTGGCGTAACATGTGGGACTGGGGCATCTTCATTGGTAGCTTCGT -TCCGCCGCTGGTAATTGGTGTAGCGTTCGGTAACCTGTTGCAGGGCGTACCGTTCAACGTTGATGAATATCTGCG -TCTGTACTACACCGGTAACTTCTTCCAGTTGCTTAACCCGTTCGGCCTGCTGGCAGGCGTGGTGAGCGTAGGGAT -GATCATTACTCAGGGCGCAACCTATCTGCAAATGCGTACCGTGGGCGAACTGCACCTGCGTACCCGTGCAACGGC -TCAGGTGGCTGCGCTGGTGACACTGGTCTGTTTCGCACTGGCTGGCGTATGGGTGATGTACGGTATCGATGGTTA -TGTCGTGAAATCGACAATGGACCATTACGCAGCCTCTAACCCACTGAATAAAGAAGTGGTTCGTGAAGCTGGCGC -ATGGCTGGTTAACTTCAACAACACGCCAATTCTGTGGGCTATTCCGGCACTGGGTGTGGTTCTGCCGCTGCTGAC -CATCCTGACTGCACGTATGGATAAAGCCGCGTGGGCGTTTGTGTTCTCCTCCCTGACGCTGGCCTGCATCATCCT -GACAGCCGGTATCGCAATGTTCCCGTTTGTGATGCCGTCCAGCACCATGATGAACGCAAGTCTGACAATGTGGGA -TGCAACTTCCAGCCAGCTGACGCTTAACGTCATGACCTGGGTTGCGGTGGTTCTGGTACCGATCATTCTGCTCTA -CACCGCCTGGTGTTACTGGAAAATGTTCGGTCGTATCACCAAAGAAGATATTGAACGTAACACCCACTCTCTGTA -CTAAGTAAGGAGCTAAAAATGTGGTATTTCGCATGGATTCTGGGAACGCTTCTTGCCTGTTCGTTTGGGGTAATC -ACCGCGCTGGCGCTTGAACACGTCGAATCAGGCAAAGCCGGTCAAGAAGACATCTGATGAGTAAGATTATCGCGA -CTTTGTATGCGGTAATGGACAAGCGCCCCCTGCGGGCGCTTTCCTTCGTGATGGCGCTTCTGTTAGCAGGATGTA -TGTTTTGGGACCCATCTCGTTTTGCCGCGAAGACCAGTGAACTGGAAATCTGGCATGGTTTATTGCTGATGTGGG -CCGTCTGTGCTGGTGTGATTCACGGCGTGGGCTTTCGTCCGCAGAAGGTTCTTTGGCAAGGGATTTTTTGCCCAT -TGCTTGCCGATATTGTTCTCATTGTCGGGCTGATTTTCTTCTTCTTTTAAATCAGAATTCTCTTTAAAAAATTAT -GGGCCGCTCCAGGCCCATAAATTTTTACGCTCCCTTAACTTGCCCTCATTCCCAAACCTCAATCGCGCGCGTATA -GTAGCAGCGTTTAAAAGCTCTAACTTTTGTTGCATTACCGGGATGTAAAGTGAATACAACGCTGTTTCGATGGCC -GGTTCGCGTCTACTATGAAGATACCGATGCCGGTGGTGTGGTGTACCACGCCAGTTACGTCGCTTTTTATGAAAG -AGCACGCACAGAGATGCTGCGTCATCATCACTTCAGTCAGCAGGCGCTGATGGCTGAACGCGTTGCCTTTGTGGT -ACGTAAAATGACGGTGGAATATTACGCACCTGCGCGGCTCGACGATATGCTCGAAATACAGACTGAAATAACATC -AATGCGTGGCACCTCTTTGGTTTTCACGCAACGTATTGTCAACGCCGAGAATACTTTGCTGAATGAAGCAGAGGT -TCTGGTTGTTTGCGTTGACCCACTCAAAATGAAGCCTCGTGCGCTTCCCAAGTCTATTGTCGCGGAGTTTAAGCA -GTGACTGACATGAATATCCTTGATTTGTTCCTGAAGGCTAGCCTTCTGGTTAAACTTATCATGTTGATTTTGATT -GGTTTTTCAATCGCATCTTGGGCCATTATTATCCAGCGGACCCGTATTCTTAACGCAGCGGCGCGCGAAGCCGAA -GCGTTTGAAGATAAATTCTGGTCTGGAATCGAACTCTCTCGCCTCTATCAAGAGAGCCAGGGGAAACGGGATAAT -CTGACTGGTTCGGAACAAATCTTTTACAGCGGGTTCAAAGAGTTTGTGCGCCTGCATCGTGCCAATAGCCATGCG -CCGGAAGCCGTAGTGGAAGGGGCGTCGCGTGCTATGCGTATCTCCATGAACCGTGAACTTGAAAATCTGGAAACG -CACATTCCGTTCCTCGGTACGGTTGGCTCCATCAGCCCGTATATTGGTCTGTTTGGTACGGTCTGGGGGATCATG -CACGCCTTTATCGCCCTCGGGGCGGTAAAACAAGCAACACTGCAAATGGTTGCGCCCGGTATCGCAGAAGCGTTG -ATTGCGACTGCAATTGGTCTGTTTGCCGCTATCCCGGCAGTTATGGCCTACAACCGCCTCAACCAGCGCGTAAAC -AAACTGGAACTGAATTACGACAACTTTATGGAAGAGTTTACCGCGATTCTGCACCGCCAGGCGTTTACCGTTAGC -GAGAGCAACAAGGGGTAAGCCATGGCCAGAGCGCGTGGACGAGGTCGTCGCGATCTCAAGTCCGAAATCAACATT -GTACCGTTGCTGGACGTACTGCTGGTGCTGTTGCTGATCTTTATGGCGACAGCGCCCATCATCACCCAGAGCGTG -GAGGTCGATCTGCCAGACGCTACTGAATCACAGGCGGTGAGCAGTAACGATAATCCGCCAGTGATTGTTGAAGTG -TCTGGTATTGGTCAGTACACCGTGGTGGTTGAGAAAGATCGCCTGGAGCGTTTACCACCAGAGCAGGTGGTGGCG -GAAGTGTCCAGCCGTTTCAAGGCCAACCCGAAAACGGTCTTTCTGATCGGTGGCGCAAAAGATGTGCCTTACGAT -GAAATAATTAAAGCACTGAACTTGTTACATAGTGCGGGTGTGAAATCGGTTGGTTTAATGACGCAGCCTATCTAA -ACATCTGCGTTTCCCTTGCTTGAAAGAGAGCGGGTAACAGGCGAACAGTTTTTGGAAACCGAGAGTGTCAAAGGC -AACCGAACAAAACGACAAGCTCAAGCGGGCGATAATTATTTCAGCAGTGCTGCATGTCATCTTATTTGCGGCGCT -GATCTGGAGTTCGTTCGATGAGAATATAGAAGCTTCAGCCGGAGGCGGCGGTGGTTCGTCCATCGACGCTGTCAT -GGTTGATTCAGGTGCGGTAGTTGAGCAGTACAAACGCATGCAAAGCCAGGAATCAAGCGCGAAGCGTTCTGATGA -ACAGCGCAAGATGAAGGAACAGCAGGCTGCTGAAGAACTGCGTGAGAAACAAGCGGCTGAACAGGAACGCCTGAA -GCAACTTGAGAAAGAGCGGTTAGCGGCTCAGGAGCAGAAAAAGCAGGCTGAAGAAGCCGCAAAACAGGCCGAGTT -AAAGCAGAAGCAAGCTGAAGAGGCGGCAGCGAAAGCGGCGGCAGATGCTAAAGCGAAGGCCGAAGCAGATGCTAA -AGCTGCGGAAGAAGCAGCGAAGAAAGCGGCTGCAGACGCAAAGAAAAAAGCAGAAGCAGAAGCCGCCAAAGCCGC -AGCCGAAGCGCAGAAAAAAGCCGAGGCAGCCGCTGCGGCACTGAAGAAGAAAGCGGAAGCGGCAGAAGCAGCTGC -AGCTGAAGCAAGAAAGAAAGCGGCAACTGAAGCTGCTGAAAAAGCCAAAGCAGAAGCTGAGAAGAAAGCGGCTGC -TGAAAAGGCTGCAGCTGATAAGAAAGCGGCAGCAGAGAAAGCTGCAGCCGACAAAAAAGCAGCAGAAAAAGCGGC -TGCTGAAAAGGCAGCAGCTGATAAGAAAGCAGCGGCAGAAAAAGCCGCCGCAGACAAAAAAGCGGCAGCGGCAAA -AGCTGCAGCTGAAAAAGCCGCTGCAGCAAAAGCGGCCGCAGAGGCAGATGATATTTTCGGTGAGCTAAGCTCTGG -TAAGAATGCACCGAAAACGGGGGGAGGGGCGAAAGGGAACAATGCTTCGCCTGCCGGGAGTGGTAATACTAAAAA -CAATGGCGCATCAGGGGCCGATATCAATAACTATGCCGGGCAGATTAAATCTGCTATCGAAAGTAAGTTCTATGA -CGCATCGTCCTATGCAGGCAAAACCTGTACGCTGCGCATAAAACTGGCACCCGATGGTATGTTACTGGATATCAA -ACCTGAAGGTGGCGATCCCGCACTTTGTCAGGCTGCGTTGGCAGCAGCTAAACTTGCGAAGATCCCGAAACCACC -AAGCCAGGCAGTATATGAAGTGTTCAAAAACGCGCCATTGGACTTCAAACCGTAATCGCGATGTTGACTGTTCGG -ACGGTCAACATCAGGCACCGGTTGCCACGGGGTTCTGGTAGTTTTGTGTATTTTAGTTTGTTAACATTCTGCTAA -ATTATCGTGGGCCATCGGTCCAGATAAGGGAGATATGATGAAGCAGGCATTACGAGTAGCATTTGGTTTTCTCAT -ACTGTGGGCATCAGTTCTGCATGCTGAAGTCCGCATTGTGATCGACAGCGGTGTAGATTCCGGTCGTCCTATTGG -TGTTGTTCCTTTCCAGTGGGCGGGGCCTGGTGCGGCACCTGAAGATATTGGCGGCATCGTTGCTGCTGACTTGCG -TAACAGCGGTAAATTTAATCCGTTAGATCGCGCTCGTCTGCCACAGCAGCCGGGTAGTGCGCAGGAAGTACAACC -AGCTGCATGGTCCGCACTGGGCATTGACGCTGTAGTTGTCGGTCAGGTCACTCCGAATCCGGATGGTTCTTACAA -TGTTGCTTATCAACTTGTTGACACTGGCGGCGCACCGGGTACTGTACTTGCTCAGAACTCGTACAAAGTGAACAA -GCAGTGGCTGCGTTATGCTGGTCATACCGCCAGTGATGAAGTGTTTGAAAAACTGACCGGCATTAAAGGTGCGTT -CCGTACTCGTATTGCCTACGTTGTTCAGACCAACGGCGGTCAGTTCCCGTATGAACTGCGCGTATCTGACTATGA -CGGTTACAACCAGTTTGTCGTTCACCGTTCACCGCAGCCGCTGATGTCTCCGGCGTGGTCACCAGACGGTTCTAA -ACTGGCTTATGTGACCTTCGAAAGCGGTCGTTCCGCGCTGGTTATTCAGACGCTGGCAAATGGCGCTGTACGTCA -GGTGGCTTCATTCCCGCGTCACAACGGTGCACCTGCATTCTCGCCAGACGGCAGCAAACTGGCATTCGCCTTGTC -GAAAACCGGTAGTCTGAACCTGTACGTAATGGATTTGGCTTCTGGTCAGATCCGCCAGGTGACTGATGGTCGCAG -TAACAATACCGAACCGACCTGGTTCCCGGATAGCCAGAACCTGGCATTTACTTCTGACCAGGCCGGTCGTCCGCA -GGTTTATAAAGTGAATATCAACGGCGGTGCGCCACAACGTATTACCTGGGAAGGTTCGCAGAACCAGGATGCGGA -TGTCAGCAGCGACGGTAAATTTATGGTAATGGTCAGCTCCAATGGTGGGCAGCAGCACATTGCCAAACAAGATCT -GGCAACGGGAGGCGTACAAGTTCTGTCGTCCACGTTCCTGGATGAAACGCCAAGTCTGGCACCTAACGGCACTAT -GGTAATCTACAGCTCTTCTCAGGGGATGGGATCCGTGCTGAATTTGGTTTCTACAGATGGGCGTTTCAAAGCGCG -TCTTCCGGCAACTGATGGACAGGTCAAATTCCCTGCCTGGTCGCCGTATCTGTGATAATAATTAATTGAATAGTA -AAGGAATCATTGAAATGCAACTGAACAAAGTGCTGAAAGGGCTGATGATTGCTCTGCCTGTTATGGCAATTGCGG -CATGTTCTTCCAACAAGAACGCCAGCAATGACGGCAGCGAAGGCATGCTGGGTGCCGGCACTGGTATGGATGCGA -ACGGCGGCAACGGCAACATGTCTTCCGAAGAGCAGGCTCGTCTGCAAATGCAACAGCTGCAGCAGAACAACATCG -TTTACTTCGATCTGGACAAGTACGATATCCGTTCTGACTTCGCTCAAATGCTGGATGCACATGCAAACTTCCTGC -GTAGCAACCCGTCTTACAAAGTCACCGTAGAAGGTCACGCGGACGAACGTGGTACTCCGGAATACAACATCTCCC -TGGGTGAACGTCGTGCGAACGCCGTTAAGATGTACCTGCAGGGTAAAGGCGTTTCTGCAGACCAGATCTCCATCG -TTTCTTACGGTAAAGAAAAACCTGCAGTACTGGGTCATGACGAAGCGGCATACTCCAAAAACCGTCGTGCGGTAC -TGGTTTACTAAGAGAATTGCATGAGCAGTAACTTCAGACATCAACTATTGAGTCTGTCGTTACTGGTTGGTATAG -CGGCCCCCTGGGCCGCTTTTGCTCAGGCACCAATCAGTAGTGTCGGCTCAGGCTCGGTCGAAGACCGCGTCACTC -AACTTGAGCGTATTTCTAATGCTCACAGCCAGCTTTTAACCCAACTCCAGCAACAACTTTCTGATAATCAATCCG -ATATTGATTCCCTGCGTGGTCAGATTCAGGAAAATCAGTATCAACTGAATCAGGTCGTGGAGCGGCAAAAGCAGA -TCCTGTTGCAGATCGACAGCCTCAGCAGCGGTGGTGCAGCGGCGCAATCAACCAGCGGCGATCAAAGCGGTGCGG -CGGCATCAACGACGCCGACAGCTGATGCTGGTACTGCGAATGCTGGCGCGCCGGTGAAAAGCGGTAATGCAAACA -CGGATTACAATGCAGCTATTGCGCTGGTGCAGGATAAATCCCGCCAGGATGACGCAATGGTGGCATTTCAGAATT -TCATCAAAAATTACCCTGATTCAACTTACCTGCCAAACGCCAATTATTGGCTGGGTCAGTTAAACTACAACAAGG -GTAAAAAAGATGATGCGGCGTACTATTTTGCTTCGGTAGTGAAAAACTATCCGAAGTCACCAAAGGCTGCAGATG -CGATGTTTAAAGTCGGCGTCATCATGCAGGACAAAGGTGACACCGCAAAAGCGAAAGCCGTATACCAGCAGGTTA -TCAGTAAATACCCTGGTACTGATGGCGCTAAACAGGCACAAAAACGTCTGAACGCGATGTAATGCATAACACACG -ACCAGAAGTCGCATTATTTCTGGTCGTGTCGTGCGAATCATAAGCAGTTGAGTGATCTACATCGAAATTTTTGTT -GCGCTCAAGTCTGAAATCAGTAATATATGCCGCCGTTGCCACGGGATATCAAACAAACCGAAAGCAACGAAAAAG -TGGGTCGTTAGCTCAGTTGGTAGAGCAGTTGACTTTTAATCAATTGGTCGCAGGTTCGAATCCTGCACGACCCAC -CAATCGCTAAGGTGGAAGCGGTAGTAAAACGTGAAGGATAACGTTGCATGAGCAACGGCCCGAAGGGCGAGACGA -AGTCGAGTCATCCTGCACGACCCACCACTAACATAGTTAGTTGTAGTATCCAGCGTAGTATCGGGTGATTAGCTC -AGCTGGGAGAGCACCTCCCTTACAAGGAGGGGGTCGGCGGTTCGATCCCGTCATCACCCACCACCGGGTCGTTAG -CTCAGTTGGTAGAGCAGTTGACTTTTAATCAATTGGTCGCAGGTTCGAATCCTGCACGACCCACCAGTTTTAACA -TCGAAGACAGATGTTAAGCGTGTAGGATAACGTTGCGTCAGCAACGGCCCGTAGGGCGAGCGAAGCGAGTCATCC -TGCACGACCCACCACTAATGACGGTGGGTTCGGTGGAAGTAGTTTGTAGTATCCAGCGCAGTATCGGGTGATTAG -CTCAGCTGGGAGAGCACCTCCCTTACAAGGAGGGGGTCGGCGGTTCGATCCCGTCATCACCCACCACTCGGGTCG -TTAGCTCAGTTGGTAGAGCAGTTGACTTTTAATCAATTGGTCGCAGGTTCGAATCCTGCACGACCCACCAGTTTT -AACATCAAACTCAGATGTTAAGCGTGAAGGATAACGTTGCGCCAGCAACGGCCCGTAGGGCGAGCGAAGCGAGTC -ATCCTGCACGACCCACCAATCTTAAAGATTGGCCCCGAGTAAAAATCTTTCAGGTAACACCCGTATGGGTCGTTA -GCTCAGTTGGTAGAGCAGTTGACTTTTAATCAATTGGTCGCAGGTTCGAATCCTGCACGACCCACCAATTTAAAG -GTGGTTACTGGTAGAGAACGTGAAGGATAACGTTGCGTTAGCAACGGCCCGAAGGGCGAGACGAAGTCGAGTCAT -CCTGCACGACCCACCATCCTGAATGATTAAGGCAGCATAATCCCGCAAGGGGTCGTTAGCTCAGTTGGTAGAGCA -GTTGACTTTTAATCAATTGGTCGCAGGTTCGAATCCTGCACGACCCACCAATGTAAAAAAGCGCCCTAAAGGCGC -TTTTTTGCTATCTGCGATACTCAAAGATTCGAACCTGCAGCAGGTTTGAGTTGAGCGCAGCGAAACAACGGAGCC -GCTCGCGGCGACGGCCCGAAGGGCGAGCGAAGCGAGTCATCCTGCACGACCCACCAATGTAAAAAAGCGCCCTAA -AGGCGCTTTTTTGCTATTCAGGCATCCTCAATTTCACTTTGTAAACCTGATGACATCGTCAGAGCTTACTGTGCA -AGCAACTCTATGTCGGTGGAATTAGGCGTAAAATGACGCATCCTGCACATTAGGCGTAATTCGAGTGACTTTTCC -CCACCATTCGACTATCTTGTTTAGCATATAAAACAAATTACACCGATAACAGCGAATATTACGCTAATGTCGGTT -TTAACGTTAAGCCTGTAAAACGAGATGGTAAGATGAGCGTAATGTTTGATCCAGACACGGCGATTTATCCTTTCC -CCCCGAAGCCGACGCCGTTAAGCATTGATGAAAAAGCGTATTACCGCGAGAAGATAAAACGTCTGCTAAAAGAAC -GTAATGCGGTGATGGTTGCCCACTACTATACCGATCCCGAAATTCAACAACTGGCAGAAGAAACCGGTGGCTGTA -TTTCTGATTCTCTGGAAATGGCGCGCTTCGGTGCAAAGCATCCCGCTTCTACTTTGTTAGTCGCTGGGGTGAGAT -TTATGGGAGAAACCGCCAAAATTCTCAGTCCGGAAAAAACAATTCTGATGCCGACACTTCAGGCTGAATGTTCAC -TGGATCTCGGCTGCCCTGTTGAAGAATTTAACGCATTTTGCGATGCCCATCCCGATCGTACTGTCGTCGTCTACG -CCAACACTTCTGCTGCGGTAAAAGCGCGCGCAGATTGGGTGGTAACTTCAAGCATTGCCGTCGAACTTATTGATC -ATCTTGATAGTTTGGGTGAAAAAATCATCTGGGCACCCGACAAACATCTGGGGCGTTACGTGCAAAAACAGACGG -GTGGAGACATTCTATGCTGGCAGGGTGCCTGTATTGTGCATGATGAATTTAAGACTCAGGCGTTAACCCGCTTGC -AAGAAGAATACCCGGATGCTGCCATACTGGTGCATCCAGAATCACCACAAGCTATTGTCGATATGGCGGATGCGG -TCGGTTCCACCAGTCAACTGATCGCTGCTGCGAAAACATTGCCACATCAGAGGCTTATTGTGGCAACCGATCGGG -GTATTTTCTACAAAATGCAGCAGGCGGTGCCAGATAAAGAGTTACTGGAAGCACCAACCGCAGGTGAGGGTGCAA -CCTGCCGCAGCTGCGCGCATTGTCCGTGGATGGCCATGAATGGCCTTCAGGCCATCGCAGAGGCATTAGAACAGG -AAGGAAGCAATCACGAGGTTCATGTTGATGAAAGGCTGCGAGAGAGGGCGCTGGTGCCGCTCAATCGTATGCTGG -ATTTTGCGGCTACACTACGTGGATAACGAATAATAAGGCGTAACGTTACGCTTTGGGGGAAAGATGGATTTTTTT -AGTGTGCAGAATATCCTGGTACATATACCAATAGGGGCAGGCGGTTATGATCTCTCATGGATCGAAGCGGTAGGC -ACGATCGCCGGGTTGCTGTGTATTGGCCTTGCCAGTCTGGAGAAGATCAGCAACTACTTCTTTGGCCTGATCAAC -GTCACCTTGTTTGGCATTATTTTCTTTCAGATTCAGCTGTATGCCAGCCTGCTATTACAGGTGTTTTTCTTTGCC -GCGAATATTTACGGTTGGTATGCGTGGTCGCGACAAACCAGTCAGAACGAGGCGGAGTTGAAAATTCGCTGGTTG -CCATTGCCGAAGGCACTCAGCTGGTTGGCGGTTTGCGTTGTTTCGATTGGTCTGATGACGGTATTTATCAATCCG -GTGTTTGCATTTTTGACCCGCGTGGCAGTCATGATCATGCAAGCATTAGGATTACAGGTTGTGATGCCTGAACTG -CAACCGGACGCTTTCCCGTTCTGGGATTCATGCATGATGGTGTTATCTATCGTGGCAATGATTCTGATGACGCGT -AAGTATGTGGAAAACTGGCTGTTGTGGGTGATTATTAACGTGATTAGCGTCGTTATTTTTGCACTTCAGGGCGTT -TACGCCATGTCTCTGGAGTACATCATCCTGACCTTTATTGCGCTCAACGGCAGCCGGATGTGGATCAACAGCGCA -CGTGAAAGAGGCTCACGCGCGCTGTCCCATTAATGGTGATGATGTGAATGGCCAGACACCCCTTCATTCAGGTGG -CAGTCTGGCCCATGACAAGGTTGATATTCCATCTGAATGGTGGCGTGCTCAATCTGATAGTGATCCATCAGGTAG -TGTTGGATCTGATCCAACAAGGCATCGTGATCGTGTGGCGGGATCACCTGCACATGCAACGTCATCACCGGCTTC -TCGCCTACCATCCATACATGTACATGGTGCACATTGCGGACTTCCGGGATTTCCCGGCACATACGACGCTTCAGT -TCAGCGATATCCAGCGATACCGGTGCACCTTCAAGTAATTCATTCACGCTATCTTTCAACAGTCGCCACGCGCTA -CGCAGAACCAGAAGCGACACCAGTATCGAGAGAATGGGGTCAGCAGGTGTCCAGCCAGTCCAGATAATAATCAAC -GCGGCAATAATAGCCCCAACCGAACCCAGCAGGTCCCCGAGCACATGCAGTGCCGCTGCTCGTACGTTGAGGTTT -TTCTCTTCGCTGCCGTGATGAAGTAACCAGAAAGAAAGTATATTTGCCAGCAACCCAGCCACGGCAATTGCCATC -ATCATGCCGCCCTCGACCGGACGCGGCGTGCGGAAGCGTTCTATCGCCTCCCAGACAATCAAAATGGTAATTACC -ACGAGGGCTATGGCATTCACAAACGCCGCGAGCGTGGTCAGTCTTAGCCAACCGAAAGTGTGGCGAATGGTGGGA -GGACGACGTGAAAATTGCACGGCGAGTAGGGCGAAAAGCAGGGCGGCAGTATCGGTCAACATATGACCCGCATCG -GCCAGCAATGCCAGAGAACCAGAAAGAAAACCACCAACGACTTCTACCAGCATAAACCCGGCAGTCACGCCGAAA -GCATACAACAAGCGACGAGCATTATTATCTTCTGGCAGGTGTGAGGACGTGTGTGAGTGTGAGTGCGCCATGACG -AGTCATCCCTTAATTATTCTCACTTAACTTTATGACATCATACTGCTTTTAGAAGTGAAAAATTAAAAGGGAGAG -ACTCCGCTCTCCCATTATTGGCTATTTTGCAGGGTTACTGCGTGGTACCGTCGGTTTTGGTATCGACATCATTAT -TGATGCCATCACCGGTTTGTACCTTTTTATTGATATCCGGACAGCGACCATCTTTGCACATGGTGTTCTTGTGCT -CTTCATCTTTGGTCATTCCGTCATTGTTCATTGAAGAACCATCCGAATGCAGCATTGTGCCGCCAGAACCGGTAT -TTACCCCGTTATTGTCGACGTTATTTGGCGCGACATTTTCACGGGCGTCAGGGGCTACCTGGCCCGCATCAGCTG -CGGCGTTTGCCTGGCCGTTATTAGTTTGCGCTCCGCTATCGGCAGCCAGTGCGGCACCGCTGGCAAGGCTTAGAG -TGGCAGTCAGAAATAATGTGGCCAGTTTTGTCATTTTCATAGGATGCTCCTGTTATGGTCGTTATGTCGGATAAC -CTCTTCCAACAGTGCATTTGCAGGTGAATATAAGGCATTGGTTTAAGATTTCAGCCAGGTTATGAAACGCAGCAG -AGAATCTTGAAATAATTAACAAACAAAGGAGTTACAGTTAGAAATTGTAGGAGAGATCTCGTTTTTCGCGACAAT -CTGGCGTTTTTCTTGCTAATTCCAGGATTAATCCGTTCATAGTGTAAAACCCCGTTTACACATTCTGACGGAAGA -TATAGATTGGAAGTATTGCATTCACTAAGATAAGTATGGCAACACTGGAACAGACATGAATTATCAGAACGACGA -TTTACGCATCAAAGAAATCAAAGAGTTACTTCCTCCTGTCGCATTGCTGGAAAAATTCCCCGCTACTGAAAATGC -CGCGAATACGGTTGCCCATGCCCGAAAAGCGATCCATAAGATCCTGAAAGGTAATGATGATCGCCTGTTGGTTGT -GATTGGCCCATGCTCAATTCATGATCCTGTCGCGGCAAAAGAGTATGCCACTCGCTTGCTGGCGCTGCGTGAAGA -GCTGAAAGATGAGCTGGAAATCGTAATGCGCGTCTATTTTGAAAAGCCGCGTACCACGGTGGGCTGGAAAGGGCT -GATTAACGATCCGCATATGGATAATAGCTTCCAGATCAACGACGGTCTGCGTATAGCCCGTAAATTGCTGCTTGA -TATTAACGACAGCGGTCTGCCAGCGGCAGGTGAGTTTCTCGATATGATCACCCCACAATATCTCGCTGACCTGAT -GAGCTGGGGCGCAATTGGCGCACGTACCACCGAATCGCAGGTGCACCGCGAACTGGCATCAGGGCTTTCTTGTCC -GGTCGGCTTCAAAAATGGCACCGACGGTACGATTAAAGTGGCTATCGATGCCATTAATGCCGCCGGTGCGCCGCA -CTGCTTCCTGTCCGTAACGAAATGGGGGCATTCGGCGATTGTGAATACCAGCGGTAACGGCGATTGCCATATCAT -TCTGCGCGGCGGTAAAGAGCCTAACTACAGCGCGAAGCACGTTGCTGAAGTGAAAGAAGGGCTGAACAAAGCAGG -CCTGCCAGCACAGGTGATGATCGATTTCAGCCATGCTAACTCGTCCAAACAATTCAAAAAGCAGATGGATGTTTG -TGCTGACGTTTGCCAGCAGATTGCCGGTGGCGAAAAGGCCATTATTGGCGTGATGGTGGAAAGCCATCTGGTGGA -AGGCAATCAGAGCCTCGAGAGCGGGGAGCCGCTGGCCTACGGTAAGAGCATCACCGATGCCTGCATCGGCTGGGA -AGATACCGATGCTCTGTTACGTCAACTGGCGAATGCAGTAAAAGCGCGTCGCGGGTAAGGTTTAATTGTCGGATG -CGCCGTCAGAGTGGCGTATCCGATGAATCACCACAGGCCTGATAAGTCGCGCAGCGTCGCATCAGGCAATGTGCT -CCATTGTTAGCAACAAAAAAGCCGACTCACTTGCAGTCGGCTTTCTCATTTTAAACGAATGACGTTTACTTCGCT -TTACCCTGGTTTGCAACCGCCGCTGCTTTCGCTGCGATCTCGTCAGCATTACCCAGATAATAGCGTTTCAGCGGT -TTGAAATTCTCGTCGAACTCATACACCAGCGGCACGCCAGTCGGGATATTAAGCTCAAGAATCTCTTCTTCGCTC -ATGTTATCAAGATATTTCACCAGCGCACGTAAAGAGTTACCGTGTGCAGCGATGATCACGCGCTCACCGCTCTTC -ATACGCGGCAGAATAGTTTCATTCCAGTAAGGGATCACGCGGTCAATGGTCAGCGCCAGGCTTTCCGTCAGCGGC -AGTTCTTTCTCGCTCAGTTTCGCGTAACGCGGATCGTGACCCGGATAACGCTCATCATCTTTAGTCAGTTCCGGC -GGAGTCACTGCAAAACCACGACGCCACTGTTTCACCTGCTCGTCGCCATACTTTTCAGCAGTTTCCGCTTTGTTC -AGACCCTGCAACGCACCGTAGTGACGTTCGTTCAGTTTCCAGGATTTCTCAACGGGCAGCCATGCCTGATCCAGT -TCGTCCAGCACATTCCACAGGGTATGGATAGCGCGTTTCAGCACAGAAGTGTAAGCAAAGTCAAAGCTGTAACCT -TCCTCTTTCAGCAGCTTACCTGCTGCTTTTGCTTCGCTTACGCCTTTCTCAGACAGATCCACGTCGTACCAACCG -GTGAAACGGTTTTCTTTGTTCCACTGACTTTCGCCATGACGAACCAGAACCAGCTTAGTTACAGCCATATACTTA -CTCCTCAAATCATCTTTTAATGATAATAATTCTCATTATATTGCCGCGACGAAGCAACAGCAATGCTTACGCATA -ACCATAGCGAAAATAGTGGCGCAGTGTAAGGTTGTTGTGAATATTGAGTTGCAAATATGTCGGTGTTTGCTGGTG -ATTTGAACAATATGAGATAAAGCCCTCATGACGAGGGCGTAACATTACTCAGCAATAAACTGATATTCCGTCAGG -CTGGAATACTCTTCGCCAGGACGCAGGAAGCAGTCCGGTTGCGGCCATTCAGGGTGGTTCGGGCTGTCCGGTAGA -AACTCGCTTTCCAGAGCCAGCCCTTGCCAGTCGGCGTAAGGTTCGGTTCCCCGCGACGGTGTGCCGCCGAGGAAG -TTGCCGGAGTAGAATTGCAGAGCCGGAGCGGTGGTGTAGACCTTCAGCTGCAATTTTTCATCTGCTGACCAGACA -TGCGCCGCCACTTTCTTGCCATCGCCTTTGGCCTGTAACAAGAATGCGTGATCGTAACCTTTCACTTTGCGCTGA -TCGTCGTCGGCAAGAAACTCACTGGCGATGATTTTGGCGCTGCGGAAATCAAAAGACGTTCCGGCGACAGATTTC -AGGCCGTCGTGCGGAATGCCGCCTTCATCAACCGGCAGATATTCGTCCGCCAGAATCTGCAACTTGTGATTGCGC -ACGTCAGACTGCTCGCCGTCAAGATTGAAATAGACGTGATTAGTCATATTCACCGGGCAAGGTTTATCAACTGTG -GCGCGATAAGTAATGGAGATACGGTTATCGTCGGTCAGACGATATTGCACCGTCGCGCCGAGATTACCCGGGAAG -CCCTGATCACCATCATCTGAACTCAGGGCAAACAGCACCTGACGATCGTTCTGGTTCACAATCTGCCAGCGACGT -TTGTCGAACCCTTCCGGCCCGCCGTGCAGCTGGTTAACGCCCTGACTTGGCGAAAGCGTCACGGTTTCACCGTCA -AAGGTATAACGGCTATTGGCGATACGGTTGGCATAACGACCAATAGAGGCCCCCAGAAACGCGGCCTGATCCTGA -TAGCATTCCGGGCTGGCACAGCCGAGCAGCGCCTCGCGGACGCTGCCATCGGAAAGCGGAATACGGGCGGAAAGT -AAAGTCGCACCCCAGTCCATCAGCGTGACTACCATCCCTGCGTTGTTACGCAAAGTTAACAGTCGGTACGGCTGA -CCATCGGGTGCCAGTGCGGGAGTTTCGTTCAGCACTGTCCTGCTCCTTGTGATGGTTTACAAACGTAAAAAGTCT -CTTTAATACCTGTTTTTGCTTCATATTGTTCAGCGACAGCTTGCTGTACGGCAGGCACCAGCTCTTCCGGGATCA -GCGCGACGATACAGCCGCCAAATCCGCCGCCGGTCATGCGTACGCCACCTTTGTCGCCAATCACAGCTTTGACGA -TTTCTACCAGAGTGTCAATTTGCGGCACGGTGATTTCGAAATCATCGCGCATAGAGGCATGAGACTCCGCCATCA -ACTCGCCCATACGTTTCAGGTCGCCTTGCTCCAGCGCGCTGGCAGCTTCAACGGTGCGGGCGTTTTCAGTCAGTA -TATGACGCACGCGTTTTGCCACGATCGGGTCCAGTTCATGCGCAACAGCGTTGAACTCTTCAATGGTGACATCAC -GCAGGGCTGGCTGCTGGAAGAAACGCGCACCGGTTTCGCACTGTTCACGACGGGTGTTGTATTCGCTGCCAACCA -GGGTACGTTTGAAGTTACTGTTGATGATGACGACAGCCACACCTTTGGGCATGGAAACTGCTTTGGTCCCCAGTG -AGCGGCAATCGATCAGCAAGGCATGATCTTTCTTGCCGAGCGCGGAAATTAGCTGATCCATGATCCCGCAGTTAC -AGCCTACAAACTGGTTTTCTGCTTCCTGACCGTTAAGCGCGATTTGTGCGCCGTCCAGCGGCAGATGATAAAGCT -GCTGCAATACGGTTCCGACCGCGACTTCCAGTGAAGCGGAAGAACTTAACCCGGCACCCTGCGGCACATTGCCGC -TGATCACCATGTCCACGCCGCCGAAGCTGTTGTTACGCAGTTGCAGATGTTTCACCACGCCACGAACGTAGTTAG -CCCATTGATAGTTTTCATGTGCGACAATGGGCGCATCGAGGGAAAACTCGTCGAGCTGATTTTCATAATCGGCTG -CCATCACGCGAACTTTACGGTCATCGCGTGGTGCACAACTGATCACGGTTTGATAATCAATCGCGCAGGGCAGAA -CGAAACCGTCGTTGTAGTCGGTGTGTTCACCAATCAAATTCACGCGGCCAGGCGCCTGAATGGTGTGAGTGGCAG -GGTAGCCAAATGCGTTGGCAAACAGAGATTGTGTTTTTTCTTTCAGACTCATTTCTTACACTCCGGATTCGCGAA -AATGGATATCGCTGACTGCGCGCAAACGCTCTGCTGCCTGTTCTGCGGTCAGGTCTCGCTGGGTCTCTGCCAGCA -TTTCATAACCAACCATAAATTTACGTACGGTGGCGGAGCGCAGCAGAGGCGGATAAAAGTGCGCGTGCAGCTGCC -AGTGTTGATTCTCTTCGCCATTAAATGGCGCGCCGTGCCAGCCCATAGAGTAGGGGAAGGAGCACTGGAAGAGGT -TGTCATAACGACTGGTCAGCTTTTTCAACGCCAGCGCCAGATCGCTGCGCTGGGCGTCGGTCAAATCGGTGATCC -GTAAAACGTGGGCTTTGGGCAGCAGTAGCGTTTCGAACGGCCAGGCAGCCCAGTAAGGCACGACGGCTAACCAGT -GTTCGGTTTCGACAACGGTACGGCTACCGTCTGCCAGCTCGCGCTGAACATAATCCACCAGCATTGGTGATTTCT -GTTCGGCAAAATATTCTTTTTGCAGGCGGTCTTCGCGCTCAGCTTCGTTAGGCAGGAAGCTATTTGCCCAAATCT -GACCGTGCGGATGCGGGTTAGAGCAGCCCATCGCCGCGCCTTTGTTTTCAAAAACCTGCACCCATGGGTACGTTT -TCCCCAGTTCTGCGGTTTGCTCCTGCCAGGTTTTGACGATTTCCGTCAATGCTGCAACGCTGAGCTCTGGCAGCG -TTTTACTGTGATCCGGTGAAAAGCAGATCACCCGGCTGGTGCCGCGCGCGCTCTGGCAACGCATCAGCGGATCGT -GACTTTCTGGCGCATCTGGCGTGTCAGACATCAAAGCCGCAAAGTCATTAGTGAAAACGTAAGTCCCGGTGTAAT -CGGGGTTTTTATCGCCTGTCACCCGCACATTACCTGCGCAGAGGAAGCAATCTGGATCGTGCGCAGGTAACACCT -GTTTGGCTGGCGTTTCCTGCGCCCCCTGCCAGGGGCGCTTAGCGCGGTGCGGTGAAACCAGAATCCATTGCCCGG -TGAGCGGGTTGTAGCGGCGATGTGGATGATCAACGGGATTAAATTGCGTCATGGTCGTTCCTTAATCGGGATATC -CCTGTGGATGGCGTGACTGCCAGTGCCAGGTGTCCTGCGCCATTTCATCGAGTGTGCGCGTTACGCGCCAGTTCA -GTTCACGGTCGGCTTTGCTGGCGTCCGCCCAGTAGGCCGGAAGGTCGCCCTCGCGACGCGGTGCAAAATGATAAT -TAACCGGTTTGCCGCAGGCTTTGCTGAAGGCATTAACCACGTCCAGCACGCTGTTGCCTACGCCAGCGCCGAGGT -TGTAGATGTGTACGCCTGGCTTGTTCGCCAGTTTTTCCATCGCCACGACGTGACCGTCCGCCAGATCCATTACGT -GGATGTAATCGCGTACGCCAGTACCATCTTCGGTCGGATAATCGTTACCAAAAATCGCCAGCGAGTCGCGACGGC -CTACAGCAACCTGGGCGATGTATGGCATCAGGTTATTCGGAATGCCTTGCGGATCTTCGCCCATATCGCCCGACG -GATGCGCGCCAACCGGGTTGAAGTAGCGCAGCAGGGCAATGCTCCAGTCCGGCTGGGCTTTTTGCAGATCGGTGA -GGATCTGTTCCACCATCAGCTTGCTTTTGCCGTAAGGGCTTTGCGGTGTGCCGGTCGGGAAGCTTTCAACGTATG -GAATTTTGGGCTGATCGCCATAAACGGTGGCGGAGGAGCTAAAAATAAAGTTTTTGACGTTAGCGGCGCGCATGG -CGCTAATCAGGCGCAGAGTGCCGTTGACATTGTTGTCGTAATATTCCAGCGGTTTTTGTACCGATTCGCCCACGG -CTTTCAGCCCGGCGAAGTGGATCACGGTGTCGATAGCGTGATCGTGCAGGATCTCGGTCATCAACGCTTCGTTAC -GAATATCGCCTTCAACAAACGTTGGATGTTTGCCGCCTAAACGCTCGATAACAGGCAGTACGCTGCGCTTACTGT -TACAGAGGTTATCAAGAATGATGACATCATGACCGTTTTGCAGTAATTGCACACAGGTATGACTTCCAATGTAAC -CGCTACCACCGGTAACCAGAACTCTCATAATTCGCTCCATTAGGCTTATGGTATGAAATAACCATAGCATAACAA -AGATGCGAAAAGTGTGACATGGAATAAATTAGTGGAATCGTTTACACAAGAATTTAGCCGTTTTTTATGCGCGAT -TAAGTGATTATAAAACAGAGGGTTTATGAATGATTGCGCTTTTTATCTGAAAAAAGACGCGGTTTCATGCCTGCA -TGCGTCGAACCGTTGGCCGGAGAGGGTGCTAAGGCCGCCTCCGGCAAGGTCAGCACTACCGACTCAATATATTTT -TGTCAGCACATAGCGATAGAGTCCACCGTCCGGCACGAACTCAAGACGATGGGTAATACAGGCAGGCGCATCTTC -AGCGTGGTGCGAAACAAACAACAATTGCGTTTCACCTTCGCTAATCAGCACATCAACAAAACGGCGGATAAGCTG -GCGATTCAGCGGATCAAGCCCCTGTAGTGGTTCATCGAGAATAAGCAACGTCGGATGTTTCACCAGTGCGCGGAC -AATCAGCGCCAGACGCTGCTGTCCCCAGGAAAGACTATGGAACGGAGCGTCAGCCGTGCGTTTATCAATGCCGAG -AATATCCAGCCACTGCTGCACCAGTTTTTGCTGGCGATCCGAAACGGCCTGATAAATGCCAATCGAATCAAAATA -GCCAGAAAGAATCACATTACGCACGGTAGTGCTGACCCGGTAATCCAGATGCAAACTACTGCTGACGTAACCGAT -ATGCTTTTTGATATCCCAGATGGTTTCGCCGCTGCCGCGACGTCGTCCGAAAAGCGTCAAATCGTTGCTGTAACC -TTGCGGATGATCGCCAGTAACCAGGCTTAATAACGTCGATTTTCCTGCACCATTTGGCCCGACAATTTGCCAGTG -TTCGCCTGGATTCACCTGCCAGCTAAGGTTATTAAGAATGGGGCGATCGTTATAAGAAACCACGCCATTGTTCAG -CACAATGCGCGGTTCGTTGGCGGGTAAGGCGTGACGTGCTGAAGGTTCATCCGGCTCCGGCAGTTGCACACCTTC -AAGCTGTTCACTATGCGCCAGTTGCGCGACGAGTGCTTGTTGGAGCAGTTCCTCTTTAGCGCCAGTTTCCGCTAA -CGTGCAATCCGCCAGCACGCCAGCAAACTGGACAAACTCCGGGATCTCATCGAAGCGATTGAGCACCAGTACCAG -AGTAATACCGGACTGATGTAACGAGGCGAGTCGCTCAGCCAGCTGCTGACGTGAGGCAACATCCAGGCCATCGAA -CGGCTCATCAAGAATCAACAAGTCAGGCTCCGACATCAGCGCCTGACACAGCAGGGTTTTTCGCGTCTCGCCAGT -GGAAAGGTATTTAAAGCGTCGGTCGAGGAGGGCGGTAATACCGAACTGCTGCGCCAGTTGCATGCAACGCGGTGC -ATCCTTTACTTCATCCTGAATGATCTCAGCCGTAGTGCGTCCGGTGTCATCTTCGCCAGGGCCGAGCATATCGGT -GTTATTCCGCTGCCATTCGTCGCTGACGAGTTTTTGCAATTGCTCGAAGGAGAGACGAGTGATGTGGGAAAACTG -GCTTTGCCGTTCACCTTTCAAAAGCGGAAGTTCCCCCGCCAGCGCGCGGGCCAGGGCCGATTTCCCGCTTCCATT -CGAACCGACAAACGCCCAACTATCACCCGCGTTTAACGTTAGCTGAGGCAATTGCAGCGTTTTTGTGTCGCTAAG -ACGAAACGTGCCTTGCAAAATTTGCAACGATGACATTTTATATCCCACTTTGTGCAGCGATTACTGACAGGGATA -CGTGTTTCATAACAAATTGTCAACACGCTTAGCACAGCGTGGCGATAATCACGCTGTCGGCATTAAAGTAGGCCG -TGACATTCTGTCCTTGCTGAAGAGAAGTCGCTTCATTTACCGGCACTGTGGCGCACAGTGTTTGCCCGTCGGGTA -GCGCCATTAATACTTCGCACTGCTCTGCGCCGCGCTCAATATGACTAATAATACCCGGTAATTGGTTGTCAGCGT -TTTGCGCGACCGCCTCGTCCTGAGTAATACCTACCCACGGCGCTTTTAGCAATATCAACACTTCTTTGCCTTCAT -CCAGCCCCAGACGCGCGCCGCTTTGTGCGGTAATTGCGACTTTCAGGCGTGTTTTTCCGTCAGCCAGTAAGACAT -CAACATGCTGTTGAACGTCATCATGATCGCGGGCGGTGATGGTACCGAACCACTGGTTACGGGCGCTGGTTTGCA -GTGAAAAACGTGAGATCGCGGCCAGCAGGCTGTTCAGCGGCAGGGCGTCATCGTCACTTAACACATCAAAGGCTT -TTTGCTGGATTTGCGCCAGTAAGTCATAGAGCTGAATCAGTCGCTGACCATAGCGGGTCAGTACTGCGCCGCCGC -CACCTTTACCGCCTGTTGCGCGCTCGACCAGAATATGCTCACTTAACTGATTCATCTCGTTAATGGCATCCCAGG -CGCTTTTATAGCTAATACCGGCATCTTTCGCTCCCTGGCTAATGGAACCGGAAAGCGCAATGTGTTTTAGTAGCG -AAATGCGGCGCGGGTCGGCGAATAATTTTTGTTGGAGCTTAAGGGTGAGAAGGATTTCGGCCTGCATAACAATGT -CCTGGCAAAAGTCTTATTGTGACGGAAAACGAACGCCACGCAAAGCTGACCGCACAAAAGGGGAGTGCTTTTCTG -TGCTTAGCGGTTAGAATAGTCTCATGACTATATCTGGAGTTGACCATGTTAGAGTTATTAAAAAGTCTGGTATTC -GCCGTAATCATGGTACCTGTCGTGATGGCCATCATCCTGGGTCTGATTTACGGTCTTGGTGAAGTATTCAACATC -TTTTCTGGTGTTGGTAAAAAAGACCAGCCCGGACAAAATCATTGATTCCCTGAATGCCCGCTTAGTCGGGCATTT -TCTTTTTCTCAACTTCCTGCTTTTCCTGCCGATATTTTTTCTTATCTACCTCACAAAGGTTAGCAATAACTGCTG -GGAAAATTCCGAGTTAGTCGTTATATTGTCGCCTACATAACGTTACATTAAGGGGTTACCAATGGCTCGTAAATG -GTTGAACTTGTTTGCCGGGGCGGCACTCTCTTTCGCTGTTGCTGGCAATGCACTGGCAGATGAAGGGAAAATCAC -GGTGTTCGCCGCCGCATCACTGACTAACGCAATGCAGGACATTGCTACGCAGTTTAAAAAAGAGAAAGGCGTGGA -TGTGGTTTCTTCTTTCGCTTCGTCATCTACTCTCGCCCGTCAGATTGAAGCGGGTGCGCCTGCGGATCTGTTTAT -TTCTGCCGATCAGAAATGGATGGATTATGCGGTTGATAAAAAAGCGATCGATACAGCTACGCGTCAGACACTGCT -CGGCAATAGCCTGGTCGTTGTAGCACCGAAAGCCAGCGTGCAGAAAGATTTCACCATCGACAGCAAAACCAACTG -GACTTCACTGCTGAATGGCGGTCGCCTGGCGGTTGGCGATCCGGAACATGTTCCCGCTGGCATTTATGCAAAAGA -AGCACTGCAAAAACTGGGCGCATGGGATACGCTCTCTCCGAAACTGGCCCCAGCGGAAGATGTTCGTGGGGCGCT -GGCGCTGGTCGAACGTAACGAAGCGCCTCTGGGCATTGTCTACGGTTCTGACGCAGTTGCCAGCAAAGGGGTAAA -AGTGGTTGCCACCTTCCCGGAAGATTCACATAAAAAAGTGGAATATCCGGTTGCTGTTGTGGAAGGGCATAACAA -TGCGACAGTGAAAGCATTTTATGATTATCTGAAGGGACCGCAGGCAGCGGAAATCTTTAAACGTTACGGATTTAC -AATCAAGTAATGATACTGACCGATCCAGAATGGCAGGCAGTTTTATTAAGCCTGAAAGTTTCTTCCCTGGCTGTG -CTGTTTAGCCTGCCGTTTGGGATCTTTTTTGCCTGGTTACTGGTGCGTTGCACGTTTCCGGGCAAAGCTCTGCTC -GACAGCGTACTGCATCTACCGCTGGTGTTACCGCCCGTGGTCGTCGGTTACTTATTATTAGTTTCGATGGGACGG -CGCGGATTTATCGGTGAACGTCTGTATGACTGGTTTGGTATTACCTTCGCCTTTAGCTGGCGCGGCGCGGTTCTC -GCTGCCGCCGTCATGTCGTTTCCGCTGATGGTGCGGGCAATTCGTCTGGCGCTGGAAGGGGTTGATGTCAAACTG -GAACAGGCCGCAAGAACACTGGGGGCCGGGCGCTGGCGCGTTTTCTTTACTATCACGTTACCGCTGACCTTACCG -GGAATTATTGTTGGTACGGTACTGGCTTTTGCTCGTTCTCTCGGTGAGTTTGGTGCAACCATCACCTTTGTGTCG -AACATTCCTGGTGAAACGCGAACCATTCCTTCTGCCATGTATACCCTGATCCAGACCCCCGGCGGGGAAAGTGGA -GCGGCGAGACTGTGCATTATTTCTATTGCGCTGGCGATGATCTCCCTGTTGATTTCAGAATGGCTGGCCAGAATC -AGCCGTGAACGGGCGGGGCGCTAATCATGCTGGAACTGAATTTTTCCCAGACGTTGGGCAACCATTGCCTGACTA -TTAATGAAACGCTGCCCGCCAATGGCATCACTGCTATCTTTGGCGTCTCCGGTGCCGGAAAAACTTCGCTGATTA -ACGCCATCAGTGGACTGACGCGCCCGCAAAAAGGGCGGATTGTCCTCAATGGGCGGGTACTAAATGATGCCGAAA -AAGGTATCTGCCTGACGCCGGAAAAGCGTCGCGTTGGCTATGTTTTTCAGGATGCGCGGCTGTTCCCGCATTACA -AAGTGCGTGGCAATCTGCGCTACGGCATGTCGAAAAGTATGGTCGATCAGTTCGATAAGCTGGTGGCGCTTTTAG -GCATTGAACCGTTGCTTGACCGTTTACCAGGCAGCCTGTCCGGAGGCGAAAAACAGCGCGTGGCGATTGGTCGGG -CTTTGCTGACAGCACCGGAATTGCTGTTGCTGGATGAACCGCTGGCGTCACTGGATATTCCGCGTAAACGCGAAC -TGTTGCCTTATCTGCAACGGCTGACACGGGAAATCAACATTCCGATGTTGTATGTCAGCCATTCGCTGGATGAGA -TCCTCCATCTGGCAGACAGAGTGATGGTACTGGAAAACGGTCAGGTGAAAGCCTTTGGCGCGCTGGAGGAAGTGT -GGGGCAGTAGCGTGATGAATCCGTGGCTGCCGAAAGAGCAACAAAGTAGCATTCTGAAAGTGACGGTGCTTGAGC -ATCATCCGCATTACGCGATGACCGCGCTGGCGCTGGGCGATCAGCATTTGTGGGTCAATAAGCTGGACGAACCGC -TGCAAGCTGCGCTACGTATCCGCATTCAGGCTTCCGATGTTTCTCTGGTTTTACAACCGCCGCAGCAAACCAGCA -TTCGTAACGTATTGCGGGCAAAAGTTGTTAATAGTTATGACGACAACGGCCAGGTGGAAGTGGAACTGGAAGTCG -GCGGTAAAACGCTGTGGGCGCGTATCAGCCCGTGGGCCAGGGATGAACTGGCGATCAAACCTGGCCTGTGGCTGT -ACGCGCAAATTAAAAGTGTGTCGATAACCGCCTGATTAAATCAGGTGGCTATAAATGAACTGGGCAATGCTGTCG -GTGGTGTTATCACCAATCACAATGTTGGCGCGCGCTTTTACCGCGTCATCGGCGTTGCCCATCGCCACGCCTGTA -CCAGCGGCTTCCAGCATACTGATATCATTAAAGTTATCGCCGAATGCCACGACGTTTTCCATCGACCAACCTTGC -GCCTCAACCCATTTCGTCAAACGTTTACCTTTGCTGTTGCCGCCGCGTGCAATATCAACCTGATCGTGCCAGGAC -CATTCACACTCCAGTCCCAGTTCATGTTCGACATGCTTACCAAAATGCTGCAATTGCGGCAGGTCATCGTGCGTC -AGGGCGAACTTCCATACGGCGTTAACTTGTTGCGCCGTTTCAGCCAGAGAAGCGACTTGTGTGAAAGTCGGACGC -TGTTCCGGCGGCAGGGTTTGCGCCCAGTTAGATGTGCGAATGACATGCCCGGTCGGGTGCTCATAGACCATTGCA -TCATCGACATACATCAGACCGTGAATGTGGTGTTCATTCAGCATCTCAATGAGTTGCAGGGCTTTAATAACGGGC -ATTGGGTCCGCTTCCAGCACGGTTTTTGCATGATAATCATACAAATAGGTGCCATTACAGCAAATAGCAGGTGTA -TCCAGCGCCAGCGCCTGATAAAAAGGATGAATAGCGACGTGATGGCGACCTGTGACGATGATTAATTGATAGCCT -GCTTCGCGAGCGCGGGCCAGGGCTTCTATCGATGAAGGAAGCAGGGTCTTTTTCGGGGTCAATAAGGTGCCGTCT -AAGTCGAGAGCAATCACGCGTGTGGTCATGGCGTATTCCAGATTAAGGTTAAGAATTTTCGTCTGCGCGAATGGT -ACACCGATACCACTATCGGACAAAATTCTGCGTTTTAATTCAGCATTCACCGCCAAAAGCGACTAATTTTAGCTG -TTACAGTCAGTTGCTAAATGCAAAGGAGCATTCATGAAGCAAACAGTTTATATCGCCAGCCCTGAGAGCCAGCAA -ATTCACGTCTGGAATCTGAATCATGAAGGCGCACTGACGCTGACACAGGTTGTCGATGTGCCGGGGCAGGTGCAG -CCGATGGTGGTCAGCCCGGACAAACGTTATCTCTATGTTGGTGTTCGCCCTGAGTTTCGCGTCCTGGCGTATCGT -ATCGCCCCGGACGATGGCGCACTGACCTTTGCCGCAGAGTCTGCGCTGCCGGGTAGTCCGACGCATATTTCCACC -GATCACCAGGGGCAGTTTGTCTTTGTAGGTTCTTACAATGCGGGTAACGTGAGCGTAACGCGTCTGGAAGATGGC -CTGCCAGTGGGCGTCGTCGATGTGGTCGAGGGGCTGGACGGTTGCCATTCCGCCAATATCTCACCGGACAACCGT -ACGCTGTGGGTTCCGGCATTAAAGCAGGATCGCATTTGCCTGTTTACGGTCAGCGATGATGGTCATCTCGTGGCG -CAGGACCCTGCGGAAGTGACCACCGTTGAAGGGGCCGGCCCGCGTCATATGGTATTCCATCCAAACGAACAATAT -GCGTATTGCGTCAATGAGTTAAACAGCTCAGTGGATGTCTGGGAACTGAAAGATCCGCACGGTAATATCGAATGT -GTCCAGACGCTGGATATGATGCCGGAAAACTTCTCCGACACCCGTTGGGCGGCTGATATTCATATCACCCCGGAT -GGTCGCCATTTATACGCCTGCGACCGTACCGCCAGCCTGATTACCGTTTTCAGCGTTTCGGAAGATGGCAGCGTG -TTGAGTAAAGAAGGCTTCCAGCCAACGGAAACCCAGCCGCGCGGCTTCAATGTTGATCACAGCGGCAAGTATCTG -ATTGCCGCCGGGCAAAAATCTCACCACATCTCGGTATACGAAATTGTTGGCGAGCAGGGGCTACTGCATGAAAAA -GGCCGCTATGCGGTCGGGCAGGGACCAATGTGGGTGGTGGTTAACGCACACTAACCGCTGATTTACCCGGCGCAG -TCTCTCCTGCGCCGGTGTATTAACCTATCTCCTGTAACGCGTGTCTCTGGCGTTCGACGATATTGGTCCACAAAT -TGTCTTTATCGTCAGTCCATAAATTAATCAGCAAGGCAAAAAAGCGTTCTGCTGCTGGAGAAAGTACGGCATCTT -TACGGCGAATTATTCCCAATGTTCGACGTATAACGGGTTCCACCAATGGGATACCAATAATCGAAGAATAGGGCG -CATGAGGCATTGCCAGGCCAGGAAGCGCCGAAATCCCCAGTCCCGCCTCCACCAGTCCTAATGACGTCGAAAGAT -GACGCACTTCGTAAAACCAGTCCAGCTTCCAGGGCTTGTCGGCCAGCTGTTGTTCTATCAACAGTCGGTTGCCGC -TGGAGGAGCGTACGCCAATCATTTTGTAACCCACTAACTCCTGCCATTCTACAAGCTGCTTTTTGGCCAATGGAT -GGTCACGCCGACAGGCCAGCACGAACGGCTCGTTGACCAGTGGGGTAAAATCAATGGATGAATTTGTGACGTTGT -TCATGTTTATGCCAAAGTCTGATTCGTTACACAGCACCGATTCCATGCAATTATTCGTGCCTTGTTCCAGAATCC -GCACTTTAATATTGGGATACAGCTCATTAAATTTACCGATTGCCAGCGGTAAAAAATAAAATACTGCGGTCGGAA -TACACGCTAACGTCACCATACCACGATGATAAGCATTCATATCACGAATATTAAAAAGCGTTTCATCGAATTTCT -TTATTAATTCCCGCGCCTCCGGGAGCAACCTTTTTCCTGCTTTTGTTAACGTAACCTTGCGAGTTGTACGCTCAA -ATAGTTGAACATGTAAATCTTCCTCCATCTTTTTTATTCTTCGCGTTAATGCAGGTTGCGTAATATTGAGTAATT -TAGCGGCATTGTTAAACGAACTGGACTCTGCCAGTATGACAAATGCCTTCATACTTGATAATTCATGCTTCATTA -TTACTCCGGAAAATGGAAGCGACGATTTTGGGTGGCTGGCCGTTAAAAATTTTAACTGCATTTAGCCAACTTAAA -TTAATGAAAAAATGTTATTAATCGTTGAGCTAAAGTCATTAGAGATGCTTTGCCCTTAATGTAACCATATCGCAA -TAAGTTATGTTTTTAAATTGAGGGCATTATTATGAAAAAAATACCCTGCGTGATGATGCGAGGTGGAACCTCGAG -GGGCGCGTTCCTGTTAGCGGAACATTTACCCGAAGATCAAACGCAGCGCGATAAAATATTGATGGCAATTATGGG -TTCCGGTAACGATCTGGAAATTGACGGTATTGGCGGCGGTAATCCACTGACCAGTAAAGTCGCCATTATTAGCCG -TTCCAGCGATCCGCGTGCTGATGTCGATTATCTGTTTGCGCAGGTAATCGTTCATGAGCAACGTGTCGATACCAC -GCCTAACTGCGGCAATATGCTGTCTGGTGTTGGGGCATTCGCCATTGAAAATGGTTTGATTGCAGCGACTTCGCC -AGTTACTCGCGTACGTATCCGCAACGTCAATACGGGTACGTTCATCGAAGCTGATGTGCAAACGCCAAATGGTGT -TGTCGAGTACGAGGGTAGCGCCAGAATTGACGGCGTACCGGGTACTGCCGCACCGGTTGCGCTCACTTTCCTGAA -TGCCGCTGGAACCAAAACCGGAAAAGTTTTCCCGACTGATAATCAGATTGATTATTTTGACGATGTCCCGGTGAC -CTGTATCGATATGGCGATGCCAGTCGTCATTATTCCGGCTGAATATCTGGGAAAAACAGGTTATGAATTACCGGC -GGAACTGGATGCCGACAAAGCATTATTAGCCCGCATTGAATCTATCCGTCTACAAGCGGGTAAAGCAATGGGCTT -AGGTGATGTCAGTAATATGGTTATCCCTAAACCTGTGCTTATTTCTCCAGCGCAGAAAGGCGGGGCAATTAATGT -GCGTTATTTTATGCCGCATTCTTGCCATCGCGCGCTGGCGATAACCGGTGCTATTGCTATTTCCAGTAGTTGTGC -ATTGGAAGGCACCGTCACCCGACAAATCGTCCCTTCTGTAGGATACGGCAATATCAATATTGAACACCCCAGTGG -TGCGCTCGACGTTCATTTAAGTAATGAAGGTCAGGATGCCACGACGTTACGCGCATCTGTTATTCGGACGACCAG -AAAAATATTTTCCGGTGAAGTTTATCTTCCCTGAAAAAATTCGTTGTCAGGATAAGGACAATCAATAAAGGACTT -CTGTATGAGTCATACAGAAAGAACAGGATTTTAAATGAATAAGAAATCGTTATGGAAGCTAATTCTGATATTAGC -GATCCCATGTATTATTGGTTTTATGCCAGCTCCGGCAGGATTAAGCGAACTGGCGTGGGTGCTTTTTGGTATTTA -CCTGGCGGCCATTGTGGGGCTGGTTATCAAGCCTTTCCCGGAACCTGTCGTACTGTTAATTGCCGTTGCTGCCTC -AATGGTGGTGGTCGGTAACTTATCCGACGGTGCGTTTAAAACCACCGCCGTATTAAGCGGTTACTCTTCAGGTAC -CACCTGGCTGGTGTTCTCGGCGTTTACCTTAAGCGCCGCATTTGTGACCACCGGTTTAGGTAAACGTATTGCCTA -TCTGCTGATTGGTAAAATCGGTAACACCACGCTGGGTCTGGGTTACGTTACGGTATTCCTCGATCTGGTACTGGC -TCCGGCAACACCGTCTAACACCGCGCGTGCGGGCGGCATTGTGTTACCGATCATCAACAGCGTGGCGGTGGCTTT -GGGGTCCGAACCGGAAAAAAGTCCGCGTCGTGTCGGACATTACCTGATGATGTCCATTTACATGGTCACCAAAAC -CACCAGCTATATGTTCTTTACCGCAATGGCGGGGAACATTCTGGCGCTGAAAATGATCAACGACATTCTGCACCT -GCAAATTAGCTGGGGTGGATGGGCGCTGGCAGCCGGATTGCCGGGCATCATTATGCTGCTGGTCACCCCGCTGGT -GATTTACACCATGTATCCACCAGAAATTAAGAAGGTGGATAACAAAACCATCGCTAAAGCGGGCCTTGCCGAACT -AGGACCGATGAAAATCCGCGAAAAAATGCTGCTCGGTGTCTTTGTGCTGGCGCTGCTGGGCTGGATTTTCAGTAA -GTCTCTGGGGGTTGATGAATCCACCGTGGCAATCGTTGTTATGGCAACCATGCTGCTGCTGGGTATCGTTACCTG -GGAAGACGTGGTTAAAAATAAAGGCGGCTGGAATACCTTAATCTGGTACGGCGGTATTATCGGCTTAAGCTCCTT -ATTATCGAAAGTTAAATTCTTCGAATGGTTAGCTGAAGTCTTTAAAAATAACCTGGCATTTGATGGTCACGGTAA -CGTTGCTTTCTTCGTTATTATTTTCCTCAGCATTATCGTGCGTTATTTCTTCGCTTCCGGTAGTGCCTATATCGT -TGCTATGTTACCGGTATTTGCCATGCTGGCGAACGTCTCCGGCGCACCGTTAATGTTAACCGCGCTGGCACTGTT -GTTCTCCAACTCCTATGGCGGCATGGTTACTCACTATGGCGGCGCGGCAGGTCCGGTCATCTTTGGCGTGGGTTA -TAACGATATTAAATCCTGGTGGTTGGTCGGTGCGGTACTGACGATATTAACCTTCCTGGTGCATATCACCCTCGG -CGTGTGGTGGTGGAATATGCTGATCGGCTGGAACATGCTGTAAATATTCTCGTCATACTTCAAGTTGCATGTGCT -GCGTCTGCGTTCGCTCACCCCAGTCACTTACTTATGTAAGCTCCTGGGGATTCACTCGCTTGTCGCCTTCCTGCA -ACTCGAATTATTTAGAGTATATCCATTTATTATCTTTCTGCGCACTTCACGGTGCGCAGATATCTGGAGCATTTG -ATGATCAAGTTATCTGAAAAAGGCGTGTTTCTCGCCAGTAATAACGAAATAATTGCCGAAGAACATTTCACCGGC -GAAATTAAAAAAGAAGAAGCCAAAAAAGGCACTATTGCCTGGTCTATTCTCTCTTCGCATAATACGTCCGGAAAT -ATGGATAAACTTAAAATTAAGTTTGATTCATTAGCCTCTCACGATATTACCTTTGTTGGTATTGTACAGACCGCT -AAAGCGTCCGGTATGGAACGTTTCCCGCTGCCGTATGTGCTGACCAACTGCCATAACTCACTCTGCGCCGTCGGC -GGCACTATTAACGGTGATGACCATGTTTTTGGTTTATCGGCGGCCCAGCGTTATGGCGGTATTTTTGTGCCTCCG -CATATTGCGGTCATCCATCAATATATGCGTGAGATGATGGCAGGCGGCGGCAAAATGATCCTCGGGTCAGACAGC -CACACCCGTTACGGTGCATTAGGGACAATGGCAGTCGGTGAGGGCGGCGGTGAGTTGGTAAAACAGCTGCTTAAT -GACACCTGGGATATCGACTATCCGGGCGTGGTTGCGGTGCATCTGACCGGAAAACCTGCGCCGTATGTGGGGCCA -CAGGATGTGGCGCTGGCTATCATTGGCGCGGTGTTCAAAAACGGTTACGTCAAAAACAAAGTCATGGAGTTCGTT -GGACCGGGCGTTAGCGCGCTCTCTACCGATTTCCGTAACAGCGTTGACGTGATGACCACTGAAACGACCTGTTTA -AGTTCTGTCTGGCAAACCGATGAAGAAGTCCATAACTGGCTGGCGCTGCACGGTCGCGGCCAGGATTACTGCCAG -CTTAACCCTCAACCGATGGCGTACTACGATGGCTGCATCAGCGTTGATTTAAGCGCCATCAAACCAATGATTGCG -CTGCCGTTCCACCCGAGCAACGTGTATGAAATCGACACACTGAACCAGAACCTGACCGACATTCTGCGTGAGATT -GAAATTGAGTCCGAACGCGTGGCGCACGGTAAAGCCAAACTCTCGCTGCTGGATAAAGTGGAAAATGGTCGCCTG -AAAGTGCAGCAGGGGATTATCGCGGGCTGTTCTGGCGGTAACTACGAAAACGTCATCGCGGCGGCGAATGCACTG -CGCGGTCAATCCTGTGGCAATGACACCTTCTCGCTGGCAGTTTACCCGTCATCACAGCCGGTGTTTATGGATCTC -GCCAAAAAAGGTGTGGTAGCAGATTTGATTGGCGCAGGCGCAATCATCAGAACCGCGTTCTGCGGCCCATGCTTT -GGCGCGGGCGATACGCCAATCAACAACGGTTTGAGTATTCGCCACACCACGCGTAACTTCCCGAACCGCGAAGGC -TCTAAGCCAGCTAATGGGCAGATGTCAGCGGTGGCGTTGATGGACGCTCGTTCTATCGCTGCGACTGCGGCAAAC -GGTGGCTATTTAACCTCTGCCAGCGAACTTGATTGCTGGGACAACGTGCCGGAGTACGCCTTCGATGTAACGCCG -TATAAAAACCGTGTTTATCAGGGCTTTGTGAAAGGGGCAACTCAGCAACCGCTGATTTACGGGCCGAACATTAAA -GACTGGCCGGAATTGGGTGCGCTGACTGACAATATCGTCCTGAAAGTGTGCTCGAAGATCCTCGACGAAGTGACC -ACCACCGACGAACTGATTCCTTCCGGTGAAACCTCTTCTTATCGTTCAAATCCGATTGGTCTGGCGGAGTTTACC -CTGTCTCGCCGCGATCCCGGTTATGTTAGCAGAAGTAAAGCGACTGCTGAGCTGGAAAATCAGCGTCTGGCGGGG -AATGTCAGCGAGCTGACAGAGGTGTTTGCGCGCATTAAGCAGATTGCTGGTCAGGAGCATATTGATCCGCTGCAA -ACTGAAATTGGCAGCATGGTCTATGCGGTGAAACCAGGCGATGGTTCTGCGCGTGAACAGGCGGCGAGCTGCCAG -CGTGTGATTGGCGGTCTGGCGAATATTGCCGAGGAGTACGCGACTAAACGCTATCGTTCTAACGTCATCAACTGG -GGGATGTTACCGCTGCAAATGGCGGAAGTACCAACCTTTGAAGTGGGGGATTACATTTACATCCCTGGCATTAAA -GCGGCGCTGGATAATCCGGGTACGACGTTTAAAGGTTATGTGATCCATGAAGATGCGCCGGTAACGGAAATTACG -CTCTATATGGAAAGTCTGACTGCTGAAGAGCGCGAGATTATCAAGGCGGGTAGTTTGATTAACTTCAATAAAAAC -CGTCAGATGTAAAAAGCGCCATGTGAATGTAGGTCGCATTCGGCACTTATTGTCGGATGCGATGCTTGCGCATCT -TATCCGACCTACGAATCGCATCGAATCTGTAGGCCAGATAAGGCATTTTCGCAGCATCCGGCACTTATTGTCGGA -TGCGATGCTTGCGCATCTTATCCGACCTACAAATCGCATCGAACCGTAGGCCGGATAAGGCGTTTACGCCGCATC -CGGCAAATAGTTAATTGCTCTTACTTCTTCGCCTCTGCAACCACTTTACTACCCACGCCGCGGTTATTGTATTCC -CACATGCGGTTGTAGTTAGTGTCATTCAGATTGCGCTGTATTTCGTCGTTATCATCTACGCTGCCGGTATTACCC -GCAAACGGACGATTAGAGATCACCGCATCGGCCCACGGTTTAGCCGTGTTAAAACCTTCGTTGATGGCGCTATCA -CGGATCACCACCTGACCGTTGGTATTGGCATCAACATCCAGCGAGCGGCCCAGTTGCGCCACACCATCACCGAAA -GCATTGAAACGGCTGTTTACGGCGAGGAAACCGTAGTAAATGTTGGACAGCGTAGCCGGTGCAAACACATACGCT -TCTTGCTGAGTACGTGAGTTCACCACGCGGAATTCGGTGTTATCGAACACCACTGCGCCGCGACCAGAAACGATA -TCCACATCCCCTTCAATGTAGCTGTTGGTCACCAGCGTACGCGGCTGACGATTCGTTTCCAGACGGTTCTGCACA -CCGCTGTTGGTGACAAAGAAGGTGTTCTGACGACCGAGAATGTTAACGTTGTTAATCTGTACCTGGTCACCATCA -GTACGCAGTGCCACCGCCGGATGGTTACCTGCATCTACGCTATCGCCCAGCGTGTTTTCGATGGTCAGATTTTGC -AGTTGCAGGCCATTGTTTTGTGACCAGAAGACCGCAGAGCAGAGAACACCGATACTGTCGCTGCGTTTGCTCTGG -CAGCTATCGTACATATACCACGCTGGTTTACCTGGCATATATTTGCCGCGCGGGTTGACGTCGTGACGCCAGTCG -GCAGGGCTCATGCCACCATCAAGGGAAAGCCCAATCTTCACATCAATCGGTTTTTCACCTGTACCGTACAGAGTA -ATTCCACCCGGAGCGGCAGGGACATATACCGTTCCCTGATACTCACCAGGCATCACGGCAATATACTGGCGCTTG -TTGGTACGCTTGATAATTGCCGCATCTACCGCCGCCTGAATCGTGGTATGCGTTACACCTTGAGTGCCCGCCGGG -CCGACAACAAAGTCAGGTTGCGCAGGCAGGGTAATCGGGGAAGGATTCCACGCTGCAGCACCTGGTGTCAGGGAT -GCAAAATAGTGTTGAGCATCGAAATTCTGCGCTTCTTTTGCCGACAGAATCGGGCGAGAAGAGGTACCAGGCGCG -GTTTGATCAGAAGGACGTTGATCGGGCGGGGTTGAGCTACAGGCGGTCAGCGTCACGCCAAAAGCCAATGCCAGC -GCCAGACGGGAAACTGAAAATGTGTTCACAGGTTGCTCCGGGCTATGAAATAGAAAAATGAATCCGTTGAAGCCT -GCTTTTTTATACTAACTTGAGCGAAACGGGAAGGTAAAAAGACAAAAAGTTGTTTTTAATACCTTTAAGTGATAC -CAGATGGCATTGCGCCATCTGGCAGAGTGATTAACTAAACATCGCAGTAATCGAGGCGCTTGCCAGAGAGTGGAA -ATGAACGTTAAACCCGACCATCGCGCCGCTGGCACCTTCATCGACATCAATACGTTCTATATCCAGCGCGTGAAC -GGTAAAAATGTAGCGATGAGTTTCGCCTTTCGGCGGTGCTGCGCCATCGTACCCGGTTTTACCAAAGTCGGTACG -CGTCTGCAAAACGCCGTCTGGCATTGCTACCAGACCAGAGCCAAACCCTTGCGGTAATACGCGGGTATCAGCGGG -TAAGTTAACAACTACCCAGTGCCACCAGCCGGAGCCGGTTGGCGCATCCGGGTCGTAGCAGGTGACAACAAAACT -TTTCGTTCCCGCAGGAACATCATCCCACGCCAGATGCGGTGAAATATTATCGCCATCGTAACCCATGCCGTTAAA -GACATGACGATGCGGCAATTTATCGCCATCGCGCAGATCGTTACTGATGAGTTTCATGAACCCTCCTTTCTTGTT -TGCAGAAAGTGTAGCCAGAAACCCTCACGCGGACTTCTCGTTATTGGCAAAAAAATGTTTCATCCTGTACCGCGC -GGTTAACCGCTGCGGTCAGACGCTGCAACTGTTGCGGGAGAATAATATAGGGCGGCATCAGGTAAATCAGTTTGC -CAAAAGGCCGGATCCAGACACCCTGTTCGACAAAGAATTTTTGCAGCGCCGCCATATTCACCGGATGAGTGGTTT -CGACCACGCCAATGGCCCCCAGTACGCGCACATCGGCAACCATTTCGGCATCACGGGCGGGGGCAAGTTGCTCGC -GCAGCTGTACTTCAATATCCGCCACCTGTTGCTGCCAGTCGCCAGATTCGAGAATCGCCAGGCTGGCGTTTGCTG -CCGCGCAGGCCAGCGGATTGCCCATAAAAGTTGGCCCATGCATAAAGCAACCGGCTTCACCGTTACTGATGGTTT -CTGCAACCTCGCGCGTGGTGAGTGTGGCGGAAAGGGTCATTGTGCCGCCGGTTAAGGCTTTACCGAGGCACAAAA -TGTCCGGCGCGATTTCTGCATGTTCACAGGCAAACAGTTTCCCGGTACGACCAAATCCAGTGGCGATCTCGTCGG -CAATCAGCAAGATACCTTCGCGATCGCATATTTTGCGGATTCGTTTTAACCATTCCGGATGGTACATGCGCATCC -CGCCTGCGCCCTGGACAATCGGCTCAATGATCACCGCCGCGATTTCATGACGATGCGCCGCCATCAGGCGGGCAA -AGCCCACCATATCGCGCTCATCCCATTCGCCATCCATGCGGCTTTGCGGGGCGGGAGCAAACAGGTTTTCTGGCA -GGTAGCCTTTCCACAGACTGTGCATTGAGTTATCCGGATCGCACACCGACATCGCGCCAAAGGTATCGCCATGAT -AACCATTGCGGAAGGTCAGAAAACGCTGGCGCGCTTCGCCTTTGGCTTGCCAGTACTGCAACGCCATTTTCATCG -CCACTTCCACCGCTACGGAACCGGAGTCCGCGAGAAAAACGCACTCCAGCGGTTGCGGCGTCATCGCCACCAGTT -TGCGGCACAGCTCAATGGCTGGCGCATGGGTGATACCGCCAAACATCACATGCGACATGGCATCAATTTGCGACT -TCATCGCCGCATTAAGCTGCGGGTGATTGTAGCCGTGGATCGCCGCCCACCAGGACGACATACCGTCAACCAGGC -GTCTGCCGTCAGACAAAATCAGCTCGCAACCTTCGGCGCTCACCACCGGATAAACCGGCAGAGGGGAGGTCATGG -ATGTGTATGGGTGCCAGATATGGCGTTGGTCAAAGGCAAGATCGTCCGTTGTCATAATCGACTTGTAAACCAAAT -TGAAAAGATTTAGGTTTACAAGTCTACACCGAATTAACAACAAAAAACACGTTTTGGAGAAGCCCCATGGCTCAC -CGCCCACGCTGGACATTGTCGCAAGTCACAGAATTATTTGAAAAACCGTTGCTGGATCTGCTGTTTGAAGCGCAG -CAGGTGCATCGCCAGCATTTCGATCCTCGTCAGGTGCAGGTCAGCACGTTGCTGTCGATTAAGACCGGAGCTTGT -CCGGAAGATTGCAAATACTGCCCGCAAAGCTCGCGCTACAAAACCGGGCTGGAAGCCGAGCGGTTGATGGAAGTT -GAACAGGTGCTGGAGTCGGCGCGCAAAGCGAAAGCGGCAGGATCGACGCGCTTCTGTATGGGCGCGGCGTGGAAG -AATCCCCACGAACGCGATATGCCGTACCTGGAACAAATGGTGCAGGGGGTAAAAGCGATGGGGCTGGAGGCGTGT -ATGACGCTGGGCACGTTGAGTGAATCTCAGGCGCAGCGCCTCGCGAACGCCGGGCTGGATTACTACAACCACAAC -CTGGACACCTCGCCGGAGTTTTACGGCAATATCATCACCACACGCACTTATCAGGAACGCCTCGATACGCTGGAA -AAAGTGCGCGATGCCGGGATCAAAGTCTGTTCTGGCGGCATTGTGGGCTTAGGCGAAACGGTAAAAGATCGCGCC -GGATTATTGCTGCAACTGGCAAACCTGCCGACGCCGCCGGAAAGCGTGCCAATCAACATGCTGGTGAAGGTGAAA -GGCACGCCGCTTGCCGATAACGATGATGTCGATGCCTTTGATTTTATTCGCACCATTGCGGTCGCGCGGATCATG -ATGCCAACCTCTTACGTGCGCCTTTCTGCCGGACGCGAGCAGATGAACGAACAGACTCAGGCGATGTGCTTTATG -GCAGGCGCAAACTCGATTTTCTACGGTTGCAAACTGCTGACCACGCCGAATCCGGAAGAAGATAAAGACCTGCAA -CTGTTCCGCAAACTGGGGCTAAATCCGCAGCAAACTGCCGTGCTGGCAGGGGATAACGAACAACAGCAACGTCTT -GAACAGGCGCTGATGACCCCGGACACCGACGAATATTACAACGCGGCAGCATTATGAGCTGGCAGGAGAAAATCA -ACGCGGCGCTCGATGCGCGGCGTGCTGCCGATGCCCTGCGTCGCCGTTATCCGGTGGCGCAAGGAGCCGGACGCT -GGCTGGTGGCGGATGATCGCCAGTATCTGAACTTTTCCAGTAACGATTATTTAGGTTTAAGCCATCATCCGCAAA -TTATCCGTGCCTGGCAGCAGGGGGCGGAGCAATTTGGCATCGGTAGCGGCGGCTCCGGTCACGTCAGCGGTTATA -GCGTGGTGCATCAGGCACTGGAAGAAGAGCTGGCCGAGTGGCTTGGCTATTCGCGGGCACTGCTGTTTATCTCTG -GTTTCGCCGCTAATCAGGCAGTTATTGCCGCGATGATGGCGAAAGAGGACCGTATTGCTGCCGACCGGCTTAGCC -ATGCCTCATTGCTGGAAGCTGCCAGTTTAAGCCCGTCGCAGCTTCGCCGTTTTGCTCATAACGATGTCACTCATT -TGGCGCGATTGCTTGCTTCCCCCTGTCCGGGGCAGCAAATGGTGGTGACAGAAGGCGTGTTCAGCATGGACGGCG -ATAGTGCGCCACTGGCGGAAATCCAGCAGGTAACGCAACAGCACAATGGCTGGTTGATGGTCGATGATGCCCACG -GCACGGGCGTTATCGGGGAGCAGGGGCGCGGCAGCTGCTGGCTGCAAAAGGTAAAACCAGAATTGCTGGTAGTGA -CTTTTGGCAAAGGATTTGGCGTCAGCGGGGCAGCGGTGCTTTGCTCCAGTACGGTGGCGGATTATCTGCTGCAAT -TCGCCCGCCACCTTATCTACAGCACCAGTATGCCGCCCGCTCAGGCGCAGGCATTACGTGCGTCGCTGGCGGTCA -TTCGCAGTGATGAGGGTGATGCACGGCGCGAAAAACTGGCGGCACTCATTACGCGTTTTCGTGCCGGAGTACAGG -ATTTGCCGTTTACGCTTGCTGATTCATGCAGCGCCATCCAGCCATTGATTGTCGGTGATAACAGCCGTGCGTTAC -AACTGGCAGAAAAACTGCGTCAGCAAGGCTGCTGGGTCACGGCGATTCGCCCGCCAACCGTACCCGCTGGTACTG -CGCGACTGCGCTTAACGCTAACCGCTGCGCATGAAATGCAGGATATCGACCGTCTGCTGGAGGTGCTGCATGGCA -ACGGTTAATAAACAAGCCATTGCAGCGGCATTTGGTCGGGCAGCCGCACACTATGAGCAACATGCAGATCTACAG -CGCCAGAGTGCTGACGCCTTACTGGCAATGCTTCCACAGCGTAAATACACCCACGTACTGGACGCGGGTTGTGGA -CCTGGCTGGATGAGCCGCCACTGGCGGGAACGTCACGCGCAGGTGACGGCCTTAGATCTCTCGCCGCCAATGCTT -GTTCAGGCACGCCAGAAGGATGCCGCAGACCATTATCTGGCGGGAGATATCGAATCCCTGCCGTTAGCGACTGCG -ACGTTCGATCTTGCATGGAGCAATCTCGCAGTGCAGTGGTGCGGTAATTTATCCACGGCACTCCGCGAGCTGTAT -CGGGTGGTGCGCCCCAAAGGCGTGGTCGCGTTTACCACGCTGGTGCAGGGATCGTTACCCGAACTGCATCAGGCG -TGGCAGGCGGTGGACGAGCGTCCGCATGCTAATCGCTTTTTACCGCCAGATGAAATCGAACAGTCGCTGAACGGC -GTGCATTATCAACATCATATTCAGCCCATCACGCTGTGGTTTGATGATGCGCTCAGTGCCATGCGTTCGCTGAAA -GGCATCGGTGCCACGCATCTTCATGAAGGGCGCGACCCGCGAATATTAACGCGTTCGCAGTTGCAGCGATTGCAA -CTGGCCTGGCCGCAACAGCAGGGGCGATATCCTCTGACGTATCATCTTTTTTTGGGAGTGATTGCTCGTGAGTAA -ACGTTATTTTGTCACCGGAACGGATACCGAAGTGGGGAAAACTGTCGCCAGTTGTGCACTTTTACAAGCCGCAAA -GGCAGCAGGCTACCGGACGGCAGGTTATAAACCGGTCGCCTCTGGCAGCGAAAAGACCCCGGAAGGTTTACGCAA -TAGCGACGCGCTGGCGTTACAGCGCAACAGCAGCCTGCAGCTGGATTACGCAACAGTAAATCCTTACACCTTCGC -AGAACCCACTTCGCCGCACATCATCAGCGCGCAAGAGGGCAGACCGATAGAATCATTGGTAATGAGCGCCGGATT -ACGCGCGCTTGAACAACAGGCTGACTGGGTGTTAGTGGAAGGTGCTGGCGGCTGGTTTACGCCGCTTTCTGACAC -TTTCACTTTTGCAGATTGGGTAACACAGGAACAACTGCCGGTGATACTGGTAGTTGGTGTGAAACTCGGCTGTAT -TAATCACGCGATGTTGACTGCACAGGTAATACAACACGCCGGACTGACTCTGGCGGGTTGGGTGGCGAACGATGT -TACGCCTCCGGGAAAACGTCACGCTGAATATATGACCACGCTCACCCGCATGATTCCCGCGCCGCTGCTGGGAGA -GATCCCCTGGCTTGCAGAAAATCCAGAAAATGCGGCAACCGGAAAGTACATAAACCTTGCCTTGTTGTAGCCATT -CTGTATTTGGTTAAATTGCGAGCGAGATCGCGTCTTCGATTGACTGCAATTTAACCAATTAAATTCTAAAATAAT -CACGAAAAAAATTTTACTTCCGCCTCATGCGGCGAATGTGGGAATTGCCCAGGCGGCGGGGGATAGGGGCTGGAG -ACAGTTATCCACTATTCCTGTGGATAACCATGTGTATTAGAGTTAGAAAACACGAGGCAAGCGAGAGAATACGCG -GCTTGCACGCGAATTGGCGTTAAAGACGGCTCAAAGAAATATCTTTTATTTTTTAACTGGTTAGATAAATGCAAT -GGCAGTCACTGAACAGGCATCTCTTGCCATAAAACTGTCATCACTCATCTTGACAAATGTTAAAAAAGCCGTTGC -TTTGGGGATAACCCGGTAAGGCCGGAGTTTTATCTCGCCACAGAGTAAATTTTGCTCATGATTGACAGCGGAGTT -TACGCTGTATCAGAAATATTATGGTGATGAACTGTTTTTTTATCCAGTATAATTTGTTGGCATAATTAAGTACGA -CGAGTAAAATTACATACCTGCCCGCCCAACTCCTTCAGGTAGCGACTCATGAGTAAACCGTTCAAACTGAATTCC -GCTTTTAAACCTTCTGGCGATCAGCCAGAGGCGATTCGACGTCTCGAAGAGGGGCTGGAAGATGGCCTGGCGCAC -CAGACGTTACTTGGCGTGACTGGCTCAGGGAAAACCTTCACCATTGCCAATGTCATTGCTGACCTTCAGCGCCCA -ACCATGGTACTTGCGCCCAACAAAACGCTGGCGGCCCAGCTGTATGGCGAAATGAAAGAGTTCTTCCCGGAAAAC -GCGGTGGAATATTTCGTTTCCTACTACGACTACTATCAGCCGGAAGCCTATGTACCGAGTTCCGACACTTTCATT -GAGAAAGATGCCTCGGTTAACGAACATATTGAGCAGATGCGTTTGTCCGCCACCAAAGCGATGCTGGAGCGGCGT -GATGTGGTTGTGGTGGCGTCTGTTTCCGCGATTTATGGTCTGGGCGATCCTGATTTATATCTCAAGATGATGCTC -CATCTCACGGTCGGTATGATTATCGATCAGCGCGCGATTCTGCGCCGACTGGCGGAGCTGCAATACGCTCGTAAT -GATCAAGCATTCCAGCGTGGTACTTTCCGCGTTCGTGGCGAGGTGATAGATATCTTCCCGGCAGAATCGGATGAC -ATTGCACTTCGCGTGGAACTGTTTGACGAGGAAGTGGAACGATTGTCGTTATTTGACCCGCTGACCGGGCAGATT -GTTTCCACTATTCCACGTTTTACCATCTACCCGAAAACGCACTACGTCACACCGCGCGAGCGCATCGTACAGGCG -ATGGAGGAGATCAAAGAAGAGCTGGCCGCCAGACGCAAAGTGCTGTTGGAAAACAACAAACTGCTGGAAGAGCAG -CGGCTGACCCAGCGTACCCAGTTTGATCTGGAGATGATGAACGAGCTGGGCTACTGTTCGGGGATTGAAAACTAC -TCGCGCTTCCTCTCCGGTCGTGGACCGGGTGAGCCACCGCCGACGCTGTTTGATTACCTGCCTGCCGATGGGCTG -CTGGTCGTCGATGAATCTCACGTCACCATTCCACAAATTGGCGGCATGTATCGCGGTGACCGGGCGCGTAAAGAG -ACACTGGTGGAGTACGGCTTCCGCCTGCCATCAGCGCTGGATAACCGTCCGCTTAAGTTTGAAGAGTTCGAAGCA -TTAGCGCCGCAAACCATCTATGTTTCGGCGACGCCGGGTAATTACGAGCTGGAAAAATCCGGCGGCGATGTGGTG -GATCAGGTGGTGCGTCCAACCGGATTGCTTGACCCGATTATCGAAGTGCGGCCGGTGGCGACACAGGTTGATGAT -CTTCTTTCGGAGATTCGTCAGCGAGCGGCAATTAACGAACGCGTACTGGTCACCACACTGACCAAGCGGATGGCG -GAAGATCTTACCGAATATCTCGAAGAACATGGCGAGCGCGTGCGTTATCTTCACTCAGATATCGACACCGTCGAA -CGTATGGAGATTATCCGCGACTTGCGTCTGGGTGAGTTCGACGTGCTGGTAGGGATCAACTTACTGCGCGAAGGT -CTGGATATGCCGGAAGTGTCGCTGGTGGCGATCCTCGACGCTGACAAAGAAGGCTTCCTGCGTTCCGAACGTTCG -TTGATCCAGACCATTGGTCGTGCGGCACGTAACGTTAACGGTAAAGCGATTCTCTACGGCGATAAGATCACCCCA -TCAATGGCGAAAGCGATTGGCGAAACCGAACGTCGCCGTGAGAAACAGCAGAAGTACAACGAGGAACACGGAATT -ACGCCGCAAGGCTTGAACAAGAAAGTGGTCGATATCCTGGCGCTGGGGCAGAACATTGCCAAAACCAAAGCGAAG -GGCAGAGGAAAATCGCGCCCGATTGTTGAGCCGGATAATGTGCCGATGGATATGTCGCCTAAAGCGTTGCAGCAG -AAAATCCATGAGCTGGAAGGGTTGATGATGCAACACGCGCAGAATCTGGAGTTCGAAGAAGCGGCGCAAATTCGT -GACCAGTTGCATCAGCTGCGTGAGCTGTTTATCGCGGCATCGTAACAGGATAGCGAAGAAGACTGATGACAAACG -GAAAACAGCCTGATGCGCTACGCTTATCAGGCCTACATTTTCTCCGCAATATATTGAATTTGCGCGGTTTGTAGG -CCGGATAAGGCGTTCACGCCGCATCCGGCATAAACAACGCGCACTTTGTCTTCAATAGGAAGCCGGAATTTTCCT -TCGGATTTCCGTTAACCTAAAGCCTGTAACGCCTTTTCCAGCGCGTTATGTAACAACTGGCGGTCATGACGATAC -GGAATATCGCTGGCCTCCAGTACCTCCTGGATCACAATCCGCTCTTTCACCGCCGAGACATCCACTTTTGGCCCG -ACGATGACCGCATCAATGACCTTTTTACCAACATACTGCTCCATAATTGCCAGCTTGCTTTCCAGCTTCAAATTA -GCCGCAGGTAAACTCAACTCACGCCCCAGATTGCCGATATAAACCATCGGCGCTGGCGTGCGGCGTAATGCCTGG -GCGATTTCCTTCAGCAGCAGAATTGGCATCAGGCTGGTATAAAAACTGCCAGGCCCAATAATGATGAGATCCGCT -TCATTGATAGCGTGAACCGCCTCACGCGTTGCGGGTACATTAGGCGTTAACAATAACTCTTGAATCGGCGTAGTT -AACTGGTCGATATTGACCTCGCCGTAAACTTCATGCCCCTGATCGTCAATCGCCATCAGATCAACAGGATGCTCT -GACATTGGAATCAAATGCGTATCCACTTTCAGCAGATTACGAATTAAATTGATGGCTTCCAGAGGCCGCACGCTA -AGGTGATCCAGCGCCTTTAACATCAAGTTTCCGAGATTATGACCGGAAAGTTCGCCATTGCCACCAAAACGGTAT -TCAAACATCGCGGAGGCGACGCTCGGTTCCGTTATCAGCTGGTTGAGGCAGTTGCGCATATCGCCCCAGGCAATG -CCGCCTTCTGAACGGCGAATACGCCCCGTCGAGCCACCATTATCGGTGGTGGTGACGATACCCGTTAAACGAGAA -CCCAAAGACGAAAGTGATGAGAGAACGCGTCCCAGTCCATGCCCTCCGCCGAGAGCAACGACACGATCAAGATCA -GCCAGCGTACGATTGCGCATATAGTTTCCTGGAGTCAGATTATCCGCGCTACAGTAGCGCAAATTGCGGGGAAAC -AGCAATTAACCTGCCAATATTGAGGATACAAACTATTTTCTTCTACCTCTAAAGGACGATGCACGCTATGCCTCC -CTGATGATGTATATCAAAGTAAAACCGCCATTTTCCCTTATTCTGTAGCGAAATAGCACGATCATGACGCTATAT -ACATGATTACATAGCGAAAGTGTGGATGGTAAAAATCTCATTTACACGCTAGTATCGGCATAACCACTAAACACT -CTAGCCTCTGCACCTGGGTCAACTGATACGGTGCTTTGGCCGTGACAATGCTCGTAAAGATTGCCACCAGGGCGA -AGGAAGAAATGACTTCGCCTCCCGTATCTGGAAAGGTGTACATGGCTTCACAACTGACTGATGCATTTGCGCGTA -AGTTTTACTACTTGCGCCTGTCGATTACCGATGTGTGTAACTTTCGTTGCACCTACTGCCTGCCGGATGGCTACA -AACCGAGCGGCGTCACCAATAAAGGCTTTCTTACCGTCGATGAAATTCGCCGGGTTACGCGCGCCTTCGCCAGAC -TGGGCACCGAAAAAGTGCGCCTGACAGGAGGAGAGCCGTCTTTACGCCGCGACTTTACCGATATCATCGCCGCTG -TGCGGGAAAACGACGCTATCCGCCAGATTGCGGTCACAACCAATGGTTACCGTCTGGAACGCGATGTGGCGAGCT -GGCGCGATGCGGGACTTACTGGCATTAACGTCAGTGTCGACAGTCTGGACGCCCGCCAGTTTCACGCTATTACCG -GGCAGGATAAATTCAACCAGGTCATGGCAGGGATTGATGCTGCATTTGAGGCCGGTTTTGAGAAGGTCAAAGTCA -ATACCGTGCTGATGCGTGATGTTAATCATCACCAGCTCGACACCTTTCTGAACTGGATCCAGCATCGCCCTATCC -AGCTGCGTTTCATCGAACTGATGGAAACGGGCGAGGGCAGCGAGCTCTTCCGTAAGCATCACATCTCTGGTCAGG -TTCTGCGTGACGAGCTACTGCGTCGCGGCTGGATCCACCAATTACGTCAACGCAGCGACGGTCCCGCGCAAGTCT -TTTGCCATCCAGATTACGCCGGAGAGATTGGCCTTATCATGCCGTATGAAAAAGACTTCTGCGCCACTTGCAACC -GCCTGCGCGTTTCCTCCATTGGTAAACTCCATCTCTGCCTGTTTGGTGAAGGCGGCGTTAACCTGCGCGATCTGC -TGGAAGACGATACCCAGCAACAGGCGCTGGAAGCGCGTATTTCAGCGGCGCTGCGGGAGAAGAAACAGACCCATT -TCCTGCATCAAAACAACACCGGTATTACGCAAAACTTATCGTACATTGGCGGCTAAAACGTCAAAAGGAGAGATC -AGATGAGTCAGGTAAGCACTGAATTTATCCCGACCCGTATTGCTATTCTTACGGTTTCTAATCGTCGCGGTGAAG -AAGACGATACCTCCGGTCACTATCTGCGCGATTCGGCGCAAGAAGCGGGCCATCACGTTGTCGATAAAGCCATTG -TGAAAGAAAACCGCTACGCTATTCGCGCTCAGGTATCTGCGTGGATCGCCAGCGACGATGTACAAGTGGTATTGA -TTACGGGTGGTACTGGCCTGACGGAAGGTGATCAGGCTCCCGAAGCATTGCTGCCGTTGTTCGACCGTGAAGTTG -AAGGTTTTGGTGAAGTGTTCCGGATGTTGTCGTTTGAAGAGATTGGCACTTCCACGTTGCAATCTCGTGCGGTAG -CGGGCGTCGCCAACAAAACGCTGATTTTCGCCATGCCGGGTTCGACCAAAGCGTGCCGTACCGCATGGGAAAATA -TCATCGCGCCGCAGCTGGATGCCCGTACGCGTCCGTGTAATTTCCATCCACATTTGAAGAAATAAGTATGTCGCA -ACTGACCCATATCAACGCCGCTGGCGAAGCGCACATGGTGGATGTCTCCGCCAAAGCGGAAACCGTGCGTGAAGC -GCGGGCGGAAGCCTTTGTCACCATGCGCAGCGAGACGCTGGCGATGATTATTGATGGTCGCCACCACAAAGGCGA -CGTATTTGCCACTGCGCGTATTGCCGGTATTCAGGCGGCAAAACGCACCTGGGATCTGATCCCGCTCTGTCATCC -GCTGATGCTCAGCAAAGTTGAAGTCAATTTACAGGCCGAGCCGGAGCACAATCGGGTGCGTATAGAAACCTTATG -CCGCCTGACCGGGAAAACCGGTGTCGAAATGGAAGCATTAACCGCGGCCTCCGTGGCGGCGCTGACCATTTATGA -CATGTGCAAAGCGGTGCAAAAAGATATGGTGATTGGTCCGGTACGTTTGCTGGCGAAGAGCGGCGGCAAGTCGGG -TGACTTTAAGGTGGAAGCGGATGATTAAAGTTCTTTTTTTCGCCCAGGTGCGCGAGTTGGTGGGAACAGATGCAA -CCGAAGTGGCTGCGGATTTCCCAACTGTTGAAGCGTTACGCCAGCACATGGCTGCGCAGAGCGATCGCTGGGCGC -TGGCGCTGGAAGATGGCAAATTACTGGCTGCCGTCAACCAGACGCTGGTGAGTTTTGACCATCCGCTGACTGACG -GCGACGAAGTAGCTTTCTTCCCGCCGGTAACCGGAGGTTAAGATGGCAGAAACCAAAATTGTTGTTGGTCCGCAG -CCGTTCAGCGTAGGAGAAGAGTACCCGTGGCTGGCGGAGCGTGACGAAGACGGTGCGGTAGTCACCTTTACTGGT -AAGGTGCGCAACCATAACCTGGGCGACAGCGTCAACGCATTAACCCTCGAACACTATCCGGGGATGACTGAAAAA -GCACTGGCAGAAATTGTTGATGAAGCGCGTAACCGCTGGCCGCTGGGGCGCGTCACTGTGATTCACCGCATCGGG -GAATTATGGCCGGGCGATGAAATCGTTTTTGTCGGTGTCACCAGTGCGCATCGCAGCAGTGCGTTTGAAGCCGGG -CAGTTTATTATGGATTATCTCAAAACCCGCGCACCGTTCTGGAAGCGCGAAGCCACGCCGGAAGGCGACCGCTGG -GTTGAAGCTCGGGAGAGCGATCAGCAGGCGGCAAAACGCTGGTAGTTTTTTGTTAGCCGGATAAGGCACCGCTGC -GTCCGGCAATTTCACCGCTCAGTACATACGTTTACGCTGCGTCGATGCACAGCCTCATCATTTTGCAGTATCCTT -AAGATATTCCTTATATCTTCAGGAGATCGTCATGGACAGATTCCCACGTTCTGATTCAATCGTACAACCCCGGGC -TGGCTTGCAAACTTATATGGCTCAAGTCTATGGCTGGATGACCGTTGGCTTGTTGCTGACCGCATTTGTTGCCTG -GTATGCGGCTAATTCCGCGGCCGTGATGGAGCTGTTGTTCACTAACCGTGTCTTTTTAATCGGTCTGATCATCGC -GCAATTAGCATTGGTTATTGTGTTATCAGCGATGATTCAAAAGCTGAGCGCAGGTGTAACGACGATGCTCTTTAT -GCTTTATTCGGCGCTGACGGGTCTTACGCTTTCCAGTATATTCATTGTCTATACCGCTGCTTCTATCGCCAGTAC -TTTCGTCGTTACTGCCGGGATGTTCGGCGCAATGAGCCTGTACGGTTACACCACGAAGCGCGATTTAAGTGGCTT -TGGCAATATGCTGTTTATGGCGTTAATCGGCATTGTGCTGGCATCGCTGGTCAACTTCTGGTTGAAAAGCGAAGC -ATTGATGTGGGCAGTTACCTACATCGGCGTGATTGTCTTTGTCGGATTGACGGCGTATGACACGCAGAAACTGAA -AAATATGGGTGAGCAGATTGATACCCGCGACACGTCGAACCTGCGCAAATATTCCATTCTTGGCGCGTTAACCTT -GTATCTGGACTTCATCAACCTGTTCCTGATGTTGTTGCGGATCTTCGGCAACCGCCGTTAATTCTTTTTCACCAT -CACTATCCCGGCCATGTGTCGGGATTTTTTTCTTACTAAAAACGACACTTAACAAGTACCAGGTATAAAATATGC -CTTATGGACGAGCGGAAGCGTTTTCTGTATCCATAAATGCAAAAGTATTTTGTATGCGTGGTTTTAAATTTATTG -ATGGTGAATATTAATATTTTTTCTAAGGATAACTAAAAGAATGGAATCATACTCGCAAAACAGCAATAAATTAGA -TTTTCAGCACGAGGCCAGGATATTAAACGGTATATGGCTCATTACCGCTTTAGGTTTGGTGGCAACCGCAGGACT -AGCCTGGGGAGCTAAGTATATCGAAATTACGGCAACCAAATATGATTCACCACCAATGTATGTCGCCATAGGGTT -ATTATTACTTTGTATGTATGGCTTAAGTAAGGATATCAACAAGATAAATGCCGCCATCGCGGGCGTAATATATCT -GTTTTTACTCTCTTTGGTGGCGATTGTCGTTGCAAGTTTAGTTCCTGTATATGCCATTATCATCGTGTTCAGCAC -TGCGGGCGCGATGTTTTTAATCAGTATGCTGGCCGGTTTATTATTTAATGTTGATCCTGGTTCTCACCGTTTTAT -CATTATGATGACGTTGACAGGGTTGGCCCTGGTAATCATCGTGAATGCGGCATTAATGAGTGAACGGCCCATTTG -GATAATAAGTTGCTTAATGATTGTGTTATGGTCAGGCATTATCTCGCATGGACGAAATAAGCTCCTTGAATTGGC -GGGGAAATGCCATAGTGAAGAGTTGTGGAGTCCGGTTCGTTGCGCTTTTACAGGTGCATTAACACTCTATTACTA -TTTTATCGGCTTCTTTGGGATACTTGCCGCGATAGCTATAACGCTTGTCTGGCAAAGGCATACGCGTTTTTTTCA -TTAGCCGTAAATGCACATACTAAAGAACTTAACTAAACTTCACATCGCCGCTTCATTTTTCGCCCGTAGCTTCTT -CGCCTGGCTTTCCAGCAACAGGTAACAGATCAGCGCCAGCAGCAGTGGGATAAAGTAATACAGCACACGGTAAGC -GAGTAGGGCGGCGATAATTGTACCTTTGGAGGTATGCTCCCCAGCCAGTAGTGCGATAAACACCGCTTCCAGCAC -ACCGATCCCCGCCGGAATATGCACGATGACGCCAGCAATACTACTAACCAGTAACACGCCCAGTACAAAGAAATA -GTTCACGCTTTGACCAAGTAACAGCCAGATAATCGCCCCCATTACCATCCAGTTAACGCTGGAAATCAGCATCTG -AGCGAGGGCGAATTTCCATGAAGGCAGCACCAGCTTTTGCCCTTTGATGGTCATATGGCGGTGCTTCGCGAAAGC -GCAAAACCACAAATAAACCGCGATAATCATCAGTAAGCCAATGCCGAGAATACGCAGCGTAGTTTGATCGACATA -CCAGTGATCCGGCAACTCCACCACGCCTGCGGTAAAGATAATCCCTGCCAGTAAAATGTAGCCCAGCCAGTTGGT -GGTAATACTGAGCGAGAAAATCCGCGTAATAGTGCTACCGGGCAACCCCAGACGAGAGTACAAACGATAGCGCAT -ACCAATGCCGCCGACCCAGGTACTGAGCGTCAGGTTGAAGGCGTAGCAGATAAACGACACCAGCATCACCTGGCG -CTTCGCCAGTTTGTGACCGCAGTAAAAGCGGGCGAGCAGGTCATAGCAGCCGTAAATCAGATAGCTGACGACCAC -CAGCCCGACCGCACTAAGCAGCGCAACGCGATTGTAGTCGCGGATGACCTTCCAGACCTCTTCCCAGTCCACTTT -TTTGGCGTAGACCACCAGCAACACAATCACCGCGATAAAAAACAGCCAGGTGAGGATCTTCTTTGCTAAGCGCCA -GCGCGGGTGTGATTTACTCATCAGGGTTTTACCCCCGTGTTTTCAGTTTCTACCCGATCCTGCGTTTCCATTGTC -GGTTGTGCGGGCGGATCAACCTGCGCCAGACGTGGCGTGTGTGCCGGAAGCCAGCCAACCAGCGCCGGGAAGTGG -CGTAAAAAGTGGAACGCCAGCACGCTTTTGGTCAGGTTCCACCAGGTGCGTTTGGGCAGCATGGTTTCATCCACC -TGCTGACAATCTGCGGCAATAATGCCGTTCAGATTATCGCGCAGCGTCTGGTTAAAATGACGATCGTGGATGATG -ACATTTGCTTCGAGATTCAGTGACAAACTGAGCGGATCGAGATTACTGGACCCTACTGTCGCCCAGTGATCGTCC -ATCAATGCCACTTTGCCGTGGAGCGGGCGGCGGCGGTACTCAAAAACCTGAACGCCGCCTTTAACCAGATAGTTA -TACAGCAAGCGCGCACCGACTCTGACAATCGGCATATCCGGTTCGCCCTGAATGATCAGTTTGATCCGCACCCCG -CGCCGTGCCGCTTTACGCAAGGCGTGTAAAAATCGATAGCCGGGGAAGAAGTAGGCGTTGGCGATAATCACTTCC -CGCCGCGCCTGAGTGAGCATTTTCAAATAATGGCGTTCAATATCATCGCGATGTTCTTCGTTATCGCGCCAGACC -AGCAATACCTGCGCTTCTCCCGGCTGGCGGTTCTCTTCCGCTTTGTGATGACGTCGCCACCAGCGTCGTGCCGCG -CTCTGTCCAGGCAGGTTTTCCAGCTCAAACTGGAGAATATCTTCGACAATCGGCCCTTCAAGGCGTACCGCGTAA -TCCTGTTTAGCCTCTGGACCGTAGCTGGACATATGCTCGGCGGAGTAATTCAGCCCGCCAATAAAGGCTATACGC -GCGTCGATCACCACAATTTTGCGATGCATCCGGCGAAACACATTGGTGCGCATACCAAAAAGGCGAGGGCGGGGA -TCGTAGTAGCGGAACACTACGCCAGCTGCCGTCAGTTCATTGACAAACTCATCGCTGAGATCCGGCGAACCGTAG -CCATCCAGCAAGACTTCCGCTTTAACCCCGCGTTGCGCTGCTGCCAGTAGTGCCGCATGCAGTTGTTTGCCGACG -TCATCCTCAAACCAGATAAACGTTTCAAGAATGATGCGTTCTTGTGCCTCGCCAATCGCCTTAAACACCGCGGGA -TAATATTGCTCGCCGTTTTCCAGCAACTGGATCTTATTGCCTTCGCGCCAGCTACATTTCATAAATGAATCTCCG -CACTTAAAGGGGCATGATCAGAAAGGTGTCGCCATGTCCGCAGCGGCAACGCGGTTGGCGCGCTGGCGCTGGCAT -TTTTGACGTAGATCCTGTCCAGTCGTAGTAGAGGAAATTGCACCGGAAACGTGCGCGCCGGGCGTCCGTGGGCGC -GGGTAAAAATCTCATCCAGTCCGGCCTGCACTTTTAACGGATGATTAGCTTTTTGCCGCCAGTCATTGAAATCAC -CCGCCACCAATACCGGTTCGCCGTCCGGTAGCTCATTCACCCATTCGGCGAGCATCGCAAGCTGCGCCTGACGGT -GCGCCTCACGCAGGCCCAGATGTACGCACATCACATGAATCGCTTTTCCGGTCATCGGCGGCACAATGCGGCAGT -AGAGCACGCCGCGCTTTTCCGCACCATCGACCGAAACATCGCGATTCTCATAATGTTCAATGGGATAACGCGACA -GTACGGCGTTGCCGTGATGCCCTTCCGGGTATACGGCATTGCGACCGTAGGCAAAATCGCTCCACATAGTGTCGG -CGAGAAACTCGTAGTGCGAGGTATCGGGCCAGTTTTCCACATGCAGCGGATGAACTTCGTGCGCGCCCATCACTT -CCTGCAGGCAAACAATATCGGCGCTGACGGTACGCACGGCGTCGCGAAGTTCCGGCAAAATGAAGCGTCGGTTAA -ACGCGGTAAAGCCTTTGTGAATATTGATGGTGAGCACCTTGAACGAAAATTGTTGTGTTTGATCGGGCATAATTT -TCCTGTCTTTGCCTCTTATCTCATTGAAATAGTGTAGTCGGCGTCACAAAAAGGTGCGGTCTTACGGAATTTTCC -GTAAAGTTCGGTACTCTGAGTAAGTAGAGATAAATTCTTCAGGAGAGAAGCCATGAAGTGGCAACAACGTGTTCG -TGTCGCAACGGGTCTAAGTTGCTGGCAGATTATGTTGCATTTACTGGTAGTGGCGCTGCTGGTGGTGGGCTGGAT -GAGTAAGACTCTGGTTCACGTCGGCGTGGGATTATGCGCACTGTATTGTGTCACGGTAGTGATGATGCTGGTGTT -TCAGCGCCACCCCGAGCAACGCTGGCGTGAGGTGGCAGACGTGCTGGAAGAGCTGACCACGACCTGGTATTTTGG -CGCAGCGCTGATTGTGCTGTGGCTGTTGTCCCGCGTTCTGGAAAACAACTTTTTGCTGGCAATTGCAGGGCTGGC -AATCCTTGCCGGCCCGGCGGTAGTGTCTTTGCTGGCGAAAGATAAGAAGTTACATCACCTTACGTCTAAACATCG -CGTACGCCGCTGACCCTGTCGTGGCCGTTATCACCAGTAGCGGCCACAAACTATTCCACACAATATCCAGACTCG -CATCCTTCAAATAAATCTGCTTGGTAATGTCCGTAAAGTGGCGAATAGGGTTAATCCACGTCAGGTTTTGCAGCC -ATACCGGCATGTTTTCCACCGGAGAAACGTAACCGGAAAGGAGAATGGCGGGCATCATAAAGACAAACACGCCGA -TAAACGCCTGCTGTTGTGTTGAACAGAGTGATGAAATCAACAGACCGAATCCCACCAGCGATAAACCATAAATCA -CCATCGTAAAGTAGAACAGCGCCAGCGATCCGGCGAAGGGGATTTGATACGCCCAGATACCAATCGCCAGCACAA -TGGTGGCCTGGAAGGTGGCGACAATTAACGCCGGTACGGCTTTGCCGATGAAGATCTGCCAGGTGGTGAGCGGCG -AAACCAGTAGCTGATCGAGCGTACCTTGTTCACGTTCGCGGGCGACGGAAAGTGAAGTGACGATCATTACGCCGA -TAGTGGTGATCATGGCGATCAGTGACGGCACCACAAACCATTTGTAGTCGAGATTCGGGTTATACCAGTTGCGTA -CCACCAGCTCGCTGTTGTTAGGTTTCGGTTTTCCTTCCAGCAGCTCCTGCTGATAATTTTTGACGATCTGTTGCA -GGTAGTTGGCGGCAATTTGCGCACTGTTGGAGTTACGCCCGTCGAGGATCAACTGCAAAGGCGCGGTCTGGAAGG -TATCCAGTTTGCGCGAGAAGTCAGCCGGGAAACGCACCAGTAGTAACGCCTTTTGTGTGTCGATGGTTGGGCGGA -TCTCCTGTGGGCTTTTCAGCAGCAGCACATGAGTAAAGGCGCTGGCGCGGGCAAAACGTTGGGTCAGCTCCACCG -AATGCTCGCCGTTATCTTCATCGTAGATGGCGATGGTGGCGTTAGTCACTTCCAGCGTGGCGGCGAACGGGAACA -GGATCACCTGAATTAGCACGGGTAAAATCAGAATCGCGCGGGTTTGCGGTTCGCGCAGCAACGACTGCAACTCTT -TGCGGATTAACGTCCATAAGCGATGAAACATGCTCTTCTCCCTAATCCAGCCGACGTTTGGTTTTCAGCCACGTC -AGGCCGATAAACATCACCGCCGAAGCGATCAAAAACAGCACGTTTACCACCAGCACCACTGGAATATTCCCGGCG -AGGAACAGGCTTTGCAGGGTGCTGACGAAATAACGAGCGGGAATAATGTACGTCACCGCGCGGATCACCGCGGGC -ATACTGTCGATCTGAAAAATAAAGCCGGAAAGCATAATCGACGGCAGAAAAGCGGCGTTCAGGGCGACCTGAGCG -GCATTGAACTGGTTGCGGGTAATCGTGGAAATCAGCAGCCCCATCCCCAGGGTACTGAGTAAAAACAGGCTGGAG -ATAAAAAACAGAATCAGCAGCGACCCGCGATACGGCACGCCGAGAATAAACACTGACACCAGCATACACAGCAAC -ATCGCCAGCATCCCGAGAAAGTAATAAGGGATCAGCTTACACAGCAGCAGTTCCGTGCGGGTAATCTCCGTAGAG -AGCAGAGCCTCCATGGTGCCGCGTTCCCATTCTCGCGCCACCACCAGCGAGGTGAGAATCGCGCCGATGACCGTC -ATGATAATGGTCACCGCACCGGGGATAATGAAGTGCTGGCTAATCGCCGCCGGGTTAAACCAGTAGCGGGTTTGT -ACATCAATAAGCGGTTCAAAAGTCTGCCCGTTGTCCTCCGCTCGCTGCATTTGCCAGATCTGCCAGATCCCTTCG -ACATACCCCTGTACAAAGTTAGCGGTATTCGGCTCACTGCCGTCGGTGATCACCTGAATCGGTGCGGTGGCGTTG -GCGCGCTCCATCTGTTCCGCAAAATCCACCGGAATAACCACCAGACCGCGAATTTTCCCCGCCTGCATTTTGGCG -ATCAGTTCCTGACGGTTATCGCTGATGGTGGCGTCGATGTAGGGCGAACCGGTCATGGTGTGGGTGAAATCCAGC -GCCGCTTCGCTACGCTGTTCCAGTAAAATCCCGACCCGCAGCTTGCTGGAGTCGAGGTTAATGCCGTAACCAAAA -ATAAACAGCAGTAGCAGCGGGATCACTACCGCAATCAGCCAGCTACTCGGATCGCGAACGATCTGCCGCGTCTCT -TTAACGCACAGCGCCCGTACGCGACGCCAGGACAGGATCGGGTTACTCATTGCTATGCTCCTTATCCCAGTCGTG -GATCAACTGAATAAAGGCTTGCTCCATGGTGGGATCGGGTTGCTCATCGTTAGCCGACTGTGCTTTCAAATCGTC -CGGCGTGCCGCTGGCGATTAATTTCCCGCGGTACACCAGGCCGATGCGGTCGCAATATTCCGCTTCATCCATAAA -GTGGGTGGTGACCATCACCGTGACGCCTTTCTCTACCATGCTGTTGATGTGCAGCCAAAATTCACGGCGGGTGAG -GGGGTCAACGCCGGAAGTCGGTTCGTCGAGAAACAGAATGTCCGGTTCATGCATCAGCGAACAGGCCAGCGCCAG -CCGCTGTTTAAAACCTAATGGCAGTTCATCGGTGGCGTGGGAGGCGATACTTTTCAGGCCGAACGCCTCGCTCAT -GCGGGAGATTTTTTCGTTCTGCGCCCGACCGCGTAAGCCATACACACCAGAGAAAAAGCGTAAATTCTGTTCGAC -CGTCAGGTTACCGTAGAGCGAAAATTTTTGCGCCATATAGCCGAGATGCTGGCGCGCTTTACCGGAACTCTCTTT -CAGATCCATCCCCAGCACCAGCGCCTGGCCGGAAGTCGGCACCAGCAAACCGCACATCATCTTAAAGGTGGTCGA -TTTACCCGCGCCGTTTGGCCCCAGCAAACCAAAAATCTCCCCACGTTTAACGGCAAAGTTGACGTGATCGGTGGC -GGCAAAATCCCCAAATTTCTTGGTCAGTTCTTTCGCTTCGATCACCGTCTCGCCGGGTGTGCCTTCTACCGTATG -TAATATTGCGCCCAGCGGCGATTCCGAGGTTCCGGCACCGCCCAGCAAATCAATAAACGCATCTTCAAAACGCGG -CGTAGTTTCGTTGATGTTGATTTCCGGCATCCCGTCGGCATGGCGAATATCGTCTGGTGTGGCCTCTTTTTTGAG -GATCAGACGTACCGATTTCCCCTGAATCATGCCGTCGCTGACCTGCGGCAGTTTCAAGGCGCGTTGCAACAGTTT -GCGGTTGCCCTCGTGTGGACTGGTCATCAGAAAGCTGCGTCCGGCCATGGTTTGTGTCAGGGCTTTTGGTTCTCC -CTGATACAGCAACTCGCCTTCGTTCATCAGTAACACGTCACGGCACTGCTCGGCTTCGTCGAGATACGAGGTACT -CCAGAGGATTAACATCCCTTCGCCCGCCAGCTCATGCACCATCTGCCACAGTTCGCGCCGTGAGATAGGGTCAAC -GCCGACGCCGGGTTCATCGAGCAGCAACACTTTCGGTTCGCCCACCAGGGTACAGGCCAGACCGAGTTTTTGTTT -CATCCCACCGGAGAGCTTGCCCGCCAGGCGTCCGGTAAACGGCCCAAGAGACGTAAACTCCAGCAGGCGAGCAAA -AGTTTGCTTACGTGCCTCGCCGGTGACGCTGCGCAAATCCGCGTACAGATTGAGGTTCTCCATCACCGTGAGATC -TTCATACAGACCAAATTTCTGCGGCATATAACCGAGCACGGCGTGCAGCGCGCCGTCGTTTTTGATCGGATCAAA -GCCAATCACCGTGGCACTGCCGCTGTCGGGTTTCAGTAATCCCGCCAACATCCGCATCAGCGTGGTTTTACCTGC -ACCGTCCGGCCCCACCAACCCCGTCACATAACCGGCGTGAATGGTACAATCGAGCGGCGCGACGGCGGGCTTGTC -CATGCCCGGAAAGCGTTTTTCCAGGCCGTTCAGCGTGATAACGGCATCATTCATGTCCTGCCTCGTCACCGAATT -GTACCGTCACTGGCATTCCCTGGCGTAACGCATCATCGGCGTCGGTCACCACAATACGCAGGCGATAGACGAGGT -CGGTACGCAGATCCGGCGTTTCGACGGTTTTCGGGGTAAATTCAGCAGTCGGCGAAACGAAACCAATCTGCCCGT -GATACGGCTTGTCCGGGCGACCATCGGTATAAAGCAGCACTTTGCGCCCCGGCTGGGCCTGGTCAAGATTACGTT -CATCAACATAAGCGCGCACCCACACCGGACGCGTTAGTGAAACGGTAAACACCGTGCCACCTTCATTGAGGACCG -TGCCTGGCTCCACCGCGCGCGTTAACAGCGTGCCATCAGACGGGGCTATCAACGTTGAGTCCTGTAAATTCAACT -CCGCCTGCGCCAGTTGCGCCTGCGCCTGTTCGAGGCTGGCTTTCGCCTGAGCGATGTCCTGTTCACGGTTACCGG -AACGGTACTGACGCAATTTATCCTGTGCTGATTTCAGCGTTGCCTGCGCCTGGTCGCGCGAGGAGCGGGCATTTT -CCAGGTCATTTGCCGAAATAGTGCGGCTTTTCCACAACCCTTGCTGGCGGTTATAGAAGTTCTGCGCATAGTCAT -AGGCGGCTTGCGCCTGTTTCACCGCTGCGGCGGCCTGAGCGATTTCTTCATTGCGATACCCGGCAAGCATCAGGT -CATACTGCGCCTGTGCCACCGAAACACCCGCTTTCGCCTGCATCAGGGCAATCTCATACGGCTTGTGATCCAGTT -CGCCCAGCACCTGGCCCGCTTTGATAGCATCACCTTCGTCCACCGCCAGCGATTCAACGCGCCCCCCAACACGGA -AACTAAGATTTACCGTACGAATATCCACGTTGCCATACAGCGTCAGGCCGTTATCCTGGCGGCTTTGATACCACC -AGTAGCCTCCGGCAACCACGGCGGCAAGTACCACTACCGCCAATCCGATCACGACAGGTTTTTTCATCACTACAA -ACTCCTTTGCGATAATCCTTGCAAAATCAGGTCGATATGACAGGTCACCGTCTGGTTGATCAGTTCGGTCTTTTC -TTCATCGAACGCGGTCCAGCCGGTACGTAACAGAATTGTTTCTTTGCCAAGACGGAACGCCAGAATCTCACCAAT -CAACGCATGGGTATGAAGGATCATGCGGGTGTCATTGGCGTCGCAGCCGGTCCAGGCGGCAATCAGGCGTGTCAG -GTGGCTGTGTAGCGGACTAATCACCTGTTCGTGCACCAGGTGGTAGGCTGCCGTGGGAGAGAGCTGCTCACGGGA -GATAAACTTGCTGAGGTTGACGGTGTCATCCTGGGTGAGCAGCTTAATCATGTTCCTGCAGGCGCGAAGGATCAG -TTCACGGATGGCAGCCCGATCAGGCTGTGGTTGCGCGAACAAGCGTTCGGCTTCCTCGGCATGCGGACGGAACTG -CTCGCCAATAAAATCGGCAATCCACTGGGCGCAGGCGAGGTACAAATCTTCTTTCGAACCGAAGTAGTAGGTGAT -GGCAGCGATATTCTGCCCGGCCTGGGCGGCTATCTCGCGAGTGGTGGCGTTCATTCCATATTCACCAAACTGCGC -CAGTGCGGCAGCAATCAGCTGTTTTTTCGCCTGTTCACCCTTGATTGTCATGGCAGGATTATTCATCGCACAGTC -CATTCTTAATCAAATGATTGATTAAGATTATGACTCCATAGGGGAGTTGTCCAGTATGGCTAAGAATTTTAGCAA -CGCCAGTCACAGGGATAATTTATGCGCTGCGTCACAAAAACTGCTACACTCCGCTCCCTCATGACATTGTGGTTT -TTGTCATTTTCCTTTTCAGTATCTCCCTGAAAACTACACCGGTAACGGTCGGGGCGGTTCGGAGTAGTTATGTCT -TTCGATTCTTTGGGTTTAAGCCCTGATATCCTGCGCGCCGTTGCCGAGCAGGGTTACCGTGAACCCACCCCTATT -CAGCAGCAGGCGATCCCTGCGGTGCTGGAAGGCCGCGACCTGATGGCTAGCGCCCAGACCGGCACCGGCAAAACA -GCGGGCTTTACGCTGCCGCTGTTGCAACACCTGATCACTCGCCAGCCGCACGCCAAAGGGCGTCGTCCGGTACGT -GCGCTCATTCTTACCCCGACCCGTGAACTGGCGGCGCAGATTGGCGAAAACGTCCGTGATTACAGCAAATACCTG -AACATTCGTTCGCTGGTGGTGTTTGGTGGTGTGAGTATTAACCCGCAGATGATGAAACTGCGTGGCGGCGTTGAT -GTGCTGGTGGCAACCCCGGGACGTTTGCTGGACCTGGAACATCAGAATGCAGTGAAGCTGGATCAGGTTGAAATC -CTCGTCCTCGATGAAGCTGACCGCATGCTCGACATGGGCTTTATCCACGATATCCGTCGCGTGTTAACAAAACTA -CCTGCGAAGCGCCAGAACCTGTTATTCTCCGCGACCTTCTCTGACGATATTAAAGCCCTGGCGGAAAAACTGTTG -CACAACCCGCTGGAAATCGAAGTGGCACGCCGCAATACCGCGTCTGATCAGGTGACCCAGCACGTTCACTTTGTC -GATAAGAAACGCAAACGCGAATTGCTGTCGCACATGATTGGGAAAGGGAACTGGCAGCAGGTGCTGGTGTTTACC -CGTACCAAACACGGCGCTAACCATCTGGCTGAACAGCTCAATAAAGATGGCATCCGTAGTGCGGCGATCCACGGC -AATAAATCGCAAGGTGCGCGTACTCGTGCGCTGGCTGATTTTAAATCGGGCGATATTCGTGTACTGGTGGCAACT -GACATCGCTGCGCGCGGCCTGGATATTGAAGAGCTGCCGCACGTCGTCAACTATGAACTGCCAAACGTACCTGAA -GATTATGTCCACCGTATCGGGCGTACCGGTCGTGCGGCTGCTACCGGTGAAGCGTTGTCGCTGGTGTGTGTTGAT -GAACACAAACTGCTGCGTGATATCGAAAAACTGCTGAAAAAAGAGATCCCGCGCATTGCGATTCCGGGCTATGAG -CCGGACCCGTCAATCAAAGCCGAACCGATCCAGAACGGTCGCCAGCAACGTGGCGGCGGCGGTCGTGGGCAAGGT -GGTGGTCGCGGTCAACAGCAACCACGCCGTGGGGAAGGTGGCGCAAAATCTGCAAGCGCGAAACCTGCAGAAAAA -CCGTCTCGCCGCCTCGGCGATGCCAAACCGGCAGGCGAACAACAACGTCGCCGCCGTCCGCGTAAACCTGCCGCT -GCGCAGTAATCTTTTATGCCGGGCTATGCCCGGCATCAGGCTGATGAACAAACGCAAAACTGCCTGATGCGCTAC -GCTTATCAGGCCTACGTGAACTCTGCAATATATTGAATTTGCATGCTTTTGTAGGCCGGATAAGGCGTTTACGCC -GCATCCGGCATTTCACAACAAGCACTTGTCAGCAATTTGAGAACACGGGAAAAAATTTATCTGTTTTACCGCCCA -TAAGCCACCGAGACGTTACTTCTCTATAGCCAATTGTTCGCGCAACTCCATTAAAAGGTAGCCCAGTCGATTCTT -GCCCTTACCATGACCACCGTCTCCCCAGTAAGCATCGTTTTCCGTATGCTCAACCAGTTTTGCGGGCGCGGTTGC -CAGCAAGAGCGCACGCAGTTCTGCATGCTGTTCGAATTTAGCGCGAAGTGCTTTTCGCATCACCTGTTCTTTGAC -CGACTCCCAGTTTTTACGCAGAGGCTTAGAACGATCGCGCCCCATGCGTGCGGCGACCATAGGGGAAGAAACCCG -ACGGATCTCTTCGCGGTATTTTTCATCAAGGAATTTTTGTGCCTGAAAATAGTGTTCTGAGGTAGGCCAGGTTTT -CCCGTCAACCTTGATGGGCCAGGCGGCAAAGTTAGAAAAATCACCGTAGTCATCGCTGGTGCTGTAGAAATTTAT -GATGGTGTCTTGCATGACGTGTTGGATCCTTTGTGCTCGAACGGGCATTAAACCGCATTATGTTGGTGGTTATTG -CGAGCCGCTTTCCAGAAACAGAAAAACCATTACCCCTGAAAACCGAAAAATGCCACAATATTGGCTGTTTATACA -GTATTTCAGGTTTTCTCATGGCATTAACCGCCGCGCTTAAAGCGCAAATTGCCGCCTGGTATAAGGCGCTTCAGG -AACAGATCCCCGACTTTATTCCCCGTGCGCCGCAGCGGCAGATGATTGCGGACGTCGCCAAAACGCTGGCCGGAG -AAGAAGGGCGACATCTGGCGATTGAAGCCCCCACCGGCGTTGGGAAAACGCTCTCTTATTTGATTCCCGGCATCG -CCATTGCCCGCGAAGAGCAAAAAACGCTGGTGGTGAGTACCGCCAACGTGGCATTGCAGGATCAGATTTACAGCA -AAGATTTACCGCTGCTGAAAAAGATCATTCCCGATCTTAAATTCACTGCCGCTTTTGGGCGTGGGCGCTACGTTT -GTCCGCGTAATCTGACGGCGCTCGCCAGTACTGAACCCACGCAACAGGATCTGCTGGCGTTTCTTGACGACGAAC -TGACGCCGAACAATCAGGAAGAGCAAAAACGTTGTGCGAAGCTGAAGGGCGATCTCGATACTTATAAATGGGATG -GTCTGCGCGATCATACTGATATCGCTATAGATGACGATCTCTGGCGTCGTTTAAGTACCGACAAAGCCAGCTGCC -TCAACCGCAATTGTTACTACTATCGTGAATGCCCGTTTTTTGTCGCTCGTCGGGAGATTCAGGAAGCGGAAGTGG -TGGTGGCAAACCATGCGCTGGTGATGGCGGCGATGGAAAGCGAAGCGGTATTGCCTGACCCGAAAAATTTACTGC -TGGTGCTGGACGAAGGCCATCACCTGCCGGATGTGGCGCGGGATGCGCTTGAGATGAGCGCCGAAATCACCGCGC -CGTGGTATCGGCTACAGCTGGACTTGTTCACGAAACTGGTCGCTACCTGCATGGAGCAGTTTCGCCCGAAGACCA -TCCCACCGCTGGCGATCCCTGAACGTTTGAATGCGCATTGTGAAGAGTTGTATGAGCTTATCGCCTCGTTAAACA -ACATTCTCAATCTCTACATGCCTGCCGGGCAGGAGGCAGAGCACCGTTTTGCGATGGGCGAACTGCCAGATGAAG -TGCTGGAGATCTGCCAGCGGCTGGCAAAACTCACCGAGATGCTGCGTGGCCTGGCGGAGTTATTTCTTAACGATT -TAAGTGAGAAAACCGGCAGCCATGACATTGTACGTCTGCATCGGTTGATTTTGCAGATGAACCGCGCGTTGGGGA -TGTTCGAGGCGCAAAGCAAACTCTGGCGGCTGGCTTCGCTGGCGCAATCTTCCGGTGCACCGGTGACCAAATGGG -CGACGCGGGAAGAGCGCGAAGGGCAGCTACACCTCTGGTTTCACTGCGTGGGAATACGTGTCAGCGATCAGCTGG -AAAGGCTGCTGTGGCGCAGTATTCCGCACATTATTGTCACCTCCGCAACCTTGCGTTCGCTGAACAGTTTTTCGC -GTTTGCAGGAGATGAGTGGTCTGAAAGAGAAAGCGGGCGACCGTTTTGTGGCGCTGGATTCCCCCTTTAACCACT -GCGAACAGGGCAAAATTGTTATTCCCCGGATGCGCGTTGAGCCTTCCATCGACAACGAAGAGCAGCATATTGCCG -AAATGGCGGCCTTTTTCCGTAAGCAGGTGGAGAGCAAAAAACATCTCGGTATGTTGGTACTGTTTGCCAGCGGAC -GGGCGATGCAGCGCTTTCTCGACTATGTGACGGATTTACGTCTGATGTTGCTGGTTCAGGGCGATCAGCCGCGTT -ACCGTTTAGTTGAACTGCACCGCAAACGCGTCGCCAACGGTGAGCGCAGCGTGCTGGTGGGCTTACAGTCATTTG -CCGAAGGGCTTGATTTGAAAGGTGATCTGCTCAGCCAGGTGCATATCCACAAAATCGCTTTTCCGCCCATCGACA -GCCCGGTGGTGATCACCGAAGGGGAATGGCTGAAAAGCCTCAACCGCTATCCGTTTGAGGTGCAAAGCCTGCCGA -GCGCCTCGTTTAACCTGATTCAGCAGGTTGGGCGACTGATTCGAAGCCACGGTTGCTGGGGCGAAGTGGTTATCT -ACGACAAACGCTTGCTGACCAAAAATTATGGCAAGCGACTACTGGATGCATTACCGGTATTTCCGATAGAGCAAC -CGGAAGTCCCTGAAGGTATAGTTAAAAAGAAAGAAAAAACGAAATCCCCACGCCGTCGGCGGCGTTAATGATGTG -AGTCAGGTAAGGAGTCGTAAATGGACTATCGCAAAATCATTAAAGAGATCGGGCGCGGGAAAAACCACGCGCGCG -ATTTAGACCGGGATACTGCGCGCGGTCTGTATGCTCATATGCTCAATGGTGAAGTCCCTGACCTTGAGTTGGGCG -GCGTATTGATTGCGCTGCGTATCAAAGGAGAAGGGGAAGCAGAGATGCTCGGCTTTTACGAAGCCATGCAAAATC -ACACCATCAAGCTGACGCCGCCAGCAGGCAAGCCGATGCCGATTGTCATCCCCAGTTACAACGGCGCGCGTAAAC -AGGCCAACCTGACGCCGTTGTTGGCGATTCTCCTGCACAAACTCGGTTTTCCTGTGGTGGTTCACGGGGTTAGCG -AAGATCCAACCCGCGTGCTGACTGAAACCATTTTTGAATTGATGGGTATTACGCCAACGTTGCACGGCGGGCAGG -CGCAGGCGAAGCTCGACGAACATCAACCGGTGTTTATGCCAGTCGGCGCGTTTTGCCCGCCGCTGGAAAAACAAC -TGGCGATGCGCTGGCGGATGGGCGTGCGTAACAGTGCACATACCCTGGCGAAACTGGCGACGCCATTTGCCGAAG -GTGAGGCGCTGCGTCTTTCCAGCGTTTCGCATCCGGAATACATTGGACGCGTCGCGAAGTTCTTTAGCGATATCG -GCGGGCGGGCGCTACTAATGCATGGTACTGAAGGTGAAGTGTATGCTAATCCGCAGCGCTGCCCGCAGATCAATC -TCATTGACCGTGAAGGGATGCGGGTGCTGTATGAAAAACAGGACACTGCTGGTAGCGAGTTACTGCCACAAGCAA -AAGATCCGGAAACCACGGCGCAGTGGATTGAGCGTTGCCTTGCTGGCAGCGAACCGATTCCCGAATCGCTGAAAA -TCCAGATGGCTTGCTGCCTGGTGGCTACGGGTGAAGCGGCAACTATCAGCGACGGCCTGGCGCGCGTTAATCAGG -CATTTTAATTCTTTTCTCAGCCGGATGAGCCATGTCATCCGGCTTTTACCCCACCGCAATATGAAATTCCTGCAT -CTTTATTGACCTTCCCACGCCCGGCGTGCAGCATAAAAATACAACAAACACATAACATAAACAGGAGTTAACCAT -GGAAAGTGGTCATCGCTTTGATGCTCAGACGCTGCACAGTTTTATTCAGGCTGTATTTCGTCAGATGGGTAGCGA -GGAACAAGAAGCGAAATTAGTTGCCGATCATTTAATCGCGGCAAACCTGGCAGGGCATGATTCACATGGTATTGG -CATGATCCCAAGCTATGTACGCTCCTGGAGTCAGGGGCACCTGCAAATTAACCATCATGCCAAAACCGTTAAAGA -GGCGGGGGCGGCGGTCACGCTCGATGGCGATCGCGCATTTGGTCAGGTCGCGGCACATGAAGCGATGGCGCTGGG -GATTGAGAAAGCGCATCAGCACGGTATTGCCGCCGTGGCGCTACATAACTCGCATCATATCGGCCGTATCGGTTA -CTGGGCGGAGCAGTGTGCAGCGGCGGGGTTTGTCTCTATCCACTTTGTTAGCGTGGTCGGTATTCCAATGGTCGC -GCCGTTCCACGGTCGCGACAGCCGCTTTGGCACCAATCCGTTCTGTGTGGTTTTCCCTCGTAAAGATAATTTCCC -GCTGTTGCTTGATTACGCCACCAGCGCCATTGCATTTGGCAAAACCCGCGTCGCCTGGCATAAAGGCGTCCCCGT -GCCGCCAGGTTGCCTGATTGACGTTAACGGCGTGCCGACGACCAATCCGGCGGTAATGCAGGAGTCGCCGTTGGG -TTCGCTGTTGACCTTTGCCGAACATAAAGGCTACGCCCTTGCAGCGATGTGTGAAATTCTTGGCGGGGCGCTTTC -CGGCGGTAAAACGACGCATCAGGAAACGTTACAAACCAGTCCCGATGCCATTCTTAACTGCATGACCACTATCAT -CATCAACCCGGAACTCTTCGGCGCGCCGGATTGTAACGCGCAGACCGAAGCCTTTGCCGAGTGGGTGAAAGCCTC -GCCGCATGATGATGATAAGCCGATTTTGCTACCGGGCGAGTGGGAAGTGAACACGCGTCGCGAACGGCAGAAGCA -GGGGATTCCACTGGATGCGGGAAGCTGGCAGGCCATTTGTGATGCAGCGCGGCAGATTGGTATGCCGGAAGAGAC -GTTGCAGGCTTTCTGTCAGCAGTTAGCCAGCTAAAAAAAAGCCCGTCCAGTGGCGGACGGGCAAACAAGGGTAAC -ATAGGATCAATGAGGGTTAGAGCATATGCGTCTGTCGGCAAACAGACAGGGAAATACTTGTGCTGGACGTAGCGT -AAACGCCTGATCCGTCCAACGGTTCGGATTTTGTAGGCCTGATAAGACGCGGTAGCGTCGCATCAGGCATCTGTT -GCCGGATGCGGCGTAAACGCCTTATCCGTCCTACGAATTACTTATAAATTACCGCAGTACCGCTTAATTTATTGT -TGTTGGTGGCGGAAGTGATGCTGTATCCACTGGCACCGGCTGCCGCGGCTTTCTCAGCCAGTTTCGCTTCCAGGG -CATCGAGGGTGGATGCGCCATCGGCAGAAACCACGCCGATTTTATTCATGTTCTGTGCCTGGGATGCCGTTACCG -GTTCCGCCGCGAACACGCCAAATGACAGAGTTGAAAGAGCCATAGCAGCAACAACAGTATTGATAGTTTTCATAA -TTAATCTCTCGCAGGTGATTTTTGTATAAGTGACGTTGTTTCGTCGATGTGATGAGTATCACGTTTTTTTACGAG -AGATAAAATCGAAGAGAATTGACCGCCTTGTTCAAATAAATTGATTGATATCTAACCTACTGATAAACCATTTAT -TTGTTGTACTTATGAACTTGTTTTATACCGCGTGGCAGTCACAGCAGCGTTAAAGGCACGGAATGACACGCAAAA -TACAAATTATACTCGCTATGCATCTCGCCAGTTGTAGTTAACGTAACTGGCTGTCTTTCGAACCTCTGCGATTAT -ATCCTGTATAAGCTGGTTTTTGTAAATCTTTCTCCTGCTGACAATGAATACATAAGCGCACGCCAGGAATGGCTT -CCCGACGGGCCTGCGGGATGGGGGCACCGCACTCTTCACATTCATCCAGGCTTTCGCCGCGCGGAATTTCACCCC -GAGCGCGGGCAATCGCATCTTCAATTGTACTGTTGATCTGTTCGTTGACGGCGTCATCGTTAGCCCAACCGGATG -CCATATCGACCTCCCCATATCAATACTTGTACAGTTAAGTGTAGCTAATCCAGGGACGAACTCGGGCAGTTCAAG -CATCAGATCTCCGACCATTCCCGCAGCAGATTATGATAAAGATTAAGCAGCGACAGGATCTCTTCACTTTCGCCG -TAGCGGCTTTTCAGCGACTGAATATTGTTGTCCAGTTCAAACAGCATGGCGCGCTTTTTATCATCGCGGATCATC -GACTGGATCCACATAAATGATGCCACTCGTACGCCGCGGGTTACGGGTGTCACGCAATGCAGGCTGCTGGAGGGA -TACAACACGAGATCGCCTGCCGGGAGTTTTACCCGATGTTGTCCGAAGGTGTCATTAACGACCAGTTCGCCGCCG -TCGTAGCTTTGTGGATCGCTTAAAAACAGCGTGGCAGAAAGGTCAGTACGCATCCAGCCGTTTTGTGGATGGCTG -CGTACTGCGCCATCCACATGGAAACCATAGGTTTCATTGTTCTGATAGCGATTAAACAGCGGCGTGGAAAGGGTA -CGCGGCAAGGCCGCGGCAAAGAATAAAGCATGTTGGTTAACCGCGTTCAGCACCTCATTTTGCAGGGCGGCGTAT -AACGTGCTGCGGGTGTCGACCTGTTGATTGTTCTTAACTTGCGCACCTTGTGCGCCGGTGGTGACGCGTCCATCC -ACCCATTCGGCTTGTTCCAGTTGTTCGCGAAAACGAGCGACGTCCTGTGGCGATAACACGCCGGGAATGTGGTAC -ATCATACAATTTCTCCAAAAAGTGGGGCCTGCGCCCCACATCTGAATCAGAAATGCATATTGGCTGTGAGCAAGA -AGGTTCTTGGCTCGCCCGGGTGATAACGGTAGCCGCTCTTGTTGATTGAGGCGACGTAATCGGTATCAAACAGGT -TGTAAACGTTTAGCTGGAAGTCGAGATTGCGATTAACTCGATACCCCAGTTTGGCATCGGCGACCCAGTAACCTT -CGGTAAACGCTGGCGTTCCCACCGCGCCGTCTGAACCTTTATGCATACTGCCGATATAGCGTGCGCCCGCGCCAA -CAGAGATATCGTCGGTTGCCTGATATTGGCTCCATAAGGTGAAGGCGTGCTCCGGGGTATACGGCAGCGATGAGG -AACCATCCTGGGCAACATCTTTGCCGTTTTTGATGGTTGCTTTTTGCTGGGTATAGCCGCCAATCACCTGCCACG -CGGGAGTGATATTCCCGGCCACGGATATCTCATAGCCTTCGACGCGTTTCTTACCGTATTGCGAGTAAGTTCCGT -CATCATTTTGCTCAACTTCATTTTCGATATCAGTGCGGAACAGCGCGGCGGTGAGCAACAGACGTTTATCCAGAA -CCTGCCATTTGGTGCCAATCTCGCTGGTGTTGGCTTTTTGCGGTTTAAAATCGGTGCGGTTGGCACTGTTACCGC -TGCCAGACTGCGCAAGGGCGAAGTTGTTGCCGCCCGGAGGCTGCTGGGAAACGGCATAGTTAATATAGACATTGC -CGTTTTCCGTCAGGTGATACAGCGCCCCGGCTTTCCAGTTCATCAGATTGCCCGACTTGGCGGTGTCGACGGTGG -TGACCGGAGAACCTTTTGCCACACCAGTTGGGCAGGTGATGGCACCGCGTCCGCTGCCGCCGCAGGCGGTGGCAC -TGTCATATTCAGTATGATAATTATCCAGACGGATCCCGCCGTTCAGCTCAAAATCACGGGTGATTTGCAGCGTAT -CAAAGGCGTAAATTGCGAAGGTATCCGTCTGACCATTGGCGTTTGCGCCGTTGCGCGTCAGGCCGCCGGGATGAA -TGCTGCTGTCAGGATGATAAATATTTACCGCGGGTAACGTCACCGGATTAACGCCGTAGTTAGTCTGCGTTTCAC -GGGTAAATTCCACGCCGGTACTGACATCATGACCGATAGAACCGGTATAGAACGTCGAGGTCAGGTTGGTCTGGT -TGGTGAGAATTTTATTACTCACATCTTTGGTATTCGCCGTGCGTGACCAGGTCCAGCTATTCACATCGCTGGTGG -GCTGAGTAATATTCGACGCCCCGCCCATAATCGCCGTCATCAGGTAATCCTGCTTTACGCGCGACCAACGGGTAG -TATTGCGAATGGTGGTGTTATCGTTGATGTCGTGCTCAAAACGCATGGTGGCGGTGTCGGTGGTCGAATCGTCGT -AATCGGAATCCGTGCCGTAAAAGTTATGAGTATCAACTTTTCCGGAATGATTCAGGGCCGCCGTTCCCGCAGATG -GGGCAGAATAGCCCGGCAAACCGATGGTCGGAATGCCGCCGTCTGGCGTGTTGTGCTGGGTGACATGCAGATAAT -TAAGATACAAACGATTCGCTGTACCAAGGCCAAAAGCGACAGAAGGGGCGACGCCGTAACGCTCATTTTTGACTT -TGTCGCGTCCGGCATCGTGCGTTTTTTCGCCCATTACATTCAGGCGCACCGCGGTGGTATCACCAATGACCTGAT -TGACGTCCAGCGTGCCGCGGCGGAACCAGGCGCTGCCAATACTGGCGGAGGCGTCAATGCCGGAATCATTGCGCG -GCTGCTTGCTGATCATATTGATCGAGCCTGTCGGTGCGCTGCGCCCGTAGTCGGTGCCGGACGGCCCTTTAATCA -CTTCGACCTGCTCGGTATTGAAGGTGTCGCGCGAGACGCTGCCGATATCGCGAATGCCATCAATATAAATACTGT -TAGAGGTATCGGCACCACGCATATAAATGGCGTCGCCAGTGGTGGAGTTACCGTTCTCACCCGCAAAAAACGCAC -CCACGCCGGGGACGTTTTTGAGCGCGTCGGTAAGGTTGGTTGCGCCCTGATCTTTAATCACTTGTTCAGAAATTA -CCGTCATCGTGCGGGTAGTATCCGCTACCGGACGCGAGAATTTCGGATCGGCAGATTGTTGTGGCGCATAAAGCG -AAGGCGTTGATGCTTCGACAACCAGCGTGTCATCCGCGTTAGTTTGCCCTTCGGCGGCGAGTGCCTGAGCCACAG -GCGTGATGCCAATACAAAGACCGGCAAAGAACGTGAGCGAATGAAATTGTCTGGCAGGGAAATTGCGATTGTTTT -CCATTTTGCAGGTGACTTTTTCTTATATGTTGAAATTTTCACTGCCACGAGAAAGCCTCTCTGCGGATGCGATGC -CACTGTTAATCCCGTGATAGTGCTCGTGAAAGTGATAATAATTTTGATAAGCATTATCACTTGGAGCGATTTTCT -ATCACCCATTGCGCGAAAAAGAAATACATTTATTTACATTGAGTTCATATTTGATGTTTTTTGATTACAAAACAG -ACGAAAACTGCATCCAGAGGCGAATGCAGTTACGTTGGTGGGGTTATTTGTAGATGGTTGCAGTACCGAACATCT -GGTCATTTCCGCCTGCGGAATTAATGACATAACCTTTCGCGCCTTGTTCGCGCGCTTTTTCTGCCAGTTTATCCT -CCAGATCGCTTAGGTTTGATGCGCCAGTTGCCGAAACGGTACCGGCGGGCCGTAGCTGACCGCTGTCCAGGTTAC -TCATCGGTTGCGCGGCATAAGCCGTGAGAGAGATTCCGCTCAGGACGGTGGCAATCAGTAGTGTGAGGCACTTTT -TCATAATGACATCCTCATAAATACAACGGGTAGTGCCTGATAAGTGTAGGTCGCCTGCGCGATGCAAATGACGCA -AAAAATTGACAGAGATGTGCTTATTTTTTGAACGATATATTTTTACAAAATAAGACAAATCAATGACATGCATAA -TGCTGATTTTTATGATGAATTGCCATAAACCATAGCCATGTTAAGGTTTTGGGGAATGATAAACGCAGCCAGATA -TTTACCCTGTCGCGTTATGCGGGTATCTTACGCCGCTGCTTAAAGGAGAATGCTATGTCCGCCCAGAAACCGGGG -TTGCATCCGCGCAACCGTCATCACAGCCGCTACGATCTCGCCACGCTTTGTCAGGTCAATCCTGAACTCAGGCAA -TTCCTCACGCTTACACCCGCCGGGGAGCAAAGCGTAGACTTTGCCAATCCGCTGGCGGTGAAGGCGCTCAATAAG -GCGTTGCTGGCCCATTTTTACGCCGTAGCGAACTGGGATATCCCCGACGGTTTTCTCTGCCCACCAGTACCGGGC -CGGGCGGATTATATTCATCACCTTGCCGATTTACTGGCAGAAGCAAGCGGAACAATTCCAGCGAATGCCAGCATT -CTGGATATCGGCGTTGGTGCGAACTGTATTTATCCGCTGATTGGCGTACATGAATATGGCTGGCGTTTTACCGGT -AGTGAAACCAGCAGCCAGGCGTTAAGCAGTGCGCAGGCGATTATCAGTTCTAATCCGGGGCTTAACCGCGCCATT -CGTCTGCGTCGGCAAAAAGAGAGTGGGGCGATTTTTAACGGCATCATCCATAAAAACGAGCAATACGACGCGACC -TTGTGTAACCCGCCATTCCACGATTCCGCCGCTGCGGCACGGGCAGGTAGTGAGCGTAAACGCCGTAACCTGGGG -CTGAACAAAGACGATGCACTGAACTTTGGCGGCCAGCAACAGGAGTTGTGGTGTGAAGGCGGTGAAGTCACCTTT -ATCAAAAAGATGATTGAAGAGAGCAAAGGCTTCGCGAAGCAGGTGATGTGGTTTACATCACTGGTATCTCGTGGT -GAAAACTTACCGCCGTTGTATCGTGCCCTGACGGACGTGGGCGCGGTGAAGGTGGTTAAAAAAGAGATGGCCCAG -GGGCAAAAGCAGAGTCGCTTTATTGCCTGGACCTTTATGAACGACGAGCAGCGCCGCCGTTTTGTCAATCGCCAG -CGTTAAAGCGTTGGTTCCCCCGGCGGTAACGGTTCAGCCGGGGTCGCGCCCGGAGCAGGCAGCACCTGATAAGTC -TGCACTGGCGCGCGAACGCCCGCCAGGTCGAAATGTTTTTTCACCTGGCTGTCGAGGGCAAAGCGTACCGTCCAC -TGTTTGAGTGGCAGCGTGGTGAACGAAACACGCAGTGTAAACGCGGTATTGCTTAAGCCGACAATCCCGGCAAAA -TTCGGTTCACCAATAATCAGCCCGCGAATTTCTTCGTTTTCCATTAATTCCGCTACCGCATCTTTCAGTGCCTGA -TTGGCTTTATCAGCATCTTCATGGCGATCAACATCATAATTTGCCACCACCGAACCAATGCCGCGGACAAAGTTA -GCAAAGGTGGTTATCGAAGACCACGGAATGATGTGATACGCCCCGGTATCCTGTCGTACGCCCACGGAGCGAATC -GACATCCGTTCCACTGTGCCGGTCAACGGCCCGATAGTCACCAAATCTCCAGTGTTCATGCCGTTTTCAAACTGA -ATAAATACCCCGGTGATAATATCTTTCACCAGCGTTTGCGAACCAAACGAGATAGCCAGACCTAATGCCCCGGCA -CCTGCCAGCAATGGCGCGATATTGACGCCGATTTCCGACAACACAATCATGATGGTGATGGTACTGATAATCACC -GCCAGCGCGTTACGAAACAGCGTAAGCAGGGTACGCGTGCGGGCGCTGGGTAGCGGGCGGCCATGAATATCCGAA -GCCAGCCGGTTTTCGATCAAACTGGCGAGCACCGTCCAGCCAACCGCCGAGAAGAAAAGAATGAGTGCGATACGG -ATCAGGATATCTACGGTTTTCTGCCCCGCGCCGTTTTGCAGCCAGTTCCAGAAATCGAACAATCCCCATGCGCTC -AACAGCAACATTACCGCCACGCAGACTGTCAGAATACGCGCCGTTTTCAGCGCCGCCGACAGCCAGCCATTCAAC -CGTTTTTGCAGCTCCGGATAGTTACGCTGAGTATGTGGCGAGAGAGTGATGGTTTTCGCCAGCCAGCGGGAAAAC -ATACCGGAAACAAACGCTGCGATACCAATAATCGCCAGGCTGCGCACCGTTGCACCCATCATAAATTTCAGGCTG -TTGCCCGGATCGAACAACGAAAAGAAAAACAGCACGATAAAATAGGCGCTTGCCAGCCAGTGCCACACCAGCGCA -AAGGCGCGGATAAACAGGCTGAAAAAGGCCAGCGAATGCTCCGCGAAGTTGAGCAAATGCTGGGTAATCTCTTTT -TTATTACGAAAGATCAGGTACAACGCCCAGACGGTCATGCACAGCATAATGATGACGTTCGCCAGCGCACCTATC -TGTACATTCACCTGATTAGAGATAATCGGCACGGCCACAATCAGGCCATAACCTATCAAACTGCTTAACCAGCTC -AGGCGACGACTCCAGTAACGGGCGCTCTCGTCCTGAATCGTGAACGGGCGCAGCTCCGCCACGTTTGGGCAAAAA -ATCAGGCGTAGTACGGCTTTGAAAAATTCAATGAGGGCAAAGGCGTTGAGAAACAAACTTTGTTGGAAAGCGATG -GTGCGACTGCCTGCATTCAGGTTGTCGCTTAATACCTGGCCGACAAATAATGTCAGGGCCAGTAACAGCAGGTCG -ATAATAAACGCCCCGATAATCATCGCCGGAAGCTGCAACCAGTTGCTGCGCTCACGATTTTTTTGCCGCGCCCAC -TGACCCATTTTGCGATACAGCGGCAGTGCGCACAGGCGAATCAGCCAGTAAAAACCAAACACTAATACCGCTAAC -ATTGAAAAATGGGTCAGCGCATTGCTGAAGGTTTGTGGATTAAACGGCTTATGCGGGGAGCCGGTGATATTGCGA -TAAAGTTGCCCGAAGCGGGCGGAAAGGGCTTCACCATAATGGCGGCTGACTTCGGTGACCTTTTGCAGCACGGTT -TGCTCTTCGACCAGCGTCGGCGGCACTATTTTTGGTACCGGTTCAGCAGGGGGCGTAGCGGCAACGGTGCGCAAC -TGGTCGATCAACTCTTTACGCGAGGTGTCATTATCCAGCACATCCGCCAGTGCGCCATAGGCCGCTTTTTTTTGT -TCGATATCCGGTTCCGGGGCCGGTTCAGTCGTTGAGTCCGTTGTCGTTGTGGTTGTAACGCCGGGTATGGATACC -GCGTGGGCAGGTGCGCCCAGCAGGCAGAAGAGGATGAACAGGATCCACCGCATGACTCCTCCAGTGAGAAAATAG -AGCAAAAAGATAAGTATAGATGCTGGAGGAGGGGCGATTTTAAATGAGAGGAATCTGGTGTGCCTCCCTTTCGGG -TGAAAGGGAGGAAGGGATATTAAGCAGGTTGCTGACAACGTGCGGGCTTTTTTGCCGGATGCGGCGTGAACGCCT -TATCCGTCCTACAAGTTCATGCAATTTTAATAAGTTGCCAGATATCCTGTAGGCCTGATAAGCGTAGCGCATCAG -GCAATGTGTCTTATTAAGAGACGTGCTGCAAAAATTCCTGCAAGCGCTGGCTCGGCGGGTTCTTGATCAACACCT -GCGGATTGCCATCTTCCGCAATCCGGCCTTTGTCGATAAAGATCAGCCGCGAAGCTACTTTCTCGGCAAAACCGA -TTTCGTGGGTCACGATCACCATCGTCATCCCTTCTTCAGCCAGATCCTGCATAACCTTCAGCACTTCATGGCGCA -GTTCCGGGTCAAGAGCGGAAGTCGGTTCATCAAACAGCATCATTTTCGGCTTCACCGCCAGCGCGCGGGCAATCG -CCACACGCTGCTGTTGACCACCAGAAAGTTCGGAAGGGTAGTGATGTGCACGTTCTGCCAGACCGACTTTCGCCA -GCAGCTCACGTGCCAGTTTTTCCGCCTCTTCTTTGTTCGCGCCACGCACGCGTAGCGGGCCAAACATGACGTTTT -CCAGCGCTGTCAGATGCGGGAAGAGGTAAAACTGCTGGAACACCATACCTGCTTCCTGGCGAATCAGGCGCTCGT -CAACTTTCGGATCGTTAACCTTCAGGCCATCGACAATCAGATCGCCGGAGGTGATTTCTTCCAGTTTGTTGATGC -AGCGCAGCAGGGTCGATTTACCGGAACCGGACGGCCCGATAATCACCACGACTTCGCCCTGGGCAATGTTCAAAT -CGATATTGTGCAGCACCTGGGTTGGGCCAAAGTGCTTGGAGACGTTTTTAAATTCAATCACAGGATTTTCATCCT -TCTTTCCAGACGACGCAGAATAAAGCTCAGCACCAGGGTAATAATCAGATAGAACACCGCCACGGCGCTCCAGAT -CTCAAGGGCGCGGAAGTTACCGGCAATAATTTCTTGCCCCTGACGGGTCAGTTCCGCCACGCCGATCACAATAAA -CAGCGAGGTGTCTTTAATGCTGATGATCCACTGGTTACCCAGCGGCGGCAGCATACGACGCAGTGCCAGCGGTAA -AATGACGTAGCGAATGGTTTCCCAACGTGAAAGACCGAGCGCCAGTCCTGCTTCACGAAAACCTTTGTGGATAGA -CAGCACCGCACCACGCGTGATTTCCGCAATATACGCGCCGGAGTTGATCATGATGGTGACCACCGCCGCAGTAAA -TGGGTCGATGCGTAAGTCGTTAAACGCCATCGGCAGGGCGAAATAAATAAACATCACCTGGACGACGATAGGTGT -GCCGCGGATCACTTCAATAAAGACCAGCGCGACGTGGTTGGCTATCCAACCTCCGAAGGTGCGTGCAAAACCTGC -CAGCAATCCGATTACCAGACCGCCTGCCAGACCGAGGACCGAAATCCACAGGGTCATTTTGGCACCTTCAATCAG -AAGCGGAATGGCAGGCCAGATGGCACTCCAGTCAAACTGCATATGTTGTTCCTGTTACCGTGGTGTAAATAATCA -AATTCAGGGTAATTAATGGCCCCGGAGCGGGTTTGCGCCCCTCACCCTAATCCTCTCCCCATAGGGGAGAGGGAA -CTGCCAGTGCGTTTTACAGGTGTAGCGTTATTATTTCGGTTCAGTACCGAACCATTTTTTGTAGATTTCGTTGTA -AGTTCCGTTCTCGCGCAGGGTTTTCAACGCGCCGTTGACTTTGTCACGCAGCTCGTCGCTACCTTTCGGGAACGC -AATACCGTATTGCTGCGCTTCCAGAGAGTCACCTACCGCTTTGAACTGACCGTTACCGGCGGTTTTGATGAAGTA -CAGAATGTTTGGCGTATCGTGCAGAACGGCGTCTGCGCGGTTGGTGCCCAGTTCCATATAGGCGTTATCGATGTT -CGGGAACTGACGCAGATCTTTAGTTTTGATGTTTGCTTTCGCGTAATCAACGGAGCCAGTACCGCTCTTCACAGC -AACCACTTTCCCGTCGAGATCTTTCACGCTTTTCACATCGTTATTGTTAGCTTTCACCATCACTAACAGGCCGCT -TTTGTAGTAGCCGTCAGAGAAATCGATCGCTTTTTTACGCTCGTCGGTGATGGTAATGCCCGCCAGCGCCAGATC -GACGTTTTTGGTTTGCAGTGCCGGAATGATCCCACTGAAATCCATCGGCTTCAGTTCGTAATCCAGCTTCAGCTC -TTTAGCGATGGCAGCCCACAGATCAACGTCAAAGCCCACATATTTATCGCCCTGTTTAAATTCAAACGGAACGAA -GGCGGTATCCGTCGCGACAACTAATTTTTTATCCGCGGCATGAGAAGAAACCGCAAAAGCCAGGGTCAGTGCAGC -CAGTGAAACTTTTAATACAGACTTCATAGCATTTCCTTTTTTCTATCCACGGGACGATCCCCTGCGTGACATTCA -CATATATGAAAAAATCGTGCCAGTTTTGCAACTCCTTGATTTTTCGAGATGCGGCAAAAACGTGATGCACGATTT -ATAGGGCAATACCCTGAAGATGCACCATTCTGGGGCACCAATCTGGTGCGCTAAAATTGTGCACTCAACACAGTG -ATTATTTAGCGTAAAACCTGATGAAAAAACAATCTTTATGTAACGATTGTGTGATGATGTGGATACAAAAAATTT -ACTTAATCAGCTGGAGATAGCAGATGGATGCACTAAATAAGTGCGTTGAGGTGGGCTGCAAAACAAAACGGCCTC -CTGTCAGGAAGCCGCTTTTATCGGGTACTAAAGTTCTGCACCATCAGCGATGGATTTATTCGATGTTAGACTCGA -TAAACCACAGGAATTTATCCAGGTCGCGAGACGCGGCGGTCAGGATATCTGCGGTGTCGTCATCTTTCGCTTCGC -CAATCGCTTTGCGTACGTCATTAGCGACGATTGCGTAACGGTCAGCCAGTTCTTTCAGGTGATCCTGAACGTTGT -GGATGTCCAGCGGGTAACTTTTCAGCGGGGTTTTGCTGTTGATAACTTGAGTGGTCCCCAGAGCTACACCGCCCA -GCTGCACTGCACGTTCTGCCATGGTATCCAGATGATCGATCAGTGCGGTGCGGAAGCCATCCAGCATTTCATGTA -CGGCAATGAAGTTAGCGCCGCGCATGTTCCAGTGCGCTTGTTTGGTAATCAAAGAAAGATCAATAAACTGGATAA -CCTGGCGATTCAGCAACTCTACTGTTGCTTTTTTCTCGCTGTCGGAGACATCGTTGCGGGTATAAAGCAGATTGG -TCGCTTTTGATTTAACTAATTTAGCGGTACTCATAATTTCATATCCTCTTGATGTTATGTCCCAGTAATTAACGA -GATTAAGTATAGCACCGGCTATGTGTTCCGCTATTCTGGCTGTTCCTATCACACTAATAGTGGTAACAAGCGTGA -AAAACAAAACTAATAAAGATTCAATGAGTTAGATATATTGATAAGAACAATTCTTATTTATCTGCTCGCCAGGAA -TTTTCGGAATAAATATGCTTTTGCATAATTCGATATATAAAGACGGTGTAGAGGAAAAGTAGCGAGAAATTCTGC -ATGGTTATGCATAACCATGCAGAAATGTAAATTTAATTAATGTCTAATTCTTTTATTTTGCTCTCTTTGCGTACT -GTCAGCGTAGACCCCATTGAAGCGGCGATGATAGCGCCGAGCGCCAGTAGCTGTATGGGTGTCAGTGTTTCTCCG -AGGAAAATCATCCCGGAAACGGCAGCCAGCGCCGGTTCCATGCTCATCAGCGTACCAAATGTCCGTGTTGGCAAA -CGGGTGAGGGCAATCATTTCCAGCGAATAAGGCAGAGCGGTCGAGAGAATAGCGACAGCCAGACCCAATGGAATA -ACCGACCAGTGCCAGAGTGCTTCACCAGCCTGAAGCGCTCCAATTGGCACGAAAATTAACGCTGCAATCAACGAA -CCAATTGCCACCGTCGCAGGGCCATGTTCCGCTCCTGCGCGTTGCCCACTTAAAATGTAAATAGCCCAACAAGCC -CCGGCCCCCAGTGCCAGCGCACAGCCGGTTAAATCGACATGGGAAACGTCTTGCCCCAGCGGTAGCAGGAACCAC -AGACCAAGAACCGCCAGCACAACCCAGACGAAATCTACCGGGCGACGAGAAGAGAACAGCGCCACCGCCAGTGGT -CCGGTGAACTCCAGCGCCACCGCAATACCCAGCGGTACTGTCTGAATAGAAAGATAAAAAAGATAATTCATCCCA -CCCAGCGAAACGCCGTAAAACAACAGCGGTAACCGTTGCTCTTTGGCAAAGCGCAGTCGCCATGGCTTAAAGAAC -GCGATGAGGATCAGCGTTCCTAATGCCAGACGCAGCGCAGTGACACCCGGTGCGCCCACCAGAGGAAAAAGTGAC -TTAGCTAACGAGGCTCCACCCTGAATAGACGCCATGGCAACGAGCAATATGACTATTGGTAACCAGACCGGCATT -TTACGTAATGAACCAGGCATCCTTTCTCCCACAAATATCTAGACTTAAGTAAAGCGTGGAGTGTACTGGATATAC -CCAATGCTGGTTGAGCATTTGTTGAAAAAATTTTCCCCCGTTTTGACTAAAATGCGCCAGGATTGATGGAATCAT -TAGTCTGGTGATTAGGAATAATCTGGATGAATGACAGGGAAAACATGCGTAATACTTACGCAGTTCTCTGAAAAA -GTGATTTAAATTTAGATGGATAGCGGTGTATGGAAACGTTCTGTTACATGAAATGGCCCGTTAGACATCACAAAT -CGCGAAGAGTTTCCCATTAATTTTTGATATATTTAAAACTTAGGACTTATTTGAATCACATTTGAGGTGGTTATG -AAAAAAATTGCATGTCTTTCAGCACTGGCCGCAGTTCTGGCTTTCACCGCAGGTACTTCCGTAGCTGCGACTTCT -ACTGTAACTGGCGGTTACGCACAGAGCGACGCTCAGGGCCAAATGAACAAAATGGGCGGTTTCAACCTGAAATAC -CGCTATGAAGAAGACAACAGCCCGCTGGGTGTGATCGGTTCTTTCACTTACACCGAGAAAAGCCGTACTGCAAGC -TCTGGTGACTACAACAAAAACCAGTACTACGGCATCACTGCTGGTCCGGCTTACCGCATTAACGACTGGGCAAGC -ATCTACGGTGTAGTGGGTGTGGGTTATGGTAAATTCCAGACCACTGAATACCCGACCTACAAACACGACACCAGC -GACTACGGTTTCTCCTACGGTGCGGGTCTGCAGTTCAACCCGATGGAAAACGTTGCTCTGGACTTCTCTTACGAG -CAGAGCCGTATTCGTAGCGTTGACGTAGGCACCTGGATTGCCGGTGTTGGTTACCGCTTCTAATCACTTTGGTGA -TATAAAAAATCCGCCTCTCGGGGCGGATTTTTGTTTTTAAGGTTTCGGGTCGAAAATATCGGTTCCGAGATGGTT -GTAATCCACCTTCTGTAACTGGAAGTTGGTGATGTATATCGGCCCGGCTTTCTTCTCAGATATAAACGGGTATTT -GATGTTAATTTCCTTCGCTTTAATCCCCGTCCACTGGGAGAAAAAGCCTAAGAAGTCATTGGCTGAGCGGCGGGC -TTTAATCACACGATGCGCTTTATCGTCGCTGGAAATGACCATAAAAGGCACCTGGAAATTTTGCTGATATTTATC -ATCATGGGCAAGGTATTGCACGTCTTTACCGCGCTCTTTAAAGGCCAGACCGTGGTCAGAAAAGTAAACCAGCGA -GAAGCTGCTGCCGCTGTTGCGTAACTGATCGTACAGCTTGCGCAGTAAATCGTCCGTTTGCGTCATGGTATAGAG -ATAGCACGACGTTTCTTTCGATTGCACAAAGGTTTCGTATTTTCCTTGTGTCCTGTCGCAGGCCTGCGGATGTGA -GCCCATCAGATGTAGAACAATCAGCTGCGGTTGCGAGTGCTCTTGCGCCAGCACTTGAGCGGTCATATCCAGTAA -CGCTTCGTCTTTGGTGTTTTTATCTGCTTCAAAATTACCTTCTTTCAGGAAGTACACTTCATCTGCTCGTTTGGC -GATGCTGGCGATAGCGGTATCGTATTCGCCGATTTGACCCTGGTTGGAAAACCACCAGGTCTGGAAGCCCGCGCG -ATTTGCCAGGGTGACAAAGTTATCCTGAAACTGTGGTTTGCCATCGACAACGCGATTGAGCGTTAAGCCAAGCGA -TTTCTGCGTGGAGCCACTGGCGGCAATGTAGTCAGCAAATATCAAACCGTTAACGCTGCTGGCAAACGGGGTATT -GTCCCAGTGACCGCCAAAGGCACCGAGGGCATCGCGACGCGCGCTTTCACCGATCACCACCACATAGGTCTGATA -CTTCGGCTTAACGGCAGTGACCGTCCAGGTATCTTTCATTCCGGAAAGTTTTGCCATCCGTTCTTGCTCTTCAAT -CACCTCGTTATTATTGACGATGACATCCTTAGCAAAACGAAATACCGGATAGCCAGTATCTTTCAGTTTAAATAC -GCCACCCCAGGCCAGGTTTTGCACGGGAGCAACAAAAAATGTCGCCACACTGAATACCAGACACAGGCTGTCGAA -GGTATTCCAGCGCGCTTTTTCATTCTCTTTTTTTCGCCTGATTGCTATTACGCCGAGCGCAAAAATAAATAAGCC -GACCAGGTAGCTGTACCACGGAAAAATCGTCAGGATTTCGGTCGACTCTTCCATATTGGTGGAGTGCAATGCCAG -CAATGTATTGAAATTAGGCGCGCCGTAGGCCTGAGCAAAAGGGAAATAACAAGCCGCCACCAGCGAACTGACACC -GACCAGAACTTTTTGTACGCGAGGCAATGTTCGCCATAGCAAAAGCAAAATAGCCGTAAACGCAGCGGTGTAGAG -CAAACTGAAGGGGTAACCTAAGCCGAGGTTAATTAATAGCGACTGTAAAAAGTAGAACGCAGTCCACGGGCTAAA -TACCCGGCTACGGGTAACAAGCGATTCTTTGAGGGTTAAATTCATATGCCACTATCGTAACAAACGCCATGTGCT -TACCCTGGCGTCAAGGGTCAATACCTGCAAGAGTGCGTGAAGAGTGGAAAGGGGTCCGCATCCGCGAGCCGCAAT -ATACGCAGGGCTGCAAGAAGATAGAGCGAGCCGCCGTTCAGGTCAACTACTGACGAACAAATCTTTTGCGAAGGG -GATTGCAAATCCGACAAAAAGTGGGGTTTTTCAGACCAAAACGCGTTATGCCTGCATGAAAGCAGGAGTGAAGCG -GCGTACCGCGACGCCGCTATTTATCGGAAGGTTTATCTTGCTGCGGTTTGTTGTTGACCATATCGCACAACATAG -AGAGCAGCATTAACCGTACTTTAAAGGGAGAATGACTAAACACGCGCATACACCTCTTGAACTCATTCATAAGAC -CTCCTGACTTGCTAATCCCGTCGATCCTTGAGGGATGATTGCATTACATACAGATATAGCACAGGCTATATTATA -TAGCTATTGCTAAAACGTTAATTTTTTGTACCTTCGCAACTCTGGTTTACAATGTGCGCACGAAATGAGAACGCT -ATGTATGCGTCACCATAATGAGGAAGCACAATGAGTCGTCGCGCAGGTACGCCAACAGCAAAAAAAGTGACGCAG -TTAGTGAACGTGGAAGAGCACGTTGAAGGGTTCCGCCAGGTCAGAGAGGCGCATCGGCGCGAGCTTATTGATGAT -TACGTTGAGCTGATTTCTGACTTGATCAGGGAAGTGGGGGAAGCTCGTCAGGTGGACATGGCTGCTCGTCTGGGA -GTTTCGCAACCGACGGTGGCTAAAATGCTTAAGCGGCTGGCAACCATGGGGCTGATTGAAATGATCCCCTGGCGT -GGCGTGTTTTTAACGGCAGAAGGAGAGAAGCTGGCGCAGGAAAGCCGCGAGCGACATCAGATAGTCGAAAATTTC -TTGTTGGTGTTGGGCGTCAGTCCGGAAATCGCCCGTCGCGACGCGGAAGGCATGGAGCACCATGTTAGTGAAGAG -ACGCTCGACGCTTTTCGTTTGTTTACCCAGAAACACGGTGCCAAATGAGCCTGCCTTTTTTACGCACGCTGCAAG -GCGATCGTTTTTTTCAGTTATTAATTCTTGTTGGTATCGGATTAAGCTTTTTCGTGCCCTTTGCACCGAAATCCT -GGCCTGCTGCTATCGACTGGCACACCATCATCACCTTAAGCGGCCTGATGCTGCTGACCAAAGGTGTGGAGTTAA -GCGGTTATTTTGATGTGCTGGGGCGCAAAATGGTGCGCCGCTTTGCTACGGAGCGTCGGCTGGCGATGTTTATGG -TGCTGGCGGCGGCGCTGCTTTCTACCTTTCTGACCAACGATGTCGCGCTGTTTATTGTTGTTCCGCTGACTATCA -CGCTAAAAAGACTGTGTGAGATCCCGGTTAATCGGCTGATTATTTTTGAGGCGCTGGCAGTCAACGCTGGTTCGC -TACTGACGCCAATTGGCAACCCGCAAAATATTCTTATCTGGGGACGTTCTGGTCTTTCGTTTGCCGGATTTATTG -CCCAAATGGCACCGCTGGCTGGCGCAATGATGCTGACGCTCCTGCTCCTGTGCTGGTGTTGTTTCCCTGGAAAGG -CGATGCAATACCATACGGGGGTGCAAACACCGGAGTGGAAACCGCGGCTGGTGTGGAGTTGTCTGGGGCTGTATA -TCGTCTTTCTGACGGCGCTGGAGTTCAAACAAGAGCTGTGGGGACTGGTGATTGTGGCGGCAGGCTTTGCGCTGC -TGGCACGTCGCGTGGTGCTCAGTGTGGACTGGACGCTGCTGCTGGTGTTTATGGCGATGTTTATCGACGTCCATT -TACTGACCCAGCTTCCAGCGTTGCAAGGCGTGTTGGGTAACGTGAGTCATCTATCTGAACCCGGGTTATGGTTAA -CGGCAATCGGTTTATCGCAGGTGATCAGTAACGTGCCGAGTACCATATTGTTGCTGAACTATGTGCCGCCGTCTT -TATTACTGGTATGGGCGGTAAACGTAGGTGGCTTTGGGTTATTACCCGGATCGCTGGCAAATTTGATTGCGCTAC -GTATGGCGAACGATCGCCGCATCTGGTGGCGTTTCCATCTCTATTCAATACCGATGCTGTTGTGGGCGGCGTTGG -TGGGATATGTTTTGTTAGTTATACTCCCGGCCAACTAGGGTCTGGCAAATAAAAAAGGCGGATTATGAGTCCGCC -TTTTGCTTTAAGTTTTGAAGATTAATTCAGACGAACCGGCATCCCGGAGCGGTTTTTAATCGCTTCATCAAGAAC -AACCTGGTCAACATCTGGCTGACCGGTCACTGTCTGCACGCTCTTCGTCAGGGTAATTGGCACAATTTCCTGACC -TTCAAACTGGGCTTCGGTGGTAGACAGCGGGTTATGGACTTCAATATAACGGCTGCCGTCTGGCTCGGTGGTCGC -TTTTACCGGCTCATCAATAAACTGTACGCGGGTACCGACCGGTACTTTCTCGAACAGGAATTTGATGTCTTCGTT -ACGCAGACGCACACAACCATGACTTACACGCAGGCCGATACCGAAGTTGGCGTTGGTGCCATGGATAGCATACAG -GCGACCGATATAGAGTGCATACAGCCCCATCGGGTTATCCGGACCTGCCGGAACGACAGCCGGAAGCGGTTCGCC -CGCAGCGCGGTACTCTGCGTGCATTTTGGCGGTCGGCGTCCAGGTCGGGCCTGCTTTTTTACGCTCAACTTTGGT -GGTCCAGTTGATAGGCGTATCTTTGCCTAACTGACCAATGCCGATCGGCAGCACGATAACGGTGTTGGTCCCTTT -CGGATAGTAATAAAGACGCATCTCAGCACTGTTAATGACGATGCCTTCATGAACGGTATCCGGCAGGATCAGCTG -CTGCGGAATGTTCAGTACAGTACCGCCTTTCGGCAGGAAGGTATCCACACCCGGGTTCGCTTCCATCATATTGGA -AAGCCCCATCTGGTACTCGGCGGCAAAATACTCCAGCGGCTGAGTGTTACCTTCAGGAATGGTGATCACCTGATT -CTGACCAACCAGGCGACTCCCGTCGGTTGGCAGAGGATAAGTTACCGCAGAGGCGGTACTGCAAAAGCCGACAAC -AGCGAAGGCCGCTGCGAATAATGTTTTCAATTTCATATTCATGTTAAGCGAGATTTTGTGCCTGGCAGGCCATTG -GGTTGAGAATATTAGAGTATTGGAAGCGCATTATAAGTTCATTCCAGCTCACAGTGAAATCAGATGTGTACGAAA -TCACATTTTTTGCCTTTGGCTTGAGTGTAGACCTTAAGCGAGGAGCAGGATCTTCTTTCAGACTTATGGCATAAT -GCGCGGTTTGTCATATCTCTTTTCAGGATACGCCTGTGTTAGTTTCCAGTAACGTCACCATGCAGTTCGGCAGTA -AGCCGTTGTTTGAAAACATTTCCGTCAAATTTGGCGGCGGCAACCGTTACGGCCTGATTGGCGCGAACGGTAGTG -GTAAATCCACCTTTATGAAGATCCTCGGCGGCGACCTTGAGCCGACGCTGGGTAACGTTTCCCTCGATCCCAACG -AGCGCATTGGTAAACTGCGTCAGGATCAGTTTGCCTTTGAAGAGTTCACTGTGCTGGATACGGTGATCATGGGGC -ATAAAGAGTTGTGGGAAGTGAAGCAGGAGCGCGACCGCATCTATGCTTTGCCGGAAATGAGTGAAGAAGACGGCT -ATAAAGTGGCCGATCTGGAAGTTAAATACGGCGAAATGGACGGTTACTCTGCGGAAGCTCGCGCCGGTGAACTGT -TGCTTGGCGTGGGAATTCCAGTGGAACAGCACTACGGCCCGATGAGTGAAGTTGCTCCTGGCTGGAAGCTGCGTG -TGCTTCTGGCGCAGGCGCTGTTTGCTGATCCGGATATTCTCCTGCTCGACGAACCGACCAACAACCTCGACATCG -ACACCATTCGCTGGCTGGAACAGGTGCTGAACGAGCGTGACAGCACCATGATCATCATCTCGCACGACCGTCACT -TCCTTAACATGGTCTGTACCCACATGGCGGATCTGGATTACGGCGAGCTGCGCGTTTATCCGGGTAACTACGATG -AGTACATGACGGCGGCGACCCAGGCGCGTGAACGTCTGCTGGCCGATAACGCCAAGAAGAAAGCGCAGATTGCTG -AGTTGCAATCTTTCGTTAGCCGCTTTAGCGCCAACGCCTCGAAATCTCGCCAGGCAACTTCGCGCGCGCGCCAGA -TTGATAAAATCAAACTGGAAGAGGTGAAAGCCTCCAGCCGTCAGAACCCGTTCATCCGTTTTGAACAGGATAAGA -AACTGTTCCGTAACGCGCTGGAAGTGGAAGGTCTGACCAAAGGGTTTGATAACGGTCCGCTGTTTAAAAATCTCA -ACCTGCTGCTGGAAGTGGGTGAAAAACTGGCGGTACTGGGTACCAACGGCGTCGGTAAATCAACGCTGCTGAAAA -CGCTGGTGGGCGATCTGCAACCGGACAGCGGCACCGTAAAATGGTCTGAGAACGCGCGCATTGGTTACTATGCTC -AGGACCACGAATATGAGTTTGAAAATGATCTGACCGTGTTCGAATGGATGAGCCAGTGGAAGCAGGAAGGCGATG -ACGAGCAGGCGGTACGCAGTATTCTCGGTCGTTTGCTGTTCAGCCAGGACGACATCAAAAAGCCAGCTAAAGTGC -TTTCCGGTGGGGAAAAAGGGCGGATGCTGTTTGGTAAGTTAATGATGCAGAAGCCGAACATTCTGATCATGGACG -AACCGACCAACCACCTGGATATGGAATCCATTGAGTCGCTGAACATGGCACTGGAACTGTATCAGGGCACGCTGA -TCTTTGTTTCACACGACCGTGAGTTCGTAAGCTCCCTGGCGACCCGCATTCTGGAAATCACCCCGGAACGCGTGA -TCGACTTTAGCGGTAATTACGAAGATTACCTGCGTAGTAAAGGGATCGAGTAAGTGATTATCCGTCACCCCGATA -CTGTCGGGGTGACGGCGGCTGATGACAAATGCAAAATAGCCTGATGCGCTACGCTTATCAGGCCTACGCAGTACC -TGCAATATATTGAATCTGCAGGACTTTGTAGGCCGGATAAGGCGTTAACGCCGCATCAGGCATTAACAAAGCGCA -TTTGTCAGCAATCTGAGTAACGTCGAATCGATTTTCTTAATCCCACATCAATTCACTTCCATTAATTCTCAAACA -TCCATGCCCAACGCTCGCTTACCGTGAATGTTGAGGTCGGCAAGCGTAAAGCGTCCTTCCCAGTTTGTTTCATAG -TCCTCGCGCGGGAAGTCGCCCGGCGATGCGCCTTTTTCCAGTGCGGCCTTCACCTTGTGCGCGTAGGCAAGATTT -TTCTCGCACATCGGTGCCGCAGGAATGTACATCACGTTGCCCCAACCTTGTTGATTTTCAACGGGGGCAACGGAA -TGGATGACGTCGCAGTGCCACCAGACGGAGTCTCCGGCTTCGAGTTTTGGAATGCTGGTTAACGCCTCAATCAAC -AGTGGATGCCATTGCTCTGATACCGGCAATACTCTTCCGGGCGCTACGCCGCACAGTTCATCCTCCGGCACATCA -TCAAGCAGCGGACGTAACAGTACGTACGCCATAGCTTCAGGAATGGGCACGACGTGCAGCAGCCCCTGACCAGGC -AGCATATCAGAGAGCGCTGTCCAGCCCTGGAATGTCCGAAACACGGAACATTTGGTGGTGTTGTCCACCGTGTAC -TCTTCAACTTCCGTACGATGTGCCGCATGCCAGGGATCATATTGCGCCAGATTGCCATTAAAGACGTTGGCGAAA -ACGCGCTGATACGCTGGAAGCAGCCAGCGTTCCAGTGCCCCGGAGTCGGTATGCGCTCCAAGACCTTTGGAGGTC -GTTCCGGGCGGACGGCGGCGGATACGGTCAGGGTAGATGACGCTCACATCCGGGTTAAACCATTGCTTTCCATCA -CTTTCAAATGTCCACAGACGATTGAGAAACGACTGCGCATTCGCCATTTCTTCACTCTGGCGGGCCTGCATTTGC -GCCTGCGACCAGTAGATGGGGTAAATCTCGGGACGTGAAGCGCTGAGCGTCCCGAAGAAATTATCGCCGGGGCCT -TTGTAGACCTCGTCAAAGCGGTTGCGGTCCAGATAGTCCAGCATCGACTGATCCCAGCCTAGCGCTTGTTCGCGG -GGGAAATGGCCTTTTATCACCGCACAACCGCGACGTTTAATCTGTTCGCGCTGCTCTGCAGTAACATGACCTGCT -TTGATATCGGCATAAGACAGCACCGGCCAGACGGCATCGCCCTGTGCTTTGAGTGCGTTGATTTCAGCCACTCGC -GTGGCAATGTCATCGCTTAGCTGATTAAAGATCTGCTGGACGTCGCCAAGCTGCGCCCGCAGCGCGTGCTTCATC -TGACGGATAGCTGCTTTGTGATCGGCAGGCAATGTGTCGCTGGTAAAAGTAGAAGCCATAACCACCTCTCATTAA -CTTTCATTCGAAACCATTCTGATTTGCATGTGACAATATAAGTTATAAATAAGTTAATGCAAGTTTAATGATTTG -ATGTGATGTACAGGATGTAAAAAGAAGGGAAAACCGGAGCGCACGGCTCCGGTAGAGAGGTCAGCTGTTAAAAGG -GGATGTGTTATCCAGCACCGCCTGAATCACATTCAGCGCGCCTTCATGATTATTATCATCGGTAGCGTAACGGGC -GATTTGTTTAATGTTTTCCGCAGCATTGCCCATCGCAAAGGAATAACGCGCCATTTTCAGCATCTCCGCATCGTT -ACCGCTGTCGCCAATCGCTACCACATTTTGCGGTGACAGATCCCAGCGTTTCAGTAACCGCGAAATACCGTTTGC -TTTATGTAGACCGGGAATAATCAGGTCGATAAAGCCAAAACCACTGGTAACGGGTTTCATAATGCCATCGAGCGC -TACGTGCAGTTTGTCGATCACTAACGGGATTTGTTCATCCGGCAGGTTGAGCGAAAACTTGAACAGTACGTCGTC -AATCTCCTGATAATCTTTTACAGGTTTCAGGCGATGGTAGTGTTTTGCCATCAGTGCGACAAATGCTTCGGGGGC -ATTTTCGCTGACATATGCACTTTGCAGACCGCAGGCGACAAAATTGAGTTGCTTATCTTTTAGCAACTCGCCAAT -AACAATCCGCGATTCATGTCGGGTCAGTTCGCCGTGGAACAACTGCTTGCCATGTTCGTAAACCAGTGCGCCGTT -TTCCGCGACAAAAGAGATCTCATCCTTTAGCTCAGGAAAGAATGAAATAAGCTGGTAATACTGATTACCGCTGGC -AACAACGAACTTAATGCCGCGCTTTTTCAGTTCCTGATATTGCGCCATAAAACGTGGTTGGTTGTACGTTTTGGC -GTCGTTAAGAAAAGTACCGTCCATGTCTGTGACGATAACTTTTACGCTCATAGGTGTGCTCCTGGCTCGAAAATG -AAACCGTAACAGTGTAATAACAATGTGACGCAGAGCACAAATTATATTTCGAATGAAAGTAAGGATGAAATTGAT -GATGTGAATGATTTAGCCCGGCGACGACGCCGCCGGGCCGAGGAGATTACAGCATATGTTCAGTACGGGCGATGA -TATCGTCCTGAGCGTCTGGAGAGAGCGCGGTGAAGAACGCGGAATAGCCCGCGACACGCACTACCAGATCGCGAT -ACTGATCGGGATGTTTTTTCGCATCCAGCAGCGTTTCGCGGGAAACGATGTTGTACTGAATATGCCAGCCTTTAT -GCACTTCAAAGAAGGTACGCAGCAGGATCATCAGTTTCTGCTTGTCAGATTCGTTCTCCAGCGTTGCCGGATTCA -GTTTCTGGTTGAGCAACACGCCGCCGAGAATCGCTGCCGTAGGCAGTTTACCCACTGAGCCAATGACCGCAGTAG -GGCCAAGATGGTCAGTACCGGAGGCCGGGCTTGCGCCTTCTGCCAGCGGGGTGTGGGCTTTACGCCCGTCCGGTG -TTGCCATAGTCTGCGCGCCAAACGGTACGTTAGCGGAGATTGATGACGTACCCGCGTAATAGTTGCCGCCAACCG -GACCACGACCGTAGCGCGGATTATGGTACTGTTTCAGTTCGTCGATATAGGTCTGATAAGCGCGAGCCAGCAGCG -TATCGACAGTATCATCGTCGTTGCCGTACTTCGGCGCACCGTTAATCAGCCGCTGACGCAGCTGCTCGTGAGTCA -GGCCGTCGAAGTCATCTGCCAGTGCGGCAGCAAGCTGTTGCTGACCAATCGCACCTTGTTCAAACACCAGTTTCT -TCACTGCCGCCAGGCTGTTGCCGAGGTTGGCAATGCCGACCTGCAGGCCAGAAACCCAGTCATATTTCGCGCCGC -CTTGCTTGATACTTTTCGCTCGCTCAATACAGTCATCCACCAGCGCCGAGCAGAGAATATCGTGCACGTTCTCTT -CCAGCATGGTGTCGACGACATATTCGATTTCGATTGATTTGCGGGTGTAGTAACGGATTTGCGTATCCCACGCGT -CCATCACTTCATCGAAGTTGTTGAAGTTACCTGCCGACAACGCTTTTTCTTGTGGCAGGAACACTTTGCCGCTGG -TGGCATCATGCCCGCCTTCCAGCGCCGCCAGCATCACGCGGGCGAAGTTGATAAAGCTCATGCCGGTACAGCGAT -AGCCCCATTTGCCACCGACGGCGGTTTCTATACAACCAATCGCTGCGTAGTCATAAGCGTCCTGCGGTTCAATAC -CGAGTTTAATAAATTCCGGGATCACGATTTCGTCGTTGTTGAACGCCGGCATCCCGAAGCCGCAACGGATCACCT -GTACGCAGGCGTCGAGGAAATCGTTGCTCATTCCTGCATGGTAACGCACGCTGAGGTTAGGCTGAGTGGAACGCA -GGCGACCGCAGGATTCGAGGATCGCGTAAGAGAGTGGATTCACCGCGTCCATTGGTTGACCATCAACCAGATTTT -GCCCGCCAATAGTGACGTTCTGATACAGCGGACTTCCCGCAGAGGCTTTTGAGTGTGAGCCGGAGCGGATCTTGT -TCACTTCCAGCAGTTTCAGCCAGCAGCTATGCAGCATCTCGATGGCGTGTTCGCGATCCAGCGTCTGGTTGAGTT -CAACGTCGCGGCGATAGTACGGGTAGAGATACTGGTCCATACGACCAAACGATACTGAGTGACCGTTAGATTCGA -TCTGCAAAATCAACTGGATGAAGTAACACAGTTGCAGCGCCTGCCAGAAAGTCTGCGGCGGCTGGTGGGCGATAA -GATCGCAGTTTTCTGCCATCGCCAGCAGTTCATCGCGACGGCTTTCGCGGGTTTCGGTCGCGGCCATTTCACGCG -CCAGGGCAGCGAAACGTTCAATGTGTTCACTGACTGCCACCAGCACGATATCAATCGCTTTCAGGAATTGCTCAC -CGTGTAAATCTTCCAGCACCGTCAGGTTGATGCGCGAGCGACGTTCCGCTACTTCCTCGCGCAGACCATCAAGCC -CTTTTTCCAGCAGCAGCGGGAAATTCACCGCCAGGTGCGCATCGCCGGAGGTCATATTGCCTTCCGCTTTAATGA -TTCCGGTCGCCAGCAGACCTTTTTGCTCATCGGTAAACATGCCGTAGCAGCGATCCTGTACGGTCTGACCGCGCC -ACCACGGGCACACTTCATGCAGAACGCGTTTGTTCTCTTCGCTCACCGCAAAGCCAGCACCGGGACGATCTGCCA -GATCATCAATCTCTTTTTCGATCCACGAGACAGTATATTCCGGGAAGATCGGCGCGGCGCGAACTTCGCTTGCCT -GGTTGCCAATGATCAACTCATCGTGTTTGATCCAGATGGTGCGATTCGCCAGGTGATGCGCCAGTGCCAGCGCGC -GACGTACCGGGATCGGCTTATCGAGATGTTGTTGATACATCTCGGTATAGTGCTGCGCGCGCTCGGTACAGACTG -GCGGTTTCACAATATGCACCAGCGCATTTTTGTGCGCTTTAATGCGGTCGCTGAGCGTGTCCAGTTTCAGTGTGG -TCATGGTTGTTATCCTCGTAAGGTCGCGGTTAACCCTTTCTGGCAGGCATACTGCTGGGCAAAGTCGAGCAGTTC -TGGCGCATCAAGCGGTTTTTCCGGGGCGTCATAGGGCAGATTAAGTAAGTGATATTTGTTGATGCCCAGCGTGTG -GTAGGGCAGAAAATGAATTTCGCCAACGTGCAGCTCGTCGGCGGCAAAATCGGTAATGGCTTTTACAGAGGTTTC -GTCGGCATTAAAGCCCTGAATCAGCGGCACGCGGATAATGATTTTTTTGCCCGCTGCGGCGAGTTTTTTCAGGTT -ATCCAGCACTCTGGCGGCGTTACCGTCGGTCCACTGTTTAAACGGCGCGTCGGCAACGTGTTTTAAATCGGCAAG -AAACAGATCGATATAGGGCAGAGAAGGGGCGATATATTTCCACGGCACATGCAGACAGGTTTCTACCGCAGTATG -AATGCCTGCCTCGTGGCTGGCTTGCAGTAGCGCCATCGCCATTTCCGGCTGCATAAAGGGCTCACCACCCGAAAG -CGTTAAACCGCCGCCGCTGCGATCGTAAAACGGTTTATCGCGCAGAACGGTCGTCATGATCTCCTCAACGCTTTT -CACTTCACCACACACGGTTAATGCCTGTGTCGGACAGCAGTCGGTTAACGCCGTCAGATGCTCCGGGGTTAACTT -TTCCCGATGAATAAGCAAACCATTCAGCGCGCGCTCAATCACTTCCGGCGCGGCCTTAGCGCACAGCTCGCAGCC -TTCCAGACACAGTCGTGCGTCATACAGCAGATCCTGCGTGCGGGCGCGGCTTTCCGGGTTCTGACACCAGCGGCA -GCCCAGCGAACAGCCTTTAAGAAATACGACCGTGCGGATACCGGGGCCATCATGGGTCGAGTAGCGCTGAATATT -GAAAATCATAGTTGCCTCTCTATTTCGTTCAAGCATTAAAATACTTTCGAATGAAAGTTAGATTGATGTGCGTCA -ACTGTTCAGAGAGTTTTCCCGTGATAGTCTACATTCAGACAAAAAGTACATTTTGAGGATGGTTATGGAACTGTA -TCTGGATACTTCAGACGTTGTTGCGGTGAAGGCGCTGTCACGTATTTTTCCGCTGGCGGGTGTGACCACTAACCC -AAGCATTATCGCCGCGGGTAAAAAACCGCTGGATGTTGTGCTTCCGCAACTTCATGAAGCGATGGGCGGTCAGGG -GCGTCTGTTTGCCCAGGTAATGGCTACCACTGCCGAAGGGATGGTTAATGACGCGCTTAAGCTGCGTTCTATTAT -TGCGGATATCGTGGTGAAAGTTCCGGTGACCGCCGAGGGGCTGGCAGCTATTAAGATGTTAAAAGCGGAAGGGAT -TCCGACGCTGGGAACCGCGGTATATGGCGCAGCACAAGGGCTGCTGTCGGCGCTGGCAGGTGCGGAATATGTTGC -GCCTTACGTTAATCGTATTGATGCTCAGGGCGGTAGCGGCATTCAGACTGTGACCGACTTACACCAGTTATTGAA -AATGCATGCGCCGCAGGCGAAAGTGCTGGCAGCGAGTTTCAAAACCCCGCGTCAGGCGCTGGACTGCTTACTGGC -AGGATGTGAATCAATTACTCTGCCACTGGATGTGGCACAACAGATGATTAGCTATCCGGCGGTTGATGCCGCTGT -GGCGAAGTTTGAGCAGGACTGGCAGGGAGCGTTTGGCAGAACGTCGATTTAACCGGACGTTCTGCATCCTCATAA -ATTGCTGATGACGTGGCGGAGTGCCGCGTCTTATCAGGCCTGGAGGTGGCAATTACTGCCCACACACCTCACACC -CCGGATTACGCATCAGTTTCATTTCGCGAAACTGACAGGTCATCGCATCGTACATGACGATTTTCCCGCTGGCCG -GTTTGCCATAACCTGCCAGCATTTTGATCGCTTCCATTGCCTGCAACGAACCAATTACGCCGATCAACGGTGCCA -TTACGCCTGCTTCCACGCAGGTTAATGCATTTTCACCAAACAAACGGCTAAGGCAGCGATAGCACGGTTCACCGT -CCTGATAAGTAAAGACGGTGATTTGACCTTCCATACGAATTGCCGCGCCGGAAACCAGCGGTACCTTCGCGGCAA -AACAGCCTGCGTTCAGTTGATTACGTACCGCAACGTTATCCGTACAGTCGAGCACCAGATCGTGTTCAGCAATCA -ATGCTGCAAGTTCTGCGTCATCCAGCAGTGCATTGACTGGCGTAATCGCGATATGTGGGTTGATCCGCGTCAGGG -CGTCACGGGCGGATTCCACCTTCGGTTGCCCGACCGTGGCATCACTGTGCAGTGTCTGGCGTTGCAGATTCGAGA -GCGAAACCGTGTCGAAGTCGAGCAGCGTCAGGTTACCGACACCGGCGCTTGCCAGATACTGCGAGGCTGCACAGC -CGAGGCCGCCCAGGCCCACTATCAGCACGCGAGAATCTTTCAGCGCCTCCTGGCCGTCAAAATCAAAGCCGCGCA -GAATGATTTGCCGGTTGTAGCGCAGCATCTCCTGATCGCTGAGTTCCGCCATTACAGGCCTCCGAACAACGCGTT -AAACGGTTCTACTTCCACCCATTCGCCCACTTCCACATTGCCGCGATCGCGTTCCAGCACGATAAAGCAGTTGCC -GAGGCTAAAGGAGCTAAATATATGTGAACCCTGATGTCCGGTGGTCGTCACTTCCAGTTCGCCATCGGCGTTGCG -TTGCAGCACGCCGCGCTGGAAATCAAGACGTCCTGGCGTTTTTTTCAGGCGGGACGCTGTGCGTACGCGCTGGCG -CGCGGGCAGGCCGCTGGCGGTGTTACCGCTTAGTTTTGCCAGCAAAGGCTGTACCAGTTGATAGAAGGTCAGCGT -CGCTGAAACCGGGTTGCCCGGCAGGCCGCAGAACCAGCTATTGCTGAGTTTACCGAACGCGAACGGTTTACCTGG -TTTAATCGCCAGCTTCCAGAAGGCGATCTCCCCCAGCTCTTCAAGAATCGTTTTGGTGTAATCCGCCTCACCCAC -TGAAACACCGCCGGAACTGATCACCACATCCGCCTGGCTGTCGGCTTCAATAAATGCGGCGCGCAGGGCATGGGG -ATCGTCGCGGATAATCCCTAAGTTAATTACCTCGCATCCCAACTGTTCTAACATCAGGTGTACGGCGAGACGGTT -GGTATCGTAGATTTGGCCGTCGCCCAGCGGCTGACCGGGCAACTGGAGTTCATCACCGGTAGAAAAAAGCGCTAC -ACGCACTTTACGAATCACCGGAACTTCGGCAATCCCCAGTGAAGCAATTACTGGCAGCTCTGCGGTAGTCAGGCG -AGTTCCCGCCGGGAAAACAACCGCACCTGCAGAGATATCTTCACCGCGACGGCGAATATTTTGCCCGCTACGCAC -TTCAGCAGTAAAACGCACGCCATTGTCCATTTGTTCAGTCTGCTCCTGCATCACCACCGCTTCGCAGCCTTCCGG -CACCGGCGCACCGGTCATAATACGAATGCAGGTACCCGCAGGCCATTCACCATGGTATGGCTGACCGGCAAAGGA -TTTACCGGCAACGGGCAGCGGTTGCCCGGAGGCAATATCGGCTAAACGCACCGCGTAGCCGTCCATTGCGGAGTT -ATCAAACCCCGGAACATCAAGCGGCGAAACGACATCGCTCGCCAGAATACGACCAAAACACTGTACCAGTGGCAG -CGTTTCCTGGGCGGTCAGTGGGGTGACGCGAGAAAGCATCTCATTAAGCGCGGTGTCGAGCGACATCAATCCGGT -GGTAAATTCCATGAAAACACTCCTGCGGAGGCAAAATCGAATTTGCCTATTATGTCAGAAAAACGCCACAGACTG -TATGCCACCTCGGGCGTAGCGCTGGGTCCTGCCTTTACATGCCATATCCATCTTTCTATATTCAAAAATTGAATG -AGTAATTCATAAAAATTCTGATATTTATAGCAAAAGTGGCGAACCACCCTTAATGGACGAATACTATGGGCAAAG -CAGTCATTGCAATTCATGGTGGCGCAGGTGCAATTAGCCGCGCGCAGATGAGTCTGCAACAGGAATTACGCTACA -TCGAGGCGTTGTCTGCCATTGTTGAAACCGGGCAGAAAATGCTGGAAGCGGGCGAAAGTGCGCTGGATGTGGTGA -CGGAAGCGGTGCGTCTGCTGGAAGAGTGTCCACTGTTTAACGCCGGAATTGGCGCTGTCTTTACGCGTGATGAAA -CCCATGAACTGGACGCCTGTGTGATGGATGGTAACACCCTGAAAGCCGGTGCGGTGGCGGGCGTTAGTCATCTGC -GTAATCCGGTTCTTGCCGCCCGGCTGGTGATGGAGCAAAGCCCGCATGTGATGATGATTGGCGAAGGGGCAGAAA -ATTTTGCGTTTGCTCGTGGCATGGAGCGCGTCTCGCCGGAGATTTTCTCCACGTCTTTGCGTTATGAACAACTAC -TGGCAGCGCGCAAGGAAGGGGCAACCGTCCTCGACCATAGCGGTGCGCCACTGGATGAAAAACAGAAAATGGGCA -CCGTGGGGGCCGTGGCGTTGGATTTAGACGGCAATTTGGCGGCAGCCACGTCCACAGGCGGAATGACCAATAAAT -TACCCGGACGAGTTGGCGATAGTCCCTTAGTGGGTGCCGGATGCTACGCCAATAACGCCAGTGTGGCGGTTTCTT -GTACCGGCACGGGCGAAGTCTTCATCCGCGCGCTGGCGGCATATGACATCGCCGCGTTAATGGATTACGGCGGAT -TAAGTCTCGCGGAAGCCTGCGAGCGGGTAGTAATGGAAAAACTCCCTGCGCTTGGCGGTAGCGGTGGCTTAATCG -CTATCGACCATGAAGGGAATGTCGCGCTACCGTTTAACACCGAAGGAATGTATCGCGCCTGGGGCTACGCAGGCG -ATACGCCAACCACCGGTATCTACCGTGAAAAAGGGGACACCGTTGCCACACAGTGATGAACTTGATGCCGGTAAT -GTGCTGGCGGTTGAAAATCTGAATATTGCCTTTATGCAGGACCAGCAGAAAATAGCTGCGGTCCGCAATCTCTCT -TTTAGTCTGCAACGCGGTGAGACGCTGGCAATTGTTGGCGAATCCGGCTCCGGTAAGTCAGTGACTGCGTTGGCA -TTGATGCGCCTGTTGGAACAGGCGGGCGGTTTAGTACAGTGCGATAAAATGCTGTTGCAGCGGCGCAGTCGCGAA -GTGATTGAACTTAGCGAGCAGAACGCTGCACAAATGCGCCATGTTCGCGGTGCGGATATGGCGATGATATTTCAG -GAGCCGATGACATCGCTGAACCCGGTATTTACTGTGGGTGAACAGATTGCCGAATCAATTCGTCTGCATCAGAAC -GCCAGTCGTGAAGAAGCGATGGTCGAGGCGAAGCGGATGCTGGATCAGGTACGCATTCCTGAGGCACAAACCATT -CTTTCACGTTATCCGCATCAACTCTCTGGCGGGATGCGCCAGCGAGTGATGATTGCGATGGCGCTGTCATGCCGC -CCGGCGGTGCTGATTGCCGATGAGCCAACCACCGCGCTGGATGTCACTATTCAGGCGCAGATCCTGCAATTAATC -AAAGTATTGCAAAAAGAGATGTCGATGGGCGTTATCTTTATCACTCACGATATGGGCGTGGTGGCAGAGATTGCC -GATCGGGTACTGGTGATGTATCAGGGCGAGGCGGTGGAAACGGGTACCGTCGAACAGATTTTTCATGCACCGCAA -CATCCTTACACCCGTGCGCTGTTAGCTGCTGTTCCGCAACTTGGTGCGATGAAAGGGTTAGATTATCCCCGACGT -TTCCCGTTGATATCGCTTGAACATCCAGCGAAACAGGCCCCCCCCATCGAGCAGAAAACGGTGGTGGATGGCGAA -CCTGTTTTACGAGTGCGTAATCTTGTCACCCGTTTCCCTTTGCGCAGCGGTTTGTTGAATCGCGTAACGCGGGAA -GTGCATGCCGTTGAGAAAGTCAGTTTTGATCTCTGGCCTGGCGAAACGCTATCGCTGGTGGGCGAGTCTGGCAGC -GGTAAATCCACTACCGGGCGGGCGTTGCTGCGCCTGGTCGAATCGCAGGGCGGCGAAATTATCTTTAACGGTCAG -CGAATCGATACCTTGTCACCCGGCAAACTTCAGGCATTACGCCGGGATATTCAGTTTATTTTTCAGGACCCTTAC -GCTTCGCTGGACCCACGTCAGACCATCGGTGATTCGATTATCGAACCGCTGCGTGTACACGGTTTATTGCCAGGT -AAAGACGCGGCTGCACGCGTTGCGTGGTTGCTGGAGCGCGTGGGCCTGTTACCTGAACATGCCTGGCGTTACCCG -CATGAGTTTTCCGGCGGTCAGCGCCAGCGCATCTGCATTGCTCGCGCGTTGGCATTGAATCCAAAAGTGATCATT -GCCGACGAAGCCGTTTCGGCGCTGGATGTTTCTATTCGCGGGCAGATTATCAACTTGTTGCTCGATCTCCAGCGT -GATTTCGGCATTGCGTATCTGTTTATCTCCCACGATATGGCGGTGGTAGAGCGGATTAGTCATCGTGTGGCGGTG -ATGTATCTCGGGCAAATTGTTGAAATTGGTCCACGGCGCGCGGTCTTCGAAAACCCGCAGCATCCTTATACGCGT -AAATTACTGGCGGCAGTTCCGGTCGCTGAACCGTCCCGACAACGACCGCAGCGTGTACTGCTGTCGGACGATCTT -CCCAGCAATATTCATCTGCGTGGCGAAGAGGTGGCAGCCGTCTCGTTGCAATGCGTCGGGCCGGGGCATTACGTC -GCACAACCACAATCAGAATACGCATTCATGCGTAGATAACATTCAGGCGGAGAATAAAATGGCAAGAGCTGTACA -CCGTAGTGGGTTAGTGGCGCTGGGCATTGCGACAGCGTTGATGGCATCTTGTGCATTCGCTGCCAAAGATGTGGT -GGTGGCGGTAGGATCGAATTTCACCACGCTCGATCCGTATGACGCAAATGACACGTTATCTCAGGCCGTAGCGAA -ATCGTTTTACCAGGGGCTGTTCGGTCTGGATAAAGAGATGAAACTGAAAAACGTGCTGGCGGAGAGTTATACCGT -TTCCGATGACGGCATTACTTACACCGTGAAATTGCGGGAAGGCATTAAATTCCAGGATGGCACCGATTTCAACGC -CGCGGCGGTGAAAGCGAATCTGGACCGGGCCAGCGATCCGGCGAATCATCTTAAACGCTATAACCTGTATAAGAA -TATTGCTAAAACGGAAGCGATCGATCCGACAACGGTAAAGATTACCCTCAAACAGCCGTTCTCAGCGTTTATTAA -TATTCTTGCCCATCCGGCGACCGCGATGATTTCACCGGCAGCGCTGGAAAAATATGGCAAGGAGATTGGTTTTTA -TCCGGTGGGAACCGGACCGTATGAACTGGATACCTGGAATCAGACCGATTTTGTGAAGGTGAAAAAATTCGCGGG -TTACTGGCAGCCAGGATTGCCCAAACTGGACAGCATAACCTGGCGTCCGGTGGCGGATAACAACACCCGCGCGGC -AATGCTGCAAACCGGTGAAGCGCAGTTTGCTTTCCCCATTCCTTACGAGCAGGCCACACTGCTGGAGAAAAACAA -AAATATCGAGTTGATGGCCAGTCCGTCAATTATGCAGCGTTATATCAGTATGAACGTGACGCAAAAGCCGTTCGA -TAACCCGAAGGTCCGTGAGGCGCTGAATTACGCCATTAACCGTCCGGCGCTGGTGAAAGTTGCCTTTGCGGGCTA -TGCAACGCCAGCTACTGGTGTGGTACCGCCAAGTATCGCCTACGCGCAAAGTTATAAACCGTGGCCTTACGATCC -AGTGAAAGCGCGCGAATTACTGAAAGAGGCGGGATATCCCAACGGTTTCAGTACCACGCTGTGGTCGTCACATAA -CCACAGCACCGCGCAGAAAGTGCTGCAATTTACCCAGCAGCAGTTAGCGCAGGTCGGGATTAAAGCCCAGGTGAC -TGCGATGGATGCCGGACAGCGGGCGGCAGAAGTTGAAGGTAAAGGGCAAAAAGAGAGCGGCGTGCGGATGTTCTA -CACTGGCTGGTCGGCTTCAACCGGCGAAGCGGACTGGGCACTATCGCCGCTGTTTGCCTCGCAGAACTGGCCACC -GACGCTGTTTAATACCGCGTTTTACAGCAATAAACAGGTGGATGACTTCCTGGCTCAGGCACTGAAAACTAATGA -TCCGGCGGAAAAGACCCGCTTATATAAGGCGGCGCAGGATATCATCTGGCAAGAATCGCCGTGGATCCCGCTGGT -GGTAGAAAAACTGGTGTCGGCACACAGTAAAAACCTGACCGGTTTTTGGATCATGCCAGACACCGGCTTCAGCTT -TGAAGACGCGGATTTGCAATAAGCAACGCAGGGAGTGGAATGCTTAATTACGTTATCAAACGCTTACTGGGGTTG -ATTCCGACGCTGTTTATCGTCTCGGTGCTGGTGTTTTTATTTGTCCATATGCTGCCCGGCGATCCGGCGCGATTG -ATTGCCGGGCCCGAAGCTGATGCGCAGGTTATAGAACTGGTGCGTCAGCAGCTGGGGTTGGATCAGCCGCTGTAT -CACCAGTTCTGGCACTATATCAGCAATGCTGTGCAGGGGGATTTTGGCCTGTCGATGGTGTCGCGTCGTCCGGTT -GCCGATGAGATTGCCAGCCGCTTTATGCCAACGCTGTGGCTGACCATAACCAGTATGGTCTGGGCGGTTATATTT -GGTATGGCGGCGGGAATTATCGCCGCCGTCTGGCGTAACCGTTGGCCGGATCGATTGAGTATGACCATTGCGGTG -TCGGGGATCTCGTTTCCGGCATTTGCTCTGGGGATGCTTTTAATTCAGGTATTCTCCGTTGAACTGGGCTGGCTG -CCTACCGTGGGAGCAGACAGTTGGCAGCACTACATTTTACCCTCCCTGACGCTCGGCGCGGCAGTGGCCGCCGTG -ATGGCGCGCTTTACCCGCGCGTCGTTTGTCGATGTTTTAAGCGAAGATTATATGCGTACCGCGAGGGCGAAAGGG -GTGAGCGAAACCTGGGTTGTCCTCAAACACGGGCTACGTAACGCGATGATCCCGGTAGTGACCATGATGGGCTTA -CAGTTTGGCTTTTTGCTCGGTGGTTCCATCGTTGTGGAGAAAGTTTTCAACTGGCCGGGACTTGGACGCTTACTC -GTTGACTCCGTAGAAATGCGTGATTACCCGGTGATTCAGGCGGAAATTCTGCTTTTCTCGCTGGAATTTATTCTT -ATCAACTTAGTGGTGGATGTGCTTTACGCCGCCATTAACCCGGCTATCAGGTACAAGTAAGGATGCGACTATTTA -ACTGGCGACGTCAGGCGGTGTTAAACGCCATGCCACTGGTCAAACCTGACCAGGTACGTACACCGTGGCATGAAT -TCTGGCGACGATTTCGCCGTCAGCATATGGCGATGACCGCCGCATTATTCGTTATTTTATTGATTGTGGTGGCCA -TTTTTGCACGCTGGATCGCTCCCTATGACGCCGAAAATTATTTTGATTATGACAATCTGAATAACGGACCTTCTT -TGCAGCACTGGTTTGGCGTCGATTCACTGGGGCGTGACATTTTCAGCCGTGTCCTGGTTGGTGCGCAAATCTCGC -TGGCGGCGGGCGTGTTTGCCGTGTTTATCGGTGCGGCGATCGGGACGTTGCTGGGCTTGCTCGCTGGATATTATG -AAGGCTGGTGGGATCGGCTGATCATGCGCATTTGCGATGTGCTGTTTGCCTTCCCGGGTATTTTACTGGCGATCG -CTGTTGTTGCGGTGTTGGGAAGCGGCATTGCTAACGTGATTATTGCAGTCGCCATTTTTTCCATCCCCGCGTTTG -CCCGCCTGGTGCGCGGCAACACGCTGGTGTTGAAACAGCAAACCTTTATTGAGTCAGCACGCAGTATTGGTGCCA -GCGATATGACCGTTTTGTTGCGTCATATCCTGCCTGGGACCGTCTCTTCTATCGTGGTGTTTTTCACCATGCGCA -TTGGTACCTCGATTATCTCTGCCGCCAGCCTCTCATTTCTCGGCCTCGGTGCGCAGCCGCCGACACCAGAGTGGG -GAGCAATGCTCAATGAGGCTCGAGCGGATATGGTTATCGCGCCGCATGTCGCTGTTTTTCCGGCCCTGGCTATTT -TTCTGACCGTACTGGCGTTCAATTTGTTGGGCGATGGTTTACGCGATGCGCTGGATCCGAAAATTAAAGGATAGT -TACGTTTGAATATTGCTTGAAAGGGTAATCACCTCACAGGAAATTATTGCCCTAAGCAAGTGTTGTAACTTTCTG -CTGATTTTGTAGAATCGGGTAATTTGGTTAAAAAGCCGCAGCAAGGGACAATTTTTGCAGCGGCACAGCGTTCAG -ATAGTTATTTTGTTAAATGTATTAACATGCTGAGTTTATACGAAAAGATAAAGATAAGGCTGATAATTTTATTTT -TATTGGCAGCACTGTCATTTATTGGTCTTTTTTTCATCATTAACTATCAACTGGTATCGGAGCGCGCGGTAAAAC -GTGCCGATAGCCGCTTTGAACTTATTCAGAAAAACGTTGGCTATTTCTTTAAAGATATTGAACGTTCGGCCCTGA -CATTAAAGGACTCACTGTATTTATTAAAAAATACAGAGGAGATTCAACGCGCCGTGATTCTTAAAATGGAAATGA -TGCCATTTTTAGACTCGGTGGGACTGGTACTTGATGATAATAAATATTATCTTTTTTCGCGGAGGGCGAATGATA -AAATCGTTGTTTATCATCAGGAACAAGTAAATGGACCGCTTGTCGACGAGTCAGGGCGGGTTATTTTTGCCGATT -TTAACCCATCGAAACGACCGTGGTCGGTGGCTTCAGATGACTCTAACAACAGCTGGAATCCGGCATACAATTGCT -TTGATCGTCCGGGTAAAAAATGTATCTCTTTTACGCTACACATCAACGGCAAAGATCACGATTTGTTAGCGGTGG -ATAAAATTCATGTCGATTTAAACTGGCGATATCTGAACGAGTATCTTGATCAAATCAGCGCTAATGATGAAGTTC -TATTTTTGAAACAAGGCCATGAGATCATTGCCAAGAATCAACTCGCTCGTGAAAAACTGATTATTTATAATAGCG -AAGGTAATTATAATATTATTGATTCTGTCGATACTGAATATATCGAAAAAACATCAGCGGTGCCAAACAACGCAT -TATTCGAAATCTATTTTTATTATCCTGGCGGTAATTTATTGAACGCATCAGATAAACTTTTTTATCTGCCGTTTG -CGTTCATTATTATCGTATTGCTGGTGGTTTATTTAATGACCACTCGTGTGTTCCGTCGGCAATTTTCTGAAATGA -CAGAGCTGGTTAATACGCTGGCGTTTTTGCCTGACTCAACGGATCAAATCGAGGCTCTGAAAATTCGTGAAGGCG -ATGCGAAAGAGATTATCAGCATCAAAAATTCGATCGCGGAAATGAAAGATGCCGAAATTGAACGGTCAAATAAAT -TGCTCTCACTGATCTCTTACGATCAGGAAAGTGGTTTTATTAAAAATATGGCGATTATTGAGTCTAACAATAATC -AGTATCTGGCTGTGGGGATCATCAAACTGTGTGGTCTGGAAGCCGTGGAAGCGGTGTTTGGTGTTGATGAGCGCA -ATAAAATCGTCAGGAAATTGTGTCAGCGAATTGCCGAGAAATATGCGCAATGCTGCGATATCGTGACATTCAATG -CCGATCTCTATTTACTTCTGTGTCGGGAAAATGTACAGACATTTACCCGTAAAATAGCGATGGTAAACGATTTTG -ACAGCAGCTTTGGCTACCGCAATCTGCGCATCCATAAGTCTGCCATTTGTGAACCTTTGCAGGGGGAAAACGCCT -GGAGTTACGCAGAAAAACTGAAACTGGCGATTTCCAGTATCCGTGACCATATGTTCTCAGAGTTTATTTTCTGTG -ATGACGCGAAACTCAACGAAATAGAAGAGAATATCTGGATTGCGCGTAATATTCGCCATGCAATGGAAATTGGCG -AACTATTCCTCGTCTATCAACCGATCGTTGATATTAACACCCGCGCCATTCTGGGCGCGGAGGCGTTGTGCCGTT -GGGTGTCTGCGGAGCGGGGGATCATTTCACCGCTGAAGTTCATTACCATTGCTGAAGATATCGGGTTTATCAATG -AGCTGGGTTATCAGATTATTAAAACGGCAATGGGTGAATTCAGACATTTTAGTCAGCGTGCGTCGCTGAAGGATG -ATTTCTTACTGCATATTAATGTTTCGCCCTGGCAGTTAAACGAACCACACTTTCATGAGCGTTTTACCACCATCA -TGAAAGAAAATGGCCTGAAGGCGAACAGCCTCTGTGTTGAGATCACTGAAACCGTGATCGAGCGAATTAATGAAC -ATTTTTATCTCAATATTGAACAACTGCGTAAACAAGGGGTACGGATATCGATTGATGACTTTGGCACCGGTTTGT -CAAACCTGAAACGTTTTTATGAAATTAATCCAGACAGCATAAAGGTGGACTCGCAATTCACCGGCGATATTTTCG -GTACTGCGGGAAAAATTGTGCGCATTATTTTCGACCTGGCACGCTATAACCGGATCCCGGTGATTGCGGAAGGCG -TAGAGAGCGAAGACGTTGCGCGCGAATTAATCAAATTAGGATGTGTTCAGGCTCAGGGGTATCTGTACCAGAAAC -CCATGCCATTCTCCGCCTGGGATAAAAGTGGAAAATTAGTAAAAGAGTAGTTTACGTATGTCCAGAATCAATAAG -TTCGTACTTACAGTCAGTCTGCTGATTTTTATCATGATTTCAGCAGTTGCCTGCGGGATCTACACTCAAATGGTA -AAGGAACGGGTGTATAGCCTGAAACAGTCCGTTATTGATACTGCTTTTGCGGTGGCAAATATTGCTGAATATCGG -CGTAGCGTGGCAATTGATCTTATCAACACGCTAAATCCCACGGAGGAACAGCTGTTGGTTGGTTTGCGCACAGCT -TACGCCGACTCGGTTTCCCCCTCTTATTTGTACGATGTCGGTCCTTATCTGATTTCCAGTGACGAATGTATTCAG -GTAAAGGAGTTCGAGAAAAATTATTGTGCAGATATTATGCAGGTTGTGAAGTATCGACATGTCAAAAATACAGGG -TTTATCTCTTTTGACGGTAAAACCTTCGTCTATTACCTCTATCCGGTAACTCACAATCGTAGTCTGATATTTTTG -CTTGGTCTGGAGCGTTTTTCTTTACTGTCAAAATCGCTGGCGATGGACAGCGAGAACCTGATGTTCTCTCTATTT -AAGAACGGTAAACCGGTGACCGGTGATGAATATAATGCTAAAAACGCCATCTTCACCGTTTCGGAAGCGATGGAG -CACTTCGCCTATTTGCCGACCGGATTGTATGTATTTGCGTATAAAAAAGATGTTTATTTGCGGGTTTGTACATTG -ATTATTTTCTTTGCCGCATTGGTGGCAGTGATATCGGGTGCCAGTTGCCTCTATCTGGTACGCAGAGTGATTAAT -CGTGGTATTGTGGAGAAAGAAGCCATCATTAATAACCATTTTGAACGCGTACTGGATGGCGGGCTTTTCTTTTCG -GCTGCCGATGTCAAAAAACTCTACAGTATGTATAACTCGGCGTTCCTGGACGACCTGACCAAAGCAATGGGCAGA -AAATCCTTTGACGAAGATTTAAAAGCGCTGCCGGAAAAAGGCGGTTATTTGTGCCTGTTTGACGTCGATAAATTC -AAAAACATTAACGACACCTTCGGTCATTTGCTGGGCGATGAAGTGTTGATGAAAGTGGTGAAAATCCTTAAATCA -CAGATCCCGGTAGATAAAGGTAAAGTCTACCGCTTCGGCGGTGACGAATTTGCGGTGATTTATACGGGTGGAACG -CTGGAAGAGTTGCTATCGATTCTAAAAGAAATCGTTCATTTCCAGGTGGGAAGCATTAATTTAAGTACCAGTATC -GGTGTAGCACATTCAAATGAATGTCCTACCGTCGAACGCTTGAAAATGCTGGCGGATGAGCGGCTGTATAAGAGT -AAGAAAAACGGCAGGGCACAGATTAGCTGGCAGTAATCATTATTCGCAGGCCGGACAAATGATTTTGCCCGGCCT -GAATTAATTAAACCCGGCTACCCCACAAATCGTACTCATCGGCGTGCTCGACTTTCACACGCAGGATATCACCCG -GCTTAACGTTGGTTTCACCATTGAGATAAACCGCGCCGTCGATTTCCGGTGCATCTGCCATGCTGCGACCAATCG -CGCCTTCTTCGTCCACTTCGTCGATAATCACCAGAATTTCACGGCCCACTTTCTCTTGCAGGCGCTCGGCGGAAA -TCTGCTGCTGCAGCTGCATGAAACGGTTCCAGCGTTCTTCTTTAACTTCTTCCGGAACCTGGTCAGGCAGGGCAT -TGGCGTCTGCACCTTCAACCGGGCTGTATTTAAAGCAGCCAACGCGATCCAGACGCGCTTCTTTCAGGAAGTCGA -GTAGCATCTGGAAATCTTCTTCTGTCTCGCCAGGGAAGCCGACAATAAAGGTTGAGCGTAGGGTCAGTTCCGGGC -AGATTTCGCGCCACTGTTTGATGCGCGCCAGTTGGCGATCTACAGAACCCGGACGCTTCATCAGTTTGAGAATGC -GCGGGCTGGCGTGCTGCAACGGAATGTCCAGATACGGCAGGATTTTGCCTTCTGCCATCAGTGGGATGACGTCGT -CCACATGCGGATAAGGGTAAACGTAGTGCAGACGTGTCCAGATCCCCAGTTTCGATAACTGTTCGCACAGGCTGA -CCATGCTGGTTTTTACCGGCTCGCCGTTGTGGAAGCCAGTACGATGTTTAACATCAACGCCATAGGCGGAAGTAT -CCTGCGAGATCACCAGAATCTCTTTAACGCCCGCATCTACCAGACGTTTCGCTTCACTTAACACTTCGCCAATCG -GACGGCTCACCAGGTCGCCGCGCATAGACGGAATAATGCAGAAGGTGCAGCGGTGATTACAGCCTTCAGAAATTT -TCAGATAGGCATAATGACGCGGCGTCAGTTTCACACCTTGTTCTGGCACCAGGCTCAGGAATGGGTTGTGTTTCG -GTTTTGGCACGTAGTGATGAACGTGCTCCAGAACCTGCTCATAGCTATGAGGCCCGGTGATTTCCAGCACTTTCG -GGTGGACTTCGCGGATCTGATCTTCTTTTGCCCCCAGACAACCGGTCACAATAACCTTGCCGTTTTCATTCAACG -CTTCACCAATGGCTTCCAGTGATTCTTGTACCGCGCTGTCAATAAAGCCGCAGGTGTTGACGATCACCATGTCCG -CATCGTCATAGCTCGGTACCACGTCATAACCTTCAGTGCGGAGTTCGGTGAGAATACGCTCTGAATCAACAAGGT -TTTTCGGACAGCCAAGGGAAACAAAGCCGATTTTCGGCTGGGGAGTTACTTTGCTCATAGCTTAAAAAATATTCA -GTTACAGGAAAGGTCAGGGCAGGGATTCTACAGAGTTCTGGATAAAATTTGTATCGCAATCTCATTCGCTGGCGG -AGGCGAAGGAAATGTAAATTTTGTTAATTCGGCGTGAAGAATTGATCCTGGACAGCATTTTGCTCAAAAAATAGC -CATACTATTTAATTGCAACAAGGCTGGGAAGAGGAGGATCGAAGTATGTTCGTTGACAGACAGCGAATCGATCTG -CTGAACCGGTTGATCGACGCACGCGTTGACCTCGCCGCATACGTGCAACTGAGGAAGGCAAAAGGATACATGTCC -GTCAGCGAAAGCAATCATCTACGAGATAACTTTTTTAAACTGAATCGCGAACTGCACGATAAATCGCTGCGGTTG -AATCTTCATCTGGATCAGGAAGAGTGGAGTGCTCTTCATCATGCTGAAGAAGCATTAGCGACAGCCGCAGTATGT -TTGATGAGTGGGCACCATGATTGCCCGACTGTTATTACCGTCAACGCCGATAAGCTTGAAAATTGTCTGATGAGC -TTAACGCTGAGTATCCAGAGCCTGCAGAAGCACGCCATGCTTGAGAAGGCCTGAAAACTAAGGGGGAGAAAGCGT -CTCCCCCTTCATGTTTAAGTTTTTGTAAAAATGAATTTGTTATCTCCTCCACTGACTACGCTTTAAGCCAGAGTC -AATCCGGAGGCGTTATGCATCGACAATCCTTTTTCCTTGTGCCCCTTATTTGTCTTTCTTCCGCTCTCTGGGCGG -CTCCTGCAACGGTAAATGTCGAAGTACTGCAAGACAAACTCGACCATCCCTGGGCACTGGCCTTTTTACCCGATA -ATCACGGTATGTTAATCACTCTGCGCGGCGGCGAGTTGCGTCACTGGCAAGCAGGAAAAGGATTATCTGCGCCGC -TTTCCGGAGTTCCGGACGTTTGGGCGCACGGGCAGGGCGGCCTGCTGGACGTGGTTTTAGCGCCTGATTTTGCTC -AGTCTCGCCGCATCTGGTTAAGTTATTCCGAAGTTGGCGATGATGGCAAAGCCGGAACTGCTGTGGGTTATGGCC -GCTTAAGTGATGATCTCTCAAAAGTGACCGACTTCCGCACCGTCTTTCGCCAGATGCCAAAACTGTCTACCGGCA -ACCATTTTGGCGGGCGGCTGGTATTCGACGGTAAAGGTTATCTTTTTATTGCTCTGGGCGAAAACAATCAGCGCC -CGACGGCGCAGGATCTGGATAAATTACAGGGCAAACTGGTGCGTCTGACCGACCAGGGCGAAATCCCGGATGATA -ATCCTTTTATAAAGGAATCCGGTGCGCGCGCCGAGATCTGGTCTTATGGCATTCGTAATCCGCAAGGAATGGCGA -TGAATCCGTGGAGTAATGCACTGTGGCTGAATGAACATGGCCCGCGCGGTGGTGATGAAATTAATATCCCGCAAA -AAGGCAAAAACTACGGCTGGCCGCTGGCAACCTGGGGAATCAACTATTCAGGCTTTAAGATACCGGAAGCGAAAG -GGGAGATCGTCGCCGGGACCGAGCAACCTGTTTTTTACTGGAAAGATTCGCCCGCTGTGAGCGGCATGGCCTTCT -ATAACAGCGATAAATTCCCCCAGTGGCAGCAAAAATTATTTATTGGCGCGCTGAAAGATAAAGATGTCATTGTGA -TGAGCGTCAACGGCGACAAAGTGACAGAAGATGGCCGTATTTTAACGGACAGAGGGCAGCGAATTCGTGATGTTC -GCACTGGACCCGACGGTTATTTATACGTTCTCACCGACGAGTCCAGTGGGGAATTACTTAAAGTTAGCCCACGCA -ATTAGCTAACGGGAATCATCACCACTTTGCGCACTGCGGGGCGTTCAGTGAGTTGCTGATACCAGCGTTGCAGAT -TTGGACGCGGTGTCCAGGTCAGGCCAACGTTAAACAAATTGTAGATGAACGGTGCGATAGCGATATCGCCCACAC -CAAACTCGTCGCCAGAGAACCATTTTACTTTTGCCAGTTCCGCATCGAGCAGGGCAAACAGGGCGTCGCACTCTT -TGCAACTGGCATCAATGGCGGCCTGATCGCGCTCTTCCGGTGGTGTTCTGACTAATCCCATCAGGATCCCGCGAT -GAGCATTACTGAGCGTCTGGTTTGCCCAGTCCATCCATTTTTCCGCTTCCGCACGACGTGCCGGTGAGTCGATCC -ACAGGCGTTTTTGCCCGTACTGTGCCGCCAGATAGCGGACAATGGCGTTTGATTCCCAAAGAATGAGATCACTTT -CGTCGTCACGCAACAACGGCACCAGCCCGTTAGGGTTCATCGCCAGAAAATCAGCATCGTGATTTATCCCAAACT -CACGGCCCGCGAGAATTTGCTCATAAGGTAGTTCCAGTTCTTCGAGCGTCAGCAATACTTTTTTTACGTTAGTTG -AATTATTCCGACCCCACAGCGTAATCATACTCACCCCTTTTCCGACAGGCAGCCACAGGCTGAACAGGACTCCGA -TGGTGAAGTAAAGTTAACTTTTAAGCAACAGCTGGCAAAAAAATGACACCAGAAGCAGCGAAGCGGCAGGATATT -GCATAAACTTTAAAAACTTTACCAACTTACGGTTTCTTTAAGTTTGTGTGTGCGTTATTAATCACCAAACTTATC -ATACGGCGATATAACGTATTTTTTTTGAATGGATACTCGGGTGGCATTTATGACGCAATACTCCTCTCTCCTTCG -TGGTCTTGCAGCGGGTTCTGCATTTTTATTCCTTTTTGCCCCAACGGCATTCGCGGCGGAACAAACCGTTGAAGC -GCCGAGCGTGGATGCGCGTGCATGGATTTTAATGGATTACGCCAGCGGTAAAGTGCTGGCAGAAGGCAATGCGGA -TGAGAAACTGGATCCCGCGAGCCTGACTAAAATCATGACCAGCTATGTGGTTGGGCAGGCGCTTAAGGCCGATAA -GATTAAACTCACCGATATGGTGACGGTCGGTAAAGATGCCTGGGCGACGGGAAATCCGGCACTGCGTGGTTCATC -GGTAATGTTCCTCAAACCGGGCGATCAGGTTTCGGTGGCAGACTTGAACAAAGGTGTGATTATCCAGTCCGGTAA -TGACGCCTGTATTGCGCTGGCTGATTACGTTGCCGGGAGCCAGGAGTCATTTATTGGTCTGATGAATGGTTATGC -CAAAAAACTGGGTCTGACCAACACTACCTTCCAGACGGTGCACGGCCTGGATGCGCCGGGGCAGTTCAGCACCGC -GCGCGATATGGCATTGCTGGGTAAAGCATTGATCCACGATGTGCCGGAAGAGTACGCCATTCATAAAGAGAAAGA -GTTCACCTTCAACAAAATTCGTCAGCCTAACCGTAACCGTCTGCTGTGGAGCAGCAATCTGAATGTTGATGGCAT -GAAGACAGGAACCACGGCAGGCGCGGGATATAATCTGGTTGCTTCGGCTACCCAGGGCGATATGCGTTTAATCTC -CGTAGTGTTGGGGGCGAAAACCGACCGTATCCGTTTTAATGAGTCTGAGAAATTATTGACCTGGGGTTTCCGCTT -CTTTGAAACCGTGACGCCAATTAAACCTGATGCCACCTTTGTGACTCAGCGCGTCTGGTTTGGTGATAAGAGCGA -AGTGAATCTCGGGGCAGGTGAAGCGGGCTCAGTGACCATACCGCGTGGGCAGCTGAAAAACCTGAAAGCGAGTTA -TACGTTAACGGAACCGCAGCTTACCGCACCGCTGAAAAAAGGTCAGGTTGTCGGGACCATTGATTTCCAGCTTAA -CGGTAAATCCATTGAGCAGCGTCCGCTGATCGTGATGGAAAATGTGGAAGAGGGCGGATTCTTTGGTCGGGTGTG -GGATTTCGTGATGATGAAATTCCATCAGTGGTTCGGCAGCTGGTTCTCTTAATCTTCTGATAACCGGATGGCGCG -AAACGTCATCCGGTTATACGTCATTAATACATCAACTTAATGCGCTGCGTCTGCGCGTACTTCACATACTCATCT -TCCGGGCAACAATCGCTCACCACAATATCAAAGCGTTTCAGGTCACCCATGCGCGCCGGACGCACCTTGCCAAAT -TTACTGTGGTCGACAACCAGCACATGCTTTTGCGCCATCGACATGGCCCAGTGTTTTACCGGCAACTCTTCAAGA -TTAAAACAGGTAGCGCCTTTACTGACATGCACGCCCGCCGCAGAATAAAAAGCGATATCCGGGCAAAAATTATTC -AGCGTTTGCTGAAAATCGATGGGTTTGAAAATGGCGTTGCTGGCGTGAAATTCACCACCGCAAAGAAACGCGCGG -CAATGGGGTTTCTCTTTCAGCGCCAGAAAGGTATTTAGCGAATAACAAACGGCGGTAAAAGGGATTTCATTATCA -ATCGCTTCAATAATCCACGGCGTGGTGGTGCCACAGTCAAAAAAGAGGGTCTGATCGGGTTCTACCAGCGTCGCA -GCCAGTTTTGCCGCCCGGCGTTTTTCTTCCACCAGGCGGGATTTTTGATCGCTTAACAGGTAATGGCTGGCACTG -CGCGGTTCCAGAACAATATAGCCGCCGAGCAAAACGACGGGCGCACTGTGGTTGTTCAGATCGCGACGAATCGTC -ATCTCCGAAACCCCAAGCAGGGCGGCGGCGTCTTTAAGATGTAACTTATCGCTGCGTTTTAATTCTTGCAGCAGC -TGCCCGATACGCTCTTCGCGACGTGTTTCCATAATCCCTCTGAATAGTTATTGAAGCGAGCCGCTCAATACTACA -CTTTTTAGCAGAGATCAGTCACGCACCCAGCCTTTGCGGATCGGTAATGCAAAACAGACGCGATACCACGATTGC -AGACGTTGATAGAGTTTATGCCCCATCGCTTGCCAGATAATCTGGGCACTAAGGCAGCCAATCATACCTGCCAGC -AATCCACCGAGCATATCCAGCGGCCAGTGGACGCCAAGATAAACGCGCGACCAGGCAATGACGACGGCCAGCACC -ATTAAAAGTGAGCCGGACCACAGGCGATGCCAGCATAAAAATGCCAGTGCAAAGGTGAAAATCACCGTACCGTGA -TCGCTTGGGAATGAGTCATCCGCCGCATGATGCAGGAAGTTATAGCCGATATTTTCGACAAAGGGTCGGTCGTGC -GGAAAAAGATGTCCCATCGTCCAGGACACAAACAGGCTGACCGCCAGCGCGATAGCGATTTTTATCACCAGTTGC -CGTTGTGCTGTAAGCCCCCACAACCAAAGTACCACGGCCAGCAACGGCACCACGGTAATCAAATCTTTAGCAATA -AAAATCGCCAACGAGATCATCCACGGAGCCGAGTCTGGCGTCGCGTTAATAAGAGAGAATAGAGAGAGATTCAAA -TTTTCCAGCATAACTTCCCGACGCAAAGTGATTAAAAGGGAGCCAATACAGGCAAGTCGTTGAGAATAAAGTGCA -GGTTAAACTGGGTAAAGCGGCATCGTCTTATTTCCCTCAAGCGGCCTGTTTACGGTGGGTGATTGTAACGGGCAT -AGGTTAAATAAAACTTAAAGAAAGCGTAGCTATACTCGTAATAATGTAAGAATGTGCTTAACCGTGGTTTCAGCT -ACAAAATTCGCTTTCTCGTTAGCTGCGCTTTTATTAAACTCTGCGCGATTATTATTGGCGAAGAAATTGCATGCA -AAATAAATTAGCTTCCGGTGCCAGGCTTGGACGTCAGGCGTTACTTTTCCCTCTCTGTCTGGTGCTTTACGAATT -TTCAACCTATATCGGCAACGATATGATTCAACCCGGTATGTTGGCCGTGGTGGAACAATATCAGGCGGGCATTGA -TTGGGTTCCTACTTCGATGACCGCGTATCTGGCGGGCGGGATGTTTTTACAATGGCTGCTGGGGCCGCTGTCGGA -TCGTATTGGTCGCCGTCCGGTGATGCTGGCGGGAGTGGTGTGGTTTATCGTCACCTGTCTGGCAATATTGCTGGC -GCAAAACATTGAACAATTCACCCTGTTGCGCTTCTTGCAGGGCATAAGCCTCTGTTTCATTGGCGCTGTGGGATA -CGCCGCAATTCAGGAATCCTTCGAAGAGGCGGTTTGTATCAAGATCACCGCGCTGATGGCGAACGTGGCGCTGAT -TGCTCCGCTACTTGGTCCGCTGGTGGGCGCGGCGTGGATCCATGTGCTGCCCTGGGAGGGGATGTTTGTTTTGTT -TGCCGCATTGGCAGCGATCTCCTTTTTCGGTCTGCAACGAGCCATGCCTGAAACCGCCACGCGTATAGGCGAGAA -ACTGTCACTGAAAGAACTCGGTCGTGACTATAAGCTGGTGCTGAAGAACGGCCGCTTTGTGGCGGGGGCGCTGGC -GCTGGGATTCGTTAGTCTGCCGTTGCTGGCGTGGATCGCCCAGTCGCCGATTATCATCATTACCGGCGAGCAGTT -GAGCAGCTATGAATATGGCTTGCTGCAAGTGCCTATTTTCGGGGCGTTAATTGCGGGTAACTTGCTGTTAGCGCG -TCTGACCTCGCGCCGCACCGTACGTTCGCTGATTATTATGGGCGGCTGGCCGATTATGATTGGTCTATTGGTCGC -TGCTGCGGCAACGGTTATCTCATCGCACGCGTATTTATGGATGACTGCCGGGTTAAGTATTTATGCTTTCGGTAT -TGGTCTGGCGAATGCGGGACTGGTGCGATTAACCCTGTTTGCCAGCGATATGAGTAAAGGTACGGTTTCTGCCGC -GATGGGAATGCTGCAAATGCTGATCTTTACCGTTGGTATTGAAATCAGCAAACATGCCTGGCTGAACGGGGGCAA -CGGACTGTTTAATCTCTTCAACCTTGTCAACGGAATTTTGTGGCTGTCGCTGATGGTTATCTTTTTAAAAGATAA -ACAGATGGGAAATTCTCACGAAGGGTAAAAAAATGCCTGACTGCTTTGTGCGATCAGGCATTCTCGAATTAATGG -TGATGGTCGTCAATCTGGTGTTCGATAACCATCCCTTCACCTACGCTGGCAAGATGGCGAACATAAGGATGCGGG -CGGTAAGCCGGAGCTGGCGCAGGAGCCACATAGACGGTTTGCGGCACAGTCGCGACGCTGACCGCTTGTGGAACG -CTGACTGAATCAGGAACCACAACCACTTTGTATCCACTCGGCACATCGACGGTGACACTTTGCGCCATCGCCACA -CCAGTAAAGCCCATTAAAAGCGCGCCCAACAGTAGACAATTTTTCATAATCATTTCGCCTGAAATAATGCAGCGG -GTTAATTTCCGCGAATTATGCAGCCTTCATTCAGGCATTGTGTTGCCGGGCGTGCTGCCGGTTTTATTGGTCAAA -TGGCGCTTCGTGTTTAAGAACTTTATCGATCACATCCAGTACGCCTTCACGGTTATTGGAGCCTGCGCGGTATTT -TGCCGCTGCGACGACCGCGCTACCGGCATTTTCCATTGCAAAACTAAAGCCTGCCTGACGCAGCATCTCAATATC -GTTACCGCCATCGCCAAAGACCACCACTTCGCTGTCGTCTATTCCCCATAATTTCTGCAGTTGGCGAAGGCCATT -GGCTTTATGTACGCCGGGGATAATCAGATCGATGCTGCCGTTGCCGGTGTGGACCGACACCATAATATCGCCGAT -GGCCTCATGTAATGCTTTTTGTACTTGTGGAATCAGTTCATCGGAAAGATTCAGGCCAAACTTAAAGAAGATATC -CTCTAAGTTGTCAAAGTTATCGACGTATTCCAGACGGTGATAATACATTTCCGCCACCGTTTTCATGGCATCGTC -ATATTTTTTGAGTGTATAGGCACTATTTTTTCCGCAGGCAATAATTTCCACTTCCGGGCGCGTCAGCAAATGTTC -CACGACAGTAGCAAACGCATCCTTCGATAGCTCGCCATTAAAAACATCTTTGCCTTCGCTCACTACCCAGCCGCC -GTTTTCAGCCACAAAGGCAATTTCATTAGCAATTTCAGGGAAGAAAGAGATCAACTGATAATATTGATTCCCGCT -GGCGACTACAAAGCGAATTCCTTGTGCTTTCATTTGCTGATACTGAGCCATAAACCGCTCACGGTTATAGGTTTT -TTGATCGCTTAAGAAAGTACCATCCATGTCTACCGCAATTAATTTAATGCTCATCAACTATTCTCCATCGCCGTC -TGCGTTTTGGTATCGGGTTTGGCGACGGCTTTCGCGACAATAGCCGCGAGAATAACCAGCGCCAGTACAACCAGC -ATTGCACTACGTAATCCATAATGTTCGCCGAGATAGCCCAGCAGCGGCGGCCCGACGAGGAAAGCCAGATAACCG -GTCGTTGCTACCACACTGACGCGGGTTGGTGCATCGGGGCCGGTATCGCTGGCGGCAGAAATGGTCAGCGGGAAG -CCCAGCGAGGCACCCAGTCCCCAGAGTACAACAGACACCCCAGCGACCCAGGCGCTATCGACAAAAATAATCAGC -CCAATACCCAACGCCCCCATTAGTGCACTGGCCCGAACCACGGCAACGCGACTGTAACGGTCGATGAACCAACCG -CCGGTGAAGCGTCCAACGGTCATCCCCAGGGTAAAACCGGCATAAATCAGCGAGCCGGAAGTAGGGCTAAAACCG -TGACCGTCAACCATTAATAAGGGTAACCAGTCGTTGGCAGAACCTTCGGCAAAGGCCATCGCCAGCACCACAACA -CCTATCAGCAGCAACTGGATATCGCGATAAAAAGGTACGCCTTTTTCGCCATGCTGGGTGCCATCGGCAGCATTT -TTGCCCGTACCGTCAGGGATTGCCTGAATGGCGATATAAATAGGTGCGATACCTACCAGCGCCGCCAATAAAATG -TGCACCGTTGCCGGAACGCCAAAGGCCGTCAGTGCCATCCCGACACCTGCGCCTGCCAGCGTGCCCAGGCTATAA -AAACCGTGCATCATCGGCAAAACCGTCTTATTCATTTCTCGCTCAACGGCAGCACCTTCAACGTTTATCGCCACT -TCCGCAGAACCAAAACTTGCCCCAAAGACGCCGAGACCAACGGCAAAGAGCAGGGGCGATGTCAGCCAGAGTGCC -AGACTTAATATCATCATCCCGATCAATGCGCAGGACATCGTGACCAGGATGACATTACGTGTCCCAAAGCGTTTC -ACTAACCACGCCGAGCAGAGAATACCGCTCATCGAACCGATCGACAGACCAAAGAGAACACCGCCCATTTCAGCG -ATCGAGACAGAGAGAATATCGCGGATAGCAGGCGTACGGGTTGCCCAGGACGCCATTAACAGGCCTGGCAAAAAG -AAGAACATAAACAGCGCCCAGGTTCGGCGTTTCAATGCATTACGTGAAGAATTTACGGTCATAGATCACGTCAAA -ATAAGAAGAGGGAAGACAACATTAGCAAGGTTGTGTACATTTGTACACAATTGCAGAGAGAGGAAATGACATGCG -TCGCGCTAACGATCCGCAACGGCGAGAAAAAATTATCCAGGCCACGCTGGAGGCGGTGAAACTTTACGGAATACA -TGCTGTTACGCACCGCAAAATTGCTACCCTTGCCGGGGTACCGTTGGGATCGATGACCTACTATTTTTCAGGAAT -TGATGAGTTGTTACTGGAGGCGTTCAGCAGTTTTACTGAGATCATGTCCCGGCAATATCAGGCATTTTTTAGCGA -TGTTAGTGATGCTCCGGGCGCATGCCAGGCTATCACCGATATGATCTACAGCTCACAGGTTGCAACGCCGGATAA -CATGGAGCTGATGTACCAGCTCTACGCGCTGGCTAGCCGAAAACCGCTATTAAAAACGGTAATGCAAAACTGGAT -GCAGCGCAGTCAGCAAACGCTCGAACAATGGTTTGAACCCGGAACCGCCCGCGCGCTTGATGCGTTTATTGAGGG -GATGACGCTGCATTTTGTCACCGACCGTAAGCCGCTATCGCGCGAGGAGATTTTGAGGATGGTTGAGAGGGTTGC -AGGGTAGTAGATAAGTTTTAGATAACAAAAAACCCATCAACCTTGAACCGAAATGGCGGGGTTGATGGGCTCCAC -AAAATGGGGACATCAAAGAAAAGCAGTGGCACTAATTAAGACTGATGCCCTGCGGAAAAGTTCTGCGGTTGTGCA -AAAAAATTTCATTTTCAGGGCAACTTCAGTTTTATCCTAATCCTGGCCATACCATGACGATGATTGTCCCTGCCA -GCGTCAGCAGGACGTTGGCGATTGCATAGGTGCCCGCATAGCCCAGCGCCGGGATGTTACTGCGAGCTGTATCAC -TGATGATCTCCATTGCCGGCGCGCAGGTACGTGCGCCCATCATTGCGCCGAACAACAGCGCGCGGTTCATTCGCA -ATACATAAGCACCGAACAAGAAACAGATAACCACGGGCACCAGACTGACAATCAATCCGGCAATCAACATCTGAC -CGCCAATCGCGCCCAGGCCGTTATTAATACCGCTACCGGCGCTCAGACCAACGCCTGCCATAAACACCATCAAGC -CGAACTCTTTCACCATGCTTAATGCACCCTGCGGAATGTAACCGAAGGTCGGGTGGTTAGCACGCATAAAGCCCA -GCATAATTCCGGCGAATAACAACCCGGCAGCGTTCCCCATGCCGAAACTGAATGTGCTGAACTGGAAGGTGATCA -TCCCGATCATCAGCCCAATAACAAAGAAGGCGCAGAATGCCAGCAGGTCAGTGACCTGGCTGTGAATCGAGATAA -AGCCGATGCGATCGGCGATGGTTTTTACGCGGCGGGCATCGCCGCTGACTTGTAAAACGTCACCTTTGTTAAGCA -CGACGTTGTCATCTATCGGCATCTCAATCTGGCTACGAATGACGCGGTTAAGGAAGCAACCGTGATCGGTCAACT -TCAGTTGTGCGAGACGTTTACCTACAGCGTTATGGTTTTTAACGACCACTTCTTCAGTGACGATACGCATGTCGA -GAAGGTCACGATCGAAAACTTCTTTACCGTTACGGAAGCTGGGATCGAGTCGGGCATGGGCGTCGGGATAGCCTA -CCAACGCTATTTCATCGCCCATTTGTAGCACGGCATCACCGTCTGGATTTGCCAGAATCCCGTTACGTCGAATAC -GTTCAATGTAGCAGCCGGTTTGTCGATAAATACCCAGTTCACGCAGATTTTTGCCGTCGGTCCAGGCCACCAGTT -CCGGGCCGACGCGATAGGCGCGGATCACCGGTAAATAAACCTTACGGTTGGCATCAGTGTCCAGGCCACGTTCGC -GGGCGATTTGCTGGGCGCTGGTCTGTAAGTCCTGATGCTGCAATTTCGGCAAGTAACGCGCACCAACAATCAAAC -TCACCAGACCGATTAAATAGGTTAAGGCATACCCGAGGCTCAGATTATCCAGTGCCAGTGAGAGCTGCCTGCTTT -CCATGCCGGAATGACGCAGTGTATCGCCAGCACCGACCAGAACCGGTGTCGACGTCATAGAGCCTGCTAACATAC -CGGCCGTCAGGCCAATATCCCAGCCAAACAGCTTACCTAACCCTAAGGCGATCACCAGCGCACTGCCAACCATCA -CCAGTGCTAACATTAGGTAATTTTTCCCATCGCGAAAAAAAATGGAAAAAAAGTTCGGTCCGGCTTCGACCCCGA -CGCAGAAAATAAACAGCATAAAGCCAAGATTAAGCGCATCGGTGTTAATGCTGAAATGTTGTTGGCCTAATAACA -GCGATACGACTAAAACGCCAATGGAATTACCCAGTTGGATCGAACCAAGTCGTAACTTTCCGAGACATAGCCCAA -GCGCGAGGACCACAAATAATAACAGAATGTAATTCCCATTTAACAATTCGGCGACGTTTATATTCACGGAGGCTA -ACTTCTTGTTTACTAGTAAGCTGTTGAAAGAAATGGTAATTTACGATAATGTTTTTTACCAGAATTCAGGGCGCA -GATTCATTCAGCGCACCTAAACGATAGTAAAGTAACAATATATTTTACTAGTGTAATCACATTAGGTATCAACGG -CTATATGAATTGCGTTGGCCTATATTAGCATGGAATGCGAAGCGGCTTTATCTTACTGAACGCCACACTGGCGAA -AAATGTGTTCGATAGACGCAGTGTCAGGAGGAACGAGTGAAACATAAACAACGTTGGGCGGGGGCAATCTGCTGT -TTTGTCCTCTTCATTGTGGTGTGCCTTTTTCTGGCGACGCACATGAAAGGCGCTTTTCGGGCTGCCGGGCATCCT -GAAATCGGCTTGCTATTTTTCATTCTTCCTGGAGCAGTCGCCAGCTTCTTTTCACAGCGTAGAGAAGTCCTGAAA -CCTCTGTTTGGCGCAATGCTGGCGGCACCCTGTTCGATGCTCATTATGCGGCTGTTTTTTTCACCGACGCGCTCA -TTCTGGCAAGAGCTGGCATGGTTACTAAGCGCGGTGTTCTGGTGTGCGCTGGGGGCACTGTGTTTCTTATTTATC -AGTAGTTTGTTTAAACCACAGCACAGAAAAAATCAGTAAAGCCCTCAACGCGAGGGCTTGTCAGACGATCAGGCG -TCCAGATTTTCTTTCACCCATGCAGCAAAATCGGTATAGCCGCCGATATGTTGCTGATCGACAAAAATCTGCGGC -ACGGTTTCTACGGGTTTACCTGCCTTTTGTTGTAGATCTTCTTTAGTGATCCCTTCCGCACGAATATCTACATAC -TGATACTGAAAATCATCGCGTTCATTGCTCAATTTCTCAGCCAGATCTTTTGCACGCACACAGTAAGGGCAACCC -GAACGACCAAAAATAACGGTTTGCATTATTTCTCTCCTCATAGATTTATGCCTGTAATGATCACGCTAAAATGTA -TTCGCTGAAAGTAGGTTTAACCTGTTGCATTAATTGCTAAAAGCTATAACTGTTAAACACAATACAGTGAAAAGT -TTTAGACTGAAGGCTCACTTTGCAGAGGGAAGCGTATGCGCGCGATCGGTAAATTGCCTAAAGGCGTGTTGATAC -TGGAATTTATCGGAATGATGCTACTGGCGGTGGCGCTGCTGTCGGTAAGCGACTCCCTGTCGCTGCCTGAGCCAT -TTTCTCGGCCAGAAGTGCAGATTCTGATGATTTTTCTCGGTGTTTTGCTCATGCTTCCCGCTGCGGTGGTGGTTA -TTCTTCAGGTGGCAAAACGTCTTGCCCCACAGCTGATGAACCGTCCACCGCAATATTCACGTTCAGAAAGAGAAA -AAGATAATGACGCCAACCATTGAACTTATTTGTGGCCATCGCTCCATTCGCCATTTCACTGATGAACCCATTTCC -GAAGCGCAGCGTGAGGCGATTATTAACAGCGCCCGTGCGACGTCCAGTTCCAGTTTTTTGCAGTGCAGTAGCATT -ATTCGCATTACCGACAAAGCGTTACGTGAAGAACTGGTGACGCTGACCGGCGGGCAAAAACACGTAGCGCAAGCG -GCGGAGTTCTGGGTGTTCTGTGCCGACTTTAACCGCCATTTACAGATCTGTCCGGATGCTCAGCTCGGCCTGGCG -GAACAACTGTTGCTCGGTGTCGTTGATACGGCAATGATGGCGCAGAATGCATTAATCGCAGCGGAATCGCTGGGA -TTGGGCGGGGTATATATCGGCGGCCTGCGCAATAATATTGAAGCGGTGACGAAACTGCTTAAATTACCGCAGCAT -GTTCTGCCGCTGTTTGGGCTGTGCCTTGGCTGGCCTGCGGATAATCCGGATCTTAAGCCGCGTTTACCGGCCTCC -ATTTTGGTGCATGAAAACAGCTATCAACCGCTGGATAAAGGCGCACTGGCGCAGTATGACGAGCAACTGGCGGAA -TATTACCTCACCCGTGGCAGCAATAATCGCCGGGATACCTGGAGCGATCATATCCGCCGAACAATCATTAAAGAA -AGCCGCCCATTTATTCTGGATTATTTGCACAAACAGGGTTGGGCGACGCGCTAAAACCGCCACGTCGATGTATGA -TACGCGGGCTTTTGACCAGGTCTGACAGAGAGGTGCAGGGTGAAAATTGCCATATTGTCCCGGGATGGAACGCTC -TATTCGTGTAAGCGGCTGCGTGAAGCCGCTATACAGCGCGGTCACCTGGTTGAAATTCTTGATCCGCTTTCTTGC -TACATGAACATAAATCCTGCGGCGTCTTCTATTCACTACAAAGGCCGCAAGTTACCCCATTTTGACGCAGTGATC -CCGCGTATTGGCACCGCCATTACCTTTTATGGGACGGCGGCACTGCGCCAGTTCGAGATGCTGGGGAGCTATCCG -CTCAATGAGTCGGTCGCCATTGCCCGGGCGCGTGACAAATTGCGTTCCATGCAACTGCTGGCGCGTCAGGGCATC -GACCTGCCTGTCACGGGCATTGCGCATTCGCCGGATGATACCAGCGATTTAATCGACATGGTCGGTGGTGCGCCG -CTGGTGGTCAAGTTGGTTGAAGGCACGCAGGGAATTGGCGTCGTGCTGGCGGAGACGCGTCAGGCGGCGGAAAGC -GTGATTGACGCTTTCCGCGGTCTGAACGCGCATATTCTGGTGCAGGAATATATCAAAGAGGCGCAAGGGTGCGAT -ATCCGCTGTCTGGTTGTTGGCGATGAAGTGGTCGCTGCGATTGAACGGCGGGCGAAAGAGGGCGATTTTCGTTCC -AATTTGCATCGTGGCGGCGCGGCAAGCGTCGCCAGTATCACACCACAGGAGCGTGAAATCGCGATAAAAGCCGCG -CGAACGATGGCGCTGGACGTTGCTGGTGTGGATATTCTGCGTGCTAATCGCGGGCCGTTGGTGATGGAGGTGAAT -GCGTCGCCGGGGCTGGAAGGAATAGAAAAAACCACCGGTATCGACATCGCGGGTAAAATGATCCGCTGGATCGAA -CGCCACGCTACGACAGAATATTGCCTGAAAACGGGTGGTTAGTCGCAATCACATTACTGATCATGGTTTTGCCTG -CGCTTTTTGCGTAAGCTGTGCCGGTCTTTTTATCGAAAGAGGTTGTACAAAATTATGACATCGCTGGTCGTTCCT -GGTCTGGATACGCTGCGTCAATGGCTCGATGACCTGGGGATGAGTTTTTTTGAATGTGATAACTGTCAGGCTCTG -CATCTGCCCCATATGCAGAATTTCGACGGTGTCTTTGATGCCAAAATCGATCTGATCGATAACACGATCCTGTTT -TCTGCCATGGCGGAAGTCCGACCTTCAGCCGTATTGCCGCTGGCGGCGGATTTATCTGCCATCAATGCCAGTTCG -CTGACCGTGAAAGCATTTCTTGATATGCAGGATGATAATCTGCCAAAGCTGGTGGTTTGCCAGTCTTTATCCGTT -ATGCAGGGCGTAACCTATGAGCAGTTTGCATGGTTCGTGCGTCAGAGCGAAGAGCAGATTTCGATGGTCATTCTT -GAAGCTAATGCCCATCAACTGCTGTTACCGACTGATGATGAAGGGCAAAACAACGTTACCGAAAACTATTTCCTC -CACTGATAACTCCTTTCGAGCACGCAGTCGCTGGTGCAGTGGCTGCGCGCTGCAAAATTATCTGCTGTTTTTAAC -CTTTTCTTAAAGATTATTTCACTTCTCTTGTGTCGATTTGGCTTTATCACATAGAGCAAATATGCATAAAAATTT -GTTAAATACCGTTTTTTAATCCGAGCTATAGTCTCAAACCCTGGCTAAAGTTATTCTTGCGATGCTTTTATATAG -CGAGCAGTGCTGGCCGGGAGAAAGTTCTCTTTTCTTACACCGCGCCGATAAAAAATATGCACGTTTATTGCATAT -CTTTCAGTGTGACAACTTTTGTTCGTTTGTTAACGAACTTTCAGAAGGAAAGAGATATGACCGCCTTAAATAAAA -AATGGCTATCGGGTCTGGTTGCGGGTGCTCTGATGGCCGTCTCTGTCGGCACGCTCGCGGCTGAACAAAAAACAC -TCCACATTTATAACTGGTCTGATTATATCGCCCCGGACACGGTGGCCAATTTTGAAAAAGAAACCGGTATTAAAG -TCGTCTACGATGTTTTCGACTCTAACGAAGTACTGGAAGGCAAATTAATGGCCGGGAGTACCGGCTTTGATCTGG -TGGTTCCATCTGCCAGCTTTCTGGAGCGCCAGTTGACTGCGGGAGTTTTCCAGCCGCTGGACAAAAGCAAATTGC -CGGAGTGGAAGAATCTCGACCCGGAACTGCTGAAGCTGGTCGCCAAACACGATCCCGACAATAAATTTGCTATGC -CCTATATGTGGGCGACGACCGGGATTGGCTATAACGTTGATAAAGTTAAAGCGGTGCTGGGCGAAAACGCGCCCG -TCGATAGCTGGGACTTGATCCTCAAACCTGAAAATCTGGAAAAACTGAAAAGCTGCGGTGTCTCTTTCCTGGATG -CGCCAGAAGAAGTTTTTGCTACCGTGTTGAATTATCTCGGCAAAGATCCCAACAGCACTAAAGCGGATGATTACA -CCGGACCGGCAACAGATCTGCTGTTAAAGCTGCGCCCGAACATTCGTTATTTCCATTCATCTCAATACATTAACG -ACCTGGCAAACGGCGATATTTGCGTCGCTATCGGCTGGGCAGGTGATGTCTGGCAGGCGTCAAACCGCGCGAAGG -AAGCGAAGAATGGCGTGAATGTCTCGTTCTCGATTCCAAAAGAAGGGGCGATGGCGTTCTTTGATGTATTCGCCA -TGCCTGCGGATGCCAAAAACAAAGACGAAGCCTATCAGTTCCTGAATTACCTGCTGCGCCCGGATGTAGTAGCGC -ATATTTCCGACCATGTGTTCTATGCCAACGCCAATAAAGCAGCCACGCCGCTGGTGAGTGCGGAAGTCCGTGAGA -ACCCAGGTATTTATCCGCCTGCGGATGTTCGTGCGAAGCTGTTCACTCTGAAAGTGCAGGATCCGAAAATCGACC -GTGTGCGCACCCGCGCGTGGACCAAAGTGAAGAGCGGAAAATAATCCGCAGTCGTAGATGCCGGAGGGGCGCACC -ACACCCGCCGGCAATTCGCACCATTATGGTGCGCTTGCACACATTCAATGCCGGAGAGCAGCCGTGAATGACGCT -ATCCCTCGCCCGCAGGCGAAAACCCGTAAGGCGCTGACGCCGCTATTAGAAATCCGCAACCTGACCAAATCCTAC -GATGGTCAACATGCGGTGGATGATGTCAGCCTGACCATCTACAAAGGTGAAATCTTCGCGCTGCTGGGCGCATCC -GGCTGTGGCAAGTCCACGCTGCTGCGTATGCTGGCAGGTTTCGAACAACCTTCTGCCGGACAGATAATGCTTGAT -GGCGTCGATTTGTCACAGGTTCCGCCTTACCTGCGCCCCATCAATATGATGTTTCAGTCTTACGCGCTGTTTCCG -CATATGACCGTGGAACAGAACATCGCTTTTGGCCTGAAACAGGACAAACTACCGAAAGCGGAAATTGCCAGCCGG -GTCAATGAGATGCTCGGCCTGGTGCATATGCAGGAGTTCGCCAAACGCAAACCGCATCAGCTTTCCGGTGGTCAG -CGACAACGTGTGGCCCTGGCCCGAAGCCTTGCGAAGCGCCCGAAACTATTACTGCTCGATGAGCCGATGGGCGCG -CTGGATAAAAAGCTGCGTGACAGGATGCAGCTTGAAGTGGTGGATATTCTGGAGCGCGTCGGTGTGACTTGTGTG -ATGGTCACCCACGATCAGGAAGAGGCGATGACCATGGCGGGGCGCATCGCCATTATGAATCGTGGGAAATTTGTC -CAGATTGGCGAACCGGAAGAGATCTACGAGCATCCGACTACCCGCTATAGCGCCGAATTTATTGGCTCGGTAAAC -GTCTTTGAAGGCGTACTCAAAGAGCGTCAGGAAGATGGCCTGGTGCTTGATTCGCCGGGGCTGGTGCATCCACTG -AAAGTCGACGCGGATGCCTCGGTGGTCGATAACGTGCCGGTACATGTGGCGCTGCGCCCGGAAAAAATCATGCTT -TGCGAAGAGCCGCCCGCCAATGGTTGTAACTTCGCGGTGGGGGAGGTGATACACATTGCCTATCTCGGCGATCTT -TCGGTGTATCACGTTCGTCTGAAAAGTGGGCAGATGATTAGCGCCCAGCTACAAAACGCCCATCGTCATCGTAAA -GGGTTACCGACCTGGGGCGACGAAGTGCGTTTGTGCTGGGAAGTGGACAGCTGTGTGGTGCTGACGGTTTAAGGA -GCAAAGATGAGTACACTTGAACCTGCTGCCCAGTCGAAACCGCCGGGCGGATTTAAGCTGTGGTTGTCGCAGCTG -CAAATGAAGCATGGGCGCAAACTGGTCATTGCGTTGCCATATATCTGGTTGATCTTGCTGTTTCTGCTGCCATTT -CTGATTGTCTTTAAAATAAGCCTGGCGGAGATGGCGCGCGCTATTCCACCTTATACCGAACTGATGGAGTGGGCT -GACGGGCAACTGTCCATCACTCTTAATCTCGGTAATTTTCTGCAACTGACCGACGATCCGCTCTATTTCGATGCT -TATCTCCAGTCGCTACAGGTGGCTGCGATTTCGACATTTTGCTGTTTACTGATCGGCTATCCGCTGGCGTGGGCG -GTGGCGCACAGTAAGCCTTCGACCCGTAATATTTTATTACTACTGGTGATCCTGCCGTCGTGGACCTCGTTTCTG -ATCCGCGTTTATGCCTGGATGGGAATATTAAAAAACAACGGTGTGCTGAATAATTTTCTGCTGTGGCTGGGGGTT -ATCGATCAACCGCTGACCATTCTGCATACCAATCTGGCCGTTTATATCGGCATTGTTTACGCTTACGTGCCGTTT -ATGGTACTGCCGATTTATACCGCGTTGATTCGTATTGATTATTCGCTGGTGGAAGCAGCGCTGGATCTCGGTGCA -CGACCGCTGAAAACGTTCTTTACTGTGATCGTGCCGCTGACTAAAGGTGGGATTATTGCCGGATCGATGCTGGTG -TTTATCCCGGCTGTGGGCGAGTTTGTGATCCCGGAACTGCTCGGTGGCCCGGACAGCATCATGATCGGGCGCGTG -CTATGGCAAGAGTTTTTCAATAACCGCGACTGGCCGGTGGCCTCGGCGGTAGCGATCATCATGTTGCTGCTGCTA -ATTGTGCCGATAATGTGGTTCCACAAACACCAGCAAAAAAGCGTGGGAGAACACGGATGAATAATTTACCGGTAG -TTCGTTCGCCCTGGCGGATTGTGATTTTGCTGCTGGGCTTTACCTTTCTCTACGCGCCAATGCTGATGCTGGTTA -TCTATTCGTTTAACAGCTCGAAGCTGGTGACGGTGTGGGCCGGCTGGTCAACGCGCTGGTATGGTGAGTTATTGC -GCGATGACGCGATGATGAGTGCGGTTGGTTTAAGTCTGACAATTGCGGCCTGTGCGGCGACGGCGGCGGCGATCC -TCGGAACTATTGCGGCGGTGGTGCTGGTGCGCTTTGGCAGGTTTCGCGGATCAAATGGCTTTGCCTTTATGATCA -CCGCGCCGCTGGTAATGCCAGATGTCATCACGGGCTTGTCGCTGTTGTTATTATTCGTCGCGCTTGCTCATGCCA -TTGGCTGGCCTGCGGACCGCGGTATGCTCACCATCTGGCTGGCGCATGTCACTTTTTGTACGGCTTATGTGGCGG -TCGTTATTTCTTCAAGATTGCGGGAACTGGATCGCTCGATAGAAGAAGCAGCGATGGATCTCGGTGCGACGCCGC -TGAAAGTGTTTTTCGTCATTACGCTACCGATGATCATGCCCGCGATCATTTCTGGCTGGTTACTGGCTTTTACTT -TGTCGCTTGATGATCTGGTGATCGCCAGCTTTGTTTCCGGGCCGGGAGCCACCACGTTACCGATGCTGGTCTTTT -CCAGCGTGCGGATGGGGGTGAATCCGGAAATCAACGCCCTGGCAACATTGATCCTCGGCGCGGTCGGAATTGTCG -GATTTATCGCCTGGTATCTGATGGCTCGCGCAGAAAAACAGCGGATACGCGACATCCAGCGTGCAAGACGTGGCT -GAAGACACTAAAATTTGCCAACCTGGCTACATAATGCCGCGCATGTCGCGGCATTGTTTTCATGGAAGACGAAAC -GTTGGGATTTTTTAAGAAAACATCTTCATCTCATGCTCGCCTGAATGTGCCTGCGCTGGTGCAGGTGGCGGCGCT -CGCCATTATTATGATCCGTGGCCTCGACGTGCTGATGATTTTCAATACGCTGGGCGTGCGCGGTATTGGCGAGTT -CATTCATCGCAGCGTACAAACCTGGAGTTTAACGCTGGTCTTTTTAAGCAGTCTGGTGCTGGTTTTCATTGAGAT -CTGGTGTGCGTTTTCACTGGTGAAAGGGCGTCGCTGGGCGCGCTGGCTATATCTGCTGACACAAATCACCGCCGC -AAGTTACTTGTGGGCGGCTTCGCTGGGGTACGGTTATCCGGAGCTGTTCAGCATTCCCGGTGAATCAAAACGTGA -AATCTTCCATAGCCTGATGCTGCAGAAGCTGCCGGATATGCTCATCCTGATGCTGCTGTTCGTTCCCTCGACCAG -TCGGCGGTTCTTCCAGTTGCAATAATGTGTATAATCGTCGCCCCTGATGATGTGAAGGTCAATGTATGCAGTGCG -CACTTTACGACGCGGGTCGCTGTCGTTCCTGTCAGTGGATAATGCAGCCGATTCCAGAGCAACTCTCCGCTAAAA -CCGCCGATCTTAAAAATCTGCTCGCCGACTTTCCGGTTGAGGAATGGTGCGCGCCGGTGTCAGGCCCGGAACAAG -GGTTTCGTAATAAAGCCAAAATGGTGGTGAGTGGTAGCGTTGAAAAACCACTGCTCGGTATGCTGCATCGCGATG -GCACACCAGAAGACCTTTGTGACTGCCCGCTTTATCCTGCCTCATTTGCGCCCGTTTTTGCGGCGCTAAAACCGT -TTATCGCCCGAGCGGGGTTAACGCCCTACAACGTGGCGCGTAAGCGTGGCGAACTGAAATACATTCTGCTGACTG -AAAGCCAGAGTGATGGAGGCATGATGCTGCGCTTTGTACTGCGTTCTGATACCAAGCTGGCGCAACTGCGTAAGG -CGCTGCCGTGGTTACACGAACAACTACCGCAGCTGAAAGTTATTACCGTCAATATTCAGCCGGTACATATGGCGA -TTATGGAAGGGGAGACGGAGATCTACCTGACCGAACAACAGGCACTGGCGGAGCGTTTTAATGACGTACCGCTGT -GGATCCGTCCGCAAAGTTTCTTCCAGACTAATCCGGCGGTCGCCAGCCAGTTGTACGCCACCGCGCGCGACTGGG -TACGACAGCTGCCGGTTAAACATATGTGGGATCTGTTCTGCGGTGTGGGGGGCTTTGGTTTACACTGCGCGACGC -CTGACATGCAGTTAACCGGGATCGAAATTGCATCAGAGGCCATTGCCTGTGCAAAGCAGTCAGCCGCTGAACTGG -GCTTAACGCGTTTGCAATTTCAGGCGCTGGACTCCACTCAGTTTGCCACCGCTCAGGGGGATGTGCCGGAGCTGG -TGCTGGTTAACCCGCCGCGCCGCGGCATTGGTAAACCGCTGTGTGATTATCTCTCAACGATGGCACCGCGTTTTA -TCATCTACTCCAGCTGTAACGCCCAAACTATGGCGAAAGATATCCGCGAACTGCCTGGGTTTCGTATTGAACGGG -TGCAGCTTTTCGATATGTTCCCGCATACCGCGCACTATGAAGTGCTGACGCTGCTGGTGAAGCAATAAAAAAGCC -GCATGTGCGGCTTCAGATTGCTGACAAAGTGCGCGTTGTTTATGCCGGATGCGGCGTAAACGCCTTATCCGGCCT -ACAAAAGCGTGCAAATTCAATACATTGCATGGGCCATGTAGGCCTGATAAGCGTAGCGCATCAGGCAATTTTACC -TTTGTCATCAGTCTCAAGCCGCGGTTGCGGCTTTCTGAATCTTACTGTGGGAACCACTGGTCACTGATTTTTTGA -TAAGTACCGTCAGCTTTAATTGCTGCCAGCGCGTTATTCAGTTTTTCCAGCAGGGCTTTGTTATCCGGACGTACA -GCGATGCCCAGGCCGGTGCCAAAATATTGCGGATCGGTCACTTTCTCAGTAGCAACACCAAGTTGTGGATTGGTT -TTCAGCCATTCGTTTACCACCGCTGTGTCACCAAATACCCCATCAATACGACCATTTTTCAGATCGATAAAGGCA -TTCTGATAACTGTCATAAGAGACAGTTTTCACTTCCGGGTGCTGATCCTGAATATATTTCTGGTGCGTAGTACCG -TTTTCCATCCCAATACGTTTGCCTTTCAGATCGGCAAACGTTTTGTAGGTATCTTTTTTGGCAATCACGACGGCT -GAGTTTTCATAGTAGGGCGTGGTAAACGATACCTGTTTGCTACGCTCCGGGGTGATATCCATACCGGAGATTACG -GCGTCATATTTTCTGAATTTCAGGGACGGGATCAGGCTGTCGAACGCGTGATTAGTAAAAGTACATTCTGCCTGC -ATTTGTTTGCACAAGGCTTTTGCCAGATCGATATCAAAGCCGACAATCTCATTATTAGCACCTATAGATTCAAAG -GGTGGATAGGTGGCTGAAACGCCAAAATTGATTTTCTCTGCGGCAGAAGCACCGAAAGTAAAGGAAGCAAGTAAA -GCGGCAAGAACTAACTTTTTCATGATGGAACTCCCGTCTGTCAATCTTATGATTTTTGGCCGTGTCTGCGGCATG -GGATAACAATGCCATCAAGTGAATTTATATGCAATAAACATGATTAAATAATTTAAATGAAATAAAAAAGACGGA -CAACTTAGTGGGTTGTCCGTCTTCATTATAAGAATTTATGCACTATGTAGGCCGGATAAGGCGTCCCCGCCGCAT -CCGGCACAGGCACCGTGCTGATGTCTGATGCGACGCTGGCGCGTCTTATCAGACCTACAAAACCCCCCGGCGAAT -GTACGCAGCCACATTAATTTCGCCGTTCGAATGCCAGCGCTTTGCGCTCGATCAGACGCATCATCAGCGTCAGCA -GGCCGTTAACGACCAGGTAAATAATCCCTGCCGCACCGAACACCATTACATCGTAGGTGCGTCCGTACAACAACT -GGCTGTATCCCATCACTTCCATCAGCGTAATGGTGTATGCCAGAGAGGTACTTTTGAATACCAGCACCACTTCGT -TGGAATAAGAAGAGAGCGAGCGTTTAAAGGCATACGGCAGCAGGATCGCCAGCGTATCTTTTTTGCTCATTCCCA -GGGCGCTACAGGACTGCCACTGACCTTCCGGGATCGCACGAATTGCACCGTAAAACAGCTGCGTGGTATACGCCG -CACTATTCAGCGACAACGCAATCAGCGCACATAACCACGGTTCTGACAACAAATGCCACAGTGCCGGATACTCCT -GCAAAGTCGGAAACTGGCCCGGCCCGTAATAAATCAGGAAGATCTGCACCAGCAGCGGCGTACCGGTAAACAGCG -TGATATAACCCCGCACCAGCCACACCAGCACCGGCGTTTTCAGCGTCAGGATGATGGTAAAAATCAATGCCAGAA -TCAGTGCCACAATCAGCGAGGCAACGGTTAGCGTCAGGCTGGTGTGTAGCCCTTTCATCAGTTCGGGTAAATACT -CAAACATTAGCTGGGCCTCCGCTCAAAACGTGTCGCGCGCAGGTCAATGCGTTTGAGAATGTACTGACTGAGCAG -GGTGATCACCAGGTAAATCGCCGCCGCCACAATGTACCAGGTAAATGGTTCCTGGGTACGAGTAGCGATGCTTTT -TGTTTGCAGCATTAAATCATTCACACTAATCAAACTGACCAGCGCGGTATCTTTCAGCAGCACCAGCCACTGGTT -ACCGAGGCCAGGCAGCGCATGACGCCACATCTGCGGCATCACCAGACGGAAAAAGATAGCCGATTTCGACAGCCC -CAGCGCCTGACCAGACTCCCACTGACCCACCGGCACCGCTTTCAACGCGCCCCGAAGCGTTTGCGAGGCATAGGC -GGCATACAGCAGTGACAGAGCGATGACACCACAAAGGAACGGGCTAACGTCGAAGTTCTCAATGTCCATCTGCAC -TGGGATCTGCACGAACCCAAGATTGATAGTGAAGCCATCCGAAAGCGTCAGCAGCAGCTGCGAGGAGCCAAAATA -GATAAACAGCACCACCAGAATTTCTGGCAGGCCACGCAGAATGGTTACCAGCGCTGAACCTGCCCACGCGACAGG -ACGCCATTTTGCCGACTCCCATACCGCAAAGAACATCGCCAGCGCCAGCCCGACAATCAATGCACAAACGGCAAG -GCCGACGGTCATCCCGGCGGCGCTTGCTAAAGGAAAAAATTCATTCATCAGGAATTACTTCTGGAACCATTTGTT -GTAGATGGTTTCGTAAGTGCCATCTTTCTTCACTTTTTCCAGCGCAGTGTTGAGTTTCTGCTGCAGCTCAGTGTT -GCCCTGACGTACCGCGATGCCGAGGCCAGTGCCGAAGTAATCTTTATCGGTCACTTTGTCGCCCACCGCCGCCAG -TTTCGGGTTATCTTTCAGCCACTCAGTGACCACTGCGGTGTCACCGAAGACGCCGTCGATACGCCCGTTTTGCAG -ATCCAGTTTTGCGTTCTGGTAGCTGTCATACGGAACGGTAGTGATTTCCGGGTGCTTATCCATAATGAATTTCTG -GTGTGTCGTCCCGTTCTGTACGCCGACTTTTTTGCCTTTCAGCTGATCAACACTGGTGTATTTGCCTTGCTGACC -CACAAACAGGGCAGAGTTGTCATAGTACGGGGTGGTAAACAGCACCTGCTTTTCACGCTCCGGAGTGATATCCAT -GCCCGCCATCACGGCTTCTACGCGACGGAATTTCAGGCTTGGGATCAGGCTGTCAAACGCCTGGTTAGAGAAAGT -GCAGGTTGCATCAATCTCTTTACACAGCGCTTGTGCCAGGTCGACGTCAAAACCAACGATCTGGTTGTTTGCATC -AATCGATTCAAACGGAGGATAGGAGGCTTCGGTAGCAAAACGAATGGTTTCGGCAGCTGTGGCGGAAAGACTAAA -ACCTGCAATTAACGCGGCAATCAGAACTTTTTTCATTGTTGTTATCCCGAATCTTAGTGAGAGAGATAGTTTTTA -AATGCTTCGGTTTGCGGCTCGGTAAAGCAGCTCGCGTCGCCTTGTTCTACGATATGACCATTTTCCATATACACC -ACTCGGCTGGCGGTTTTACGCGCCACTTCAACTTCGTGGGTGACGATCACCTGGGTAATATTCGTTTCTGCCAGC -TCACGAATGATGCTGACGATTTGTGCCGTAATTTCCGGGTCCAGTGCGGCGGTCGGTTCATCGAACAGCAGTACC -TGCGGTTCCATCATCAACGCACGGGCAATAGCAACACGCTGCTGCTGACCACCAGAAAGATGCAGCGGGTAACGA -TCGCTATAAGGTTTGAGACGCAGACGTTCCAGCAGTTTTTCTGCACGGGCCAGCGCCTGATCTTTACTCAACCCC -AGTACACGGCAGGGCGCTTCAATCAGGTTTTGCTGCACGGTCAGATGCGGCCACAGGTTGTATTGCTGAAACACC -ATGCCAACGTTACGACGCAAATCGCGAATCGCTTTGTCAGAGGGTGTTTTGGTGAAATCGAAATGGTTGCCTGCA -ATGTTGAGCGTACCGGAGCGCGGCATCTCAAGCAGATTGAGTACACGCAGCAGCGAGCTTTTACCCGCGCCGCTG -GGGCCAAGTAACACCAGCGTTTCGCCCTGTGGGCAATCCAGCGTGATATCGAACAGCGCCTGATGCGCGCCGTAG -AAGCAATTAATGCCGTTTAATTGAATACTCATTGACACTCGTATACTGGCAGTCTGATAGCTATTGAGGTCGAAG -ATAGTACCTTTGACAGAATAATTATGCAATATTTCTGCTTTAAAAGTTAAAAGCAAAGCGCATTATTCAATAAAC -ATAGCACAAAATAACGGGGGCGGTGGTCGGCGAGCATAAATGTCGGCATTCCTCACGAAATGCCGGACAATTTAC -GGGGTTTATTGGTTGATCAAGGCGTTAGCGATTCTCGATGGACTGACGGAGCGTACCCGCCGTGGCATGAACGCT -ACCGCCTAAGTAACGCACATCGTCGATGACCCAACACTGGCCTTCCTGAATCATTAACACTTCATCCTGCCAACC -CTGGTCACCCTGTTTGAGATCCACGCGCAATGGAATGTTACGGGCATCACGATTAGGGATAGTCGATGCACTGGC -AACGTGGGCGCTATCTGGCAAGGTGGTTCGACTGGAGAATGGATCGTTGGTCAGTAGTTCCCGATGGTTATTATC -CCGGGAGGCATCGCTAAGCAGTGTCGCCAGTTTGTCGCTCAGATAAGGGCGCAAGGCGGTGATGTCGTTGCTGCG -GTGCAAAATGCGGTAGTCATAAAATTGCTGGGCCACGTTATCCGGGCCTCCTTCAACGCAAGGACCACTGCGTGT -GCCGTTATCTTTATAAGCTGGAGTGACTGTGGTGCAGGCACTGAGGAGCAGTGCGCAGGGGATAAGCATTGTCAA -TTTGCTGTAGCGCATAATGATTTCCTTATAAGCGATCGCTCTGAAAGCGTTCTACGATAATAATGATATCCTTTC -AATAATAGCGTATCAGTCTGATAATGCTTTTGAGATCGAAGGCTTAGCAAACAAGGAGATCGATCATGCAATTTT -CTACAACCCCAACTCTGGAAGGCCAGACCATCGTTGAATATTGCGGTGTGGTGACCGGCGAAGCGATTTTAGGTG -CCAATATTTTCCGTGATTTCTTTGCCGGTATCCGCGATATCGTTGGCGGACGTTCCGGTGCGTATGAAAAAGAAC -TGCGTAAAGCACGGGAGATCGCCTTTGAGGAATTAGGCTCCCAGGCGCGGGCGCTGGGGGCCGATGCCGTCGTCG -GTATTGATATCGACTACGAAACGGTCGGGCAAAACGGCAGTATGCTGATGGTTAGCGTCAGCGGTACGGCGGTGA -AAACGCGTCGATGAGAAGATTCTTCTGGCTGGTCGCTGCCGCTCTGTTATTGGCAGGGTGTGCAGGCGAAAAAGG -CATTGTCGAGAAAGAGGGATATCAGCTTGATACCCGACGCCAGGCGCAGGCGGCGTATCCGCGCATTAAAGTGCT -GGTGATCCACTACACCGCAGATGATTTTGATAGCTCGCTGGCGACACTGACCGATAAGCAGGTCAGCTCGCATTA -TCTGGTCCCTGCGGTACCACCGCGATACAACGGTAAACCGCGCATCTGGCAACTGGTGCCGGAACAAGAACTGGC -CTGGCATGCGGGGATTAGCGCCTGGCGCGGGGCAACGCGCCTTAACGACACCTCTATTGGCATTGAGCTGGAAAA -CCGTGGCTGGCAAAAATCGGCCGGAGTGAAATATTTTGCCCCGTTTGAACCGGCACAGATTCAGGCGCTTATTCC -ACTGGCGAAAGATATTATTGCCCGTTATCACATCAAGCCGGAAAACGTAGTGGCACATGCGGATATCGCACCGCA -GCGCAAAGACGATCCGGGGCCATTATTTCCCTGGCAGCAACTGGCGCAGCAGGGGATTGGTGCCTGGCCGGATGC -GCAGCGGGTTAACTTTTACCTTGCCGGGCGCGCGCCGCACACACCGGTAGATACCGCGTCATTGCTGGAGCTTTT -GGCGCGCTACGGTTATGACGTTAAACCTGATATGACACCGCGCGAGCAGCGGCGCGTGATTATGGCATTCCAGAT -GCATTTCCGCCCGACGTTATATAACGGCGAAGCGGATGCAGAAACTCAGGCGATTGCCGAAGCATTGCTGGAGAA -ATACGGGCAGGATTAGCGCGGCAGTTTTCCGTGGTCGCGTAGCCAGGCGGCAGTTTTCTCGATACCTTCATCCAG -GGTGATGACCGGCTGATAACCTAACTCTTCCTGCGCACGCGTAATATCCAGCGTAAAGTCAAAATTCAACTTGGA -GACGCCGTAGTGGGTCAGCGGCGGCTCTTTTGCTGACTTGCGGCCTAAACGCTCCATGCTGCGGGCGATCATATC -CAGCATCGGGTAGGGGACGGAACGAATACGACAGTCAATATTCAACTCGTCGATCAGCTTCTGCACGATGCTGCG -CAGTGTGCGATGCTCGCCGTTGGTGATGTTGTACACACGCCCGGAAGGTAGCTTATCGCAGGCTTCCTGGCTTGC -CAGCCACATTGCGTGCACGGCATTTTCATAGTAGGTCATATCGACCAGCGCACTGCCGCCATGCGGTAACAGAAT -ACTGCCGTAGTGGTGCATCATATGCGCCAGACGGGGAATAAAGACTTTATCGTGCGGTCCGAACAGACTTTGTGG -GCGCAGAATAGTAAAGCGCGTTTGTGGATTCGCCTGCGAAAGCATATTGATCACTTCTTCGCTGGCTGCTTTGCT -GCGGGCAAACTCGTTGGCGAAGCGGTGAGGGCGAAAATCTTCTTTAATATCGCGATGGTGGTGATAATCGAAGTA -CAGGGAGGGGGAAGAGATATGAATAAAGTTACGCACACCCCAGGCGACAGCCCATTCACCCAGGCGGCGAGTGGC -GCGAACGTTAGCCAGATCGAAAGCCTGTTGTGTCCCCCAGGGTGAGGTAAAGCTGGAGCAGTGCCACAGCGTATC -AATGCCCGCGAGCATCACTTTAGCTTGTGATGAAACCAGCTCGGTCAGATCCGCCGGAACAAACTCTGCGCCCAT -TTTTTCCAGCAATTTGCCCATTGCCTCGTTGCGACCGGTCGCTCGCACGCTGATGCCTTTCTGGCATAAAAACTC -TACCGCGTTTCGACCTAAGCCGCTGGTGGCGCCGGTAACCAGTACCTTCATATCAATCCACTGTTGTTGAGAAAA -TAACGTGCGCATTCTTCCGTGATTTCCCCCATGATGCAATGGGAAACATGAAAGAATAACGCAGGTTTTGTCGAT -TAATCTGTGCTTTGTTCTGCCAGTCTGGCGATTTGTTTTGCCATTCCGCGAAAAATAAACAGATGCGCGGGGATC -ATCAATAACCAGTAAAACAGCCCCGGCATACCGTGCGGATGCCAGAAAGCGCGGACATCGATAGTACGATAGTCG -CCTTTATCTTCCAGGCTAAAACACAGTCGTCCCAGCCCCGGCGCTTTCATGCCAAATAACAACGTAAGTTGTTTT -TCCGGTTCAACGACAATCACTTTCCAGCTATCCACCGCATCGCCAGTCTGTAAATATTCGCGCTCCGGGCGGCCT -TTCGCCAGCTTATGACCGATCGCGCGGTCCATCAACGCCCGTGTCTGCCACAAAATATTGCCAAAGAAATAACGC -TCTTTACCGCCGATTTGGTTCACTACCTGCCATAAAGCAGCAAGGCTGGCGGACGTTTTAACGGTAAACCCCGCC -TGTTTGGCAAAATAACCGTACTCCGGTCGCCAGCGGGCAAAGGCCTGAGCGTCGTAGCCCCAGTCGCTGGAGTTG -ACCAGTTTTTCCTCCTCTTTCAACGTGCTACGTACCGCGTCATCGAAAGCGATCAGCCGTTGTGGGATGAGTGCA -CGTAGCGCGGTATCATCCGCCAGCAGATCGTGTTTCAGCCCCTGAATCAACGCCCTGGCGGTGGTGGGCGGTACG -GAAGTAATCACATTGAGAAACCACACCGAAATCCAGCGGGTGGGGAGGGGGATGGGGATCAACCAGCGGCGCTTA -CCGCTCACCGCCATAAAATGTTCAAACTGTTGCTGATAACTGAGCACCTCTGGTCCGGCGGCTTCGAAGATGCGG -TGTTCGCTGGCCGGATGATCTAACAACGCAACCAGATAGTGCAGCAAGTTTTCCAGCGCAATGGGCGTGGTGCGT -GAACGAACCCAGCGCGGAGGCGTTAAGACTGGCAGGTTGTAGACCATATCGCGCATGACTTCGAACGCCGCGGAA -CCTGCGCCAACGATAATTCCGGCCCGCAGTTCGGTCACGGGTACATTCGCTTCACGCAGAATGTCCGCCGTAGCC -TGACGAGCACGCAGATGATCCGACTGCTCATGTGGCGGGGCCTGCAACGAACTAAGAAAGATTAATTGCTTAACT -GGTACTTCACGTAGCGCATCGCGGACGTTGAGAGCCACCTGGCGCTCCTGAGCGATAAAATCGCCGCCTTCGCCC -ATGCTGTGCACCAGAAAATAGACCGTATCGATATCCTGCAACAGGGCCGGTAGGTTATCCGGCCAGCTGAGATCG -ACTTTATGGCAACTGACGTTTGCCAGTTGCAGCTTTGCAAGCCTGTCGACATGACGTGCCGCCGCCAGGATCTGA -TGCCCTTGCTGGCTGAGTGTGCGCACCAGATGCTGACCAATGTAGCCACTGGCACCGAGAACTAAAATGCGTTGC -GGCACGTCTCTCTCCTTAACGCGCCAGGAATGCACGCCAGTGGGCGGCGACTTCCGCCAGTTGTTCGCGCGAGAC -GTCAAGATGCGTCACCAGGCGGACAATCGGCGAGGCGTTAATCAGCACGTTTCTCGCTTTCATGTATTCGCCTAA -CGCGGCAGCATTTTCTTCCCCGACGCGAACAAACAGCATATTGGTGTCCTGACGCATCACATCCGCGCCTGCTTC -ACGCAGCTGCTCCGCCATCCAGGCAGCGTTGTCGTGGTCTTCCTGCAAGCGCGCAACGTTATTTTTCAGGGCATA -TATCCCGGCGGCAGCCAGAATGCCGGACTGGCGCATCCCGCCACCTGTCATTTTCCGCCAGCGAATGGCACGTTT -AATGTAATCACGATTACCGACGAGTAATGAACCGACTGGCGTCCCAAGACCTTTCGACAGGCAAATGGTGAACGA -ATCACAATATTGCGTGATCTCTTTCAGTTCGCAGCCGTAAGCCACCACGGCATTAAAGATGCGCGCACCGTCAAC -ATGCAGCGCCAGATTGCGCTCGCGGGTAAATTCCCATGCTTCTTTCAGGTATTCCCGCGGCAACACTTTGCCGTT -GTGGGTGTTTTCCAGACTGAGTAATTTGGTGCGGGCGAAATGGATATCGTCGGGTTTGATTTTCATCGCCACTTT -ATCCAGCGGTAGCGTGCCGTCGGCAGCCGCGTCTATGGGTTGCGGTTGAATACTGCCCAGCACCGCCGCGCCACC -GGCTTCAAACAGATAGTTATGCGCGGCCTGACCGACAATATACTCTTCGCCGCGTTCGCAGTGACTGAGCAGAGC -GACCAGGTTGGCCTGAGTGCCGGTAGGCAGAAAAATGGCGGCTTCTTTACCGGAAAGCTCTGCTGCGTAGTCCTG -CAGAGCATTAACGGTAGGGTCGTCTCCGTAAACGTCGTCCCCAACCGGGGCGGCCATCATCGCTTCGAGCATGGC -GCGGCTTGGTCGGGTAACGGTATCACTGCGTAAATCAATCATGGCATGTCCTTATTATGACGGGAAATGCCACCC -TTTTTACCTTAGCCAGTTTGTTTTCGCCAGTTCGATCACTTCATCACCGCGTCCGCTGATGATTGCGCGCAGCAT -ATACAGGCTGAAACCTTTGGCCTGTTCGAGTTTGATCTGCGGTGGAATGGCTAACTCTTCTTTGGCGACCACCAC -ATCCACCAACACCGGACCGTCGATGGAGAAGGCGCGTTGCAGGGCTTCATCAACTTCAGACGCTTTTTCTACACG -GATACCCGTAATGCCGCACGCTTCGGCAATGCGGGCAAAGTTTGTGTCGTGTAGTTCGGTGCCGTCAGTCAAATA -GCCACCAGCTTTCATCTCCATCGCCACAAAGCCCAGCACGCTGTTGTTAAAGACGACAATTTTCACTGGCAGTTT -CATCTGCACTACTGAGAGGAAATCGCCCATCAACATGCTAAAACCGCCATCGCCGCACATGGCGACCACCTGACG -TTCTGGCTCTGTCGCCTGCGCACCCAGCGCCTGCGGCATGGCGTTAGCCATCGAACCGTGGTTAAACGAACCTAA -CAGGCGACGCTTGCCGTTCATTTTTAGATAACGTGCCGCCCACACCGTTGGCGTACCAACGTCACAGGTGAAAAT -AGCGTCATCGGCGGCAAAATGACTAATTTGCTGCGCCAGATATTGCGGGTGAATGGCTTTCTCGCTCGGTTTAGC -TAAATCGTCCAGCCCTTTGCGGGCGTCGCGGTAATCTTCCAGCGCTTTATCCAGAAACTTGCGATCGGCTTTTTC -TTCCACCAATGGAAGCAATGCACGCAGAGTCGACTTGATATCGCCGACCAGTGCCATATCCACCTTGCTGTGAGC -GCCGATGCTGGCTGGGTTGATATCAATCTGAATGATTTTGGCATCGGTCGGGTAGAAGGCGCGGTAGGGAAATTG -CGTGCCGAGTAGCACTAACGTGTCGGCGTTCATCATGGTATGGAAACCTGACGAGAAGCCGATTAACCCGGTCAT -TCCAACATCATACGGATTATCGTATTCGACATGTTCTTTACCGCGCAGGGCATGAACAATAGGCGCTTTAATTTT -CCCGGCAAACTCAACTAACTCTTTATGCGCCCCCGCGCAGCCGCTGCCACACATCAGGGCGATATTGCTGGAATA -ACGCAGCAGTTGCGCCAGTTTGCGTAACTCTTCTTCTTCCGGCGTCACGACTGGTTGTGGCGCATGATACCAGTG -CATGGTTGCCCCTTCTGGCGCAGGTTTTAACGCCACGTCGCCTGGTAACACGACAACCGAAACGCCACGGTTAAG -CACCGCTTTGCGCATGGCAATCGCCAGTACTTGTGGGATCTGCTCCGGGCTGGAAACCAGCTCGCAATAGTGACT -ACATTCGCGGAATAGCTCTTGTGGGTGGGTTTCCTGGAAATAGCCGCTGCCAATTTCGCTGGAGGGAATATGAGC -GGCAATCGCCAGTACCGGAACGTGATTGCGGTGGCAATCGAACAGGCCGTTGATTAAGTGCAGGTTGCCGGGGCC -GCACGATCCGGCGCAGACCGCCAGTTCTCCGCTAAGTTGTGCTTCAGCGCCAGCGGCAAAGGCCGCCACTTCTTC -GTGGCGGGTGGACATCCACTCGATGGTGCCCATGCGATTAAGACTGTCACTAAGACCGTTCAGAGAGTCGCCTGT -GACTCCCCAGATGCGTTTCACCCCTGCCGATTCGAGTGTTTTGGCGATATAAGCTGCAACCGTTTGTTTCATGGT -TCTCCATCTCCTGAATGTGATAACGGTAACAAGTTTAGTTCATCTGACGGAGGGGGAAGGGATGGGAGAGAAAGG -AGGCACTAACGGTTAAATAGCCCGATGAAAGGAATATCATCGGGCATAAGGCGATTATGCGAGAACCAAATCCCC -CTGCGGATGGCAGGAGCAGGCCAGTACGTAACCTTCAGCGATTTCGGCGTCGGTCAGCGTCATTGTGCTGCTCAC -CGTATATTCACCGGAAACCACTTTTGTCTTACAGCAGCCGCAAACACCCGCACGGCAGGCAGCGACAACCGGAAC -GTTATTGCTTTCCAGCGCCTCCAGTAGCGTGGTGCCAACCGGGGCGTAAAATTCTCGTGCCGGTTGCAGTTTGGT -GAATTTCAGACCGCTGGTCGCCGCTTCTGCTACTGGGGTGAAGAATTTCTCTTTAAAGAAACGCGTCACGCCGAG -CGCTTTCACTTCCTGCTCTACCCAATCCATATACGGAGCCGGGCCGCAGGTCATCACGGTACGTGAAGCTAAGTC -AGGTACACCTGCCAGCAGTTCGCGAGTGAGACGACCAGCGATAAAGCCTTCGGTAACGTTATTTTCTGCCACCAG -CGTTACCGGATAGTTACGCCACTCATCGGCGAAAATAACATCCTGCGGCGTACGCACGTTGTAGATCACCCGCAC -ATCGGCCTGTGGACGGTTCTTCGCAAGCCAGCGACGCATCGACATAATCGGCGTGACGCCGCAGCCTGCCGCCAG -CAACAGGAATTTATCTTCTGCTTTATCGTCGCAGGTAAATTCCCCCATCGCGTCCGAAAGCCAGAGATAATCACC -GCGTTTTACATCGCGCGTCAGCCACTGGGAGCCGACACCGTCATCAATCCGCCGCACGGTCAGGGTGATATATTC -ACTCACGCCTGGCGTGGAGGAAATGGTGTAAGCACGCAGCGTTTCCGCTGAGTTTCGCACGCTGACCAGTGCATA -TTGCCCGGCGCGATATGGGTAGTAATCGTGGCAAATCAGGGAAATCGTCCACACATCCGGCGTTTCTTGCGTAAT -GTGATGAACCTGCATCCGCCACGGGCATTGATTCGTTGGCATCGTCATCGACAAACTCCTTACGCGCTCAACAGT -TGCTTCATGTCTTCTTCAACAGTGGTGATAGAACGCAGGCCGAATTTCTCGTTCAGCACCGCCAGCAGGTCTGGT -GTCAGGAAACCAGGTGCAGTCGGGCCGGTGACGATATTTTTCACGCCCAGAGAAAGCAGCGTCAGCAGAATGACG -ATCGCTTTCTGTTCAAACCAGGAGAGCACCAGCGACAGCGGCAGATCGTTGACACCGCAGCCCAGTTTCTCTGCC -AGAGTGACAGCCAGAATAATCGCTGAGTAAGCATCGTTACATTGACCTGCATCTACCAGACGCGGCAGACCTTCG -ATATCGCCAAACTCAAGTTTGTTAAAGCGATATTTACCACAGGCGAGGGTCAGGATCAGGCAGTCATCCGGCACG -CTGGTGGCGAAATCGGTGAAGTAGTGGCGCTCGCCGCGTGCGCCGTCACAGCCACCAAGCAGGAAGATATGACGC -AGTTTTTCACGGCTCACCAGATCAATCAGCGTATCAGCAGCGCCAAGCAGCGTCTGGCGACCAAAACCCACGGTG -ATAAGGTGCGGAATTTCGCTGTACGGGAAGCCTGCCATCTGTTGCGCCTGGGTGATAACCGCAGAGAAATCATCA -CCGTCCAGATGACGCACGCCAGGCCAGCCAACAATGCTGCGGGTCCAGATACGATCGTCATAAGCGCCTACGGTT -GGGTCGATGATGCAGTTCGAGGTCATCACGATGGGGCCAGGGAAACGAGCGAACTCCACTTGCTGATTCTGCCAG -CCGCTGCCGTAGTTACCGACCAGATGCTTGAATTTACGCAGCTCCGGGTAGCCATGCGCAGGCAGCATTTCGCCG -TGGGTGTAGACATTAACGCCCGTGCCTTCGGTCTGTTCCAGCAGGTTGTAGAGATCTTTGAGATCGTGACCGGAA -ATCAGAATGCATTTACCCGCCGTCGCTTTGACGTTGACCTGGGTTGGCGTCGGGTGACCGTATTTACCGGTTTCG -CCTGCATCCAGAATGCTCATCACTTTGAAGTTCATCTGGCCGATTTCCATTGAACACTCAAGAAGCGCGTTCATA -TCGGCAGGCCAGGTCCCCAGCCACGCCATGATTTTATGGTACTGGGCATAAATATCGTTGTCGTATTGACCGAGA -ACATGCGCGTGTTCCATATAGGCCGCCGCACCTTTCAGGCCATACAGGCACAGCAGACGCAGGCCGAGAATGTTT -TCGCCAATCGCCGCTTTATCTTTGTTAGGGGTAAATTCTGCTGCCTGACGTTGCAGCTCGCCGAGATCGTCGCTC -ACCAGTTGCAGGTCAGCCATCGGGTTATCGACGCGCGCGTTGGCATCTACAGCCAGGCATTGCGCTTTCAGCGCC -TCGCGCAGGGCAATCGCTTCACGAGCGTAGCCGACAATACGCGGAGAATCGAAGTTAACGTTGGTCAGGGTTGAG -AAAAAGGCACGTGGCGCGAAGCTGTCAACATCGTGGTTGATGATGCCGTATTCACGCGCTTTTACCGCCCAGGCA -GAAAGCCCTTGCAGCGCCGCGATGAGTAAATCCTGAAGGTCAGAAGTTTCCGCCGTTTTACCACACATCCCCTGC -GCGTATGAGCAGCCGTTTCCTGCCGGAGTACGGATAGTTTGTTCACATTGCACACAAAACATGATCACACCTTTT -AAAGTTATATTTAATATACATGTTTAAGGTTAAGACGCTTAACGCGGGGATAAAAGGGATTTTTCATGCAACTTT -AAGGGAGATTGATTTAGCGCAATTTTGGCGGCAGGGATCTACCGCCAGAGAGGTATTACGCAGAGAAAAAGGCGA -TGAGGATCGGCACTAACAGGCTAAGAATAAAACCGTGAACAATTGCCGCCGGGACCATATCCAGCCCGCCAGTAC -GTTGAAGAACGGGCAGGGTGAAATCCATTGATGTGGCACCGCATAAGCCCAGTGCAGTAGAGCGGCTGCGGCGAA -TCAGCCCAGGGATCAACATAATAGCAATCAGTTCACGGGCCAGATCATTAAAAAACGCCGCGCTCCCGATTACCG -GACCAAAAGATTCGGTCAATAAAATACCGGAAAGAGAATACCAGCCGAAACCGGAGGCCATTGCCAGCGCGGTAT -TGATGGGGAGATCAAGAATAAAGGCGTTAATTAAACCACCAATTAATGAACTGACAACCACCACCACGGCGACAA -TCATTCCCCGGCGATTAAGGACAATCTGCTTTAAGGTCATGCCATTATTGCGCAACTGAATACCAACGAGGAAAA -GTAGCAAAATTAACGTGTATTCACTGGCTTCGGTCGCGTGTTGTAAGAAAGCCAGTCCACTTAGACCAATGGCAA -AACCAATCACTACTACGCCGCACAGTTTTAGCGACTCCAGCGCCATCGCAATACGCGACGGGAGTTTTTCTTGCT -GATGGTGGTTGCGCCACGGCAGGCCTCGCTCCAGCCACATCAGGGCGGCAATATTACACAGTAAAATAACGGTAA -TACTGACGGCAGAATAATGCAGAATCGCCAACAGGTTACTGGCGAGGTTATCGAGAAACGCCAGACTGATACCCA -TAAAAAAGAGAATAAGGTAAACCATCCAGCTTAATAGCTGATTAATAACTTTTAACGCAGCTTGTTGGCGAAGCG -GAATGAGGTAACCCACAATCAGGGGAACCAGAATGATTAACAGCCCAGAAAACATGAAAACCCAGTCCTTGCAAA -GATGAAGTCGAAATGCGCGATGACACACTACTGAAAGCGGAAGGACGAGTAAAGTTGCAATTAAAAGGAAATGTT -ATGCATAAGGAGCAGTAGAGTATTCGTTTTCATTTAAAGATATTCTTGCGCTTTAATTACAAACTGCACCGATGT -TGGTGGCGTCAAAATCGCCGAGGCGTTCCCTGAAGGCCGGGGCAGCCCACATGGATGTGGGCTGAGGGCGCGTTT -TACAGGGATGTTACCTCGCGCCCGACCCGGTAGCCGTAAGGGATAAGTCGAGGGCACCGCGCAGCGGCGATTTTG -TTCGCCAGAGCCCGGGGGTGCAGGGGGCGGCGGCGATTGGCCGCCCCCTGCGCGCTCCTTGCGCCAGTGGCAATA -TGTTGCTTAGCTCATGAAAGGAGCGCAACAAGATGATGAATCAACATATAACAACATCTTAAAAAAAGGCCTGAC -ATTACGCCAGGCCTTCTGCGTTAATTAATCACGCTTTTCCAGCAGGGTCCGGTAAATCAGACCACCGATAATGCC -GCCGACAATTGGCACCACCCAGAAGAACCACAGTTGTTCTAATGCCCAGCCGCCCTGGAAGATAGCAACCGCGGT -GCTGCGCGCCGGGTTAACAGAAGTGTTAGTCACCGGAATACTAATTAAGTGAATCAGGGTTAAGGCCAGACCAAT -AGCGATCGGCGCAAAACCTGCCGGCGCGAATTTGTCGGTTGCGCCGTGGATCACCAACAGGAAACCTGCACTCAA -TACCAGTTCAACTACCAGCGCGGAAAGCATGGAATAACCGCCTGGTGAATGCTCGCCATAACCGTTAGAAGCAAA -ACCGCTGGCTGCCGCGTCAAAACCCGTTTTACCACTGGCAATTAAATACAGCAGCGCCGCTGCAACAATACCGCC -GACAACCTGGGCAATTACGTAGCCAACGACTTCTTTTGCCGGAAAACGTCCGCCAGCCCATAAACCAATAGTGAC -CGCCGGGTTAAAATGACCACCAGAAATATGACCAACAGCAAAGGCCATCGTCAGAACGGTCAGACCGAACGCCAA -CGCCACGCCGGCAAAACCAATGCCTAATTCCGGGAAGCCTGCGGCCAGTACAGCACTACCACAGCCACCAAAAAC -AAGCCAGAAAGTACCAAAACATTCAGCTGCTAATTTTCTGAACATATCCACCACAATTAAAAATTGACCCTGTGA -AAAATATGGTCGTTTTATAGGGTCGTCGTAAAAAAGTGACGACGGAAATAATGCGCGGCTATTTTAAAAACGAAG -GCGAGTCATTCACCAGATAAATAAATCCAGTAAATTTGATTTAGGGCAACAGCGGGTTGCCCCATATAGTCATTT -GTCTGATTGACAGTGTAGTGCACGCAAAAGATTTAATCCTTTAGGCGTAATAAAAAATAATTTATCATGCTAATT -ATTTGATTTTGTTGTTTTTGCAGACTTATCAGCAAGAGGGAGTATAACGCGATTATTCGCTCATTTTTCAGACAT -TTGCCATGCTTAAATGTGATGTCATCACGTATTAGCAAGGCCTTTCCCGTTATACTGCCAGCGTAAAGGATAAGT -CACATATTTCTGGAGGGGATATGATTCTTGAGCGCGTTGAAATTGTGGGTTTTCGCGGTATCAACCGTTTGTCGT -TGATGCTGGAACAAAACAACGTCCTGATTGGGGAGAACGCGTGGGGTAAATCCAGCTTGCTGGACGCCTTAACTC -TGCTGCTATCGCCAGAATCAGATCTCTACCATTTTGAGCGCGACGATTTCTGGTTCCCGCCGGGAGATATCAACG -GGCGAGAACATCATCTGCATATTATTTTGACCTTCCGCGAATCGCTGCCAGGCCGACATCGGGTTCGCCGTTATC -GGCCGCTGGAAGCGTGCTGGACGCCATGCACCGATGGCTATCACCGTATTTTTTATCGTCTGGAAGGGGAGAGTG -CGGAAGACGGCAGCGTGATGACACTGCGCAGTTTTCTCGATAAAGACGGACATCCGATTGATGTCGAGGATATTA -ACGATCAGGCACGCCATCTGGTGCGTTTAATGCCGGTGCTGCGCTTGCGTGATGCCCGTTTTATGCGCCGTATTC -GTAACGGCACGGTGCCAAATGTCCCTAATGTGGAAGTCACCGCGCGCCAGCTCGATTTCCTCGCCCGTGAGTTAT -CCTCACATCCGCAAAATCTCTCTGATGGGCAGATTCGTCAGGGACTTTCCGCAATGGTACAGCTGCTTGAGCATT -ATTTCTCTGAGCAGGGGGCCGGACAGGCGCGATATCGTTTAATGCGGCGGCGAGCCAGCAATGAGCAACGAAGCT -GGCGCTATCTGGATATCATCAACCGGATGATTGACCGACCTGGTGGGCGCTCGTATCGGGTTATTTTGCTCGGCC -TATTTGCTACTTTGTTGCAGGCAAAAGGCACATTGCGACTGGATAAAGACGCCCGTCCATTGTTGCTGATCGAAG -ATCCAGAAACCCGTTTACACCCCATTATGCTTTCAGTTGCCTGGCATCTGTTGAATCTTCTGCCATTGCAGCGCA -TTGCCACCACCAACTCGGGTGAGTTGCTTTCGTTAACGCCGGTAGAGCATGTTTGCCGACTGGTACGTGAGTCCT -CGCGCGTTGCCGCCTGGCGTCTGGGGCCGAGTGGCTTGAGTACCGAAGATAGCCGACGCATATCCTTTCACATTC -GTTTTAACCGTCCGTCATCGCTGTTTGCACGCTGCTGGTTGCTGGTGGAAGGGGAAACGGAAACCTGGGTTATCA -ATGAACTGGCGCGTCAGTGCGGACATCATTTTGATGCCGAAGGGATCAAGGTCATTGAGTTTGCCCAGTCCGGGC -TAAAGCCACTGGTTAAATTTGCCCGCCGAATGGGGATTGAATGGCATGTACTGGTCGATGGCGATGAAGCAGGGA -AGAAATATGCCGCTACGGTACGCAGCCTGTTGAATAACGATCGGGAAGCCGAACGAGAACATTTAACGGCGTTAC -CGGCGCTGGATATGGAACATTTTATGTATCGCCAGGGATTTTCCGATGTGTTCCACCGCATGGCGCAAATCCCGG -AAAATGTACCGATGAATCTACGCAAAATTATCTCGAAAGCGATCCATCGCTCTTCCAAACCCGATCTTGCCATTG -AAGTGGCAATGGAGGCAGGACGTCGTGGTGTGGACTCCGTACCGACGCTGCTGAAAAAAATGTTCTCACGCGTGC -TGTGGCTGGCGCGCGGTCGCGCGGATTAACCGCGAAACATCGTGGCCATTTGTGGCTGAATAGCGTCGAGCATCT -CATAGCGCCGACGGTATTCAGCCCGTTTTTTACTGGCGATTTCGGCAATCTCTTTTCGTGCTATCTGTGCTGGAA -GGCGGTAATGGCGTTCAGCATCACATACGCCGCCAACCGATTCCCAGAAAGCGTTGTAATCAGCGTGGATCTTGC -CTTCTTTATCGCGATAACGCAGGCTGCGGTAAATATGCGTTTCATTGCTGACGGCAATAATCTGCTCTACCTGCA -AACGTTGGGCAAACAGACAGGCCGCTTCCATCACGAGGCGTTTGGGAAATAGCCCGTGGCAGGCTTTCGTCGCAT -TCTGGATTTCCTGATGTGGAATTTCCCATTTTGCGCCTTGCAGTCCGCCAATAAACATCGTTCTTTTCCCCTGAT -ATTCACACAGGGTAAACGTGATCTCTGCCAGAGGAATACCTTCGCTGTTGCGGAACAGGATTGTGCTGTCACCTT -CTTTATCCATTGAGATCATCATGGTCAGCTCAAGCGTGAACTGCTCGCCGTTTTTGCCTTCCAGCTTCGCCAGTT -GCAGCCCGGGGGTATTCAAATATAAGCTGAATTCTTCCGCCGACATACATTCGCGGAGTAACGCATAATGGTAAC -GTAACGCCTCCAGCAATTGCTTACGGCTAAGATTCGCCGCAAGGTAAGGGCGATGCAGACGCACAGGCAGTCGCG -GCTGGCGCGTTAACAATACATTGAGATTAGGCCAGTGGGAAAGTTCGTTCATCCACTCAACGCTTAAACGCGGCA -TAATCAACGAGCGCAGCAAAAATTTCTGGCGAAAACTACGGCGATGCCAGAATTTACCCGGCCGACACTGTCCAC -GTGCCAGACTAAGAAAAAGTGACAGGCTGCTGAGAGATTCAGATGGCGTAAAGGTCCGTTCAGTTAGCTGCGACA -TATTCATGAAATCAATGGTTATACATGGCGTCGATTTCACCATTGCGTATCTTAACCAAACATCAATAGTGTGAT -TACTAACGTAAATTTTAGGGTTTTGTTGATATTTCGTTGAAGTTAATGACCCGGATTGGCATATGGAGTATTCAG -AAAATTTATGAAAAAGCGGAAAACCGTGAAGAAGCGTTACGTTATTGCGCTGGTGATAGTCATCGCCGGACTGAT -TACGTTATGGAGAATTCTTAACGCACCCGTGCCGACTTATCAGACGCTGATTGTGCGCCCCGGTGATTTACAGCA -AAGCGTGCTGGCGACCGGAAAGCTGGACGCGCTGCGTAAGGTTGATGTGGGCGCGCAGGTCAGCGGTCAGTTGAA -AACTCTGTCGGTGGCGATTGGCGATAAAGTAAAAAAAGACCAGCTTTTAGGGGTTATTGATCCTGAACAGGCTGA -AAACCAGATTAAGGAGGTCGAAGCAACGCTGATGGAGCTACGTGCGCAGCGGCAGCAGGCGGAAGCGGAGCTGAA -ACTGGCGCGGGTGACGTATTCCCGTCAGCAACGTCTGGCACAAACGAAGGCTGTTTCACAGCAGGATCTCGACAC -CGCCGCGACGGAGATGGCTGTGAAACAGGCGCAAATTGGCACCATTGACGCGCAAATCAAGCGCAATCAGGCTTC -TCTCGATACGGCTAAAACCAATCTCGATTACACTCGCATCGTTGCCCCGATGGCCGGGGAAGTCACGCAAATCAC -CACTCTGCAAGGCCAGACGGTGATTGCCGCACAACAAGCACCGAACATTCTGACGCTGGCAGATATGAGCGCCAT -GCTGGTAAAAGCGCAGGTTTCTGAAGCGGATGTAATCCACCTGAAGCCGGGGCAAAAAGCCTGGTTTACGGTGCT -TGGCGATCCACTGACGCGCTACGAGGGGCAAATCAAGGATGTACTACCGACGCCGGAAAAGGTTAACGACGCTAT -TTTCTATTACGCCCGTTTTGAAGTCCCCAACCCCAATGGTTTGCTGCGGCTGGATATGACTGCGCAAGTGCATAT -TCAGCTCACCGATGTGAAAAATGTGCTGACGATCCCTCTGTCGGCGTTAGGCGATCCGGTTGGCGATAATCGTTA -TAAAGTCAAATTGTTGCGTAATGGTGAAACACGCGAGCGTGAAGTGACGATTGGCGCACGTAACGATACCGATGT -TGAGATTGTCAAAGGGCTTGAAGCGGGCGATGAAGTGGTGATTGGTGAGGCCAAACCAGGAGCTGCACAATGACG -CCTTTGCTCGAATTAAAGGATATTCGTCGCAGCTATCCTGCCGGTGATGAGCAGGTTGAGGTGCTGAAGGGCATC -AGCCTCGATATTTATGCGGGTGAGATGGTCGCGATTGTTGGCGCTTCGGGTTCCGGTAAATCGACCCTGATGAAT -ATTCTCGGCTGTCTGGATAAGGCCACCAGCGGCACCTATCGCGTCGCCGGTCAGGATGTTGCCACGCTGGACGCC -GATGCGCTGGCGCAACTGCGCCGCGAGCATTTCGGCTTTATTTTCCAGCGTTACCATTTGCTTTCGCATTTAACC -GCCGAGCAGAACGTTGAAGTACCCGCCGTCTATGCTGGTCTTGAGCGGAAACAGCGACTGCTTCGTGCCCAGGAG -TTGCTGCAACGGCTGGGGCTGGAAGACCGTACAGAGTATTATCCGGCACAGCTTTCGGGTGGTCAGCAACAGCGC -GTCAGCATCGCGCGGGCATTGATGAACGGTGGTCAGGTAATTCTTGCCGATGAACCAACCGGCGCACTGGACAGC -CATTCTGGCGAAGAGGTGATGGCGATCCTGCATCAGCTGCGCGATCGTGGGCATACGGTGATTATCGTCACCCAC -GATCCGCAGGTCGCTGCTCAGGCCGAGCGGGTGATCGAAATTCGCGACGGCGAAATTGTGCGCAATCCTCCCGCC -ATTGAAAAAGTGAATGTTACTGGCGGGACGGAACCTGTTGTCAACACGGTGTCTGGCTGGCGGCAGTTTGTCAGC -GGTTTTAACGAGGCGCTGACGATGGCATGGCGGGCGCTGGCAGCGAATAAAATGCGTACTTTACTGACCATGCTG -GGGATTATTATCGGTATTGCGTCGGTGGTTTCCATTGTCGTGGTGGGTGACGCCGCCAAACAAATGGTGCTGGCG -GATATTCGTTCTATTGGTACGAATACTATTGATGTCTATCCCGGGAAAGATTTTGGCGATGACGATCCGCAATAT -CAGCAGGCGCTGAAGTACGACGACTTAATCGCCATCCAAAAACAACCGTGGGTCGCCTCAGCCACACCTGCCGTC -TCGCAAAACCTGCGCCTGCGTTATAACAATGTTGATGTTGCTGCCAGTGCCAATGGCGTGAGCGGCGATTATTTT -AATGTCTATGGCATGACCTTCAGTGAAGGAAACACCTTTAATCAGGAGCAGCTGAACGGTCGTGCGCAGGTCGTG -GTTCTCGACAGTAATACTCGCCGCCAGCTTTTCCCCCATAAAGCAGATGTGGTTGGCGAGGTGATTCTGGTCGGC -AATATGCCCGCCAGAGTCATTGGTGTGGCGGAAGAAAAACAGTCGATGTTTGGTAGCAGTAAAGTGCTGCGTGTC -TGGCTACCTTACAGCACGATGTCCGGGCGAGTTATGGGCCAGTCGTGGCTTAACTCCATTACTGTCAGGGTGAAA -GAAGGATTTGACAGCGCCGAGGCGGAACAGCAACTCACGCGTTTACTTTCACTGCGCCACGGAAAGAAGGATTTC -TTTACCTGGAACATGGACGGCGTCTTGAAAACTGTTGAAAAGACCACACGTACTTTACAACTGTTTCTGACGCTG -GTGGCGGTGATTTCGCTGGTGGTGGGCGGTATTGGTGTAATGAATATTATGCTGGTGTCAGTGACCGAGCGGACG -CGGGAAATTGGCATTCGCATGGCTGTAGGTGCGCGAGCAAGCGATGTTTTGCAACAGTTCCTGATCGAAGCCGTA -CTGGTTTGCCTGGTCGGTGGCGCGTTGGGAATAACACTGTCACTGTTAATTGCTTTCACCTTGCAGCTTTTCTTA -CCCGGCTGGGAGATTGGTTTTTCACCGTTGGCGCTGCTGCTGGCGTTTCTCTGCTCGACGGTCACCGGGATTTTA -TTTGGCTGGTTACCCGCACGAAATGCGGCACGACTGGATCCAGTAGATGCTCTGGCACGAGAGTAATTTTTGAGA -TAAAAATGCCAGCCGATCGGGCTGGCATTTTGCCTTTAGGATGTACACAATGAGACAGAAGAGCTATGCGACTGC -CGCTTCTACTTCGACGGGCACAATAACACTGGCGTGATTGCCTTTTGGCCCCTGGTGGACATCAAACTGAACGGA -TTGTCCAGCTTTTAGCGTTCTGTAACCATCCATCTGAATGGTGGAATAATGAGCGAAAATATCTTCGCCGCCGCC -TTCAGGGCAGATGAAACCAAACCCTTTGGCATTGTTGAACCACTTAACAGTACCCTTTTCCATGCTTCGACATCC -TTCGCAAATCTTATACAAGTAAGATGGAATAAACCGGGGTCAGAGAGGGGGCTGTTCAAAACCTCGCCAACTCTA -GAAATACAATTTAGAGAATTAGGGCGAGCCGTCAAGCATTTGACAGGGGACAAGGGGCAGGTATGAATCAAAAAT -TTGAAGCAGTTAACGCTATTGACAGGAATGTGACAGATGTCGCTGATGCCAACGATAGATGATAGTTATCTATCA -TGTGGAGTAGATTGGTCAGGCAAATAAGCTCTTGTCAGCGGCAGGGCGTTCTGCCGATAACCGTAACCGAAGATG -ATAACTGACAATGGGTAAAACGAACGACTGGCTGGACTTTGATCAACTGGCGGAAGAAAAAGTTCGCGACGCGCT -AAAACCGCCATCTATGTATAAAGTGATATTAGTCAATGATGATTACACTCCGATGGAGTTTGTTATTGACGTGTT -ACAAAAATTCTTTTCTTATGATGTAGAACGTGCAACGCAATTGATGCTCGCTGTTCACTACCAGGGGAAGGCCAT -TTGCGGAGTCTTTACCGCCGAGGTTGCAGAAACCAAAGTGGCGATGGTGAACAAGTACGCGAGGGAGAATGAGCA -TCCATTGCTGTGTACGCTAGAAAAAGCCTGAATGCAGGCATAAAAATTGGGGGAGGTGCCTATGCTCAATCAAGA -ACTGGAACTCAGTTTAAATATGGCTTTCGCCAGAGCGCGCGAGCACCGTCATGAGTTTATGACCGTCGAGCACTT -GTTACTGGCGCTGCTCAGTAACCCATCTGCCCGGGAGGCGCTGGAAGCGTGTTCTGTGGATTTGGTTGCGCTCCG -TCAGGAACTGGAAGCCTTTATTGAACAAACCACACCCGTTCTGCCTGCCAGTGAAGAGGAGCGCGACACACAGCC -GACGCTGAGTTTTCAGCGTGTACTGCAACGTGCGGTCTTCCATGTCCAGTCCTCCGGTCGCAATGAGGTTACCGG -TGCAAACGTTCTGGTCGCTATCTTTAGCGAACAGGAGTCGCAGGCGGCATATCTGTTGCGTAAACATGAAGTCAG -CCGTCTCGATGTGGTGAACTTTATCTCTCATGGCACGCGTAAAGACGAGCCGACACAGTCTTCTGATCCTGGCAG -CCAGCCAAACAGCGAAGAACAAGCTGGTGGGGAGGAACGTATGGAGAATTTCACGACGAACCTGAATCAGCTTGC -GCGCGTGGGCGGAATCGACCCACTGATTGGTCGTGAGAAGGAGCTGGAGCGTGCTATTCAGGTTCTCTGCCGTCG -CCGTAAAAACAACCCGCTGCTGGTGGGGGAATCTGGTGTCGGTAAAACCGCGATTGCGGAAGGTCTTGCCTGGCG -AATTGTTCAGGGCGATGTGCCGGAAGTGATGGCTGACTGTACGATTTACTCTCTCGATATCGGTTCTCTGTTAGC -GGGCACAAAATATCGCGGCGACTTTGAAAAACGTTTTAAAGCGTTGCTCAAGCAGCTGGAGCAGGACACTAACAG -CATCCTGTTTATTGATGAGATCCACACCATTATCGGTGCGGGTGCAGCGTCTGGTGGTCAGGTCGATGCGGCTAA -CCTAATCAAACCGTTGCTCTCCAGCGGTAAAATTCGTGTAATTGGTTCGACAACCTATCAGGAGTTCAGCAACAT -TTTCGAGAAAGACCGTGCTCTGGCGCGTCGCTTCCAGAAAATTGATATTACTGAACCGTCGATCGAAGAAACTGT -TCAAATCATCAATGGCCTGAAACCGAAGTATGAAGCGCACCACGACGTGCGTTATACCGCAAAAGCGGTGCGTGC -GGCGGTAGAGCTGGCGGTGAAATACATTAACGATCGTCATCTGCCGGATAAAGCCATTGATGTTATCGACGAAGC -GGGCGCTCGCGCACGCCTGATGCCGGTAAGCAAACGCAAGAAAACCGTTAATGTGGCGGATATTGAGTCCGTGGT -GGCCCGTATTGCACGCATTCCAGAGAAGAGTGTTTCTCAGAGTGATCGTGATACCCTGAAAAACCTCGGCGATCG -CTTGAAAATGCTGGTCTTCGGTCAGGATAAAGCCATTGAGGCGCTGACTGAAGCCATTAAGATGGCGCGTGCAGG -TTTAGGTCACGAACATAAACCGGTTGGTTCGTTCCTGTTTGCCGGCCCTACCGGGGTCGGGAAAACAGAGGTGAC -GGTACAGCTTTCGAAAGCTTTGGGCATTGAGCTTCTGCGCTTTGATATGTCCGAGTATATGGAACGCCATACCGT -CAGCCGTCTTATTGGTGCGCCTCCGGGATACGTTGGTTTTGATCAGGGCGGTTTGCTGACTGATGCGGTCATCAA -GCATCCACATGCGGTGCTGCTGCTGGACGAAATCGAGAAAGCGCACCCGGACGTGTTCAATATTCTGTTGCAGGT -GATGGATAACGGTACGCTGACCGATAACAACGGACGCAAAGCAGACTTCCGTAACGTGGTGCTGGTGATGACCAC -CAACGCCGGGGTACGGGAAACTGAGCGCAAATCCATTGGTCTTATCCACCAGGATAACAGCACCGATGCGATGGA -AGAGATCAAGAAGATCTTTACACCGGAATTCCGTAACCGTCTCGACAACATTATCTGGTTTGATCATCTGTCAAC -CGACGTGATCCATCAGGTGGTGGATAAATTCATCGTCGAGTTGCAGGTTCAGCTGGATCAGAAAGGTGTTTCTCT -GGAAGTGAGCCAGGAAGCGCGTAACTGGCTGGCCGAGAAAGGTTACGACCGGGCAATGGGCGCTCGTCCGATGGC -GCGTGTCATCCAGGACAACCTGAAAAAACCGCTCGCCAACGAACTGCTGTTTGGTTCGCTGGTGGACGGCGGTCA -GGTCACCGTCGCGCTGGATAAAGAGAAAAATGAGCTGACTTACGGATTCCAGAGTGCACAAAAGCACAAGGCGGA -AGCAGCGCATTAATCTGATTGTTAGGTAGGTTGGTCAAGTCCGTAATCTCGAAAGAGGTTACGGACTTTTTGTTT -ATGGGGTGGAGGAGGTTCAGACCCTTTTTTTAATGATGATGGTAAGTTGTTGATAATTAGTGCTGCGGGAAGGTA -AGGATAAAAAAGGGTGCTGCAGGAGAATGGGATGGTTTTGCTTTATTAACAACGGGCTAAACGTGTAGTATTTGA -GTTCACTGCCGTACAGGCAGCTTAGAAATTCACAGGTAACATACTCCACCCGCCCACCATGTTCACTGCCGTACA -GACAGATAAAATGCGAAAAAAAAGCTCGCACTTTCGTACGAGCTCTTCTTTAAATATGGCGGTGAGGGGGGGATT -CGAACCCCCGATACGTTGCCGTATACACACTTTCCAGGCGTGCTCCTTCAGCCACTCGGACACCTCACCAAATTG -TTTTGCTACCAAACCTCATGGGTGGCAACGGGGCGCTACTATAGGGAGTTGGAGTAAAACGGTCAAGAAGAATTT -TAATGATAATTATTGTTTGCTCATACTGTAAACAAGTTGTGCAGTATATCTACATCGAGACAAGTTACGGACTTA -TACTTCCAAAGTACTTCATACATATCACAAAATAAAAAGGCCGGTTAAACCGACCTTTTACTCGTTCTTTCTCTT -CGCCCATCAGGCGGTAAAACAATCAGCGACTACGGAAGACAATGCGGCCTTTGCTCAGGTCGTACGGGGTCAGTT -CAACAGTCACTTTGTCGCCCGTCAGGATGCGGATGTAGTTTTTGCGCATTTTACCGGAGATGTGTGCAGTAACCA -CGTGACCGTTTTCTAACTCTACGCGGAACATGGTATTAGGCAACGTTTCAAGAACGGTACCTTGCATTTCAATAT -TGTCTTCTTTGGCCATCTAATCCTCTGGGGTATCACTACCGTAATTTGAACCGGCAAGATAATGCCGAAGTTCTG -TAAATAAGTAAAGATTTGCGCGCTAAATCGCAACAAACAGGTTCGGCACATTACTCCGAAAACACACGGCTAAGC -CGCACCAAAAGCGCAACGTATAAGGGAGCGGTGAGATAAACGATGGGCGTTACCTGACGCGAAAAATTCCTTATC -GGCAGCGGGGTAATGAGCGTAACCAACTCTGCGACCGCAATTATAACACTCTGGGGAGAAATGTGCCGAAAACAT -TCATTCTTGTGGTGAAAACAAGCATCGTGGTACCCAGAAATTATTCGGCAATCGTCCGAGGCGCATTTGATTGAG -ATAATTAAGGTAATCCCGGCGGGGAATTTCGCAGGCACCAAGCGATGCTGTGTGATCGTTAAGGACCTGGCAGTC -GATAAGCTTACCGCCATGACCGATAAATTCCTCACAGAATACCAGAAGCGCCGTTTTAGACGCATTTTCCATCCG -GCTGAACATGGACTCGCCACAAAATAGCGTTCCCTGGGCCACGCCGTACATACCGCCGACAAGCTCATCTTCACG -CCAGACTTCAATGGAGTGGGCATGGCCGAGTTCGTGAAGGCGATGGTAGGCTTCGACCACGCCACGCGTGATCCA -GGTTCCTTCTTCGCGATCGCTGGCACAGCCTTCAATGACCTGACCAAAAGCGTAATTCATCGTGACACGATAGGG -CGAGCGTTTATGAAATCGCTTCATACTACGGCTGATATGCAGTGATTCTGGCCATAGCACCGCGCGGGGATCGGG -CGACCACCAGAGGATGGGGTCGCCTGGAGAAAACCACGGAAAAATACCACGCTGGTAAGCCATTAACAGGCGCGC -AGGGCTAAGATCGCCCCCAAGTGCCAGCAGGCCGTTAGGCTCACGTAATGCGCCTTCCGGGGAAGGGAAGGCTAT -TGAATGGCGAGAAAGCTGAACCAGGCGCATGACCGCAAAACTCCACGCAAGTCGGATCGTTCAATAATAGCTTAC -AAACCCTGCTTGAACTGGTAATAACGCCCCTGTCTGGCAAGCAGTTCTGCGTGAGTACCTTGCTCAATAATTTGC -CCGTTGTCCATCACTATTATTTGTTGGAAACGAGAGAGTCCGCGAAGTCGATGGGTGACCATTAACACCGTTTTC -TCACGCATCATTTCTGCAAGCAATTCAAGGATCTGGCTTTCGGTTGTGGCATCTAAGCCTTCGGTAGGTTCATCC -AGCAACACCAGTGGCGCATCATGTAACAGCGCACGGGCGATAGCCAGACGGCGCAGTTCACCACCGGAGAGCTGG -CGTCCGCCTTCACCTAACCAACTGTTGAGACCTGCATCCTCGAGCAGCTTTTCCAGGCCAACGCGACGCAAGATC -TCCGACAGAGCCTCATCACTACTGCCAGGCGAGGCGAGTAAAAGATTATCACGCAGCGTGGCGCTAAACAGATGC -ACTCGCTGAGGAACAACGCTGATGGTCTGTCGTAGAGCCGCTTCATTCAGGCTGGCTATGGGGCTATCGTTAAGC -AAAATCTCGCCCTGTTGCGGGTCCCATGCGCGGGTCAGCTGTTGTAACAGTGTTGATTTGCCGCATCCGGTTCGC -CCGAGAATCGCTATATGTTCCCCGGCGTTTACCTGAAGAGAAATCCCTTTAAGTGCCTGTTGAGATTGCTCCGGA -TAAGTGAACTGAACATCCCGTAACGTCAGCGAAACGCGATCGGCAACACGAGTTTGGGTATCAGGAAAGGTGACC -TCCGGTTTTTGATCCGTTAAGTCAGAGATACGTACGGCAGAGGCAATGACTTGCCCCAGATGCTGAAATGCACCC -GTTACTGGTGCCAGTGCTTCAAACGCGGCTAACGCGCAGAAGACAAACAGGGCAATTAACGCGCCGGGTTGAGCA -TTGCCGCCAACGCCGCCAGACGCCATCCACAGCATCAGGATCACCGCTAACGCGCCAATGAGCAGCATTATCGCT -TGCGACAATGCGGTCAGTTCAGATTGACGGCGTTGCGCTTCCAGCCATTGAATTTCTGTATTCTCTAGTTGCGTG -CGATAACGATCGCTGGCACCAAAAATGGTCAGCTCAGCTTGCCCTTGCAGCCAGGCCGTCAGTTGTTGGCGATAC -TGTCCGCGAAGATGAGTCAGATTTTGCCCGGTGCTTTTTCCCGCACGATAAAACAGCGGTGGCATCAGGAAAAGC -GTCAGTAACATAATGCCGCCCAGCGTAAAGGCGAGGGTGAAATCAAGGAAACTTAACCCGATTGTCACCACCATA -ATCACCACAAAAGCGCCCACCAGCGGCGAGATAACGCGCAGGTAAAGATGATCGAGCGTATCAACATCCGCCACC -ACGCGATTGAGCAATTCGCCCTGACGATAGCGCGCCAGTCCGGCAGGGGAGAGGGGCAGCAATTTGCTGAAGGTG -TAAATGCGCAGATGCTGCAACACGCGGAAAGTCGCGTCGTGACTTACCAGACGTTCAAAATAGCGCCCGGCAGTA -CGGGTGATTGCTGCGCCACGCACGCCCGCAGCGGGTAGCATATAGTTGAAGCTGTACAGTCCGGCAACCCCCGCA -ACCGCTGAGGCCGAGAGGAACCAGCCGGAAAGTGTCAACAGACCGATACTGGCGAGCAGCGTCACAATTGCCAGC -ACAATACCAAGACTTAACATCCATTTATGACGTTTATACAGTGCCAGATAGGGTAGCAAAGCGCGCATTTAAATC -TCCTCCTGACGATGGGCCAGTAATGTGGCGAATGGGCCACCAGCCACACTTAATTCCGCGTAACGTCCTTGCTCA -ATAATCCGGCCATCCTGCATAACCCAAATGACATCCCAGTCAGCAAGATCTTCTAACTGGTGGGTGACCATTAAC -GTTGTCTGGCGCAGAGAGGCGGCATTCAGCGCCTCCATTACGCGCTGTTCACTGTGAGCATCAAGGCTGGCAGCG -GGTTCATCCAACAGTAATAGCGAACAGGGATTTAGTAACGCACGGGCCACCGCCACGCGCTGCGCCTGCCCCACG -GAAAGGCGGGCAGCCTGGTCGCCAACAGGCGTATCAACGCCTTGTGGGAGGAGCGGTAGAAACTCGCTGACCCAG -GCGTTATCCAGCGCTGCTTGTAATTCTTGTTCGCTGGCATCAGGTCGCGCCAGTAGTACGTTATCCCGCAATGTT -GCTGCCGGTAATTGTGGGTTTTGCCCAACCCAGGAGAGATGTTTACGCCATGATTCTGGTGATAAATCGCGTAAT -TCTATCCCGTTGATTCGTAGCGATCCCTGATATGAGAGAAAACCAGAAAGCGCGTTCAGCAGTGAGCTTTTACCT -GAACCGCTGCGACCAACCAACACCGCACGTTGGCCTGCTGGCAAAGTAAAGTTCAGCGGTCCGGCCAGCGTTTTA -CCTTCCGGCGACGTGATAAACAGCTCCTCGGCCTCAATGGTCACCGGATCGGTCGATGCTAATTCCGCCTCACCA -CGTTGCGGATGGGCGAGCGGGGTTTCCATAAACGTTTTCAGACTGTCAGCTGCGCCAACAGCCTGGGCTTTAGCA -TGATAAAACGTACCGAGATCGCGTAATGGCTGGAAAAACTCTGGCGCAAGGATCAGGGCCAGAAAACCCGCAGCC -AGCGTCACACCGGTATCGTAGTGACCAAAATCCAGCTCGCCGAGATAGGAAAAACCAAAGTAGACCGCCACCAGA -GCAATTGACAGCGAGGTAAAAAATTCGAGAATGCCGGAGGATAAAAACGCCAGCCGTAGCACTTCCATTGTCCGT -TGGCGGAAATCTTCCGAAGCAGAACGAATACTTTCAATTTCAGCTTCACCACGACCAAAAATACGCAATGTTTCC -ATGCCGCGCAGGCGATCGAGGAAATGCCCACTTAAGCGAGCAAGAGCGAGAAAGTTACGTCGGTTAGCATCGGCA -GCCCCCATTCCAACCAGCGCCATAAACAACGGAATTAACGGTGCAGTGCCCAGCAGAATGAGCGCCGCAGCCCAG -TTAGAGGGGAAGATTGCCACCACAATCAGCAACGGCACCGACACTGCCAGCGCCATTTGCGGCAGATAGCGTGCA -TAGTAATCATGCATATCGTCAATTTGCTCGAGTACCAGCGTCGCCCAGCTCCCCGCAGGTTTACCCTGAATCCAC -GCTGGCCCTGCTTGTTGCAGACGGTCGAGAACCTGACGGCGGATGGCAAAGCGGATATGCTGCCCGGCGTGATAA -CCCACCCGTTCGCGTAACCAGACCACCCATGCGCGCAGTACAAAGGTCAGAACCAGTAACGTAAAGGGAAGCAGC -AGGGCTTCACGGGGAATATTCTCCATAATCATATGTTGCAGAATTCGCGCCATGAACCAGGCCTGGGCAATGATC -AATATGCCGCTCACAAAGCCCAGCAGACGAGAAATATTCAGCCAACGTTGGGAGATGACGCTTTGCTGTTTTAAC -CAGCGGGTTAACTCTTTTTGACGAGATTTATTCATTGCACGCTTAGCAGGTGAGTTATCAGAATTATTTGCAGAG -CAATGTTACAACGGGGAAAAAATAAAGGCGACCCATAGTCGCATGGTGTCGCCTTCTTTACTTTTGTTACTGATT -TGTAAAATTATTTTGCGTCAGCTAAACCATCGAGGTAGCGTTCCGCATCAAGTGCTGCCATGCAGCCTGTACCGG -CCGAAGTAATGGCCTGGCGATAAATGTGATCCATCACGTCGCCTGCGGCAAAGACGCCAGGAATGCTGGTCTGGG -TGGCATTACCATGAATACCCGACTGTACTTTGATGTAGCCGTTTTCCAGTTCCAGCTGCCCTTCGAAAATCGCAG -TATTCGGGCTGTGACCGATAGCAACAAACAGACCGGCAACGTCGAGTGACTCGATGTTATCGCTGTTTTGCGTAT -CGCGCAGACGAACGCCAGTGACACCCATTTGATCGCCGGTCACTTCTTCCAGCGTACGGTTGGTGTGCAGAATGA -TGTTGCCGTTCTCCACTTTATCCATCAGGCGCTTAATGAGGATTTTTTCCGCGCGGAAACCGTCACGGCGGTGAA -TCAGATGCACTTCCGAAGCGATGTTAGACAGATACAGCGCCTCTTCAACCGCGGTATTGCCGCCGCCGATGACCG -CAACTTTCTGGTTGCGATAGAAGAAACCGTCGCAGGTTGCACAAGCAGAAACCCCACGGCCTTTAAAGGCTTCTT -CAGAGGGCAGGCCGAGATAGCGTGCAGAAGCTCCGGTGGCAATAATCAGCGCGTCGCAAGTGTATTCGCCGTTAT -CGCCATTCAGACGGAACGGACGGTTTTGCAGATCCACCTTGTTGATATGATCAAAAATGATCTCAGTTTCAAACT -TGGTGGCATGTTCGTGCATGCGCTCCATTAATAACGGACCGGTCAGATCGTTTGGATCGCCAGGCCAGTTTTCCA -CTTCCGTGGTGGTGGTCAGTTGGCCGCCTTTTTCCATGCCGGTAATCAGCACAGGTTGCAGGTTGGCGCGCGCCG -CGTAGACAGCAGCGGTGTATCCCGCCGGGCCTGAACCCAGGATAAGCAGTTTACTGTGTTTGGTCGTGCCCATGA -GATCCCCATAGTTGTTGGCAGACAATGGGCAGGATTGTAGGGAATTTACAGACGTAAAAAAAGAGTATGACGATT -TTGTTAACAATTTGTGCAATCGGCAGCATCGATAAGCAGGTCAAATTCTCCCGTCATTATCACCTCTGCTACTTA -AATTTCCCGCTTTATAAGCCGATTAAATGATGAATAAACGCCCCTGTTAATGAATATCTGGCATGTTGTACTAAA -AATCGATGTTTTGCTTTGACAATCCCCTGGTGTTTTGCGAAAACATTCGAGGAAGAAAAAAAACAGTATTCTTAT -ATGCGCATAACCATGCATGTAAATACCATGTTTACCGTGCTAGTGAAATCTACGTATGGCGTGGACAGACGCCAT -TCGTGATGTCGATAGCTGCCACAAGGCAACGGTCTTCTCACCGTAGACCCAGGCATTGCGCGCCGTGAATCTTCA -TGATTTCGGTCTATCGTGACGGGTAGCGACTCTGAACAGTGATGTTTCAGGGTCAGACAGGAGTAGGGAAGGAAT -ACAGAGAGACAATAATAATGGTAGATAGCAAGAAGCGCCCTGGCAAAGATCTCGACCGTATCGATCGTAACATTC -TTAATGAGTTGCAAAAGGATGGGCGTATTTCTAACGTCGAGCTTTCTAAACGTGTGGGACTTTCCCCAACGCCGT -GCCTTGAGCGTGTGCGTCGGCTGGAAAGACAAGGGTTTATTCAGGGCTATACGGCGCTGCTTAACCCCCATTATC -TGGATGCATCACTTCTGGTATTCGTTGAGATTACTCTGAATCGTGGCGCACCGGATGTGTTTGAACAATTCAATA -CCGCTGTACAAAAACTTGAAGAAATTCAGGAGTGTCATTTAGTATCCGGTGATTTCGACTACCTGTTGAAAACAC -GCGTGCCGGATATGTCAGCCTACCGTAAGTTGCTGGGGGAAACCCTGCTGCGTCTGCCTGGCGTCAATGACACAC -GGACATACGTTGTTATGGAAGAAGTCAAGCAGAGTAATCGTCTGGTTATTAAGACGCGCTAACACGGAACAGGTG -CAAAATCGGCGTATTTTGATTACACTCCTGTTAATCCATACAGCAACAGTACTGGGGTAACCTGGTACTGTTGTC -CGTTTTAGCATCGGGCAGGAAAAGCCTGTAACCTGGAGAGCCTTTCTTGAGCCAGGAATACATTGAAGACAAAGA -AGTCACATTGACAAAGTTAAGTAGCGGCCGCCGCCTTCTGGAGGCGTTGCTGATCCTTATTGTCCTGTTTGCCGT -CTGGTTGATGGCTGCCTTACTAAGCTTTAACCCTTCGGACCCCAGCTGGTCGCAAACGGCCTGGCATGAACCTAT -CCATAATTTAGGTGGGATGCCCGGTGCGTGGTTGGCAGATACGCTGTTCTTTATTTTTGGCGTGATGGCTTACAC -CATTCCCGTCATTATTGTCGGCGGTTGTTGGTTTGCCTGGCGTCATCAGTCCAGCGACGAATACATTGATTATTT -TGCCGTTTCGCTACGCATCATTGGCGTTTTGGCGCTCATCCTTACCTCCTGTGGTCTGGCGGCAATCAACGCTGA -CGATATCTGGTATTTTGCCTCCGGTGGCGTCATTGGCAGCTTACTAAGCACTACGCTACAACCACTGCTACACAG -TAGCGGGGGAACTATTGCGCTGCTCTGCGTTTGGGCAGCGGGCCTGACGTTGTTCACCGGTTGGTCATGGGTGAC -CATTGCTGAAAAACTCGGCGGCTGGATTTTAAACATTCTCACCTTCGCCAGTAATCGTACCCGTCGCGATGATAC -CTGGGTCGATGAAGATGAGTATGAAGACGACGAAGAGTATGAAGATGAAAATCACGGCAAACAGCATGAATCACG -CCGTGCCCGTATTCTTCGCGGCGCGCTAGCGCGTCGTAAACGGTTGGCGGAAAAATTCATTAATCCGATGGGGCG -GCAAACAGACGCTGCGTTGTTCTCCGGTAAGCGGATGGATGATGACGAAGAGATTACCTACACTGCACGCGGTGT -GGCTGCCGACCCGGACGACGTCCTATTTTCGGGCAATCGTGCAACGCAGCCAGAATATGACGAATACGATCCATT -ATTAAACGGTGCGCCAATTACCGAACCTGTCGCTGTAGCAGCTGCTGCTACCACGGCGACACAAAGCTGGGCTGC -GCCGGTTGAACCTGTGACTCAGACGCCGCCTGTTGCCTCTGTTGATGTTCCACCTGCGCAACCTACAGTAGCCTG -GCAGCCTGTACCGGGTCCACAAACGGGAGAGCCGGTTATTGCTCCTGCACCGGAAGGTTACCCACAGCAGTCACA -ATATGCGCAGCCTGCAGTGCAATATAATGAGCCGCTGCAACAACCAGTACAGCCGCAGCAGCCGTATTATGCACC -TGCAGCTGAACAACCTGCGCAACAGCCGTATTATGCCCCTGCGCCAGAACAACCGGTGGCAGGTAACGCCTGGCA -AGCCGAAGAGCAGCAATCCACTTTTGCTCCACAGTCTACATACCAGACTGAGCAAACTTATCAGCAGCCAGCCGC -TCAGGAGCCGTTGTACCAACAGCCGCAACCCGTTGAACAGCAGCCTGTTGTGGAGCCTGAACCCGTTGTAGAAGA -GACAAAACCCGCGCGTCCGCCGCTTTACTACTTTGAAGAAGTTGAAGAGAAGCGAGCCCGTGAACGTGAACAACT -TGCGGCCTGGTATCAACCGATTCCAGAACCGGTTAAAGAACCAGAACCGATCAAATCTTCGCTGAAAGCACCTTC -TGTTGCAGCAGTACCTCCAGTAGAAGCCGCTGCCGCTGTTTCCCCGCTGGCATCTGGCGTGAAAAAAGCGACACT -GGCGACGGGGGCTGCCGCAACCGTTGCCGCGCCAGTCTTCAGTCTGGCAAATAGCGGTGGACCGCGTCCTCAGGT -CAAAGAGGGGATTGGTCCGCAGTTGCCACGACCGAAACGTATCCGCGTGCCAACTCGTCGTGAACTGGCGTCTTA -CGGTATTAAGCTGCCCTCACAGCGTGCGGCGGAAGAAAAAGCCCGTGAAGCCCAGCGCAATCAGTACGATTCTGG -CGATCAGTACAACGATGATGAAATCGATGCGATGCAGCAGGATGAACTGGCACGTCAGTTCGCCCAGACACAGCA -GCAACGCTATGGCGAACAGTATCAACATGATGTGCCCGTAAACGCAGAAGATGCAGATGCTGCGGCAGAGGCTGA -ACTGGCTCGTCAGTTTGCGCAAACTCAACAACAACGTTATTCCGGCGAACAACCGGCTGGGGCGAATCCGTTCTC -GCTGGATGATTTTGAATTTTCGCCAATGAAAGCGTTGCTGGATGATGGTCCACACGAACCGTTGTTTACGCCAAT -TGTTGAACCTGTACAGCAGCCGCAACAACCGGTTGCACCGCAGCAGCAATATCAGCAGCCGCAACAACCAGTTCC -GCCGCAGCCGCAGTATCAGCAGCCACAACAGCCGGTTGCGCCGCAGCCACAATATCAGCAGCCGCAACAACCGGT -TGCGCCACAGCAGCAATATCAGCAGCCGCAACAACCGGTTGCGCCGCAGCAGCAGTATCAGCAGCCACAACAGCC -AGTTGCGCCACAACCGCAGGATACCCTGCTTCATCCGCTGTTGATGCGTAATGGCGACAGCCGTCCGTTGCATAA -ACCGACGACGCCGCTGCCTTCTCTGGATTTGCTGACACCGCCGCCGAGCGAAGTGGAGCCGGTAGATACCTTTGC -GCTTGAACAAATGGCTCGCCTGGTGGAAGCGCGTCTGGCTGATTTCCGTATTAAAGCCGATGTCGTCAATTACTC -TCCGGGGCCGGTTATCACTCGCTTTGAATTGAACCTGGCACCGGGCGTAAAAGCGGCGCGCATTTCTAACTTGTC -ACGGGACCTTGCCCGTTCACTTTCGACGGTGGCGGTGCGTGTCGTTGAAGTTATTCCTGGCAAACCCTATGTAGG -TCTGGAGTTACCGAATAAAAAACGACAAACCGTTTATCTGCGCGAAGTTTTGGATAACGCCAAATTCCGCGATAA -TCCGTCGCCATTAACCGTGGTGCTGGGTAAAGATATCGCCGGTGAGCCGGTGGTTGCCGATCTGGCGAAAATGCC -GCACTTGTTGGTTGCGGGGACTACCGGTTCCGGTAAATCTGTCGGTGTGAACGCGATGATCCTGAGCATGCTTTA -TAAAGCACAGCCAGAAGATGTGCGTTTCATCATGATCGACCCGAAAATGCTGGAGCTTTCGGTTTATGAAGGCAT -TCCGCATCTGTTAACGGAAGTCGTTACTGATATGAAAGATGCCGCCAACGCGCTGCGCTGGTGTGTTAACGAGAT -GGAGCGTCGGTATAAACTGATGTCTGCGCTGGGTGTGCGTAATCTGGCGGGTTATAACGAAAAAATTGCTGAAGC -CGATCGCATGATGCGTCCGATTCCAGACCCGTACTGGAAGCCGGGTGACAGTATGGATGCCCAGCATCCGGTGCT -GAAAAAAGAACCATACATTGTGGTGTTGGTTGACGAATTTGCCGACCTGATGATGACGGTAGGTAAAAAAGTGGA -AGAGCTGATAGCACGTCTGGCGCAAAAAGCCCGTGCCGCGGGTATCCACCTCGTACTGGCAACTCAGCGTCCATC -GGTTGATGTTATTACTGGTCTGATTAAAGCGAATATTCCGACCCGTATCGCCTTTACCGTATCCAGTAAGATTGA -CTCACGTACCATTCTTGATCAGGCTGGCGCGGAATCACTGCTGGGTATGGGGGATATGCTCTACTCTGGGCCGAA -CTCCACGTTGCCGGTACGTGTCCATGGTGCTTTTGTTCGCGATCAGGAAGTTCATGCCGTGGTGCAGGACTGGAA -AGCGCGTGGTCGCCCACAGTATGTTGATGGCATCACCTCCGACAGCGAAAGCGAAGGTGGTGCGGGTGGTTTCGA -TGGCGCTGAAGAACTGGATCCGTTGTTCGATCAGGCGGTGCAGTTTGTCACTGAAAAACGCAAAGCGTCAATTTC -TGGCGTACAGCGTCAGTTCCGCATTGGTTATAACCGTGCAGCGCGTATTATCGAACAGATGGAAGCGCAGGGGAT -TGTCAGCGAACAGGGGCACAACGGTAATCGTGAAGTGCTGGCCCCACCGCCGTTTGACTAACTAATGCATCGTAT -GCCGGATAAGGCGCGGTAGCGTCGCATCCGGCACTCTATCAACTGAAAATTCAGTATTTTCTTCTTTCCTCAAGC -TGATTATTAGCCTGGAATAGAGAGTAGAGGGAACTCCCGATCGGGAGTGACGTAATTTGAGGAATAATGATGAAA -AAAATTGCCATCACCTGTGCATTACTCTCAAGCTTAGTAGCAAGCAGCGTTTGGGCTGATGCCGCAAGCGATCTG -AAAAGCCGCCTGGATAAAGTCAGCAGCTTCCACGCCAGCTTCACACAAAAAGTGACTGACGGTAGCGGCGCGGCG -GTGCAGGAAGGTCAGGGCGATCTGTGGGTGAAACGTCCAAACTTATTCAACTGGCATATGACACAACCTGATGAA -AGCATTCTGGTTTCTGACGGTAAAACACTGTGGTTCTATAACCCGTTCGTTGAGCAAGCTACGGCAACCTGGCTG -AAAGATGCCACCGGTAATACGCCGTTTATGCTGATTGCCCGCAACCAGTCCAGCGACTGGCAGCAGTACAATATC -AAACAGAATGGCGATGACTTTGTCCTGACGCCGAAAGCCAGCAATGGCAATCTGAAGCAGTTCACCATTAACGTG -GGACGTGATGGCACAATCCATCAGTTTAGCGCGGTGGAGCAGGACGATCAGCGCAGCAGTTATCAACTGAAATCC -CAGCAAAATGGGGCTGTGGATGCAGCGAAATTTACCTTCACCCCGCCGCAAGGCGTCACGGTAGATGATCAACGT -AAGTAGAGGCACCTGAGTGAGCAATCTGTCGCTCGATTTTTCGGATAATACTTTTCAACCTCTGGCCGCGCGTAT -GCGGCCAGAAAATTTAGCACAGTATATCGGCCAGCAACATTTGCTGGCTGCGGGGAAGCCGTTGCCGCGCGCTAT -CGAAGCCGGGCATTTACATTCTATGATCCTCTGGGGGCCGCCGGGTACCGGCAAAACAACTCTCGCTGAAGTGAT -TGCCCGCTATGCGAACGCTGATGTGGAACGTATTTCTGCCGTCACCTCTGGCGTGAAAGAGATTCGCGAGGCGAT -CGAGCGCGCCCGGCAAAACCGCAATGCAGGTCGCCGCACTATTCTTTTTGTTGACGAAGTTCACCGTTTCAACAA -AAGCCAGCAGGATGCATTTCTGCCACATATTGAAGACGGCACCATCACTTTTATTGGCGCAACCACTGAAAACCC -GTCGTTTGAGCTTAATTCGGCACTGCTTTCCCGTGCCCGTGTCTATCTGTTGAAATCCCTGAGTACAGAGGATAT -TGAGCAAGTACTAACTCAGGCGATGGAAGACAAAACCCGTGGCTATGGTGGTCAGGATATTGTTCTGCCAGATGA -AACACGACGCGCCATTGCTGAACTGGTGAATGGCGACGCGCGCCGGGCGTTAAATACGCTGGAAATGATGGCGGA -TATGGCCGAAGTCGATGATAGCGGTAAGCGGGTCCTGAAGCCTGAATTACTGACCGAAATCGCCGGTGAACGTAG -CGCCCGCTTTGATAACAAAGGCGATCGCTTTTACGATCTGATTTCCGCACTGCATAAGTCGGTACGTGGTAGCGC -ACCCGATGCGGCGCTGTACTGGTATGCGCGAATTATTACCGCTGGTGGCGATCCGTTATATGTCGCGCGTCGCTG -TCTGGCGATTGCGTCTGAAGACGTCGGTAATGCCGATCCACGGGCGATGCAGGTGGCAATTGCGGCCTGGGATTG -CTTTACTCGCGTTGGCCCGGCGGAAGGTGAACGCGCCATTGCTCAGGCGATTGTTTACCTGGCCTGCGCGCCAAA -AAGCAACGCTGTCTACACTGCGTTTAAAGCCGCGCTGGCCGATGCTCGCGAACGCCCGGATTATGACGTGCCGGT -TCATTTGCGTAATGCGCCGACGAAATTAATGAAGGAAATGGGCTACGGGCAGGAATATCGTTACGCTCATGATGA -AGCAAACGCTTATGCTGCCGGTGAGGTTTACTTCCCGCCGGAAATAGCACAAACACGCTATTATTTCCCGACAAA -CAGGGGCCTTGAAGGCAAGATTGGCGAAAAGCTCGCCTGGCTGGCTGAACAGGATCAAAATAGCCCCATAAAACG -CTACCGTTAATGTTATCGTTGCGGTAATGTTGTTACTGTATCCCTGTGGTCGCAGGCTGTGGCCACATCTCCCAT -TTAATTCGATAAGCACAGGATAAGCATGCTCGATCCCAATCTGCTGCGTAATGAGCCAGACGCAGTCGCTGAAAA -ACTGGCACGCCGGGGCTTTAAGCTGGATGTAGATAAGCTGGGCGCTCTTGAAGAGCGTCGTAAAGTATTGCAGGT -CAAAACGGAAAACCTGCAAGCGGAGCGTAACTCCCGATCGAAATCCATTGGCCAGGCGAAAGCGCGCGGGGAAGA -TATCGAGCCTTTACGTCTGGAAGTGAACAAACTGGGCGAAGAGCTGGATGCAGCAAAAGCCGAGCTGGATGCTTT -ACAGGCTGAAATTCGCGATATCGCGCTGACCATCCCTAACCTGCCTGCAGATGAAGTGCCGGTAGGTAAAGACGA -AAATGACAACGTTGAAGTCAGCCGCTGGGGTACCCCGCGTGAGTTTGACTTTGAAGTTCGTGACCACGTGACGCT -GGGTGAAATGCACTCTGGCCTCGACTTTGCAGCTGCAGTTAAGCTGACTGGTTCCCGCTTTGTGGTAATGAAAGG -GCAGATTGCTCGCATGCACCGCGCACTGTCGCAGTTTATGCTGGATCTGCATACCGAACAGCATGGCTACAGTGA -GAACTATGTTCCGTACCTGGTTAACCAGGACACGCTGTACGGTACGGGTCAACTGCCGAAATTTGCTGGCGATCT -GTTCCATACTCGTCCGCTGGAAGAAGAAGCAGACACCAGTAACTATGCGCTGATCCCAACGGCAGAAGTTCCGCT -GACTAACCTGGTGCGCGGTGAAATCATCGATGAAGATGATCTGCCAATTAAGATGACCGCCCACACCCCATGCTT -CCGTTCTGAAGCCGGTTCATATGGTCGTGACACCCGTGGTCTGATCCGTATGCACCAGTTCGACAAAGTTGAAAT -GGTGCAGATCGTGCGCCCAGAAGACTCAATGGCGGCGCTGGAAGAGATGACTGGTCATGCAGAAAAAGTCCTGCA -GTTGCTGGGCCTGCCGTACCGTAAAATCATCCTTTGCACTGGCGACATGGGCTTTGGCGCTTGCAAAACTTACGA -CCTGGAAGTATGGATCCCGGCACAGAACACCTACCGTGAGATCTCTTCCTGCTCCAACGTTTGGGATTTCCAGGC -ACGTCGTATGCAGGCACGTTGCCGCAGCAAGTCGGACAAGAAAACCCGTCTGGTTCATACCCTGAACGGTTCTGG -TCTGGCTGTTGGTCGTACGCTGGTTGCAGTAATGGAAAACTATCAGCAGGCTGATGGTCGTATTGAAGTACCAGA -AGTTCTGCGTCCGTATATGAACGGACTGGAATATATTGGCTAATACCCAATTTTTCTGAATCTAAAAAGCGCCTG -CGGGCGCTTTTTTTGTCTCCCTTTGATACCGAACAATAATTACTCCTCACTTACACGTAATACTACTTTCGAGTG -AAAATCTACCTATCTCTTTGATTTTCAAATTATTCGATGTATACAAGCCTATATAGCGAACTGCTATAGAAATAA -TTACACAATACGGTTTGTTACTGGAATCAATCGTGAGCAAGCTTGAGTGAGCCATTATGAAAACGAAAATCCCTG -ATGCGGTATTGGCTGCTGAGGTGAGTCGCCGTGGTTTGGTAAAAACGACAGCGATCGGCGGCCTGGCAATGGCCA -GCAGCGCATTAACATTACCTTTTAGTCGGATTGCGCACGCTGTCGATAGCGCCATTCCAACAAAATCAGACGAAA -AGGTTATCTGGAGCGCCTGTACAGTTAACTGTGGTAGTCGCTGCCCGCTACGTATGCACGTCGTGGACGGTGAAA -TCAAATATGTCGAAACGGACAATACCGGCGATGACAATTACGACGGCCTGCACCAGGTTCGCGCCTGCCTGCGTG -GGCGTTCCATGCGTCGCCGTGTCTACAATCCGGACCGCCTGAAATATCCGATGAAACGAGTCGGGGCGCGCGGTG -AAGGCAAATTCGAGCGCATTAGCTGGGAAGAAGCCTACGACATCATCGCGACCAATATGCAGCGCCTGATCAAAG -AGTACGGCAACGAGTCTATCTATCTGAACTATGGCACCGGTACGCTGGGCGGCACCATGACCCGCTCCTGGCCGC -CGGGAAATACCCTGGTCGCGCGGCTGATGAACTGCTGCGGCGGCTATCTGAACCATTACGGCGACTACTCCTCCG -CGCAAATTGCGGAAGGTTTGAACTATACCTACGGCGGCTGGGCAGATGGCAACAGCCCGTCGGATATCGAAAACA -GTAAGCTGGTAGTGCTGTTTGGTAATAACCCTGGCGAAACGCGAATGAGTGGCGGTGGGGTGACTTACTATCTTG -AACAGGCACGCCAGAAATCTAATGCCCGCATGATCATCATCGATCCGCGCTATACCGACACCGGTGCCGGGCGCG -AAGATGAGTGGATCCCTATTCGTCCGGGAACAGATGCCGCACTGGTTAACGGTCTGGCGTACGTCATGATCACTG -AAAACCTGGTGGATCAGGCATTCCTCGATAAATATTGCGTTGGCTACGATGAGAAAACCCTGCCAGCCAGTGCGC -CGAAAAATGGCCACTATAAAGCTTATATTCTGGGTGAAGGGCCAGATGGCGTGGCTAAAACGCCGGAATGGGCCT -CGCAAATCACTGGTGTTCCGGCAGACAAAATCATCAAATTGGCTCGTGAAATCGGTAGTACCAAACCGGCGTTTA -TCAGCCAGGGATGGGGCCCGCAGCGTCACGCTAACGGTGAAATCGCAACCCGTGCTATCTCGATGCTGGCGATTC -TGACCGGTAACGTTGGTATTAACGGAGGCAACAGCGGCGCGCGTGAAGGTTCATACAGCTTACCGTTTGTCCGTA -TGCCGACCTTGGAAAACCCGATCCAGACCAGCATTTCGATGTTTATGTGGACCGATGCCATTGAACGTGGCCCGG -AAATGACGGCGCTGCGTGATGGTGTACGCGGGAAAGATAAGCTGGATGTGCCGATCAAAATGATCTGGAACTATG -CCGGTAACTGCCTGATTAACCAGCATTCTGAAATCAACCGTACCCATGAAATCCTTCAGGATGATAAGAAGTGCG -AGCTGATTGTGGTTATCGACTGCCACATGACCTCATCGGCGAAATATGCTGACATCCTGCTGCCTGACTGCACCG -CTTCCGAACAGATGGACTTTGCGCTGGATGCATCCTGCGGGAATATGTCTTACGTGATTTTCAACGATCAGGTGA -TTAAACCGCGCTTTGAATGTAAGACCATCTATGAAATGACCAGCGAACTGGCAAAACGTCTTGGCGTTGAGCAAC -AGTTTACTGAAGGCCGTACCCAGGAAGAGTGGATGCGGCATCTGTATGCCCAGTCGCGGGAAGCGATTCCTGAAC -TGCCAACGTTTGAAGAGTTCCGCAAGCAGGGGATCTTTAAAAAGCGCGACCCACAAGGGCATCACGTTGCTTATA -AAGCCTTCCGTGAAGATCCGCAGGCAAACCCACTGACTACGCCATCGGGCAAAATTGAGATTTATTCGCAGGCGC -TGGCTGACATTGCCGCTACCTGGGAATTGCCTGAAGGCGATGTGATCGATCCACTGCCGATCTACACGCCGGGCT -TTGAAAGTTATCAGGATCCGCTGAACAAACAGTATCCGCTGCAGCTTACAGGTTTCCACTATAAATCTCGCGTTC -ACTCAACTTACGGCAACGTTGATGTGCTGAAAGCGGCTTGCCGTCAGGAAATGTGGATCAACCCGCTTGATGCCC -AAAAACGCGGTATCCACAACGGCGATAAAGTCAGGATCTTTAACGATCGTGGTGAGGTTCATATTGAGGCGAAAG -TGACGCCACGAATGATGCCGGGTGTGGTCGCACTGGGTGAAGGTGCCTGGTATGACCCGGATGCAAAACGTGTCG -ATAAGGGTGGTTGTATTAACGTACTGACCACTCAACGTCCGTCTCCTCTCGCTAAGGGGAATCCGTCACATACAA -ACCTTGTTCAGGTTGAAAAGGTGTAAGGAGTAACCGATGACAACCCAGTATGGATTTTTTATTGATTCCAGCCGT -TGCACCGGTTGCAAAACCTGCGAGCTGGCCTGTAAAGACTACAAAGATTTGACGCCAGAAGTCAGCTTCCGCCGC -ATTTATGAATATGCTGGCGGCGACTGGCAGGAAGATAACGGTGTCTGGCACCAGAACGTGTTTGCCTACTATCTG -TCGATTTCATGTAACCACTGCGAAGATCCGGCTTGTACTAAAGTCTGCCCGAGCGGTGCGATGCATAAACGTGAA -GATGGTTTTGTTGTGGTCGATGAAGATGTGTGCATTGGCTGCCGCTACTGCCATATGGCTTGCCCGTATGGCGCA -CCGCAATATAACGAAACGAAAGGCCATATGACCAAATGCGATGGTTGTTATGACCGTGTTGCGGAGGGTAAAAAG -CCGATCTGTGTTGAATCTTGTCCGCTGCGGGCGCTGGATTTCGGCCCTATCGACGAGCTGCGTAAAAAACATGGC -GATCTGGCGGCCGTTGCGCCGTTGCCGCGAGCTCACTTTACCAAACCGAATATTGTGATCAAACCCAATGCCAAT -AGCCGCCCGACCGGGGATACCACTGGCTATCTGGCAAACCCGAAGGAGGTGTGAGATGGGAAGTGGATGGCATGA -ATGGCCGCTGATGATCTTCACGGTCTTCGGGCAATGTGTAGCAGGTGGTTTTATCGTTCTGGCTTTGGCGCTGCT -CAAAGGCGACCTGCGAGCAGAAGCCCAGCAGCGTGTTATCGCCTGCATGTTTGGTTTATGGGTGCTGATGGGCAT -TGGCTTTATCGCCTCTATGCTCCATCTTGGTTCACCAATGCGCGCTTTTAACTCGCTCAACCGGGTAGGGGCTTC -AGCACTCAGTAACGAAATCGCCAGCGGTTCGATCTTTTTTGCCGTAGGCGGCATCGGCTGGTTGCTGGCAATGCT -GAAAAAGCTGTCACCGGCATTGCGTACGCTGTGGCTGATAGTGACGATGGTTCTTGGCGTCATCTTTGTCTGGAT -GATGGTGCGTGTGTATAACAGCATTGATACCGTTCCGACCTGGTACAGCATCTGGACGCCGATGGGCTTCTTCCT -GACGATGTTTATGGGCGGCCCGTTACTGGGTTACCTGTTGTTGAGTCTGGCTGGCGTCGATGGCTGGGCGATGCG -TCTGCTGCCAGCAATTTCTGTACTGGCACTGGTAGTGAGTGGCGTGGTGTCAGTGATGCAGGGCGCAGAGCTGGC -GACTATTCATAGTTCTGTGCAGCAGGCCGCAGCGCTGGTGCCGGACTATGGTGCGCTGATGTCCTGGCGGATCGT -GCTTTTGGCCGTTGCCCTGTGCTTGTGGATTGCACCACAGCTAAAAGGTTATCAGCCTGCGGTTCCGCTACTTTC -TGTATCATTCATTCTGCTTCTGGCAGGGGAATTAATCGGTCGCGGCGTATTCTATGGTTTGCATATGACCGTGGG -GATGGCCGTCGCAAGCTAATCATAACAACCGGGGTTTCGGCCCCGGTTCTCTTTTATTTCTGCTTCGTTAACGTG -TCATAACTGGTCATCAAATTACGATAATCAGGAATGTGGTTAGAGAACAACGTCGCCAGTCCTTCAATATCATTA -CGCCAGTCGCGATGCAGCTCGCACGCCACGCCGAACCATGTCATCAATTGCGCACCAGCTTGCGACAAGCGATCC -CATGCCGAATGCCGGGTAATTTCATTAAAGGTCCCTGACGCGTCAGTCACGACAAAGACGTCAAACCCTTCTTCA -ATGGCTGAAAGCGCCGGGAATGCCACGCAAACTTCGGTTACCACACCGGCAATAATTAACTGTTTTTTACCTGTC -GCTTTGACAGCTTTTACAAAATCTTCGTTATCCCAGGCGTTAATATTTCCCGGGCGAGCAATGTAAGGTGTATCG -GGGAATTGTGCTTTCAGTTCTGGAACTAATGGGCCGTTAGGACCGGTTTCAAAACTGGTGGTAAGAATAGTTGGT -AAGTTGAAATACTTAGCCAGGTCACCCAGCGCCAGCACGTTATTTTTAAACTTATCGGGTTCGATATCCCGTACA -AGGGAAAGTAAACCAGCCTGGTGATCAACAAGCAAAACGGCAGCATCATTTTTATCAAGACGAACATACGGTTTG -GTCATCCTCTTCTCCTTTCGAGAGTCAGTGGTACGTCTGAAATCGATCAGACGCGATGCATTGCTCTGAAAGCAT -AGACGGGAAATATGAGTTTGCTGTGACCATGAAATTTTTCGACTGAACGAAGCGTATGAAATTTGTGTTAGTTCA -ATAAAAACAATCAGATGAGACTAATCATCTCTTCAGCATTAGCGTTATGAATGAGTAATATAAATCGATAATACC -GCCGCTGGGATATCGCGTATTTTCACCCATTGACAATGTTTTTGGCGGTGGCATGATGCGCATGAAATTTGAACT -TCCTCACGGTTTTAATTCATGTCCACGTATACCCAGCCTGTCATGCTTTTGCTGTCTGGCCTGCTTTTGTTGACT -CTGGCGATTGCGGTGTTAAATACACTCGTGCCGCTTTGGCTCGCCCAGGAACACATGTCCACATGGCAGGTAGGC -GTTGTCAGCTCATCCTATTTTACCGGCAACCTTGTCGGTACATTGCTGACAGGGTATGTCATTAAGCGCATTGGC -TTTAACCGCAGCTATTATCTGGCCTCCTTCATTTTTGCCGCTGGCTGTGCCGGCCTTGGCCTGATGATTGGATTC -TGGAGCTGGTTGGCTTGGCGTTTTGTCGCGGGCGTCGGCTGTGCCATGATTTGGGTGGTTGTTGAGAGCGCGCTG -ATGTGCAGTGGGACGTCACGTAACCGTGGGCGTTTGCTTGCTGCGTATATGATGGTTTATTACGTGGGAACGTTT -TTAGGCCAGTTACTGGTCAGCAAAGTTTCAACCGAGCTGATGTCCGTATTGCCGTGGGTTACAGGTTTGACGTTG -GCAGGGATCTTACCGCTGTTGTTTACGCGTGTGCTGAATCAGCAGGCTGAAAACCATGATTCGACGTCAATTACG -TCAATGCTAAAACTCCGTCAGGCGCGGCTTGGCGTGAATGGCTGCATTATCTCAGGAATCGTTCTGGGATCTCTA -TATGGCCTGATGCCGCTGTACCTCAATCACAAAGGGGTGAGCAATGCCAGCATTGGTTTCTGGATGGCGGTACTG -GTCAGTGCGGGTATCCTTGGACAATGGCCGATTGGACGTCTGGCGGATAAGTTTGGTCGACTGCTGGTGTTGCGT -GTTCAGGTCTTTGTCGTCATTCTCGGCAGTATCGCGATGCTTAGCCAGGCGGCGATGGCCCCAGCGTTATTCATC -CTCGGTGCCGCTGGCTTTACGCTATATCCGGTGGCGATGGCATGGGCTTGCGAGAAAGTTGAACATCATCAACTG -GTGGCGATGAACCAGGCCTTACTGTTGAGCTATACTGTGGGAAGTCTGCTTGGCCCGTCATTTACCGCTATGCTA -ATGCAGAATTTCTCCGATAATTTATTGTTTATCATGATCGCCAGCGTATCGTTTATCTATTTGCTGATGCTGCTG -CGCAACGCCGGTCATACGCCGAAACCCGTTGCTCACGTGTAAATGAATTCAAGCAGAGTGTGAACTTACTGTTTC -ACACTCTGCTTTTTTGTTTCTTCTATCTGACTTGCTTTATTCCAAATTTTATTCGTTTAAAAATAAAATGTGCAG -CAGGTTATAATTTTGCATTTCGCTATTTCCGCACTTCTTATTTGCCGCGCATAATCCCTCGTTTTACCGATGCCC -CTTTAATTTTGGCGAAGGATTTGTCTATGGCTGGGAATGTTCAGGAAAAACAGTTGCGATGGTACAACATTGCGC -TGATGTCTTTTATCACTGTCTGGGGTTTTGGCAACGTTGTTAATAACTATGCCAACCAGGGGCTGGTGGTTGTTT -TTTCATGGGTGTTTATCTTTGCACTCTATTTCACACCTTATGCGCTAATTGTTGGTCAGTTAGGCTCGACCTTCA -AAGATGGGAAGGGCGGGGTCAGTACCTGGATTAAACACACGATGGGACCCGGACTGGCTTATCTCGCCGCGTGGA -CCTACTGGGTGGTGCATATTCCCTATCTGGCACAAAAACCCCAGGCAATTCTGATTGCGCTCGGTTGGGCGATGA -AAGGCGACGGTTCGCTAATCAAAGAATATTCAGTCGTAGCGTTACAGGGGTTAACGCTGGTGCTGTTTATCTTCT -TTATGTGGGTTGCTTCACGCGGTATGAAATCGCTGAAAATCGTCGGTTCTGTGGCAGGGATTGCTATGTTTGTTA -TGTCACTCCTGTATGTGGCGATGGCGGTAACCGCGCCTGCAATTACTGAAGTGCATATTGCGACCACAAACATTA -CCTGGGAAACGTTCATTCCTCATATCGACTTTACCTACATTACCACTATTTCAATGCTGGTTTTCGCGGTTGGCG -GAGCAGAGAAGATTTCTCCTTACGTTAATCAAACGCGCAACCCAGGAAAAGAATTTCCAAAAGGGATGTTATGCC -TGGCGGTGATGGTTGCGGTTTGTGCCATTCTGGGCTCGCTGGCGATGGGGATGATGTTTGATTCGCGTAATATCC -CGGATGACTTAATGACCAACGGTCAGTATTACGCCTTTCAGAAGCTGGGCGAGTATTACAACATGGGTAATACTT -TAATGGTGATTTACGCCATTGCGAATACCCTGGGACAAGTAGCGGCGCTGGTATTCTCGATTGATGCCCCGCTTA -AAGTGCTATTAGGTGATGCTGACAGCAAATATATTCCAGCCAGTTTATGTCGTACCAACGCTTCTGGTACGCCCG -TTAATGGCTATTTTCTGACCCTGGTACTGGTGGCGATTCTGATTATGCTGCCGACTCTCGGCATTGGTGATATGA -ACAATCTCTATAAATGGCTGTTGAACCTTAATTCGGTAGTGATGCCGCTGCGTTATTTATGGGTATTTGTTGCAT -TTATTGCAGTCGTTCGCTTGGCGCAGAAATATAAACCAGAATATGTCTTTATTCGTAATAAGCCTCTGGCAATGA -CCGTCGGGATTTGGTGTTTTGCCTTTACCGCCTTTGCCTGTTTGACGGGGATCTTCCCGAAAATGGAAGCCTTCA -CTGCAGAGTGGACCTTCCAGTTGGCGCTGAATGTTGCAACGCCGTTTGTGCTGGTAGGATTAGGACTGATATTCC -CGCTGCTGGCGCGTAAAGCGAATAGTAAATAATTATTGTGGTCGGTGACGCTGACTCTGGCAGATCTGACCCGTT -TTTACATAATCGAGAAATGCGCGCAAGCCGCAGGACATATACTGGCGGTTTGGATAATAGATCTGGAAGCCTGGA -CGCTCTGTGCTCCAGTCTTCCAGTACACATTCTAAACGACCAGTATCAAGGTACTCCTTGATCTGTTCATAGAGC -AGATACCCGATACCAGCACCCATCAAAACGGCCTCCAGTTCAGCATCAACATCATCCAGAATGATATTTCCTGCG -ACAGCAATTTCCAGCTCCTTTGCAAATTGCCAGTGGAAAGGTTTGCCGCTGGGATAACGAAAAACAACACATTGA -TGATTAAGCAGATCATGAGGATGGCGGGGTTTGCCATATCTTGCAAAGTACTCTGGCGTTGCTGCTACACATAAT -TTCACTGGCGGGCCGATCGCCACGCTGATCATATCTTTTTCGACGATGCAACTAAGTCGAACGCCAGCGTCAAAG -CCCTGTTGGACGATATCGACAAGAGAGTCGTCAGTTGTGAGCTCGACTTTAATATCAGGATATTCACGTGTGAAA -CCAACCAGTAAAGACATTAAAAATATACGTGCAGCTACCCGGGCGGCATTGATTTTGAGCGTTCCTGTCGGTGTC -AGACGAAAATCATTCATCTCATCTAACATGATCTGAATTTCGTCGAAAGCTGGGCGCAATCGTTCATAGAGATTA -GAACCCGCTTCCGTTAACGATACGCTTCGGGTTGTCCGATTGAATAAGCGAATTTTAAGACGTTGTTCCAGTGTT -TTAATACTATGGCTAATGGCGGACGAGGATAAGCCTAACTCATCGCCCGCTGCACGAAAGCTTTGATTACGGGCC -ACGGCAAAGAAAGTGGCAAAGTCAGACATATTCATCCGCATTAGTGAAAATCCTTCATTAACTCATCCTGAATCA -TCACGTTTACAGGATTATGCCGCCTGCGTAAAGTGCGCTCCAGAACTTAACGTGGAGGTAAAATTATGCAGTCTG -AACGTATTTATTTGGTATGGGCCCATCCTCGTCATGATTCATTGACCGCACATATTGCTGATGCGATCCATCAGC -GGGCAATGGAGCGGAAAATACAGGTGACGGAACTCGATTTATATCGGCGTAATTTCAACCCAGTGATGACGCCGG -AAGATGAACCAGACTGGAAGAATATGGATAAACGTTATTCTCCAGAGGTTCATCAGCTTTATTCAGAGCTGCTTG -AACATGACACGTTAGTGGTGGTTTTTCCTCTCTGGTGGTACAGCTTCCCGGCAATGCTAAAAGGATATATTGACA -GAGTATGGAATAATGGGCTGGCTTATGGAGATGGGCACAAATTACCATTCAATAAAGTTCGTTGGGTGGCGCTGG -TTGGAGGAGACAAAGAATCATTTGTCCAGATGGGCTGGGAAAAAAATATAAGCGATTATTTAAAAAATATGTGCA -GTTATCTTGGTATTGAAGATGCCGATGTCACTTTCTTGTGTAATACAGTGGTATTCGATGGGGAAGAACTTCACG -CGAGCTATTATCAGTCGTTATTATCTCAGGTACGGGATATGGTAGATGCACTATAAGATGTGTTAAAAACGCTGT -AGCAGAATGAAGCGCGGAATAAAAAAGCGGCAACTCAATAAAGTTGCCGCTTTACGGGGAAATTAGAACATTACC -TTATGACCGTACTGCTCAAGAATGCCTTTCACGCGTTCCATGGTCTCTTTCTTCGGTGGTTTAACACCGTCGAGT -TTGTACTCTTCACCCATTGCCACCCATTTGTGTTTGCCCAGCTCGTGGTAGGGGAGAAGCTCGATTTTCTCAACG -TTGCCCATATCACGGGTAAATTCACCGAGGCGATGCGCTGAATCGTCATCGTCAGACCAGCCTGGGACAACAACG -TAGCGGATCCACACCTTCACATTTTTGTTCGCCAGATATTTAGCGAACTCCAGCGTGCGGTGGTTGGAAACTCCA -ACCAGATTTTGGTGGATCTCGTCGTTCATCTGTTTGAGATCGAGCATTACCAGGTCGGTTACTTCCAGCAGTTCA -TCAATCACCGGATCGTAACGACGAACAAAACCGTTGGTGTCCAGACAGGTATGAATGCCTTCTTTTTTGCAGGCG -CGGAACCAGTCACGAACAAACTCAGCTTGCAGGATTGCTTCACCGCCGGATGCGGTAACGCCGCCGCCGGAAGCG -TTCATAAAGTGGCGATAGGTCACCACTTCCTTCATCAAATCTTCAACGGTAACTTCTTTACCGCCATGCGTGTCC -CAGGTGTCGCGGTTATGACAATACAGGCAGCGCATCAGGCAGCCCTGGAAAAAGGTGATAAAGCGAATACCTGGG -CCGTCTACGGTTCCACAGGATTCAAAGGAGTGAATGCGACCAATAACTGACATTGCGGTGTTTCTCCAGATGTGG -CCCATCTGAGGCCGTGTTGGTGCGCAGCTCGAAGGCTACGTCGAGTCTGTTTTGGCAGTCACCTTAAAGTATAGA -TAGCTGACAAAAAAGGCTCTCGCGCTAAAAAAGGCCCCACTTTCGTGGAGCCTTTATTGTACGCTTTTTACTGTA -CGATTTCAGTCAAATCTAATTACATAGATTGAGTGAAGGTACGAGTAATAACGTCCTGCTGCTGTTCTTTAGTCA -GCGAGTTGAAACGTACTGCGTAGCCAGATACACGGATGGTCAGCTGCGGATATTTTTCCGGGTTTTCCATCGCGT -CGAGCAGCATTTCACGGTTCATCACGTTAACGTTCAGGTGCTGACCACCTTCGATGGATGCTTCGTGGTGGAAGT -AACCATCCATCAGACCAGCCAGGTTGGTCTTACGAACTTCGTCGTCTTTACCCAGTGCGTTCGGAACGATAGAGA -AGGTGTAGGAGATACCATCTTTAGCGTAAGCAAACGGCAGTTTAGCAACGGAAGTCAGAGAGGCTACTGCACCTT -TCTGGTCACGACCGTGCATCGGGTTAGCACCCGGTCCGAACGGCGCGCCAGCACGACGACCGTCTGGGGTGTTAC -CCGTTTTCTTACCATACACAACGTTAGAAGTGATGGTCAGAACAGACTGAGTCGGGATAGCGTCACGGTAGGTGT -GCAGTTTCTGAATTTTCTTCATGAAACGTTCTACCAGGTCAACAGCCAGGTCATCTACACGCGGATCATTGTTAC -CAAACTGCGGGTATTCGCCTTCGATTTCGAAGTCGATAGCCAGACCGTCTTCGTCACGAATCGGTTTAACTTTCG -CATATTTGATTGCAGACAGGGAGTCAGCAGCAACGGACAGACCAGCGATACCACACGCCATGGTGCGGATAACGT -CACGGTCGTGCAGCGCCATCAGAGAGGCTTCGTAGCTGTACTTGTCGTGCATGTAGTGGATGATGTTCAGTGCAG -TGATGTACTGTTTAGCCAGCCAGTCCATGAAGTGATCCATGCGCTCCATCACTTCATCATAGTTCAGGACATCGC -CTTTGATCGGTTCAGACTTCGGACCAACCTGCATTTTCAGTTTTTCGTCAACGCCGCCGTTGATTGCGTACAGCA -TGGTTTTCGCCAGGTTTGCACGCGCACCGAAGAACTGCATTTGTTTACCAACGATCATCGGGCTTACGCAGCAAG -CAATAGCGTAGTCATCGTTGTTGAAGTCCGGACGCATCAGGTCATCGTTCTCATACTGCAGAGAAGAGGTGTCGA -TGGACACTTTAGCGGCGAATTTCTTGAAGTTCAGCGGCAGTTTTTCAGACCACAGAATGGTCATGTTCGGTTCCG -GAGACGGACCCATGGTGTACAGGGTGTTCAGGAAACGGAAGCTGTTTTTGGTAACCAGGGTACGACCGTCGAGGC -CCATACCACCGATAGATTCGGTTGCCCAGATCGGGTCGCCAGAGAACAGTTCATCGTATTCCGGAGTACGCAGGA -AGCGAACCATACGCAGTTTCATGACCAGGTGGTCAACCATTTCCTGCGCTTCTTGTTCGGTGATCTTGCCAGCTT -TCAGGTCACGTTCGATGTACACATCCAGGAAGGTGGAGGTACGACCGAAGGACATTGCAGCACCGTTCTGAGACT -TAACAGCAGCCAGGTAGCCGAAGTAAGTCCACTGGATAGCTTCCTGAGCGTTGGTAGCCGGACCAGAGATGTCGT -AGCCGTATTTCGCAGCCATTTCTTTCATCTGACCCAGAGCGCGGTGCTGTTCAGCGATTTCTTCGCGCAGACGGA -TAGTCTGTTCCAGGTTTACGCCGTTTTCCAGATCAGCCTGCAGAGAAGTGAACTGTGCCAGTTTGTCTTTCATCA -GGTAGTCGATACCGTACAGCGCAACGCGACGGTAGTCACCGATGATACGGCCACGGCCATATGCATCTGGCAGAC -CGGTCAGAACACCAGATTTACGGCAACGCAGGATGTCCGGAGTGTAAACGTCGAACACGCCCTGGTTGTGAGTTT -TACGGTATTCAGTGAAGATTTTTTTGATCATCGGATCCAGTTCGCGGTTGTACGCTTTGCAGGAACCTTCGATCA -TTTTGATACCACCGAACGGGATAAGAGCACGTTTCAGCGGAGCTTCAGTCTGCAGACCAACGATTTTCTCAAGCT -GCTTGTTGATGTAGCCAGCGTCGTGAGAGGTGATGGTGGAAGCAACAGCGGTGTCAAAGTCAACTGGCGCGTGAG -TGCGGTTTTCCAGTTTAACGCCTTCCATTACTTTGTCCCACAGGGTGGTGGTCGCTTCAGTAGCGCCAGCCAGGA -AGGACTCGTCACCCTCGTACGGAGTGTAGTTTTTCTGAATGAAGTCACGGACGTTTACTTCATTCTGCCAGTCAC -CTTTGGTAAAACCTTCCCAGGCTGTGGCTAACTTTTCATTAAGCTCGGACATGTAACACCTACCTTCTTAAGTGG -ATTTTTTATTTACTGCGTACTTCGACAACCATTAATGGTGGTCGTTTTCACGCAGGTAAATGACCCAGTATGTCA -ACCCAACCAACAAACCACCACCGATAATGTTGCCGATCGTAACCGGAATCAGGTTATCAGTGATGAAATTCATCA -CGGTCAGGTGAGAAAAATTTTCCGGTGCAGAACCGACTGCGGTCCAAAATTCCGGGGATGCGAAGTCGCGGATTA -CAATACCCATCGGGATCATAAACATGTTTGCGATACTGTGCTCAAAACCGCTGGCAACAAACATCGCGACCGGCA -GCACCATAATGAACGCTTTGTCCATCAGGCTGCGGCCAGAATAACTCATCCATACTGCCAGACATACCATCAGGT -TTGCCAGGATACCAAGACAGACGGCCTCAATAAAAGTATGGTGCACTTTGTGGTCGGCGGTTTGTAGGACGTTTA -GTCCCCATTGACCATTTGCGGTCATATACTCGCCGGAAAGCCACATTAAAAGTACAAACAGCAGTGCGCCGACCA -GGTTGCCAAAATAGACATTTAGCCAGTTTTTCGCCAACTGACCCCAGGTGATGCGCCCACTCGCCTTAGCAACAA -CAATCAACACGGTGGAAGTAAAGAGATCGGCTCCGCAGACAACACAAAGAATCAGCCCCAGAGAGAAGCAAATGC -CGCCAACCAGTTTTGCCATGCCGAAGGGCATTGTGCCTGTGCCAGTGGTTGCTGTGATATAGAAGACGAATGCGA -TTGAGATGAAAACACCGGCGGTAATCGCCAGATAGAAAGTCTTAAGCGGATGTTTCGTTGCTTTATAGACACCCG -CCTCTTCGGCCACTTTGGCCATTGCAGCAGGAAGTAAAAGATCAAAAGGGTTGTCAGCTTTCACACTAACTCTCT -CTTTATTAAGTCGGCGACGAGATACTAACAAAGCATTATAGATGAGAAATTGATATAGATCATATCTCGCCTGGC -TTATAGGCCCGTAACTCGCATGGTTTTTATGCAAATACGGAGTAAATATTTGATTATCCAAATAAAAATAAATTT -TAAAAATTAACAAATGAGTTGAATTTTTTCCGCATCCTCCGCTAAAACAGTTAATTAAAAGGGAGCATCAGGCGA -ATAAAGTAACAATATCGATCGTATTTATTAAATACAAATTACCGATATTTAACCTTATAATTACAATTATTTTAT -TAATGCAAATATATGTAAAGCGGGGCATTAAAAAAACGCCCCGTAATATAACTCAGACTAATCATTAAGCCTACA -TTGCGTAGGCTATTTGATTTTATTTTGCCCAGAATGCTGCTTTGGCGCGCTGCAGCTTTTCGTAGGCCTTCAACA -ACGACTGATGTGCAGCAAACGCGTGCAGATCGCTATCTACCGGTTGCAGGCCGTAAAACGCCGCTTCGCCGCTCA -TTGCCGCACTGGCGGCTTCTACGGCATCTGCGCCGTACATGCGAACAAACGCATTCAGATATTGCAGCGGCTGGC -GATCTTCTTCCTGTGCCAGTAATAACAACGTTTGCAGGCAGCGATAATAGTTGGCGCGTTCCGGACTAAATACTG -ATGAGTTAAACTCCATCGTCCATTCGGTCCAGACCAGAGCCTGTTCCAGATCGCCACCAGCCAGCGCCAGCATGG -CTTTTAATTCACCGATACGCAGGGTGTACCAACCGTTATCCGACCCGGTCGCCAGACCCAACAGCTCACGCACGC -GGGTAAAGTCATCAAAACCTTCTTCATCCAGTTGCTCGATGAGGTTCAGGTAATCTTCTTTTTCCCACTCGCTGC -CTGGTAGCGAAAGAATCGTTTCACGTAAATGGCTGCCCATACTGTTATTCGCGAGCCACAGATCTTCAGCCGGAT -AAATATCGGACATGCCAGGCACGATAATACGGCAAGCATAAACGCCCAGATGCTCGTAATCGGCAATATAAACTT -CTTTATCTTCTTTGTTGAAGATAGCCATCAGTGTGGCGAACTCTTCTTCCGTGGTGCCGGAGAAATTCCAGTCCA -CAAACGGATAATCGGCATCCTGCTTGAACAGGTCCCAGGAGATTAAACCGCTGGAATCGATAAAGTGCGTTTCGA -GGTTGGTATGTTCAGCGACTTCTTCATCATCGAAGGTTGGCGGAGTAAACACATCCAAATCTTTCAGGCCACGAC -CTTGCAGCAGCTCGGTCACGGTACGTTCCAGTGCTACGCCAAAATCAGGATGCGCACCGAAAGAGGCAAAGCAGG -TACCGTTAGCAGGATTGAACAGTACCACGCAAATCACCGGATACTGGCCGCCAAGCGAACCGTCATAAGCGAAGA -TTGGGAAACCCTCCGCTTCCAGCGTTTCGATGGCTTCAACTACTGCTGGGTAACGCGCCAGCACGTCTGCCGGGA -TCTCTGGCAGGCTGATGCTTTCAGCAATAATGCGGTTTTTCACGTAGCGTTCGAAAACTTCAGACAATCCCTGAA -CGCGTGCTTCGTTGCGGGTATTACCTGCGGACATACCGTTGGAGACGTACAGGTTACCAATGATATTCATCGGAA -TATAAACGGTCTGATTGTCGGACTGACGCGTAAACGGCAGGCCGCAAATACCACGATCTTCGTTACCGGATTGTA -GGTCAATCAGCATGCTGCCGGTCAGTTCATTCTCCGGATCATAAAACGCGCGCAGACGGTCATCGAGCAGCCCTT -CTGGCACATCGTCATTTTCGGTCAGTGGGAACCATTTTTCGTTGGGATAATGCACGAACGGACCGTTGGCGATGG -TTTCGCCCAGCCAGAAGTCCGCAAAAAAGTAGTTGGTTGAGAGACGCTCGAAATATTCACCGAGTGCAGAAGCCA -GCGCCGCTTTCTTGGTTGCGCCTTTACCGTTGGTAAAACACAGTGCGCACTCTTTGTCGCGAATATGTACAGACC -AGACGTTAGGCACGGGATTCAGCCAGGAGGCCTCTTCAATCTGAAAGCCGAGGTCTGAAAGTTTTTGCTGGAAGC -GAGCGATGGAATCTTCCAGAGCGGCATCTTTGCCGGGGATAAATGTTTGCGTCATGAAAATCACTTTAGTCGTAC -GGAAAGCGCGCAATAATACGGGTTTTATCTCAAAGGCGCTATCACCGCCGCCATGCCGATGAACTGTTGACTATG -CTTTTAGCGGATAAACCACGTTAAGAGCATAAAAATGAAGGCGTTCGATCTCCACCGTATGGCATTTGATAAAGT -GCCTTTTGATTTCCTTGGCGAAGTTGCACTACGTAGTCTTTATACCTTTGTACTGGTCTTTTTGTTCCTCAAAAT -GACCGGAAGACGCGGTGTGCGGCAGATGTCGCTGTTTGAAGTTTTAATCATTCTGACGCTGGGATCAGCGGCGGG -AGATGTGGCGTTTTATGATGATGTGCCGATGGTCCCGGTACTTATCGTCTTTATTACTCTGGCGTTGTTATACCG -CCTGGTAATGTGGTTGATGGCGCACAGTGAAAAACTGGAAGATCTTCTGGAAGGCAAGCCAGTTGTCATTATTGA -AGATGGCGAGCTGGCCTGGTCGAAACTCAATAACTCCAACATGACGGAATTTGAGTTCTTTATGGAGCTACGATT -GCGTGGCGTGGAGCAGCTGGGGCAGGTACGTCTGGCGATTCTCGAAACCAACGGGCAAATCAGTGTCTATTTCTT -TGAAGATGACAAGGTGAAACCGGGTTTACTTATTTTACCCAGTGATTGTACGCAGCGTTACAAAGTGGTGCCGGA -GTCGGCGGACTATGCCTGTATTCGTTGTAGTGAAATCATTCATATGAAAGCGGGGGAAAAACAATTATGTCCGCG -CTGTGCAAATCCAGAATGGACGAAGGCAAGTCGGGCAAAACGGGTGACCTGACAGTAAAAACATCGGCTTTTTGC -TAATAATCCGAGAGATTCTTTTGTGTGATGCAAGCCACATTTTTGCCCTCAACGGTTTTACTCATTGCGATGTGT -GTCACTGAATGATAAAACCGATAGCCACAGGAATAATGTATTACCTGTGGTCGCAATCGATTGACCGCGGGTTAA -TAGCAACGCAACGTGGTGAGGGGAAATGGCTCAAATCTTCAATTTTAGTTCTGGTCCGGCAATGCTACCGGCAGA -GGTGCTTAAACAGGCTCAACAGGAACTGCGCGACTGGAACGGTCTTGGTACGTCGGTGATGGAAGTGAGTCACCG -TGGCAAAGAGTTCATTCAGGTTGCAGAGGAAGCCGAGAAGGATTTTCGCGATCTTCTTAATGTCCCCTCCAACTA -CAAGGTATTATTCTGCCATGGCGGTGGTCGCGGTCAGTTTGCTGCGGTACCGCTGAATATTCTCGGTGATAAAAC -CACCGCAGATTATGTTGATGCCGGTTACTGGGCGGCAAGTGCCATTAAAGAAGCGAAAAAATACTGCACGCCTAA -TGTCTTTGACGCCAAAGTGACTGTTGATGGTCTGCGCGCGGTTAAGCCAATGCGTGAATGGCAACTCTCTGATAA -TGCTGCTTATATGCATTATTGCCCGAATGAAACCATCGATGGTATCGCCATCGACGAAACGCCAGACTTCGGCGC -AGATGTGGTGGTCGCCGCTGACTTCTCTTCAACCATTCTTTCCCGTCCGATTGACGTCAGCCGTTATGGTGTAAT -TTACGCTGGCGCGCAGAAAAATATCGGCCCGGCTGGCCTGACAATCGTCATCGTTCGTGAAGATTTGCTGGGCAA -AGCGAATATCGCGTGTCCGTCGATTCTGGATTATTCCATCCTCAACGATAACGGCTCCATGTTTAACACGCCGCC -GACATTTGCCTGGTATCTATCTGGTCTGGTCTTTAAATGGCTGAAAGCGAACGGCGGTGTAGCTGAAATGGATAA -AATCAATCAGCAAAAAGCAGAACTGCTATATGGGGTGATTGATAACAGCGATTTCTACCGCAATGACGTGGCGAA -AGCTAACCGTTCGCGGATGAACGTGCCGTTCCAGTTGGCGGACAGTGCGCTTGACAAATTGTTCCTTGAAGAGTC -TTTTGCTGCTGGCCTTCATGCACTGAAAGGTCACCGTGTGGTCGGCGGAATGCGCGCTTCTATTTATAACGCCAT -GCCGCTGGAAGGCGTTAAAGCGCTGACAGACTTCATGGTTGAGTTCGAACGCCGTCACGGTTAATGCCGAAATTT -TGCTTAATCCCCACAGCCAGCCTGTGGGGTTTTTATTTCTGTTGTAGAGAGTTGAGTTCATGGAATCCCTGACGT -TACAACCCATCGCTCGTGTCGATGGCACTATTAATCTGCCCGGTTCCAAGAGCGTTTCTAACCGCGCTTTATTGC -TGGCGGCATTAGCACACGGCAAAACAGTATTAACCAATCTGCTGGATAGCGATGACGTGCGCCATATGCTGAATG -CATTAACAGCGTTAGGGGTAAGCTATACGCTTTCAGCCGATCGTACGCGTTGCGAAATTATCGGTAACGGCGGTC -CATTACACGCAGAAGGTGCCCTGGAGTTGTTCCTCGGTAACGCCGGAACGGCAATGCGTCCGCTGGCGGCAGCTC -TTTGTCTGGGTAGCAATGATATTGTGCTGACCGGTGAGCCGCGTATGAAAGAACGCCCGATTGGTCATCTGGTGG -ATGCGCTGCGCCTGGGCGGGGCGAAGATCACTTACCTGGAACAAGAAAATTATCCGCCGTTGCGTTTACAGGGCG -GCTTTACTGGCGGCAACGTTGACGTTGATGGCTCCGTTTCCAGCCAATTCCTCACCGCACTGTTAATGACTGCGC -CTCTTGCGCCGGAAGATACGGTGATTCGTATTAAAGGCGATCTGGTTTCTAAACCTTATATCGACATCACACTCA -ATCTGATGAAGACGTTTGGTGTTGAAATTGAAAATCAGCACTATCAACAATTTGTCGTAAAAGGCGGGCAGTCTT -ATCAGTCTCCGGGTACTTATTTGGTCGAAGGCGATGCATCTTCGGCTTCTTACTTTCTGGCAGCAGCAGCAATCA -AAGGCGGCACTGTAAAAGTGACCGGTATTGGACGTAACAGTATGCAGGGTGATATTCGCTTTGCTGATGTGCTGG -AAAAAATGGGCGCGACCATTTGCTGGGGCGATGATTATATTTCCTGCACGCGTGGTGAACTGAACGCTATTGATA -TGGATATGAACCATATTCCTGATGCGGCGATGACCATTGCCACGGCGGCGTTATTTGCAAAAGGCACCACCACGC -TGCGCAATATCTATAACTGGCGTGTTAAAGAGACCGATCGCCTGTTTGCGATGGCAACAGAACTGCGTAAAGTCG -GCGCGGAAGTGGAAGAGGGGCACGATTACATTCGTATCACTCCTCCGGAAAAACTGAACTTTGCCGAGATCGCGA -CATACAATGATCACCGGATGGCGATGTGTTTCTCGCTGGTGGCGTTGTCAGATACACCAGTGACGATTCTTGATC -CCAAATGCACGGCCAAAACATTTCCGGATTATTTCGAGCAGCTGGCGCGGATTAGCCAGGCAGCCTGAATGAACA -ACGGGCAATAAATAGCCAAATCTTTCTTTATCAAAACGTCGGCACATTGTCGGCGTTTTTTTTCGGACCTTGTGA -GTCATTTTGATTAATGGTAGCGTCGCTTGTCAATGTAAGTTGTTGATACATAATATTTATATATGATTAATCAAC -GGATGATTCACATGAAGAATACTAAATTACTGCTGGCGATTGCGACCTCTGCAGCATTACTGACAGGGTGTCAAA -ATACCCACGGTATTGATACCAATATGGCTATCAGCTCCGGTTTAAATGCCTATAAAGCAGCAACATTAAGCGATG -CCGATGCAAAAGCGATTGCCAATCAGGGCTGTGCCGAAATGGACAGCGGCAATCAAGTCGCAAGTAAATCCAGCA -AGTACGGTAAACGTCTGGCAAAAATCGCCAAAGCATTGGGTAACAATATTAATGGCACGCCGGTCAACTATAAGG -TTTATATGACCAGCGACGTCAACGCATGGGCGATGGCGAACGGCTGTGTTCGTGTCTACAGTGGCCTGATGGACA -TGATGAATGACAACGAAATTGAAGGCGTTCTGGGCCATGAACTGGGCCACGTCGCGTTGGGTCACTCGCTGGCTG -AAATGAAAGCTTCTTATGCGATCGTTGCCGCACGCGATGCCATTTCAGCTACCAGCGGTGTGGCTTCCCAGCTTT -CCCGCTCACAATTAGGTGATATCGCAGAAGGCGCTATCAATGCTAAATACTCCCGTGATAAAGAGTCCGAAGCAG -ATGATTTCTCCTTTGATCTGTTGAAGAAACGTGGCATCAGCACCCAGGGGCTGGTTGGCAGCTTTGAAACACTGG -CTAGCCTGGATGGCGGTCGCACCCAGTCCATGTTTGACTCTCACCCACCATCAACAGAGCGTGCGCAACACATCC -GTGATCGTATCGCCTCTGGTAAGTAAATCATTGTCATCTTTCGGGCTGGTCTTCTGCCAGCCCGCTATAATTGCG -CAATAAATCCCCATCTGAATACAGACAAAACTGGTTTTTGCACACAACGTTAACGATTTGTGGCGTCGGCGCGTA -TAATGCGCGCGGTTATGTTAACGGTACGCCTGTTTTAAGGAGATAAAGATGACGGCAATTGCCCCGGTTATTACC -ATTGATGGCCCAAGCGGTGCAGGGAAAGGCACCTTGTGTAAGGCTATGGCGGAAGCGTTGCAATGGCATCTGCTG -GACTCGGGTGCAATTTATCGCGTACTGGCATTGGCGGCATTACATCACCATGTTGATGTTGCGTCGGAAGATGCG -CTGGTACCGCTGGCATCCCATCTGGATGTACGTTTTGTGTCGACCAATGGCAATCTGGAAGTGATCCTCGAAGGG -GAAGATGTCAGCGGCGAAATTCGTACTCAGGAAGTGGCGAATGCAGCTTCACAAGTCGCGGCATTCCCACGCGTT -CGTGAAGCATTATTGCGTCGCCAACGCGCGTTTCGCGAATTACCAGGTCTGATTGCCGATGGCCGCGACATGGGA -ACGGTGGTATTCCCTGATGCACCAGTGAAAATTTTCCTTGACGCCTCCTCGGAAGAACGTGCGCATCGCCGCATG -CTACAGTTGCAGGAGAAGGGCTTTAGTGTTAACTTTGAGCGCCTTTTGGCCGAGATCAAAGAACGCGACGACCGC -GATCGTAACCGAGCGGTAGCGCCACTGGTTCCGGCAGCCGATGCTTTAGTGTTGGATTCCACCACCTTAAGCATT -GAGCAAGTGATTGAAAAAGCGCTACAATACGCGCGCCAGAAATTGGCTCTCGCATAAGCGACCGAATTTGCAGTA -CCCCCGTTGCAATGGAATGACAGCGGGTATGTTAAACAACCCCATCCGGCATGGAGCCAGGTGGACGTTAAATAT -AAACCTGAAGATTAAACATGACTGAATCTTTTGCTCAACTCTTTGAAGAGTCCTTAAAAGAAATCGAAACCCGCC -CGGGTTCTATCGTTCGTGGCGTTGTTGTTGCTATCGACAAAGACGTAGTACTGGTTGACGCTGGTCTGAAATCTG -AGTCCGCCATCCCGGCTGAGCAGTTCAAAAACGCCCAGGGCGAGCTGGAAATCCAGGTAGGTGACGAAGTTGACG -TTGCTCTGGACGCAGTAGAAGACGGCTTCGGTGAAACTCTGCTGTCCCGTGAGAAAGCTAAACGTCACGAAGCCT -GGATCACGCTGGAAAAAGCTTACGAAGATGCTGAAACTGTTACCGGTGTTATCAACGGCAAAGTTAAGGGCGGCT -TCACTGTTGAGCTGAACGGTATTCGTGCGTTCCTGCCAGGTTCTCTGGTAGACGTTCGTCCGGTGCGTGACACTC -TGCACCTGGAAGGCAAAGAGCTTGAATTTAAAGTAATCAAGCTGGATCAGAAGCGCAACAACGTTGTTGTTTCTC -GTCGTGCCGTTATCGAATCCGAAAACAGCGCAGAGCGCGATCAGCTGCTGGAAAACCTGCAGGAAGGCATGGAAG -TTAAAGGTATCGTTAAGAACCTCACTGACTACGGTGCATTCGTTGATCTGGGCGGCGTTGACGGCCTGCTGCACA -TCACTGACATGGCCTGGAAACGCGTTAAGCATCCGAGCGAAATCGTCAACGTGGGCGACGAAATCACTGTTAAAG -TGCTGAAGTTCGACCGCGAACGTACCCGTGTATCCCTGGGCCTGAAACAGCTGGGCGAAGATCCGTGGGTAGCTA -TCGCTAAACGTTATCCGGAAGGTACCAAACTGACTGGTCGCGTGACCAACCTGACCGACTACGGCTGCTTCGTTG -AAATCGAAGAAGGCGTTGAAGGCCTGGTACACGTTTCCGAAATGGACTGGACCAACAAAAACATCCACCCGTCCA -AAGTTGTTAACGTTGGCGATGTAGTGGAAGTTATGGTTCTGGATATCGACGAAGAACGTCGTCGTATCTCCCTGG -GTCTGAAACAGTGCAAAGCTAACCCGTGGCAGCAGTTCGCGGAAACCCACAACAAGGGCGACCGTGTTGAAGGTA -AAATCAAGTCTATCACTGACTTCGGTATCTTCATCGGCTTGGACGGCGGCATCGACGGCCTGGTTCACCTGTCTG -ACATCTCCTGGAACGTTGCAGGCGAAGAAGCAGTTCGTGAATACAAAAAAGGCGACGAAATCGCTGCAGTTGTTC -TGCAGGTTGACGCAGAACGTGAACGTATCTCCCTGGGCGTTAAACAGCTCGCAGAAGATCCGTTCAACAACTGGG -TTGCTCTGAACAAGAAAGGCGCTATCGTAACCGGTAAAGTAACTGCAGTTGACGCTAAAGGCGCAACCGTAGAAC -TGGCTGACGGCGTTGAAGGTTACCTGCGTGCTTCTGAAGCATCCCGTGACCGCGTTGAAGACGCTACCCTGGTTC -TGAGCGTTGGCGACGAAGTTGAAGCTAAATTCACCGGCGTTGATCGTAAAAACCGCGCAATCAGCCTGTCTGTTC -GTGCGAAAGACGAAGCTGACGAGAAAGATGCAATCGCAACTGTTAACAAACAGGAAGATGCAAACTTCTCCAACA -ACGCAATGGCTGAAGCTTTCAAAGCAGCTAAAGGCGAGTAATTCTCTGACTCTTCGGGATTTTTATTCCGAAGTT -TGTTGAGTTTACTTGACAGATTGCAGGTTTCGTCCTGTAATCAAGCACTAAGGGCGGCTACGGCCGCCCTTAATC -AATGCAGCAACAGCAGCCGCTTAATTTGCCTTTAAGGAACCGGAGGAATCATGACCAAGTCAGAATTGATAGAAA -GACTTGCCACCCAGCAATCGCACATTCCCGCCAAGACGGTTGAAGATGCAGTAAAAGAGATGCTGGAGCATATGG -CCTCGACTCTTGCGCAGGGCGAGCGTATTGAAATCCGCGGTTTCGGCAGTTTCTCTTTGCACTACCGCGCACCAC -GTACCGGACGTAATCCGAAGACTGGCGATAAAGTAGAACTGGAAGGAAAATACGTTCCTCACTTTAAACCTGGTA -AAGAACTGCGCGATCGCGCCAATATTTACGGTTAAGTTTTTTACTCAAACTTGAACGAGAGAAAAGCACCTGTCG -GGTGCTTTTTTCATTTCTCTAATCTGGAACTGGAAGCTGCCTCGCAGAGTTTTGAACAGTTTTCACCCTTTCGTT -AAATTCTTCTGAATATGCCTCGGGGAACGCAAAATTCCCACCAGACAACCGCTCAACAAAGTTGCACACTTTCCA -TAAACAGGGAGGGGTGCATGAAAATAACGACAGTCGGTGTATGCATAATTAGCGGAATTTTTCCGTTGCTGATTT -TGCCCCAATTGCCTGGGACATTAACCCTTGCGTTTCTGACTCTCTTCGCCTGCGTACTGGCATTTATCCCTGTTA -AAACCGTCCGTTATATCGCGCTGACGTTGCTGTTTTTCGTTTGGGGCATATTATCAGCAAAGCAAATTTTGTGGG -CAGGAGAAACCTTAACTGGCGCGACGCAGGATGCAATTGTTGAGATCACTGCAACTGACGGCATGACCACTCATT -ACGGTCAAATTACTCATCTACAAGGTCGACGTATATTCCCTGCGTCAGGTCTCGTGATGTATGGCGAATATCTTC -CGCAAGCGGTTTGTGCTGGACAACAATGGTCAATGAAACTCAAAGTTCGTGCAGTTCATGGCCAACTTAATGATG -GCGGCTTTGATAGCCAGCGTTATGCCATTGCCCAGCATCAGCCGCTCACCGGCCGTTTTCTGCAGGCAAGTGTCA -TTGAACCGAATTGTAGCCTGCGTGCACAGTATCTGGCGTCACTACAAACAACGCTGCAACCCTATCCGTGGAATG -CGGTTATTCTTGGTTTAGGTATGGGGGAACGGTTATCCGTCCCCAAAGAAATCAAAAATATCATGCGCGATACTG -GAACGGCGCATTTAATGGCGATATCGGGATTGCACATCGCTTTTGCGGCGTTGCTGGCTGCCGGACTCATTCGCA -GTGGACAAATTTTTCTGCCTGGGCGCTGGATCCACTGGCAAATACCATTAATTGGCGGAATCTGCTGTGCTGCTT -TTTATGCCTGGTTGACGGGAATGCAACCTCCTGCATTGCGTACCATGGTGGCGCTTGCTACGTGGGGAATGCTTA -AGTTAAGTGGGCGACAGTGGAGTGGCTGGGATGTATGGATATGTTGTCTGGCGGCAATTTTGCTGATGGATCCTG -TTGCCATTCTCTCGCAAAGTTTATGGCTCTCTGCCGCTGCGGTCGCGGCATTGATATTTTGGTATCAGTGGTTTC -CCTGTCCTGAGTGGCAACTGCCGCCGGTATTGCGTGCAGTTGTTTCCCTCATCCATCTGCAACTGGGAATCACAC -TTCTGCTTATGCCCGTGCAAATCGTCATATTTCATGGCATTAGTCTGACCTCGTTTATTGCAAATCTATTAGCAA -TTCCCTTGGTGACATTTATCACGGTTCCGTTGATCCTCGCCGCGATGGTTGTGCATTTAAGCGGGCCGTTAATCC -TGGAGCAAGGGTTATGGTTTCTTGCCGACCGGTCTTTGGCTTTACTTTTCTGGGGGTTAAAGAGTTTGCCGGAAG -GGTGGATCAACATTGCTGAATGTTGGCAATGGCTATCATTTTCCCCATGGTTCTTACTGGTGGTATGGCGATTAA -ACGCCTGGCGAACGTTGCCAGCAATGTGTGTGGCTGGAGGCTTGCTGATGTGCTGGCCGCTGTGGCAAAAACCTC -GACCTGACGAGTGGCAGCTGTACATGCTTGATGTCGGGCAAGGGCTGGCAATGGTGATAGCCAGAAACGGCAAAG -CGATTCTCTATGACACAGGACTGGCCTGGCCTGAAGGGGATAGTGGGCAACAACTGATTATCCCCTGGCTCCACT -GGCATAATCTTGAACCGGAAGGCGTTATTCTGAGCCATGAACATCTGGATCACCGGGGAGGGCTGGATTCAATAT -TGCATATATGGCCGATGTTATGGATCAGAAGTCCGTTAAACTGGGAACATCATCAGCCCTGTGTGCGTGGCGAAG -CGTGGCAATGGCAAGGATTGCGTTTCAGCGCGCACTGGCCTTTACAAGGTAGCAACGATAAAGGAAATAACCATT -CCTGTGTGGTTAAGGTTGATGACGGGACGAATAGCATTCTTCTAACCGGTGATATTGAAGCCCCAGCTGAACAAA -AGATGCTAAGCCGTTACTGGCAGCAAGTGCAGGCAACATTGCTTCAGGTACCTCACCATGGCAGTAATACCTCAT -CATCGTTGCCATTAATTCAGCGAGTGAATGGAAAAGTGGCACTCGCATCGGCATCGCGCTATAACGCATGGCGAC -TGCCCTCTAACAAAGTTAAGCATCGCTATCAACTGCAAGGATATCAATGGATTGATACTCCACATCAAGGTCAAA -CAACGGTCAATTTTTCAGCGCAAGGCTGGCGGATTAGCAGCCTCAGGGAGCAAATTTTACCTCGTTGGTATCATC -AGTGGTTTGGCGTGCCAGTGGATAACGGGTAGAATATGCGGCTATTTCAACAAATGCTGGTTTTTTGAATGCATA -ACGACAAAGATCTCTCTACGTGGCAGACATTCCGCCGACTGTGGCCAACCATTGCGCCTTTCAAAGCGGGTCTGA -TCGTGGCGGGCGTAGCGTTAATCCTCAACGCAGCCAGCGATACCTTCATGTTATCGCTCCTTAAGCCACTTCTTG -ATGATGGCTTTGGTAAAACAGATCGCTCCGTGCTGGTGTGGATGCCGCTGGTGGTGATCGGGCTGATGATTTTAC -GTGGTATCACCAGCTATGTCTCCAGCTACTGTATCTCCTGGGTATCAGGAAAGGTGGTAATGACCATGCGTCGCC -GCCTGTTTGGTCACATGATGGGAATGCCAGTTTCATTCTTTGACAAACAGTCAACGGGTACGCTGTTGTCACGTA -TTACCTACGATTCCGAACAGGTTGCTTCTTCTTCTTCCGGCGCACTGATTACTGTTGTGCGTGAAGGTGCGTCGA -TCATCGGCCTGTTCATCATGATGTTCTATTACAGTTGGCAACTGTCGATCATTTTGATTGTGCTGGCACCGATTG -TTTCGATTGCGATTCGCGTTGTATCGAAGCGTTTTCGCAACATCAGTAAAAACATGCAGAACACCATGGGGCAGG -TGACCACCAGCGCAGAACAAATGCTGAAGGGCCACAAAGAAGTATTGATTTTCGGTGGTCAGGAAGTGGAAACGA -AACGCTTTGATAAAGTCAGCAACCGAATGCGTCTTCAGGGGATGAAAATGGTTTCAGCCTCTTCCATCTCTGATC -CGATCATTCAGCTGATCGCCTCTTTGGCGCTGGCGTTTGTTCTGTATGCGGCGAGCTTCCCAAGTGTCATGGATA -GCCTGACTGCCGGTACGATTACCGTTGTTTTCTCTTCAATGATTGCACTGATGCGTCCGCTGAAATCGCTGACCA -ACGTTAACGCCCAGTTCCAGCGCGGTATGGCGGCTTGTCAGACGCTGTTTACCATTCTGGACAGTGAGCAGGAGA -AAGATGAAGGTAAGCGCGTGATCGAGCGTGCGACTGGCGACGTGGAATTCCGCAATGTCACCTTTACTTATCCGG -GACGTGACGTACCTGCATTGCGTAACATCAACCTGAAAATTCCGGCAGGGAAGACGGTTGCTCTGGTTGGACGCT -CTGGTTCGGGTAAATCAACCATCGCCAGCCTGATCACGCGTTTTTACGATATTGATGAAGGCGAAATCCTGATGG -ATGGTCACGATCTGCGCGAGTATACCCTGGCGTCGTTACGTAACCAGGTTGCTCTGGTGTCGCAGAATGTCCATC -TGTTTAACGATACGGTTGCTAACAACATTGCTTACGCACGGACTGAACAGTACAGCCGTGAGCAAATTGAAGAAG -CGGCGCGTATGGCCTACGCCATGGACTTCATCAATAAGATGGATAACGGTCTCGATACAGTGATTGGTGAAAACG -GCGTGCTGCTCTCTGGCGGTCAGCGTCAGCGTATTGCTATCGCTCGAGCCTTGTTGCGTGATAGCCCGATTCTGA -TTCTGGACGAAGCTACCTCGGCTCTGGATACCGAATCCGAACGTGCGATTCAGGCGGCACTGGATGAGTTGCAGA -AAAACCGTACCTCTCTGGTGATTGCCCACCGCTTGTCTACCATTGAAAAGGCAGACGAAATCGTGGTCGTCGAGG -ATGGTGTCATTGTGGAACGCGGTACGCATAACGATTTGCTTGAGCACCGCGGCGTTTACGCGCAACTTCACAAAA -TGCAGTTTGGCCAATGATCGAAAAAATCTGGTCTGGTGAATCCCCTTTGTGGCGGCTATTGCTGCCACTCTCCTG -GTTGTATGGCCTGGTGAGTGGCGCGATCCGTCTTTGCTATAAACTAAAACTGAAGCGCGCCTGGCGTGCCCCCGT -ACCGGTTGTCGTGGTTGGTAATCTCACCGCAGGCGGCAACGGAAAAACCCCGGTCGTTGTCTGGCTGGTGGAACA -GTTGCAACAGCGCGGTATTCGCGTGGGGGTCGTATCGCGGGGATATGGTGGTAAGGCTGAATCTTATCCGCTGTT -ATTGTCGGCAGATACCACAACAGCACAGGCGGGTGATGAACCTGTGTTGATTTATCAACGCACTGATGCGCCTGT -TGCGGTTTCTCCCGTTCGTTCTGATGCGGTAAAAGCCATTCTGGCGCAACACCCTGATGTGCAGATCATCGTAAC -CGACGACGGTTTACAGCATTACCGTCTGGCGCGTGATGTGGAAATTGTCGTTATTGATGGTGTGCGTCGCTTTGG -CAATGGCTGGTGGTTGCCGGCGGGGCCAATGCGTGAGCGAGCGGGGCGCTTAAAGTCGGTTGATGCGGTAATCGT -CAACGGCGGTGTCCCTCGCAGCGGTGAAATCCCCATGCATCTGCTGCCGGGTCAGGCGGTGAATTTACGTACCGG -TACGCGTTGTGACGTTGCTCAGCTTGAACATGTAGTGGCGATGGCGGGGATTGGGCATCCGCCGCGCTTTTTTGC -CACGCTGAAGATGTGTGGCGTACAACCGGAAAAATGTGTACCGCTGGCCGATCATCAGTCTTTGAACCATGCGGA -TGTCAGTGCGTTGGTAAGCGCCGGGCAAACGCTGGTAATGACTGAAAAAGATGCGGTGAAATGCCGGGCCTTTGC -AGAAGAAAATTGGTGGTATTTGCCTGTAGACGCACAGCTTTCAGGTGATGAACCAGCGAAACTGCTTACGCAACT -AACCTTGCTGGCTTCTGGCAACTAGTTACGCCGCGGCAGCGTTCGATTGATGGAGTCATGAATGTCGCTGCCGCA -CCTCTCCCTTGCTGATGCGCGTAATCTTCACCTTGCCGCACAAGGCCTGTTAAACAAACCCCGCCGTCGAGCGTC -GTTGGAGGATATTCCGGCAACGATCTCCCGCATGTCCTTGCTGCAAATCGATACCATCAATATTGTTGCCCGTAG -TCCATATCTGGTGCTTTTCAGTCGTCTGGGAAATTATCCTGCCCAGTGGCTGGATGAGTCTCTGGCGCGTGGCGA -ATTAATGGAATACTGGGCGCATGAAGCCTGCTTTATGCCGCGTAGCGACTTTCGTCTTATTCGCCACCGCATGCT -GGCACCTGAAAAAATGGGCTGGAAATACAAAGACGCCTGGATGCAGGAACATGAGGCGGAAATTGCACAGTTAAT -TCAGCATATTCATGATAAGGGGCCGGTACGTTCAGCCGATTTTGAGCATCCTCGTAAAGGTGCAAGCGGCTGGTG -GGAATGGAAGCCGCATAAACGGCATCTGGAAGGTTTATTTACTGCCGGAAAGGTGATGGTGATTGAACGGCGCAA -CTTCCAGCGCGTTTATGATTTAACCCACCGTGTCATGCCTGACTGGGATGATGAGCGCGATCTCGTTTCGCAAAC -AGAAGCAGAAATCATCATGCTGGATAACAGTGCGCGTAGCCTGGGAATATTCCGCGAACAGTGGCTGGCAGATTA -CTATCGGCTGAAACGTCCGGCACTGGCGGCGTGGCGCGAAGCGAGGGCTGAACAGCAGCAAATCATTGCTGTGCA -TGTTGAAAAATTGGGCAATCTTTGGCTGCATGATGATTTGCTGCCGCTACTCGAGCGAGCGCTGGCCGGAAAGCT -CACTGCAACGCACAGCGCGGTACTTTCGCCTTTTGATCCTGTTGTCTGGGATCGCAAACGCGCAGAGCAGCTTTT -TGATTTTAGCTACCGGCTGGAGTGCTATACCCCAGCGCCGAAACGCCAGTATGGCTATTTTGTTCTGCCGTTATT -ACATCGTGGGCAATTAGTTGGGCGAATGGATGCCAAAATGCATCGCCAGACAGGCATCCTTGAAGTTATCTCTCT -GTGGTTACAGGAAGGTATTAAACCAACGACAACGCTGCAAAAAGGGCTACGTCAGGCGATTACTGATTTCGCTAA -CTGGCAGCAGGCAACGCGGGTGACATTAGGATGCTGCCCGCAAGGCCTCTTTACTGATTGCCGCACCGGCTGGGA -AATAGACCCCGTCGCATAAATGATTATGATAAGATTTATGCATTCATAACCCGATCCATCTGGAGGAACTATGGA -TCATCGTCTGCTTGAAATCATTGCCTGCCCGGTTTGCAACGGAAAACTTTGGTATAACCAGGAAAAACAAGAGCT -TATTTGCAAACTGGACAACCTCGCTTTCCCGCTGCGTGATGGCATTCCAGTGTTGCTGGAAACGGAAGCCCGCGT -GCTGACTGCTGATGAGAGTAAATCATGAGTTTTGTGGTCATTATTCCCGCGCGCTACGCGTCCACGCGTCTGCCC -GGTAAACCATTGGTTGATATTAACGGCAAACCCATGATTGTTCATGTTCTTGAACGCGCGCGTGAATCAGGTGCC -GAGCGCATCATCGTGGCAACCGATCATGAGGATGTTGCCCGCGCCGTTGAAGCCGCTGGCGGTGAAGTATGTATG -ACGCGCGCCGATCATCAGTCAGGAACAGAACGTCTGGCGGAAGTTGTCGAAAAATGCGCATTCAGCGACGACACG -GTGATCGTTAATGTGCAGGGTGATGAACCGATGATCCCTGCGACAATCATTCGTCAGGTTGCTGATAACCTCGCT -CAGCGTCAGGTGGGTATGGCGACTCTGGCGGTGCCAATCCACAATGCGGAAGAAGCGTTTAACCCGAATGCGGTG -AAAGTGGTTCTCGACGCTGAAGGGTATGCACTGTACTTCTCTCGCGCCACCATTCCTTGGGATCGTGATCGTTTT -GCAGAAGGCCTTGAAACCGTTGGCGATAACTTCCTGCGTCATCTTGGTATTTATGGCTACCGTGCAGGCTTTATC -CGTCGTTACGTCAACTGGCAGCCAAGTCCGTTAGAACACATCGAAATGTTAGAGCAGCTTCGTGTTCTGTGGTAC -GGCGAAAAAATCCATGTTGCTGTTGCTCAGGAAGTTCCTGGCACAGGTGTGGATACCCCTGAAGATCTTGAGCGC -GTTCGCGCTGAAATGCGCTAATTTCACTTCACGACACTTCAGCCAATTTTGGGAGGAGTGTCGTACCGTTACGAT -TTTCCTCAATTTTTCTTTTCAACAATTGATCTCATTCAGGTGACATCTTTTATATTGGCGCTCATTATGAAAGCA -GTAGCTTTTATGAGGGTAATCTGAATGGAACAGCTGCGTGCCGAATTAAGCCATTTACTGGGCGAAAAACTCAGT -CGTATTGAGTGCGTCAATGAAAAAGCGGATACGGCGTTGTGGGCTTTGTATGACAGCCAGGGAAACCCAATGCCG -TTAATGGCAAGAAGCTTTAGTACGCCCGGAAAAGCCCGACAACTGGCATGGAAAACCACCATGCTGGCAAGAAGT -GGGACTGTCCGTATGCCGACTATTTATGGTGTGATGACGCATGAAGAACACCCCGGCCCCGATGTCCTGCTACTG -GAGCGGATGCGTGGTGTTTCGGTGGAGGCACCAGCCCGAACACCAGAACGCTGGGAACAACTCAAAGACCAAATC -GTTGAAGCCTTACTGGCCTGGCACCGTCAGGACAGTCGCGGTTGCGTCGGCGCGGTCGACAATACTCAGGAAAAT -TTCTGGCCCTCATGGTACCGGCAACATGTTGAAGTGCTATGGACCACGCTCAATCAGTTCAATAACACCGGTCTG -ACGATGCAGGATAAGCGGATCCTGTTTCGCACTCGCGAATGTCTCCCGGCATTATTTGAAGGCTTTAACGACAAT -TGTGTGCTGATTCACGGTAACTTCTGTTTACGCAGCATGTTGAAAGATTCGCGCAGCGATCAGTTACTGGCGATG -GTCGGGCCGGGACTAATGCTTTGGGCACCGCGAGAATACGAACTGTTCCGACTAATGGATAATTCTCTGGCGGAA -GATTTGCTCTGGAGTTACCTGCAACGCGCGCCAGTGGCGGAGTCGTTCATCTGGCGGCGTTGGTTGTATGTGTTA -TGGGATGAAGTTGCGCAACTGGTTAATACCGGACGATTTAGTCGGCGCAACTTCGATCTGGCATCAAAATCACTC -TTGCCGTGGCTCGCCTGACGAACCTTTTAGCCACTGCCAGATACGGCCAAGCGTTTCATAGCCAACACGATCGCT -ATGCATCAACCAGACCGGAGAAGGGATTGCCCGTTCCCACGGGTTAAGCGGCGAGTCGATGGCCAACTGATTCGC -CGGGGCTGGTAGCGGATTTAACCCTTCCTGCTGAAAAAAGATCATCGCCCGCGGCAGATGTGATGCGGAGGTCAC -CAGCAGGAAAGGGGCGTCACCAATCGCCTGTTTCACTGCTGCAGCTTCTTCTTCGGTATCTTTTGGCAAATCCAG -GGTGATAATTTGCTCGCGCGGCACGCCCAGCGATTGCGCAACTCTGGCACCTACTTCCGCTGTACTCACCGTATT -GGTTTTTGCTACGCCTCCCGTGAAGATCAGTTTTGATCCCGGATTTTCGCGCCATAAGCGAATACCTTCATTCAG -GCGTGGCAGACTGTTATTGATTAAATTAGAGCTCGGTGCCCACTGCGGGTTCCAGGTATAACCACCTCCGAGCAC -CACGATATAGTCCACTTTTTGCGAATTATTCCATGTCGGATAGGTGCTTTCGATGGGACGCAGCAGGCGGTCGGC -TACCGGTTGCAAACTCAATAACAAGAGCGCCAGCCACCCAATGCTAATAAAAATCTTCCCGGTTTTTTGAAAACG -GCTAAACCACAGCAGCGCCAGGCCAGCGCCAATAATCAACAACATCAGCGGAAGTGGCAGCAACATATTGCCAAT -CACTTTTTTCAGTGTAAAAAGCATCCTTTCTGGTTCCTTTTTTAACCATATAGCAAGGGATCGCCAGCGATATTA -CACCAGACGGGTTCATTCTCGCCGTGGCTGTGACAAAATAGCGTCTTTATCAGAAAACGTCTTAGCCAACCGGTG -GAGAAAGCAATGCAGGATCGCAATTTTGATGATATTGCGGAAAAGTTTTCCCGTAACATTTACGGCACCACCAAA -GGGCAGCTTCGACAGGCTATTCTGTGGCAGGATCTCGATCGCGTGCTGGCGGAAATGGGCCCGCAAAAACTGCGT -GTGCTGGATGCTGGCGGTGGAGAAGGGCAGACCGCAATCAAAATGGCCGAGCGTGGGCATCAGGTCATTTTATGC -GATCTTTCTGCGCAGATGATCGACCGCGCAAAACAGGCGGCAGAAGCAAAAGGTGTGAGCGACAACATGCAATTT -ATACATTGCGCCGCTCAGGATGTTGCTTCGCATTTGGAAACGCCCGTTGATCTGATATTGTTCCATGCGGTGCTC -GAGTGGGTGGCTGATCCCCGCAGCGTATTGCAGACCCTCTGGTCAGTGTTGCGTCCAGGCGGCGTGTTGTCGTTA -ATGTTCTACAATGCGCATGGTTTGTTGATGCATAACATGGTCGCCGGGAATTTTGATTACGTGCAGGCGGGAATG -CCGAAAAAGAAAAAACGGACGCTTTCGCCAGATTATCCACGCGACCCGGCGCAGGTTTATCTGTGGCTGGAAGAA -GCTGGTTGGCAAATTATGGGTAAGACAGGCGTTCGCGTGTTTCATGATTATCTGCGCGAGAAACACCAGCAGCGC -GACTGCTATGAAGCATTACTTGAATTAGAAACGCGTTATTGCCGTCAGGAACCGTATATTACCCTGGGGCGTTAT -ATTCATGTCACCGCGCGCAAACCGCAGAGCAAGGATAAAGTATGAGTGAATTTTCCCAGACAGTCCCCGAACTGG -TTGCCTGGGCCAGAAAAAATGACTTCTCCATCTCGCTGCCGGTAGACCGACTCTCTTTTCTGCTGGCGGTTGCCA -CGCTGAACGGCGAGCGTCTGGATGGTGAGATGAGTGAAGGCGAGCTGGTGGATGCATTCCGCCATGTGAGTGATG -CGTTTGAGCAAACCAGCGAAACCATCGGCGTGCGCGCCAATAACGCGATCAACGACATGGTGCGTCAACGTCTGC -TGAACCGCTTTACCAGCGAGCAGGCGGAAGGGAACGCAATTTACCGTCTGACGCCGCTCGGCATCGGCATTACTG -ACTACTACATCCGTCAGCGCGAGTTTTCTACGCTGCGTCTTTCTATGCAGTTGTCGATTGTGGCGGGTGAGCTCA -AACGCGCAGCAGATGCCGCCGAAGAGGGCGGTGATGAATTTCACTGGCACCGTAATGTCTATGCGCCACTGAAAT -ATTCGGTAGCAGAAATTTTCGACAGTATCGACCTGACGCAACGTCTGATGGACGAACAGCAGCAGCAGGTGAAGG -ACGATATCGCCCAGTTGCTGAACAAAGACTGGCGGGCGGCGATTTCCAGCTGTGAATTGTTGCTTTCGGAAACTT -CCGGAACGCTGCGTGAATTGCAGGATACGCTGGAAGCGGCAGGCGACAAATTGCAGGCTAATCTGTTGCGCATTC -AGGATGCGACGATGACCCATGACGATCTGCATTTCGTCGATCGTCTGGTGTTCGATCTGCAGAGCAAACTCGATC -GTATTATCAGTTGGGGCCAGCAATCCATCGACTTGTGGATTGGCTACGACCGCCACGTACACAAATTTATTCGTA -CCGCGATCGATATGGATAAAAACCGCGTCTTTGCTCAGCGGTTACGTCAGTCGGTACAAACCTATTTTGATGAGC -CGTGGGCGCTAACTTATGCCAATGCCGATCGTCTGCTGGATATGCGTGACGAAGAGATGGCACTGCGCGATGAAG -AAGTGACTGGGGAACTTCCTGAGGATCTGGAATACGAAGAGTTTAACGAGATCCGCGAACAGCTGGCGGCGATCA -TCGAAGAACAACTTGCCGTGTACAAAACCAGACAAGTGCCGCTGGATCTTGGTCTGGTGGTACGCGAATATCTGT -CACAGTATCCGCGTGCACGTCACTTTGACGTTGCGCGTATTGTTATTGATCAGGCGGTACGTCTTGGCGTAGCGC -AAGCAGATTTCACCGGACTGCCAGCGAAATGGCAGCCGATTAATGATTACGGAGCCAAGGTACAGGCGCATGTCA -TCGACAAATATTGAACAAGTGATGCCGGTTAAGCTGGCGCAGGCGCTGGCGAATCCGTTATTTCCGGCGCTGGAC -AGCGCCTTACGTTCAGGACGCCATATTGGCCTCGACGAACTGGATAATCATGCATTCCTGATGGATTTTCAGGAA -TATCTGGAAGAGTTTTACGCGCGTTATAACGTTGAGCTTATTCGCGCACCAGAAGGGTTCTTCTATTTACGCCCA -CGTTCCACCACGCTGATCCCTCGTTCCGTCTTGTCGGAACTGGATATGATGGTCGGGAAAATCCTCTGTTATCTC -TATCTCAGCCCGGAACGGCTGGCGAATGAGGGGATTTTCACCCAGCAGGAACTGTACGACGAACTGCTCACCCTG -GCCGATGAAGCAAAACTGCTGAAACTGGTGAACAACCGTTCAACCGGTTCAGACGTTGACCGTCAGAAGTTGCAG -GAGAAAGTACGTTCTTCGCTCAACCGTCTGCGTCGTTTAGGCATGGTGTGGTTTATGGGCCACGACAGCAGCAAG -TTTCGCATTACCGAATCGGTGTTCCGCTTCGGAGCCGATGTGCGTGCTGGCGACGATCCCCGTGAAGCACAGCGT -CGCCTGATTCGTGATGGCGAAGCAATGCCGATTGAAAATCATCTGCAACTCAACGATGAAACCGAAGAGAATCAG -CCAGATAGCGGAGAGGAAGAATAATGATTGAACGCGGTAAATTTCGCTCACTGACGCTGATTAACTGGAACGGCT -TTTTTGCCCGAACTTTTGACCTTGACGAGCTGGTCACGACGCTTTCTGGCGGTAACGGGGCGGGTAAATCCACCA -CCATGGCGGCGTTCGTTACGGCGCTGATCCCCGACCTGACCCTGCTGCATTTCCGTAACACTACGGAAGCCGGGG -CCACCAGCGGTTCGCGCGATAAAGGTCTGCACGGTAAGCTGAAAGCGGGTGTCTGTTATTCGATGCTCGACACCA -TTAACTCGCGCCACCAGCGCGTGGTGGTCGGTGTGCGTCTGCAACAGGTTGCCGGACGCGATCGTAAAGTGGATA -TCAAGCCGTTTGCCATTCAGGGACTGCCGATGTCGGTGCAGCCGACACAGCTGGTGACCGAAACCCTGAACGAAC -GCCAGGCGCGCGTGCTGCCGCTTAACGAGCTGAAAGACAAGCTCGAGGCGATGGAAGGCGTGCAGTTTAAACAGT -TCAACTCCATTACTGATTACCACTCGCTGATGTTCGATCTGGGCATCATCGCGCGTCGTCTGCGCTCCGCATCTG -ACCGTAGCAAATTCTATCGTCTGATCGAAGCTTCGCTGTATGGCGGGATCTCCAGTGCCATTACCCGTTCTCTGC -GCGACTACCTGTTGCCAGAAAACAGCGGCGTGCGTAAAGCGTTCCAGGACATGGAAGCGGCGCTGCGTGAAAACC -GTATGACGCTGGAAGCGATTCGTGTCACCCAGTCGGACCGCGACCTGTTTAAGCATCTGATCAGCGAAGCCACCA -ACTACGTGGCGGCGGACTACATGCGTCACGCCAACGAGCGCCGTGTCCATCTCGACAAAGCCCTGGAGTTTCGTC -GCGAGCTACATACTTCGCGTCAGCAACTGGCGGCTGAGCAGTACAAACACGTCGATATGGCGCGTGAGCTGGCAG -AGCACAACGGTGCCGAAGGCGATCTGGAAGCGGATTATCAGGCGGCCAGTGATCACCTGAACCTGGTGCAAACCG -CACTGCGTCAGCAGGAGAAGATCGAACGCTACGAAGCGGATCTCGATGAGCTGCAGATCCGTCTGGAAGAGCAAA -ATGAAGTGGTGGCAGAAGCCATCGAACGCCAGCAAGAGAATGAGGCTCGTGCGGAAGCTGCCGAACTGGAAGTGG -ACGAGCTGAAAAGCCAGCTTGCTGACTACCAGCAGGCGCTGGACGTCCAGCAAACGCGCGCGATCCAGTATAACC -AGGCGATTGCTGCGCTTAATCGTGCCAAAGAACTGTGCCATCTGCCGGACTTAACCGCCGACTGCGCCGCCGAAT -GGCTGGAAACCTTCCAGGCGAAAGAGCTGGAAGCGACTGAAAAAATGCTCTCTCTTGAGCAGAAAATGAGCATGG -CGCAAACCGCGCACAGCCAGTTTGAGCAGGCTTATCAGCTGGTGGTGGCAATCAACGGCCCACTGGCGCGTAACG -AGGCGTGGGATGTCGCTCGCGAACTATTGCGCGAAGGGGTCGATCAGCGTCACCTGGCAGAGCAGGTTCAGCCGC -TGCGGATGCGATTAAGCGAACTGGAACAGCGTCTACGCGAGCAGCAAGAAGCTGAGCGTCTGCTGGCAGATTTCT -GCAAACGTCAGGGCAAGAATTTTGATATCGACGAACTGGAAGCCCTGCATCAGGAACTGGAAGCACGCATTGCCT -CTCTTTCCGATAGCGTGTCTAACGCCCGTGAAGAGCGCATGGCACTGCGCCAGGAGCAGGAACAGCTGCAGTCTC -GCATTCAGAGTTTGATGCAGCGTGCGCCGGTTTGGCTGGCAGCGCAAAACAGTCTCAACCAGTTGAGCGAACAGT -GCGGCGAAGAGTTTACCTCCAGCCAGGACGTCACCGAATATCTGCAACAGTTGCTGGAGCGTGAGCGAGAGGCGA -TTGTTGAACGCGATGAAGTGGGCGCGCGCAAAAACGCCGTCGATGAAGAGATCGAACGTTTAAGCCAGCCTGGCG -GCTCTGAAGATCAGCGTCTGAACGCGCTGGCGGAGCGTTTTGGTGGTGTGCTGCTGTCAGAAATTTATGACGACG -TTAGCCTGGAAGATGCGCCGTACTTCTCAGCGCTGTATGGCCCGTCACGCCACGCCATCGTGGTGCCAGATCTGT -CACAGGTAACTGAACACCTGGAAGGCTTGACCGATTGCCCGGAAGATCTCTATCTGATCGAAGGAGATCCGCAGT -CATTCGATGACAGCGTGTTCAGCGTTGATGAGCTGGAAAAAGCGGTAGTGGTGAAAATCGCCGATCGTCAGTGGC -GTTATTCACGTTTCCCGGAAGTGCCGCTGTTTGGTCGTGCTGCGCGTGAAAGCCGTATTGAAAGCCTCCATGCCG -AGCGTGAAGTGCTTTCCGAACGCTTCGCCACGCTCTCCTTTGATGTACAGAAAACTCAGCGTCTGCATCAGGCGT -TCAGCCGCTTTATCGGCAGTCATCTGGCGGTTGCGTTTGAGTCTGACCCGGAAGCAGAAATCCGTCAACTGAACA -GCCGTCGCGTCGAACTGGAGCGGGCGTTAAGTAATCATGAAAATGATAACCAGCAGCAGCGTATTCAGTTTGAGC -AGGCGAAAGAGGGCGTTACGGCGCTGAACCGCATTCTGCCGCGTCTCAACCTGTTGGCTGATGACAGCCTGGCGG -ATCGCGTCGATGAAATCCGCGAACGTCTGGATGAAGCCCAGGAAGCCGCGCGTTTTGTTCAGCAGTTTGGCAATC -AACTGGCGAAACTGGAACCGATTGTTTCGGTATTGCAGAGCGACCCGGAACAGTTCGAACAGTTAAAAGAAGATT -ACGCGTACTCTCAGCAGATGCAGCGCGATGCCCGTCAGCAGGCGTTTGCCCTGACGGAAGTGGTGCAGCGTCGTG -CGCACTTTAGCTATTCTGACTCGGCAGAAATGCTTAGCGGTAACAGCGATCTCAACGAAAAACTGCGTGAACGTC -TGGAACAGGCGGAAGCGGAGCGTACCCGCGCTCGCGAAGCGTTGCGCGGTCACGCAGCGCAGTTGAGTCAGTACA -ACCAGGTGCTGGCTTCGCTGAAAAGTTCTTACGACACCAAAAAAGAGCTACTCAACGATCTGCAACGTGAATTGC -AGGATATCGGCGTGCGTGCTGATAGCGGGGCAGAAGAGCGGGCGCGTATTCGCCGTGACGAGCTGCATGCGCAAC -TGAGCAATAACCGTTCACGCCGCAATCAACTGGAAAAAGCGCTTACCTTCTGCGAAGCGGAGATGGACAACCTGA -CCCGCAAACTGCGCAAGCTGGAGCGGGATTACTTTGAGATGCGCGAGCAGGTAGTGACCGCCAAAGCGGGCTGGT -GTGCGGTGATGCGCATGGTGAAAGATAACGGCGTTGAGCGCCGCTTACACCGTCGTGAGCTGGCTTATCTCTCCG -CTGATGATTTGCGTTCCATGTCGGATAAGGCGTTAGGTGCGCTGCGTCTGGCGGTGGCGGATAACGAACATCTGC -GCGACGTGCTGCGCATGTCGGAAGATCCGAAACGTCCGGAGCGTAAAATTCAGTTCTTCGTGGCGGTTTATCAGC -ATCTGCGTGAACGTATTCGTCAGGATATTATTCGTACCGATGATCCGGTGGAAGCTATCGAACAGATGGAGATTG -AACTTAGCCGTCTGACCGAAGAATTAACCTCCCGTGAACAGAAACTGGCGATCAGTTCCCGCAGCGTGGCGAACA -TCATTCGCAAAACCATTCAGCGCGAGCAGAACCGTATCCGTATGCTCAACCAGGGGTTGCAGAACGTATCGTTTG -GTCAGGTGAACAGCGTGCGTCTCAACGTGAACGTGCGTGAAACGCACGCCATGCTACTGGATGTGCTCTCTGAAC -AGCACGAGCAGCATCAGGATCTGTTTAACAGCAACCGTTTGACCTTCTCGGAAGCGCTGGCGAAACTGTATCAAC -GTCTTAACCCGCAGATTGATATGGGGCAGCGCACGCCGCAGACCATCGGTGAAGAACTGCTGGATTACCGCAACT -ATCTGGAAATGGAAGTTGAGGTTAACCGTGGTTCCGATGGCTGGCTGCGCGCAGAGTCTGGTGCATTGTCGACCG -GTGAGGCGATTGGTACCGGTATGTCGATTCTGGTGATGGTGGTACAAAGCTGGGAAGATGAATCTCGCCGCCTGC -GCGGTAAAGATATCTCTCCTTGCCGCCTGCTGTTCCTCGATGAAGCAGCGCGACTGGATGCTCGTTCTATCGCCA -CGCTGTTTGAATTGTGTGAGCGTTTGCAAATGCAACTCATCATCGCAGCGCCGGAAAATATCAGCCCGGAGAAAG -GCACCACCTATAAACTGGTGCGTAAAGTCTTCCAGAATACCGAACACGTTCATGTCGTCGGCCTGCGAGGATTTG -CGCCGCAACTCCCTGAAACGCTTCCAGGAACTGACGAAGCGCCTTCTCAGGCGAGTTAAAATTAAGGCGGCAGCA -ATGCCGCCTTTTCTTTTTCCGAAAACTCCGTTTCTGCACTAAAAAAGTGGCACATTACGGCGCGCTTTTCTTTAA -ACTTCTTTACATTAGGTTATGTAAAAACGTATCGGCGTTTATATACTGAAGATAAGCCTGATGAGTAACAGGCTT -GCTCGTCATACTTTCGTGAGTATTGGCGTTGTACAGGCAAGTCGTAAAATAACAGCCTGGCTATTCAGAGTATGA -TAAAAACAGGGGGCAAGGGATGTTGCTTAATATGATGTGTGGTCGTCAGCTGTCGGCAATCAGTTTGTGCCTGGC -CGTAACATTCGCTCCACTGTTCAATGCGCAGGCCGATGAGCCTGAAGTAATCCCTGGCGACAGCCCGGTGGCTGT -CAGTGAACAGGGCGAGGCACTGCCGCAGGCGCAAGCCACGGCAATAATGGCGGGGATCCAGCCATTGCCTGAAGG -TGCGGCAGAAAAAGCCCGCACGCAAATCGAATCTCAATTACCCGCAGGTTACAAGCCGGTTTATCTTAACCAGCT -TCAACTGTTGTATGCCGCACGCGATATGCAACCCATGTGGGAAAACCGTGATGCTGTTAAAGCCTTCCAGCAACA -GCTGGCAGAGGTGGCGATTGCCGGTTTCCAGCCGCAGTTTAATAAATGGGTAGAGTTACTGACCGATCCTGGTGT -TAACGGGATGGCACGCGACGTGGTGCTCTCTGATGCGATGATGGGCTATCTCCATTTCATTGCAAATATTCCGGT -CAAAGGCACTCGCTGGCTATATAGCAGTAAACCTTATGCACTTGCAACGCCGCCGCTCTCGGTGATTAACCAATG -GCAGCTGGCGCTGGATAAAGGTCAATTGCCTACGTTTGTTGCAGGACTGGCACCGCAGCATCCGCAATATGCGGC -GATGCATGAATCGTTACTGGCCTTACTCTGTGACACCAAACCGTGGCCCCAACTGACCGGCAAAGCAACGTTGCG -CCCAGGGCAGTGGAGTAACGACGTACCGGCGTTGCGCGAAATATTGCAACGCACAGGCATGTTGGACGGGGGGCC -GAAAATTACTCTACCTGGCGATGACACGCCAACTGACGCGGTAGTCAGCCCATCCGCTGTTACTGTTGAAACAGC -AGAAACTAAGCCGATGGATAAGCAAACGACGTCTCGTAGTAAACCTGCGCCTGCCGTTCGCGCCGCCTACGATAA -TGAACTGGTGGAAGCCGTTAAACGTTTTCAGGCATGGCAAGGATTGGGGGCAGATGGTGCTATTGGCCCGGCAAC -ACGTGACTGGTTAAACGTAACGCCCGCCCAGCGTGCTGGTGTGTTGGCTCTCAACATCCAGCGATTGCGCTTGCT -GCCAACAGAGCTTTCTACCGGGATCATGGTTAACATTCCGGCCTATTCGCTGGTCTACTATCAGAACGGCAATCA -GGTGCTGGATTCGCGAGTCATTGTCGGTCGCCCCGATCGCAAAACGCCGATGATGAGCAGTGCCCTTAACAACGT -AGTGGTAAACCCGCCGTGGAACGTACCTCCAACTCTGGCACGCAAAGATATTCTGCCAAAAGTGCGCAACGATCC -GGGATATCTCGAAAGCCATGGCTATACGGTGATGCGCGGCTGGAACAGCAGAGAAGCGATTGACCCATGGCAGGT -TGACTGGTCTACAATCACGGCCTCGAATTTACCGTTCCGCTTCCAGCAGGCTCCAGGCCCACGGAACTCGCTGGG -GCGCTATAAATTCAATATGCCGAGTTCAGAGGCCATTTATTTGCATGACACGCCGAACCACAATCTGTTCAAGCG -TGATACACGCGCATTGAGCTCAGGCTGTGTACGAGTGAATAAAGCTTCCGATCTGGCGAATATGCTGTTGCAGGA -TGCAGGCTGGAATGACAAACGTATTTCTGATGCGCTGAAGCAGGGTGATACACGTTACGTCAATATTCGGCAGTC -GATTCCGGTGAATCTCTACTACCTGACGGCCTTTGTTGGTGCAGATGGTCGTACCCAGTATCGTACAGATATTTA -CAATTATGATCTGCCTGCGCGATCCAGCTCGCAAATCGTATCGAAAGCGGAACAATTAATCAGGTAAATGAAGTA -GTTCGGGGAAATCAGTTGTCGTAATAATTAGCATGATTGGGGGCGATTCTCTGCAGCCCCCGTCACTGCTGGGGT -TGAGTCATCTTGACGTCTGCTTTACGGGCGGTTAAGGTGCCTCTTGTGCGCCAGAAGTGCATATAAACGATAACA -TTGACCTGTAGACTTGATTATCATGGACAAATTCGACGCTAATCGCCGCAAATTGCTGGCGCTTGGTGGCGTTGC -ACTCGGTGCCGCCATCCTGCCGACCCCTGCGTTTGCAACACTCTCTACCCCACGCCCGCGCATTTTGACACTCAA -TAATCTTCATACCGGAGAGTCAATCAAAGCGGAGTTTTTCGATGGCAGAGGCTATATTCAGGAAGAATTGGCAAA -ACTTAACCATTTTTTCCGCGATTACCGCGCGAACAAAATAAAGTCCATCGACCCAGGATTATTCGACCAGTTGTA -TCGCCTGCAAGGGTTGTTAGGCACGCGCAAACCGGTGCAACTCATTTCCGGTTATCGTTCTATTGATACCAACAA -TGAACTACGCGCCCGCAGCCGTGGAGTAGCGAAGAAAAGCTATCACACTAAAGGCCAGGCGATGGATTTCCATAT -TGAAGGTATCGCGTTAAGCAATATTCGCAAAGCCGCGTTATCTATGCGCGCAGGTGGTGTAGGATATTATCCACG -TAGTAACTTTGTGCATATTGATACCGGGCCAGCACGGCACTGGTAGTAATTGCTTAACGAAACAGGGGCAGTATG -AACTATCGTATTATTCCGGTCACCGCATTCTCCCAGAACTGTTCATTAATCTGGTGTGAACAAACCCGTCTGGCC -GCACTGGTCGATCCTGGCGGCGATGCGGAAAAAATCAAACAGGAAGTTGATGACAGCGGCCTGACACTGATGCAG -ATCCTGCTGACGCATGGTCATCTGGACCACGTTGGCGCAGCGGCGGAACTGGCGCAACATTACGGCGTGCCGGTT -TTCGGCCCGGAAAAAGAAGATGAGTTCTGGCTGCAAGGCTTGCCTGCGCAAAGTCGTATGTTTGGTCTGGAAGAG -TGCCAGCCGCTGACGCCAGATCGTTGGCTGAACGAAGGCGATACCATCAGCATAGGGAATGTGACTTTACAGGTG -TTACATTGCCCTGGGCATACGCCGGGTCATGTCGTGTTTTTTGATGATCGGGCAAAGCTGCTGATTTCTGGCGAT -GTTATTTTCAAAGGCGGAGTAGGGCGCAGTGACTTCCCGCGTGGCGATCATAATCAACTGATTTCTTCAATCAAA -GATAAATTGCTGCCACTGGGGGATGACGTGATATTTATTCCGGGTCACGGACCATTATCCACACTTGGTTATGAA -CGCCTGCATAATCCCTTCCTGCAAGACGAAATGCCCGTCTGGTAAGGCACATAAAAAAGCCCGCTTTTAATGCTG -GCCTGGATTTCTGGCAAAGTGCGCTTTGTTTATGCCGGATGCGGCACGAGCGCCTTATCCGGCCTACAAAATCGT -GCAAATTCAAAATATTGCAGGGGACGCGTAGGCCTGATAAGCGTAGCGCATCAGGCAATGTTGCGTTTGTCATCA -GTCTCAGCCCGCTTTTCAGCGGGCTTCATTGTTTTTAATGCTTACAGCACTGCCACAATCGCTTCGCACAGCGGA -GCCATGTTATCTGGTGTCATCCCGGCCACATTTACGCGACCAGAAGCAACCGCATATACGCCAAACTCTTCGCGC -AGACGCAGCACTTGTTCTTTTGTCAGGCCACTGAAGGAGAACATGCCGTTCTGTTTGATGATAAAGCTGAAGTCG -CGGTTTGCGCCTTTTTCCTGCAGCGTATTGACGAACAACTGACGCATACGCTGAATACGCTGGCGCATATCAGTC -AGCTCTTGTTCCCAAATCGCACGTAACGCATCGTTGCTCAGGATGGTGGCAACAACAGAAGCGCCGTGTGCTGGT -GGGTTAGAGTAGTTAGCGCGAATCGCCGCTTTCATTTGGCTGAATGCGCGATCAACGGTTTCACTGTCGGCAGCA -ACCAGAGTACAAGCGCCAACACGCTCGTTGTACAGGCCAAAGTTTTTAGAGTAGGAACTGGCAACAATCAGCTCT -TTATGCATAGCCGCGAAAGCGCGCAGTCCTTCAGCATCTTCTTCCAGACCACGGGCAAAACCCTGGTAAGCGAAG -TCAAACAGCGGTAACCAGCCTTTCTCAACGGAGAGTTGTGCCAGTGTTTGCCATTGTTCCAGCGTAGGGTCGATA -CCGGTTGGGTTATGGCAGCAGCCATGGAACAGCACTACGTCGCCAGCCTGAGCTTCATTCAGGCTGTTAATCAGT -GCATCGAAGTCAAGAGTGTGATTTTCCGCATCATAATAAGCGTATTCACGAACTTCCAGACCTGCAGAGTTAAAG -ACGCTCTTATGGTTCGGCCAGCTTGGGTTGCTCACCCACACACGCTTAACGCTGGTATTTTTTGCCAGGAAATCG -GCAGCCACGCGTAGTGCGCCAGTGCCCCCCGGAGTCTGTGCCGTGCGAGCACGTTTGTCATTGATCAGGGCGCTA -CCTTTACCAAACAGCAGTTCCTGAGTGCAGCGACCAAATTCAGGGATGCCGTCAATGCCGAGGTAATTTTTGGTG -GTTTCATTTTCGAGCAGATACTGTTCAGCCTTTTTCACGCTGGTCAGTACCGGGGTTTTGCCCGTCTCATCTTTA -TAGACACCAATCCCGAGGTTAATTTTGCCGGGACGTTCATCGGCACGAAACAGATCGGCCAGGCCCAGAATCGGG -TCGGCAGGAGCGGCGGTAATGTTCTCAAACATGACGAGGTTCCATTATGGTTACAGAAGGGAAGTCCGCTATCAG -GGTAACGGGAGATTTACAAAATTCCAACTATTACTGATGAAAACGCAGGCTGTTTTTGCAAGACGTGAGATTGCT -CTGGAAGGTATAAAAAAAACAGGACCAAAGTCCTGTTTTTTCGGCATTTAACAAAGAGGTGTGCTATTAGAACTG -GTAAACGATACCCACAGCAACGGTGTCGTCTGAACCTACGCCCAGTTTGTTGTCAGAATCGATCTGGTTGATGAT -GTAGTCAACATAGGTGGACATGTTTTTGTTGAAGTAGTAGGTTGCGCCCACTTCAAAGTAGTTCACCAGATCAAC -ATCACCGATACCTTCTACGTCTTTCGCTTTAGATTTGGTGTAAGCGATGGACGGACGCAGACCGAAATCGAACTG -GTATTGCGCAACTAACAGAACGTCTTGCGTTTTGTTGGCGAAGCCGCTGGTGTTTGTAAATTTATTAGTGATCGG -CGTAGCGTTACGGGTTTCACCGTAGTTCGCTGCCAGGTAGATGTTGTTCGCGTCGTACTTCAGACCAGTAGCCCA -CTGTTCAGCTTTTTTACCGTTGCCAAGAGGTTGAGCTTCTTGCAGGTTGGTACGGTCAGCTGCACCATAAGCACC -AACGATACCAAAGCCTTCGTATTCGTAGCTGATAGAACCGCCAACACCGTCGCCGTTAGAACGGCGTGCAGTGTC -ACGCTCGTTTTTACCCAGGTACTGAACAGCGAAGTTCAGGCCATCAACCAGACCAAAGAAGTTGGAGTTACGATA -GGTAGCAACGCCGCCAACACGACCAACGAAGAAGTCATCGCTGTATGCAGTATCACCACCAAATTCTGGCAGCAT -ATCGGTGTAACCCAGTGCATCATAAACCACACCGTAGTTACGGCCGTAATCGAAAGAACCAACGTCAGCGTATTT -AAGACCCGCGAATGCCAGACGCGTTTTGTTACCAGTTTGAGCGTCAGCGCCTTCAGAGTTGTTACCCTGGAAGTT -ATATTCCCACTGACCATAACCGGTCAGATCGGAATTGATTTGAGTTTCCCCTTTAAAACCAAGACGGGCATAGGT -CATGTCGCCATTGCCACCGTAACTGTTTTCACCGTTACCCTTGGAAAAATAATGCAGACCAACAGCTTTACCGTA -CAGATCTACTTTGTTGCCATCTTTGTTATAGATTTCTGCAGCGTTTGCAGTACCTGCTACTAACAGAGCAGGGAC -GATCACTGCCAGAATATTGCGCTTCATCATTATTTATTACCCTCATGGTTTTTTTTATGACACCTGCCACTGCCG -TCAATAAGTTCTGTCAATAAAAATTTACGGAACTATTGATGAGAGTTTGGTGTCTTTATGTGTCTGCAGGCATCT -TTCCATTCAAACTAACGTTTCGCTACCGTGAAAGTGCTACAAAGATAAAGATTTGGTTTCAAAAAGAAAAAATAT -GTAACCAAAAGTAAAATTTAAGGAACTTTGTGAACACCGTCATATTTCCATAGAGACGTGATGATATTTACAGCA -ATTTTAATCTATTTATATGATTTCCTTATATTTAAATTAACTAAACGGAAATTTTGTTTCTGATGGAAACTTTAT -CGACCTGGCACAAAATCTTCTTTCAGACATCCAGAATGCCAAAAAATAGTATGAAAATTGTGCTATTAGCTAAGA -AAAAACTAATCCGCAATAAGAATGCGGATTAGTTTTTGCGCGTAAATGTTGCAATGTAATATTCCGTAACAGGAT -GATCGTTATGGCGGGGTTGCAAATAGATTGCTTGACTTAACAAACAGATAACTTGACAGAAAAGATAAAAAAAGA -GCCAGCGGGCGCTGGCTCTTGAAGACGCTAAATTAGAAGCTGGCGTTACGCGGAGTACGTGGGAACGGAATCACA -TCACGTACGTTTTGCACGCCAGTTACGTAAGCAATCAGACGTTCAAAACCAAGACCGAAACCTGAATGCGGAACA -GTACCGTAGCGACGCAGATCGCGATACCACCAGTAATCTTCTTTATTCAGGCCCATTTCCAGCATACGCTCGTCC -AGCACGTCCAGACGTTCTTCACGCTGGGAGCCACCAATGATCTCACCGATGCCCGGAGCCAGAACGTCCATAGCC -GCAACGGTTTTACCGTCTTCGTTAAGGCGCATATAGAACGCTTTAATATCTTTCGGATAGTTTTTAACCACTACC -GGTGCTTTAAAGTGTTCTTCCGCCAGATAACGCTCATGCTCAGAAGAGAGATCGACTCCCCAGTAAACCGGGTTT -TCAAACTTCCTGCCGCAGTTTTCGAGAATGGTCACTGCGTCGGTATAATCCACCTGCGCAAAATCGGCTTCAATG -AAGCGTTCCAGACGTGAAACGGCATCTTTATCTACGCGTTCAGCGAAGAATTTCATGTCGTCAGCGCGTTCTTCG -AGAACCGCTTTGAAGACATATTTCAGCATGGCTTCAGCCAGACCCGCAATATCGTTCAGGTTAGCAAACGCCACT -TCCGGCTCCAGCATCCAGAATTCCGCCAGGTGACGGCTGGTGTTGGAGTTTTCAGCACGGAAAGTCGGGCCGAAG -GTATAAATTTTGGACAATGCGCAAGCGTAGGTTTCGCCGTTCAACTGGCCAGATACGGTCAGGAAAGACTCTTTA -CCAAAGAAGTCTTTGTCGAAATCCACTTTGCCCTGATCGTTACGCGGCAGGTTTTCCAGATCCAGCGTAGAAACG -CGGAACATTTCGCCTGCACCTTCGGTATCAGATGCGGTAATCAGTGGCGTTGAAACCCAGAAGAATCCCTGCTCG -TTAAAGAAGCGATGCAGCGCCTGCGCCAGCGTATGGCGAACGCGCGCGACGGCACCAATCAGGTTTGTGCGCGGA -CGCAGGTGAGCGACTTCACGCAGATACTCAATGCTGTGGCGTTTTGCCGCCATCGGGTAAGTGTCTGGATCTTCA -ACCCAACCAGCAACTTCAACCTTGCTGGCCTGAATTTCAAATTGTTGCCCCTGGCCCGGCGACGCCACGACTTTA -CCCGTCACAATGACCGAGCAGCCGGTGGTCAGACGCAGGACGTCTTCATTGTAATTGGGCAGAGAATTATTGATG -ACAGCCTGTACAGGATCAAAGCAGGAACCGTCATAAACGGCGAGGAAGGAGATGCCAGCTTTTGAATCTCGGCGG -GTACGTACCCATCCGCGCACGGTGACTTCGCTGTCAACGGCTACACGGCCCTGGAGTACGTCGGCTACAGGCACA -ACGCTCATAATATTCTCTCTGTTAATAGTCGGAAAAAATAAACACTTGTCCACCCGTAAATGGGGGGATACCTAT -GTTACCTGGCATCTGCAATCAGACAAGCAGAATTCGCAAATGCAGCGAAAGATTTCGGAATTAAAGGTAAAAAAA -GGGAGCCGATTAGCTCCCTGATGATATTAACTGGCTTTTTTAATATGCGGAAGGTCGAACGCTTTGCGCAGCGCC -CGAACAAACGCTTTATCATGGCAGATAGTTTTGCCAGGGCTGTCAGAAAGTTTCGCCACCGGTTTACCGTTACAC -TCTACCAACTTAATGACAATATTCAGGGGTTTTACCTGGGGGATATCGCAGGTCAGGCGAGTCCCAATACCAAAA -CTTAATTGCACGCGGGAAGAGAAGTGGCGGTATAGCTCAACCGCTTTGCGTAAATCCAGATTGTCAGAGAAAACC -AGCGTTTTACTCTGTGGATCAATTCCCAGCTTTTCATAATGTGCAATGGCTTTTTCACCCCATTCAACCGGGTCG -CCAGAGTCATGACGCAGGCCCTGATACCGACTAGCGAACTCGACACCGAAATCACGCAGGAAAGCATCCATAGTG -ATGCAGTCGGTTAATGCAATGCCAAGTTGGTCGGGATACTCTTCCAGCCAGGCAGCAAGTGCAGCTCGCTGGCTG -TTGGCTAGATCCGGGCTGATTTGCTGATGTGCCTGGAACCATTCGTGTGCCTGTGTTCCCATCGGCGTGAGGGAA -AGCCGACGCGCCAGATCGTAGTTGCTGGTGCCCACAAACCAGGATTCCTGTTGCAGACGCTTAACGATGGTTTCT -TGTACTTCGCGAGAAAAACGGCGACGGGTGCCAAAATCCATCAGATGGAAGCGCGACATATCAAGACCGGCGGTT -AACGCCGAGAAGTCGACTAATTTGCTTTCCAGCGTGTCGAGGGCTTGCGCAACGTCGGCCTGCGGTGAGCGATAG -CGATGTACCATTTCACTGATAACCGCCAGCAAAGGAACTTCCCAGAGGATGACTTCACGCCACGGGCCGCTTAAA -CGAATATCCAGCTTGCCATTATCGTTGGACACGGTGACTTGTTCCGGGTTAAAGCGGAACTCGCGTAACCAGTTA -AGATAGTCGGCCTTAAAGAAAGGCAGGGCAGAAAGCCACTGATATTCATCATCCTGCAGGCGCAGGTGCTGCATC -GCCTGAACCTGTTCACGAATAGCATCGGCATAAATACCCAGCAGATCGTCACCTCGGCAACGAAACTCCGCCGCG -ACATGCACATCGTAATAGTGATGAAACACGGCTTGCTGCATATGCAACTTATAAGCATCTGTATCCAGCAACGAG -TGCAGAACAGGAGAAGCGAATTGTGTCATAGGTGCGCAGTAGCGTCCTCGTACAGGAGCGTTTAGTACAATAAAC -ATCTTCAGGAACTGCTGGAGTATACCTTGTTTCGCAATTTATTGAACCCCGATCACACCATATGCCACCTTTCTG -GTCGATGGCATTACGCGGTGTATGTTATAAAAATGTAGCAATAAAGGCGTTTGTACCTGAAAAGATGAAGATTCT -GCATAGCGCGATTTACGCAACAGGAATAGACTGAACACCAGACTCTATAAAAGATGCTAAAGGTTATTTATGACT -CAACAGCCACAAGCCAAATACCGTCACGATTATCGTGCGCCGGATTACCAGATTACTGATATTGACTTGACCTTT -GACCTCGACGCGCAAAAGACGGTCGTTACCGCGGTCAGCCAGGCTGTCCGTCATGGTGCATCAGATGCTCCCCTT -CGTCTCAACGGCGAAGACCTCAAACTGGTTTCTGTTCATATTAATGATGAGCCGTGGACCGCCTGGAAAGAAGAA -GAGGGCGCACTGGTTATCAGTAATTTGCCGGAGCGTTTTACGCTTAAGATCATTAATGAAATAAGCCCGGCGGCG -AATACCGCGCTGGAAGGGCTTTATCAGTCAGGCGATGCGCTTTGCACCCAGTGTGAAGCCGAAGGTTTCCGCCAT -ATTACGTATTATCTCGACCGCCCGGACGTGCTGGCGCGTTTTACCACCAAAATTATTGCCGATAAAATCAAATAT -CCCTTCCTGCTTTCCAATGGTAACCGCGTTGCGCAAGGCGAACTGGAAAACGGACGCCATTGGGTACAGTGGCAG -GACCCGTTCCCGAAACCGTGCTACCTGTTTGCGCTGGTGGCAGGCGACTTTGATGTACTGCGCGATACCTTTACC -ACGCGTTCTGGTCGCGAAGTAGCACTGGAGCTGTACGTCGATCGCGGCAACCTTGATCGCGCGCCGTGGGCGATG -ACCTCGCTGAAAAACTCCATGAAATGGGATGAAGAACGCTTTGGCCTGGAGTATGACCTCGACATCTATATGATC -GTCGCGGTGGATTTCTTCAATATGGGCGCAATGGAGAATAAGGGGCTGAATATCTTTAACTCCAAATATGTGCTG -GCCCGCACCGACACCGCCACCGACAAAGATTACCTCGATATTGAACGCGTTATCGGCCATGAATATTTCCATAAC -TGGACCGGTAACCGAGTGACCTGTCGCGACTGGTTCCAGCTCAGCCTGAAAGAAGGTTTAACCGTCTTCCGCGAT -CAGGAGTTCAGCTCTGACCTTGGTTCCCGCGCAGTTAACCGCATCAATAATGTACGCACCATGCGCGGATTGCAG -TTTGCAGAAGACGCCAGCCCGATGGCGCACCCGATCCGCCCGGATATGGTCATTGAGATGAACAACTTCTACACC -CTGACCGTTTACGAGAAGGGCGCGGAAGTGATTCGCATGATCCACACCCTGCTTGGCGAAGAAAACTTCCAGAAA -GGGATGCAGCTTTATTTCGAGCGTCATGATGGTAGTGCAGCGACCTGTGACGACTTTGTGCAGGCGATGGAAGAT -GCGTCGAATGTCGATCTCTCCCATTTCCGCCGTTGGTACAGCCAGTCCGGTACACCGATTGTGACCGTCAAAGAC -GACTACAATCCGGAAACCGAGCAGTACACCCTGACCATCAGCCAGCGCACGCCAGCCACGCCGGATCAGGCAGAA -AAACAGCCGCTGCATATTCCGTTTGCCATCGAACTGTATGATAACGAAGGCAAAGTGATCCCGTTGCAGAAAGGC -GGTCATCCGGTGAATTCCGTGCTGAACGTCACTCAGGCGGAACAGACCTTTGTCTTTGATAATGTCTACTTCCAG -CCGGTGCCTGCGCTGCTGTGCGAATTCTCTGCGCCAGTGAAACTGGAATATAAGTGGAGCGATCAGCAACTGACC -TTCCTGATGCGTCATGCGCGTAATGATTTCTCCCGCTGGGATGCGGCGCAAAGTTTGCTGGCAACCTACATCAAG -CTGAACGTCGCGCGTCATCAGCAAGGTCAGCCGCTGTCTCTGCCGGTGCATGTGGCTGATGCTTTCCGCGCGGTA -CTGCTTGATGAGAAGATTGATCCAGCGCTGGCGGCAGAAATCCTGACGCTGCCTTCTGTCAATGAAATGGCTGAA -TTGTTCGATATCATCGACCCGATTGCTATTGCCGAAGTACGCGAAGCACTCACTCGTACTCTGGCGACTGAACTG -GCGGATGAGCTACTGGCTATTTACAACGCGAATTACCAGAGCGAGTACCGTGTTGAGCATGAAGATATTGCAAAA -CGCACTCTGCGTAATGCCTGCCTGCGTTTCCTCGCTTTTGGTGAAACGCATCTGGCTGATGTGCTGGTGAGCAAG -CAGTTCCACGAAGCAAACAATATGACTGATGCGCTGGCGGCGCTTTCTGCGGCGGTTGCCGCACAGCTGCCTTGC -CGTGACGCGCTGATGCAGGAGTACGACGACAAGTGGCATCAGAACGGTCTGGTGATGGATAAATGGTTTATCCTG -CAAGCCACCAGCCCGGCGGCGAATGTGCTGGAGACGGTGCGCGGCCTGTTGCAGCATCGCTCATTTACCATGAGC -AACCCGAACCGTATTCGTTCGTTGATTGGCGCGTTTGCGGGCAGCAATCCGGCAGCGTTCCATGCCGAAGATGGC -AGCGGTTACCTGTTCCTGGTGGAAATGCTTACCGACCTCAACAGCCGTAACCCGCAGGTGGCTTCACGTCTGATT -GAACCGCTGATTCGCCTGAAACGTTACGATGCCAAACGTCAGGAGAAAATGCGCGCGGCGCTGGAACAGTTGAAA -GGGCTGGAAAATCTCTCTGGCGATCTGTACGAGAAGATAACTAAAGCACTGGCTTGATAAATAACCGAATGGCGG -CAATAGCGCCGCCATTCGGGGAATTTACCCCTGTTTTCTCAGGCGAGTTTCAGATTCACCACGTTGCATCACCCG -TTGCAACACCTCCGCTTCCAGCTCCGCTAATCGCACCGACCCTAATCGACGCGGACGGGGGATATCCACTGTCAA -ATCCAGACCAATTTTTCCCTCTTCAATTAACAGCACCCGGTCAGCCATCGCTACCGCTTCGCTCACATCATGCGT -CACCAACAGTACGGTAAAGCCGTGCTCCTGCCAAAGTGACACAATCAAATCCTGCATCTCGAGTCGCGTTAAGGC -GTCCAGCGCCCCGAGCGGTTCATCAAGCAACAATAATCCCGGTCGATGAATCAACGCTCTTGCCAGCGCCACTCG -CTGTTTCTGCCCGCCAGAAAGTGCGGCAGGCCATTCCCCTGCGCGATTCTCCAGTCCTACCGCAGCCAACGCTCG -ACGTGCGGCATCGCGCCACTGGCCTTTAAGGCCTAACCCAACGTTATCAATCACCGATTTCCACGGTAGCAGACG -CGCATCCTGAAACATCATTCGCGTGTCTTCCTGAATTTCAGCCAGCGGTGTGGTGCCCGCTAACACATCGCCTGC -GGTTGGCGTTTCCAGACCTGCCAGCAGGCGCAGCAGGGTACTTTTGCCACCACCGCTGCGGCCCACCACCGCCAC -AAACTGACCTGCCGGAATATGTAAATCCAGTTGGTTCAGGACGATATTTTCCGCGTAATGTTTGCTTACTGCATT -GAGCAACAATGGCGTGCCCTGGTTCAGACGAGCAGTATTCATACCGTGGCCTCCTTCAAATGATAAGCCGGGTTC -CAGCGCAACCAGAGGCGCTCTAACAGCTGCGCGCTGACGTCAGCCAGTTTGCCGAGCAGGGCGTAAAGAATAATA -GCGACTACCACCACGTCCGTTTGCAAAAACTCCCGCGCATTCATCGCCAGATAACCAATGCCTGAATTGGCAGAA -ATGGTTTCGGCAACAATCAGCGTCAGCCACATCAGGCCCAACGCAAAACGCACGCCGACCATAATTGAGGGCAGG -GCACCAGGCAGGATCACATGGATAAACAGCGGTATGCCGGATAATCCATAGCTACGCGCCATCTCCACCAACCCG -CGATCGATATTACGGATGCCATGCCAGGTGTTGATATAAATGGGGAATAGCGTACCGAGCGCCACCAGAAAGATT -TTTGCGGATTCATCAATGCCAAACCACAAAATCACCAGCGGGATCAGCGCCAGATGCGGCACGTTGCGCAACATC -TGAATTGAGGTATCCAGCAGCCGTTCTCCCCAGCGAGATAGCCCGCTAATCAGTCCCAAAATCAACCCCAGCGAT -CCGCCAATTGAAAAGCCAATCAGCGCCCGCCAGGAGCTGATCGCCAGATGCTGCCACAGTTCGCCGCTGGCGGAG -AGCGTCCAGAACGCCGTCACCACTCCTTCCGGTGAAGGCAAAATACGCGTCGACAGCCAGCCAACCGAGGAGGCC -AGTTGCCACACCGCCACGATGCCCACCGGTAAAAACCAGGGGGCAACGCGCAATAACCACTTCTTCACTGGCGTT -GCCATTATTTCTTCCTTAGCTTTGCGCGACTTTACGGGGGATAAAATCATTCGCCACCGCTTCGCCTTGCGGATT -CAGCGGCTGCGGCTGGGGAATTTCCGGGATGGCGACATCCAGAAGCGGGAACAGCAACTCGCCAACCCGATACGC -TTCTTCCAGATGCGGATAGCCCGAAAGCACAAAACTGTCGATGCCAAGCGCGGCATATTCGTTGATTCGCGCAGC -GACCGTAGGACCATCGCCCACCAGCGCCGTCCCGGCACCGCCGCGCACTAAGCCAACGCCCGCCCATAAATTGGG -GCTGATCTCCAGATTGTCGCGCTTGCCGTTATGTAACGCCGCCATTCGCTGTTGCCCTACGGAATCCGTCCGGGC -GAATGCGGCCTGTGCTTTGGCGATAGTTTCATCATCAAGATGCGAGATTAACCGCTCGGCGGCCTGCCACGCTTC -GTCGTTAGTTTCACGAACAATCACATGCAGACGAATACCGAAACGAATTTTGCGTCCATGCGCGGCAGCTTTCGC -CCGCACTTGTTCGATTTTCTCTTTAACCAGTTCCGGCGGTTCGCCCCAGGTGAGGTAGAGATCAACCTGTTCTGC -CGCCAGCTCCTGGGCGACATCTGACGATCCGCCAAAGTAAAGTGGCGGATACGGCTGTTGAATCGCCGGGAAGAG -CAGTTTTGCTCCGCGCACATGAATATGTTTACCGTTGAAATCGACGGTTTCTCTCTGCAATAAACGCCGCCAGAC -CTGGGTAAATTCCGCCGAGGCTTCGTAGCGCTCGCTATGATCAAGGAACACTCCGTCGCCTGCCAGCTCTTGTGG -ATCGCTGCCTGTGACCAGGTTAAACAACGCACGTCCATTTGAGAGACGGTCAAGCGTGGCGGCCTGGCGGGCGGC -AACGGTAGGTGAGGTTACGCTGGGACGCAGGGCGACAAGAAACTTCAGCCGCTGCGTCACCGGGATCATCGATGC -GGCAACCAGCCACGCATCTTCGCAGGAGCGCCCCGTTGGAATTAGCACACCGGTATAGCCAAGACGATCCGCCGC -TTGCGCAATTTGTTGCAGATAACCGTGATCAACCGGGCGTGAACCTTCTTCCGTTCCCAGATAATGCCCGTCACC -GTGGGTCGGTAAAAACCAGAACATATTCAGACTCATAATTGTTTTCCTTCCAGTTGAGTGGGCTGCCAGATGCGC -TGGCGAATATCGACTTTTTTCGGCACCAGACGATTTTCATAAAACAGATCTGCCGTTTGCTGCTGTAAGGCGGCA -ACCTCGGCGTTAACCGGTTTGATGGTGGTAGGAGGGCGATGATCTAAGTAAGAGGCAATCACCGGTGCCGGTAAG -CCCATCGTTTTTGCCAGTAAAGCGATGCTTTGCTCGCGCTGGCTGCGGGTTAACGCATCGGCCTCACTAAAGGTT -GCCAGTACGCCCTGAATAAAAGCGCCGTTTTTTTCTGCATAGGGACGAGCTGCCAGATAAAACGATCCAGTTTGA -TTGAGATCGGTGCCGTCTTTCAGCACCCGCACGCCGCCCTGTAATAATGCAGCAGAGTAGTAGGGATCCCAGATA -GCCCAGGCGTCAACGTTACCTTGCTGGAACGCGGCGCGGGCATCAGCGGGCGTCAGGTAAGTGGGTTGGATATCG -GTAAACTTAAGTCCGGCCTGACGCAGTGCACGCAGTAAAAGGTTGTGTGAACTGGAACCTTTCTGAAAGGCAACT -TTGTGACCTTTAAGATCGGCTACGGTTTTGATCGGGCTGTTTTCTGCCACCAGAATCACTTCGGCTTTGGGCTTC -GGTGGCTCGACGCCCACGTACACCAAATCAGCCCCGGCAGCCTGGGCAAAGATTGGCGGAATATCCCCGGTACTG -CCGAGATCAATACTGCCAACGTTTAACGCTTCCAACATTTGCGGACCCGCGGGGAACTCCACCCAGGAGATTTTT -GATTCCGGATAGCGTTTTTCCAGTAACTGGTGGCTTTTTGCCAGCACCATACCAATACTGCCTTTCTGATAGCCT -ATACGTAACGCTTCAGGCGAGGATTCTGCAGCAACCGCAAAAGTAGAGACGCTAAGCAATCCCGCCAGCGCCAGT -TTAATGATGTTACGCATGGGCATTACCTCGCAGAGACAGAAGGTCAGGAACCTGAACATCGCGGCGGTGCAATGC -CTGCCAGAAAGTTTCTAGCGCGGTATCAAGACGGGTTTGCAGATTTGGCGTGAACTGGGGTCTGTGATGGTAATC -AATTACTTGTGAGTCATCGGCAAACACGCCGTGCAGGATCTCCTGAGCTTTCAGTGCGCTTAAAACTGGTTTAAG -GGCATAATCGACCGCCAGCAGATGGGCCACGGTACCGCCCGTCGCCAGCGGTAGCACCACTTTGCCTTGCAAAGC -GCGTTCTGGCAGCAGGTCGAGCAGGGTTTTCAACGCACCGGAATAGGCGGCTTTATACACAGGCGTGGCGACAAT -CAGCCCATCGGCCTGTTGCAGCTGTTCGGTGAAGGTCTTGAGTGCCGGACTATCGAAACGAGCATAAAGTAGATC -TTCCGGGGCGAAGTTTTGCAGATTCCAGTGATAAACCTCTACATCCAGGCCATTTAGTTTTTCCCGCGCATATTC -CAGCAAGGAGCTGGAGCGAGAAGGAAAGCGAGGACTACCCGCCAGGGTGATGACACGCATACTCTCTCCTTATAA -CCAATTGTTCTTTTTTTGTTAACATTGATAACAATTCGGTCAGTCTGTCGGAGAGACAAGAAAATTCCAAATATA -AATTTTGTGTATCTTTTTCTGAAAATAAACTAAAGAAAGGGCTTTATATATCACGCATATTTATTTATTGGATAG -TCATTAGATGTTGAATCAATGAATTACTCGTTCAGTTAATATTTAAATATTCATGAAATCTATAAATTAAAGATT -TGTCACTTATTGGATTTAGTATGCTTGATTTAAATGGCGGACAATTATTGTTATTATTAAGTCTAATGTCATTTA -AAGGCATTATCATATTTACGAAGAGATCAGGATGATAACGATGAAAAAAAGTGTATTGACGGCGTTTATAACTGT -GGTATGTGCAACGTCCAGCGTTATGGCTGCTGATGATAATGCTATCACGGATGGCTCAGTAACATTTAATGGTAA -AGTTATTGCTCCAGCTTGTACCCTGGTAGCTGCGACGAAAGATTCCGTGGTGACTTTGCCAGATGTTAGTGCCAC -GAAGTTGCAAACCAATGGTCAGGTTTCTGGCGTGCAAATTGATGTGCCAATTGAATTAAAAGATTGTGATACTAC -CGTAACAAAAAATGCAACGTTCACCTTTAATGGCACTGCGGATACTACTCAGATTACAGCGTTTGCTAACCAGGC -CTCATCTGATGCTGCTACAAACGTGGCCCTGCAAATGTATATGAATGATGGTACAACGGCCATCACGCCAGACAC -AGAAACCGGGAACATTTTGTTGCAGGATGGAGATCAGACGTTGACTTTTAAAGTTGATTATATCGCTACGGGGAA -AGCGACTTCAGGTAATGTGAATGCGGTAACAAATTTCCATATTAACTATTATTAATAGAACTCATTAATTGTTTT -ATTAATTAGTACCCCTCCAGTGTTCTGGAGGGGATATTCATATTTTTTAAGAGTGACTATTTATGAAAACTTGCA -TAACAAAGGGAATTGTGACCGTAAGTTTAACGGCAATATTACTCAGCTGCTCATCCGCATGGGCGGCAGGTAAAG -GCGGGATTGGACTTGCAGCAACACGTCTTGTTTATTCAGAAGGTGAAGAGCAAATTTCACTGGGTGTACGTAACA -CCAGTCCGGATGTTCCTTATCTTATTCAGTCATGGGTGATGACCCCAGATAATAAAAAATCAGCAGACTTTATTA -TTACACCACCGCTATTTGTGCTGAATCCGGCAAATGAGAATCTGTTACGCATTATGTACATTGGAGCGCCGTTGG -CGAAAGACAGAGAAACCCTTTTCTTCACTAGCGTACGGGCAGTCCCTTCAACAACGAAGCGGAAAGAGGGAAATA -CCCTGAAGATTGCCACACAAAGCGTCATCAAACTTTTCTGGCGACCAAAAGGTTTAGCGTATCCCTTAGGCGAGG -CTCCGGCGAAACTGCGTTGCACTTCGTCAGCTGACATGGTTACGGTCAGTAACCCAACACCTTATTTCATTACCC -TGACAGACCTGAAAATAGGTGGAAAAGTAGTTAAAAATCAAATGATTTCCCCCTTTGATAAATACCAATTTTCTC -TGCCAAAGGGGGCCAAAAATAGCAGCGTAACGTATCGAACCATCAATGACTACGGGGCGGAAACGCCGCAACTCA -ACTGTAAATCGTAAGCCGTCTTCAGTTAAGAGAGCGAGATGTATAGAACTCATCGACAACACAGCCTGTTAAGCT -CTGGTGGAGTGCCATCGTTTATTGGTGGGCTGGTGGTGTTTGTGTCGGCAGCGTTCAATGCACAAGCTGAAACCT -GGTTCGATCCTGCTTTTTTCAAAGATGATCCCTCAATGGTGGCCGATTTGTCTCGTTTCGAAAAAGGACAAAAAA -TAACGCCAGGGGTTTATCGTGTCGATATTGTTCTGAATCAGACAATTGTAGATACGCGCAACGTCAATTTTGTTG -AGATAACGCCAGAGAAGGGGATTGCCGCCTGTTTGACGACTGAAAGCCTGGATGCAATGGGTGTTAATACTGATG -CGTTTCCGGCTTTTAAACAACTGGACAAACAAGCGTGTGTGCCATTGGCGGAGATTATTCCGGATGCCAGCGTAA -CGTTTAATGTGAATAAACTCCGTCTGGAAATTTCAGTACCGCAAATCGCCATCAAAAGTAATGCCCGTGGTTATG -TCCCCCCTGAACGTTGGGATGAAGGGATCAACGCGCTATTACTGGGATATTCGTTTAGCGGGGCTAACAGTATTC -ATAGCAGCGCAGACAGTGATTCTGGCGACAGCTATTTTCTGAATTTAAACAGTGGCGTTAATTTAGGCCCATGGA -GATTGCGCAACAATTCAACATGGAGTCGTAGTAGTGGCCAAACCGCAGAATGGAAGAATCTCAGCAGCTATTTGC -AACGGGCGGTTATTCCTCTGAAAGGCGAACTGACCGTAGGTGATGATTATACTGCAGGCGATTTTTTCGATAGTG -TCAGCTTTCGTGGTGTGCAGCTGGCGTCAGATGACAACATGCTGCCAGACAGCCTGAAAGGGTTTGCGCCTGTGG -TGCGTGGTATCGCCAAAAGCAATGCCCAGATAACGATTAAGCAAAATGGTTACACCATTTACCAAACTTATGTAT -CGCCTGGTGCTTTTGAAATTAGTGATCTCTATTCCACGTCGTCGAGCGGTGATTTGTTAGTTGAAATCAAAGAAG -CGGACGGCAGCGTCAATAGCTACAGCGTACCGTTCTCCAGTGTGCCATTACTCCAGCGTCAGGGGCGAATCAAAT -ACGCGGTGACACTGGCGAAATACAGAACCAATAGTAATGAACAGCAGGAGAGCAAATTTGCCCAGGCCACGTTGC -AGTGGGGCGGACCGTGGGGAACGACCTGGTATGGTGGTGGACAATATGCTGAATATTACCGTGCCGCCATGTTTG -GTCTGGGATTTAACCTCGGCGATTTCGGAGCAATTTCGTTCGATGCGACCCAGGCGAAGAGTACGCTAGCAGATC -AAAGCGAACATAAAGGTCAGTCATATCGTTTTCTGTATGCCAAAACGCTCAACCACTTGGGCACTAACTTTCAAT -TGATGGGCTATCGCTATTCGACGTCGGGTTTCTACACCCTTTCCGACACCATGTATAAACATATGGATGGCTACG -AATTTAATGACGGTGATGATGAAGATACGCCGATGTGGTCGCGTTATTACAATTTGTTTTACACCAAACGTGGCA -AACTGCAGGTCAATATCTCCCAGCAATTAGGCGAGTACGGTTCGTTTTATTTAAGTGGTAGCCAGCAAACTTACT -GGCATACGGATCAACAGGATCGGCTATTACAGTTTGGCTACAACACGCAAATTAAAGATCTTTCGCTGGGGATTT -CCTGGAACTACAGTAAGTCCCGTGGTCAACCTGATGCTGATCAGGTGTTTGCTCTAAATTTTTCCCTGCCGCTCA -ATCTGTTGCTCCCCAGAAGTAATGATAGCTATACCAGGAAAAAAAATTACGCCTGGATGACCTCTAACACCAGTA -TCGATAACGAAGGGCACACTACACAAAACCTGGGTTTAACGGAGACATTACTCGATGACGGTAACCTGAGCTACA -GCGTGCAACAGGGATATAACAGCGAGGGGAAAACGGCTAATGGTAGCGCCAGCATGGATTACAAAGGGGCGTTTG -CGGATGCCCGAGTGGGCTACAACTACAGCGATAACGGCAGTCAACAACAACTGAACTACGCTCTTTCAGGCAGTT -TAGTTGCCCATTCACAGGGCATTACCCTGGGGCAATCGCTGGGGGAAACTAACGTTCTGATTGCAGCACCAGGCG -CAGAGAATACTCGTGTGGCGAACAGCACCGGGCTGAAAACTGACTGGCGCGGATATACCGTTGTTCCTTATGCCA -CTTCTTATCGGGAAAATCGAATCGCACTTGATGCGGCGTCGTTAAAACGTAACGTGGATCTTGAAAATGCAGTAG -TCAACGTGGTTCCCACCAAAGGGGCGTTGGTTCTGGCGGAGTTCAATGCCCATGCGGGTGCAAGGGTATTAATGA -AAACATCAAAGCAGGGTATACCGCTGCGTTTTGGCGCGATAGCGACGCTGGACGGCGTACAGGCTAATAGCGGCA -TAATTGATGATGATGGCTCGCTCTATATGGCGGGTTTACCGGCGAAGGGAACAATAAGCGTGCGCTGGGGCGAAG -CTCCCGATCAAATTTGTCATATCAATTACGAGCTTACCGAACAACAAATTAACTCTGCGATTACGCGAATGGATG -CCATATGCAGATAATCTTTGGAGAAAAATGCGTGTCATTACTACGACTATTTTTTGCCGCCGTCTTAATGTTATG -GTGCGCTCAAACCGCTGCTTATAGCGGGCAGTGTCATACTACTCAGGGGAATCCGTATATTGGCGTCAATTTTGG -CGTTAAAACCCTGGAGGAAGAAGCAAATACGGCAGGGGTAGTTAAAGACAAATTTTATCAGTGGAACGAATCGAA -TGATTATTATGTTTCCTGTGATTGCGATAAAGACAATGTCAGAAGTGGCCGATGGGCATTCGCCGCGGATTCACC -GTTAGTCTATTTAGGCGACAACTGGTACAAAATTAATGACTATCTTGCCGCCAAAGTTTTATTGCAGGTTAAAGG -CAGTTCTCCTACTGCGGTTCCTTTCGAAAACGTGGGCACAGGGGGGGATACCCGATGGCATATTTGCGACCCTGG -CGGTCAACGTTTAGGTGGGCAGGGGGCAAGCGGTAATAGCGGTAGCTTTTCCCTGAAAATATTGCAGCCGTTCGT -TGGCTCGGTCGTCATTCCTCCTATGGCGCTGGCGCGATTATATGAATGCTACAACATACCCGCAGGTGATTCCTG -CACGACTACAGGTACACCGGTTTTAGTGTATTACCTGTCTGGTACGATCAATTCACTTGGCTCATGTTCCGTCAA -TGCCGGAGAGACAATTGAAGTTGATTTAGGTGATGTCTTCGCTGCCAATTTCCGTGTTGTAGGGCATAAACCTCT -TGGGGCCAGAACGGCAGAACTTGCAATTCCAGTCAGGTGTAACACGGGAAACGCGGGATTAGTTAATGTCAACCT -GAGTCTGACGGCAACCACAGACCCCAGCTATCCCCAGGCGATTAAGACGTCACGTCCTGGCGTGGGCGTGGTGGT -GACCGATAGCCAGAACAACATTATTTCCCCTGCTGGTGGAACATTACCGCTCTCTATTCCTGATGATGCAGACAG -TATCGCGCGAATGAATGTCTATCCAGTCAGCACGACAGGTGTACCACCAGAAACCGGGCGATTTGAAGCCACGGC -AACGGTGAGAATAAATTTTGATTAACGCGTGAACGTATGAAGAAAAAAACGATATTTCAGTGCGTTATCTTGTTC -TTTAGCATTCTTAACATCCATGTCGGGATGGCTGGGCCTGAACAAGTTAGTATGCATATTTATGGGAATGTGGTC -GATCAGGGCTGTGATGTCGCCACCAAAAGTGCATTACAAAATATTCATATTGGTGATTTTAATATCAGTGATTTT -CAGGCCGCGAATACCGTAAGCACTGCTGCTGATTTGAATATCGATATCACCGGTTGTGCCGCTGGTATTACTGGC -GCGGACGTCCTTTTTAGCGGCGAGGCTGACACCCTTGCGCCGACACTGCTCAAACTAACTGACACAGGCGGAAGC -GGTGGTATGGCAACGGGGATTGCCGTGCAAATTCTTGATGCGCAAAGTCAGCAAGAAATCCCGCTCAATCAGGTC -CAGCCTCTTACGCCCTTAAAAGCCGGGGATAACACACTCAAATATCAACTTCGTTATAAGTCCACAAAGGCGGGA -GCAACGGGCGGTAATGCGACGGCGGTTCTCTATTTTGATCTGGTTTACCAGTGAAGGAGTGATGTTGAAACGGAT -AATCTGGATTCTGTTCTTATTGGGATTAACGTGGGGCTGTGAGCTATTTGCCCATGATGGCACGGTCAACATTAG -CGGATCGTTTCGCCGTAATACATGCGTGCTGGCACAGGATAGCAAGCAAATCAATGTGCAGTTAGGCGATGTCTC -GCTGACACGTTTTTCTCATGGGAATTATGGCCCGGAGAAATCTTTCATCATTAATTTGCAGGATTGCGGAACAGA -TGTCAGCACGGTTGACGTCACCTTTTCAGGAACCCCCGACGGAGTGCAGAGCGAAATGTTGTCCATTGAAAGTGG -TACGGATGCAGCCAGCGGGCTGGCAATTGCGATTCTGGATGATGCGAAGATATTGATTCCGCTTAACCAGGCGAG -TAAAGACTACAGCCTACATAGCGGTAAGGTGCCATTAACTTTTTATGCGCAATTGCGACCTGTCAATAGCGATGT -GCAGTCGGGTAAAGTGAATGCCAGCGCGACATTTGTACTTCATTATGACTAATACGTGGAACAGATTGGCGCTCT -TGATTTTCGCCGTTTTATCGCTGCTGGTGGCGGGTGAATTGCAGGCAGGAGTGGTGGTCGGCGGAACGCGATTTA -TCTTTCCGGCAGACAGAGAATCGATATCTATTTTACTGACTAATACCAGTCAGGAATCCTGGCTTATTAACAGTA -AAATCAACCGCCCAACGCGTTGGGCCGGGGGGGAAGCGTCGACAGTGCCAGCACCATTACTGGCCGCTCCGCCAC -TTATTCTCCTGAAGCCCGGTACGACAGGCACGTTGCGCTTGCTGAGAACGGAAAGCGACATCTTGCCTGTGGATC -GCGAAACGCTATTTGAGTTAAGCATTGCCAGCGTGCCATCCGGCAAAGTTGAAAATCAGAGCGTAAAAGTGGCGA -TGCGCTCGGTATTTAAACTGTTCTGGCGACCCGAAGGTTTGCCGGGCGACCCGCTGGAAGCTTATCAACAATTAC -GCTGGACACGGAATTCGCAGGGTGTACAACTCACTAACCCAACGCCTTATTACATTAACCTGATTCAGGTGAGTG -TAAATGGTAAAGCGTTAAGTAATGTGGGAGTTGTGCCGCCTAAAAGCCAGCGTCAGACAAGCTGGTGTCAGGCAA -TCGCACCGTGTCATGTCGCCTGGCGGGCGATAAATGATTACGGCGGGTTGAGTGCAAAGAAGGAGCAAAATCTGC -CCTGAAACAGGTTCGGAAAACGTTTGCGTTTTTTTTGCCGCAGGTCAATTCCCTTTTGGTCCGAACTCGCACATA -ATACGCCCCCGGTTTGCACACCGGGAATCCAGGAGAGTTCATGTACTACCCCTTCGTTCGTAAAGCCCTTTTCCA -GCTCGATCCAGAGCGCGCTCATGAGTTTACTTTTCAGCAATTACGCCGTATTACAGGAACGCCGTTTGAAGCACT -GGTGCGGCAGAAAGTGCCTGCGAAACCTGTTAACTGCATGGGCCTGACGTTTAAAAATCCGCTTGGTCTGGCAGC -CGGTCTTGATAAAGACGGGGAGTGCATTGACGCGTTAGGCGCGATGGGATTTGGATCGATCGAGATCGGTACCGT -CACGCCACGTCCACAGCCAGGTAATGACAAGCCGCGTCTCTTTCGTCTGGTAGATGCCGAAGGTTTGATCAACCG -TATGGGCTTTAATAATCTTGGCGTTGATAACCTCGTAGAGAACGTAAAAAAGGCCCATTATGACGGCGTCCTGGG -TATTAACATCGGCAAAAATAAAGATACGCCAGTGGAGCAGGGCAAAGATGACTATCTGATTTGTATGGAAAAAAT -CTATGCCTATGCGGGATATATCGCCATCAATATTTCATCGCCGAATACCCCAGGATTACGCACGCTGCAATATGG -TGAAGCGCTGGATGATCTCTTAACCGCGATTAAAAATAAGCAAAATGATTTGCAAGCGATGCACCATAAATATGT -GCCGATCGCAGTGAAGATCGCGCCGGATCTTTCTGAAGAAGAATTGATCCAGGTTGCCGATAGTTTAGTTCGCCA -TAATATTGATGGCGTTATTGCAACCAATACCACACTCGATCGTTCTCTTGTTCAGGGAATGAAAAATTGCGATCA -AACCGGTGGCTTAAGTGGTCGTCCGCTTCAGTTAAAAAGCACCGAAATTATTCGCCGCTTGTCACTGGAATTAAA -CGGTCGCTTACCGATCATCGGTGTTGGCGGCATCGACTCGGTTATCGCTGCGCGTGAAAAGATTGCTGCGGGTGC -CTCACTGGTGCAAATTTATTCTGGTTTTATTTTTAAAGGTCCGCCGCTGATTAAAGAAATCGTTACCCATATCTA -ATTATTTCTTCGAATTCCTCTTTATAAGATAATCAGGGCTTTATTTTCAGCCCTGGTTGTTTTATATTCATCGCT -GTTGCTTATTTAGACATTTTGTACTTTTATTGTTGAGGTTATTAAGCGAAGCGACAATGGATTGTGTTGCTGCGG -TTTTATAGGGTAGGGGAGAGGCAGATGCGAATTAAACCAGACGATAACTGGCGTTGGTATTACGATGAAGAGCAC -GATCGAATGATGCTCGATTTAGCCAATGGTATGCTATTTCGCTCACGTTTTGCGCGCAAGATGTTGACTCCAGAT -GCCTTTTCTCCCGCAGGCTTTTGCGTTGACGACGCCGCGCTCTATTTCTCTTTTGAAGAAAAGTGCCGCGATTTT -AATTTATCTAAAGAACAAAAAGCCGAACTGGTGCTGAATGCACTGGTAGCAATTCGCTATCTCAAACCGCAAATG -CCGAAAAGCTGGCATTTTGTTTCCCATGGTGAAATGTGGGTGCCCATGCCGGGCGATGCGGCCTGCGTTTGGTTG -AGCGATACTCACGAGCAGGTCAATTTGCTGGTCGTTGAATCTGGCGAAAATGCCGCACTATGCCTGCTGGCACAA -CCCTGCGTTGTTATTGCGGGTCGCGCGATGCAGTTGGGCGACGCCATTAAAATCATGAACGACAGGCTGAAACCG -CAGGTTAATGTTGACAGCTTCAGCCTCGAACAGGCAGTCTAACGCGCCAACTTAAGTGCAGTCTTCGGTACACAG -CTACAGCAAAGAATGGTGCCATCATCGCCCATTGCTGATTTTTTCAGCGGCGTGACTTCGCCTTCTAAAAGCTGA -ACACGGCAACTTCCACAAATGCCCGCGCGGCAAGAATAAGGGATACGAATTCCCTGATTTTCTAATTGCTCCAGC -AACACCTGTTGGTTATTTCCACGAAATGCCTGTCCCTGCCAGTCAATATCTACATTTGCGTCCGGTTGTTGCGTG -ATGTTGGCGGTATCATCAGCGGCAGCTGCGCCGTAAATTTTTGCCGGAGCCGTTGCCAGAATTTCCACCTCATCG -CCAACGCGAATCACGCCGCTATTACGGGCAATTAAATTCTGACCAAAATCGACATCGCCGTTATCCTGGGCAGTG -CGGAAAGATTGCAATGTTTTTAATGGTTCGCCTGCCGGATGTTTTTGCCCTTTTTCTGGGCTGACGGTGGTGAAA -ATACAGCGGCTACAAGGTTTAACCACATCAAACACCACATCACCAATGCGAATCACTTTCCAGCGATCTTCTTCC -CAGGCTGACGCGCCGGAAACCACCAGATTGGGGCGGAATTGCTCCATTTTTACACTGGCCGGACAACGTTGTTGG -AGATCACGTAACGAGGCTTCGTTAGCAAGAAGGTAAGGATAGCCATCAGCAAATGACAGAGGTACAGTGTTGTGG -CGTTTCACGCGCCGGGTCATTTGTGGCCCCACCCAGCGTAATTGCACTTCGCGGGAGAAAAATCCACTTAGCCAT -TTGTTGATCGCGTCTGGCGCAATTCGCGCGGTAAAATGTGTGCCCCAAACTTCGGTTGGTGCGTCTTGTGTGGCG -AAATCAGCAAAACGAACATATGCGCTACTGCCATCTGGTGCGGTGAGATGCAAGCCATCATGCACAGGTGAAGGA -GTAAACCGTACCATCTGGGGAAACTGGCGAGCGGTAATAAACGTACCGTCAGGTTCCGTGATCATAAAGATGCGA -TCGAAGGCCAGACCACTGACATCTGCCAGAGCATGTGTAAGACCAATGCCGCGCATCGATTTAACAGGATGAATA -AAAAGCCGGATTAATGTCGCCACGGTGCGGTCCTCAAATGAAAATAAGCCCTCAACTTTATGACATGACGCGCTT -ATTAGCTATAATGCGCAACAATTTTCTTAGCGCCTGTCCCATTAGGCTATTTTATTTGTCAGTTTGGCCCTGGGT -TATGCTCGAAATCCTCACGTACTTGTGTACGCTCCGGTTTCTCCGCGCTGTCCATGTCCAGACTGACTGCAACAA -TTACGCCTACTGCGGTAGGCTCTTAGAGTAAAAGTGACGATATGAATTCTCTGTTTGCCAGTACGGCCCGTGGGC -TGGAAGAGCTGTTAAAAACTGAACTGGAAAACCTGGGGGCCGTTGAATGCCAGGTGGTTCAGGGTGGGGTCCATT -TCAAGGGCGACACACGGCTTGTTTACCAGAGCCTGATGTGGAGCCGCCTGGCCTCGCGTATTATGTTGCCGCTGG -GCGAGTGTAAGGTTTACAGCGATTTAGACCTCTATCTCGGTGTTCAGGCGATCAACTGGACAGAGATGTTTAATC -CTGGCGCGACCTTCGCTGTCCACTTCAGTGGTTTGAATGACACCATCCGCAACAGTCAGTACGGCGCGATGAAAG -TGAAAGACGCGATCGTCGATGCTTTCACGCGGAAAAATCTGCCGCGTCCAAATGTTGATCGCGATGCGCCGGATA -TCCGCGTTAACGTCTGGCTGCATAAAGAAACCGCCAGTATCGCTCTTGATCTGAGTGGTGATGGTTTACATCTGC -GTGGCTATCGCGATCGTGCTGGTATTGCGCCGATCAAAGAAACCCTGGCAGCCGCTATTGTGATGCGATCCGGCT -GGCAGCCAGGAACACCGCTGCTCGATCCGATGTGTGGTTCCGGTACGTTGCTGATTGAAGCAGCGATGCTGGCGA -CCGATCGCGCACCAGGCTTGCACCGTGGGCGTTGGGGCTTTAGCGGCTGGGCGCAGCATGATGAAGCTATCTGGC -AGGAAGTGAAAGCGGAAGCGCAAACTCGCGCCCGTAAAGGCCTGGCTGAGTATAGCTCTCATTTTTACGGTTCGG -ACAGCGACGCACGGGTGATTCAACGTGCACGCACTAACGCCCGTCTTGCGGGGATTGGTGAACTGATCACCTTTG -AGGTGAAAGATGTCGCGCAACTGACCAATCCGCTGCCGAAAGGGCCGTACGGCACAGTGTTGAGCAACCCGCCAT -ACGGGGAACGTCTGGACAGCGAACCGGCGCTGATTGCGCTGCATAGCCTGCTGGGTCGGATCATGAAAAACCAGT -TTGGTGGCTGGAATCTCTCTTTGTTTAGTGCCTCGCCGGATCTGCTAAGCTGCTTGCAGCTGCGTGCAGACAAAC -AGTACAAGGCGAAAAACGGCCCGCTGGACTGCGTACAGAAAAATTACCACGTTGCCGAAAGCACTCCAGACAGCA -AACCGGCGATGGTAGCGGAAGACTACACCAACCGCCTGCGTAAGAACCTCAAAAAATTCGAGAAGTGGGCTCGCC -AGGAAGGGATTGAATGTTACCGCCTGTATGACGCCGATCTGCCAGAATATAACGTTGCCGTTGACCGTTATGCCG -ACTGGGTGGTGGTGCAGGAGTATGCGCCGCCAAAAACTATTGATGCTCACAAAGCGCGTCAGCGTCTGTTCGATA -TTATCGCTGCAACCATTTCGGTACTGGGGATTGCGCCAAACAAACTGGTGCTGAAAACCCGTGAACGCCAGAAGG -GCAAAAACCAATACCAGAAACTGGGCGAGAAGGGCGAGTTTCTTGAAGTTACCGAATATAACGCTCACTTGTGGG -TGAACCTGACGGATTATCTCGATACTGGTCTGTTCCTCGATCACCGCATCGCCCGTCGTATGCTCGGTCAGATGA -GCAAAGGCAAAGATTTCCTCAACCTGTTCTCTTATACCGGCAGCGCCACCGTGCATGCGGGATTAGGCGGTGCAC -GCAGCACCACCACCGTGGATATGTCGCGTACTTATCTGGAATGGGCAGAACGCAACCTGCGTCTGAATGGCCTGA -CCGGGCGTGCGCATCGCCTGATTCAGGCCGATTGCCTGGCGTGGCTGCGTGAGGCAAATGAACAGTTCGATCTGA -TCTTTATCGATCCGCCAACCTTCTCTAACTCAAAACGAATGGAAGATGCGTTTGATGTTCAGCGCGATCATCTGG -CGCTGATGAAAGATTTGAAACGTCTGCTGCGTGCAGGTGGGACGATCATGTTCTCGAACAACAAACGTGGCTTCC -GTATGGATCTCGACGGCCTGGCAAAACTGGGACTGAAAGCACAAGAAATTACGCAAAAAACGCTCTCCCAGGATT -TCGCCCGTAACCGCCAGATCCACAACTGCTGGCTGATTACCGCAGCCTGAAAGGAATAGTAATGTCATTAATCAG -TATGCATGGCGCATGGCTGTCGTTCAGCGACGCGCCGCTTCTCGATAACGCAGAACTGCATATCGAAGATAACGA -ACGTGTTTGTCTGGTGGGCCGCAACGGCGCAGGCAAATCGACGTTAATGAAAATCCTCAACCGTGAACAAGGGCT -GGATGACGGTCGCATTATTTACGAGCAAGATTTGATTGTAGCGCGTCTGCAACAGGATCCGCCGCGTAACGTTGA -GGGTAGCGTTTATGATTTCGTTGCCGAAGGCATTGAAGAACAAGCGGAATATCTGAAACGCTATCACGATATTTC -GCGCCTGGTGATGAACGACCCGAGCGAGAAAAATCTCAACGAACTGGCGAAGGTTCAGGAACAGCTGGATCACCA -CAACCTGTGGCAGCTGGAAAACCGCATCAACGAAGTGCTGGCGCAACTGGGGTTAGATCCTAACGTTGCGCTGTC -GTCGCTTTCCGGCGGCTGGTTGCGTAAAGCGGCATTAGGACGCGCGCTGGTGAGTAATCCGCGCGTGCTGTTGCT -TGATGAACCGACAAACCACCTGGATATTGAAACCATCGACTGGCTGGAAGGGTTTTTGAAAACTTTCAACGGGAC -GATTATTTTCATCTCCCACGACCGTTCGTTTATCCGCAATATGGCGACGCGCATTGTTGATCTCGATCGCGGCAA -GCTGGTGACCTATCCAGGGAATTACGACCAGTACCTGCTGGAAAAAGAAGAAGCCCTGCGCGTGGAAGAATTACA -AAATGCCGAGTTCGATCGCAAACTGGCGCAGGAAGAGGTGTGGATCCGCCAGGGGATCAAAGCACGCCGTACCCG -TAATGAAGGCCGCGTACGCGCCCTGAAAGCGATGCGTCGCGAACGTGGTGAACGTCGCGAAGTGATGGGTACCGC -AAAGATGCAGGTGGAAGAGGCCAGCCGCTCCGGTAAAATCGTTTTCGAAATGGAAGACGTTTGCTACCAGGTTAA -CGGTAAGCAACTGGTGAAAGATTTTTCTGCCCAGGTTCTACGTGGCGACAAAATTGCCCTGATTGGTCCGAATGG -GTGCGGCAAAACCACGCTGCTAAAACTGATGCTCGGTCAGCTTCAAGCGGACAGCGGGCGTATTCACGTTGGCAC -CAAACTGGAAGTGGCTTATTTCGATCAGCACCGCGCGGAACTGGATCCCGATAAAACGGTGATGGATAACCTTGC -CGAAGGTAAGCAAGAGGTGATGGTTAACGGCAAGCCACGCCACGTATTGGGCTATTTGCAGGACTTTCTGTTCCA -TCCGAAACGGGCGATGACGCCGGTACGTGCGCTTTCTGGCGGTGAGCGGAACCGCTTGCTGCTGGCGCGTTTGTT -CCTCAAACCAAGCAACTTATTGATTCTTGACGAACCGACCAACGATCTTGATGTCGAAACGCTGGAACTGCTGGA -AGAACTGATCGACAGCTATCAGGGCACGGTATTGCTGGTTAGCCACGATCGTCAGTTTGTCGATAACACCGTTAC -AGAATGTTGGATCTTCGAAGGCGGCGGTAAAATTGGTCGTTATGTCGGCGGTTATCATGATGCCCGTGGTCAGCA -AGAGCAGTATGTGGCGCTCAAACAGCCTGCGGTGAAAAAAACCGAAGAAGCCGCCGCGGCAAAAGCAGAAACTGT -AAAACGCAGCAGTAGCAAACTAAGCTATAAATTGCAGCGCGAACTGGAGCAGCTACCGCAATTGCTCGAAGATCT -GGAGGCGAAGCTGGAAGCCCTACAGACGCAAGTGGCGGATGCTTCCTTCTTCAGTCAGCCGCATGAGCAGACGCA -AAAAGTGCTTGCTGATATGGCTGCTGCAGAGCAGGAGCTGGAGCAAGCCTTTGAACGCTGGGAGTATCTTGAAGC -GTTAAAAAATGGTGGCTGATCGCAAAATAGTCGATTTAAACAGAGACAGCTGACAACGGTAAAATTGCCTGATGA -ACTGGGTTTATCAGGCATGAAAACCAACACTTTGTTAGTCATCTGTAAAATAGCGCATCATTAAGGAGTACCAAT -GTGCGAACATCATCATGCCGCGAAGCACATCCTGTGCTCGCAGTGTGACATGCTGGTGGCGTTACCGCGCCTTGA -GCATGGTCAGAAAGCGGCATGTCCCCGGTGTGGCACAACGTTAACCGTGGCGTGGGATGCCCCTCGGCAGCGTCC -CACCGCCTATGCGTTGGCTGCACTGTTCATGCTGTTGCTGTCCAACTTGTTTCCTTTTGTGAATATGAACGTTGC -AGGAGTTACCAGTGAAATTACATTACTGGAAATTCCCGGCGTGCTTTTTTCTGAGGACTACGCCAGCCTCGGCAC -CTTTTTCCTGTTGTTTGTGCAACTGGTTCCCGCGTTTTGTCTGATAACCATTCTGTTACTGGTGAATCGCGCGGA -ATTACCGGTCCGTTTAAAAGAGCAACTGGCACGGGTGCTTTTTCAACTCAAAACCTGGGGAATGGCGGAGATTTT -CCTCGCGGGTGTGCTGGTCAGTTTCGTTAAACTGATGGCTTACGGCAGCATTGGGGTAGGCAGCAGCTTTCTCCC -CTGGTGTTTATTTTGTGTCCTGCAACTGCGCGCTTTTCAGTGCGTTGATCGTCGCTGGTTATGGGACGACATCGC -CCCGATGCCAGAACTGCGCCAGCCGCTAAAACCAGGCGTCACGGGGATACGTCAGGGGCTGCGTTCGTGCTCCTG -TTGTACGGCAATCCTTCCTGCTGATGAACCCGTGTGCCCGCGTTGTAGTACCAAAGGGTACGTTCGGCGTAGAAA -CAGCCTGCAGTGGACACTCGCGCTGCTTGTAACGTCCATCATGCTGTATCTTCCGGCTAATATTTTGCCCATCAT -GGTGACGGATTTATTAGGCTCGAAGATGCCGTCGACGATTCTCGCTGGGGTCATTCTGTTATGGAGCGAAGGCTC -TTATCCCGTCGCTGCGGTGATCTTTCTGGCCAGTATTATGGTGCCAACGTTAAAGATGATCGCCATCGCGTGGCT -GTGTTGGGATGCCAAAGGGCATGGCAAGCGCGACAGTGAAAGAATGCATTTGATTTATGAAGTTGTTGAGTTTGT -AGGCCGCTGGTCGATGATTGACGTTTTCGTTATCGCGGTGCTCTCGGCGCTGGTGCGTATGGGAGGTTTAATGAG -TATTTATCCGGCAATGGGTGCATTAATGTTTGCTTTAGTCGTCATAATGACAATGTTTTCTGCTATGACGTTTGA -CCCGCGTTTGTCGTGGGATCGTCAACCTGAATCAGAGCATGAGGAGTCCTGACAGTATGGAATCTAATAATGGGG -AAGCCAAAATCCAGAAAGTGAAGAACTGGTCTCCCGTGTGGATATTTCCTATCGTCACGGCGCTCATTGGGGCCT -GGGTTCTTTTTTATCATTACAGCCATCAGGGACCGGAAGTGACCCTGATCACCGCGAATGCGGAAGGAATTGAAG -GTGGCAAAACCACCATTAAAAGCCGTAGCGTTGACGTCGGCGTGGTTGAAAGCGCCACACTGGCTGATGATTTGA -CGCACGTTGAAATCAAAGCGCGGCTGAATTCCGGTATGGAAAAATTGCTGCATAAAGACACCGTCTTTTGGGTGG -TGAAACCGCAGATTGGTCGCGAAGGGATTAGCGGCCTGGGAACGCTGCTGTCTGGAGTTTATATCGAACTGCAGC -CAGGCGCGAAAGGCAGCAAAATGGATAAATACGATTTGCTGGACTCGCCACCGTTGGCCCCGCCTGATGCGAAAG -GTATCCGTGTGATTCTCGATAGCAAAAAAGCCGGGCAGCTCTCGCCAGGAGATCCGGTGCTGTTCCGTGGCTATC -GGGTAGGTTCGGTTGAAACCAGCACCTTCGATACACAAAAACGCAATATCAGCTATCAACTGTTCATCAATGCAC -CTTATGACCGACTGGTGACCAACAATGTTCGCTTCTGGAAAGATAGTGGCATTGCGGTTGATCTGACGTCAGCAG -GGATGCGTGTGGAGATGGGCTCATTGACAACGCTGCTGAGTGGCGGTGTCAGCTTTGATGTGCCGGAAGGTCTGG -ATTTAGGGCAGCCAGTGGCACCGAAAACAGCTTTCGTTTTGTATGATGATCAGAAGAGCATTCAGGATTCGTTGT -ACACCGATCACATTGATTATCTGATGTTCTTTAAAGATTCGGTACGCGGTCTGCAACCGGGAGCTCCGGTAGAGT -TCCGGGGTATTCGCCTGGGTACCGTAAGCAAAGTGCCATTCTTTGCGCCGAATATGCGTCAGACATTTAACGATG -ATTACCGTATTCCGGTACTGATTCGTATCGAGCCAGAGCGGCTGAAAATGCAGCTTGGCGAAAATGCGGATGTTG -TTGAGCACCTTGGCGAATTGTTGAAACGTGGTTTACGCGGATCGCTGAAAACCGGAAACCTGGTCACTGGTGCAC -TGTATGTTGATCTCGATTTCTATCCAAATACGCCTGCAATAACCGGTATTCGTGAATTTAATGGTTATCAGATTA -TCCCGACCGTTAGCGGCGGCCTGGCGCAAATCCAGCAACGACTGATGGAAGCGTTGGATAAGATCAACAAACTGC -CATTGAATCCGATGATTGAACAGGCAACCAGTACGCTTTCTGAAAGTCAGCGCACAATGAAAAACCTGCAAACGA -CGCTGGATAGCATGAACAAGATCCTCGCTAGCCAGTCGATGCAGCAGTTGCCGACGGATATGCAGTCAACGTTGC -GTGAATTGAATCGCAGCATGCAGGGCTTCCAGCCTGGCTCCGCAGCCTACAACAAGATGGTGGCGGATATGCAGC -GCCTTGATCAGGTGTTGCGAGAACTGCAACCGGTGCTGAAAACGCTCAATGAGAAGAGTAACGCGCTGGTATTTG -AAGCGAAGGACAAAAAAGATCCAGAGCCGAAGAGGGCGAAACAATGAAAAAGTGGCTAGTGACGATTGCAGCACT -GTGGCTGGCCGGATGCAGCTCCGGCGAAATTAATAAAAACTATTACCAGTTACCTGTGGTGCAGAGCGGTACACA -AAGTACCGCCAGCCAGGGCAATCGTCTGTTATGGGTAGAGCAGGTCACTGTTCCTGACTATCTGGCGGGGAATGG -TGTGGTTTATCAAACCAGTGATGTGAAGTATGTGATTGCCAACAACAACTTGTGGGCCAGCCCGTTGGATCAACA -GTTGCGCAACACCCTGGTTGCCAACCTGAGTACGCAACTGCCCGGCTGGGTGGTTGCCTCCCAGCCTCTGGGAAG -CGCCCAGGACACGCTCAATGTTACCGTAACGGAGTTTAACGGTCGCTATGATGGCAAGGTCATTGTCAGTGGTGA -GTGGCTGTTGAACCACCAGGGACAACTGATCAAACGTCCGTTCCGTCTGGAAGGAGTGCAAACTCAGGATGGTTA -CGATGAGATGGTTAAAGTGCTGGCCGGTGTCTGGAGTCAGGAAGCCGCTTCTATTGCACAAGAGATAAAGCGTCT -ACCTTAATTATAAAGATTTGTAAATATAACCGTCTCCGGTATGTTGCCTGAGGCGGTTTTTTTGTCTCTAACGTG -CGGAAAAATTTGTTCCTCTTCACATTTTTTGTACAACCGACATGCCCGTGTAGCTCACAAATATGACAGTGGCGT -GAATTTTGCGCATTGACGGCAGTTATGATTCGCGGTATTGCTTAACTGTGATTGCACATTTAGTAATCACTGTTT -TCTTTTCCACCAGAAACCAGTATGAGGGAAACGAGGCATGAAGAGACAAAAACGAGATCGCCTGGAACGGGCACA -TCAACGTGGTTATCAGGCCGGCATCGCCGGACGCTCAAAAGAAATGTGTCCCTATCAGACGCTGAATCAAAGGTC -ACAATGGCTGGGAGGCTGGCGAGAAGCCATGGCGGACAGGGTAGTAATGGCCTGATTCTGTCTCTTTAAAAAGAA -ACCTCCGCATTGCGGAGGTTTCGCCTTTTGATACTCTGTCTGATTATAATCAGAAGGCAGACGTATCCTGGAACA -GACCGACTTTCAGGTCGCTGGCGGTATAGATCAGACGACCATCAACCAGCACTTCGCCATCCGCCAGGCCCATAA -TCAGACGACGGTTAACAATGCGTTTAAAGTGAATACGGTAGGTCACTTTTTTCGCTGTCGGCAGTACCTGACCAG -TGAATTTCACTTCGCCAACGCCCAGCGCGCGGCCTTTACCTTCGCCGCCCAGCCAGCCGAGGTAGAACCCTACCA -GCTGCCACATTGCGTCCAGGCCCAGGCATCCCGGCATAACCGGATCGCCAATAAAGTGGCATCCGAAGAACCACA -GATCCGGATTGATATCCAGTTCTGCTTCAACATACCCTTTGTCGAAGTTACCACCCGTTTCGGTCATTTTGACCA -CACGGTCCATCATCAGCATGTTCGGTGCTGGCAATTGCGGGCCTTTAGCGCCAAACAGTTCACCGCGACCAGAGG -CAAGAAGGTCTTCTTTTGTATAGGATTCGCGTTTATCTACCATGTTCTCTGTAAGCCTTATTTTATTGAAGCACG -CAGGATAGCTAACACGTGTACGCTGAACAAGTCCGATCAGTTCGGAATAAACCAGTTCAGCCAACGTAATGGCCA -TGGAAAACGGTGACGTCCTTCCTGTTGCGATGCTTGCGCGATACGTTCCTGGATGGTTTGCATCAGCGTCGTTTG -GCCTTCGCCATCCCACACCAGATTTAATAATAACGGCAGTGCGTCAGTCACATCGTCTACTGCCCAGATGGTGAA -TTTGCCTTCTTCTACCGCTTTCACCAGTTCACTGTGAAGACTTAAATGGCGAACGTTAGCTGTGGGGATAATGAC -ACCTTGTTTCCCGGTTAACTCACGTTGCTGGCAAATAGCAAAGAAGCCTTCGATTTTCTCATTTAAACCACCGAC -CGGCTGGGCGCGACCGAACTGATCGACTGAACCTGTGATAGCGATACTCTGATTCACCGGCACATCGGCGAGGGC -GCTTATCAGGGCGCAGAGTTCAGCCATCGAGGCACTATCTCCATCAACTTCACTGTATGACTGCTCAAATGTCAG -CGATGCTGAGAAGGGGATCTGTTGCTCAAGCTGTAGTTCCGACATCAGGAACGCTTGCATGATCATCATCCCTTT -CGCATGGATATTGCCGCCAAGCTCCGCTTTGCGTTCGATGTCGGTGAATTCACCATCGCCAATATGCACAACGCA -GCTAATGCGAGAAGGTTCGCCAAAAGCGCGTGGATGACCCGGAAATTCAATGACCGAAAGGGCGTTAATTTGCCC -GATGCGTTCGCCTTCGGTTTCAATCAGGATTTGCTCCTGAAGGATCTCATCCTGCATACGTTCAGCGAGGAAACC -TTCGCGCCATTCACGCTGCTGCAGCATTAAGTTTAGCTGCTCGCCGGAGAAGGTGTCGCCATCACACAGGGAGGC -GACCTCTTTACACTGGCGGAGGATCCACTGCGGGCTAAGCGGAAGTGTTTCTTGTTCACCGGTGTAGCGTGCTGC -TTCGCGGATAAGTATCGGCCAGGCATCCGCTCCCGGTGCAGGTAAGTGATTATGTCTGGCGGTAAATGTCACCCA -GCGACACCACTGGGTTACTGACTCCGCATCGACAATCTGCAGAGTATCTTCAAATTCGCTATAAATAGCCTGCTC -TGAAAGCTCTGGCTCCATCTCCTGGAAATCAGCCAATGATTCGCGTTCGCCTACCAGAATGACTTTCAGCTTCAA -TGGCATCGAAGGCACAGAGACGGGGAGAGGGCGCGACTCATCAAACGCAACCCAGTCAAAACGCTCGCGGTTAAC -GATATTTTTCAGCCGCATCCACAGCAGAGGTTGCGCCAGCAGTGTACGCAAAGAGATAATGAGAATACCGCCATT -TGCCTGATGCACCAGACCAGGCTGCAGGGTAATGTCGCCATTAAACTGGCGCAGGCAGCCAAAGAGTTGCTCCGC -TTCTACCCAGTCGGCAGCGACAACTTGCGTTAAAGTCGCAAAATTATCATCTGCACTCACTGCGTGACGTAAGCG -GATGGAGTGGCCGGAAACCTCATAGTGACCGCCCACCAGTTGGCCTGCATCGCTTTGTAGCGTACGCGCGGCATT -GGCAATAAGATTCAGATACTCAGACTCTTCCGGGGCCTTCGCCAGCATAAAAGAGGAGGATGCTCGCGTATGCAG -CAACTGCTCCAGCGCAAATTGCAGCCGCGGTTGAGTATCACTGAATAAAGGATCGTTTTCGTCAATCAAATGTGG -CTGAGCAAATATTTCCTGATAGCTATCGGTATCAGGAACCAGGTCACGCCATGCAAGTTTCGTAATGGTCAAAGT -TGATGTTTTTTAGTCTGTTGTCAAAGCCGCGATTATACCGTAACCGGCACTACAGCACACGTAGAAAGCACCGAC -AATACTCCTGGCATGGGCGTTAAAGCTCACAGGATGGAGATTCTTTTCTTCACTGGCCTAAAAAGCTGATATTCT -GTAAAGAGTTACACGGTAACATTGAGATCGCTATGAAATATCAACAACTTGAAAATCTTGAAAGCGGTTGGAAAT -GGAAGTATCTGGTTAAGAAGCATCGCGAAGGGGAGTTAATCACCCGTTACATAGAAGCCAGTGCCGCCCAGGAAG -CCGTCGATGTGTTGCTCTCGCTGGAAAATGAACCCGTGCTGGTAAATGGCTGGATTGACAAGCATATGAATCCGG -AACTGGTCAATCGCATGAAGCAAACCATTCGGGCAAGACGAAAGCGCCATTTTAATGCGGAACACCAGCATACGC -GCAAAAAATCGATCGATCTGGAATTTATTGTCTGGCAACGTCTGGCTGGTCTTGCGCAGCGTCGCGGTAAAACGC -TTTCTGAAACGATTGTTCAGCTGATTGAAGATGCGGAAAACAAAGAGAAATACGCGAATAAAATGTCTTCTCTGA -AGCAGGATCTGCAGGCATTGCTGGGTAAGGAATAACTGACGAAAGTCAGTTCAATTTACTAAAGGCAAAAAAAAC -CCCGCAGCAGCGGGGTTTTTCTACCAGACGAGAACTTAAGCCTGCGGCTGAGTTACAACGTCTTTGATACCTTTA -ACTTCGATCTCTACGCGACGATCCGGAGCCAGGCAGTCGATCAGTGCAGCACGCTGTTTCACGTTGTCACAGGTG -TTGCCAGTAACCGGGTTGGATTCGCCCATACCACGTGCGGAGATCTTGTCTGCCGGGATACCTTTGGAGATCAGG -TAATCAACAACAGACTGAGCACGGCGCTCGGACAGACCCTGGTTGTAAGCGTCAGAACCGATGCGGTCGGTGTAA -CCCAGAACAACTACGGAACCGTCTTTCGGATCCAGGTTGCTCAGCTGGCTGTACAGCTGATCCAGAGCAGCCTGA -CCTTCCGGTTTCAGGGTTGCTTTGTTGAAGTTGAACAGAACGTCAGACTTCAGAGTGAAGTGCTTGGTCTGTACT -TCCGGTGCCGGAGCTGGAGCCGGAGCAACTACTGGAGCTGCTTCGCCCTGACCGAAACGGTAGGAAACACCCAGG -CTCAGCATGCCGTTGTCCGGACGAGTGCCGATGGTGTGTGCGTCACCGATGTTGTTGGTCCACTGGTATTCCAGA -CGGGTAGCGATTTCAGGAGTGATCGCGTACTCAACACCGCCAGCGAAGACCGGAGAAACGCCGGTGTCGTGGTTT -TTACCATAAACGTTGGATTTAGTGTCTGCACGCCATACCATGCCACCCAGACGAGTGTAGATGTCCAGGTCGTCA -GTGATTGGGTAACCCAGTTTAGCGGTCAGTTGAACGCCCTGAGCTTTGTATGCACCGTTTTCAACGCTGCCTTTG -TACGGCATACGACCTAACCAGTCGTAACCCATTTCAAAGCCAACATACGGGTTAACCTGGTAACCACCAAAAGCA -CCAGCGCCCAGTTGGTTTTCATGGGTCGGGCCATTGTTGTTGATGAAACCAGTGTCATGGTACTGGGACCAGCCC -AGTTTAGCACCAGTGTACCAGGTGTTATCTTTCGGAGCGGCCTGCGCTACGGTAGCGAAACCAGCCAGTGCCACT -GCAATCGCGATAGCTGTCTTTTTCATTTTTTGCGCCTCGTTATCATCCAAAATACGCCATGAATATCTCCAACGA -GATAACACGGTTAAATCCTTCACCGGGGGATCTGCTCAATATTAACTCTACCGATATCTTCGGCTTATGCCGAGC -ACCCCTGGCGATGTAAAGTCTACAACGTAGTTGAAAACTTACAAGTGTGAACTCCGTCAGGCATATGAAAAAAAA -GTCTTGTATAAGGTATGTTTAATCTTTTTTGTCAGCGACAATTTACAGAAGAGAATCGCGGAAACCGCTTCAGAC -AAGCCTCCGCAAGGAAAATTAGTCACGACTGAAAGCATTGGCTGGGCGACAAAAAAAGTTCCAGGATTAATCCTA -AATTTACTTAATGATACAAATTAGAGTGAATTTTTAGCCCGGAAAGTTGTCTCGTGGCGTGAGAGGATGCGCTTA -CCGGACGCATAATAAACCCCATAGCGTTACCTTCATTTGCCGCATCAACAAGTTCAGCATGCTCTTCTTCAGTCA -AATCATCTGCCAACCAACCGATCACCACACTGTAATTGCCCGTGCGTAAAGCGCGAACCATTGACTCCACAGTGT -GGCAAGGGGAGAGCTGGCTAATCTGCATTACTTTCGTTAAGGGTAGCCCAGATGCCTGAACCCATTCCCGACTCA -GTTTTTGTTGCGGTGTTAACCAGAGTTGCCAGCGCGATTGCTGACCGAGTTGCTGTAACAATGGCAACAGTAGAA -GTTGCGTCATCATGGGCTGATCTTCGCGATAGACAACTTCACTGATAAGCCCGGCTGTAGTGTTTTCCGTAGAGA -CACGCGCAATTTTACTTGCTGCGGATGAGAACGACGAAGAACGATGTGCATAGCCTGAAGTGTACATAATCAATC -CAGCCCCTGTGAGTTACTGTATGGATGTACAGTACATCCAGTGACAACAAAGATCAACCCTATTTTCGGAAAGAG -CCTCGCAAATTTTGTCGTTGGTGACGGGAAAACATAAATTAATCTTGCCCCTTAAGAATAAGTTGCCTATTTTCG -TAGTTAACGGATCCGTTAATGTGAATCATTCTTTTATGTTATGATTTTAAAAGGAATTTTATGAAAAGCCTCTCC -TATAAGCGGATCTATAAATCACAAGAATACCTGGCAACGTTGGGCACAATTGAATACCGATCATTGTTTGGCAGT -TACAGCCTGACCGTTGACGACACGGTGTTTGCGATGGTTTCTGATGGTGAGTTGTATCTTCGGGCTTGTGAGCAA -AGTGCACAGTACTGTGTAAAACATCCGCCTGTCTGGCTGACATATAAAAAGTGTGGCCGATCCGTTACCCTCAAT -TACTATCGGGTTGATGAAAGTCTATGGCGAAATCAACTGAAGCTGGTGCGTCTGTCGAAATATTCTCTCGATGCA -GCGCTGAAAGAGAAAAGCACGCGCAATACCCGGGAAAGACTGAAAGATTTGCCCAATATGTCTTTTCATCTGGAA -GCGATTCTCGGGGAGGTGGGGATTAAGGATGTACGGGCGTTACGTATACTTGGGGCAAAAATGTGTTGGTTGCGA -CTGCGGCAGCAAAACAGTCTGGTGACAGAAAAGATTCTGTTTATGCTTGAAGGTGCCATTATCGGCATTCATGAA -GCTGCGCTCCCGGTGGCACGCCGCCAGGAGCTTGCAGAATGGGCTGACTCTCTTACGCCGAAACAGGAGTTTCCT -GCGGAACTTGAGTAATCTGGCGTTGCAGACGACCAATCTCAGGCAGTAATGCAATCAATAATCCAACTTGTTGTA -CGACCAGAGGTTCTTTGCTGTCTGCCCGTGGTTCAAGTTGCTGCATCCGCTGTTTCAGGCTAGCTAATGCCTCAT -TGACGCGTTCTTCATCAGCAGGTTGATGATGTAACGCGTCATCAACATAGCAAACTGCGTCATCAAGAAACGCCA -GAATTTCAGGATTAGTTAACTGCTCCCGGTGAGCACCGAGGGCTGAGATATAGCTGGTAAACGTATGGTTAAGGC -ACAGCAACCGAAACGCGGCTTCGCGAATTTGCGGGGTAACGTTCGGCTCGCTGGACATATTTGATACCACCGACG -CCAGCTCAGCATCACGGTTGTGTGCATCGCGGCGGGCAATACGATACGCCAGACGGTTATCACGCCCCTGATGGT -ATTGCTCCAGTATGGCATCGAGATACCGACAGTTGGCCTCTGTGGCGCGTTCGAGCATGCGCGGCAGATTGCGAA -ACTGCCAGTCAGGCCAGATGTAGCTCACTGCCGCCCACGCAATGGCACAACCAATCAGCGTATCGATTACGCGAG -GTAACGCTACTTCAAAACCTTCACCCAGTAAGTTAAAACACAGTAGCACCAAAAGTGTGATGAACATCGTTGCAT -GAGCGTATTGCACGTTACGGAAGGCAAAAAAGAGCACGCCGGTAATAACCAGCAGCACCAGCTGCCCTTCCAGTG -ATGGCACAAACCACAGCACAGGAATGCCAATGGCGATACCTACCAGCGTACCAATAATCCTTAACTTCAGGCGGT -GGCGCGTGGCGTTATAGTTTGGCTGGCAGACAAACAAACTTGTCAGCAAGATCCAATACCCGTGATGCATTCCGG -TTATCTGAATGATGGCGTAGCCGAAGCACAACACCAGCGACATTCTTACCGCATGACGGAAGAGGGCGGATTCCG -GCGTGAAGTGACGGCTAAGACGCAGCCAGATATCACTCAACCCGTGCGGGCTGTCATCAGCGAGCTCATTTTCGT -CATTATTATGGGGTAGTGCCTGGGCCTGTTCTGATTCAATTGTTGCCAGTTGGGCATCAATGGCGCGTAAATTGT -TCAGCAAAAATCCCAGTGTTTTGAGTAAATCGGCGGGTGCGCCGTTATCGCGCATCCGCTCCAGCGCAGCATCAA -TATGCGTAAAAGCGCGCTCAAAATGCGGATCATGTTGATAAGGCTGACGCAACAAAATACAGCGTGACAGTTGCT -GGCACGCCTGGCCCTGCATCGACATCAGCCGCTGAAAACGGAACAGCACGTCGCTGTGGCGAAAATGTTCACGCA -ATGTTTGATACTGAATATGAGAAGAGCTGGCACGCTCGTGAATATCCTGTGCGACAAAGTAATAATGCAGCGTGC -GACGCGTTCCCCGTTGACCACGATCGCCACGTAAGCGGGTCAGCAGCGAGAGTTTCGTCTGATTCAATGTCGCCA -TCAGCAGACCGTTGGCGAGAGCCAAATCGTACAGCGGTGCCTGGCTTTGATCTTCAATATCAGGATCAAACATGC -GCGACTTGAGCTCAAGATAACGCGCCAGTTGTTCATAGCAACGCGCCAGGTTGTCCTGCAGCGGGCGGACCGGGA -ACAGCAGATGACCAATAAGTGTCAGGACGTTGTACCAGACGGCACCGGCCAGCAGATACATCGGCTGCTGATACC -AGTGCTCATACAGTGATGTTCCCAACATAGTGTAAATGGCGATCAGCAATGCACCGAAGGCAATTGTTGCATAGC -GTTGACCCAGACCGCCGAGCAAAATGAAGCCGCTGGTAGAGAGCGTTAAGCCAATCGCAAATAGCCAGGGCCAGG -GAAACAGCAATTCTACTGAGGCCGAGGCGATAAAAAAGCAGAACAGCGTAATGATGAGGTTACGCAAACGTCCCG -CCAGTCGGTCATCGAGATCGGTCAGCGCCGCTGCCACCATCCCCAGCGTTAGCGGAATCGTCAGTTTTACATCAC -CCAGCCACCACGGAAACGCTGTGGTTCCACAAAGCGCAATAAAAATACGCGCGTAATACAGCCAGGCGCTGTTCC -AGGTATAGCGTTTGAGCAAAGGACTTAGCATAAAGGCCATATTAGTGGATTATTCAAAACGACGACGTGCATTGG -CTTCACGCGCAGCTTGCGCTGTTTCTACCGATACCACGCGACGACCAACCGGCCATAGTGCAATAGCGGCAATTT -TAAAGTTCGCAATGCCGACAGGAATGCCAATGATTGAAATACATTGTGCGATGCCCGTTGCAATGTGCATCAGGC -ATAACCACCAGCCAAAGAAAATCAGCCAGAAAATATTCAATACCGTACCGCCAGTATTCAGCAGCACATTTTTGC -CAGCCGGGTTCAGTTCATCGACATGAATAGCTTCATTGCCATAAGGCACCAGAGACAGTTTAGTGATCTCCCAGC -AGGATCGTGTCAGCGGTAAGGTAAAAATCAGCACAATACTGACCAGAGTCGCCAACAGCCAGCCCAGAGTGGTGG -CAAATCCGCCAAGCACAAAGTTCAGAATGTTCAAAACGGTACGCATAAAACCTCGCTTTACTGTGGTTTTCAGTA -ATGGGCGGCAATTGTAACGTTTTTTTGGGCTGGAGCACGTTTTCTCTGACGGTTACACTGATAAGAAATAATTTC -GTGTGGATCTACAGAGTCATGGAACTGAAAGCGACAACGCTTGGAAAACGTCTGGCACAGCACCCTTACGATCGG -GCGGTGATCCTCAATGCCGGGATTAAAGTCTCCGGCGATCGCCACGAATACCTTATTCCTTTCAATCAATTACTG -GCGATTCACTGTAAGCGCGGTCTGGTATGGGGCGAGCTGGAATTTGTACTGCCGGACGAAAAAGTGGTGCGTCTG -CACGGCACCGAATGGGGCGAGACGCAGCGTTTTTACCATCATCTTGATGCTCACTGGCGGCGGTGGAGTGGCGAG -ATGAGCGAAATTGCGTCTGGTGTTTTACGCCAGCAACTGGATTTGATTGCCACGCGCACTGGGGAAAATAAATGG -CTGACGCGTGAGCAAACCTCTGGCGTGCAGCAACAAATCCGCCAGGCTTTGTCGGCGTTGCCGTTGCCGGTTAAC -CGACTGGAAGAATTCGATAACTGCCGTGAGGCGTGGCGTAAATGTCAGGCCTGGTTGAAAGATATTGAAAGCGCT -CGGTTGCAGCATAACCAGGCGTATACCGAAGCCATGCTTACCGAGTATGCGGATTTTTTCCGCCAGGTCGAGTCT -TCACCGCTGAATCCGGCGCAGGCCCGGGCAGTCGTTAATGGCGAGCATTCTCTGTTAGTGCTGGCAGGTGCAGGA -AGCGGAAAAACGTCGGTGCTGGTGGCCCGTGCAGGCTGGTTGCTGGCGCGTGGTGAAGCGTCCCCTGAGCAAATT -TTATTGCTGGCGTTTGGTCGCAAAGCCGCTGAAGAGATGGACGAGCGGATTCGCGAACGGCTACATACCGAAGAC -ATTACCGCACGCACGTTTCATGCGCTGGCGCTGCATATTATTCAGCAGGGCAGCAAAAAAGTTCCGATAGTCAGC -AAACTGGAAAATGATACCGCTGCCCGTCATGAACTCTTTATTGCTGAGTGGCGCAAGCAATGCAGCGAAAAGAAA -GCGCAGGCGAAGGGCTGGCGGCAATGGCTGACGGAAGAAATGCAGTGGTCAGTGCCAGAAGGTAACTTCTGGGAT -GATGAAAAATTACAGCGTCGCCTTGCCTCTCGCCTCGATCGCTGGGTAAGTCTGATGCGGATGCACGGTGGTGCA -CAGGCAGAAATGATTGCCAGTGCACCCGAAGAGATTCGCGATCTGTTCAGTAAACGTATCAAGTTGATGGCCCCG -TTATTAAAAGCCTGGAAAGGTGCGCTGAAGGCAGAAAACGCTGTCGATTTTTCGGGCCTTATTCATCAGGCGATT -GTGATTCTGGAGAAAGGTCGCTTTATCAGCCCGTGGAAGCATATTCTGGTTGATGAATTTCAGGATATCTCGCCG -CAGCGGGCAGCGTTGTTAGCGGCATTACGCAAGCAAAACAGTCAGACGACGTTGTTCGCTGTTGGTGATGACTGG -CAGGCGATTTACCGATTCAGCGGTGCGCAAATGTCGCTCACCACCGCTTTCCATGAAAACTTTGGTGAAGGCGAA -CGCTGTGATTTAGACACGACTTACCGTTTTAACAGTCGTATCGGTGAGGTGGCAAACCGGTTTATTCAGCAGAAC -CCAGGCCAGCTGAAAAAGCCGCTAAACAGCTTAACCAATGGAGACAAAAAAGCCGTCACGTTATTGGATGAGAGT -CAACTTGACGCTTTGCTGGATAAGCTCTCTGGTTATGCCAAACCGGAAGAGCGCATTCTGATCCTGGCGCGTTAC -CATCACATGAGGCCTGCCAGCCTGGAAAAAGCGGCAACACGCTGGCCGAAGTTGCAAATCGACTTTATGACCATT -CATGCCAGCAAAGGGCAACAGGCGGATTACGTCATCATCGTTGGCTTGCAGGAGGGAAGTGATGGTTTTCCGGCT -GCGGCGCGGGAGTCGATTATGGAAGAGGCGCTACTGCCACCGGTTGAGGATTTCCCGGACGCTGAAGAACGGCGG -TTAATGTACGTGGCGCTGACCCGGGCACGCCATCGGGTATGGGCACTGTTTAACAAAGAGAATCCCTCTCCCTTT -GTGGAAATACTGAAAAATCTGGATGTGCCGGTGGCGAGAAAACCGTAAGAAACAGGTGGCGTTTGCCACCTGTGC -AATATTACTTCAGACGGTCCGCGAGATAACGCTGATAATCGGGGATCAGAATATCGACCGCGTCGTTGAAATGCG -GCGACTGGATTATGAAGTCTGCCGTTGCCACGTTGGTGGCGACCGGAATGTTCCATACCGTCGCCAGACGCAGCA -AGGCTTTCACGTCAGGATCGTGCGGCACGGCATTTAGTGGATCCCAGAAGAAAATCAATACATCAATTTTCCCTT -CTGAGATCAATGCGCCAACCTGCTGGTCACCCCCCATTGGGCCACTCAACATCGCGTTGACGTTCATGCCGGTCG -CGCGGGAAATTAAGTTACCGGTAGTGCCTGTTGCATACAGTACGTGTTGTTCCAGTAACGGTTGATGCCGTTCCA -CCCAGCTCATCAGCATTTGTTTGCAGTGATCGTGTGCCACCAGCGCAATATGTTTCCGCGCAGGTAAAGTGCGAG -TCGTCAGTTCCATAATGTACATCCGTAGTTAACTTTCCTACAGATTACTGTAAGCACTTATCGCTGCAAGATAAA -GACCGAAAAAGCCTGCGCACAGGCACAAAAATCTCAGGAAGATGGTTGTTTTTCCGCCCACTGCAGGAAAGTATT -TCGCGTTTGTGGGTCAGCCAGTTTAAACCAATACTTCAGCCGTTGTTCTGTGAGCACCTGAGACTGCGGTGGAAT -AGCATCCAGCTCGGAAACACCCGAAAGCAGCGTACTGTCATCTGCCATCATCGTGGCAAATTGCGGTAGTGAAGC -GCGTTTCGCGGATTTGTTATAGCGTTCAACCTCGACCTCATAATCAATCGTTTTTGCCGTTGAGGTAATGGCGAG -AATATCCAGCTTTACCGGAATCGGCGTCGCATCGCCATCCAACAATTCAAGGCGCGGCGCGGCATCAAAATGGTT -AGCTTCCCGCTCATTCTCCAGGCGAGGCAGGCGAAAATTGACCTGGTTGATGAGCTGGGTATTAAAACTGACCAC -CAGCGGTGGGGAGATATACAGCCGTTCTTCACTATTGGAAAGATGAATCGTCTTCTCAACGCGAAACACTAACTG -ATGCGGTCCATTATCCAGTTCAATGCTGTCCGCACCGCGCAGCAGAGAGCTGGAAACCTTCTTGCCGTCGAGTAC -CAGAAGATCGACATCGGTTGAAAGCCGCAGCGTGGTGGCAAAAACGGATACCGGCAAACATAATGCAATCAAGGT -GGTCACGATGCCGGTTTTCATAGGTAGCTCCTGTCAAAAGACCGCCCGAATAATAATGTGTCAAAATTTTTCTTT -AATCATACTTACTAACATATAGACATATTTCCCGCTTTTGCTCTCATTCATTCGTATTAGCTGCATGGTTGGCAT -GTCGGCTTTGTCGTACACTTTGTTAAACAGTCTGGAGGAAATAATGAAAGAAACCGATATTGCAGGCATTTTAAC -GTCCACTCACACCATTGCGCTGGTGGGGGCAAGCGACAAACCCGATCGTCCCAGCTATCGCGTGATGAAATATCT -ACTCGACCAGGGGTATCACGTCATTCCGGTTTCGCCAAAAGTTGCCGGCAAAACGCTGCTGGGCCAGAAGGGGTA -TGGCACGCTGGCAGACGTTCCGGAAAAAGTCGATATGGTCGATGTTTTCCGTAATTCAGAAGCGGCGTGGGGCGT -GGCACAGGAAGCTATTGCCATTGGCGCGAAAACTCTCTGGATGCAACTGGGGGTGATTAATGAGCAAGCGGCAGT -ACTGGCACGGGATGCCGGGTTAAATGTGGTGATGGATCGCTGCCCGGCTATTGAGATCCCTCGCCTGGGCCTGGC -CAAATAAAAAATCCCCGGAAGGCAAAAACCTTCCGGGGATTTGTTCAGGGATTAGTTACGCAGACGCGGGGCCTG -GAGTTGTTTGCGGATGGTCTGCGCCAGCTCATCCATGGATGGCTGTTCAGGATGTTCATCCTGCAATTCGCTACT -TAGCTGGGCTTCAGCCAGGTAGGTATGAACCGGTAGGCCGTTATCGTCCTCCATCACTACGTGATACCACGGAGC -GGCGCGAAGCTCGTCATTCACCGCCAGCTCATCAGGCGACGGTTCAGAGAGCGAATAAACCGGGTCGATATCCAC -GACCACTCCGAGATAACCTAACAGGGAATGGCGGACCTGCTGGCCGATACCGAATTTGCTGGCAATCATAGTCAC -CTCCCGGGAAATCTTTACCTTTGATATAAGGGTAAAATTCCACATTTCAAGTTACATGACGCGACAGGCAAACCC -TTTCAGATATAGCCCTTCCGGATAGGTAGCGATCACCGGATGATCGGCTGCCTGACGGAACTGCTCTATAAATTG -TACATCACGACCGGCATCAATTGCGGCATCCGCGATGATTTTCTGAAATAAATCGCTGGTCATCAGACCGGAACA -GGAGAAAGTCAGGAGAATACCGCCTTCATTCAGCAGCTGAATCGCCAGCATGTTGATGTCTTTATAACCACGACA -CGCGCCCATCAACTGGCTTTTATTCTCAACAAACTTCGGCGGGTCCATCACGATAACGTCAAATTTTTCACCGCG -ATCGCGATAAGTACGCAGCAATTTAAAGACATCATCACGGACAAACTCAGCCTTGCTCAGATCCAGTTTGTTCAG -CTCAACGTTCTGCCGTGCAATATCCAGCGCTTCCTGGGAGGTATCAACGCTGACAACCTGGCTGCAACCGCCCAT -CAGTGCCGATACGGCGAAACCACCGGTATAGGAGAAACAGTTCAGCACACGTTTATTTTCAACGTAGCGGCGGGT -AGCCAGGCGGCTATCACGCTGGTCCAGGTAGTAGCCCGTTTTGTGTCCGTGCTGAATATCCACCAGCAGTTTCAT -TCCGTGTTCTTCAATCGGCAGCAGGGCAGGTGGCAACTCGCCGGTGACGGGGCCCTGGGTCAGCTCCATTCCTTC -TTTTTTACGTACCGCGACGTCGCTGCGATCGTAAATCGAACATTCCGGGTACAGCGTTTGCAGGGCACTAATTAA -TGCCGCGCGCTGATATTCTGCCCCAGCACTCAGCAGTTGCAGCACCAGAAAATTACCGAAACGATCGATAGTAAT -ACCCGGCAGGCCATCAGATTCTCCGGCGATTAAACGATAGCTGTCGAGGCCATCTTTTTGCGCCAGCCAGTCACG -CCATTTTTGTGCTTGTTGCAAACGGCGGGAAAAAAAAGCAATGTCGATAGACTCAGACGGGTCAAACGTCCAGAC -GCGCGCCCGGATTTGCGAAGCTGGCGAATAAGCGCCGCGTGCTAACCATTTTCCCTGATGATCAACAATATCGAT -GGTTTCACCGAGGCTGGCTTTACCTTCCATGCGGGCAACGGCCCCGGAAAAGACCCACGGATGGCGACGAAGTAA -TGATTTTTCGCGCCCTTTGGCTAACACTAAACGTACACTCATAATTTACTTTTCTGTCGATGCAAAGAAATGGGC -GTCATTGTCCGGAGTTTTCCATGGATTTGCAACGCGTCCATTAAGGATAAGGAGAGCAGCAATGTCGAAAGTCTG -CATAATTGCCTGGGTTTACGGGCGAGTTCAGGGCGTAGGATTTCGCTACACCACACAGTACGAAGCGAAAAGACT -GGGTTTAACCGGGTACGCCAAAAATCTTGACGATGGCAGCGTGGAAGTGGTTGCTTGCGGTGAAGAAGGGCAGGT -GGAAAAATTAATGCAGTGGTTAAAGAGTGGCGGCCCGCGTTCTGCGCGTGTAGAACGGGTGCTCAGCGAGCCGCA -TCATCCCTCGGGGGAATTAACCGATTTTCGTATCCGTTAAATACATTTTACCGGTTTTGGCAGGCCAGCAATTTT -GGTGGCTTGCTTAGCCGGACCTTTCGGAAACAGTCGGTATAAATAGCGGCTGTTACCTTTTTCTTCGCCAAATTT -ATTCGCCATCGCTTTTACCAGCATACGAATCGCCGGAGAAGTATTGAATTCCAGATAGAAATCACGCACAAAACG -CACCACTTCCCAGTGTTCCGGTGACAGCGAAATCCCTTCGTTCTCTGCAATCACCACAGCCAGCGGCTCACTCCA -CTGGCTGCTTTCTTTGAGATAGCCTTCGGTATCCGTTTCTATCTCTTTACCTTCGAAGATCAGCATAATTATTAC -TACCTTAATCAGACTGGCGGCAGTGTAACAAAAAACAAAGCCCCGCATAAAGCGAGGCTATGAAAGTGTTAGCGG -GTGAGATTAATCGCGGCTAGCGAAGCCCAGAATGCTCAGCAGGCTGACGAAGATGTTGTACAGCGAAACATACAG -GCTAACCGTGGCACGAATATAGTTCGTCTCACCGCCATGAATGATGTTGCTGGTTTCAAACAAGATAGCGCCAGA -GGAGATCAGAATGAAGACCGCGCTGATCGCCAGATGCAGAGCAGGCAGCTGCAGGAAGATATTCGCAACCATACC -AATCAGCACCACCACAATACCCGCCATCAGCATACCGCCGAGGAACGACATATCTTTGCGGGTGGTCAGCACATA -TGCAGAGCAGCAGAAGAACACTAACGCCGTTCCGCCCAGTGCCATAGCGATTACGTCACCCATTCCGGCAGACAG -ATAGGTGTTCAGAATAGGTCCGAGGATATAACCCAGAAAACCGGTAAAGGCGAATGCGGAGATAATCCCGGTCGG -CTTATTCGCCGTTTTATAGGTCAGGAACATCAAACCATACATACCCACCAGCGTCAGAATCAGACCCGGAGATGG -CAGCATCAGCACCGTACTGGCAGTTGCGGTAATCGCCGAAAAGGCCAGCGTCAGGCTCAGCAGAAAATAGGTATT -ACGCAGCACCTTATGGGTGCTAAGCAGTGATGTACGGTCATGTGAAGAACTAACAATACGATCCATTGAGTCACT -CTCTATGACAGATGTAATTAATTAAGCAGCATAATGATAATGCGTAAGGGCACCCAGAAGTTTTACCCATCTTTA -CGCATTTGATCTGGAACAGGTTTAACAGCGGATTATCAGGTCATTAAGCAAATATAACGCCCTGAGAATTTCGAC -AGGCAAAAGAAAAAGGGGTTAGCATTTAGCTAACCCCTTATCTTATTTGGCGGAAGCGCAGAGATTCGAACTCTG -GAACCCTTTCGGGTCGCCGGTTTTCAAGACCGGTGCCTTCAACCGCTCGGCCACACTTCCGGAATGACGCGCACT -ATAAACATCCCGATGCGGCGTGTAAACCCCTAATTTGTTTGTTTGCCTGAAAAACAGCCAAAAGTGCATTGATAG -CGTGAAATAACAGCAGATTGATCATTTCATCACCATGAATTCCTTCTCTTTTACTCGTTTAGCAACCGGCTAAAC -ATCCCCACCGCCCGGCCAAAAGAAAAATAGGTCCATTTTTATCGCTAAAAGATAAATCCACACAGTTTGTATTGT -TTTGTGCAAAAGTTTCACTACGCTTTATTAACAATACTTTCTGGCGACGTGCGCCAGTGCAGAAGGATGAGCTTT -CGTTTTCAGCATCTCACGTGAAGCGATGGTTTGCCTTGCTACAGGGACGTCGCTTGCCGACCATAAGCGCCCGGT -GTCCTGCCGGTGTCGCAAGGAGGAGAGACGTGCGATATGAATAACGAGGAAACATTTTACCAGGCCATGCGGCGT -CAGGGCGTTACCCGGCGCAGCTTTCTCAAATATTGTAGTCTGGCTGCCACGTCGCTGGGATTAGGCGCGGGAATG -GCACCAAAGATTGCCTGGGCGCTGGAGAACAAACCGCGCATTCCGGTGGTATGGATCCACGGTCTGGAATGCACC -TGCTGTACCGAATCTTTTATCCGCTCCGCTCACCCACTGGCGAAGGACGTCATCCTTTCCCTGATTTCCCTCGAT -TACGACGATACTTTGATGGCTGCCGCCGGAACCCAGGCGGAAGAAGTCTTTGAAGACATCATCACGCAATACAAT -GGCAAATATATCCTCGCAGTAGAAGGTAATCCGCCGCTGGGCGAGCAGGGGATGTTCTGTATCAGCAGCGGTCGA -CCGTTTATTGAGAAACTCAAACGTGCCGCTGCCGGAGCCAGCGCGATTATCGCCTGGGGAACCTGCGCGTCCTGG -GGCTGCGTGCAGGCCGCGCGACCCAATCCGACGCAGGCAACGCCTATCGACAAAGTCATCACCGACAAACCCATT -ATCAAAGTACCTGGCTGCCCGCCGATCCCGGATGTGATGAGCGCCATCATTACTTACATGGTGACCTTTGATCGC -TTGCCAGATGTCGACAGAATGGGCCGTCCGCTGATGTTCTATGGTCAGCGAATCCACGATAAATGCTATCGCCGC -GCCCACTTCGACGCCGGAGAGTTCGTCCAGAGTTGGGATGATGACGCTGCCCGCAAAGGTTACTGCCTGTACAAA -ATGGGCTGCAAAGGGCCTACCACCTATAACGCCTGTTCCTCCACACGCTGGAATGATGGCGTTTCTTTCCCAATC -CAGTCTGGTCACGGCTGCCTGGGCTGTGCGGAAAATGGTTTCTGGGATCGCGGTTCGTTCTACAGCCGCGTGGTC -GATATTCCGCAAATGGGTACTCATTCCACCGCCGATACCGTCGGTTTAACCGCGCTTGGCGTGGTGGCAGCGGCT -GTTGGTGTGCACGCAGTCGCCAGCGCCGTTGACCAGCGCAGACGTCATAACCAGCAACCTACAGAAACCGAACAT -CAGCCAGGCAATGAGGATAAACAGGCATGAGCACTCAGTACGAAACTCAGGGATACACCATCAATAATGCCGGAC -GCCGCCTGGTGGTCGACCCGATTACGCGCATCGAAGGCCACATGCGCTGCGAAGTGAATATTAACGATCAGAATG -TGATCACCAATGCCGTCTCCTGCGGCACCATGTTTCGCGGGCTGGAGATCATCCTACAAGGGCGCGACCCGCGCG -ATGCGTGGGCGTTCGTTGAACGTATCTGCGGCGTCTGTACTGGCGTACACGCCCTGGCTTCGGTTTACGCCATCG -AAGATGCTATCGGTATTAAAGTGCCGGACAACGCCAATATCATCCGCAACATTATGCTGGCAACGCTCTGGTGCC -ACGATCATCTGGTGCACTTCTATCAGCTTGCCGGGATGGACTGGATCGATGTGTTAGATGCGCTGAAAGCCGACC -CGCGGAAAACCTCCGAACTGGCGCAAAGTCTCTCCTCTTGGCCGAAATCATCCCCTGGCTATTTCTTCGACGTAC -AAAACCGCCTGAAAAAATTTGTTGAAGGCGGGCAGTTGGGGATCTTCCGCAATGGCTACTGGGGGCACCCGCAGT -ACAAACTGCCGCCAGAAGCTAACCTGATGGGCTTTGCCCACTATCTCGAAGCTCTCGATTTCCAGCGTGAAATTG -TCAAAATCCACGCGGTCTTTGGCGGTAAAAACCCGCATCCAAACTGGATTGTCGGCGGGATGCCTTGCGCCATCA -ACATTGACGAAAGCGGCGCGGTCGGGGCAGTCAATATGGAACGCCTGAACCTGGTGCAGTCAATTATCACCCGCA -CGGCGGACTTCATTAACAACGTGATGATCCCCGACGCCTTAGCCATCGGTCAGTTCAACAAACCGTGGAGCGAAA -TCGGCACTGGTCTTTCTGATAAATGCGTTCTCAGCTACGGCGCATTCCCGGATATTGCCAACGACTTTGGCGAGA -AAAGTCTGCTGATGCCTGGCGGCGCGGTGATTAACGGCGACTTCAACAATGTGCTGCCAGTGGATTTGGTTGATC -CGCAGCAGGTGCAGGAGTTTGTCGACCACGCCTGGTATCGATATCCCAACGATCAGGTCGGGCGTCATCCGTTCG -ATGGCATCACCGACCCGTGGTACAACCCCGGCGATGTCAAAGGCAGCGATACCAACATTCAGCAGCTGAATGAAC -AGGAACGCTACTCGTGGATCAAAGCGCCACGCTGGCGCGGTAACGCGATGGAAGTGGGGCCGCTGGCGCGCACGT -TAATCGCTTATCACAAAGGCGATGCTGCGACCGTTGAGTCGGTCGATCGCATGATGTCGGCGTTGAACCTGCCGC -TTTCCGGTATCCAGTCAACGTTAGGCCGCATTTTGTGCCGCGCGCACGAAGCGCAGTGGGCCGCAGGTAAGTTGC -AGTATTTCTTCGACAAGCTGATGACCAACCTGAAAAACGGCAATCTCGCCACTGCTTCCACGGAAAAATGGGAAC -CTGCAACCTGGCCGACAGAGTGCCGTGGTGTCGGTTTTACCGAAGCGCCGCGCGGGGCGTTAGGCCACTGGGCCG -CCATTCGCGATGGCAAGATTGATCTCTACCAGTGCGTGGTGCCGACCACCTGGAACGCCAGCCCGCGCGATCCCA -AAGGGCAGATTGGCGCTTATGAAGCGGCGCTGATGAACACCAAAATGGCGATCCCCGAGCAACCGCTGGAGATCC -TGCGTACTCTGCACAGCTTTGACCCGTGCCTCGCCTGTTCAACACACGTGCTGGGCGACGACGGTAGCGAGCTGA -TCTCCGTGCAGGTGCGTTAACAGCGAAGGAGAATCATCATGCAACAGAAAAGCGACAACGTTGTCAGCCACTATG -TCTTTGAAGCGCCAGTGCGCATCTGGCACTGGTTGACGGTGTTATGCATGGCGGTGTTGATGGTCACCGGATACT -TTATCGGCAAGCCGCTACCTTCCGTCAGCGGCGAGGCGACGTATCTGTTCTATATGGGCTACATCAGGTTAATTC -ACTTCAGCGCCGGGATGGTTTTTACCGTGGTTTTGCTGATGCGGATCTACTGGGCTTTTGTTGGCAATCGATACT -CCCGCGAGCTGTTTATCGTGCCGGTATGGCGTAAAAGCTGGTGGCAGGGCGTGTGGTATGAAATCCGCTGGTATC -TGTTTCTGGCAAAACGTCCGAGTGCCGATATAGGCCATAATCCCATCGCCCAGGCGGCGATGTTCGGCTATTTCC -TGATGTCGGTCTTTATGATCATCACTGGTTTTGCGCTGTACAGCGAACACAGCCAGTACGCTATTTTTGCGCCGT -TCCGTTATGTGGTGGAATTTTTCTACTGGACGGGTGGCAACTCAATGGACATTCACAGCTGGCATCGGCTGGGGA -TGTGGCTGATTGGCGCGTTTGTGATCGGTCATGTCTACATGGCGCTGCGTGAAGACATCATGTCCGACGACACGG -TGATCTCCACCATGGTCAACGGCTACCGTAGCCACAAATTTGGCAAAATAAGTAACAAGGAGCGTTCATGAGCGA -GCAACGCGTGGTGGTCATGGGGCTGGGCAACCTGCTGTGGGCCGATGAAGGCTTCGGCGTGCGGGTGGCGGAACG -GCTGTATGCCCATTACCACTGGCCCGAGTATGTGGAGATTGTCGATGGCGGTACTCAGGGACTGAACTTGCTGGG -GTATGTCGAAAGCGCCAGCCATCTGTTGATTCTCGATGCCATTGACTACGGGCTGGAACCTGGAACGCTGCGAAC -CTATGCCGGAGAACGCATTCCGGCTTATCTCAGCGCGAAGAAAATGAGCCTGCATCAGAACAGTTTCTCCGAAGT -GTTGGCGCTGGCGGATATCCGCGGACATCTGCCAGCACATATTGCCCTCGTCGGTCTGCAACCCGCAATGCTCGA -CGACTACGGCGGTAGCCTGAGCGAACTGGCACGGGAGCAACTGCCCGCTGCGGAACAGGCGGCGCTGGCGCAGCT -TGCTGCGTGGGGAATTGTGCCGCAACCGGCTAATGAATCGCGCTGTCTCAATTATGACTGTCTGTCGATGGAAAA -TTACGAAGGCGTTCGCTTGCGCCAGTACCGGATGACACAGGAGGAGCAGGGATGAGCAACGACACGCCATTTGAT -GCGTTGTGGCAACGAATGCTGGCGCGCGGCTGGACGCCAGTCAGTGAATCCCGTCTTGACGACTGGCTTACGCAA -GCGCCAGACGGCGTGGTGTTATTAAGCAGTGACCCGAAACGCACGCCAGAGGTCAGCGATAATCCGGTAATGATT -GGCGAATTACTGCGCGAGTTTCCCGACTATACATGGCAGGTGGCGATTGCTGACCTTGAGCAGAGCGAAGCCATC -GGCGATCGCTTTGGCGTCTTTCGCTTTCCTGCCACTTTAGTGTTTACCGGCGGAAACTATCGCGGCGTGCTGAAT -GGTATTCACCCGTGGGCGGAACTGATAAACCTGATGCGCGGGCTTGTCGAACCGCAGCAGGAGCGTGCCTCATGA -GCGAAACTTTTTTCCATCTGCTGGGGCCAGGAACGCAACCGAACGATGACAGTTTCAGCATGAATCCACTGCCGA -TCACCTGTCAGGTGAATGATGAACCGAGTATGGCGGCCCTGGAGCAATGTGCTCACAGCCCGCAGGTGATTGCGC -TGTTAAACGAGTTACAACATCAACTAAGCGAACGCCAACCGCCGTTGGGCGAGGTGCTGGCAGTCGATCTGTTAA -ATCTCAACGCCGACGATCGTCACTTTATCAATACGCTTCTCGGGGAAGGGGAAGTGTCAGTGCGCATTCAGCAGG -CTGACGACAGTGAAAGTGAAATACAGGAGGCGATCTTCTGCGGATTATGGCGGGTGCGCAGACGTCGCGGCGAAA -AGTTGCTGGAGGACAAACTGGAGGCTGGCTGCGCGCCGCTGGCGTTGTGGCAGGCGGCAACGCAAAATCTCTTGC -CGACAGATTCGCTGTTACCGCCGCCCATTGATGGCCTGATGAATGGCCTACCGTTGGCGCATGAGTTACTGGCAC -ATGTACGTAACCCCGACGCGCAGCCGCACAGCATTAATCTGACGCAATTACCCATCAGCGAGGCTGATCGGCTTT -TTCTCTCACGTCTCTGTGGGCCGGGAAATATTCAGATTCGTACCATTGGCTATGGCGAGAGCTATATCAACGCCA -CGGGGTTACGCCATGTCTGGCATTTACGCTGTACGGACACCTTAAAAGGCCCGTTACTGGAAAGTTATGAAATCT -GCCCAATACCGGAAGTGGTGCTGGCAGCGCCAGAAGATTTGGTCGACTCTGCGCAGCGGCTTAGCGAGGTATGTC -AGTGGCTGGCGGAAGCTGCACCGACGTAAAAAGACGGTAAGTATCGCTTTCAGTCTTATGAATATCGCAATCGGC -GAATACCTCTGGTCGTAGAGTTTCAGGATAAAGAGGGAGATCTACCATTATCGGGTTATTTTTCTCTCTTCGCCT -ACAGGAGTGCGCATGTGGGATGTCATTGATTTATCGCGCTGGCAGTTTGCTCTGACCGCGCTGTATCACTTTTTA -TTTGTACCCCTTACCCTGGGGCTGATTTTTTTGCTGGCTATTATGGAAACCATTTACGTGGTCACCGGCAAAACA -ATCTACCGCGATATGACGCGCTTCTGGGGTAAGCTCTTCGGTATCAATTTTGCTCTTGGCGTGGCTACCGGCCTG -ACCATGGAGTTTCAGTTTGGTACTAACTGGTCATTCTATTCCAACTATGTGGGCGATATTTTTGGCGCACCGCTG -GCGATGGAAGCATTAATGGCCTTCTTCCTCGAATCCACCTTTGTCGGGCTGTTCTTCTTCGGCTGGCAACGGCTG -AATAAATACCAGCACCTGCTGGTGACGTGGCTGGTGGCGTTCGGTTCAAATCTCTCTGCGTTGTGGATATTGAAT -GCCAACGGTTGGATGCAATACCCGACCGGTGCGCATTTTGATATCGACACCCTGCGTATGGAGATGACCAGCTTC -AGCGAGCTGGTCTTTAATCCGGTCAGCCAGGTGAAATTTGTGCACACCGTAATGGCGGGCTACGTGACCGGGGCC -ATGTTTATTATGGCGATCAGCGCCTGGTATTTACTGCGCGGACGGGAGCGCAATGTCGCATTACGCTCGTTTGCC -ATCGGTTCCGTCTTCGGTACTCTGGCGATTATCGGTACCCTGCAACTCGGAGACAGTTCTGCGTATGAAGTCGCG -CAAGTACAACCGGTAAAACTGGCGGCGATGGAAGGGGAGTGGCAAACGGAACCTGCACCTGCACCGTTCCATGTG -GTTGCCTGGCCGGAACAGGATCAAGAGCGTAACGCCTTTGCCCTCAAAATTCCCGCGCTGCTAGGGATCCTCGCC -ACTCACTCATTAGATAAACCCGTGCCGGGTCTGAAGAATTTGATGGCTGAAACCTACCCACGCTTGCAACGCGGA -CGTATGGCCTGGCTGTTAATGCAGGAAATATCGCAAGGCAATCGTGAGCCGCATGTGTTGCAGGCATTCCGGGGA -CTGGAAGGTGACCTGGGCTACGGCATGTTGCTCTCCCGCTATGCGCCGGATATGAATCATGTCACAGCCGCACAG -TACCAGGCGGCGATGCGTGGCGCGATACCTCAGGTTGCGCCGGTATTCTGGAGTTTCCGCATCATGGTGGGCTGT -GGTTCCCTGCTGCTACTGGTGATGCTGATTGCGCTTGTCCAGACGCTGCGTGGCAAAATCGACCAGCATCGCTGG -GTGCTGAAAATGGCGCTCTGGAGTTTGCCGTTGCCGTGGATTGCGATTGAAGCCGGGTGGTTTATGACCGAGTTT -GGTCGTCAGCCGTGGGCGATACAGGACATCTTACCGACATACTCCGCGCACTCCGCTTTAACCACAGGACAACTG -GCTTTCTCACTGATCATGATCGTAGGGCTTTACACCCTGTTCTTAATCGCCGAAGTCTACCTGATGCAGAAATAT -GCCCGTCTGGGGCCGAGCGCGATGCAGAGTGAACAACCGACGCAGCAACAGGGGTAAAGGAGAAAATCATGTTTG -ATTATGAAACATTGCGCTTCATCTGGTGGCTGCTGATTGGCGTGATCCTGGTGGTCTTTATGATCTCCGACGGAT -TTGACATGGGGATCGGCTGTCTGCTGCCGCTGGTGGCGCGTAATGATGATGAACGCCGGATAGTGATAAACAGCG -TTGGTGCACACTGGGAAGGCAACCAGGTCTGGTTGATCCTCGCTGGTGGGGCATTATTTGCCGCCTGGCCCAGAG -TGTATGCAGCGGCGTTTTCCGGCTTTTATGTGGCGATGATCCTGGTGCTGTGCTCACTGTTCTTCCGCCCGCTGG -CCTTTGATTATCGCGGAAAAATCGCCGATGCACGCTGGCGTAAAATGTGGGACGCCGGTCTGGTCATCGGCAGTC -TGGTGCCGCCGGTAGTCTTCGGTATCGCCTTCGGCAACTTGTTGCTCGGCGTGCCGTTTGCCTTCACACCGCAAT -TACGCGTGGAGTATCTCGGCAGCTTCTGGCAACTGCTGACGCCATTCCCTTTATTGTGCGGATTGCTCAGCCTTG -GGATGGTGATTTTGCAAGGTGGCGTCTGGTTACAACTGAAAACTGTTGGTGTGATTCATCTGCGTTCACAGCTGG -CGACCAAACGCGCTGCACTGTTGGTGATGCTGTGCTTTTTGCTGGCGGGTTACTGGCTGTGGGTCGGTATTGATG -GCTTTGTACTGCTCGCCCAGGATGCTAACGGTCCTTCCAATCCGTTAATGAAACTGGTGGCAGTGCTACCTGGTG -CCTGGATGAATAATTTTGTCGAGTCGCCCGTTTTGTGGATCTTCCCGCTGCTGGGATTCTTCTGCCCATTGCTGA -CGGTGATGGCGATTTATCGTGGTCGCCCGGGTTGGGGATTTTTGATGGCATCATTGATGCAATTTGGCGTGATTT -TCACGGCAGGCATCACGCTGTTCCCCTTTGTCATGCCGTCAAGCGTGAGTCCGATCTCCAGCCTGACGTTGTGGG -ACAGTACTTCCAGTCAGCTGACGCTGAGCATTATGTTGGTAATCGTGCTGATATTTTTGCCCATTGTGTTGCTCT -ACACTCTCTGGAGCTACTACAAAATGTGGGGGCGCATGACAACAGAAACTCTCCGCCGTAACGAAAACGAGTTGT -ACTAAGGAGCAGAAACAATGTGGTATTTACTTTGGTTCGTCGGCATTTTGTTGATGTGTTCGCTCTCCACCCTTG -TGTTGGTATGGCTGGACCCGCGTCTGAAAAGTTAACGAACGTAGGCCTGATGCGGCGCATTAGCATCGCATCAGG -CAATCAATAATGTCAGATATGAAAAGCGGAAACATATCGATGAAAGCGATCTTAATCCCATTTTTATCTCTTCTG -ATTCCGTTAACCCCGCAATCTGCATTCGCTCAGAGTGAGCCGGAGCTGAAGCTGGAAAGTGTGGTGATTGTCAGT -CGTCATGGTGTGCGTGCTCCAACCAAGGCCACGCAACTGATGCAGGATGTCACCCCAGACGCATGGCCAACCTGG -CCGGTAAAACTGGGTTGGCTGACACCGCGCGGTGGTGAGCTAATCGCCTATCTCGGACATTACCAACGCCAGCGT -CTGGTAGCCGACGGATTGCTGGCGAAAAAGGGCTGCCCGCAGTCTGGTCAGGTCGCGATTATTGCTGATGTCGAC -GAGCGTACCCGTAAAACAGGCGAAGCCTTCGCCGCCGGGCTGGCACCTGACTGTGCAATAACCGTACATACCCAG -GCAGATACGTCCAGTCCCGATCCGTTATTTAATCCTCTAAAAACTGGCGTTTGCCAACTGGATAACGCGAACGTG -ACTGACGCGATCCTCAGCAGGGCAGGAGGGTCAATTGCTGACTTTACCGGGCATCGGCAAACGGCGTTTCGCGAA -CTGGAACGGGTGCTTAATTTTCCGCAATCAAACTTGTGCCTTAAACGTGAGAAACAGGACGAAAGCTGTTCATTA -ACGCAGGCATTACCATCGGAACTCAAGGTGAGCGCCGACAATGTCTCATTAACCGGTGCGGTAAGCCTCGCATCA -ATGCTGACGGAGATATTTCTCCTGCAACAAGCACAGGGAATGCCGGAGCCGGGGTGGGGAAGGATCACCGATTCA -CACCAGTGGAACACCTTGCTAAGTTTGCATAACGCGCAATTTTATTTGCTACAACGCACGCCAGAGGTTGCCCGC -AGCCGCGCCACCCCGTTATTAGATTTGATCAAGACAGCGTTGACGCCCCATCCACCGCAAAAACAGGCGTATGGT -GTGACATTACCCACTTCAGTGCTGTTTATCGCCGGACACGATACTAATCTGGCAAATCTCGGCGGCGCACTGGAG -CTCAACTGGACGCTTCCCGGTCAGCCGGATAACACGCCGCCAGGTGGTGAACTGGTGTTTGAACGCTGGCGTCGG -CTAAGCGATAACAGCCAGTGGATTCAGGTTTCGCTGGTCTTCCAGACTTTACAGCAGATGCGTGATAAAACGCCG -CTGTCATTAAATACGCCGCCCGGAGAGGTGAAACTGACCCTGGCAGGATGTGAAGAGCGAAATGCGCAGGGCATG -TGTTCGTTGGCAGGTTTTACGCAAATCGTGAATGAAGCACGCATACCGGCGTGCAGTTTGTAATGCATAAAAAAG -AGCATTCAGTTACCTGAATGCTCTGAGGCTGATGACAAACGAAGAACTGTCTAATGCGTAGACCGGAAAAGGCGT -TCACGCCGCATCCGGCCACTTTCAGTTTTACTCTTTCTCGGAGTAACTATAACCGTAATAGTTATAGCCGTAACT -GTAAGCGGTGCTGGCGCGTTTAATCACACCATTGAGGATAGCGCCTTTAATATTGACGCCTGCCTGTTCCAGACG -CTGCATTGACAAACTCACCTCTTTGGCGGTGTTCAAGCCAAAACGCGCAACCAGCAGGCTGGTGCCAACAGAACG -CCCCACGACCGCGGCATCACTCACCGCCAGCATCGGCGGCGTATCGACAATCACCAGATCGTAATGGTCGTTCGC -CCATTCCAGTAATTGACGCATCCGATCGCGCATCAGCAGTTCAGACGGGTTAGGTGGCACCTGACCGCGAGTAAT -CACATCAAAGCCTCCTTTGCCAAAATGCTGGATCACTTTGTTGAGCTCATCTTTACCTGCCAGATATTCCGACAA -GCCATGTTCATTACTCACGGTAAACAGGTTATGCGAATAACCACGGCGTAAGTCGGCATCAATAAATAACACTTT -TTGATCGGACTGGGCGATCACCGCTGCCAGAGTTGAACTGACAAACGTTTTACCACTGTCTGGCGTCGCACCGGT -GATCATTAGAATGTTATTCTCCGTCTCCATCATAGCGAAATGCAGACTGGTTCGTAGCGCACGTACGGCTTCCAC -AGCAGAATCCGCCGGGTTATCCACCGCCAGGAAGGGGATATTTTTAGTACGATGGCGCTGCTGATTAGAAAATAA -ATTTTTCTTACGCAGACGGGTGCGTTTATCCAGCCACTCGGACATTGGGATAGTGGCATAAACGCTGATGCCGTG -CTCTTCCAGTTGTTCCGGGGCTTCTACACCACGACGCAACATCGCACGCGCCAGCACGGCACCCACAGAAATAAA -CAGGCCAAGAATAAAACCAAGCACCACGTTCAACGCTTTTTTCGGTTTCACTGGCTGCGGCTGAGTGACTGCCGG -GTCGATAATCCGCACGTTACCAATGGCACTGGATTTCGAAATACTCAACTCCTGCTGGCGGTTAAGTAATTGCAG -ATATACCGCACGGCCCGCTTCTACGTCACGACTTAAACGCAACACTTCCTGTTGGGTGGAAGGCATTGCCGATAC -CCGCTTATTCAGGCGTTTGCGTTCTTGCTCCAGCGTCTGGCGTTTTTCCAGCAGCGCACGATAAGTTGGGTGATC -TTTCTTATACAGCTGGGAGATCTCTGCCTCGCGGAAGGTCAGCTCATTGAGTTGATTATCAACGTTCACAATCTG -CTCAAGAACGGCTTTGGCTTCCAGGTTAAGGTCAACCGAATCGCGCTGCTGGCGATAAACGTTGAGTTTTTCTTC -CGCTTGGTCCAGCTCGCTGCGCACTTCAGGTAACTGGCGCTGTAAGAATTCAAGGCTTTGTGAATCCTGCGCCGC -CTGGCGAGCGATATTCTGTTGCAAATAGTTGTTAGCGATGCTGTTCAGAATACGAGTAATCAACTGGGGATCATC -ACCAGTCATGGTAAGTTCCAGCATCCCGCTTTCTTTACTGCGTTCGCTAACGGTAAAGGTTTCCTGCAATGCGTT -AATCGCTTCCAGTTCGGTACGCTGGCTCAGGACAAACTGTGTTCCTGGTTTGGCCTTAATGTCCGCGATAGTCAG -CGCAACGCCATCTTTTTCCAGACGCTGGCCGACCATACCATTGACGGTGAACTCTTCACCTTCCAGTGTATAGTG -GCCGTTTTCCCCAACCGTGAGTGTCAGTTGCTGATCCTGACCATTCAGTTGTGGAATATGCATCCAGCTGATCGC -CAGCTCACCTGGTTTTTCTTTGGTTAATCTCGCCCAGCCGCGACCCACAATCGGAAAATACTTCTGCTCAACTAT -GTCGCGCAGATTCAGTTCAGCAATGGTTTTACCGAGAATCATGCGCGATTGCAGCAGTTGGATCTCCGGTGCAGA -CTCGGGCGATGAGTTAGGGATCATATCGCTCAGGCCGCTGAGAATGGCGTTGCCCTGTTTTTGCTCAACCTGGAC -CAGAGTATCTGCCTGATAAATTGGTGTGCTTAACAGCGAGTAAGCGACAGCGATCAGCGTGAATAACGCGGTCAC -GCTGATAATAAACTTACGGTGATCCCATAACTCGCCGACCAGACGAAGCAGATCGATCTCATTTTCCTGAGTGCT -GCCTGGTGGCGTATTCATATTTTTAGTTGTCATCGTATTTTATAAACTCAAATTACCGGCTGAGGCGCTTCGCCC -ATTCCTGACTGGCGCGCTCCAACATACCGTAGACATGTTCAAATGCGTCCTGACTTTTACGATAGGGATCCGGGA -TCTCTTTCTGTTCCAGCCATTGCCCAAACAGCATTGTCTTCCCGCGGACCTCGGGAGCAATTGCGGTAACCTGAG -CAATATGTTCCGACTCCATTGCCAGAATCAGATCGTAATTTCGTGCCATCTCAGCAGTGAGCTTACGTCCGGCAT -GTCCTTCAAGAGATACGCCATGATTAGCGGCAACATCTGCCGCTGTCGCATCTGCAGGGTGTTTTACCAGACCAT -GAACACCTGCCGATTTGACTTTTACGCCCGGCAGACGTTTACGCAGCAAGCGCTCGCCAATGGGCGAACGGCAAA -TGTTGCCGGTACAAACCACCAGGATTGAGTTAAATTTTAGTTGGGCCATGTTTGAATCCACCGTGAAGTCTCTGT -CAGGTCATGCACCCCGGAAATCGTCGGTACCAGCAGAGAAATCACACGGTTCCAACGAGCCAGCGGCGCGGTAGT -GACATAAACAATGTCGTAAGGTTCAAGCTGGAATTCCGTTCCGAGTATCATTGCCGATGCGTCCTTCGCATTCAG -CTGATAAATATTGGCGATTTTGCCATTCTGCTTGTTTTGCGTTGCACGAATAACAAAAATCCCCGTCGCATCAGC -GACATCCTGATTCATACCCTCAGCGTTACCCAGCGCTTCCGCCAGGGTCATACCGCTGCGGTCCATTTTCAGCGT -GCTCTGTTTACCCACTTCACCCATCACGAAGACTTTCAGATCATCGTTGCGCGGAATAAATAAAATATCGCCCGG -GTGCAGCAGTTTGTTCTGGCGCAAGTCGCCACGCTGCATCAGCGCATAGAGGTTCACTTTGGTCTTTACGCCATT -CTGGGTGAGCACCACGTTGCGCCAGTCTGCATCTGCGGTCAGACCGCCCGCGGCGTTAATCGCATCCATGATGGT -CAGAGGAATATTGGTAATCGGCTGCTGACCCGATTTGCTGACTTCGCCGGTGACGTACGCTTTTTGCGATCGGAA -CGCCGCGACGCTGACATCGACTTGCGGGCTTTCAATGACTGAATCGAGACGCGCTGTAATCTCGTTGCGTACCTG -GGTAAGTGTTTTCCCGGCCACTTTCAGGCGACCAATATAGGGGTAGAAAATCGCACCATCGGCGTTAACCCAGTT -GCCGGTATCACTGGCGCTACGGTATTGCCCTGCGGGGGTGGTTAGTTCCGGGTGATCCCAGACCGTAACCATCAA -CACATCACCAATCCCGATACGATATTCATAGTTTGCGATTTGCTGCTCCAGCTCCGGGTTAGCCTGCGACATAAT -CGGTTTGGCGCGCAACTGATCAATCAATCCTGGCGTGACGGGATAGATATTGACCATTTTGTCCAGGTCATACTG -ATTGTCAGGTAGTTCAATGACATCCTTGTTACTGGTCGATAAATTCTGACCAGGAACAAGGGTACATGCTGTCAA -AGACAGAACAGCCAATGTCAGTACCGAAAACTTAAAAATGTTCTTTTTCATTGGTTTATATTTATCAGTCAATGT -AATGTTATGAATTACGTCAGGTTATTGTCCAACCGGTACTTCTCGCTCTGCCGTCATTGGATAGAGCTGGTATTT -GCGTGACAGCATTTGTCCACCATCACGCGTCAATGGTGTCCACGAAACCACCGCGCGGTTGCGGTTAGGTCCAAT -GGTCATCAAGTCGAATGGAATCGAGATATAAAAACCTTTACTAAAGCCGCCTTCGCCGTAGTCATCTTTAGATAC -GTTACTGATTGCCGCCCATACCCCTACCGCCACGCCGCTGTCAAAGCGTTTGGCGACGTCGATCGTTGCGCCTTT -ATCTTTTGCCAGATATTGCCCAACGCTAAGTTTCATCAGTACGCCATTGAGCGTCGGCGGGTTCCAGTAAGCCGT -CACGAAACCTGTTGGCGTGGAATAATCGGTGAAACGCATCATGTTGTCCCAGTCACGTTGCTTCACGTAGTTAAC -GTCCACACCCAGCGCCCAGCAGGCATCTAGCGGGCGATAAAGCAGCTCGGAACCGACACCGGCGTACATCGTTTC -CAGATAACCGCCATACACCTGGCCATAGAAACCATTGCCTAAGTCAGCAAAATAGTTCGCCTGCAAGTTGTTGAG -ATAAACGTCATTGCGAACGTAGTCACGGATATGCGTGCGCACGCGGGGCAGGGTAGAGTCCGCGGGCAACAGCGA -AGACTTAAACTTGTCGTAGTTGTTGTAAATATTGGTGAAAATACCGCCATCAAGCAGCAGGTGGTCGGTAAACCA -GTAGCGGGCACTGGACATCAGCCCCAGCTGGAACATATAGAAATCTTCCGGGCCGCCCAGCGACTGTGAAAGTGT -TGGGTTGAAAGAGTAGCTAAAGCGATCTTCACGAATACGGTAGCCCCGACCAAAGGCAGAAAGATCTTCAGCTTC -AACACGTTGTTGTTGCAGTGGCTCTGATTGACCAGGCGCTGTACCTGCCAGCTGTTTGCGCAGGCTGGCTACGTC -GGTTTCGGTAGTCACCATCGCCATATGCTCGCGCTTTTGCGTCACGCTAATCTTCTCAACGCCTTGCGGCAGGTT -ATTCACCAGAATCCGGTTGGCACGATCGACCGCTTCACGAGAGTCACGGTATTTGTATTGCTGACCAGACATATA -CAGTGTCTTATCGCGTAGCTGAATTTCTGGCGCGTCAAAGCCCGCGTTATACTTCAGGGCGGTAAGTTGGTTTGC -TACCGTGGTGTACTGCAATCCTTCAGATTCAGGCGCAGGTTGATATGCCGGTTTTGGCGTATCGCGCAGGGCAGG -GCGCAGATCGTTGAAATTGGTCCGTAACGTGAAGCCAAACATCAACGTGTTACCGCGTTCATAACTCAGGTTGAG -ATCTGCCCAGCTGGCAGCGCGATAAACTGCGCCGACGTTGAAATGGCTTGCCTGAGGCAGTTTGCCAGCGAAATC -ATTCTGGTAATTGTTTCCATCGTATTCGAGTTTCAGACGCAGGGGATTCCACGGCGTTTGATACTCAATGCCGCC -AAAGATGGAAGCCGGGCCACGAAAGATATCGCTAAAGCTGATATCGCCCGCATCGTGAGACTCTGCGCGATGACA -ATATTTATCGCTCACCCGGCAAAACGGGTTGGTAATATTGCCCGCATTACCGGCGTAGCCCCATGCCATCCCGAG -GGTGAAATCAAATGGCCCCGCTTGCTTGCTGGCCACCAGATACTCACCGTCAAACAGACCCGTACCAGCAATATC -ACGTTTACCAAACGCCACTTGCGGTAGCCAGTAACCTTCTTCCCACAGGCGAAGTTTAAAATCGAATGATTTGTC -TTTGTATGACTGATCGCCGCTGAAATCTTCCCACTGGCTATATTTGCGTGTGCGCACATCCGTATAACGAATGGT -GCCTTCCAGCCATGGGAACAGCGCCACGGAGGTGGAGTAGAACCGGTATTGATCGTTATCCCGGTAGTTGACGCT -GAATTCACCTTCCGGTGCGATGCGCGCATTTGGCATCTGCAACAATCCTGTGCCGCCAAAGTCTGATTGCGACGA -ACCCAGCGGATCCGGGTAGGTTAATACTTCAGCATGACAGGCACTGGAGACGGCAATGGCCAGGCAGCTTAAAAG -ATAAGAATTCTTCTTCATCAGTCAGGAACACGTTGCGTTAAAACAGACACAATCTGGTCATTTAAATCAGCATAT -TTTTCGGGCAGTACATGCGCAGAAAAGCCCAACCAAAGCTGGCTGCCAGGCGGTGGTTCCACATGTCTTTTATTC -CACAGGGCAACAGGGGCGACGACAGTCTCACCCTCAGGCGTAATCACCATAACGTTATTCTTGTCCGCGCCTGCA -AGGCGGGGGTGATCTTGCAGATAATCGGTAACGCTACGGCCTGCCTGCCAGGGCAATTGCCCGGCCCCAGAAACC -GCACCCAGCAGAGTAATAGTCACCGGACGCTGTACGGTATAGAGCGTATAGTCCCCGACCAACGGGGGATTGCTG -TTCTCATCCACTCGTACAAAATCAGGGTCCAGTTTGACCGGTAAGCGACCAGTGATATTGAGATTGAGTAACTGC -TGGCGCACGGATTTAATCGTTGCCGCCACATCGTCGTCAGCTTCTGCTTCCCAGGAAGCAAGCTGTGCCATGACA -TGTTGGTAGTCTTTAAGCGCTTTAGCTTTCGCCGCAGAGTCGGTCAGCAAGGCACCAGGCCACCAGAGGCGATCG -CGCAGTTGCGGTTGTGTCACCAACTGGACAACATTTTCCACGGGGCCAACGGAAAGTGTCTGTTGTTCGCCAGGC -AGATAAATAGTCACCGTTCCTTGCGCAAAGGCATGGGGTGTCATTACGTAAAGTACGCTGGCAATGAAATACGAC -TGTAATTTATTCATGGTGCGGGTTTAAGAAACGTCATTTCTACGGGAATAACCCCTGCGCCTAACATTTGCCGAC -TTTGACGAACCTGGCCAGTAGCCGAATCGACCCAGAATGTGTTTTGCCACTGTTTTTCTGGCCGCGTGGAAGTCA -CCTCTTCCTGCCAGACATTACACAGCACATTGCGACCCGCAATATTCAGCGTCTCTAATCCAGCAAAGGAAAAAG -TAGAACTCAGGGTCGCAGAGCGAAAATGGTTGTCTTCACTCCAGAGAATATCGCGCGTCCAGCGGCTGCCATCTT -TTATTGCCAGCGCGTTACGCAGAGGGTCCTGCCCGGAATTTGTCACTTCCAGCAGATTATTATTAAGTTTGACGG -TTTTTAAAAGACGTCCATTGTGGGTAACCAGCATGGCGTTATCCTGGGATAACCATTTGCTTTGTTCTTGTTCTA -TATATCCCAGTACCACAAAGATTCGTTGCCCTTCATTAAGGCGTAAATACATAGTGGAATAAGGCAACGCCTGGA -TCTGCTGATCCGCTACGGTGATATCCTGATTATCGAAAAGGCTGGCGCGAAATGTATCGACCATACTTTGCTGGC -TGTGCGTACATCCCGCAAGAAATAGTGCGAAAATCGATAAAATAAGAGGGCGCACCTTTAATCCTTGAAAGGTTA -ATTAAAAAAATGCAAATCTCTAAAGCCCGGTACGAATATCGCAACCGGGTATCATTTAACTTTAATTTCGACGCG -TTAAAGCAGTATTAGCGTGTAGTGGACGTGGTGGTTGAGGTGTTATGAGAACCGCCATCGCCACTGTCATTTGCT -GCAACAACTGCCAACGTCGCCACACCAACAGCCGTTGCCACACCGACAACTGTCGCCGTGCCGACAGCGCCAGCA -GCCACGCCACCAGTGGTAGTAGCAGTCGTGGTTGCGCCGGTAGTGGTCGTTGTGGTGCCAGTAGTACCCGTCGTT -GCCTCGGTCCCGTTTGTTGCTTCAGGGGCAGCAAACGCAGCTGGCGTCGTCAACATGAAGGCCATAAGGATTGCA -GAAAGCTTGTGTTTCATAACTTTTCCTTTATTCATCGCATGGACAATACGGGTGATGCTGCCAACTTACTGATTT -AGTGTATGATGGTGTTTTTGAGGTTCTCCAGTGGCTTCTGTTTCTATCAGCTGTCCCTCCTGTTCAGCTACTGAC -GGGGTGGTGCGTAACGGCAAAAGCACTGCCGGACATCAGCGCTATCTCTGCTCTCACTGCCGTAAAACATGGCAA -CTGCAGTTCACTTACACCGCTTCTCAACCCGGTACGCACCAGAAAATCATTGATATGGCCATGAATGGCGTTGGA -TGCCGGGCAACAGCCCGCATTATGGGCGTTGGCCTCAACACGATTTTCCGCCATTTAAAAAACTCAGGCCGCAGT -CGGTAACCTCGCGCATACAGCCGGGCAGTGACGTCATCGTCTGCGCGGAAATGGACGAACAGTGGGGATACGTCG -GGGCTAAATCGCGCCAGCGCTGGCTGTTTTACGCGTATGACAGGCTCCGGAAGACGGTTGTTGCGCACGTATTCG -GTGAACGCACTATGGCGACGCTGGGGCGTCTTATGAGCCTGCTGTCACCCTTTGACGTGGTGATATGGATGACGG -ATGGCTGGCCGCTGTATGAATCCCGCCTGAAGGGAAAGCTGCACGTAATCAGCAAGCGATATACGCAGCGAATTG -AGCGGTATAACCTGAATCTGAGGCAGCACCTGGCACGGCTGGGACGGAAGTCGCTGTCGTTCTCAAAATCGGTGG -AGCTGCATGACAAAGTCATCGGGCATTATCTGAACATAAAACACTATCAATAAGTTGGAGTCATTACCGACAATA -CGTACGCTTGAGATCAGGATTGTCTACTTTGAGTATAACATCCTTGTGAAATCTCCCTTTCCTCATACCGCTTGC -ACTATATACTGCGGGTAGGAAAGGCGCGCAGAGGGAAATATAAGATTGTTAACTATCCCCCTCTGGAAATACGAC -TTGTGAGCATAAGATAAATCTTAGCAAAATACAAATTAAAGATAAGGAAATTGTTACGAAAGCTATTAATTATTG -TTGGTAATATAGTTTCAAGTGGTACTATAACTGGCTGTTAAATGGCATTTATAACTATTAGGTGCAGAGATATTC -GCTTAAATGGATTAGTTTCTTTGTGGAAAAGTAACTGATGTTATAATGTATGATGTTGACTATTTCACTATTCCA -ATAAAACCAGTCAGCTTTAAACAAGCAGCGTCATATTAAGAGAGATAAACATTTGCCGCTGTTGGTCCTCGCAGG -CCATTTACGCGGCAAAATTCCACACGTAATCCTGGTATAAGCACTTCTGCGTCGCGGGGAGTGAATGCGGAAATA -TGGACCTGAACTTCTTTACGACCGTCGGAGGGGATAATGAATCCTTTGCCGCTTTTGCGATCAAAGGTTTTGACA -ATTCCTGTCATTTTACGGGACAAACAAATTCCTTACTGAAAATACTGCGCTGCACTATACGGGGTTAATAAAATA -AAGCCAGCGATATTTAAGACCGCCGGACGGCTAAAATAAAATTTGCTTAATCTCAATTATCATGCGTTAATAGCT -GCGTCGGTTTGAAAGACAGACAGCATACAAAGTAGTTTACTAAAGCAGTTCTCATTATCAGGCATTATCCCCTTC -TTTTGAGTCTCTCTCCTGAACACTAAGTAGTTTCTGTATTAAAGCCCTGTTTGCCGAAAGGCCCAAAATGAAGGA -AGTAAAATATGTCTAATAAAATGACTGGTTTAGTAAAATGGTTTAACGCAGATAAAGGTTTTGGCTTTATCACTC -CTGATGATGGCAGCAAAGACGTTTTCGTCCATTTCACCGCCATCCAGAGCAATGAATTCCGCACGCTGAACGAAA -ATCAGAAAGTTGAATTTTCTATTGAGCAGGGGCAACGTGGCCCCGCGGCAGCGAACGTTGTTACGCTCTAAGGTT -GCCATTATTACTCAACATCTCCATTTCCGCTGTCCATGTTGTCATGGTTCACAGTACCGCACATCGGCATTCGAT -GTGACGGAGCGAAACCCTTTGGGCGCTAAGTGTATTTTTTGTAAATCGACGATGATCACCTTTGATAACGTCGCG -CTGCAAATACGCACTGACCATGCGCCGCTGGATTTCACAAAATAATATCAGGCTCCCTCGTGGAGCCTTTTTTAT -ATCTGCCTTATTTTTCTTCAACGCTGTATGTATAGTAAGCGATAACCTGTTGATTATTGAATCTTTCGGGGAGAT -GGCTTATAACATTTCTTACCTGACCAGGGTACCGGGAACCAACACCTTACTGGCGTGTTGCTGTCTTTTAAGACC -AGAAGAGGTTAACAGTGAATATTGAAGAGTTAAAAAAACAAGCCGAAACGGAAATCGCCGACTTTATCGCGCAAA -AAATCGCCGAGCTGAACAAGAATACAGGGAAAGAAGTCTCTGAAATTCGCTTCACCGCACGAGAAAAAATGACCG -GGCTTGAAAGTTATGATGTCAAAATCAAAATAATGTGATTTTGTGAACATCACCCCGTGCGAGGTGATGTTCCGC -TTGTTGCTAATTTAGTGACCAATCATTGGCGCTTGTGGAATTAAGCGTCGGTACAATTCCTCCGGCACCGGGCTT -TGCCATACTCCCGCATACATTGCGTAACCAATCACCGCAAACATAATCCCCAGAACCAGTAGCGTCATTAACCAG -CCAGACAACGCAAAGGCTTTTTTATTTGCCGCAGGTTTTTGCAGTGAAAAGGTCAATGTTGAGGCTACCGGACAT -GACTCTACGCAAGTCATACAGCCGGTACATTCCACTGTTCGTACCTGAATTAATTTATCGACCGGGATCCGTGAT -GGGCAATTTTTTGCGCATTTGCCACAGTCGATACAACTTTCGGCATTGCGACGAATCTTAAACGGCGACAATAGC -GAAACCACGCCCATCAGCGCGCCATATGGGCAAAGATAACGACACCAGGCATGGCGAATAAACAGGCTGGCAATC -AGCAAAACGGTCACGCTGATTAATGTCGCGGTCCCCATATGACGAAAGAAATCGAGCATTTTAACGTCCATCACC -ACGCTGTAGGGCGACAACATAAAATAGTGAATCGCCTGAGCGGGCATCAATAACGCGATATAGATAAAAAAACTC -AACAGCAAATACTTCACGCCGCGCAGAGGAATATCCAGCCAGCGGGGAAGGACACATTGCCGACCAAACAGTTTG -TTACCGAGATCGCCGATTAATTCAGAAAGCGTACCAACCGGGCATAACCATGAGCAAAAGGCCTTTTTGAGTAAT -AGACTGATGACGATAAAAGCGACCAATAACAGCATCGCGGCGGCGTGGACGGACGGTAACTGACCTGTTACAAGG -CTATATTTCAGATTCATCAGCCCGGCAATCGGTAGCCAGCCTTCGATACCTCCCGGTCTGGCGACAAATGTCGTG -CTACTTGCCGTTTCGTAATAGCGCACCCAATACCAGAACGTGATGGCAATATAAATATTCATTGCCAACAGTAAT -AATTGCGTCGCTTTACGCCAGGTCGTGGCATTACGCCAGTCATTCCACGGTAATTTGCCGCCCGTCGTGCCTGGC -CGCCGCTGCCAGCGGGTTCTTTTATTCTCTGCCATGATTTTGCCAGTCCGTTAAGTTGTATACCAAATGCCACTA -TTCTAGTTGTTCTTAACTGGCTGATATTGATTCAAATCGCGTTCAGGTCTTTCTTATGCAACCATGCTTCCAGAG -CGGCAACACTGCGTGTAATTTCTTCGTGTGGAAGGGGGGCAGATAATGGCTGCTGCTCCAGTTGTGCGCATAGCT -GGCTGGCGATATGCATTCCCAGACTCGAGCAACTGCTTTTTAGCTGATGCGCGGCACGCTTTATTTTCTCGCTAT -CCTGACTGGCGCGGGCAATGTCGATTTCATCGAGAAGCGGCAGGGCATGTTGTGTAAATAATACCAGCCATTCGT -GGATCTTCTCCGTCCCCATTAACTGAGCATCTTCATTGAGTTGCGATACATCCAGCGATTGATCATTATTGACTT -GCAGTTGGAGATAGTGCGCCAGTAACTGACCGAGCACTTCACGCGGCACCGGTTTAGGGATAATCCCGCGGAATA -ATGAACTGGTACGCTGGCGCAGCGTTTCGTCAATGACATGGGCGCTAAAGCCAATCAAAACCAGCGACGGATATT -GCTGTGCCAGTTGTCGGGCAAGCGTAATGCCGTCGATATCCGGCAGATCAAAATCCACCAGTGCGGCAGCAAACG -GTTCGCTATTTTGCAGTGTCTCTAAAGCCTGCGCGGCATTGCCAACAGCAACAATCTGCGCACCACTGGTTTTCA -GCATCTCAATGGTAATTCGCTGGGTTAGCGGGTTATCTTCAATTAACAGCAAACGTAAACCGTCAAGACGCACCG -CCTGATTGACTGTTTTTGGCACGGGTGCCGTGGCAACACGTAACGGCAAGCGTAAACAAAAACAGCTTCCAACCT -CCGGCGTGCTGGTGGCGCTCAGTTCGCCGCCCATCGCCTGGGCCAGACGGCTACTGATAGTCAGTCCCAGCCCGG -TGCCGCCGCGTTTGCCGCTTACCTGCACAAATGGCTGGAAGATTTCTGCCAGTTTCGCGGGATCAATACCGCAGC -CGCTGTCTTCCACTTCGACCAGCCATTGCTCGCCATCAGTGCGACTACGCAGGATAATGTACCCTTCGTCAGTAA -AACGCAGGGCGTTGCTCAACAGGTTGGTTATAACCTGACGAATACGTCGTGGATCGCCCATTAACGCGCACGGCA -TATCATCGGCAATTGCCGTTGCCAGGCGAATCGGGCGACCTTTCACCCGTCCGCTCATTAATTGCAGGGTACTTT -CCAGCAGCGGGCGCGGTTCAAAGGGCTCATCGCTGACCGAAACATTCTTGCCACCTGCTTCGATAGCGGAATAAT -CGAGAATATCGTTGAGGATGGTCAGCAACGATTCACCAGAGTCAGTAATTGCCCGCAAATCATCACGCTGGGCGT -TAAGTGCGGGGTTATCTGCCAGCAGTTGAGCAGTGCCGAGAATACCGTACAGCGGTGTGCGGATCTCATGGCTCA -TCGCCGCCAGAAACGCCGATTTTGCCTGGCTGGCTTTTTCTGCTTCCGCCCGTGCCTGTCGGTGTTCTATCACCA -GTTCCTGCAATTCAGCTGTACGCGCTTTGACCTGCGCCGCCAGCTGTTCGCGGTGGCGATTCAGTGCATGAACAT -TGCTGCGAAACGCATCCATCAGCCGCCCGATGGTATCCAGCTCCCGTACGCCAGCGGTTTCCGGGAAAGGGGAGT -CAATATCACCGTCCAGCAGCCGTTGCAGCGCCTGCGTTTGTTCGGCAAGTGGACGCGTGACTGAGCGATAAACCA -CGCGCCAGAGGATCAGAATCAGTGCGCAAAGTGAAACCATCCCCAGCAATAACAGGCTGTATTGCCCGCGTGCAC -TCGCTTTTTCCAGATGCGCCAGTCCGTGCTGATTACGCAGCTCAATGGTGTCGACCAGCTGACTGACTTCGCTAC -TAAACTGCGCGAACTGGGCGATGTTATTTTGTGCGAGAGTTTGTAGGTGATTGCTGATTTCACTGTCCTGCTGAT -ACAGCGCCAGCAAATCGCTATATTGGCTAACGGTAGTTAACGTTGTTGCGACCTGCGCACGAACACCCGGATCTT -CAATGCGTATTTGCCGACGTTGCAGAATTTTCACCGCATTATTGAGCTGCTTTTCCAGCGTTGGTGCATTTTTCT -GGATCTGCTCCAGCCCCAGATTCATCACCATTTGCTGCACCCGCAGAGCGCTAAGGCGCAGTTCATTCATCTGGT -TAACATACTCAAGATCGATATCAATCAGCCGATCGAGTGCACTTTCAGCAGCCTGACGCTGATCTTGTTCGATCA -AATCGTAAATCCCGGCCTGGGTCGCTCCAGCGGAAGTTGTCGCATTATTCGCCTGACCTTGCGCCAGGCGTGCGA -TCTCATCGGCGGCAGCGACTATCTGCTGACTGAGTTGCTGTTGTTGCTGGCGCAGTTGCAAACGCTGCCCCACCA -GTTCCCCTTGCTGACGTAACGAACGGGAGATCTCCTGCTCCTGTTGTTCAATAGCGGTGGTATCAAAACCTTGTT -CCCGTAACGCTTGCAGCAACGCATTAATCTTCAGGCTTTGTGCGGTGAGCATTCGCCCCTGCGCCTGCCACATCT -TTTCGTTATCGGCACTGGTCAGGTTCTGCGCGGCGAAAAGTTCCCAGGCGCTGGCTTCGCTCAACTGGCGCGCCA -TATTCATGGTAGGAATCAATGCCTGAGTGTTGTCTTTTTCCACCTGGCTGATAAAGCGCAGGTTGTACCATCCCA -CCAGGGTACTGGTCAGGGTTAACAGCGCCATCAGGGCAAAGCCCATCCAGAGTCTTCGGGTCAGGGTTAAATTCA -CGGTCGGTGCACTTTAGGTGAAAAAGGTTGAGTCGCAAAGCGGAATGCATCTAGCATAAAGCCTTATTATTGATG -AGGCTATCATGCGCGTACTGCTATTTTTACTTCTTTCCCTTTTCATGTTGCCGGCATTTTCGGCTGATAACCTGT -TGCGCTGGCATGATGCGCAGCATTTCACGGTGCAAGCCTCTACGCCGCTTAAAGCCAAACGCGCATGGAAACTGT -GCGCGCTTTATCCCAGCCTGAAAGATTCATATTGGTTATCGTTGAACTATGGTATGCAGGAGGCTGCTCGCCGCT -ACGGTGTGGATTTAAAAGTGCTGGAGGCAGGCGGCTACAGCCAGTTGGCTACCCAGCAAGCACAAATCGACCAGT -GTAAACAGTGGGGCGCAGAGGCCATTTTGCTCGGTAGTAGCACGACCTCATTTCCCGACCTGCAAAAGCAGGTAG -CAAGTCTGCCGGTGATCGAACTGGTAAATGCTATTGATGCTCCCCAGGTGAAAAGCCGCGTTGGTGTGCCCTGGT -TTCAGATGGGCTATCAACCGGGGCGATATCTGGTGCAATGGGCGCACGGTAAACCACTGAATGTGCTGTTGATGC -CCGGACCCGATAACGCCGGGGGCAGTAAGGAGATGGTCGAGGGTTTTCGCGCAGCCATTGCCGGAAGCCCGGTGC -GTATTGTTGATATTGCGCTTGGTGATAACGATATTGAAATCCAGCGTAACCTGTTGCAGGAGATGCTGGAACGCC -ATCCAGAAATCGACGTCGTTGCCGGAACGGCCATTGCGGCAGAGGCGGCAATGGGGGAAGGGCGTAACCTGAAAA -CGCCGCTTACCGTGGTGTCGTTTTATCTTTCACATCAGGTGTATCGCGGGCTGAAGCGGGGAAGAGTGATTATGG -CTGCCAGCGATCAAATGGTCTGGCAGGGGGAACTGGCGGTTGAGCAGGCCATCAGGCAATTACAGGGGCAATCGG -TTTCTGATAATGTCAGCCCACCGATTTTAGTTCTGACGCCGAAAAATGCCGACCGTGAACATATTCGCCGCTCGC -TGTCACCAGGGGGATTTCGTCCGGTCTATTTTTATCAGCACACATCAGCGGCTAAGAAATAACCTTCACCATGTT -GCGTCACCAGTAAATCCGCGCTGAGTTTATGACGTAAACGACGAATTAACACATCGACGGTGCGCAGGTCAGGGT -TTTCCACCCGACGCGCAGAAAGCATACGTAGCAGACGTTCACGGCTGAGAATTTCGCCCGGATTCGTCACAAATG -CCACCAACATTTCATACTCTGCGCGGGTCAGTTTAATCGGCTCGCCATCCCGCTCCAGCGTATGGCGCGACACAT -TCAGGCAATAACCGGCAAAGCGATAGCAGTTGTCCTGAGTGTGCGGTTGAGCTTGTCGCGCGAGGTCGATTCGCC -AGAGCAGATTTTTCACCCGTACTACCAGTTCGCGCAGTTCCAGCGGTTTGGTGACGTAATCGTCTGCGCCCATTT -CCAGCCCAACAATACGGTCAATCCGATCGCTGCGTCCGGTAACCAGAATAATCCCCACCGTTGAGCGTTCTCGCA -GGGCGCGGGTTAACATCAGGCCATTTTCATCGGGTAAGTTGATATCCAGCAGAATTAAATCTACCGACTGATTCT -GCATAATTTCCCGTAGCCCAGCACCGCTCGCCGTAACGGAAACGGTATACCCCTCCTGAGTGAAGTAGGATTGTA -ATCGCGCCTGGGTAACCGGCTCATCTTCAACAATAACAATGTGATGTGGCATCAGAGGGTTTTACTCATTCTGTT -CATATCTGTTCATATTCTGCCGTAAGCCGTTCATCCTGACCAGTGCCGCTGTTCATATTTGCTCATTAAGATCGC -TTCACTAAACCATAATTCTACAGGGGTTATTATGCGGAAACTCTGGAACGCGCTACGCCGACCCAGTGCTCGTTG -GTCGGTACTGGCGCTGGTCGCAATTGGGATTGTGATTGGCATTGCGCTGATTGTATTGCCACACGTTGGGATCAA -AGTCACCAGCACAACCGAATTTTGTGTCAGTTGCCACAGTATGCAACCGGTGTATGAAGAATATAAACAGTCGGT -GCATTTCCAGAACGCCTCCGGCGTGCGAGCTGAATGCCATGACTGTCATATCCCGCCGGATATTCCAGGCATGGT -GAAGCGCAAACTGGAAGCGAGCAATGATATCTACCAGACCTTTATTGCTCACTCCATTGATACACCTGAAAAATT -CGAAGCCAAACGCGCGGAACTTGCCGAGCGTGAATGGGCGCGAATGAAAGAAAACAACTCGGCAACCTGCCGCTC -CTGCCATAACTACGATGCGATGGATCATGCGAAGCAGCATCCTGAAGCAGCACGTCAGATGAAGGTGGCAGCGAA -AGATAATCAATCCTGCATCGACTGTCATAAAGGTATTGCCCACCAGTTACCGGATATGAGTAGCGGCTTCCGTAA -GCAGTTCGATGAGCTGCGCGCCAGTGCTAATGACAGTGGTGACACGCTGTACTCTATTGATATTAAGCCAATTTA -TGCGGCGAAAGGCGATAAAGAAGCCTCTGGTTCTCTGCTGCCTGCTTCGGAAGTGAAAGTCCTTAAACGTGACGG -CGACTGGCTGCAAATTGAAATTACCGGCTGGACGGAAAGCGCCGGACGTCAGCGTGTACTCACCCAATTCCCAGG -TAAACGCATCTTTGTTGCCTCGATTCGTGGTGATGTGCAGCAGCAGGTAAAAACGCTGGAGAAAACCACCGTTGC -CGACACCAATACCGAGTGGAGCAAGTTGCAGGCCACTGCGTGGATGAAGAAAGGCGACATGGTGAACGATATCAA -ACCGATCTGGGCTTATGCGGATTCGTTGTACAACGGCACCTGTAACCAGTGCCACGGCGCACCGGAAATCGCCCA -CTTTGACGCTAACGGTTGGATCGGCACGCTCAACGGCATGATTGGCTTTACCAGTCTCGATAAACGTGAAGAACG -CACCTTGTTGAAATATCTGCAAATGAATGCGTCTGACACCGCAGGTAAGGCTCACGGCGATAAGAAGGAAGAAAA -ATAATGAACAATAACGATCTCTTTCAGGCATCACGTCGGCGTTTTCTGGCACAACTCGGCGGCTTAACCGTCGCC -GGGATGCTGGGGCCGTCATTGTTAACGCCGCGACGTGCGACTGCGGCGCAAGCGGCGACTGACGCTGTCATCTCG -AAAGAGGGCATTCTTACCGGGTCGCACTGGGGGGCTATCCGCGCGACGGTGAAGGATGGTCGCTTTGTGGCGGCA -AAACCGTTCGAACTGGATAAATATCCGTCGAAAATGATTGCCGGATTGCCGGATCACGTACACAACGCGGCGCGT -ATTCGTTATCCGATGGTACGCGTGGACTGGCTGCGTAAGCGCCATCTCAGCGATACCTCCCAGCGCGGTGATAAC -CGTTTTGTGCGCGTGAGCTGGGATGAAGCCCTCGACATGTTCTATGAAGAACTGGAACGCGTGCAGAAAACTCAC -GGGCCGAGTGCCTTGCTGACCGCCAGTGGTTGGCAATCGACGGGGATGTTCCATAACGCTTCGGGGATGCTGGCG -AAAGCTATTGCCTTGCATGGTAATAGCGTTGGTACGGGCGGAGATTACTCTACCGGTGCTGCGCAGGTGATCCTG -CCGCGCGTAGTCGGTTCGATGGAAGTGTATGAACAGCAAACCTCCTGGCCGCTGGTATTGCAGAACAGCAAAACC -ATTGTGCTGTGGGGCTCCGATTTGCTGAAAAACCAGCAAGCGAACTGGTGGTGCCCGGATCACGATGTTTATGAA -TATTACGCGCAGCTAAAAGCGAAAGTCGCCGCCGGTGAAATTGAGGTCATCAGCATCGATCCGGTTGTCACATCC -ACCCATGAGTATCTGGGGCGCGAGCATGTGAAGCACATTGCGGTTAACCCGCAAACTGACGTGCCGCTGCAACTG -GCGCTGGCACATACGCTGTACAGTGAAAACCTGTACGACAAAAACTTCCTTGCTAACTACTGTGTGGGTTTTGAG -CAGTTCCTGCCGTATCTGCTGGGTGAGAAAGACGGTCAGCCGAAAGATGCCGCATGGGCTGAAAAACTGACCGGC -ATTGATGCCGAAACCATTCGTGGGCTGGCGCGGCAGATGGCGGCGAACAGAACGCAAATTATTGCTGGCTGGTGC -GTGCAGCGTATGCAGCACGGTGAACAGTGGGCGTGGATGATTGTGGTTCTGGCGGCGATGCTGGGGCAAATTGGC -CTGCCAGGTGGTGGTTTTGGTTTTGGCTGGCACTACAACGGCGCAGGCACGCCGGGGCGTAAAGGCGTTATTCTG -AGTGGTTTCTCCGGCTCTACGTCGATTCCGCCTGTTCACGACAACAGTGACTACAAAGGCTACAGCAGCACTATT -CCGATTGCCCGTTTTATCGATGCGATCCTCGAACCGGGGAAAGTGATCAACTGGAACGGTAAATCGGTAAAACTG -CCGCCGCTGAAAATGTGTATTTTTGCCGGAACTAACCCATTCCATCGCCATCAGCAGATCAACCGCATTATTGAA -GGCTTGCGCAAGCTGGAAACGGTTATCGCCATAGATAACCAGTGGACCTCAACCTGCCGCTTTGCCGATATCGTA -CTGCCTGCGACCACGCAGTTTGAGCGTAACGATCTCGACCAGTACGGCAATCACTCCAACCGTGGCATTATCGCC -ATGAAACAGGTGGTGCCGCCGCAGTTCGAGGCGCGCAACGACTTCGATATTTTCCGCGAGCTGTGCCGTCGCTTT -AATCGCGAAGAAGCCTTTACCGAAGGGCTGGACGAAATGGGCTGGCTGAAACGCATCTGGCAGGAAGGTGTACAG -CAAGGCAAAGGACGCGGCGTTCATCTGCCAGCGTTTGATGACTTCTGGAATAACAAAGAGTACGTCGAGTTTGAC -CATCCGCAGATGTTTGTTCGCCACCAGGCATTCCGCGAAGATCCGGATCTCGAACCGCTGGGCACGCCGAGTGGC -CTGATTGAGATCTACTCGAAAACTATCGCCGATATGAACTACGACGATTGTCAGGGGCATCCGATGTGGTTTGAG -AAAATCGAACGCTCCCACGGTGGGCCTGGCTCGCAAAAGTATCCGTTGCATCTGCAATCTGTGCATCCGGATTTC -CGACTTCACTCGCAGTTATGTGAGTCGGAAACGCTGCGTCAGCAATATACGGTAGCGGGTAAAGAGCCAGTATTC -ATTAACCCGCAGGATGCCAGCGCGCGCGGTATTCGTAACGGTGATGTGGTACGCGTCTTTAACGCTCGCGGTCAG -GTGTTGGCAGGGGCAGTGGTTTCTGACCGCTATGCACCCGGCGTGGCACGAATTCACGAAGGGGCATGGTACGAT -CCAGATAAAGGCGGCGAGCCTGGTGCGCTGTGCAAATACGGTAACCCCAACGTGTTGACCATCGACATCGGTACA -TCGCAGCTGGCGCAGGCGACCAGTGCGCACACTACGCTGGTGGAAATTGAGAAGTACAACGGAACAGTGGAGCAG -GTGACGGCGTTTAACGGCCCCGTGGAGATGGTGGCGCAGTGCGAATATGTTCCCGCGTCGCAGGTGAAATCATGA -CCACGCTGACAGCACAACAGATTGCCTGTGTTTACGCCTGGCTAGCGCAGTTGTTCTCCCGTGAGCTGGACGATG -AACAACTGACGCAAATCGCCAGTGCGCAGATGGCTGAATGGTTTTCGTTGCTGAAAAGCGAACCGCCGCTCACTG -CGGCGGTGAACGAGCTGGAAAACCGTATTGCCACGCTGACAGTACGTGACGATGCCCGTCTGGAACTGGCCGCGG -ACTTTTGCGGCCTGTTTCTGATGACCGACAAACAAGCGGCGCTGCCGTATGCATCGGCCTACAAACAGGACGAGC -AAGAGATTAAACGCTTGTTAGTTGAGGCAGGGATGGAAACCAGCGGCAATTTCAACGAACCGGCAGATCATCTGG -CGATCTATCTCGAATTGCTCAGCCATCTGCATTTTTCGCTGGGAGAGGGGACCGTTCCTGCGCGAAGAATCGACA -GTTTGCGGCAAAAAACACTGACGGCGCTGTGGCAATGGTTACCAGAGTTTGTTGCGCGTTGTCGTCAGTATGACA -GCTTTGGTTTTTACGCGGCACTAAGCCAGTTATTGCTGGTGTTAGTGGAGTGCGACCACCAAAACAGATAACGTC -GTTTGTGCGCCTGAAAAGACGCGTTTAGCGTCGCATCAGGCATTATGGCGCAGTTGCCGGATGCGGCGTGAACGT -CTTATCCGGCCCACAGGAACTGTAATCTTTGTAGACCGGTTAAGATGCGTCATCGCATCCGGCAAACACACATCA -CGGATGAGCTACAAACCGGGAAAGCCGCTGGCGCAGCAGGCGGTTTTCCTGCTTCAGGTGCGCAATATCATCCAT -TAACGTCAGCGCCACCGCGATCCCCGGCCAGTCCAGAGCCAGTTCATGACGCAGGCGTACCGCGCGTTGCACCAC -AATGGCGGCATGGTCGTCAAATACCCAGGTTGTTTCCTGGATCTCACGCGGTTCAACCACCCCCAAACCGACAAT -TTCATTCAACTCCTCTTCAGAGATGCCGGTATGCAGGCAAAATTCGGTAATAGTAAAAGTCACCGTAACATTAGC -CATTATGCTTTCCCCCAATCTTTACGTGGATCAAAAGACGACTGGGCGTCTGCCAGTTGCTGCCACAGCGCGGCA -GTGTTTTCATCCGGTTTCGGCGGCATCACGATTTTCAGTACCGCATACAGATCGCCGGTCTGTTTTTTGCTCACC -AGACCTTTGCCTTTAACGCGCAATCGTTGCCCGGCCTGGCTGCCTGGCGGGATAGTCAGCAAAATGCTTTCTTTC -AGTGTTGGAACGGTGACTTTAGCACCCAGCGCCGCTTCCCACGGGCTAACCGGCACCACAATTTCCAGATCCTGG -CCGACAATATCAAACAGCGGATGTGGCGCAATATGAATCACCAGCCACAAATCGCCATTTGGACCGCCGTTTTCG -CCCGGCGTCCCCTGGCCTTTCAGACGGATGCGTTGACCATTGCCGACGCCCGCCGGGATCTTCACATTCAGCGTT -TTCGGAATTTCCTGTTCGATCATGCCAAAGGCGTTATAAACCGGCAGGTTATAGCTGATGGTACGCTTATGCTCA -GTAAGCGTTTCTTCGAGGAATACCGCCACTTCGATTTCAATATCGTGGCCGCGTGTGGCGGGGCGTTGACGGCTC -TGGCGGGCATGCTGACCGAAAATTGACGAGAAGATATCGTCAAAATCTTCGGCGTTAAAACTCTGACCGTCGCCA -TGGTGGAACTGACGGTTAAATTGCGGATCGTTGCGATGTTGCCACATCTGATCATACTCAGCGCGACGTTGTTCA -TCACTTAACACTTCCCAGGCTTCAGCGACCTCTTTGAAGCGGGCTTCGGCATCCGGTTCTTTGCTGACATCAGGA -TGGTATTTGCGGGCAAGTCGACGATAGGCGGTCTTGATTGTCTTGAGATCGTCCGTCGGTTTCACGCCCATGATG -GCGTAATAATCCTTTAATTCCATAGCGTTATCTCGCGTAAATCAACACAAATTGAAGGAACCCCTGTAAGGTAAC -TCCTATAAGTGTAGGGTAATCCTCAAAATTTCATATGCCAACACAGAATATGTTATTGAAATCATCGCGGAGAGG -AGGTCGCCATCAAGATGGGTTGCTGAACATATTTTAAACAGGTGAAAAAGGGTGAGCGATTTTTGATAGTTGAAC -CAGGCACTTTAAGTTTAACTAGGGCGTCATTATTTATTAAATTTTATAGACGCTATATATGGGTAGTAATATACA -TGGAATTAGTTGCACTGCAAATAATTATTTGAAACAGGCCTGGAACGATATAAAAAATGAGTACGAAAAAAATCA -AACATATTCAATCACGCTTTTTGAAAACACACTGGTGTGTTTTATGCGGTTATACAATGAACTCAGACGTAAAGT -AAATGAAGAGGATACTCCATGTCTGGAATGTGAATCACTAGAAAAAGAATTTGAGGAAATGCAGAATGATAATGA -TCTATCATTATTTATGAGAATATTGCGTACTAATGATACACAAATTTATTCAGGGGTTTCAGGAGGTATTACATA -TACTATACAATATGTTCGAGATATTGATATTGTTAGAGTGTCCTTGCCGGGCAGAGCTTCAGAGTCTATCACAGA -TTTTAAAGGTTATTATTGGTATAACTTTATGGAGTATATTGAAAACATTAATGCGTGTGATGATGTTTTTTCTGA -GTATTGTTTTGATGATGAAAATATAAGTGTCCAGCCAGAGCGGATAAATACGCCGGGAATATCTGATTTGGATTC -TGACATTGATTTGTCTGGTATATCTTTTATTCAGCGTGAAACTAACCAGGCATTAGGATTAAAATATGCTCCTGT -AGATGGCGATGGATATTGTCTGTTAAGAGCTATACTGGTTTTAAAACAACATGATTATTCATGGGCGCTGGTCAG -TTATAAGATGCAAAAGGAAGTTTACAACGAATTCATTAAAATGGTTGATAAAAAAACGATCGAGGCTCTTGTTGA -TACGGCATTCTATAATCTCAGGGAAGATGTAAAGACGTTATTTGGCGTTGATCTACAATCTGACAACCAAATTCA -GGGGCAGAGTAGTCTTATGTCATGGAGCTTTCTGTTTTTTAAAAAACAATTCATTGATAGTTGCTTGAATAACGA -AAAATGTATCCTGCATTTACCCGAGTTTATATTTAATGATAACAAGAACTTGCTTGCTTTAGATACCGACACGTC -GGATAGGATTAAAGCGGTGAAGAATTTTCTTGTTGTTCTTTCAGATAGCATTTGCTCATTATTTATTGTTAATAG -TAATGTGGCATCAATCTCCTTGGGGAATGAATCCTTTTCAACAGATGAAGATCTTGAGTATGGTTATTTAATGAA -CACTGGCAATCATTATGACGTTTACCTCCCTCCTGAACTTTTTGCTCAGGCTTACAAGTTAAACAATAAGGAAAT -GAATGCGCAACTCGACTATTTAAATCGTTATGCAATTTAATGGCAAAGGCATATGCTAAAAACCATTGTTATTAG -TCTCACACTTTTTTATTGGTAAATATTGTCTCTGTATTGGTAACGCCGCAGATATTCTGTTTAGCCACAGGTGCA -ATTATCAGCGGCGTACGCGAGGCAGGGGCTAATCAGGCATAGTTTGCGTCAAACCTTGCCTGTTTTTGAAGATGT -ATATAGAAAAACAGGCGTTCAACAAGCCATTTTGCGAACCTGTTCCCGGAAAAAAGTCATATTTCTGTCACACTC -TTTAGTGATTGATAACAAAAGAGGTGCCAGGAATGAACAAAACGCTAATCGCCGCAGCTGTGGCAGGGATAGTTT -TACTCGCTTCAAACGCTCAGGCACAAACCGTACCGGAAGGCTATCAGCTACAGCAAGTGCTCATGATGAGCCGCC -ATAACTTACGTGCGCCGCTGGCGAACAATGGCAGTGTGCTGGAGCAGTCGACGCCGAATAAATGGCCAGAATGGG -ACGTCCCCGGTGGGCAACTCACCACCAAAGGTGGCGTGCTCGAAGTGTATATGGGCCATTACATGCGTGAATGGC -TGGCAGAGCAGGGGATGGTGAAATCGGGGGAATGCCCGCCGCCGTACACCGTTTATGCCTATGCCAATAGTCTGC -AACGTACCGTTGCGACCGCACAGTTCTTTATTACCGGCGCATTCCCGGGGTGTGATATTCCTGTGCATCACCAGG -AAAAAATGGGCACTATGGACCCAACCTTTAACCCGGTGATCACCGATGATTCCGCCGCATTCAGTGAACAGGCGG -TGGCGGCAATGGAGAAAGAGCTCAGCAAACTCCAGCTTACCGACAGCTACCAGCTACTGGAAAAAATCGTTAACT -ATAAAGATTCCCCTGCCTGTAAAGAGAAACAACAGTGTTCGCTGGTGGATGGCAAAAATACCTTTAGCGCCAAGT -ATCAACAAGAACCAGGTGTTTCCGGGCCGCTGAAAGTCGGCAACTCGCTGGTAGATGCGTTTACTTTGCAATATT -ACGAAGGTTTTCCGATGGATCAGGTGGCCTGGGGAGAAATCAAATCTGACCAGCAGTGGAAGGTGTTGTCGAAGC -TTAAAAACGGCTACCAGGACAGCCTGTTTACCTCACCGGAAGTGGCGCGCAATGTTGCGAAACCGCTGGTCAGTT -ATATCGACAAAGCTCTGGTCACCGATCGCACCAGCGCACCGAAAATTACAGTGTTGGTTGGGCACGACTCCAACA -TTGCCTCTCTGTTAACGGCGCTGGATTTCAAACCGTATCAGTTGCATGACCAGAACGAACGCACGCCGATTGGCG -GCAAAATCGTTTTCCAGCGTTGGCATGACAGCAAAGCCAATCGCGATTTGATGAAAATTGAATATGTGTATCAGA -GTGCGGAACAGTTACGTAATGCCGATGCGTTAACCCTGCAGGCACCTGCGCAGCGTGTGACGCTGGAATTAAGCG -GTTGCCCGATAGACGCTGATGGTTTCTGCCCGATGGATAAGTTTGATAGCGTGTTGAATGAAGCGGTGAAATAAC -AGAAAACTCCCCCGCGAGAAGCGGGGGAGTCGCTGGTTAAACGTTTTTACGTTCGATGGTCTGTTCGCCCCAAAA -AAGCGAATCTTTATCGGTCTTAGCAAAGGCTTTGACTAACACTTCATCACTACCTTCTTCCCAAATCTTTTCCGC -CATTTTTTCGTCGTACCCGGCGACTTCGAAAATGGCCTCGGCTATTTCCGGCGACGTATTGCGCAGAGATGCCCA -TTCACCGACGTGATGAGCTTTCGCTTCTTGAGTTGGCATGCGTATCCTCCTGTTGAAGATTAGCCGTTAAGTTTA -ACTGCCAGACCTGCGACATATTCCCCTTGATAACGAGCAATAGACAGTTCTTCCTGGCTGGGCTGGCGTGAACCG -TCACCGCCTGCGATGGTGGTTGCGCCGTACGGCGTACCGCCGCGAACCTGTGAAACGTCAAATAATTCCTGCGCT -GCGTAGCCAATAGGGACAATTACCATGCCGTGATGCGCAAGGGTCGTCCAGGTGGATGTGATGGTTTGTTCCTGA -CCGCCGCCAGTACCGGTGGAACTAAAGACGCTCGCCAGTTTTCCGTATAGTGCGCCGGAAGCCCACAGGCCGCCC -GTCTGGTCGAGGAAGGTACGCATTTGACCGGACATGTTGCCAAAGCGGGTAGGTGTACCAAAAATAATGGCGTCG -TAATCGGCCAGTTCTTGCGGGGTTGCAACCGGTGCAGTTTGCGTTTTACCGCCTGCTTTTTCAAATAATTGCGGC -GGCATGGTTTCCGGTACACGCTTAACGACAACTTCAGCGCCATCCACTTTGCTTGCACCCTCAGCGACTGCGCGT -GCCATCGTTTCAATATGTCCGTACATGGAATAATAAAGCACCAGAACTTTAGCCATTTCTAACCACTCCTCGTGT -TATCTCTATTCCGTAGCGATTCGCTACCACTTATTTAAAGATAAGACGTCCTTTTCAGAGTGCAAATTTCACAAC -CACTTATTTGATTTATAACAACTTTCACAAGCACGTAATTTTGTCGCAAAATGACACATTTTTATCTCATCGCGT -TTTTTTAATCATAAGAGCGGCTTATGGATAATTATTGGAGATGATATCTATTCTCGCTAAGAAGCTGTTGCAGGA -TATTACCAAACGCGGGTCTGCCCGCGTCAGTTCACTAAGCTTAGTCCCACGTAGCGAAAATATGGCAGCCGCCAT -ACGCCGCGTTAATTCTATGCAATATGATGTCTATACCCAGACGGAGGTCAGTAATGGCAAACCATCGAGGCGGTT -CCGGCAATTTTGCAGAAGACCGCGAAAGAGCATCAGAAGCAGGTAAAAAAGGTGGACAGCACAGCGGGGGTAATT -TCAAGAATGACCCGCAGCGCGCATCTGAAGCAGGTAAAAAAGGTGGTAAGAGCAGTCACGGCAAAAGCGACAACT -AGCCGGGCTAATCAATGACGAATGCATTTTTGTCTGTAGCTCGTCAAAAAGCCATCACCGCCGGTTACCCGGTGG -TTGATACTGATGACAAATGTAAGCTTGCCTGATGCGCGATGCTTATCAGGCCTACCAGAAGATTGCAATATATTG -AATTTGCACTGTTTTGTAGGCCGGATAAGGCGTTTACGCCGCATCCGGCATGAACAATGCGTACGTTGTCAACAA -TCTGCACCGCCGGTAACCCCGGCGGTTTTCTGTTTATGGCTCCTGATGAACAACTTCTGGCGGTGGAACGTCAAC -CAACTTTCTGCTTAACAACGCATTGAGTAAAATCGCGCCAAAGGTTGCTGTACCAATCCCTCCCAACGTAAAACC -GCCCAGCGTGAGAGCAAAATCACCCGCGCCCAGCACTAAGGTTACTGCGACCATAATCAAATTACCGTTCTGGCT -TAAATCGACACGGTTTTGTACCCATATCCTTGCGCCTGCGACGGCAATCAGCCCGAACACAACAATTGATGCACC -ACCAATAACCGCGGCCGGAATGGTATGAATCAGCGCACCAAATTTCGGTGAAAAGCCCAACAGCATGGCGATGAC -GGCAGCAGCAACAAACACCAGCGTCGAGTAGACTTTGGTCACGGCCATCACACCGATATTTTCAGCATAGGTGGT -CACGCCGCTACCGCCGACAGAGCCGGAAAGCATCGTTGCCAGACCATCGCCTACGAATGCCCGCCCCATATACGG -GTCCATATTGCGTCCGGTCATCCCGGCGACTGCCTTGAGATGACCTAAGTTTTCCGCCACCAGAATCACCGCCAC -GGGCGCAATCAGCATCATTGCCTGACCATTAAAAGCAGGAGTGGAAAAATGTGGCAGACCGAACCAGGCAGCATG -GCTGACGAGAGTAAAATCGACGGCTTTTCCCAGCCCTAAAACGTTGGTCATCACGCCATACAGCAGACAGGCGAC -AATTAATCCTACGAGAATCAATAACCGCTGGATCATGCCACGGGTAAACACCGCCACCAGCCCAATACACAGCAC -CGTCATTACCGCCATCCAGCTATCAAAGGCCGAAGCCGATACACTTTTCACTGCGATAGGCGCTAAGTTCAGGCC -AATCGCCATCACCACCGCACCCGTCACCACCGGCGGCATCAGTCGTTCAATCCAGCGCGTACCGATTTTCATCAC -CACCAGGCCAATGACGGTATAAACCAGCCCACAGGCGATAATCCCGCCCAGCGCAATGCTGATATTCGGGTTAAT -GCCCTGACCGTTAAAGCCCGTCGCGGCGATCACCACGCCGACAAAAGCCGCGCTGGAGCCGAGATAACTGGGGAC -GCGCCCGCCGGTAATAAAGAAAAACAGTAACGTGCCGATCCCCGACATTAAAATGGAAAGATTGGGATCCAGCCC -CATCAGAATCGGCATTAACACCGTCGCGCCAAACATCGCCACCGCGTGTTGAACGCCCATTACTGCCGTCTGAGC -AAACGGCAATCGTTCATCCGGCGCGACCACGCCGCTCTCTGTAGAGGTCGATTTTAACTGCCAGTGAGGAAAACC -GAACATTGCCATCAGCTGTCTCCTTAAGGAGGTTAACAAGCAGGGCGCATCAGCGCGTGATAACTGCGATCGAAC -CACACCAGCCCGTAGGGTGTGGTGTGACGATGAATCGCTTCGATGGCGCAAAACAGAATGTCGTGGGTGCCGACG -CTCACCACCTGGCTGATACGGCAGTCAAACGAAACCAGAGCCTCTTCCAGTTGCGGGCATCCGGTCACCCCCGTC -TGCCAGCGGGCGGCGGCAAAGCGGTGTTCCATGGGCGTTTTGCCGCCAAAAAGGTTTGAAAGCGGCTCCTGCCCG -GCGCTAAGTGTATTTACACACAGCGTTCGATTTTCATTGAATGCCGGCCAGACGGACGCCCCACGATTCAGGCAC -ACCAGTAATGTGGGCGGCGTATCGGTCACACTGCAGACGGCGCTGGCGGTGAACCCGGCGCGCCCGGCTGGACCG -TCCGTGGTGATAATATTGACCGCCGCGCCCATGCAGGACATCGCATCGCGAAAAGTTTGTTGATCGACAATGTTC -ATAGTTTGCTCCTTACAACAGCCCGCAGGCTTCTTCAAAGGACAGACGTGGCAGGCGCGCATAAAGCTTGCTGCT -ATCGCCATAGCCGATATTAATCAGCAGATTGCTCTTCAGCGTGCTGCCCGTAAAAAAGGCGTCGTCCACGTGTTG -ACGGTCAAAGCCCGACATCGGGCCGGTATCCAGTCCCAGCGCCCGGCAGGCGACGATCAGATAGGCCGCCTGCAT -GGAACTGTTGCGAAACGCTGTTTCTTCGGCAAGTTGTGGGCTGGAGGTAAACCAACTGCGGGCATCACCGTGGGG -AAACAGTAGTGGTAACCGTTCATAAAATTCACTGTCCCAGGCGACGATAGCGGTGACGGGCGCGGTCAGGGTTTT -TTGCAGATTGCCGCTGGAAAGTGCCGGGCGCAGACGTTCTTTTCCTTCTGCCGTGCGGGTAAACACGATCCGTGC -CGGAGAACAGTTAGCTGATGTCGGCCCCCATTTCATCAGGGCATAAATCTCCCGTAACGTCTCATCGCTGACGGG -TGTCTCCCGCCAGCCGTTGTGAGTGCGGGCATCGGTGAACAGGGTGCTAAGCGCACCTGGGCTAACGGCTTCGTT -CATAGCAATTCCTTACAGGGCGGCTTCACGGTGATGTAACAGGCTGGCAAGCCCGTTGAGTAACAGAGCATTAAA -CGTTTCGGGATCGGTCACGTTGCAGGCGTGTCCGCCATAGGGCATCACCATTTTCTGGCTATCGGGCAGGGCGGC -ATGAAGTTCACTGGAACATGCTGTTGGCACCAGCAGATCATCACTGGCGCAGATGATTTGCACCGGGCAGCGGAT -GCGATCCGCATGGTGACTAAAGTCAGCGCGTTTGAGGGCGTTAAGTCGACGCAGTAAATTATTTTTGCCCTGAAA -ATGCGCCAGTGCCAGCGCGTCTTCTGCCTCCAGGCGAGGTGCGCGGGCCGCCATCCAGTCGGCGGGATAGAGGAA -CAACGGCTGCGCTTCCACCCATGCCTGCGCGCCGCCGCTATACAGTAATCGTTCGCGAACCTGAAAACAGCGGCG -CGTATGGGCGTTTATTCGTAGCCAGCCGTTAACGCTGATCAGCACAGTTACCGACGCGGGATAATCCAGCGCCAG -CTGCATTCCCACCAGCGCACCGAGCGCATGGCCGACCACTGCGTAATGCTCAATCCCTGCGGCTACCAGCGCCTG -ATGCAGTTCCGCTGCCATCTGGGCGATACTGTAATCTTCTGCCAGCGTGTCGGGATTATTGCCGGTGCCGCGCTG -GTCGTAACAGACTACCTGATACTCCTGCTCCAGCACCGCCAGTTGCGGTAACCAGTAACTGCCGCTACCCCCAAG -ACCCGAAATCAACACCACTACGGGCGCATCAGCATAAGGGGGAGGTGAGAGTGAAAGTTTCATCGCGGCCTCACT -TGGCGATATGCGCAATTGTGGCGATTTCCACCAGCGCGTCAGGTTTTACCAGTCCGCACTGAATGCAGAATCGCG -CCGGTTTATCACCCGGAAAAAACTCGGCGTAGATTTCGTTAATCGCGGCGTAATTTTTCCAGTCGGTAATAAAGA -TGCTGTTGAAGGTCACATCCGCCATCGTGCCACCCGCCGTCTCGATCACCTTGCGGATAGTTTCCAGAACGTGGC -GGGTTTGCGCCTTTGGGTCATCGGCAAACAGCACGTTATTATGTTGATCAAAAGCCAGCGTACCGGAGACATACA -CCACGCCATCAGCCAGCGTGCCGGGAACGAAGGGGGCCAGCGGTGCGCTGCTGCCAGCGGGAATAATTACGGATT -TTGGCATCGTTAAACTCCTTAAGCGATATGAGCAAAGGACGTGGGAGAAAGCGCGTCGCAGAATGTTTCGACGTC -GCTGACCCAGCCAAAAAAGGTTTCGATATTGAACAACGCGGCTTTCTGCGCAAATTTCGGCCCCGCCTGGTGAGT -TGCGTCTTCAAGCACCACGCCGAAATACTCCAGAAAAAAGCCGTCGCGTAGCGTCGATTCGACGCAGACGTTGGT -AGCGATGCCGGTGAAAACCAGATGGCGTATTCCGCGGCTGCGCAAAATGCTGTCCAGCGGCGTATTGAAGAAACC -GCTGTAGCGCGGCTTCGGCAGCACAATATCGCCAGGCTGCGGCACCAGTTCATCCACCAGTTGATAATCCCAGGA -GCCTTTCGCCAGCAATTTCCCCTGCAGCTGCGGCTGCTTACGCATGGTTTTCAGGGCGTTCGATTTATGAAAATT -CGGTGAGCCGGGTCCGCCAGCCTCGACATACTGTTCATCCCAGCCATTTTGAAACCAGATGATCAGCATCCCTGC -CGCTCGCGCTGCGGTCACGGCGGTTTGAATGTTGGCAATGACCGGGCGAGTGGTTGAGACATCAAACCCGGCGAG -ATCTAAGTAGCCGCCTGGCGTGGCATAAGCGTTTTGCATATCCACCACGATCAGCGCACTTTGCTGCGGATCGAA -GGTAATGGCTTCCGGTCGAGCGGTTAAGGTCGTCATCATGCCACCTCCTGAGTCAGCGCAGGTAGATGGGCGCGG -CATTGCATCAGTGGTTGAATGCGCTCGCCGAAGGTTTCGATTCCCGACAGAAAATCGTCGAAGGTTAACAGCACG -CCTTCGGCACCAGGCACGCTTGCGACTTCATCTAACATGCGCGCGACACTGGCGTAAGAACCGACTAACGTCCCC -ATATTGATGTTTACCGCCGAAGTGGGATCGGCCATCTGACGAACGTTGGTGTCAGTACCGGAGCGGGTATCTTTC -TGACTTTGTTCGGTTAGCCAGCTTAACGCCTCTTCATCCGCGCCCGCTTTGTAGTGTTCCCATTTGGCGCGAGCG -GCATCGTCGGTTTCATCGGCAATCACCATAAACAACACATAAGAGCCAACGTCGCGTCCGGTTTGCTCTGCGGCC -TGTTTCATCCGCGCAGCGGTCGGGGCGAAAGCCGTGGGTGTATTTACGCCTTTGCCGAAACAGAAGTTGAAATCG -GCATACCGGGCGGAGAACGCCATGCCAGCGTCGCTTTGCCCGGCGCAGATCACTTTCATGGGGACACTCGGTTGC -GGACTCACGCGACAATCATTCATGGTGAAAAAATCGCCTTTAAAATCGCTTTTCCCCGTGCCCCACAGGTCGCGC -AGCACCTGAACATATTCGGTGAGATAGTCGTAACGACGGGAGAAATAGTCATCGCCAGGCCAGATACCCATCTGC -TCATACTCGGGCTTTTGCCAGCCAGTCACGAGGTTGACGCCAAAACGCCCGCCAGAGATGGAGTCGATGGTTGCG -GCCATACGGGCGACGATTGCCGGAGGTAACGTTAAGGTGGCAGCAGTGGCGTAAATCTGAATGCGCGAGGTCACG -GCCGCCAGCCCCGCCATCAAGGTGAACGACTCAAGGTTGTGATCCCAGAACTCAGTTTTGCCGCCAAAGCCACGC -AGTTTGATCATCGACAGGGCGAAATCGAAATGGTAGTGCTCCGCTTTTTGCACAATGGCTTTATTCAGTTCAAAG -GTCGGCATGTACTGCGGCGCGTGGGTCGAAATGAGCCAGCCGTTGTTGCCAATAGGTACGAATACGCCAATTTTC -ATCATCAACCTCTCTTCGTCTCGTAAAGTGAAAGTCAGACGGGGCGCTGCATCCTGCATATCCTTTTCAGCCGCG -TATTGGCTTGTTTGCAAAGCGGATGCCAGTTTTTAAAAAGTTAATGTTATTAATCTGTTAACATTACGTTATCTA -AAATATCTGGTAAAAAGTGGACTAAACGGTCAAAACAGTTGCACATAAAACATGCATCTGTGCGCGATGAGAGTG -CAGAAGGTCGAGGCCGGGCGGGGGTTTTGCTATCCTGTTGCCAATCTACAAGAGGGGAGAGCGCATGACGCAAGG -CGCAGTGAAAACAACGGGTAAACGTTCGCGCGCAGTAAGCGCGAAGAAAAAAGCGATTCTTAGCGCAGCACTGGA -CACTTTTTCACAATTCGGTTTTCACGGCACAAGGCTGGAGCAGATCGCAGAGTTGGCGGGTGTTTCAAAAACCAA -TCTGCTGTATTACTTTCCGTCAAAAGAGGCGCTGTATATTGCCGTGCTGCGGCAGATTCTCGATATCTGGCTGGC -ACCGTTAAAAGCGTTTCGTGAAGATTTCGCCCCGCTGGCGGCGATCAAAGAGTACATCCGTCTGAAGCTGGAAGT -CTCACGCGATTATCCGCAGGCTTCGCGCCTGTTCTGTATGGAGATGCTGGCAGGCGCGCCGCTGTTAATGGATGA -ACTGACGGGCGATTTGAAGGCATTAATTGATGAGAAATCGGCGCTGATTGCCGGTTGGGTCAAAAGCGGCAAACT -CGCGCCGATTGATCCGCAGCATTTGATTTTTATGATTTGGGCTTCCACTCAACATTACGCCGATTTCGCCCCTCA -GGTGGAGGCGGTGACAGGCGCGACGTTGCGCGATGAGGTATTTTTCAATCAAACGGTTGAAAACGTGCAGCGGAT -TATTATTGAGGGGATTCGACCACGTTAAAGATGCCGGAGGAGGTTGTAACATCCTCCGGCTACCTGTTTAACCTA -TAGTCATTAAGCTGGCGTTACCGCCAGCGGCAGCGGTATTCACACTCAGCGAACGCTCGATATACAGCCGTTCCA -GAAGGATATTGCTTTCGCCACGGGCAAAACCCTGCACCGAAACAATTGTGCCATCCCGCGCGGCAACTGCTTCAC -ACAATGCGCGAAGCTGATCCGAATCACCGTGGAAGATCACCGCATCAAACGGTTGAGCGGTTATATTTTCCGCTT -TCGCCAGTTGAATACGTTCGCTGACTGCCGATGGCAATGCCTTCACTAACTGACGATGCAGCGCGTCATCCGGCC -ACAGTACCTGGCTGCCCACCGCCAGCACGGCGGCGAGCTGAGTCAGCGCATCCTGCTCATCATCGGCAATACACA -ACACGCGCTCACGCGGCAGCAGCGTCCAGGTGTTGCGTTCACCCGTCGGCCCCGGCAGCAATCGTTGTGTTCCTG -CCTGCGCCAGCTCGCCATATTGCGTACATAACGCCTGCAATTCTGGACGATTTGCTGCCCATTCCCGCAGTGCAT -TTAGCGGCTGAGTCAATGCGGCTTTCAACTGCGCATCGACCGGATACTTTGCATCCTGACGCGCGAGCGTCACTG -CCAGCGCACTTTCCGGGCGATTCGCCAGCAGACGGTAGAGATAGAGCGGACCGCCTGCTTTCGGCCCGGTACCGG -ACAACCCTTCGCCGCCGAACGGCTGCACACCAACCACTGCGCCCACCATATTACGGTTAACATACAGGTTACCAA -CATGGGCCGAGCCAGTGACCTGGGCGATGGTTTCATCAATGCGCGTATGGACGCCAAGCGTCAGACCATAACCGG -AAGCGTTAATCTGCTCGATCAGCTCTGGTAGCTGGTTACGGTTGTAACGCACCACATGCAGCACCGGACCAAAGA -CCTCTTTTTGCAATTCGGCAAAGTCATCCAGTTCGATCAGCGTCGGGGCGACAAAGGTGCCGCTTTGCCATTCAC -GGGCATCTTCGCTGTTTTCCCGCACCGCCTGGAACACCGGACGGCCTTTGCTACGCATGGTCTGAATATGGCGCT -CAATATTGGCTTTCGCTTCGCTATCAATCACTGGACCGATATCGGTGGTCAGGCGACCCGGATTACCCATCCGGC -ATTCGGCCATTGCGCCGCGCAGCATTTTCAACGTGTGGTCGGCAATCTCATCTTGCAGGCACAGCACGCGCAGCG -CCGAACAACGCTGACCCGCACTGTCGAACGCCGAGGCCAGTACATCCACGACGACCTGTTCGGTCAGTGCTGAAG -AATCGACAATCATCGCGTTCATGCCGCCGGTTTCAGCGATGAGCGGAATAGGGCGACCCTGAGCGTCCAGGCGGC -TGGCGATATTGCGCTGCAGTAACGTAGCGACTTCGGTTGAACCGGTAAACATCACCCCGCGCACGCGATCATCAC -CCGTCAGTTGCGCGCCCACGGTTTCACCCCGACCTGGCAGCAATTGCACCACGCCTGGCGGTACACCCGCTTCCA -GCAAAATGGCGATCCCTTGCGCGGCAATCAGCGGCGTTTGTTCTGCCGGTTTTGCCAGCACGCTGTTACCTGCCG -CCAGTGCGGCGGCGATCTGCCCGGTGAAAATAGCCAGCGGGAAGTTCCACGGACTGATACACACCACAGGCCCTA -ATGGACGGTGGGTTTCGTTAGCGAAATCATCCCGCACCTGTCCGGCGTAGTAGTGGAGAAAATCGACCGCTTCGC -GCACTTCGGCAATGGCGTTACTGAAGGTTTTTCCGGCCTCACGCACCAGAATACCAATCAGTTGCTGCATCTGGC -TTTCCATCAGCACGGCAGCGCGGTGCAAAATCGCTGCGCGTTCAGCCGGAGGCGTGGCAAACCAGATTGGCGCGT -TATTAACCGCACTTTCCAGCGCCTGTTCTACTTCACGCGGCGTGGCTTCACGCACATAGCCCACAATATCTTTCG -GTTCCGCAGGGTTAATAACGGGCGACATCTCACCTGCCGCTACCGGTTGTTCCAGCATTGGCAAGGCCTGCCATT -TTTGCAGTGCACTATTGAGCAGGGCAGAGGAGAGCGAGGCCAGGCGGTGTTCGTTAGCGAGATCCAGCCCTGCCG -AGTTGTCGCGCCCGTGACCGTAAAGATCGCGCGGCAGGGGAATTTTCGGATGCGGTAATCCAGTTTGCCCTTCCT -GTTGCGCCAGTTTTTCTACAGCAGTGACCGGATCGGCGACCAGTTCATCCAGTGGCAAAGAGGTGTCGGCAATAC -GGTTAACAAACGAGGTGTTAGCACCGTTTTCCAGCAGGCGACGCACCAGATACGCCAACAGCGTTTCATGTGTGC -CAACCGGAGCATAAATACGACACGGACGGTTAAGTTTGCCGTCGGCAACTTTCCCGGTGACCTGCTCATACAGTG -GCTCGCCCATACCATGCAGGCACTGGAACTCGTACTGACCCGGGTAGTAGTTCTGCCCCGCCAGTTGATAAATCG -CCGCCAGCGTATGGGCGTTGTGCGTCGCGAACTGCGGGTAGATTAGATTCGGCACCGCCAGCAGCTTTTTCGCAC -AGGCGAGATAAGAAACGTCGGTATACACCTTGCGGGTATAAACCGGATAACCTTCAAGGCCGTCCATCTGCGCAC -GCTTAATTTCACTATCCCAGTACGCGCCTTTCACCAGGCGAATCATCAGACGGCGACGGCTGCGGGTGGCGAGAT -CAATCAGGTAATCGATCACCAACGGGCAGCGTTTTTGATAAGCCTGAATAACAAAACCGATGCCGTTCCAGCCTG -CCAGTTCCGGCTCGAAACAGAGTTTTTCCAGCAGATCGAGGGAGATCTCCAGGCGATCGGACTCTTCGGCGTCAA -TGTTGATACCAATATCGTACTGACGCGCCAGCAGGGTGAGTGATTTCAGACGCGGGTAAAGCTCTTCCATTACCC -GGTCATACTGGGCGCGGCTATAACGCGGATGCAGCGCCGACAGTTTGATTGAAATGCCCGGCCCTTCATAGATGC -CACGACCGTTAGACGCTTTACCGATGGCGTGAATCGCCTGCTGATAGGAAACCATATACGCCTGTGCATCTGCGG -CGGTCAGCGCGGCTTCGCCCAGCATATCGTAAGAGTAACGGAAACCTTTCTCTTCCAGCTTGCGGGCATTGGCTA -ACGCTTCCGCGATGGTTTCGCCAGTGACGAACTGCTCACCCATCAGGCGCATCGCCATATCCACACCTTTGCGGA -TCAGCGGTTCACCGCTTTTACCGATAATGCGGTTCAGCGAGCGGGAGAGGCTGGCTTCGTTATGGGTGGAAACCA -GTTTGCCAGTAAACAGCAGCCCCCAGGTGGCGGCATTAACAAACAGTGACGGGCTACGACCAATGTGTGACTGCC -AGTTACCGTTGCTGATTTTGTCGCGAATTAACGCGTCGCGGGTGGCTTTGTCGGGAATACGCAACAACGCTTCCG -CCAGACACATCAGCGCCACGCCTTCCTGCGATGACAGCGAAAACTCCTGCAATAACCCCTGGACCATACCTGCGC -GACCACTGGCATTTTTTTGATTACGCAGTTTATCGGCCAGCTGATACGCCAGTTTGTGCGCCTGTTCAGCAACTG -GCTGCGGCAGGCGGGCTTGTTCCAGCAGCATAGAAACCGCTTCGGTTTCCGGGCGGCGATAGGCCGCGGTGATCG -CGGCGCGGGAAACCGACTGGGGCAATATTTGCTCGGCAAAGTCGAGGAATGGCTGGTGTGGTTCCTCTGCCGGAG -TCGGTGCTTCATCGCTCTCATTGGCCGCGCCAGAAAGCAGCGCAGGTAGCTCCGGCAGAGTATCGCTGTTTTCCA -GTTGTTCGAGATAAGAAAAAATCGCCTGCTTAATTAACCAGTGTGGTGTGCGATCGATACGTGTCGCGGCAGACT -TAATACGCTCACGCGTCGCGTCGTCCAGCTTAACCCCCATGGTGGTGGTTCCCATGCCATTACTCCTGTTGTTCA -GAAAGGTGCAACTTAACGTTATCGTGAAATATCCATGATGTTGCAACTTTGTGCAACCATGTTAAATGTGACATG -CGTAGCAAGCTTAAAAATGAATGAAATGTTAATAAAAGAAATCGATATGACAGGGATTAAAAAAATAACTCAGAC -TTTTTCTCTGCGGCAGTTAACATTTTTGAAAGGTGCAACCGCAAAAAATGTGAGAGAGTGCAACCTGATGAAAAA -TAGTGTCGCTGAGCACTAAAATTTAATGTAAATGGTGTGTTAAATCGATTGTGAATAACCAGCGCTTCCGGCAGG -ATACGGTCGCCCTGGTAAAACATAAACTCTGTTACCCCGTTCCGGTGGCAGATATAACGGCAAGTTTCGACATTG -CCGATAATAATTTTTTGGAGACTTTAGATGGCTATTAGCACACCGATGTTGGTGACATTTTGTGTCTATATCTTT -GGCATGATATTGATTGGGTTTATCGCCTGGCGATCAACGAAAAACTTTGACGACTATATTCTGGGCGGTCGTAGT -CTTGGGCCATTCGTGACGGCATTATCGGCGGGTGCGTCGGATATGAGCGGCTGGCTGTTAATGGGGTTGCCGGGC -GCTGTTTTTCTTTCCGGGATTTCCGAAAGCTGGATCGCCATTGGCCTGACATTAGGCGCGTGGATTAACTGGAAG -CTGGTGGCCGGGCGGTTGCGTGTGCATACCGAATACAACAATAACGCCTTAACACTGCCGGATTATTTCACCGGG -CGCTTTGAAGATAAAAGCCGCATTTTGCGCATTATCTCTGCGCTGGTTATTTTGCTGTTCTTCACCATTTATTGC -GCTTCGGGCATTGTGGCAGGCGCGCGTCTGTTTGAAAGTACCTTTGGCATGAGCTACGAAACGGCTCTGTGGGCG -GGCGCTGCGGCGACGATCCTTTACACCTTTATTGGCGGTTTCCTCGCGGTGAGCTGGACTGACACTGTACAGGCC -AGCCTGATGATTTTTGCCCTGATCCTGACGCCGGTTATCGTCATTATCAGTGTCGGTGGCTTTGGTGACTCGCTG -GAAGTGATCAAACAAAAGAGCATCGAAAACGTTGATATGCTCAAAGGTCTGAACTTTGTTGCCATTATCTCACTG -ATGGGTTGGGGGCTGGGTTACTTCGGGCAGCCGCACATTCTGGCGCGTTTTATGGCGGCGGATTCTCACCACAGC -ATTGTCCATGCGCGTCGTATTAGTATGACCTGGATGATCCTCTGCCTGGCAGGGGCGGTGGCTGTCGGCTTCTTT -GGGATTGCTTACTTTAACGATCATCCGGCGTTGGCTGGTGCGGTAAATCAGAACGCCGAGCGTGTGTTTATCGAA -CTGGCGCAAATTCTGTTTAACCCGTGGATTGCCGGGATTCTGCTGTCGGCAATTCTGGCGGCGGTAATGTCAACC -TTAAGTTGCCAGCTGCTGGTGTGCTCCAGTGCGATTACCGAAGATTTGTACAAAGCGTTTCTGCGTAAACATGCC -AGCCAGAAAGAGCTGGTGTGGGTAGGGCGTGTGATGGTGCTGGTGGTGGCGCTGGTGGCGATTGCGCTGGCGGCA -AACCCGGAAAACCGCGTGCTGGGCTTAGTGAGCTACGCGTGGGCAGGCTTTGGCGCGGCGTTTGGTCCAGTGGTG -CTGTTCTCGGTGATGTGGTCACGCATGACGCGTAACGGTGCGCTGGCGGGGATGATCATCGGTGCGCTGACGGTT -ATCGTCTGGAAACAGTTCGGCTGGCTGGGACTGTACGAAATTATTCCGGGCTTTATCTTCGGCAGTATTGGGATT -GTAGTGTTTAGTTTGCTGGGTAAAGCGCCGTCAGCGGCGATGCAAAAACGCTTTGCCGAGGCCGATGCGCACTAT -CATTCGGCTCCGCCGTCACGGTTGCAGGAAAGCTAAGGGACTTAGCCTGCGGCGGTTTTGTTTGGCTTCAGCAGC -GGGTTGCGCTCCCTTAATGTGCCTCGCCATATAAATTGAATGGTGCAGGGAGCGCGCAGGGGGCGGCCAATCGCC -GCCGCCCCCTGCTGTCCCGGCCTTCGGGGAACGCTTCAGCGATTTTGACGCCACCAACACCCGAGCTGTTATTAT -GTTCCGGGCAAAAAGTTAGATTTGATAATCGCGGATGGACGAAATTGCTTGATACACCCGCTTATCAGTTTTACA -TGGAAGCTCTGATGCATTGAGTCTGGACAGTTTTGTCGGCTGGATACGGCGTTTACGCGGCATCCGGCAAGAACA -CATGGTTCTTTGCAAACAATCCCATCTTTCTACCCTGGAATAATCGTTTATATCCCTTGGCATTACCTCTCTTTG -TTTACATTCCAACATCATTTTATAAACATTCCGCTTGTGTTTTTCTTTGCCGTAATGATAATCGCTATCACTGCG -ATTTACTTTTCTTTGCATAGATTGACTCAGAAAAACGTTTAAGGGTGGGTGGCATGTTTGTTCCGTTTCTCATTA -TGTTGCGCGAAGGACTTGAAGCCGCGCTGATTGTCAGTTTGATTGCCAGCTATCTTAAGCGTACCCAGCGAGGCC -GATGGATTGTGTGATGTGGATTGGCGTGTTGCTTGCCGCTGCGTTGTGCCTGGGCTTGGGTATCTTCATTAACGA -AACCACCGGCGAATTTCCGCAAAAAGAACAGGAACTGTTTGAAGGTATCGTGGCGGTGATCGCCGTGGTGATCCT -TACCTGGATGGTTTTCTGGATGCGCAAAGTGTCGCGCAACGTCAAAGTGCAACTGGAACAGGCAGTCGATAGCGC -ATTGCAGCGTGGAAATCATCATGGCTGGGCGCTGGTGATGATGGTCTTTTTTGCCGTTGCAAGGGAAGGGCTGGA -GTCGGTCTTTTTCCTGCTGGCGGCATTTCAACAAGATGTCGGGATCTGGCCGCCGCTGGGTGCAATGCTCGGTCT -TGCTACTGCCGTGGTGCTAGGCTTCCTGCTCTACTGGGGCGGTATTCGCCTCAATCTTGGTGCATTTTTTAAATG -GACCAGCCTGTTTATTCTCTTCGTCGCCGCAGGGCTGGCAGCTGGTGCCATTCGCGCATTTCATGAAGCCGGATT -GTGGAACCACTTTCAGGAAATCGCCTTCGATATGAGTGCGGTGCTCTCAACTCACTCGCTGTTTGGCACGCTGAT -GGAAGGGATTTTTGGCTATCAGGAAGCGCCGAGCGTCAGCGAAGTCGCCGTCTGGTTTATTTATCTCATCCCGGC -GCTGGTGGCATTTGCTCTGCCACCACGCGCAGGGGCGACAGCGTCTCGCTCCGCGTAACAAATACGACGCAAACT -CTTGCTTAGTTACAACATACTTTAAAGGGATAGTCTCGTCATGACCATTAACTTCCGCCGTAACGCATTGCAGTT -GAGCGTGGCTGCGCTGTTTTCTTCTGCTTTTATGGCTAACGCCGCTGATGTGCCGCAGGTCAAAGTGACCGTGAC -GGATAAGCAGTGCGAACCGATGACCATTACGGTTAACGCCGGGAAAACACAGTTCATTATTCAGAACCACAGCCA -GAAGGCGCTGGAGTGGGAGATCCTCAAAGGCGTGATGGTGGTGGAAGAGCGGGAAAATATCGCCCCTGGCTTTAG -CCAGAAAATGACGGCGAATTTACAGCCTGGCGAATACGATATGACCTGCGGTCTGCTGACTAACCCGAAAGGGAA -GTTGATCGTCAAAGGTGAGGCAACGGCGGATGCGGCGCAAAGTGATGCGCTGTTAAGTCTTGGTGGTGCAATTAC -TGCATATAAAGCGTATGTCATGGCGGAAACCACGCAGCTGGTGACCGACACCAAAGCCTTTACCGACGCGATTAA -AGCAGGCGATATCGAAAAAGCGAAAGCACTGTATGCACCGACGCGCCAGCACTATGAGCGTATTGAACCGATTGC -TGAACTGTTCTCCGATCTGGATGGCAGCATTGACGCCCGTGAAGATGATTACGAGCAAAAAGCCGCCGACCCAAA -ATTCACTGGTTTCCACCGTCTGGAAAAAGCATTGTTTGGCGACAACACCACCAAAGGGATGGATCAGTACGCTGA -GCAGCTTTATACCGATGTGGTCGATTTGCAAAAACGCATCAGTGAACTGGCTTTCCCACCTTCAAAAGTGGTCGG -CGGCGCAGCCGGACTGATTGAGGAAGTGGCAGCCAGCAAAATTAGCGGTGAAGAAGATCGCTACAGCCACACCGA -TCTGTGGGATTTCCAGGCTAACGTTGAAGGCTCGCAGAAAATTGTCGATTTGCTGCGTCCACAACTGCAAAAAGC -CAACCCGGAACTGCTGGCAAAAGTCGATGCCAACTTTAAAAAGGTCGATACCATTCTGGCGAAATACCGTACTAA -AGACGGTTTTGAAACCTACGACAAATTGACCGATGCCGACCGGAATGCACTGAAAGGACCGATTACTGCGCTGGC -GGAAGATCTGGCGCAACTTCGCGGTGTGCTGGGACTGGATTAAGCGTTATGCAGTATAAAGATGAAAACGGCGTG -AATGAACCGTCACGCCGACGTTTACTGAAAGTGATAGGTGCACTGGCGCTGGCGGGAAGTTGTCCGGTCGCTCAT -GCACAAAAAACGCAAAGTGCGCCGGGTACGCTTTCACCGGATGCTCGCAATGAGAAACAGCCGTTTTATGGTGAG -CATCAGGCAGGGATCCTGACGCCACAACAGGCCGCAATGATGCTGGTGGCGTTTGATGTGCTTGCCAGCGATAAA -GCCGATCTTGAGCGGTTGTTTCGCTTGTTGACTCAGCGTTTTGCTTTTCTGACTCAGGGCGGAGCAGCACCAGAA -ACGCCAAATCCGCGCCTGCCACCACTCGATTCCGGCATTCTTGGCGGCTACATTGCGCCCGATAATCTCACCATC -ACGTTATCGGTGGGTCACTCATTGTTTGATGAGCGCTTTGGCCTTGCGCCACAGATGCCAAAAAAGCTGCAGAAG -ATGACGCGTTTCCCCAACGACTCGCTGGATGCGGCGTTATGTCATGGTGATGTGTTGCTACAGATTTGCGCCAAC -ACCCAGGACACGGTTATCCATGCGCTGCGCGATATCATCAAACACACGCCGGATTTGCTCAGTGTGCGCTGGAAG -CGGGAAGGGTTTATTTCCGATCACGCGGCGCGTAGTAAAGGCAAAGAGACGCCGATTAATTTGCTGGGTTTCAAA -GACGGCACTGCCAATCCCGATAGCCAGAATGATAAGTTGATGCAAAAAGTGGTGTGGGTAACGGCAGATCAGCAG -GAGCCTGCGTGGACAATCGGTGGCAGCTATCAGGCAGTACGCTTGATTCAGTTTCGAGTGGAATTTTGGGACAGA -ACGCCGCTGAAAGAACAGCAGACGATTTTTGGCCGTGATAAGCAAACCGGTGCGCCGCTGGGAATGCAGCATGAG -CATGATGTGCCTGATTACGCCAGCGACCCGGAAGGGAAGGTGATCGCGCTGGACAGCCATATCCGGCTGGCGAAT -CCCCGCACGGCGGAGAGTGAGTCCAGCCTGATGCTGCGTCGTGGCTACAGTTATTCACTGGGCGTCACCAACTCC -GGGCAACTGGATATGGGGTTGCTGTTTGTCTGCTACCAACACGATCTGGAAAAAGGCTTCCTGACAGTACAAAAA -AGGCTCAATGGCGAAGCGCTGGAGGAATACGTTAAACCTATCGGCGGCGGTTATTTTTTTGCGCTGCCGGGGGTG -AAGGACGCGAACGATTATTTCGGAAGCGCGTTATTGCGGGTTTAATGTTTTTAGGCGGATAAGGCATTTGTGCGC -AGATGCCTGATGCGACGCTTGCGCGTCTTATCATGCCTACAATCAGTGCGGGTTTGGTAGGCTGGATAAGGCGTT -CACGCCGCATCCGGCGATCGTGCACTGATGCCTGATGCAAATCCTGCTGAAAGCACACAGCTTTTTTCATCACTG -TCATCACTCTGTCATCTTTCCAGTAGAAACTAATGTCACTGAAATGGTGTTTTATAGTTAAATATAAGTAAATAT -ATTGTTGCAATAAATGCGAGATCTGTTGTACTTATTAAGTAGCAGCGGAAGTTCCCGGCAGTGATAGTCAGTCAC -TATGGAGATCGCGGATGGTAACGTCCTGTACTGGACATGTTTTAGATAATCAACGCGCCACCACTCGCGGAGTTT -TCTCCTCCGGTAGTCATCTCGTCACTTTGCATTTTCAACCTCATCCTTTCTTTTCATGTGTTACCGACGCCGTAA -ACGGTGCGCGTAGCCGTTTTTCGGCATTTTATCCAAAAGCAAACTATGGCTTACAAGGAAGCCAACCCTCTGATG -TTCGTGCGCATAATCGCGCTGCCAACGGCGCGTGTGATGAATACAAACAACTCAAGGTGCTCTCCATGGGAAGAC -AAAAAGCAGTGATCAAAGCTCGTCGCGAGGCAAAACGTGTGCTGAGACGGGATTCGCGCAGCCATAAGCAGCGTG -AAGAAGAATCGGTCACCTCGCTTGTGCAGATGGGCGGCGTAGAAGCCATTGGTATGGCCCGCGACAGTCGCGATA -CTTCGCCCATCCTCGCGCGAAATGAAGCGCAATTGCACTATCTGAAGGCTATTGAGAGTAAGCAGCTGATATTCG -CCACGGGCGAAGCCGGGTGCGGAAAAACCTGGATCAGCGCAGCAAAAGCGGCAGAGGCCCTGATACATAAGGATG -TCGACAGGATTATCGTCACCCGTCCAGTTCTGCAAGCCGATGAAGATCTTGGCTTCTTACCTGGAGATATCGCAG -AAAAGTTTGCTCCCTATTTTCGCCCGGTCTACGACGTGCTGGTCCGGCGCTTAGGGGCTTCCTTTATGCAGTACT -GCCTGCGACCGGAAATAGGGAAGGTGGAAATTGCGCCGTTCGCCTATATGCGTGGACGTACCTTTGAAAATGCAG -TCGTCATTCTTGACGAGGCGCAGAATGTGACTGCCGCGCAAATGAAAATGTTTTTAACCCGCCTCGGGGAGAACG -TGACGGTTATCGTCAACGGTGATATCACGCAATGCGATTTGCCTCGCGGCGTGTGCTCCGGATTAAGTGACGCGC -TGGAACGTTTCGAAGAAGATGAAATGGTTGGGATCGTCCGGTTCGGTAAAGAGGACTGCGTACGTTCGGCACTTT -GCCAACGTACGCTGCATGCCTACAGTTAAGTGTGTTATCGGTGCAGAGCCCGGGCGAACCGGGCTTTGTTTTGGG -TGTTTATGCCCGGACTAGCGCTTTTTCTGAAACAACCATTTTTATTTGCCCCTGGCTGGTGAAGTGTACGCTCAT -CCTGTGGCTTTTTTGTAGTTGCTGATAGAGCTCATCAGGTATTGCTAAGCTCTCTGCATATTCTTGCGGCGTATA -TTGGTAGGCTGCATGATGCTGCTGTTTTTGAAAACGCAGCTTATTGTACAGCGCCCAGACAATTAACACGACGGC -ATTCGCCACTGCCAGCAAAAAATAGAACTGAAGTCGGCTTCTGGCCTCGCTTTGCCAGTAATAACCCGTCAGCAG -ATCCATGGCGAATAAGAATATGAACAACGCAAATAATGTCCACAAGATGGTTGTGGCAACATAATCAACCAGTAA -ACGTACTGGTGATTGTCGGGTCGTAATAATTAAATTGTTCATATTAACCTCTCAGAATCCCGCGATCGGGACTTA -CCCAACGGGCGCGTTGCTTTTTAGGCATCAACATGACTCGTGTAAATGATACCAATGTCGTTGCCAGGCTCAGCA -TCCAGAAAATAACCGGGAACCAAATAATCCAGAAAAGCGATGAAGTCAGATTATGCTCATAGCGATTCTCGATCA -TCAGGCTGACAATAAATTGCAGTAAACATAACGTACACAATAATATTCCGGCAGTATGTGTCGCAGCGATATGTG -TCAATTCAATATTTAACGGTACACCGGCAAGTTGGACTGCGTAAATAATGAAACCGACCAGGCAGGTGAAGGCCC -ATATTGTCGTCAGGCAGTATTCAAAAAACAGCGGCCACATTCGAAAGTTTTCTTTGCGCCACAACCTTGTCATAT -TTTTGAGGAATACTTCTGCACCGCCCTGAGCCCAGCGCAGGCGCTGTTTCCACAGCCCTTTTAACGTTTCAGGCA -TTAATATCCAGCACAGTGCCCGTGGCTCGTAAAAAATCGTCCACTGATTCAACTGCAGCTTCCAGCTAATATCAA -TATCTTCGGTGATCATATCGTCACTCCAGTAACCCACTTCTGCCAGGGCGCTGCGACGAAATGCGGCAATAACAC -CGGAAACGGTAAATACGTTTCCATAGATACGCTGGGTTCGCTTGATCAAACCAATAATTGAGGAATACTCGCCAA -CCTGAATTTTACCCACCAGGGTAGAACGTGTTCGAATACGAGGATTACCGGTTACGGCACCCACACGCGGGTTGT -ACAACATCGGTTCCACAATATATGCCGCCGCATCGCGGTCTAATAACGCATCGCCATCAATGCACACCAGATATT -CACTTTTCGCCGCGGCAGCTCCGGTTTTAAGCGCAATGGCTTTCCCCTGGTTTTGCGCCAGATGAATGACCCGCA -AATGGGGAATTTGTGCAGCCATGCGATCCAGGATGGCACGGGTTTTATCTGTTGAACCGTCATTTACGGCAATAA -CTTCAATGTTCTCATAACGCTGTGCTAAAGCGGCGTGTATGGTTTCCTCAACGTTTTTCTCCTCATTAAAACAGG -GAATGATAATGGAGATAGACGGATTATCTTTCAACTGGGGAGCTGGTGCGTTTTCTCCCCACGGCCAGTGGCGTT -CACGATAGACCCAGAAATAGACGCCGCCAACAATCCACATAATGGACATAAAAAACGGCCAGAAGAAAACGAACC -TCATCATCAGTTCACCAGAGTGAAAGTACGCTACGCATAGGGGTATGCATAACACCAGACATAATATAAAAAACG -ATACGATGCGATTAATCATTTTTCGGATACCAGGCTGTTGAAAACTCAGGACGAATAAGGTCTATTTCAGGTTGG -TTATGCAGAAAATTGTCGGGATAATAACCATAGTTTTTCACTCCATTCAGTTGTAATAGGCTCATCCAGTGAGCG -AGTTGTTGCGAAGAAATAGCCTGATGCTGACCATTTTTCTGCCAGTTTTGTGCCTGTAATTCTAAAATAGATTTG -TCTTTAGCCTGAGGGATGTTTTTAATTTGATTGGTCAATTGTATTAACCATTGGTCAGCCGATTTTTCTGCGACA -CCTTCCAGATAAGGCATAGCCATAATAGCGGTCCAGTCATAGCTTTTTAGGAAATCAGCATAATTCTGTGCAAAC -CAGGCTTCACTTTCAGGTTGTATTACCGGAAGTGCAAAAATATTTCGTGCAGTTTTAATATGTGGACCGCGAATG -GCTTTTACGCGCGCACTAAGTTCTAAAGTGAAGTCAGTTAACGCACGACTTTTAAAGCGGGCCCACTGTTTAAAT -TGCTCCGGGTTTTGTCGAATTTCGCTCAGACTCCCGCTAAAGCCTGCTTGCTGATAAGCCGTGATAGCCGGTGCA -CTGGCATCTTCATAATCTGAAAGCAAAGCATCATCGTGGAACAATATGCCATCAAAAGCAGCATGTCCGGCAAGA -TCTTCATATAACATGCCAACTTGTGCTCTGACTCTGTCATCGAAAGGAGAGAGACGGTGATATTGTTCAGGATGA -ATTTGTGCTTTTTTCTCCCCTGTTGGTAAGTATTTTACTCGCGTTAATGTGGGATCTAAATCCCAGCTTAATACC -GGCATCCACGCATAGATGTTTACACCTGAGCGGGTACGTAATTGCCAGGCAACCCGACTAAAAATATCTGCTTTC -ATTGGTAGCAAACGATTTGGAAACCAGACCTCTTTGACCAGCCCATCACCATCGGGATCAGCAAATGCCTGCAAA -TACACGGTTGATATTTGCATATCTTTCACCCGCTGAATTAGCACATCAATATTGCGATCCATTTGCTGGAGGTTT -TCGTCATAAACGTAATCAAGATCGATATGCATTATCCGTTGTGGTGATTTTTCCTGTACGGTAATAATTTGCTGG -GCAAACTCTTTTAATGAGGGATTATTGGCGATTAATACCCGCGGAATGGAATCCAATTGCGACGCATTTGCCAAA -CCTGATTCAAGGGTGAAGAACATGTCATAACCGAGTTTTTTTAATTCCTCTATCGCTATGCCATTCGCTTCGCCA -TAAGGCCAAACAAAAACGTGTGGATTTACCTCAACCTTTGTACGCAGGTATTCCGTCATTTTTACAGCATCCAGA -CGAATTCTTTCCCGGTATTCTGCTGCGGTTTCATACCGTGCGTGGTCAGTAAAATATGCACGATTTACATATACA -GGCAATAAGCTGCCGGTGGCATTAGCCTGAATACCGTAGTGAGAATTCCATGTATGAGAAGCGAGCTCAACGAGC -CGGGAACGCGCAACTTCTCGCACTTGTTGCCACGTGGCAAAATATTCTCGATCGACCAACTCATCGCCAAATTTT -ACTTGTTTATCCGCTGGCGTATCGACCCAACTGCCGACGGGGGCCCATACAGCAGGCCACTGGAAGGCCTGAAGA -ATTGGGAAGACGCGGGTATAAAAACTCTGGTAGCCGTCATCAAAAGTCAGCACTACAGCTTTTTCCGGTAGCGGT -TTTCCTCCTCGATGTGCTTCACGAATTTGAGCAATACTGACCGGTTGATAACCGTTCTCGCGCAGCCAGGCAAAT -TGTTCACGCAGTGCTGATGTCCGCACTGACATAAAACGCTGGTCGGCAGCTTCGTCTTCAACGTTATGCCATGAA -ATCGCTACAAAACCATTATGCGGCCACGGTTGCTCGGCGAGTAAAGATTCGCGATCCTGTGGCGGTATAAATGAT -GTTCTTGACTGGCTAATGCACGCGGTGAGCATAATTATACTCACCAGCATCAGGAGATATTTATTTCCATTACGT -AACATATTTATCCTTAAAATCTGAATGTCATATCGAATTCAACGTATAAGTTGTGTTCTCTGTCACCGTCATAAG -GTCGTTTTTCCCAGCGTAGCGTTGCGCCAGCATCAATCACGTCATTCCAACTAATGCGTTGCCCGTAGCCGAGTT -GGGTGACGACATCCGTGCCATAATGTTTTTGCCAGGAGGCACCAACACCTGCGCTGAATATTTGCTCCCAGCTAT -TTTCATAGCTTCGCCATAACAAATGGCTTGCCTCAAATGCCGGAACAATATCGAACGTTTTTATAGGGTTGTAGT -ATGGGGTATCGTGTTCTGTATTTTGTTCGTAATACAGACTGGGTAGGAAATCGACAATCAAATATGGTGAAGACC -AGATGCGTTCCTGACCCTCAAGTGAGACTTCATGACGCTGGTTACTGTCGGAAAAATCAGTGAAAGCCCAGGAGA -CACCGTACTTACGCCGCTCATTTTGATACCAGCGAACATAAGCCTGAGCACTGTTGCCTGTAACACCATTTTTCA -TTGCCCGTAATGGAACGCGGTGAGAGAGGCGTTCCAGTTGCGAACCAATACGCCAGTTATCATTAAAATCATACC -AGCCAGACAGGCGCGCGCCGGGTTTATGCTCATGATTGAAAACGCGTTCAGCGTACTCTGCCTCGAGCCAGATAT -TACGTGACCGCCACTCAACACCCGCAAGCCAGTCGCGAACAATCCCTTTTCCTTCGCTAAATTGTCCATCGGCAT -AACCGAATCCAGCAAAACCGCGCCAGTTATCCTTCAGCGGTGGTGAATAAACGATGGTGGTTAAGTCGACATCAT -GTTTACCACTATCCGGGCCTTCGGCATCAATTCCTGTTGAGCCAGCGATACGAAGCTCTGCAAGATTATGTACAT -CAACCGCACGTTTTAATCGTACAACGCCGGGATCTTGCGGTTCACGTTCGACAACATCGTGCGTTAAGACAGCTG -CCTGCTGCCATTCTTGTAACGTTAATGCTGTCCAGGCTTGTTCAACCTCCAGATTAATATTACGTGGCTCGATCA -CTTCTGCTTTTTTTAATTCATTTTCTGCTGCACGAGGCCAACCGCGGGCTTGTAACACACTCGCGTAATCAATGC -GCAGTCCCTGATTTCCTGGTGCGTTATAAGCAAGCTCTCTGGCTGTCATTTCAGCCTGAGGAAGATCATTACTAT -ATTTTGCTACGGTTGAGAGAAACGAATGCCCCTGTAACCAGGTATCATTCGGGATGCTCGTAGGCGTGCCCATTA -ACCGAAGGAAAGGCGGCGAAGTATTAATGGTATGTTGGGTGACAGTTAGCGCGCCCGGATAATTTTCACTCTCCA -GGTGGCTGTAAAAGAGATCCGCAAGTTCTTCATCGGATAAATCCGGGGCAATGGTCTCCTTGTGATAAAAGAGCT -CGGTCATTATTGACTGTGCTTTTTTCGGCTGATGATCTTTGAGATAAGCCGATGCAACCCAATATTGCCCCCAGG -GCGGAATAATTTGCCCCGTCTTTTTTAATCGCTGATAGTGAGAAATAACGTCTTTATAACGATCGCGAGTTAATA -ACGCGCCAAGATGATCAACCTGAATACGCTGGTACTGGGCAGTGCGGTCTGGGTTATCGTGCCACAGAATTTCTA -ATGCAGCGTATTGGGCGAGGGCGCGATCGGCAATGGCATAACGTTCACTTTCACTGCGCGTAGGCATAAACGACA -GTCTGACCAGTTCGGCATGAATATCAGCGCGAATATCTGGCGTTAAATTGGCATCGTCAATCGCGGCAGCAAGTT -GATTATTACGTAATGCCTGCACGTATTCTGTGGGATATTGTTGCGTAGATGCATTTTCAGGTAATGACTCTGTCA -TCGCCCGTAATTCATCCTGATGACGCCCCGCCAGTTTATAGATATAGGCTTCTGCGAGTAAATTGGCTTTGTCCG -GTGCTCCAGAGTTAAGCTGCTTAAGTTTAACCAGCGCAGTATCATAGTGACCAGCATCTGCCAGGGTTAAAATTT -GTCCCCGTTGATAATCCTTATTTTGCGGCTCCAGAGAGAGCGCCTTTTGCCACAGTGTAAGCGAGTTTTGCCATT -GTTGCAGGTTACGATAAGCGACGGCGACAGCTGCATAACCACGCGCTGGTAATTGCTGATGACGGTAGCGGTTGT -AAACGGTAATAACCTGTTTATCTTGCCCGGCCCATAAGGCAATCTGTAACCAGTCAGCAATTTGGTTATTGCTGA -GTGCTGATTTTAGTGCAAACCATGACAAAGCTGGCTGAGTATTACCCTTGCGAGCTTCAATAATCAATGCATCAT -AGGCGTTATTAACAGCACTCTTCGCCGCGGGACTCGCTGCTAAAAATGCGGCAGTAAGAAGTTTCAAAGCCCATT -TGGTTTTCGGGCACCTTTTTCTGCTACTTGAATACATCCTGTATTACTCCATGTATTGCCAAAATCTCTCTCTGT -ATCTAATTACAGGTAACTGAAAAGAAAGATATTTTTGCACCTCATAATCCGTTATTAAACGCGGAAGAGAGACGT -GAATTGTTGATGATGAGAAGAAGAAATGATGAGCAGAGTGTCCATATAAAATCCTTTTCTCGCCCGAAAATCCAT -TCCAATGATGAGGATCTTCAGGAATACGGCATAAATCCCAATGCCTTTTTCAAAATAAATTAGGATTAAAATAAT -TAAATCAGTAAATTCCGATGCATGATTTCGGATTTTTCGAAAGTCCTGATGAAAGGCTGCGCTACGGCACTCACG -GATTTAATTGTTATTCCTAATGTATCTATGAATTAATGTTTTATAAGGATTTTCTATAACCATTTATAAGTATTT -TCAAGCCTGGCTTGTTGCAAACAATGTATAAAGCACTTAGGCAATAATAATTACATTCAGCAACTATCATCATCG -GTATTGTTTGTGGGCGGAATTTCATATTGACAACAGTACAGTTCTTATATCTATTAATAATAGAAAGGGATCTAC -AACCTACAGATTGGTGTAGCTTTATGGAAAAAGACTATTTGAGAATTAGTAGTACTGTATTAGTGAGCTTATTGT -TTGGGCTTGCTTTGGTTTTGGTGAATAGTTGGTTTAATCAGCCAGGCGTTGAGGAAGTTGTTCCACGATCAACCT -ATCTGATGGTAATGATTGCTTTATTTTTTATCGATACTGTTGCATTTATTTTTATGCAGTTGTATTTCATTTATG -ACCGTAGGCAATTTTCAAACTGTGTACTTAGTTTGGCTTTTCTGAGTTGTTTGATTTACTTTGTTATAACCGTCA -TTATCATTCAGCAAATTATTGAGGAGCGTTTGACAAGCAGTGTTGTCCAAAATGACATTGCAATCTATTATTTGT -TTCGTCAGATGAGTTTGTGCATATTAATATTTCTGGCATTGGTGAATAAAGTTAGTGAAAACACAAAACAGCGCA -ATTTATTTTCCAAAAAAATGACTTTGTGCATAAGTTTGTTTTTTGTTTTTGGGGGGCCGATAGTTGCTCACATAC -TTTCTAGTCATTATGAGAGCTACAATTTACACATTGCCGAGTTAACCAATGAAAATGGTCAGGTGGTTTGGAAAG -CCTCATATGTTACCATAATGATTTTCATGTGGTTAACCTTGCTTTCGGTTAATCTATACTTTAATGGTTTACGCT -ATGATATCTGGAATGGAGTGACGGTGATTGCTTTTTGTGCCGTACTGTACAATATCTCTCTGTTATTTATGAGCA -GGTATAGCGTGTCCACTTGGTATATTAGTCGCACTATTGAAGTAGTCAGTAAGTTAACCGTTATGGTAATATTTA -TGTGCCATATATTCAGTGCGCTACGAGTAACAAAGAACATTGCACATCGCGATCCCTTAACCAATATATTTAACA -GAAATTATTTTTTTAATGAACTGACAGTTCAATCAGCATCAGCCCAAAAAACGCCTTATTGCGTCATGATTATGG -ATATCGACCACTTCAAAAAAGTCAACGACACCTGGGGGCATCCGGTTGGCGATCAGGTGATAAAAACAGTGGTGA -ATATCATTGGGAAAAGCATACGACCAGATGACCTTTTAGCGCGCGTCGGCGGCGAAGAGTTTGGCGTCTTGCTGA -CGGACATCGATACTGAACGTGCGAAAGCTTTAGCGGAAAGGATTCGGGAAAATGTTGAGCGTTTAACTGGCGATA -ATCCTGAATACGCTATACCACAAAAAGTGACGATTAGTATTGGCGCTGTTGTGACTCAGGAAAATGCGTTAAACC -CAAATGAGATCTATCGACTGGCTGATAACGCACTTTACGAGGCGAAAGAGACCGGGCGTAATAAGGTGGTTGTGA -GGGATGTGGTGAATTTTTGTGAGTCACCATAAAGCGGCATTTTGATCCTACCCACGTAATATGGACACAGGCCTA -AGCGAGGTTCTTGTTTTCAAATTGTTCCGGACTGAGGCCGCCACACCAACTGTGCCGCCGCCACCGATTGTAATC -ACATTCGATATAATTAAACACCGTTGCCCGCATTATTTCCCGGCTGATAAAGTGTTCTCCATGGATACATTCCAC -TTTCAGCGAATGAAAGAAGCTTTCCACGCAGGCATTATCGTAGCAGCAACCTTTTGCGCTCATACTTCCACGCAG -ATTATGCCGCTTCAGTTGCGCCTGATAATCTGCTGAACAGTACTGGCCTCCACGGTCCGTGTGAACGATAACGTT -CCGGGGCCTCTTACGCCGCCACAGCGCCATCTGCAGGGCATCGCAGGCCAGTTGCGCCGTCATGCGTGGCGACAT -TGACCAGCCAATAACGGCACGTGACCACAGGTCAATGACCACTGCCAGATACAGCCAGCCTTCATCTGTACGTAA -GTACGTGATGTCTCCTGCCCACTTCTGGTTCGGGCCACTGGCGTAAAAATCCTGCTCCAACAGATTTTCTGACAC -AGGCAGGCCGTGTGCGCGGTAGCTGACCGGGCTGAACTTCCGGGAGGCCTTTGCCCTCAGTCCCTGACGGCGCAG -GCTTGCCGCCACGGTTTTTACGTTAAAGGGGTAACCCTGAGCACGCAGTTCATCCGTCAGGCGTGGGGCACCGTA -ACGCTGTTTTGACCGGGTAAAAGCCGCGAGGACAACGCTGTCGCAGTGTTGGCGGAACTGCTGACGCGTGCTTAT -CCTTGTCCGCCGCTGACACCACGTATACCAGCCGCTGCGGGCCACCCGGAGCACGCGGCACATTGCTTTGATGCT -GAACTCAGCCTGATGTTTTTCAATAAAGACATACTTCATTTCAGGCGCTTCGCGAAGTATGTCGCGGCCTTTTGG -AGGATAGCCAGCTCTTCATCCCGTTCTGCCAGCTGGCGTTTGAGACGTGCAATCTCGGTAGACATCTCCAGTTCA -CGTTCAGAAGACGTCTGCTGATTTTGCTGTTTACTGCGCCAGTTGTAGAGTTGTGATTCATACAGGCTGAGTTCA -CGGGCTGCGGCAGTAACACCGATGCGTTCAGCAAGCTTCAGGGCTTCACTGCGAAATTCAGGCGAATGCTGTTTA -CGGGGTTTTTTACTGGTTGATACTGTTTTTGTCATGTGAGTCACCTCTGACTGAGAGTTTACTCACTTAGCCGCG -TGTCCACTATTGCTGGGTAAGATCAGTGCCTGGCACACGCGTTTGATGGAAGACGGCGTTCAGGCAATGCGCGAT -TATCTTGCCGGACTGGATATCGCTTCGCCAGAGCATCAGGTTCTGATGAACGTAACAGCAAAAAGCGAGGTCGCT -CCGTCAATTATCAAAGAAAATCTCTCATTACACTTAACTCATACGGTGAAATGGACTGAATCTCTCGATACATTT -CTGAATATGCCAACCCCGGTAGCTTTCCTTGAAATAAGTAATAAGCCCTATTTGGGGAATATGTTAAATGATTTT -GCTGGCGTGGATCAGCAACGAGTTATGCATTGTCGTAAAGCATTTAGTGATGCAAAGGTATTCAAATGATTCCTG -ATTATTTAACTTTTATTCGCTTTCAGGATAAACGAAATCTGATATACATTTATGCTATTGGACTTATTCTGATAG -GCTTTTATTGGAAGAATGCAGGGTTTACTTTTCCATCAGAGGATATTGGTGTAGTTAGTGGGATTCTGGCTCTGG -TGCTGTATAATTTTATTTTTGATCTCAAGGCGTACTGGGCTTATAAATGCGTCACGAAGAATATCGATTTTTCGT -GGTTTAAGAAAAAGCAGAACCACAAAATAGAATTATTTCTTACACAACCTCTGGTGGCAGGATTTCTGTCGTTAA -TCATGTTGAGTGCAATGAGTTGGGGGCTATACCAGCTTCTACCCTCGTTATATGCGCTGTTCCTGATTTCGTTAC -TTGGGCCGTTGGTCATCTTTCTGCTGTTTCGGATGATCCGCACCAGTTATGTCAAGCAGGTCGCTATTTCAGTAG -CGAAAAAAGTAAAATATAAAAGTCTGACTCGCTATGTGCTGCTTTCGGTGTGCATCTCAACGGTTGTTAACCTGC -TTACTATCAGCCCGTTGCGTAACAGTGATTCTTTTGTGACAGAGGGGCAGTGGTTAACGTTTAAATCGATAATTG -CATTGCTCATTCTTTGTGGCGTAGTGTTGGCGATTAATCTGTTTTTTCTGCGCTTCTCCAAGCGGTACGCTTTTC -TGGGCAGGCTTTTTTTGCAGGAAATCGATCTGTTTTTCTCCAGTGAAAATGCGTTGTCGACCTTTTTTGCCAAGC -CGCTTTGGCTTCGGTTATTCATATTGCTGGTTATTGAAGTGATGTGGATTACGCTGGTGTCGGTATTGGCAACGC -TTGTAGAATGGCGGATTTGGTTTGAAGCCTATTTTTTACTCTGCTATGTACCGTGCTTAATTTACTATTTTTTCT -ATTGTCGATTCCTCTGGCATAACGATTTTATGATGGCATGTGACATGTATTTCCGTTGGGGGCATTTTAATAAGT -GAGGAAGTGATAGGAAGTGACCAGATAATACATATATGTTCTGTACTCTCTTGCGCATTTTGATTGTTGACTGAG -TAACCAGACAGTTGATGTGCACGATTTCCCCTCGCCCTAACAGACGTGGGCGGGGGCACCCGGTGTGTGCAATAT -ACGAAAAAAAAGCCCGTACTTTCGTACGAGCTCTTCTTTAAATATGGCGGTGAGGGGGGGATTGACTCGCTTCGC -TCGCCCTGCGGGCAGCCCGCTCACTGCGTTCACGGTCTGTCCAACTGGCTGTCGCCAGTTGTCGACCCCCGGTCG -GGGCTTCTCATCCCCCCGGTGTGTGCAATACACGAAAAAAAAGCCCGTACTTTCGTACGAGCTCTTCTTTAAATA -TGGCGGTGAGGGGGGGATTGACTCGCTTCGCTCGCCCTGCGGGCAGCCCGCTCACTGCGTTCACGGTCTGTCCAA -CTGGCTGTCGCCAGTTGTCGAACCCCGGTCGGGGCTTCTCATCCCCCCGGTGTGTGCAATATACGAAAAAAAAGC -CCGTACTTTCGTACGAGCTCTTCTTTAAATATGGCGGTGAGGGGGGGATTGACTCGCTTCGCTCGCCCTGCGGGC -AGCCCGCTCACTGCGTTCACGGTCTGTCCAACTGGCTGTCGCCAGTTGTCGAACCCCGGTCGGGGCTTCTCATCC -CCCCGGTGTGTGCAATATACGAAAAAAAAGCCCGTACTTTCGTACGAGCTCTTCTTTAAATATGGCGGTGAGGGG -GGGATTCGAACCCCCGATACGTTGCCGTATACACACTTTCCAGGCGTGCTCCTTCAGCCACTCGGACACCTCACC -AAATTGTCGTTCCTGTCTTGCTGGAACGGGCGCTAATTTAGGGAAATCATGACCTGAGGTCAACAAACTTTTTGA -AAAAATCGCGCGTTTATTCAAACTTCAATCAATGTGTGGTTTTAATAAGCGAAATCTGCTTTTTTTGCCACCGAC -CACGGATTTGTTATGCTGGTGGCCTTTGTAGATCATAACGATAAGTGCGAATAAATTTCGCACAACGCTTTTCGG -GAGTCAGTATGGATATCATCTTTTATCACCCAACGTTCGATACCCAATGGTGGATTGAGGCACTGCGCAAAGCTA -TTCCTCAGGCAAGAGTCAGAGCATGGAAAAGCGGAGATAATGACTCTGCTGATTATGCTTTAGTCTGGCATCCTC -CTGTTGAAATGCTGGCAGGGCGCGATCTTAAAGCGGTGTTCGCACTCGGGGCCGGTGTTGATTCTATTTTGAGCA -AGCTACAGGCACACCCTGAAATGCTGAACCCTTCTGTTCCACTTTTTCGCCTGGAAGATACCGGTATGGGCGAGC -AAATGCAGGAATATGCTGTCAGTCAGGTGCTGCATTGGTTTCGACGTTTTGACGATTATCGCATCCAGCAAAATA -GTTCGCATTGGCAACCGCTGCCTGAATATCATCGGGAAGATTTTACCATCGGCATTTTGGGCGCAGGCGTACTGG -GCAGTAAAGTTGCTCAGAGTCTGCAAACCTGGCGCTTTCCGCTGCGTTGCTGGAGTCGAACCCGTAAATCGTGGC -CTGGCGTGCAAAGCTTTGCCGGACGGGAAGAACTGTCTGCATTTCTGAGCCAATGTCGGGTATTGATTAATTTGT -TACCGAATACCCCTGAAACCGTCGGCATTATTAATCAACAATTACTCGAAAAATTACCGGATGGCGCGTATCTCC -TCAACCTGGCGCGTGGTGTTCATGTTGTGGAAGATGACCTGCTCGCGGCGCTGGATAGCGGCAAAGTTAAAGGCG -CAATGTTGGATGTTTTTAATCGTGAACCCTTACCGCCTGAAAGTCCGCTCTGGCAACATCCACGCGTGACGATAA -CACCACATGTCGCCGCGATTACCCGTCCCGCTGAAGCTGTGGAGTACATTTCTCGCACCATTGCCCAGCTCGAAA -AAGGGGAGAGGGTCTGCGGGCAAGTCGACCGCGCACGCGGCTACTAATAAAGCATCAGGATTCCTGCTATCCTTG -GCGGGAATTGAATACAGGAGAGAGTTATGTATCCCGTCGACCTTCATATGCATACCGTTGCCAGCACACATGCAT -ATAGCACATTAAGTGATTACATTGCCCAGGCCAAACAAAAGGGCATTAAACTTTTTGCGATCACCGATCATGGCC -CGGATATGGAAGATGCGCCGCATCACTGGCACTTCATTAACATGCGTATCTGGCCGCGAGTGGTTGATGGGGTAG -GGATCCTGCGCGGCATCGAAGCTAACATTAAAAATGTTGATGGTGAAATTGACTGCAGCGGTAAAATGTTTGACT -CGCTGGATCTAATTATTGCCGGTTTTCATGAGCCGGTTTTTGCGCCACATGACAAAGCGACCAATACACAAGCGA -TGATCGCCACTATCGCCAGCGGCAATGTGCATATAATAAGCCATCCCGGAAATCCCAAATATGAAATAGATGTGA -AAGCCGTTGCTGAAGCAGCCGCGAAACATCAGGTGGCGCTGGAAATCAATAATTCCTCATTTTTACACTCACGTA -AGGGCAGTGAAGACAACTGTCGTGAGGTAGCCGCAGCGGTACGTGATGCTGGAGGTTGGGTGGCATTAGGCTCGG -ATTCTCACACCGCGTTTACCATGGGGGAATTTGAAGAGTGTCTTAAAATCCTCGACGCGGTAGATTTTCCGCCAG -AGCGCATTTTGAATGTTTCTCCGCGCCGCTTACTGAACTTCCTTGAATCTCGCGGTATGGCACCGATTGCGGAAT -TTGCAGACCTTTAATTACTAGTAATGGAAATATATTAATGAACGAGTTTTCTATCCTCTGTCGTGTGCTGGGTTC -GCTCTATTACCGCCAACCACAAGATCCTTTACTGGTGCCGCTGTTTACCCTGATTCGTGAGGGGAAACTGGCTGC -GAACTGGCCACTGGAGCAGGATGAGTTGCTGACACGTTTGCAGAAAAGCTGTGATATGACGCAAGTCTCTGCCGA -TTACAATGCGTTGTTTATCGGCGATGAATGTGCTGTGCCGCCATATCGTAGCGCATGGGTTGAGGGCGCGACGGA -AGCGGAAGTGCGCGCTTTTCTTTCTGAGCGAGGGATGCCATTAGCGGATACGCCAGCCGATCACATCGGCACATT -GCTGCTCGCAGCTTCCTGGCTGGAAGATCAGTCAACGGAAGATGAGAGCGAAGCACTGGAAACACTGTTCAGTGA -GTATCTGTTACCCTGGTGTGGTGCGTTCCTTGGCAAAGTGGAGGCCCATGCAACCACGCCTTTCTGGCGCACCAT -GGCACCGCTAACCCGCGATGCCATTAGTGCAATGTGGGACGAGCTGGAAGAAGATTCTGAAGAATAAGTGTGATC -TACGTCACTCATAACTGCAACGGATAATTTGTTGTTGCATAAAATGTGTGCTCGATCTCATTCATGGCCGCGTTT -TCTGCTATCATGCGCGGCATGAACATACTTCTCTCTATTGCAATCACAACAGGCATTCTCTCCGGTATCTGGGGA -TGGGTGGCTGTTTCCCTGGGCTTACTAAGCTGGGCGGGCTTCCTGGGCTGTACGGCCTACTTTGCCTGCCCGCAA -GGTGGGCTGAAAGGGCTGGCGATCTCCGCTGCAACCCTGCTTAGTGGCGTGGTGTGGGCGATGGTCATTATTTAC -GGTAGTGCACTGGCACCACATCTGGAAATTCTCGGTTATGTCATAACCGGTATTGTCGCGTTTCTGATGTGTATT -CAGGCCAAACAGCTGCTGCTTTCATTTGTTCCGGGGACGTTTATAGGCGCATGCGCGACGTTTGCCGGGCAGGGT -GACTGGAAACTGGTGTTACCTTCGCTGGCGCTTGGGCTGATATTTGGTTACGCAATGAAAAACAGTGGCCTGTGG -CTGGCGGCGCGTAGTGCAAAGACGGCGCACCGTGAGCAGGAAATCAAAAATAAAGCGTGAGGGGCACTCACGCTT -TCGCTTAAACAGTAAAATGCCGGATGATAATTCCGGCTTTTTTATCTGTCAGGATTCCGGTGGAACCGACATATG -GCGGTATTTCACCAGAATGTCATTCTGCCGTTCTGCTTTATTTTGCAAATCCCACAGACCACGGTCGATACCATC -ATTAATCAGGAAAATGACCCCTGTTTCGATAGCCGACATCAGGCACAGCATAACAGGTTCGTTCGAGGTGTAACC -CACTTCCCCTTCAAGCAAGCGCTGGTAGTCAATAAAGCGGAAAACCCCGGCCTGAACTTCATAGGAAAGTATCGT -CTTACTGGTGTTCACCGAAGAAAGGATCTCGCCGGTACTCACATTGACGACGCGCAGGTTCACGGCAATCTGATC -GAGCTGGTATTGCGTGTCGGCACCGATGCCAAAATATCTTGCCCCAACCCCGCCAGATTTGACGTTGCTTTCATA -ACCGATAATCGAACCTTCAACCATGATATTTGCCGCCGTTAAAGATTGCAGCGGGATTCGGTTATTAATGGCAAC -CGTGCCGTTTTCTTGTGCCGCACGAATAATCTTGCGCTCGTTAAGCAGGTTTTGTAAGCCCTGGCGCTCCAGCGG -TATAAACCAGCGAGAATCTTTCAGTGCCGTGACCAGCATTGCCGTGGCGCTTTGCGGAACAGCAGTGGAGAAGTT -ACTTGCCGGGTAGGGTTTAAATTGCCCGGTTTCGTCCTGAATGTTGTATACCGAAACAAAGATTTTACCCGTCGG -CGCTGGCAGATGGGTCAAATCTTTGTAGCTCTGAGCACGAGGCATTAATGTCGGTCTGGCGGCTTCTTTAGGCGG -GGCGGTTAAGCATCCGCTCAGTAACATGACGGCAACCAAAAGAAATAAGCGCTGCATGATTATTTTCCTTATGAA -GCTGGGGCTTAAAAATCGGTTGAGTTATTTTGTAAACCCGAAACCTGGATGGTCGAGGTTTGTCCGGTTTTACGA -TCTGTCACGTTCAACTGCAATTGACCATCGCGGTTGGCAATATCGACAATATAATCGTTGGTCACCATGCGGCCC -GGTTTACCGGTATTAATATTCGACAGTAGCCCACCTAAAATTTGTGACTGGATGGCCTGAGTAAAGTTATCTAAC -GCTGAGGGTGTTTCAATACCAAAGTCATCGTTATAGCTCGGATCTTTATAAGAGTTTTGGGCCTGAGCGCTATTT -AATAAAAAAGCGCCATTATTTGGGTTACCACCAAAGTTTGGATTACGGAACTGGAAAGTCATGGTTCCAGCCCAA -CTTAATGGCGAAATAAGCATGAGTAGAACTACTGCATGTTTGACACGCATTGCAGCCTCCGAACAATTTTTTATT -TAGAATTCATCATGCGCCAAATCGCCCGTACTTAATAACGCCTGATTTATCTGGCGACGATTTAGTGCTTCTTCA -GTTTGAATCAGTGCAAAGACGACAGTTTTCTCGAAGTCTCTTTTCAACGGAAATAAAAAAGTCTGGAAAATAACG -TCCTGATTGACCGTTATAGTGATCCAGCTTCCCCATCGTGCACTGGGCCTTTCATTAATCGTTAAGTTACCCGTA -TAGTCACTTTCCCATTTATCACTAAAGGCTCGGTAAAAATCATGGCCAATAGATGAAACAGTATGGTCAGTTAGC -AATCCCGGGACTTCTACCTCAACGGCGTGAAGATTCCCTGCGGCGAACAGAAATTCTGCCGCCACAATCCAGCGT -AAATAACGTTTCATGGCTTTATCGCCTGAGGTTATCGTTTGCCCAGGAAACCGCTTGTGTCCGGTTTTTTACGGC -TATCTTCTTGAAAAGATTATAAAGATGCGTTTTAACCGTATTTTCGCTGATGAACAACGAACGAGCGATCTCGTT -ATTAGACGCGCCGATACGCAGCTTATTCAGGATCTCTTTTTCCCGATGAGTAAGGAGGGCTGATTCCGTGCTGTT -ATAACGATAGTTACCTGAATGCGTAATCAGGTAGCTGGCAAGCTTTTGCGTAAAGTAGCATTCGCCGCGCAGGAC -GCCTTGCAACCCATTGACAACACGTTCTTGATCCTCCATGGAATAAAAAACGCCGTTGATATGAGGCCAGTTTTC -AATGTCGCGGTACGGGTAATCTTCAGGCGTATTTAGCAACAATATTTTGATATTGTTGTTTTTCCTGCTCAAAGT -ATCCTGCCAATAATGGATAAGCTTTTTATCCGCTTCCATCATATCCAGAAGAATAATAGAGCCTGAAGAGATATC -GTCCAGAGAACGTTGAATATTATGTAATTTTCCTGTAATTGCCAGCGATTGTTTAAGGTGCTGCAAGAGAGCTGT -CGCCTGCAAAGAAGATTTAGTGATCAACAATAATGTATGACCATGAATACTATGGACTTCATTAAACATGATGAA -ACCCCGCTTTTTTTATTGATCGCACACCTGACAGCTGCCTCTAAAATAGAAGCACCAGAAGTACTGACAGATGTT -GCACTGCTGTGTGTAGTAATAAATCAGCCCTAAATGGGTAAAATATAAAACTAATGGATTACATCTGATTTCAAT -CTAGCCATTACAAATCTTAAATCAAGTGTTAAACATGTAACTAAATGTAACTCGTTATATTAAAATGTTAACCTT -AAGGTTTTATTAAGTTTAGAAATGATAGAAAAGTTGTACATTTGGTTTTTATTGCACAATTTTAAAAAATCATAC -AAATGGTGATAACTTACTAATAATGCATATAAAAAATATTTCGGTGTAGTCCTTTCGTCATGTAAAACGTTCTTG -TTTTTTCTCCACACCTCCGTGGACAATTTTTTACTGCAAAAAGACGAGGTTTGTCACGGCTTGTGCGCAAGACAT -ATCGCAGCAATCAGCGACGGGCAAGAAGAATGACTGTCTGGTGCTTTTTGATAGCGGAAAACGGAGATTTAAAAG -AAAACAAAATATTTTTTTGCGTAGATAACAGCGTATTTACGTGGGTTTTAATACTTTGGTATGAACTAAAAAAGA -AAAATACAACGCGCGGGTGAGTTATTAAAAATATTTCCGCAGACATACTTTCCATCGTAACGCAGCGTTAACAAA -ATACAGGTTGCGTTAACAACCAAGTTGAAATGATTTAATTTCTTAAATGTACGACCAGGTCCAGGGTGACAACAT -GAAAAACAAATTGTTATTTATGATGTTAACAATACTGGGTGCGCCTGGGATTGCAGCCGCAGCAGGTTATGATTT -AGCTAATTCAGAATATAACTTCGCGGTAAATGAATTGAGTAAGTCTTCATTTAATCAGGCAGCCATAATTGGTCA -AGCTGGGACTAATAATAGTGCTCAGTTACGGCAGGGAGGCTCAAAACTTTTGGCGGTTGTTGCGCAAGAAGGTAG -TAGCAACCGGGCAAAGATTGACCAGACAGGAGATTATAACCTTGCATATATTGATCAGGCGGGCAGTGCCAACGA -TGCCAGTATTTCGCAAGGTGCTTATGGTAATACTGCGATGATTATCCAGAAAGGTTCTGGTAATAAAGCAAATAT -TACACAGTATGGTACTCAAAAAACGGCAATTGTAGTGCAGAGACAGTCGCAAATGGCTATTCGCGTGACACAACG -TTAATTTCCATTCGACTTTTAAATCAATCCGATGGGGGTTTTACATGAAACTTTTAAAAGTAGCAGCAATTGCAG -CAATCGTATTCTCCGGTAGCGCTCTGGCAGGTGTTGTTCCTCAGTACGGCGGCGGCGGTAACCACGGTGGTGGCG -GTAATAATAGCGGCCCAAATTCTGAGCTGAACATTTACCAGTACGGTGGCGGTAACTCTGCACTTGCTCTGCAAA -CTGATGCCCGTAACTCTGACTTGACTATTACCCAGCATGGCGGCGGTAATGGTGCAGATGTTGGTCAGGGCTCAG -ATGACAGCTCAATCGATCTGACCCAACGTGGCTTCGGTAACAGCGCTACTCTTGATCAGTGGAACGGCAAAAATT -CTGAAATGACGGTTAAACAGTTCGGTGGTGGCAACGGTGCTGCAGTTGACCAGACTGCATCTAACTCCTCCGTCA -ACGTGACTCAGGTTGGCTTTGGTAACAACGCGACCGCTCATCAGTACTAATACATCATTTGTATTACAGAAACAG -GGCGCAAGCCCTGTTTTTTTTCGGGAGAAGAATATGAATACGTTATTACTCCTTGCGGCACTTTCCAGTCAGATA -ACCTTTAATACGACCCAGCAAGGGGATGTGTATACCATTATTCCTGAAGTCACTCTTACTCAATCTTGTCTGTGC -AGAGTACAAATATTGTCCCTGCGCGAAGGCAGTTCAGGGCAAAGTCAGACGAAGCAAGAAAAGACCCTTTCATTG -CCTGCTAATCAACCCATTGCTTTGACGAAGTTGAGTTTAAATATTTCCCCGGACGATCGGGTGAAAATAGTTGTT -ACTGTTTCTGATGGACAGTCACTTCATTTATCACAACAATGGCCGCCCTCTTCAGAAAAGTCTTAATTTGTTGAA -ATATCGAGCATAAGATGAATCTGGAGAGAATGGTCTGCTGCGAATCAGCCAACCTGAAAGTATGGATAACACAAC -CCTCAAGGATGACTAATCATTGAGGAAATAGAATAAATGTTCAGACCTTTTTTAAACTCTCTTATGCTCGGCAGT -TTGTTTTTTCCTTTTATTGCCATTGCTGGAAGCACCGTGCAAGGGGGCGTGATCCATTTTTATGGCCAAATTGTG -GAACCGGCATGTGACGTCAGCACCCAGTCATCACCCGTAGAAATGAACTGCCCACAGAATGGTTCTATTCCGGGC -AAAACCTACTCCAGCAAAGCGTTAATGAGCGGCAATGTCAAAAACGCGCAAATAGCCTCAGTAAAAGTGCAGTAT -CTTGATAAACAGAAAAAGCTGGCTGTAATGAACATCGAATATAACTAAGTTTCTGAACAACTCACGTTGCTGAGC -AGAAAAATGCGATTTAACCAAAAAGCCTGCTGTACACTTAAGAAACAAGAAGGTGTAAGGAGGCGTTATGAAAAC -GCGTATTCATGTTGTGCAGGGTGATATTACCAAACTGGCCGTTGATGTGATTGTGAATGCGGCTAATCCGTCATT -AATGGGAGGCGGCGGCGTCGATGGGGCCATTCATCGCGCAGCGGGTCCGGCCCTGCTGGATGCTTGTTTAAAAGT -CAGGCAACAGCAGGGCGATTGCCCTACGGGGCATGCCGTTATTACGCTTGCAGGCGATCTTCCCGCTAAAGCCGT -AGTGCACACCGTCGGGCCAGTCTGGCGTGGTGGTGAACAAAACGAAGACCAGCTTTTGCAGGATGCCTATCTCAA -TAGCCTACGACTGGTGGCGGCAAACAGCTATACGTCAGTGGCTTTTCCTGCAATCAGTACTGGGGTTTATGGTTA -CCCTCGTGCGGCAGCGGCTGAAATCGCAGTAAAAACCGTTTCAGAATTTATTACCCGTCACGCTTTACCCGAACA -GGTATACTTTGTCTGTTATGATGAAGAAAACGCCCACCTCTACGAAAGACTCCTTACCCAACAAGGAGATGAATG -ATTTGCCCCGGCTGGCGAGCGCGGTGCTGCCACTGTGTTCGCAACATCCCGGTCAGTGTGGCCTTTTTCCTCTGG -AGAAAAGTCTGGATGCGTTTGCCGCCCGGTATCGTCTGGCCGAAATGGCAGAGCATACGCTCGATGTTCAGTATT -ACATCTGGCAGGACGATATGTCGGGTCGGTTACTGTTTTCCGCCCTGTTAGCCGCAGCAAAGCGTGGCGTTCGCG -TCCGTTTGTTGCTGGACGACAACAATACGCCCGGACTTGACGACATTTTACGCTTGCTTGACAGTCATCCACGCA -TTGAAGTCCGGCTTTTTAATCCTTTCTCGTTTCGCTTGCTGCGTCCGCTTGGTTATATCACCGACTTTTCCCGTC -TTAATCGCCGTATGCACAATAAAAGTTTCACTGTCGATGGCGTGGTGACCCTGGTGGGAGGACGAAATATTGGTG -ATGCCTATTTTGGAGCAGGGGAGGAGCCACTTTTTTCGGATTTAGATGTCATGGCAATAGGACCCGTGGTAGAGG -ACGTTGCCGATGATTTCGCCCGCTACTGGTATTGCAAATCGGTTTCACCCTTACAGCAGGTGCTGGATGTCCCGG -AGGGTGAAATGGCGGATCGCATCGAGTTACCCGCCTCCTGGCATAACGATGCCATGACGCATCGTTATTTACGCA -AAATGGAATCCAGTCCATTTATAAATCATCTGGTTGATGGAACATTGCCGCTTATCTGGGCGAAGACACGTTTAT -TAAGTGATGATCCGGCGAAAGGGGAGGGCAAGGCAAAACGGCATTCACTGTTACCGCAGCGCCTGTTCGATATCA -TGGGCTCACCCAGTGAACGCATCGATATTATCTCTTCCTATTTTGTACCGACACGCGCAGGTGTGGCGCAACTCT -TACGGATGGTGAGAAAAGGGGTAAAGATTGCGATCCTAACCAATTCTCTTGCCGCTAACGATGTTGCTGTCGTCC -ATGCCGGATACGCGCGCTGGCGCAAAAAATTGCTCCGCTATGGCGTGGAATTATATGAACTCAAGCCGACGCGTG -AACAAAGTAGTACGTTACACGATCGCGGCATAACCGGTAATTCCGGAGCCAGCCTGCATGCTAAAACCTTTAGCA -TCGATGGTAAAACGGTGTTTATCGGCTCTTTCAATTTCGATCCGCGTTCAACATTGCTCAATACTGAAATGGGCT -TCGTGATAGAGAGCGAAACGCTGGCACAGTTAATTGATAAACGCTTTATTCAGAGCCAGTATGATGCGGCCTGGC -AGCTCCGTCTGGACAGGTGGGGACGGATCAACTGGGTTGATCGTCATGCAAAGAAAGAGATTATTCTCAAAAAAG -AACCCGCCACCAGTTTCTGGAAGCGGGTTATGGTCAGACTGGCGTCGATATTGCCCGTGGAATGGTTATTGTAAA -TGTGGCTTAACGGGCTGGTGCTTTATCGTTCTCACGCTTAACAACCGGTTTACCAGAGAACAAAAACTTCAGTAA -CGGGATGCGCAAATGAATTTCATACAGAATTATCGCAATCCCTACTACAAATATCAGGCCACAGAGAAAACCAAG -CCAGTTGGAGGTGATGTGCGGTGTAATGTATGCGCCGAAAAACAGCGTTAACGGGTGGTGAACCAGATAGATAAA -CAGCGATGCGTTAACAAAATAAGTCACCCGCGCTGACTGGAAGTTAAGCAAACGGTGGCCAAAGGAGAAGACCAC -ATTCACCATCCACAGACCGAGGACCATGGTGATCACCGACTCGGTTTCGTACATCCAGGCATCGCCACTGCCATA -GCGCTGGTTGAGTAAATAAGCGACAAACGCCAATGCTGCTGCAAGGGTACAGCCACGAGACGGCGTGGTAAACAA -GGCTTTAAGATGAGGGAAAATGAAAGCCAGTGCGCCGAGGATAAAGAACGGCAAATAAAACAGCGTTTGCATGAC -AATAAAATTGAACATGCCATTACTCAGAATGGGCGGATACACAATAAAAATCGTTCTTCTTATTACCGCATAACC -GATGCCGAGGCATAAAAAAATCACCGATAGTTTTACCATCGAGAATTTTTTATTCGTTTTATCAGAATTTTCTAA -ATTATTTCTGATGCGCTTAAATATCCATACGCACAGCGTCGTCATGACCACTAACACCAGTAAAAACCACAGGTG -TGATATTAATTCCCAGGCCAACGTATTATATTTGTCATACAATGACAGCCCAGGCCAACTTTCCGCTTTTCCTTT -GACATATTGCAGCATAATAAATTGCGGTAATGTCAGTAGGGGGATGGCTGTTAACATCGGGATACCTACACGTTC -GACACGTACTTTCCACCATTTTTTCAAGGGATAGCGTAAAAAAAGCATGTAGGAAAAGTAGCCGGATATAACGAA -AAATACCTGCATGCGGAACGAGTGGATGAAGTCATTAAAAAGGGTCAGCCACAATGATGATTCGGCGCTATTCAC -ATGCCATGTATGGCTCGAATAGATTAAAGAAATATGAAAAGGTATCCCTAACAACATCAGCCAGGCGCGGATGGA -GTCGAGGAAATATTCACGTTGCGCGGGTACTGGGTTCATATATGGTTAACTAATCTCGGATTTTTCGTCTTATCC -CTGTCGGGTTATGCCTTTAGGCTTGTTGCCATAGTGACACCGACCTGACCGCGCCAGGCGCAGGCTTCAAGGTTT -TTATGCATAGCATCATCGCTACCACTAACCAGAATGGAAGCGTCTGTAAGACGGTTGATAAATAAATTTGCTGGC -AAACCCTACACGAAGTCGATGCTTCTGTCTTTAGGAGAAGCACGGAAAGTGAAAACGGTTGCAATCAGGTGCTTA -ATCCATGAGCCAGCGTGCTGAACGATACCGGGATTCTGTTGTCGGAATGGCTGGTTATCCATTAAAATAGATCGG -ATCGATATAAGCACACAAAGGGGGAAGTGCTTACTAATTATGAAACATAAACTACAAATGATGAAAATGCGTTGG -TTGAGTGCTGCAGTAATGTTAACCCTGTATACATCTTCAAGCTGGGCTTTCAGTATTGATGATGTCGCAAAGCAA -GCTCAATCTTTAGCCGGGAAAGGCTACGAGACGCCCAAAAGCAACTTGCCCTCCGTTTTCCGCGATATGAAATAC -GCGGACTATCAGCAGATCCAGTTTAATCATGACAAAGCGTACTGGAACAATCTGAAGACCCCATTCAAACTCGAG -TTCTACCATCAGGGTATGTACTTCGATACCCCGGTCAAAATAAATGAAGTGACTGCCACCGCAGTCAAACGAATC -AAATACAGCCCGGATTATTTCACTTTCGGCGATGTTCAGCATGACAAAGATACGGTAAAAGACCTTGGCTTTGCC -GGTTTTAAAGTGCTTTACCCGATCAACAGCAAAGATAAAAACGATGAAATCGTCAGCATGCTCGGGGCCAGCTAT -TTCCGCGTGATTGGTGCAGGTCAGGTTTATGGCCTTTCTGCCCGCGGCCTGGCAATTGATACCGCCTTGCCATCG -GGTGAAGAATTTCCGCGCTTCAAAGAGTTCTGGATCGAGCGTCCAAAACCGACTGATAAACGTTTAACCATCTAT -GCATTGCTTGACTCGCCGCGTGCGACAGGTGCTTACAAATTCGTGGTTATGCCAGGGCGTGACACGGTTGTGGAT -GTGCAGTCGAAAATCTATCTGCGCGATAAAGTCGGCAAACTGGGGGTTGCACCGTTAACCAGTATGTTCCTGTTT -GGGCCGAACCAACCGTCGCCTGCAAATAACTATCGTCCGGAGTTGCACGACTCTAACGGTCTCTCTATCCATGCC -GGTAATGGCGAATGGATCTGGCGTCCGTTGAATAACCCGAAACATTTAGCGGTCAGCAGCTTCTCCATGGAAAAC -CCGCAAGGCTTTGGTCTGTTGCAGCGCGGTCGTGATTTCTCCCGCTTTGAAGATCTCGATGATCGTTACGATCTC -CGTCCAAGCGCATGGGTGACTCCGAAAGGGGAGTGGGGTAAAGGCAGCGTTGAGCTGGTGGAAATTCCAACCAAC -GATGAAACCAACGATAACATCGTCGCTTACTGGACGCCGGATCAGCTGCCGGAGCCGGGTAAAGAGATGAACTTT -AAATACACCATCACCTTCAGCCGTGATGAAGACAAACTGCATGCGCCAGATAACGCATGGGTGCAACAAACGCGT -CGTTCAACGGGGGATGTGAAGCAGTCGAACCTGATTCGCCAGCCTGACGGTACTATCGCCTTTGTGGTCGATTTT -ACCGGCGCAGAGATGAAAAAACTGCCAGAGGATACCCCGGTCACAGCGCAAACCAGCATTGGTGATAATGGTGAG -ATAGTTGAAAGCACGGTGCGCTATAACCCGGTTACCAAAGGCTGGCGTCTGGTGATGCGTGTGAAAGTGAAAGAT -GCCAAGAAAACCACTGAAATGCGTGCTGCGCTGGTGAATGCCGATCAGACGTTGAGTGAAACCTGGAGCTACCAG -TTACCTGCCAATGAATAAGACAACTGAGTACATTGACGCAATGCCCATCGCCGCAAGCGAGAAAGCGGCATTGCC -GAAGACTGATATCCGCGCCGTTCATCAGGCGCTGGATGCCGAACACCGCACCTGGGCGCGGGAGGATGATTCCCC -GCAAGGCTCGGTAAAGGCGCGTCTGGAACAAGCCTGGCCAGATTCACTTGCTGATGGACAGTTAATTAAAGACGA -CGAAGGGCGCGATCAGCTGAAGGCGATGCCAGAAGCAAAACGCTCCTCGATGTTTCCCGACCCGTGGCGTACCAA -CCCGGTAGGCCGTTTCTGGGATCGCCTGCGTGGACGCGATGTCACGCCGCGCTATCTGGCTCGTTTGACCAAAGA -AGAGCAGGAGAGCGAGCAAAAGTGGCGTACCGTCGGTACCATCCGCCGTTACATTCTGTTGATCCTGACGCTCGC -GCAAACTGTCGTCGCGACCTGGTATATGAAGACCATTCTTCCTTATCAGGGTTGGGCGCTGATTAATCCTATGGA -TATGGTTGGTCAGGATTTGTGGGTTTCCTTTATGCAGCTTCTGCCTTATATGCTGCAAACCGGTATCCTGATCCT -CTTTGCGGTACTGTTCTGTTGGGTGTCCGCCGGATTCTGGACGGCGTTAATGGGCTTCCTGCAACTGCTTATTGG -TCGCGATAAATACAGTATATCTGCGTCAACAGTTGGCGATGAACCATTAAACCCGGAGCATCGCACGGCGTTGAT -CATGCCTATCTGTAACGAAGACGTGAACCGTGTTTTTGCTGGCCTGCGTGCAACGTGGGAATCAGTAAAAGCCAC -CGGGAATGCCAAACACTTTGATGTCTACATTCTTAGTGACAGTTATAACCCGGATATCTGCGTCGCAGAGCAAAA -AGCCTGGATGGAGCTTATCGCTGAAGTCGGTGGCGAAGGTCAGATTTTCTATCGCCGCCGCCGTCGCCGCGTGAA -GCGTAAAAGCGGTAATATCGATGACTTCTGCCGTCGCTGGGGCAGCCAGTACAGCTACATGGTGGTGCTGGATGC -TGACTCGGTAATGACCGGTGATTGTTTGTGCGGGCTGGTGCGCCTGATGGAAGCCAACCCGAACGCCGGGATCAT -TCAGTCGTCGCCGAAAGCGTCCGGTATGGATACGCTGTATGCGCGCTGTCAGCAGTTCGCGACCCGCGTGTATGG -GCCACTGTTTACAGCCGGTTTGCACTTCTGGCAACTTGGCGAGTCGCACTACTGGGGACATAACGCGATTATCCG -CGTGAAACCGTTTATCGAGCACTGCGCACTGGCTCCGCTGCCGGGCGAAGGTTCCTTTGCCGGTTCAATCCTGTC -ACATGACTTCGTGGAAGCGGCGTTGATGCGCCGTGCAGGTTGGGGGGTCTGGATTGCTTACGATCTCCCGGGTTC -TTATGAAGAATTGCCGCCTAACTTGCTTGATGAGCTAAAACGTGACCGCCGATGGTGCCACGGTAACCTGATGAA -CTTCCGTCTGTTCCTGGTGAAGGGTATGCACCCGGTTCACCGTGCGGTGTTCCTGACGGGCGTGATGTCTTATCT -CTCCGCTCCGCTGTGGTTTATGTTCCTCGCGCTCTCTACTGCATTGCAGGTAGTGCATGCGTTGACCGAACCGCA -ATACTTCCTGCAACCACGGCAGTTGTTCCCAGTGTGGCCGCAGTGGCGTCCTGAGCTGGCGATTGCACTTTTTGC -TTCGACCATGGTGCTGTTGTTCCTGCCGAAGTTATTGAGCATTTTGCTTATCTGGTGCAAAGGAACGAAAGAATA -CGGCGGCTTCTGGCGCGTTACATTATCGTTGCTGCTGGAAGTGCTTTTTTCCGTGCTGCTGGCTCCGGTACGCAT -GCTGTTCCATACGGTCTTCGTTGTCAGCGCGTTCCTTGGCTGGGAAGTGGTGTGGAATTCACCGCAGCGTGATGA -TGACTCCACTTCCTGGGGTGAAGCGTTCAAACGCCACGGCTCACAGCTGCTGTTAGGGTTAGTGTGGGCTGTTGG -GATGGCGTGGCTGGATCTGCGTTTCCTGTTCTGGCTGGCACCGATTGTCTTCTCGTTGATCCTGTCACCGTTTGT -TTCGGTGATTTCCAGCCGTGCCACCGTTGGTCTGCGCACCAAACGCTGGAAACTGTTCCTGATCCCGGAAGAGTA -TTCGCCGCCGCAGGTGCTGGTTGATACCGATCGGTTCCTTGAGATGAATCGTCAACGCTCCCTTGATGATGGCTT -TATGCACGCAGTGTTTAACCCGTCATTTAACGCTCTGGCAACCGCAATGGCGACCGCGCGTCACCGCGCCAGTAA -GGTGCTGGAAATCGCCCGTGACCGCCACGTTGAACAGGCGCTGAACGAGACGCCAGAGAAGCTGAATCGCGATCG -TCGCCTGGTGCTGCTAAGCGATCCGGTGACGATGGCCCGTCTGCATTTCCGTGTCTGGAATTCCCCGGAGAGATA -TTCTTCATGGGTGAGTTATTACGAAGGGATAAAGCTCAATCCACTGGCATTGCGTAAACCGGATGCGGCTTCGCA -ATAAAAACGTAGTTGCCTGATGCGCTACGCTTATCAGGCCTACATCGTTCCTGCAATTTATTGATTTTGCAAGAC -TTTGTGGGTCGGATAAGGCGTTCACGCCGCATCCGGCAAAAACAACGAGCCAATAAAAATACCGGCGTTATGCCG -GTATTTTTTTACGAAAGAGGTATCAAATGCGTTTAATTGTGGTGAGCATCATGGTGACCTTGCTGAGTGGCTGTG -GCAGCATTATTAGTCGCACTATACCGGGGCAGGGGCATGGCAACCAATATTATCCCGGTGTGCAATGGGATGTGC -GTGACTCCGCCTGGCGTTATGTCACGATCCTTGATCTGCCATTCTCTCTGGTTTTTGATACTTTACTGCTGCCGA -TCGACATTCATCATGGCCCGTATGAGTGATTAACGTTCATCCCACTCATCAGCTGCTGCGCGTCCTTCCTCGGTA -TCCAGCGGTGGCTCAAGCTGAAATTCCCCCTCGTCCCATTCATGTAATGTATTCTCTTCCTGCCACTCCTGGCGT -ATCTCTATCTCATCATAGTCGCCATCAAAAACACTTTGCGCGGCTTCACCGCTAAGCATAGGTAAACATTCACCT -TCTTCCCCTTCGTCGGCAAAAAACTCAACTTGCCACATGATGTCGCCGTCCTGCAAAACGTATTTTTGGGCATTG -AACTGTTGCACATTCGCATCTTCGGCGTCGATGCCGGGGTTGTCTGCAAGAAATTCTTCGCGTGCAGCGTCAATG -GCTTCTTCAAGCGTTGCGTACATGGTCATCACGATTCTCCCTTTGAGTTGATGAGGTTTCAGGGAAAAGGATAGC -TGATTCTCCGCTTTTGCAAGTATGAAAGGCGAAAAATCAGTTCGATACCTGGGGTATTCGACGACGACGTAGACT -GTTCCATGAATAGACTGCGTTGAATAACACTACGCCAGCGGTGACGAGAAATACCGCTCTGAAACCGTAGTTCGC -TGAAATCGCTGCTCCCATCAATGGTCCGGTAACGTTGCCAATATCACGAAACGATTGGTTATAGCTGAAGATACG -CCCGGCGATCTGGTTGCTCGAGTTGTAAACCAACAGTGTCTGTACGGCGGGGAGTAGTGCACCATCGGCGGCACC -GAGCAAAAAACGTAAAATCCCAAGTTGCAATGGCGTCTGAACGTAAGACATTGGGATCAACAGCAGTACAGAAAA -GATCAGCGCTGTAATCAGGATCTTTTCGGGTCCGATTCGATCGCCAAGTTTGCCGAGTCGTGGTGCACTTAGCAG -AGCCGCCACGCCTGGCACCGAGGCGATCATGCCACTGATAAAGGCGACGTTACTGACGTTACCCGCCAGTTCGCG -GACATACAGCGTCAGAATGGGGGCAATTGAGCCCGTCGCCACCTGGATGATTAACGTAGTGACAAACAGGCTGAG -TACCAGTTTCGGGTTTTTAAGTGATGTCACCACTTCCCGCATGTGCAGCATCTCTTTTTTGCTGACCGGCTGGAA -TTTTTCTCTGATGCAAAACAGGGTGACGAAAAAGCAGAGTATGAGCACACTGGCGGTAATAAAGAATACCGGACG -TAAGCCGTAGCTATCGGCGAGCAGGCCGCCAGCCATTGGGCCGAGCAACGCACCACTAACGCCGCCTGTGGAGAG -CGTACCCAGCGCCCAGCCGCTTTTATTACGCGGTACTTGTGTGGCGATAAGAGCATTAGCGTTGGGGACAAATCC -GCCAAGTAACCCAAGAAGCGCCCGCAGGATCAAAAACTGCCAGATATTTTGTGCCAGCCCCATCAACACCATCAC -GATGCCCATGCCGAGGGCAGAGCGTAATAGCATGAGTTTTCGGCCTTTACGGTCGGCGAGTCCACCCCAAAACGG -TGAGGCGATGGCCGAAAATAAAAATGTAATGCTGAAGACAATACCGGACCACATATTCAGGGCGGAGTGACCGGT -AACGCCAAGCTGCTCAACGTAGAGGGGTAAGAAGGGCATTACCAGACTGAAGGCGGCACCGGTAAGAAAACAGCC -TAGCCAGGCGACGATCAGGTTTCGTTTCCAGTTTATAGGGGTGTCATTTTCACAGGGTGACATAGCAATCCGCTG -TTGGTGCGCCAGGCGCGGTGAACATAAGAAGAAAAGATAAGCACACTAATTATGCGCCCGACTTCCAGGGGGCGC -AATCCAGAGAGCTTTTATCGCTAAATCAGGGGGATTTGCTGTGGTAATGCCGGATGCCATTCTGAAGCATCCGGC -ATGGGAGATTTAATAGCGTGAAGGAACGCCTTCCGGGCGTGTTTTAAAGCGACGGTGTAACCACATATACTGCTC -TGGTGCCATCATGATGCATTTTTCGACCACTTTGTTCATCCACGCGGCGGTAGTTTCGGCATCATCCAGTGGCGG -AGAACACTCTGGCGGCAGCATAATCAATTGATACCCTTTGCCATCTGGCTTACGGCGTGGAACGAAGGGCACCAG -ACATGCGCCGGACATCCGTGCCAGCATCCAGGTTCCGGTCGTGGTCGCAGCCTGCTCAACGGCAAACAACGGGAC -GAAAACGCTTGAGCGCGGGCCGTAATCATGATCCGGTGCGTACCAGACCACTTCGCCTTTTTTCAGGGCTTTAAT -CATGCCTTTTAAATCTTTGCGGTCGAGCATCGATTTATTTGAGCGCAAACGGCCCCAGGTTTGTAGCCAGTCAAT -CAGTGGATTATCGTTCGGGCGATAAACGCCAATACCCGGTTCCTGCATACCAAACTGCCGCGCACCCAGCTCCAG -TGTCAGAAAATGGATGCCAACTAACAGGATGCCGCGTTTTTGCGCCTGCACGTCACGAATGTGTTCCATGCCGAT -CACTTCCGTCCAGCGGGCGATTCGGCGGTCCGGCCAGAACCACGCCATGCCGGTTTCCATCAGGCCCATGCCAAC -GGATTCGAAATTCTTCACCACCATTTTACGGCGTTCTTGTTCGCTCATTTCCGGGAAGCACAGTTCCAGGTTGCG -ATGCACAATTTTTGCGCGTCGTTTCATAAAACGTAACGCCAGTTTTCCTAATCCACAACCGAGGCGGTAGATAAC -CGGGTAGGGCAATTGCACGACTAACCAAAGTACGCCAATACCCAACCAGGTTAACCAATAACGCGGATGAAGCAG -TGCGGTGGAGAACTTGGGTAGATTCGTCATATCAATCCTGTTTTTCAACCTATTCGGGCAATTGTATGTATTGTC -GCATTTTTTCGCCCGCAACCAAAATTTGTGGCTGAAGACTGGGCGAAATTGCCGCGCTTGTAAATAACAAATAAT -TTTTAATGCGCAAATGTAGCGTAAAATGTGTGGATGTTAATTATCGATAATTGCTATATCATGCCGCGGATTTTT -ACTTTCCCATCTCGCAGGAACCGTACACCATGCCAGTGTTACACAACCGCATTTCCAACGACGCGCTAAAAGCCA -AAATGTTGGCTGAGAGCGAACCGCGAACCACCATTTCGTTTTACAAGTATTTCCACATCGCCGATCCTAAGGCGA -CCCGTGACGCTTTATATCAGCTGTTTACCGCGCTGAATGTTTTTGGGCGAGTGTATCTGGCGCATGAGGGCATTA -ACGCGCAAATCAGCGTACCTGCGAGCAATGTTGAAACATTTCGCGCGCAGCTCTATGCCTTCGACCCGGCTTTAG -AGGGTTTACGCCTGAATATCGCGTTGGATGATGACGGGAAATCCTTCTGGGTACTGCGCATGAAGGTACGCGATC -GCATTGTTGCCGACGGTATTGACGATCCTCACTTTGATGCCAGCAATGTTGGTGAGTATCTGCAAGCGGCGGAAG -TGAACGCCATGCTTGACGATCCCGATGCACTATTTATCGACATGCGTAACCACTATGAGTATGAAGTGGGGCACT -TTGAAAACGCGCTCGAAATTCCGGCAGATACCTTCCGTGAGCAGCTGCCAAAAGCAGTCGAGATGATGCAGGCAC -ATAAAGATAAAAAAATCGTCATGTACTGCACCGGCGGCATTCGTTGTGAAAAGGCCAGTGCCTGGATGAAACATA -ACGGATTCAACAAAGTCTGGCATATCGAGGGCGGAATTATTGAATACGCCCGTAAGGCGCGCGAGCAGGGCTTGC -CGGTGCGTTTTATTGGCAAAAATTTTGTTTTTGACGAGCGGATGGGCGAACGTATATCGGATGAGATTATCGCGC -ATTGCCACCAGTGCGGCGCGCCGTGCGACAGCCATACCAACTGTAAAAATGATGGCTGCCACCTGCTGTTTATTC -AGTGTCCAGTATGCGCGGAAAAATACAAAGGTTGTTGTAGTGAGATTTGCTGCGAAGAAAGCGCGTTACCGCCAG -AAGAACAGCGACGCCGTCGGGCAGGACGTGAAAATGGCAATAAGATCTTTAATAAGTCTCGTGGACGTCTGAATA -CAACACTGTGCATTCCTGATCCAACAGAATAAATATCATTGCCGGATGCGTGCCATCCGGCAACATTTCACGCTT -ACTTCTGCTGTACGCCTTCCACTGAAATAATCAGATCCACTTCCTGAGAAGCTGGACCTAAATCTGTCTTGATAT -TGAAGTCCTTGAGCTTAATTTTGCCTTCGGCCTCGAAGCCTGCACGTTTACCACCCCATGGGTCGTCGCCCTGAC -CAATTAATTTCGCTTCCAGCGTGACGGGTTTGGTTACGCCATTCAGCGTCAGATCGCCGGTAATATCCAGTTCGT -CACCGTCTTTCTTCACGCTGGTGGAGGTGAATGTTGCCTGTGGATATTTTGCGGTATTGAGGAAATCTGCACTGC -GAAGATGTTTATCGCGTTCGGCGTGATTAGTATCGACGCTGGTGGTGTTAATTGTCACATTCACTTTATCGGCAG -CCGGATTTTTTTCGTCAAAGGTAAAAGTACCGTCGAAATCTTTAAAGGTGCCGTATAACCAGCTATAGCCAAGGT -GCTGGATGCGGAAATTAACAAAGGCGTGCTGACCTTCTTTGTCAATTTTGTAATCGGCGGCAACCGCTGAACCGG -CAGAGAACATCAGGGACGCGAAGGTTAAACCAAGCAGGCTTTTTTTCATTTTTTATACTCCATAGTCAGATGACG -ACTTTCCCAGCATGCGCTTCAGAGTGTCGTCTTTATCGATGAAATGATGCTTCAGGGCCATAAATCCGTGCATAA -CGGACAGTACTACGACGCTCCACGCGAGCCAAAAATGCAGGGCACCGGCAAAGTCTGCCTGTGCGCCAGCGTCGG -CAAGGGTCGCGGGGACGTCAAACCAGCCAAAAACGCTGATCGGTTTACCATCGGCAGTTGAGATCAGATAGCCGC -TGATGCCGATGGCGAAAAGCAATAGGTACAATGCGAGATGTCCAGCTCTTGCGGCAAGACGAGTCATGGGCGAAT -AACTCGGCAGCGGACCCGGCGGTGGAGATATGACACGCCACAGAACGCGAATAACCAGCCCCATCATTAACAAAA -TACCGATGCTTTTATGCAGTTCGGGTGCTTTGTGATACCAGCCATCGTAATAACTGAGCGTGACCATCCACAGAC -CTAAAGCAAACATGCCGTAGACAATAATTGCGCTTAGCCAATGGAAGGCCGCAGATATAACACCATAGCGTTCAG -GGGTATTTGTGAATGACATAAGTGCATCCAAAACGAATTTGCGAGAGAAAGAAAATGGCGTGTCGGAGAATGAAT -TGCAACACAAAAATAACAAATTGAATGATATTTATTTTTATTTCAATAATTTTGAATTAATAATGAAAGAATCTT -CATAAGTTTAGTGGGTTCAGCATCAGAGATGTCTGGTGAGTGCTGTAGAAGCAGGAATAATCTCATTCAATTTTT -CACGCTAAATGAAAGGGAGATTAAATATTTGTCAGTTTATGTCAGTGCGGAAAACTAAAAATAAAACACATAGAT -CAGATCCATAATTGCCAACAATCCCCAGAGAAAAAGATAAAGCATCAGATGCTCGCGAATATTATTGATGAGATA -GTGCAACAGCCGACGCATTAAATACTCCTGTAAAAACGGCCTCATTCTGGAGGCCGTAATGATGATTATTGGAAG -CGGGAAAGCCTGAATGGCGTCAAATCAAAATCGCTTTTTTTGTCTTGCGCAAAATCGGCAGCTATTTCCCCTAAA -ACTGACGCAAATTTAAAACCGTGCCCACTCAGGCCGGTAATGAGCAGTGTATTATCGTGGCCGGGTAGGGTATCG -ATAATAAAATCTTCGTCAGGCGAATTATCATAGGTGCAGGCAGCGCCGTACAGGCAGCAACCGATACCCGGCAAT -ACATTGCGCAAGAACGGGAAGGCTTCTGACCCATCACTGGCCACTTCCGCAAACGGAACACGTTCATCCGCTGAA -TGGATAACCTGGCCTCCGTTATGTTTGCCAATCTTCAACGCGTCGTTTTCTGCCGGAAAACCATAATATTGATCG -CCATTGGGCAGTTCACCGGTAAACGCCGGGAATTTATTCTTCACGCTATAGCGGCCATCGGCCTGATACCAGGCA -AATACTTTGCGTACGGGCTGGACAGGCAGCTCCGGGAGCAGGTCTTTTACCCATGTTCCCGCGCAGACAATCGCT -TTTTTCGCCTGATACTCACCGTCAGCCGTTTCAATAGTTACGCCATCATCGTCATGACGAATTGCGGTGACCGGG -CAGTTGAACAGTTGCGCACAGCCCGCTTCCTTCGCCAGTTGGATCCAGGTTTTAATCGCCAGTTCGCTGCGCAAA -AAACCGGAATCAGTTTCAAATAAGCCGATGTAGTTGTCCGGGACGCGTATTTCCGGCCAGCGGGCCATAATCCCT -TGCGCATCGAGCTTTTCAACGTTGAGTTGCCATTGTTCGGCGCTGTGGGCGACGTTGGCGAGAAATGTGGAATCA -GCCGGGCCAAGGTTAATGACGCCAGAGCGTACAAAAATGGGATCTTCTTCGTTGTGGCGGGAGAGTTCATCCCAC -AGCGTTTGCGCGCGGAGGACCAGCGGGACATACTTTTCGCCTTCACCATAAGCATGGCGAATTAATCGCGTATCG -CCGTGGTGGCTGCCGTGTTGATGCGGTGGCATATGGGCGTCGGTCATTAGCACGTTTAAACCGGCGCGGGTTGCA -TAATACCCGGCGGCAGCGCCTACGGAACCGCTGCCAATAATGATGAGATCGTATTTCATTTTTTTCTCTCTGCTC -TCATGGTTTAAGCAGAGTAATTAACTGAATGCAGATATACAACCCAGAAATGGTAAAGGCACCGGTGAGGTGCCT -TTTGGGTGGATGGTCATGTCATGTTAATGACGCCGATACTCGTTTACCTGGAAATCACCGGATTCAATTTTGGCG -ATTCCTGCTTCTAATATCGAAATAAATTGTCTGGCAACATCAGTGGTTAACCAGAGCGTCTGACCAACTTCAGTC -CCTTCCTGCTCGGACTTATTTGGGGTCTGGTAGTGCAAACGCAACATCAGCGCATCATAGCTATCAACGGTGCTG -ATGTCCCACCCTACGAGCGGATGAGTCTGAATGACTTCATTATTTTTTTCCATCATGGCCCCCTAATTCGTGTTA -CTAGACAACGTTATTCGAGGTTCAATGCGTTTTTATCTGAAGCAACTTCAGTATACCAATAAGTAAGGGTATTCA -CCGAATTTTTAAAGGGGGAAACAGATAAATTTCTGCTTTTAAGATTTATATGAACAATAAAACAGCATGTCATTC -ATATTTTTTTAGCATATTGTGCAATTATTTTGAGGAAGTGTAGAAATTTTGTACTCAAAATTCGTAAGTAAAATA -AAAAAGCCGGGGCGACCCGGCAAAAAAAATCACTGCATATTATTCGCTGACAAACCAGTCATCGGCGCTTTCCCA -CGTTTCCTGGAGAATTTCACTAATGCGCTGTTTATCTTCTTTTGTCGCGCCAATAACCGATAAATTATTCGCTGC -GGCATAACGTACCGATACGTGGCCTTCATTATCAGGAAACGCATACTGAATACGGCGGGAAAGTTCGCCAGCCAG -GGCGTCAATAGCCCCAGCTGGCAATGGAGAAGTTTTCGCTATGGTGACTTCAATTCGCATAATAGCCCCCTGTTG -AATATACTGGTTATTTATACAGGTAAAATAACCTAATGACAACAGGAAGCTACGATTTTTATTGTTTAACGGACC -AGCGTACCGTTTCCCCGGCGAGGAATGGCACCAGCGTGTCATCAGTCAGTGCGATGCTTTCAGCAACCTGTTGCT -CTTCACGTACCAGTTCGATGAATGTGTCGTTGACCGGCAACCCATAGAACTGCGGGCCGTTTACAGAACAGAATG -CTTCAAAGTGCTGCAAAGCATTCATTTCTTCAAAGACGGTAGCGTAACTGCCCAGCGCGGTTGGGGCGTTGAAGC -AGCCCGCGCAGCCGCAACTGCTCTCTTTGCGATGACGTGCATGTGGCGCAGAATCCGTACCGAGGAATACTCGAT -TAAAACCGCTGGCGACCAGTTCACGCAATGCCTGTTGGTGAATATTACGTTTGAGGATGGGTAGACAATACAGGT -GCGGACGCACGCCTCCAACCAGCATATGGTTGCGGTTAAACATCAGATGCTGCGGAGTGATGGTGGCAGCCAGCC -GTTCATTTCCGTCACGGACATAGTCGGCAGCATCTTTGGTGGTGATGTGCTCAAAAACGACTTTCAGCGCAGTCA -GGCGCTGGCGCAGAGGTTCCATCACGCTTTCTATAAAGCGCGCTTCACGATCAAAAATGTCGATATCTGCATGTG -TCACTTCACCATGCACCAGTAGCGGCATACCGATTTTTTCCATGCGCTCAAGTACCGGCATGATTGCGTCAATTG -ACGTCACGCCGTGGCTGGAGTTAGTGGTTGCGTTTGCCGGGTAAAGTTTTGCAGCGGTGAACACGCCTTCGTTAA -ATCCGCGCTCCAGCTCATTAGGATCCAGCGAATCTGTTAAATAACAGGTCATCAATGGGGTGAAATCGTGCCCGG -CAGGTACGGCGTCAAGAATACGCTGGCGATACGCCACGGCAGCCTCAACGGTGGTCACGGGCGGAGCCAGATTGG -GCATTACGATAGCCCGTCCATAAATTTCGCTGGTATATGGCACGACAGTTTTTAACATGTCGCCATCGCGGAGGT -GAAGGTGCCAGTCGTCTGGGCGGCGGATCTTTAATACCTGGGATGGTGCAGTCATTAATCTCTATGCTCCGGCTG -AAGGGATGTTTTTGCCGGACACAAAGGATAAGCGGAAACGTTTTCCTTTGCACGAAAAATAAAGGGCGCGAATGC -GCCCTCGTGATTAATCAGTAAATGGAATGACAATTTCGCCTGGCTTCACTTCAATGCCTTTCGCCAGTTTTTTCG -CCATTGCTTCGCCCTGGCTGCCATCTTCGCGCAGGACGTAAGCAGGTTGCTGGTTAAAGTAATTGCGTAATGCCT -GGTTCAAATAGGGAAGCAACGTTTGCATCACCGTTTGCATTTTTTCCGGTTGTACCGTCGCATCGACCACTTCCA -TCTCTTTCAGGAAGATCGCACCTTTTTCTTTATCAAACACGGGCAGCGCTTTCAGCTTCAGTTTCATGGTCGCTT -TCTGACTACCGAACAGGGAGTTCATGTCCAGATTGGCGTCTCCGGTTAGGGTAACCTTATTCGGCTCTTCGCGAC -CAATTTGGCTGGTCAGGTTTGTCAGAACAATATGGGCGTCAGCCACGCCGGGTAAACCGATATCTTTTGAGAAAT -TATTATGTTTCGCAAGCGACTGGTTAATTTCTTGTTCGGTGATGGTGTATTGGGTGAGTTGATTACAGCCAACGA -GCAGGCCACTGACGATCAATGCAGCGGCAAATAAAAACTTGTTCATGGTAGTCCTCGACATGAAATCTGCGTCAA -TATCCTGACACAACGCAGCATGTGTCACCAGCGATAAACTCGCCAGCAGAAAAAACTGAAAACGGCGGCAACCCG -CGAATACAGGCTGCCGCGGCGGGTCAGGATTAAATCGCCATTGATGATAACAAATTGATTTGTGTCTGTTTCGCC -ATATTATCGCGGTAATCAGCAACGCGGCTTGGCCAGTTAATTCCGGCTACCAGCGTCAGATTACGCAGTAGCGGG -AATAGCTGAATATCATCTTCCGAAAGTTCGCCATTCACGGCGTTCGGTTTGACGATCAGTTTGTCCAGCGCACGT -AAATCATCGCTGATATTCTTAATCAGACCGTCAGAGTGGGCCAGCAGGTCGGCAAAATTACCCGCGCTGGCCTCT -TTCTTGTCGACGAAATATTTGCGCGCGGCGGGAGTAGAAAACTCATCAAATGCCGATTTGGCAAAACGCGGCAAC -AGCAGTTTGTTGGCGTAGCCATTGACCTTGCGCAGCCACTCTTCAATGGCAGGGGAACGTTTGCCGGTCAGTAAC -GGTTTGCCGTCGAGTTTATCGACATAGTGAACGATGTCCATGCTTTCTGGCATATAGCGGCTGTCATCTTTTTGC -AGAATGGGAACCTGTTTTTGACCGACCATCCGGGTGGGTGTTTCTGCGTCGTCGTTGAGCAGAACATGTAATTCG -ACGGGGATATTTTTCAGGCCGAAAATCATGCGGGCTTTGAGGCAGTAAGGGCAGTGATCGTAAATGTATAGCTTC -ACGTGACTCCTCCATTTGGCTGTCAGTTCACTTTCAGTATGAAGGAGTCAGGGGGGAGTATCAAATCAGGCGTCG -CGTTCAAGCAAACGACGCGCGGCGCGTTTCTGGCTAAACTGCCAACCCAGCGCAAGGAAAGTGAAGATGCCAATA -ATGCCCAGCATCATCCACGGAAGCTCTGGCTGGTGCGCCGATTTGCCCAGGTCAAACAGCCAGCCGCCACCGATA -TAACCAATAGCGCCGCCAATCGCCAGACCCAGACGGCTAAACCCCATATAGCTGCCGCGAGCTCTTGCGTCCGCC -AGCGAAGCACTTAAGGTTTCACGCGCAGGCTCGGCAATGATCGACCCGATATAAAACAGACAAATCAGGGTGAAA -AGTTGTTGCAGGCCGCTGACCATGCCCACCGGCATCATGCTTAATGACATTATCAACAGCCCAGCCATCAACCGG -TGTTCCAGACGAAAATGCTTTTCACTCCAGCGGGCGATAGGGTAGAGCAACGTTAACGACAGACACGCTTCAATG -GCATACATCCATTTAACGGCAGAGGGCGCGCCAGCCACGTCGTTGACCATAATTGGCAGCATCAGCATCACTTGT -ACAGCCAGCATGTAGTAACCCGCCAGCGTCAGAACATAGGTGACAAAACGCTTGTCACGCATCACGCGGGTCATG -CCTTCGCGAACGGGCGTGCGTACGGTGGAGAGTTTCCATGCTGGTAACAACCACGCATTGAACGCCGCACATAGC -ACAAATAGAACTGCCCCTGTGGCGCAGACCAGGCGAAAGTCGTATTGCAACAGCCAGCTCCCCAACAATGCGCCA -ATGACCGCACCGGCACTGTCCTGCATCATCAACAGCGAGAAAAAACGACCACGCTGCTGTGGACGGATTAATTTC -ACCACCAGCGCCGAACGCGGCGGATCAAACAACGTGCCACCGAGTCCCGAGAGCAGGCATGAAAACCACAATAGC -CACGGTTCGTGGGCGATACCCATTGTGGCGAATCCGGCGGCGCGCATCAGCATACCGGTAACAATCATCGGTTTG -GCACCAAAGCGGTCGGCAATTGCACCGCCGAAAATACCCAGACCTTGCTGAATAAATTGGCGTAGACCGAGAGCA -ATACCGACCATGACGGCGGCCCAGCCCATTTGATCAACGAAGCGGATAGAGATCAGCGGGAAGACAACAAAGAAC -CCCAGCACGACCAGCATATTATCGATGAGCAGGAAATATTTACCCAGGTTCCTCGCCTGCGACACGCGGGACATT -TCCCCTCCCGGGAAATAAAAGATGAGCACTTTCTATTCTGCATTGCCGCTAAGACTTTTCCCATCACTTCGGGGA -CAATATTTTTTTATCAAAACGTCGCTTTGATAGAGAGTTTTTATCAAATATGTGAATAATGCAGAAAATGGCATT -TTGGACTTTTCACAGGGTCTGGTTGCGCAGGTATAGTAATACTTACAGCGTATTAAAGACGTTACGGGAAGGAGT -AGGTATAGAATGTTTGGCTATCGCAGTAACGTGCCAAAAGTGCGCTTAACCACAGACCGACTGGTCGTGCGTCTG -GTGCATGATCGTGATGCCTGGCGTCTTGCGGATTATTACGCAGAGAATCGCCATTTCCTCAAGCCCTGGGAGCCA -GTGCGCGACGAAAGCCACTGTTATCCATCAGGCTGGCAGGCCAGGCTGGGGATGATTAACGAATTTCATAAACAA -GGTTCAGCTTTCTACTTTGGCTTATTCGACCCGGACGAAAAAGAGATTATTGGCGTTGCCAATTTTTCCAATGTT -GTTCGTGGCTCTTTTCATGCCTGCTATCTCGGTTATTCGATTGGGCAAAAATGGCAGGGCAAAGGACTCATGTTT -GAAGCCCTGACCGCAGCCATTCGTTATATGCAGCGCACCCAACATATTCATCGCATTATGGCTAATTATATGCCG -CACAATAAACGCAGCGGTGATTTACTGGCGCGACTGGGTTTTGAAAAAGAAGGCTATGCGAAAGACTATCTGTTG -ATTGATGGACAATGGCGCGATCACGTACTGACGGCATTAACTACCCCAGACTGGACGCCCGGCCGCTAAGGAGAA -TCTCATGAAATATCAACTTACTGCCCTTGAAGCTCGCGTGATTGGTTGCTTGCTGGAAAAGCAGGTGACCACGCC -GGAGCAATACCCGCTCTCAGTCAATGGTGTAGTCACGGCCTGTAATCAGAAAACGAACCGTGAACCGGTCATGAA -TCTGAGTGAATCCGAAGTGCAGGAACAGCTGGATAATCTGGTCAAACGTCATTATCTACGCACAGTGAGCGGTTT -TGGTAATCGGGTCACCAAATATGAGCAACGTTTTTGTAATTCAGAATTTGGCGATCTGAAACTGAGCGCAGCGGA -AGTGGCGTTAATCACCACGTTGTTATTGCGTGGTGCCCAGACGCCAGGTGAACTGCGCAGCCGCGCCGCGCGAAT -GTATGAATTCAGCGATATGGCGGAAGTGGAGTCGACGCTGGAACAACTGGCAAATCGCGAAGATGGTCCTTTTGT -GGTGCGTCTGGCCCGCGAACCGGGTAAACGCGAAAACCGCTACATGCATCTTTTCAGTGGTGAGGTTGAAGATCA -GCCGGCGGTGACGGATATGTCGAACGCGGTTGACGGTGATTTACAGGCCCGCGTCGAAGCCCTGGAAATCGAAGT -GGCAGAACTGAAACAGCGTCTTGATTCGTTGCTGGCCCATCTGGGAGATTAAAGTGAAAAAATTACGTATCGGCG -TAGTGGGATTAGGTGGCATTGCGCAAAAAGCGTGGTTACCGGTGCTGGCGGCAGCGTCTGACTGGACGTTACAAG -GAGCCTGGTCGCCTACGCGCGCGAAAGCCCTGCCAATTTGTGAAAGCTGGCGCATTCCTTATGCCGATTCGTTAT -CCAGCCTTGCCGCCAGTTGCGATGCGGTTTTTGTGCATTCCAGCACCGCCAGCCACTTTGACGTGGTCAGTACGT -TACTCAATGCGGGGGTACATGTCTGTGTCGATAAACCGCTGGCAGAAAATCTGCGCGATGCTGAACGGCTGGTGG -AACTGGCGGCGCGGAAAAAACTGACGTTGATGGTCGGTTTTAACCGTCGTTTCGCACCACTCTACGGTGAGTTAA -AAACGCAACTCGCCACCGCAGCCTCGCTAAGAATGGATAAACATCGTAGCAATAGCGTCGGGCCACACGATCTTT -ATTTCACGTTGCTGGATGATTATCTGCATGTGGTGGATACCGCGCTGTGGTTGTCGGGCGGCAAAGCCTCTCTGG -ATGGCGGTACGCTACTGACTAACGACGCTGGCGAAATGCTGTTTGCCGAGCACCATTTTTCGGCTGGTCCTTTGC -AGATCACCACCTGTATGCATCGCCGTGCCGGAAGTCAGCGTGAAACCGTGCAGGCCGTGACTGACGGTGCGCTCA -TCGACATTACGGATATGCGCGAATGGCGTGAGGAGCGCGGGCAGGGCGTAGTGCATAAACCGATTCCTGGTTGGC -AGAGTACGCTTGAGCAACGTGGGTTTGTCGGCTGTGCGCGGCACTTCATTGAATGTGTGCAAAACCAGACAGTTC -CGCAAACCGCCGGCGAACAGGCCGTGCTGGCGCAACGTATCGTTGACAAGATCTGGCGCGATGCGATGAGTGAAT -AAACCCTGTAACATCTGGCGGTAGCAATTCACCATAATCCAGGTAGACTATTCGCCTCTTTCAGCGCCTGCCTTG -CAGGCGTTTTGCCCGTGGGTCTGGATTAGAACACCGATGAATTTATTAAAATCGCTGGCCGCCGTCAGCTCGATG -ACCATGTTTTCGCGTGTGCTTGGCTTCGCACGAGACGCAATTGTCGCCAGAATCTTTGGCGCAGGGATGGCAACC -GACGCCTTTTTCGTCGCTTTTAAACTTCCTAACTTGTTACGCCGTATCTTTGCCGAAGGGGCATTTTCCCAGGCA -TTTGTACCGATTCTGGCGGAATATAAAAGTAAGCAGGGTGAAGACGCCACGCGGGTCTTTGTCTCTTATGTTTCT -GGCCTGCTGACACTTGCGCTGGCGGTTGTGACGGTCGCTGGCATGCTCGCCGCACCGTGGGTGATCATGGTGACC -GCGCCAGGCTTCGCTGACACAGCTGACAAATTTGCCCTGACCAGCCAGCTACTAAAGATTACCTTTCCCTATATC -TTGCTGATCTCCCTGGCGTCGCTGGTGGGAGCGATTCTGAATACGTGGAACCGCTTCTCGATTCCGGCGTTTGCT -CCAACACTGCTTAACATCAGCATGATTGGTTTCGCGCTGTTTGCCGCACCGTACTTTAACCCACCGGTGCTGGCG -CTGGCGTGGGCTGTTACGGTCGGCGGCGTCCTGCAGCTGGTGTATCAGCTACCGCACCTGAAGAAGATCGGCATG -CTGGTCCTGCCGCGCATTAACTTCCACGATGCCGGAGCAATGCGCGTGGTGAAACAGATGGGACCGGCGATCCTT -GGCGTCTCTGTGAGCCAGATCTCCTTAATCATCAACACCATTTTTGCCTCGTTTCTTGCTTCCGGTTCGGTGTCT -TGGATGTATTACGCCGACCGCTTAATGGAGTTTCCGTCCGGTGTGCTGGGCGTGGCGCTTGGCACCATTTTGCTG -CCGTCGCTGTCGAAAAGTTTTGCCAGTGGCAATCATGATGAATACAACCGTTTGATGGACTGGGGGTTGCGTCTT -TGTTTCCTGTTGGCGCTGCCGAGTGCGGTTGCGTTGGGCATTCTTTCCGGTCCGTTGACCGTTTCGCTGTTCCAG -TACGGTAAATTTACCGCGTTTGATGCGCTGATGACCCAGCGGGCGTTAATTGCCTACTCGGTGGGTTTGATTGGC -CTGATTGTAGTGAAAGTGTTGGCTCCTGGCTTTTATTCCCGCCAGGACATTAAAACGCCAGTGAAAATTGCCATC -GTTACGCTGATTTTAACGCAATTGATGAACCTGGCGTTTATTGGTCCGTTGAAACATGCCGGGCTGTCACTTTCT -ATTGGTCTGGCGGCGTGTCTGAATGCTTCGCTGCTTTACTGGCAGTTGCGTAAGCAGAAAATCTTTACCCCGCAA -CCCGGCTGGATGGCGTTTCTGTTGCGTCTGGTGGTGGCGGTACTGGTGATGTCTGGCGTGCTTTTAGGTATGTTA -CATATCATGCCGGAGTGGTCATTGGGTACCATGCCCTGGCGTTTACTGCGTTTAATGGCGGTCGTGCTGGCGGGG -ATTGCCGCGTACTTCGCTGCACTGGCGGTACTGGGCTTCAAAGTTAAAGAATTTGCCCGCCGGACGGTGTAACAA -TGCATTCCGGCCTGCAGTGCAGGCCGGAGATAATCTTCAGATCGAAATCTTTTTACCGCCGCGATGGGTTGTTGA -GGTCTGACCGTTCGCCCCATATAGCGTCGGTTCCTGATGCGGTTTCAACATTTCCAGCGCCTGTTGATTGCGCTC -AATCTGTCCTTCCAGTAACCAGCCGTTATGTTGATTCATTTGGCGTAGTTGCTGCGTTTTCACAGTAATTTCCTG -CCAGCGTTGACTAATATCAACGCTATTTGCTGTATTGGGTTCTTTCCTGCGTAACTGTTCGAGGTAATCCAGCGT -CGCCAGCAGTGAGCTTTTTTGTTCTGTAATCCATTGCAACTGGCTGCCGTTGATCTGCCCCATAGAGAGATGTTG -CTGCTCTTGATCCATTACCGTTTTGAGATCGTTAAGCACAGCGGACATCTGGTCGAGGATCTCTGCAAGACGTGT -CATACGATCAGTTACTCTGCAAGTCTTGCTGCGCTTCGTTGATCAGCGCATCGGCAATTTTGCCGGTGTCCATTT -TTAGTTCACCGTTACGAATCGCCAGTTTTAACGCTTCGACACGTTCAAGATTGATATCACTGCTGCCGGGTTGCA -TCAGTTTTGCTTGCGCGTCGCTTAACGTCACACTGGTGCTGGTGGAGGCGGTTGTTTTTGCCGCCCGGCTGTTCG -TTACCGGCGCGTCAGTGGTTTCGCGCGGTTGAACGGTGCTTACAGGCTTCAGAGGCGAAGTGCGATCAATACTCA -TGGTTTATTCCTCATTGAGGGCGCTTTTATCATGTGTTGCTTATTTATCGGCAAGGGACGGGTAATCTTTAACAG -CTTACAGGTTTATAAGAATATTCCCATCTGCATCAACAACGCCGCTGACTACCTGTCCCGATACCATGCGCACCC -GCGCATTCTGTGCGACGGCTGCATTGTTCAGCGCCTGACCTTCTGCGTTGGCGCTAAACCCATCACCGCTGGCGA -TCACATTGACGCGTTGTCCCGCTTTTACCCGCCATGCCTGGCGAAACTGGGTTAACTGGATAGGTTGATCGGGTG -ATAGATCGCGCAGGCTAATGGCATCAACAAGTTGATTGATATCCAGCACCGTACGCGGTGGCAGGGTATCCAGCC -GTCCGCGTTTCAGTTTGACATTGCCAGCTTCCAGCTTTCCTCCCCGCGCAATGGGCATCGCGGCAACCACATAAT -TTCCTGTGGCCTGTACATTAACCTGTAAATATCGTTTGTCGTTACCGCAGCGTGCCAACACATTCACATTGCCCC -ACAGGCGGGAATTATTGCTCATCGAAAGCAATGGCTGCTCGCATGGCGGTAGTAGATTGGGCGCTGTACGAATAG -AAACACGAACCTCATCACTTACCCCCGCGAGTTGGGCGCTAAAAAAGTTGTGCAATTGCGATGTGAGATTGCTCG -CCGTACTTAACGGACTGAACAGTATCGCGATGATCGCCACGCTACGTTTTATTATCAGCATTTTCGCCCCCAGCC -ATTTCTACAACGTGAATTGTACCTGTCCGCAATGACCATCAACGGCATAAATAGCGACCCATTTTGCGTTTATTC -CGCCGATAACGCGCGCGTAAAGGCATTTAAGCTGATGGCAGAATTTTGATACCTGCGGAGGAGATATGCTCGATA -AGCTCGACGCCGCCTTACGTTTTCAACAAGAGGCGCTCAATCTGCGCGCCCAGCGTCAGGAAGTGCTGGCAGCAA -ACATCGCCAATGCCGATACCCCTGGTTATCAGGCGCGCGATATCGATTTTGCCAGTGAACTTAAAAAAGTCATGC -AACGTGGACGGGATGCAACCAGTGTGGTTGCACTGACGATGACCTCAACGCAACACATTCCGGCGCAGGCGCTGA -CGCCTCCTACCGCAGAACTGCAATACCGTATTCCGGACCAGCCTTCGCTTGACGGTAATACCGTCGATATGGATC -GCGAACGCACCCAGTTTGCCGATAACAGCCTGCAATACCAGATGAGCCTTAGCGCGTTGAGCGGGCAAATCAAAG -GCATGATGAACGTTTTACAGAGCGGAAATTAACGGATGGCACTGCTGAATATTTTTGATATCGCCGGGTCGGCGT -TAACTGCCCAGTCCCAGCGCCTGAACGTGGCGGCCAGTAATCTGGCGAATGCTGATAGCGTGACCGGTCCCGATG -GACAGCCATATCGGGCAAAACAGGTGGTATTCCAGGTTAACGCTGCACCAGGTGCTGCGACAGGCGGCGTAAAGG -TTGCCGATGTTATAGAAAGTCAGGCCCCGGACAAACTGGTTTATGAACCGGGTAATCCGCTGGCAGATGCAAAGG -GCTACGTAAAAATGCCGAACGTTGATGTTGTCGGAGAGATGGTTAACACCATGTCGGCGTCACGCAGCTATCAGG -CCAATGTTGAAGTGCTCAACACGGTGAAAAGCATGATGCTGAAAACCCTTACGCTCGGTCAATAAAGGAGAAAGC -TATGTCCATTGCGGTAACCACCACCGATCCGACAAATACCGGCGTCAGTACCACCAGCAGTAGTTCGCTCACGGG -CAGCAACGCCGCAGATTTACAAAGCAGTTTTCTGACTTTGCTGGTGGCGCAGCTGAAAAACCAGGACCCGACCAA -TCCAATGGAAAACAACGAGCTGACGTCGCAATTGGCACAAATCAGCACGGTCAGCGGGATTGAAAAACTCAATAC -CACGCTCGGATCTATTTCCGGACAGATTGATAACAGCCAGTCGTTACAGGCCAGTAACCTGATCGGTCACGGCGT -GATGATCCCCGGCACCACTGTTCTTGCGGGAACCGGCAGTGAAGAAGGGGCTGTGACCACGACCACGCCGTTTGG -TGTTGAGCTGCAACAGGCGGCAGACAAAGTTACGGCCACCATCACCGATAAAAATGGCGCGGTTGTGCGCACCAT -TGATATTGGTGAACTGACCGCCGGAGTTCACAGTTTCACCTGGGACGGTACGTTGACTGATGGCAGCACTGCGCC -GAACGGTTCTTACAATGTAGCGATTAGCGCCAGTAACGGTGGTACACAACTGGTTGCCCAGCCGCTGCAGTTTGC -TCTGGTGCAGGGTGTGATCCGCGGCAACAGCGGTAATACGCTGGATCTCGGCACTTACGGCACCACCACCCTCGA -CGAAGTACGGCAGATAATTTAAGCCTTCACATTTCAGGAGTCAGTCATGGCCTTTTCTCAAGCGGTTAGCGGATT -AAACGCTGCCGCCACCAACCTCGATGTTATTGGCAACAATATCGCCAACTCCGCCACCTACGGCTTTAAATCAGG -CACGGCCTCTTTTGCCGATATGTTTGCCGGTTCGAAAGTGGGACTGGGGGTAAAAGTTGCCGGTATCACTCAGGA -CTTTACCGATGGCACGACCACCAACACCGGGCGAGGTCTGGACGTTGCTATCAGCCAGAACGGTTTTTTCCGTCT -GGTAGACAGCAACGGTTCGGTGTTCTACAGCCGTAACGGACAATTTAAGCTGGATGAAAACCGTAACCTGGTGAA -TATGCAAGGTTTACAGCTGACGGGTTACCCGGCAACCGGTACGCCGCCGACTATTCAGCAAGGGGCGAATCCGAC -CAATATTTCGATCCCGAATACCCTGATGGCAGCGAAAACTACCACCACGGCATCGATGCAGATCAACCTGAATTC -CAGTGATCCGCTTCCTACTGTTACGCCATTCAGCGCCAGCAATGCGGATAGCTATAACAAAAAAGGTTCGGTGAC -TGTTTTCGACAGTCAGGGTAATGCTCATGACATGAGCGTCTACTTTGTGAAGACCGGGGATAATAACTGGCAGGT -CTACACCCAGGATAGCAGTGATCCAAACAGCATTGCGAAGACAGCGACAACACTGGAATTTAATGCTAATGGCAC -ATTAGTGGATGGTGCGATGGCGAATAATATCGCAACCGGCGCAATTAACGGTGCAGAACCCGCCACGTTTAGTCT -GAGCTTCCTCAACTCCATGCAGCAAAATACCGGCGCTAACAATATTGTGGCAACCACCCAGAACGGCTACAAACC -GGGCGATCTGGTGAGTTATCAAATCAATGATGACGGTACGGTTGTCGGCAACTATTCCAACGAACAAACCCAACT -GCTGGGGCAGATTGTACTGGCGAACTTTGCCAACAACGAAGGTCTGGCATCCGAAGGCGACAACGTCTGGTCTGC -GACGCAATCTTCTGGCGTGGCGCTGTTGGGGACAGCCGGGACGGGAAACTTTGGCACCCTGACCAACGGTGCGCT -GGAAGCGTCCAACGTCGATCTCAGTAAAGAACTGGTCAATATGATCGTTGCCCAGCGTAACTATCAGTCTAACGC -CCAGACCATCAAAACCCAGGACCAGATCCTCAACACGCTGGTTAACTTACGCTAATCGCTGACGGGATAGCTCAA -TGGATCACGCAATTTATACCGCGATGGGAGCAGCCAGCCAGACACTGAATCAACAGGCGGTAACCGCCAGTAATC -TGGCCAATGCCTCAACGCCCGGTTTTCGCGCGCAGTTGAATGCTTTACGCGCGGTGCCAGTGGAAGGGCTTTCTC -TGCCCACGCGCACGTTGGTCACGGCGTCAACGCCGGGCGCAGATATGACGCCCGGCAAAATGGATTACACCTCGC -GCCCGCTGGACGTCGCGTTGCAGCAGGATGGCTGGCTGGCCGTGCAGACCGCTGACGGCAGCGAAGGGTATACGC -GTAATGGCAGCATTCAGGTTGATCCCACCGGGCAACTGACAATTCAGGGGCATCCGGTGATAGGCGAGGCTGGGC -CAATTGCTGTGCCGGAAGGGGCGGAAATCACTATTGCTGCCGATGGCACAATCTCGGCGCTCAATCCGGGCGATC -CGGCAAATACGGTTGCGCCAGTAGGGCGTCTTAAACTGGTGAAAGCCACGGGCAGCGAAGTGCAGCGCGGTGACG -ACGGCATTTTTCGTTTAAGCGCAGAAACCCAGGCCACGCGTGGGCCGGTACTGCAGGCAGATCCAACCTTGCGTG -TGATGTCGGGGGTTCTGGAAGGCAGTAACGTCAATGCCGTTGCGGCAATGAGCGACATGATTGCCAGCGCGCGGC -GTTTTGAAATGCAGATGAAGGTGATCAGCAGCGTCGATGATAACGCAGGCCGTGCCAACCAACTGCTGTCGATGA -GTTAATTGAAAGGATACATGACAAGTATAAGTTGCCCGATGCGCAAGTTTATCGGGTCTATGGGGGCAATCGCAA -TTTATCGATTTTGCGAGCACTTGTAGGCCGGATAAGGCGTTTACGCCGCATCCGGCAAGAAGACATATGCACTTT -GTCACTAATCCACTACAGGACATTTTATGATCAGTTCATTATGGATCGCCAAAACGGGCCTTGACGCCCAGCAAA -CCAATATGGACGTCATTGCCAACAACCTGGCAAACGTCAGTACTAACGGTTTTAAGCGTCAGCGCGCGGTGTTTG -AAGATCTGCTTTATCAAACCATTCGCCAGCCGGGGGCACAGTCTTCCGAACAAACCACCTTACCCTCCGGATTAC -AAATCGGCACGGGGGTACGCCCGGTCGCCACTGAACGCTTACACAGCCAGGGAAACCTGTCGCAGACCAACAACA -GCAAAGATGTCGCGATTAAAGGGCAGGGCTTTTTCCAGGTGATGTTGCCAGATGGTTCATCAGCCTATACCCGTG -ACGGCTCTTTCCAGGTGGATCAGAACGGGCAGCTGGTGACGGCTGGTGGTTTTCAGGTGCAGCCAGCGATCACCA -TTCCGGCGAATGCGTTAAGTATCACCATCGGTCGTGATGGCGTGGTCAGCGTAACCCAACAAGGCCAGGCAGCTC -CGGTTCAGGTTGGGCAGCTCAATCTCACCACCTTTATGAATGACACCGGGCTGGAGAGCATTGGCGAAAACCTCT -ACACCGAAACGCAATCCTCTGGTGCACCGAACGAAAGCACGCCGGGCCTGAACGGCGCGGGACTGCTGTATCAAG -GGTATGTTGAAACGTCTAACGTCAACGTGGCGGAAGAACTGGTCAATATGATTCAGGTGCAACGCGCTTACGAAA -TCAACAGTAAAGCGGTGTCCACCACCGATCAGATGCTGCAAAAACTGACGCAACTCTAAGGCTTAACCGGTGGCA -GGTTCACCGGTTTACTGATTTTTGAAGATGATAGCCATGCAAAAAAACGCTGCGCATACTTATGCCATTTCCAGC -TTGTTGGTGCTTTCACTAACCGGCTGCGCCTGGATACCCTCCACGCCGCTGGTGCAGGGGGCGACCAGTGCACAA -CCGGTTCCCGGTCCGACGCCCGTCGCCAACGGTTCTATTTTCCAGTCTGCTCAGCCGATTAACTATGGCTATCAA -CCGCTGTTTGAAGATCGTCGACCACGCAATATTGGCGATACGCTGACCATCGTGTTGCAGGAGAACGTCAGCGCC -AGCAAAAGCTCCTCTGCGAATGCCAGCCGTGACGGTAAAACTAATTTTGGCTTTGATACTGTGCCGCGCTATTTG -CAGGGGCTGTTTGGTAACGCTCGTGCCGATGTCGAAGCCTCCGGTGGTAACACGTTCAACGGAAAGGGCGGGGCC -AATGCCAGCAATACCTTTAGCGGCACGTTGACGGTGACGGTTGACCAGGTACTGGTCAACGGCAACCTGCATGTG -GTGGGTGAAAAACAGATTGCCATTAATCAGGGTACCGAATTTATTCGCTTCTCTGGCGTGGTTAATCCACGCACT -ATCAGCGGCAGCAATACCGTACCGTCTACTCAGGTGGCGGATGCGCGCATTGAATACGTAGGCAATGGCTACATT -AACGAAGCGCAAAATATGGGCTGGTTGCAGCGTTTCTTCCTTAACCTGTCGCCAATGTAAGTGAGGCTGTGGTGA -TTAAATTTCTCTCTGCATTAATTCTTCTACTGGTCACGACGGCGGCTCAGGCTGAGCGTATTCGCGATCTCACCA -GTGTTCAGGGGGTAAGGCAAAACTCACTGATTGGCTATGGTCTGGTGGTGGGGCTGGATGGCACCGGTGACCAGA -CAACCCAGACGCCGTTTACCACACAAACGCTTAATAACATGCTCTCACAGCTGGGAATTACCGTTCCGACGGGCA -CCAATATGCAGCTAAAAAACGTCGCTGCGGTAATGGTGACAGCGTCACTTCCTCCGTTTGGACGTCAGGGGCAAA -CCATCGATGTGGTGGTTTCTTCCATGGGAAATGCCAAAAGCTTGCGTGGAGGTACGTTGTTGATGACACCGCTTA -AGGGCGTTGACAGTCAGGTGTATGCGCTGGCGCAGGGCAATATTCTGGTTGGCGGCGCAGGAGCCTCCGCTGGCG -GTAGCAGTGTTCAGGTTAACCAACTGAACGGTGGACGGATCACCAATGGTGCGGTTATTGAACGTGAATTGCCCA -GCCAGTTTGGCGTCGGGAATACCCTTAATTTGCAACTTAACGACGAAGATTTCAGCATGGCGCAGCAAATCGCTG -ACACCATCAACCGCGTGCGTGGATATGGCAGCGCCACCGCGTTAGATGCGCGGACTATTCAGGTGCGCGTACCGA -GTGGCAACAGTTCCCAGGTCCGCTTCCTTGCCGATATTCAGAATATGCAGGTTAATGTCACCCCGCAGGACGCTA -AAGTAGTGATTAACTCGCGCACCGGTTCGGTGGTGATGAATCGCGAAGTGACCCTCGACAGCTGCGCGGTAGCGC -AGGGGAATCTCTCAGTAACAGTTAATCGTCAGGCCAATGTCAGCCAGCCAGATACACCGTTTGGTGGTGGACAGA -CTGTGGTTACTCCACAAACGCAGATCGATTTACGCCAGAGCGGCGGTTCGCTGCAAAGCGTACGTTCCAGCGCCA -GCCTCAATAACGTGGTGCGCGCGCTCAATGCGCTGGGCGCTACGCCGATGGATCTGATGTCCATACTGCAATCAA -TGCAAAGTGCGGGATGTCTGCGGGCAAAACTGGAAATCATCTGATGATCAGCGACAGCAAACTACTGGCAAGTGC -GGCCTGGGATGCGCAATCACTCAACGAACTAAAGGCGAAAGCGGGCGAAGATCCGGCGGCAAATATCCGTCCGGT -GGCCCGTCAGGTGGAAGGGATGTTCGTGCAGATGATGTTGAAAAGCATGCGCGACGCTTTACCAAAAGATGGCCT -GTTCAGCAGCGAGCACACTCGCCTGTATACCAGTATGTATGACCAGCAGATTGCCCAACAGATGACGGCGGGCAA -AGGTCTGGGGCTTGCAGAGATGATGGTTAAACAGATGACGCCAGAACAACCATTGCCAGAGGAGTCCACGCCAGC -AGCACCGATGAAATTCCCGCTCGAAACTGTGGTGCGTTATCAAAATCAGGCGCTTTCGCAGCTGGTGCAAAAGGC -CGTGCCACGTAACTACGATGATTCGCTGCCGGGTGACAGTAAAGCATTCCTCGCGCAACTCTCGCTGCCCGCCCA -ACTGGCAAGCCAGCAAAGCGGTGTGCCACATCATTTGATCCTCGCTCAGGCGGCACTGGAATCTGGTTGGGGGCA -ACGGCAAATCCGCCGCGAAAACGGCGAGCCGAGCTATAACCTGTTTGGTGTCAAAGCCTCTGGCAACTGGAAAGG -GCCAGTTACTGAAATCACCACGACTGAATATGAAAACGGCGAAGCGAAGAAAGTAAAAGCGAAGTTTCGCGTCTA -CAGCTCGTATCTGGAAGCCTTGTCGGATTACGTTGGGCTGTTAACGCGTAACCCGCGCTACGCCGCCGTGACGAC -CGCCGCGAGTGCGGAACAGGGGGCGCAGGCCCTACAGGACGCGGGCTATGCCACCGATCCTCACTATGCCCGCAA -ACTCACCAACATGATTCAGCAGATGAAATCGATAAGCGACAAGGTGAGCAAAACCTACAGTATGAACATTGATAA -TCTGTTCTGAATAACTCAAGTCCGGCGGGTCGCTGCCGATAATACTCTGTAATTGAAGGCTTATAAGGAACCTCC -ATGTCCAGCTTGATTAATAACGCCATGAGCGGACTGAACGCGGCCCAGGCGGCGTTAAATACGGCAAGTAATAAT -ATCTCCAGCTATAACGTTGCCGGATATACCCGCCAAACCACTATTATGGCGCAGGCCAATAGCACGTTGGGCGCT -GGCGGCTGGGTTGGCAATGGTGTCTACGTTTCTGGTGTGCAGCGTGAGTATGATGCGTTTATTACCAACCAGTTA -CGTGCGGCGCAGACGCAAAGTAGCGGTCTGACTGCCCGCTATGAGCAGATGTCGAAAATCGACAATATGCTCTCC -ACCAGTACCTCTTCGCTGGCAACACAGATGCAGGATTTCTTCACCAGCCTGCAAACGCTGGTGAGTAACGCGGAA -GACCCGGCAGCGCGCCAGGCGCTGATTGGGAAATCAGAAGGATTGGTGAATCAGTTTAAAACCACCGATCAATAT -CTGCGCGACCAGGACAAACAGGTCAATATCGCGATAGGTGCCAGCGTTGATCAGATCAACAACTACGCTAAACAA -ATTGCCAGCCTGAACGATCAAATCTCGCGCCTGACAGGCGTGGGGGCAGGGGCGTCACCTAACAATCTGCTGGAT -CAACGCGATCAACTGGTGAGCGAATTAAACCAGATTGTTGGTGTAGAAGTCAGCGTTCAGGATGGCGGCACTTAT -AACATCACGATGGCCAATGGTTACTCACTGGTTCAGGGAAGTACGGCGCGGCAACTGGCGGCAGTTCCTTCCAGC -GCTGACCCTTCTCGTACGACTGTCGCTTATGTTGATGGGACGGCAGGCAATATTGAGATCCCGGAGAAATTACTG -AATACCGGGTCGCTGGGCGGCATTCTGACATTCCGTTCTCAGGATCTGGACCAGACGCGTAATACGCTTGGACAA -CTGGCGCTGGCATTTGCCGAGGCTTTCAACACCCAACACAAAGCCGGATTTGATGCTAACGGCGATGCCGGTGAA -GATTTCTTTGCTATCGGTAAGCCCGCGGTTCTGCAAAACACGAAAAACAAAGGTGACGTTGCGATCGGTGCCACG -GTAACTGATGCCTCCGCGGTACTGGCGACAGATTACAAAATCTCGTTCGATAATAATCAGTGGCAGGTCACCCGC -CTTGCCAGCAATACCACTTTTACGGTGACGCCGGATGCCAACGGTAAAGTGGCATTTGATGGTCTGGAGTTGACG -TTTACAGGAACGCCTGCCGTTAACGACAGCTTCACGCTGAAACCAGTAAGTGACGCCATCGTCAACATGGATGTA -TTAATCACCGACGAAGCGAAAATAGCGATGGCGAGCGAAGAAGATGCGGGTGATAGCGATAACCGCAACGGTCAG -GCCCTGCTGGATCTGCAAAGCAACAGTAAAACGGTGGGCGGTGCGAAATCCTTTAACGACGCTTATGCCTCGTTA -GTGAGTGATATCGGTAATAAAACCGCGACGTTGAAAACCAGTAGCGCCACGCAAGGTAATGTGGTGACGCAGCTT -TCCAATCAGCAGCAGTCGATTTCCGGTGTCAATCTCGATGAGGAGTACGGAAATCTGCAACGTTTTCAGCAGTAT -TACCTGGCGAATGCGCAGGTTCTGCAGACGGCAAACGCGATTTTTGATGCGCTGATTAACATTCGCTAAGGGGAG -ATAAGATGCGTTTCAGTACACAGATGATGTACCAGCAAAACATGCGTGGTATCACCAATTCTCAGGCAGAATGGA -TGAAGTACGGCGAACAGATGTCGACGGGTAAGCGAGTCGTTAACCCTTCTGACGATCCCATTGCTGCATCACAAG -CCGTAGTTCTCTCCCAGGCACAGGCGCAAAACAGCCAGTACACGCTGGCGCGTACTTTCGCCACTCAAAAAGTGT -CACTGGAAGAGAGTGTACTTAGCCAGGTCACCACTGCTATCCAGAATGCTCAGGAAAAAATTGTCTACGCCAGCA -ATGGCACCTTGAGTGACGATGACCGGGCCTCGCTGGCTACGGATATTCAGGGGCTTCGTGACCAGTTGCTGAATC -TGGCAAACACCACTGACGGTAACGGGCGCTACATTTTTGCCGGTTATAAAACAGAGACTGCGCCGTTTAGCGAAG -AGAAAGGGAAATACGTCGGTGGAGCAGAAAGTATTAAACAACAGGTCGATGCTTCGCGTTCGATGGTGATAGGGC -ACACGGGTGACAAAATTTTCGACAGTATTACCAGCAACGCGGTAGCGGAACCAGACGGTAGCGCTTCTGAAACCA -ATCTTTTTGCCATGCTGGATAGTGCCATCGCAGCCCTGAAAACGCCGGTCGCGGATAGCGAAGCGGATAAAGAAA -CCGCCGCTGCGGCGTTAGATAAAACCAACCGCGGACTGAAAAACTCGCTGAACAATGTGCTGACTGTTCGCGCGG -AATTAGGCACGCAGCTGAACGAACTGGAGTCGCTGGATTCATTAGGTAGCGATCGCGCTTTAGGGCAAACGCAGC -AGATGAGCGATCTGGTTGATGTGGACTGGAATGCAACTATTTCATCTTACATCATGCAGCAAACGGCATTGCAGG -CATCGTATAAAGCATTTACCGATATGCAGGGATTGTCGCTCTTCCAGCTCAGCAAATAATTTCGCTTTAAAACAT -ATCATGAAACTGGGTATGTTTTGTCTGCCTGCTCTGGGATCGCTGGGGCGGGCATTTTTTTGCCTATTTTGCATT -GTTGGTTAGCAAGGATGCCATTCGATGAATTTTAATATGTTGATTCAAAGATGAAATAAAAAAGCCCTGGCAGTT -ACCAGGGCTTGATTACTTTGAGCTAATTATTACTCAACAGGTTGCGGACGCGCAGGAGCGGCAGAGGCATGATGT -GTTGCCGTATGACCACCTGCGGCACCTTTACCTTCGAAGGCAAAAGTAGGGCGCTGCCAGTCACTGTGACGCGGT -GCCTCCGGAACATATTCCGGTGCTGGAGCGCGCGTCATTGGCGCGGTAGCGTGGTTATGCTCAACGGTGACCTCA -GGTTCGACCGCAGCTACCGTTTCAACTTCTGCTGCGACTTCAGCGACTACTGGCGCGGCAGGTTGAGCAACAACT -TCAGGTTCAGCAACTACAACCTCAGCAGTTTCGACAACTTCTTCAATATCTGCCGTCTCTTCCTGCGGTTCAACC -ACCGGTTCTGCTTGTTCTGCAACTTCCTGGGCTACGGCAACATCAGACTCGGTAATCACCTGCGGCTGTTCAGTT -ACCGCGGCAGCGATCACTTCAGGATGCGTCGTTTCAACCACTTCCGGTTGCGGTTCGGCAACCTGAACGGGGGCT -TCTACGACACCGGCCACTTCTTCAACAACTGGCGCGCTAACAACCGGTTCGATAGCGGCGGCGACAGGGACCTCA -GTCACCATCGGCTGCACATGTACTTCTTCCTGTTCGCGCTGCTCTTCAACCTGTACATCTTGCGGACGTACAATT -GGATAGCGGATCCAGACTTTGCCAGAGGCCAGTTCCGGAGACGCGCACGCTACGGTCAACGGCATTGGCGACTGG -GTTGGATAACGCTCGTCACGATAGCGACGACGACGCTGACCACTTACGCGCAGGTGACGAGGCGAGCGGCGAGAA -CGACGCGGCATGCCACCGTTGTCACGGTTATCAGCATTGTTCTCTTCTTGCTGTTCTGGTGCAGTTTGCGCTACG -ACTGGCAGCGGGACTTTCACCAGTTCTGTGCGTGGAGCTGGCGCTTCCTGAACAATTGGTTCGGCAGCGACAGTT -TCTTCAACCACCGGTGCGACTACCGCTTCTTCGGCTACGCTTTGCTCGTAACGCACTTTCTGATTGAGCTGACGC -TGTTTACGACGCGGCTGAACCGGACGTACACGTTCTTCCTGTTCGGTTTCCTGAACAGATTGCTCTTCAACATTC -AGCGCCTTCGCTTCTTGTTGCGCCTGACGTTTATCATCATTACGGCGGCGGCTACGTTCACGACGCGGCGCTTGC -TGCTCGTCGGCGGTACGCGCTTTTTCCGTTACCTCAGCCTGCTGACGGCTCTCACGCGTCTCGGCAGTCTGCTGC -TGTGCCTGGCGACGATTACGACGGTTTTCTTCGCGATTATCGCTGCCTTCAGTACGTTCACTACGGGTGTCGCGG -CGCTCATTACGGTCACGGCGGTTGTTCTGACGAGGCTTGCGACGATCCTGTTGACGTTCCGGTTTCGCTTCTGCT -TTCGGTGCTGGTTGCTCGGTCGGTTTGGTTTCTTCACCACCGCTGAACAGCGCTTTCAGTGCGCCGAAGAAGCGG -CTCAACAGCCCAGGTTGTGCAGGAGCTGCTGGTGTTGCCGGTGCAGCTTTCGGTGCTGGAGCTACAACAGGCGCG -GCAGGTTCAGCTGGCGTTGGCGCAGGCGGCACATCCGGCATGGCAAAGGTTGCCAGCGCAGGTTGTTCCGGACGC -TTACGTTCAGCGAACTCTTCTTCAGACGGCAGCGCCATCGCTTCTTCATGCAGCTTCGGCAGCATGTAGCTTAAG -GTTGGGGTTTCTTCCCCTTTACGCACGCGCAGCACGTGGTAGTGCGGGGTTTCCATCTGATCGTTTGGCACAATT -ACACAGCGCACACCGTCCTGACGAGTTTCAATGGCATTTACCGCAGAACGTTTTTCATTCAGCAGGTAAGAAGCG -ATTGGCACAGGAACAATGGCGTGAACTTCCTGGGTGTTCTCTTTCAGCGCTTCTTCTTCGATCAGACGCAGAATA -GAGAGCGACAGCGATTCGTTGTCACGCACGGTGCCAGTACCAGAACAACGCGGACAAACGTGATGACTGGATTCA -CCCAGTGATGGGCTCAGGCGCTGACGGGACATTTCCAGCAGGCCAAAGCGAGAAATATGGCTGATTTGAATACGC -GCACGGTCCTGACGCACCGCTTCACGCAGACGGTTTTCTACCGCACGCTGGTGGCGTACTGGCGTCATGTCGATG -AAGTCGATAACAATCAGGCCGCCGAGGTCACGCAGGCGCAGCTGACGAGCAATCTCATCGGCAGCTTCGAGGTTA -GTGTTAAACGCGGTTTCTTCGATATCGCCGCCGCGGGTCGCGCGTGCGGAGTTGATGTCGATGGCCGTTAACGCT -TCGGTGCTGTCGATAACAATGGAACCACCAGACGGCAGACGAACTTCACGCTGGAAGGCGGACTCGATCTGTGAC -TCGATCTGGTAGTGGCTGAACAGCGGGATCTCGCCGGTGTACAGTTTGATTTTGCTGCTGAAATCCGGGCGACCT -AATGCAGCGATATGCTGACGTGCCAGTTCGAGCACTTTCGGGTTATCGATAAGGATTTCGCCGATGTCCTGACGT -AAGTAATCGCGGAATGCGCGAACGATTACGTTGCTCTCCTGATGAATCAGGAACGGGGCCGGGCGGCTTTCAGCG -GCTTTTTTGATGGCTTCCCAGTGTTTCAGACGGAAGCTTAAATCCCATTGCAGCGCCTCAGCAGATTTGCCGACG -CCAGCGGTGCGCACGATAAGCCCCATGCCTTCCGGCAGTTCAAGGCTTGCCAGTGCTTCTTTTAATTCGGTACGG -TCGTCGCCTTCGATACGGCGAGAAATGCCACCCGCGCGCGGGTTGTTCGGCATCAGAACCAGATAGCTACCCGCC -AGACTGATAAAGGTGGTTAATGCCGCGCCTTTGTTGCCGCGCTCTTCTTTATCGATCTGAACAATGACTTCCTGA -CCTTCACGCAACACATCTTTAATGTTGGGACGACCATGAGCACTGTAGTTAGCAGGGAAATATTCGCGGGCAATT -TCTTTTAGTGGGAGGAAACCGTGACGTTCAGCGCCGTAATCAACAAAAGCAGCTTCCAGACTCGGTTCAATGCGG -GTGATTTTACCTTTGTAGATGTTTGCCTTTTTCTGCTCGTGCCCTGGACTTTCGATATCCAGGTCATACAGACGC -TGCCCATCTACAAGGGCAACGCGCAACTCTTCCTGCTGAGTTGCGTTGATTAACATTCTTTTCATCGTAACTTAC -TCATTATTCTTACATTGACGACTAAGCTGCGGGCAAAGTAACGCCTTTCCGGGTGTGAACCGATGGCCTCGTGTC -TAGTCGCGTCGCCAACCTCACGGTTATCGTCAGCTCAAAGAGGCGCAGAGTGTCGGTTGCCCGTTTTTCATGCGG -AAAAACAGCGCAATTATCAAAGAAACAGACTGGGTATTACTCTCCAGAAATATTTCCATCTACCGGTAAGGACTG -CAACCCGCAGCCCGCTAACTGCCTGAAAGATCAATACGTCTTACGCCATTGCTGCGTGGATGATCGGTCGGGCAA -AATGGGTTATTCCGTAAAATTTCTTGTTTTAACAAGGATGGACACGGAAACGGCCTCATTATTCCACTGCAAGCC -TTGTTATAGCAAGATGACTTTTACCATTTATCACCCGCTTACTCACAGTTTTTTCACTTCTTGCTGGTGATTGGT -TTAATAACCATCAATAAAGTGATCACGCAGTGAAGTAATAAGGTGCAAAAGTAAATATAAGCATAGAAAAATGAG -TGGCGCGAATCCTGTTGGCTAATTAGAATCGCCAACCATGAAAACAGAGACTCCATCCGTAAAAATTGTTGCTAT -CACCGCTGACGAAGCGGGGCAACGTATCGATAACTTTTTGCGTACCCAATTGAAAGGCGTACCAAAAAGTATGAT -TTACCGTATTTTGCGTAAAGGCGAAGTGCGGGTGAACAAAAAACGTATTAAGCCTGAATATAAACTCGAAGCGGG -TGATGAGGTGCGTATTCCACCGGTTCGCGTTGCTGAGCGGGAAGAAGAGGCGGTTTCGCCACATCTGCAAAAGGT -GGCGGCGCTGGCGGACGTCATCTTATATGAAGATGATCACATCCTGGTGCTGAATAAACCTTCCGGTACGGCGGT -ACATGGCGGCAGTGGTTTAAGCTTCGGCGTTATTGAAGGTTTGCGGGCGTTGCGCCCGGAAGCGCGGTTCCTTGA -ACTGGTTCATCGTCTTGACCGGGACACCTCAGGTGTTTTGCTGGTAGCGAAAAAACGCTCGGCGTTGCGTTCTCT -GCATGAGCAATTACGTGAAAAAGGGATGCAAAAAGATTACCTGGCGCTGGTGCGCGGTCAGTGGCAGTCGCATGT -GAAGAGCGTTCAAGCACCGTTACTGAAAAATATTCTGCAAAGCGGCGAACGTATCGTGCGTGTGAGTCAGGAAGG -CAAACCGTCGGAAACACGCTTTAAAGTGGAAGAACGCTATGCATTTGCCACCCTGGTGCGTTGTAGCCCGGTAAC -AGGGCGTACTCACCAGATCCGTGTGCATACACAATATGCGGGTCATCCGATTGCCTTTGACGATCGCTACGGTGA -CCGTGAATTTGACAGGCAGCTCACTGAAGCAGGCACGGGATTAAATCGCCTGTTCCTGCACGCTGCAGCGTTGAA -GTTTACTCATCCGGGGACCGGTGAGGTGATGCGTATCGAAGCTCCGATGGATGAAGGTTTGAAGCGTTGTTTGCA -AAAGCTGCGTAACGCGCGCTAATACAAGCATATAAACCTGATAATGGGCGGTTGGCCTGATAAGGCGTTTACGCC -GCATCAGGCCGCCAGCACCGATTGCCGGATGCGACGTAACCACATCCGGCGCAAAAAACTATCCCATCAGCGGGT -TTTTCCCTTCCCGACGTAACATCTGACACAGCGCGATTAGCGGTAAACCAACCAGCGTGTTAGGATCACGCCCCT -CTAAACGCTCAAACAGCGTAATGCCAAATCCTTCACTCTTAAAGCTACCCGCGCAGTGCAGGGGATGCTCTTTAC -GCACGTAATTATCAATCTCCGCCTCGCTCAGGTGACGGAAATGGACGTCAAAAGGCTCCACTTCTGTTTGCAGAT -GCCCATTCGCCGAATTAAACAACGCCAGTCCAGTATAGAAGGTGACGATATTGCCGCTGGCTTTGCGTAATTGCA -GACGGGCATTTTCTTCCGTTAACGGTTTACCGGTGATTTCGCCATCAAGAACACATACCTGGTCTGAACCAATAA -TTAAATGATCCGGATAACGTGACGCCAGAGATTGCGCTTTTTCTTGTGCCAGTCGAAGCACCAACTGTCGCGGTG -ATTCGTCGCTGCGTGGGGTTTCGTCGACCTCTGGTGCTGCACATTCAAAAGAGATTTGCAGTTTTTCCAGAAGAG -CGCGACGCCATGGCGAGGTGGAGGCTAAAATAAGTTTAGGCATATTTTTTTCCATCAGATATAGCGTATTGATGA -TAGCCATTTTAAACTATGCGCTTCGTTTTGCAGGTTGATGTTTGTTATCAGCACTGAACGAAAATAAAGCAGTAA -CCCGCAATGTGTGCGAATTATTGGCAAAAGGCAACCACAGGCTGCCTTTTTCTTTGACTCTATGACGTTACAAAG -TTAATATGCGCGCCCTATGCAAAAGGTAAAATTACCCCTGACTCTCGATCCGGTTCGTACGGCTCAAAAACGCCT -TGATTACCAGGGTATCTATACCCCTGATCAGGTTGAGCGCGTCGCCGAATCCGTAGTCAGTGTGGACAGTGATGT -GGAATGCTCCATGTCGTTCGCTATCGATAACCAACGTCTCGCAGTGTTAAACGGCGATGCGAAGGTGACGGTAAC -GCTCGAGTGTCAGCGTTGCGGGAAGCCGTTTACTCATCAGGTCTACACAACGTATTGTTTTAGTCCTGTGCGTTC -AGACGAACAGGCTGAAGCACTGCCGGAAGCGTATGAACCGATTGAGGTTAACGAATTCGGTGAAATCGATCTGCT -TGCAATGGTTGAAGATGAAATCATCCTCGCCTTGCCGGTAGTTCCGGTGCATGATTCTGAACACTGTGAAGTGTC -CGAAGCGGACATGGTCTTTGGTGAACTGCCTGAAGAAGCGCAAAAGCCAAACCCATTTGCCGTATTAGCCAGCTT -AAAGCGTAAGTAATTGGTGCTCCCCGTTGGATCGGGGATAAACCGTAATTGAGGAGTAAGGTCCATGGCCGTACA -ACAGAATAAACCAACCCGTTCCAAACGTGGCATGCGTCGTTCCCATGACGCGCTGACCGCAGTCACCAGCCTGTC -TGTAGACAAAACTTCTGGTGAAAAACACCTGCGTCACCACATCACTGCCGACGGTTACTACCGCGGCCGCAAGGT -CATCGCTAAGTAATCACGCATCTGCGTGATGAAGCTTAGTGAGGATTTTCCCCAGGCAACTGGGGAAAGACCAAA -CCGGGCGGCGACGATACCTTGACACGTCTAACCCTGGCGTTAGATGTCATGGGAGGGGATTTTGGCCCTTCCGTG -ACAGTGCCTGCAGCATTGCAGGCACTGAATTCTAATTCGCAACTCACTCTTCTTTTAGTCGGCAATTCCGACGCC -ATCACGCCATTACTTGCTAAAGCTGACTTTGAACAACGTTCGCGTCTGCAGATTATTCCTGCGCAGTCAGTTATC -GCCAGTGATGCCCGGCCTTCGCAAGCTATCCGCGCCAGTCGTGGGAGTTCAATGCGCGTGGCCCTGGAGCTGGTG -AAAGAAGGTCGAGCGCAAGCCTGTGTCAGTGCCGGTAATACCGGGGCGCTGATGGGGCTGGCAAAATTATTACTC -AAGCCCCTGGAGGGGATTGAGCGTCCGGCGCTGGTGACGGTATTACCACATCAGCAAAAGGGCAAAACGGTGGTC -CTTGACTTAGGGGCCAACGTCGATTGTGACAGCACAATGCTGGTGCAATTTGCCATTATGGGCTCAGTTCTGGCT -GAAGAGGTGGTGGAAATTCCCAATCCTCGCGTGGCGTTGCTCAATATTGGTGAAGAAGAAGTAAAGGGTCTCGAC -AGTATTCGGGATGCCTCAGCGGTGCTTAAAACAATCCCTTCTATCAATTATATCGGCTATCTTGAAGCCAATGAG -TTGTTAACTGGCAAGACAGATGTGCTGGTTTGTGACGGCTTTACAGGAAATGTCACATTAAAGACGATGGAAGGT -GTTGTCAGGATGTTCCTTTCTCTGCTGAAATCTCAGGGTGAAGGGAAAAAACGGTCGTGGTGGCTACTGTTATTA -AAGCGTTGGCTACAAAAGAGCCTGACGAGGCGATTCAGTCACCTCAACCCCGACCAGTATAACGGCGCCTGTCTG -TTAGGATTGCGCGGCACGGTGATAAAAAGTCATGGTGCAGCCAATCAGCGAGCTTTTGCGGTCGCGATTGAACAG -GCAGTGCAGGCGGTGCAGCGACAAGTTCCTCAGCGAATTGCCGCTCGCCTGGAATCTGTATACCCAGCTGGTTTT -GAGCTGCTGGACGGTGGCAAAAGCGGAACTCTGCGGTAGCAGGACGCTGCCAGCGAACTCGCAGTTTGCAAGTGA -CGGTATATAACCGAAAAGTGACTGAGCGTACATGTATACGAAGATTATTGGTACTGGCAGCTATCTGCCCGAACA -AGTGCGGACAAACGCCGATTTGGAAAAAATGGTGGACACCTCTGACGAGTGGATTGTCACTCGTACCGGTATCCG -CGAACGCCACATTGCCGCGCCAAACGAAACCGTTTCAACCATGGGCTTTGAAGCGGCGACACGCGCAATTGAGAT -GGCGGGCATTGAGAAAGACCAGATTGGCCTGATCGTTGTGGCAACGACTTCTGCTACGCACGCTTTCCCGAGCGC -AGCTTGTCAGATTCAAAGCATGTTGGGCATTAAAGGTTGCCCGGCATTTGACGTTGCAGCAGCCTGCGCAGGTTT -CACCTATGCATTAAGCGTAGCCGATCAATACGTGAAATCTGGGGCGGTGAAGTATGCTCTGGTCGTCGGTTCCGA -TGTACTGGCGCGCACCTGCGATCCAACCGATCGTGGGACTATTATTATTTTTGGCGATGGCGCGGGCGCTGCGGT -GCTGGCTGCCTCTGAAGAGCCGGGAATCATTTCCACCCATCTGCATGCCGACGGTAGTTATGGTGAATTGCTGAC -GCTGCCAAACGCCGACCGCGTGAATCCAGAGAATTCAATTCATCTGACGATGGCGGGCAACGAAGTCTTCAAGGT -TGCGGTAACGGAACTGGCGCACATCGTTGATGAGACGCTGGCGGCGAATAATCTTGACCGTTCTCAACTGGACTG -GCTGGTTCCGCATCAGGCTAACCTGCGTATTATCAGTGCAACGGCGAAAAAACTCGGTATGTCTATGGATAATGT -CGTGGTGACGCTGGATCGCCACGGTAATACCTCTGCGGCCTCTGTCCCGTGCGCGCTGGATGAAGCTGTACGCGA -CGGGCGCATTAAGCCGGGGCAGTTGGTTCTGCTTGAAGCCTTTGGCGGTGGATTCACCTGGGGCTCCGCGCTGGT -TCGTTTCTAGGATAAGGATTAAAACATGACGCAATTTGCATTTGTGTTCCCTGGACAGGGTTCTCAAACCGTTGG -AATGCTGGCTGATATGGCGGCGAGCTATCCAATTGTCGAAGAAACGTTTGCTGAAGCTTCTGCGGCGCTGGGCTA -CGACCTGTGGGCGCTGACCCAGCAGGGGCCAGCTGAAGAACTGAATAAAACCTGGCAAACTCAGCCTGCGCTGTT -GACTGCATCTGTTGCGCTGTATCGCGTATGGCAGCAGCAGGGCGGTAAAGCACCGGCAATGATGGCCGGTCACAG -CCTGGGGGAATACTCCGCGCTGGTTTGCGCTGGTGTGATTGATTTCGCTGATGCGGTGCGTCTGGTTGAGATGCG -CGGCAAGTTCATGCAAGAAGCCGTACCGGAAGGCACGGGCGCTATGGCGGCAATCATCGGTCTGGATGATGCGTC -TATTGCGAAAGCGTGTGAAGAAGCTGCAGAAGGTCAGGTCGTTTCTCCGGTAAACTTTAACTCTCCGGGACAGGT -GGTTATTGCCGGTCATAAAGAAGCGGTTGAGCGTGCTGGCGCTGCCTGTAAAGCGGCGGGCGCAAAACGCGCGCT -GCCGTTACCAGTGAGCGTACCGTCTCACTGTGCGCTGATGAAACCAGCAGCCGACAAACTGGCAGTAGAATTAGC -GAAAATCACCTTTAACGCACCAACAGTTCCTGTTGTGAATAACGTTGATGTGAAATGCGAAACCAATGGTGATGC -CATCCGTGACGCACTGGTACGTCAGTTGTATAACCCGGTTCAGTGGACGAAGTCTGTTGAGTACATGGCAGCGCA -AGGCGTAGAACATCTCTATGAAGTCGGCCCGGGCAAAGTGCTTACTGGCCTGACGAAACGCATTGTCGACACCCT -GACCGCCTCGGCGCTGAACGAACCTTCAGCGATGGCAGCGGCGCTCGAGCTTTAAAAGAGGAAAATCATGAATTT -TGAAGGAAAAATCGCACTGGTAACCGGTGCAAGCCGCGGAATTGGCCGCGCAATTGCTGAAACGCTCGCAGCCCG -TGGCGCGAAAGTTATTGGCACTGCGACCAGTGAAAATGGCGCTCAGGCGATCAGTGATTATTTAGGTGCCAACGG -CAAAGGTCTGATGTTGAATGTGACCGACCCGGCATCTATCGAATCTGTTCTGGAAAAAATTCGCGCAGAATTTGG -TGAAGTGGATATCCTGGTCAATAATGCCGGTATCACTCGTGATAACCTGTTAATGCGAATGAAAGATGAAGAGTG -GAACGATATTATCGAAACCAACCTTTCATCTGTTTTCCGTCTGTCAAAAGCGGTAATGCGCGCTATGATGAAAAA -GCGTCATGGTCGTATTATCACTATCGGTTCTGTGGTTGGTACCATGGGAAATGGCGGTCAGGCCAACTACGCTGC -GGCGAAAGCGGGCTTGATCGGCTTCAGTAAATCACTGGCGCGCGAAGTTGCGTCACGCGGTATTACTGTAAACGT -TGTTGCTCCGGGCTTTATTGAAACGGACATGACACGTGCGCTGAGCGATGACCAGCGTGCGGGTATCCTGGCGCA -GGTTCCTGCGGGTCGCCTCGGCGGCGCACAGGAAATCGCCAACGCGGTTGCATTCCTGGCATCCGACGAAGCAGC -TTACATCACGGGTGAAACTTTGCATGTGAACGGCGGGATGTACATGGTCTGACCGCGATTTGCACAAAATGCTCA -TGTTGCGCGCAGTCTGCGTGGTTATGAGTAATAATTAGTGCAAAATGATTTGCGTTATTGGGGGGTAAGGCCTCA -AAATAACGTAAAATCGTGGTAAGACCTGCCGGGATTTAGTTGCAAATTTTTCAACATTTTATACACTACGAAAAC -CATCGCGAAAGCGAGTTTTGATAGGAAATTTAAGAGTATGAGCACTATCGAAGAACGCGTTAAGAAAATTATCGG -CGAACAGCTGGGCGTTAAGCAGGAAGAAGTTACCAACAATGCTTCTTTCGTTGAAGACCTGGGCGCGGATTCTCT -TGACACCGTTGAGCTGGTAATGGCTCTGGAAGAAGAGTTTGATACTGAGATTCCGGACGAAGAAGCTGAGAAAAT -CACCACCGTTCAGGCTGCCATTGATTACATCAACGGCCACCAGGCGTAAGTGAACATCTCCAGGCGGTCGTTCGA -CCGCCTGAGTTTTATCTTTTTGTCCCACTAGAATCATTTTTTCCCTCCCTGGAGGACAAACGTGTCTAAGCGTCG -TGTAGTTGTGACCGGACTGGGCATGTTGTCTCCTGTCGGCAATACCGTAGAGTCTACCTGGAAAGCTCTGCTTGC -CGGTCAGAGTGGCATCAGCCTAATCGACCATTTCGATACTAGCGCCTATGCAACGAAATTTGCTGGCTTAGTAAA -GGATTTTAACTGTGAGGACATTATCTCGCGCAAAGAACAGCGCAAGATGGATGCCTTCATTCAATATGGAATTGT -CGCTGGCGTTCAGGCCATGCAGGATTCTGGCCTTGAAATAACGGAAGAGAACGCAACCCGCATTGGTGCCGCAAT -TGGCTCCGGGATTGGCGGCCTCGGACTGATCGAAGAAAACCACACATCTCTGATGAACGGTGGTCCACGTAAGAT -CAGCCCATTCTTCGTTCCGTCAACGATTGTGAACATGGTGGCAGGTCATCTGACTATCATGTATGGCCTGCGTGG -CCCGAGCATCTCTATCGCGACTGCCTGTACTTCCGGCGTGCACAACATTGGCCATGCTGCGCGTATTATCGCGTA -TGGCGATGCTGACGTGATGGTTGCAGGTGGCGCAGAGAAAGCCAGTACGCCGCTGGGCGTTGGTGGTTTTGGCGC -GGCACGTGCATTATCTACCCGCAATGATAACCCGCAAGCGGCGAGCCGCCCGTGGGATAAAGAGCGTGATGGTTT -CGTACTGGGCGATGGTGCCGGTATGCTGGTACTTGAAGAGTACGAACACGCGAAAAAACGCGGTGCGAAAATTTA -CGCTGAACTCGTCGGCTTTGGTATGAGCAGCGATGCTTATCATATGACGTCACCGCCAGAAAATGGCGCAGGCGC -AGCTCTGGCGATGGCAAATGCTCTGCGTGATGCAGGCATTGAAGCGAGTCAGATTGGCTACGTTAACGCGCACGG -TACTTCTACGCCGGCTGGCGATAAAGCTGAAGCGCAGGCGGTGAAAACCATCTTCGGTGAAGCTGCAAGCCGTGT -GTTGGTAAGCTCCACGAAATCTATGACCGGTCACCTGTTAGGTGCGGCGGGTGCAGTAGAATCTATCTACTCCAT -CCTGGCGCTGCGCGATCAGGCTGTTCCGCCAACCATCAACCTGGATAACCCGGATGAAGGTTGCGATCTGGATTT -CGTACCGCACGAAGCGCGTCAGGTTAGCGGAATGGAATACACTCTGTGTAACTCCTTCGGCTTCGGTGGCACTAA -TGGTTCTTTGATCTTTAAAAAGATCTAAGTTGTCATTTTCCACCCTTATAAAAGGTCCGCTTGCGGGCCTTTTTT -CTTAGCTTTTATTCCGACTTGTTCCGTAGTGAACATGCTGCCACACTAACAATTCTCTGATAAGGAGCCGGTATG -TTCTTAATTAACGGTCATAAGCAGGAATCGCTGGCAGTAAGCGATCGGGCAACGCAGTTTGGTGATGGTTGTTTT -ACCACCGCCAGAGTTATCGACGGTAAAGTCAGTTTGTTATCGGCGCATATCCAGCGACTACAGGATGCTTGTCAG -CGGTTGATGATTTCCTGTGACTTCTGGCCTCAGCTTGAACAAGAGATGAAAACGCTGGCAGCAGAACAGCAAAAT -GGTGTGCTGAAAGTCGTGATCAGTCGCGGTAGTGGCGGGCGAGGGTACAGCACATTGAACAGCGGACCGGCAACG -CGGATTCTCTCCGTTACGGCTTATCCTGCACATTACGACCGTTTGCGTAACGAGGGGATTACGTTGGCGCTAAGC -CCGGTGCGGCTGGGGCGCAATCCTCATCTTGCAGGTATTAAACATCTCAATCGTCTTGAGCAAGTATTGATTCGC -TCTCATCTTGAGCAGACAAACGCTGATGAGGCGCTGGTCCTTGACAGCGAAGGGTGGGTTACGGAATGCTGTGCG -GCTAATTTGTTCTGGCGGAAGGGCAACGTAGTTTATACGCCGCGACTGGATCAGGCAGGTGTTAACGGCATTATG -CGACAATTCTGTATCCGTTTGCTGGCACAATCCTCTTATCAGCTTGTCGAAGTGCAAGCCTCTCTGGAAGAGTCG -TTGCAGGCAGATGAGATGGTTATTTGTAATGCGTTAATGCCAGTGATGCCCGTATGTGCCTGTGGCGATGTCTCC -TTTTCGTCAGCAACGTTATATGAATATTTAGCCCCACTTTGTGAGCGCCCGAATTAGTCATGAAAAAAGTGTTAT -TGATAATCTTGTTATTGCTGGTGGTACTGGGTATCGCCGCTGGTGTGGGCGTCTGGAAGGTTCGCCATCTTGCCG -ACAGCAAATTGCTTATCAAAGAAGAGACGATATTTACCCTGAAGCCAGGGACCGGACGTCTGGCGCTCGGTGAAC -AGCTTTATGCCGATAAGATCATCAATCGTCCACGGGTTTTTCAATGGCTGCTGCGTATCGAACCGGATCTTTCTC -ACTTTAAAGCCGGGACTTACCGCTTTACACCGCAGATGACCGTGCGCGAGATGCTGAAATTGCTGGAAAGCGGTA -AAGAAGCACAGTTCCCTCTGCGACTGGTAGAAGGGATGCGTCTGAGCGATTACCTCAAGCAATTGCGTGAGGCCC -CGTATATCAAGCATACGCTGAGCGATGATAAGTACGCCACCGTAGCGCAGGCACTTGAACTGGAAAACCCGGAGT -GGATTGAAGGTTGGTTCTGGCCAGACACCTGGATGTATACCGCCAATACCACCGATGTCGCGTTACTCAAGCGAG -CGCACAAGAAAATGGTGAAAGCGGTCGATAGCGCCTGGGAAGGGCGTGCGGACGGTCTGCCTTATAAAGATAAAA -ACCAGTTGGTGACGATGGCATCAATTATCGAAAAAGAAACCGCCGTTGCCAGTGAACGCGATAAGGTTGCCTCAG -TATTTATCAACCGTTTACGCATTGGTATGCGCCTGCAGACCGACCCGACCGTGATTTACGGGATGGGAGAGCGTT -ATAATGGCAAACTTTCTCGTGCAGACCTGGAAACGCCGACAGCGTATAACACCTATACCATTACCGGTCTGCCGC -CAGGTGCGATAGCGACGCCGGGGGCGGATTCGCTGAAGGCTGCTGCGCATCCGGCAAAAACGCCGTATCTCTATT -TTGTGGCCGATGGTAAAGGTGGTCACACGTTTAATACCAATCTTGCCAGTCATAACAAGTCTGTGCAGGATTATC -TGAAAGTGCTTAAGGAAAAAAATGCGCAGTAAGTATATCGTCATTGAGGGGCTGGAAGGCGCAGGCAAAACTACC -GCGCGTAATGTGGTGGTTGAGACGCTCGAGCAACTGGGTATCCGCGACATGGTTTTCACTCGGGAACCTGGCGGT -ACGCAACTTGCCGAAAAGTTAAGAAGCCTGGTGCTGGATATCAAATCGGTAGGCGATGAAGTCATTACCGATAAA -GCCGAAGTTCTGATGTTTTATGCCGCGCGCGTTCAACTGGTAGAAACGGTCATCAAACCAGCTCTGGCTAACGGC -ACCTGGGTGATTGGCGATCGCCACGATCTCTCCACTCAGGCGTATCAGGGCGGCGGACGTGGTATTGACCAACAT -ATGCTGGCAACACTGCGTGATGCTGTTCTCGGGGATTTTCGCCCCGACTTAACGCTCTATCTCGATGTTACCCCG -GAAGTTGGCTTAAAACGCGCGCGTGCGCGCGGCGAGCTGGATCGTATTGAGCAAGAATCTTTCGATTTCTTTAAT -CGCACCCGCGCCCGCTATCTGGAACTGGCAGCACAAGATAAAAGCATTCATACCATTGATGCCACCCAGCCGCTG -GAGGCCGTGATGGATGCAATCCGCACTACCGTGACCCACTGGGTGAAGGAGTTGGACGCATGAGATGGTATCCAT -GGTTACGACCTGATTTCGAAAAACTGGTAGCCAGCTATCAGGCCGGAAGAGGTCACCATGCGCTACTCATTCAGG -CGTTACCGGGCATGGGCGATGATGCTTTAATCTACGCCCTGAGCCGTTATTTACTCTGCCAACAACCGCAGGGCC -ACAAAAGTTGCGGTCACTGTCGTGGATGTCAGTTGATGCAGGCTGGCACGCATCCCGATTACTACACCCTGGCTC -CCGAAAAAGGAAAAAATACGCTGGGCGTTGATGCGGTACGTGAGGTCACCGAAAAGCTGAATGAGCACGCACGCT -TAGGTGGTGCGAAAGTCGTTTGGGTAACCGATGCTGCCTTACTAACCGACGCCGCGGCTAACGCATTGCTGAAAA -CGCTTGAAGAGCCACCAGCAGAAACTTGGTTTTTCCTGGCTACCCGCGAGCCTGAACGTTTACTGGCAACATTAC -GTAGTCGTTGTCGGTTACATTACCTTGCGCCGCCGCCGGAACAGTACGCCGTGACCTGGCTTTCACGCGAAGTGA -CAATGTCACAGGATGCATTACTTGCCGCATTGCGCTTAAGCGCCGGTTCGCCTGGCGCGGCACTGGCGTTGTTTC -AGGGAGATAACTGGCAGGCTCGTGAAACATTGTGTCAGGCGTTGGCATATAGCGTGCCATCGGGCGACTGGTATT -CGCTGCTAGCGGCCCTTAATCATGAACAAGCTCCGGCGCGTTTACACTGGCTGGCAACGTTGCTGATGGATGCGC -TAAAACGCCATCATGGTGCTGCGCAGGTGACCAATGTTGATGTGCCGGGCCTGGTCGCCGAACTGGCAAACCATC -TTTCTCCCTCGCGCCTGCAGGCTATACTGGGGGATGTTTGCCACATTCGTGAACAGTTAATGTCTGTTACAGGCA -TCAACCGCGAGCTTCTCATCACCGATCTTTTACTGCGTATTGAGCATTACCTGCAACCGGGCGTTGTGCTACCGG -TTCCTCATCTTTAAGAGAGACATCATGTTTTTAGTCGACTCACACTGCCATCTCGATGGTCTGGATTATGAATCT -TTGCATAAGGACGTGGATGACGTTCTGGCGAAAGCCGCCGCACGCGATGTGAAATTTTGTCTGGCAGTCGCCACA -ACATTACCGGGTTATTTACATATGCGGGATCTGGTAGGCGAACGTGACAACGTCGTATTTTCTTGTGGCGTGCAT -CCACTCAACCAGAATGATCCCTACGATGTAGAAGATTTACGCCGTCTGGCGGCAGAAGAGGGTGTTGTAGCGCTG -GGTGAAACCGGGCTGGATTATTATTACACGCCGGAAACTAAAGTACGTCAGCAAGAGTCCTTCATCCATCATATC -CAGATTGGTCGTGAACTGAACAAGCCGGTTATCGTCCATACCCGTGACGCCCGTGCCGATACGCTGGCAATTCTG -CGCGAAGAAAAAGTGACGGATTGCGGTGGCGTACTACACTGTTTTACAGAGGACAGAGAAACGGCGGGTAAATTA -CTGGATCTCGGATTTTACATCTCCTTTTCCGGCATTGTGACCTTCCGTAATGCGGAGCAACTGCGCGATGCTGCG -CGTTATGTCCCCCTGGATCGGTTACTGGTGGAAACTGACTCACCTTACCTTGCGCCGGTACCGCATCGAGGAAAA -GAGAATCAACCTGCGATGGTTCGTGACGTTGCAGAATACATGGCTGTGTTGAAAGGTGTTGCCGTTGAAGAACTG -GCGCAGGTAACCACCGATAACTTCGCCCGTCTGTTTCACATCGACGCTTCCCGCCTTCAATCCATCCGTTGAATG -AGTTTTTTTAAAGCTCGTAATTAATGGCTAAAACGAGTAAAGTTCACCGCCGAAAATTGGGCGGTGAATAACCAC -GTTTGAAATATTGTGACATATGTTTTGTCAAAATGTGCAACTTCTCCAATGATCTGAAGTTGAAACGTGATAGCC -GTCAAACAAATTGGCACTGAATTATTTTACTCTGTGTAATAAATAAAGGGCGCTTAGATGCCCTGTACACGGCGA -GGCTCTCCCCCCTTGCCACGCGTGAGAACGTAAAAAAAGCACCCATACTCAGGAGCACTCTCAATTATGTTTAAG -AATGCATTTGCTAACCTGCAAAAGGTCGGTAAATCGCTGATGCTGCCGGTATCCGTACTGCCTATCGCAGGTATT -CTGCTGGGCGTCGGTTCCGCGAATTTCAGCTGGCTGCCCGCCGTTGTATCGCATGTTATGGCAGAAGCAGGCGGT -TCCGTCTTTGCAAACATGCCACTGATTTTTGCGATCGGTGTCGCCCTCGGCTTTACCAATAACGATGGCGTATCC -GCGCTGGCCGCAGTTGTTGCCTATGGCATCATGGTTAAAACCATGGCCGTGGTTGCGCCACTGGTACTGCATTTA -CCTGCTGAAGAAATCGCCTCTAAACACCTGGCGGATACTGGCGTACTCGGAGGGATTATCTCCGGTGCGATCGCA -GCGTACATGTTTAACCGTTTCTACCGTATTAAGCTGCCTGAGTATCTTGGCTTCTTTGCCGGTAAACGCTTTGTG -CCGATCATTTCTGGCCTGGCTGCCATCTTTACTGGCGTTGTGCTGTCCTTCATTTGGCCGCCGATTGGTTCTGCA -ATCCAGACCTTCTCTCAGTGGGCTGCTTACCAGAACCCGGTAGTTGCGTTTGGCATTTACGGTTTCATCGAACGT -TGCCTGGTACCGTTTGGTCTGCACCACATCTGGAACGTACCTTTCCAGATGCAGATTGGTGAATACACCAACGCA -GCAGGTCAGGTTTTCCACGGCGACATTCCGCGTTATATGGCGGGTGACCCGACTGCGGGTAAACTGTCTGGTGGC -TTCCTGTTCAAAATGTACGGTCTGCCAGCTGCCGCAATTGCTATCTGGCACTCTGCTAAACCAGAAAACCGCGCG -AAAGTGGGCGGTATTATGATCTCCGCGGCGCTGACCTCGTTCCTGACCGGTATCACCGAGCCGATCGAGTTCTCC -TTCATGTTCGTTGCGCCGATCCTGTACATCATCCACGCGATTCTGGCAGGCCTGGCATTCCCAATCTGTATTCTT -CTGGGGATGCGTGACGGTACGTCGTTCTCGCACGGTCTGATCGACTTCATCGTTCTGTCTGGTAACAGCAGCAAA -CTGTGGCTGTTCCCGATCGTCGGTATCGGTTATGCGATTGTTTACTACACCATCTTCCGCGTGCTGATTAAAGCA -CTGGATCTGAAAACGCCGGGTCGTGAAGACGCGACTGAAGATGCAAAAGCGACAGGTACCAGCGAAATGGCACCG -GCTCTGGTTGCTGCATTTGGTGGTAAAGAAAACATTACTAACCTCGACGCATGTATTACCCGTCTGCGCGTCAGC -GTTGCTGATGTGTCTAAAGTGGATCAGGCCGGCCTGAAGAAACTGGGCGCAGCGGGCGTAGTGGTTGCTGGTTCT -GGTGTTCAGGCGATTTTCGGTACTAAATCCGATAACCTGAAAACCGAGATGGATGAGTACATCCGTAACCACTAA -TCCGTAAGACGTTGGGGAGACTAAGGCAGCCAGATGGCTGCCTTTTTTACAGGTGTTATTCAGAATTGATACGTG -CCGGTAATGCTGAAATTACGCGGTGTGCCGTAGACGATAGAACCTTCCACGTTGGTATCGTAGGTTTTGTCGAAC -AGGTTATTGACGTTCCCCTGTAACGAGAAGTTTTTCGTCACCTGGTAGCGGGTGAAGAGATCCACCAGCGCGTAG -CTACCTTGCTCGGCGCGGAAGGTGCCATACGGCGTCACGGTGTCGGTATACACGCGATTTTGCCAGTTAACACCA -CCGCCGACCGTCAACTCTGGCATGACAGGCAACCGATAGCTGGTGAACATTTTAACCGTGGTGCGTGGCAGATTA -GGATTAACGGCGTTTCCTTCGTTATCCTCTGCAATATAGCGCGTTGCGCCAAATGTCAGCTGCCAGTTGTCGGTA -ATTGCGCCGTTGAGTTCAAATTCCACCCCTTTACTGACTGTCCCATCCACCGCTTTATAGGCGGTTTCGCCGTTG -CTGCCGGGGATAGGTGTACCGGTGGACTGAGCGACATTATCCTGCTCAATACGGAAGATGGCTAACGTGGTGGTC -AGACGGCTATTCATCCAGTCCGATTTCAGACCCAGCTCGTAGTTGTTACCGGTGATTGGAGCCAGATATTTGCCT -GAACTGTCACGATCATTTTGCGGCTGGAAAATAGAGGTATAGCTGGCGTAGGTCGACCAGTTGTCATTGATGTCA -AACACCAGACCAGCGTAAGGCGTGGTGTGGTTTTTCTCCATGCTGTAAGTCAGCGTATCAACCCGCCAGTTGGTA -TAACGTGCGCCGAGGATCAGATGCAGCGGATCGGCAAGGGTGACACGAGTGGCAGCATATAACGATTTCATATGT -GTGGTATCGTCCTGCGCCAGGCTCTGTGGTGACCAGTCGGTTTGTGGGAAATTGCCATTAAAGTTGTAGAAACTG -CCAATTTCATCCGGGAAGATGTTGGCCCATGAACTGAAGTAACGATTGTTTTGTTTGCTGTAACTGCCACCAAAC -ATTAGATTGTGCTGACGACCAAACAATTCATAACTACCGTCAGCGAACAAATCCAGCGCATCAACTTTACGTTTG -CCACTGTTCCAACCGGTGCCGCCGACATAATCAAAGCCAGGTCCATAATTACTGTATGGCCCAACCAGCATACCA -TCCGCTTTGTTTACATAGGCATCGACATACATCATTTTGCTGTCAAATTCGACTTCAGAGTGGGTGGCATTCAGT -GTCGCTTGCCAGGTATCAGCAAACTGCTGCTTCAGGGTCATAAAGACCTTGTTGATCTCTTTATCGTTGTACGCC -CAGTCAGGTGCGGTACTGCGTGCGCGATCGTAACTGTTGCTGCTGCCATCAGTATTCCAGCGCGGTAAACCGCCC -CAGGTAGGGCTATTAACATCAATGCGCTGATATTCGTAACCGGCTGAAAGCGTCGTAAGATCGCCTAAATCAGCA -TCGACAATGCCCGAGAAGAAGGTCTTTTCACTGTTGTAGCGGTCCAGCCATGAGTCGTTATTCTGGTAGCCGCCG -ACAATTCGCGCGCGGATTTTACCGTCTTCGGTGAGTGGGCTTTGTAAATCCGCCACATACCGTTCTTTGTTCCAG -CTACCGTATTCCGCCGAGACATCGCCTTTAAATTCACGACTGGTCGCGTGTTTTCGAACCATATTAATTGCCGCA -GATGGATTACCCGTCCCGGTCATGAGTCCTGTCGCGCCACGCACTACTTCTACGCGTTCAAAGAGTGCCATATCA -GAAAGTGCGTCGCCCAGATTCCAGCGCGATTCAAAATAGGTGGGGATACCATCAACCATATAGTTATCGATCTGG -AATCCGCGGGAATAATAAAGAGCACGATCGGAATCCGCCTGACTTTTGCTGATCCCCAGCGTGTTTTCCATCACT -TCGCCCAGCGTTTGTAACTGCTGATCTTCCATCCGCTGCTGGCTAACAATAGTGACCGACTGAGGAATATCACGT -TGAGTCATCTGCATTTTGGTACCCGCAGAGGTAGACGTTACGCTGTAATCATTTTCGCCATCATCTGGAGCTGTG -GCTGAACCCTCAACAATCACCGTTTCTTCAGTGGCTGGTGCAGCAAAAGCGGCAGAAGGTAATAGTGCCAGTGCT -ATGCAACCGGCAAGTAGTGACGGTTTGGTGATGGCTTGATATTGATTATCCCTGTTAAATTGTGTTGAAAGCATT -TGAAATCTCTTGGTTTATGTTGTCGTCAGGCTCATGCCGGAGGAGGGTGATGAGCGATTATATTTAGTGTGCGAA -TAATTTTGTTTGTAAATGCAAATGAGAAATATACGCATTCATATTTGTCATGTAAACCAAACAGAGAATGTCTTT -TCAGCGCATTCGCAGGCAGAAATGGGAATAATGGCGATATATACGGCAGCAAAACGATTTTTTGCTTAAGAAATC -GTGAGTTAAGGTTGAAAGAGCAGGTTTAACTCGACCATACTCTATACTCGCAGTGTGGCGCGGCGTAGCATGGCG -CAACGCATGGCTATTTGAAAAAGGAAAATGTCGTGGCAGAAGAAACTATATTCAGCAAAATTATTCGTCGTGAGA -TCCCCTCCGATATCGTCTACCAGGATGATCTGGTAACGGCGTTTCGCGATATTTCGCCGCAAGCGCCAACGCATA -TTCTGATCATTCCGAATATCCTCATTCCGACTGTGAACGACGTCTCAGCTGAGCATGAGCAGGCGCTGGGACGCA -TGATCACCGTAGCGGCAAAAATTGCTGAGCAAGAAGGTATTGCCGAAGATGGCTATCGTCTGATCATGAATACCA -ACCGCCATGGCGGACAAGAGGTTTACCACATCCATATGCACTTGTTGGGTGGCCGTCCGCTGGGACCAATGCTGG -CGCATAAAGGTCTGTAACGATGAGAAAAGGATGCTTTGGGCTGGTGTCTCTGGTGTTGTTACTGCTGGTGGGCTG -TCGTTCACATCCGGAAATTCCGGTGAATGATGAGCAATCGCTGGTGATGGAGTCATCTTTATTGGCTGCGGGCAT -CAGTGCAGAAAAGCCCTTCCTTTCGACGTCTGATATTCAACCTTCAGCATCCTCAACGCTTTATAACGAAAGGCA -AGAACCCGTTACCGTTCATTATCGTTTTTACTGGTATGACGCCAGAGGGCTGGAGATGCATCCTCTGGAAAGGCC -ACGCAGCGTTACCATTCCCGCACATTCGGCGGTAACGCTGTACGGCAGCGCCAATTTTCTGGGGGCGCACAAAGT -CAGACTTTATCTATATTTGTAAGGGGTGAATCTTGATGACAAAAATGAGTCGCTACGCCTTGATTACCGCGCTGG -CGATGTTTCTCGCCGGGTGTGTGGGGCAACGTGAACCTGCACCGGTAGAAGAAGTGAAACCAGCGCCGGAACAAC -CAGCCGAGCCACAACAGCCTGTCCCCACAGTGCCCTCGGTGCCGACGATCCCGCAGCAGCCAGGCCCAATTGAGC -ACGAAGATCAAACTGCACCGCCTGCGCCGCATATTCGCCATTATGACTGGAATGGCGCAATGCAGCCGATGGTCA -GTAAGATGCTTGGGGCTGACGGGGTGACTGCGGGTAGCGTCCTGCTGGTTGATAGCGTTAACAACCGTACTAACG -GTTCGCTGAATGCCGCAGAAGCGACCGAAACGCTGCGAAATGCGCTGGCTAATAACGGGAAATTTACCCTGGTTT -CCGCCCAGCAACTGTCGATGGCGAAGCAACAGTTAGGTTTGTCGCCGCAGGACAGTTTAGGCACCCGTAGTAAAG -CCATAGGCATTGCCCGCAATGTCGGCGCTCATTACGTGCTGTACTCCAGCGCCTCTGGCAACGTTAACGCTCCGA -CCCTACAAATGCAGCTGATGCTGGTGCAGACGGGCGAAATTATCTGGTCAGGTAAAGGTGCCGTTTCGCAGCAAT -AATCCCATCACGCGCGACGAATTGCTGTCGCGCTTTTTCCCGCAGTATCATCCCGTCACGACGTTTAATAGTGGG -CTTAGTGGCGGGAGTTTTCTCATTGAACATCAGGGCCAGCGTTTTGTTGTGCGTCAGCCGCACGATCCTGATGCG -CCGCAGTCCGCGTTCTTGCGCCAGTATCGGGCTTTATCACAACTACCCGCATGCATTGCACCGAAGCCGCATTTA -TATCTCCGTGACTGGATGGTAGTCGACTATCTGCCCGGCGCGGTAAAAACGTATTTGCCGGATACCAACGAACTG -GCAGGCTTGCTGTATTATCTACATCAACAACCACGTTTTGGCTGGCGAATAACGCTGTTGCCGTTACTGGAACTG -TACTGGCAGCAAAGCGATCCGGCGCGGCGGACAGTGGGTTGGCTGCGAATGTTAAAACGTCTGCGCAAAGCGCGG -GAACCACGGCCTTTACGCTTAAGTCCATTGCATATGGATGTCCACGCCGGAAATTTAGTGCATAGCGCGTCAGGG -TTAAAACTCATCGACTGGGAGTATGCCGGAGATGGTGATATCGCGCTGGAACTGGCGGCGGTGTGGGTGGAAAAT -ACTGAACAGCACCGGCAATTGGTCAATGACTATGCCACTCGCGCGAAGATTTATCCGGCGCAATTATGGCGTCAG -GTCAGGCGATGGTTTCCCTGGCTGCTGATGCTCAAAGCAGGGTGGTTTGAGTACCGCTGGCGACAAACCGGCGAT -CAACAATTTATCAGGCTGGCCGATGACACCTGGCGGCAGCTATTAATAAAACAATAAGGAGAGCAGTGTGGGTCC -AGTAATGTTGGATGTCGAAGGTTACGAACTGGACGCGGAAGAGCGTGAAATACTGGCGCATCCGCTGGTGGGAGG -GCTGATTCTCTTTACGCGTAACTATCATGATCCTGCCCAGTTACGTGAACTGGTGCGCCAGATCCGCGCAGCTTC -GCGCAATCGTCTGGTGGTGGCGGTTGATCAGGAAGGTGGACGCGTGCAGCGTTTTCGTGAAGGTTTTACCCGCTT -GCCAGCGGCGCAATCATTCGCTGCGCTGTCAGGAATGGAAGAGGGTGGCAAACTGGCGCAGGAGGCAGGTTGGTT -GATGGCCAGCGAAATGATCGCTATGGATATTGATATCAGCTTTGCGCCTGTGCTGGATGTCGGGCATATCAGCGC -GGCGATTGGCGAGCGTTCTTATCATGCCGATCCACAAAAAGCCCTGGCAATTGCCAGCCGGTTTATTGATGGTAT -GCATGAAGCCGGAATGAAAACGACCGGGAAACACTTCCCAGGACACGGTGCAGTAACGGCAGACTCACACAAAGA -AACACCGTGCGATCCACGTCCACAAGCGGAGATTCGCGCTAAAGATATGTCGGTCTTCAGTTCCTTAATCCGCGA -AAATAAACTCGACGCCATTATGCCTGCGCATGTGATCTACAGTGATGTTGATCCGCGTCCGGCGAGCGGTTCTCC -CTACTGGCTGAAAACCGTTTTGCGTCAGGAACTGGGTTTTGACGGCGTGATTTTCTCTGACGATTTATCGATGGA -AGGTGCCGCGATTATGGGCAGTTATGCCGAACGCGGGCAGGCTTCACTGGATGCGGGTTGCGATATGATCCTGGT -CTGCAATAATCGTAAAGGGGCCGTCAGCGTGTTAGATAATCTGTCACCGATCAAGGCAGAACGTGTTACACGTTT -GTATCATAAAGGTTCATTTTCGCGACAGGAACTGATGGACTCGGCTCGCTGGAAAGCGATCAGCACCCGTCTGAA -TCAGTTACATGAACGCTGGCAGGAAGAGAAAGCAGGTCACTAACCCTGGCTTATGTGAGGAAGCGATGATTATCT -ATTTACACGGTTTTGACTCTAACAGTCCGGGTAACCACGAGAAAGTCTTACAATTGCAGTTTATTGACCCGGATG -TACGCTTGATAAGCTACAGTACGCGGCATCCGAAACATGATATGCAGCATCTGCTTAAAGAAGTGGACAAAATGT -TGCAACTGAACGTTGACGAGCGTCCGCTAATTTGCGGCGTTGGCTTGGGCGGATACTGGGCGGAACGGATTGGTT -TTCTTTGCGACATCCGCCAGGTGATCTTCAACCCTAATTTGTTCCCTTATGAGAACATGGAAGGCAAGATTGATC -GCCCGGAAGAGTATGCCGATATTGCCACTAAGTGTGTGACCAACTTCCGTGAGAAGAATCGCGATCGTTGCCTGG -TGATTTTGTCGCGTAATGATGAAGCGCTTAACAGCCAGCGGACATCTGAAGAGTTGCATCATTATTACGAGATTG -TCTGGGACGAAGAGCAGACGCACAAATTCAAGAATATCTCCCCGCATTTACAGCGCATTAAAGCGTTCAAAACCC -TCGGGTAAATGCCCTCGTCGCATCAGGTAACCTTGCCGGTACCTGATGCGCTCCGAATTCTGTGGGTCGGATAAG -GCGTCCACGCCGCATCCGACAGTCGAGCATCAATGCCTGATGCGCTTCTTATCAGGCCTACCGAACGCCCTGCAT -ACACCCCTCACTCTATATCACTCTCACAAATTCGCTCAAATAATAAACAATAAACTCTGTTTTTTGATCTCACCC -GGTAAAGTCGCCTATCTTTTCAGCAACAAAACTTGATTAACATCAATTTTGGTATGACCAATGCACCATTCATGT -TATTCTCAATAGCGAAGAACATTTTCATTGCTGTAACCTGTTGTTAATTAAGAGCTATGTTAATAACCATTAATT -AACAATTGGTTAATAAATTTAAGGGGGTCACGTTGACTACGCCATTGAAAAAGATTGTGATTGTCGGCGGCGGTG -CTGGTGGGCTGGAAATGGCAACACAGCTGGGGCATAAGCTGGGACGCAAGAAAAAAGCCAAAATTACGCTGGTCG -ATCGTAACCACAGCCACCTGTGGAAACCGCTGCTGCACGAAGTGGCGACTGGCTCGCTTGATGAAGGCGTCGATG -CGTTGAGCTATCTGGCCCATGCGCGCAATCATGGTTTCCAGTTCCAGCTGGGTTCCGTCATTGATATTGATCGTG -AAGCGAAAACAATCACTATTGCAGAACTGCGCGACGAGAAAGGTGAACTGCTGGTTCCGGAACGTAAAATCGCCT -ATGACACCCTGGTAATGGCGCTGGGTAGCACCTCTAACGATTTCAATACGCCAGGTGTCAAAGAGAACTGCATTT -TCCTCGATAACCCGCACCAGGCGCGTCGCTTCCACCAGGAGATGCTGAATTTGTTCCTGAAATACTCCGCCAACC -TGGGCGCGAATGGCAAAGTGAACATTGCGATTGTCGGCGGCGGCGCGACGGGTGTAGAACTCTCCGCTGAATTGC -ACAACGCGGTCAAGCAACTGCACAGCTACGGTTACAAAGGCCTGACCAACGAAGCCCTGAACGTAACGCTGGTAG -AAGCGGGAGAACGTATTTTGCCTGCGTTACCGCCACGTATCTCTGCTGCGGCCCACAACGAGCTAACGAAACTTG -GCGTTCGCGTGCTGACGCAAACCATGGTCACCAGTGCTGATGAAGGCGGCCTGCACACTAAAGATGGCGAATATA -TTGAGGCTGATCTGATGGTATGGGCAGCCGGGATCAAAGCGCCAGACTTCCTGAAAGATATCGGTGGTCTTGAAA -CTAACCGTATCAACCAGCTGGTGGTGGAACCGACGCTGCAAACCACCCGCGATCCAGACATTTACGCTATTGGCG -ACTGCGCGTCATGCCCGCGTCCGGAAGGGGGCTTTGTTCCGCCGCGTGCTCAGGCTGCACACCAGATGGCGACTT -GCGCAATGAACAACATTCTGGCGCAGATGAACGGTAAGCCGCTGAAAAATTATCAGTATAAAGATCATGGTTCGC -TGGTATCGCTGTCGAACTTCTCCACCGTCGGTAGCCTGATGGGTAACCTGACGCGCGGCTCAATGATGATTGAAG -GACGAATTGCGCGCTTTGTATATATCTCGCTATACCGAATGCATCAGATTGCGCTGCATGGTTACTTTAAAACCG -GATTAATGATGCTGGTGGGGAGTATTAACCGCGTTATCCGTCCGCGTTTGAAGTTGCATTAATCGACGTACACTG -GCGGATGTGGCATAAACGCCTCATCCGCCCTTGAGGAACAGCGCGATCGGCAGCCGCGTTGTATCAGGCATCCTT -TCAGACTCCTCCGAATCCTTAAGTATTTCCAGCCATTCCCGCGCTTTTCATCTTCTGTCTGATAGCTGCTTTTCT -CCTTCGCTTGCATGATTGGCATAACTGCAAAGAAGGAGGTGTTCCCGTGAATAAATCAATGTTGGCGGGTATCGG -GATTGGTGTCGCAGCTGCGCTGGGCGTAGCGGCAGTGGCCAGTCTGAACGTGTTTGAACGGGGCCCGCAATACGC -TCAGGTTGTTTCTGCAACCCCAATCAAGGAAACGGTTAAAACACCGCGTCAGGAGTGTCGCAACGTCACAGTGAC -CCATCGTCGACCGGTGCAGGATGAAAATCGCATTACCGGGTCGGTGCTCGGCGCTGTTGCTGGCGGCGTGATAGG -GCATCAGTTTGGTGGTGGTCGCGGTAAAGATGTCGCCACTGTTGTGGGGGCGCTGGGTGGTGGATATGCCGGTAA -CCAGATCCAGGGCTCTCTCCAGGAAAGCGATACTTACACGACTACGCAACAGCGTTGTAAAACGGTGTATGACAA -GTCAGAAAAAATGCTCGGTTATGATGTGACCTATAAGATTGGCGATCAGCAGGGCAAAATCCGCATGGACCGCGA -TCCGGGTACGCAGATCCCGCTAGATAGCAACGGGCAACTGATTTTGAATAACAAAGTATAACAAGGCTGTACTCT -GCAATTTGGCCCCTCATTCGCTCAGGCTGAGGGGCTTTTTTTGCGACTTATTTCACCAGTTCGGGCCATAAACGC -AAAGTCGTTCCGGCAATCTGCATCAGTTTTTCCAGCGATGCACCTTCGCGTGCGCTGATCGACATCCCCTGAATA -ATACAATTAAGGAATTCTGCCAGATGTGTCACGTCACAGTGGGGCGGGATTTCCCCGCGCGCTTGTCGTTGACAT -AAAAACTGCTGCAAAGTGCGCTCTTGCATCGCATGGCGTGATTTCAACGTATTGGCGATATCTCCTGAATCTGGG -GAGAGGGTGGTGCAGTTGTTGATCATGAAGCAGCCTGCCGGGGTGTCTTTGCTGGTAAAGCAGTTGGCGATGGCA -GCAAAATAGTCAGCCAGCGCAGACTCCACGCTTTTCTCTTCACAAAACAGCTGTGCTTCATGCTTAGCGGCAAAA -CGATCGATATAGCGGTCGAGAACGGCACGAAATAACCCCTCTTTGTTGGTAAATTCCGCGTATAGCGTGGGCGCT -TTGGCTCCGGTCGCTTCGACGAGGTCCGCAAGAGAAGTCGCTTCATAACCGTGTTGCCAGAACAATTTCATGGCC -TTATCAAGCGCGGCATCCCTGTCGAACACTTTTGGGCGGCCACGGCTTTTTTTTACACATTGTGTTGAGTCAGTT -GCCATGATGCCGTTGTACCTGGTGACTGTGAATGAAAGGTTATTATAAAAATAATCACCTCCGTTCACCAGTCCA -GATCCCATAAAAATAATTGCTTTCTATTTAACTGAAATTTAAAGATTTTTAAATTAATTAATGATTGTTATAAAA -AATATCTTGTATGTGATCCAGATCACATCTATCATTTAGTTATCGATCGTTAAGTAATTGCTTGCGACGTCATTC -ATCTGCATAAGGCCACTATTATGAAAAACGTAAAAACCCTCATCGCTGCGGCGATTTTAAGCTCCATGTCATTTG -CCAGCTTTGCGGCTGTCGAAGTTCAGTCAACGCCAGAAGGCCAACAAAAAGTCGGTACAATCAGTGCTAACGCGG -GGACAAATCTGGGATCGCTGGAAGAGCAGCTGGCGCAAAAAGCGGATGAGATGGGCGCAAAATCTTTCCGTATTA -CTTCTGTAACCGGTCCGAATACCCTCCATGGAACAGCAGTAATTTATAAATAAGCATTAACCCTCATTAATGCCT -GCTACTGCTGATTTTTTCCCCGCGACATGCCGTGTCGCGGGGATTTTTTTATCCGGGCTTTACAGCGTTTGTGGG -CTCACTTGATGACGGCGGACATCCACCGGCATCCCGGAACGGACATCCATCACATGTTGCATCACTTCAGCGTCA -GTTTGTGCTGCATCTTTAAATGATTGCATTGCGCTATTCAGCGTAATTGGCAGCAGCTGCGGATCGTCATCAATC -TTCTCTGACAGCGGCTGATGTACTTCAACCAGACGCGCACCGTTTGGTTCGGCAGAGACTTTTATCGGAGTGTTG -ATGATATTCACTTTGGTGCCTGGGGTGACCTGGCTAAAGAGTGTTTTGATATCGTCATCCCGCAGACGAATACAG -CCAGAACTTACCCGCATGCCAATGCCGAAATCGGCGTTCGTACCATGAAGCAAATAAACGCCGCCATAGGCCGCC -AGACGAATCGCATGATGGCCCATTGGGTTATCCAGTCCAGCCGGCACTACCGCAGGCAACTCAATTCCCTGTGCT -TTATAACGGGCGCGGATGTTTGCCGTTGGCGTCCAGGTTGGGTTTGCACGTTTGTCTGAAACGGTGGTCACCATT -GTCGGTGTCAGCGTGTCACCACCTAACTGACCAATACCTATTGGATACACGGTTACCGAATTTTTACCCGGCGGG -TAGTAATAGAGACGCAGCTCCGCAATGTTGATCACAATGCCTTCGCGCGGCGCATCTGGAAGTAGGGTTTGCAAC -GGGATCGTTAACACGCTGCCCGCGCGCGGTACGTAAGGATCAACGCCGGGGTTAGCCTGTAACAGAGCGAGAAAG -CCGACGTTGTATTTTTTGGCGATGGCTTCCAGAGAACCACCGTCATTTTCCACCACATGAAATTTGTTTTCGCCA -ACCAGACGACTGCCCGCTGGCGGCAGCGGCCAGGTGTTGGCTTTTGCCGGTAGCGCCAGCGCCACGGCAGCGGCG -AACGTAAAAAACGTTAGCCAGCGAGAAAAACGCGTTTTGATCATCACCAAAAATCCATAATAAATATAAGGTTAT -TGTAATAAACAGATAAGCCTGAATTATGGATGGTGACAGTGTCGGATAGTGCAGGGAAGTGCAAAGAATTTGTAA -ATGTTGCAGATGGGGGCGCAGAAACGCCCCCGATTTACCATTAAGCGATCGCGTTCTCTTCCAGTTCACGCATAA -ACTGGCGTACCCATTCGATACGCGTTTTCCGCTCACTCAAATCCTGAATAAATTTCAGGCGCGTCGGACCATCAA -GGCGGTAATGCTGCGGCTGTTTTTGCAGCAAACCAATCAACCAGGCCGGATTAACGTGATTCTTCTCGGCAAATT -CGATCACCCCGCCTTTCTCATTACCTTCCAGCTTCCTGATCCCCAGTTTCTGCGCTTGCTGGCGCAGACGGGCAA -TATCCAGCAGGGTACGCGCCGGATCTGGCAGCAGGCCGAAGCGATCGATAAGCTCGACTTTGATCTCTTCCAGTT -CGTTTTCCGTTTTGGCGCTGGCAATACGTTTGTAGAACGACAGACGCGTGTTCACGTCAGGGATGAAATCATCTG -GCAATAGCGACGGCATCCGCAGCTCGACTTCTGTTTGCTGGCTGGTGAGATCTTCCAGCGACGGCTCGCGTCCGG -CTTTCAGTGCATCGACGGCGTTTTCCAGCAACTCCATATACAGCGAGAAACCGATGGTTTCCATTGAGCCGCTTT -GTTCTTCGCCAAGCAGTTCACCCGCGCCGCGAATCTCCAGATCGTGCGTTGCCAGCGCAAAACCTGCCCCGAGAT -CTTCCAGCGAGGCAATTGCTTCAAGACGTTTTTGTGCATCGGTAGTCATCGCTTTTGGATGCGGTGTCAGCAACC -ATGCATATGCCTGATGATGCGAACGTCCGACGCGACCGCGTAACTGGTGCAGCTGCGCCAGACCGAAGTGATCCG -CGCGTTCAATGATAATAGTGTTGGCTGTCGGGATGTCGATCCCGGTTTCGATAATGGTTGTACAAACCAGCACGT -TGAAACGTTGATGATGGAAATCATTCATCACCCGTTCCAGTTCGCGCTCGCGCATCTGCCCGTGACCGATGGCGA -TCCGCGCTTCTGGCACCAGTTCTGCCAGCCGTTCGGCGGCTTTCTGAATGTTTTCCACATCATTGTAGAGATAAT -AAACCTGTCCTCCGCGCAAAATTTCACGCAGGATCGCCTCCCGGACCACCATGCTGTCATACTCACGGACAAAGG -TTTTAACTGCCAGACGACGGGCGGGCGGCGTGGCGATAATCGACAGGTCACGCATTCCGCTCATTGCCATATTCA -GCGTACGTGGGATCGGCGTTGCAGTAAGCGTCAGAATATCCACGTTCGCGCGCATCGCTTTAATGCGCTCTTTAT -GACGCACCCCGAAGCGGTGTTCTTCATCGACAATCAGCAGGCCTAAATCTTTAAACTTGACGTCACTTTGCAGCA -GTTTGTGCGTACCGATCAGAATATCGATTTTCCCTTCCGCCACTTCCGCAAGGATTTGCGTCTGCTCTTTGGCGC -TGCGGAAACGGGAGATCATTTCGATACGTACCGGCCAGTTGGCGAAACGGTCGCGGAAGTTGTCGTAATGCTGCT -GCGCGAGAAGGGTGGTAGGCACCAGCACCGCCACCTGCTTGTGGTTATCTACTGCCAGGAAAGCTGCGCGCATCG -CCACTTCTGTTTTACCAAAGCCAACATCGCCGCACACCAGACGATCCATTGCCAGCGGCTGACACATGTCGCTAA -GTACCGCATTAATGGCCTGCGCCTGATCCGGCGTGGTTTCAAACGGGAAGCTGTCGCAGAACAACTGATACTGCT -CACGATCGTGTTTAAACGCGAAGCCCTCTTTGGCGGCGCGTTGCGCGTAGATATCCAGCAATTCCGCCGCCACAT -CACGCACTTTTTCCGCCGCTTTCTGCCGCGCGCGTGACCACGCATCGCCGCCAAGTTTATGCAGCGGGGCGTTTT -CTTCCGCGCCACCTGCGTAACGGCTAATCAGATGCAGTGACGACACCGGAACATACAGTTTGGCGTCGTTGGCAT -AGGTGAGCATCAGATACTCGCCAGTAATGCCACCCGCTTCCAGCGTGGTCATTCCGGCATAACGACCGACGCCGT -GCTCCAGATGGACCACCGGCTGACCAATATGCAGTTCCGCAAGGTTACGGATCAGTGTATCGGGGTTGATGGTGC -GGCGAGAATCCTGACGACGACGGGCAACGCGTTCACCGAGCAGATCGCTTTCGCAAATCAGCGCCAGATTACGCA -CCGTATCGACAAAACCATGTTCGGCAGCGCCAATCATCAGATAACGCCCACGGTCGCTGGCTTCATCAAGACGCA -TAATGCGTTGCGGAGCAATTTTAATTCGTGCGAGCAGTTCACCCAGCGCTTCACGGCGACCTTCACTTTCTACCG -AGAACACCACCGGACCGTCGAAAGTCTCGAGGAACTTACGCAGCGCATCCAGCGGCGCTTTTTGTTGTGCCTGAA -CGGCCAGGTCTGGCAGTTTCTGGAAACCTAAATTGGCATTCGCGGCTTTTGTCGGTAAATGTTCAGTTTTTAGCT -GCACCCGGGGCCAGTTTTTCAGCTCTGAGAAGAGCTCGTCCACCCGCAGCCAGAGCGATTGTGGTGGCAACAGCG -GGCGCATCGGATCGACGCCGCGATTCTCAAAACGCGCCAGCGTGTCAGCCTGGAAACGTTCGGCACTGGTTTCCA -GATCGCCAGTATTCACGAGCAAGGTATTGGCAGGGAAATAACTGAACAGCGGCGGCAGTGGTTCGCTGAAGAACA -ATGGCTGCCAGTACTCGATCCCGGCAGGTAATGTGCCTTTACTCACTTGCTGGTAAATATGTTCTGGATCGCGCT -TCACTTCGAAGGTATCGCGCCACTGGCTGCGGAACAGTTCAATTGCCGCTTTATCGGTCGGAAATTCGTGCGCGG -GCAGCAGATTGATCGCTTCTACTTCCTCCAGCGTGCGCTGGCTGTCGACGTCAAACACCCGCAGGCTGTCGATTT -CATCATCAAAGAAATCAAGACGATAAGGCAGCTCACTCCCCATCGGGAAGAGATCCAGCAACGCGCCGCGCGTGG -CGTATTCGCCGTGCTCCATCACCTGGTCAACATGGCGATAACCGGCGCTGTCCAGTTGGGTTCGTAATGCATCTC -GTGACAGGCGCTGACCTTTTTTCATCACCAGCGCATGACCGTGGAGAAAACTGTGTGGGCAAACGCGCTGCATAA -GCGTATTCACCGGAACAATCAGTACGCCACGCTGCATCGTCGGTAGCTGGTAAAGGGTGGAAAGGCGCGAGGAGA -TAATGTCCTGATGAGGCGAAAAACTGTCGTAGGGAAGAGTTTCCCAGTCCGCCAGATTCATCACCATTTGATCGG -TAAACTGGCTGATTTCATCATGCAAACGCAGAGCATTTTGCATATCTGGTGCAATGAGTACCACCGGACCGGCGT -GACGTTCGGCAATTTCCGCTACCAGCGTTGCACAGGCTGCGCCGGTTAACTCGCCCAGCAGACGCTGCTCACCCG -CTTTGACGGGCAGCGTATAACGATATTGTTCAGGCATAACGGTTGTCAGATTCTCGTTAGGATATGCCTCAACAT -ATGGGGGCATATCTCTGATAAGCAATGCTGTTCATTATCCGTAATCGACATGGTTTAGCAAATTGAATCGCCCCG -GCTGGGGCGATGGCTTAGCGGGAGTAACTGACGGCAGCGGGCAGTGAAGGCGGGGAGAACAACAGATCGCTGAAT -GCACGCTGTGAAAGTTTTCTTACCAGCAAGCCCGCAACAGTACAGATGAACAAACTGACAAAGGGATAAACCAGC -AGGAGTGTCAGTTCGACTTGCGGCGACCAGCGTGCTGCGTTCATTTGCGCAAGCAGAGTTAAGCTGAATATTTCA -ACCAGAATGCGATGGGTGGTGTAGATAGCAATGGTGTTGGAGCCAATCACATTCAGCAGGCTGGTGGAGCGCATA -CCGAATCGTTGCTCGTATTGATAAAACAGCTTCATGATCACCACAATCGATACCAGCGACAACAGCAGCGAGATA -GTAAACAACCAGGCACCGACCGCCAGAACGGTAAGCAAAGAAGCCATCAGCAGATGGCGGCGCAACGGCACCTCT -TTAACACAGGTCATTATTGTTGCGCCAAACCATGCGCCAAGGCTGTAATAAGGCAAATTGCGGATCACACTGTTC -ATTCCCCACCACGGCGTGGGAACGAAATTAACCGCCACACTCAGCAGTACAAACAAGGCGAATAGTGGCAGCGCC -AGACGGCTAAAAATTTTACATACCACGAAATAGACAATTAACGCATACAGATACCACAAGCTGGTGCTGGCGGTG -ATCATCCCGTGCAGGAACTCACCGGTGGAATCGGCATAAGCGGCATTGGAGGCATTGCTTAAATCGCGCTCAGGT -GCCAGCCACTGGTTCAGCGCACTTAACGCCAGCCACTGCACCACGCCCCAAAGCGCCAGCACCCAGAAGATGTTC -CAGATCCGTTTATCGAGACAATTTCCCCACGGTACGCTGTCGATATAGCGGCGAATCAAATAGCCGGATATAAAG -AAAAAAACCGGCATACGAAAGGGGGCAAGGTAAAGATTGAAATAGATCCAGCATTTGCTCAGGACTTCCGATAAC -GGATGCTGAAAAGTGGTCAGATGCGGATAAAAGGTAATGACCGAGTGATAAATCACCACCAGACAAATACATAAC -CCTTTGATCTGGTTAATCCATAGCTCTTTTTGTTTCATCAGGACAACACGCTCTTTTTTAATTTACATGCGGTTG -ATCCTGCGGGTTATGACCCGAGGTGTAATGGGTATCTGTCTGTATTGGATGATTTTTCAGATTAAGATCAGGCGG -CAAGATTGATGATAAAACATGGCAATTTAGCCGATTGATTTACGGGGGCTTTTCAGATTAGCCCTGACGATCACT -TACAGTTCAGACGTTTACCCATCTTGCTTTCGCTTATATACTCGTGTCTTTGCTACAGCAACCAGACGGATTTCA -TGTACCAACCTGTCGCTCTATTTATTGGCCTGCGTTACATGCGTGGGCGTGCAGCGGATCGCTTCGGTCGTTTCG -TCTCCTGGCTTTCTACCATCGGCATTACCCTCGGGGTGATGGCGCTGGTCACAGTATTGTCAGTGATGAACGGCT -TTGAGCGCGAGCTGCAAAACAACATCCTTGGCCTGATGCCACAGGCAATTCTCTCTTCTGAGCATGGCTCTCTTA -ACCCGCAGCAACTCCCAGAAACGGCAGTCAAACTGGACGGCGTTAATCGCGTCGCACCTATTACTACCGGTGATG -TGGTACTGCAAAGCGCGCGCAGCGTGGCGGTCGGGGTGATGCTCGGTATCGACCCGGCGCAAAAAGATCCACTTA -CACCGTATCTGGTCAATGTGAAACAAACTGACCTCGAGCCGGGGAAATATAATGTCATCCTCGGCGAACAACTTG -CCTCACAGCTAGGCGTTAATCGCGGTGATCAAATCCGCGTGATGGTACCATCTGCCAGCCAGTTCACGCCGATGG -GGCGTATTCCAAGCCAGCGCCTGTTCAATGTGATTGGCACTTTCGCCGCCAACAGTGAAGTCGATGGCTATGAAA -TGCTGGTGAATATTGAGGATGCCTCGCGTCTGATGCGTTATCCGGCAGGCAATATTACCGGCTGGCGTTTGTGGC -TGGATGAGCCGCTGAAAGTCGACTCATTAAGTCAGCAAAAACTGCCTGAAGGCAGCAAATGGCAGGACTGGCGTG -ATCGTAAAGGCGAGTTGTTCCAGGCCGTACGCATGGAAAAAAATATGATGGGTTTACTGCTGAGCCTGATTGTCG -CCGTTGCGGCGTTTAACATTATTACCTCACTAGGGCTGATGGTAATGGAGAAGCAGGGCGAAGTAGCGATCCTGC -AAACGCAAGGCTTAACTCCGCGACAAATCATGATGGTCTTTATGGTGCAAGGGGCCAGCGCCGGGATTATCGGTG -CGATCCTCGGAGCGGCGCTTGGCGCCCTGCTTGCCAGCCAGTTAAATAATCTGATGCCGATAATCGGCGTCCTGC -TTGATGGCGCGGCGCTGCCGGTGGCTATCGAACCTTTACAGGTCATTGTTATTGCGCTGGTGGCGATGGCTATCG -CGCTGCTGTCTACGCTTTACCCTTCATGGCGCGCTGCCGCCACTCAACCCGCTGAGGCTTTACGTTATGAATAAG -ATCCTGTTGCAATGCGACAACCTGTGCAAACGCTATCAGGAAGGCAGTGTGCAAACCGATGTGCTGCACAATGTC -AGTTTCAGCGTCGGCGAAGGTGAAATGATGGCGATCGTCGGTAGCTCTGGTTCCGGTAAAAGTACCTTGCTGCAC -CTGCTGGGCGGGCTGGATACGCCAACCTCCGGCGATGTGATTTTTAATGGTCAGCCAATGAGCAAACTGTCGTCG -GCAGCGAAAGCTGAACTGCGCAACCAGAAGCTGGGCTTTATTTATCAGTTTCACCACCTGCTGCCGGATTTTACC -GCCCTGGAAAACGTGGCTATGCCGCTGCTGATTGGCAAGAAAAAGCCCGCTGAAATCAACAGCCGTGCACTTGAG -ATGTTAAAAGCGGTGGGGCTGGATCATCGTGCGAATCACCGCCCATCTGAACTTTCTGGCGGCGAACGCCAGCGT -GTGGCGATTGCCCGTGCGCTGGTGAATAACCCGCGCCTGGTACTGGCGGATGAACCTACCGGTAACCTCGATGCG -CGTAACGCCGACAGCATCTTCCAGTTGCTTGGGGAATTGAATCGCTTGCAGGGCACCGCCTTCCTGGTGGTTACT -CACGACCTGCAACTGGCGAAACGTATGAGCCGCCAGTTAGAAATGCGTGATGGTCGTCTGACGGCGGAACTGAGC -CTGATGGGGGCGGAGTAATGGCGATGCCTTTATCGTTATTAATTGGCCTGCGTTTTAGTCGCGGACGGCGGCGCG -GCGGCATGGTGTCGCTGATCTCCGTTATTTCTACCATTGGCATTGCCCTCGGCGTGGCGGTATTGATCGTCGGCT -TAAGCGCGATGAACGGCTTTGAACGCGAACTGAACAACCGTATTCTGGCGGTGGTGCCGCATGGTGAAATCGAGG -CGGTGGATCAGCCGTGGACTAACTGGCAGGAAGCACTGGATCACGTGCAAAAAGTGCCGGGTATTGCCGCTGCCG -CGCCGTATATCAATTTCACCGGGCTGGTGGAAAGTGGCGCGAATCTTCGCGCAATCCAGGTGAAGGGCGTTAACC -CGCAACAGGAACAGCGTCTGAGCGCATTACCCTCGTTTGTCCAGGGCGATGCGTGGCGCAATTTTAAAGCGGGCG -AACAGCAAATTATCATCGGCAAAGGCGTGGCGGATGCGCTGAAAGTGAAGCAGGGGGATTGGGTGTCGATTATGA -TCCCCAACTCGAATCCCGAGCATAAACTGATGCAGCCAAAACGTGTGCGTTTGCACGTTGCCGGTATTTTGCAGT -TGAGTGGTCAACTCGATCACAGTTTTGCCATGATCCCGCTGGCGGATGCCCAACAATATCTTGATATGGGTTCCA -GCGTGTCAGGTATTGCCCTTAAAATGACGGATGTTTTCAACGCCAATAAGCTGGTACGCGATGCGGGTGAAGTGA -CCAACAGCTATGTTTATATTAAAAGCTGGATTGGTACTTACGGCTATATGTATCGCGATATCCAAATGATCCGCG -CCATTATGTATCTGGCGATGGTACTGGTGATTGGCGTGGCCTGTTTCAACATCGTCTCCACCTTAGTGATGGCGG -TGAAAGACAAGAGTGGCGATATCGCAGTATTAAGAACGCTGGGGGCGAAAGATGGTTTAATTCGCGCCATCTTTG -TCTGGTATGGATTGCTGGCAGGGCTGTTCGGCAGCCTGTGTGGTGTGATTATCGGCGTAGTGGTTTCACTGCAAC -TTACCCCGATTATTGAGTGGATTGAAAAGTTGATCGGTCATCAGTTCCTCTCCAGCGATATCTATTTTATTGATT -TCCTGCCATCGGAATTGCACTGGCTGGACGTCTTCTACGTACTGGTCACAGCATTGTTGCTGAGTCTTTTGGCAA -GTTGGTATCCGGCGCGGCGCGCCAGTAATATTGACCCTGCGCGAGTCCTTAGCGGCCAGTAAAGGCAGTACATTA -AAACAAGGAGCGGCAATGTATTACGGGTTTGATATTGGTGGAACAAAAATTGCGCTTGGCGTGTTTGATAGCGGT -CGGCAGTTGCAGTGGGAAAAGCGGGTGCCGACACCGCGTGACAGCTATGACGCATTTTTAGATGCAGTGTGTGAG -CTGGTAGCTGAAGCTGACCAACGTTTTGGCTGTAAAGGTTCTGTCGGCATCGGTATTCCGGGAATGCCGGAAACA -GAAGATGGTACGCTGTATGCCGCCAATGTCCCCGCTGCCAGCGGTAAACCGCTGCGTGCCGACCTGAGCGCACGT -CTTGATCGCGATGTACGCCTTGATAACGATGCCAACTGTTTTGCCCTTTCAGAAGCCTGGGATGATGAATTTACT -CAATATCCACTGGTGATGGGGTTGATTCTCGGCACCGGTGTTGGCGGCGGGCTGATTTTCAACGGCAAACCGATT -ACCGGTAAAAGCTACATTACCGGCGAGTTTGGCCATATGCGTCTGCCGGTTGATGCGTTAACCATGATGGGGTTG -GATTTCCCGTTACGCCGCTGCGGCTGTGGTCAGCATGGCTGCATTGAAAATTATCTGTCTGGTCGCGGTTTTGCG -TGGCTGTATCAACACTATTATCATCAACCGTTGCAGGCTCCCGAAATTATTGCGCTTTATGATCAAGGCGATGAG -CAGGCAAGGGCGCACGTTGAGCGTTATCTGGATTTATTAGCGGTTTGTCTGGGAAATATCCTGACCATCGTTGAC -CCTGACCTGGTCGTCATTGGTGGTGGCTTATCGAATTTCCCGGCAATCACAACGCAACTGGCGGACAGGCTGCCT -CGTCATCTCTTACCTGTAGCTCGTGTTCCGCGCATTGAACGCGCGCGCCACGGTGATGCGGGAGGAATGCGTGGT -GCGGCCTTCCTACATCTAACCGATTAAACAACAGAGGTTGCTATGCTGTCGCGTCGGGGTCATCGGTTAAGTCGT -TTTCGTAAAAATAAACGCCGCCTGCGCGAGCGTTTGCGTCAGCGTATTTTTTTCAGAGATAAAGTGGTGCCGGAA -GCAATGGAAAAACCAAGAGTACTCGTACTGACAGGGGCAGGAATTTCTGCGGAATCAGGTATTCGTACCTTTCGC -GCCGCAGATGGCCTGTGGGAAGAACATCGGGTTGAAGATGTGGCAACGCCGGAAGGTTTCGATCGCGATCCTGAA -CTGGTGCAAGCGTTTTATAACGCCCGTCGTCGACAGCTGCAGCAGCCAGAAATTCAGCCTAACGCCGCGCATCTT -GCGCTGGCTAAACTGCAAGACGCCCTCGGCGATCGCTTTTTGCTGGTGACGCAGAATATCGACAACCTGCATGAA -CGCGCAGGTAATACCAATGTGATTCATATGCATGGGGAACTGCTGAAAGTGCGTTGTTCACAAAGTGGTCAGGTT -CTCGACTGGACAGGAGACGTTACCCCAGAAGATAAATGCCATTGTTGCCAGTTTCCGGCACCCTTGCGCCCGCAC -GTAGTGTGGTTTGGCGAAATGCCACTCGGCATGGATGAAATTTATATGGCGTTGTCGATGGCCGATATTTTCATT -GCCATTGGCACATCCGGGCATGTTTATCCGGCGGCTGGGTTTGTTCACGAAGCGAAACTGCATGGCGCGCACACC -GTGGAACTGAATCTTGAACCGAGTCAGGTTGGTAATGAATTTGCCGAGAAATATTACGGCCCGGCAAGCCAGGTG -GTGCCTGAGTTTGTTGAAAAGTTGCTGAAGGGATTAAAAGCGGGAAGCATTGCCTGATGCACTACGCTTATCAGG -CCTGCAAGGGGACGCAATTAATTGAATTTGCGGGTTTTGTGGGCCGGATAAGGCGTTCGCGCCCCATCCGGAATA -ATACACGCGCACTTTTCCGGCCTCTTTTATCGTTTACTCGTCAATAACAATGCGGCAATAAACGTACAGACACCA -ATTAGCCCTGCCCAGAGTGGCGATATTCTGGTAATCGCAAAGCTATTATCGATATACAAACATAAAGCCTGATAA -CCCATATTGGCAATAGTCATCGCCACTGCAAATTTTAACGCATAAATAAAACGAGTCGTGTAGTAAAAGATCCTG -GAAAATAAGATAAACGTCGCAGCCCAGGCGATAAAACCTAATGTGTTGGTGCTGCCGGGGGGAGCATTTTCATGC -TGTTGTCCTGGATGCGGATAATACGTTAGTGGCGGCGTCGATTGTTTTAATATCTGTGCTTGTAGAACAGCCAAT -GCATTATTGATTCCCTGATACCAGAGATCTGCATTTAAATAAGCCAGCGTGTGATTTTCTATCAGAAGGCCGAGA -TGTTTATCGTCCAGACCACTTTCAACCTGGCCGTTGGTGATCATAATTAACCGTGGTTCGCGGGTAGTAAATAGT -AACAGAACACTTCCTTTTACATCACTCAATGAAGATGACGCATGCGCCAGCATCGCTTTACCATTTTGTCTGAGA -CTGGCTTCATTATTAATGTCGGGTAAAACCACAATAAACGGTGCAATTCCCGTTTGTTGGCGAAAAAGCTCGGCT -TTATGCGCGATCTCTTCAGCATCTGGTACAGTACCGGTAACGTCCGTAAAAAGTGTCTTCATTATTGGAATTAAT -GGCTTGCTGGCTGCTGTCAGAGGCAGGAGTATCAGTAAACTGAGCAGTATAATGAATTTTTTCATGGGCGGGACT -TCCGTTTCCTGCGTGATTTTTTAGAGGAGGGCATACTTATTAATAAACCGACGGCGATAAAAATAACGCCCATAA -TGCCGATAAACCCCCATTTAAAAAAATTAACCCACGGGTTATTTATCTCAGCCTTTTCAGGATGCCCGGGAGAAT -AATAAACATTAACTTTATCGCCTTCGCTGTCTTCATAAAAATCGCTGCCGATACTCGAATTGAAAATTAGCGTGT -AATCTGGCGTCGGTCGAAAGGCAACGACGGGATACCACGAACCATCTTTACCCGTGCGATGAGAATGACTGGAGT -GCCAGACGGTATCAACAATGACGCCTTCGGTATGAATCGCGTCTTTGCTATAGGTGAACTGGTTATAAAAGACAA -CAACAGAAATGAGGATCAGTACCAGACCGATACCGAGGAATATACGAAAGAAAACTTTACTGTCCTGACTCATTA -GCCACATCCTTGCTAACTAAAAAACGGGCGGTAATACCACCGCCCGCTTGCTGAATTAACGTCCTGCTTTCAGCT -TCTGATAATACTCTTCATAAATGCTGCTGGCTGCGCCAACGTCATTCTGCCATTCGCCATTTTTAATGGTTTCAG -CATCCGGGTAGAGTGTTTTATCGTTCGCCACTTCTGGACTTAACAGCTTACGCGCCGCAAGGTTTGGCGTTGGAT -AACCGATAGTTTCAGCAACCTGTTTTGCCACATCCGGGCGCAGCAGGAAGTTGATCAATTTCAGCGCGCCTTCTT -TGTTTTTGGCATTTGCCGGGATCGCCAGGCTGTCCATCCAGAAAATGCCGCCTTCTTTCGGCCACACCACGTCAA -TTGGCGTACCCGCCTGGCGTGCAACGAAAGCAGAACCGTTCCAGATCATGCCGAGGTTAACTTCGCCTTCCATGT -ACGGGTTCGCCGGGTTATCGGAGTTAAAGGCTGCCACGTTTGGCATCAGTTTTTTCAGCTCGTTATATGCAGCTT -CAATCTCTTTCGGATCGGTGGTGTTACCGGAGTAGCCCAGCTTACGCAGCGCCATCTGGAACACTTCACGGGCAT -CGTCGGTCAACAGCAGGCTGCCTTTGTACTCTGGCTTCCACAGATCGGCCCAGCTGGTGACAGATTTCGGATCCA -CCGCATCACCGTTAACACCAATCGCCGTCGCACCCCAGATATACGGAATGGAGTAGTCGTTATTCGGGTCAAAAG -GCTTGTTGAGCATGTCTGGATCGAGATTGCTGAAGTTTGTTAACTTCGACTTGTCGATCTTCTGGATCATCCCTT -CTTTACGCATTTTATCAACGTAATAGGTTGAAGGAACCACCAGATCATAGGCACCGTCTTTGTATGTTTTCAGCT -TGGCGTACATGGTTTCGTTCGACTCGTAAGTCGAATAGATAACCTTAATACCGGTTTCTTTGGTGAACTGTTCAA -GCAGTCCTGGCGGCACGTACTCGGTCCAGTTGTAGAAATACAGCGTGTTGTTGTCATCGGCGTGAGCGGCGCTCA -TGCCCAGTGCCAGAGCACCCGCCGCGAGCAGGTGGCGTGACCATTTTTTCATTTAACGTCCCCTGTGTTACCTTT -CGTTTTATCACGAGCAATAAGCTGGCTGGCAATAACCATCACCAGCGACAGCACCAGTAATATGGTTGCCAGCGC -GTTAACTTCCGGCGATACGCCGACTTTGACCATCGAATAAATTTTTAACGGCAGAATTTCATAACTTGGTCCGGT -GACGAACGAAGAAACTACCACATCGTCCATCGACAGGGTAAAGCTTAACACCCAGCCCGCCGCCACCGCTGGCAT -TGCCAGTGGCAGAATGATTTTTCGCAGAATGGTAAATTCGCTGGCACCGAGATCTTTCGCCGCTTCCAGCATTCG -CACGTCAAAACCTTTCAGGCGCGAATACACCGTCACCACCACAAATGGCAGGCAGAAGGTGATATGCGAGAACAG -CAGCGACCAGAAGCCAAGCTGAATACCCAGCAGCATAAACAGCACCAGCAGCGAAATCGCCATCACGATATCTGG -TGACATCATCACCACAAACAGCATTCCGCTAACGAACGGCTTACCACGAAAGCGATAACGGTACAGCGCAACTGC -CGTCAGTGAACCGATAAGCGTAGCAAACGTCGCCGAAAACACCGCCATTGTTAGTGAATGCTGCGCTGCCTGTAA -CAGGCTGTCGTTGTTCATCAGCAGGCTATACCATTTGGTGGTAAAGCCCTGCCAGTTGATGCCAAAGCGCGAGCT -GTTAAAGGAGTTCACAATCAAAATAATGATTGGGATATACAGGTACGCGTAGATAGCGGTCATAAAACCGCCGCG -AAGCAGTCGACCGATCATTCGAGTTCCACCTTCTTATTCAGCAAACGAGAAGCGCGCCAGTAAACCAGCAACATC -AGGCCCATTACGATAGTCAGCGTAATGCTGGTAGCTGCACCAAACGGCCAGTCACGAATATTAAGGAACTGGACC -TTGATGACGTTACCGATCAGCAGGTTTTTCGCACCGCCCATCAGGTCGGATACATAGAACAGGCCCATCGCTGGC -AGCATCACCAGCAGACATCCGGCAATAATTCCCGGCATCGTCAGTGGAATAATGATACGGATAAAAGTCTGTAAC -TTGCTGGCACCGAGATCGCGCGCCGCCTCAAGCAACGGCTTATCCAGTTTTTCGATACTGGAGTACAGCGGCATC -ACCATAAACGGCAGCAGAATGTAAACCAGACCGATAATCACCGCACTGGGCGTGAACATGATACGGATTGGTGTG -TCGATAACGCCCAGCCAGAGCAAAAACTCGTTGAGATAGCCTTTGGTGCTGAGGAAAATTTTCAGCCCGTAGATA -CGAATTAATGAGTTGGTCCAGAACGGAACAATCAGCAGAAACAGCAGCAGCGGACGCACCTTGTGTGGCAACTTC -GCCAGAAACCAGGCAAACGGGTAGCCCAGCACCAGGCAGGCGAGGGTGGCGATCAGCGCCATATTCAGCGAGTGC -AATAGCACTTCAAAATAGAGCGGATCGAGCAGACGCGTGTAGTTATCCAGCGTAAAGACCATTTTGACAAAACTG -GCGTCGTCGCGGGTCAAAAAGCTGGTGCCAATGATCATCAGGTTGGGCAGAAAGACAAACAACACAAGCCAACCG -ACAATAGTGACAATCACTACATTCTGGAACTTACTTGTGTTCTTCATCAGCCAGTACGACCTCCCAGCTTTCTAC -CCAATTAATGGCCATTTTTTGGTCGAGAGAGTGGTCAAAGTCAGGATCGTCTTCATTGAAGAATTCGCTGACCAT -CACCATCTTGCCATTTTCCAGTTCAACAACCGACTCCAGCGTCATGCCTTTGTAGTTACGCTCGCGAACGTAACC -AATCAGCCCTTCAGCGTGGTTGTCGTCGTTAATCTCTTCAACACGTAAGTCTTCCGGGCGCAGCAGAACATGCAG -TTTTTGCCCCGGTTCAACGGCGAAGTTAACGTAGATATTACATTCGCGGCCTTCAACGTTGGCGCGTACGCGCTG -CTCGTCTAGACGTTCGATGACAGTGGCGTTAAACATATTGATTTCGCCAATGAAGCCGGCAACAAACAGGTTTTT -CGGCTCTTCGTAGATTTCACGCGGCGTGCCGTCTTGCTCAATGCGACCATCGCGCATCACCACAATCCTGTCTGA -CATGGTGAGTGCTTCTTCCTGGTCGTGAGTCACAAAGACGAATGTAATGCCAAGCTTACGCTGTAACGCTTTCAG -CTCGTTCTGCATTTGCTTACGCAGTTTGTAATCCAGCGCTGAGAGCGACTCATCCAGCAACAACAGACGAGGCTT -GTTAACCACCGCGCGAGCAATGGCGACGCGTTGCTGTTGACCACCAGAGAGCTGATGCGGTTTGCGTTGAGCGAA -GGTTTCCAACTGCACCATCCGCAGGGCTTCCATCACGCGGGGCGTAATTTCAGCAGCGGGGGTTTTTTGCATGCG -CAACCCAAAGGCCACATTTTCGAACACGGTCATGTGGGGGAAAAGTGCGTAGCTTTGGAAAACAGTGTTCACATA -GCGGTTTTCCGCCGGAACGTGGGTGATGTCCTCGTTATCCAGCATGATGCGTCCGGAATCAACAGTTTCCAGACC -TGCAATCAGGCGAAGAACGGTTGTTTTACCGCAGCCAGAAGGGCCAAGCAGCGTGAGGAACTCGCCATTGTTGAT -AGTCAGATCCAGCTGGGGAATGACCTCTTTACCATCAAAGCATTTGCGAATTCCCGCCAATTGCACCAGCGGTGA -AAGCGAACTCGGTTGTTTATTCAATTTTTTACTCTGTCCCATGTAAACGCAACGGATGGCTTACCGATGCGGGGT -TTGTGGTTAACCACCTTGGTGACTCTTAATGAGGGCGGTAATTCTACGGCAAACCGCTTGAATCGCCAATCTTTG -TTGTGAATTACTGGCTTAGCTTTATATTCATTAAGGTAATGCTGATAAATATTCCCGCTTGCAGGGGTAAAAGTG -ACCTGACGCAATATTTGTCTTTTCTTGCTTCTTAATAATGTTGTCACAAAAAGTGAGGGTGACTACATGGATAAA -CTACTTGAGCGATTTTTGAACTACGTGTCTCTGGATACCCAATCAAAAGCAGGGGTGAGACAGGTTCCCAGCACG -GAAGGCCAATGGAAGTTATTGCATCTGCTGAAAGAGCAGCTCGAAGAGATGGGGCTTATCAATGTGACCTTAAGT -GAGAAGGGCACTTTGATGGCGACGTTACCGGCTAACGTCCCTGGCGATATCCCGGCGATTGGCTTTATTTCTCAT -GTGGATACCTCACCGGATTGCAGCGGCAAAAATGTGAATCCGCAAATTGTTGAAAACTATCGCGGTGGCGATATT -GCGCTGGGTATCGGCGATGAAGTTTTATCACCGGTTATGTTCCCGGTGCTGCATCAGCTACTGGGTCAGACGCTG -ATTACCACCGATGGTAAAACCTTGTTAGGTGCCGATGACAAAGCAGGTATTGCAGAAATCATGACCGCGCTGGCG -GTATTGCAACAGAAAAAAATTCCGCATGGTGATATTCGCGTCGCCTTTACCCCGGATGAAGAAGTGGGCAAAGGG -GCGAAACATTTTGATGTTGACGCCTTCGATGCCCGCTGGGCTTACACTGTTGATGGTGGTGGCGTAGGCGAACTG -GAGTTTGAAAACTTCAACGCCGCGTCGGTCAATATCAAAATTGTCGGTAACAATGTTCATCCGGGCACGGCGAAA -GGAGTGATGGTAAATGCGCTGTCGCTGGCGGCACGTATTCATGCGGAAGTTCCGGCGGATGAAAGCCCGGAAATG -ACAGAAGGCTATGAAGGTTTCTATCATCTGGCGAGCATGAAAGGCACCGTTGAACGGGCCGATATGCACTACATC -ATCCGTGATTTCGACCGTAAACAGTTTGAAGCGCGTAAACGTAAAATGATGGAGATCGCCAAAAAAGTGGGCAAA -GGGTTACATCCTGATTGCTACATTGAACTGGTGATTGAAGACAGTTACTACAATATGCGCGAGAAAGTGGTTGAG -CATCCGCATATTCTCGATATCGCCCAGCAGGCGATGCGCGATTGCGATATTGAACCGGAACTGAAACCGATCCGC -GGTGGTACCGACGGCGCGCAGTTGTCGTTTATGGGATTACCGTGCCCGAACCTGTTCACTGGCGGTTACAACTAT -CATGGTAAGCATGAGTTTGTGACTCTGGAAGGTATGGAAAAAGCGGTGCAGGTGATCGTCCGTATTGCCGAGTTA -ACGGCGCAACGGAAGTAAGCGAAAAGGGATGCGGCATGTGATGCCGCATCCGGCTTAAATCCAAACTTACCCTTC -GAAGAACCAATACCCGCTATTGACCAGCGCCGCGAGCATCGCGAGGAATGACGGATCTTCCAGCGCATCGCCAAA -ATTCTCCGCAGTCAGCGCAATGTTGCTGGCGAGTGCATCCAGTGCCGGACGGTGCGGGGAATCGATCTTCTCACC -ATTGGCATACACGTCGTCGCCAATGCGCAATACGCGCAGACCACCCAGGCGCACCAGCACTTCACCTTGTTTCAG -CGCATCGTAGATTTCATCCGGCTGATAAGGCGGCTCTGGCGGCGCGATATCCAGTTCATGACGTGACTGGGATAT -AAACTCGCCAAACCATTGCTTAAAGTGTTCCGGCTGGTTGATCAATTCGAGCATCATCTCACGCAGTTTATCCAT -CTCTTGCGGCAGAACATCCGCAGGATGAGCGCGAGGTGGAACATCCGGATCGCTGTAGTAGTTGCCGCCCAGTTC -ACGTTGCAGCACATAATCGGCAAATCCACTAATCAGTTCCCGCGTATTTGGCGCGCGAAAGCCCACGGAATAGTT -CATCGCATTTTCCAGCGCGTAGCCTTCATGCGGGAATCCTGGCGGAATATAAAGAATATCACCAGGCTCCAGCTC -TTCATCGATGATGGCTTCGAACGGATCGACCTGTAACAGATCCGGATGTGGGCAGTGCTGTTTCATTTGCAGCTT -TTCGCCCACTCGCCAGCGACGACGTCCGGTACCCTGAATGATAAACACGTCGTACTGATCGAGATGCGGGCCGAC -GCCGCCGCCGGGTACAGAAAAAGAAATCATCAGATCATCAATACGCCAGTCCGGTAGTTCACGGAACGGTCGCAT -CAGCGCGGCGGTCGGCTCATGCCAGTGGTTCACTGCCTGTACCAGTAATGACCAGTTGGTTTCACCGAGATGATC -GTAGCTTTCGAACGGGCCGTGGCTGACCTGCCATTTGCCATCCTGGTGACTGACCAGTCGACTGTCAACTTCGCT -TTCCATCGCCAGACCCGCCAACTCGTCTGGAGAGATCGGGTCAATAAAATTATTAAAGCCGCGTTTTAACACCAC -CGGGCGTTTCTGCCAGTGACGTTCAAGAAAATCGGGCCAGTTAAGAGTGAGTTGGTATTCCATGTTAAGCATCCA -CAGGCTGGTATCTGCAACCGATTATAACGGATGCTTAACGTAATGCGTGAAGTATGGGCATATTTATTCATCTTT -CGGCGCAGAATGCTGGCGACCAAAAATCACCTCCATCCGCGCACCGCCCAGCATGCTCTCTCCGGCGACGATTTT -ACCCTCATATTGCTCGGTGATTTCGCGGGCTACCGCCAGCCCTACACCTTGCCCAGGGCGTAAAGTATCAACCCG -TTGACCACGGTCGAAAATGACCTCTCGCTTGCTTAATGGAATACCGGGGCCATCATCCTCGACCACAATATAGAG -ATGCTCGTCGGTTTGCCTTGCAGAAATTTCGACAAACTCGAGGCAATATTTACAGGCATTATCCAGCACGTTGCC -CATCACCTCGACAAAATCGTTCTGCTCACCGACAAAGCTGATCTCTGGCGAAATATCGAGAGAGATATTGACCCC -TTTGCGTTGATACACTTTGTTCAGCGCTGAGGTGAGATTGTCCAGCAGTGGGGCGACCGGATGCAGCTCGCGGCT -GAGCAATGTCCCGCCGCGCATACTGGCACGATGCAGGTAGTAGCCAATTTGCTGTGAAATGCGGCTGATTTGCTC -CAGCATTACCGGCTCAGCATCACTGACGCTCATCTTTTCACTACGCAGAGAACGCAGCGTACTTTGCAGCACCGC -CAGTGGCGTTTTCAGACTATGGGTCAGGTCGGTGAGCGTCGTACGGTATTTGTCGTAACGTTCGCGTTCACTTTT -TAACAATCGGTTCAGGTTTCGTACCAGACTGGTCAGTTCTCGCGTTGTGGCTGGATTGAGCAATTCGCGGTTATG -TTCTTCCAGTTCGCGGACTTCTTTTGCCAGGGCTTCGATGGGGCGTAAACTCCACCAGGCGGCGACCCACAGCAG -CGGGATCACTAACAGCAGATTGGCTGAGAGCACATAGATAAACCAGCTCCAGACCATATAGGAACTTTTTAGCTC -CACCGGAATGGTATCCACCACCACAATGGTTAATTTTGGCATCCGCGATGTTGCCGGGTAGACGTTTACTGCCAC -CGAGTGGGTCATCTCCGCGTCGTCATCATCTTCCCGCACTTCCTGCAACTGTTGCTGTATCGAATGATCTCCACT -CAGCAAGAGGCTGGTATCGTTAACATCCGCTTCAATTTCATGAAAACCATTCGATTTCAGCCAGTCAGGCTGGAT -CATCTTCATCAGCCAGGGCACGTCACGTTGCGCCCATAAAAGCTGCCCGTTCTCATCATAAATTAGCGTCATGGT -GGGGCTTTGCTTGTCGATATTTTCGGGTAACTCGACATGCAACTTATTGTTTTCCCACTTCGCAAGGGTATAGAA -CAGATTGCTCTCGCCACGTAACAGCCGAAACGTAGTTTTATCGAAACTGACGCTATAACCGATCAGCGCGACCAT -TCCGTAGGCAAGCGAAAGCACCAGTACTACCGCTGCCGTTGCCAACAGAAAACGTACCCGCAGCGAGAGCGGGAA -AAAAAGACGCAGTAATTTTTTCATCAGCGCAATTCGAACAGATAGCCCTGGCCGCGAACGGTGGTAATCACTTCT -TGGGGATATTGTGCCTGAATTTTTTTGCGCAGACGTCCCATCAGTACATCAATGGTATGGCTTTCCCGCAGCTCC -GCATCCGGATAGAGTTGGAGCATTAACGAATCTTTGCTGACCACTTTGCCATTATTGCGTATCAACGTTTCCATA -ATAGTGTATTCGAACGCGGTCAGTTTGATCACTTCGTCATTAATAGATAATTCACGGCGAGAGAGATCAACCTGA -AACGGGGGGAGCGAAATGACCTGTGAAGCCAGACCGCTATTACGCCGCATTAATGCCTGCATTCGCGCCATCACC -TCTTCAATATGAAACGGTTTAGTCACATAATCATCAGCACCGGCACTTAATACTTCGACTTTGTCCTGCCAGCTT -TCACGGGCGGTTAATACCAGAATCGGCAGTGAAACATCGTTGCTACGCCAGCGGCGAATCAGTGACAGACCGTCC -TCGTCTGGCAATCCGAGATCGACAATCGCAATATCCGGTATATGTTCATTGAGATAATAATCGGCTTCTTTGGCA -TCTTCTGCGTCATCGACCTGATGACCAGCATCCTGAATCTGAACTTTAAGGTGGTGACGTAACAACGCATTGTCT -TCAACAACCAGTACGCGCATTTTTATTTCTCCCTGTCTTAATTATTAAAATAGTGTAACGCGATTATGTGGTTAT -GGGGGTAAACATTAAATAAACCAGCGGGGAGGGGAGGTAAAGTGAAAAAATAAAAAGCGGATAATCTTAATAAGC -AGGCCGGACAGCATCGCCATCCGGCACTGATACGAGGTTTATTTCAGCTCATCAACCATCGTGATAGCTCGACCA -ATATAGTTAGCCGGCGTCATCGCTTTCAGGCGGGCTTTCTCTTCTTCTGGCAACGCCAGACCATCGATAAACTGC -TTCATGCCTTCGGCGTCAACGCGCTTACCGCGAGTCAGCTCTTTCAGCTTCTCGTACGGTTTTTCGATGCCATAG -CGACGCATAACTGTCTGGATTGGTTCAGCCAGCACTTCCCAGTTGTGATCCAGTTCATCCAGCAGATGGTCACGG -TTCACTTCCAGTTTGCTCACGCCTTTCAGGGTGGATTGATATGCAATCAAGGCATAACCGATACCCACGCCGAGG -TTACGCAGCACGGTAGAGTCGGTCAGGTCACGCTGCCAGCGGGAAACCGGCAGTTTGCTTGCCAGATGCTGCAAT -ACCGCGTTGGAAAGGCCCAGATTCCCTTCGGAGTTTTCGAAGTCGATCGGGTTAACTTTATGCGGCATGGTGGAA -GAACCAATCTCACCAGCAATGGTTTTCTGTTTGAAGTGGTTAAGGGCGATATAACCCCAGACGTCACGGTCAAAG -TCGATCAGAATAGTGTTGAAGCGCGCAACGCAATCAAACAGTTCGGCAATGTAGTCGTGCGGTTCGATCTGGGTG -GTGTACGGGTTCCACTGAATACCCAGCGAGGTGACGAACTCTTCGCTGAACTGATGCCAGTCAACTTCCGGGTAA -GCGGCGATGTGGGCGTTATAGTTACCGACCGCGCCGTTGATTTTGCCGAGGATCTCCACCTGGTTAAGCTGGCGG -TACTGGCGCTCCATACGGTAGGCGACGTTTGCCATCTCTTTACCGATGGTTGACGGCGTGGCTGGCTGACCGTGG -GTACGAGACAGCAGCGGGATATCGCGATACTGAACGGCGAGATCTTTAATGCCATCAATCAGTTGACGCCAGTAT -GGCAGGATCACTTCATCACGCGCGGTTTTCAGCATTAATGCGTGGGAGAGGTTATTGATATCTTCCGAAGTACAG -GCAAAGTGGATGAATTCAGAAACCGCGTGCAGTTCCGGGATCTCCGCCACTTTTTCTTTCAGGAAATACTCAACC -GCTTTAACGTCGTGGTTAGTGGTACGCTCGATAGTTTTGATGCGCGCCGCATCTTCTTCGCTGAAACTGGCGACG -ATTGCATCAAGGTAACCGATTGCGTCGGCAGCAAAAGCAGGAACTTCCTTGATCGCTGCGTGCGCGGCCAGTTTT -TGCAGCCAACGTACTTCAACTTGTACACGGAATTTCAGCAAACCATATTCGCTGAAAATCCCGCGCAGCGCGCTG -ACTTTATCGCCGTAGCGTCCATCGACAGGGGAAACGGCGGTCAGTGAGGATAATTCCATAGATCACAACTCCGGG -GTTAAATGAGCAAGAATTTGTTTTGCCTGAGTGGTCAGGCGATTACGAGAAAACATCAGTTGCAGACGTCCGCCG -CCGACCTGGTGCCAGAGCACGGCGGCGCGAATGCCTGCCAGCAGGGTTGCGCGAACTTTCGCCTGCACTTGTGGG -CTTTGCAGTACAGCAGGGGAACCGGTGACCTGAATGCGCGGGCCAAGCGGGCTAATCACATCAACATAGATAGCA -GCCATCGCGCTCATCAGCGTTTCGGACTGTAAATCGAAGTGTTCGAGCTGGCGTTGCAGGCCGTTGATCCGGTTG -CCCAGAGTGTCGAGCGCGCCTTTCGCTGAGGAGAGTTTGCGCTCAAGCACCATCAAGCTGAGTGTGTAGCGGGTT -AATTCGGCGTTTAAGCCCTGGCGACTGCTGGCATTGAGCACGCCGAGCAGGGTTTCCAGCCCGACGCGCAGGTTG -GCTTCGCTACCGCCAAAAACCGCCAGCGTCGAGCTGGGGTTCATATCAATAATACTGTTGAGTGAGACGTGTAGC -GCATCGGCATCACAATGCCCCTGGTGAGCGAGTTGTTGCACCAGGCGTGCCGACTGACAAATACCGGCCAGGGCG -AGGGTGATGTCATAGTAATTCTTTGCCACGTTCACTGCTTCCTTGTTTTAAGTAAAGATAATAATCAGACCGGCA -GCGGCAGACGCTGCTCAATAATACCGCCACCGAGGCACACTTCACCGTTATAGAAGACGGCAGACTGGCCCGGCG -TCACGGCGGCAACCGGTTCATCGAAAATCACTTCAATGCGATCATCGTCCAGCGCCTTGACGGTGCAAGGGATAT -CGGTCTGGCGATAGCGGGTTTTTACCGTGCAACGCATAGTGCCGGTGAATGGTTCGCGATCGACCCAGTGCAACT -GCTGGGCAATCAACCCGACAGACATCAGCCGCGGGTGTTCATGGCCCTGAGCGACAACCAGAATGTTGTTTTCGA -CGTCTTTGTCCACCACATACCACGGTTCTTCGGTACCTTCTTTGGTGCCACCGATACCCAGACCTTTACGCTGAC -CGAGAGTGTGATACATCAGCCCCTGGTGCTCACCAATTTCATCGCCATCGACGGTAATGATTTTGCCCGGTTGCG -CCGGGAGATAACGGCCCAGGAACTCGCGGAATTTACGTTCGCCAATGAAGCAAATGCCGGTAGAGTCTTTTTTCT -TCGCGGTGACCAGACCAAGATCTTCAGCAATCTTACGCACCTGCGGTTTTTCCAGTTCGCCGACCGGGAACAGGC -TTTGCGCAATCTGCTCATGGCTGAGCGTATAAAGGAAGTAGCTCTGGTCTTTATTGCTGTCCAGACCACGCAGCA -GGCGGCTCTTGCCATCGACATCGGCCCGACGTACGTAATGACCGGTAGCGATATAATCGGCACCTAAATCTTCGG -CGGCAAATTCGAGGAAGGCTTTAAATTTGATCTCTTTGTTGCACAGAATATCCGGATTCGGCGTGCGACCGGCTT -TATATTCGGCAAGGAACAGTTCGAAGACGTTGTCCCAGTACTCGGCAGCAAAGTTAACGGTGTGCAGTTCAATGC -CGAGCTTGTCGCAGACAGCCTGGGCATCAGCCAGATCCGCTGCCGCTGTGCAATATTCCTCACCGTCGTCTTCTT -CCCAGTTCTTCATAAACAGGCCTTCGACCTGATATCCCTGTTGTTGCAACAGCCAGGCAGAAACGGAGGAATCGA -CACCGCCGGACATGCCGACGATTACTTTTTTTGCGGTTTCAGACATTGGATCACTCACGACATTGAACTTCAAGG -CGGCGTATTCTATCACGCAGCCTTTTAGATGACACCCTTTGTAAAAGGCCAGTTAAAATCGCCAATCATCTCCAG -CGGATAACGTTGCCCGCTTTGATAACAACGAATACTTTCCGCCACCAGCGGCGAACGAAGATTTGACGCCTGTAA -AATTTCTTCGGCGCTGACCCAACGGCAGCAGTCGATATCGCTGTCATGAGGCTGGGTCGGGCATATTTGCTCAAG -CTCAATGGCAAAGAGGAAACGCAAAAACGGCGTTTTATCTGGCGCAATCCACTGATGCATACGAATAAAGTGTTG -CGGCTGCGCGCTGATGCCGGTTTCTTCCCACAGTTCACGGGCGGCGGCTTCCACTAAGGTTTCATCGGCTTCCAG -ATGCCCGGCAGGTTGGTTCCATAACGCTTTACCATTAATCGTCTCTTCAACGACTAAAAATTTGCCTTCTGCGTG -CACCACGCAAGCAACGGTAACGTGCGGTTTAAACATTTTGCATCCTTAATCTGTCACTTCTCGCCATTCACCATT -GGCAAGATTATCCAAAGAGTAATCACCCATCGCATAGCGAATCAGTCGCAGCGTGGGGAAGCCAACATGGGCGGT -CATGCGGCGCACCTGGCGATTACGTCCTTCATATAAGGTGATCTTCAGCCAGCTGGTGGGAATACTTTTGCGTTC -ACGAATTGGTGGATTCCGCGGCCATAACCACGCGGGTTCGTCAACCAGCTCCGCGCCGGCGGGCAGGGTAGGGCC -ATCATTTAAGGTTACGCCATTGCGCAAGGCTTCAAGTGCGTCTTGTGTGGGAATACCTTCCACCTGCACATAATA -GATTTTTCCGGTGCGTTTACCCGGCTGGGTTAAACGCGCCTGCAACGCGCCGTTATTGGTCAGCACCAGCAACCC -TTCGCTATCGCGGTCAAGGCGACCTGCTGCATAAACACCCTGAACCGGGATGAATTCTTTTAATGTTTTGCGTCC -GGCTTCATCGGTGAACTGCGGAAGAACATCGTAGGGTTTATTGAACAGGATCACACGCGTGGGCTGGTTTTCAGG -TTTACGCCTGGTAGAACGTTGCGAGCTGAATCGCTTAACCTGGTGATTTCTAAAAGAAGTTTTTTGCATGGTATT -TTCAGAGATTATGAATTGCCGCATTATAGCCTAATAACGCGCATCTTTCATGACGGCAAACAATAGGGTAGTATT -GACAAGCCAATTACAAATCATTAACAAAAAATTGCTCTAAAGCATCCGTATCGCAGGACGCAAACGCATATGCAA -CGTGGTGGCAGACGAGCAAACCAGTAGCGCTCGAAGGAGAGGTGAATGGAAAGTAAAGTAGTTGTTCCGGCACAA -GGCAAGAAGATCACCCTGCAAAACGGCAAACTCAACGTTCCTGAAAATCCGATTATCCCTTACATTGAAGGTGAT -GGAATCGGTGTAGATGTAACCCCAGCCATGCTGAAAGTGGTCGACGCTGCAGTCGAGAAAGCCTATAAAGGCGAG -CGTAAAATCTCCTGGATGGAAATTTACACCGGTGAAAAATCCACACAGGTTTATGGTCAGGACGTCTGGCTGCCT -GCTGAAACTCTTGATCTGATTCGTGAATATCGCGTTGCCATTAAAGGTCCGCTGACCACTCCGGTTGGTGGCGGT -ATTCGCTCTCTGAACGTTGCCCTGCGCCAGGAACTGGATCTCTACATCTGCCTGCGTCCGGTACGTTACTATCAG -GGCACTCCAAGCCCGGTTAAACACCCTGAACTGACCGATATGGTTATCTTCCGTGAAAACTCGGAAGACATTTAT -GCGGGTATCGAATGGAAAGCAGACTCTGCCGACGCCGAGAAAGTGATTAAATTCCTGCGTGAAGAGATGGGGGTG -AAGAAAATTCGCTTCCCGGAACATTGTGGTATCGGTATTAAGCCGTGTTCGGAAGAAGGCACCAAACGTCTGGTT -CGTGCAGCGATCGAATACGCAATTGCTAACGATCGTGACTCTGTGACTCTGGTGCACAAAGGCAACATCATGAAG -TTCACCGAAGGAGCGTTTAAAGACTGGGGCTACCAGCTGGCGCGTGAAGAGTTTGGCGGTGAACTGATCGACGGT -GGCCCGTGGCTGAAAGTTAAAAACCCGAACACTGGCAAAGAGATCGTCATTAAAGACGTGATTGCTGATGCATTC -CTGCAACAGATCCTGCTGCGTCCGGCTGAATATGATGTTATCGCCTGTATGAACCTGAACGGTGACTACATTTCT -GACGCCCTGGCAGCGCAGGTTGGCGGTATCGGTATCGCCCCTGGTGCAAACATCGGTGACGAATGCGCCCTGTTT -GAAGCCACCCACGGTACTGCGCCGAAATATGCCGGTCAGGACAAAGTAAATCCTGGCTCTATTATTCTCTCCGCT -GAGATGATGCTGCGCCACATGGGTTGGACCGAAGCGGCTGACTTAATTGTTAAAGGTATGGAAGGCGCAATCAAC -GCGAAAACCGTAACCTATGACTTCGAGCGTCTGATGGATGGCGCTAAACTGCTGAAATGTTCAGAGTTTGGTGAC -GCGATCATCGAAAACATGTAATGCCGTAGTTTGTTAAATTTATTAACGGGAGCGTAACGCTCCCGTTGTTTTTTG -TTAGGCTGCTAACGGTTATCAAAATTTTATCAAAAAAAGTTATCAAAACCCCTCGGTAGTTTTGGGGTAGGCTGG -CCGGTCAGGTGGTAGTTCTACTACTAGTCTCCCACATAGATATTCCTTAGCTTTTTATTATTGCTGGCGGACGCT -CGTTAATATTTAAGGTCTTCATTGATTAAGACATCCCCAAAGTTAGTTATGTATTCACTGTTATTAGGACAATTA -TGAATTACCACTCCTTACACCCGCTCAAATATTGTTAAATTGCCGGTTTTGTATCAACTACTCACCCGGGACTCG -CCAGGGGACAGCCAACAGGCATTGGGTGCAATCACCTTAGCGTTCAGGTACATGCGGAATGTAAAAAAGGCCGCG -AGCGCGGCCCCTTCACATACATCTTTAGTACTGAGACTGTTTAACCTAGGGAATTATTATCGTATTATATTGCAT -TACAACTCCCAACAGTGACATATGAACTTCCTGCTTTACTCCACGACTTTAATATTTCAAGGCCATGTGAAGAAC -ATATTTCTTGCACTGCGAGTTCATCGAGTAATCCATAGTAAGAAACACTTTTTGAATTTTTGTAAATGTATCCGT -AAAGATGTTTTCTTCCTGTTTCGTATTTTTTGAAGTATGAGCTTTTATATTGATTTACAATAAGAGTCTCACCTC -CTGATTTTAGTAATCTCTTGATGCTAAGAACTATTTTGTCGATTGTATCCCGACAAGGAACGGCAGAGAGAACAT -TAGAGCAAAGGATGAAATCGTAACCCCCAATTATTTTGTCGACATCCTCGAAAGCAACTGTATTTGCATTTTTAT -AATATCGTGGGACATAGTCAATAATTTTAGTTTTAATTCCTCTAATAATTTGCTCTCTTTCAAGTTGCCTTTTCG -AGTCTAGAAAAGTAACTTCATCAAATTTACTGATTAATTCATCAGAATATCTAAGTTTTCCGCAGCCAAAATCAA -GGGCGTGGCCATTTTTCTCAATGCTTCTAATATACTCGCAAAGATATCTAGAGGGCATCGTATGAGGTTTTGCTG -CATTCTCTGAGCGAATATTAACTCCGTGCATATTATAGTTCAAAGCAAGTACCATTCAATTAATGTTATTTTTAG -TGAAAAATTCTTTTATTTTATCGTCCGGGATTTTTCCGACTTGACTTTCAGTTCTGGGCTTAACTGTCAAAGCAA -AGATAATACCACTCACTGAGAATGATAAAATTACAAAAAAGAATAAAGACAGCAAAGAACCTTCAACATGAAAAA -TATCCATTTGTTTGCAAAAAAAGATTATTAGGAAGGAAATTAATGCAATTATCGAAAATTCAAAAAATATCCAAA -AATAGTATACTTTATTCCAGAAGAGTTCAATATAATGTTTGTCTTCAATTTTTCTTACTTCAGGGTAATATAGAT -TGCTCATTACATTGTGAGCTTCATCTTTATTTAATTTTCTGTTGACTCCAGCTCTCCGTGATAACGGTTTTATAA -TTAGATGCTTATCCCAAAGATATCGCACCCGAAGTAGTTTGGCTGCATTGTTATGTAGGTCTAACGCACCGCTAA -TTAAATATGCAAAAATCGCAAAAGCACAAGGTAATATACCAAAAGATAGTGCCCAATTAATAAAGCTCTCATGAT -CTTTAATAGGTGGGACATACTTGGTTGGTAATGTTATTAAAGGGATGTATTCGTAAATAACTAGAAGTATGCAAT -ATATTAGCGTATTTAAGAAAGTTGCTTTATGAAGTTTAGGCAACATTTCATTATAATTTTTGGGGGGTTCGAACA -TATTATTCACCTGAGTCACGCTTTAGGATAGTGTAATGGTAATATTTAATTAAGTGTCATTATATACTTTTCAGT -AGGTTAGTTACAATTTTTTGTATCTGTTCAGGCTGACCTAGCTTCGCTGACAGACAATATTGTGATCAGTAGCAC -GTATCGAGGAGGAGTAGCGCTACAAATTTGACGCTGGGTGAGAATCTGAAATTGATAGAAATGAAATAATGAAAT -AATGAAATGATGAAATGATGAAATGATGAAATGATGAAATGATGAAATGATGACAGAGTGTCCAGTGGGCACGGA -TGGTGTCTTACGACATGCTTACCTTAATCGTTCCCAGTGTGCCTATAGCAGATATTCTAAACATGTCGATAATTC -ATTACGCATATAGTATCGAACATAGAAAAAACTGAAGATTCATCTTATTTTGTATATACTACCTAGCCCAACAAT -GTAGAGGTTAACGAAAAATGCGCTCACCAATTTGTCATCTTTTCTCAGCAATTAATTCATCACCATTTAAGATTG -CACCAGAGAAGGAGCAAGATCTTAAAACGATAGTTGACGACAAAAAAATTATAATTTCAGTTGTGAGTGAACCTG -GTTTTAATATCCGAGTCAGGAAGAATGAGAGTAATAATTCACATGAAATAGTTCTAACAGTAGCTTCACTTGAAT -ATATTTGGGCATTTTCCAATTTCTTTTGGGTTTTTACGCAAGAGTACTCCAAATCTCAGAAAAATAATGATGAGC -ACTTTGATTTAACAGGAAAAAATAGGCTTAAAAAGTCTGATGAACTTCTTAAATGGGCAAGGAAAAACTTGCAAA -CAACAGGTTGCGAATCATGGCCTAAAAAATGTCCCAAGCCAGAAGCATATTTACAAGGAAGCGAAGACTCACAAG -TTGCTAGCGAGATATTTCTTTGTGCTATTGCTTGGATTCTTCATCATGAAATAAGTCATGTTGTTTTACAGCATC -CATTGGTCACTACAGCATTCTCCACTCAAGAGGAGCGTGAAGCAGATTCACATGCTACAAAATGGATATTAGGCA -ACCTGTATGAATCCGCTCCTGAATTAAAGAAACGTGCACTTGGCATTGCTACGGCAGTGCTTTGTATACAAAGCT -TAGAAGTTGAAAATTACTTCTGTTTACAAAATACACACCCAGCTGCATATGAGCGTATATATTCGAATATTTCAT -GCTACCCTGTCGGAAATGAAGAGTTGATTGAAGCTCTATGTACAGTGATGCTTCAATATCTTTTCCATGGCAAAA -ATATCAATGTGAATCTAGATGGGGAGTCCTTTTCATCGATTTTAGGTGATCTTCTCTGTGATATTTCACGTCTTA -CCAGTAACTGATATGGCTGTCCGCCGCTCGCTTAAAGTGGACTTTTTAGTTTTTATCATGTGCGGTGAGAAATTC -AATGTGGCGTTGAGATGCTTAAAGGTTCACAACGCTACTTTGCTCCATCCTTTACCTCGATCATCATGATAACGA -TCGGTTTGTTGTTGTGTTTTATGACCAAGTAGTTTTTGTGTGTCTAACCCCTGTTCTTTATACAGACGTTCAGAT -AAAGACCTTTGCTCATGGAATGTCGCAGGTGAACCCTCTCCCCAGTCAATTCTTGCTAAATCTCTCGCTTTACTA -AAATTCATCGTCAATGTATTGGCTTTAACCTGCGCTCCGCGCTCTGCTTGTGAAGTTGAACGAAAAAAATGCACT -AAGTATGCACTGACTGCATAGTCACGGCAGCGGGCTACTACATCGCGTAAACTCCAGTTAATCGCATTGAGGCGA -AGAGAAAGAGGAATTGCGATTTTGCTCCCGGTCTTTTCCTGAATGACATGAAGATGATCATCCCAAATATCGCTA -AATTTCATACGCGAAATATCACCTAACCGCTGACCAGTAACCAGCGCTAACAGCATGGCATTTCCCATGTAACGA -TGAGTAGCGTCTGCGATATCGAAGATTTTTTTCCATTCTTCAAGGCTCAGCCGTTGTCGGGTAATTTTTCTTCTT -GGTTGTTTAGTGGCTAATGCTGGGTTATAGCCAGGAGGTACTTCTCCGTAGTGCTGCGCCTCTTTGAAAACATCA -ATCAGGACGGAGCGAACTACTTGTGCCATTCTTGGCCGCCCAGCGGCGATATACTCATCAAGCAATTGTGCTATA -TCTCTGACATCAACGGCTGAGATCAACTTCATTCCTGCTCGTTCTCTGAGCAAGGATACTGGTTTAGCTTTTTGT -TTATAGGTGTTGAGTCTTATATCACCACTTTTAAGCCTGTCATCCTGGATCGCTTGATAGCGATCTAACCAGGTT -GACGTTGTGATAGCCTTTCCTTTGCTGGTTGCGATCCTGTCACTGATAGCCAGAATCTGCCGGGTTCTTTGTTCA -GCCAGGCGAGTGTTGGCCTCAGTGGCAATAGCGATAGCTTCAGCTTCGTTTGTTCCCAAAGCATGGAATTTTCCT -GTCACTGGATGCTTATACCGCCAATAGACTTTATTTACCTTCCTACTATAAAGCGGATATAAGTTAGGGACTGAA -ACATTATTCTTACGCGGTCTGGCTGCCATTACTCAAAATCCGTTGCAAAAGTAATGAGTCATTTTTCTTGATTAC -AGGTGTTACCAACTCCCCAACTAACTCGGCGTCCTCACGCACTCGCCATAACCGGCCTTGTTTCATGGCCGGTGG -ACAAAATAAATTCTGCTTAGCATAACGACGCAATGTGGACACACTTGGAGGATTACTTCTGTATTTTTCAGCAGC -CCATTCTTCAAGAGTTAACATTTGAAGCATATGCGATCACCTTATTACTACACTAACTGCTTAGTCTCAGCATAT -CGACCCTGCACGGTCGGTTAGTTTCTCCACAAAACAGAGAAGAGCACCTGTGGCCACAGCTATCAGGATGGGTCG -GGTTATTAACCCGTCATCCGGGGATACTCTTCTCTGTTTTGTAAAAAGGGCGGTACCAGAAAGGACTAAGGAAAA -AACTGGTACCGCCAAGACTACACACAGCATAAAGTTGTGGTGTCGGGTGCCCCCGGTGCCTGGCGAAGGTTGCAC -ACCAGGCGGGTGGGTATCCACAGAAGGTCGATTGTCAGCCTCAACCTTAACCCGCGTGCGCTGAGCCGCATTCAC -CACAACGCTAAGGATTCTCTCTGGTTGAAAATACTTAGCTGTTATGTGCCTGTCTTTTCACCACTTCAGGCTCGG -TGGTATGCTGGAGTTCTCACACAGCCAGCAAGCAAGGAAACTTAATGAACCAGTTTTATGTTCACGTTCGTCTAT -TTGAAGACACAGCCGAACAGACCAAAAAATTTGAAGAATTAATGCTTAACTTTCTGTACCAGAAAACAGTTAAAG -AGTCTGACGATAGCTGCTGCAGACTGATTCCAGAGGGATATATCCTCAAAAGTACAATGAACTGCCAACAAATCC -TTGATCAAACATTTTCAATTGCTAACAGTGCCGGTGTTGACGCAAATATATTTGTCTGTAAATTTGAACAAAGCG -CATGCTTACTTCCGTCTGCTTCCTTAGTTGGTAACGATTTCGTTCATTACGATCTTACGCCTAAGCCCATCAAGC -TCGATTCTTAAAGCCTTAACCATTGTGTCGTGATAAACACGGCTCACCTTCTCTCCATTGCATGGCAGAGGGGTG -AGTGTGTTAGCCATGAAATTCATGAACTCGGTTCGACCAGGGGCTTGCGCCCCGCAAGTCTTTAATGCCTGTTTT -GCTAACAAAATGCGGGCCTCAGTGCCTGCATTTGGCTCTATCTGCTGCAAACGTTTAGCGTCTTCCAGCAACAAT -GCGATCACATGCTTCAAATTCTGCTCATTCATCTATTCTCTCCACTGAAATCATCCGCTAACGAATCATCCCGGT -CTTCGTACGTACCGGGCGGGCTACTTCGTGGGCGTCCTGCCTGTTTGTTGTTTCTCTTGGGTACATTATGTATCT -CAAAGGTACATTGTCAAGTATAAAAAAACCTGCCGAAGCAGGTTCATAAACATTGATTAGGCTTTGATTTTGTAT -CTTCTTGGTTTTCCTGAGAAAATCACAGTACCAATTATAGAGCAATTACCGTTGATCTTAATGTAAGGCTCAGGC -CAGTTTGGGTTTAACGCTTTGAGATAACGCTGTGTCCCATCTTCTATCAACCTTTTGAAGGTGGTTTCACCTGTA -TCGTGCATCAATGCAATAACGTCGTCACCGTGGCAGGCAGGTACTTCAGGATCGACAAAAATCATGTCTCCCGGG -CGGTACTCATCAATCATTGAATCACCTATTACCCGCAAGATATAAGTCATTTCCCCACAGGGTACAGGGCAGGGA -TACGTTTCTGCTGTGCTCAAATCAACCTCAGAATATCCAACTTCTTTCCATGCTCCGGCCTGTACCCATGATATG -ACAGGGACTAATGTGATTTGTTTATTAGTGATTGAAACATCAGGTTTTTTTGTGATGTTCGTTGTCTGGTGTTCT -TGATCGAGCCATCCTACAGGCAGGTCGAAACATTTTTCGATGTGTCGTGCCATGCTGTCACCGATATTTTTAGTA -GCACCATCTCCCATAAACCTGCTGGTCTGGGTTGGCTCGCGATCAATCATAGTGGCAAAGGAAGAATTCCCGCCA -ACACCATCTCTCAGTTTTCTGGCGTTAGACCGCCGGATGTCATGGATTGTTTTCATAACGAAATTAAAACCCTTG -TACCGTTAAGGTACAAGTATCTTGAAGGTTCATTTCAATCATGTAATATGTACACCGGAGGTACATATTGTATGA -AAGCGTATTGGGACTCTTTAACCAAAGAACAGCAGGGCGAGTTGGCCGGAAAAGTTGGCTCAACACCTGGCTACT -TACGGCTGGTTTTCAATGGCTATAAAAAAGCCAGTTTTGTGCTGGCTAAAAAACTTGAGCAATACACATCAGGTG -CAATTACGAAATCTGACTTAAGACCGGATATCTATCCGAAAGATTAGCAGAACACTTTCAATTTTTAACCACAGA -ACGATGAGGCTAATCGTGGGTAAGCATCACTGGAAAATAGAAAAACAGCCTGAGTGGTACGTGAAAGCTGTCAGA -AAAACTATCGCGGCGTTGCCGAGTGGTTACGCTGAAGCGGCTGACTGGCTCGATGTAACAGAAAACGCTTTATTC -AACCGCCTTCGTGCAGATGGCGATCAGATTTTCCCGCTGGGATGGGCAATGGTTTTACAGCGTGCTGGTGGCACT -CACTTCATTGCTGATGCTGTGGCGCAGTCTGCAAATGGCGTCTTTGTGTCTCTTCCTGACGTCGAGGATGTGGAC -AACGCCGATATTAACCAGCGTCTGCTGGAAGTCATTGAACAGATCGGCAGTTATTCAAAACAGATTCGTTCAGCA -ATCGAAGACGGTGTAGTGGAACCGCATGAGAAGACAGCAATTAACGACGAGCTGTATCTCTCAATTTCGAAGCTG -CAGGAGCATGCAGCACTTGTCTACAAAATTTTTTGCATTTCAGAAAGTAATGACGCCCGCGAGTGTGCAGCTCCG -GGCGTCGTGGCGTCGATTGCTTCTGGTTGTGGAGAAACTAACGCATGAACAGTTTAACAACACACTACCGTCGCT -CGCAACTGATTGCGCTTCCTGTACCGGGTGGAAAAGCGAAGGTGGAATATTGCTATGCAGTGAATGTACCAGGTG -ACAGGGAAATTGTAACCCACAGCTTTGCAGAGTGGGCTGTGGGTGATTTCAACCGGCAGAAGGAGACAGTCCTTT -GCGACAAGTTAACCGCTGGTTCAAAGATCACTACGGAGTGCCCGTCAGAGTCATTCGTTGGGAGCCGGAAACACA -ACGGGTTATCTACCTCCGCGAAGGTTATGAGCATGAATGCTTCAGCCCGCTCGAACAGTTTCGTCGTAAATTCAG -GGAAATAGAGGTCGGTCATGAGCACTAAATTAACCGGCTATGTATGGGATGGTTGCGCTGCATCAGGCATGAAGT -TATCCAGCGTGGCAATTATGGCCCGCCTGGCTGATTTCAGTAATGACGAAGGTGTGTGCTGGCCATCAATTGAAA -CCATTGCCCGTCAGATTGGCGCGGGGATGAGTACCGTCAGAACGGCTATCGCACGGCTGGAAGCAGAAGGCTGGT -TAACGCGTAAGGCGCGTCGCCAGGGTGATGGTTCATCACCCCACTGTGCCGTGGTGGATGAATATCACGAGCACG -CCACAGATGCGCTTTACACCACGATGCTTACCGGGATGGGGGCGCGACGCCAGCCACTGATGTGGGCCATTACCA -CCGCCGGGTACAACATTGAGGGGCCGTGCTACGACAAACGGCGGGAAGTCATCGAGATGCTCAACGGCTCGGTGC -CAAACGATGAACTGTTCGGGATCATCTATACCGTTGATGAAGGTGACGACTGGACCGACCCGCAGGTGCTGGAAA -AAGCCAATCCAAATATTGGCGTGTCGGTTTATCGCGAATTTTTGTTAAGTCAGCAGCAGCGTGCGAAAAATAACG -CCCGTCTGGCAAACGTCTTTAAAACAAAACACCTCAATATCTGGGCGTCGGCGCGTTCGGCGTATTTCAACCTGG -TGAGCTGGCAGAGCTGCGAGGATAAATCACTGACCCTTGAGCAGTTCGAGGGGCAGCCGTGCATTCTGGCCTTTG -ACCTGGCGCGTAAGCTGGATATGAACAGCATGGCGCGACTTTATACCCGCGAGATTGACGGTAAAACGCATTACT -ACAGTGTGGCCCCGCGTTTCTGGGTACCGTATGACACGGTGTACAGCGTCGAGAAAAATGAAGATCGCCGGACAG -CCGAACGCTTTCAGAAATGGGTGGAAATGGGCGTTCTGACCGTTACCGATGGTGCGGAGGTGGATTATCGCTACA -TCCTCGAAGAGGCCAAAGCGGCGAACAAAATCAGCCCGGTCAGTGAGTCACCCATCGACCCCTTCGGGGCGACCG -GGCTGTCACATGACCTTGCTGATGAAGACCTGAACCCCGTCACCATCATTCAGAACTACACCAACATGTCCGATC -CGATGAAAGAGCTGGAAGCGGCGATTGAATCGGGGCGCTTTCATCATGACGGCAATCCCATCATGACCTGGTGTA -TCGGCAACGTGGTCGGCAAAACCATTCCGGGTAACGATGATGTGGTGAAGCCCGTCAAGGAGCAGGCGGAAAACA -AAATCGATGGTGCAGTTGCGCTGATTATGGCGGTTGGCAGAGCCATGCTGTACGAGAAAGAAGACACGCTGTCTG -ATCACATTGAGTCCTACGGGATCCGCTCGCTTTAACTGAGGTAATTATGATCATGCTGATTCTCGCGCCTCTGGT -GGGCGTGCTGGGTGCGCTTTTGCTGGCGTATGGTGCCTGGCTGATTTATCCCCCGGCGGGTTTTGTTGTTGCCGG -GGCGCTGTGCCTGTTCTGGTCGTGGCTGGTGGCGCGATATCTCGACCGTACACAGTCGTCTGTCGGCGGAGGTAA -ATAGTGTTCTTTTCGGGATTATTTCAACGAAAAAGTGACGCACCGGTGACCACGCCAGCAGAGCTGGCGGATGCC -ATCGGGCTGTCGTATGACACCTATACCGGAAAGCAGATCAGCAGTCAGCGGGCTATGCGACTGACGGCGGTTTTT -TCCTGCGTCAGAGTGCTGGCAGAGTCGGTCGGGATGTTGCCCTGCAATCTGTATCACCTGAACGGCAGCCTGAAG -CAGAGAGCCACCGGCGAACGTCTGCATAAACTGATCTCCACGCATCCCAATGGCTATATGACGCCGCAGGAGTTC -TGGGAGCTGGTGGTCACCTGTCTGTGCCTGAGGGGAAACTTTTACGCCTACAAAGTGAAAGCATTTGGCGAAGTG -GCTGAACTGCTGCCCGTCGATCCCGGCTGTGTGGTATATGCGCTGGGAAGGTGTCAGCGATGGCCTGAAGGTGAC -CGCCGGGAGTGTTATTCAGCGCGATGACCTGGTGCAGTACACGACAACTGACGATGCAACCAGCTCCGGTGGTGT -CCTGCGCGTGCCGATCGCCTGCTCAAGTGCAGGTGCGGTCGGTAACGCTGACGACGGTACGGCATTAATCCTGGT -CACGCCGGTGAATGGTCTGCCGTCTTCCGGTGTGGCTGACACCCTGACAGGCGGATTTGATACTGAAGAGCTGGA -AACGTGGCGCGCCCGCGTCATTGAGCGGTATTACTGGACGCCGCAGGGCGGGGCTGACGGGGACTATGTCGTCTG -GGCTAAAGAAGTGCCCGGCATTACCCGCGCATGGACATACCGTCACTTGATGGGAACGGGAACTGTCGGTGTGAT -GATTGCCAGCAGTGACCTGATTAATCCCATTCCGGAAGAATCAACGGAAACGGCGGCAAGACAACATATCGGGCC -ACTGGCCCCGGTGGCAGGCTCTGATTTGTATGTGTTCAGGCCGGTGGCACATACGGTGGATTTTCATATCCGCGT -GACGCCGGACACACCAGAAATACGGGCTGCCATTACCGCGGAGTTGCGTTCGTTCCTGCTGCGTGATGGTTATCC -GCAGGGAGAACTCAAGGTATCGCGTATCAGTGAGGCGATTTCCGGTGCGAACGGGGAATACAGCCATCAGTTGCT -TGCACCGGTGGACAATATCTCCATTGCGAAAAACGAACTGGCGGTACTGGGGACGATTTCATGGACGTGACAAAC -GATGATTACATCCGCCTGTTATCGGCACTGTTGCCGCCCGGTCCGGTGTGGTCAGCCAGCGATCCGGCGATTGCC -GGTGCGGCACCGTCATTAACCCGTGTTCATCAGCGTGCGGATGCCCTGATGCGGGAGCTGGATCCGCGCACCACC -ACTGAACTGATAAACCGCTGGGAGCGTCTGTGCGGTCTGCCGGATGAATGTATTCCGGCGGGAACGCAGACCCTT -CGCCAGCGTCAGCAACGGCTGGATGCGAAGGTTAACCTGGCGGGCGGCATCAACGAGGATTTTTATCTTGCACAG -CTTGCTGCCCTGGGCAGACCAGATGCCACCATCACGCGATACGACAAAAGCACTTTCACCTGCTCATCGGCCTGT -ACTGACGCGGTGAATGCGCCGGAATGGCGGTATTACTGGCAGGTCAACATGCCAGCCACCACCAACTCCACCTGG -ATGACATGTGGCGATCCCTGTGATTCCGCACTGCGTATCTGGGGTGACACCGTTGTCGAGTGTGTGCTTAACAAA -CTCTGCCCGTCGCATACCTACGTAATTTTTAAATATCCGGAGTAATCCATGCATCGTATAGACACGAAAACCGCG -CAGAAGGATAAGTTCGGCGCGGGTAAGAACGGTTTTACCCGTGGTAACCCCCAGACCGGCACGCCTGCCACCGAT -CTGGATGATGACTACTTTGACATGTTGCAGGAGGAACTTTGCAGCGTGGTGGAGGCATCCGGTGCCAGCCTGGAG -AAGGGGCGGCACGACCAGTTACTTACCGCACTTCGCGCGCTGCTGTTAAGCCGCAAGAATCCGTTTGGCGATATC -AAATCGGATGGCACTGTGCAAACGGCTCTCGAAAACCTTGGTTTGGGAGAAGGAGCAAAACTCAATGCAGCAACG -GCTACATTAGGACGCACCGGTTTCATAGCTATACCGGTTATGATTGGTGGTATTGAGCAATCAGTAATCATTCAG -TGGGGGTGGAATGCCGCAAAAGCATCTGCCTCTGGGGGGGATGGAAATACAGTTGTATTCCCGGTTGCGTTTAAT -AATGCCTGTGTTGCCGTTGTTGCAAATTATGACAATGTCAGCGCACCTATCAATGCAGTGGCAACGGGGGGATAT -ACAACCACTTCGTTTTTATTACGGTGCGCAGCTCAAACGGGTAGTTATTACTATAACTGGATTGCTATTGGGTAT -TAAGATGAAAATATACTGTTGCTTAAATACCGTTGGTTTTTTTATGGATGGCTGTGGCGTCATTCCGCCAGATTC -TAAAGAAATAACGGCAGAACACTGGCAGTCATTATTAAAATCTCAAGCTGAAGGAGGCGTGATCGATTTTTCTGT -TTTTCCTCCTTCTATTAAAGAGGTTATCCGTACTCATGATGATGAAGTCGCAGATGCGAACTTTCAAAAGCAGAT -GCTTATCTCTGATGCAACTGATTTTATCAATAGCAGACAGTGGCAGGGTAAGGCTGCATTGGGAAGACTTAAAGA -AGATGAGCTGAAACAATATAATTTGTGGCTGGATTATCTGGAAGCACTGGAACTGGTTGATACATCCAGTGCGCC -AGATATTGAATGGCCTACGCCTCCGGCAGTTCAGGCCAGATGACATCCGGCGCGGTGCTGGTATCTGTTGCCGTC -ACCGCGTCAATGTAATCCAGCACAGCGTTAAGTCTGGTTGTTTCTGCCTGCGTCAGTTTACGTCCGGCCTGCAAT -TTCAGTTGAATCAGACTAATGGAAGCCATTGCAGCATCAATCAGTGACTGGCGCTGTGCTTCTGCCGCGTCTACT -GCGGCGCTATGCTGTGCTTCAGTATCGGTCACCCATTTCTCACCATCCCATTTATCGTATGGAGATAAAGGGGCG -ATAGTGGTTGTATTTTCAGGGTAATCACCCGGAGCTTTGATTTCTTTTGATTCTCCAGTTTTGGTGCTATAGACC -GTTTCACCGCGATGGTCTGGCACATATTCCCATGAGTTAAAATCTGCAGAACGGCAGATTGCATAACCAGCCTTA -TGTGTACCAGGGGCATCTAAACAGGAACATGCCGGAATGCCGACACCAACGGCAAGATATTCATTTGAAGTGGAA -ATATATTCCCGTGTTTCACCATCGTAGTTATAAACGGTAACATCCCCTGCCTTTGTTGCAATAAGGTCACTATTT -AATATTGCTTTATGCATCAGGCTGCCCTCACGATATAGTTAAATGCAATATTACGCGGACGCGTTTCTGAGGCTG -CGGCACCTAAACCATCCACTGATTGTTTATATGTTTTAAAGGTTCCATAATCCGGGGCTGGTAATCCGGCATCGT -TTGTGTTTCCTCTTTTGATAATGTCAGTGCCACTATTTACCCATATTTCATCAAAATAGAAATTAATCGTTGCAT -CAGTCACAATCGTGGATCTTGACGGTAATCCATGAGCATGATCCTCCGTTGCATACCCCTGAATACTTAAAATAG -AGCGACCTGTATCAATCCCCCGCCCGTCATCCCAGCCACGAATAAACTCACCACGTAAATCAGGCAATTTATTTG -TCGGATAAGCCTTTGCCAGTTCCGGGTATTCTTCAGCAGAAAAAGCGGCACCATTGCATTTCAGCCAGCCTGTTG -GCGGAGTGGCTGAAGGCCACGGAACCGGGACACCAACAGGTAATGCAGAGCCTTCTCCCAAACCAACGTTTATGA -AAATGAAGAAATAACAAGCAAATGGCATCATTCCTGCTTTTACCAGGGGGATTTAACATGCTTATTGGCTATGTA -CGCGTATCAACAAATGACCAGAACACAGATCTACAACGTAATGCGCTGAACTGTGCAGGATGCGAGCTGATTTTT -GAAGACAAGATAAGCGGCACAAAGTCCGAAAGGCCGGGACTGAAAAAACTGCTCAGGACATTATCGGCAGGTGAC -ACTCTGGTTGTCTGGAAGCTGGATCGGCTGGGGCGTAGTATGCGGCATCTTGTCGTGCTGGTGGAGGAGTTGCGC -GAACGAGGCATCAACTTTCGTAGTCTGACGGATTCAATTGATACCAGCACACCAATGGGACGCTTTTTCTTTCAT -GTGATGGGTGCCCTGGCTGAAATGGAGCGTGAACTGATTGTTGAACGAACAAAAGCTGGACTGGAAACTGCTCGT -GCACAGGGACGAATTGGTGGACGTCGTCCCAAACTTACACCAGAACAATGGGCACAAGCTGGACGATTAATTGCA -GCAGGAACTCCTCGCCAGAAGGTGGCGATTATCTATGATGTTGGTGTGTCAACTTTGTATAAGAGGTTTCCTGCA -GGGGATAAATAAAGTTAAAGACACTTTGTGTACAAAAGAAAGTAAAACAACAGCAACTTGTTGCAATTTTATCAA -TAAAAGTAGTATTGTCGTGAAAAATTGATTAAAGATTAATATTATGCATGTTTTTGATAATAATGGAATTGAACT -GAAAGCTGAGTGTTCGATAGGTGAAGAGGATGGTGTTTATGGTCTAATCCTTGAGTCGTGGGGGCCGGGTGACAG -AAACAAAGATTACAATATCGCTCTTGATTATATCATTGAACGGTTGGTTGATTCTGGTGTATCCCAAGTCGTAGT -ATATCTGGCGTCATCATCAGTCAGAAAACATATGCATTCTTTGGATGAAAGAAAAATCCATCCTGGTGAATATTT -TACTTTGATTGGTAATAGCCCCCGCGATATACGCTTGAAGATGTGTGGTTATCAGGCTTATTTTAGTCGTACGGG -GAGAAAGGAAATTCCTTCCGGCAATAGAACGAAACGAATATTGATAAATGTTCCAGGTATTTATAGTGACAGTTT -TTGGGCGTCTATAATACGTGGAGAACTATCAGAGCTTTCACAGCCTACAGATGATGAATCGCTTCTGAATATGAG -GGTTAGTAAATTAATTAAGAAAACGTTGAGTCAACCCGAGGGCTCCAGGAAACCAGTTGAGGTAGAAAGACTACA -AAAAGTTTATGTCCGAGACCCGATGGTAAAAGCTTGGATTTTACAGCAAAGTAAAGGTATATGTGAAAACTGTGG -TAAAAATGCTCCGTTTTATTTAAATGATGGAAACCCATATTTGGAAGTACATCATGTAATTCCCCTGTCTTCAGG -TGGTGCTGATACAACAGATAACTGTGTTGCCCTTTGTCCGAATTGCCATAGAGAATTGCACTATAGTAAAAATGC -AAAAGAACTAATCGAGATGCTTTACGTTAATATAAACCGATTACAGAAATAAAATTATTTATTAAAGTCACATTT -AAGACGTAATACCCTACAGGGTAAAAATTTTCTCTGATCTTAACTTCTGCAAATGTTAACTGCTATTTTTATGCT -AAAAATGGTTATCAAAACTCAAAAACACATGTTTATAATCAATGAGTTATAGAAATGCTAAGGGCTAATGAGTTA -TATGCAAATTAGTAAAATTATGTTGCTATGTCAGATAGTTACGATTTAGTCATCTAACTAATGCTGCGCCATATG -GGTTGGACTGAAGCGGCTGACCTGATTGTTAAAGGTATGGAAGGCGCAATCAATGCCAAGACCGTAACTTATGAC -TTCGAACGTCTGATGGAAGGCGCTAAGCTGCTGAAATGTTCAGAGTTTGGTGAAGCGATCATCGAAAACATGTAA -TCTCTCCATGTGTTAAATATTGAAACGGGCGTATAACACGCCCGTTGTTTTATTTATGTGGATATTATTAATAGC -ATATCGAGCATATTTATATGAAGCCCATTACTTGAGCCCATATGGGCATATTTTTATAATGCAACTATTATGTAA -ACATTTATTTGTTATTTTGCTTTCTCCTGGAGGACACTCTTGACTGCTTTTGAGTAAACTCCATAAATCCTTGTT -GAATGGTGCGATGTGATAAATAGTAATAGGATATTCTTTATCCTTAAGGATAATACCAGACTTAACCGGTGTAAA -TATACTGCCAGGAGGGAGAAATATAGTAGATTGATACCAGATGATCATTTTCATATTACCCCATATGGCTGAAAA -AGATATACCACATGTAGGTTGAATTACCGTGTCAATTACTATCCACTTCATTTGTTATGTCTTATCCCACGGTAT -TTAATATGGTTCATTAGGATGTTTATTTCTTGATTTTGCATATGAGTATATTACCCCCCCCTCAAAAAAATAAAT -TAATTAAAATGATGGCTTATATAAAATAAAATTTAAAGCAAGGAATCTCAATGGATGTTAAACAAAATGAGATTT -TGTGAAAGCAATAAATTATTGACTTCGTTTTAGATTTGTTTAGCTATAATGTTATACATTCAAATGACTGAACAT -CCTGTAATTAAAACATAGCCTTTATGCTACTTTGTGCCAATTTGCTAAACATTATGGTTGCCTTTTTATATAACG -ATAATAATGAATATAAGCATGACATGAGAATAAGGTTTCAATTTTTGAGTTATATAGGAATGATTTAACCTGTTC -CTGGCTAAAATACATATAACCGGATGATGACTAAACCAAAATACATGTGCGTTAAGTATTGAAACGGACGTGTGG -CACGGCCGTTGTTTTTATAAATATGTTAACCGTTATAAAATAACGTATCAAAAGTCAAGTGATCACATTTCAAAT -ATCAAGTTGATAGTATTAGTCTGGTGATTATTTATGGGTGACAATAAAAAGACAGTATTAATCATCCATAGAGAT -AGTCTCTGCACTTTTATTTCCATTATGCTAATGCCTTACTGAATTATGAAGCATTTCTTAAGTATCCAACTTTAG -CTAGATTAATGGTTTATTATTTTCTACATCTTCAATATATAAAAGCGTATTATCAATGGCGTAGTAACTGCGTTT -GTTATGATTAACATCAGTAACCCACCGGAAAACGCCCGCGCCTGCCAGTGTTGAACAGTATTCCCGAAATGTAGA -TTTTCCGCAAATATGAAGCAATGCGGCCTCTTTTATTTTAGCAGGGTTCTTGGTCGTACTAACTTTTAACAGGTT -CCTGGTTCCTCTTAATAACAAAACCGTATCATCGTGAGTAATAATTCTGATGTTATCCGTAGCCAGATAATAAAT -GTAATGTGCAATACGGTGATGTTTTAATTCTGAATAAAACCAGGAGAAGTTTTGCTCTTTTCTCACTTGCTCAAA -CATCTTTTGAAAAACAACGACCTGATCCATCAGGATAATAACCTCTTGTTAGTTGTGAGACTGCGTAGTGTGCAC -GATCGGTTTTACCACTTCAATCTGGTCTGTCCTTTGGCTGTGATATGTACAGAGTGTGATAGAGGGAATATCTGA -ATTCTCCCGGTGAGCATTTTGCAACGGACCAGCTCCGGTACAAACGCTGTTGTGGGTTCAGATTATAACATTCTG -TCTAAGGGGCGGGATAAAGGTGAAATTAGGGGGCATGAAAGATGACTTTATAACCTTGCTCACCCCAGTGTTGTA -AAAGTTCGTTTTGCCTTCTCGTTGGTGCCATGCCTGTCCAGACAATCAATGTTTGCGTCGGGAACAGTTCCGGGC -GCGGCGATTCAATGGGATCAGCAAGAACAGAAATGTGCCATCCTGACAATGATAAACGCCATGCTTCCAGCCACA -ATCGTGCTCTCTCTTCAACATTCCACGCCATCAGAATGGCTTCTTTACCGGGCTTACGGCGCATTTCGAAAAGCG -AGGTTGCTGCGTATTCAATTAATGCGCCGTCAAACATACTGCTCATAATGCGGGAGGTGTTGTGATCAAGCACGA -GACGCTGGCGAACAGGAAGGTAAACATGATTAATCAATTGATCTACTGGGTACTCTCGACCCAGTGAAATAATTC -TCGCGCGTAGTTTGGCAGGATTAGCCATGCGAAGAATTGACATCATCTCTTCTTGCAGGCGGCTCCAGTCATCTT -CCGTATCCTGGCTGGTGGTTTCCAGTAATGCTTTAACTTTGCCTACAGGGACGCCATTACTTATCCAACGCTTGA -TCTCTTCGATGCGTTGTATGTCTTCTTCATCAAAGAGTCGGTGTCCGCCTTCACTGCGCTGTGGTTTTAACAAAC -CGTAGCGGCGTTGCCAGGCCCGGAGAGTGACAGGATTAATCCCGCAACGTTCAGCAACATCACCAATGCTGTAAT -AAGCCACAATTCCTCCTTGCGGTCACAAATCTCCGTCGCCTGTACACGACCCAATAATACTTTGTACAATATACG -CTAAAATTGTACAAAGTATAAATAAGATTTCAGCTAAATTGGATGAAACATTATTTTTAATGTGGATTAAATTTA -AACGTAACGTATTCATTTTCACGATGATTTACTGAAATCATGTGAAAGAATGTGCTGAAAATTATTTTTTCTCTG -GCCACGCTATGGAAGGGATACCATTCAATTTAGCTTTAGCAAACAGATCTCCCTGAAACATCTCAATTCCTGCGG -ATTCAAGCCACATCCACTCTTCTGGTGTTGCCACGCCCATAGCACTGACTTGAATTTCAAGTGATGTACAGCATT -TTATGATCGCCTGAATAATTGCCTGCCGTGGCCCACTTTTATGAACATTGGTAATCAATTCCTGACTGATTTTAA -TTCTGTCAGGCTGGAAGCGTGACAGGAGTAACAAACCAGCAAAACCTGCGCCAAAATGATCAATTGCTACACTGA -TACCAGCAGCCTTTAGCGATTTAATCGCTTCGGCAAACTCATCAAACCGAGATATGACTTCACTTTCAGTAAATT -CAACGATGATTTGTTCAGGCACCAGAGCATTGGCCTTTATTTCATTAAGTAAAAAAGAGACTGCGTCAGGTTCGT -TAACCAGGGTCATAGGTAATAGATTGATTGAAATCATTTTATCACCGAGCTCAAGTGCGTGTGCCATCGTGAATG -CAAGCGCCTTACTTTTGAGATCCGCTGTGTAGATTTCCCCGTCTTTACGCTGCCCAACCGCTATGGCTGATGGGC -TATCTTCATTTTTTTGCACAATGGCTTCAAAAGCGATTATCCGCCGCGATAAGGGATCGACAATAGGATGAAAGG -CAAAGTGGTCGTTTATAGTTGGTGAAAGGGCACAGGAATCAAGTTCTTTATCAGATCCGTCAGCGATAAAAAGCC -AGGAGTCTTCGGCAGGGATCTCGAAATAGGTTGATTGTTCGGTTGCAAGGACAAAAGTACGAAAAAATTGTAGCG -CTCTGTCATCATAAGTTAGCTGAAATTTTGATGTGCCTTTGTCGAATACGGCCTGTAAAACGTCATCTCGCTCGT -GCAGGCGCAAATCAAATAATTCCATTCCCGCTTTGCCAAAACGGCGAGCAGGCGCGTAATCGCACAGCAGCTCAA -CAATATTATAGTGCCGTGGATCCTGGCATATAGCCCGATATATCATTTTAACCTGTTCTTCCGGACCTTCCAGAA -GCTGGAAAAAATGAGAACCATTAAACAGTAAGATCCCTGTTACGTCAGACTGCATGTTCCTGCGATTTGCTATCG -AAACCATTTCTTCGATTTTTTTGACAGGTTCGTCGTCACGTATATGGCTACGATAAATAAGGGTGGTAAGCATTA -ACAATCCAGGGTAATGGGTGAGGCGAGAGTAAGACGGTAACAGACATATCTTCTTGTGTCTTTCTTTTAATACCA -AAACATAACCGTTTCTTTACATTGATAAAAAATGGAAAAAGTTGAACACTAGTTGGCGAAAAATCTTGTATAGAT -TGTCAGTTAAATGATGCAATATGTTTTATCATAACACATTGTTTTATATGCATTAGCACTAATTGCAAAAAATTA -ATTTATCATTCTGTACACATATTTCGTACAAGTTTGCTATTGTTACTTCACTTAACATTGATTAACATTTTTAAC -AGAGGCGTAGCATGCATCAAAATTCAGTGACTTTAGATTCTGCGGGAGCAATCACTCGTTACTTTGCAAAAGCTA -ACTTGCATACTCAGCAGGAAACTCTCGGGGAAATTGTGACTGAGATTTTGAAAGATGGACGTAATCTGAGTCGAA -AGTCGCTTTGTGCCAAACTTCTTTGCCGACTGGAACACGCGACTGGGGAAGAGGAACAGAAACATTATAATGCAC -TAATTGGGTTGCTTTTTGAATAATGCAACAGCCTGATTATTTAACAGGTTAGCTATGAAGTCGTTATGAAGACAT -CTGATAATGAACGTATAAAATATGAAATTACTGGCCAGGCGGTGCTCCAGATACTGCGCATGAAGATAAATTTTT -CATTGCAGACTCTTATTAAGCAATTACTCGTAATGAAATCGGCTGAGGAAGATGCTTTCCGACGCGATTTAATTG -ACAGCATAATTCGTGATTTTAGCAATAGTGATTCAGGAGGGCCAAACCGAAGAACAGCGACAGCTGACAATAAAA -GTATGTTCAATGGTAAGAAAATAAACAGAATACATTAAAATTTCATAAGTAAGATGAGAGGTTACCATGCTTGAA -GATACTACAATTCATAATGCAATAACTGATAAAGCGTTAGCAAGTTACTTTCGCAGTTCGGGTAATTTGTTAGAA -GAAGAATCAGCAGTGTTAGGGCAGGCTGTCACCAATTTAATGCTTTCAGGCGATAATGTTAATAATAAAAATATT -ATCTTAAGTCTGATACACTCCTTGGAAACAACAAGTGATATTCTCAAAGCTGATGTGATTAGAAAAACACTGGAA -ATCGTGTTGCGATACACAGCTGATGATATGTAACTTCTAATTATTAAGTATAAGTTTATAGAAAACTCATTCATC -TTATTTTTGTCTGTCGCTTTAGACTATACACAGCATAATTTTATTGGGTTAATATTTCTACGAGGCTGACATGAA -TAATTCAATCCCAGAGAGATTTATTTTTCAATGTGCTTTGTTTAAAAATCTCGAGAGGGAGGTGTTCATGACGCA -TGGGTATGTTGATAGTCATATTATTGATCAGGCTTTACGCTTGCGTTTAAAAGATGAAACCAGTGTGATTCTTTC -TGATCTCTATCTGCAAATATTGCAGTACATTGAAATGCATAAGACTACACTAACGGATATCATTATTAATGACAG -GGAATCCGTGCTCTCTTAGAACTTGAGTAAGGTTTTAGAATAAACATCAGCTGTATCACCATGCTGATGCAAAGT -GAGCATTTCAGGCGTTATGCTTTCTTATTATGTCCGCAATATCAGGTGTCAAGAATGGAGAGTTCTCGCTCTCCA -TTCTTGACGCCTGATATCCCGCCTAACTTATTTTGTACTGCCTACATTATGCTCAATAATTAATGGGTTAGATCA -AGATGGAGAAAATTTTATCTTCGGCGTGGATATTTCTTATGCTCTCTACCATGCTCTCTGTAGATGCCAGCGCGA -GCGAATGAATGGCATTTTCATGTATTAAACCCTTTGGCCGGGACAAGCAAATGCGCAATACACTCATACCCATCC -TCGTTGCGATATGCTTGTTTATTACCGGTGTCGCTATTTTGAACATCCAGCTCTGGTATTCCGCAAAAGCAGAGT -ACCTGGCGGGAGCGAGATATGCCGCCAACAATATCAATCATATACTTGAAGAAGCGTCACAAGCGACTCAAACAG -CGGTTAACATTGCCGGGAAGGAATGCAACCTCGAGGAGCAATATCAGCTTGGCACTGAAGCAGCTCTGAAACCTC -ACCTGCGCACAATCATCATTCTCAAACAGGGAATAGTCTGGTGTACATCCCTGCCTGGGAATCGGGTCCTGTTGT -CTCGTATTCCTGTTTTCCCGGACAGTAATTTACTGTTGGCTCCAGCAATCGACACCGTTAATAGATTACCTATCC -TGCTCTATCAGAACCAATTTGCAGATACGCGCATTTTGGTTACGATAAGCGATCAGCATATTCGTGGGGCACTTA -ATGTACCCTTGAAAGGGGTAAGGTATGTATTACGCGTGGCGGATGACATTATTGGACCAACGGGTGATGTGATGA -CGCTTAATGGACATTATCCCTATACCGAGAAGGTTCACTCCACAAAATATCATTTCACTATTATCTTTAACCCGC -CGCCACTCTTTAGCTTCTACAGACTTATCGATAAAGGCTTTGGGATTTTAATATTTATTCTGTTAATCGCCTGCG -CCGCTGCCTTCCTGCTTGATAGATATTTCAATAAAAGCGCAACGCCTGAAGAGATCCTGCGACGGGCAATAAATA -ATGGGGAGATCGTCCCTTTTTACCAACCTGTGGTAAATGGTCGGGAAGGGACATTGCGGGGAGTTGAGGTGTTAG -CCCGCTGGAAACAACCTCACGGTGGATATATATCACCCGCGGCATTTATTCCACTTGCTGAAAAATCCGGATTAA -TCGTTCCGCTTACGCAAAGCCTGATGAATCAGGTTGCCAGACAGATGAACGCTATCGCGAGTAAATTGCCGGAAG -GTTTTCATATTGGAATTAATTTTAGCGCTTCGCATATTATTTCGCCGACGTTTGTCGACGAGTGTTTAAATTTCC -GTGACAGTTTTACCCGCCGCGATTTAAACCTTGTTCTGGAAGTCACCGAGCGTGAGCCATTGAATGTTGATGAAA -GTCTGGTTCAGCGGTTGAACATACTGCATGAAAATGGTTTTGTCATCGCACTGGATGATTTCGGTACTGGCTACT -CAGGGCTTTCTTATCTTCATGACCTGCATATTGATTATATCAAAATTGATCACAGTTTCGTTGGCCGCGTAAACG -CAGACCCAGAATCAACCCGAATTCTGGATTGTGTATTGGATCTGGCGCGTAAACTTTCGATCAGTATCGTCGCTG -AAGGTGTCGAAACGAAAGAACAACTTGACTATCTGAACCAAAATTATATCACATTTCAGCAGGGTTATTATTTCT -ATAAACCTGTTACATACATCGACCTGGTCAAAATTATCCTTTCTAAACCGAAGGTGAAGGTTGTGGTTGAGTGAA -AATTGATCAGTAAGGCCATAGTGCGGTGTAATTATAGACAGCTAATTAGCTCGTTGCCTCTTGTTACTATTGTTC -ATTATTTTGTTTGCTATAATTGTTTGAAAGTTTTGACAGGATTGCCATTAGTAGCATGAACAATAGTAATAATCT -GGATTATTTCACTCTCTATATCATATTTTCCATTGCATTTATGCTGATCACCCTCCTGGTCATCCTTATTGCAAA -ACCCAGTACCGGGCTGGGAGAAGTGCTTGTGACGATAAATTTGCTTAATGCCCTTGTTTGGCTGGCGATCAATCT -GGTTAATCGATTAAGAGAAAGACTCGTCAACCACAGGGATCAGCAATAATCTTTCAGTTTCTCACTGTCAGTATG -CGGCTGAATGGGTTGCTGGCAGTGAACGCCTGGATCATTGAAGGAAAGGCATTATTGCGCAAATAGTTGTCAACC -CTGGTGTTATCACGGTTGTTTTTATATATCACCGAAATAATCCTCATCGCAACTATTAACAATTTTGATGTCGAA -GAGTTATTTGTTAAACAAAATCGTCACCTCAAAGTGATCAATGTCATGAAAATAAGGTGAAAAATGATAATGCCG -ACTTATTTATCATTTATATATTGTCGCTGTTTATCTATTTAAATTTTTTGTGCTTTTGTTTTTGTCTTTACCCTC -CGTTTTGGTAATCTGAGCTCATAGGTTATTTGACCAGGAATGTTTGTTAATCCAATGAATGGATGGTTAATCTAT -GAAACTGAAAAAACTCCCCGGGTTTAGTTTGGGACTTATTGCTCTGGCGGTGGGTAATGCATATGCAACACAATT -GTTGGATGATTATAGTATAATTTCCTATATGACTGATGAAGAATCGCCGATTGAAATCAAAGATAATAATCCGAT -AAGTAATGGAGAGTATCTAACCACTGAAGACGAAAGCCATGCTGTGAAAGTGGATGACGGTGTAACTGGATATAT -AAATAATGCCAGTGTGATGACTAGTGGTGATGGATCTTATGGTATTTCTGTTGATAGTCAAAACAAAGTATTATA -TATAAGCGATAGCGATATTAAGACCTCTGGAAGCGTATCTGACAAAGAAAATGGAGGGATAACAGCCAGCGCAGT -AGTCAGTGAATTTGGTGGCACCATCTTTATGAATGGTGATAATTCAGTCGAGTCGGGTGGGGCATATTCAGCGGG -ACTTTTAAGCCAGGTTAATGATTCTGAAAAGATGGTAAATAACACCCGTCTTGAAACCACAGATAAAACGAACAT -TGTTACCTCTGGGGAAAATGCAGTAGGTGTTCTTGCATGTTCAAGTCCTGGAGAGTCTCGAACATGTGTCGATGC -TGTAGATGATGAAGTTAGTGATTCTAACAGTTACGAAGTTATTAGCCGTGCTGATTTAAAAATGAATGGTGGTTC -CATAACAACTAATGGCATTAATAGCTATGGTGCTTATGCTAATGGGAAAAAAGCATATATTAATTTAGATTATGT -GGCACTTGAAACTGTGGCTGATGGAAGTTATGCAGTTGCTATTCGACAAGGTAACATTGATATAAAAAATAGTTC -TATTACAACAACAGGCACTAAAGCCCCCATTGCAAAAATATACAATGGTGGAGAGTTATTTTTTTCCAATGTCAC -CGCGGTATCAAAACAAGATAAAGGAATATCAATTGATGCATCAAATATCGATTCTCAAGCCAAAATAGCACTATT -AAGTGTTGAACTTTCAAGTGCTTTGGATAGTATTGATGTTAACAAAACTACAACGGATGTAAGTATCCTTAATCG -AAGTATTATCACACCTGGTAATAATGTTCTGGTTAATAATACTGGAGGTGACTTAAACATAATTTCGTCCGACTC -TATTCTAAATGGAGCGACTAAACTCGTCAGCGGCACAACCACGCTGAAGCTTTCAGAAAATACAATCTGGAATAT -GAAAGATGACTCCGTTGTTACCCATCTGACTAATTCAGACAGTATTATCAATCTTTCGTATGATGATGGTCAAAC -ATTTACCCAAGGAAAAACATTAACCGTAAAAGGTAATTATGTCGGTAATAATGGTCAGCTTAATATCCGCACCGT -ATTAGGTGATGATAAATCGGCTACGGACAGACTTATTGTTGAGGGTAATACTTCGGGTTCAACTACCGTCTATGT -GAAAAATGCTGGAGGAAGCGGCGCGGCCACGCTAAACGGGATCGAACTCATAACTGTGAATGGCGATGAATCTCC -AGCAGATGCCTTCAGATAAGGTGATGCAAGGATTGCAGCTGGAGCTTTCGAATATCAACTAAAACAACAAGGCAA -AAACTGGTATTTGACAAGTTATCAGTCAGTGAATGAGGAGGATAACAGCTCAGAGGGAAATTCAGAATCAACAGA -AACGCCTACCCCCGTCCTGCGCCCCGAAGCTGGAAGTTACGTCGCTAACCTGGCAGCTGCTAACACTCTTTTTGT -TATGCGTCTGAACGACCGTGCGGGTGAAACGCGCTACATCGATCCTGTAACTGAACAGGAGCGTTCAAGCCGACT -TTGGCTACGTCAAATTGGCGGGCATAATGCCTGGCGTGACAGCAACGGACAGTTGAGAACGACCTCGCATCGCTA -CGTCTCGCAGTTAGGGGGCGATCTGTTAACCGGTGGTTTTACCGATAGTGACAGTTGGCGTTTGGGAGTGATGGC -TGGTTATGCCCGCGACTACAACTTAACTCATTCCAGCGTGTCGGATTATCGTTCGAAAGGGAGTGTCAGAGGCTA -TAGCGCAGGGCTGTATGCCACCTGGTTTGCCGATGACATCAGTAAAAAAGGCGCATACATTGACTCCTGGGCGCA -ATATAGCTGGTTTAAAAACTCGGTGAAAGGGGATGAATTAGCCTATGAATCCTATAGCGCGAAAGGTGCAACCGT -CTCGCTGGAAGCGGGTTACGGTTTTGCCCTGAATAAATCCTTTGGTCTGGAAGCGGCGAAATATACGTGGATCTT -CCAGCCACAGGCACAGGCTATCTGGATGGGCGTCGATCATAATGCGCACACGGAAGCCAATGGCTCACGTATTGA -GAATGACGCAAATAACAACATCCAGACCCGACTCGGCTTCCGCACCTTTATTCGTACTCAGGAGAAAAACAGCGG -TCCGCACGGTGACGACTTTGAACCTTTTGTTGAAATGAACTGGATCCATAACAGTAAAGATTTTGCTGTCTCAAT -GAACGGTGTGAAAGTCGAACAAGATGGGGCGAGTAATTTGGGGGAAATTAAACTTGGCGTAAATGGCAACCTGAA -TCCAGCGGCCAGCGTCTGGGGAATGTGGGCGTGCAGCTGGGTGATAATGGCTACAATGACACCGCAGTGATGGTG -GGCCTGAAATATAAGTTCTGATCCCGCCGTTAGCTAAAAAACCGCGTCGTATTCATCGACGCGGTACATATGAAA -TATTATTTTTTGCCGATAGCACGCATGGTGTCATCAATTGCCGTGATCAACAGCATTTGCGGGTCTTTAGCGCAA -ACCTGATTCAGTTTTTCTACCACTTTGGCGCTCAGTTCCGGAGATTGCTCAATTTTTAAATCACGGCTGGCAACG -CTGGCATTACCCATTACCGCAACAATTTCTGCAACCTGTGCGCTGTCAGTTTTTGCCATTTCGTTGGCTTCTGCG -CAAGTAATATAGGTTTCTGACGGCAAACCGTTTTTAATATTGTAGTCCTGCGCCCAGGTCATTGGTGCGAAAACA -AACAGGCCCGCCAGTAAAGCAAATTTTTTCATCATCATTCCTTATTTCATTTTACCCAGAATTGCACCACCCGTA -CCGCCAATCACGGCACCTTTAATCGCCCCTTCGAGGCCATTGCCGGTCAGAACGCCAGTGACAGCACCAACGGCG -GCACCCACTTTTGCACCTTTACGCGCATTTTTACCGTCGCGGCCTTTTTCTGTTACTGCACCAACACCAGCGCCA -ACAGCTGCACCTTTCAGTACGCCATTAACACCATTGCCAGTAAGTAAACCAACGCCTGCGCCTAGCAATGCACCT -TTCGTGGTGCGGTTCATATCCGCCATCGCTGGCGTGGAGCAGAACAATGCTGAGATAAGCCCGAAGGCAAGTATT -TTTTTCTTCAACTTAGATGTCCGGTATTAAGTAAGTTGCACACACAATAATTTCGTCTTCAATTAAGATCTGCTT -AACTAAAGAACGCTCGCTATTATTCAGATAATTCAAAATGAGCGTGGCTGTGATGATAGGAATTATGTTTTTTAC -GTGAATGAGAATAATCTTAAATGAGGAATAACTCATTGATTGACAATATTTTTATTCAAGAAGTGTCATTGACTG -TTAACGCAATGTTGTAAAGGTAAGATAATCTGATTTATCAATATTATTGTGTGATTTTTATGTGAGCAGAAGATA -TTCATCAGCAACGATTACATTAGTCATTTTATTTTGCCGACGGCCTCATTGTCGAAAGATAAGCGTACGACAGTA -TTATCAGAAAAGAGTGATTTTTTATCCAACTACACTTCAGCGCACTGCGTGTAAAAAATGCCTCTTTCTTATGCG -GGATATCATCATTTCATCATGATGTCTTTGGTGAGCGGTGAACACAATACACCTGCGCTGTCTCTTCAGGATGAA -TCCCCTGGTCTGGTGCCTGCGGGCTGATGTTGCAGCAGAGCTTAGGTCACTTAGACGCTACTATCATTTATCCAA -TGGCATGGAATCGAAATCAGTCGATACCCGCAGTATATATCGTGAACTGGGTGCAACGCTGAGTTACAACATGCG -CCTGGGGAACGGTATGGAAATGAACCCTGGCTGAAGGCGGCTGTGCGCAAAGAATTTGTCGATGATAACCGGGTG -AAGGTGAATAATGACGGTAATTTCGTCAATGATTTGTCGGGCAGACGTGGAATATACCAGGCAGCTATTAAAGCC -TCATTCAGCAGTACGTTTAGCGGACATCTCGGGGTGGGGTATAGCCATGGTGCCGGTGTGGAATCCCCGTGGAAC -GCGGTGGCTGGTGTGAACTGGTCGTTCTGACCATCAACGATTAAACTGCGCTTCGGCGCAGTTTTCGTTTACAGG -ATGTTGAAAGGGAAAATTCTGGGGCAAAAAAAGCCCGCCAGTTACGGCGGGAAACCTCATCCTATGGGAGAACAA -TGAATAATGAAATTGCGGGGTTATCATCTCCCAGTATATCCATACTAACAATAAGGTTATTTACTCAACCAGGCA -TAAACATTTTGTTTTGTGCGTGGGAACAGCCTTAAGGTGTAAAGGGGGAGGTGGAAATAGCAATGAGGAGTATCA -GCAAGAATACTCGCCGCTTTACCACAACGTGGATGAGAGGGATGAAAAACTCAAGGCAGAGATAACTCTGCCTTG -AAGATAAATGCGCTTTTACAGCGGGCTTATTTCAGCTCTTCTGCTTCCGGTAAGGTCACGTTCAGCTCAAGAATA -GAAATATCGCCATCTTTTTGCTCAAGCTGTACGGTTACCATCTCAGGATCAATTTGTACGTATTTACAAATGACC -TCAAGAATATCTTTACGCAACTGCGGCAGATAATGCGGTTCTGCATCGCTGCGACGGCGTTCAGCAACAATAATC -TGCAGCCGTTCTTTTGCAATGTTGGCTGTGTTTTTCTTCCGCGAGAGAAAGAAATCGAGTAATGCCATAACTTAT -CCTCCGAACAAGCGTTTGAGGAAGCCTTTCTTCTCTTCTTCAATGAAGCGGAAAGGACGTTCTTCTCCCAACAGA -CGTTCTACGGTATCTGCGTAGGCTTTACCCGCATCGGCGTTAATGTCGAGAATGACCGGTTCACCCTGGTTAGAG -GCGCGCAATACTGATTGATCCTCTGGGATCACGCCGACGAGTTTGATGCGCAGGATCTCCAGCACATCTTCCATG -CTCAGCATGTCACCTCTGCTTACGCGGCCTGGGTTATAGCGCGTTAACAGCAGGTGCTCTTTAATAGGCTCTTCG -CCATTTTCTGCGCGGCGTGATTTCGACGCCAGAATGCCTAAAATACGGTCAGAGTCGCGTACTGAGGAGACTTCC -GGGTTGGTGGTAATAATGGCTTCGTCTGCAAAATAGAGTGCCATTAACGCACCGGTTTCAATCCCTGCCGGGGAG -TCACAAACGATAAATTCAAAATCCATCGCTTTCAGATCATCAAGAACTTTGGCGACCCCTTCACGGGTGAGGGCA -TCTTTATCGCGTGTTTGCGATGCCGGCAGAATATAGAGATTTTCAGTACGCTTATCTTTAATTAACGCCTGATTT -AGCGTTGCATCGCCCTGAATGACGTTGACGAAATCGTAAACGACCCGGCGTTCACAACCCATAATCAGGTCGAGA -TTACGCAGGCCGATATCAAAATCTATCACGACAGTTTTCTTTCCCTTCTGGGCCAAACCAGTGGCGATGGCCGCG -CTGGAGGTTGTCTTACCAACACCCCCTTTGCCCGAAGTAACAACAATAATGCGTGCCATAGAAATTCCTTGTTAA -AAAGGGATCAATTTAACGGTTGAACGGTCAAAGCGTTTTCGACTAACTGCAGTCGCGCCGCTTTGCCATAAAATT -CTGCTGGGATTTGATCACTCAGCCAGTATTCACCTGCGATGGACACCAGTTCCGCCATCAGGTTCGTACAAAATA -TTTGCGTTTCCCGGTCACCACTTGCCCCTGCCAGCGCACGACCGCGCATCATGCCATAGACATGAATGTTCCCAT -CGGCAATCAATTCGGCCCCAGCGCTAACGTGGCTTGTAACAATCAGATCACATTGTGGAGCATAAATACGCTGAC -CGGAACGCACCGGGGTATCTATTAAACGCGTTTTTGTGACCGGCGTTGTATTTTGCGCTGGAGCCTGCGGTGTGG -GAGCTGGACGTGGCGCTTTTTCCTTTCCTTCCGTCAGGATAGGCAGCCCCATCTTTTCAATTTCGGCTTTAAGTT -GCGCATCTTTGCAGCCACTTACGCCAATAACCCGCAAACCGGTTGCCGAAACCGCCTTATGCATCGCTGACCAGT -TTACCGGGTCTTCCAGTGCACTGACGTTGAGTACAACGGGGGCATGTTTTAAAAATGCGGGGGCCTGAGCGATTT -TGTCTTCCAGCGCCTGATGGATAACCTTAGGTTCTGCCTCATGCAGATGAACCACAGATAAAGTGAAGCTACTGC -CTTTAAGCTCGATTGGCGTGTTTGACATCCTGGCCTTACTCAATTAGCTATTAATCATCGCCAGCGCGCGATGAT -GTTCCGAAGACTATAAGGCATGTTATAGTCTGGATTATATTGAGGCAAGTCACCCTCCCATTTATTCAGAGTAAA -AGTCTATTCTGTGATAAATGGCGCTGATTCATAGCTTAAAAAATACCCTTGTCAATCAACCCATTGCCGTCGTAC -TTTTGATTGTTCTTATTTACGCTTCCTTTTTCCGCACCCTAATCGTGACAGCATCTCCAGACCTGTTTAAATATC -CAGTATTGAGGCAAGTGTATTTTTTCACCACGCCAGGCTTTCTTAACTTTCCATTTTTTGCGGCATCATTAAAGA -ACAGATACCCGTTATCTTAATATCCGCCACAGAATTGCTCTATCATAGAAACCGCAGAAGACGTCTGATACTTCT -GTCAGGTCATCGTAACTCGTCCAGGTCAGCGGTTTTGATTACGGATTGATGATGAAATGAGCATAAGTGTTGTAC -GGTTGGATTATCAGGATGTGCTATGAATATGATGCGTATTTTTTATATCGGATTGTCAGGTGTGGGGATGATGTT -CTCATCAATGGCGTCTGGAAATGACGCTGGCGGACTTCAATCTCCGGCGTGCGGCGTTGTTTGCGACCCGTATAT -TTGTGTGAACTCAGATGGCATTTCCCCAGAGTTAACAAGGAAATATCTCGGCGAAAAAGCCGCTGAAAACTTACA -ATCATTACAAGGCTACGATCCCAGCGAATTTACATTCGCTAACGGTGTATTTTGCGATGTTAAAGAAAAATTATG -TCGTGATGATCGTTATTTTGGTGTGGATGGTAAGCGGAGTGGAAAAATCAATCAAACCACCACAAAGATGTTATT -TATGTGTCGTGAGTGATGTCTTGTTTACATTATGTTCTATTCGTCATTAACCTCTTGAGCGACAGAGAGGAGTGG -GGCATTAACGTTTATGACGGGGAGAGTCCCCGTCGGTTGACATTTACTTAATTTGAATATCGACGTTATATTTTT -TAGTTTTGTTTTTACGGGCGTCGTTTCGGGTTTGCAACACTCGCAGCTCATATTTGCCAGAAGCAGGGAGTGAGT -ATTGTCCGTGACTATCGAGTTCTGGGGAATATCTGGATAAATCAACTGAATCATCGATTCCTGGCCCGAAGAGGT -AAGTATCAGCGCCTTCATTAGAGATACTCACATGCACTTTCTGACCTTTTTTGGCATAGAAGGTATATGTATCGT -AATCGTATCCCTTTATTTCGCCGGAGTACTGAGCGCTGCTATGGCCTTTTCTGAACTCAACATTGACATTCTTAC -CCGCAGCAAAGCTCGTGGAGGTTAGCAGTGCAAGCAGCAATACAGCCTTCCTGATGCTCTTGATTTTCATTGGTA -GTCTCCTGTTCAGAATGAGTACGATGAACTGTTATAATATAACAATCCCTAACGGGAGAATTCCAGTGGCTTTCC -TGCGTTCGGTAAAATCACGTTGCGGCATTTTTGCCGGGGGGATTACTTATAAAGGGGGCATGGACTCAACAAACC -GTAGAAATCTACAGCTGGCTGGCTTGTGGCGCGGGTTTCATTGATGTTAGCTTATGCCAAAACCTGGCATCTTAA -AGAGTAAAAGTATGTTTTGTGTGATTTATCGAAGCAGCAAGCGTGACCAGACCTATTTATATGTCGAAAAAAAAG -ACGATTTTTCGCGTGTTCCTGAGGAACTGATGAAAGGTTTTGGTCAGCCTCAGTTAGCGATGATTCTGCCGCTGG -ATGGGCGGAAGAAACTGGTCAATGCCGATATTGAAAAGGTTAAACAGGCATTAACCGAGCAAGGTTACTATTTGC -AGTTACCGCCACCACCCGAAGATTTGCTGAAGCAACATCTTTCCGTCATGGGGCAGAAAACAGACGACACTAACA -AATAACCGATATCCGGCGGTGGCATTATCTTTGTCGGCGCGGGTTTTCATATCCACGATAAGGTGAGGGGAACGT -TATGTATCAACATCACAACTGGCAAGGTGCGCTGCTGGATTATCCGGTGAGTAAAGTAGTCTGTGTTGGCAGTAA -CTATGCCAAACATATTAAAGAGATGGGCAGCGCAGTGCCCGAAGAGCCAGTGCTGTTTATTAAACCAGAAACGGC -ACTGTGCGATCTGCGGCAGCCATTGGCGATCCCATCCGATTTCGGTTCAGTTCATCATGAAGTCGAACTGGCGGT -GTTGATTGGCGCGACACTGCGTCAGGCTACGGAAGAGCATGTCCGCAAAGCCATTGCCGGTTATGGCGTGGCGCT -CGATCTGACATTGCGTGATGTTCAGGGAAAAATGAAGAAAGCCGGGCAGCCGTGGGAAAAGGCTAAAGCGTTTGA -TAACTCTTGTCCGCTTTCCGGGTTTATTCCCGCGGCGGAATTTACCGGCGACCCGCAAAATACAACGCTGAGCCT -GAGCGTAAACGGCGAACAACGCCAGCAAGGTACGACTGCGGACATGATCCATAAAATCGTTCCGCTGATCGCTTA -TATGAGCAAGTTTTTTACCCTCAAGGCCGGTGACGTTGTGTTGACAGGCACGCCTGATGGCGTCGGCCCGTTGCA -AAGCGGTGATGAGCTGACAGTCACTTTCGATGGGCATTCTTTGACAACTCGCGTTTTGTAATACTTTTTGCCGCC -TGAAAGCGGCGGCAAAACTTGCATCGCTGTGCCAGACTGGTTATAAGGTGCGTTTTAACGTAATGGCGGAACACC -TGATGAGCGATGTACCTTTCTGGCAAAGTAAAACCCTGGACGAAATGAGCGATGCGGAATGGGAGTCGTTGTGTG -ATGGTTGCGGTCAGTGTTGCCTGCATAAACTGATGGATGAAGACACCGACGAAATCTACTTCACTAACGTCGCCT -GTCGCCAGCTCAATATTAAAACCTGTCAATGTCGGAACTACGAACGTCGTTTCGAGTTTGAACCCGACTGCATTA -AATTAACCCGTGAAAATCTGCCAACATTCGAATGGCTGCCAATGACCTGCGCTTATCGTTTGCTGGCGGAAGGTA -AAGATTTACCTGCGTGGCATCCGCTACTTACTGGTTCGAAAGCGGCAATGCATGGTGAACGTATCTCTGTGCGTC -ATATCGCAGTGAAAGAATCAGAAGTGATTGACTGGCAGGATCATATCTTAAATAAACCTGACTGGGCGCAGTGAT -AAATTTAATAGATGCTGATGGGGGCTTTCTTAATATACGTCTGGATGCTCGCCATTTCGTAGCCCTGTTTTTGAA -AGCGCTCTGTCATAATGAGAGTTACCCGATACCTTATTATCAACAGGTAACTCTCAATCTTTAAAAAACGTCTGT -GTTTTTAAATGTGATAAACCTTATACCTTGAGTACATGGAGAGAATAATCGCTTATCAGACTTCAGGTACCTCAA -AGAGTGTCTTTTTACCGTGTCTTTTCTGATACTCATTACAGGTGTTAATCATTTTTTTGGCCGCTTCTTTTAGCA -AAGAAAGCATTAAATCATCATAATCAACGTAGAATCTGGTTGTTTCAGTTTCCGTTTTTATCTCACCGATGGCGG -CTATTTCGGTGGTTAATTTCAATTTGGCGGCATCGATATCTTTATTCGCTTGTTTAACCGTGTTAGACAGGGTGG -TAAAGAAATTCTGCACAGATTTTAACTTGTTCTTCAATTCTGGAATCAGTTTTCCTTCAACTACGCCCGCAGCAA -TAGAATAGGAAATGATTAATCCAAATGGACCGGCGACGACACCGGCTGCGGCACCGGCATATGCTTCCTTCCTGA -TTTTATCTACCTGTGACTGGAAATAGCTGCTTTTTTCTGAAAAATCATTGGTTAACTGGCTATCTAACGCCAGCA -GTTTCCCGGAAGCGTTGTTGAAACTTTGTGAGCTTACCAGCAGGGATTTTTGCGCTTCATTCAGCTTCGTGATGC -CGTCATCCAGTACCTTAATGAGAATGTCTTTCTGGGCGGATGCTTTCTTCTCATTGTACTCATCAAATAGCAAAA -TATACGCTGCGAGCAATTGCGTCGCAACACCACACCATTCATACACTGTTTGGGTTGCTTCAAAATACTTATCCT -GGCTATCCATAAGTAAGGTTTTAATATCGCCGACTAAAACGGAGGCTGCCTGTGAATACTCCTGTTTAAAGCGAC -TTAACTCTTTTATGGTTTCATCAAAGGTCTGCCAGGGGATGACCTGATCGAGATATTTATTATAAAGATCTAATG -CTCCATCTGCGGTTTCGATTGCGTTTTTAACTACTTCTACCGTTTTATCTGCAACGATTTCAGTCATAATCATTC -GCCTCTTTAAATATATAAATTGTAATGAAACTCCTGTTTTACAACTATTAATAAATTTTACTTCATCTAATTCAT -AGTTAGCCGGGCGGGATGCGTCAATGTCTTTATTTCTATTAATATGATAAATATCAAACAATGTTTAATGTCATT -ATGGCGAATGCTTCTATTCTATTTTTTAGCCGGGTGATATTTTTCATTTCTGCTGGATGAGCGTCGTCGCCAGAA -GGCCACGTGAGCACAAGATAAGAGAACGAAAAATCAGCAGCCTATGCAGCGACAAATATTGATAGCCTGAATCAG -TATTGATCTGCTGGCAAGAACAGACTACTGTATATAAAAACAGTATAACTTCAGGCAGATTATTATGTTGTTTAT -CAAGCCTGCGGATCTCCGCGAAATTGTGACTTTTCCGCTATTTAGCGATCTTGTTCAGTGTGGCTTTCCTTCACC -GGCAGCAGATTACGTTGAACAGCGCATCGATCTGAATCAACTGTTGATCCAGCATCCCAGCGCGACTTACTTCGT -CAAAGCAAGTGGTGATTCTATGATTGATGGTGGAATTAGTGACGGTGATTTACTGATTGTCGATAGCGCTATTAC -CGCCAGCCATGGTGATATTGTCATCGCTGCTGTTGACGGCGAGTTTACGGTGAAAAAATTGCAACTACGCCCGAC -GGTACAGCTTATTCCCATGAACAGCGCGTACTCGCCCATTACCATCAGTAGTGAAGATACGCTGGATGTCTTTGG -TGTGGTGATCCACGTCGTTAAGGCGATGCGCTGATGTTTGCCCTCTGTGATGTAAACGCGTTTTATGCCAGCTGT -GAGACGGTGTTTCGCCCTGATTTATGGGGTAAACCGGTGGTTGTGCTATCGAATAATGACGGTTGCGTTATCGCC -CGAAACGCTGAGGCAAAGGCGCTTGGCGTTAAAATGGGCGATCCCTGGTTCAAACAAAAAGATCTGTTTCGTCGC -TGTGGCGTGGTTTGCTTTAGCAGCAATTATGAGCTTTACGCAGACATGAGCAATCGGGTGATGTCGACGCTGGAA -GAGCTATCGCCCCGCGTCGAGATTTACAGTATTGATGAGGCATTCTGCGATCTGACAGGTGTGCGTAATTGTCGC -GATCTGACTGATTTTGGCAGAGAAATTCGCGCAACGGTGCTACAACGTACCCATCTTACTGTTGGTGTGGGGATC -GCCCAGACCAAAACGCTGGCTAAGCTTGCCAATCATGCGGCAAAAAAATGGCAGCGGCAGACGGGTGGGGTGGTG -GATTTATCAAATCTGGAACGCCAGCGTAAATTAATGTCTGCTCTCCCCGTGGATGACGTCTGGGGGATTGGACGG -CGGATCAGCAAAAAACTGGACGCGATGGGGATCAAAACCGTTCTCGATTTGGCGGATACAGATATCCGGTTTATC -CGTAAACATTTTAATGTCGTGCTCGAAAGAACGGTGCGTGAACTGCGCGGCGAACCCTGTTTGCAACTGGAAGAG -TTTGCACCGACGAAGCAGGAAATTATCTGTTCCCGCTCGTTTGGTGAACGCATCACGGATTATCCGTCGATGCGG -CAGGCCATTTGTAGTTACGCTGCCCGGGCGGCGGAAAAACTTCGCAGCGAGCATCAATATTGTCGGTTTATCTCC -ACGTTTATTAAGACGTCACCATTTGCGCTCAATGAACCTTATTACGGCAATAGCGCGTCGGTAAAACTGCTGACG -CCCACTCAGGACAGCAGGGATATCATTAACGCTGCTACGCGATCTCTGGATGCCATCTGGCAAGCGGGCCATCGT -TACCAAAAAGCGGGCGTGATGCTGGGGGATTTCTTCAGTCAGGGAGTCGCGCAGCTCAATTTATTCGATGACAAC -GCACCGCGCCCCGGGAGTGAGCAATTGATGACGGTAATGGATACACTGAATGCTAAAGAGGGCAGAGGAACACTC -TATTTTGCCGGGCAGGGGATCCAGCAACAATGGCAGATGAAGCGAGCCATGCTTTCACCACGTTATACAACGCGA -AGTTCTGATTTACTGAGGGTCAAATAAATATAGCGGCAGGAAAAAAGCGCTCCCGCAGGAGCGCCGAATGGATTA -GCGACCGAACAGATCACGTTTTTTCGCTTTAAACGGCTGGGAAATCACCACCAGCACTGCGACAATCAGGTAAGC -GATAAAAATACCGAGCAGCCACTGCGGCATTTCCAGACCTAAAAAATCCCACTGACGCTCGGCGCAATCGCCAGA -GGCGACAAACACTTGCGGCACCCACTTATCCAGCGGCAGCCATTCCGGGAAACGAACCATAAAATCACAGGTGGC -AAACGGCGAAGGATAGAGCTGAAGCATGGTGTGCTCGTAAGTTAACTGCACACCGCGGAACGCACTATACAACCA -GATAACCATCGCTACATAACGCAGCGGAGTTTTCGGGGCGATCGCGCCAATCAGCGCAGCACCCAGAACGCCGAA -TAACGCGCAGCGTTCATAAATACAGAGCACGCAAGGTTTCAGTAACATCACATGCTGGAACCACAGCGCCGTCAG -TTCCAGTGCCAGAGCAGTAAACGCCATCAACAGCCACGCGCCCCGGCCTTGTGAACATTGGTTCAAAAATCGCAA -CATAATCATTTCCCTGCAATATGCATAGAGTGCGCAGTTTAAACCAATTCATTCGCTGCGCCACCAGGAGGCAGC -AAAAATAGGACGCAATTGGACAATTATCGGGCGAAAAGGCAAACCGGGCATTTATATGCCCGGTAAGTTGTTATC -AAAGCGTTGCTATCCAGCCCATTTGCATAAACCATTCGGTTACAGGGGCAAGCGTAAACTCGACGCAGAGCAAGC -CGACGAGTGTCAGGACGAGGGTGTAAGGCAGGGCCATCCACACCATGCGGCCATAAGAGAGGCGAATCAATGGCG -CGAGTGCAGAGGTCAGCAGGAACAGGAACGCAGCCTGACCGTTCGGCGTAGCGACGGAGGGCAGATTGGTACCGG -TATTAATGGCGACCGCCAGCAGCTCGTATTGCTTCAACGTGATAGCGCCACTTTCCATTGCCGCTTTCGCTTCGT -TGATATAAATCGTCCCCACGAAGACGTTATCCGAAATGGATGACAGCAGACCGTTGAAAATATAGAACAGCGACA -GCTGAGCATGTTCCGATGCCTGCAACACAAACTGAATAATTGGCGAAAACAGTTGTTGGTCGATAATCACCGCGA -CTACCGAGAAAAACACCGTCAACAGTGCGGTGAATGGCAGAGATTCGGTGAAGGCTTTACCGATAGCATGCTCAT -CGGTGACACCGGTCAATGATGTTGCCAGAATAATGACTGACAAACCAATCAAGCCAACTTCCGCCAGATGCAACG -CCAGCGCAGTCACCAGCCAGACGCCAATAATCGCCTGGACAATCAGACGGATTTTATCCTGACGGGTACGCTGGT -GGCGGCTTTGATCGTCAAACTGTTGCAACACTTCGCGGACTTTCTCCGGCAGCGTTTCACCGTAGCCAAACCAAC -GCAGCTTCTCTACCAGCAGGCAGGTTAACAGGCCACAAATCAGAACCGGAACGGTCACCGGCGACATGCGCAGGA -AGAAATCGCCAAAATGCCAGCCAGCCGCTTTAGCGATGATCAGGTTCTGTGGTTCGCCCACCATGGTCATTACGC -CGCCTAATGCGGTGCCGACACCGGCATGCATCATCAGGCTACGCAGAAAGCCACGGAACTGTTCCAGAACCACTT -TGTAATGCTTGTCGATATGACTATCGTCTTGCAGGTCGGTGTCTTCGGTACGGGAAGAGGCTACGCGGTGATAAA -TACCATAAAAACCGACTGCAACGCTGATCACCACCGCCACGACGGTTAAGGCATCGAGGAACGCGGAGAGGAACG -CAGCCGCCACGCAAAAAGAGAGCGACAGCAGCATTTTGGAGCGAATGCTTAACAGCAAACGGGTAAATATGAACA -GCAACAGCTGTTTCATAAAATAGATACCCGCCACCATAAACATCAGTAACAGCAAGACTTCAAGATTTGCCGCCA -CCTCTTCACGGACGTGTTCCGCGCTGGTCATGCCGATGAATACCGCTTCGATAGCCAACAGACCACCGGGGAGCA -GCGGGTAGCATTTCAGGGCCATCGCCAGAGTGAAAATAAATTCCGCTACCAGCAACCAGCCCGCGACGAAAGGGC -TGATGAGGAAAATTAACGGGTTTACGATTAAGAAAATGATGAGGGCGAGTTTGTACCAGTCGGGGGACTGGCCCA -AAAAATTGCGCCATAGCGCGCGGCCCCAGGAGATCTCCATGATGGTTTCCCTTACCTTACAAATAATCAATGATG -TTTTTATGTTTAAACGCAAAGCTTAACGGTCAGGCAGGAGTGAGGCAAGTCTTGATAGTCAAGGGGAAAGAGATG -CGGAAAATGAAGCCTTGATCCCTTTTTCTTCTTTTTGTCTGCTATCAGCGTAGTTAGCCCTCTGGTATGATGAGT -CCAACTTTGTTTTGCTGTGTTATGGAAATCTCACTATGGTCATTAAGGCGCAAAGCCCGGCGGGTTTCGCGGAAG -AGTACATTATTGAAAGTATCTGGAATAACCGCTTCCCTCCCGGGACTATTTTGCCCGCAGAACGTGAACTTTCAG -AATTAATTGGCGTAACGCGTACTACGTTACGTGAAGTGTTACAGCGTCTGGCACGAGATGGCTGGTTGACCATTC -AACATGGCAAGCCGACGAAGGTGAATAATTTCTGGGAAACTTCCGGTTTAAATATCCTTGAAACACTGGCGCGAC -TGGATCACGAAAGTGTGCCGCAGCTTATTGATAATTTGCTGTCGGTGCGTACCAATATTTCCACTATTTTTATTC -GCACCGCGTTTCGTCAGCATCCCGATAAAGCGCAGGAAGTGCTGGCTACCGCTAATGAAGTGGCCGATCACGCCG -ATGCCTTTGCCGAGCTGGATTACAACATATTCCGCGGCCTGGCGTTTGCTTCCGGCAACCCGATTTACGGTCTGA -TTCTTAACGGGATGAAAGGGCTGTATACGCGTATTGGTCGTCACTATTTCGCCAATCCGGAAGCGCGCAGTCTGG -CGCTGGGCTTCTACCACAAACTGTCGGCGTTGTGCAGTGAAGGCGCGCACGATCAGGTGTACGAAACAGTGCGTC -GCTATGGGCATGAGAGTGGCGAGATTTGGCACCGGATGCAGAAAAATCTGCCGGGTGATTTAGCCATTCAGGGGC -GATAATCCCTTCCGTTTAAAGAGCAAACCCCTCAAACGAGGGGTTTTTTGTTGTTTTTACAGATTTCCCATTCTT -GGCGGGCAACGTTCCAGCAACTCGATGCTGCCGTCTTCGTTTTGCTGTTCGAGCATCACATCAAATCCCCACAGG -CGATGCACATGCTTCAGGACTTCTTTGCGCCCCCGATCCAGCGGTGCGCGATTATGTGGAATATAACGCAGCGTC -AGCGAACGGTCGCCGCGCAAATCCACGTTCCAGATCTGAATATTCGGCTCCAGATTACTTAAGTTATATTGCGAC -GATAACCGGTTACGGATCTCCCGATAACCTTCTTCATTATGAATAGCGGAAATCTCCAGATAATTATGCCGATCG -TCATCCAGCACGGTGAAGAAGCGGAAATCACGCATCACTTTCGGTGACAGGAACTGGCTGATAAAACTCTCATCT -TTGAAATCACGCATCGCGAAATGCAGCGTTTCCAGCCAGTCGGAACCGGCGATATCCGGGAACCAGTATTTGTCT -TCTTCCGTTGGCGACTGACAAATCCGTTTAATATCCTGGAACATGGCGAACCCGAGGGCATACGGGTTGATGCCG -CTGTACCACGGGCTGTTATAGGGGGGCTGGAAGACCACATTGGTGTGGCTGTGCAAAAACTCCAGCATAAAACGT -TCCGTTACTTTCCCTTCATCATACAGATGGTTAAGGATGGTGTAGTGCCAGAAGGTCGCCCAGCCTTCGTTCATC -ACCTGAGTCTGTTTTTGCGGATAAAAATACTGGCTCACCTTACGCACAATACGCAGGATTTCACGCTGCCATGAT -TCCAGCAGTGGCGCATTTTTCTCCATAAAATAGAGCAGGTTTTCTTGTGGTTCGGACGGATAGCGGCGCGCTTCA -GCAACCGTTTTCTCTTCCTCGCGCTTCGGCAGGGTACGCCAGAGCATATTGACCTGACTTTGCAGATACTCTTCG -CGACTTTTCTGCCGGGCTTTCTCTTCTTGCAGCGAGATTTTTTGCGGGCGTTTGTACCGGTCCACGCCGTAGTTC -ATCAGCGCGTGGCACGAGTCCAGAAGCCGTTCTACTTCATCAACGCCATAACGCTCTTCGCACTCGGTAATATAT -TTACGGGCAAAAATCAGATAATCGACAATCGAACTGGCGTCGGTCCAGCTACGGAATAAGTAATTGTTTTTGAAG -AAAGAGTTATGCCCATAGCAGGCATGAGCCATCACCAGCGCTTGCATGGTAATGGTGTTCTCTTCCATCAGGTAA -GCGATACACGGGTTAGAGTTAATGACGATTTCATAGGCCAGTCCTTGCTGACCGTGCTTATACAGCCGTTCAGTC -TCGATAAACTTTTTACCGAATGACCAGTGCGGATAGTTAATTGGCATGCCGACGCTGGAGTAGGCATCCATCATC -TGTTCTGAGGTTATCACTTCAATCTGGTGCGGGTAGGTATCCAGCCGGTAGAGTTTCGCCACCCGGTCTATCTCT -GCCAGATAAACATCCAGCAGGTCGAACGTCCAGTCGGGTCCATCGCTCAAACGTGTGGTGTCCTTATTCATAGAA -TCGATCGTCGCCATACGCGCACCTCATTGTTGTCGGCGCTCTCTGTGTGGAGCACCTCATTTCAAGCATAGAACA -CCTGTTAAAAACCGCGTCGCCGGAGAATTTTTTTCTTTGCGATTTCTTATTATCAGAGTGCCACTAATCCGCTTC -TGAACGGAATTTTATGCTGGATAAAAAGGGCGTTCAGCAGGAGATACTAAAGACGCCATATTGCCGCAGAGTCAG -GGAGATGTGAGCCAGCTCACCATAAAAAAGCCGCATGTTGAATAATATTTTCAACTGAGTTATCAAGATGTGATT -AGATTATTATTCTTTTACTGTATCTACCGTTATCGGAGTGGCTATGCGAGTTGTCATACTGGGAAGTGGTGTGGT -AGGCGTTGCCAGCGCCTGGTACTTAAATCAGGCAGGACATGAGGTCACCGTCATTGATCGGGAGCCGGGGGCCGC -CCTGGAAACCAGTGCCGCGAATGCCGGGCAAATCTCCCCCGGATATGCTGCACCGTGGGCGGCACCAGGTGTGCC -TTTAAAAGCGATTAAATGGATGTTCCAGCGCCATGCGCCGCTGGCGGTTCGTCTCGACGGTACGCAGTTCCAGTT -GAAATGGATGTGGCAAATGTTACGTAACTGCGACACCAGCCACTACATGGAAAACAAAGGGCGGATGGTGCGTCT -GGCGGAATACAGCCGTGATTGCCTGAAAGCATTGCGCGCCGAAACCAATATTCAGTATGAAGGGCGTCAGGGTGG -GACGCTGCAACTGTTCCGTACCGAACAACAGTATGAAAATGCGACCCGCGATATCGCCGTGCTGGAAGATGCCGG -CGTACCGTATCAGCTGCTGGAATCCAGCCGCCTGGCGGAAGTGGAGCCCGCGCTGGCAGAAGTGGCGCACAAACT -GACGGGCGGCCTGCAGTTACCCAATGATGAAACCGGAGACTGTCAGCTATTTACCCAGAATCTGGCGCGGATGGC -GGAGCAGGCGGGGGTTAAATTCCGCTTTAATACGCCCGTTGACCAACTGCTTTGCGACGGCGAGCAAATCTACGG -CGTGAAGTGTGGCGATGAAGTGATTAAGGCCGATGCGTATGTGATGGCGTTTGGTTCTTACTCGACGGCGATGCT -CAAAGGCATTGTTGATATTCCGGTGTATCCGCTGAAAGGCTACTCGCTGACCATTCCAATTGCGCAGGAAGATGG -TGCGCCGGTATCCACCATTCTTGATGAAACCTACAAAATCGCCATTACCCGTTTCGATAACCGCATTCGTGTTGG -CGGAATGGCGGAGATTGTTGGTTTTAATACCGAGCTGTTGCAACCGCGTCGTGAAACGCTGGAGATGGTGGTTCG -CGATCTCTATCCACGCGGCGGTCATGTCGAGCAGGCGACTTTCTGGACTGGTCTGCGCCCGATGACGCCAGACGG -CACGCCGGTTGTCGGGCGTACACGCTTTAAAAATCTGTGGCTGAATACCGGTCACGGCACGCTCGGCTGGACGAT -GGCTTGCGGTTCCGGTCAGTTGTTAAGCGATCTGCTCTCTGGTCGCACGCCAGCGATCCCATATGAGGATCTAAG -CGTAGCGCGCTACAGCCGTGGATTTACGCCATCACGTCCGGGCCATTTACATGGCGCACACAGCTAAGGAAACGA -GATGACCCGTCCGATACAGGCCAGCCTCGATCTGCAGGCATTAAAACAGAATCTGTCCATTGTCCGCCAGGCCGC -GACGCACGCGCGCGTCTGGTCGGTGGTAAAAGCGAACGCTTACGGGCATGGTATTGAGCGTATCTGGAGCGCGAT -CGGGGCCACCGATGGCTTTGCATTGCTTAACCTGGAAGAGGCAATAACGTTACGTGAGCGCGGCTGGAAAGGACC -GATCCTGATGCTGGAAGGATTTTTCCATGCTCAGGATCTGGAGATTTATGACCAGCACCGCCTGACCACCTGCGT -ACACAGCAACTGGCAGCTCAAAGCACTGCAAAATGCGCGGCTAAAAGCACCGTTGGATATTTATCTTAAAGTGAA -CAGTGGGATGAATCGGTTGGGCTTCCAGCCCGATCGCGTGCTTACCGTCTGGCAGCAGTTGCGGGCAATGGCGAA -TGTTGGCGAAATGACCCTGATGTCGCATTTTGCCGAAGCGGAACATCCTGATGGAATTTCCGGCGCGATGGCGCG -TATTGAGCAGGCGGCGGAGGGGCTGGAGTGTCGGCGTTCGTTGTCCAATTCGGCGGCGACTCTGTGGCACCCGGA -AGCGCATTTTGACTGGGTTCGGCCTGGCATTATTTTGTATGGCGCTTCGCCGTCCGGTCAGTGGCGTGATATCGC -CAATACCGGATTACGTCCGGTGATGACGCTAAGCAGTGAGATTATTGGTGTCCAGACGCTAAAAGCGGGCGAGCG -TGTGGGCTACGGCGGTCGCTATACTGCGCGCGATGAACAGCGAATCGGCATTGTCGCCGCAGGGTACGCCGACGG -TTATCCGCGCCACGCGCCTACCGGTACCCCTGTTTTAGTGGACGGCGTGCGCACCATGACGGTGGGGACCGTCTC -GATGGATATGCTAGCGGTCGATTTAACGCCTTGCCCGCAGGCGGGTATTGGTACGCCGGTTGAGCTGTGGGGCAA -GGAGATCAAAATTGATGATGTCGCCGCCGCTGCCGGAACGGTGGGCTATGAGTTGATGTGCGCGCTGGCGCTACG -CGTCCCGGTTGTGACGGTGTAACTTGTTGTAAGCCGGATCGGAGGCAACGTCTTCTGGGTGCAAAAAAATCATCC -ATCCGGCTGGTCAGCAACTGTAGTTGTTAATGTGACAGAGCCATTGCCCATGATAGTGTCCATTAAAAGGATGGA -CACTATTTCCCCGGAACCTGAACTCACCGCACAGGCGTTCTACATAAAACGCTTACGCTTCATTGTTGACTCGAA -CTCGACTTCAGATAAATCACGCTTTACCCTTGATGGAGCCTGTACATAGATTTGTGTAATTGCCTGATTTTGATA -TGTTCAATTCAACATCAAATGAAGGTTAAATTATGGACGACAAACAATTGCAGGCTCAGGCTGCGTTCAGCAAAG -CATCGCAACCGGCGATAGATGCTTCATTAAATTTAAGATTCAGCTTCCTCTTCAGCCACCCGTACGCCAATCTTC -AACACTTCATTATCTTCTTTCTCGGCCACCGTCCAGATCATCCCGGCAAACTCTACCTGGTCACCGACAACCGGT -GCCGCGCCTAACAACTGCTGGACAATTTCACCCAGCGTTTGCTGCTTATCACGATATTCTCGCCCGTCTTCCAGG -CCATATATCAGCGCAACATCAGCATATTTGGCGCTGGCTTCGAGAATGAAGTCACCAAAGAAGCGTTGATCCAGC -GCGACCGGCGGCGACTGGCTGAACAGTTTACCGAGCGCCGGAAGATCGCGTTCCCGACCAATTACACACAACACA -TCGCCTTCGCGCAGTCGGGTGCTGCCGGTAGGATGAAGCAACTGGTTATCACGAAACAGTGCCGCAATACGCGTC -TCTTTTGGCATATGCAAATCGCGCAGTGCCGCGCCCACGCACCATTTATCGGCACTCAATTGATAAACAAACTGC -TCCCACGGATTTTCCGGATGAATATCCAGGCCAACGCGTGACACCGGACGTCCCACTGGCGGAACCACCACTTTG -GCTTTTTTAGCCGCCCACGAGAGTGATGTTCCCTGCAAGAGCAGTGAAACCAGAACCACAAAGAAGGCGACATTA -AAGAACAGACGTGCATTCTCCAGCCCCGCCATCATCGGGAACACGGCCAGGATGATTGGCACCGCGCCGCGTAAT -CCTACCCAGCTGATAAACACGCGCTCACGCAGATTGAAACCGCGGAAGGGGAGCAATCCAGCAAATACCGAAAGG -GGACGGGCGAAGAATATCATCCATGCGGACAAAATGAGCGCCGGAATGGCAATAGGCAGCAGATCGCTTGGGTTA -ACCAACAGCCCCAGCACCAGGAACATGGCGATTTGCGCCAGCCAGGCGAGGCCGTCGAAATTTTGCAGGATGCCG -TAGCGGTTGCGAATAGGGCGATTACCCAGCAGAAAACCGCACAGATACACCGCCAGAATACCGCTACCTTCCAGC -GCAGTAGTTAATGAGAAAATCAGAATACCGCCACTTAATGCCAGCAATGGATATAATCCGGCGGGCAGGGCGATG -CGGTTGATCATTTGCAGTAGTAAATAACCGCCGCCAAGACCTATTACAATGCCCAGACCAAATTGTTGCAGAATA -TCGACAATGAACATCCAGCTAATATTGCTCTCATGATGCTGGATCATCGCAATTAGGGTAATCGTCAGAAAGACC -GCCATTGGATCATTACTGCCGGATTCAATTTCCAGCGTCGAGCCAACACGTTCGTTAAGCCCCTTACCACCCAGC -AGAGAAAAGACCGCTGCAGCATCGGTAGAGCCGACGATAGCGCCGATTAATAAGCCTTCAATCAAATCAAGATTA -AACAGCCACGCCGCCATCATGCCGGTTAAACCAGAGGTGATAAGCACGCCCAGCGTCGCCAGCGACAGTGCCGGT -CCTAACGCCACACGAAAGGAACTGGCCTGAGTGCGCATCCCGCCGTCGAGCAAAATAATCGCCAGTGCCAGGTTA -CTTACCATGTAGGCGAAGGGGTAATTATCAAACGGGATACCGCCGACGCCATCGACTCCTGCCAGCATGCCGATC -GCCAGAAAAATAACCAGAATAGGAATGCCAAGACGGGAAGAAAATGAACTAAGTAATATACTGCTGGTGACAAGG -ATGGATCCTAAGATGAAAAGGCTAATTATTGTTGTGGCATCCAACGGTCGGTTACTCCTGATTACGCTGTCTCTT -ATATAAACCCTACCATATTAGCGGCAGAGACAGCGTTTTACTTAGCCCTGAAGCGTGATTTTTTTACATTTTAAG -AACAGGATGACCGCTAATCGTCAACTGAGTGCCTTCCCGGGTGTTATTCAGAATGGCATGTGCGCCCAACGGCAG -CGTAACCGTGCGTTGTTCATGACCAAAATCGAGGCCGGTAATGAGTGGAATCGACAGGCGGGAACGCAAAAACGC -GTACACTGACTCCAGGTTGTAACCTGCGTCATAATCATTGGGCGTGCTGCCGCTAAAGCTACCGAGAATAATCGC -CTTCTGACGTGGCAAAATTCCCGCATGATAGAGCTGCAACAGCATACGTTCGACCCGGAAAGGGTGCTCGTTAAT -ATCTTCCAGCACCAGAATACCGTTCTCAATTTTTGGCATCCACGGTGTACCGATCAGTGAAATCAGCATCGCAAG -ATTGCCTCCCCACAACGTGCCTTCGGCCCGACATGTCGGGCCTTCCCCTTGCCATTCAATGGTGAAGGTTTCATT -GCGTAACGCCAGCCAGAAATGGTGCTCGGTAAAGGCGTTCAGTTCATCCGCGCCAAAGTTTGCTACCAGCATGGG -GCCGCTAAAGGTGATGACATTGCCATGCGCCAGAAGACCGCACTGAATGGCGGTAAAATCGCTATGTCCGCAAAT -GAGCAACGGGTCATGTTGTTGGCGAGCCACCAGTGCCTGCCAGTCAATATCTGCCAGTAAACGACTGGCACCGTA -ACCGCCGCGTACAGCCAGCACGATGGTGTTGGGGGTAGTCAGTCTGGCAAGGGAATTGAGATCTTCCAGACGCTC -TGTTTCCGTACCCGCAAAACGCTCACAACGACGGGCAATAACCTCGACGTTATTGACTTGATGCCCCGCGTCGGT -AAGGCGCTGGATACCACGCAGCGCGGCGTGCTGTTTAATGCAGTAACCCGATGGGGCAATTAAGTGAAACAGAGA -CATGGCAATTCCTTGCTGACAACAGAAACGAAATGTATATCATGCCGCTTAGGTGTGCCGTTGTCACCTCAACGG -CGATTCCAGGCTATAAGGATAGAAGAAGTGAAATTGAGATGGTTTGCCTTTTTGATTGTGTTATTAGCGGGTTGT -TCATCAAAGCATGACTATACGAACCCGCCGTGGAACGCGAAAGTTCCGGTGCAACGTGCGATGCAGTGGATGCCA -ATAAGCCAGAAAGCCGGTGCAGCCTGGGGCGTCGATCCACAATTGATCACGGCGATTATCGCTATCGAATCGGGT -GGTAATCCGAACGCGGTGAGTAAATCGAATGCCATTGGTTTGATGCAGTTAAAAGCTTCAACCTCCGGACGTGAT -GTTTATCGCCGTATGGGCTGGAGTGGTGAGCCGACGACCAGCGAGCTGAAAAATCCAGAGCGTAATATTTCAATG -GGGGCGGCTTACCTGAATATTCTGGAAACCGGCCCGCTGGCAGGCATTGAAGATCCGAAGGTACTGCAATATGCG -CTGGTGGTGTCATACGCTAACGGGGCAGGTGCGCTGCTACGGACTTTCTCGTCAGATCGGAAAAAGGCGATCAGC -AAAATCAACGATTTGGATGCTGACGAGTTCCTCGAACACGTAGCGCGAAATCACCCTGCGCCGCAGGCTCCGCGC -TATATCTACAAACTTGAGCAGGCACTGGACGCGATGTAAATCAGTCGCGCACTTTGTCCGCTTTTTCCCGGGCTT -CTCGCTCGAGAGAGAAAATAATCCGCTGTAATTGCCGCTCCACCGTCGGGCTGACGTTAAGAAAACGGAAGCTCA -GACGGGGAGTGGTGATGGTTTCATTCTTGCCATCAATCACTTTGCGCTCGCTGATGGAGATTAACTGGGCGTCAA -AGTGAAAAACACCCCATTGCCCCATGTTGACTTCAATCTGAGCGAAGCGCATGCCTTCTTGTAATTCGGCAGGCT -TTGCTGTTTCCAGTAATGCGCCCATGCCGCCTAACGACAAATCATACAGGCGGAAACGTAACGTACTGTTATCCG -CCAGTTTGGTCTGGCAAAAATAAGGCGGATGGAGTGGGGCGGAGATGCGGAAATATCGGCGTCGTTGTACAAACC -ATAAGGTGGGAGGCGGTACGGTAATAAATGCCGGAAGCTGCAAGTATTCACTCTGCTGTAGTTGTTCAACAGTAA -ACTCGACTTTCGCACCCTGAGTTTCGGCGGTAATGGTAATGTGCTGTGCCTTTAGCACGGCGATGTTGTCTTCGG -CTTGACTGCCGAAATCCAGCACCAGTTTATCCGGGGTTATTGCCAGTAATTTGCTGATCAGCTGCCCGCCATTCC -AACTGAGACGCAAAGGAATTGCGGCTTTGTGCAAATCGCGTAACACGCCCAGGACGGCTAACGGATTTTGTTTCA -GGAACTGCTCATGGTAATGACTCACGCGGAAAAACTCCTGACTGACAAACTGTCTTTGGTTTATCGGTCACAGTT -AACAAAACTTAATACAAATGCGTGAATATTTTTTACATGTTGTTCTTAAATCAGCCGACATACGCCCAGCATCGA -TCCCGCCCTTGCCTATACTTAGAGCGTTGATGTAAGCATTTCTTGCGTCCGATTCATCGAAACGAGGGCCTGAAC -ATGGGAATTATTGCCTGGATTATTTTTGACCTGATAGCCGGCATTATCGCCAAGCTAATCATGCCGGGGCGTGAT -GGTGGTGGATTTTTCCTGACCTGTATTCTCGGGATAGTCGGTGCGGTGGTCGGCGGCTGGCTGGCGACCATGTTT -GGCATTGGCGGCTCCATCAGTGGTTTTAATCTGCACAGCTTCCTGGTGGCGGTGGTGGGAGCTATTCTCGTTCTG -GGCATATTCCGCCTCCTGCGAAGAGAATAAGATTTTCATAAGGCGGATAGCGATACAGATGCCGCTATCCGCTTT -CACATCAGAACGTATACTCGACACCTGCTTTACGGGTGAAAAAAATCAATATAGCACTTCGATATCCGATAAAGT -CGGTTCCCGGTAACAACAACAGAATCCTTTTTTAATTATTGTTTCGTTGTTTTTGGTGTGATTCAGAAAATAAAT -ATTTTAGACAGTAGCCAGTCAGGCGTTAAAAATGGGGCGGATAGTGAGGCGGTTTTGGCTGCGCTTATTGAACAT -TTAGAATTGATCAATCCTTCTGGCAGATTAAGCCAAAATACCCGTTCGGCAATGCTTCAGTTACGCGAAGAGGAA -TGGTCTGAATTCTTTTTTTGGTTGCTAAATTCTCTGGAGTGTCTGGATTATGTGATTATTAATTTAACTCCAGAA -AGCAAAAAAACGTTGATGAGTGAACACCGTAACAATATTCAGGTAGCAATTGATGCTTTATATAGCCAACGTCGG -CGTAAATCGCCGGGTGATGAAAGTGAAACACTTACCCGTAGAAATGACGCTATCTTCGGCAACCACGTATGGCAA -ACATTTGCGCAATACTTCCCGCCAGGACTTGAAAAACCGTCTGTGTAGAAAAAACCATAGCTATGGTGTTATCTG -CCGACAACGCCATCCGGAGAAGCCGAATGACGTTGTCGGAGTAAGCGCTGGTTAAGGTGTGGGTTGTGCCTCTTT -GGTTGAGGGTTGCGTCGTTGCTGACTTAACGGTCGGACGCGTCGCCGGAACATTGTCACACGGTTGCTCTTTCGG -GCAGATCAAATCCAGCATTTTCAGCGTCACGCCATTGGTCCAGCCAAAGCCATCCTGTAATGGATATTCGCCACC -GCCGCCCCCCGTTCCGGTGGTGCTGACATCATATTTTTCCACCAGCTTTTTCTCCCGGTCATAGGTGTGCTGAAC -ATTGGTCAGGAAGTGCCAGCTAATGTCCATCGCCACCTCTTTTTGCCCGTAGTTTTGTAATCCTTCTGTCGCGAC -CCACTGTAACGGTGCCCAGCCATTTGGCGCATCCCATTGTTGCCCACTTTTCACCGACGTGGTGTTCAGGCCGCC -GGGTTGCAGCAGATGTGTTTTCGTCGCCGTCGCCATTTTGTTGGCGCGATCTTTCGCTGCCGCATTGACGTACAG -CGGGAACAGGGCGGCCGCGGTTAACTGATTGCGCACTTTATGACTTTTCAGGTCGTAATCGGCATACCAGCCTTG -TTGATCGTTCCACAGGTATTTTTCGATCCCTTTTTGACGGGCATTTGCCAGCGTTTCGTACTGGTTTGCCATCGC -GTTATCTCCGGCAGCTTTGCTGGCGCGGGCGAGGATTTTTTCCATTTTAAACATCAGGCTGTTCAGATCGACCGG -TACGATGCTGGTGGTGCGTAAGGTATTTAACTGCTGCGGGTTGTCCATCCAGCGCGAGCTGAAATCCCAGCCAGA -CGCAGCGGCAGAGCGCAGGTCGCGGTAAATTTCAGTGGCAGGTCGATTCGGATTGCTTTTGGCGGTGGCAATATC -TTCCACCCATGACTCTGGTCGTGGCGTATCGCGATCGTCCCAGTAGCGGTTGAGAAGGGTACCATCCTGAAGTTT -GACAACGCGTTTTTCCTGTTGTCCGGCTTGCAGGTTTTCAACACCGTCCATCCAGTAAGCATATTCTTTTTGCAT -TTGCGGCAGGTATTGCTTCAACGCGGCATCGCCTTCATGCTGCGCCAGTAACTCTACCATCAGGGCAAAGAAGGG -CGGTTGCGAGCGGCTTAAATAGTAACTGCGGTTGCCGTTGGGAATATGACCGTAAGTGTCTATTTCATGAGCAAA -ATTGGCCACCATATCCGCGACTTTATCCCAGTGACCGCTTTCGGCAAGTCCTAACATGGTGAAGTAACTGTCCCA -GTAATATACCTCGCGAAAGCGTCCGCCCGGCACGACATAAGGTTCCGGCAGCGGTAACAGAGAATCCCATTTTTC -GGTGTTTTCGGTAGAACGCGTTAATACCGGCCAAAGTCCGTCAATATGTTCGCGCAGTGACTGCCCCTCTGGCGG -AACATATTTCTCGCCTTCTTTCGGCAGGGTGAAATTGACGTTAACGAAATGGCGCAGATCAAATCCGCTCTGGTT -TTGCTGCATCCGATAATCAGCAAGGATCATCAGCGGATCGCTGTTCGGCACGGCATCGGCAAAGGTTTTTTGGTC -CGGAAAAAGTTTGGCGTTTTGCACATCATTAAACAGCGGCCCTAATAAAATATCAGGCGGCTGTGGTGTTACCGG -TGTTTCTTCTGCCTGCACCGATAGCGCAGCGAAACACAAAAAGATACAGGCTGGAATTAACGCCATTTTTTGCGG -GCGAGAAGGTGCGGGGGATTTCATCAATCATTCTCCTTTGGCGAAACCGAATAAAACGGTATTCAAGTATCAGAA -AACCTTAGTTCAGGATCGCACTAGCTGCATGATCGAAATCTCATTCTGCGAACTGTCAGGCATTTTAGAAAAGGG -AATTAAAGGGATAAATAACGGCGAAATAGAGTGATCAAATAACGTCTGTTTATTAGCCAGCCAGCGGCGTTGGGT -TCGTGATTAGCGAAGAAAAATCATCATAAATTGGTGAAAAATATAACAGGTAGTTAAAAACCATTAGTGCTGAGT -AAATTGCCGGATGACATCAGAACGATGCCATCCGAACAGTGGCTTAACCCTGACGGTTGAAACGTTGCGTTTTAA -CGTCCAGCGTTAGCGTTTCTTCTGGTTGTATCGCATACAGTTTCTCACCCTGCTGGCAAATCCAGCCAATCCCCA -GTTCACGGGCGATTAGGGCGCTGTGGGATACCGGACTTCCGGCGCTAAGGCAGATACCTTTTACAACCGCCGGAT -CCAGTTGCAGTACTGTGGAAGGATAAATGTTCTCCGCCAGTAGAATAGTTGGCGAGTTAAACTGCGGGAGTTCTT -CTTTCGTTTGGGTCAGGTGGACCAGGGTGCGATGCAGAAGATCGTCCACATCAATATAGCGAGCTTGTAGATATT -CATCATCCAGTTGCTGGTATTGCTGGCTAAGTTCTTTAAGAACTTGCTGCCAGGCATATTCTGCCGTGCAATGTT -CATGCTGAAGGAGTTCGCTTGCCGCCGCCAGCAGTTCCGGATCATCTAACAGTGTATGGTGACCAGAAAAGATTG -CGGCAATATCGTCAAGCCCGCTGGCTTCTGCTTTCGCTGTTAACGTCATCAGATCTAATAACGTGAAGTCAATAG -CCTGGCGTAATCGATCTTGTTCTTCTTCCACGGTCAGGGTTGATTTTGCCTGTACCGTACATAAAACTGGTTGAT -AATAAAAGGCTTTACCCGAAACAGGCGGAACGGGACGCAGAGTAGGTGGAGCGACTTCCTCCGTTTCACCAAAGT -TATCTTCAGCCAGCTGACGGAAAGCGATCAGTGCCTCTTCAGCTTCTGGCCCTTTCGCAATCAGGCGCAGCGTAT -CGTTATAGCGAACTTGTAGTAACGCAATCTGGTTAATACTCTCTGGTGTGACGCATTTGCCGTTTTTTTCCAGCA -ACATATCGGCATTAAATGTCGATAAGGTATAAACCAGCCGGGAGGCCGGACGTACATGCAGGCCGTTACGGTTTT -TTATGACCACCGCCAGAGAACGGGCTTCTTCATCGTACGCAGGACATGTGTCAGAGATTTCAGTGTCGGAGGACG -GTAAACCCAGTTGTTCACGTTTGGCTTCCAGCGCATGCATGGCGTCAAAGATAACTTTGTCGATATCCGCCCCCG -AGGCCGCGCTGACCGTTGCTGCCAGTGTACCTTCGACCAACGGCGCAGCACACAAACGTACTTTTGCGGCGATCT -CGGGAGCCAGCAATTCCAGCGCAGTTTCAGCACTCAATAATGCGCTACCCATATCCATCATGACCAGCACATGGT -CGGCATCAGCAACAGATTCGATGGCCTCCATCACTTTGACGGCATCGGTACCAATGGGATTTTGTGGATCGTCAA -TTCCCGCGGCAATGGCGATTTTACAACTATCACTCATTAACATCTGACGGGCTAATTCACCGACACCTTCTCCCA -GTCGGCTGCTATGTGAAACTATGACCAGGTTTACCATCACCAATTCCTTACTCTTTTGCGGCTAACGCCAACATT -TGCATCATAAACATCACCGAGGTCGCGCCGGGATCCTGGTGACCAATACTGCGTTCACCGAGATAACTGGCGCGG -CCTTTGCGGGCTTGCATCGTAATCGTACTTTGTGCAGCGGATTCGGCGATGCTACTGGCAGCTTCGAGCGCCACC -GGAACAGAGAGATTTTGCTCGCTGGACTGACGTAACGATTCCACCACCGGCACCCACACATCACACATGGTTTTA -TCGCCAGGTTCGGCTTTCCCGCGACTGATTACGCCGTCCGCGCCATCGCGGAACATCTGATAAAGCTCTTCCAGT -GTCAGGCTTTGCCGTGCCTGGGTCGCCTGTGCGGCGCGGATAAAGAAGGTACCGAACAGCGGACCACTGGCACCA -CCGACGCTGGAAAGCAGCGTCATACCGGTATTCTTGAGAATGAAACCGATATCTTTATCTGCGATAGCAGGGAGT -TTTTCCACCACTTTGCTAAAGCCTCGGTTCATATTTAGCCCGTGGTCAGCATCGCCAATTTCGCGATCCAGTCCG -GTAAGATACTCGCTCTCGGTGCTGAAAATATCGCCACAACGAGTGAGCCAGTTAACAATTTGAGTTCTGCTCAGT -GACATTGCTTTCTCCTTATTTACCCCAGTTAAGGGCCGGGGTGTGGACCGGGGCGTCCCAGAGTGCCAGCGTTTC -GTCATCAACTTTCAGTAAGGTGATTGAGAAACCGGTCATATCCAGTGAGGTGCAGTACGCGCCAATTAAATTACG -TTCGATAGTCAATCCCGCTTGCTGGCAACGTGTGGTCAGGCGGTTATAGACGCCGTACAGCTCAGAAAGCGGAGT -TGCGCCAAGATTGTTAACCAGCGCAATCACCCGATCGCCAGACTGGAGCGGTTGTTTGGTTTGTTGTTCTTCCTG -CCAACTGCCTTGTTGATAATCCCAGAAACGCAAAGTGCGATGGTATGAGCCATTTACCAGCAGGGTGTCGAACAT -TTCATCGACGGTTTGATCAAGGGAAGAGAAGGGGCGGCGGTCAATACCCGGCTCACCATGAATGCCGACGCCAAA -CTCCATCTCATTATCCGCCAGGGTAAAAGAAGGTTTGCCCGCGGCAGGAACGGTACAGGCACCGAGAGCGATACC -TATTGAGTGGCCTTGATTATTCAGCTTACGCCCCAGTTCCGCACAGGCGTCCAGTGAGTCGCCACGCTCCGCCGC -TGCGCCTACGAGTTTTTCAATTAATACGGTGTTGGCAACGCCGCGTCGCCCGGCAGTATAAAGACTGTCTTTTAC -CGCAACGTCGTCATCAATGACCACAGTGGTCACTTTTACGCCGCTATCGTGCAGTAACTCGGTCGCTGTTTCAAA -GTTAAGAATATCGCCGGTGTAATTTTTGATAATCAACAGTACACCTTCGCCGCCATCAACTTGCATGGCGCATTC -AAAGATTTTATCGGGCGTCGGTGAGGTGAAAATTTCGCCCGGACAGGCCCCCGAAAGCATCCCCTGACCGATATA -ACCACAGTGCATCGGCTCGTGTCCGCTGCCGCCACCCGACAGCAGGGCGACTTTTCCTGCAACAGGGGCATCAGC -TCGGGTGACATACACCGGATCCTGATGCAGTGTCAGCGATGGATGCGCTTTCGCCAGTCCTGCCAGTTGTTCGTC -CAGTACGTCTTGCACATCATTGATCAATTTTTTCATTATTTTGCTCCAGCAATTACGGTAGGGCATGGATGATGT -TCAACGACACGGCGACCACTGACTGCCGATGAATCCATTGTGCATCAGGCAAGGGAAAAGAAAATTAGCCCAAAT -TATGTTTCATAGTGAAACATATGCTTTAATGAATGTTCCATATTGAAACTTTTACGTGTATTAATACTTAAAATT -GCGAGCCGGAACACCTTTTGTCATAAGGGATGCGGGATATGAGTGGCGCTTTTAACAACGATGGTCGGGGCATAT -CTCCCTTAATTGCAACCTCCTGGGAGCGATGCAATAAGCTGATGAAACGGGAGACATGGAACGTACCACATCAGG -CCCAGGGCGTGACATTTGCTTCTATTTATCGGCGTAAGAAAGCGATGCTGACGCTCGGGCAGGCTGCGCTGGAAG -ATGCCTGGGAATATATGGCACCGCGAGAGTGTGCGCTGTTTATCCTCGATGAAACCGCCTGCATTCTCAGCCGTA -ATGGCGATCCGCAAACCTTGCAGCAGCTAAGTGCACTGGGATTCAATGACGGCACGTATTGCGCCGAGGGAATTA -TTGGTACTTGTGCGCTATCGTTAGCGGCTATCTCTGGTCAGGCCGTGAAAACGATGGCCGATCAACATTTCAAAC -AGGTACTCTGGAACTGGGCCTTTTGTGCAACGCCGTTGTTTGACAGCAAGGGCCGATTGACGGGAACAATAGCGC -TGGCGTGTCCGGTTGAGCAAACTACCGCAGCTGATTTGCCGTTGACGTTGGCAATCGCCCGCGAGGTCGGAAATT -TACTGCTGACGGACAGTTTGCTCGCTGAAACTAACCGTCATTTAAATCAACTTAATGCCCTGTTAGAAAGTATGG -ATGATGGCGTGATTAGCTGGGACGAGCAGGGTAATTTGCAATTTATTAATGCCCAGGCGGCGCGGGTCTTGCGCC -TTGACGCGACGGCAAGTCAGGGACGGGCAATCACTGAACTCTTAACGTTACCCGCCGTATTGCAACAAGCAATAA -AACAGGCACATCCGCTCAAACACGTAGAAGCAACCTTTGAAAGCCAGCACCAGTTTATTGATGCGGTGATAACCC -TTAAACCGATAATAGAAACGCAGGGAACCAGCTTTATTTTGTTGCTCCATCCTGTGGAACAGATGCGGCAGTTGA -TGACCAGTCAATTAGGAAAAGTCAGCCATACCTTCGCTCATATGCCACAGGACGATCCGCAAACCCGCCGCTTGA -TTCATTTTGGTCGCCAGGCGGCGCGCAGTAGCTTTCCTGTCCTGCTTTGTGGAGAAGAGGGCGTGGGCAAGGCAC -TGCTAAGTCAGGCAATTCATAATGAAAGCGAGCGTGCTGCAGGTCCTTATATCGCCGTCAATTGTGAGTTATATG -GTGATGCTGCGCTGGCGGAAGAATTTATTGGTGGCGATCGCACGGACAATGAAAATGGCCGTCTGAGTCGGCTGG -AACTGGCACACGGCGGCACGCTGTTTCTTGAAAAGATTGAATATCTGGCGGTGGAGTTACAGTCTGCTTTGCTTC -AGGTTATCAAGCAGGGGGTTATCACGCGACTGGATGCGCGGCGTTTAATACCAATTGATGTCAAAGTGATTGCAA -CAACGACCGCGGACCTCGCAATGCTGGTGGAACAAAATCGTTTTAGTCGCCAGCTGTATTACGCGCTGCATGCAT -TTGAAATTACCATCCCGCCTCTGCGTATGCGGCGTGGCAGCATTCCGGCGCTGGTGAATAACAAATTACGCAGTC -TTGAAAAACGCTTCTCTACGCGGCTGAAAATTGATGACGATGCCCTCGCTCGCCTGGTTTCTTGTGCATGGCCAG -GCAACGATTTTGAACTTTACAGCGTCATCGAGAATCTTGCTCTGAGTAGTGATAACGGGCGCATTCGCGTCAGTG -ATTTGCCGGAACATCTGTTTACCGAGCAGGCGACAGATGATGTCAGCGCCACCCGCCTTTCCACCAGTCTGTCAT -TTGCGGAAGTTGAAAAAGAGGCAATTATTAACGCAGCCCAGGTCACAGGCGGTCGCATTCAGGAAATGTCGGCTT -TACTTGGGATCGGCCGCACTACGCTGTGGCGGAAAATGAAGCAACATGGCATTGATGCAGGGCAGTTTAAGCGCC -GGGTATGAAAGACAGAAACGATTTCTGATACATCAGAGTGATCTGTATTTCATTCCGGCGCACGCTAACAATTTT -CAGCATCGTTTAAGGGCTTGTCTATCCCGCACTTAAAAGCTGAAGCGATATCCTCCGTTGACTTGCTTCTGATCA -AAGAGGTTACCCTGCGTGTAATCCGCTTCGAGATAGAATGTGTGCTGTTTGTTATACTGTGCACTGACTCCCACG -CCGTTATTCCAGCCATTACCTTTGAAACTGTACTTCTCCCGGGAGTTGTTCAACAGATATTCGGTATCCCCTGAA -AACTCGCGGATAGCGCCAGTCTTCACATAGACATTCAGCTGGCTGTTGCCTGCGGTGATGTCATACCCCAGTATC -ATGCTGGCACGCCCCAGCAGCGATTCGTAGTGATTCAGATGTATATTGAGGCCATTACTCGCCTTCATAGTCATC -TCATTCTGGTGGCTGTATGTAAGCTGGGTTTGCGGCTCTATATAGAACCCATAACCAGTAGGGGACAGGTTGAAC -CTCTGCCCGGCTTCCAGGGAGATGCTCATTCCATTCGCAGTGCCGTTGGCGTTAACGCCGTTGTTCTGACTGTCC -AGTACGTGGAAACTATTTTTCTGGCGCGATGCTTTTATAACGAGATCGCTGTAAAAACCGTTTTGTGCCATGTAA -CTGGCGTACATTCCCATGTAGTCTGAACGTGCGGTACCGTCGCCTCCGCTATAGTCCGGCGATGCATGTGTTGAG -CCAATATACAGACCGACATACAACGGCATTACATCAGAGAGACGTTTATCCCCACCAAACTGGATACCGCTGTAA -CCCATGTCAAAGCCGCTCAGTTTGCCACTGGCAAAGGAGTCCAGGCTTCCCCCATAACTGCGCAACCAGATATTA -CCGTCTTTACTCTGATTTCGCAGGTCACCCATCCGTTGCATCAGCGTACGGTTTTCAACATAGTTCAATAAGTAA -CCGACATTGAGATAATTGCCGCCAGCATCTGCGGTCGTGGTGGGTTTAGGCGTGGGAGCGGGTTCAGGCGTAGGA -TCGGGGTTGACTATGGGAGGCTGAGCGGGAGCTGGTGTGGGTTCAGGATTAGGAGTCGGTTCCGGAACTGTCCCG -GAAGCGTAAAGCTCCCAGTTAGTGCCATTTTTACGCACATCGTACAGATATCCCCCCAACTCAACCTGAGAAGAC -GCGCTGAACGAGGCCGCGCCGTCAGTGGTTTTTACCACTGTCAGAACTTCATTTCCCGTTGTGGCCTCGCTGCCC -TGGTTGCGGATAGCCAATACGTGATTACCAGCACTACTCCCGCTGATATTCAATAAATCCCCTTTATTATTAACG -CCATTACCCTCGCCAACAACATCAGCACGCATAATAAAGGTACTGTTACCGCTCAGGTTCTCTACGTTTAATGTG -GCAAATGTGCCGGCAGTTGACCCGTGGCTGGCAAAATCGACAGTTGAATGGCTCAGCGCCAGCGTGTCGAGATTA -GAATTACTTGTTACGTTCCAGACGCTGTTATTCATTGCAACGTCCAGTTTTCCGCCATTGACATTATCGCTGAGG -GAGGAACCTGTCCAAACCGACCCAGGGTGCATATCCAGATTGATTAGCCCACCTTTGGAAAGAACGCTACCGTTG -ATAAGCATACGACCCGAGGCGTTGATGCGGCTGGCGGCATAACCATCGTCATGTTGCGTTGCGATGGCCATCTGG -TCGGGTGTACTCATATCAATGACCAGATCGCTCGTGAGGTCGATCTGGCTGTTGGTCATGGCATAAATTCCCCTG -GCTCCTGCCGCGCCGGTGATAGCCAAACTGTCTCCGGTTATTCTACCGCCGCTGAGAGCCCACAAACCCAGCGCC -AGACTGCCATTACGATCAACTGTAATATCGGTATTTTGCATGTTGACAACAGCCGTTGCCGTCTGGGCCGAGGCA -CCATAAGAACCGCCGGAAAAGATGCTGTTTCGTTGCGCTGCCGTGCCAGTAAAATTGATTATCGCGTCTGAACCA -CTGGTGACGAGGCCACCGCCCTGCGCGGAAGAAATATGGCTATCTGCACCGATAGTGGTTGTACCACCACGAACT -TCGACGCCATTGGCCGCGGCTCCAGTTACATCAACAGTGAGTGCATTCGCGCTAACCTGGCCAAAGCTCCAGAGG -CCGTGAGCATTATCGCCATTGGTTTTAATGGTACTGTTTGTTCCGAGATCGACAACAGAGTTTTTCTGTACGTTT -ATCCCCATGGCGCTGTAGCCCTGAACATCGATTGTCAGGTCTGTAGCCGTAAAACGCGCAGCACCATTGGCGTTA -TTGCCGTTGAGACCACCGATATAAACACCTGTACTTCCATCGGTCGTGATTTTACTTCCGCTTCCAAGATCGACA -CTGGTGCCATAGTCATTGATGGTTAGGCCTATACCGTTCGAGTTTTCAATGGTGAATTGAGTGGCTGTTAGTGTT -GAGCTATGCCCAATAATGATGCCGTCATCGTTACTCTTAATGGTGCTGCCTGTGCCTAAGTCAGCATGGGTATAG -TCACCAATTAAGTTAATGCCGATGGCAGAGGTTTGACCAACAACATCTACTGTGAGTCGGTTAGCTGTCAGGGAG -CTGTTTTTGCCCTGAATAATGATTCCTTTTGCATATCCAGAGGCGTCGTTGACATTGACGGTGACATCATTACCC -AGGTTGATATTGCCAGGCGTGTTTCCTGCTGGGGTCATTACACCATAGAGGTTTCCTGATGGATCGGCGGTATCT -CCTGTAATTCTGTCACCATCATTAATAGTAATATTGGTGCCATATTGACTTCCTGTATCAGCAGCTATCAGCAGG -GGGGAAAAGATAATTGCATTCAAACCAATAGCGCCAAATTTTATCAGTTGAATTGAGGGCGAACGGATTTTTAAT -TCAGCGAGACGATCTGCTTTGGTATTCCCATTGTGTTGTTTGATGCCCATACCACTCCTATATAGTACCCAGACT -ATGGGTCTATGGATTTTGTCATTTTGTTTAAATCAATGAATAATATCCTCTTATCATCATGATATTTGTATGGTG -CAATCATGATGAGCTTCTCAGAGAATAATTCTCTATTACCGGGCAAAATCAGGAACACAGGAATTAATATATATT -TAACATCCCCCTTACAAAGGTGAGTTTATATCGAGTTATTCCCTAAGTTGTCGTTACTTATTCCAATTCGTTACT -ATAAATATGGCAAAAATATTACAACAAACAGCGGTTAAAAAATTTGGTGAAGATTTTTTGTAATAATCCTAATTA -GTTATGGGAATTTCGCTTGATGTATCTGCATAACAAAAACAATATGCGCCATTTTTGCATTACTAATAAGAAAAA -GCAAAAAACATCGATATTCATTTTTGGTCAATGGGTTTTCTGGCCTATCGTTGTTATTGTGCTACTGGTTATCAT -TTTCATCTTGCCAGCATATTGGAGCGTGATCAATTTTGATCAGCTGTGAAGGGGGCTGATGTGTAGTGATACAAA -AACTTACGTTATATCACTGCTAATGAGATATCCGGCATCTGAACACTTATGTCTTTAATTATTCTCGTGGTTCAC -TATAGGCAATAAGCACAAAAGTGTAGGATGTTACAAGAATGATTAGGACTCGGTGAAATGAAAAATCCACGCAAT -TGCGTGGATTTTATATACTTTTGCGCTCTTCATGAGATTTAGCGAAACCTCATGAGACAATAAATTAATTAGACG -TTGAAAAGGAAGTTCATCACATCGCCATCTTTCACGATGTAATCTTTACCTTCTGCACGCATTTTGCCTGCTTCT -TTCGCGCCTTGTTCACCTTTGTAAGTGATGAAATCTTCAAACGAGATGGTTTGTGCACGGATAAAGCCTTTTTCA -AAATCAGTATGGATTTTGCCCGCTGCCTGCGGCGCGGTTGCTCCAACCGGAATGGTCCATGCACGCACTTCTTTC -ACCCCAGCGGTGAAGTAAGTTTGCAGGTTCAGCAGTTTATAACCGGCACGGATCACACGGTTCAGGCCCGGCTCT -TCCAGCCCAAGCTCCTGCATAAACTCGTCACGTTCTTCGTCGTCCAGTTCGGCAATGTCTGCTTCAACAGCAGCA -CAAACCGGAACCACAACAGAACCTTCTTTCGCCGCGATTTCACGCACCTGGTCAAGATATGGGTTGTTTTCAAAA -CCGTCTTCGTTGACGTTGGCGATGTACATTGTTGGTTTCAGCGTCAGGAAGCTCAGGTAACGAATAGCCGCTTTC -TCTTCAGCGCTTAAATCCAGCGCGCGCAGCATACCTGCATTTTCCAACTGGGGCAGGCATTTTTCCAGGACCGCC -AGCTCAGCTTTCGCGTCTTTATCGCCACCTTTGGCTTTCTTCTGTACGCGATGAATCGCACGTTCGCAGGTGTCG -AGGTCTGCCAGCGCCAGTTCGGTGTTGATAACTTCAATATCGTCAGCCGGGTTAACTTTGCCGGAAACGTGAATG -ATGTTGTCATTTTCAAAGCAGCGAACAACGTGACCGATCGCTTCGGTTTCACGGATGTTGGTCAGGAACTGGTTA -CCCAGACCTTCGCCTTTCGATGCGCCTTTTACCAGACCGGCGATATCGACAAATTCCATGGTCGTGGGAAGCGTA -CGCTGCGGTTTTACGATTTCAGCCAGTTGATCCAGGCGAGGATCAGGCATTGGTACGACGCCTGTGTTCGGCTCA -ATGGTGCAGAATGGAAAGTTGGCCGCTTCAATACCGGCTTTGGTCAGCGCGTTGAACAGGGTAGATTTCCCGACG -TTGGGCAAACCGACGATACCGCATTTGAATCCCATGATTTAAATCACCTTAATATCTTAATAATCAACCTGTTAT -TGCTAACAGATTGCAGAAATGGAAATAACTTTGCCTATTATACACGGCACTCGGCAAAAATGCCGCAGACAACGA -CTTATTGCGCTTTAAAGGCGTGCAATCGGTTCGTTGCTTTGGTCAAGCCATCTGTAAACCACATTTCAGTACAAC -GCGCCGCTTCGTCAATGGCTTCATCAATTAACTTCTGTTCACTAACAGGCGGTTTGCCTAACACAAAACCGACAA -CTTTATTTTTATCGCCCGGATGACCGATTCCGATGCGTAAACGGTGAAAGTTAGGGTTATTACCCAATTTACTGA -TGATGTCTTTCAGTCCATTGTGACCACCATGGCCACCGCCCAATTTAAATTTGGCGACGCCAGGAGGCAGATCCA -GTTCGTCGTGGGCCACCAGAATTTCGTCCGGATTAATGCGGAAAAAACTGGCCATCGCCGCAACGGCTTTGCCGC -TGAGATTCATAAATGTAGTCGGGACTAACAGGCGGACATCTTCGCCTCCAAGAGTGACTCGCGAAGTATAACCAA -AGAATTTAGCCTCTTCGCGCAGCGGAGCGCGCAAACGCTCTGCCAGTAAGTCAACGAACCAGGCACCAGCATTAT -GTCGCGTTGCGGCGTATTCAGCACCGGGGTTCGCCAGGCCGACAATCAATTTAATCGTCACGTTTTTTTGTCCTG -AGTGTGTACATAACTGGCGCGTAGTTTACTGGTTGCGGCCCCGCTTGACAAAAAACTGCGTATCAAATGCAGATA -ACGTAATAATTGCCTGAGTGGACTATTAGAAAGTCAAGGTGTTCAGGCGTTTATTTGTAAAGTTTTGTTGAAATA -AGGGTTGTAATTGTGATCACGCCCGCACATAACCCACTGGGTGTTGTCTATACTTTACACATAAGGAAGAGGGGT -ATTCCCTGTTACAACCCAGAAAGTTCCGGAGGTGACATATGAAACGCAAAAACGCTTCGTTACTCGGTAACGTGC -TCATGGGGTTGGGTCTGGTGGTAATGGTGGTCGGCGTGGGGTATTCAATCCTCAACCAGTTACCACAGTTTAATA -TGCCCCAGTATTTCGCACATGGTGCAGTGCTAAGTATTTTCGTCGGTGCCATTCTCTGGCTGGCGGGTGCCCGTG -TTGGCGGGCATGAACAGGTGTGCGACCGTTACTGGTGGGTTCGCCACTATGACAAACGTTGCCGCCGTAGCGATA -ATCGCCGTCATAGCTAACAAATAATGCAGTTTGCTGACCAGTCAGTTTGCGCTGACTGGTCAATCTCGTACTTAT -AAATCCGCCATCGCCGCGCGACGATTCGGGAAGAACGCCAGGCGTCCCGGGATCGGTTGAATGCCAGCGCGAGCC -ATAGTGCGCAGTGGCTGGAATTCCACGTTGCACACGCGCAGTTCACATCCCTCGGGCAGACGCTTCACAAAACGC -TGGAACGCATCAAGACCACCAGCATCAAGTACCGGAACGGCATCCCACTTCAGAATCACAATCCGTTTGCCTTCA -AGACGTGACTCCAGGTCCGTGAATAAGCCTTCAGCAGCAGCAAAAAACAGCGGGCCAATAACGCGCAGAACCAGG -ACATCGTCTGGAACATCTACGACTACCGGTGCCAGGCGAGTCATACGTGCGATACGACGCATAAACAGCAGCGAT -GCCAGCACGATCCCCACGCTGATGGCAATAACCATATCAAACAACACGGTCAGCGACATGCACAGCAGCATGACG -ATGATGTCATCTTTCGGCGCATGACGCAGCAAGTCGACCACTTTGTGCGCTTCACTCATGTTCCACGCCACCATC -AACAGCAGGGCTGCCATGGCGGAAAGCGGCAGCCAGGAGAGCAGCGGTGCCAGTACCAGCAGGGCAAGAATAACC -AGAATAGAGTGGATCACCGCCGAGATAGGGGACGTTGCCCCGGCACGGACGTTAGCGGCAGAACGCGCGATGGCA -GCTGTAGCGGTAATACCACCAAAGAACGGAGCGATAATATTCCCCAGTCCCTGTCCAACCAGTTCGCTGTTCGCC -TTGTGTTTCGTCCCGGTCATACCATCCAGCACCACGGCGCAGAGCAGAGATTCGATTGCGCCGAGCATTGCCATT -GAGAATGCCGCAGGCAGCAGTGTGCGAATAGAATCCCAGGTTAGCGTGAATTCTGAATTAGGCAGATCCCACGGC -AGCACCAGTTGCGGCAGCAGTTGCGGAATACCGTTACCCTGAGAACCATCGGCCAGGACGTAGTGGAATTGCGAA -CCGATGGTAGCAACATGTCCGCCGAGCAGGTTAACAATCCCCATCACCGCGCAACCAGCCAGCAAGGCCGGAAGG -TGACCGGGTAAACGAATGCCCAGACGCGGCCAAAAAACAAGAATACCTAGCGTCACAATGCCAATGGCAGCATCA -CCCACATTAATGGTCGGCAGCGCCATAAATAATGCGCCGACTTTTTGTAGATAATGTTCCGGGACATGGGCCATT -TGCAGACCGAGAAAATCTTTAATCTGCATGGTACCGATGGTGATCCCGATACCCGAGGTGAAACCTAAGGTGACG -GAAACCGGAATATACTCAATCAGGCGACCAAAGCGTGCCAGACCCATCAGAATCAAAAAGATCCCCGACAGCAAG -GTCGCAACCAGCAGTCCTGCCAGTCCAAACTGTTGCGACACGGGATAGAGAATTACCACAAATGCCGCAGTCGGA -CCGGAAACGCTAAAGCGTGACCCACCCGTCAGAGCAATGACAATCCCCGCAACAGCTGCGGTATATAAACCGTAC -TGGGGTGCCACACCACTACCAATAGCCAACGCCATCGCCAGCGGGATAGCAATAATCCCGACGGTTATCCCGGCA -ATCAGGTCACGGGTAAACCGTGCGGCAGTATATTTTTCTTTCCAGCAAGCGTCGATCAGAGCGCGGAAAGGCATC -ACATGTGAGGAAAATATTTTGTTCACAATAATGTTTCATCCGTGAGCGCATCATCTGTCAACTAAATGGCAGGTG -AAGGAGGCATAGGTCATACAAATGGATATTACAGACAAAAAAACCCGCCGCAGCGGGTCTTTGAGCCGGGTTCGA -TTAGTGTTCGAACATGGCAGAGATCGATTCTTCGTTGCTGATACGACGAATCGCTTCGGCCAGCATACCTGACAG -GGTCAGAGTACGCACGTTCGGCAGTGATTTGATTTCATCGCTCAGCGGAATGGTATCGCAGACAACGACTTCATC -AATTACAGAGTTACGCAGGTTGTTCGCCGCGTTGCCAGAGAAGATCGGGTGAGTCGCGTACGCAAATACACGTTT -AGCACCACGTTCTTTCAGAGCTTCAGCAGCTTTACACAGCGTACCGCCAGTGTCGATCATATCATCGACCAGTAC -GCAGTCACGACCTGCAACGTCACCGATGATATGCATCACCTGTGAAACGTTCGCACGCGGACGACGTTTGTCGAT -GATTGCCATATCGGTATCGTTCAGCAGCTTAGCGATAGCGCGGGCACGCACAACGCCGCCGATGTCCGGAGAAAC -CACAATTGGGTTATCCAGATTCAGCTGCAGCATGTCTTCCAGCAGGATCGGGCTACCAAATACGTTATCAACCGG -AACGTCGAAGAAACCCTGAATCTGTTCAGCGTGCAGATCCACTGTCAGCACACGGTCAACACCGACGCTGGAGAG -GAAGTCTGCAACCACTTTCGCAGTGATTGGTACACGAGCGGAACGGACGCGACGGTCCTGGCGCGCATAGCCAAA -GTAGGGGATAACAGCGGTGATACGACCTGCGGAAGCACGACGCAGGGCATCAACCATAACGACTAATTCCATCAG -GTTGTCGTTAGTAGGGGCACAAGTGGACTGGATGATGAAAATATCACCACCGCGTACATTTTCATTAATTTGTAC -GCTGACTTCGCCATCGCTAAAGCGACCTACAGCGGCGTCGCCGAGTGAAGTGTACAGGCGGTTGGCAATACGTTG -TGCTAGTTCCGGGGTGGCGTTACCAGCAAAAAGCTTCATATCAGGCACGAGAAGAACCTCAGGCATGCGTCCATT -GGTGGAAAGAATCTGCCGAAAACTGTGCGGGCCAGGCATGATCCTTTCCAGGCGGTGTATTAAAGAGCGCGATGC -AACGTCTGGAACAAGGTGACGTTGTCACCGAAACTCAGCTTGCCCGGCTTAAAGCATGGCTCTGTGCAATGGGGA -AAGATTAGCGCCTTTCGCCACAAAGCCATTGAGCCATTCCGGGGCTTGCTCTAGCACCTGGCGGGCTTCAGACTC -TGTATCAAATTCAGCAAAGACACAGGCCCCTGTCCCAGTCAGGCGCGACGGGGCGTATTCTAACAGCCAGGAAAG -CACCGCATCAACCTCGCGAAAACGTTTTCTTGCGATAACCTCGCAATCATTGCTGAATTCACATTTTAGCAACGT -TTCTATTGACCTTTTTGGCGTATTGCGCGGGAGTTCAGGATCTTTAAAAATCACCGGAGTCGGAATACTTACACC -AGGGTGCGCCACCAGATACCACTTCTCTGGCGGATCCACCGGCGTTAGTATTTCACCAACGCCTTCGGCAAACGC -GGCATGCCCCCGAACAAAGACAGGAACATCTGCGCCCAGCGTCAGCCCCATTTCCGCCAGCTCATCCATGCTTAG -CCCGCATTGCCAGAGATGATTTAATGCCACCAGGACCGTCGCGGCATTGGATGAACCACCGCCGAGACCGCCGCC -CATCGGCAAACGCTTGTCAATGCTGATATTCGCACCGCTTCCCGTCGGAAGACGCCCGCTGTCTGCCGCAGTTTT -CATCAACAATCGCGCTGCGCGAACGATCAGGTTATCTTCATGTTCCACGCCTTCAACGGGCGTTAACAGACGAAT -ATCCCCATCGTCACGAAGCTCAATGCTGATGGTGTCGCCGTAATCAAGAAACTGAAACAGCGTTTGCAGCGTGTG -GTAACCATCCGCACGCTGACCGGTAATGTATAAAAACAGATTAAGTTTTGCCGGAGAGGGCCACTGTGTCCGCAT -TATTTCACTATCCAGTTATCCATTTTTAACTTGATGCGTTGACCACCGTCGGTGAGTTCCATATTGGCTGGCATC -GCAGGTTGCGTTTTGGTGTCATAACCACCATAAACAACCTTCCAGTTTTTGCCATTCTGGCTGTAGGTAATTTCG -CTCAGGCGGTACTGGTCGTCCAGTTTGTAGTCGGTTGCATCACCCGGTAAACCTAAAATCCACTGGCGCAAGCTG -TTGAGCGGAATTGGCATTCCGGTCAATTTGCCAATCATCTCTTCGGCGTCATCGGCGGTATAACGCTGACCTTTA -TTGTCGACTAACTGCACGTTACCCGGTTGAGCATTCAGCTCCAGTTCCGTGCTGCCCAATGGGTTAGTGAGCAGC -AGACGGTAGCGATCCTGGCCGGTTTGCTGCCAGAAAAAGCGGGCGTACACTTTTTGTTGGTCAGAAATATAAGCG -AACGCGCCGCGAGTCTGATACTGATTAAGATTGCGCACGTCTTGCTGATGCTGACGCCATTGTGGCGAATCCGGG -CTTTTGCCAGGACCTTTGGGCGTGGTAACGGAACAGGCAGTGAGCACAAGAGCAGCCAGCGGTAGCAGGCGGATA -AGACGAAAATCGGGCAGGGGCATAGTGATGACAAGTCCTTGAGATACGTTGCAGTTATAACCCTTAATGCTAGCG -TTACCGTCCGCTATCGTCTATGTTCAAGTTGTCTTAATTGCCAGAATCTAACGGCTTTCGGCAATTACTCCAAAA -GGGGGCGCTCTCTTTTATTGATCTTACGCATCCTGTATGATGCAAGCAGACTAACCCTATCAACGTTGGTATTAT -TTCCCGCAGACATGACCCTTTTAGCACTCGGTATCAACCATAAAACGGCACCTGTATCGCTGCGAGAACGTGTAT -CGTTTTCGCCGGATAAGCTCGATCAGGCGCTTGACAGCCTGCTTGCGCAGCCGATGGTGCAGGGCGGCGTGGTGC -TGTCGACGTGCAACCGCACGGAACTTTATCTTAGCGTTGAAGAGCAGGACAACCTGCAAGAGGCGTTAATCCGCT -GGCTTTGCGATTATCACAATCTTAATGAAGAAGATCTGCGTAAAAGCCTCTACTGGCATCAGGATAACGACGCGG -TTAGCCATTTAATGCGTGTTGCCAGCGGCCTGGATTCACTGGTTCTGGGGGAGCCGCAGATCCTCGGTCAGGTTA -AAAAAGCGTTTGCCGATTCGCAAAAAGGTCATATGAAGGCCAGCGAACTGGAACGCATGTTCCAGAAATCTTTCT -CTGTCGCGAAACGCGTTCGCACTGAAACAGATATCGGTGCCAGCGCTGTGTCTGTCGCTTTTGCGGCTTGTACGC -TGGCGCGGCAGATCTTTGAATCGCTCTCTACGGTCACAGTGTTGCTGGTAGGCGCGGGCGAAACTATCGAGCTGG -TGGCGCGTCATCTGCGCGAACACAAAGTACAGAAGATGATTATCGCCAACCGCACTCGCGAACGTGCCCAAATTC -TGGCAGATGAAGTCGGCGCGGAAGTGATTGCCCTGAGTGATATCGACGAACGTCTGCGCGAAGCCGATATCATCA -TCAGTTCCACCGCCAGCCCGTTACCGATTATCGGGAAAGGCATGGTGGAGCGCGCATTAAAAAGCCGTCGCAACC -AACCAATGCTGTTGGTGGATATTGCCGTTCCGCGCGATGTTGAGCCGGAAGTTGGCAAACTGGCGAATGCTTATC -TTTATAGCGTTGATGATCTGCAAAGCATCATTTCGCACAACCTGGCGCAGCGTAAAGCCGCAGCGGTTGAGGCGG -AAACTATTGTCGCTCAGGAAACCAGCGAATTTATGGCGTGGCTGCGAGCACAAAGCGCCAGCGAAACCATTCGCG -AGTATCGCAGCCAGGCAGAGCAAGTTCGCGATGAGTTAACCGCCAAAGCGTTAGCGGCCCTTGAGCAGGGCGGCG -ACGCGCAAGCCATTATGCAGGATCTGGCATGGAAACTGACTAACCGCTTGATCCATGCGCCAACGAAATCACTTC -AACAGGCCGCCCGTGACGGGGATAACGAACGCCTGAATATTCTGCGCGACAGCCTCGGGCTGGAGTAGCAGTACA -TCATTTTCTTTTTTTACAGGGTGCATTTACGCCTATGAAGCCTTCTATCGTTGCCAAACTGGAAGCCCTGCATGA -ACGCCATGAAGAAGTTCAGGCGTTGCTGGGTGACGCGCAAACTATCGCCGACCAGGAACGTTTTCGCGCATTATC -ACGCGAATATGCGCAGTTAAGTGATGTTTCGCGCTGTTTTACCGACTGGCAACAGGTTCAGGAAGATATCGAAAC -CGCACAGATGATGCTCGATGATCCTGAAATGCGTGAGATGGCGCAGGATGAACTGCGCGAAGCTAAAGAAAAAAG -CGAGCAACTGGAACAGCAATTACAGGTTCTGTTACTGCCAAAAGATCCTGATGACGAACGTAACGCCTTCCTCGA -AGTCCGAGCCGGAACCGGCGGCGACGAAGCGGCGCTGTTCGCGGGCGATCTGTTCCGTATGTACAGCCGTTATGC -CGAAGCCCGCCGCTGGCGGGTAGAAATCATGAGCGCCAGCGAGGGTGAACATGGTGGTTATAAAGAGATCATCGC -CAAAATTAGCGGTGATGGTGTGTATGGTCGTCTGAAATTTGAATCCGGCGGTCATCGCGTGCAACGTGTTCCTGC -TACGGAATCGCAGGGTCGTATTCATACTTCTGCTTGTACCGTTGCGGTAATGCCAGAACTGCCTGACGCAGAACT -GCCGGACATCAACCCAGCAGATTTACGCATTGATACTTTCCGCTCGTCAGGGGCGGGTGGTCAGCACGTTAACAC -CACCGATTCGGCAATTCGTATTACTCACTTGCCGACCGGGATTGTTGTTGAATGTCAGGACGAACGTTCACAACA -TAAAAACAAAGCTAAAGCACTTTCTGTTCTCGGTGCTCGCATCCACGCTGCTGAAATGGCAAAACGCCAACAGGC -CGAAGCGTCTACCCGTCGTAACCTGCTGGGGAGTGGCGATCGCAGCGACCGTAACCGTACTTACAACTTCCCGCA -GGGGCGCGTTACCGATCACCGCATCAACCTGACGCTCTACCGCCTGGATGAAGTGATGGAAGGTAAGCTGGATAT -GCTGATTGAACCGATTATCCAGGAACATCAGGCCGACCAACTGGCGGCGTTGTCCGAGCAGGAATAATGGAATAT -CAACACTGGTTACGTGAAGCAATAAGCCAACTTCAGGCGAGCGAAAGCCCGCGGCGTGATGCTGAAATCCTGCTG -GAGCATGTTACCGGCAGAGGGCGTACTTTTATTCTCGCCTTTGGTGAAACGCAGCTGACTGACGAACAATGTCAG -CAACTTGATGCGCTACTGACACGTCGTCGCGATGGTGAACCCATTGCTCATTTAACCGGGGTGCGAGAATTCTGG -TCGTTGCCGTTATTTGTTTCGCCAGCGACCTTAATTCCGCGCCCGGATACGGAGTGTCTGGTGGAGCAGGCACTG -GCGCGGTTGCCTGAACAACCTTGCCGTATTCTCGATCTCGGGACGGGTACCGGGGCGATTGCGCTTGCGCTGGCT -AGCGAGCGCCCGGACTGCGAAATTATCGCTGTAGATCGTATGCCTGATGCTGTCTCCCTGGCACAACGTAATGCC -CAGCATCTGGCGATCAAAAATATCCACATTCTGCAAAGCGACTGGTTTAGCGCGCTAGCCGGGCAGCAGTTTGCG -ATGATTGTCAGCAATCCGCCGTATATTGACGAGCAGGACCCTCATCTTCAACAAGGCGATGTCCGCTTTGAGCCG -CTCACTGCGCTGGTTGCGGCAGACAGTGGAATGGCAGACATCGTGCATATCATCGAACAGTCGCGTAACGCGCTG -GTATCCGGCGGCTTTCTGCTTCTGGAACATGGCTGGCAGCAGGGCGAAGCGGTGCGACAAGCATTTATCCTCGCG -GGGTATCATGACGTCGAAACCTGCCGTGACTATGGTGATAACGAGCGCGTAACGCTCGGCCGCTATTATCAATGA -CAAGTTTTTCTACACTGCTTAGTGTTCATCTTATTAGTATCGCGCTTTCTGTTGGGCTATTAACCTTACGTTTCT -GGCTACGTTATCAGAAGCATCCACAGGCATTTGCTCGCTGGACGCGCATTGTGCCGCCGGTTGTCGATACGCTGT -TACTGTTAAGCGGCATTGCGTTGATGGCTAAAGCGCACATCCTGCCATTTTCCGGGCAGGCACAGTGGCTGACTG -AAAAGCTGTTTGGAGTTATCATTTATATCGTTTTGGGTTTTATTGCACTCGATTATCGTCGTATGCACAGTCAGC -AGGCGCGCATTATTGCCTTCCCGCTGGCGTTGGTGGTGCTGTACATCATCATTAAACTCGCCACCACAAAAGTAC -CGTTACTGGGGTAAGTCATGAGATCGTTAGCTGATTTCGAATTTAATAAAGCGCCATTGTGCGAAGGCATGATCC -TGGCTTGCGAAGCAATCCGCCGCGATTTTCCCTCGCAAGATGTTTACGACGAACTGGAGCGTCTCGTTAGTCTGG -CGAAGGAAGAAATCAGCCAGCTTCTGCCTTTAGAAGAGCAGTTGGAAAAACTGATCGCGCTGTTTTACGGCGACT -GGGGATTTAAAGCCTCACGCGGTGTTTATCGTCTTTCCGATGCATTATGGCTGGACCAGGTGTTAAAGAATCGAC -AGGGCAGTGCGGTATCATTAGGTGCGGTTTTATTATGGGTCGCGAATCGTCTCGATTTGCCGCTGCTGCCGGTGA -TTTTCCCTACGCAGCTGATATTGCGCATTGAATGTCCGGATGGCGAAATTTGGCTGATTAATCCTTTTAACGGTG -AATCGTTAAGCGAACATATGCTGGACGTATGGTTAAAGGGAAATATCAGCCCGTCGGCGGAACTGTTTTATGAAG -ACCTTGATGAAGCTGATAACATTGAGGTAATCCGCAAATTGCTGGATACACTCAAAGCCTCGTTGATGGAAGAAA -ATCAGATGGAGCTGGCGTTACGCACCAGCGAAGCTTTATTACAATTCAACCCTGAAGATCCCTATGAAATTCGCG -ATCGCGGGTTGATTTATGCGCAACTGGATTGCGAACACGTTGCGTTGAACGATTTAAGTTATTTCGTTGAACAGT -GTCCGGAAGACCCGATCAGCGAAATGATCCGTGCGCAAATAAATAACATCGCGCATAAACATATTGTGCTGCATT -AATTAATCGACATTTTACTCAAGATTAAGGCGATCCTATGAAACAAAAAGTGGTTAGCATTGGCGACATCAACGT -AGCAAATGACCTGCCGTTCGTACTGTTTGGCGGTATGAACGTGTTGGAATCTCGCGATCTGGCGATGCGCATTTG -CGAGCACTACGTAACTGTGACCCAGAAACTGGGTATCCCTTACGTGTTCAAAGCCTCTTTTGACAAAGCCAACCG -CTCCTCCATCCACTCTTATCGTGGACCGGGCCTGGAAGAAGGGATGAAAATCTTCCAGGAGTTGAAGCAGACTTT -TGGCGTGAAAATTATCACCGACGTTCACGAACCAAGTCAGGCACAGCCCGTTGCTGATGTCGTGGATGTGATTCA -GTTGCCGGCGTTTCTTGCTCGCCAGACTGACCTGGTTGAAGCCATGGCGAAAACCGGTGCGGTAATTAACGTCAA -GAAACCACAGTTTGTCAGCCCGGGACAGATGGGTAATATCGTTGATAAATTCAAAGAAGGCGGCAACGAAAAAGT -GATTCTTTGCGATCGCGGTGCTAACTTCGGCTATGACAACCTGGTTGTCGATATGCTGGGCTTCAGCATTATGAA -GAAAGTGTCTGGTAACTCGCCGGTGATTTTCGACGTGACCCACGCACTGCAATGCCGCGATCCGTTTGGCGCAGC -TTCCGGTGGTCGTCGTGCTCAGGTGGCTGAGCTGGCACGAGCCGGTATGGCGGTAGGTCTGGCGGGGCTGTTTAT -TGAAGCGCATCCGGATCCGGAACATGCGAAATGTGATGGTCCATCCGCGCTGCCGCTGGCTAAACTGGAACCGTT -CCTCAAGCAGATGAAAGCGATTGATGATCTGGTGAAAGGTTTCGAAGAACTGGATACCAGCAAGTAATCTTTTTT -GCTTGAAAAATAAAGTATTAGCGTTCTGCGTTAAGACTTTTTTCATGGGTGCCGGATACAAAAAAGGCCGCAGGC -TGTTACCCCTGCGGCCGGTTTCGGGCGCATATTGCCATCACGGCAGCCTGACGCCCGTTTTCACCTTACTTCCGG -TTACGCCACCAGCTGACAATCGCTGCGGTAATAATTCCCGCCAGGATCGGTGCTGCCAGGTCGTGCCAGAAAATC -ATGGCAAACTGCGCGAGCGTCATATAGCCGCCTTGTTGTAATGACAACATTTTGCGGCTATTCTTGAATTGTTCT -GGTTCAAGATTAGCCCCCGTTCTGTTGTCAGGTTGTACCTCTCAACGTGCGGGGGTTTTCTCTTTCCAGCAACCA -ATGCCACCAGGGATAAAGCCCCCGCAACATTGCGCCTCACCGGATAACGCCGGCTTGGTGTGGATACTACGACTC -AATTCATCTTCACTTCATCCCTGAAATGTTTGCAATGAAGAGTGCATTCCGGTTTTTCAACAGCTGTTACAGTCA -TTTCATGAGTGCTCTGGATGAGGCTTCCAGCTCGGGTTGCCAATATTTACTTGTGGAAGTGATAAAGACAAAAAT -GGCCGCAGGCTGTTACCCCTGCGGCCGGTTTCGGGCGCATATTGCCATCACGGCAGCCTGACGCCCGTTTTCACC -TTACTTCCGGTTACGCCACCAGCCGACAATCGCTGCGGTAATAATTCCCGCCAGGATCGGTGCCGCCAGGTCGTG -CCAGAAAGTCATGGCAAACTGCGCGAGCGTCATATAGCCGCCTTGTTGTAATGACAACATTTTGCGGCTATTCTT -GAAGTGTCTGGTTTCAAGATTAGCCCCCGTTCTGTTGTCAGGTTTTACCTCTCAACGTGCGGGGGTTTTCTCTTT -CCAGCAACCAATGCCACCAGGGATAAAGCCCCCGCAACATTGCGCCTCACCGGATAATTCCGGCTTGGTGTGGAT -ACTACGTCTCAATTCATCTTCACTTCATCCCTGAAATGTTTGCAATAAAGAGTACATTCCGGCTTTTCAACAGCT -GTTGCAGTCGTTTCATGAGTGCTCTGGATGATGCTTCCAGCTCGGGTTGCCAATATTTACTTGTGGAAGAGATAA -AGACAAAAATGGCCGCAGGCTGTTACCCCTGCGGCCGGTTTCGGGCGCATATTGCCATCACGGCAGCCTGACGCC -CGTTTTCACCTTACTTCCGGTTACGCCACCAGCTGACAATCGCTGCGGTAATAATTCCCGCCAGGATCGGTGCTG -CCAGGTCGTGCCAGAAAATCATGGCAAACTGCGCGAGCGTCATATAGCCGCCTTGTTGTAATGACAACATTTTGC -GGCTATTCTTGAAGTGTCTGGTTTCAAGATTAGCCCCCGTTTTGTTGTCAGGTTTTACCTCTCAACGTGCGGGGG -TTTTCTCTTTCCAGCAACCAATGCCACCAGGGATAAAGCCCCGCAACATTGCGCCTCACCGGATAACGCCGGCTT -GGTGTGGATACTACGTCGCAATTCATCTTCACTTCATCCCTGAAATGTTTGCAATGAAGAGTACATTCCGGCTTT -TCAACAGCTGTTGCAGTGGTTTCGTGCAGGGTGTGGTACAGGCTCGCAATTCTGATTAACGACCTGTCCAGGTAG -TATGAAGAAATACAATAAGCAGGAATTTATATTATCTCCCCCGATTACCGTCATCGGAGGAGATATAACTGTCAG -GCAAATATCGTCATCAAATAGGCGGCAAACAGTGCCAGATGCGCTGCGCCATTGAGCACGTTAGTACGTCCGGTG -GAGAAGGAGATATGGCACAGCACTAAAGAGGCCACCATCACCACCATTTCTGGCGCACCAAGTGCAAACTGCAAT -TCGTTACCCGTCATAAAGGCAATTAGCGTGACGACAGGTACGGTAAGCGAAATGGTTGCTAACACTGAACCAAAG -AACAGATTCATCGCGCGCTGAACCTGGTTGTTCAACACTGCTTTTAATGCACCTAAACCTTCCGGCGACAGAATC -AACAGTGCCACCAGGAAGCCAGTAAAGGCGACAGGGGCATTCATGCTGTCGAGCAATGTCTCCAGCGAGCTGGCG -TTCATTTTGGTCACCGCAATAACGGCAATCAGATGGATAATCAACCAGATAGCATGCCACAGGCTGCTATGGGCA -GACGGTTTACCGTGATGCGGGTCGTCATCATCACTGTCATCTTCGTGCTCGTAGACAAACAAACTTTGATGCGTT -TTGGTCTGGATCAGCAAAAATACGCCATACATTGCCGCAGAAATTAATGCTACCAGTAACGCCTGACCGGTTGAA -AAATTCGCCGCAGGCAGAGCCATTGGAAATACCAGTACGATTATCGCCAGGGGGAACAGCGCAATTAAATACTGC -TTGATACCAAACAGATTCATATATTGGGTGGCAAACTTACGACCGCCCAACAATAATGAAAAGCCAACCAGCCCA -CCGGTAACAATCATAATGATTGAATAGAGCGTATCACGCATTAGCGTTGGCGCGGCGTCGCCGGTTGCCATTAAA -GCTGAAATCAAACTGACTTCAAGAATAACCACTGAAAGGCTAAGAATAAGCGAACCGTAAGGTTCTCCCAGGCGA -TGGGCTAATACGTCCGCATGACGGACAACACTAAAGGCGCTACTTAAAATACCAATAAGCGCAAGAAGATTGATG -GCAATGACCACTGGTAGTGTCTGGCTGCTTCCCCACAGGAACAGCACTACCAGCGCCAGAACCGGGAAAATAAGC -GAAGTCTCCTTGTGGCGGGTTTTTACCGCCTCTTGAGCATTTGACATTATGGTTATCCCTTTGCAGATGAATTTA -TCGAAAATGTAAAAAATAGGTAGGAAAAATAACAGAAAGTGTCTGGATATCGGTAACATTTTACGAATTTTTACC -CCGCTGTCGATTTTTTACTCATTGGGGCATAAAAATAAGTATTACGTTTAGACAATGTTTGTTTTAGCGTCTCTT -AAGAAGAGTCTGACCTGAAAATTCTTATGTTTTGGCAAGAGTAGATATTGTTGACCACACTTAATGTTCAACTTT -GTAAAAGGAGTCAACGATGCCGTATAAAACGAAAAGCGATCTGCCGGAAAGCGTAAAGCACGTTCTACCGTCTCA -TGCCCAGGATATCTATAAAGAAGCGTTCAACAGCGCATGGGATCAATATAAAGATAAAGAAGATCGGCGTGATGA -CGCCAGTCGCGAAGAAACCGCGCATAAAGTGGCCTGGGCTGCTGTGAAGCATGAATATGCCAAAGGGGATGATGA -TAAATGGCATAAAAAATCGTAAAACCGGTCGCTTAGTTAAAGCTATTCGTGCGGTGTTGCCTTGCAAGTGGTCCG -TGGATTGCATATTGTCCCGTTAGTGGTTTCAAAATGAGCAGTAAAAATGTCCGGAAGACACCAAAAAGTTGTCGC -AGGGAAGTATGCAGTGGCGGAAGTGTAAGGTGATAACGCGTGATTTCTTGATGAATGCCGATTGTAAAACGGCAT -TTGGTGCCATTGAAGAATCACTCTTATGGTCAGCAGAACAACGGGCGGCTTCGCTGGCGGCGACGCTGGCTTGTC -GACCTGATGAGGGACCGGTGTGGATCTTCGGCTATGGATCGTTGATGTGGAATCCGGCACTGGAGTTTACCGAAT -CGTGCACCGGTACACTGGTTGGATGGCATCGCGCATTTTGCCTGCGCCTGACCGCCGGGCGCGGGACTGCGCACC -AGCCGGGACGGATGCTTGCACTGAAAGAGGGCGGACGCACCACAGGCGTCGCCTATCGACTGCCAGAAGAGACGC -TGGAGCAGGAACTAACCCTGTTGTGGAAGCGAGAGATGATTACCGGCTGTTATCTGCCAACCTGGTGTCAGCTTG -ATCTTGATGATGGACGCACAGTAAACGCCATTGTGTTTATTATGGACCCGCGACATCCAGAATATGAATCTGATA -CTCGCGCTCAGGTCATCGCGCCGTTGATTGCGGCGGCGAGCGGTCCGCTGGGAACCAACGCACAATACCTGTTTT -CACTGGAACAGGAGCTTATCAAACTGGGAATGCAGGACGATGGGCTGAATGATTTGCTGGTATCGGTAAAAAAAC -TGCTGGCGGAGAATTTTCCGGATGGTGTGTTACGTCCGGGATTCGCCTGAGTAAACTTCCCGCATAGTGGGGCGT -CAGACGCCCCCTCAAACATTAAAATGTGAGCACTTTATCGGCTGACAGCGTCCATTGCGCCAGTTCCACAAGAGT -ACCGATTTCCACCCCATCAATCAGAGGAAGTGTACTAATCCCGCGCCCGTCGGTACAGGTTTTGCACAATTTCAC -CGGTACATTCTGAGCGGTAAGGATCTCCAGCATTTGCTGAATGTTGTAGCCTTCCCCTGGTTTTTGCCCGCGCAA -CCCGGCTGTGACCGCATCAGACATGAGGAACAGACGCAGATCCAGATTGCTCTCCTGCTCTCGTAACGCAATGGC -CAGCCGCAAGCTGTTAAACAAGGATTCGCTCCCGTAAGGTGCGCCATTGGCAACGATCACGATTTTTTGCATTAT -TTACTCCTGTATTCAGGGAATTAGACACTCATCTTCTATCTTACTGCTTCTGCAGCGTCTGACCAATCGGTCACA -TTTTTAAGGATTTTCCTGAAAGCGCGAGAAAATACGACAAAAGTTGCCAGTAATCGTTATTCTTTAAGGCTATGG -TTTTTCATTATTACCGGAAGTTACCGACGTTTTGAGCCGTTTCGTTCCTCGCATTATCCCGTTTTATTTACTCTT -GCTTGTAGCAGGCGGTACAGCTAACGCACAATCTACCTTCGAGCAAAAAGCGGCAAATCCCTTTGATAATAACAA -TGATGGTCTGCCGGATTTAGGCATGGCTCCCGAAAATCATGATGGGGAAAAACACTTTGCTGAAATTGTGAAAGA -TTTCGGCGAAACCAGTATGAATGATAACGGGCTGGATACTGGCGAGCAGGCAAAAGCTTTCGCATTGGGAAAAGT -CCGCGACGCGCTTAGTCAACAGGTTAATCAGCACGTAGAGTCCTGGCTATCACCGTGGGGAAATGCCAGTGTTGA -CGTCAAAGTGGATAACGAAGGACATTTCACCGGCAGTCGTGGAAGCTGGTTTGTGCCGTTACAAGATAATGATCG -TTATCTCACCTGGAGCCAGCTTGGTCTTACTCAGCAGGATAATGGGTTGGTGAGCAATGTGGGCGTTGGGCAACG -CTGGGCGCGCGGCAACTGGCTGGTGGGTTATAACACTTTTTATGACAACTTGCTGGACGAAAATCTTCAGCGAGC -GGGCTTTGGTGCCGAAGCGTGGGGCGAATATTTGCGATTATCGGCAAACTTTTATCAGCCGTTTGCTGCATGGCA -TGAACAGACAGCCACGCAGGAACAACGGATGGCGCGCGGGTACGACCTGACAGCTCGGATGCGCATGCCGTTCTA -TCAACACCTCAATACCAGTGTCAGCCTAGAACAGTATTTTGGTGATCGTGTTGATTTGTTTAACTCTGGTACGGG -TTATCACAATCCCGTCGCGTTGAGTCTGGGATTAAATTACACCCCTGTGCCATTAGTCACTGTGACGGCCCAGCA -TAAACAGGGTGAAAGTGGCGAAAATCAAAATAACCTCGGGCTGAATCTTAATTACCGCTTTGGTGTACCGCTCAA -AAAACAACTTTCTGCGGGCGAGGTTGCCGAAAGTCAGTCGTTACGTGGTAGTCGCTATGACAATCCGCAGCGAAA -TAATCTACCGACTCTTGAGTACCGACAGCGAAAAACGTTAACGGTGTTTCTGGCGACACCGCCGTGGGATCTAAA -ACCTGGCGAAACAGTGCCGCTGAAATTACAAATCCGCAGTCGTTACGGTATTCGGCAACTGATTTGGCAGGGCGA -TACGCAGATATTAAGTTTGACGCCGGGCGCACAAGCCAACAGCGCGGAGGGCTGGACGCTGATCATGCCTGACTG -GCAGAACGGGGAAGGGGCAAGCAATCACTGGCGATTGTCTGTGGTGGTGGAAGATAACCAGGGGCAGCGTGTCTC -CTCCAATGAGATCACGCTAACGCTTGTCGAACCGTTCGATGCATTGTCAAACGACGAACTGCGCTGGGAACCGTA -ATCAGAAAATGCGCTCCTGATGCACCCATACCGCTGCTTCCACGCGAGACTTGAGCTTCATTTTCTTCAGCATGT -GCTTGACGTGCACTTTTACTGTGCTTTCGGTGATATCCAGGCGGCGGGCAATCATCTTGTTCGGCAAACCCTGGG -CAATCAGCTTGAGAATATCGCGCTCGCGTGGGGTTAACTGGTTAACATCGCGCTCAGTAGTGGCACGGTTAGCGC -GCAAGCTGGCGGCCAGAACAGGCGTTAATGCTTCGCTTAATACCATTTCGCCAGCAGCTGCCTGATGCAATGCTT -TCAGCAGATCTTCCGGTTCCATATCTTTTAACAGATAGCCATCCGCGCCGCGTTTCAGTGCGGTGACCACATCTT -CTTCATGGTTAGAGACGCTGAATACCACAATGCGCCCTGAGAGGGACTTTTCGCGCAGTTTATCCAGCGTTTCCA -GACCGTTCATGCCGGGCATATTGAGATCTAACAGGATCAGATCGGGATCAAGAGACTCCGCCAGTTCAATACCCT -GTTCGCCATTACTCGCTTCGCCAACCACGGTGATATCTGGTGCCATACTGATAAGCTGTTTTACGCCAGTTCGCA -GCATCGGGTGATCGTCAATCAGCAGGATAGTAGCCGGTTCCTGATTACTCATGGGTATCTCCTTGGACGTCTGTG -AAAGTTTTTTCGGGAATAAAGGTGACCACCACTTCGGTGCCACCTGATTCACGACGGCGGACGCGGCAATCGCCT -CGTAAACTTTGCGCACGATCGCGCATTATTATCATGCCGTAGTGATTGCTGCGGATGGCATTTTCAGGCACGCCG -CAGCCGTTATCCTGGACGGTCAGTTTGACCTGATTATCGTTTTGCGCCACCGTCACCACGACTTCACTCGCTTGC -GAATGTTTGAGGGCGTTACTTAATGCCTCACGGGCAATTTGCAACAAGTGGATTGCCTGATGCGAAGGCACCAGG -CGAGGCGGCAATTGATAATCCAGCTTCACCGGGAAGCCAAATTTGGCGCTGTACTCTTCGCAACTCGCCTCCAGC -GCCGGACGTAATCCAGGCTCGGTGAGCTGCAAGCGGAATGTGGTGAGCAATTCACGCAACTGCGCCCAGGATGCA -TTCAGTTCGTTACGGATCTGACTTAACAGTTCGCGGCTGCTTTCTGGCAGCGCATCGCCCTGCATCTGTAAACAA -CTCACCTGCATCTTCATGCAAGAGAGAGATTGGGCAATAGAATCATGCAGTTCGCGCGCAATGGTGGCACGCTCT -TCCATCACGATCAACTGTTGCTGACGTTCCTGATGGCGATCCAGCGCCAGCGTGGCGGTGAGTTGTTCAACCAGG -GTATCCACCAGTTGTTGTTGATCATGGCTAAGATGACGCCCCTGCGGCAGGGTCGCCAGCAAAATACCGTACTGC -GTATGAGAGTCAGCCAGCCGCCACTTCAGGGTCGTGCCGCGATCACCAACGGGTAATACGCCGCGCGGGCAGAGC -TGGCAGCCTTTATCATCACAAGTCATATCTGGCTGGCAGGTAAACTCCTGATGATTCTCTTCATCATCAGTGTCA -TACACCCGCAATTCGATATCACGTAGCAGGGTTAAATTCTGTAAGCCGTTGAGTACAGGTGACAGGCGTTCACAC -AGCGGGGCGCGGGAATGCAAACGGCGGTTAGCCTGCCATAAAAAAGAGAGGATCTGATTTTTATGCTCCAGCCCG -GCGGTTTTCTCCTGAACCCGCTGCTCAAGTACGGCATAACTTTCGGCCAGTTCTGCAGACATATTGTTCAACGCA -GTTCCAAGCATCGCCATTTCGTTGCGCCCGCTGATGTTTGCGCGTTGGGTAAAATCGCGATGACTGACGGCACTC -GCCATTGCCAGCAGTTGCCGCCACGGTTGTAGCAGTCGCGCCCGCAACCAGATAATAGTGAACACCAGTAAAAGT -GCCATAAATACCGCCATTACCCGATGGACCAGTACCACTGTCTCGATGCGCATTTCCGTGGTGCGGTCAAAACCA -GATACCAGTTGATCAAGCCCGGCAACAAACTGGCTGACATCCGCTGACACCGTTTCTCGGTTTTGTGCACGCATC -AGCGCAGGGATCAGTTCATTACGCCAGTAATCTTGTAAACCCTGTAATTGCGCCAGTTGTCCGTCTCGTTCTGCT -GCTCGAGTCAACTCGGCGCTAAATGCCGTTTGTTCCATCTCTTTAATTAAGGGCTTGTCTTTCTCGCTTAATGGC -ACTGCCGCCAACAGACGGTAACTTTGCATGCGCAGCGATCCCGCTTTGTTGATCGCATGGGCGCTGCCCTGAACG -CCTTGCACCAGCCAGCCAGAAACCGCCATCCCTGCCAGTCCAATAGCAGTAGAAAGCAACACAATAAGCGCAACC -TGATTAACCAGGGTGAGCGGAGAGAGACAACGTTTAAGCATGTAAACCTCTTCCTTCAGGCTTTAAATGAGCAAT -AACCTTAATGAATGTGACGATACATTCTGGAATGGCAGTATTCTCGGCTATTGGCTGAAGTATACCCATACCCGG -AAAGAGTTACTCCTTATTTGCCGTGTGGTTAGTCGCTTTACATCGGTAAGGGTAGGGATTTTACAGCACCGTGAA -AAATCTCATAATTTTTATGAAGTCACTGTACTCACTATGGGTAATGATAAATATCAATGATAGATAAAGTTATCT -TATCGTTTGATTTACATCAAATTGCCTTTAGCTACAGACACTAAGGTGGCAGACATCGAAACGAGTATCAGAGGT -GTCTATGAGTCACTCATCCGCCCCCGAAAGGGCTACTGGAGCTGTCATTACAGATTGGCGACCGGAAGATCCTGC -GTTCTGGCAACAACGCGGTCAACGTATTGCCAGCCGCAACCTGTGGATTTCCGTTCCCTGTCTGCTGCTGGCGTT -TTGCGTATGGATGTTGTTCAGCGCTGTTGCGGTGAACCTACCGAAAGTCGGCTTTAATTTTACGACCGATCAGCT -ATTTATGTTGACTGCGCTGCCTTCGGTTTCTGGCGCGTTATTACGTGTTCCATACTCCTTTATGGTTCCTATCTT -CGGTGGTCGTCGCTGGACGGCGTTCAGCACCGGTATTCTGATTATTCCTTGCGTCTGGCTGGGTTTTGCCGTGCA -GGATACCTCCACGCCTTATAGCGTCTTCATCATCATCTCTCTGCTATGCGGCTTTGCTGGCGCGAACTTCGCATC -CAGTATGGCAAACATCAGCTTCTTCTTTCCGAAACAGAAGCAGGGTGGCGCGCTGGGTCTGAATGGTGGTCTGGG -AAACATGGGCGTCAGCGTCATGCAGTTGGTTGCTCCGCTGGTGGTATCACTGTCGATTTTCGCAGTATTTGGTAG -CCAGGGCGTCAAACAGCCGGATGGGACTGAGCTGTATCTGGCGAATGCGTCCTGGATATGGGTGCCGTTCCTTGC -CATCTTCACCATTGCGGCGTGGTTTGGCATGAACGATCTTGCTACCTCGAAAGCCTCCATCAAGGAGCAGTTGCC -GGTACTCAAACGGGGTCATCTGTGGATTATGAGCCTGCTGTATCTGGCAACCTTCGGCTCCTTCATCGGCTTCTC -CGCGGGCTTTGCAATGCTGTCAAAAACGCAGTTCCCGGATGTTCAGATTCTGCAATACGCTTTCTTCGGGCCGTT -TATTGGTGCGCTGGCGCGTTCTGCAGGTGGTGCATTATCTGACCGTCTGGGCGGAACTCGTGTCACGCTGGTGAA -CTTTATTCTGATGGCGATTTTCAGCGGCCTGCTGTTCCTGACCTTACCGACTGACGGGCAGGGCGGAAGCTTCAT -GGCGTTCTTCGCGGTCTTCCTGGCGCTGTTCCTGACAGCTGGGCTGGGTAGTGGTTCCACTTTCCAGATGATTTC -AGTGATCTTCCGTAAACTGACAATGGATCGCGTGAAAGCAGAAGGGGGTTCTGACGAACGTGCGATGCGTGAAGC -GGCAACCGACACGGCGGCGGCGCTGGGTTTCATCTCTGCGATTGGCGCGATTGGTGGCTTCTTTATCCCGAAAGC -GTTTGGTAGCTCGCTGGCATTAACGGGTTCGCCAGTCGGCGCAATGAAGGTATTTTTGATTTTCTATATCGCCTG -CGTAGTGATTACCTGGGCGGTATATGGTCGGCATTCTAAAAAATAAACCGTTACTCGTCATACTTCGGGTTACAT -GTGCTGCGGCTGCGTTCATTCACCCCAGTCACTTACTTTAGTAAGCTCCTGGGATTCATTCACTTGCCGCCTTCC -TGTAAACCGAATTATATAGAGTAAAATATTTGATTATCCTTTGCGCGGCATGATGTCGCGCTTTTTTTATGCGTC -ATTTAGTTACAACATACTAATGTTATATGGTTTATTTCGCCGGATTTCATTAAGAGCCATTAATATGTTACCCAT -GGGGAATACTCCTTAATACCCATCTGCATAAAAATCTTAATAGTTTAAATAACTACAGGTATAAAACGTCTTAAT -TTACAGTCTGTTATGTGGTGGCTGTTAATTATCCTAAAGGGGTATCTTAGGAATTTACTTTATTTTTCATCCCCA -TCACTCTTGATCGTTATCAATTCCCACGCTGTTTCAGAGCGTTACCTTGCCCTTAAACATTAGCAATGTCGATTT -ATCAGAGGGCCGACAGGCTCCCACAGGAGAAAACCGATGAGTAAATTCCTGGACCGGTTTCGCTACTTCAAACAG -AAGGGTGAAACCTTTGCCGATGGGCATGGCCAGCTTCTCAATACCAACCGTGACTGGGAGGATGGATATCGCCAG -CGTTGGCAGCATGACAAAATCGTCCGCTCTACCCACGGGGTAAACTGCACCGGCTCCTGCAGCTGGAAAATCTAC -GTCAAAAACGGTCTGGTCACCTGGGAAACCCAGCAGACTGACTATCCGCGTACCCGTCCGGATCTGCCAAACCAT -GAACCTCGCGGCTGCCCGCGCGGTGCCAGCTACTCCTGGTATCTTTACAGTGCCAACCGCCTGAAATACCCGATG -ATGCGCAAACGCCTGATGAAAATGTGGCGTGAAGCGAAGGCGCTGCATAGCGATCCGGTTGAGGCATGGGCTTCT -ATCATTGAAGACGCCGATAAAGCGAAAAGCTTTAAGCAGGCGCGTGGACGCGGTGGATTTGTTCGTTCTTCCTGG -CAGGAGGTGAACGAACTGATCGCCGCATCTAACGTTTACACCATCAAAAACTACGGCCCGGACCGTGTTGCTGGT -TTCTCGCCAATTCCGGCAATGTCGATGGTTTCTTACGCATCGGGTGCACGCTATCTCTCGCTGATTGGCGGTACT -TGCTTAAGCTTCTACGACTGGTACTGCGACTTGCCTCCTGCGTCTCCGCAAACCTGGGGCGAGCAAACTGACGTA -CCGGAATCTGCTGACTGGTACAACTCCAGCTACATCATCGCCTGGGGGTCAAACGTGCCGCAGACGCGTACCCCG -GATGCTCACTTCTTTACTGAAGTGCGTTACAAAGGGACCAAAACTGTTGCCGTCACACCAGACTACGCTGAAATC -GCCAAACTGTGCGATCTGTGGCTGGCACCGAAACAGGGCACCGATGCGGCAATGGCGCTGGCGATGGGCCACGTA -ATGCTGCGTGAATTCCACCTCGACAACCCAAGCCAGTATTTCACCGACTATGTGCGTCGCTACACCGACATGCCG -ATGCTGGTGATGCTGGAAGAACGCGACGGTTACTACGCTGCAGGTCGTATGCTGCGCGCTGCTGATCTGGTTGAT -GCGCTGGGCCAGGAAAACAATCCGGAATGGAAAACTGTCGCCTTTAATACCAATGGCGAAATGGTTGCGCCGAAC -GGTTCTATTGGCTTCCGCTGGGGCGAGAAGGGCAAATGGAATCTTGAGCAGCGCGACGGCAAAACTGGCGAAGAA -ACCGAGCTGCAACTGAGCCTGCTGGGTAGCCAGGATGAGATCGCTGAGGTAGGCTTCCCGTACTTTGGTGGCGAC -GGCACGGAACACTTCAACAAAGTGGAACTGGAAAACGTGCTGCTGCACAAACTGCCGGTGAAACGCCTGCAACTG -GCTGATGGCAGCACCGCCCTGGTGACCACCGTTTATGATCTGACGCTGGCAAACTACGGTCTGGAACGTGGCCTG -AACGACGTTAACTGTGCAACCAGCTATGACGATGTGAAAGCTTATACCCCGGCCTGGGCCGAGCAGATTACCGGC -GTTTCTCGCAGCCAGATTATTCGCATCGCCCGTGAATTTGCCGATAACGCTGATAAAACGCACGGTCGTTCGATG -ATTATCGTCGGTGCGGGGCTGAACCACTGGTATCACCTCGATATGAACTATCGTGGTCTGATCAACATGCTGATT -TTCTGCGGCTGTGTCGGTCAGAGCGGGGGCGGCTGGGCGCACTATGTAGGTCAGGAAAAACTGCGTCCGCAAACC -GGCTGGCAGCCGCTGGCGTTTGCCCTTGACTGGCAGCGTCCGGCGCGTCACATGAACAGCACTTCTTATTTCTAT -AACCACTCCAGCCAGTGGCGTTATGAAACCGTCACGGCGGAAGAGTTGCTGTCACCGATGGCGGACAAATCCCGC -TATACCGGACACTTGATCGACTTTAACGTCCGTGCGGAACGCATGGGCTGGCTGCCGTCTGCACCGCAGTTAGGC -ACTAACCCGCTGACTATCGCTGGCGAAGCGGAAAAAGCCGGGATGAATCCGGTGGACTATACGGTGAAATCCCTG -AAAGAGGGTTCCATCCGTTTTGCGGCAGAACAACCAGAAAACGGTAAAAACCACCCGCGCAACCTGTTCATCTGG -CGTTCTAACCTGCTCGGTTCTTCCGGTAAAGGTCATGAGTTTATGCTCAAGTACCTGCTGGGGACGGAGCACGGT -ATCCAGGGTAAAGATCTGGGGCAACAGGGCGGCGTGAAGCCGGAAGAAGTGGACTGGCAGGACAATGGTCTGGAA -GGCAAGCTGGATCTGGTGGTTACGCTGGACTTCCGTCTGTCGAGCACCTGTCTCTATTCCGACATCATTTTGCCG -ACGGCGACCTGGTACGAAAAAGACGACATGAATACTTCGGATATGCATCCGTTTATTCACCCGCTGTCTGCGGCG -GTCGATCCGGCCTGGGAAGCGAAAAGCGACTGGGAAATCTACAAAGCCATCGCGAAGAAATTCTCCGAAGTGTGC -GTCGGCCATCTGGGTAAAGAAACCGACATCGTCACGCTGCCTATCCAGCATGACTCTGCCGCTGAACTGGCGCAG -CCGCTGGATGTGAAAGACTGGAAAAAAGGCGAGTGCGACCTGATCCCAGGTAAAACCGCGCCACACATTATGGTC -GTAGAGCGCGATTATCCGGCGACTTACGAACGCTTTACCTCTATCGGCCCGCTGATGGAGAAAATCGGTAATGGC -GGTAAAGGGATTGCCTGGAACACCCAGAGCGAGATGGATCTGCTGCGTAAGCTCAACTACACCAAAGCGGAAGGT -CCGGCGAAAGGCCAGCCGATGCTGAACACCGCAATTGATGCGGCAGAGATGATCCTGACACTGGCACCGGAAACC -AACGGTCAGGTAGCCGTGAAAGCCTGGGCTGCCCTGAGCGAATTTACCGGTCGTGACCATACGCATCTGGCGCTG -AATAAAGAAGACGAGAAGATCCGCTTCCGCGATATTCAGGCACAGCCGCGCAAAATTATCTCCAGCCCGACCTGG -TCTGGTCTGGAAGATGAACACGTTTCTTACAACGCCGGTTACACCAACGTTCACGAGCTGATCCCATGGCGTACG -CTCTCTGGTCGTCAGCAACTGTATCAGGATCACCAGTGGATGCGTGATTTCGGTGAAAGCCTGCTGGTTTATCGT -CCGCCGATCGACACCCGTTCGGTGAAAGAAGTGATAGGCCAGAAATCCAACGGCAACCAGGAAAAAGCGCTCAAC -TTCCTGACGCCGCACCAGAAGTGGGGTATCCACTCCACCTACAGCGACAACCTGCTGATGCTGACTTTAGGTCGC -GGTGGTCCGGTGGTCTGGTTGAGTGAAGCCGATGCCAAAGATCTGGGTATCGCCGATAACGACTGGATTGAAGTC -TTCAACAGCAACGGTGCTCTGACTGCCCGTGCGGTTGTCAGCCAGCGTGTTCCGGCAGGGATGACCATGATGTAC -CACGCGCAGGAACGTATCGTTAACCTGCCTGGTTCGGAAATTACCCAACAGCGTGGTGGTATCCATAACTCGGTC -ACCCGTATCACGCCGAAACCGACGCATATGATCGGCGGCTATGCCCATCTGGCATACGGCTTTAACTACTATGGC -ACCGTAGGTTCTAACCGCGATGAGTTTGTTGTAGTGCGTAAGATGAAGAACATTGACTGGTTAGATGGCGAAGGC -AATGACCAGGTACAGGAGAGCGTAAAATGAAAATTCGTTCACAAGTCGGCATGGTGCTGAATCTCGATAAGTGCA -TCGGCTGCCACACCTGTTCAGTTACCTGTAAAAACGTCTGGACCAGCCGTGAAGGCGTGGAATATGCGTGGTTCA -ACAACGTGGAAACCAAGCCGGGCCAGGGCTTCCCGACTGACTGGGAAAACCAGGAAAAATACAAAGGCGGCTGGA -TCCGTAAAATCAACGGCAAACTGCAGCCGCGCATGGGTAACCGTGCCATGCTGCTGGGTAAAATCTTCGCTAACC -CGCATCTGCCGGGGATCGACGATTATTACGAGCCGTTCGATTTTGACTATCAGAACCTGCATACCGCGCCGGAAG -GCAGCAAATCGCAGCCGATTGCCCGTCCGCGTTCGCTGATTACCGGGGAACGGATGGCGAAAATCGAAAAAGGGC -CGAACTGGGAAGATGACCTGGGCGGTGAGTTTGACAAACTGGCGAAAGACAAGAACTTCGACAACATCCAGAAGG -CGATGTATAGCCAGTTCGAAAACACCTTCATGATGTATTTGCCGCGCCTGTGCGAACACTGCCTGAACCCGGCAT -GTGTGGCGACCTGCCCGAGCGGTGCGATTTACAAGCGTGAAGAAGATGGCATCGTCCTGATCGACCAGGATAAAT -GCCGTGGCTGGCGTATGTGCATCACTGGATGCCCGTACAAAAAAATCTACTTCAACTGGAAGAGCGGTAAGTCTG -AGAAGTGCATCTTCTGCTATCCGCGTATTGAAGCGGGTCAGCCGACCGTGTGCTCAGAAACCTGTGTCGGTCGTA -TCCGTTATCTTGGCGTGCTGTTGTACGATGCCGACGCTATTGAACGTGCAGCCAGCACCGAGAACGAGAAAGATC -TTTACCAGCGTCAGCTGGACGTGTTCCTCGATCCGAACGATCCGAAAGTCATCGAGCAGGCGATTAAAGACGGTA -TTCCGCTGAGCGTTATTGAAGCCGCACAGCAGTCGCCGGTTTATAAAATGGCAATGGAATGGAAACTGGCGCTGC -CGCTGCATCCGGAATATCGCACACTGCCGATGGTCTGGTACGTGCCGCCTCTGTCTCCGATTCAGTCTGCAGCAG -ACGCGGGTGAGCTGGGTAGCAACGGCATTCTGCCAGACGTCGAAAGCCTGCGTATTCCGGTACAGTATCTGGCGA -ATCTGCTGACCGCCGGTGATACCAAACCGGTACTGCGCGCACTGAAACGTATGCTGGCGATGCGTCATTACAAAC -GTGCTGAAACCGTTGACGGTAAAGTTGATACCCGTGCGCTGGAAGAGGTCGGTCTGACCGAAGCCCAGGCACAGG -AGATGTACCGTTATCTGGCGATTGCTAACTACGAAGATCGCTTTGTGGTGCCGAGTAGTCATCGTGAACTGGCAC -GGGAAGCCTTCCCGGAGAAAAATGGCTGCGGCTTTACCTTTGGTGATGGCTGCCACGGTTCAGATACCAAATTCA -ATCTGTTCAACAGCCGTCGTATCGATGCCATCGATGTGACCAGCAAAACGGAGCCGCATCCATGATCGAACTCGT -GATTGTATCGCGTCTCCTTGAATATCCGGATGCTGCCTTATGGCAGCATCAACAAGAGATGTTTGAGGCGATTGC -CGCGTCGAAAAATCTGCCAAAAGAGGATGCCCATGCGCTGGGCATTTTCCTGCGCGATTTAACGACGATGGATCC -GCTCGATGCCCAGGCGCAGTACAGCGAACTGTTCGACCGTGGCCGCGCCACGTCACTGTTGCTGTTTGAACATGT -GCACGGCGAATCCCGCGACCGCGGCCAGGCGATGGTGGACCTGCTGGCGCAGTACGAGCAGCACGGCTTGCAGTT -AAACAGCCGCGAATTGCCGGACCATCTGCCGCTGTATCTGGAGTACCTGGCGCAGCTGCCGCAAAGCGAAGCCGT -GGAAGGTTTGAAAGATATCGCGCCGATTCTGGCATTGCTGAGCGCGCGTCTGCAACAGCGTGAAAGCCGTTATGC -CGTGCTGTTTGATCTGCTGCTGAAACTGGCGAATACCGCTATCGACAGCGACAAAGTGGCGGAAAAAATTGCCGA -CGAAGCGCGCGATGATACGCCGCAGGCGCTGGATGCTGTCTGGGAAGAAGAGCAGGTTAAATTCTTTGCTGACAA -AGGCTGCGGTGATTCAGCAATCACTGCGCATCAGCGTCGCTTTGCCGGTGCCGTCGCGCCGCAATATCTGAATAT -CACCACCGGAGGACAGCACTAATGCAATTCCTGAATATGTTCTTCTTTGATATCTACCCGTACATAGCCGGGGCG -GTCTTCCTGATTGGTAGCTGGCTGCGTTATGACTACGGGCAGTACACCTGGCGCGCGGCGTCCAGCCAGATGCTG -GATCGCAAAGGGATGAACCTGGCGTCGAACCTGTTCCATATCGGGATTCTGGGGATTTTTGTCGGTCACTTCTTC -GGTATGCTGACGCCGCACTGGATGTATGAAGCCTGGCTGCCGATTGAAGTGAAACAGAAAATGGCAATGTTTGCT -GGTGGTGCCAGCGGCGTGCTGTGTCTGATTGGCGGCGTGCTGTTGCTGAAACGTCGTCTGTTCAGCCCACGCGTG -CGTGCAACCACTACCGGAGCGGATATCCTGATCCTGTCGCTGCTCGTTATCCAGTGCGCGCTGGGCCTGTTGACC -ATTCCGTTCTCCGCTCAGCATATGGACGGTAGCGAGATGATGAAACTGGTTGGCTGGGCGCAGTCGGTGGTGACC -TTCCACGGTGGCGCTTCTCAACACCTCGATGGTGTGGCGTTTATCTTCCGTCTGCACCTGGTGCTGGGGATGACG -TTATTCCTGCTGTTCCCGTTCTCGCGTCTGATACACATCTGGAGCGTACCGGTGGAGTATCTGACACGTAAGTAC -CAGCTGGTGCGCGCTCGTCACTAAGCGAATTTTAGTTCACATAGACCCTGCTTCGGCGGGGTTTTTTTATGGGCA -CGGTGCGGGGTGAGTTGTCGGATGCGCTTCGCTTATCCGACCTACAGGGGAGGATATTGTAGGCCCGGTAAACGT -GGTGCCATCGGGCAAAATTAGCTCGGAGTAACAGGTTTTGATTATTTAAGGAAGCGATGGTGGTGGGGGAAGGAT -TACTCAGCGCTGCGCGCTTCGCCCTTCGGGTCGTTGCCTGCGGCAACGCTCTCTCGCTGGCGCTCAAGTCGAACC -TTGGTCGAAGCTTCTCATCCTTCCCCGCTTGGGCAGAATATTTGATTGCGGATTCGTTTGAGAATTCCGGGGCTT -TTGAAAGTGATGGTGGTGGGGGAAGGATTACTCAGCGCTGCGCGCTTCGCCCTTCGGGTCGTTGCCTGCGGCAAC -GCTCTCTCGCTGACGCTCGAGCCGAACCTTAGTCGAAGCTTCTCATCCTTCCCCGCATGGGCAGAATATTTGATT -GCGGATTCGCTTGAGAGTTCAGGGACTTTTGAAAGTGATGGTGGTGGGGGAAGGATTACTCAGCGCTGCGCGCTT -CGCCCTTCGGGTCGTTGCCTGCGGCAACGCTCTCTCGCTGGCGCTCGAGTCGAACCTTGGTCGAAGCTTCTCATC -CTTCCCCGCATGGGCAGAATATTTAATTGCGGATTCGTTGGGAAGTTCAGGGACTTTTGAAAGTGATGGTGGTGG -GGGAAGGATTCGAACCTTCGAAGTCGATGACGGCAGATTTACAGTCTGCTCCCTTTGGCCGCTCGGGAACCCCAC -CAGGGGTAATTCAAATTTTGAGGTAATGCTTGAGATGGTGGTGGGGGAAGGATTATTCGTCGCTTCGCTCCTCAC -CCTTCGGGCCGTTGCCTGTGGCAACGTTCTCTCGCTTTCGCTCGAATCGAACCTTAGTCGAAGGTTCTCACCCTT -CCCCGATGAGTGCAAACTTTCACAATCTCACCGAAGTTACCACATCGCTGTGGTGAATTATGGTGGTGGGGGAAG -GATTCGAACCTTCGAAGTCGATGACGGCAGATTTACAGTCTGCTCCCTTTGGCCGCTCGGGAACCCCACCACGGG -GTAATGCTTTTTACTGGCCTGCTCCCTTATCGGGAAGCGGGGCGCATCATATCAAATGACGCGCCGCTGTAAAGT -GTTACGTTGAGAAAAATGAACTGGTTGCGTAATTTTCATCCGTAACGGATTAAAGGTAACCAGTTATTTTTGCTG -GCGATTAAAGAATAATCGTTCGATTACCGTAAACAAAGACGCGCTGTGCCAGTACTTTGTATAGTGCACGACTTA -AGACGTTTTTCTCGACGTCACGACCTGCGCGCATCATATCTTCAGCTGTGTAGGTATGATCGACATGAATAACGT -CCTGCATGATGATTGGGCCTTCGTCCAGATTGTCATTCACATAGTGAGCGGTTGCGCCAATAATCTTCACACCAC -GTTCATAGGCCTGGTGATAAGGACGTGCGCCAATAAACGCTGGCAGGAATGAATGGTGAATATTGATGATCTTAT -TCGGGAAGCGTGCCACAAATTCCGGCGTTAATACCCGCATATACTTCGCCAGCACCACGTAGTCAGGTTGATAAG -CATCAATGGCATCCGCCATCTTTTGATCGTGCTCGTTGCGGGTTAACCCTTCATGGCTTACCAGCTCAAACGGAA -TATCAAAACGCTCAACCAGAGAACGTAAAGTATCGTGGTTACCAATAACTGCCGCGATTTCGACATCCAGGCCGC -CGTAATTGGCTTTCATCAACAAATCGCCAAGGCAATGCGCTTCTTTAGTGACCAGAATCACTATCCGGCGACGAC -CGGCAGGATTCAGCTCACGCACGGAGCCTTCTGGCAATGCGCTATCGAGATCCGCCAGCAGGGTGGAATCATTAA -AAATCCCTTCCAGTTCCGTGCGCATAAAAAAGCGCCCGGTACGGTGATCAACAAATTCATTGTTCTGTACGATAT -TTAACTCGTGCTTGTAGCAAATATTGGTAATACGTGCGATCAGACCTTTTTGGTCCGGACAAATAGTACGCAGAA -CTTTACGTTGGAGTGAATGCATTGCTGGAAAAACCTTGTTGAGAGTGTTTGCTAAACCGTACCGTCAACCATTAT -TGGCCGCAGCACTTTTTAAATTTTTTACCTGAACCACAAGGGCAGGGATCGTTGCGACCAAACTGCGGACGTGTA -CCGTCAATATAGTACCATTGACCGTTTTCTTTCAAAAATCGCGAACGTTCAATTATTGCACCTGTTTTACCACCT -TCGGTAAATCGAGCAACAAAACTGACAAATCCGATATTGTCGGCGTCCTGCCAACAATGTTCAAATACGGTCAAT -CCCAACCATTCAGTATGCGCAAATCCGGCCATCAATTCGGCACGTAACGCCGCTGCTCCACAAGAGGGATGCCAG -GTCTTTATTAAATAATCTGCGTCTTGCATCACAAAAGCGCAGTAACGCGAACGCATGAGATGTTCTGGATCAGGT -GCAACCTTTTCACCAGACACATAAGGGTGGCAACATAGGCTATACTCGACAGCACTACCACAGGGACAAAGCTGA -GACACAAATAATCTCCCTGGAAACAATAACGGCGTATTAACCGCCTGAGTAGCACTATGTTAACCGAGCAGTAGC -GATGTGGCTACGATTGCATTCCAGGGGAATCTTGCGGGAATAATGAGAAAGATAAAAATAGGGCTGGCGCTGGGA -TCTGGCGCGGCGAGAGGTTGGTCGCATATTGGCGTTATTAATGCGCTAAAAAAAGTGGGTATTGAAATTGATATC -GTTGCAGGATGTTCAATTGGTTCGCTGGTGGGCGCTGCCTATGCATGCGATCGATTATCTGCGCTGGAAGATTGG -GTGACCTCTTTCAGTTATTGGGATGTTTTACGCCTGATGGATCTCTCCTGGCAGCGCGGTGGGTTACTGCGCGGC -GAGCGTGTCTTCAATCAATACCGCGAAATAATGCCGGAAACAGAGATCGAAAATTGTTCCCGTCGCTTTGCGGCT -GTTGCCACCAATTTAAGTACGGGACGTGAATTATGGTTTACTGAAGGCGATCTCCATCTTGCTATTCGCGCATCA -TGCAGTATTCCAGGACTCATGGCACCTGTTGCACATAACGGCTACTGGCTGGTTGATGGAGCAGTCGTTAACCCA -ATTCCTATTTCCCTCACGCGTGCATTGGGGGCTGATATTGTGATAGCGGTTGACCTGCAGCACGATGCTCATTTG -ATGCAACAAGATTTGCTCTCCTTTAATGTCAGTGAAGAAAATAGCGAGAATGGTGATTCTCTGCCGTGGCATGCG -CGTCTGAAAGAAAGGTTAGGCAGCATAACGACACGTCGGGCGGTGACAGCGCCAACGGCAACAGAGATTATGACC -ACTTCTATCCAGGTGCTGGAGAACCGCCTTAAAAGGAACCGCATGGCAGGTGATCCGCCCGATATTCTGATTCAA -CCTGTTTGCCCGCAAATATCTACGCTTGATTTCCATCGCGCGCACGCTGCCATTGCGGCCGGACAGCTGGCAGTG -GAAAGGAAAATGGACGAACTTTTGCCGTTGGTACGCACCAACATTTGACCAGAATTTTTATCTACACTTAAGTTA -ATTCTGACAGGCGCAGGTGGCAATAGCATGCCACTATTGAGTAAAGCCAGTCAGGGGAGAGAACATGACGCAGCC -ATTGGTCGGAAAACAGATTCTCATTGTTGAAGATGAGCAGGTATTTCGCTCGCTTCTGGATTCATGGTTTTCCTC -ATTGGGAGCGACAACGGTACTGGCGGCTGATGGGGTGGATGCCCTTGAGTTGCTGGGAGGTTTCACTCCAGACCT -GATGATATGTGATATCGCGATGCCACGAATGAACGGGCTTAAACTGCTGGAGCATATACGTAACAGAGGCGACCA -GACCCCAGTTCTGGTGATATCTGCCACTGAAAATATGGCAGATATTGCCAAAGCGTTACGTCTGGGCGTTGAAGA -TGTTTTGCTGAAACCAGTTAAAGATCTGAATCGCTTGCGCGAGATGGTTTTTGCCTGTCTCTATCCCAGCATGTT -TAATTCGCGCGTTGAGGAAGAGGAAAGGCTTTTTCGCGACTGGGATGCAATGGTTGATAACCCTGCCGCAGCGGC -GAAATTATTACAGGAACTACAACCGCCGGTTCAGCAGGTGATTTCCCATTGCCGGGTTAATTATCGTCAATTGGT -TGCCGCGGACAAACCCGGCCTGGTGCTTGATATTGCCGCACTTTCGGAAAACGATCTGGCATTTTATTGCCTTGA -TGTCACCCGAGCTGGACATAATGGCGTACTTGCTGCCTTGTTATTACGCGCATTGTTTAACGGATTATTACAGGA -ACAGCTTGCACACCAAAATCAACGGTTGCCAGAGTTGGGCGCGTTATTGAAGCAGGTAAACCATTTACTTCGTCA -GGCCAATCTGCCGGGGCAGTTTCCGCTATTAGTTGGCTATTATCATCGCGAACTGAAAAATCTCATTCTGGTTTC -TGCGGGTCTGAATGCGACGTTAAATACCGGCGAACACCAGGTGCAAATCAGTAATGGTGTTCCGTTAGGCACTTT -AGGTAACGCTTATTTGAATCAATTGAGCCAGCGATGCGATGCCTGGCAATGCCAAATATGGGGAACCGGTGGTCG -ACTGCGCTTGATGTTGTCTGCAGAATGAGCAAACGATAACGCGGGCTAAATTTGCATTACCTGCTAATGTCGGCT -GGTGGTACTATCGTCGCCATTCGTATAAGTAATTGTCTTAATTATGCTAACTCGCCTCCTTTTCAGAACTTAGCC -CCTTCGGGGTGCTGATATACTGGGATGCGATACAGAAATATGAACACGTTCAAAACACGAACAGTCCAGGAGAAT -TTAAATGGCTGCCATTAATACGAAAGTCAAAAAAGCCGTTATCCCCGTTGCGGGATTAGGAACCAGGATGTTGCC -GGCGACGAAAGCCATCCCGAAAGAGATGCTGCCACTTGTCGATAAGCCATTAATTCAATACGTCGTGAATGAATG -TATTGCGGCTGGCATTACTGAAATTGTGCTGGTTACACACTCATCTAAAAACTCTATTGAAAACCACTTTGATAC -CAGTTTTGAACTGGAAGCAATGCTGGAAAAACGTGTAAAACGTCAACTGCTTGATGAAGTGCAGTCTATTTGTCC -ACCGCACGTGACTATTATGCAAGTTCGTCAGGGTCTGGCGAAAGGCCTGGGACACGCGGTATTGTGTGCTCACCC -GGTAGTGGGTGATGAACCGGTAGCTGTTATTTTGCCTGATGTTATTCTGGATGAATATGAATCCGATTTGTCACA -GGATAACCTGGCAGAGATGATCCGCCGCTTTGATGAAACGGGTCATAGCCAGATCATGGTTGAACCGGTTGCTGA -TGTGACCGCATATGGCGTTGTGGATTGCAAAGGCGTTGAATTAGCGCCGGGTGAAAGCGTACCGATGGTTGGTGT -GGTAGAAAAACCGAAAGCGGATGTTGCGCCGTCTAATCTCGCTATTGTGGGTCGTTACGTACTTAGCGCGGATAT -TTGGCCGTTGCTGGCAAAAACCCCTCCGGGAGCTGGTGATGAAATTCAGCTCACCGACGCAATTGATATGCTGAT -CGAAAAAGAAACGGTGGAAGCCTATCATATGAAAGGGAAGAGCCATGACTGCGGTAATAAATTAGGTTACATGCA -GGCCTTCGTTGAATACGGTATTCGTCATAACACCCTTGGCACGGAATTTAAAGCCTGGCTTGAAGAAGAGATGGG -CATTAAGAAGTAACATCCGTATCGGTGTTATCCACGAAACGGCGTTGAGCAATCGACGCCGTTTTTTTATAGCTT -ATTCTTATTAAATTGTCTTAAACCGGACAATAAAAAATCCCGCCGCTGGCGGGATTTTAAGCAAGTGCAATCTAC -AAAAGATTATTGCTTGATCAGGAAATCGTCGAGGGATTTACCTTGCTCATCCATTGCTTTTTTGATTACAGCTGG -AGTACGGCCTTGGCCAGTCCAGGTTTTAGTTTCGCCGTTTTCGTCAACGTAGCTATATTTTGCCGGACGCTGAGC -ACGTTTAGCTTTGGTGCCAGATTTAACGGCAGCAAGGCTATTCAGCAGTTCGTTCGGGTCAATACCGTCAGCGAT -CAGCATTTCGCGATATTGCTGCAGTTTACGAGTGCGCTCTTCAACTTCAGCAGCAGCCGCGCTTTCTTCTTCGCG -ACGTTCGTTAACAACAACTTCTAATTTTTCCAGCATTTCTTCCAGCGTTTCAAGTGTACATTCTCTTGCCTGCGC -ACGAAGAGTACGGATGTTGTTCAGAATTTTAAGTGCTTCGCTCATTGTAGTAATCTCAAACTTATATTGGGGTGG -TTTGTTGAGGTAATAATAGAGCCTTAAATTCAGTTGTGCAATAGCCAGGAATGTAAGGAATTCAAAATTGTTCTT -TATTTTGTGCCGCCAATAAATATCTTTTCATAAAATTAGCCAGAAAAGACGCGGCATATAGCCCTATTTACACCG -ATGATTTCGCAGCACGTGAGGTTAAAACTTCCTGATTCATGTCACATTTTATGGGGAGATTATCGTAGGCTGACG -ACCTTTCAGTCTTCTGTATTAGTTGTGTTTACGAGAATTCCCTATTAAGCGAATGATGAAAAGTAGAACAGTCGC -AATAAGAGCATGGACTTAGTATTGCACTATCTCCTGGAGGTCAACAGAGGGCTATTACTTGCGCAACAGGTTAAA -GATTGTGAATAGTTACCAGCAGTCATTTACCCGCTTATAACAAGCGAGGCAGTTGTAATGATAGCTCAGAAGGAT -TATGCAAGGCTTCGTAAGGGAGAACGCATATACCCACTTCTGTGCATACTGTTGAGCTGAAAAACTGACGAATTA -TGATAAACTCCAGCCAACTTTATTTCATATCATTGAGGGCCTGTGGCTGATGGCACAGCTATATTTCTACTATTC -CGCAATGAATGCGGGTAAGTCTACAGCATTGTTGCAATCTTCATACAATTACCAGGAACGCGGCATGCGCACTGT -CGTATATACGGCAGAAATTGATGATCGCTTTGGTGCCGGGAAAGTCAGTTCGCGTATAGGTTTGTCATCGCCTGC -AAAATTATTTAACCAAAATTCATCATTATTTGATGAGATTCGTGCGGAACATGAACAGCAGGCAATTCATTGCGT -ACTGGTTGATGAATGCCAGTTTTTAACCAGACAACAAGTATATGAATTATCGGAGGTTGTCGATCAACTCGATAT -ACCCGTACTTTGTTATGGTTTACGTACCGATTTTCGAGGTGAATTATTTATTGGCAGCCAATACTTACTGGCATG -GTCCGACAAACTGGTTGAATTAAAAACCATCTGTTTTTGTGGCCGTAAAGCAAGCATGGTGCTGCGTCTTGATCA -AGCAGGCAGACCTTATAACGAAGGTGAGCAGGTGGTAATTGGTGGTAATGAACGATACGTTTCTGTATGCCGTAA -ACACTATAAAGAGGCGTTACAAGTCGACTCATTAACGGCTATTCAGGAAAGGCATCGCCACGATTAATAAGAATT -TCTTTACTGACAGGGTGAGCAGGGCACTTTTATCCTGTCAGTTCGTTTTACGCACTTCTTCCGGGCTATATACCC -TTCTCGGCAGTTTTTTAACGCCGCTATACGCCTCACAGGGCTCTTAAGCACCGACGTTGACTTGTGACCTGTAAA -GTACAATATCCCTGTGTTTAGGCGTTATACATCGTCGCAAATATGATGAAGGCTAATGCTGTCGGTTTATGGAAA -AGTTGCTTTGGGTAAACAAAAAATACGGCCCCAGAAGGGCAATGCCGTTCACTTAAGAGGAGCGGCACTATGTTT -CACAGGATAACGGGTTTTTGATATCTTAACCGACCTCGGCCTTGATGGTCGGGGGCGTTTTGTTATGAACACCAC -TTCCAGAGCACCCCGAAGATGCTCCAGTCGTTTCGGGATGGTCCCTGGTGACGCCGTGTTTCCCAGCTCTATCAT -TTCTGATGCGATATTCTTCCACGCAGGCAGTAGCCAGTGGCGGTTACAACCCTTCTGGTTCAGCGTCAGCAGCAG -GTCTTCGCTGTAAAAAAGTTTATCAAACAACGTAATAGAGTTATCCGGGATGGTGGCGAGCATGGAGTGGGCCAG -CACAGTTTCGCTCTGCCGGTAAGGTGCGGTCACGGCATTCAGCAGAATGTGACTTCCCAGGTTCATTAAGGCCAC -CAGACGCATAACCGGGTAGGCGTTCTGCCGCTTAGTGGATGTGTTGGCAGACCCATAATATTCACGCAGCTCGGG -TTTATCAGGTGTCCTGAACTGTGCGCCATCAATGGCAAAAAGTTGCAGGCCGTGCCAGTCATCCTTCAGGTAACG -TTCCGCGCCCCTGTCTGTGCGGTCTGGCGGAAGAGCCATTCCACTGGGGCGGCCCCCACGCGCTGACGCGCCTGG -GTGACAGCGCTGCGGGCCAGCAGGTTCATCCCCGCTTCGCCATCCGCGCTCAGGTTCAGACGGCGAACAACATCG -GTAATTGGCTCATTGCACCACCATCCAGATAACCATGTCCCCCGGTAAACGACGGCGGCGAACGGTCGCATGAGC -AGAAAGCGTCAGGCAGTGTTGTATCCACTCGGTGGGAAGGTGTTCTGCAAATAGTTGTGCAGAGGGCGGAGGCAT -AAGCGGATGGTCACTGAAATCGAGCAGATCATTGAGAAGTGGCATAAGAAAACGGCTCCCTGTTGTGGAAGCCGT -TATAGTGCCTCAGTTTAAGGATCGGTCAACTAATCCTTAACTGATCGGCATTGCCCAGAAGGGGCCGTTTATGTT -GCCAGACAGCGCTACTGATTAAGCGGATTTTTTCGCTTTTTTCTCAGCTTTAGCCGGAGCAGCTTCTTTCTTCGC -TGCAGTTTCACCTTCTACATAATCACGACCGTAGTAGGTATCCAGCAGAATCTGTTTCAGCTCGGAGATCAGCGG -GTAACGCGGGTTAGCGCCGGTGCACTGGTCATCGAATGCATCTTCAGACAGTTTATCCACGTTCGCCAGGAAGTC -TGCTTCCTGAACGCCAGCTTCACGGATAGATTTCGGAATACCCAGTTCAGCTTTCAGCGTTTCCAGCCATGCCAG -CAGTTTCTCGATCTTAGCAGCAGTACGGTCGCCCGGTGCGCTCAGACCCAAGTGGTCGGCAATTTCAGCATAACG -ACGGCGAGCCTGCGGACGGTCATACTGGCTGAATGCAGTCTGCTTGGTCGGGTTGTCGTTCGCATTGTAGCGAAT -AACGTTACAAATCAGCAGGGCGTTTGCCAGACCGTGCGGAATATGGAACTGGGAACCCAGTTTGTGCGCCATTGA -GTGACATACACCCAGGAAGGCGTTCGCAAACGCGATACCCGCGATAGTCGCTGCACTGTGAACACGTTCACGCGC -TACCGGATTTTTAGACCCTTCGTGGTAGGACGCTGGCAGATATTCTTTCAGCAGTTTCAGTGCCTGCAGAGCCTG -ACCATCAGAGAACTCAGATGCCAGTACAGAAACATAAGCTTCCATGGCGTGAGTTACTGCGTCCAGACCACCGAA -AGCACACAGGGACTTCGGCATGTCCATAACCAGGTTGGCGTCGACAATCGCCATATCCGGAGTCAGCGCATAGTC -TGCCAGCGGATATTTCTGACCAGTAGCGTCGTCAGTTACAACCGCAAACGGAGTGACTTCAGAACCTGTACCAGA -AGTGGTGGTGACAGCGATCATTTTCGCTTTCACGCCCATTTTCGGGAACTTGTAGATACGTTTACGGATATCCAT -AAAGCGCAGCGCCAGCTCTTCGAAGTGAGTTTCCGGATGTTCGTACATAACCCACATGATCTTCGCGGCGTCCAT -CGGGGAACCACCACCCAGCGCGATAATCACGTCTGGTTTGAAGGAGTTTGCCAGTTCTGCACCTTTACGAACGAT -GCTCAGGGTCGGGTCCGCTTCTACTTCGAAGAAGACTTCAGTTTCAACGCCTGCTGCTTTCAGTACGGAAGTGAT -CTGATCAGCATAACCATTGTTGAACAGGAAGCGGTCAGTCACGATGAGCGCACGTTTGTGGCCATCAGTAATCAC -TTCATCCAGCGCGATTGGCAGGGAGCCACGGCGGAAGTAGATAGATTTCGGAAGTTTGTGCCACAACATGTTTTC -AGCTCGCTTAGCAACGGTTTTCTTGTTGATCAGGTGTTTCGGACCAACGTTTTCAGAGATGGAGTTACCACCCCA -AGAACCACAACCCAGAGTCAGGGAAGGTGCGAGTTTGAAGTTATACAGGTCACCGATACCACCCTGAGACGCTGG -GGTGTTAATCAGGATACGCGCCGTTTTCATTTTCTGACCGAAGTAAGAAACGCGAGCCGGTTGGTTATCCTGGTC -AGTGTACAGGCAAGAGGTATGACCGATACCGCCCATAGCAACCAGTTTCTCTGCTTTTTCTACCGCGTCTTCGAA -ATCTTTAGCGCGGTACATTGCCAGAGTCGGGGACAGTTTTTCATGTGCGAACGGTTCGCTTTCATCAACAACGGT -CACTTCACCGATCAGAATCTTGGTGTTTTCTGGTACAGAGAAGCCTGCCAGTTCAGCAATTTTATAGGCTGGCTG -ACCAACGATAGCCGCGTTCAGCGCACCGTTTTTCAGGATAACATCCTGAACAGCTTTCAGCTCTTTACCCTGCAA -CAGATAGCCGCCGTGGGTTGCAAAACGTTCACGTACAGCGTCATAAACAGAGTCAACAACAACAACAGACTGTTC -AGAAGCACAGATTACGCCGTTGTCGAAGGTTTTGGACATCAGTACAGATGCAACTGCACGTTTGATATCAGCAGT -TTCATCGATAACAACTGGAGTGTTGCCCGCGCCTACACCGATAGCTGGTTTACCGGAGCTGTATGCGGCTTTAAC -CATGCCCGGACCACCAGTCGCGAGGATCAGGTTGATGTCTGGGTGGTGCATCAGTGCGTTAGACAGTTCAACAGA -AGGTTGATCGATCCAGCCGATCAGATCTTTCGGAGCACCGGCAGCGATAGCAGCCTGCAGAACGATATCAGCCGC -TTTGTTGGTGGCATCTTTTGCACGCGGGTGCGGGGAGAAGATAATGGCGTTACGGGTCTTCAGACTGATCAGCGA -TTTGAAGATAGCAGTTGAAGTCGGGTTAGTGGTCGGAACGATACCGCAAATAATACCGATTGGTTCAGCGATAGT -GATGGTACCAAAAGTGTCGTCTTCAGACAGAACACCACAGGTTTTTTCATCTTTATAGGCGTTGTAGATATATTC -AGAAGCAAAGTGGTTTTTGATCACTTTATCTTCGACGATACCCATGCCGGATTCGGCAACGGCCATTTTCGCGAG -TGGGATTCGAGCATCTGCAGCAGCCAGAGCGGCGGCGCGGAAGATTTTGTCTACTTGCTCTTGAGTGAAACTGGC -ATATTCACGCTGGGCTTTTTTTACACGCTCTACGAGTGCGTTAAGTTCAGCGACATTAGTAACAGCCATAATGCT -CTCCTGATAATGTTAAACTTTTTTAGTAAATCATCTGCTCGAATACGAGAGTATAGTCAGTGCGGTGATGATTTG -CTTAACCTATGAAAATCAAAAGCTTACTCGCGCTCACACTCACTGTGATTTACTAAAAGAGTTTAAACATTAGAG -TTATTATCTCTAATGCGTCACTTCCAGGTGGCGTAAGCAAGATTACTCACTTCTGGGTACTGATTACGTGATCCA -AATCAAATTTTTGCAAAGCTGACACCTTTCAGCATCGCTTTTCGCCATTATAGCTAACAGTTAATAAATTGTAGT -ATGATTTGGTGGCTACATTAGCATGTTTTGCACAACTAGATAACAATAACGAATGATAGCAATTTTAAGTAGTTA -GGAGGTGAAAAATGCTGTCAAAAGGCGTATTGTCAGCGCGTCTTTTCAACCTTATTTATGGCTAACATTATCCGG -CTTTTGCTTCGGAGCTAACCGTGATTCAGACCTTTTTTGATTTTCCCGTTTACTTCAAATTTTTCATCGGGTTAT -TTGCGCTGGTCAACCCGGTAGGGATTATTCCCGTCTTTATCAGCATGACCAGTTATCAGACAGCGGCAGCGCGAA -ACAAAACTAACCTTACAGCCAACCTGTCTGTGGCCATTATCTTGTGGATCTCGCTTTTTCTCGGCGACACGATTC -TACAACTTTTTGGTATATCAATTGATTCGTTCCGTATCGCCGGGGGTATCCTGGTGGTGACAATAGCGATGTCGA -TGATCAGCGGCAAGCTTGGCGAGGATAAACAGAACAAGCAAGAAAAATCAGAAACCGCGGTACGTGAAAGCATTG -GTGTGGTGCCACTGGCGTTGCCGTTGATGGCGGGGCCAGGGGCGATCAGTTCTACCATCGTCTGGGGTACGCGTT -ATCACAGCATTAGCTATCTGTTTGGTTTCTTTGTGGCTATTGCATTGTTCGCTTTATGTTGTTGGGGATTGTTCC -GCATGGCACCGTGGCTGGTACGGGTTTTACGCCAGACCGGCATCAACGTGATTACGCGTATTATGGGGCTATTGC -TGATGGCATTGGGGATTGAATTTATCGTTACTGGTATTAAGGGGATTTTCCCCGGCCTGCTTAATTAATTCCTTT -CAAATGAAACGGAGCTGCCATGCTCCGTTTACTTCGTCATTATTTTTACTTTGTTCCCGCGCAGTTATCAAAAGC -AAAAGGAATAGGTAAAAATATTCTTCTCAAATTACAGTTAGTTATAAGGATTTCCTTAACTGCTTCTCCTCACCA -TCATGTTATTTTCGCCACATCATAATCCTGGGCTTGCTGAAGAATAATTGAAATGATATTATTAATTCCACTGCC -TTTGGTAGAGGAAAGTGCTAAATAATAATCAATTGTTAAATTATTGTGCATTTCACTACTGGAACTGTAATCAGA -AAAGATAGACATGCTTAGCCAATCTCTATTTGATTGAATTGAAAGATGTTTGTTAAGGCATGGATGCAAGCTATA -GATTCTGATACGGTCAATAAAAGAGAATTGCTTAACAATTTTGCAAAATGTATTGGCGAGTAAGAACCGCATTTG -GTACTTTCCGGGCAACCGCCAGACGATTCTTTATTGGTAATGAGAATAATTAACAATTAAAGAGCGTCGCGAAAG -AATAATGTGTCTCGACAGGGGAGACACAGTACGAATCGACATAAGGTGATCGTCTGAATCACCAGAATAAATAAA -GTCGGTGATAGTAATACGTAACGATAAAGTAACCTGACAGCAGAAAGTCTCCGAGCCTGTGCAGGGTCCCAATCC -GGGATTACACATGCTGGTTAATACCAGTAATTATAATGAGGGAGTCCAAAAAACAATGACCAACATCACCAAGAG -AAGTTTAGTAGCAGCTGGCGTTCTGGCTGCGCTAATGGCAGGGAATGTCGCGCTGGCAGCTGATGTACCCGCAGG -CGTCACACTGGCGGAAAAACAAACACTGGTACGTAACAATGGTTCAGAAGTTCAGTCATTAGATCCGCACAAAAT -TGAAGGTGTTCCGGAGTCTAATATCAGCCGAGACCTGTTTGAAGGCTTACTGGTCAGCGATCTTGACGGTCATCC -AGCACCTGGCGTCGCTGAATCCTGGGATAATAAAGACGCGAAAGTCTGGACCTTCCATTTGCGTAAAGATGCGAA -ATGGTCTGATGGCACGCCAGTCACAGCACAAGACTTTGTGTATAGCTGGCAACGTTCTGTTGATCCGAACACTGC -TTCTCCGTATGCCAGTTATCTGCAATATGGGCATATCGCCGGTATTGATGAAATTCTTGAAGGGAAAAAACCGAT -TACCGATCTCGGCGTGAAAGCTATTGATGATCACACATTAGAAGTCACCTTAAGTGAACCCGTTCCGTACTTCTA -TAAATTACTTGTTCACCCATCAACTTCACCGGTGCCAAAAGCCGCTATCGAGAAATTCGGCGAAAAATGGACCCA -GCCTGGTAATATCGTCACCAACGGTGCCTATACCTTAAAAGATTGGGTCGTAAACGAACGAATCGTTCTTGAACG -CAGCCCGACCTACTGGAACAACGCGAAAACCGTTATTAACCAGGTAACCTATTTGCCTATTGCTTCTGAAGTTAC -CGATGTCAACCGCTACCGTAGTGGTGAAATCGACATGACGAATAACAGCATGCCGATCGAATTGTTCCAGAAGCT -GAAAAAAGAGATCCCGGACGAAGTTCACGTTGATCCATACCTGTGCACTTACTATTACGAAATTAACAACCAGAA -ACCGCCATTCAACGATGTGCGTGTGCGTACCGCACTGAAACTAGGTATGGACCGCGATATCATTGTTAATAAAGT -GAAAGCGCAGGGCAACATGCCCGCCTATGGTTACACTCCACCGTATACTGATGGCGCAAAATTGACTCAGCCAGA -ATGGTTTGGCTGGAGCCAGGAAAAACGTAACGAAGAAGCGAAAAAACTGCTGGCTGAAGCGGGTTATACCGCAGA -CAAACCGTTGACCATCAACCTGTTGTATAACACCTCCGATCTGCATAAAAAGCTGGCGATTGCTGCCTCTTCATT -GTGGAAGAAAAACATTGGTGTAAACGTCAAACTGGTTAACCAGGAGTGGAAAACGTTCCTCGACACCCGTCACCA -GGGTACTTTTGATGTGGCCCGTGCAGGCTGGTGTGCTGACTACAACGAACCAACTTCCTTCCTGAACACCATGCT -TTCGAACAGCTCGATGAATACCGCGCATTATAAGAGCCCGGCCTTTGACAGCATTATGGCGGAAACGCTGAAAGT -GACTGACGAGGCGCAGCGCACAGCTCTGTACACTAAAGCAGAACAACAGCTGGATAAGGATTCGGCCATTGTTCC -TGTTTATTACTACGTGAATGCGCGTCTGGTGAAACCGTGGGTTGGTGGCTATACCGGCAAAGATCCGCTGGATAA -TACCTATACCCGGAATATGTACATTGTGAAGCACTAATGGCAATACGTGGGGCAGGAGTGTCCTGCTCCACGGTG -TCTGATTTTTATCGCATTACAGAAGGCACAGGCCAGAAGGTAGGGCAATGTTAAAATTTATTCTACGTCGCTGTC -TGGAAGCGATTCCGACGCTATTTATTCTTATTACTATTTCGTTCTTTATGATGCGCCTCGCGCCGGGAAGCCCTT -TTACCGGCGAACGTACTTTACCGCCAGAAGTGATGGCCAATATCGAAGCGAAATATCATCTTAATGATCCGATCA -TGACACAGTATTTCAGCTACCTGAAACAACTGGCGCACGGTGATTTCGGTCCATCGTTTAAATATAAAGATTATT -CGGTCAATGACTTGGTTGCATCCAGTTTTCCCGTTTCTGCCAAACTGGGAGCCGCAGCATTTTTCCTTGCGGTAA -TACTGGGTGTTAGTGCTGGCGTTATTGCCGCATTAAAACAAAACACCAAATGGGACTATACCGTGATGGGGCTGG -CAATGACCGGGGTTGTTATCCCCAGTTTTGTGGTTGCACCATTATTAGTCATGATATTTGCGATCATTTTGCATT -GGCTGCCGGGCGGTGGCTGGAATGGTGGGGCGCTTAAATTCATGATATTGCCGATGGTGGCGTTGTCACTCGCTT -ATATCGCCAGTATTGCGCGTATTACCCGTGGCTCTATGATTGAAGTATTACACTCCAATTTTATTCGTACTGCCC -GGGCGAAAGGGTTACCTATGCGGCGGATCATTTTACGTCACGCATTAAAACCTGCTCTGTTACCCGTGCTCTCTT -ATATGGGCCCCGCATTTGTCGGCATTATTACCGGTTCTATGGTTATCGAAACCATTTATGGTTTGCCGGGGATTG -GACAACTGTTCGTTAATGGCGCATTGAACCGTGACTATTCCTTAGTGTTAAGCCTGACCATCCTGGTTGGTGCTT -TAACCATTTTGTTTAATGCCATTGTCGATGTGCTATATGCGGTTATCGACCCGAAAATCCGTTACTGATACTGGA -GCTCGCGATGATGTTAAGTAAGAAAAACAGCGAGACGCTGGAAAATTTCAGTGAAAAGCTGGAGGTCGAAGGGCG -CAGCTTGTGGCAGGACGCACGTCGACGTTTTATGCATAACCGTGCGGCGGTTGCCAGTCTGATAGTGCTGGTGCT -GATCGCGTTATTTGTAATCCTGGCACCGATGCTTTCCCAGTTTGCCTATGACGATACTGACTGGGCGATGATGTC -CAGCGCCCCGGATATGGAGTCCGGTCACTACTTTGGTACTGACTCATCCGGTCGCGACCTGCTTGTGCGCGTTGC -GATTGGCGGGCGTATCTCACTCATGGTCGGTGTTGCTGCGGCACTGGTGGCTGTGGTCGTCGGGACACTTTATGG -TTCGCTTTCCGGTTATCTGGGCGGTAAAGTGGATTCGGTAATGATGCGTCTGCTGGAAATCCTCAACTCCTTCCC -ATTCATGTTCTTCGTCATTTTGCTGGTGACCTTTTTCGGTCAAAACATCCTGCTGATTTTCGTGGCGATAGGCAT -GGTTTCCTGGCTGGATATGGCTCGTATTGTGCGTGGGCAAACCCTGAGTCTGAAGCGCAAAGAGTTTATTGAGGC -GGCACAAGTTGGCGGTGTATCGACATCGGGCATTGTTATTCGCCACATTGTGCCGAATGTACTCGGTGTGGTGGT -GGTCTACGCATCACTTCTGGTGCCCAGCATGATCCTCTTTGAATCTTTCCTTAGCTTCCTGGGGTTGGGTACGCA -AGAGCCGTTAAGCAGCTGGGGTGCATTGCTGAGTGATGGCGCGAACTCGATGGAAGTCTCTCCATGGTTATTGTT -GTTCCCAGCGGGATTCCTCGTGGTGACGCTGTTTTGTTTCAACTTTATCGGCGATGGCTTGCGTGATGCCCTCGA -CCCGAAAGATCGTTAAGGAGTGCAGCCATGAGCGTAATTGAAACTGCAACTGTGCCGCTCGCACAACAACAGGCT -GACGCACTGCTGAACGTGAAAGATTTGCGTGTCACCTTTAGTACCCCGGACGGCGACGTCACGGCGGTCAATGAT -TTGAATTTTTCCCTACGTGCCGGAGAAACGCTGGGTATTGTAGGTGAGTCTGGTTCGGGTAAATCGCAAACTGCA -TTTGCGTTGATGGGCCTGTTGGCTGCCAACGGACGTATTGGCGGATCGGCAACCTTCAATGGGCGTGAAATCCTC -AATTTGCCAGAGCATGAACTCAATAAACTGCGCGCTGAACAAATCTCAATGATTTTTCAGGACCCAATGACTTCG -TTGAATCCCTATATGCGCGTCGGTGAGCAGTTGATGGAAGTGCTGATGCTGCATAAGAACATGAGCAAAGCTGAG -GCGTTTGAAGAGTCGGTGCGGATGCTCGATGCGGTAAAAATGCCGGAAGCGCGTAAACGCATGAAAATGTACCCG -CACGAATTTTCTGGCGGCATGCGTCAGCGAGTCATGATTGCGATGGCCTTGTTATGTCGACCTAAGCTGCTGATT -GCGGATGAACCAACAACTGCGCTGGACGTCACCGTACAGGCGCAGATCATGACGCTATTAAATGAACTGAAGCGG -GAATTTAATACCGCCATCATTATGATCACCCACGATCTTGTCGTGGTGGCGGGGATCTGCGACAAAGTGCTGGTA -ATGTACGCCGGGCGCACGATGGAATATGGCAACGCGCGCGATGTCTTTTATCAACCCGTTCATCCTTATTCTATC -GGTTTGCTCAACGCGGTGCCGCGTCTCGATGCGGAAGGTGAAACAATGTTGACCATCCCGGGTAATCCGCCAAAC -CTGCTGCGATTACCGAAAGGTTGCCCGTTCCAGCCACGTTGTCCGCATGCGATGGAAATTTGTAGTAGCGCACCG -CCGCTGGAAGAGTTTACGCCTGGCCGTCTGCGTGCTTGCTTTAAACCGGTGGAGGAACTGTTATGAATGCTGTAA -CTGAAGGAAGAAAAGTCCTCCTTGAAATCGCCGATCTTAAAGTGCACTTTGAAATCAAAGATGGCAAACAGTGGT -TCTGGCAACCGCCGAAAACGCTCAAAGCCGTCGATGGTGTCACTCTTCGCCTGTATGAAGGGGAAACATTAGGTG -TGGTAGGGGAATCGGGATGCGGTAAGTCCACCTTTGCTCGCGCCATCATCGGTTTGGTCAAGGCGACCGACGGTC -ATGTTGCCTGGTTAGGTAAAGAGTTGCTGGGCATGAAACCCGATGAATGGCGTGCCGTTCGCAGTGATATTCAGA -TGATTTTCCAGGATCCGTTGGCATCGCTAAACCCGCGTATGACCATCGGCGAGATCATCGCTGAACCACTGCGTA -CTTATCATCCGAAAATGTCACGCCAGGAAGTTCGCGAGCGCGTGAAGGCGATGATGCTGAAAGTCGGGTTATTGC -CTAACCTGATTAACCGCTATCCGCATGAGTTCTCTGGTGGGCAGTGCCAGCGTATCGGGATTGCGCGTGCTCTTA -TTCTTGAACCGAAGCTGATTATCTGTGATGAGCCGGTGTCGGCGCTGGACGTGTCAATTCAGGCACAGGTGGTCA -ACCTGCTCCAGCAATTGCAACGTGAGATGGGATTGTCATTAATTTTTATCGCTCATGACCTGGCCGTGGTAAAAC -ACATTTCCGATCGTGTGTTGGTGATGTATCTCGGCCATGCGGTAGAACTGGGGACCTATGATGAGGTCTACCACA -ATCCACTACATCCTTACACCAGGGCATTGATGTCGGCAGTCCCCATACCTGATCCGGATCTGGAGAAGAACAAAA -CCATCCAGTTACTGGAAGGGGAATTACCGTCGCCGATCAACCCGCCTTCCGGTTGTGTTTTCCGTACCCGTTGCC -CGATTGCCGGTCCAGAGTGCGCCAAAACACGTCCTGTTCTGGAGGGGAGTTTCAGACACTCCGTTTCTTGCCTGA -AAGTCGATCCGCTTTAAAAACAATAAGGGCTGACAGTTGTCAGCCCTTTTTCACGCTAAAAGCGATTATTTATTC -CCGCCAGATGATATGGCAAAGTTTGTGATCTTTTTCGCGGCATAACAGAATGCGGGCAAAAACATCGTTGATTTC -ACCATCTTCACTGTCCGCCAGACCAATCACCACTTCGGCAAAAAAGTCCGGGTTCAAATCGAAATCAACATGTTC -CTGCCAGTCTTCCGCCGGATCGAATAACTCCGCGCCGCCGCGCTCTTCAAACTGAAGATTGAACAGCAGAACATC -AGCTGGATCGAGATTGTCGGCAGCCAGTTCGAGAAAAATATCGTAGGCCTGTTCAAGCGTTTCATCTTCAGTCAG -GCGATTGTTTAGATCCATATCCATAGTTACTACCTGTTTAACCTCTGTTGGCGACGTTTTACAGCAACGGACTGA -AGAAGTAAAACAGTCGCTCGGCGACACGTTGCCATAATGGACGTTTTAGCCATAAACGGGCATCGAGCAGACGTG -AACGCGAAATATAATCGTCCTGAACGGCGGCGAGGTCAGCACCAAAACCTTTATCGTCGATTGCCAGGGTAATCT -CGAAATTTAGCCACAGACTACGCATATCAAGGTTAACTGTGCCAACCAGACTTAGTTCGCCATCGACCAGCACGC -TCTTGGTATGCAGTAACCCGCCTTCAAACTGATAAATTTTAACCCCAGCAGCCAGCAGTTCCGTAAAGAATGCGC -GACTGGCCCAGCCGACCAGCATCGAGTCATTTTTTCGCGGAAGGATAATACTGACATCCACCCCGCGCTGCGCCG -CCGTGCAAATCGCATGAAGTAAATCATCGCTTGGCACAAAGTAGGGCGTGGTCATGATCAAATATTCACGCGCCG -AATAAGCCGCAGTCAATAATGCCTGGTGAATGAGATCTTCCGGAAAGCCGGGGCCAGAAGCAATTGTGTGAATGG -TGTGACCGCTGGCCTGTTCAAACGGCATAATATTGACATCTGGTGGTGGCGGCAGAATACGTTTTCCGGTTTCAA -TCTCCCAGTCGCAGGAATAAATAATCCCCATCGCGGTGGCGATAGGGCCTTCCATACGCGCCATCAGATCAATCC -ATTGCCCTACGCCCGCATCTTGTTTGAAGTAGCGAGGATCGACCATATTCATGCTGCCGGTGTACGCGATGTAAT -TATCGATCATGATCATCTTGCGATGTTGGCGCAGGTCCATACGGCGTAAAAACACACGCATCAGATTGACCTTTA -AGGCTTCGACCACTTCAATACCGGCATTACGCATTAGCTCGGGCCACGGGCTGCGGAAAAAAGCCACACTCCCGG -CGGAGTCGAGCATCAATCGGCAATGAATGCCGCGTCGCGCAGCCGCCATTAATGATTCAGCCACCTGGTCCGCCA -TGCCGCCGGGCTGCCAGATATAAAACACCATCTCAATATTATGGCGCGCGAGCTGGATGTCGCGGATTAACGCCT -GCATCACATCATCTGACTCGGTCATCAGTTGTAGCTGATTCCCTTTGACCCCAGCGATCCCCTGACGACGCTCGC -AAAGCTTGAATAATGGCGCAGCGACACTGCTATTTTCTTCGGCGAAGATATGCTTACAGGCTTTAAGGTCGTTAA -GCCATTTTGCGGTGGAAGGCCACATCGCTCTGGCGCGCTCAGCGCGGCGTTTGCCTAAATGGAGCTCGCCAACGG -CAAGATAGGCAATAATTCCGACTAACGGCAGAATGTAAATAATCAACAGCCAGGCCATCGCGGAGGGAACTGCGC -GTCGTTTCATTAGAATGCGTAAAGTTACGCCTGCAATGAGCAACCAGTATCCCAGAATGGCCAACCAACTCACCA -ACGTATAAACGGTTGTCATAGATTAGAAATCCTTTTGAAAGCGCATTGTTATGAGTTTACGCATATGGATTCATC -TGGCAAATAAAAACGCGGGAAAAGCACTGGTCAGCGTCGGGGGTGGGGGTATAATGACCATTCTGTTATTGCATA -GAGTAGTTAACATGAAGCGGAGTAGAACGGAAGTGGGGCGCTGGCGCATGCAGCGTCAGGCTAGCCGACGTAAAT -CGCGTTGGCTTGAGGGGCAATCGCGCCGAAATATGCGTATCCACAGCATCAGGAAGTGCATTCTAAACAAACAGC -GTAACTCGTTATTGTTTGCGATCTACAATATCTAAATGTACTGGGCACCATTGCGGTGCCCAATAAGTTTACTCT -TCCGTCTTTAAACTCTATTTTTGCGCCGATTCTTTACTGTCAGCTTTCGTTTCTAGTTCATCGTTATCGCTGAAA -ATACCATGACCTGAGTTCAACAACATTGAAACGAGCATATCATTATTAATCTCTTCACCATTTAAAACTCGCGCC -AGAATTTCGCTGCCAAACAGTTGCGGTGAGAGAATGATATCCGGATGTACCATCTTAATCTTATTCAGGTTTTTG -CTATCACTGACGGCGAGAACTGTTTTGACATCACTGCTCATATCTTTTGCCGAGAGTACAACAAACGCGTTATCT -GCATCGTTATCACTCAGCGCCAGAATGGCCCGGCAACGATCGATTCCCGCTTTCTTTAATACAGAACTGTCATTA -CTGTCACCGGGGATAACATCAGCATTATCGCCTAAGCGTTGCTCAAGTTGCTTGATATCATCTTCAGGCAAGTTG -CTGATAACCGTTACGTTTTGTCCGCGTTGATTCAGTTGCAGGATCGTATTGATGGCGAGAATCGAATGTCCGCAA -ACAATAAAATGATCTTTACGATGCATTGTATGATTGTTTCCTTTTACAAGTTTGTTGAATCCCCCGCGGATAAGC -GGACCAAAAATTGAGGTCATAGATGTGGCAAAAACGGTAATGCCGGAAATAATGACCGAAATAGTGAACAATCGT -GCTGATTCAGAAACAGGGACAATATCGCCATAGCCGACGGTTGACATGGTTTCTATCGAAAAATAGAACGCGGTC -ATCAAACTTTCTATTCGCGGATTAAAACCTTCGCTTAAATAAAGCGCACCGTAGGTTGAGTAAAACAGTAATGTC -GTGAAACTAATAAATGCAAAAATTGTCCCGGCTGCGGCGCTACTGTGGGAGAAGTCTTTGCGCAGTATCAGCAAA -AACACCAGCGTAAAAATGCAAAATCCAATACTAAATTTCAGCCAGGGATAAAAATGCAGGGTGTAAATTAGCGCT -ATCAACAACAAAATGATACTGATTGCCCATGCGAGCTTTGCCCGGAACAGTAAGCCAATGGAGTTCAGGACAAGA -AAGACGCCGAGCATAAAGAGTGGGGCGTTTGCCAGCAAGGAGAGATCCAACTCTGAAAATGCTTTGATATGGAAA -ATATCAAGCAAATTGACCGACATACCATAGATTGTTTTAAAAATAAGCAATCCATTTAAAAAGACGGCCAGCGCG -AGAATGTCGTGCCGAAGGGTCACCCATAAATTTGTTGCTGTTTGTTTGAATGTAGCCCAGTGACTCACTGATACC -TCTGTAACCACAATTTTGTTTAATTATCTTAGCGTGCACATTTTCTGAACATACATGCAGCGCGTGAATGTGTTA -AACAATAGTAGATGACTTTATCCGCAGTAATCAAAGGATTTGAGCGAGCAACTGTACCTCAGGAAAGGTCATTTT -TCCTGAATATGCTCACATCATATAAAGAAATACAGATAAAGTTATTATCTGCTTGTGGTGGTGAATGCACTGACC -GGCTATAAGGAAAGGCCAAACAAGAACACGGTTGCAAAAACCGTGCCCTTAAATATTGAATCTCTATTCAGAACA -CTTTCTTAAATGGTTTCACTGAAACGTGTTCATAGACTCCTGCCGCTACGTACGGGTCAGCATCGGCCCAGGCCT -GAGCTGCTTCCAGCGATTCAAATTCAGCAATAACGGTTGAGCCAGTAAATCCCGCAGCCCCTGGATCGTTACTGT -CTACCGCTGGCATTGGACCAGCTGTCAACAAACGACCTTCATCATGCAGTAACTGTAAACGTGCTAAATGTGCCG -GACGAACGGAAAGGCGTTTTTCGAGGCTATCAGCTTTGTCTTGAGCGTAAATAACATACAACACGGGCACAACTC -CTTGTTCGGGAAAGTTGTAAAGTACGTTATTTGAAAGGGCGAAGATCTGCAACGGAAAGATGATGTCTTTGTTAA -GGCCATGCATAAAGTAAGGGTAATTACGCCAAAAATGACATTTTCACTGATCCTGATCGTCTTGCCTTATTGAAT -ATGATTGCTATTTGCATTTAAAATCGAGACCTGGTTTTTCTACTGAAATGATTATGACTTCAATGACCCTTGATT -TACCTCGCCGCTTCCCCTGGCCGACGTTACTTTCGGTCTGCATTCATGGTGCTGTTGTGGCGGGTCTGCTCTATA -CCTCGGTACATCAGGTTATTGAACTACCTGCGCCTGCGCAGCCGATTTCTGTCACGATGGTTACGCCTGCTGATC -TCGAACCGCCACAAGCCGTTCAGCCGCCACCGGAGCCGGTGGTAGAGCCAGAACCGGAACCTGAGCCGATCCCCG -AACCGCCAAAAGAAGCACCGGTGGTCATTGAAAAGCCGAAGCCGAAACCTAAGCCAAAACCGAAGCCGGTGAAAA -AGGTACAGGAGCAGCCAAAACGCGATGTCAAACCCGTAGAGTCGCGTCCGGCATCACCGTTTGAAAATACGGCAC -CGGCACGCCTGACATCAAGTACAGCAACGGCTGCAACCAGCAAGCCGGTTACCAGTGTGGCTTCAGGACCACGCG -CATTAAGCCGTAATCAGCCGCAGTATCCGGCACGAGCACAGGCATTGCGCATTGAAGGGCAGGTTAAAGTTAAAT -TTGACGTTACGCCGGATGGTCGCGTGGATAACGTACAAATCCTCTCAGCCAAGCCTGCGAACATGTTTGAGCGTG -AGGTGAAAAATGCGATGCGCAGATGGCGTTATGAGCCGGGTAAGCCAGGCAGTGGGATTGTGGTGAATATCCTGT -TTAAAATTAACGGCACCACCGAAATTCAGTAAGCAGAAAGTCAAAAGCCTCCGACCGGAGGCTTTTGACTATTAC -TCAACAGGTAAGGCGCGAGGTTTTCCTTCAGGATCAACCGCGACATACTTAAATAATGCTTCTGTCGCTTTATAG -CGTTGCCCAATTGGTTCAGACGCTACTTTTTTCACCCACACTTCAATATTAATGCTGACCGATGTCGTCCCTTTC -TGGACACAGCGTGCATAGCAGCACACCACATCGCCGACCGCAACCGGCCGTAAGAAAGTCATTCCTTCAACCCGC -ACAGTCACTACGCGACCGTGGGCAATTTCTTTTGCCAGAATAGCGCCGCCAATATCCATTTGTGACATTAACCAA -CCACCAAAGATGTCACCATTGGCATTGGTATCGGCGGGCATGGCTAAAGTACGTAAAACAAGATCGCCCTGAGGG -ACGTTATGTGTTGTAGACATGGTAAAACCGACTTAAAAGGAAAATCACAGGCGCGATGCTACTATGATTTTCCTG -AGGAGAACAGAGGAGATACAGCGCCAGCCCCGAAGGACTGGCAGTCTGGTTAGGATTTATCTTCCTGCGGCATGT -GGCGGTAGATATAGATACCGCTTAACAATGTGAAGATTAAGGTAAGGGCGGTCAGGCCAAAGACTTTAAAGTTGA -CCCAAATATTTTGCGGCAGCCAGAATGCGATGTAGATGTTTGCCAGACCGCAAAGGATAAAGAAAACAGCCCAGG -CCAGATTCAGCTTCGACCATACCGGTTGCGGCAGCGTGAGTTCTTTACCCAGCATCCGCTGAATTAGCGGCTTTT -TCATCACCCATTGGCTGACTAACAGGGCTCCCGCAAATAGAGCATAAATGACAGTAACCTTCCATTTAATAAACT -CATCATTGTGGAAGAACAGCGTCAAGCCACCGAAGACGACCACCAGAACAAAAGTGATCAGGGCCATCTTCTCAA -CCTTACGAAAGCGAACCCAGCTATAGATAAGCACAATCGCCGTGGCGACGATCAGCGCCGCAGTAGCCGCATAGA -TGTCATAAATCTTGTAAAACGCGAAAAAGACAACCAGCGGTAAAAAATCAAGAAACTGCTTCATTTTACGATTCC -GTAATCAAATGCTTAAGGTTATTGGCGAATCAACATATACAGGCGGAACAGATAGATGAGCAATATGGCTGAAAT -CAGGTTGCTCAAGGTGTTCGCCAGTACGGCACCAATTTCCGGGGTTAATGCGGCAAAAGAAGAGGCAAAAAGCAG -CAACAGTGTTTTTGCCAGCAACCAGCTCAGTACTGCGGGTGCCACCAGACGCATATTCGCCCAAGTCAGCCGCAT -ACTGCTACGCATCGAGGCAAAAACGCCCATTTTGTCCTGTACCAACATCACCGGTGCCAGGGCCAGTAAAATGGC -CATGATAATTCCCGGAACGACCACCAGCATGATGCCAATCTGTACTAAAAGGGTAGTCAGAAAAATCAGAATAAA -TAACTTTGGCAATATCGGCGCACTGGCACCAATAGCTCGCAGCGCACTGACTCTCTGACCCGCAGACACCAGCTG -GATAATTAATATTACGCCTCCGGCGAGAATGGCGTTACCGATTAATCCTGAAAAAGTGGACGCCGCTGAAGCCTG -CAGCAAAATTTGTTGCTGTTCCGGTGACATATTCTGAACCAGGTCGAACAACCCACTACTGCCGCTAACGGGCAC -GCCGTCATTGAGCTGCGCAAGCTGTGCATCACTGGGTGAGAAAACATGCCCTAACACCACTGTGATAAACGCACA -TAGCAACGATACCAACAGAATGGTCATAAATTGATTACGGAAGAAATTTCCGGTGTCACGGTATACGGACTGCGC -CGTGATAGACATGCACTCTCCTTGAGTTTTATGCAGGTGTTAATTAGCGGGCAATTGTACCCTGGTTAAGCCTCG -GGTGGCAGCATCAGGTCTTGTATGGAAAAGCATATCTTTGTAAAGCGGAGGTAATTGCTGGCCTTCAGGCATGGG -CAAATCGCGGCAAGTGGCGACCGAGTTAATATTTGCGTAGCGAAAATATTTAAAAATTGATTTAAATCACATTAA -CCAGGATTCTCAATGCAACTTCTAAATTAATCCAGATCAATAAAGGGTGAATTATCATATGTAATGTGATCTATG -TAGGATCATTTGTTACTCCAATGTAGGTATATTCGTCACGTTTTTATAACCATAACGACGGAGCGGATATGAAAA -AGTTAACAGTGGCGGCTTTGGCAGTAACAACTCTTCTCTCTGGCAGTGCCTTTGCGCATGAAGCAGGCGAATTTT -TTATGCGTGCAGGTTCTGCAACCGTACGTCCAACAGAAGGTGCTGGTGGTACGTTAGGAAGTCTGGGTGGATTCA -GCGTGACCAATAACACGCAACTGGGCCTTACGTTTACTTATATGGCGACCGACAACATTGGTGTGGAATTACTGG -CAGCGACGCCGTTCCGCCATAAAATCGGCACCCGGGCGACCGGCGATATTGCAACCGTTCATCATCTGCCACCAA -CACTGATGGCGCAGTGGTATTTTGGTGATGCCAGCAGCAAATTCCGTCCTTACGTTGGGGCAGGTATTAACTACA -CCACCTTCTTTGATAATGGATTTAACGATCATGGCAAAGAGGCAGGGCTTTCCGATCTCAGTCTGAAAGATTCCT -GGGGAGCTGCCGGGCAGGTGGGGGTTGATTATCTGATTAACCGTGACTGGTTGGTTAACATGTCAGTGTGGTACA -TGGATATCGATACCACCGCCAATTATAAGCTGGGCGGTGCACAGCAACACGATAGCGTACGCCTCGATCCGTGGG -TGTTTATGTTCTCAGCAGGATATCGTTTTTAATTCCGCACAAAAACGACCCCGTAATATACGGGGTCAATAAGGA -CATGGTATAAAGGGTATTATTTCTTCGCTTCTACGCCATCAGTTTCAGAGCGAATTAAAAATTTCTCAGTTGTTT -GCGGAATATTCTGAATCAGCCAGTCGGCCATTTGCTTTTCCTCATTTAAAATCGCTTCGATGGTTGGAATTGAAG -CTGTATCACCGGCATTTTTTGCTGCTGCTAATAGTGAGGTGTAACAGGCGATTTCAAATTGCTCGAAGACATATC -CGCTAATAGAGCCTTTGACTATTTCATCAGAAGGGAATATACCACCGATTGACTGCCCAAGCGCAGCCATTTTAC -TCATGGAATCTTTAATGACTGAACGTGAAATGTCATTACGATCAAGAATAGTTTCCAGTTGAACAATCTGGTTTT -TGGTTTCACTAAGATGTTGTTCAATACGAGCGCGTAGTTCAGGATAATTATCTATACGGCTGGCCATGGATTCAA -GCATAGATTCGGCTTGCTTTTCCATTGCGTGGGCGTCACGTAACCAGTCATGATAATGTTCAATACGATTCATGA -AAATGTCCTCTTTATAAAATGACTAAAAGTTAAAATTCATATTTCAGGCTTTATTTTCGGCTTTCTTATTTACGT -TATTAATGGCCAGATCAGTCAGTTTGATGTCGGTGGCCTTTTCTTCTTCCAGGGTTTCTTTCAGAAGCTTCGCTG -CTTTACGGTAACCTAATTGTTCAGCCAGCGTCGCTAATGTCCCGTAACTGGCAATCTCATAATGCTCGACTTTCT -GTGCTGCGGCAATCAGTGCGGCATCACGCACTTCGTTTTTCTCGGTACTTTCGATGACCTCATTAGCTTCTTCAA -TAAGACCTTCCATTGCCACACATTTCATGCGCTTAATTTTCAGGTTCGATTCGGACTCCACAACTTGATCAATAC -GTTCAATCTGTCCATGAGTTTCCTCGAGGTGCGCATGAAAAGCCTGACTTAATTTTTCATTTGATGTTGCTCTTG -CGAGTTTTGCCAGTGCCCGGGTTAATTGTTTTTCTGCGCTGTAGGTATCTGAAAGCAGGTGAATAAATACATCTT -CAATGGTCTTCATATTCATATTTTTCTCCAGTGAAATCACTGCGAGCCATACGGCCCGCAGATGCAATTATCTTT -ATCAGCTGATATTAATAATTAACGGTGAATCAGGATTTGCCTGATTTATTACCACCGCTTTGTTGACCGCCTTTT -TTACCCGCTTCAGATGCGCGTTGCGGATCATTTTTAAAATTACCGCCGCTATGCTGACCGCCTTTACGGCCTGCG -TCGGATGCCTTCTCACGGTCTTCGGCGAAATTTCCTGAACCACCACGATGTTCGGCCATGTTATTTCTCCCGTTG -CGTTGCATTGTTTCATTAATATGAGTGTTGTGTGTCGACACTCATTAAAATTAGTCGCTAATGAGAATTAGTCAA -ATTAAGCGCAACGAGAAGATAGAGGGAAAATATATTTTGAGGAACATTCTGGATATATTAACAATTACCTGAGGA -ATAAGTGACTTAGAGAAAATTATTGATTTTACTGGTGTTATGTTGCGGGATTAATTTGTTTGATTATATTACTGT -TGGGCGGAAAAATGACGTAAGTTGACGTTCGACCGGGGTAAGCGAAACGGTAAAAAGATAAATATTAAATGAATT -TAGGATTTTTCCGGCTTCATTAAAGAAAGTTAAAATGCCGCCAGCGGAACTGGCGGCTGTGGGATTAACTGCGCG -TCGCCGCTTTCATCGGTTGTACAAAAACTTTCAGTGCCGCCAGCATTTTCTCTGGCTCATTAATATGTTGCTCGA -TGATTTTAACAATGGCCGAACCAGAAATCGCGCCCGCAGCTCCTGCATCAATCGCTGCTTTTACCTGATCCGGGG -CGGAAATACCAAATCCCTGCAATGGAGGTGCAGCGTTGTACTCTTTCAGCTTCGCAACCAGATGATTGAGGGGTA -ACGCGGCGCGGTTTTCTGCGCCGGTCACGCCTGCTCGTGACAGCAAATAGGTGTAACCACGACCGTAAGAGGCTA -TCTGGCGCAGCAGGTCGTCATCGGCATTTGGCGGGCAGATGAAGATAGGTGCGACATTATGACGCAACGCGGCCT -GGCGGAAGGGCGCGGACTCTTCAACTGGCACATCGGCAACCAGCACCGAATCGACGCCGACTTTTTCGCACTGGG -CATAAAACTCATCAATGCCTTTGTTAAACACCAGATTGGCATACATCAACAGGCCAATGGGAATGGTCGGGTGTT -TCTGGCGAATCAGTGCCAGCATTTCAAAACATTGTGCCGGAGTCACACCTGCCGCAAAGGCGCGCAGAGTGGCGT -TTTGAATCGTCGGGCCATCCGCCAGTGGGTCGGAGAAGGGGATACCTAACTCCAGCGCGTCAGCACCGGCTTCAA -TTAGCGTATCGATAATTTTCAATGACTGCTCAATGCCCGGATCACCGAGCGTGACGAAAGGAACGAATGCGCCTT -CTTTGCGCTCCTTCAACTGGGCAAACAGAGATTCGTAGCGTTCCATCAGATTTCCCCTCGTGCTTTCAAAATATC -GTGAACGGTGAAGATGTCTTTATCGCCGCGACCGGAAAGGTTAACCACCAGTAGCTGCTCTTTATCCGGGTTTTC -GCGCATCATTTTCAACGCATGGGCCAGGGCGTGGGAGGATTCCAGCGCCGGGATGATCCCTTCGTGCAGGCACAG -CGTTTTGAAGGCTTCAAGGGCTTCATCATCGGTAATAGACACGTAATCAGCGCGTCCAGTGCTGTTAAGATACGC -GTGTTGTGGGCCGACAGACGGGAAATCCAGTCCGGCGGAGATGGAGTAAGATTCTTCAATCTGCCCGTCTTCGGT -TTGCATCATCGGCGCTTTCATACCGAAATAGATACCCACGCGACCATGTTTTAGCGGTGCGCCGTGCTCGCCAGT -TTCGATACCGTGACCACCTGGCTCCACACCAATCAGGCCGACGTTGGTTTCATTGATGAAATCAGCAAACATGCC -GATGGCATTCGAACCGCCGCCAACACAGGCGATAACGGCATCCGGCAGGCGACCTTCTCTTTCCAGAATCTGCGC -TTTGGTTTCTTCGCCAATCATCCGCTGAAACTCACGCACAATGGTCGGATAAGGATGCGGGCCAGCTGCGGTGCC -CAGCATATAGTGCGCGGTTTCGTAACTACCGGACCAGTCGCGCAGCGCCTCGTTACAGGCATCTTTCAGCGTCGC -GGAACCGCTATGCACCGGGATCACTTCCGCACCCATTAAGCGCATACGAAAAACGTTAGGCGACTGGCGTTCAAC -GTCTTTGGCACCCATATAAATACGGCATTTCAGGCCGAGCAGGGCGCTGGCAAGGGCCGACGCCACGCCATGCTG -ACCGGCACCGGTTTCGGCGATGATTTCGGTTTTACCCATCCGCTTCGCCAGCAACGCCTGCCCCAGCACCTGGTT -AGTTTTATGCGCGCCGCCGTGCAGCAAATCTTCACGCTTGAGATACAGCGTGGTGTTCGTCCCGGCTGTAATGTT -CTGGCATTTGGTCAGCGCGGTTGGACGCCCGGCATAGTTTTTCAGCAGGTCGTTGAACTGAGCCTGAAATTCAGG -ATCTTTTTGCGCACTGACAAAAGCTTCTTCCAGCTGGCGCAGAGCAGGCATCAGGATTTGTGGCACGTACATGCC -GCCAAACTCACCAAAATAGGGGTTAAGTAATGTTGTCATTGTTCCTTTCCTTAATATGCGCGCAGCGTCTGGAAA -ACCGAGGCCAAAAGACGTGCGTCTTTGATGCCCGGTTGCGACTCTACAGCAGAATTAAAATCAAGTCCGGCGCAG -CCGGTTTGTGCCGCTTCCACGCAGTTATCTGCGCCTAAGCCCCCCGCCAGCAGAACGTTGCCAAGCGATTGACCA -TTTAATAGTGACCAGTCAAAACGTTGCCCGCTTCCACCCTGGCCGTTGTCTAAAACATATTTATCAACGTGCTGA -AACTCGCGGGCGGGCAGGGTTTCACCGACGCTTAATGCTTTCCAGATGGCAACATGTGCTGGCAGAGCTTCACGC -AGCGTATCGATATACAGCTGTTCTTCATTACCATGCAGTTGCACTGCCGCCAGCGATAACACCTTAGCTTTGTCC -ACCACATCGGCAATATCGTGATTGCGGAACACGCCAACATACTGCAACGGTGCCGCAGCCATCACTTCCTGCGCC -TGTTCAACGTTGACGCAACGCGGTGATGTCGCAACAAAAATCAACCCACCGTAAATCGCGCCCGCGTCATAAGCT -GCTTTAGCATCTTGCCCACGCGTCAGGCCACATACTTTATTCTCACCCAGCAACACCCGGCGCACGGCGGCGTGC -AAATCGTCATGGGCCATCAACGCCGAACCAATCAGAAAACCGTTAGCGAAGTGGCTTAACTCGCGCACCTGAGCG -TAAGTATTGATGCCGGATTCGCTGATTACCGTCACGTTGTGCCCCAGTTTCGGCGCAAGCTCGCGGGTACGGTTG -AGATCAATCGACAAATCACGCAGATCGCGGTTGTTGATGCCAACGACCTTTGCTCCCAATGCAATGGCGCGCTCC -TGTTCCTCTTCATTACTGACTTCGGTCAGCACCCCCATCTCCAGACTGTGAGCGACGGCGGCAAGCTGGCGATAT -TGGTCGTCATCCAGTACTGAAAGCATTAATAAGCAGGCATCGGCCTGGTAATAGCGCGCCAGATAGATCTGGTAA -GGGTCGATAATGAAGTCTTTACATAAAATCGGCTGCGGGGCGATTTGGCTGACGATGGGGAGGAAATTAAAGCTC -CCCTGAAAATATTTCTCATCAGTCAGCACCGAAATTGCCGAAGCGTAATGTTTATAAATGGCGGCAATGCGTGCT -GGATCGAAATCATCACGGATCACGCCTTTTGACGGCGACGCTTTCTTGCACTCCAGAATAAACGCCGTGCGCGCA -CCCTGTAGCGCATCATAAAAATGTCGCGTGCTCGGCTGAACCTCATTCTGAAAACTGGCCAGCGGTTGCTGCTGT -TTGCGGGCTTCTACCCAAATCGCCTTGTCTGCGACGATTTTCGCTAAAACGGTTTGCATCATTTACCCTCGTGCC -GCCAGTGCGGTGACTCTGTCGTAAGCGGAACCACTGCGCAGTACCTCAAGAACGGTTTGCGCATTGGCTTGCAGA -TCTTCATGGCCATGCAGGCGCATTAACATGGCGACGTTCGCAGCGACGGCTGCTTCATGGGCGGCGTCGCCTTTA -CCTTGTAACAAACGTGTTAAAATGTCACGGTTTTCTTCCGGTGTTCCGCCTGCCAGTTGCTCCTGGTGGTAGGGT -GTCAGGCCAAAGTCTTCTGCGGTGAGCTGATAGCTTTTAATTTCGCCGTCATGCAGTTCGGCAACGATTGTCGGC -GCGTGTAATGAAACTTCATCCATCCCGCCGCTGTGCACCACCGCCGCGCGTTGATACCCCAGCACGCGCAAGGTT -TCGGCAATCGGCAGCACCAGTTCCGGACTATAAACACCAATTAACGCCAGCGGCGGATGCGCCGGGTTAATCAAT -GGCCCCAGCACATTGAACAGGGTGCGGGTTTTCAGTTGCTGGCGAACCGGCATCGCGTGGCGGAATCCGGTGTGA -TACTTCGGCGCAAAGAGGAAACATACACCTAACTCATCCAGCGCCTGGCGCGATTTATCGGCGTTCATATCAAGA -TTAATACCGAACGCCGCCAGCAGATCGGACGAACCAGATTTACTGGAGACGCTACGGTTGCCGTGTTTCGCCACT -TTCAGCCCACAGGCCGCGGCGACAAACGCACTGGCGGTAGAAATATTGATACTGTTGCTGCCGTCACCGCCAGTA -CCGACGATATCAGCAAACAGATAATCCGGGCGCGGGAACGGCGCTGCGTTTTCCAGTAGCGCGGTTGCTGCCCCG -GCGATCTCGTTCGGGTGCTCACCGCGAATTTTCATGCTCACCAGCGCCGCCGCCAGTTGTTCCGGCTTCAGCTCG -CCACGCACCACCGCTGAAAACAGCTGGTGGCTTTCTTGTTGGCTAAGCGTCTGCGCCTGATACAGTTTTTCCAGA -ATCGGTTGCAGCGTGTTGGCTGGCTCTAGTTTCTGCTGCGCCCAGGCCAGCGTTTGTTCCAGCAGGCGAGCGCCC -TGGGTGGTGAGAATGGATTCCGGATGGAACTGGAATCCACAAACGCGATCCGCATCGTGACGTACTGCCATCACC -ATGCCATTAAAATGGGCGTTGATGGTTAAACCGGCCGGAATGTTACTGCCAACCAGCGAGTGATAACGCGCCACC -GGCAGCGGGTTTGTTAATCCGGCAAACATCGCCTGACCGTCATGTTCAATGCTGGAGGCTTTACCGTGGAGAATT -TCGCCCGCCTGACCGACATAGCCCCCGTAAGCTTCGACAATCGCCTGATGTCCGAGGCAAATGCCAATAATGGGC -AGCTTGCCACGCAAGCGGGTGAGGAGTTCCGGCATACAACCGGCTTCGCTCGGCACACCGGGGCCAGGAGAAAGC -ATCAGCACCGGATTGCTCATGGTCGCCAGGCGTTCAATTAAGGTTTGCGCCGGAATATGGTTGCGGTAAATCACC -ACGTTATGCCCATTGCTGCGCAACTGATCTGCCAGGTTGTACGTAAAAGAGTCGATATTATCGAGCAGCAGAATG -TCAGCCATCAGAAAGTCTCCTGTGCATGATGCGCGGTGGCAATAGCGCGCAGTACAGCGCGGGCTTTGTTACGGG -TTTCGTCGGCTTCCGACTGCGGAACAGAATCAAGGACTACACCAGCACCCGCTTGCACGGTGGCGATACCGTTTT -CCACCAGCGCCGAGCGGATCACAATGCAGGTGTCGAGATCGCCATGCGCGGTGAAATAACCTACCGCGCCGCCGT -AGCTGCCGCGGCGACGACCTTCCGCCTCGGCAATTAACTGCATAGCGCGTACTTTCGGCGCACCGCTTAACGTCC -CCATATTCATACAGGCGCGATAAGCGTGCAGGGCGTCAAGATCGTGACGCAGTTCGCCGACTACGCGAGAGACGA -GGTGCATCACATAGGAATAACGGTCAACTTTGGTGAGATCGGCGACGTAGCGGCTGCCGGGGGTGCAAATGCGTG -CCAGATCATTACGGGCGAGATCAACCAGCATCAGATGTTCAGACAGCTCTTTATGATCGGTACGCATTTCCAGTT -CAATACGGCTGTCGAGATCTCTGTCCAGTGAACCATCGGCGCGACGACCGCGTGGGCGTGTTCCGGCAATCGGGT -AGATCTCAATCTGGCGGCTGGTGGCATCATACTTGAGCGAGCTTTCCGGCGACGCGCCAAATAGGGTGAAATCAT -TATCCTGCATAAAAAACATGTACGGGCTGGGATTACTCTTTTTCAGCACGTAATAGGCCGCCAGCGGTGACGGGC -AGGGCAGAGAGAAACGGCGAGATGGCACCACCTGGAAAATTTCTCCAGCGCGAATCGCTTTTTGCAACAAACGCA -CTACGCCACCGAACTCTTCATCGCTCTGATTACATTCACAACGCATATGCGGCACGGAAACCACTGGCAGCGGCG -GCGCGGCTTCGGTCAGTTGCTGACGTAGTTCGTTCAGGCGAGCAGTGAGACGTTGTTTTTCTTCTTCATTCGGAG -CAAACAGGCTGGCCTGAATACGGGTGCTTTTTTTCTGATGGTCAATCACCATCAGCGTTTCAGCGAGATAAAAAC -AGAAATCAGGGCAGTTATTTTCCGCTGACAGTTGCGGTAAATCTTCAAATCCCGCCACAAGGTCATAAGAGAACA -GGCCGCCGAAGAACATGGCTTCTCGTTCTTCCTTCGGTACATTCAACAGATTCTGCAATAAACGGAAAGCGTCAA -AAACCGAAAGGGAGCATAAGCGGGCGTCTTCATCCAGCAGTGGACTGACAGGGGGGAAGCGCAGCACACGGCAGT -TTGGTGATTGTTCACTTTCCACACCCGCAGGCAGGGCGTTATCCAGTAGTGCCAGGAGGGCTTCGCCGTTGCCGG -AAAGTGCCTGGATTGTGACAGTGTCACCTAAAGCTGTAATGCGCAGCGCACTGTCTACCAGCAGCAGGCTTTTTA -AATCATCTTTGCTGTCGATATCTGCGGATTCCAGCAGCAGCGTTGCCGGACGATCCCCACACAACTGGTGAAAAA -GCGCGGTGGGATTGTCGCGATAAGCGCCTTCGCAGGTTAGCAGTTCGAGAGTCGGTTTTTGTGTTTGCATTGTTA -TTCTCTAATTTTGTTCAAAAAAAAGCCCGCTCATTAGGCGGGCTGGGTATCTGATTGCTTTACGCATGGTGAATA -CACTGCCCGTTTCAGGAAGTGCGCCACCAACCTTTCAGTACGAAAATTGCTTTCATTGTCGATACCCTTTTTACG -TGAACTTGCGTACTAGTTAACTAGTTCGATGATTAATTGTCAACAGCTCATTTCAGAATATTTGCCAGAACCGTT -ATGATGTCGGCGCAAAAAACATTATCCAGAACGGGAGTGCGCCTTGAGCGACACGAATTATGCAGTGATTTACGA -CCTGCACAGCCATACCACAGCTTCCGATGGCTGCCTGACGCCAGAAGCATTGGTGCACCGTGCAGTCGAGATGCG -CGTCGGCACCCTGGCGATCACCGACCATGACACCACAGCTGCAATCGCGCCAGCAAGAGAGGAAATTTCACGTTC -GGGACTGGCGTTGAATCTTATTCCCGGCGTGGAAATTTCCACGGTCTGGGAAAATCATGAAATTCATATTGTCGG -GCTGAATATTGATATTACTCATCCGCTAATGTGTGAGTTCCTCGCGCAGCAGACAGAACGGCGCAATCAGCGGGC -GCAGCTGATTGCCGAAAGACTTGAAAAAGCGCAAATACCTGGGGCGCTGGAAGGCGCACAACGACTGGCGCAGGG -CGGCGCAGTGACGCGCGGTCATTTTGCGCGTTTCCTTGTTGAGTGCGGCAAAGCCAGTTCAATGGCGGATGTCTT -TAAAAAGTATCTGGCGCGCGGGAAAACCGGATACGTTCCGCCACAGTGGTGTACAATAGAACAAGCTATTGATGT -CATTCATCATTCTGGCGGTAAGGCGGTGCTAGCTCATCCTGGGCGGTACAATCTTAGTGCTAAATGGCTGAAAAG -ATTGGTTGCGCATTTTGCCGAACACCACGGTGACGCGATGGAAGTCGCGCAGTGCCAGCAATCGCCCAATGAACG -TACCCAGCTGGCGGCCCTTGCGCGTCAGCATCATTTATGGGCATCACAAGGATCTGATTTTCATCAGCCATGCCC -GTGGATCGAACTGGGTCGTAAACTCTGGCTGCCCGCAGGCGTTGAAGGCGTCTGGCAGCTATGGGAACAGCCGCA -GAACACCACAGAGAGGGAATTATGAGCCAGTTTTTTTATATTCATCCTGATAACCCACAGCAACGTCTGATCAAC -CAGGCGGTGGAGATCGTGCGTAAAGGCGGGGTGATTGTTTATCCAACTGATTCCGGCTATGCGCTCGGCTGTAAA -ATTGAAGATAAAAACGCGATGGAGCGTATTTGTCGTATTCGCCAGCTGCCGGACGGTCACAACTTTACCCTGATG -TGTCGCGATCTTTCTGAACTCTCGACCTATTCATTTGTTGATAACGTTGCGTTTCGTTTAATGAAAAACAACACG -CCGGGCAACTATACCTTCATCCTGAAGGGGACGAAGGAAGTGCCACGCCGTCTGTTGCAGGAAAAACGCAAAACC -ATCGGTATGCGTGTGCCTTCTAACCCTATCGCTCAGGCGTTACTTGAAGCATTGGGCGAACCGATGCTTTCCACT -TCGCTAATGCTGCCAGGCAGCGAATTTACCGAATCGGACCCGGAAGAAATTAAAGATCGTCTGGAAAAACAGGTA -GATTTGATTATTCACGGCGGCTATCTCGGGCAGAAACCGACAACGGTTATTGATCTTACCGATGATACGCCGGTC -GTGGTGCGTGAAGGCGTAGGTGATGTGAAGCCTTTCTTATAACAAATTGCGTTCCACGGATGGAAGACTATGGCA -GGGAAGTTTCGCTGCATTTTGCTGTTGATAGCAGGGCTGTTTGTATCATCTCTAAGTTATGCAGAAAACACGGAG -ATCCCTTCTTATGAAGAAGGGATCTCGCTCTTTGATGTTGAAGCCACTCTGCAACCAGATGGGGTGCTCGACATC -AAAGAAAATATTCATTTTCAGGCGCGAAATCAGCAGATTAAGCACGGCTTTTATCGTGATTTACCACGACTATGG -ATGCAGCCTGATGGGGACGCTGCACTGCTGAACTATCATATTGTTGGCGTCACCCGTGATGGTATTCCTGAACCC -TGGCATCTTGACTGGCATATCGGGTTAATGAGTATTGTCGTGGGCGATAAACAACGTTTCTTGCCTCAAGGCGAC -TATCATTATCAAATTCATTATCAGGTTAAAAATGCTTTCCTGCGTGAGGGGGATTCTGATCTGCTAATCTGGAAC -GTGACCGGTAACCACTGGCCGTTTGAAATTTATAAGACCCGTTTTTCTCTCCAGTTCTCTAATATTGCGGGTAAT -CCATTTAGCGAAATCGATCTTTTTACCGGAGAAGAGGGCGACACATATCGTAATGGCCGCATCCTTGAGGACGGA -AGAATTGAATCCCGCGATCCGTTTTATCGTGAAGATTTCACGGTCCTCTACCGCTGGCCTCACGCTTTACTTAGC -AATGCCTCGGCTCCGCAAACGACGAATATTTTCAGCCATCTTCTTTTACCCTCCACGTCATCGTTGTTAATTTGG -TTTCCGTGTCTGTTCCTGGTTTGTGGATGGTTATATCTCTGGAAGCGCAGGCCGCAATTTACGCCGGTAGATGTG -ATTGAAACCGATGTCATTCCGCCAGATTACACGCCCGGCATGTTACGTCTCGATGCGAAGCTAGTTTACGACGAT -AAAGGTTTTTGTGCCGATATCGTAAATCTGATTGTGAAAGGAAAAATTCATCTGGAAGATCAGTCTGACAAGAAC -CAGCAAATCCTGATTCGTGTTAATGAAGGCGCGACCAGAAATAATGCGGTATTACTGCCCGCAGAGCAGTTATTA -CTGGAAGCGTTATTTCGTAAAGGCGATAAGGTCGTTCTTACGGGGAGACGCAACAGAGTCTTACGCAGGGCATTT -TTACGGATGCAGAAATTTTATCTGCCGCGTAAAAAGTCTTCGTTTTACCGGTCTGATACTTTTTTGCAATGGGGT -GGACTGGCAATATTGGCGGTCATTCTTTACGGTAACTTGAGTCCTGTAGGCTGGGCAGGAATGAGTCTGGTGGGC -GATATGTTTATTATGATCTGCTGGATTATTCCTTTTTTATTTTGTTCCCTTGAGCTTTTGTTTGCCCGCGATGAT -GACAAGCCTTGCGTTAATCGTGTAATCATCACTTTGTTTTTACCACTGATTTGTTCAGGCGTGGCCTTCTATTCT -CTCTACATCAATGTCGGAGATGTATTCTTTTACTGGTATATGCCAGCGGGTTATTTTACCGCTGTTTGCCTGACC -GGTTATCTCACTGGCATGGGGTATATTTTTCTGCCAAAGTTTACCCAAACTGGACAGCAACGTTATGCCCACGGT -GAAGCTATCGTTAACTATCTTGCGCGTAAAGAGGCAGCAACACACAGTGGACGTCGGCGGAAAGGGGAAACACGG -AAACTGGATTACGCGTTGCTAGGTTGGGCTATATCGGCAAATTTGGGGAGGGAATGGGCGTTACGCATTGCCCCT -TCGCTTTCTTCGGCGATTCGCGCTCCAGAGATTGCCCGTAACGGCGTTTTATTCTCATTACAGACGCACCTAAGT -TGCGGGGCCAATACCAGTTTGTTGGGGCGAAGTTATTCCGGTGGTGGTGCTGGCGGCGGCGCGGGTGGCGGAGGC -GGTGGTGGCTGGTAATTAAGCTGATGTTAATCGAAACAAGCTTTAACCATAAAGATAGTGTAGTATGTTGCGCCT -CAAAGCCAGGCCGATAAACGTCGAGTCGTTTACTTAAGGCCTGAAGAGTTCAAACAGACTTTACTATCAGTGAGT -CAGATGTAAGTTCTGACTCACTGTTGCACAAAAGCATATCAGACGCCTGGGAAGGCGACACCAAAAGGAAGCTCT -ATGAGCGAAAAGCTACAGAAAGTGCTGGCGCGTGCCGGCCACGGTTCTCGCCGTGAAATCGAATCTATTATTGAA -GCCGGTCGTGTGAGTGTTGATGGCAAAATTGCTAAACTCGGCGATCGTGTTGAAGTTACCCCTGGATTGAAAATC -CGTATCGATGGTCACCTGATTTCGGTACGTGAGTCCGCTGAACAAATTTGTCGCGTTCTGGCCTATTACAAACCG -GAAGGTGAGTTGTGTACCCGTAACGATCCGGAAGGACGTCCAACGGTGTTTGACCGTCTGCCAAAACTGCGTGGC -GCACGCTGGATTGCCGTGGGTCGCTTGGACGTTAATACCTGTGGTCTGCTGCTGTTCACCACCGATGGTGAACTG -GCAAACCGTTTAATGCACCCAAGCCGTGAAGTTGAACGTGAATATGCCGTGCGTGTATTTGGTCAGGTTGACGAC -GCGAAACTGCGTGATTTGAGTCGTGGCGTGCAGTTGGAAGATGGTCCGGCAGCTTTTAAAACCATCAAGTTCAGC -GGCGGCGAAGGGATCAACCAGTGGTACAACGTGACTCTGACCGAAGGCCGTAACCGTGAAGTTCGTCGTCTGTGG -GAAGCGGTTGGTGTGCAGGTGAGCCGCCTGATCCGTGTTCGTTACGGTGATATCCCACTGCCAAAAGGTCTGCCA -CGCGGTGGCTGGACGGAGCTGGACCTCGCCCAGACTAACTATCTGCGCGAACTGGTGGAGCTACCGCCAGAAACC -AGCTCTAAAGTCGCTGTAGAAAAAGACCGTCGTCGCATGAAGGCGAATCAGATTCGTCGTGCGGTGAAACGTCAC -AGTCAGGTGAGCGGCGGTCGTCGTTCTGGCGGACGTAATAATAACGGTTAATCAAAGTATGCCGGACGTCATATC -CGGCATTTTTACAGATTAATAATCGATCCCTATCTGCGCTTTTACACCGGCATCAAACGCATGTTTGACGGGGCG -TAATTCACTTACCGTATCTGCCAGTTCAAGAATATCCCGATGACAACCACGACCCGTGATAATCACCGTCTGTTG -ATGTGGACGTTCATTTAACGCCTGCACCACTTCTTCCAGTGGCAAATAGTCATACGCCACCATATACGTCAGTTC -ATCAAGCAAAACCATATCCAGTGAGGAATCAGCAAGCATCCGCTTTGCATGTTGCCAGACTTCGCGGCAGGCGGC -GGTATCAGACTCGCGGTTTTGTGTATCCCAGGTAAAGCCCGTTGCCATCACCTGAAACTCAACGCCATGTGGCTC -CAGCAGATTGCGTTCGCCATTAGGCCAGGTGCCTTTAATAAACTGCACGACGCCTACTTTTTTTCCGTGACCAAC -TGCGCGTGTTGCCGTACCAAATGCCGCGGTGGTTTTGCCTTTTCCATTGCCGGTAAAGACGATGATAATACCGCG -TTCATCCTGGGCCTGGGCCACACGAGCATCTACTTTTTCTTTCACTCGCTGCTGACGCTGTTGGTAGCGTTCATC -ACTCATTGGGAAATTCCTGGTTTACGGCCCGGTTGGGCGTCAAAGGTCATGCCGGTTTTACGGCGGCTGTCATCG -CCCATCAGCCAGAGGTAGAGCGGCATGATATCAGCGGGTGTTTTAAGTTTCTGTGGATCTTCGGTCGGGAAGGCG -CTGGCACGCATTGCGGTGCGCGTACCGCCTGGGTTAATGCAGTTGACACGCAGGCGCTGCTGATATTCATCGGCC -AGTACCTGCATCATCCCTTCGGTGGCAAATTTCGACGCTGCATATGCACCCCAGTTGGCTCGTCCCTGACGTCCA -ACGCTTGATGAAGTAAAGACCAGTGAACCGGCGTCCGATTTGAGTAATAAAGGAAGCAGTGCCTGGGTGAGCATA -AAGGTGGCATTAACGTTGACCTGCATGACGTCCTGCCAGACCTGCGGATTTTGTTCGCTCATTGGGCAAACATCG -CCGAGCAATCCGGCATTATGCAAAACACCATCCAGACGCGGATAATTAACGGCAATGCGCTGTGCCAGTTGTTGG -CAATTTTCGGACGTGCAGGTCAGCAAATCGAGAATAAACCACTGTGGCTGACGCCCAGTTTCTTCGTTTATGTGG -CTGGCTACCTGACGTAATTTTTCTTCATTACGGCCCAACAGAATCACTGTCGCACCATAGCGTGCATACGTCATC -GCGGCTTCACGACCAATACCATCGCTGGCTCCCGTCACCAGGATAATGCGATCATTGAGTAAATCTTGTTTTGGC -TGGTAATGCATGGCTACTCCTCAACGACGTTGTCTGTCGCGCTGCCAGTGTACTTTATGACTTTGGGGCTTTATG -CCTGAAACAGAAGGGCATTTCAATCAGCCTGGGGCGATAACACCGCAAAATGGATACTTTGTCATACTTTCGCTG -CAATAACATCTCTGCGAGACGGCTTAACATGCCTGTTGTAAACTGTGAGCCAAAGCGTTGTTTAACCAAGGTGGG -GACTCGTGGAATTGTTGTCTGAATATGGTTTGTTTTTGGCGAAAATCGTTACCGTTGTGCTAGCGATTGCGGCGA -TTGCCGCCATTATTGTCAATGTTGCTCAACGTAATAAACGCCAGCGTGGCGAGTTACGGGTCAACAATCTCAGCG -AACAGTATAAGGAGATGAAAGAAGAACTGGCCGCGGCGCTGATGGACTCACATCAGCAAAAACAGTGGCACAAAG -CGCAGAAGAAAAAGCATAAGCAAGAAGCGAAAGCAGCAAAAGCGAAAGCCAAACTGGGCGAGGTGGCAACTGACA -GTAAACCCCGCGTCTGGGTGCTGGATTTTAAAGGCAGCATGGACGCCCATGAAGTGAACTCGCTACGTGAAGAGA -TAACGGCTGTACTCGCAGCATTCAAACCGCAGGATCAGGTTGTGCTCCGTCTGGAAAGCCCTGGTGGCATGGTGC -ATGGTTACGGGCTGGCGGCTTCGCAACTGCAGCGTCTGCGCGATAAAAACATTCCTTTAACTGTTACGGTAGACA -AAGTCGCTGCCAGCGGCGGTTACATGATGGCCTGTGTGGCGGACAAAATTGTTTCCGCACCGTTTGCTATTGTGG -GTTCCATTGGCGTGGTGGCGCAAATGCCCAACTTTAACCGCTTCCTGAAAAGCAAAGATATTGATATCGAACTGC -ACACTGCCGGGCAGTATAAGCGCACGCTGACGTTGCTGGGTGAAAATACCGAAGAAGGGCGGGAGAAATTCCGCG -AAGAGTTGAACGAAACGCATCAGTTGTTTAAAGATTTTGTGAAGCGTATGCGTCCTTCTCTGGATATTGAACAGG -TGGCAACGGGTGAACACTGGTACGGACAACAGGCGGTAGAGAAAGGCCTGGTTGATGAAATCAACACCAGTGATG -AAGTTATTCTTAGCCTGATGGAAGGCCGTGAAGTGGTCAATGTACGCTATATGCAGCGTAAACGACTCATTGACC -GATTCACCGGCAGCGCGGCAGAGAGCGCCGATCGATTGTTGCTACGCTGGTGGCAGCGGGGTCAAAAGCCATTGA -TGTAAAAGACAAACGCGAGGCTAAGACCTCGCGTTTTGCTTTAATCAACCAGATGATATTTTTCTGAAAGCACAT -GGGCCAGGTGTTTGAACATATTAAACACCGCGGTGCTTTTGGCTGTTGGCAATCCTTGTTCATCTAAAAAGTAGT -CGCCGGTAAATACCAGCACGCCATTACGCTGCGTGACGCCGGTGGCTTCAATCCCTGCGAGCGTATCCTCATGCT -CACGAATGATTTTGTTGGCCTCTTTCAACAGCGTTTCGCGGTCGATGGGTTGTGTCTCTTTGTTCATTATTTACT -CCTTAAACAAGGACATTAGTCTACGCCAGGCATGGCTTGCAGACAAATATACCACGCTGGTGGCAAGAGCGCCTT -ACTGGCAACTTTGGATTTTGCATGCTAATAAAGTTGCGTATCGGATTTTATCAGGTACAGTGTGACGCTTTCGTC -AATCTGGCAATAGATTTGCTTGACATTCGACCAAAATTCCGTCGTGCTATAGCGCCTGTAGGCCAAGACCTGTTA -ACTCAGTCACCTGAATTTTCGTGAACAGAGTCACGACAAGGGGTTGATATCCGCAGAGAGCGAGTCCATATCGGT -AACTCGTTGCCAGTGGAAGGTTTATCAACGTGCGACGCATTCCTGGAAGAATCAAATTAGGTAAGGTGAATATGG -GTAAAGCTCTTGTCATCGTTGAGTCCCCGGCAAAAGCCAAAACGATCAACAAGTATCTGGGTAGTGACTACGTGG -TGAAATCCAGCGTCGGTCACATCCGCGATTTGCCGACCAGTGGCTCAGCTGCCAAAAAGAGTGCCGACTCTACCT -CCACCAAGACGGCTAAAAAGCCTAAAAAGGATGAACGTGGCGCTCTCGTCAACCGTATGGGGGTTGACCCGTGGC -ACAATTGGGAGGCGCACTATGAAGTGTTGCCTGGTAAAGAGAAGGTCGTCTCTGAACTGAAACAACTGGCTGAAA -AAGCCGACCACATCTATCTCGCAACCGACCTTGACCGCGAAGGGGAAGCCATTGCATGGCACCTGCGGGAAGTGA -TTGGGGGTGATGATGCGCGCTATAGCCGAGTGGTGTTTAACGAAATTACTAAAAACGCGATCCGCCAGGCATTTA -ACAAACCGGGTGAGCTGAATATTGATCGTGTTAATGCCCAGCAGGCGCGTCGCTTTATGGACCGCGTGGTGGGGT -ATATGGTTTCGCCGCTGCTATGGAAAAAGATCGCTCGTGGCCTGTCTGCCGGTCGTGTGCAGTCGGTGGCGGTTC -GCCTGGTGGTCGAGCGTGAGCGTGAAATTAAAGCGTTCGTGCCGGAAGAGTTCTGGGAAGTCGATGCCAGCACGA -CCACGCCATCTGGTGAAGCGTTGGCGTTACAGGTGACTCATCAGAACGACAAACCGTTCCGTCCGGTCAACAAAG -AACAAACTCAGGCTGCGGTAAGTCTGCTGGAAAAAGCGCGCTACAGCGTGCTGGAACGTGAAGACAAACCGACAA -CCAGTAAACCTGGCGCTCCTTTTATTACCTCTACGCTGCAACAAGCTGCCAGCACCCGTCTTGGATTTGGCGTGA -AAAAAACCATGATGATGGCGCAGCGTTTGTATGAAGCAGGCTATATCACTTACATGCGTACCGACTCCACTAACC -TGAGTCAGGACGCGGTAAATATGGTTCGCGGTTATATCAGCGATAATTTTGGTAAGAAATATCTGCCGGAAAGTC -CGAATCAGTACGCCAGCAAAGAAAACTCACAGGAAGCGCACGAAGCGATTCGTCCTTCTGACGTCAATGTGATGG -CGGAATCGCTGAAGGATATGGAAGCAGATGCGCAGAAACTGTACCAGTTAATCTGGCGTCAGTTCGTTGCCTGCC -AGATGACCCCAGCGAAATATGACTCCACGACGCTGACCGTTGGTGCGGGCGATTTCCGCCTGAAAGCACGCGGTC -GTATTTTGCGTTTTGATGGCTGGACAAAAGTGATGCCTGCGTTGCGTAAAGGCGATGAAGATCGCATCTTACCAG -CAGTTAATAAAGGCGATGCTCTGACGCTCGTTGAACTTACACCAGCCCAGCACTTTACCAAGCCGCCAGCCCGTT -TCAGTGAAGCATCGCTGGTTAAAGAGCTGGAAAAACGCGGTATCGGTCGTCCGTCTACCTATGCGTCGATCATTT -CGACCATTCAGGATCGTGGCTACGTGCGAGTAGAAAATCGTCGTTTCTATGCGGAAAAAATGGGCGAAATCGTCA -CCGATCGCCTTGAAGAAAATTTCCGCGAGTTAATGAACTACGACTTTACCGCGCAGATGGAAAACAGCCTCGACC -AGGTGGCAAATCACGAAGCAGAGTGGAAAGCTGTACTGGATCACTTCTTCTCGGATTTCACCCAGCAGTTAGATA -AAGCTGAAAAAGATCCGGAAGAGGGTGGTATGCGCCCGAACCAGATGGTTCTGACCAGCATTGACTGCCCGACTT -GTGGTCGCAAAATGGGGATTCGCACAGCGAGCACCGGGGTATTCCTTGGCTGTTCTGGCTATGCGCTGCCGCCGA -AAGAGCGTTGCAAAACCACCATTAACCTGGTGCCGGAAAACGAAGTGCTGAACGTGCTGGAAGGCGAAGATGCTG -AAACCAACGCGCTGCGCGCAAAACGTCGTTGCCCGAAATGCGGCACGGCGATGGACAGCTATCTCATCGATCCGA -AACGTAAGTTGCATGTCTGTGGTAATAACCCAACCTGCGACGGTTACGAGATCGAAGAGGGCGAATTCCGCATTA -AAGGTTATGACGGCCCGATCGTTGAGTGTGAAAAATGTGGCTCTGAAATGCACCTGAAAATGGGGCGTTTCGGTA -AATACATGGCCTGCACCAACGAAGAGTGTAAAAACACACGTAAGATTTTACGTAACGGCGAAGTGGCACCACCGA -AAGAAGATCCGGTGCCATTACCTGAGCTGCCGTGCGAAAAATCAGATGCTTATTTCGTGCTGCGTGACGGTGCTG -CCGGTGTGTTCCTGGCTGCCAACACTTTCCCGAAATCGCGTGAAACGCGTGCGCCACTGGTGGAAGAGCTTTATC -GCTTCCGCGACCGTCTGCCGGAAAAACTGCGTTATCTGGCCGATGCGCCACAGCAGGATCCGGAAGGTAATAAGA -CCATGGTTCGCTTTAGCCGTAAAACCAAACAGCAATATGTCTCTTCGGAAAAAGACGGAAAGGCGACTGGCTGGT -CAGCATTTTATGTTGATGGCAAATGGGTTGAAGGAAAAAAATAACCTTTAATTCTGTCAGGTTTTTATAAACAAA -GGGTCGCGAAAGCGGCCCTTTTTTATTGCATATTATTTTTTCTTCACACCTATACACTAAGGCTATAAATGATAT -AGTGGTTATAGTTAGCACCTTTTTTATTATTAAATCGTATTAGTCACCCGCCAGGTGTGACGAAAAAACGATGTT -CTGATGGCGTCTAAGTGGATGGTTTAACATGAAATTACAACAACTTCGCTATATTGTTGAGGTGGTCAATCATAA -CCTGAATGTCTCATCAACAGCGGAAGGACTTTACACATCACAACCCGGGATCAGTAAACAAGTCAGAATGCTGGA -AGACGAGCTAGGCATTCAAATTTTTTCCCGAAGCGGCAAGCACCTGACGCAGGTAACGCCAGCAGGGCAAGAAAT -AATTCGTATCGCTCGCGAAGTCCTGTCGAAAGTCGATGCCATAAAATCGGTTGCCGGAGAGCACACCTGGCCGGA -TAAAGGTTCACTGTATATCGCCACCACGCATACCCAGGCACGCTACGCATTACCAAACGTCATCAAAGGCTTTAT -TGAGCGTTATCCTCGCGTTTCTTTGCATATGCACCAGGGCTCGCCGACACAAATTGCTGATGCCGTCTCTAAAGG -CAATGCTGATTTCGCTATCGCCACAGAAGCGCTGCATCTGTATGAAGATTTAGTGATGTTACCGTGCTACCACTG -GAATCGGGCTATTGTAGTCACTCCGGATCACCCGCTGGCAGGCAAAAAAGCCATTACCATTGAAGAACTGGCGCA -ATATCCGTTGGTGACATATACCTTCGGCTTTACCGGACGTTCAGAACTGGATACTGCCTTTAATCGCGCAGGGTT -AACGCCGCGTATCGTTTTCACGGCAACGGATGCTGACGTCATTAAAACTTACGTCCGGTTAGGGCTGGGGGTAGG -GGTCATTGCCAGCATGGCGGTGGATCCGGTCGCCGATCCCGACCTTGTGCGTGTTGATGCTCACGATATCTTCAG -CCACAGTACAACCAAAATTGGTTTTCGCCGTAGTACTTTCTTGCGCAGTTATATGTATGATTTCATTCAGCGTTT -TGCACCGCATTTAACGCGTGATGTCGTTGATGCGGCTGTCGCATTGCGCTCTAATGAAGAAATTGAGGTCATGTT -TAAAGATATAAAACTGCCGGAAAAATAATTTCTTGCGTTATTTTCGGCACCTTTTATGTAGCGAAGGTGCCGGAA -TATATTCTCTTTTGTTACTTATTTCTATACCGTGCACAATATTTTTATCCCTCATATTTATAGGGTAAATTACCT -GTAAAGTAGTGTCTAATTACCCGCCTCGCAAACTCCAGTTTTCAAATATCTATTTCAGGTCAAAAGATTGAATTA -TTCACTGGAGACGATTCGTAAATTCGCTGGATTTTTGACTAAAGTTTCTTTAGGATTTGTCTCATCGTATGATTA -ATTACACCAATCGTTCAACGTCTTGCTGATAAGTGATGGCGATTATATGAGGTTAGCAATGCCTTCTGGAAATCA -GGAACCCCGCCGCGATCCTGAATTAAAACGTAAAGCCTGGCTGGCGGTTTTTCTTGGTTCTGCACTTTTCTGGGT -GGTTGTCGCACTGCTGATTTGGAAAGTGTGGGGATAACTATGGTCGGTCAGGAGCAACTGGAGTCGTCACCATTA -TGCCAGCATAGTGACAATGAAACAGAAACGAAACGGGAATGTTCCGTCGTTATTCCAGACGACTGGCAACTAACA -TCGCAGCAGCAAGCCTTTATAGAACTGTTTGCTGAAGATGATCAGCCGAAACAATAATTATCATCATTCTTATTA -CCCATTTTTAATGAATTAAAGGGCTTTTAATACACCGCAGCAATAACAGCTTGAGTTATCTCAACACAAAATAAT -AACCGTTAAGGGTGTAGCCTATGATCAACACAAATATGAAATATTGGTCCTGGATGGGCGCGTTTTCTCTGTCGA -TGCTCTTCTGGGCCGAACTCCTCTGGATCATTACTCACTGATCCTTGACCCCGCTGCGGCGGGGTTGTCATTTGC -TTTGCCACAAGGTTTCTCCTCTTTTATCAATTTGGGTTGTTATCAAATCGTTACGCGATGTTTGTGTTATCTTTA -ATATTCACCCTGAAGAGAATCAGGGCTTCGCAACCCTGTCATTAAGGAGGAGCTATGTCGTCAACCCTACGAGAA -GCCAGTAAGGACACGTTGCAGGCCAAAGATAAAACTTACCACTACTACAGCCTGCCGCTTGCTGCTAAATCACTG -GGCGATATCACCCGTCTACCCAAGTCACTCAAAGTTTTGCTCGAAAACCTGCTGCGCTGGCAGGATGGTAACTCG -GTTACCGAAGAGGATATCCACGCGCTGGCAGGATGGCTGAAAAATGCCCATGCTGACCGTGAAATTGCCTACCGC -CCGGCAAGGGTGCTGATGCAGGACTTTACCGGCGTACCTGCCGTTGTTGATCTGGCGGCAATGCGCGAAGCGGTT -AAACGCCTCGGCGGCGATACTGCAAAGGTTAACCCGCTCTCACCGGTCGACCTGGTCATTGACCACTCGGTGACC -GTCGATCGTTTTGGTGATGATGAGGCATTTGAAGAAAACGTACGCCTGGAAATGGAGCGCAACCACGAACGTTAT -GTGTTCCTGAAATGGGGAAAGCAAGCGTTCAGTCGGTTTAGCGTCGTGCCGCCAGGCACAGGCATTTGCCATCAG -GTTAACCTCGAATATCTCGGCAAAGCAGTGTGGAGTGAATTGCAGGACGGTGAATGGATTGCTTATCCGGATACA -CTCGTTGGTACTGACTCGCACACCACCATGATCAACGGCCTTGGCGTGCTGGGGTGGGGCGTTGGTGGGATCGAA -GCAGAAGCCGCAATGTTAGGCCAGCCGGTTTCCATGCTTATCCCGGATGTAGTGGGCTTCAAACTTACCGGAAAA -TTACGTGAAGGTATTACCGCCACAGACCTGGTTCTCACTGTTACCCAAATGCTGCGCAAACATGGCGTGGTGGGG -AAATTCGTCGAATTTTATGGTGATGGTCTGGATTCACTACCGTTGGCGGATCGCGCCACCATTGCCAATATGTCG -CCAGAATATGGTGCCACCTGTGGCTTCTTCCCAATCGATGCTGTAACCCTCGATTACATGCGTTTAAGCGGGCGC -AGCGAAGATCAGGTCGAGTTGGTCGAAAAATATGCCAAAGCGCAGGGCATGTGGCGTAACCCGGGCGATGAACCA -ATTTTTACCAGTACGTTAGAACTGGATATGAATGACGTTGAAGCGAGCCTGGCAGGGCCTAAACGCCCACAGGAT -CGCGTTGCACTGCCCGATGTACCAAAAGCATTTGCCGCCAGTAACGAACTGGAAGTGAATGCCACGCATAAAGAT -CGCCAGCCGGTCGATTATGTTATGAACGGACATCAGTATCAGTTACCTGATGGCGCTGTGGTCATTGCTGCGATA -ACCTCGTGCACCAACACCTCTAACCCAAGTGTGCTGATGGCCGCAGGCTTGCTGGCGAAAAAAGCCGTAACTCTG -GGCCTCAAGCGGCAACCATGGGTCAAAGCGTCGCTGGCACCGGGTTCGAAAGTCGTTTCTGATTATCTGGCAAAA -GCGAAACTGACACCGTATCTCGACGAACTGGGGTTTAACCTTGTGGGATACGGTTGTACCACCTGTATTGGTAAC -TCTGGGCCGCTGCCCGATCCTATCGAAACGGCAATCAAAAAAAGCGATTTAACCGTCGGTGCGGTGCTGTCCGGC -AACCGTAACTTTGAAGGCCGTATCCATCCGCTGGTTAAAACTAACTGGCTGGCCTCGCCGCCGCTGGTGGTTGCC -TATGCGCTGGCGGGAAATATGAATATCAACCTGGCTTCTGAGCCTATCGGCCATGATCGCAAAGGCGATCCGGTT -TATCTGAAAGATATCTGGCCATCGGCACAAGAAATTGCCCGTGCGGTAGAACAAGTCTCCACAGAAATGTTCCGC -AAAGAGTACGCAGAAGTTTTTGAAGGCACAGCAGAGTGGAAGGGAATTAACGTCACACGATCCGATACCTACGGT -TGGCAGGAGGACTCAACCTATATTCGCTTATCGCCTTTCTTTGATGAAATGCAGGCAACACCAGCACCAGTGGAA -GATATTCACGGTGCGCGGATCCTCGCAATGCTGGGGGATTCAGTCACCACTGACCATATCTCTCCGGCGGGCAGT -ATTAAGCCCGACAGCCCAGCGGGTCGATATCTACAAGGTCGGGGTGTTGAGCGAAAAGACTTTAACTCCTACGGT -TCGCGGCGTGGTAACCATGAAGTGATGATGCGCGGCACCTTCGCCAATATTCGCATCCGTAATGAAATGGTGCCT -GGCGTTGAAGGGGGGATGACGCGGCATTTACCTGACAGCGACGTAGTCTCTATTTATGATGCTGCGATGCGCTAT -AAGCAGGAGCAAACGCCGCTGGCGGTGATTGCCGGGAAAGAGTATGGATCAGGCTCCAGTCGTGACTGGGCGGCA -AAAGGTCCGCGTCTGCTTGGTATTCGTGTGGTGATTGCCGAATCGTTTGAACGAATTCACCGTTCGAATTTAATT -GGCATGGGCATCCTGCCGCTGGAATTTCCGCAAGGCGTAACGCGTAAAACGTTAGGGCTAACCGGGGAAGAGAAG -ATTGATATTGGCGATCTGCAAAACCTACAACCCGGCGCGACGGTTCCGGTGACGCTTACGCGCGCGGATGGTAGC -CAGGAAGTCGTACCCTGCCGTTGTCGTATCGACACCGCGACGGAGTTGACCTACTACCAGAACGACGGCATTTTG -CATTATGTCATTCGTAATATGTTGAAGTAACAACTATTTGCTTGCCGGTTATTTTGCTTCCGGCAAGCAAATGAA -TTACACAATGCAAGAGGGTTATTTGTTCAGCAAATGGCCCATTTTCTCGGCTTTGGTATCGAGATAATGTTCGTT -ATTGGGGTTACGACCTACAATCAATGGTACGCGTTCAACAATATTAATCCCTGCTTCGGTCAGAATTTCGACTTT -TTTCGGGTTATTGGTTAACAAGCGGACTTCATTGACGCCAAGGAGTTTGAACATATCAGCGCAAAGAGTGAAGTC -GCGCTCATCAGCGGCGAAGCCTAACTGGTGGTTAGCCTCTACGGTATCGTAACCTTGATCCTGCAGTGCGTAAGC -GCGGATTTTATTCAGCAGACCAATGTTACGACCTTCCTGACGGTGATACAGCAAAATACCACGGCCTTCCTCGGC -AATTTGCGTCAATGCCGCTTCGAGCTGGAAGCCACAATCGCAGCGCAAGCTGAACAGGGCGTCACCGGTCAGACA -TTCGGAATGGACGCGCGCAAGTACCGGGGTATGCCCGGAAATATCGCCATAGACTAGCGCGACATGATCGTGTCC -GGTTGCCAGTTCTTCAAATCCCACCATCAGGAAATCGCCCCATGGGGTTGGCAGTTTGGCTTCTGCCACACGTTT -AAGCTGCATGAAATTCTCCAGATAATGCTGGTTCTGTATTGGCTTATTTTGCCATAACGAGAAGGGGTTCACCTA -ATCACGACGCGTCGATCGTTCACGGAATGGCACAAATCTGTCAATTTTTCCTGGAACTGGCGTTTTCAGTTATGA -TTGTGGGACTTATCAAAAAGGAGAGGCCATGCGTTCGATTGCCAGACGTACCGCAGTGGGAGCTGCACTATTGCT -TGTCATGCCAGTAGCCGTATGGATTTCTGGCTGGCGTTGGCAACCTGGAGAACAAAGTTGGCTACTAAAAGCGGC -TTTTTGGGTTACTGAAACTGTCACCCAGCCCTGGGGCGTCATTACACATTTGATTTTATTCGGCTGGTTTCTCTG -GTGTCTGCGTTTTCGCATTAAGGCTGCCTTTGTATTATTTGCCATTCTGGCGGCCGCAATCCTTGTGGGACAAGG -CGTTAAATCCTGGATCAAAGACAAAGTCCAGGAACCACGACCTTTTGTTATCTGGCTGGAAAAAACACATCATAT -TCCGGTTGATGAGTTCTACACTTTAAAGCGAGCAGAACGCGGAAATCTAGTGAAAGAACAGTTGGCTGAAGAGAA -AAATATCCCACAATATTTGCGTTCACACTGGCAGAAAGAGACGGGGTTTGCCTTTCCTTCCGGTCACACGATGTT -TGCTGCCAGTTGGGCACTGCTGGCCGTTGGTTTGCTGTGGCCGCGTCGGCGAACGTTAACCATTGCTATCTTGCT -GGTCTGGGCAACGGGAGTCATGGGAAGCCGCCTGCTGCTCGGGATGCATTGGCCACGCGATCTGGTAGTAGCTAC -GTTGATTTCGTGGGCGCTGGTGGCGGTGGCAACGTGGCTTGCGCAACGAATTTGTGGGCCATTAACACCACCTGC -GGAAGAAAATCGCGAAATAGCGCAACGAGAACAAGAAAGTTAACGCTGGTTGATTTTCCGAATTTAGCCCTTAAA -TCATCAACAATGCGTGTGGATGCCATTTCGCAGACGGCGCGAAAATGGTACTTTAAAGGGCTATTGCGGTAAGTT -GACCATAATTTATTCGCTCTAACCACATAACGGGAAGTAATGTGAAATATTTACTCATTTTCTTACTGGTGTTAG -CGATCTTCGTGATTTCGGTCACGTTGGGTGCGCAGAACGATCAACAGGTGACGTTTAATTATCTGTTAGCGCAAG -GGGAGTACCGTATTTCCACATTGCTGGCGGTATTGTTTGCTGCGGGGTTTGCTATCGGTTGGTTGATTTGTGGCC -TGTTCTGGCTGCGAGTTCGTGTTTCCCTGGCGCGCGCTGAACGTAAAATAAAGCGACTGGAAAACCAGCTTTCAC -CCGCGACTGACGTGGCTGTAGTGCCGCACTCGTCAGCGGCGAAGGAATAACTTTCTATGCTGGAGTTGTTGTTTC -TGCTTTTGCCTGTAGCCGCTGCCTATGGCTGGTATATGGGCCGCAGAAGTGCGCAACAAAACAAGCAAGATGAAG -CCAACCGCTTGTCGCGTGATTACGTAGCGGGGGTTAACTTCCTGCTTAGTAATCAACAGGATAAAGCGGTAGACC -TGTTTCTCGATATGCTTAAAGAGGATACAGGCACCGTTGAAGCCCACCTTACGCTCGGAAACCTGTTCCGTTCGC -GTGGCGAAGTTGATCGCGCTATTCGCATCCATCAGACCCTAATGGAAAGCGCCTCGCTGACCTATGAACAGCGTC -TGTTGGCGATTCAACAACTGGGGCGTGATTACATGGCCGCCGGGTTATATGACCGCGCGGAAGACATGTTCAATC -AGCTGACCGATGAAACTGACTTCCGCATTGGCGCGCTGCAACAGTTGCTACAAATCTACCAGGCTACCAGTGAGT -GGCAGAAAGCAATTGATGTTGCCGAACGCCTGGTGAAGCTGGGTAAAGATAAACAGCGCGTCGAAATTGCCCATT -TCTACTGTGAGTTAGCCCTGCAGCATATGGCCAGCGACGATCTCGATCGTGCCATGACCTTGCTAAAAAAAGGGG -CGGCGGCAGATAAAAACAGCGCCCGCGTATCCATAATGATGGGACGCGTGTTTATGGCGAAAGGAGAATACGCCA -AAGCCGTCGAAAGTCTGCAACGCGTGATATCCCAGGACAGAGAACTGGTCAGCGAAACGCTGGAAATGTTGCAAA -CCTGCTATCAGCAGTTGGGTAAAACTGCCGAATGGGCAGAATTCCTGCAGCGTGCGGTGGAAGAGAACACCGGTG -CCGATGCTGAATTGATGCTTGCTGATATCATCGAAGCGCGCGACGGTAGTGAGGCCGCACAGGTCTATATTACGC -GCCAGCTTCAGCGTCATCCGACCATGCGTGTGTTCCATAAGTTAATGGATTACCACTTAAATGAAGCGGAAGAAG -GGCGTGCCAAAGAGAGCCTGATGGTGCTGCGTGACATGGTTGGCGAGAAGGTACGTAGTAAGCCTCGTTATCGTT -GCCAGAAATGTGGTTTTACCGCATACACCCTCTACTGGCATTGTCCGTCTTGTCGGGCCTGGTCAACCATTAAAC -CGATTCGCGGTCTTGATGGCCTGTAATTTTTAAAAAAAATCCGACTTTAGTTACAACATACTAATTATTAATGTT -CCATTGTGCTCCGGCAACGACGGCGCAGAAAAAGCCTGCCAGGGGAGAAATCGCAACTGTTAATTTTTTATTTCC -ACGGGTAGAATGCTCGCCGTTTACCTGTTTCGCGCCACTTCCGGTGCCCATCATCAAGAAGGTCTGGTCATGACG -TTAACTGCTTCATCTTCTTCCCGCGCTGTTACGAATTCTCCTGTGGTTGTTGCCCTTGATTATCATAATCGTGAT -GACGCGCTGGCCTTTGTCGACAAGATCGACCCACGCGATTGTCGTCTGAAGGTCGGCAAAGAGATGTTTACATTG -TTTGGGCCACAGTTTGTGCGCGAACTTCAACAGCGTGGTTTTGATATCTTTCTTGACCTGAAATTCCACGATATC -CCCAACACTGCAGCGCACGCTGTCGCTGCTGCAGCTGACTTAGGCGTGTGGATGGTGAATGTTCATGCCTCTGGT -GGGGCGCGTATGATGACCGCAGCGCGTGAGGCACTGGTTCCGTTTGGCAAAGATGCACCGCTTTTGATTGCTGTG -ACAGTGTTGACCAGCATGGAAGCCAGCGACCTGGTCGATCTTGGCATGACACTGTCACCTGCAGATTATGCAGAA -CGTCTGGCGGCACTGACGCAAAAATGTGGCCTTGATGGTGTGGTGTGTTCTGCTCAGGAAGCTGTGCGCTTTAAA -CAGGTATTCGGTCAGGAGTTCAAACTGGTTACGCCGGGCATTCGTCCGCAGGGGAGTGAAGCTGGTGACCAGCGC -CGCATTATGACGCCAGAACAGGCGTTGTCGGCTGGTGTTGATTATATGGTGATTGGTCGCCCGGTAACGCAATCG -GTAGATCCAGCGCAGACGCTGAAAGCGATCAACGCCTCTTTACAGCGGAGTGCATGATGAGTGATTCCAACAGCC -GTCTGGTCTACTCAACGGAAACCGGACGTATTGATGAGCCCAAAGCGGCCCCTGTACGCCCTAAAGGCGACGGTG -TGGTGCGTATTCAGCGTCAGACCAGTGGACGTAAAGGTAAGGGCGTTTGCCTGATTACCGGTGTCGATCTCGATG -ATGCCGAACTGACAAAACTTGCAGCGGAACTGAAGAAAAAATGCGGCTGCGGCGGAGCAGTTAAAGATGGAGTTA -TTGAAATCCAGGGCGATAAGCGTGATTTATTAAAATCACTACTTGAAGCGAAAGGGATGAAGGTAAAACTCGCAG -GCGGTTAACATAAAAAGCCACGGATATATCCGTGGCTTTCGAATATTTTACTGTGCGTATTATTCAGTTATTTCG -TACTGAACAGAATCAAGCGTATTATAATTGCGAGTCGATAATCGACATTTATTTACGATTATTTACCGACCTGGT -GACCAATAACACCTCCGACAGCTGCACCACCTAATGTACCCAACGTACTGCCATCGGTCAGTACTGCACCGCCTA -ATGCCCCTGCACCCGCGCCGATTGCGGTGTTGCGGTCCCGTTTAGACCAGTTAGAACAGGCACTCAGAGACATTG -CCAAAGTAATTGCCAGAACAGCCGCGGTCATTTTTTTGCTCGTTACAAACATAATACTCTCTCCTGAATTTATGA -TTCACGGAAGTAAGCTCTCTATAACTATAATAGCTAAGAATAAGTCTGGTGAAATTATTCCGTGAAATCTGCTCG -CGCGCAGGGTTATATCACGCAGGTGATAATGACTTCCTGTTATATCGCTGATAATAATTTTATATCTTGAGAGTG -TTAATAACAGGTAAATAGTCTTAATTATCAACCAGGAATCATCTTAGAGCGGATGATTTGCCAAACTGCAAATCA -TCCGTAGAGAAGGGAAATGGTTAAATGTCAACGACGTGAATGGTGAGTTTACTGTGCTCAAGATGCATCAGATCG -CTGGCGCGTATTTTCGAATCGGTAATCACGCGATTGAATCGCTCAACGGGACCGATGGAGTATGAATGTACAGCA -CCAAATTTCGAGCTGTCAGTCAGGACTATCGCTTCGCACTCTTTTTCCAGCACGGCATTGACCACATCGGTACGC -ATCATATCGCGACCGGTAAATCCAGTTTCAGGTTGCCAGCCATCAATACCAATAAATGCTTTGCTGAAATGCACC -TGTTGGATGCACTGGCGTGTCAAAGGGCCAACCATACTTTCGCTTTTTTTCTGATACACGCCACCGAGCAAAATA -ACTTCACAAGGCGCGTCTTTCAGCAAATGCGCGATGTAGCTGCTGACCGTGATGATAGTGACATTTTTCTTCTGC -TCGCCCAGAGTCCGGGCGAGTAGGGCATTGCTGCTGCCATTTTCGATAAAGATGGTTTCGCCCGGTTGAACCAGC -GACGCGGCAAACTCGGCGAGTTCACGCTTCAGCGTATAGTTGCTCATCATACGGGTTTCGACGTCATCACTATCA -AGCGAAACAGCAAAGCCATGTGCACGGCGGAGGTAACTCAGTTTTTCGAGTGTGTTGAGATCCTGGCGAATGGTA -ACTTCAGAAACTCCAGTGGCTTTTGCCAGATCGGTTACGCTAACCTGACCCTGGTCAATGACCATCTGTAGAATA -GTTTGTTGTCGGGAATTCATCGCTGTAATTCTTATAACGTTATAATACTTAATAAAAAAATACTGACGCGCCGGG -CATCCTCAAATAGGAAAACCTGAAGGCACGATTGTTAAATCTCCCACGGTGCCTTCGGGATGTCTGGCGTAGATT -CAGCAACCTGGCGCAAGAGTTCTGCTTTAAGTATCTCGAGATTATGGATCGCAGAGTGGTAATCGCCTGCCACAA -GGATATCTAACACAATATCAATACGTTCGGCAACGCGCTGGGCATCAAATTCAGACATCAAGGACATCCTTATAG -CAAAAGGGGGAAAATGAATAATGCAAAAATTGCCGCTAAAAGAGAAGTGTTTAACAGCAACGGCTAATTATCATC -CAGGAATACGATATATAATGACGGGATATAGCGCTAAGTATATATATTCATCTACTTATGCGCGCTTCAGATAGC -GTTTATACCAGCGTTCGAAGGCGACGGCGGGCATCGGTTTGGCAAACAAAAATCCTTGCCGCTCATTGATCCCGT -TCTTGGTTAAAAAAGCATCTTCCTTTGCACTCTCTACACCTTCGGCGATCACCTGAAGATTCAATGCCTGGGCCA -CAGCGACGATCGCCCGGACCAGTGACTGCGAGACAGGTTGTTTGTGAATATCTCGAACAAAAACCTGGTCAAGTT -TGATGGCATCGATCGGAAAGCGCGCCAGTTGCGAAAGTGAAGAGTAGCCGGTACCAAAATCATCCAGATGCACTT -GCGCACCTAGTTGGCTAAATTGTTGAATAACAGACAGTGCCAGTTCATCATTCTCAATCAGACAACTCTCTGTCA -GTTCAACATCTATAGGGCAGTATTCAAAATTGAGTTCCTGGAGAACCTGTTTCAGGGCGGTGAAAATGGTTTGAT -CGGCGAGCTGACGTGCAGAAATATTTACCGCCACTCGCAGGTTTATGCCTTTATCCCGCCACTTTGCCACCTGGC -GTACGACATCGAGAATCACCCAACGGCCTAAAGGCACAATTAGCCCTGACTCTTCGGCGTAGGAAATGAAGTCCA -ACGGTGGAATCAACCCACGTTCAGGTGACTGCCAACGTACTAGTGCTTCCAGACTGCGCACTTCGCCACGCCAGG -TGATTTTCGGTTGATAGTGAATAACCAACTGATCGTTTTCCAGTGCTTTACGCAAGTTGGTATCCAGCCAGAGAT -ATTCAAATACCCGTTGATTCATTTCTGGGGTAAAAACGCAAAATTGTCCTCGTCCGCCTTCCTTCGCTGTGTACA -TTGCTGTGTCGGCGTGACGAATAATAGCCGTGCTGTCTGAACCATGTTCGGGAGAGAGTGCAATACCTACTGAAC -AGCTGGTATAAACTTCAATTAAACCAATGCGAAAGGGGAGCCGTAAGCGGGTCAAAATTCGTGATGCCATTGCTT -CCAGCGCGCTTTGTGAGGTGTTGGATGCCAGTACCAGAAACTCATCCCCACCTGGACGCGCCAACACCTGGTCAT -GTTCGAGACAGCTTAAAATAGCCAATGACACGTCGCGTAATAACTGGTCACCAAACAAATGCCCATAGGCGTCGT -TGACCTTTTTGAAATTATCCAAATCAAGATACACAACCCCAACTTTATTGTTATCTGCATGATTAATAGCGTGAT -CGATTAAATCCTGCATTGCGTTACGATTCGGCAGTCCGGTGATACTGTCGGTATTTGCCAGAATACGCAGTCGCT -CCTGAGCGCGGCGCTCTTCGGTAATGTCGGTGCCGGAACAGATTAAAAAAATCTCGTTTTTGCCACTGCCGCTGT -GGACAAATTTATTGCGAAACAGAAACAGCCGCTGGCCTTTACATGTTGGTATCCACAGTTCGACTTCATATGCAT -TGCCGCTTCGAAAAAATACACGGTTATTGCGCCTGGATGCCGCAGCTTCACGACGGCTCATAAACAGTTTAAACA -CGCTTTGCCCAATGACGTCGTGTTCTTTCAACCCTGTGTAATCTTCACATAACCGATTGAAGCGTTGGATATTCC -CCCGGCTGTCGAGAATCACTATTGCGGAATGTGCTTCAGAAACTACCTGCTCAGCAAAGGAAAGCCCGTGTGATA -AATCACGAGCAACCGCCGGTGTGTCATGCCATGCAGACGCGTTGCCAGCCCATTCCCGTTTATTGATTTTTCGTC -CTACCAGATGCACAGAAAGATCGCTTTCATCGACGGTCAGACTCATCATCAGGCTGGAGGTGATGACCGTCATTT -CCCTGATGCGAGCAGCCTGTTCGGCAGATAACTGCAATGTACGATCAGGTTCTGTGGTTTCGGTGGTAGAAAAGC -GCAAAACATCGCTGCTTTCCGTCAACCGCCAGTATGGATTGTGCGATCCGAGAAAGTTGTACAACGTTGTGGACT -CCCTAACGGTTTTCATGATGCATATCCTCCGGTTAACAGCGGAGTCCGCGGTTAAATAAAAGGAACAACATGACT -TACATGAAATTAACGGCGGCTAAACGCATTGTTTTTTTTATATATTTATTTGTAATCCAGTTTTGGAAAAACGCC -AGTTTTCAAACGAAAGTCAGTTAAAAAATCTGCCTGGATATAACGAAGGTAGAGCGGGGAAATAAACGGCCCATC -CATGAGGAATGGGCCGTGAAAGGAGATTACGCGACCGGGCGCGCAATAATGCTGCGGGTTTCCATGCGGACTTCG -GCAATAGTGACGTCAATAACGTCAGTCACTTTGTAAACCGTTTCACCTTTAATTTGTACAGTGCCGTTTTCCTGG -CTGCAAACCAGTTCATCGCGCACAGCGTGTAAGAAAGGTGCCGGAATAAAGGCGATAGCGCCGTTATCAACCAAA -CGAACACGCATGCCGCCACGGCTGATATCGACAATTTCCGCTGCGAAACGGGTGTCGGTCCCGGCTTTGTCTTTC -AGGAAGCGTGCGTATAACCAGTCACCAACATCACGTTCTGCCATCCGGTTGAGACGGCGACGCTCGGCCATTTGG -ACAGTGATTTCATCCTGTGGGCGCGTCGCAGTTTCGCCTTTGATAACCGCTTTCAGCAGACGGTGGTTGATCATG -TCGCCATATTTACGGATCGGCGAAGTCCAGGTGGCGTATGCTTCCAGACCGAGGCCAAAGTGAGGACCGGGTTCA -GTGCTAATTTCAGCAAATGACTGGAAGCGACGAATGCGGCTGTCGAGGAAACCAGTTGGTTGCGCGTCCAGTTCA -CGACGCAGTTTGCAGAAACCGTCCAGCGTGAGCACTTCTTCGGCATCGACATGCAGACCGTGCGTTTTCAGCAAC -GCTGCCAGCGCGTCGGCATTCGCCGGATCAAAGCCCATATGCACGTTATAGATGCCAAAACCGAGCTTATCGCGC -AGTACGCGGGCCGCACAAATGTTAGCGGCAATCATCGCTTCTTCGACGATACGGTTGGCAATGCGACGAGGCTCG -GCGACGATATCCAGCACTTCACCTTTTTCACCGAGAATAAAGCGGTAATCCGGGCGATCTTTAAACACCAGTGCG -TGGTTATGACGCCACTCGCCGCGGCGTTGGCAAATTTGCGCTAGCAAACGGACTTGTTCGGCAATTGCTTCACTT -TCAGGCTGCCAGTCACCGGTATTTTCCAGCCAGTCAGAAACCTGGTCATACACCAGCTTTGCTTTGGATTCGATG -GTGGCGGCAAAGAATTCGATATTATCTTCAATGGTGCCATCAGCGGAGAGCGTCATGCGGCATGCCAGTACCGGG -CGGACTTCATTGGCGCGCAGTGAGCAGAGATCGTCAGAAAGCTCGCGAGGCAGCATAGGGATGTTGAAGCCAGGC -AGATAGTTGGTGAATGCGCGAATTTTCGCGGCTTTGTCCAGCTTGCTGCCTTCAGCAATCCACGCGGTTGGATCG -GCAATCGCCACAATCAGCTGAAGTTTGTCATCCGGCAACGCCTTAGCGAAAAGGGCGTCATCCATATCTTCTGTG -CTGGCACTGTCGATGGTGACAAAATCCAGCGCGGTCAGATCTTCACGAACCAGACCTTCATCGAGCATTTCGGTA -GCGACGCCGTCTGGTGCTTCTTTTTCCAGATTATGGCGTGCAAGGGTAACCCACCACGGTACAAAGTGATCGTCA -CCAAAAGTGATGTATTGTGTCAGTTCTGCATAGAAAGAACGATCGCCTTTCAGCGGATGACGGCGCATTTCGGCA -ACCGCCCAGTCGCCTTCTTTAAACTCGTGGTTCAGGCCACGGGCTGCGCGGCAAGGAATGGCGTCTTTTAAGAGT -GGATGATCAGGAACGATGGCCAGACGGTCATTTTTGCCCTGAACCTTACCCACGAAACGAGTCAGGAACGGTTCA -ACCAGTTCTTCTGGCTCTGCGGATTCACGTTCTTTTTCACTGTGGATCACCGCGATAATTCGGTCGCCATGCATG -ACTTTTTTCATCTGCGGCGGCGGAATGAAATAACTTTTTTGCGCGTCGACTTCCAGGAAGCCAAAGCCTTTTTCT -GTGGCTTTTACCACCCCTTCAGCGCGTGGCGTCTGGGAATGCAGTTGCTGTTTAAGCTGCGCTAGCAGCGGGTTG -TCCTGAAACATAATTGTCTATTTTGGTGGCCATTAGAGCGGCTGACAGTTTTACGCGAATCTGTCTGACGCGGCA -AGGTTAATATGTCTCACCCAACGCGATTTTTAAGCGATTTATCCAGCCACACAGCCCGCTCCATACCAGCAGATT -AATAATCTGCGTTGATGATTTTTCGTGTTCGAGTAAAGGGCTGAACTGGGCGGCGCTAAAGCGATCGGGTGCTCG -GGTCAGCCATTGTATCGCCTGAACGGTAGCGCGCTCAACAGAATGACGGTCAGCCCATTGGTTAATTTCATTTTC -GCCCTTGCGCATAAGGGTGCTGATTTTTTTATATTCATTTGATGAATCCATACAGGTGGCAAAACAAGCAGGACT -GCCATTTATACGCGCGCATAACAACGCCGCAAGCTGATTATCCGGCTGTGTATTGCCCCGTGTGCTGTTTAACAA -CTTTTCGAGAAGGGAAAGTGAAATAGGGTGGAGAGAGAGTATTTCGGCCAGTTGGCAAAGTTCTGCAGTTGAACT -TTTTGTGTGCTCTTCAGGTAGTTTTTCCACCTCATAGCTGCTTCGCCAGCGTAATGATTCATCAGCAAACAGTGA -CGCGTCGGCGTAGTTTTGTATCTCCAGCCCGGGTAACCAGCGTACCGGATGCCCGAGATAAGCCTGAAATGTCGC -AATTGTCCGCGCCTGAAAGCCAATAAAACCAATGATTTGGCTAATGATCACACAGTCCCAGGCAGTAAGACCGAC -GTCATTCAGATGCTGGCGCGATCGGTTGTCGATAATAGAAGGCGAGCTAGCCAGTTGGCGGGCATATTGCGTGAT -TTGTGCCAACCGATGATTACTTTCCCTGGTGGAATCAGGCCCGGGGAGCGGCGTAAGTCGCGCCGAATAGTAGTT -ACATAACCGCTGGACGCCGCAAACCTGAGCAACCGTCAGGGCCGTCGACAAGCGTTCATAAGCGGTGAAGGTCTG -TGAACGGGTCACGGTAAGCTGGTCAGGGAACAAATCCACTGCAAGAACACGCGCAGGGTCCAGCCATGAAAGGAA -GGGGGCCAGCGTTTCTTTTTCAAGGATCACGTCGAGTAGAAAGGGATCGCTGACCTTTGCGGCTTCCGGGACCAG -AGGCAGAACGTCATACTCCGTAGTACTGGATTGCGTTTCATGATACCAGTGGCTTTTGCCGGTGATGTGGCGTTG -TTCCATGGGCGCTCCTTGGTCGTAAAGGAAATCGTTATCCTGACGCAAGGCGGGAAGGGGAGAAAGACGGATCGG -CGATAACAAATATCAGAAAGGTATAACAGAGATAACGGGCGGCAGAACGCCGCCCATCTTTACCAACAGAACGAT -TATTTCAGTTCGAGTTCGTTCATTGCAGCAATGCTGAAACCGCCGTCAACGTGGACCACTTCACCGGAGATACCG -GCAGAGAGATCGGAGCACAGGAATGCCGCAGAGTTACCCACATCTTCAATAGTAACGGTACGGCGAATCGGGGTA -ACGGCTTCGCAATGAGCCAGCATTTTGCGGAAGTCTTTGATACCGGAGGCCGCCAGAGTACGGATCGGACCAGCA -GAGATGGCGTTAACACGCACACCTTCCGGACCCATCGCGTTCGCCATATAGCGCACGTTCGCTTCCAGAGACGCT -TTTGCCAGACCCATAACGTTGTAGTTCGGGATAGCGCGCTCAGCGCCAAGGTAGGAAAGGGTCAGCAGGGCAGAA -CCCGGATTCAGCATGGAGCGGCAAGCTTTTGCCATTGCAACGAAGCTGTAGGAGCTGATGTCGTGGGCAATTTTG -AAGCCTTCACGGGTAACGGCGTTAACATAGTCACCATCCAGCTGATCGCCAGGTGCAAAACCAATAGAGTGTACG -AAACCGTCAAATTTCGGCCAAACTTTCCCCAGTTCAGCGAACATGGTGTCGATGCTGGCATCTTCTGCAACATCG -CACTGCAGAACGATGTCAGAACCCAATTGAGCGGCAAATTCTTCTACGCGGCCTTTCAGTTTGTCGTTCTGGTAG -GTGAATGCCAGTTCAGCTCCTTCGCGGTGCATCGCCTGAGCGATACCGTAGGCGATGGATAGTTTGCTGGCAACA -CCGGTTACCAGAATGCGCTTACCGGAAAGAAAACCCATAGCTTTAATCCTTATTGTTGATGCTTGTTGTGCCTGA -AAATCAGGCGATTCGTCGTTTTAGTAAACAGTACGAACAGATAAACGGTTATTATAATCAACCTGGCTGTGAGTA -GCTATAGTTGCCAGGTCCGACCGGAGCAGGCTGCGGCAGGGGGGGCGCTTTTCCCCTCACCCTAACCCTCTCCCC -AGAGGGGCGAGGGGACCGTATTGTGCAAATATTGTTACCCCAGCAACAAACAGGCTCATACAGCCCCTAACCCTT -TCATGGCGATGGCTGGGACGGTTCAGACCTTGCCGAATATTCTCCAGCACCGTCTCCATGTTTTCACCACAACAG -CTATTCGGCTCGGTCTGCCCCCTCGCTCTTTCAGGGAGAGGGTGACCGGCGGTTCAGTTCCTGCAGAATATTCTC -CAGCACCGTCTCCTCATTACAATCAATCTCGTTATTCCAGAAACGCAGCACGGTCCAGCCCTGCGACTCAAGCCA -GCTAGTGCGCCTGGAATCATAGGCAACTGCTAAATCATGCTGCCCACCATCCAGCTCAACGACTACACGCGCCGA -GCAGCAAGCAAAATCGAGAATGTAGCTCCCCACTGGATGTTGACGGCGAAATTTGAAATCACTAAAACGTCGGCT -GCGAAGATATCGCCAGAGCTTTCGTTCCTGCAAAGTGAGATTGCGTCTTAAATCACGCGCATTTGATTTAATTTT -ATCTATCACCTCATTCTGACAAGATTTAATCTTTTGTCAGAATGAGGTGAATAATCTGGAAGGAGGATTCAGAAA -ATTAGCGATCTTTACGCCACGCATCCGCCGTCAATGCCTCGCCAAAATGACCGGCAATCAGCCGTTTGGTGAGTT -CATGCAGCGGCGATGCCAGCACATCCGCGGTGCTGCCTCGCTCGACAACCTCGCCCTGATGCATCACCAGCACCT -GGTCGCTAATGTGCTTCATCATTCCGATATGCTGGGTAACATAAATATACGAAATGCCCTGTTTTTCCTGTAATT -CCAGCATCAGATTAATCAACTGCGAACGCATCGACATATCCAGTGAAGCGAGGGCTTCATCGGCAATAATGACTT -TTGGGCGCAATATCAGCGCGCGCGCCAGACCCAGACGCTGTTTTTGTCCGGGTGCCAACATATGCGGATAGTAAC -TGACGTGATCCGGTAGCAGCCCAACCATACGCATCGTTTCAATAATCTGTTTGCGACGCTGTTCCGGTTCCAGGT -CGGTGTTCAGGCGCAGTGGAAAATCCAGAATTTGCGAGATACGTTGACGGGGATTCAACGAGGTCGAAGGATCCT -GAAAAATCATGCGAATACGCTGACTGCGGAAGGAATAATCGCCAAAATGCAGTGGATGATCGTCAATCAATAACT -CGCCGCTGGTAGGCTCTATCATTCCCGCCAGCATTTTTGCCAGCGTGGATTTACCCGAACCATTCTCGCCAATAA -TCGCCAGTGTCTGGCCTTCACGTAGCGTAAAGCTCAAGGGTTTTACCGCTTCTACGGTCTGACGACGAAACCAGC -CGGTCCGGTAGCGGAACGTTTTACTTAAATTACGCACTTCAAGCAGCGTTTCGATCATCTCACTCTTTCTCCATG -TTCAGCGGGAAATGACAGGCATAGAGATGATTTTTCGCCCCCGTCAAACGTGGCGTCACAATGCATTCTCGTTGT -GCATACGGGCAACGTGGCCCCAGACGACAACCAATCGGTAACTGTTCCAGCAGTGGGATAGCGCCGGGCAGCGTA -TTGAGGCGACTTTTATGCGGCATCGCGCTGCCGAAGTCTGGTATCGCGCGGATCAGCGCCTGGGTATAAGGATGA -TGTGGCATCGTCACCAACTCCTTACTCGGCGCGGTTTCCACTGTTTGACCGCAGTAAAGCACGTTAATTTTATCC -GCCCATTGGCTAAGCATTTGTAAGTCATGGCTGATAAGCAAAATAGTGGTATTGCTGTTTTGGTTGAGACGCGTC -AGCAGGCGAAAGATTTGCGCCTGGGTTGTTGGCTCCATTGAGTTGGTCGGTTCGTCAGCAATCAGCAGACGCGGT -TGATTCGCCAGTGCAATGGCTATCATCACTTTCTGACATTCACCTTCGGTCAACTCATAGGGAAAACTGCGCATC -GCATCTTTGTGATCTTTAATCCCCACGCGGTGCAGCAGTTCAATGGCACGGCGTTTGCGCCAGCCAAAACGCTGC -CACCAACGGCCTTTATAGGTCCAGGCTGGGATGTTTTGCATCAACTGGCGGCCCACACGTTCTGAAGGGTCAAGA -CACGACTGCGGTTCCTGGAAAATCATCGACACGTTATGGCCAACCAGTTTGCGCCGTTCGCGTGCGGAGAGACGC -AGCAAATCGATATCATCAAAACGCATACGGTCAGCAGTAACACGCCAGTTATCTTTATTCACCCCACAAATCGCT -TTCGCAATCAAACTCTTGCCGGAACCGGATTCACCAACAAGACCGCGGATTTCACCTTCGGTTAAGGTCATACTT -ACCCGGTCGACGGCTTTAACCCACTCATCACCGGTTTTAAATTCAATGGTCAGGTTACGAATATCGAGTAATGGC -ATTATTCCACCCCCGCAATAATCGCACGACGAACGCCATCGCCAAGGAGGTTAACCAACAACACGCTAATCATAA -TTGCCGCACCTGGCAGCATGACAGTCCACGGGGCGACATAAATCAGTTCCAGCGCATCACCGAGCATCGCTCCCC -ATTCAGGCGAGGGGAGTTGTGCGCCGAGATCGAGAAAGCCCAGCGCGGCGATATCGAGAATTGCCATCGACAGTG -CGCGGGTGATCTCGGTGACCAGCCCGGCGGTGATGTTTGGCATCACAGCAAACCAGAGAATATTCAGCGTTGATG -CGCCATCCAGACGGGCGGCGATAACGTACTCTTTTTCCAGTTCGTCATGCACCATGCTGTAAATCGAACGTACCA -TACGCGGCAGCAATGCCAGCCAGACAGCAAACATAGCGTGGGACAAACTCGGTCCGGCAAACGCTACAACGATAA -TTGCCAACAGCAGCGAAGGGATCGCCAGTAAGGTATCCAGAATATGGTTAAGCACCGCTGAGCGGAGGCCGTGTG -TCGCCCCGGCGAAGGTGCCCAGTACCAGGCCACAGATCGTCGCGGCAAGCGTCACCACAAATGCGCCACCCACGG -TTGGCGCAGCTCCGCTCAGTAAACGGCTTAAAACATCGCGTCCGAGGTCGTCAGTCCCCAGGAAGAAAGAAACTT -CGCCATAGCGCGACCATGACGGCGGCAATAATTGATAACCGAGAAATTGCTGGTCGATGCCGTAAGGCGCAAACC -AGCCGCCAAAAATACACAGTACAGCCAGCCCCGCGCAGCCGTACAGGCCGACCATCGCAGAGGCGTCACTATAAA -ATTTGCGCCAGGCGGTACGCAGCGTGCCCGGCGGGCGCTTTTCGCTGTATACGCTATCGTAAGGCATACCATTCC -TTATGTTTCAGAGGGTTAGCCATGGCACCCAAAATATCAGAAATCACGTTAACAATAATGACCAGTGAGCCACAC -ACCATCACTCCGGCGGAAATGGCTGCGTAATCCTGCTGGCGGATGGCGTTAATTAACCAGCGCCCTAAACCCGGC -CAGCTAAAAACCATTTCGGTGATCATCGCCAGCGTCAGCATGGTGGAAAACTGTAAGCCCAGGCGAGGAATAACC -GGCGGTAACGCGTTATGCAGAACGTGGCGACGCAAAATAGTAAAGCGCGACAAACCGCGGGTCGCCGCCGCTTTT -ACATAGTTCTGGTCATACACTTCGATAGTGCTGATACGCATCAGGCGGATCACTTCAGTTGTTGGCGCAACCGAC -AGGGTGATCACGGGCAATATCATATGGCGGATTGCGCTCATGATCATTTCATCCCGCCATGGTGAGTCCGAAAGC -CAGGCATCAATCAACGCAAAACCGGTAATCGGTTTCACTTCGTAGAGCAGATCGAAACGCCCTGAAACGGGCAAC -CAACCTAGCGTGAGTGAACAAAACAGCGTCAACAGAAGCGCCAGCCAGAACACCGGGATTGAAAAGCCCAGTAAG -GCGATGGCGTTGATCAAGTTATCCTGCCACTTATGGCGCGTAATCCCGGCAATCATCCCCACGGGGATGCCAACA -ATCAGCGCAAAACCGAAGGCGAGGATGCACAGTTCCATCGTCGCCGGGAAGACCTCTTTTAACTGTTCGGCAATC -GGTTGACCGTTAATGCTGGAAACACCAAAATCCCAGTGGATCAGGCCGTTAAACCAGAACACCCAGGCATTCCAC -AGTGACGCGCCTTGTAACGGCGCATGAGGGGTGAAATAGCTCAAGCTGAAGCCAACGAAGGTCAGCAGGAACAAG -GTGACAATCAATAACAAAATGCGGCGTAAGGTGAAGATAATCATGGTTTTTTCACCTCATCCTGTTTCTCGCGAT -ACACCCCAGCAAAGGAGGCGTTACCAAACGGGCTAAGTACCAGACCTTTGATATCGTACCGATAGGCCTGCAAAC -GCAATGACGACGCCAGCGGCAAAATGGGCAATTCCTGCGCCAGAATACTCTGCGCTTCGTCATAGGCTTCAATAC -GCGCCGCCAGCTGCTGCGAAGAGAGCGCCTTACGCAATACGCTGTCGAATTTCGGATCGCACCAGTGGGCGAGGT -TGGTCTGCGAATGAATTGCCGCGCAGCTCAGTAACGGACGGAAGAAACTGTCCGGGTCGTTACTGTCCGTCGCCC -AACCGGATAACGTCAGATCATGGCTCATATCCATCAACCGCGCCTCCTGAAAGCGACCTTCTACCGGCACAATCA -CCACTTTTACGCCAACCTGCGCCATATCCGCCTGAATCAGTTCGGCAGTTTTCAGTGGACTGGGGTTCCACGCCT -GCGAACGTGTGGGCACCCACAGTTTCAGCGTTAAATTTTCCAGCCCCAACGACTTCAACTGTTCGCGCGATTTCG -CCGGATTGTATTCAGTAATTTTAGCCTCGTTGTCATAGGCCCACGAGGCGCGCGGTAAAATAGAGGCCGCCGTTT -CAGCCGTACCATAATAGATGGATTGCATCAGGCGCTGGTTATTAATCGCCAGTGCCAGCGCATGGCGGACAGCGG -GATTATTTAGCGGCGGTTTGGCGGTGTTAAATGCCAGATAGGCGACGTTCATCCCAGGACGCAGCGTTAAACGCA -AGCGCGGGTCGTCACGCAAAATGGATAGCTGGCTGGCAGCAGGCCAGGCCAGAACGTCGCATTCCCCGGTCAGGA -GTTTCGACAGACGTCCGGTGCCGCCGGAGCCTAAATCCACCACTACCTGCGGCATTAACGGTTTACCGCGCCAGA -AGTCATCATGACGTTGTAGGCGAATAAATTGCCCGGCGCGGTATTCCGACAACTGATACGGACCGGTGCCGACCG -GTTGACGGTCGAGTTGCTCCTGGCGATCTTCTTTCTCTAACTTCCGGGCATATTCTGCCGACATGACCGAAGCAT -AATGGGTTGCGAGGTGCCACAAAAAAGAAGCATCCGGCTGGGCGAGTCGGAACTCAACGGTATGATTATCCAGTT -TGCGGACGCTTTTCACGTTATCGGCAAATTGCAGGCTGTCGAAGTAGGGGAAGTTGCTGCCGTTGACGTTATGCC -ACGGGTTGTTGCGGTCAAAAATTCGCTGGAAGGTAAACACCACATCGTCGGCATTCATTTTACGAGTGGGAGTAA -ACCAGTCGGTTTTTTGAAACGGAACATCGCGACGCAGGTGGAAGCGATAGGTCGCGCCGTTGTCGAGTACTTCCC -AGCTTTCGGCAAGTTCCGGCATCAGGCGATAGGTATAGGGATCGACATCCAGCAGTCGATCATAAAACTGGGCGG -CAAGGGTATCGACAATTAACCCACTGCTCGCTTTGGATGGGTTAAAGGTGTTGACTTGCCCGCTGACGCAATAGA -CAAAACCGCTGTCGCGGATATCAGCATGCGGGGGAGATTCAGGCGCGGCGATTGCCTGACCACTCACAAGTCCAG -CAATCACCAAAAGAGACGATAATACCTGGCGCATAATATTAAGGGATTTTATGTAAAGAGGCTATCTTACTAATA -TTTAATGACATTTGCCATTACCGTTTGTGTTCAGGGGTCGTAATGAGGGCCGTGTGGTTGGTCGTTGAACAGGTG -ACGTCGCCATCTGTTCAACATTCGTACCCGTGATTTCTCTATAACTATAACTCACAGAACAACTTAGCGAGGAGC -AGAGCGGTACGATCGTGAGAAACCCATTAAAGCACGCTGCAGTGCGTGTCATTGTTAGCCAGATGCGGCGTGAAC -GCTTTATCCGGACAACGATACTGACCGATCGTCTGCAATTAAATCATTACTCATTACCCCATTGATTCAAAAACT -CTGCGATCTCATCAATGCGTACGGGATTAATCCCCGCTTCAGCAGCCATTTCATGTTGGGCTTCTTCGCTGATCT -CTTCATTGTTCATCAAACGGGTGAGCAGTAACTGGAAGTAGTGGGCCAGCGGTGTGCGTTCAGCCTCTGCGACAG -GCTCTGCGCATTCGGTCGCGTACTCATCGGCAATATCAAAATATTTTAGCGGGATATCGTGGTTCATTATTTGCC -CCTGGGGTTAATGCGCTAAGCATAAGGGCGGATGATAGCACTCGTGATCCGGGTCATACATCTTTTTATAGTTAA -TGGCGCGGCGCGTTACCCTCAGGCAGGATAATGCGCCGCGCATCCGACTATTACGTTTCACTCACCGGCGTTCTG -TCACCATCATACAACGGCACTTTGCGATAGCGGCGGATCAGATACCATAAATATGCGCCGCCTAACGAAGCCCAT -ACCAGACCGAGTGTCAGTGACGTTGACTCGAGGTTAACCCACAGCACACCCACCGTCAGCGCGCCAACCAGCGGC -ATCAGCAAATAGTGGAAGTGATCCTTCCAGCTTTTATTCATTCCTTTACGCCGCCAGAAATGATTAAACACCGAC -AGATTCACGAAGGTAAACGCCACCAGAGCACCGAAGTTAATTAACGCTGTGGCGGTAACTAAATCGAAGAACAGC -GCCGACAACGCGACAATCCCGACCATAATGACGTTGAGTGCCGGAGTCCGCCATTTTGGGTGCACATAGCCAAAC -ACGCGCTCCGGAAACACATTGTCACGCCCCATCACATACAGCAGACGCGACACGCTGGCATGTGAAGCCAGGCCA -GAGGCTAACGTGTTCACAAACGTGGTGCAGAGGAAAATCGACTGGAAGAGCTTGCCGCCGACGTACAGCGCAATT -TCAGGCAGTGCGGCATCCGGATCTTTAAAGCGGCTGATATCGGGAAAGAACAGCTGCATAAAGAACGACGCCGCG -ATAAAGATAACGCCACCGTAGACCGCCGTCAGGAAGATGGCTTTCGGGATCACGCGTGCGGCGTCCGGCGTCTCT -TCCGAAAGCGTGGTCACCGCATCGAAACCGAGGAAGGAGAAACAGACAATCGTCGCCCCGGTAATAATCGGGATC -AGGTGCGCGTTCTCGCTGATAAACGGCTGAAGTGACCAGACGGTGCCAACGCCTTCTCCTTTATGCAGTCCCTGA -ACTACCAGGAAGATAAACACCACCATGATGGAGATTTGCACCAGTACAAACAGGGTATTGAAGTTAGCGACCAGG -TTGACGCTCTTCAGATTCGCGGCGGTTAAAATGGCGACGAAGGTTACCACCCACACCCACGGCGGCACTTCCGGG -AAGAGGGCGGAGAGATAGATTTTCGCCAACAAGACGTTAATCATCGGCAAAAAGAGATAATCCAGCAGCGATGAC -CAGCCGACCATAAATCCGACGTGCGGGTTAATCGACTTTTGCGCGTAGGTATAGGCCGAACCGGCCTCCGGAAAC -TGGCGAACCAGTTTGCCGTAGCTGATAGCGGTAAACAGCACACCCGCCAGCGCCAGCAAATAGGACGCCGGAACG -TGACCGTCGCTAATGCCGGAGACAATACCAAAAGTATCAAATACGGTCATCGGCGTGAGATAGGCCAGACCCATC -ATCACCACCTGCCACAATTTCAGTGATTTTCGCAGACGGGTTTTGCCGGGTTGCGCAGCAATATTCAGTGGTGAA -TTAATAGCCATAATTGCTGCCTCCCCTGCGTAATAAGGTTTGCGGTCGTGTCGACCTGAAATCAAACCTGTTTAG -CAAGGGAAGCAAAGGGGGCGGAGTCCAGTCAGTAGCAGGAGGGGCGCATACGCAGCCTCCCTCGCCATGCGGGGA -TTTAATCATCGGCATCATCTCATTTCCTCGTCACAGTCTTAATCGTTAACGGAAGCCCGTTGCCGCCCGCGCTCC -ATAACGCGACATCCGGGAAATGTCTGGATTACCAGCAAATGTCAGGCCTGGCTCCGCTCAGGCCGATGAAACAAC -CCCGCAAGGGGTATTACGCGTTTTTCAACATCCACTCAATTTCTGTTTCTGTGATGAGGCGCTCAAACTGCAACA -GCTCATCATTTTTACAGGCGTGATAGACATGGCAGAAGCGTTCGCCTAAATAGCGGCGCAGGTGATCATTCTCGA -TAAACTCACCCAGGGCATCGCTCTGGCGAATCGGAAAGGGTAAGCCTTCCTGTTCCAGCCCGTTGCCTTCGACTT -CTTCCTGCAACGGCAGCTCGTTATCAAGGCCATGCAAAATACCGGCAAAAATCGCTGCCATCACCAGATATGGGT -TGGCATCGGCACCCGCCACGCGATATTCCACGCGGTGATTATGACGGTCGCCGCACGGAATACGCAGGGCGACGG -TGCGGTTGTTATGGCCCCACGACGCCTGCGTCGGCACATACATTCCCGGCTGGAAGCGGCGATACGAGTTCACGT -TTGGTGCCAGCAACGCCATCGACGACGGCATCAGGTCAATCATCCCGGCGAGCATCTTTTTCAGCAGCGGCGAAT -CTTCGCCTTCCGCGTCAGAAAGCACGTTCTCGCCACGATTATTTTGCATACTGATATGGATATGCATTCCGCTGC -CCGCGTGCTCTTCATACGGCTTCGCCATAAAAGTGGCGTGCATCTTATGCTTTTCTGCCATCAGACGCACCAGGC -GTTTTAGTGCCAGCGCATCATCGCAGGCTTCCAGCACGTTATCAGTATGGTAAAGGTTGATTTCAAACTGACCCG -GCGAGGCCTCAGCGACCGCGCCATCTGCCGGAATCAGCTGTAACTGCGCCAGTTCATCAATATCATTGAGCACGT -CGGCGAAGTGGTTGAGGTTATCAACGGAGTAAACCTGGCTTTGTGTATTGCGGTCATCGGTGCCAGGCGCGCAGG -GCGGTTGCAGATACCCTTCAGCGTCGCGCTGGCGATCCAGTAAATAGAACTCCAGCTCTACCGCTACGACCGGGA -ACAATCCGCGCTGGCGCAGCTGCTGCCACAGGCGGTTAAGAACGTTCCGCGGCTCAACGTCAAAGGGAGCGCCAT -CTTCATCGACCATGGTCAGGAGCATCTGACCGATAAACTCTGGATCGGCGGCAGAAGGAGTTAAGGAACCGAGAA -CAGGAACACAGGTACGATCCGGCTCGCCCATTTCCTGACCCAGACCTGCTTCTTCTACTACGTTGCCCAGAATAT -CCATTGCAAATACCGAGGCCGGGAAATAACACCCTTTCTCGAGCTTCTTCAGGCTTGAAACAGGAATACGCTTTC -CACGGAAGCAACCATTTAAATCGGTAAGTAAAACATCAACATATTGCGTATTCGGGTAGCGCTCCAGGTAGCGTT -TCACTTCCTGCGTAAAGGCGCTACCCCGCCTCTCTTCTGACTGCTGAACAAAGTTCTCTACTTCAACGATATTGG -TTTCCATGATTCTTCGCCTTTGGTTTGTTTTCCGCTCGTTATCAAAGCGTAAAATATAATGACCACCATTCGAAT -CTGTATGCAAACTAAATGTTTGTCAAATGTTAAATTGAGTTTGCAAAAATGAAAACCCACTGCTAGATTGAAAAA -ATATTGAACATAAAGGTCATTTAAAGCGCAGTAATGGCGATAATTTAGTCCACTTTGTGAGATTGAGCATGGAAA -ATATAATGAACAATCCGGTTATCGGTGTCGTAATGTGCAGGAACAGGCTTAAGGGTCATGCGACCCAGACTCTGC -AAGAAAAGTACCTGAATGCCATCATCCATGCAGGCGGCTTGCCTATTGCGCTACCACATGCGCTGGCGGAACCGT -CATTACTTGAACAACTTTTGCCGAAACTCGATGGCATTTATCTTCCTGGTAGTCCCAGCAATGTGCAGCCGCACC -TATATGGTGAAAACGGCGATGAGCCTGACGCCGATCCCGGGCGTGATCTTCTGAGCATGGCGATAATTAATGCCG -CACTCGAAAGGCGCATCCCCATTTTCGCCATCTGCCGGGGTTTACAAGAACTGGTGGTGGCAACCGGTGGTTCGT -TGCATCGCAAGCTGTGCGAACAGCCTGAATTGCTGGAACATCGGGAAGATCCCGAACTGCCGGTGGAACAGCAAT -ATGCACCGTCGCATGAAGTTCAGGTTGAAGAGGGGGGATTACTGTCTGCGTTGTTACCTGAATGTAGCAACTTTT -GGGTAAACTCTCTACATGGACAAGGGGCGAAGGTCGTTAGCCCACGGTTGCGTGTTGAAGCTCGCTCGCCGGATG -GCTTAGTTGAGGCGGTTAGCGTCATCAATCATCCTTTTGCGCTGGGCGTACAGTGGCACCCGGAATGGAACAGTA -GCGAGTACGCGCTTTCGCGTATATTGTTCGAGGGCTTTATCACCGCTTGTCAGCACCATATCGCTGAAAAACAGC -GACTCTGACCACTACAGTTTAAGGAAATGCAAATATGAGTGATGAGGGACTGGCGCCAGGAAAACGCTTGTCGGA -AATCCGCCAGCAGCAGGGGCTTTCACAACGTCGTGCCGCCGAACTCTCCGGGCTGACTCACAGTGCTATCAGTAC -GATAGAACAAGATAAAGTCAGCCCTGCCATCAGTACGCTGCAAAAGCTGCTGAAGGTGTATGGTCTGTCACTCTC -GGAATTCTTTTCCGAGCCGGAAAAACCTGATGAGCCGCAGGTCGTCATTAATCAGGACGACTTAATTGAGATGGG -TAGTCAGGGTGTGTCAATGAAGCTGGTTCATAACGGTAACCCGAATCGCACGCTGGCGATGATCTTTGAAACGTA -CCAGCCGGGCACAACCACTGGGGAAAGAATTAAGCATCAGGGTGAGGAAATAGGCACTGTACTGGAAGGTGAAAT -TGTTCTGACGATTAATGGTCAGGATTACCACCTCGTCGCGGGGCAAAGTTATGCCATTAATACCGGCATCCCGCA -CAGTTTCAGTAATACGTCGGCAGGTATTTGCCGAATTATCAGCGCCCATACGCCCACCACGTTTTAATCTTTTTG -TTCTGTAAGCCGGGTAAGCGCAATGCGCCCGGCAATCTATACACAAAATCATTCAAGTTGCATCAAGGCGGCAAG -TGAGCGAATCCCGATGAGCTTACTCAGGTAAGTGATTCGGGGGAGCGAACGCAGCCAAGGCAGAGGCGGCTTGAA -GGATGAAGTGTATATAAAGAATGTCGCCAGAAATAAACGGGCATACGGCCCGGGGATCTCTGCGCCCTGACGTTC -ACAAACTGCATATATCTGATAGACGTGAAACAGGAGTCATAATGAATTTTCATCATCTGGCTTACTGGCAGGATA -AAGCGTTAAGTCTCGCCATTGAAAACCGCTTATTTATTAACGGTGAATATACTGCTGCGGCGGAAAATGAAACCT -TTGAAACCGTTGATCCGGTCACCCAGGCACCGCTGGCGAAAATTGCCCGCGGCAAGAGCGTCGATATCGACCGTG -CGATGAGCGCAGCACGCGGCGTATTTGAACGCGGCGACTGGTCACTCTCTTCTCCGGCTAAACGTAAAGCGGTAC -TGAATAAACTCGCCGATTTAATGGAAGCCCACGCCGAAGAGCTGGCACTGCTGGAAACTCTCGACACCGGCAAAC -CGATTCGTCACAGTCTGCGTGATGATATTCCCGGCGCGGCGCGCGCCATTCGCTGGTACGCCGAAGCGATCGACA -AAGTGTATGGCGAAGTGGCGACCACCAGTAGCCATGAGCTGGCGATGATCGTGCGTGAACCGGTCGGCGTGATTG -CCGCCATCGTGCCGTGGAACTTCCCGCTGTTGCTGACTTGCTGGAAACTCGGCCCGGCGCTGGCGGCGGGAAACA -GCGTGATTCTAAAACCGTCTGAAAAATCACCGCTCAGTGCGATTCGTCTCGCGGGGCTGGCGAAAGAAGCAGGCT -TGCCGGATGGTGTGTTGAACGTGGTGACGGGTTTTGGTCATGAAGCCGGGCAGGCGCTGTCGCGTCATAACGATA -TCGACGCCATTGCCTTTACCGGTTCAACCCGTACCGGGAAACAGCTGCTGAAAGATGCGGGCGACAGCAACATGA -AACGCGTCTGGCTGGAAGCGGGCGGCAAAAGCGCCAACATCGTTTTCGCTGACTGCCCGGATTTGCAACAGGCGG -CAAGCGCCACCGCAGCAGGCATTTTCTACAACCAGGGACAGGTGTGCATCGCCGGAACGCGCCTGTTGCTGGAAG -AGAGCATCGCCGATGAATTCTTAGCCCTGTTAAAACAGCAGGCGCAAAACTGGCAGCCGGGCCATCCACTTGATC -CCGCAACCACCATGGGCACCTTAATCGACTGCGCCCACGCCGACTCGGTCCATAGCTTTATTCGGGAAGGCGAAA -GCAAAGGGCAACTGTTGTTGGATGGCCGTAACGCCGGGCTGGCTGCCGCCATCGGCCCGACCATCTTTGTGGATG -TGGACCCGAATGCGTCCTTAAGTCGCGAAGAGATTTTCGGTCCGGTGCTGGTGGTCACGCGTTTCACATCAGAAG -AACAGGCGCTACAGCTTGCCAACGACAGCCAGTACGGCCTTGGCGCGGCGGTATGGACGCGCGACCTCTCCCGCG -CGCACCGCATGAGCCGACGCCTGAAAGCCGGTTCCGTCTTCGTCAATAACTACAACGACGGCGATATGACCGTGC -CGTTTGGCGGCTATAAGCAGAGCGGCAACGGTCGCGACAAATCCCTGCATGCCCTTGAAAAATTCACTGAACTGA -AAACCATCTGGATAAGCCTGGAGGCCTGAAATGACCGAACATACCAGCAGTTACTACGCCGCCAGTGCGAATAAA -TATGCACCATTCGACACGCTGAATGAGTCAATCACCTGCGACGTTTGCGTGGTTGGCGGCGGCTATACCGGGCTC -TCCTCCGCGCTGCATCTGGCGGAAGCGGGCTTTGACGTAGTGGTTCTCGAAGCCTCACGCATCGGCTTTGGCGCA -AGCGGGCGCAATGGCGGACAGCTTGTGAACTCCTACAGCCGCGACATCGACGTGATCGAAAAAAGCTACGGCATG -GACACCGCCCGTATGCTCGGCAGCATGATGTTCGAAGGTGGTGAGATCATCCGCGAACGTATCAAACGTTATCAG -ATTGACTGCGACTACCGCCCCGGCGGCCTGTTTGTGGCGATGAATGATAAACAGCTCGCCACACTTGAAGAGCAG -AAAGAGAACTGGGAACGCTACGGCAATAAACAGCTGGAATTGCTGGACGCCAACGCCATTCGCCGTGAAGTAGCC -AGCGATCGCTATACCGGTGCGCTGCTGGATCACAGCGGTGGGCATATTCATCCGCTAAACCTTGCCATTGGCGAA -GCGGACGCCATCCGCCTCAACGGCGGGCGCGTGTATGAACTTTCTGCCGTGACGCAGATCCAGCACACCACGCCA -GCCGTTGTGCGAACTGCCAAAGGTCAGGTGACGGCGAAGTATGTGATTGTCGCCGGGAATGCGTATCTGGGCGAT -AAAGTAGAGCCGGAACTGGCGAAACGCAGCATGCCGTGCGGCACGCAGGTGATCACCACCGAACGGCTGTCGGAA -GATTTAGCCCGTTCGCTGATCCCGAAAAACTACTGTGTGGAAGACTGTAACTATCTGCTTGATTACTACCGTCTT -ACCGCCGACAACCGCCTGCTGTACGGCGGCGGCGTGGTCTACGGCGCGCGCGACCCGGATGACGTTGAGCGCCTT -GTGGTGCCGAAACTGCTGAAAACCTTCCCGCAGCTGAAGGGCGTGAAAATTGATTACCGCTGGACGGGCAACTTC -CTGCTGACCCTGTCGCGTATGCCGCAGTTTGGTCGCCTCGATACCAACATCTATTACATGCAGGGCTACAGCGGC -CACGGCGTGACCTGTACTCATCTAGCCGGACGTTTGATTGCCGAACTGCTGCGCGGCGACGCCGAACGTTTCGAT -GCCTTCGCCAATCTGCCGCATTACCCGTTCCCCGGCGGGCGCACGCTGCGTGTGCCGTTTACCGCGATGGGCGCG -GCGTATTACAGCCTGCGCGATCGTCTGGGCGTTTAATTTCCGATTAACCGTGAAGAGTCAAAAGGTGTGAAACAT -GAGCAACAATGAATTCCATCAGCGTCGTCTTTCTGCCACTCCGCGCGGGGTTGGCGTGATGTGTAACTTCTTCGC -CCAGTCGGCTGAAAACGCCACGCTGAAGGATGTTGAGGGCAACGAGTACATCGATTTCGCCGCAGGCATTGCGGT -GCTGAATACCGGACATCGCCACCCTGATCTGGTCGCGGCGGTGGAGCAGCAACTGCAACAGTTTACCCACACCGC -GTATCAGATTGTGCCGTATGAAAGCTACGTCACCCTGGCGGAGAAAATCAACGCCCTTGCCCCGGTGAGCGGGCA -GGCCAAAACCGCGTTCTTCACCACCGGTGCGGAAGCGGTGGAAAACGCGGTGAAAATTGCTCGCGCCCATACCGG -ACGCCCTGGCGTGATTGCGTTTAGCGGCGGCTTTCACGGTCGTACGTATATGACCATGGCGCTGACCGGAAAAGT -TGCGCCGTACAAAATCGGCTTCGGCCCGTTCCCTGGTTCGGTGTATCACGTACCTTATCCGTCAGATTTACACGG -CATTTCAACACAGGACTCCCTCGACGCCATCGAACGCTTGTTTAAATCAGACATCGAAGCGAAGCAGGTGGCGGC -GATTATTTTCGAACCGGTGCAGGGCGAGGGCGGTTTCAACGTTGCGCCAAAAGAGCTGGTTGCCGCTATTCGCCG -CCTGTGCGACGAGCACGGTATTGTGATGATTGCTGATGAAGTGCAAAGCGGCTTTGCGCGTACCGGTAAGCTGTT -TGCCATGGATCATTACGCCGATAAGCCGGATTTAATGACGATGGCGAAAAGCCTCGCGGGCGGGATGCCGCTTTC -GGGCGTGGTCGGTAACGCGAATATTATGGACGCACCCGCGCCGGGCGGGCTTGGCGGCACCTACGCCGGTAACCC -GCTGGCGGTGGCTGCCGCGCACGCGGTGCTCAACATTATCGACAAAGAATCACTCTGCGAACGCGCGAATCAACT -GGGCCAGCGTCTCAAAAACACGTTGATTGATGCCAAAGAAAGCGTTCCGGCCATTGCTGCGGTACGCGGCCTGGG -GTCGATGATTGCGGTAGAGTTTAACGATCCGCAAACGGGCGAGCCGTCAGCGGCGATTGCACAGAAAATCCAGCA -ACGCGCGCTGGCGCAGGGGCTGCTCCTGCTGACCTGTGGCGCATACGGCAACGTGATTCGCTTCCTGTATCCGCT -GACCATCCCGGATGCGCAATTCGATGCGGCAATGAAAATTTTGCAGGATGCGCTGAGCGATTAATAGCCCAACGC -AATAATGTCTGATGCGCTGCGCTTATCAGGCCTGCAAACGACGTATTGATTATGTATGCCGAATAAAGCATTCAC -GCCGCATCCGGCAAGTTGTATTGCTCAACTTCGCTAAATCTGGTGCTTTTTCAACAACGCGCGGAACTGATGATA -AGTTAACCCCAGTAATTCAGCCGCGCGCTTCTGGTTATATTTCCCTTGTTGCAAACTGAGTTGCAGCAACTCTTT -TTCCTGCTGCATCTGAAACTCACGTAAATCCAGCGGCAGTGTTGGAAGCGAGGTGGTTTCTGAAACGGCGATAGC -GTCTTCAGGCGGACGCCGTTTAAAGGGATCAATAATGATGTCATCAAGCGGATAATCGCTGGTGCCGTGGCGATA -CACTGAACGTTCCACCACGTTTTTCAATTCACGAATATTTCCCGGCCAACGATAATTCAGCAATGTTTCTCTGGC -GCGCTCCGTAAACCCCGGGAACAGAGGCAGCTTGATTTCCCGACACATCTGGATGGCAAAGTATTCTGCCATCAA -CATTATGTCGCTTTCGCGCTCGCGCAGTGGTGGCAGTTGTACAACATCAAAAGCCAGTCGGTCGAGCAGGTCAGC -GCGAAAAGTGCCTTCATTGACCATCGCCGGGAGATCGGCATTCGTCGCGCATACCAACCGCACATTCACCTGCAA -TGGTTGGCTGCCGCCAACGCGCTCCAGTTCACCGTACTCAATCACGCGCAATAATTTCTCCTGCACCATCATCGG -TGCCGTAGCGAGTTCATCAAGAAATAGCGTACCGCCGTCGGCACGTTCAAATCTCCCTGGATGACGTTTTTGCGC -ACCGGTAAACGCCCCCGCTTCGTGACCAAACAGTTCGGAATCCAGCAGATTTTCATTTAACGCCGCGCAGTTAAG -GGAAATAAACGGCCCTTGCCAACGGGAGGAGAGATAATGCAGGCGGCTGGCAATCAGCTCTTTACCGGTGCCGCG -TTCGCCGATGATGAGCACCGGTTTGTCCAGCGGTGCGAGATGCGAAACCTGTTCCAGCACTTCGAGAAAGCTGTT -CGCCTCACCAAGTAAATTATCTTTGTATTCTGCCATGATGAAATTCGCCACTTGTTAGTGTAATTCGCTAACTCA -TCCTGGCATGTTGCTGTTGATTCTTCAATCAGATCTTTATAAATCAAAAAGATAAAAAATTGGCACGCAAATTGT -ATTAACAGTTCAGCAGGACAATCCTGAACGCAGAAATCAAGAGGACAACATTATGGGTATTTTTTCTCGCTTTGC -CGACATCGTGAATGCCAACATCAACGCTCTGTTAGAGAAAGCGGAAGATCCACAGAAACTGGTTCGTCTGATGAT -CCAGGAGATGGAAGATACACTGGTTGAAGTACGTTCTACTTCGGCGCGCGCGTTGGCAGAAAAGAAACAGCTGAC -TCGCCGTATTGAACAAGCGTCGGCGCGTGAGGTTGAATGGCAGGAAAAAGCCGAACTGGCGCTGCTGAAAGAGAG -AGAGGATCTGGCACGTGCAGCGTTAATTGAAAAACAGAAACTGACCGATCTGATTAAGTCCCTGGAACATGAAGT -GACGCTGGTGGACGATACGCTGGCACGCATGAAGAAAGAGATTGGCGAGCTGGAAAACAAATTGAGCGAAACACG -CGCTCGCCAGCAGGCATTGATGTTACGTCATCAGGCGGCAAACTCGTCGCGCGATGTGCGTCGTCAGCTGGACAG -TGGCAAACTGGATGAAGCAATGGCTCGTTTCGAATCTTTCGAACGTCGTATTGACCAGATGGAAGCGGAAGCAGA -AAGCCACAGCTTCGGTAAACAAAAATCGCTGGACGATCAGTTTGCCGAACTGAAAGCCGATGATGCAATCAGCGA -ACAACTGGCACAATTAAAAGCCAAAATGAAGCAAGACAATCAATAATAACATCCAGGCGGCGTCCGAACGCGCCG -CCGCTCATCGTCTAAGGAGTACTTATGAGCGCGCTATTTCTGGCTATTCCGTTAACCATTTTTGTGCTGTTTGTT -TTACCGATCTGGTTATGGCTGCATTACAGCAATCGTTCTGGTCGCAGTGAATTGTCGCAAAGTGAGCAGCAGCGA -TTAGCGCAACTGGCTGATGAAGCAAAACGGATGCGCGAACGTATTCAGGCGCTGGAATCTATTCTTGATGCAGAA -CATCCGAACTGGAGGGATCGCTAATGGCGGGCATTAATCTCAATAAAAAATTATGGCGTATTCCACAGCAGGGCA -TGGTCCGCGGCGTCTGCGCCGGGATTGCCAACTATTTTGATGTACCGGTAAAACTGGTGCGTATCCTGGTGGTGC -TGTCGATTTTCTTCGGTCTGGCGCTGTTTACCCTGGTTGCTTACATCATTTTGTCATTTGCGCTTGATCCAATGC -CGGACAACATGGCCTTTGGTGAGCAGCTACCTTCCAGCAGCGAATTGCTGGATGAAGTCGACCGTGAACTGGCGG -CAAGTGAAACGCGTTTACGCGAGATGGAACGTTATGTCACTTCCGATACTTTCACGTTACGTAGCCGTTTCCGTC -AACTGTGAGGAAAGTTATGAATACTCGCTGGCAACAGGCCGGGCAAAAGGTAAAGCCTGGTTTCAAATTAGCAGG -CAAGCTGGTACTTCTTACCGCACTGCGCTATGGCCCGGCGGGTGTGGCGGGCTGGGCGATAAAATCAGTTGCTCG -CCGACCGCTGAAAATGTTGCTGGCTGTGGCGCTGGAACCGCTGTTAAGTCGGGCTGCTAATAAACTGGCACAGCG -TTATAAAAGGTGAGGGGAGTTTCGCAAAAATTGTTAAATCTCAGGCGTATAATGGATGGCAATTTTCATCCATAG -AAGGACGCTTACATGTTTAAAAAAGGCTTACTTGCTCTGGCACTGGTGTTTTCACTGCCCGTTTTCGCCGCTGAA -CACTGGATCGATGTTCGTGTTCCAGAGCAGTATCAGCAAGAGCACGTTCAGGGGGCCATCAATATTCCCCTGAAG -GAAGTGAAAGAGCGCATTGCCACCGCCGTTCCGGATAAAAACGACACCGTGAAAGTGTATTGCAATGCCGGACGC -CAGTCAGGGCAAGCAAAAGAGATCCTTAGCGAGATGGGATATACCCACGTTGAGAACGCCGGTGGCCTGAAAGAC -ATCGCAATGCCGAAGGTCAAAGGTTAAAAGAATTCACCATGAGCGGCGCTTATGCGCCGTTTTTTTTTCTGTCAC -ACCTTATTTACATCCCCATAGATTATTTGCGTCAGCTCACAAATACGCTTTTTCCCTGGTAAAAAATGATTTCCT -GCGTGACTAAAACCCTTGTGCTCAATTGACAGTTTATTTTCTGCGGAGTAGTCTCTCGTTTCATGGGACCGCTAC -CACGGAAAGGCAACATGAAACAGAAAATTACGGATTACCTGGACGAAATCTACGGTGGAACATTTACCGCAACTC -ATTTACAGAAACTTGTAACGCGTCTTGAGAGTGCGAAACGATTAATTACACAGCGACGTAAAAAACACTGGGATG -AAAGTGATGTCGTGTTAATTACCTATGCCGATCAATTTCACAGCAATGATTTAAAACCATTACCCACATTTAATC -AGTTTTACCATCAATGGCTGCAAAGCATTTTTTCACATGTTCATTTGTTGCCGTTTTATCCATGGTCATCTGATG -ATGGCTTTTCGGTAATTGATTATCATCAGGTCGCCAGTGAAGCGGGGGAGTGGCAGGATATTCAGCAACTCGGTG -AATGCAGTCATTTAATGTTTGATTTTGTCTGCAACCATATGTCGGCAAAAAGTGAATGGTTTAAAAACTATTTAC -AACAGCATCCAGGTTTTGAAGATTTTTTTATTGCCGTTGACCCGCAAACCGATCTCAGCGCCGTCACTCGCCCGC -GTGCGTTACCGTTATTAACGCCATTCCAGATGCGCGATCATTCAACGCGCCATTTATGGACCACCTTTAGTGACG -ATCAAATTGACCTGAATTACCGTAGCCCTGAAGTGTTGCTGGCGATGGTGGATGTTTTACTCTGTTACCTTGCGA -AAGGTGCTGAGTATGTCCGCCTGGATGCCGTTGGCTTTATGTGGAAAGAGCCGGGAACAAGCTGCATCCATCTGG -AAAAAACACATCTGATTATCAAACTGTTACGGTCGATTATTGATAACGTTGCGCCAGGTACAGTGATCATTACCG -AGACCAATGTTCCGCATAAAGACAACATTGCTTACTTTGGCGCAGGCGATGACGAAGCACATATGGTGTACCAGT -TCTCGCTGCCGCCACTGGTGCTGCATGCGGTGCAAAAACAGAACGTTGAGGCGCTTTGTGCGTGGGCGCAAAACC -TGACACTACCTTCCAGCAACACCACCTGGTTTAACTTCCTCGCCTCTCACGATGGCATCGGGCTAAACCCGCTAC -GGGGCTTGTTGCCTGAAAGCGAAATATTAGAGCTGGTCGAGGCGTTACAGCAGGAAGGTGCATTAGTAAACTGGA -AAAATAATCCCGACGGTACACGCAGTCCGTATGAAATAAATGTGACCTATATGGATGCGTTAAGCCGCCGTGAGA -GTAGCGATGAAGAACGTTGCGCCAGGTTTATCCTTGCCCATGCGATTTTGTTAAGTTTCCCCGGTGTGCCAGCGA -TATATATTCAAAGTATTCTTGGCTCGCGTAATGATTACGCAGGTGTCGAAAAACTCGGATATAACCGTGCGATTA -ACCGTAAAAAATATCACAGTAAAGAGATAACCCGAGAACTGAACGATGAAGCTACATTAAGGCATGCGGTATATC -ATGAGTTGTCGCGTTTAATTACACTTCGTCGCAGCCATAACGAGTTTCATCCGGATAATAATTTTACCATTGATA -CGATTAATTCATCCGTAATGCGTATTCCAAGAAGTAACGCTGATGGTAATTGTCTGACTGGATTGTTTAATGTCA -GTAAAAATATTCAGCATGTAAATATTACTAATCTGCATGGTCGGGATCTGATTAGTGAAGTTGATATATTGGGTA -ATGAAATAACGCTGCGCCCCTGGCAGGTTATGTGGATTAAATAAAAAGGAACATCTCATGATTAAATCAAAAATC -GTGCTGTTATCAGCACTGGTTTCATGCGCCCTGATTTCAGGCTGTAAAGAAGAAAATAAAACGAATGTATCCATC -GAATTTATGCATTCTTCGGTGGAGCAGGAGCGCCAGGCCGTTATCAGTAAATTGATTGCCCGTTTTGAAAAAGAA -AACCCTGGCATCACCGTTAAGCAAGTGCCCGTGGAAGAAGATGCCTATAACACTAAAGTCATTACTCTTTCACGT -AGCGGTTCGCTGCCGGAAGTGATCGAAACCAGCCATGACTACGCCAAAGTGATGGACAAAGAGCAGCTTATCGAT -CGCAAAGCGGTTGCCACAGTCATCAGCAACGTTGGTGAAGGCGCGTTTTACGATGGCGTACTGCGTATTGTGCGT -ACCGAAGATGGTAGCGCATGGACCGGTGTTCCTGTCAGCGCCTGGATTGGCGGTATCTGGTATCGCAAAGATGTG -CTGGCAAAAGCGGGGCTTGAGGAGCCGAAAAACTGGCAACAGCTGCTGGACGTTGCACAGAAACTGAATGACCCG -GCGAATAAAAAATACGGCATTGCGCTGCCTACAGCAGAAAGCGTGTTGACGGAACAATCCTTCTCCCAGTTTGCG -TTATCCAACCAGGCTAACGTCTTTAACGCCGAAGGCAAAATCACCCTTGATACACCAGAGATGATGCAGGCACTG -ACCTATTACCGCGACCTTACTGCCAACACTATGCCGGGTTCTAACGACATCATGGAAGTGAAAGACGCCTTTATG -AACGGCACCGCGCCGATGGCGATTTACTCCACCTATATCCTTCCGGCTGTGATTAAAGAAGGCGACCCGAAAAAC -GTCGGTTTCGTGGTGCCAACCGAGAAAAACTCTGCGGTCTACGGCATGTTGACCTCGCTGACCATTACCGCCGGG -CAAAAGACCGAAGAGACGGAAGCAGCAGAAAAATTTGTCACCTTTATGGAGCAGGCAGACAACATTGCCGACTGG -GTGATGATGTCGCCAGGTGCTGCGCTGCCGGTGAATAAAGCGGTGGTGACTACCGCCACCTGGAAAGACAACGAC -GTTATTAAGGCGCTGGGTGAACTACCGAATCAGCTAATCGGTGAACTGCCAAATATTCAGGTTTTTGGCGCAGTA -GGGGATAAAAACTTTACCCGCATGGGTGATGTGACGGGTTCTGGCGTGGTGAGTTCAATGGTGCATAACGTCACC -GTGGGTAAAGCCGATCTCTCTACTACGCTGCAAGCGAGCCAGAAAAAACTGGATGAACTGATCGAACAGCACTAA -ACCCAGGACAGGAATCCGCAATGAACAGGCTTTTTTCAGGTCGTTCCGATATGCCCTTTGCGCTGCTGCTTCTCG -CGCCCAGCTTATTACTGCTGGGCGGTCTGGTGGCGTGGCCGATGGTGTCGAATATCGAAATCAGTTTTTTACGTC -TGCCGCTCAATCCCAACATCGAGTCAACGTTTGTTGGGGTGAGCAACTATGTGCGTATCCTCTCCGATCCCGGCT -TCTGGCATTCGCTGTGGATGACGGTCTGGTATACCGCGCTGGTGGTGGCGGGCAGCACCGTGCTCGGGCTGGCGG -TGGCGATGTTTTTCAACCGCGAGTTCCGCCTGCGCAAAACCGCGCGTTCGCTGGTGATCCTCTCCTACGTAACGC -CGTCCATTTCGCTGGTGTTCGCCTGGAAATACATGTTCAACAACGGCTACGGCATTGTTAACTACCTCGGCGTCG -ATCTTCTGCATCTCTATGAGCAGGCACCGCTGTGGTTCGATAATCCGGGCAGTAGCTTTGTGCTGGTGGTGCTGT -TCGCCATCTGGCGCTACTTCCCGTATGCCTTTATCTCGTTTCTGGCGATTTTGCAGACCATCGACAAATCGCTGT -ACGAAGCGGCAGAGATGGATGGCGCTAATGCCTGGCAACGGTTTCGTATCGTCACGCTGCCCGCAATTATGCCGG -TCCTGGCGACGGTGGTGACACTGCGCACCATCTGGATGTTCTACATGTTCGCGGATGTTTATTTGCTGACGACCA -AGGTCGATATTCTCGGTGTATATCTCTACAAAACCGCCTTTGCCTTTAATGATTTAGGAAAAGCGGCGGCGATCT -CGGTGGTGCTCTTCATCATTATTTTCGCTGTCATTCTGCTGACCAGGAAACGGGTGAACCTCAATGGCAACAAAT -AAACGCACACTCAGTCGCATCGGTTTTTACTGCGGGCTGGCGCTGTTTCTCATCATCACGCTGTTTCCATTTTTT -GTGATGCTGATGACCTCGTTCAAGGGCGCGAAAGAGGCGATCTCACTGCATCCTACGCTGCTGCCGCAGCAGTGG -ACGCTGGAGCATTACGTCGACATTTTTAACCCGATGATTTTCCCGTTTGTCGACTACTTCCGTAACAGTCTGGTG -GTGTCTGTGGTTTCATCCGTGGTGGCGGTATTCCTCGGCATTCTTGGGGCTTACGCGCTTTCCCGCCTGCGCTTT -AAAGGTCGGATGACCATCAACGCCAGCTTTTACACGGTGTATATGTTCTCTGGCATTTTGCTGGTGGTGCCGCTT -TTCAAAATCATCACCGCGCTTGGCATTTACGACACTGAGATGGCGCTGATCATCACCATGGTGACGCAAACTCTG -CCCACCGCCGTGTTTATGCTGAAAAGCTACTTCGACACCATCCCCGATGAGATCGAAGAAGCGGCGATGATGGAT -GGCCTCAACCGTCTGCAAATTATCTTCCGCATCACCGTGCCGTTGGCGATGTCCGGGCTGATATCCGTGTTCGTC -TACTGCTTTATGGTGGCGTGGAACGACTATCTGTTTGCGTCGATTTTCCTCTCCAGCGCCAGCAATTTCACCTTA -CCGGTGGGCCTGAACGCGCTGTTCAGTACGCCAGATTACATCTGGGGACGGATGATGGCGGCCTCACTGGTGACC -GCATTGCCGGTGGTGATTATGTATGCGCTTTCGGAACGTTTTATTAAGAGTGGTTTGACCGCCGGTGGCGTGAAG -GGCTAAAGCGGCCAGTTTCTTTACAAGGAGTTTTAAATGAAAAAGTTAGTAGCCACAGCACCGCGTGTTGCTGCG -CTGGTTGAGTATGAAGATCGGGCGATTTTAGCTAATGAAGTGAAGATCCGCGTGCGTTTCGGCGCACCGAAACAC -GGAACGGAAGTGGTCGACTTCCGCGCCGCCAGCCCGTTTATTGATGAAGACTTTAACGGCGAATGGCAGATGTTC -ACTCCGCGTCCGGCAGATGCGCCGCGCGGCATTGAGTTTGGCAAATTCCAGCTTGGCAACATGGTGGTTGGCGAC -ATTATCGAGTGCGGCAGCGACGTTACCGACTACGCGGTGGGCGACAGCGTATGCGGCTACGGCCCGCTCTCCGAG -ACGGTCATCATTAACGCAGTGAATAACTACAAGCTGCGCAAAATGCCGCAAGGCAGCTCCTGGAAAAACGCCGTC -TGCTACGACCCGGCGCAGTTTGCCATGAGCGGCGTGCGCGATGCCAACGTGCGCGTAGGGGATTTTGTGGTGGTG -GTAGGGCTTGGCGCAATCGGTCAAATTGCCATCCAACTGGCTAAACGCGCTGGCGCTTCTGTGGTGATTGGCGTC -GATCCTATCGCCCATCGCTGTGATATTGCCCGTCGCCACGGCGCGGATTTCTGCCTTAACCCCATCGGCACTGAT -GTAGGTAAAGAGATCAAAACGCTGACCGGCAAGCAGGGTGCCGATGTGATTATCGAAACCAGCGGCTACGCCGAC -GCGCTGCAATCGGCGCTCCGCGGTCTGGCTTATGGCGGCACCATCTCCTATGTCGCGTTTGCCAAGCCGTTTGCC -GAAGGTTTTAACCTCGGACGCGAAGCGCATTTCAATAACGCCAAAATTGTCTTCTCTCGCGCGTGCAGCGAACCG -AACCCGGATTATCCGCGCTGGAGCCGCAAGCGTATTGAAGAAACCTGTTGGGAACTGCTGATGAACGGTTATCTC -AATTGCGAAGATTTAATCGACCCGGTGGTGACCTTTGCCAATAGCCCGGAAAGCTATATGCAGTATGTCGACCAG -CATCCGGAACAGAGCATCAAAATGGGCGTTACGTTTTAATTCAAAGGAATGAAAAAAATGAAAATCGGCACACAG -AATCAGGCGTTCTTTCCGGAAAACATTCTGGAGAAATTTCGTTATATCAAAGAGATGGGCTTCGATGGTTTTGAG -ATTGACGGCAAACTGCTGGTTAACAACATCGAAGAAGTCAAAGCGGCGATCAAAGAAACCGGTTTACCGGTGACC -ACCGCCTGCGGTGGCTATGACGGATGGATTGGCGACTTTATCGAAGAGCGTCGTCTTAATGGCTTAAAGCAGATC -GAGCGCATTCTCGAAGCGCTGGCAGAAGTGGGCGGTAAAGGCATCGTCGTTCCGGCTGCGTGGGGCATGTTTACC -TTCCGCTTACCGCCGATGACCTCGCCGCGTAGCCTGGACGGCGACCGCAAAATGGTGAGTGATTCCCTGCGCGTA -CTGGAACAGGTCGCCGCGCGTACCGGAACCGTGGTGTATCTCGAACCGTTAAACCGCTATCAGGATCATATGATC -AACACCCTCGCCGATGCCCGCCGTTACATCGTCGAAAACGATCTTAAACATGTACAGATTATCGGCGATTTCTAT -CACATGAATATCGAAGAAGATAACCTGGCGCAGGCGCTGCATGACAACCGCGACCTGCTCGGTCATGTGCATATT -GCGGATAACCATCGCTACCAGCCGGGCAGCGGCACCCTGGATTTCCACGCGCTGTTTGAACAGCTGCGCGCGGAT -AACTATCAGGGCTATGTAGTGTACGAAGGGCGTATCCGGGCGGAAGATCCTGCCCAGGCGTACCGTGATTCGTTG -GCCTGGTTGCGTACCTGCTAAGAGGTCTTTGTGAAAAGTGCAATGACAAGCTCTCCGCTGCGGGTCGCGATAATA -GGCGCAGGCCAGGTGGCGGATAAGGTTCATGCTTCGTACTACTGCACCCGCAACGATCTGGAACTGGTGGCTGTC -TGTGACAGCCGCCTTTCCCAGGCGCAGGCGCTGGCAGAAAAATACGGGAATGCATCCGTGTGGGACGATCCGCAG -GCCATGCTGCTGGCGGTGAAACCTGATGTGGTTAGCGTCTGCTCACCTAACCGTTTTCATTACGAACATACCCTG -ATGGCACTGGAAGCGGGCTGCCATGTGATGTGCGAAAAACCGCCCGCCATGACGCCAGAACAGGCGCGGGAAATG -TGCGATACCGCGCGCAAACTGGGCAAGGTGCTGGCCTACGACTTTCACCATCGTTTTGCGCTCGATACGCAACAG -CTGCGTGAACAGGTGACCAACGGCGTTTTGGGAGAGATTTACGTTACCACCGCCCGCGCCCTGCGTCGCTGCGGC -GTTCCCGGCTGGGGTGTCTTTACCAATAAAGAACTGCAGGGTGGTGGCCCGCTGATCGACATCGGCATTCATATG -CTGGATGCTGCGATGTATGTGCTGGGCTTTCCGGCGGTGAAAAGCGTGAATGCGCATAGCTTTCAAAAGATCGGC -ACGCAAAAGAGCTGTGGTCAATTTGGTGAGTGGGATCCGGCAACTTACAGCGTCGAAGATTCGCTGTTTGGCACC -ATTGAATTTCATAACGGCGGCATTCTGTGGCTGGAAACGTCATTTGCACTCAACATCCGCGAACAGTCGATTATG -AACGTCAGCTTTTGTGGTGATAAAGCTGGTGCGACGCTGTTTCCAGCACATATCTACACCGATAACAACGGTGAA -TTAATGACGCTGATGCAACGGGAAATAGCAGACGACAACCGCCATTTGCGCAGCATGGAAGCCTTTATCAATCAC -GTACAGGGCAAGCCCGTGATGATAGCCGACGCCGAGCAGGGGTACATCATCCAGCAACTGGTGGCGGCGTTGTAT -CAATCCGCAGAAACAGGGACGCGTGTGGAATTATGACCAGGCCAGTAACGTTATCAGAACCCCATTTCAGCCAGC -ATACCCTGAACAAGTATGCATCGCTGATGGCGCAGGGGAACGGCTATCTTGGGCTTCGCGCCAGCCATGAAGAAG -ATTACACGCGCCAGACGCGAGGGATGTATCTGGCGGGGCTGTATCATCGGGCGGGAAAAGGTGAAATCAACGAAC -TGGTGAACCTGCCTGATGTCGTGGGGATGGAGATTGCCATAAATGGTGAGGTTTTCTCGTTATCCCACGAAGCCT -GGCAGCGTGAGCTTGACTTTGCCAGTGGCGAATTACGCCGCAATGTTGTCTGGCGTACCAGCAACGGCTCAGGTT -ACACCATCGCCAGCCGTCGCTTTGTTTCGGCAGACCAACTGCCGCTCATTGCGCTGGAAATCACTATTACGCCAC -TGGACGCCGACGCGTCAGTGCTGATTTCAACAGGCATTGACGCCACGCAAACCAATCACGGTCGCCAACATCTCG -ACGAAACCCAGGTGCGGGTGTTTGGTCAGCATCTGATGCAGGGGAGCTACACCACCCAGGATGGACGCAGTGATG -TGGCCATCAGCTGTTGCTGTAAGGTGAGCGGTGATGTGCAGCAATGCTATACCGCCAAAGAGCGCCGTTTACTGC -AACATACCAGTGCGCAGCTTCATGCAGGCGAGACAATGACGTTGCAAAAACTGGTGTGGATCGACTGGCGGGATG -ACAGGCAAGCTGCTTTAGACGAGTGGGGCAGCGCGTCGCTTCGCCAGCTTGAAATGTGCGCGCAGCAGAGTTACG -ACCAACTTCTTGCAGCATCAACAGAAAACTGGCGTCAATGGTGGCAGAAACGTCGTATCACGGTAAATGGCGGCG -AAGCGCACGATCAGCAAGCGTTAGATTATGCGCTTTATCATCTGCGCATCATGACGCCTGCCCACGACGAGCGCA -GCAGCATTGCGGCAAAAGGCTTAACCGGCGAAGGCTACAAAGGCCACGTTTTCTGGGATACAGAAGTATTTTTGT -TACCGTTTCATCTGTTTAGCGATCCGACGGTTGCCCGAAGTTTACTGCGTTATCGCTGGCACAACTTGCCAGGCG -CGCAGGAGAAAGCGCGACGCAACGGCTGGCAGGGCGCGCTATTTCCGTGGGAAAGCGCGCGCAGCGGCGAAGAAG -AGACGCCGGAATTTGCCGCCATTAACATTCGCACCGGGCTGCGGCAAAAAGTGGCCTCGGCGCAGGCGGAACATC -ATCTGGTGGCCGATATCGCCTGGGCGGTTATTCAATACTGGCAGACCACGGGGGATGAAAGTTTCATTGCGCATG -AAGGCATGGCGCTACTTCTGGAGACGGCAAAGTTCTGGATTAGCCGCGCGGTGAGAGTTAACGATCGTCTGGAAA -TTCATGATGTTATTGGGCCAGACGAATATACCGAACATGTCAATAATAATGCATACACCAGCTATATGGCCCGCT -ACAACGTTCAACAGGCGCTGAATATTGCCCGCCAGTTCGGCTGTAGCGACGATGCGTTTATCCATCGCGCCGAAA -TGTTCCTCAAAGAGCTATGGATGCCAGAAATTCAGCCCGACGGCGTTTTGCCGCAGGATGATTCGTTTATGGCTA -AGCCGGCGATTAATCTGGCGAAATACAAAGCGGCGGCGGGGAAGCAAACCATACTGCTGGATTATTCACGCGCAG -AAGTGAACGAGATGCAGATCCTCAAACAAGCTGATGTGGTGATGCTCAATTACATGCTGCCGGAGCAGTTCTCAG -CGGCATCGTGTCTTGCCAATCTGCAATTTTATGAACCGCGCACTATTCACGACTCGTCATTAAGTAAAGCAATCC -ACGGCATTGTTGCCGCACGCTGTGGCCTGCTGACCCAAAGTTATCAGTTCTGGCGCGAGGGGACTGAAATCGATC -TTGGTGCTGATCCGCATAGTTGTGATGATGGTATCCATGCTGCCGCAACTGGCGCTATCTGGCTGGGGGCGATTC -AGGGTTTTGCCGGGGTGAGCGTGCGTGACGGTGAATTGCATCTCAATCCGGCGTTACCTGAGCAGTGGCAACAGT -TGTCTTTCCCTCTGTTCTGGCAGGGCTGCGAATTACAGGTCACTCTTGACGCGCAGCGTATTGCGATTCGAACTT -CTGCGCCCGTTTCACTGCGTTTGAACGGTCAGCTTATAACCGTGGCTGAAGAATCTGTTTTCTGTTTGGGTGATT -TTATTTTGCCCTTCAATGGGACCGCTACCAAACATCAGGAGGATGAATGAAACTGCAAGGGGTAATTTTCGATCT -GGATGGTGTAATCACCGATACCGCGCATCTGCATTTCCAGGCGTGGCAGCAGATTGCCGCTGAAATTGGCATCAG -CATTGATGCGCAGTTTAACGAATCCCTAAAAGGGATCAGCCGCGATGAGTCTCTGCGGCGCATTCTGCAACACGG -GGGCAAAGAGGGCGACTTTAACTCGCAGGAGAGGGCGCAACTGGCGTATCGCAAAAATCTGCTCTATGTCCACTC -ACTACGCGAGTTGACGGTCAACGCTGTTCTACCCGGCATTCGCTCTTTGCTGGCAGATCTCCGTGCACAGCAGAT -CTCGGTTGGGCTGGCTTCTGTCTCCCTGAATGCGCCGACGATTTTAGCGGCGCTGGAGCTGCGCGAGTTTTTCAC -CTTCTGCGCGGATGCTTCCCAACTTAAAAACTCGAAACCGGACCCGGAAATCTTTCTCGCCGCCTGTGCAGGGCT -GGGCGTGCCGCCGCAGGCATGTATCGGCATTGAAGATGCGCAGGCGGGCATTGACGCCATTAACGCCAGCGGTAT -GCGCTCGGTGGGGATCGGCGCGGGCTTAACCGGGGCGCAATTACTGTTGCCTTCAACGGAATCACTCACCTGGCC -GCGGTTATCGGCCTTCTGGCAAAACGTATAGCAAAGGAATCAACATGGCTCAGCTTTCGTTACAACATATTCAAA -AAATCTACGATAACCAGGTGCATGTGGTGAAGGACTTCAACCTGGAAATTGCCGATAAAGAGTTCATCGTGTTTG -TCGGCCCGTCGGGCTGCGGTAAGTCGACCACCCTGCGCATGATTGCCGGGCTTGAGGAGATCAGCGGCGGCGATC -TGTTGATCGACGGCAAACGAATGAATGACGTTCCAGCCAAAGCACGCAATATAGCGATGGTGTTCCAGAACTACG -CGTTGTATCCGCATATGACGGTTTACGACAACATGGCGTTTGGTCTGAAGATGCAAAAAATCGCCAAAGAGGTGA -TTGATGAGCGGGTGAACTGGGCGGCGCAAATTCTCGGCCTGCGTGAGTACCTGAAACGTAAGCCGGGGGCGCTTT -CCGGCGGGCAACGTCAGCGAGTGGCGCTTGGGCGGGCGATTGTACGCGAAGCGGGCGTGTTTTTAATGGATGAAC -CGCTCTCTAACCTTGATGCCAAGCTGCGCGTGCAAATGCGCGCAGAGATCAGCAAGCTGCATCAGAAACTGAACA -CCACCATGATCTACGTGACCCACGATCAGACCGAAGCGATGACCATGGCGACGCGGATTGTGATTATGAAAGACG -GGATTGTTCAGCAAGTAGGTGCGCCGAAAACCGTTTATAACCAACCCGCGAATATGTTTGTTTCCGGATTTATTG -GATCACCAGCGATGAATTTTATTCGCGGCACGATCGATGGCGATAAATTCGTTACGGAAACGCTTAAATTAACCA -TTCCCGAAGAGAAATTAGCGGTTCTGAAAACACAGGAAAGTTTGCATAAGCCCATCGTGATGGGAATACGACCGG -AAGATATTCATCCGGACGCGCAAGAGGAAAATAACATTTCCGCCAAAATTAGCGTGGCAGAATTAACCGGTGCGG -AATTTATGCTCTACACCACGGTTGGGGGCACGAGTTAGTGGTCCGTGCTGGTGCGTTAAATGATTATCATGCAGG -AGAAAATATCACTATTCATTTTGATATGACGAAATGTCATTTCTTTGATGCAGAAACGGAAATAGCAATTCGCTA -AATACAGGGGGAAGGCATTCCCCCAGGATAATACAAGGAACAATAATGAAAAAGTTATTACCCTGTACCGCACTG -GTGATGTGTGCGGGAATGGCCTGCGCACAGGCCGAGGAAAGGAACGACTGGCACTTTAATATCGGCGCGATGTAC -GAAATAGAAAACGTCGAGGGTTATGGCGAAGATATGGATGGGCTGGCGGAGCCTTCAGTCTATTTTAATGCCGCC -AACGGGCCGTGGAGAATTGCTCTGGCCTATTATCAGGAAGGGCCGGTAGATTATAGCGCGGGTAAACGTGGAACG -TGGTTTGATCGCCCGGAGCTGGAGGTGCATTATCAGTTCCTCGAAAACGATGATTTCAGTTTCGGCCTGACCGGC -GGTTTCCGTAATTATGGTTATCACTACGTTGATGAACCGGGTAAAGACACGGCGAATATGCAGCGCTGGAAAATC -GCGCCAGACTGGGATGTGAAACTGACTGACGATTTACGTTTCAACGGTTGGTTGTCGATGTATAAATTTGCCAAC -GATCTGAACACTACCGGTTACGCTGATACCCGTGTCGAAACGGAAACAGGTCTGCAATATACCTTCAACGAAACG -GTTGCCTTGCGAGTGAACTATTATCTCGAGCGCGGCTTCAATATGGACGACAGCCGCAATAACGGTGAGTTTTCC -ACGCAAGAAATTCGCGCCTATTTGCCGCTGACGCTCGGCAACCACTCGGTGACGCCGTATACGCGCATTGGGCTG -GATCGCTGGAGTAACTGGGACTGGCAGGATGATATTGAACGTGAAGGCCATGATTTTAACCGTGTAGGTTTATTT -TACGGTTATGATTTCCAGAACGGACTTTCCGTTTCGCTGGAATACGCGTTTGAGTGGCAGGATCACGACGAAGGC -GACAGTGATAAATTCCATTATGCAGGTGTCGGCGTAAATTACTCGTTCTGATAATGGGCTAAATTGCCGGATGCG -GCGCGAGTACTTTATCCGATCTATAAATGTAGGCCGGATAAGATGCGCTAGCATCGCATCTGGCATTCAGGCAAG -GTAGCTGGTATTTATTTCAGCGTCATATGCGTGGCAACGGTAATATTCTGTGGTGACGGTTTTCCAGAAATTAAG -CGGAATAATAACTCGCAGCTTTGTTGACCTAACTCCTGCGTCGGAACATCGATGCCGCCCGGTGCAGGCGTTAAA -ATAAATGACAGCGTTTCATTGCTATAACCCACCACCGCTAACTGCTGCGGAATAGCAATATTTTTCTCTGCTGCC -GCACGATAAATGCTCATTAATTTCAGGCTGTCAGTGGCAAACACCGCCTCAGGCAACGGTGACTGGCTTAATAAT -TGCCGTGCTGCTTTTAATGCAGTTTCATGGGTATAACCGCCATCAACAATCCATTCATCACGCACTGCAATATTA -TGCGCAGCCAGGCTCTGCTTATAACCATTAACGCGATCAACCGAAACATGGACATCAAGCGGAGCATGCAGGCAG -GCAATATTTTGATGCCCACTTTCAATTAATGCATCGGTCAACGCAATGCTGTCGCCAAAATTATCGGTATCGACA -GAATAAACATGGGCATATTGACCTTCAACTTTGCCAATCACCACCACCGGAATATCATATTTATCGAGTTGGGCA -AAAAATGACTCATCCGCTGGCGAACTGAGCATAATAATGCCTTTAATCATTTTCTGCTTAATTTTGCTTTCGCAT -TTTTGCAGATCTTCTGCCGGATTGTGCGACGTTTGTAATATCACGTCGAAACCTTCTTCTTCAGCTTTGGCGGTG -ATGGCATGCAAAACTTCAGAGAAAAACGGATTACCCGCCGTAGTTTTGGTCGAACGGGTAGAAATCACCATAATG -GCATCAAAACCCGAAGAGGTCAGCGCGCGGGCCAGCTTGTTTGGCTGATACTGTAATTCTTCAATGGCCCGTAAC -ACTTTTTCGCGCGCTTCCGGGGAGATATTAGTTTGCTTATTCAGCACGCGTGATACGGTGGATTTTGATACGCCT -GCAACCCTGGCAATATCATAAATAGTAGGGGACATAGGTCAGGAACTCCGTCCGAACGTGAATGCTGCACATCTT -ATGGAGTTCGCCGGTCGATGACAACACGGGCAGTTGATAATCAATGGCCTGGCCCCCACATTCATATCCTTACGA -ATGATTTTTTTTCTGGTCTTCAGAGCAGCACAGGACAGCAATGAAGCGACTTAAAAATGAACTCAATGCGCTGGT -GAATCGGGGTGTCGACAGACATCTGCGCCTCGCTGTAACCGGACTTAGCCGCAGCGGCAAAACAGCGTTTATCAC -CGCGATGGTTAATCAGTTGCTTAATATTCACGCCGGAGCACGTTTGCCGCTGTTAAGTGCGGTGCGTGAAGAGCG -CCTGCTGGGCGTGAAACGCATTCCCCAGCGTGACTTTGGCATTCCGCGCTTCACCTATGACGAAGGGCTGGCGCA -GTTATATGGCGATCCACCCGCCTGGCCAACGCCAACGCGCGGCGTCAGTGAAATCCGCCTGGCGCTACGTTTTAA -ATCGAATGATTCGCTGCTACGCCACTTTAAGGATACCTCCACGCTGTATCTGGAAATTGTGGATTATCCCGGCGA -ATGGTTGCTCGACCTGCCGATGCTGGCGCAGGACTATTTAAGCTGGTCGCGCCAGATGACGGGCTTACTCAATGG -TCAGCGCGGAGAATGGTCGGCGAAATGGCGAATGATGAGCGAAGGGCTGGACCCGCTAGCGCCTGCCGACGAAAA -CCGGCTGGCGGACATTGCCGCCGCGTGGACCGATTATCTCCACCACTGTAAAGAGCAGGGGCTGCACTTTATTCA -GCCTGGGCGCTTTGTCTTGCCGGGAGATATGGCAGGTGCGCCCGCGCTGCAATTCTTCCCGTGGCCGGATGTCGA -TACCTGGGGCGAGTCCAAACTGGCGCAGGCCGATAAGCATACCAATGCCGGAATGCTGCGCGAGCGCTTTAATTA -TTACTGCGAGAAGGTGGTGAAGGGGTTCTATAAGAATCATTTTCTGCGCTTTGACCGCCAGATTGTGCTGGTGGA -TTGCCTGCAACCTCTCAACAGTGGGCCACAGGCATTTAATGATATGCGTCTGGCACTGACGCAGCTGATGCAAAG -TTTTCACTACGGGCAGCGTACCCTGTTCCGGCGTTTGTTTTCGCCGGTTATCGATAAGCTATTGTTTGCTGCCAC -TAAAGCGGACCATGTGACCATCGATCAGCACGCTAATATGGTTTCATTACTGCAACAACTGATTCAGGATGCCTG -GCAAAATGCGGCGTTCGAAGGGATCAGCATGGACTGCCTGGGGCTGGCGTCAGTTCAGGCGACCACCAGCGGCAT -TATTGATGTTAACGGTGAGAAAATCCCGGCGCTGCGTGGTAATCGACTTAGCGATGGCGCACCGCTCACTGTTTA -TCCTGGCGAAGTTCCCGCACGTTTGCCTGGTCAGGCGTTCTGGGATAAGCAAGGCTTCCAGTTTGAGGCATTTCG -TCCGCAGGTGATGGATGTCGACAAACCACTACCGCATATTCGTCTTGATGCTGCGCTGGAATTTTTAATAGGAGA -TAAATTGCGATGACCGAACCGTTAAAACCACGTATTGATTTCGACGGTCCTCTGGAGGTCGATCAGAATCCTAAA -TTCAGGGCGCAGCAGACCTTTGACGAAAATCAGGCGCAAAATTTTGCCCCGGCCACGCTCGACGAAGCGCAGGAA -GAAGAGGGGCAAGTCGAAGCGGTAATGGACGCAGCGTTACGTCCGAAACGCAGCCTGTGGCGCAAAATGGTGATG -GGAGGGCTGGCTCTGTTTGGCGCAAGCGTTGTCGGGCAGGGTGTACAGTGGACAATGAATGCCTGGCAAACCCAG -GACTGGGTGGCGCTGGGTGGATGTGCCGCTGGGGCATTGATTATCGGCGCTGGCGTAGGTTCTGTGGTAACAGAG -TGGCGGCGCTTATGGCGCTTGCGACAGCGCGCCCATGAACGCGACGAAGCGCGTGATTTATTGCATAGCCACGGC -ACGGGCAAAGGCCGCGCATTTTGCGAAAAACTGGCGCAGCAGGCGGGTATTGATCAGTCGCATCCGGCGCTGCAA -CGCTGGTATGCCTCAATCCATGAAACGCAAAACGACCGTGAAGTGGTCAGCCTGTATGCGCATTTGGTCCAGCCA -GTTTTAGATGCCCAGGCGCGGCGCGAAATCAGCCGTTCGGCGGCGGAATCAACGTTGATGATTGCGGTCAGCCCG -CTGGCGTTGGTCGATATGGCGTTTATCGCCTGGCGCAATCTGCGTTTAATTAATCGCATCGCCACGCTGTATGGC -ATTGAACTGGGGTATTACAGCCGTTTGCGTCTGTTTAAGCTGGTATTGCTGAATATCGCTTTTGCCGGAGCCAGC -GAACTGGTGCGCGAAGTGGGGATGGACTGGATGTCGCAAGATCTCGCTGCTCGTTTGTCTACCCGCGCAGCTCAG -GGGATTGGTGCAGGACTTCTGACGGCACGACTCGGGATTAAAGCTATGGAGCTTTGCCGCCCGCTGCCGTGGATT -GACGATGACAAACCTCGCCTCGGGGATTTCCGTCGTCAGCTTATCGGTCAGGTGAAAGAAACGCTGCAAAAAGGC -AAAACGCCCAGCGAAAAATAATGCAATATCGGGTGCTGACCGGATATCTTTACGCCGAAGTGCCCGTTTTTCCGT -CTTTGTGTCAATGATTGTTGACAGAAACCTTCCTGCTATCCAAATAGTGTCATATCATCATATTAATTGTTCTTT -TTTCAGGTGAAGGTTCCCATGCGTCTGGAAGTCTTTTGTGAAGACCGACTCGGTCTGACCCGCGAATTACTCGAT -CTACTCGTGCTAAGAGGCATTGATTTACGCGGTATTGAGATTGATCCCATTGGGCGAATCTACCTCAATTTTGCT -GAACTGGAGTTTGAGAGTTTCAGCAGTCTGATGGCCGAAATACGCCGTATTGCGGGTGTTACCGATGTGCGTACT -GTCCCGTGGATGCCTTCCGAACGTGAGCATCTGGCGTTGAGCGCGTTACTGGAGGCGTTGCCTGAACCTGTGCTC -TCTGTCGATATGAAAAGCAAAGTGGATATGGCGAACCCGGCGAGCTGTCAGCTTTTTGGGCAAAAATTGGATCGC -CTGCGCAACCATACCGCCGCACAATTGATTAACGGCTTTAATTTTTTACGTTGGCTGGAAAGCGAACCGCAAGAT -TCGCATAACGAGCATGTCGTTATTAATGGGCAGAATTTCCTGATGGAGATTACGCCTGTTTATCTTCAGGATGAA -AATGATCAACACGTCCTGACCGGTGCGGTGGTGATGTTGCGATCAACGATTCGTATGGGCCGCCAGTTGCAAAAT -GTCGCCGCCCAGGACGTCAGCGCCTTCAGTCAAATTGTCGCCGTCAGCCCGAAAATGAAGCATGTTGTCGAACAG -GCGCAGAAACTGGCGATGCTAAGCGCGCCGCTGCTGATTACGGGTGACACAGGTACAGGTAAAGATCTCTTTGCC -TACGCCTGCCATCAGGCAAGCCCCAGAGCGGGCAAACCTTACCTGGCGCTGAACTGTGCGTCTATACCGGAAGAT -GCGGTCGAGAGTGAACTGTTTGGTCATGCTCCGGAAGGGAAGAAAGGATTCTTTGAGCAGGCGAACGGTGGTTCG -GTGCTGTTGGATGAAATAGGGGAAATGTCACCACGGATGCAGGCGAAATTACTGCGTTTCCTTAATGATGGCACT -TTCCGTCGGGTTGGCGAAGACCATGAGGTGCATGTCGATGTGCGGGTGATTTGCGCTACGCAGAAGAATCTGGTC -GAACTGGTGCAAAAAGGCATGTTCCGTGAAGATCTCTATTATCGTCTGAACGTGTTGACGCTCAATCTGCCGCCG -CTACGTGACTGTCCGCAGGACATCATGCCGTTAACTGAGCTGTTCGTCGCCCGCTTTGCCGACGAGCAGGGCGTG -CCGCGTCCGAAACTGGCCGCTGACCTGAATACTGTACTTACGCGTTATGCGTGGCCGGGAAATGTGCGGCAGTTA -AAGAACGCTATCTATCGCGCACTGACACAACTGGACGGTTATGAGCTGCGTCCACAGGATATTTTGTTGCCGGAT -TATGACGCCGCAACGGTAGCCGTGGGCGAAGATGCGATGGAAGGTTCGCTGGACGAAATCACCAGCCGTTTTGAA -CGCTCGGTATTAACCCAGCTTTATCGCAATTATCCCAGCACGCGCAAACTGGCAAAACGTCTCGGCGTTTCACAT -ACCGCGATTGCCAATAAGTTGCGGGAATATGGTCTGAGTCAGAAGAAGAACGAAGAGTAAGCGCGAATATGCCTG -ATGGTGCAACACCATCAGGCATATTAAATTATGCTTTCAGTACAGCCAGAGCTGCTTCGTAATCCGGCTCGGTGG -TGATTTCATCCACCAGCTGGCTGAAAATCACATTGTCATTTTCGTCAATAACCACAACGGCACGCGCTGCCAGAC -CTTTCAGTGGGCCATCAGCAATTGCCACACCGTAAGCTTGCAGAAATTCAGCGTTACGGAAAGTGGAGAGGGTGA -TAACGTTGTTCAGACCTTCTGCGCCGCAGAAACGAGACTGGGCGAACGGCAGATCGGCAGAGATACACAGCACAA -CGGTGTTGTCGATCTCAGTTGCCAGTTGGTTAAACTTACGTACTGATGCGGCGCAAACACCGGTATCAATACTCG -GGAAAATGTTCAGCACTTTGCGTTTACCCGCAAACTGACCGAGGGTGACGTCAGACAGATCTTTTGCCACGAGAG -TAAAAGTCTGCGCTTTGCTACCCGCCTGCGGGATGGAATTGGCGACTGTAACCGGGTTGCCCTGGAAATGAACGG -TTTGTGACATGATTATCTTTCCTGTTTACATATAGTTAACGTCACACCTAGTTTATGCTAACTGTCAATAACACA -GCAAACGCTATTTGCGCTTAATCCGCAGACCACCGCGACAACAAGGAGTAAAGATGAGAACCGTTAAGGTATTCG -AGGAAGCCTGGCCCTTACATACCCCGTTTGTGATTGCCCGGGGAAGTCGCAGTGAAGCGCGCGTGGTGGTGGTTG -AACTGGAAGAAGAGGGTATTAAAGGCACCGGCGAATGCACGCCGTATCCGCGTTATGGGGAAAGTGATGCCTCGG -TAATGGCGCAAATTATGAGCGTCGTGCCGCAACTAGAGAAAGGGCTGACACGGGAGGAGTTGCAAAAAATTCTCC -CTGCCGGCGCAGCACGTAATGCGCTGGATTGTGCATTGTGGGATCTGGCCGCGCGAAGACAGCAGCAATCGCTGG -CTGATTTGATCGGCATAACGCTTCCCGAGACAGTTATCACTGCACAGACGGTTGTCATCGGTACGCCTGATCAGA -TGGCCAATAGTGCATCAACACTCTGGCAGGCAGGCGCGAAATTACTGAAAGTGAAGCTGGATAACCATCTTATCA -GTGAGCGGATGGTGGCAATTCGCACAGCTGTGCCCGATGCGACGCTGATCGTTGATGCAAATGAATCCTGGCGTG -CAGAAGGGTTGGCGGCGCGTTGCCAGCTATTGGCGGATTTAGGCGTTGCGATGCTTGAACAACCGCTTCCTGCGC -AGGACGATGCGGCGCTGGAGAATTTTATTCATCCGTTGCCGATTTGTGCTGATGAAAGTTGTCATACTCGTAGCA -ATTTGAAGGCGCTGAAAGGGCGCTATGAGATGGTTAATATTAAGCTCGATAAAACCGGGGGTCTGACGGAAGCGC -TGGCGCTGGCGACTGAAGCGCGTGCACAAGGTTTCAGTCTGATGCTGGGCTGCATGTTGTGTACCTCTCGTGCCA -TTAGCGCCGCTTTACCGCTGGTGCCGCAGGTCAGTTTCGCCGATCTTGACGGACCGACCTGGCTGGCGGTAGATG -TGGAACCGGCGCTTCAGTTCACGACGGGCGAATTGCATCTTTAGGATGCCAGCGCAGCAAGTTTGCCATCGCAAA -GAGATATTTTTCGCTGGCTTCGTCGGAGGAGATGGGCGGAAACTCTGCGGTGATGCAATGCAAGTTCAGATCTGC -ACACCAACTGCCGAAAGAGCCAGGCGTTTCATAACCGACGCTGGTTACCAGAGGCAATTCAAACGCCTGAGCCAG -CCATTCGCCTAATTCGCTGTGTCTGGGATCTTCAATACAGGCCAGTGGATCGTGGAATGAGACCACCCAGGCAGG -TTGAATGCGGTGTATAAGCTGGCACAGCGCCTGGGTTTCAGGTTCGGAGCCAGGTTTGTCACCTGTCAGTAATAC -GACATCGCGTTCTTCAGCGGCGCTGTTCCAGCGATAAACGGTTTCACCTTCCTTCCAGTTCGCCGCCGGAAAGTT -TCTGTTTAAATCCACACCATTAGCATTGGCCCGTAACCCCAACTGGCAGCCGTCAGGATTCACACACAGCACCAC -ATGATGACGGCGCAAAGAAGGTGTCAACGTCCGCAGAGCACAGGAGAGCGTGACGACCGAAGAGTTTTCATCACC -GTGAGTGCCAGCCAGAATCAAACCACTTTCGCGGCTGGCTGCAGGGGCAGGAAACCAGATTAACGGCGCGCCCAA -TAATGAACGTCCGTAATGTTCTGTTCCGGGCGGAAATGCGCCGCGTTCGGCGCGTGGGCGGGTTACGGTCATGAT -CGTCTCTGGTTCAGGAAGTATTACAGGCAGTGTTGTGCAAATTTTGCGGATTATCAAATCCTTTTCTTCAACGCT -ATGTCATCGATCTTGTATCACTTTTTTGCCGGAAGTTGTTTGCATTTTATTAGTTGGATAGGGTTTGTGGATTTT -TGCTGGCTGACGGGCAAATAAAGTTTGTTTAATGGTTTGCTTATCTGCCAGTTGATTAATCACATGGCGGGCTAT -CTGACCGCCAGCACCAAGAATCAGTACATTTTTCATGAAAATTATCCCAGATTATTGGCAGCAATATGCCAGTCC -ATATCACTATTGCGGATTTGAATATGTTTCATTACAGAGTTTCCTCAAAGAACGGAGCTAATACTGAAATTGCTT -CAGCCACATAGGCTTTGCCGTCATAAAGATCCATATGGTTTGCGCCTTCAACAATGTGATAGCGTTTATCCTGGC -TTGATGCTCGATCGTACAGGTCGTCACTCATCCATTTGCTCCCTGCCTGGCTGCCCGCCACAATCTGCGTCGGCT -GAGTCAGGTACACTTCCGCCATATGGTAAGCATCATAGGTAATAATCTGGTTAAGGCTGCGCAAAGTAGCGTAAC -CCGGTGCTGTTGGATACTGCGCGCGAGGGGTGTGGTAATACTCCCAGGCCTGACGCAGTTCTTCGTTCGGCGCAT -CGGACTCCTTCATTGGTGCCAGTGGCATAATGGCGTATTCTCCGCTGCTAATATCGCTGGTTCTGGCGTTTGAAC -CCGCTTCAACGTATGGCAGGGCATCAATAGATTTCACATTGTTTTCCCAACCATTACGGAATATCGAACCAATAT -TGACCGCACTAACGGTACCGATGGCCTTGATGCGGCGATCCTGAATTGCAGCATTGGCTGTATATCCTGCACCGG -CACAAATTCCCATCGCACCAATTCGGGTATTGTCGACATAAGAAAGCGTTGTCAGGTAATCAATCACGGCACTGA -TGTCTTCAGTACGAATGTATGGGTTTTCTAACTGACGCGGCTCGCCGCCACTTTCACCTTGATAAGATGCGTCAT -AAGCAATAGTGACAAATCCCTTTTCCGCCAGTTTTTTGGCATAGGTTCCGGCCGTTTGTTCTTTAACGCCCCCAC -CTGGGTGAGATAACACAATTGCCTGATACTGACGGGTTTCATCAAATTTTGGAGGGAAATAGATCACTGCAGACA -AAGAGATGGTTGGATTATTGCTGTTAGTGAAGCTGACTTTATTATTCATCATTCCGTTCCTCATGGAGTTGTCGG -TTCGTTTTAACGGTTGGTGATATCACTATAGATATTGATCATTAAGTTGATTAGACCCAAAATCATGATTAGACC -TATCATTTAAATGATTAATAGATTGCATGGAGATACTGAATGAAGCGTGAAGAAATCGCTGATCTGATGGCGTTT -GTCGTCGTTGCAGAGGAGCGTAGCTTCACTCGTGCAGCAGCCCGCCTGAGCATGGCGCAGTCAGCTTTAAGCCAG -ATAGTGCGTCGTATAGAAGAACGATTGGGATTGCGGCTTCTGACGCGAACCACGCGCAGCGTTGTTCCAACTGAA -GCGGGCGAGCATCTTTTGTCTGTTCTTGGCCCTATGTTGCATGACATAGATTCAGCCATGGCATCCCTGAGCGAT -CTGCAGAACCGCCCATCCGGGACAATACGTATTACTACTGTAGAACATGCAGCAAAAACGATATTGTTACCAGCA -ATGCGCACATTCCTGAAATCGCATCCTGAAATTGATATTCAGCTCACCATTGATTATGGTTTGACCGATGTCGTT -TCTGAACGTTTTGATGCAGGCGTCCGTCTGGGTGGGGAGATGGATAAAGATATGATCGCCATTCGAATCGGGCCA -GATATACCAATGGCTATTGTTGGCTCACCGGATTATTTTTCTCGCCGAAGTGTTCCAACGTCAGTGTCACAATTA -ATAGATCATCAGGCAATTAATTTGTATCTTCCCACATCGGGTACAGCAAATCGCTGGAGATTAATACGCGGTGGA -CGTGAAGTTCGTGTTCGCATGGAAGGTCAGCTTTTACTGAATACGATAGACCTGATCATTGATGCTGCAATTGAT -GGGCATGGATTGGCGTATCTACCTTATGATCAGGTTGAGCGGGCTATTAAAGAAAAAAAACTGATACGTGTTTTG -GATAAATTCACACCAGATTTACCCGGTTATCACCTGTACTATCCACACCGTCGACATGCTGGCTCGGCATTCTCA -TTATTTATAGATAGGCTGAAGTATAAAGGTGCTGTTTAGCACTACTTGCTGATACATTAATTTAATTCTTCTCTT -AACGTATTCTCAGTTCCTTTCAACGTTTTGGTCATTTTTTATTCTTCGTACAATGGCGACAGATGCTGATTATGA -TACCGAAAACGGGTTTGAACGTGCGAAGCCCGAACGTAGTGTTCGGAGTTCTATGTGCTTTACCGCATTTTGGAG -ACTATTATTTACACTAAATCTGATTTGATATATTGATACTTAAAACATTTGATGCTTCCTTTGTCACTTTTTTGA -TGGAAGTTGTTTGCATTTCTTTAAGGCGAAACAAATAATTACGCATCAATTTTAATGTCGGTTAGAGGGAAACTT -ATGAAGCACTCTGTTTCAGTCACGTGTTGTGCGCTGTTGGTCAGCAGCATTTCTCTTTCGTATGCTGCAGAAGTT -CCGAGCGGCACAGTACTGGCAGAGAAGCAGGAGCTGGTGCGCCACATTAAAGATGAGCCTGCGTCGCTGGATCCC -GCTAAAGCCGTGGGCCTGCCAGAGATTCAGGTCATTCGCGATCTGTTTGAAGGTCTGGTGAATCAGAACGAAAAA -GGGGAGATTGTCCCCGGCGTTGCGACTCAGTGGAAAAGTAATGACAACCGTATCTGGACTTTTACCCTGCGCGAT -AACGCAAAATGGGCGGATGGCACACCGGTAACGGCGCAAGATTTTGTCTACAGCTGGCAACGTCTGGTGGACCCA -AAAACATTGTCGCCATTTGCATGGTTTGCCGCGCTGGCGGGAATCAACAACGCACAGGCGATTATTGATGGTAAA -GCTACGCCTGACCAGCTTGGCGTCACCGCAGTTGATGCCCATACTTTGAAAATTCAGCTTGATAAACCGTTGCCG -TGGTTTGTGAATTTAACCGCTAACTTTGCCTTCTTCCCGGTGCAAAAAGCCAACGTAGAAAGCGGTAAAGAGTGG -ACGAAACCCGGAAATCTGATCGGCAATGGCGCTTATGTTCTTAAAGAGCGCGTAGTCAATGAAAAACTGGTCGTG -GTACCGAATACCCATTATTGGGATAACGCCAAAACGGTACTGCAAAAAGTGACCTTCCTGCCAATTAATCAGGAA -TCCGCAGCCACTAAGCGTTACCTCGCGGGGGATATTGATATCACCGAATCCTTCCCGAAAAATATGTATCAGAAG -CTGTTGAAGGATATTCCGGGGCAGGTTTATACGCCGCCGCAGCTCGGGACCTATTATTATGCGTTTAACACGCAA -AAAGGGCCGACGGCAGATCAGCGCGTTCGTCTGGCATTAAGTATGACGATAGATCGCCGCCTGATGACCGAAAAA -GTATTAGGGACGGGCGAAAAGCCAGCGTGGCATTTTACACCAGATGTTACCGCGGGATTTACGCCGGAACCTTCG -CCGTTTGAACAAATGAGTCAGGAAGAACTGAATGCGCAGGCAAAAACTTTGTTGAGCGCAGCTGGTTATGGTCCG -CAAAAACCGCTGAAGCTGACGCTTTTGTATAACACTTCAGAAAACCATCAAAAAATTGCGATTGCTGTAGCATCG -ATGTGGAAAAAGAACCTTGGCGTAGATGTTAAATTGCAAAATCAGGAATGGAAAACCTATATCGATAGCCGTAAC -ACCGGCAATTTTGATGTTATCCGCGCCTCGTGGGTGGGGGATTATAATGAACCCTCCACTTTCCTGACATTATTA -ACGTCAACGCATTCAGGAAATATTTCACGCTTTAACAATCCGGCATATGACAAAGTTCTGGCCCAGGCATCGACG -GAAAATACCGTTAAAGCGCGTAATGCCGATTACAACGCGGCAGAAAAAATCCTCATGGAGCAAGCACCGATTGCA -CCAATTTATCAATATACCAATGGACGATTAATCAAGCCGTGGCTGAAAGGTTATCCCATTAATAATCCTGAAGAT -GTGGCGTACAGTCGGACTATGTATATTGTGAAGCATTGATGTGATGGGAACTGGCGTTACCCTTGTGCATAACGC -CAGTGATGTCTGATTTAGCGACCCTGTTCCGGCGGTGTAATGTTATCCATATACAGCGTCTGGCTGGGGAAGGCA -AAGTCCGCGCCGTGTGACTGTACAATATCGATAATCTTCAAATAAACGTCTTGCTGTGCAGCAAGCCATTCAGCC -CATACCGTGGTTTTGGTAAAGCAATAAACCATAATATTCAATGAAGAGTCAGCAAACTGGTTGAAATAAACCAGT -AAGGTTTGTCGCTGGTCGATGGCCGGGTGATTTTTCAGCATCTCACGTACAGCTTCGACAATAACGCCCACTTTT -GCCGCATCCTCATAACGTAAACCAATGGTCGTGGTAATGCGGCGGTTGGTCATTCGTCCTGGGTTTTCTACGCTG -ATCGACGAAAACAGCGAGTTCGGTACGTACAATGGACGATTATCAAAGGTCGTAATTTTGGTAATTCGCCAGCCA -ATTTCCGCTACTGTACCTTCGATATTTCTGTCCGGTGAACGGATCCAGTCGCCAATACTGAAAGGACGGTCGAAA -TAGAGCATAATCCCGGAAAAGAAGTTACTCAGAATATCTTTACCGGCCATACCGACAGCCAGACCACCAATACCA -CCAAAGGTCAGCAAGCCAGAAAGGCTCATGCCGAAATGTTCGCCATAAAGCAGAACAAGCACCACAATAATGGTG -ATTTTGATGATACGCGACATAATCCGCGCACTGGTGATATCGCGACCTTTTTTAATCTGCTGTTTTTCAAACTGA -TTAATCAGCAGAAATAGCTTAATCGTCAGAATAACCGCAATCAGGGACGTACAGATAAAATCGATAACGCCTGGG -GTGATAAATTTGAGTTTATAGTTTTCTATAACATAATTAATAATGCTACCAACAGCACTGATAATTATGGTGTAG -ATTAAAAATTGCACCGCATGGAATAAAAATCCTTTTCTTTTACGATTTCCACGGCGAAACCAAAAGCTCATCAGA -ATCAATGCTGCGCAGCTACCGAAAATAATGACCAGATTAAGCGCATTATTTGTAAACAGTTCAGCGATCATTGTT -TTATCAGGCTCCTCCAGATAATTGTCGTCATGCCGGAAACCCCTGGCGGGGCTATTTTACCGCGACAATTCATTC -AGATCATCAATAGTCAGGGAAGGAAGTAGCAACATTAGCTAAGGAAGGTGCGAACAAGTCCCTGATATGAGATCA -TGTTTGTCATCTGGAGCCATAGAACAGGGTTCATCATGAGTCATCAACTTACCTTCGCCGACAGTGAATTCAGCA -GTAAGCGCCGTCAGACCAGAAAAGAGATTTTCTTGTCCCGCATGGAGCAGATTCTGCCATGGCAAAACATGGTGG -AAGTCATCGAGCCGTTTTACCCCAAGGCTGGTAATGGCCGGCGACCTTATCCGCTGGAAACCATGCTACGCATTC -ACTGCATGCAGCATTGGTACAACCTGAGCGATGGCGCGATGGAAGATGCTCTGTACGAAATCGCCTCCATGCGTC -TGTTTGCCCGGTTATCCCTGGATAGCGCCTTGCCGGACCGCACCACCATCATGAATTTCCGCCACCTGCTGGAGC -AGCATCAACTGGCCCGCCAATTGTTCAAGACCATCAATCGCTGGCTGGCCGAAGCAGGCGTCATGATGACTCAAG -GCACCTTGGTCGATGCCACCATCATTGAGGCACCCAGCTCGACCAAGAACAAAGAGCAGCAACGCGATCCGGAGA -TGCATCAGACCAAGAAAGGCAATCAGTGGCACTTTGGCATGAAGGCCCACATTGGTGTCGATGCCAAGAGTGGCC -TGACCCACAGCCTGGTCACCACCGCGGCCAACGAGCATGACCTCAATCAGCTGGGTAATCTGCTGCATGGAGAGG -AGCAATTTGTCTCAGCCGATGCCGGCTACCAAGGGGCGCCACAGCGCGAGGAGCTGGCCGAGGTGGATGTGGACT -GGCTGATCGCCGAGCGCCCCGGCAAGGTAAGAACCTTGAAACAGCATCCACGCAAGAACAAAACGGCCATCAACA -TCGAATACATGAAAGCCAGCATCCGGGCCAGGGTGGAGCACCCATTTCGCATCATCAAGCGACAGTTCGGCTTCG -TGAAAGCCAGATACAAGGGGTTGCTGAAAAACGATAACCAACTGGCGATGTTATTCACGCTGGCCAACCTGTTTC -GGGCGGACCAAATGATACGTCAGTGGGAGAGATCTCACTAAAAACTGGGGATAACGCCTTAAATGGCGAAGAAAC -GGTCTAAATAGGCTGATTCAAGGCATTTACGGGAGAAAAAATCGGCTCAAACATGAAGAAATGAAATGACTGAGT -CAGCCGAGAAGAATTTCCCCGCTTATTCGCACCTTCCCTAACTAATCAATGCGTTGATTGTAAATCCAGCTAAGA -GGTGAGGTTTTCAGAGCAGACAACGGTGAAATGTCATGGTATTGTTACGTTTAGGTAACAAGAAATTTGTCTGCA -CAAGGATTACATCATGATTATGGCGAAACTGAAGTCAGCGAAAGGGAAGAAATTTCTCTTTGGTTTGTTGGCGGT -TTTCATTATTGCGGCGTCGGTTGTGACTCGCGCGACCATCGGCGGCGTTATAGAACAGTACAATATTCCGCTGTC -TGAGTGGACGACATCAATGTATGTGATTCAGTCATCGATGATTTTTGTTTATAGCCTGGTCTTTACTGTGTTGCT -GGCAATCCCGTTGGGAATTTATTTCCTTGGCGGCGAAGAGCAGTAAGTAAAAAATAGGCCCGATAACTCGGGCCT -TGTCAGTTATTGAAGAGTCGTTAATCGTCTTCTTCGTCATCCAGTTCAACGGGTGTCTGATACTGGTCAGGTTTA -ATGACCAGCAGGTCGCAGCGAAGATGATCAATCACCTGTTCCGCCGTGTTGCCGAGGAATGCTGCTGAAATACCG -GTGCGTCCTACCGTGCCCAGAACCACAATCCCCGCCTGTAAGTGCTCCGCCAAATCAGGAATCACCTCTTCTGGC -AGACCTTTTTCTACGTGCGTCATGTTTTCATTAATGCCGAATTTCTGCCGCAGGGCTTTCATTGCCAGCAAATGT -TGCCCACGAATGGCATCGTTATAAACGCTCGGGTCAAATTCCGGCAGTTCAATCGCGATATTAATTGGCGTTACC -GGATAAGCGCCAACCAGATGAACTTCGGTATGGTTGACTTGTTCTGCCAGTTCGATCGTCTCTTTGACCAGTTTT -TCATTGAGCGCATTATGATACGGCTCTTCACTGGCGAGATTCACCGCCACCAGCGCCTTGCCTCCTTCCGGCCAC -GGCTGGTCTTTCACCATCCACACCGGGCTTGGGCATTTGCGTAACAGATGCCAGTCCGTTGGCGTAAAAATCACC -GCTTCCAGACGGTCATGTTGGTGCGCCATTTTTAGCACCAAATCGTGTCCGCCGCTGATCACTTCCTGAATGATG -GCTTCGAAAGGACGGTTATGCCAGACCACTTTAATTTCAATGGGAACGCCAGCATTGAGATAATATTTTGCCTGC -TCGTGGATCCAGGCTGTACGCTGGCTGATGACGCCCTGACGCATAGCGGTACGTTCGTCCGGGGAGAGCAGGGTG -GTCATTTCGTATGAGAAGTCATAGATCGGCAAAAAGGCTTTAATTTTGCCACCAATCCGTTGATGTAAATAAACA -GCTCGCCGCAATGCTGGTTGGTCGTCCTGGTTAGGATCGATAACAACGAGCATGTTCTGATACATAGCCATACAG -GGTCTCCTTACAACAACTGTCAACGCAGTTTGTAATTAAAAGATTAACCCATATCTGGTGAATGAAACAGTGATG -AACCTTCTGCCAGATCAATAAATCAGAAAAATTTAATGATATGACAGAAGGATAGTGAGTTATGCGGAAAAATCA -GGCAACGTTACGCGTATGACCAGCAAGCTGGGCCAGCGCATCGTTATTTTCGATGGTGATGTATTTACCTTTGAC -TGCCAGCATGCCGCTTTTCTGGAAGCGACCCAGCAGACGGCTGATGGTTTCTACCGTCAGGCCCAGATAGTTACC -GATATCGCCACGAGTCATCGTCAGGCGGAATTCACGAGGGGAGAAGCCGCGTTGGGCAAAACGACGGGACAGGTT -GTAGATGAATGCAGCCAGACGTTCCTCGGCATTTTTCTTCGACAACAGCAGGATCATGTCCTGATCGCCTTTGAT -TTCACCGCTCATCAGACGCATCATCTGCTGACGCAGATTCGGCATTTTACCGGACAAATCGTCCAGCGTTTCGAA -CGGGATTTCACATACCATCGAGGTTTCCAGCGCCTGCGCGAAGCTCGGGTGATGGCCGCTGCCGATGGCGTCAAA -TCCCACCAGGTCGCCTGCTAAATGGAAACCAGTGATTTGCTCGTCGCCTTGCTCAGTGATGGTATAACTTTTAAT -CGTACCGGAGCGGATGGCATAAAGCGATTTAAGTTCATCACCAGCCTTAAACAGCGTCTGGCCTTTCTGAATAGG -CTTCTTCCGCTCAATGATATTATCAAGCTGATCAAGCTCATGTTCGTTGAGTGTGAACGGGATGCAAAGCTGGCT -GATGCTGCAATCCTGGCAATGGATAGCACAACCGCCAGACTGAATGCGCCGTATAATTCGCTTTTCCGGGATCAT -AGGTCTGCTCAAGCCGTAATTGATATTTGTCAATTTTAACATCTTTTTAGGGAGCAAGTAAGTCTAAGCAAACCT -TAACAGCAGAGAATTCCGATATTAGATGTAAATATATGTCTATCTATTTGAAAACCCTTAAGTTGTTAAGGGTAA -CTTTACATAAAAGTGTGAACAAGCTGGCACAAATTGTTTAATGTTTACAGCAAAAGATAACCTTCATGGCGCAAT -AACCACTCTTTTCGCTGAACTCCGCCTGCATATCCGGTCATGGTGCCGTTTCGGCCAATAACCCGATGGCAAGGT -ACGACGATGCTGATGGGATTCGATCCGTTTGCCGCACCAACGGCACGCGCCGCGCCAGGACGGCCCAATTGCTCA -GCCAGTTGGCCGTAATGCATTACCTGCCCGCAGGGGATAGTGCGTAGTGTTTTCCAGACTTCGCGCTGAAATGGC -GTCCCCCCCGTAGCAGTGGGAAGCGTATCAATAATGCTAAGATTACCGGCAAAATATTCACGAAGCTTGTCGCTT -AAACCGCCTGGATTGGTGGCAGAAATGCGCTCATAGCCTTCTTTGCGATAATGGATGTCCAGCAGCTGCACCATG -CGTTCGCTGTACTCTTCCCATTCAACCGCCCGCAGGCGAAATTGCTCATCGCAAATCACCCACAGTGGACCCAGT -GGCGTGGCAATTTTTTCTTCAAGTAATCTCAGCATCCGTTCTCTCTTAAGACAAACGTGGGTAAATACCCGGACC -TATCGGCAGACCGACAAGATACCACGCCAGCAACATCAGCAGCCATACCACCAAAAAGATAAGTGGATAGGGCAA -GACTAACGAATAGTAAGTACCCAGTTTCGCGTCTGGTTTGTAGCGTTGCAGGAATCCAAGAAACAGTGGAACAAA -AGGAGATACCGGCGCTAAAGGCAATACGGATGAGTCGGCAATACGAAAGAGGATTTGCGCAAATGCCGGGTGAAA -GCCAAGTAGCATAAACATTGGTACGAAAATGGGGGCGAGAATCGACCAGATTGCGGAACCGCTGGCAATAAACAT -GCATAAGAAAGAGGAAAGCAACGCCAGACCGACAAACGCCGGGATGCCGCTAAGCCCTGAACTTTCCAGTATATC -GGTCAGCCCCACGGCGATGAATTTCCCCATGTTGCTCCAGTTAAACATGGCGACAAATTGGGCGAGGGGAAAAAC -CATCACGATAAATCCCGCCATCTCTTTCATCGGTTCAATCATTAAATGCGGTAAATCCGCCTGACGTCGAATTGT -GCGGGTAGCGATGCCATAAGCCAGCGAGACAACAAAGAAAAAAAGAATGATCAGTGGCACGATACCTTTAATAAA -GGGTGATGGCATCACGGTGTGATTAATCGGATCGCGCAATATCCCGTTTTGCGGGATCACCATCAGCGCAATCGC -AGCAATAAAAAGTAGCGATACGACACCTGCTATGCGTAAACCAAAACGCTGACTTTCGGTCAATGTCTGCAGTTT -CTCATCGCTGTTTCCCTGCCATTGACCTAACCGTGGCTCGATGATTTTGTCGGTTATCAGGCCGCCAACAATCGT -CAGTACGACTACGGAGCTGGCCATAAAATACCAGTTATCAATTACACTGACGTGCATTTGCGGATTGAACGCAGC -TGCCGCTTCCGTGCTGATCCCCGACAGCAACACGTCGGTTGTGACAATCAGTAAATTAGCCGTAAAGCCGCAACC -TACGCCTGCAATGGCAGCCAGTAAACCTGCAACTGGATGCCTGCCCACCGCCAGAAAAATCAGCGCACCCATCGG -TGGCATGATCACTAACGCCGCATCGGAAGAAATGTGGCTGAAAAAAGCAATAAACAGCACCATATAACTGGCGTA -GCGGGCATTAACATGCGATGCCATTTTAACCATTAGTGCTGGCAGTAAGCCGACGCGCTCCGCCAGACCGGCACC -TAAAACCAGCGCCAGGATCGCACCAAGTGGAGCAAAACCGCTAAAGTTTTTAATAACATTGGGTAAAAACCAGTG -TAATCCTTCCACACTGAGCAGGTTTTTCACCACGACCGGCGTACCATCGGTCGGGTTTTTCGCACTGACGCCAAA -GGCCGACAAAATTGCCGTCGTCACCATGAGTACGATAATCAAATAGATAAAGAGCAGAAAAGGATGGGGAACCTT -GTTACCAATTCTTTCGACCCAGCCATAGAGCTTCCCGGATTGGGAGGACGACGGTATGGATGACATACTCATGGG -CATTCCTCGGTTGTTGTGTTTGCGTTGTTGTTGTTATTTTAAAGGTGACGGTGTCACGTTTTTCGGGATAGGGCA -GTGATACGGTTGCGTGTCCGTTACTTGCTGATGCTCTTGTTGGCATTCTTGCAATAGCCCTGAATCAAGGAAGAG -ATTGACTGTGGTTGCTGCCATAGTTTTCGCCGCCAGCAGCATTCCTTTATGAGCAATAGATGTTCGCCCCTGGCT -AACCAGTTGCCACGTATGTAGCGGTGTACCGACGGCAAAACAGGGGCTGAAACACTGGGCAACAGGCAGTTTCCA -ACTGACGTCGCCGACATCAGTCGATGCCGCAAGCACGTTATCGGTGGCGGCATATGGAGCGACTTCATTCGCCAG -TACCGTTTCACGATGACGTAGTGCAAAAACCTTGCCGTTTTCGCCACCGGTTGCGGCGATATTATTCAGACTGTT -TTGCCGATCGTTGGAGGTGAGCGTAGCCTGAATTTGTTTCGCAAAAGCCAGTTCTTCGGAGTTCCATTCCGGGGT -ACCAAAATGGGATAGGGCCTGGTACATGGCATTTTCTAAGGTGCGATTCGGGAGATAACTGGAACAGGCTTTGTC -GAAGCGGCATTCAACCGTGGTTTCGGTCATCAATGCCGCACCTTCGGCGATTTTGGCGACCCGATCATAAATATG -CTGCACGTCGGTCATTTCGGGGGCGCGGATAAGATAAAGCACTTCTGCCTGCGCCTGGACCACGTTGGGCGAGAT -CCCGCCGCTATTTGTGATGGCATAGTGTACGCGCGCTTTTTCAATAATATGTTCGTTGAGGAAGTTGGTGCCAGT -GGTCATCAACGTTACGGCATCAAGGGCGCTGCGTCCCAAATGAGGGGAATTCGCGGCATGTGCTGCGATCCCTTT -AAAGCGCCATGATGCCTGAATGTTTGCCAGCGTGCGGGTATTGAACATACCGGCAAAGGCTTCCGGGTGCCAGGT -GAGTGCCGCATCCACATCATCAAATACCCCCTCGCGAACCATGAACGTTTTACCCGAGCCGCCTTCTTCGCCAGG -ACAACCATAAAAGCGCACCGTGCCGCCTTGCCCATATTGTTCCAGCCATTTCTTGACGGCTATTGCAGCGGCAAA -GGCGGCGGTTCCCAGCAAATTGTGTCCGCAACCGTGACCATTTTCACCGGGCGTCACGGATGTAGGTTGCGCGCA -ACCTGCTTGCTGACTTAAACCTGCCAGGGCGTCATATTCTCCCAGCAGGGCGATAACCGGTTTGCCTTGACCAAA -CGAAGCAATAAAGGCATTTGGGATATTGCCTACGTTGCGGGTAACGGTGAAGCCTGCAGATTCCAGCGCCGAAGC -CAGATGCTCCGCTGACCAGAACTCTTCAAAACGTGTTTCTGGATGATCCCAGATTTGATCGGCAATATCGGTATA -ACGTTGGCGATCGGCTTCAATCGCATCGTCGATAAAACGATAGATTTCCTGCATCAGATACCTCGCGTCCAGGGA -AAATTGAGCGCGGTGCGCGCCAGCGTTTCGACGGCAATAGCGAGAACCTGCTCGTCAAAATCGAATTTTTCGTTG -TGATGACCTGCCGCCAGCTGTGTGCCAAACACCACGTAGGAGGCTTGCCCTTGATGTTGCTGCACGCGGGCCATC -ATTAATGTGGCATCTTCGGAACCCGCAGGCGCTTCAACACGTTCAATGGCCTGATTGACCCCCGCGACCTGAGCC -GCCTGACTTTGCAACCATGCGACCCATTGCGGCGAAGGAGAACTGGCGGTAGCTGCACCCATCAGACGAGTTTCA -ACGCCGACACCATACATGGTTGCTGCGCCCTGAATCGCTTGTTGTGCACGGTCAAAAACATATTGATTAATGACG -TCGCTGGCCCCGCGTGTTTCCACTTTCAGCAACGCCGAGGCAGGAACAACGTTACGACCGCTTCCTGCCTGCATA -ACGCCCACGTTTACTCTGGAAGCTCCTTCGCTGTGCGGGGCGATTGCATGCAGTGCAAGAGTGGCTTGTGCTGCC -GCCAACAAGGCATTGTGACCGTCTTCTGGTTTTGCGCCTGCGTGAGCGGCGGTACCGGTGAAGTGCGCGTCAAAT -TTGGTGGTTGCCATAAAATTATCACTGCCGCACACCACGGTGCCCGCAGGTACGCCAGTGCCAATGTGCACGGCA -GTAAAATAATCAACATCATCTACGACACCTGCATCGACCATCGCCCGCGCGCCACGCGTACCTTCCTCTGCAGGC -TGAAAAATCAGTTTGATGACGCCATGTAGTCCGGACTCGAACTGTTTAAGGGTATGCGCCAGCCCAAGCCCAATG -GCGGTATGTCCATCATGACCACAGGCATGCATCATTCCGGCGTTACATGACGCAAAACCGTCGCGGTAGGGGCGA -TGGCTGACATCCTGCTCTTCACTGAGATCCAGCGCGTCCATATCGACACGGAAAGCCATCACCGGACCGGGGCGA -CCGGTATCCAGGGTGGCGACGATACCAGTGAAACCACCTTCAAAAGCCGCAATCCATTGTGCTAGCGCACCCTGT -TGACGAGCGCGCTCGAATTCGCGTTGTAGAGTGAATTCATCAGGTAATCCCATCCGGCTACTTTCATTAACTACT -TCGCGACCCAGCGCCAGTGAATAGCCGAGCTGGTGCAATTCTTCCGCAACAAGGGTGGCAGTGCGGAATTCCACC -CAGCCAGACTCTGCATAGTGATGAAAATCACGTCGCCAGTGCGATAATTTTGGGGCAAGCGAATTAACAAATTGA -TTCAAAGACTCCATAACCTTTCCCGTCATCAGTAAAAAGTGTGACCCGGTTCACGTAGCGATAGTTTTTACTTAT -CACTAACTGATTTTTCACAGTTTTAACCGTTCATAAATTACCCTGACACAATCATCTGCATTAAAGTAGATGCCA -GTTTCTTTGGTCTGATAAATAACGGTTATCGGTGGCGTCATGGCTTTTCAGGTAAAAATTCATCAAATTCGGGCT -TTTGTTGAAGTGGCTCGTCAGGGCAGCATTCGCGGAGCGAGCCGAATGTTGAATATGTCGCAACCGGCACTGAGT -AAATCTATTCAGGAGCTAGAAGAAGGGTTAGCGGCGCAACTCTTTTTTCGCCGTAGTAAAGGCGTGACGTTAACT -GATGCCGGTGAAAGTTTTTATCAGCACGCCAGTCTAATTCTTGAAGAGCTGCGCGCAGCCCAAGAGGATATTCGC -CAACGACAAGGGCAACTGGCAGGGCAGATTAATATCGGCATGGGGGCCAGTATTTCCCGCAGTCTGATGCCAGCT -GTCATATCTCGTTTTCATCAGCAGCATCCGCAGGTAAAAGTACGCATTATGGAAGGGCAACTGGTGTCGATGATT -AATGAATTGCGTCAGGGAGAATTGGATTTCACCATCAATACCTATTATCAGGGACCGTACGACCACGAATTTACT -TTTGAGAAATTACTGGAAAAGCAATTCGCGATCTTTTGCCGCCCGGGACACCCCGCCATTGGTGCCCGTTCGATC -AAACAGTTACTGGATTACAGCTGGACAATGCCGACGCCACACGGCAGCTACTACAAACAGTTGAGTGAATTGCTT -GACGATCAGGCGCAAACGCCACAGGTCGGTGTAGTCTGCGAGACGTTCTCAGCCTGTATCAGTCTGGTGGCAAAA -AGCGATTTTCTCAGCAAACTGCCTGAAGAAATGGGCTGCGATCCCTTGCACGGACAGGGGCTGGTGATGTTGCCG -GTTAGCGAAATTTTACCGAAAGCGGCCTATTATTTGATTCAGCGGCGTGATAGTCGCCAGACACCACTGACCGCG -TCATTAATCACGCAATTCCGGCGAGAATGCGGCTATCTGCAAAGTTAAAACTGCATAAAAAAATAGAGTCTGTCG -ACATCCGCCAGACTCTACAGTACACACAGCAGTGCATCCGCGTCTTAAATCCGGCATTGTCTCCTCTGCGCCGGT -GACTGTGTTATAACGGTTTTAACCTTTAGTTGCCAATTTTCTTCAGTGACAGATTTCACGAAAATATAAGTTACA -TTATTAATATCGTGAATGAATAATCATGCATAAGTATTTTGCTTAAAATATCGGCAATATTTGGAACTTATTACT -GGAAATTTGGGTAATACGTTGTTGGACCGACCCGGTCTGGTTATCATATCGCGCTCTTAATTGCGGGAGGATGTA -ACATGAACCTTGACGACAAATCGCTGTTTCTTGACGCCATGGAAGATGTCCAGCCGCTGAAACGTGCTACCGATG -TCCACTGGCATCCAACGCGTAACCAACGTGCGCCGCAGCGTATCGACACGCTGCAGCTTGATAATTTCCTCACCA -CCGGATTTCTCGACATCATCCCACTAAGTCAGCCGCTGGAGTTTCGGCGGGAAGGGTTGCAACATGGGGTGCTGG -ATAAGCTGCGCAGTGGTAAATATCCGCAACAGGCGAGCCTGAATCTTTTGCGCCAGCCGGTGGAAGAGTGCCGCA -AAATGGTGTTCAGTTTTATTCAACAAGCCCTGGCGGATGGTTTGCGTAACGTGCTGATTATTCATGGTAAAGGGC -GGGATGATAAATCGCATGCCAATATTGTCCGCAGCTATGTGGCGCGCTGGCTGACCGAATTTGATGATGTTCAGG -CATATTGCACCGCGCTACCGCATCATGGCGGCAGCGGGGCGTGTTACGTCGCACTACGTAAAACGGCGCAGGCGA -AGCAAGAAAACTGGGAGCGCCACGCTAAGCGCAGTCGTTGATCTCGAGACGCATCCGCGGCTTATGCCGCCAGCA -CGCGGTTGCGTCCATCATTTTTCGCCCGATACAAAGCATCATCAACGCGTTTAAACAGTTCATCGATGCTTTCAT -TTCCTTCGTGATGCGCCACACCAATGCTGACGGTAAAGCGTGGTAAGCCCGAAATACTCACTTTTGCCACGCTTA -CGCGGATAGTTTCAGCCAGCGAAAGCGCGGTATCCAGTGGGGTTCTTGGTAGCAATAAGACAAACTCTTCGCCTC -CCCAACGAAACACCAAATCGCCTTTGCGAGCGCAACTTTCGAGGGTGCGGGCGAGGGCGCATAACACCTCATCAC -CTTTAGAATGCCCATAGAGATCGTTAATGTGTTTAAAACGATCGGTGTCGATGAGCAACAAGCTGTAATCCTGAG -CGATGGCGAGATGCTGCATTTGGCCTGGTTCCGTAATGTGATAAAACTGTCGCCGATTCAGTAATCCGGTCATCG -CGTCATGGTGAGCAGCATGTTCCAGCTGCTCCTCCAGCCGTTTTTGCTCAGTAATATCATGCACAATACATAACA -TGAGCTTGTCGCCATAAATTTCAATCGGTCCGGCATAGGTCTGCACATGACGAGTCGAACCATCCGCCAGTTTAT -GAACAAAATTCAAAGGTTTATGACCACCGGGTAAATGCGAGATTTCATGCATGATAGGCATGACGCGACGCCCGA -GCATATTTATTTCCCAGGTATGTTTCTGGCACATCGTTTCATGGTTATAACCATAGAAATTGAGCGCGGCGAGGT -TAGCATCGACGATTTGTCCATCTCGTGACGGGTCAATCAACAACATTGGTGCAGAGTTAGTCAGAAAAAAGCGCG -CATAAAAACCTTGTTTTTTGCGCTGATAATTTGCCGAGCGACTGGCTTTTAAACCCAGCGTTGCCGGCGCTTCGA -TACCTTCGAAAATAATCACCGGTTCTGTTTCTGTCAGCTTTCGCAAAACAAGCCGACAGCTCAATGCTGTTTCCT -CTTCTTTACGCTGAACAGTGAGGATTTCGATAATATCGTGTTGGTTTTGCAGATCGGAGAGGTATTTCGGCAGTT -CTTTTTGTGAGGAGACGGAATAGGGTCCGGTTCGTAGCTGACTAAACGTGAGGTCTTGCATCAACAGTTTCGCCG -CGCTATTGGCATAAATTAACTGTTCCTCAAAGGGCGAAACGATCCAGACAGGACTGGTGAGTAAGTCCAGGGTAT -TGAAGTTGTGCGTAATCATTGAGATCCCGTTATTTTTATCAATTTTTGTTGCTATCCGATCGCAAAAAAGCCACG -TCATATGATCAGATAATTCTGATAATGATAGACGCTATTTAACACTTCACACGGTTTGTATACGGAAAAGCATTT -TGCTTTTTGTATTCAATTTAGACAGAATTTTATTAATCATTTCAGGGTAATGGGGTGATGAGATGTTGCGTAACA -GGGCCAGAAGGCTAGACTACAAAATAATGCGTTGATGATGGAGGCACTGTGGAAGCGATTAAGGGATCGGACGTT -AATGTCCCGGATGCAGTATTTGCCTGGATGCTGGATGGTAGAGGCGGCGTTAAACCGCTGGAAAATACAGATGTG -ATTGATGAAGCGCATCCCTGTTGGCTCCACCTTAATTATGTACACCATGATAGCGCCCAATGGCTGGCGACAACA -CCGCTGCTTCCCAATAACGTACGTGATGCGCTGGCGGGCGAGAGCACGCGTCCCCGAGTCAGCCGTCTCGGTGAA -GGCACGCTGATTACATTGCGCTGTATAAACGGCAGCACCGATGAACGCCCCGATCAACTGGTCGCCATGCGTGTA -TATATGGACGGGCGGTTAATTGTTTCGACCCGACAACGCAAAGTGCTGGCGCTGGACGATGTGGTGAGCGATCTG -GAAGAGGGCACGGGTCCGACCGATTGCGGGGGATGGCTGGTGGATGTGTGCGATGCGTTGACCGATCATTCCAGT -GAATTTATCGAGCAGCTGCACGATAAAATTATCGACCTTGAAGATAATCTCCTTGATCAGCAAATTCCACCGCGT -GGATTCCTGGCTCTGCTGCGCAAACAATTAATTGTGATGCGTCGCTATATGGCACCGCAACGTGATGTTTATGCT -CGTCTTGCCAGTGAACGTTTGCCGTGGATGAGCGATGACCAACGCCGTCGGATGCAGGATATTGCCGATCGCCTT -GGGCGCGGCCTTGACGAAATCGACGCCTGTATAGCACGGACTGGCGTGATGGCGGATGAAATCGCTCAGGTGATG -CAGGAAAATTTAGCTCGTCGTACCTATACAATGTCGTTGATGGCAATGGTCTTTTTACCCAGTACCTTTCTGACC -GGGTTATTTGGCGTCAACCTTGGTGGGATCCCTGGCGGCGGGTGGCAATTCGGATTTTCAATTTTTTGTATTCTG -TTAGTTGTTCTTATTGGTGGTGTTGCTTTATGGTTGCATCGTAGTAAATGGTTGTAACAAAAGCAATTTTTCCGG -CTGTCTGTATACAAAAACGCCGCAAAGTTTGAGCGAAGTCAATAAACTCTCTACCCATTCAGGGCAATATCTCTC -TTGCAGGTGAATGCAACGTCAAGCGATGGGCGTTGCGCTCCATATTGTCTTACTTCCTTTTTTGAATTACTGCAT -AGCACAATTGATTCGTACGACGCCGACTTTGATGAGTCGGCTTTTTTTTGCCTGTTATTTATCAGCGTCTACCCT -TTAAGAGTCCACCCAATGACCAGAGGGAAATATGACGACACTTATTTATTTGCAAATTCCTGTCCCTGAACCGAT -TCCTGGCGATCCTGTTCCAGTGCCCGATCCGATCCCTCGCCCGCAACCCATGCCTGACCCACCACCCGATGAAGA -ACCGATTAAATTGTCGCATCGTGAGCGTAGATCTGCGAGGATACGCGCCTGCTAACTTTGCGTCGATGACCACGA -GAATAGATTGTGACCGCTTTTTCTACCCTGAATGTTTTGCCTCCCGCCCAACTCACGAACCTTAATGAGTTGGGT -TATTTAACCATGACGCCGGTGCAGGCCGCCGCGCTTCCGGCGATCCTTGCCGGAAAAGATGTTCGCGTGCAGGCG -AAAACCGGCAGCGGCAAAACGGCGGCTTTTGGCCTCGGCTTGTTACAGCAAATTGATGCGTCGCTATTTCAAACC -CAGGCTTTAGTGCTGTGTCCTACGCGTGAACTGGCGGATCAGGTGGCAGGTGAATTGCGTCGGCTGGCGCGTTTT -CTGCCAAATACCAAAATTTTGACGTTGTGCGGTGGTCAACCGTTCGGTATGCAGCGTGATTCGTTGCAACATGCG -CCGCATATTATCGTGGCAACGCCGGGGCGTTTGCTGGATCACCTGCAAAAAGGCACGGTATCACTGGATGCGTTG -AATACGCTGGTGATGGATGAGGCCGACCGCATGCTGGATATGGGATTTAGCGATGCCATTGATGATGTCATCCGT -TTTGCGCCTGCATCTCGACAGACGCTTCTGTTTTCGGCAACCTGGCCGGAAGCCATCGCTGCAATCAGCGGACGA -GTGCAACGCGATCCTTTGGCGATTGAAATTGACTCAACAGATGCTTTGCCACCCATTGAACAACAATTTTATGAG -ACATCCAGCAAAGGCAAAATTCCTCTGTTGCAACGGTTATTAAGCTTGCATCAGCCATCCTCTTGCGTGGTGTTT -TGCAATACCAAAAAAGATTGCCAGGCTGTCTGCGACGCGCTGAATGAAGTAGGGCAAAGTGCATTGTCATTACAC -GGCGATTTGGAGCAACGCGATCGCGATCAGACCCTGGTACGTTTTGCTAACGGTAGCGCCCGTGTACTGGTCGCG -ACTGATGTTGCTGCGCGTGGTCTGGATATTAAATCGCTTGAGCTGGTGGTGAACTTTGAGCTGGCGTGGGACCCT -GAAGTTCATGTACATCGCATCGGTCGTACAGCTCGTGCAGGAAATAGCGGTCTGGCGATCAGTTTCTGTGCTCCG -GAAGAAGCACAGCGGGCCAATATCATTTCTGACATGTTGCAGATAAAACTTAACTGGCAAACGCCGCCAGCTAAT -AGTTCCATTGCGACGCTGGAAGCAGAAATGGCAACGTTGTGTATCGATGGCGGGAAAAAAGCCAAAATGCGCCCG -GGTGATGTATTAGGTGCACTGACAGGAGATATCGGGCTTGATGGCGCAGATATTGGCAAAATCGCCGTGCATCCG -GCGCATGTCTATGTCGCGGTCCGTCAGGCTGTTGCTCATAAAGCATGGAAACAGTTACAGGGCGGGAAGATTAAA -GGAAAAACGTGCCGGGTGCGGTTATTAAAATAATGAAATGTTGAATTGCCGGGTGCAAGAGTAAACATCTTATTC -GGGATTGCCGGATGCGACGCTGGCCGCGTCTTATCCGGCCTCCATAAGAGTAGCCCGATACGCTTGCGCATCGGG -CGCTATCCTGGTTATTTCACTTCAACCACATTCAGCCGTAACTCATCCAACTGATTTTCATCTTCTTCTGGCTGC -CAGCACGCCGGTTGTAGTGGGATCTCTTCGCGATCAAACGCCAGATCACCCCCGTTAACCACTTCAGAACCGTGG -GTGATGCCTTTGAAATCGAACAGGTTGGTATCGCACAGATGCGACGGCACCACATTCTGCATCGCGCTGAACATC -GTCTCGATACGCCCTGGATAACGTTTATCCCAGTCACGCAACATGTCAGCAATCACCTGACGTTGCAGGTTAGGC -TGTGAACCGCACAGGTTGCACGGAATAATCGGGAACGCTTTTGCATCGGCAAATCGCTGAATATCTTTCTCGCGG -CAGTAGGCCAGCGGACGAATAACGATATGTTTGCCATCATCGCTCATCAGTTTCGGAGGCATACCTTTCATCTTA -CCGCCGTAGAACATATTTAAGAACAACGTTTGCAGGATATCGTCACGATGGTGACCCAACGCGATCTTCGTCGCC -CCCAGTTCCGTTGCGGTACGATAAAGGATACCGCGACGAAGGCGAGAACACAGTGAGCAAGTGGTTTTGCCCTCT -GGAATCTTCTCTTTCACGATACCGTAAGTATTCTCTTCAACAATCTTGTACTCAACGCCCAGCTTTTCAAGATAC -TCGGGCAGAACGTGTTCCGGGAAGCCCGGTTGCTTTTGATCGAGGTTAACAGCCACCAGCGAAAAATTGATTGGC -GCGCTTTGCTGCAAATTGCGCAGAATCTCCAGCATGGTATAGCTGTCTTTACCCCCGGAGAGGCAAACCATGATG -CGATCGCCTTCTTCAATCATATTGAAGTCAGCAATGGCTTCGCCCACGTTACGACGCAGACGTTTTTGTAATTTG -TTCAGGTTGTATTGTTCTTTCTTTGTAATTTGTTGATTTTCTTGCATTATTTCAGTTCTCTGGTACTAAATGGGG -CAAATTGGGGGCAAACTTTGCAACTACGATAACCGCGCATTCAACATGGCTATCTGTTCGTCGTTCATGTCATCA -ATCCACATACCGTAAATTTCATACACCATCTGCGCAGTTTCATGCCCCATTTGGCTGGCTATAAATGCCGGGTTC -GCTCCTGCCGTCAACAGCCAGCAGGCAAAAGTATGCCGCGTATGGTACGGATTACGGCGGCGAATACCAGCACGT -TTTACTGCTGCATTCCACCTTGCCCCCAAACTGCTTACCGAGTAATAAGGTTTTTGTTTTCCGTTACACACCCTG -GGCATGAAAACAAAATGCAGTTTTTGCTTTTCGGTTCTGCCGTACTCCCGATGATAAAAGGTGATTTCGCTTTTG -CGATGATGCCCGGTCAGTTTGTATTGCTCCTTCAGTGCTTCAAGAGCAGGCTGCAGTAGTGTTACTGTTCGGATC -CCGGCATTTGTTTTTGGGGGACCGAACATATCAAGTATCGTCAGGTTTCTTCTGACATTCACTATTCCCTTTTCG -AGATCCACATCCTCCCACGCCAGAGCTGCCAGTTCCCCGTGACGAAGTCCTGAGTAAACGGCAAATTTCCACAAG -TTCTGGCTCTGTCCTTTTTCACTTTCCATTAATGCATTGAATTCTGTTTTAGATAACGGATCAGGCTTTATTCTG -TTTCGCTGTAATTTTTTTACTCCTTCAAATGGTTTGGTTGATATAAATCCCGACTGATACGCAAAACGCAACAGC -GAACAGAGCAGGGCGATATAGTTATCAACTGTGCGCACGGTTCTTCCTTTTTTGTTGGATCTTGGATTATCCAGG -TAAAGCGTTTCTCCATGCAGCAGTTCATTCCGGTAGTTTAAGATATCGCTATAACGAATATGTGATATCGGGGTA -CTTTCACAAATTATTATTCTGAGTGTTTTTAATTGTGATTTCGTTTTCTTCATTGTGTTTGTTGTTAACTCTGTC -TCTTTAATTTTTGTCCAGATATCACAAAGCTCTCCGAACGTTTTTATGACTCTCGTTGTCACCATTTTTGCCCCA -GTGCTGGACTGGGGAAAACGTCTTAAATACTCAAATTCACCGGAGTTTATTTCATGAACTATCAGCGCTCTTAAA -TTTCCGGCCTTTTTAATATTACTGTTTGTAATCTCCCAGCCTTTTAATGTTTCCCGACATCGTTTTCCTCGAAAC -ATGAACCAGATGCGAATGTATCTACCTCTAATCTCGACACCTGTTGGTAATTTAGACATATCATGAGTCTTTGAT -AAACTGATTTATCTTTGGATAGTTGTACCAGATAATCCCTCGTTTGCTGTCTGGCTTACCTAAAGGAGATACTCG -TTTGAAGTGGAAGCCCTCCACCCAACAGTTCTGGCGGTATGCTTCAATTTGTCTGGCCCCCAGACCAGTGCGAAG -CATCAGGCCGTATTCAACCATCCACTCTTCATTAAAGATTACTTGTGCCATCGCATCACCTCTGGCAGGCGCCAA -TGTTAGACTGAAATTGACGCCCGATGTTGATTATTAATAATCAGCTATGAAGTTTTAATTTGAATACAATGCAAT -TCTCGAGGACTGAAGTTTCTCGCAATTAAAATTTATCAGTTTTACTTTCTGCTCTCTGGAAACGCCTGCTTCTTT -TTTACCTGAGAGCATTTTTTCGCATTCTGATTTCGTTAGTTTAGATTTTGAATATCTTGTCCAGTTAGTAGGAGT -GCCACCTTCCTTTTCAATAGTGGCGGTAATTTTATACATGAACACCTCCATTATTATTTCCAGTGGTTCGTTTAT -TCCATCTTTCGAGTGCTTCTTTTTCACTTCCACCATAACCGGTTCGGGATTCGCATCCGTTACACTTCGCTCGGT -AATATCCTGAAATGGCTTTCACCGTTACTGATGGACAACCACAAAATGGACATGGTTTAACATTGTCATATCTCA -TAATTTTTCTCATAAAAAATATTTCAAGTTGGCGGTGCATTACACCGCCAGGCTGAATTATTCCTCTGAATTATC -GATTACACTGTATTCCCCGGTTAATACAGAGGAATCTGCAGGATCGATTGTCAGTGGTTCCTTTTCATCCATTGA -TACTGCACGCTGGATCTCAATTGATACGGGCAAATATTTGAACAGGCGACGAATAGCCGTTTTCTTTGCCATTTC -TTCCCAGTGAGTTACCCACGGCCCGTTATTACCAGCTTTACTCAGGCTGCGCACCAGCTCAATCTGTTTGCGCGT -CATAACTTCAAACTGAGTACCTCCGTCTTTCAGTCTTGCGACAGCATAGACGTGGGTAACCGGGGCATCTTCGTT -TTCTCCCGGGCGGTGTATTAACTTTTCATCAAGGCCAAATTCGAAGCTAAACTCGTCACCTTCACGGACAACACG -GGCTGACAGGCTGGCGATTTGACCAGAACGGCGAGCCAGATCAATCATGCCGCGATAGCCAATGATTAGCTGAAC -GTTCTTTTTACCGCTCTTTTCGTTTTTATTACCAAAAGGCAGTAAATATGCATGACCGAGGGCGCTACCTGGCTC -AAGTCCGAGCTGTGAACACTGTACGATCGCACTGACAAAACTCATAGTGTCACAGTTTCCTAACGCCGGAACTTT -ACGAATTTCTGTGGTGGCGATACGGATCATACGTTCAGCCGTCATATGGCGTGGAAGAGCTGCTGCCAGTTGCTC -TTTCATTGATGGCTGGTTAATAAAACTAATCACGTCGCTATTTTTAACTGCTGCTGGTGCACGGTTTCCCTGAGT -TTTTTGCAGATCGGCTTTTGCGATTGGTGGTTGCTTAGTCATTTGCATATTCCTTAGCCCAGCGGGGCAGTGATA -ATGTCTTAATAGCTGGCCATTCATCGGTATTCAGGCAGTCAGACAGGGTTCGCAGATTGCGGTGATATTCCTGTT -GACCTGCCAGTTTTGCTTCTTCGCCCATCATGAAAATTTCAACCGGATAACGTCCGCATTCAATAGTTGTGCTGG -CAACCAGAAAAACGAAAGTTGGCTGCACTCCAAACTGTGCTTCATAACCGTCACTGTAGAATGCATCCTGAACGT -GATAGCGGTAGTCGTAATAAGCGGTTTTGAATCGTTGAATATCCGCCGTAGTTTTCACGTCCATGATCCAGTGAA -ATTCAGGGATAATTTTGTCCGGACGGCACCGACACAAAATTCCTGTTTCAGGATCTTCCCAGTAAATTGATGATT -CAGCGTGTCCGGCGCTTTCAACAAGCCATTGCCCCAGCGGCAAAGCCATAACGCTTTGATACATGAGTTCAATTT -TCCGGCCTTCTTCCGCAGTGATAACCGTTTTTCCTGTGCTTGCGCATTCCATCAGAAACGCTTTCTCTTCTTCTT -TTCCGGCGTTTGTACGGCGGTTAAATTCAGGTGCTACGATAAAGCGGTTACTGAATTCTTCCGGTTCAAGTACCC -GGCAGTGGAAAGCAGTTCCTAAATCGAGCGTTTTTGTCTTTGTGGTGTCCACGGGGGCATTTTTACGCCACAAAT -ATAGTGCCGGAGTATCAGCAATGTCATCGAGCTGAGACTTACTGATACCGGGACCCGCGTGGTAATTCTCATTCG -AAATTCCGTAATAAATACCTGGCTCTATGTCTTCTACGATTACGGGATCTGCGACTTCGCCAGTTTCATCACTGC -AATCGCGATGCGGATCGCTGCCAGCATTCTCATTGTGCGGATGTTCAGCGCCTTCCATTTCCTCCGGATCATTTT -CCTTAGCTTCAACCTGACTCTCTTCATCGAATGTTTCCTGGTATGTTGCGTCGCCCATCACCGCACCACAGTCAG -GGCAGTTATCCCCGCCAGTCTGGCCGCAGGCATTGCAGGCTATTTCCGGTTCCTGTTGCACTACTGGCTCAGGTT -GATTCATATCTGGGCTGGTTTTTTCCGTTTCTGGCTGGTTCTGGTACACACAATCGCGAGTCTGGATCCCCTTTA -CCCATTTCGGATCGTTCGGGTCGCTAATTCCGTCAACAAATTCACCACGTGATGCAGCAAGCAATTTATCGTCAT -CGACAGGATTTTTTGATGGAATGTTTTTCCGGGCTTCATGGAGTTCTGCCCGCAGTTCCTGATATTTCGCATCAA -CAGAATTTACCTGTGACTGAGCATCCAGCGGCTGCGTGTCCTGATGATGTTCAGTTGCGTCCGGTTCCATTGTTT -CAGCCTCTCCCTGTTCAACTGCCGTTGTTCCAGATGGTTGCGGTTTTTCTTCATCATCCTGTTTTCCTTCTTCTG -TTACTCGCTGCGGCATCGGGGCAGAGGAGCGACCGCAGGCAATATCCACGATTTCCGGATCAGGGTTGGCATGAT -CGGTTTCAGTCAGTACTTTGTTCAGATATTCAGTGACGTGCGCGGGGATGACCTCGATCCCAATTGGTGCTTCTT -TTACGGACGCAACCACGATGGCGCGGGAATAATCCAGCCCGCCAGGCATGGTGATGAATTTGTCGCGGAAAACAG -AAAAGGGCGGTTTATTTTCAGCGATAATTTCCTCAATGCGTTTAGCGTGTGCCGGATGAAGGTTATAGATGTCCA -GATCCATTGAACGGGCCAGTACGCCAGTGGCTACGTCGCGCGCCAGTGACGTCAGATCGTGTACGAAACCTTCGC -CGCGATCGGTGAGGTTTCCGCCGCCAGCATTAGCACCGGAAGCCGTGCGAGTGATGTGTGAAACACGATTACCCT -TCATCCACTCTTTTGTCAGCAGTCCTCGATCGGTGTAGTCAGCGTTCAGGTATGCTTCGAAAAAAGCAGTTATCA -GTCCCAGGTTTGAATTACCAGGATTAGGGAAAACTTTGTCAGTGTCACGAACCAGTTTGTGGAGTTCGCGAATTT -CCAGCGGGTCGAGCAGGCTGGTTTTGTGGGAAACAGCCAGGGCAGTAACAGCCGGTAGTTCTTCAGCCCGAGCAA -TGTGTAATGCCTGGAGTCCGTCGCGTGAAACGTGCGTTACCGGTTTTTCGCTGCCGTGTTGAGCAAGCCAACGAA -TGGGCAGTTCCTGGCCAGAAATTGGGAGTAGCATATTCTCCTCAATCTCAGTCATGTCTTCGCCGTTGACGTTGG -TATTGCCTTGATAGTGAGCGTTGTCTGGTGCTGCTCCCGGTTTTAGTTCCCATGTCATGGAGTCTTTGCTGAGTT -GATAGCGTTCACTCCAGGTAAAATCGATCTCACCTTCAGCGGGCAGGTCATTAACGACAGGAAAATTCGTGGCAA -CAGCTTTAAAATAGCTGCTCAGTTTTTTACCTGACTTAACGATCAGGTAGTCCAGAGTGGCACAGGTCGATTCAA -AATCGTTGCTTGCCCACAGGACGACGTCAGGTTCACCGGATGATTTTTTCGCTTTCCGTAACAGGAAGAGTGGTT -TTGTGCTCATTGTTTTTTAACCTCAACTCAGATTAAAATTCGTTTTGTTCAGTGAATGATCTTGCCGGATACACA -CTGTTCATAGCCTGCGCCATACGCAGGCTATTTCTTTCAGATTTCACCTTTTAATTTCATTGCAATTAGAGTTGC -CAGAAATTCGGCTTTTTTTTCTGCGGGCAGATTCTTTCCGATATGCACCAGGCACATTTTTTTGACACCTTCATC -AAGTGTTTTTACGTTGCCTGATGGACCATCGATATCAACCACAGTGAATGGGGTTTCTTTATTTTCTGTTTTAAT -TACGTAGCCAATGCGCTTTCCTTCCAGATTCACCTCGTGAACAATGTCATCGGTAGTTACAACAGTGGCTTCATA -ATTGGTAATCATGTTTTTCTCCTTAATTAAGGTTGAGCGAATACCTGCCATTTCTGGCATAAATTCAGTTTCGAA -TAGTCAATTAATTAAAGTTCATGTGCCATCTGGTCTTTTTCGGCACAAGCTTCACTGCAATATTTTCTCGGTTCG -TCTTTTGATAAAATCCCGTGCATGAAGTGAAGCATTCTTTCAATAGCTTTGCTTTCTTCAACGTCTTTTTTGCAA -AGGTGGTAAGCACATTTTATTTTCTTAGTCATCACCATGACTCCGCCTTTACAGGTAAACCATCACGACCGAGGA -AGACTTTAATCATGCGGTCAGTAATGAATGTTTTTGTGGTCAGGTTACGAATATATAGTTTTCGCTTTTTAATAT -TGTTTGCCGAGGCAATATATGTCCGGCCTTCATGAAGAACATAATCGCCAGGAGTCACACACTGACGTGGTATTT -CATCAGTTCCGAAGTGATGTGCAATCATAATTATCTCCATTTTTACAAATGAACTTTGTTGATGCGGTGTCTGGT -GCCTCCAGGTGACTGCAACCAGTTAACAATTACAGTCGGCTTTCCCACCCAAACCAATAAGGACTAACATGACTT -TTAACTGTGCCACGTGCGCTTAGCCGCATTCACCGCATCACAAAATTCACTTTAAAAAGGGCGGACATCAGCCGA -ACTTCAAGAAAAAAACTGATGCCGCCAGGACTACACACAGCAATGTCGTTATTTACAACCGGAGGCGCACTCCCA -CCATTTAAATTTAACAGACAAGACCGACTCTTTATGGATATCGGAAATGCGCCTTCGTGTTGTGCCCGGTTTTAT -TTCACCACCTCCGGGCTTCGGTGGTCTCGGCTATACCCCTACAGCGAGAGCTTGTGTTAACATTTCAATACCCTT -ACAGTTGAGAGTTATTGATATGTTGGATGTATTTACTCCATTGTTGAAACTTTTTGCTAACGAGCCACTCGAAAG -ACTTATGTATACGATTATCATTTTTGGTCTCACTCTCTGGCTGATACCGAAAGAGTTTACTGTCGCATTCAATGC -TTATACTGAAATACCTTGGCTCTTTCAGATTATCGTTTTTGCCTTTTCTTTCGTGGTCGCCATTTCCTTCTCAAG -ATTGCGAGCACATATTCAAAAGCATTATTCATTACTACCAGAGCAACGAGTATTGCTTCGTTTATCTGAGAAAGA -AATCGCTGTATTTAAAGATTTCCTTAAAACAGGAAATCTTATTATCACTTCTCCTTGCCGTAACCCGGTTATGAA -AAAATTAGAACGGAAGGGCATCATTCAACATCAGAGTGATAGCGCAAACTGTTCTTATTATCTCGTCACCGAAAA -ATACTCCCATTTTATGAAGTTATTCTGGAACAGCAGGAGTAGACGTTTTAATCGTTAGCTTACTGTGTGCTTCTC -CAACCATCGGCGCGCACCAGTTTCGGTTTTAAATGTTTTGCTTTTGGTATACGTCATGGCAGTGAACGTTCCATC -CTGGTTGGGGAACACGCCGCACACCAGGGATTCGTTGTTGCCGAGGTCGATTTTTTGCATTTTGCGAATCTCACA -TCTTGTTGCTACGTATAGCGACTTCTGCCTGCCAGAGATCCCAGTCGTTGCTGCGTAAAGCCTGCACAGCCTGGT -TGTAAGTGATACCGCAACAATCCATCAAATACTGAACTACTTCGTAATGCACCATCTTATCTCTCCCCTTAACGC -CGGGTGGCGGAACTAACTGCTGCACTGCAAAATTTGAATCCCGCCGTCATGTTCATACGCCTCGGGCTGGCTACT -TAACCCCTTACCACTGCCTGGTAACTCGAAGTATTGCCCGGCGTTCTGTGGGGCGGGGTGGGTGGTATGCTGGAA -CTATAGGTAATGCCTAATTGATTGTCAATAGGCTATGCCTAATGTTTTGAGCGTAACCTAATAGGTGATGGCGAC -AGCAGAAAGTGATGGGGGGGTTAAATAACGGAATCCAGGAGTTTTCCGTCAGACCATATAAGTTTAAGTTCCAGT -TTTTGTGATGTTCTGGCTTTTCCGTTCAGATTCAAGAGCTTTCAGATACTTACCCACTTTCATTTCCATCGCTGC -TATGTAGGCGCGAACATCGTGGTCAACCCAATCTGGTTCTGTAGCATTTCCAGATAACAGGAAAGCTACAATCGC -TCTTATTTCATCAGAGGCTGCTTGATAAAGGTTGTTTATATCTAAAAGTTCACTTTTTGTATCTGAATTGGTGGG -GGTTGGTATGGGGTATTCGTTAAGCCCCCAATGCTCTGGACCAACAACATCAGAAAAGAAACGCCATAATTCTGG -AAGTTTATCTTTACTTATAGAGCCTTTCTTAATCCAGTCATAAATTGATGGTGGTTGGACTTTAAAGTGGCGTGC -GACCTCCGCCTTTGATTTGACGGATCCCGATGCGATTTTTTTGTTAATGGCCTGCTCTATCGCTCGGCCTAAGTC -TTTACCACTAAGCATTGCTTAATATTCTCCTATGCGCATTACATTAGGCAATCCCTACCCTTACTGCATTAGGCA -CAGCCTATTGACAATTGCGTTAGGCGTCGCCTAATATTTCTGTGTGTTTTTGGAGTTCATTCGATGAAAAAAGAG -AACTATTCATTCAAGCAAGCTTGTGCTGTTGTCGGTGGGCAATCAGCAATGGCTAGGCTTTTAGGTGTATCACCT -CCAAGCGTAAATCAATGGATCAAAGGGGTACGTCAATTGCCTGCCGAGAGATGTCCAGCAATTGAACGTGCAACA -AGAGGTGAGGTTCTGTGCGAAGAACTTCGTCCTGATATTGACTGGTCATATTTACGACGTTCGGCATGTTGTTCG -CAGAATATGTCAGTGAAGCAACTAAATGACAGTAACAAATCCTCATTTGATCATACCTGAAACATCAAGAGGCAA -ATGATTCATGAAAATCAAGCATGAGCACATCGAATCAGTGTTGTTTGCCCTAGCAGCCGAAAAAGGGCAGGCATG -GGTAGCCAATGCAATTACTGAAGAATATCTGCGCCAGGGGGGCGGCGAATTGCCCCTGGTTCCAGGCAAGGACTG -GAACAATCAGCAGAATATCTATCACCGTTGGTTGAAAGGTGAAACGAAAACGCAAAGAGAAAAAATTCAGAAGCT -GATCCCAGCAATTCTGGCAATCCTTCCGCGCGAGCTGCGTCACCGACTCTGCATCTTCGATACCCTGGAACGCCG -TGCATTACTGGCGGCGCAGGAAGCGTTAAGTACGGCAATTGATGCGCATGATGATGCAGTCCAAGCCGTTTACCG -GAAAGCGCATTTCAGCGGCGGCGGTTCTTCCGACGATTCTGTCATTGTTCATTAAGCAAAAGTTTCCATGCTGTT -TGTGCTTATTCTAAGCCACCGGGCAGCATCATACGGGGCAATTATGGCCGCATTACCATACATGCAACTGTACAT -AGCTGATTACCTGGCTGACACCATGCATTTGTCAGCAGAGGAGCATGGTGCGTATTTGTTGCTGATGTTCAATTA -CTGGCAAACAGGAAAGCCAATACCTAAAAACAGGCTGGCAAAAATTGCCCGTCTGACTAACGAGCGATGGGCTGA -TGTTGAACCATCCTTGCAGGAGTTTTTTTGCGATAACGGCGAGGAATGGGTGCATCTTCGGATTGAGGAAGATCT -GGCATCAGTCAGGGAAAAATTAACCAAAAAATCAGCCGCAGGAAAAGCATCTGTTCAGGCCAGAAGAAGCAGAAA -GGAAGCAGATGTTCAAACAAAACAAGAGAGAAATTTAACAGGTGTTCAAACAGATGTTGAAGTGGTGTTTGAACA -TGATGTCAACACAAAGGCAACTAATAAAGATACAGATAAAGATCTAAAAACAGATCCCCCCCTAAATCCCCCCCG -GGGGAATCGAGGTGTCAAAAAGTTTGACCCTCTGGATATTACTTTGCCGAACTGGATTTCTGTCTCGCTTTGGCG -TGAGTGGGTTGAATTTCGCCAGGCATTGCGAAAACCGATTCGAACGGAGCAGGGCGCTAACGGGGCGATACGGGA -GCTGGAAAAATTCCGCCAGCAGGGTTTTTCACCTGAGCAGGTGATTCGACACAGCATCGCCAATGAATACCAGGG -CTTGTTCGCGCCGAAAGGTGTTCGACCTGAGACGTTACTCCGACAGGTTAACACCGTCTCGTTACCGGATAGTGC -GATCCCGCCAGGCTTCAGGGGGTAACTGACCATGAAAAATATTGCGACAGGCGATGTTCTTGAACGTATCCGCAG -ACTGGCCCCGTCACATGTAACCGCGCCATTCAAGACGGTAGCGGAGTGGCGCGAGTGGCAACTTTCCGAAGGCCA -GAAACGTTGTGAGGAGATCAACCGTCAGAATCGTCAGTTGCGGGTGGAAAAAATTCTGAATCGCTCTGGCATCCA -GCCATTGCACCGCAAATGCTCGTTTTCGAATTACCAGGTGCAGAACGAAGGGCAGCGATACGCGTTGAGTCAGGC -GAAATCCATCGCTGATGAACTGATGACCGGGTGTACAAATTTTGCGTTCAGCGGAAAACCTGGTACCGGGAAGAA -CCACTTAGCGGCAGCTATCGGGAATCGCCTGCTGAAAGACGGTCAGACAGTGATTGTGGTTACCGTGGCTGATGT -TATGAGTGCCCTGCACGCCAGCTATGACGATGGGCAGTCAGGCGAAAAATTTTTGCGGGAACTGTGCGAAGTGGA -TCTGCTGGTTCTTGATGAAATTGGCATTCAGCGCGAGACGAAAAACGAGCAGGTGGTACTGCACCAGATTGTTGA -TCGCCGGACAGCGTCGATGCGCAGCGTGGGGATGCTGACAAACCTGAACTATGAGGCCATGAAAACATTGCTCGG -CGAGCGGATTATGGATCGCATGACCATGAACGGCGGGCGATGGGTGAATTTTAACTGGGAGAGCTGGCGTCCGAA -TGTCGTCCAGCCAGGAATTGCGAAGTAATTTTTACCGGGAGAAAAATTTAATGGAGACTGTTTTTGACGCACTGA -AAGCAATGGGAAAAGCCACATCCATAGAACTTGCTGCGCGACTTGATATCAGTCGTGAAGAAGTGCTGAACGAAC -TATGGGAACTGAAAAAGGCTGGTTTTGTTGATAAAAGCGCGTACACCTGGCGTGTGGCTGATAACAATGTTCAGC -AGGAACAGCCAGCGCAGGCAGAACTGCCGGAAGAAATCACCACAGCAACAGTAGCGAAAATCTCAGAGTGCGATT -TAACCGCGACGATTGAACAACGAGGACCACAAACGGCTGATGAGCTGGCTACATTGTTTGGTACCACATCACGCA -AAGTGGCTTCAACGCTGGCAATGGCAATCAGCAAAGGTCGTCTGATTCGCGTAAATCAGGGCGGTAAATTTCGTT -ACTGCATACCGGGCGATAATTTACCAGCAGAGCCGAAAGCAGCATCGGTATCTCCGCTCTGGTTATCTGCATCGT -CGTCTGCCTGTCATGGGGTGTTAATCATTACCGTGATAACGCCATCGCCTACAAAGAACAGCGCGACAAAAATGC -CAGAGAACTGAAGCTGGCGAACGCGGCAATTACTGAGATGCAGATGCGTCAGCGTGATGTTGCTGCGCTCGATGC -AAAATACACGAAGGAGTTAGCTGATGCGAAAGCTGAAAATGATGCTCTGCGTGATGATGTTGCCGCTGGTCGTCG -TCGGTTGCACATCAAAGCAGTCTGTCAGTCAGTGCGTGAAGCCACCACCGCCTCCGGCGTGGATAATGCAGCCTC -CCCCCGACTGGCAGACACCGCTGAACGGGATTATTTCACCCTCCGGGAACGACTGGTAATGATGCAGGCCCAACT -TGAAGGTGCTCAGCAATACATAACCGAGCAGTGTTTAAAGTAAAATCTTAACTACAATATGATTCATTTTGATGA -TTGTTTCATAAGGAACAGTGAAGTAAGATCTAAGAGGAGTTAAATTTTATACAGTATAATCATAATATTGCAGCA -AGGTGGTTATAATTGAAAGAATATTTAGATATGAATACATCTCATGTAAGAGTTGTTACTCATATGTGTGGGTTC -CTGGTTTGGCTCTATAGTCTTTCAATGTTGCCACCAATGGTTGTAGCATTGTTTTATAAAGAAAAAAGCCTGTTT -GTTTTCTTTATAACTTTCGTTATATTTTTTTGCATTGGTGGCGGAGCGTGGTATACAACTAAGAAATCTGGCATT -CAATTACGTACCCGTGATGGGTTTATTATAATTGTAATGTTTTGGATTTTGTTTTCTGTTATTAGTGCATTCCCT -TTATGGATTGACTCAGAACTTAATTTAACGTTCATTGATGCTCTGTTTGAAGGGGTTTCTGGAATAACAACAACA -GGAGCAACTGTAATTGATGATGTTAGTTCATTACCTCGGGCATATTTGTACTATCGGTCACAGTTAAATTTTATA -GGTGGTTTAGGAGTTATTGTTCTGGCGGTTGCTGTATTGCCATTATTGGGTATTGGTGGTGCAAAGCTTTATCAG -TCAGAAATGCCGGGGCCATTTAAGGATGACAAACTCACTCCCCGCCTGGCCGATACGTCACGGACACTGTGGATA -ACTTATTCTTTATTAGGTATTGCTTGTATTGTCTGTTATAGACTTGCAGGAATGCCTTTGTTTGATGCTATTTGT -CACGGGATTTCCACAGTTTCGCTTGGTGGTTTCTCAACTCATAGCGAGAGTATCGGATATTTTAATAACTATTTG -GTTGAGCTGGTGGCTGGTTCTTTTTCCCTGCTATCGGCTTTCAACTTCACTCTTTGGTATATTGTTATTAGCAGG -AAAACGATAAAACCTTTAATCAGAGATATTGAACTTCGTTTCTTTCTGTTAATAGCCTTAGGGGTGATCATTGTT -ACCTCTTTCCAGGTCTGGCATATAGGTATGTATGACTTGCATGGAAGTTTTATTCATTCGTTTTTTCTTGCCAGC -TCCATGCTCACTGATAATGGTTTAGCTACGCAGGATTATGCAAGTTGGCCCACGCACACGATAGTGTTTTTGCTG -TTGTCAAGTTTCTTTGGGGGATGTATAGGTTCAACTTGTGGTGGAATTAAGTCACTTCGATTTCTTATACTTTTC -AAACAAAGCAAACACGAGATAAATCAGCTTTCTCATCCCAGAGCGTTGTTGAGTGTAAATGTAGGAGGGAAGATA -GTTACAGATCGTGTAATGAGGTCTGTATGGAGTTTCTTTTTTCTTTATACTCTCTTCACGGTGTTTTTTATACTG -GTGTTAAATGGTATGGGATATGATTTTCTTACATCATTTGCAACAGTGGCTGCATGTATTAATAATATGGGATTA -GGTTTTGGGGCTACTGCATCGTCATTCGGAGTGCTTAATGACATTGCAAAATGCTTAATGTGCATAGCTATGATT -CTTGGTCGCCTTGAAATTTATCCTGTTATTATATTGTTTTCAGGTTTTTTTTGGCGCTCCTAATATATGGCTGAT -TTATAATTGTGAGTTTAATATTATGTTGACTCACTCATTGATCCAATACCTAACTTTACCAGCAACACCTCCGTC -CCCAGTAGCACTGGCTGCTGGGGTGCGTTTTATTCATAAAGCAAGGCTGTATGAGCGAGAAATTAAAGATAGTCT -ATCGCCCATTACAAGAATTGTCACCGTATGCGCACAACGCCAGGACGCACAGTACTGAGCAGGTGGCACAACTGG -TAGAAAGTATTAAGCAATTCGGCTGGACTAATCCGGTGCTGATTGACGAAAAGGGCGAAATTATTGCGGGTCACG -GTCGTGTTATGGCGGCTGAAATGCTCAAAATGGATTCTGTTCCGGTCATTGTTCTGTCTGGCCTGACGGATGAGC -AGAAGCAGCGATAACGATCAGTATCGCTCCCGTAATGCATTAATCCGTCGCCACATTGAGAAAATGGATGCCAGT -TTGCACGTCGGAACGAAGGAGTTTGATATTTCAAAGGTTTCCGAGGTGGATTCTGTTGATGATTTACTCATTGAT -AATGCCGCTCGTTATCTGCTGAAAGACTGGAAAGGGGTTGGTGAACTGGTTAATGGTGTTGAGGTTGCACTGGAA -TATACGGCAGAACGAGGGATCGCGCTGCTTAAGCAGAATCCAGAGTTGTACTGGCAGATCCTTGCAGAAGCAGCC -AGCATCGCCCAGGGTAAAGAGCAGCAGAAGCAGGATACGATAAAAAAGCCATAGCTGCCCAGCGGTGGTTATCGG -AGTTCGGGGGAGAAAGGGGGGAAAAGGCAAGATGGAAGCGAGAAAAACTCAGGTTGCCACCGATACCGGAACCAG -AAATAGACCCGGTGCTTAAGGAGTTGTTGTACGCCTATTCGGTAATATCCCGTGCCCGACGTTATGCTGGAATGG -CTGGGGTGCCTTTGCCTTTATCTCTGACAGAGATAAATGAATATTTAGCCACTCATCCGGTATTGATTGAGCGCG -ATGAATTTGAAGCAGTGATCTTTGCACTGGATGACCAGTATTTTCAGGAGCAGTGTGTGTAGTTGTTAATTACGT -ACACTCTGTTACAGAGATGTGATGGTGTCTTTAATTAAATCGATGATGCTCCTGGAGAAAAGCATTGCGTGGCCT -CGTAATCGCTATATCTACTATTATGTCGCCTGAAACCCACTTCGCGGTGGGTTTTTTGTTGTCAGGAGTTTTAAT -AAATGGCAGAGCAAACCTCGCGTCTCGCAATAATTATTGATAGCACTGGAGCGAAAAATAATGCTGACAATCTGA -CCTCCTCATTAGTCAAAATGACGCAGGCTGGGGAAACTGCTGCAAATAGCGCAGGGAAAGTGACTAAGGCAACAG -AAGATGAGAAGAACGCGCTCGCAAAATTAAAAGCAGCTATTGATCCAGTTGGTGCCGCAATTGATACTGTCGGTC -GACGCTATTCTGAATTAAAGAAATTTTTCGATAAAGGGCTTATTGATAAAGAAGAATATGAATTTCTTGTCCGTA -AACTTAATGAAACCACAGAGGAATTGAGCGGGGTTGCGCAAGCGCAGAGAGAAGCCGAGAAGGCCGGAAAACTTG -CTGCCGCTCAGCAGGAAGCGCAGGCTCAGGCCTTTCAAAGAATGCTGGACAAGATCGACCCTCTGGCTGCGGCGC -TAAGAAATCTTGAACAACAGCATGATGAACTTAATGCTGCGTTTGCATCCGGGAAAATAAATGGTTCTCAGTTTG -AGAATTATAGCCGAAAAATACAGGAAACACGGCGAGAGCTTACCGGAGAGGCTCAGGCAGAGCGAGAAGCAGCAA -AAGCGCATGATGAACAGGTTGTTGCTTTGCAACGTCTGATTGCTCAACTTGATCCTGTCGGAACTGCTTTTAATC -GTCTGGTAGAACAACAGAAACAGCTCAATGAAGCAAAAGCTAAGGGGATGCTTTCTCCTGAAATGTATGAGGAGC -TTTCTGGAAAACTTCGTGCTATGCGGAGTGAGCTTGAGGTTACTCAATCACAATTAAGCAAAACCGGAATGTCGG -CAAAACAAACGGCTTTTGCTATGCGCATGTTGCCTGCACAAATGACGGATATTGTTGTTGGGTTGTCCACTGGTC -AGTCGCCATTTATGGTGTTAATGCAGCAGGGCGGCCATTCAGCTATGCAGGAGACAAGAATCGCCAGCTTACCCG -TTACAGCGATACCCGCTGGCATGAAGATTCCGTGCGTAACCGCTGGTTCAGCGTGATGGTGGGGCCGTCTGTGCG -CGTGAATGAATGGTTCAGCGCGTATGCGATGGCGGGTATGGCTTACAGCCGTGTGTCGACTTTCTCCGGGGATTA -TCTCCGCGTAACTGACAACAAGGGAAGGTGCGAATAAGCAGGTCATTTCTTCCCAAGCTGACTCGCTGATTAAAA -TTTCGCGGATCTGGGCCGATTTTTTTCCCGCAAACACATCGAATCAGCCTATTTAGGCTATTTTTTCCACCATTT -CTGGCGTTATTTCCGGTTTTTACTGAGATCTCTCCCACTGACGTATCATTTGGTCCACCCGAAACAGGTTGGCCA -GGGTGAATAACATCGCCAGTTGGTTATCGTTTTTCAGCAGCCCCTTGTATCTGGCTTTCACGAAGCCGAACTGCC -GCTTGATGATGCGAAACGGGTGCTCCACCCTGGCACGGATGCTGGCTTTCATGTATTCGATGTTGATGGCCGTTT -TGTTCTTGCGCGGATTCTGCTTCAAGGTTTTTACCTTGCCGGGACGCTCGGCGATCAGCCAGTCCACATCCACCT -CGGCCAGCTCCTCGCGCTGTGGCGCTCCTTGGTAGCCGGCATCGGCTGAGACAAATTGCTCCTCTCCATGAAGCA -GATTACCCAGCTGATTGAGGTCATGCTCGTTGGCCGCGGTGGTGACCAGGCTGTGGGTCAGGCCACTCTTGGCAT -CGACACCAATGTGGGCCTTCATGCCAAAGTGCCACTGATTGCCTTTCTTGGTCTGATGCATCTCCGGATCGCGTT -GCTGCTCTTTGTTCTTGGTAGAGCTGGGTGCCTCAATGATGGTGGCATCCACCAAAGTGCCTTGGGTCATCATGA -CGCCTGCTTCGGCCAGCCAGCGATTGATGGTCTTGAACAATTGACGGGCCAGTTGATGCTGCTCGAGCAGGTGGC -GGAAATTCATGATGGTGGTGCGATCCGGCAGGGCGCTATCCAGGGATAATCGGGCAAACAGGCGCATGGAGGCGA -TTTCGTACAGGGCATCTTCCATGGCACCGTCGCTCAGGTTGTACCAATGCTGCATGCAGTGAATACGCAGCATGG -TCTCCAGCGGATAGGGCCGTCGGCCATTGCCCGCCTTGGGATAAAACGGCTCGATGACAGCGGTCATATTCTGCC -ATGGCAGAATCTGCTCCATGCGGGAGAGGAAAATCTCTTTTCGGGTCTGACGGCGCTTAGTGCTGAATTCACTAT -CGGCGAAGGTGAGTTGATGGCTCATGATGTCCCTCTGGGATGCGCTCCGGATGAATATGATGATCTCATATCAGG -AACTTGTTCGCACCTTCCCAAGGGGAAAACGCACGACGTGCTGACCGGAAGTGATGACGGTCGCCACAGCAACAC -GTCTCTGGCGTGGGGAGCTGGCGTGCAGTTTAACCCGACCGAATCCGTGGCCATTGATATTGCTTATGAAGGCCC -CGGCAGTGGCGACTGGCGCACTGACGGTTTCATCGTGGGTGTCGGTTATAAGTTCTGATTAGCCAGGTAACACAG -TGTTATGACAGCCCGCCGGTTCAGGCGGGCTTTTTTGTGGGGTGAATATGGCAGTAAAGATTTCAGGTGTACTGA -AAGACGGCACAGGAAAACCGGTACAGAACTGCACAATCCAGCTGAAAGCAAAACGTAACAGCACCACGGTGGTGG -TGAACACGCTGGCCTCAGAAAATCCGGATGAAGCCGGGCGTTACAGCATGGACGTTGAGTACGGTCAGTACAGCG -TTATTCTGTTGGTGGAAGGATTCCCGCCGTCACATGCCGGGACCATTACCGTGTATGAAGATTCTCAACCCGGTA -CGCTGAATGATTTTCTCGGTGCCATGACGGAGGATGATGCCCGTCCGGAGGCACTGCGCCGTTTTGAACTGATGG -TGGAAGAGGTGGCGCGTAACGCGTCCGCGGTGGCACAGAACACGGCAGCCGCGAAGAAGTCAGCCAGTGATGCCA -GCACATCAGCCCGTGAGGCGGCAACCCATGCGGCTGATGCTGCGGACTCAGCACGCGCAGCCAGCACGTCAGCCG -GACAGGCCGCGTCGTCGGCTCAGTCAGCGTCTTCCAGCGCAGGAACGGCATCAACAAAGGCCACTGAAGCATCAA -AAAGTGCTGCCGCTGCAGAGTCCTCAAAAAGCGCGGCGGCCACCAGTGCCGGTGCGGCGAAAACGTCAGAAACGA -ATGCTTCAGCGTCACTACAATCAGCAGCCACATCTGCATCCACCGCGACCACGAAGGCATCAGAAGCTGCGACCT -CGGCCCGGGATGCGGCGGCCTCAAAAGAAGCGGCAAAATCATCAGAAACGAACGCATCATCAAGCGCCAGTAGTG -CAGCTTCCTCGGCAACGGCGGCAGGAAATTCCGCGAAGGCGGCAAAAACGTCCGAGACGAACGCCAGGTCTTCTG -AAACGGCAGCGGGACAGAGCGCCTCGGCTGCGGCAGGCTCAAAAACAGCGGCTGCGTCGTCTGCCAGTGCAGCGT -CAACAAGTGCCGGGCAGGCCTCAGCCAGTGCCACCGCCGCCGGAAAATCGGCAGAAAGCGCCGCATCGTCTGCTT -CAACAGCCACAACGAAGGCTGGCGAAGCCACTGAACAGGCCAGCGCAGCAGCGAGGTCTGCTTCCGCAGCGAAGA -CATCCGAAACGAACGCGAAAGCGTCGGAAACAAGCGCAGAATCCTCAAAAACGGCTGCCGCATCGTCAGCCAGTT -CGGCGGCGTCATCGGCATCATCGGCGTCTGCTTCAAAAGATGAGGCGACCAGACAAGCGTCAGCAGCGAAGAGCA -GCGCCACGACGGCATCCACGAAGGCGACAGAGGCTGCTGGCAGTGCGACGGCGGCAGCTCAGAGCAAAAGTACGG -CGGAATCCGCGGCAACGCGCGCCGAGACAGCAGCTAAACGGGCAGAGGATATTGCATCCGCCGTGGCGCTTGAGG -ATGCAAGTACGACGAAAAAGGGGATAGTACAGCTCAGCAGTGCGACCAACAGTACGTCTGAAACGCTGGCGGCAA -CGCCAAAGGCAGTAAAATCAGCCTATGACAATGCAGAGAAACGTCTGCAGAAAGACCAGAACGGCGCTGATATAC -CCGATAAGGGATGCTTCCTGAACAACATTAACGCGGTCAGTAAAACAGACTTTGCTGATAAGCGTGGTATGCGTT -ATGTGCGGGTTAACGCTCCTGCAGGTGCAACATCTGGAAAATATTACCCTGTTGTTGTTATGCGTTCTGCTGGCT -CAGTAAGCGAACTGGCATCAAGAGTCATTATCACCACGGCAACGCGAACCGCAGGCGATCCGATGAATAACTGCG -AGTTTAACGGATTTGTTATGCCTGGTGGCTGGACTGACAGGGGGCGTTATGCTTATGGCATGTTCTGGCAATATC -AAAACAATGAACGAGCCATTCACTCAATAATGATGAGTAATAAGGGCGATGATTTGCGCTCTGTGTTCTATGTTG -ATGGCGCTGCTTTCCCTGTTTTTGCGTTTATTGAAGATGGCCTGTCAATATCCGCACCTGGTGCTGATCTCGTTG -TTAATGATACGACCTATAAGTTTGGGGCAACAAATCCGGCGACTGAATGTATCGCGGCGGACGTTATCCTTGATT -TTAAGAGTGGGCGTGGTTTTTATGAGTCTCATTCGTTAATCGTTAACGATAACTTGTCGTGCAAAAAACTTTTTG -CCACAGACGAAATTGTAGCGCGTGGTGGTAATCAGATTCGAATGATAGGTGGGGAGTATGGTGCATTATGGCGTA -ATGATGGCGCTAAAACTTACCTGCTGCTTACCAATCAAGGTGATGTTTATGGTGGCTGGAATACATTAAGACCGT -TTGCTATTGATAACGCAACCGGCGAACTGGTTATTGGAACCAAACTGTCCGCAAGTCTGAACGGTAATGCATTAA -CAGCAACAAAGCTGCAAACGCCAAGACGGGTTTCTGGTGTTGAGTTTGATGGTTCCAAAGATATTACTTTAACCG -CCGCGCATGTGGCTGCTTTTGCCAGAAGGGCAACGGATACATATGCCGATGCGGATGGTGGCGTTCCATGGAATG -CCGAATCTGGCGCTTACAATGTCACCCGCTCTGGCGACAGCTATATTCTGGTTAACTTCTATACCGGAGTCGGAA -GTTGCCGGACCCTGCAGATGAAGGCGCATTACAGAAATGGTGGTCTGTTCTACCGTTCTTCAAGAGACGGTTATG -GTTTTGAGGAAGACTGGGCAGAAGTTTATACCTCGAAAAATCTTCCACCAGAAAGCTACCCAGTCGGCGCACCAA -TCCCGTGGCCATCAGATACCGTTCCGTCTGGTTATGCCCTGATGCAGGGGCAGGCTTTTGACAAATCTGCTTACC -CGAAACTTGCAGCCGCTTATCCGTCAGGCGTGATCCCTGATATGCGTGGCTGGACGATTAAGGGCAAACCTGCCA -GTGGTCGGGCCGTATTGTCTCAGGAACAGGACGGCATTAAATCGCATACCCACAGCGCCAGCGCATCCAGTACAG -ATTTGGGGACGAAAACCACATCGTCGTTTGATTACGGCACTAAATCCACGAATAACACCGGGGCACATACACACA -GTGTGAGCGGCTCTACAAACTCGGCTGGAGCACACACACACTCACTAGCCAACGTGAACACGGCTAGTGCTAACT -CCGGTGCTGGTAGTGCATCAACAAGATTGTCTGTTGTGCATAATCAAAACTATGCAACATCATCTGCTGGCGCAC -ATACCCACTCACTGTCCGGCACTGCTGCAAGCGCAGGTGCACACGCGCATACTGTCGGTATTGGTGCTCATACGC -ACTCCGTTGCGATTGGTTCACATGGACACACCATCACCGTTAACGCTGCTGGTAACGCGGAAAACACCGTCAAAA -ACATCGCATTTAACTATATTGTGAGGCTTGCATAATGGCATTCAGAATGAGTGAACAACCACGGACCATAAAAAT -TTATAATCTGCTGGCCGGAACTAATGAATTTATTGGTGAAGGTGATGCATATATTCCGCCTCATACAGGTCTGCC -AGCAAACAGTACCGATATTGCACCGCCAGATATTCCGGCTGGCTTCGTGGCTGTTTTCAACAGTGATGAGTCATC -GTGGCATCTCGTTGAAGATCATCGGGGTAAAACGGTTTATGACGTGGCTTCCGGCAACGCGTTATTTATTTCTGA -ACTCGGTCCGTTACCGGAAAATGTTACCTGGTTATCGCCGGAAGGGGAGTTTCAGAAGTGGAACGGCACAGCCTG -GGTGAAGGATACGGAAGCAGAAAAACTGTTCCGGATCCGGGAGGCGGAAGAAACAAAAAACAACCTGATGCAGGT -AGCCAGTGAGCATATTGCGCCGCTTCAGGATGCTGCAGATCTGGAAATTGCAACGGAGGAAGAAATCTCGTTGCT -GGAAGCATGGAAAAAGTATCGGGTATTGCTGAACCGTGTTGATACGTCAACTGCACAGGATATTGAATGGCCAGC -ACTGCCGTAGGGTAAAACATATAAATTCTATAATTAGATGTATCTTTCCATTTACGGCAAGGAAGGGGGCTTGGA -AGACGTAAAGCATCTCACACCGAGATTATTTTTTATATGTCAGGTGTCTGAAGTTTTGCTTTGGCTCTTAAAATG -GTTTGCCGCGAGGTTTTGAATTCCCGGGCAATGGCACTTATACTTACACCTGACTTAATTCGTTCGAATACCACC -TGTTTCTGTTCTTCATTTAACACAGGAGGTCGACCAAAACGTTTCCCTGCGCCGCGGGCTCTTACTATCCCGGAA -TGAGTGCGTTCAAGTAAAAGGTCTCGTTCAAATTCAGCGACTGCTGAAATTACTTGCATCATCATTTTTCCTGTT -GGACTGGTCAGGTCAATGCCACCCAATGCTAAGCAATGCACTCTGATACCTGTTTCGGTCAGTTGTTCCACTGTT -TTCCTGATATCCATTGCATTACAACCAAGGCGATCCAGTTTTGTCACAATCAATTGATCACCACATTTCAGGCGA -GCAAGCAACCGGTTAAAACCAGGACGCTCACTGGTTGCTGCTGAGCCGCTAATGTGTTCTTCGATTATTTGCTGA -GGTTTGATTTTAAAACCTGCACTTTCGATTTCCCGGCGTTGATTTTCGGTGGTCTGATCCAGCGTTGATATCCGA -CAGTAAGCAAAAATTCGAGACATAGTGAGACTCTATACGAAATTGGTGTTCATATCATAATGCATCTCAGAAAAT -AATTATGATTATTTTTGTGCATATTTGTATGTACACGTTCGAAAATAAACGAATGCGTATGCAACCCCGTAATTT -TGGTGAGACCCAAAATCGATTTTGTGAAAAATGGCTTTAACTCGGTTTGTTTTTCGAGTTCCGGGCGGACTCAAG -GAAGAAGAATAGTGTTGCGTGTTATTTTAACCAGATTTCAAGTTGTTTGGTCGTGGAAAAGTGGAGCAAAATGTT -GTTAAAGTGGAAAAATGATAAAAAAGTAAGTTTATTATATTACATTTTACCATTTAAATTTTGGTTGTCTTTAAG -AACTGATATCGCTGTTTGTAATAATTCTTTGTTATCCAGCCATGATGTTTTCTTTATGTTTCCTTCAATGTAATC -AAGCAATGTTCTGGTATTGATAGGTCTTCCCTGTTTTGCTACTTCCACTACAGCATCCCCTAGGATAATTCTTAC -TTCAGGAAGCTGCGCAGGGAACCACTTTAGGGTGTCTTTTGATTTCATGAAGATATTCCTTAAAATATTATTGAT -TTTCATTGCGATATTGTATGTCTGATTCAGGATATGTTGACTTATACATCGGTTTTGTCTGGGTTATTGGATATG -CCAATCCCTAATTTTATTAGAGCATGACTAAAAATGCTGAATATGATAAGGAGCGAAGTGATTATCAGTATGCTG -TTCATATAGCCTCGAATTAGTAATGTGTTATATATGATATAGTTGACAATTTTTATCCTGGGTGTTCTTAAAGTT -CGTAGATAAACATTGTCGTTTCAGGTATACAGGAATGCTAACAGGTGGCGGCAAAAATCAGGCGGTTTATGGCGC -AAGCTGAAGTGGCAACTGCAAACTATCTTATGCAGAGACTCTACACGGATTGGGTTTAAAAGTATACATAGATAA -CAGTTTTTATCTGAAGAAGAAAAATATCAAGGTGATATAGCCTATATGCCTTTGATGCGGAGGAATGAATGTGAT -GGGAGTGATGTATCTGAATAGTTGAAAAACCGCAGTCACGTCGTATGCAAGAACGTGCTGCGGTTGGTTTGACTT -TGATTGAGACGTTTTGGAATTTTTTTCGGTGGCAAAAATGGGGCAAAACGCTGCAAAAGGGGCAAAAAAGGGGCA -AAAAAAGAGTGGATTATCGTAGCTTATTGTTGTCGCTGATGATATTTAACACATTGAAAAATAAGTAAAATACTT -ATGAGTCAGAGAGTTGTGATTTTTGCCCTTACTTGTTCAGGTTGTATTGTTCTTTCTTACTAATTTCTTGATTTT -GCGACATTTAAAAGCGACTCAATTCGTTATATGGCATCAGAAGAGTATGCGTCATGCCGGAACGCCCAGCATAAG -AAATCTGATATAAAAAACTGTGGCGTGTATGGTACGGATTAGAGGGGAAAATGTCAGCACATTTGCGAAATGAAT -CAAAAAGCCCGCAGCAATGTGCGGGCGTTAGTGTCAGCGCACAACCAGCACGGAGCACTCTGCGTGACGCACTAC -AGCTGCGGCGTTGGAACCGAGCAGATAAGTGGTGATATCCGGTCGATGGGAAGCAATGATGATCATATGAGCGGG -GATCTTCTTCGCCAATTCCAGAATGCGGTCTTTGGGCGAGCCTTCCTCAACATGGACATGCACTCTGTCGGTTGG -CAGTTTAAATTTTTTAATGATCTCTTCCAGTTGCGATTTGGCTTCCGCTTTCAGGTCATCCATTGCCGGTAATTC -TGCGGAATACGCTAAACCCAGAGAGGCATAGTAGGGCAGTGAAGGTATTACCGTCAGGAAATGAACCTCTGCATC -ATCAATCTTTGCCTCTTCCTCAACGTGGCTAATCACGCGTTGAGTTAATTCTGAATCGGAAATATCGATAGGGAC -AAGAATCGTTCTGTTCATAAAACCTCCTGTTTTAGTATCCGCATAAAGTGTAACGCCAGATGACACTTTTTGTGT -AATGACGGAGTTCACATTTTTAATTTAGATCAAAGGAGGAAGAATAAGCAGAAAAAGCCCGCCATAACAGCGGGC -AGGAGGATTTAGAACTGATAAACCAGACCTAAAGCGACAATATCATCGGTAGAGATGCCATTGGCAGCGTAGAAG -CTGTCATCTTCATCCAACAGGTTGATTTTATAGTCAACGTAGGTGGACATGTTTTTATTGAAATAGTAAGTCGCG -CCAATATCGGCGTATTTAACCAGATCTTTATCATCAACACCTGCCGGGTTGTCTGCACCACCCGCAGCGTGCAGG -TCACGGCCTTTAGACATCAGGAAAGAGACTGCCGGACGCAGACCAAAATCAAACTGGTACTGTGCAGTGACTTCA -AAATTCTGGGTTTTGTTTGCCACAGCATAATCGCTGTCGCCAAACGGGGTCATATTACGCGTTTCTGAATACATG -GTTGCCAGGTAAATATTGTTAGCATCGTATTTTAGCCCAGCAGTCCACGCGTCTGCTTTATCACCACCCGCCGCA -GTATGGTTAACCTGGTCATTGGTGCGGTCAGAAGAGGTGTATGCCGCACCAGCGCTAAAGCCCATGCCTAAATCA -TATGTTGTGGAAAGACCCCAGCCGTCACCGTTTTCATGGCGAACATCACGTCCGTTGTTGGTGCCTTCCTGACCA -TTACTGGCTCCTTCGTTGTTACCTTGATACTGCACCGCGAAGTTCAGACCATTTACCAGACCGAAGAAATCAGTA -TTACGATAAGTCGCGACGCCATTGGCTCGACCAGTCATAAAGTTGTCTGCATTGGTATAAGAGTCACCGCCAAAT -TCAGGCAGCATATCGGTCCAGCCTTCGATGTCGTACATTACGCCATAATTACGTCCGTAATCGAAAGAACCGTAA -TCTGCAAATTTCAGCCCGGCAAATGCCAGACGGGTCCATGACTGGTTTTTTGAAGATTCAGTGTTGTTTGCCTGA -ATATTGTATTCCCATTGACCGTAGCCAGTGAGTTGATCGTTAATTTGGGTTTCGCCTTTAAAACCCAGACGCGCA -TAGCTCTGGTCGCCATCTTTCGCTGAATTATCAGAAAAATAATGCAGGCCATCAACTTTGCCATACAGATCTAAT -TTGTTGCCGTCTTTATTATAAACTTCGGCTGCATGTGCAGCACCTGCGGCGAGCAGGGCAGGAATTAAAAGTGCC -AGTACTTTGCTTTTCATTGAATAAATCCTTTAGTTATTTTATTTGCCTTTTATCCCCATTTCGGGGAGTGAAAAC -ATCCTAAAGGAGAAGTTCAGTTAGCCGATAAATATCATTTGTTACGCCTTAAGTAAAACCTTAATCAAATAATTC -CTCTGAAATGATAATAAGTCTGGTGAATGTATCGAAGATAATACATACAAAATAAAAATTATACTTTTAATTTGC -TATACGTTATTCTGCGCGGGTTATATGCCTTTATTGTCACAGATTTTATTTTCTGTTGGGCCATTGCATTGCCAC -TGATTTTCCAACATATAAAAAGACAAGCCCGAACAGTCGTCCGGGCTTTTTTTTTAGAATTGGATAATCCTTATC -CAGAGCATTTAATCGGTGTTGCTTTTTTCCGCTTTTCCGGCCATTTGTGCCAGGAAGTCATAGCGTTTTTGCAAA -TCAGCTGCAGCATCTTTCCATAACTGTTCTGCCACTTCTGGCTGCTGCGAATTCAGCCGACGGAAACGTTGCTCG -TGAAGTAACGTTTCTTCCGGTGCTTCTGACGGCGGGCGTGAATCCAAGGCCAGCGGCAGTTTGCCTTCATCGGCA -CGACGCGGATCAAAGCGATATAGCGGCCAGAAGCCGGTAGCTGTGAGTTGGCGCATCTGGTCGTGGCTGAGTGCC -AGATCGTAACCATGCTCTTCACACGGGCTATAAGCAATGATCAGCGATGGCCCCGGATACGCTTCCGCTTCCTGA -ATCGCTTTCACCGTCTGGTTCAGCTGCGCGCCGAGAGAAATCTGCGCCACATAAACATGACCGTACATCATCATA -CTGACGCCAAGATCTTTACGCGCTTTACGTTTGCCGTGCTCGCCAAATTTAGTTACTGCACCCAGCGGTGTCGCT -TTCGACGCCTGACCACCGGTGTTGGAATAGCATTGCGTATCCAGCACCAGAATGTTGACGTTTTCCGTCAAACTC -AATACATGATCCAGACCGCCAAAGCCGATATCGTAAGCCCAGCCATCACCACCAATCAGCCAGATTGATTTTTCC -ACCAGTGCATCTGCATCACGTAGCAGTTCATGTGCTTCGGCAACATCGTTGAGTTGCTGGCGTAAAGCTGCAACC -TGTTCACGACGAACCTCTGGCGTGGCGTCTGATTTCAACGCCGTCAGTAATTCCGCCGGGATTTTATCGGCAAAT -TGATCCAGCAGACGCAGCACGCGGACACGGTGTTGATCGACCGTCAGGCGGAAACCAAGGCCAAATTCGGCATTA -TCTTCAAATAGAGAGTTCGCCCATGCCGGCCCACGACCGTTGGCATCGGTGGTATACGGTGTAGAGGGCAGGTTA -CCGCCATAAATTGAAGAACAGCCAGTGGCGTTAGCGATCAACATCCGGTCGCCATAGAGCTGAGTCAGTAATTTA -ATATACGGCGTCTCGCCACAACCGGAGCAAGCACCTGAATATTCAAACAGCGGTGTAATCAGCTGCGATGTACGA -ATATCAATACGTTCCAGTTTGCTACGGTCGATTTCTGGCAGGTTGAGGAAGAAATCGTAATTGATTTTCTCTTCT -TCGACATGTTCCAGGCGAGACATCATATTGATGGCTTTAATCTCTGGATTCTGACGGTCTTTCGCCGGGCAAACT -TCGACGCACAGGTTACAACCGGTGCAATCTTCCGGTGCCACCTGCAAGACATATTTCTGCCCGCGCATATCACGC -GATTTCACATCCAGCGAATGCAGGCTGGCAGGGGCGTTTTCCATCGCTTCAGGCGGCACCACTTTTGCGCGAATA -GCTGAGTGTGGGCAAGCGGCAACGCAGTGGTTACATTGGGTACAGAGTTCCTCTTTCCAGATGGGGATCTCTTCG -GCGATATTGCGTTTTTCCCAGCGCGTAGTGCCCATCGGCCAGGTGCCGTCTGGCGGCAGCGCCGAAACGGGGAGG -GCGTCACCAAGCCCGGCGAGCATCGCAGCGGTTACGGTTTTCACGAAATCAGGGGCGGCATCGGAAACCACTGGC -GGTCGATTGGCGCTGTGCGGATTTACCGGTTGCAACGGAACTTCTTCTACGGATTCACGCGCCAGCGCCAGAGCC -TGCCAGTTGCGTTCCACCAGATCCTGGCCTTTGCTACTGTAACTTTTGGCAATCGCACCCTGCAATTCTGCGAGG -GCGCTATCGCCAGGCAGAATTTGCGTCAGATGGAAAAAAGCCATCTGCATGACGGTATTAATACGGGCCGCCAGG -CCACATTCGCGGGCGATTTTCGCCGCGTTAATCACATAGAAGCGCGCTTTTTTCTGGTTTAACACGGCCTGAACT -TCTTGCGGCAAGCGCGACCACACTTCATCTGCGCTGTACGGCGTGTTGAGCAGGAAAATGCCGCCAGGTTTTAAA -CGCTCAGCCATCTGATATTTATCGATAAACTGCAACTGGTGGCAGCCAACAAAATCAGCCTGGGAAATGAGATAA -GCGGAACGAATCGGCTGTTCGCTCACTCGAAGGTGAGAAACCGTCAGGCCGCCCGCCTTTTTGGAGTCGTAAACA -AAATAGCCCTGTGCGTACCACGGCGTGGAATTACCGATAATCTTGATATTGTTTTTGGTCGCGGAAACGCTGCCA -TCACTACCAAGGCCATAAAACAAGGCTTCCAGTTTCGCCGAGTTTGGCAGGGTGTTTTCCGGCAACGGCAGTGAC -AGATTGGTCACATCATCGTAAATACCAACCGTAAAGCGCGCTTTCGGTTTAGCCGCGTTGAGCTCGGCAAATACC -GCCAGTACACAGTCTGGGCCAAATTCTTTGGATGAAAGACCATAGCGCCCACCAATGACACGGGGCAGAGTTTCG -CGCTCGCCATTATTAAAGGCTTCTGCCAGTGCGGTCATTACATCCAGATAGAGCGGTTCTGCCTGGGCACCGGGT -TCTTTGGTTCTGTCCAGTACCGCCACGCTGCGTACGGATCCCGGCAGAGCTTGCAGTAAATGTTTAGCGGAGAAG -GGGCGGTACAGGCGAACTTTCAGCACGCCAACTTTTTCGCCACGGGTTAGCAATTCATCAACCACTTCTTCACAG -GTGCCAATGGCAGAGCCCATCAGGATAATCACCCGTTCCGCTTGCGGATGCCCGTAATATTCAAACGGCTGATAC -TGACGACCTGTCGCGGCAGAGAAATCATTCATCGCCTGTTCAACATGGTCATAGACCGCGTTGTACCATGGGTTG -GTGGCTTCGCGAGACTGGAAATAAGTGTCAGGATTGGCGGACGTACCGCGGATCACCGGATGTTCCGGGTTGAGT -GCCCGGGCGCGATGAGCATCAATTTCGACCTGCGGCATGAGATCAAGAATCGTGTCATCGGCCAGCGGGACAATT -TTATTGATTTCGTGGGACGTGCGGAAACCATCAAAGAAATGAATAAATGGCACGCGGCTTTTCAGCGTCGCGATT -TGCGAAATGAGAGCAAAGTCTTGCGCTTCCTGGACGTTTGCTGCACACAACATCGCGCAACCCGTCTGGCGCACC -GCCATAACGTCGGAATGATCGCCAAAAATAGAGAGTGCATGTGTGGCAACGGTACGTGCCGCTACATGCAGGACA -AACGGTGTTAGTTCGCCTGCCAGTTTGTACAGCGTCGGGATCATCAGCAGCAAACCCTGCGATGACGTAAACGAT -GTTGAAAGGGCACCCGTCTGCAAAGCGCCATGCACGGTAGCGATAGCACCCGCTTCCGACTGCATTTCAACCACG -CGTGGTGTGTCTCCCCAAACGTTCTTTAAGCCGTTTCCGGCCCAGGCATCAGCCTGTTCTGCCATCGTGGAACTG -GGGGTAATAGGGTAGATGGCGATAACTTCACTGGTGCGAAATGCGACCGAAGCAACCGCGCCATTACCGTCAATA -GTAATCATATGACACCCTTACATTGCGCAAATGAGGGGCGCACGAAATTGCTGCGCGCCCAGTAGTAATCTTTCA -ATTTTAGCAAATGGCTTTCTTCTGCATTTTCGCTTTTGTGTCCCCCACATCAGCGTAATGAATGTTTTGATCAAA -CAGAGGGCAAAAAAATAGCCATAAAAAAGTAAAAATGCGGGGCAACGCGCAGGACAGCTCTCGACGCCGCCCTCT -GTGCTGCCTATTATTTATGGCGGTGTCGTTTGGCTTGAAGATCAGAGGAAGAAAAGATGCGAGCAGCGTTTTGGG -TAGGGTGTGCCGCTTTATTGTTGTCGGCGTGTAGTAGTGAACCTGTTCAGCAGGCGACTGCCGCGCACGTAGCGC -CAGGTTTAAAAGCGTCGATGTCCAGTAGTGGAGAAGCAAATTGTGCAATGATCGGCGGTTCGCTTTCTGTTGCCC -GTCAACTGGATGGTACGGCGATTGGGATGTGTGCATTACCCAACGGCAAACGCTGTAGCGAACAGTCACTTGCCG -CCGGGAGCTGTGGCAGCTATTAATTCATTAAATCCGCCAGCTTATAAGTTAATGTCTGTTTTGCGGTCGCCAGCG -TTAACTGGTTCGCGGTCAGATCCACTTGTGCACCTTCTTTCAGCATTTCGCTAATGGTGTTATCGAGTTCATTAA -GCTGCGGGTTAGCGCACATCATACGGGTCATTGCCAGCCCTTTGGCTGTCAGTTCACCATTAGACAGTTTGCCTT -CACCGCTAAAGCGGTTACACATGCTGCCGGAAATCATCATTTTTTCACCAAAGCTGATTTCTGGCGGATTTTTAT -CGCTGGTCACGGGCTTACCGTTTACGCTTTCCAGCACAAAGCGATGATGCTGTAGCTGTTCTGGCGTAACAGCAA -TTTTGTCATTACTTACACATCCCGCCATCAGCAGGCTTAGCGCAACAAACGCGGCTACTTTCTTCATTGTGGTTC -TCAATTACAGTTTCTGACTCAGGACTATTTTAAGAATAGAGGATGAAAGGTCATTGGGGATTATCTGAATCAGCT -CCCCTGGAATGCAGGGGAGCGGCAAGATTAAACCAGTTCGTTCGGGCAGGTTTCGCCTTTTTCCAGATTGCTTAA -GTTTTGCAGCGTAGTCTGAGAAATACTGGTCAGAGCTTCTGCTGTCAGGAATGCCTGGTGCCCGGTAAACAGCAC -GTTGTGGCAGGCAGACAGGCGACGGAATACGTCATCCTGGATCACGTCGTTGGATTTATCTTCAAAGAATAGATC -GCGTTCGTTCTCATACACGTCCATACCCAACGAACCAATTTTCTGATTTTTCAGCGCTTCAATTGCTGCCTGAGA -ATCAATCAATGCACCGCGACTGGTATTGACGATCATCACGCCATTTTTCATCTGTTCGAAGGCGGCTTCGTTCAA -CAGATGATAGTTTTCCGGTGTCAGCGGGCAGTGCAGAGAGATAACGTCTGATTCAGAGAACAGGGTTGGCAGATC -GACATACTCCACACCGAGTTCCAGCGCCGCTGCACTTGGATACGGATCGAACGCCAGCAGACGCATACCAAAACC -TTTCAGAATGCGCAGCATCGCCACACCGATTTTACCGGTACCGATAACGCCTGCCGTTTTGCCATACATAGTAAA -GCCGGTCAGACCTTCCAGAGAGAAGTTAGCATCACGGGTACGCTGATACGCGCGGTGAATACGGCGGTTCAGCGT -CATCATCATACCGATGGCGTGTTCAGCAACGGCCTCTGGATCATAGGCTGGAACACGGACTACTTTCAGCCCCAG -TTCTTTTGCCGCGTCAAGGTCGACGTTATTGAAACCGGCACAGCGCAGGGCGATATATTTAACGCCGTGCTTTTT -CAGCTCTTCCAGCACCGGGCGGCTGCCGTCATCGTTTACGAAAATACATACCGCTTCGCAGCCATTGGCAGTTTT -AGCGGTTTTTTCCGTCAGCAGAAAGTCAAAAAATTCCAGCTCAAAGCCAAAGGACTCGTTCACCTGTTGCAGGTA -CTTCTTGTCGTACTGTTTTGTGCTATAAACGGCGAGTTTCATAAGACTTTCTCCAGTGATGTTGAATCACATTTA -AGCTACTAAAAATATTTTACAAAATTTCAAATTTAATTGAAAGCTATGGCGATATTGAAAAATTCATCAACAACT -ATGCTTAGTGTAGGCGCAACCTTCAACTGAACGGTTAAACATGCCACAATACCCGTATTGAATGCTTAATTTTTC -GCTAAATCAGGATATTAACTACCCATGCTGGGTAAATATAAAGCCGTTCTCGCGCTGTTATTACTGATTATTCTT -GTGCCGTTGACGCTGCTGATGACGCTCGGGCTGTGGGTTCCCACGCTGGCGGGCATCTGGCTACCGCTCGGGACA -CGTATTGCATTAGATGAAAGCCCACGCATTACGCGTAAAGGTTTAATCATTCCCGATCTCCGTTATCTGGTGGGA -GATTGTCAGCTTGCGCATATCACCAACGCCAGCCTTTCACATCCCAGCCGCTGGTTATTGAACGTCGGCACGGTA -GAACTTGATTCTGCTTGTCTGGCGAAATTGCCGCAGACGGAGCAATCGCCAGCCGCTCCAAAAACACTCGCGCAG -TGGCAGGCCATGCTGCCTAACACCTGGATCAATATCGATAAACTGATTTTTTCTCCCTGGCAGGAATGGCAGGGA -AAACTCTCTCTCGCATTAACCTCTGATATCCAGCAACTGCGTTATCAGGGCGAAAAAGTTAAATTTCAAGGCCAG -CTGAAAGGGCAACAACTTACAGTCAGCGAACTGGATGTCGTCGCGTTTGAAAATCAGCCGCCGGTAAAACTGGTG -GGGGAATTTGCTATGCCGCTCGTGCCGGATGGACTTCCTGTAAGTGGGCATGCTACTGCGACGTTAAACTTGCCG -CAGGAACCGTCACTGGTGGATGCCGAGCTGGACTGGCAGGAAAATAGCGGGCAATTGATCGTGCTGGCACGGGAT -AACGGCGATCCGTTGCTCGATTTGCCGTGGCAAATTACTCGTCAACAATTGACCGTAAGCGATGGTCGCTGGAGC -TGGCCGTATGCAGGTTTTCCTTTGAGTGGCCGACTGGGTGTCAAAGTCGACAACTGGCAGGCAGGGCTTGAGAAC -GCTCTGGTCAGCGGACGACTGAGTGTGCTGACCCAGGGGCAAGCGGGTAAGGGCAACGCGGTGCTTAATTTTGGC -CCAGGAAAATTAAGCATGGATAACAGTCAGCTGCCTCTGCAGCTGACCGGTGAAGCGAAACAGGCGGACCTCATT -TTATATGCCCGTTTACCTGCGCAGCTAAGTGGAAGTCTGTCTGACCCAACGCTGACCTTTGAGCCAGGCGCGTTA -CTTCGTTCAAAGGGAAGAGTCATCGATTCGCTGGACATCGATGAAATCCGCTGGCCTTTAGCGGGTGTAAAAGTC -ACCCAACGTGGTGTTGACGGACGTTTGCAGGCCATCTTGCAGGCGCATGAAAATGAACTGGGCGATTTCGTGCTG -CATATGGATGGGCTGGCGAATGATTTTCTCCCTGACGCTGGCCGCTGGCAGTGGCGCTACTGGGGAAAAGGGAGT -TTTACACCGATGAATGCCACCTGGGATGTCGCAGGAAAAGGTGAGTGGCATGACAGCACGATTACGCTGACCGAT -CTCTCCACCGGTTTCGACCAGTTACAATACGGTACGATGACGGTAGAAAAGCCGCGATTAATTCTCGACAAGCCC -ATCGTCTGGGTACGTGACGCACAGCATCCCTCCTTTAGCGGCGCGCTGTCACTGGACGCCGGGCAAACGCTGTTC -ACTGGCGGCAGTGTGTTACCGCCATCAACCTTAAAATTTAGCGTCGATGGGCGCGATCCTACCTATTTCCTCTTT -AAAGGCGATTTACATGCTGGTGAGATTGGCCCGGTTCGGGTAAATGGTCGCTGGGACGGTATTCGTCTGCGCGGT -AACGCCTGGTGGCCTAAACAATCACTGACCGTATTCCAGCCGCTGGTGCCACCCGACTGGAAGATGAACTTACGC -GATGGTGAACTGTATGCTCAGGTTGCATTTTCTGCTGCGCCTGAACAAGGATTCCGCGCGGGAGGACACGGCGTG -TTGAAAGGCGGTAGTGCCTGGATGCCAGATAATCAGGTTAACGGTGTCGATTTTGTCCTGCCTTTCCGTTTTGCC -GATGGAGCCTGGCATCTGGGGACTCGCGGCCCCGTTACGTTGCGAATTGCCGAAGTGATTAATCTGGTGACAGCG -AAAAATATTACGGCTGATTTGCAAGGGCGTTATCCGTGGACTGAAGAAGAACCCTTGCTGTTGACTGATGTTAGC -GTCGATGTGTTAGGCGGTAACGTACTGATGAAACAATTACGTATGCCGCAACATGACCCGGCGCTGTTGCGGCTG -AATAATCTCTCATCCAGCGAACTGGTTAGCGCCGTCAATCCGAAACAATTCGCCATGTCCGGGGCATTTAGTGGT -GCACTGCCGTTATGGCTGAACAATGAAAAATGGATTGTGAAAGATGGCTGGCTGGCGAATAGCGGGCCGATGACA -TTGCGACTGGATAAAGACACTGCGGATGCGGTGGTAAAAGACAATATGACTGCGGGTTCAGCAATTAACTGGTTG -CGCTATATGGAAATTAGCCGTTCATCGACAAAAATTAATTTAGATAATCTCGGTTTATTAACCATGCAGGCCAAC -ATTACAGGTACCAGTCGCGTTGATGGTAAAAGCGGTACGGTAAACCTTAATTACCATCATGAAGAGAATATTTTT -ACGCTGTGGCGCAGTTTACGCTTTGGCGATAATCTCCAGGCATGGCTGGAGCAGAACGCACGTCTGCCGGGAAAT -GACTGTCCGCAAGGAAAAGAGTGTGAGGAAAAACAATGAAAATTTTACTGGCTGCGTTGACGTCATCTTTTATGC -TGGTTGGCTGTACGCCTCGCATTGAAGTCGCTGCACCTAAGGAACCGATCACTATCAATATGAACGTTAAAATTG -AGCATGAGATCATCATCAAGGCAGACAAAGATGTCGAAGAGCTGCTTGAAACTCGTAGCGATCTTTTCTGAGGTG -ATGATGAAGAAAACATTACTTCTTTGTGCGTTTCTTGTTGGGCTGGTAAGCAGCAATGTAATGGCATTGACTCTG -GATGAAGCCAGAACTCAGGGGCGGGTAGGTGAAACATTTTACGGTTATCTGGTTGCGCTGAAAACGGATGCTGAA -ACAGAGAAATTAGTAGCCGACATTAATGCCGAACGTAAAGCGAGTTACCAACAACTGGCAAAGCAAAATAATGTG -TCGGTAGATGATATCGCGAAACTCGCCGGGCAAAAGCTCGTAGCTCGGGCCAAACCGGGGGAATATGTACAAGGG -ATAAACGGTAAATGGGTGCGAAAATTTTAATAGCAAAACCGCAATATCGGGATAACGCTACAGGAGAAGGCGATT -GATCTATTTTCCTGAAACAAGGTGAATATTCAAAAACTCCTGTCAAATTGCCTTTTGCCCTGAAAAATGCATAGT -CAAATATCTGTTTTAACTAATTGGCGTTGCAGTACATGCAACGCCAATTAGTTAGCGGAATTTACGTCGATACTC -GCCTGGCGTCATCCCAAAGCGTTGCTTAAATACCGTTGAAAAATGACTCTGGTCAGAAAATCCCCAATGAAAGCC -GATGCCTGCCAGTTTTTCATCATCTGCGGCATGGCGAATCGCATCTGCACAAAAATCGAGACGACGGTTACGAAT -ATATTGCGCGACTACCAAACCTTTATCGGCAAACATTCGGTACAAACTACGTACTGACATACCTGTCTCTCCGGC -TATCCACTCCGGGCGTAATATCTCTTCGCGAATATTATCGTCTATCAACGTAACCACTTTTTGAAACTGACGTTC -ACGACGAGGTTGAACAGATTCCCGCTGATGAAGTACCGGGCGCAGCAGACACACCATCGCCTGTAGCGCAGCTTC -ACTTTCTGTTTCAGAAAGTGCCGGATTATTCATGCTCTCCTGTAACAGGCGATGACTGAGTTGCACCATGGGTAA -GTCAGCGTCCAGTCTTTCTGCGCAGATAGGTTTTTGATGGGGAAAATATTGTTCCAGCAGAGTGCGTGGCAAAAG -TAATGAAATCTGTTTAGAAGACTCCTGCCAGTAAAGCGAACAGGGGCGTGAGGCATCGAGTAACGTAATATCGCC -AGCGCCAATCTGCACCTGACGCTCATCCTGCTCCATTATTGCCTGACCACTAAGCTGAAAAACGGTGTAAAACCA -GGCATCGTCGCTGCCTTTTACTTCCTGCCAGGTGCGGGATAAATTCACCCCGCTGGTTGTCACGGTACTCAGCTT -TAGTCCTTTGGCAAAATGCGTGTCCAGTACACCCGTGTAACGCTCAGTCAGCAGGCGTCCGGTAAAATTTCCGCA -TACCTGATTGATTTGGGAAAGCCATTGCTGAAACTCATTATCCACTGCGGGGTTCATGGCACGTTTTCGCTCTGT -GAAATGTATTTTTATTGTTGCATTTGTGTTGCAATAAACGAAGCTAATGAGCCTGACTATAGGAAATAAGTCTTG -TCAGGCATAGAGACATAAGCGGTTATTGTCACGATTTGCGGAGCTTGTCACAGCTGACAAAGCGAATGTCACAGC -GAAAAAAGTGACTTTTCTTGTCGCTGCGTACACTGAAATCACACTGGGTAAATAATAAGGAAAAGTGATGACAGA -GCCGCATGTAGCAGTATTAAGCCAGGTCCAACAGTTTCTCGATCGTCAACACGGTCTTTATATTGATGGTCGTCC -TGGCCCCGCACAAAGTGAAAAACGGTTGGCGATCTTTGATCCGGCCACCGGGCAAGAAATTGCGTCTACTGCTGA -TGCCAACGAAGCGGATGTAGATAACGCAGTCATGTCTGCCTGGCGGGCCTTTGTCTCGCGTCGCTGGGCCGGGCG -ATTACCCGCAGAGCGTGAACGTATTCTGCTACGTTTTGCTGATCTGGTGGAGCAGCACAGTGAGGAGCTGGCGCA -ACTGGAAACCCTGGAGCAAGGCAAGTCAATTGCCATTTCCCGTGCTTTTGAAGTGGGCTGTACGCTGAACTGGAT -GCGTTATACCGCCGGGTTAACGACCAAAATCGCGGGTAAAACGCTGGACTTGTCGATTCCCTTACCCCAGGGGGC -GCGTTATCAGGCCTGGACGCGTAAAGAGCCGGTTGGCGTAGTGGCGGGAATTGTGCCATGGAACTTTCCGTTGAT -GATTGGTATGTGGAAGGTGATGCCAGCACTGGCAGCAGGCTGTTCAATCGTGATTAAGCCTTCGGAAACCACGCC -ACTGACGATGTTGCGCGTGGCGGAACTGGCCAGCGAGGCTGGTATCCCTGATGGCGTTTTTAATGTCGTCACCGG -GTCAGGTGCTGTATGCGGCGCGGCCCTGACGTCACATCCTCATGTTGCGAAAATCAGTTTTACCGGTTCAACCGC -GACGGGAAAAGGTATTGCCAGAACTGCTGCTGATCACTTAACGCGTGTAACGCTGGAACTGGGCGGTAAAAACCC -GGCAATTGTATTAAAAGATGCTGATCCGCAATGGGTTATTGAAGGCTTGATGACCGGAAGCTTCCTGAATCAAGG -GCAAGTATGCGCCGCCAGTTCGCGAATTTATATTGAAGCGCCGTTGTTTGACACGCTGGTTAGTGGATTTGAGCA -GGCGGTAAAATCGTTGCAAGTGGGACCGGGGATGTCACCTGTTGCACAGATTAACCCTTTGGTTTCTCGTGCGCA -CTGCGACAAAGTGTGTTCATTCCTCGACGATGCGCAGGCACAGCAAGCAGAGCTGATTCGCGGGTCGAATGGACC -AGCCGGAGAGGGGTATTATGTTGCGCCAACGCTGGTGGTAAATCCCGATGCTAAATTGCGCTTAACTCGTGAAGA -GGTGTTTGGTCCGGTGGTAAACCTGGTGCGAGTAGCGGATGGAGAAGAGGCGTTACAACTGGCAAACGACACGGA -ATATGGCTTAACTGCCAGTGTCTGGACGCAAAATCTCTCCCAGGCTCTGGAATATAGCGATCGCTTACAGGCAGG -GACGGTGTGGGTAAACAGCCATACCTTAATTGACGCTAACTTACCGTTTGGTGGGATGAAGCAGTCAGGAACGGG -CCGTGATTTTGGCCCCGACTGGCTGGACGGTTGGTGTGAAACTAAGTCGGTGTGTGTACGGTATTAATCTGGTTC -GCTCATAAGTAAAAAACGGCACCTGGTGCCGTTTTTTTGTCTGAAACAATCACTTATCTTTCTTCAGCGCCCCTA -GCGTTGGCGTTTCGTCAAAGAAGTTCCATGGTTTCAGCAGAGTATGTACCCATTCGGTCGGCATAATCGGCCACT -CTTCGGCGCGGGCCACATGTGTGGTGCCGGTGGTCATCCAGACAACGGCGTCGGTGTTGTCCAGCGACTCGTTAT -CCTTACTGTATTGTCCAAGACCGGTGTCATGAGTAGAACGGTTCGGATATTTGCCTTCCGGGAAACGCTCGCCAG -GATGATAACGCGTTACCCAGAGCTGCTTGTCCATAAAGCTTAAACGATGATAGATCCACTCGTCCGGCGCGAACT -GGGCACCTTTTGCTACCGGGTGAGTACCACCTGCATAAGGAATAATTTGATAGGAAACCGGATTGCCCATGCGGT -TCTCTTTGTTCGGGTTACTCAACAGACGAATCGTGCCCGGATCAAATTTCTGTGCGGCATCCTGTTCATTGCCGA -TGTTGTACTGATTAACTTGCATGGTACTGGTGCGTGGGCCACCGGCAGTATTCGGTTTTACCACTGGGTCCATCG -CCACCAGGCTGTTATTCTCGCCATCTACATCCAGATCGAGGCGGAAATTATAAATATGTTGGTGTGTAGTACCCA -CGATATTGTGATCGATAAGCGTGCCGTAGCGCGTGTCATCTTTCGCCGTCTCATCGTGCATGGTTTTCGCTTTAA -CACCTTTCACCGCTTCGATGCCCGTAGCACCGGCATCGATGCCAATAGTGCCGTTTTCATGGAAGATCCAGTCAA -AAATGTAGTCATAGTTACCCACTGTACTGATCCAGCGCACCACTAACTCCCGGCGTTCGGTACTGACGTTGGGCT -GGCCCATTTCCTGATGCTTATACTCCGGCCCGGCATAACGTTCAAATACCGCGATAGCGCGAGGGATCTCCATCG -GCACGCCAGTGTAGTCGGCGATGGTTTCATTAAGGAGCACTGCGTTAGACGGGGCATCTTTACCACGAGCAATTG -GTGAGGTTAGCGTGCCCATACCGTAGTCACCAGAGTCCAGATACGCTTTAAAGTACCAGCCAATATCAGGATCAC -CGTAAGGCACAATCATGCCGCCGAGAGAACCTTCGTACATGACTTTGCGTTTGGTGCCATTGTCGTTATAAGTCA -CGGTGGAGATCATCGGCCCGACGCGAGAGTTCATGCTGAGGTGAAAATCCCAGTTCCGCCAGTGAATCATATCGC -CAGTAATGGTGTAATTTTTACCTTCAGGCTCAATGATTTGCATAGGCTTAACTGCCGGAGCAACGCGGTCACGGC -CATCAAATGGGCGTGCGGTCATTGGCACCGGAACTACCGGACCTTCTTCAATCTTAACGATTTTTTTCTGTTCTA -AATCAACGACCGCCACCAGGTTTTCGATGGGATGTGCCCAGTAGTTGCCATCACCGACATCAAGATAGCTGATGA -CTTTGAGCAACCGGGCATCTTGTTTCAGGCCATCTTTACCATCGAAATAACCTACGGTCAGCGGCGTGGTAATCA -CTTTTTTCGCATCAGTAATACCGCGTTTCTTCACGGCAGCGGCAAATTCTTCACTGTTGTTAATAATGTTCTGCA -CACTGGCGAAATCATCCAGCAACACCATACCGTGGGCGTCTTTAATGGGTTGCCAGGAGAGCAGTTTGTTGTTTT -GCAGATCCACCACCGCTTCGATGATATGTTTGCCGTCGAGCATAATGACGTCGGCTTTGCGCGGCTGGTCAACCG -GTTTGTTTTCCAGCGCAAACGCCCAGACAGCTTCTTTATCTGGCGGTAGCAGGGAGATCTCAGTAAAACGGGTAT -TGGGTTTGAAGTCCGCGGAAGCTTTAACAATTTCAACGGCCTGTTTAATTTCGTCCGCAGTTAGCGCATTAAGTG -GGTGAGGGCGCTTTTCTACCTGAAAGGTTTGATCCAGCCCGGACTGGAAAACATCGTTAATAAAGGTGTCAGAAA -CCCAGGCTTTATTGTCTTTCATCACTACCGGTACTTGCAGTGCCAGAGGCTGACCATTAACAATTGCTGTTTGCG -CACCAGGCTTCACTTTCACGTACGCGCCATCTTTAATCAGGGTAAAGAGCTGGGCGTAGTCGTCCCACTGCACAT -CGGCACCAAATTCTTTAAGCGTTTTATCCATTGGCACCATATGCGCTTCACCACCGTGGGCAAATACCGGCGCTT -GCCAGGCGAAACTTAAGGCGACTGCCAACGCCAGGGTTGTTTTACGGGCAGAATACAGAGAGGGGCTTCCCATTA -TTAACCTCGTCAGATGTTGTGTTCTTGTTAGCAACCGCGCTCTGTGGGCGGTTTAGTCAGGTTCACATTATCAGT -ACTGATGCAAAGGGGATTGCCTGCACCTGCCAGGTTGTTTGGCAGGTGTGCCAGCTTTTCATACAGTGGATGCCC -TGAAAATAGATGTACACATCATGCATAATGTGACAACGTCACAAAACTTAGTGAAATAAAAGGGCAACTATTCGC -CGTTGCCCTTCATTCACCGATTAATCGACAAAATCACCGTGCTGCCTGGCCACCAGCGTCAGAATTGAATACAGC -GCCACCGGGGTTTGATGCTGATTGAATACCTCTACAGCCCATTCCACCACACCTGTTGGTTTTTCTTCTGCGCTA -CGCTGTTTTTTCAGCGTCTTGCGCTTACAGGTGAGACGCACCTGGATGGTATCGCCTGGCTTTACGGGTTCGATA -AAACGCAAGCTTTCCAGCCCGTAGTTAGCAATGACCGGACCGACACCGGCATCGACAAACAGACCCGCAGCCGCA -GAAAGCACAAAATACCCATGCACCACCCGCTCACCGAAAATAGATTCGGCAGCAGCAATCTTATCCATATGTGCA -TAGAAATGATCGCCGCTGAGGCAAGCAAAGTTAACAATATCGGCCTCTGTCATTGTGCGGCGGGGAGTCAACAGG -CTGTCGCCTGGTTGTAGCTCCTCAAAATATTTGCGGAACGGATGAATACGATCTTCTTCGACTTTCGCACCGCGC -ACCCACTGTTTACTGATAGCGGCAAGCATCGTCGGACTACCCTGAACAGCGGTTCGCTGCATGTAATGTTTCACC -GCTCGTAAACCGCCTAATTCTTCACCGCCTCCTGCGCGACCAGGCCCACCATGTACCAGTTGTGGCAGTGGGGAG -CCATGCCCGGTGGATTCTTTTGCCGACTCTTCATTGAGGATCTGAATTCGCCCATGCGTACGTGCCGCGTCGGCA -ATAAACTGACGCGCAATTTGCGGATCAGCCGTCACCAGCGTTCCCGCAAGGCTACCGCCGCCTGCACAAGCCAGT -TGCAGAGCATGTCGCTGGTTTTGTGCTGGCATCAGCGTTGCGACAGGGCCAAAGGCTTCTGTTGCATGTACCGCC -GGTGTTTCATCCGGCTGCGGACAGTACAATAAGGTTGGCGGGAAGAAGGCACCCGCAGCAGATAAATCCGCCTGA -CCACCGAGGCGAATCTCGCATCCTGCAGCCAGCAATATGTTCACTTTTTCCTGCACATCGGCACGCTGCTCAGCA -TTTACCAGTGCGCCCATTTTCACGCCTTCCTGAGCAGGATCACCGACCACGACTTTCTGTAATCGCGCAACCAGA -GCATCACTGACAGCATTAACCAATGCCTGCGGCACAATAATCCGCCGGATTGCCGTACATTTTTGCCCGGCTTTT -GTGGTCATCTCACGCACAACTTCACGAATAAACAGCGCAAACTCCGGTTGATCCGGGGTGACATCTTCGCCCAGT -ACGCAGCAGTTCAGGGAATCAGCTTCCATAGTGAAGGGGATAGATTTGGCGACGATATTTGGCTGAACTCGCAGC -ATCTGTCCGGTCGCCGCTGACCCCGTGAAAGTCACCACATCCTGGCTGTCCAGATGATCCAACAAGTCGCCAGCA -CTACCGCAGATCAGACTAATTGCGCCTTCGGGAACAAGACCACTATCGACAATTGATTTCACCATCGCCTGAGTC -AGTTGGGCCGTCGCGGTAGCTGGTTTGATGATGGCTGGCATTCCGCCCAGCCACGTTGGTGCCAGCTTTTCCAGC -ATTCCCCAGCAGGGGAAGTTAAAGGCGTTAATATGCACTGCCACGCCTGACTTTGAGGTCAGTAAATGGCGCGCG -GCAAATCCACCTTCTTTCGATAAGGGGATCAATTCATCTTCCGGCCACAGCGTATCGTCAGGCAGCTCCCGGCTA -CCGAGGCTGGCGTAAGTAAATAACGTCCCAATGCCACCTTCAATATCAACCCAACTGTCTGCCCGCGTTGCGCCT -GTTTGCGCAGAAAGAGCATAGAAACGCTCTTTTTCACTCAGCAGATGTTTAGCGACCGCTTTAAGCATCGCCGCA -CGTTCGATAAAGGTCATAGCGCGAAGGGCGGGGGCACCTTTTTCAATGGCAAACTGGCGGGCAGCCGCCATATCA -AGACCTTCACTGGTCACTTCCCATAACGCCTCGCCGCTAATAGCGTGGTGAATCAAACGGCTACGGCCCCGGCCA -GACTGCCAGGTACCGGATAAGAAACTGGCTAACTGCTGCATCGCTACTCTCCAGATGTTTCACATTTCTGTTGCT -AATAGTTAAATCGCGAATCATAAAAAGCAAAGGATCTTTTAACGAAATGTTAACTATGCGATCTGTATAGCAACT -GCGGAAAACATTAATGCACTGATAAATAATGATTTATAAAAATAGGGTGCGAAATCCGTCACAGTTCAAACATAC -AAAATTTGTGATTTTACTTAACTATTGTGTAACTTTCATAAAACAATGTGATTCGTGTTTTTAATTAATTCACGA -AAACTGGAATCGTAAAGGTGATGACGTGACCCAAGAAGAACGCTTTGAGCAACGGATAGCCCAGGAAACGGCTAT -CGAGCCACAGGACTGGATGCCCGATGCTTACCGAAAGACATTGATCCGCCAGATTGGGCAGCATGCGCACTCCGA -GATTGTTGGTATGTTGCCTGAAGGTAACTGGATCACTCGCGCACCAACCTTGCGGCGTAAAGCCATTCTGTTGGC -CAAAGTGCAGGATGAAGCCGGTCATGGTCTGTATCTCTATAGCGCCGCCGAAACACTGGGCTGCGCCAGAGAAGA -CATCTACCAAAAAATGCTCGACGGACGGATGAAATATTCCTCCATCTTTAATTATCCGACATTGAGTTGGGCTGA -TATCGGTGTTATCGGCTGGCTGGTGGATGGCGCAGCGATCGTCAATCAGGTGGCGTTATGCCGCACTTCTTATGG -CCCGTATGCCAGAGCAATGGTGAAAATCTGCAAAGAAGAGAGTTTTCACCAGCGTCAGGGGTTTGAAGCCTGCAT -GGCACTGGCGCAGGGCAGCGAAGCTCAAAAGCAGATGTTGCAAGACGCCATTAACCGTTTCTGGTGGCCAGCCTT -AATGATGTTCGGGCCAAACGATGATAACTCGCCAAACAGCGCCAGAAGTCTCACCTGGAAAATCAAACGTTTCAC -CAACGACGAACTCCGCCAGCGTTTCGTGGATAACACCGTTCCACAGGTTGAAATGCTCGGTATGACCGTTCCTGA -CCCGGATCTGCATTTTGACACTGAAAGCGGTCACTACCGCTTTGGTGAGATCGACTGGCAGGAGTTTAACGAAGT -AATTAACGGTCGCGGAATTTGTAATCAGGAGAGGCTCGACGCCAAACGTAAAGCCTGGGAAGAAGGTACCTGGGT -ACGGGAAGCAGCGCTGGCCCATGCACAAAAACAACATGCCCGTAAGGTCGCATAAGGAGATTCAAAATGAGTAAT -GTTTACTGGCCGTTATACGAAGTTTTCGTGCGTGGCAAACAGGGCTTATCACACCGCCATGTTGGCAGTTTACAT -GCTGCCGATGAGCGGATGGCACTGGAAAATGCCCGTGATGCTTACACCCGTCGTAGCGAAGGATGTTCAATTTGG -GTGGTGAAGGCGAGTGAAATTGTTGCCTCGCAACCGGAAGAACGCGGTGAATTTTTTGATCCGGCTGAAAGCAAG -GTCTATCGCCATCCAACGTTTTACACCATCCCTGATGGCATTGAGCACATGTGAGGTCGGAAATGAATCAGTTAA -CGGCTTACACCTTGCGCCTGGGCGATAACTGCCTGGTGCTCTCCCAGCGGTTGGGTGAATGGTGCGGTCACGCAC -CGGAACTGGAAATCGATCTCGCACTGGCAAACATTGGCCTCGATTTATTAGGTCAGGCACGCAACTTCTTATCGT -ATGCCGCTGAATTAGCGGGAGAAGGCGATGAAGATACCCTGGCCTTCACCCGAGACGAGCGCCAGTTCAGCAACT -TATTGTTGGTTGAACAACCAAACGGCAATTTTGCCGACACCATTGCACGCCAGTATTTCATCGATGCATGGCATG -TGGCGCTCTTTACCCGTCTGATGGAAAGCCGTGATCCGCAACTGGCGGCGATTTCTGCCAAAGCAATTAAAGAAG -CGCGCTATCACCTGCGTTTTAGTCGTGGCTGGCTGGAGCGACTGGGCAATGGTACTGACGTATCAGGGCAAAAGA -TGCAGCAGGCCATCAACAAGTTGTGGCGTTTTACCGCCGAACTGTTCGATGCCGACGAGATTGATATTGCACTGA -GTGAAGAGGGTATTGCGGTTGATCCACGCACTTTACGCGCAGCGTGGGAAGCCGAAGTTTTTGCCGGGATCAACG -AAGCCACATTGAACGTACCGCAAGAGCAGGCGTATCGCACTGGCGGTAAAAAAGGACTGCATACCGAACACCTTG -GACCCATGCTGGCAGAAATGCAGTATCTCCAGCGTGTCTTGCCCGGTCAGCAATGGTAACAGAGGAGATGGGTAT -GCAACGTCTGGCCACCATTGCACCGCCACAGGTTCATGAGATATGGGCGCTACTCAGCCAGATCCCGGACCCGGA -GATCCCGGTGCTGACCATTACTGATTTAGGCATGGTGCGTAATGTGACACAGATGGGAGAAGGATGGGTGATCGG -CTTTACGCCGACATATTCCGGTTGTCCGGCAACGGAACATTTGATTGGCGCGATACGTGAGGCAATGACAACCAA -CGGGTTTACCCCCGTTCAGGTTGTGCTGCAACTCGACCCGGCATGGACCACCGACTGGATGACCCCCGATGCCCG -TGAGCGTCTGCGAGAGTATGGCATTAGCCCGCCCGCCGGACACAGTTGCCATGCCCATTTGCCGCCAGAAGTACG -TTGCCCGCGCTGCGCCAGCGTCCATACCACACTTATCAGTGAATTTGGTTCCACGGCCTGCAAAGCATTGTACCG -CTGCGATAGTTGCCGCGAACCTTTCGATTATTTCAAATGTATTTGAGGATGCCATGACAACGTTTCATTCCTTAA -CAGTGGCAAAAGTCGAGTCGGAAACCCGTGATGCGGTGACCATTACCTTTGCGGTGCCCCAGCCTTTGCAGGAGG -CGTATCGCTTTCGCCCCGGTCAACATTTGACCTTAAAAGCCAGCTTTGATGGTGAAGAATTACGCCGTTGTTACT -CCATTTGCCGCAGCTATCTGCCTGGCGAAATTAGTGTGGCGGTGAAAGCCATTGAAGGCGGACGTTTCTCCCGCT -ATGCCCGCGAACACATCCGCCAGGGTATGACGCTGGAGGTCATGGTGCCGCAGGGGCATTTCGGCTATCAGCCGC -AGGCCGAACGCCAGGGGCGCTATCTGGCAATTGCAGCAGGATCAGGTATTACGCCAATGCTGGCGATTATCGCCA -CCACTTTACAAACCGAGCCTGAAAGTCAGTTCACCCTGATCTACGGTAACCGTACCAGCCAGAGCATGATGTTTC -GCCAGGCACTGGCAGACCTGAAAGACAAATATCCTCAGCGTTTACAGTTGTTGTGCATTTTCAGTCAGGAAACCC -TCGACAGCGATCTGCTTCACGGGCGTATTGACGGTGAAAAATTACAGTCACTTGGGGCCTCGCTCATTAATTTTC -GTCTTTATGATGAGGCATTTATTTGTGGTCCGGCGGCGATGATGGATGACGCGGAAACCGCCTTAAAAGCACTGG -GAATGCCAGATAAAACCATTCATCTGGAGCGGTTTAATACGCCTGGCACGCGCGTCAAACGTAGCGTTAACGTGC -AAAGTGACGGACAAAAAGTGACTGTACGTCAGGATGGGCGGGATCGGGAAATCGTGCTTAATGCCGACGATGAAA -GCATTCTCGATGCGGCATTGCGCCAGGGGGCGGATCTGCCCTATGCCTGCAAAGGCGGCGTCTGTGCGACCTGCA -AATGCAAAGTGCTGCGTGGCAAAGTGGCGATGGAAACCAATTACAGTCTGGAACCGGATGAACTGGCCGCAGGTT -ATGTGTTGAGTTGCCAGGCACTGCCGCTGACCAGCGATGTGGTGGTTGACTTTGACGCGAAGGGGATGGCATGAG -CGAACTGATCGTCAGCCGTCAGCAACGAGTATTGTTGCTGACCCTTAACCGTCCCGCCGCACGTAATGCGCTAAA -TAATGCCCTGCTGATGCAACTGGTAAATGAACTGGAAGCTGCGGCTACCGATACCAGCATTTCGGTCTGTGTGAT -TACCGGTAATGCACGCTTTTTTGCCGCTGGGGCCGATCTCAACGAAATGGCAGAAAAAGATCTCGCGGCCACCTT -AAACGATACACGTCCGCAGCTATGGGCGCGATTGCAGGCCTTTAATAAACCACTTATCGCAGCCGTCAATGGTTA -CGCGCTTGGGGCGGGTTGCGAACTGGCATTGTTGTGCGATGTGGTGGTTGCCGGAGAGAACGCGCGTTTTGGGTT -GCCGGAAATCACTCTCGGCATCATGCCTGGCGCAGGCGGAACGCAACGTTTAATCCGTAGTGTCGGTAAATCGTT -AGCCAGCAAAATGGTGCTGAGCGGAGAAAGTATCACCGCTCAGCAAGCACAGCAGGCCGGGCTGGTTAGCGACGT -CTTCCCCAGCGATTTAACCCTCGAATACGCCTTACAGCTGGCATCGAAAATGGCACGTCACTCGCCGCTGGCCTT -ACAAGCGGCAAAGCAAGCGCTGCGCCAGTCGCAGGAAGTGGCTTTGCAAGCCGGACTTGCCCAGGAGCGACAGTT -ATTCACCTTGCTGGCGGCAACAGAAGATCGTCATGAAGGCATCTCCGCTTTCTTACAAAAACGCACGCCCGACTT -TAAAGGACGCTAATGATGGAATTCATCCTCAGTCATGTAGAAAAGGGCGTGATGACACTAACGCTCAACCGCCCG -GAACGCCTGAACAGTTTTAATGATGAGATGCACGCACAACTGGCAGAGTGCCTGAAACAGGTCGAGCGCGACGAC -ACTATCCGTTGCCTGTTACTTACAGGTGCCGGGCGCGGATTTTGTGCTGGTCAGGATCTTAACGATCGTAACGTT -GATCCCACAGGCCCCGCACCGGATTTAGGGATGTCAGTTGAACGTTTCTATAACCCACTGGTACGTCGCCTGGCA -AAACTGCCAAAACCGGTGATCTGTGCAGTCAATGGCGTGGCGGCAGGGGCAGGCGCAACACTGGCACTGGGGGGC -GACATCGTTATTGCTGCCCGTTCAGCAAAATTCGTCATGGCGTTTAGTAAGTTAGGCTTAATACCCGATTGCGGT -GGAACCTGGTTACTGCCACGCGTTGCCGGACGAGCGCGCGCCATGGGGCTGGCACTGCTGGGGAATCAACTGAGT -GCTGAACAGGCGCACGAATGGGGGATGATCTGGCAGGTTGTTGATGATGAAACGCTGGCAGATACCGCGCAACAG -CTGGCACGGCATCTGGCGACACAACCGACATTTGGTCTTGGACTTATCAAGCAAGCGATAAATAGCGCTGAAACC -AATACGCTCGATACGCAACTGGATCTGGAACGTGACTATCAGCGACTTGCCGGACGGAGCGCAGATTATCGTGAA -GGTGTCAGTGCGTTCCTGGCTAAACGCTCACCGCAGTTCACGGGGAAATAGCATGATGATAAATGTGCAAACTGT -GGCAGTGATTGGGAGCGGCACCATGGGGGCAGGCATTGCTGAAGTTGCTGCCAGTCATGGACACCAGGTTTTACT -GTATGACATTTCTGCTGAAGCGCTGACCCGCGCAATCGACGGGATACACGCGCGGCTAAATTCACGCGTGACGCG -GGGAAAACTGACTGCTGAAACCTGTGAACGCACATTGAAACGCCTGATCCCGGTGACCGATATTCACGCGCTGGC -AGCTGCGGACCTGGTCATTGAAGCGGCGTCTGAACGTCTGGAAGTCAAAAAAGCGCTCTTTGCACAGCTGGCGGA -AGTTTGCCCGCCACAAACGCTATTGACCACTAACACTTCGTCAATCTCTATAACCGCGATTGCTGCGGAGATAAA -AAATCCTGAACGTGTTGCGGGGCTGCATTTTTTTAACCCGGCACCGGTGATGAAGTTGGTGGAGGTGGTCAGTGG -GCTGGCAACGGCGGCGGAAGTTGTTGAGCAGTTGTGTGAACTAACGTTGAGTTGGGGTAAGCAGCCTGTGCGCTG -TCATTCGACTCCTGGATTTATCGTTAACCGTGTTGCGCGTCCTTATTATTCCGAGGCCTGGCGGGCACTGGAAGA -GCAGGTTGCTGCACCAGAAGTGATTGACGCTGCACTTCGCGATGGCGCTGGTTTCCCGATGGGGCCGCTGGAATT -AACCGATCTGATTGGTCAGGACGTCAATTTTGCTGTCACCTGTTCGGTGTTTAACGCTTTCTGGCAGGAGCGTCG -TTTTTTACCTTCGCTGGTGCAACAGGAACTGGTGATTGGTGGACGGTTGGGCAAGAAAAGTGGGCTGGGCGTGTA -CGACTGGCGCGCGGAACGTGAGGCAGTTGTTGGCCTGGAAGCGGTAAGCGACAGTTTTAGCCCAATGAAAGTAGA -AAAGAAAAGTGACGGTGTCACGGAAATTGACGATGTTTTATTGATTGAGACACAAGGCGAGACGGCACAGGCGCT -GGCAATACGACTGGCACGCCCGGTGGTAGTGATCGATAAAATGGCGGGCAAGGTGGTGACCATTGCTGCTGCAGC -GGTGAACCCGGACTCAGCGACCCGCAAGGCCATTTATTACCTGCAACAGCAGGGCAAAACAGTGCTGCAAATTGC -AGATTACCCAGGAATGCTGATTTGGCGAACGGTAGCAATGATCATCAATGAAGCCCTTGATGCGCTTCAAAAAGG -CGTGGCCTCTGAACAGGATATCGATACCGCCATGCGTCTTGGGGTGAATTATCCATATGGCCCACTTGCCTGGGG -AGCGCAACTTGGCTGGCAGCGAATATTAAGGCTCCTTGAAAATCTACAGCATCACTATGGCGAAGAACGCTATCG -CCCATGTTCATTGCTGCGCCAACGGGCGCTTCTGGAGAGCGGTTATGAGTCATAAGGCCTGGCAAAATGCCCATG -CAATGTATGAGAACGATGCCTGCGCCAAAGCGCTTGGCATCGACATTATCTCAATGGATGAAGGCTTTGCTGTAG -TGACCATGACCGTCACTGCACAAATGCTTAACGGTCATCAAAGTTGCCACGGCGGGCAGCTATTTTCACTGGCTG -ATACTGCCTTTGCCTACGCCTGCAATAGCCAGGGGCTGGCAGCCGTCGCTTCTGCCTGCACGATTGATTTTTTGC -GTCCAGGCTTTGCCGGAGACACCTTAACTGCTACTGCGCAGGTACGTCATCAGGGCAAGCAAACCGGTGTTTACG -ACATCGAAATTGTTAACCAACAACAAAAAACGGTTGCGCTGTTTCGCGGTAAATCTCACCGCATCGGCGGCACCA -TTACAGGAGAAGCCTGATGCGTGAAGCCTTTATTTGTGACGGAATTCGTACGCCAATTGGTCGCTACGGCGGGGC -ATTATCAAGTGTTCGGGCTGATGATCTGGCTGCTATCCCTTTGCGGGAACTGCTGGTGCGAAACCCGCGTCTCGA -TGCGGAGTGTATCGATGATGTGATCCTCGGCTGTGCTAATCAGGCGGGAGAAGATAACCGTAACGTAGCCCGGAT -GGCGACTTTACTGGCGGGGCTGCCGCAGAGTGTTTCCGGCACAACCATTAACCGCTTGTGTGGTTCCGGGCTGGA -CGCACTGGGGTTTGCCGCACGGGCGATTAAAGCGGGCGATGGCGATTTGCTGATCGCCGGTGGCGTGGAGTCAAT -GTCACGGGCACCGTTTGTTATGGGCAAGGCAGCCAGTGCATTTTCTCGTCAGGCTGAGATGTTCGATACCACTAT -TGGCTGGCGATTTGTGAACCCGCTCATGGCTCAGCAATTTGGAACTGACAGCATGCCGGAAACGGCAGAGAATGT -AGCTGAACTGTTAAAAATCTCACGAGAAGATCAAGATAGTTTTGCGCTACGCAGTCAGCAACGTACGGCAAAAGC -GCAATCCTCAGGCATTCTGGCTGAGGAGATTGTTCCGGTTGTGTTGAAAAACAAGAAAGGTGTTGTAACAGAAAT -ACAACATGATGAGCATCTGCGCCCGGAAACGACGCTGGAACAGTTACGTGGGTTAAAAGCACCATTTCGTGCCAA -TGGGGTGATTACCGCAGGCAATGCTTCCGGGGTGAATGACGGAGCCGCTGCGTTGATTATTGCCAGTGAACAGAT -GGCAGCAGCGCAAGGACTGACACCGCGGGCGCGTATCGTAGCCATGGCAACCGCCGGGGTGGAACCGCGCCTGAT -GGGGCTTGGTCCGGTGCCTGCAACTCGCCGGGTGCTGGAACGCGCAGGGCTGAGTATTCACGATATGGACGTGAT -TGAACTGAACGAAGCGTTCGCGGCCCAGGCGTTGGGTGTACTACGCGAATTGGGGCTGCCTGATGATGCCCCACA -TGTTAACCCCAACGGAGGCGCTATCGCCTTAGGCCATCCGTTGGGAATGAGTGGTGCCCGCCTGGCACTGGCTGC -CAGCCATGAGCTGCATCGGCGTAACGGTCGTTACGCATTGTGCACCATGTGCATCGGTGTCGGTCAGGGCATCGC -CATGATTCTGGAGCGTGTTTGAGCATATCAACCTGCGAGTACCCTACAATGATAACCAATACAAAGCTTGACCCG -ATTGAAACCGCGTCTGTTGATGAGTTACAGGCGTTGCAAACACAGCGTCTGAAATGGACGCTCAAACACGCGTAT -GAAAATGTGCCGATGTATCGGCGCAAATTCGACGCAGCAGGCGTACATCCTGATGATTTCAGGGAACTTTCAGAC -CTGCGTAAATTTCCCTGTACCACCAAACAGGATCTGCGCGACAACTATCCCTTTGACACCTTTGCCGTGCCAATG -GAACAAGTGGTGCGCATTCATGCTTCTTCGGGAACCACAGGTAAACCGACAGTTGTCGGCTATACGCAAAACGAT -ATTGATAACTGGGCCAATATTGTAGCGCGTTCTTTGCGTGCGGCAGGGGGCTCGCCCAAAGACAAAATTCATGTT -GCCTATGGTTACGGCCTGTTTACTGGTGGGCTGGGTGCGCACTATGGTGCCGAACGTCTGGGCGCTACGGTGATC -CCGATGTCTGGCGGGCAGACGGAAAAACAAGCGCAACTGATCCGTGATTTTCAACCAGATATGATCATGGTTACG -CCATCTTATTGCCTTAACCTGATTGAAGAGCTGGAGCGGCAGTTGGGCGGTGATGCCAGCGGTTGCTCGCTGCGG -GTTGGAGTATTTGGTGCTGAGCCGTGGACACAGGCCATGCGTAAAGAGATTGAGCGTCGCCTGGGGATCACCGCA -CTGGATATTTATGGCCTGTCAGAAGTGATGGGGCCGGGGGTGGCGATGGAGTGTCTGGAAACTACCGACGGCCCA -ACCATTTGGGAAGATCATTTCTATCCTGAAATTGTTAATCCTCATGACGGCACACCGCTTGCCGATGGTGAACAT -GGCGAACTGTTATTCACCACGCTGACCAAAGAAGCATTGCCGGTCATTCGTTACCGCACGCGTGATTTAACCCGA -CTGTTACCAGGAACGGCGCGGACTATGCGCCGCATGGATCGCATCAGCGGACGCAGCGATGACATGTTGATTATT -CGCGGTGTAAATGTCTTTCCGTCACAACTGGAAGAAGAGATTGTCAAATTCGAACATTTATCGCCGCATTACCAA -CTGGAGGTGAACCGCCGGGGGCATCTTGATTCACTTTCTGTGAAAGTGGAGTTGAAAGAAAGTAGCCTGACATTG -ACGCATGAGCAGCGTTGCCAGGTATGCCACCAGCTGCGCCATCGGATTAAGTCGATGGTGGGGATCTCTACCGAT -GTGATGATCGTTAACTGTGGCAGTATCCCGCGTTCAGAAGGCAAGGCGTGTCGGGTGTTTGATCTGCGCAATATT -GTTGGTGCCTGACGTATCGTCTGGCCCTGGTGGGGTAAAGCGCCAGGGCCAGAAGTCGATACGACCTGTGCTATG -ATTCATAAATCACAACAATAACAACAGACTGAAGCGAATGAGTAAACTTGATACTTTTATCCAACATGCTGTAAA -CGCTGTTCCGGTCAGTGGCACATCTTTGATCTCCTCTCTGTATGGTGATTCGCTTTCCCATCGTGGTGGTGAAAT -CTGGTTGGGTAGTCTGGCTGCTTTGCTGGAAGGGCTGGGATTTGGTGAGCGTTTCGTGCGCACCGCTTTGTTTCG -TCTTAATAAAGAAGGCTGGCTGGATGTTTCCCGCATCGGGCGACGCAGTTTCTATAGCCTCAGTGATAAAGGCTT -GCGCCTGACGCGACGGGCAGAAAGTAAAATTTATCGCGCAGAGCAACCTGCATGGGATGGTAAATGGCTCCTGTT -GCTCTCGGAAGGTTTAGATAAATCAACGCTGGCTGATGTCAAAAAGCAGTTGATCTGGCAAGGTTTTGGCGCACT -GGCACCCAGCCTGATGGCATCGCCGTCGCAAAAACTGGCCGATGTACAGACACTTTTGCATGAAGCGGGTGTGGC -GGATAACGTGATTTGTTTTGAAGCGCAAATACCACTGGCGCTTTCTCGCGCAGCACTGCGTGCCAGAGTAGAAGA -GTGCTGGCATTTAACTGAACAAAATGCCATGTACGAAACCTTTATTCAGTCATTCCGCCCGCTGGTGCCGCTTTT -AAAAGAGGCGGCAGACGAGTTAACCCCGGAGCGGGCATTTCATATTCAGCTTTTACTGATCCATTTTTATCGCCG -TGTCGTCCTTAAAGACCCATTGTTGCCGGAGGAGTTGCTTCCGGCACACTGGGCAGGGCATACGGCGCGTCAGCT -GTGTATCAACATTTATCAGCGCGTAGCGCCTGCTGCTTTAGCGTTCGTTAGTGAAAAAGGTGAAACCTCGGTCGG -TGAACTGCCTGCGCCGGGAAGCCTGTATTTTCAACGTTTTGGCGGCTTGAATATTGAACAGGAGGCGTTATGCCA -ATTTATCAGATAGACGGTCTGACTCCGGTTGTGCCAGAAGAGAGTTTTGTCCATCCGACAGCGGTATTGATCGGC -GATGTTATTCTCGGCAAGGGCGTTTACGTTGGGCCAAATGCCAGCCTGCGTGGCGATTTTGGTCGTATCGTGGTG -AAAGATGGCGCGAACATTCAGGATAATTGCGTTATGCACGGTTTTCCCGAGCAGGATACTGTTGTAGGAGAAGAT -GGACATATTGGTCATAGCGCTATCCTTCACGGCTGCATTATCCGCCGCAATGCATTAGTGGGAATGAACGCGGTA -GTGATGGACGGTGCGGTGATTGGCGAGAACAGCATTGTTGGTGCATCCGCATTTGTGAAAGCCAAAGCAGAAATG -CCAGCTAATTACCTGATTGTCGGCAGCCCGGCGAAAGCGATTCGTGAACTCAGTGAGCAGGAGTTGGCATGGAAA -AAGCAGGGTACGCATGAGTACCAGGTGCTGGTGACACGCTGTAAGCAGACGTTACATCAAGTCGAGCCATTGCGG -GAAATTGAACCTGGCAGGAAACGCCTGGTATTTGATGAGAATCTGCGACCGAAACAGTAACAGATGTAAAATTAT -TTTGTCCCTTTAATTATAAAGCAGAGTTATGTTTAAGCTCTGCTTTATTTATTTGAGTATTAATTCATACCGTTT -TTTCATCATATAATTATTTATAATGAGAATGTGGTTTTAATTTGTAATTTATATTATATACACAATTTATATATT -TCATGGTCTTTTTTTATTCACCTGAATTATAATTGTGAATTATAGGAAAGTATGTTTGATTAGATAATAATCTAC -TGGCAATATTGGATGTCTTCTATGTTTTAAATAACTAATTGGTCGGGTTAGTGCATCCGGCTTTCTTTATATTCG -CCAGAAGGATTTATTATGCAAAGGAAAACTCTATTGTCGGCCTGTATTGCATTAGCTCTGAGTGGTCAGGGTTGG -GCGGCAGATATCACAGAGGTAGAAACCACCACAGGTGAAAAGAAAAATACCAATGTGACTTGTCCGGCAGACCCA -GGAAAACTCAGTCCGGAAGAGCTTAAACGCTTACCCTCTGAATGCTCTCCTTTAGTCGAACAAAACCTGATGCCA -TGGCTTTCCACAGGCGCTGCTGCGTTAATCACGGCCTTAGCCGTAGTGGAACTAAACGACGATGATGATCATCAT -CATCGCAACAATTCTCCACTCCCACCGACACCCCCTGATGATGAATCAGACGACACTCCAGTTCCCCCAACTCCT -GGCGGAGATGAGATAATACCGGACGATCCGGATGATACGCCTACACCTCCCAAACCGGTTTCGTTTAATAATGAC -GTTATTCTCGATAAAACAGAAAAAACGTTAACTATTCGCGATTCAGTTTTTACTTATACCGAGAATGCTGACGGG -ACTATATCTCTGCAAGATAGCAATGGTCGTAAGGCAACGATTAATCTTTGGCAGATTGATGAAGCGAATAACACT -GTTGCCCTTGAAGGGGTGAGCGCAGATGGCGCAACGAAGTGGCAATATAATCACAACGGTGAGCTTGTTATTACG -GGTGATAATGCCACAGTAAACAACAATGGCAAAACCACCGTTGACGGTAAAGATTCCACCGGTACGGAAATCAAC -GGTAATAACGGGAAAGTGATTCAGGACGGCGATCTGGATGTCAGCGGCGGCGGTCACGGTATTGATATCACCGGT -GACAGCGCGACGGTGGATAACAAGGGCACCATGACCGTCACCGATCCGGAGTCCATGGGTATCCAGATCGACGGT -GACAAGGCCATCGTCAATAACGAAGGCGAGAGCACCATCACCAACGGTGGCACCGGCACCCAGATTAATGGTGAT -GACGCCACGGCAAACAACAACGGCAAAACCACCGTTGACGGCAAGGATTCCACCGGTACGGAAATCAACGGTAAT -AACGGAAAAGTTATTCAGGACGGCGATCTGGATGTCAGCGGCGGCGGTCACGGTATTGATATCACCGGCGACAGC -GCAACGGTGGATAACAAGGGCACCATGACCGTCACCGATCCGGAGTCCATCGGTATCCAGGTTGACGGCGACCAG -GCGGTTGTTAACAACGAAGGCGAGAGCGCCATCACCAACGGTGGCACCGGCACGCAGATTAACGGTGATGACGCC -ACGGCAAACAACAACGGCAAAACCACCGTTGACGGCAAGGATTCCACCGGTACGGAAATTGCTGGCAATAACGGG -AAGGTGATTCAGGACGGCGATCTGGATGTCAGCGGCGGCGGTCACGGTATTGATATCACCGGCGACAGCGCAACG -GTGGATAACAAGGGCACCATGACCGTCACCGATCCGGAGTCCATCGGTATCCAGATTGACGGCGACCAGGCCATC -GTCAATAACGAAGGCGAGAGCACTATCACCAATGGCGGCACCGGCACTCAGATCAACGGTAACGACGCCACCGCG -AATAACAGTGGAAAAACCACTGTTGATGGAAAAGATTCCACGGGTACCAAAATCGCGGGCAATATCGGCATTGTA -AATCTGGATGGTAGCCTGACTGTTACAGGCGGTGCGCATGGTGTTGAGAACATTGGTGACAACGGCACGGTTAAC -AACAAAGGAGATATTGTTGTTTCCGATACTGGATCGATTGGCGTGCTCATCAACGGTGAGGGGGCAACAGTATCC -AATACGGGTGATGTTAACGTTAGCAATGAAGCGACAGGGTTCAGCATCACAACCAACAGTGGGAAGGTTTCGCTG -GCAGGCAGTATGCAGGTTGGCGATTTCTCGACCGGGGTAGATCTTAATGGCAACAATAACAGCGTGACGCTGGCG -GCAAAAGATCTAAAAGTGGTCGGGCAGAAAGCGACGGGCATAAACGTTTCTGGCGATGCGAATACAGTGAATATC -ACTGGTAACGTTCTGGTTGATAAGGATAAAACCGCAGACAATGCGGCGGAATATTTCTTCGATCCATCCGTGGGT -ATCAACGTTTACGGCAGTGATAATAACGTGACGCTGGATGGAAAGTTAACTGTTGTATCAGACAGTGAGGTTACT -TCTCGTCAGAGTAATTTATTTGATGGCAGCGCAGAGAAAACGTCAGGTCTGGTTGTGATTGGCGATGGCAATACC -GTTAATATGAATGGTGGACTTGAACTGATTGGAGAGAAAAACGCGCTTGCAGATGGGTCGCAGGTTACTTCCTTG -CGCACAGGATATAGTTATACCAGCGTTATTGTCGTTAGTGGTGAGTCGTCGGTATATCTGAATGGAGATACGACA -ATCAGCGGAGAATTCCCTCTGGGGTTTGCCGGGGTTATTCGGGTACAGGATAAAGCTTTGCTGGAAATTGGCAGT -GGCGCTACGCTAACAATGCAGGATATTGACAGTTTTGAACATCATGGGACAAGAACCCTGGATTTGCCCCTATAT -TTCCAGACATCTGTTATCACTTAACCCATTACAAGCCCGCTGCCGCAGATATTCCCGTGGCGAGCGATAACCCAG -CGCACTATGCGGATGCCATTCGTTATAATGCTCGAACGCCTCTGCAAGGTTCTTTGCTGCCGTTAACCCGTCTGG -TTTGGGCATGATACTGATGTAGTCACGCTTTATCGTTTTCACGAAGCTCTCTGCTATTCCGTTACTCTCCGGACT -CCGCACCGCCGTGTTCTTCGGTTCAAGTCCCAACATCCGGGCGAACTGGCGTGTTTCATTAGCCCGGTAGCATGA -ACCATTATCCGTCAGCCACTCCACTGGAGACGACGGAAGATCGTTGCCGAAGCGGCGTTCCACCGCTCCCAGCAT -GACGTCCTGTACTGTTTCACTGTTGAAGCCGCCGGTAGTGACCGCCCAGTGCAGTGCCTCACGATCACAGCAGTC -CAGCGCGAACGTGACACGCAGTCTCTCTCCGTTATCACAGCAGAACTCGAACCCGTCAGAGCACCATCGCTGATT -GCTTTCTTTCACGGCCACTCTGCCTGTATGTGCCCGTTTCGATGGCGGTACAGCAGGTTTTCGCTCAAGCAACAG -CGCATTCTGGCGCATGATCCGGTAAACACGTTTGGCATTGATCGCAGGCATACCATCAAGTTCTGCCTGTCTGCG -AAGCAGCGCCCATACCCGACGATAACCATACGTTGGCAGCTCTCCGATAACATGGTGTATACGGAGAAGCACATC -CGTATCATCAGTGTGACGACTGCGGCGGCCATCCATCCAGTCATCGGTTCGTCTGAGAATGACGTGCAACTGCGC -ACGCGACACCCGGAGACAACGGCTGACTAAGCTTACTCCCCATCCCCGGGCAATAAGGGCGCGTGCGCTATCCAC -TTTTTTGCCCGTCCATATTCAACGGCTTCTTTGAGGAGTTCATTTTCCATCGTTTTCTTGCCGAGCAGGCGCTGG -AGTTCTTTAATCTGCTTCATGGCGGCAGCAAGTTCAGAGGCAGGAACAACCTGTTCTCCGGCGGCGACAGCAGTA -AGACTTCCTTCCTGGTATTGCTTACGCCAGAGAAATAACTGGCTGGCTGCTACACCATGTTGCCGGGCAACGAGG -GAGACCGTCATCCCCGGTTCAAAGCTCTGCTGAACAATTGCGATCTTTTCCTGTGTGGTACGCCGTCTGCGTTTC -TCCGGCCCTAAGACATCAATCATCTGTTCTCCAATGACTAGTCTAAAAACTAGTATTAAGACTATCACTTATTTA -AGTGATATTGGTTGTCTGGAGATTCAGGGGGCCAGTCTAAACCCCAGAACTTACTTATGCTGATTCCGGTGCGAA -AATTGTTAATAAAGGTACTTGTAGATTCAATTGGTCAACGCAACAGTTATGTGAAAACATGGGGTTGCGGAGGTT -TTTTGAATGAGACGAACATTTACAGCAGAGGAAAAAGCCTCTGTTTTTGAACTATGGAAGAACGGAACAGGCTTC -AGTGAAATAGCGAATATCCTGGGTTCAAAACCCGGAACGATCTTCACTATGTTAAGGGATACTGGCGGCATAAAA -CCCCATGAGCGTAAGCGGGCTGTAGCTCACCTGACACTGTCTGAGCGCGAGGAGATACGAGCTGGTTTGTCAGCC -AAAATGAGCATTCGTGCGATAGCTACTGCGCTGAATCGCAGTCCTTCGACGATCTCACGTGAAGTTCAGCGTAAT -CGGGGCAGACGCTATTACAAAGCTGTTGATGCTAATAACCGAGCCAACAGAATGGCGAAAAGGCCAAAACCGTGC -TTACTGGATCAAAATTTACCATTGCGAAAGCTTGTTCTGGAAAAGCTGGAGATGAAATGGTCTCCAGAGCAAATA -TCAGGATGGTTAAGGCGAACAAAACCACGTCAAAAAACGCTGCGAATATCACCTGAGACAATTTATAAAACGCTG -TACTTTCGTAGCCGTGAAGCGCTACACCACCTGAATATACAGCATCTGCGACGGTCGCATAGCCTTCGCCATGGC -AGGCGTCATACCCGCAAAGGCGAAAGAGGTACGATTAACATAGTGAACGGAACACCAATTCACGAACGTTCCCGA -AATATCGATAACAGACGCTCTCTAGGGCATTGGGAGGGCGATTTAGTCTCAGGTACAAAAAACTCTCATATAGCC -ACACTTGTAGACCGAAAATCACGTTATACGATCATCCTTAGACTCAGGGGCAAAGATTCTGTCTCAGTAAATCAG -GCTCTTACCGACAAATTCCTGAGTTTACCGTCAGAACTCAGAAAATCACTGACATGGGACAGAGGAATGGAACTG -GCCAGACATCTAGAATTTACTGTCAGCACCGGCGTTAAAGTTTACTTCTGCGATCCTCAGAGTCCTTGGCAGCGG -GGAACAAATGAGAACACAAATGGGCTAATTCGGCAGTACTTTCCTAAAAAGACATGTCTTGCCCAATATACTCAA -CATGAACTAGATCTGGTTGCTGCTCAGCTAAACAACAGACCGAGAAAGACACTGAAGTTCAAAACACCGAAAGAG -ATAATTGAAAGGGGTGTTGCATTGACAGATTGAATCTACACTGTTGAAATTCAGAATTTAGGTTTTGCTTTTGTT -ACTGGTGAAAATACAACAGGTATAAATAGTGGCACGATCTCGTTATTACAAAATGGTAAAGATCCGGCACCGTCT -CCCATTGTTTTACTGGCTACTAACGGAGGGAGCGCCACTAATGCAGGTACGATCACAGGTAAAGTGACGGAACAA -CATAGCGTATTTAACAAGTATTCAACGGGCACATCGAATTCATTTATTTTTAATAACGATGTCAGTAGCATAACA -GGGTTAGTCGCTCAATCGAATAGCACAATTATCAATACTGACAGCGGCATCATTGATTTGTATGGTCGTGGTAGT -GTCGGCATGCTTGCTATAGCAGATTCAACAGCAGAAAATCAGGGTAAAATTACACTGGATTCTATGTGGGTAGAT -GCAAATGACACTACCGCAATGCGAGATATAGCTAGCAACAGCGCCATTGACTTCGGTACAGGTGTGGGAGTTGGT -ACTGATAGTTATAGTGGTGCAGGGAAAAATGCAACAGCAATTAACCAATTGGGCGGTGTTATAACTATTTATAAC -GCCGGCGCAGGTATGGCGGCCTATGGCGCCAGCAATACAGTTATTAACCAGGGGACGATTAACCTCGAAAAAAAT -GGTAATTATGACGATAGTCTGGCAGCAAATACTCTGGTAGGGATGGCTGTTTATGAGCATGGTACTGCTATCAAC -GACCAGACGGGTGTTATCAATATCAATGTTGGTACTGGTCAGGCGTTTTATAACGATGGCACAGGAACAATTGTT -AACTATGGTACAATCTGCACTTTCGGCGTGTGCCAATCGGGGAATGAGTACAATAATACAGATGATTTCACCTCA -CTGATCTATACCGGTGGCGATACGATTACACGAAGCGGAGAAACTGTAACGCTAAATAAATCTGCTGCTGTGACT -GATAAGCTGGCTGGGAATGTTGTTAATAGCGGAACGCTTTCCGGTGATCAAATTACGGTATCAAGCGGTCTTCTG -GAAAATACCAGCGGTGGCATCATCAATAACTTAGTAAAACTTGACAAGGGTGCCGTCATTAAAAATGCCGGGGTG -ATGACGAATAACGTCGATGTTAGCGGTGGAATCCTCAATAATGCCGGAGAAATGACTGCGCAAATTACCATGAAT -GCTGGTGCTGATAGTTCGTTAGTGAACAACACCGGAACCATCAATAAAATCGTGCAGAACGCGGGGGTATTCAAT -AATAGTGGCAGTGTAACAGGGCGGATGATGTCGGCTGGCGGGGTCTTTAATAATCAAACTGACGGGGCGATTATG -AGAGGTGCTGCGCTGACAGGTACTGCAGTGGCAAATAACGAAGGAACCTGGAACCTCGGAAGTAGTAGTGAGGGT -AACAACACCGGGATGCTGGAAGTTAATAATAATTCAGCTTTCAATAACCGCGGCGAGTTTATTCTTGATAACGAC -AAGAATGCTGTGCACATCAACCAGTCCGGTACGCTTTATAATACCGGTCACATGAACATCAGTAATTCTTCCCAC -AACGGAGCCGTTAATATGTGGGGCGGAAATGGTCGTTTTATCAATGACGGAACGATTGATGTTTCTGCGAAGTCA -CTGGTAGTCAGCGCTAATAATGCCGGCGATCAGAATGCCTTCTTCTGGAACCAGGATAACGGGGTCATCAACTTC -GATCACGACAGCGCCAGTGCCGTGAAAGTCACCCACAGCAACTTTATTGCCCAGAATGACGGCATCATGAACATC -AGCGGCACCGGTGCTGTGGCTATGGAAGGTGATAAGAACGCGCAGCTGGTTAACAATGGCACCATCAACCTCGGT -ACCGCAGGCACTACTGACACGGGTATGATCGGTATGCAACTCGATGCCAACGCCACGGCGGATGCGGTAATCGAA -AACAACGGCACCATCAATATCTTCGCCAATGACTCGTTTGCATTTAGCGTACTGGGTACAGTAGGTCATGTGGTT -AACAACGGCACGGTGGTGATTGCCGATGGGGTTACGGGTTCTGGACTGATCAAGCAGGGCGACAGCATCAATGTT -GAAGGTATGAACGGTAACAACGGTAATAGCAGCGAAGTGCATTATGGCGACTATACGTTGCCGGATGTGCCGAAG -CCCAATACGGTTAGTGTAACGTCGGGAAGTGATGAGGCTGGTGGCAGCATGAACAACCTCAACGGCTATGTCGTC -GGTACCAACGTTAACGGCAGCGCCGGGAAGCTGAAGGTTAACAATGCCAGCATGAACGGCGTGGAGATTAACACG -GGCTTTACCGCTGGTACGGCAGACACCACTGTGAGTTTTGATAACGTAGTGGAAGGTAGCAACCTGACCGACGCT -GACGCCATCACCTCAACGTCCGTGGTATGGACTGCCAAAGGCAGCACCGATGCCAGCGGTAACGTTGACGTCACC -ATGAGCAAAAATGCCTACACCGATGTGGCAACAGATGCCTCGGTGAATGACATCGCGAAAGCACTGGATGCGGGT -TACACCAACAACGAACTGTTTACCAGCCTGAACGTCGGCACGACTGCTGAACTGAACAGTGCTCTGAAACAGGTC -AGCGGTAGCCAGGCGACCACGGTATTCCGCGAAGCGCGCGTGTTAAGCAACCGCTTTAGTATGCTGGCAGATGCC -GCGCCGAAAGTGGGTAACGGTCTGGCGTTCAACGTTGTCGCGAAAGGCGATCCGCGTGCCGAGTTAGGTAATAAT -ACCGAATACGACATGCTGGCATTGCGTAAAACTATCGACCTGAGCGAAAGCCAGACGATGAGTCTGGAGTACGGT -ATCGCTCGTCTCGATGGTGATGGTGCGCAGAAAGCGGGTGATAATGGCGTTACAGGCGGTTATAGCCAGTTTTTT -GGCCTGAAACATCAGATGTCGTTCGATAACGGCATGAACTGGAATAACGCCTTGCGTTACGACGTTCACAACCTT -GACAGCAGCCGCTCGATTGCATTTGGCAACACGAACAAAACGGCTGATACCGACGTGAAACAGCAGTACCTGGAG -TTCCGCAGCGAAGGGGCGAAGACTTTCGAACCGAGCGAAGGACTGAAGGTTACGCCATATGCGGGTGTAAAACTG -CGTCACACACTGGAAGGTGGCTATCAGGAGCGCAATGCCGGAGACTTTAACCTGAATATGAACAGTGGCAGCGAA -ACGGCGGTGGACAGCATCGTCGGGCTGAAACTGGACTACGCAGGTAAAGACGGCTGGAGCGCTAGCGCTACGCTG -GAAGGCGGGCCGAACCTGAGCTACGCGAAGAGCCAGCGTACGGCAAGCCTGGCAGGCGCAGGCAGTCAGCACTTT -AACGTCGATGACGGTCAGAAGGGCGGCGGCATCAATAGCCTGACAAGCGTCGGCGTGAAGTACAGCAGCAAAGAA -AGTTCGCTGAATCTGGATGCGTACAACTGGAAAGAGGATGGCATCAGCGATAAAGGCGTGATGCTGAACTTCAAG -AAAACGTTCTAATTTTTAGCATGTGATCCCTAAACCGCAACGCTGATACAGGTTGCGGTTTTTTTATTGCCGGAT -GTGGTACGTGACGCGTTTTGTTTTGTGTCTTTCAGGACAATAGAGCAACTCATCCAGTAATCTTGTTTACACCTT -CGCATTATTTATCTCTTTTCGTTTCTATACTGATTTTTCTTAATCCGTTTTATTACAGGGCAGGGTGCGATGAGC -AGCAATACATTTACTCTCGGTACAAAATCCGTTAACCGTCTTGGTTATGGCGCGATGCAACTGGCAGGTCCTGGA -GTTTTTGGCCCCCCACGAGATCGCCACGTCGCTATAACCGTGCTGCGTGAGGCGCTGGCATTGGGCGTCAATCAT -ATTGATACCAGCGACTTTTATGGTCCGCACGTCACCAATCAGATTATCCGCGAAGCGCTTTATCCTTACTCTGAC -GACCTGACAATTGTCACTAAAATTGGTGCGCGGCGTGGAGAGGACGCATCCTGGTTGCCCGCATTTTCTCCGGCA -GAGCTGCAAAAAGCGGTGCACGATAATCTACGTAATCTCGGGCTGGACGTGCTGGATGTGGTTAACCTGCGCGTT -ATGATGGGGGATGGTCATGGCCCAGCGGAAGGATCGATTGAGGCCAGCCTGACCGTGCTGGCAGAGATGCAACAA -CAAGGCCTGGTAAAACATATTGGCCTGAGCAACGTCACACCGACGCAGGTTGCAGAGGCGCGCAAGATTGCCGAA -ATTGTCTGTGTGCAAAACGAATACAACATCGCGCACCGTGCTGATGATGCAATGATTGATGCTTTGGCCCACGAT -GGCATTGCCTACGTGCCGTTCTTCCCGCTCGGGGGCTTTACACCGCTGCAATCGTCCACACTTTCCGATGTTGCT -GCGAGCCTGGGTGCAACACCAATGCAGGTGGCGCTGGCGTGGCTGTTACAGCGTTCACCGAATATTTTGCTGATC -CCAGGGACGTCTTCGGTTGCGCATTTACGGGAGAATATGGCTGCTGAAAAATTGCATCTTTCTGAGGAAGTGTTG -TCTACGTTGGATGGTATTTCGCGAGAATAACGAATATACAAAAGGGAAAGATGCATTTCCCTTTTTTTCTTTTTT -AATGGCATGGAGTGCATATGTTGAAGGCCAGGAATTGCGGCTGGATACGTTTACTGCCCCTGTTTATGCTGAGTC -TACCAGTACAGGCGGAACTTCGATGTGTTGCAAATGCAGTTGATATTGAATCATTTTTTTCTGCGGCTACCGCTG -AAGATAAACAACAAGTTGAACAAGCTATCAACAGTAGCGTGAATCTTGTCCCCTTCGGTTTATCTGCATCGAACT -GGAAAGTGCATCGTGGCGATTTAGTGGTAGAAGGTAATATAGAGAGTAATCAAAAATTGATTGTTCTTGGGAATT -TGACAGTCAAAGGTAATATTTCCACTTTCTCTCTTTCTAATCCATGGGTTATTCTCGGTAACGTGACGGCAACGA -ATATAGTTGCGGATTCACCACTGTTAATTACCGGTTCGATAAATGCAAGTGGACTGGTATTTATCGACTCATATT -ACGATAATCCGTCTACGATTAAGGGGAGTATTAATGCGCGTGGGATATTTATCAATGACATAATTGCACCTGTTG -TTGCGTCTTCGACAAATAGTGAATTCATGGTCCGTGCGAGTGACAAACATGACACTGAAAATGTCAAAAAAGCGC -TGATGATAATAAATCCTGATGCATATTATTGGGGGCTAATTAATGATGAAGATGCTCTGAAAGAAATTTTTAAGC -GAAGCAATATTCGCATGGCAGGGAATGTCTGTAATCAGATGAAAAAAGAAGCGCTGTTTCGCCCTAAGCCTTCTC -CTGAGTTAGTGCAAGAATTGCAAATGCTGGATGAAGGCAAAGTTGCTGCATTTGAAGGACGAGACATTGCGACAT -TTGATCTTGCCGTAATGCGAACTCTCCCAAGGCTTAAAGGAATTTCAGCTAACCTACGCAAACAACTTATTAATA -GCAATGATGAACAAACGATTGAAAGTATGGCGAGATATATGCCTGACAATGAGATTCTGGAGTTGACCGATCAGC -AATTGGGTTACCAGCCTGTTGTTCTGGGGTTGCTCGACCGTGAACCGCTCTCTGTCGAAATAATGACGCGAATGA -GTCGTCTACCTGATGGTGTCGGTCCGTTGAATCTTGCGCTACGTGAAAATCTCCCTCTGGATATCGTCATGACTC -TGGCGAAAAGAGATTGGGATATGATCATTCAGGAGCTTTATAAAGATGCGTGGTTATTGCCTGAATCCATTATTG -ATGGCTATATCCGCAGTGATGATTCCTCTATTCGTCAGGTCGGTGCTGGAGGACAACTCACCTACAATCAGGCAA -TGCAGTTGGCGAACGATTCATCAAACAATGTTGTCACAAGCTTAGCGTTCAAGCTGGCAGAGATGAAACACCATG -GTCAATTGTTGCGGATGACGCCACAAGAGAGTGACAAAGTTGCAGGCTATTTATACCAAAAATTCGAGAATGACG -ATGATCTAATACGTGTGTTATTTTTAGCATTGCCAGATAACTTACAGTTTAATTTTGTTAAAAGGATGGAGAAAA -AATCCCCGGCCTACTTTTGCTGTCGGGATATGCAGGTAATTCACTCTGACGCTGCTTTACAACGGTTATTGACAC -GTTTCAACGATCCTGAAGGGTGGAGTAATCTGGCGAAAAATCAGTATCTGAGCACGTCGATGAAACAAAAAATTT -GGCAACGTGCTTTATCGCATCGGAAAAATAATCCGAAAGCAGATTCAGATGCATATGAAACCAGCGCTGATATGA -TTTTGTCTGAGCTGATTAGCCACGGCGAAGTTGATGACCAGATGCTATTAAATGCCACCGCCCTGATACGTTCGG -ACGACTGGGACTTTTTAGAGAGTGCATTAATTAGTTGGGATAATTTACCCGCTGTTGTTCTCAAGGAATTACAGC -AAAACACGCCACGCAATGATATTTGGGCGAAGTTTTTTCTGAGGCAGGAAAACAGTTCCCGTGCGCAGGTTGACG -AAGCGTTACGTGTTTATTATGCACTAGACCCCGATGCGTTAGCACAACTGGATGTACTGGCAAAACAACCGGATC -GTATATGGTGGAGTACACTGGCGAAAAGCAATCTCACATTTTTCAAGTTCGGCGCACTTAACAACCGCCACACAC -CGCCTGCAGTACTGGCGGCAGAAATTGATCCCGAGTGGTGGATTGTGGCGATGAATAATCCCCGTTTTCCAGTTG -ATGTATTAAAGGCGAGGCTGAAACGTGATCCTTTGCTGGCGTTAGAGCTTGTTAACCCTGAACTGGATTTAGTCC -GCCAGCTGGCGCTTAACGGTAAGACGCGCGCAATACGGGAACAAGCGATGAGAAAACTTGATGAGTTGTATTGAT -CCACAACGTAATGTTTTTTAACTATCTGATTAATTGGGGATAATCATTCCTGACAGTGAGTCCCCAATACCTTGA -TATATTCTGAATTTTTAATGAAACGGCGTGTTGCGATATCTCCGTCAGGGGAATTGATGCACCATAGCGCAAACC -GAATTATCAAGGATTGATAATGACGCTCTACCAGATAAAACCGCTCTTTCAGTCGCTGTTAAGGCCGACGATGTT -TTGGCTTTATAAGCACCACGTTACAGCGAATCACATCACTCTTGCTGCACTGGCGCTTTCTCTTCTTACCGGATT -GCTGTTGATGTTGGCGGCACAACCCATCCTCTTTTTGCTATTGCCCATCGTGCTTTTTATCCGTATGGCGCTCAA -TGCGCTGGATGGCATGTTGGCGCGTGAGTGCAACCAGCAAACACGTCTGGGGGCGATTTTGAATGAGACTGGCGA -TGTTATTTCCGATATTGCGCTCTATTTACCATTTTTATTTTTACCGGAAAGTAACGCATCACTCGTGATACTCAT -GTTATTTTGCACCATATTGACCGAGTTTTGCGGTTTACTCGCGCAGACGATTAACGGTGTTCGCAGTTATGCCGG -TCCATTTGGCAAAAGCGATCGCGCGTTAATATTTGGTCTGTGGGGTCTGGCCGTTGCCATTTATCCACAGTGGAT -GCAGTGGAATAATCTTTTATGGAGCATTGCTTCAATTCTGCTTCTCTGGACTGCGATTAATCGTTGTCGGAGTGT -GCTTCTTATGAGCGCTGAAATATAATGCTGGAAAAATCTCTGGCAACACTTTTCGCGTTGTTAATTTTAGCAACG -CTGATAAACCGTTTTCTGCTATGGCGGTTACCGGAGAGAAAAGGGGGTGAGGTTACATTACGTATTCGTACCTGG -TGGGGCATCGTCATTTGTTTTTCAATGGTGATTTCAGGTCCACGCTGGATGACGTTGACGTTTTTTGCGCTGATA -AGTTTTCTGGCATTGAAAGAATATTGTACGCTTATATCTGTACATTTTCCGCGTTGGTTATATTGGGGTATTCCT -CTTAACTATTTGCTTATCGGTTTTAATTGCTTTGAGCTGTTTCTGTTATTTATACCTTTGGCTGGGTTTCTGATA -TTAGCCACCGGGCAAGTTTTAGTGGGTGACCCCTCTGGTTTTCTGCATACCGTGAGCGCCATTTTTTGGGGCTGG -ATAATGACCGTTTTCGCCTTGAGTCATGCCGCCTGGTTATTAATGTTGCCAACCACAAATATCCAGGGCGGGGCG -TTACTGGTGTTATTTCTTTTGGCATTAACCGAGTCAAACGATATTGCACAGTATTTATGGGGAAAATCCTGCGGC -AGAAGAAAAGTGGTCCCTAAAGTCAGCCCGGGAAAAACATTGGAAGGTCTGATGGGCGGCGTCATCACCATCATG -ATTGCGTCACTGATTATCGGACCGTTACTGACACCGCTAAATACATTACAGGCATTATTAGCGGGTTTGTTAATT -GGTATTAGTGGTTTTTGCGGCGATGTCGTGATGTCAGCCATCAAACGAGATATTGGTGTTAAAGATAGCGGAAAA -CTATTGCCAGGACATGGCGGACTCCTTGACAGGATTGACTCATTAATTTTCACCGCTCCGGTATTTTTTTATTTT -ATACGCTACTGCTGTTACTGAAGGAAAATAGAGAAAATGGAAAATTCACGCATCCCTGGGGAACATTTTTTTACC -ACCAGTGATAATACAGCGTTGTTTTATCGGCACTGGCCCGCTTTACAGCCCGGGGCGAAAAAGGTCATCGTCTTA -TTTCATCGCGGGCATGAACATTCTGGTCGTCTACAACATCTCGTTGATGAACTGGCGATGCCAGATACTGCTTTT -TATGCCTGGGATGCCCGAGGGCATGGAAAAAGTTCGGGGCCGCGTGGTTATAGCCCATCTCTTGCGCGTTCAGTG -CGGGATGTCGATGAATTTGTCCGTTTTGCTGCCAGCGACAGCCAGGTTGGACTGGAAGAGGTGGTAGTGATCGCG -CAAAGCGTCGGCGCAGTGCTGGTTGCCACATGGATTCATGATTATGCACCTGCAATTCGCGGGCTGGTGCTGGCT -TCTCCGGCCTTTAAGGTTAAATTGTATGTGCCGCTGGCACGTCCTGCGCTGGCGTTATGGCATCGTCTGCGTGGT -CTGTTTTTTATTAATTCCTATGTGAAAGGACGCTATTTGACCCACGATCGGCAACGGGGGGCGAGTTTCAATAAT -GATCCGCTGATCACACGGGCGATTGCCGTTAATATCTTGCTCGATCTCTACAAAACGTCTGAACGTATTATTAGA -GATGCGGCGGCGATTACGCTCCCCACGCAACTTCTGATATCAGGCGATGACTATGTGGTGCATCGCCAACCGCAG -ATTGATTTTTATCAGAGATTACGTAGCCCTCTGAAAGAGCTGCATCTGCTGCCAGGCTTTTATCACGACACGTTG -GGTGAAGAGAACAGGGCGCTGGCATTTGAAAAAATGCAAAGCTTTATTAGTCGTTTATATGCTAACAAATCGCAA -AAATTTGATTATCAGCATGAAGACTGCACAGGACCATCAGCGGATCGATGGCGGCTACTTTCTGGTGGACCCGTG -CCATTATCGCCGGTTGATTTAGCGTATCGCTTTATGCGAAAGGCGATGAAATTGTTCGGGACGCACTCTTCGGGC -CTGCATCTCGGAATGAGCACCGGCTTTGATTCAGGCAGTTCGCTGGATTATGTCTATCAAAATCAACCGCAAGGT -AGTAACGCATTCGGGCGTTTAGTCGACAAAATCTACCTGAACAGTGTTGGCTGGCGCGGTATTCGCCAGCGCAAA -ACCCATTTACAAATACTGATTAAACAAGCCGTTGCCGATCTCCACGCCAAAGGTTTAGCCGTCCGCGTGGTTGAC -ATTGCCGCAGGGCATGGGCGCTATGTACTGGATGCGCTGGCAAACGAGCCTGCCGTAAGCGATATTTTGTTACGT -GATTACAGCGAGTTAAATGTTGCACAGGGGCAAGAGATGATTGCTCAACGGGGAATGTCTGGGCGGGTGCGTTTT -GAACAGGGCGATGCGTTTAACCCGGAGGAACTCAGCGCGTTAACTCCGCGGCCTACGCTGGCGATTGTCTCTGGC -CTGTATGAGCTTTTTCCCGAAAATGAGCAGGTAAAAAACTCACTCGCAGGTCTTGCCAATGCCATCGAACCGGGC -GGCATTCTCATCTACACCGGGCAGCCGTGGCACCCTCAACTGGAGATGATTGCCGGGGTGTTAACCAGTCATAAA -GATGGTAAACCGTGGGTAATGCGCGTGCGTTCGCAAGGGGAGATGGATTCACTCGTGCGTGATGCCGGATTTGAT -AAATGCACACAACGGATTGATGAGTGGGGTATTTTTACGGTTTCGATGGCGGTGCGTCGTGATAACTGAACGTCG -GAACGTATTGCTACAAGGCGCTGGCTGGTTATTGTTGCTGGCCCCGTTTTTCTTCTTCACCTATGGATCTCTTAA -TCAGTTCACCGCGGTTCAGGACCTTAACAGCCATGATATCCCCAGTCAGGTATTCGGTTGGGAAACGGCGATCCC -TTTTCTTCCCTGGACTATTGTTCCTTACTGGAGTCTGGATCTTTTATATGGATTTTCGCTGTTCGTTTGTAGCAC -GACATTCGAACAGCGCCGACTTGTCCACCGGCTTATTCTGGCAACGGTAATGGCCTGCTGCGGTTTTTTGCTCTA -TCCGCTGAAGTTTAGTTTTATCCGTCCTGAAGTGAGTGGGGTGACGGGATGGCTATTTTCGCAACTTGAACTGTT -TGATCTGCCTTATAACCAGTCTCCTTCGCTGCATATTATTCTCTGCTGGCTACTTTGGCGTCACTTTCGTCAGCA -TCTGGCTGAGAGGTGGCGTAAAGTCTGCGGCGGATGGTTTTTACTCATCGCCATTTCGACGCTGACGACCTGGCA -GCATCATTTTATTGATGTCATCACAGGGCTGGCGGTAGGTATGTTGATTGACTGGATGGTGCCCGTCGACCGTCG -TTGGAATTATCAGAAACCTGATCAACGTCGAATCAAAATAGCACTGCCCTATGTCGTAGGCGCGGGCTCGTGCAT -TGTATTGATGGAGCTAATGATGATGATTCAGTTATGGTGGTCAGTCTGGTTATGTTGGCCAGTATTATCGCTACT -CATAATTGGCCGTGGGTACGGTGGGCTTGGCGCGATAACAACAGGGAAAGATAGTCAGGGGAAACTACCGCCCGC -CGTTTACTGGCTGACATTGCCCTGCCGCATCGGGATGTGGCTGTCTATGCGTTGGTTTTGTCGTCGCCTGGAGCC -GGTGAGCAAAATGACTGCTGGTGTTTATTTAGGGGCGTTTCCACGACATATTCCGGCACAGAATGCGGTTCTGGA -CGTCACCTTTGAATTCCCTCGCGGACGAGCCACAAAAGATCGACTCTATTTTTGTGTACCGATGCTGGATCTGGT -GGTTCCGGAAGAGGGGGAGCTCCGACAGGCCGTGGCGATGCTGGAAACATTACGCGAAGAGCAAGGCAGCGTTCT -GGTCCATTGTGCATTGGGATTATCGCGCAGTGCGCTGGTGGTGGCGGCATGGTTGTTATGTTACGGACACTGTAA -AACCGTTAATGAAGCGATTAGCTATATTCGAGCCAGACGCCCGCAGATTGTGCTGACAGACGAGCACAAAGCGAT -GCTGAGATTATGGGAAAACAGGTAAGTGGATTGAGATGTGGACTGAATATCTACAGTCCACATCAAGACCGTGTC -CGGTTATGCAGAAACAATGCTGTCGATGGCTGCTTTTGCGTCAGACTGTGCTTTCGCTGCCATTTCCGGACCGTA -TGCGATCCCTTCGGCGAAGACAAATTTCACATCGGTAATGCCGATAAAGCCGAGGAACGTGGACAGATACGGCGT -CACCAGGTCCGTTGGTCCATCTTTGTGGATCCCGCCGCGGCTGGTAATAACGATGGCTTTTTTACCCGTTACCAG -ACCTTCCGGACCGTTCTCGGTATAGCGGAAAGTAACGCCTGCGCGGGCAACCAGGTCAAAATAGTTTTTCAACTG -AGTCGAGATGTTGAAGTTATACATCGGTGCCGCAATAACGATAACGTCGTGGGCTTTCAGCTCGGCAATCAACTC -ATCGGAAAGTGCCAGAGCTTCCTGCTGACGCGGAGTCAGCGGCGCATCGCTCGGACGCAGAGCGCCAACCAGTTC -GCCATCCAGTACCGGAATCGGATTTGCAGCCAGGTCGCGAACGGTGATTTCATCAGCGGAGTGCTTTTCGCGCCA -TTGTTCAACAAAATAATCGGACAACTGATTAGACTGAGAGTACCCTGCCAGGATGCTGGATTTAAGAACTAATAC -CTTGCTCATGGTGTTTCCTTATAGATGTTTGAATGGGCGATGCCCCGTTGCTTGTTGACACTTTATTCACAATCC -TGCCACAGAGATAGCGCAATAAATCGAAGCCTATGTTCGAATTTATTGAACAACGCATAGAAAGCCGCGATGTGG -TACTCTATATCTATCATTTAAAAGAAAATTAATCAGGCAGACTACTGCCCACTAACGTTATGACAGAACAACAAA -AATTGACCTTTACGGCCTTGCAGCAGCGGCTGGATTCGCTGATGCTGCGTGACAGACTGCGTTTTTCTCGCCGTC -TGCACGGCGTGAAGAAGGTTAAAAATCCTGATGCACAACAGGCCATTTTCCAGGAGATGGCGAAAGAGATTGACC -AGGCGGCAGGGAAAGTCCTGCTGCGTGAAGCGGCACGACCGGAAATTACTTATCCTGACAATTTACCGGTTAGTC -AGAAAAAACAGGACATTCTCGAAGCGATTCGTGATCACCAGGTGGTGATCGTCGCCGGGGAAACGGGTTCTGGTA -AAACGACTCAGTTACCGAAAATCTGTATGGAGCTGGGGCGCGGGATTAAAGGACTGATCGGCCATACCCAGCCGC -GTCGTCTGGCGGCAAGAACAGTGGCGAACCGTATTGCGGAAGAGCTGAAAACGGAGCCGGGCGGTTGCATCGGTT -ACAAAGTGCGTTTCAGCGATCACGTAAGTGATAACACGATGGTCAAGCTGATGACCGACGGTATCCTGCTGGCGG -AGATCCAGCAAGACCGCCTGCTGATGCAGTACGACACTATCATTATTGACGAAGCGCACGAACGCAGCCTGAATA -TCGATTTTTTGCTCGGCTATTTGAAAGAGTTGCTGCCGCGGCGTCCTGACCTAAAAATCATTATCACTTCCGCGA -CTATCGACCCGGAACGCTTTTCGCGCCACTTTAATAATGCGCCGATTATTGAAGTCTCCGGTCGGACCTATCCGG -TGGAAGTGCGCTATCGCCCGATTGTTGAAGAAGCCGATGACACCGAGCGCGATCAGTTGCAGGCGATTTTTGACG -CCGTAGACGAACTGAGTCAGGAAAGCCATGGCGACATTCTGATCTTTATGAGCGGCGAGCGGGAAATCCGCGATA -CCGCCGATGCGCTGAACAAGCTGAACTTACGCCATACCGAAATCTTGCCGCTTTATGCGCGGCTTTCGAACAGCG -AACAAAATAGGGTATTCCAGTCGCACAGCGGACGGCGCATTGTGCTGGCGACCAACGTCGCGGAAACGTCGCTGA -CCGTACCGGGGATTAAATACGTTATCGACCCCGGTACAGCGCGTATCAGCCGCTACAGCTATCGCACCAAAGTGC -AGCGTTTGCCGATTGAGCCGATTTCCCAGGCGTCTGCCAATCAGCGTAAAGGCCGCTGTGGTCGTGTGTCCGAAG -GGATCTGTATTCGTCTCTATTCCGAAGACGATTTCCTCTCGCGCCCGGAGTTTACCGATCCGGAGATTCTGCGTA -CCAACCTGGCCTCGGTTATTTTGCAGATGACCGCGCTGGGGCTGGGCGATATCGCTGCGTTCCCGTTTGTCGAAG -CACCGGATAAACGCAATATCCAGGATGGCGTGCGTCTGCTCGAAGAGCTGGGCGCGATCACCACTGATGAACAGG -CCAGCGCCTATAAACTGACGCCGCTCGGTCGCCAGCTCTCGCAGTTGCCTGTCGACCCACGTCTGGCGCGTATGG -TGCTGGAAGCGCAAAAACATGGCTGCGTGCGTGAGGCGATGATTATCACGTCCGCGCTCTCCATTCAGGATCCGC -GCGAACGTCCGATGGACAAACAGCAGGCATCGGACGAAAAACATCGTCGCTTCCACGACAAAGAGTCTGACTTTC -TCGCGTTTGTGAATCTGTGGAATTATCTTGGCGAGCAGCAAAAGGCGCTTTCTTCCAACGCCTTCCGTCGCCTGT -GTCGTACCGATTATCTCAACTATCTGCGCGTGCGCGAATGGCAGGATATCTACACCCAGTTGCGTCAGGTGGTGA -AAGAACTTGGCATTCCGGTTAACAGCGAACCGGCGGAGTATCGCGAAATTCACATTGCGTTGCTGACCGGTTTAC -TTTCCCATATCGGCATGAAAGATGCCGATAAACAAGAATATACCGGCGCACGTAACGCGCGTTTCTCCATCTTCC -CCGGTTCTGGTTTATTCAAAAAACCGCCTAAATGGGTAATGGTGGCGGAACTGGTAGAAACCAGCCGCCTGTGGG -GGCGCATTGCTGCGCGTATCGACCCGGAATGGGTGGAGCCAGTTGCTCAGCATTTGATTAAACGCACCTACAGCG -AACCGCACTGGGAACGGGCGCAGGGCGCGGTGATGGCAACGGAAAAAGTCACTGTTTATGGTTTGCCGATTGTTG -CCGCGCGCAAGGTCAACTACAGCCAGATCGATCCGGCGTTATGTCGTGAACTCTTTATTCGCCACGCGCTGGTGG -AAGGTGACTGGCAGACGCGTCACGCATTCTTCCGTGAAAACCTGAAACTACGGGCGGAAGTAGAAGAGCTGGAAC -ACAAATCACGTCGCCGCGATATTCTGGTTGATGACGAAACGTTGTTTGAGTTCTACGACCAGCGCATCAGCCACG -ATGTAATCTCCGCTCGCCACTTCGACAGCTGGTGGAAAAAAGTCAGCCGCGAAACGCCTGATTTGCTCAACTTTG -AAAAAAGCATGTTGATCAAAGAGGGCGCAGAAAAAATCAGCAAGCTGGATTACCCGAACTTCTGGCATCAGGGCA -ATCTCAAGCTGCGTTTGAGCTATCAGTTTGAGCCCGGCGCGGATGCTGACGGTGTGACCGTACATATTCCGCTGC -CGTTACTTAACCAGGTTGAGGAAAGCGGGTTTGAATGGCAGATCCCCGGTCTGCGCCGCGAACTGGTGATTGCTC -TGATTAAATCGTTGCCGAAACCGGTACGCCGTAATTTTGTACCCGCGCCAAACTATGCCGAAGCGTTTTTAGGCC -GCGTCAAACCGCTGGAGTTACCGTTGCTCGACAGCCTTGAGCGCGAGTTACGGCGGATGACCGGCGTTACCGTTG -ACCGCGAAGACTGGCACTGGGATCAGGTGCCCGATCACCTGAAAATTACCTTCCGCGTGGTGGATGACAAAAACA -AGAAGCTAAAAGAAGGGCGCTCGCTACAAGATCTGAAAGATGCGCTGAAAGGCAAAGTGCAGGAAACGCTATCTG -CGGTGGCGGATGACGGTATCGAGCAGAGCGGCTTACATATCTGGAGTTTTGGTCAGCTGCCGGAAAGCTACGAAC -AGAAGCGTGGCAACTACAAAGTGAAGGCGTGGCCGGCGCTGGTGGATGAGCGCGACAGTGTGGCGATCAAACTGT -TTGATAACCCGCTGGAGCAAAAGCAGGCAATGTGGAACGGTCTTCGCCGTCTACTGCTGCTGAATATTCCATCGC -CAATCAAATATTTACATGAAAAGTTACCGAACAAAGCCAAGCTGGGACTGTACTTTAACCCGTATGGCAAAGTGC -TGGAGCTGATCGACGACTGTATCTCCTGCGGTGTGGATAAATTGATCGACGCCAATGGTGGCCCGGTCTGGACGG -AAGAAGGCTTTGCTGCGCTGCATGAAAAAGTGCGTGCCGAACTGAACGACACGGTGGTGGATATTGCGAAGCAGG -TCGAGCAAATCCTTACGGCAGTGTTCAATATCAACAAACGTCTGAAAGGGCGGGTGGATATGACCATGGCGCTGG -GGCTTTCTGACATTAAAGCGCAGATGGGCGGGTTGGTATATCGCGGTTTTGTCACTGGTAACGGCTTCAAACGGC -TGGGCGACACGCTGCGATATTTGCAGGCGATTGAAAAACGGCTGGAAAAACTGGCGGTTGATCCACATCGCGACC -GTGCGCAGATGCTGAAAGTCGAAAACGTCCAGCAGGCGTGGCAGCAATGGATCAACAAACTGCCGCCCGCACGTC -GTGAGGATGAAGACGTGAAAGAGATCCGTTGGATGATAGAAGAGTTGCGCGTTAGTTACTTCGCTCAACAACTTG -GTACGCCTTATCCGATTTCAGATAAGCGTATTTTGCAGGCGATGGAGCAGATTAGCGGTTAACCCTGCTATTTGC -CTGATAAAGAAAAAACCCGGTAAGCATTTAGCGCCGGGTTTTTTATTAATTCTAAAACGGTAAGGGTAAAAATTC -AGGAATTCAGAAAAATACAATTCTCTGCTGCAAGATGAATAATGTTTATCTACAGCATTTCCTTAAAAGATATGT -CAGGCTTGCGGAGTGGCGGTTAAGGACATACGATTTCCTCCTTTCAGAGTGCTCCGCTTCTCACTATTATCTCAC -GCAGTATTCTTAAGGGAACGATAAGGAGGAACCATGAACATTACCCCGTTTCCGACGCTTTCGCCGGCAACTATA -GATGCCATAAATGTTATCGGACAGTGGCTGGCGCAGGATGATTTCTCCGGTGAGGTGCCGTATCAGGCCGATTGC -GTGATCCTTGCAGGCAATGCGGTTATGCCGACTATCGATGCGGCATGTAAGATTGCCCGCGATCAGCAAATTCCT -TTACTGATTAGTGGTGGTATCGGTCACTCGACAACTTTTTTGTATAGCGCCATCGCACAGCATCCGCACTACAAC -ACTATCCGCACCACTGGCAGAGCAGAAGCGACCATCCTGGCGGATATCGCTCATCAGTTCTGGCACATTCCGCAT -GAAAAAATCTGGATTGAAGACCAGTCAACAAACTGCGGTGAAAACGCACGCTTTAGCATCGCGCTATTGAATCAG -GCCGTAGAACGAGTTCATACGGCTATCGTTGTTCAGGACCCCACCATGCAGCGGCGCACGATGGCGACGTTCCGC -CGTATGACTGGGGACAATCCCGATGCACCACGCTGGTTAAGTTATCCCGGATTCGTTCCTCAGTTAGGAAATAAC -GCAGACAGTGTAATCTTTATTAATCAGTTACAAGGATTATGGCCAGTTGAGCGTTATCTCTCACTACTCACTGGC -GAGCTGCCGCGTTTACGCGATGATAGCGATGGCTACGGTCCCCGCGGGCGAGATTTTATCGTTCACGTTGATTTT -CCGGCAGAAGTCATCCATGCATGGCAAACGCTGAAACATGATGCGGTGCTCATCGAGGCGATGGAAAGTCGCTCG -TTACGTTAAAAATTGCCCGTTTGTGAACCACTTGTTTGCAAACGGGCATGACTCCTGACTTTTATTTCTGCCTTT -TATTCCTTTTACACTTGTTTTTATGAAGCCCTTCACAGAATTGTCCTTTCACGATTCCGTCTCTCTGATGATTGA -TGTTAATTAACAATGTATTCACCGAAAACAAACATATAAATCACAGGAGTCGCCCATGTCAGTACCCGTTCAACA -TCCTATGTATATCGATGGACAGTTTGTTACCTGGCGTGGAGACGCATGGATTGATGTGGTAAACCCTGCTACAGA -GGCTGTCATTTCCCGCATACCCGATGGTCAGGCCGAGGATGCCCGTAAGGCAATCGATGCAGCAGAACGTGCACA -ACCAGAATGGGAAGCGTTGCCTGCTATTGAACGCGCCAGTTGGTTGCGCAAAATCTCCGCCGGGATCCGCGAACG -CGCCAGTGAAATCAGTGCGCTGATTGTTGAAGAAGGGGGCAAGATCCAGCAGCTGGCTGAAGTCGAAGTGGCTTT -TACTGCCGACTATATCGATTACATGGCGGAGTGGGCACGGCGTTACGAGGGCGAGATTATTCAAAGCGATCGTCC -AGGAGAAAATATTCTTTTGTTTAAACGTGCGCTTGGTGTGACTACCGGCATTCTGCCGTGGAACTTCCCGTTCTT -CCTCATTGCCCGCAAAATGGCTCCCGCTCTTTTGACCGGTAATACCATCGTCATTAAACCTAGTGAATTTACGCC -AAACAATGCGATTGCATTCGCCAAAATCGTCGATGAAATAGGCCTTCCGCGCGGCGTGTTTAACCTTGTACTGGG -GCGTGGTGAAACCGTTGGGCAAGAACTGGCGGGTAACCCAAAGGTCGCAATGGTCAGTATGACAGGCAGCGTCTC -TGCAGGTGAGAAGATCATGGCGACTGCGGCGAAAAACATCACCAAAGTGTGTCTGGAATTGGGGGGTAAAGCACC -AGCTATCGTAATGGACGATGCCGATCTTGAACTGGCAGTCAAAGCCATCGTTGATTCACGCGTCATTAATAGTGG -GCAAGTGTGTAACTGTGCAGAACGTGTTTATGTACAGAAAGGCATTTATGATCAGTTCGTCAATCGGCTGGGTGA -AGCGATGCAGGCGGTTCAATTTGGTAACCCCGCTGAACGCAACGACATTGCGATGGGGCCGTTGATTAACGCCGC -GGCGCTGGAAAGGGTCGAGCAAAAAGTGGCGCGCGCAGTAGAAGAAGGGGCGAGAGTGGCGTTCGGTGGCAAAGC -GGTAGAGGGGAAAGGATATTATTATCCGCCGACATTGCTGCTGGATGTTCGCCAGGAAATGTCGATTATGCATGA -GGAAACCTTTGGCCCGGTGCTGCCAGTTGTCGCATTTGACACGCTGGAAGATGCTATCTCAATGGCTAATGACAG -TGATTACGGCCTGACCTCATCAATCTATACCCAAAATCTGAACGTCGCGATGAAAGCCATTAAAGGGCTGAAGTT -TGGTGAAACTTACATCAACCGTGAAAACTTCGAAGCTATGCAAGGCTTCCACGCCGGATGGCGTAAATCCGGTAT -TGGCGGCGCAGATGGTAAACATGGCTTGCATGAATATCTGCAGACCCAGGTGGTTTATTTACAGTCTTAATGAGT -GAAAGAGGCGGAGGTTTTTTCCTCCGCCTGTGCGCGTCAGAGTTTAGCGAATTTTTCGAGGGTGCGAATAAGCTG -TGTGACGAAGCCATATTCGTTATCGTACCAGGCGACCGTTTTCACCAGTTGTAAATCGCCCACGGCGGTAATTTC -CGTTTGCGTGGCATCAAACACCGAACCGAAATGGCTGCCAATGATATCGGAAGAGACTATTTCTTCATCGGTATA -ACCAAATGACTCGTTATTGGTGGTTGCTTGTTTAAGTGCGTTATTCACCTCTTCGGCAGTCACTTTTTTCCGAGA -ATCGATACCAGTTCAGTGACCGAACCTGTTTTCACCGGCACGCGTTGCGCATGACCTTTCAGTTTGCCGCTCAGT -TCCGGGATCACCAGACCAATGGCTTTTGCCGCCCCCGTAGTGTGGGGAATGATATTTTCTGCCGCTGCGCGTGAA -GCACGTAAATCTTTACCACGCGGGCCATCCACCAGTGACTGGGTGCCAGTATAGGCATGAATGGTCGTCATCGTG -CCGACTTCTATCCCGAAACTGTCATGCAAGGCTTTGGCCATCGGCGCAAGACAGTTAGTGGTGCATGACGCCACG -GAAACAATGGTGTCGTTGCCATCCAGAGTGTCGTCATTGACGTTATAAACGATAGTTTTCATTTCACCGGCAGGG -GCGGAAATCAACACCTTCTTCGCACCAGCATCAAGATGCGCCTGCGATTTCTCGGCGGAGGTATAAAAGCCAGTA -CATTCGACAATGATTTCTGCACCTTTCGCTTTCCACGGAATATTTTTAGCCTCTTTTTCGGCGTAAACCGCGATA -CTTTTCCCATCAACGATAAGTGAATCTTCCGTAAAATCAACGCTCCAGGGGAATGGTCCGTAGTTTGAATCATGT -TTCAGCAGGTAGGCGAGAATTTATGGGGAAGTGAGATCATTAATAGCGACAACGTCTATGTTGCTTTTGACTTCA -AGTAATCGACCCAACACCAGTCGACCGATACGACCAAAACCGTTAATACCAACTTTACTCATGGTTTTCTCCTGT -CAGGAACGTTCGGATGAAAATTGATCCTTTCCAAGCTTAGACCAGGATGGCGGGATGGGCAATCTCCATTCTCAC -AGTGAAACGTAACGTACTGAAAACGGGTGAACAATATTTAATGAAATTTTGAGAAAAGCCCGTTATGTTAACGGA -AAATTATGTTAAAGCAGGAAATGTTATGGAAAATAAATATTCAAGGTTACAAATCAGCATTCACTGGCTGGTCTT -TTTACTGGTTATCGCAGCGTATTGCGCAATGGAGTTTCGTGGTTTCTTCCCACGTAGCGATCGGCCACTCATCAA -CATGATTCATGTTTCCTGTGGCATCTCAATTCTCGTGCTGATGGTCGTTCGTCTTTTGTTAAGGCTGAAATACCC -AACCCCGCCGATTATACCTAAGCCAAAACCGATGATGACGGGACTGGCGCATTTGGGACATTTGGTGATTTATCT -CCTGTTTATTGCGCTGCCAGTGATTGGTTTGGTGATGATGTATAACCGGGGCAACCCGTGGTTTGCGTTTGGTTT -GACGATGCCTTACGCTTCAGAGGCCAATTTCGAACGGGTAGATAGCTTAAAGTCGTGGCATGAAACGCTGGCGAA -TCTGGGATATTTTGTCATCGGGTTGCACGCTGCGGCTGCACTGGCACACCACTATTTCTGGAAGGACAACACACT -TCTACGCATGATGCCGCGTAAACGTTCCTGAAGGATATTTAAAGAAAACGCCTGTACTAAAACCGACCCGTGGTA -CAGGCGAAGAATACGGGTCTACATCGGAAGCGCCTATTATATTTATTTGTATGATAAATAAAACCATAATCCTTG -CCCATACGTCCATCTGGCTTATTTTTAATCAATTCACCCGATCTTTGATCTCATCAACGGTATCAAAATAAACCA -GCGTATAACGTTCAAATCGAACATAAGATTCGATAAACCATGGAGGTTATATGAAAAAACTGGCACTTATTTTGT -TTATGGGAACGCTTGTTTCCTTTTATGCCGATGCCGGGCGCAAACCCTGTTCTGGTTCGAAAGGGGGGATCTCAC -ACTGTACGGCAGGCGGCAAATTTGTCTGTAATGATGGTTCTATTAGTGCATCGAAAAAAACATGCACTAACTGAA -GTGTAAAAGGGGTGCCATGAGAAAATGAATCTGCTAGTCAAATGCGCGGGGAAAATCCCCGCGCTTGCCCTTACC -TGGACGTGCAGGCCATGAGCGCAGCAACCTCCTTATCACCGTCCCGGAACCGCAGTTCGTAGAGCGTTTGTCGGG -TCAGGAGTGTGAATGTCAGAATCGTAATGCAGATAATGAGCAGACACACCACCAGAGGGTTGTGCTTCATAGCCT -TTCTCCTTGCCGGATGGCGGGTAAGAGGCTAAGATCTGAATTGCTAGGTTCATTCGTTGGCCTCGGTTGATAGAA -ATATCGGTCGGGGCCTTCGTCTTTCTGATTCCCGGTTAGCCTGAAAACAGAAAGTCTCAGGCACCCGCAGGCATC -CTATGAGGTTTCCTTAGGGACGAAAATAATCACTTCACGAAATTGCGTGCTGTTTTCCAGAATTTTTCGTCATTC -GGGTTAGCCAGTTTAGCCATTCGTTACTCTCTTCATTCCAATAGCATTAATTTTCTATGCAATAATTGTTGTAAA -AATGTGACGCAAAGAGGTTTTTGGTCATAAGTAATTACCGTCAAGTGCCGATGACTTTCTATCAGGAGTAAACCT -GGACGAGAGACAACGGTAATGAATACAACTCCCTCACAGCGATTAGGTTTTTTGCATCACATCAGGTTGGTTCCG -TTATTTGCCTGCATTCTAGGCGGTATCTTAGTTCTATTCGCATTAAGTTCAGCCCTGGCTGGCTATTTCCTCTGG -CAGGCCGATCGCGATCAGCGTGATGTTACTGCGGAGATTGAGATTCGGACCGGGTTAGCGAACAGTTCAGATTTT -TTGCGTTCAGCCCGGATCAATATGATTCAGGCCGGGGCTGCGAGTCGTATTGCGGAAATGGAAGCAATGAAGCGA -AATATTGCGCAAGCCGAATCGGAGATTAAACAGTCGCAGCAAGGTTATCGTGCTTATCAGAATCGACCGGTGAAA -ACACCTGCTGATGAAGCCCTCGACACTGAATTAAATCAACGCTTTCAGGCTTATATCACGGGTATGCAACCTATG -TTGAAATATGCCAAAAATGGCATGTTTGAAGCGATTATCAATCATGAAAGTGAGCAGATCCGACCGCTGGATAAT -GCTTATACCGATATTTTGAACAAAGCCGTTAAGATACGTAGCACCAGAGCCAACCAACTGGCGGAACTGGCCCAT -CAGCGCACCCGCCTGGGTGGGATGTTCATGATTGGCGCGTTTGTGCTTGCCCTGGTCATGACGCTGATAACATTT -ATGGTGCTACGTCGGATCGTCATTCGTCCACTGCAACATGCCGCACAACGGATTGAAAAAATCGCCAGTGGCGAT -CTGACGATGAATGATGAACCGGCGGGTCGTAATGAAATCGGTCGCTTAAGTCGTCATTTACAGCAAATGCAGCAT -TCACTGGGGATGACAGTAGGGACTGTTCGACAGGGCGCGGAAGAGATTTATCGTGGCACCAGCGAAATTTCAGCT -GGCAATGCGGACCTGTCATCTCGCACCGAAGAACAAGCGGCGGCTATCGAACAAACTGCCGCCAGCATGGAGCAA -CTCACTGCGACGGTGAAACAGAATGCGGATAACGCGCATCATGCCAGCAAACTGGCGCAAGAGGCTTCTATTAAA -GCCAGCGATGGCGGGCAGACGGTTTCCGGTGTAGTAAAAACGATGGGCGCTATCTCCACGAGTTCGAAGAAAATT -TCTGAGATCACCGCCGTCATCAACAGTATTGCTTTCCAGACGAATATTCTGGCACTGAATGCTGCCGTTGAAGCC -GCGCGAGCGGGTGAGCAAGGGCGTGGATTTGCCGTTGTCGCCAGCGAAGTACGGACACTCGCAAGTCGCAGCGCT -CAGGCGGCGAAAGAGATTGAAGGCTTGATCAGTGAATCAGTCAGGTTAATTGACCTGGGGTCGGATGAGGTGGCA -ACGGCCGGGAAAACCATGAGCACTATTGTTGATGCCGTCGCGAGTGTCACACATATCATGCAGGAAATCGCCGCC -GCCTCGGATGAACAAAGTAGAGGCATAACGCAGGTTAGCCAGGCGATTTCTGAAATGGATAAGGTGACGCAACAG -AATGCTTCTCTGGTAGAAGAGGCCTCAGCGGCGGCGGTGTCCCTTGAAGAACAGGCGGCACGATTAACTGAGGCG -GTGGATGTATTCCGTCTGCACAAACATTCTGTGTCGGCAGAACCTCGCGGAGCGGGTGAACCAGTTAGTTTCGCT -ACGGTGTGAAAATGTTCAAGGAGGGATCGACAGATCCCTTCACCTTTCAGAACGGCATTGATTTTCGAATAGCGT -TAATCATCAACTGGCAACCAGAAGAGAACGTCGCATCTACGCGGGTCAGTATTCCAATCGGTTCGCCTGCACCAT -GTCCCGGAACAGGCAGGGCCACCAGCGTGGCATGACGCAGGTCGTCTTTTACAGCGCCAGAAGGGACAAACCACA -CGTAATCGTATTCAACCGTAAGTTGACGAGATAGCGAAGCAGACAGCGTTTCGATACAACCCGAAGGAATTTTAC -AGCCCTGGCTCTGCACTAATGCATCTGAATGCTGGCGTGGCGCAGTGCCTTCTGGTGATACAACGACCGGCCATT -CCAGCACCCGGCTTAGCGTTACGTTCTCCTGAAGTAGCGGGTGATTAGGGCGGACAACCAGCTTCAACGATTCAA -GAAACAGCAGTTCGTAATTAAGCCCGGTCATCAGTTCAGGATCTGACATCCGACCAATGCCGATATCGATTTCCC -CGGTTTTTAAACCCGCCAGAATCATAGGGTTACTCATTGTCGCAACTTGCAAGGTCGTCTCTTTTTGTTGCTGAT -GAAACTGACCTATAACCGAAGGTAATATCCCCAGTGCCGCAGTAGGTAGTGCACCAACCCTGACGACATCATTAT -TAAGACCTTCTTTACGATGAAGCGACCGTCCGGCAGTGTTGATGGCGTCAAGAACTCTGACTGCATGCGTTAAAA -ATTGTTCGCCGGGTAAGGTAAGTTGCGCCCCCTGACGACCACGCTCAAACAAGCGAGCGCCAGTCAGCTGCTCCA -GTTCATTCAATGTCTTAGAGAGCGCAGGTTGACTCAAATTAAGGGTTTCAGCCGCGCGCCCCAAAGTTCCTTGTT -GTGCGACAGCTACGAATGTATGAAGGTGGCGCAAACGGATGCGCTGACTAAACAGACTATTTTTTTCCATAAGCG -ATGTTAAAAACGAAGCGGTGTCGCTGACAAGTGAAGTTGTTTGATTATGATAACTTGATTGCAAAATATTATTAA -CAATTAAAGCAATTATGTTACAGCAAAATGGATAATATTGATGTTTTCGCGGCGAGATCACAGTTTGTAAATTCT -TCCCGCAAGAGTGAATGCGGTTACCTACACTCCAGATTACTGACCACTGGAGGCAGACACTATGGCGAACAGCAT -CACGGCGGATGAGATTCGGGAACAGTTTTCGCAGGCAATGTCAGCCATGTACCAGCAAGAAGTTCCGCAATATGG -CACGCTGCTGGAACTGGTAGCTGATGTGAATCTGGCTGTGCTGGAAAACAATCCTCAACTGCACGAAAAAATGGT -AAATGCAGACGAGCTGGCGCGACTGAATGTTGAACGTCATGGGGCGATTCGCGTTGGGACTGCACAAGAGCTTGC -TACTCTTCGGCGGATGTTTGCCATTATGGGGATGTACCCGGTGAGCTATTACGATCTCTCGCAGGCAGGGGTGCC -GGTACATTCGACAGCATTTCGGCCCATTGATGATGCTTCTCTGGCGCGTAATCCCTTCCGCGTTTTTACCTCCTT -ACTCCGCCTTGAGCTTATCGAGAACGAAATTTTGCGCCAGAAAGCGGCGGAGATTCTGCGTCAGCGCGATATCTT -CACCCCACGTTGTCGACAACTGTTAGAGGAATATGAGCAGCAGGGCGGTTTTAACGAAACACAGGCACAGGAGTT -TGTGCAGGAAGCCCTGGAAACGTTTCGCTGGCACCAGTCAGCAACGGTAGATGAAGAAACCTATCGCGCATTGCA -CAACGAACATCGGTTGATTGCTGATGTGGTCTGTTTTCCTGGATGCCATATCAACCACCTGACGCCACGTACGCT -GGATATTGACCGGGTGCAGTCGATGATGCCTGAATGCGGAATTGAACCCAAAATTCTCATCGAGGGGCCGCCGCG -CCGCGAGGTACCGATTTTACTACGCCAGACCAGCTTTAAAGCACTGGAAGAGACGGTGTTGTTTGCGGGGCAGAA -ACAGGGCACGCATACCGCGCGCTTTGGTGAAATTGAGCAGCGTGGCGTGGCATTAACGCCGAAAGGGCGACAACT -GTATGATGATCTTCTGCGTAACGCTGGAACCGGGCAGGATAATCTCACTCACCAAATGCATTTACAGGAAACCTT -CCGCACTTTTCCTGACAGTGAGTTTTTAATGCGTCAGCAAGGGTTGGCATGGTTCCGGTACCGTCTGACGCCTTC -GGGTGAGGCGCATCGTCAGGCGATTCATCCTGGAGACGATCCACAGCCCTTAATTGAACGTGGTTGGGTAGTGGC -GCAACCCATCACCTATGAAGATTTCTTGCCCGTTAGCGCGGCGGGGATCTTCCAGTCAAATCTGGGTAATGAAAC -GCAGACACGCAGTCACGGTAATGCCAGTCGCGAAGCATTTGAGCAGGCGTTGGGTTGTCCGGTTTTGGATGAGTT -CCAGCTTTACCAGGAAGCGGAAGAACGCAGTAAACGTCGCTGTGGTTTGCTTTAAAATCTGACCATCCGCCTTTG -CAAAAATTTGCCTGATTTTACAAACGAATCAGGCTCATCCCATCGACATAAAAAAAATGCCGATTTATGCATATT -CTCTCAGTTCAACAATTGGATTATTAATAAATATTGTCTAGAGTGAGCGGTCATAAATAAGCACTTTCTTGCCGC -TGAAAACGACCAGCGCGGGACCATTCACAACACCAGAAGGACTCACTTTCAGGTATGGATCGTAGACGATTTATT -AAAGGTTCAATGGCTATGGCCGCCGTGTGCGGTACCAGCGGCATTGCTTCTCTTTTTTCTCAGGCGGCATTCGCG -GCAGATTCTGATATTGCCGACGGGCAAACCCAGCGTTTTGACTTCTCCATTCTACAGTCAATGGCGCACGACTTA -GCGCAAACAGCGTGGCGTGGTGCGCCTCGTCCGTTACCTGACACGCTGGCGACAATGACGCCGCAGGCTTATAAC -AGTATTCAATACGACGCCGAAAAATCGCTCTGGCATAACGTTGAGAACCGTCAACTGGACGCTCAGTTCTTCCAT -ATGGGAATGGGATTCCGTCGCCGCGTTCGTATGTTTTCTGTAGATCCAGCAACACATCTGGCGCGTGAAATTCAC -TTTCGCCCGGAGTTGTTCAAATACAACGATGCAGGTGTTGATACAAAACAATTAGAAGGGCAAAGCGATCTCGGC -TTTGCCGGTTTTCGCGTGTTTAAAGCCCCCGAACTGGCGCGCCGTGATGTAGTATCATTTCTCGGCGCGAGTTAT -TTCCGCGCCGTTGATGATACATATCAATACGGTTTGTCGGCCCGCGGCCTGGCGATCGACACTTACACCGACAGT -AAAGAAGAGTTCCCCGACTTTACCGCCTTCTGGTTTGATACGGTAAAACCGGGGGCAACTACCTTTACCGTTTAT -GCGTTGCTCGATAGCGCCAGCATTACTGGTGCCTATAAGTTCACTATCCATTGTGAGAAAAGTCAGGTGATTATG -GATGTGGAAAATCACCTGTATGCGCGCAAAGACATTAAACAGCTGGGCATTGCGCCGATGACCAGTATGTTCAGC -TGCGGTACTAATGAACGTCGGATGTGCGATACAATTCATCCGCAAATTCATGACTCTGATCGTCTGTCCATGTGG -CGGGGCAACGGCGAGTGGATTTGCCGTCCGCTGAATAATCCGCAAAAATTGCAGTTCAATGCTTACACCGACAAC -AACCCGAAAGGGTTTGGTTTATTGCAACTGGATCGTGACTTCTCCCATTATCAGGACATTATGGGCTGGTATAAC -AAACGCCCAAGTCTGTGGGTGGAACCGCGTAACAAGTGGGGTAAGGGCACCATCGGCCTGATGGAAATCCCAACA -ACGGGCGAAACGCTGGATAACATTGTCTGCTTCTGGCAGCCAGAAAAAGCTGTAAAAGCAGGTGATGAGTTTGCA -TTCCAGTATCGTCTGTACTGGAGTGCGCAACCGCCTGTTCATTGCCCATTAGCGCGCGTTATGGCGACGCGTACC -GGCATGGGCGGTTTCTCGGAAGGTTGGGCGCCAGGTGAACACTATCCCGAAAAATGGGCGCGTCGTTTTGCCGTC -GATTTCGTTGGTGGTGATCTGAAAGCTGCCGCGCCAAAAGGCATTGAGCCGGTGATTACGCTTTCCAGTGGGGAA -GCGAAGCAAATCGAAATTCTCTATATTGAACCCATCGATGGTTATCGTATTCAGTTTGACTGGTATCCGACTTCG -GACTCCACTGATCCGGTCGATATGCGGATGTATCTACGTTGTCAGGGGGACGCTATCAGTGAAACATGGCTGTAT -CAGTATTTCCCGCCAGCGCCGGATAAACGTCAGTATGTTGACGACCGCGTGATGAGTTAATCGTTTTTTCTTCGG -CACCTTCTTCGGGAGGTGCCGTCTGGTTAAACACGATCCCGCTCGCATTTTTCCCTAAGTTAAATGAGTAATCTG -ATGGTGTGTATTTCAGATACACCTTGTCAGCCACTAACAGGGAGTGCGTATGTTTCCAGAATACCGAGATTTAAT -ATCCCGTCTGAAAAACGAAAATCCTCGCTTTATGTCCTTGTTCGATAAACACAATAAACTTGATCATGAAATTGC -CAGAAAGGAAGGTTCCGACGGTCGAGGGTACAATGCGGAAGTGGTCCGCATGAAAAAACAAAAGCTACAGTTAAA -AGATGAGATGCTCAAAATCCTGCAGCAGGAGAGCGTCAAAGAGGTGTAAACTTTCCTAAGCCGCCAGCCAGGCGG -CTTTTTTAACAACTGCATGGATTGACTGGAGATAAGATGACTGAAACGATAAAAGTAAGCGAATCACTTGAATTA -CATGCTGTTGCAGAAAATCACGTCAAACCTCTTTATCAGTTAATCTGTAAAAATAAAACCTGGTTACAGCAGTCG -CTAAACTGGCCGCAGTTTGTTCAAAGTGAAGAGGACACGCGAAAAACGGTGCAGGGTAATGTGATGTTGCATCAA -CGCGGCTATGCCAAAATGTTCATGATTTTCAAAGAAGATGAACTTATCGGCGTTATCTCGTTTAATCGTATTGAA -CCACTGAATAAAACCGCTGAAATAGGCTACTGGCTGGACGAATCTCATCAGGGGCAGGGGATCATTTCTCAGGCG -CTGCAGGCATTGATTCATCATTACGCCCAGTCTGGTGAACTTAGACGCTTCGTGATCAAATGTCGGGTGGACAAT -CCGCAAAGCAACCAGGTCGCTTTGCGCAATGGTTTTATCCTTGAAGGTTGCCTGAAACAGGCTGAGTTCCTGAAT -GATGCCTATGATGATGTGAACTTATACGCGCGTATTATCGATTCACAATAACCCTGCCAGCGGCGTTCGCGTAAT -GCGCTCCTCGCCGTTAATGACTTTTGGACCACGGACATGAACCGTGTCGCCATCAAAGGCTTCAACGACGGCGTG -GTCGGTTAACTCCACATGGTTTTCAATTATCACCGCACCTGTAATACGGCTCTCACCTTGTATGACAACGTGCTC -GTCGAGCAGAATCGGTCCGCCACGTACCACGGCATTTCCGCCAACCAAGACATGATGTTTTAACACACAATTACC -TTCCACAATGGCATATTCCGCCACCTGCGAACTGTAATGAATCGTCGGAATGGCATCTTCTTCTATGCCAGCTTT -CACCTGCGCGTGACCGTAGACTTTAGCGCAATCGCATAGCCAGACATTGTTCTCTTCATTACCTTCAATACTGGC -AAAATCAAAAACTTCGGCGCGATGTTCAATAAAAGCATACCGGACGACGGCATCGCCATAAATTTGTGCCTGGTG -GACAATACGCGAGGCGCTAACCCTTGCGCGATCATAAATTTGGAGCAGGAGTTGATGGTCGGGCGTTAAGCCTTG -TGCGGCGACGATCATAGAATGTTGATCAATTAAGGCGTGACCAAATATTCTACATTGCCCGTAAACTAATGAGTC -ATGAATGGTGACGCTGTCACTTATATATGCACCCTGGCTGATTTCACTATTATCGATCCAGACGTTATCCGTTGC -GTAAACCTCTCCCCACAGCACGCTGGTGCCGGTGATACGCGTATTACCGGAAATCACCGCTCCGCCGAACGCAAT -AGCATTCTGGTCGTAAATCCAGCAATTTCCTTCTTGTGCTAACACCGTTTCGCGATCGATCCAGCCGCCAGCGGT -TCCTGCTATCACATCGTTAAAATCGCTAATGGCGATAATCTGCCGTAATAACACATTTTTTTTAGTGCCATCTTC -CTGATAACTAAAGGCTCGCTGTTCTTCACTTAGACGATATTTGCGCATAGCGTTTTCCCACAGGTGACTTACTAT -AACCGTAGCAAATTCTGCGGCTCTGGCTATGCTCGAGAAAATTCCATAAAATGCATTTCAAATATACTTTATAAA -TTAAACAAAATGAGTAAGAAGATGCAGAGCGATAAAGTGCTCAATTTGCCGGCAGGCTACTTTGGTATTGTGTTG -GGGACGATAGGGATGGGATTTGCCTGGCGCTATGCCAGCCAGGTTTGGCAGGTCAGCCACTGGTTAGGGGATGGG -CTGGTGATTCTGGCGATGATCATCTGGGGATTATTGACTAGCGCATTTATTGCCCGACTCATACGCTTTCCGCAT -AGCGTGCTGGCGGAAGTTCGCCATCCAGTGCTGAGCAGTTTTGTGAGTTTGTTTCCGGCAACGACGATGCTGGTG -GCGATTGGTTTTGTTCCGTGGTTTCGCCCACTGGCGGTGTGCCTGTTCAGTTTTGGTGTCGTGGTTCAGTTGGCT -TATGCCGCCTGGCAAACTGCGGGATTATGGCGCGGATCTCACCCTGAAGAAGCTACCACGCCTGGACTGTATCTG -CCGACAGTTGCCAACAACTTTATCAGCGCAATGGCCTGTGGTGCGTTGGGCTACACCGACGCCGGTCTGGTGTTT -TTAGGCGCAGGCGTTTTCTCATGGCTAAGCCTTGAACCGGTGATCTTGCAGCGTCTGCGCAGTTCGGGAGAATTA -CCCACGGCACTGCGGACATCACTCGGCATTCAGCTCGCTCCTGCGCTGGTGGCTTGTAGTGCCTGGCTGAGCGTC -AACGGCGGCGAGGGTGACACGCTGGCGAAAATGCTTTTCGGTTATGGACTGCTGCAACTGCTGTTTATGCTACGT -CTGATGCCATGGTATCTCTCCCAGCCATTTAATGCTTCATTCTGGAGTTTCTCGTTCGGCGTATCTGCACTGGCA -ACCACCGGTTTGCATCTGGGGAGTGGCAGCGATAATGGATTTTTCCATACGCTGGCGGTGCCGCTGTTTATCTTT -ACCAATTTTATTATTGCAATACTGCTCATCCGTACTTTTGCGCTTCTGATGCAGGGAAAATTGTTAGTCAGAACC -GAGCGCGCCGTTTTAATGAAAGCAGAGGACAAAGAATGATCATTCGTGACGAAAACTATTTTACTGATAAATATG -AATTAACCCGCACACACTCTGAAGTACTGGAAGCGGTGAAAGTGGTTAAACCGGGTAAAACGCTGGATCTGGGCT -GTGGCAATGGTCGTAACAGTCTTTACCTGGCAGCCAATGGTTATGATGTTGACGCATGGGATAAAAATGCCATGA -GTATCGCCAACGTCGAGCGCATTAAATCCATTGAAAATCTGGATAATTTACACACCCGAGTCGTTGATCTGAATA -ACCTCACATTTGATAGACAGTACGATTTTATTCTTTCGACTGTGGTGCTGATGTTCCTTGAGGCTAAAACCATCC -CCGGGTTGATTGCCAATATGCAACGTTGCACTAAACCTGGTGGTTACAACCTGATTGTGGCGGCGATGGATACCG -CTGATTATCCATGTACCGTCGGCTTCCCGTTTGCCTTCAAAGAGGGAGAATTACGTCGATATTACGAAGGCTGGG -AGAGGGTGAAATACAATGAAGACGTCGGCGAGCTGCACCGCACCGACGCCAACGGTAATCGTATTAAACTGCGTT -TCGCCACGATGCTGGCACGTAAAAAATGACCCGGTAAGCACAAAACGCGTGAAAATTCCCCACGCTGAGATGATT -TACTGTTCTTCTTTTCGGTAAGCATATTTTTTATCGAAGGGATGTGAAATTAATCACAGTAGTCGAAGTTTTTAG -CAGCTTAACTTACTGAAATTTAAGTACTGATGATTGACTTAGCCCCTTTTTCGGCATTGACTATGTCGTCTGAAA -AGGGGCTGAAAAATTTATTTTCACCAACACTTTTTTTGCCACAACACGAAGCGGCGCTTTTTGCTATAACTTAGA -AAGTAATATAATCATCTCAGGAAACTATTCATGCGTACCACATCATTTGCGAAAGTTGCAGCTTTATGCGGCTTA -TTGGCTCTGTCTGGTTGTGCATCTAAAATCACCCAGCCAGATAAATATTCTGGTTTTTTAAACAATTACTCTGAT -TTAAAAGAAACAACCTCGGCTACAGGTAAACCTGTTTTACGTTGGGTAGACCCGAGTTTTGATCAAAGCAAATAT -GACAGCATCGTCTGGAACCCAATCACTTATTATCCGGTACCGAAACCGTCGACCCAGGTAGGGCAGAAAGTTCTG -GATAAAATTTTGAACTATACCAACACCGAAATGAAAGAAGCGATAGCGCAGCGTAAACCACTGGTTACCACCGCT -GGGCCGCGTAGTCTGATTTTCCGTGGGGCCATTACCGGTGTAGATACCAGCAAAGAAGGGCTGCAATTCTATGAA -GTGGTTCCTGTTGCATTAGTGGTTGCGGGGACGCAAATGGCTACAGGCCACCGTACCATGGATACTCGCCTCTAT -TTTGAAGGTGAGCTGATTGATGCAGCGACTAATAAACCGGTTATCAAAGTCGTTCGTCAGGGCGAAGGTAAAGAC -CTGAATAACGAAAGTACGCCAATGGCTTTCGAAAATATTAAACAAGTTATTGATGACATGGCGACCGATGCCACC -ATGTTTGACGTTAACAAAAAGTAGTTCCAGACGCGCCATCGTTAGATGGCGCTTTTTATCCGGTGCGCCGTAAAA -CCCCATCCTTCAGGGCGGGGATATAAGGCGCGGTTTTCCACCTGACCAGGTGTTTGCTGTTGTTCAATGTATTGG -CGGATGACGGATATTGGCGCACCTCCGCAGCTACTGGCAAAATAGCCAGGACTCCACAAAACGCCTTTGTAGTAA -TACCTGAATGCAATATCTGGTCGATCTCGTCGCAGTCACCTACCCGATACGCCTTTGAGGCTGTTTACCAGACTG -GATATCGCCAGTTTGGGAGGATAGTTAATTAACAAATGGACGTGATCTGGTTCGCCATCCATTTCAACCAGTTCA -GCTTCAAAATCAGCACATACATTTGAAAAGTAAGTGCGTAGTTTTTCTGTCGCGTCATGGTCAAAAATCTGGCGT -CGGTATCTGGTGACAAAGAGCAGGTGAACATGCATCAGGAAAACACAATGCCTTCCACGCCGGATATCGGTTTCT -TTTTTCACAGACCAAAGTATCATTTGACCTGTGAAACGATTACAGGCATTTAAATTCCAGTTAAGACCCGGTGGT -CAACAGGAGTGTGAAATGAGGCGCTTCGCAGGCGCATGTCGTTTCGTTTTCAATCGTGCTCTGGCACGTCAGAAT -GAGAATCATGAGGCCGGTAATAAATACATCCCTTACGGGAAAATGGCTTCCTGGCTGGTTGAGTGGAAAAATGCC -ACTGAAACGCAATGGCTTAAAGATTCTCCCTCACAGCCATTGCAACAGTCACTGAAAGACCTTGAGCGGGCTTAC -AAAAACTTCTTCCGGAAGCGGGCTGCTTTTCCCCGATTCAAAAAGCGGGGACAGAATGATGCATTCCGCTACCCG -CAGGGCGTTAAGCTCGATCAGGAAAACAGCCGTATTTTTCTGCCGAAACTGGGCTGGATGCGCTACCGGAACAGC -CGTCAGGTCACGGGTGTTGTGAAAAATGTCACTGTCAGCCAGTCCTGCGGTAAGTGGTACATCAGTATTCAGACA -GAAAGTGAAGTATCAACTCCGGTTCACCCTTCAGCATCAATGGTCGGGCTGGATGCTGGCGTGGCTAAACTCGCC -ACGCTGTCAGATGGCACAGTCTTTGAGCCTGTAAACAGTTTTCAGAAAAACCAGAAGAAGCTGGCGAGACTTCAG -CGACAGTTAAGCCGCAAGGTCAAATTCAGCAACAACTGGCAAAAGCAGAAACGCAAAATACAGCGACTGCATTCC -TGTATCGCAAATATCCGCAGGGACTACCTTCACAAAGTCACAACGGCCGTCAGCAAAAACCACGCAATGATAGTC -ATTGAGGATTTGAAGGTCAGCAACATGTCAAAGTCAGCAGCGGGTACGGTCAGCCAGCCGGGGCGCAATGTCCGG -GCAAAATCAGGTTTAAACCGTTCGATACTGGATCAGGGCTGGTATGAAATGCGCCGCCAGCTTGCGTATAAGCAG -CTCTGGCGTGGCGGTCAGGTGCTTGCTGTTCCGCCAGCGTATACAAGCCAGCGTTGCGCGTACTGTGGTCATACA -GCGAAAGAGAACCGCCTGTCACAAAGTAAATTCAGATGCCAGGTATGTGGATATACAGCGAACGCCGATGTAAAT -GGCGCTCGCAACATTTTAGCGGCGGGGCACGCCGTTCTTGCCTGTGGAGAGATGGTGCAGTCAGGCCGCCCGTTG -AAGCAGGAACCCACCGAAATGATTCAGGCGACAGCCTGAACGTAGCAGGGATCCACGTCCTTCAGGGCGTGGAGG -ATGTCAATATCGGTTTCTGTCAGCGATTAAATTCAACACCACGTAACAAACGCCTCCGGCAATTAATCCCCAAAA -CGCAGAACCAATCCCGACCAGCGTCAATCCACTTGCCGTTACCAGAAATGCCACCACCGCCGCGTCTCGCTCACG -CTCATTATGCAGCGCCTGATACAAACTGCCGCCGATGGTACTTAACAGCGCCAGACCTGCCAGCATCTGGATCCA -ACTTACGGGCAGGGCAGCCATCATCCCGGTAATGGCACTACCAAACAGACCTGCGAGCAAATAGAAAATGCCTGC -AACGGCAGCGGCCAGCCAACGTTGATCTTTATCCGGATGCGCTTCCGGGCTTTGGCAAATAGCCGCGGTGATTGC -CGCAATACCGACGGAATAAACGCCGAAAGGGGAAAAAACCAGTGCCAGCAATCCAGTAAATACAATTAATGGCGA -AACAGGAGCCGAATATCCAGCTGCTTTCATTGCTGCGATACCCGGTGCGTTTTGCGATGCCATCGTCACCAGAAA -AAGGGGGAGTGCAACGCTCAGGCTGTGAGCAAACGAAAAATCAGGGGTAATATAAGTGGGGAGAACGGGTTTAAA -GACAACATCAGTTGTGACAACGTCACCTTGCGCGATGACGATCACGATCCCAATAATCATCGCGGCAATTACCGC -ATAGCGCGGCGCAACGGCCTTGGTTGCCAGCCATACCAGCAACATACTTCCACACAACGTAAATTGACCGTCCAG -ACTGGCAAACGCCTGTAAACCAAAGCGTAATAAAATCCCGGCAAGCATTGCCGCCGCAAGCGAGTGCGGAATAAT -GCGCATCAGACGAGCAAAGAGTCCCGTTATGCCGCAGAGGACTATTAGCGCGTTGGTGACAATAAAAACGCCGAT -GGCTTCGTTAAGTGTTAGTCCCTGCAATCCGGTGACCAACAAAGCCGCGCCAGGCGTTGACCATGCGGTGAGAAC -AGGTACGCGATACCATAATGTCAGAGTCAGCGTACTGACGCCCATTGCCAGCCCCAGCGCCGTCATCCAGCCAGA -GATTTGTGCAGTGGTGGCTCCGGCGACAATCGCTGCTTGCCAGATTATTGCCGCTGAACTGGCGTAGCCAATTAA -TACCGCCAGAAACCCCGCCAGTAGCGTGGGTGGAGGAATAGAAAACAGACGCATAGTCACCTCGTGCGTTATAGC -GTACAGGCACCGTAGCATTTGTCCGTTATAACGCACAAGTGATAAACTTCCGTTTTGCCGGAGGAGTCGCATGGA -AAATCTCGCTCGCTTTTTATCCACCACACTTAAACAACTACGCCAGCAGCGCGGCTGGAGTCTTTCGCGACTGGC -AGAAGCGACGGGCGTTTCTAAAGCAATGTTAGGGCAGATTGAGCGTAATGAGTCCAGTCCGACGGTCGCGACATT -ATGGAAAATTGCCACCGGGTTGAACGTACCATTTTCAACATTTATTTCTCCGCCGCAGTCCGCTACGCCTTCAGT -TTATGATCCACAACAGCAGGCGATGGTGATCACTTCGCTGTTTCCTTATGATCCACAACTCTGCTTTGAACACTT -CTCGATTCAGATGGCATCTGGTGCAATAAGCGAATCGACGCCCCATGAGAAGGGGGTAATCGAACATGTCGTCGT -CATTGATGGACAACTTGATCTGTGCGTTGATGGGGAATGGCAGACCCTTAATTGTGGGGAAGGCGTTCGATTTGC -TGCAGACGTCACGCATATCTATCGTAATGGTGGGGAGCAAACCGTACATTTTCATTCCCTCATCCATTACCCGCG -CAGTTAAGCGGGAAAACTATTTCGCAACGTCGCGCTTGTGGCTAAAATAGCCGCCATTTTTCAGCTACTGGATAA -GAATGTGACCGTATCTTCTCATCGACTTGAACTGTTAAGCCCGGCACGCGATGCCGCCATTGCCCGCGAAGCTAT -TTTGCACGGTGCCGATGCTGTTTATATCGGCGGCCCTGGTTTTGGTGCCCGTCATAATGCCAGTAATAGCTTGAA -AGATATTGCCGAGCTGGTGCCGTTTGCCCATCGTTATGGTGCAAAAATTTTCGTCACGCTTAACACCATTTTGCA -TGATGATGAGCTGGAACCCGCGCAACGGCTGATTACTGACCTCTACCAGACCGGTGTCGATGCGCTGATTGTTCA -GGATATGGGGATTCTGGAACTTGATATTCCGCCGATTGAACTGCACGCCAGTACGCAGTGCGACATTCGTACAGT -TGAAAAAGCGAAGTTCCTCTCTGATGTTGGCTTCACGCAGATTGTGCTGGCGCGAGAGCTGAATCTTGATCAGAT -CCGCGCGATTCACCAGGCTACGGACGCGACCATTGAATTCTTTATTCATGGGGCACTGTGCGTGGCCTATTCGGG -TCAGTGCTACATTTCTCATGCGCAAACAGGGCGTAGCGCCAACCGTGGCGATTGCTCGCAGGCGTGCCGTTTGCC -ATACACATTGAAAGACGATCAGGGGCGGGTGGTTTCCTATGAAAAACATCTGCTGTCGATGAAAGATAACGATCA -GACTGCCAACCTCGGCGCGCTGATTGATGCTGGTGTACGCTCCTTCAAGATTGAAGGGCGTTACAAAGATATGAG -CTACGTGAAGAATATCACCGCCCATTATCGCCAGATGCTTGATGCCATTATTGAAGAACGTGGCGATCTGGCGCG -CGCTTCATCAGGTCGTACTGAACATTTCTTTGTTCCATCGACGGAAAAGACTTTCCACCGTGGTAGCACAGATTA -TTTTGTGAATGCCCGTAAAGGCGATATTGGCGCGTTCGATTCGCCGAAATTTATCGGCCTGCCGGTAGGCGAAGT -AGTGAAAGTGGCGAAAGATCATCTCGATGTTGCCGTTACCGAGCCACTGGCAAATGGCGATGGCCTGAACGTGTT -GATTAAACGTGAAGTCGTCGGTTTTCGTGCCAATACGGTCGAGAAAACCGGAGAAAATCAGTACCGCGTCTGGCC -CAATGAAATGCCAGCAGATTTGCACAAAATTCGTCCACATCACCCACTAAACCGTAATCTTGATCATAACTGGCA -GCAGGCACTGACAAAAACCTCCAGCGAACGTCGGGTGGCGGTAGACATTGAACTGGGCGGCTGGCAGGAACAACT -GATTCTGACCCTCACCAGTGAAGAGGGTGTCAGCATCACGCATACGCTGGACGGGCAGTTCGACGAAGCCAATAA -CGCCGAAAAAGCAATGAACAATCTGAAGGATGGTCTGGCAAAACTGGGGCAAACCCTCTATTACGCCCGCGATGT -GCAAATTAATTTGCCGGGGGCGCTGTTTGTACCAAACAGTCTGTTAAACCAGTTCCGCCGTGAAGCTGCTGACAT -GCTGGATGCTGCGCGTCTTGCCAGTTACCAGCGCGGCAGCCGTAAACCGGTTGCTGATCCTGCGCCGGTTTATCC -GCAAACGCATCTGAGTTTCCTCGCGAACGTATACAACCAGAAAGCGCGTGAATTTTATCATCGCTATGGTGTGCA -GCTGATTGACGCGGCGTATGAAGCACATGAAGAGAAGGGCGAAGTCCCGGTGATGATCACCAAGCATTGTCTGCG -CTTTGCCTTTAATCTGTGCCCGAAACAGGCGAAAGGCAATATCAAAAGCTGGAAGGCGACGCCAATGCAACTGGT -TAACGGCGATGAAGTATTAACGCTAAAGTTTGATTGCCGCCCATGCGAGATGCACGTCATTGGCAAAATCAAAAA -TCACATACTGAAAATGCCGTTACCGGGAAGCGTAGTGGCATCCGTAAGTCCGGATGAGCTGCTGAAAACATTGCC -GAAGCGAAAAGGGTAAAACGCCAGTTTTCTGGTTACTCACAACTTATTGAATCTGCATGATATTGCCTGCCGGGT -AAGGCGTTACGCCGCATCCGGCATCAAATGACTCAACGTTGTCCCGCTTCTGGTTTGCGCGATTTTTGCCAGTAA -AAATGCTCGCGCAAACCTTCCGCCGACTCTTCCGCCACAGCACGCAATTCATCGCTGTCCGCTTCATGACGCAGC -TGATGATCCACATTCTTTACCCACACAAATTCATGTCCTTTGTGCCCTGCCATGAGTTGTCCTGAAAACAGAGCA -CACGTTAATAAGACAACCGATAACGCCTTCGTAAACATCCTGCCACCTTTTTCTTACCTTTTGCCGCTATGATGC -CGATCGTTTCTTGAGGTTATTATTCAGTTTTGCAAATTAGCGCAAAGAAATTCTGGAATCTTCCTTCCTGATTTT -GCATTGCATTCTGCCGTTGCGGCGATTTAGTGCTATTTTCGAGCAAATTACACACGGAGGTAAACACTAATGTTT -ACTTTGTTGATATACTCAGCGGCAGGGAGGCGATGTGAAACAAAGCGAGTTCAGACGTTGGCTCGAATCTCAGGG -CGTCGATGTAGCGAATGGCAGCAACCATTTGAAACTCAGGTTTCATGGGAGGCGCAGTGTCATGCCGCGTCACCC -CTGCGATGAGATTAAAGAACCATTGCGTAAAGCAATCCTGAAACAACTCGGTTTGAGTTAATCGCCAATTAAAAA -GGTTAATGACATGCGAGAGACAGTCGAAATTATGCGTTATCCCGTCACTCTTACACCCGCGCCGGAAGGCGGTTA -TATGGTTTCTTTTGTGGATATCCCTGAAGCGTTGACCCAGGGCGAAACTGTCGCTGAAGCGATGGAAGCGGCAAA -AGATGCTTTACTGACCGCATTTGATTTTTATTTTGAAGATAACGAGCTTATCCCTTTACCTTCGCCATTAAATAG -TCACGATCACTTTATTGAAGTACCTTTGAGCGTCGCCTCTAAGGTATTGCTGTTAAATGCTTTTTTACAGTCAGA -AATCACTCAGCAAGAGTTAGCCAGGCGAATTGGCAAACCTAAACAGGAGATTACTCGCCTATTTAACTTGCATCA -TGCGACAAAAATCGACGCCGTCCAGCTCGCGGCAAAGGCGCTTGGCAAAGAGTTATCGCTGGTGATGGTTTAATT -ACAGTTAACGAAAAGTTGTCATTTTTAACAACTGATATAGACTGCCGAATCATCTGCACATAATTACGATTCGAT -AATGAAAAAATACCAGCAGCTTGCAGAACAATTACGCGAGCAGATTGCGTCGGGTATCTGGCAACCCGGCGATCG -TTTGCCTTCGTTGCGTGACCAGGTGGCGCTTTCAGGCATGAGCTTTATGACTGTCAGCCATGCCTATCAGTTGCT -CGAAAGTCAGGGATATATTATCGCACGACCGCAGTCGGGTTATTACGTTGCGCCACAGGCAATAAAAATGCCGAA -AGCGCCAGTCATTCCAGTCACTCGAGATGAAGCAGTCGATATCAACACTTATATTTTTGATATGTTGCAGGCCAG -TCGCGATCCGTCGGTCGTTCCGTTTGCCTCGGCCTTTCCCGACCCGCGACTTTTCCCCCTCCAACAACTAAACCG -CTCGCTGGCGCAGGTAAGCAAAACCGCCACAGCGATGAGCGTGATTGAAAACTTACCGCCAGGAAACGCAGAACT -GCGTCAGGCTATTGCTCGTCGCTATGCCTTACAGGGCATCACCATTTCTCCTGATGAAATTGTCATTACTGCCGG -GGCGTTAGAGGCATTAAACCTCAGTTTGCAAGCGGTAACTGAACCGGGCGATTGGGTGATAGTAGAGAATCCTTG -TTTCTACGGTGCGTTGCAGGCGCTGGAGCGGCTACGGCTGAAGGCGTTATCGGTGGCGACGGATGTTAAAGAAGG -GATAGATCTTCAGGCGCTGGAACTGGCGTTGCAGGAGTATCCGGTGAAAGCGTGCTGGCTGATGACTAATAGCCA -GAATCCACTCGGATTTACCTTAACGCCGCAAAAAAAAGCACAACTGGTGGCGTTGCTCAATCAGTACAACGTAAC -GCTGATTGAAGATGACGTTTACAGCGAACTTTATTTTGGACGGGAAAAACCGCTGCCTGCGAAAGCGTGGGATCG -CCACGATGGCGTTTTGCATTGCTCTTCGTTTTCGAAATGTCTGGTGCCTGGTTTTCGTATTGGTTGGGTCGCCGC -CGGAAAACATGCACGTAAAATTCAACGCTTGCAGTTGATGAGTACGCTTTCCACCAGCTCACCGATGCAACTTGC -GCTGGTGGATTACCTTTCCACGCGCCGATACGACGCCCATCTTCGTCGCCTGCGTCGCCAGCTTGCGGAACGTAA -ACAACGTGCCTGGCAGGCACTGCTGCGTTATCTGCCTGCGGAAGTGAAAATTCATCATAATGACAGTGGTTACTT -TCTCTGGTTGGAGCTCCCCGAGCCGTTAGATGCCGGCGAATTAAGCCTGGCGGCACTGACGCATCATATCAGTAT -TGCGCCGGGTAAAATGTTTTCTACCGGTGAAAACTGGTCACGTTTTTTCCGTTTTAATACCGCGTGGCAGTGGGG -AGAGCGTGAAGAACAGGCGGTAAAACAATTAGGCAAACTTATTCAAGAACGGCTGTAATAGCGTTTAATTTAATT -CCTCTTAGATTGGGTAATATGAATTTCGAATAGCAGTCATATTTCCTAACTCCTTGACTATACTCCAGAAGATAA -CCTTACAGACGGCATAATGCGCGGTAGCTCACAACCTGAATAAATTTTCTCAGGGGCGAAGGTGTGCCTGCAAGC -CGCCGTCTATGGTTAAACAAGGAGATATTTTTACGGCACGGCGGCTGAACAATTAATTACGACAGGAGTAAGACC -TTATGAGCAAGACATTTGCCCGCAGCAGCCTGTGTGCGCTCAGCATGACAATAATGACCGCTCACGCCGCCGAAC -CGCCTACCAATTTAGATAAACCGGAAGGGCGACTGGATATTATCGCCTGGCCGGGATACATCGAACGCGGACAAA -CTGATAAACAATACGACTGGGTAACGCAGTTCGAAAAAGAGACAGGCTGCGCGGTGAATGTGAAAACCGCCGCGA -CTTCCGATGAAATGGTCAGTCTGATGACCAAAGGGGGTTACGATCTGGTTACGGCATCCGGCGATGCCTCGCTGC -GTTTGATTATGGGTAAACGCGTGCAGCCGATTAATACCGCATTGATTCCCAACTGGAAAACGCTCGATCCGCGCG -TGGTTAAAGGCGACTGGTTTAATGTTGGCGGCAAAGTTTACGGCACACCTTACCAATGGGGGCCGAACCTGCTGA -TGTACAACACTAAAACCTTCCCGACGCCGCCGGATAGCTGGCAAGTGGTTTTTGTTGAGCAAAATCTGCCGGACG -GCAAGAGCAATAAAGGCCGCGTTCAGGCTTATGATGGCCCTATCTATATTGCGGACGCTGCGTTGTTCGTTAAAG -CCACTCAGCCGCAGTTGGGCATCAGCGATCCGTATCAACTCACCGAAGAACAGTACCAGGCGGTGCTGAAAGTGC -TGCGCGCTCAACACAGTTTGATCCATCGCTACTGGCATGACACTACCGTGCAAATGAGCGATTTCAAAAACGAGG -GTGTGGTTGCTTCCAGTGCCTGGCCCTATCAGGCCAACGCCCTGAAAGCCGAAGGCCAGCCTGTTGCTACCGTTT -TCCCGAAGGAGGGTGTTACCGGTTGGGCTGATACCACCATGCTGCATAGCGAAGCGAAACATCCGGTTTGCGCCT -ACAAATGGATGAACTGGTCATTAACGCCAAAAGTGCAGGGCGATGTGGCGGCCTGGTTTGGCTCGTTACCGGTAG -TGCCGGAAGGGTGTAAAGCCAGTCCGTTATTAGGCGAAAAAGGTTGTGAAACCAACGGTTTTAACTATTTCGACA -AAATCGCCTTCTGGAAAACGCCTATAGCAGAAGGGGGCAAGTTTGTTCCCTACAGTCGCTGGACGCAGGATTACA -TTGCCATTATGGGCGGTCGCTAACTTCGCTGGGGTGCTTTATGACGTACGCAGTGGAGTTTGACAACGTCTCGCG -GTTGTACGGTGACGTGCGCGCAGTAGATGGCGTCAGTATTGCGATAAAAGATGGTGAGTTCTTCTCTATGCTGGG -GCCGTCCGGCTCCGGCAAAACCACCTGCCTGCGCCTGATTGCTGGCTTCGAACAGCTTTCCGGCGGGGCTATCTC -TATCTTTGGTAAACCCGCCAGCAATCTGCCACCGTGGGAGCGGGACGTGAATACTGTCTTTCAGGACTACGCGCT -ATTTCCGCATATGTCGATTCTTGACAATGTCGCCTATGGGCTGATGGTCAAAGGCGTGAATAAAAAGCAGCGGCA -CGCAATGGCGCAAGAGGCGCTGGAGAAAGTGGCGTTGGGGTTTGTACATCAACGTAAACCGTCACAACTTTCTGG -TGGTCAGCGCCAGCGGGTTGCTATCGCCAGAGCATTGGTGAATGAACCGCGCGTATTGCTGTTGGATGAACCGCT -CGGCGCACTGGATCTCAAATTGCGTGAGCAGATGCAGCTGGAACTGAAAAAACTGCAACAGTCTCTCGGTATCAC -TTTTATCTTCGTTACCCACGATCAGGGCGAAGCGTTATCGATGTCCGATCGTGTGGCGGTTTTCAATAATGGACG -CATTGAGCAGGTCGATTCCCCGCGCGATCTCTATATGCGCCCGCGCACGCCGTTTGTTGCCGGGTTCGTTGGTAC -ATCGAATGTTTTTGATGGACTGATGGCAGAGAAACTTTGTGGCATGACGGGAAGCTTCGCCCTGCGACCGGAACA -TATCCGCCTCAACACCCCTGGTGAACTGCAGGCCAATGGCACGATCCAGGCGGTGCAATATCAGGGCGCGGCAAC -TCGTTTTGAACTGAAATTGAACGGCGGTGAAAAACTGCTTGTGAGTCAGGCCAATATGACAGGCGAAGAACTGCC -TGCCACGCTCACGCCCGGACAACAGGTGATGGTTTCCTGGTCGCGTGATGTGATGGTGCCGCTGGTTGAGGAGAG -GTGAATGGCGATGAATGTATTGCAATCACCTTCACGTCCAGGTCTGGGTAAGGTGTCCGGTTTCTTCTGGCATAA -TCCGGGGCTGGGGCTGTTTTTACTGCTGCTTGGCCCGCTAATGTGGTTTGGCATTGTCTATTTCGGCTCGCTGCT -GACACTGTTATGGCAGGGATTTTATACTTTTGACGATTTCACCATGTCGGTAACGCCGGAACTGACGCTGGCGAA -TATCCGTGCGCTGTTTAATCCGGCGAATTACGACATCATTCTCCGCACGCTGACTATGGCTGTGGCAGTCACTAT -CGCCAGCGCCATTCTGGCTTTTCCAATGGCGTGGTATATGGCGCGCTATACCAGCGGGAAAATGAAAGCGTTTTT -TTATATTGCGGTAATGTTGCCGATGTGGGCGAGCTACATTGTTAAAGCCTATGCCTGGACGTTATTGCTGGCAAA -AGATGGCGTGGCTCAGTGGTTTTTACAACATCTTGGGCTGGAACCACTGCTGACTGCGTTCCTTACATTACCTGC -GGTGGGCGGAAATACGCTGTCAACTTCCGGGCTGGGGCGCTTTCTGGTGTTTCTCTATATCTGGTTGCCGTTCAT -GATCCTGCCCGTTCAGGCGGCGCTTGAGCGTTTGCCGCCGTCATTGTTGCAGGCGTCGGCTGATCTCGGCGCACG -TCCACGACAAACCTTTCGCTATGTGGTGCTGCCGCTGGCAATCCCGGGTATTGCCGCTGGCTCTATCTTTACCTT -CTCACTCACACTGGGCGATTTTATCGTCCCGCAGCTGGTTGGTCCTCCAGGATATTTTATCGGCAATATGGTTTA -TTCCCAGCAGGGGGCGATTGGCAATATGCCGATGGCGGCGGCATTCACCCTGGTGCCGATTATTCTCATCGCACT -GTACCTGGCGTTCGTGAAACGTCTGGGAGCGTTCGATGCACTCTGAACGCGCACCGTTTTTCCTCAAACTGGCGG -CCTGGGGCGGCGTTGTTTTCCTACATTTTCCCATCCTGATAATCGCCGCCTATGCGTTTAACACTGAAGATGCGG -CGTTTAGTTTTCCACCGCAGGGCCTGACGCTGCGCTGGTTTAGCGTGGCAGCACAGCGTAGTGATATTCTTGATG -CCGTGACACTGTCACTTAAAGTGGCGGCGCTGGCGACATTAATTGCGCTGGTGTTAGGGACGCTGGCAGCTGCCG -CGCTGTGGCGACGAGACTTTTTCGGCAAAAACGCCATTTCGCTGTTACTGCTGCTGCCCATTGCGCTGCCGGGCA -TTGTCACTGGTCTGGCGTTATTAACCGCCTTTAAAACCATCAATCTGGAGCCGGGATTTTTCACCATCGTGGTCG -GTCATGCGACTTTTTGTGTAGTTGTGGTGTTTAACAATGTCATCGCCCGTTTTCGCCGCACCTCCTGGAGTCTGG -TTGAGGCGTCAATGGATCTTGGGGCCAATGGCTGGCAAACCTTCCGCTACGTAGTGTTGCCGAATCTCAGTTCGG -CGTTACTGGCAGGAGGAATGCTGGCGTTTGCCTTGTCGTTCGATGAAATCATCGTTACGACCTTTACGGCAGGTC -ATGAACGAACGTTACCGTTGTGGTTGCTCAATCAGCTTGGGCGACCGCGTGATGTACCGGTAACTAACGTGGTGG -CACTGCTGGTTATGTTGGTAACAACCTTGCCGATCCTGGGGGCCTGGTGGCTAACCCGCGAAGGCGACAATGGTC -AATAACCACTGATACAGGAATATGCTATGCAACATAAGTTACTGATTAACGGAGAACTGGTTAGCGGCGAAGGGG -AAAAACAGCCTGTCTATAATCCGGCAACGGGGGACGTTTTACTGGAAATTGCCGAGGCATCCGCAGAGCAGGTCG -ATGCTGCTGTGCGCGCGGCAGATGCAGCATTTGCCGAATGGGGGCAAACCACGCCGAAAGTGCGTGCGGAATGTC -TGCTGAAACTGGCTGATGTTATCGAAGAAAATGGTCAGGTTTTTGCCGAACTGGAGTCCCGTAATTGTGGCAAAC -CGCTGCATAGTGCGTTCAATGATGAAATCCCGGCGATTGTCGATGTTTTTCGCTTTTTCGCGGGTGCGGCGCGCT -GTCTGAATGGTCTGGCGGCAGGTGAATATCTTGAAGGTCATACTTCGATGATCCGTCGCGATCCGTTGGGGGTCG -TGGCTTCTATCGCACCGTGGAATTATCCGCTGATGATGGCCGCGTGGAAACTTGCTCCGGCGCTGGCGGCAGGGA -ACTGCGTAGTGCTTAAACCATCAGAAATTACCCCGCTGACCGCGTTGAAGTTGGCAGAGCTGGCGAAAGATATCT -TCCCGGCAGGCGTGATTAACATACTGTTTGGCAGAGGCAAAACGGTGGGTGATCCGCTGACCGGTCATCCCAAAG -TGCGGATGGTGTCGCTGACGGGCTCTATCGCCACCGGCGAGCACATCATCAGCCATACCGCGTCGTCCATTAAGC -GTACTCATATGGAACTTGGTGGCAAAGCGCCAGTGATTGTTTTTGATGATGCGGATATTGAAGCAGTGGTCGAAG -GTGTACGTACATTTGGCTATTACAATGCTGGACAGGATTGTACTGCGGCTTGTCGGATCTACGCGCAAAAAGGCA -TTTACGATACGCTGGTGGAAAAACTGGGTGCTGCGGTGGCAACGTTAAAATCTGGTGCGCCAGATGACGAGTCTA -CGGAGCTTGGACCTTTAAGCTCGCTGGCGCATCTCGAACGCGTCGGCAAGGCAGTAGAAGAGGCGAAAGCGACAG -GGCACATCAAAGTGATCACTGGCGGTGAAAAGCGCAAGGGTAATGGCTATTACTATGCGCCGACGCTGCTGGCTG -GCGCATTACAGGACGATGCCATCGTGCAAAAAGAGGTATTTGGTCCAGTAGTGAGTGTTACGCCCTTCGACAACG -AAGAACAGGTGGTGAACTGGGCGAATGACAGCCAGTACGGACTTGCATCTTCGGTATGGACGAAAGATGTGGGCA -GGGCGCATCGCGTCAGCGCACGGCTGCAATATGGTTGTACCTGGGTCAATACCCATTTCATGCTGGTAAGTGAAA -TGCCGCACGGTGGGCAGAAACTTTCTGGTTACGGCAAGGATATGTCACTTTATGGGCTGGAGGATTACACCGTCG -TCCGCCACGTCATGGTTAAACATTAAGGATAATATTGCAGATCGTAAGAGTATGAGATGATCTTGCGTACTGTCA -GAGCACTGATTTCTCTGACAGTACGTGCTGCGTGCAAAATCACTACATCAAATAAACCAGCCAAATCTCATAGAG -ATAAGAGTAAACAAACCAACAGCAGCAAAGAAATTTATCAGTACTACAGTTCTACTGGAAACATTCATTTTTGCC -ACCTTTTATCATTGCCCCTATGTGTATAGTACGGGTTAAGAAAATCCGCAATAATACTCATTCTGAAGATGGATA -AGGGCAAGTTGCTGTTTGATGATTTTTTCTCAAACTGGTGAAAAAACTTGATGCACGTCAAAAAATGACGCATAT -TTGCGCGCGTTTTATTCATCTGGCTGGACGCCCGTACATGTCTCTCTATCAACACATGCTTGTTTTTTATGCGGT -TATGGCAGCAATCGCATTTCTTATCACCTGGTTTCTTTCTCACGATAAGAAACGCATCCGTTTCTTAAGCGCCTT -TCTGGTGGGGGCAACATGGCCGATGAGTTTCCCGGTGGCGCTGTTGTTTTCACTGTTTTAAATCTTACTCACTGG -CTTGACGGCACCACGCAGACTTATATCATTTGGATGAATCGATAAATTTCACAAGTGGCTAAGGAGAAAGTATGT -CGCATCTGGATGAAGTCATCGCGCGCGTGGATGCCGCGATTGAAGAGAGCGTCATTGCCCATATGAACGAATTAT -TAATCGCCCTGAGCGATGACGCGGAGTTAAGTCGGGAAGATCGCTACACCCAGCAGCAACGTCTGCGCACAGCGA -TCGCCCATCACGGTCGCAAGCATAAAGAAGATATGGAAGCGCGCCACGAACAGTTAACCAAAGGCGGCACCATCC -TCTGATTAAAATGAGCGTCTGGCTACCAACCAGGCGCCAACCACAAGTAAAATTGCGCCACAAATTGGGCCGAAC -AACGCCCGTAGTGGTACGCCATGACTGCGGAAGATATCCAGCATCAGACCGCCAATCAGCTGACTGGCGACCAGT -ACAGCAATAGTTGTCGCCGCTCCCACATTCTGATATCCGCTGATACTGGCGAAGACAAAAAACGATCCCAGCAAG -CCAGGTATAAGTGTCCACCAGCGCACGCTGGACACCAGTTCGCCAAACCCCGCCATGCCTTGTTTAAACCATAAA -ATAGAAACAAAGAGCACAATCCCCACCAGTGAGTTCAGCAACATGGCGATGAGAATGGTAGAGGAGGTCTGGGTG -ATGCGCACCATCAGCGTGTTCTGGACAACCAGACCAATTCCGGCGGCAATCAAAAAAGCAAGGGTGAGCGACTGA -TTCATCCAATCGCGTCCGGTTCAGTGCGCTCGTCGAGTTGCAACTGCATAAATGTCAGATCCAGCCAACGACCAA -ATTTAGTGCCTACCTGCGGCATTTGCGCGGTGACGACAAATCCCAGCGACTGGTGGAGATGCAGCGAGGCCTGAT -TTTGCGATTCGATCCCGGCGACCATGACATGCTTCCCGCAATCCCGCGCTTCATCAATCAATCGGCTTAACAATT -TACGCCCCAGACCTTTGCCCTGATGATCGGGATGGACATAAACCGAATGTTCCACGGTATGGCGAAAACCATCGA -AACTACGCCAGTCGCCAAACGAGGCATATCCCGTCACTACGCCGTTTTCCTCGCTCACCAGCACTGGATAACCTG -CTAAAGTCCGCGCTTCAAACCAGGCAATGCGGTTATCAGCATCCACCGTTTGGTCATTCCAGATAGCCGCCGTAT -ACAACACGGCGTGGTTATAAATTTCCGCAATGGCAGCACAGTCGGCTTTGCGGGCAAAACGGATGGACATGTCTG -GCCTCAATAAAATAATGATGATGATGTTATCAATACTATCGAAAACAGCCCGAAGCAACGGATTCCTCGATGAAA -TTATTGCGTGTTGCAGAGGGGATGTGACGGCTGCAAACAAAACCAATCCCGTGAGCCTGCTACTATTGATGGATT -CATGCCAAAAGCACAGGAGAGCATTATGGGGCAACAAAAGCAGCGTAATCGACGTTGGGTTCTGGCCTCGCGTCC -ACATGGCGCACCTGTTCCGGAGAATTTCCGTCTTGAAGAAGATGATGTCGCCACACCGGGTGAAGGACAGGTGTT -ACTGCGCACAGTTTATTTGTCCCTGGACCCGTATATGCGTGGACGTATGAGCGATGAGCCATCTTATTCACCGCC -TGTTGATATTGGCGGCGTGATGGTCGGCGGTACGGTGAGCCGTGTCGTGGAGTCGAATCATCCTGATTATCAGTC -TGGCGACTGGGTGCTGGGCTACAGTGGATGGCAAGACTATGACATATCCAGTGGTGATGATCTGGTGAAACTTGG -CGATCATCCGCAAAATCCATCGTGGTCGCTGGGTGTGCTAGGGATGCCAGGCTTTACCGCTTATATGGGCCTACT -GGATATCGGTCAGCCTAAAGAGGGCGAAACGTTGGTGGTAGCTGCGGCGACAGGACCAGTGGGGGCGACGGTGGG -GCAAATCGGCAAACTTAAAGGTTGCAGAGTGGTGGGGGTAGCCGGTGGCGCGGAAAAATGCCGCCATGCTACCGA -GGTGTTAGGCTTCGATGTTTGTCTTGATCACCACGCGGATGATTTTGCCGAACAACTGGCGAAAGCGTGCCCAAA -AGGTATTGATATCTATTATGAAAACGTGGGCGGTAAGGTATTCGATGCGGTGCTACCGTTACTTAATACATCTGC -GCGCATTCCCGTCTGCGGATTAGTGAGCAGCTATAACGCTACAGAGCTACCACCCGGTCCGGATCGTTTACCTCT -GTTGATGGCTACAGTGCTGAAAAAACGTATTCGCTTGCAAGGTTTTATTATCGCTCAGGATTATGGTCACCGCAT -CCATGAGTTTCAGAGGGAGATGGGGCAATGGGTGAAAGAGGATAAAATCCACTACCGCGAAGAAATTACTGACGG -TTTAGAGAATGCGCCACAGACGTTTATCGGCCTGCTGAAGGGTAAAAACTTCGGCAAAGTGGTGATCCGCGTGGC -GGGTGATGATTAAAGTTTCAACGGCGGCGTAAGCCGCCATAAAAATCCAGGCAAAAAGCTTATTTTCAGCTTTAA -TTAACTAACCACATCATTGTTCTGCTGCTAATAACAACAAAGGTGAGTGGTTTATGATTATTCACTTTAATACAC -CAGGTGAATTCCTTCTGCCATGCAGGCAGGGTTGGACAGAAAACACGCGAAGGAATTAAAATGCCTGGAACGGGA -AAAATGAAACATGTCAGTTTGACTCTGCAGGTTGAGAACGACCTGAAACATCAGCTTAGTATTGGCGCATTAAAA -CCTGGCGCACGCCTGATTACTAAAAATCTGGCGGAGCAATTAGGTATGAGTATTACACCTGTGCGTGAAGCATTA -TTACGTCTGGTTTCGGTGAATGCGCTTTCTGTCGCACCTGCACAAGCATTTACAGTTCCGGAAGTGGGGAAACGT -CAATTAGACGAAATCAATCGGATCCGCTACGAACTGGAATTAATGGCAGTTGCTCTGGCTGTTGAAAACCTCACC -CCGCAAGACCTTGCGGAACTCCAGGAATTGCTCGAGAAATTACAGCAGGCGCAAGAAAAGGGCGACATGGAACAA -ATCATTAATGTAAACAGGCTATTTCGCTTAGCGATTTATCATCGCTCAAATATGCCCATCCTGTGTGAGATGATT -GAGCAACTGTGGGTCAGGATGGGGCCTGGTTTACATTATCTCTATGAAGCGATTAATCCAGCGGAATTACGGGAG -CATATAGAAAACTATCATCTGTTACTCGCTGCGTTAAAAGCAAAAGACAAAGAGGGATGCAGACATTGTCTTGCT -GAAATTATGCAACAAAATATTGCTATTTTATACCAGCAATACAATCGTTAAAGTAAATGCCCGGCAAATACCGGG -CATCAAGGTAATTACTCAAATCTCCACGCAATATTCATGCCGACACCATAATTTCGTCCGGGCGAAGGTTCGTAA -TATCGCCCGTTTGACTCATTGACAATGACAGAACCAACGTATTCTTTATCGAATAAATTATCGACACGACCAAAT -AAATCCACAGTTAAATTGTGGTAATTGTATTTATACCCGGTGAATAAGCCGACGAGAGTATAAGACGGCGCTTTT -GCCGTATTTTCATCATCTGCCATAATATCGCCCATATAACGCGCTTCCGTGCCTGCATACCAACCATCTTCCGGT -ACATAACCTATCGACGCAAAGCCCATATTACGGGCGATCCCTGGCATCCGATTACCGTTACAATCCTGTTCATTG -CAAACATTGCTGCGATAGGTCGCATCAAGCCAGGTCCAGGACGCGTTTACGCGAAAATCTCCTGCGAAACGTTGA -TCCCATGCCAGTTCAGCGCCTTGACGACGGGTCTTTCCGGCATTTTTGTAAGTCGTACGCCCACCGCTACTGCTA -TCGACAACAATTTCATCATCAGTGTCGGTCTGAAACAATGCGAGACTAAGCAGCCCATCACCAATACGCGTTTTA -CTGCCGATCTCAATTGTATCGTTGGTGGATGGTTTTAAACCTAAGTTCATACCGCTTTGCCCATCAGCACGATAA -GACAGCTCATTAATCGTCGGCGTTTCAAAACCTCGCCCGGCTGCCAGATAGATATTCCAGGCATCGGTCATTGCA -TATTTTAACGAACCGGCAGGTAGCCATTTATGATAACTGGCATCACCGCTGTCATCGCCGTTACCCGGAGTAACG -TAATGGTCGTTGGAATCAAACCACACGGAGCTGTAGCGCACGCCAGCATCCAGCGACAGTTTTTCGCTCAGCTGC -CACTGCGTCTGTAAATAGGGATCGATGTTCCACATCAGATTGCGTTCGTCGCGACGCAACTCACCTTTTTGCCCG -TACTCCGGCATGCCGCTATTCAGGCGGAAGTTATTGTAGCCCTTGCGGTTTTCACTCATGTTTTCGTAGTTCAGG -CCGGTAGTGAACGTGACCGGAACGCCCAGTTCACCACGGTGTGTCCAGCGGCTGTCTATTCCCTGGTAATGGCGT -TGCAGGGTAATCACGCCGCCCGCATGTGACGGGTTAAGTTGTGGTGCCATGGGTATTGACTGGTACTGGGTCGTT -TCTCGCTCTCCGGCATACATCATCACACTCATATCATCCCGCGAACTCAGGCTACGCTCATAGCGCAACCCAGCC -TGAGTTTGCTTGATGGTTTTTCGCGTGTCGTACTGTTCTGCACGAGGCGCTTGTTGTGGATTAGCCTTCCATTCT -GCTTTGGTTAGCCCACCTGGGTCATCTGCTTTGATATCCACACTATTGAAAATCAGACTTAATTTGCTGGCTTCA -TCAATGCGTACGCCCAGTTTGGCATTGGCTAAATTTTTCTGTGCGCCACTATGGTCACGATAGCCGTGGGTCGTA -AAACGCGTGGTTGAGACGGTGTAATCGACATCGCCAGGCTGTGTGCCGTCTCCCGTTGCGCCCGTTGCTTTCAGC -CCATAGCGCCAGCTGCCAAAACTGCCGTAGTAACTACTGGCTTCAATGGTTGGTGGCTGTTGTCCGGTCTGGGTG -GTGACATTCATTACCCCACCAGACGCGTTGCCATACAGGGCAGAGAAGGGGCCACGCAGCACTTCCACATTTTGC -ACACTGCTTAAATCGATGTTGGATGTTTGCCCTTGCCCGTCGGGCATGGTGGCGGGAATACCGTCCACATACAGG -CGAATACCGCGAATACCGTAAGTGGAGCGGGAGCCAAATCCGCGAATCGACAGCTGTAAATCTTGCGCATAGTTC -TGCCGGTTTTGTACCTGCAAACCAGGCACGCCGGTCAGTGATTCGGACAAGTTAATGCGCGGTGTTGCCAGGCGC -ATCTCCTCGCCATCCACCACGCTTACTGCTGCTGGGGTATCCAGTTCTGAAACCACCTGCGGTGCGGCACTGACA -ATCATAGTCTGTTCATCAGCGGCAAAAACAACGGGGGAAAGGACAAGCAGTGCGGGCAAAACGGTCTGTCGGACG -GAAAAAATCTTCATGAAAAAAGCCAGGTTAAGAATGGGAAAACGCCGTCATGGTAATGAAATTGTAAATTTATGG -AAAATGAAACGGCACAATACGTTAAGTAATTGAGAAAATTGTAGTCGTAACGGCAAGAAATGCTCCACATTTGAG -AAAATAATGATTACCATTCCCATTTATAACAAGAGCGTAACGATGATTACGCTTAGCGAAGCATTGTGAAGCAGC -AAAAATATCGGTTCATCAAAGGGAGTCGTCATGCATTTACGTCATCTGTTTTCATCGCGCCTGCGTGGTTCATTA -CTGTTAGGTTCATTGCTTGTTGTTTCATCATTCAGTACGCAGGCCGCAGAAGAAATGCTGCGTAAAGCGGTAGGT -AAAGGTGCCTACGAAATGGCTTATAGCCAGCAAGAAAACGCGCTGTGGCTCGCCACTTCGCAAAGCCGCAAACTG -GATAAAGGTGGCGTGGTTTATCGTCTTGATCCGGTCACTCTGGAAGTGACGCAGGCGATCCATAACGATCTCAAG -CCGTTTGGTGCCACCATCAATAACACGACTCAGACGTTGTGGTTTGGTAACACCGTAAACAGCGCGGTCACGGCG -ATAGATGCCAAAACGGGCGAAGTGAAAGGCCGTCTGGTGCTGGATGATCGTAAGCGCACGGAAGAGGTGCGCCCG -CTGCAACCGCGTGAGCTGGTAGCTGACGATGCCACGAACACCGTTTACATCAGTGGTATTGGTAAAGAGAGCGTG -ATTTGGGTCGTTGATGGCGGGAATATCAAACTGAAAACCGCCATCCAGAACACCGGTAAAATGAGTACCGGTCTG -GCGCTGGATAGCGAAGGCAAACGTCTTTACACCACTAACGCTGACGGCGAATTGATTACCATCGACACCGCCGAC -AATAAAATCCTCAGCCGTAAAAAGCTGCTGGATGACGGCAAAGAGCACTTCTTTATCAACATTAGCCTTGATACC -GCCAGGCAGCGTGCATTTATCACCGATTCTAAAGCCGCAGAAGTGTTAGTGGTCGATACCCGTAATGGCAATATT -CTGGCGAAGGTTGCGGCACCGGAATCACTGGCTGTGCTGTTTAACCCCGCGCGTAATGAAGCCTACGTAACGCAT -CGTCAGGCAGGTAAAGTCAGTGTGATTGACGCGAAAAGCTATAAAGTGGTGAAAACGTTCGATACGCCGACTCAT -CCAAACAGCCTGGCGCTGTCTGCCGATGGCAAAACGCTGTATGTCAGTGTGAAACAAAAATCCACTAAACAGCAG -GAAGCTACCCAGCCAGACGATGTGATTCGTATTGCGCTGTAATAGATATGGCGAGGGTGAAAACGGTGAGACTTG -CCTGCCTTTTATCACGGCGTATCCGGCACTTTCGTCAGTAATCTGAATTTGCCCGGCACGTAGCCGGGCAATTTT -GCAATTAACTCGCCGTTTCAGGCTTAAACACAATTTCCTGTTTTTCTTCATCTTCCTCGACGACTGGCGCAGTGC -TGTGAATTTCAGCAACGCGTTTGCGCACACCAAACCAGCCTATAACCAGCAAAATACCGATAATCGGCAGCGCCG -CGATAGTATAAGTCCCGTTCGGGTAATCGAACGCCATCAGCACAAGGACACTCAGTAAAAACAGTAATGTCAGCC -AGGAAGTGAAGGGCGCGCCAGGCAGTTTAAAACTGACATCCGCTGCTTTGCCTTCTTTAATCGCTTTACGCAGGC -GCATCTGGCACACGATGATAAACGCCCATGAAGCGATGATTCCCAGCGACGCGAAGTTCAACACAATCTCAAATA -CGCGCGACGGCACCAGATAGTTGAGGAATACGCCGACGACATACACAACTAGTGTCGCCAGAATCCCGGCATACG -GCACATGCTGACGACTCATTTTCGCCATAAAACTCGGTGCGGAACCGCCCATCGCCATTGAGCGCAGAATACGTC -CGGTGCAGTACAGACCTGAATTCAGGCTGGAGAGGGCAGCGGTCAGCACCACAATGTTCATAATGCTGCCGATAT -ATGGCACACCCAGTTTAGAGAAAAACGTCACGAACGGACTTTGCCCCGCCTGATACGCGCTCCACGGCAATAACA -TAACCAGCAACACCACGGAGCCGACGTAAAACAGGCCAATACGCCAAATCACACTGTTAATGGCTTTAGGCACCA -TGGTCTGCGGATCTTTACATTCTCCGGCAGCTGTACCCACCATTTCAATGGAGGCAAAAGCAAACACTACGCCCT -GAATCAACACCAGCGCAGGCAGCAAACCGTGGGGGAAGAAGCCGCCATTATCGGTGATTAAATGAAAGCCAGTGG -TGTTGCCATCCAGCGGCTGACCACTACCGAGGAACACTGTACCCACGACCAAAAAGGTCACAATGGCGAGCACTT -TAATAAGCGCAAACCAGAACTCCATCTCCGCAAACCATTTCACACCGATCATATTCATGGTGCCAACGATGGTAA -GTGCAGCGAGCGCAAAGACCCACTGCGGCACGCCGCCAAACGCACCCCAGTAATGCATATACAGAGCGACGGCGG -TAATATCAACAATCCCCGTCATCGCCCAGTTGATGAAGTACATCCAGCCAGCAACATAAGCGGCTTTCTCACCCA -AAAACTCACGGGCATAAGAAACAAAACTGCCACTGGAAGGGCGGTGTAGCACCAGCTCACCCAATGCACGCAGAA -TAAAAAACGAAAACAAGCCACAAATTAAATAAACCAGTGCCAGTGCGGGCCCCGCCATTTGCAGTCGGGCTCCTG -CACCTAAAAACAAGCCGGTGCCAATCGCGCCGCCAATGGCGATCATCTGCACCTGGCGATTGCCCATCGCTTTGT -GATACCCCTCTTCGTGGGCATTAAGCCAGCGGCGTTTCGCGGCGTGTTGATCTGAAGTGTCGGTGTCGTGTTTAC -TCATTGCTCTCCCTGATTGCTTTAATGAAAAAGTCATATAAGTTGCCATGAACAATGTTTATTCATCCTGGCGAT -GATAGTTATCACCATTATTCTTTATGGGTATAAAACTATCGGCGCAGCATCCTACCCGTTATCGATAAACGATGC -AAAACATCCCCTTACAATCCTGAAGGGGATTAATACAACTGACGAAAAAATGACAAATCCTTTTGCTGGTTAACC -TGTGTACTGTCCTACACTTAATCTTTAAAAGATTGTGAGGGGCATATGATTAAGGTGTATGGCGTACCCGGATGG -GGCTCTACAATCAGTGAGCTGATGCTAACACTGGCTGATATTCCTTATCAGTTCGTTGATGTCAGTGGTTTTGAC -CACGAGGGAGCTTCACGCGAGTTATTGAAAACCCTGAACCCGTTGTGTCAGGTTCCGACACTGGCATTGGAAAAT -GACGAGATTATGACGGAGACAGCGGCGATTGCATTGATGGTTCTCGATCGTCGCCCGGACCTTGCGCCACCGGTT -GGGCGCGCCGAACGTCAGCTGTTTCAACGGCTATTGGTCTGGCTGGTTGCTAATGTCTATCCAACATTCACTTTC -GCCGATTACCCTGAGCGTTGGGCTCCTGACGCACCTGAACAGTTAAAGAAGAATGTTATTGAATATCGAAAATCG -CTTTATATCTGGTTGAATTCGCAGCTCACTGCTGAACCTTATGCGTTTGGTGAGCAACTAACGCTGGTGGACTGT -TATCTTTGCACTATGCGCACATGGGGGCCTGGGCATGAATGGTTTCAGGATAATGCCACGAATATCAGTGCGATT -GCTGATGCTGTATGTCAGTTACCGAAATTACAAGAAGTATTAAAAAGGAATGAAATTATTTGAGTGGGATACCAG -AAGATTATGTTATTTATTATTCAGTAACTTTATCCACAATGATGGGCGTAATTAATTAAATTCATGGTATGTTTT -TTAATTTATATCACTCTCCTTTTCATTCAGCGTGTCTATTTCATTTCCTCTGAAAAGAAACTAACTATTCACATC -GTGCAGATGTTTCAGTTGTTATCACAGGCATTCTATAATCTCAAAATGTTTTTAATGATGGATATGCTCGGAGTT -GGAGATGCAATTAATATTAATACAAATAAAAATATCCGGCAGGTATGCTAAAAGGATAAATGGCGTTCTCTGTAT -TTATTCGCAATTATCTGTAGGACAAATATGGAGAGCTTGATGAGTCAGAGCTAAAACAGCAATTGATTAATAAAC -ATGTTGATTTATTCAAGAAAATGGATGTATTTTAAATGTTGATTCTTAATATAACCTAATCAATAGATTATCAAG -TGAGAGCTACACATTATTGGAGGGGCAGGGGAAAACACCATTTTGGGAACAATGCATCAGGTACTCTTACCACTG -AAGCAAGATCATCCGGCACCAGGTGGTGGTGCAGTGCTTTGGAAATGGTCCCCTCGGGGGAGTTGTCATTATTTT -CTATGCTATTTGCTTATTATATTCATCAGGTGAATTTAATAAATTCCTAATTTGAAATATCCACTATTAAGCTAG -TGTTTAACGACGTTAAGATGGCAATGTGCAGATCATGTTATCAGGGTGGGGCGGTAGCGTATATTCCTTATACAA -ACCATCATTCATTTCAATGATTGTTATTGAATTATTTATTGTTGTGAATAAAAAGACATTATGAATATTGGTTTG -ACTTTGCATATCAGGTTTTTTATTACTCGCTGTAATGTACGAGCCTGTCGTGAATAACGTCGAGAACCCATCCGT -TGCGTTTGTGATTATTTTGTTGACTAAACAGACACCCGTTTCTCTGAAGTAAAATCCCAGACTAAATCATCACAT -AACCATGACATTTTTCTGATATTCCCCGGTAACGCCAGATGTCGACTCGCTTAACCACCCTCAGCCATACCAGTG -AAGGCCACCGCGTGTCGGTCCACTACGGCTATGACGATAAAGGCCGCCTGACCGGCGAACGCCAGACGGTGGAGA -ACCCGGAGACGGGGGAACTGCTGTGGCACCATGAGACCGGACATGCGTACAACGAACAGGGGCTGGCAAACCGCG -TCACGCCGGACAGTCTGCCGCCGGTGGAGTGGCTGACCTACGGCAGCGGCTATCTTGCGGGCATGAAGCTGGGCG -GGACGCCGCTGCTGGAGTTCACGCGCGACCGCCTGCACCGTGAGACGGTGCGCAGCTTCGGCAGCATGGCAGGCA -GTAATGCCGCATATAAACTGACCAGCACATACACCCCCGCAGGCCAGTTACAGAGCCAGCACCTGAACAGCCTGG -TGTATGACCGTGACTACGGGTGGAATGACAACGGCGACCTGGTGCGCATCAGCGGCCCGCGACAGACGCGGGAAT -ACGGCTACAGCGCCACGGGCAGGCTGGAGAGTGTGCGCACCCTCGCACCAGACCTGGACATCCGCATCCCGTATG -CCACGGACCCGGCGGGCAACCGGCTGCCGGACCCGGAGCTGCACCCGGACAGTACACTCACAGTGTGGCCGGATA -ACCGCATCGCGGAGGATGCGCACTATGTCTACCGCCACGATGAATACGGCAGGCTGACGGAGAAGACGGACCGCA -TCCCGGCGGGTGTGATACGGACGGACGACGAGCGGACCCACCACTACCACTACGACAGCCAGCACCGCCTGGTGT -TCTACACGCGGATACAGCATGGCGAGCCACTGGTCGAGAGCCGCTACCTCTACGACCCGCTGGGACGGCGAATGG -CAAAACGGGTCTGGCGGCGGGAGCGTGACCTGACGGGGTGGATGTCGCTGTCGCGTAAACCGGAGGTGACGTGGT -ATGGCTGGGACGGAGACAGGCTGACGACGGTGCAGACTGACACCACACGTATCCAGACGGTATACGAGCCGGGAA -GCTTCACGCCGCTCATCCGGGTCGAGACAGAGAACGGCGAGCGGGAAAAAGCGCAGCGGCGCAGCCTGGCAGAGA -CGCTCCAGCAGGAAGGGAGTGAGAACGGCCACGGCGTGGTGTTCCCGGCTGAACTGGTGCGGCTGCTGGACAGGC -TGGAGGAAGAAATCCGGGCAGACCGCGTGAGCAGTGAAAGCCGGGCGTGGCTTGCGCAGTGCGGGCTGACGGTGG -AGCAACTGGCCAGACAGGTGGAGCCGGAATACACACCGGCGCGAAAAGTTCATTTTTACCACTGCGACCACCGGG -GCCTGCCGCTGGCGCTCATCAGCGAAGACGGCAATACGGCGTGGCGCGGGGAGTATGATGAATGGGGCAACCAGC -TTAATGAGGAGAACCCGCATCACCTGCACCAGCCGTACCGTCTGCCAGGGCAGCAGCATGATGAGGAGTCGGGGC -TGTACTATAACCGTCACCGGCACTACGATCCGTTGCAGGGGCGGTATATCACCCCGGACCCGATTGGGTTGAGAG -GTGGATGGAATATGTATCAGTATCCGTTGAATCCCATACAAGTGATAGACCCAATGGGGTTAGATGCGATTGAGA -ATATGACATCAGGTGGACTAATTTATGCCGTATCTGGTGTACCTGGATTGATTGCTGCAAACAGCATTACTAACA -GTGCTTACCAGTTCGGTTATGATATGGATGCTATTGTTGGCGGAGCTCATAATGGGGCCGCCGATGCAATGAGAC -ATTGTTACTTGATGTGTCGAATGACTAAGACATTTGGATCAACAATAGCTGACGTGATAGGTAAAAATCATGAGG -CGGCAGGGGATAGACAAGGTCAGCCAGCTAAAGAAAGAATCATGGATCTTAAAAATAACACTGTCGGTATTGCTT -GTGGCGATTTTTCTGCCAAATGTAGCGATGCATGTATTGAAAAATATAACACTGGGCAACTCTTCGGGTTAGATG -GTATAAAAGCAGATAATCCAATAAAAGCAAAGCAAGGGAGTTCAGATGCTTCAAATTATTAGAGGCAAACTTGTC -ATTTTTTTAATTACCCTTTGTTTATTTGTTGTTTACCTTGGGTTTGATAACAATTCAAATTCTGACATCGTATTT -TATGGACATAAAACACCAAAGAGCGTTGAGATATATCTTTCTGAAAAAAATATTATTTATAAAATAATTAATGAC -CAAAAAATTAGTAGAGGGAATGGTCATTTTATAAGTATAATGGTTAATAATTACAGGACGCACTGTGGAGTGGTT -GATATAAATCTTAATTTTTTCAATGATATTCTTTATAGCGTGCGATTAAAAAACATTAGTAAACTGGAGAATATG -GAGTTCTGCGCTACAAAACAACGGGTGTATTTTAGTGATAAAAACAAGAAGGCTAGTTATAAAATAATTAATTAT -GGAGACTATTATGATGTTGATTATTATGATAACAATTTGAAAAATGAAGTTTTTGACTGGATTGGTAAATGGTCA -TAATGAACAACACCAGAAAGAGAAAAATATAAAATACATACAGAAAGACATGAGAGCAAGGGACGGGGCAGGGCA -AGATCATGAAAATTGTGATGTAAATCACGATTTTCATCTTTGCTTTAACGCCTACAGGTGATCAAAATTTAACCT -TTGGAATAACTAAAAAGATAAAAAAGGACGCCAGGTGAGTATTCAAAGTTTGCTTGATTATATTTCAGTGACCCC -TGATATACGACAACAAGGAAAGGTTAAACATAAATTATCTGCTATTTTGTTTCTCACCGTATGTGCAGTAATTGC -AGGTGCCGATGAGTGGCAGGAAATTGAAGATTTTGGACATGAAAGACTTGAATGGCTAAAGAAATATGGTGATTT -TGATAATGGCATTCCGGTCGATGACACCATTGCACGCGTTGTGAGTAACATTGACAGTTTGGCCTTTGAAAAGAT -GTTTATTGAATGGATGCAGGAGTGCCATGAAATCACTGATGGTGAAATTATAGCAATAGATGGAAAGACCATAAG -AGGCTCCTTTGATAAGGGAAAAAGAAAAGGAGCAATCCATATGGTGAGTGCATTCTCGAACGAAAATGGTGTTGT -ACTGGGGCAGGTGAAAACGGAAGCCAAAAGTAATGAGATTACAGCCATTCCAGAGTTGCTTAACCTACTGTATTT -AAAGAAAAATTTGATAACCATTGATGCTATGGGCTGTCAGAAAGATATCGCTTCGAAGATCAAAGATAAAAAAGC -AGATTATCTTCTGGCAGTAAAAGGCAATCAGGGGAAATTACATCATGCATTCGAGGAAAAATTTCCTGTAAATGT -GTTTTCTAATTATAAAGGCGATTCGTTTAGTACGCAGGAGATAAGTCATGGAAGAAAAGAAACACGTTTGCATAT -TGTCAGTAACGTAACGCCTGAACTTTTGTGATTTTGAATTCGAATGGAAGGGATTAAAAAAGCTTTGTGTAGCAT -TGTCATTCAGGCAGAAGAAAGAAGATAAATCAGCAGAAGGTGTAAGCATCCGATATTATATTTCATCAAAGGATA -TGGATGCTAAAGAATTTGCACATGCTATCAGAGCGCACTGGCTGATCGAGCACAGTCTTCATTGGGTGTTAGATG -TAAAAATGAATGAAGATGCCAGCCGGATAAGAAGAGGAAACGCAGCCTAAATAATATCTGGAATAAAGAAGATGG -CACTGAATTTATTAAGAGATTGCAAAGACATTAAGGGTGAAGAGGAAAAGAAAGAAGGCTGCGTTAAACACAGGG -AAAGATCATCAGAAGTTCACTTTTTGTACTAAACAATTCGCATTTTATGTTTAAAAATTGAGATATTCCTTATTA -CCTAAAGCTGTTTTTTATTGCTTACACATGATCAAATACTCCTTACATAATTAAGGAGAACAAAATGGAACTTAA -AAAATTGATGGGACATATTTCTATTATCCCCGATTACAGACAAGCCTGGAAAATGGAACATAAGTTATCGGATAT -TCTACTGTTGACTATTTGTGCCGTTATTTCTGGTGCAGAAGGCTGGGAAGATATAGAGGATTTTGGGGAAACACA -TCCCGATTTTTTGAAGCAATATGGTGATTTTGAAAATGGTATTCCTGTTCACGACACCATTGCCAGAGTTGTATC -CTGTATCAGTCCTGCAAAATTTCACGAGTGCTTTATTAACTGGATGCGTGACTGCCATTCTTCAGATGATAAAGA -CGTCATTGCAATTGATGGAAAAACGCTCCGGCATTCTTATGATAAGAGTCGCCGCAGGGGAGCGATTCATGTCAT -TAGTGCGTTCTCAACAATGCACAGTCTGGTCATCGGACAGATCAAGACGGATGAGAAATCTAATGAGATTACAGC -TATCCCAGAACTTCTTAACATGCTGGATATTAAAGGAAAAATCATCACAACTGATGCGATGGGTTGCCAGAAAGA -TATTGCAGAGAAGATACAAAAACAGGGAGGTGATTATTTATTCGCGGTAAAAGGAAACCAGGGGCGGCTAAATAA -AGCCTTTGAGGAAAAATTTCCGCTGAAAGAATTAAATAATCCAGCGCATGACAGTTACGCAATGAGTGAAAAGAG -TCACGGCAGAGAAGAAATCCGTCTTCATATTGTTTGCGATGTCCCTGATGAACTTATTGATTTCACGTTTGAATG -GAAAGGGCTGAAGAAATTATGCGTGGCAGTCTCCTTTCGGTCCATAATAGCAGAACAAAAGAAAGAGCTCGAAAT -GACGGTCAGATATTATATCAGTTCTGCTGATTTAACCGCAGAGAAGTTCGCCACAGCAATCCGAAACCACTGGCA -TGTGGAGAATAAGCTGCACTGGCGTCTGGACGTGGTAATGAATGAAGACGACTGCAAAATAAGAAGAGGAAATGC -AGCAGAATTATTTTCAGGGATACGGCACATTGCTATTAATATTTTGACGAATGATAAGGTATTCAAGGCAGGGTT -AAGACGTAAGATGCGAAAAGCAGCCATGGACAGAAACTACCTGGCGTCAGTCCTTACGGGGAGCGGGCTTTCGTA -ATCTTGCCCTGGGCATTATTGTCGTATAAACGCTTTACCGGACACATGACATTCACAATGTGTGTTAATTTTACT -GACATCTTTCAAAAGGAGCGTAATCATGCCGCACATCGACATTAAATGTTTTCCGCGTGAACTGGACGAACAACA -AAAAGCAGCACTTGCTGCAGATATTACCGACGTTATTATTCGTCATCTGAACAGTAAAGACAGTTCGATAAGCAT -TGCTCTACAGCAGATTCAACCAGAATCTTGGCAAGCTATCTGGGATGCCGAAATCGCGCCCCAAATGGAGGCTTT -GATAAAGAAACCTGGTTATAGCATGAATGCTTAACCCGCCGTAACACGCTTGCCGCTGGTAACAAACGTCCCAGC -ACCTAAATGATGCAACGTATTGAGCTTATCATCATCAAACTGCCAGCGGCCTTCGACAAATACCCGTGCGTCTGC -CGCTGCTGATACTACTTCGCCAAACAGCGTGTCGTATTCTTCTTGCGCAGAAGTCGCAGGTAGCAATCGACACTC -CATCCACGCCAGACATTTTTCCTCGACCAGAGGCAAACCAAATACCGGGCCTCTCACAACCGGAATGCCATAGCA -ATTAAATTTATCTTCATCACGCCCCGACACACTTCCCACCGCCCACGTCCAGTTAGTTGCTGCAACGCCCGGGAT -AACGATGCCAAATTTACCGTTATGTTCAATCAACTCCCTGGTCCATGTCGATTTATCTACCACAATCGCCACGCG -TGGAGGTTCAAACTCCACCGGCATTGACCAGGCTGCAGCCATAATGTTACGCCGCTGGGATTGCTCATCGAAACT -GGTGATCAAGACCGTTGGGCCATGATTTAACAGACGGCTGGCATGGTGTAATTCTATGGGGATGAATCGGCTCAT -GGTATCGCCTCGCGAAGAAGGTTTTTTTAAGCGTAGTCCGTAACGCAATAAGTAACGAAATTAACGGGATTGGCG -ATTTGCGAACGTGATGCATGTCCGCGATCGCACAAAATAGCCGGTGCGGCGTCTATTCCAGGTTATAAGTTGAGA -AAACCACTAAGGGAAACGCCTGATGACGCCCATTCTGAATCACTATTTTGCCCGTATTAACTGGTCGGGAGCTGC -TGCGGTCAATATTGATACGCTTCGTGCATTGCACCTGAAACACAATTGCACCATTCCGTTTGAAAACCTCGACGT -TTTGCTGCCGAGGGAAATACAGCTTGATAATCAATCGCCGGAAGAGAAACTGGTGATAGCCCGTCGTGGCGGTTA -CTGTTTTGAGCAGAATGGCGTGTTTGAGCGGGTGTTACGCGAGCTGGGGTTTAACGTTCGCAGCTTGTTAGGGCG -CGTAGTGTTATCAAATCCGCCAGCATTACCGCCGCGCACCCATCGTTTGCTGTTGGTGGAACTGGAAGAGGAAAA -ATGGATTGCTGATGTCGGTTTCGGTGGGCAGACGCTAACCGCGCCGATTCGTTTAGTTTCCGATCTCGTGCAGAC -CACGCCACACGGAGAGTATCGGTTGTTGCAGGAGGGTGATGATTGGGTGTTGCAGTTTAATCATCATCAGCATTG -GCAGTCGATGTACCGTTTTGATCTCTGCGAGCAGCAACAAAGCGATTATGTGATGGGCAATTTCTGGTCGGCGCA -CTGGCCGCAGTCGCATTTTCGCCATCATTTGCTGATGTGCCGCCATTTGCCGGACGGCGGCAAGCTGACACTGAC -CAATTTTCATTTTACCCATTATGAAAATGGGCACGCGGTGGAGCAGCGAAATCTACCGGATGTGGCGTCATTATA -TGCTGTGATGCAAGAACAGTTTGGTCTGGGCGTGGATGATGCGAAACATGGCTTTACCGTGGATGAGTTAGCGCT -GGTGATGGCGGCGTTTGATACGCACCCGGAGGCGGGAAAATAATTTATGTCAGGTTGCCGGATGCGGCGTAAACG -CCTTATCCGGCATACATTAGCCCGGTTGTAGACCTGACAGGCGAAGCGCATCAGACAACGGTTTCAGAGTTCAAT -TGCCCATTCGGCATGAAACAAAATCACCGCTGTGCCTGAAATGGTGACTTTTTCCGGTTGGTTATCACGAATTGT -CACCGTCACTTCAATCATACCGTCACGCCCCAATGCGCGCCCCTGATGGCCTTTAACACGCAACACGTTGCCATC -GTGGGGCAATACGTTGTGATGTACCAACCATGCACCCATCGGGCCATTGGCATTGCCAGTCACCGGATCTTCCAC -AATACCAATCGCAGGCGAGAACATGCGACCATCGGTTTCGTTTTTGCCTGGGCGGATCTGGAACGGGAAGAAACC -ATTGCAGCCAATCTTTTTGCTGATAGCGGTCAGCGCATTAAGGTCAGGCGAAAGGGCGTCGATATCCACTTCCGG -TTTCAGTGGGATCATCACTTTTGAGTGTCCTGTTGTTGCCACCTGAATTGGCAAGCCTGGCAGAATATCGTCCTC -AGTGAGATGAAGCGCGTTGATAATCGCCGCACGTGTTTCACCTTCCAGCGGTGGCTCAAAGCCCGGCGTACCTTG -TTCCAGCGAAATACGATAATCATCGTTGTGCTTTTCGATAGTCACGCGATGTTTTCCTGCCAGCGATGTTTGCCA -GATCGTGCAATTTCCTAAACCTAACACCTTCGCACGTACATAGTGCGCAGCTACTGTCGCGTGACCGCAAATCGG -CACTTCAACCGTTGGCGTAAAGTAGCGGATGCGCACATCGCTGTCGTCGCTGTGCAGCAGAAAAGCAGTTTCCGA -ATGGCCTAACTCGCGGGCGATAAGCTGCATTTGCGCTTCGCTAAGATTATCGGCGGGGAAAACAACACCGGCAGA -ATTGCCGCGAAACGGTTGTGAGGTAAAAGCATCGACGTGGTACACCTGCGGTTTCATTAACGTTCTCCTGTGACT -GGAGAACTATCATAGCCTGCAAGTGGCCGGAGAGCGAAGGGCTATCCGGCCAGGGTGAAATTATCGCCGCGAACG -CACAATTTGATATCGACGAGTAAAGTACTCAAACGGCGCGCTCCACACATGCACCAGTCGGGTGAACGGGAAGAG -CAGGAAGATGGTCATTCCCAACACCAGATGCAGGCGGAAGACGAACGCTACGCCGTTGAGCATCTCTGACGATCC -ACCACGGAAAGTGACAATGCTTTGCGCCCAACCCACCAGCTTCATCATTTCGCTACCATCAGGATACTGTGCTGA -AAACGGTATGGTACTTAGCCCCAACAGACACTGGATCAGCAAAATGCTCATGATGATGATATCCGGCGTAGTGGA -AGTGGCACGCACGCGCTGATTTGTCAGCCTGCGCCACAGCAGTCCTGCGCCGCCAATCAACGTCAACACACCGCA -AATACCGCCGAGCACCATCGCCATGAGTTGTTTCGCTGCCACTGGCAAAAACCACGCGTACATCCAGTGCGGCGT -TAACATGCCGAACAAGTGCCCGAAGAAAATCCCCAAAATGCCGATATGGAACAGATTCGACCATATCACCATCCC -GCGTTTATCGAGCATTTGACTTGAGGAGGCGCGCCAGGTGTACTGCCCGTAGTCGTAGCGCAGCCAGCTGCCGAG -GAAAAACACCGTCGCACAAATGTACGGGTAGATATCGTAAAAAAAGACGTTCAGATACTGAATCATTTCCCACCT -CCCGCACTGATGTCGACATATTGCGGCGCGACATCCTGGCTAAAGCGTCGCTGATATTGATTAAGCGGCGAGCTG -TCACACGCCGTGGCGTTATCTTCAATAAACTTCACCTGTTCCTCTTCCCACACTGCATCAAGCGCCTGGCGGGTG -TCATCGCGCTCTTCGCTGTTTACTTGTTTTGTGACACTGTCACTTGAAAGGGAGCTTCCCGCCAGTTGCAGCAGA -GCATCAAACAACGCGTACCACGGTGCCTCGCGTTGTTTTAAGCGACCGCCAAGCAGGGCGAGGATCGGCGCAACA -TTGAGCAATCCTTCTTTCGCCTGATCGTCAGGCAGTACGCTTAAATACTCCAGATACAGCGGTAGATAATCGGGC -AGTTCCCGACAATCCAGCTGCAGGCCGACCTTTTCATACTCCGCCAGCAGGTCCACCATTGCCTGGCCGCGATCG -CGGGACTCGGCATGAACATGTTCGAACAGCAGCAGCGACGTGGTGCGCCCGCGGTCAAACACTTCGCACCATTCG -GCCTGTTTATCCAGCAGCGGCGCGTTAAGCAGGTTGTGGGTGAAATCCGTAAGCATCGGCGCGTCGCGGCGGATC -AACGCCAGCGCGTCCTCCTTGCATTCCCACAACAGCTCGTCCGGATACTCCATCAACAGGCCGATCACTTTGAGG -ATCTGCATTATTCGCCCTCCGCTTTGTCGCGCACTTCGGTGATGTTGATGGCATCGATACGGCTACTGTTGAACA -GGTTGAATTTACTGTCCGAACCGTGGCAACCGTCGCCAAAGGTAAAACCGCAGCCGTTGCGTTCTGCGAAGGCAT -CGCCCGCCATTTCCCGATGGCTGGTCGGGATAACAAAACGATCTTCATAGTTGGCAATGGCGAGATAGCGATACA -TCTCTTCGACCTGGGCGACGCTCAGGCCTACTTCGTCGATGGCACGAGTATCAGTAACGCCTTCCACGGTTTGTG -AACGCATATAGTGGCGCATCGCCATCATCCGTTTCAGCGCCCGCAGTACCGGACCGGTATCGCCGGCACTCAACA -TATTGGCGAGATATTGCACCGGAATACGCAGGCTTTCGATGGCGGGCAGCACGCCTTCGCTTTTCGGCAAACCGC -CCGCATCTGCGTAGGACTGAATCGGTGACAGCGGAGGAACGTACCAGACCATCGGCAGGGTGCGGTATTCAGGGT -GCAACGGTAGTGCCAGTTTCCAGTCCATCGCCATTTTGTAGACTGGCGAACGCTGGGCAGCGTCAATCACATTTT -GTGGAATACCTTGTTTCAGGGCTTCCTCGATCACTGAGGGATCGTGTGGATCGAGGAACACTTCGCACTGGCGTT -CATAGAGGTCAACTTCGCGCTCGGTGCTCGCCGCTTCCTCGATGCGGTCGGCGTCGTAAAGCAGCACGCCCAGAT -ACCGGATGCGACCCACGCAGGTTTCTGAGCACACGGTCGGTTGACCGGACTCAATTCGTGGGTAACAGAAGATGC -ATTTTTCTGACTTGCCGCTTTTCCAGTTGAAGTAGATTTTTTTGTACGGACAACCGCTTATGCACAAACGCCAGC -CACGGCATTTATCCTGATCAATCAGCACAATGCCGTCTTCTTCGCGTTTGTAGATAGCGCCGCTTGGGCAGGTCG -CCACGCAGCTGGGATTGAGGCAGTGTTCGCACAGGCGCGGCAGGTACATCATGAAGGTGTTTTCAAACTGCCCGT -ACATCTCCTTTTGCATGGCCTCGAAGTTGCGGTCGCGGGCACGTTTTTCGAACTCACCGCCCAGCAGTTCTTCCC -AGTTTGGCCCCCAGATCACTTTGTCCATCCGTTTGCCGTCAATCAGTGAACGCGGGCGAGCAGTAGGAATATGTT -TGCCTTCCGGTGCGCTATGCAAATGTTCGTAGTCGAAGGTGAAAGGTTCGTAGTAATCATCAATCTGCGGCACCA -CCGGGTTGGCGAAGATTTTGGTTATTACGCCCATCTTGTTGCCCAGACGCGGGCGTATCTTGCCATTCACATCAC -GCACCCAGCCGCCTTGCCACTCTTCCTGATCTTCCCAGTTTTTCGGATAACCAATGCCCGGTTTGGTTTCGACGT -TGTTAAACCATGCGTACTCCATGCCTTCGCGCCCGGTCCAGACGTTTTTACAGGTCACCGAACAGGTATGGCAGC -CGATACATTTGTCGAGGTTAAGCACCATGCCGACTTGTGAACGGATTTTCATTTTTTCGCCTCCTGTACCTGATC -GCGACCTTCATCATCCAGCCAGTTAACGTTCTTCATCTTGCGGATCATGATGAACTCATCGCGGTTCGATCCGAC -GGTGCCGTAGTAGTTAAAGCCCCAGGCCAGCTGCGCGTAACCGCCAATCATATGCGTTGGTTTCGGGCAAACGCG -GGTAACCGAGTTATGAATGCCGCCGCGCATGCCAGTTACTTCCGAACCAGGAATATTCATAATGCGTTCCTGGGC -GTGATACATCATGGTCATGCCCGGCGGTACACGTTGGCTGACCACCGCGCGGGCAGTCAGCGCGCCGTTGGCGTT -GAATACTTCCACCCAGTCGTTATCGACAATGGTCAGTTCTCGGGCATCTGTTTCGCTGATCCAGACAATCGGTCC -ACCGCGAGAGAGCGTCAGCATTAGCAGGTTTTCACTGTAGGTTGAGTGAATGCCCCATTTCTGGTGCGGCGTCAG -GAAGTTAAGTGCTTTTTCCGGGAAGCCGTTTGGCGGTATCTGGCGCATCTCACTGACGCTACGGGTGTCGATAGG -CGGGCGATAAGCCACCAGGCTTTCACCAAAAGCACGCATCCACGGATGATCCTGATAGAGCTGCTGGCGTCCCGA -CAGCGTGCGCCACGGAATTAACTCATGAACGTTGGTGTATCCCGCGTTATAGGAGACGTGATCGCTTTCCAGACC -GGACCAGGTGGGGCTGGAGATAATTTTACGCGGCTGCGCCTGAATATCGCGAAAGCGAATCTTCTCGTCCTCTTT -GTGCAGCGCCAGATGGGTATGTTCGCGCCCGGTGATCTCGCCCAGCGCCTGCCACGCTTTGACTGCAACATGACC -GTTGGTTTCCGGTGCCAGTGCCAGAATCACTTCTGAAGCGTCAATGGCGGTGTCAATCAGCGGACGCCCCTGTGC -CGGGCCATCACGCTTGGTGTAATTGAGTTTGCCGAGGAAATCGATTTCATCCTGGGTATTCCACGAAATCCCTTT -ACCGCCATTGCCAAGTTTGTCCATCAATGGCCCGAGCGAGGTAAAGCGTTCATACGTAGCAGGGTAGTCGCGCTC -CACCGCCACAATATTCGGCGCGGTTTTGCCTGGAATCAGATCGCATTCGCCTTTGCGCCAGTCGAGCACTTCACA -CGGCTGTGAGAGCTCTGCCGGAGAGTCATGCAGTAGGGGTTGTAATACCACGTCGGTTTCTTTGCCAAGATGACC -CACGCACACTTGCGAAAATGCTTTGGCGATACCTTTGTAGATTTCCCAGTCGCTGCGTGATTCCCACGCCGGATC -GACCGCCGCAGAAAGCGGATGAATAAACGGATGCATATCCGAGGTGTTCATATCGTCTTTTTCGTACCAGGTGGC -GGTGGGCAGAACGATATCGGAGAACAGGCAGGTACTGGACATGCGGAAGTCGAGCGTCACCAGCAGGTCGAGCTT -GCCTTCAATCGCTGCAGTTTGCCACTCGACTTCTTCCGGTTTGATCCCGTCGCTGGCACCGAGTTCCTCGCCCTG -AATCCCGCTTTCGGTCCCCAGCAGATACTTCTGCATATACTCGTGGCCTTTGCCGGAGGAGCCAAGCAGGTTAGA -GCGCCAGACAAACAAATTACGCGGATGATTGCTGCTGCTATCTGGTTGTTCGCAGGCCATACGTAAATCGCCCGA -TTTCAGCGCCTGGGCGGTAAATTCTGTGGGGGATAATCCGGCCTTGTCGGCTTCAGCTTTAATCCCGAGCGGGTT -ACGCCCCAGCTGCGGCGCAGAAGGTAGCCAGCCCATACGTTCGGCGCGAACGTTGAAATCAATCAGATGACCGCT -GTACTTACTGGCATCGGCGAGCGGTGAAAGTAACTCCTGAGCAGAGACTTTTTCATAGCGCCATTGGCTGGAATG -ATTGTAGAAAAACGAGGTGCTGTTCATTTGGCGCGGTGGTCGGTTCCAGTCGAGCGCAAAGGCCAGTGGCAACCA -GCCGGTTTGTGGGCGCAGTTTTTCCTGGCCGACATAGTGTGCCCAGCCGCCACCGCTTTGCCCGACACAACCGCA -GAAGATCAGCATATTGATCATCCCGCGGTAGTTCATGTCCATGTGATACCAGTGGTTAACACCTGCGCCGAGGAT -AATCATCGAGCGCCCATGCGTTTTATGGGCGGTATCGGCAAATTCACGGGCGATGGTTTCAATATACTGGCGCGG -CACGCCGGTAATTTGCTCACCCCAGGCTGGGGTGTACGGTTTGATTTCAGCGTAATCTTTCGCACTGTTTTCATC -TTCCAGCCCGCGATCGAGGCCGTAATTCGCCAGTACCAAATCATAAACGCTGACCACCGGACAGGTGTTGCCATC -GACTAACGTCAGGTTTTTAACGGGCAATTGGCGCACCAGCACCGGATTGTGTTTTACGCTGCGAAAATGCGGATT -TTCAATGCCGCCAAAGTAGGGGAAGGCCACGCCTGCAACAGCGTCATGTTGACCGAGCAGGGTTAACGACAATTC -GGTTTCCGTACCGGCGGCAATGGATTCCAGATTCCATTTGCCTTTTTCTCCCCAGCGGAAACCAATCGAACCGTT -CGGCACTACCAATTCACCTGCGGTATTAACTGCTACGGTTTTCCACTGCGGATTGTTGCTTTCGCCCAGTCCATC -CACCAGGTCAGATGCGCGGATCATGCGCCCGGGAACGTAGCTACCATCGTCGCGAGGCTCCAGCATTACCAGCAT -CGGCATGTCGCTGTAGCGGCGGCAGTAGTTGATAAAGTAGTCGCTGGGATTATCGAGATGAAACTCTTTTAAAAT -CACATGGCCCATTGCCATCGCCAGGGCGCTATCAGTGCCTTGTTTCGGTGCCAGCCACTGGTCGCACAATTTGGC -CACTTCAGAGTAGTCAGGGGTAATGGCGATGGTTTTAGTGCCTTTGTAGCGTACTTCGGTAAAGAAGTGGGCGTC -CGGCGTACGTGTCTGCGGTACGTTAGACCCCCAGGCGATGATGTAGCTGGAGTTATACCAGTCGGCAGATTCCGG -TACGTCGGTTTGCTCGCCCCAGGTCATCGGCGAGGCGGGCGGCAGGTCGCAATACCAGTCGTAGAAACTTAAACA -GGTGCCGCCAAGCAGCGACAGATAACGCGTTCCGGCGGCGTAAGAAACCATCGACATCGCCGGGATCGGCGAGAA -ACCGGCAACGCGATCCGGGCCGTAGGTTTTGATGGTCCAGACGTTAGCGGCGGCAATCAGCTGGTTTAGTTCCTG -CCAGTTGGAGCGGATAAACCCGCCGCGCCCACGCACTTGTTTGTAGCTCAGGCACTTTTGCGGATCGTTCATAAT -CGATGCCCACGCCAGTACCGGATCGCTGTGTTGCTTGAGGGCTTCGCGCCACAGTTCAATCAGTCGTTTACGAAT -GAGCGGGTATTTCAGGCGGTTAGCGCTGTAAAGATACCAGGAGTAACTTGCGCCACGCGGGCAGCCGCGAGGTTC -ATGATTGGGCAGGTCAGGGCGAGTGCGCGGGTAGTCGGTCTGTTGGATTTCCCAGGTCACCAGACCATTTTTAAC -GTAGATTTTCCAGCTACAGGAGCCTGTACAGTTAACACCGTGGGTGGAACGCACGATTTTGTCGAACTGCCAACG -CTGGCGATAGCTGTCCTCCCAGTCGCGGTTGCTATGCATCACCTGTCCGTGACCATCGGCAAAGGTTTCGCCCTT -TTGTTTGAAGTAGCGAAAGCGATCCAAAAGTTTACTCATGACATGACTCCTGCTCCAGGAATGAATTGGGATCTG -ATGCCTTGTCGGATGCGACACGGTTGTACATCAGGCATCGATCTCTTATTTTTGGCTGAACTTCCGCCGACCATA -AACCAGCCAGGTCAGCAGCACACAAACGATGTAGAAGATTAAAAACACTTTCATCGCGCCGACCGGAGAGCCGGT -CATATTGAGCGACATGCCAAACGCCTGCGGAATAAAAAAGCCGCCCACTGCGCCAATGGCTGAGATAAAGCCCAG -AGCCGCCGCCGTTTCGGTGACGGCTTCTTTATGAGCTTGCTCATCACTACCGCCTTTCATCTTTACCCGATAAAT -GGTTATCTGGCGAAAGATGACGGCGATCATCTGGAAAGTAGAACCACTTCCCAGACCCGCAGTCAGAAACAGCCC -CATAAATACGGCGTAAAAGGCGATGAAATTACCGGAGCCTGTGCCCGGTAAGGTAAGGAACAGCAGGGCACTGAA -AATCGCCATAAAAATAAAGTTGATCAACGTCACCCGCACGCCGCCGAACTTATCGGAAATAGCACCACCAACCGA -CCGCGCGATGGCACCGATAAATGGGCCAAAGAACGCCAGGCGCAGAATATTCACATCCGGGAACTGGGTTTTTGC -CAGCATGGCAAAACCCGCAGAAAAACCGATAAACGAACCGAAGGTGGCAAGGTAAAGCAGGCTCAGCAGCCAGAG -ATGCAGGCGTTGTAAGACAGGGAGCTGGTCGGCAATTGAGGCGCGTGAACTGGCGATATCATTCATCCCTGACCA -TGCGGCGATCGTGGCAATCGCCAGTAGCGGTACCCAAATCCATGCGGCATTCGCCAGCGACATCACCGAACCGTC -GGCCTGCGGTACGCCATTGACGCCGAGAAAGGCAAATACAGGTACAAAAATGACCAGCGGTGCAACCAGCTGCAT -TACACTTACACCTAAGTTTCCTAATCCGCCATTAATCCCAAGAGCGCTCCCTTGTTTGGCTTTTGGAAAGAAGAA -ACTGATATTGCCCATGCTCGAAGCAAAGTTTGCACCTGCAAAACCGCATAGCAAAGCGATAACGATAAATATCCC -AAAAGGAGTATTCGGATTTTGCACGGCAATTCCGAGCCAGACGCAAGGAATAATCAGGATTGCAGTACTAAAAAC -CGTCCATCGGCGTCCACCGAATATAGGCACCATAAAGGAGTAGGGAACACGCAATAATGCGCCAGAAACGGAGGG -TAATGCGGTTAATAAAAAGAGTTGATCGGTAGTAAAATTAAAACCGATTTTATTGAGATTAACGGTAACTGCGCT -AAATAGCATCCAGACACAGAAGGCAAGAAGTAGACAACTGACTGATATCCAGAGATTTCTTCGAGCAATATGTTT -TCCTTTATTTTCCCAGAAGGCCGGATTTTCTGGTTTCCAGTCGCGCAAAAGATAACGACTATTTTTCTCATTTTG -CAGTGCCATATTGTTCCTCACATGCACACATTGGTAATGAAAAAAAGACAAAACACGAGGTAAGGCGCAATAGCC -AGTTATTAGAATTAAGGATGAATTGGGTGAAGTGCTGATTGAAAGAATAGATAAGAAAGCGTAACCGCGGGGGCA -GAATGGGGATTAAGTAGCCAGATATGTGTTACTAAATGTAACTAACAAGCTAACCTTCAAACGGGGTTAATCTTT -GAACGTATGTCATGTTTCAACCCTTCAGATCGTGAATCTAAAGGGTTACATATTAACTATATTATCAACAAGACC -AGACACTTATAGAATTAGTGATGATTTATTCACTAAAAAGGCCATGAACTGGAGGAAAACGATCTGTCCAGAAGG -TCTATCGGTTCCTCTCTTATTGCCTGATTGTAATAATCGTTATTACAGTAAGTATTGTTTATTTCATCTAAGGTC -ATGTTTTTAACTTTTATATTCATCTGGTTTACAACTTCCTCTGTCTTGTAAGTGTGTATATTATATGGGGTATAT -GCTTTTTTAATAGGATAGTGAAACAATTCGTTATCCACATCTATTCCGTCAGAGTGAACTTCAAATGCACCAGGC -GAAAGAATTGCCAGGCCAGTATTAAGCTTAAGTGCTGGGGAAAACAAATTAAATAACATGAGCTGCATAGTAGGG -CAATTGTTCTTCCCAGAAACATTTAAAAAATTTAAGTTTTGCTCTGTTTTATTATGGGGAATAAAGTTCCAATAT -CGGATGTATTATTAGTATCAATGTGGGTTATTTTATTATTGTCCAGTCTTAAACTTTTGATAGATGGAAGATAAG -TCAGGAAATCAAGATTTATATATTTCAACTGGTTGTTAGCAGCGTTTAATGTCTGAACATTGCAGAAGTTGCTAT -AGAATATTTTAATTTCAGAAAGCAAATTGTTGTTAATAAGTAACGTATTCAAGTTGGGAAATAAGTCATTGTGTA -AACTTGTTAGTTTATTATGGGATAGATCCAGCAGTAAGAGTTCATTTTTATTACCTGCAACAATATCAGTTAATT -GATTATGGCTGAGATTCAGGTATTGCAGCCATTCGCAAGATTCTAATTGCACAAACTCTAGTTGATTATGTGCCG -CACTAAAATAAGTAACTGATGAAAGCCTATCTATATCAATATTTCTGAGAGCATTATTATTCATAGATATATGTG -TAATACTTACATTTCTGCCTTGAGGAAAATTTATTGACTCAAGAGCATTACTATTCAGACTTAGCTTTACGAGTC -TATCGTAGTTGGTTGCATCAAAATGTGTGAATTGGTTATTATCAAGATTGATAGATGTGAAGTTTTGCAGCCCTG -GTGGTTGAGTGGTTAAATTAAGTCCTGATAAATCAATGGTCACTTCATTAGTGTCATCAATTATATTTCTTACTG -CAGTCCAGTACTGCATTTGTGCAAGTGGATCATTGTTGATGCCGTTAACTAATACATGCCAAAGATGTTTTGATG -ATATTAGTTGATCAATGTCATTGGTTGGCAGTAAATTGTTATTGCTTAAGTTTAAATATTCCAGTTTTGTAGTGT -TTTTGGCGTTTAAATGTGCAATATGGTTGTCGTTTAAAGTGATTGTTTTCATCCTGGGATGATTGTGTAATATAA -GGTCAGTGATCATATTGTGATGGGCACTTAACTCAATCAGAGATTCTTGCCGCGCGAGCCGTTGGCTTCATCGTT -ATAGCCTTTAAAATCATATTCCCAGTGACCAAAACCAATCATTTGATCATTGATTTGCGTTTCTCCTTTAAAGCC -GAGACGGGCATAAGTTTTATCACCATCGTCACGCTTATCATCAGTAAAATAACGTAGAGCGGTAACCTTGCCATA -AAGGTCGAGTTTATTACCATCCTTGTTATAGACTTCGGCAGCGTGTGCTACGTTCGCAGCTAACAAACCAGTTAC -AACCACCGCAACTATTTTTAATTTCATTTAACAGAATCCTTTTAATTATCGTTAAACGTATTTTCTAAACGAATT -TTAAACGGCGTCATTTATAAATGACATACTGTTTTTAAAATAGAATGGTGATTAAAAACAATGAGAAAAATAGAT -GAAATAATATTATTTATCGATATGTGATCGAAGTCGAAATGAGATATAAGGTGAATTACTGGTATTTGAAATTTA -TTTTTTTAATATTGTCGGAATTTATCTGATTAACTACCGGGCCGTAGACCCGGCAGTTATTTTAACCACGACGTG -TCGCCAGCCAGCAGAGCAGGGAACCGCCGCAGACCATCAGCGCGCCTTGCCAGAACGAGAACGACAGCGGGGCGC -TGAGCAGCACGGCTGCAAGCGCTGAGGAAAGTACAGGCGTAAAATACGAACCTACCGCCATAATGGTGACATTGC -CATGCAATATACCGACATTCCATGCAGCATAAGCAAATCCTAAGGTAAATGCCGCAGAGATGAGTTTAATCATGA -CGGGCGTGCTAAATATCATTTCTGGTTGTGGCGTAAGAAAATAGTAAACCCACAGACTTGCTCCCGTTAGCAGGA -CAAAAACGGTAATTCCATTAAATCCGCGTGCGTATTTATTCGTTACTGTGCAATAGGCTGCCCAGATAAACGCAC -CAATGAACGCCAGGAAATAACTCAATGGGCTGGTGGTGATATTATTGATGATTTCATCATAATGTAACCCATTGT -CACCGCCTAACACCCAACAGACGCCGACGAGGGCTAATAATAATCCAGGTACAATCAACCAGTTGGTTTTCTGAC -CATTAAACAGAATGGCAAAGAGAATTGTCAGGCTGGGCCACAGATAGTTCACCATACCCACTTCAATCGCCTGAT -GATGGGTCGCCGCATACCCTAAGGAAAGCGCCAGACAGATTTCATAGCTGACGAATAACAGACTCCCGGCGAGTA -AATAGCCTTTCGGGATTTGCCGAATACGCGGAAATCCAACCGTGAAGATTAACAGCAGCCCGCTTAATGAATAGA -TAGCAGCTGCGCCGCCGACCGGGCCGAGCCCCTCACTGACACCGCGAATCAATCCTACCATCGTGCTCCACAGGA -CGATCGCTATCAGCCCTATGAGCGTTGCTTTTTGTCGTGTCATGCTCGCTGTTTTGTCTCTCTTGCCGTTAAAAA -TTAAGCTGAATTTTATAGCATTTTTTTAACTGGCCTGTCAGGCAGTGGTGCGTTTTTCTACCGCTATTGAGGTAG -GTCAATTTGCGAAGGCGGATTATTTTGTGGCAAACAGATGTTCTTTTTGATTTCGCGCAAAAAGATTCAGAATTT -TACTGTTAGTTTCCTCGCGCAGTAATACCCCTGAAAAAAGAGGAAAGCAATGGACGTCAGTCGCAGACAATTTTT -TAAAATCTGCGCGGGCGGTATGGCTGGAACAACAGTAGCGGCATTGGGCTTTGCCCCGAAGCAAGCACTGGCTCA -GGCGCGAAACTACAAATTATTACGCGCTAAAGAGATCCGTAACACCTGCACATACTGTTCCGTAGGTTGCGGGCT -ATTGATGTATAGCCTGGGTGATGGCGCAAAAAACGCCAGAGAAGCGATTTATCACATTGAAGGTGACCCGGATCA -TCCGGTAAGCCGTGGTGCGCTGTGCCCGAAAGGGGCCGGTTTGCTGGATTACGTCAACAGTGAAAACCGTCTGCG -CTACCCGGAATATCGTGCGCCAGGTTCTGACAAATGGCAGCGCATTAGCTGGGAAGAAGCATTCTCCCGTATTGC -GAAGCTGATGAAAGCTGACCGTGACGCTAACTTTATTGAAAAGAACGAGCAGGGCGTAACGGTAAACCGTTGGCT -TTCTACCGGTATGCTGTGTGCCTCCGGTGCCAGCAACGAAACCGGGATGCTGACCCAGAAATTTGCCCGCTCCCT -CGGGATGCTGGCGGTAGACAACCAGGCGCGCGTCTGACACGGACCAACGGTAGCAAGTCTTGCTCCAACATTTGG -TCGCGGTGCGATGACCAACCACTGGGTGGATATCAAAAACGCTAACGTCGTGATGGTGATGGGCGGTAACGCTGC -TGAAGCGCATCCCGTCGGTTTCCGCTGGGCGATGGAAGCGAAAAACAACAACGACGCAACCTTGATCGTTGTCGA -TCCCCGTTTTACGCGTACCGCTTCTGTGGCGGATATTTACGCGCCTATTCGTTCCGGTACGGACATTACGTTCCT -GTCTGGCGTTTTGCGCTACCTGATCGAAAACAACAAAATCAACGCCGAATACGTTAAGCATTACACCAACGCCAG -CCTGCTGGTGCGTGATGATTTTGCTTTCGAAGACGGTCTGTTCAGCGGCTACGACGCTGAAAAACGTCAATACGA -TAAATCGTCCTGGAACTATCAGCTCGATGAAAACGGCTATGCGAAACGCGATGAAACACTGACTCATCCGCGCTG -TGTGTGGAACCTGCTGAAAGAGCACGTTTCCCGCTACACGCCGGACGTCGTTGAAAACATCTGCGGTACGCCAAA -AGCCGACTTCCTGAAAGTGTGTGAAGTGCTGGCCTCCACCAGCGCACCGGATCGCACAACCACCTTCCTGTACGC -GCTGGGCTGGACGCAGCACACTGTGGGTGCGCAGAACATCCGTACTATGGCGATGATCCAGTTGCTGCTCGGTAA -CATGGGTATGGCCGGTGGCGGCGTGAACGCATTGCGTGGTCACTCCAACATTCAGGGCTTGACTGACTTAGGCCT -GCTCTCTACCAGCCTGCCAGGTTATCTGACGCTGCCGTCAGAAAAACAGGTTGATTTGCAGTCGTATCTGGAAGC -GAACACGCCGAAAGCGACGCTGGCTGATCAGGTGAACTACTGGAGCAACTATCCGAAGTTCTTCGTTAGCCTGAT -GAAATCTTTCTATGGCGATGCCGCGCAGAAAGAGAACAACTGGGGCTATGACTGGCTGCCGAAGTGGGACCAGAC -CTACGACGTCATCAAGTATTTCAACATGATGGATGAAGGCAAAGTCACCGGTTATTTCTGCCAGGGCTTTAACCC -GGTTGCGTCCTTCCCGGACAAAAACAAAGTGGTGAGCTGCCTGAGCAAGCTGAAGTACATGGTGGTTATCGATCC -GCTGGTGACTGAAACCTCTACCTTCTGGCAGAACCACGGTGAGTCGAACGATGTCGATCCGGCGTCTATTCAGAC -TGAAGTATTCCGTCTGCCTTCGACCTGCTTTGCTGAAGAAGATGGTTCTATCGCTAACTCCGGTCGCTGGTTGCA -GTGGCACTGGAAAGGTCAGGACGCGCCGGGCGAAGCGCGTAACGACGGTGAAATTCTGGCGGGTATCTACCATCA -TCTGCGCGAGCTGTACCAGTCCGAAGGTGGTAAAGGCGTAGAACCGCTGATGAAGATGAGCTGGAACTACAAGCA -GCCGCACGAACCGCAATCTGACGAAGTGGCTAAAGAGAACAACGGCTACGCGCTGGAAGATCTCTATGACGCTAA -TGGCGTGCTTATTGCGAAGAAAGGTCAGTTGCTGAGTAGCTTTGCGCATCTGCGTGATGACGGTACAACCGCATC -TTCTTGCTGGATCTACACCGGTAGCTGGACAGAGCAGGGCAACCAGATGGCTAACCGCGATAACTCCGACCCGTC -CGGTCTGGGGAATACGCTGGGATGGGCCTGGGCGTGGCCGCTCAACCGTCGCGTGCTGTACAACCGTGCTTCGGC -GGATATCAACGGTAAACCGTGGGATCCGAAACGGATGCTGATCCAGTGGAACGGCAGCAAGTGGACGGGTAACGA -TATTCCTGACTTCGGCAATGCCGCACCGGGTACGCCAACCGGGCCGTTTATCATGCAGCCGGAAGGGATGGGACG -CCTGTTTGCCATCAACAAAATGGCGGAAGGTCCGTTCCCGGAACACTACGAGCCGATTGAAACGCCGCTGGGCAC -TAACCCGCTGCATCCGAACGTGGTGTCTAACCCGGTTGTTCGTCTGTATGAACAAGACGCGCTGCGGATGGGTAA -AAAAGAGCAGTTCCCGTATGTGGGTACGACCTATCGTCTGACCGAGCACTTCCACACCTGGACCAAGCACGCATT -GCTCAACGCAATTGCTCAGCCGGAACAGTTTGTGGAAATCAGCGAAACGCTGGCGGCGGCGAAAGGCATTAATAA -TGGCGATCGTGTCACTGTCTCCAGCAAGCGTGGCTTTATCCGCGCGGTGGCTGTGGTAACGCGTCGTCTGAAACC -GCTGAATGTAAATGGTCAGCAGGTTGAAACGGTGGGTATTCCAATCCACTGGGGCTTTGAGGGTGTCGCGCGTAA -AGGTTATATCGCTAACACTCTGACGCCGAATGTCGGTGATGCAAACTCGCAAACGCCGGAATATAAAGCGTTCTT -AGTCAACATCGAGAAGGCGTAAGGGGGCGAACAGATGGCTATGGAAACGCAGGACATTATCAAAAGGTCCGCAAC -TAACTCCATCACGCCGCCTTCTCAGGTGCGTGATTACAAAGCAGAAGTCGCAAAACTTATCGACGTTTCCACCTG -TATCGGCTGTAAAGCCTGTCAGGTGGCGTGTTCGGAGTGGAACGACATCCGTGATGAAGTGGGGCACTGCGTCGG -GGTTTACGATAACCCCGCCGATCTGAGCGCCAAGTCCTGGACGGTGATGCGCTTTAGCGAAACCGAACAGAACGG -CAAGCTGGAGTGGCTGATCCGTAAAGACGGCTGTATGCACTGTGAAGATCCCGGCTGCCTGAAGGCGTGCCCGTC -TGCTGGTGCAATCATTCAGTACGCTAACGGGATTGTCGATTTCCAGTCGGAAAACTGCATCGGCTGTGGTTACTG -CATTGCCGGGTGTCCGTTTAATATTCCGCGCCTCAACAAAGAGGATAACCGGGTATATAAATGCACGCTCTGCGT -CGATCGCGTCAGCGTCGGCCAGGAACCGGCTTGTGTGAAAACCTGTCCGACCGGGGCTATCCACTTCGGCACCAA -GAAGGAGATGCTGGAGCTGGCGGAACAGCGCGTGGCGAAACTGAAAGCGCGTGGTTACGAACATGCTGGCGTCTA -CAACCCGGAAGGGGTCGGTGGTACGCACGTTATGTACGTGCTGCATCACGCCGATCAGCCGGAGCTGTATCACGG -TCTGCCGAAAGATCCGAAGATCGACACCTCGGTAAGCCTGTGGAAAGGCGCGTTGAAACCGCTGGCAGCGGCTGG -CTTTATTGCCACTTTTGCCGGGTTGATTTTCCACTACATCGGTATTGGCCCGAATAAGGAAGTGGACGATGACGA -GGAGGATCATCATGAGTAAGTCGAAAATGATTGTGCGCACCAAATTTATTGATCGCGCCTGTCACTGGACCGTGG -TGATTTGCTTCTTCCTGGTGGCGCTGTCCGGGATTTCGTTCTTCTTCCCGACGCTGCAATGGCTGACGCAAACCT -TCGGTACGCCGCAGATGGGACGCATTTTGCACCCGTTCTTCGGCATTGCGATTTTCGTCGCACTGATGTTTATGT -TTGTGCGTTTTGTGCATCACAACATCCCGGATAAGAAAGATATTCCGTGGCTGTTGAACATTGTCGAAGTATTGA -AAGGCAATGAGCATAAAGTGGCGGATGTCGGTAAGTACAACGCCGGGCAAAAGATGATGTTCTGGTCGATCATGA -GCATGATTTTCGTGCTGCTGGTGACCGGGGTGATTATCTGGCGTCCGTACTTTGCGCAGTACTTCCCGATGCAGG -TTGTTCGCTACAGCCTGCTGATCCACGCGGCTGCGGGTATCATCCTGATCCACGCCATCCTGATCCATATGTATA -TGGCATTTTGGGTGAAAGGATCGATTAAAGGGATGATCGAAGGGAAGGTAAGTCGTCGCTGGGCGAAGAAACACC -ATCCGCGCTGGTATCGTGAAATCGAGAAGGCAGAAGCGAAAAAAGAGAGTGAAGAAGGGATATAATCTCTTTTGA -ACTTTAAGCTGAAAATGGCGCTGTAAAAGGCGCCATTTTCATATTGTAGACAACGTAGGCTTTGTTCATGCCGGA -TGCGGCGTGAACGCCTTATCCGGCATGAAAACCCTTCAAATCCAATAGATTGCAGTGAACGTGTAGGCCTGATAA -GCGTAGCGCATCAGGCAATGTTGCGTTTGTCATCAGTTTCAAATGGCGCTGTAAAAGGCGTCATTTTCATATTGT -AGACAACGTAGGCTTTGTTCATGCCGGATGCGGCGTGAACGCCTTATCCGGCATGAAAACCCTTCAAATCCAATA -GATTGCAGTGAACGTGTAGGCCTGATAAGCGTAGCGCATCAGGCAATGTTGCGTTTGTCATCAGTTCTAAATGGC -GCTTTATAAAGTGCCATTTTTTTATTGCGTAACCAGACGGCGTAATCGCGACACATCCACTGTTTTTTCTGCCTC -TGCCAGACTCCAGGCGTTTTGCAGATTCAGCCACATTTGCGGCGAACTGCCGATCACCACGGAAAGTTTAATCGC -CATTTCTGGCGTCAAAGCTGCTTTTCCTGTCAGCAATCGGCTTGCCGTTGAGGGAGCAATTTCCATTGCTCTGGC -AAACTCGCGCAGGCTGACATTAAGTTCGTCCAGTGATTCCTGAATAATGTCCCCCGGGCGGGGATGATTGGCCAT -TTTCATTAGTGTCTTTACTCTCAGTAGCGTTCCTTCACTGGGAACACTATCATTATTGTTCCTTCCTACGCAACA -ATAATCCATTTAGCCATTTCATGTTGGAGAGTGTGCGATGCTGCGACCCGAACATGGCAGTCGCAGCAAAGGCCT -CTTAGTGACGGAAATCAATCACCATGCGGCCACGGATTTTGCCTTCTTCCATCTCAGTAAAGATGGTGTTGATGT -CCGCTAACGGACGCAGGGCGACTTTCGGCACCACTTTACCTTCGGCGGCAAACTGGAAGGCTTCAGTTAAATCCT -GGCGCGTGCCGACCAGCGAACCGACCACTTCAATACCATCCAGCACAAGACGTGGGATATCCAGGCTCATAGACT -CCGGCGGTAGACCGACAGCCACAACACGACCGCCTGCACGGACAGCATCAACTGCCGAGTTAAACGCAGCTTTAG -CTACCGCTGTTACCACCGCAGCGTGAGCGCCACCAGTTTTCTCCTGCACAATTTTGGCGGCGTCTTCGGTGTGTG -AGTTAATCGCTAAATCTGCGCCCATTTCGGTTGCCAGTTTTAACTGCTCATCATTGACATCAATGGCGATCACTT -TGGCGTTAAAGACATTCTTCGCGTATTGCAGGGCGAGGTTACCCAGACCGCCAAGACCGTAGATAGCAATCCACT -GCCCTGGACGAATTTTTGACAGCTTAACGGCTTTGTAGGTGGTGACTCCCGCACAGGTAATGCTGCTGGCCGCCG -CCGAGTCCAGACCATCTGGCACTTTTACCGCGTAATCGGCGACCACGATGCACTCTTCCGCCATCCCGCCATCAA -CGCTGTATCCGGCATTTTTAACTGAACGGCAGAGCGTTTCGTTACCACTGTTACAGTATTCGCAATGACCGCATC -CTTCGTAGAACCACGCCACGCTGGCACGATCGCCTGGTTTTAATGAGGTGACACCTGGACCCACTTCTGCCACCA -CACCGATGCCTTCATGGCCCAGAATTACGCCGGTTTTGTCACCAAAATCGCCATTCTTAACATGAAGATCGGTAT -GACATACACCACAACACTCCATTTTCAGCAGGGCTTCGCCATGTTTCAGTGAGCGCAGTGTTTTATACGTAACGT -CAACATGATGATCCTTCGTAACAACTGCAGCCTTCATAGTTCCTCCTTTTCGGATGATGTTCTGCATAGCAGGTG -AGGCAAATGAGATTTATTCGCCACTACCCAGTATGGATGAGATCTGAAAAAGGGAGAGGGAAATAGCCCGGTAGC -CTTCACTACCGGGCGCAGGCTTAGATGGAGGTACGGCGGTAGTCGCGGTATTCGGCTTGCCAGAAATTATCGTCA -ATGGCCTGTTGCAGGGCTTCGGCAGAGGTTTTCACCGCCACGCCTTGCTGCTGCGCCATTTTGCCAACCGCAAAC -GCAATTGCGCGGGAGACTTTCTGAATATCTTTCAGTTCCGGCAGTACCATACCTTCGCCGTTCAGCACCAATGGT -GAATACTGCGCCAGCGTTTCACTTGCCGACATCAGCATCTCATCGGTGATACGTGACGCGCCGGAAGCAATAACA -CCCAGGCCGATGCCCGGGAAAATAAAGGCGTTGTTACACTGGGCGATAGGGTAGATTTTATCTTTCCATACCACT -GGATTAAACGGGCTGCCCGTGGCGACCAGCGCGTTACCTTCGGTCCAGGCGATAATGTCCTGCGGTGTGGCTTCC -ACGCGTGACGTCGGGTTAGACAGCGGCATCACGATCGGACGCGGACAGTGTTTATGCATCTCACGGATGATCTCT -TCCGTAAACAGCCCGGTCTGTCCTGAGACGCCAATCAGAATATCTGGTTTTACATTGCGCACCACATCCAGCAGT -GACAGCACATCGCTGTCGGTATCCCAGTCACTGAGGTTTTCGCGCTTCTGCACCAGTTTGGTCTGGAAAGGCAGC -AGGTTCGGCATCTTGTCAGTCAGCAAGCCAAAGCGATCGACCATAAAGACTTTCTGCCGCGCCGCTTCCTCGCTT -AATCCTTCGCGCTGGGTCTGGGAGATGATCATTTCGGCAATGCCGCATCCCGCTGAACCTGCGCCAAGGAAGACG -ATTTTTTTCTCGCTTAACTGACCACCTGCCGCGCGGCTTGCTGCGATCAGTGTGCCGACTGTTACCGCCGCAGTG -CCCTGAATGTCATCGTTAAAAGAACAAATTTCATTGCGATAGCGGTTAAGTAACGGCATCGCATTTTTTTGAGCA -AAGTCTTCAAACTGCAACAGCACGTCTGGCCAGCGTTGTTTCACAGCCTGGATAAATTCATCAACGAATTCATAG -TATTCGTCGTCAGTGATACGCGGATTACGCCAGCCCATATACAGCGGATCGTTAAGCAGCTGTTGGTTGTTCGTT -CCGACATCCAGCACCACCGGAAGGGTATACGCCGGGCTGATGCCGCCACAGGCGGTATAGAGCGACAGTTTACCG -ATCGGAATGCCCATCCCGCCGATGCCCTGGTCACCAAGCCCCAGAATGCGTTCACCGTCAGTCACCACAATCACT -TTAATATTATGGTTCGGCACGTTTTGCAGAATATCGTCCATATTGTGCCGGTTCTGGTAAGAGATAAACACGCCG -CGTGAACGGCGGTAGATCTCAGAAAAACGCTCACAGGCTGCGCCGACGGTTGGGGTATAAATAACAGGCATCATC -TCATCAAGATGATTGTTTACCAGACGGTAGAAGAGGGTTTCGTTAGTGTCCTGGATGTTACGCAGGTAGATGTGT -TTGTCGATTTCGGTTTTGAATCCCTGATACTGGATCCATGCTCGTTCCGCTTGTTCTTCGATGGTTTCGACCACT -TCCGGCAGTAACCCCAGCAGGTTGAAGTTACGGCGTTCTTCCATGCTGAAGGCACTGCCTTTATTCAACAACGGA -AATTCCAGCAGTACAGGGCCAGCGTAAGGGATATAAAGCGAACGCTGTTTTTTTGTTTTTGGTTCCATGTCACTC -ACTCTTTTTTGAATATCCATCCCTGGGGGGCTTTTATCGTCTTTGCTTTACCGCCAGGGCGTCGGCCTCAAGTAT -AAAGCAGATAAAAACAAAAACACCATTGCGCAGGCAATGGTGTTTAATCGTCATTGAGGACTGATGGTTATGAAT -TACTTTTCAGCGGGGCGTTTTCTGCCGGTTGGGTTATTTACTACGCTGGATTTGTCACCTTCGGTAACTATTTTG -CGCTGGTTAGAAATTTTATGGTCCAGTCCAAGAATATGACGTGCCTGACGGTTCGATTTCATTTTAACTCCTCAA -TCCTGTAGCTAGTTTTAAGGACAACATCGCCGTAGCGAAGAAACACGTGCTAAACCCCTAAATTAGGTTGCCGAT -CAAGCATAGCACCTTAAAGCGTAGGGTGCTGGCCACTGACCACATAATTGATCGTTTGCTGGTAGATATCACTGA -GGATGTCGTTATCAGAAGCTTCAACCCATTTGGTCAGCTCCATGAGAATGTCATCTTCAGTGACAACACCATGCT -GTGCCCGAAGGCCTTGCTCAATGGCATTAACCAGAGCGGGTTCTGCTGTTGAATTTTCTGCCTGATAATAAGTAA -ACATAGTGATTCTCCGTGTCTGTGTATTTATGGTGTCTGCTACGGATCGCAGATTTATAAAGCACATTCAGCATG -GCAAATATTTGCCGCTTCGTTGTTAAGATTAGTCCTGGTTGATGATTTTTATATTTTAACACCATGATATTCATA -GGGATTGTGATTGGTATGATCCGATTAATATTGATACAATATCTTTTGGGTTATATATTCCCGGTAATCTATTGT -GGGAATTTAATTTAAGTGCAGAAGTAATATTTTCGCCGGATTTTATTCGGAATATCCTGCTTATCCTCGTGCTGT -TTCTCACGTAGTCTATAATTTCCTTTTTAAGCCCACAGGAGAGCAACAATGACAATCCATAAGAAAGGTCAGGCA -CACTGGGAAGGCGATATCAAACGCGGGAAGGGAACAGTATCCACCGAGAGTGGCGTGCTGAACCAACAGCCGTAT -GGATTTAACACGCGTTTTGAAGGCGAAAAAGGAACCAACCCTGAAGAACTGATTGGCGCAGCGCATGCCGCATGT -TTCTCAATGGCGCTTTCATTAATGCTGGGGGAAGCGGGATTCACGCCAACATCGATTGATACCACCGCCGATGTG -TCGCTGGATAAAGTGGATGCCGGTTTTGCGATTACGAAAATCGCACTGAAGAGTGAAGTTGCGGTGCCGGGTATT -GATGCCTCTACCTTTGACGGCATAATCCAGAAAGCAAAAGCAGGATGCCCGGTCTCTCAGGTACTGAAAGCGGAA -ATTACGCTGGATTACCAGTTGAAATCGTAAAGCATTGCCGGATGACGCGTCAGGCGCGTGAATGCCTGATGCGTT -GTTAGCATCTCTACAGCGCCCGCCAGCACCGGAGCTCACGTCCGTCCTCCCTTATTGCTAATGATTGCCGGACTT -CACATCCGTGGGTTGCCAGCGGGCAACGTTCGTAGAAAAAACAGCCTTGCGGCAACGTGCGGTTTCCCGGCAGAT -CCGTTTTACGTAATGCCCATTCTTCCTCCAGCGGTTTATCAATGGCGGGGAGGGAATCCAGCAATAATCGGGTGT -ATGGATGTGCAGGTGCCGTCAGCACCTGCTGCGCGTCGCCCAGTTCTACAATCTGCCCGAGATACATCACCGCCA -CCCGATCGCTCATATGACGTATCACCGAGACATTGTGTGAAATCAGCACATAGGTCAGCCCGTGATTTTCCTGTA -GCGTTACCAGTAAATTGAGGATCTGCGCCTGAACGGAGATATCCAGCGCAGAGGTTGGCTCATCAAGCACAATCA -CGTCAGGCTGCGAAGAGAGTGCTCTGGCAATGGCGATACGTTGCCGCTGCCCGCCGGAGAACGCATGAGGCAGGC -GGTCGAGATACTCCGGACGAATACCCACCTGCACAGCCAACTCCTCTGCCAACGCTCGCCGCTGTTGTTCACTAC -TACGCTTAGCTATCCAGAGCGGTTCTGTGATGATGCGCCACACCGGTAAGCGCGGATTAAGCGAAGAGAGCGGGT -CCTGAAACACCATCTGCATAATGCGTTGTGAGCCAGAACGGATGTACTGCCCGTGGCTCGGTTGCAGCATACCCA -TTAAAAGCTGTGCGAGGGTGCTTTTGCCGCAGCCTGACTCGCCGACGATCCCTAAGGTTTCACCACGGCGGATCT -GTAAATCAATACCATTAATGGCATGAACATGTTCCGTAGTTTTACCAAGCCAGTTTTTACGGGCCGGGAAATTGA -TATGGACGTCGCGTAACGTTAATAACGTGTCAGACACTTATAACCTCCTGCTGCGGATACCAACAGGCACAGCGC -TGGTTGTTGTCACCACACGCTGTCAGCGCCGGGACGTTTTCACACTGTGCACCTGCCGCATAGCAACGATCGCGA -AAAGCGCAGCCGTCAGGCAAATGGGTGAGGTTTGGTACCGTCCCTGGAATGGCGGGTAATAGCTGGCGTGGTACT -CCATGTTCTGGTGCGCATTGCAGCAAACCAATGGTATACGGATGCCGGGGATGATGGATAACGTCTGCCGTCACG -CCGCTTTCAATTACGCTTCCGGCATACATCACGTAAACGCTATCGCACAGTTGCGACACCACGGCCATATCATGG -CTGATGAACAGAACCGCAGTTCCACTGGCGCGGGCTTTATGTTTAAGCAAACGCAGTACCTGCAACTGCACCGTG -ACGTCCAGCGCCGTAGTCGGTTCGTCGGCAATAATCAATTGCGGCTCGCAGGAGAATGCCAGCGCAATCATTACC -CGCTGGCGCATACCACCTGAAAGCTCAAACGGATAGCGCGACATAACTTCCACGGCATCCGGGATTTGCATCTCT -TCCAGCAGGTCAATCGCTTTAGCTCTGGCTTCCCGACGACTTATTGGTTGATGATGGCGGATCACGTCCATCATC -TGAAGACCTATTCGACGTGTCGGATTGAGGGCGGTCATCGGTTCCTGAAAGATCATCGCCACTCGTGCGCCGCGC -CACTGACGAAGCTGTTTTTCCCGCGCGTTAAGAACATCTTCTCCCAGCAGGGAAATCTGCCCCCGATGTACGCAA -TAACTGCCCGTCGGTAGCAGACGCATAATCAGCATTGCGGTGACTGATTTACCTGAGCCGGATTCTCCCACCAGA -CCGACAATTTCACCGCGGTTAATCTGCAAGGACACATTGTTGAGCGCGTGAACATCACCGTTAAAACCGGGGAAA -CTCAAATGCAGTTGTTGAATGTCCAGAACGGGTTGGGTCATGACTGCTTTCCTCCTGCTTTCGGGTCAAGCAGAT -CGCGAATACCATCACCAAAGAGATTAAACCCGACGGCGGTAAGCAAAATCGCTGCCCCCGGAAATGCGCAATACC -ACCACTGATCGAGTACATAGTTGCGACCATTTGCTACCATCGCGCCCCATTCAGCACTCGGTTGTTGAGCACCCA -GGCCAATAAATCCCAACGTGGCGGCCATTAAAATCGCGCTACCGATATCCAGCGATGCCTGCACGATCAGCGGCG -GTAGGGAGTTACGTAAAATATGCCAGTTGATCAGATGCCAACGAGACGCGCCAAAGGTTTTCGCCGCCTGAACAT -AGGTATACTGGCGTACAACTAATGCTTGCCCCCGCGCCAGGCGCACATAAAAGGGAATTCGCACAATAGCAATAG -CCAGCATGGCGTTAAACAAACTCGGCCCGAGAGCGGCAGCCAGTGCCATTGTCAGTACCAACGAAGGAATCGACA -GCATAATGTCCATGATGCGCATGATGATGGCGTCTGCGCGTCCACCAAGCACACCGGATAGACATCCGAGTAGCG -AACCAATCATACCCGCAATGGCAACCACGACTAATCCGGCGAGAATTGATTGCTGACTGCCGACCAGTACGCGGC -TAAACAGATCGCGTCCCACTTCATCGGTGCCAAACCAGTGCGCCGCAGAAGGCGGCAAAAGGCGGGCGGTTAAAT -CAATGGCGTTGGGATCATGCGTCGCCAGCCACGGTGAAAAAATCATCATCAATAGCATTAATACAATGATGACTG -CGCTGGTCACGGTGAGCGGACTGCCTTTCAGCATCCATACCAGTTTTGCACCGTTAAATCGCGTTTGTTTTTGTG -GGCGTACGGCGGACGTTTCCTCGCTTAGCATCATTCACCACCTCCACGTCCGATACGCGGATCAATCCACAAATA -GAGCAAATCCACCACCAGGTTGACCAGCACATAAGCAAATGAAACCACGACGGCAAAGCCCATCACTGCCGGGAA -GTCGAGCGCCTGTATTGATGTTACTACCCATGCACCCATTCCGGGCCAGGCAAAAACGGTTTCGGTGAGCACTGC -GCCATACAACAAATCGCCCAGCGCCAAACCCAATACGGTAATCGATGGGATCAACGCATTGGGTAGCGCATAACA -TAAAACGATATACCAGCCGGGCAAGCCGCTGGCCCGGGCGGTACGAATGTAGTCTTCACTCAATTGTTCCAGCAT -CGCTGAGCGGATCTGGCGAGCGACAATTCCCAGGTGAACGAACGCCAGCGTTAATGCCGGTAAGATGAGATGTTG -CAACGCATTGAAGAAGACTTCACCGTTGCCTTCAAGCAGCGCATCGAGCAGATAAAAGCCGGTAACGTGCGTTGG -TGGATCCAGCCAGTCATCAAGCCTTCCGCCGCCGGGAAGAATTTGCAGATGACCATAAAACAGCACAATGACGCC -CAGCCCAAGCCAGAACGCAGGTGTGGAGATTCCGGTAATGGCCATTATTCGCACCAGATGATCCAGCCAGCGATT -TCGCCAGACTGCAGAGAGTATGCCCAGCGGGATGCCAATCAGGAGTGCCAGCAGCAGGGCACCAAAAGCCAGCTC -CAGCGTCGCCGGGAAAAATATACGCAACTCTTCCAGCACCGGACGCCCGGTACGAATGGATGTTCCCAGGTCACC -ATGAAACAGGTCGCTGACGTAGCGGTAAAACTGTACATACAGTGGCTGGTCCAGTCCCAGTTGCTGGCGAATATT -TTCCACGATAGCATCGCTGGCGCGGTCACCCGCCAGTAACCGCGCCGGATCACCAGGGATCAGATGCGAGATAAT -AAACGTAATCACGCAGACGCCCGCCACCACGAGCACCAGCCCCCAGCAGCGTTGGCGTAAAATACTCCAGAAGGT -CACGTTATTTACTCATGGTATTGATATTGAAGACCTGTTCCAGCATGGGATTGAACACAAAGCCTTTCACCTCTT -TGTTCATCGCCAGTTGGTAGTTTTTCTGGAACAGGTACACATAAGCAGCGTCATCAATGACGATTTTCTGTGCCT -GCTGGTAGTCCCGGGTACGCTGCGTCTGGTCGGTGGTCGCAAGCGCATTGCGCAGTAACTTATCGACCTCACTGT -TTTCATAGAACGAGCGGTTACCCGGCAGACCTTTTTTGTCTGACTCAAACCAGTAATTCATAAACATATACGGGT -CGGCAAAATCCGGACTCCAGTTGCCAATCGCAATGTCGTAATCACCTTTACCCACTCTGTCGCGCATGGTGGCGT -TCGCCAGCTTTTCCAGCTTCACAATGATGCCCAGCTTGTTGAGACTGGATTGTGTCGCCAGAGCAATAGGCTCCC -AGTTCGGATCGTTATCGGAGTAGAGAAACGTCAGGCTGGTGGGTTTGCTCGTCACTTTATCCCATTCGGCTTTGG -CTTTCGTTTCGTCATGGTTGTATTGCATTGCCGTCGCATCGTAGCCCCACATGCCTTCCGGAATCGGGCCGCGCA -TCTGTTTTCCGTTACCACTCAGAATGCCGTTAACCATGCCCTGATAATCGGTAGACCAGGAAATGGCCCGACGCA -GATCCGCCTGATTAAGAGGCGCTTTGCTGTTATTCAGATACAGATAGGTAACGCGCAGTGACGGATACTCTGCCA -CATTGACTTTATTTTCCTGCTTCAGGGCGTTGAGTTGATCCACCGGCAGCGCATCGGCAATGTCAATGTCGCCAC -GGGAGAGCTGCAGGCGACGGGAGGCACTTTCACCAATAATTTTTACCGATACCCGTTTGAAGTTCGGTTTATTGC -CTGGGTAATGCGGATTTGGCACCAGAACTAATTGCTGACCTTTTTGCCAGCTTTTCAGCATAAATGGTCCGGAAC -CGGCGGTATTTTGCGCGAGGAAGCCGCGAGCATCATCCGCTGCATGTTCCTTTAAGACCGCCGGATTGATAATGG -ATGCACCGTCATTCGCCAGCGTGTAGAGGAACGGTGCGAATGGTTGGCTAAGGGTAAACTTCACCGTATGTTCGT -CGGGAGCATCAATCTTTAAATCTTTGGGAAATGCTTCTGCTGGCCCCTGGCCGATTTTTAGTAGCCGCTCAAAAG -AAAGTTTTACTGCTTCGGCAGTGACAGGTGTGCCATCGGCAAATTTAGCATTATCTTTCAGGGTGAACGTCCACT -CTTTTTGATCGTCAGACGCTTTCCAGCTACTTGCCAGATCGCCTTCAACGTCGGTTGAGCCTTTATCACCGTCCG -TTTTGTACTGAACCAGCCGCTGATAAGACGGGTAGGTCACTGTCCAGTCGTTATTATCTATTGTTACCGCCGGGT -CGAGGGTTTGTGGATCGGCGGCCTTACCAATCACCAGCATATCTTTTGGTACGGCGGCGTGCGCAACCGGGAAAT -TTGTGGCAAGGACGAGCGCGAGCAATGTGGGACGAAACGATATCGATCTCTTCATGACAGTTTCCTGATTAACTG -ACGTGCTGTGTGCCAGGGGATATAAAACAAGAGAATTGATCAGCGAGCAGAGGGTAACTCGCTGCCTGGGGTAAT -TCGAAGTGCCACCATTCGCTGGAGATACCGACAAAACCGCCACCAGTCATTATCGCATTCAGCAACAGCCGATTG -CGCTGAGCGGCGGGCGGGACGGAAGGGTGATAGGCATGGGAGCGCTCGTGCATTTCATCGAACCCTGCGCCCATA -TCGAGGATGTTCCCGTGCTCATCACGAAGCGTCAGGTCGATCGCCGTGCCACGGCTGTGATTAGAACCGACCGTC -ACATCAACAACATATTGCGGGTCTGGGCAGGCTTGCCACAACATCGCCTGTGCTTGTTGTGGGCGATACGCATCG -TAAATCACCAGTTGTAACCCTGACAGCTGGGCGATGCTGATACTTTTCGCCAGCGCGGTAATCGCATCCTTGTGT -AACAGACAACGCGCTTGCTGATAAATAGCTTTACCTGTGATGTTATCAGCGCAGGCGTATTTCAATTCGATCTCC -AGATCAGGGAAGATTACGGCTAAATCAACCAGTTCGGTGGTATCCGACATAAACGGTTCCTGTATAAGACAAAAA -TTGCTGCGCTTTCCGCTTATGCAGATCTCATGCCATGCCGGGATAAGCGCCAGAATGCTGGCTTAAAGTTATATT -TTTTAACTTTTGATCAACATTTGTGCAGCGTAGTGCAGTTTTGGTGCAAGAGGGGAAGTTAAGGAAGGAATCTCC -CGGAATCGTAGCTGAAATCACAGTATTTAAGTGACAGTGTCACGTTAAATGAAAACCCGCGAGTGCGGGCGAGAG -GAATTTGTCAGATTTTCAGCGGTAACACGCTGCTCATCCAGCCTGGAATTTCTTCGGCGGGTAGGGGGCGGGAAA -AGAAATATCCCTGAATAACGCGACAGTGGATCTTGCGTAGCATCTCAAATTGCTCTTTGGTTTCGACGCCTTCCG -CCACGACGGTTAAATTGAGGCTTTGCCCAATGCTGGTAATGGCTTCAAGTAAGGCAAGGATGCGTTTTTCGGTCA -GACAACGATCGACAAAACTTTTGTCAATTTTGATTTCCGTTACCGGAAGACTGACTAAGCGGGATAATCCGGAAA -AGCCCGTACCAAAATCATCTACCGATAAGCCCACGCCCATATCACGCAGGATCTGAATGCGCTTAAAGATTTCGG -TATCGTGTTCCATCATCATGCTTTCCGTGATTTCTACCGTCAGCTGGTGGCCGTCAATACCCCAGGCGTGCATTG -CATCAGACACCTGATTAGGCAGTTGATTACTGCGAAAGTGCAGCGCCGACAAGTTCACGGATAACGCCGGGATAT -GAATATTCTGGCTACGCCATTCTGCTAACTGACGGCAAGCTTCCGCGATGACCCAGCGCCCAATATTTTCGATTT -CACCAATCTCTTCTGCGAGAGGAATAAACCGTGAAGGGGGCACATGACCATGCAGGGGATCGTGCCAGCGAGCAA -GGGCTTCGATGCCGTACAGTTCACCCGTTTCTGCGAAGATTTGCGGCTGGTAAACCAGTTTCAGTTGGTTATTGC -TAATCGCTTCTTTCAGCGCTGCGCCTAAAACCAAACGCTCTTTTACCATTTCGTTCATCGCCGGGCTGAAGAACT -GCCAGCCGTTACCGCCATTCTTGCGAATATAATCCATTGCATTGTGAGCAGTGGAGAGCAAGTAATCGCGGTTTT -TACCCAGGTCGTAGCTGATGCCAATACTCAAGGTAAGCGGGAAGGGTTTATCGTCAATCATTATCGGCTTGCTGA -CCACATTCCGTAGCTCATCGGCGATTTGGGTAATGTTACTGACGTCGTTTTCGAGGCTCACGAGGACAAACTGCG -TACCTTCGATACGACAGAGATACTGATCCGGTTTGAGTTTTTCACGAAAGCGATTGACCACTTCCAGCAATGCCT -GATCGGCCCACGCATAGCCAAGGCTATCAATCACATCCTGAATATGGTCAACACCGATGAGATACACCACGGGAG -AGACGGCTTTGTCGACCAGGTCATCGAGGTAATTGTGCAGGTTATTGCGATTTGGCAGACCGGTCATCGGATCAA -ATTGGATGAGTTGTTCAATATGCTGACGGCTTTTTTCCTGTTCCAGCGCCAGCGCGGCCATATGCTGGCTGATAT -CTGCCACGCGTTCGATAAAGGCGCTGGTTTCTGCTCCTGACGAGGTTTTAATTTGCAGGATCCCCGCAGGCGCGC -CATCACGCTGACGAATGGTCGCTGACCAGCTTTGCGCATTTTGAATTTCTGCACCGTGGGAAGATGACGCCCAGT -GTATCGGCATCCCGTTGCGCAGTGCGAACAGCGAAACATGCGATTCGTTGAGTACAGATTCGATGTTACGACAAA -TGATTTCCCCCATTTCATGAAATGGCGGGCTGCTGCACATGGCGGCGAGAATATTGCCTTCAAGCTGGCGAATCT -GCCGTTCTTCGGTGATATCCGAGAAAGTCATTACCAGGTTCTGCAGATGCGCGAGCACGTCATAAACCGGGCTGA -TAGAGGCTTTAATCCAGATTTTTTCACCGGTGCGCGTCAACAGCAGAAATTCGTCCTGATCGCGGGCGGTTTTCC -ATAGCAACTGTTGTAAACGAATGCGGTTATCGGCAGGGAATTCAGGAATGTTCAGGAGTGTATCGGGCTGCATAC -CGCTGGCTTCGCTAATGCAGTAACCAAACATTTCGGTAAATGCGCGATTGCACTGCACAATATGGCGTTCCGGAT -CGAGGACAATCACCGGTCGGTCGAGATGGTCAACGGCAATAATCAATTGTCGGGTCTGTTCTTTTTGCGCCATTT -CTACGCTGGCATCCCGTACCAGCGCCAGGTAATAAACTTTCCCCTCGGCGCTCACTTTCGATAGCGCAAAACGGG -TCCAGATTTTACTGCCGTCTTTTTTCTCCAGCTGCAGCTCCCGACTCATCCCCTCAACACGCGCTTTACCGCCTT -CACGGTTGTGACGAATGTATTCAGGATGCGCAGGACGCAAATCCCGCGGAATCAGCATATCAATGTTATTGCCAA -TGACTTCTTCACGTTTGTATCCCCAGAGCTTCTCTGCGGCGGGGTTGAAAAACATCACTTCATCATTTTCGTTAA -TTAACACCGCACCCATCATATTTTGCTCAAGGGCGGGGAAAAAAATGCCATCGGCGGCATTATCCGCATCGGTTA -GCTTCATGATTACCTCTGCATCCTGGCGCATCTAAAGACTGGCTTTCCAGAGTTCAACACGGTTTCTACCTCGTC -TTTTGGCGATATACAGAGCTTCATCGGCTATTTGAATGAGGCGCTCATAGTCAGGATGACCATTAAACATGGCGG -CACCGATGGAAAGTGAGAGGGCAATATCTTCGCCGTTTGCGGCTTTCAGTTTGGTTTTCTCCACCCGACTGCGAA -TACGTTCTGCGGTACGTAACGTTTCGTTTTCAGAAGCTTCAGTCAAAACAATGATAAATTCATCGCCCCCGTAGC -GGAAAACATAATCACTACTGCGGACGTTGTCATAAAAGGCCTGAGAGACTTTACGCAGAATTTCATCACCAGTGT -TATGGCCCCACGTATCGTTGATCTCTTTGAATTTATCAACGTCAATAATCAGCACTGACAGCGGTGTACCGGTCC -GGTTGGCATGGGCAATTTCGCGTTTGAAGATAGTCGGTAGGAAACGGCGGTTAAGTAATTTCGTCAGTACATCCA -TACCGACTTCGTGGCGCGATACTTCTTCAAACAATTCACGCAGCAAGGTAATAATTTGCGATACGGTATTTCTTA -TCTGTAATAAAAATTTCACCCGCAGACTTCTGTTATTCAAATTTCTGGTGTTACGCATGGTTTGATTGAAAATAC -CGTCGAAATCCTGAATCAGACGGGAGATATGGCCTACTTCGGCAATACCACTAAAATAATGTCGACCTTTATGGT -TAAACCACAGGCCAAAATCAGCCTGGCTTAAAGGCAAACTACTGCCTAAATCAGAATCCAGCAGGATTTTATAGA -TAATATCTATTTCCCATGAAAGTATTGAGGCTATTTGCCGTTCTTTTTCTTCTTCGGCGTTTTCCAGTAACGAGA -AGATACGATAGTTTTCATCTTCCTTTGAGGCACTACTGTCACTAAAGGTAAACGCGCGAGTCATCACTTCCATCG -CGATATCAATACTGTTAATCGAGAAATGGTAGACCTGAAGTTTTTCTGCGGCGGAATAATCCGAAGAGAAGATCA -CCGGATAGAGGATTTTTTTCAGCACCCGAAACCCCATCTCGACAATTTCTACCGGAATTCCTATGCGGGCATGCA -CTTCCGCGACGGTATGCTGGATTTGTATTAGCCTTTCGACATCGTCAACCTGGGCAGAAAGCACGTTAATAATCC -AGCGTTCCATCGCACTCTTCAACTGCCGCTCAACTTGTTCATTACTCAAGAATTCTTCGGCATGCGGGTCGATGC -GGACAATTCGATAAAACTCGATACTCAGATAATGAGCATGCGCAACGGCAATTTCCGCGGCTTTAGCACGAATGG -GCGGATCTGCCTGTTCGACAAGTCCGGTCCACTCATCTTTCATTCTTTTAAAATACATCTCCATAATTCACACCC -TTATAAGGCTGGGAAATCAGACGGAATCAAAATGAAACGCAACGTGCGAGATCGACTAACTGCACCATATTCTCC -TGAAATATGAAGATATACTGAAAAGAAATAAGCGATTTAGGACAGTTTCAATCTACGCTACTGTTCTTCAGAAGA -GTATAGCCCATCGTAATTATTTTTCGGTGACAGCGAATATCGTATGGTTTTTCATATTCATACATTTTTATTAGG -GATTTATGGCTGTTTAACTAAGTGTGGTTAATTTGACTTAAGTAAGCATGATTATTAGTGGGATAGTTTAAGAGG -GTAACAAGCCGGTGGGTAAAGCACCGGCTTGTTACAAAGTAAGAATGGGAGTTTAACTGCCCCAGCGACTTTGCA -GATAGCTGACCGCTTGTTGAGTCTGCGGTTTATTCAGATAGTCCTCACGGAACAAGATGGTGCCGCTAATTTCGG -GCACAGCATCGTTAAGATCGAGCTGCTTTTTCAGTTCCGGTACGCCGCCGTTAATCATCCAGTCTGGCTCTATCT -TTGAAGGTTCACCCACTTTATAGAAGGCGATACCGATATACAGGCGGGTCCTGGTCGGTTTAACGACATCCGCCC -ACCATTTTGCCAACACGTCATAACGCGCGGCACTCCGTGAGAACGGCCAGTAAATTTGGGGAGCAATGTAATCCA -GCAATCCTTGTTCCACCCATCGACGGGTGTCAGCGTAGGATTCGTCATAGGCTGCCGCGCCTCGGGTATCGGAAC -CGAGCGGATCGTGTGATCGGTTACGCCACACGCCTGCCGGGCTAACACCAAATTCGACTCCCGGCTTAATGCTTT -TAATGGTGTGCGATACCTTTGCAATTAACTGCTGAGTATTGTTGCGCCGCCAGTCTGCTTTTGACGCAAATGCGC -CTCCGTATTTACGGTACGTTTCGTTATCATTTAGCCGTGAACCCGGTGACTCCGTATAGAAATAGTCGTCAAACT -GCACGCCATCTACGGGATAGCGGGAAACCACTTCTGCGACTATTGATGTGATCCAGTCCTGAACCTCAGGGATGC -CCGGGTCGAGGACAAAGCGATCGCCAGACGTTCTGATCCAGTCGCGGTGTTGCACATAGACGCTCGCCGGTTGTT -GAGACAGAGTGCTATTCAGTTCCCTGATAGTACCGGGCTTCGTATTAACCGATACGCGATAGGGGTTAAACCAGG -CGTGTACTTTCATCCCACGCTTGTGGGCTTCGTCGAGCATAAATTGCAGCGGATCGTAACCCGGATTTTCACCAA -TCTTACCGGTCATAAGATCGGACCACGGCAAAATTTTCGATGGCCACAGGGCGGTACCGTCCGGCTTGACCTGGA -AAAAGACCGTGTTTATGCCGAGACGTTGCAGATGATCCAGTTTGTCGATCATCGCCTGTTGTTGTACACGGGCCC -GGCTGGTGGGGTTACTAATGTTAACCGAGGAAACCGGTGGCCAGTCGAGCCGAGAAACCGTGGCCAGCCAGATGC -CACGCATCGGTTGTGACGATTGTTGCGTCGTGGCTGGTGGCTTTGAACCTGCTGGTGGTGTCACCATGGACTCTG -GAGGCGTGCTTTTACAACTACACAGTAAAAGTGCCAGTGCAACTAGTATCGCTGGTCTTCTAATCGTTAATTTCT -TGTTTCGGGAGCAGATATCCATATGTGCTGGTTTCCGGTAAACAGATGTGCGCTCATTCTCGTACTTATCCCCGT -TAAGTCAATACGACAGCAAGCACGAAAAAGGGAGCGATGAATTATCGCTCCCTTGTCTTATAACCATTCAGACAT -GGTTAGTGTTTCTTGTCATTCATCACAATATAGTGTGGTGAACGTGCACGCGGGTGCAGGAAGAAGTGACCTTTT -GGTGCGTTCTGACTGTTGATTGGCTCCAGAGTGACGCCGGTATTTGCTTTGCCTTTACGATCATGAACAGCATAG -AGAATAAAGGGCAGGGCAAGTACCACCAGGAAACTAACAACCAGTAATTCAACATACATATCGGTAGAATCACCC -TGGATGTTATCCGGCGGCAGGAAGGAAACAATAAACGCCATAATTGAAGTCAGCAGACCGACAATTGCCACGACC -AGTTTCACCCCTTTACCACCAGGGATATTAAATGTGCGTTTTAAGTCAGGATGTTTAAGAACCAACACAATGTAG -CCAATAAACAGCATGAAATAAGCACACAGATAAATCACCACCGTCAGCGCCAGTGCGATCAGGAAGGACATGTTG -TTACCGCCACCGGTATTGGTGAGGATGATCAACGCGATAGACGTAATCACCAGCTGCGAAATGACCAGCGTTACC -GGTACGCCATTTTTGTTCATTTTAGCGAATGCCGCTGGCAGCAGGTTTTTCTGCGCTGTTACATACATCCCGCGA -GAAGGACCAACAATCCAGGAGGCGATTTCCGCCAGAACACCCAGCAACAGCAGTGCGGAGATCACGCGAACCGTC -CACTCAATTTCTGGTGCCACATGGGACATCAGAACGGTAAAGGTTTGCATTACCCCTGCGGAGAGGTTGATTTCA -TTACCCGGAATGACCATCGCAATAGACAAACCACCAACAGAGCTTAAGCAGATTGCCGCCACCATCAGCAGTAAC -ATAGCCAACGGATAGTCGCGCCCTGGGTTGCTCATTTCATTGACGTGGGTTGCGGATGCTTCTACGCCCATATAA -CTCAAAATGAAGGCAACAAATACTACCAGGGTGCCCACTTTAGAGAAGTCAGGGAAGAAGGTCTTCGAATCCATT -TCGATAGCAACGGGGGCACCGGAGTGCAGATAAATAGCCGCTAATGCGATCAAAATAAATGCAGGTAACAGGATA -CCGGCGAAGAAGCCAACTTTAGCAATTCGCGCCGTGTATTTCGTGCCACCAAACTGCGTTAATGCCAGCGCCCAA -AGAATGATGAGTGCTGCAATAGTTTTGGTAATGGGGTCTTCATTCAGCGCTGGCCATTTCAGGATGTAGGAGAGT -GCCCCTAACACGAAATAGAGCATCGGAATAAAACCAATGGCGATTTGCAGATAGCCAAATGAGATCGCTGCAAAT -CCCCATCTCGGCCCCAGAGTATTTGATACCCAGGCGAAGACACCACCTTCTTCCCAGCCGTCGACGGTGGCCATT -TCCGCAGCACAAAGTCCCACGGGAATAAACCATAAAATCCCGCCTAATAGCAGGAAGAAGACTAATGAAAAGCCC -GATGTTGCGAAGGTAGGGTATTCATAAACAGCCATTACCATCGATGCCGTTATGGCAAAGAATCCAAGTAATGTG -AGCTGCTTAGCTTTACCTGTCTGTACTGATGTAGCCATATTATCCCCCTAAAACGGTATTCCTGTCGGAACCGCA -CCTGTTTTGTTCTGAAGCGTATTCAGAACAATATTTTCCGTTGCTAATGCCAGTGAACAGACTTTGGAAATTGTC -CCGAAACGGGTTCGTTTCGGGACACCGTTACCGTTAAACGTTATCAGGTATGTTTAAAGCTGTTCTGTTGGGCAA -TACCCTGCAGTTTCGGGTGATCGCTGAGATATTTCAGGGAGGCTTTGTAGTCTTCCAGCAACAGTTCAGCAAAGT -CCATTTCGAAGCCGCGACGACACATAATGCGCATCACCACGATGTCGGTGGCTTCACCGCCGAGAGTGAAGGCCG -GAACCTGCCAGCCGCGCAGACGCAGACGTTCAGAGAGGTCATACAGGGTGTATCCCGGATCTTCACCATCTTTCA -GTTTGAAGCAAACCGCCGGGATGCCTTCGTCCGGGCGACCCGTACAGATGAACTCATACGGCCCCAGTTTGGCGA -TTTCATCCGCCAGATAAGCGGCAACCTGGTAAGAGGCGTTCTGTACTTTGGTATAGCCTTCACGACCGAGGCGCA -GGAATTCATAGTACTGTGCAATTACCTGACCCGCCGGGCGGGAGAAGTTGATGGCAAAAGTACCAATTTGACCAC -CCAGGTAGTCAACGTTGAACACCAGTTCCTGCGGCAGCGCTTCTTCGTCACGCCAGATAACCCAGCCGCAGCCCA -GCGGAGCCAGACCGAATTTATGGCCTGAAGCACTGATCGATTTCACACGCGGCAGGCGGAAGTCCCAGACGATAT -CCGGGGCGACGAACGGTGCCAGGAAGCCACCGCTGGCAGCGTCGATGTGCATGTCGATGTCGATACCGGTATCGG -CCTGGAATTTATCCAGCGCATCGTGCAGCGGTTGTGGGAACTCATAGTTACCAGTGTAGGTCACGCCGAAAGTCG -GCACCACGCCGATGGTGTTTTCGTCACAGGCTTCAATCATGCGTTTCGGGTCCATAAACAACTGACCGGGGCGCA -TAGGGATCTCACGCAGCTCCACATCCCAGTAGCGGGCGAATTTATGCCAGCAGATTTGTACCGGACCGCACACCA -GGTTTGGTTTATCCGTTGGTTTGCCTGCAGCTTCCATACGCTTGCGCCAACGCCATTTCATCGCCATCCCGCCGA -GCATACAGGCCTCGGAAGAACCAATGGTGTTGGTGCCAACGGCCTGACCATTTTTCGGCGCAGGCGCATGCCACA -GATCGGCAACCATATTTACGCAACGCAGGTCGATGGCTGCGGATTGCGGATATTCTTCTTTGTCGATCCAGTTTT -TGTTAATGGATAAATCCATCAATTTGTGGACATTTTCGTCGTCCCAGGTCTGGCAGAAAGTGGCCAGGTTCTGAC -GAGCGTTGCCATCAAGATATAATTCGTCATTGATAATCTGGAATGCGACATCGTCGCGCATTTCGTGCAGCGGAA -AACGTTTTGATTCTGCGATAGTGGAAATAGACTTCGCACCAAAACGTGAATCGAGTAGTTCCGACCTTAAATCCG -TTACTTGCTTCTTATCCATTTTAAACTCCTTAAAATGATTGGATCGCATTAAAAAAGTAGGATTTATCGATAAAG -TAAGCAAGTGCAAAGGACTCGTGTTTAAATAACAAAATCCTAATGTTATTTATCGTGAGATATTACGCGAATAAT -ATTTTTTCATTGAAAAACAATACAATATGAAATTCTTGGGTGGTGGTAAGGTGTTTTATGCTGTTATTTTTATGC -GCATTCTGTGTCTCCTGAATTATCACGTAAAAATCAGACCTTAAAATATCACTATTAGTACTTGATTATTATTTT -GAACGCATTTATAAAATTATTACATAAAAATAGCGAATATTGCTAAAATCCCCGCCAACGATGTGTTGACGGGGC -TGTTATTATTTTGGCAATAATACTCCGGTATAAGTATTTACCGGATGAGAAAGATATTGTTTAACGGCAGTGTTA -ACATTCTCTACCGTCATTTGTTTCAACAATTGCTCCTGCTCAGTCCATGCTGCAGGATCGTCATATTGAATAAGA -CTATTTACAATAGTGTTCGCTAATTGTTGAACGCTACGCTGTTGGATATCGAGGCTGCGCTGAACGTTTTGCTGG -TATTCATTCAGTTCTTGCTCACTGATCCCTTTAGCCAGACGCTTAACCATCACTTCATTCGCTAACGTTAACAGT -TCATCATGTCGTTCTGGTTGACAAGTAAAAGCCAGCAAATGACTGATATCTTTGGCCTGAGGATCAACCGAGAGG -CGAGAAGAAACGCTGTATGCTCCAGATGCCTGTTCACGAATATTAACACGTAGATCTTTTGCCAGTGCGACGTTA -AAAGCATCGAGCGCCATACGCGTCGGCAGATTAACAGGTGTCCGGGAATCATAACGCTTCCACTGTGAAACCTGT -GCCACAGGTTCATTTTGTTCTTTTACAGTAACCGATGCGTTGTCCGTCGCGCGAGTTAATGGTTTACCTGCGGCT -AATGGCGAATCAGAGTGTTTGATTGATCCTAAGTAACGCGTAATTAACGCCACGAGTTTGTCTTCTGCGACATTA -CCGACAATGACAAACGTGATATCCGCTGGAGATGAAAACAATTGGCGATCGGCAGCCAGCGCATCTGCGGCAGTA -AACTGTGCAATCTGATTTTCTTGCAGTAATTTCGTGCGGTCATCAGCATAGCGCGTCTCATACATCTGCTGGGCG -AATTTCTCCGCTGGACGCTGGTCGAGCGTTTTCAACGCCTGAATTTGAGCATTTTGTAGCGATGCCCAAATATTA -TCGTTAATCGTGCTGTGGGTGATTCGCTGGTTAATCAACTGAAAACCAGGTTCAGGGTTATTAGTCCGCGCGCTA -ACGGAGAGCAACGTATTCATGCCACTGACTTTACTGCTCATGGTTACCGAATTTTCCGCACTCCAGCGTTTCAGG -CTGGAAGAGGAGAGTTCGCCAACGCCGCTTCCGCTAACTGCTTTATTTGCCAGCGCGATAAGTGATTTTTGCTGC -GCAGGGAAACTTAAATCGCCTTTATTCGATACGGCAATAATTTGTAGCTTTTGCTCTTCACCCGCGGATTTTGCC -AGAATAACCCTGGCACCATTGGAAAGTGTTAATGATGTCAGATTCTCCGCCAGCGTTTCTTTGCTGCTAATTTCC -GCCTGTGGGTCTGCGTCTACTGTTAACGATAAATTTCTGCCTGGGAAGACGTAAGCCGCCAGCTTTTTGTTGGCG -TACTCCTTTTCCAGCGCCAGGATAGCCGCAGGAGACAATGCTTTTTTGGCGGCAACCTCATTGTTTACCATTTGC -TCCCAAAATGCGTCCTGGTTCTTTCTTAACTGCTGCCATTTTTCCGCCAGACTTTGCACGGTAATTTGCTGCCAC -AGACGTTTCGAAAGTTGATATGTCTCTTCCGGCGACAAGAACGGCGTATTATTTAATGAGCTGGATGCCAGGCGA -CTGGTCAGCATACGTAAATCACGTTCAGCTTGCTGATCAACCGCATTTTTCAGCCAGGTGAGGCGGGTAGATTTG -ACATCATCGAGTTCTTCAGCAGAAAAACCATGCTGATCAATGGTTGCCAACTCTGCCATTAATGCATTCGCAGCA -TCCTGCATATTATCGTCTCGTGCATTTACACGGAAAAACAGCGACTGATAATCGGGTGCAATTTTAACGCTGCGC -GCAGTGCCGCCAGAAATAGTCTTCAACTCGCCCGACTGTATGCGTTCCTGCAGACGTTGATTGAACAGCTGAACT -AACATGCTCCATTCAGCTTGTTCGATAAAGCTTTGCTCATCGTTCACTTGTACCATTGGCAGGCGATAATAGAGT -GCGATGCCGTTCACCCGGTTTTCTTTATCATTAATGATATTAAAGCGCAGGTGGTTTTCGGCTTTTGTCGGCCAG -ACGCGATTTTCAGCTGCTTTGTTAGCCGGAAGCTTACTTAAATTATCCTTTATCAGCGCCAGCGCTTCTTTACTG -TCGATATCGCCGACCACGATAAAGGTCATATTATTTGGTTGATACCAGCGTTGATAAAATTGGCGCAATTGTGCC -GGTGTGACCGTGGCGACAGTATCCATCAGGCCGATAGGTTCACGGTCTAAATTACGGGTATTTGCCAGCAGGAAA -GGGCGGCGCGCCTGAGAGGTGCGCCATTTCGCATCCTGATGGGCACGCCATTCCTCAGTAATTACGCCACGTTCA -GCGTCTACTTCGAGTTTTTCAAAGGTTGCGGCATTACTCCATTCACTGAAGATTGCCATCACTTGTTGCAGATTT -TGTTTCTGCGTAGTCGGCAAACTCACCTGATACACCGTTTCGTCATAGCTGGTATAGGCATTAACATCGCGACCA -AAACGCAGGCCCATTGACTCAAATGTTTCGATGACTTTATTACCCGGCCATGTTTTTGTGCCGTTAAACATCATA -TGTTCTACAAAATGAGCCACGCCGAGCTCATTGTCTTCTTCCTGCAATGAACCGGTATGAATTTGCAGCCATAAA -TTTACCTGATCCTTTGGATGAGCATGCGGATAAATCATATATCGCAAGCCATTGTCCAGTTGCCCGGTAATTAAC -TTTTCATCCTGCGGTAAGGCGGCGGCAATCAGCCGCCCGGGGAGCAACAGAGTTGCCACTAACGTCAGTAAGAAA -CAGAGGTTTCTCATAATTATCTCCATGCGAAAACCGGGCGAATTTACCCGGTTAAGTAAAATCCGAACTATTAAA -ATTTCATGCTGACATCAAGCCAGAAAGTACGGCCACTGGCGTAGGTCGCCACACCGGTGTTCGTTGTATCAACAG -CGGTTTTGCTATCCAGTACATTGAGAATATCGGCACTGATCGTCAGGTTTTGTTGTTGCAGAAATTGTGGCGTCC -AGGACAAGCGGGTGTCCCAGGTCAGGCTGCTATCCAGTTTTTCGTCAACATACTGCTTGTAATCTGAATATTCGC -TGATGTATTGCGCATTTGTCTTACCAAGGATAATGCGAGCTTTACGCGCTTCTTGCCAGGCCAGCGTATTCGCCC -ACACTAACCCGCTCGGTTGATGCGTGAAATCCATGTTTAAGGAGATCTTTAATGGGTTATTAAAATCTGCCACTG -GAACGCTATCGTAAGAGACCAGATTACCGTTATAAACCACCTGGTTATCACCGGTATTGCTCTCCTCATAACCAT -TGTTTAACGACAAGTTGCCCTTGCTCTTGATATAGCTAAAGACAATTTGTGGGTTAATATCTACCTGGCGGATAT -GCAGGGGTTCGGCCAGTTCAAAACTGAGGCTGAACGAATGCGTTTTGGTTTTGCCATCGTTGTTATATTCAGTAA -TGGTGGTTTTAGTCGCGCTGTCGGTACGACTGCTTTTGCTGATTTGATCATGCGCTTCACGGTAAACATAGTTTG -CACGCGCAATAACGTTCTTACCGATTTTCTGCTGCAATCCCATTGCCAGTTCATCGTTATAAGGCGTTTTCAAAT -CCTGATAACGCGTCAGAGTTTTATTACCTGATACCGATTCCGTCCAGCTATTGCGGATATCACGTAATCCCATAT -CAAGAATATTCCCGCCATAGTAACGGTTATAACCTGCTGTAATCATTGAGGTTTGATTAGCAAAAATATCCCATT -CCGTCATAAAGCGCGGGGAGATATTGTGGTTTGACAGATAGTTGTCATAGTCATACCGCACGCCGGGCATTAATG -ACACATTACGCCAGCTAATGCGATCCGCCATATACAGCGTGTAGTTGTCAATTCCCAGGCGGCCTTTACCTTTAT -GGTAAATGGTATGGTTAGTTTTCTTTCCGGCAGCATTAATCACATAGGATTCAGACTGGTTATGGCGTTCAGTCC -ACGCATCGGAATAGATGTATTCCGCGCCGAAGTAGGGTTGATGCGAAACATTACCCACGGCGAATTTTTGCCAGT -CCAGGCGTGTTTTGAAGGTGTAATTATCTACAGCCTGGGAAATGTGTCCTAATCCGCCACGGGTGCAACGCCCTG -TAATATCACCATATGTACATGAAAGTTCGGTGTACCAGATGTCATGATCGTGACGGGTATAATCACTAATATGAT -CCCAACCAACGGTGGTACGCAGTTTGGCCCATGCGAGCTGCGTATCCATATCCCATGCCAGACCATAGGATTTAT -TACCCATTTCGCGATCAGACTGCGGGAAGGTGCTGGTATTATAATCACGGCTGGAGCCGGTATATTTTAAGGTTA -AATCGTGGGTAAAGCGGTCGCTGGCAAACCAGGTAAATTTGCTTAATGCAGTATCGATAACGTTTTTATACTGTG -CCCGACCGGCGACAATGCCGTCATTCGAAACATAATCCGCGCGGGTGATATCAGACTGGCGGCGCGATAAACCGG -CGGTAACGCCGAAGTTATCAGCGAGTTCCTGATTAAACGACAAGGTATAAAAGTTCTTTTTAAAATCTGGGGAGT -AATAAGTACTTCCTGAAGAGCCTTGATTAAATGCGCTCTTGTTATTCTCATCGATATGCGATGTTAACCAGTCCG -AACGCGTAGTGCGATAACCCAATTTCACCTTGCTATCATCAGCGTTGAAGCGTTTGATCTTTGCATCAATTACCC -CGCCATTGAAGCGACCAAATTCAACCGGCACAAAACTGTCATAAAGCGTCACATTGTCCAGTAAGCTGACATCAA -GATAATACCCCTGTGACATCCCGCTAATATTGGTTGCACTACTGGCATCGGACTCATTCGCTGGGTTCAGGTTAT -TAGTTGCACTAATACCGTCAATCAAATAGGCATTCTGGTAGGGCGACGCACCGTGAATAGAGATTTTCTCAGGGC -GAATATCTCCCTGGTTCAACGAGGTACTTTGCGTTGAATCCATGCGTACCGCAGGGTTGGTTCTCAGCAGATCGC -TGATATTGCCATTCCCGGTCGGTAAACGCTCGATGCTTTCACTGGTGTAATGCGTGTTGCCGTTTACGGGTACAG -GGACAGGAGCATAGACCGTCATCTCTTCAAAAAAATGCATGTACATGTTTTTGTCATCGACGGCCTGCGCCACAT -CAGCGCCACATAAAATGACGCCAGGAATAAGAACTCGCTTCATTTATTTATATCTCCGTACAGCAGGGCTTTTAT -TGTTTTTATAAAACCGCGCTAATGTCACAAATATCATCGGCCAGGTTCCAGACACCGGGTTGATGTGTAACCATA -ATGACGCCGCTTGTGGGTAGTTTTTCACGCACTAAACGCAGTAAGCGGATAGCCTCTTGTTCCTCAAGATGAGAG -GTAGTTTCGTCAAGAAATATCCATTTCGGACGTCGTAAAATTAATCGTGCCAGGGCGATACGTTGTTTTTCGCCG -CTGGAAAGAATATCTCCCCAGCGATCGTGGTCATGAATACGCGCAGCCAATTTCCCAAGACCAACCTGATGCAGT -ACTTCGCTCAACGATTTATCGTCTACGGGCAGGGGAAGTGCTTTACAAATAATCTCTTTCAGTAAGCCGGTTTTG -ATTAACGGTGTTTGTGACACATACCAACTGTCAGCAGGAGAAGAAATATCACCTTTAAACCACGGCCAGCAGTGG -GATAATGTTTTAAGCAGTGTGGTTTTTCCCGCGCCAGAGTAGCCTTTCAGTAATAGCCATTTGCCTGGCGAAACA -TGAAAGTTCAGGTTCTCTAATATGATCTTATTATCAGGCGTACGAATACTCGCATCAGCCACTTGTACCGCATGT -TGGCAATTTTTAGGCTTATTCGTAGGGCGCTGTTCAGTGAGTTGATGGAACTCATACAAGCGATCGATAACCGCA -GCCAGTTCAGCAAGTTCGTCATATTTATAAATAAACCAGCTTAAATTGTTCGATACCAGCATAAATGCCTGGCGC -GATTTCATCAGTCCGCCCAGATTGATCTGCCCGCTAATAAACTGCGGCAATAACAGAAAGTAGGGAAGAACGCTA -AGCGAGCGCGAATAAATATTCTGCCAGTAATCAAGCCACCGCTGACGATTCATTAAACGATGCCAGTTCTCTTTA -ATGGTATGAAAATTGTCGCTCAACTCCTGGCGTTGTAGAGACTCAGCATTGCTTAGCGCAATCAGTTCTGCCTGC -TTATTATGCTGCACAAGATTTGTTCGAAATGTCGCTTCGCTACGTTGTTTTTCCACATTAAGCGGACGAATACGT -TTACCCACCTTATGGGTAAATAAAGTTCCACCGATCACAATGAGCACGACGGTATAGACCATATACCCCTGGATA -TTCCATTCTGTTCCACCAACAGTGAATGAGAGCGTACCCGCGCTTTCCCAAAGAATAACGGTAAAGGTGATCAGC -ATGCTAAGTGACTGGATGAAGCCAAATGAAAGACTGAGCGTTTTGCTGATCAGTAAGAGAATGTCTTCAGCGATA -CGTTGGTCAGGGTTATCTGTATTTTTATGCTCGCCGTAGATCTGCGTGAAGTAGTAGTTTTTATCTGCAAACCAC -CGATTAAGGTAGTAATCTGTTAACCATTCGCGCCAGCGAATAGTCAGTAGTTTAATTAACCATGTTTTGTTTACG -GATATTAATACAAAGATCCCCAGCAGGGCAGGGAACCAAAGGACAAGCTGCCAAAGCTTATCGGTTTCTTTCTGG -CTTAGCGCATTGAAAAAATCATTATTCCAGTCGTTTAACCAGACCTGAATTTTAACCACGCCAAGGATCATGGCG -AGGATAATAATGATTAACAACACTGAAGTTTTATTATTCTTACGCAGCCAAAAGGGCTTCAACAGACAGAGATAC -TTTGCTATCAACATACGAAGCGTAATGGGAATGGTTATCATTAGCGAAAATTGATTGTGCCATCCAATGATTATC -TATGGCAATGATTTACTGATGAAATTTATTTAAGTATCATTTAACAATATGAAATATAAAGGAATATTTCATTTT -CAGTGGTTATGGTTATGCTATTGATAATCAAGGATATTGCTAATGCCCTGATGCATACCACGTAAGCCAGGATTT -TCGCAAGGGAAGATGATGATGACGAAACACCCGACAGGAATTTATGTCGGGTGCCTTGTTAAGGTCATAAGAAGG -AGGCTAAGAATGGAGTTAAAAGAGAGCGTTATTAATTATTCTCCATTTGTTTTGCAACATCCATAATGTGGTAAA -GCGGTACTCTGTTCTTAGCTAACTCTACCATGGCGTTCATATAAGGTACCATGGTTGAAAAAAGGATTTTATAAC -CTTCGCAAAAATAAGAAACAGTCTCATTGTTTACTTTAGTAATACGATGCTTAGGACAACCGCCATTGCAGATAG -GTTTATATGCACATTGCTGACATTTCGCTGGAATCCGTTTTTTTTGCGCTGTCAGTTGTACACTGTTCATCGTTT -TGAGTTCAGATTTATTAATGTTTCCAATTTTGTACTGTGGATAGACAAAATGGTCGCATTCGTAAATGTCTCCAT -TACTTTCAACAACCAGATTATCCTTGCAGGACTCCTGGAAAATACAACTGGTATGCCCATTCCCCAAAAAACGGC -TGACAAAGCTTTCAAACTGACGGATGAAAATTTCACCCACATCGTTTTTAACCCATTGCATAAAAATGGTTGACA -TAAACTTGCCATAAGCCGTGGGAGGCACAGAAAAATCAATGATACGGAATGTGTTCTCACTATGACCACTGAAAT -CAATATTCGGCGTCCCGGTTTCTAGCAATTCGATAAATTGCATATGTTTACTGCCGATAGATTTTAAAAAATGAT -AAACCTCAAGAGGGTAATGGACATTAACGTTATTAATGACGGTTAACGTATTAAACTCTACTTGATATGATTTCA -GACGCTCGATGGCTGCTATCACTTTTGCAAAAGTACCGTTACCTGAATTACTGCGTCTGTAACGGTCATGTAACT -CCTGGGGGCCATCGATCGAGATACCAACCAGAAATTCATGTTCTTTGAGAAAGGCACACCATTCATTATTCAATA -AAATGCCATTCGTTTGTAATGCATTAAAAATACGTTTTTGGCCTGCATAGCGTTGTTGATAGTGAATAACTTTAC -GGAAAAAATCCAGGCCAGCCAGAGTGGGTTCACCGCCTTGCCAGGTAAAATAGACCTGATTGCCAGACGCTGCGA -TATATTGTTTGATGAACTCTTTCAGAGTGCTGTCATCCATCCATTTTTCATGAGTAAACTGCGACTCTTTTTCAA -GGTAAAAACAGTAATCACATTTGAGATTACATTGAAAACTGGAGGGCTTGGCTGTAACGTGCATCGCTATCTCGC -TCAATAAGGCGGCGGAAAAATCCGCCGCATGAAGGTTTAGTTATTTCGCTTCGCTTAGTGCTTTCTTGATATTGT -TAAACTTCTCCTGATTTACCTCGCTAAGCGGTGGCTGGCTGCTGTCGATAAACTCTCTTACCACGCCTTGCATCT -CTTTAACGACCTGCGGATTGGCGGCGGCAAGGTTATCTTTTTGCTGTAGATCCGTCAGTTTGTAGAGACCTAACT -GATTGTTTTCTACTGTATAGACAAGCGAATAATCGTTATTTCTCACCGTATAAGAGAATTGGCTTAAGTCCTCAG -TGTTGGGGTTATGCGGGTAATCGTCTGACTGATGGCGAACAAATTTGTGGTAATTATCCCAGAATGGAATATTTT -CCTCGTCAAACCAGTGAGAATAAGAGGTTATCCAGGTCAGATTTTTATGTGGCTCGCCTTGTTTCTTATCTTGCA -ACCAGGGCAGCAAGGAAACGCCATCCAGCTTAAGGTCTTTTGGAATGCTGATATCGGCTGCATCAAGAGCTGTCG -GGTAGAAATCCATTGCGGAAATCAGCTTGTCATAATTACCGGGTTGAAGTTTTCCTTTCCACCACATAAACATTG -GGGTGTGAGTACCGCCAGGATAGGTCTGACTCTTATAGCCTTTTTGCGCCCCGTTCAGCGGCAGAGGACCATCGA -TAACCGCACCATTATCGGAGGTAAAGAGAATAATTGTATTGTCATACTGTCCGTTTTTCTTCAGTTGTTCGAGAA -TGCGTTTTACACCCTGATCAACAGAATAAACGGAAGCGTAGTAGTTATCTGCTGTTTGACTACCGGTATTAAATT -GCTTCTGATATTGATCCGGTGCAGGATTATCATTTGGCAGGTGCGGAGCATTATAAGCCAGGTAAAGCATAAAAG -GCTGGTCAAGTGTTTTGGCACGATCAACAACGCCAATTGCCTCATCGGTTAACTGATCGCTGATATAACCTTTTG -CGGGGACACGTTCACGATTTTTGAACAGTGAAGGGGAGTTGTAATATGCCGTTCCTGCAGCGTGGAATCCCATAA -AGTAATCAAAGCCACGGTTTTGAGGTTGCCATTCTTCCGCAGAAAATGTGGTGAAGTTGTCATGATAGTCACGCG -TTTGTTTATCTTCCGGTACCGGCACATTACTGATTTTTGACAAGTGCCATTTACCTACTGCTGCAGTGTAATAAC -CATGATTCTGGAATAATTCAGGCAAGAAAGTTTCTGTTAGCGGAATACCATCCTGAGCATCGGTATTGGAATAGA -CACCAAAGCGGGCGGGAGCTCGACCGGTCATTATTGCGGCGCGGGAGGGGCCGGAAACACCGTGTGCCACATAGC -CGTTAGTAAAACGTACGCCTTCATCCATTAATGAAAGGAGCGTCGGCGTTGATTTTTGTGCAGCTTCAATGGCTT -TATCTATCCCTATTTTGTAGGTATCGACAACTTCACGATTTTCCATTGTTTTTGGGTCAAAAGATCCCTTATCAA -AAGGAAGTTGTCCATAACCAAGATCATCCATGGTCAGTACGATAATATTTGGCTTTCCTTTGGTACTGTATTCTG -TCGGCGTAAAGTCTGAGAAAGCAACGTTTGTTTTGGTTGCTTTCAGCTTTACATCATCTGCCGCATGAGCAGCAA -ATGCAGCCATACCAGATGCCAGTATCAAAGATATCGAGGTACTTACGACACTTTTCTTTAATGCAGACTTCATAA -ATGTTCCTCTTCTTATTGTACTTAATTCCAAAGTAATTTTACGAAGAGAAATAAGTGGATGTAAGTGAAGTTAGT -CACATAAAGAGATAGCAGATTTAGCTAAAAAAAGGGAAAAAACAGTCCATAAAGCGTTGACATTACTTTCTGTTC -TATTAAGTAATTTCTCGCCGATAAACAACTAATTTATTGATATTTAATAAATTATTGCATTTTACTGACAAAATG -CAGAATTGAGATCATAAATAATCATGCAACAGGTTATGCAAGTGCATAAATATGTGATGGATGTCACTTATTTAT -TTCAATAAATATATCGCCTAAAAACAACGCGGGGCAGGGAATGGCTGCCCCATTTAATTCTTACGCAGCGTGTGT -GGTTGACTACTCGTTAGCAAATAATCAAATAGCTAAAGCATTCATCGTGTTGCCCGTATTCATACCCGTGTGACT -TTGACAACGGTACTCCTTAGAAACTCTCTTCGGACTGTTGCCGAAATGTTTGCGGAACGCATAAATAAAATAAGA -TGTACTGGCATAACCACATTGTTCGGCAATTTTATTGACTGAACCTTCTACGCGTATCAAATTTTTTGCGTGCTG -CATTCTTGCATCTAAAAGAATCTGTGAGAATGTCGTTTGCTCTTGCTTAAGTTTTTTCTTCAACAGGCTTTCACT -GATGTACAGGCAGTCACAAATATCTTTCAGCTTCCATGGGTGCGCCGGCTTCATGTTGACAATATTTCTCACTTT -CCCAGAAACGGATAGCACACCGTTAGTTAATAGTGTAATGAAACCTTTGCATGCGGCAAAAATAGACAGGCAAGA -AAAAAGCAAAAGTTCTGAAAAATTATGATGATTGCGTTCTTCCGAGTTGAGATAAGCAATCATTTCATTAAGCAA -TCCAGTCGGTACATTTGAAGCACGTAAAAACTTCGCAGGAACAGGCACCGTCACTGTCTGGATGTTAGTGCATTG -TAGATATTTTTTAATGGTATTTTCAGTAAATCCGATCTCTTTAAAATGCCGCTCATAAGGTTCAAAATGCGTACG -AACAGCGTTATCTACCATCAGGATCTCGCCGTCAGAGAAGGCGTAATCTTTATCTAAAATGTTAGCGTTGAAGGC -ATGATGAATAAATATAACAGAACAAACGAGCGACATTTTATCTCCTTAAAACAATAAAGTTTTTATCGATACTTT -TTTAACATTTCATATTTATAATTTGCTGTTTGTTTTCAGCCTTGCAAACTATTGATAATGAAATGTGTAAGATCT -CTTGCAATGCGACCCATTTCTGAAATACTCAGCTGATCAATTGCCGAAAAAATGGCTATCAACGTAAGTGTCAGT -AATAAGACAACCACAATTGCAGACATGATTTCTTTATAGTTGTCTCTTTGCGTGATTTTGTTTTTCACTGTGGTC -GCATGCATTTCAAATATGTTTATTTAGCGGATAACGTTAAAAATCGTTAATCAGTATGCTTAATATAACAGGCTG -GAGAAAAGAGGAAATAGGACTGGTGCTTCAGTACTGAGCGGAGTTTCTTACAGCTGTAGGCAGAAGTTTATATCT -TATAGTATGTAGTTTAATTTAATCCATGTGAGCAAATTGCGAAATAATAGTCAATGAGGAATTCTTCTGCTGTGC -GGATGACAGCAGAAGAAATGAGAAGAGGCATTAATTTGATGGTTCTAATTCAACCGGAATACTTTTATAGCCAGG -AATGCCACTTAATGGATCGTGGTTATCAAGTGTTAGCATGTGATTCGATTCTGGAAAATAGGTCACCAGTGAGCG -GTCAGCCATAGGGTAAATGACCACTTTTAATCTATCCATGCGGCGTGAGCTGCGCTTACCGTCTGGCGTAAGCGC -AATAAGATTAACTCTTTCGCCGTTTTTTACACGGCAAATTTTAGCTTGTTTAGCACTCATAAAGACCACATCTCG -TTGACCGAATACCCCTCGATAGCGATCATCCATACCATAAATCGTCGTGTTGTACTGATCGTGGCTGCGTACTGT -CGCCATGACCAGCTTACTGTTAAACGCTGAAGAGGGATCTTCTAACAGCCCTTTGCTGGTAATGAAATTAGCCTT -ACCTGACGGCGTCATCCAGCGCCTTTCAGCAGCTGCATTTATCAGGTGAAAACCACCGGGATGACGGATGCGCTG -GTTATAGTCGGCGAACTCTGGCAGCACAGCTTCAATGTCATTGCGAATGCGATCATAATCTTCCACCAGATACTC -CCAGGCTACCACGCTCTGGGGTAGTGCTGCCTGCGCGATTCCCGCGACCACTGCACACTCTGATTTCAGCATTAC -ACCGGCGGGTTTTAACACGCCACGCGAGGCATGAATCATCGACATTGAATCCTCAACGGTTACCGCCTGCGCACC -GTTTTTTTGCATGTCAATCTCGCTACGTCCCAGGACCGGCAGAATATAGCTATGCCGTGCGGTCAACAGATGAGA -GCGGTTAAGCTTAGTGGCTACGTGTACCGCCAAATCTAATTGCGTTAACGGTACAGCGCTCGCTTCCCGATCTGG -CATTGCCAGCGCAAAATTGCCCCCCATGCAGATCAATGCTCGAGCCTGCCCCGTACATATTGCTTGCATGCTGGC -AATTGCAGCATGTCCAGGTGCATGAGGTGGGGTGAAGCCATAGCGCTCACCCAGACGAGCCAGAAACTCTGCAGA -CGGTTTCTCGGTGATACCGACGGTTCGGTCGCCCTGTACATTAGAGTGTCCACGTAGTGGGCAGATACCCGCACC -AGGCTTGCCAATGTTACCTTTCATCAACAGCAGATTGACCAGTTGCTGTACGTTCTGGGTACCATGTTCGTGCTG -AGTGATCCCCATTCCGTAACAGATAATGGTGCGTTCGGCAGCGGCATATGCGTCAGCCAGTTCGGCGATTTGTGT -CTGACTTAGTCCAGAAATACGTTCGATATCTTTCCACTCGGAATTGAGAACGTCACGGCGTAGCTCGTCAAAGCC -GACGGTATGCGTTTGAATAAACTCGTCATCAAGCAATGAAGGCCGACCTGCGGCGCTTGCAGCATCATCGCGCTC -AATTAACAGGCGCATCATCCCCTTGAGCAACGCCATATCGCCACCAATGCGCACGTTATAGTAGGCACTGGCCAA -CTGAGTCTCAGAGTTCGTCAGCATTTCAAACGGGTTTTGCGGTGCGGTAAATCGCTCCAGGCCACGTTCCTGTAG -AGGATTGATGGCGATCATTTTCGCTCCCCGTTTCACTAAAGCGCGCAACGAAGTCAGCATGCGAGGGTGGTTTGT -ACCAGGGTTATGCCCAATGCAAATGACTAAATCGCACTTCTCAAAGTCTTCCAGCAACACGGTCCCTTTACCTAC -ACCGATACTCGCTGCCAAACCCACGCTTGTCGGTTCATGGCACATGTTGGAGCAGTCGGGAAAGTTATTGCTCCC -GTATTCACGGGCAAAAAGCTGATAAAGAAAGGCAGCTTCATTGGAAGTGCGGCCCGAAGTATAGAATTCAACCTG -ATTGGGATCACTATAGCTTTGAAGGCGTGCGCCAATTTCGTCGAAAGCTTGTTGCCAGCTTAATGGCTTGTAACA -GTCGCTGACGGCATCATATTTCAAAGGCTGAGTGAGTCGCCCCGCAGCCTCAAGCTCGTGGTCTCCCCAGGTAAG -TAATGATTGAACCGTATTCTCAGCAAAGAAAGAGGCGTTTACCTGCTTATCCGTGACTTCCCAGGCGATTGCTTT -TGCGCCGTTTTCACAAATGTCGAATGACGCACTGTGCTTAGGATCTGGCCATGCACAACCCGGACAGTCAAAGCC -CTCTGGCTTATTCATGTCAAACATGGCAATAACATCCTGGCGTATATCCATCTGCTTACGTACTGCATTCGCTAC -GGATTTAACAGCACCCCAACCACCTGCAGCACCCTGGTAGGATTCAATTTTTTTCTTCATCTACTTATCCTGTGT -GGAAATGAATTATTAGGATTTGTAATAGCGATGATGCACAGTACATACAAAGGGATTATCGCCAACATGGATATA -TAAGAGTAGGGGACTACTCTCTTTCTATTTTTAATCTATTATCGTTAAACAATAGATTAAATACGATAAGTTAAG -CATCATCTCTCATAGTGTTTAAATTAACATATTTTTCAATATAAAAAATAAGACTCTGGCTTCAATTGTGCGCGG -ATTTTCTTACAGGTGTAGGCTAATAGCCTTCACAAAATAATTATCCGCGCAATTTTCGTGAATGGAGCGCATAGA -CTAAGGTCAAAATCACAATTATTCATAGATAAAAGTGACACCAATGACTGACTGGACGGTTCCGGCTGAAACCTT -GTTTCCTGTTTGTCCATAGGTTGCGCTTAAACCCAGAGGTACTTTGCTTTTATTTACTGTCCCCAGGGAGACATT -TTCTCCCGTAGCCAGTATTTTTCCATTACGCATTAGAGTGACACCCACTCCCGATGCTTTTGTTGCATCAGGTGC -TGTGTTAGCAAACACTTGTCGGCTACTGTCAGTGGTGGCACCCGAAAGATAAAATGAGAGCTTTTGTTCGCTTGA -GCAATATACGCCAAGGGGTATTTCTGCGCTTCCAGGAAAGTCCGGGAGATCCACGGTGACATTTCGACTATCAAC -GGTGCAGCCGCCTGTTGGCATAACAACATTGTTATTTGAAATAATATTCCACGTAAAATTACGCGGATTTCCGCT -TCCTAATGTTGCAATTTTATACATATGAATACGGGCAATGACTTCCCCCGCTTTTATGACAACTCCACCGGCCGC -CCCAACTGGGGTAATATAGAGTTTTAACGGTAATGGCATCGGTGTCTTATCACCAATATCCAATACGTTGGTATT -TGTCGTCAACGGGAAGGGGTAGGTCACATTATTCCAGTACAGCGATCCTTTATATGACTGTAGGGAGCCTGCGAA -AGCTGAGCCTTGTACCAGGTTTATATGATCAGTGTCGTACCAGCCGCCGTAATCATTCCAGCAACTTATATGCTG -AGACAAGTCTACAACCAGATTCTGGCCCGGCTGTATTACAGGGTCGAGATTAACATAAACAGAGGTTGTACCTGC -TCCAATACTTGACCCGCCATCGACATTACAACTGAAGGCAAAAACTTTGCCTGCCATTAATAGAAGATAAATACC -GAACAGGACCTTTATACTGATTGTTTTACCCATGATATATCCTAAGGTTAAAAATTGATTTAAAAAGAAGGCTAA -GAAAATCGAATCGACGTTATTGCCAGGTGTAGATCACATTGATTAGCGCCTCGATCGTTCCCTGGCTTGCGTTTC -CATTCACCGTGATAGCTCTTGCCTTAAGTGGAAACTGTGCATTACGAGTGATCTCATCAACAATAACCGTTTTGC -TATCGCCATTTTTTAACGCAGCATCCTGGTCATCCCTCAGCTCTATCTGAATATTTTCGGCAGTACCTTCATTTT -TGTAATAACCCGTATTGTCAGTTGAACCTGTCACGATTGCCGTCACTGCACTTGTTTCAACCGGACAATCGGTTA -ATGACAAAGTAATATTGTGCCAGCCAGATGCAGAACCAGGTTGTTGCAGATTGCGCGTATAAAGATCCCCGAGAT -TAACGTTAGCTTCTTTGGTTTGAATAGTGCAGGGTTTAGCGACTACCCGACCATTAACAGTGATAGTGACATCGG -CGGCCTGGAGAGTTGCTGTGAATAACGCGCAAAACGTAGCTAACAGGAACCTCTTGTGAAGTCTTTTCATATCTG -ACTCTGATTATTGAAATTCAAGGGTAAAGGTTGCCGAAGCCCTCACCAGTCCCGGATTGACGGACTTCTGAGTTG -ACTTCAGACGAGCGGAGTAAGGCAAAATATTGTTCTGTTCTGGTACCAGTGGGATCCACTGCATCCCGGCATGAA -GATCATTCAGTTTCACCGGACGCATATTTGCGTCCAATATTTCTATACCCAAACCGGAGGCCGTATTGCTTCCTT -CATCCAGTTTCAACAAAGTATTATTTTCTGCATCCTCAATACCGTTAAATGCAACCCGAACCCCCGTTGTCCCTT -TGCTGCATTCACTTAACGTAATCTGAAAAGGGACGGCTGGACTTGTGCTACCGGTCGTTGGAAATTGTCTGGCAC -TGTTTTTTTGGAGATCTACGGTAAAATTAAGCGAATCCGATGAGACTGTGCAGCCATAATCGAGGACGCGCCCGC -TAATTTTAATAACGCTATCTGCGGATAAAGCAGAATAGGTGGTTAACCCCAGACATAAACCGAGGAAAATAATGT -TATTGTATTTCATAATCTATTGTTCCTTAGCGACAGATTGCTGTCTGCTGGTTCAGTAAGGTACCAGGAGAAACT -TCAGGAAGCTTGTACTCGACAATACAGTTTGAGTTTTTATCTTTGCCCCATGAAACCTGTAATTGCCCTGACTGT -GGAAGTCCAGTCAGATAAACCTGACCATTTTCCGCGACAATGCTGCCATTTTTATTCTCTCCGTGTGTGACAATT -GCACCGAATGGAACGCTCTTATTACCGTACTTCAACGTCATTAATACTTTCCCGCCGATTTGTGCATTAAATGTT -GCTCTGGCAATAGCACCGTGAGTTGGGATGACAGTGACCACGGTTTCATCCAGTTCAACATTATCTGCAAGGGAA -TTCGCGTTAAGAGCAACACGGTTTTCTCTATATTCTGTCGCAAATGGTAATATGGCATAGCCACGCCAGTCGGTA -TGAATTCCGGTCTGGTTCTCTATTTTGACATTATCAGCACCAGGAGCCTTAACCAGAACCATTGTGTCGCCCAGC -GGCTGTCCAAAGGTGATGCCATCAGCATGAGCAATAATCCCACCACTCATTCCGTAATAAATCTGGCTGCTGTCA -CCACTCCGACTGTAACCGACATTAGTATTACCATAAGCTCCACGATAATTAAGAGAACTGTAACCACTGGTGCCA -GACGATGTATTACCTCCGTGGGTGTTACCGACCTGAACGCTATAATTCAGGTTATTATCCGGCAGCAGAGTGCCA -TAAACCCCCGATAGATTGGTCATGCCGCCTTTCAAATCGTTTGACATACTGTAACTGGCGTTTGAATTACGAAAT -GCCGACTGACTGTCTGTACGCATCCAATGACTGAAGGGAACATTAAGCGTAAAAGCGAGTAAATGATCCCGATCG -TTTTGCCATATATTATTGGAATAGCTGTAATTCAGCGAAGTCGTAATATCACCAAACGGCACATTTAATCCAAAT -GATATTTGCTGGTCGCTGCGTGACGTGTTCCAGTAACTTTGGCGACTGGCACTGAAAAATGTCGTACCGTAATTT -CCAAGCTGCTGAGAGATGCTTATTTGTTCCTGACCACGCTTACTGTAGAACAGATTAAAATAATCAATAAATTGT -GTCTGCTCATTGGTGTCTCCGGTAGGAGGCTTGACGGTGTAACCACTCATTCGACTGTAGGCACTGTCGGATAAG -TTATAAAAACCTTGCGTAGAATAGCGATATCCTGCGACCTGGATATTGGTTCCACAACAAGTTTATTGCTGCACT -TGTTGAAGAGAGTATTTGCAAAAACATTTTATGTCGCTAAATAACATGACGATTTCATTATGCATGTTATTTATA -AACCGTGACTAAACAGAATATTATTGCGAACAAGGGAAGTGTCAGGAAAGGTCAAGAGCTACCAATGGTTAATAT -GGCTATAAATCATTAGCTATGGTTAATGTTTGCTTGCTGAAACTAACACCGAATTGCTCTAAACAGATAAGTGCA -GGGTTTATTAAAGCTGTCCGACAGACTTTCTTAACCTGGTAATATCTCTCTTGGGTGACTCTCCAAACATCCGCG -AATATTCCCGACTGAAATGGGATAGCTTTCGTAACCGACAGCATAGGCTGCTGTGGTGACATCGTAATGTTCATT -CAGCATCTGTCGCCTGACTTCATTGAGACGTAGCCATTTCTGATACCGGAGTGGACTCATTCCCGCTTGATCCGT -CCTTAAATAAGTAACAGCACCCTCTGGTGTTTTCGTATGCAGTGTCTATGCGACAGACACTGCGCTCTTAGCATG -GGGCAGGGAATAACCAGGCTATTTCTCCATGCACAGGCCAATTATGAAAGAGGAGAGGCTTAAGTTCTTGAACCC -TGAACGAATAACGACTACCAGAAAAGCACTTCGCATCACTCAGACATGATTTAACATAATATACATTATGCGCAC -CAATATAAACCAAGGAAGAATCCAGTCGTTGGCGGTCATGATTGTCATGCTCATTAACAATGACCAAACCCCATA -TCTCACTTACTACCGTATTCTCGGCTTAACCGTCCATGCAACCTCAACACATTGCTTTCAACTGCCGTCACCACG -TTCTCCGGAAAATCTGTCGGTAATGAAGTCTTCACGTTATCCAGTGCTGCTGGAATCATTCTGGCAAAGTCACTC -AGGATTTCATGCATCTGCACTTCCGGGAATCTCAGCACCTTTGCTGTCGCCAAAAAATGTCGCGGATAAATTTTA -TCGATTGCCGTTTTTTTGCCTTTGGATGCGTTAAGCCCCATTGCCAGTTTGAGATCGCTGATGTGTATTCCCGTA -CCGCCAAGGACCGGAAATGCTGAAATGATGTCGTAAAATGGCGTGAGTCGATAACTGCCGCCAGCCTGAATAAAT -ACGGAGAAGTTTTTTGCATGACCGTCCGTTGCGCCAATCAACCACTGGAAGACCTGGAATTTCATAAAATCATAG -CGATCTTTCAGCGCCTCGCTGGACCCCATCAAAAAAGCCATGATCCGCGCGATGCCTGGGCCTCCATCTGATTCA -TATTTCACCGATGAAGGTAAACCGAATGTCTGACACATATCCTCCTGTGGCAAGCGAAGTAAAACCGTTCGCTCA -GCATTCCAACGCCTGTCAAAACGTTCGACCGCTAACGCGCGCACATTTCCCGCTTTAATGATTTCTGCGTCCGGA -ACATTCAACCCAAGTTCTTTCGCCAGCAGCAGACAGTAATACTCATTATCAACGCTTTGGCTGAGATCGAGCGTC -GCATTGGGCTGCCTGATTTCGCCAATCGGTAATTTAATGATGTGCGTCGTCGGCGTTATTCCTTTCGGAATGCAC -CAGTCATTGCCTATTCTGAGCAGTGCTGTCTTCTCCTGTGCGCCAGCAACCGAGATGCGAAAGTCATTTTCTTCT -CTAATCATGCCTAGCGGGATATCTGCTTTATAAGCCGTTAATACTTCTTCAAGTCTGGCTTCAGTAAGCTTTTCC -CATGCCATTATCGGATGCGTTACGGTTTCGTCTTCGGGTATTAACGTCACGGCACCAACGCTGTCTCGCCCTATT -TCTGACAATAAATCAAACGGTTGTCTGGATTTGGCATGATAACGTTTAACGATCCGGTCACGTACAATCGGGCTA -TCGGGTAACAGGTTATCGAAGAAGTTAAATACGGCATCAGAGGTGATATTCCCCCTCTGCAATGGCAGCGAAAGT -GACAACGGTCTGGCATAACGGCTTGCTAACCACTCCGGTGCATACTTAAAGGTGTGCGCGCCGTTGGCTAACTTC -GTTAACTCGCCTACCCGCTGGTTGTTCATCCAAGTGACAAGTTTAGGCATTACCACTCCAGATTTTGCTGTTCTG -TTGATTCTGGCGAGGCATTTTTCGCGTCGCATAGCGTCATTGAGAGTTCAAGCGACTGTAAAATCTTAAAAAATG -TCGTGAGCGTGGTATTGTCAGGGTTGTTTTCGAAATTGGAAATCGTCGCCTGCTTAATACCAATTTTTTTCGCCA -GCTCGCTCTGCGTCCAGCCATTTTGCTGGCGAACCAGTTTCATTGCATTCGCCAATTGCGTTGGGCTATAGATCT -TCTGAAAGCTCATCATGTCATACGTCCACAGCAAGTTTATCCGCTTAAGGGGATATTATAAGTTTTATCCTTTAG -TGAGGATAAGTCAATCTGGAAACACATCTTATCCGCTCTACGGGATAAACGCTGCGATATCCGCGATCGCGGATA -AAAAGGAGGATTTAAATAAGGCGTTGATGCGCCGTTTGAAGTCGGCAATATTAAGCCGCATGCCATCTCGACATG -CGGCTTATACGGTTTACCAGCTATATTTCACTCCCAGCATGCCCTGAGTATCGCTATAGCCTTTATCACCTAGTT -GCACACCGACATTCCCCCACAGGCTAAGGTTGTTATTTACTTTCGCCTCAACCCCGGTACGTACTTCACCGAGAT -TACGCGCACCTTCACGGCCTACGGTTTGACCATTCATCTTCACGGCGTAGACTTTGCTATTGTTGATCCAGTTCG -CTTCAATGTAAGGCTGGAACTCACGCTGTTTACCATCGTCACGCTGGTGATGGCTGTTCAGGTAGGTTTTCACCC -CAAGTCGCGTTTGCACATTTCCGTCGCCTTCCGTTTCAATGCGCGTTCCGTCTTTCCGGGTATGGTCGGAATCTT -TCACACCCATCCAGGTGATTTGCGCCTGTGGCTGGACGTACCAGGTATTCAGCGTCCCTTCGCTGCCGCTAAATG -TTCCCGCTTCAAAGGTATACCCACCCTCAACAGAGGCCGTCACACCGCGAGAATCATAGTCGTCAGCAGAACGGT -TATCGGAACTGACGCTGTTATCAAACCAGTTATACAGCGCCCAGCTGTCAACATAAGCGCCGGTCTTATTCGCAT -CGTTCTGATACCAGGTCGCGTACAGCCCAGCGCTGTAACCGCTGATGCGCCCATCCGATTTATAACCCACACGAT -TACTCTGAGTATTACTGTGCTGATTGGCGTAGCCTGCCATCACGCCAAGATGCCAGCGATCCTGCGCGTTGCTAC -TCCACTGCGCCAAATCGCCGCCTAGCTGCAATACATAGCGGTTAGCCTGAGTATTTAGCTGACCGTCACCGGCCC -TTGAACGTTCGTGCCCTCCGACATGACGCATCCACATACTGCTTGCCGACCCCTGAGAATGCAGTGAATCTGTAT -ACTGCGGCTCACCCAGACGGTCGTGTAAACGATGGCTAAACAGCGAGTTGGCTGCGGCAATGTTGCTGATATAGC -TTCCGGCCTCCGGGCGATAAACTGATGGGCCTTCCGGATCCACAACAGGGGGATTATTGATGGGATCGGGTGTAT -CCGCTGGCGTTACGCCGTCCCATTTACTGGTCAGATACCAGTTTTTCTCGTCATTCCCCTTCCCTTTAGCCAGCG -TGTAGACGTAAGCCCCAGCTTCGACAGTTCCGGTGGTCAGCGCGAAGTTACCTGCAGAATTACCGCCAACCTCAA -TGAGTTCAATACCGTTGACCGTTTGTGCACCGACGCCGCCAATGTTATCAACCCGAACGCGAGTGTTCCCTTGGG -TATCGCCTTTCACGTTCATCTTATCGGTGGGCGAATTATCGCCGCCCAGCGTCGCGTTGAACGTCATCAGGCCAT -TGTTTCCGGTATAGTTGCCGTTAACGGTCAGTACATTCCCCGGTTTCCCCCCTTCGCTATTCATTTGAACCGTGC -CGCCATTCTCCAGGTTGCCGCCGATAGTGGTTTTAGCGACACGCAGTGCCCCCCCCAGGCATAACGTTCATATCA -CCTGCAGTGGTGACATTTCCCGACATCACACCGCTGTTATGGATATTAATGTGTTGACTTGCCATATTAATGGCA -GAGTCGGAACCGAAAGCAATTTCCCCCCCCACGATATCCGTCGTACCCTGATACGCCGCGGAATCGTTGTTAAGA -GTCAGGATCCCGGTACCCAGTTTTGTCACATCACCGCTACCGCTGATACTGTGCGTCATCGCCCAGCTACGCTCA -GTGGAGATGGTGAGCAGGCCATTATTGATAACGGAAGCATCACCCAGGTTTTTCTGCTCGTTGACGCTGAGCGCG -CTGCCTGTATCAATGTTGAATTGCCCCACAAAGCGGCTATTATCGCCATCCAACTCTACATCTGTCCTGGCGGTT -GCGCTCACGATACCCTTCCCGCTTATGCTATTACGCAGTTCGCCAGTCACGTTTTTTAGCGTTAACAGACCGTCA -TTGGCAATATTTCCTCTGCCTAACCCCTGAGTATTATCGAGGCTGACTTCCGCATTTGGGCTAATGCTGGTTAAC -GCATTGTAGCGTGCATTAAGCCCCTCGATAGCCAGCGTTCCCCCTGTAACATTCAGGTTTCCGCCACCTGTCAGT -TCACCCTGACTGATCCCACCTTTATTTACCGTCAGCGCCCCCTCTTTGAACAAAACAGTCGAACCCATCTGCCCG -GTGAATGTCTCTACCGTCTGCGTCGATCCATTAAGATCGACGATGGCCGCGTTGCTGATGTTCAGTTCCCGGGTG -TTGCCAAGTGCACCATCCGCATCGGTACGTAATGTCCCCATCTGAACGTAGGTTGCCCCCTGATAGTCGTTCTGA -CCGTTGGAAAGCGAAACCTGTCGCACCGTATTGATTGCCAGATCCCCTTCACCACCGATTTTTGCCGACATATCG -GCCGTTGCGCCATAGGCTCCGCCATGTTCGGCTAACGTCAGCTTTTGCCCACCATGGATGTTCAGCGCTTTCAGC -CCATAGTTAACGTACAAACCATTACCTGGTGCGGTCGTGAGGCGGAATCCATAATCACCCTCGGCGACCACCGTT -CCGTTTTGCGCAATGTGTAACGTTTTGTCCGCTTCCACCTCGTCGCCCTGTAAATCACGTAACGTTAATGAGCCA -CCCGACCCAATAACCGTTTGCGCCTTCACCAGTTGAACGCCGACATGGCTATCGTCGTGTTCCAGCAAATTGAGC -GTCGTCAGAGGGTTATTCGCCATGGGATCATTCCACGGTTTAGGCACGTCGATAAGCACGTCGCCCGTCCCGTTT -ACCTGATAGTTACGGCCTTTCCAGGTGTAGTCACCCGCGCCGACAACCAGCGTATCGACGCTGATATATCCCTCC -GCGAGCGTCGCAGCAGGAATATCCGTATCGAAAATGATGGTACCTCCATTCATGGCCAGTCCACCAATGGATTGC -TCTCCAACTTTTACCGATGTGGTATTTTCACTGTCAGACTGCAACATCGCGTGAGTAAGCGCAGCGGTGTTGTCG -CGTTCCAGAGTGAAGGTACTGTCTTTCAGTTGGGCAACACCGGCGAATTCAGTCCCTGTTGCATGGGTAAAGCCA -AACATCTTGTCGGAGGATGACAGCTGCACTCGCATCAAGCCATCGCCTTTGAGCGCATTGGTCAGCGTGTAATCT -CCTGCACTGTTCGTTGATGCGAGAATGTCGAGCGTACCGGGGTTTGCAATGGTTACTTCACTCGACCCCATGCCC -GTTACCCCATCTGCCGTATGAGACGCAATGGTCAGGAGGCCGTCATTGACCAGCGTTTTACCGCTATAAGTATTC -CCTGCATTGAACACCGTATGGCCTGCATCATGGATCACTTTTCCGTCTTTATCGTCACCTGTAATCAGCATATCG -ACCTGGTAGCCGGCATCACTGTTATTGGTATGATTAAAGACAAAAACGCCTTCGCCAAGACCAAACTCCACTTTC -GTCGCATTGGTGATAAATCCGGCATCTGCCGCCGCCTCACCGTGAGCAGCACCAATGTTTAGCGTTCCTACAGCA -GGCTCAAAAACACCTAAGTAAACTTCTCCACCTTCGACATTCAGCGTACCGTTATTCGTCAGGGTTAACGTACCC -GTACCAGATGTCCCTACGTACATATTGAATGTTTCAAGAAGAGAGTTCTGCCCATCCACCCTCACGTCGCCCTTA -CTTTTGTCATTGAGAGCTATCTGTGTATCACGCGCTTTAACTATACCTCCGGTGGTAATATTCAGTTCACCCGTG -CCTAATACACCGACCTGTAGCAATTGTGCGTTAGTAGATGATGTCTTTAAATTCCAGAGACTGTCCGTTGAAATA -TTAACTATCCCCTTACCGGAGGCATTTCCTCCGATAAATCCATAGCCCGTTGAATTAAGGGTGGCACCATTACTG -ACATTTACGATACCGCTACCAAAATTACCGACATTGATACCCACAGTATCGAACGATGATGTCGCATCCATCAGG -TTCAGTGTGCCGATACCGCTTGCTTTATCGCCCAAAAAAGTAATATTTTGCGATACGAACTTACCGCCATCGCTA -ATATTGAGGTTTCCGACGCCCGCAACACCAATGGTGGTATAGACATTCTTATTGACCTCCCACATTCCCCCCGTG -GTGATGCTGACATTCCCGACGCCGGTTTCTCCATAACCGAGTGAACTTCCTCCGTTGCTGACAACAAGCCCCTGA -TTACTGATATTCATTTCGCCGTGGCCGTCATAACCAAGATTAGTTCCGAGATTAGTGATAACGGAGTTCTTATCC -TTAACAGTAATGTTGCCTGTGCCTGTTTCTTTCATCCCCGCAGTGATAATTCCCGAATCTACTTTGCCTTCACTC -GAGACATTAAGTTCACCGTCGCCAGCATCACCGATATAGATATAGCGGAAAGCTTCGCCCGTTCCGAGGAAATTC -CAATGCCCTTTATCGGTCACGTTGACGACACCGTGGGAACCGTCCTGAACGCCCACCAATGAATATTCTTTGTTA -TTAATCAGTCCATTATTGGAAATATTGACTGTGCCATTACCGAAATATCCATTATAGAGTCTGCGTACCGTGATG -ACAGAGTCTTGATCCTGCACATTCAGGGTTCCGATACCGGTGGCATTGCCACCGATAATCGTATTTTCAGCCGTA -ACCAACCCCCCCTCGCGAATAGTCGCCTCCCCAGTTCCTTGATTACCAATTTGAAATTCAATTGAGGAATCATTA -TTTTTTATTAGCCACTCGCCACCCTTTTCAACGACAACCTGGCCATTACTGCCCGCCTGATAGCCTAAAATGGCG -ACGATTGAACTCGTGACGTAACCCTTATCCGTAATATTTAATGAACCTGTGCCATAGCTACCTATTTCGAATAAT -TCGGTCGTCAGAACAGAGTCCTCTCCCTCAACATTGACCGTCCCGACGCCTCCTGTCGAAGAACCTAATCTTAAA -TAGCCTCCATCGACGTGACCCTTCTGTTTAATATTCAGCGTCCCCGTTCCGGATTGACCCACATTTAAAGGCCTT -GCATTATTTCCGCTATCATACAATCGCCAGGTGCCACCCAAAACATTAACGGTGCCCTCTGAGTCCTCATTAGCG -CCAATGACGCTGGTAGTAATAGTGGTTAAGGAGGCATTACCGCCAGCCAAAATATTAAGCACTCCAGTGCCATAC -CAGCCAACCAGGTAGGCATCATAAGCAACATCAGTATCAATATTGGTAATCTGATCATTATCAACTTCCAGACTT -GCACCAGACGCTGAACCGCTTAGTGCCAGCAAAACACCCAGCGTCAATCTACTGAATTTCGTTGTCAGTCCAGAG -GATTTACGCAAATTAACCGTCGATGTTTTACCTGCCCTGCGAGTTAATTCCGAGCAGGCCTGAAATACCTGTAGA -GTGCAATTCCATATCACGCGATAGATTCTATTCATATAAACGCTCCATATACAAACAATACAGCCACGAAAGAGA -TGAGTCGTCAGACATTAAAAATGAAACTTATTAAATTGTCAGAGGTCTGTATTGAGTGTTAGTTGGAGGTGGGAA -GGTGTCAATTTGGCTAATTTGCTAATGCTTTCGAATTGATAGATTAAAAATTGCATAGTTCTTATTTTATTTAAA -TATGAACTATGAGTTATTGTTGCTTAATAAGAAAACTGTTTCTTTCAATAGGAAAATTATCATCATCATATTTAA -CAAAGAATAGCACTAATTGCTAAAAATCGAAGTTTATTAAACCCCTTTTGCATCCATTAGTGTCTTTAGGAATAT -TCGCTATAAAATAAGGGTTGTGCTTAATGCTTTAAGAAAAATAGCAATTTTCCCTTGAATATCGTACTGGTGATG -GAACGATGAATCTGCAAGCTGGCTTTTAACAAGCCAGCTCTAAAAGAAGGGAAATAAGAATAACTATACTCAAAA -ACTAACAGCCACGGTCATCATGATGTGGCTGTCAATGAAACTATAACCCAGGCGCTTTCCATAACGACGTCGTCA -GTCCATGATCAACCAGCCCCAGCTGATCCTGATAAACTGCCTGCCACTTATCGCGTGAATCCTGATAAAGTTCAT -GCTTTTCCGGGTCTGGTGTGTGCGTCCGTTCCCAGCGAACCAGGCGTTCTCCGGTTTCTGCCATTGATGAAAAAA -TTCCGGCACCGACGCCAGCTGCAATGGCACATCCTAATGCAGTGGCTTCTTTGACCACCGGAATATTGACGGGTA -ATCCCGAGACATCAGCGAGAATTTGACTCCATAATTTCCCTTTTGAACCTCCGCCTGCAAAGACTAACGATGAAG -GATGAATATTCGAGAAATCAGCAATTTGCTGCAAGTTACACGCTGATACAATCGCCGCATTTTCTTCCAGCGCAC -GGAACAATGTCGCTTTGTTACATTTATCCGGGTCAATGGACAAGTTAATAAAGGAAGGCGCAGCGTGATACCAGG -TTTTAAAGCGCATTCTGTCGGAGAAGATCGGCATTACGCCCCACGACCCAGGCGGCACCCGACTGGCCATCTCTT -CCAGCAGCGTATAGGTGTCGATGCCTAAACGTTCGGCAATCAGTTTTTCTTCGGCACAGAAAGCATCGCGGAACC -AGCGCATGGTGAGTCCGGTAAAAAAGCTTATAGATTCAGCTTGTACCATGCCAGGAATAACATGAGGATTAACGC -GCACGTTCATTTCTGGGTCTGTCACCGGCGCGGCTAAATTTACAACTTGCTGCCAGAATGTGCCGCCAAGAACCG -CGGTTTGTGCCGGACGCACAACGCCTAACCCAAGGCAACCAAGCTGCACGTCGCCTCCTCCAACGACCACCGGAG -TGCCCGCCTTCAGACCGCAGAGTTCCGCCGCTTGTGAACTTACCACGCCCAGCAATGTGCCGGTTTCTTTGACAG -GAGAAAGAATATCGGCACGTAGGCCAGCCATATCCAGCAATGCAGGTTTCCAGTCACGGGTGGTTAGATCAAGAA -GTCCCGTGGTGCCAGCGTTAGAGGGATCCACCGCCAGTTCGCCGCTGAGCATATAGGCCAGCCAGTCGCTGATCA -TGGTGATGGTTGATGCCTGACGGTAAATATCGGAACGATGGTGCGCCAGCCAAAGTAATCTGGGGATGGCACTTA -AAGCCAGTGTTTGTCCGGTCGCGCGATAAACTTCGTTTTCAAAGGTATTGTTGTGCAGTTCTTTAAGTTCGCTAA -CTTCGCGTGCCGCTCTGGCATCCACATTGGCGCAGGCCCAGATCGGGGCTCCTTCATTATTATATAAAACAATGC -CTTCACGCATCGAACATGCCGAAACGGCAGCGATATACTCCGGGGCTATGCCGGCGTTGTGCAGCGCCTGGCGCA -TACACTCACACGCCAGTTGCCAGTTTTTGTTGAGATCAAATTCCATAGAACCAGGAACGTCCGGTACTGCCAGAT -GCCGCCACTCCGCCTGTCCCACTGCTATTTGATTGCCTTCCAGGTCGAATATCACAGCCCGAATACTTCCGGTGC -CTGCATCCAGCGCCATCAGGTAGTACTTTGATTCTGAAAGGGTAAAGAGTCGAGCCATTAGATTATCCTCGGCTT -ATGCGTTCTGTCTGTTCCTCTATACGTTCTCCATCATTCCCGGTAATAAGGTCATGCAAATTTAACTACGTAAAA -TCGCCGCTGCTGTGTCCTGATCGGTAACCAGTGCGTTGATATAACCGCCTTTCATTGCAGCGGCAATTGCTTCGG -CTTTATTTTCTCCCCCTGCCACGCCAACCCGGACGGGTATGGTCTTCAGCGCGCTTAAAGGTAAGCCAATCAGTT -CGTTATGTATTTTGATATTCGTGACAACGTCACCTTTTGCATCAAAAAAGTAGCCTAAAATGTCGCCAACCGCCC -CTTTTCGGCCAATCATTAACTGTTCGCCCTGGCTGATATAACCGGAGCGAATGATTGTCGCATCGTCCTGTTGAC -TCACAGCACCAATGCCGACAATCGCCACATCCGCTGCTTGCGCGGCTAACAGAACATCTTTGACGCAATTTTCAT -TTTTTAGCGTACGGGCAATGTCAGCGGAGGATGCCCGCAACGGAGCCGGAATAATATTCACACTGCACGCCGCGT -TAAGCTGCCCGATTCCCGTCATATAAGAACCGACGCCACCGGAGAGCGTGACCAGGCGAATTTGCTGTGACGAAA -TAAAACCACTTAAGCGTTGCAGCGTATTCATGGTTGCCTCGCCAAAACCAATCGCCAGCATCTGTTGTGGTTGAA -GTAAACTCATCAACATATGCGCCGCGCCTATCCCCAGTCGCCCACCGACATCAGCATCCGCAAGCCCAGGGATCA -CCCGGACATGTTGCAGCGAAAACTGACGACGTAATTGAGTTTCATATTCCAGACAGCCTTCAAAGCGAGAATTAA -TCTGTACGCGAATAATGCCGGACTGATGCCCTTTCTCCAGCAATCGCGACACTTTCAAACGTGTCAGGCCGAGAC -GATCGCTGATCTCGCTCTGGGTCAGCCCGTCGTGATAGTAAAACCACGCGATCCGCGCGACCTGTTCTTCTTCAC -ACATTCCCTGTTCTGAAATTGCCGAATCGTTGATTGTCATAATTCATTCTTCACTTTGAACATATTTAAATCTTT -AATGCAATTGTTCAGTTCTTGCTCATTTATATCTGTGATGGCAACCACAGTTTGACTCTACGAGCATGAACAAAC -GCAACCGTGAAAATCAAAATAGCATAAATTGTGATCTATTCGTCGGAAATATGTGCAATGTCCACCTAAGGTTAT -GAACAAATTAAAAGCAGAAATACATTTGTTCAAAACTCACCTGCAAAACTGAACGGGGGAAATATGCAAACGAGT -GATACCCGCGCGTTACCGCTACTTTGCGCCCGCTCGGTTTATAAACAGTATTCAGGGGTCAATGTCCTGAAAGGC -ATCGATTTTACGTTGCATCAGGGGGAGGTCCACGCCCTGCTCGGCGGCAATGGTGCCGGTAAATCGACGTTAATG -AAGATTATTGCCGGTATTACCCCTGCTGATAGCGGTACGCTGGAGATTGAGGGCAACAACTACGTCAGATTAACG -CCAGTTCATGCTCATCAGCTGGGTATTTATCTCGTTCCCCAGGAACCGCTGCTTTTCCCAAGCCTGTCGATAAAA -GAAAACATCCTGTTTGGGCTGGCAAAAAAACAGCTCTCCATGCAGAAAATGAAGAACTTGCTGGCGGCGCTGGGC -TGCCAGTTTGATCTGCATAGTCTGGCAGGATCGCTGGATGTCGCCGATCGCCAAATGGTGGAAATCCTCCGCGGG -CTGATGCGCGACTCGCGGATTCTGATCCTCGATGAACCTACCGCCTCGCTTACCCCTGCGGAAACCGAACGCTTG -TTTAGTCGCTTGCAAGAGCTGCTTGCTACTGGCGTGGGTATTGTTTTTATCTCGCATAAGCTGCCGGAAATTCGC -CAGATTGCCGATCGAATTAGCGTGATGCGCGACGGAACCATCGCCTTAAGCGGCAAAACCAGCGAACTGTCTACC -GACGACATTATTCAGGCCATCACCCCAGCGGTACGGGAAAAATCGCTCTCTGCCAGCCAAAAATTATGGCTGGAG -TTACCTGGTAACCGCCCACAACATGCCGCCGGAACGCCGGTGCTGACACTGGAAAATCTGACCGGCGAAGGTTTC -AGGAATGTCAGCCTGACGCTCAATGCCGGAGAAATTCTGGGCCTGGCTGGGCTGGTGGGGGCCGGACGCACAGAA -CTGGCCGAGACGCTCTATGGTCTGCGTACTTTGCGTGGCGGACGCATTATGCTGAATGGTAAAGAGATCAATAAA -TTATCCACTGGAGAACGTTTACTGCGCGGTCTGGTTTATCTGCCGGAAGATCGCCAGTCATCCGGACTGAATCTC -GATGCTTCGCTGGCCTGGAACGTCTGCGCCCTTACTCATAACCTTCGTGGATTCTGGGCGAAAACCGCGAAAGAT -AATGCCACCCTGGAACGTTATCGTCGGGCGCTGAATATTAAATTCAACCAACCGGAACAAGCTGCACGGACATTA -TCCGGTGGCAACCAGCAAAAAATCCTCATTGCCAAATGCTTGGAAGCTTCGCCGCAAGTATTGATTGTCGATGAG -CCGACGCGCGGCGTGGATGTCTCGGCCCGTAATGATATCTACCAGCTGTTGCGCAGCATCGCCGCACAAAATGTG -GCTGTGCTGCTTATCTCCTCCGACCTGGAAGAGATCGAACTGATGGCAGATCGTGTGTATGTGATGCATCAGGGC -GAAATTACCCACTCTGCACTGACCGAGCGCGATATTAATGTCGAGACTATTATGCGCGTTGCCTTCGGCGATAGT -CAGCGTCAGGAGGCGTCATGCTGAAGTTTATTCAGAACAACCGTGAAATCACGGCACTGCTGGCGGTGGTGCTGC -TGTTTGTATTACCCGGTTTTCTCGACCGCCAGTATTTAAGTGTGCAAACGCTGACCATGGTTTATAGCAGCGCGC -AAATCCTGATCCTGCTGGCAATGGGCGCGACGCTGGTAATGCTTACGCGCAATATTGATGTTTCAGTGGGTTCGA -TTACCGGAATGTGCGCGGTGCTGTTGGGGATGTTACTGAACGCAGGATATTCACTACCTGTTGCTTGTGTCGCGA -CTTTACTGCTTGGTTTGCTCGCGGGATTTTTCAACGGTGTCCTGGTCGCGTGGCTAAAGATCCCTGCCATTGTTG -CCACCCTTGGCACGTTAGGGTTGTACAGAGGCATCATGTTGCTGTGGACTGGCGGCAAATGGATTGAAGGGTTAC -CCGCCGAACTGAAACAGCTCTCCGCCCCGCTGCTGCTTGGCGTTTCAGCAATTGGTTGGTTGACGATAATTCTGG -TGGCATTTATGGCCTGGCTGCTGGCAAAGACGGCGTTTGGACGCAGTTTTTATGCCACGGGCGATAATTTACAGG -GCGCTCGTCAACTGGGCGTTCGTACTGAAGCCATTCGCATTGTGGCATTTTCGTTGAACGGCTGCATGGCGGCAC -TGGCGGGAATTGTGTTTGCTTCGCAGATTGGTTTTATCCCCAACCAGACCGGTACCGGGCTGGAGATGAAAGCAA -TTGCAGCCTGCGTGCTGGGCGGCATTAGTTTGCTCGGTGGTTCCGGTGCGATCATTGGTGCGGTACTCGGCGCAT -GGTTCCTGACGCAGATCGATAGCGTACTGGTGCTGTTGCGCATTCCGGCATGGTGGAATGATTTTATCGCGGGTC -TGGTTCTGCTGGCGGTGCTGGTGTTTGATGGACGCCTGCGTTGTGCGCTGGAACGTAATCTACGGCGGCAAAAAT -ATGCCCGCTTTATGACGCCACCGCCATCCGTTAAACCCGCTTCGTCAGGTAAAAAACGGGAGGCCGCATAATGCG -TATTCGCTACGGTTGGGAACTGGCTCTTGCCGCACTGCTCGTTATTGAGATTGTCGCATTTGGTGCAATTAACCC -GCGAATGTTAGATCTCAATATGTTGCTGTTCAGCACCAGTGACTTTATCTGCATTGGCATTGTCGCCCTACCGCT -AACGATGGTGATTGTCAGTGGCGGGATCGATATTTCGTTTGGTTCGACCATCGGCCTCTGCGCCATTGCATTGGG -CGTACTGTTTCAAAGTGGTGTGCCGATGCCGCTGGCGATACTCCTGACCTTACTGCTCGGCGCATTGTGCGGGCT -GATCAACGCCGGATTAATTATCTATACCAAAGTTAACCCGCTGGTGATTACGCTTGGCACGCTGTATCTGTTTGC -CGGAAGCGCTCTGCTGCTTTCCGGTATGGCCGGAGCGACGGGGTACGAAGGTATTGGTGGATTCCCGATGGCGTT -TACAGATTTCGCTAACCTGGATGTGCTGGGACTCCCCGTTCCGCTGATTATCTTCCTGATATGTCTCCTCGTTTT -CTGGCTCTGGCTGCATAAAACCCATGCCGGACGTAATGTGTTTTTGATTGGGCAAAGCCCGCGCGTGGCGCTTTA -TAGCGCGATTCCAGTTAACCGTACCTTATGTGCGCTCTATGCCATGACGGGGCTGGCGTCTGCGGTCGCCGCTGT -GCTGCTGGTATCGTATTTTGGTTCAGCACGTTCCGATCTCGGTGCGTCGTTTCTGATGCCCGCCATCACCGCCGT -GGTGCTTGGCGGGGCCAATATTTATGGTGGTTCCGGTTCCATTATCGGCACCGCCATTGCGGTTTTATTAGTGGG -ATATTTGCAACAAGGTTTGCAAATGGCAGGAGTGCCAAATCAGGTGTCCAGCGCCCTTTCCGGTGCGCTACTTAT -CGTCGTTGTCGTAGGTCGTTCCGTTAGCCTGCATCGCCAGCAAATTAAAGAGTGGCTGGCGCGTCGGGCCAATAA -CCCATTGCCATAAAGGATATCTTCATGACACTTCATCGCTTTAAGAAAATCGCCTTACTTAGCGCTCTTGGCATT -GCCGCAATCTCTATGAATGTGCAGGCCGCAGAGCGTATTGCATTTATTCCCAAACTGGTTGGCGTGGGATTTTTT -ACCAGCGGTGGCAACGGCGCACAACAAGCGGGTAAAGAGCTGGGCGTTGATGTGACCTACGACGGGCCGACAGAA -CCCAGTGTTTCTGGTCAGGTACAGTTGATTAATAACTTCGTCAATCAAGGTTATAACGCCATTATCGTTTCTGCG -GTTTCGCCTGATGGCTTGTGTCCGGCACTGAAACGCGCCATGCAACGTGGTGTGAGAGTGCTGACCTGGGACTCT -GATACTAAACCGGAGTGCCGCTCTTACTACATTAATCAGGGAACGCCCGCCCAGTTAGGAGGTATGTTGGTGGAT -ATGGCGGCGCGTCAGGTGAATAAAGACAAAGCCAAAGTCGCGTTTTTCTACTCAAGCCCCACCGTTACGGACCAA -AACCAGTGGGTGAAAGAAGCGAAAGCGAAAATCGCCAAAGAGCATCCAGGCTGGGAAATTGTCACTACGCAGTTT -GGCTATAACGATGCCACTAAATCGTTACAAACCGCAGAAGGAATATTAAAAGCGTATAGCGATCTCGACGCCATT -ATCGCCCCCGATGCCAACGCCCTGCCCGCTGCCGCACAAGCCGCAGAAAACTTGAAAAATGACAAAGTAGCGATT -GTCGGATTCAGTACGCCAAATGTGATGCGCCCGTATGTAGAGCGCGGCACGGTGAAAGAATTTGGCCTGTGGGAT -GTGGTTCAGCAAGGCAAAATTTCAGTGTATGTCGCGGATGCATTATTGAAAAAAGGATCAATGAAAACGGGCGAC -AAGCTGGATATCAAGGGCGTAGGTCAGGTTGAAGTCTCGCCAAACAGCGTTCAGGGCTATGACTACGAAGCGGAT -GGTAATGGCATCGTACTGTTACCGGAGCGCGTGATATTCAACAAAGAGAATATCGGCAAATACGATTTCTGATGT -GCATTACTTAACCGGAGTAAGTTATGGCAGATTTAGACGATATTAAAGATGGTAAAGATTTTCGTACCGATCAAC -CGCAAAAAAATATCCCTTTTACCCTGAAAGGTTGCGGTGCGCTGGATTGGGGAATGCAGTCACGCTTATCGCGGA -TATTTAATCCGAAAACGGGTAAAACCGTGATGCTGGCTTTTGACCATGGTTATTTTCAGGGACCGACTACCGGAC -TTGAACGCATTGATATAAATATCGCCCCGCTGTTTGAACATGCCGATGTATTAATGTGTACGCGCGGCATTTTGC -GCAGCGTAGTTCCCCCTGCGACCAATAGGCCGGTGGTACTGCGGGCGTCAGGTGCGAACTCTATTCTGGCGGAAT -TAAGTAATGAAGCCGTGGCGTTATCGATGGATGACGCCGTGCGCCTGAACAGTTGCGCGGTGGCGGCGCAGGTTT -ATATCGGCAGCGAATATGAACATCAGTCGATCAAAAATATTATTCAGCTGGTTGATGCCGGAATGAAAGTGGGAA -TGCCGACCATGGCCGTGACTGGCGTGGGCAAAGATATGGTGCGCGATCAGCGTTATTTCTCGCTCGCGACTCGAA -TCGCCGCTGAAATGGGGGCGCAAATTATCAAAACCTATTATGTCGAAAAAGGTTTTGAACGGATTGTTGCCGGAT -GTCCGGTACCCATTGTTATTGCTGGCGGTAAAAAATTACCGGAGCGCGAGGCGCTGGAAATGTGCTGGCAGGCTA -TCGATCAGGGCGCTTCTGGTGTGGATATGGGGCGTAATATTTTCCAGTCTGACCATCCGGTGGCGATGATGAAAG -CCGTACAGGCGGTGGTTCACCATAACGAAACGGCTGATCGGGCATATGAACTCTATCTGAGTGAAAAACAGTAAC -TGCGGATCTAAGGAGAAGAATTATGCACGTCACACTGGTTGAAATTAACGTTCATGAAGACAAGGTTGACGAGTT -TATCGAAGTTTTTCGCCAGAACCACCTGGGCTCTGTACAGGAAGAAGGCAATTTGCGCTTCGATGTCTTACAGGA -CCCGGAAGTGAATTCGCGCTTTTATATCTACGAAGCCTATAAAGATGAAGACGCAGTGGCGTTCCATAAAACCAC -GCCCCACTACAAAACCTGTGTCGCGAAACTGGAATCTTTAATGACCGGGCCGCGTAAAAAACGTCTGTTCAATGG -TTTGATGCCGTGAGGCGAATTTATCAATTTTATCTACAATTGGGGTAACGCGCTGACGGGAGTAAAAAAATGTCT -GACTGGAACCCCTCTTTATATCTACACTTTTCCGCTGAACGATCGCGTCCGGCGGTGGAGCTGCTTGCCAGAGTG -CCGCTGGAAAATGTCGAATATGTTGCCGATCTTGGCTGTGGCCCAGGTAACAGCACCGCCCTTCTACAACAACGT -TGGCCTGCGGCCAGGATAACAGGCATCGACTCGTCTCCGGCGATGATTGCTGAAGCGCGCAGTGCTTTGCCAGAC -TGCCAGTTCGTGGAAGCAGACATCCGCAACTGGCAACCGGTACAGGCACTCGATCTGATTTTTGCTAATGCCTCA -CTGCAATGGCTGCCCGACCACTACGAATTGTTTCCTCATCTGGTTTCTTTACTTAATCCGCAGGGCGTGCTGGCA -GTACAGATGCCAGATAACTGGCTGGAGCCGACCCATGTGCTCATGCGCGAAGTTGCCTGGGAACAAAACTACCCG -GATCGCGGGCGTGAGCCGTTGGCTGGCGTTCATGCTTACTACGATATTTTGAGCGAAGCCGGATGTGAGGTCGAT -ATCTGGCGAACCACCTACTATCACCAGATGCCGTCACACCAGGCGATTATCGATTGGGTGACTGCCACTGGATTA -CGTCCGTGGTTACAGGATCTGACCGAGAGCGAACAGCAGCTTTTTCTTAAGCGCTACCATCAGATGCTGGAAGAG -CAGTATCCACTGCAAGAGAACGGACAGATACTGCTGGCATTTCCGCGTCTGTTTATTGTTGCCCGGCGTATGGAG -TAAATATCACGTCAGCTGGTAATGACGATCGGGAAGAATTTTTGCTGGAATTTCGGCTTCATCGTTCATCTGTAA -CAGGTCAATTTCAATAGCGTTGCAGATGGCATCCAGTGGTAAATCATTGTTTTCAGTACCGAACGGATCTTCCAG -TTCTTCCGCCAGACAATCCAGCGAAATAAAAGTGTAGGAAATCAGCACAGAGATAAAAGGCGTCATGTAATGCAG -GTCCACGACCAGCGCGAACGGCAGCATGATACAAAACAGATAAACGGTACGATGCAAAATCAGGGTGTAGGCAAA -GGGAATTGGCGTATAGGCAATGCGCTCGCATCCTGCCAGGACCGCTGAAATATCATTAAGCCGATCGTTGAGGCT -AATAAACAGGATATCTGAAAGCTGTCCATTGCGGCGCTGAACCGCCAACCATTCTCCCATTATTAACAAGATACG -GTTAGCTGGAGAGTTCGAAGCCAGTACACGCTGAAGATCTTCAGTCTTGAGATAATGAGCCAGCACTTCCGCCTG -TGGCTGTTTGCGTAATGTCATGCGTAAACAGTGGGCGAAAGCGATTTGCAGCCGGGCAAACTCCCTTACACTTGC -CGAATCCGGCAATGTCGTTTTTACCTCGCGCAGTAACGACCGTGAGGCAATCATCAACTGCCCCCAAAGTTTTCG -CGCTTCAACGTAACGGGCGTACCCGGCATTATTACGAAAACCAAGAAAAATGGCGATGGCGACACCGAGAATGCT -GAACGGTGCGAGGGTGAATTTGATGCCCAGATGCGTGTACCAGGGCAGCATGAAAATAACAGCGATAGAAAAGAG -AAAATTGAGTAGTAAGCGCGAGGATATCTTGGATAATACTGAGCCGTGCCAGACAAAAATACGGCGCAGCCAGTG -TTGTTGTGGACGAACAATCATGGTTATCTTCAGGCGTGGAAAAGTCGCCCTATTAAACGTGATTACGATCACATT -CTCAAGACGCTACTTACAAATTACCTACAAGCTTACAACATTAGCAGGCGCTGCATGTGGCACCTGTTAATGATA -AAGGCATATAGGATGTTGTAACTAATATGGTGAAATAAGAAACCCGGTCGAAACCGGGTTCAGAAGTAACGGTGT -TATTAGCACAACGGACGTACAGCTTCGCGCATCCCTTTTTCGAGAATCGCATCCAGGTCATTAGCAACCTGCTCG -ACCAGACCAGGCACTTGCGTCAGGTCCTGCTCCCAGTGGTCTTTTTCTGCCAAAACAATCGCTACCAGTTCCTGG -GTGCCGATAACACGGTCACGATGCTGGCTCCAGAGTTGCTGATAACGTTCCAGCCAGTGTGCATCGTCCTGTACC -GGATATGTTTCGCCGTTACGCTCACCACGATAGAACGCAATCAATGCCGCTAATGCGAAAGTAAGGCGCGCCGGA -AGTGTGCCGTTTGCCTTCTGCCCTGCCAGCAGCTGTGGCAGGATGCGGGTGCGGAACTTGGTCATACCGTTGAGC -GCGATAGACAGCAGCTGATGCTTAATGTACGGGTTACGGAAACGCCCGGTGACTGCACTGGCGAAAGATTCCAGT -TCATCACGAGGCAAATCCAGTACCGGAATAATTTCTTCGTAGATAGCTTTTTCAACGAATGCGCAAATTTCAGCA -TCGTTCATCGCTTCACCTACGGTATCCAGCCCTGCCTGGAACGCCACCGGCACCAGCGCGGTGTGCGCACCGTTG -AGGATTGCCACTTTGCGTTCTTTGTACGGTTTAATATCGTCAACAATCAGCACGTTGAGCGGATATTTGTCCAGA -CGCAGTTCAGTCGCTAAGGATTTCGGTCCCTGAATCACAAACAGGTAAAAGTGTTCAGCGGTGTCGAGAAAACCA -TCGTGATAACCCAGTTCTTCTTCCAGTTTAGCCACTTCATCGCGCGGATAACCGGTAACGATACGGTCCACCAGC -GTAGAACAGAAGCTGTTAGCCTGATCCAGCCATTGAATAAATGCTTCTGGCAGTGCCCACTCTTGCGCATAGCGC -AGCACCAGTTCACGCAACGCGTCGCCATTGTAGTCAATCAACTCACACGGAATGATGATCCAACCTTTATCCAGC -GCACCGTTGAAATGGCTAAAGCGTTCGAACAGCAGACGGGTCAGTTTTGCCGGATAGCTTACCGCTGGCGCGTCA -TCGAATTTATCGCCCGCATGGTAGCTGATACCCGCTTCGGTGGTGTTAGAGAAAACAAAGCGCATTTCCGGGTTG -TGCGCCAGTTTCAGGAATTCATCGTATTCACTGTAGACGCTGATTTCACGATTAACCGAGCGAATCAGACGCGCG -TCGCTGACCGCTTCCCCCTTCTCATTCAGGCCACGGATAATGGTGGTGTACAGACCATCCTGCGTGCTCAGTGAC -GGCGGGAATGAAGTTTCAATCGGACGAACAACGACCACGCCAGAATTCAGATCGGTGTGCTCATTCAGGAGATCG -ATTTGCCAGTCAACAAAGGCGCGCAGGAAGTTACCTTCACCAAACTGAATGATACGTTCTGGATACTGTGCACCG -GGAAAATCGCGACGATTTAGTGTTTTCACAATGGGTTCCCTTCTGATTAGTCATACAACCTGTTTGAATTGGTAC -GACAGGTTAGCAAACTTTAATACGCCGAACCCCTGTTTTGATCAACTCCTGATGATTAATGAGCAGTTTTATGAG -AAAAGTGTGGCGCGGATCATGGTTTAATCGAGGAAAAACGCCTTTTCCTGGATCATAAAGTGGTAGAACACATTG -CATTCAAATCGCGCGTAATGAATAAAGATGTCAGACAACTTCCTCACCGTAACGCATAGTGCTGGTACGGTTGCG -CCCATCTTTCTTCGAGCGATACAGACACGTATCGGCTTCGACCATCAATTTATTAAAGTCATCGGTCAGCGTTAG -GTACGATGCGCGACCACTACCGACGCCAATACTTACCGTGAGATAAAGCGTTTTTTGTTGCCAGGTGAATGGTTG -CAGTTCAACGCCTTTACGGATTTTTTCCGCCATTAGCAGACCATCGACAGGATTCACCGACGGCACTGCAACAGC -AAATTCTTCGCCGCCCATTCGCGCCACCAGCCCCTTATCACCGACAATCTTCTGAATATGCCGGGCAAACACGCT -TAACACTTTATCGCCACATTCATGTCCATAGTTATCGTTAATGCTTTTGAAATAGTCGATATCAAGCAGCATGAC -AGTCAGATGTTGTGTCTGTTTCAGCGATGGACTTTTCAGCGCCTCATAAAGACCGGACCGTGAGTAAACCTGAGT -CAGAAAATCAAAGTCGGCTCGCAGCGCAACTTGCTTCATTAGCGAATTGATCGCTGCCACGCTAAAAGAAACCAT -AATTGGGCATATCGCCATCGTGGCAATACCGAGACGTGCGGAGAACATTTGCGGAATGGAGAACGGCGAACCGAC -CGAGATATCAATCACCGAATTTGCCACCAGTACGATTTCCACCGCACCGGTGACAAAGGTCAACAGACATGTTAC -CTGCGGCGTATAGCGCACTGCACACCAGATTAATGCAGGCAGCGGGAACGCCAGACTCCCCGCTCCGCCAATGAC -TACCGAGGCAATAACCGACACAATAAGCGCGATGGCGGGCATCATCTGTTCTGCTTTAAAGCGCGGCAGCACTCC -AGGAATAGCCAACGTCAGCATACAAGGCACGATCAACACGCCCGTTGAGAATTGCTCACTGAACCAGTCCGCAAG -CAAAGGCCAGAAATCCAGACTATCAATACTGACCGAACCAAGATAGCATGTTCGCTGACAGCGGCGGCAAATAAA -GGTACCCTGGGAATGCTATTTTGTCGTTTTCCGCAATTCTCATGGCTGATTCATCTGTACAACCAGCCAGTGATA -GATTACCGCCACGATATAACGTTGTTGTTCTTCGCTTAACGAAACACCCTGCGGAATGTTATGCCACTTAGCCAG -ACAACCGCGACAGCAGGTCGCGGTGGCGTGCTGAGCGATAAACACCGGATGCCCGCGCATGGGGGTTTGCTTACC -GTCATTAGCCGGTAATGCCGGAGCAAGACGTTTAGCGACAAAATCCGCCGCATGTTGTTCGATGACTGGCGCGCC -TTTCTCCAGGCAATACTGACGCTCTTTCATGCCCAGACGAAAGCGAGAGCGAAATTTTGAACGGGATAAACGCGC -GAAGAGTGGATCGAGAGACTGCATTAATAAACCGAACGCCCTAACTGTTTCGTCAATTGTTCAAGAACGGCAATA -CCCGCAAGCGAGTTACCTGCATCATCCAGTTCCGGACTCCAGACAGCGATGGCCATTTCATGCGGAACAATCGCC -ACAATACCGCCACCAACGCCAGATTTCGCCGGTAGCCCCACCCGCCAGGCAAACTCCCCCGCGTTCTGGTACATA -CCACTGGTCGCCATCAGCGCGTTAATTTGCCGCGCCTGCATTGGCGTCACCACTGGTTCATCAATATGAATAGCT -TTCCCCTGATTAGCCAGAAAGACAAACGTCCGGGCCAGCTCTACACAGCTCATTTTCAGAGCGCAGTAATGAAAG -TAGTTTTGCAGAACGGTTGTCACGTCATGATGGAAATTGCCAAACGACTTCATCAGCCAGGCGATAGCCGCATTT -CGCGCGGAATGTTCAAATTCGGAACGCGCTACCACCGTATCGTAGGAAATATCAGACACACCGCTTAAGCCGCGC -ACGACTTCCAGCATACGTTGCCGTGGTGCGCTTAATCGCCCTTGCAACATATCGCAGACCACCAGCGCACCGGCA -TTAATGAACGGATTACGCGGTATACCCTGCTCCATTTCCAGTTGCACTAAGGAATTGAACGGTGATCCAGACGGA -TCTTTGCCGACGCGTTGCCAGATTTCCTCTTCGGAGTAATGACGCATGGCGACAACGAGACTCAGCACTTTGGAA -ATAGACTGAATGGAAAAACGTTCTTGCGCGTCTCCGGCCTGAAAAAGCTGTCCGTCAACGGTACAGATAGCAATC -CCCAATCGGGAACCGTCTACTGTAGCCAGCGCCGGAATATAATCCGCGACTTTACCCTGACCAATGAGCGGCCGC -ACTTGCCGCAAGATGTTTTCTAAAATTGCATTATCCATGGCGACTGCCACTTTCTACTCCTGGACCGCAGGTCTG -AAAAGACCTGCGAGTATATCAGAGCTGAATATGTCGCGTCAGATCCGGTCTTTCCACACCGTCTGGATATTACAG -AATTCGTGTAAGCCGAAATGGGAAAGCTCACGACCAAAGCCACTCTTTTTCACGCCACCAAAGGCCACTCGCGCG -TCGCTGGCACAATAACCATTGATAAACACCCCACCGCATTCCAGACGTGCCGCCATCTGTCTGGCCTGTGTTTCG -TCAGTGGTAAAAATGGTCGCTGAAAGGCCGAACTCACTATCATTAGCCAGTTCCAGTGCATGTTCTGCATCTTTC -GCAATGGTGATTGCCGCAACGGGGCCAAACATTTCTTCCCGAAACGCGGTCATTTCTGGGGTAACATTCGCCAGA -ACCGTTGGCGGATAGTAGTTACCTGCCCCAGCCATCTTTTCCCCGCCCAGTAACAAACGCGCACCCTGCGCCAGG -GTTTTCTCCACCTGATGATGCAGCTCATCACGTAAATCAAAACGAGCCATTGGTCCGAGAGCGTTCTCTTCGTCA -CGGGGATCGCCCATTTTCAAGGCTGCCGCAGCTGCCACAAAACGTTCGGTAAATGCCGAAGCAATTCCCTCTTCG -ATAATAAAGCGTTTTGCCGCTGCACATACCTGTCCGGTATTCTGATAACGTCCGGCTACCGCCGCTTTCACCGCC -AGTTCCAGATCGGCATCGTTAAGCACAATAAACGGATCCGAACCGCCCAGTTCCAGTACGCATTTTTTCAGTGCC -GCTCCAGCCTGTGCGCCAATAGCCGCTCCCGCACGAACACTTCCGGTCACCGTGACAGCAGCAATGCGCGAGTCT -TTAATCATCTGACTGACACCGTCGTTGTCGGCATTCAGCCAGCCATATACGCCTTGTGGGATACCCGCATCTTTA -AACACCTGGGCAATGAGCTGTGCACAGCCCATCACATTCGGCGCATGTTTAAGTAAGTAGCCGTTACCTGCAAGA -ATGATGGGAACAGCGCCACGCATCACCTGCCATAACGGAAAATTCCACGGCATAATCGCCAGAATCGTCCCCAAC -GGTCGATACTCAATAACCGCCTGCTGATTTTCCACCAGCGTAGGTTCCGCCTTCAGCATTGCCGGACCATGTTCT -GCATACCAGTCACACAAATTCGCCGATTTCGCCACTTCAGCGCGCGCCTGGTTGATTGGTTTGCCCATTTCGCGG -GTGATCATTTGCGCCATTTCTTCGCTACGAGCGCGCAGAGCCTTACCGATATCACGCAGTTTTTCAGCACGATAA -TCTATATTTGTCTCGCGCCAGTCGCGAAAGCCTGCTGCCGCCAGCTGAAGTGCGTTTTCGATATCGTCAGCGCCA -GCCCACGGCAGCACAGAAAGTTGTTCACCCGTGGCAGGATTTATCGAAATTGCATGAGTTGCCGGAGTAATGGTC -ATCGGGGTATCTCCTTTATGAGTCATGGTATGAAGATACGCAGATTTACTCTTGCTTTAAAATGAATAATATTAA -GCCACTTATTCACGAATCGAGAATGCTATGGATCTGACCCAACTGGAGATGTTCAACGCGGTTGCCGAAGCTGGC -AGCATAACCCAGGCTGCAGCAAAAGTGCATCGCGTGCCGTCGAATCTCACTACCCGTCTGCGCCAGCTGGAAACA -GAACTGGGGGTTGATCTGTTTATTCGCGAGAATCAGCGTTTACGTCTCTCTCCTGCCGGGCATAACTTTTTACGC -TATAGCCAACAAATTCTCGCGTTAGTGGATGAAGCGCGGAGCGTTGTCGCTGGCGATGAGCCGCAAGGTTTATTT -TCTCTTGGTTCGCTGGAAAGCACCGCTGCAGTGCGCATTCCAGCCACGCTGGCGGAATTCAACCGTCGTTATCCC -AAAATTCAGTTTTCACTTTCCACCGGCCCTTCCGGCACTATGCTGGATGGTGTACTGGAGGGAAAACTGAATGCG -GCGTTTATTGATGGACCCATTAACCATACTGCCATCGACGGGATACCGGTATACCGCGAGGAACTGATGATCGTC -ACGCCACAAGGATATGCGCCAGTAACCCGTGCCAGTCAGGTTAATGGCAGTAACATTTATGCCTTCCGCGCCAAT -TGTTCGTATCGTCGCCACTTCGAGAGCTGGTTTCATGCTGACGGTGCCGCTCCGGGAACTATCCATGAGATGGAG -TCTTATCACGGAATGTTGGCCTGTGTGATCGCAGGAGCAGGCATTGCGCTTATTCCGCGCTCTATGCTGGAAAGT -ATGCCGGGGCATCACCAGGTTGAAGCGTGGCCGTTAGCTGAGCAATGGCGTTGGTTAACAACCTGGCTGGTCTGG -CGTCGTGGTGCGAAAACACGTCCGCTCGAGGCATTTATTCAACTGCTGGATGTGCCTGACTCGGCAAGACAGGGA -TATCAATGAGCTATTTTTGATAGTTCTTGCGGTTAATATGCTCTATATAGTGATGTTCCGATGACTTATGACTAT -ATGGGGCAAATATGGTTACGCCAGTAAGCATCAGCAATTACATATCTCTTCCTGATGATTTTCCCGTACGTAATA -TTGCACCGCAGGTAAAAGAAGTTTTAAAGGATTTTATTGATGCACTTAGTACAATAATATGTAATGAAGAGTGGC -GCACGTCTTTAAACATCAACTCAGCCACAAAAAAGATATTTAATAACCTTGACAACTTATCATATATTCAGAGGA -CTTCTTTTCGGGGTAACGACACGCTATACAATGAAAAGGTTCAGTTTAAACTCACTTATCCCGCCAGGAATGGAA -GACACAAAGAAAATATTGAATTTCAGGTAGTAATAAATTTAAGCCCTATTTATTTAGATAATTTTCGCCATGATG -GAGAAATTAATATTTTTTGCGCTCCCAACCCAAAGCCTGTCACTATGGGGCGCGTATTTCAGACCGGCGTCGAGC -GTGTACTCTTTCTGTTTCTGAATGATTTTATTGAACAATTTCCAATGATCAACCCTGGTGTTCCCATCAAAAGAG -CGCATACACCACATATTGAACCCCTGCCTTCGGATCACCATACCGCTGCAGATTACTTACGCCAGTTTGATTTGC -TTGTCCTGAATTTTATCTCTCGCGGTAATTTTGTCATACTCCCCCGATTATGGAATAACTCTGAGGTTCACAGAT -GGTTCGTCAATAAAGATCCTAACTTGATCACCGCCATTCTCGACATAACGGACAGCGAATTAAAAGAGGATTTGT -TGCAAAGCCTGATGGATTCATTAGGTTCTAACAAACATGTACTACCCGAAGTCTGCATCTGCTTTTTATCCCTTT -TAGCAGAACAAGAATCTCCTCATTTTCAGAACTTGTTTTTATTTTTCGCCAATATGTTATTGCACTATCACCAAT -TTATGAATCCCAATGAAAGTGATTTGAATGACGTGTTGATGCCAGCATCATTAAGTGATGATAAAATTATCAAAC -ATATGGCGCGCAGGACCCTCAAACTGTTTGTAAAAAATGAAACACCGCCAAAAGTTACTCACGAAGACCTGGTGA -AAAACAGGCCTCGCTCCCCTGTCAGACCACCTATACCCGCAACCGCCAAAACGCCAGACCTCCCTGAACGTCATT -AAACCGTGATGTTACCGACTCTCTGACGCGTGAAAGAATCAGCGTCAGAGAAACGGAAAACGCGATCCAGATCAC -AAATGCATTGTATTCACATCATTAACCGTTTTAAGATCATTTCATCACTTTTTCGCAACTCACCCGATAATCTGT -TATGACAACAAACACTGTTTCCCGCAAAGTGGCGTGGCTACGGGTCGTTACGCTGGCAGTCGCCGCCTTCATCTT -CAACACCACCGAATTTGTCCCTGTTGGCCTGCTCTCTGACATTGCGCAAAGTTTTCACATGCAAACCGCTCAGGT -CGGCATCATGTTGACCATTTACGCATGGGTAGTAGCGCTAATGTCATTGCCTTTTATGTTAATGACCAGTCAGGT -TGAACGGCGCAAATTACTGATCTGCCTGTTTGTGGTGTTTATTGCCAGCCACGTACTGTCGTTTTTGTCGTGGAG -CTTTACCGTTCTGGTGATCAGTCGCATTGGTGTGGCTTTTGCACATGCGATTTTCTGGTCGATTACGGCGTCTCT -GGCGATCCGTATGGCTCCGGCCGGGAAGCGAGCACAGGCATTGAGTTTAATTGCCACCGGTACAGCACTGGCGAT -GGTCTTAGGTTTACCTCTCGGGCGCATTGTGGGCCAGTATTTCGGTTGGCGAATGACCTTCTTCGCGATTGGTAT -TGGGGCGCTTATCACCCTTTTGTGCCTGATTAAGTTACTTCCCTTACTGCCCAGTGAGCATTCCGGTTCACTGAA -AAGCCTCCCGCTATTGTTCCGCCGCCCGGCATTGATGAGCATTTATTTGTTAACTGTGGTGGTTGTCACCGCCCA -TTACACGGCATACAGCTATATCGAGCCTTTTGTACAAAACATTGCGGGATTCAGCGCCAACTTTGCCACGGCATT -ACTGTTATTACTCGGTGGTGCGGGCATTATTGGCAGCGTGATTTTCGGTAAACTGGGTAATCAGTATGCGTCTGC -GTTGGTGAGTACGGCGATTGCGCTGTTGCTGGTGTGCCTGGCATTGCTGTTACCTGCGGCGAACAGTGAAATACA -CCTCGGGGTGCTGAGTATTTTCTGGGGGATCGCGATGATGATCATCGGGCTTGGTATGCAGGTTAAAGTGCTGGC -GCTGGCACCAGATGCTACCGACGTCGCGATGGCGCTATTCTCCGGCATATTTAATATTGGAATCGGGGCGGGTGC -GTTGGTAGGTAATCAGGTGAGTTTGCACTGGTCAATGTCGATGATTGGTTATGTGGGCGCGGTGCCTGCTTTTGC -CGCGTTAATTTGGTCAATCATTATATTTCGCCGCTGGCCAGTGACACTCGAAGAACAGACGCAATAGTTGAAAGG -CCCATTCGGGCCTTTTTTAATGGTACGTTTTAATGATTTCCAGGATGCCGTTAATAATAAACTGCACACCCATAC -ATACCAGCAGGAATCCCATCAGACGGGAGATCGCTTCAATGCCACCCTTGCCCACCAGCCGCATAATTGCGCCGG -AGCTGCGTAGGCTTCCCCACAAAATAACCGCCACCAGGAAAAAGATCAGCGGCGGCGCAACCATCAGTACCCAAT -CAGCGAAGGTTGAACTCTGACGCACTGTGGACGCCGAGCTAATAATCATCGCTATGGTTCCCGGACCGGCAGTAC -TTGGCATTGCCAGCGGCACAAAGGCAATATTGGCACTGGGTTCATCTTCCAGCTCTTCCGACTTGCTTTTCGCCT -CCGGTGAATCAATCGCTTTCTGTTGCGGAAAGAGCATCCGAAAACCGATAAACGCGACGATTAAGCCGCCTGCAA -TTCGCAGACCGGGAATCGAAATGCCAAATGTATCCATCACCAGTTGCCCGGCGTAATACGCCACCATCATGATGG -CAAATACGTACACCGAGGCCATCAACGACTGACGATTACGTTCGGCACTGTTCATGTTGCCTGCCAGGCCAAGAA -ATAACGCGACAGTTGTTAATGGGTTAGCTAACGGCAGCAACACCACCAGCCCCAGGCCAATTGCTTTAAACAAAT -CTAACATTGGTGGTTGTTATCCTGTGTATCTGGGTTATCAGCGAAAAGTATAAGGGGTAAACAAGGATAAAGTGT -CACTCTTTAGCTAGCCTTGCATCGCATTGAACAAAACTTGAACCGATTTAGCAAAACGTGGCATCGGTCAATTCA -TTCATTTGACTTATACTTGCCTGGGCAATATTATCCCCTGCAACTAATTACTTGCCAGGGCAACTAATGTGAAAA -GTACCAGCGATCTGTTCAATGAAATTATTCCATTGGGTCGCTTAATCCATATGGTTAATCAGAAGAAAGATCGCC -TGCTTAACGAGTATCTGTCTCCGCTGGATATTACCGCGGCACAGTTTAAGGTGCTCTGCTCTATCCGCTGCGCGG -CGTGTATTACTCCGGTTGAACTGAAAAAGGTATTGTCGGTCGACCTGGGAGCACTGACCCGTATGCTGGATCGCC -TGGTCTGTAAAGGCTGGGTGGAAAGGTTGCCGAACCCGAATGACAAGCGCGGCGTACTGGTAAAACTTACCACCG -GCGGCGCGGCAATATGTGAACAATGCCATCAATTAGTTGGCCAGGACCTGCACCAAGAATTAACAAAAAACCTGA -CGGCGGACGAAGTGGCAACACTTGAGTATTTGCTTAAGAAAGTCCTGCCGTAAACAAAAAAGAGGTATGACGATG -TCCAGACGCAATACTGACGCTATTACCATTCATAGCATTTTGGACTGGATCGAGGACAACCTGGAATCGCCACTG -TCACTGGAGAAAGTGTCAGAGCGTTCGGGTTACTCCAAATGGCACCTGCAACGGATGTTTAAAAAAGAAACCGGT -CATTCATTAGGCCAATACATCCGCAGCCGTAAGATGACGGAAATCGCGCAAAAGCTGAAGGAAAGTAACGAGCCG -ATACTCTATCTGGCAGAACGATATGGCTTCGAGTCGCAACAAACTCTGACCCGAACCTTCAAAAATTACTTTGAT -GTTCCGCCGCATAAATACCGGATGACCAATATGCAGGGCGAATCGCGCTTTTTACATCCATTAAATCATTACAAC -AGCTAGTTGAAAACGTGACAACGTCACTGAGGCAATCATGAAACCACTTTCATCCGCAATAGCAGCTGCGCTTAT -TCTCTTTTCCGCGCAGGGCGTTGCGGAACAAACCACGCAGCCAGTTGTTACTTCTTGTGCCAATGTCGTGGTTGT -TCCCCCATCGCAGGAACACCCACCGTTTGATTTAAATCACATGGGTACTGGCAGTGATAAGTCGGATGCGCTCGG -CGTGCCCTATTATAATCAACACGCTATGTAGTTTGTTCTGGCCCCGACATCTCGGGGCTTATTAACTTCCCACCT -TTACCGCTTTACGCCACCGCAAGCCAAATACATTGATATACAGCCCGGTCATAATGAGCACCGCACCTAAAAATT -GCAGACCCGTTAAGCGTTCATCCAACAATAGTGCCGCACTTGCCAGTCCTACTACGGGCACCAGTAACGATAACG -GTGCAACCCGCCAGGTTTCATAGCGTCCCAGTAACGTCCCCCAGATCCCATAACCAACAATTGTCGCCACAAACG -CCAGATACATCAGAGACAAGATGGTGGTCATATCGATAGTAACCAGACTGTGAATCATGGTTGCGGAACCATCGA -GAATCAGCGAGGCAACAAAGAAGGGAATGATTGGGATTAAAGCGCTCCAGATTACCAGCGACATCACCGCCGGAC -GCGTTGAGTGCGACATGATCTTTTTATTGAAGATGTTGCCACACGCCCAACTAAATGCTGCCGCCAGGGTCAACA -TAAAGCCGAGCATCGCCACATGCTGACCGTTCAGACTATCTTCGATTAACACCAGTACGCCAAAAATCGCTAAGG -CGATCCCCGCCAATTGTTTGCCATGCAGTCGCTCCCCGAAAGTAAACGCGCCAAGCATGATAGTAAAAAACGCCT -GTGCCTGTAACACCAGCGAAGCCAGTCCAGCAGGCATACCGAAGTTAATGGCACAAAAAAGAAAAGCAAACTGCG -CAAAACTGATGGTTAATCCATACCCCAGCAGCAAATTCAGTGGTACTTTCGGTCGTGCGACAAAAAAGATAGCCG -GAAAAGCGACCAGCATAAAGCGCAAACCGGCCAGCATCAGCGGTGGCATGTTATGAAGCCCCACTTTGATGACCA -CAAAATTTAGCCCCCATACGACCACTACCAGTAGCGCCAACACCCCATCTTTTCGCGACATTCTACCGCCTCTGA -ATTTCATCTTTTGTAAGCAATCAACTTAGCTGAATTTACTTTTCTTTAACAGTTGATTCGTTAGTCGCCGGTTAC -GACGGCATTAATGCGCAAATAAGTCGCTATACTTCGGATTTTTGCCATGCTATTTCTTTACATCTCTAAAACAAA -ACATAACGAAACGCACTGCCGGACAGACAAATGAACTTATCCCTACGACGCTCTACCAGCGCCCTTCTTGCCTCG -TCGTTGTTATTAACCATCGGACGCGGCGCTACGCTGCCATTTATGACCATTTACTTGAGTCGCCAGTACAGCCTG -AGTGTCGATCTAATCGGTTATGCGATGACAATTGCGCTCACTATTGGCGTCGTTTTTAGCCTCGGTTTTGGTATC -CTGGCGGATAAGTTCGACAAGAAACGCTATATGTTACTGGCAATTACCGCCTTCGCCAGCGGTTTTATTGCCATT -ACTTTAGTGAATAACGTGACGCTGGTTGTGCTCTTTTTTGCCCTCATTAACTGCGCCTATTCTGTTTTTGCTACC -GTGCTGAAAGCCTGGTTTGCCGACAATCTTTCGTCCACCAGCAAAACGAAAATCTTCTCAATCAACTACACCATG -CTAAACATTGGCTGGACCATCGGTCCGCCGCTCGGCACGCTGTTGGTAATGCAGAGCATCAATCTGCCCTTCTGG -CTGGCAGCTATCTGTTCCGCGTTTCCCATGCTTTTCATTCAAATTTGGGTAAAGCGCAGCGAGAAAATCATCGCC -ACGGAAACAGGCAGTGTCTGGTCGCCGAAAGTTTTATTACAAGATAAAGCACTGTTGTGGTTTACCTGCTCTGGT -TTTCTGGCTTCTTTTGTAAGCGGCGCATTTGCTTCATGCATTTCACAATATGTGATGGTGATTGCTGATGGGGAT -TTTGCCGAAAAGGTGGTCGCGGTTGTTCTTCCGGTGAATGCTGCCATGGTGGTTACGTTGCAATATTCCGTGGGC -CGCCGACTTAACCCGGCTAACATCCGCGCGCTGATGACAGCAGGCACCCTCTGTTTCGTCATCGGTCTGGTCGGT -TTTATTTTTTCCGGCAACAGCCTGCTATTGTGGGGTATGTCAGCTGCGGTATTTACTGTCGGTGAAATCATTTAT -GCGCCGGGCGAGTATATGTTGATTGACCATATTGCGCCGCCAGAAATGAAAGCCAGCTATTTTTCCGCCCAGTCT -TTAGGCTGGCTTGGTGCCGCGATTAACCCATTAGTGAGTGGCGTAGTGCTAACCAGCCTGCCGCCTTCCTCGCTG -TTTGTCATCTTAGCGTTGGTGATCATTGCTGCGTGGGTGCTGATGTTAAAAGGGATTCGAGCAAGACCGTGGGGG -CAGCCCGCGCTTTGTTGATTTAAGTCGAACACAATAAAGATTTAATTCAGCCTTCGTTTAGGTTACCTCTGCTAA -TATCTTTCTCATTGAGATGAAAATTAAGGTAAGCGAGGAAACACACCACACCATAAACGGAGGCAAATAATGCTG -GGTAATATGAATGTTTTTATGGCCGTACTGGGAATAATTTTATTTTCTGGTTTTCTGGCCGCGTATTTCAGCCAC -AAATGGGATGACTAATGAACGGAGATAATCCCTCACCTAACCGGCCCCTTGTTACAGTTGTGTACAAGGGGCCTG -ATTTTTATGACGGCGAAAAAAAACCGCCAGTAAACCGGCGGTGAATGCTTGCATGGATAGATTTGTGTTTTGCTT -TTACGCTAACAGGCATTTTCCTGCACTGATAACGAATCGTTGACACAGTAGCATCAGTTTTCTCAATGAATGTTA -AACGGAGCTTAAACTCGGTTAATCACATTTTGTTCGTCAATAAACATGCAGCGATTTCTTCCGGTTTGCTTACCC -TCATACATTGCCCGGTCCGCTCTTCCAATGACCACATCCAGAGGCTCTTCAGGAAATGCGCGACTCACACCTGCT -GTCACGGTAATGTTGATATGCCCTTCAGAATGTGTGATGGCATGGTTATCGACTAACTGGCAAATTCTGACACCT -GCACGACATGCTTCTTCATCATTAGCCGCTTTGACAATAATGATAAATTCTTCGCCCCCGTAGCGATAAACCGTT -TCGTAATCACGCGTCCAACTGGCTAAGTAAGTTGCCAGGGTGCGTAATACTACATCGCCGATTAAATGCCCGTAG -GTATCATTAACCAATTTAAATCGGTCAATATCCAACAACATTAAATAAAGATTCAGAGGCTCAGCGTTGCGTAAC -TGATGATCAAAGGATTCATCAAGAACCCGACGACCCGGCAATCCCGTCAAAACATCCATATTGCTACGGATCGTC -AGCAAATAAATTTTGTAATCGGTTAATGCCGCAGTAAAAGAAAGCAACCCCTCCTGAAAGGCGTCGAAATGCGCG -TCCTGCCAGTGATTTTCAACAATAGCCAGCATTAATTCCCGACCACAGTTATGCATATGTTGATGGGCAGAATCC -ATTAGCCGAACGTAAGGTAATTCATCGTTATCGAGTGGCCCCAGATGATCAATCCACCGACCAAACTGGCACAGT -CCATAAGAATGGTTATCCGTTATTTCTGGCTTACTGGCATCTCTCGCGACCACGCTGTGAAACATACTCACCAGC -CACTGGTAGTGGGCATCGATAGCCTTATTGAGATTTAACAAGATGGCATCAATTTCCGTTGTCTTCTTGATCATT -GCCACTCCTTTTTCACAGTTCCTTGTGCGCGCTATTCTAACGAGAGAAAAGCAAAATTACGTCAATATTTTCATA -GAAATCCGAAGTTATGAGTCATCTCTGAGATAACATTGTGATTTAAAACAAAATCAGCGGATAAAAAAGTGTTTA -ATTCTGTAAATTACCTCTGCATTATCGTAAATAAAAGGATGACAAATAGCATAACCCAATACCCTAATGGCCCAG -TAGTTCAGGCCATCAGGCTAATTTATTTTTATTTCTGCAAATGAGTGACCCGAACGACGGCCGGCGCGCTTTTCT -TATCCAGACTGCCACTAATGTTGATCATCTGGTCCGGCTGAACTTCTCGTCCATCAAAGACGGCCGCAGGAATAA -CGACATTAATTTCACCGCTCTTATCGCGAAAAACGTAACGGTCCTCTCCTTTGTGAGAAATCAAATTACCGCGTA -GTGAAACCGAAGCGCCATCGTGCATGGTTTTTGCGAAATCAACGGTCATTTTTTTTGCATCATCGGTTCCGCGAT -AGCCATCTTCTATTGCATGAGGCGGCGGTGGCGCTGCATCCTGTTTTAAACCGCCCTGGTCATCTGCCAACGCAT -AAGGCATGACAAGAAAACTTGCTAATACAATGGCCTGAAATTTCATACTAACTCCTTAATTGCGTTTGGTTTGAC -TTATTAAGTCTGGTTGCTATTTTTATAATTGCCAAATAAGAATATTGCCAATTGTTATAAGGCATTTAAAATCAG -CCAACTAGCTGTCAAATATACAGAGAATTTAACTCACTAAAGTTAAGAAGATTGAAAAGTCTTAAACATATTTTC -AGAATAATCGGATTTATATGTTTGAAAATTATTATATTGGACGAGCATACAGAAAAAGCAAATCACCTTTACATA -TAAAAGCGTGGACAAAAAACAGTGAACATTAATAGAGATAAAATTGTACAACTTGTAGATACCGATACTATTGAA -AACCTGACATCCGCGTTGAGTCAAAGACTTATCGCGGATCAATTACGCTTAACTACCGCCGAATCATGCACCGGC -GGTAAGTTGGCTAGCGCCCTGTGTGCAGCTGAAGATACACCCAAATTTTACGGTGCAGGCTTTGTTACTTTCACC -GATCAGGCAAAGATGAAAATCCTCAGCGTAAGCCAGCAATCTCTTGAACGATATTCTGCGGTGAGTGAGAAAGTG -GCAGCAGAAATGGCAACCGGTGCCATAGAGCGTGCGGATGCTGATGTCAGTATTGCCATTACCGGCTACGGCGGA -CCGGAGGGCGGTGAAGATGGTACGCCAGCGGGTACCGTCTGGTTTGCGTGGCATATTAAAGGCCAGAACTACACT -GCGGTTATGCATTTTGCTGGCGACTGCGAAACGGTATTAGCTTTAGCGGTGAGGTTTGCCCTCGCCCAGCTGCTG -CAATTACTGCTATAACCAGGCTGGCCTGGCGATATCTCAGGCCAGCCATTGGTGGTGTTTATATGTTCAAGCCAC -GATGTTGCAGCATCGGCATAATCTTAGGTGCCTTACCGCGCCATTGTCGATACAGGCGTTCCAGATCTTCGCTGT -TACCTCTGGAAAGGATCGCCTCGCGAAAACGCAGCCCATTTTCACGCGTTAATCCGCCCTGCTCAACAAACCACT -GATAACCATCATCGGCCAACATTTGCGTCCACAGATAAGCGTAATAACCTGCAGCATATCCGCCACCAAAAATAT -GGGCGAAATAACTGCTGCGATAGCGTGGCGGTATAGCAGGAAGATCCATATTTTCCGCCACCAGCGCCCGCAATT -CAAAATCATCGACATCCTGCATTGCTTCGTTTTCTTCCAGGCAATGCCAGCGCATATCGAGAAGTGCGGCGCTAA -GCAGTTCGCTCATCTCATACCCTTTGTTGAACAGGCTGGCATTACGCATTTTCTGTTGCAGTTCGTCAGGCATTG -CTGCCCCGCTCTGATAATGCCGGGCGTAGCGAGCGAATACCTGCGGATGCGTTGCCCAGTGTTCGTTGATTTGCG -ACGGAAATTCGACAAAATCACGCGGCGTGTTGGTGCCGGAAAGCGTGGCATAACGCTGGCGGGCAAAAAGGCCGT -GCAGCGTATGACCAAATTCATGGAATAAGGTTATGACATCATCCCAGAGTAACAACGCAGGCTCACCGGCAGCGG -GTTTCTGATAATTGCAGACGTTATAAATTACCGGATGTGTTTTATTAAGCGTTGATTGCTCAACAAAATTGCCCA -TCCATGCACCGCCGCTTTTTGAATCACGGGCGAAGAAATCACCGTAAAATAACGCCAGCCCCACGCCATTATGAT -CAAAAATTTCCCACACACGAACGTCAGGATGGTAGACAGGAATATCAAAACGTTCGACAAACTTAATACCGAAGA -GCTGATTCGCGGTCCAGAATACACCTTCATTTAACACCGTGTTTAATTCAAAATATGGCTTGAGCTGCGCCTCAT -CAAGATCAAATTTCTCCCGCCGTACCTGTTCCGCATAAAATGCCCAGTCCCACGGCTGCGCGCTAAACCCGCCCT -GCTGCTTATCGATAACCGCCTGTATGGAGGCTAATTCATCGCTCGCACGTTGACGCGCCGCTGGAACAATTTCCC -GCATAAAGTTAAGTGCTGCTTCAGGTGTTTTTGCCATCTGATCGGCGATTTTCCATGCGGCATAATGAGGAAAAC -CAAGTAGTGTTGCCTGTTGTGCACGGATCTCCACCAGACGTTGAATGATAGCGCGGGTATCATTGGCATCATTTT -TTTCCGCTCGCGTCCAGCCCGCAATAAACAGTTTTTCACGCGTCGCACGATCGCGCATTTCGGCAAGCGCCGGTT -GTTGGGTGGTATTCAGCAGCGGAATCAGCCATTTGTTATCCAGACCTTTCTCGCGAGCCGCCTCTGCCGCCAGCG -CAATCTCTTGCTCACTCATTCCTGCCAGCTGCGCGATATCGTTCACAACCAGACCGCCGGATTTATTTGCTGCCA -GTAATCGCTGGTTAAACTGGCTGGTCAGGGTCGCAGCTTCTGTATTCAGTACTTTTAATTTTGCTTTATCAGCTT -GCGCAAGTTTGGCTCCGGCAAGGACAAAACGTTGATGAATCACCTCCACCAGGCGGATGGATTCACTATCAAGCC -CCAGGGATTCACGGCGCTGCCAGACAGCATCTACCCGCGCGAATAATTCACCGTTCAGATAGATATCATTAGCCA -GTTCCGCCAGTTCAGCGGAAAACTGCTCGTCAAGACGCTGTAATTCATCATTGGTATGCGCCGCAGTCATCGCAA -AAAAGACGCTGGTAACGCGGGTAAGTAATTCTCCGCTTTGTTCCAGTGCCAGAATAGTATTGTTGAAATCAGGCA -TTTGCGGGTTAAGCGCGATGGCAGCAATTTCTGCCCGCTTTTGCTGCATTCCCTCATCGAATGCCGGGCGATAGT -GATGATTGGCAATTTGATCAAAATGGGGAGCCAGATACGGCAGTGTGCTTTGCACAAGGAAAGGATTCATTGTTG -TCATTTTCTTCTCCTGAACGCGAGGTGTTCCATAGCGTAGGCTTACTGATAACGGAGTGCAATCTTGCAATCCAG -TATTACCCGCTCTTAAGCATCCCGTGCTATGTTATTGACACACAAAAGCGTTGAGGAACAGTGAGATGATCGTTT -TAGTAACTGGAGCAACGGCAGGTTTTGGTGAATGCATTACTCGTCGTTTTATTCAACAAGGGCATAAAGTTATCG -CCACTGGCCGTCGCCAGGAACGGTTGCAGGAGTTAAAAGACGAACTGGGAGATAATCTGTATATCGCCCAACTGG -ACGTTCGCAACCGCGCCGCTATTGAAGAGATGCTGGCATCGCTTCCTGCCGAGTGGTGCAATATTGATATCCTGG -TAAATAATGCCGGCCTGGCGTTGGGCATGGAGCCTGCGCATAAAGCCAGCGTTGAAGACTGGGAAACGATGATTG -ATACCAACAACAAAGGCCTGGTATATATGACGCGCGCCGTCTTACCGGGTATGGTTGAACGTAATCATGGTCATA -TTATTAACATTGGCTCAACGGCAGGTAGCTGGCCGTATGCCGGTGGTAACGTTTACGGTGCGACGAAAGCGTTTG -TTCGTCAGTTTAGCCTGAATCTGCGTACGGATCTGCATGGTACGGCGGTGCGCGTCACCGACATCGAACCGGGTC -TGGTGGGTGGTACCGAGTTTTCCAATGTCCGCTTTAAAGGCGATGACGGTAAAGCAGAAAAAACCTATCAAAATA -CCGTTGCATTGACGCCAGAAGATGTCAGCGAAGCCGTCTGGTGGGTGTCAACGCTGCCTGCTCACGTCAATATCA -ATACCCTGGAAATGATGCCGGTTACCCAAAGCTATGCCGGACTGAATGTCCACCGTCAGTAATTTTTATACCCGG -CGTAACTGCCGGGTTATTGCTTGTCACAAAAAAGTGGTAGACTCATGCAGTTAACTCACTCACAAGCAAGAACGA -ATGACCGTCGAAACGCAACTTAATCCCACACAGCCTGTCAATCAGCAGATTTATCGTATTCTTCGTCGCGACATT -GTCCATTGCCTGATTGCTCCAGGCACACCGTTGTCGGAAAAAGAAGTTTCTGTTCGTTTCAATGTGTCACGCCAG -CCGGTTCGTGAAGCCTTTATTAAACTGGCGGAAAACGGCCTGATTCAAATTCGTCCGCAACGTGGCAGCTACGTC -AACAAAATTTCCATGGCCCAGGTGCGCAACGGCAGTTTTATCCGTCAGGCCATTGAGTGCGCGGTGGCGCGTCGG -GCGGCGAGCATGATTACCGAAAGCCAGTGCTATCAACTGGAACAAAATCTTCACCAGCAACGCATTGCCATTGAG -CGCAAGCAACTGGATGATTTTTTTGAACTTGATGACAACTTCCATCAACTCCTGACGCAGATTGCCGACTGTCAA -CTGGCGTGGGATACCATTGAGAACCTGAAAGCGACCGTTGATCGCGTGCGCTATATGAGTTTCGACCACGTTTCT -CCACCAGAAATGCTGTTACGCCAGCATCTTGATATTTTCTCTGCCCTGCAAAAACGTGATGGCGATGCGGTAGAA -CGTGCAATGACGCAACATTTGCAGGAAATCAGCGAATCCGTGCGCCAGATCCGCCAGGAAAACAGCGACTGGTTT -AGCGAAGAGTAATTCATTTCCTCTCATCCCATCCGGGGTGAGAGTCTTTTCCCCCGCCTTATGGCTCATGCATGC -ATCAAAAAAGATGTGAGCTTGATCAAAAACAAAAAATATTTCACTCGACAGGAGTATTTATATTGCGCCCGTTAC -GTGGGCTTCGACTGTAAATCAGAAAGGAGAAAACACCTATGACGACCTACGATCGTAACCGTAACGCAATCACCA -CTGGCAGCCGTGTTATGGTTAGCGGCACCGGTCACACTGGCAAGATCCTGTCGATTGATACTGAAGGTCTGACCG -CTGAGCAAATCCGCCGCGGAAAAACCGTAGTTGTTGAAGGTTGTGAAGAGAAACTGGCACCACTGGACCTGATTC -GTCTCGGCATGAACTAAGCGTGTGAATGCCGCCGATGGCGGCATTGCTTTTTTACTTCACGGAATATTTTGCCAC -GGTCGCTTTCGCGCCATGCGCTAATAAAGACAAGTACGTTTCCGTCACTCTTGCAGTAAACAAACTATTGTCTGG -CAAATCATCACCAAAGATCGCCTTAATCGCCAGCAATGACTGGACGCGCGCTTTCCCTTCGGCACTACTTTGTAC -AGCCTTCTGAATAACAGGTAACAGTGGGTCACTGATTTCTATCGGATTTCCCTGTTCATCAACACCACCGACATA -ACGCATCCAACCCGCGACGCCCAGCGCCAGCAGATCGAACTTGCTGTCATGCGCCAGATGCCAGCGAACAGAATC -CAACATCCGCTGTGGCAATTTCTGGCTACCATCCATCGCAATCTGCCAGGTTCGATGACGTAACGCCGGGTTGCT -ATAGCGTGCAATTAATCGGTTAGCGTAATCTTGCAAATCAACGCCCTGCACTTTCAACGTCGGCGCTTGTTCCTG -CAACATCAAGCCATACGCCGCATAACGATAATGTTCATCTTCCATACAGTCATTAATGTGCTGATATCCTGCAAG -ATACCCCAGATACGCCAGGAATGAATGACTGCCGTTGAGCATGCGCAACTTCATCTCTTCATAAGGCAGCACATC -GCTAACCAGTTCGGCTCCCGCTTTTTCCCATTCCGGACGTCCGGCAACAAAGTTATCTTCTATTACCCACTGGCG -GAAAGGTTCACAGGCAACGCCCGCAGGATCGCGCACACCGGTAAGTTGTTCGATTTTCGCCAGCGTATCCTCTGT -CACTGCGGGCACAATACGGTCCACCATTGTTGATGGGAAAGTCACGTTATCTTCGATCCATTGTGCCAGTTTTAC -ATCAACGGCTTGTGCGTAGGAAGTGACAACGTCACGCATAACATGACCGTTTTCTGGCATGTTGTCACATGACAT -GACGGTAAATGCGGGAAGTCCTGCCGCTTTACGGCGAGCCAGCGCCTCAACAATCACCCCTGTTGCTGTTTTCGG -CTGGTGGGGATTTTGCACGTCGGCAGCTACCATCGGGTGATCGAGCATTAACTGTCCGGTCGCCGGAGAGTGGAA -ATACCCTTTTTCGGTGATTGTCAGAGAGACAATCGCGATTTGCGGTTCACACATCGCTGCCAACACGGTTTCTAA -GCCATCTATCTGTACGTGCAAGGCTTTTTTAACGACGCCAACGACGCGAGCCGTCCACACATCGGCCGACATTTC -CGCAACGGTATAAAGATTATCTTGCTGTTGTAAATCGGCAATTTGCTGTTCGCCGCCGATTAAGTTGACCTCATA -ATATCCCCAGTCACTGAAATGTTCCGTAGCAAGAATATCGGCATACACACCCTGATGCGCACGGTGAAATGCACC -AAAGCCTAAATGAACAATTCTTGGAGCCAGGTTATTAAGATCATAAACAGGGAGTGTCGCTTTTGCTGATAACAA -ATTATTTCCCATAACAATTCCTTAAATATAAATATGGCAAGCTATATGTTTTGTTATATGAATAAAAATCCCCTC -TCCGGTAAGAGAAGGGATTAAGGGTTTACAGACTTCTGGAAGGTTGCGCAGCTCTTACAACACGCGGTTGATCTT -CCGCAGCGTCTTCCAGCGCACTTAAATCACGGTCTTTCACCTCTGGCATTTTCAGCGCAGAGATTAAACCAATCA -CTGAATATGCCATGATCATAATGGCGATCGGATACCAGGATTCCGTCATGGTGCAGAAAATACCCGCCAGGATAG -GACCAAAACCGGAAGCGATAAGACCACCAATTTCTTTAGAAATAGCCATCCGGGTAAAGCGGTTTTTACAGCCGA -ACATTTCTGCCATGGTAATGTTTTCCAGAGCAAATAATCCCAGCACCGCACAGTTATGAATCACAATCAGTGCAA -CCATAATGGTGCTCGGGGCATAGCTTTTATCTACAATGATAGAAAGCATTGGCCATGCCAGCACAATCGCGGAGG -TATTCATAATAATATACGGGATCCGGCGACCAATTTTATCGGATAACCAACCAAGGAACGGAATGGTCATAAAGC -CGAGAATCGAACTGATCATCAATGCATCTGTTGGAATTGCTTTGTTAAACAATAACGTCTGCACTAAATAGCCTG -CAAGGAAAGTCTGAATTAACCCGGAGTTACCCGCCTGACCAAAACGCAGCCCTGTTGCCAGCCAGAAGGATTTGC -TCTGGAACATGCTACCAGCAGGTGCAGGTTTTGCTGTCGGTTGGTTACTGTCGTTAACCTTCTCAAAGACCGGGC -TTTCTTTCAGATTCATACGCAACCAGATAGCAAAGACCATCACGACAACACTCGCCAGGAACGGTATACGCCATC -CCCACGCCAGCAGTTCCTCTTTACTGAGAATGAAGAACATAAAGGCCCAGATTGCCGTTGCGCTCAAGGTTCCGC -AGTTAGTTCCCATAGCCACAAATGAGGAGATAATTCCGCGCTTACCTTTTGGCGCATATTCCGCCAGCATCGTAC -CGGCACCGGAAATTTCCGCACCTGCACCCAACCCCTGAATAATACGCAACGTCACCAGCAAGATGGGTGCAAAAA -CACCAATCTGTGCATAGGTCGGTAACACACCAATTAAGGTGGTACAGATCCCCATCATGGTGATGGTAATAAAGA -GCACTTTTTTACGCCCTATTCTGTCGCCCATTTTGCCGAAAATAAATGCTCCGACAATACGCGCCACATAACCTG -CACCGTAGGTTCCCATTGCCAGAATTAACGCCATTGCCGTTGATGATTCAGGAAAAAATATTTCATGAAACACTA -ACGCTGCGCCGAGCGAATATAACTGGAAATCCATAATTCACAGGTGTTTTTTCCCATCCTGTGGTTTCCTTGGCG -TTTTCTAGGTTTTTTCAGATAGTTGCATTTTTTTAAAAAGCATCCTAAGTTCGATCTCAGTGTCTATCTGGGGCC -TATTTCTGTCCCATATATGCCCCAAAAAAACTCCCCAACAGATAAGTAGTTTTTTCATGGATTTATGCGTAAAAT -CAAGAACGGCTGGAAATCATTCAATACTCACACTATCGAAAAATTTACCAGCCAATCGCAGCACGTTCTTGCATA -AGGTGTGTCTGCGGTTTTTCAACTATTCAGATACATCACTCCCATCACATTCATTCCTCCGCATCAAAGGCATAT -AGGCTATATCACCTTGATATTTTTCTTTTTCAGATAAAAACTGTTATCTATGTATACTTTTAAACCCAATCCGTG -TAGAGTCTCTACATAAGATAGTTTGCAGTTGCCGCTTCAGCTTGCGCCATAAACCGCCTGATTTTTGCTGCCACC -TGTTAGCATTCCTGTATACCTGAAACGACAATGTTTATCTACGAACTTTAAGAACACCCAAGATAAAAATTGTCA -ACTATATCATATATAACACATTACTAATTCGAGGCTATATGAACAGCATACTGATAATCACATCTCTCCTTATCA -TATTCAGCATTTTTAGTCATGCCCTAATAAAATTAGGGATTGGCATATCCAATAACCCAGACAAAACCGATGTAT -AAGTCAACATATCCTGAATCAGACATACAATATCGCAATGAAAATCAATAATATTTTAAGGAATATCTTCATGAA -ATCAAAAGACACCCTAAAGTGGTTCCCTGCGCAGCTTCCTGAAGTAAGAATTATCCTAGGGGATGCTGTAGTGGA -AGTAGCAAAACAGGGAAGACCTATCAATACCAGAACATTGCTTGATTACATTGAAGGAAACATAAAGAAAAAATC -ATGGCTGGATAACAAAGAATTATTACAAACAGCGATATCAGTTCTTAAAGACAACCAAAATTTAAATGGTAAAAT -GTAATATAATAAACTTACTTTTTTATCATTTTTCCACTTTAACAACATTTTGCTCCACTTTTCCACGACCAAACA -ACTTGAAATCTGGTTAAAATAACACGCAACACTATTCTTCTTCCTTGAGTCCGCCCGGAACTCGAAAAACAAACC -GAGTTAAAGCCATTTTTCACAAAATCGATTTTGGGTCTCACCAAAATTACGGGGTTGCATACGCATTCGTTTATT -TTCGAACGTGTACATACAAATATGCACAAAAATAATCATAATTATTTTCTGAGATGCATTATGATATGAACACCA -ATTTCGTATAGAGTCTCACTATGTCTCAAATTTTTGCTTACTGTCGGATATCAACGCTGGATCAGACCACCGAAA -ATCAACGCCGGGAAATCGAAAGTGCAGGTTTTAAAATCAAACCTCAGCAAATAATCGAAGAACACATTAGCGGCT -CAGCAGCAACCAGTGAGCGTCCTGGTTTTAACCGGTTGCTTGCTCGCCTGAAATGTGGTGATCAATTGATTGTGA -CAAAACTGGATCGCCTTGGTTGTAATGCAATGGATATCAGGAAAACAGTGGAACAACTGACCGAAACAGGTATCA -GAGTGCATTGCTTAGCATTGGGGGGCATTGACCTGACCAGTCCAACAGGAAAAATGATGATGCAAGTAATTTCAG -CAGTCGCTGAATTTGAACGAGACCTTTTACTTGAACGCACTCATTCCGGGATAGTAAGAGCCCGCGGCGCAGGGA -AACGTTTTGGTCGACCACCTGTGTTAAATGAAGAACAGAAACAGGCGGTATTCGAACGAATTAAGTCAGGTGTAA -GTATAAGTGCCATTGCCCGGGAATTCAAAACCTCGCGGCAAACCATTTTAAGAGCCAAAGCAAAACTTCAGACAC -CTGACATATAAAAAATAATCTCGGTGTGAGATGCTTTACGTCTTCCAAGCCCCCTTCCTTGCCGTAAATGGAAAG -ATACATCTAATTATAGAATTTATATGTTTTACCCTACGGCAGTGCTGGCCATTCAATATCCTGTGCAGTTGACGT -ATCAACACGGTTCAGCAATACCCGATACTTTTTCCATGCTTCCAGCAACGAGATTTCTTCCTCCGTTGCAATTTC -CAGATCTGCAGCATCCTGAAGCGGCGCAATATGCTCACTGGCTACCTGCATCAGGTTGTTTTTTGTTTCTTCCGC -CTCCCGGATCCGGAACAGTTTTTCTGCTTCCGTATCCTTCACCCAGGCTGTGCCGTTCCACTTCTGAAACTCCCC -TTCCGGCGATAACCAGGTAACATTTTCCGGTAACGGACCGAGTTCAGAAATAAATAACGCGTCGCCGGAAGCCAC -GTCATAAACCGTTTTACCCCGATGATCTTCAACGAGATGCCACGATGACTCATCACTGTTGAAAACAGCCACGAA -GCCAGCCGGAATATCTGGCGGTGCAATATCGGTACTGTTTGCTGGCAGACCTGTATGAGGCGGAATATATGCATC -ACCTTCACCAATAAATTCATTAGTTCCGGCCAGCAGATTATAAATTTTTATGGTCCGTGGTTGTTCACTCATTCT -GAATGCCATTATGCAAGCCTCACAATATAGTTAAATGCGATGTTTTTGACGGTGTTTTCCGCGTTACCAGCAGCG -TTAACGGTGATGGTGTGTCCATGTGAACCAATCGCAACGGAGTGCGTATGAGCACCAATACCGACAGTATGTGCA -TGCGCGCCTGCGCTTGCAGCAGTGCCGGACAGCGAGTGGGTATGAGCACCATCTGATGATGTCTTCCCTGCATTA -CGAGTCTGGCCACTACCGCTTGTTGTGCTCATAATCCCCGCGCTTAGATTTGAAATCGCGGTATAACCATTAGGG -AAAATGCTCGTGTTCGTGCCACCAAATGCACCGGAACTCTTGTGTTGGTGCGCACCGGCACTATTTGCGGTCCCG -CTAATACTATGGGTATGCGCCCCGGTGTTATTCGTGGATTTGGTTCCGTAATCAAACGACGATGTGGTTTCCGTC -CCCAAATCCGTACTGGATGCGCTGGCGCTGTGGGTGTGCGATTTAATGCCGTCCTGTTCCTGAGATAATACGGCC -CGACCACTGGCGGGCTTGCCCTTAATCGTCCAGCCACGCATATCAGGGATCACGCCTGACGGATAAGCAACTGCA -AGTTTCGGGTATGCAGATTTGTCAAAAGTCTGCCCCTGCATCAGGGCATAACCAGACGGAACGGTATCTGATGGC -CACGGGATTGGTGCACCGACTGGATAAAACTCTGCAGGAGGATGAGCCGAGGTGTAAAGCTGCGCCCACGGCGAC -CAGTTTGCGTCGGTCGTATCCCGTCGTGAACGAATAAATGCCGGAGCATGAGCACCGCTTGTACCACTCCAGCCG -ATGAGTAACTCACCTTCGCCAACGGCTGTCATCCCTTTCAGGTGAATGATATTTCCATACGCTGTTGGATATCCG -TTGTTATACACCTCGTATAACTCAAGACCTGCTGCCCCCTGCGTATTGTCTGTCAGCGCGGTTATATTCACTCAG -CAACCCCGGTATCAGTTCATCCAGCGCGGCTGCTTTGTTCATGGCTTTGATGATATCCCGTTTCAGGAAATCAAC -ATGTCGGTTTTCCAGTTCCGGAAAACGCCGCTGCACCGACAGGGGGATCCCGTCGAGAATACTGGCAATTTCACC -TGCGATCCGCGACAGCACGAAAGTACAGAATGCGGTTTCCACCACTTCAGCGGAGTCTCTGGCATTTTTCAGCTC -CTGTGCGTCGGCCTGCGCACGCGTAAGTCGATGGCGTTCGTACTCAATAGTCCCTGGCTGGAGATCTGTCTCGCT -GGCCTGCCGCAGTTCTTCAACTTCCCGGCGCAGCTTTTCGTTCTCAATTTCAGCATCCCTTTCGGCATACCATCT -TATAACGGCGGCAGAGTCATAAAGCACCTCATTACCCTTGCCACCGCCTCGCAGAACGGGCATTCCCTGTTCCTG -CCAGTTCTGAATGGTACGGATACTCGCACCGAAAATGTCAGCCAGCTGCTTTTTGTTGACTTCCATTGTTCATTC -CACGGCCAAAAACAGAGAAAGGAAACGACAGAGGCCCAAAAGCTCGTTTTCAGCACCTGTCGTTTCCTTTCTTTT -CAGGGGGTATTTTAAATAAAAACATTAAGTTACGACGAAGAAGAACGGAAATGCCTTAAACCGGAAAATTTTCAT -AAATAGCGAAAACCCGCGAGGTCGCCGCCCCGTAACCTGTCGGATCACCGGAAAGGACCCGTAAAGTGATAATGA -TTATCATCTACATATCACAACGTGCGTGGAGGCCATCAAACCACGTCAAATAATCAATTATGACGCAGGTATCGT -ATTAATTGATCTGCATCAACTTAACGTAAAAACAACTTCAGACAATACAAATCAGCGACACTGAATACGGGGCAA -CCTCATGTCAACGAAGAACAGAACCCGCAGAACAACAACCCGCAACATCCGCTTTCCTAACCAAATGATTGAACA -AATTAACATCGCTCTTGAGCAAAAAGGGTCCGGGAATTTCTCAGCCTGGGTCATTGAAGCCTGCCGCCGGAGACT -GTGCTCAGAAAAAAGAGTTTCTTCTGAAGCAAACAAAGAAAAGAGTGACATTACTGAATTGCTCAGAAAACAGGT -CAGACCAGATTGAAGCAATTTAGATAATCGTGCAGACTACGCCCCCTCATATCACATGGAAGGTTTATCTATGGA -TCAGGTAGTCATTTTTAAACAAATATTTGATAAAGTTCGAAACGATTTAAACTATCAATGGTTTTATTCTGAGCT -AAAACGTCACAATGTCTCACATTACATTTACTATTTAGCCACAGAGAATGTTCATATTGTATTAAAAAATGATAA -TACAGTGTTATTAAAGGGCCTAAAAAACATTGTGTCTGTCAAATTTTCAAAGGATAGGCATCTTATAGAAACGAC -CTCTAATAAGCTGAAATCCAGAGAGATCACATTTCAGGAATACAGAAGAAACCTTGCTAAAGCAGGAGTTTTTCG -GTGGGTTACAAATATCCACGAACAAAAAAGATATTACTATACCTTTGATAATTCATTACTATTTACTGAAAGCAT -CCAGAAAACTACACAGATCTTACCACGCTAAACCATAACGTCCGGCTTCTCTCACTCCTGAGCCGGACTGCATTG -GTTTAATAAAAACCATCAACAATTGTGATTTAGATATTCGGAACCATTCAAATATAACAAAACCCCGTAAAAACG -AGGTTTATGGATAAATTTTATTATTGAATACATCAGATTAAATTAATCTTGACATCATAGCTTTCAAGACCCGTC -ATTTTTTCCCGTGCGGTAAACTGAATACTGGTAACTTCTTTCCCGGTCTTTTTCTTAAGTTCAATAATTTTTTTT -GTTATATATTCAGAAATATCTGCTTCTGCTTTTGTTTTTAAGTTTTCAATATTCATCATTTCCTCTTTTAGTCTG -TTATGACTTTCCAGTTACACAGTAAGTCGATTATATGGTGCAAACGTGTAAAAGATAAGATGAAACATCGCAATA -ATCAACATACGATAGTCTAAATTTTACACAAACAGACAAAGAGAATTTTCCTGAATTATCAATGCAATAGCATCA -AATCAACTCAAGAGCCTTATTGCTGCTTCCAGAATTTCTTCTGAAGTAACATGTCGATCCGCGGCTACATAAATG -ACTTTATGATCTCCGGTCAGAGATGGAAACCCTGCGGCCATTACAGTAAGGTGTGTTTTTTCGCCATTTGGATAT -TCACGCATGATGGTGTTAACTCCAGTCATCGCTGGCACTACCACTGCTGGTTCAGAGTTAAAAAAACTATGATTT -TTTTCATGATGTTACCGTAGTATGTGAGTATCCATCGAATAGACACCAAGCAAAAAAGCTCCCGAAGGAGCCTTC -ATTTTCACTTTTTTAAATCCAACGACAGACGGCTGGCATTTAAGTATTGTGAAATATTATCAAATGTAATCATCA -TTGATTTACAAAAGATACATTTTGCCCCGAAAGGATTCATGTCAGAAACATCAAAAGATGATGTTCTATACTGGG -AACCATGACAACACGGGCATCTAAAGTGAATATGGTTTGTAATATTGTCTACCTCAAAGCGCCACTACATGAACA -GCGGCAGGACCTTTAGGTCCGTTCTCAATACCAAATTCAACTTCCTGATTCTCAGTTAATGTTTTGAAATCGTTG -CTCTGAATTGCTGAGAAATGGACAAACACATCTTTGCTGCCATCTTTCGGCGTGATGAAACCAAAACCTTTTTCA -GGGTTAAACCATTTCACTAAACCAGTCATTTTGTTAGACATAATTATTACCTTTTGAAGAAATTAGCCCTTGGGC -AGAATGGTCCGAAAAAAAATATCAGAGAGAAAAACCAACAAGGAAATCTCAAGAGGTACAAATAATAAAATTATA -ACAATGACTGCTTCAGATAAATTTGTAACAAACCAGAACACCATTAACGCATGATTAACCACCCATAGCAAGGAT -TACTTTTGTAAAGAAAAACACAGCAATGAAAGAATAGCTTTATTTATTAATAAAACGTGTCATTCTGATTAAGAC -CTTTTATCTTACCCTTAAGATTTCAGGAATTTTGGCTCATGGAAGAGTCCTTTTTATTTAAATTTTACATTCCGC -GATGTAAATGTTCCGATTTAATATTACCCTACATTTGATGCTTTTTATCTCTTAAAGATTCATAGATCTGTTGAC -AAGTCACTCCTGCGATGTAGCGTTCGTCAGCAATTTCAGCATAAAGCTGAGCTTCTGCTGCAATATCTCCGAGCA -TGTTGGTGAGCATTCCTTCGGCGGTTTTGGTTGTTTTGCCTCTGACGGCAGCGGCAAGATCTGCGGTATGCTTCG -CTGCGTCAAGGCGTATGGCATATTTTTTTGCTTCGGCACGCAACTGGTTAACACTATCAGACAGATAAGCAGCCC -TGGCAGAAATTTCAGCAGATTTCTGTTGCGCATCTTTAACAGCCTCATCACGGGCTATAGTTCGCCCCTGTTCAA -TTATTCGAGCAGCAAATTGAGCATTTACCTCTTGTGATAATGCGGCAGCATCACGTTCCGCCCATTTTTTTTGCC -ATCCTCGGTCGCTCCAGACATTTCCGACGATAAATCCTGACAACACGAGAAAAATCACCATGAATATCTGATTCA -CTGTTCTATCCCCCAGCAGGTTAATGCGCTCTCCTGGTCACGACGAATAACCTGACCGTAACAGTTATTTGAACG -AATGCGGCAATCGCGTCCGCCATCCTTAATCCACCAGCGAATCGCTTCGCATGCACCTTTACGATCACCAGCATT -CAGCCGCTTATAAAACGTCGACGGGAAACACTTACCGGGGCCAATGTTATAGGGACAAAATGACGCGATACCCGC -TTTTTGTGGTTCGGTCAGTGGTACTTTAATATTGCGCTCCACCCATGCCAGCGCCTTATCACGCTCAATGGCGTT -GACCTGGTCGCATTTTTCCTTCGACAGTTTCATATTGGGAAAAACGGTTTTTCCATCCACCACTGTGGCACCCCG -ACAGATGGTCCATATGCCAGAACCATCGCGGTATGCCATTGTGTGGTTACCTTCTTTTTCGTCCAGAAACTGGTC -AAGTATCTGAGGAGCAGATGCGCCAGCACCAATCAGCGCCAGAACGGCAGCCGACAGGCCGTATCTGATTTTTGT -GTTCATAGATATTTATGATGAGGACGCTCGTGCTTATTGGCAGGATTTTCAATCTTAAAGGAGTACTGATGCTGC -AGATAAGACTCAACTTTTTCTGACAATTTTTCTGCTACTTCCAGGAAGACTTGCCGGACGCTCCTTCTGGCTGCT -GCCTCATAAAACTCCAGCGCAGCTCCTTCAACACGGTCCATGGCGACATCCAGGTCAAAAATTTCACCGTCAAAG -CGTTCTTTGTCCTGTAAGGCTACAGTTACCGTAACTTTATTCTCAAAATTACGGACTCCTTTCACAACCAGTTCA -TAGTCTTGAGTCATTGGATTACTCTCCTCTCGCAGCCTTACGCCTGTCTTCTTTAATCTTGAAATAAAGATTTGT -CAGATACGTCAGCAGGCCAAAAACCAGGCTACCCAGCACACCGATTGCAGCCCACTGTGACGGAGTTACTTTATC -GAGTAACTGCAATGCCCAGAAACCAGCATTACCCGCCGATGTGCCATAGGCAACACCTGTTGTTAACTTATCCAT -TGATTTCATATCCTCACCCCGATGTACACGGATGGTGCAATATGTTTGAAAAGATCGGAGTCTACGGGGTAGTTT -TGACAGCACACGTTGTTCTCAACGGCGCTAAAAAAACATACACATTAAAAATGTGGGTAATTATTTTGAAAGAAA -GTCATATATAAAATAATAATACGAGAAATGTTTTCATATTTAGTGTACTGTATACGGCCATTTATACAGGAAAAG -CCTATGTCAGAACGTAAAAACTCAAAATCACGCCGTAATTATCTCGTTAAATGTTCCTGCCCAAACTGCACCCAA -GAGTCAGAACACAGTTTTTCAAGAGTACAAAAAGGTGCCCTTTTGATCTGCCCTCATTGCAACAAAGTATTCCAG -ACAAATCTTAAAGCTGTAGCCTGATTGATTTTATTAGTAACAAGTATTTTTTATATTTTAATAATATATTTAAAG -CAGATAATAAAAAACCCGCCTGAGCGGGTTTGAGATTGTGGTGCTTTTTGTGGGAGTCATCCACTTACGCACTTT -GTTTTGCCATGCCAGCAGTTAGCTTCTGCTGTAAAACTATTCATGCAGCAAACCTGCACTTCACCACAATGGTTA -GCATACTTTTCCTGATTAAGATTTTGCCAAATATGCTAGCCATTGTTTCATGTATTGGACCTCCTTACTTTTTAT -TAAAGAGATCCAATATTCACTACTCTGTCCGTATCTCTACTCAGGCATCAGCCTTCTTCGTTATCGTATACAGAC -GAGCGATGAATTTTAATCAGTAATGATGACATTTGCTGCTGCAGGACCTTTAGCACCACTCTCTATAGAGAAGGT -AACCTTTTGACCTTCAAATAAGGTTCGATAATTATCATTCTGAATCGCAGAAAAATGCACAAACACATCTTTACT -ACCATCAACAGGAGAAATAAAGCCGAAACCTTTATCAGCGTTAAACCATTTTACTAAACCAGTCATTTTATTTGA -CATTCTACATTCCTTAACTTGAGCCTTTCGGCATAAATGGTTTGCATAACAGAAACGACTTCGTACTTAATTGGA -GAGACTCAAAGAAGGAATAAGTGAATAACACCTGAAATGAGAACTGCTTTAGTAAACTACTTCGTATATCGTCTG -TTCTTCAAACCGACGCAATCATTAACGCATAGTTGAACATATGAAGCAATGTTTATTTTAGACATCCAGCCATCT -TCAACCCCATCAAAAAACTATAGCTTTCTTCAGGAACGTGTGTATAGTGCGCCAAGTTATCAGTATTAAGGAATT -TTTTTGTCCCGTAAAATGACAGGAATTGTCAAAACCTTTGACGGCAAAAGCGGCAAGGGTCTTATCACCCCATCC -GATGGTCGTATCGATGTCCAGCTTCATGTTTCAGCGCTCAATCTCCGCGATGCAGAAGAAATTACCACCGGATTA -CGCGTGGAATTTTGCCGGATAAATGGTCTGCGTGGCCCTTCAGCTGCCAATGTTTACCTTTCATGAGCTATATTA -AAGCTTTAATTTCAGGCCCCATCGGATCACACATGGAGAGTTTTTATGAATAACCCCGTCTGTCTTGATGACTGG -TTGATTGGCTTTAAAAGCTTATGCTGTACTTTGGCCGTAATAGCTCTGCTAATAATATAATAAGCAGACTCATTG -TGTTTAGGGACATTGTACTGGAAGAAAACATTTTAAACATCAGGCAAATAACCAAGTCACCAGCTAAATAATAAG -TTAACAGACATGAGTCCCGGGATGAGATTCAACATTACCATTGCCCCATTTAAAGCACAAAACCCGCTCATCAGC -GGGTTTTCTACTTTTTCTTAACGTCGGGTATACAAAGCCCATCGTTGAAAAAATTTTATCCATATTTTTTGAAAA -ATGCAAACATCATGTCGCCATCTTCAGCAAAAATCATTTATCTCGTCACCTTCCTCAATTGCGCTTCCGCGTATG -CTTCTTCCTGCCAGCACTTTGTTACCAGTTTACCAATGACGTCCGCATACCCCTTATACCACTGATAATCGGTCA -GGTCTGGTACCAGCTTCTGGACATGACGTCGTGCCAGCGTGGTCGGTAAACGACTAAACCGGTTTCCATTACAAC -GCCCACAAATCTTATATACCGGTACGCCATGAAACCGGGTTCTTTTTTCATCCAGAACAATCCCTTTACCCTTAC -ACCCTCTGCACGCTGTGCTGGCTTCGCCCTTACCATGGCAATGCTGACATAGTTCCTTCACCCATTCTTCCTTGA -TTACAGATTCCCCGCGTCTGTAGTGTTTCACCACTTCGCGCAATACATTATAAAATCCCGTACCTGAACAATGCT -CACAGCGAGCCTTACTTGCCGCAGACCTGGAGTAATCAGCAAAGGCAAAACTCACGAGGTAAGGAATAATCTGTA -ACCGGATTTCTTCACTCAATTTGTTCAATGTCGGGTTATCCAGTGCCATCGCGTAATTTAGCAGGCCTTCAATCG -CAAACTGAGGGTCCTGAACACCAACTTTTGCCAGAAATAAGGCCAACCCAAGTGGTGCTTTCGACTGCACCATCC -CCTGCGCTGCCATTACATCCGTAATTGTTAAACAACCGGTGCCTGTCGCTGGAGCGTCATCGCTCAATTTTGGAG -ATTTTGGGGAGTAATATTTTGGTAAGGCTTCAAGGTTCATGCTCGTTCTCCACTTACGCCAGTACGCCAATTGCC -AGCGCGCGATCGATAAAACGAAATATCAGCTCCAGTTGGGAGCCATACTTATCTTCAAATGCCACTGTATCCGTA -TGCAGCTCGTTGTGATGCTTTCTGCACAAAGGCAACACAAAGAGATCATGTGCTTTTGTTCCCATTCCGCCCTGC -CCGTGACCAATCAGATGATGCGGATCGTCGGCTGGCATACCGCAGCAAGCACACGGCTGTGTCTTAACCCAACGT -GTGTATTTCTCCTTAACCCAGCGGCGACGTTTAGGCAGCTTCATGAAAGATTCCGGAGACTCTGGATCAACGGTG -ATGCTTACCACCGTCTTTTCCTGTGGTGATTTTTGTTGCTGGTGGGCGTAAGGCAACGGTGCAAGATTTTTTGTG -CGTTGTTTCAATATGCTGGTGGCGGTCAGCTCTCCCGGTACGATGTCGCTTTCGCGGTACACCGAGCAGATTTTT -TCCGCTGGTAATCCCAGCGAACGACGCGATACAGCCTCAGGTAGTGCATCCACCACCTGATTGCAGACCGCCCAC -CAGGATAATTCAGCCAAAGATAATTCCCGCTCCTGCGTACCGCTTATTGCGTGACGGATGACGTCAATCACCCAT -GCTGTCAGATTTTGTTGAGCAAGCAGCTCCAGTGATTCCGATGTCTGGTCACGCAGTTGGTTGTCGCAGTGCCAG -CACAACACCATTGCGCCGGTACCATAACGGTGAATGACTGTTTCAGTGTGATGGTAATCGCCATTAGGCCACTGG -CAGGATGTAACATGACGTAATAGCCAGTCGGACAATGCGCCAACGCCGCCAGCAGCACGAATCACCCGTTCGTTA -CTAAAAAACGGCAGCAATGTTTTGTCTTCCGCCAGCGGCTGGCGAACGGCAGGAACGACTCCGGATGGCAGATTA -CGCATGCTTTTTGGTTCCGGTTCCACCAGCACTCGAGGATTATGAAATATCTGTATGGATTCACGGCCCGGCTTA -AGGACCACCAGCCCAAGCTCAGGCACCAGAACAGGTCTAAGTAATACCCGCACGTTACCTCCAGATCCGTTGCTG -GAAAGTGCGGGACGCACGTGGTGGGCGTTCGGAATAAGGCAGCCTGACAGAGATTATCCAGTGCCGATAGTCGAG -ACTGAGAGCTTTCTTAACCTCGAACCCGCGCCTGCGGTAAGAATGAATCAGCCATTCGGCCTGTTCTGCAGTGCA -TGGAGGGTGCTGGAACCATTCAGACTTGAATGCGTGAGAATACCGCCCGTGCGTGCAGGCAAGAACGGGCGAATT -ATCAGAATTGTAATATTTTGCGTTGCGTGCCATCGGTTTTCTCCGGTGGCACGGTGTTACTCAGCGGGAGTTCAG -CCCCGCGCAAGATTGTAGATGAGTTTATTCTCCTGAAAAAGCAGAAAAGCCAGCTTTTATTCCGATCTCTTTCAA -TGCCTGTAATGAAGTGACAAACTCACCTTCGCGCAAGATAAATCCGTCCGTGACCCGAGCATCCACAAAATTAAT -TAACGCAGCCCCATTCTTTCGCAAACACATAATGCGGTAATGACTAACAAGATTTCCATTTTCAACGCACACAGC -ATAGAGGCCATCTTCACAAAAAATTTTACGCAGTTCTTCGATGTTCATCATCAGAATCCTTCCGGATAATTAGCT -CTCCCCTTTAAGGGACCATCCCTCTTATCCCTGCGCGCTACTTAAGTATTTTTGATTCTATTCCGGCACCGTCCA -GAACTTCAAACGCGTTGAAAATAAAAACAAAAACCCGCCGAAGCGGGTTAAGTGCGGGTGCGTTGAGGATGCCTG -CCACATCAGAGGTGGCGAGGGATTTCTCCCCCGCCGGGTCTCTTACTCCTCAGGTTCGTAAGCTGTGAAGACAGC -GACCTCCGTCTGGCCGGTTCGGATTCGTACCTCGCAGAGGTCTTTCCTCGTTACCAGTGCCGTCACTATGACGGT -TAAACAGATGACGATCAGGGCGATTAACATCGCCTTTTGCTGCTTCATAGCCTGCTTCTCCTGTCAACGCAAAGC -AGAAGTGTCACCTTCGGTGCGAAACAGAGATGTCATGCTTTGGTTCAGAGAATGCGTTTGACCGCCTCGCTATAT -ACTTCCGAGCGTTCTCTTTTCCCAACAGAAATCACGAAAACGACAACTTTCTCGTCTATAACCTGGTATACAAGG -CGATAGCCTGAAGACCGGAGCTTAATCTTGTAACAATCAGGCATACCACGGAGCTTGTTTGCTTCAATCCGGGGT -GACTCAAGTACTTCAACCAGCTTCTTTTTCAACTGTTCACGTACCGTCGAGCCCAGCTTTCGCCATTCCTTTAGT -GCCCGCTCGTCAAAATCCAGAAAATACGCCATCAGAGTTCATCCAGCGTCACACGTACTGGCTTAGGATTACGAA -GCCGTTCTTTCACTATCTCCACAAGTTCAGCATCTTCATCACTCAGGAGTGTCTGTTTGAACGGCAAGCGTTCAT -TGTCAGCGATATACTCGAGCATGAGACGAAGCGCTTCAGAAGGAGTTACACCCATTTTTTCAAGCGCGGCGTAAG -AACGCGCTTTAAGTTCATCGTCAATACGCAGGTTAATGCTACCCATGTCTTACACCTCTTGTAATTACAAATGTC -ATTACAAGTATCGCACTACAACATGCTTAGGGCAAGTCACGAAGGAAGTCAGAAAGTAGTCGTAAGAACGGTGAT -CACTGTCCGCTTTGTGCCAGGAGCAGCCATTGCTAAGTCCATCCTGTATTGTGCAGGTCAGCTCGTTTTTAAAGA -GTCCGGCCATCATCTTACTGGTACAGACACCATATACTTTGTGACGGTCAGGCTACATATGCACAACTCAACTTA -TTCATCTATTTTTTGCTTTAGCATGTCAGTGTTGCTTTCTCGTCGGCGGGTGAGCGGTGACCTGACCTGTCGATA -AAGGAACGTAACACGTTTTATGCAACACCCGCATGCGGCAGAAAATTATTGCCGAACGTTTACCCCTGTCAACAA -GCTTTACTTTCTGAGGCGCGCCAGCCCGCGAGGAAAACAATCTGAACATCAAACAATTAATGACACAAGAAATAC -GATTAAAGATTTTTTTGTGCATGCCGATAGTGCTTTTTTAAAAGGAGAAATCTATGTCTGTCACAATTCAGGGAA -ATACCTCAACCGTTATTTCAAACAACTCCGCCCCGGAAGGAACATCAGAAATAGCCAAAATCACAAGACAAATTC -AGGTGCTGACTGAAAAGCTTGGGAAAATCTCATCGGAAGAGGGGATGACGACACAGCAGAAAAAAGAAATGGCTG -CATTGGTACAGAAGCAAATTGAAAGCCTCTGGGCTCAACTGGAGCAGTTGTTAAGGCAGCAGGCAGAGAAAAAGA -ATGAAGACGCGACAGTTCAGCCTGATAAAAAAGAAGAGAAAAAAGACGATACAAATACCGCTGGCACCATTGATA -TTTACGTCTAAGTGACAGCCGTATTGTGGCCCTCATCGGGCCACTTTTCGCCATCAGCCTTTTCTTTAAAGACAT -ATTATCTTTGTATCATTTCTGATAGTTAACATTACAAGATATAAGTAATGGACGCACTCCCAATTAGTCTATTTA -AATCGCCACGAGTTTAACTGACAACCCATGATCAATTATGAATTGCAACTATTTCTGTAGTCACTTTTGTGGGGA -CAGTCCACAAAACTGCCAACTTCCGCTTCTTGCTCTTAGCGGACATTAGCATAGGCTATTTACCATAACGCCTCA -TTACGCGCACCGCCCAGACTGACTCAGCGCGTTTCTGGCATATCCCCGGTAAAACAAGTAACAAACCACCCGAAA -ATGAACACCAGAAACGCGACTTAAGAATCTACCCTATGAATGGATATGCACTCAACCGAATCGATCTTGGTTTCA -ATCTTTTTTATCGGGATCAGGCTTCTTTTTAGGTAACTTCGGGGGCTTAACTTGCTGATGACTTTGCGTTCGGCG -CGTAAGCCAGGGATGGTCAGCTTTAGGTTTAACATAGTATTTTGAGCGTAAATCAATACGGGCATTATCCACTCG -TTCATGGACACTCTTTTCATCATCCAGTGGTAGCCTCCATAATTGCAGGCACTAGCGCCGTGAACTTTTCACGCT -TATCCCTGGTGTCGATAGCCTTCCAGCGTTCAAATATCTTCACTCGATTAACGCCAAGCGCTCGCTGATCAATCG -CGCCACCTTCATATGTGACACGCTGAACATCGATGTTCGGGCGCTCTTTCAAAGCCCAGAATGCTTCAGTGATTA -ATATCGTCGCCTGCTCCTGTGTCATTCCTGGTCGACATATCCAGGCATCCAGAGCCTCACGAGCCTGTTCAGGAG -TGATTTTCATTGTTCAACCGCCCCGCCCGCTTCGTCTTACGATATTCATCATAAACTTTGGGATCATACTGAAGC -TCCCCGCCAGATGCCTCCTGTAGACGCATCGCGCGACCTTCGGGAACTAAATCCCCTTTCCAGCTATAAAGCGAA -GCCAAACGAATACCTGCTGCTTGTGCAAGTTTTGTTTTTGAACCGAAATACAAAAGAGCGTCAGTTTTAAGCATT -TAAAACACCTTTATTGTTAGTCATAACTAACAAGATAGATGTTAACAAAAACATAGTCAATACGATTTAGCATTA -GCTAACTATGGAAACAAAAAATTTAACTATCGGCGAACGCATCAGGTATCGTCGGAAAAACCTCAAACACACCCA -AAGGTCTCTTGCTAAAGCCCTGAAAATCTCCCATGTGTCTGTATCACAATGGGAACGGGGTGATAGTGAACCTAC -AGGGAAGAACCTTTTTGCCCTCAGTAAAGTATTGCAATGCTCACCAACATGGATTCTATTTGGCGATGAAGACAA -GCAACCAACACCACCTGTTGAGAAGCCAGTTGCCTTATCCCCCAAAGAACTAGAGCTCCTTGAGCTGTTTAATGC -ACTGCCAGAATCAGAACAGGATACCCAGCTCGCCGAAATGCGAGCTCGAGTAAAAAACTTCAATAAACTCTTTGA -AGAATTACTAAAAGCCCGTCAGCGGACAAATAAAAGATAACATCATCAATGAGTTATCTTTTACCACATCAATTA -TGTTAGCTATAGCATACAAAATCACTTGACCGATATGTTAGTCATGGCTAATCTTGTTTGCATCAACACACCGCA -CGGTGTTCTCAGCAAACAGTTCCGCTACCCCAGCGTTAAGGGGAAATGAGGTCAGCATGGATACTATCGATCTTG -GCAACAACGAATCTCTGGTGTACGGCGTGTTTCCAAACCAGGACGGCACGTTCACCGCAATGACGTATACCAAAA -GCAAAACGTTTAAAACCGAAAATGGTGCCCGTCGCTGGCTGGAAAGAAACTCAGGTGAGTGATATGGATTTCGAC -ACAATCATGGAAAAGGCTTACGAAGAATACTTCGAAGGCCTTGCCGAAGGCGAAGAAGCTCTCAGCTTCAGTGAG -TTTAAACAGGCGCTTTCCAGTTCGGCAAAATCTAACGGCTGATAAGCGAAACAGCACCGCGAGGAATCAGTATGC -AGAAACGAGAACCCGTCATCATCGCGCCAGACTATACCGATGATGAACTTTATGAGTGGATGCGCCAGAAAATTA -ATGCAGCGCAGGATCTGAAATGGGCTAATGAAGCCAGGGCTAAGCAGGCTGAAAATCTGTCCGCTCTGGAGCAGG -ATATCACCAATCTGGAAAAAGCAGCGGCATTAAGCATTGCCAGAATGATTACATACCCGCGTTAGTAGCTAATCA -ACAAAGCTAAGGTTAGTAATTAAGGAGTTCTCCACGGGTGAGGTGGAGTGCGTGCGCCGGACACGGGTGCGCATC -CGGAACTGACAGTTTACTGAAAGGATATTTCCCTGAAAAGTCAGACCATAACGCGAAAGCGCATGGCGAGGTAGC -TGGTTCATAGATAGCCTGTCGTTAAATTTTCGTCGACCGTGCGCTTCCGGTTGTGGCAACCCGCGAAATGGCGCG -GCGGTAAGTATGGCGGGGTTATTCCTTCCCCGTTGAGGACACCGGGTTGTCAGGTTGACCATACGCTTAAGTGAC -AACCCCGCTGCAACGCCCTCTGTTATCAATTTTCTGGTGACGTTTGGCGGTATCAGTTTTACTCCGTGACTGCTC -TGCCGCCCTTTTTAAAGTGAATTTTGTGATGTGGTGAATGCGGCTGAGCGCACGCGGAACAGTTAAAACCAAAAA -CAGTGTTATGGGTGGATTCTCTGTATCCGGCGTTAATTGTTAACTGGTTAACGTCACCTGGAGGCACCAGGCACT -GCATCACAAAATTCATTGTTGAGGACGCGATAATGAAAACGTTATTACCAAACGTTAATACGTCTGAAGGTTGTT -TTGAAATTGGTGTCACTATCAGTAACCCAGTATTTACTGAAGATGCCATTAACAAGAGAAAACAAGAACGGGAGC -TATTAAATAAAATATGCATTGTTTCAATGCTGGCTCGTTTACGTCTGATGCCAAAAGGATGTGCACAATGAATTC -AGCATTTGTGCTTGTTCTGACAGTTTTTCTTGTTTCCGGAGAGCCAGTTGATATTGCAGTCAGTGTTCACAGGAC -AATGCAGGAGTGTATGACTGCAGCAACCGAACAGAAAATTCCCGGTAACTGTTACCCGGTCGATAAAGTTATTCA -CCAGGATAATATCGAAATCCCGGCAGGTCTTTAAAACAGTTCCGTAATAAATATCCGGTTTCATTCTTATATGCC -AGCAATGGCAGGGATTTGTTCATCCTTAAATCTGTCATGAGGTTAAAACAAATGAGTAAAGTCTTTATTTGCGCC -GCTATTCCTGACGAACTGGCAACAAGGGAAGAAGGCGCTGTGGCTGTAGCCACAGCCATTGAAGCTGGCGACGAA -CGCCGTGCTCGAGCAAAATTTCACTGGCAATTCCTGGAACATTATCCGGCTGCTCAGGACTGCGCTTATAAATTT -ATTGTCTGCGAGGATAAACCTGGCATACCCCGCCCTGCCCTCGATTCATGGGATGCTGAATATATGCAGGAAAAC -CGCTGGGATGAGGAGTCTGCTTCTTTTGTCCCGGTTGAGACTGAATCCGATCCGATGAACGTCACTTTTGACAAG -CTGGCCCCTGAAGTACAGAACGCTGTCATGGTTAAGTTCGACACATGTGAAAACATCACCGTTGATATGGTTATT -AGCGCACAGGAATTGTTGCAGGAAGACATGGCAACATTCGACGGACATATCGTTGAAGCGTTGATGAAAATGCCA -GAAGTTAACGCCATGTATCCGGAGCTTAAGTTGCACGCCATTGGGTGGGTTAAGCATAAATGTATTCCTGGTGCT -AAATGGCCCGAAATTCAGGCAGAGATGCGCATCTGGAAAAAACGTCGCGAAGGTGAACGCAAGGAAACCGGAAAA -TACACGTCTGTTGTTGATCTCGCCCGCGCCAGAGCCAATCAACAGTACACTGAAAATTCAACAGGAAAAATCAGC -CCGGTCATTGCTGCCATTCATCGCGAATACAAGCAGACATGGAAAACACTGGATGACGAACTGGCCTATGGGCGC -TGCTTCGCAGACAGGCAGAACTTGATGGTATGCCTGCGATCAATGCCAAACGTGTTTACCGGATCATGCGCCAGA -ATGCGCTGTTGCTTGAGCGAAAACCTGCTGTACCGCCATCGAAACGGGCACATACAGGCAGAGTGGCCGTGAAAG -AAAGCAATCAGCGATGGTGCTCTGACGGGTTCGAGTTCTGCTGTGATAACGGAGAGAGACTGCGTGTCACGTTCG -CGCTGGACTGCTGTGATCGTGAGGCACTGCACTGGGCGGTCACTACCGGCGGCTTCAACAGTGAAACAGTACAGG -ACGTCATGCTGGGAGCGGTGGAACGCCGCTTCGGCAACGATCTTCCGTCGTCTCCAGTGGAGTGGCTGACGGATA -ATGGTTCATGCTACCGGGCTAATGAAACACGCCAGTTCGCCCGGATGTTGGGACTTGAACCGAAGAACACGGCGG -TGCGGAGTCCGGAGAGTAACGGAATAGCAGAGAGCTTCGTGAAAACGATAAAGCGTGACTACATCAGTATCATGC -CCAAACCAGACGGGTTAACGGCAGCAAAGAACCTTGCAGAGGCGTTCGAGCATTATAACGAATGGCATCCGCATA -GTGCGCTGGGTTATCGCTCGCCACGGGAATATCTGCGGCAGCGGGCTTGTAATGGGTTAAGTGATAACAGATGTC -TGGAAATATAGGGGCAAATCCACAGGTGAACTACGCTCCTCTGTTTGTTACGCAATAAAAACTGGTGTTTTCGAC -TATGCAAAACAGTTTCCCTCCTCACGCAATCTGGAAAAATTTGGTGAGGCCCGACAAGATTTAACCATAAAAGAA -CTGGCTGAAAAATTTCTGGCACTGAAAGAAACTGAAGTCGCCAAAACATCACTCAACACATACCGTGCCGTCATC -AAAAATATCCTGAGCATAATCGGTGAAAAAAATCTTGCCTCATCGATTAATAAAGAAAAATTACTGGAGGTTCGT -AAAGAGTTACTGACTGGATACCAGATCCCCAAAAGTAACTATATTGTTACACAACCAGGGAGATCGGCTGTAACT -GTAAATAATTACATGACAAATCTTAACGCCGTGTTCCAGTTTGGTGTTGATAACGGTTACCTGGCAGATAATCCG -TTTAAGGGGATCTCGCCATTAAAGGAATCAAGAACCATTCCGGATCCTCTTTCGCGGGAAGAATTTATCCGTCTT -ATCGATGCGTGCAGAAATCAGCAAGCAAAAAATTTATGGTGTGTTTCTGTTTATACTGGAGTTCGCCCTGGTGAG -CTGTGTGCACTTGGATGGGAGGACATAGATCTGAAAAATGGAACAATGATGATCAGGAGAAATTTAGCAAAAGAC -CGTTTCACGGTACCAAAAACACAGGCGGGAACCAATCGGGTCATTCATCTTATTAAGCCAGCAATCGACGCTCTC -CGGAGTCAGATGACATTAACGAGACTGAGCAAAGAGCATATCATTGATGTTCACTTCAGAGAGTATGGCAGAACA -GAAAAACAAAAATGCACCTTTGTTTTTCAACCTGAAGTGTCAGCGAGAGTAAAAAATTATGGTGACCATTTTACC -GTTGACTCAATAAGGCAGATGTGGGACGCAGCGATAAAACGTGCCGGACTCCGCCATCGAAAATCATATCAGTCG -AGACATACTTATGCCTGCTGGTCGCTGACAGCTGGTGCTAACCCGGCATTTATAGCAAACCAGATGGGCCATGCA -GATGCGCAAATGGTATTTCAGGTATACGGAAAATGGATGTCTGAAAACAATAATGCACAGGTAGCTTTGTTAAAT -ACACAGTTAAGCGAGTTTGCCCCAACCATGCCCCATAACGAAGCAATGAAAAATTAATTTAATATTTATCAAATA -GTTAACACGCATGACTCTTGAAATCCATAAATTCAAGCGCAGTGCCCAGCCATCCCGATACTGCTGCTTTCACCA -AATCCTTAGTGCTTCTTTCGTGTTTTTCTATTGTCATAATGGTTATCTCTAAAAAAGAGGTAAGATGCGTACTAC -TTACTCGCCGTTATTGGTATTATTCAGAAAAAGTGAGTAAGACTTTGCAGCAATGTTTTTGATCCTGTTCAAATA -AACTAATGGCATCAGCAACATGCTGGAAATCAAACGTATGGGTAATTAATTTTTCTGGTTTAATTAACCCTTTAC -TTAACCAGTCGATAACGATCGGGAATTTATTTGCATTTAAGCGTGAAGAGAAAATAGAGAGTTCTTTTCCGGTAA -TTCCTTGCTGAATCACTTCAGACGGTTCACTGGAGAACCCCATCAATACAATACGTGCCGCTGGAGAAGCCAGCG -TTACGGCCTCTTTCAGGATAGAAGGATGACAAGCCGCATCGATAATTAATGTCGGCTTGATGCCTTTTTCAGTGA -AAATCTCGCCAAGCGGTGTCTGGCTGTTATTAATCGCCCAGTCAGCCCCGCTCTCTTTCGCTTTTTCCAGTCGTT -CATCAATGCGATCGGCAACAATCACATTTTTAACGTTATAGACGCCTTTTAATACCTGAACGATCGTCAGGCCGA -TTGGACCGGCACCATAAACCAGAACGGTATCATTTTCAGTCGGTTGACCATGTCCGGTTACGTTAGCCGCAATGG -TAAAAGGTTCGATCATTACCGCATATTGATCGGCCACTGCTTCAGGAATTTTCCACGCATTTTTTGCCGGAACCA -CGGCATATTCACTGAAACCACCGTCAGCGTGCACACCTAATACAGCCAGTGTCGTACAAACGTTCGGTTTACCTA -TAGAGCACGGATAGCAATGCCCACAGCTGACCACCGGATCGACAGCAACACGTTCACCGACTCTGGCGCTTTCCA -CGCCTTCACCCACTGCATCAATGACGCCAAAGAATTCATGACCAATGACGCGCGGATATTTCGCAAAAGGATTAT -GCCCACGATAAATATGGCTATCTGAACCACAAATTCCGGCAAGTTTCACTTTTACTCGTACTTCACCCGCTGACG -GGGTGGGTATTTCACGTTCGACAATCGCCAGTTGATTCGGTTTTTCAATTAATATGCTTTTCATTATCTTACTCC -TTACCAGTTCCACAGCGTGCCATCTTCCAGACGTGCGACTGGTAGATAAGCAGGTTCATAGGGATATTTCGCCGC -CAGCTTTTCATCGAATTCGATACCAAGACCCGGTTTGTCTCCCGGATGCATATAGCCGTTATCGAAAGTCCAGTT -GTGCGGGAAGACTTCGAGCATTTGTTCGGAATAACCCATGTATTCCTGGACACCGAAATTGGGGACCCACAGATC -AAAGTGCAGCGCCGCAGCCATGCAGACTGGTGACAAATCGGAAGGACCGTGTGAGCCAGTACGTACCTGATACAG -CGAAGCAAAATCGGCAATCCGGCGCATACCGGTAATTCCGCCTGCATGGGTCAGCGTGGTGCGGATATAATCGAT -GAGTTGCTCTTCAATCAGTTGTTTGCAGTCCCAGATGCTGTTGAAGACTTCACCCACTGCGATGGGTGTGACGGT -ATGTTGGCGAATGAGACGGAAGCATTCCTGGTTTTCCGCAGGCGTCGGGTCTTCCATCCAGAACATGCGATAATC -TTCAATGCTTTTACCAAAGCGCGCCGCTTCAATAGGCGTTAAGCGATGGTGCATGTCATGCAGCAAATGTTCATT -AAAACCAAACTTGTTACGTACCGCGTCAAACAATTTCGGCATGAAATCGAGGTATTTCTCCGTCGACCACAGCTG -CTCTTCCGGCCACTGTCCTTTGGTTGCGGGTTCATAAGCCAGACCTTTACCTTTCGACATGCCGTAGGTGGTTTT -CATACCAGGGATTCCGCACTGCACGCGGATGGCTTTGAATCCAAGCTCTTGATGACGGGCATAATCATCCAGAGC -TTCATCAATACTGTGACCGGTGGTATGGCAATAAACCATCACCCCTTCACGAGACGCGCCGCCGAGTAACTGGTA -AAGCGGCATGTTGGCAGCTTTGGCTTTAATATCCCACAGCGCCATATCAACCGCTGAAATGGCCGACATCGTAAC -CGGACCGCGACGCCAGTAAGCACCTTTATAGAAAAACTGCCAGATATCTTCGATACGGTGCGCATCGCGACCAAT -AAGCTGCGGACAAAGGTGATCCTGCAAATAAGAGGCCACGGAAAGCTCACGTCCATTGAGGGTGGCATCCCCAAG -GCCCGTAATACCGTCCTCAGTGGTGATTTTTAATGTGACGAAATTACGCCCCGGACAGGTAACAAAAACTTCAGC -CTTTACGATCTTCATGTTCGATTCCTTGCATCGCTTGTCGTGATGCATGAAATCTACGCAACTGAGCTACTACCA -TACAAGTATAAAGATCGAAAAAAGCCGGAGTGATCACAAAAAAAGGCGTATATTTGCGCTGTGAATGGTTGACAA -AAGATGAAATAGAATACCTTTTGTCAGCTGACACTTCCTCTTATCTTATTGATAAAATGGATTTATGTTCCTACG -TGCGCCCCCAGCCCGCAACAATGATCAACATGCCGCAAAGCGCAATCAACGCACCCGTCCAGTCATAAAGAGTCA -GTTTCACGCCATCCACAACGCGCAGCCACATCAACGCCGTGCAGACATAAACGCCACCATAAGCCGCGTAAACAC -GCCCACTCGCCGCTGGATGCAACGTTAACAACCAGACAAACAGCGCCAGTGAAATCCCCGCCGGAAGCAACAGCC -AGATACTGGCGTTTCGTTTTAACCACAACCAGGGCAGAAAGCATCCAATAATTTCACACAGCGCAGTAGCAAAAA -ATAGTAACGTTGTTTTAATCATCTTTGTCTCTTATTGACATCATGTATAGTTATAGGGCGACATAATATCATCAA -TATAAACACCCTCCTGGTACGTTTTGCGTCCGCAGTGGATGGTGTAGAATCACCTTTAATCATTCATACAGGGAA -TGAATTATGAAAATCACTCTCAGCAAACGAATCGGCCTGCTCGCTATTCTGCTGCCTTGCGCACTGGCATTGAGC -ACAACTGTTCATGCCGAAACTAACAAACTGGTGATTGAGTCTGGCGACAGTGCACAAAGCCGCCAGCACGCCGCT -ATGGAAAAAGAGCAATGGAATGACACGCGCAATCTGCGCCAGAAAGTGAATAAACGCACTGAAAAAGAGTGGGAT -AAAGCCGACGCCGCTTTTGATAACCGCGATAAATGTGAGCAAAGCGCCAACATCAATGCCTACTGGGAGCCCAAT -ACTTTGCGCTGCCTGGACCGTCGAACTGGCCGCGTTATTACCCCCTAACCTGTTATTGATTTAAGGAATGTAAGG -ACACGTTATGCCAAGCGCCCACAGTGTTAAGCTACGCCCGCTGGAGCGTGAAGATTTACGCTATGTACATCAACT -CGACAATAACGCCAGTGTGATGCGTTACTGGTTTGAGGAACCCTACGAAGCCTTTGTTGAACTCTCTGATCTGTA -TGATAAGCATATTCACGATCAGAGCGAACGGCGCTTTGTGGTGGAATGTGACGGCGAAAAAGCCGGTCTGGTGGA -GCTGGTGGAAATTAACCATGTTCATCGCCGCGCAGAATTTCAGATAATTATCTCCCCGGAGTATCAGGGGAAAGG -TCTGGCAACCCGTGCCGCCAAATTAGCAATGGACTATGGCTTTACCGTTCTCAATCTCTATAAGCTGTATCTGAT -CGTTGATAAAGAGAATGAAAAAGCGATTCACATTTACCGCAAGCTTGGCTTTTCGGTTGAAGGTGAATTGATGCA -CGAGTTCTTTATTAATGGTCAATATCGTAATGCCATTCGCATGTGTATATTCCAGCATCAGTATCTGGCAGAGCA -CAAAACACCGGGTCAGACTCTCCTGAAGCCGACCGCACAATAGCATTAATAATAATCGATCGTATTTTTGATGGT -GTAAACCCGTTCGACGGCGGGTTTTACTCCTTCATCAACAATGATTAGCTGACAGTCCACCGGATTAGCGTGACT -GTCATATTCACAGCTCTGTTTTACATTACCAACCCGTTGATTATTCAGTAAAGTAACCGCTGTGTAATCTAATTT -TTTGATCGGATCCGTTGATGGCGTGGCGCTGACAGATAATGTTTTGTCGTTACTTTTCGTGGTTTTACCCAGCGG -ATAACCCTGATCATCATAGCGATATTCCATCTGCATTTGTTTGCTGCTGGCTTTAATCACGAAGCCATTATCATC -GGTTTCCCAACTCACCCCGGCAGAAGGTAATTCTGCTAGCTGGCATTTTCCCTGTAAACGTACTCTCTTCTCCAG -CGTCTCGGCATCACGGTAATAATTGGCGTCCAGTACCAGAGCGACCACGGTATTATTTTCCAGATCCAGTAATTC -GAGTGAATCAAAACAGCCTTCTTCCGACAAAGTCCCAGAAACACGTTTCGTCACTTCACCTTGCTCATCCATTAA -TGTCTGAGTGAAATCTTTTACCGGACCACGCAGCGGATCAAAATCGAATTCATTAGAGAAACTGGCCATCTCAGG -GGTAAATGAAAGTGTTACCTCTGTGCGGTCACATCCTGTGAGGAATATCGCGAGTAAGCATGGTAGTAATTTGTA -TTTCACAACAGTCACCAGAGAGTAGAGATGATTCTCAATCATAGTAGCAAATACAGTACTTTACACGTTAAATGC -TATGCTTAAAGAAGTTATCTTCGCGTAAGGAGCTTATGATGAAACTCTCAACCTGCTGTGCCGCGCTTCTGCTCG -CCCTCGCCTCACCCGCGGTACTCGCCGCGCCGGGATCCTGTGAGCGCATACAGAGCGATATATCACAGCGCATTA -TCAATAATGGCGTACCCGAAAGCAGCTTCACGTTAAGTATTGTACCCAATGACCAGGTTGATCAGCCTGATTCCC -AGGTCGTCGGCCATTGCGCTAATGATACGCATAAAATTCTCTATACCCGCACCACCAGCGGTAACGTCTCTGCTC -CCGCGCAGTCTAGCCAGGATGGCGCGCCTGCCGAACCGCAGTAACACATTATCGACTGAACGCCGGATATGACAA -ATCCGGCGATTTGAACATACAACATAATCCCACCTTATTACTCATACCCTTCTATTGATATGGATTAATAATTCT -TAACCCAAAATGGGTAGACTCCCTCTATTGTTAGCGCGCTAAATATTCAATATATAAACTTTTATATAACGATAA -AGAACAGGGAGTGAGTTATGTCCAAAAATGAACGAATGGTGGGCATCAGCCGCAGAACACTCGTTAAATCTACCG -CGATAGGTTCTCTGGCGCTGGCTGCAGGCGGTTTTTCTTTGCCGTTTACCCTGCGCAATGCAGCAGCAGCGGTAC -AACAGGCCCGCGAAAAAGTGGTCTGGGGTGCCTGTTCCGTCAACTGTGGTAGCCGCTGTGCACTTCGTCTACATG -TTAAAGATAATGAAGTGACCTGGGTGGAAACTGACAATACCGGCAGCGATGAGTACGGCAACCATCAGGTACGCG -CCTGTTTGCGCGGTCGCTCCATCCGCCGGCGTATTAATCATCCCGATCGCTTGAATTACCCAATGAAACGCGTGG -GCAAACGCGGCGAAGGCAAATTCGAACGGATTAGCTGGGATGAAGCCCTGGATACTATCGCCAGTAGCCTGAAGA -AAACCGTCGAACAATATGGCAATGAGGCTGTATATATTCAGTACTCTTCGGGGATCGTTGGCGGCAATATGACCC -GCTCTTCGCCATCAGCCTCGGCGGTCAAACGCCTGATGAACTGCTACGGCGGTTCACTCAACCAGTATGGCTCCT -ACAGCACTGCGCAAATTTCCTGTGCCATGCCCTACACCTACGGCAGTAATGATGGCAACAGCACCACGGATATTG -AAAACAGCAAGCTGGTCGTGATGTTTGGTAACAACCCGGCAGAAACCCGCATGAGCGGTGGTGGCATCACTTATC -TTCTTGAAAAAGCGCGCGAGAAATCGAACGCCAAAATGATTGTTATCGATCCGCGATATACCGATACGGCTGCCG -GTCGTGAAGACGAATGGCTCCCTATTCGCCCGGGCACCGATGCCGCGCTGGTTGCGGGTATTGCCTGGGTATTGA -TTAACGAAAATCTCGTTGATCAACCTTTTCTCGATAAATACTGCGTCGGCTATGACGAAAAAACCTTACCCGCAG -ATGCACCCAAAAATGGTCACTATAAAGCCTATATTCTTGGTGAAGGTGACGATAAAACAGCGAAAACGCCGCAGT -GGGCTTCGCAAATTACCGGTATCCCGGAGGACCGTATCATCAAACTGGCGCGTGAAATTGGCACAGCAAAACCCG -CTTATATCTGCCAGGGCTGGGGGCCACAACGCCAGGCAAACGGCGAACTGACTGCACGCGCTATTGCTATGTTAC -CTATTTTGACGGGCAATGTCGGCATCAGCGGCGGAAATAGTGGCGCGCGTGAATCGACCTATACCATTACCATAG -AACGCCTGCCGGTGCTGGATAATCCGGTCAAAACGTCAATCTCCTGCTTCAGCTGGACAGATGCTATCGATCATG -GTCCGCAAATGACGGCAATCCGCGACGGCGTCCGCGGCAAAGATAAACTGGATGTGCCCATTAAGTTCATCTGGA -ACTACGCGGGAAATACCCTCGTTAATCAGCATTCTGACATCAACAAAACGCATGAAATTCTGCAGGACGAATCGA -AATGCGAAATGATTGTGGTCATCGAAAACTTTATGACCTCATCGGCAAAATATGCCGACATTCTGCTGCCAGACC -TGATGACCGTTGAGCAGGAAGATATTATTCCTAACGACTACGCCGGTAACATGGGATATCTCATTTTCCTCCAGC -CTGTCACCAGCGAAAAATTCGAACGCAAACCGATTTACTGGATCCTGAGTGAAGTCGCGAAACGTCTTGGACCTG -ACGTCTATCAAAAGTTCACAGAAGGTCGCACGCAGGAACAATGGTTACAACATCTGTACGCCAAAATGCTTGCCA -AAGATCCGGCGTTACCGTCTTACGACGAACTGAAAAAAATGGGTATCTATAAGCGTAAAGATCCCAATGGCCATT -TTGTCGCCTACAAAGCATTTCGTGACGACCCCGAGGCAAATCCACTTAAAACGCCTTCCGGTAAGATTGAAATTT -ATTCCAGCAGGCTGGCGGAAATTGCCCGTACCTGGGAACTGGAAAAAGATGAAGTGATAAGCCCATTGCCAGTTT -ATGCCTCAACCTTTGAAGGCTGGAACTCCCCTGAACGTAGAACCTTCCCACTGCAACTGTTTGGTTTCCATTACA -AATCCCGTACTCACTCGACCTACGGCAATATTGATCTCCTGAAGGCTGCCTGCCGTCAGGAGGTGTGGATCAACC -CTATAGATGCGCAGAAACGTGGGATTGCCAACGGCGATATGGTGCGGGTGTTTAACCATCGTGGCGAAGTTCGGC -TACCAGCCAAAGTAACACCACGTATTCTCCCTGGAGTTAGCGCTATGGGCCAGGGAGCCTGGCACGAGGCCAATA -TGTCTGGCGATAAAATCGACCATGGCGGCTGTGTGAATACGCTAACCACTCTGCGCCCTTCACCACTGGCGAAGG -GAAACCCGCAGCACACTAATCTGGTCGAGATCGAAAAAATATAACCCACGACAACCATAAATTCTGGCATGACAT -TTTGTTTGAAAAGCAATAAGTGAGTAATGATGAAAATCCATACCACAGAGGCGCTCATGAAGGCTGAAATCAGCC -GTAGAAGTCTGATGAAAACCTCCGCACTTGGCAGTCTTGCGCTGGCAAGCAGTGCTTTCACTCTGCCATTTTCCC -AAATGGTCCGGGCGGCAGAGGCTCCGGTAGAAGAGAAAGCGGTCTGGAGTTCCTGCACCGTTAACTGCGGGAGCC -GCTGTCTGTTACGTTTGCATGTGAAAGATGACACCGTGTACTGGGTGGAGTCTGATACGACAGGTGACGACGTCT -ACGGTAATCATCAGGTTCGAGCGTGTTTACGCGGGCGCTCTATCCGCCGACGGATGAATCATCCTGATAGGTTGA -AATATCCCATGAAGCGCGTCGGCAAGCGCGGTGAAGGTAAATTTGAACGGATAAGTTGGGACGAAGCCCTGGATA -CCATCAGTGATAATCTTCGGCGGATCCTGAAAGATTACGGCAATGAGGCTGTACATGTCCTGTACGGAACAGGCG -TAGATGGCGGAAACATCACCAACTCAAACGTCCCGTACCGTCTGATGAACTCTTGCGGTGGTTTTCTCAGTCGCT -ATGGCAGCTACAGTACCGCACAGATCAGTGCCGCAATGAGTTATATGTTCGGTGCCAATGATGGCAACAGCCCGG -ATGATATCGCCAATACGAAACTGGTCGTTATGTTCGGAAATAACCCGGCAGAAACGCGGATGAGCGGCGGTGGTG -TCACTTACTACGTCGAGCAAGCCCGCGAACGTTCAAACGCACGCATGATCGTCATCGATCCACGTTATAACGACA -CTGCTGCCGGGCGTGAAGATGAATGGCTGCCCATTCGCCCTGGCACCGATGGCGCACTGGCCTGTGCGATTGCCT -GGGTACTGATTACTGAAAACATGGTCGATCAGCCATTTCTCGACAAATATTGTGTTGGTTACGATGAAAAAACGC -TGCCCGCCAACGCACCACGTAACGCGCATTATAAAGCCTATATTCTGGGCGAAGGGCCTGACGGCATAGCTAAAA -CGCCGGAATGGGCAGCAAAAATCACCAGCATCCCGGCAGAAAAAATTATCCAGTTGGCACGAGAGATCGGTTCAG -CAAAACCTGCTTATATTTGTCAGGGTTGGGGGCCACAACGACATTCCAACGGCGAGCAAACATCCCGCGCTATTG -CCATGCTTTCCGTTCTCACCGGCAACGTCGGCATAAACGGCGGCAACTCAGGCGTACGCGAAGGTAGCTGGGATC -TGGGGGTAGAATGGTTCCCGATGCTCGAGAATCCTGTTAAAACGCAGATTTCCGTCTTTACATGGACAGATGCCA -TCGACCATGGTACGGAAATGACCGCGACCCGTGATGGTGTTCGTGGAAAAGAAAAACTGGATGTCCCCATCAAGT -TTTTATGGTGCTACGCCAGTAACACATTGATCAATCAACATGGCGACATCAATCACACCCATGAGGTGCTTCAGG -ATGACAGCAAGTGCGAGATGATTGTTGGCATTGACCACTTCATGACGGCCTCGGCTAAGTATTGCGATATCCTGT -TGCCCGACCTGATGCCAACAGAGCAAGAAGACCTTATCTCTCATGAATCTGCAGGGAATATGGGCTATGTGATCC -TCGCCCAACCCGCAACCTCAGCAAAATTTGAACGCAAACCCATCTACTGGATGCTGAGTGAAGTCGCCAAACGCT -TAGGACCAGACGTTTATCAAACCTTTACTGAAGGTCGCAGTCAGCATGAATGGATCAAATATCTCCATGCGAAAA -CGAAGGAACGTAACCCTGAGATGCCCGACTACGAGGAGATGAAAACGACCGGGATCTTTAAGAAAAAATGCCCGG -AAGAACACTACGTCGCTTTCCGCGCATTCCGTGAAGATCCACAGGCAAACCCGTTGAAAACACCTTCGGGGAAAA -TCGAAATTTATTCTGAACGACTGGCGAAGATTGCAGATACCTGGGAATTGAAAAAAGATGAAATTATTCATCCCC -TTCCTGCGTATACCCCAGGTTTTGATGGCTGGGACGATCCCCTGCGGAAAACCTATCCACTGCAGTTAACGGGCT -TCCATTACAAAGCGCGTACCCACTCCAGCTACGGCAATATTGATGTGTTACAGCAGGCCTGCCCACAAGAGGTGT -GGATCAACCCCATTGATGCTCAGGCACGCGGTATCCGTCATGGCGATACCGTGCGGGTATTTAACAATAATGGAG -AAATGCTGATTGCCGCAAAAGTGACTCCGCGTATTCTGCCTGGCGTTACCGCCATCGGGCAAGGTGCGTGGCTTA -AAGCGGATATGTTTGGTGACCGGGTCGATCACGGCGGCAGTATCAATATTCTGACCTCTCACCGCCCTTCACCGC -TGGCAAAGGGAAACCCGTCGCACAGCAATCTTGTCCAGATCGAAAAGGTTTAAGGAGTAGCCCATGACCACACAA -TATGGATTTTTTATCGATTCCAGCCGCTGTACTGGCTGTAAAACCTGCGAACTGGCGTGCAAAGATTTTAAAGAT -CTTGGCCCGGAAGTCAGTTTCCGCCGTATTTATGAATACGCTGGCGGCGACTGGCAGGAAGATAATGGCGTCTGG -CACCAGAACGTGTTCGCTTATTATCTCTCCATCTCCTGTAACCATTGCGATGACCCCGCATGTACAAAAGTCTGC -CCCAGCGGCGCAATGCATAAGCGTGAAGATGGCTTTGTGGTGGTTGATGAAGATGTTTGTATCGGCTGCCGCTAC -TGCCACATGGCTTGTCCGTACGGCGCGCCACAGTACAATGCTGAAAAAGGGCACATGACGAAGTGCGATGGTTGT -TATTCGCGCGTCGCCGAGGGGAAACAACCCATATGTGTCGAATCCTGCCCGCTGCGTGCACTTGAGTTCGGTCCA -ATTGAAGAGCTGCGCCAGAAGCACGGCACTCTTGCTGCCGTCGCGCCACTGCCGCGCGCGCATTTCACAAAACCC -AATATCGTTATCAAACCTAACGCCAACAGCCGCCCGACCGGCGATACCACTGGTTATCTGGCTAATCCGGAGGAA -GTGTAAAATGGGAAATGGATGGCATGAGTGGCCACTGGTTATCTTTACCGTATTGGGTCAATGCGTAGTAGGCGC -GCTGATTGTTAGCGGAATTGGCTGGTTCGCCGCCAAAAATGACGCAGACCGTCAGCGTATTGTCCGTGGCATGTT -TTTCCTCTGGCTGTTGATGGGCGTCGGGTTTATTGCCTCTGTCATGCACCTGGGATCGCCACTGCGGGCGTTTAA -CTCCCTGAATCGAATCGGAGCTTCTGGTCTGAGTAACGAGATTGCTGCCGGTTCCATATTTTTTGCCGTTGGCGG -ATTATGGTGGCTGGTGGCAGTCATCGGTAAAATGCCGCAAGCGTTGGGGAAACTCTGGTTACTTTTCAGCATGGC -GCTCGGCGTCATTTTCGTCTGGATGATGACCTGCGTGTATCAAATCGACACCGTGCCAACCTGGCATAACGGTTA -CACTACGCTGGCTTTCTTCCTGACGGTATTGTTGAGCGGTCCAATACTTGCTGCCGCAATTCTGCGGGCAGCTCG -CGTTACATTTAATACCACACCATTTGCCATCATTAGCGTTCTGGCGCTGATCGCTTGTGCCGGGGTGATTGTGCT -GCAAGGTTTGTCTCTGGCGTCTATTCACTCATCCGTGCAACAAGCCAGCGCACTGGTACCAGATTACGCCTCCTT -ACAGGTCTGGCGTGTGGTATTGTTATGCGCAGGTCTTGGATGCTGGCTTTGCCCGCTCATTCGTCGCCGTGAACC -TCACGTTGCCGGACTTATTCTGGGGCTAATCCTCATACTTGGCGGTGAGATGATCGGGCGTGTGCTCTTTTATGG -CCTGCACATGACAGTAGGAATGGCTATTGCAGGTTAACAAATTGGTGCGGGGCAACCCGCACATTTCAGGATGTT -AGGAATGACCCATTTTTCACAGCAAGATAATTTTTCTGTCGCGGCGCGCGTGTTGGGCGCGCTGTTTTATTACGC -TCCAGAGAGTGCGGAAGCCGCACCTCTGGTTGCGGTACTCACCAGTGACGGCTGGGAAACTCAGTGGCCTCTACC -AGAAGCGTCATTAGCGCCGCTGGTGACGGCTTTTCAGACACAGTGTGAAGAGACTCACGCCCAGGCCTGGCAGCG -TTTGTTTGTCGGCCCGTGGGCACTGCCGTCTCCGCCGTGGGGGTCGGTCTGGCTGGATCGCGAATCTGTGCTGTT -TGGCGATTCAACATTGGCACTTCGTCAGTGGATGCGCGAGAAAGGCATTCAGTTTGAAATGAAGCAAAACGAACC -GGAAGATCATTTTGGTTCACTGCTGTTGATGGCTGCGTGGTTGGCGGAGAATGGTCGCCAGACAGAATGCGAAGA -ATTGCTGGCATGGCACCTTTTTCCGTGGTCAACACGTTTTCTTGATGTTTTTATCGAAAAAGCAGAACACCCTTT -CTACCGTGCACTGGGTGAACTGGCTCGCTTAACGCTGGCGCAATGGCAATCACAACTGTTAATTCCTGTCGCGGT -TAAACCGCTGTTTCGATAGGATCACCGTAATATTGCCGGATGGTGACGATTACGCGCAATCCGGCAATAATAGGT -TACAGTGTCACGTTTTTTTATCTCTTAAAGCACGCACTGCTTTTGCGGCTGGCCTCTTTTGCCGCAAAATAGTCG -CCCGTGTTTCATTGCCCATTTCTGCTCATGCATCATCTACACATCTATCCGGATCTGCGCACTATGTTCCACCGT -CTGCTTATCGCAACAGTCGTCGGTATTCTCGCGGCCTTTGCCGTTGCCGGGTTTCGTCATGCGATGCTGCTACTG -GAGTGGTTGTTCCTCAATAATGACTCCGGCAGTCTGGTCAATGCAGCGACAAACCTTTCCCCCTGGCGACGGTTG -CTAACTCCGGCGCTCGGCGGACTGGCGGCGGGTTTGTTGCTGATGGGCTGGCAGAAATTTACCCAACAACGCCCT -CATGCGCCGACCGATTATATGGAAGCGTTGCAAACCGATGGACAGTTCGATTACGCAGCAAGCCTGGTTAAATCG -CTTGCCTCTCTGCTGGTAGTAACCAGCGGCAGTGCAATTGGTCGCGAAGGTGCGATGATTCTTTTAGCTGCCCTT -GCCGCCTCCTGTTTTGCCCAACGTTTTACGCCACGCCAGGAGTGGAAATTATGGATCGCCTGTGGGGCCGCGGCG -GGAATGGCTGCGGCCTATCGTGCCCCGCTTGCTGGCAGTTTATTTATAGCCGAAGTGCTGTTTGGCACTATGATG -TTGGCCTCTCTCGGCCCGGTGATTATTTCCGCCGTCGTGGCATTGCTGGTTAGCAATCTGATTAATCATAGCGAC -GCGTTACTCTACAACGTACAACTCTCAGTGACGGTTCAGGCTCGTGACTATGCGCTGATTATCAGTACAGGTGTG -CTGGCAGGTCTGTGCGGACCACTGTTGTTAACGTTAATGAACGCCTGTCATCGTGGATTTGTGAGTCTCAAACTT -GCGCCGCCCTGGCAACTGGCACTAGGCGGGTTGATCGTGGGTCTGCTTTCCCTGTTCACACCTGCAGTGTGGGGC -AACGGCTATAGCACCGTACAATCCTTTTTAACCGCCCCACCACTGTTAATGATCATTGCCGGGATCTTCCTTTGT -AAACTGTGTGCCGTGCTGGCGAGTAGCGGTTCCGGCGCACCCGGTGGGGTCTTTACACCGACGCTATTTATCGGT -CTTGCCATTGGCATGTTGTATGGTCGTAGCCTGGGATTATGGTTCCCTGATGGCGAAGAAATTACACTTTTACTC -GGATTGACCGGGATGGCGACACTGTTGGCGGCGACCACGCACGCGCCGATTATGTCGACGTTGATGATATGTGAA -ATGACCGGGGAGTATCAGCTACTCCCCGGTTTATTGATTGCCTGCGTAATTGCGTCGGTAATTTCGCGGACGTTA -CACCGTGACTCTATCTACCGCCAGCACACTGCGCAGCATAGCTAAGCGGATGTATTGCCCCAGTTCACGCTGTTC -GGCGCGCGGCAGATAAGGCAGTTCACCAATGAGCGGTGCCGGAAGTTTTTTACCCAGCACATCAATGATTTCCGC -ATAATGCGCCAGTCCTGGGTTGATTCGGTTAGCCACCCAGCCAATGAGCGGCAGCCCGTCGTTGGCGATCGCCTG -AGCTGTTAGCAGTGCATGGTTAATGCAACCTTCCTGAATACCGACAACCATCAACACCGGCAGTTGTTCCTGCAC -TACCCATTCAGAGAGTGGACGCAAATCATTCATCAGACTGCGCCAGCCGCCAGTCCCTTCTACCACGACATGATC -GACTTTTTCGGTCAGGTTTGCCAGGCCGTTTGAAATGAGGGTGTAATTGATTGGGCAACTGTGCGCCACGCTACT -TTCTTCTTCGCTTAACGCGATAGGATTAACTGCTTCATAAGGCAGTTCGATGGTTGAAACACTCTGCAACACCAG -GGCATCTTTATTACGCAGCCCTTCGGGTGTCTCTTTGCTCCCCTTCGCTACGGGTTTATATCCCGCAACCGTTTT -TCCCTGGGAGGCTAACGCTTGTAGCAATGCGCGGGAAACCACCGTTTTCCCTACAGAAGTGTCTGTACCGGTAAT -AAAGAAACGCTTCAGCATCACTAACTCCACCGTTATGCTTCACAAATATAAACCAGGAAAATAATTAACCTTGAA -AGTCTAAGTTATGCTTTCCTGGCCCAAATTGAGATAGCGCAAATTTTGGTAGAACAGTTAAAAAATGTTAACCCT -GCAACAGACGAATCAACAAAGAACCGTTATACATCGCGTCTTTTACCAGTGCAGCGCCTGCCATCGTGCCCTGGT -TAGAAAACTGAGTACTCTCAACGCTGATGTGCTGACTATACGCAGGAAGGGCCTGCTGACGGATGCTGTCTGAGA -TGACCGGGAAGAGGATATCTGCCGCTTTACTTAACGGTGAGCCAATCAGTATTTTTTGTGGGTTAAATAAATTCA -CCATGATGGCAAGAATGCGCCCGACATGCGCGCCCACCCCGGTAATGATGTCTTTTGCCAGTAGATCGCCGCGCA -ATGCCGCCTGACACAATGAGTCCACGGTTAACGGTTGTCCATGTAACATCGAGCTCATGGATTGATTAAGACGCA -GCTGTGCCAGCTCAAGAATACTGTCCACGCTGGCGATGGTTTCGAGGCAGCCGTGATTCCCGCAATAACAGCGTT -TCCCATACGGGTCGACCTGTGTGTGGCCTATTTCCACGAGACTACTGCTGCCTGCGTGTAGCAGATGACCATCGG -TAATGACGCCCGCCCCCACGTTGTGATCGATAACCACCTGAATCACATCGCGCGCCCCGCGTGAGGCACCAAACA -AGGCCTCTGCCATCGTCCATGCGCTGATATCATGCTGAATATAAACCGGAACGCCGGTATGCTGCTCCAGCGCCT -CGCCGAGCGGCATCTCTTTTACATCCTCGTAGAACGGCATGCGATGTACAATACCATTTTCCGTATCAATAATTC -CCGGCAAGGTTATGGCAATCGAAGTTAGACGCTCAAGTTTTTTCTGGTGGCGGATAAAAAACTGATCGATATGGG -AAATAATACGATCCAGCAATGGCAAGTCATCTTTTAACGCCAGTTCCTGCGACTCTTCCACCACCAGTTTGCTGC -TCAGATCGCGCAGAGCAAGGAAAATCTCCCCGCGACTAATGCGCAGAGAAAGATAGTGCCAGGCTTCAGTTTCAA -CCACCAGCCCCACCGCCGGACGGCCACGGTTCCCCGCTTCTTTGATTTCCAGCTCTTGCACCAGGTGTGCTTCGA -GCATCTCACGGACAATTTTAGTGATACTGGCAGGAGCCAGTTGCGCCAGACGGGAAAGATCGATACGCGAGACTG -GACCAAGCTGATCAATCAGGCGATAAACCGCGCCCGCGTTGGTCTGCTTTATTTGATCAATGTGCCCAGGCTGGT -TTTCAGCAACCACCGCATACTCCCTATATTTTCGCGCTCCGAAATAATCTGTAGGCTATGGTGAAGCACTTCAAT -ACGTGTCGTCAAATTTTTACTTAGGCATGTGATTAACAGCACATTTTTCGGGCTTTTTCGCTGAAATTTCCCTCA -CCTGAGAGCATTCAGCAGATGAATACGAAAGTTACGCGCAGCCGGACTTTGTTCATGATGTTTCGGCCAGACCAA -CCACATTTCAGAAACCGCATCCTCTTCAGCAATCGGCACCCAGCGCATTTCGTTGAGCTGAACACGTTTAAATGA -CGCAGGCAAAATTGAAACACCCAGACCGGCGGAAACCAGACCGATGATGGTCATTGCCTCGCCCACCTCCTGAGT -GATGACGGGCGTCAAATGGTAACGTCGCATCAGCCCGAGAATATCGTCATACAGCCCTGTCCCGACGTGCGGATC -AAAAAAGACAAAGGGTTCTTTCGCCAGTTCAGCCAGCGTTACATTCGGGTTATTTGCCAGGGGATGATCGTGCGG -GATCATCGCCATAAGCGGTTCATGGACGATGACTGCGTGTTCAAGCGACTCCGGTAACGCTGTGTTACGCAGCAA -TCCCATATCCAGCGTTCCTTCAATGAGCGGAGCGATTTGCTCGCGAGTGTTCATTTCGCGGGTTTGTAAATGGAC -ATCAGGATAATCACGGCGAAACAGCGATAACGTATCGGACACCGCCCGAATAAAAGGAGCCGACGAAGTAAAACC -AATGCGCAACTCCCCCGCTTCACCCTGATGCAGCCTTTCAGCGCGAGCGGCAGCGTCATCCACCATAGACAGGAT -TTGCCGACTATCTGCAAGAAACTGTTTTCCTGCTGCCGTCAGCAATACACTGCGATTGGTTCGTGCCAGCAGTCG -GGCACCAATTTGTTGCTCCAGCGCCTGAATCTGCTGACTTAGCGGCGGTTGCGAAATATTCAGGCGGGCAGCGGC -GCGCCCGAAATGCAGCTCTTCCGCAACAGCAACAAAGTAACGCAGATGACGAAGTTCAATATTCATATTTAAAAC -ATCTTATTTGAGATTATTAATATATTAGACAGAACAATTCGATTTTCCTACCCTATGTATAAGCCTGATCTACAG -GCATATTTAGCAAGGATTTCAAGTGAGCCGTACTACAACTGTTGATGGCGCTCCGGCAAGCGACACTGACAAGCA -AAGCATTTCTCAGCCAAATCAATTTATTAAACGCGGTACGCCGCAATTTATGCGCGTCACCCTGGCGCTGTTCTC -TGCCGGACTGGCAACATTTGCACTTCTCTATTGTGTGCAGCCTATCCTTCCGGTGCTTTCGCAGGAGTTTGGCTT -AACCCCCGCGAACAGTAGTATTTCACTGTCCATTTCCACGGCGATGTTGGCTATTGGTTTGCTGTTTACTGGCCC -GCTATCCGATGCCATTGGTCGCAAACCAGTGATGGTCACGGCGCTACTGTTGGCCTCCATTTGTACGTTACTTTC -GACAATGATGACCAGCTGGCACGGCATTTTGATTATGCGCGCCTTGATTGGGCTTTCGTTAAGTGGCGTGGCAGC -TGTTGGCATGACTTATCTTAGCGAGGAAATCCATCCCAGTTTCGTGGCCTTTTCAATGGGGTTGTATATCAGCGG -CAACTCAATTGGCGGCATGAGCGGACGCTTAATTAGCGGTGTCTTCACGGACTTTTTCAACTGGCGAATTGCTCT -GGCGGCAATCGGTTGTTTCGCGCTGGCCTCGGCGTTGATGTTCTGGAAAATCCTCCCTGAATCACGCCATTTTCG -CCCGACTTCGCTGCGCCCTAAGACGTTGTTTATCAACTTTCGTCTGCACTGGCGTGACCGGGGATTACCGTTATT -GTTCGCAGAAGGCTTTTTGCTGATGGGGTCGTTCGTCACGCTGTTTAATTACATCGGCTATCGGTTGATGCTCTC -CCCCTGGCATGTCAGTCAGGCCGTGGTTGGCTTATTATCGCTGGCTTATTTGACCGGTACATGGAGCTCACCCAA -AGCCGGAACCATGACCACCCGCTATGGGCGTGGTCCAGTGATGTTGTTTTCGACGGGGGTTATGCTGTTTGGTTT -ACTGATGACCTTATTCAGCTCGCTGTGGCTGATCTTTGCCGGAATGTTACTCTTCTCAGCAGGATTCTTCGCAGC -CCACTCAGTAGCCAGCAGCTGGATCGGCCCCCGCGCAAAACGCGCTAAAGGCCAGGCCTCCTCGCTGTATCTGTT -CAGTTACTATCTGGGGTCGAGTATTGCCGGGACGCTGGGTGGTGTTTTCTGGCATAACTATGGCTGGAACGGCGT -CGGCGCATTTATTGCTCTGATGCTGGTCATTGCTCTGCTGGTCGGGACGCGTTTGCATCGTCGTCTGCACGCCTG -AAAAATAAGTCCGGACTGCGGTAAATACCCGTCCGGACTTATTGCCAGCTCAAACCAACGTTAATAGCCATCCTA -AAATAGACGAAGCGCCAGCCAATTCCCGCAGCGCGTCTAGCGTCATCAGGATTATAAGTACCCAAATAAACGGAT -TCATTTTGCTGTGTGTCATTTATTACTGATGCGCAGTTATTCTACTGCTTTGTAAGTAGTAAAATAGTTAACCCG -ATCAAGACTACTATTATTGGTAGCTAAATTTCCCTTAAGTCACAATACGTTATTATCAACGCTGTAATTTATTCA -GCGTTTGTACATATCGTTACACGCTGAAACCAACCACTCACGGAAGTCTGCCATTCCCAGGGATATAGTTATTTC -AACGGCCCCGCAGTGGGGTTAAATGAAAAAACAAATTGAGGGTATGACAATGAAAAAAGTATTAGCTCTGGTTGT -TGCCGCTGCTATGGGTCTGTCTTCTGCCGCCTTTGCTGCAGAGACTACGACCACACCTGCTCCGACTGCGACGAC -CACCAAAGCAGCGCCGGCGAAAACTACACATCATAAAAAACAGCATAAAGCAGCACCTGCCCAGAAAGCGCAGGC -GGCTAAAAAGCATCATAAAAATACGAAAGCTGAACAGAAAGCCCCTGAACAAAAAGCGCAGGCAGCGAAGAAACA -CGCCAAGAAACACAGCCATCAGCAACCGGCAAAACCTGCTGCACAACCCGCAGCGTAAGTTTTCAACAGTAATGC -TGGCGCGCCCCCTCGCGCCTGAAAATTACGGTGCTAAGCGGGTAACGTTTAGCACCGCCTTTAGCGGAGGGTAGT -ATGGTGGGCCGTTATCGCTTTGAGTTCATTCTGATCATCCTTATTTTATGCGCACTGATTACCGCCCGTTTTTAT -CTTTCCTGATTGTAGTTATCTGATTTTACTCCCACTTTCATCCCGTCCCGTCTATAGTATTTATGAGGGTTTGCT -TTTAATAATCATAATTACCCACCAGAGTGTGATATGCGTACAACCATTGCTGTAGTGTTGGGTGCAATTAGTTTG -ACGTCTGCTTTTGTGTTTGCAGATAAACCAGACGTTGCCAGATCGGCAAACGATGAGGTCAGCACCCTGTTTTTT -GGTCATGATGATCGTGTGCCAGTGAATGACACGACCCAATCACCGTGGGATGCGGTTGGGCAACTGGAAACGGCC -AGCGGCAATTTATGTACGGCGACGCTGATTGCACCCAATCTGGCATTAACGGCAGGACACTGTTTATTGACACCT -CCAAAGGGTAAAGCCGATAAAGCAGTGGCGCTGCGTTTTGTGTCAAATAAAGGTCTTTGGCGCTATGAGATCCAC -GACATAGAAGGCCGCGTTGATCCGACACTGGGAAAGCGGTTAAAAGCAGATGGGGATGGTTGGATTGTACCTCCC -GCAGCCGCGCCGTGGGACTTCGGATTGATTGTGCTACGTAATCCCCCTTCTGGCATTACGCCGTTGCCGTTATTT -GAGGGAGATAAAGCCGCGCTTACCGCCGCATTAAAAGCGGCAGGTCGTAAAGTGACTCAGGCAGGCTACCCTGAA -GATCATCTCGATACGTTGTACAGTCATCAAAACTGTGAAGTGACTGGCTGGGCGCAAACGTCGGTGATGTCACAT -CAGTGCGATACCTTGCCGGGTGACAGCGGTTCGCCTCTGATGTTGCATACCGATGACGGCTGGCAATTAATTGGG -GTGCAAAGTTCGGCTCCTGCCGCGAAAGATCGCTGGCGCGCCGATAACCGGGCCATTTCTGTTACCGGTTTTCGC -GACAAGCTGGATCAACTGTCGCAAAAATAATGTTCAAACGCTGCCCGACAGCGCGGGCAGCGTCTTCATCAGGCA -AGTTTCACCATGATCATTCCAGCCAACAGCAAGACCAGGCCAATCCAGCCTTTACGATTTAACCGTTGACCAAAC -AAGATCCAACCTGCGGCTAACGTGGCGGCAATACCAAACCCGCCCCACAATGCATAAGCGACAGACAAGTCGATC -CCTTTAACGGCTTGAGAAAGCGCACTAAAGGCAGCCAGCACCGCCGCCAGGGAGAGCAAGCCAAATATTTTGCGA -CGAAAGCCGTCAGAAAATTTCAAAAAGACGTTAGCAACGATTTCCAGCACGATTGCCAATGCCAGCCAGGCGGCG -TGAACCCATTCAAACTGCGCCATGGTTCACCTCCAGTTCAGGTTTACGCGCTTTACGGGTACCTGATTTTATCAA -CACAATCCCGGCGACCAGGGTGGTTAACCCGGCAATTTTCATCAGCGATAAACTTTCGTCGAATAACAAAACGCT -AAACAAGGTAATAAATAAAATACCGATACCTTCCCACAGCGCATAAGCTACGCCTAAGGCGATTTTTTTAACGGC -GAAAGAGAGAAATATATACGACAGAGAAATCATCACCAGCATTAAAATAAAGCCGCCATTTCCCTCACTGACGCT -CGCCCATTTCATTGACAGCGTACCGGTAATTTCTGTAGCAATAGCCAGACCTAATAAAATCCAATAAATATACAT -TGTCCTTCTCCTGCAAGAGAATTATTTTAATTTTCGCTTAATTCAGCGAAACCAAAGTAAAGTGGTCAAGCCCCG -CGCATAGCGCAAGCTTTGGCAGAAGAAAGGACTAAAGCGCGTTGCGCCAGTGCTGCTCACCTACGAGCAAGATAG -TGGATGAGGTACGAAGATGGGTAAATGTAGAAAATAACGTCCTGAACAAATTGTCCATAATATTACAATTATCCG -CAGTGTTGCTTCTCGTCATCGCGGATGATAATTGTCCTCGGTAGTTGAACACGCCTGATTTGTATCATAGCTTAA -GAATTAACTCAAAATATTTTCACTTCTTTACCTGAGCGGTTTGATTTTCGTTATGATGACGGAGCGAAAAAGACA -TTATTATTAGCAAAGGAAGAAAAAACGGGGACAAGCATGGCAAAGCCGATCATCACGCTCAATGGCCTAAAAATC -GTCATTATGTTGGGAATGCTGGTCATTATTCTCTGCGGTATCCGTTTTGCCGCCGAGATCATCGTGCCGTTTATT -CTCGCATTATTTATTGCTGTTATTCTTAACCCGCTGGTGCAACACATGGTCCGCTGGCGTGTGCCGCGTGTACTG -GCGGTGTCGATTTTGATGACCATCATCGTGATGGCGATGGTGTTGCTATTAGCTTATCTGGGTTCCGCGCTCAAC -GAGTTGACGCGGACGTTACCGCAATATCGCAACTCTATTATGACGCCGCTGCAAGCGCTTGAACCGTTGTTGCAA -CGCGTAGGGATTGACGTCTCAGTTGACCAGCTGGCGCATTATATTGATCCGAACGCGGCGATGACGTTGCTCACC -AACTTATTGACGCAGTTATCTAATGCCATGTCATCAATATTTTTATTGCTGCTGACGGTGCTGTTTATGCTGCTC -GAAGTGCCACAATTGCCCGGAAAATTTCAGCAAATGATGGCGCGTCCGGTTGAAGGGATGGCGGCGATTCAACGT -GCGATTGACAGTGTTTCTCATTATCTGGTGCTGAAAACAGCCATCAGCATCATCACCGGCCTGGTCGCCTGGGCG -ATGCTCGCCGCACTCGATGTTCGCTTCGCTTTTGTCTGGGGATTGCTGGCCTTTGCGCTTAATTACATCCCGAAT -ATTGGTTCAGTCCTCGCGGCAATCCCCCCTATCGCTCAGGTACTGGTGTTTAATGGCTTCTACGAAGCGTTGCTG -GTGCTGGCGGGATATCTGCTGATTAATCTGGTCTTCGGCAATATTCTGGAGCCGCGTATCATGGGGCGTGGGCTG -GGGCTTTCCACATTGGTGGTATTTTTGTCGTTGATTTTTTGGGGATGGTTGTTAGGACCGGTGGGTATGCTGCTT -TCCGTGCCGTTGACAATTATTGTCAAAATTGCGCTTGAACAAACAGCGGGAGGTCAAAGCATCGCCGTTCTGTTA -AGCGATCTCAATAAAGAGTGACGGCCTCAGCAGAGGCCGTCAGGGTTACAGAGCTTTCAGGATTGCATCCACGCT -GGCTTTGGCGTCACCAAACAGCATGTGGGTGTTTTCCTTGAAGAACAGCGGGTTTTGCACACCAGCATAGCCAGT -GTTCATCGAACGTTTAAAGACAATCACGTTCTGCGCTTTCCACACTTCCAGCACAGGCATACCAGCAATCGGACT -CTTCGGATCATCCTGCGCCGCCGGGTTAACCGTATCGTTAGCACCAATCACCAGTACGGTATCGGTATCAGCAAA -GTCATCATTGATCTCGTCCATTTCCAGCACGATGTCATACGGTACTTTTGCTTCAGCCAGCAATACGTTCATATG -TCCAGGCAAACGCCCCGCGACCGGGTGGATACCGAAACGCACATTAATACCACGAGCGCGCAATTTCTCAGTAAT -TTCAGCGACAGGATATTGCGCCTGCGCGACTGCCATGCCGTACCCCGGAGTAATGATCACTGAATGGGAGTTTTT -CAGCAGTTCCGCTGTCTCTTCTGCGGTGATTTCGCGGTGCTCACCCACTTCCTGATCATCGCCAGTAGAAGAGCC -GTCGGTGCCGAAACCACCCGCAATAACGCTGATAAAGGAACGGTTCATCGCCTTACACATAATGTAAGAAAGGAT -AGCCCCCGAAGAACCGACCAGCGCACCGGTCACAATCAGCAGGTCGTTGCTGAGCATAAAGCCCGCAGCCGCAGC -CGCCCAGCCGGAGTACGAGTTCAGCATCGACACCACCACTGGCATATCTGCACCACCGATGGAGGCGACTAAATG -CCAGCCGAATACCAGCGCAATTGCGGTCATTATCAGCAATGCCAGCACTTGCAGGCCGACGCTGTCCGTGCGAAC -AAATACAATCAGCAGCAGGAAGGAAACGACCAGAGCCGCCAGGTTCATTTTGTGACGGTTTGGCAGCATCAATGG -TTTAGACGAAATCTTGCCACACAGTTTGCCGAACGCCACCACCGAACCCGTGAACGTTACCGCCCCGATGAAGAT -ACCGAGGAACACTTCCGTCAGGTGAATATTGACCAGAATCGGTGCCATTCCCGCGTCATGATGCAGATAGCTGTT -AAAGCCAACCAGCACTGCCGCCAGACCCACGAAGCTATGCAGGATCGCCACCAGTTCTGGCATTTCGGTCATTTC -AACTTTCTTCGCCAGACGGATACCAATTGCCCCACCAATGACCATCGCCAGCAAGATCCAGCCAACATTACCCGT -ATCCGGTCCAAAAATGGTTGCGATTAACGCAATCGCCATCCCGGCGATACCGAAGTTGTTACCCTGGCGAGACGT -TTCATGTTTCGAAAGACCGGCCAGACTGAAGATAAACAGGATCGCGGCAACAATGTATGCAGCTGTAACTAATCC -TCCAGACATATGTTACCCCTTAATTTTTGCGGAACATTTTCAGCATGCGCTGAGTCACGGTGAAGCCACCGAAAA -TATTAATGCTGGCTATAAGCACCGCGATAAAACTAAGGAAGCTAACCCAGCCGCCCTGGCCAATCTGCAACAGTG -CTCCGACAACAATAATCCCTGAAATCGCGTTGGTGACCGACATCAACGGTGTATGCAGCGCGTGCGATACATTCC -ACACCACGTAATAACCGACAACGCAGGCCAGCGCGAAAACGGTGAAGTGCCCAAGGAATTCTTTCGGCGCAACGC -TTGCCATCCAGCCAAAAAGAATGATTGCCAGCGCCATCAACGCGTATTTACGCCACGGTGAGCAGGTACATTTTT -CCTCAGTTTTCACTTCCGGTGCCGCTTTTTGTGCCGCCTGCGGCTGAGCTGATACCTGAATCGGCGGTGCCGGCC -AGGTAATTTCGCCCGCACGGATCACGGTCACGCCGCGAATCACCACATCATCAAAATCAACAGTGATATTGCCGT -CTTTCTCTTTGCACAACAGTTTCAGCAGATTAACGAGGTTTGTGCCGTAAAGCTGTGAGGATTGCGTCGGCAGAC -GGCCCGGAAGATCGGTATAACCAATCACTTTGACACCATTTTCCGTAGTGAAGATTTCACCCGGCACGGTGTATT -CACAGTTGCCGCCGTTTTGGGCTGCCAGGTCGACAATCACACTGCCCGCCTTCATGGAGTCAACCATTTCACGGG -TAATTAGCTTCGGCGCTGGTTTGCCTGGAATAAGCGCGGTGGTGACAATGATATCGACCTCTTTTGCCTGGGCGG -CAAAGAGTTCCATTTCCGCTTTGATGAACGCGTCCGACATCACTTTGGCATAGCCATCGCCGCTGCCAGCTTCCT -CTTTAAAATCCAGCTCGAGGAATTCCGCGCCCATACTTTGAACTTGTTCTTTCACTTCCGGGCGGGTGTCGAATG -CACGCACAATCGCGCCGAGACTGTTTGCTGCGCCAATGGCGGCCAGACCTGCAACACCCGCACCAATCACCATCA -CTTTTGCCGGTGGCACTTTCCCGGCCGCAGTAATTTGCCCGGTAAAGAAGCGCCCAAATTCATGTGCCGCTTCAA -CAATGGCGCGATAACCGGCGATGTTCGCCATCGAGCTTAGTGCGTCCAGCGATTGTGCGCGTGAGATACGCGGCA -CAGAGTCCATCGCCATCACGGTCACGTTACGTTCCGCAAGTTTTTGCATTAATTCCGGATTCTGCGCAGGCCAGA -TAAAACTCACCAGCGTTGTCCCAGGATTCAGTAACGCAATTTCATCATCTAACGGCGCATTGACCTTCAGAATGA -TCTCTGACTGCCAGACGCTATTCCCTTCTACAATTTCAGCGCCCGCTTGCACAAACGCTTTATCGTCAAAACTTG -CCAGTTGACCCGCGCCGCTCTCTACCGCGACGGTAAAACCCAGTTTCAGCAGCTGTTCCACTGTTTTTGGCGTTG -CTGCAACACGGGTTTCATTGGTTAACCGTTCTCTTGGTATGCCAATTCGCATGATATTCCCTTCCATCGGTTTTA -TTGATGATGGTTTGCCTGTGTCAGGAGCCACACAAGCTGCTCATGTACGAGCTAAATGTTACTCCGTTAAAATAA -ATTAGTAACAAACGCCCTATAACGTACTGAAAATTATGCCTGTGATCTAGCGCCAAAAATCAGTATTTCGGCGTG -AACTCGCAAAATATTAACGATTCAGCCGTGATAGTGGGATAAACACCTTAGAACGCCGGATAAAGACTGATAATT -GTCTTCGACGGTCGGGTAAAACGAGACATCGCCCCGGCACGAATCACTACTTAACATTAAATTAACTTATACAAT -TCAGTTGCTTCAGTAGTAATGATGCTGATACGGCTGTTTTTTAAGCATAGACGGTCATTTGAGCAGGATTAAAAT -TGGCTTAAGGAATGTGATATGAAAAATGACGCAGACAGTTACACCGTTTAAATGCAATAATCAGCCACGTTTCTC -GTTAATAACAATACCAGTACCTGGTTTGCGCAAGGCGAAGGATTATTTTTATGAAGCTTAAGAACACCCTCCTGG -CGTCGGCACTGCTTTCTGCTATGGCATTCTCCGTTAACGCAGCAACAGAACTGACACCGGAGCAAGCGGCAGCGG -TTAAACCTTTTGACCGTGTAGTGGTTACCGGTCGTTTTAATGCTATTGGCGAAGCGGTGAAAGCCGTTTCTCGTC -GCGCAGATAAAGAAGGTGCCGCCTCTTTTTATGTTGTCGACACTTCTGATTTTGGTAACAGCGGTAACTGGCGTG -TGGTCGCTGACCTCTATAAAGCCGATGCTGAAAAAGCAGAAGAAACAAGTAATCGCGTAATTAACGGTGTTGTCG -AACTGCCGAAAGATCAGGCTGTTCTGATTGAACCGTTTGACACGGTCACCGTCCAGGGCTTCTATCGTAGCCAGC -CAGAAGTCAATGATGCCATCACCAAAGCGGCAAAAGCGAAAGGTGCCTACTCTTTCTACATCGTTCGTCAAATCG -ATGCCAACCAGGGCGGCAACCAGCGTATTACTGCATTCATCTATAAAAAAGATGCTAAGAAACGTATCGTCCAGA -GCCCGGATGTGATCCCGGCAGATTCCGAAGCAGGACGTGCAGCTCTGGCTGCCGGTGGCGAAGCCGCGAAGAAAG -TTGAGATCCCGGGTGTTGCGACTACCGCATCACCAAGTTCTGAAGTCGGTCGCTTCTTTGAAACCCAGTCATCAA -AAGGCGGGCGTTACACCGTCACGCTCCCGGATGGCACTAAAGTCGAAGAACTGAACAAAGCGACCGCAGCGATGA -TGGTCCCGTTCGACAGCATCAAATTCTCTGGCAACTACGGCAACATGACCGAAGTCTCCTATCAGGTTGCGAAAC -GTGCCGCGAAGAAAGGTGCTAAGTATTACCACATCACCCGCCAGTGGCAGGAACGTGGTAATAACCTGACCGTCA -GCGCAGATCTGTATAAATAACTATTCAGTTACTCCTATAAGGCGGCTTGATGCCGCCTTTCGCATTTTTAGTCAC -AAATTTCCCCGCGACCATTGCATGCAGACACATCTCTTCGTAAAATCCCGCGCTTCAGTGGCAAACTCCATTTTT -ATGCGTTTTGCCCTAATATTTATTCTTCTTATCACGTTTTAATCACTGGATATCGATGGAAAAGAAACTGGGACT -GAGCGCACTCACCGCGCTGGTATTAAGCTCAATGCTGGGCGCGGGTGTTTTCAGTCTGCCGCAAAATATGGCGGC -AGTTGCCAGCCCGGCAGCACTGCTCATCGGCTGGGGTATTACTGGCGCTGGCATTTTATTGCTGGCCTTTGCCAT -GCTGATCCTCACGCGCATTCGTCCCGAACTTGACGGCGGTATCTTTACCTATGCCCGCGAAGGGTTTGGCGAGCT -AATCGGCTTTTGTTCCGCATGGGGATACTGGCTGTGCGCAGTCATCGCCAACGTCTCCTATCTGGTGATCGTTTT -TTCCGCGTTAAGCTTTTTTACGGACACGCCGGAATTGCGCCTGTTTGGCGATGGTAATACCTGGCAATCGATAGT -CGGTGCATCGGCTTTATTGTGGATTGTTCACTTTTTGATCCTGCGCGGGGTGCAAACCGCTGCCAGCATTAACCT -GGTGGCGACACTGGCAAAATTGTTGCCGCTGGGTCTGTTTGTTGTGCTGGCGATGATGATGTTCAAACTGGATAC -CTTCAAGCTCGACTTCACCGGACTTGCACTTGGCGTACCCGTTTGGGAACAGGTGAAAAACACCATGCTGATCAC -CCTGTGGGTTTTCATTGGTGTGGAAGGTGCCGTGGTTGTTTCTGCGCGTGCGCGTAATAAACGTGATGTTGGCAA -AGCGACACTGCTGGCGGTTCTCTCCGCTCTGGGCGTTTACTTGCTGGTAACGCTGCTTTCGCTGGGTGTGGTGGC -ACGTCCTGAACTGGCTGAAATTCGTAACCCGTCAATGGCCGGTCTGATGGTGGAAATGATGGGACCATGGGGCGA -AATCATCATCGCTGCCGGTTTGATCGTTTCCGTTTGCGGCGCGTACTTAAGCTGGACCATCATGGCAGCAGAAGT -ACCGTTCCTGGCCGCCACTCATAAAGCATTCCCGCGCATTTTTGCGCGCCAGAACGCACAAGCTGCGCCATCCGC -CTCACTGTGGTTGACCAACATCTGCGTGCAAATTTGTCTGGTACTCATCTGGCTGACCGGTTCCGATTACAACAC -GTTGCTGACCATCGCCTCAGAAATGATTCTGGTGCCCTATTTCCTGGTCGGCGCGTTCTTGCTGAAAATCGCAAC -CCGTCCACTGCATAAAGCGGTAGGTGTCGGTGCCTGCATTTATGGCTTATGGTTATTGTACGCCTCTGGTCCAAT -GCACTTGCTGTTATCCGTTGTTCTGTATGCACCGGGGCTGCTGGTTTTCCTGTACGCGCGCAAAACGCATACCCA -TGATAATGTACTGAACCGTCAGGAAATGGTGCTGATTGGCATGCTGTTAATTGCCTCAGTTCCGGCGACCTGGAT -GCTGGTGGGATAACGTTCATCCCATCGTTGGATAGCAAAGGAGATAACGATGGGTAAAACCCAGCCCTTGCCAAT -ATTAATTACTGGCGGAGGTCGTCGCATCGGCCTCGCCCTCGCATGGCATTTCATTAATCAAAAGCAACCGGTGAT -TGTCAGCTATCGGACACACTATCCAGCCATTGATGGACTGATTAATGCAGGTGCGCAGTGTATTCAGGCTGATTT -TTCGACCAACGACGGTGTGATGGCGTTTGCCGATGAAGTACTAAAAAGCACCCATGGTCTGCGTGCTATTTTGCA -TAACGCCAGTGCGTGGATGGCGGAAAAACCGGGTGCGCCACTGGCCGACGTACTGGCTTGCATGATGCAGATCCA -CGTTAATACCCCATACCTGCTCAACCATGCGCTGGAAAGATTACTGCGTGGGCACGGACACGCCGCCAGCGATAT -CATTCACTTTACCGATTATGTGGTGGAGCGCGGTAGCGACAAACATATTGCGTATGCTGCAAGCAAAGCGGCACT -GGATAATATGACCCGCTCGTTTGCCCGCAAGCTGGCACCGGAAGTGAAAGTGAATTCTATTGCGCCATCGCTGAT -CCTGTTTAATGAACATGATGATGCCGAATATCGACAACAGGCGCTGAATAAATCACTGATGAAAACCGCGCCTGG -CGAGAAAGAAGTGATCGACCTGGTCGATTACTTACTTACCAGTTGCTTTGTCACCGGACGCAGTTTCCCACTTGA -TGGCGGTCGTCATCTGCGTTAATGCAGCTTTATCCAGCATATAATCAACACCCATGCGCTTATCCCCCAACACGC -AACAGAACCAACAAAAGCGGCGGGCAAGCGCATCATTCCGGTGAAATACCACAGCGACACCAGGTAAACAAAATA -GGGAATAATCGACCACATACTAAAAATGATGGTTGCGCGTAAGGCTTCAATGCCGCGTTCGCTGGCAACAATATA -ATGCGCGATAAGCGCAAAGGTCGGGAAAAGTGGAATCAGCCCGGCGATATAATAATTTTTCGTTTTTGCTAAAAC -ACCAATCAACAGCACTACCAGCGCACCGAGCGCGGCTTTGATTACCAGCCCCATCTTTTTACCTTAACACTTCCA -TAACAAGTCATCAGTAGAATACCTGATGAAAACTTGTTTAGAAACGATTGATAGTAAGTAAAAACAGCGCGGTGT -ATTGTGACGTTTTTATATCTACCGTGAATGTTATGAACACTATCGTATTTGTGGAAGATGATGCGGAAGTCGGTT -CACTGATTGCCGCGTACCTGGCAAAACATGATATGCAGGTTACCGTAGAGCCGCGCGGCGACCAGGCCGAAGAAA -CCATTTTGCGAGAAAATCCGGATTTGGTGTTACTCGACATCATGCTACCAGGCAAGGACGGCATGACCATTTGTC -GTGATTTACGCGCAAAGTGGTCTGGACCGATTGTTCTTCTAACCTCTCTCGATAGCGATATGAACCACATCCTGG -CACTGGAAATGGGTGCCTGCGACTATATTCTCAAAACGACGCCCCCTGCTGTTTTGCTAGCGCGTTTACGTTTGC -ATTTGCGTCAGAATGAGCAAGCCACACTGACCAAAGGTCTTCAGGAAACGTCTCTGACTCCCTACAAAGCCCTGC -ATTTCGGCACGTTGACCATCGATCCCATCAACCGCGTAGTCACCCTGGCTAACACTGAAATCTCGCTCTCGACAG -CTGATTTCGAATTATTGTGGGAATTAGCTACCCATGCCGGGCAAATCATGGACCGCGATGCATTGCTGAAAAATT -TACGCGGCGTCAGTTATGACGGACTGGATCGTAGCGTGGACGTGGCTATTTCGCGGTTAAGAAAAAAACTGCTCG -ATAACGCCGCAGAACCTTATCGCATTAAAACTGTGCGTAACAAAGGCTATCTTTTTGCGCCTCATGCATGGGAAT -AAGCGATGAAAAAACTGTTTATCCAGTTTTACCTGTTATTGTTTGTCTGCTTCCTTGTGATGTCTCTGCTGGTTG -GGCTGGTGTACAAATTTACCGCCGAACGCGCGGGCAAACAGTCGCTGGATGATTTGATGAACAGTTCGCTGTATC -TGATGCGCAGCGAATTGCGTGAGATCCCCCCACACGACTGGGGTAAAACTCTGAAAGAGATGGATTTAAATCTCT -CTTTCGATCTGCGTGTCGAGCCACTGAGTAAATACCATCTTGATGATATTTCCATGCACCGACTGCGTGGCGGCG -AAATTGTCGCCCTGGACGATCAGTACACGTTTTTGCAGCGTATCCCGCGCAGCCACTACGTGCTGGCAGTTGGTC -CTGTTCCTTATCTTTATTATCTCCATCAGATGCGATTGCTGGATATCGCCCTGATCGCTTTTATTGCTATTTCCC -TCGCCTTTCCGGTGTTTATCTGGATGCGTCCGCACTGGCAGGATATGTTAAAACTGGAAGCAGCGGCGCAACGAT -TTGGCGATGGGCATCTCAATGAACGTATCCACTTTGATGAGGGTTCGAGCTTTGAACGACTTGGCGTCGCATTTA -ACCAGATGGCGGACAATATCAACGCCTTAATTGCCAGCAAAAAACAGCTTATTGACGGTATCGCTCACGAACTGC -GAACACCGTTAGTGCGCCTGCGTTATCGACTGGAGATGAGCGATAACCTGAGCGCCGCCGAATCCCAGGCGTTGA -ATCGTGATATCAGTCAACTTGAAGCTTTAATTGAAGAGCTGCTGACTTATGCCCGACTCGATCGCCCACAAAACG -AGCTTCATCTTAGCGAACCAGACCTGCCGTTGTGGCTGTCAACGCATCTGGCAGATATTCAGGCAGTAACGCCCG -ATAAAACGGTACGGATAAAAACGCTCGTGCAAGGCCATTATGCGGCGTTGGATATGCGCTTAATGGAGCGCGTGC -TGGATAATTTGCTCAATAACGCCCTGCGGTACTGCCATTCAACGGTTGAAACCAGCCTGCTACTGTCGGGGAATA -GAGCGACATTAATTGTTGAGGATGATGGCCCAGGGATTGCCCCAGAAAACCGCGAACATATCTTTGAACCTTTTG -TTCGCCTCGATCCCAGCCGGGATCGCTCAACCGGCGGCTGCGGGCTGGGGCTGGCAATTGTCCACTCTATAGCAC -TGGCAATGGGCGGTACGGTTAATTGTGACACCAGCGAACTGGGTGGTGCCCGCTTCTCGTTTAGCTGGCCGTTAT -GGCATAACATCCCGCAATTTACCTCTGCCTGACACTACGCGCACGATGGTCAAGTCACCACGACTGTGCTATAAA -ATAAGTATGTTGTAACTAAAGTGGTTAATATTATGGCGCGTTACGATCTCGTAGACCGACTCAACACTACCTTTC -GCCAGATGGAACAAGAGCTGGCTATATTTGCCGCTCATCTTGAGCAACACAAGCTATTGGTTGCCCGCGTGTTCT -CTTTGCCGGAGGTAAAAAAAGAGGATGAGCATAATCCGCTTAATCGTATTGAGGTAAAACAACATCTCGGCAACG -ACGCGCAGTCGCTGGCGTTGCGTCATTTCCGCCATTTATTTATTCAACAACAGTCCGAAAATCGCAGCAGCAAGG -CCGCTGTCCGTCTGCCTGGCGTGTTGTGTTACCAGGTCGATAACCTTTCGCAAGCAGCGTTGGTCAGTCATATTC -AGCACATCAATAAACTCAAGACCACGTTCGAGCATATCGTCACGGTTGAATCAGAACTCCCCACCGCGGCACGTT -TTGAATGGGTGCATCGTCATTTGCCGGGGCTGATCACCCTTAATGCTTACCGCACGCTCACCGTTCTGCACGACC -CCGCCACTTTACGCTTTGGTTGGGCTAATAAACATATCATTAAGAATTTACATCGTGATGAAGTCCTGGCACAGC -TGGAAAAAAGCCTGAAATCACCACGCAGTGTCGCACCGTGGACGCGCGAGGAGTGGCAAAGAAAACTGGAGCGAG -AGTATCAGGATATCGCTGCCCTGCCACAGAACGCGAAGTTAAAAATCAAACGTCCGGTGAAGGTGCAGCCGATTG -CCCGCGTCTGGTACAAAGGAGATCAAAAACAAGTCCAACACGCCTGCCCTACACCACTGATTGCACTGATTAATC -GGGATAATGGCGCGGGCGTGCCGGACGTTGGTGAGTTGTTAAATTACGATGCCGACAATGTGCAGCACCGTTATA -AACCTCAGGCGCAGCCGCTTCGTTTGATCATTCCACGGCTGCACCTGTATGTTGCAGATTAACGCCCGGCTTTCA -TACTGCCGACCATCTGTTCTGGCCGTACCCAGCTGTCAAACTCGGCTTCGCTAAGATACCCCAGCGCAAGGGCCG -CAGCTTTTAAGGTCAGCCCTTCTTTATGCGCTTTTTTGGCGATCTCGGCGGCTTTGTCATAACCAATGTGGGTGT -TAAGCGCAGTCACCAGCATCAGCGATTCATTGAGTAATTGATTGATTCGCTCACGATTCGGTTCAATACCCACTG -CGCAGTGTTTGTTAAAACTTTCCATGCCATCTGCCAGCAAGCGCACCGATTGCAGGAAATTGTGGATCACCATTG -GACGGAAGACGTTCAGTTCAAAGTTACCGGAAGCGCCCCCCATGTTGATCGCCACGTCGTTCCCCATCACCTGAC -AGCAGAGCATGGTTAATGCCTCACACTGTGTTGGGTTCACTTTCCCCGGCATGATTGAGCTGCCCGGCTCATTTT -CCGGGATTGAGATTTCACCAATTCCGCAGCGCGGGCCAGAGGCCAGCCAGCGGACATCATTGGCGATTTTCATCA -GTGACGCAGCCAACCCTTTCAACGCGCCGTGCGCCTGAACCAGGGCATCACAGGTCGCCAGCGCTTCAAATTTGT -TCGGCGCGGTAACAAACGGTGCACAGGTAATGACTGCCAGTTCATCTGCTACGCGACGCGCATACTCCGGATGGG -TATTTAGTCCAGTACCCACCGCTGTACCGCCAAGAGCCAGTTCCGCTACGTGAGGCAGGCTGTATTCGATATGTT -TGAGATTATGCTCGAGCATCGCTACCCAGCCGGAAATCTCCTGCCCCAGCGTTAACGGCGTGGCATCCTGCAAGT -GAGTACGACCAATTTTGACGATATCGGCAAAAGCACGGGATTTCTCATTCAGTGTCTGTGTCAGGGTTTTAAGCT -GAGGAATGAGTTGCTTGCGCAGCGCCAGCAGCGCCGCAACGTGCATCGCCGTCGGAAAGACATCGTTGGAACTTT -GGCTTTTGTTCACGTCGTCGTTAGGGTGAACTTTACGTTCCATCCCGCGCACACCGCCGAGTAATTCACTGGCCC -GGTTAGCCAGCACTTCGTTCATGTTCATGTTACTTTGCGTGCCGGAGCCGGTCTGCCAGATAGCCAGCGGGAATT -CGTCGTCATGCTGTCCTGCCAGTACTTCATCCGCCGCCTGACGAATGGCGCTCGCTTTCTCTTCAGACAACAAGC -CTAAATCTTCATTAACTTTTGCCGCTGCACGCTTGGTTAGCGCCAGCGCATGAATCAGTGAGGTGGGCATTTTCT -CCGTCGAAATGCGGAAATGCTCCAGCGAGCGTTGAGTTTGTGCGCCCCACAGCTTATCTGCCGGGACATCAATCG -CCCCCATCGAATCTTTTTCGCTGCGTACTGTATTCATGACCTGCTCCTCACCTGATTAATTTTTTCTTTCTGTTT -TGCTTTCGTTAAGCAACTTTTAGCTCACTTATTATTTACCATTTGATAACAAATGTTTGGTCTTTCGTGCCATGT -AAAAAAACCGCCCCGAAGGGCGGCTCTGTTTATTTCACACAGCGGGTGCATTGTGTGAGTTGTATCTGCTGGAAG -AAGTCATTTCCTTTATCATCCACAAGGATAAACGCCGGGAAATCTTCCACTTCAATTTTCCAGATGGCTTCCATT -CCCAGTTCCGGATATTCAACACATTCCAGGCTCTTAATACTTCCCTGCGCCAATACAGCGGCCGGACCACCGATA -CTGCCAAGGTAGAAGCCGCCGTGTTTTTTACAGGCATCCGTCACCTGCTGGCTGCGGTTGCCTTTCGCCAGCATG -ATCATACTTCCGCCCTGCGCTTGCAGTTGATCGACATAAGAATCCATCCGTCCGGCGGTCGTTGGGCCAAGAGAA -CCGGAGGCATAACCTTCCGGCGTTTTGGCCGGACCCGCGTAGTAAATCGGATGATCTTTGATGTACTGCGGCAGC -CCTTCACCGTTATCCATCCGCTCTTTCAGTTTGGCGTGAGCAATATCACGACCGACGATAATCGTGCCGTTAAGC -GATAAGCGTGTAGAAACGGGATACTGCGACAACTGTGCGAGGATCTCTTTCATCGGACGGTTAAGGTCAACGCGC -ACCGCTTCGCCTTCTCCCGCTTTGCGCAGCTCTTCCGGGATATATTTGCCTGGATTATGTTCCAGTTTTTCGATC -CAGATCCCCTGACGGTTGATCTTCGCTTTGATATTACGGTCAGCAGAGCAGGAGACGCCCATACCGACCGGGCAG -GATGCGCCGTGACGTGGCAGGCGAATCACGCGGATGTCGTGAGCGAAGTATTTACCACCAAACTGCGCACCCAGA -CCAAGATTTTGCGCTTCGATCAGCAATTCTTTTTCCAGTTCCACATCGCGGAACGCCTGACCGTGCTCATTCCCT -TCCGTTGGCAGTTCATCATAGTATTTCGCGGAAGCCAGTTTCACCGTTTTAAGGTTCGTTTCTGCAGAAGTTCCA -CCAATAACGAACGCAATATGATACGGAGGACAGGCCGCCGTACCCAGCGTGCGCATCTTCTCAACCAGGTAATTT -TTCAGTTTCCCCGGCGTCAGTAACGCTTTGGTTTCCTGATAGAGATACGTCTTGTTTGCCGAACCACCACCTTTG -GCGATACAGAGGAATTTGTATTCGTCGCCATCAACGGCATAAAGATCGATCTGCGCTGGCAGATTGGTGCCGGTA -TTCACTTCTTTATACATATCCAGCGGCGCGTTTTGCGAGTAGCGCAGATTATCTTCGATATAAGTGTTATAGACA -CCGCGCGCCAGCGCCGCTTCATCACCACCACCGGTCCATACACGCTGCCCTTTTTTACCAACAATAATCGCGGTG -CCGGTATCCTGACAGGTTGGCAGAACGCCTTTCGCCGCGATGTCGGAGTTACGCAGGAATTGCAGCGCCACATAT -TTATCATTTTCGCTGGCCTCCGGGTCACGCAGAATGTCGGCCACCTGTTGTTGGTGCGCCGGACGCAGCATGAAC -GACGCATCATGAAACGCCTGGCGCGCCAACAGAGTTAACGCTTCGGGTGCGACTTTCAAAATCTCCTGCCCTTCA -AATTCAGATACGCTAACGTGTTCGCTGGTTAGCAGGTAATACTCAGTATCATCTTTTTTGAGTGGAAAAGGAGCC -TGATAATGAAAGGGTTTGTTTGACATTGTTCTCTCACTTACTGCCTGGTTTGGTTATGCTCTGGGCGGGTGTTCC -GTTGCCCTGTTAAAAGCGAGTAACAATATCCTACACACTTTTTTAACAAAAACTGAGACTAGTACGACTTTTTGC -GGCTCCAGGTTACTTCCCGTAGGATTCTTGCTTTAATAGTGGGATTAATTTCCACATTAAAACAGGGATTGATCA -TGCAAAAACTCATTAACTCAGTGCAAAACTATGCCTGGGGCAGCAAAACGGCGTTGACTGAACTTTATGGTATGG -AAAATCCGTCCAGCCAGCCGATGGCCGAGCTGTGGATGGGCGCACATCCGAAAAGCAGTTCACGAGTGCAGAATG -CCGCCGGAGATATCGTTTCACTGCGTGATGTGATTGAGAGTGATAAATCGACTCTGCTCGGAGAGGCCGTTGCCA -AACGCTTTGGCGAACTGCCTTTCCTGTTCAAAGTATTATGCGCAGCACAGCCACTCTCCATTCAGGTTCATCCAA -ACAAACACAATTCTGAAATCGGTTTTGCCAAAGAAAATGCCGCAGGTATCCCGATGGATGCCGCCGAGCGTAACT -ATAAAGATCCTAACCACAAGCCGGAGCTGGTTTTTGCGCTGACGCCTTTCCTTGCGATGAACGCGTTTCGTGAAT -TTTCCGAGATTGTCTCCCTACTCCAGCCGGTCGCAGGTGCACATCCGGCGATTGCTCACTTTTTACAACAGCCTG -ATGCCGAACGTTTAAGCGAACTGTTCGCCAGCCTGTTGAATATGCAGGGTGAAGAAAAATCCCGCGCGCTGGCGA -TTTTAAAATCGGCCCTCGATAGCCAGCAGGGTGAACCGTGGCAAACGATTCGTTTAATTTCTGAATTTTACCCGG -AAGACAGCGGTCTGTTCTCCCCGCTATTGCTGAATGTGGTGAAATTGAACCCTGGCGAAGCGATGTTCCTGTTCG -CTGAAACACCGCACGCTTACCTGCAAGGCGTGGCGCTGGAAGTGATGGCAAACTCCGATAACGTGCTGCGTGCGG -GTCTGACGCCTAAATACATTGATATTCCGGAACTGGTTGCCAATGTGAAATTCGAAGCCAAACCGGCTAACCAGT -TGTTGACCCAGCCGGTGAAACAAGGTGCAGAACTGGACTTCCCGATTCCAGTGGATGATTTTGCCTTCTCGCTGC -ATGACCTTAGTGATAAAGAAACCACCATTAGCCAGCAGAGTGCCGCCATTTTGTTCTGCGTCGAAGGCGATGCAA -CGTTGTGGAAAGGTTCTCAGCAGTTACAGCTTAAACCGGGTGAATCAGCGTTTATTGCCGCCAACGAATCACCGG -TGACTGTCAAAGGCCACGGCCGTTTAGCGCGTGTTTACAACAAGCTGTAAGAGCTTACTGAAAAAATTAACATCT -CTTGCTAAGCTTATTAAAGGCTTATAACACCTTCAGGCGGCCAGTCCGCCTGATTTCATTTTATGGATAATCATT -ATGAATAAATCGCTGGTAGCGGTAGGCGTCATTGTTGCGCTAGGCGTAGTCTGGACAGGCGGCGCATGGTATACA -GGCAAGAAGATTGAAACCCATCTCGAAGACATGGTCGCGCAGGCGAACGCGCAACTCAAACTGACAGCTCCTGAA -TCCAACCTGGAAGTGAGTTATCAAAACTATCATCGCGGCGTATTCAGCAGCCAGTTGCAACTGTTGGTGAAACCC -ATTGCCGGGAAAGAAAATCCGTGGATTAAAAGCGGTCAGAGCGTCATCTTCAACGAATCGGTTGATCATGGTCCC -TTCCCGCTTGCCCAGCTTAAAAAACTGAACCTGATCCCGTCGATGGCATCAATTCAAACCACGCTGGTTAATAAC -GAAGTAAGCAAACCACTGTTTGATATGGCAAAAGGTGAAACGCCTTTTGAGATTAACTCGCGCATTGGTTACAGC -GGTGATTCCAGTTCCGATATTTCGCTCAAGCCACTGAATTACGAGCAAAAGGATGAAAAAGTCGCCTTTAGCGGC -GGCGAGTTCCAGTTAAATGCTGACAGAGACGGCAAAGCCATCTCCCTTTCCGGGGAGGCGCAAAGTGGTCGGATA -GACGCAGTTAACGAATACAACCAGAAAGTGCAGTTGACCTTTAATAATCTGAAAACCGACGGTTCCAGCACGCTG -GCAAGTTTTGGTGAGCGTGTAGGAAATCAAAAACTGTCACTGGAAAAAATGACCATTTCAGTGGAAGGCAAAGAA -CTGGCACTGCTGGAAGGCATGGAGATCAGCGGTAAATCGGATCTGGTCAATGACGGTAAAACGATCAATAGCCAA -CTGGATTACTCGCTAAACAGCCTGAAGGTACAGAATCAGGATCTGGGCAGCGGCAAGCTGACTTTAAAAGTCGGC -CAGATTGATGGTGAAGCCTGGCATCAGTTTAGCCAGCAATATAACGCGCAAACTCAGGCGCTGCTGGCACAGCCA -GAAATTGCCAACAACCCCGAACTTTATCAGGAGAAAGTGACGGAAGCCTTCTTTAGCGCCCTGCCGCTGATGCTG -AAAGGCGATCCGGTGATTACTATCGCGCCGCTAAGCTGGAAAAACAGTCAGGGTGAAAGTGCCCTGAATCTGTCG -CTGTTCCTGAAAGATCCGGCAACGACTAAAGAAGCGCCGCAAACGCTGGCGCAGGAAGTAGATCGTTCGGTTAAA -TCTCTGGATGCGAAACTGACCATTCCGGTGGATATGGCAACTGAGTTTATGACTCAGGTAGCGAAGCTGGAAGGT -TATCAGGAAGATCAAGCGAAAAAACTGGCGAAACAGCAAGTTGAAGGTGCATCAGCAATGGGGCAGATGTTCCGT -CTGACCACCTTGCAGGACAATACCATCACCACCAGCCTGCAATATGCTAACGGTCAGATAACGTTAAATGGGCAG -AAAATGTCGTTAGAAGATTTTGTTGGCATGTTTGCGATGCCAGCTCTTAACGTTCCGGCTGTACCGGCAATTCCG -CAGCAGTAATTCACGGCCAAAACGCCGGAGAATTTTCACTCCGGCGTTTTCATCTGAAAACAAACCAGAGATTGC -CTGATGCGCTACGCTTATCAGGCCTACCTTTTCCTGCAACACTTTGAATTTATGAGTTTTTGTAGGCTGGATAAG -GCGTTTACGCCGCATCCGGCATAAAAAACGCGCACTTTGTCAACAATCTGAAACGCCGGAGATTTTTCTCTCCGG -CGTTATTTTTTACTTCAGCATAAAGTCATACTGAATACTCATTTTCACATCCCAGTAATTCAGGCGATCGCCCAG -CGTACTGCCATCGCGCTTTTCCCGCCCTTTATCGGCAGCAAGAAAGAAATTCATCCCTTGTAACGGCCCTTCGCT -GACCCGATAGTTCATACCACCTAAGATACCCGTGCCTTCAATCCGCACATCTCGTTTACTGGATTCATAGCCGCG -AGTCACAATCGGTGCAAATGTCAGCGTAAATTGCGGCGTTAAACGATAGTTGACGCCCAATTGCCAGGACTGCAT -TCCTTCACGGTTACGATCAAGACTTAATGAAAAGGGATAGCCAATGTCGGTATCCACCACGGCACCATTCATTGC -ATGGCGCAAATAACCACCACTGCCAAATACACTTCCCCACGGCGCATTCCAGGTCAATTGTCCACTAACCAACGC -CGTTTCATTGGGCTGGCTGGTATTACGACTTAAACCTTCGAGCTGCGCGTAAAAGCCGAGCAACTCCCCTTTCAA -CGTATAATTCGGGTCGAGCGGTATGCTTTTCTCGAGAATACTTTGTATCTGATTGGAAACATCTTTCTGTACCGA -TGCCCCCAGAGAATAGCGACTGGTATCATCATGCCAACTGGCGGCTAAAAAAGAACGTGCGCGATGTTTATCGTA -TTTTCCCGTCTGGCTGTTATACACCCCTTCATCACGAATACCGGTTGTTGAATCAGTCCATAAAAATACTCGTGA -ACGCCACATTCCCCACAGATCAATATTTGGTGTTAAAGCCCAATAACCTAATGCTCCTTCAGAAACTGTCGGTAA -TGTACGTTGCGAACTGCCAGCCATTAACGGAATACGATAAGGTAAGCTACCATAACTATAATCCGTCCCGAAGCG -ACCTAATTTAAGCAGGCTATTTTCACTGGGTTTTATTTTTACTGCCCCCAGGGCAAAGCCAAAACTTTTATCACC -ATCAAGATACCACCGGGTACTCATATCAGCACGAGCACCTAATTTATAAACATAATACGCCCCGCCTTCAACGCC -AATAATATTGGAATAATAACCACTATTGAAATCGAGCAATCCTCCCTGTACCCATGCGTAAATATCTCTTCCCGC -GCCAGCACTGGGCTTATCCGCCCTGCGCAATTCGTTTTTCAGTCTGATGCGTAGTCCCGCTTCATCGTCAGCCAG -TTGCGCCGCATAAGCAGAGGTAAGGCCAGAGGCAGCCGTCAGGCAAATAACGGCCATGGCCACTATTTTTCTCAT -AGTTGCACCTTTGATGTTCTGATTATTTTTATTGAATATTAATTAGTGATATCGCTGATTAATTGCTGCTGCACT -TTTTTACGATTATCAATTTCAACCACGATTTCTTTGAATTTTTTATCCGTGAGCGGATAAAACCAGATAATAACG -AATGCCAGTAGCATAAATCCGCAAGGTACTAAGGCAATTGATGTGCGGATGCCCATAATAACTTCCGGCGTTTGC -ACCTGATTGGCGATATATCCGCTTAACCCCAAAATAAAGGCAGGAATTGAACCTCCGATTGCCTGACCGCATTTA -CGGGTAAATGAGAATAGTGAATAGGTGAGCCCTTCAATTCGCACGCCGGTCAGGTATTCACCGTATTCTACGGTA -TCAGCTTCCAGCGCCCACATCACGGTCATGGTAACGCCCTGACCAATTGAAGCGATGGCCAACGCAACCAACGCC -ACCGGCAGTGACCAGACGGAAACCCAGAAGAACAGCAGATAACCGCAGGTTCCCAGCAAAGCGCCAATCAGGAAG -GTATTCTTTTTACCGATCCTCGCGACCATCCCCGGCACCAGCGGTGCCGATGCCACAGTACCAACCAGGTTTTGC -ACCAGTACCAGCACAGTGAACAGCCCGGTATCATTTAACACATAGCGCACGTAGAACAACGACGAGGCGCTGACC -GCAAAGGTCGAAATCAGCACACACAGCGCACCGATGCACAACATAAACAGCGGGCGATTCCGTTTCAGGGTTTGC -AGACTGATATTCAATGACGGCTGCGCAACGATACGTACCACATTCTCACGCGTCGATTTGAAGCAGATGAAGTAA -AGCACCATTCCGGCAATCGCCAGCACAATTGTCCAGAAATGGTATACCGACACCATCTCTTCCGGGCTGGAGTTC -TTAATGCTCGGTCCTATCAGAAATGCCAGGCAGACAAAGGTCAATGAAGCGGCAATCCCACGAGCCGCGCCCAGA -CGGGCGCGGGATTGTGGTTGTTGGGTCATCGCGGTAGCAAGTGAACCATAAGGAATATTCACCAGGCTGTAGCAA -AGCCCGAGGCCCATGTAGGTCAAATATGCATACACCACTTTGCTACCATGGCTCCAGTCGGTCAGCACCCAGAAT -ACCAGCACGCTGAAGATCATTAACGGCGCAGTACCGAAGAGTAAAAACGGGCGGAATTTTCCCCAGCGGGTATTC -ACACTGTCCACCACTCGTCCGGCAAAGACGTCGGCGAAGGCATCGAATACCCGCACCAGTAACAGCATGGTGCCC -GCCGCAGCGGCACCGACGCCAGCGACGTCGGTGTAGTAACTCAACAGGAAGAGCGCCCCCATTGCGAAGGCGAAG -TTATTGGCGACGTCACCGAGGCTGTAGCCGACGATGGTGCGCCAGGAGAGTTGTTGATTCATTGTTTGCCTCCCT -GCTGCGGTTTTTCACCGAAGTTCATGCCAGTCCAGCGTTTTTGCAGCAGAAAAGCCGCCGACTTCGGTTTGCGGT -CGCGAGTGAAGATCCCTTTCTTGTTACCGCCAACGCGCAATATGCCTTGCGAGGTCGCAAAATCGGCGAAATTCC -ATACCTGTTCACCGACGACGGCGCTGACGCGATCAAAGACGCGGTGATACATATCCAGCCATGCACACTGATACT -CTTCACTCCACATGTCGGTGTACATTGAGTGCAGCCCGGCTAACGTATCCACGCCGTATTCGGTGATGATAATCG -GCTGATGCAGTTTCTCCTGCCAGGCCAGAAGTTCTTTTTCCAGTACCTTCTCTGCCGTTTCCAAATCGCCGCTTT -GGACATACCATCCGTAATAACGGTTCAGGCACAGCACATCAAAGAGATCGCTGATGGTATCGGTGTGAGCGTCGC -AGAACATTACATTGACGCAGGTGATCGGACGCGTCGGGTCGAGTTTACGCGTTGCTTCCGCCAGTGGCGCGAAAT -ATTCCCGTGCACCTTGCGGACGGGTATCCGGTTCGTTGGCAATACTCCACATCACCACGCTTGGGTGGTTTTTGT -CACGCGCTATCAGCTCTTTAATCGCCTGTAAGTGCGCTTGCTGAGTTTCCCCGTTGACTGCCTCTTCGCTGTACA -GTTCTTTCGGCTTGTTGCCCGCTTCGAAACCAATGCCTAAAGAGAGGTTAAAGCCGACAGCAGCAGTTTCATCAA -TCACCACGATGCCATGTTCATCTGCCCAGTCGAGCATCTCTTCAGCGTAAGGGTAATGCGAGGTACGGTAGGAGT -TGGCCCCAATCCAGTCCATTAATGCGTGGTCGTGCACCATCAGCACGTTATCGAATCCTTTGCCACGCAAGTCCG -CATCTTCATGACGACCAAAGCCAGTAAAGTAGAACGGTTTGTGGTTAATCAGGAACTGTTCGCCCTTCACTGCCA -CTGACCGGATGCCGACGCGAAGCGGGTAGATATCACACTCTGTCTGGCTTTTGGCTGTGACGCACAGTTCATAGA -GATAACCTTCACCCGGTTGCCAGAGGTGCGGATTCACCACTTGCAAAGTCCCGCTAGTGCCTTGTCCAGTTGCAA -CCACCTGTTGATCCGCATCACGCAGTTCAACGCTGACATCACCATTGGCCACCACCTGCCAGTCAACAGACGCGT -GGTTACAGTCTTGCGCGACATGCGTCACCACGGTGATATCGTCCACCCAGGTGTTCGGCGTGGTGTAGAGCATTA -CGCTGCGATGGATCCCGGCATAGTTAAAGAAATCATGGAAGTAAGACTGCTTTTTCTTGCCGTTTTCGTCGGTAA -TCACCATTCCCGGCGGGATAGTCTGCCAGTTCAGTTCGTTGTTCACACAAACGGTGATACGTACACTTTTCCCGG -CAATAACATACGGCGTGACATCGGCTTCAAATGGCGTATAGCCGCCCTGATGCTCCATCACTTCCTGATTATTGA -CCCACACTTTGCCGTAATGAGTGACCGCATCGAAACGCAGCACGATACGCTGGCCTGCCCAACCTTTCGGTATAA -AGACTTCGCGCTGATACCAGACGTTGCCCGCATAATTACGAATATCTGCATCGGCGAACTGATCGTTAAAACTGC -CTGGCACAGCAATTGCCCGGCTTTCTTGTAACGCGCTTTCCCACCAACGCTGATCAATTCCACAGTTTTCGCGAT -CCAGACTGAATGCCCACAGGCCGTCGAGTTTTTTGATTTCACGGGTTGGGGTTTCTACAGGACGTAACATAAGGG -ACTCCTCATTAAGATAATAATACTGGTCAACCTTTAATCTGATTAGTTAACCAATTCTGTGTTGCACACAGTTAT -CTGTGAGAAACCCATGGAAGAGAAATGGAAATAAAAAGAACTGACACCGCGATCAAAAAACCAAAAACTGCAATA -CCCACAGCGTGATATAGATCGCATTAATCTTTAAAACAGCGTTGACAGAAGCCATAAAATAAGCAACCGAACGTT -CGTTCGAGCGTATTGGGAACGATAAACTCTCATGACATATGGCTACAGTGAATATTTTGGGGGGAATTCTCCGAA -GCCGGGAAGGATAATTTTTGCACAGAGAAATTACGATATGAAACGCGGGCACAGTTATCACCAGCCCGCCGAAAA -AGAGAGAGAATCAGGATGCGGTTAAGATACCGCCAATCATCGCGCGTAATCCCTGAGCAAACGACGCTTCACGCG -CCAGGTCTTCCGCTTCGATATCGGCCAGTACACCGTAGGTCAGATCCAGCAGTAAACGTGAAGTCATTGCCGTGT -TGATGTCTGGGCTTATCTCGCCTTTTTGCTGGGCATCACGCATCCGCTGGGCAACAAATTCCGTGATCGTCATAT -GCTTATTTTTAAGCATGGCGGCGACCTGTGGGTTACGCATCCCTTCCGCCATAATTTCAACCACCAGCGCCCGTT -GTCCAAAGGCTTCATGGGTGAGAGAGACAATGGACTCGACCATATAGTCAACGAAATGAATCCCTTCAATCGGTT -CCCGGAAACGGGCCAGCGCCCTCTCCTGGTCCTGTAAGATAATCGCCTGAATCAAGGCTTCTTTGGAGATGAAAT -GGTGATAGAGCGTCCCGGGACTAATGGCGCAAGATTTACAGATGGCTTTCATCGAGGCACTGTGAAATCCATTTT -CTGAAAAAATCTCTCTGGCAGCATTGAGGATCCGGGTCCGTGTCGGTTGTGCTTCAGTCTGCATGTTATCCATCA -TTAAACCATTATAGTTAGCGTGAATAACTAGTTTACCGCGTTGTCAGGTGAGCGCCTATCATTGCTGTTGAATAG -TGCGAAGGCACACTCTATTCGTATACTTTTCACTCTGAAATTGGTTAACCAATAGCCGTGATTTGGCTGCCAGTT -ATTTAGCAGAGACGTTGATGAGTTTATCCCGGTAAACAACACGCACGGTTGTTTACCGGTCCGTTAGTGTATTAA -TTGAGCTCCTGTACCCCACCACCGGAGACGGTGAGAATTTGTCCGCTTACCCAGCTCGCAGCAGGCGAGCAAAGG -AACAGCGCTGCGTTAGCAATATCTTGCGGTTGGCCCAGACGTCTGATCGGCGTGTGCTGTAACATTTTTTGTTCA -ATTTCTGGTGTAATAACGGATTTCAGGGCATCGGTTAATATTGCCCCCGGCGCAATGCCATTTACCCGAATATTT -TTTTCACCCAGGTCAAACGCCATATTTCTGACCAGATGACTGGCCGCAGCTTTAGATGATGCATAGGAAGTCATG -TTTATATTTTTATTTTCTGCCGCCATAGAAGTGATGGTCAGAATAACGCCACCGCCATTTTTTTCCATTTCTGGC -GCAACAAGTTGTGACAGATGGAAAAAAGAAAACACATTCAGTTCATAAGCACGGCGAAAATCCGCCATTGGCATA -TCAAACGGTTTAGGTCCACCGCCACCGGCGTTGTTAACCAGAATATCAACTTTACCCAGCTTACTGATAGCAAAG -TCTGCCAGTGCAGAGAGTTCCTGTTCGGAAGTAATATCACAACGGCAGGCAAATGCCTGACCACCCAGTTGTTGA -ATTTCGTCTACAACATGGTTAGCTGCGTCGGCGTTAATATCACTGACCACCACAGATGCGCCAGCTGTCGCGAAT -GTAATGGCGATTTCTTTACCAATACCTGCACCCGCACCTGTGATGATGGCGCATTTTCCGTCGAGTCTCAGGTTG -TCAGAATTAAACACATAAACCTCCTGTGAACTTCAGTAAAAATAAAAGGCACCGCCTGTGTGCCACATTTTTTAT -CATTAACCTTGAGGAAAGGACACTACCAGGTATAGCAGATAAAGAGAGGATTATTTCGCTGCAATGAGCCGGGCG -GGAATAATAAGATTGCGTGAATGCGTCTCTTCATGGGTGATTTTTTGCATCATGCGATCCGCAAGTGTGATACCA -AGTTCCCGCGCTGGCGTGCTGGCCCAGGTAACAGGTATATCATCAAGTGTGGTTGGTGTCGCATCGGTAAATGCC -GCCAGCGAAACCTGTTGCTCAAAGTAACGATCGACTCCGCTTTCCCCGCTTTGCCGCCCTGCTTTGAGCAAACCA -AACCATGCCCCCATCGCAATAGTTTCGTTATAGCAAACCACGGCACTGATGGTCGGGTTATGACGTAAAAGCGCC -GTGATAGCTTCCGCGGCTTGCTTCTGGCTGGAAGTGCACTCCAACACCCAATCGCTATGAAACGGCAGGCCAAAT -TTTAGTAGAGTTGCACAATAGCCCCCAACCCGTTCTGCACGGGTTAATGAGGAACTTTGCCCTCCCAGCCAGGCG -ATCCGCTGATGCCCATTGCGAATGAGATGCTCCGTCAACAACTGTGCAGCCTGCATGTTGTCCGGGCGAACCGTA -TCAACATCATCAAGATAACTGGCACGGGAAGCGAAAATCACCGGGATAGCTTTTTCTTCTGCCATCCGTCGCAGG -TCATCGCTACTTCCTGCAGCTCCGGCAATTACCACACCATCGACACCCTGATTCAGTAACAGTGAAAACCGCTGT -GCCAGCTGCTCACCGTCTTTACCGCCGTGAAGCAAAAAAACCATCCGTCCCTGCGCTTCCAGAGCTTCCGTCAAT -CCGGCCGTCAATTCGGCGTAAAACGGCGCAGATAAATCACGGACGATCAAACCAATGACGCCGCTTTGCCCGCCG -CGCAGCGCCGACGCCTGGCGATTGCGCACAAATCCCAGCTCTTCAATGGCGGCGTTAACGCGTTCTCCTGTGGCG -GTAGAGATTCGCCCTTTGCCACTAAGCACCAGCGAAACGGTACTTACCGACACGCCCGCAGCCAGCGCAACATCA -TGAATGGTTATTTTTTTGGCGGTAGCCATGCAGATGACCTACTCCCTGATTATGTGACAGATAAAACGTTTTACC -TTTTATTTATCTTATACCCGCTATTATCGTTGCGTAATGTGATTTATGCCTCACTAAAATTTGATAAAACGTTTT -ATCTTCTCGCGCAATTTACTGAATCCAGATTGTTCTCTACGAGGAGTCGTTTTATGACGGCGAAAACAGCACCGA -AAGTCACGCTGTGGGAGTTCTTCCAGCAGTTAGGCAAAACCTTCATGTTACCCGTGGCATTATTGTCGTTCTGCG -GCATTATGCTCGGCATTGGTAGTTCTCTTAGCAGCCATGATGTCATAACCCTGATCCCGGTCCTGGGCAACCCCG -TGTTGCAGGCTATCTTTACCTGGATGAGTAAGATTGGCTCGTTTGCTTTTAGTTTCCTGCCTGTCATGTTCTGTA -TCGCCATCCCGCTGGGCCTGGCACGCGAAAATAAAGGCGTAGCGGCATTCGCTGGCTTCATCGGTTATGCGGTAA -TGAACCTCGCGGTAAACTTCTGGTTGACCAATAAAGGCATTCTGCCAACCACGGATGCCGCGGTTCTGAAAGCCA -ATAACATCCAGAGCATTCTTGGGATCCAGTCGATCGATACCGGGATCCTCGGTGCGGTGATCGCCGGTATTATCG -TCTGGATGCTGCATGAGCGTTTCCATAATATCCGCCTGCCGGATGCGCTGGCATTCTTCGGCGGTACGCGCTTCG -TACCAATTATCTCCTCGCTGGTGATGGGCCTTGTCGGCCTGGTGATTCCATTAGTCTGGCCGATTTTCGCCATGG -GTATTAGCGGCTTGGGCCATATGATAAACAGCGCGGGTGATTTCGGACCGATGCTGTTTGGTACCGGTGAACGTC -TGCTGTTGCCGTTTGGTCTGCATCACATTCTGGTGGCATTAATTCGCTTTACCGACGCAGGCGGCACGCAGGAAG -TCTGCGGTCAAACCGTCAGCGGCGCACTGACCATCTTCCAGGCGCAATTGAGTTGCCCGACCACTCACGGTTTTT -CTGAAAGCGCCACGCGTTTCCTTTCGCAAGGTAAAATGCCTGCGTTTCTCGGCGGTCTGCCAGGTGCAGCGTTAG -CTATGTATCACTGCGCGCGCCCGGAAAATCGCCATAAAATTAAAGGTCTGCTGATTTCTGGCCTGATCGCCTGCG -TCGTTGGCGGCACTACCGAACCGCTGGAATTCCTGTTCCTGTTCGTAGCGCCAGTTCTGTATGTCATCCACGCGC -TGTTAACCGGCCTCGGCTTCACCGTCATGTCTGTGCTCGGCGTCACCATCGGTAATACCGACGGCAATATCATCG -ACTTCGTGGTGTTCGGTATTTTGCATGGTCTGTCAACCAAGTGGTACATGGTGCCAGTGGTGGCGGCAATCTGGT -TTGTCGTTTACTACGTCATCTTCCGTTTCGCTATCACCCGCTTCAATCTGAAAACCCCGGGGCGCGATAGCGAAG -TTGCCAGCTCAATCGAAAAAGCCGTTGCCGGTGCGCCGGGTAAATCAGGTTACAACGTTCCTGCAATCCTCGAAG -CATTAGGCGGTGCCGACAATATTGTCAGCCTCGATAACTGCATTACCCGTCTGCGTTTGTCTGTGAAAGATATGT -CGCTTGTTAATGTGCAGGCACTGAAGGACAATCGGGCAATTGGCGTAGTACAACTTAATCAACATAACCTGCAGG -TTGTTATCGGGCCACAAGTTCAGTCAGTAAAAGATGAAATGGCCGGTCTGATGCATACTGTCCAGGCATAAGGAT -AAGATATGTTCGATTTTTCAAAGGTCGTGGATCGTCATGGCACATGGTGTACACAGTGGGATTATGTCGCTGACC -GTTTCGGCACTGCTGACCTGTTACCGTTCACGATTTCAGACATGGATTTTGCCACTGCCCCCTGCATTATCGAGG -CGCTGAATCAGCGCCTGATGCACGGCGTATTTGGCTACAGCCGCTGGAAAAACGATGAGTTTCTCGCGGCTATTG -CCCACTGGTTTTCCACCCAGCATTACACCGCCATCGATTCTCAGACGGTGGTGTATGGCCCTTCTGTCATCTATA -TGGTTTCAGAACTGATTCGTCAGTGGTCTGAAACAGGTGAAGGCGTGGTGATCCACACACCCGCCTATGACGCAT -TTTACAAGGCCATTGAAGGTAACCAGCGCACAGTAATGCCCGTTGCTTTAGAGAAGCAGGCTGATGGTTGGTTTT -GCGATATGGGCAAGTTGGAAGCCGTGTTGGCGAAACCAGAATGTAAAATTATGCTCCTGTGTAGCCCACAGAATC -CTACCGGGAAAGTGTGGACGTGCGATGAGCTGGAGATCATGGCTGACCTGTGCGAGCGTCATGGTGTGCGGGTTA -TTTCCGATGAAATCCATATGGATATGGTTTGGGGCGAGCAGCCGCATATTCCCTGGAGTAATGTGGCTCGCGGAG -ACTGGGCGTTGCTAACGTCGGGCTCGAAAAGTTTCAATATTCCCGCCCTGACCGGTGCTTACGGGATTATAGAAA -ATAGCAGTAGCCGCGATGCCTATTTATCGGCACTGAAAGGCCGTGATGGGCTTTCTTCCCCTTCGGTACTGGCGT -TAACTGCCCATATCGCCGCCTATCAGCAAGGCGCGCCGTGGCTGGATGCCTTACGCATCTATCTGAAAGATAACC -TGACGTATATCGCAGATAAAATGAACGCCGCGTTTCCTGAACTCAACTGGCAGATCCCACAATCCACTTATCTGG -CATGGCTTGATTTACGTCCGTTGAATATTGACGACAACGCGTTGCAAAAAGCACTTATCGAACAAGAAAAAGTCG -CGATCATGCCGGGGTATACCTACGGTGAAGAAGGTCGTGGTTTTGTCCGTCTCAATGCCGGCTGCCCACGTTCGA -AACTGGAAAAAGGTGTGGCTGGATTAATTAACGCCATCCGCGCTGTTCGTTAACCCCAATTGCGCAACGTAAAAA -ATCGTTGCGCAATCGTGGATTTTTACCCTGCTTTGTTTTTATAATGGTGCGCACTTTTATATCCAGAAAAAGAGT -GCGACCATGATTGATACCACCCTGCCATTAACTGATATCCATCGCCACCTTGATGGCAACATTCGTCCCCAGACC -ATTCTTGAACTTGGCCGCCAGTATAATATCTCGCTTCCTGCACAATCCCTGGAAACACTGATTCCCCACGTTCAG -GTCATTGCCAACGAACCCGATCTGGTGAGCTTTCTGACCAAACTTGACTGGGGCGTTAAAGTTCTCGCCTCTCTT -GATGCCTGTCGCCGCGTGGCATTTGAAAACATTGAAGATGCAGCCCGTCACGGCCTGCACTATGTCGAGCTGCGT -TTTTCACCAGGCTACATGGCAATGGCACATCAGCTGCCTGTAGCGGGTGTTGTCGAAGCGGTGATCGATGGCGTA -CGTGAAGGTTGCCGCACCTTTGGTGTGCAGGCGAAGCTTATCGGCATTATGAGCCGGACCTTCGGCGAAGCCGCC -TGTCAGCAAGAGCTGGAGGCCTTTTTAGCCCACCGTGACCAGATTACCGCACTTGATTTAGCCGGTGATGAACTT -GGTTTCCCGGGAAGTCTGTTCCTTTCTCACTTCAACCGCGCGCGTGATGCGGGCTGGCATATTACCGTCCATGCA -GGCGAAGCTGCCGGGCCGGAAAGCATCTGGCAGGCGATTCGTGAACTGGGTGCGGAGCGTATTGGACATGGCGTA -AAAGCCATTGAAGATCGGGCGCTGATGGATTTTCTCGCCGAGCAACAAATTGGTATTGAATCCTGTCTGACCTCC -AATATTCAGACCAGCACCGTAGCAGAGCTGGCTGCACATCCGCTGAAAACGTTCCTTGAGCATGGCATTCGTGCC -AGCATTAACACTGACGATCCCGGCGTACAGGGAGTGGATATCATTCACGAATATACCGTTGCCGCGCCAGCTGCT -GGGTTATCCCGCGAGCAAATCCGCCAGGCACAGATTAATGGTCTGGAAATGGCTTTCCTCAGCGCTGAGGAAAAA -CGCGCACTGCGAGAAAAAGTCGCCGCGAAGTAACAAAATGGATGGTGCAAATGCACCATCCATTTTTCATGCAAG -GCACAAAGTCGCGCGATGTTTGGCGGATTCGATGCCCAGCTCAATCAACTCCATTACCTGGATTGCCTGGCTTGC -CGGAACCGGATTTTCACCATCGCCATTTAACGCATCACGAATAGCCGCATAGTAAGCCGGATAATTCCCAGGCAC -CGTCAACAGCGTTTCTTCGACACGTTCCTCACCTTCCACGCGGGTAAGTACGCCATCACGCATATCGTAGCCCCA -GTCTTCCTGCGGTAGACGCTCGCCATTTTTCAGACGTTCTTCCTGTGGATCGAGGCCATATTTCACATAACTGCC -TCGGGATCCATGCACGATATACCGTGCTGACTCAGCGGCTGCCAGCATGGTACCGTGTAAAATGACTCGCCGCTG -TGGATAGGACAAGATGGCGTGGAAATAATCGGTCGACTGCGCTCCGGGCCGTAACTGTGCCAAATCTACCGTCAT -GCTGACCGGTAAACCAAAAAGCGTAATGGCCTGATCAAGAAGATGTGGTGCTAAATCGTACCAGATACCGCTGCC -TGGGCCGCCCTGTTCACGCCAACGATCGCGCACCTGCGGACGGAAGCGGTCAAAATGAGACTCAAAGTAAGCAAC -TTCACCCAGCACGCCTTCCGCGAGTAAACCTTTTAGCGTCAAGAAATCGCTATCCCAGCGACGGTTATGGAATAC -AGACAGCACACGCCCCAGGCTTTTTGCCAGCGCATCCAGCTCTCGCGCTTGTGACAGTGTCACGGTAAAGGGTTT -ATCAACGACCACATGTTTACCCGCCTCAAGCGCCGCTTTGGCTAACGGGAAATGGGTATCGTTGGGTGTAGGAAT -GACAATCAGGTCTATGTTGGGATCGTTAAACAGATGCTTCGGCTCAGAGACAACCGTAACCGTTGGCCAGTCGGC -TTTTACTTTTGTTTCATCACTGCTGGAGATTACCGCCAGTTCCTGCCCGGGCGTGCCCGCAATCAGGGGCGCATG -GAAGGTTTTGCTCGCATAACCATACCCAATCAACCCAACACGGATGTTGTCGCTCATGTCATTGCCTCTCATTGA -AGTATGATGGCTATTTGACACTATCCTTTACCCACGCTCAACAGTTTAATAACCTGCCAGCAATAAGGGATGTTG -TTTAACTTAAGTCAAAAAAATAGCGAATTTTCCAACGACAAAAGCTAAATATCGCAAAAACCTCAGTAAAAATCT -TGCTGGAGCTATTATTGCTAAGTAACATTTACCCCCTGAAGTTAATGGATCAATCAAGAGAGATGTGGGCTGTAA -TGAATCGTCTTATTGAATTAACAGGTTGGATCGTTCTTGTCGTTTCAGTCATTCTTCTTGGCGTGGCGAGTCACA -TTGACAACTATCAGCCACCTGAACAGAGTGCTTCGGTACAACACAAGTAAGCTCTGCACTTGTGGAGCGACATGC -TGCCCGTCCGGGTGCATGTTTTCACTTGTCGGATATTAAACCAGGAATTTATTATCTTGTTCGATGTTGTTGGTG -ATTGTCAGGGATAGTAAAGCGCGTTACTCTTTTCAGAGCAGTTTTTCATCCCTGAATATTTGCCATCAGCGCATT -CTTATTATTGTAATAACACAAGCGTTCACTTTTGGTGAAATTTTATCATCACTAATAATACCTACCCCTTTGGTA -TTAATTATTTTATGGACCTTTTATGACTGTTCAGGACTACTTATTAAAATTTCGCAAAATCAGTTCACTCGAAAG -TCTGGAAAAACTCTACGACCATCTTAATTACACCCTGACGGACGATCAGGAACTGATCAATATGTATCGTGCTGC -CGATCACCGTCGCGCAGAGCTGGTTTCTGGCGGGCGTTTGTTTGACCTCGGCCAGGTACCGAAGTCCGTCTGGCA -CTATGTCCAATAAAGAAAGTAGCGATCGGTTATAAAAGCCTTATAATAACGCCCCTAAAATTAGATTTGCCTGTT -TGCGTCGCTATTCTGGAGAACCTATGACCACCACAACGCCACAACGTATTGGAGGCTGGTTGCTTGGCCCGTTGG -CCTGGCTTTTAGTCGCTCTGTTGAGTACGACGCTGGCGTTGTTGCTGTATACCGCTGCGTTATCTTCTCCGCAAA -CATTTCAAACGCTCGGCGGACAAGCACTGACGACACAAATCTTATGGGGCGTTTCTTTTATTACCGCTATCGCCT -TGTGGTATTACACACTGTGGTTGACCATCGCTTTCTTTAAACGTCGGCGTTGTGTTCCTAAACACTATATTATCT -GGCTGCTTATTTCCGTATTGCTGGCAGTAAAAGCATTCGCTTTTTCACCCGTGGAAGATGGCATAGCCGTTCGCC -AGTTGCTGTTTACTTTGTTGGCAACCGCATTGATCGTCCCCTATTTCAAACGCTCGTCGCGGGTAAAAGCGACGT -TTGTGAATCCGTAATAACCTTACAGTTAACCTGTTGTCGCCTGCTCTGGATTAACGGATAATAGGCGGCTTTTTT -ATTTCAGGCCGAAAAATGACTGACTACCTGTTACTGTTTGTCGGAACTGTACTGGTCAATAACTTTGTACTGGTC -AAGTTTCTCGGTCTCTGTCCGTTTATGGGGGTTTCCAAAAAACTGGAAACCGCGATGGGCATGGGGCTGGCAACA -ACGTTTGTGATGACGCTGGCGTCTATTTGCGCCTGGCTTATCGATACGTGGATTTTGATCCCACTTAATCTGATT -TACCTGCGCACCCTGGCATTTATTCTGGTGATTGCTGTGGTCGTGCAGTTCACCGAGATGGTGGTGCGCAAAACC -AGCCCGGTGCTTTACCGTCTGCTGGGGATTTTTTTGCCGCTTATCACCACCAACTGTGCAGTGCTCGGCGTGGCG -TTGCTGAATATCAATCTCGGGCACAATTTCTTGCAGTCGGCGCTGTACGGTTTTTCCGCCGCTGTCGGTTTCTCG -CTGGTGATGGTGCTCTTCGCCGCCATCCGCGAACGCCTTGCTGTGGCTGATGTCCCGGCACCTTTTCGCGGTAAT -GCCATTGCGTTAATTACCGCAGGTCTTATGTCTCTGGCCTTTATGGGCTTTAGTGGTTTGGTGAAGTTGTAATGA -ATGCTATCTGGATTGCCGTTGCCGCCGTGAGCCTGCTGGGCCTGGCGTTTGGCGCCATTCTGGGTTATGCCTCCC -GCCGTTTTGCGGTGGAAGACGATCCGGTCGTTGAGAAAATTGACGAAATCTTACCGCAGAGCCAGTGTGGTCAGT -GCGGTTATCCCGGCTGTCGCCCCTACGCGGAAGCCATCAGCTGTAACGGTGAAAAAATCAACCGTTGCGCCCCAG -GTGGCGAAGCTGTGATGCTAAAAATTGCCGAGTTGCTTAATGTCGAGCCGCAGCCGCTGGATGGCGAAGCGCAAG -AGATAACGCCTGCGCGGATGGTGGCGGTTATTGATGAAAATAACTGTATTGGCTGCACTAAATGTATTCAGGCGT -GTCCGGTAGACGCCATCGTTGGCGCTACCCGTGCCATGCATACGGTAATGAGTGATCTCTGTACGGGCTGCAATT -TATGTGTTGATCCGTGCCCGACGCACTGCATCTCGTTGCAACCGGTCGCAGAAACACCTGACTCCTGGAAATGGG -ATCTGAACACCATTCCCGTGCGTATCATTCCCGTGGAACACCATGCTTAAGTTATTCTCTGCATTCAGAAAAAAT -AAAATCTGGGATTTCAACGGCGGCATCCATCCACCGGAGATGAAAACCCAGTCCAACGGTACACCCCTGCGCCAG -GTACCCCTGGCGCAGCGTTTTGTTATTCCACTGAAACAGCATATTGGCGCTGAAGGTGAGTTGTGCGTTAGCGTC -GGCGATAAAGTATTGCGCGGCCAGCCGCTTACCCGTGGTCGCGGCAAAATGCTGCCTGTTCACGCGCCCACCTCG -GGTACCGTTACGGCTATTGCGCCCCACTCTACGGCTCATCCTTCAGCTTTAGCTGAATTAAGCGTGATTATTGAT -GCCGATGGTGAAGACTGCTGGATCCCGCGCGACGGCTGGGCCGATTATCGCACTCGCAGTCGCGAAGAGTTAATC -GAGCGCATACATCAGTTTGGTGTTGCCGGGCTGGGCGGTGCAGGATTCCCGACAGGCGTTAAATTGCAGGGTGGC -GGAGATAAGATTGAAACGTTGATTATCAACGCGGCTGAGTGCGAGCCGTACATTACCGCCGATGACCGTTTGATG -CAGGATTGCGCGGCTCAGGTCGTAGAGGGTATTCGCATTCTTGCGCATATTCTGCAGCCACGCGAAATTCTTATC -GGCATTGAAGATAACAAACCGCAGGCGATTTCCATGCTGCGCGCGGTGCTGGCGGACTCTAACGATATTTCTCTG -CGGGTGATTCCAACCAAATATCCTTCTGGCGGTGCTAAACAATTAACCTACATTCTGACCGGGAAGCAGGTTCCA -CATGGCGGGCGTTCATCCGATATCGGCGTATTAATGCAAAACGTCGGCACTGCTTATGCAGTGAAACGTGCCGTT -ATTGATGGCGAGCCGATTACCGAGCGTGTTGTAACCCTGACTGGCGAAGCAATCGCTCGCCCGGGCAACGTCTGG -GCACGGCTGGGGACGCCAGTGCGTCATTTATTGAATGATGCCGGATTCTGCCCCTCTGCCGATCAAATGGTGATT -ATGGGTGGCCCGCTAATGGGCTTTACCTTGCCATGGCTGGATGTCCCGGTCGTAAAGATTACCAACTGTCTGTTG -GCTCCCTCTGCCAATGAACTTGGCGAACCACAGGAAGAACAAAGCTGCATCCGGTGTAGCGCCTGTGCTGACGCC -TGCCCTGCGGATCTTTTGCCGCAACAGTTGTACTGGTTCAGCAAAGGTCAGCAACACGATAAAGCTACCACGCAT -AACATTGCTGATTGCATTGAATGTGGGGCTTGCGCGTGGGTTTGCCCGAGCAATATTCCCCTGGTGCAATATTTC -CGTCAGGAAAAAGCTGAAATTGCGGCTATTCGTCAGGAAGAAAAGCGCGCCGCAGAAGCCAAAGCGCGTTTCGAA -GCGCGCCAGGCTCGTCTGGAGCGCGAAAAAGCGGCTCGCCTTGAACGACATAAGAGCGCAGCCGTTCAACCTGCA -GCCAAAGATAAAGATGCGATTGCTGCCGCTCTGGCGCGGGTGAAAGAGAAACAGGCCCAGGCTACACAGCCTATT -GTGATTAAAGCGGGCGAACGCCCGGATAACAGTGCAATTATTGCAGCACGGGAAGCCCGTAAAGCGCAAGCCAGA -GCGAAACAGGCAGAACTGCAGCAAACTAACGACGCAGCAACCGTTGCTGATCCACGTAAAACTGCCGTTGAAGCA -GCTATCGCCCGCGCCAAAGCGCGCAAGCTGGAACAGCAACAGGCTAATGCGGAACCAGAACAACAGGTCGATCCG -CGCAAAGCCGCCGTCGAAGCCGCTATTGCCCGTGCCAAAGCGCGCAAGCTGGAACAGCAACAGGCTAATGCGGAA -CCAGAAGAACAGGTCGATCCGCGCAAAGCCGCCGTCGAAGCCGCTATTGCCCGTGCCAAAGCACGCAAGCTGGAA -CAGCAACAGGCTAATGCCGAGCCAGAACAACAGGTCGATCCGCGCAAAGCCGCCGTCGAAGCCGCTATTGCCCGA -GCCAAAGCGCGCAAACGGGAACAGCAACCGGCTAATGCGGAGCCAGAAGAACAGGTTGATCCGCGCAAAGCTGCC -GTCGAAGCGGCTATTGCACGCGCCAAAGCACGCAAGCTGGAACAGCAACAGGCTAATGCGGTACCAGAAGAACAG -GTTGATCCGCGCAAAGCGGCAGTTGCCGCGGCTATTGCCCGCGCTCAGGCCAAAAAAGCCGCCCAGCAGAAGGTT -GTAAACGAGGACTAAATGGTATTCAGAATAGCTAGCTCCCCTTATACCCATAACCAGCGCCAGACATCGCGCATT -ATGCTGTTGGTGTTGCTCGCAGCCGTGCCAGGAATCGCAGCGCAACTGTGGTTTTTTGGTTGGGGTACTCTCGTT -CAGATCCTGTTGGCATCGGTTAGTGCTCTGTTAGCCGAAGCTCTCGTACTCAAACTACGCAAGCAGTCGGTAGCC -GCAACGTTGAAAGATAACTCAGCATTGCTGACAGGCTTATTGCTGGCGGTAAGTATTCCCCCCCTCGCGCCATGG -TGGATGGTCGTGCTGGGTACGGTGTTTGCGGTGATCATCGCTAAACAGTTGTATGGCGGTCTGGGACAAAACCCG -TTTAATCCGGCAATGATTGGTTATGTGGTCTTACTGATCTCCTTCCCCGTGCAGATGACCAGCTGGTTACCGCCA -CATGAAATTGCGGTCAACATCCCTGGTTTTATCGACGCCATCCAGGTTATTTTTAGCGGTCATACCGCCAGTGGT -GGTGATATGAACACACTACGCTTAGGTATTGATGGCATTAGTCAGGCGACACCGCTGGATACATTTAAAACCTCT -GTCCGTGCCGGTCATTCGGTTGAACAGATTATGCAATATCCGATCTACAGCGGTATTCTGGCGGGCGCTGGTTGG -CAATGGGTAAATCTCGCCTGGCTGGCTGGCGGCGTATGGTTGCTATGGCAGAAAGCGATTCGCTGGCATATTCCC -CTCAGCTTCTTAGTAACGCTGGCGTTATGCGCAATGTTGGGCTGGTTGTTCTCACCAGAAACACTGGCAGCACCG -CAAATTCATCTGCTGTCTGGAGCGACCATGCTCGGCGCATTCTTTATTTTGACTGACCCGGTTACCGCTTCTACG -ACCAATCGTGGTCGTCTTATTTTCGGCGCGCTTGCGGGCTTATTAGTCTGGTTGATCCGCAGTTTCGGCGGCTAT -CCTGACGGCGTGGCTTTTGCCGTCCTGCTGGCGAACATCACGGTTCCTCTGATCGATTACTACACGCGTCCGCGC -GTCTACGGCCATCGCAAAGGGTAAACCATGCTGAAAACTATCCGAAAACACGGCATTACGTTGGCGCTATTTGCA -GCGGGTTCAACAGGGTTAACTGCGGCCATCAACCAGATGACCAAAACGACGATTGCTGAACAGGCCAGTCTGCAA -CAAAAGGCGTTATTTGATCAGGTGCTGCCAGCCGAACGCTATAACAATGCGCTGGCACAGAGTTGCTATCTGGTA -ACTGCGCCAGAGTTAGGTAAAGGTGAGCATCGGGTTTACATCGCCAAACAGGATGACAAACCGGTAGCCGCCGTT -CTGGAAGCAACCGCGCCAGATGGCTATTCCGGTGCGATTCAGCTGCTGGTGGGAGCCGATTTTAACGGCACGGTA -CTTGGCACGCGCGTGACAGAGCACCACGAAACGCCAGGGCTTGGCGATAAAATCGAACTGCGCCTTTCTGACTGG -ATCACCCATTTTGCGGGTAAAAAAATCAGTGGTGCAGATGATGCGCACTGGGCGGTGAAGAAAGATGGTGGTGAT -TTCGACCAGTTCACCGGCGCGACGATTACTCCCCGCGCGGTGGTTAATGCGGTAAAACGCGCCGGATTGTACGCT -CAGACGTTACCGGCACAACTTTCTCAACTTCCTGCCTGTGGAGAATAAAGCGTGAGCGAAATTAAAGACGTTATT -GTTCAGGGGTTGTGGAAAAACAACTCTGCGCTGGTCCAGTTGCTCGGCCTTTGTCCTCTGTTGGCGGTCACGTCC -ACTGCCACTAACGCTCTGGGTTTAGGACTTGCGACTACGCTGGTACTGACGCTGACCAACCTGACCATTTCGACG -CTGCGTCACTGGACGCCAGCCGAGATCCGCATTCCCATTTACGTGATGATCATCGCCTCGGTGGTCAGCGCTGTA -CAGATGCTGATCAACGCCTACGCCTTTGGCCTGTATCAATCATTAGGGATTTTTATTCCGCTGATTGTCACTAAC -TGTATCGTTGTGGGCCGCGCTGAAGCCTTCGCCGCCAAAAAAGGTCCGGCGCTTTCGGCACTGGACGGCTTTTCA -ATTGGTATGGGCGCAACCTGCGCCATGTTCGTGCTGGGTTCACTACGCGAAATTATCGGCAATGGCACATTGTTT -GACGGTGCAGATGCGCTGTTAGGTAGCTGGGCAAAAGTATTACGCGTGGAGATTTTCCACACCGACTCCCCTTTC -CTGCTGGCGATGCTGCCACCAGGTGCATTTATTGGCCTGGGACTGATGCTGGCAGGAAAATACCTGATTGATGAA -AGAATGAAAAAGCGCCGTGCTGAAGCAGCTGCAGAACGTGCATTGCCAAACGGTGAAACAGGGAATGTCTGATGA -ATAAAGCAAAACGCCTGGAGATCCTCACTCGCCTGCGTGAGAACAATCCTCATCCCACCACCGAGCTTAATTTCA -GTTCGCCTTTTGAATTGCTGATTGCCGTACTGCTTTCCGCTCAGGCGACCGATGTCAGTGTTAATAAGGCGACGG -CGAAACTCTACCCGGTGGCGAATACGCCTGCAGCGATGCTTGAACTGGGCGTTGAAGGGGTGAAAACCTATATCA -AAACGATTGGGCTTTATAACAGCAAAGCAGAAAATATCATCAAAACCTGCCGTATCTTGCTGGAGCAGCATAATG -GCGAGGTTCCGGAAGATCGTGCTGCGCTTGAAGCCCTGCCCGGCGTAGGTCGTAAAACAGCCAACGTCGTATTAA -ACACTGCATTCGGCTGGCCGACTATTGCTGTCGACACGCACATTTTCCGCGTTTGTAATCGTACTCAATTTGCGC -CGGGGAAAAACGTCGAACAGGTAGAAGAAAAGCTACTGAAAGTGGTTCCAGCAGAGTTTAAAGTCGACTGCCACC -ATTGGTTGATCCTGCACGGGCGTTATACCTGCATTGCCCGCAAGCCCCGCTGTGGCTCTTGTATTATTGAAGATC -TTTGTGAATACAAAGAGAAAGTTGACATCTGAAGAAAAGGGGTAACACCGATTACCCCATTGATAACCTTTCTTT -ATCCTCTTTTAAAACATCTTTTTAACGTCAATGATGCCATTGCTTAGCGTTATCATCAGGTAATCCGTTTGCGGA -TAACCAAAAATGCAGGTTAATTGTTTTTTTAATAGCGAAATTTTCTATTCATTCGTGATCAAGATCACGATGCTG -TCGCAATGTAAAAACATTGCAAGAATCAGGTTAAAATCATTTAAATTTACACACGCAACAAATATTGACCTACAA -AACATTACACTGGCTATTTTTCAGAAACTGGACTATCTCACTAGTAAAAACGCTAAATAGCAGAACATATCGCCG -TTAAGCCATCACCCCCCTCTCAGTGCAGTGAAAAAATCTGCCGTTACGTTTTTTGAAAAATTTAACGCTGGATAA -CATTTCCCGGAATGGTTGAATTCCCCGCCTCAGTTATATGTAACAGATTATTACAAAGGACTTGTCTGAAAGTGC -AAGATAGTGAACATTACCTGCCGTTTCCCCTCCCACTATAACAATTGCGCGTATGTTTTTTATACATAACGCGAG -AAAGCACCCCCGTTAATATGGGATGTAAAAAAAGAGGTAAAAGTGTCCACTGCAAACCAAAAACCAACTGAAAGC -GTCAGTTTGAACGCTTTCAAACAACCGAAGGCGTTCTATCTCATCTTCTCGATTGAGTTATGGGAACGTTTTGGT -TATTACGGCCTACAAGGAATTATGGCTGTTTACCTGGTTAAACAACTGGGTATGTCTGAAGCGGATTCAATCACC -CTTTTCTCTTCCTTTAGTGCCCTGGTTTATGGTCTGGTCGCTATCGGCGGCTGGTTAGGTGACAAGGTACTGGGT -ACTAAACGCGTAATTATGCTCGGCGCTATTGTGCTGGCGATTGGTTATGCTCTGGTTGCCTGGTCTGGTCACGAC -GCCGGTATCGTTTATATGGGTATGGCGGCTATTGCGGTCGGTAACGGCCTGTTTAAAGCTAACCCGTCTTCTCTG -CTTTCTACATGCTATGAGAAAAACGACCCGCGTCTGGACGGTGCATTCACCATGTACTACATGTCCGTCAACATC -GGCTCTTTCTTCTCTATGATTGCTACGCCGTGGCTGGCCGCGAAATACGGCTGGAGTGTTGCGTTTGCGTTGAGC -GTTGTAGGCCTGCTGATCACTATCGTTAACTTCGCCTTCTGCCAACGCTGGGTTAAACAGTACGGTTCAAAACCA -GACTTCGAGCCTATCAACTACCGTAACCTGCTGCTGACCATTATTGGTGTTGTGGCACTGATCGCTATCGCCACC -TGGCTGCTGCACAATCAGGAAGTTGCGCGTATGGCGCTGGGCGTTGTTGCCTTCGGTATCGTGGTTATCTTCGGT -AAAGAAGCCTTCGCGATGAAAGGTGCTGCGCGTCGTAAAATGATCGTTGCCTTCATCCTGATGCTCGAAGCCATT -ATCTTCTTCGTGCTGTACAGCCAGATGCCAACGTCACTGAACTTCTTTGCGATTCGTAACGTTGAGCACTCCATT -CTGGGTCTGGCCGTAGAACCTGAGCAGTATCAGGCACTGAACCCGTTCTGGATCATCATCGGTAGTCCGATTCTG -GCCGCTATCTATAACAAGATGGGCGATACCCTGCCGATGCCAACCAAGTTTGCAATCGGCATGGTGATGTGTTCT -GGTGCGTTCCTGATTCTGCCGCTGGGTGCGAAATTCGCGTCTGACGCTGGTATCGTGTCTGTAAGCTGGCTGGTC -GCAAGCTATGGCCTGCAGAGCATCGGGGAACTGATGATCTCTGGTCTGGGTCTGGCAATGGTTGCTCAACTCGTT -CCGCAGCGTCTGATGGGCTTCATTATGGGTAGCTGGTTCCTGACCACTGCCGGTGCAAACCTGATTGGTGGTTAT -GTTGCGGGTATGATGGCTGTGCCGGATAACGTTACCGATCCGCTGATGTCACTGGAAGTCTATGGTCGCGTATTC -TTGCAGATTGGTGTCGCTACTGCCGTTATTGCAGTACTGATGCTGCTGACCGCGCCGAAACTGCACCGCATGACG -CAGGATGACGCTGCAGACAAAGCGGCGAAAGCAGCCGTAGCGTAAAATTCAGGGAAACTCTTTTACAAGCCGCTA -ACTTTTCGTTAGCGGCTTTTTTTTTGTTCAGCAACGCACTACCATACTTTAAACCACAGACAAAAGGAGTTACCG -ATGAAATTGTTCTACAAACCGGGTGCCTGCTCTCTCGCTTCCCATATCACCCTGCGTGAGAGCGGAAAGGATTTT -ACCCTCGTCAGTGTGGATTTAATGAAAAAACGTCTCGAAAACGGTGACGATTACTTTGCCGTTAACCCTAAGGGG -CAGGTGCCTGCATTGCTGCTGGATGACGGTACTTTGCTGACGGAAGGCGTAGCGATTATGCAGTATCTTGCCGAC -AGCGTCCCCGACCGCCAGTTGCTGGCACCGGTAAACAGTATTTCCCGCTATAAAACCATCGAATGGCTGAATTAC -ATCGCCACCGAGCTGCATAAAGGTTTCACACCTCTGTTTCGCCCTGATACACCGGAAGAGTACAAACCGACAGTT -CGCGCGCAGCTGGAGAAGAAGCTGCAATATGTGAACGAGGCACTGAAGGATGAGCACTGGATCTGCGGGCAAAGA -TTTACAATTGCTGATGCCTATCTGTTTACGGTTCTGCGCTGGGCATACGCGGTGAAACTGAATCTGGAAGGGTTA -GAGCACATTGCAGCATTTATGCAACGTATGGCTGAACGTCCGGAAGTACAAGACGCGCTGTCAGCGGAAGGCTTA -AAGTAATAGCCATCGGCCCACAGGTCGTTGTGGGCCGAAATGAGATATTTCAGAGCTTTGTTGCGCTGAAGTAAT -GTTCTGGTTTGGCAATACGATCCTGAGCAGCCACCACTTGCAGCTCATATTCCTGCATTGCTTTGGTGGTCACCA -TGATTTCGTAGACTGCAGCGGTCACATGTTCCAGCGCCTCCTGCAGCGTTGCCCCCTGAAGCAGTTTCACCAGCA -GTAAACCGCTCGTCACATCACCAACACCTACCGGCTGGCGCATACCAAAATCCACCAGCGGACGGCTGATATGCC -AGGCTTCATCGGCGGTGACCAGCAGCATTTCAAAACGGTCACGGCTGTAGCCAGCTCGCGCCAGGTGTTTAACCA -ACACAATTTGTGGCCCTTGCGCAATGAGTTCGCGCGCTGCCAGAACCGCTTCTTCGACGTTATTTACCGCATGCT -CACAGAGTATTTCCAGCTCAACCAGATTTGGCGCAATGATATCGCTGGCAGGCAAACCGTGCCGCACATGAAACT -CTGCGACACCCGGTGCAACGATACAGCCTTTTTCCGGATGACCCATTACCGGATCGCAAAAATATTTCGCCTGCG -GATTCGCGGCTTTCACCTGACGGACGATACCGAGGATATGTTCACCCTGCTCCGCCGATCCCAGATAGCCACTTA -ATACGGCATCACAGGTGTGTAATTTATCAATGGCGGCAATGCCTTGCACAATTTCGGTTAAATGGCTGGGCGGCA -TCACGCAGCCAGTCCATTTGCCGTATTGGGTGTGATTAGAAAATTGAACGGTGTTCAGCGGCCAGACGTTCGCGC -CCAGGCGGCGCATCGGAAACTCTGCCGCACTGTTACCCGCATGACCATAAACAACGTGAGACTGGATAGCGAGAA -TATTTTTCATCATGTTCCCTGTATAAAAACCAGGGGGAGTGATTTCTCACTCCCCCTTTCCACTTAATGCATTAT -TTCCAGCAAATCAGACAGTAATTCTTTTTACCGCGACGCAGTAAGGTAAAACGACCAAACAGACGATCTTCTTCT -TTAAAGAAGTATTCAGGATCGGACTGTTTTTCACCGTTAATGGTGATGGCATTGGAGGCGATAGTTTTACGTGCC -TGACCACGGGAAGGTTGCAGTTCAGAATCGACCAGTGCCTGCATCAGGTCTGCGCCCTTTTCCATCTCAACCATC -GGTACGCCGTCCTGCGCCAGCTGTTCGAAGTCCGCTTCACTCAGCGCACTCAAAGAACCGCTGAACAGGCATTCG -GTAATACGTTTTGCCGCCTGTAAACCTTCTTCACCGTGAACCAGACGAGTCACCTGCTCCGCCAGTACATACTGG -GCGCGCGGTGCTTTACCGCTGTTTTTATCTTCTTCTTCCAGGGCGTTGATCTCTTCAATGCTCATAAAGGTGAAG -AACTTCAGGAAGCGGTAAACGTCGGCATCCGCAGTGTTGATCCAGAACTGGTAGAATTTGTACGGGCTGGTTTTC -TTCGGATCCAACCAGACTGCGCCGCCTTCAGTTTTACCAAATTTGGTGCCATCTGCTTTAGTGATCAGCGGAACG -GTCAGGCCAAACACCTGATTCTGATGCAGACGACGGGTCAGGTCGATACCAGAAGTGATGTTACCCCACTGGTCA -GAACCACCAATTTGCAGCACCACACCGTACTGTTTGTTCAGACAGGCGAAGTCATAACCCTGCAACAGGTTGTAG -GAAAACTCAGTGAACGAAATCCCCTGATCTTCACGGTTGAGACGCTGCTTAACCGCTTCTTTGTTGATCATCTGG -TTAACGGAGAAGTGTTTGCCAATATCGCGCAGGAAGGTCAGCACATTCATATTGCCGAACCAGTCATAGTTGTTC -GCCGCGATAGCAGAGTTTTCTCCACAGTCGAAATCGAGGAACGGGGCAACCTGCTTACGGATTTTGTCCACCCAC -TCCTGAACAGTTTCTTCGGTGTTCAGCTTACGCTCGGCAGCTTTGAAGCTCGGGTCGCCAATCAGACCCGTCGCG -CCGCCTACCAGCGCAACCGGCTTGTGGCCCGCCTGCTGGAAGCGTTTCAGGCATAACAATGGAACAAGATGCCCC -AAATGCAAGCTGTCAGCGGTAGGATCGAAGCCGCAATAGAGCGCGATCGGGCCTTGCGCCAGTCGCTCTGCTAAC -GCTTCCTCGTCCGTCACCTGGGCTACCAGCCCCCGCTCTTGCAATTGTTTAATCAAGTTACTGCTTGCCATCAAA -ATCTCCATGTATATAACGACTGCACCTTTGCCGGTACACGACTTTTCGCCAGATGCGAAAGAGACATAGAATAAA -GTGCCAGAATCAGGAGTACCAGCGATTAAAGCAAGATTTTTGCATCTTTTCAGGGTGCAAGACGATCAATCTTCC -ACGCATCATTTTCACGCTGGTACAAAAAGCGGTCATGCAGGCGATGCTCACCACCCTGCCAGAACTCAATCTGTT -CAAGGCTGACGCGAAAACCGCCCCAAAAGCTCGGCAATGGCACTTCGCCCTGTTGAAACTTCTGCTTCAGCTCCA -GGAATTTACTTTCAAGGATACCGCGGGCAGAAATGCGACTGGACTGCTTCGAAACCCATGCACCAATCTGGCTAT -CACGCGGGCGGCTATGAAAATATTTCATCACTTCGAGAGTCGAAAGTCGTTCTGCTTTACCGATCACCATCACCT -GGCGCTCAAGGGTATGCCACGGGAACAGCAGGCTAACGCGCGGATTATTTTCGATTTGATGTGCTTTACGGCTGC -CGAGGTTGGTGTAAAACACCATGCCTTTTTCGTCGTAATGTTTGAGTAAAACGATGCGCTGATAAGGCTGACCAT -GTTCATCCACGGTAGCGACCACCATCGCGGTAGGGTCCGCCAGTTTGGCTTCACAAGCCTGAGAGAGCCAACGTT -CAAAAAGGGTTAATGGATCGGCGGGAAGATCGCGGCGGCGTAACCCGCCTTTGGTGTATTCACGGCGCAGATGCG -CGATTTGCTGCAATTCGTCGTTATCAGACATGGTTTTCTTTACGGATTGTCAGTGGGTGACGCTATTGTGCGCCG -CCCCTGGAAAAATCTCAACGCTGTGGATTTTGTAACTGACAGTTATTCAAGACGATGCGGTCGCGTTTATAGACA -GTCGCTTCATCGCCTTTCGACCAGAAAACATAGATTCCGTCAGTGTAACGCGCGCCAGAGGCTGAAATGCCCTGT -TTGAGATGCAGTAGTTGATTATCGTAAACAAAACTGACCTCCTGGCGCGGATTATTCAGTTTGACCGTCAACGGT -TTTTCATCACACTGGTATTCCAGCGTATCGGTTTGCATGCGCTCAACCAGCTGATTAAAGGCGCTACAGCCGGAG -AGAAGGACCGGCAAAATGATAATTAACAGTTTTTTCATAGTCATATCCCGAAGACTTTCCTGGTCTGGAGGGCAA -TACGCCCTCCCTAACGTTCCAAGTGTAACGGCAGACGCGGTAAGAAAAATTCAGTTAACTCTGATATCACGGGTT -AGCGGGGAAAATAGCCCCCAGTACCGTCTCCTGGCTTGCGCCAGTGACGGAAGGCAGATTTCCTGGTAATCCCGC -CAGCGTCCGCCAGGCAAGCCAGGCGAAAGCCAATGCTTCCATGTCATCGCCACTAATGCCAACGGCATCGGTGGT -GGTGACTTCTGTGCCTGGCAGTAATGCCGCCAGACGCGCCATGAGTAGCGGATTACGACTACCTCCACCACATAC -CATCAATCGTTCGCAGCCACCGCTCAACAAAACTTGTTCAGAAATGGTCACGGCGGTGAGTTCTGCCAGTGTCGC -CTGCACATCTCGGGGATCAACACCCGGAAAATGGCGCAAATGGCGCTCCAGCCAACCATAGTTAAAGTATTCGCG -TCCGGTGCTTTTCGGTGCAGGTTGCGAGAAATACGGGTCGCTGAGCATATTTTGCAGCAGTGGGAGAATAACTTT -ACCCGCCCGTGCCCACTCGGCATCTTTATCGTAAGGTTTACCGGCCTGACGCCAGATCCAGGCATCCATCAGCAT -GTTACCAGGACCGGTATCGTAGCCCCCAACCGGCTGCCCAGGAATGAGCAGTGACAGATTGGCGATGCCGCCAAT -ATTGAGCACCATTCGTCGCTCGGTTGGGTGAGCCAGCAGCGCATGATGGAACGCAGGTACCAGCGGTGCGCCTTG -TCCTCCCAAGGCAATATCGCGACGGCGAAAATCACCGACAACCGTAATTCCGGTGCGTGCCACAATTTGATTGTT -ATCGCCAATCTGTAAAGTGTGTGGTGCCACGCCCGTCGGTTCATGCCAGACGGTTTGACCGTGACAACCGATCGC -AACTATATCTCTTGCCTGCAGATTTTGTTCCTTAAGCAAGGCATTGACCGCATCAGCAAAAAGTTGCCCGAGTTG -AGTATCAAGCTGTCCAAACTGCGAAAGTGTAAGCTGCTGGCCCTGGCAAATATCCAGTACAGCCTGTTTCAGAGA -TACCGGGATCGGCCAACTCAAACTTGCCAGCTGTGCGACCCGGTGTTCATCAATTGTCGCCAACACAACATCAAC -ACCATCAAGGCTGGTGCCTGACATAACGCCAATAAAGCGGCCCGATTTCATAGTTCATCCTTTTTCAATCTGACG -TTTGCGCACCACTCAAACATAAACTTTTCGTGAATACCATGCGGAATGACCGATTTTTACCGTTGGTAGTAAAAC -ATTATCTTCAAATCAATAATCATCATGAATGTTTTGTTTATAATTGGTTGATCCTACTTTCATTATGATTTGCTC -ATATTTGGTAGAACATGTAACCATGGATTCACATATGCCATATACTTTGACCATGAGGGATGCTTGCGTGGCGTT -TCATGGTGAACAGGAGATTTTTCAATGATTAAACGCGTATTGGTTGTTTCAATGGTAGGTCTGTCTCTTGTCGGT -TGTGTTAATAACGACACCCTGTCAGGGGATGTTTATACCGCTTCTGAAGCGAAACAAGTACAGAATGTCAGCTAT -GGCACCATCGTTAACGTACGTCCGGTACAGATTCAGGGCGGTGATGATTCCAACGTTATCGGTGCAATTGGCGGT -GCTGTTCTTGGTGGTTTCCTGGGGAATACTGTTGGTGGCGGAACCGGGCGTTCTCTGGCTACTGCAGCAGGCGCT -GTTGCAGGTGGCGTAGCTGGTCAGGGCGTACAGAGTGCAATGAACAAAACGCAGGGTGTCGAGCTGGAAATTCGT -AAAGACGATGGTAATACCATCATGGTGGTACAGAAACAAGGCAACACTCGTTTCTCTCCGGGCCAACGTGTCGTA -CTGGCCAGCAATGGCAGTCAGGTGACCGTTTCTCCGCGCTAAATAAGTTTGCGTGTGGTCAGGTTACTGACCACA -CGCCCCCTTCATTTCACCCTTTGGCCTGTAACTCAATGATATTATGCTCAAGTTTTGCGATGAGCGTAATCAGTT -GCTCCAGTTCCTCTGCGGAGATGCCATGTAATATTTCCGCGCGGGTTTTGTTAATAACAGCTTCCATTTCGCTGA -TCAGCGGCTCTGCCTTTTCCGTCAGTTTAATACGTTTAGCCCGACGATCGCTGGCACAAGTTTGACGCGAAATTA -ACCCTTTTTCTTCCAGTTGGTCCAGAGTACGGACCAGTGATGGCTGCTCGATGCCAATCGCTTTTGCCAGTTGAA -TTTGCGACTGGTCTGGAGGTAACTGATGGATATTGTGTAACGTAACCCAATGGGTTTGTGTTAACTCCAGCGGTT -TCAGGCGATGGTCTATCAGAGCACGCCATATGCGCACCAACCGTGCCAGATCAGAACCTAGTGGCGATTCCAATT -TCATCTCCTTATAATTAGCTTGCTAAGATATTATGCGGCTTTTAGAATAGTGTGCAGCAATTGTATTGCTAAAAC -AAATGTATTGCTGCATTTGGTTACCGTCAGACATATTTTTCAGAAATTGCGCGTAAATTTTTCGCACTTAAAGAA -TATTTATTAATCTAACGCAATATATTCGGTCGTAAAGGAATCTACTTTGTGAAGTTTATGCTCAATGCAACAGGA -TTGCCCTTACAAGATCTGGTGTTCGGTGCGTCCGTCTACTTTCCTCCGTTTTTCAAAGCATTCGCGTTTGGATTC -GTCATCTGGCTTGTCGTACACCGCCTGCTTCGTGGCTGGATCTACGCCGGTGACATCTGGCATCCCTTGTTAATG -GATTTATCGCTGTTTGCGATTTGCGTTTGCCTTGCTCTGGCAATACTGATTGCGTGGTAACTATGTCAATTAAAA -CAATTAAGTATTTCTCAACAATCATTGTAGCGGTAGTTGCGGTTCTTGCCGGATGGTGGCTGTGGAATTATTACA -TGCAATCTCCGTGGACACGCGACGGGAAAATACGCGCAGAACAGGTTTCTATCACCCCACAGGTGTCGGGACGTA -TTGTTGAGCTGAATATAAAAGACAACCAGCTGGTTAACGCGGGGGATCTTCTGCTCACGATCGATAAAACGCCCT -TTCAGATCGCCGAGCTGAACGCACAGGCTCAGCTGGCGAAAGCGCAATCTGACCTCGCAAAAGCCAATAACGAAG -CGAATCGTCGTCGTCATCTCTCACAAAATTTTATTTCTGCCGAAGAACTCGATACCGCTAACCTCAATGTTAAAG -CGATGCAGGCCAGTGTTGATGCCGCACAGGCGACGCTGAAACAGGCACAATGGCAACTGGCGCAAACGGAAATTC -GCGCCCCGGTGAGTGGATGGGTGACTAACCTTACTACCCGCATCGGCGATTACGCTGATACCGGGAAACCGCTGT -TTGCCCTTGTCGACAGCCACTCGTTTTACGTCATTGGTTATTTTGAAGAAACCAAGTTGCGCCATATCCGCGAAG -GTGCACCAGCACAAATTACCCTCTATAGTGATAACAAAACGTTACAGGGTCACGTTTCCAGTATCGGTCGGGCGA -TTTATGATCAGAGCGTTGAAAGTGACTCAAGCCTTATTCCGGATGTTAAACCTAACGTCCCCTGGGTTCGACTCG -CCCAACGCGTTCCCGTCCGCTTTGCGCTGGATAAAGTCCCAGGCGATGTCACGTTGGTGTCGGGCACCACCTGTA -GCATTGCCGTAGGTCAATAATGAACGCATCGTCATGGTCCTTGCGCAATTTGCCCTGGTTCAGGGCCACGCTGGC -GCAATGGCGTTATGCGTTACGCAATACCATTGCCATGTGTCTGGCGCTGACGGTTGCCTATTATTTAAATCTGGA -TGAACCCTATTGGGCGATGACCTCGGCTGCAGTGGTTAGCTTTCCCACCGTTGGCGGTGTTATCAGCAAAAGCCT -CGGACGCATCGCTGGCAGTTTGCTCGGAGCCATTGCGGCACTGCTTCTTGCCGGGCATACGCTCAATGAGCCGTG -GTTTTTTCTATTGAGCATGTCGGCGTGGCTTGGCTTTTGTACCTGGGCCTGTGCGCACTTCACGAATAACGTCGC -GTATGCATTTCAACTGGCGGGCTACACGGCTGCCATCATCGCCTTTCCGATGGTTAATATTACTGAGGCCAGCCA -GCTGTGGGATATCGCTCAGGCGCGCGTTTGCGAGGTAATAGTCGGTATTTTGTGCGGCGGCATGATGATGATGAT -CCTGCCGAGCAGTTCCGATGCTACTGCCCTTTTAACCGCATTGAAAAACATGCACGCCCGATTACTGGAACATGC -CAGTTTACTCTGGCAGCCTGAAACAACCGATGCCATTCGTGCAGCACATGAAGGGGTGATTGGGCAGATACTGAC -CATGAATTTGCTGCGTATCCAGGCTTTCTGGAGCCACTATCGTTTTCGCCAGCAAAACGCGCGCCTTAATGCGCT -GCTCCACCAGCAATTACGTATGACCAGTGTCATCTCCAGCCTGCGACGTATGTTGCTCAACTGGCCCTCACCGCC -AGGTGCCACACGAGAAATTCTCGAACAGTTGCTGACGGCGCTCGCCAGTTCGCAAACAGATGTTTACACCGTCGC -ACGTATTATCGCCCCGCTACGCCCGACCAACGTCGCCGACTATCGGCACGTCGCCTTCTGGCAGCGACTACGTTA -TTTTTGCCGCCTTTATCTGCAAAGTAGTCAGGAATTACATCGTCTGCAAAGCGGTGTAGATGATCATACCAGACT -CCCACGGACATCCGGCCTGGCTCGTCATACCGATAACGCCGAAGCTATGTGGAGCGGGCTGCGTACATTTTGTAC -GTTGATGATGATTGGCGCATGGAGTATTGCTTCGCAATGGGATGCCGGTGCCAATGCATTAACGCTGGCAGCAAT -TAGCTGCGTACTCTACTCCGCCGTCGCAGCACCGTTTAAGTCGTTGTCACTTCTGATGCGCACGCTGGTGTTACT -TTCGCTATTCAGCTTTGTGGTCAAATTTGGTCTGATGGTCCAGATTAGCGATCTGTGGCAATTTTTACTGTTTCT -CTTTCCACTGCTGGCGACAATGCAGCTTCTTAAATTGCAGATGCCAAAATTTGCCGCATTGTGGGGGCAACTGAT -TGTTTTTATGGGTTCTTTTATCGCTGTCACTAATCCCCCGGTGTATGATTTTGCTGATTTTCTTAACGATAATCT -GGCAAAAATCGTTGGCGTCGCGTTGGCGTGGTTAGCGTTCGCCATTCTGCGTCCAGGATCGGATGCTCGTAAAAG -CCGCCGCCATATTCGCGCGCTGCGCCGGGATTTTGTCGATCAGCTAAGCCGCCATCCAACACTGAGTGAAAGCGA -ATTTGAATCGCTCACTTATCATCACGTCAGTCAGTTGAGTAACAGCCAGGATGCGCTGGCTCGCCGTTGGTTATT -ACGCTGGGGTGTAGTGCTGCTGAACTGTTCTCATGTTGTCTGGCAATTGCGCGACTGGGAATCGCGTTCCGATCC -GTTATCGCGAGTACGGGATAACTGTATTTCACTGTTGCGGGGAGTGATGAGTGAGCGTGGCGTTCAGCAAAAATC -ACTGGCGGCCACACTTGAAGAATTACAGCGGATTTGCGACAGCCTTGCCCGTCATCATCAACCTGCCGCCCGTGA -GCTGGCGGCAATTGTCTGGCGGCTGTACTGCTCGCTTTCGCAACTTGAGCAAGCACCACCGCAAGGTACGCTGGC -CTCTTAATTACTTAATTACACCACAGGCATAGCGTTCACCGCCACCGCCCAGCGGTTTAGGTTGATCGGACATAT -TATCGCCGCCAACGTGGACCATCAGCGCTTTGTCTTTGATTTCATCCAGTGATTTCAGACGAGGCGCGATGACGG -CATCGGTAGCTTTGCCGTCATTATTGACGACCAGTGCAGGCAGATCGCCTAAATGCCCGGCACCTTCTGGCCCTT -CATGTTTACCGGTATTTTGTGGATCAAGATGCCCGCCTGCGGATTCCGCGGCGCTGGCTTTGCCATCTTTGGTGG -CTGGCTGGCAGCTTCCTTTGGCATGAATATGGAAGCCATGTTCACCGGGGGGTAATGCTTTCAGATCGGGCGAAA -ACTCCAGACCTTTATCGGTTTCAGTAATGGTGACGCTACCAATTGACTGCCCTACCCCTTGCGACGTGACGAGGT -TCATCTCGACTTTTTCACTGGCAGCTTGTGCGCCGGTTGCAACAACCAGCGCCAGAATAGCCAGACTAAAACGTT -TCATAGGACCTCCGTTCATTGTGCATTCCTGAATAAGTGTAAACCAGTGACACATTTTTGAACGGCGGCTATTCC -TAAAAGTGCTTACGGTACGTCGTACCCCAGTGCCGCTTTACGGATACGAAACCATTGTTGACGGGTCATTTTCAG -TGTTTCTGCTTCGACAGCTGCCCGTACGCGCTCAATTTTACCTGAACCGATAATTGGCAGCGGCTGCGATGGTAA -ACGTAATACCCAGGCGTAAACCACCTGTTCAATCGAGCCCGCGTTTAACTCCTCTGCCACCACAGCCAGTTCATC -ACGCAGCGGCTGGAAATAATCATCATTAAACAGACGACCACCACCAAGGCAGGACCACGCCATCGGACGAACACG -CAGTTGTTGTAGTTGGTCGAGCGTGCCATCCAGCAGTAACGGCTGATGCACCGGGGATATTTCCACCTGATTAGT -GGCAAGGGTAAACGGCAGACGTGATTGCAACAGGGCAAATTGCGCAGGCGTAAAGTTCGATACGCCAAAATGACG -CACTTTGCCGCTCTGATGCAGATGTTTGAACGCGTCCGCCACTTCATCGGCATCCATTAACGGGTCTGGTCGGTG -GATTAACAGCAAATCCAGATGATCGGTCGCGAGATTAATTAGCGACTGTTCGGCGCTCTTAATGATGTGATCGCG -GTCAGTGATGTAATGACCAATGACGTTTTCTTCACGCGCGGTCGTCGCGATACCGCATTTACTGACGATTTCCAT -CCGTTCACGCAGGTGAGGTGCCAGTTTCAGTGCCTCGCCAAACGCCGCTTCGCACTGATAGCCACCATAAATATC -AGCATGGTCCACGGTGGTCACGCCGAGATCCAGATGCTCTTCAATAAAACTGACCAGCTGGCGGGCGGACATATT -CCAGTCCATCAATCGCCAGTAGCCCATCACAAAACGGGAAAACTCCGGGCCTTGCGGCGCAATAGTAATACGCTG -AACCATAATCGCTTCCTCTTATCAGATATGAGAGGAGTATACGCAAGATTAGGTTCAAAAGAGTGATGGTTGCTC -CGGTTCGTCTGATGACGCTGGCTTATTTGCGCGTAATTTGCGCATTAATCGCTGCCGACAAAGGCGCAGCACCTC -TTGTTTTTCGCCATCGCTCATTTTATTCCAGTTAAAACGCTCATCACGACTACGAAAACAGCCGCGACAAAACCC -GCGTTCGTCAGACTGGCAAATTCCCCGGCACGGGCTCTGGACGGGAAAGAACTCTAATTGCTCCGCCACTTCGCC -CTCCTCAGATAAGATTATTACCATTATTGAAGCTGTTAATGTCCAAAGTAGCAACTTTGCTTGCACTAGACCGAC -TGGTCTACTACACTCCAACGCATGAACAAACACACCGAACATGATACTCGCGAACATCTCCTGGCGACGGGCGAG -CAACTTTGCCTGCAACGTGGATTCACCGGGATGGGGCTAAGCGAATTACTAAAAACCGCTGAAGTGCCGAAAGGG -TCCTTCTATCACTACTTTCGCTCTAAAGAAGCGTTTGGCGTTGCCATGCTTGAGCGTCATTACGCCGCATATCAC -CAGCGACTGACTGAGTTGCTGCAATCCGGCGAAGGTAACTACCGCGACCGCATACTGGCTTATTACCAGCAAACA -CTGAACCAGTTTTGCCAACATGGAACCATCAGTGGTTGCCTGACAGTAAAACTCTCTGCCGAAGTGTGCGATCTG -TCAGAAGATATGCGCAGCGCGATGGATAAAGGTGCTCGCGGCGTGATCGCCCTGCTCTCTCAGGCGCTGGAAAAT -GGCCGTGAGAACCATTGTTTAACCTTTTGTGGCGAACCGCTGCAACAGGCACAAGTGCTTTACGCACTGTGGCTT -GGCGCGAATCTGCAGGCCAAAATTTCGCGCAGTTTCGAGCCACTGGAAAACGCGCTGGCCCATGTAAAAAACATT -ATTGCGACGCCTGCCGTTTAGCAGGCATTTTTTATCACCAGACGACCGGGAGCCTTTATGTCATCTGAAAAACTG -TATTCCCCACTGAAAGTGGGCGCGATCACGGCGGCAAACCGTATTTTTATGGCACCGCTGACGCGTCTGCGCAGT -ATTGAACCGGGTGACATTCCTACCCCGTTGATGGCGGAATACTATCGCCAACGTGCCAGTGCCGGTTTGATTATT -AGTGAAGCCACGCAAATTTCTGCCCAGGCAAAAGGATATGCAGGTGCGCCTGGCATCCATAGTCCGGAGCAAATT -GCCGCATGGAAAAAAATCACCGCTGGCGTTCATGCTGAAAATGGTCATATGGCCGTGCAGCTGTGGCACACCGGA -CGCATTTCTCACGCCAGCCTGCAACCTGGCGGTCAGGCACCGGTAGCGCCTTCAGCACTTAGCGCGGGAACACGT -ACTTCTCTGCGCGATGAAAATGGTCAGGCGATCCGTGTTGAAACATCCATGCCGCGTGCGCTTGAACTGGAAGAG -ATTCCAGGTATCGTCAATGATTTCCGTCAGGCCATTGCTAACGCGCGTGAAGCCGGTTTTGATCTGGTAGAGCTC -CACTCTGCTCACGGTTATTTGCTGCATCAGTTCCTTTCTCCTTCTTCAAACCATCGTACCGATCAGTACGGCGGC -AGCGTGGAAAATCGCGCACGTTTGGTACTGGAAGTGGTCGATGCCGGGATTGAAGAATGGGGTGCCGATCGCATT -GGCATTCGCGTTTCACCAATCGGTACTTTCCAGAACACAGATAACGGCCCGAATGAAGAAGCCGATGCACTGTAT -CTGATTGAACAACTGGGTAAACGCGGCATTGCTTATCTGCATATGTCAGAACCAGATTGGGCGGGGGGTGAACCG -TATACTGATGCGTTCCGCGAAAAAGTACGCGCCCGTTTCCACGGTCCGATTATCGGCGCAGGTGCATACACAGTA -GAAAAAGCTGAAACGCTGATCGGCAAAGGGTTAATTGATGCGGTGGCATTTGGTCGTGACTGGATTGCGAACCCG -GATCTGGTCGCCCGCTTGCAGCGCAAAGCTGAGCTTAACCCACAGCGTGCCGAAAGTTTCTACGGTGGCGGCGCG -GAAGGCTATACCGATTACCCGACGTTGTAATCCAACATTGCGAGCGGCGTAAAGCCGCCGCTATACTAAAACAAC -ATTTTGAATCTGTTAGCCATTTTGAGGATAAAAAGATGCGTCTTCTTCATACCATGCTGCGCGTTGGCGATTTGC -AACGCTCCATCGATTTTTATACCAAAGTGCTGGGCATGAAACTGCTGCGTACCAGCGAAAACCCGGAATACAAAT -ACTCACTGGCGTTTGTTGGCTACGGCCCGGAAACCGAAGAAGCGGTGATTGAACTGACCTACAACTGGGGCGTGG -ATAAATACGAACTCGGCACTGCTTATGGTCACATCGCGCTTAGCGTAGATAACGCCGCTGAAGCGTGCGAAAAAA -TCCGTCAAAACGGGGGTAACGTGACCCGTGAAGCGGGTCCGGTAAAAGGCGGTACTACGGTTATCGCGTTTGTGG -AAGATCCGGACGGTTACAAAATTGAGTTAATCGAAGAGAAAGACGCCGGTCGCGGTCTGGGCAACTAATCTCCTG -CCGGGCGTGAACTCATCGCGCCCGCATCTTTACTGCATCGACAAGTAATATTTGTCATAATGCGCGCTGCAATTT -ATCCGTATTAAGAGAATCAGATGTCCGATAACGCTCAACTTACCGGTCTGTGCGACCGTTTTCGTGGTTTTTATC -CTGTTGTGATCGATGTTGAAACAGCCGGATTTAACGCCAAAACCGATGCGCTGCTTGAGATTGCCGCCATCACCC -TGAAAATGGATGAACAAGGCTGGCTGATGCCGGACACCACATTACATTTCCACGTCGAACCATTTGTCGGCGCAA -ATTTGCAACCAGAAGCCCTCGCCTTCAACGGCATTGACCCGAACGATCCCGATCGCGGCGCGGTCAGCGAATACG -AGGCGCTGCACGAAATTTTTAAAGTTGTACGTAAAGGTATTAAAGCGAGCGGCTGTAACCGCGCCATTATGGTGG -CGCACAATGCCAATTTTGATCACAGCTTTATGATGGCCGCCGCAGAACGCGCCTCACTGAAACGTAACCCGTTCC -ACCCTTTCGCCACTTTTGACACTGCTGCACTGGCCGGGCTGGCACTCGGACAAACCGTATTGTCAAAGGCTTGCC -AGACCGCTGGCATGGACTTCGACAGCACCCAGGCGCACTCCGCGCTGTACGACACCGAACGCACTGCTGTGCTGT -TTTGTGAAATCGTCAACCGCTGGAAACGTCTGGGAGGCTGGCCGCTATCTGCCGCCGAAGAGGTGTAATCGAGTC -GATGCCTGATGACATGCAATGATTCAGGCATCTATAGTGAGGCTATTCCACGCATCCTGCATGATATTCACGGGG -AATAGCGTTAATGGCAGATAATCCAGACCCTTCATCGCTCCTGCCGGACGTGTTTTCACCGGCGACCCGCGACTG -GTTTCTTCGCGCCTTTAAACAGCCGACCGCTGTCCAGCCGCAAACCTGGCATGTGGCGGCGCGAAGCGAACATGC -GCTGGTGATTGCACCGACCGGCTCCGGGAAAACGCTGGCAGCATTTCTCTACGCCCTCGATCGGCTCTTCCGCGA -AGGCGGCGAAGATACCCGCGAGGCGCATAAGCGTAAAACCTCACGCATCCTCTATATTTCACCGATAAAAGCCCT -GGGCACCGACGTTCAGCGCAACTTGCAGATCCCGTTGAAGGGTATTGCCGATGAACGGCGGCGGCGCGGCGAAAC -GGAAGTCAATCTTCGCGTAGGGATCCGTACTGGCGATACGCCTGCACAGGAACGCAGCAAACTCACCCGTAATCC -GCCGGATATTCTGATCACCACACCCGAATCACTCTATCTGATGCTGACCTCCCGCGCGCGCGAAACGCTACGCGG -CGTCGAAACGGTAATTATTGATGAAGTCCACGCGGTAGCGGGCAGTAAACGTGGTGCGCATCTGGCGTTAAGTCT -GGAGCGGCTCGATGCGCTGCTCCACACCTCAGCACAGCGAATTGGCCTTTCTGCCACTGTGCGCTCAGCCAGCGA -TGTGGCAGCATTTCTTGGTGGCGATCGCCCGGTTACGGTAGTCAACCCGCCCGCAATGCGCCATCCGCAGATACG -AATTGTCGTACCGGTCGCCAATATGGATGATGTCTCATCGGTCGCCAGCGGCACCGGCGAAGACAGCCATGCCGG -CCGGGAAGGCTCCATCTGGCCATATATTGAAACGGGTATCCTTGATGAAGTGTTGCGCCATCGCTCGACCATTGT -CTTTACTAATTCGCGGGGGCTGGCGGAAAAACTGACGGCACGATTAAATGAGCTTTACGCCGCACGCTTACAGCG -TTCCCCGTCTATCGCCGTTGATGCGGCCCATTTCGAGTCGACCTCCGGCGCAACCTCTAACCGTGTACAAAGTAG -CGACGTTTTTATTGCCCGCTCACACCACGGCTCCGTCTCTAAAGAACAACGAGCAATCACCGAACAGGCGCTGAA -ATCGGGTGAATTACGCTGCGTGGTCGCAACCTCCAGTCTTGAACTGGGGATTGATATGGGCGCGGTGGATCTGGT -GATTCAGGTGGCAACGCCGCTTTCTGTTGCCAGTGGGTTACAACGCATTGGTCGCGCCGGACATCAGGTTGGCGG -TGTATCTAAAGGGCTGTTTTTCCCCCGTACCCGGCGTGATTTAGTCGATTCCGCAGTCATTGTAGAGTGTATGTT -CGCAGGCAGGCTGGAAAACCTGACACCACCGCATAATCCTCTCGACGTCCTTGCGCAGCAAACCGTTGCCGCCGC -GGCGATGGATGCATTACAGGTAGACGAATGGTACTCCCGCGTACGCCGTGCCGCACCGTGGAAAGATCTGCCAAG -ACGTGTTTTTGACGCCACGCTGGATATGCTTTCCGGGCGCTATCCCTCTGGCGATTTTTCTGCTTTTCGCCCCAA -ACTGGTCTGGAACAGGGAGACCGGGATATTGACCGCCCGACCTGGCGCTCAATTGTTGGCGGTTACCAGCGGCGG -CACCATTCCGGATCGTGGCATGTATAGCGTGTTATTACCCGAAGGTGAAGAAAAGGCCGGTTCGCGGCGGGTGGG -TGAACTGGATGAGGAGATGGTATATGAGTCGCGGGTGAACGACATTATCACTCTCGGCGCTACCTCATGGCGGAT -CCAGCAAATCACCCGCGATCAGGTGATTGTGACTCCTGCTCCGGGTCGTTCTGCCCGGCTCCCCTTCTGGCGTGG -TGAAGGTAACGGACGTCCGGCTGAATTAGGCGAGATGATCGGCGATTTTCTTCATTTGCTGGCGGATGGCGCGTT -CTTTTCCGGGACTATTCCCCCGTGGCTGGCAGAAGAAAATACGATCGCCAATATTCAGGGGTTGATTGAGGAGCA -GCGCAACGCGACGGGCATCGTTCCGGGGAGTCGCCATCTGGTCCTCGAACGGTGCCGTGATGAAATTGGTGACTG -GCGTATTATTTTGCACTCTCCCTATGGAAGACGGGTGCATGAACCCTGGGCGGTGGCGATTGCCGGGCGAATACA -TGCGCTATGGGGCGCTGACGCGTCGGTGGTCGCCAGTGATGACGGCATTGTTGCACGTATTCCTGACACCGATGG -TAAATTGCCCGATGCCGCGATTTTTTTGTTTGAACCAGAAAAGTTGCTGCAAATTGTCCGCGAGGCGGTAGGCAG -CTCGGCACTTTTCGCCGCCCGTTTTCGCGAATGCGCCGCGCGGGCATTATTAATGCCGGGGCGCACTCCGGGCCA -TCGCACCCCGCTTTGGCAACAACGGCTGCGCGCCAGTCAGTTGCTGGAAATCGCTCAGGGATATCCGGATTTTCC -GGTCATTCTCGAAACCCTACGCGAATGTCTGCAAGATGTTTATGATCTTCCCGCACTGGAACGTTTGATGCGTCG -CCTGAACGGTGGCGAAATTCAAATATCCGATGTAACGACCACTACGCCCTCGCCTTTCGCCACAAGTTTATTGTT -CGGCTATGTCGCGGAATTTATGTACCAGAGCGACGCCCCGCTGGCAGAGCGCCGGGCATCCGTACTGTCGCTGGA -CAGCGAGTTACTGCGCAATCTACTCGGACAGGTCGATCCGGGGGAATTACTCGACCCGCAGGTCATTCGCCAGGT -GGAAGAAGAGTTGCAACGACTGGCTCCTGGCAGAAGAGCGAAAGGTGAAGAAGGATTGTTCGACCTGCTGCGCGA -ACTGGGGCCAATGACCGTTGAAGACCTGGCGCAACGGCATACAGGCAGCAGTGAAGAGGTTGCGTCGTATCTGGA -AAATCTTCTTGCAGTAAAACGAATCTTCCCAGCGATGATTAGCGGACAGGAGCGTCTTGCCTGTATGGATGATGC -CGCCAGGCTGCGTGATGCCCTCGGCGTACGACTACCAGAGTCATTGCCAGAGATTTATTTACATAGAGTCAGTTA -CCCGCTTCGCGACCTCTTTCTGCGCTATCTCCGGGCTCATGCTCTGGTCACGGCTGAACAACTGGCTCATGAGTT -TAGTCTCGGTATTGCCATTGTCGAAGAGCAGCTTCAGCAACTGCGTGAACAGGGTCTGGTGATGAATCTGCAACA -AGACATCTGGGTGAGCGATGAAGTATTTCGTCGTCTGCGTTTGCGCTCGCTGCAAGCCGCCAGAGAAGCGACGCG -TCCCGTTGCAGCCACGACCTATGCGCGATTGCTGCTGGAACGTCAGGGCGTATTACCCGCCACCGATGGTAGCCC -GGCGCTCTTTGCCTCAACATCGCCAGGCGTTTATGAGGGCGTAGATGGCGTGATGCGGGTGATCGAACAGCTTGC -CGGAGTCGGTTTACCCGCCTCACTCTGGGAAAGCCAGATCCTGCCTGCCCGCGTACGCGACTATTCGTCAGAAAT -GCTCGATGAATTACTGGCAACCGGTGCGGTTATCTGGTCGGGGCAAAAAAAACTGGGTGAAGATGACGGCCTGGT -GGCACTGCATCTACAGGAATATGCTGCAGAATCGTTCACTCCCGCCGAAGCGGATCAGGCGAATCGTTCGGCGCT -GCAACAAGCGATAGTCGCTGTTCTGGCTGACGGAGGAGCCTGGTTTGCACAACAAATCAGCCAACGGATACGCGA -CAAAATCGGCGAATCGGTTGATCTCTCTGCCCTGCAAGAGGCGTTATGGGCGCTGGTCTGGCAAGGCGTCATCAC -CAGCGACATTTGGGCACCGTTACGCGCCCTCACCCGCAGCAGTTCCAACGCACGCACCTCAACTCGCCGCAGTCA -CCGGGCTCGTCGTGGACGTCCTGTCTATGCGCAACCCGTCTCGCCGCGGGTATCTTACAACACACCAAATCTGGC -TGGACGCTGGTCGTTATTGCAGGTGGAGCCACTAAACGATACCGAAAGGATGCTGGCGCTGGCGGAAAATATGCT -CGACCGCTACGGCATCATCAGTCGTCAGGCGGTGATAGCCGAAAATATCCCTGGCGGGTTTCCATCGATGCAAAC -GCTTTGTCGAAGTATGGAAGACTCCGGGCGAATTATGCGAGGTCGTTTTGTAGAAGGTCTGGGTGGCGCGCAATT -CGCTGAACGTCTGACTATTGACCGATTGCGCGATCTGGCGACACAAGCCACGCAAACGCGCCACTATACACCAGT -GGCGCTCTCTGCCAACGATCCGGCTAATGTGTGGGGAAATCTTCTGCCCTGGCCTGCACATCCGGCAACGCTGGT -TCCAACGCGTCGGGCGGGTGCGCTGGTGGTCGTTTCTGGCGGCAAATTGTTACTCTATCTGGCGCAAGGTGGCAA -AAAAATGCTGGTCTGGCAGGAAAAAGAGGAATTACTCGCCCCAGAGGTTTTCCACGCGCTGACTACCGCACTGCG -TCGCGAACCACGGCTGCGCTTTACGCTAACAGAAGTGAATGATCTACCGGTCCGGCAAACGCCGATGTTTACGCT -GCTGCGTGAGGCGGGATTTTCAAGTTCGCCACAAGGGCTGGATTGGGGATAGAGAAAGGACTGACGGATGCCCGT -TCGCATCCGTCAGTATTGCAGGACGGATTATTCCGCGTCCGGCTCTTCAGACTTGTATTTAGCGGCAGTTTCTTT -GATCAGCTGCTGCAGTTCGCCACGCTGATACATTTCGATCACGATATCACAACCGCCGACCAGCTCGCCGTCAAC -CCACAGTTGCGGGAAGGTCGGCCAGTTAGCATATTTCGGCAGTTCCGCACGAATGTCCGGATTCTGCAGAATATC -AACATAGGCAAAACGTTCGCCACATGCGGCAAGCGCCTGGACTGCCTGGGCAGAGAAACCGCAGCTCGGCAGTTT -CGGTGAACCTTTCATGTACAGCAGGATCGGGTTTTCAGCAATCTGGCGTTGGATTTTTTCGATAGTGGTGCTCAT -TGTCTTGCTTCCTCAAACTTCTTTACGGCAGTAATCTGACATTGTAGCGGGTCAGTGCGGCATCGGAAAATAACA -TTTTCATCACGCTTTTGCTATTTTATCCCTTTGCTCTATTTGTTGCATTTCAAATATTCGTTTCTTCTCTGATGC -CGGCAAACTGGCGTATTTATAACCATTTTTAGCTTTCACTGCTGCATTTTTTTGCGCTCGCCAACGAAACGTATT -TTTTAACAATAAAAGCTATTAACTTTCTCTTCTTCTATGCATTAGAATCATCAAGTTTTGTAAATCAGACGCAGG -CATGATAGACCTGCCTTTACAGAGGGACGCTCAGTGGCGCGGATAAACCGTATTTCGATCACGCTCTGTGCTTTA -CTTTTTACCACCCTGCCTTTAACGCCTATGGCCCATGCTTCAAAGCAAGCCAGGGAGAGTTCTGCTACCACTCAT -ATCACCAAAAAAGCAGATAAAAAGAAAAGCACGGCAACCACCAAAAAGACCCAGAAAACAGCGAAAAAAGCCGCC -AGTAAAAGTACGACCAAAAGCAAAACCGCTTCTTCCGTTAAAAAATCTTCCATTACCGCTTCTAAAAACGCCAAA -ACTCGCAGCAAACACGCCGTCAATAAAACGGCCTCAGCCAGCTTTACCGAAAAGTGTACCAAACGTAAGGGCTAT -AAATCGCATTGTGTGAAAGTCAAAAATGCCGCGTCAGGAACTCTTGCCGACGCGCACAAAGCGAAGGTGCAAAAA -GCTACGAAAGTGGCAATGAATAAACTGATGCAGCAAATTGGTAAGCCATATCGTTGGGGTGGCAGCTCACCGCGT -ACCGGTTTTGATTGCAGCGGCCTGGTTTATTACGCTTATAAAGATTTGGTGAAAATTCGTATTCCGCGTACGGCG -AATGAAATGTATCACCTGCGTGATGCAGCGCCAATCGAACGTAGTGAACTGAAAAACGGCGACCTGGTCTTTTTC -CGTACTCAGGGACGCGGCACAGCCGATCATGTCGGCGTGTATGTCGGCAACGGCAAATTTATTCAGTCACCGCGC -ACAGGTCAGGAAATTCAAATCACTTCTCTCAGTGAAGACTACTGGCAGCGCCACTATGTTGGCGCTCGTCGGGTA -ATGACCCCAAAAACACTTCGCTAAAACTTTACCCTGTTGTTACGGCAACAGGGTAAGTTCATCTTTTGTCTCACC -TTTTAATTTGCTACCCTATCCATACGCACAATAAGGCTATTGTACGTATGCAAATTAATAATAAAGGAGAGTAGC -AATGTCATTCGAATTACCTGCACTACCATATGCTAAAGATGCTCTGGCACCGCACATTTCTGCGGAAACCATCGA -GTATCACTACGGCAAGCACCATCAGACTTATGTCACTAACCTGAACAACCTGATTAAAGGTACCGCGTTTGAAGG -TAAATCACTGGAAGAGATTATTCGCAGCTCTGAAGGTGGCGTATTCAACAACGCAGCTCAGGTCTGGAACCATAC -TTTCTACTGGAACTGCCTGGCACCGAACGCCGGTGGCGAACCGACTGGAAAAGTCGCTGAAGCTATCGCCGCATC -TTTTGGCAGCTTTGCCGATTTCAAAGCGCAGTTTACTGATGCAGCGATCAAAAACTTTGGTTCTGGCTGGACCTG -GCTGGTGAAAAACAGCGATGGCAAACTGGCTATCGTTTCAACCTCTAACGCGGGTACTCCGCTGACCACCGATGC -GACTCCGCTGCTGACCGTTGATGTCTGGGAACACGCTTATTACATCGACTATCGCAATGCACGTCCTGGCTATCT -GGAGCACTTCTGGGCGCTGGTGAACTGGGAATTCGTAGCGAAAAATCTCGCTGCATAATAACTGATGGCAAATGC -AGCATTGCCTGAAGCGCTACGCTTATCAGGCCTACGCGGATCATCGATGTAGGTCGGATAAGGCACTCGCCGCAT -CCGGCAAGATAAATCGCACGTTGTCAGCAACTGTAACGCAGAAGGTTATCCTTCTGCGTTTTTGTTTAATTAGCT -GTTAGCAACGCAAACTGTTTCAGGTTGTTTTCTGGCTGACATAAACACCAGCAATAATGCCAGTCCCGCGACAAT -CGCTCCCATCACCGGCACAAAGCTGTATCCCAGCCCAGCGGAAATTACCGCACCACCAGCAGCTGCTCCCAGCGC -ATTTCCAAGATTAAAGGCACCAATATTGACTGATGAAGACAGACCTGGCGCTTCACTGGCGACACGCATCACGCG -CATCTGTAACGGCGGTACGACCGCAAAGGTTGCTGCGCCCCACACCACCATGCTAATAGCTGCGCCGAACTCATT -GCGGGCCAGGAACGGGATTGCCAGCATAATCACCATCAACAACAACAAAAAGCCTTTCAACGTGCCGTTAACTGA -ACGATCTGCCAGTTTGCCGCCGAGATAGTTACCGATAGAGAATCCGACACCAATCAGCACCAGCATTGCCGTGAC -GAACACCGGTGTTGCGTGGGTAATACTTTGCAGTACCGGAGAGATATAGGTGTAGAGAGTAAACATTGCACCAGC -TCCCAGTACCGTCGTCAGCAATGCAGACAGCACCTGCGGACGCATTAATACCGCCAGCTCTTTTTTCACTTCAGG -TCGTGCCCCTGCACCACCTTTAGGTAATGAGAAGAACAGACTTACCATTGAAATCACTCCCAGCCCCGCCGTTGC -CAGAAATGACATCCGCCAGCCGATGGTTTCACCCAACCAGGTCGCCGCCGGCACGCCACCGATATTTGCCAGGGT -TAACCCCATAAACATAGTGGCAACTGCGCTGGCCTGTTTATGTTTTGGCACCACGCTTGCGGCCACGACTGAACC -CAAACCAAAAAATGCTCCGTGATTCAGGCTGGTCAAAATGCGTGAAAGCATCAGGGTCATATAATCCGGCGCGAT -GGCGGAAAGTACGTTGCCGAGCGTGAAAATTGCCATCAGGAAAATCAACGCACTGCGGCGGGCACGATGAGAAAG -TAGAAGCGTCATCAGCGGCGCGCCAACCATTACGCCAACTGCATAGGCACTGATTAACATTCCGGCAGCGGGAAT -CGAGACATCCACACCGCGCGCAATGACGGGCAACAAGCCCATTGGCGAGAACTCCGTTGTCCCGATACCAAACGC -GCCAATCGCCAGCGCCAGCAACGGATAGTTAATTTTCATGCCTTATCTCCACCTCTTCGCGTCATTACGCGATAT -TCATTAAAGTGGCGAAAGCATGACAGCAATCACAAAAAAATGAAAATAACAAAAAGAGAAAACACTTTTGCCATT -TTGCTAACAAACAGGAAGGAGATGCGAGGGAGAACGCGCTCCCTCGAGAGGAAATCAGTGCAGCGCGGCAGTCAA -ACCCACGGCTACGATCAAACCGAGGACGATAATCGTTGTTACCAGTGAAAATTTAAGGTCGGTGCTCATCAAGTT -TTCTCCTTTTTTATTACCACACAAAAAGTGATATTACGCATTTTTACACACTGTGATGAAAAAATCTCCCGTCAT -TTATAATGATAAGTGTTTTTACCACTTCCCCTTTTCGTCAAGATCGGCCAAAATTCCACGCTTACACTATTTGCG -TACTGGCCATTGACCCCTTCCTGACGCTCCGTGTCGTTTTTCCGGCGTACCGCAACACTTTTGTTGTGCGTAAGG -TGTGTAAAGGCAAACGTTTACCTTGCGATTTTGCAGGAGCTGAAGTTAGGGTCTGGAGTGAAATGGAATGGCAAC -AATAAAAGATGTAGCGAAACGAGCAAACGTTTCCACTACAACTGTGTCACACGTGATCAACAAAACACGTTTCGT -CGCTGAAGAAACGCGCAACGCCGTGTGGGCAGCGATTAAAGAATTACACTACTCCCCTAGCGCGGTGGCGCGTAG -CCTGAAGGTTAACCACACCAAGTCTATCGGTTTGCTGGCGACCAGCAGCGAAGCGGCCTATTTTGCCGAGATCAT -TGAAGCAGTTGAAAAAAATTGCTTCCAGAAAGGTTACACCCTGATTCTGGGCAATGCGTGGAACAATCTTGAGAA -ACAGCGGGCTTATCTGTCGATGATGGCGCAAAAACGCGTCGATGGTCTGCTGGTGATGTGTTCTGAGTACCCAGA -GCCGTTGCTGGCGATGCTGGAAGAGTATCGCCATATCCCAATGGTGGTCATGGACTGGGGTGAAGCAAAAGCTGA -CTTCACCGATGCGGTCATTGATAACGCGTTCGAAGGCGGCTACATGGCCGGGCGTTATCTGATTGAACGCGGTCA -CCGCGAAATCGGCGTCATCCCCGGCCCGCTGGAACGTAACACCGGCGCAGGCCGCCTTGCCGGTTTTATGAAGGC -GATGGAAGAAGCGATGATCAAGGTGCCGGAAAGCTGGATTGTGCAGGGTGACTTTGAACCTGAATCCGGTTATCG -CGCCATGCAGCAAATCCTGTCGCAGCCGCATCGCCCTACTGCCGTCTTCTGTGGTGGCGATATCATGGCAATGGG -CGCACTTTGTGCTGCTGATGAAATGGGCCTGCGCGTCCCGCAGGATGTTTCGCTGATCGGTTATGATAACGTGCG -CAACGCGCGCTATTTTACGCCGGCGCTGACCACGATCCATCAGCCAAAAGATTCGCTGGGTGAAACAGCGTTCAA -CATGCTGTTGGATCGTATCGTCAACAAACGTGAAGAACCGCAGTCTATTGAAGTGCATCCGCGCTTGATTGAACG -CCGCTCCGTGGCTGACGGCCCGTTCCGCGACTATCGTCGTTAATCACCCGTTGCGGGAGTCTCTTCCGGCTCCCG -CAGCCACTCCTTATTCAGCGTCTCACTATCGCCGAGATACTCAAGCAACCAGGTTAACGCAGGCGACATATCATT -TTGCTGCCATGTCAGACAACATGCCGAATCCGGAAAGGGGTTTTCCAGTTCTAATGCTACCCACTTCCCCTCATT -AAGCCACGGTTTGGCGAAATGTGTTGGCACCATCCCTATGCATAATCCTGCCGAGATACAGGTTGCCGATGATTC -CCAGTCAGGCACGACAACTCTTTTTTGGTTATCCAGCAACCAGGTAATACGTTTAGGTAGCGTTCGCGAGGTGTC -TTCGCGCACCAACGACGGCCAGTTGCGCAACGTATCATCGCTGAACGGGCCATCCATCAACGCCAGCGGGTGGTG -ACTGGCAACAACGCAACTCCAGCTTAGCATCCCCATATCCCGGAAGGCATAACGACCGCCTACCGGAATCGCGCG -TGTTGCGCCAATCGCCAGTTCCACGCGCCCGTCGGAAAGCGCATCCCAGACACCGTTGAACACTTCCTGAAAGAC -AAGAAGTTCGACATCATCAAAATGGCGATAAAAATCAACGATCATCTGCCGTGTACGTTCTGGCCTGACAATATT -ATCCACTGCGATAGCTAACTGACCGCGCCAGCCGTTCGCTATCTGCTGACATTGCTGGCGGGTGATCTGCATTTT -TTTGACAACAGAGCGCCCTTCTTTGAGAAACCACGCTCCAGCAGCGGTCAGCTCCACATCACGGTGCCGTCGTTC -AAAGAGCGGCACCGCCAGCCACTCTTCCAGCTGACGCACGGTATAGCTGACCGCAGAAGGAACGCGATGCAGCTC -CTGTGCCGCAGCGCTAAAACTACCATTACGCGCTACCGCATCAACAACTTCGAGTGAATATTCTGACCACATAGT -CTGCCTGCAAAATTTTTGAAACCAGTCATCAAATATTACCGTTTCACAACACTAATTTCACTCCCTACACTTTGC -GGCGGTGTTTAATTGAGAGATTTAGAGAATATACATGCAACCTGGGAAAAGATTTTTAGTCTGGCTGGCGGGTTT -GAGCGTACTCGGTTTTCTGGCAACCGATATGTATCTGCCTGCTTTCGCCGCCATACAGGCCGACCTGCAAACGCC -TGCGTCTGCTGTCAGTGCCAGCCTTAGTCTGTTCCTTGCCGGTTTTGCCGCAGCCCAGCTTCTGTGGGGGCCGCT -CTCCGACCGTTATGGTCGTAAACCGGTATTATTAATCGGCCTGACAATTTTTGCGTTAGGTAGTCTGGGGATGCT -GTGGGTAGAAAACGCCGCTACGCTGCTGGTATTGCGTTTTGTACAGGCTGTGGGTGTCTGCGCCGCGGCGGTTAT -CTGGCAAGCATTAGTGACAGATTATTATCCTTCACAGAAAGTTAACCGTATTTTTGCGGCCATCATGCCGCTGGT -GGGTCTATCTCCGGCACTGGCTCCTCTGTTAGGAAGCTGGCTGCTGGTCCATTTTTCCTGGCAGGCGATTTTCGC -CACCCTGTTTGCCATTACCGTGGTGCTGATTCTGCCTATTTTCTGGCTCAAACCCACGACGAAGGCCCGTAACAA -TAGTCAGGATGGTCTGACCTTTACCGACCTGCTACGTTCTAAAACCTATCGCGGCAACGTGCTGATATACGCAGC -CTGTTCAGCCAGTTTTTTTGCATGGCTGACCGGTTCACCGTTCATCCTTAGTGAAATGGGCTACAGCCCGGCAGT -TATTGGTTTAAGTTATGTCCCGCAAACTATCGCGTTTCTGATTGGTGGTTATGGCTGTCGCGCCGCGCTGCAGAA -ATGGCAAGGCAAGCAGTTATTACCGTGGTTGCTGGTGCTGTTTGCTGTCAGCGTCATTGCGACCTGGGCTGCGGG -CTTCATTAGCCATGTGTCGCTGGTCGAAATCCTGATCCCATTCTGTGTGATGGCGATTGCCAATGGCGCGATCTA -CCCTATTGTTGTCGCCCAGGCGCTGCGTCCCTTCCCACACGCAACTGGTCGCGCCGCAGCGTTGCAGAACACTCT -TCAACTGGGTCTGTGCTTCCTCGCAAGTCTGGTAGTTTCCTGGCTGATCAGTATCAGCACGCCATTGCTCACCAC -CACCAGCGTGATGTTATCAACAGTAGTGCTGGTCGCGCTGGGTTACATGATGCAACGTTGTGAAGAAGTTGGCTG -CCAGAATCATGGCAATGCCGAAGTCGCTCATAGCGAATCACACTGATCTATATCGATATACTTATACTTAGGCTG -CTAACAAAATTTTGTTGTATGATTGAAATTAGCGGCCTATACTAATTTCGAGTTGTTAAAGCTACGATAAATATT -ATGTTTTTACGGGGACAGGATCGTTCCCGACTCACTATGGATAGTCATTTCGGCAAGGGTTCCTCCTTTCCCTCT -GTTCTACGTCGGATTATAGACTCGCGGTTTTTTCTGCGAGATTTCTCACAAAGCCCAAAAAGCGTCTACGCTGTT -TTAAGGTTCTGATCACCGACCAGTGATGGAGAAACTATGAGTTCATCGTGTATAGAAGAAGTCAGTGTACCGGAT -GACAACTGGTACCGTATCGCCAACGAATTACTTAGCCGTGCCGGTATAGCCATTAACGGTTCTGCCCCGGCGGAT -ATTCGTGTGAAAAACCCCGATTTTTTTAAACGCGTTCTGCAAGAAGGCTCTTTGGGGTTAGGCGAAAGTTATATG -GATGGCTGGTGGGAATGTGACCGACTGGATATGTTTTTTAGCAAAGTCTTACGCGCAGGTCTCGAGAACCAACTC -CCCCATCATTTCAAAGACACGCTGCGTATTGCCGGCGCTCGTCTCTTCAATCTGCAGAGTAAAAAACGTGCCTGG -ATAGTCGGCAAAGAGCATTACGATTTGGGTAATGACTTGTTCAGCCGCATGCTTGATCCCTTCATGCAATATTCC -TGCGCTTACTGGAAAGATGCCGATAATCTGGAATCTGCCCAGCAGGCGAAGCTCAAAATGATTTGTGAAAAATTG -CAGTTAAAACCAGGGATGCGCGTACTGGATATTGGCTGCGGCTGGGGCGGACTGGCACACTACATGGCATCTAAT -TATGACGTAAGCGTGGTGGGCGTCACCATTTCTGCCGAACAGCAAAAAATGGCTCAGGAACGCTGTGAAGGCCTG -GATGTCACCATTTTGCTGCAAGATTATCGTGACCTGAACGACCAGTTTGATCGTATTGTTTCTGTGGGGATGTTC -GAGCACGTCGGACCGAAAAATTACGATACCTATTTTGCGGTGGTGGATCGTAATTTGAAACCGGAAGGCATATTC -CTGCTCCATACTATCGGTTCGAAAAAAACCGATCTGAATGTTGATCCCTGGATTAATAAATATATTTTTCCGAAC -GGTTGCCTGCCCTCTGTACGCCAGATTGCTCAGTCCAGCGAACCCCACTTTGTGATGGAAGACTGGCATAACTTC -GGTGCTGATTACGATACTACGTTGATGGCGTGGTATGAACGATTCCTCGCCGCATGGCCAGAAATTGCGGATAAC -TATAGTGAACGCTTTAAACGAATGTTTACCTATTATCTGAATGCCTGTGCAGGTGCTTTCCGCGCCCGTGATATT -CAGCTCTGGCAGGTCGTGTTCTCACGCGGTGTTGAAAACGGCCTTCGAGTGGCTCGCTAAAGGCTATTCTATCGC -CCCCTCTCCGGGGGCGATTTCAGATCAGGCTTCTGTGCCTGGTTGATTCATGGCATTTTCTCGTGCCGCCAGCAC -ACGTTCTACCGTATCTACCACTGCCTGAGTTTGTGGATCGATTTCAATGTTGACGCGTGCGCCAAGTTTTTTCTT -CCCAAGAGTCGTGCGTTCCAGTGTTTCCGGAATTAAATGGACGCAAAAACGCGTTGGCGTGACTTCGCCGACGGT -CAGGCTAATACCGTCGATGCCAATAAATCCTTTGTACAGAATATATTTCATCAACTGACTATCCTGGACTTTAAA -CCAGATCTGGCGATTATTTTCTGAGGTTAATATTTTCGCCACTTCAGCAGTGGTCATAATATGACCTGACATTAA -GTGTCCGCCAATTTCATCACTGAATTTCGCCGCACGCTCAACGTTTACCCAATCCCCCACTTTTAAATCGCCAAG -ATTGGTAATGCGTAACGTTTCTTTCATCAGGTCAAAACTGACATGGTTGCCGTTAATTTCCGTCACGGTCAGGCA -GCAACCGTTATGCGCCACGGAAGCACCGGTTTCCAGGCCGTCCAGCATGTGGTCGGGTAACTCCACCACATGCGT -ACGAAAATTTGGTTTCTCGTCAATCGACACCAGTTTTGCGGTGCCCTGTACAATCCCCGTAAACATACTTACAAC -TCCTGAAATCAGTTAAGACATTCTGTTCAGCACAATAGCAGGTGGAAAACGCCCTTACCAGTGAAGGGGTAAGAA -TGGCTATTTTTTCACTGGAGAATTAATAAATCCTCGCTACAATAGACTGAATTTCCCCTGCTTCTTCTTTTTGCT -GCCCATTCAGGCGGCTTTTTAGTCTCTCATATAACTACAAATAAAAGGTGTTCACGTGCAGAAGTATATCAGTGA -AGCGCGTCTGTTATTAGCATTAGCAATCCCGGTGATTCTCGCGCAAATCGCCCAAACTGCGATGGGTTTTGTCGA -TACCGTGATGGCGGGCGGCTATAGTGCCACCGACATGGCGGCGGTCGCTATCGGTACTTCTATCTGGCTTCCGGC -GATCCTCTTTGGTCACGGACTGCTGCTGGCATTAACGCCGGTTATCGCGCAATTAAATGGTTCCGGTCGACGTGA -GCGCATTGCGCATCAGGTGCGACAAGGTTTCTGGCTGGCAGGTTTTGTTTCCGTTCTCATTATGCTGGTGCTGTG -GAATGCAGGTTACATTATCCGCTCCATGGAAAACATCGATCCGGCTCTGGCGGACAAAGCCGTGGGTTATCTGCG -TGCGTTGTTGTGGGGCGCGCCGGGATATCTGTTCTTCCAGGTTGCCCGTAACCAGTGTGAAGGTCTGGCAAAAAC -CAAGCCGGGTATGGTAATGGGCTTTATCGGCCTGCTGGTGAACATCCCGGTGAACTATATCTTTATTTATGGTCA -TTTCGGTATGCCTGAGCTCGGTGGCGTTGGTTGTGGCGTGGCTACTGCGGCGGTGTATTGGGTCATGTTCCTTGC -CATGGTTTCTTACATTAAACGCGCCCGCTCCATGCGCGATATTCGTAACGAAAAAGGCACCGCAAAACCCGATCC -TGCGGTTATGAAACGACTGATTCAACTCGGTTTGCCGATTGCGCTGGCACTGTTCTTTGAAGTGACACTGTTTGC -CGTCGTGGCTCTGTTAGTGTCTCCGCTCGGTATTGTTGATGTCGCAGGACACCAGATTGCCCTGAACTTTAGTTC -ACTAATGTTCGTGCTTCCAATGTCGCTGGCGGCAGCGGTAACTATCCGCGTAGGTTATCGTCTGGGTCAGGGCTC -AACGCTGGATGCGCAAACCGCTGCGCGGACCGGGCTTATGGTGGGTGTCTGTATGGCAACCCTGACGGCCATTTT -CACGGTTTCACTGCGGGAGCAAATCGCCCTGTTGTACAACGACAATCCCGAGGTTGTAACGCTGGCTGCGCATTT -GATGTTGCTGGCGGCGGTATATCAGATTTCTGACTCAATCCAGGTGATTGGCAGTGGGATTTTGCGTGGTTATAA -AGATACGCGTTCCATTTTCTATATTACCTTTACGGCTTACTGGGTGCTGGGCTTGCCAAGCGGCTATATTCTGGC -ACTGACCGATCTGGTCGTTGAACCTATGGGGCCAGCAGGCTTCTGGATAGGCTTTATTATTGGCCTGACGTCGGC -AGCCATTATGATGATGTTGCGTATGCGGTTCCTGCAACGTCTGCCGTCAGCCATCATTCTGCAACGAGCATCCCG -CTAATAAAGACAAGGCGCAACCTTCACGGGTTGCGCCTGTATTTTTACGCAGGCTGGAGCGTTGCGCCAATCCCG -TCTTCGTCTGGCTGTAATTTCAGAGCGTTACACAGAGTTTGCCGACTGGCATCTGTTATCTCAACGTGTATATCC -CCGGTAACTTCCCCTTTCACATTGATGAAGTCAGGTGAAATTTCTTTTGCACTGGTTTGCAGGCAAATCGCTCCC -TCTCCGCGCAGGCGTTTCACTTTCAGTTGCACATGCGTTGCCGCATCAGTGATCAGCCACAGTTTTCCACCATTC -AGATTGATGTTACCAACAATGAAAGTGACACTGTCACCTTTTACCGTACTGCCGTCTAGAATCAACACACCGCCC -TGCTGTACAGTAATCGTTGATTGTTGCAGCTCTGCGCCATAACCAATAATCATTGAAGCGCCGTCCAGTAATGCA -ACACTCCCGGTCAGTTCAACCGGTGCGCGATCTTCCTCTACGACAAAATTTTCGTCCGCGCTGGTGGGTGACAAC -AGGATCACTGTCCCACCTTGTATTACCGCGTTTTCCAGCGTACCGGCATGCACTTCAGCCCGACCACCCACATTC -ACGGACAGGTTTTGCGTCTTACCGGAACTGTAGAGCTGAAGGCCATCCGTCCCCAGACGATAAATGGATCCATTC -TCAACAATAGTGTCAGAGTCTTCACCACCGAGATTATTCATGGTGCCACCAGCAAGCAACGTATCACTGGCTTTC -CCGGCCAGCATAAAAACGCCGCCCTGATTAATCTCACAATTGCTGGCTTCCCCACCTGGATACACCAACAATTCA -CCACCTTCATCTACCACGACCGCTGAGGTTGTCCCATTAACCAACAGGCCGCCCTCTTGATCGAGAATGATTTTT -TCCGCGCGATGTCCTTCCAGTACACGCAGGTTACCGCCATTTTCCAGCAACAAACCGCAGGCATAACCTTTATCA -ACGCTGAATTCACCTTCGGGATGGCGGCCATTAACCGTAGCGAGCGTAGAGAGACTAATTGCGCCTCCCTCGGAC -TGAACAATATCTGTGGCAATGGCACCATCGCTGACCGATAGCGTGCCATTGTTACCGTACTGTGTGCATTTGGCG -ATCCCACCGGTTGCCACTTTCAACCAGCCAGCCCCCGTGACCACGGTATTTTCGGCTCTTCCGCCAGCTTCAACA -ATCAACTCGCCTTCAGTAAGTTGCGTCGCGCCAATGACCTCGCCGGTCTTAACAATTTGCACGTTCCCGTCGCTC -ATCAAGTTTTTCGCATCAGATCCCATGATTTATTCCTTTGCTGCATCTGTGTGCCTTTATTGCTACCTAAGTGTA -AAGGCTACGGAGGATTTATCCACGACAGATTTGAGATGGTGGCAAACAACTCTGTTTAAACTCTGATACACGAAT -TATTGGGTTGTATCAGATGTAAATGCGATCCTGAATAAAAATCACCCTTGCAAATCAACAAAATATAGCCAATTT -GCTTAAAAGCTCTGCAAACGGTCGAAATAGCGCAGAAAATTACGTTTTGCCTCTTGCCACCTTCCCACTCTGCCG -CTAATATTCGTCCCCGTTGTCACCTACAACGTTGCGTTCATAGCTCAGTTGGTTAGAGCACCACCTTGACATGGT -GGGGGTCGTTGGTTCGAGTCCAATTGAACGCACCATCCTGCGTCCGTAGCTCAGTTGGTTAGAGCACCACCTTGA -CATGGTGGGGGTCGGTGGTTCGAGTCCACTCGGACGCACCAGATTTTCTTAATCTGGTCTTCTCCTTTTTCCCTC -TGTTTCTTCTCTGTATCCAATACGTTAAAAGATTTACACTGTCTTCGTATGCGTTATCAGAAGGAGAATCGCTAT -GGCAACTTTGTTACAACTTCATTTTGCTTTTAATGGCCCATTTGGCGACGCAATGGCTGAGCAGCTTAAACCACT -TGCTGAGTCGATTAATCAGGAACCTGGTTTTCTGTGGAAGGTATGGACAGAAAGTGAAAAGAACCACGAAGCCGG -TGGGATCTACCTTTTCACTGATGAAAAAAGCGCCCTTGCCTATCTGGAAAAACATACTGCCCGACTGAAAAATCT -CGGCGTTGAGGAAGTTGTCGCCAAAGTTTTCGATGTCAATGAGCCACTTAGTCAAATCAATCAGGCAAAACTCGC -CTGACAGAATTTAATCAAGGGCGGTTAGCGCCCTTTTCATCCCTGTCTGAAATTTCTCAAATTCTAAAAATCTCA -ACCAAACTTATCTGATAACACTAAATTCGAAAGAATGCGTACAGGTAAGTAACAATGAAAAAAATTGCTATTGTG -GGTGCCGGGCCTACGGGGATCTACACCTTATTCTCGCTTCTACAGCAACAAACTCCACTTTCTATTTCTATCTTC -GAGCAGGCTGACGAGGCCGGTGTCGGGATGCCATACAGTGATGAGGAAAACTCAAAAATGATGCTGGCAAATATT -GCCAGTATTGAAATACCGCCGATTTATTGTACGTATCTCGAATGGCTACAAAAGCAAGAAGACAGCCATCTCCAG -CGTTATGGCGTTAAAAAAGAAACCTTGCACGATCGTCAGTTTTTACCGCGAATTCTGCTGGGCGAATATTTCCGC -GATCAATTTTTACGACTAGTAGACCAGGCACGACAGCAAAAATTTGCAGTGGCTGTTTATGAATCATGCCAGGTT -ACCGATCTGCAAATTACAAATGCTGGCGTCATGCTCGCTACAAATCAGGATTTACCCAGCGAGACGTTTGATTTA -GCGGTGATCGCCACGGGTCACGTCTGGCCTGATGAAGAAGAAGCAACCCGAACGTATTTTCCCAGCCCGTGGTCA -GGCCTGATGGAAGCAAAGGTCGATGCGTGTAACGTGGGTATTATGGGAACATCCTTGAGCGGACTGGATGCGGCA -ATGGCAGTGGCTATTCAGCATGGTTCGTTCATTGAAGATGATAAACAACACGTCGTTTTTCACCGCGATAACGCA -AGTGAAAAGCTAAATATCACGTTGTTGTCGCGCACGGGTATTTTACCCGAAGCCGATTTCTATTGCCCTATTCCC -TACGAGCCCTTACACATCGTCACCGATCAGGCATTAAATGCTGAGATTCAAAAAGGCGAAGAGGGCCTTTTGGAT -CGGGTATTTAGATTGATAGTAGAGGAAATCAAGTTTGCTGATCCAGACTGGAGTCAACGCATAGCCTTAGAGAGC -CTGAATGTCGATTCCTTTGCTCAAGCCTGGTTTGCCGAGCGCAAACAACGCGACCCATTTGACTGGGCAGAAAAA -AATCTCCAGGAAGTCGAACGCAATAAACGAGAAAAACATACTGTTCCCTGGCGTTATGTCATTCTGCGCCTGCAT -GAAGCCGTACAGGAAATTGTTCCACATCTGAATGAACACGACCATAAACGGTTCAGTAAAGGCCTTGCCCGGGTT -TTCATCGATAATTATGCGGCAATCCCTTCAGAGTCTATTCGTCGCCTACTTGCCTTACGTGAAGCGGGAATCATT -CATATTCTCGCCCTCGGTGAAGACTACAAAATGGAAATTAATGAGTCGCGCACCGTCCTGAAAACGGAAGACAAC -AGCTACTCGTTTGACGTTTTTATTGATGCCCGCGGACAACGTCCGCTTAAAGTGAAAGATATCCCTTTCCCTGGG -CTACGCGAGCAATTACAGAAAACAGGGGATGAAATCCCTGATGTTGGCGAAGATTATACGTTACAGCAACCCGAA -GATATTCGTGGGCGCGTAGCGTTCGGCGCGTTGCCCTGGTTGATGCACGACCAGCCTTTCGTTCAGGGACTTACG -GCATGTGCAGAAATTGGTGAGGCGATGGCTCGGGCGGTCGTAAAGCCTGCATCCCGTGCTCGTCGGCGTCTTTCG -TTTGATTAAAGGTAAAGCTATCAGCACTCAACAAACTGATGCTGTTCATTAAGACGATAGCGGACTCCGGCTCGA -ATATTGTTTTCACCTTCAATGGCGACGGCGAAGCGAACTCTTTCGCCGTCATGATATGCCAGTGCGGCGCTTCCT -CCTGGCCCGAGAATAATTGAGTCGACCACGCCCGTGCTCACTACCGTTGAATTTTCACCGCTGGCAATGATGTGT -ACATTGTCGCCGCTGTTGGCAATTCTGGCGTTTGCGCCAAAGCTGGCGATTTGCACCAGGTCACCATTACTGGCG -ACATGACACCGTTCACCCAATGTACAAACGCGTACTCGCATTCCGGTATTCGCAATCCGACTGCTATCTCCAGCG -CTGCTTATCCGCGAAGAATTACCGGTTACAGCAACCCGTGCGCGTTCACCGGAGCTGCCAATGTGACTGTTAAAG -CCGACACTTCCAATCCGCACGCTATAACCCATACTGGCAATTTGCGCGGCATACCCAGCGGTTGCGATTCTGGCG -TTATCCTCACAACAGCCGATGCGAGCATGATCGTCGCTGCGGGCAAACTGACTGCAAAATGGTCTCTCTCCGGGG -TCTGTGGCCAGTTTTTGCATAGAGGAAACTTCCTGATGCGCGAAGTTTTCATCCGCCAGCCATTTTTTCCACGCA -TACTCAACCAGACTCTCCGCCCAGTCCGTATATCCTTCCTCAATCAGTGCATGATGAATATCGGCATAACTACCG -CCGCGTGGGAAATGGCGCAGGAACCAGCGATACATCACCGCTCCGATACGCCATTCTCGCAGGTCTGCTTGTGTA -ATGATCATTCGTTAGTGCCGGTGATAGCCATCGACCATGCTTTTAAAGGTTTCGTGTGGCGTACGCCCCGTGGTG -CAAAGATAAAGATGACCGAAGATAAAAAAGAGGCTTATAAATGCCAGAGCAAAATGTGTCTGCAATAACCAGTAT -CTTACGCCAGGAAACACATCTCCCACGGCTTGCGGATAGAGACACAGCAGCCCCGTCAATAGTAACAACGGCAGC -AATCCATACATGACACCAACATAGGCGACCTGCTGTAAGGGATTAAATTTAGACTGGGTTGTTGCCGGGAAAGGA -TGTTCTTCCCCCTGCATAATGCCAAACAAATAAAATCGCGTTTGTTTTGCCGCTCGTTCCAGCCACCCCTGACGA -CGAATGCGATAGTGGTGACCATTATCCCCAACGGCATTGATCAGCACAAAGCCGAGCCAGCATGCCAGTAACAAA -AATCCGCAAACTTCATGCACCGCAACCAGACTTTTAACCGCAGTTGCGCCCACCATCGCAAAGTGATTTATCAGC -CCACTGGCCAGCAACAATACAAAGAGTAACGCATTCGACCAGTGCCATAATCTGACCGCTTTGCTGTAAAGATAA -ATCTTCTCACCATGATCGGTGGCTGATTTCTTCACGCCACGAGCACGAAGCAAGGCATGCAGCCCCAGCACCAAC -CACATCCCAACCAGCAATACTCCGGCAATGATCAACCACACCGGCCAAAATTCGGGAGTGAACTGTGGCACATAG -TTCGCTAACTGGCTCTGAAACTGTTCAGCATGTTGCGACGGGTTCATACATTTTCCTTTTTAATCAAATGTTGAC -CGAACCGGCGATACAGATGCGGTTTCCCGGCACCAGGTAGCTGATATTGATAGTATTTATTTTGCTGCAACCACG -CCTGAATTTCTGGGCTATCTTCGCGACCAAAGATCAATGCGTGTTCCGGGCAGGCGCTGACGCAAATGGGCGGAA -AGCCTTTTGCCAGTCGGGACTCAGCGCAGAAATCACATTTATCTGCCACTTTAGTGACAGGGTTAAGGTAGCGAA -CCTGGTACGGACAAGCGCCAATGCAATAACTGCAGCCGATGCACTGCGATTTTTCTACCCGCACGATCCCCTGCT -CATCACGCCACGACGCCCCCGTCGGGCAAACGTCGATGCACGGAGCATCTTCGCAGTGCTGACATGACTGGCGAA -AAAAGTGATACTGCGTTTCGTTGTCGTTATCGGTGACTGGAATGTGTGCTATCGATAAACGGCTTCCCTGAGCGG -GGACGTGGTTAGTTTTACGGCATGCGCGGGCGCAAATATTACAGCCATTGCACCGTGACTCGTCATGAATCATGG -CATACCGAACTTCCTTTTCTTGCCTCGTGTTCGCTAACAGAGAAGACGCAGAACCAGTAAAAAAGATTACTGTTC -CCATCCCCAGAACAAATTTGCGTCGAGTGAAGGACATCTGATTATCCCCTAATGCAGTGGCTGCAACTGTCCACC -CTATCCATGACATCTCCCTGAAATTTCAGGGGTTCTGAAACTGCTCTACCTCGAACCATTCGCATAAGCCATAAG -CCTTGCCATAGGTCATAAATCGCTCGCTAAACAAGTACAACACCGCCGTCGATGACTCCACCTGCCGTATATCGG -CATATTCAGGTGCAACATCCATCGCGGCGATCGCGGCTTCAATCTGCGCTTCCTGGAAGTAATATGGCGCTTGCA -TCAGCATGGCGACTTTGTAAGGACGAGGATACGTCTGGCACTCAAAACGAACGGCGTGTGCAATGGCGCGACAAA -TGTCCTGCTCCACAACTTGCAAAGACATCGCCGCGTAGTTTTCACTCATGGCCTGCGTTGAGTAATAGTAATCAT -CCTTGCTTCCCGTCAAACAAGCGATATCCGCGTAGTCTCCGTTCTGCTTAATGCTTTCCAGCAAAACTGACAGTT -CCTCTTCTGCAACCAAATAGGGTGGCGAGAGAAACACGGCGCGCGCCACCAGCTGCCCAGCCGCAGAATGCTGGC -GAATGAACTCAGCCAGGATTTCAGCAGGTTCTGGTTCGGTTACCGTATCAACGGGGTGACGCATCCCCTGCAACC -ATTGCCGCTTCGCCTCGTCAACTTCGCTGACTTTCGCTAACGGCAATTCATCCTGATGGTTCATCTTACCCATTC -CTTACGCAGGCAGTAGATTGTGTGCTGCCAGATCGGCGGCAATATCTTCCAGCCCCAGACGCTGCAATGTTTCGC -GGGTTGGACAACCAAGCTGTGGGTCCCAGCCCATTTCTTTGTAGAACATCGTGAGCGAAGCATGCATATCGTCAC -GATCCATTTTGTCAGTACCTTCAGTAAAGACCGGGATCTGCGGATCCTTGTCGAATACCCAGGAACAGATAAGAT -CGTGTTCATTACGCATATCTTTGGTTTGCATCAGTTTTACCGTGTAGGCACGATGCAACGTAAAAATACGCTCTG -CAGCTAAATCTAATTTTTCCTGAGTCATCTCTTCGCCGGTGATCGCTTTGAAGAATTTGGCTTCAAGCGCCAGAT -CGCCCCGGTAATTACGGCTTTTCAGCGGCGAAACGGTCATTGGCCAGACCCAGTTGCACAGGGTGACGGCGTTAT -GCAAACAGACCCGCAACAGCGACCACTTTGCATATTTAATTTTTGCGTCATTGATTGGCGTGTAGTTTTTGGTTT -CATCGTAAGCATCTTCAGAACCAAAAAGTTCTTTCGCCACTTCACGTTGCAGTTTCAATGGCAAGCCGGAACCAA -TAAAGTTGATATGGGTATGCGTCATGCAGTCACGGTTGAACATACAGTTAACAATGGAACCGACCTGCGCTGACG -CTTCATTGGCATGGTGAACCGGATAGCCAAACGGCGACCAGAGTTTATTTTTCGCGTAGCCCCAGTACTCTTCAC -CCAAATTCCAGCGTTCTGCGATGGCATATGAACCATCAGCCAGGTGACTCAGCTCACCCACACGATGCGCCAGAC -GGTAGTAAAAATCTTTAATGAAGTTAACGTCACCCGCTTCCAGTTGATCCCAGCGAATTTCTGCATACTCTTCAG -CTGGCAGAACACGCTTGAACACACCTTTGCTGTAACAATAAGTAAAGTCGCGATGCAACTGCCCGTAGTTACACC -ATAGGCCGTAGTCATCGAACAAATTCAGACCCACCAGGTTACCAATCACACGACCATCGTCTTTATCTTCAAAAT -CTTTCGGCCCGTTCGGGAAGATGGTGGTATGGACAAAGTTTGCTACACAAGTGTTACCACCTGTGCTGGGCACGC -CAAACTCTTTCACCCGAGGAATATTCATTTGGGTCATACAACGGATCGGGCAAGAGTGGCAGCCGCTCATTTTTA -CTGTGTATTTCTCTGCCGCCGGTCCTAAGTCAAAAACGGATTTATAGGTACGAAAGCCGACCGTATTCTGATTGC -CTGGCGGAATTTCACCCGTTTCAATCGGACCACCTTCAGCCGCGCCCCAAAACAGCCCTTTACGTGCTGTCCAGC -GTGACTTGGGATCTGAATACTCTGCCCACGATTGTGGCGTACTTGGCACGACATGGTTGTTATTCGCACCAATAA -GTTCAGTCATCATGTAATCATTGAGACGCTTCATCTCCTGACGATCGGCAATGTTGACCCCTTTCGTCCCTTCAA -CCGCAATCGCTTTCAGGTTTTTCGAACCCATTATTGCGCCAGTTCCCGCACCGCCGCTGTGGTTACGGCTATTCA -ACATGCCAGAGAGAGGAACAAGGTTTTCCCCAGCCTGACCAATAGCCGCCACACAGGTTTCCGGACTGGTCAATC -GACAAATTTCTTCCGTCGTTGCGCGCGTCCCTTTTCCCCATAAGAAATCGGCTTTTTCCAGGCTAACTTTGTCAT -CTTTAATCTTCAGCCATACCGGTGATTTCGCCTTCCCTTCGATAATAATGACGTCGTATCCAGCGAATTTCATTT -GCGCTGCAAAAAAGCCACCCATATGGGCATCGACGACTAAATTTCCTTTGGTAAAAGTAGAAAGTGAGGTGATAT -TTACGCGAGAACTACAGGGGGCACCAGATCCAGTTAATGGGCCGGTAGCAAAGACTAATTTATTCGCTTCATCGA -AAGGTTTCGTGCCTGGCGGTACTTCGTCATACATAATTTTGTAGCCGAAGCCCATGCCACCGACAAAACTTTTAA -ACTTACTGGAATCTTCGAGGGTAATATTTCCTGTCGTGAGATTGACTCTTAATATATTACCTGTCCAACCGTTAG -CCATGATTTTTTCCTTTGCAAGATTCACACAGTAATATCTTTCCACTCGATAATTTTTAACGCCCCTGTTGGGCA -GGCGTTTGCGCATTCACCGCATAACACACATTTCGAGGATTTTTTACTTTCGGTATTTACGGTGGCCATCATCCA -CGGGCATGCCGTAGTACAGGCGCTACAGCCAATACAGCGTTTATGATCGACGGTAATACAGCCTTCTTTCTGCTG -CCAGGTAATCGCACCAATCGGGCAGACGTTCATGCATTGCGGCTCTTTGCATTGACGGCAGGTGTCCGCGGTATA -GTTGAGATCGCCATACAGGCCGCCGCCAGAGCCAACCCCGTTGTCGCCAAAGAAATAATTGCGATGGATTTTGAT -ACGGGAGAAGAATGTCCCTACTGAGCCATCGTTGAAGTTGGTACAAGAGATTTCACAGCGGTGGCAACCCGTGCA -TCGCGCTCGCTGGGTCACCAGCACCCCTTTGGGGGTATTTATCAACCCTACTGTGCCGCTATCAATATCTTCCTG -TTTGCAACCCAAAAGTGACAGTAACGCAGGGGCAATTGTTAGACCAGCAAGGCCTTTTCCTGATATACGCAAGAA -TTCTAATCGCGTTAAGCCAATATCTAATAGTGGACGATCAACCGGGTTCATTTATTTCGCATCCTCTTCGCAAAC -ACAGTGCTGACAATTCAGCAGCCTGATATTAAGCATTCAACTAATACGCTGCTGACTCTGTCCCCAACACCAGAT -ATTTTCCCTAACCCGATAGTGTATGAGAAAAGATTAACGCCGATAAACTAATCCTTTATGGTTAGGAGAAAAAAT -AATGTGATTATTCTGAGCCCTTAACATTGATCGTTATCAATTAAAATTACAAAGCAAGAAATTATAAGTGAACTG -ATATTTATTATCATTTGAAATAAATTTAACTTAAGCGACAATTATTTGTGACTTTCATTGCAGAAAATAAAAATA -ACATTATCGCTATAAATTAAAATACATACCGAAATTCGTATAATTTCAGCAGTTGTTATTTAGAATGATTAACTG -GACCGCAACTGAAGCAAGAATATCAGGATGAAGCTTACCGCCTCATCCTGAATGGTCATTTTACCAGTGCGTTAA -TGACGGTTTCCATCGCCTGCTTTTCCAGCTCACTGCGCTGAATGCGTTTATTGGCTAATGCTGTACGTAATACGC -CTGCGATAACAATATGCTTTGGTTCCTGCCCCAGATCGCGCATTTCCAGCACAACTTTACCGACAACTCTGCACA -TTTCTCGGTACAGTTCATCCTCTTTTGTCCGATTTCCCATTCTTTATACCTATTTATCATGCCAACTATCAGCAT -ATATCAATCTAACCAATTAAACAAAAATCAAACAAAATCAGACAAATAACGCGATAAATTATTTTAACTGTAGCA -ATTGAGCGATGATATATTTATACACCGGATGAACTTTCACTTATCCTCACACTGACAACTTCGGCACCAGACGTT -GCGCAAACAGTGAAGTTTTTGCGTAACCTTTTCCCTGGAACGTTAAATCTTTGATAACAATTTATTGTCTAACAA -GTTGTATATTTTTTGAAACGCTGTTTTTGTTTTCCTTTTGGATTAATTTCAGCGTATAATGCGCGCCAATTGACT -CTTGAATGGTTTCAGCACTTTGGACTGTAGAACTCAACGACTCAAAAACAGGCACTCACGTTGGGCTGAGACACA -AGCACACATTCCTCTGCACGCTTTTTCGATGTCACCTATCCTTAGAGCGAGGCACCACCACTTTCGTAATACCGG -ATTCGCTTTCCGGCAGTGCGCCCAGAAAGCAAGTTTCTCCCATCCTTCTCAACTTAAAGACTAAGACTGTCATGA -AAAAGACCAAAATTGTTTGCACCATCGGACCGAAAACCGAATCTGAAGAGATGTTAGCTAAAATGCTGGACGCTG -GCATGAACGTTATGCGTCTGAACTTCTCTCATGGTGACTATGCAGAACACGGTCAGCGCATTCAGAATCTGCGCA -ACGTGATGAGCAAAACTGGTAAAACCGCCGCTATCCTGCTTGATACCAAAGGTCCGGAAATCCGCACCATGAAAC -TGGAAGGCGGTAACGACGTTTCTCTGAAAGCTGGTCAGACCTTTACTTTCACCACTGATAAATCTGTTATCGGCA -ACAGCGAAATGGTTGCGGTAACGTATGAAGGTTTCACTACTGACCTGTCTGTTGGCAACACCGTACTGGTTGACG -ATGGTCTGATCGGTATGGAAGTTACCGCCATTGAAGGTAACAAAGTTATCTGTAAAGTGCTGAACAACGGTGACC -TGGGCGAAAACAAAGGTGTGAACCTGCCTGGCGTTTCCATTGCTCTGCCAGCACTGGCTGAAAAAGACAAACAGG -ACCTGATCTTTGGTTGCGAACAAGGCGTAGACTTTGTTGCTGCTTCCTTTATTCGTAAGCGTTCTGACGTTATCG -AAATCCGTGAGCACCTGAAAGCGCACGGCGGCGAAAACATCCACATCATCTCCAAAATCGAAAACCAGGAAGGCC -TCAACAACTTCGACGAAATCCTCGAAGCCTCTGACGGCATCATGGTTGCGCGTGGCGACCTGGGTGTAGAAATCC -CGGTAGAAGAAGTTATCTTCGCCCAGAAGATGATGATCGAAAAATGTATCCGTGCACGTAAAGTCGTTATCACTG -CGACCCAGATGCTGGATTCCATGATCAAAAACCCACGCCCGACTCGCGCAGAAGCCGGTGACGTTGCAAACGCCA -TCCTCGACGGTACTGACGCAGTGATGCTGTCTGGTGAATCCGCAAAAGGTAAATACCCGCTGGAAGCGGTTTCTA -TCATGGCGACCATCTGCGAACGTACCGACCGCGTGATGAACAGCCGTCTCGAGTTCAACAATGACAACCGTAAAC -TGCGCATTACCGAAGCGGTATGCCGTGGTGCCGTTGAAACTGCTGAAAAACTGGATGCTCCGCTGATCGTGGTTG -CTACTCAGGGCGGTAAATCTGCTCGCGCAGTACGTAAATACTTCCCGGATGCCACCATCCTGGCACTGACCACCA -ACGAAAAAACGGCTCATCAGTTGGTACTGAGCAAAGGCGTTGTGCCGCAGCTTGTTAAAGAGATCACTTCTACTG -ATGATTTCTACCGTCTGGGTAAAGAACTGGCTCTGCAGAGCGGTCTGGCACACAAAGGTGACGTTGTAGTTATGG -TTTCTGGTGCACTGGTACCGAGCGGCACTACTAACACCGCATCTGTTCACGTCCTGTAATATTGCTTTTGTGAAT -TAATTTGTATATCGAAGCGCCCTGATGGGCGCTTTTTTTATTTAATCGATAACCAGAAGCAATAAAAAATCAAAT -CGGATTTCACTATATAATCTCACTTTATCTAAGATGAATCCGATGGAAGCATCCTGTTTTCTCTCAATTTTTTTA -TCTAAAACCCAGCGTTCGATGCTTCTTTGAGCGAACGATCAAAAATAAGTGCCTTCCCATCAAAAAAATATTCTC -AACATAAAAAACTTTGTGTAATACTTGTAACGCTACATGGAGATTAACTCAATCTAGAGGGTATTAATAATGAAA -GCTACTAAACTGGTACTGGGCGCGGTAATCCTGGGTTCTACTCTGCTGGCAGGTTGCTCCAGCAACGCTAAAATC -GATCAGCTGTCTTCTGACGTTCAGACTCTGAACGCTAAAGTTGACCAGCTGAGCAACGACGTGAACGCAATGCGT -TCCGACGTTCAGGCTGCTAAAGATGACGCAGCTCGTGCTAACCAGCGTCTGGACAACATGGCTACTAAATACCGC -AAGTAATAGTACCTGTGAAGTGAAAAATGGCGCACATTGTGCGCCATTTTTTTTGTCTGCCGTTTACCGCTACTG -CGTCACGCGTAACATATTCCCTTGCTCTGGTTCACCATTCTGCGCTGACTCTACTGAAGGCGCATTGCTGGCTGC -GGGAGTTGCTCCACTGCTCACCGAAACCGGATACCCTGCCCGACGATACAACGCTTTATCGACTAACTTCTGATC -TACAGCCTTATTGTCTTTAAATTGCGTAAAGCCTGCTGGCAGTGTGTATGGCATTGTCTGAACGTTCTGCTGTTC -TTCTGCCGATAGTGGTCGATGTACTTCAACATAACGCATCCCGTTAGGCTCCACGGAATATTTCACCGGTTCGTT -GATCACTTTCACCGGCGTTCCCGTCCGCACGCTGGAGAACAAGGCTTTAATATCCGGTGCATTCATGCGAATACA -CCCTGAACTGACGCGCAAACCGACGCTGTCCGGCGCACTGGTACCATGAATGAGGTATTCGCCATTACCATGCGC -GAGGCGCAGTGCGTAACGTCCTAGCGGGTTATTTGGTCCGGCAGGAACGACTGGCGGTAATTTAATGCCACGCTC -CAGCGAACGCTGACGAATGCCTGCCGTAGGCGTCCAGGTTGGGTTAGGGATTTTCTGCCCAACACGCGTTTCCAT -CACCGGCGTTTCCAGCCCCTGCAATCCAATACCTATTGGATAAACCTGCACAATATTTTCTCCCGGCGGATAATA -ATAAAGGCGCAGCTCTGCAAGGTTAACGATAATCCCCTGACGCGGTGCATCAGGTAATAACAGTTGTGAAGGAAT -AGTTATCGTCGTACCAGGTTTTGGCACCGGGGCGATAGTGTTATTGGCTTCAAGGATCAACATTGCCGCAGTATC -AAAACGTCGGGCAATAGCCTGAAGGTTTTTATCCCCTTCTTGCACCGTATACGTTTGATTTTGCCCAACCAGTCG -GCTTCCGGTTGGTGGTAGCGGATAATCAACCGCCCAGGCAGCCTGGATGGCGCTAAAAGCGCCGATAAGCGTGAG -TGTAAGCAAAGACGCGCGTTTCATTGTAAACCTCCTGTATTTGCCGGAGACTCACGCTGAAACGTCGGATGGCGC -TTATGTTCACCTGAAACCAAAACACTCCTGTGCAGGTCAGTGTAAACATTGACCATCCGGCAATGTGAGCCAACC -GGATGAAAGCTGTCCTTTTAGTTTAGCTAAGTGCAGCGGCTTTGGCGCGAATTGCGCGAATCATCGCTTCCAGAC -CTTGTGAACGAGATGGGGTGAGATGTTGGGTGAGCGCCATTTTTTCAAACCACGGACGCACATCGAAATTGACAA -TATCCTGCGGCGTCATCTGATCGTAGAGAATAAAGACGACCGCAATAAGCCCTTTCACAATCGCCGCATCGCTGT -CGCCCTGTAATTCAATAATTCCCTGGGCATTCTGGCGCATGACAATCCACACCTGACTCTGACAGCCCTGAATGC -TATTTTGTGGACTTCTGTCTTCGTCGCGTAATTCTGGCAGACGCTGGCCCAGCTCAATAATGTAGAGATATTTCT -CTTCCCAGTTGGCGCAGCGTAAAAAATTACGCAGCAACTTTTCTTTATCCGGCAATAAAGCCATAGTGCCTCCCT -GTTATCCCAGCAAACGGTGAATACGTTGCAGGCCGGTCACCAGACGATCCACTTCTTCATGGGTGTTATACATGG -CCAGCGACGCCCGACACATCGCAGGGACGTTGTAATAGGCCATCAATGGCATTGCGCAGTGATGTCCGGTACGCA -CAGCAATGCCGTAATTATCGAGAAAACTGCCAACATCATAGGCGTGGTGTTTACCGAGATTAAAAGCAATAACGC -CAAGCCTGTTTTGTGGGCCATAGAGAGTGAGATCCGGTACAGATTCCAGCTGTGATAGCGCATAATGCATCAGAT -TCTGTTCATACTCGGCTATGTTATTAAGCCCCAGCGCCGAAACATACTCCAGCGCCGCGCCAAGACCAATGATGC -CCCCGGTATTGGGTGTACCGGCTTCAAACCGCCATGGTGCTTTGGTCCAGGTAGTGCCTTCACTCAGGCTGACGG -TGGCGATCATAGAACCGCCCCCTTCCCACGGCGGCATCTCCTGCAACAAGGCTTCTTTCACATAAAGAATGCCAA -TTCCGGTGGGGCCATACAGTTTATGCCCGGAGAACACGTAAAAGTCGCAATCCAGCGCCTGAACATCCACCGGAT -GATGCATCACCGCCTGAGCGCCATCCACCAGCACTTTTGCGCCATGCTGGTGCGCAAGCGTGATCATTTCCGCCA -GTGGATTTTCTGTGCCAAGCACGTTGGAGACATGAGTAATTGCCAGCAGGCGAGTTTTCTCATCAAACAGCGTAG -GCAGCGTCTCCAGTTGCAACGTACCATCGGGATTGAGCGGGATCACACGCAGCTCTGCGCCAACGCGTGCGCAAA -GCATCTGCCAGGGAACAATGTTAGCGTGGTGCTCCATCTGACTGATGATGATGTTATCGCCCGCCCGCACGTTGC -TGTTGCCCCAGCTATTGGCGACCAGATTGATCCCTTCCGTCGTGCCGCGGACGAACACCAGCTCTTCCGCCGAAC -GGGCATTAATAAACAGCGATGCCCGCTTGCGCACGTTCTCCATTTTCTCGGTCGCCTGGGCGCTTAAGGTATGAA -TACCACGATGCACCGCCGCGTAGCCATGACGATAAAACTCGGCCTCGGCGTCAATCACCTGGCTCGGTTTCTGCG -CACTGGCGGCGCTGTCGAGATAAGCCAGCGGCAAACCGTTTACCTCACGCGAAAGCACCGGAAAGTCGGCCCGCA -CTTTGTCGACGGAAAAAATCATCTTGCACCTCCTGGCAGCCGTTGACCGATTCGGGCCAGCACCTGCTGTTTAAG -CCCCTCATCACGCAGTGCTTCCGTCAGTTCGGCAGCGAAGGCGTAAATGATCATCTGCTGGGCATCCTGCTGATT -GATCCCGCGCGAGCGCAGATAGAATATCTGTTCATCATCAATACGCCCCACCGTCGCGCCGTGGCTGCATTTCAC -ATCATCTGCATAGATTTCCAGCTGCGGTTTCGTATCCACTTCCGCCAGTTTGCCCATCAGCAGATTGTTGTTGGT -CATCTGACCATCCGTTTTGATGGCGTGCTGCGCGACGTTGATCAAACCGTTAAATACCGCGCGGCCTTTGTCGCT -GACGATAGTTTTGTGCAACTGTCGGCTGTTACAAAAACCTTTATTGTGTTCCAGCCAGGTACGGGTATCACACAC -CTCGTTTTTCACCGGCATCGCCAGGCTATTGATCCGCAGCGTGCTGTTTTCGCCATTGAGTTGCGTACTGGTGTT -GTGTCGTAACACTGCGCCACCCAGCAGGAAACTGTGGCTAAATGCGGTGGCATCCTCAGCCAGCAACAAATCGTT -ATGAGCAAAGTGGTGACTGAGCGGGTTTTCAAACGCCAGCTTGATATGCTGCAAGTGGGCATTCGCTGCGACGTT -GATAGTGAACCGTGCCCCGGTAAAATGACGAGCATCATTCAGGCTGACAAAATGTTCGATCACCGTTGCTTCGGC -ACCTTCCGCCAGATCCAGATGATGTCGGTAATGGGCAGTGTTCACCTCTTCACCTGCCACGCCCTGGGTGATATG -CATTAACAGCAATGGCTTTGCCGGCCGTTGACCGCGCTTCACGGCGATATGCGTCACGCTTTGTGCCAGGCTTTC -CGTCAAATGCAGAAACACTTCCGCCTGAATAGCGTCGGGTAAACCCTGACGGTCGTCGTTAATGCTCACTTCATA -TCCGCTGCCTTCAGTTGCATCGCTCAGTGCGGGCACGTAACGCCCATCGACAAACACCAGCCGCACGGAGTCTAA -CGTTAACGCTAAGGCATCACGCTGCTGTGGGGATATCTCTCCCGCAATGCTGACAAACTGGCTATTGATCAGCCC -TTCCAGCGGCGTATATTTCCAGTTTTCATGTTTACGTGTCGGCAGTCCGGTACGCAGCAATTGTTGTAAATGCTG -CTGTGCTTGCGGGGAGCGTTTTGTCCCTTCAGCTTCAAACAAGTGATGCCACTGTTGCAGCGCGTTACTGCTGTT -CGGTAAGCCAGCCATAACCCTGCTCCTCCAGTTGTTTGACCAACGTGAAATCGCCGGATTTCACAATTCGTCCCT -GATATAGCACATGAACGTAATCAGGCTTGATGTAGTCGAGAATGCGTTGGTAGTGCGTAACAATGATGAATGAGC -GCTTGCCATCACGCAGCGAGTTCACGCCATCGGCGACCACTTTTAATGCGTCAATATCCAGCCCGGAGTCCGACT -CATCAAGAATGCATAACTCCGGTTCCAGCACCGCCATTTGCAAAATATCGTTGCGCTTTTTCTCGCCGCCGGAAA -AACCAACGTTTACCGAACGGGTTAATAAATCTTCCGGCATCTTCAGGAGAGCGATTTTCTCTTCCATCAAATCCT -GAAAATCAAAGCGGTCGAGCGTTTCCTGGCCGCGATAGCTGCGCACCGCATTAAGTGCCGTTTGCAGGAAAAACT -GGTTACTGACACCTGGAATCTCCACCGGATACTGGAAGGCCATAAAGATGCCTTCGCCCGCGCGATCTTCCGGCG -ACAGCGCAAGCAAATCTTTGCCTTTGAACTCAACCGTGCCGCCCGTCACTTCATAATCTTCTCGCCCGGCAAGCG -TTGCCGATAAGGTACTTTTGCCCGAACCGTTTGGCCCCATAATGGCGTGAACTTCGCCGGGATGAACGTCGAGGC -TTAATCCGCGCAGGATAGCTTTATCTTCCACGCTGACGTGTAAATCTTTAATACTTAACATGTTTATTCCTTATC -CGACGCTGTGTTCAAGACTGATGGCGAGGAGTTTTTGTGCTTCAACGGCAAATTCCAACGGCAGCTCCGAGAACA -CGTCTTTGCAGAAACCGTTAACAATCATCGAGATGGCGTCTTCTTCGCTGATCCCGCGTTGCAGGCAGTAAAACA -GTTGATCTTCACCAATACGTGATGTCGTTGCCTCGTGTTCCAGTTGCGCACTATTGTTACGACACTCAACATACG -GGAAGGTATGCGCCCCACAATTAGCGCCAATCAGCATTGAGTCGCACTGAGTGAAATTGCGCGCATTGGTTGCCG -TCGGCATGATTTTCACTAAGCCGCGATAACTGTTCTGACTATGTCCGGCAGAGATCCCTTTCGAGATAATGGTCG -ATTTGGTGTTTTTACCGATGTGGATCATCTTGGTGCCGGTATCCGCTTGCTGATGACCGCTGGTCAGCGCCACTG -AGTAAAACTCACCAATGGAGTTATCGCCGCGCAAAATGCAGCTGGGATATTTCCACGTAATCGCTGACCCGGTTT -CTGATTGCGTCCATGACATTTTGCTGTTTTCGCCTTCGCACAAAGCACGCTTGGTGACGAAGTTGAGAATACCGC -CGGTGTTGTTATCGCCAGGAAACCAGTTTTGTACCGTGGAATATTTCACCTCGGCGTTTTTATGGATGATGACTT -CCACCACTGCCGCGTGTAACTGATAGCTGTCACGCACCGGAGCGGAACAGCCTTCAATGTAGCTGACGTAGCTGT -CTTCGTCGGCCACCAGAATGGTGCGCTCAAACTGCCCGGTTTTTTCTGCGTTAATGCGAAAATAGGTGGAAAGTT -CCATCGGGCAGCGCACGCCTTTAGGCACATAAATAAACGTACCATCAGAGGCTACCGCCGCATTAAGCGCGGCAA -AGAAGTTGTCATTCCCCGGCACCACGGTGCCGAGATATTTACGCACCAGTTCCGGGTGATCGTGGATCGCCTCAC -CAAAGGAACAGAAAATAATTCCCTGCTCCGCCAGTTTTTCGCGATAAGTAGTGGCAACCGAAACTGAGTCGAAAA -TGGCATCCACCGCCACCTCTTTGCCTTCCCGCACGGGAACGCCCAACTGCTCAAACGCCGCCTCCACCTCTTTAC -TTAAAAAGGCGTTCGCGCCAGTTTGCTGCACCGCGCCAGGTTCAGACGCGCAAGTGTCGTCACAATTACCGCACG -ATGGTGCTGAGTAGTAGCTGTAATCCTGATAATTCAGCTTGTCGTAGTGCGCTTTCAACCAGTGCGGTTCTTCCA -TCTCCAGCCATGCGCGATAGGCGTTTAGACGAAACTCCAGCATCCACTCCGGCTCATTACGCTTCGCCGAAATTG -CGCGCACCACCTCTTCGTTTATCCCCTTTGCCAGCTCATCGGTGGCTAACTGGGTGAAGAATCCTTCTTTATAAT -TCAGCGGGCCGCCGGTCCAGGTTTTGACATCGTCAGTTGCTTCAGTATTACGAGACATAGTACCGCCTATACCCC -AAAGCTTTCGCCACAGCCACATTCATTCTGGGCTTTAGGGTTGTGAAATTTGAATATCTGATTAAGTCCTTCACG -AACGAAATCGACTTCCGTGCCATCAATAAACGGCATCGCTTGCAGCGGGACAAACAGCTTCGCGCCGTCGTGTTC -AAACAGCAGATCGTCTTTGTCCGGCTCGCTAACACTGTCGAGCACATAGCCAAAGCCCGCGCAGCCCGTTTGCTT -CACGCCTAAGCGCACGCCGACCATACCCGGCTGCTTTGCCACCAGCTCACGGATGTGTATCGCCGCTGCGGGTGT -CAGCGTTAAGCCTTGCCAGGCGAAATCTTGTGGGTTAAAGGTTCCTGAATGCATGTCCATCGATTTACCTCACTT -CATCGCTTTCAGCGTATAACAGCATGTTAGTGATAATGATTATCAGTTCAACCCAGCAAACGCAGGGGCTTTACC -GTAAAACATGCTTTTTGCCTGCTTTTAATAAGCATAGACCCTGATGTGTGGGTTAACAGGCACGCTAAGAATTAG -GTATCTCATTGTTAGATAATGGTTATTATCTAAGGAGCATTAAGGCTGTGATGAAAAAGAAAAAGTTGTATTGAA -AATGACTATTTAAGAGATAGGTAAAAAAGTGCAGCGTTCAGAAATAAGAAAACCCTTAAGTCTGTGCGACACAGG -CTTAAGGGTTTCTACCCCATCCGGCGCTTATCTCCGGCACTCTCAGTGGCTTAGCTCTTGAAGGGGCGATAAGAA -TAATCTCATAAAGCTAACCCGCCGTTTTAACACAAACTGCGATTAGTATTATTTTTGAACAATATCAGGCGGTAG -ATAAGCAGTATTAAGAAGGTCATCGAACCTGGACGGAGGTTAATCCAGGTCGATTTGGCGAACTTGCGGCATTAA -GTCAGGATCAATGCACGCCCAGACGCCAGGCAAAGTAGATTTCTTCTTTTAATTCAGCAGAAGAGAGAGTAAGCA -GGTCAGCAAATTCAAGTTCTAGTTGTTTCAGACGTTTGAGATATTGGGCAGGTGAAAGATTGCTCTGGTCACGGC -GTAAAAATTCAATGGCCAGCTGGGTGGGATCAAGTTGAGTAGACATAGCATCCTCGCTTTTAGACAAGACCTGCA -CAGTATACCACCGTTTACTGTGCAGATAATGACCAAAAGCAATATGCGTCACACTTTTCTGGTGACAACGTCACA -AAATGGCGGTCGTCAATCGTGACGAACAGCACAAACGCCCTTTCTCATCGAAGATTTCAATCTGCCAGACCTGGT -GACGCGAACCGAGATGCAACGGTTTGCATACGCCGCGCACCCGCCCTTCTCGTGCCGAGCGGACGTGGTTAGCAT -TGATTTCCAGACCAACCACTTTTTGCTCACCTTCGGTACATAAATAACCGGCAACGGAACCGATACTTTCGGCCA -GTACCACGGATGCTCCTCCATGCAGCAACCCGAAAGGCTGCTTTGTCCGCGAGTCTACTGGCATTGTCGCTTCAA -GGGTGTCATCACCAATATGTTCAAAGCGAATATCCAGGAACCCCACCATGTTTCCTTCACCCATAGCATTCAGTG -CTTCCAGGGTGATTTTCCGTTTCCATATCATTTAATAATCTCCAGTAAAGCCTGCACAGGATGGCGTACCCCCGT -GCCTTCAACCCGTTTTACCTGGCTACGGCAGGAATATCCGGTCGCCAGACAGCGGTTACGCGGCAGTCGCTGCAT -AGCCTGATGCCAGGATAACTCATAGATCCCGAGCGAATTTTCATGGTTTTTCGCTTCATGTCCGTAAGTCCCTGC -CATGCCGCAGCAACCCACGCTGACATTTTCCAGTTTCGCGCCAAAACGGGCAAATATCGCGGCCCATTGTGCTGG -CGCACCCGGCAAGGCGGTAACTTCGGTACAGTGACCAAAGAAATACCATGATTCACCGCTGACTGTAGCCACTGG -CTGTGACTCAAGTGCGCTTGCCAGCCATTCATTCGCCAGTAAGACGTTAAACTCGCCACGCTCCTCGCCCAGCGC -CAGTTTATATTCATCGCGATAACAAAGTACCAGCGCCGGATCGACGCCCACCATTGGCATACCCAGCTTCGCCAT -ACGGTTGAGGAAATCCGCCGTCTTTTTCGCCGTCTTCGCAAAACGATTAAGAAAACCTTTAATATGCTGGGCTTT -GCCATTTGGCGAAAATGGCAGTAACACAGGCTGGAAACCTAATTTTTCGACCAGACGGACAAAATCCGCCACCAC -TTGCGCATCGTAATAGCTGGTAAAGGGGTCCTGCACCACCAACACTGTGCGCGCTTTCTGCTCTGCATTGAGAGA -TTCAAGCTGTTCCAGCGTCATGTTTGCCGAGCGATGCCCCACCATTTGTTGTTGTAGCGAGGGGACCGACAGCAG -CGGCAAATCAACCATGCCGATATGTTTTTCCGAGAGTTTGCGCACCAGCGGCTGGTTAATGAAGAAGTTAAAGGT -TTTCGGCGCGCGTGCCATCAGCGGCGCGTAGCTCTCGACCGTAGCGACGAGGTGGTCGCGCAGCGGGCGTAAATA -ACGGGTGTGATAGAGCTGCAGAAAACGAGAGCGAAACTCCGGCACATCAATTTTGATGGGGCACTGGGTCGAACA -CGCTTTACAGGCCAGACAGCCCGACATCGCCTCTTTGACTTCGTGTGAGAAGTCATATTCGCCTTTATTCGCATG -CCAGCTATTGCGCGTGCGGGCAATTAACGTCCGCAAACTGACGCCGGATTCAGGCAGTTCTTGTTCCAGTTTGAG -TGGATCAACGCCGCGATCCGCCAACAAACGCAGCCATTCACGCACCAGCGTTGCGCGCCCTTTCGGTGAATGAAT -CCGGTTCTGGGTGATCTTCATCGACGGACACATCGGACTACGGGCATCAAAGTTGAAGCATAAACCGTTGCCGTT -ACACTCCATCGCACCGCGCCACTGCTGGCGTACCGCAATGGGGATCTGCCGATCGAATGTACCGCGCTTCACCGC -GTCCACTTTCATCATCGGCGCATCGAGACCTTCTGGCGGGCAAATCTTCCCTGGGTTGAGTCGGTTATGCGGGTC -AAATGCCGCTTTCACTTTGCGCAGTTCTGCAAAAAGTTCCTCACCGAAAAACGCCGGGCTGTATTCAGCGCGAAA -ACCTTTGCCGTGCTCGCCCCACAACAAACCACCGTATTTCGCAGTCAGCGCCACCACGTCATCAGAGATTTGCTT -CATCAAAATCTCTTGTTGAGGATCGCACATATCCAGCGCTGGACGGACGTGCAAGACACCTGCGTCGACGTGACC -GAACATACCGTAGCTTAAGCCGTGGCTGTCGAGCAGCGCGCGAAATTCAGCAATATAATCCGCCAGGTGTTCCGG -CGGTACGCAGGTATCCTCAGCAAACGGAATTGGCTTAGCGGCACCTTTGGCATTGCCAAGCAGACCAACGGCTTT -TTTGCGCATTGCATAGATACGTTCAACCCCCGCCAGCTCACGGCACACCTGCCAGCCGATGACACCTGCTTGATG -ACTGGCGATCAGCTCATCCAACCGCGCACAGAGTGCATTTACCCGCTCATCAATCAGCGCCTCATCATCACCAGC -AAATTCCACAATGTTCAGCCCGAGCATCTCTTGGTCAGGCACATCGGTAATCAACTCGCTGACGGAATGCCAGAC -AATATCTTCCCGCGCCAGATTCAGCACTTTTGAGTCCACCGTCTCTACCGAAAGCGCCCGCGCCTCAACCATAAA -CGGCGCGTTACGCAGCGCAGAGTCAAAAGAGTCATATTTGACGTTCACCAGACGGCGCACTTTAGGCAAGCGTGT -AATATCCAGCCGCGCTTCGGTAATAAAGGCCAGCGTCCCTTCTGAACCCGTCAGAATGCGCGTCAGGTCGAACTC -GGTCATCTCATCGTTAAAGACATGACGCAGATCGTAACCGGTAAGAAAGCGGTTAAGTTTGGGGAAGTTGTCGAT -AATTAACTGGCGTTGCTGACGGCAACGTTGATAAACCGTGTTATAAATTCGCCCGATTGTGGTATTGGATTTACC -CAGCGTTTCCGCCAATTCGACGGGTAAAGGTTGCGTATCGAGAATATCGCCCCCCAACAACACCGCGCGTACGCC -AAGTACGTGATCTGACGTTTTGCCATAGACCAGCGATCCCTGACCGGATGCATCGGTATTGATCATCCCACCGAG -CGTTGCCCGGTTGCTGGTCGAAAGTTCCGGCGCAAAAAAGTAGCCGAACGGTTTCAGGTACTGATTGAGTTGATC -TTTTATCACCCCGGCCTCAACGCGCACCCAGCCCTCTTCAGGGTTAATTTCGATGATGCGGTTCATATGGCGGGA -CATATCAACAATAATCCCCTGGTTGAGCGCCTGACCGTTAGTGCCGGTGCCGCCGCCGCGGGGGGTAAAGATCAG -CGATGAATAGCGTTCCTGCGCGGCAAGACGGGCGATCAGCGCCACATCTGCGGTTGAACGCGGAAATACCACCGC -ATCGGGGAGAAGTTGGTAAATACTGTTGTCGGTCGACATTGTCAGACGATCGGCATAACTTGTCGCCGTATCGCC -GGTAAAACCTTGTTGCTCCAGCTCTTGCAAAAAATTAAGCACCAGTTGAACGACGCCGGGTGCCTGGGAAATCTG -TGGAATCATTATATTGACCCTTTCCTGCGGTCTGTGATGTAGGTCGATACACTATTCTTTCAGGCTGCTGCAATA -GCGCACTGAAAGGTGATGTTTGTTTACTCTATGGATTTCGTGTTGCAGGAAGGCGGCAAGCGAGTGAACTCCAGG -AGCTTACAATAGTAAGTGACTGGGGTGAACGAACGTAGCCGCAGCACATGCAACTTGAAATACGACGAGTAAATC -GTTTGCGTGTTGCCTGAGTTGTTGTACCACATTTTTTTCTAACACGCCCATCAGAATTAAGGGCAGAATCGGCCT -GTTAAAAACCGCTGAAATTGCTCATCATTATGCAGGTGAGTTTCGCGTGTTCACGTCGCGTCGACGATTTGACGC -ACAAAAAAGGTGAAAAGTAGTTATGGTAAATGTTCGTCAGCCCAGGGATGTCGCACAAATTCTGCTTTCGGTGCT -GTTTTTAGCCATCATGATTGTGGCATGTCTGTGGATTGTTCAACCCTTTATTCTCGGCTTTGCATGGGCCGGTAC -GGTGGTTATCGCCACCTGGCCGGTATTGTTACGTTTGCAAAAGATCATGTTTGGCCGCCGCTCTCTCGCCGTTCT -GGTGATGACGCTGTTATTAGTGATGGTGTTTATCATCCCTATTGCTTTGCTGGTTAACAGTATCGTCGACGGCAG -CGGCCCGCTAATTAAAGCCATTTCCAGCGGTGACATGACGTTACCCGATCTGGCGTGGCTTAATACCATTCCGGT -GATTGGCGCGAAGCTGTATGCAGGCTGGCACAACTTGCTGGATATGGGGGGGACGGCGATCATGGCGAAAGTCCG -CCCTTATATTGGCACCACCACCACCTGGTTCGTTGGGCAGGCGGCGCATATCGGGCGCTTTATGGTGCATTGTGC -GCTGATGCTTCTCTTCAGTGCCCTGCTGTACTGGCGCGGTGAACAGGTGGCACAAGGCATTCGCCATTTTGCAAC -CCGTCTGGCAGGCGTTCGCGGAGATGCCGCCGTGCTGCTGGCGGCACAGGCTATCCGCGCGGTGGCGCTGGGTGT -GGTGGTGACGGCGTTAGTACAGGCAGTGCTTGGCGGTATCGGCCTCGCCGTATCCGGCGTACCTTATGCAACGTT -GCTAACGGTGTTAATGATCCTCTCCTGCCTTGTCCAGCTTGGCCCGTTGCCGGTACTGATTCCGGCGATTATCTG -GCTCTACTGGACTGGCGATACCACCTGGGGAACGGTATTGTTAGTGTGGAGCGGTGTGGTTGGCACGCTGGATAA -CGTCATCCGCCCAATGTTAATTCGCATGGGTGCCGATTTACCGCTGATCCTGATTCTCTCTGGCGTTATTGGTGG -TTTGATTGCTTTCGGGATGATCGGTCTGTTTATTGGTCCGGTTCTGTTAGCCGTTTCCTGGCGTCTGTTTGCCGC -GTGGGTGGAAGAAGTCCCGCCGCCGACGGACCAACCGGAAGAAATTCTCGAAGAACTTGGCGAAATCGAGAAACC -GAATAAGTAATTTCTCATCAGGCGGCTCTGCCGCCTGATTGTTAACCACCGCTAATTGATATTTGCTTGCTCTTC -CCCATATTTTCCTGCTTACCGCCATTCAGCTGGTAGTACCTGTCGCAAATTCTTTACAGTTTTTAAACTAATGAG -ACGAATCTGATCGACGCAAAAAGTCCGTATGCCTACTATTAGCTCACGGTTATAAATCAACATATTGATTTATAA -GCATGGAAATCCCCTGAGTGAAACAACGAATTGCTGTGTGTAGTCTTTGCCCATCTCCCACGATGGGCTTTTTTT -TAACATTTTTCCGCTTCGCTACCTCGCCCCTCACTCTTTCCAATAATGTTGCACAAGATACTGTGACTCTCTTCA -AGCCGTCAGCAGGCTGATAATGTTATTTATATTTTATTGTTTATTTCATGCAGCCATTACACGATGAACGCTTAT -GAACTCCAGGCACTCCGCCATATTTTTGCCATGACTATTGATGAATGCGCGACCTGGATTGCCCAGACCGGTGAC -AGTGAAAGCTGGCGTCAGTGGGAAAATGGCAAGTGTGCCATTCCTGATCGTGTAGTCGAGCAACTGTTGGCTATG -CGTCAGCAAAGAAAAAAACATCTTCATGCCATCATAGAGAAAATAAATAACCGCATCGGCAACAACACCATGCGT -TTTTTCCCCGACTTAACCGCATTTCAACGAGTCTACCCTGATGGCAATTTTATTGACTGGAAGATCTATCAATCG -GTAGCTGCTGAATTATATGCACACGATCTGGAGCGGCTTTGTTAATTTTTCCACAGAAAGGAATTGTCGTTGTTA -CAACAATAATGAACGGATGCTGACACAACATCGCTTCACTTTTTAAAGCACCTTTGCTAAGTAGAACCTATGAAA -AATCCCTATTTCCCTACCGCACTTGGGTTGTATTTTAATTACCTGGTGCATGGTATGGGCGTCCTTTTGATGAGC -CTGAATATGGCCTCGCTGGAGACACTTTGGCAGACTAATGCCGCGGGTGTCTCGATAGTTATCTCATCGCTGGGC -ATTGGTCGATTAAGTGTCTTGCTTTTTGCAGGATTATTATCCGATCGCTTTGGTCGCCGCCCTTTTATCATGCTC -GGGATGTGCTGCTATATGGCCTTCTTTTTTGGCATCCTGCAGACCAATAACATCATTATCGCTTATGTTTTTGGC -TTTCTGGCGGGAATGGCAAACAGTTTTCTCGATGCAGGCACTTATCCCAGTTTGATGGAAGCTTTTCCACGCTCA -CCTGGGACAGCCAATATTTTAATTAAAGCATTTGTTTCCAGCGGACAATTTTTATTACCGCTAATCATTAGCCTG -TTAGTGTGGGCTGAACTGTGGTTCGGTTGGTCCTTTATGATTGCTGCAGGCATTATGTTTATTAACGCTCTGTTT -TTATACCGTTGTACGTTCCCACCCCATCCGGGTCGTCGCTTACCTGTCATAAAGAAAACCACCAGCTCTACGGAA -CATCGCTGTTCAATTATCGATTTAGCCAGTTATACCTTATATGGCTATATCTCAATGGCAACGTTTTATCTGGTT -AGCCAGTGGCTGGCACAGTACGGACAATTTGTTGCAGGCATGTCATACACTATGTCGATCAAACTACTCAGTATC -TACACCGTGGGTTCGCTGCTTTGTGTATTTATTACCGCTCCACTCATTCGTAATACCGTTCGCCCAACAACATTA -CTGATGCTGTACACCTTTATCTCATTTATTGCTCTGTTTACCGTCTGCCTGCATCCCACATTTTATGTGGTGATA -ATATTTGCTTTTGTCATTGGTTTTACCTCTGCTGGAGGTGTTGTGCAAATTGGCCTGACGTTAATGGCTGAACGT -TTCCCTTACGCTAAAGGTAAAGCTACAGGGATCTATTACAGTGCGGGCAGTATTGCGACCTTTACTATTCCGTTG -ATTACGGCTCATCTGTCCCAAAGAAGTATTGCCGATATTATGTGGTTCGATACCGCCATCGCTGCCATCGGTTTT -TTACTGGCACTGTTTATCGGCTTACGCAGCCGCAAAAAAACGCGGCATCACTCGCTAAAGGAAAATGTCGCTCCG -GGTGGGTAATGCAATATTCTTTTCAGGTCATGCAAGATCTTACGGATAAATAACTCTTTCTGCGCTAACTAAGGA -AAATCGCGATCAAAAACAAACTATGACATGCAATATTCCTGGAAACATAAACTTTATGCCATGTACCCAGGGAAA -ATCATCTTCAGTATAGTAATTATGTAAACCGTCGGAGAACAATACGTACGGTAACGAAATTATCTTTCAGCAAGG -AGCTGTGAAAATGTCTCAAAATAAGGCTTTCAGCACGCCATTTATCCTGGCTGTTCTTTGTATTTACTTCAGCTA -CTTCCTGCACGGCATTAGTGTTATTACGCTTGCCCAAAATATGTCATCTCTGGCGGAAAAGTTTTCCACTGACAA -CGCGGGCATTGCCTACTTAATTTCCGGTATCGGTTTGGGGCGATTGATCAGTATTTTATTCTTCGGTGTGATCTC -CGATAAGTTTGGTCGTCGGGCGGTGATATTAATGGCAGTAATAATGTATCTGCTATTCTTCTTTGGTATTCCCGC -TTGCCCGAATTTAACTCTCGCCTACGGTCTGGCAGTGTGCGTAGGTATCGCTAACTCAGCGCTGGATACGGGTGG -CTACCCCGCGCTCATGGAATGCTTTCCGAAAGCCTCTGGTTCGGCGGTCATACTGGTTAAAGCGATGGTGTCATT -TGGGCAAATGTTCTACCCAATGCTGGTGAGCTATATGTTGCTCAATAATATCTGGTACGGCTATGGGCTGATTAT -TCCGGGTATTCTATTTGTACTGATCACGCTGATGCTGTTGAAAAGCAAATTCCCCAGCCAGTTGGTGGACGCCAG -CGTAACTAATGAATTACCGCAAATGAACAGCAAACCGTTAGTCTGGCTGGAAGGTGTTTCATCGGTACTGTTCGG -TGTAGCCGCATTCTCGACCTTTTATGTGATTGTGGTGTGGATGCCCAAATATGCGATGGCTTTTGCTGGTATGTC -AGAAGCTGAGGCATTAAAAACCATCTCTTATTACAGTATGGGCTCGTTGGTCTGTGTCTTTATTTTTGCCGCACT -ACTGAAAAAAATGGTCCGGCCCATCTGGGCTAATGTATTTAACTCTGCACTGGCAACAATAACAGCAGCCATTAT -CTACCTGTACCCTTCTCCACTGGTGTGCAATGCCGGAGCCTTTGTTATCGGTTTCTCAGCAGCTGGCGGCATTTT -ACAGCTCGGCGTTTCGGTCATGTCAGAGTTTTTTCCCAAAAGCAAAGCCAAAGTCACCAGTATTTATATGATGAT -GGGTGGACTGGCTAACTTTGTTATTCCACTGATTACCGGTTATCTGTCGAACATCGGCCTGCAATATATCATTGT -TCTCGATTTTACTTTCGCGCTGCTGGCCCTGATTACCGCAATTATTGTTTTTATCCGCTATTACCGCGTTTTCAT -TATTCCTGAAAATGATGTGCGGTTTGGCGAGCGTAAATTTTGCACCCGGTTAAACACAATTAAGCATAGAGGTTA -AAGGAGTTAATTATGGATGTTACCGCAAAATACGAATTGATTGGGTTGATGGCCTATCCTATCCGCCACAGTTTA -TCGCCCGAAATGCAGAATAAAGCCTTAGAAAAAGCGGGATTGCCATTTACCTATATGGCCTTCGAAGTGGATAAC -GATAGCTTTCCTGGAGCAATTGAAGGATTAAAAGCCCTCAAAATGCGCGGAACTGGTGTATCGATGCCGAACAAA -CAACTGGCGTGTGAATATGTTGATGAATTAACACCAGCTGCCAAACTGGTGGGGGCCATCAACACCATCGTTAAT -GATGATGGCTATCTGCGTGGCTATAACACCGACGGCACGGGCCATATTCGCGCCATTAAAGAGAGCGGTTTTGAT -ATCAAAGGCAAAACGATGGTGCTGTTAGGGGCCGGTGGTGCCTCAACGGCAATTGGCGCGCAGGGGGCAATTGAA -GGTTTAAAAGAAATTAAACTCTTTAACCGTCGGGATGAGTTCTTCGATAAAGCCCTCGCCTTCGCGCAGCGGGTT -AATGAAAACACCGATTGTGTCGTCACGGTCACCGATCTCGCCGATCAGCAAGCCTTTGCTGAAGCCCTGGCTTCC -GCCGACATTTTAACCAATGGCACAAAAGTGGGTATGAAACCCCTTGAGAATGAATCATTGGTTAATGATATCAGT -CTGTTACATCCGGGACTTCTGGTCACTGAATGCGTGTATAACCCGCATATGACGAAGTTATTGCAGCAGGCGCAA -CAAGCTGGTTGCAAAACGATTGATGGATACGGCATGTTGTTGTGGCAAGGGGCTGAACAGTTCACATTATGGACT -GGCAAAGATTTCCCTCTGGAATATGTTAAACAGGTCATGGGGTTCGGTGCCTGACAGGCTGACCGCGTGCAGAAA -GGGTAAAAAATGAAAACCGTAACTGTAAAAGATCTCGTCATTGGTACGGGCGCACCTAAAATCATCGTCTCGCTG -ATGGCGAAAGATATCGCCAGCGTGAAATCCGAAGCTCTCGCCTATCGTGAAGCGGACTTTGATATTCTGGAATGG -CGTGTGGACCACTATGCCGACCTCTCCAATGTGGAGTCTGTCATGGCGGCAGCAAAAATTCTCCGTGAGACCATG -CCAGAAAAACCGCTGCTGTTTACCTTCCGCAGTGCCAAAGAAGGCGGCGAGCAGGCGATTTCCACCGAGGCTTAT -ATTGCACTCAATCGTGCAGCCATCGACAGCGGCCTGGTTGATATGATCGATCTGGAGTTATTTACCGGTGATGAT -CAGGTTAAAGAAACCGTCGCCTACGCCCACGCGCATGATGTGAAAGTAGTCATGTCCAACCATGACTTCCATAAA -ACGCCGGAAGCCGAAGAAATCATTGCCCGTCTGCGCAAAATGCAATCCTTCGACGCCGATATTCCTAAGATTGCG -CTGATGCCGCAAAGTACCAGCGATGTGCTGACGTTGCTTGCCGCGACCCTGGAGATGCAGGAGCAGTATGCCGAT -CGTCCAATTATCACGATGTCGATGGCAAAAACTGGCGTAATTTCTCGTCTGGCTGGTGAAGTATTTGGCTCGGCG -GCAACTTTTGGTGCGGTAAAAAAAGCGTCTGCGCCAGGGCAAATCTCGGTAAATGATTTGCGCACGGTATTAACT -ATTTTACACCAGGCATAAGCAATAATATTTCGGCGGGAACACCCTCCCCGCCGAACTAAAAAATATATTCAATCG -TATTTAATAAAAATATTTCGTGAGTCTCTGTGCGCTAATTCTCCATTTGGCGTAGGGAAAATCACATCTGAATCA -GGAATTAACAATGAAACCTGTAAAACCACCTCGTATTAATGGACGAGTGCCGGTCCTGTCGGCACAGGAAGCGGT -GAATTATATTCCCGACGAAGCAACACTTTGTGTGTTAGGCGCTGGCGGCGGTATTCTGGAAGCCACCACGTTAAT -TACTGCTCTTGCTGATAAATATAAACAGACTCAAACACCACGTAATTTATCGATTATTAGTCCAACAGGGCTTGG -CGATCGCGCCGACCGTGGTATTAGTCCTCTGGCGCAAGAAGGTCTGGTGAAATGGGCATTATGTGGTCACTGGGG -ACAATCGCCGCGTATTTCTGAACTCGCAGAACAAAATAAAATTATTGCTTATAACTACCCACAAGGTGTACTTAC -ACAAACCTTACGCGCCGCCGCAGCCCACCAGCCTGGTATTATTAGTGATATTGGCATCGGGACATTTGTCGATCC -ACGCCAGCAAGGCGGCAAACTGAATGAAGTCACTAAAGAAGACCTGATTAAACTGGTCGAGTTTGATAACAAAGA -ATATCTCTATTACAAAGCGATTGCGCCAGATATTGCCTTCATTCGCGCTACCACCTGCGACAGTGAAGGCTACGC -CACTTTTGAAGATGAGGTGATGTATCTCGACGCATTGGTTATTGCCCAGGCGGTGCACAATAACGGCGGTATTGT -GATGATGCAGGTGCAGAAAATGGTTAAGAAAGCCACGCTGCATCCTAAATCTGTCCGTATTCCGGGTTATCTGGT -GGATATTGTGGTGGTCGATCCGGATCAAACCCAACTGTATGGCGGTGCACCGGTTAACCGCTTTATTTCTGGTGA -CTTCACCCTTGATGACAGTACCAAACTTAGCCTGCCCCTAAACCAACGTAAATTAGTTGCGCGGCGCGCATTATT -CGAAATGCGTAAAGGCGCGGTGGGGAATGTCGGCGTCGGTATTGCTGACGGCATTGGCCTGGTCGCCCGAGAAGA -AGGTTGTGCTGATGACTTTATTCTGACGGTAGAAACAGGTCCGATTGGCGGAATTACTTCACAGGGGATCGCCTT -TGGCGCGAACGTGAATACCCGTGCCATTCTGGATATGACGTCCCAGTTTGATTTTTATCACGGTGGCGGTCTGGA -TGTTTGTTATTTGAGTTTTGCTGAAGTCGACCAGCACGGTAACGTCGGCGTGCATAAATTCAATGGTAAAATCAT -GGGCACCGGTGGATTTATTGATATCAGTGCCACTTCGAAGAAAATCATTTTCTGCGGCACATTAACTGCGGGCAG -TTTAAAAACAGAAATTACCGACGGCAAATTAAATATCGTCCAGGAAGGACGGGTGAAGAAATTTATTCGGGAACT -ACCGGAAATTACTTTCAGCGGAAAAATCGCTCTCGAGCGAGGGCTGGATGTTCGTTATATCACTGAGCGCGCAGT -ATTCACGCTGAAAGAAGACGGCCTGCATTTAATCGAAATCGCCCCTGGCGTCGATTTACAAAAAGATATTCTCGA -CAAAATGGATTTCACCCCAGTGATTTCGCCAGAACTCAAACTGATGGACGAAAGATTATTTATCGATGCGGCGAT -GGGTTTTGTCCTGCCTGAAGCGGCTCATTAACAGGAGTATAATGATGGATTTTTCTTTAACTGAAGAACAAGAAC -TGCTGCTGGCCAGTATTCGCGAACTGATTACGACTAACTTTCCGGAAGAGTATTTCCGCACCTGCGATCAAAACG -GGACATATCCGCGTGAGTTTATGCGGGCGCTGGCGGATAACGGTATTTCCATGCTTGGCGTGCCGGAAGAATTTG -GTGGTATCCCTGCGGATTACGTCACCCAAATGCTGGCGCTGATGGAAGTGTCAAAATGCGGTGCTCCGGCATTTT -TAATTACCAACGGTCAATGTATTCACAGTATGCGCCGTTTCGGTTCTGCAGAGCAGCTACGTAAAACGGCAGAGA -GCACCCTGGAAACGGGTGATCCCGCCTATGCCCTGGCGTTGACGGAACCAGGTGCTGGCTCAGATAACAACAGTG -CCACTACCACTTACACGCGTAAAAACGGCAAGGTCTACATCAACGGACAAAAAACCTTTATTACCGGTGCGAAAG -AGTACCCGTATATGCTGGTGCTGGCGCGCGATCCGCAACCGAAAGATCCCAAAAAAGCCTTCACCCTGTGGTGGG -TCGACTCCAGTAAGCCCGGCATTAAGATTAACCCGCTGCATAAAATCGGCTGGCATATGCTCAGCACCTGCGAAG -TCTATCTCGACAACGTGGAGGTTGAAGAGAGCGACATGGTGGGCGAAGAAGGAATGGGTTTCCTCAATGTGATGT -ACAACTTTGAGATGGAGCGCCTGATCAACGCCGCGCGCAGCACCGGCTTTGCCGAATGCGCCTTTGAAGATGCCG -CCCGCTATGCCAACCAACGTATCGCTTTTGGTAAGCCCATTGGTCATAACCAGATGATCCAGGAAAAACTGGCGC -TGATGGCGATTAAGATCGACAACATGCGCAACATGGTGCTGAAAGTGGCATGGCAAGCCGATCAGCATCAGTCAC -TGCGCACCAGCGCGGCGCTGGCAAAACTGTACTGTGCACGTACCGCAATGGAAGTCATTGATGATGCGATTCAAA -TCATGGGCGGTCTGGGCTATACCGATGAGGCGCGCGTCTCCCGCTTCTGGCGTGATGTCCGTTGTGAACGTATCG -GCGGCGGTACAGACGAAATTATGATTTACGTAGCAGGTCGGCAGATCCTGAAAGACTATCAGAACAAATAATCTG -CAGGCGGCGCAGCTTCTTAACAAACTGCGCCGCCAGATTTATCCAACAAGACTTACCGGTTGAGGAAATTCAGAT -AGGATTTCTTGTTCCGCAAAACAGTTTTTAAATTGTCTACGGTAATCGCTGGGCGAACAACCGACATGGCGCAAA -AACAGTTTGGCAAAGTGATCGACATTTTCATAACCCACACGCCAGGAGATCTCTGCCTGTGATAATTCAGTATTA -GTGAGTGACCATTTTGCTTCCGTCATACGCCGTTGAATAACATAGTTAATAGGGGAAATACGATACTCTTTGGTA -AATTCATGGCAAATATAACTGACGCTGGCACGAAATTTTTTCGATAACTGTTCTAAAGTGATTTTTTCGCGATAA -TTATTATTCAGATAGAAAAGAATATCTTTTATCAGAACATCTTTTTTAATATACCCCTGCTCCGAACGATAAGCA -TTTTTAAAATTTTCGTAGTAAAGAATGGCTAACGTATAGGCAAATGCATCCCATAACGAAGATGTTTGGCTATTT -TTACTTTGCGGCAAAATCACACTTAGCTCATTAAATAAGGTTTTTATGACTTCTTTTCCCTGCCCCGCGGCAATT -ACCGGACAAGAATGCGGTTGCAGTAGCTGATTTTCCTCAGCCCCCTGAAACTGAAAGCCGTACAGCGCACAGGTA -CACGTCGTTGCCGGATCGTTAACGTCAGAGGCCACCGCATGCAGCCTGCCGCGTTCTATCACCACAATGTCATCC -GCATGTGCGACATATAACGAAGAATCGATGGTAAACCTTGCAACCCCTTTCTTGACGTAAATCAACTCGGTTTCA -TTGTCATGAACGTGATGTCCGGACTCCCATTTTGGATCATCGCTAAATGCAAAACGTGAAAGCCGTGGCGTTTTA -CCGGCGACAAACAGCGTTTCACTGGCGTTATCAAAACAGCGTTGATACATGACAACCTCCCTATTCCATGAGCAA -GCAAAAACAATATATGCCGGATAAAATACGGCGTGTATTGCGGTTATACAACCGCGTTTAGCGAGAGCTAAACAA -GATTATTTACACTGAATGCAAGATTGTACGGTCATGGAATAACTATATTGCCGCAAATTGCACTTTTGTTTTAGC -GATCGCATTTTTTTTGCAAGATTGTTGGCAAGGAAAACAGCTTGCTCCGTCGAAAACCCCGCACCGCTATCGCAC -ACTATTTTCAGGCCATTTTTACCTTCCATCGGAGATGGTTCCGTATGCGACTCACAGGAGAAATCATGAAAATAA -TAACCTGCTTTAAGCTGGTGCCTGAAGAACAGGACATTGTTGTCACTCCAGAATACACCCTGAATTTCGACAATG -CCGACGCCAAAATCAGCCAGTTCGATCTCAATGCCATTGAAGCTGCAAGCCAGCTCGCAACAGATGACGATGAGA -TAGCCGCGCTGACCGTTGGCGGCTCATTGTTGCAGAACTCGAAAGTGCGCAAAGACGTGCTATCCCGCGGGCCGC -ACAGCCTGTATTTGGTGCAGGATGCGCAACTTGAACATGCACTGCCTCTCGATACCGCAAAAGCGCTGGCGGCAG -CAATTGAAAAGATCGGCTTCGATTTACTGATCTTTGGTGAAGGTTCCGGCGACCTTTATGCCCAGCAGGTTGGCT -TGCTGGTCGGAGAAATTCTGCAACTTCCGGTGATTAATGCAGTGAGTGCTATTCAGCGTCAGGGCAATACACTGG -TGATTGAACGCACGCTTGAAGATGATGTTGAAGTTATTGAACTCTCTGTTCCAGCCGTGCTCTGCGTCACCTCCG -ATATTAACGTGCCACGCATTCCTTCGATGAAAGCCATTCTCGGCGCGGGTAAAAAACCGGTAAATCAGTGGCAGG -CAAGTGATATTGACTGGAGCCAGAGCGCGCCACTTGCTGAACTGGTCGGCATTCGCGTACCGCCGCAAACAGAAC -GTAAGCACATCATTATCGATAACGATTCGCCGGAGGCCATTGCCGAGCTGGCGGAACATCTGAAGAAAGCCCTGA -ACTGAAGCCTACGGAGAAGAAACGATGAGTCAATTAAACAGCGTCTGGGTCTTTAGCGATAATCCTGAACGTTAT -GCTGAACTGTTTGGCGGCGCTCAGCAATGGGGCCAACAGGTGTATGCCATTGTACAAAATACCGACCAGGCGCAG -GCAGTTATGCCTTATGGTCCAAAATGTCTTTATGTTCTTGCGCAAAACGACGCGCTGCAACGCACTGAAAATTAC -GCCGAAAGCATTGCTGCCCTGCTGAAAGATAAACACCCCGCTATGTTGCTGTTGGCCGCGACGAAACGTGGTAAA -GCGCTGGCAGCACGGTTAAGTGTGCAACTGAATGCGGCGCTGGTGAACGATGCCACGGCGGTGGATATTGTCGAT -GGTCACATTTGCGCCGAACACCGGATGTATGGCGGGTTAGCGTTCGCTCAGGAAAAGATCAACAGCCCGCTGGCG -ATCATTACCCTTGCACCCGGTGTTCAGGAACCGTGCACCAGTGATACCTCTCATCAGTGCCCGACAGAAACGGTA -CCTTATGTTGCTCCGCGTCATGAAATTCTCTGTCGCGAACGCCGTGCGAAAGCCGCAAGCAGCGTGGACCTGAGC -AAAGCAAAACGTGTGGTTGGCGTCGGTCGTGGACTGGCGGCGCAGGATGACCTAAAAATGGTCCACGAACTGGCG -GCGGTGCTGAATGCTGAAGTCGGCTGTTCACGTCCAATTGCCGAAGGCGAGAACTGGATGGAGCGTGAACGTTAT -ATCGGTGTCTCCGGCGTGTTGCTGAAATCCGATCTCTACCTGACGCTGGGGATCTCCGGGCAGATCCAGCATATG -GTTGGCGGCAACGGCGCAAAAGTGATTGTCGCCATCAATAAAGATAAAAATGCGCCAATCTTCAACTATGCCGAC -TACGGTCTGGTGGGCGATATCTACAAAGTCGTCCCTGCCCTGATTAGCCAGTTGAGCCGCTAATTCCCCTTTCAA -CCACATCTCCCGCTGTAAACGCAGCGGGAAGGGAGCATAACGCATGTCGGATGACAAATTTGATGCCATTGTGGT -CGGTGCGGGCGTTGCTGGTAGCGTTGCCGCACTGGTCATGGCACGAGCCGGGCTGGATGTCCTGGTGATAGAACG -CGGCGACAGTGCCGGATGTAAAAACATGACCGGCGGGCGTCTTTATGCCCACACACTTGAAGCAATCATTCCAGG -CTTTGCAGTATCAGCGCCGGTAGAACGCAAGGTCACACGCGAGAAAATCTCCTTCTTAACCGAAGAAAGCGCCGT -TACCCTCGATTTTCACCGCGAGCAGCCAGATGTTCCGCAACACGCATCTTATACCGTATTGCGTAATCGTCTGGA -CCCGTGGTTGATGGAACAAGCCGAGCAGGCGGGCGCGCAGTTTATCCCAGGCGTTCGCGTCGACGCGCTGGTTCG -TGAAGGAAACAAGGTCACTGGCGTGCAGGCTGGGGATGATATTCTCGAAGCGAATGTGGTGATTCTGGCTGATGG -CGTTAACTCGATGCTTGGCCGCTCGCTGGGAATGGTTCCCGCTTCCGATCCGCATCATTACGCTGTTGGTGTTAA -AGAGGTTATTGGCCTCACACCAGAACAGATCAACGATCGCTTTAATATTACGGGCGAGGAAGGTGCCGCCTGGCT -GTTTGCCGGTTCCCCTTCTGACGGCCTGATGGGCGGGGGATTTCTCTATACCAACAAGGATTCCATATCCTTGGG -GCTGGTTTGTGGATTGGGTGATATCGCCCATGCGCAAAAAAGCGTGCCGCAAATGCTGGAAGATTTTAAACAACA -CCCCGCCATTCGCCCGCTGATTAGCGGCGGCAAACTGCTTGAATATTCCGCGCATATGGTGCCGGAAGGCGGTCT -GGCAATGGTGCCGCAACTGGTTAACGAGGGCGTGATGATCGTTGGTGACGCCGCAGGCTTCTGCCTGAATTTGGG -TTTTACGGTCCGCGGCATGGATTTAGCCATTGCATCGGCTCAGGCTGCCGCCACAACGGTGATCGCCGCCAAAGA -ACGCGCGGATTTCTCCGCCAGCAGTCTGGCGCAATACAAACGTGAGCTGGAACAAAGCTGCGTCATGCGTGATAT -GCAGCATTTTCGCAAGATCCCGGCGCTGATGGAAAACCCGCGCCTGTTTAGCCAATACCCACGAATGGTAGCCGA -CATCATGAACGAGATGTTCACCATCGACGGCAAACCAAACCAGCCGGTACGAAAAATGATCATGGGACATGCGAA -GAAAATTGGGCTGATCAACTTGCTGAAAGATGGCATTAAGGGAGCAACCGCGCTATGAGCCAGAACGCTACGGTT -AACGTCGACATCAAATTAGGCGTCAATAAATTCCATGTTGATGAGGGCCACCCGCATATCATTCTGGCGGAAAAT -CCCGATATCAATGAATTCCATAAATTAATGAAAGCCTGCCCTGCCGGACTTTATAAGCAGGATGACGCAGGAAAC -ATTCATTTTGATTCCGCCGGTTGTCTGGAGTGCGGCACCTGTCGGGTGCTGTGCGGTAACACTATTCTCGAACAG -TGGCAATATCCCGCAGGCACCTTCGGTATTGATTTTCGCTACGGCTAATCATGCATCCCACAGGCCCGCATCTCG -GGCCTGATGTTCTGTTTCGAGAGTCCAACATGAAAGTGACATTAACGTTTAACGAACAACGTCGTGCGGCGTATC -GTCAGCAAGGGTTATGGGGCGATGCTTCGCTGGCCGATTACTGGCAGCAGACCGCTCGTGCGATGCCAGACAAAA -TTGCCGTGGTCGATAATCATGGTGCATCGTACACCTATAGCGCGCTCGATCACGCCGCGAGCTGTCTGGCAAACT -GGATGTTAGCGAAGGGTATTGAATCAGGCGATCGCATCGCATTTCAACTGCCTGGCTGGTGTGAATTTACCGTTA -TCTATCTTGCCTGCCTGAAAATCGGTGCAGTTTCCGTGCCGCTGTTGCCTTCCTGGCGGGAAGCAGAACTGGTGT -GGGTGCTCAATAAGTGTCAGGCAAAAATGTTCTTTGCACCGACGTTGTTTAAACAAACGCGTCCGGTAGATTTAA -TCCTGCCGCTGCAAAATCAGCTTCCACAACTACAACAAATTGTCGGCGTGGACAAACTGGCTCCCGCCACCTCTT -CCCTCTCATTAAGTCAGATTATCGCCGACAATACCTCACTGACCACGGCGATAACGACCCACGGCGATGAATTAG -CTGCGGTGCTGTTTACCTCCGGAACCGAGGGTCTGCCAAAGGGCGTGATGCTAACGCATAACAATATTCTCGCCA -GTGAGCGGGCTTATTGCGCGCGACTGAATCTGACCTGGCAGGATGTCTTTATGATGCCTGCGCCACTTGGTCACG -CAACGGGCTTTCTGCATGGCGTAACGGCACCATTCTTAATTGGCGCTCGCAGCGTGTTGTTAGATATTTTCACTC -CTGATGCGTGTCTCGCGCTGCTTGAGCAGCAGCGTTGCACCTGTATGCTCGGCGCAACGCCGTTTGTCTATGATC -TTTTGAATGTACTAGAGAAACAACCCGCGGACCTTTCAGCGCTGCGTTTCTTTCTTTGCGGCGGAACCACAATCC -CCAAAAAAGTGGCGCGTGAATGCCAGCAGCGCGGCATTAAATTATTAAGTGTTTATGGTTCCACAGAAAGTTCGC -CGCATGCGGTGGTGAATCTCGATGATCCTTTGTCGCGCTTTATGCACACCGATGGTTACGCTGCCGCAGGTGTAG -AGATTAAAGTGGTCGATGACGCACGCAAGACCTTACCGCCAGGTTGCGAAGGTGAAGAAGCCTCGCGTGGCCCCA -ATGTGTTTATGGGGTATTTTGATGAACCTGAATTAACCGCCCGTGCCCTGGATGAAGAAGGCTGGTATTACAGCG -GCGATCTCTGCCGTATGGATGAGGCTGGCTATATAAAAATTACCGGACGCAAAAAAGATATTATTGTCCGCGGCG -GCGAAAATATTAGCAGCCGTGAAGTGGAAGATATTTTATTGCAGCATCCTAAAATTCACGATGCCTGTGTGGTTG -CAATGTCCGATGAACGTTTAGGTGAACGATCATGCGCTTATGTCGTGCTGAAAGCGCCGCATCATTCATTATCGC -TGGAAGAGGTAGTGGCTTTTTTTAGCCGTAAACGGGTCGCAAAATATAAATATCCTGAACATATCGTGGTAATCG -AAAAACTACCGCGAACTACCTCAGGTAAAATACAAAAGTTTTTGTTAAGAAAAGATATTATGCGGCGTTTAACGC -AGGATGTCTGTGAAGAGATTGAATAAGTTTCATCTTCGGGGATCACATAACCCCGGCGACTAAACGCCGCCGGGG -ATTTATTTTATTTCTTCAGTTCAGCCAGGCTTAACCAGGTTTGCACCACGGTGTCCGGGTTCAGAGACAGGCTAT -CGATCCCCTCTTCCATCAACCATGCGGCAAAGTCTTCGTGGTCGGACGGACCCTGACCGCAAATCCCGACATATT -TGCCCTGTTTCTTCGCGGCACGGATAGCCATCGACAGCAGTGCTTTCACCGCATCGTTGCGCTCATCGAACAATT -CAGACACCACGCCGGAGTCACGGTCCAGACCGAGCGCCAGCTGCGTCATATCGTTTGAGCCAATTGAGAAGCCGT -CGAAATATTCGAGGAACTGCTCGGCCAGCAAGGCGTTGGACGGGATTTCACACATCATGATGATTTTCAGCCCGT -TCTCGCCACGTTTCAGCCCCTGACGCGCCAGTTCTTCAACCACCGCTTTCGCCTGATCTACGGTACGCACGAACG -GGATCATGATCTCAACGTTGGTCAGTCCCATGTCGTTGCGCACACGTTTCACTGCTTCACACTCCAGCGCGAAAC -AGTCGCGGAAGCTGTCGGAAACATAGCGGCCCGCGCCACGGAAGCCGAGCATCGGGTTCTCTTCATCTGGCTCGT -AACGCTCACCACCGACCAGGTTGGCATATTCGTTCGATTTAAAATCAGAGAGACGGACAATGACGCGCTTCGGAT -AAAACGCGGCACCCAGCGTCGCGATCCCTTCAGTCAGACGACCAACGTAAAATTCACGCGGAGAATCAAAACCTT -TCATCATCTCGCGGATTTCGTTTTGCAACTGCGGTTCCTGATCGTCAAACTCAAGCAGTGCGCGTGGGTGGACGC -CAATCATACGGTTGATGATAAATTCCAGACGCGCAAGGCCCACGCCTTCGTTCGGTAGGCAGGCGAAGTCGAAAG -CACGGTCCGGGTTACCGACGTTCATCATCACTTTCAACGGCAGATCCGGCATCGTTTCTACGCTGGAGCTTTTCA -CGCTAAATTCCAGCAACTCCGCATAGACGTAACCGGTATCACCTTCGGCACAAGAAACAGTGACGTTCTCACCGT -CTTTCATCCGTTCTGTTGCATCTCCACAGCCCACTACCGCCGGAATGCCCAGTTCACGAGCGATGATCGCCGCGT -GACAGGTACGACCGCCACGGTTGGTGACGATGGCAGATGCTTTCTTCATGATCGGTTCCCAGTCCGGGTCGGTCA -TGTCAGTAACCAGCACGTCGCCAGGTTCGATGCGGTTCATTTCGCTGATGTCATGGATGACTTTCACCGGACCCG -CACCGATGCGATGACCGATAGCACGGCCTTCGGCGATAATCTTACCCTGTGAATGCAGCGTATAACGCTCCATGA -CCTGACCGCGTGAGCGCACGGTTTCCGGACGCGCCTGCACAATGAACAGTTTACCGGTGTGGCCATCTTTCGCCC -ACTCAATATCCATCGGGCGACCGTAGTGTTTCTCAATTTGTACGGCCTGTTTTGCCAGTTCCTGCACTTCTTCGT -TGGTCAGCGAGAAGATGTCACGCTGTTCCTGCGGTACGTCTTCGATTTTAACCTGCTTGCCGTGCTCCTGGGTCG -GCGCGTAAACCATGCGGATTTTTTTCGACCCCATGGTGCGGCGCACGATAGCCGGGCGATTCGCCGCCAGTGTCG -GTTTATGCACGTAAAACTCATCCGGGTTAACCGCACCCTGCACGACCATCTCACCAAGGCCCCATGCGGAAGTGA -TAAACACCACCTGGTCAAAGCCGGATTCGGTATCAATGGAGAACATCACGCCAGATGATGCGAGGTCAGAGCGCA -CCATCCGTTGAACACCGGCGGAGAGCGCCACACCACGGTGATCGTAACCCTGGTGCACACGATAAGAGATGGCGC -GATCGTTAAACAGAGAAGCAAATACATGTTTCACTGCCACGAGAACGGCGTCAAAACCCTGAACGTTGAGGAAGG -TTTCCTGCTGACCGGCAAAAGAAGCGTCCGGCATATCTTCTGCGGTGGCGGAGGAGCGCACCGCAAAAGAGGCGT -TTTCGTCATCGGCGGAAAGCTGTGCATAGGCTTCGCGGATGGCGTTTTCCAGCTCAGGCTGGAAGGGAGTGTCGA -TAATCCACTGGCGGATTTGCGCGCCCGCTTTCGCAAGCTGAGTAACATCGTCAATATCCGTTTTATCCAGCAGTT -CATAAATGCGCTGGTTTACGCCGCTTTGGTCCAGAAACTGGTTAAACGCGTCGGCGGTTGTGGCGAAACCATTCG -GAACGGAAACACCCATTCCGGAAAGATTAGTAATCATTTCACCCAGGGAGGCATTTTTGCCCCCAACCCTGTCTA -CATCATTCATGCCGAGTTGGTTATACCAAAGCACCAGCGGTGACGAGCCATTGTTGGACATCGAACAATCCTTTT -GTGATAAATGAACGGTTTGAGAAACACATTTCTGCGCATTTATCTTTGCATATTTAACCGGATGAAAAAAACGGT -GAATCGTTCAAGCAAATATATTTTTTTACTTTTTAAGACTGATCCCAGCGTTGCGCAAATCTGCTCTCTTCGACA -ATTTCCACATAAACCATCGGTATAAACGAAACCATAAAAATGAAATGCTGTTTTCATAAAAAATAAAATTGAAGG -TTCATTTTATAAACCAGACATAACGTTCTACGCTTCTGTGCGTTTTTAATTTATGCTTTCATAGAATTATGTCTG -CATCACGGGAAGAACAAAATGGATAATGCTGTTGATCGCCACGTTTTTTATATTTCTGATGGTACGGCAATAACT -GCGGAGGTATTAGGACACGCAGTAATGTCACAATTTCCCGTCACTATCAGCAGCATCACGCTGCCGTTTGTCGAA -AATGAGAGCCGTGCACGGGCAGTGAAGGATCAGATTGACGCAATTTATCACCAGACAGGCGTGCGCCCGCTGGTC -TTCTACTCCATCGTGTTGCCGGAGATTCGCGCCATCATCTTGCAAAGTGAAGGCTTTTGCCAGGATATCGTTCAG -GCGCTGGTTGCCCCGCTACAACAAGAGATGAAACTGGATCCAACGCCGATTGCTCATCGTACCCATGGCCTTAAC -CCTAATAATCTCAATAAATATGATGCGCGCATTGCGGCGATTGATTACACCCTCGCCCACGATGACGGCATTTCG -TTGCGCAATCTGGACCAGGCTCAGGTGATCCTGCTCGGTGTTTCTCGCTGTGGTAAAACCCCCACCAGTCTGTAT -CTGGCAATGCAGTTTGGTATCCGCGCGGCAAACTACCCCTTTATTGCCGACGATATGGATAATCTGGTGCTACCC -GCGTCGCTCAAACCGCTTCAGCATAAATTGTTCGGCCTGACTATCGACCCGGAACGTCTGGCGGCGATTCGCGAG -GAACGTCGGGAGAACAGTCGCTATGCCTCGCTTCGTCAGTGCAGGATGGAAGTCGCGGAAGTGGAAGCCTTGTAC -CGTAAAAATCAGATCCCGTGGATTAACAGTACCAATTATTCGGTAGAAGAGATTGCCACCAAGATCCTCGATATC -ATGGGCCTTAGTCGCCGAATGTACTAGAGAACTAGTGCATTAGCTTATTTTTTTGTTATCATGCTAACCACCCGG -CGAGGTGTGACACACCTCGCACTTGAAATCAGCAGCGATTGGTTTATCGTGATGCGCATCACTTCCCGGCAGTCC -TGCCGTAGAAGCAACAAATTTCTGAGACTTGTAATGAACAGAACTGACGAACTCCGTACTGCGCGTATTGAGAGC -CTGGTAACGCCCGCCGAACTCGCGCTACGGTATCCCGTAACGCCTGGCGTCGCCACCCATGTCACCGACTCCCGC -CGCAGAATTGAAAAAATACTGAATGGTGAAGATAAGCGACTGTTGGTCATTATTGGCCCCTGCTCGATCCACGAT -CTCACCGCTGCAATGGAGTACGCCACCCGTCTGCAGTCGCTGCGCAACCAGTACCAGTCACGGCTGGAAATCGTA -ATGCGCACCTATTTTGAAAAACCACGAACTGTTGTCGGCTGGAAAGGACTAATCTCCGATCCAGATTTAAACGGC -AGCTATCGGGTAAATCACGGTCTGGAGCTGGCGCGCAAATTACTTTTACAGGTAAATGAGCTGGGCGTCCCAACC -GCGACCGAGTTCCTCGATATGGTGACCGGTCAGTTTATTGCTGATTTAATCAGTTGGGGCGCGATTGGCGCACGT -ACTACCGAAAGTCAGATCCACCGCGAAATGGCTTCGGCACTCTCCTGTCCGGTAGGTTTTAAAAATGGTACCGAT -GGCAATACGCGGATTGCTGTGGATGCTATCCGCGCAGCCCGCGCCAGCCATATGTTCCTCTCGCCAGACAAAAAT -GGTCAGATGACCATCTATCAGACCAGCGGCAACCCGTATGGCCACATTATTATGCGTGGCGGCAAAAAACCGAAT -TATCATGCCGATGATATCGCCGCAGCCTGCGATACGCTGCACGAGTTTGATTTACCTGAACATCTGGTGGTGGAT -TTCAGCCACGGTAACTGCCAGAAGCAGCACCGTCGCCAGTTAGAAGTTTGTGAGGATATTTGTCAGCAAATCCGC -AATGGCTCTACGGCGATTGCTGGAATTATGGCGGAAAGTTTCCTGCGCGAAGGAACGCAAAAAATCGTCGGCAGT -CAGCCGCTCACTTACGGTCAATCCATTACCGACCCGTGTCTGGGCTGGGAGGATACCGAACGCCTGGTCGAAAAA -CTCGCCTCTGCGGTAGATACCCGCTTCTGAATGCGTGCCCATTCCTGACGGAATGGGCATTTCTGCGCAACTTGT -TGTCTTCTCAACAAATTACTGCTTGCTCTGGTCAGCCATAATATTGATAATAAGAATCATTGTTATATCAATTAT -TATTAATTTTTATGCGTTATACGGATAGCAGAAAACTCACGCCTGAAACGGATGCCAATCACAAGACCGCTTCCC -CGCAGCCTATTCGGCGAATTTCCAGCCAGACACTGTTAGGTCCGGATGGCAAACTGATTATCGATCATGACGGGC -AAGAATATCTGCTCCGTAAAACTCAGGCTGGCAAGCTGCTGTTGACCAAGTAGCCTTTAACTCGAGCAGCTGACT -TCCAGCCGTTTACCCCAGTCAGGTGGACGACTGACATAGTCATCATCTCTGTCGCTGAAAGGATTTCGCAACGCC -TCATGCAGGCGGTGCAATTCCGTCATATCACCCTTTTCTGCCGCTTCAATCGCCCGTTGCGCCAACCAGTTGCGC -AATACCAGAGCGGGGTTAACGCTTTGCATCAGTTGCTGACGCTCACTATCGCTAACCTCGTCTTGTTGCAAACGC -CCCCGATAACGGGCAAACCAGTCATCAAATGCCGCACGATCAATAAACTCATCACGTAGCGGTGACGCCGCGCTG -TGCTGCTCGGTCAGACTCAGCATGCGGAATGTGCGGGTATAATCGCTGCGCTCTCGCGCCATCAGACTGAATAAT -TCATTCAGTAGCGCGTTATCCTCTTTTTGCTCCGTCATGAAGCCCAGTTTCTGCCGCATCCGTTCTCCATAATGC -GTCAACAAAACCTGCTGATAGCTGTCCAGGGCCTCATTCAGGGCATCTACGGCAACAAATGGCGACAATGTCTGC -GCCAGACGCTGTAAATTCCACAACGCGACGGCAGGTTGATTATCAAAGCTGTAACGCCCTTGATGATCCGAGTGA -TTACAAATAAAACCGGGTTCGTAATCATCAAGAAAACCAAACGGCCCGTAATCAAGCGTCAGCCCCAGCAGCGAC -ATGTTGTCGGTATTCATCACCCCATGAGCAAAGCCGACCGTCTGCCATTGGGCAATTAACGACGCGGTACGTGCG -ACAACATCGCTAAACCAGAGACGGTATTTGTCCTCATCATCTGCAAGATGTGACCAGTAATGACGAATAGCAAAG -TCAGCTAACTGACGAACCTTTTCCGACTCGCGGCGGTAGTAAAAATGTTCGAAATGACCAAAGCGCAGATGACTT -GGTGCCACACGCATCAGCATCGCGCCTGGCTCCGCCGTTTCCCGATACACTGGCGAATCGCTGGTGACGATACTT -AACGCGCGGGTCGTCGGAATGCCCAGATAATGCATCGCCTCACTGGCGAGACTTTCTCGTATCGTCGAACGTAAA -ACCGCCCGTCCATCACCCATTCGCGAATAAGGCGTCAGGCCAGCACCTTTCAGATGCCAGTCCATTGTAGTGCCA -TCAGCAAGCAGTTGTTCGCCGAGTAAAATGCCGCGCCCATCACCCAGTTGGCCCGCCCAGACGCCGAACTGATGA -CCACTGTAAACCTGCGCCAGTGGTGACATACCAGGCAGTAGGGCTTCGCCGCCCCAGACACCTGCGCCATTTTTA -AACAGCGACGATGGAATACTCAGCGTGTTAGCCAGTTCGGTATTATGCCAAATCAGCCGGGCATTATTTAAAGGC -GTAGGGGAAAGTGCTGTATAGGTTTCTGGCAATTCATCGCGCCAGCGGGTAACAAAAGACAGGGTCATAGATCCT -CCTGTTTGATAGTGTAGACGGTTACTCTCGTCTTAAACACCAGCAAACAGAAGGGTTATCGCTGAACCAACGTCG -TTATCTGATTTATGGGAACGGCAGGCCACAGGCATCCCTGGAGAGCATGGAAATCGAAGGGGGTAATCTGTGCCA -ATATTTCTGCCGTATCAATGCCTCCCGCAATGATGCAATTGCAACAAGGGGAAATTTGCGCCTGGATCGCACGAA -TAAACGGTTCGAAGGAGCGGTGCGTGATTTGTTGCTGAATAAAACTTTTATCCAGCATGACGCGGGTGAAAAGAC -CATCAAAAACCGCTTTCATTGTGCTATTGCCTGCTCCCAAATTACCTAACACAAGGGGATACACTTGCGATAAGG -ATAAAAGACCGCGATTATCTTTTCCTTCATTGAGATGCGGGTAATTCTCATTAATCAACAGTTCAATAAACGGAT -ATTTTAATAGTTCGCCTGCGTAATTATCCCTCTCTAATAATAATGTAGCCACTTGTGGCGTTAAATTAAGCCAGG -CAAAGAGTTTATGTTGAATAAAAAAATGTTGGCATGATTTTAGTAATTCCAACTGCTCTGAAAATAATTGCCAAT -GTTGCTCCTCGGTAAGTTGCGCTATAACCCGACTCGTCGGGATACGAACCGTACCATCTTCACTGGAGAAATGGG -TAATTAACTCAACGCCGACAAGGACTTGCTGGTTGTCTCTTATCGGCAGGAAATAGCAATCAGAATGATAAAGAT -TCTCCAAAAAAATCTTCATGGTAACCGTCCCTCTCGAAGGATGTTTTTCAGTATCCGGCTAAAAGGGATGAGGCC -ATAAGACATAACAATTACAGAAGGAGTAACTTTCATTTGTTCCATGTTAACCACTTTTTCAGGGGTCCTTTTTTT -AGATTATCCTGATTATAAACGAATAATCCATTTACGGAATTTTTGTCTGCAAAATACTACTGTATTCAGGAGTAA -ATGGACGGCGATGTATCATCGCCGTCCATTTTTCGACATACTAGATTCGTCTCGCCTGCCAGAAATTTTTCTGCC -AATAGACATTATCAAGTGAGGAACGCATCACTCCCTTGCTGGTAGAGGCGTGGATAAATTGGTTGTTGGTATCGT -AAATACCTACATGCAAACCATTTTGTCCGGACCCCGTTTTGAAAAAGACCAGGTCACCTGGCAGCAACTCGTCTT -TATCAATTTGCGTGCCAATAGAGGCTTGTTGTTTGGTTTCACGGGGCAGCTGCAAATCGAAACGATCGCGCATCG -TCACAACCACAAATCCCGAACAGTCCACACCGCGCCGCGTCATGCCACCATAACGATACGGCGTGCCATGCCAGC -TTTGTAGCTGGTCGTTCAAACCGGCAATAACGGTAATCGAATCAGAAAGTCTGGCATTTGGCGGCGGTGCTTTAT -GGTGGCTACACCCGGCCAGAAGCAGTGCTGTGATCAAAATAAGGCAGAAACGCATTCCGTACGGTTCCTCTGTTT -TTTATTCTTGCATTAATTTAGCGTCGTAATTACCCGATTTTCAAGATACTAATGAAATCAGATGGTCGAAATCAG -CATTCTGTGACCTTCGATATCCAGACGGCGAAAATTCATCCCATAGGCCTGCGCCAGATTTGGCGGCGTGAGCAC -CTCTTCCCTGCGTCCACTGGCCAGCATTTTTCCACCTTTTAGCAACCACGCCCGATGCGCATGACGCAATGTGTG -GTTGAGATCGTGACTGCTCATCACAATCGCCAGTCCTTGCTGACACAGCGCGCTCAGAATTTTGTCTAACGCACT -TTGTTGCGCAACATCAAGACTGTTCATCGGCTCATCAAGAAGCAGCAATTGGCCTGCGGGATTGGCTTGTGGTGT -GATTTGCAACACCACCGCAGCAAGACGTACGCGTTGCCATTCACCGCCGGAAAGTTGATTGGTGCTACGTCCGAG -TTTGTCATCAAGAGCCAGCGCCCCTGCGACATCATTCAGTAGTTCGGTACGCGTTTTATCGTGCTGATGCAGTGT -CAGGTAGTGCCAGACCGGCGTTGCAAACGGCGGCGTCTGCTGTTGTGAAAGATAGGCGCGATGCAGCGCGAGTTT -TGTTGCGGACCATGCTTCCAGTGGTTGCCCCGCGAACTGAATGCTTCCCTTACCGCTGGTCATTCCGGCCATTCG -CGCCAGTAAGGTACTCTTACCCGCGCCATTCGGCCCCACCAGGTGCAGGATCTCCCCAGCCCGAACCTCGCCAGA -AAGCGGCCCCAGGCGGGTAGATTCCGCAACATCTTGTAACTGCATCACAATAGACATTATTTTGCCAACGCCAGT -TTAATGCTTTCCATCACAATGGGATCTTCCGGCGTCATATCCGGGGAAAAACGCTGGATGACTTTTCCGTCCCTG -CCAACCAGGAATTTTTCAAAATTCCATAAAATATCATCCGGGTACAGCGGTGCACGGCCTTTGCTGACCATACGG -GCATAGAATCCGCTCTCTTCCGGCGCGACTGCGGTCGGCGCTGCGGCAATCAATTTTTGATACAGCGGATGGCGT -CCTTCGCCATTAACTTCAATCTTACTGAACATCGGGAACGTCACCCCCCATGTGGTGGTACAGTAAGTTTTAATC -TCTTCATCGCTGCCCGGTTCTTGTTCCAGAAACTGGTTGCACGGGAATCCCAGCACCATAAAACCTCGATCGACC -CAGGCTTTCTGAATATTCTCCAACTGCTCATATTGCGGCGTTAAGCCACACTTTGAGGCGACATTGACAATCAAC -AGCACATTACCGGCGAACTTCTCCAGCGTGGTCACTTCACCGTCGATATCTTTCACTACGGTCGTCAGAATGGAA -TCTTGCATCGTTTCTCCTGGGTGTGGTCAGTAAAAATCTTAGCTTTTAATCATAGACCGTCTTTTTGCGGCTAAC -GTCCTGCTTTTAACAATAACCAGATAAACACCGGCGCACCTAACGTTGCGGTGACCACGCCAATAGGCAGCTCTG -CGGCAGCTAATGCCAGGCGCGCTACAATATCGGCCAGCAGCAATGCGCTCGCCCCTGCCAGCGCGCAGCCGGGAA -GTAATACGCGATGATCGGTTAAACCACACAACCGGAGAATATGGGGGATCACCAGACCAATAAAGCCGATAGCAC -CCGCCAGCGCCACACTGACGCCAACCATCCAGCCGGTCGCTGCCACCAGCACATTGCGCCAGAACCACAGGGGTA -AACCCAGTTGCCGCGCCGAGATCTCGCCAAGTGCTAACATATTCATCGGCCTGGACTGACAACAGATCCACAACA -ACACGGGGATCAATGCCAGCATCAGCCAGCTTTGCCGCCAGTCTACGCCGCCAAAACCGCCCATCATCCAGTACA -TCAGCTGACGCAAATCAACTGAGGTGGAAAAGTAGATAGCCCACGTCATTAGTGCGCTACAGATAATCCCTAATG -CAACGCCAGCCAGCAATAACCGACTGGTCGAAAGATGACGACGGGCGAAACGTAAGAGTATTAAAGTGATGATAA -GCGCGCCAGCAATCGCACACAGCCCTAGCGCCCAGTTGGGGAGTTGCCCTTGCCCAAGCAATACCGCGGCGATAA -GCCCCACGCCTGCGCCGTTAGAGACGCCAAGTAGTCCAGGTTCTGCCAGAGGATTTTCAAACAACGCCTGCATTA -CAGCGCCGGATATAGCCAGCGCCGCACCAACCAGCAATACAGCCAGCGTACGTGGCAGGCGAATTTGCCAGACGA -ACAGTTCGCCACGAGGAGTAAACCAGTCACCTGGCGAGATCCATTGTTCACCGGCGCAAAGGCTTAAGAGAAGCG -CCAGCAGCATCAAAACTGACAGGCATAATAACCAGCGAATATTTTGTCGCTGTTGTTGGCGGGCAAGTGTCAGCA -TGGTATCCGTTCTGCTGAAGTGTCATGGCGTTGATTTTACGGTGACTCTTCGACAGTGAAAAGAAAAAAGGCCGC -AGAGCGGCCTTTTTAGTTAGATCAGATTACTCGTCTTTGGGCGAAGCGTTTTCGACCCGGCTTTTTAACTTCTGC -CCGGGTCTGAAGGTCACCACGCGCCGTGCTGTAATGGGAATATCCTCGCCCGTTTTCGGGTTACGTCCCGGGCGT -TGATTCTTATCACGCAGATCGAAGTTACCAAAACCAGAGAGTTTCACCTGTTCGCCGTTTTCCAGAGCGCGACGG -ATCTCTTCGAAAAACAGTTCAACCAGTTCTTTGGCATCCCGCTTGCTAAGCCCAAGCTTATCAAACAGATATTCT -GACATTTCAGCTTTTGTAAGCGCCATAGGTTCAATCCCTCAATGATGCCTGGAATCGCTCTTTTAATGCCTCTAC -ACATTTGGCGACGGTAGCGGCAATCTCCTCTTCTTCGAGTGTACGGCTGGTATCTTGCAGGATCAGGCTTATGGC -GAGGCTCTTATACCCCTCCGCAACACCCTTACCGCGGTACACGTCAAATAAGTTTACGCCAACTACCTGATTTAC -GCCAACTTTCTTACATTCGGATAAAATATCCGCTGCGGGAACGTTTTCTGCGACCACCACCGCGATGTCACGACG -GTTCGCCGGGAAGCGAGAAATCTCGCGCGCCTGAGGCACCACGCGGTCTGCGAGCTTGTTCCACTCCAGTTCGAA -CACCAGAGTGCGACCGTTAAGATCCAGTTTACGTTCCAGTTCAGGATGAACAACCCCAACAAAACCAATACGTTC -ACCTTTCAGATAAATCGCTGCGGATTGCCCCGGATGCAGTGCCGGATTCGCTTCTGCACGGAACTCAACCTCATT -CAGTTTACCGGTCAGGTCGAGAACGGATTCAAGATCGCCTTTCAAATCATAGAAATCAACGGTCTCTTTTGCCAG -GTTCCAGTGCTCTTCGTAACGGTTACCGCAAATCACACCGGCTAACATCAGATCCTGACGAATGCCCAACGGTGC -CTGAGTATCTGGTACGAAACGCAGACCGCTTTCGAAAATGCGCACACGGTTCTGCTGACGGTTCTGGTTGTACAC -CACGGTTGCCAGCAGGCCAGTCCACAGAGAAAGACGCATTGCTGACATTTCAACAGAGATCGGGCTTGGCAGCAG -TAAGGCTTCAACGCCTGGATGGATCATCTGCTGCACTTTCGGATCAACGAAGCTGTAGGTGATCACTTCCTGATA -GCCTTTGTCGTTGAGCAGCGTTTTCACGCGCTTGAGCGACAGGTCAGCTTCACGGTGAGTACCCATAATCAGGCT -TGCCTGTACCGGCTCATCCGGGATGTTGTTGTAGCCGTAAACACGCGCGACTTCTTCAACCAGATCTTCTTCAAT -CTCCATATCGAAACGCCAGCTCGGCGCAACTGCCTGCCATTCGTCTTTGCCTTCGGTCACTTCGCAGCCGAGACG -ACGCAGAATGTCAGTTACCTGCTCATCCGCAATATGATGGCCGATCAGGCGATCCAGTTTGCTACGACGTAGAGT -GATGGTTGCACGCTTCGGCAGCGTTGCTTCGTTGGTGATATCAATTACCGGGCCAGCCTCACCACCGCAGATGTC -GATCAGCAGACGGGTCGCACGTTCCATCGCTTTGTGCTGCAGTGCCGGATCAACGCCACGCTCATAACGGTGAGA -CGCATCGGTATGCAGGCCATGACGACGAGCACGACCGGTGATAGACAGCGGGCTAAAGAACGCGCATTCCAGCAG -CACGTTTTGTGTTTCGTCATTCACGCCAGAGTGTTCGCCACCGAAGATGCCGCCCATCGCCAGCGCCTTGTTGTG -GTCGGCGATGACCAGAGTGTCAGCATTCAGCTTCGCTTCAGTACCGTCGAGCAGCACCAGCGTTTCGCCCTCTTT -CGCCATCCGCACCACAATGCCGCCTTCAATGCGATCTTTATCGAAAGCGTGCATCGGCTGGCCCAGTTCGAGCAG -CACATAGTTGGTGACGTCAACAACTGCATCGATAGAACGGATCCCGCAACGACGCAGTTTTTCTTTCATCCACAG -CGGAGTTGGCGCTTTAACGTTAATGCCTTTTACCACACGGCCAAGATAACGCGGGCAGGCTTCCGGCGCTTCGAC -TGTAATCGGCAGCGTGTCGTCGATGGTCGCACCAACCGGAACGATTTCCGGTTGAACCAGCGGCAGCTGGTTCAG -CACGGCAACGTCACGCGCAACACCAATGATGCCTAAGCAGTCGGCACGGTTTGGCGTCACGCTGATTTCGATGGT -GTTGTCATCAAGTTTCAGGTATTCACGGATATCGGTGCCAATCGGCGCATCCGCAGGCAGTTCGATAATGCCGCT -GTGATCGTCAGAAATGCCCAGTTCAGAGAAGGAGCACAGCATCCCTTCAGACGGTTCGCCACGCAGTTTCGCCGC -TTTAATTTTGAAATCACCCGGCAGAACAGCACCAATGGTCGCTACCGCTACACGCAGGCCCTGACGGCAGTTTGG -CGCACCGCAGACGATGTCCAGCAGGCGATCGCCGCCGACATTCACTTTTGTCACACGCAGTTTGTCAGCGTTCGG -ATGCTGCGCACACTCAACCACTTCACCAACGACCACGCCGTGGAAGCTGCCGGCAACCGGTTCTACACCGTCAAC -TTCCAGGCCCGCCATAGTGATTTGATTTGCCAGCGCATCGCTATCAATCGCCGGGTTCACCCATTCGCGTAACCA -CAGTTCACTGAATTTCATAATCTATTCCTGCCTTATTTAAACTGTTTGAGGAAACGCAGATCGTTTTCGAAGAAT -GAACGCAGGTCGGTGACGCCGTAACGCAACATAGTCAGACGCTCCATCCCCATCCCGAAGGCGAAACCAGAGTAA -ACTTCCGGGTCGATGCCAACGTTACGCAACACGTTCGGATGCACCATCCCGCAGCCCAGCACTTCCAGCCATTTA -CCGTTTTTACCCATGACGTCCACTTCTGCAGAAGGTTCGGTAAACGGGAAGTAGGAAGGACGGAAGCGAATCTGC -AAATCTTCCTCAAAGAAGTTACGCAGGAAGTCGTGCAGCGTGCCTTTCAGGTTGGTAAAGCTGATGTTGGTATCA -ACAATCAGACCTTCCATCTGATGGAACATCGGCGTGTGAGTCTGGTCGTAGTCGTTACGATAAACACGGCCAGGC -GCGATGATACGAATCGGTGGCTGCTGGGCTTTCATGGTGCGGATCTGTACGCCAGAGGTCTGGGTACGCAGCAGG -CGGGTAGTGTCAAACCAGAAAGTGTCGTGGTCAGCGCGCGCCGGGTGGTGACCAGGAATGTTCAGAGCATCGAAG -TTATGATAATCGTCTTCGATTTCCGGCCCGGTTGCCACGGTAAAGCCAAGCTCACCGAAGAAACTTTCGATACGG -TCGATGGTACGGGTAACCGGATGCAGACCGCCGTTTTCAATGCGACGACCTGGCAGAGAGACATCAATCGTTTCC -GCCGCCAGACGCGCATTCAGTGCAGCGCTTTCCAGTTCCGCTTTACGCGCATTCAGCGCCTGCTGAACCTGCTCT -TTCGCTTCGTTGATAACCGCACCAGCTGCCGGACGCTCTTCTGGCGGCAGCTCACGCAGGGTCGTCATCTGAAGG -GTTAAGTGCCCTTTTTTACCCAAATATTCGACGCGCACATTATCTAACGCGGCAACATCTGACGCCTGGCTAATG -GCCGCCTTCGCACTGGCAACCAGTTCTGCGAGATGTGACATGGTTTTCCTCATTGTGTCAGTGGTGACACTGGTT -CGTTGGACTTAGAGCCTATCCCATCAGGCTATTTTACTTGCCATTTTGGTCCCGGGCTGTGCTCGAAATTCTCAC -GTACTTAAATACGCTCCGGTTTCTCCGCGCTGGCCGTGTCCAGTCTGGCTGCGACAATTACACCTGATGAGACAG -GCTTTTTATTTTTCAAAACGCGCATACAAAAAAAGCCTCCACTGGGAGGCTTTCAGGCGCTGTTTTCCGTTTCTC -TTCTCACGCGCTAGCCTCCTGGATTCAGGTGCTAAAGTAAAAAAAGAAGCGGAAAATAGCAGCATTCATTGCTTG -CGTTACCTTTTGGTACTCTTCAAAAGACCTTTATTGAAAAGGCTACGGCGATAAAAGTCAATGTTTTGATGGCGT -TGAAACGAAAAGAGGGAGACTAGCTCCCTCTTTCAACTGGCTTATGCCAGAGCTGCTTTCGCTTTTTCAACCAGA -GCGGTGAACGCTACTTTGTCGAATACTGCGATATCAGCCAGGATCTTACGGTCGATTTCAACAGAGGCTTTTTTC -AGGCCATTGATGAATTTGCTGTAAGAAATACCGTTCTGACGTGCTGCTGCGTTGATACGCGCAATCCACAGTTGA -CGGAACTGACGCTTACGTTGACGACGGTCACGGTAAGCATACTGACCAGCTTTGATAACAGCCTGGAAGGCAACG -CGGTATACGCGAGAACGCGCACCGTAGTAGCCTTTAGCTTGTTTCAAAATTTTCTTGTGACGTGCACGTGCAATA -ACACCACGTTTTACGCGAGCCATATGTGCTCTCCTGTATCTATATTCTAATTAAAAAGTTAAAAACGTTAACGGC -TTATGCGTACGGCAGGCACGCGATTACCAGGCCCAGATCGCCTTTGGAAACCATGGCTTTCGGACGCAGGTGACG -TTTACGTTTGGTCGCTTTTTTGGTCAGAATGTGACGCAGGTTAGCGTGCTTGTGCTTAAAACCACCTTTACCGGT -TTTTTTGAAGCGCTTAGCAGCACCGCGTACGGTCTTAATTTTTGGCATTTTAATAACTTCCACTTCGCATTGTTA -ATAAACGAAACAAAGGCGAACAAAGCCTGTGAAGCCCGAAGGCTCCACAGACAGTGCTACTTGAAGGCCTTACTG -TTTCTTCTTAGGAGCGAGCACCATGATCATCTGGCGGCCTTCGATCTTCGTTGGGAAGGATTCGACCACTGCCAG -TTCTTGCAAATCGTCTTTCACGCGATTAAGCACTTCCATACCGATTTGCTGGTGCGCCATCTCACGACCGCGGAA -ACGCAGCGTGATTTTGGCTTTATCACCCTCTTCGAGAAAGCGAATCAGGCTGCGGAGTTTTACCTGATAGTCGCC -TTCATCTGTACCAGGACGGAATTTAATTTCCTTAACCTGGATAACTTTTTGCTTTTTCTTCTGTTCCTTAGAAGA -CTTGCTCTTTTCATAGAGGAATTTGCCGTAATCCATTATACGACAAACCGGCGGCTCGGCGTTAGGGCTGATCTC -GACTAAGTCTACTCCGGCTTCTTCTGCTTTCTCCAGAGCTTCTCTCAGACTCACAATACCAAGCTGCTCGCCTTC -CAGACCTGTTAAGCGAACTTCCTGGGCGCGAATTTCGCCATTGATACGGTTAGGGCGCGCCGTTTGAACTCGTTT -TCCGCCTTTAATACCTTATTCCTCCAATTGTTTAAGACTGCGGCTGCGAATCTCTTGTTGCAGCTTCTCGATCAC -TTCATTTACGTCCATGCTTCCCAGGTCTTTACCACGGCGGGTGCGAACGGCAACTTTGCCTGATTCCACCTCTTT -ATCACCACAGACCAGCATATATGGGACGCGACGCAAAGTGTGCTCGCGGATTTTAAAGCCAATCTTCTCATTTCT -CAAGTCTGCTTTAACACGAATGCCCGCATTTGATAGTTTTTGCGTCAATTCGTTAACGTATTCAGACTGTGAATC -GGTAATATTCATGATAACAACCTGAACCGGCGCAAGCCAGGTCGGGAAGAAACCAGCGAACTCTTCGGTCAGGAT -ACCGATGAAACGTTCCATCGACCCCAGAATTGCGCGGTGAATCATTACCGGTACTTTACGTTCATTGTCTTCGCC -TACATAAGAAGCGCTCAGACGAGACGGCAAAGAGAAGTCCAGCTGTACTGTACCGCACTGCCATGCACGATCGAG -GCAGTCATACAGGGTAAATTCAATTTTCGGACCGTAGAAAGCGCCTTCACCCAGTTGATATTCAAACGGGATGTT -GTTTTCTTCCAGCGCAACCGCCAGGTCCGCCTCAGCACGATCCCACATTTCGTCGCTGCCAATACGTTTTTCAGG -ACGAGTGGAGAGTTTGACGACGATCTTCTCGAAGCCAAAAGTGCTGTACATATCATAGACTAAACGGATACATCC -GTTAACTTCATCGCGAATTTGTTCTTCAGTACAGAAGATATGCGCGTCATCCTGGGTAAATCCACGCACGCGCAT -CAGGCCATGCAGCGAACCTGACGGCTCGTTACGGTGGCAGCTACCAAACTCGGCCATACGCAGCGGCAGATCGCG -ATAAGACTTCAGCCCCTGGTTGAAAATTTGTACGTGACCCGGGCAGTTCATCGGCTTAATGCAGTATTCACGGTT -CTCAGAAGATGTGGTGAACATTGCATCTTTGTAGTTGTCCCAGTGACCGGTTTTTTCCCACAGGACACGGTCCAT -CATGAACGGACCTTTAACTTCCTGATACTGGTACTCTTTCAGTTTAGAACGAACAAACACTTCCAGTTCACGGAA -GATGGTCCAGCCGTCGTTGTGCCAGAATACCATACCCGGCGCTTCTTCCTGCATATGGTACAGGTCGAGCTGTTT -ACCGATTTTACGGTGGTCGCGTTTCGCGGCTTCTTCCAGGCGCTGCAGGTAAGCGTTAAGTGCTTTTTTGTCTGC -CCACGCCGTACCGTAAATACGTTGCAACATTTTGTTGTTGCTGTCGCCACGCCAGTAAGCCCCTGCCGTTTTCAT -TAGTTTGAAATGATGGCAGAAACGCATGTTCGGTACGTGCGGACCGCGGCACATATCGACATATTCTTCATGGAA -GTACAGACCTGGCTTGTCATCATGGGCGATGTTTTCGTCAAGAATGGAGACTTTGTAGCTCTCCCCACGGTTGGC -GAAAGTTTCACGCGCTTCGTGCCAGCTGACTTTCTTCTTAATGACGTCGTAGTTTTTCTCAGCAAGCTCATGCAT -CCGCTTCTCGAGTGCTTCGACATCTTCCTGGGTTAACGTGCGGTCAAGATCAACGTCGTAATAAAAACCGTTGTC -AATAACCGGGCCGATTGCCATTTTGGTATGCGGCCAAAGTTGTTTAATCGCGTGCCCTAACAGGTGCGCACAGGA -GTGACGAATGATCTCCAGACCTTCTTCGTCTTTGGCGGTAATGATCGACAGTTGTGCGTCGTTTTCAATCAGATC -GCAAGCATCAACCAGTTCGCCATTAACGCGCCCTGCGATACAGGCTTTCGCCAGACCTGGACCAATGTCCAGCGC -AACATCCATGGGGCTTACAGCGTGATCGTAATGGCGTTGGCTGCCATCAGGAAGAGTTATAACAGGCATTTTATA -TCCTTATTTGCAGTGGTGACCCACACGAAAGATCACATACAAAGAAAAATTTGTTTATTAACAGTTCATTGCGAA -ACCATCTAGCCAACAAATGCTAAATTGGTTCGCAATCAGGTACACAAATGAAAGACATTAACCTCTCACCTTCCA -CCCGGTTGAGCGATGTTAACACTAAAAAAAGGGAGATTGTACCTTTCCGTTTCACATTGATTCGATTCGCAATTC -GTTTGTAGTGAGTACACCAGCAAAACGCTTAAAGAACAACTGATAACATCACGGTGCGTCTGAAAGGTTTACTGC -GAGCGGATTTACAGCAGCATAAACTGAATCCAGCAAAGTTCGTTGCGTGATTTGGCGGTAGTATTTTAAACGCTC -ATGAGATTAATGACGAAGTGGTCATATCACAATGATAAAAGTGACACAATTCTTATAACAATTTTTCGTGCACAT -TTCGTTCTGGCGATAATAATTAATCATCATCCTCAAAACCTCCAGATATATATAAGGCGAACAGATTATGAGTCA -AAACGATATCATTATCAGAACTCATTATAAGTCTCCTCATAGATTGCACATCGATAGCGACATACCAACACCTTC -ATCAGAGCCTATTAATCAATTTGCGCGCCAGCTCATCACCCTACTTGATACCTCTGACTTAAGTTCGATGCTGTC -ATACTGTGTTACTCAGGAATTTACCGCAAACTGTCGAAAAATATCACAAAATTGTTATTCCACTGCCCTTTTTAC -CATTAACTTTGCCACTTCACCCATCCATACAGAAAATATACTCATTACATTACACTATAAAAAAGAAATCATTTC -CTTATTACTGGAAACCACGCCTATTAAAGCTAACCATTTGCGAAGCATACTGGATTATATTGAACAGGAACAGTT -AACTGCTGAAGATCGTAACCATTGTATGAAACTGTCTAAAAAAATCCATAGAGAAAAAAACTATACACCCAACAG -TAAATCTCAATGGTAGTGCATGTTTTTTGCAATCTCCTTCTGACGCTATTTTTTGTCGCCATCTGTCATTGCAAT -ACGCCCTTGATTCATTGAGAAATGGAAAAGGCAAAGTCAACCTGATTAAACATTACTCCTCCGTTGAATCCATAC -AGCAGCATGTCCCCTTAGTCCGGGACGCGGAGTTCAGAGCATTACTTCGCCATCCTCCTGCAGGGAGTCGCGTTA -TCGCGAGTAAGGATTTTGGCTTCGCTTTAGATATTTTCTTTTGTCGAATGATGGCAAACAATGTCAGTCATATGT -CCGCGATTTTATATATAGACAATCATACTTTGTCAGTAAGGCTACGAATAAAGCAGTCAGTGTATGGACAATTAA -ATTATGTTGTGTCCGTTTACGACCCGAACGATACCAACGTTGCCGTCAGAGACACCCACAGGACAGCACGGGGCT -TTCTTTCGCTTGATAAGTTCATCAGTTCAGGTCCCGATGCTCAGACCTGGGCTGATAGATATGTTCGCAACTGTG -CAATTGCTATTCTGCCCCTATTACCTGTGGGAGTTCCAGGGGCTATTTTCGCGGGTATTGCATCACGAATGCCAT -TTGCCCCTATACATCCATCGGCAATGTTGTTAATAATGGCTACAGGCCAGTCTCAACAGCTTATTACATTATTCA -AACAGTTGCCCATACTCCCTGAAAAAGAAATCATTGAAATAATAACTGCGCAGAATAGCGTTGGTACACCTGCTT -TATTTTTGGCTATGATGAACGGACATACTGACAACGTGAAAATATTTATGCAAGAAATTCAGTCACTGGTAGATA -ATCACATCATTCATGAAGATAATCTGGTTAAATTACTGCAAACTAAAAGTGCTAACGAAACACCTGGACTTTATA -TCTCCATGTTGTATGGATTCGATGAAATAATCGATATCTTTCTGAATGCATTAACCACTCCAATAGCACAAGAGC -TTTTAAACAAAAAACTGGTGATGAGTATTTTAGCCATGAAAATACATGATGGTGAGCCAGGATTATACGCCGCAA -TGGAAAATAATCACCCTTTGTGTGTCACACGGTTCCTCTCTAAAATTAATGGCATCGCCTTTAAATACAAGTTGA -GCAAAGCTAACATCATGGATTTATTAAAAGGAGCTACAGCACAGGGAACCCCTGCATTATACATCGCCATGAGCA -AGGGTAATGAAGACGTCGTGTTATCTTATATATCGACGCTGGGTGCTTTTGCAAAAAAACATTCTTTTAGTCAAC -ATCAGTTATTTACACTATTGGCCGCTAAAAATCATGACAACATGTCAGCTGTTCATATAGCCATTCATCATAAGC -ATTATAAAACTGTAGAAACATATTATGCTGCTATTAATGCAATCAGCCAAAGCCTGAGTTTTAGTGCTGATGAAA -TAAAGACGTATTTATAACCAGCTATTTACGATATATATCGATACATAATTTTATTTTTTTCATAAAACGCAGAAA -CAGTGACCATGTGCACAACGCCACCCGACGGCTGTAATAACAAAAAATCCCTTGATGCCTGTCCCTTTTGTTACA -CTCCGTTATCACGCACAAGAGATATGCAGGACACTGGTATGCCGACTAAACGCTTTGATAAAAAACACTGGAAGA -TGGTGGTGGTGCTACTGGCAATCTGTGGCGCTATGTTGTTGCTACGTTGGGCAGCAATGATTTGGGGCTGAGCAG -TGACAAACGAAGACAGCCAGACCGCATAACACGGTCCGGCAGATAATTTTACATGCTGTAGCCCAGCGATAAGGT -TGTCCGACGGTCGGTATGTTCCGGTGCAGACTCTGGAGGTTCAGAGTTCCATGTGACGTTGTAAGCCACCTTCAG -TCCAAAATGTTCATTAATAGCAACATTTAATGCGCTTTCGGAGTTCAGCGTTGTGTCTTCCGCGCCAAAGACCGA -AACACCCTGCGTAAATTTAGCGTTGTCAGTCAACTGCCATGCATAAGCCCCGGAGGCATAGCCCAGCGGCTGGGT -TTCACTGGCATTGTCGGTATATTTGTCGTAACGCACACCTGGACCGAATTCAAAGCGGAAACTGTGTACCGGGCC -ATTCAAAAACTGACGACCATAACCCGCGGTCAACACATCGCGCTCTCGATAGCCGTTATAACGGTCTGTCAGCCA -GCTTGCCTGACCAAATAAATAGTCATAATCAGTTAAATTAAAACGGCTACGCCCGCCCGCCGCATATTTTTCTGA -AGAACGCTCATCATTAGAAGAAGTATTACTGGCGTTCCCCCACAGCGACCAGGCAGTGGTGTGTCCATACCAGGT -CATGGTGGTGTCAGCCGTAAGTGAGGAGCTTTTCGTATTGCCTGATTGTGCAAGATATCCTGCGTTCAGATTACC -TTCGAAAGGTTTTTTAGCGCTGGCAGGATCATCCATGACAGTAAAAACGGAATCATCGGCAGCTGCATTCAGTGA -CGCAAACATGCCCCCCGCCAACATAACGATGGCAGGAACTGTCTTCAAAAGCTTCATTTATCAAGAGTCCGTACA -ACAAAAAAAGAGACCATCGCGGTCCCGGAAACTTTCTTAAGGATCAAAGATTAGCGTCCCTGGAAAGGTAACGAA -TTATAAAAAGGCGCGAATAACTTAGCAATGTATTCTTATTTCATTTTTTGAATAAGCATGTGGCGAAAACAGATT -TTTATTTATATATATTTATCTGCAAAATTTTAAATAAAGCTCCAATAAATCATATTGTTAATTTCTTCACTTTCC -GCTGATTCGGTGCCAGACTGAAATCAGCCTATAGGAGGAAATGATGGTACGTATCTATACGTTGACACTTGCGCC -CTCTCTCGATAGCGCAACAATTACCCCGCAAATTTATCCCGAAGGAAAACTGCGCTGTACCGCACCGGTGTTCGA -ACCCGGGGGCGGCGGCATCAACGTCGCCCGCGCCATTGCCCATCTTGGAGGCAGTGCCACAGCGATCTTCCCGGC -GGGTGGCGCGACCGGCGAACACCTGGTTTCACTGTTGGCGGATGAAAATGTCCCCGTCGCTACTGTAGAAGCCAA -AGACTGGACCCGGCAGAATTTACACGTACATGTGGAAGCAAGCGGTGAGCAGTATCGTTTTGTTATGCCAGGCGC -GGCATTAAATGAAGATGAGTTTCGCCAGCTTGAAGAGCAAGTTCTGGAAATTGAATCCGGGGCCATCCTGGTCAT -AAGCGGAAGCCTGCCGCCAGGTGTGAAGCTGGAAAAATTAACCCAACTGATTTCCGCTGCGCAAAAACAAGGGAT -CCGCTGCATCGTCGACAGTTCTGGCGAAGCGTTAAGTGCAGCACTGGCAATTGGTAACATCGAGTTGGTTAAGCC -TAACCAAAAAGAACTCAGTGCGCTGGTGAATCGCGAACTCACCCAGCCGGACGATGTCCGCAAAGCCGCGCAGGA -AATCGTTAATAGCGGCAAGGCCAAACGGGTTGTCGTTTCCCTGGGTCCACAAGGAGCGCTGGGTGTTGATAGTGA -AAACTGTATTCAGGTGGTGCCACCACCGGTGAAAAGCCAGAGTACCGTTGGCGCTGGTGACAGCATGGTCGGCGC -GATGACACTGAAACTGGCAGAAAATGCCTCTCTTGAAGAGATGGTTCGTTTTGGCGTAGCTGCGGGGAGTGCAGC -CACACTCAATCAGGGAACACGTCTGTGCTCCCATGACGATACGCAAAAAATTTACGCTTACCTTTCCCGCTAACA -AAAACATTCCCCCAGCATTGGGGGAATCATCACCAACCTGTCGGCAACGCGTTTCTCCGACTATGCTCAAAAGTC -ATGTGATAACAAAGGGGTGAACTATGGCCAGTGGCGATCTTGTCCGTTATGTCATAACCGTCATGTTGCATGAGG -ATACATTGACTGAAATTAACGAGTTGAATAATTACCTGACTCGCGACGGTTTTTTGCTCACTATGACGGATGATG -AGGGAAATATCCATGAGCTGGGAACTAACACTTTTGGACTTATCAGTACCCAAAGTGAAGAAGAAATTAGAGAAC -TGGTTTCGGGGCTTACCCAAAGTGCAACCGGCAAAGATCCTGAAATCACCATCACGACCTGGGAGGAATGGAATA -GCAACAGAAAATAAATGGTTTTTGGGCAATAATCAGTCTGTGGTGTGCGTTAGCTCGTGTTTTTACACCGCATTC -TTGCGCTAACCTTATGATCTGGCAGACAACATGGGAGAGACATCATGTGGCAGGCAATCAGTCGTCTTTTGAGCG -AGCAGTTAGGTGAAGGCGAAATCGAACTGCGTAATGAACTGCCTGGCGGAGAAGTCCATGCCGCATGGCATTTGC -GCTATGCAGGACATGATTTTTTCGTCAAATGTGATGAAAGGGAACTGCTTCCCGGTTTTACCGCCGAAGCCGACC -AACTGGAGTTACTGTCGCGTAGTAAAACCGTCACCGTGCCTAAGGTTTGGGCAGTTGGCGCTGACCGTGACTACA -GTTTTCTGGTGATGGATTATCTCCCACCTCGTCCGCTGGATGCGCATAGCGCATTTATTCTTGGTCAGCAAATTG -CGCGTTTACATCAATGGAGCGACCAACCACAATTTGGCCTTGATTTCGATAACGCGCTCTCCACAACTCCACAGC -CCAACACCTGGCAACGTCGCTGGTCAACGTTTTTTGCTGAACAACGGATTGGCTGGCAGTTGGAACTGGCTGCAG -AAAAAGGGATCGCTTTCGGCAATATCGACGCCATCGTCGAGCATATTCAGCAGCGTCTGGCCTCACATCAACCGC -AGCCTTCTCTGTTGCACGGCGATTTATGGTCCGGCAACTGTGCACTGGGTCCGGATGGCCCGTACATTTTCGACC -CGGCCTGCTACTGGGGTGACCGAGAGTGCGACCTGGCGATGTTACCGCTGCATACTGAACAGCCGCCACAAATCT -ATGACGGCTATCAGTCAGTATCCCCGCTACCTGCCGATTTCCTTGAACGTCAACCGGTTTACCAACTCTACACGC -TGTTAAATCGTGCAAGGTTATTTGGCGGTCAGCATTTGGTTATTGCTCAGCAGTCATTGGATAGATTATTAGCAG -CATGATATGGGTTGAGGATAATGGCCGCTCCGTGCGGCCTTTTGATTAAATAAACCCAAGCAGAGAAAAGAACAC -ATAACCTGCAGCAATACAAATAACCGGCAGGATATACAGTGAGAAAAACTGCAGGAAAATAGTATGGTGCGGAAC -AACAATACGGGACTCAATTTGTTCACGCGTTAGCCCCTCTTCCCCTTTGGCTTTTTCCAGAATGAGTTGATCTTC -AACACCTTCCCGCAAGAAGCGCGCCTGGCGACTCATCCGGGCACCGGAATCCTGCAACGCCAGTCCGACAAAAAT -CAGGATGAAAATCACCCAGAACATAACGTTCACGCCACCATTAAAATTGGGCGTCGGGGAGTTATACCAGAATAG -ATTCAAAAAAGGCGTATTCGCCTGCATCATATCGATCATGACATGAGTAAAGTCGAGCATGACCGCATTAATGCC -TTCCTTGTTTTCCTGCCGGGTATTCATAAATTTCAGCAAAGAAATCAATGTAGAGATCAATGCAGGTATAAAAAT -CACCCAACCCAAAATCCTTTTCAAAACAGCAATGCGTCCAGCTTGTTGATACGTCATGAGTTCTCCTTGATTAAG -ACGCGTCGTTTCACTTAGTTTACCTGTAGATATCTGTTTTCGCCCATTCTTTAAAGGCGATATGATAGGCGCTTA -ATCATAAGCACGGCTTAATACCTTACACATAATGCTCTAAAGGAGAGGTTGTAATGTCAACCCCGCGTCAGATTC -TTGCTGCAATTTTTGATATGGATGGATTACTTATCGACTCAGAACCTTTATGGGATCGAGCCGAACTGGATGTGA -TGGCAAGCCTGGGGGTGGATATCTCCCGTCGTAACGAGCTGCCGGACACCTTAGGTTTACGCATCGATATGGTGG -TCGATCTTTGGTACGCCCGGCAACCGTGGAATGGGCCAAGCCGTCAGGAAGTAGTAGAACGGGTTATTGCCCGTG -CCATTTCACTGGTTGAAGAGACACGTCCATTATTACCAGGCGTGCGCGAAGCCGTTGCGTTATGCAAAGAACAAG -GTTTATTGGTGGGACTGGCCTCCGCGTCACCACTACATATGCTGGAAAAAGTGTTGACCATGTTTGACTTACGCG -ACAGTTTCGATGCCCTCGCCTCGGCCGAAAAACTGCCTTACAGCAAGCCGCATCCGCAAGTATATCTCGACTGCG -CAGCAAAACTGGGCGTTGACCCTCTGACCTGCGTAGCGCTGGAAGATTCGGTAAATGGCATGATCGCCTCTAAAG -CAGCCCGCATGCGTTCCATCGTCGTTCCTGCGCCAGAAGCGCAAAATGATCCACGTTTTGTATTAGCAGACGTCA -AACTTTCATCGCTGACAGAACTCACCGCAAAAGACCTTCTCGGTTAATGACCAGGGGCAGTGATCTCGCTGCCCC -TGGTTCTTTATCTGAAATTGCATTCAACTGACGGATTAATCGTCAATTTAAGAGAAAGAGTTACACCGTCACCAC -TTCCGTGCACTGTATAAAAATCCTATACTGTACGTATCGACAGTTTAGTGAGTTTTATCATGACGGCGGAAGGTC -ACCTTCTCTTTTCTATTGCTTGTGCGGTATTTGCCAAAAATGCCGAGCTGACGCCCGTGCTGGCACAGGGTGACT -GGTGGCATATTGTCCCTTCCGCAATCCTGACGTGTTTGTTACCGGACATCGATCACCCAAAGTCGTTTCTTGGGC -AGCGATTAAAATGGATATCAAAACCGATCGCCCGCGCTTTTGGGCATCGTGGTTTTACCCACAGTCTGCTGGCGG -TATTTGCGCTGCTGGCAACCTTTTACCTTAAGGTTCCGGAAGGCTGGTTCATTCCGGCTGATGCGCTACAAGGAA -TGGTGCTGGGTTATTTGAGCCACATACTTGCCGATATGCTGACACCCGCCGGTGTTCCCCTGCTCTGGCCATGCC -GCTGGCGTTTCCGCTTGCCTATCCTGGTTCCCCAAAAGGGCAACCAACTGGAACGTTTTATCTGCATGGCATTAT -TTGTCTGGTCGGTATGGATGCCCCATTCATTACCCGAGAACAGCGCTGTTCGTTGGTCATCGCAAATGATCAATA -CCTTGCAGATCCAGTTTCATCGGCTTATTAAGCATCAGGTTGAATACTAAAAAGGCAAAAATCACCTTTCTGGAA -TAAGCAATTCCATTTGAATATAAGAGCCAGCTCACAGTTCTGTTAATCTTGCGCCAACACTATGACTGCTACGCA -GTGATAGAAATAATAAGATCAGGAGAACGGGGATGAACTTTCCATTAATTGCGAACATCGTGGTGTTCGTTGTAC -TGCTGTTTGCGCTGGCTCAGACCCGCCATAAACAGTGGAGTCTGGCGAAAAAAGTGCTGGTGGGTCTGGTGATGG -GTGTGGTTTTTGGCCTTGCCCTGCATACCATTTATGGTTCTGACAGCCAGGTACTTAAAGATTCTGTACAGTGGT -TTAACATCGTTGGTAACGGCTATGTTCAACTGCTGCAAATGATCGTTATGCCGTTAGTCTTCGCCTCTATTCTGA -GCGCGGTTGCCCGTCTGCATAACGCATCTCAGTTAGGCAAAATCAGTTTTCTGACCATCGGTACGCTTTTGTTTA -CCACGCTGATTGCGGCGCTGGTCGGTGTGCTGGTCACCAACCTGTTTGGTTTGACGGCTGAAGGTCTGGTTCAGG -GTGGTGCAGAAACTGCACGTCTGAACGCCATTGAAAGTAACTATGTTGGTAAAGTCTCTGATCTGAGCGTTCCGC -AGCTGGTCTTGTCCTTTATCCCGAAAAACCCGTTTGCCGATCTTACCGGAGCCAATCCGACGTCAATTATCAGCG -TGGTAATTTTTGCCGCATTCCTCGGCGTAGCTGCATTGAAACTGCTGAAGGATGATGCGCCGAAAGGTGAACGCG -TCTTAGCCGCTATCGATACCCTACAAAGCTGGGTGATGAAACTGGTTCGCCTGGTCATGCAGTTGACCCCTTACG -GCGTTCTGGCTCTAATGACCAAAGTGGTTGCAGGTTCTAACTTGCAAGACATCATCAAACTGGGAAGTTTCGTTG -TCGCGTCCTACCTCGGTCTGCTGATTATGTTTGCAGTGCATGGCATTCTGCTGGGCATTAATGGCGTGAGTCCGC -TGAAGTACTTCCGTAAGGTATGGCCTGTGCTGACGTTTGCCTTTACCAGCCGTTCCAGTGCTGCGTCTATCCCAC -TGAATGTGGAAGCACAAACGCGTCGTCTGGGCGTTCCTGAATCCATCGCCAGTTTCGCCGCCTCTTTCGGTGCAA -CCATTGGTCAGAACGGCTGCGCCGGTTTGTATCCGGCAATGCTGGCGGTGATGGTTGCGCCTACGGTTGGCATTA -ACCCGCTGGACCCGATGTGGATTGCGACGCTGGTCGGTATTGTTACCGTTAGTTCCGCAGGCGTTGCCGGTGTCG -GTGGTGGTGCAACTTTCGCCGCACTGATTGTACTGCCTGCGATGGGCCTGCCAGTAACCCTGGTGGCGCTGTTAA -TCTCCGTTGAACCGCTTATCGACATGGGCCGTACGGCGTTAAACGTTAGTGGCTCGATGACAGCTGGCACGCTGA -CCAGCCAGTGGCTGAAGCAAACCGATAAAGCCATTCTGGATAGCGAAGACGACGCCGAACTGGCACACCATTAAT -TCTTATGCTGGCAACGGTCCGTTTTGTATAGGGGCCGTTGCCTTACTTTTTAAATGTTCCATCGCGGCGATGCAT -ACTGACTCATATTTAAACAGATCGTCAGCGAAAAAAATGTCCAACTTATCAATACATTCCTGGCTCAATGAATGT -GCCTGTAGCGAGAAGCTTAAAACCTCATACCCGAGACGTTTTCTAAGTGAACTATCTGGAATACTCATAATATCT -TCAAGCACACCACTTCCCATTCCCGGAAGATTTAGTGGATTAAAAAGAAGATTGATATTAAGCATTGATATTATC -GAAGGAAACTTTAGGAGACTCTCATTTTTTTGAATCGCAGCAAAAATGCTCCCGACAGGATGTATATAATTTTGT -TCATAGTATATAGTCCTTAAATAGTGAATAACCAACCTGTTTTTTATACTGATCAAATTGGTCATTTTTTCTGGG -CGAAATACAGAAGTGACATCCATTCCAATAAAATCTTTATTTATACCTCTTATCCGAATTTCACTACCATAAAGA -TTATTAATTATTACTCTATATTTAACATTGTCCTGCAGATATGTATCAAAACTAAGTGCTGGCGCTCCTGGCTTT -GAGGCATCATAGTTAATGTTAGACATATAGGCAATCATATAATTAAAGTTTGATTCTGCTATTTCATCGCAGTCA -CATTGACCCGTTGATATAAAGAAAGTGAGTGCTGTCATAGTAGACTGCAGCCTTTCTTTAAAAGAGTCGAAAGCC -AGGCTTTTAATATTTAAATCACCATAATTACTCTGTATTAAGTTTGTAGAAAACATCTCCCGCCTCATATTGTTA -ACAAAATTATTATCTCATTTAAATCTAAGTCATTTACAATATAAGTTTAAGAGCGACGCCACAGGATGAACTATC -AAAAATAGCTCATCATGATTAGCAAAACTTAACCATTTTAAAATAAATAAACAATTAAAGAAAAAAGATCACTTA -TTTATAGCAATAGATCGTCAAAGGCAGCTTTTTGTTACAGGTGGTTTGAATGAATGTAGCAACGAAATACAGAAT -TTCAGGTCATGTAACTCCCGGCAAAACCGGGAGGTATGTAATCCTTACTCAGTCACTTCCCCTTCCTGGCGGATC -TGATTTGCCCAACGTTGGGCAGATTCAGGCACAGTAAACGCCGGTGAGCGCAGAAATGACTCTCCCATCAGTACA -AACGCAACATATTTGCCACGCAGCATCCAGACATCACGAAACGAATCCATCTTTATCGCATGTTCTGGCGGCGCG -GGTTCCGTGCGTGGGACATAGCTAATAATCTGGCGGTTTTGCTGGCGGAGCGGTTTCTTCATTACTGGCTTCACT -AAACGCATATTAAAAATCAGAAAAACTGTAGTTTAGCCGATTTAGCCCCTGTACGTCCCGCTTTGCGTGTATTTC -ATAACACCGTTTCCAGAATAGTCTCCGAAGCGGGATCTGGCTGGTGGTCTATAGTTAGAGAGTTTTTTGACCAAA -ACAGCGGCCCTTTCAGTAATAAATTAAGGAGACGAGTTCAATGTCGCAACATAACGAAAAGAACCCACATCAGCA -CCAGTCACCACTACACGATTCCAGCGAAGCGAAACCGGGGATGGACTCACTGGCACCTGAGGACGGCTCTCATCG -TCCAGCGGCTGAACCAACACCGCCAGGTGCACAACCTACCGCCCCAGGGAGCCTGAAAGCCCCTGATACGCGTAA -CGAAAAACTTAATTCTCTGGAAGACGTACGCAAAGGCAGTGAAAATTATGCGCTGACCACTAATCAGGGCGTGCG -CATCGCCGACGATCAAAACTCACTGCGTGCCGGTAGCCGTGGTCCAACGCTGCTGGAAGATTTTATTCTGCGCGA -GAAAATCACCCACTTTGACCATGAGCGCATTCCGGAACGTATTGTTCATGCACGCGGATCAGCCGCTCACGGTTA -TTTCCAGCCATATAAAAGCTTAAGCGATATTACCAAAGCGGATTTCCTCTCAGATCCGAACAAAATCACCCCAGT -ATTTGTACGTTTCTCTACCGTTCAGGGTGGTGCTGGCTCTGCTGATACCGTGCGTGATATCCGTGGCTTTGCCAC -CAAGTTCTATACCGAAGAGGGTATTTTTGACCTCGTTGGCAATAACACGCCAATCTTCTTTATCCAGGATGCGCA -TAAATTCCCCGATTTTGTTCATGCGGTAAAACCAGAACCGCACTGGGCAATTCCACAAGGGCAAAGTGCCCACGA -TACTTTCTGGGATTATGTTTCTCTGCAACCTGAAACTCTGCACAACGTGATGTGGGCGATGTCGGATCGCGGCAT -CCCCCGCAGTTACCGCACCATGGAAGGCTTCGGTATTCACACCTTCCGCCTGATTAATGCCGAAGGGAAGGCAAC -GTTTGTACGTTTCCACTGGAAACCACTGGCAGGTAAAGCCTCACTCGTTTGGGATGAAGCACAAAAACTCACCGG -ACGTGACCCGGACTTCCACCGCCGCGAGTTGTGGGAAGCCATTGAAGCAGGCGATTTTCCGGAATACGAACTGGG -CTTCCAGTTGATTCCTGAAGAAGATGAATTCAAGTTCGACTTCGATCTTCTCGATCCAACCAAACTTATCCCGGA -AGAACTGGTGCCCGTTCAGCGTGTCGGCAAAATGGTGCTCAATCGCAACCCGGATAACTTCTTTGCTGAAAACGA -ACAGGCGGCTTTCCATCCTGGGCATATCGTGCCGGGACTGGACTTCACCAACGATCCGCTGTTGCAGGGACGTTT -GTTCTCCTATACCGATACACAAATCAGTCGTCTTGGTGGGCCGAATTTCCATGAGATTCCGATTAACCGTCCGAC -CTGCCCTTACCATAATTTCCAGCGTGACGGCATGCATCGCATGGGGATCGACACTAACCCGGCGAATTACGAACC -GAACTCGATTAACGATAACTGGCCGCGCGAAACACCGCCGGGGCCGAAACGCGGCGGTTTTGAATCATACCAGGA -GCGCGTGGAAGGCAATAAAGTTCGCGAGCGCAGCCCATCGTTTGGCGAATATTATTCCCATCCGCGTCTGTTCTG -GCTAAGTCAGACGCCATTTGAGCAGCGCCATATTGTCGATGGTTTCAGTTTTGAGTTAAGCAAAGTCGTTCGTCC -GTATATTCGTGAGCGCGTTGTTGACCAGCTGGCGCATATTGATCTCACTCTGGCCCAGGCGGTGGCGAAAAATCT -CGGTATCGAACTGACTGACGACCAGCTGAATATCACCCCACCTCCGGACGTCAACGGTCTGAAAAAGGATCCATC -CTTAAGTTTGTACGCCATTCCTGACGGTGATGTGAAAGGTCGCGTGGTAGCGATTTTACTTAATGATGAAGTGAG -ATCGGCAGACCTTCTGGCCATTCTCAAGGCGCTGAAGGCCAAAGGCGTTCATGCCAAACTGCTCTACTCCCGAAT -GGGTGAAGTGACTGCGGATGACGGTACGGTGTTGCCTATAGCCGCTACCTTTGCCGGTGCACCTTCGCTGACGGT -CGATGCGGTCATTGTCCCTTGCGGCAATATCGCGGATATCGCTGACAACGGCGATGCCAACTACTACCTGATGGA -AGCCTACAAACACCTTAAACCGATTGCGCTGGCGGGTGACGCGCGCAAGTTTAAAGCAACAATCAAGATCGCTGA -CCAGGGTGAAGAAGGGATTGTGGAAGCTGACAGCGCTGACGGTAGTTTTATGGATGAACTGCTAACGCTGATGGC -AGCACACCGCGTGTGGTCACGCATTCCTAAGATTGACAAAATTCCTGCCTGATGGGAGGCGGCGCAATTGCGCCG -CCTCAAATGATTTACATAGTGCGCTTTGTTTATGCCGGATGCGGCGTGAACGCCTTATCCGGCCTACAAAACTGT -GCAAATTCAATATATTGCAGGAAACACGTAGGCCTGATAAGCGAAGCGCATCAGGCAGTTTTGCGTTTGTCAGCA -GTCTCAAGCGGCGCAGTTACGCCGCCTTTGTAGGAATTAATCGCCGGATGCAAGGTTCACGCCGCATCTGGCAAA -CATCCTCACTTACACATCCCGATAACTCCCCAACCGATAACCACGCTGAGCGATAGCACCTTTCAACGACGCTGA -TGTCAACACATCCAGCTCCGTTAAGCGTGGGAAACAGTAAGCACTCTGACGGATAGTATTATCGATAAACGCCGG -ATGACACATCACCTCCAGCGAACGATCACCCCGATGGCCTGCGTCATCCAGCACTTGCAGGAACAGCGACTCACT -GATCTCTTCACCGTAGAATGCACTGCTGAATCCCTGGGTAGTGCGCAGGTTGACCGGCAAATCAAACGCCATCTG -ACGATCCGCCCGCAACGCAATGCCCTGCTCTGCCGCAAACCTGGCAACAATCGGGAAAATCTGCGGGAACATATG -CACATGATGATGGCTATCAAGATGCGTAGGTTTGCGTCCAAATAGCTCAATGAAACGCAAATACTGACTGACAAG -CTCCTGAGTAATTTCTTCCAGCGGTAAAGCATCTTCTTCTGCCAACTGCCAGATCCATTTTCCCAGCACACCATC -GCGGGTTAACCCCGGCATAGCTGTCAGTGGCTTACCCATAGTAAGGACAAAGTGCATCCCTATGGCCAGACTCGG -TTCATCACGACTCAACTGCACCGCATGGTCAATAGCCTGCCCATTCACCAGCGCCGTCGTCGACGTGACAATCCC -ATTGCGACAGGCCTCGATAATGCCGTAGTTCTGACCTTTGCTTAAGCCAAAATCATCGGCATTAACAATCAGTAA -GCGTTCCATAATCAGCCTCGGTTAATGTGCTTTTTTAAGCTCTGCGATGCAGTCGGCAAAGTTTGGCAGCCATTT -CTCGTGCGCCAGAATCATCTCGCGTGCCAGCAGCTCAGCATCGCGATCGGAATGCACCAACGGACTAAGGTTTAG -CGCCAGTAACACATCGTTAAATTCTCCGCTAAGTGCGGCGTTACTGGCAGCAATCTCGAAGCCTTTAATGGTGTG -AATCAGCCCCATTACTTTATCATCGAAATGCGTAATGCGCGGATGTGGCGTCGCGCCATCGCGCCCCAGCTTACA -GGTCATTTCTACTGCCCAGTCTGCCGGAATATTATCAATCTGCCCATGATGCGGGATATTAACGTAATGTTCTGC -TTGCTTGTCGTTGTAGATAGCGTTGATCACTTCGCATGCTGCATCAGAGTAATAAGCCCCACCGCGCTGTTCCAG -TTCTTTCGGCTTAACTTTCAGCTCAGGATTTTTATACAGCTCAAAAAGTTGTTTCTCGACTTTCTGTACTACCTG -CGCTCGTGCGCCGCCTTTGTAGTATTCGCCCATTTCAATAGCCAGCATCTCTTTCTGCTTGAAGTAATACAGCAG -ATAAGAACATGGCAGCAGATTCAACGAACGAATTAAGCCCTCACTAAATGGCAGATCGAAAATATTTTTTACAGA -GGACGCTTTTAACTGCCCTGACGCCACACCATCAAGCAATTCGGCAAAGCGCGACTTGCCATTTATCAGCACATC -CTTAATGAACACCATATGGTTGAGGCCGAACAAATCGATAGATAAATCATCGCTGTCTTTCAGCATCAGAACATC -GCGAATAAACATCTTCATGCCGATCGGAATATTACACACGCCGATAAAGCGTTTAAATCCGGTATGACGATAAAC -GGCTTCAGTGACCATTCCCGCCGGGTTAGTGAAGTTAATCACCCATGCATTCGGACAAAGTTCTTCGACATCTTT -TACGATGTCAAAAATCACCGGAATGGTACGCAGACCTTTAAACAAACCGCCCGCGCCGTTGGTTTCCTGACCAAG -ATAACCATGACTTAATGGAATACGTTCATCCAGTTCACGCGCCGGTAATTGGCCAACGCGCAGTTGGGTAGTAAC -GAAATCAGCATCTTTCAATGCTTCGCGGCGATCCAGCGTTTTATAAAGCTTCATCGGGACGCCAGCGTTATCAAT -CATCCGTTGGCAGAGATCGAAAATAATATCCAGTTTCGGTTTACCACCTTCGACATCCACCAGCCATAATTCGCT -GACCGGCAATTCGTGATAACGCTTAATAAATCCTTCCAGTAACTCCGGGGTATAGCTGCTCCCGCCACCAATAGT -GACGACTTTTAATTTCTGGCTCATAATTTCTCCCTTCAGTACAGAATACTGATATCTGGCATATCTGCCCCCCCG -GACATAAATAATCCAGCAACAGGACAGATATGTGAATTGTCAGGTATAACGACTTACTGATTAAATTCAGTCAAT -TTCTTACGATAGCTCTTAGGCGTAAAGGACGTTAATTTCTTAAACGTTTTAATAAACAAACTCGGGCTACTATAA -CCGGCCTCAAACGCAATATCCGTCACTGAATAGTTGGTCATTTCCAGTTGTTTTTTGGCAAAATTAATACGGATT -TCATTAATAATCTGCATTGGCGTTTTGCCATAATATCGTTGAGTCGCTCGCGTCAAATATTCCTGTGATTTGGCT -GACAACGCCACCATATTCTCCAGCGCCGATTCACTAAACTGCTCTTTATCATGCATCTTTTCTACCGTACTTTTC -AGCCACTGCGGTACATCATCAATCACCTGTTCTTCGCGGTAATGACGTAAACGGTTAATGACATAAAAAGTAACC -ATCTCAACAAACTCTTCCAGCCCTGTTTCGCGGAAATTCAATGAAGAAATCACTGTTTCCACATAGGTGAGAAAA -GCGTTATTGGTCCGGTATACCTGCGAAGCGACAAAGCAATAAGGCAACAATGGCAGGTAATGCTGCTCAAAAAAG -CGTTTACTGATCCCAACGTTCAATATGCGCGTGGCACCAAACTCATAAAAACTTTGATGGTGCGAACCTAACGGA -ATAAAAACAAAATCGCCCCGTTCCAGTAACACGCGCTTACCGTTAATCTCCTGGAAATAACGCCCGGTTAATACC -AGAGTAAATTCATAATAGTCGTGCTGATGCAGTCCGCTGATACTCTCAGTTTTGTTATAGATAAACACATGGAAG -TTTTTGCCATTAAACAACTGCTGTTCTCGGGCAGTGGCAATTTCCGGCGCGTTAATCACTGGCTGCATCATCGAC -TCCTTATGCCTTCAGTTTTTCATGAAGCTCAATTAATTCAGTAATCAGTTCACGCGCAAGCATGGACGTCATTAA -ATGATCCTGAGCGTGGACCAGCACCAGACTCACTTTCATCTTACCTTCGCCCGCATCGCCTTCAATCAGTTTCGT -CTGTACCAGATGCGCTTCATTCAATGCCATCCGTGACTGATCCATCATGGCTTTTGCTGCGGCAAAATCGCCCTG -CTTCGCCTGTTTCAGTGCCGCATACGCCAGGCTGCGCGCTTGTCCGGAGTTGATGATCAGCCCCATCACCACTTC -TTCCAGCTCTTCAGCTTCCGTTTGCGTATCGGGAATGTTATCGAGATCCATCATACATCGTTCCTCTCTTTTCTT -ACCGGCACGATTACCCGTACCGGCATCGATTAAAATTTCAGGGCGTTAGCGATATCTTCTTCGCTCTCTTCTTTA -TCAATCGCATTTTGTGCTTTGTTAGCCACCACAACAAAGGGCAGATAAATTAACGTTGCGATGCCAAGGTTGAAG -AGTGCGACCAGCAATGCGGCGACGCTACCGTTGGTGTTAAAGAAGGCTCCCAGACCGGTTGGCATGGTCCACGGT -GCAATATTGGTCACCGGAGGAATAATGCCCATGTAGTACGCTGCGAGGGTGATTGCCGCCAGAATCGGTTGTACC -AGTACAAACGGGATAAACATCACCGGGTTCATGATAATTGGCAGACCAAACAGAATCGGTTCGTTAATCTGGAAG -ATGCCGGACGGCAGCGCCAGTTTTGCCACCTGACGATAATCAGCACGGCGAGAGGCGATAAAGATAGCCAGGATC -AGGCCTAAAGTCGCACCACTGCCCCCAAGGAAAATAAAGGAGTCCAGCATCGGCTTGGCCCAGATATGGAAGGTC -TTACCGGCTGCCAGCGCCGCTTCGACGGAACCATATTGCTGATAGGTCGCGATATTTTCCAGTGCCCACGGCGTC -ATAATGCCGTTGTCCAGTGCGGTCAGCGCCAGCGCGCCATGAATACCGAAGAACCAGAGCAGTGGAACAAAGATC -ACATAGGCCCAGCCCACCACGCTACCCAACGATGCCAGTGGGGTTGAGATGGTATCCATAATGATCTGATGGAAG -TTGGTGCCCCAGGTATTCAACGCCCAGGCAATAATCCCCATCACGGAAAGAATAATAAAGCCGGGAATTAATGCC -GAGAAGGAACGCGATACTGAAGCAGGTACGCTGTCGGGCAGTTTAATGACCCAATTGCGGCGGACAATAAAGGTA -AACATTTCTGCCACCACCAGGCCAATAATAATCCCGGAGATGATATTCGCCCCACCTAACCAGTTTGCACCAACC -GCATAGGCCTCACCGACACTATATGGGGTGACGGTCATAAATGCTGCAACGGATAACAACCCAGCCGCCAGCGCA -TCGACTTTACGCTCTTCTGCCAGCGCCATGCCAATAAAGAACGGTGCCATTAAAGACATTATTCCTAATGTTCCG -TTATATACGTTGCCGCCAATACCTTTCAGACCATTAAGTGTTTCAATGGTTGAGGCGTCGAGGCGAATACCTAAG -GAATAAAAAAACGACCCCTCCCCAAAGCTTAGAAAAACGTTGTTAATTAATACAAACATGGCCCCCGCAAGGGTT -AACGGCATTAAGCGAATAAAGCCATTTTTGATTGCATTAACGTGTGGCTGCTTTCCTATTTTAACTGCAAAAGGG -AGGAGTACCTTTTCAAGCGATGCAATAACATTACTCATAGAAAAATACCCTTAAAAACCGCAATTTAAATATTGC -GGTATTGATTTATGAAATAACTCTTTGACGGGAAAATTTAAAATAAATTAATTTGCTGCGGCTTTTTTAATCGCT -GCAACCGCAGCCTTAAGCACGCCTAAACCATCGACTTTGCCATAAAGCAGCGAGTCAATTACTTCAACCGGTTTG -TTGGGTAACAAACGCTGGATTTCGGGCAACATATAAGCAATCTGCGGCCCTAATAACACGACATCGGCATTCTGA -CCTTTTTCACCAGCCAGTGTTTCCGGAAATGCTTCAATAATGACCGGAACTTCATATTTTTCTGCCTGTGCGCGC -ATTTTTGATACCAGTAAAGAGGTAGACATGCCCGCAGAACAAAACAGATAAATGTGTTTCTTTTCCATAAAACTG -CCCTCATCGACGATTATCTGTCAGCCAGACACTCCGCAAGCCTTAACCTGCTTCCATGCTCTGGGTAACTTGCGA -AACCAACATGACTTTTTTTGTGGCTGAAAGGAGTATACGGTATAGACCTGAGCAATAGTATTTCTTTGACCTTAT -AAATTGTTTCTCCTTGACCTGTGGTTATGACCCTCTTCACATTTCGGGCAAATAATTCGCGAAGATAATTAAGAA -CTCAGGCCAAAAAAAACCGGCGCAATGGCCGGTTTCCGTTGTTACTCAAGCTTTCAGACGAATTGATTACTTCGC -AGCCTGTGGATCAGTGTCGTATTCAGCACAGGTCTGATAACCGGAGTTGATGACATGTCCGGTATCATCTAACGC -GACAAAGTAGGTTTCTGCTTTACCATCACGTTGACCCAGGATGTAGGTCTGGCAAGTACCGCGAGCATGGATCAT -GCTCACTTCAGACGAAGGTTTACCCGCAATTTGTGCAACCTGCGCCCGGCTCATGCCTTTTTTGACGTCTTTCAC -CACAGGCTGTACAAACTGGTCTTTGGTACGATCATAAGCCGTACAACCCGCCAGCATGGTTAATACCGCCGCTGC -ACTCAGAATTCCTGCCATATTCTTGTTCATATTCCGTCCTCTTGTTTATCAGCGTGTTAGATAAGCCTGGAATAC -ATTGGGCGCTTTTTCAAGCCCGTGAACGAAACGGCTCCGCTTTCAGAGGATTCCTGTATGACGTTTTAACCACCA -TTCAGCCCGCTGTCGCTTGTCGTTTCAGTAGCAACGGGTTAGCTTTAAGGAAGTTTTGTCTTTTCTGTCTGGAGG -GGTTCAATGACATTGCAACAACAAATAATAAAGGCGCTGGGCGCAAAACCGCAGATTAATGCTGAAGAGGAAATT -CGTCGTAGTGTCGATTTTCTGAAAAGCTACCTGCAAACTTATCCGTTCATTAAATCACTGGTGCTCGGGATCAGC -GGCGGTCAGGACTCCACGCTTGCCGGAAAGCTGTGCCAGATGGCGATTAATGAGCTGCGCCTGGAAACCGGCAAC -GAATCACTGCAATTTATTGCCGTACGCCTGCCCTATGGTGTTCAGGCCGACGAACAAGATTGCCAGGATGCCATT -GCCTTTATTCAACCGGATCGCGTATTAACCGTTAATATCAAGGGCGCGGTATTGGCCAGCGAACAGGCATTGCGG -GAAGCAGGCATTGAACTGAGCGATTTTGTCCGTGGCAATGAAAAAGCGCGTGAGCGGATGAAAGCACAATATAGC -ATTGCGGGTATGACCAGCGGTGTCGTGGTGGGCACCGATCATGCAGCAGAAGCCATTACCGGATTCTTCACTAAA -TATGGTGACGGCGGTACGGACATTAATCCGCTGTATCGTCTCAACAAACGTCAGGGTAAACAGTTACTGGCGGCA -TTAGCTTGCCCGGAACACCTTTATAAGAAAGCGCCAACGGCCGATCTGGAAGATGATCGCCCTTCTCTGCCAGAT -GAAGTGGCACTCGGCGTGACCTATGACAATATCGACGACTATCTGGAAGGGAAAAACGTACCTCAACAGGTCGCC -AGAACAATAGAGAACTGGTATCTGAAAACCGAACATAAACGCCGTCCGCCAATTACCGTTTTCGATGATTTCTGG -AAAAAGTAATAATTTGCACATATTGGATTGTGCGAAAAAGAGTAATTTGTTCACGCCGGATGCGGCGTGAACGCC -TTATTCGACCTATAAAACTATGCAAATTCAATACATTGCAGGAGTCGAATAGGCCTGACAGGCGTAGCACGTCAG -ACGGTGTAACCTTTGTCATCGACCCGCCTCTTTTTTAATCGCTTCCCGCCTGTTACACTGGATAGATAACCAGCA -TTCGGAGTCAACAGTGGTACGGCGTTTAACTTCTCCGCGGCTCGAATTTGAAGCTGCGGCAATTTATGAATATCC -CGAACATTTACGTTCATTCCTTAATGACTTACCCACCCGACCAGGGGTGTATCTGTTTCATGGTGAAAGTGACAC -CATGCCGCTCTATATCGGCAAAAGCGTTAACATCCGCAGCCGCGTCCTTTCTCATTTACGTACCCCGGATGAAGC -CGCCATGCTACGGCAATCCCGACGGATCAGCTGGATATGTACCGCCGGTGAAATCGGCGCTCTGCTCCTTGAAGC -GCGATTAATCAAAGAACAACAGCCGCTGTTTAATAAACGGTTGCGCCGCAATCGCCAGCTCTGTGCCCTGCAATT -AAATGAAAAGCGCGTCGATGTGGTGTATGCCAAAGAGGTGGATTTTTCACGAGCCCCCAACCTGTTTGGCCTGTT -TGCCAATAGGCGCGCAGCTTTGCAAGCATTGCAGACCATCGCTGATGAACAAAAACTTTGTTATGGCCTGCTGGG -ACTGGAACCGTTAAGTCGCGGTCGTGCATGTTTTCGTTCAGCGCTAAAACGTTGCGCCGGAGCATGCTGCGGTAA -AGAGAGCCATGAGGAACATGCGCTACGCTTGCGCCAGTCTCTGGAGCGTTTGCGGGTGGTGTGTTGGCCTTGGCA -AGGGGCGGTGGCGCTGAAAGAACAGCACCCGGAAATGACTCAATATCATATTATTCAAAACTGGCTGTGGCTGGG -GGCGGTTAATTCGCTGGAAGAAGCGACAACGTTAATTCGGACACCCGCCGGGTTTGATCACGACGGTTATAAAAT -TCTTTGTAAGCCGCTGCTTTCCGGTAACTATGAAATTACTGAACTTGATCCGGCGAATGACCAGCGAGCCAGTTG -ATTTCACTGAACAACAGTTTACCTTGCGGTTGTAAAAGCCGCAGGGTGTGCCTGCCATCGAACCAGCACGCGCCC -TGGTCGGTAGTGAGCAATTTATCGCCCAGTTGCCACGCCCCGTTAATCACAAACACCACCCCGCCGCGTGAGCCA -AAGGTAGTAAACGTACGTTCGGCAATTCTGACTTTCGCCTTACAGACATCCAGGCGTGTCATGATGTTGAAATCC -ATCGACATCTGCCCTGCCGTCAGTTTCGCTTTTACCACCTGGTCCGCTGCAAAGGCAAAAGGCTGGAACGGTTTT -AAGGTATGGTTAAAGCGGTCTGCGCTTTCAAGGAGCATCTCGCCGCCTTCCAGCAACGTCACTATCCTTTCCATG -CCGGGAAACAAAGAAAACTCCCCATTCGCCGCGATGGATGCAATGCTGGCACGCCAGTAAAAATCACGTTTTGCC -GGTGGGAACGTGCAAATTTCGCGCGTTTCACCGGCAGCATTTCGCCACAGATTCACCGACATTTTACGCATATCA -AAGTATTCCATACTCGCTCCCGGCCCGTTCTTTTCATTGTTATCGTTCAGGTAACCGTGGATGGTTATCGGCAAC -TCGGGTGATTTACGTTAGTGGTGATCAGGCTTTTTTTACAACTGTTTGAGAAGAGAAAAGAAAACCGCCGATCCT -GTCCACCGCATTACTGCAAGGTAGTGGACAAGACCGGCGGTCTTAAGTTTTTTGGCTGAAAGATTATTCAGCAGT -TGCAGGCATTTTACCTTTTGCCGCTGGACGTTCTGTCAGACGCTTCTCAAAATTAGCATTAAATTGCTTTTTCTG -TTCCGGCGTCAGGATGTTGTAAATTTTGTTCTGGGTTTCCATGTGCGCCAGCATGTTAGCTTTGCGCTGTTCTTC -CATTTTTGCGATCTGCGCTTCAGCTTTTACTTTATCGAAGGTATCGCTGGCAATGATGTCATGCATTGCGCGGCG -TTCTTCCAGCGGCGGACGTTTCATCTGGTCACGCTGGCCTTTCATGATTTCGCGGATCTGCTGTTTCTGCGCGTC -GGTCAGGTTCAGGTCTTTGAACATCATGTCCTGATGCGGACCGAACTTGCCTTTGTGGTGCATCATCGGCTTCGC -GTCAGCCGGTGCTGCGGTAGTGGTGTCTGCGGCATGGGCCAGGTTAGCCGCGCCAAGAGCCAGGGTAGAGGCAAC -AAACAGTGCAGTTAATTTACGCATATTCTATATCCTTCCTTTCAGTTATTTATTACGGCTTTCTTAAGTAGCGTG -CCGTGTTGACGAGATTAACTTTACTGACTTTAGCGTCAATTAATCAGAGCAACGGTAAAACAATGAAAGTGTAAA -AAACACTTTTGCGCCAATTATGGAGAAAAAAAGAAAATTTGATGGAGAGTGATGAGAGAATATTACAACACGATG -ATTTTGCAGAGATTATGAAGAACTATACCGGATGACTGGTGATAAATAAAGCAAATAACCAGGATTAATCTGTAT -TAATTTATAAGAAAGCAACTTAATACCCGCAGAATGATTTCTGCGGGTAAGTATTAGCTTATTTTTTCGAGCATT -AATCCCGCGCGTAATCCCAACGCTACCAACGGATTAGGGAATAACACATACTCTACATCATGGGTTACGGTAAAA -CGTTCCTCTCCGTCCTGCGCCAGCAATGTTCCTTTCTCAAACGGCATAAAATTCAGCGTGTCACTTGCCATATGC -ATTTCGAAGGACGGCGAGTGGCGAGTAATTTGCGAAACCACCCGATAACGGAGCGGCGGTGTTCTCACGATACCG -ACACTCTCACCAGATAGCAGCGCAGCAATTGCGCTGGCAGTTACTGCAAACTGGCGAAGATCGTTTTGCCCAAAG -GGCAACGCTTTGCCAAGTTCCAGCGTACAGGCCAGCGCGCCAAAATGTCTGGCGCTGAAATGGGTAAACGTACCA -CCAGGTTCCTGATGGAACACCAGCGCCTCCAGCCCCGCCGCACCCAGCCACGTCAGAAATTTCTCGTCCCAGGGA -ATGTCGCGTTGCGGTAATACACCGAACTGCGGATGCAAGGAGCCACGAATTGCGGTATGTAGATCAAGGTGCCAG -CGCACAGATTCTTTGCCCTGGTCATAAAAATCTTCCAGGCACTGTTCCAGTTCGCGCGCCCGACAGGTTTCTCCG -CTTTCAGCAAATAGCTGCCAACGACCGCCAAACATTCGATTCATATCGCTATGGCAATAACGTTTCCCTTGCTTC -AGCGCAGGAGGATTCCCGAGGATCACCAGCAACCGCCAACGTAACGGGATCTCGCCGTGAGATATCGCGCCAAGC -AACGCGTCCAGCATCTCCACAGGTGCCGTCTCATTACCGTGTATTCCCGCTGAAATCACCAGTGCGCCTTGCGGT -GGCGTTAATGGCGTCAGTTCCAGCACACCATCGCCCAGCCAGCGCCAGCGAACGCCGTTGATTTCTCGCTCGGTG -ATAACCGGTTTTTTACCCGTTAAGGTCAGAGCAAGAAAATTATCCATTGCCCCCTCCCTCGCGCTGGAACGGATA -AACCGAACCGAGATTCAGTAATTGGCTCAATACATCCAGTGCTTCCCGCCCTTCGCGCAGCAATTGCGGGTCGGC -CAGATCGGCAGCAGTAAGGCGATCGCGGTAGTAACGATCCACCCAGTCATTGAGCGCATTAAACAGCGTATCGTT -CATCATCACCGCCGGATTCACCGCCCGGCGTTCTTCTTCTGTCAATACCACCCGCAACCGCAGGCACGCCGGGCC -GCCGCCATTCGCCATGCTTTCACGTAAATCAAAGACTTTTAGTTCGCTAATCGGGTTGTCAGCGGCAAGGAGTTC -ATTGAGATAACCCCATACTCCGGCGTGTTCCCGACACTCCTGAGGCAGCACCAACATCATGGAACCATCATCGCG -GCTCAGCAGTTGGCTGTTAAACAGATAGGTAGACACCGTATCAGACACGGAAACCTGAGTTGCCGGAACTTCTAT -CGCCATAAAACCATTGACCCGCGCACGCAGGTTTGCCAGTAACTGTGACTGGCGAGCGAACGCCTGTTGGTGGCA -AAACAGCACCTGGCGGTTACTCACGGCAATCACGTCATTATGAAAAACGCCCTGGTCGATAACGTCCGGGTTTTG -CTGGGCGAAAATCACCTGTTGGGGATTCACCTGATTCAGCCTTGCCACCGCCTCGCTGGCTTCGCGAGTCTGTCG -CGCCGGATAACGGGAAGGCCGGGTATCATTGCCTTCTTCTCGCCCGTAGACAAAAAGTTGCATACCCGGTTCACC -GTAATGACCGCCGAGACGATTGTGGTTTGCCGCCCCCTCATCACCGAGCAACGCTACCTGTGGCAACGCCGAATG -GACGCTAAATTTCTCTTCGTCGTTAAAAATCGCTTTTAACAGCGATTCAGTGACGGGCGCTTCCAGCGAACGGTG -AAATTTATTGTTCAGGTTGGCAACGGTGAGATGCACTTTGCCATCCAGCGTATCGGCAGATGGCGCGATCGTTGC -CGCATTGGCTACCCACATTGGCGAAGCGGAACTGACGCTGGAAAGCCAGTGCGGTGCCTGGCGTGCAACTTTTTC -CAGTACCTGCTCATCGCTACCACTGAATCCCAACTGACGCAGCACCGGAATAAACGGACGCTCGTGCGGCGGGAT -CACGGCCTGGGGGAATCCCGCATCGGCAAGGGCTTTCATTTTCAGTAAGCCCTGCTTCGCCGCCAGTCGCGGGTT -AGACACCTGAAAACGGTGACGGGTAGAGGCTTCATTACCAAACGACAGGCCCGCGTAATGATGCGTCAGCCCTAC -CAGCCCGTCGAAATTGACTTCCCAGGCGTTCATCGCACCACCTCATCGGAAAAATCCAGCCCGGGGTTAAGCGTG -GCGGGCAATGTTAACGAGTCCGACTCCAGGCTCGCCATCGGCCATGCGCAGTAATCTGCGGCATACCAGGCGCTG -GGGCGATGGTTACCGGAAGCACCAATGCCGCCGAATGGCGCGGTACTGGCAGCACCGGTAAGCGGTTTGTTCCAG -TTAACAATCCCCGCCCGCGCCTCCAGCAACAGTTGATCGAACTTTTCCCGCTCGGGGGAAACCAGACCGCAAGAG -AGTCCGAAGCGAGTGTTATTCGCCATTCGAATCGCTTCATCGAAAGTATCATAACGCCAGACGCGCAATAACGGT -CCGAACACCTCTTCATCTGGTACGCCAGCAACGCCTGTCATTTCAATGATCCCCGGCGTCAGCAACGATGTCCCT -GCTTGTAATAAGCGCGGCGCAAGCAGGGGTCGTCCGCCCATCGCTTCCAGTTGCTGCCATGCAGTAACCACCTGC -TGTGCGGCCTGTTCAGAAATCAGCCCGCCAATAAACGGCTGCGGTTCGTCATCCCAGTTGCCCGGCGTTAATCGC -TGGCTGACGGCAACCAGACGAGCAAGAAACGCATCGCCCTGCGCCCCGCTTTTCAGCAATAAACGGCGGGCGCAG -GTGCAGCGTTGACCGGCTGTGACAAACGCCGACTGAATGGTCAGATGGACAGCCGCGTCGATATCCGCCACCTCA -TCGATAATTAGCGGATTATTACCGCCCATCTCAAGGGCGAGAATTTTCTCCGGCTGACCGGAGAGCTGGCGATGC -AACTGGTAGCCTGTATTGGCGCTACCGGTAAACAGCAAACCGTCGAGATCCTCCAGCGCACTCAGCGCCTGACCC -GTTTCACGCCCGCCCTGCACCAGGTTCAGCACGCCTGGCGGCAAGCCAGCCTGCTGCCATAAACGCATTACCGCT -TCGCCACTCCACGGTGTCAGTTCGCTGGGTTTAAAGATAATGGTGTTACCTGCCAGCAATGCCGGAACGATATGT -CCGTTCGGCAAATGACCAGGGAAATTATACGGCCCAAACACCGCCAGCACGCCGTGCGGGCGATGTCGCAGGCTC -GCCGCGCCGTCCGGCATTTCACTACGCTGCTCGCCGGTACGAACGTGATACGCCTTAATTGATATCGCGATTTTA -TTGATCATCGCCGTCACTTCGGTTGCCGCTTCCCAGCGCGGCTTACCCGTTTCTCTGGCAATAATCGCGGTTAAT -TCGGCTTTATTGCTTTCCAGCAGTGCGGCAAAGCGTTCGACAACGGCATGACGTTCAGCAAATGAAAGCCGCGCC -CAGCGCGGAAACGCCGCACGGGCTGCCCGACAAGCCTGCTCGACCTGAGCGGCATCGGCATCATTGCCTTGCCAT -AACACCTCGCCCGATACCGGATTACGCTTCACACGCGATGCGCCCTGGCCCGTTATCCAGTCACCGTTAATCCAT -AAAGTCATGCTGTTTTCTCCTCTGCGCACAGGCGCACCAGACGAACGCGATCCCCGGCGTGGCATTTGAGGGCAT -CCAGTTGTGCGGCGGTTAAAATCAAACGCTCGGTTGCCGGATCGGTACGCACCAGCACCACGCGGAAATGGTGAT -AATTTTCATTGGCGACCAGGCAGGCTGGGAAATCGCCCTGCGCAGGCTGCCCTTCTGCCACTTCCACCAGCCGAC -TTTTACGGATGGCGCGCACGCGGTCGATGTCACACTCAAGCGTCGGCCCACCGTCAAAGATGTCGATATAGTTAC -GGTAGCGAAAACCTTCTTTCTCCAGCACCGCGCGGGCAGGCGCGGTTTGCGGATGTACCTGACCGATGACGTCCT -GGGCTTCCTGGGATAAAAAGTGGGTATAGATCGGATGTTTCGGCATCAGTTCTGCAATAAATGCCTTTTGCCCGG -TGCCGCAGAGAAAATCGGCGCGGCTAAAATCCATCGAAAAGAAGCGTTTACCGAGGCTTTGCCAGAACGGTGAAT -AGCCGTGTTCGTCAATCACCCCGCGCATTTCAGCAACCACTTTGTCATTAAACTTGTCGCGAAAAGCCGCCATAA -ACATAAAGCGCGATTTCGACAGCAAATAGCCGTTGCCCTCTTTGCGCCAGTCCGGGTCGAGAAACAGCGTGCACA -GCTCGCTGCTGCCGGTGTGATCGTTACTGAGAAACAGCGTCGGCAATGCGTTATAGACATTCAGCTCTTTTGAGG -CGTGAACCAACGTGCCGACGCGATAGTTGTACCAGGGATCGTTCAGCCCAACCGCCACCTCAATGGCACAAATCC -CCGCCACGGTGCCTGTCTCGCTATCTTCCAGCACGAACACATAGCCCTGCTCACTTTTGGGCAGTTCGCCTTGCC -AGGTTTTGATTGCCCTTTCGATACGCGCCGAAAGCGTGGCTTCATTGGCGGGAAGCGACGTCAGGCCGCCGCCCG -TTTTGCTGGCAAGCTGCATCAGCGCCGAGACATCTGATCGCTCAACGGGACGGATGACCATCATGATGAACCTCG -GCTAACAAAGTGTTCGCAAGCAGCTGCAAAGCGATCCAGTCCGGTCGTCACCTCTTCTTCGCTGACATTGAGCGC -AGGCGCAAAACGCACCACGTTGCCACCCGCAATCAGTACCATCACGCCTGCTTTCGCCGCTTCCTGAGAGATCTG -TTTCGCTTGCCCGGCGTAATCGGCATTCAGTACACAGCCAATCAGCAAACCTAAGCCGCGAACTTCACTGAACAA -ACCATAGCGGTGATTAATAGTATTAAGACGCTCAACAAACCAGTCGTGACGCTGTTTAACGCCATTAAGCATCTC -TGGTGTGTTGATGAGCTCCAGCACTTTGCCTGCCACCGCCGAGGCCAGCGGATTACCGCCATAGGTGGTGCCATG -AGTGCCAACGGTCATCACGCGGGCGCACTCTTCGGTTGCCAACAACGCACCGACCGGGAAACCGCCGCCCAGCGC -TTTGGCGGTAGTTAACAGATCAGGCGTCACGCCGTAGTGCATATAGGCATACAGTTCCCCGGTGCGCCCGACGCC -GGTTTGTACTTCATCAAAAATCAACAGCGCATTGTGGCGGTTACACAATTCACGCAGACCTTGTAAAAACGCGTT -GCTGGCTGGCACCACACCGCCTTCCCCCTGGATGGGTTCGACAATCACCGCACAGGTAGAGTCGTCAATCAGCGC -GCTGGCAGAGTTAATATCGTTATATGCAGCATGACGAATATCCGCCGGCAGTGGCGCAAAATCCTGTGAATAGGC -TGGCTGCCCACCCGCACTGACAGTAAACAGCGTGCGACCATGAAACGCATTTTTGAACGCCACGATGCCGCTCTT -ATGGCTGCCGTAGCGGTCGTGAGCGAATTTACGCGCCAGTTTTAGCGCCGCTTCGTTGGCTTCCGCACCGGAGTT -ACAAAAGAAGACGCGATCGGCAAACGTGGCGTCGATCAATTTTTTCGCCAGTCGCAGTACCGGCTCGTTGGTGTA -ACCGTTGCCGGTATGCCAGAACTTACTCGCCTGTTCGTTCAGCGCTTCACGCAGTTCCGGATGCGCATGGCCCAG -CGCGTTCACCGCAATGCCACCCGCGAAGTCGATATACTCTTTCCCCTGCTGATCCCACAAGCGCGAACCTTCGCC -ACGTACCGGTATAAAGGGTGCCGGAGCGTAAACAGGTATCATCCATTCATCAAAGTTTTCACGCGTAATTGGCTG -AGACATAGCGACCTCTACAGTAAATAATTCGTTATTTATATGTTAATAATAAGTAATGTTTGCGCTGTAAATGTA -GATTGCAGGGTTCGTGCCAGCCAGTGATAAAAGTGCATAAACGGCGGAGGCTAACTGGAAATCAAGGAGTTATAA -CCAAACCATATGCATTTAAAGTGCATATAAAGTGAATACGTTTGCGATGTGGGTGAATAAAAAGAATAAAAAACG -CAATGTTATGCAGAAGTAAAATATAATTCTGGAATTGTGATCATTGACGAAATTTACTGGAAATTACTGCGCCAT -TCTGACGCAGCGCGCACCAAAAGCGGGCATTTTTTGCGCCATCGTTGACATCATTAACAACCATCGATCAAATCA -CTTAACAACAGGCGGTAAGCAACGCGAAATTCTGCTACCATCCACGCACTCTTTATCTGAATAAATGGCAGCGAC -TATGAAATTTGTCTCTTTTAATATCAACGGCCTGCGCGCCAGACCTCACCAGCTTGAAGCCATCGTCGAAAAGCA -CCAACCGGATGTGATTGGCCTGCAGGAGACAAAAGTTCATGACGATATGTTTCCGCTCGAAGAGGTGGCGAAGCT -CGGCTACAACGTGTTTTATCACGGGCAGAAAGGCCATTATGGCGTGGCGCTGCTGACCAAAGAGACGCCGATTGC -CGTGCGTCGCGGCTTTCCCGGTGACGACGAAGAGGCGCAGCGGCGGATTATTATGGCGGAAATCCCCTCACTGCT -GGGTAATGTCACCGTGATCAACGGTTACTTCCCGCAGGGTGAAAGCCGCGACCATCCGATAAAATTCCCGGCAAA -AGCGCAGTTTTATCAGAATCTGCAAAACTACCTGGAAACCGAACTCAAACGTGATAATCCGGTACTGATTATGGG -CGATATGAATATCAGCCCTACAGATCTGGATATCGGCATTGGCGAAGAAAACCGTAAGCGCTGGCTGCGTACCGG -TAAATGCTCTTTCCTGCCGGAAGAGCGCGAATGGATGGACAGGCTGATGAGCTGGGGGTTGGTCGATACCTTCCG -CCATGCGAATCCGCAAACAGCAGATCGTTTCTCATGGTTTGATTACCGCTCAAAAGGTTTTGACGATAACCGTGG -TCTGCGCATCGACCTGCTGCTCGCCAGCCAACCGCTGGCAGAATGTTGCGTAGAAACCGGCATCGACTATGAAAT -CCGCAGCATGGAAAAACCGTCCGATCACGCCCCCGTCTGGGCGACCTTCCGCCGCTAATTTAGCAGCTCTCCTGG -CTCAAACTGGGTCAGGAGAATTAACCTTGAGAAAAATCAACAAACTGTCAGTAATGATTTGTTGCCTGCCGTCCT -TTGTTATACCGTCTCTGCGTTTTTAGTTGTCTGACCACTTCTCTATTATCAAGTTTGATATAGGAAACTCCACGA -TGAACGCTGAGCGTAAATTTCTTTTTGCCTGTCTTATTTTTGCGCTGGTCATTTACGCTATCCACGCTTTCGGTT -TATTCGATCTGCTCACCGATTTACCCCACTTACAGACACTCATCCGCCAGAGCGGATTTTTCGGCTATAGCCTCT -ATATTCTGTTATTCATCATTGCCACCCTCTTGCTGTTACCAGGAAGCATACTGGTGATCGCGGGAGGAATAGTTT -TTGGCCCGCTCTTAGGGACACTACTCTCATTAATTGCCGCCACGCTGGCCTCCTCGTGCTCATTCCTGCTGGCGC -GCTGGCTGGGACGTGATTTACTGCTGAAATACGTTGGCCATAGCAATACCTTCCAGGCCATTGAAAAAGGCATTG -CGCGTAACGGTATTGATTTTCTTATTCTGACCCGCTTAATCCCGTTGTTTCCTTACAATATTCAAAATTACGCTT -ACGGATTAACCACAATCGCCTTCTGGCCTTATACCCTTATTTCGGCACTCACGACCCTACCCGGTATTGTTATTT -ATACCGTGATGGCAAGCGATCTCGCCAATGAAGGCATTACGCTGCGCTTTATTTTACAACTCTGTCTGGCGGGCC -TGGCGCTGTTTATTCTCGTCCAGCTCGCAAAACTCTACGCCCGACACAAACATGTGGATCTGTCTGCTTCGCGCC -GCAGCCCACTTACTCACCCAAAAAATGAAGGATAGAACGATGTTGCAACATTATTCAGTGTCATGGAAAAAAGGA -CTGGCTGCACTCTGTTTACTGGCTGTTGCTGGGCTTAGCGGCTGCGATCAACAAGAGAATGCGGCGGCAAAAGTG -GAATACGACGGACTTTCGAACAGCCAACCGCTGCGTGTCGATGCCAATAACCATACGGTAACCATGCTGGTGCAA -ATTAATGGTCGTTTCCTCACCGACGACACTCGTCACGGTATTGTGTTTAAAGATGGCTCCAACGGACATAAATCG -CTGTTTATGGGTTATGCGACCCCGAAAGCATTTTATGAAGCCCTGAAAGAGGCAGGTGGTACGCCGGGCGAAAAC -ATGACGATGGATAATAAAGAAACGACTCATGTCACAGGCAGCAAACTGGATATTTCGGTCAACTGGCAAGGGGCG -GCAAAAGCGTATTCCTTCGATGAAGTGATTGTTGACAGTAATGGCAAGAAACTGGACATGCGCTTTGGCGGTAAT -TTAACGGCAGCAGAAGAGAAGAAAACGGGTTGCCTGGTGTGTCTGGATAGCTGCCCGGTCGGCATCGTCAGCAAT -GCAACATACACTTATGGTGCGGTTGAAAAACGTGGTGAAGTTAAATTCAAAGGCAATGCCTCAGTTCTCCCGGCG -GATAACACGCTGGCAACGGTTACCTTTAAAATCGCCGAATAAAGCCAGGATAAAGGATGATGATGATGCAATCGC -GAAAAATCTGGTACTACCGTATAACCCTCATCATCCTGTTGTTCGCTATGCTGCTGGCATGGGCGCTGCTTCCCG -GCGTCCATGAGTTTATCAATCGCAGCGTTGCGGCGTTTGCCGCCGTGGACCAACAGGGTATAGAACGCTTTATTC -AGTCTTACGGCGCACTGGCGGCAGTTGTCTCGTTCTTGTTGATGATTTTGCAGGCCATTGCTGCACCGCTACCTG -CGTTTTTGATCACCTTTGCCAATGCGTCGCTGTTTGGCGCGTTCTGGGGCGGCTTGCTGTCGTGGACCAGTTCGA -TGGCCGGCGCGGCGCTGTGCTTTTTTATCGCCAGAGTGATGGGCCGCGAAGTGGTGGAAAAATTAACCGGCAAAA -CCGTGCTTGACAGTATGGACGGCTTTTTCACTCGCTACGGCAAACACACCATTCTGGTCTGTCGGTTATTGCCTT -TTGTCCCTTTCGATCCAATCAGCTATGCTGCCGGTTTGACTTCAATACGTTTTCGCTCGTTTTTTATCGCCACCG -GGCTTGGTCAGTTACCGGCAACTATTGTTTATTCCTGGGCGGGCAGCATGTTAACAGGCGGTACTTTCTGGTTTG -TCACCGGACTGTTTATTCTGTTTGCCCTGACCGTGGTGATTTTTATGGCGAAGAAAATATGGCTTGAACGCCAGA -AGAGGAATGCCTGATGGGTTTACCGCCGCTTAGCAAAATTCCTTTAATTTTACGTCCACAGGCGTGGCTGCATCG -TCGCCATTACGGCGAGGTGCTAAGCCCCATTCGCTGGTGGGGGCGGATCCCGTTTATCTTTTATCTGGTGTCGAT -GTTTGTTGGCTGGCTGGAGCGCAAACGCTCACCGCTCGATCCGGTAGTACGATCGCTTGTCAGCGCGCGCATTGC -GCAAATGTGCCTGTGTGAGTTTTGTGTGGATATCACCAGTATGAAAGTCGCCGAGCGCACCGGCAGCAGCGATAA -ACTGCTGGCAGTGGCTGACTGGCGGCAAAGCCCGCTCTTTAGCGATGAAGAACGGCTGGCGCTGGAGTACGCCGA -AGCCGCAAGCGTAACGCCGCCAACGGTCGATGATGCCCTGCGTACCCGACTGGCTGCGCATTTTGACGCTCAGGC -GCTCACCGAACTGACGGCATTGATCGGCCTGCAAAATCTGTCAGCCCGTTTTAATTCTGCCATGGACATTCCCGC -TCAGGGGCTGTGCCGTATTCCTGAAAAACGTTCTTAAGGAGAGATGATGCGCCATTGTGGGTGGTTGCTGGGATT -GTTATCGCTGTTTTCTCTGGCAACACATGCCAGTGACTGGCAAGAAATTAAAAATGAGGCCAAAGGGCAAACCGT -CTGGTTTAACGCCTGGGGCGGCGATACCGCAATTAACCGCTATCTCGACTGGGTGAGCGGCGAGATGAAAACCCA -TTACGCTATAAACCTGAAGATTGTCCGTCTGGCGGATGCCGCAGACGCGGTGAAGCGCATTCAGACCGAAGCCGC -AGCCGGACGTAAAACGGGCGGCTCGGTGGATCTGCTCTGGGTGAACGGCGAAAACTTCCGCACCTTAAAAGAGGC -CAATTTATTACAAACGGGCTGGGCGGAGACTCTGCCCAACTGGCGCTATGTCGACACACAGCTGCCGGTGCGGGA -AGATTTTTCTGTGCCGACACAAGGTGCGGAATCGCCCTGGGGCGGCGCACAACTGACGTTTATCGCCCGCCGCGA -TGTTACGCCACAGCCACCACAAACGCCGCAAGCCTTACTGGAGTTTGCTAAAGCCAATCCCGGCACGGTTACCTA -TCCGCGCCCACCGGACTTTACCGGCACGGCGTTTCTTGAACAGTTGCTGATTATGCTGACGCCCGATCCCGCCGC -ATTAAAAGAAGCGCCGGACGATGCGACTTTCGCCCGTGTCACTGCTCCCTTGTGGCAATATCTTGATGTGCTGCA -TCCGTATTTGTGGCGCGAAGGAAAGGATTTCCCGCCTTCACCCGCGCGGATGGATGCTCTGCTGAAAGCCGGCAC -ATTGCGCCTGTCGCTGACCTTTAACCCCGCGCATGCGCAGCAAAAAATCGCCAGCGGCGATTTGCCTGCAAGCAG -TTACAGTTTTGGCTTTCGCGAGGGGATGATTGGCAACGTGCATTTCGTCACCATTCCTGCCAACGCGAATGCCAG -TGCTGCGGCGAAGGTAGTTGCCAATTTCCTGCTCTCACCCGATGCGCAACTGCGTAAAGCAGATCCCGCTGTCTG -GGGCGATCCTTCTGTTCTCGATCCGCAAAAACTGCCTGACGGGCAGCGCGAATCATTGCAATCAAGAATGCCGCA -GGATCTGCCGCCGGTACTGGCTGAACCGCACGCAGGTTGGGTAAATGCGCTGGAACAAGAATGGCTACACCGTTA -CGGTACGCATTAATCTTTTTGCTGTGGGCGATGGTGGCGGTGATTTATGCACCGCTGATCCCGGCAGCTCTCACG -CTGATATCGCCTGCTTTGTCGTTGACACACTGGCAGGCGTTATTTGCCGATCCACAGTTACCGCAGGCATTACTG -GCAACGCTGGTGTCGACAACCATCGCGGCGGTCGGGGCATTGTTGATTGCCCTGCTGGTGATTGTGGCGCTGTGG -CCTGGGCCGAAATGGCAGCGTATGTGCGCCCGTCTGCCGTGGCTGCTCGCCATTCCCCATGTGGCTTTTGCCACC -AGCGCCCTTCTGCTCTTTGCTGACGGAGGGCTGCTTTATGACTATTTCCCGTATTTCACTCCGCCAATGGACCGA -TTTGGCATCGGTCTGGGCCTCACCCTTGCAGTGAAAGAAAGCGCATTTCTGCTGTGGATCTTAGCAGCAGTATTG -AGCGAAAAATGGCTGTTGCAGCAGGTCATTGTGCTGGATTCGCTGGGCTACAGCCGCTGGCAATGCCTGAACTGG -CTGCTGTTGCCCTCCGTCGCGCCTGCGCTGGCAATGGCGATGCTGGCGATTGTTGCCTGGTCGCTGTCGGTCGTG -GATGTGGCAATTATTCTCGGGCCAGGTAATCCCCCGACGCTGGCGGTAATTAGCTGGCAGTGGTTAACCCAGGGC -GACATTGACCAACAAACAAAAGGCGCGCTTGCCAGCCTGCTGTTGATGCTGTTACTCGCCGCCTACGTTTTGCTG -AGCTATCTGCTATGGCGCAGCTGGCGGCGCACTATTCCCCGCGTAGATGGCGTTCGCAAGCCTGCCACGCCTTTA -TTGCCGGGCAATACGCTGGCGATTTTTTTACCCTTAACCGGTGTGCTGTGTGTGGTTCTGCTGGCGATCCTCGCG -GATCAGTCGACGATCAATAGTGAAGCGCTCATCAACAGCCTGACAATGGGGCTGGTGGCGACATTCATCGCTTTG -CTCCTGTTACTGCTGTGGCTGGAATGGGGGCCACAGCGTCGCCAGTTGTGGCTATGGTTGCCCATTTTATTACCT -GCTCTGCCACTGGTGGCGGGCCAGTACACGCTGGCGCTATGGCTGAAACTGGATGGAAGCTGGACGGCGGTGGTC -TGGGGGCATCTGCTGTGGGTGATGCCGTGGATGCTGTTTATCCTGCAACCCGCCTGGCAGCGCATTGATTCACGG -TTAATTTTGATTGCGCAAACACTGGGCTGGTCGCGGGCCAAAATCTTCTTTTACGTGAAATGCCCACTCATGTTG -CGCCCTGTGCTGATTGCCTTCGCGGTGGGATTTGCAGTCGGTATTGCGCAGTATATGCCAACGCTGTGGCTGGGC -GCGGGGCGTTTTCCGACGCTCACCACTGAGGCGGTGGCATTAAGCAGCGGCGGCAGCAACGGTATTCTCGCCGCC -CAGGCTTTATGGCAACTGCTATTACCGCTTATTATTTTTGCCCTGACCGCGTTAGTCGCAAAATGGGTAGGTTAT -GTCAGACAAGGACTCCGCTAATGCTCTGCGTGAAAAATGTTTCGCTACGTTTACCAGAAAGCCGCTTGCTGACAA -ACGTTAACTTTACGGTGGATAAAGGTGACATTGTCACGTTAATGGGGCCGTCTGGCTGTGGAAAATCCACTCTGT -TTTCATGGATGATTGGTGCACTGGCCGAACAGTTTTCTTGTACAGGTGAGCTATGGCTCAATGAGCAACGGATTG -ACATCCTACCCACCGCACAGCGTCAGATTGGCATTCTTTTTCAGGATGCACTGTTATTTGACCAGTTCAGTGTCG -GGCAAAATTTACTGCTGGCGCTACCGGCGACACTTAAAGGGAATGCCCGACGTAATGCCGTGAATGATGCACTTG -AGCGTTCAGGCCTTGAGGGAGCTTTCCATCAGGATCCTGCCACTTTGTCTGGCGGTCAGCGAGCGCGCGTTGCTC -TACTACGCGCCCTTCTCGCCCAACCAAAAGCGTTACTCCTGGATGAGCCATTCAGCCGTCTTGATGTGGCTCTGC -GCGATAATTTTCGCCAGTGGGTGTTCAGCGAAGTTCGCGCCCTGGCGATCCCCGTCGTTCAGGTAACGCACGATC -TCCAGGATGTTCCTGCTGATAGTTCTGTTCTGGATATGGCGCAGTGGTCAGAAAATTACAACAAACTGCGATAAC -GCAAAGTTTTTCTCAATGCGTCAGTTCAGAATGGCGCACTCAAAACTACAATGTCGGGATTTTCGATGAAACGTG -TTTCTCAAATGACCGCGCTGGCAATGGCTTTAGGGCTGGCTTGCGCTTCTTCGTGGGCCGCTGAACTGGCGAAGC -CTCTTACACTTGACCAGCTTCAACAACAAAATGGCAAAGCGATAGATACTCGCCCCAGCGCGTTTTATAACGGCT -GGCCACAAACCTTAAATGGCCCTTCTGGTCATGAACTTGCCGCCTTAAACCTCTCTGCCAGCTGGCTTGACAAAA -TGAGCACCGAACAGCTCAACGCGTGGATCAAGCAACATAACCTGAAAACCGATGCTCCGGTGGCGCTGTACGGTA -ATGACAAAGATGTCGACGCCGTCAAAACGCGACTGCAAAAAGCAGGTTTAACGCATATCTCCATCCTGAGTGACG -CGCTAAGCGAACCTTCCCGTCTGCAAAAACTGCCGCATTTTGAGCAGCTGGTTTATCCGCAATGGCTGCACGACC -TGCAACAAGGTAAAGAGGTTACGGCGAAACCTGCCGGTGACTGGAAAGTCATTGAAGCGGCCTGGGGCGCTCCTA -AGCTTTACCTTATCAGCCATATTCCCGGCGCTGACTACATCGATACCAACGAAGTGGAAAGTGAACCGCTGTGGA -ACAAAGTTTCTGATGAACAACTAAAAGCGATGCTGGCAAAACACGGCATTCGCCATGACACCACGGTCATTCTGT -ATGGGCGTGACGTATACGCTGCAGCGCGTGTGGCGCAGATTATGCTTTATGCTGGCGTGAAAGATGTGCGCCTGC -TGGATGGCGGCTGGCAAACCTGGTCCGACGCGGGACTGCCTGTTGAGCGCGGAACGCCACCGAAAGTGAAAGCGG -AACCGGATTTCGGCGTGAAGATCCCGGCACAACCGCAGTTGATGCTCGATATGGAACAGGCCCGTGGACTGCTGC -ATCGCCAGGATGCATCGCTGGTGAGCATTCGTTCGTGGCCAGAATTTATCGGTACGACCAGCGGTTACAGCTATA -TTAAACCAAAAGGTGAAATAGCCGGCGCACGTTGGGGACACGCTGGTAGCGACTCGACGCATATGGAAGATTTTC -ATAACCCGGATGGCACCATGCGCAGCGCCGATGATATTACCGCTATGTGGAAAGCGTGGAATATCAAACCAGAGC -AGCAAGTTTCATTCTACTGCGGCACCGGCTGGCGCGCGTCCGAAACCTTTATGTACGCACGCGCCATGGGTTGGA -AGAATGTTTCCGTGTATGACGGCGGCTGGTACGAATGGAGCAGCGATCCAAAAAATCCGGTAGCAACCGGTGAAC -GCGGCCCGGACAGTAGCAAATAACATTGCAATTACTGACGCTGGAGCGACTTCAGCGTCAGATACCCACTCCACA -CCCGCGTAAAGGTCGTCATCCAGCACAACGCACCGAAGATCCACGCAAACCACGCAAACCATGCAGGGAATAAAC -ATCCCAGCACAAACAGTAAGATCGTTTCTGTGCCTTCGGTTAATCCCCCCAGATAGTAAAACGACTTATGTGCAT -AACCGGGGTTATCAATCTGATGTTTTGCTGCCAGTGCAGCAAAGGCGAGAAAACTGCTGCCCGTGCCGATAAACG -CAAACAACAACCAGCCGCCTGCCAGCGCATTTTGCTCCGGTGCAGCAAGAATAAAGCCAAACGGCACCAGCGCGT -AAAAGAGAAAATCGAGAGAAATATCAAGAAAGCCGCCCGCGTCGGTAAGCTCTCTGCGCCGCGCCAGCGCACCGT -CCAGACCATCAAGCAGCCTGTTCAACAAAATGACGACTAGCGCCGCCAGATACCAGCCCAGCGCCAGAAACGGCA -GAGCCAGCACGCCGATGGCAAATCCCACTAATGTTAAACCATCTGGCGTAATGCCCGGTTTATCAAGAACCCGCA -CGCACTGATGCAACAACGGTTTAATCCGGGGATGAAGATGGCGGTCTAGCACAGGCACTCCTTAAATATAAAGCC -TTTCTGATTGAGCAACAGTGCGGATATTATGGCATTTTTCGCTTATCTGCCCGTGTGTAATTTATGAAAATGATT -GAAGTTGTTGCCGCCATCATTGAACGTGATGGCAAAATTTTACTCGCGCAACGCCCCGCCCAGAGCGATCAGGCG -GGATTATGGGAGTTTGCCGGTGGTAAAGTCGAGCCGGATGAAAGTCAGCGGCAGGCGCTGGTGCGTGAGTTACGC -GAAGAACTGGGCATCGAAGCAACTGTGGGTGAATATGTTGCCAGCCATCAGCGAGAAGTTTCGGGGCGGATTATC -CATCTTCATGCCTGGCACGTACCCGACTTCCACGGGACGTTACAGGCACATGAACATCAGGCGCTGGTCTGGTGC -TCACCTGAAGAGGCGCTGCAATATCCGCTGGCCCCTGCTGACATTCCATTATTAGAGGCGTTTATGGCTTTACGC -GCCGCCAGACCAGCGGATTAGTGCTAAGGGTTTTGTCATCACGCTGGCATTGCAGCAGTATTCCTTCGGCTTTAA -TTACCGCCCCTTCAGAATAATTTTGATCCTGATAAACGCAGCACTGAGTACAGGGCTGCGCTGACTGCCCGCCTG -AACTGAACACTTCTGGCGGTACGTTTACCTCCACGTCCGGACGATAATGCGGGTTAGCCAGTGCAATTAATGGAA -ATGCTAATACTACGGCGAACAATGCTCGACTCACAGGGAACTCCTTAACGTTATTGTCTCTGCTACTGATAACGG -TAGCCGGGTGGCAAAACTTTAGCGTCTGAGTTATCGCATTTGGTTATGAGATTACTCTCGTTATTAATTTGCTTT -CCTGGGTCATTTTTTTCTTGCTTACCGTCACATTCTTGATGGTATAGTCGAAAACTGCAAAAGCACATGACATAA -ACAACATAAGCACAATCGTATTAATATATAAGGGTTTTATATCTATGGATCAGACATATTCTCTGGAGTCATTCC -TCAACCATGTCCAAAAGCGCGACCCGAATCAAACCGAGTTCGCGCAAGCCGTTCGTGAAGTAATGACCACACTCT -GGCCTTTTCTTGAACAAAATCCAAAATATCGCCAGATGTCATTACTGGAGCGTCTGGTTGAACCGGAGCGCGTGA -TCCAGTTTCGCGTGGTATGGGTTGATGATCGCAACCAGATACAGGTCAACCGTGCATGGCGTGTGCAGTTCAGCT -CTGCCATCGGCCCGTACAAAGGCGGTATGCGCTTCCATCCGTCAGTTAACCTTTCCATTCTCAAATTCCTCGGCT -TTGAACAAACCTTCAAAAATGCCCTGACTACTCTGCCGATGGGCGGTGGTAAAGGCGGCAGCGATTTCGATCCGA -AAGGAAAAAGCGAAGGTGAAGTGATGCGTTTTTGCCAGGCGCTGATGACTGAACTGTATCGCCACCTGGGCGCGG -ATACCGACGTTCCGGCAGGTGATATCGGGGTTGGTGGTCGTGAAGTCGGCTTTATGGCGGGGATGATGAAAAAGC -TCTCCAACAATACCGCCTGCGTCTTCACCGGTAAGGGCCTTTCATTTGGCGGCAGTCTTATTCGCCCGGAAGCTA -CCGGCTACGGTCTGGTTTATTTCACAGAAGCAATGCTAAAACGCCACGGTATGGGTTTTGAAGGGATGCGCGTTT -CCGTTTCTGGCTCCGGCAACGTCGCCCAGTACGCTATCGAAAAAGCGATGGAATTTGGTGCTCGTGTGATCACTG -CGTCAGACTCCAGCGGCACTGTAGTTGATGAAAGCGGATTCACGAAAGAGAAACTGGCACGTCTTATCGAAATCA -AAGCCAGCCGCGATGGTCGAGTGGCAGATTACGCCAAAGAATTTGGTCTGGTCTATCTCGAAGGCCAACAGCCGT -GGTCTCTACCGGTTGATATCGCCCTGCCTTGCGCCACCCAGAATGAACTGGATGTTGACGCCGCGCATCAGCTTA -TCGCTAATGGCGTTAAAGCCGTCGCCGAAGGGGCAAATATGCCGACCACCATCGAAGCGACTGAACTGTTCCAGC -AGGCAGGCGTACTATTTGCACCGGGTAAAGCGGCTAATGCTGGTGGCGTCGCTACATCGGGCCTGGAAATGGCAC -AAAACGCTGCGCGCCTGGGCTGGAAAGCCGAGAAAGTTGACGCACGTTTGCATCACATCATGCTGGATATCCACC -ATGCCTGTGTTGAGCATGGTGGTGAAGGTGAGCAAACCAACTACGTGCAGGGCGCGAACATTGCCGGTTTTGTGA -AGGTTGCCGATGCGATGCTGGCGCAGGGTGTGATTTAAGTTGTAAATGCCTGATGGCGCTACGCTTATCAGGCCT -ACAAATGGGCACAATTCATTGCAGTTACGCTCTAATGTAGGCCGGGCAAGCGCAGCGCCCCCGGCAAAATTTCAG -GCGTTTATGAGTATTTAACGGATGATGCTCCCCACGGAACATTTCTTATGGGCCAACGGCATTTCTTACTGTAGT -GCTCCCAAAACTGCTTGTCGTAACGATAACACGCTTCAAGTTCAGCATCCGTTAACTTTCTGCGATAGCAGCAGA -TATGCCAGTAAAGAAATCCCATTTGACTATTTTTTTGATAATCTTCTTCGCTTTCGAACAACTCGTGCGCCTTTC -GAGAAGCAAGCATTATATAATGCCAGGCCAGTTCTTCTTCAATTGTCCCGTTTTGAAAAGCTGTGCTTGATATCG -AGATCATCCATGATAATTCCGCCGCCCATATTAGCTTCGCCGAGGATTTACCGGAGCTATGATTAGCGCAATCAG -AGATATAGTCTGAGGGAAAAACAGCAAATTTATTCAACAAGGCGATAACCTGCTCTGGGGCTTCCTCCATGTTTG -CTTTAAAGGTATTGGCTCCATGGTCGCCAGAAAGAAAATGCTCCATTAAGGCACAATAACTTTCGCTATCTTCGA -TACCCCATTGATCCTCTAAAGACTCGCGTCTTTTACTTATGATATCGATCGAGTCAAAAGGAAGCACATGATATT -GGAAGGTATCTTTGCCAGGTTCAGGCTTTCGCGGCCAGAACTCCAGCGTTTCAGACCATTGCTTATGATAGAATC -GATAAGGTGCGATCAATTGTAGCGCCTGTAACTTCTCGATACTGAGCGGCTCAATACCTTTAGCCTGATAATAAT -GCAGTTGTTCTTTTTTTGCTTTAAAACCGGCCCGAACAATAAGCCCCATCATAATTAATAGATAAAGAAAAGAGC -ATCCCGCGGTAATCAGGCCTCTTTCATTCAAACCGTTGGATGTTATCGCTGCGAACACAAACATTACAGCGACAA -CACATGTTAAATAAAACCCCCACTTACAAAGCAGCATGGCCTTATTTTCTTTAATCATCCGTTCAAAATTACTAT -TAAATATTTCCCAGCCATTAAAAGAATACTTCTCGCTCCCAGGATGGTTTTGTAATAAAACTTTTTTCATCACAT -TCCCTGTTATTACATACTTTAGAGGCGATAATTTTATCCATGCAAAAAAAATATCCAACGAATTTTCTTGATCCG -CTGGATATTTCAGAATATGACTCGAATAGCACGAAAGATTCACTCGCTTACGCTATCGCCCCGCTTCCGACTTCA -TCTGCTGGCGGACTTTTTTTCGCACTACGTTTACGCGGTGCAGCCTTTTTCTTATCAGCACTGCCACCACTGCCC -GGAGCCACAATGCCGCGAAACTGCCGCACCGGCGTACGTTTGGCTTGATCAATAAGCTGATATAGCGTCCCCACC -AGCGGCTGCATAAAGTCCTGATAGCGACACTGCTTTTCGCTGATTTGCGTCAGCACCGATTCCCAGTGCGCGGTC -ATGTCCGGTCGCGTCGCCATCTCCGGCAGCGAATGGAATAGCGCTTTTCCGGCGTCGGTGGAGTGGATATAGCGC -CCTTTTTTGGTCAGGAAACCACGCTTGAACAACAGTTCAATAATCCCGGCACGCGTTGCCTCTGTCCCCAGACCA -TCGGTCGCACGGAGGATCTTTTTCAGATCTTTATCCTGCACAAAGCGCGCGATCCCGGTCATCGCCGAAAGCAGT -GTTGCATCGGTAAAATGGCGCGGCGGCTGGGTTTGCCGCTCTACCACTTCACCTTTTTCACACAGCAACTCATCG -CCTTTCGCCACCACAGGCAGTGGCGTGCCGTCGTTTTCTTCATCGCGCTCTTTGCTGCCTAACAGCGTGCGCCAG -CCTGCTTCAGCAAGAAAACGCGCTTTAGCGACAAATTTGCCTTTGGCAATGTCCAGTTCGATAACACACTTGCGG -AACACCGCATCCGGGCAGAATTGCATCAGATACTGACGGGCAATCAGGTTATAGACCTTCGCTTCGTTCTCCGTC -AGGTTGATCGCAGAACTCCGTGCGGTCGGAATGATGGCGTGGTGCGCATCGACCTTTTTGTCATCCCAACAGCGG -TTGCGTATATCTGGATCTACCACTGGCTGCGGCAACAGATCCGGTGCATGAACACTGATGGCATTCATCACCGCG -TGGCGTCCGGCAAAATGTTCTTCTGGCAAATAGCGACAATCAGAACGCGGATAAGTGATTAGCTTGTGCGTTTCG -TACAGTTTCTGGCAGATATCAAGCACGTTCTGCGCACTCAGACCAAAACGTTTTGCCGCTTCAATCTGCAACGCT -GAAAGCGAAAAAGGCAGCGGCGCGGATTCTGATTCCCGTTTATCGTTATAGCTGGTGACAATAGCCGGTTGACCA -CTAATGCGGTTAACCACATGCTCCGCCAGTGGACGATGTAACAAGCGCCCTTCTTCATCCTGGTACGGTTCACAC -GCTTCGCTCGGTTGCCAGATAGCGGTAAACCGCTCATCGGCAGGTGTCACGATATGTGCTTTGACTTCAAAGAAG -TCTTTCGCCACGAAGTTTTCAATCTCTTCATCGCGGCGCACCACCAGCCCAAGCACGGGCGTCTGCACGCGTCCC -ACGGAAAGTACGCCCTGATAACCGGCATTGCGACCGAGAATGGTATACGCACGGGTCATATTGATGCCGTACAGC -CAGTCGGCACGCGCTCGCGCCAGCGCAGAAACGCACAGCGGTACAAACTCACTGTTGGAACGAAGACGGTCGATC -GCCCGCTCAACCGCCTGCGGGTTCAGGTCGTTTATCAAGCAACGCTGTACCTGCTGGCGCTTTTCCGGTGCCAGT -TGCAGATAGTCCAGCACTTCATCCACCAGCAATTGCCCTTCACGATCCGGGTCCCCGGCGTGAACGATTTCGCTG -GCTTCATGCAGGAACCGTTTGATGACGTTAAGTTGTTTGGTCACGGAGGGTCGGGGCTGTAATTGCCACTTTTCC -GGGACAATCGGCAAATCCGCAAGATTCCAGCGCGCATAGCGGCTGTCGTAGGCGTCTGGCTGCGCCTGCTCAAGC -AGGTGACCGATACACCAGGTCACCACCTGACCATTACCGCACTCGATAAAGCCATCGCCTTTCCGGTGCGGTTTG -GGCAGGACATCAGCAATGGCGCGCGCCAGACTCGGTTTTTCGGCAATAAACAACCGCATTGAATTAACGAATCTC -AACCATGGCACGACCGCCGCGCGCTGGCACCAGTTCGCCAATTGCCGTCAGTTCAATGCCAAACTCGGCGGCTGT -AGCTTTGACCTCATTTTCTGCTTCCGGCATGACCGCCAGCAGCAAACCGCCAGAAGTTTGCGGATCACACAGCAG -ATCGCGCACTTCACGCGGCATTTCACCCATCAGATGACCGTAGCTGGCAAAGTTACGTTCAGTGCCGCCAGGTAC -TGCGCCCAACTTAATGTACTCTTCAACACCGGGGAGTTTCGGGATCGCTTCATAGTCGACGCGTGCCTGCACACC -AGCCCCCTGACACATTTCGCTCAAGTGGCCCAGCAGACCAAAGCCCGTAACGTCGGTCATCGCTTTTACGCCTTC -GATGTTGGCAAAGGACGCGCCTGCGATGTTCATCCGGCACATCACTTCCGTCGCCAGTCCCTGATGTTCTGGTTT -CAACAGTGATTTTTTCTCAGCCGTGGTAAGAACGCCGATCCCCAGCGGTTTCGTCAGGAACAGTTTGCATCCGGC -TTGTGCGGTACTGTTTTTCTTCACCCGCTCGGTCGGTACGATCCCCGTTACCGCCAGACCAAAAATCGGCTCCGG -CGCATCGATGGAGTGACCGCCAGCCAGCGCAATACCCGCCTGACGACATGCATAGCGTCCACCTTCGGTCACTTC -GCGGGCAATTTCTGGGGAAAGTTTGTTAATCGGCCAGCCGAGGATCGCAATCGCCATAATCGGTTTGCCCCCCAT -CGCGAAGATATCGCTGATGGCGTTAGTCGCCGCAATGCGGCCAAAATCGAAAGGATTATCAACGATCGGCATAAA -GAAGTCGGTGGTACTGATAACGCTGGTGCCATTGCCCAGATCGTACACCGCCGCATCGTCGCGGGTTTCATTACC -CACAAGCAAATTCGGATCAACAAACTTCGCCTGCTCACTATGCAGGATGGTTTCCAACACTTTTGGGGAAATTTT -ACAGCCGCAACCAGCTCCGTGGCTGTATTGGGTCAAACGAATCGAGTTCTCGCTCATGGACATCTCCTGTCAATG -CAATCCGGGTATGGTAACCCTCATTCCGTGAAGTGATAAGTGAGAGTGTCTGAATTCCTGCGCCTTTGCTCACAA -TCCAGACAGTTTCGCGACAATTATCAGAAATAAGTTACAAACGGCGTCGGGTCCGGGACGTTAATCGACGTAGAT -GCTTTCAGCTGCGGCGTACCGAGGTAGAGAAAACCGACAATTTTATCCTGCTCACGGCAACCGAATGCTTCACGC -ACTACCGGACTTTCAGTTAATGCGCCACTGCGCCAGATGCCGCCAAACCCCTGGGCAACTGCTGCCATTTGCATC -GCCATGACCGCGCATCCGGCAGACATTTCCTGTTCCCAGCGCGGGACTTTATGATTCTCTTCGCATTTCGCCACC -ACCGTGATGATGAGCGGTGCGCGGAACGGCGCATTACGGGCTTTGTCGATAGCTTTGTCATCACTACCGGCAGCA -ATCGCCCCCTGTTCCAGTACGGCGCTGAAACGCTCGCGCCCTTCCCCTTCAATCACAAAAAAATGCCACGGTTGC -ATGGACTTATGGTCCGGCGCACGCATACCCGCACGCAGGATGTTTTGCAGTTGTTCACCCGTTGGCGCGGGTTCA -GCCAAGCGGGAGGCGCTACGGCGATTGATCAATAGTTCGAGTGCATCCATTTGATTAACTCCTGTCGTGATATTT -ATTCACAAAATTAACACGAGAGTGGATTTTGTTACAGCACAGTCCGCAATTCCTGCTGACAAGTACCGGTTGGGT -CATTACGATAACCACATCTATTGCGCCTGTGACAGGTGTGACCTTAAGTTGGGAGAATACATGCGAACCCTTTGG -CGATTTATTGCCGGATTTTTTAAATGGACGTGGCGTCTGCTGAATTTCGTCCGTGAAATGGTACTTAACCTGTTC -TTTATTTTCCTCGTACTGGTTGGTGTGGGGATTTGGATGCAGGTCAGTGGTGGTGATTCGAAAGAAACGGCCAGT -CGTGGCGCACTGCTGCTGGACATTTCTGGTGTGATCGTCGATAAACCCGACAGTTCTCAGCGGTTTAGTAAATTA -AGCCGCCAGCTGCTTGGTGCCAGTTCCGATCGTCTGCAGGAAAACTCACTGTTTGATATCGTCAACACTATTCGC -CAGGCGAAGGACGACCGCAATATCACCGGTATTGTGATGGATCTGAAAAACTTCGCAGGCGGCGACCAACCGTCT -ATGCAGTACATCGGCAAAGCTCTGAAAGAGTTTCGTGACAGCGGGAAACCGGTTTATGCCGTTGGCGAGAACTAC -AGCCAGGGGCAATATTATCTCGCCAGTTTCGCCAATAAAATTTGGCTGTCTCCGCAAGGCGTGGTTGATCTGCAC -GGCTTTGCCACCAACGGTCTGTACTACAAATCGTTGCTGGATAAGCTGAAAGTTTCCACCCATGTGTTCCGCGTG -GGTACGTATAAATCTGCCGTTGAACCGTTTATTCGTGATGATATGTCACCGGCAGCCCGCGAAGCTGACAGCCGC -TGGATTGGTGAGCTGTGGCAAAACTATCTGAATACTGTTGCCGCTAACCGGCAGATCCCTGCTGAGCAGGTATTC -CCTGGCGCGCAAGGGTTGCTTGAGGGTTTAACCAAAACCGGTGGCGATACCGCGAAATATGCACTGGAAAACAAG -CTGGTCGATGCACTGGCATCGAGTGCGGAAATCGAAAAAGCACTGACCAAAGAATTCGGCTGGAGTAAGACTGAT -AAAAATTATCGCGCCATCAGTTATTACGATTACGCATTGAAAACGCCGGCAGATACCGGTGACAGCATCGGTGTC -GTCTTTGCTAATGGCGCAATTATGGATGGCGAGGAAACTCAGGGGAATGTTGGCGGTGATACCACTGCGGCACAA -ATCCGCGACGCTCGCCTTGACCCGAAAGTGAAAGCGATTGTCCTGCGTGTTAATAGCCCAGGCGGCAGCGTTACC -GCGTCTGAAGTGATTCGCGCTGAACTGGCAGCAGCCCGGGCAGCGGGTAAGCCTGTGGTTGTATCGATGGGCGGC -ATGGCGGCATCTGGTGGTTACTGGATTTCCACGCCAGCTAATTACATTGTGGCTAACCCCAGCACCCTGACCGGT -TCTATCGGTATCTTCGGCGTGATCACCACCGTAGAAAATAGTCTGGATTCGATTGGTGTTCATACTGATGGTGTC -TCAACTTCACCGCTGGCGGATGTTTCTATCACCAGGGCACTGCCGCCGGAAGCGCAGCTGATGATGCAGTTAAGC -ATTGAGAATGGCTATAAACGCTTTATCACGCTGGTTGCTGATGCGCGTCATTCGACGCCGGAGCAGATTGATAAA -ATTGCCCAGGGCCACGTCTGGACCGGTCAGGATGCAAAAGCTAACGGGCTGGTCGATAGTCTCGGGGATTTCGAT -GATGCGGTCGCCAAAGCAGCAGAGCTGGCAAAAGTGAAACAGTGGCATCTGGAATATTACGTTGATGAACCGACC -TTCTTCGACAAAGTGATGGACAACATGTCTGGTTCTGTCCGGGCAATGTTGCCAGATGCGTTCCAGGCCATGTTA -CCTGCACCGCTGGCCTCGGTAGCCTCTACCGTTAAAAGTGAAAGTGACAAGCTGGCCGCGTTTAATGACCCACAA -AACCGTTATGCGTTTTGCCTGACCTGCGCCAACATGCGTTAAGTCTTGTACTGAGTGGCCGACAGATCGTCGGCC -ACATTATTTTTTACGTCGACGAATCCTCTTCCCGCTGTTTCGCCCCATATTTCCTTATCCGCATAGTATCAGGTG -CGCTCCCCCTGCCTCACGTATATACTTTTGCTCTTTCGATATCATTCATATCAATATCATGCAAAAGAAATCAAT -TTACGTTGCCTACACGGGCGGGACCATCGGGATGCAGCGTTCCGAGCAGGGTTATATACCGGTGTCAGGTCATCT -ACAACGCCAACTGGCGCTGATGCCGGAATTCCATCGCCCGGAGATGCCAGATTTCACCATTCATGAATATACGCC -GCTGATGGATTCTTCAGATATGACGCCGGAAGACTGGCAGCATATTGCTGAAGATATTAAAGCGCACTATGACGA -CTATGATGGTTTTGTCATTCTGCACGGCACCGACACGATGGCGTATACCGCCTCTGCGCTGTCGTTCATGCTCGA -GAATCTCGGTAAACCGGTCATTGTGACAGGGTCACAAATCCCGCTGGCTGAGTTACGCTCTGACGGACAAATTAA -TCTGCTGAATGCGTTGTACGTTGCGGCGAATTATCCGATCAACGAAGTAACGCTCTTTTTCAATAACCGATTGTA -TCGCGGCAACCGCACTACCAAAGCCCATGCCGATGGTTTTGATGCGTTTGCCTCTCCAAACCTTCCTCCGTTACT -GGAAGCAGGTATCCATATTCGTCGTTTGAATACGCCACCCGCCCCGCACGGTGAAGGGGAATTAATCGTTCATCC -AATCACCCCACAACCAATTGGCGTAGTGACGATTTATCCAGGGATTTCTGCTGACGTCGTGCGCAATTTTCTGCG -CCAACCGGTGAAAGCATTGATTCTGCGCTCCTATGGCGTGGGTAATGCGCCACAAAACAAAGCCTTCCTGCAGGA -ATTACAAGAAGCCAGCGATCGCGGTATTGTGGTGGTCAACCTGACACAATGTATGTCCGGTAAAGTGAACATGGG -TGGTTATGCCACCGGTAACGCCCTCGCCCATGCCGGCGTAATTGGCGGTGCAGATATGACTGTAGAAGCCACGCT -AACCAAACTGCATTACCTGCTTAGCCAGGAACTGGATACTGAAACCATTCGCAAGGCCATGAGCCAAAACCTGCG -CGGCGAACTGACGCCGGATGATTAAGGAGACTGTAATGCCCCCTCGCGCCCTGTTACTGGTCGATTTACAAAATG -ATTTCTGTGCTGGTGGCGCGCTCGCCGTGCCGGAAGGTGACAGTACGGTGGATGTCGCTAACCGCCTGATTGACT -GGTGCCAGTCGCGCGGTGAAGCGGTTATCGCCAGTCAGGACTGGCACCCGGCGAATCACGGCAGTTTTGCCAGTC -AGCACGGTGTAGAGCCTTATACGCCAGGCCAACTCGACGGTTTGCCACAAACCTTCTGGCCAGATCACTGTGTGC -AGAACAGTGAAGGCGCACAATTACATCCGTTACTGCACCAAAAAGCGATCGCAGCGGTGTTCCATAAAGGCGAAA -ATCCTTTAGTTGACAGTTACAGTGCCTTTTTTGATAACGGCCGTCGGCAGAAAACCTCTCTCGATGACTGGTTAC -GCGATCATGAAATCGATGAATTGATCGTTATGGGCCTGGCTACTGACTATTGCGTGAAGTTTACCGTGCTGGACG -CGTTACAGTTAGGTTATAAGGTAAACGTGATTACCGATGGTTGTCGTGGCGTGAATATCCAGCCCCAGGACAGTG -CGCACGCGTTTATGGAGATGTCAGCAGCTGGGGCAACGCTATATACGCTGGCAGACTGGGAAGAGACACAGGGGT -AATTTTACGCTGGCCTACAATTCTGTACTGGCATTGTAGGCCAAATAAAACACGTCAGTGGCACATCTGGCAATT -GATGCCATCAACGAAAGATTTAATTCACCTCAGAAATCTCTTCCAACGACACCTTCCGCGTTTCGATGCCAAAAA -TGGAGAGAACCAGCGCACAGAGCAATAACATAACACCAAGTACCATAAACACCGTGATCGACCCATAATGTGTTA -ATAATGCCGCAACGCCATAGGGCGTGAAGACTGCGACGATCCGTCCGACGGCATTAACGAAACCCGAACCGCGCA -GGCGTAAATGCGTTGGCCAAAGCTCCGGGATATAAACCGCCGACGCGAAGCAAACATACATGTATAAAAAGAAGA -TCATCACCAGTCCATAGATTAAAATCGCCCACTCTGTAGTCTGAATTGAATAGATATAGCCTAACACGGCAATAA -TAATAAGTAAGGTGGAGCCAAATAACCGACGAGGAAAATGATCAATAATTAATGCCGCAATAAATATTCCTACCG -GAGCGCCAATCATAATAACAGCGGTCATTAATATTGATTTATCGACATCAATGCCGGAGTTAACAAATATGGTCG -GTATCCATACGGTGATGGTATAAAGCGAAATGTTCATTGCAATTAAAACAGTAATCGCGACTAATGTACGTCGTA -ACATTTCACCTTTAAACAGGAGCCAGAAAGTACCCTTGATTACTTTAACCTTGCTGTTGCTCTGATACGAAGTAA -GCGGGGGTAAACGAATACTCTTCTCTCTTTCAATTTGCTGCTCTACTTCACGAAGTTGGCATTCTGCACCTGCGA -TTTGCCCTTTCCCTGCCAGCCATCGTGGCGACTCGATAAAGTATTTACCTGAGAGAAACCAGGCTAACAGTATGC -CAATACCACCCAGCAGAAACATTATTCGCCAACTAAAAAAAGCGATAACCACCACGCCTATCGCCGCAGACAGCA -TGGGCGACCAGTTACCAACAAATGAGAGCCGCGCGGACCATTTTCCACGCACCGTCGCGGGGATAAACTCCGTAA -ATGAGGCATAGCCAACCATAATCAGCGCCCCCATTCCTGTTCCCATCAGGAAGCGAAAGAAGATGAGCCAGTACA -TATCAGGGACAAAAGCGGCCCCTGTTGCAGCAATACCGACGATGAGAAGATTTATGCGAAACGCCCTGCGCCGCC -CAAAGTAGTCACCAATAAACCCACCAGTAAGTGAGCCGATGAAATAACCAAACATTAATGCCGAGGTAAAGGCGG -CATTGAGGAAATTATTTGACCATCCATTGCTTACCAGCTTTGCTAAGACGACATTACCGGAGTAACTCAAAAACC -CTGTTAATAACAGACTAAAGCTTATAATACCAAATATACGATAATGAAACCGGGCCAAAGGCAAGCGGTCCAGTC -TTGCGCCAATTTGATCATATTGTTCCATTAGGTGCCTCGGATTTGCTAAAAAGGTAGCAATTGCGGCAAATTCAC -TTGCCGCATCTTTATCATCATTTTATTTCAAGGCGCAGGAACAAATAATATTGACAACGTGTGCTTAAATTACCA -CACCAGCTGGATATTATTGTCTTTGCAAAATGCTATCCACTCTGCACCCGGTGATTTATCAGTTATTATGTAATT -AATATGACTAAAATCAGCTAACTGGACAAAAGCTTTGCGATCAAACTTAGAGTGATCAACCAATAACGCAACTTC -TGTCGCCTGACGGATCATTGTCTTTTTGATTTCAGCTTCCGCTTCATTAGAGTCCAGCGCGCCGCTGTTAATATC -AAGACCTTTACAACTCATTACCATGATATCGACATGATAGCGCCTGATGATCTCTTTAGTAATTCTTCCTTGCAG -TGAAAGTGTATTTTTGTTTAGTTCCCCACCCGTTGAAACGACTTTAATTTCTGACTGAGCCAGAACATGAATCGC -TTCCGCCGAGTTGGTTAGCAACGTCAGGCCACTACGGTCCTGTAACAATTTGAGCAATTCCATTACGGTACTACT -GGAATCGGCTGCCATGGTGGTTTTATTGTCGATAAAGGGTAGTGCCTTGCGTGCAATAAGCTGCTTCTCTTCATA -AAACGATGAAGCGCGCTTATAAAAATGGATATTCTCCGTCAACATCGCTGTATTTAAAACAGCACCACCATAGGT -TCTGGTCAAAAAGCCTTCATCTTCCAGCTTCTCAAGATCGCGGCGAATGGTTTCTTCGGTTACCTGAAAAATCCC -ACTCAAATTTGAGACTGTCACCTTTTTATCGTTGGCAACCATTTGCTTAATTGCCTGAATCCTGTCTTTTGCCGC -CACGATTACACCCCTGTATCTTTTTACATCACATTAGCGCGATTATCGCATAACCGATGTTTACTTTCAAAATAA -CCTGTTTGAATCACAGATTTTCATCACAGTTTTCACAGAAACAGAGGTGAATCGTGTTGAGTATTTAACGCTCCA -GGGCCTCTGCCATTTCCCTCATCAATGTTGCGTCTGCATCCGATAAGTTGATATTCAGTGCCGCGACATTTTCGC -GTACCTGTTCCGGTGCAGTAGCCCCACTAAGAATGGAGATTAAATCACTCTGTTTTAATATCCACGCCAGTGCCA -GAGTGGGAATTGTGCACTGATAACGAGCACAAAGTGGCTGCCACTGTTCAAGCATATCAATCACTTTCAGCATGT -TTTCACGCTGGAACCAGACTTTATTTGCCCGAGCGCCGCCCGGAACGTAATCACGAGTGATGGTGCCGGTCAACA -ATCCCTGCTCTAGCGGGGAATAAACCTGAACCACAATGCCATTATCACGACATAGTGGCAGCAGTTCGTTTTCCA -TTGCCCGGTCGAGGATACTGTATTTCGCCTGAATAATATCCAGTTCACCATATTGCAGATACTCGCGGATATGGT -CAGCATCGACGTTAGCAGCGCCTATAGCGCGAATTTTCCCTTCAGACTTTAACTCATTAAGCACTGCGACAGTTT -CAGCGATCGGCGTAAAAAATGGCGGCACCGACTGCCAGTGCGTCATGTAGATATCGATGTAATCAATACCCAGAC -GTTGCAAGCTCGCTGCTACCTCTTCGCGGATAGATTCCGGGGAAAGGTTTTTATACAACTGCCGATCGCCAACTT -TGTTGAATAAACTTCCTTTTCGTTCCCAGACAATGCCGCATTTGGTTTCTACTACAACCTGTTCACGGGGCAGTT -TTTTTAACGCCTGACCGACGATAACTTCACTATTGCCAAAGTTATATCCTGGCGCAGTATCAATCAGATTAATGC -CACAACGATGGGCTTCAAGAATCGTATCAATACATATTTGCCGATCGAGATCGCCATTCCATGCAGGACCGCCGC -CAATGGCCCATGTCCCCAACCCCATTCGCGAAAGCGTAATATCCGTTGTGCCTAAAGGTATCTTTTTCATTTGCC -TTCATTATCCTTCGTATTCTTCCAGCAATTGTTCGACCAGCTTTCTGTTTTTTACGCCGGTGGTGGCACCGACGC -TTAGAACCGAGATAGCCGCCGTTGCATTGGCAAAGCGTGCGCATTCACGCAGATTTTTGCCTTCTAACAGTGCCG -CAATAAAACCTGAAGCAAAGTTATCGCCCGCGCCAATGGTGTCGATGGCGGTTATTCCTGCGACCGCCGGCACCT -TCATCGTCATGTCACCACGCTTGATAAAGCAGCCGTCTTTACCCGTTTTAATCACCACCGTTTTTACGCCGCACG -CAAGAAAGCAGTCAGCAATTTCATCCAGTGTCTCTTTCCCGGTGAGTAATTTTGCCTCGGCAAAATTAGGAAACA -GATAATCGACATAACTCAATGCTTCGCAAATATCATCCAGCGTTTCATTCAACCGCGGTTTGATCATATCGGCAC -AGATAATCATCTGCCGGGCTTTAGCTTGCGTAAAAATTTCTGTTAGCGCTTTACCATCCAATAGTGGACTGTTGA -AAATACTGGCCAGTGATAATAATTTCGCCTGAGAAAACCGCGCAAAATCAACATCGTCAATATTCAATTTCCACA -GACTGCCATTACGGTTTGTGACAAACGTCCGCTCGCCATCCTCCGTCACCAGTCCAACGTTAATAGAGGTATCTA -TGCTGACGTCCTGCTTCAGGCTTTGAATATCAATATTCTCTTTGCGGCAATGGTCGAGAATAAATTGCCCTGCGG -CATCTTTACCAATACGACTCATTAATGCTGTGCGATGGCCCAGACGAGAAATAATTGTTGCTTCATTTATTGCAT -CACCCCCGGTGGTCATTGCGATTCTTTCAAGAGGATAAGAATCCACATCAAAGATATTTTTACTGACCGGTTGCA -ATGGAATATCAACAATAGCGGCACCTATACAAATAACGTCGAGATTATCCATATCATTATTCCGCTTTGCCATCA -GAACCGAACAGTTTAATTTTTTCCAATGCCCGTTCTTTTACAGCTTTACGTACTTCACGTTCTAAATGCAGGAAA -GGCTGATCCTGGTTTTCTTTCACTGCAACCATTGCGGCCTGACAGAGCTCCGTATGAATGTTGATTTTCGCGATA -CCCAACGAAATTGCAGTTTTAATGTCGGCATCACTGATCCCCGATGCACCGTGCAAAACCAGCGGAACAGAAACG -GCATCGCGTACGCGTTTGACGACCTCAAAGTTCAATTGTGGCTCTGACGTATAAACCCCATGCTGGTTGCCGATG -GCGACAGCCAATGAATCACAGCCCGTACGTTCAACAAATTCAGCCGCCTGGTCAGGATCGGTATAGTGATAGCCC -GCCAGCGCTTCCTCATAAACGGTTTCATTACCGACATGCCCTAATTCCGCCTCTACCGGAATACCCAGCGGATGG -AAGAAATCGACAGCCTCTTTGGTTAAACGAATATTTTCTTCGAAATCAAACGCGGAAGCATCACGCATTAATGAA -TTCATACCATGAGTCCAGGCGTTATGAATAATCTCCATACTCCGACCATGATCCCAATGAGTTATTACCGGCACC -GTTGCTTTTTGTGCCATTGATACCATCATGTGAGAGAAATCTTCAAATGAGGTGTTACCGACAAAACCTGTACCA -AAAGAAATAATAACCGGGGATTTCGCTTCTTCGGCTGCGTCGATAACGCCCATCAACATTTCTGCATTCCATACG -TTAAAATGGGCAATTGCATAATGTTTATTTGTGGCATCGTTTTCCCAATATCTGATATCTGCGAGCATGTTCTGT -TCTCCCGTATTAATTAATCGCTAATTTTAATAACGCCTTTAATAATGTCGCGTTTGTTGTTAACTGACTCTTCAA -ATGCCTGTTGTACATCCCGATAATCGTAAATATGCGTCACCATCGATTTCACATCGAATCGCCCTGAAGAAATAG -CTTCAATCGTGACCGGATAACGATTGGCATAGCGGAATACCGTCTGGATAGTGACTTCGCGATTGATTTTGAGGA -AATTGATTGCCGAATCGCCGGGTACAGTACCAACAATCATAATTTTACCGCCGCGCATTACCAGATAAGGTGCCT -GTTTAACGGTGACCGCAGAACCCGCTGTTTCGAAAACAATATCTGCGCCCATGTCTTCGGTAAATTGCTGACAGC -GTGCAATAGTGTCTTCTTTTGCGCCGTTAATAACCACTGTCGCACCAAGCTGTTCCGCCATTGCCAGACGTTTTT -CCAGCACATCAACGACGGCAATTTCCGTTGCTCCCAGGCATTTGCACGCTTGCAACGTCATCAAACCAATACAAC -CTGCTCCCAGAATAATTATCTTCTTACCCGGTTTAACATCTGCCAGCATCGCGGCATGCATCCCGACTGCGGCAG -GCTCCACCAGCGCCCCTTCCATCGTGTCCATATTGTCGGGCAGTTTGTAAGTAAAGCTCTCCGGATGACACAGAT -AGTGCGTTAATGCGCCGCGGTAGTTGGGTTGTGTCGCCATAAAATCAACGTCCGGGCAGATGTTATATTTGCCTT -CCAGACAGTAACGACAGTGACCGCAAGGAACGCCAGGTTCGATATTTACCCGATCCCCCGGTTTAAATTTGCGCA -CGCGGCTTCCCACAGCCACAACCGTCCCGGCGCATTCATGACCCAGGCCAATTTCTTGATTTGGGTCTTTAGGCG -GAATAAACGGGCCTGATTCAAAACCATGTACATCTGAACCACAAATACCGACATATTCTACTTTAATCAAAACTT -CATCTTCTTTAGGCACTGGTATTTCTGCTGAAATAATTTTCATTGTGCCCGGCACCTGCAATATTGCTTTTGAAT -TTTTCATTTTGAATCCACCCGTATTATTTATTGGCTACTGCATCAATACTTAAACTTTCAACGGAGACACCTTTG -GTTTCGATTCCAATGGTGGCGATAGCAATTGCGACAATAATTGAAACCGCCCCCAGAAGAATAAAGACTCCCGTA -ACGCCATAACTACTGAGCAGCACTGCAACGGCATAAGGTGCGGCAATACCACTGATTCGCCCTACCGCATTCGCC -AGACCGGAGCCACGGAGTTTGGCCTCTGTCGGCCAGATTTCAGGGACATACACTGCCGAGGCATAGCAAACGTAC -ATATAGACGAAAGTAATCAGGAAGAAACCAATCAACGTTATGAGCAACATACTGGTTTGCAGTGAATAGATATAT -CCGAGCACCGCAATCAGGATTAATAGCCCCACACCCATTGTTTTACGCGGAATTTTATCCATCACCAGCATGGCA -ATAAAAATACCAAATGGCGCGCCAAACATACTCATGGTATTTAAAACAATCGAGTCTTTTAAATTAATCCCCTGG -GTCATGAATATTGTTGGCAACCAGTTAATTAGTGTGTACTGCACAACGTTCATGGCAATCAGCACACAAGAGCCT -AATATCACGCGTTTCAGTAATACTCCTGTCAGTAAGGCTGAATACGGCACCGCTTGTGGCGCTTTACCGTCATCA -GCAATAACCACAGGCGGCAAAGGTTTACCCGTCTGGCGTATGACGCCTTCTTCTATACTCCGCATGACTTTCTCG -GCTTCCTGATACCGTCCGCGCGATTCCAGCCAGCGCGGGGATTCAGGAAAGTAGCGCCAGGCCAGCGCCGTAGCG -ATAAGCGACAATATTGCAGGGATAAGCAGTTGTACCCGCCAGTTCCACTCTGCACTAATCAGCGGCGTGAGTCCC -ATCGCTATCAATGAACAGAGCGGATATGACCAGTTGCCAATAAAGGAAACCCGACTTGACCACGTTCCACGATTT -CTACCGGGCATATATTCGGTGAAACCAGCAAACAGCGTAACCAGTAAAGCTCCCAGCCCAACTCCCATCACAAAA -CGGCAGGCAATAAGGAAATCCATATTCGGTGAGAAAGCACCGACAACCATCGAGGCAATATGAATGGCCTCATAG -AGGATGAACGCATTTCTGCGACCGGTTTTGTCGCCAATGATGCCGCCCACCAGCGCACCGAGAAACATTCCGGCG -GTCGTGATTGCTGAGAATGTGGCTGTGGTGGAATTATCTGTCCAGCCCAACGCTTTCAGCTGCGCGAGGATCAAG -CCACCAACGGCATTACTCCAGCAGACAAGCAAGCCAAACGCGACGATGGCAAACATTGATGAATGCCAGCGGCAA -TCCGGTAAGCGATCCAGCCGTGCACCACAATGCGGTTTTGTTATCTGTTCCATGCGATAACGTTCCTTCAGGAGA -GTGGTTATTCATCAAAGTCGTAAGTCATGATCACTTTGATTGCGGTTTTATCGACCATCGCATCAAACCCTTCGC -GCCATTGCGACAGGCCGATACGATGCGTGATCATCGGTTTGACTTTGATAGCGCCGCTGGCTAATAGCCTGATAG -CGTTACGCCATGAGGTGGAGTCATAGGCCATATGCCCAATGATGCTTTTGTTCCAGGCGGTAATGTCATTAATCG -AGAAATCAAGAGGTTTGAAGCCCATTCCAACGCGTACCACTTCCCCGTTCGGGCGGAGCATTTCGATGGCTTGTT -TCAGTGCGATATTGGCACCGGAGCATTCAATCACCAGTCCCAGATTGTCTTTGCCACAAATTTGCTGGCAGCGCG -CCACCACATCTTCGGTAGAACCATTTACTACTGCCGTCGCACCCAGTTCTTTTGCAACCGGGAAGCGGACCGCCA -CATCTTCTTGCAGACCAACGACGACGATATTTACCGCCCCCATAATTCGCGCCATTTGTACGGAGAACAGCCCGA -GTGGGCCAGTGCCGATGACGACCACATCCTGACCAGGAAGGAATTTCGATTGCTGCGCGATGGATTTGTAGGCAT -TACAGATAGGGTCAAGTACGGCTGCGTCCTCATAATCAACACCATCAGGGATTTCCCACAACGCATGACGATGAA -TTTTGAGAATTTCACCAGGAACCAGACAATATTTGGAAAAACCACCGCCCCAGGTATTATTATCCAGACCAAGGT -TTACTTTTTCTGTACAACACAGAAAATCACCTTGTTCACAGGCCGGACAAACACCGCAAACGTGACCGCTGTTAT -CCGATACGACGCGTTGCCCCACTTTCCAGTCTTTGACTTTTTCACCAACCTGCGCAATACAACCTGCGAACTCAT -GGCCGCGGATAGAGTTAAACTCATCAGAACCGCTATCGACATTGTAGTGCTTCATGTCTGCGCCGCAGATTGCCG -CGGCTTTAATTTCAATCACTACATCTTCCGGGCCACACATGGGTTGTGGGACATCAATCATCTTGTAGCCGCCAA -AGGCCTTGCCAAACCGAGCCAGTGCTTTCATTGCGTCATCCTCTGTGTTTAGTTTTGCTTAGATGGCCATCATAC -TTACCCACATGATTTTTGAGGTCAACATTAAATCTGTAAAACACAGATAATGATCTGCGTTTTACAACTCAGATC -ACAATTACGCAGAAAATGGCTGGGTCTGTTACAGGTTGATGGAAGGCGGGGCGCAAAAAGAGCAAATTCGAGAGG -GATTACCGGCCAAATAGGTCTGAGACTTAAGTTCAGGAGAAGTCATTCAGGTGTGAACGGGACGGCAAGAGATCG -GACTGGGACTTAGCCAGGTCATGGCGAGATAATTGAGATGAGTCGTGGGGTCATTGTTGGCTATCCCCTTCATAG -CCGAGGCAAAAAGGGGATGAACCACTTACTTAAACATGGCAATAGGCTTTGCTGAGATACCAAAATCTTCTTTTA -ACTGCTGTTTGCTCTTCATGACCATCTGACCATTTGTGTCAATTGTCATATGCTGTGCTTCGATATTATGGCGGG -CTTGCCACAGCATCACCAGTTGCAGGCAGTTCTCTTTTTGTTCCTCGGTCAACGCAACGCCATCAGGCCATTTCC -CCAGTTCAACGGCGGTCGACAAACGCTGGTATACCTCAGGCATCATGCTGTTGATAATGTCATCAAGATTCATAA -TTTTTCCGCTCCTGTGGAATAAGTTGCTGAATCGTTTTTTCAACCGTTGATTTCTTCGCCGTTTTCGCCATCGGT -AAAGCGTAAAGAGGCAGAGTTAACACAATAACGTTCGCCCGTTGGCTGCGGCCCGTCGGGGAAGACATGCCCCAG -ATGGGCATCACAGTTACCGCAACGAATTTCTATGCGCTGCATTCCATGTGACAAGTCTTTGATATAACGAATGGA -TTCTTCACTTACCGGTTCGTAGAAACTGGGCCAGCCACAGCCGGAATCATACTTGGTTTGGGAATGAAACAGCGG -GGCATCGCAGATCAAACAGTGATATACGCCGTCACGCTTGTTATGCAGTAAACGACCCGTAAATGGCGGCTCTGT -CCCATGATTCTGCGTCACGTAAAACTGCATCTCGGACAAATTTTTTTTCAGTTCTTCTGCCGAAGGTTTATTAGC -CATTTGCTCACATCTCACTTTAATCGTGCTCACATTACGTGACTGATTCTAACAAAACATTAACACCAACTGGCA -AAATTTTGTCCTAAACTTGATCTCGACGAAATGGCTGCACCTAAATCGTGATGAAAATCACATTTTTATCGTAAT -TGCCCTTTAAAATTCGGGGCGCCGACCCCATGTGGTCTCAAGCCCAAAGGAAGAGTGAGGCGAGTCAGTCGCGTA -ATGCTTAGGCACAGGATTGATTTGTCGCAATGATTGACACGATTCCGCTTGACGCTGCGTAAGGTTTTTGTAATT -TTACAGGCAACCTTTTATTCACTAACAAATAGCTGGTGGAATATATGACTATCAAAGTAGGTATCAACGGTTTTG -GCCGTATCGGTCGCATTGTTTTCCGTGCTGCTCAGAAACGTTCTGACATCGAGATCGTTGCAATCAACGACCTGT -TAGACGCTGATTACATGGCATACATGCTGAAATATGACTCCACTCACGGCCGTTTCGACGGTACCGTTGAAGTGA -AAGACGGTCATCTGATCGTTAACGGTAAAAAAATCCGTGTTACCGCTGAACGTGATCCGGCTAACCTGAAATGGG -ACGAAGTTGGTGTTGACGTTGTCGCTGAAGCAACTGGTCTGTTCCTGACTGACGAAACTGCTCGTAAACACATCA -CCGCTGGTGCGAAGAAAGTGGTTATGACTGGTCCGTCTAAAGACAACACTCCGATGTTCGTTAAAGGCGCTAACT -TCGACAAATATGCTGGCCAGGACATCGTTTCCAACGCTTCCTGCACCACCAACTGCCTGGCTCCGCTGGCTAAAG -TTATCAACGATAACTTCGGCATCATCGAAGGTCTGATGACCACCGTTCACGCTACTACCGCTACTCAGAAAACCG -TTGATGGCCCGTCTCACAAAGACTGGCGCGGCGGCCGCGGCGCTTCCCAGAACATCATCCCGTCCTCTACCGGTG -CTGCTAAAGCTGTAGGTAAAGTACTGCCAGAACTGAATGGCAAACTGACTGGTATGGCGTTCCGCGTTCCGACCC -CGAACGTATCTGTAGTTGACCTGACCGTTCGTCTGGAAAAAGCTGCAACTTACGAGCAGATCAAAGCTGCCGTTA -AAGCTGCTGCTGAAGGCGAAATGAAAGGCGTTCTGGGCTACACCGAAGATGACGTAGTATCTACCGATTTCAACG -GCGAAGTTTGCACTTCCGTGTTCGATGCTAAAGCTGGTATCGCTCTGAACGACAACTTCGTGAAACTGGTATCCT -GGTACGACAACGAAACCGGTTACTCCAACAAAGTTCTGGACCTGATCGCTCACATCTCCAAATAAGTTGAGATGA -CACTGTGATCTAAAAAGAGCGACTTCGGTCGCTCTTTTTTTTACCTGATAAAATGAAGTTAAAGGACTGCGTCAT -GATTAAGAAAATTTTTGCCCTTCCGGTCATCGAACAAATCTCCCCTGTCCTCTCCCGTCGTAAACTGGATGAACT -GGACCTCATTGTGGTCGATCATCCCCAGGTAAAAGCCTCTTTTGCATTACAGGGCGCACACCTTCTCTCGTGGAA -ACCTGCGGGTGAAGAAGAAGTTCTGTGGTTGAGCAACAACACACCGTTCAAAAATGGCGTCGCTATTCGCGGTGG -CGTACCGGTTTGCTGGCCGTGGTTTGGTCCGGCGGCACAACAAGGTCTGCCTGCGCACGGTTTTGCCCGCAACCT -GCCGTGGACGCTGAAATCACATCATGAAGATGCTGATGGCGTAGCGCTGACTTTTGAATTGACGCAAAGCGAAGA -GACGAAAAAATTCTGGCCGCACGACTTTACGCTGTTAGCGCATTTCCGCGTGGGTAAAACTTGTGAAATCGATCT -TGAATCACATGGCGAATTTGAAACCACCTCTGCCCTGCATACCTACTTTAACGTGGGTGATATCGCTAAGGTAAG -CGTCAGTGGGCTGGGCGATCGCTTCATTGATAAAGTGAATGACGCGAAAGAAAATGTACTGACCGATGGTATTCA -GACCTTCCCTGACCGTACCGATCGCGTGTATCTGAATCCACAAGATTGCAGCGTGATTAATGATGAAGCGCTGAA -TCGTATTATCGCCGTAGGCCACCAGCATCATCTGAACGTTGTCGGCTGGAACCCGGGACCGGCGCTTTCAATTAG -CATGGGCGATATGCCGGATGATGGCTACAAAACATTTGTTTGTGTAGAAACGGCTTACGCTTCAGAAACGCAAAA -AGTGACCAAAGAGAAACCTGCACATCTGGCGCAATCCATTCGCGTTGCGAAACGTTAATTTACGTTAATGTTGTG -TGCCGGGTGCAATGCATCCGGCACACAACATCACACCATATCCAGCGCAGTTTTTCCTTTTGGTGCCGGATATGC -CTTATCCAGCATAGCTAATTCCGCTGAAGAAAGTTCGACCTCAAGCACAGCCGCATTTTGTTGGACATGGGCAAT -CGTGGCCGCTTTTGGAATCGCCATCACACCCTGATGACTGATCACCCACGCCAACAATACTTGTGCCGCGCTGAT -ATTGTGAGCATGTGCAATTTCGTTGACTACCGCGTTTTTTAACAGTCCATTGCGCAACCGCCCGGCCTGGGCTAA -CGGACTGTAAGCCATCACCGGCATCTGCTGTTGCTGGCACCAGGGGAGTAGATCGTACTCAATTCCTCGTGAACC -GAGATGGTAAAGCACCTGATTAGTGGCACACTGATTTCCCCCCGGCAGCTGCCAGAGTTCCTGCATATCAGCATA -ATCAAGGTTAGAAACGCCCCAGCGGCGGATTTTTCCCTGGGCGATCAATTTTTCCATCGCTGCGACAGTCTCTTC -AAAAGCGAAACTGCCAGACCAGTGTAATAAGTAAAGATCGAGATAATCAGTATTGAGACGGCGTAAACTGGCTTC -GCATGCATTTATCGCTTTTTGCCCGCCAGCATTCCACGGATAGACTTTAGAGACGAGAAAGACCTTCTCTCGCAG -ACCGGTTAATGCTTCCCCAACCACCTTTTCGGCACCGCCATCGGCATACATTTCGGCGGTATCAATGAGGGTTAA -ACCGAGTTCAATGCCCGCGCGTAGTGCAGCAACTTCTGTTTTGCGCTGACTGGCATCTTCGCCCATATACCATGT -TCCCTGCCCTACGGCTGGCAGTGAGACATCGCCACTAAATTGAATCATTTTTTGTTGCATTGTTTCCTCCCAGGT -ATTGCACCACCGTAATGCAAAACAGGGCGTGACGCCCTGTTTTTATGCACAAAATGCCCTGGAAAGATGCATTAT -CAGAATTTGTAGGTGATCCCGGTAGAAATCAGGCCAGTCCAGGATTTATCCACCATCGGGCTGTCAGTAACTTCA -TCAGACAGACGGGTGTAGCGTGCGGTACCGTAAACACTCCAGTCGCCGAGGAAGTTGTAGCTGGCGCTCAGCTCC -AGGTAAGGGCTCCAGCTGTCGTTCGGGTTATAGCCACGCAGACCGCTGCGAGCGGACTCTTTGCGCGATACGCCA -TAATAGTATTCGTTCTGGTTTTCGCTGTTCCACTGCACACCAATACCCGGAGTCACGGTCAGGCCACCGTTGGTG -TAACGATACAACCAGGCCATATCCCAGACGATGCCGTTGCTGTTATCCAGGGTATCGCCAGCCAGGGTGGTACGC -AGGTAACCGTACTGGGTAAAGTGAGCATAAGACAGACCAGCCATCATGGTGCTCTTACGGTCATCCAGGTGACGC -ATTTGGTGATCGCCACTGTCTTTCGCTTTGAAGTAAAGCGGCGACCAGTAAGCGGTAATTGAAAGTTTATCCGTT -GCGTCATTCCACAGGTAGTAACCACCACCTAAGCCACGGAACCAGAAGTTATCGCCTTCATAGTTGATTACCGGT -ACTGGGTAAACATCGGTATCGTAATCTTTATATGGGTGTTCAACGACACCTACGCCTGCGCCCAGGGAAAATTTA -CCTTCAGCGTGCGCTACGCCTGCAGACGTTGCGATAAGCACTCCAAGTGCCAGAAGTTTGAGTTTGGTCACAATT -AATCATTCCTTAAACAAATGTTTAGCGGGCGACAAAGTTTACCCGTCAATACATCGAAACCCAACCTTTTTACGT -TTTCATTTTTTAAAGTAACTGTTTAATTTTCCTGACGCGGATGACACCGCGCTTACAGCCAAATGAATTTAGCGT -TACTGGCGAGCCTGGTCTTTACATTAATTATGCAAAATTTATGGATGAGTTGTTGATATGCCATTGAAATTAAGA -AAGCCGTGCAGGCAAGTTTTCCATTTGCCATCTACGCTTAATTTTGAAGGTGTATCACCGGGCACGTTGTTCTCA -TCGTCGATAAAATGGCATGAGAGTTGCTGTGTTTTAGCAAGAGACGTCGTTCAGTTTACCTCTTCCGGGAGCCTC -TACTATTCATATGAACGGCTCTTAACCTGTGCTAAAAAACGAAAGGACGGCATACCATGAATATATTCGATCACT -ATCGCCAGCGATATGAAGCTGCCAAGGACGAAGAGTTCACACTGCAGGAGTTTCTTACCACTTGTCGGCAAGATC -GCAGTGCTTATGCCAACGCGGCTGAGCGGCTATTGATGGCTATCGGTGAGCCTGTCATGGTCGATACAGCCCAGG -AACCCAGACTTTCTCGACTCTTTTCTAACCGGGTCATTGCACGTTATCCGGCGTTTGAAGAGTTTTACGGCATGG -AAGACGCGATTGAACAGATTGTCTCTTATCTGAAACACGCGGCTCAGGGGCTGGAAGAGAAGAAACAAATCCTGT -ATCTGCTGGGGCCTGTGGGTGGGGGTAAATCATCGCTTGCTGAGCGACTGAAATCATTAATGCAGCTCGTACCGA -TTTATGTATTGAGCGCGAACGGTGAGCGTAGCCCGGTCAACGATCATCCGTTCTGTCTTTTCAATCCGCAGGAAG -ATGCGCAGATTCTGGAAAAAGAGTATGGCATTCCTCGCCGTTATCTCGGCACCATCATGTCGCCGTGGGCGGCAA -AACGCCTGCATGAATTTGGTGGCGATATCACTAAGTTCCGGGTAGTGAAGGTCTGGCCGTCAATTCTGCAACAAA -TTGCTATCGCCAAAACGGAACCCGGCGATGAGAACAACCAGGACATCTCCGCGCTGGTTGGGAAAGTCGATATTC -GTAAACTCGAACACTACGCGCAGAATGACCCGGACGCCTACGGCTATTCCGGTGCGCTGTGCCGCGCCAATCAGG -GGATCATGGAATTCGTTGAGATGTTTAAAGCACCGATTAAAGTGCTGCATCCCTTGTTAACCGCCACTCAGGAAG -GTAACTACAACGGGACGGAAGGTATCTCCGCCCTGCCGTTCAACGGGATTATTCTCGCACACTCGAACGAGTCCG -AATGGGTCACTTTCCGTAATAACAAAAACAACGAAGCCTTCCTCGATCGTGTTTACATCGTGAAGGTGCCGTATT -GCTTGCGCATTTCCGAAGAGATCAAAATCTACGAGAAATTGCTTAATCACAGTGAATTGACTCACGCCCCATGCG -CCCCTGGCACGCTCGAAACACTGTCACGTTTTTCCATTCTTTCGCGCCTGAAAGAGCCAGAAAACTCCAGCATTT -ATTCAAAGATGCGGGTTTATGATGGCGAAAGTCTGAAAGACACCGATCCCAAAGCCAAGTCGTATCAGGAATATC -GTGACTACGCCGGTGTCGATGAAGGGATGAACGGTCTGTCGACGCGTTTTGCGTTTAAGATCCTCTCCCGCGTGT -TCAACTTCGATCATGTAGAAGTGGCAGCAAACCCGGTCCATCTGTTCTACGTCCTGGAACAGCAGATTGAGCGCG -AGCAGTTCCCACAAGAGCAGGCAGAACGCTATCTGGAGTTCCTGAAAGGTTATCTGATCCCGAAATATGCCGAGT -TTATCGGCAAAGAGATCCAGACGGCCTACCTTGAATCCTATTCCGAATATGGGCAAAACATTTTCGACCGTTATG -TTACCTACGCGGATTTCTGGATTCAGGATCAGGAGTATCGCGATCCGGATACCGGGCAGCTGTTTGACCGCGAGT -CTCTTAACGCCGAGCTGGAGAAAATCGAGAAACCGGCGGGGATCAGTAATCCAAAAGATTTCCGCAACGAGATTG -TTAACTTCGTACTGCGCGCCAGAGCGAATAACAGCGGACGCAATCCGAACTGGACCAGCTATGAAAAACTGCGCA -CGGTCATCGAGAAGAAAATGTTCTCCAATACCGAGGAGCTGTTGCCGGTTATCTCGTTTAACGCCAAAACGTCAA -CCGACGAGCAGAAGAAACACGACGACTTTGTCGACCGTATGATGGAAAAAGGCTACACCCGTAAACAGGTGCGTT -TACTGTGCGAATGGTATTTGCGCGTACGTAAATCGTCTTAACAACCCTGGCCCGGTACACATGTTACCGGGCCTA -CAACGACAGCGAACCGTGGGCCTGAGAAGCGGCAACACAGGCGTAGCATACAGTTGGCAAATGTAGTACGGGGGG -CATATGACCTGGTTTATTGACCGGCGTCTGAACGGCAAAAACAAAAGCATGGTGAATCGCCAGCGTTTTTTACGC -CGTTATAAAGCGCAAATTAAACAGTCGATCTCCGAGGCCATTAATAAGCGTTCGGTGACTGACGTCGACAGCGGC -GAATCCGTATCCATTCCCACGGAAGATATTAGCGAACCGATGTTTCATCAGGGGCGTGGCGGTCTGCGCCACCGC -GTGCATCCGGGCAATGACCATTTCGTCCAGAACGACCGAATTGAACGTCCCCAGGGTGGCGGCGGAGGTTCCGGC -AGTGGTCAGGGCCAGGCCAGCCAGGATGGTGAAGGTCAGGATGAATTTGTCTTTCAGATTTCGAAAGATGAGTAT -CTTGATCTGCTCTTTGAAGATTTGGCCTTACCGAATCTGAAACAAAACCAACAACGCCAGCTGACCGAATATAAA -ACGCATCGGGCGGGTTATACCGCTAACGGCGTTCCGGCCAATATCAGCGTTGTGCGTTCATTGCAGAACTCACTG -GCGCGACGCACAGCCATGACGGCAGGCAAGCGGCGGGAACTTCATGCACTGGAAGAGAATTTGGCCATCATCAGC -AACAGTGAACCTGCGCAACTGCTGGAAGAGGAACGTCTGCGCAAAGAAATTGCAGAATTACGTGCCAAAATTGAA -CGCGTCCCTTTTATTGACACCTTCGATTTACGTTACAAGAACTACGAGAAGCGGCCCGATCCCTCCAGCCAGGCA -GTGATGTTTTGCCTGATGGACGTTTCCGGTTCAATGGATCAATCCACTAAAGATATGGCTAAGCGTTTTTATATT -CTGCTGTATCTGTTCCTCAGCAGAACGTATAAGAACGTGGAAGTCGTATACATCCGCCATCATACCCAGGCGAAA -GAAGTCGATGAACATGAGTTTTTCTACTCGCAGGAAACAGGCGGCACCATTGTTTCCAGCGCCCTGAAACTGATG -GATGAGGTAGTGAAAGAGCGTTATAACCCGGCACAGTGGAATATTTACGCTGCACAAGCATCGGACGGCGATAAC -TGGGCCGATGACTCTCCGCTTTGCCATGAAATCCTGGCGAAAAAATTATTACCTGTTGTTCGTTATTACAGCTAT -ATCGAAATTACCCGTCGTGCACATCAGACATTGTGGCGAGAATATGAGCATCTGCAATCTACTTTCGACAACTTT -GCGATGCAGCACATCCGCGACCAGGATGATATTTATCCGGTGTTCCGTGAACTGTTTCATAAACAAAATGCAACA -GCTAAAGGCTAAAACTATCAGCCAGGTCATTATCGCCTGGCTGATTTTTAGCTTACTGTAAATTATCTCATTTAT -TACATACATTAGCTTACAATCGCTTTAAATATGACAGCATAACCTTTACATAATTTAGTTCCAGAAAACAATCAT -TCGGAAAAATGATTCAGTCAACACGTATTTCCATGGGGTTATTCTTTAAATATTTTTTATCGTTAACGAAAATTG -ATCCTGGTCAAAACTATATATCTCTGCCATCAATAAAATCCAGCACTCACATTGCTCTCCTTTTTATGGTTTCTA -TGGGTACACAAAAATTAAAAGCTCAAAGCTTTTTTATTTTCAGTTTATTGCTGACGTTAATTTTATTTTGCATTA -CTACCTTATATAACGAAAACACAAATGTAAAACTCATCCCACAGATGAATTACCTGATGGTTGTTGTGGCTTTGT -TTTTCCTTAACGCCGTCATTTTTCTTTTCATGTTAATGAAATATTTCACTAACAAACAAATTTTACCAACACTCA -TTTTAAGCCTTGCATTTTTAAGTGGCCTTATCTATTTAGTTGAAACCATTGTAATTATCCATAAACCAATTAACG -GCAGTACACTGATCCAGACAAAGTCGAATGATGTTTCTATTTTCTATATTTTCCGCCAACTCAGTTTTATTTGTT -TAACCTCGCTGGCGCTCTTTTGTTATGGAAAAGACAACATCCTTGACAACAATAAGAAAAAAACGGGAATCCTGT -TGCTGGCGCTGATCCCTTTTTTAGTTTTTCCCCTTCTGGCACACAATCTGAGCAGTTATAACGCTGACTATTCTT -TGTATGTCGTCGATTACTGTCCGGACAACCATACTGCGACCTGGGGAATCAACTATACAAAAATATTGGTTTGTC -TGTGGGCATTTTTACTGTTCTTTATTATCATGCGCACACGATTAGCCAGCGAACTATGGCCGTTAATAGCATTAT -TATGTCTGGCATCGCTATGCTGCAACTTACTTCTACTGACTCTGGATGAGTATAATTATACTATCTGGTATATCA -GTCGCGGGATTGAAGTTTCCAGTAAACTGTTTGTTGTGTCTTTTCTGATTTATAACATTTTTCAGGAGCTGCAAC -TCTCCAGCAAACTGGCAGTTCATGATGTGCTGACCAATATTTATAATCGGCGCTACTTTTTCAACAGCGTAGAGT -CATTATTGTCGCGACCTGTTGTTAAGGACTTCTGTGTCATGCTGGTTGATATTAATCAGTTCAAACGCATCAATG -CCCAATGGGGACATCGTGTGGGTGATAAAGTGCTGGTTTCAATTGTCGATATTATCCAGCAAAGCATCCGCCCCG -ATGATATTTTAGCGCGACTGGAGGGTGAGGTGTTTGGCTTGCTATTTACCGAACTCAATAGTGCCCAGGCAAAAA -TCATTGCGGAACGTATGCGTAAAAATGTCGAACTCCTGACCGGCTTTAGTAACAGATATGATGTTCCTGAACAAA -TGACCATCAGTATTGGCACGGTTTTTTCAACGGGTGACACGCGTAATATCTCGCTTGTCATGACGGAAGCAGATA -AAGCCTTACGCGAAGCGAAAAGCGAGGGGGGCAACAAAGTGATTATTCATCATATTTAAGTGCAAAAATATTCAG -AGCCATGCTTTTTGCGTGGCTTTTGCATACAATTTATTACTATTACCCCTAAATTTCCCCTCCCCAGCGGCGCAG -AGATGAGTATAATTAGCGCCCCTGTGCCAGGCCGCAATCGAACTTTATCTGGTTTTCTCGTTTCACTAACCGAAG -GAGTGCCATTTATCATGAAATTGCACCATAGAATGCTCCGGCATTTTATCGCCGCAAGTGTCATTGTGCTGACAT -CTTCCTTCCTTATTTTTGAACTTGTCGCCAGCGACAGAGCAATGAGTGCCTATCTGCGCTATATCGTGCAGAAAG -CAGACTCCTCCTTTCTTTATGATAAGTATCAGAATCAGAGTATTGCCGCGCATGTGATGCGCGCTCTCGCTGCTG -AGCAGTCGGAAGTGTCGCCAGAACAGCGGCGCGCCATCTGCGAGGCTTTTGAGTCTGCCAATAACACCCATGGCT -TAAACCTGACTGCCCATAAATACCCGGGCTTACGCGGCACACTACAAACCGCATCCACTGACTGCGACACAATTG -TGGAAGCTGCAGCACTATTACCCGCTTTTGATCAGGCAGTGGAAGGCAACCGCCACCAGGATGATTACGGTTCAG -GTCTTGGGATGGCCGAAGAGAAATTTCACTATTATCTCGATCTCAATGACCGCTATGTCTATTTTTATGAGCCGG -TTAATGTTGAATACTTTGCGATGAATAACTGGTCCTTCCTGCAGTCAGGAAGTATTGGCATCGATCGCAAAGATA -TTGAAAAGGTATTTACCGGGCGTACCGTATTGTCGAGCATTTACCAGGATCAGCGTACTAAACAGAACGTGATGA -GTTTGCTGACGCCGGTATATGTCGCAGGGCAGCTAAAAGGGATTGTGCTGCTGGATATTAACAAAAACAATCTGC -GGAATATCTTTTATACTCATGACCGCCCTCTCCTCTGGCGTTTTCTCAATGTCACGCTAACCGATACCGATTCGG -GGCGCGACATTATCATCAACCAGAGCGAAGATAATCTGTTCCAGTATGTCAGTTACGTCCATGACTTACCGGGCG -GCATTCGTGTCTCGTTATCCATTGATATTCTTTACTTTATCACGTCTTCGTGGAAAAGCGTTCTGTTCTGGATTT -TGACGGCGTTAATTTTGCTGAATATGGTGCGGATGCACTTCCGTTTATACCAAAATGTGTCGCGAGAAAATATTA -GTGATGCGATGACTGGACTGTATAATCGCAAAATTTTAACCCCTGAACTGGAGCAGCGGTTGCAGAAACTGGTGC -AATCCGGTTCTTCGGTGATGTTTATTGCTATTGACATGGACAAGTTAAAGCAAATAAATGACACCCTCGGTCATC -AGGAGGGGGATTTAGCGATTACGTTATTAGCTCAGGCGATTAAACAGTCGATTCGTAAAAGTGATTATGCCATCC -GACTCGGTGGCGATGAATTCTGCATCATTCTTGTCGATTCGACGCCGCAAATTGCAGCACAACTGCCTGAACGTA -TCGAAAAACGTCTGCAACATATCGCGCCGCAGAAAGAGATCGGCTTCTCTTCCGGTATTTACGCGATGAAAGAAA -ACGATACGTTACATGATGCGTATAAAGCTTCCGATGAGCGTTTATATGTCAATAAGCAGAACAAAAACAGCCGTT -CATGATAACCTTCTGTGGTTGTTTGCTTGTAATCTCAGGAGCGTGAAATGACTGAAATGGCTAAAGGAAGCGTGA -CGCATCAGCGGTTAATCGCTTTATTATCACAAGAAGGTGCTGACTTCCGCGTCGTTACCCATGAAGCGGTAGGTA -AATGTGAAGCGGTGTCAGAAATTCGTGGCACCGCTCTAGGCCAGGGTGCTAAGGCACTGGTATGTAAAGTCAAAG -GCAATGGCGTAAATCAACATGTTCTGGCGATCCTCGCAGCCGATCAACAGGCCGATCTGAGCCAACTCGCCAGCC -ATATAGGCGGATTACGCGCTTCGTTGGCCAGCCCGGCGGAAGTCGATGAACTCACAGGCTGTGTCTTCGGCGCGA -TCCCCCCTTTCAGCTTCCATCCAAAACTCAAACTGGTTGCCGACCCTCTACTCTTCGAACGATTTGATGAAATCG -CCTTCAATGCAGGCATGCTGGATAAATCCGTTATTTTGAAAACCGCGGATTATTTGCGCATTGCGCAACCAGAAC -TGGTCAATTTCCGCCGCACTGCGTAACTAGCCGGTCCGTTCGATAAGAAGAACGGACAAAACCAGTACAACAGCA -ATGGCAAAAAACGATGACGTGATAATCAGTGTCTCGACAAACATTTGATCGTTCATAGCATGCCCCCGGGAGATA -GCTGTTTTCACGTTATTGTTAGCGTGCACAAATGGCAGTTTGATGACAGTTCGCCTGATTTTTTATGCAAAAAAC -GTAAAGATTTTCTACTTCCTTCCTGCAGCAAGCGTAAAGTAAGCAGGCTTATTATTTTTTGGCAAGGAAACCACG -ATGTTTGATGTCACTTTGCTGATCCTGCTCGGGTTAGCTGCGCTGGGCTTTATCAGTCATAACACCACTGTCGCC -GTTTCAATTCTGGTGTTAATCATTGTCCGCGTCACACCGTTAAGCACCTTTTTTCCGTGGATTGAAAAACAGGGG -CTAAGTATCGGGATAATCATTCTGACGATTGGCGTTATGGCCCCCATCGCCAGCGGGACGCTACCGCCCTCAACC -TTGATTCACTCGTTTCTGAACTGGAAATCACTGGTGGCGATTGCAGTAGGCGTGATTGTCTCCTGGCTGGGTGGG -CGCGGCGTGACGTTAATGGGCAGCCAGCCGCAACTGGTCGCCGGGCTGCTGGTAGGCACTGTTTTAGGCGTAGCG -CTGTTTCGCGGCGTACCGGTTGGGCCGCTTATTGCCGCGGGTCTGGTTTCGCTGATTGTGGGGAAACAGTAGTTA -ATCTCGCAATATATCGGCCTGGCGTTTGCCCCAGGCCTTTCTTAAACATAGTAATAAAGGCCGTTGTTGAATCAT -ACCCCAGCGTATGAGCAACTTTCTGTACAGTATCGCCTTTCACTAATCCCTGAAGCGCCATAATCAGCTGTAACT -GCTGACGCCACTGGCGAAAACTCAACCCCGTCTCTTTTACTATCAGTCGGGCAAGATTGCGTTCACTCATCGCAA -AAAAGCCAGCCCATTGCCCCAATGCCCCCCACTCGACAGGCCCTTTCGCCATCATCTCCACCATCGTGCGGATTT -TAGGATGAGAAGAAACGGGCAGGTGCAGCTGTTGTTGTGGCTGCTGAGGGAGTTCATCAAACAGGACCTGAATTA -ATCTGCGGGTCATTGGCTCAGCACGCTGAGTCGTCGTCCTGTTTGCCAGGGTTAAAATTAATTCCCGGCATAAGG -GCGATATTTTCAATGTGCAACATGTTGTCGGCATTGTCACTGCGCTGGGTTCGATAAACAGAAAACAGAGTTCAG -CATTAGCTGTTACTTGATTGCTATGTTCCACCCCGCCCGGTATCCAAACCGCATATTGTGGCGGCACCATCCACA -AAGCATTTTCCACCGTACAGGTAATTGCACCATGTAGCGCCAGTATCAGCTGTCCTTTGCGGTGCTGATGTACAG -GACTGGTTAACTCATCCGTTCCGGCGTGAATACAAAATGCGACCGCGGCTTCATGGTGTCGGTCGGGTTCATAGC -CATTGAGATTCAACCTGTGCATCATTTTGTCCGAACTTAGCGATAATTTGTCATTTTAGCTTGATTCAACATAAC -AATAAAAACGGTAAGGTACAGCCTCGTTTGTAACAATGAGAAGCATATGACCTGTTCAACTTCATTAAGCGGCAA -AAACAGGATTGTCCTTATCGCTGGCATTCTGATGATTGCCACAACATTACGCGTCACCTTTACCGGCGCAGCACC -GTTACTGGATACGATTCGTTCCGCTTACTCGCTGACGACAGCGCAAACCGGCTTATTGACCACCCTGCCATTATT -GGCCTTTGCGCTAATCTCACCTTTGGCTGCCCCGGTAGCGCGACGTTTTGGTATGGAACGTAGCCTGTTTGCCGC -GTTACTTTTGATCTGTGCTGGTATCGCAATTCGCTCTCTCCCTTCGCCTTACTTATTATTTGGCGGTACAGCGGT -CATTGGCGGTGGGATTGCATTAGGCAATGTCTTACTGCCAGGATTAATTAAACGCGATTTCCCTCATTCCGTCGC -CAGACTTACCGGCGCATATTCCCTGACAATGGGAGCTGCAGCGGCACTGGGATCGGCTATGGTCGTGCCGCTGGC -TTTGAACGGTTTTGGCTGGCAAGGCGCGTTGCTCATGCTGATGTGTTTTCCTCTGCTGGCTCTTTTTTTATGGCT -GCCACAGTGGCGAAGTCAACAACATGCAAATTTGAGTACCTCGCGCGCCTTACATACTCGGGGTATCTGGCGTTC -ACCGCTTGCCTGGCAGGTCACATTGTTTCTTGGGATCAACTCACTGGTCTATTACGTGATTATTGGCTGGCTTCC -GGCGATCCTCATCAGTCACGGCTATAGCGAAGCACAGGCGGGTTCACTGCATGGTTTGCTGCAACTAGCCACAGC -AGCACCCGGTTTGCTGATCCCACTTTTCTTACATCATGTGAAAGATCAGCGTGGTATTGCAGCGTTCGTTGCCTT -GATGTGCGCAGTGGGCGCGGTTGGGCTCTGCTTTATGCCAGCGCACGCGATCACCTGGACTCTGCTTTTCGGTTT -TGGTTCCGGCGCAACAATGATACTGGGGTTGACGTTCATTGGTCTGCGGGCTAGTTCTGCGCATCAGGCGGCGGC -ACTCTCGGGGATGGCACAATCCGTCGGGTATTTGTTGGCAGCCTGTGGGCCGCCGCTGATGGGTAAAATACACGA -TGCTAACGGTAACTGGTCTGTACCACTTATGGGTGTTGCCATACTTTCACTACTGATGGCGATTTTCGGACTTTG -CGCCGGGAGAGACAAAGAAATTCGCTAATATCCGGTGCTATAGTGACGTAACAAATCATGCGTGAAAGGGAGAAC -AAACACGATGAATATTCAGTGCAAACGCGTTTATGATCCGGCTGAACAGAGCGATGGTTATCGCATACTGGTCGA -CCGCCTCTGGCCGCGCGGTATCAAAAAAACCGATTTAGCCCTTGATGAGTGGGATAAAGAAATCACGCCGTCAAC -GGAACTGCGCAAAGCCTTTCACGGCGAAGTCGTCGATTATGCAACCTTTCGCGAGCAATATCTTGCAGAACTGGC -GCAACACGAGCAAGAAGGAAAGCGGCTGGCGGACATCGCCAAAAAACAGCCGCTGACCCTGCTCTACTCAGCAAA -AAACACCACGCAGAACCATGCGCTGGTGCTGGCCGACTGGCTACGTAGCTTGTGATTTTAGTACAGCATCCGGCG -GTTATTTTTCACCAGCCGGATGGTCACGCCGCCACAATGCCCATTCATCAATCGTTTCACCGCCCGGTAATTTGC -AATTGTTGCTGACCCCTTGCGCTGTCTGCACTGGAATGAGCGTCCCGCCCTTCTGCTGGCAATAGACCGACGCCG -GATTTGCCATACCAATCTGCGGCGGTTTAGGTGCTTCTGGCTGAGAAGGGGTTGAACAACCAGCCAGGACCAGCA -AGCAAGGCAGAACAAAACTGATAATTTTCATTTATTGATCTCACATATTTATCCAAGATTAGAGTATCGCGGTAT -CGTTTTGTTTTGCAGCACTATTTTTATTACATTCACTCAAAACATATTACGTCTTGTTTCATCTTTGTTGATGAT -GTTTTATCATGCCTGCAAAGATTAAATAATCAGCATTTACCCGCCGTATCCTGGAGTTGTTCCGTGTCAGATCAG -ATTATCGCCCGCGTCTCGCAATCCCTTGCCAAAGAACAGTCACTGGAAAGTCTGGTCCGACAGCTTCTGGAGATG -CTGGAAATGGTCACTGATATGGAATCAACCTACCTGACCAAAGTGGATGTCGAAGCGCGCCTGCAGCATATTATG -TTTGCCCGTAACAGCCAGAAAATGTACATCCCGGAGAATTTTACCGTCTCGTGGGATTACTCGTTATGCAAACGC -GCCATTGATGAAAACTGCTTTTTCAGCGATGAAGTCCCCGACCGTTGGGGTGACTGTATTGCGGCACGCAATCTT -GGCATCACCACATTTCTGAGCACGCCAATTCACTTACCGGATGGATCATTCTATGGCACGCTTTGCGCCGCCAGC -AGTGAGAAGCGCCAGTGGAGTGAACGCGCGGAACAGGTTTTACAGTTATTCGCCGGACTGATTGCACAATATATT -CAAAAAGAGGCACTGGTTGAACAGCTGCGCGAAGCCAATGCTGCGCTGATTGCGCAATCGTATACCGACTCGTTA -ACCGGGCTACCGAATCGGCGGGCGATTTTTGAAAATCTGACGACACTGTTTTCCCTCGCCCGGCATCTTAACCAT -AAGATAATGATCGCGTTTATCGATCTGGATAACTTCAAATTAATCAATGATCGTTTTGGTCATAATAGTGGCGAT -CTGTTTCTCATTCAGGTTGGCGAGCGCCTTAATACGCTCCAGCAAAATGGCGAAGTTATTGGTCGTCTCGGCGGT -GATGAGTTTTTAGTTGTTTCACTAAACAACGAGAATGCGGATATTTCGTCGCTGCGAGAACGCATTCAGCAGCAA -ATACGTGGAGAATATCACTTAGGTGATGTTGATTTGTATTATCCCGGTGCCAGTCTTGGCATAGTAGAAGTCGAT -CCTGAAACAACCGATGCAGACAGTGCCCTGCATGCTGCCGATATTGCGATGTATCAGGAGAAAAAACACAAACAG -AAAACACCTTTTGTCGCGCATCCAGCGCTACATTCCTGAGGCGTATTCACATCCTTTTGATTGGTGATAACATGC -GAATCGGTATTATTTTTCCGGTTGTAATCTTCATTACAGCGGTCGTATTTTTAGCATGGTTTTTTATTGGCGGCT -ATGCTGCCCCGGGAGCATAAAGATGAAAAAAACAACGATTATTATGATGGGTGTGGCGATTATTGTCGTACTCGG -CACTGAGCTGGGATGGTGGTAACGTCACCTCTAAAAAATAGCAAAGGCTGCCTGTGTGCAGCCTTTGTGCAATTT -AAGCGTTAACTTTTAATCTTCCTGTAGATAAATAGCACGACAATCGCACCAATAACGGCAACCACGAAGCTGCCA -AAATTGAAGCCATCGACTTTACCAAAGCCAAACAGCGTGCTGATCCATCCGCCGACTACGGCACCGACTATCCCC -AGCAGGATAGTCATAAAGAATCCACCTCCATCTTTACCTGGCATGATCCACTTCGCCAGAATACCGGCAATAAGC -CCAAAAATAATCCATGACAGAATGCCCATTGTTTCCTCACTTATCTGTTTTGCATTAGCGGGTTAGTCGCTGATA -AAAAGCATAGCACAACATCGGGAGGGCAAGATTTGTGACGAGCATCACGGAGGTTTTTTTTGCGATGGCGCAGAA -ATTGCGCCATCAACGATCAGTGATAATTACCAACCACAAACATCATGTTCGTTTTCCGTGTCATAAGAACGTACG -GTATTCACCAGATCTTTTATCACTTCAGCCGCCACTTCTGGCACCAGCAAAGTCATCGGCGTCTCTGTTTCATAA -TCGACAGAAACGCCATTGCTGTTATTGGTGACGGTCACGGTATACGTTGCTTTGCCCATGATTCATTTCCCGTTA -TGAATGACTTTCCGTTGTTGCGCACCTTCCATCAGGACTTCAGGAGCCACGAAGAAGTCAATGTTGAAATAAGTA -TCGTCAGTCATGGCTTCAATGTTGTGCCACTTTTCTGGAGGGAACACCGCAAACTGCCCCGCTTCGATAAGGATC -ACCTGATCAGGCTCTGCACTGTGTTCATCAGCGTAGCCGAGATATTTGACCGCCCCATGCATAACGGAAAGGCGT -GGGTAAACCCCCGGGCGCGTTCCTTTATCAAGATGACGTTCGAATATTCCGGCAGGTGCAGTTTGTTTATTCCAG -AAAGGCGTTGAGCGCGTATGAATATAATTCTGTGGGATTTGAAGCATCCTTTTCCCTCCTTCGGTGAATGCGCTG -AAAACGGTTTATTCCAGCCGTTTCAGGGTACGCCTGATAATTTGCATTTTAAATACCATTTATTGGTTACTTTTT -AGCACCATATCAGCGAAGAATCAGGGAGGATTATAGATGGGAAGCCCGCGACAACGCGGGCTGAAAGCATCAGGA -TTGCAGCGTCGCCAGTCGGGCAGCGAAACCCACGAACATCAAACCAATCAGTGAGTTGCCAACTTTAGCCAGTTT -CTTTTTGGTACGTATGTACTGCGTGACAAAAGCACCAGATATAATCAGGAAGCTCAAATAGCAGAAACTCACCAG -TTCCAGCGTCGCCGCCAGAATAAAGAATGAAATTCCCGTATGTGGGGCATTAACATCGATAAACTGTACGAAAAA -CGACACATAGAACAAAATGGCTTTCGGATTAGTCAGGCTCAAAATTAACGCGCGTTTAAAAATAGCACCGTATTG -GGGCTCATCGGATTTGGCCTCGCTATTTTTACCCTTCAGGGTCGCGTAAAGAATTTTACTCCCCAGATAGAGCAA -ATAAAACGCACCAAGATAACGTACAATGTTGAATAATATCGGGGTGGTCTTAATTAATGTCGCCACTCCAGCCCA -TGCCAGAAACATCAATACCGCATCGCCAATAAATACACCGCAGGCCGCAAGATAACCGCCTTTCATACCGCTACT -GACGCTATTTTTGAGTACAAACAGGGTATTTGGCCCTGGCACCAACACAATAAAAATGGCCCCAACCAGATAGGT -CCAGTAATTCAGAACCCCGTATTCAGCGAACACATTAACCTCTTTAATTATCTTTCGATCATGCGCGATTAAAGG -TGAATATGCTAACCAATCTGTAGCGGCTTAGAAAGGAGAAAATCAGGTTTTAACCTGATATCAACCCGATAATTG -AATCATTAATCAGGCATGCTCCAGTGAAAAATTCGGGTAGTGCTCGGCAAAATACTGGCGTAAAAATTCTACCGT -TATCCGCACTTTCGCTGACGTCGCCAGCCTTGAAACATAAACGGCCCAGACGTTCGCTGGCTGGTAATATTCCGG -TAGCACTTGCACTAAATGACCACTGGCAATGTTTTCGCTAACATCCCACCAGGAACGCAGAGCAATCCCCTGCCC -ATCGAGACACCACTGATGGACAATTTCTCCATGATTAGACGACAGTGGGCCGGTGACTTTAATCGCATGGGGGCC -TTCTTTATTGCGTAATTGCCAGACACCAAAAGGATGATCGCGCTCTTTAATGACCAGGCACGGCAATGCAGAAAG -ATCGGTTAAATGTTTCGGCGCGCCATGTTGCGCAATAAATTCCGGCGACGCGCAGAGAATACGGTAATTGGTCGC -CAGTTTGCGGGCGATTAAATTAGGGGCGATGTCATCGCCAATGCGAATATCGAGATCGACACCTTCATTGACCAA -ATCGACCAGTCGGTCTTCCACATCAAAACGTAATTCCAGTTGCGGATACGCCTTCGCCAGCGCTAATAACGCCGG -AGCCACCACCTGTCGTCCAAAACCAAAGCTGCTGATAATACGCAGCATCCCCTGCGGCACCTGACGCACGTCAGA -AAGTTCGTCCATCATCTGACCGACATCCTGCAAAATCCGCTGCGCCCATTCATAAATCCGCTCTCCTTCTTCGGT -AATGGTGACGCGGCGGGTGGTGCGGTGTAACAACACCACGTTTAGCGTTTGCTCCAGCAAGGCGATGCGCTTGCT -GACGAACGCCGGTGAAACGCCCAGTTCTTCCGCCACGGCGGCAAAACCAGCCCGGCGAGCCACCAGCATAAAGAC -GCGCAAATCATTCAGCAGCGGTAAATTATTCATGATTCGTGTTTTATGTTTCACCAGTTACGGGGATTAATTCCT -TTTCAGTCAATTATAGGATGGTGATGTTGTCAATTTTGATGGTCAGGAAGTGAGAACCCAATGATGAAAACGATG -CGTATTGCTGCGATCCCGGGAGACGGGATTGGCAAAGAAGTCCTTCCTGAAGGGATTCGCGTGTTACAGGCTGCC -GCTGAGCGCTGGGGCTTCGCCTTGAGTTTTGAGCAAATGGAGTGGGCGAGCTGCGAGTATTACAGCCATCACGGT -AAAATGATGCCGGACGACTGGCATGAGCAACTTAGCCGTTTCGACGCCATCTATTTTGGTGCCGTCGGCTGGCCG -GATACCGTTCCGGACCATATTTCGTTGTGGGGTTCGCTGCTGAAATTTCGTCGTGAATTCGACCAGTACGTCAAC -CTGCGCCCGGTTCGTCTCTTTCCTGGCGTTCCCTGCCCGCTGGCGGGAAAACAGCCTGGCGACATCGATTTTTAC -GTGGTCAGGGAAAACACCGAAGGCGAATATTCCTCGCTCGGCGGTAGAGTGAATGAAGGTACAGAGCATGAAGTC -GTCATTCAGGAATCGGTATTTACCCGCCGTGGTGTCGATCGCATTTTGCGTTATGCCTTCGAACTTGCGCAAAGC -CGTCCACGTAAGACACTAACTTCTGCCACTAAATCGAACGGTTTAGCCATCAGCATGCCGTACTGGGATGAGCGA -GTGGAAGCAATGGCCGAGAATTACCCGGAGATCCGCTGGGACAAGCAGCATATTGATATTCTCTGCGCGCGTTTT -GTGATGCAGCCGGAACGATTCGATGTGGTGGTGGCGTCCAATTTGTTTGGCGATATCCTTTCCGATCTTGGCCCG -GCCTGCACCGGCACCATTGGCATTGCCCCATCCGCCAACCTGAATCCGGAACGCACTTTCCCGTCGCTCTTCGAG -CCTGTCCACGGTTCCGCGCCGGATATCTACGGGAAAAATATTGCTAACCCTATCGCCACGATTTGGGCCGGGGCA -ATGATGCTCGATTTTCTCGGCAATGGCGATGAGCGTTTCCAGCAAGCGCATAACGGTATTCTGGCAGCAATTGAA -GAAGTGATTGCTCACGGGCCGAAAACACCTGATATGAAAGGCAATGCCACCACGCCACAGGTTGCCGACGCGATT -TGCAAAATTATTTTGCGTTAAGGTCAAACCAGTTTATTTGAACCGCGTCACTGACGCGGTTTTTTTATTCGTTCT -TTGCAGTAAATAACCTGCGTCATTTCACCTTTTATTGTTTCCGTTTCGTGTTTTATGGCTTTCCGTATTCTTAAT -TGTTTAATTTATGTAACATGCAAATTTTGTTACGCGTACGTTAGGTTCCGCCGTACAGGTATTGGTTTTGCTGGC -AATGGGACTGGTGATTTATTTAGCCACCAGTAAATACGGCAATATTCGTCTTGGCGAAGGAAAACCGGAATACAG -CACGCTCTCCTGGCTGTTTATGTTTATTTGTGCCGGTTTAGGTTCTTCTACGCTTTATTGGGGGGTTGCTGAATG -GGCCTATTATTATCAAACACCTGGATTAAATATCGCACCGCGTTCACAACAGGCACTCGAATTTAGCGTTCCCTA -CTCTTTCTTCCACTGGGGCATCAGCGCCTGGGCAACTTATACGCTGGCCTCATTAATCATGGCTTATCACTTTCA -TGTGCGGAAAAACAAAGGTCTGAGCCTTTCCGGCATTATTGCTGCTATTACCGGCGTTCGCCCGCAAGGCCCATG -GGGAAAACTGGTCGATTTGATGTTCCTGATCGCCACTGTCGGCGCACTGACCATTTCCCTTGTTGTTACCGCAGC -AACCTTTACCCGTGGGCTTTCCGCGCTGACCGGTTTACCCGATAACTTCACCGTGCAGGCATTTGTGATCCTGCT -TTCCGGCGGCATTTTTTGCCTAAGCTCGTGGATTGGTATCAACAACGGTTTGCAACGTCTGAGCAAAATGGTTGG -CTGGGGCGCGTTCCTGCTGCCATTACTGGTGCTGATTGTCGGCCCAACCGAATTTATTACCAACAGCATCATCAA -TGCCATCGGCCTGACCACGCAAAACTTCCTGCAAATGAGCTTATTCACCGATCCGCTTGGCGATGGTTCATTTAC -CCGCAACTGGACCGTTTTCTACTGGCTGTGGTGGATCTCATACACCCCTGGCGTAGCAATGTTTGTCACCCGCGT -TTCCCGCGGTCGTAAGATTAAAGAAGTTATCTGGGGACTGATCCTCGGCAGCACCGTCGGTTGCTGGTTCTTCTT -TGGCGTAATGGAAAGCTATGCCATTCATCAGTTTATCAATGGCGTAATCAACGTCCCACAGGTGCTGGAAACACT -GGGCGGCGAAACAGCTGTACAGCAAGTTCTGATGTCGTTGCCAGCCGGTAAATTGTTCCTCGCCGCATACCTGGG -CGTGATGATTATTTTCCTTGCCTCGCATATGGATGCAGTGGCCTACACCATGGCGGCGACCAGTACGCGTAATCT -CCAGGAAGGTGACGATCCTGACCGTGGGCTGCGTCTTTTCTGGTGCGTGGTGATCACTCTGATCCCGCTTTCCAT -CTTGTTTACCGGTGCTTCGCTGGAAACGATGAAAACCACCGTCGTGCTCACAGCCCTTCCCTTCCTCGTCATTTT -ACTGGTGAAAGTCGGCGGGTTTATTCGCTGGCTGAAACAGGATTACGCCGACATTCCGGCTCATCAAGTTGAACA -TTATCTCCCGCAGACACCGGTTGAAGCCCTGGAAAAAACGCCAGTGCTCCCTGCGGGAACCGTATTCAAAGGCGA -CAACTGAGCGCCATCATCCTAACGATAAAGGTATCCCTATGAGCAATCTGAGCCCTGACTTTGTACTACCCGAAA -ATTTTTGCGCTAACCCGCAAGAGGCGTGGACCATTCCTGCCCGTTTTTATACCGATCAGAACGCGTTTGAACACG -AAAAAGAGAACGTCTTCGCCAAAAGCTGGATTTGCGTCGCTCACAGCAGCGAACTGGCGAATGCCAATGATTATG -TGACGCGTGAGATCATTGGCGAAAGCATCGTGCTGGTACGCGGTCGTGATAAGGTTTTGCGCGCGTTCTATAACG -TGTGTCCGCACCGTGGTCATCAGTTGTTGAGCGGTGAAGGAAAAGCAAAAAATGTGATTACCTGCCCGTATCACG -CATGGGCATTCAAACTCGATGGCAACCTGGCCCATGCACGTAACTGCGAAAACGTCGCCAATTTCGATAGCGACA -AAGCGCAACTGGTTCCGGTGCGTCTGGAAGAATATGCCGGATTCGTCTTCATCAACATGGACCCCAACGCCACCA -GCGTAGAAGATCAATTACCCGGCCTGGGCGCGAAAGTGCTGGAAGCCTGCCCGGAAGTCCACGATCTGAAACTGG -CGGCCCGCTTTACCACCCGCACGCCTGCCAACTGGAAGAACATTGTCGATAACTATCTCGAGTGCTATCACTGTG -GTCCGGCGCATCCAGGTTTCTCCGACTCCGTACAGGTTGATCGTTACTGGCACACCATGCACGGTAACTGGACGC -TGCAATACGGTTTCGCCAAACCGTCCGAACAGTCGTTTAAATTTGAAGAGGGTACGGATGCGGCATTCCACGGTT -TCTGGCTGTGGCCGTGCACGATGCTGAACGTCACCCCGATCAAAGGGATGATGACGGTCATTTATGAATTCCCGG -TGGATTCTGAAACTACCCTGCAAAACTACGATATTTACTTCACCAATGAAGAGTTAACCGACGAGCAAAAATCGC -TGATTGAGTGGTATCGCGATGTGTTCCGTCCGGAAGATTTACGTCTGGTTGAAAGCGTACAGAAAGGGCTGAAAT -CGCGTGGCTATCGTGGTCAGGGGCGCATCATGGCCGACAGTAGCGGTAGTGGCATTTCCGAACATGGTATCGCCC -ATTTCCATAATCTGCTGGCGCAGGTGTTTAAGGACTAATGACATCGGCGGCGGTATTTTCCGCCGCTGGGCTGAT -TTTTGATGGAGTACAGCAATGTCAGACTATCAAATGTTTGAAGTACAGGTGAGCCAGGTTGAACCCCTTACCGAA -CAGGTGAAACGCTTCACGCTGGTGGCAACCGATGGCAAACCATTACCTGCGTTTACCGGAGGAAGTCACGTCATT -GTGCAGATGAGCGATGGTGATAACCAGTACAGCAATGCGTATTCACTACTGAGTTCGCCGCATGACACCTCTTGT -TATCAGATTGCCGTTCGGCTGGAGGAAAACTCGCGCGGCGGTTCCCGCTTTTTGCATCAGCAGGTAAAAGTGGGC -GATCGGTTAACGATTTCAACGCCTAATAACCTGTTTGCGCTAATTCCCTCAGCCAGAAAGCATCTGTTTATCGCG -GGCGGTATTGGTATCACCCCTTTCCTGTCGCACATGGCAGAGCTGCAACACAGCGACGTCGACTGGCAGCTACAT -TACTGCTCGCGAAATCCAGAAAGTTGCGCATTTCGTGATGAGCTAGTCCAGCATCCGCAGGCTGAGAAAGTCCAT -TTGCATCATTCATCAACCGGAACACGACTGGAATTAGCGCGATTATTGGCGGATATCGAACCTGGCACACACGTT -TATACCTGTGGCCCCGAGGCGCTAATTGAAGCGGTAAGAAGTGAAGCTGCGCGTCTGGACATCGCCGCCGATACG -CTGCACTTTGAGCAATTTGCTATCGAAGACAAAACCGGCGATGCATTTACCCTGGTGCTTGCCCGTTCCGGAAAA -GAGTTTGTGGTGCCGGAAGAGATGACTATTTTGCAGGTTATTGAAAATAATAAAGCCGCGAAAGTGGAATGTTTA -TGTCGTGAAGGGGTATGCGGAACCTGCGAAACAGCAATACTGGAAGGTGAAGCTGACCATCGGGATCAATATTTT -AGCGATGAAGAGCGTGCCAGCCAGCAAAGTATGTTGATCTGTTGTTCGCGTGCGAAGGGTAAACGCCTGGTGTTG -GATTTGTAGTTTGCCGAAGCCGGATGTGGCGCTGAGCGCGCCCAGTCCGGCTTCGGAAGATTTTACTGCGGATAT -TCCTGCAATAAATTGTGTAATGCTTCCGCCATCAGCTCACCACGCCAGCCGGAAATCAGCTCCGGCAAATTGTTC -TGCGGTTTCAGTTTCCAGTGCCAGTTCAGCAGTTGGTTGATTTGCCGACGCGATGCCAGCAATTCGGCGCTGATC -TTATGCGTTTCGCTCACGTCAGTAATCAGCGACTTAATCGCTTTAAACGCTTTACGATAACCCGGCATGTCCATC -AGGTTAAGCATCGGCTGCGGTAAGGCATCTTCCGGCAATGTCTGCGCTTTTTCCACCAGCGCTAGCAGCGTTTTA -CCGTGAAAGCGGATTTCGCTACCGGATAAACCCAGGCTGTCCAGTTCGCCTAAACTTCCCGGCATATAACGCGCT -ACCGACCACAAATGCTCTTCACGCACGACAAAGTTCACCGCCAGATCGCGCTCTCGCGCCTTGCGCAGTCGCCAG -TCGGCTAACAGTTGCAGACAGGCCAGTTGGCGTGTGCGTAATTGCCAGGCATTGGTGATATCACGCCAGGCATCT -TCCGGCGCAACGACTTCCTGACGACGCATTTGCATCAGGCGGCATTCATCCAGCGCCGCAGGTAGCCAGCCGGAG -GCCTCCGTTTCTACCATAAGCTTGGCGGTGATCGGTAACAGATACCAGACATCCGCCGCTGCGTATTCACACTGA -CGTTCGGTCAGCGGTCTGGCCAGCCAGTCGGTGCGCGATTCACTCTTGTCCAGCGTAACGCCGGAATACTCTTCC -ACCATGGAAGCGAAACCCCATGACATCGGGCGTCCGCAGAAGGCAGCAAGGATTTGCGTGTCAATCAAGGGTTGT -GGTAATTCGCCAAAGACATTGAGGAACACTTCCAGATCTTCACTGCCTGCATGGAGAAATTTTGTGATGGACGGA -TCGCGCAGGATCGCTTTCAGCGGTGACCAGTCGGTGATCCCGAGTGGATCGATTAGCGCCAGATGCTCGCCATCG -AAAAGTTGAATCAACCCCAGCTGCGGGTAATAAGTGCGCGTACGAACAAATTCAGTATCCAGGGCTATCGCCGGA -AAGGCACGGACGGCTTCACACAAAGAAGCCAGCGCATCGTCCGTGGTAATCATTTGGTAATTCAAATTGTTTTCT -CTTTAGTGGGCGTCAAAAAAAACGCCGGATTAACCGGCGTCTGACGACTGACTTAACGCTCAGGCTTTATTGTCC -ACTTTGCCGCGCGCTTCGTCACGTAATTCTCGTCGCAAAATTTTTCCGACGTTAGATTTCGGTAACTCATCACGA -AACTCCACCAGCTTCGGTACTTTGTATCCCGTGAGCTGACGGCGGCAAAAAGTCACCAGTGACTCTTCGGTAAGC -GATGGATCTTTTTTCACTACGAAGATTTTCACCGCTTCACCACTGGAGCCGGAAGGTACGCCAACAGCCGCGACT -TCCTGTACGCCAGGATGCTGCATGACGACATCTTCAATCTCGTTGGGATAGACGTTAAAACCGGAAACCAGAATC -ATGTCTTTTTTACGATCGACAATGCGCAGGAATCCTTCTTCATCCATTACCGCGATGTCGCCGGTGTGTAACCAG -CCATTTTTGATGATTTCATCGGTAGCATCGGGACGCTGCCAGTAACCCAGCATCACCTGCGGTCCTTTGACACAA -AGCTCACCCGGTTGACCTGGTGGTACTTCATTATCATCATCATCCACCAGTTTGGCTTCCGTCGACGGCACCGGC -AAACCGATGCTACCACTATGATAATCAATATCATATGGGTTAACGCTGACCAGCGGCGCACACTCGGTAAGGCCA -TAGCCTTCCAGCAGATACTGTCCGGTCAGTTTCACCCAACGCTCTGCCACCACTTGCTGCACTGGCATCCCACCG -CCTGCGGAAAGATGCAGACTGGAGAAATCCAGCTGCTGGAACTCTTTATTGTTCAGCAACGCATTGAACAAGGTG -TTAACGCCCGTGATAGCGGTAAACGGATATTTCGCTAACTCTTTTACCAACCCTGGAATATCGCGCGGGTTAGTG -ATAAGCAGGTTCTGCCCACCCAGTTCGATAAACAGCAGGCAGTTAATGGTCAGGGCAAAAATGTGATACAGCGGC -AGCGCCGTCACCACCAGCTCTTTGCCCGGATGCAACAGCGGACCATAGGTCGCGTTAACCTGTTCCAGGTTCGCC -AGCATATTGCGGTGAGTCAGCATCGCGCCTTTCGCCACACCAGTGGTGCCGCCGGTGTATTGCAGAAAAGCTAAA -TCTTCCGGCACCAGTTCGGGTTTGACGTACTGCATCCGGTAGCCGTTATGCAGTGCGCTACGAAATGAAATGGCA -TCTGGCAGATGGTATTTCGGCACCAAACGCTTGATGTATTTAACAACGAAATTGACTACCGTGCCTTTTGCCGTA -GATAGCTGATCGCCCATACGGGTCAGAATTACGTGCTGAACGGCGGTTTTATCAACCACTTTTTCCAGTGTGTGA -GCAAAGTTAGACACGATAACAATCGCCGATGCGCCGCTATCGTTAAGCTGATGCTCAAGCTCACGCGGGGTATAC -AACGGGTTAACGTTTACGACGATCATCCCGGCACGCAAAATGCCAAACAGCGCCACCGGATATTGCAATAAATTA -GGCATCATCAACGCAACGCGATCGCCTTTCTTCAGCCCCAACCCTTGTTGCAAATAAGCGGCAAACGCGCGACTG -CGTTCTTCCAGCTTGCGGAAGGTCATTACCTCCCCCATATTCACAAACGCAGGTTGATCGGCGTAGCGCGCGACC -GACTGCTCAAACATATCTACCAGAGATTGATAACGGTCAGGGTTGATCTCCGTCGGAACGTCCGCGGGATAACGG -TTAAGCCAAACCTTCTTCAATTCTTCACCTCTAAAATGCGTGTTCGTCGTCATCGCAACCCCAAATGATATACAT -GCCGTTAACATAATATTAACTCATCATACCAGCTTGATAATTACCCAACGAAAAGGTTGCGAAGCGCGTCACTAT -TTATTTTTATCTTTACCGTAAGAATGCAGAAACAGCGGACCAGCCGCTGTTTCTTTTTCTTTAAAAACAAGCAAT -TATTCAGTTACAACTGTTTGTACTCTCGCGGGGCCGGGATTATACCAGCCCCATCCGCCGTAGCCATAGGGCCAG -CCACGACCGCCATAAAACCATGGATCAATCGGCTGAGGCGGCATAATCACCTGCTGGGTTAAATGCCAACGTTTG -TAACCCGTTACTTGCATCACCATAAATTTATAGGGCGTATTGCCGATTTTGCCGTCAACCGCACCAGTGATTGGC -CCGACTACCGTAACCAGTTGTCCACGGAAATCCACCGGGTCCAGAAAACCGTTCACATCGGCATAAATGCGACCG -CGAGAAGGTTCTCCCAGCGTCGGTCTGGCTCCGCTGTCCAGCGGTACGGTAGCAATTTCCAGGCGAGTTTTCCCT -TGCTGGTTTTGTACCGCAACCACTTTGCCACCAAAGCGTGCCTCCTGACCAACGTACAGCTGCGGCGCACTCATC -ACCCGAACTAAATCTTGTTGCGGCGTGGGACTGCTGCCTTTAATGGCGTCCGGCACAGTGACACAACCGCTCAGC -ATTAGCGCAAACGTACCTGCCAGTATGCCTTTGATAACATTCTTTTGAACCGCCATGGTGCGACTCCTTTTTTTC -TCAGGGCATACTCTTAAGATTCATTCTTTGCCCGGAAGTTTCTTCCATGCGACGTTGTTACGTAAATAAACCGGT -TCGGCATGTTCCACCGCCACCGTTTTACCCTCAGCAAACATCTGACACGCAATCGGCAGCATATCTTCAGCAGCA -GGCAGTAACACTTCGCCATCGCGCAAAACCAGCCCGCTCTCTTTACCGAGATCCGGCCAAGCTTGCCAGCCCGTC -CCTACCGTCACCCATTCGCCGGAAAGCTGTTGCATTCGTTCATGGACGATTTCGGGTTTGAGTACGGCTTCGGTT -TCTTCACCGTGCCAGATACCGTTTTCATCACGCTGATATTCGGCCCAGTAAACTTCGCCCATTCGCGCGTCAATG -GCTGCCAGCACGCGGGTTGCGCCGTTTTTGCGCCACGCCCCTTGCGCCATCGTCATTAGCGTGGAGACGCCAATC -ATCGGTAATTCCGCGCCAAGCGCCAGCCCTTGCGCGATGCCAATACCAATGCGCACGCCAGTAAAGCTACCGGGG -CCGCGCCCGTAAGCCAGAGCGTTAATATCAGTCAGGGAAGTTCCGCTGGTGGTCAGGATATCCTGCACCATCGGT -AAGATTCGTTGAGTATGTTCACGAGGGCAAAGCTCAAAATGAGCGTTGACAGTACCGTCGTTCCACAGGGCGACA -GAGCAGGCCTCTGTCGCGGTATCGATAGCCAGAATTCGCATGGGTCTTCGTGCTTAGATCAATAAAAAGGCGCGC -ATCATACCATACTCCGTAACAAATTACCTGGAGGATGGTATCGCAAGGAAACGAACCGCACGGGCAATGTCACGG -GTGCGTGGCGCGGGCGGCAGACTGGCGAGAAACGTCGCGCCGTAAGGACGCATCACCAGCCGATTGTCACAAATC -ACCAGCACGCCACGATCGTCGGCGTCGCGAATCAGTCGCCCTACCCCCTGTTTGAGAGTAATGACGGCATCTGGT -AGTTGCACTTCATCGAACGGGTCGCCACCGCGCAAACGACAATCTTCCATGCGCGCTTTTAACAGTGGATCATCC -GGCGAGGTAAACGGCAATTTGTCGATAATTACCAATGACAATGTATCGCCACGCACGTCCACCCCTTCCCAGAAA -CTGCTGGTTGCCACAAGAAGCGCATTACCGGCGCTGACAAATTGCTGCAACAGTTGCCCTTTGCTGGTTTCCCCC -TGCAACAATACAGGAAGCGTCATGGTAGCGCGGAACTGCTCGGCCAGATCGCGCATCATGGCGTGCGAGGTACAA -AGCATAAAACAACGACCGTTGTTAGCTTCGATGATCGGTCGCAGCATTGCCGCTAACTGGCGAGCAGAACCTGGC -TGGTTGGTTTGCGGCAGATTGCGCAGCACACAGAGTAACGCCTGGCGGCTGTAATCAAATGGGCTGGGCAACAGC -AACGACTCGGCCTGTTCGATGCCAAGCCGCGAGGTGAAATGATGCAGATCGTCGTTCACCGACAGCGTTGCTGAG -GTGAAGATCCAGCTACCGGGTTTTTGCGCCATTAACTCTTTGAATTTATCCGCCACGCTGAGCGGCGTGAGAGCC -AGAGTAAAATGGCGCGAAGTGCATTCGTACCAGTAGCTGTAGCCCGGCTGATTGATCTCTTTTAGCCGCTTCAGC -CGTGTGCGATACAACGTGGCGCGCTCAAATGCCGCATCCAGCAAGGCGGAACGCCCCAGTGACAGTTTCGCCACG -TCATAACAAAGTTCCAGGGTGTCATCGAGCAGTAAAAATGCCCGCTGAATTTGCGGATTAGCTAACAGCTCACGC -AGGTTACCGCGATAACCTGGCTCACCGAGTTGCAGACGAAAATCCTGCGCACTCTGGGCAAGACGATCAGCGCAC -TTTTGTAACTGCTGGGTGTCTTTTAATTCGGTGCGGTAGGCGATGGTGATGTCTTTTGCCAGGTCGAGCAGTTGT -CGACTGGAGAGTGACTGACCAAAATACTGGCTGGCAATGTCCGGTAGCTGGTGGGCTTCGTCGAAGATCATGACG -TCCGCTTCCGGGATCAGTTCGCCAAATCCACTCTCTTTAACCACCATATCCGCCAGAAAGAGATGATGGTTTACC -ACCACCACATCGGCGTCCATCGCTTTTTTACGTGCTTTGACCACAAAGCAATCTTTATACATCGGGCAGTCGCTG -CCAAGACAGTTGTCGTTGGTGCTGGTGACCAGCGGCCACGCCTGTGAATCTTCCGCCACGCTGACGCAGGTGCTG -ATATCACCATCGACTGTTTGATTAGACCAGGAGCGCAGCAGGATCACATCGCTTAAGATTTGTACCGGCAGATCG -CCCCCCGCCAGCGCCTGCTGTTCGAGACGTTCGAGGCAGAGGTAGTTTGAGCGCCCTTTCAGCAGCGCCACGTTG -CCCGTATATTTCAATGCCTTTGAGACTGTTGGCAAATCGCGGCTGTAGAGCTGATCCTGCAACGCTTTTGAGCCG -GTCGAGATAATGACTTTCTTTTTCGCCCGCAGCGCAGGAGCCAGGTAAGCGTAGGTTTTGCCCGTACCGGTTCCT -GCTTCCACCACCAGCGGCTGGCCTTTTTCTATCGCCTGGGTGACGGCTACCGCCATCTGTCGCTGTGGTTCTCGC -GGCTTAAAGCCTGGTATCGCTTTCGCCAGCTGACCGTCTGGTGCAAAATCGTCCGTCACACTACCCCCTGTTGAT -TTGAACAGGGATTATGTCAGGATGAGGGCGCTTTCGCCAGTTGAAGTGGTGACGGCGACCTCACATTGTGGCAGT -CTTTGCAGCACGAAAATGGAAGTATAATGAGGACAAAATGATGACTATCGTTCGTATCGATGCTGAAGCCCGCTG -GTCTGATGTAGTAATCCACAACAACACGCTCTACTACACTGGTGTACCGGAAAACCTCGACGCCGATGCCTTTGA -GCAAACCGCCAACACGCTGGCACAGATTGACGCCGTGCTGGAAAAACAGGGCAGCAATAAATCGAGCATTCTGGA -TGCCACCATTTTCCTGGCCGATAAAAACGACTTCGCGGCGATGAATAAAGCGTGGGATGCTTGGGTTGTCGCGGG -TCATGCGCCGGTGCGCTGCACGGTACAAGCGGGTTTGATGAACCCGAAGTATAAAGTTGAAATTAAGATTGTGGC -TGCGGTGTAAGCTTTATCGAAGCAAAATAAGTCAGACGATAATTTATCGATAATACTGGTCGGTTTTACATAAAT -CGACCAGAGAATAAGATATTACTGTTGATGCTTCTGCTAATTCATTATTTATATTTATAATTTCAATTTTATCTA -TAAAACTAACTATATAAATAAACATAAACATGCCGTTGTGTTCGCCCTTTGATTAGCAACTCTGGTTTTCTTTCT -TAGCTGAACAATCTGGTTATAGCGTGCGGACTGACCGTTAAATTTCTCCATCTTACTGGATAACACACCATGAGC -TGCTACCTTTAAAACACCTGAATGTCAACAGGTTAACTCGTGCCATATCGTTATAATCCCTTTGATATTAGATGC -AAATTAAGGTCATATATAGCCTTATCGATAACATGGTTAATTTTAAGGATAAGAATATGCCTGCTGTAATAGATA -AAGCCCTGGATTTCATTGGTGCCATGGATGTATCAGCGCCAACACCAAGTTCGATGAATGAAAGCACGGCGAAGG -GAATCTTTAAATATTTAAAAGAACTGGGAGTACCCGCGAGTGCCGCTGATATTACGGCGCGAGCTGACCAGGAAG -GCTGGAACCCTGGGTTCACGGAAAAAATGGTTGGATGGGCAAAAAAAATGGAGACAGGTGAACGTTCTGTGATTA -AAAATCCTGAATACTTTTCAACATATATGCAGGAAGAACTAAAAGCACTGGTCTGAGTTAAATTTATATCAGCAT -AAATGGGTCAGGACGCTTTTAATCACATATAAAAAGCGTCCTTTTTCTCACAATCAAATGATCATCGGCTTCTAT -AACGAAATCGATACGGATTAGTGTGTTACTCGTCTTCATCCTCAAAACGCGCCACGATTCGCTCGCCGGAGTGGT -TGGCACGCAGCTCTTCTGCCACCAGCGCGATTGCCTGGCCGCTGCTCATCCCTTGTGCCATCAGTTCCTGGATCC -GCTCGACAGCTTTTTGCTGCTGTTCATGGGTGAGTGAAGGTAAACCTGCAAACATTGTTAACTCCTGCTAAATTG -TTGGCGCTAATTATTTCATGCTACCCGGCACATAGCCAGTAGAGTCAGGACTGATGAAGACGTTATCTCCCGCTG -TGATTACTTTACTCTGGCGTCAGGACGCCGCTGAATTTTATTTCTCCCGCTTAAGCCACCTGCCGTGGGCGATGC -TTTTACACTCCGGCTATGCCGATCATCCGTATAGCCGCTTTGATATTGTGGTCGCCGAGCCGATTTGCACTTTAA -CCACTTTCGGTAAAGAAACCGTTGTTAGTGAAAGCGAAAAACGCACAACGACCACTGATGACCCGCTACAGGTGC -TCCAGCAGGTGCTGGATCGCGCAGACATTCGCCCAACGCATAACGAAGATTTGCCATTTCAGGGCGGCGCACTGG -GGTTGTTTGGCTACGATCTGGGCCGCCGTTTTGAGTCACTGCCAGAAATTGCGGAACAAGATATCGTTCTGCCGG -ATATGGCAGTGGGTATCTACGATTGGGCGCTCATTGTCGACCACCAGCGTCATACAGTTTCTTTGCTGAGTCATA -ATGATGTCAATGCCCGTCGGGCCTGGCTGGAAAGCCAGCAATTCTCGCCGCAGGAAGATTTCACGCTCACTTCCG -ACTGGCAATCCAATATGACCCGCGAGCAGTACGGCGAAAAATTTCGCCAGGTACAGGAATATCTGCACAGCGGTG -ATTGCTATCAGGTGAATCTCGCCCAACGTTTTCATGCGACCTATTCTGGCGATGAATGGCAGGCATTCCTTCAGC -TTAATCAGGCCAACCGCGCGCCATTTAGCGCTTTTTTACGTCTTGAACAGGGTGCAATTTTAAGCCTTTCGCCAG -AGCGGTTTATTCTTTGTGATAATAGTGAAATCCAGACCCGCCCGATTAAAGGCACGCTACCACGCCTGCCCGATC -CTCAGGAAGATAGCAAACAAGCAGTAAAACTGGCGAACTCAGCGAAAGATCGTGCCGAAAATCTGATGATTGTCG -ATTTAATGCGTAATGATATCGGTCGTGTTGCCGTAGCAGGTTCGGTAAAAGTACCAGAGCTGTTCGTGGTGGAAC -CCTTCCCTGCCGTGCATCATCTGGTCAGCACCATAACGGCGCAACTACCAGAACAGTTACACGCCAGCGATCTGC -TGCGCGCAGCTTTTCCTGGTGGCTCAATAACCGGGGCTCCGAAAGTACGGGCTATGGAAATTATCGACGAACTGG -AACCGCAGCGACGCAATGCCTGGTGCGGCAGCATTGGCTATTTGAGCTTTTGCGGCAACATGGATACCAGTATTA -CTATCCGCACGCTGACTGCCATTAACGGACAAATTTTCTGCTCTGCGGGCGGTGGAATTGTCGCCGATAGCCAGG -AAGAAGCGGAATATCAGGAAACTTTTGATAAAGTTAATCGTATCCTGAAGCAACTGGAGAAGTAAGACGTGGAAT -ACCGTAGCCTGACGCTTGATGATTTTTTATCGCGCTTTCAACTTTTGCGCCCGCAAATTAACCGGGAAACCCTAA -ATCATCGTCAGGCTGCTGTGTTAATCCCCATCGTCCGTCGACCGCAACCGGGGTTGTTGCTGACTCAGCGTTCGA -TTCATCTGCGTAAACACGCTGGACAAGTGGCATTCCCTGGAGGTGCAGTCGATGACACGGACGCATCAGCTATCG -CCGCCGCGCTGCGCGAAGCTGAAGAAGAGGTCGCTATACCGCCTTCCGCCGTTGAAGTTATCGGCGTGCTGCCGC -CCGTCGATAGCGTCACTGGCTACCAGGTAACCCCAGTGGTCGGCATTATCCCGCCCGATCTGCCGTATCGCGCCA -GTGAAGATGAAGTCTCGGCGGTGTTTGAAATGCCGCTCGCCCAGGCATTACATCTGGGTCGTTATCACCCTTTAG -ATATCTACCGCCGTGGTGATTCACATCGGGTATGGCTGTCCTGGTACGAACAGTATTTTGTATGGGGAATGACCG -CAGGCATAATTCGTGAGCTGGCGCTGCAAATTGGTGTGAAACCCTGACTATACTTATCTTTACATCTACAAAACA -CTACTTGAGACAATCATCGCAATATTAGTTAAATCGCGGTTTTTGATTAGTTTAATTCATGTGAATAGTTAAGCC -AGTCGCCGCGTTCCCTCTTACACTATGCGCTGTTATTAGTTCGTTACTGGAAGTCCAGTCACCTTGTCAGGAGTA -TTATCGTGATTAGTCTATTCGACATGTTTAAGGTGGGGATTGGTCCCTCATCTTCCCATACCGTAGGGCCTATGA -AGGCAGGTAAACAGTTCGTCGATGATCTGGTCGAAAAAGGCTTACTGGATAGCGTTACTCGCGTTGCCGTGGACG -TTTATGGTTCACTGTCGCTGACGGGTAAAGGCCACCACACCGATATCGCCATTATTATGGGTCTTGCAGGTAACG -AACCTGCCACCGTGGATATCGACAGTATTCCCGGTTTTATTCGCGACGTAGAAGAGCGCGAACGTCTGCTGCTGG -CACAGGGACGGCATGAAGTGGATTTCCCGCGCGACAACGGGATGCGTTTTCATAACGGCAACCTGCCGCTGCATG -AAAACGGTATGCAAATCCACGCCTATAACGGCGATGAAGTCGTCTACAGCAAAACTTATTATTCCATCGGCGGCG -GTTTTATCGTCGATGAAGAACACTTTGGTCAGGATGCTGCCAACGAAGTAAGCGTGCCGTATCCGTTCAAATCTG -CCACCGAACTGCTCGCGTACTGTAATGAAACCGGCTATTCGCTGTCTGGTCTCGCTATGCAGAACGAACTGGCGC -TGCACAGCAAGAAAGAGATCGACGAGTATTTCGCGCATGTCTGGCAAACCATGCAGGCATGTATCGATCGCGGGA -TGAACACCGAAGGTGTACTGCCAGGCCCGCTGCGCGTGCCACGTCGTGCGTCTGCCCTGCGCCGGATGCTGGTTT -CCAGCGATAAACTGTCTAACGATCCGATGAATGTCATTGACTGGGTAAACATGTTTGCGCTGGCAGTTAACGAAG -AAAACGCCGCCGGTGGTCGTGTGGTAACTGCGCCAACCAACGGTGCCTGCGGTATCGTTCCGGCAGTGCTGGCTT -ACTATGACCACTTTATTGAATCGGTCAGCCCGGACATCTATACCCGTTACTTTATGGCAGCGGGCGCGATTGGTG -CATTGTATAAAATGAACGCCTCTATTTCCGGTGCGGAAGTTGGTTGCCAGGGCGAAGTGGGTGTTGCCTGTTCAA -TGGCTGCTGCGGGTCTTGCAGAACTGCTGGGCGGTAGCCCGGAACAGGTTTGCGTGGCGGCGGAAATTGGCATGG -AACACAACCTTGGTTTAACCTGCGACCCGGTTGCAGGGCAGGTTCAGGTGCCGTGCATTGAGCGTAATGCCATTG -CCTCTGTGAAGGCGATTAACGCCGCGCGGATGGCTCTGCGCCGCACCAGTGCACCGCGCGTCTCGCTGGATAAGG -TCATCGAAACGATGTACGAAACCGGTAAGGACATGAACGCCAAATACCGCGAAACCTCACGCGGTGGTCTGGCAA -TCAAAGTCCAGTGTGACTAATACTTCTTACTCGCCCATCTGCAACGGATGGGCGAATTTATACCCGCTTTCTCGT -CTGCTGTAATATTCCCCACTACACTTCCACTGTTGCGTCAGGCGTTTGTCGCCATACGCTTACAGGGTGGCCCGC -ATGCAAAAAGCACAACGGATCATTAAAACCTATCGTCGTAATCGAATGATTGTTTGTACGATTTGCGCACTCGTT -ACGCTCGCTTCGACCCTGAGCGTGCGATTTATTTCACAGCGTAACTTAAATCAACAACGGGTAGTACAATTCGCC -AATCACGCTGTAGAGGAATTAGATAAAGTACTGCTTCCCCTACAGGCAGGTAGCGAAGTCTTGCTTCCGCTGATT -GGTCTGCCCTGCTCTGTCGCCCATTTGCCATTACGTAAACAGGCGGCAAAACTCCAAACTGTGCGATCCATTGGC -CTGGTGCAAGACGGCACACTTTATTGCTCCAGCATTTTTGGTTATCGCAATGTGCCCGTCGTGGACATTCTGGCT -GAACTTCCTGCACCGCAACCACTTTTACGCCTGACGATCGACCGTGCCCTGATTAAAGGCAGTCCGGTTTTGATT -CAATGGACGCCTGCAGCGGGCAGTAGCAATGCTGGGGTCATGGAGATGATTAACATCGACTTACTGACGGCAATG -CTGCTTGAGCCACAACTGCCGCAAATCAGTAGCGCCAGCCTGACGGTGGACAAACGGCATTTGCTCTATGGTAAT -GGGCTGGTAGATTCCCTTCCGCAACCTGAAGACAATGAAAACTATCAGGTTTCTTCGCAACGCTTTCCTTTTACC -ATTAACGTTAATGGTCCGGGGGCTACGGCGCTGGCATGGCACTATCTTCCAACACAATTACCGCTGGCGGTGCTG -CTAAGTTTACTGGTGGGCTACATCGCCTGGCTGGCGACCGCTTACCGAATGAGCTTTTCCCGCGAAATCAATCTG -GGCCTGGCGCAACATGAGTTCGAATTGTTCTGTCAGCCTTTGCTTAATGCGCGCAGCCAGCAATGTATTGGTGTA -GAGATTTTGCTGCGCTGGAACAATCCGCGTCAGGGCTGGATTTCACCGGATGTGTTTATTCCTATCGCGGAAGAA -CATCATTTAATTGTGCCACTGACCCGCTATGTGATGGCAGAAACCATTCGTCAGCGCCATGTTTTCCCGATGAGT -AGTCAGTTTCATGTTGGCATTAACGTCGCACCCAGCCATTTTCGCCGTGGTGTGCTGATAAAAGATCTCAATCAG -TACTGGTTTAGCGCTCACCCGATTCAGCAACTGATCCTCGAAATCACCGAACGCGATGCCTTACTGGATGTTGAT -TATCGGATTGCCCGCGAGCTGCATCGTAAAAACGTCAAACTGGCGATTGATGACTTCGGCACCGGCAACAGCTCG -TTTTCCTGGCTTGAAACATTACGTCCTGACGTGCTGAAAATTGATAAGTCATTTACCGCAGCTATAGGTTCTGAC -GCGGTTAACTCGACGGTGACCGATATCATCATCGCGCTGGGGCAAAGACTGAATATTGAACTGGTGGCGGAGGGC -GTGGAAACGCAAGAACAGGCGAAGTATTTGCGCCGTCATGGCGTGCATATTTTGCAAGGGTATTTGTACGCACAG -CCGATGCCGCTACGTGATTTTCCCAAATGGCTGGCGGGCAGCCAACCGCCGCCCGCCCGGCATAATGGACATATC -ACGCCCATTATGCCGTTACGTTAACGCTTACTCATCTTCATCGTGCGCCGGTTGCTCTTTAACAATGCGAACCAG -ATCAACACGATAATCATTGGCTTCAATGATGGTGATATGCAGTGGCCCTACATCAATCACATCGCCCACACGGGG -AATGTGACCATTTGCCGAGATCACGAGGCCCGCGACCGTCGCGATATCATCGTCATCGGCAAGGTGCTCAACATC -AAGCGCCTGCTGCAAGGCATGCAAATCTGTACCGCCTTTTACCAGCCAGCCGTCACCATCAGTAATGATTTCCGG -CGTTTCGTCAGCGTCCGGGAATTCACCCGCAATGGCTTCCAGCACATCCAGCGGCGTGACCAGACCTTGTACCAC -ACCAAACTCGTTGGTCACGATAACAAAGCTCCCGCGAGCACGACGCAGCACGCCCAACAGGTTGATCGGATCGAG -GGTTTCCGGGACGATAATCGCCGGAGACGCCGAAGCAATCGCCGCCACATCAACGCCCTCTTCCAGCGCCACCAG -CAGTTCTTTAGCACGTACAATACCGATGATTTCATCCAGTTCACCGCGACATACCGGGAACAGACTGTGCGGTGA -AGAGAGCAGTTGCTCGCGGATTTCATCGACCCCGAGATTAGCGTCAACCCAGCTTATTTCACCGCGCGGCGTCAT -GATCCCGCGCAGAGAACGCGACGCCAGCGTCAGTACGCCGTTAATCATGTAACGTTCTTCTTCGGCAAATGCACC -TTCCGGGATCGGCATCGGCATCGGGTTATCGGCATCGTGCTGAACATTGGCCTGACGTTTCCCGCCCATCAAACG -CAGGATGGCATCGGCAGTACGCGCTCGCAGCGGCAAAGTCGACTGGTGGCGAATAAAGTTGCGACGCGCAATCTG -GTTAAACACTTCGATGATGATCGAGAAGCCAATCGCGGCATACAGGTAACCTTTCGGAATGTGGAAACCGAAACC -TTCTGCCACCAGACTCAGACCAATCATTAACAGGAAGCTCAGACAGAGCACCACCACCGTGGGGTGCTGGTTAAC -GAATCGCGTCAGCGGTTTGGATGCCAGCAACATAACCGCCATCGCAATCACTACCGCCGCCATCATCACCGGCAG -ATGGTTAACCATCCCTACTGCAGTAATTACCGCATCCAACGAGAAGACGGCGTCAAGGATGACAATCTGTGTGAC -GACCACCCAGAAACTGGCGTAGCCTTTACCGTGGCCGGAATCATGATCGCGGTTTTCCAGCCGTTCATGCAGTTC -GGTTGTTGCTTTGAACAGCAAGAATATCCCCCCGAACAACATAATCAGGTCGCGTCCGGAGAAGGAGAAATCCAT -GACGGTAAATAGCGGTTTGGTCAGCGTGACCATCCATGAAATCAGCGACAGCAGCCCCAGACGCATAATCAGCGC -CAGTGATAACCCCAGCAAACGCGCTTTATCGCGTTGTTTTGGCGGCAGTTTGTCAGCAAGAATGGCGATGAAGAC -CAGGTTATCGATACCCAGCACAATTTCGAGAACAACAAGCGTGAGTAGCCCCGCCCAAATTGAGGGGTCCATTAA -GAATTCCATGACAAGCTCCTGCTTAAGGAATAGCTATTCGACGCCAGAAATAATGCAGGCGTAACGACAAAATGC -AAACGAAAGGTGCGGCATAGAGTGCCAGAAAGGCAGGCGTTAAAAGGCCTGATGCTGAAATGACGTCGGTGACGA -TCCATACTGCGGGCTACTGCCCTATACTCCATGGTTGTTAAACGGGAGTTAAACATATCAGAGACGCCTCTGATT -TGGCAAAGATTTACCTTCCTTTGCAAACGAATGTGACAAGGATATTTTACCTTTCGAAATTTCTGCTAATCGAAA -GTTAAATTACGGATCTTCATCACATAAAATAATTTTTTCGATATCTAAAATAAATCGCGAAACGCAGGGGTTTTT -GGTTGTAGCCCTTATCTGAATCGATTCGATTGTGGACGACGATTCAAAAATACATCTGGCACGTTGAGGTGTTAA -CGATAATAAAGGAGGTAGCAAGTGACCATTGCTATTGTTATAGGCACACATGGTTGGGCTGCAGAGCAGTTGCTT -AAAACGGCAGAAATGCTGTTAGGCGAGCAGGAAAACGTCGGCTGGATCGATTTCGTTCCAGGTGAAAATGCCGAA -ACGCTGATTGAAAAGTACAACGCTCAGTTGGCAAAACTCGACACCACTAAAGGCGTGCTGTTTCTCGTTGATACA -TGGGGAGGCAGCCCGTTCAATGCTGCCAGCCGCATTGTCGTCGACAAAGAGCATTATGAAGTCATTGCAGGCGTT -AACATTCCAATGCTCGTGGAAACGTTAATGGCCCGTGATGATGACCCAAGCTTTGATGAACTGGTGGCACTGGCA -GTAGAAACAGGCCGTGAAGGCGTGAAAGCACTGAAAGCCAAACCGGTTGAAAAAGCCGCGCCAGCACCCGCTGCC -GCAGCACCAAAAGCGGCTCCAACTCCGGCAAAACCAATGGGGCCAAACGACTACATGGTTATTGGCCTTGCGCGT -ATCGACGACCGTCTGATTCACGGTCAGGTCGCCACCCGCTGGACCAAAGAAACCAATGTCTCCCGTATTATTGTT -GTTAGTGATGAAGTGGCTGCGGATACCGTTCGTAAGACACTGCTCACCCAGGTTGCACCTCCGGGCGTAACAGCA -CACGTAGTTGATGTTGCCAAAATGATTCGCGTCTACAACAACCCGAAATATGCTGGCGAACGCGTAATGCTGTTA -TTTACCAACCCAACAGATGTAGAGCGTCTCGTTGAAGGCGGCGTGAAAATCACCTCTGTTAACGTCGGTGGTATG -GCATTCCGTCAGGGTAAAACCCAGGTGAATAACGCGGTTTCGGTTGATGAAAAAGATATCGAGGCGTTCAAGAAA -CTGAATGCGCGCGGTATTGAGCTGGAAGTCCGTAAGGTTTCCACCGATCCGAAACTGAAAATGATGGATCTGATC -AGCAAAATCGATAAGTAACGTATTGTGTTGATTATCACTCAGTTTTCACACTTAAGTCTTACGTAAACAGGAGAA -GTACAATGGAGATTACCACTCTTCAAATTGTGCTGGTATTTATCGTAGCCTGTATCGCAGGTATGGGATCAATCC -TCGATGAATTTCAGTTTCACCGTCCGCTAATCGCGTGTACCCTGGTGGGTATCGTTCTTGGGGATATGAAAACCG -GTATTATTATCGGTGGTACGCTGGAAATGATCGCGCTGGGCTGGATGAACATCGGTGCTGCAGTTGCGCCTGACG -CCGCTCTGGCTTCTATCATTTCTACCATTCTGGTTATCGCAGGTCATCAGAGCATTGGTGCAGGTATCGCACTGG -CAATCCCTCTGGCCGCTGCGGGCCAGGTACTGACCATCATCGTTCGTACTATTACCGTTGCTTTCCAGCACGCTG -CGGATAAGGCTGCTGATAACGGCAACCTGACAGCGATTTCCTGGATCCACGTTTCTTCTCTGTTCCTGCAAGCAA -TGCGTGTGGCTATTCCGGCCGTCATCGTTGCGCTGTCTGTTGGTACCAGCGAAGTACAGAACATGCTGAATGCGA -TTCCGGAAGTGGTGACCAATGGTCTGAATATCGCCGGTGGCATGATCGTGGTGGTTGGTTATGCGATGGTTATCA -ACATGATGCGTGCTGGCTACCTGATGCCGTTCTTCTACCTCGGCTTCGTAACCGCAGCATTCACCAACTTTAACC -TGGTTGCTCTGGGTGTGATTGGTACTGTTATGGCAGTGCTCTACATCCAACTTAGCCCGAAATACAACCGCGTAG -CCGGTGCGCCTGCTCAGGCAGCTGGTAACAACGATCTCGATAACGAACTGGACTAACAGGTGAGCGAAATGGTTG -ATACAACTCAAACTACCACCGAGAAAAAACTCACTCAAAGTGATATTCGTGGCGTCTTCCTGCGTTCTAACCTCT -TCCAGGGTTCATGGAACTTCGAACGTATGCAGGCACTGGGTTTCTGCTTCTCTATGGTACCGGCAATTCGTCGCC -TCTACCCTGAGAACAACGAAGCTCGTAAACAAGCTATTCGCCGTCACCTGGAGTTCTTTAACACCCAGCCGTTCG -TGGCTGCGCCGATTCTCGGCGTAACCCTGGCGCTGGAAGAACAGCGTGCTAATGGCGCAGAGATCGACGACGGTG -CTATCAACGGTATCAAAGTCGGTTTGATGGGGCCACTGGCTGGTGTAGGCGACCCGATCTTCTGGGGAACCGTAC -GTCCGGTATTTGCAGCACTGGGTGCCGGTATCGCGATGAGCGGCAGCCTGTTAGGTCCGCTGCTGTTCTTCATCC -TGTTTAACCTGGTGCGTCTGGCAACCCGTTACTACGGCGTAGCGTATGGTTACTCCAAAGGTATCGATATCGTTA -AAGATATGGGTGGTGGCTTCCTGCAAAAACTGACGGAAGGGGCGTCTATCCTCGGCCTGTTTGTCATGGGGGCAT -TGGTTAACAAGTGGACACATGTCAACATCCCGCTGGTTGTCTCTCGCATTACTGACCAGACGGGCAAAGAACACG -TTACTACTGTCCAGACTATTCTGGACCAGTTAATGCCAGGCCTGGTACCACTGCTGCTGACCTTTGCTTGTATGT -GGCTACTGCGCAAAAAAGTTAACCCGCTGTGGATCATCGTTGGCTTCTTCGTCATCGGTATCGCTGGTTACGCTT -GCGGCCTGCTGGGACTGTAAGACTGTTGTACACTACCGGGGCCTTTTGGCCCCGTTTTTTTATCTGGAGGATTAA -TGACAATCACGGACCTGGTACTGATTCTTTTCATCGCCGCACTCCTGGCCTTCGCGATCTACGATCAGTTCATCA -TGCCCCGCCGTAACGGCCCCACCCTGCTGGCAATTCCTTTGCTCCGGCGTGGTCGCATCGATAGCGTTATCTTCG -TCGGATTGATTGTCATTCTTATCTATAACAACGTCACGAATCATGGTGCGTTAATAACGACATGGTTATTAAGCG -CACTGGCTCTGATGGGTTTTTATATATTCTGGATCCGCGTTCCGAAGATCATCTTTAAACAAAAAGGTTTTTTCT -TCGCCAATGTCTGGATTGAATATAGCCGAATCAAAGCGATGAACTTGTCGGAAGATGGCGTGTTGGTGATGCAAT -TAGAACAGCGTCGGCTGTTAATCCGCGTTCGAAATATCGACGATCTGGAAAAAATTTATAAGCTTCTCGTTTCAA -CTCAATAAGTTATGAATTTAGCCAAAGCTATGTTTAGTGTATTTTTAATAATCAGACATAGCTTAGGCTATATTA -CCTCTTCCCTTATTTGTTATTTATTTTAACGTTTCATTGATATATAAATCCAAATGAAAATCGTTATCAATAAAG -CAATGAAATAATATATTCCAACAGTTGTTTTATATTCTCAAAATATGTTAAGGTTGCGCCCTCATTTGGGGAGTA -GCCGATTTCCAGATTCCGGAAATGTACGTGTCAACATACTCGTTGCAAAACGTGGCACGTACGGACTGAATACTT -TCAGTCAGGCGAGACCATATGCACATCAATCGCTATGCCTGCATGAACGCGAAAACCATCACGGCTTGTTGTTCA -TGTATGCATGTTTGCTGGGGGCGATGATGTGTTTTATGGATACCCCGGTCAGGACATTGTCATGAATATCACTGC -TACTGTTCTTCTTGCGTTTGGTATGTCGATGGATGCATTTGCTGCATCAATCGGTAAAGGTGCCACCCTCCATAA -ACCGAAATTTTCTGAAGCATTGCGAACCGGCCTTATTTTTGGTGCCGTCGAAACCCTGACGCCGCTGATCGGCTG -GGGAATGGGCATGTTAGCCAGCCGGTTTGTCCTTGAATGGAACCACTGGATTGCGTTTGTGCTGCTGATATTCCT -CGGCGGGCGAATGATTATTGAGGGTTTTCGTGGCGCAGATGATGAAGATGAAGAGCCGCGCCGTCGACACGGTTT -CTGGCTACTGGTAACCACCGCGATTGCCACCAGCCTGGATGCCATGGCTGTGGGTGTTGGTCTTGCTTTCCTGCA -GGTCAACATTATCGCGACCGCATTGGCCATTGGTTGTGCAACCTTGATTATGTCAACATTAGGGATGATGGTTGG -TCGCTTTATCGGCTCAATTATTGGGAAAAAAGCGGAAATTCTCGGCGGGCTGGTGCTGATCGGCATCGGCGTCCA -GATCCTCTGGACGCACTTCCACGGTTAATAAGAACGCTGCCAGAGGTGAATATTAAAGTCCGTCTGGCAGTCGAA -CACTTCTTTTGCTGCCAGTGTTTGCCAGACTTCTGGCTTCGCACGCCAGGCAAACGGCGTCATCTGCAATAATGC -GACGGCTTCATCACCGCGAAGACGCATCGGATAACACAACTCCGCACTCTGCTGTAATGTAAAACCTTCCAGTTG -TTCTGCATGAGGTGCATGAAGATGTACTTCATTGTAAATCAGCCCCTTCAGCTCCATCAAATGTCGCGGTCCCGG -CGTGGCAGTAATGACCCAGCCGCCGGGCTTCACTACTCGTGCTAATTCTTCTGCTTTACACGGCGCGTAAATACG -TATTATGGCGTCCATACTGGTATCGGAAAACGGCAAACGGTGGCTGGAAGCGACACAAAAAGTGACCTGCGGATA -GCGTTTCGCCGCCGCTTTTATCGCTACCTTCGAAACATCCAGACCAAACGTGGTGATTTCGGGCAACGCATCGGC -AAATGCGTGTGTGTAATACCCTTCACCACAGCCAATATCCAGCACCGCCGTGGCCTTATCATCAAGCCGTTCCCT -CAGTTGGGCGACAATTGCATCACGCAGCGGCTGATAATGTCCGGCATCTAAGAATGCGCGGCGTGCTTGCATCAT -TTCCGCGCTGTCGCCCGGATCACGAGACCGTTTATGCTGAACGGGCAGCAGATTGACATACCCTTCTTTCGCCAT -ATCAAACTGATGTCGCTGGGGACAGATATAGCTGTTTTTTTCACGCGAAAGAGGCTGATGGCAAAGTGGACAGGA -AAAAGACATGACAACTCCGGCAGGATACTAAAGGCCGCAAGTGTAACGCGAATCACGCGGCGGGCAAATATCCGA -ACGCCAGGAGCGAAGATAAAGCATAGTAAAAAGCCTCGCATTCGACGAGGCTTTATAGCGAGATTGAAGCGTATT -CACACTTCAGATCAGTGGATTCGATCAGATAGCTGTTACGTTAACAGCTGCCGGACCTTTCTGGCCGTCCTGAAT -TTCGAACTCAACGTTCTGACCTTCAGCCAGAGTTTTGAAGCCATTACCCTGGATAGCGGAGAAGTGTACGAACAC -ATCTTTGCTGCCATCAGCCGGAGTAATGAAGCCAAAACCTTTAGACTCGTTGAACCACTTAACCTGACCTTTAAT -CTTTGCCATTTGAAAAATTCCTTAGATTGTTTTCTTCGCCCGCAGGCATAACATAGATAAAACTGACACATTACT -GCATGAGGCACCAATATAAGGCTCGGCAGAGAAGCGGTATTCAACGTCAACGTGTTTACTCAGGACTTCTTTACT -GAAAATGCCACACATAAACAGAACTGTACCTCGTTTAACCCGAAATCTGTTATCACATACAACGTTAATTATGGC -AAGCCATTTTTAAACATGTCTCGATCAGACGCACAAATCTCGATACGTCTTCCACTTTTTTTGCACACTTATGCA -ACGGAATACGCGCCGATATATCATTGTGCTTAACCTTGCCAGTTCAGGCAGATACTTAAACTGGCGTATTTTCTA -ACATAGTTCAATAAGTTCAGTTGTTCCAGGCCAGTGGGAGAAGTTATTACATAGTGCGTGCAATATCACATTTTT -TGCTATGCAATGAATAAAAAGTTATATCACTTTTTCTCATAAAACAGTCAGTTAACGGCTATTAATTACCCTAAA -GAGAAGTCAATCCCCAAAGGGATTGTAAATTTAAAATAAGAAAAATTGATGAATGAGCAAAAAAATCAAGAGAGA -AACGTTTCGCTAATAAATAATACCACGCTTAATCACAAATCCGATGTAAACATCCTAATAAATTAATGGGGTAAA -TATCTTTTTCTGATATCCCGTTACGCAAATAAATAATATGATAATTATTTGAAGTCAGACCAGAGTTTTAATTTG -AAGCAGTTGCACCATGACAGTGCGTATAATCAGGATGAATTGAGTAACCCTTCAACGACGGGGTTACTCAAGATT -GAGGAAGGATTATCGTTCGGCGACCAGACGAATAATATCTTCGTCTTCAACCGATTTTTGACTCTCAACGGTCTT -TTTATCTGCTTTCTCTGGTTCGTTTGCTTCGCACAAACGACGTAACAGTGCATTTTGACGTTTTTGCTGATCCAG -CAACGCCTCAAGCAGTTCAATCTGTTCGTTAGTCCGTGAACTGGCACGATTGATAAAAAACCACAAGATGAGCCC -GATAAGAAGAACCACCACCGATACAACCAAAGACGCAATGTTCATCACGCCTGAATTTACAACTTCGTTCATTTC -ACCACCTCTGAGTAGAGGCGCTATTCTACCACTGCTGGAGAGGAAGAAAATCTAGTGCTGAAAAAATGATATCAC -CACGGGATAAACTGGTTAATGGCACAAATTCCGCTGAAAAATTGTACATCCTGATCGCACATCATGTTGAATACC -TGCGCCCAAAGCAGCAAGCAAGCCAACACCACGACAACCAGAACGACCCATCGAAACTTTTTCACTCCAATCTCC -GTTTCACCTACCTTATGTCATTAAACTAGCATGCGTTAGTTAAACAGCGCCTAACTATGTCGATATTCGTGCTTT -TTCGGAATGAGTCGCTTGCTTCAGCGCATATTGCCGCTACGATTAAGCGAACATAAAAAGAGAAGAGGTTGTAAT -GCGATTCATCATTCGCACAGTTATGCTGATAGCACTGGTATGGATAGGATTATTACTCAGCGGATATGGCGTTTT -GATTGGAAGCAAAGAGAATGCCGCAGGATTAGGTTTGCAATGTACCTATCTGACTGCCAGAGGCACCAGCACGGT -ACAATACTTGCACACTAAAAGTGGTTTTTTGGGGATAACAGATTGCCCGCTGTTACGCAAAAGCAATATCGTGGT -CGATAATGGTTAAGGGCAATAAATAACCAGATTCTCACTCCTGAGTAAAATACTCTTATAGCAAGCGCGTTTAAT -ATAACGCCACCTTCAACTTTATTTTTCTCATGCTAAATAAAGAACCTGTCTGTTTGATATTCCGACAGGTTCTTA -CTCTCATCAGAACGGATAGTCGTGATAACCCATTTGGGCAGAAATTTTGCGCGCTGCGGTATGCAACATTGCGAC -ATATTCCTGTAAACGCTCTTCAGAGAAACGCAACGTCGGGAAGGAGATGCTCAAACCGGCAATGACCACGCCAAA -GCGATCAAATACCGGTACCGCAATGCATCGCAGCCCTTCTTCCTGCTCTTCATTATCTTCGCCATACCCCTGCTC -GCGCACCTGGTCCAGAACGGGTAATAACGCTTCTGTACTGGTGATGGTCCGCTCGGTACTGCGTTTATACTCCAC -GCCCTCAAGAATTTGCTTCACTTCATCGCGATCGCGCCATGCCAGCAGTACCTTACCAATCGCGGTGCTGTACAG -CGGATTACGACGCCCAATCCGTGAATACATGCGCAAATTGTACATAGAGTCAATTTTGTGAATGTAAACAATACT -GTCTTCGTCCAGTGCGCCGAGGTGGATAGTTTCTTTGGTCAGGCGGGAGAGCTCACGCATCTGGATATCTGCGCT -ACGAATTAAATCGACGTTTTGTAACGCGCGAGCGCCCAGTTCAAACAATTTCAGGGTCAGGGAATATTTCTCCGA -CTCCCCTTCCTGCGCCACATAACCTAAGGTTTTCATGGTCTGTAAAAAGCGATAAACGGTGCTTTTTGACATCAT -GACGCGCTGCGACAGCTCGGTTATCCCTATTTCGCGCTCTTCACCCAGCGCCTGCAAAATGCCAAAAACTTTTAG -CACGGAAGATACAGAATCAGGCTGTTTATCCAGATCTGCGTTAGCCATTTATCACCTCATTGCGAGTGTTTTATA -AAAATCAGAACTGTTTTTTATTATAATTTCGCACCAGGGTGGTCGCAATCCATCTTTTGCCGGTTAGTTACAATT -CTGCGACATCCACCGTGAATATCAGTGCTAGAATCATACCCCTGTTGATTATTCACCAAAGATATAAAATTCCTA -TGCCAAAAGTTCAGGCCGACGGCCTGCCATTGCCCCAGCGATACGGTGCGATATTAACCATTGTGATTGGTATTT -CGATGGCCGTCCTTGACGGCGCAATCGCCAACGTCGCCCTGCCAACAATCGCCACGGACCTTCATGCCACGCCAG -CCAGTTCCATCTGGGTAGTGAACGCCTATCAAATCGCCATTGTCATCTCCCTGCTCTCGTTTTCGTTTCTGGGCG -ATATGTTTGGCTATCGACGTATTTATAAATGCGGTCTGGTCGTTTTTCTGTTGTCTTCACTGTTCTGCGCCCTTT -CTGATTCGCTGCAAATGCTCACCCTTGCGCGTGTCATACAAGGTTTCGGCGGTGCAGCGTTGATGAGCGTTAATA -CCGCACTTATCCGCCTGATCTATCCACAACGTTTTCTGGGTAGAGGGATGGGCATAAACTCGTTTATTGTTGCCG -TCTCTTCTGCTGCCGGGCCGACAATTGCTGCAGCAATCCTCTCCATCGCATCCTGGAAATGGTTATTTTTAATCA -ACGTACCGTTAGGTATTATCGCCCTGCTTCTGGCGATGCGTTTTCTGCCACCCAATGGTTCTCGCGCCAGTAAAC -CCCGTTTCGACCTGCCCAGCGCCGTGATGAACGCGTTAACCTTCGGCCTGCTTATCACTGCGTTGAGTGGTTTCG -CTCAGGGGCAATCGCTGACGTTAATTGCTGCGGAACTGGTGGTAATGGTTGTTGTTGGTATTTTCTTTATTCGCC -GCCAGCTTTCTCTTCCCGTACCGCTGCTACCGGTGGATTTACTGCGTATCCCGCTGTTTTCACTTTCTATTTGCA -CATCTGTTTGCTCTTTCTGCGCACAAATGCTGGCAATGGTTTCCCTGCCCTTTTACCTGCAAACCGTGCTCGGGC -GTAGTGAAGTCGAAACAGGTTTACTTCTGACACCGTGGCCGTTAGCAACGATGGTGATGGCTCCGCTGGCAGGCT -ATTTGATTGAACGCGTACATGCAGGATTGCTGGGGGCTTTAGGGTTGTTCATCATGGCTGCGGGGCTTTTTTCCC -TGGTTCTGCTGCCCGCGTCACCTGCGGATATCAATATTATCTGGCCGATGATCTTATGTGGTGCTGGATTTGGCT -TATTCCAGTCACCCAATAACCACACCATTATTACCTCCGCGCCTCGCGAACGTAGCGGTGGAGCCAGTGGCATGT -TAGGAACGGCTCGTCTACTGGGTCAGAGTAGCGGCGCGGCGCTGGTGGCGCTGATGCTAAATCAGTTTGGAGATA -ATGGTACACACGTCTCGCTGATGGCTGCGGCTATTCTGGCAGTGATTGCTGCCTGTGTCAGTGGTTTACGTATCA -CTCAGCCACGATCCAGGGCATAAAAAAAGCGCGTCGATCAGGACGCGCTTTTTAGTATTTACTTCATATTACTTC -AGGTATTCACCCGTACGCAGAGCTTCAATTCGTTTATCCAGCGGCGGGTGGGTCATGAACAACTCACTGAGCGAT -TTCGACTTACCGTTAATGCAGAGAGCCATCATGCTGGTTGCTTCTTGCGGTTCATAGCTGGTTTTCAGGCGCTGC -AGCGCGGCAATCATTTTCTCGCGACCAACCAGTTTTGCCGAACCGGCATCAGCATGGAATTCACGATGACGCGAG -AACCACATGGTGATAATGCTCGCCAGAATACCAAACACCAGTTCCAGAACCGTTGCAACCGCAAAGTAGATCAGC -GGGTTGCCGTTGCTCTCTTCACCTTCATCACGATTTCCGCCCATAAAACCCGCGGCAAGCTGCGCCAGAATACGG -GAAATAAAGATAACGAAGGTGTTCACCACGCCCTGAATCAGCGTCATGGTGACCATATCACCATTGGCGATGTGG -CTGATTTCGTGAGCAATTACCGCCTCGGCTTCATCCGGGCTCATGTTCTGCAGCAAACCGGTGCTGACAGCAACC -AGAGAGGCATCACGGCGCGCACCGGTTGCAAAAGCGTTGATGTCCGGCGCATGGTAGATAGCCACTTGCGGCATA -GCGATCCCCGCCTGACGAGCCTGGGTTGCTACAGTATTGACCAGCCAACGTTCCCTTTCGTTACGCGGTTGCTCG -ATCACTTCCCCGCCAACAGATCGTAATGCCATCCATTTGGACATCAGAAGCGAAACGAAGGAACCACCAAAACCG -AACAGCAAGGCCATGATCATCAGCCCCTGAACGCTGCTCGACTGTATCCCTGTCAGGCTCAGTACCAGCCCGAAA -ACGACCATTACGGCCAGGTTCGTTAGCAGGAAGAGCGCGATTCGCATCATAATTTTCTTTTTACCTCAGTTTAAC -AAAACGCAATATGCGATACCCACATCGTATGGGTTACGCGACTATTTTCAAGTCTGGATAGTGCGTAAGTCACCA -GAAAGACACAACTTTACATTTTGTAGCATCTGATTTACGGCATCTTGTCGCTGTTAAAAAATCAGGCACAATTTC -TTGTGCCTGATTGATATTACTTGACGGGAGCGGGTTGTTCCGCGGGTCTGGCTTTTTCAAGCTTCGCCAGATCGA -GTGCGATATTCACCGTCTCATCCAGATAAGGATCCGGCTCCTGGTAATCTTTCGGTAGATCATCCAGTTTCTTCA -ACTCCGGTTTACCTTCGCGTTTAAAGCGTTCGTTCAAACGCGCCAGACGCGTCGCATCATCTTCATTATTCTCTT -TCTCACGCACAGCGTAATTCAGAGAAACGATATTGCGCTTGTCCTTCATAGCGTTGAAGCGCGCGATATCCTTCA -TGATGTTCTGGAACTCAGGATCTTTCGCGATACGCGCATTATGTTCCTTCAGCAGCTCCGGTTCAAAGGCCGTTA -AATCTCCTGATTTCACATAAGTCGCGGCATCAATGCTATCCCACGGCAGCGCGTTATCTTCGAATTTCTCACCCG -TTTCCGTTTCTTCATTACCCGTCGGCATGATGATGTCTGGCGTTACGCCTTTACGTTGCGTACTGCCGCCGTTAA -CGCGATAGAATTTCTGGATCGTGTACTGCACAGAACCCAGCGCTGGCCATTCAGGACGTAACATCTGATCGTAAA -TACGGTTCAATGAACGGTATTGCTGAACGGTGCCTTTACCAAACGTCGGTTCACCCACAACCAGCGCACGACCGT -AATCCTGCATTGCCGCGGCAAAGATTTCTGAAGCCGAAGCACTGAAGCGGTCAACCAGCACCACCAGCGGGCCTT -TATAGAAAACCTGTCCGTCGGTATCGCTATCTTCACGAACCTTGCCGTTGTTATCGCGGACCTGAACAATGGGAC -CCGCAGGAATAAACAGACCGGAGAGCGATACGGCTTCAGTTAACGCCCCACCGCCATTGCTACGCAGGTCGATGA -TGACGCTGCTGACATTCTGTTTTTCCAGTTTCTGCAGTTGCACTTTGACATCGTCTGTCAAACCCACATAGAAGC -CCGGAATATCCAGCACGCCGACTTTCTCTTTACCGACGGTCTTCACCGACATTTTAACCGCGCGGTCTTCGAGAC -GAATACGTTCACGGGTCAACGTTACAGTACGGGTCTTGGTCCCTTTACCAGCAGGTAAAATTTCCAGACGAACTT -TACTGCCCTTCGGCCCTTTAATTAAGGCAACCACATCATCAAGACGCCAGCCAATCACGTCAACCATCGGCTTGC -CTGTTTGACCAACACCGACAATTTTGTCACCAACGCTGATAGCTTTACTCTTCGCTGCCGGACCACCTGCCACCA -TCGAATTGATAACGGTGTAGTCATCATCCATTTGCAGCACTGCGCCAATACCTTCCAGCGACAAACTCATTTCAG -TGTTGAACTGTTCGGTATTACGCGGGGAAAGATAGTTGGTATGCGGGTCGATTTCACGCGCAAACGCCGTCATTG -CCAGCGAGAAAACATCTTCGCTGTTGGTTTGCGCCAGACGACGAATGGCAAATTTGTAGCGGCGAGTCAGGGTTT -CACGAATTTCTTTATCCGTTTTTCCTGTCAGCTTCAGGCTTAACTCGTCGAATTTGACTTTACTGTCCCACAGCG -CGTTCAACTCAGCCTCGTTTTTCGGCCAGGGCGCTTTGCTGCGGTCAAGGTTATAAGTGTCGTTGCCGGTGAAAT -CCATCGGCTTTTCCAGTACCGACAAAGCGTACTGGTAACGCTCAAAACGGCGCTTTTGCGCCAGATTGTAGAGAT -CGTAGAAAACGTCGAGTTTGCCTGAACGCAGTTCATCGCCTAACTCGGTTTTCTTTTTCGCGAACTGTTCAACAT -CGCTTGCCAGCAGCACGTTGTGGCTGTAATCGAGCAGATTCAGGTAGCGGTCAAAGATTTTGGCCGAAAATGCCT -GATCGAGGTCGAACTGGCGATAATGAGAACGGGTGAAGCGCGACGTTACGCGCTCACTTACCGTCGCATGCTGCG -TCTCTTCCTTTAATACCGGAATTTGATCAGCACGCGTGATATCTTCTACAGCGAAGGTCTGGCCTGCTATTGCAA -GCAGGCCAGCTAACGCGGTAAGCCTAAAAAACATGTTCATGCCTGGCCCGGCCTCCGTTTCAGAACACCAGGTGT -TCTGCGCGCACAATCAAAGACATACCCGAATTCAGCTGGACGCGGACGCCGTCTTTGGTGATTTCTAATACGGTG -GCATCCATCGCGTTTTGACCCGCTTTCACCTTCAGGGCTTGTCCGACAGTCAGAGCTGAAATGTCAGAAACCGGG -GTGTGCTGTTCTTCGCGAGGTGCTTTTACTGTTTTTGGCGCTTTCTCTACCGGCTTTTGCGCACGAGGTTTACGT -TCAGCGCCTTCTTTGCGGCGTGGCGTAGTCGGACGTGGCTTGCGTTCGCGGCGCGGTGCGTCTTCTTTCTCACCA -GCAGTTGCGGCAGCTTCGCGTTTTTTCGCTTGCTGTTCAGCACGCTGTGCCTGAACACGCGCTTTCGCTTCTTCA -AGCTGCTTGCGAGCATGCTCTACATGTTGCTCGTCCAGCTCACCGCATGGGTTGCCGTCAAGATCGACACGCGTT -GCGCCGGGTTTAACACCGTAAAGATAACGCCAGCTCGAAGTGTAGAGACGTAAAGCGGATCGCAATTGCGTTTTG -CTCAGGTTCATTTCCCCAGCAACACGATCGACCAAATCCTGAAAAATACCGATTTTCAGCGGACGCGCTTCACCT -TCCGCACTGAAACAGTGGGGAAAACGTTCGGCCAGAAACGCGATTACTTCTTTACTGCTATTCAACTTAGGTTGA -TTTTCCATGAAATTTCCTGATTACAACGGACGTAGCCAACAAGCGCAGGCATGAACAGGCGTCATTATAATGACG -CTATCAGTAAATGCTACGTTATCCGTTGATTATCCTGCGACGCTCGCAAAGAATTTTTTGTAATCCGTCGTTGCA -AGCACTTTTTCAAGCTGTGCCACAAGCTGACGTAAGCCTTGCTCGTCCTCGTCTGTAAAGCGACCGAAGACGGTA -CTATCGATGTCGAGAACACCAATAATCTGATTTTTCACCACCAGCGGCAGAACAATTTCAGAATTACTCGCCGCA -TCACAGGCAATATGCCCGTCAAACACATGAACATCCTCGATACGCTGCACTTGATTGCGGGCAACCGCAGTGCCG -CACACGCCGCGCCCGACGGGTATCCGGACACAGGCAATTTTGCCCTGAAATGGTCCGAGTACCAGTGTATCGTCC -TCAAGCAAATAAAAACCTGCCCAGTTTATGTCAGTGAGACGCTCATATAACAACGCACTGGTGTTCGCAAGCGTT -GCCAGAAAACTGGTTTCTCCCGCCATCAGCGCGTTAAAGTCGCGATTTAAATCCGCGTAAAATTCTGTTTTGTTC -ATTATATAATCACTTGGTTGTCTTACCTGGATCTGCCAGCCTATTAAAATAAGCATTAAATGCGTTAATGCTCAA -GATCATTCCCATCATGGGTTAAGATTAATGTTAATTCTTATTACATTTGGCACGTCATGGCTCTTAACACACCAC -AAATTACGCCGACAAAAAAGATAACAGTGAGGGCAATCGGCGAGGAACTGCCGCGTGGTGATTACCAACGTTGCC -CGCAATGTGACATGCTGTTTAGCCTGCCCGAGATAAATTCTCATCAAAGTGCCTATTGTCCGCGCTGTCAGGCAA -AAATTCGTGACGGGCGCGACTGGTCGCTAACGCGCCTGGCGGCAATGGCCTTCACCATGCTGTTGCTTATGCCGT -TTGCCTGGGGCGAACCGCTGTTGCATATCTGGCTGTTAGGCATTCGTATTGACGCCAACGTTATGCAAGGCATCT -GGCAAATGACCAAACAGGGCGATGCGATAACGGGGTCGATGGTCTTTTTCTGCGTTATTGGTGCCCCGCTCATTC -TGGTGACCTCCATAGCTTATTTATGGTTTGGTAACCGACTGGGAATGAATTTACGTCCGGTACTGCTGATGCTTG -AGCGACTTAAAGAGTGGGTAATGCTCGATATCTACCTGGTCGGCATTGGCGTTGCTTCTATAAAGGTACAGGATT -ATGCCCATATCCAGGCTGGTGTCGGCTTGTTCTCTTTTGTGGCGTTGGTGATTTTAACGACGGTGACGTTGTCAC -ATCTTAATGTCGAAGAACTGTGGGAGCGATTTTATCCGCAGCGCCCCGCTACGCGTAGGGACGAGAAACTTCGTG -TCTGTCTTGGGTGCCATTTTACCGGCTATCCAGATCAGCGTGGTCGCTGCCCGCGTTGCCATATCCCGCTACGCC -TGCGTCGCCGTCATAGTCTGCAAAAATGCTGGGCGGCGCTGTTAGCGTCAATCGTTTTATTGTTACCTGCCAACC -TGTTGCCTATTTCTATCATTTATCTGAACGGAGGACGGCAGGAAGATACAATTCTTTCCGGAATTATGTCGCTGG -CAAGTAGCAACATTGCGGTTGCAGGAATCGTGTTTATCGCCAGTATTCTGGTACCGTTTACTAAAGTGATCGTCA -TGTTCACTTTACTGTTGAGCATTCATTTTAAATGCCAGCAAGGTTTACGCACACGCATTCTGTTACTGCGGATGG -TGACCTGGATTGGTCGCTGGTCGATGCTCGACCTGTTTGTCATATCTTTAACCATGTCGCTGATTAATCGCGATC -AGATCCTCGCTTTTACTATGGGACCGGCTGCGTTTTATTTCGGCGCAGCGGTAATTTTGACTATTCTTGCTGTGG -AATGGCTGGACAGCCGCTTACTTTGGGATGCACATGAGTCAGGAAACGCCCGCTTCGACGACTGAAGCGCAGATT -AAAAATAAACGCCGTATCTCACCTTTCTGGCTGCTGCCGTTCATCGCGCTAATGATTGCCAGTTGGCTGATTTGG -GACAGTTATCAGGACCGGGGTAATACCGTCACCATCGACTTTATGTCGGCGGATGGTATTGTTCCAGGCCGTACG -CCTGTTCGTTATCAGGGCGTTGAAGTCGGAACAGTGCAGGATATCAGCCTCAGCGACGATCTTCGTAAGATTGAA -GTCAAGGTCAGCATCAAGTCCGATATGAAAGATGCGCTGCGCGAAGAGACTCAGTTCTGGCTGGTGACGCCAAAA -GCATCGTTGGCAGGTGTCTCCGGGCTGGACGCCCTCGTCGGTGGGAACTATATCGGCATGATGCCGGGTAAAGGT -AAAGAGCAGGATCACTTTGTCGCACTCGATACCCAACCGAAATATCGGCTGGACAATGGCGATCTGATGATCCAC -CTGCAAGCCCCCGATCTCGGTTCGCTGAACAGCGGTTCATTGGTCTATTTCCGCAAGATCCCGGTGGGAAAAGTC -TACGACTATGCCATCAATCCCAACAAGCAAGGCGTGGTGATTGATGTCCTGATCGAGCGGCGTTTTACCGATCTG -GTGAAAAAAGGTAGCCGTTTCTGGAACGTTTCCGGCGTTGATGCCAACGTCAGTATCAGTGGCGCGAAGGTGAAA -CTGGAAAGCCTGGCGGCACTGGTTAACGGTGCGATTGCCTTCGATTCACCAGAAGAGTCGAAACCTGCCGAGGCG -GAAGATACCTTTGGTCTGTATGAAGATCTGGCCCACAGCCAGCGTGGCGTAATAATAAAACTGGAACTGCCGAGT -GGGGCCGGATTAACCGCCGACTCGACGCCGTTAATGTATCAGGGGCTGGAAGTCGGACAGCTGACTAAACTGGAT -TTAAATCCTGGTGGTAAAGTCACAGGGGAAATGACCGTTGATCCCAGCGTCGTTACCCTGCTTCGTGAAAATACC -CGCATCGAATTACGCAACCCGAAATTATCCCTTAGCGATGCTAATCTCAGCGCCCTGCTGACCGGCAAAACCTTC -GAGCTGGTGCCCGGCGATGGCGAGCCACGCAAAGAGTTCGTTGTTGTGCCAGGCGAAAAAGCACTGCTGCATGAA -CCTGATGTTCTGACGCTGACCCTGACCGCGCCGGAAAGTTACGGTATTGATGCGGGTCAGCCGCTCATTCTTCAC -GGCGTGCAGGTAGGCCAGGTTATCGATCGTAAACTCACCAGCAAAGGCGTCACCTTTACCGTCGCCATCGAGCCT -CAGCATCGCGAACTGGTAAAAGGCGATAGCAAATTTGTCGTCAACAGCCGTGTCGATGTGAAGGTGGGGCTGGAT -GGCGTTGAGTTTCTCGGTGCCAGCGCCTCAGAATGGATCAATGGCGGGATACGTATTCTGCCGGGCGATAAAGGT -GAGATGAAAGCCAGCTATCCACTGTATGCCAATTTGGAAAAAGCGCTGGAGAACAGCCTTAGCGATTTACCCACC -ACAACCGTGAGTTTGAGTGCAGAGACGCTGCCGGATGTGCAGGCAGGATCGGTAGTGCTGTACCGTAAATTTGAA -GTTGGTGAAGTGATTACCGTGCGTCCGCGAGCTAACGCGTTTGATATCGATCTGCATATTAAGCCGGAGTATCGC -AACCTTCTGACCAGCAATAGCGTGTTCTGGGCAGAAGGCGGGGCGAAAGTTCAGCTGAATGGTAGTGGTCTGACC -GTACAGGCATCCCCGCTCTCCAGAGCATTAAAGGGAGCCATTAGCTTCGACAACCTCAGCGGTGCCAGCGCCAGT -CAGCGTAAAGGCGATAAGCGTATTCTGTATGCTTCCGAAACAGCGGCCCGTGCGGTTGGCGGGCAGATTACGCTT -CACGCTTTCGATGCCGGAAAACTGGCGGTCGGGATGCCAATTCGCTATCTCGGTATTGATATCGGGCAAATCCAG -ACGCTGGATCTGATTACCGCACGCAATGAAGTACAGGCAAAGGCGGTACTTTACCCGGAATATGTCCAGACCTTT -GCTCGCGGTGGTACGCGCTTCTCAGTGGTCACACCGCAAATTTCGGCAGCTGGCGTTGAGCATCTTGATACTATC -CTCCAGCCGTATATCAACGTCGAACCAGGCCGGGGCAATCCTCGCCGCGACTTTGAATTACAAGAGGCCACCATT -ACTGATTCGCGTTACCTGGATGGCTTAAGCATTATTGTTGAAGCGCCGGAAGCCGGTTCGTTAGGCATCGGTACG -CCTGTGCTGTTCCGTGGTCTGGAAGTCGGTACGGTTACAGGAATGACGCTGGGGACATTGTCAGATCGCGTGATG -ATTGCGATGCGCATCAGTAAACGCTATCAACACCTGGTGCGTAACAATTCCGTCTTCTGGTTGGCATCGGGTTAC -AGTCTGGACTTTGGTCTGACGGGCGGCGTAGTGAAAACCGGCACCTTTAACCAGTTTATCCGTGGCGGCATCGCC -TTCGCCACGCCTCCGGGTACGCCACTGGCACCGAAAGCCCAGGAAGGCAAACACTTCCTGTTGCAGGAAAGTGAA -CCGAAAGAGTGGCGTGAATGGGGAACTGCGCTTCCCAAATAATGCCCACTGCTCCGGCGTGCCTGCGCCGGAGCG -TTTATGCTAAACTGCGCGCCTGTTTTTTTGCCAGTGGTACATGCTCGTGGCCCAACACACCGTTTATTTCCCGGA -CGCCTTTCTGACACAAATGCGCGAAGCGATGCCTTCGACGCTCTCATTTGATGATTTTCTTGCCGCCTGTCAGCG -CCCGTTGCGCCGCAGCATTCGCGTTAATACGCTGAAAATCTCCGTTGCTGATTTCCTGCAATTAACCGCTCCTTA -TGGCTGGACGCTTACGCCAATTCCGTGGTGTGAAGAAGGTTTCTGGATTGAACGCGACAATGAAGATGCATTGCC -ATTGGGTAGTACCGCCGAGCATTTAAGTGGCCTGTTTTATATTCAGGAAGCCAGTTCAATGTTGCCTGTTGCCGC -CTTGTTTGCTGACGGTAATGCACCACAGCGGGTGATGGATGTCGCTGCCGCGCCTGGCTCCAAAACGACGCAAAT -TTCCGCGCGGATGAATAACGAAGGGGCAATCCTTGCCAATGAGTTTTCCGCCAGTCGGGTAAAAGTGTTACATGC -CAATATCAGCCGCTGTGGTATCAGTAATGTTGCGCTCACACATTTTGATGGCCGCGTGTTTGGTGCGGCAGTGCC -AGAAATGTTCGATGCCATTTTGCTGGACGCTCCCTGCTCTGGCGAAGGCGTGGTGCGTAAAGATCCCGATGCGCT -AAAAAACTGGTCACCAGAAAGCAATCAGGAAATCGCAGCTACACAACGGGAGCTTATCGACAGCGCCTTTCATGC -ATTACGTCCTGGTGGTACGCTGGTTTACTCGACCTGTACCTTAAACCAGGAAGAAAACGAAGCCGTTTGCCTGTG -GCTGAAAGAGACTTACCCCGACGCAGTAGAGTTTTTACCACTTGGCGATCTCTTCCCTGGTGCAAACAAAGCGCT -GACCGAAGAAGGCTTTTTGCATGTTTTCCCACAAATTTACGACTGCGAAGGCTTCTTCGTTGCTCGTCTGCGTAA -AACTCAGGCGATTCCCGCCTTACCCGCCCCCAAATACAAAGTCGGTAATTTTCCGTTCAGCCCGGTGAAAGATCG -CGAAGCTGGACAAATTCGTCAGGCGGCTACAGGTGTTGGCTTAAACTGGGATGAAAACCTGCGCCTCTGGCAGCG -TGACAAAGAACTGTGGTTGTTCCCGGTGGGCATTGAAGCCCTGATCGGTAAAGTCCGATTTTCTCGGTTGGGGAT -TAAACTTGCCGAGACGCACAACAAAGGTTATCGCTGGCAGCATGAAGCGGTTATTGCTCTTGCCTCACCCGATAA -TATGAATGCATTCGAGCTGACACCGCAGGAAGCGGAGGAGTGGTATCGCGGGCGCGATGTTTACCCGCAAGCCGC -GCCAGTGGCGGATGATGTATTGGTTACTTTCCAGCATCAACCGATTGGTTTAGCCAAACGGATTGGTTCGCGATT -GAAAAACAGCTATCCGCGTGAACTGGTGCGCGATGGGAAACTTTTTACCGGTAACGCCTGACAGCGCACAAAAAA -AGCGCACTTTTTGACTGGCACATTCGGCTGCCTCAACTAGGCTGAAAAATGGTGCGATCGGACTGGTCGTACCAC -AATCGGCAGCTAAATGGAGAGCACGAAGATGAAAACCAGTGTGCGCATAGGCGCTTTTGAAATCGACGACGGCGA -ATTACACGGTGAATCGCCAGGTGATCGAACGTTAACCATTCCTTGTAAATCTGACCCCGATTTATGTATGCAACT -GGATGCCTGGGATGCTGAAACCAGTATCCCTGCCCTGCTAAATGGCGAACACTCTGTCCTTTACCGTACCCGTTA -CGATCAACAATCTGATGCCTGGATTATGCGTCTTGCCTGATCCAAAAAGAACCCGTCGGCATGGCGGGTTATTTG -TCCTGGTTATTCCCCCGTTGTAAAATCTCTCCTAAACTTAACGGTACGGCACCACACTTCGGGGATGAAATGTTC -GCGCTGGTACTTTTTGTTTGCTACCTGGATGGCGGTTGTGAAGATATTGTTGTGGATGTCTACAACACGGAACAG -CAGTGTCTTTATTCTATGAGCGATCAACGGATCCGCCAGGGCGGTTGTTTTCCGATTGAGGATTTTATAGATGGT -TTCTGGCGACCTGCACAGGAGTACGGTGATTTTTAATTATTGCAATTGCACAAGAGTCAGTTCGCCCCCAAAGAC -AGCACCGGTATCAATATAATGCAGGTTGCCAATATCCACGCGATGTCGCAACGGTGTATGACCAAACCAGAAATG -ATCAGCACCTGTAATTCCCTGCCCTTTTTGGCGTTCACCTAATCGCGAGCGGCTCCACAAGACCTGATGCAAATC -AACGTCCTTTTGCCATTCATAAACATCATCTGGATAATCGGCATGAGCAATAACATGCTTGCCGGTGCGACTGTG -TACTTCAAGAATAAAGGGCAAATGCTGACATTTTTCCAGCGCCGTTTTCGCTTGTTTCTGTTGATTATCTGCCAG -CGCAATAAACCAGTCGCCGCCATTCATCAACCACAAAGACATCTGCTGGGATGCCAGCGCATCCATCGCCATCTG -TTCATGATTGCCTCTTACCGCACAAACCCAATGTTGTTCCAGTAACTGCAGACAACGTAAACTTTGCGGCCCACG -ATCGATAACGTCTCCCACTGAGATAAGTAAATCTCGCCACGGATCAAAACGACAATGCCATAATTTGCGGCGCAA -CTGCTCAAGACAACCGTGTATATCGCCAGAAAGCCAGATATGTCGCCATTGATGACCCGCAATTCTCTGATAAAC -GGGCGCAGGCTGTTTCATCAATATTTTCCTCCCGCGCTAAAGATCACATAATCTTAACAAGAATGTTAAAAAACG -CTGGACTCAGACAGTAGAGTGTGTGTTATGGTTGACTATAAAGTCAGCGAAGGAAATGCTTCTGGCTTTTAACAG -ATAAAAAGAGACCGAACACGATTCCTGTATTCGGTCCAGGGAAATGGCTCTTGGGAGAGAGCCGTGCGCTAAAAG -TTGGCATTAATGCAGGCTTAGTTGCCTTGCCCTTTAAGAATAGATGACGACGCCAGGTTTTCCAGTTTGCGTGCA -AAATGGTCAATAAAAAGCGTGGTGGTCATCAGCTGAAATGTTAAAAACCGCCCGTTCTGGTGAAAGAACTGAGGC -GGTTTTTTTATTGGAAATCAAAAGGCTATTTTAGGTAATTAACAGAGTTTTTCAGCTCGTTCTATAAACGGTGCC -AGACTCATTTTTTCGCCGGGATTGTTAGGATCATCAATCTGAATCACCGAAATGGGTTGGGCATTGGTCTTCCCA -CTGGCAACTTCCTTTTGTGCGATATCGTTTAAAGGATACTGCACGAGGGTACTCGGATTAATAACATACAAAGCA -TTACCCGGTCGGCAAGTCAGCATCACCTCTTCGCGATTAAACGCCCATTTGTCTTTACCCACTTCAAAACGACTG -ACGGTAATCACCTGCGGTGCAGCCAGCGCCGCTGCAGAACTGGTGAGTAACAGAAACGCCAGAATACTTTTTTTC -ATCATTTTCGTAATCCATCAAAAAGGTTCGAGAGTCGCAAGCAGGCTGATGATCACCAGCACTACCGCACCTATC -GCCCATTCGAGTTTAGTCATCCACACAAACCAGGGTGCCGCACGATCTTCATCCTGCCTCATGCGCGGTACAAGA -ACATAACGATTAGCCAGCGCAATGACCACCATAATCATCACCAGGATGGCTTTGAGCAATAAGAGTTGGCCCCAG -TAAGTCGTAAGCGTGGGGGGAAATCCGGTAATCAACAATGCATTAAGCACGCCGCTTGCCAGTACGCCGATCACC -GCAAAATGCCCGCACCAGGAAAAACGCATCAGCGCCTGAATAGCCTGGTGTCGCCAACGGCCTTTGATGAGTTGC -ATACACCAGAGCACCGGCAGTAATCCCCCAAACCACGCCGCCGCACAAATCAGGTGAATCGCGTGATTAGTCTGA -TGGATTTTCGCTGTTACCCCTTCATTCAGCGTCGCATGCCCCACTCCCGCCAGCAGAATAAATTGCGCGGTAGTG -AGCATAAACAGCAAACGTGGCATATTCCGCGGTTGCATAAGGGCGACGATCAACGTTACGAGGGCGAGAACAATT -TGCCATAACCAGATGCCACCAAACTGCGTTTGCAAAACAGCCTGCCAAATGTTTGGCGAAAATACATCTGTCCAT -CCCGTTCCCATCAACCCGCCCTGAACGGCGAGCATTGCAGTGGCACTGATCAAACTCCAGACGGCAGCGTGCTGT -TGTAAACGCAGAAAACGCTTCGCCAGCAAGCGACGAATCGTCAAGGGGGCCAGCCAGGCACCGTACATTGCGAAG -CCAAAAACCAGCATCAGCGAGGTGAAATGGATAAATCGCAGCGCGATCCAGGTAAACGCCAGCATGATTTATTTC -ACGCTAAAGGTGTAGTGTCCTTTCGTTTTATGCCCGTCCACCGAAACAACATGCCAGTCAACGGTGTAGGTTCCG -GGTTTCAGCGAATCGGCCAGTGGAACAATCAGTTGCTTTTGGTCCTGCTCATTTCGCTTCGCCGGTAATGTTTTA -ATATTTTCGTTTTTTGGCCCCGTGATTTTTGCACCACTGAATCCTGTTTCAACACCTTCCGAGAAGTTTAAAGTG -ATTGCCTGCGGTGCAGCTGTCACTTGCGCGTTTGCCGCAGGATACTGATGCGTTAAATGCGCATGTGCCCAGACG -GAAGGTGTCACCAACGAAGTGGTCAGGATTGCCAGCGCGTAGCGAAGGGAGCGTGCAGTTGAAGCCATATTATCT -ATTCCTTTTTGTAATAACTTTTTTACAGAGCATAACCTTGTCTAATGTCTGAGTCGAGGATCATCAATTCCGGCT -TGCCATCCTGGCTCACTCTTAGTAACTTTTGCCCGCGAATGATGAGGAGATTAAGAATGCTGAAGAATCTGGCTA -AACTGGATCAAACAGAAATGGATAAAGTGAATGTCGATTTGGCGGCGGCCGGGGTGGCATTTAAAGAACGCTACA -ATATGCCGGTGATCGCTGAAGCGGTTGAACGTGAACAGCCTGAACATTTGCGCAGCTGGTTTCGCGAGCGGCTTA -TTGCCCACCGTTTGGCTTCGGTCAATCTGTCACGTTTACCTTACGAGCCCAAACTTAAATAAAACTTATACAGAG -TTACACTTTCTTACATAACGCCTGCTAAATTATGAGTATTTTCTAAACCGCACTCATAATTTGCAGTCATTTTGA -AAAGGAAGTCATTATGTCGTTCTGGAAAGTTGCAGCAGCGCAATATGAGCCTCGTAAAACCTCACTCACCGAACA -GGTAGCTCATCATCTGGAGTTTGTGAGGGCCGCCGCCAGGCAACAATGTCAGCTGTTAGTTTTTCCATCGCTTTC -TTTACTGGGGTGTGATTATTCGCGACGTGCCCTTCCTGCCCCACCCGATCTCTCACTGTTAGACCCGCTTTGTTA -TGCCGCAACGACCTGGCGAATGACCATCATTGCCGGCCTTCCCGTTGAATATAACGATCGCTTTATTCGTGGAAT -TGCGGTGTTCGCACCGTGGCGAAAAACGCCTGGGATCTACCATCAGAGTCATGGTGCATGTCTGGGCCGTCGTTC -CAGAACCATCACGGTGGTCGATGAACAACCGCAAGGTATGGATATGGACCCGACCTGTTCACTGTTTACTACAGG -GCAATGTCTGGGAGAACCCGACCTGCTGGCGTCGGCCCGTCGCTTACAATTTTTTTCACATCAGTACTCGATTGC -CGTGCTGATGGCAAATGCCCGTGGTAACAGTGCACTATGGGATGAATATGGTCGTCTCATCGTTCGCGCCGATCG -TGGTTCATTATTGTTAGTCGGTCAGCGTTCATCACAGGGTTGGCAAGGCGATATCATTCCATTACGCTAGGCTTT -TTCGGCCTGGAGCATGCCATGTTGCGCATTATCGATACAGAAACCTGCGGTTTGCAGGGAGGGATCGTTGAGATT -GCCTCTGTTGATGTCATTGACGGAAAAATCGTCAACCCCATGAGCCACCTGGTGCGCCCCGATCGTCCTATTAGT -CCACAAGCGATGGCGATTCATCGCATCACCGAAGCCATGGTCGCCGATAAACCGTGGATTGAAGATGTGATCCCA -CACTATTACGGTAGTGAATGGTATGTCGCGCATAACGCCAGCTTTGACCGCCGCGTACTGCCTGAGATGCCCGGT -GAGTGGATTTGCACTATGAAACTGGCCCGTCGTTTGTGGCCTGGGATCAAGTACAGCAATATGGCGTTATATAAA -ACACGCAAGCTCAATGTACAGACGCCGCCGGGCCTGCATCATCACCGCGCGTTGTATGACTGTTATATCACCGCC -GCGTTGCTTATCGATATTATGAACACCTCCGGCTGGACGGCAGAACAGATGGCCGATATCACCGGACGTCCGTCG -TTGATGACGACCTTCACCTTTGGCAAATACCGTGGCAAAGCGGTTTCCGACGTTGCCGAACGCGATCCGGGCTAT -CTGCGCTGGTTATTTAATAACCTGGACAGCATGAGCCCGGAGCTGCGTTTAACACTGAAACATTATCTGGAAAAT -ACTTAGTCCGCAGGCGTAGCGGGTAATGTTCCCTGCGCCAGCGCGACCAGAAAAGCATATTCCATCGCTACGCCT -TCGTACGATTTAAAGCGACCAGATTTACCGCCATGGCCTGAGTCCATGTCGGTACAGAGCAATAAAAGATGGTCA -TCGGTTTTCAGCTCGCGCAATTTAGCGACCCATTTTGCCGGTTCCCAATATTGCACCTGAGAATCGTGCAAACCG -GTCGTTACCAGTAAATGCGGATAAGCCTGTGCGGTGACGTTGTCATACGGGCTGTAGCTTTTCATGTACTCGTAA -TATTGCGGATCCTGCGGGTTACCCCACTCTTCAAACTCACCAGTGGTAAGAGGAATTGATTCATCAAGCATCGTT -GTTACAACATCAACAAACGGTACCTGGGCGATAACGCCGTGGAATAATTCCGGGCGTTGATTAATTGCAACGCCC -ATCAACATGCCCCCCGCACTCCCGCCCATCGCATAACAAAGCGAAGGAGAGCCATAGCCCAGTTTTAACAATGCA -TCGCAGGCATCAAGATAATCATTAAACGTATTTTTCTTCTTCAGAAATTTTCCGTCTTCGTACCATTGTTGCCCC -AGCTCACCACCGCCGCGAACATGGACAATGGCGTAGACAAAGCCACGATCTAACAAACTCAAGCGGCTAAAACTG -AAATCGGCATCAATACTTGCGCCGTAAGAACCATAGCCATACACCAGCAACGGGTTGTGTCCTTTGCGAAAATGT -TTGCGATGGTAGACCAACGAAACCGGAACTTCGACGCCATCACGGGCGACTATCCACAGGTGTTCACTGCGGTAA -TTCGCCGCATAAAAACCAGGAACTTCCGTTTGTTTTAATACACGACGCTCACCGGTATCCATATCCAGTTCAAAC -AAAGTGTCTGGTGTAGTCATGGAAGAATAACCATAACGCAATCGCGCGGTTTCAGGTTCTGGATTGTAGGCAATC -CAGGTCACATAGGCCGGATCATCAAAGGCAATACCAATGACTTCCCGGGTCTTGCGGTTAATTTGGCGCAAACTG -GTTAACCCGCGCTGACGCTCTTCAACCACCAGCCAGTCGGTAAACAGCGTAAACCCTTCCAGCATGATGTTTTCG -CGTGGCGGAATTAACTCTTCCCACTGTTGCTCATCACGCATACGGGTACGGTATAAGCCAAAGTTTTTGCCGTGG -CGGTTGGAACGCAGATAAAAACGATGCTGGTAGTGATCAAGGCTGTATTCGTGATCTTTGCGGCGCGGCAGAAAA -ACAAACGGCTCGGCATCGGCCATTTCCGCGTCCAGCAGGCGAACTTCACTGGTGGTGGCGCTGGCCAAATGAATG -ACTACATAGTGCTTCGAGGTCGTTTTATGCAGGCTGACGTAATAGGTATCGTCTTTTTCTTCGTAGATCAGTTTA -TCTTGCGATGCTGGCGTACCGATGGCGTGACGCCAGACCTGATAAGGCAGCAGCGTCACCGGATGCTTGCGAACA -TAGTAGAAAATCCAGGAGTCATTTGCCCAGACAAAGCTGGGTTCAACGTTATCCAGCAGTTCCGGGTACCAGTTA -CCAGTTTCCAGATTACGAAAACGAATGCCGTACTGGCGTCGGGAAAGAAAATCTTCTGCCAGCGCCATAATGGTG -TTATCGGGCGTAATCGCCATTCCGCCCATCGAATAAAACTCACTATGAGCTGCGCGCTTATTGGCATCGAGCAAT -GTTTCCCACTCATCCCACTCTTCACTGAATGCCGATTGACGCTGGTAGATAGCATATTCACAGCCTGGTTCATAA -ATATGCCGATAGCGGTAGCCATTTTTGATGTAGGGCGCAGAAACTTCTCGTTGCGGAATGCGGTCGATGATTTCC -TTTAAGATGCGATCCTGCAAGGCTTGTTGTGAGGCCATCACCCGATGACCGTAACTATTTTCTTGTTGCAGGTAG -TCCAGGACTTCTGGCTGAGAACGCGTATCGTCCCGCAGCCAGTAGTAATTATCGATGCGCGTATCGCCATGAAGC -GTCATGGCGTGGGGAATGCGGGCGGCTTTTGGTAGCATGTTATTGTTCTTTCTGGTTGAAACATCTTATAAGGGT -GGCAAAACTCACCGGGGATGCAAGCGAAACAGGGGAGTCATTGCTTAGATGATGACAGGTAATGGCGCGGATATC -GAATGTTATGCAGACAGAGAAAATCAGCCTGTTCAAATGGCTGTGCGATTCTGGATAGCCCGAAATAGTCAACTT -CAGGCTATCCAGAGAGCGGAATTATTCCGCCAAAGTGCGTTTTTGCTGTTCGAGATCGCGTTCAATGCCGTCACG -AACATCCTGGGGGATTTTCAGCGCGTCACCCAGTGCATTCAGGTAACTGCGTTCCATAAAATGGTCAATATCAAT -AGCCGCGCAACTCAGGAAATAGATTTCCAGCGCCTCTTCTTCATTGCGGACCCCGGTAGCCAGGCGTTGTGGATC -CAGCGGTTGTTCGATTGCCTGCTCAATGAGTACACGCCCCTGCTCTTCCACGCCGGCTCCACGCAATTGCTGGTC -GATTGCCGCACGTTCTTTGGCATCAATATGACCATCACTTTTAGCGGCAAAGACCAGCGCAAGGATCAAACGTGC -TGTACGCTCATCCAGCGGCGTACTTTGCGCGCCAAACTGCGGTTCGTCCTGATGCGCCGCGCGAATTTTATCTTT -GTATTTATTCCACAGCACCGTACCCGCTACCGCTCCGCCGCCAACCAGTAACGCGTTGGTGCCATATTTCGTAAG -AAGTTTACGTGCTGATTTATTTGCGACCAGCAGCCCAGCCAGTCCGCCTAATGCGCCTGGCACTAACAGTTTGAC -CAATCCCTGATCCGCAGACGAGGAGGTAGAAGAACTGCTTTGCCCAAGCAGGGATTGCAGTTGATTTAACCAGTT -AGCCATATTTGCTCCTCAATAACCATTTTTAGTGCCTGTAGCATAGCGGATGAGGATGTCAGAAAATGTATATCG -AGACAAAAGATGCGCAAATAAGCGGGGCGGTAGGCCGTTATTCAAAGAAATTCGCGCCAGGTAAGGTATTTACTG -TATATCAGGTGATAAGGGTATTTTAGGTGAAAGTAGTTTGTCGTTTTGAGTGGCATTGTTTGATGCTGATTGCCC -GATGCGACGCTGTTGCGTCTTCTCAGGCCTACGATTGTGGTGCGTTCTGGGGCGGACAAGGCACTCGCGCCGCAT -CCGCCAACAGTCAATCGAATTATCAGAAGCCATTAACGCCGCTGATATTCCGCCATTCCCGCTTTGCAGTCCACG -CTGACCTGGTAATGAATATCGGCACTTTTACCACGCACGGTTAGCGGTACTGACCATTTATCATCTTTACCCTGA -ATGTCCTGCAAACTGACCCAAGCCACGGGATCGGCCTGACCGACAATTTTTTGATCATCTGCCCAACGCGCCACG -CGATTTTGTTGATAATCACGTTTTACGCTCGCGGCAATTCCGGCAGCATCCAGATCTTCACACTTTGGGAAAGTG -ACCGACTTGCTGGTTTCATTATTGGCAGCGAAAACTGATGCGCAGGCAGAAACCAACAACAGCCCTAAAAACGCC -CCTCTTTTTTTCATGTTTTTCTCCATAGCACAATGATTCAGGAGAAAGCATGGTACAAATTGTCAGGAGCGCAAG -TTGCTTCAGGCCGCGTGTGAGGCATCTTCCTCTTCGGATTCAGCACCGACGACCTGTGGGGACGGTAATTTGCCG -GTTTTCAGAATGGTGCTCAGCACATCTTTTTGTTCTGCCAGCCATAGCGAAAGGGCTTCACGTTGCTCGTCTTCC -ATTTGCACTGGAGAATTTGTCAGCCAGGTGTCAAGCAGATCCGCCGTATCAAGCATTTTGTCATAAGCATCGGCT -TCCTTTTTGCTGGTAAACGACATTTTCTCTTCGCCCTCACGAATGACTACGTATTTAACTTCAACCGCCATTTGC -AGCCTCTCATAATAACTGTGATTTTATACAGTATATTTCTTTTCGGTTGAGAAATCAACATCAGCAATAAAGACA -CACGCAAACGTTTTCGTTTATACTGCGCGCGGAATTAATCAGGGGATATTCGTTATGACGTTATTAGGCACTGCG -CTGCGTCCGGCAGCAACTCGCGTGATGTTATTAGGCTCCGGTGAACTGGGTAAAGAAGTGGCAATCGAGTGTCAG -CGTCTCGGCGTAGAGGTGATTGCCGTCGATCGCTATGCCGACGCACCAGCCATGCATGTCGCGCATCGCTCCCAT -GTCATTAATATGCTTGATGGTGATGCATTACGCCGTGTGGTTGAACTGGAAAAACCACATTATATCGTGCCGGAG -ATCGAAGCTATTGCCACCGATATGCTGATCCAACTTGAAGAGGAAGGACTGAATGTTGTCCCCTGCGCTCGCGCA -ACGAAATTAACGATGAATCGCGAGGGTATCCGTCGCCTGGCGGCAGAAGAGCTGCAGCTGCCCACTTCCACTTAT -CGTTTTGCCGATAGCGAAAGCCTTTTCCGCGAGGCGGTTGCTGACATTGGCTATCCCTGCATTGTAAAACCGGTG -ATGAGCTCTTCCGGCAAGGGGCAGACGTTTATTCGTTCTGCAGAGCAACTTGCTCAGGCATGGAAGTACGCTCAG -CAAGGCGGTCGCGCCGGAGCGGGCCGCGTAATTGTTGAAGGCGTCGTTAAGTTTGACTTCGAAATTACCCTGCTA -ACCGTCAGCGCGGTGGATGGCGTCCATTTCTGTGCACCAGTAGGTCATCGCCAGGAAGATGGCGACTACCGTGAA -TCCTGGCAACCACAGCAAATGAGCCCGCTTGCCCTTGAACGTGCGCAGGAGATTGCCCGTAAAGTGGTGCTGGCA -CTGGGCGGTTATGGGTTGTTTGGTGTCGAGCTATTTGTCTGTGGTGATGAGGTGATTTTCAGTGAGGTCTCCCCT -CGTCCACATGATACCGGGATGGTGACGTTAATTTCTCAAGATCTCTCAGAGTTTGCCCTGCATGTACGTGCCTTC -CTCGGACTTCCGGTTGGCGGGATCCGTCAGTATGGTCCTGCAGCTTCTGCCGTTATTCTGCCACAACTGACCAGT -CAGAATGTCACGTTTGATAATGTGCAGAATGCCGTAGGCGCAGATTTGCAGATTCGTTTATTTGGTAAGCCGGAA -ATTGATGGCAGCCGTCGTCTGGGGGTGGCACTGGCTACTGCAGAGAGTGTTGTTGACGCCATTGAACGCGCGAAG -CACGCCGCCGGACAGGTAAAAGTACAGGGTTAAACCCGGCAAAAAAACGCTACAAAAATGCCCGATCCTCGATCG -GGCATTTTGACTTTTACAGCTTAGCGCCTTCTACAGCTTCACGCGCCAGCTTAGTAATGCGGTCGTAATCGCCCG -CTTCCAGCGCATCTGCCGGAACCAGCCAGGAACCACCGATGCACAGCACGCTTTTCAGCGCCAGGTAGTCACGGT -AGTTAGCCGGAGAAATACCACCCGTCGGGCAGAAACGGACCTGGGAGAACGGACCCGCGATCGCCTGCAGGGCTT -TCACGCCGCCGTTAGCTTCAGCCGGGAAGAATTTGAACTCTTTCAAACCGTAGTCCATACCCAGCATCAGTTCGG -AAACAGTGCTGATCCCCGGAATCAGAGGAATAGTCCCTTCGGTAGCAGCTTTCAGCAGCGGCTCGGTCAGACCCG -GGCTAATTGCGAACTGTGCACCCGCTTCAGTGACTTCTGCCAGCTGCTGTGGATTCAGCACCGTACCGGCACCCA -CAATCGCTTCAGGCACTTCTTTGGCGATAGCACGGATAGCGTCAACTGCACACTCGGTACGCAGAGTCACTTCCA -GAACGCGCACCCCACCAGCAACCAACGCTTTTGCCATCGGCACCGCGTGTTCCAGTTTTTTTACCACGATAACCG -GTACAACCGGGCCGGTGGTCAGGATTGATTCTGCACTTGTTTTCCAGTTTTTCATCAGAGTTTTCTCTCGCCTGA -TTACAAATTTGTCGTCTTAAAAAGTGATACAGGTTGCGCCCTGTTCGGCACCGGACAGTTTTTCACGCAAGGCGC -TGAATAATTCACGTCCTGTTCCCACGCGTGACGCGCTCAGGTCAGGAATGTGCGGTTCGCGAGCAGCCAGTTCCG -CTTCGTCTACCAGCAGCGTCAGTTCGCCTGTCTGTCCATTCACACGAATGATGTCCCCGTCGCGCACTTTTGCCA -GCAGCCCGCCATCGTAGGCTTCTGGTGTTACGTGGATAGCTGACGGCACTTTACCTGAAGCGCCGGAGAGTCGTC -CATCGGTAACTAACGCAATTTTGAAACACCGGTCCAATAATACACCAAGTGGCGGCATGAGTTTATGTAATTCTG -GCATTCCGTTCGCTTTTGGCCCCTGATGACGGACAACAACGACACAATCGCGGTCCAGCAAACCCGCTTCAAAGG -CCGGCATAACGTCATGCTGGCTTTCAAAAACAACCGCTGGCGCTTCAATCACCTGGTTCTCAACCGGCACGGCAG -AGGTTTTCATAACCGCACGGCCCAGGTTACCGCTTAACACTTTTGTCCCACCATGATGAGAGAAAGGTTGTTCGA -AGGAAGCGATCACATTGCTGTCGAGTGATTTTTCCGCCCCTTCCCGCCAGTCCAGTTCACCATTATTCAGCCATG -GTTCAAGGGTATAACGAGACAGACCAAAACCTGCCACCGTATTGACATCTTCATGCAGCAGGCCTGCTTTGAGCA -GTTCACGCACCAGAACCGGTACGCCACCTGCCGCCTGGAAGTGGTTAATATCGGCCGGACCGTTCGGGTAGAGAC -GTGCCATCAGCGGTACAACATCAGAAAGGTCAGAGAAGTCATCCCAGTTAATCTGAATACCGGCCGCGCGCGCCA -TCGCCACCAGGTGCATGGTGTGGTTAGTGGAACCACCGGTCGCCAGCAGTGCAACGATACCGTTCACCACCACTT -TCTCATCGATCATCTTACCGATCGGCATCCATTCATTACCATTACCGGTCATGCGTGTAACCTGACGCGCAGCTG -CGGCGGTCAAAGCATCGCGCAGCGGAGAATCCGGATGAACAAAAGAAGAGCCTGGCAACTGCATCCCCATAAACT -CCACCACCATCTGGTTGGTGTTGGCAGTACCGTAGAAAGTACATGTTCCCGGCGCATGGTAAGACGCGGCTTCTG -ACTCCAGTAAGGCCATGCGGTCCACTTTACCTTCGGCATAAAGCTGGCGAATACGCACTTTTTCTTTATTTGGCA -AACCGCTTGCCATCGGTCCAGACGGCACAAACACCGCAGGCAAATGACCAAACGACAGGGCTGCCATCGTCAGAC -CCGGGACAATCTTGTCGCACACACCGAGGAACAGAGCACCATCAAACATGTTATGGGACAGCCCCACCGCCGCAG -ACATCGCTATCACTTCGCGGCTTAGCAGCGACAATTCCATTCCATCCTGCCCCTGGGTGACACCATCACACATCG -CCGGAACACCGCCCGCAACCTGACCAACCGCATTCGCTTCATGCAGGGCTTTACGAATGATTTCTGGATAGTGTT -CATAAGGCTGGTGCGCGGAGAGCATGTCGTTATAGGAGGTGATGATGGCGATATTGTTACGCAACATGCTTTTCA -AAGAGGCTTTGTCTTCTGGCTGGCAGGCAGCGAAACCGTGTGCCAGGTTACCGCATGCCAACTGCGAACGATGAA -CGGTCGAAGTTTTCGCTTGTTCTATCCGGGCGAGATAAGCAGAGCGAGTCTCGCGCGAACGTTCAATGATTCGAT -TTGTTACGCGTAACAATTGTGGATTCATAAAGGCTCCTGAAATTGAGTTGTCAGAGCAGGATGATTCACAACGCG -TTTCATTCAGAGGATTTATGACTGAAACGCCTGTAACCGGAGCTCATAGGGCAAAAACGTTTCAGTCAGTGTAAT -AAAAAAAGCCTCGTGGGTGAATCCGCACGAGGCCTGAAAGTGTAAAAATTGTTCTACAATCTGCGCAAGATCATG -TTACCGGTAAAATAACCATAAAGGATAAGCGCAGATATTACTCAAACTCATTCCAGGAACGACCATCACGGGTAA -TCATCGCCACCGAGGCAACGGGTCCCCAGGTTCCGGCCTGATACGGTTTCGGCGCATCATTGTCCATCGCCCACG -CCTCAGTAATGGAGTCTACCCATTTCCAGGCTTCTTCCACTTCGTCGCGACGTACAAACAGTGCCTGAATACCAC -GCATGGTTTCCAGCAGCAAACGTTCATAGGCATCCGCCAGATGCGTCTGATTAAAGGTTTCTGAATAGCTCAGAT -CCAGCTTGGTGATTTGCAGGTTATGTTTGTGGTCAAGGCCAGGAACTTTATTCAGTACCTGGATATCCACGCCTT -CATCAGGTTGCAGACGGATAGTCAGTTTATTCTGCGGCAGATCCTGCCACGATTCTTTAAACAGATTCAGTTCAG -GTGTTTTGAAATAGACCACGACTTCAGAACATTTGGTCGGCAGACGTTTACCAGTACGCAGGTAGAATGGCACAC -CGGCCCAGCGCCAGTTATCAATGTCGACGCGGATCGCCACGAAAGTTTCTGTATTGCTGCTCTTGTTCGCGCCCT -CTTCTTCCAGATATCCCGGCACTTTTTTGCCCTGGGCGAAGCCCGCAGTATATTGCCCGCGTACGGTTTTTTCGC -GTACGTTGGAGCGGTCGATGCGGCGCAGAGACTTCAGTACTTTCACTTTTTCATCGCGGATGCTGTCTGCGCTCA -GGTCAGACGGCGGAGACATCGCAATCATGCAAAGAATTTGCAGCAGGTGGTTCTGGATCATGTCGCGCATCTGAC -CGGCTTTATCAAAATAGCCCCAGCGCCCTTCGATCCCCACTTCTTCTGCCACGGTAATCTCAACATGATCAATGG -TGCGATTGTCCCAGTTATTCACAAACAGGGAGTTAGCAAAACGCAGCGCCAACAGGTTCAGCACCGTTTCTTTAC -CAAGATAGTGGTCGATACGGTAAACCTGGCACTCCTCGAAGTATTCGCCAACCTGATCATTGATTTCCTGCGAGG -TCGCCAGCGACGTCCCCAGCGGTTTCTCCATGACTACGCGTGCCGGTTTAGCATTCAGTTTTGCCTCGCCAAGCC -CTTTGCAAATTGCGCCAAAAGTGCTGGGCGGCATGGCAAAGTAGTTAATGGTGATACGATTTTTTTGATCCAGCA -TCGCGCCGAGACGGCTGAATGCAGCAGTGTCATTGACATCGAGATTACAAAAATCCAGACGTGCACTCAGGGTGT -CCCATAAACCTTCATCAATGGTTTCTTTCATGAAAGTTTCGAGCGCCTCGCGGACAACTTTGGTATATGCCGCTT -TATCCCAGTCAGCACGCCCTACGCCGATAATCCGGGTGTCCGGGTTGAGCTGACCGGCTTTTTCCAGTTGATACA -GGGAAGGCAGCAATTTACGACGCGCAAGGTCGCCTTTCGCGCCGAAAATGACCAGGTCACAGGCCTGGGCTGTTT -GCGTTACCGCCATGTCATTCTCCTTAAGTTAACTAACCCGGTACTTAAGCCAGGGTATACTTGTAATTTTCTTAC -GGTGCACTGTACTGCTTTTACGAGCTTGCGAAAACTGTAAACGCTTATCCACCCGTGCGATTACGGGAAAAGCGC -GCAAAGTGCGGCAAAACTGATAAAAAAATCATCGTTTTCCATTGGGTAAAAATCTGACACTGATCATGTTATGAA -AAAAAATAACAACTTTTTTATCTGCTTTTGTCATTAACACGGCACACAGGCGTAATATCTGACAAAACTGCATTT -CGATTTCTTTCAGTGCGGAAATCGTCATTACCCGTGAGTCTCTTTACATCATGAATATGCTGGAAAAAATCCAGT -CTCAGCTGGAACATTTGAGCAAATCAGAGCGCAAAGTTGCCGAGGTCATTCTGGCTTCGCCCGATAACGCGATCC -ATTCGAGTATTGCTGCTATGGCACTGGAAGCCAATGTTAGCGAACCGACGGTGAATCGTTTCTGTCGCAGCATGG -ACACGCGCGGTTTTCCTGATTTTAAACTTCATCTGGCACAGAGTCTGGCGAATGGCACTCCCTATGTTAATCGCA -ATGTCAATGAAGATGACAGCGTTGAATCATACACAGGGAAAATATTTGAGTCCGCAATGGCAACGCTTGATCATG -TCCGTCATTCACTGGATAAATCTGCCATCAACCGCGCCGTCGACTTGCTCACTCAGGCAAAAAAAATCGCCTTTT -TCGGATTAGGCTCTTCAGCCGCCGTTGCCCACGATGCGATGAATAAGTTCTTTCGTTTTAATGTTCCGGTGGTGT -ACTCCGATGATATCGTGCTGCAACGCATGAGTTGTATGAATTGTAGCGACGGAGACGTGGTGGTGCTGATTTCTC -ACACTGGAAGAACAAAAAATCTGGTCGAGCTGGCGCAGCTGGCACGCGAAAACGACGCCATGGTGATTGCCCTCA -CCTCTGCGGGTACCCCGCTCGCCCGGGAAGCAACGCTGGCAATTACCCTCGACGTACCGGAAGATACTGACATTT -ATATGCCCATGGTTTCTCGACTTGCACAGCTGACCGTGATAGATGTGCTGGCGACAGGATTTACTTTGCGACGCG -GTGCAAAATTCAGAGATAACTTGAAGCGGGTCAAAGAAGCGCTGAAGGAATCGCGTTTTGATAAGCAGTTACTTA -ATTTAAGTGACGATCGCTAAAAACGACTGTCACTGTCCTAATCTTATACGACATCCGAATGAGATTAATTTATCG -CCATCGCGGCGTTATTTCATTCGGATTTCATGTTCAAGCAACACCTGGTTGTTTCAGTCAACGGAGTATTACATG -TCCAGAAGGCTTCGCAGAACAAAAATCGTTACCACGTTAGGCCCAGCAACAGATCGCGATAATAATCTTGAAAAA -GTTATCGCGGCGGGTGCCAACGTTGTACGTATGAACTTTTCTCACGGCTCGCCTGAAGATCACAAAATGCGCGCG -GATAAAGTTCGTGAGATTGCCGCAAAACTGGGGCGTCATGTGGCTATTCTGGGTGACCTCCAGGGGCCCAAAATC -CGTGTATCCACCTTTAAAGAAGGCAAAGTTTTCCTCAATATTGGGGATAAATTCCTGCTCGACGCCAACCTGGGT -AAAGGTGAAGGCGACAAAGAAAAAGTCGGTATCGACTACAAAGGCCTGCCTGCTGACGTCGTGCCTGGTGACATC -CTGCTGCTGGACGATGGTCGCGTCCAGTTAAAAGTACTGGAAGTTCAGGGCATGAAAGTGTTCACCGAAGTCACC -GTCGGTGGTCCCCTCTCCAACAATAAAGGTATCAACAAACTTGGCGGCGGTTTGTCGGCTGAAGCGCTGACCGAA -AAAGACAAAGCAGACATTAAGACTGCGGCGTTGATTGGCGTAGATTACCTGGCTGTCTCCTTCCCACGCTGTGGC -GAAGATCTGAACTATGCCCGTCGCCTGGCACGCGATGCAGGATGTGATGCGAAAATTGTTGCCAAGGTTGAACGT -GCGGAAGCCGTTTGCAGCCAGGATGCAATGGATGACATCATCCTCGCCTCTGACGTGGTAATGGTTGCACGTGGC -GACCTCGGTGTGGAAATTGGCGACCCGGAACTGGTCGGCATTCAGAAAGCGTTGATCCGTCGTGCGCGTCAGCTA -AACCGAGCGGTAATCACGGCGACCCAGATGATGGAGTCAATGATTACTAACCCGATGCCGACGCGTGCAGAAGTC -ATGGACGTAGCAAACGCCGTTCTGGATGGTACTGACGCTGTGATGCTGTCTGCAGAAACTGCCGCTGGGCAGTAT -CCGTCAGAAACCGTTGCAGCCATGGCGCGCGTTTGCCTGGGTGCGGAAAAAATCCCGAGCATCAACGTTTCTAAA -CACCGTCTGGACGTTCAGTTCGACAATGTGGAAGAAGCTATTGCCATGTCAGCAATGTACGCAGCTAACCACCTG -AAAGGCGTTACGGCGATCATCACCATGACCGAATCGGGTCGTACCGCGCTGATGACCTCCCGTATCAGCTCTGGT -CTGCCAATTTTCGCCATGTCGCGCCATGAACGTACGCTGAACCTGACTGCTCTCTATCGTGGCGTTACGCCGGTG -CACTTTGATAGCGCTAATGACGGCGTAGCAGCTGCCAGCGAAGCGGTTAATCTGCTGCGCGATAAAGGTTACTTG -ATGTCTGGTGACCTGGTGATTGTCACCCAGGGCGACGTGATGAGTACCGTGGGTTCTACTAATACCACGCGTATT -TTAACGGTAGAGTAAGTACGTTGCCGGATGCGGCGAAAACGCCACATCCGGCCTACAGTTCAATGATAGTTCAAC -AGATTTCGAATATTCTGAAGCAAACTTGAACTTATCATCAGGCGAAGGCCTCTCCTCGCGAGAGGCTTTTTTATT -TGATGGGATAAAGATCTTTGCGCTTATACGGCTGGATTTCGCCCGGTTTGCGAGTTTTCAGCAATTTTAGTATCC -AGGTGTATTGTTCTGGTCGCGGACCAACAAAAATCTCGACTTCTTCATTCATCCGCCGCGCAATCGTATGATCAT -CCGCCTCTAACAGATCATCCATCGGTGGGCGCACCTGAATCGTCAGACGATGCGTCTTGCCATCATAAATCGGAA -ACAGCGGTACAACGCGCGCACGGCACACTTTCATCAAACGACCAATCGCGGGCAACGTCGCTTTATAGGTGGCAA -AGAAATCCACAAATTCGCTGTGCTCTGGGCCATGATCCTGATCGGGTAAATAATATCCCCAGTACCCCTGACGTA -CCGACTGGATGAATGGTTTAATACCGTCATTTCTCGCATGCAGACGACCGCCAAAGCGACGACGCACCGTGTTCC -AGACATAATCAAAAACCGGGTTGCCCTGATTATGGAACATCGCTGCCATTTTCTGCCCTTGCGAGGCCATCAGCA -TGGCAGGAATATCGACGGCCCAACCGTGCGGCACCAGAAAGATAACTTTCTCGTTATTACGCCGCATCTCTTCGA -TGATCTCCAGCCCTTGCCAGTCAACGCGCGGCTGAATTTTCTCCGGCCCGCGTATTGCCAACTCAGCCATCATTG -CCATCGCTTGCGGCGCGGTGGCAAACATCTCATCAACAATCGCTTCGCGTTCAGCTTCACTACGTTCTGGAAAGC -AGAGCGACAGATTGATTAACGCACGACGGCGTGAGCTTTTTCCCAGTCGTCCGGCAAAACGTCCCAGCCGTGCCA -GAATGGGATCACGGAACTTTGGCGGCGTTAAAGCGATACCCGCCATCGCTGCTACGCCCAGCCATGCTCCCCAGT -AGCGCGGGTGGCGAAAGGATTTATCAAACTCAGGAATGTATTCGCTATTATTTTTTTTCGTTTCCATGCTTTTCC -AGTTTCGGATAAGGCAAAAATCAATCTGGTGATAGTGTAGCGGCGCAACTTGCCCCGCACCAAATAAAAAAAGCC -GGTACTGACTGCGTACCGGCTGCGAATGGATGTTAATTAATCAAACCGTAGCTGCGGCACAATCTCTTTGGCCTG -CGCCAGGAATTCGCGACGATCGGAGCCGGTCAGCCCTTCGGTACGCGGCAGTTTTGCCGTCAGCGGGTTTACGGC -CTGCTGGTTTATCCATACTTCATAGTGCAGATGCGGCCCGGTTGAACGTCCGGTATTACCGGAAAGCGCGATACG -GTCGCCACGTTTCACCTTCTGTCCCGGTTTCACCAGAATCTTGCGCAAGTGCATATAACGCGTGGTGTAGCTGCG -ACCATGACGAATAGCCACATAATAACCTGCTGCGCCACTGCGTTTGGCAACCACCACTTCACCGTCACCCACTGA -AAGCACTGGCGTACCCTGCGGCATGGCGAAATCAACACCTCTGTGTGGTGCAACGCGACCGGTCACCGGATTAGT -ACGACGCGGGTTAAAATTAGACGAGATACGGAACTGTTTCGCCGTCGGGAATCGCAAGAATCCTTTCGCCAGACC -AGTACCGTTACGATCGTAGAATTTGCCATCTTCAGCGCGGATAGCGTAATAATCTTTACCTTCTGAACGCAAACG -TACGCCCAGCAGCTGGCTTTGCTCACGTTTACCATCAAGCATTTCTCGAGACATTAACACCGCAAATTCATCGCC -TTTTTTCAGTTTGCGGAAATCCATTTGCCACTGCATGGCTTTAATCACTGCGCTCACTTCGGCGCTGGTTAAACC -GGCGTTTCTGGCGCTGGCAACAAAGCTTCCCCCGACGGTACCTTTCAGCAGATTGTTAACCCACTCTCCTTGCTG -CATTTCGCTGGTCATTTTAAAACCGTTAGCGGCAGTACGGTCATAGGTTCGGGTTTCACGACGAGACACTTCCCA -GGTGAGGCGCTGCAGTTCGCCGTCCGCGGTTAATGTCCAGGAGAGTTGTTGACCGATTTTCAGGTTACGCAATTC -TTTGTCGGCCGCAGCCAGTTGGGTGATATCACCCATATCAATACCATACTGATTGAGAATGCTGCTTAGCGTATC -GCCAGTGGAAACAACATATTCATGCACGCCCGCTTCACCGGCGATTTTGTCATCCAGTTCGTCCTGGGGAATGGC -TTCATCTTCTTGTGCAGCTTGATCAATCGGCTCACTGGCTTCAGGTAAGAGCGAACGAATTTCGTTCTGTTCCAG -CTCAATGGTTTTGACAATTGGCGTGGCATCACGGTGATAAACATAAGGCCGCCAGACAGCGACGGCCAGAGTAAG -AACGGTGAGCGACCCCAACATAACGCGGTGTGGTCGCGGTAAATTATTAAACGCCAGGGCGACAGAGCGGGCTAT -CTGTTGCACGTAATCACTTCCTCATTAATCTCCTTTCAGGCAGCTCGCATACTGGTTGGCTAATTGACTCAGGAA -TTCTGAATAGCTTGTTTTACCCAGTTTGATATTCGTCCCCAGGGGATCCAACGTTCCCATACGAACGGATGTCCC -TCGTGCGACGCTCTCAACGACCGCTGGCCTGAACTGTGGCTCAGCAAAAACGCAGGTTGCTTTTTGCTCAACCAA -CTGTGTTCTTATTTCATGTAAACGCTGCGCGCCAGGTTGAATCTCAGGGTTAACGGTAAAATGACCAAGCGGTGT -CAGTCCAAACTGTTTTTCGAAATAGCCGTAAGCATCGTGAAAAACGAAATAACCTTTCCCCTTGAGCGGCGCGAG -CTCGTTACCAACCTGCGTTTCGGTTGAGGCTAATTGTGCCTCAAAATCCTTCAGGTTGGCGTCAAGTTTGGCTCG -ACTTTGCGGCATAAGTTCCACTAATTTTCCATGGATTGCAACCGCTGTAGCCCGCGCTATCTCTGGGGAAAGCCA -AAGATGCATGTTGAAATCGCCGTGATGGTGATCTTCGTCACTTTTTTCCGCGTGGTCGTGATCATCATCATCGCC -GTGAATACTTTTCATCAGTAGCGGTTTCACATCTTCAAGCTGCGCAATCGTTACCTGCTTCGCTCCTGGTAATTT -GCTTACCGGTTTTTGCATAAACGCTTCCATCTCCGGGCCAACCCAAACGACTAAGTCCGCGTTCTGTAAGCGTTT -TACATCCGATGGGCGCAGTGAATAATCATGTTCTGAAGCGCCGTCAGGAAGTAAAACCTCTGTTTCTGTTACCCC -ATCAGCAATGGCAGAAGCGATGAACCCAACGGGTTTAAGCGAAGCGACAACGGCGGCATCTGCGGCCTGTGTTGC -ACCTCCCCAGAGAGCGGCGGATAATGCTGCGAAAAGAAGCGTTTTTTTATGTAACATAATGCGACCAATAATCGT -AATGAATATGAGAAGTGTGATATTATAACATTTCATGACTACTGCAAGACTAAAATTAACATGACAAGTCTGGTT -TCCCTGGAAAATGTCTCGGTTTCTTTTGGCCAACGCCGCGTCCTCTCTGATGTGTCGCTGGAACTTAAACCTGGA -AAAATTTTGACTTTACTTGGGCCAAATGGCGCAGGTAAGTCGACACTGGTACGGGTAGTGCTCGGGCTGGTAACA -CCCGATGAAGGGGTTATCAAGCGCAACGGAAAACTGCGCATCGGCTATGTACCGCAGAAGCTGTATCTCGACACC -ACGTTGCCACTGACCGTAAACCGTTTTTTACGCTTACGCCCTGGTACACATAAAGAAGATATTTTGCCTGCACTG -AAACGTGTCCAGGCCGGGCACCTGATTAACGCACCGATGCAAAAGCTCTCTGGTGGCGAAACGCAGCGTGTACTA -TTAGCGCGAGCATTGTTAAATCGCCCGCAATTATTAGTGCTGGATGAACCCACTCAAGGCGTGGATGTAAATGGC -CAGGTGGCGTTATATGACCTTATTGACCAACTGCGTCGTGAACTGGATTGTGGCGTTTTAATGGTTTCTCACGAT -CTGCATCTGGTGATGGCAAAAACCGATGAAGTGCTGTGCCTGAATCACCACATTTGTTGTTCCGGCACACCGGAA -GTTGTTTCCCTGCATCCGGAGTTTATTTCAATGTTTGGTCCTCGTGGTGCTGAACAACTGGGTATCTATCGCCAT -CATCATAACCATCGTCACGATTTACAGGGACGAATTGTTTTGCGTCGGGGAAATGATCGCTCATGATTGAATTAT -TATTTCCCGGTTGGTTAGCCGGGATCATGCTCGCCTGTGCCGCGGGTCCGCTGGGTTCGTTTGTAGTCTGGCGTC -GTATGTCTTATTTCGGTGATACGCTGGCTCATGCCTCATTACTTGGCGTCGCGTTTGGTTTGTTGCTGGACGTGA -ATCCATTCTATGCGGTGATTGCCGTTACGCTGCTGCTGGCGGGCGGTCTGGTATGGCTGGAGAAGCGTCCACAGC -TGGCGATCGACACGTTATTAGGGATTATGGCGCACAGTGCCCTGTCGCTGGGCCTGGTGGTCGTGAGTCTGATGT -CTAATATTCGTGTTGATTTGATGGCTTACCTGTTCGGTGATTTGCTGGCAGTGACGCCAGAAGATCTCATCTCTA -TTGCGATTGGCGTGGTCATCGTGGTGGCTATTTTGTTCTGGCAATGGCGCAATTTGCTGTCAATGACGATAAGCC -CGGATCTGGCGTTTGTTGATGGTGTGAAATTACAGCGAGTGAAATTGTTGTTGATGCTGGTGACGGCATTGACGA -TTGGTGTAGCGATGAAATTTGTCGGTGCGTTGATTATTACTTCGTTGCTGATTATTCCTGCTGCTACTGCGCGTC -GCTTTGCCCGCACGCCGGAACAGATGGCTGGTGTCGCTGTTTTGGTGGGGATGGTGGCAGTGACTGGCGGTTTAA -CCTTTTCCGCGGTTTACGATACGCCGGCGGGTCCGTCGGTGGTGCTATGTGCGGCACTGTTATTTATTCTCAGTA -TGATGAAAAAGCAGGCCAGCTAATCTATCGCTGAACACATTTGTCGGATGCGGCGCGAGCGCCTTATCCGACCTA -CGGTTCGGTATCTCTGGTAGTCCTGGTAAGACGCGAACAGCGTCGCATCAGGCATATTGCCAGTGCCGGATGCGG -CGCGAGCGACCAATCCGACTTACGGCATTTCTGGCGGCGTTATGCCAAAGTGATTCCACGCCCGCGTCGTCGCCA -TACGCCCACGCGGTGTACGCTGCAAAAAGCCTTGCTGAATCAAATAAGGTTCCAGCACATCCTCAATGGTTTCAC -GTTCTTCGCCAATGGCTGCCGCCAGGTTATCCAGACCTACAGGTCCACCAAAGAACTTATCGATTACCGCCAGCA -ACAATTTGCGGTCCATATAATCGAAACCTTCAGCATCGACATTCAACATATCCAGCGCCTGAGCAGCGATATCTG -CCGAGATGGTGCCATCGTGCTTCACTTCGGCGAAATCACGCACTCGACGCAGCAGACGGTTGGCAATGCGCGGCG -TACCGCGAGCGCGACGAGCAACTTCCAGCGCGCCGTCATCACTCATCTCAAGCCCCATAAAGCGTGCGCTGCGAC -TGACGATATATTGCAGATCCGGCACCTGATAAAACTCCAGACGTTGCACAATACCAAAACGGTCGCGCAACGGTG -ATGTCAGCGAACCTGCGCGCGTGGTTGCACCAATCAGGGTAAACGGCGGCAAATCAATTTTAATGGAGCGTGCCG -CCGGACCTTCACCAATCATGATATCCAGTTGGTAGTCTTCCATTGCCGGGTACAGCACTTCTTCAACAACTGGCG -ATAGACGGTGGATCTCATCAATAAACAGCACGTCATGCGGTTCAAGGTTAGTGAGCATCGCAGCCAAATCGCCCG -CCTTTTCCAGCACCGGACCAGAAGTCGTGCGTAAATTAACGCCCATTTCATTGGCGACAATGTTGGCAAGCGTAG -TTTTACCCAACCCCGGAGGACCAAAAATCAACAAATGATCGAGGGCATCGCCGCGCAGTTTCGCTGCTTTGATGA -AAATCTCCATCTGTGAACGAACCTGCGGCTGACCAACATACTCTTCCAGTAATTTGGGGCGAATGGCGCGATCTG -CTACATCTTCCGGCAAAGTGGTACCGGCAGAAATCAGACGGTCTGCTTCAATCATCCTTTACCTCATAACGCGGC -GCGTAGGGCTTCGCGAATTAAAGTTTCACTGCTGGCGTCAGGGCGAGCGATTTTGCTCACCATGCGGCTTGCTTC -TTGTGGTTTATAGCCCAGCGCCACCAGCGCGGCAACCGCTTCTTGTTCAGCATCGTCGGTCGCCGGGCTGGCAGG -AGACGTGAGTACCAGGTCGGCGGCTGGCGTAAAGAGATCGCCATGCAAACCTTTAAATCGGTCTTTCATTTCAAC -AATCAAGCGTTCGGCGGTTTTTTTGCCAATACCCGGCAGTTTCACCAGTGCCCCCACTTCTTCACGCTCAACGGC -ATTAACGAACTGCTGCGCTGACATTCCGGAGAGGATCGCCAGCGCCAACTTCGGGCCGACGCCGTTGGTTTTGAT -CAACTCTTTGAACAATGTGCGCTCTTGTTTATTGTTAAAACCGTACAGCAGTTGCGCGTCTTCACGCACCACAAA -GTGGGTGAAAACGATCGCTTCCTGACCCGCTTCAGGGAGTTCATAAAAACAGGTCATCGGCATATGCACTTCATA -GCCTACGCCGCCCACTTCAATTAACACCAGCGGGGGTTGTTTTTCAATGATGATGCCTCTGAGTCTGCCTATCAC -ATGACGCTCCTGCGTAATGAATCAAAGATAATGCTGTATGATAAAAAAATGCTGGATAGATATCCAGCGAAGGAT -GAAGAAAACTTGCGAGGTGTCTCGATGAACTGAAAAATGGCACAGTATAATTTATTCTACAGGTTATATTGGAAG -CAAATATTTTAATATTACATATTCAGTGAAGAAATGCGTAATAAAAATATACATTGCGCCTCCTGAAAAAATAAA -TTTTTTATGCTATTACGTATATTTGTATCTATTTCAATGGAATGACAACGTGAATATTAATTACCCTGCTGAATA -TGAAATTGGAGATATCGTCTTTACATGTATAGGTGCTGCCTTATTTGGTCAAATATCAGCTGCATCAAATTGCTG -GAGTAATCACGTCGGGATCATTATCGGTCATAACGGTGAAGACTTCCTGGTTGCAGAAAGCCGGGTTCCCCTTTC -AACCATCACCACGCTATCTCGTTTTATTAAACGTTCGTCTAATCAACGCTATGCTATAAAGCGATTAGACGCTGG -GCTGACAGAACGACAAAAACAACGAATTGTTGAACAGGTTCCCTCCCGGCTACGCAAACTTTACCACACCGGTTT -TAAATACGAATCTTCGCGCCAGTTCTGTTCAAAATTTGTTTTTGATATTTATAAAGAAGCGCTATGTATTCCGGT -GGGTGAAATAGAGACGTTTGGAGAATTGTTAAATAGCAATCCGAATGCAAAACTCACTTTCTGGAAATTCTGGTT -CCTGGGTTCTATTCCGTGGGAGCGTAAAACCGTCACGCCAGCCAGTTTGTGGCATCATCCGGGTTTGGTGTTGAT -TCATGCGGAGGGAGTGGAAACGCCTCAGCCGGAACTGACCGAGGCGGTATAACTTAACGCAGTCGCCCTCTCGCC -AGGTTCAGCCGCGATTCGCTCATCTGCATCGCATTCTGACTAACGTGGCAGTGGGTGATAGCAATCGCCAGCGCA -TCGGCGGCATCCGCCTGTGGATTAGCGGGCAGTTTCAGCAAGGTGCGGACCATATGCTGCACCTGGCTTTTTTCG -GCACTGCCAATACCTACCACCGTTTGCTTTACCTGACGTGCCGCGTATTCAAATACTGGCAACTCCTGATTCACC -GCCGCCACAATCGCCACGCCGCGCGCCTGGCCCAGTTTCAGGGCTGAGTCAGCGTTCTTTGCCATAAAGACTTGT -TCAATGGCGAAATAATCAGGCTGGAACTGGGTGATGATTTCCGTCACGCCCGCATAGATGAGTTTCAGACGAGAC -GGTAAATCATCCACTTTGGTGCGGATGCATCCGCTACCCAGGTAGGACAGTTGCCTACCTACCTGGCGGATGACG -CCGTAGCCGGTCACGCGCGAACCCGGATCAATGCCGAGAATAATAGCCATCACGCGTCTCCGTTTTGCTGTTTAG -CAGGCCTCATCAGAGAGTCGCTGCGACCTCATCAGAGATTTCACCGTTATGGTAAACTTCCTGCACGTCGTCGCA -ATCTTCCAGCATATCGATCAGACGCATCAGTTTCGGTGCGGTTTCTGCATCCATATCAGCTTTGGTAGACGGGAT -CATGGAAACTTCCGCGCTGTCTGCTTTCAGACCTGCCGCTTCCAGAGCGTCGCGCACTTTACCCATTTCTTCCCA -TGCAGTGTAGACATCAATCGCGCCGTCATCATAGGTCACAACGTCTTCAGCACCTGCTTCCAGTGCTGCTTCCAT -GATGGTGTCTTCATCGCCTTTCTCGAAGGAGATCACGCCTTTTTTGCTGAACAGATAGGCAACGGAACCATCAGT -ACCGAGGTTACCGCCACATTTGCTAAATGCATGACGCACTTCAGCAACGGTACGGTTGCGGTTGTCAGACAGACA -TTCAATCATGATTGCCGTGCCGCCAGGACCGTAACCTTCGTAGATGATGGTTTCCATGTTTGCATCATCATCACC -GCCCACACCACGTGCAATTGCGCGGTTCAGTGTGTCACGGGTCATGTTGTTAGACAGTGCTTTATCCACCGCCGC -ACGCAGACGCGGGTTAGCGTCCGGATCGCCACCGCCCAGCTTAGCCGCGGTTACCAGCTCACGAATGATTTTAGT -GAAGATTTTACCGCGCTTAGCATCCTGCGCAGCTTTACGATGTCTGGTGTTGGCCCATTTACTATGACCTGCCAT -AAAAATATCTCCAGATAGCCCTGCCTGTTCAGGCAGCGTTAATTACAAACTGTTCAATCGCCTGCCGGTTGCTCC -AGGACTTAGTGAGCGCCGCCGCAGCAGGCGCATCAAGCCACTTGTAAGCCAGATGTTCAGTGAAAACGATCTGCC -GCTCGTGCGGAAGCGCAAGACAGAACCATGATTCCGTATTACGCGTCACGCCCGGCGCATAGCGATGACGTAAAT -GTGAAAAAATTTCAAACTCTACCGTGCGCTGACAGTCAATTAAGGTCAGTTGTTCAGCGACAACATCAATGGTGA -CCTCTTCCTTTACTTCGCGCATGGCAGCTTGCGGCGCGGTTTCACCCTCTTCCACGCTGCCGGTTACCGACTGCC -AGAAATCGGGATCGTCACGCCGCTGCAACATCAGCACCCGTTTCGTATCTTGTGCGTAGATGACCACTAAGATCG -AAACGGGACGCTTATACACTTTATCCTTCACGCTGCCTCTTCGTTGACTGCCTTCGCTCATCCCATTCACATAGT -TATCTATGCTCATGGGAGTTCACTCAGTTGCCGCCTCGATGCAACGCGAATGATTTCGTGTATTTGAGTCATATC -AGTTATTCTCAGCCTTCTTCACAACCTGAATGCTCAGCTCAGCCAGTGCAGTCGGGTTAGCAAAGCTCGGTGCTT -CAGTCATCAGACACGCTGCCGCCGTGGTTTTCGGGAAGGCGATAACGTCACGGATATTGTCGGTGCCGGTCAGCA -GCATGGTCAGACGGTCAAGACCGAATGCCAGACCTGCGTGCGGCGGAGTACCGTATTTCAGAGCGTCGAGCAGGA -AGCCGAATTTCTCGCGCTGTTCCTCTTCGTTGATACCCAGAATACCAAACACCGTCTGCTGCATATCACCATTAT -GGATACGTACTGAACCACCGCCCACTTCGTAACCATTGATGACCATATCGTAAGCGTTCGCCACCGCATTTTCCG -GTGCAGCTTTCAGTTCTGCAGCCGTCATATCTTTCGGTGAGGTGAACGGATGGTGCATTGCCGTCAGGCCGCCTT -CACCGTCGTCTTCAAACATCGGGAAGTCGATAACCCACAGCGGTGCCCATTTGCTTTCGTCGGTCAGACCAAGGT -CTTTACCCACTTTCAGGCGCAGTGCACCCATCGCGTCGGCAACAATTTTCTTGTTGTCGGCACCGAAGAAAATCA -TATCGCCATCTTGCGCGGCAGTACGATCCAGGATGTCTTCGATGATTTCTGCATTAAGGAACTTCGCTACCGGGC -TGTTGATACCTTCCAGACCTTTCGCGCGTTCGTTAACTTTGATGTAAGCCAGACCTTTCGCGCCGTAGATTTTAA -CGAAGTTACCGTATTCGTCGATCTGCTTACGGGTCAGCGATGCGCCGCCCGGAACGCGCAGAGCCGCTACGCGAC -CTTTCGGATCGTTCGCCGGACCTGCAAATACAGCAAACTCAACAGATTTCAGCAGATCAGCAACGTCAGTCAGTT -CCATCGGGTTACGCAGATCCGGTTTATCAGAACCATAACGGCGTTCTGCTTCCGCAAAGGTCATTACCGGGAAAT -CGCCCAGATCCACACCCTTCACTTCCAGCCACAGATGACGCACCAGCGCTTCCATCACTTCACGCACTTGCGGCG -CGGTCATGAAAGAAGTTTCCACATCGATCTGAGTAAATTCAGGCTGACGGTCAGCACGCAGGTCTTCGTCACGGA -AGCATTTAACGATCTGATAGTAACGGTCAAAACCGGACATCATCAGCAGCTGTTTGAACAACTGCGGGGATTGCG -GCAGTGCGTAGAATTTACCTTTGTGCACACGAGAAGGCACCAGGTAGTCACGCGCGCCTTCCGGCGTGGCTTTGG -TCAGCATCGGAGTTTCGATGTCGAGGAAGCCGTGGTCATCCATAAAACGGCGCACCAGGCTGGTGATTTTAGCGC -GGGTTTTCAGGCGCTGAGCCATTTCCGGACGACGCAGGTCGAGGTAGCGGTATTTCAGACGCGCTTCTTCGGTGT -TGACGTGGTTAGAGTCAAGCGGCAGAACATCTGCGCGGTTGATGATAGTCAGCGAGGACGCCAGCACTTCGATTT -CGCCGGTCGCCATATCGCGGTTAATATTTTTTTCGTCACGCGCACGTACGGTGCCCGTGACCTGAATGCAGAACT -CATTACGCAGTTCAGAGGCCAGCTTTAACGCGTCCGCACGATCCGGATCGAAAAATACCTGCACGATACCTTCGC -GGTCGCGCATATCGATGAAGATCAGGCTACCAAGATCACGACGACGGTTGACCCAACCACACAGAGTCACCTGCT -GCCCCACGTGGGACAAACGGAGCTGTCCACAATATTCTGTACGCATGAGATATCCCTTAACTTAGCTGCCGGCGG -ATGCCCCCTGCTGCGCAGGTGACCAAGTCGCAGCGTTAGCTGTATGTCACAACTGAATGAAAAAAGGCGGCTATT -ATACTGGAAATTCTGCCGCACCGTAAGAGCCTGGCCCGCGCTGGAACGCCTCGTTACCACTTTATATCGGGCCTG -AAATCAGACTCTACGCCAGTTTGCTATAAAGGTGTTGCCCGAACTCATAAAAATTAACAAAATTTGTCGTTCCGC -CATCGGCTAATCGCATTAAGGTGTGAGGCACGATTTTGTTTTTTCAGGAGTCATTATGCTTGAACTTAATGCTAA -AACCACTGCGCTGGTGGTGATCGATTTACAAGAAGGCATCTTACCTTTTGCCGGTGGTCCACATACTGCCGATGA -GGTAGTTAATCGCGCCGGGAAGCTGGCGGCGAAATTTCGCGCCAGCGGTCAGCCCGTGTTTCTGGTGCGCGTTGG -CTGGTCTGCCGATTACGCTGAAGCATTAAAACAGCCGGTCGATGCGCCCTCACCGGCTAAAGTGTTGCCCGAAAA -TTGGTGGCAACATCCTGCTGCATTAGGTGCAACCGACAGCGATATCGAAATCATCAAACGTCAATGGGGTGCGTT -TTACGGTACGGATCTGGAGTTGCAATTACGCCGCCGAGGTATCGATACAATAGTGTTATGTGGGATCTCGACCAA -TATCGGTGTTGAATCCACCGCCCGCAATGCCTGGGAACTTGGCTTTAATCTGGTGATTGCCGAAGACGCCTGTAG -TGCCGCCAGCGCCGAGCAGCACAATAACAGTATCAACCATATCTACCCGCGCATCGCCCGTGTGCGTAGCGTGGA -AGAGATCCTCAACGCGTTATGATTTACATCGGTCTACCGCAATGGTCGCATCCTAAATGGGTGCGGTTGGGGATC -ACCAGCCTTGAAGAGTATGCCCGCCACTTTAACTGCGTGGAGGGCAACACCACGCTTTACGCCCTGCCGAAACCC -GAGGTTGTCCTGCGCTGGCGTGAGCAGACCACAGATGACTTCCGCTTCTGTTTTAAGTTTCCGGCGACCATTTCG -CATCAGGCAGCATTACGGCATTGCGATGATTTAGTGACTGAATTTTTGACCCGCATGTCACCGTTGGCTCCGCGC -ATTGGGCAATACTGGCTGCAACTGCCTGCCACATTCGGCCCACGGGAGCTGCCTGCGCTTTGGCATTTTCTCGAT -TCTCTTCCTGGCGAATTTAATTATGGCGTGGAAGTCCGCCATCCACAGTTTTTCGCCAAAGGAGAAGAGGAACAA -ACGCTTAATCGCGGTTTACATCAGCGCGGCGTTAATCGGGTGATTTTAGACAGCCGCCCGGTTCATGCAGCACGT -CCACACAGTGAAGCTATTCGCGACGCTCAACGAAAAAAACCTAAAGTTCCGGTACATGCTGTACTGACGGCGACA -AATCCGCTGATCCGTTTTATCGGTAGTGATGATATGACGCAAAACCGGGAATTATTTCAGGTCTGGTTACAAAAA -TTAGCGCAGTGGCATCAGACCACTACGCCTTATCTTTTTTTACATACGCCAGACATTGCCCAGGCACCGGAACTG -GTACATACCCTGTGGGAAGACTTACGTAAAACGCTTCCAGAGATCGGAGCAGTTCCGGCTATTCCACAGCAATCT -TCTCTTTTCTGAATTTGCCACCTATCATAGACAGGTGCCATCGGCCATTTTAAAGGGAGTTTGTATGGTAAGCGC -GCTGTACGCCGTTTTAAGTGCGTTGTTATTAATGAAGTTCTCTTTTGATGTCGTTCGCCTGCGAATGCAGTACCG -CGTTGCCTATGGCGACGGCGGTTTTAGCGAACTGCAAAGCGCTATTCGCATTCATGGTAACGCGGTGGAATATAT -TCCCATCGCGATTGTGCTGATGCTGTTTATGGAAATGAATGGCGCAGAAACCTGGATGGTGCATATTTGCGGCAT -CGTTTTGCTTGCTGGTCGTCTGATGCATTATTACGGTTTTCATCACCGTCTGTTCCGCTGGCGACGTTCCGGCAT -GAGCGCCACCTGGTGTGCGCTGTTGCTGATGGTGCTGGCGAATCTTTGGTATATGCCCTGGGAGTTGGTTTTCTC -CCTGCGTTAGCGCACAATACGCCACTTTCTTTTTCCCGGATTTTTACGTTATGTCTCACCGCGACACGCTATTTT -CTGCCCCTATCGCCAGACTGGGCGACTGGACCTTTGATGAACGGGTAGCTGAAGTCTTCCCGGATATGATCCAGC -GTTCCGTACCCGGCTATTCCAATATTATTTCCATGATTGGTATGTTAGCCGAGCGCTTCGTTCAACCTGGTACGC -AGGTTTACGATCTGGGTTGTTCTCTGGGCGCGGCGACGCTCTCGGTGCGTCGCAACATTCATCATGATAATTGCA -AAATTATTGCCATCGACAACTCCCCGGCGATGATTGAACGCTGCCGTCGTCATATTGACGCCTATAAAGCCCCTA -CGCCAGTAGACGTCATTGAAGGTGATATTCGCGATATCGCCATTGAAAACGCATCGATGGTGGTGCTGAATTTTA -CCCTGCAATTCCTGGAACCTTCCGAGCGCCAGGCGTTACTGGATAAAATTTATCAAGGGCTGAACCCCGGCGGCG -CGCTGGTGCTTTCGGAAAAATTCAGTTTCGAAGATGCCAAAGTTGGTGAACTGTTGTTCAACATGCACCACGACT -TTAAACGTGCCAACGGTTACAGCGAACTGGAGATCAGCCAGAAGCGCAGCATGCTGGAAAACGTGATGCTGACCG -ATTCCGTGGAAACCCATAAAGCACGCCTGCATAACGCCGGTTTTGAGCATAGTGAGCTGTGGTTCCAGTGCTTTA -ACTTTGGTTCACTGGTGGCATTAAAAGCAGAGGACGCTGCATGATCGACTTTGGTAACTTTTATTCTCTGATTGC -CAAAAATCATCTTTCACACTGGCTCGAAACGCTGCCCGCGCAGATTGCTAACTGGCAGCGCGAGCAGCAGCACGG -GTTGTTTAAGCAGTGGTCAAATGCGGTGGAGTTTCTACCTGAAATTAAACCGTATCGTCTTGATTTATTGCATAG -CGTTACGGCAGAAAGCGAAGAGCCACTGAGCGCAGGGCAAATTAAACGCATTGAAACGCTGATGCGCAACCTGAT -GCCGTGGCGCAAAGGGCCGTTCTCACTGTATGGCGTCAACATCGATACCGAATGGCGTTCCGACTGGAAATGGGA -TCGTGTTCTGCCCCATCTTTCTGATTTAACCGGACGCACCATTCTGGATGTCGGCTGCGGCAGCGGTTATCACAT -GTGGCGCATGATTGGCGCAGGCGCGCACCTCGCGGTGGGGATCGACCCTACGCAACTGTTTCTGTGCCAGTTTGA -AGCGGTGCGTAAACTACTGGGTAATGATCAGCGCGCGCATTTGTTACCGTTAGGTATTGAACAACTTCCGGCACT -GAAAGCCTTTGATACCGTCTTTTCGATGGGCGTGCTTTACCATCGCCGTTCACCGCTGGAGCATCTATGGCAGTT -GAAAGATCAACTGGTCAATGAAGGTGAACTGGTGCTGGAAACGCTGGTTATTGATGGTGATGAGAACACGGTGCT -GGTACCAGGCGATCGTTACGCGCAAATGCGTAATGTCTATTTCATCCCTTCCGCGCTGGCGCTGAAAAACTGGCT -GAAGAAGTGTGGTTTTGTAGATATCCGCATTGCGGATGTGAGCGTTACCACCACAGAAGAGCAGCGACGCACCGA -ATGGATGGTTACCGAATCGCTGGCCGATTTCCTCGACCCACATGATCCGGGTAAAACGGTGGAAGGTTATCCGGC -ACCTAAACGCGCGGTGCTGATTGCGCGCAAGCCGTAAAGGTCTGGTATTACTGCCGGATGCGGCGTGAACGCCTT -ATCCGGCCTACAAAACCTTGCTAATTCAATATATTGCAGGGACTATGTAGGCCTGATAAGCATAGCGCATCAGGC -AGCTTTACGTTTGCATAACCTCAGCGCCCGTTTCCGGGCGCTATTCACGTCTTACGCCTGAACAGCTGGCTGATC -AAACGCCGTTAACTTCGGTGCATTGCCCGTATATTTTTCGATATACACCAACGCTGAGTTACCGGCACAGGCATT -TGCCAGCTGCGAGCTGGGGATATCCGCCGTTAACACGTTCGCACTGCCGTTTTTACACAAGCCATTTTCCAGATC -TGGCCATGCACCTTCATGCACGCATACCACGCCTTTTTTGATCCCGTCAGTCACCACCGCGCCTGTCAAAATCTG -ACCACGTTTGTTCCAGACACGCACCAGATCGCCATTCGCAATACCAAAGCGTGCAGCATCTTCGGTGTGAATAGT -GATTGGTTCACGATCGGCGATCGCATATTTTTTACGCAGTTCCGCATAGTTAAGCTGACTGTGTAAACGGTGTGC -CGGATGTGCGGTCAGAAGCTGTAACTGCTTCTCGTCGGCGGTACCTTTCCATTCATCAGGAGCCAGCCAGGTTGG -GTGTGCCGGGCAATCCTTATAGCCAAATTTTTCCAACGTTTTTGAATAGATTTCAATTTTGCCGCTTGGCGTACC -CAGCGCATTTTTCACCGGATCGGCGCGGAAATCACCATAACGAACGTACTGTTCGTTCTTCTCGCTGTGGCGCAT -TTCGATCAGTTTATTTTGCTGCCAGAAGGCATTAAACATTGGCATAGTGACGCGTTGCGCACGGGCACCTTTCTG -AGCGGCATCATAGAAAAATTTCAGCCACGCCATTTCATCTTTACCTTCGGTATAGATCTCTTTTCCGCCAGGTTT -GAGTAATTCCGCAAGATCGGCAAACACGTCAAAATCGTTACGCGCTTCAAATTGCGGAGCAACAGCCTGCTTCAT -CGGCACAATATGCTGGTTGCTGTAATCACCGGTCATCGTCAAGTCATTGCGCTCAAACGATGTGGTGATCGGTAA -TACGATATCTGCGTGTTTGGCTGCTGCGGTCCAGTAGCATTCAGAAACGACGATCATCTCCGGTTTCTGCCATGC -TTTAATCAGACGATTAGTATCCTGGTGATGGGTAAAGTTACCGCCACCCGCCCACCAGATCATTTTGATATTCGG -ATACGTTTGTTCTTTACCGTTATGCTGATATTTGCCGCCAGGATTTTCCAGCGCATCGACGATACGGGCAACAGG -AATCGCCGTCATTCCGCCATCATCAGCGGCCTCGCTGGCATGTCCGGCAATCGCCGCAGACATTTCCGGCAGCAC -GCCGCCAACACGCGTCGGGTTGCCACCGTTGGAGTAATGATAAGAGAAACCAAAACCGCCGCCCGGTGTACCAAT -CTGCCCTAACATCGCCGCCAGCGTCACCAGCATCCAGTGTTTCTGTTCACCATATTGCTGGCGCTGAATTCCCCA -GCCTGCCATCAGCATTGTGCGATTCGCCGCCATCAGTTCAGCGAGTTTGACTATCTGCGCTTCCGGTACGCCAGT -AATTTCCGCCGCCCAGACCGCGCTCTTCGGCGTATTATCGCTCTTACCTGTCAGATACTCTTCAAACTGCGGATA -CCCGGTAGTGTATTTTTCAAGGAACACTTTATCGTGTTTGCCTTGTGTCATCAGGGTATGCGCAATCCCTAACAT -CAGTGCCACGTCGGTGCCCATATTCGGCGCGATCCAGGTGGCATTATCGTCAAAGAATTCGATGGTTTCGGAGCG -GATAGGATCAATGGCAATCACTGGTTTGCCAGATTTTTTCAGCTGATGGAAGTATTCCAGCCCTTGCTCATCGGT -ACTGCTCCAGGCAATTTTTAAGGTATTCAGCGGGTTCATTCCCCACAGCACCACAACCTGGCTGTTTTCCAGAAT -CAGCGGCCAGGAGGTCTGCTGTTCATACACCTCTACAGAACCGACCACATGCGGCATGATCACCTGTGCTGCCCC -GGTTGAATAATCGCCGCTATGCCCGGAATAACCGCCCGCCAGGTTCATATAACGTTGCAGTAAGGTTTGCGCTTT -ATGCAACACGCCAGAAGAGCGCCAGCCGTAAGATCCGGCAAAAATGGCCGATGGTCCGTTAGCTTTACGAATACG -ATCATGTTGCTCATGAATCAGTTTTAATGCCTGTTCCCAGCTCACCTGTACATAGGTATCTTCGCCACGACCTTT -CGCCGGTTGCAGTGGATTATCGAGATAGCTTTTTCTCACCATCGGATGCTGAATACGCGCCGTGGTGTGTACCTG -ATCCGCCGCCGTAGACTGTAAGGAATTCGGTATGGTTTTCGCCAGCGCGCCTGTTGAAGAAACAATCTTGCCGTC -CTTCACTTCTACGTTCATCGCTCCCCAACGTCCCGCGGTGAGGATTTTACCGCCCTTCTCTTCTGCCCATGCGGG -GAGCGGTGCTGCCGATGTCACCACCAGCGCTCCAGCGGCAATACCGCTGTGTTTAATAAATTCACGTCTTGTTAA -TGTCATAACTTCCTCCCTGATCAACGAGGATCACTGTTTCTCGGTAATATCTTTGGCGTTGTACTGGAAATACCG -CGTTAAAATGTCCAGTTCGTTTTCGCTCATGCTGGTTCGTGCCCCCATTCCTTTGGCAATGGACGGCCACGCATT -GACGGTGTAATGGTCGGCGGCAATAGGGGCATGACAACCAGCGCAATAGGTATCGTCAAGTTTTTCAGCGTATTG -CCATAGCGGTTTACGGTCCGCTAATGCGGGATCGGTAAGCGCACCCTGTAAAGACGCCTGACGCCATTGATTGCC -GTATTCGTCAGCCTGCCATTCCCCGTTTACAGTGAGCGCCTTGATACCTTCTTCACTTAATGTGGCTAGCGCCAG -CCGTTGACCTGCCGCCAGGTAGAGCGTGTTTTCACTGCCCTGCATTTGATAACCCTGCAACAGAACGATCGGCTG -TTTGCCACTGGCATCAACGACGGTGAGATCGGTTCCAGGATTCACGGTAGCCAGCTCGCCTATGTGAGAAGTTTT -GAAAGGATAAATATGTGCGCCATTAGTAACTGAAGTAGCGGCCTGACTTTCCAGCTCATGCGCCGCGTTGTCATC -CATTTTTATTTCTGGCGGAAAATGGGCAATGCCTTTATGACAATCGATACAGGTTTCGCTGTCCTTTTGTGCTTT -GTTATGCATTTTCTGCGCAGATTCACTTTGCGAGGCAATATCCATGGCATCAAAAGAATGGCAACTACGGCACGT -TGCAGAGTCAGTGGCTTTTAATTCTTTCCATACTGTTTCGGCCATTTCCTGGCGATGAGCTTCGAACTTATCGTC -ACTGTCTATTTTGCCGCTAACAAATTCATGATAAATATCTTTAGATGCCTTTAATTTAGCAAATAAATAATCCAT -CCCTGACTTTGGAATATGGCAATCGGCACATTCCGCACGTATCCCTTTCTGGTTCGAAAAGTGGACAGTTCCCTG -ATATTCCTCAAAAGGTTTACTCATCGAGTGGCAGGAAAGGCAAAATGCTGTATCCGACGTTTTATGTAAGACTTT -TTGCGCCAGCAATAACCCGCCGCCACCAACCACAACCGCTATCAGCAAAAACAATAACCCAATGCGTTTTTTCCC -TCGCATAGATTCCTCTAATTAAATTACTGGACACCGAAATCATTGTATAATTAAATATACAACGAATTAACCGCT -TGCATAATTAGGCACAACACTGCCTGAAACAATCGATAAAGAATATGATTTATTACAATGTAATCATTAATTGCT -AAGGAATAACCCAGTTGCTATTTAGAATATATATTTATCAGTTTTAGTAATTTAAATCCCATAATTAATGTGAAT -ATATACAATATTTTTAGCACAACGCTATGCGCACTGTCACCCGCTCAACAGATCACGGTTATCGTTCGTTTTTTA -TACTGTTCAGGGATAAAAAAAGGCCCCTGTTGAAATTGCAGGGGCCTGGTACGAGCAAGCATCATATTGGGCGAC -ATGATGCAACGGTAAAAATCATTTGGCCTGATGGCGTTCAATGATTCCTTTCATTTCAGCAACCGCCGCCCCGTC -TACGATATAACGCGAATACTCGTCCGCGTGTTCATCTGATGACATGGACAATCCTTGATTACGATAACGCATCGG -TGAGGCTTGCCACGCTCCCGCGGAGCTATGGACTTCCAGCACTCCGGCATCGAGGAAGTGGTGCAGGTTTTCTGC -ACGGACTCCTGCTCCGGCCATAATGATTGGAGCATCACGATGGGCAATAAGTTCCATAATTTTTGATAAACCTTG -CAGTGCGTCTGATTTTTGCCCTGATGTCAGTACCCGGGCAATGCCCAATTCCGCAAGATTATTGAGTGTATATAA -AGGGTTAGCGCACATATCGAAGGCGCGATGAAAAGTCACTGCCAGCGGACCGGCAGCAGCCATTATTTTTTCCAT -TCGTGGCATATCGACATTCCCGTCAACATCGAGAACGCCCGTCACCAGTCCAGGAAAACCTAATTCGCGGACCGT -GCGCACATCCTCAAGAATGGCGGCAAACTCACCGTCGCTGTAGCAAAAATCACCACCGCGTGGGCGAATTATCGG -ATGCACAGGGATCGTCACCCGCTGGCGCACGGATTTCAGTACACCCAACGACGGCGTTAAGCCCCCCTCTTTTGG -GGCTGCGCATAATTCAACTCTGTCTGCGCCGTTTTGCTGCGCCGTTAGTGCACATTCCATGCTGTAACAGCAAAT -TTCCAGTAATGCCATTTTTACTCCTTAATTACGCCGACTGCTCGCTGGCAACGATCTCTTCAATGGACCACGGAT -GAAACTTAATAGTTGTTTTGCCATCGGTGACCGCCAGCGTCGGATTCGGTAATCGCTCATGCTCACCTTTTGGCG -AACTGGTTTTCACTGAGATCCCCGGTAGGCTGAGTCCTTCATCAGAAAGCAATGCCAGCGCACGGGCATTCAGCG -TTTCTGGATCACCCGGCAGAACGATTTCAATATGTTCCCAACCTTCGTGTGGGTAACGTTTTTCCCCGGGCCACG -GTAGCTCCACAATAGAAAACTGCCAGTGCGCAACCTGTACCGGTTCATGCAATTTAAACAGACAAATCGGTCTGC -CATTGATCATATTTTCTGACAAAAGCTCGCCACACTGTTCAAACCCGCGACGCCAGCGTTCAGCAGTGGCGTTTT -GATGGCAACGCAAAGAAATGTGATCGGCAGTCAGCGGAGTGATATTCAACCCCAGACGGCGGGAAAGTTCATCTA -ATGCGTGGATAAATCGCGGTAAATCCGATGCAATATCCTGCAGCTCGTCGATAGATTGCCAGTTCGCCATAATCA -CTCTTCGTCTTTCAGTAAAAGCGTTAATTTACCCTGTTGCCCTGTGCCAACCAACCGCTGATTTCACGCCGCTTC -TGATGCAATAGTGAAAACGGCAATACGCCACGCGCACGTTGCTGACGAAAACAGCCATTTGCAGTATACTCCCGC -CCTAATTTCTTTAACTGGTGCGGGCAATTTTTGCTCGCTTCATCAATGTAAGGTATTCCGGTGAATATTCAGGCT -CTTCTCTCAGAAAAAGTCCGTCAGGCCATGATTGCGGCAGGCGCGCCTGCGGATTGCGAACCGCAGGTTCGTCAG -TCAGCAAAAGTTCAGTTCGGCGACTATCAGGCTAACGGCATGATGGCAGTTGCTAAAAAACTGGGTATGGCACCG -CGACAATTAGCAGAGCAGGTGCTGACTCATCTGGATCTTAACGGTATCGCCAGCAAAGTTGAGATCGCCGGTCCA -GGCTTTATCAACATTTTCCTTGATCCGGCATTCCTGGCTGAACATGTTCAGCAGGCGCTGGCGTCCGATCGTCTC -GGTGTTGCTACGCCAGAAAAACAGACCATTGTGGTTGACTACTCTGCGCCAAACGTGGCGAAAGAGATGCATGTC -GGTCACCTGCGCTCTACCATTATTGGTGACGCAGCAGTGCGTACTCTGGAGTTCCTCGGTCACAAAGTGATTCGC -GCAAACCACGTCGGCGACTGGGGCACTCAGTTCGGTATGCTGATTGCATGGCTGGAAAAGCAGCAGCAGGAAAAC -GCCGGTGAAATGGAGCTGGCTGACCTTGAAGGTTTCTACCGCGATGCGAAAAAGCATTACGATGAAGATGAAGAG -TTCGCCGAGCGCGCACGTAACTACGTGGTAAAACTGCAAAGCGGTGACGAATATTTCCGCGAGATGTGGCGCAAA -CTGGTCGACATCACCATGACGCAGAACCAGATCACCTACGATCGTCTCAACGTGACGCTGACCCGTGATGACGTG -ATGGGCGAAAGCCTCTACAACCCGATGCTGCCAGGAATTGTGGCGGATCTCAAAGCCAAAGGTCTGGCAGTAGAA -AGCGAAGGGGCGACCGTCGTATTCCTTGATGAGTTTAAAAACAAGGAAGGCGAACCGATGGGCGTGATCATTCAG -AAGAAAGATGGCGGCTATCTCTACACCACCACTGATATCGCCTGTGCGAAATATCGTTATGAAACACTGCATGCC -GATCGCGTGCTGTATTACATCGACTCCCGTCAGCATCAACACCTGATGCAGGCATGGGCGATCGTCCGTAAAGCA -GGCTATGTACCGGAATCCGTACCGCTGGAACACCACATGTTCGGCATGATGCTGGGTAAAGACGGCAAACCGTTC -AAAACCCGCGCGGGTGGTACAGTGAAACTGGCCGATCTGCTGGATGAAGCCCTGGAACGTGCACGCCGTCTGGTG -GCAGAAAAGAACCCGGATATGCCAGCCGACGAGCTGGAAAAACTGGCTAACGCGGTTGGTATTGGTGCGGTGAAA -TATGCGGATCTCTCCAAAAACCGCACCACGGACTACATCTTCGACTGGGACAACATGCTGGCGTTTGAGGGTAAT -ACCGCGCCATACATGCAGTATGCATACACGCGTGTATTGTCCGTGTTCCGTAAAGCAGAAATTGACGAAGAGCAA -CTGGCTGCAGCTCCGGTTATCATCCGTGAAGATCGTGAAGCGCAACTGGCAGCTCGCCTGCTGCAGTTTGAAGAA -ACCCTCACCGTGGTTGCCCGTGAAGGCACGCCGCATGTAATGTGTGCTTACCTGTACGATCTGGCCGGTCTGTTC -TCTGGCTTCTACGAGCACTGCCCGATCCTCAGCGCAGAAAACGAAGAAGTGCGTAACAGCCGTCTAAAACTGGCA -CAACTGACGGCGAAGACGCTGAAGCTGGGTCTGGATACGCTGGGTATTGAGACTGTAGAGCGTATGTAATCGATT -TTTCGTGAGAGTGAAGCCTGATCAGGGTTAGCCGATCAGGCTTTTTTATTGCCATCTAAATGTATTCTGAAAATG -GACATGCCATTGTTTTCTCACTGTTGGATAAGAGGCCAGAAGCGTAATATCCGGCCCCAGGGAAACGATAACGGT -TGAATTTAAGGAATACCGCAGTGTTTAAATTTCTTGTATTAACATTAGGCATTATCTCTTGCCAGGCTTACGCAG -AAGATACGGTTATAGTAAACGACCATGACATTTCAGCCATCAAAGATTGTTGGCAAAAAAATTCAGATGATGATA -CTGACGTTAACGTGATCAAATCATGCCTGCGACAAGAATACAATCTCGTCGATGCGCAATTAAATAAAGCCTATG -GTGAAGCTTATCGTTATATAGAACAAGTGCCACGCACAGGTGTAAAAAAACCTGATACCGAACAACTTAACTTGC -TTAAAAAATCACAGCGAGCCTGGCTGGATTTTAGGGACAAAGAATGTGAATTAATCCTTTCAAATGAGGACGTTC -AGGATTTAAGTGACCCTTATTCTGAATCAGAATGGCTCTCATGTATGATCATACAGACCAATACGCGAACTCGCC -AGTTGCAGCTATACCGTAACTCTGAAGATTTTTATCCAAGCCCTTTGACAAGAGGATAATTCACATCTTTTTGGC -ATGTTTTGTTGCAAGCTATTCCTGATAAATAATTGCAACAAGACATCGAGCCTTTTTCACTGAGTTATTAAACAT -ACTCGCGAGCGCGTAATTTTTTTGTCCTTCAGCGATAATTCACAATCACTTCATTACGTTGTACCTTTAGCGGTG -GAATTAACCGCCCACCGCCTGGCACTTCCCAGATAAATCGCAACGGTTCTGCTGCCGCTATACCGGAAAAGGCCA -CGGTGGTTCCGCTCTGCCCCTCTAATTCGACACAACGAGATTGCGAACACAAGCGAACCCGCAGTCCTGAAGGTG -TCGGGCCGATAAGCTGATAACGCCACGCTACCAGCGTCATCAATCCTGAAGCAGGTTGTCGCGTAGAAAGAGGCG -CAGACGACATCGACTCACCGCGATGATTTAGCGTAATTCCTACACTACTTGCCTGCCACATCCCCTCCCCGGCGG -CTTGCACCAGCAGCGGAAACAATAATATTGCTAATAAGGTTCTCATTATTTGCCGCCAATTGTCGCCGTCATGCG -GATATGTCGGTTATCAGACAGTTCCAGATTCGACAGGACCACTAACTGCGGCAAGCTGCGGCGCAGGAAGCGAGA -CAATAATGGTCGCAGCGCGTGGTTCACCAACAATACTGGCGGCGCACCCAGCATCTCCTGACGGGATAGCGCTTC -CTGAGTTTGCGCCAGTAAACGATCCGCCAGCCCTGGCTCCAGTCCTCCCCCGCCCTGCAGCGCCTGTAGTAACAA -ACGTTCCAGCGGTGTATCGAGGCCAATAACATGGACTTCATCTTTGCCAGGAAACCACTGCTGGGTAATCGCCCG -TCCCAACGCCACGCGCACGACGGCGGTTAATTCATGTGGATCGCTTTGGATGGGCGCATGTTCCGCCAGCGTTTC -GAGAATGGTGCGCATATCGCGAATCGGTACTTTTTCATCGAGGAGATTTTGCAGCACTTTATGCAGTGTGGTGAG -CGTGACGACGCCAGGAACGAGATCTTCCGTCAGCTTTGGCATCTCCTGGGCGACGCGATCCAACAGCTGTTGCGC -CTCCTGACGACCAAACAGCTCTGCGGCATGCTGGCTAATGAGGTGGTTAAGATGCGTTGCTACCACCGTGCTGGC -CTCAACCACTGTGTACCCCTGAATCTGCGCCTGTTCTTTTAGCGCACTTTCAATCCAGATAGCATTCAGGCCAAA -TGCCGGATCGACGGTCGCCTCACCAGGTAACGTCCCGGCAGCGGTTCCAGGGTTAATCGCCAGCCAGCGCCCCGG -ATAAGCATCACCACTGCCAATCTCCACGCCTTTCATCAAAATGCGATAGCGGGCAGGTTGCAGATCCATATTGTC -GCGAATGTGCACCACTGGCGGCAGAAATCCCATCTCCTGGGCAAATTTCTTGCGGATACTGCGTATACGGCCCAA -CAACTCACCATCCTGCTGGAAATCGACCATCGGGATCAGTCGATAACCCACTTCCATTCCCAGAGAATCTTCCAG -TTGTACATCGTTCCACGTCGCTTCGACAACGGTATTATTCTCTGCCATTTTTACCGGTTTGGGTTCGGCAGGCGC -TTTTTGTTCGCGTCCGCGTATCCACCAGGCCAGCCCGAGCAATCCGGCAGTGAACAGCAAAAATACCAGGTTCGG -CATTCCAGGCACCAGGCCGAGTAAACCGAGCACGGCGGCGCTTAACAACATAACGCTTGGGTTACTGAAAAGCTG -ATTCACCATCTGCTCGCCAACATCCTGATCGGTGCTGACACGCGTAACGATGACCCCCGCGGCGGTAGAAATCAC -CAGCGCCGGAATTTGTGCCACCAGACCGTCGCCAATGGTCAATAGCGTATAACTTTCCGCCGCGTGTCCCATGCT -CATGCCATGTTGCAGCACGCCGACCAGCAACCCGCCGACAATGTTAATGACCATGATGAGGATCCCGGCGATGGC -ATCGCCGCGAACAAACTTACTTGCCCCGTCCATTGAGCCGTAAAAATCGGCTTCCTGAGTCACTTCGGAGCGGCG -TTTTTTCGCCTCATCTTCACCAATCAATCCGGCGTTAAGGTCGGCGTCAATCGCCATCTGCTTACCCGGCATACC -ATCGAGAACAAAGCGCGCACCCACTTCTGCGATACGCCCGGCACCTTTGGTAATGACCATAAAGTTGATGATCAC -GAGAATGACAAACACCACGATACCGATAGCGAAATTGCCACCAACGAGGAAGTGACCGAACGCTTCGACCACCTT -CCCTGCCGCCGCCGCGCCGGTATGCCCTTCCATTAAAATGATACGGGTTGAAGCCACGTTAAGTGCCAGACGCAA -CAGCGTGGTAAACAACAGAATGGTCGGAAACGCAGCAAACTCAAGCGTGCGCTGGGTAAACATCGCCACCAGCAA -CACCATGATCGACAAGGCAATATTGAAGGTAAACAACAGGTCGAGTATGAATGCGGGCAGTGGCAGCACCATCAT -CGACAAGATCAACAGGATCAAAATCGGTCCGGCAAGGATCTGCCATTGTGTCGATTTCAGGTTTGCGGGCAGGCG -CAGCATCGCGGCCAGATTACTCATGGGTCGGTTTCTCGTTAATAAAATCCAGGGCTTCCGGCACCGGAAGATGAG -TAGGTTGTACAGGGCGCTGTCCACCAGCCAGACGCCAGCGTTTCAGTTGCCAGACCCAGGCCAGCACTTCCGCCA -CCGCGGCGTACAGTTGACCCGGGATTTGTTGACCAATCTCCGCATGTCGATACAGCGCTCGCGCCAGCGGCGGCG -CTTCAAGCGTCGGGACGTTATTTTCAGCGCCAATTTCACGAATGCGCAGCGCGACCAGCCCTGCACCTTTAGCGA -CCACTTTCGGTGCGCTCATTTTGTTTTCGTCATACTGCAACGCTACCGAATAGTGGGTCGGGTTATTGACAATGA -CATCCGCTTTCGGCACATCGGCCATCATCCGACGCCGTGCAGCAGCTCGCTGCATCTGACGGATCCGCCCTTTAA -CATGAGGGTCACCTTCGCTTTGTTTGAACTCATCACGAATATCCTGCCGTGACATACGCAGCTTTTTCAGGTGGC -TGAATATTTGGAAAAAGACGTCAAATCCCACCATTGGAATGACACCAAGCACCACCAGCAGTGCGCATAGCCCTA -CCAAATCCATCGCATTACCCATGGCGGTAATCGGAGACTCGGCCATCAAGCGCATCATCTGCGGCCAGTGATGCC -AGAGAAAAAACCCCGTCACGCTGCCAACCAGGATGGTTTTCAAAATTGCTTTAAGCAACTCCGCGCCAGTCTGAG -CCGAGAACATCCGTTTAATGCCCGGTAGCGGGTTGAGTTTGGAAAACTTCGGCTGCAAGGATTTGCCGCTAAATA -CCAGCCCTCCCAGCATGACCGGAGAAATGAGCGCCACCAGCACCACGCCGCTAATCAGCGGCAGCAGCGCCAGCA -TGGCTTCTCTGATCAGCAGAATAATCTGCCCGAGGATCAGATTCGGGTCATTGATAATACTGTGATCAAAATGCA -GCCCAGCGGAGAGCATGCCCGACAATCGACGGGCCAGCGACACACCGCCAAACCAGATAACACTAACGCCCACCA -GCAAAATCAGCAGTGAGGTCAGTTCACGGGAACGCGGGATTTGCCCCTCTTCCCGCGCTTTTTCTAGTCGGTGAG -GTGTGGGGGCTTCTGTTTTGTCGTCGCTCTCGTCAGACACGTCGCCAATCCTGGAAAGAGTATTAAGCGTGAATG -ATGCCAGAGCGCAAAGCGTTCAATGGTTTGAGTAAGGGGCAAAACAGGCGGGATTTAGGGCTTTTGCTGCCACAC -ATCAAGCATAGTGTGCGTTTGTCGGATGCGGCGTCATCGCCTTATCAGACCGCCTGATATGACGTGGTCACGCCA -CATCAGGCAATACAAATCAAAATCCAAGACTATCCAACAAATCGTCCACCTGATCCTGACTGGCTACCACACCGG -CTTTGCTGGTATCGACCTGAGGTCCATTAAGCAAACTCTGGTTTTCACGTTTTGGACGCGACTCCTGTTCCGGGA -TGTTTTCCAACAGCACCATCAGCAACTGGCGTTCGATCTCCTGAATGACATCCATCATCCGCTTAATGACCTGCC -CGGTGAGATCCTGAAAATCCTGCGCCATCATGATTTCCAGCAGTTGCGCGTTAGTAAAGCTGGTATGCGCGGGTA -CATCTGCCAGAAATTGTCGTGTATCTGTTACCAGTTCACGGGCGTCGGCAAGGTCAATCGGATCGGCAAACCAGT -CATCCCAACGTTGGGTTAACGCTTTTGCTGATTTCTCCATTTGATCCTGATGCGGTTGTGACGCCTCAACACTGT -TCAGCGCCCGCTCCGCAGCCTGGGCGGTCATCTGCACAACATAGTACAAACGATCGCGCGCATCGGGGATGGCTT -CCGCCGCTTCGGCAATGGCCTGATCCAGCCCCAGTTCCCGCAAACTGTCGCGCAGCATACGCGTCAGGCTGCCGA -TGCGCGCAATGATATCGCCAGCTGAATGCTCGTCAGCAGGTTTGATTGATGGTTGCATCATAGTCGCATCCTCAC -ATGCCCAGTTTCTCAAAGATTTTGTTGAGTTTTTCCTCCAGCGTCGCGGCGGTAAATGGCTTCACCACATAGCCA -CTGGCCCCCGCTTGCGCCGCAGCAATGATGTTCTCTTTCTTCGCTTCTGCAGTCACCATTAACACTGGCAATGCC -GACATCGCGCCATCCGCACGAATTGTTTTCAGCAATTCCAGGCCATCCATATTGGGCATGTTCCAGTCGGAGATA -ACAAATCCATAACCGCCTGCCTGCAACTTATTGAGAGCGTCGACGCCATCTTCCGCTTCCTCAACATTATTGAAT -CCCAGCTCTTTCAGCAGGTTACGCACTATGCGTCGCATGGTGGAAAAGTCATCCACAACCAAAAATTTAAGTTCT -TTATCCGCCATTTCACACTCCTGATTTAAATACGTATCGCCTGTCCGGCACTAATTTTTGCCAACATTTGCTGGC -TTACCTGGCTAAGATCGACCACTTCGCAGACACCACCCATATTGATGGCCTCGCGCGGCATGCCGAACACCACGC -AACTTGCTTCGTTTTGCGCAAGGGTCCATGCCCCCGCCTGACGCATCGCCAACATTCCCGCCGCGCCGTCGTTGC -CCATACCGGTCAGGATCACCCCAACCGCATTACGCCCCGCCTGTTTGGCGACAGAATGGAACAACACATCTACCG -AAGGCCGATGACGGTTAACCGCCGGGCCATCGTGAATTTTGATTTGGTAATTTGCGCCACTACGCGACAGCTCCA -TATGCCGATCGCCCGGCGCAATATAGGCATGCCCCGGCAAGACACGTTCTCCGTCTTCGGCTTCTTTAACCCCGA -TCTGGCAAAGCTTATTAAGTCTGTCGGCAAAAGAGCGGGTGAAACCGGGCGGCATATGCTGGGTAATTAACAGTG -CCGGGCTGGAAAGCGGCAACGGTTGCAGTACGTGACGAATTGCCTCAGTTCCACCCGTTGAAGCACCAATCGCAA -TCAGTTTTTCAGAACTCAACAACGGCCCCGCCTTCAGCGTTGTCGGTGCCGACAATGGCTTATGTGCTGCAAGGC -TCGCCTTTGCTGCCGTACGCACCTTTTCAGCAATCATTTCGTTATACGCCAGCATACCTTCGCGAATACCCAGTT -GCGGTTTGGTGACAAAATCTATCGCCCCCAGCTCCAGCGCGCGCAGCGTGACTTCTGACCCTTTGCCGGTCAGGG -AAGAAACCATCACAACGGGCATTGGACGCAAACGCATTAATTTTTCGAGGAAATCCAGTCCGTCCATCCGCGGCA -TTTCAACATCCAGCGTCAGCACATCGGGATTGAATTTCTTAATCAAGTCACGCGCGACCAGCGGATCAGGCGCGG -TCGCCACCATTTCCATGTCGCTATGGCTGTTGATGATTTCTGTCATGATCTGGCGCATCAGTGCCGAATCATCGA -CAGATAACACCCTGATTTTGCTCATCGTTAATCCTTACTTAGCGCATACACCGTCTGACCACGCAGCGTGAAGCG -GCGCTCAAGGTGGCTAAAGTTTTCAGAGTGACCCGCAAACAGCAATCCGTCGGGTTTAAGGAGCGGAACAAAGCG -GCGCAAAATCTCCTGCTGGGTAGTTTGATCGAAGTAGATCATGACGTTACGACAGAAGATCGCATCAAACGGCCC -CGGCACGGTGTACTGTTTCGCCAGTAGATTCAGCGGGGCAAAATCAACATAGTTCGCCAGCTCCTGACGCACGCG -TACCAGCCCTTCATGCGGCCCCGTCCCTCGCATGAAATACCGTTGCAGTTGCTGCGGCGTCAGGTTTTTCAACTC -TTCATGGCGATAGATACCGCTTCTGGCTTTTTCCAGCACTTCGGTGTCGATATCACTGGCAAACACTTTCCAGCG -TCCGGGCGCGGTGCCCAATGTGTCAGCCAGCGTCATCGCAATGCTGTACGGCTCTTCGCCGGTCGAAGCCGCCGC -GCTCCATACGCGATACTCGCCAGAACGGCGACGTGCGTGATCCGCGAGCAGAGGGAAATGATGTGCCTCACGGAA -AAATGCCGTCAGATTCGTGGTCAGCGAATTGATAAACGCCTGCCACTCACCGCTGTGCTGATTAGATTCCAGCAA -GTTCAGATAATGACCGAAATCCGTCAGTCCCAGCGAACGCAAACGACGAACCAGTCGGTTGTAAACCATGTCGCG -TTTATGGTCAGCCAGAACGATCCCGGCTCGTTGATAGATCAATTGACTTATCCGCCGAAAATGCGCGTCGGAAAG -CGCCAGGCGCTCGGTCATCTGTAACAATAAAGACGTTTGCCCACAGGGCAGAGATGAAGTCATAGCGCCTTCTCA -ATCACTTCAGGATACCACTGGCGCAATTTGTAACTGCACCGACTCATGTCGTGCTACTTCATGTTCTTCAAGGGT -AAATACCGCCACACGCGACGAAAGATGGTCGGCCTGATTCGCCAGTTGTTCCGTTGCCACCGCCGCTTCTTCTAC -CAGCGAGGCGTTCTGCTGAGTCACCTGATCCATCTGGCTGACAGCCTGTGCAACCTGCTCAATCCCCCGCTGTTG -TTCTTCCGACGCAGAGGCAATTTCTCCCATAATGTCGTTCACGCGGGTCACCGAACTGACAATATCGATCATGGT -CGCGGCGGCGTTATTCACCAGTTTCGAACCCTGCTGGACACGATTGACTGACTCTTCGATCAGCCCTTTGATCTC -TTTTGCTGCCTGCGCGCTACGGCTGGCAAGATTGCGCACTTCACCTGCCACTACCGCAAAACCACGCCCCTGCTC -TCCGGCGCGAGCCGCTTCCACTGCCGCATTCAGGGCCAGAATATTGGTCTGGAAAGCAATTCCGTCGATAACGCT -GATAATGTCGCCAATTTTTTGCGAGCTGGTGGCGATCTCCTGCATGGTGTGAGTCATGGTACTGACCTGAACACC -GCCCGCCTGCGCCGTTGTCGCGGCATTTTTTGCCAGTTCCGACGCCTGTCGTGCGTTATCGGCGTTTTGCCCTAC -CGTGGCGGTTAATTGCTCCATACTGGCGGCCGTTTGTGCCAGCGATGCCGCCTGCTGTTCGGTACGACTTGAGAG -ATCGTTATTGCCTGCGACAATCTCCGCGATACCAATGTGCATCTCCTGGCTTCCCTTACGCACATCACTTACCGT -CCCACGCAAAGCCTGCTGCATGGTCTTCAGACTGGCAAAAATGGCGGTGATCTCATTACGACCATATACCGCAAT -CGGACGCGCCAGATTACCCGCAGCAATGCTGTCAAAATGGCTACCGATAATGGCCAGTGGTTGAACAATCATCTT -GCGCGTCCACCACAGCGCACTGCTGATGTAGATCGCCGCAACAATAATCATGCTGATAAACACCAGTGCCGAAAT -CTGATAGTTACGCTGGCTTTGCGCACTGGCGGCTTCCAGCACATGGTTGATCTCCAGCTGCCAGGCCTCAAAGTT -AACGTCAAACGCATTCTGTGATCCCTGCACCGGCGCAGTGAGGAAATCCGAAAGTTGATTACTTTCAAGCCAGGT -CGCCTGATGTTCGAGATCGTTGTGCCAGCGGGCAAAACTTTTCTCCGTCTCTTTTTGCAATCCCCTGACGTGCTC -GTTGCCCGCAGTCATCGCCATAAAACTTTTAAACAGCGTGGTGGATTGCGTCAGACTGGCGCGCGCCGTCGTCAT -CAACGTTTTAATGTCATCCGCCGGATAGCTAAGTGCCGTCAGAGTGCCCGCTTTGTTCAGCGCGGTACTGGCCTG -TAACATTACCGCCCGAGTTTGCGCTAATGCCGCACGTTGCTGATTGCTCTGCTCGACCTGATTCAGTCGTTGCAA -ATCGTCGCGAAATGCCCAAAAAGACATGCCGTTACTGCCAATCTGCAAGATCCCGCAGAGAATCAAAATTAAAAA -CAGCGTGGTCGAAATTCGAATACGATTAAACATCAACGCTCCCCATCAGGCGGCAATGACCGCGTTAGTAAATAC -TCGTCAAAATGTTTCCCAGTTTGGATCTTGTTCAGCAATTCGCAGTCGTGGCTGAGCCGGTGGTTGCTCACTGGC -AGGACGGGATGGTGTTTGCGGTTTATTGGTGAGTGGGCTGGCTGCCAGACGGAACGCGGAAACTGCTTGCGTTAA -ACGACTCGCCTGTTCTTCCAGCGCAGCGGCGGCGGCAGCTGATTCCTGCACCAGCGATGCGTTCTGTTGCGTGAC -GCGATCCATTTCCGAAACCGCCAATGCGACTTGATCGATGCCACGGCTCTGTTCATCCGATGCCGATGCAATCTC -GCCCATAATGTCAGTCACGCGAGTGACAGCATTGACGATATTGTTCATTGTTTCCCCGGCGCTTTCGACCAGCAC -CGAACCGGTATCAACGCGTGAGACGGAGTCTTCAATGAGGGCTTTGATCTCTTTTGCCGCCTGGGCGCTGCGACT -GGCAAGATTACGCACTTCACCCGCCACCACGGCAAAACCACGGCCCTGTTCACCCGCACGCGCGGCTTCAACCGC -GGCATTCAGCGCGAGGATATTAGTCTGGAAGGCAATACCGTCGATAACGCTGATAATGTCGGCAATTTTCTTCGA -ACTATCGGCGATCTCATGCATCGTTTTCACTACGCCATCCACCACTTTGCCGCCGTGCTGGGCGGTGTCGGAGGC -ACTTTGCGCCAGTTGCGAGGCCTGGCGGGCGTTATCGGCGTTTTGCTTCACTGTCGCGGTGAGCTGCTCCATGCT -GGCGGCAGTTTCTTCCAGCGCGGATGCCTGCTGTTCAGTACGGGAGGAAAGATCGGTGTTGCCCGCCGCAATTTC -ACGGGTACCGGCATAGATGGCATCTGAACCTTCGCGGACATGAGTGACGGTGTCAGTCAAAGAGCGTTGCATATG -TGAAACGCTCTGCGCCAGGTCGCCCATTTCACTGCGCCCGTCAATGGTCAGGGTATTCGCCAGGTTACCACCGGC -GATTTCGCGAATGTGAGCAATAATTTTTGCCAGCGGAGTAAGCAACATACGGCGAATGCCGTACCACGCCACCAG -CAGAATCAATACCACCACCAGCGCGATAACCGCCAGTTGCCACTGGGCAAATCGGTAATCATCTGCGTTGTCAGT -GACGATATCGCGATACAGTTTTTCACTGCTGAGGGCGTACTGAGCAAACGCTTCGCCCATTGCATTTTGCATTCC -CTGGGTTGGCTGAGCGAAATAAGCTCCAGTATTGCCATAATCTAGATAATCAATCAGTTCAGTTAACGCTGTGTA -ATAGTTTTTATATTTTTCATCAATATTACGACTGGTAGCGACCATTTCAGGTAACGGTGCCATGCTTTTGAATTT -TTTATAATGCGTCGCTGCCTGCGCCAATGTTTTCCTGGCGCTATCGAGCAATTCAACTTTGGCGTTACTTTGTTG -ATTGGAGGAATCCATCATCATCCGTACCGCTGAACGACTCAGGTTAATGCGCGTTTGCAGCATTAAATCCCAGGT -TGACGTCAGCTCGCCCTGCTGTTCCCGTAATTGATTGGAAACCACAAAGCTCTTCTGGCTATGGTGAAGGGAAGA -AAAAAACAGACTGCCGGAAATAAGCTGTAACAGTGCGAATACCCCCAGCACCATTACCAACAGCGTGACTACGCG -GATACGGTTAATCATAAGGCACCTTCCTGAAAACAAGTTGATCTCGTTATCGGCAAGGAGGGGGGAAACTTTATT -GCTGATGCCACCCGCCGCGAAATTGAAATAAAAAACCCGATGCGCAGATCATCGGGTTCATTTCAATTGAGGAAA -TCGGGAGAATTACGCCACTTCTGACGCCGCGCTATCTAACAGCGCCATCTCTTCGCTGTTCAGCAGTTTTTCGAT -GTTCACCAGAATCAACATCCGGTCGCCCAGTGCGCCCAGTCCAGTGAGATATTCTGTTGAAAGCGTCACGGCAAA -TTCCGGTGCCGGACGAATTTGCTCCGCCGTCAATGAAAGCACGTCTGAGACGCCGTCAACCACGATGCCGACCAC -CCGCTGTCCGAGATTCAGGACGATAACTACCGTGTTGTCGTTATAGTCCACATCCACCTGGCTGAACTTAATTCG -TAAGTCAACAATCGGCACAATAACGCCGCGCAGATTCGTGACGCCTTTGATAAACGCTGGCGTGTTCGCAATCCG -TGTTACCTGATCGTAGCCACGGATCTCCTGCACTTTCAGGATATCAATACCGTACTCTTCATCACCAAGGGTAAA -TACCAGAAATTCCTGGCCTGACGGCTCGCTGGCCAGCTTTGTTACATTCGTCATACCGGTCATATTGTTACCTTT -TTACTCATTCAGGCGGCGGTGTTCGCCATACGTTGTTCGCGGTTTATCGCCTGCAAGGCGGAGACATCAACAATC -AGTGCCACGCTGCCGTCGCCAAGAATGGTCGCAGCAGAAATGCCGGGGACTTTGCGATAGTTACTTTCAAGGTTT -TTAACCACAACCTGGTGTTGACCAATTAATTGATCCACCAGCAAGGCGTAGCGGCGACCGCCACTTTGTAAGATC -ACCACAATTCCCTGGGTGGCTTCGGTTTTCGCGCCCGCGACGTTGAACACTTTCCACAGTTCGACGATGGGCAGA -TATTCACCCCGCACTTCCAGCACCCGCTCGCCGCCGGCCAGTGGATGGAGATCGGCTTCACGGGGTTGCAGTGAT -TCCATAACAGCATTCAGCGGCAGAATGAAAACTTCATCCGCAACGCGTACGGACATGCCGTCGAGGATGGCCAGC -GTCAGCGGCAGTAAAATGCGGATCGTAGTGCCAGTACCCTGCTTCGACTGGATTTCGACATGACCGCCCATCTTC -TGGATATTACGTTTAACGACGTCCATGCCGACGCCGCGCCCGGAGACGTCGGTGACCTGCTCTGCCGTGGAGAAG -CCAGGTGCAAATATCAGCATCGCGACTTCGTCGTCGCTCATGTTTTCGCTGACAGTCAAACCTTGCGAGGCCGCT -TTTGCCAGAATTCGCTCACGGTTTAGCCCCGCCCCATCGTCGGTCACTTCAATGCAAATGTTGCCGCCCTGATGT -TCGGCAGACAGAATTAAATTTCCGACGCTGTTTTTACCTGCGGCGAGCCGTTTTTCTGGCAGTTCAATACCGTGA -TCGAGGCTATTGCGTACCAGGTGGGTCAGCGGGTCGATAATGCGTTCTATCAGGCTTTTGTCGAGTTCAGTAGAA -CTGCCCACCAGCGTCAGTTCTACCTGCTTGCCGAGTTTTCCCGCCAGATCACGCACCAGCCGGGGATAGCGACTA -AAAACATATTCCATCGGCATCATGCGAATCGACATCACTGATTCCTGCAAATCACGGGCGTTACGTTGTAACTGC -CCCATGCTGGTTATCAAATCACCATGATTAACCGGGTCCAGTTCGCTGGAACGCTGGGCAAGCATGGACTGGGTG -ATAACCAGCTCGCCGACGAGGTTAATTAATTGATCAACCTTTTCTACCGCTACACGGATGCTGGTGGATTCATTG -CTGCGCGTCGTTTTTTCCCGCTCCACGCGGCCGGTTGGCGCTTGTTCGGCTGCCAGTTTAAGCACTGGTGGGGTG -GATATTTTTGGCGAGACTTCTACTGTTTCAAAGGTAATCTGATCGGCTTCAATCACAAAACAGAGTACCGCTGTG -ATGTCATCTTCGGCGATGTCGCCCGGTAATATTGCCGAGAGCGAATCCGCCCCTTTCACCACGTCAGTTAACGTT -GTCAGATGTCCCAGTTCTTCTTCCAGCAGGTCGACTTCCCCGGCCTTCAGGCGCGAAAGGATAATTCGTCGCGGC -GACTGACTGCGACTCTGCTCATCTTGCGGTTCACTTTTGGCAACCACACTTAATCGGGTCACTGCGGATGGCGTT -TCGCCTTTCGCTTCTAATGCCAGTTGACGCAAGGCCTGGCAGATATAATCGAAGCTGGCGGCATCCGGCTCTTGC -GACTGTTTATAAGCGTCGAGCTGTTCTTGCATGATGTCCTTCGTTTCCAAAAACAGATTGATAATGTCGGTGTTG -AGTTGCATCTCACCTCGTCTGGCTTCATCGAGCAGGTTTTCCATCAGATGCGTGGTTTCCTGCAAAACGCTGAAG -CCAAAAGTTCCTGCCCCTCCTTTGATCGAGTGGGCAGCCCGAAAGATGGCATTCAATTGTTCGGCATCTGGCGCT -TCCGGCTGCAAAACCAGCAAATGCTGCTCCATGTCAGCCAACAGTTCGTCCGCTTCATCAAAAAATGTCTGATAA -AAATCGCTTATATCCATGCTCACGCTGTCACCTCGGTTCGGCTGATGGCATTGTGGGAACACTGACCTGTGGTGC -AACCTCAGGTTTTTCCAGGGCGCTTACTGGCTCATTCTGGCTTTCGGCGTTTTCATGCAAAATGGCCTGTTCGGC -TTGTTTGTTCAGTACCAGCAGGCTGATGCGACGGTTGACGGCATCATCAGGTCCGCGATCGCTTAAGCGCATCGT -TGCCGCCATGCCGACGACACGTAACACTTTGCCGCTATCCAACCCTCCGACCATCAGTTCGCGGCGGGATGCATT -GGCCCGATCGGCAGAAAGCTCCCAGTTGCTATATCCTTTCTCACCGCTGGCGTAGGGGAAATCATCGGTATGACC -TGAAAGGCTAATACGGTTGGGAATACCGTTCAGTACAGGCGCAATGGCGCGCAGAATGTCGCGCATATAGGGTTC -GACATCGGCACTGCCGGTTCTAAACATCGGGCGATTCTGGCTATCGATGATCTGAATACGTAGACCTTCCTGGAC -CAGATCGATTTTGAGATGGGGACGTAACGCCCGCAGTTTCGGATCGGACTCTATCAACTGGTCGAGATCACCCCG -CAATTTCCGCAATCGACTTTGCTCCATGCGTTTTTTCAGCTCTTCGATGTTCGGCTGCTTATTCACTTCCCCCTG -GCTTTGGGTGTAATCATCACCACCGCCGGGAATTGGGCTTTCACTATTAGAAATGCGATCGCCGCCCGTAACCGC -AGTCGCCAGTGGAGTCCGGAAGTACTCCGCAATCTGAATCAGCTCTTTTGGGCTGGAGATGGAGATCAGCCACAT -CACCAGAAAAAAGGCCATCATCGCAGTCATAAAGTCGGCATAAGCAATCTTCCACGATCCATGTGCTGCCCCGTG -GCTTTTGGCTTTGCGTCGTTTGACGACAATAATCGGATGCGCTTGATTCTTCATGCTTCCTCGGTTGTCGTCTGT -TGTTGCGGATTTTTCACCGCACGCACATGCTCTTCCAGTTCAATAAACGACGGACGTTCGCTGGAATAGAGCGTT -TTGCGACCAAACTCAACGGCGATAGGCGGTGCGTAACCGTTCAGATTAGAAAGCAGAGTGACTTTGACGCACTGC -ATCATTTTGCTGGTTTCGGCGCTTTTCTGACGTAAAACAGTCGCTAATGGGGAAATAAATCCGTAAGCCAATAAA -ATGCCGAGGAAAGTCCCCACCATCGCATGTGCGATAAGCGCACCCAGCTCGGCGGCAGGACGATCGGCTGAACCT -AACGCGTGAACGACCCCCATTACAGCCGCAACAATACCAAACGCCGGAAGTGAGTCCCCGACCAGCGCCAGACTG -TTCGCCGGGACTTCTGCCTCGCTTTCGTGCGTCTCAATCTCTTCATCCATCAGAGCTTCGATTTCGAAGGTGTTC -ATGTGACCGCTGATAATCAGGCGCAGATAATCGACGATAAAATCAAGCATGACGCTATCCGCGAGGATGCGTGGG -TAGCTGGCGAAGATCTCGCTCTCACGGGGATTTTCAATATCACGTTCCAGCGAAAACATCCCCATCTGCCGCGAT -TTCGCCATCAACCGATAAAGCAGAGCCAGCAGATCCATATACATTGCTTTGGTGTATTTGGAGCGACGAAACAGC -AACGGCAGCGCCTTCAGCGTGCCTTTAATCGCTTTGCCATTATTGCCGACGATAAACGACCCAATCCCTGCACCG -GCAATAATCACCAGTTCAGCGGGTTGATAGAGTGCTCCAAGGCTTCCACCGGTCATCAAATAACCGCCGAAAACT -GTACCGAGAACAACCAGGTAACCTAATAAGATAAGCACGACATCATCCTTCCACTGTTGACCATGACAGGATGTT -CAGTCGTCAGGCGTTAACGCGCGATTGGGGCAAAAAAAAGCAGCGGTACGTCGTTACCGCTGCTGGAATGTTGCG -CCTCACCGTATCAGTTAAACAGCCTGTACTCTCTGTTCATCCAGCAGTTGTGGGATAATATCGGCAGGATTCTGG -GAAAGTTTACGTCTTTTTACTGCCCGGGATGGCGGTTGACATAAGCTGCAGGCAAAGCTGCCAACAGGCTGGTGA -GCGTGGGTAATAAAATTGCCGCCGCAGCAGTTGCAGCTGGAAAGTTGCAGTAATCCACTTTCAACAAACCGCACC -AATGTCCAGGCACGGGTTAATGCCAGCAGTGGTCCTTCTTCTGCTTGTGGGCACTGTTCAAGGTATAAACGGTAG -GCTTTGATCACCGCATCGACGCCATTACACAAACCGGTTTTCAGTAAAAACTGCCATGCATTACAGAACATCGAA -GCATGAACGTTTTGTTCCCAGGTCATAAACCAGTCGGTTGAGAATGGCAGCATGCCTTTCGGCGGTGGGCTTCCG -CGCAGTTCTTTATAAAGTTTTATCAGGCGTCCGCGACTTAACTGTGTTTCGCTTTCCAGCATCTGCAAACGAGCG -CCCAGGGTGATCAATTCCATTGCCAGCTGAATATCCCGCGCTTCCTGAACAATGCTTTTTTCACTCATGATCAGG -CCCTTTTCTTGCGCAGCGCTTCTTCAGGCTGATTAACATCATTCAGCAAGCGTGTTGAGAGCATGATGCCGGTAT -GAATTTGCTGGAGATCGTCAACGCGGGAATCTTGCGTCAACTGAGTAATCGTCTGGTGGCTGTCAAAACGGAAGT -GACAAACCAGTTGATTGGTTTCTGCCAGCTTAACCATTTGCGGAAGAGTCAGTGCCGCTAACGTTGTCGCCATTT -CTTCATTTATGCCGAGACGAAACATAGCGGACGCTTTGTCCTGAACAATCAAACGCTGTGCAAGTAGTAAATATG -ACAAGTTGATGTCATAAATGTGTTTCAGCAACTCGGAGGTATGCATTATTCCCACCCAGAATAACCAACTTTATT -TTTATGCGGTTTCACCGCACCCCGTGATGTCGCCGGGAAGCCCCGGTAAAAAATAATTAGCATTAGAATAGTTGC -GATAAGCTGCAATAAGCAGAACCACCTTTTTGGTTTAATATGTCCTTACAAATAGAAATGGGTCTTTACACTTAT -CTAAGATTTTTCCTAAATCGACGCAACTGTACTCGTCACTACACGCACATACAACGGAGGGGGGCTGCGATTTTC -AATAATGCGTGATGCAGATCACACAAAACACTCAATTACTTAACATAAATGGGTAATGACTCCAACTTATTGATA -GTGTTTTATGTTCAGATAATGCCCGATGACTTTGTCATGCAGCTCCACCGATTTTGAGAACGACAGCGACTTCCG -TCCCAGCCGTGCCAGGTGCTGCCTCAGATTCAGGTTATGCCGCTCAATTCGCTGCGTATATCGCTTGCTGATTAC -GTGCAGCTTTCCCTTCAGGCGGGATTCATACAGCGGCCAGCCATCCGTCATCCATATCACCACGTCAAAGGGTGA -CAGCAGGCTCATAAGACGCCCCAGCGTCGCCATAGTGCGTTCACCGAATACGTGCGCAACAACCGTCTTCCGGAG -ACTGTCATACGCGTAAAACAGCCAGCGCTGGCGCGATTTAGCCCCGACATAGCCCCACTGTTCGTCCATTTCCGC -GCAGACGATGACGTCACTGCCCGGCTGTATGCGCGAGGTTACCGACTGCGGCCTGAGTTTTTTAAGTGACGTAAA -ATCGTGTTGAGGCCAACGCCCATAATGCGGGCTGTTGCCCGGCATCCAACGCCATTCATGGCCATATCAATGATT -TTCTGGTGCGTACCGGGTTGAGAAGCGGTGTAAGTGAACTGCAGTTGCCATGTTTTACGGCAGTGAGAGCAGAGA -TAGCGCTGATGTCCGGCGGTGCTTTTGCCGTTACGCACCACCCCGTCAGTAGCTGAACAGGAGGGACAGCTGATA -GAAACAGAAGCCACTGGAGCACCTCAAAAACACCATCATACACTAAATCAGTAAGTTGGCAGCATCACCCATAAA -TGTATAAGTCATACTTTTGTTTTGGGTGTATTTCAATCTGTTAAAAAGTTTTTCGCTACGCTAGCAAGCAAAAAT -GAAACAGGAATAATCGAAATGGGATGTTGCGCACAGTCAAAATAACTCACCGTAAATAATCATCTGCTATAAATA -ATCACTTTCATGCAATACCAGATAAGCTATTTTTAAACAGACACTTACCGCACAACAAACTAATTAAATACAAAG -AAAGGCAACAATCAACTTAATGTTAATGAAATGTTTTACATATATTAACCACTTGTTTAATGCGGAGAATCAGTA -CACTATTTTCTTATAATTACATTTGAAATTATATGATCACCGGGAGTGATTGATTAATTATCTTTACTAATAATC -AGACTAATATTTACCTGTTTGACCGAGTTGGGATTGCGTCGTTTCTCCATTAGGAGTAAAGCTTTAATGTCACCT -GAAGTTCACAGAATAAGGAACAGGTTATGAGCTATAGCAATATTCTTGTCGCTGTTGCGGTTACACCGGAAAGTC -AGCAACTGCTGGCAAAAGCGGTATCTATCGCCAGGCCAGTAAAGGGACACATCAGTTTAATTACTCTCGCTTCCG -ACCCGGAAATGTACAATCAATTAGCTGCGCCGATGCTTGAAGATTTACGCAGCGTGATGCATGAAGAAACGCAAA -GCTTTCTTGATAAGTTAATTCAGGATGCGGGGTATCCCGTTGACAAGACGTTTATTGCCTACGGTGAGTTAAGCG -AACATATTCTGGAAGTATGTCACAAGCATCATTTCGATTTGGTGATTTGCGGTAATCACAATCACAGTTTCTTTT -CGCGAGCATCCTGCTCGGCGAAAAGAGTTATTGCCTCAAGTGAGGTCGATGTGCTGTTAGTTCCACTTACGGGAG -ATTAACCGCTCCTACGCAAGCTTTGGAAAGGTAGCAACTTTATCGCGCTGCTGGCTTTCCGCGCTTCGCGGAACT -ATCTGCTTTAGGTCGCTAATGAAGCACTCCTGCCAGTGGTTAATATCGTTTTTCACGATAACGTCCAGCATTTCT -GCATGACGGGAAATACGTTCCGCCAGCGACATAGTCAATGCACGATCCAGCGCAGCTGCAACTTCGTCACGATCG -TAGGGGTTAACAATTAACGCCGACGTTAACTCGTTTGCCGCTCCCGCAAATTGCGAAAGAACAAGAACGCCCGGA -TTGGCTGGGTCCTGAGCAGCAACATACTCTTTTGCTACCAGGTTCATCCCGTCACGCAGTGGCGTCACTAAGCCC -ACGTCAGAGTAGCGGAATATTTTCATCAGTAATTTACGGTCAAAATGCTGATTCAAATAATAAAGCGGCGTCCAG -CCTAATTGCCCGTATTTACCATTAATTCGTCCAGCTTCATTTTCGAGCTGATGACGAATATCCTGATAGGCTTGC -ACATCACCACGCGACGTTGGTGCAATCTGGGTATAACGAATTTTACCATGATGCTGCGGATATTTTTCCAGCAAC -GCTTCATAGGCGAGAAAACGCTCTGGCAAACCTTTGGAATAATCCAGCCGTTCGACAGAAAAGATATTTTGTACG -TTTTTCAGTTCCGCTTTAAGTTGCGCCAGTTTTGGCGGCAGTGGCCCGGCAGCCTGTTTGGCTATTTCTTTCGGT -TCAATGCCGATCGGGTAGACTTCTGTTCGAAATGCTTTGCCCCAGGCTGTATGGCTTTTTGCGCTACGTGTCGTG -ACGCGGGTCAGGTTAGAAAGACAATCCAGGAACGCCAGACGATCGTTTTCTGTCTGGAAACCCAGCAAATCATAA -TCACAAAGCTGTTCAAGCAAGGTGTCATATGTCGGCAGCGCGTTGAAGATTTCCGGTGTCGGGAAAGGAATATGC -AGAAAGAAACCAATGCGATTATTCACTCCCCGTTTGCGTAATTCATGCGCAAATGGCAACAGGTGATAATCGTGG -ATCCAGATAATGTCATCGTCTTGCAACAGCGGCAGTAATTTATCTGCCAGCAACGCATTTACGCGTAGATAGCCG -TCCCAGGCAGGACGCTGAAATTGCACCAGATCGAGCCGATAATGAAAAGCGGGCCAGAGAACGGCATTGGAGAAT -TGGTTGTAGTATTCGTCAAGGTCCTGTTCGCTGAGGTTAAAAGAGGCCCACGTAATGTTACCTTTTTTCACCTTT -TTTAGCGGCTGATCCTCATTCCCTGTTTCACCACTCCAGCCAAACCACAGTCCGCCTGCGGCTTTCAGTGCCCCC -AGTATGCCAACGGCAAGGCCACCGGCACTGGCGGCGTGCTCGTCTGGTGGTGCAATCCGGTTAGATACTACGACT -AAACGACTCATAGTCATCACTCCTGTTATTTTCTCTTTTTTGTTGTAATGCGGTGGTTATCATTTCAAGCCAGCT -CCAGACATCCGGCACACCCGCCAGTCGCCATGATGCCTGAGTTGCACCTGTGCCAATTTTTACTGACATTCCGCC -CAGTCGGTTAACGACTGCGAAGCCAGATTCATCGGTTAAATCATCGCCCAGAAATACGGGCGTTCGCCCGATAAA -GGGAGCTTCCTGCATAAAAGCTGCAATTGCCTCACCTTTACTGGTACCTCTCGGTTTGATCTCGACAACACACTT -TCCCTGCTGTAACGCCATTTGTGGCCAGATCTGAGTAATACGTTGCGCTAATGTCATTAATGCGTCTTCATGCTG -CGGAGCCTGACGATAATGCAGCGCAAAAGCCATCCCTTTCGCCTCCAGCTCCGCGCCGGGATACTGAGCGATGAC -TGTATGCAGTTGCACGCTAATATCACGCGCAATCGCATCCGGCAGATGAACGATATGTGTTTTACCATTGATGTC -ACGGCGCTCCGCCCCATGCACGCCCGCTAACGGGAAGCGATAAGGTTTTGCCAGTGCGTCAAGCTCCACCATTGA -GCGCCCTGATATCAATGCCAATGCACCATCACTTGCGGTTGCCAGTAGCTGTAGTCCTTGCAGAATATTGTCAGG -CACGACGACCTGATCGGGATGCGGTTTGATTTCCGCCAGCGTTCCATCAAGATCAAAAAACCAGGCATATTTCGC -GGATAGTTCAGGGGTTTCGGTTAACGGTTCTGTCACCCGGTTCTCCTCCTTCTCTTTTCTTATTGTGTTGCGCAG -AACGCGCTTTACAGACATGTAAGTATAGACAGTGTGACGGGGGTCGCCATTTGCAACGAAGAACAGCCAACCGTT -ATGGCGGTTGGCTATGGTGGGAAAAAACGCTAAATTGTTGCAGAAAAAAGCATCAGACAGTGCGTTTCGCTTTTT -GCTTGTAACGGTCGAAGATCACCGCTGCCAGCAGGATTAAGCCGCGAACCACGTACTGCGCGAAAGGAGAAATAT -TAAGCAGGTTCATGGCGTTTTCCACGGTGCCTAAAATTAAGATACCCGCCACCACATATGAGATTTTTCCGATGC -CACCTTTCAGAGAAACGCCACCTAAAACGCAGGCGGAGATAACAATCAGCTCATAACCAATCGACGTCATTGGCT -GCCCACTGGTCATACGTGAAGCCAGAATAATTCCGGCTATCGCTGATACCAGGCCTGAGAGAACAAAGATAATAA -TTTTGGTGCGAACAACCGGTACACCCGCCAGACGCGCGGCCTCTTCGTTCCCGCCAATCGCCAGGGTGTTACGAC -CAAAGGTGGTTTTATTCAGCAGCAAACCAAAGATAATCAGACACGCGACGGTGAGCCAGATTGGCGCAGGCAGAC -CGAACCAGTTGGCGTAACCAAGGGCAAAGAAGCTTTCATCTTCGATACCGACCGCTTTACCGTCTGAAATGATGT -ACGCCAGACCTCGAACAATCTGCATCGTTGCCAATGTCGTGATCAGAGCATTTATTTTCAGTTTGGCGATAACAA -AGCCATTGACCAGGCCACAGAGAACGCCCAGCAACAACCCCGCTGCCACGCCAATCCACAGGCTTTCAGTCAGGT -TAATAACCACCGCCGTGGTGACACCCGCACAGGCAATTACGGAGGCGACAGAAAGGTCAAAGTCACCGGAAGCGA -GGCAGAACAACATGCCACAAGCCACCATCCCCGACATGGAAATTGCCAGGCCCAACCCTTTCATATTAATGAAGG -TGGCAAAATTTGGGACAAAAATGGCACAGGCGATAAAGAGCACCGCAAACACCACCAGCATGCCGTACTGATCCC -AGATACGCCCGAAGCTGAATGACGACTTAGGTGCGCCAGACCCCGATGTAGAAACAGAAGACATCATACTCTCCT -TACTCAGGCAACAGCCTGGCTGACTTTAGGCATCGCAAGGCTCAGTGCCTGACGCTCATCTGCCTGCTCGTGTAA -CAATTCACCGGCGATTTCACCTTCCCGCATCACCACAATCCGGTCGGCAACGCCGAGGACTTCAGGTAAGTCGCT -GGAGGCAAACAGCACCGCCACGCCCTGCGCCGCCAGCGCATAAATTACGTTATATATTTCGTGCTTAGCGCCAAC -ATCAATGCCGCGCGTAGGTTCATCCAGCAAAATGACCTTCATCTCTTCCGATAACCAGCGGCCCAGAATGGCTTT -TTGCTGATTTCCGCCTGAGAGATTCATGATCAGTTGCTCCGCGCCCGGCGTTTTGATGTTGAGCGAACGAATGTG -GTGATCGGCATTGTTTTCTTCCCAACCGTTGTTGATTACACAACCGCCGAGCACATGTTTACGTCTGGCACTGAT -GTTGATATTGTCGCGAACGGAGTGCACGGGAATAATGCCTTCCGCTTTGCGATCTTCCGGGCAGAGCATCATGCC -TGCGGCAATGGCGTGGCTCGGTTTACGAATATCGATCGGCTGTTGGTCGATATAAACCTGACCGGCGGTGATTTG -CGTCCCGCCAAACATGCCTTTCATTAATTCGCTACGCCCCGCCCCTACCAGACCAAACAGCCCAACAATTTCACC -ACTGCGAACCGCCAGACTTATTGGCGTACGCACGCCTGGTGCTTTCACAGCATCAAGACGTAGGCGCTCCTCGCC -ATAACTACGCGGTTGCCAGCCGTAGATATCGCCAATGTCGCGCCCGACCATCGCCTGCACCAGCGCGTCGTGGTC -AACCTGCTGCATATCGGTAAAGGTTTTGACATAACGTCCATCTTTAAAGACAGTAATGGCATCGCTGAGGGCAAA -TATTTCTTCCATACGGTGAGAAACGTATAAGATTACCCGCCCCTCTTTTCGCAGTTCACGAATAACGCGGAAAAG -ATTGTCGATTTCACGGGCAGAGAGGGAGCTGGTTGGCTCATCAAAGGCGATAATTTTGGCGTTACGCGCCAGCGC -TTTGGCGATTTCAACCATCTGCCACTGACCAATGGAGAGATATTTCAGCGGCGTGTCCGGGTCAATATCCATACC -AAGATGTTTAAGTTGTAAACCCGCCTCATAATTCAGCAATGAGCGATTCACAATGCCGCCTTTATGCGGCAGCTG -GCCGAGATAGATGTTTTCCGCGACGGTCATTTCCGGCACGAGATGCAGTTCCTGGTAAATAATCGCCACGCCCGC -GTTAAGTGCTGCGGTCGTGTCGGAAAAGGACATTTCCTGCCCATTAATCACTACAGAACCCGTGGTTGGCGCATA -GTTGCCGCTGAGGATTTTTAAGAGAGTTGATTTTCCTGCGCCATTTTCACCCATCAACGCATGAACCTGACCGGC -ATAGCAGTCAAAACTAATATCCGTCAGCGCCTTAACGCCGGGAAACGTTTTACCGATGCCGCGAAATGAGAGATA -CGGGGTAGACTGTTGCATAACGTCTCCGTGAATCACTGGTCGTTCACACCCCCTCTGCATCATGCAGAGGGGAAT -TTTTCCGGCAAATTACTTACCGCCTAAACCTTTTTTCTCCAGTTCTTCTTTAAAGTTGTCACGCGTGATCAGTAC -CACGTCGGTAACTTCGGTAAATTTTGGCGGTTCAACGTCTTTTGCTACCCAGTTGTAAAGCATTTCGCTGGATTT -ATAGCCATGTACGTCCGGGCTTGGCAGCAGGGAACCGTAGAAGCCGGTTGCCTGTGCTTTAGACAGTTCGCTCAC -CGCATCCACACCGTTAATGCCAATGCCGATGATATCGGCCGCTTTAAAGCCCTGACCTTCCGTCGCGCGTACGCC -GCCCAGCACGGTGCTGTCGTTCATACCGACGATCAGCCAATGTTTAACTTCCGGATGTTGAACCAGCATTGAGTT -GGCAGCGTCAAATGCCCCCGGGATGTCGTTAGATTTGGTAGGTACCTGATAAATTTGTTTTTCCGGGAATCCGGC -CGCTTTCAGCGCATCCATAGATCCCGTAGTACGGCGGCGGGCGGTATCCAGTTCGTTGGCGGTAATCGCCATCAC -CGCGCTTTCTTTGACATCCCAGCCACGTTTCTGCATCTCTTTATACAGTTCCTGGCCCTGACGTTCGCCAATTTT -AGTCGCCGCCATCATCACCAGCGGAACGGTATCCATTGGCTTACCTTTGGCGTTAACAAACTGGTCATCCACGGC -AATGACTTTCATATCGTAGCCACGCGCTTTCGCGACGATGGCAGAGCCGAGTTTGGGGTCCGGAGTACAAATAAC -GAAACCTTTTGCGCCACTGGCAGCCAGGCTGTCGATCGCGTTCAATGTTTTTTCGCCATCCGGCACGGCAATCTT -AATAACCTCAAACCCTAAATCCTTCCCGGCTTTATCGGCAAACTTCCATTCGGTCTGGAACCACGGCTCTTCCGG -TTGCTTCACCAGAAAACCGAGCTTCAGGTTCTCCGCCATAGCGGATTGTGACATAACGGCTGCCAGACCAATGGC -TGCCAGGGCTTTAGTAAATTTGTGCATGGTTCTCTCCAGCTTTAGTGTCGTTTTGTGTAGGGCAAAAACGAATGA -CATTCGTTAAATTAATCGGAAAACAAAGCATTACCTTTTAACTAAAAGATAAGTGACTGTGTTGACATAGTTTTA -GCGAGAAATTAATTCTCCATAGGAGAGCAATATCACATCGCAGAATTACAGTGAGAACGTGCATAAATTTAGCGG -GAAAAGACATAAGGGAAAGCCAATTTGTCAGACAAATTGTCGAATGCACAGCAGATTAATCCATAAGATTAGCCT -GGAAATCCTTGTTGTCTTTGGTACCCATGCGGGATGTCTTCTTTTTAACCAGTCAATAGGCCGCATTACCTGGCG -TTGAGTTTTTGAAATGGTGTAATAACCGCAACTCAAAGATGTGGAAAATGCACGTCATTCATTTCGTCATTAATT -ATCACTGTGCTCATTAATTAACAGAACACGTATAATGAGAGCCATCTCGCAAAAATGAAAAAACGTTTTATAAAA -TCATCACTTCATCATGAATTCAAATTCATTGATTAATATCAACAAGATACAAAAAGCACTATCATTAAAATTCAT -TGCAGTTACATTGATTTCATCAATGAAATGTAAAAATATATAAACTTGATGATTTAAGCATTTTCTTATACCCGT -TCAGACGTTATTCTTATTTCAGATCATCGTCAGAATTGACTCCACGATCACATTTCGGACCGGCAGAAAGGAATT -ATTCTGCAAACAGTAATTATGGTGTTTTGATTTATCTTGCACCTCTCCACTTCTGGATATAAGGATATTAGGTAT -GGCAACCGCTGGAATGCTTCTCAAACTCAACTCTCAAATGAACCGCGAGTTTTACGCATCCAATCTCTACCTTCA -CCTGAGTAACTGGTGTTCTGAACAGAGTCTGAACGGCACCGCCACTTTCCTTCGCGCCCAGGCACAGAGTAATGT -GACCCAAATGATGCGCATGTTTAACTTTATGAAGAGTGTCGGCGCTACCCCCATCGTTAAAGCCATTGATGTTCC -CGGTGAAAAACTGAACTCTCTGGAAGAACTGTTCCAAAAAACGATGGAAGAATACGAGCAACGTTCTAGTACGTT -GGCACAGTTAGCCGATGAAGCGAAAGAACTGAATGATGATTCAACCGTCAATTTCCTGCGCGATCTGGAAAAAGA -ACAGCAGCATGATGGTCTGTTGCTGCAAACCATTCTTGATGAAGTGCGCAGTGCGAAACTTGCGGGTATGTGCCC -TGTGCAGACCGACCAACATGTTCTGAATGTCGTGTCACACCAGCTGCATTGATCATCATCGGCGCTAATGCATTG -CGCCGATGAAGGTTTTGAGAAACCGCTGCCTCATCTGTTTGAAGCAGCGGTTTTTTTAATGGGATTCACCCTGTG -GGGTAAACTTGAGTTCAATAAGCGCGATGGCTTTTTGGATTGCCCGCATGGTGACCGGGTCTGCGGCGGCGGGAT -GGTTAGTAAAGTCGATATTCTTCAGCTGACTGGACATTTTTTCACGAACTTCAACGGGCGCGATTACATCGAGAA -CATCCAGAATTTGTTTGATAACCAACTGGCAAGCAACCACATCAGAAACCAATTCCTGATCGGCATTCAGCGGCT -GGGACATCGTAAACTCCTGATAGCATTTTGAAAGCCGTTATAGTAGCGACTTCACATCTTCAGCGATAGTCACAT -CCACCGTCATCAGGACACAAAAAAACCTGCCGGAGCAGGTTTTTTGTTATCGGAACATATTGCCTGGCGGTACGT -CTTTGAACGTCTTGCAATAGTTATTGAACATACTTTTCAGGATTTTGCGCAGTTTCATCGCGGCACTCCGACCAT -TTGTTATACAGGTGTTATTGTCTTTGCGCTTATAATATGACAACCATCACAAAAATCAATCTTTATGTGATACAA -ATCACATAAATACCCCTTTAATGTTATAAAAATGATAATCAAAAAACAGCCCCCCTATTTCTGACACCTACAGAT -GGCAAGAAATAGCGCCTGCCAGGCGTCTTTTCCGGCCATTGTCGCAGCACTGTAACGCGTAAAATAGTGCTTTCT -CTTACTCTTCTGGCTGGACCATGAGACTTCTGATTCTGACTCTTTCATTAATAACGCTGGCGGGGTGTACGGTTA -CTCGCCAAGCCCATGTGAGCGAAGTTGACGCGGCAACAGGTATTGTACGGTTAGTTTATGACCAGGCTTTTTTGC -AGCATGCCCATACCGATCGTTATGTCAGTCGCGGGATCGCCGATCGCGCATGCCAGCAGGAAGGCTATACCCACG -CGGTCCCCTTTGGTCAGCCAGTAGGCAACTGTAGCCTTTTTGCGGGTTCCTTATGTTTGAATACGGAATTCACTT -TGTCATATCAGTGCCATCATTCCGCCTTCCCTGTCTTTCTCTAAATATTTTAATCAGCGAGGGGATCTTCGCTGA -TTAAAGAAATAGCGGTAATGCGTTTTATTCCCATTCGTATTTTTAATAATTGAAGTTTATATTTTACCTTTTGCA -AATAATAAAATAACAAATTATAGTGACGCCACAGCAACAAATATAACCTTTGTGGAGCACTATCATGCTGAAACC -AGAAATGATTGAAAAACTTAATGAGCAGATGAACCTGGAACTGTACTCTTCACTGCTTTATCAGCAAATGAGCGC -CTGGTGCAGCTATCATACCTTCGAAGGTGCTGCCGCGTTCCTGCGCCGTCACGCCCAGGAAGAGATGACGCATAT -GCAGCGTCTGTTTGATTACCTGACTGATACCGGCAATTTACCGCGTATTAATACCGTTGAATCTCCGTTTGCTGA -ATATTCCTCACTTGATGAATTATTCCAGGAAACCTATAAACACGAACAATTAATCACCCAGAAAATTAACGAACT -GGCTCATGCTGCAATGACCAATCAGGACTACCCAACATTTAATTTCCTGCAATGGTATGTTTCTGAGCAGCATGA -AGAAGAGAAACTGTTCAAATCGATTATTGATAAATTAAGCCTGGCAGGCAAAAGCGGCGAAGGTCTGTATTTTAT -CGACAAAGAACTCTCTACCCTCGACACACAAAACTAATGCTCTCCGGCGGCAGGTTTACTGCCGCCGTTTCAAAT -CAGTGACGGCAAATCTTACTCTGATCGGTCGAAAAACCGTCTTTCGAAGGTATAAATTTGCCTTTTGCTGCCAGA -AACGCTACCAGCTCTCCCGCTGTCATCCCTTCTGCCGAGCAGGTGTGAAAACGTGCCTGTTCACCAAAACGCGCT -TTAATCGCAGCTTCCAGACTGGCATGCGTATATTGCTCGCCTGATTCAATCATCATATTTAACACTTCATGACCG -TGAATAGAGTCCATCGTCCCTCCTCAAAAAAAGCCTAGCGTAGCGATTGCCGCTTATGAAGACTTTGCGCCAGCG -CAGGACTGAATGCTTTTTATTGTACATTTATATTTACACCATATGTAACGTCGGTTTGACGAAGCAGCCGTTATG -CCTTAACCTGCGCCGCAGATATCACTCATAAAGATCGTCAGGACAGAAGAAAGCGTGAAAAACAGAACCCTGGGA -AGTGTTTTTATCGTGGCGGGAACCACAATTGGCGCAGGCATGCTGGCAATGCCGCTGGCTGCGGCCGGTGTTGGT -TTTAGCGTTACGTTAATCTTGTTGATTGGGCTTTGGGCGTTGATGTGCTACACGGCGCTATTACTGCTGGAGGTG -TACCAGCATGTTCCGGCAGATACCGGTCTGGGCACGCTGGCAAAACGCTATCTGGGACGCTACGGTCAATGGCTG -ACGGGCTTCAGTATGATGTTCTTAATGTATGCTCTGACTGCGGCATACATCAGCGGTGCCGGTGAATTGTTGGCC -TCCAGCATCAGCGACTGGACAGGTATTTCTATGTCGGCAACCGCTGGCGTGCTGTTGTTCACTTTTGTTGCCGGT -GGCGTGGTTTGTGTCGGAACTTCACTGGTCGATTTATTTAACCGTTTTCTGTTCAGCGCCAAGATTATTTTTCTG -GTGGTAATGCTGGTACTACTGCTGCCGCATATTCACAAAGTGAATCTTTTAACCCTGCCGTTGCAACAGGGGCTG -GCTCTGTCTGCAATCCCGGTGATTTTTACGTCGTTTGGTTTTCACGGTAGCGTGCCGAGTATTGTCAGCTATATG -GATGGCAACATTCGTAAGCTACGCTGGGTGTTTATAATCGGTAGTGCGATCCCCCTGGTGGCATATATTTTCTGG -CAGGTGGCGACGCTTGGCAGCATTGATTCAACAACCTTTATGGGATTGCTGGCTAATCATGCTGGATTAAACGGG -CTGTTACAGGCGTTACGCGAAATGGTGGCCTCTCCGCATGTTGAGCTGGCAGTGCATTTATTTGCTGATTTAGCC -CTCGCCACGTCATTTCTCGGCGTTGCGTTAGGCTTATTTGATTATCTGGCTGATTTATTTCAGCGTTCAAATACC -GTTGGTGGACGGTTGCAAACTGGTGCAATTACGTTTCTGCCGCCGTTGGCGTTTGCACTGTTTTATCCACGAGGA -TTTGTGATGGCGCTGGGTTACGCCGGTGTGGCGCTGGCGGTACTGGCATTGATTATCCCTTCGCTGTTGACCTGG -CAAAGCAGAAAGCACAATCCTCAGGCGGGTTACCGGGTCAAAGGTGGTCGTCCGGCGCTGGTGGTGGTGTTTCTC -TGTGGTATTGCTGTGATTGGCGTGCAATTTTTGATTGCGGCAGGGTTGTTACCAGAAGTGGGGTGATCAGATAGC -CTCAAATTCCTTATTGGGTGCCAGAATTAACGCTGACACCCAATTTGGCCTCTTAATGCAGGCAGCACTGCTTAA -ATTTCTTACCACTACCGCACGGGCAAGGATCGTTACGCCCCGGTTTCTCTTCTGCTTTGATCGGTTGCTGAACAG -CTTTTTCCTGCGGATGCGCCATCCAGTACGCATGTAGATCAAGCGCCGCCAGTCGAATGGCATCTACGCTCTCTT -CAAACGCTTCTGGCGACATCTTTTCTACCCGCTCGAAGTTTTCCTCAGTACCGTGCAGCGCAATCGCCTCCAGCG -CTGGTTTTAACGAATCGGGCAACGTTGACCAGTCAGAAAGTGCCACGCCCCGCATATAGCCAAAGCACCACTCCT -CAACAATCGTCAGCTCGCTGCCATCAACTTCTCGCAAGCCGAATAACGGCTCAAACTGCTCCGGGAATTCGTTCA -GACGCTCTGCGGTATCGGCCATATGTTGAAAAGCCAGATTCATAAAGCGCGTCATCTCTTTCTCTGACGCCCAGC -GCGGCACATAGTCAGCCCCACCCCACACGGCAACCAGCCACTGTTCCGGTTCAATCTCTTGCGGAGAACTCAACA -CCGCCGTCAATAAACCGTCCAGCTCCGCCACATCAAGGATGGCGTGGTCAGTGTTGTATTTGGTCAGAATATCGT -CCAGCCATTCCAACTCACTTTCGTTTAACGGTCCCGTTTTCATACGCTTTTCCTTGTGGATCTCAACTCGCCAGC -ACCTATCTTACATGCCGGTCCGTATCAGAGATACTTTTTGAGTGGCTTTGCTGGTGATTAAAAATTAAGGAGGGT -GTAACGACAAGTTGCAGGCACAAAAAAACCACCCGAAGGTGGTTTCACGACACTGCTTATTGCTTTGATTTTATT -CTTATCTTTCCCATGGTACCCGGAGCGGGACTTGAACCCGCACAGCGCGAACGCCGAGGGATTTTAAATCCCTTG -TGTCTACCGATTCCACCATCCGGGCTCGGGAAGAAAGTGGAGGCGCGTTCCGGAGTCGAACCGGACTAGACGGAT -TTGCAATCCGCTACATAACCGCTTTGTTAACGCGCCAAATTCTTCAGGCCTTTCAGCCAGACATCCGCTTGACGC -CGATGTCTTTTAAACTGGAGCGGGAAACGAGACTCGAACTCGCGACCCCGACCTTGGCAAGGTCGTGCTCTACCA -ACTGAGCTATTCCCGCATTCATCAAGCAATCAGTTAATCACTTGATTTTATTATCGTCTGGCAATCAGTGCCGCC -GTTCGATGCGTTGCATTCTACTTACCTGGCGCGATGAGTCAACGATATTTTTCACCACTTTTGATCGTTTGCTGA -AAATTACGCCGAAACGATCACTGATCAAGCAAATCTGCACGCGCAGCGCTCAAATATTGCAACATTGACCACAGA -GTCAGTACCGCAGCCACAAAGAAAAGTGCAATACCGGCGTACTCAACCCAAATGTTCGGACGCCACAGCAGCCAT -GCCAACGCCACCATCTGGGCAGTGGTTTTCACTTTCCCAATCCAGGAGACGGCCACGCTACTGCGTTTACCCAAC -TCCGCCATCCATTCGCGTAGCGCAGAAATAATAATTTCACGGGCGATCATCGTTGCCGCCGGTAATGTCACCCAC -CAGCTGTGATAATGCTCGGTTACCAGCACCATGGCGATAGCCACGAGAACTTTATCTGCCACAGGGTCAAGGAAA -GCACCAAACCGGGTACTCTGGTTCCAGCGGCGTGCCAGAAAACCATCGAACCAGTCAGTCACCGCCGCGACGCAG -AAAATGAGCGCGGCGGCAAACGGCGACCAGGTGACAGGCAGATAAAAGACCAATACAAAGAATGGGATAAGGATG -ACACGGAACAGTGTAAGCAACGTAGGGATATTAAATTGCATAATGACGGGTAACTATCTGTTGTCAGTAAGATTA -CCCCTATGTTGCTACAGAGACATCAATGTTTCAACGACCAGAAGATCTTTTCTGCCAGACCTTGCGAAATACCCG -GCACTTTTGCAATTTCCTCGACGCTGGCGTTACGTAAACCTTGCAAACCGCCCATATATTTCAACAACATTTGCC -GACGTTTTGGCCCGACGCCTTCAATGGTTTCCAGGGAACTGGTATTTTTGACCTTCGCCCGTTTTTTACGGTGCC -CGCCAATCGCGTGATCATGTGATTCATCGCGAATATGCTGGATAACATGCAGCGCGGGTGAATCTGGCGGCAAAC -TAAATCCCTCACCTTCCGGCTCAAAGAACAGCGTTTCCAGTCCAGCCTTACGATCTGCTCCTTTGGCAACGCCAA -GTAGCAGCGGATGATTTTTATCCCATGAGACATCCAGTTCGGCGAAGACATTTTTCGCCTGCGCAAGCTGGCCTT -TGCCGCCGTCGATAAGGATCACATCCGGGATCTTACTGTCGTCAATGGCTTTACCATAACGCCGACGCAGCACCT -GATTCATCGCCGCATAATCATCGCCCGGCGTGATGCCTGTAATGTTATAGCGCCGATACTCCGCACGCAGCGGGC -CGTTAGCATCAAACACCACACAGGAAGCGACGGTTTGTTCGCCCATGGTATGGCTGATGTCAAAGCACTCCATCC -GCTTCACTTCCGGCAATTTCAACACGCTGGCAAGCGCGGTCAGTCGCTGGTGAACGGTAGATTGCTGCGAAAGTT -TGCTGGTTAAGGCCGTCGCCGCATTGGTGCGCGCGAGTTTCAGATAACGCGCCCTATCGCCGCGAGGTTTGGTTT -GAACATTAATCTTGCGTCCCGCCAGTTCTGAAAGGGAATCGGCGAGCAGCGTTTTATCGCTAAGATTAAAATCGA -GCAGGATCTCACCCGGTAAGGTGCGCATCTGGCTGCCTTGTAAATAGAACTGGCCTACGAAGGTTTCTACCACCT -CGCTCAGTTCCGTACCGCCAGGCACTTTCGGGAAATAGCTGCGGCTGCCGAGCACTTTGCCCTGACGAATGAACA -ATACGTGGACACAAGCCATGCCCGCATCGAACGCCACACCAATAACGTCGAGGTCGTCGCCGGTATTGGAAACGA -ATTGTTTTTCGGTGACGCGTCGCACCGCCTGAATTTGGTCGCGAATACGTGCAGCTTCTTCAAACTCCAGATTCT -GGCTGGCAGTTTCCATACGACTAATGAGTTGCGTAAGCACCTGATCATCTTTGCCAGACAAAAACAGGCGCACAT -ACTCGACCTGCTGAGCGTATTCTTCTTCACTCACCAGTCCTTCAACGCACGGTCCCAGACAGCGCCCTATCTGGT -ATTGCAGACACGGACGCGAGCGATTGCGATAAACACTATTTTCGCACTGGCGAATGGGGAAAATCTTTTGCAGTA -GCGCCAGTGTTTCACGTACGGCATAGCCATTCGGGAACGGGCCGAAATATTCACCTTTGGCATGCTTCGCACCAC -GATGCATCGCCAGACGCGGGTGGGTATCACCACTCAGGAAGATAAAAGGATATGATTTATCATCGCGTAGCAAAA -CGTTGTAACGCGGCTGATAGAGTTTGATGTAGTTGTGTTCCAGCAACAGCGCTTCGGTTTCTGTGTGAGTAACCG -TTACATCAATTTGCTGGATCTGGGCGACCAGCGCTTCGGTTTTGCGCGAAGCGAGGTTGCTACGGAAATAGCTGG -AAAGCCGTTTTTTCAGGTCTTTCGCTTTGCCGACATAGATAACCGTACCACCAGCATCGTACATGCGATAAACGC -CTGGCTGGCTGGTTACGGTTTTTAAAAACGCTTTTGCGTCAAACTGATCACTCACTGACTTGATAATGTCTCCGC -ATTACACAGACCATGGCGAATTGCCAGGTGAGTCAGCTCAACATCGCCATGAATGTTTAGTTTACTGAACATACG -ATAGCGGTAGCTGTTCACCGTTTTCGGACTGAGATTGAGCTGTTCTGAGATCTCATTGACCTTCTGGCCCTTGGT -GATCATCAGCATAATCTGCAATTCACGTTCAGACAAACTGGCAAATGGGCTTTCTGTTTTTTCTGGTTCGATCTG -GCTTAACGCCATTTGTTGAGCGATGTCAGAAGCAATGTAACGCTGCCCTGAATAGACAGAACGAATCGCACTCAC -GACTTCCTGCGGAGCCGCGCCTTTGCTGAGGTAGCCCGCAGCACCGGCCTGCATGACTTTCGCTGGTAAAGGGTT -TTCTGTATGGACGGTAAGCATGATGATTTTGACATCAGCTGTGGAACGCGCGATTTTACGCGTCGCCTCAAGACC -GCCAATGCCCGGCATACTCATGTCCATTAGCACCACGTCAACGGCATTTGTCCGGCACCACTTAACGGCGTCTTC -ACCGCACGATGCCTCACCGACGACTTTTATACCCTTTATATCTTCCAGAATGCGTCGTATCCCTGCGCGCACCAG -TTCGTGGTCATCAACAAGTAGAACGTTGATCAAAGGAATATCTCCAGAAATAGGGATAACGCTACTGATAGTTAG -TCATTCGTATATTAGCGGTTTTTATTGCAACTTTGAAACGTTAAAAATGGTGGGTATTCGATTTTTCTCTCGTTT -TTGTCAATTCGATTGTCCACAGTTATGGTCACGCCCGTCACCAACGGCTTACCGGATCGTTTCACAGTAAGCCCT -ACGATGAAATGTGACAAAAATTGACTTTATTCAGCAAAAATGAAAATCAGCCCGCTGAATATGTAACATTAATTA -ACCCGAACAATACGGGCAAAAAACATTCATGATAAAAATATTTATTGGTCATTATATTAACGTATTTTATAGCAC -TGCCGATATCACGCTCAAAAAACAACCACTGCTATTTTTAGCAAAGCTTATGGTATACTCCGCCGCCTTAACATT -TTTCACCGCAAATTTTCATTGCAACATGACGAGGAAAATAAATGAGTACGCCTGATTTTTCTACTGCCGAGAATA -ATCAAGAACTGGCAAATGAAGTCTCCTGCCTGAAAGCGATGCTGACGCTGATGCTGCAGGCGATGGGACAAGCTG -ACGCGGGCCGCGTGATGTTAAAGATGGAAAAACAGCTTGCGCTGATCGAAGACGAAACCCAGGCTGCAGTATTTT -CCAAAACGGTTAAGCAAATTAAACAAGCCTACCGTCAGTAATATAAAACCGGCTGATAGCGTGCCTTTCAGCCGG -TTTTTGCATCTGGCACGCAGGACAGAAAAGAGATCAAATTAAGCCAGTAGCGGCCGCGTAACAGGCAACCTGGGT -CTTATTTGGTGCATTAATTTTTTTCTGCATGTTTTTCTGGTGGAAATTGACCGTATTCTCAGAGATTGACAAAAT -CATCGCTATCTCTGCTGATGTTTTCCCTTCCGCCGTCCACCTCAGAATTTCTTTTTCGCGCTTGCTGAAATTCAT -CTCTGGCGTCATCACTATTTCATCATTTAAACGCATCAGAGCCATCAGACTTTCGCGCACCAGTAACTGCATTTT -TAATTGCAGTTCATCACTAAGAATGGGTATTTCGCGCGCGCTGCAACGGGAAAAGGACAAAAAGCCCAGCGCCCG -GTTTGGCAGCATTAAATACTGAGTGACACCGCGGCGTAAACCATGTGCGCGCGCGGCTTCCCATAACGGCTGTGC -TTCGCTGAATAAGTCATCATTCCACATTAAATGGCCCTGACTAAAGTTTTCAGGGTTCAGCACCGGATCAATTGC -GAGAAAGTTTTTTGCCTGATAATAACTAACCCACGCCTCAGGGTAATTGGTGTAAAAAGCCACTTTAGGTCGAGT -GAATGGTACCGGGTGGCGGACACATAACGAATAGTAATCGTACTCCAGCTGCTGAGCCTGAAGCTCAATTTCATG -GTAGACCTCTTCTGCGGTCTCCATCCTCTGAAAACGCAACAGCATCGTGCGACGCCAGCTGAAAAAATCCTTATC -CTGCATAGTAAACCGCAACGCCCCTGAGAGTGAGTATCATTTATAATGATAATTCAAACTATCACATAAATAAGA -TTTATATATAATTTATATTATTCAGGCAATGAATTACTTTTGCAAGCCATCGCATTCTCTTATGTTATTAATGAG -TTATGCTGATTTGTTAAGCAGTTTTATCAGGCTTGAAATGGCGTCCAGCCCCGACAGGTGAATCGTCGGGGCTGA -TTTTTTCTTATTATTGCAGCAGAAACTTCTCGAGGAACTGGCGGGTGCGAGGCTGCTCGGGGTCGGCAAATAACG -CTTTTGCGGCCCCCTGCTCGACTATCCGCCCCTGGTCCATAAAGATCGCCCGGTCCGCAACATCCCGGGCAAAGC -TCATTTCGTGCGTCACAATCACCATCGTGCGCTTTTCCTGCGCCAGCTGACGGATGGTGTTCAGGACTTCACCCA -CCAGCTCTGGATCCAGCGCTGACGTTGGCTCGTCAAACAAAATCACCTCAGGACGCATTGCCAGCGCACGCGCAA -TCGCAACACGCTGCTGTTGACCGCCAGACAAACGACGTGGATAGCTGGTTTCTTTACCTGCCAGCCCAACTTTTG -CCAGCAGCTCGCGAGCGCGCGCCGTGGCCTCTTCTTTCGGTTCACCTTTGACGATCACCGGCCCTTCAATAATGT -TCTCCAGCACCGTACGATGCGGAAACAAATTAAAGTTCTGGAAGACAAACCCGACGTGCTGACGCAACTGGCGAA -TCAGAGATTTTTGCTGACTTAATGAACGTGCAGTATCAATAGTGATATCGCCAACGGTGATCGTTCCCGCTTCGG -GTTGTTCCAGCAGATTTATGCTGCGTAGCAACGTGGTTTTGCCGGAACCACTCGGACCGATAATTGCCACCACTT -CGCCAGGCTTTACCTCAAGGTCGATACCGTGCAGCACCGTCTGACCGTGGAATTTTTTCACCAGGTTCTTAACTT -CAATGGCACTCATTTTGGTTCTCTCTCCTGGCGATTAAGTTGATTCTCAAAATGGTTCTGCAACGTCGATAACAC -AGTCGCCATGATCCAGTAGATGAGCGAAGCCGCCAGATACATGGTGAACACCTCCAGCGTACGCGAGGTAATCAA -CTGCGCCTGACGGAACAGCTCCGGCACCTGGATTGTCGCGGCCAGCGACGTATCTTTTACCAGGCTAATAAAGCT -GTTCGACAGCGGCGGCAACGCCACACGCGCCGCCTGTGGCAAAATCGCGCGACGCATGGTCTGCCACGGCGTCAT -ACCAATACTGGCTGCCGCTTCCCACTGACCTTTATCAATAGAAGAAATGGCGGCGCGCAGCGTTTCGGCAGCATA -GGCGGCAGTGTTCAACGACAGACCAATCATTGCTGACGGAATGGGATCTAATTCGATACCAAACTGCGGCAGGCC -GTAATAGATCATAAACAGTTGTGCGATGAGCGGCGTACCACGAAAAATAGAGATATAAAAACGCGCCAGCCAGCG -CACGGGCCAGATTGGCGACAGACGCATCAGCGCGAGAATAAACCCGAGCAGTAAGCCAAAAAACATGCCGCCGAT -ACTGAGTTGCAGCGTATACCCAGCCCCTTTCAGCAGGAACGGCAAGGAATCAATAACCAGTTGTATACTTTCTTG -CATGAGCGTTTCCGGAGCTAAACGTGGGGATGATAGGCGAACAGCGCAGGCGCACCGCCGGTATGAATAAACAGA -ATCGGCCCTTCATCTTTGAAGCGTTTCTGACTGATACCGTCAATCAGCCCCGCCATCGCTTTTCCGGTATACACA -GGATCAAGCAGAATGCCTTCCAGCCGCGCCAGCAATTTCACTGCTTCCATGCCTTCGTCGTTCGGCACGCCGTAG -CCAGGTGCAAAATAGTCATCCCAGAGTAAAATTTCCGCTGATGCGGTCAGCTCCAGTTCTTTCGCAATCGCCTGT -TGTAGGTTAACCACTTTCGGCAATTGATCGGCAACGGAACGCGACACGGTCACGCCAATCAGTTCGCTTTCAGGC -ATCAGGTGTTCCAGCCCAACAGCCAGTCCGGCGTGAGTTCCGGCACTGCCCGATGCGACTACCACCGATGAAATA -TTAACCGCCCCTTCACACTGTTGCGCGATTTCCAGCGCACTCTCCACATAACCTAGCGCGCCAAGAGCATTAGAA -CCGCCAACCGGAATGACATACGGGCGAAAGCCTTGTGCTTCGACTCGCGTCGCCAGCTCTTCCAGTTGGGCATTG -GGATCGGTCAGTGCGTCGCACATTTCAATCTGGGTATTGAACAGATCCAGCAACAAGCGATTGCCGTTGGTTAAA -TAGTTTTCTGCGGTTGTGCCAATAGGATTTTCCAGCAGCGCCACGCAGTGCAGACCGAGTTTGGCAGCGACTGCG -GCAGTCTGCCGCACATGGTTAGACTGGATCGCCCCGGCAGTAATCAGCGTATCGGCACCTTCACGCAGAGCATCT -GCCGCGAGAAATTCCAGCTTACGTAATTTATTGCCGCCCATTGCCATGGGGGTGACGTCATCCCGTTTGATGAAA -ATTTCCCGTCCTAGATAATCAGAAAAGCGCGGCAGATATTCGAGCGGCGTTGGCGCGCCGATAAACTCCAGCCGT -GGAAAACGGGTTAAATTATGCAGTGGCATAACAGCCTCCGATGTGTGTTGTTGTGATTTTCTTATTATGCACGCT -GAAAACGCGTAAATAAAAAAGGCGCTAGTGAAAGCGCCCTTTTTTGTCATTATGCTGATTATTTGGTCACATCAG -CACCAAACCATTTTTCGGAAAGGGCTTGCAGAGTGCCATCTTTTTGCATTTCCGCAATTGCATCATTCACTGCTT -TCAGCAGGTCCTCATTTCCTTTACGCAGCGCCACGCCAGACTCCTGACGGGAGAATGCTTCACCGGTTACTGCCA -GCGTATCGTTGGTTTTCTTCACCAGATCCAGCGCCGCCAGACGATCAACGAGGATCGCATCGATACGCCCTACGC -GCAGATCCTGATATTTGGTCGGGTCATCATCATAGGTACGCACATCGACGCCCTGAACATTCTGCCGCAGCCACT -CTTCATAGTTGGTGCCCAGACCGACCCCCACTTTTTTGCCTTTCAGATCATCGGCTGTTTTAATGGTGCCTTCGT -TACCTTTTTTCACCAGCGCCTGAATACCAGAAATGGTGTACGGGGTTGAGAAATCGTATTTTTTCTTGCGCTCAT -CAGAAATGGTGACCTGATTAATCACCACATCAATACGTTTAGAGTCCAGCGACGCCAGCATACCGTCCCATTTGG -TCGGTTTTAGTGACGCCTCAACGCCAAGATGTTTTGCCAGCTGTTGGGCAAATTCCACTTCAAAACCGGTTAATT -TGCCGTCATCTCCCTGAAAACTGAACGGCGGATAAGTTCCTTCCAGCCCTACCAGCAGCGTGCCGCGCTCTTTAA -CTTTATTAAGCAGACCTTCATCTGCAAAACTTTTAACGCTCATGCCCGCAACCAGCGCCACGGCCATCACACCCA -TCAATGCCTGACGTCCCAGATGTGCTAATTTCATATTCACCCCGAATGTTGTTATGTCTGTTTGCAGTGTAGAGC -CATTGTTTGTAAACACAAAAACAACTCCGCTACATCTTATTCTTATTTAATATATATCAGAAGAAGGCAGGCTGG -AGGATTTCTGCACAAGTCTGGTACAGGTTTGGCGCTGATAGTGTTGATACTTCCGTAACGCGATGCGGTAATTGT -TGGTGCTGGTGGTGGGCAGCCACGGGGCGAGGATTTCATCAAGGAAACCGTCCTGCAGCTGATCGAGGGAAATAT -TTTGCTCGTGTAGATGATTCCCCAAACGGCGCAAACGAACGACATATTCACGCACCGTACCTGGGCTCATTTCAG -TTTGCTCAAAAAGAAATTGCTTAAAGCCGATAATATCGAAAAAATCACTCTGCGTTTTGCAATGTAAATCACCGC -AAAATCGGCACAATGCCGCCCATGATTTTTGTTCCGTTTGCCAGCCATTTTCATCAAGCAGCGTGTCCAGGCGGG -AAATCTCGATTTTATTCACTATTTTGCCGTCGCGAACTAAGGTAATGCGATCGAGTAATTTACGGCAATGCGCGC -AATGGGTCTGGCTGTGTTTAAAGTCTTTAAGATAGCGGCTTAATGGCCGTCTTTTCAGGTGCTGCACCATCATTA -AGAACTCCTGGTAGTCAAAGTTAAAGTGCGGCATTTACTGACGTTATAACTTACCCAGTTTAGTGCGTAACCGTT -TAATAGCCTGGCTGTGTAACTGACTGACCCGCGATTCCCCGACCTCCAGCACCGCGCCAATCTCTTTGAGATTCA -GCTCTTCCTGGTAATAGAGGGTTAATACCAGTTTTTCGCGCTCCGGCAACGTTTCGATGGCTTCCATCACCCGCT -GGCGCAGATTACTGTCCAGTAGTTGTTGTAGCGGGTTTTCTCGCTGATGATCATCAGTAACCAGTTCGATGCTAT -CGCCGTGCTCTTCGCGCCACTCATCGTAGGAGAAGAGCTGGCTGTTATTGGTGTCGAGCAACATTTGGCGATAAT -CGGCAATATCGATCCCTAAACGTTCCGCTACCTCAGTTTCCGTGGCGTTGCGGCCAAGTTCCTGCTCCAGTTGCC -CTATTGCCTGTGCCACTTCACGCGCGTTGCGTCGCACGCTGCGCGGCACCCAGTCACGGCTGCGAAGTTCATCCA -GCATAGCGCCACGGATACGCTGCACTGCGTAAGTTGTAAATGCCGTTCCTTGTAGGGCGTCATAGCGTTCGACGG -CATTAAGTAACCCAATGCCGCCCGCCTGTAGCAGATCGTCAAGTTCCACGCTCGCGGGCAGTCGAACCTGCAGGC -GCAATGCTTCGTGACGCACCAGCGGGACATAACGCTGCCACAGCGAGTGTTTATCCATTACACCTTCAGCGGTAT -AGAGTGAATTCACGATAAACAGCCCTGCGTTATATGAGTTATCGGCATGATTATCCGTTTCTGCAGGGTTTTTAA -TCGGACGATTAGTGGGTGAAATGAGGGGTTATTTGGGGGTTACAGGTAAATTCCAGGCAGAAAAAAACCCCGCCG -GTGGCGGGGAAGCACGTTGCTGACAAATTGCGCTTTATGTTGCCGGATGCGGCGTAAACGCCTTATCCGGCCTAC -AAAAATGTGCAAATTCAATAAATTGCAATTCAACTTGTAGGCCTGATAAGCGCAGCGCATCAGGCAATTTGGCGT -TGCCGTCAGTCTCAGTTAATCAGGTTACAACGATTAACCCTGCAGCAGAGACAGAACCTGCTGCGGTACCTGGTT -AGCTTTTGCCAACACGGAGTTACCGGCCTGCTGGATGATCTGCGCTTTCGACATATTGGACACTTCGGTCGCATA -GTCGGCGTCCTGAATACGGGACTGCGCTTCAGACAGGTTGGTAGTGGTGTTGTTCAGGTTGGTAACCGCGGAATC -CAGACGGTTTTGCACCGCACCGAGGGAAGAACGGAATTTGTCTACAGATGCGATAGCATCGTCCAGCGCTTTCAG -CGGATCCGTGGTTTTACCATTTGCAACAGCAGTCAGAGCCTCACCACCAGCAGTCAAACCTGTTTGCAGATTACC -GCCATTTAAATCGGCAGAATCGTATGTTTTACCATCAATATCGACCACTTCTGTTTTGCCATCATCTCCGCCCAG -TTTGACCGCGGTTGGAGAACTGGCGGCACCGGAAGAGTCAGTATAGGTAATAGTTTTAACAGAAACAGCACCAGT -AGTTTCATTCACATCCGCAGCGTAAAGATTGCCATTTGTATCTTTAAGCGCATATGTATCGGTATCATTACCCTT -GGAATCCTGCAGTTTTACTAAGCTAACAGCACCAAGGTTGGCAGTTGCGGAACCTGCAGTATTATCAATCTGAAC -AGGTGTACCGCCTGAAGTGATAGTTGTAGCTTTAGTAGTATTTGCATCAGTTACAGTTGCATTTGCCGTTGCTCC -AGTCGCCATTGTCACTGTACCATCATTAGCAACTGTTACTGCGTAATACTTCCCATCGTTATCACCACCGGTGAT -TTTCGCATAGTAATCATTACCATTATCAGTATAAACACCCTCAATTGAAGCTGGGTTAGTTCCGCCAGTATCAGT -GGCTGCTTCCGTAGAAAGGGTAATTCCAGTAAGTTTAATATTGTTTGTGGTGGTAGCACCAAAAGCAGTTACTGG -AGCACTAGTGGTAACTGTATCGTTATTTTTAACGCTAAAACCATCAAGGCCAAGAGTTTTAGCATCAATCTGCTT -CAGATCGATAGTGATAGTCTGGTTATCATTTGCGCCAACCTGGATTTTCATGGAGCCATTTTTTGCCAGCACGTT -CACGCCGTTGAACTGGGTCTGACCAGATACGCGGTCAATTTCATCCAGACGGGATTTAATTTCGTCCTGGATAGA -AGACAGATCAGACTCAGAGTTAGTACCGGTAGTGGCCTGTACCGTCAGTTCACGCACACGCTGTAAGTTGTTGTT -GATTTCGGACAGCGCGCCTTCGGTGGTCTGCGCAACGGAGATACCGTCGTTGGCGTTACGGGCCGCCTGAGTCAG -GCCTTTAATGTTAGAGGTGAAACGGTTAGCAATCGCCTGACCCGCTGCGTCATCCTTCGCGCTGTTAATACGCAA -GCCAGAAGACAGACGCTCGATAGAACTCGACAGCGCAGACTGGTTCTTGTTGATATTATTTTGAGTGATCAGCGA -GAGGCTGTTGGTATTAATGACTTGTGCCATGATTCGTTATCCTATATTGCAAGTCGTTGATTACGTATTGGGTTT -CCACCCGTCGGCTCAATCGCCGTCAACCCTGTTATCGTCTGTCGTAAAACAACCTTTAGAATTTTTTTCAAAAAC -AGCCATTTTTTGTTAGTCGCCGAAATACTCTTTTCTCTGCCCCTTATTCCCGCTATTAAAAAAAACAATTAAACG -TAAACTTTGCGCAATTCAGACCGATAACCCCGGTATTCGTTTTACGTGTCGAAAGATAAAAGGAAATCGCATGGC -AAGTATTTCATCGCTGGGAGTCGGGTCAGGTCTGGATTTAAGTTCCATCCTTGATAGCCTCACCGCCGCGCAAAA -AGCGACGCTAACCCCCATTTCAAATCAGCAATCGTCGTTTACCGCTAAACTTAGCGCCTACGGTACGCTGAAAAG -CGCGCTGACGACTTTCCAGACCGCCAATACTGCATTGTCTAAAGCCGATCTTTTTTCCGCCACCAGCACCACCAG -CAGCACCACCGCGTTCAGTGCCACCACTGCGGGTAACGCCATCGCCGGGAAATACACCATCAGCGTCACCCATCT -GGCGCAGGCGCAAACCCTGACCACGCGCACCACCAGAGACGATACGAAAACGGCGATCGCCACCAGCGACAGTAA -ACTCACCATTCAACAAGGCGGCGACAAAGATCCGATTACCATTGATATCAGCGCGGCTAACTCATCGTTAAGCGG -GATCCGTGATGCCATCAACAACGCAAAAGCAGGCGTAAGCGCAAGCATCATTAACGTGGGTAACGGTGAATATCG -TCTGTCAGTCACATCAAATGACACCGGCCTTGATAATGCGATGACACTCTCGGTCAGCGGTGATGATGCGCTACA -AAGTTTTATGGGCTATGACGCCAGTGCCAGCAGCAACGGTATGGAGGTCTCGGTTGCCGCCCAGAATGCGCAGCT -GACAGTCAACAACGTCGCCATCGAGAACAGCAGCAACACCATCAGCGACGCGCTGGAAAACATCACCCTGAACCT -GAACGATGTCACCACGGGCAACCAGACGCTAACCATCACTCAGGACACCTCCAAAGCGCAAACGGCGATTAAAGA -CTGGGTGAATGCCTACAACTCGCTAATAGATACCTTCAGCAGCCTGACCAAATACACCGCCGTAGATGCGGGAGC -TGATAGCCAGAGTTCTAGCAATGGTGCACTGCTCGGCGACTCCACGCTGCGGACGATTCAGACGCAGTTGAAATC -GATGCTGAGTAATACCGTCAGTTCTTCCAGCTATAAAACGTTGGCGCAGATTGGTATCACGACCGATCCCAGCGA -TGGCAAACTGGAACTGGATGCCGACAAACTCACCGCTGCACTGAAAAAAGATGCCAGCGGCGTAGGTGCATTGAT -TGTTGGCGATGGTAAAAAAACCGGCATCACGACCACCATCGGCAGCAACCTGACCAGTTGGCTTTCGACAACGGG -CATTATTAAAGCCGCTACCGATGGCGTTAGTAAGACCCTGAATAAATTAACTAAAGACTACAACGCCGCCAGCGA -TCGCATTGATGCGCAGGTCGCTCGCTACAAAGAACAATTTACCCAACTGGACGTTTTAATGACCTCGTTAAACAG -CACCAGCAGCTACTTAACGCAGCAGTTCGAAAACAACAGTAATTCCAAGTAAGCAATATTCATCGGGAGACAGGT -CATGTACGCGGCAAAAGGCACCCAGGCCTATGCACAAATTGGCGTCGAAAGCGCCGTAATGAGCGCCAGCCAGCA -GCAGCTGGTCACCATGCTATTTGATGGAGTGCTGAGCGCACTGGTTAGAGCGAGCCTGTTTATGCAGGACAACAA -TCAGCAAGGCAAAGGCGTCTCTTTGTCAAAAGCGATCAACATCATTGAGAACGGACTGCGGGTGAGTCTTGATGA -AGAGAGCAAAGACGAACTAACCCAAAACTTGATTGCTCTTTATAGCTATATGGTCAGGCGCTTGCTGCAAGCCAA -TTTACGCAACGATGTCTCCGCAGTCGAAGAAGTGGAAGCATTAATGCGCAATATTGCCGATGCCTGGAAAGAGTC -GTTACTCTCCCCTTCTTTGATTCAGGACCCAGTCTGATGAACCATGCACCGCATTTATATTTCGCCTGGCAACAA -CTCGTCGAAAAAAGCCAGCTCATGTTACGCCTGGCAACGGAAGAACAATGGGACGAACTCATCGCCAGCGAAATG -GCGTATGTGAATGCGGTGCAGGAGATTGCACATTTGACTGAAGAGGTTGACCCGTCCACCACGATGCAGGAGCAG -CTCCGCCCGATGCTGCGCCTGATTCTCGACAACGAAAGCAAGGTAAAGCAGTTATTACAGATTCGGATGGATGAA -CTGGCGAAACTGGTCGGTCAGTCATCGGTGCAAAAATCGGTGTTAAGTGCCTATGGCGATCAGGGCGGCTTTGTG -CTGGCTCCGCAGGATAACCTCTTTTGAATCTGAATGAGTCGATGGCTCGCGAATAATCCGATTACGGCTACGCTT -CTAATGTTCCCCTTGAATGGAGTCGAAGAATGCGTAATCCCACGCTGTTACAATGTTTTCACTGGTATTACCCGG -AAGGCGGTAAGCTCTGGCCTGAACTGGCCGAGCGCGCCGACGGTTTTAATGATATTGGTATCAATATGGTCTGGT -TGCCGCCCGCCTATAAAGGCGCATCGGGCGGGTATTCGGTCGGCTACGACTCCTATGATTTATTTGATTTAGGCG -AGTTTGATCAGAAAGGCAGCATCCCTACTAAATATGGCGATAAAGCACAACTGCTGGCCGCCATTGATGCTCTGA -AACGTAATGACATTGCGGTGCTGTTGGATGTGGTAGTCAACCACAAAATGGGCGCGGATGAAAAAGAAGCTATTC -GCGTGCAGCGTGTAAATGCTGATGACCGTACGCAAATTGACGAAGAAATCATTGAGTGTGAAGGCTGGACGCGTT -ACACCTTCCCCGCCCGTGCCGGGCAATACTCGCAGTTTATCTGGGATTTCAAATGTTTTAGCGGTATCGACCATA -TCGAAAACCCTGACGAAGATGGCATTTTTAAAATTGTTAACGACTACACCGGCGAAGGCTGGAACGATCAGGTTG -ATGATGAATTAGGTAATTTCGATTATCTGATGGGCGAGAATATCGATTTTCGCAATCATGCCGTGACGGAAGAGA -TTAAATACTGGGCGCGCTGGGTGATGGAACAAACGCAATGCGACGGTTTTCGTCTTGATGCGGTCAAACATATTC -CAGCCTGGTTTTATAAAGAGTGGATCGAACACGTACAGGAAGTTGCGCCAAAGCCGCTGTTTATTGTGGCGGAGT -ACTGGTCGCATGAAGTTGATAAGCTGCAAACGTATATTGATCAGGTGGAAGGCAAAACCATGCTGTTTGATGCGC -CGCTGCAGATGAAATTCCATGAAGCATCGCGCATGGGGCGCGACTACGACATGACGCAGATTTTCACGGGTACAT -TAGTGGAAGCCGATCCTTTCCACGCCGTGACGCTCGTTGCCAATCACGACACCCAACCGTTGCAAGCCCTCGAAG -CGCCGGTCGAACCGTGGTTTAAACCGCTGGCGTATGCCTTAATTTTGTTGCGGGAAAATGGCGTTCCTTCGGTAT -TCTATCCGGACCTCTACGGTGCGCATTACGAAGATGTCGGTGGTGACGGGCAAACCTATCCGATAGATATGCCAA -TAATCGAACAGCTTGATGAGTTAATTCTCGCCCGTCAGCGTTTCGCCCACGGTGTACAGACGTTATTTTTCGACC -ATCCGAACTGCATTGCCTTTAGCCGCAGTGGCACCGACGAATTTCCCGGCTGCGTGGTGGTCATGTCGAACGGGG -ATGATGGCGAAAAAACCATTCATCTGGGAGAGAATTACGGCAATAAAACCTGGCGTGATTTTCTGGGGAACCGGC -AAGAGAGAGTAGTGACCGACGAAAACGGCGAAGCAACCTTCTTTTGCAACGGCGGCAGCGTCAGCGTGTGGGTTA -TCGAAGAGGTGATTTAAATTCATCCCCGGCGGCAAGCCGGGGAGATTTCATTACGGCAGTGGCGTCGGTAACGGC -GCTTTATCCAGCGCGGCGGCACACTCTGCTGTCGGGCGATCCACACGCTCCATCGTCATACCATCGTACTCAATG -GTGTTACCGTCACGCTCAACCTCGTACAGCTCACGTTTTACGGTAACGTTAGTGAGATCATCAGACATCAATGTC -AACTTACCCGGCACGGCAATCACCCGCTGCCACTGACGGCAATCCAGGGTATCGCCCTCTTTAGTGACAATCAGG -CTGCCTATCGCTTCCGGGCTGACCAGCGCACGTTGCGGCCCTTTGGTCTGCCAGTAGCCCGCCAGCCAGTCCGGC -GCGGGGGTTTTCACGACATTGTTATAGTTTTCGACTTCGGCACAGCCCGCCAGCAACAAGAGCGCGCCTGCAATT -GCGAGTTTTTTCATCATTCGTCCTGCATGAGAAGAAAAGAGGATTGTGGCATTAAAGCCCTGATGTCGCCAGCCT -TTCAAGGTTCAGAGAGAAATTTGATCTAACTATTATTTTTGTGAATTATTACCCCGAAAATAAATTTGCATGGTG -TATGATTCGCGACTCTTGTTTCAAACCTTCTGAGTTCAGAGGCTACATTCATGTCATGGCAGCAATTCAAACACG -CCTGGTTGATTAAATTCTGGGCCCCCATCCCTGCGGTCATCGCGGCGGGTATTCTCTCTACTTACTATTTTGGCA -TTACTGGCACCTTTTGGGCTGTCACGGGTGAATTTACCCGTTGGGGCGGCCAGCTCCTGCAACTGTTCGGCGTCC -ATGCTGAAGAGTGGGGTTACTTTAAAATTATCCATCTGGAAGGATCGCCATTAACCCGCATCGACGGGATGATGA -TCCTCGGTATGTTTGGCGGCTGCTTTGCCGCAGCGCTGTGGGCCAACAATGTCAAACTGCGAATGCCGCGCAGCC -GTATCCGCATTATGCAGGCCATCATTGGCGGCATTATCGCCGGTTTTGGCGCGCGTCTGGCAATGGGCTGTAACC -TGGCGGCGTTCTTTACCGGTATTCCTCAGTTCTCGCTGCATGCCTGGTTCTTTGCCATCGCCACTGCCATTGGTT -CATGGTTTGGCGCGCGCTTTACCCTGCTGCCCATCTTCCGTATTCCCGTGAAAATGCAGAAAGTTTCTGCCGCCT -CACCGCTGACGCAAAAACCGGATCAGGCGCGGCGTCGTTTTCGTCTCGGGATGCTGGTCTTTTTCGGCATGCTGG -GCTGGGCGCTGCTCACAGCGATGAACCAACCCAAACTGGGGCTGGCAATGCTGTTTGGCGTCGGCTTTGGTTTAC -TGATTGAACGTGCGCAAATCTGCTTTACTTCAGCGTTCCGCGATATGTGGATCACCGGACGTACCCATATGGCGA -AAGCAATCATTATCGGTATGGCGGTGAGTGCCATCGGGATCTTCAGTTACGTACAGTTAGGCGTTGAACCCAAAA -TCATGTGGGCGGGACCAAACGCGGTAATTGGTGGTTTACTGTTTGGTTTTGGCATCGTGCTGGCTGGCGGCTGCG -AAACCGGCTGGATGTACCGCGCGGTAGAAGGCCAGGTGCACTACTGGTGGGTCGGTCTGGGCAATGTGATCGGCT -CAACGATTCTGGCGTATTACTGGGATGATTTCGCTCCGGCGCTGGCCACCGACTGGGACAAAATCAACCTGCTGA -AAACCTTTGGTCCGATGGGTGGCCTGCTGGTGACATATTTGCTGTTGTTTGCTGCGCTGATGTTGATTATCGGCT -GGGAAAAACGCTTCTTCCGCCGTGCGGCACCGCAGACTGCTAAGGAGATCGCATGAAAAATATCGTTCCTGATTA -CCGCCTTGATATGGTGGGTGAACCCTGCCCTTATCCGGCAGTCGCAACCCTTGAGGCGATGCCGCAGTTAAAAAA -AGGGGAAATCCTGGAAGTGGTGAGCGACTGTCCGCAGTCGATCAATAATATTCCACTGGATGCGCGTAATCACGG -CTATACGGTGCTGGATATTCAGCAAGACGGGCCGACCATTCGTTATTTAATTCAGAAGTAATCCCTCATTCCCGC -TGTGACCCACAGCGGGAACATCGTTACCTTTGTATCACATAGATTTTACCCGCCCCCACTCCTATTCTTTTCAGT -ATGATCTCAGGAGGTTTCTATGTGTGGACGCTTTGCCCAATCCCAAACGCGTGAAGATTACCTTGCGCTTCTCGC -GGAAGATATTGAACGCGATATTCCCTATGATCCCGAACCCATTGGCAGATACAACGTCGCGCCGGGAACCAAAGT -CCTACTGCTCAGTGAACGTGATGAACACCTTCATCTGGATCCGGTTTTCTGGGGATATGCTCCCGGATGGTGGGA -TAAACCGCCGCTGATTAACGCCCGCGTAGAAACTGCGGCAACCAGTCGTATGTTTAAACCGCTCTGGCAACATGG -TCGGGCAATCTGTTTTGCCGATGGCTGGTTTGAGTGGAAAAAAGAAGGCGACAAAAAACAGCCTTTTTTTATCTA -TCGTGCTGATGGACAACCTATTTTTATGGCCGCGATAGGTAGCACACCATTTGAGCGTGGTGACGAAGCCGAAGG -ATTTTTGATCGTCACTGCTGCGGCAGATCAAGGTCTGGTAGATATTCATGACCGCCGCCCACTGGTACTGTCGCC -AGAAGCTGCGCGGGAATGGATGCGGCAAGAGATTAGCGGTAAAGAAGCCTCAGAAATCGCGGCCAGTGGCTGTGT -TCCAGCAAACCAGTTCTCCTGGCACCCGGTATCGCGCGCGGTGGGTAATGTTAAAAACCAGGGCGCGGAGTTAAT -TCAACCTGTTTGATAAGCCTGGAGATTATTGATCAACAATACTGCGTCATAAGAAATCTCTATTAGACAAAGATT -TCATTACCTGTTGGCATATTGCAAAAATAACACCAATACGGAATCGTCATGTTCACGATTAAAACAGATGATCTC -ACCCATCCAGCAGTGCAAGCATTAGTGGCTTACCATATTTCCGGCATGCTGCAGCAGTCTCCCCCCGAAAGCAGT -CATGCTTTAGATGTGCAAAAATTACGTAACCCGACAGTGACATTCTGGTCAGTATGGGAAGGCGAACAACTCGCA -GGAATTGGTGCGCTGAAGTTGCTGGATGATAAACACGGCGAGCTGAAATCAATGCGTACCGCGCCAAATTATTTA -CGTCGTGGTGTCGCCAGTCTGATTTTACGCCACATTTTGCAGGTCGCCCAGGACAGATGCCTTCATCGCCTGAGC -TTAGAAACGGGTACACAGGCTGGATTTACGGCCTGCCATCAACTTTATTTGAAGCATGGTTTCGCTGATTGCGAA -CCGTTTGCTGATTATCGACTTGATCCACACAGTCGATTTTTATCATTGACGCTATGCGAAAATAATGAATTGCCA -TGAGCCAGACGCAGCACATTCTTGCATTCGACGTGCTGCGCCTTTATTTATCACCAGCAGGAAACGCCTTGTCCA -TAGACGCCCCTTCCACATGCGCCACAAGAAACCTCTATTCCAGTGACACAATTGCGCCTAATTAATTACATTTAA -TATTTAATTATGAGTTCCTCACCATCTATTACATACTTTTTAACCATATCGGAATATTTATCATAATCAGCGGGA -TTCGTAACAATATATTTTCGCTGCGATCTTTCATAGCAAATCCCTGTCAAAGTCCATGATATAAAAATGTCTCTT -CAAAAGAATTACATTCTTTAAAAAGTAATTCTTTATTGCTATATATCGCAGAGACAACCTCAATATCACACTCCA -TACGTGCTTTCTCCAGATGATTTGGGAAGTATTGAATTTCTTTTATCTTATTATCGCCACAATTAAACAGCTTAG -TAGTCTCAGGCATTGCTGGTATTTACCATATTTTATTGCGATAAATAGAAATTGTCATAGCCTTTGACGGAGATG -AGTCAACACGCGATATCAGATTATTATCTACGGAGACCTGGGTAATTCCATCGGATACTTTTGGAAATACCATAT -AATTATTGAAATCGAGCTCTAATTCTTTGCAGAATTTGGGAATTTGTATTGTGGCAAGGCCATTATGACGAAGAT -AAAGCACCTCAATCCAGGATGGAAGAGGTGGCAAAGACCCCAAGTGAAGATCTGTTAAGTCAAGTTTACTATTGT -GGAGTTCAACACATTTAAACAATCTCACCAATGCTATATCCACATTTTTTTTGAAGTCATTCGATGCGCCTTCTT -TTACTGAATTAGCCCAGTCGCTGAAACCTTTGCAAAGTCTGGAATCTGTAATTTTCGTAAAGTTGTCTAGAAACT -CTGCAATATTAGTCGATATAAACTCTAATTTATGCCGAATGGGTGGGTTACCAGTTCCCTGATTTTTTCTATCAT -GATAAAACCTATCTTATTATAAATCGAGAAATCTTGAAACCAGAGACTATAATCACCCCATTCGAAATATTCTGA -GTGCAATAACTTAAATTCTGACAGCATATTAAATAATTTGCTGTCTTCACTAATTGGTGTAAACTTACCATTTCC -AAGACAACTGACTAACTCACTTGATAATTCATTTATGATTGCATCATCAGATACTAACTCATGTTGTTTTATCGT -AGATTCAGTATTAGATGTGACTTTATTTAATTGAACCGGCTGAGTTTTTAACGAAAGATCATTTAATGGAAACAT -TTACACTCCTGTTTAATAAATTATATTGCCCAGGGCGCATTCTAAAACACAATAAAATTACCACTATCAAAAATC -GCTCATATCCATCGCCCGGAATATGAATAAAAACATCAACAAAGATTAAATTATCCAGAGGTTACTGTTGCGTCT -GTGGTCGTAACAACATCCGACGTGGTGATGTGTCAAATGAGACGCTCTGATGTTCAGGGGGGTTATCGCGTATAC -GGATCGTGGATGGCAGAAAACGTTCAGGATCAGGTATCCATTTTAAACCAGAAATTGAGTGAGTTTGCCCCATCC -ATGCCCCACGCGGTGAGATCGGATGTAATTAACAACAGGTTACAAAACCTACACCTGCATGCTCATCACTTCCTG -ATACGCCGCCACCAGCTTATTACGCACCTGAATCCCCATTTGCATAGAAACTGAGGCTTTTTGCATATCGGTCAT -CACATCGTTTAACGCCACGCCGGGTTCACCGAGAGTGAATTTTTCTGCCTGCGTGCGGGCAGCTGTTTGTGTATC -ACTAATGCGATCGAGCGCGGCGTGCAGCTGCCCGGCAAAACTAATGGTCGGTTGCGGCAGTGATTCCTGCGCACG -CGCACTCATCGCCGTAGCCTGTAACTGGCTGATAACCCCTTCAATCCCCTGTATCGCTGACATTCTCGTCTCCCG -GATAATTTCTGGTAGCAAAGCCTACCAGTAAGTCAATAAGACAAAGGCGCTAAATAGCAACAAAAAAACGGGTTT -ATTGGCGGATAGAAAAAAACGAAAGCACAAATAATGGGAGCGTCAATTTTTCGAGTTTGCTGACCCGGGAGTGAG -TCTTGTTCCACTTTGCCAATAACGCCGTCCATAATCAGCCACGAGGTGCGCGATGAATGCGACTGCAGCCCAGAC -AAAATCTCTTGAGTGGCTTAATCGCCTGCGTGCGAATCCGAAAATTCCATTGATTGTTGCCGGTTCCGCGGCAGT -GGCGGTCATGGTCGCACTGATCCTGTGGGCGAAAGCCCCCGACTACCGCACATTATTCAGCAATCTTTCCGATCA -GGATGGTGGCGCAATTGTCAGCCAACTGACGCAAATGAATATTCCTTACCGCTTCAGCGAAGCCAGCGGCGCTAT -TGAAGTTCCGGCAGATAAAGTTCACGAACTGCGTCTGCGCCTGGCACAACAAGGTTTGCCAAAAGGCGGCGCGGT -CGGTTTCGAACTGCTTGATCAGGAAAAGTTTGGTATCAGCCAGTTCAGCGAACAGGTGAATTATCAGCGGGCGCT -GGAAGGCGAGCTTTCTCGTACCATCGAAACTATCGGCCCGGTAAAAGGGGCGCGCGTACATCTGGCAATGCCGAA -ACCGTCTTTATTCGTCCGTGAACAAAAATCCCCTTCTGCATCGGTGACGGTAAATCTGTTACCCGGCCGCGCACT -CGATGAAGGGCAAATTAGCGCCATTGTGCATCTGGTTTCCAGCGCCGTTGCTGGTCTGCCGCCGGGAAACGTCAC -GCTGGTGGATCAGGGCGGACATCTGTTAACCCAGTCCAATACCAGCGGGCGCGATCTTAATGACGCTCAGTTGAA -ATATGCCAGCGATGTCGAAGGCCGTATTCAGCGGCGTATTGAAGCGATCCTGTCGCCTATTGTTGGTAACGGTAA -TATTCACGCCCAGGTTACGGCGCAGCTGGACTTCGCCAGTAAAGAACAAACGGAAGAACAGTATCGCCCTAACGG -TGATGAATCTCATGCGGCGCTTCGTTCACGCCAGCTTAATGAGAGCGAGCAAAGCGGTTCCGGTTATCCGGGCGG -CGTACCGGGGGCGTTGTCGAATCAACCGGCACCTGCGAATAACGCGCCAATCAGCACGCCTCCGGCAAATCAAAA -TAACCGCCAGCAGCAGGCGAGCACCACCAGCAATAGTGGGCCGCGTAGCACACAGCGGAATGAAACCAGTAACTA -CGAAGTCGATCGCACCATTCGTCATACCAAAATGAACGTGGGCGATGTGCAACGTCTGTCAGTCGCGGTCGTGGT -GAATTACAAAACCTTGCCAGATGGCAAACCGTTGCCTCTCAGCAACGAACAGATGAAGCAAATTGAAGATCTGAC -CCGCGAGGCGATGGGCTTTTCTGAAAAACGCGGTGACTCGCTCAATGTCGTTAACTCGCCGTTCAATAGCAGTGA -CGAAAGCGGCGGAGAACTGCCATTCTGGCAACAGCAAGCGTTTATCGATCAGTTACTTGCTGCCGGTCGCTGGTT -GCTGGTACTGCTGGTGGCGTGGCTGCTGTGGCGGAAAGCGGTACGTCCGCAGCTAACACGTCGCGCTGAGGCGAT -GAAAGCTGTACAGCAACAGGCGCAGGCCCGCGAGGAAGTGGAAGATGCGGTGGAAGTCCGCCTGAGCAAAGACGA -ACAACTACAACAACGGCGCGCTAACCAACGTCTGGGGGCAGAAGTCATGAGCCAGCGTATCCGTGAAATGTCTGA -TAACGATCCGCGCGTGGTGGCGCTGGTCATTCGCCAGTGGATAAATAACGATCATGAGTAACCTGACAGGCACCG -ATAAAAGCGTCATCCTGCTGATGACCATTGGCGAAGACCGGGCGGCAGAGGTGTTCAAGCACCTCTCCCAGCGTG -AAGTACAAACCCTGAGCGCTGCAATGGCGAACGTCACGCAGATCTCCAACAAGCAGCTAACCGATGTGCTGGCGG -AGTTTGAGCAAGAAGCTGAACAGTTTGCCGCACTGAATATCAACGCCAACGATTATCTGCGCTCGGTATTGGTCA -AAGCTCTGGGTGAAGAACGTGCCGCCAGCCTGCTGGAAGATATTCTCGAAACTCGCGATACCGCCAGCGGTATTG -AAACGCTCAACTTTATGGAGCCACAGAGCGCCGCCGATCTGATTCGCGATGAGCATCCGCAAATTATCGCCACCA -TTCTGGTGCATCTGAAGCGCGCCCAAGCCGCCGATATTCTGGCGTTGTTCGATGAACGTCTGCGCCACGACGTGA -TGTTGCGTATCGCCACCTTTGGCGGCGTGCAGCCAGCCGCGCTGGCGGAGCTGACCGAAGTACTGAATGGCTTGC -TCGACGGTCAGAATCTCAAGCGCAGCAAAATGGGCGGCGTGAGAACGGCAGCCGAAATTATCAACCTGATGAAAA -CTCAGCAGGAAGAAGCCGTTATTACCGCCGTGCGTGAATTCGACGGCGAGCTGGCGCAGAAAATCATCGACGAGA -TGTTCCTGTTCGAGAATCTGGTGGATGTCGACGATCGCAGCATTCAGCGTCTGTTGCAGGAAGTGGATTCCGAAT -CGCTGTTGATCGCGCTGAAAGGAGCCGAGCAGCCACTGCGCGAGAAATTCTTGCGCAATATGTCGCAGCGTGCCG -CCGATATTCTGCGCGACGATCTCGCCAACCGTGGTCCGGTGCGTCTGTCGCAGGTGGAAAACGAACAGAAAGCGA -TTCTGCTGATTGTGCGCCGCCTTGCCGAAACTGGCGAGATGGTAATTGGCAGCGGCGAGGATACCTATGTCTGAT -AATCTGCCGTGGAAAACCTGGACGCCGGACGATCTCGCGCCACCACAGGCAGAGTTTGTGCCCATAGTCGAGCCG -GAAGAAACCATCATTGAAGAGGCTGAACCCAGCCTTGAGCAGCAACTGGCGCAACTGCAAATGCAGGCCCATGAG -CAAGGTTATCAGGCGGGTATTGCCGAAGGTCGCCAGCAAGGTCATAAGCAGGGCTATCAGGAAGGACTGGCCCAG -GGGCTGGAGCAAGGTCTGGCAGAGGCGAAGTCTCAACAAGCGCCAATTCATGCCCGGATGCAGCAACTGGTCAGC -GAATTTCAAACTACCCTTGATGCACTTGATAGTGTGATAGCGTCGCGCCTGATGCAGATGGCGCTGGAGGCGGCA -CGTCAGGTCATCGGTCAGACGCCAACGGTGGATAACTCGGCACTGATCAAACAGATCCAACAGTTGTTGCAGCAA -GAACCGTTATTCAGCGGTAAACCACAGCTGCGCGTGCACCCGGATGATCTGCAACGTGTGGATGATATGCTCGGC -GCTACCTTAAGTTTGCATGGCTGGCGCTTGCGGGGCGATCCCACCCTCCATCCTGGCGGCTGTAAAGTCTCCGCC -GATGAAGGCGATCTCGACGCCAGTGTCGCCACTCGCTGGCAAGAACTCTGCCGTCTGGCAGCACCAGGAGTGGTG -TAATGACCACGCGCCTGACTCGCTGGCTAACCACGCTGGATAACTTTGAAGCCAAAATGGCGCAGTTGCCTGCGG -TACGTCGCTACGGGCGATTAACCCGCGCTACCGGGCTGGTGCTGGAAGCCACCGGATTACAATTGCCGCTCGGCG -CAACCTGTGTCATTGAGCGCCAGAACGGCAGCGAAACGCACGAAGTAGAAAGCGAAGTCGTTGGCTTTAACGGTC -AACGGCTGTTTTTAATGCCGCTGGAGGAAGTCGAAGGTGTCCTGCCCGGCGCGCGTGTTTATGCCAAAAACATTT -CGGCAGAAGGGCTGCAAAGCGGCAAGCAGTTGCCGCTCGGTCCGGCGTTATTAGGTCGCGTTCTGGACGGCAGCG -GTAAACCGCTCGATGGCCTGCCCTCCCCCGATACGACGGAAACCGGTGCGCTGATTACCCCGCCATTTAACCCGT -TGCAACGTACACCGATTGAACATGTGCTGGACACCGGCGTGCGCCCAATCAATGCCCTGCTTACCGTTGGGCGTG -GGCAGCGTATGGGGCTGTTTGCCGGGTCCGGCGTTGGTAAAAGTGTGCTGCTGGGGATGATGGCACGTTACACCC -GCGCCGATGTCATTGTCGTGGGTTTGATTGGTGAACGTGGGCGCGAAGTAAAAGATTTTATTGAGAACATCCTCG -GTGCCGAAGGGCGTGCACGCTCAGTGGTGATTGCCGCTCCGGCGGATGTTTCTCCGCTCCTGCGAATGCAGGGTG -CCGCCTATGCCACGCGCATTGCCGAAGATTTTCGCGATCGTGGTCAGCATGTGTTGCTGATTATGGACTCCCTCA -CCCGCTACGCGATGGCCCAGCGTGAAATTGCGCTGGCGATTGGCGAACCCCCCGCCACCAAAGGTTATCCACCGT -CGGTGTTTGCCAAATTACCGGCACTGGTCGAGCGTGCCGGAAATGGCATTAGCGGCGGCGGCTCGATTACCGCGT -TTTATACCGTGCTCACTGAAGGCGATGACCAGCAGGATCCGATTGCCGACTCCGCGCGGGCGATCCTCGACGGTC -ACATTGTGCTGTCTCGCCGACTGGCGGAAGCCGGGCACTATCCGGCTATCGATATTGAAGCGTCGATCAGCCGCG -CAATGACGGCGTTGATCAGTGAGCAACATTACGCGCGAGTGCGCACCTTCAAACAGCTGTTGTCGAGTTTTCAGC -GTAACCGCGATCTGGTTAGCGTCGGCGCGTATGCCAAAGGCAGCGATCCGATGCTCGATAAAGCCATCGCCCTGT -GGCCGCAGCTGGAGGGCTATTTGCAACAAGGCATTTTTGAACGCGCGGACTGGGAAGCGTCTCTCCAGGGGCTGG -AGCGTATTTTCCCGACAGTGTCATAACCCAGGAGATAACGGCAGATGGCAGAACATGGTGCGCTGGCGACCCTGA -AAGATCTGGCAGAAAAAGAGGTAGAGGATGCCGCGCGCCTGCTGGGTGAAATGCGTCGCGGATGTCAGCAGGCGG -AAGAACAGCTCAAAATGCTGATTGATTATCAGAATGAATATCGCAATAACCTCAACAGCGATATGAGTGCCGGGA -TAACCAGCAACCGCTGGATCAACTATCAGCAGTTTATCCAGACGCTGGAAAAAGCCATTACTCAGCATCGCCAGC -AACTTAATCAGTGGACGCAGAAAGTTGACATTGCCCTGAACAGTTGGCGAGAAAAAAAACAACGTTTGCAGGCCT -GGCAGACACTGCAGGAACGGCAATCCACGGCGGCACTGCTTGCAGAAAACCGCCTCGATCAGAAAAAGATGGATG -AGTTCGCCCAGCGCGCCGCCATGAGGAAACCTGAATGATTCGCTTAGCGCCCTTGATTACCGCCGACGTTGACAC -CACCACATTGCCTGGCGGCAAAGCCAGCGATGCTGCACAAGATTTTCTCGCGTTGTTGAGCGAAGCATTAGCAGG -CGAGACAACTACCGACAAAGCGGCCCCCCAGTTGCTGGTGGCAACAGATAAGCCCACGACAAAAGGCGAGCCGCT -GATCAGCGATATTGTTTCCGACGCGCAACAAGCTAATTTACTGATCCCTGTGGATGAAACACCGCCTGTCATCAA -CGACGAACAATCCACATCAACACCGTTAACCACCGCTCAGACGATGGCGTTGGCTGCGGTGGCTGACAAAAATAC -GACAAAAGACGAAAAAGCGGATGATCTGAATGAAGACGTCACCGCAAGCCTGAGCGCCCTTTTTGCGATGTTGCC -GGGTTTTGACAATACGCCCAAAGTGACTGATGCGCCGTCAACCGTGTTACCGACAGAGAAACCAACGCTCTTCAC -AAAACTGACTTCTGAGCAACTCACAACAGCACAGCCTGATGACGCCCCCGGCACACCAGCTCAGCCATTAACACC -GCTGGTAGCAGAAGCCCAGAGTAAAGCGGAAGTCATCAGCACACCTTCACCGGTGACCGCTGCCGCCAGCCCGCT -AATCACTCCACACCAGACACAGCCACTGCCCACCGTCGCCGCACCTGTTTTGAGTGCACCGCTGGGTTCTCACGA -ATGGCAACAATCATTAAGCCAGCATATTTCGCTGTTCACCCGCCAGGGGCAACAAAGTGCAGAGTTGCGTCTGCA -CCCGCAGGATTTAGGTGAAGTGCAAATCTCCCTCAAAGTGGATGATAACCAGGCGCAAATCCAGATGGTTTCACC -GCATCAGCATGTACGCGCCGCCCTGGAAGCAGCGCTGCCGGTACTGCGCACGCAGCTGGCCGAAAGTGGCATTCA -GTTAGGGCAAAGCAACATCAGTGGCGAAAGCTTTAGTGGTCAGCAGCAGGCCGCTTCCCAGCAACAGCAAAGCCA -ACGCACAGCAAACCATGAACCTCTGGCGGGGGAAGACGACGATACGCTTCCGGTTCCCGTCTCTTTACAAGGGCG -TGTAACAGGCAACAGCGGCGTTGATATTTTCGCCTAACGTCAGAGGTAGCACCGTAATCCGCGTCTTTTCCCCGC -TTTGTTGCGCTCAAGACGCAGGATAATTAGCCGATAAGCAGTAGCGACACAGGAAGACCGCAACACATGACTGAT -TACGCGATAAGCAAGAAAAGCAAGCGATCGCTTTGGATCCCGATTCTGGTATTCATTACCCTCGCGGCCTGTGCC -AGCGCAGGTTACAGCTACTGGCATTCGCATCAGGTTGCCGCTGACGACAAAGCGCAGCAACGCGTCGTGCCCTCA -CCGGTCTTCTACGCGCTGGATACCTTCACGGTCAATTTGGGCGATGCGGATCGCGTACTTTATATCGGCATAACC -CTGCGCCTGAAAGATGAAGCTACCCGCTCGCGGCTGAGTGAGTATTTGCCGGAAGTCCGTAGTCGCTTGCTGTTA -CTGTTTTCGCGTCAGGATGCTGCCGTACTGGCGACAGAAGAAGGCAAGAAAAACCTGATTGCCGAGATTAAAACC -ACACTTTCCACCCCGCTTGTTGCCGGGCAACCGAAACAGGATGTCACCGACGTGCTGTATACCGCTTTTATTCTG -CGATAACGACATGGGCGATAGTATTCTTTCTCAAGCTGAAATTGATGCGCTGTTGAATGGTGACAGCGAAGTCAA -AGACGAACCGACAGCCAGTGTTAGCGGCGAAAGTGACATTCGTCCGTACGATCCGAATACCCAACGACGGGTTGT -GCGCGAACGTTTGCAGGCGCTGGAAATCATTAATGAGCGCTTTGCCCGCCATTTTCGTATGGGGCTGTTCAACCT -GCTGCGTCGTAGCCCGGATATAACCGTCGGGGCCATCCGCATTCAGCCGTACCATGAATTTGCCCGCAACCTGCC -GGTGCCGACCAACCTGAACCTTATCCATCTGAAACCGCTGCGCGGCACTGGGCTGGTGGTGTTCTCACCGAGTCT -GGTGTTTATCGCCGTGGATAACCTGTTTGGCGGCGATGGACGCTTCCCGACCAAAGTGGAAGGTCGCGAGTTTAC -CCATACCGAACAGCGCGTCATCAACCGCATGTTGAAACTGGCGCTTGAAGGCTATAGCGACGCCTGGAAGGCGAT -TAATCCGCTGGAAGTTGAGTACGTGCGTTCGGAAATGCAGGTGAAATTTACCAATATCACCACCTCGCCGAACGA -CATTGTGGTTAACACGCCGTTCCATGTGGAGATTGGCAACCTGACCGGCGAATTTAATATCTGCCTGCCATTCAG -CATGATCGAGCCGCTACGGGAATTGTTGGTTAACCCGCCGCTGGAAAACTCGCGTAATGAAGATCAGAACTGGCG -CGATAACCTGGTGCGCCAGGTGCAGCATTCACAGCTGGAGCTGGTCGCCAACTTTGCCGATATCTCGCTACGCCT -GTCGCAGATTTTAAAACTGAACCCCGGCGACGTCCTGCCGATAGAAAAACCCGATCGCATCATCGCCCATGTTGA -CGGCGTCCCGGTGCTGACCAGTCAGTATGGCACCCTCAACGGTCAGTATGCGTTACGGATAGAACATTTGATTAA -CCCGATTTTAAATTCTCTGAACGAGGAACAGCCCAAATGAGTGACATGAATAATCCGGCCGATGACAACAACGGC -GCAATGGACGATCTGTGGGCTGAAGCGTTGAGCGAACAAAAATCAACCAGCAGCAAAAGCGCTGCCGAGACGGTG -TTCCAGCAATTTGGCGGTGGTGATGTCAGCGGAACGTTGCAGGATATCGACCTGATTATGGATATTCCGGTCAAG -CTGACCGTCGAGCTGGGCCGTACGCGGATGACCATCAAAGAGCTGTTGCGTCTGACGCAAGGGTCCGTCGTGGCG -CTGGACGGTCTGGCGGGCGAACCACTGGATATTCTGATCAACGGTTATTTAATCGCCCAGGGCGAAGTGGTGGTC -GTTGCCGATAAATATGGCGTGCGGATCACCGATATCATTACTCCGTCTGAGCGAATGCGCCGCCTGAGCCGTTAG -TGATGAATAACCACGCTACTGTGCAATCTTCCGCGCCGGTTTCTGCTGCGCCACTGCTGCAGGTGAGCGGCGCAC -TCATCGCCATTATTGCCCTGATCCTCGCTGCTGCCTGGCTGGTAAAACGGTTGGGATTTGCCCCTAAACGCACTG -GCGTTAACGGTCTGAAAATTAGCGCCAGTGCTTCACTGGGCGCGCGTGAAAGGGTTGTGGTGGTCGATGTGGAAG -ATGCACGGCTGGTGCTCGGCGTTACCGCAGGTCAAATCAATCTGCTGCATAAACTTCCCCCTTCTGCACCAACGG -AAGAGATACCGCAGACCGATTTTCAGTCGGTCATGAAAAATTTGCTTAAGCGTAGCGGGAGATCCTGATGCGTCG -TTTATTGTCTGTCGCACCTGTCCTTCTCTGGCTGATTACGCCCCTCGCCTTCGCGCAACTGCCGGGTATCACCAG -CCAGCCGCTGCCTGGCGGTGGACAAAGCTGGTCGCTCCCGGTGCAGACGCTGGTGTTCATCACCTCGTTGACGTT -TATTCCGGCAATTTTACTGATGATGACCAGTTTCACCCGCATCATCATTGTTTTTGGTTTATTGCGTAACGCGCT -GGGAACACCCTCCGCGCCACCTAACCAGGTATTGCTGGGGCTGGCACTGTTTTTGACCTTTTTTATTATGTCACC -GGTGATCGACAAAATTTATGTAGATGCGTACCAGCCATTCAGCGAAGAGAAAATATCAATGCAGGAGGCGCTGGA -AAAAGGGGCGCAGCCGCTGCGTGAGTTTATGCTGCGTCAGACCCGTGAGGCAGATTTAGGGTTGTTTGCCAGACT -GGCGAATACCGGCCCGTTGCAGGGACCTGAAGCCGTGCCGATGCGCATTTTGCTCCCGGCCTACGTGACCAGCGA -GTTGAAAACCGCATTTCAGATAGGCTTCACGATTTTCATCCCTTTTTTGATTATCGACCTGGTGATAGCCAGCGT -GTTGATGGCATTGGGGATGATGATGGTTCCCCCAGCCACCATTGCTCTGCCCTTTAAACTGATGCTGTTTGTACT -GGTGGATGGCTGGCAATTGCTGGTCGGTTCGCTGGCGCAGAGCTTTTACAGCTAGAGAGGCAAAATGACACCTGA -ATCGGTCATGATGATGGGGACTGAAGCGATGAAAGTCGCGCTGGCACTGGCTGCCCCGCTATTGTTGGTAGCGTT -GGTCACGGGCCTTATCATCAGTATTTTGCAGGCCGCCACGCAGATTAACGAAATGACGCTGTCGTTTATTCCGAA -AATCATCGCCGTATTTATCGCCATTATTATTGCCGGACCGTGGATGCTCAATCTGTTGCTGGATTACGTCCGCAC -CTTGTTCACTAACCTGCCGTATATCATCGGGTAGCCGTACTATGTTGCAGGTGACAAGCGAACAATGGCTATCCT -GGTTAAACCTGTACTTCTGGCCGTTACTGCGCGTGCTGGCGCTGATCTCCACCGCGCCGATTCTGAGCGAACGCA -GCGTACCGAAACGGGTAAAACTGGGTCTGGCAATGATGATCACGTTCGCCATTGCCCCATCATTACCTGCCAACG -ATGTTCCTGTTTTTTCGTTCTTTGCTCTGTGGCTGGCCGTGCAGCAGATCCTGATCGGCATTGCGCTTGGTTTTA -CCATGCAATTTGCCTTTGCCGCTGTGCGAACCGCTGGCGAAATTATCGGTCTGCAAATGGGGCTGTCATTTGCGA -CGTTTGTCGATCCGGCCAGCCATCTTAATATGCCCGTTTTAGCGCGTATCATGGATATGCTGGCGTTACTGCTGT -TCCTGACATTTAACGGTCATTTATGGTTGATTTCACTGCTGGTCGATACCTTTCACACCCTGCCGATTGGTGGCG -AACCGTTGAACAGCAATGCGTTTCTGGCACTCACCAAAGCAGGGAGTTTGATTTTCCTTAACGGGCTGATGCTGG -CGTTACCGCTCATTACTCTGCTGCTGACACTGAATCTGGCATTAGGTTTACTTAATCGTATGGCCCCGCAATTAT -CCATTTTTGTTATTGGATTTCCATTAACTCTGACTGTCGGCATCTCTTTAATGGCGGCATTAATGCCGTTAATTG -CACCTTTTTGCGAACATTTATTCAGTGAAATTTTTAATTTGCTGGCTGATATTATTAGTGAATTGCCATTAATAT -AATTCCGTAACGTTTATCATGTTATCCTAAGGATTATCCGAAAAATAATACCTACGAACATCTTCCAGGATACTC -CTGCAGCGAAATATTTGTTTTAAGCTCACTCACATATCGCAACATTTACTTTACTTTAAGACAATTCCAGGCAAA -TTATACAACACTTTACGGGATAGTAAGTCCGCCTGAAAAATCGCGAGAGTGGCGCATTAGGTGACCCATGTTGTT -CCGTTTAGTCATGATGAAATATTCAGGTAAGGGGAATTATCGTTACGCATTGAGTGAGGGTATGCCATGTCAACG -ATTATTATGGATTTATGTAGTTACACCCGACTAGGTTTAACCGGGTATCTGTTGAGTAGAGGGGTTAAAAAAAGA -GAAATCAACGACATTGAAACCGTTGATGACCTTGCCATAGCTTGTGATTCACAGCGCCCTTCAGTGGTGTTTATT -AATGAGGACTGTTTCATCCACGATGCTTCTAACAGTCAGCGTATCAAGCTCATCATTAATCAACATCCCAATACG -TTATTTATCGTTTTTATGGCAATTGCCAATGTTCATTTTGATGAATATCTATTGGTCAGAAAAAATTTATTGATC -AGTTCTAAATCGATTAAACCGGAATCTCTCGACGATATCCTTGGCGATATTCTGAAAAAAGAGACAACGATAACC -TCGTTTTTAAATATGCCGACGTTATCATTGAGCCGAACCGAATCGAGTATGTTGCGAATGTGGATGGCAGGTCAG -GGAACCATTCAAATCTCTGACCAAATGAATATCAAAGCCAAGACCGTTTCATCGCATAAAGGTAATATTAAACGT -AAGATCAAAACGCATAATAAACAGGTTATCTACCATGTCGTCCGACTGACGGATAATGTGACTAATGGTATTTTT -GTCAACATGCGCTAACACATTCTGACTGGTGGTTTCCCACCAGTCAGGCTGAATAAGATTACTCTGCTTTCTCCA -CAAAGATACCGTCCTGATGCCCTGCTTCATTAAAGAACCAGATGCCGAGCGGGTAGTCTTCCAGCGAAACCAGGT -ACATTGTGCCTTCACTAAACTCCTCAACTGCCAGTACCACGCCAGGACGACGCGGACCGCCATCCGTTTTGACTG -TTACCCGATCATTCACCTTCATCGTTTTCCTCCTGTGGCTTTGTGCCAGTGTAGAACAATTTCGTTTTTCTGGCA -GCGCCAGGCGCGCGCGAGTGCTGATTTTCTCGACGGTCTATACTTAAGAGATGCCAGGCGGACTTAACGACTGGC -GGCAACAACAGAGTAACGGTTGCGAGGAAAGATGATGAAAACCGCAAAAGAGTACAGCGATACCGCAAAACGTGA -GGTCAGCGTCGATGTCGATGCCCTGCTGGCGGCGATCAATGAAATTAGCGAAAGCGAAGTTCATCGCAGCCAGAA -CGATTCTGAACACGTTAGCGTCGATGGACGTGAATATCATACATGGCGTGAATTGGCGGATGCCTTCGAACTGGA -TATTCATGACTTCAGCGTCTCTGAAGTGAATCGTTGAATGCACAATAAAAAAATCCCGACCCTGAGGGGGTCGGG -ATGAAACTTGCTTAAGCAAGAAGCACTTAAAAAATTCGTTACACCAGGAAATCTGATGTGTTCATCACCTTATCC -GCAATTTTTTTCGCTGACAAGAAAATATTCGCCATATGAATGATTAACGCTACTTATGAATAGAAATGTGACGCA -CGTCACCCCTTGGTGGCTCTGGCGTCAGCGGGATCGCTCCCGAAAAAATCATCTTTGATAATTTGTGCGGTTTTG -AGAATCATCCTGGTAAGAGGAGTACTGCGCGACTATGTTTTCAATTCAACAACCACTACTGGTTTTTAGCGATCT -TGATGGCACCCTGCTGGACAGTCATAGTTATGACTGGCAACCGGCAGCCCCCTGGCTCACCCGTTTACGCGAAGC -AAATGTTCCCGTCATTCTCTGTAGCAGTAAAACATCAGCGGAAATGCTGTACTTGCAAAAAACGTTGGGGCTACA -AGGTTTACCGCTGATTGCCGAAAATGGCGCAGTGATCCAGCTTGCTGAGCAATGGCAGGAGATAGACGGTTTTCC -ACGCATCATCTCAGGTATTAGCCATGGCGAAATCAGCCTGGTTTTAAATACGCTACGCGAGAAAGAACATTTTAA -ATTCACGACTTTTGATGATGTCGACGATGCAACCATCGCCGAATGGACGGGATTAAGCCGTAGCCAGGCGGCGCT -GACGCAGCTTCATGAGGCGTCGGTAACGCTAATCTGGCGCGACAGTGACGAGCGTATGGCACAATTTACCGCTCG -TCTGAACGAACTGGGCTTACAGTTTATGCAGGGTGCGCGCTTCTGGCACGTACTGGATGCTTCTGCCGGAAAAGA -TCAGGCTGCCAACTGGATTATCGCGACCTATCAACAATTGTCAGGCAAACGCCCAACCACACTTGGCCTGGGCGA -TGGGCCAAACGATGCGCCCTTACTGGAGGTAATGGATTACGCGGTGATTGTGAAAGGGCTAAATCGTGAAGGGGT -GCATCTGCATGATGAGGATCCGGCCCGCGTCTGGCGAACGCAGCGTGAAGGACCGGAAGGATGGCGTGAAGGGCT -GGACCATTTTTTCTCCGCCCGTTAAGCGTTATCGCTCGCGAATACCCGATTACGCCCAGCCTGTTTAGCGAGATA -AAGCCGACGGTCGGCCAGTGACTGGAGTTGTTCAAAATCATAATCACCGGTTTCCTCGCTGCTGCTTACCCCCAG -CGAGGCACTGATGCGTATCGTCGTACTCTTGGCGATCAACATCTCTTTTTCATTTAATTTCAGTCGAATACGTTC -TGCGACCTCCGCAGCCTCCGTCAGACTCGCGCCTGGCAGAATCACACAAAACTCCTCACCACCGACCCGCCCGGC -AACGTCCTGCGCACGCAAGGAACTGCTAATTAATCCGGCAGCATGAGAAAGAACACGGTCGCCCGCCTGATGACC -AAAGCGGTCATTAATCGCTTTAAAATGGTCAAGATCGACCTGAATGACAGAAAAAGGATGTTGGTGCGTCTGACA -CAATTTAGCGAGCGGACGGGCTTTTTCGAACAGTGCGCCACGGTTATATAAACGCGTTAAGGTGTCGTGCCACGC -CTGCCACTGCAACGAGCTTTGCAGAACATACATGTTGCTAACCATCCGGCGAATCACATACCAGGAGATGAGTAA -CATGGTGGTAAAGAGCGCCCACAGCAGGGTTAATGCAATGCTGATACTGCCGAAATCGCCGCGCACGCCTTCGCT -TAACGTATGGACACGCACCAGCACACCGTCGAAATGGTCCAGACGTTCCCAGCTAACATAGCGACTGTCCATACG -AATGCCGCCCCGCGTGTCATGTTCCATTGCCTGCGCCAGCAAGGCCAGTTCACGAGGATCAAAAATATTCCCTGT -TGGATGGTCAGGATTGGAAGAGGTCAAAAATCTCAGCTTACTGTCATAGAGCTGATACTCACCATCGAGGTTTTT -ATCGATGGCGTTTCTTAAAAATTGCTGCATAGTACGCACGGGAATACTCATCCCCAGCACGCCATACCAGTAGTT -ATTACTGTCTACCGGAACACTGACGGTAACCTGCGGTTCAGTATTGCTGGCGTGTTCCGGTTGCGAAGTGAACCA -GCGTACCGCGCGGTGACGATTTTCTCGTTGTGAATGGCCAATAAACCAGGGTTGGGTGACATAGCCGTAATAACG -CGTTGGAACATTGCGCGTAAACAAGGTCGGCTGCGTCGAAACGTAAAATCCGGCACGCGAGACATACATCGCCTG -TTCAACCATCGACGAGGAGTTGTGCGCTAGTCGCAGCAAGTAACCAACTTCCAGTGCAGCGGTAATTTCATTGTC -GAGGCTTTCATTTTCGCGAGACAGGAGATTCCCCTCGCTGACTAATGCATCCGACACACCATTAACTGGCAGAGT -GCGTCGTCGGTTGAGTTCGATTTTCCAGGCGTGCTCGTCGCGATGCTGTTCGAACTCGGTTACAGCATCACGCAG -AGAGGTGAAATCCAGTGGCGCTACGAGAGCTTCGCGCATGCCATTACGTAAAAAGATCAGTTTGTCGACGTTATA -CTGCAAATGCTTATCGAGCGCGTTGGCAACGTTTTCCAGATGATTACGCTGGCTGGAGATATAGGCATCTTCCAG -CACCACCACTTCACGCCAGGTGAGCAAGGTGGAAAAAAGCAATACCACGATAAAGCAGAGATTAACGACATGACC -AGGCCCCAGGCGGCGTGCGAGTTTTTTCAACCAGCTCTGGTTTTCCATTTTTGTCTCGTGCTGCACCCTGACGAC -TCCCAACCTGCTTTTTTATGATTCTGGCATAACCTGGCGATAGCGTACCGCAAAACAGCGATAATTTTATAATGG -TGGCATGATAAGACGCGACTATCATTCATTGCAGGCATTAGCACACCAGGCCGGATGTGATCCGGCCTGATGTTA -ATGATACCCTTTCACACTTCTTCCGCAGAACGACTCCCCTCCCCCGGAACAAGCTCGGTTTCATGAAAAGCTTCC -CGCTTGACCCCGTAACCGTCATACCAACGACACTCAACCATACCGCTGGAGTATCCAGTGACAATCATCCGCGGG -CCGCCCTCTTTAACCGTAACTTCCTCACTAACCATAAAGCTCATACTCGCCTCCTTTTTTCGAGTGAAACTTGTT -CACCTTAGTTGAAGATGGCGAATTTTGCATAATAGCCAGTGCGAGTATTAATGTGCCTGACCGCGCATTTTCTCT -ACGGCTTTCACTCCCAGCACCACGATGCCGCCGATGATAAATCCAAGAATCAGATTTAAAACAGTCGGTAATATC -ATCGCCACTACTGCACTTTGCTGCCCGGCGAAATGTTCAATGGCGTGATGCAGCGGCGCAATTCCATGTACCACA -ATCCCACCGCCGACGAGGAACATCGCCAGCGTGCCGACAATCGATAACGCTTTCATCAGCCAGGGCGCGATAATC -AATAACCCTTTACCTAATGCCTGCATCAGCGCGCTGGATTTTTCCGCCAGCCAATACCCCAGGTCATCAATCTTA -ACGATAACCCCTACCAGACCGTAGACGCCCACGGTCACTACCAGCGCGATGCCTGAAAGCACCAGCACCTGATTA -AGCAACGGCGCTTCGGCCACAATCCCCAGCGTGATGGCGACGATTTCCGCAGACAATATAAAATCGGTACGAATC -GCCCCTTTTATTTTGTCCTTTTCAAACTTCAGCGGATCCTGCGCCGCCAGCTTCTCCAGACGCTGCTGGCTCTGC -GCCGGATCTTCTTTATGTTTACGCGCCTCCAGCATATGCAGCACTTTCTCTACTCCTTCAAAGCAGAGAAACGCG -CCACCAATCATCAACAGAGGCGTAATCGCCCACGGGATAAACGCACTGATGATCAGCGCCAGCGGCACCAGAATC -ACTTTATTAATCAGCGATCCTTTCGCCACGCCCCAGACCACGGGAAGTTCCCGGTTGGCCCGCACGCCTGAAACT -TGTTGCGCATTGAGCGATAAGTCATCCCCTAATACACCGGCGGTTTTCTTCGCCGCCAGTTTGCCCATCACGGAG -ATATCGTCCAGTAGTGTGGCGATATCATCGAGCAACGTCAGTAAACTACTCCCGGCCAAAAGCATTCCCTCTCAT -TTTTATTGTTGAAGGGTGTAAGTATGAAGCAAAAACGGCAGCTCTGATACTTGCTTCACAGGTCAACATTTTTTT -AACAATCAAGTGCAATTATATCTCTCGCCAGCAGAATGATTTTCACGTTTACTATGAACCACCTTTTTATTTCCA -CCGTGAGGGATTATGCGTTTCCGCCAGTTGTTACCGCTTTTTGGCGCGCTGTTTGCGTTGTATATCATTTGGGGC -TCAACCTATTTTGTCATTCGGATTGGCGTGGAAAGCTGGCCTCCGTTAATGATGGCGGGCGTTCGATTCCTGGCA -GCCGGTATTTTATTGCTGGCATTTTTGCTACTGCGCGGACACAAACTCCCCCCGCTACGTCCGCTGCTCAATGCC -GCGCTGATTGGCCTGTTATTGCTGGCTGTCGGTAATGGCATGGTGACGGTTGCCGAACATCAAAATGTTCCTTCC -GGCATCGCCGCCGTAGTGGTTGCAACCGTGCCCCTCTTTACCCTGTGCTTCAGCCGCCTGTTTGGCATTAAAACG -CGCAAACTGGAATGGGTGGGTATTGCCATTGGGCTTGCCGGAATCATCATGCTCAATAGCGGTGGAAATTTAAGC -GGCAATCCGTGGGGCGCGATTCTGATTTTAATCGGCTCGATTAGCTGGGCGTTTGGCTCAGTTTATGGCTCGCGC -ATTACCTTACCTGTAGGGATGATGGCGGGTGCGATTGAGATGCTGGCGGCAGGCGTGGTGTTAATGATCGCGTCG -ATGATTGCGGGTGAAAAACTGACGGCGCTCCCTTCCCTTTCAGGCTTCCTTGCGGTCGGCTATCTGGCGCTGTTT -GGTTCGATTATCGCCATCAACGCTTATATGTATTTAATCCGTAATGTCAGTCCGGCTCTCGCCACCAGCTACGCT -TACGTTAACCCGGTGGTCGCGGTCTTGCTGGGTACGGGACTGGGTGGAGAAACACTGTCGAAGATTGAATGGCTG -GCGCTCGGCGTAATTGTCTTCGCGGTGGTACTGGTCACGTTGGGAAAATATCTCTTCCCGGCAAAACCCGTAGTT -GCGCCAGTTATTCAGGACGCATCAAGCGAGTAAATGAATCCCCTGCGTGTCGATCTGCGCGCTGGCACCTTCGCC -GCAGATCCACTCTTCCAGACGCTCGGTAAGCGCTTCATCCGTCAGCTTCTCGCGCCCACGTAACGCGCACTCCCA -GACAATCAATACGCGCCAGCCGAGTTCCTGCAAGCGACTGATATCGCGGCGATCGCGCTCAACATTTTTACCTAT -CTTCTCCAGCCAGAACTCGGTTCGAGTCGCAGGCACTTTAAACAGATAGCAGTGATGATGATGCCAGAAGCAGCC -ATGGGTAAATATCACGCAGCGATATTCATCAACGACAAAATCCGGACGTCCGGGCAGACTGGCGTCCTGAACGCG -AAATGCCAGGCCCTGCCCGGTTAACAGACTGGCGAGGCGCTTCTCTATCGCCGTATCACGCGTGGCAATCGCGCG -CATATTTTTGCTGCGAGTGGCCTTATCGTGAACGTCGGCCATGTTGTGCCTCTTGCTGACGCAACGCCACCGCCT -GTTTGATTTTTGGCTCAAGCAGTTTTGCCACCGCGGCAAAGACCGGCACGACCACCGAGTTACCGAACTGGCGAT -AGGCCTGAGTGTCCGAAACCGGAATACGGAATTTCGCTTCTCCCGGCGCTTCAAAACCCATTAAGCGCGCGCATT -CCCGAGGCGTTAACCGACGTGGACGATGTTGCTGATTCAGCGGATCGTCAAAGTCTTTCTCACCCGTGGCCATAT -CCCAGCCGCGATCGATTAAAATTTCCGCGCCATCTTTGTAATAACGCGCAGACAGCGTACGCGTGACGCTTTGCG -GATTGTTCGGATAAACCATTCCATAACCGAAGCCGTTACCGCGCGCCTGATGTTTTTTCGCATATCGATAGAGGT -ACTTCCACAGCACCGGCGTCAGGATATATTTCGCCTCGACCATCGGGTCCAACAGCTGCGCCAGCGTCACTCGCT -GCGCAGGGAAACATTCGCTGATATCACGCAGGGTAAAATCGGCTTTCAGATTCAGATCGCGACGAAAACCCACCA -GCACGATGCGTTCACGGTGCTGCGGCAGAAAATGTTTGCCGTCGATGATTTTCGGATCGTCTGGCCCATTATCTT -CTGCATCAGCCACGTCATAGCCCAGTTCGTCCAGCGTCTGCATGATGATGCGGAACGTTTTACCCTGGTCGTGAC -TTTTCAGGTTTTTGACGTTTTCGAGCACAAACATCGCCGGACGACGCGCGTCGATAATGCGTACCACATCAAAAA -ACAGCGTGCCCTGGGTATCGCAGGCAAAACCGTGCGCCCGCCCGAGCGAGTTCTTTTTCGATACGCCAGCCAGCG -AAAATGGCTGACAAGGGAAACCGGCCAGTAAAACATCGTGTTCAGGAATGTGTTGACGAATATGTTCCGCCGCCG -CCTCATCACTCACGCCTTCTTTATGGCTGAGGGTGATGTCGCGGATATCTTCATTAAAATGATGCGTCGCCGGAT -CGCAATAATGGTTGGCTTTATAAGTGCGTACCGCATGTTTGTTCCATTCGCTGGTAAACACGCACTGTCCGCCAA -TCGATTCAAAACCGCGACGGATGCCGCCAATTCCGGCGAATAGATCGATAAAGCGAAACGCATAATGCGGATGAT -GTGCCGGTGGTTTGGGTAATAACGTTTGCAGATGGGCGAACTCTTTCTCACTTAAACGGTGCCATGCCGAGTCAT -TCGCCAGCGCACGTTTTAAAATTGCCGCGCTCCAGTGATTCTCACCTACACCATTAAGCTGCGCCACCAACGTTT -TAACATCATAAATTTGCAGCAGTTTCTCCAGCATTGCCTGTGCGGCATTCCCGGTGCTGTATGAATCGGTTACTG -ATATATTTTCCTGCATAGATTTCACCGGCCATCTGAGATGGCCGACAGGTTAACATAATTACAGCCATTTAGGGC -CACGCGCTCAGCCAGCGGATGAAAACGCATCTATCACCTTGTGATCGACACCTTCATTCTCCCCCGCCAGTTCGG -CACTGAGCTTCGCCATAAACTCGACTAAAAAATGCGCGTTGTGCTGCGCCAGCTGCTTGCCTCTTGCGGTTTGCA -TGGTTTGCGGTAGCTTCAGCAACTTAGTCTGGAAATGATCCAGCGCGTAGCGTTTATCATCAAGCGGGCGATGCT -GTGCGAACGGATCTTCACCATCAAACAGCGCCACGCCCAATGCCCCTGAAACGGCAAACACGCGCGCCAGGCCAA -TCGCCCCCAGGGCTTCCAGCCGATCCGCATCCTGGACAATTTTAGCTTCCGTTGTTAAGGGGGCGATTTGCGCGC -TGAAACTGTGAGCGGCAATGGCATGACAAACGGCCTCGATTTTCTCCGCCGGAAATTGCTCGAACTCTTCACGGA -GCAGGCGACGCGTCTCTTCTGCCGCCAGGATTGAAGAACGCTGCCTTTGCGGATGATTTTTCGCCAGGCTCACAA -TATCGTGAAAATAACAGGCGGTTAAAATCACCAGCATATCGACATCGTCATCTGCCGCCAGCTTCTGTGCCGTAG -CCCAGACGCGGCGAAAATGACACACGTCATGGGCCGCGTCCTGGTGCTGATGATGGTTTTTCAACCAGTTTTCGA -ACTGTGCCTGCCAGTGTTGTAAGTCCATACGCGCTCCGTTGCCAAAGAGTCGCCACCTTAGCAGTTTTTATTCAT -AGCGTCTGCTACGTGCGGGACGAGGTCGGGTGTACCAGGCAATGCTGCCTAACAATGCCCCGACCAGAGCCATAA -ATAAAAATCCGACCAGTGCCCCTAACCACTTTCCCGCGGTAGAGCCTAAATCGCTTTCAAATCCCGACACGGGGG -CATCGGGAATCCGGCTCATCACCCAGATGTAACGCGCCATTGCCCAGACGAAATAGCCACACCATGTATAGAAAG -CCCACAAAGCCAGTTTGCCGCCAGGGCTGCGAGAGAGTCTCTCTTCCATCTTTGTCGAACCGTATTCCATTTTGA -GATAACCCGGAAAATTCAGACTTAGTACTATTATGTGATAAAAGTCACATTTTTCCACATTGGATGAGCCAGTCA -AGACTCAATCATTTTTTGAACAAATAGATAAATTTTGCGCAACGGCAGTGAATACAGGAAAAATCGTTTTGAGCG -ATTTTATTTATCTTTGATATCGGCTTTATTAATTCATTTAATCAATATATTAGCACTGATTACAATTATACCTTT -TTATTATTCTGTGTCATGATGCTTCCGTTATTAGCCTTTTATCGTCTTGTTTATATTTTTTGGGCCGGCATGATG -CCGGCTTTTTTTTATGCCTTCATTAATGTGCGCCTGATCACACCAGCCGTTTGGCGCAACAATCATTGATACCCC -CTATGTTTCCGCTCAACTCATAACATATTGATATACATTTATAATTTTCATGAATATTTATATTTAGAATTCATA -ATTATGAATTATATTAAATAGATTAGAAACATTTTGATATCTTTTAAATACATTTGTTACATGTAATCCTTAAAA -TAAAATGAACTTCATAGAATAGTATCCAAATGTGCTTTTTTTTGGATAACGGCACTTATTGATATATTCATGAAG -ATTATAATCACAAGGGAATACATAATGAAAAGAAAAGTTCTGGCAATGCTGGTCCCGGCGTTATTAGTTGCTGGC -GCAGCAAATGCGGCTGAAGTCTATAATAAAGATGGTAATAAACTGGATTTGTACGGAAAAGTAGTGGGTCTGCAC -TACTTCTCTGATGATTCTGGCAGCGATGGCGACATGTCATATGCCCGTATCGGTTTCAAAGGTGAAACTCAGATC -GCTGATCAATTCACTGGTTATGGTCAGTGGGAATTTAACATTGGCGCAAACGGTCCTGAAAGCGACAAGGGTAAT -ACCGCAACGCGTCTGGCATTTGCAGGTTTAGGCTTTGGTCAGAATGGTACTTTCGACTATGGTCGTAACTACGGT -GTCGTATATGACGTAGAAGCATGGACCGATATGCTGCCAGAATTTGGTGGCGATACCTATGCTGGCGCTGACAAC -TTCATGAACGGTCGTGCTAATGGTGTTGCAACCTACCGTAACAATGGCTTCTTTGGTTAGGTCGATGGCTTGAAC -TTTGCTTTGCAATATCAGGGTAATAATGAAAGTGGTGGACCATTCGGGCAGGAAGGTTCCGGTAGTGGTGATGGC -CGTAGCCTTTCCAAAGAAAATGGTGATGGTTTCGGTATGTCAACATCCTACGACTTCGACTTCGGTTTAAGTCTG -GGTGCTGCATATCAAACTCTGATCGTTCAGATCGTCAGGTTGGAGTTGGTTTAAATGATCGTAACCATAGCAACA -GAAATGCTGGTGGTGAAACCGCTGAAGCATGGACTGTTGGTGCAAAATATGATGCTAATAATGTGTATTTAGCAG -CTATGTACGCTGAAACTCGCAATATGACCCCATATGGTGGTGGCGAGTTTGATAATGGTGAATCAAGATCAGCCA -TCGCTAACAAAACCCAAAACTTTGAAGTTGTTGCTCAGTATCAGTTCGACTTTGGCCTGCGCCCGTCCATCGCTT -ACCTGCAATCTAAAGGTAAGGATTTAGGCGGTTGGGCTCATGACGGCAACGGCGACCCACGTTACACCAATAAAG -ATCTGGTTAAATACGTTGATATTGGTGCGACCTACTACTTCAACAAAAACATGTCCACCTATGTTGATTACAAAA -TCAACCTGCTGGACAACGACGATGACTTCTACGAAGCAAACGGCATCGCTACCGATGATATCGTTGCTGTGGGCT -TAGTCTACCAGTTCTAATCAGTCAACTCGCTGCGGCGTGTTACTGTAAAACTGAACACTAGCCTGAGTTCGTCCC -TCATCGAACTCAGGCTTTTTTATTGGCATTTCATCTCCATCTGCGGCACACGCAATTGCCGAAGCATATCGATAC -AGCACCTTACCCTGCCCCTCCTGGCACAATAACATCAACCAGCTACTCTTCAAGCTAACACCCAAATGCATTTCT -TTATGAATTAATCCGTAACAAACACGCTTCCCATATAGAAATATTTGCAAAAATAGTGCATGAAATAAGCTTTTT -CTCTACCAATCCGGGATATAAATATTCATCAGCACCACAATATTCCACAGCACTAAATCTCTCCCCGCCACCCCG -TACCTCTGATAATGGTCTAAAATCATTGAAGCCACTTGCGACGACGTTGCTCAATAAGGAAAATTTGGCGTGAAT -AATATTCAACACCAGTGCAGCATCATCATTACATACTTACAGCCGCCGACTACCGCTTTCGATATATTGACTCAA -TTTTCCAGCCTGGTTAAAAATAGCGACCAGCTCAGTCGCAAATATAGTGACTACCCTAACTAAGCAACAATAAGG -AATACACTATGACTGTTCAAACAAGTAAAAATCCGCAGGTCGATATTGCTGAAGATAATGCATTCTTCCCTTCAG -AATATTCGCTTAGCCAATATACCAGTCCTGTCTCTGATCTTGATGGCGTGGACTATCCAAAACCTTATCGCGGTA -AACATAAAATTCTGGTGATCGCCGCGGACGAACGTTATTTGCCGACCGATAACGGAAAACTGTTCTCGACCGGTA -ACCATCCGATTGAAACGTTGCTGCCGTTGTATCATCTCCATGCTGCAGGTTTCGAATTCGAAGTGGCGACCATTT -CCGGTCTGATGACCAAGTTTGAATACTGGGCTATGCCGCACAAAGATGAAAAAGTAATGCCATTCTTTGAGCAGC -ATAAATCGTTGTTCCGCAATCCGAAGAAACTCGCGGATGTTGTTGCCAGCCTCAACGCTGATAGCGAATATGCAG -CAATCTTTGTTCCTGGTGGTCATGGCGCACTTATTGGTTTACCTGAAAGCCAGGACGTGGCTGCCGCTTTACAGT -GGGCAATCAAAAATGACCGTTTTGTTATCTCCCTTTGCCACGGCCCGGCGGCTTTTCTGGCGCTTCGCCACGGCG -ATAACCCACTGAATGGTTATTCCATTTGCGCATTCCCAGACGCCGCAGACAAACAAACGCCAGAGATTGGCTATA -TGCCGGGTCATCTCACCTGGTACTTCGGCGAAGAACTGAAGAAAATGGGCATGAATATCATTAATGACGACATCA -CCGGGCGAGTACATAAGGACCGTAAACTTCTCACCGGCGACAGTCCTTTTGCAGCGAATGCGTTGGGTAAACTGG -CGGCGCAGGAAATGCTGGCAGCTTACGCGGGTTAATCCCTGTTACGTTTGAATGTAAGCGCATAATCAATCGCGG -CCGCGTTAGTACTCACGACGTGGCTGCGTTTTTTCACGGTTAATTTATGGCGTACTGAAGCCCTATGTTAATTTC -TTTGCGGTAACGTAATCCGGAACACATTATGCTTATTGAGATAGTGATACGTAGCACTTCCCCCATGCAATTCGG -CAATCGCTTTGACTAAAGAAAGGCCTAGTCCCTGACCTACGGAATGACGCGAATTATCTCCCCGCCAAAATCTAC -GGAAGAGTTTTTCAGGCTCATTAATTTTCGTTCCAGGGCTGGCGATATCAATATTAAGATAGCTGTTGGTATCAA -GAAAACTGGTTATATGAATACGCGATTTTTCTGGCGAATATCTAATGGCATTAACAATAAGATTCGATAACATTC -GTTGTAGTAAAATTTTATCCGCAAAGATTTGCTGATTGCACTCGACCTTAAAGCAAATCTCTTTCTCGTCTGAAA -GGTATTCAAGATAGTCCAACAAATTTTCGACTTCCTTATTGAGAGAAAGCGAGTCCAGTTTCACCAAAACATTGT -TTTTATCTGCCCTGGCAAGAAACAGTATGTTCTCTGTTAACCGCGAAATATTTTCCAGCTCTTCAATGTTTCCGG -CAATTGTTTTTTGATATTCAGCGATACTTCTGGTTTGACTGAGCGTAACCTGATTCTGACCCAGTAATGCATTAA -TTGGCGTTCTAAGTTCATGAGCGAGATCGTCAGCAAACTGACTTAGACGCTCAAAATCTTTGACTAAAGCATGAT -GCATTTTATTCAACGCCTGCCCAAGAGGTTTTAGTTCTCTCGGTAATGCGCTAACCTCAACAGGCTCTCGGCTAT -CGTTATAATTCAGCGCTTCCGTTACACCACTCAACTTTTTGATCTCTCGTAATCCCGTTCTGATTAACAGCGGAC -TTAATACTGAGCAAAGTACAATGGCGACAATGCAAATTATAATGCTATTAATTTTATACTGTTCAAGCATGTTAT -GTCTGGCTGAAGCCAATTTAGCCACAGTAACCGTTAATGATGGCGAAACTTCATCAATATTAATTCGTAAAGCAT -CTATCTCTGTATCATTAATAATGCTTCTGTAAATGCCAGCTGCGCTGATTGTCTCACTAGCAGGTATGTTATTTA -ACATGCCATCACTGACATTTGTCCGGTTAACAATTTTATTGATGCTATCACCATGAATAATCAAGATATCCTGAC -TAACATCCATCATCCGGTTAAAGTACACAGGTAACGTATCTGGATTTACCCCATCAATTAACAACTGCTTGATCT -GCGCTGTCCGGTTAATGAGTGTTGTATCATCGCGCCATTTCAACTCACTTGCCAGGCCATTATAGAGAGTCCAGA -CAATTCCGGCGCCAGCAACAGACAGTAGCAATATAAAAAGCAAGGTTAAACGGACGGTTATAGATAGTCTTTTCA -TTATTTTTTTACCGCTACGAATGAATAGCCCATCCCCCGGATTGTGGCAATTAGCTTTTCAGGAAAAGGATCATC -AACTTTTGCGCGGAGCCTGCGAATGGCGACGTCCACCGTATTGGTATCACTATCAAAGTTGATTCCCCAAATTTC -ACTCGCAATAACCGTTCTGGGTATAATTTCGCCAGCTCTGGAGGCCAGTAGCCAAAGTAACTGAAACTCCTTGCG -CGTCAGTGTAATACTGATATTGTCCCTGCTCACACTATGACTAACAGAGTCCATTCTTAAGCCGCTGATTTCTAA -TGTTGAATTCAAAGCGTGATGTTGCCTTAATTGTGCCCGAACCCTTGCCAGCAACTCAGAAAATGAAAAAGGTTT -TACCAGATAATCATTTGCCCCACTGTCCAGCCCTCTGACTCTGTCATCGACAGAATCCCTTGCAGTAAGGCAAAT -AACAGGGGTTTGCTTTGCTGTTCTTAACGTTTGTAAGATCTGCCAGCCATCCATACCCGGAAGCATAATATCCAG -AATGATCAATGCATAATCATCCTTCAGCGCAAGATAAAGCCCATCTCTGCCATCAGAAACGGCATCGATGACATA -ACCCGCTTCGGAAAGCCCCTGCGTTACCCATTCCTGGGTCCTTTGATTATCTTCAATAAGTAGAATCTTCATGAA -AATAATATGCCATAAATCATATGTTATAGAAACAGCCTGGTTCATTACAAAATTGTAATGCTGCTGTAAGGTTAC -CCTGGACGCTTTTTCGCTATCCTCAAAACTCATTCACATGACAAGGATATAAACATGTTAAAGCGTTATTTAGTA -CTCTCGGTAGCAACGGCAGCATTTTCATTACCTTCTTTGGTTAATGCCGCACAACAAAACATTCTTAGCGTGCAC -ATTTTGAACCAGCAAACAGGAAAACCCGCTGCTGACGTGACAGTCACTCTTGAAAAGAAGGCGGATAACGGCTGG -TTACAACTTAATACCGCCAAAACAGATAAGGATGGACGAATTAAGGCACTGTGGCCCGAGCAAACTGCAACTACG -GGCGATTACCGTGTCGTATTTAAAACCGGGGACTATTTCAAGAAACAAAATCTTGAAAGTTTCTTCCCTGAGATC -CCCGTTGAATTTCATATTAATAAAGTGAACGAGCATTATCATGTGCCTTTATTACTTAGCCAATATGGGTATTCA -ACCTATCGTGGCAGTTAATGCATAAATATGTAAAAGCAGATCTCTGCTACTGTTAGGGAGGACACTCCCTGACAG -ATTAACAGTAAACGGCTCTTGCTGGCTAACGACAAAAAAGTGTGATGGCTTATGAAAAAGAATCAATTTTTAAAA -GAATCAGATGTTACGGCCGAGTCGGTATTCTTTATGAAGCGTCGGCAGGTGTTAAAAGCACTGGGCATCAGTGCA -ACTGCACTTTCTTTGCCTCACGCTGCGCATGCCGATCTGCTTAGCTGGTTTAAAGGGAACGATCGCCCGCCCGCC -CCCGCCGGAAAAGCGCTGGAGTTCAGCAAGCCTGCCGCCTGGCAAAATAACCTGCCACTGACGCCAGCAGATAAA -GTTTCCGGTTATAATAACTTCTATGAATTCGGGCTGGATAAAGCCGATCCCGCCGCTAATGCTGGTAGCCTGAAA -ACCGATCCATGGACACTGAAAATCAGCGGCGAAGTGGCAAAACCATTGACCCTCGATCATGATGACTTAACCCGT -CGCTTCCCGCTGGAAGAGCGTATTTATCGTATGCGCTGCGTGGAAGCGTGGTCGATGGTGGTGCCGTGGATTGGT -TTTCCGCTGCACAAATTGCTGGCGCTTGCCGAACCTACCAGCAATGCGAAGTATGTCGCTTTCGAAACAATTTAT -GCACCGGAACAGATGCCAGGCCAGCAGGACCGCTTTATCGGCGGTGGGCTGAAATATCCTTATGTCGAAGGATTG -CGTCTCGACGAAGCAATGCATCCGCTCACACTGATGACCGTAGGTGTTTATGGCAAGGCGTTACCGCCACAAAAT -GGCGCGCCGGTGCGACTGATTGTGCCGTGGAAATATGGCTTTAAAGGGATTAAATCGATAGTCAGTATTAAGCTG -ACCCGCGAGCGTCCGCCAACCACCTGGAATCTGGCAGCGCCTGACGAATACGGTTTTTACGCCAACGTTAATCCG -TATGTTGATCACCCGCGCTGGTCACAGGCTACCGAACGATTTATTGGTTCAGGCGGCATCCTCGATGTACAGCGC -CAGCCAACGCTACTGTTTAATGGTTACGCCGCCCAGGTGGCATCGCTGTATCGTGGCCTGGATTTGCGGGAGAAT -TTCTAAATGCGTCTGACAGCAAAACAGGTGACATGGCTGAAAGTTTGCCTGCATCTTGCCGGATTGTTGCCGTTT -CTCTGGCTGGTCTGGGCGATCAATCACGGTGGACTGGGTGCCGATCCGGTGAAAGATATTCAGCATTTTACTGGT -CGCACTGCACTGAAATTTTTGCTGGCGACCTTGTTAATCACCCCTCTGGCACGCTACGCAAAACAGCCGTTATTG -ATACGCACTCGCCGCCTGTTAGGATTATGGTGCTTTGCCTGGGCGACACTGCATTTAACAAGTTACGCATTGCTG -GAGCTGGGCGTGAATAATCTGGCGTTATTAGGTAAGGAGTTAATTACCCGGCCTTATTTAACGTTAGGTATTATC -AGCTGGGTAATTTTGCTTGCTTTAGCGTTCACTTCAACCCAGGCGATGCAGCGAAAACTCGGCAAGCACTGGCAA -CAGTTGCATAATTTCGTCTATCTTGTCGCGATTCTGGCCCCAATACATTATCTGTGGTCCGTGAAGATTATTTCA -CCGCAGCCGCTCATCTACGCTGGGCTGGCTGTACTGCTTTTAGCCTTACGGTATAAGAAGTTGCGTTCCCTTTTT -AACCGGTTACGCAAGCAGGTTCACAACAAATTATCTGTATAACTTCATATTGCCGACAAAGTACGCGTTATCCCT -GCCGGATGTGGCGCGAGCGCCCTATCCGGCATACACAGATCGCATCAGGTTATGTTTCGTTTGTCATCAACCTCA -AATCACCAAAATAATTTATTTTATTTCAATAAGATAGATAAGTAGAACTGAGAAAGCCATGCTCTCGTTTCCTAA -GAGTTGTTGCATTTTGCTATATGTTACAATATAACATTACACATCATATACATTAACTCTGGAGGAAACTGTTTT -GGCGATTCGTCTTTACAAACTGGCTGTTGCTTTAGGTGTCTTTATTGTTAGCGCTCCTGCCTTTTCGCATGGTCA -TCACTCACACGGCAAACCCTTAACAGAGGTCGAACAAAAAGCTGCTAATGGTGTTTTTGATGATGCCAATGTACA -AAACCGAACGCTCAGTGACTGGGATGGAGTCTGGCAATCCGTTTATCCTTTACTGCAAAGTGGCAAACTTGACCC -CGTCTTTCAGAAGAAAGCGGATGCAGATAAAACTAAAACATTTGCTGAAATTAAAGATTATTATCACAAAGGTTA -TGCAACAGATATCGAGATGATTGGCATTGAGGACGGCATTGTTGAATTCCATAGAAATAATGAAACAACATCGTG -TAAATATGATTACGATGGATACAAAATACTCACCTATAAATCAGGCAAGAAAGGCGTTCGTTACTTATTCGAATG -TAAAGATCCTGAAAGCAAAGCCCCTAAATATATACAATTTAGCGATCATATAATTGCACCACGAAAATCATCTCA -TTTTCACATTTTTATGGGTAATGATTCACAGCAATCTTTATTAAATGAAATGGAAAACTGGCCAACGTATTATCC -ATATCAGTTGAGTAGCGAAGAAGTGGTCGAGGAAATGATGTCTCATTGAGTATTCTCATGATAACGCCTCGATGC -CGCTTTAGTAAGTTATCATAACTGCCACTGGTCCATCCACAAACGCCACTGAACGCAAGCTAGCTACAGACACGC -TCATCACTATGACGTGTCTGTATATTAATAAGCTAACCCGCATTGAGTTAACCAATAACGGATTCCATACACAAT -ACGGCCAACAGAGAAAGATACCTGTGCTCACGCCATTGCTTATATTGGCTGGTTACAATATGCACTATCAATTTT -TTAAATAACAAATTATTAAAACCACATCTGTATAAGGAATTTTTAAGGTTCGTGGGATAGCTTGACTGTGAAAAT -CACAGGAGCTACAAAAATGAACCGATTCTCAAAAACTCAAATTTATTTACATTGGATAACGCTGCTTTTCGTTGC -AATAACCTATGCCGCGATGGAACTCCGTGGCTGGTTTCCTAAAGGTAGTAGTACTTATCTGCTGATGCGAGAAAC -ACATTACAATGCGGGTATATTCGTTTGGGTGTTAATGTTTTCACGCCTGATTATAAAACACCGTTATAGTGATCC -TTCTATTGTGCCACCGCCACCTGCCTGGCAAATGAAAGCGGCTTCGCTAATGCACATCATGCTTTATATAACCTT -CCTTGCACTTCCTCTGCTGGGGATTGCTTTGATGGCTTACAGTGGAAAATCGTGGAGTTTCCTTGGTTTCAATGT -GTCTCCCTTTGTTACCCCAAACAGCGAAATTAAAGCACTGATAAAAAATATTCACGAAACCTGGGCAAATATAGG -CTACTTTTTAATCGCAGCTCACGCTGGCGCAGCACTCTTTCATCACTACATTCAGAAAGATAATACTCTGTTACG -AATGATGCCTCGCCGCAAATAAGTCGATCCCCTTACAAGGAAATGTGAACCATGGACATCAACGCGTCATAAATG -TTTACGCAAGTGCACAATGCACCCTTTCCACTATCAACAAGGAGGAGCAGAAACTGTGTAAATCGTACAATGGTA -AGACTTATCAAAAATACAGGTTAATTTTGGTATTTAAACCTTTTTTACTTGTTAGTATGATACAAAGGCTTTCAA -AAAAGCTGCGAAATTCAACAACTCTTGGAAATTATGGACTTTGTCCCGCGGCTTTAATCTGACGGCCGCGTTCCT -TTTTTGACTCAATTATTGAACCCTTCTCTACGCAACTTCAGTTCCCACCACCAACTTTGCGGCAGTTTCATAGGA -TGAATGTCTAAAAGAATAATGGTGAGCGATAAGAAAACGACTGAATAACTGCACATTTTCGCTCGAAAGCTTCCT -GTCAGATCCATAGCGAATCAAGTGCTGAATGTCACAGTATCGAACAGAAAACAGTGACGATCTAACCCTTCAAGA -ATATTCTACGATTGTTCTGTTTAGGAAAAGCAAGGCGGGAAGTCGGGAGATAAGTCATTGATAAAGTGGCGGAGA -GAGGGGGATTTGAACCCCCGGTAGAGTTGCCCCTACTCCGGTTTTCGAGACCGGTCCGTTCAGCCGCTCCGGCAT -CTCTCCGTTCAGATGGTTGCCATGATGCCAGGAAATTTGGCATTTTAACAGTCCCTGTCCGTGCAATTTTGTTCA -AGTGACGAGTTTGCGAGCAAAACGATGATTAAGTGGCCCTGGAAAGTACAAGAATCAGCACATCAAACTGCCCTT -CCCTGGCAGGAAGCACTATCGATCCCCCTTTTAACGTGTCTGACGGAACAGGAACAAAGCAAATTAGTCACTCTT -GCCGAACGTTTTTTACAGCAAAAGCGGCTTGTTCCTTTACAGGGCTTTGAACTGGATTCATTAAGAAGCTGCCGG -ATAGCACTTCTATTTTGCCTACCCGTTCTGGAGTTAGGACTGGAATGGCTGGATGGTTTTCATGAAGTCTTAATT -TATCCTGCGCCATTTGTGGTCGATGATGAATGGGAAGACGATATCGGTCTGGTGCATAACCAACGTATTGTTCAG -TCAGGTCAGAGCTGGCAGCAAGGGCCTATCGTTTTGAACTGGTTGGATATACAAGATTCTTTTGATGCTTCTGGT -TTTAACCTGATTATTCATGAAGTCGCTCATAAGCTGGACACCCGTAACGGCGATCGCGCCAGCGGAGTTCCCTTT -ATTCCGTTGCGTGAGGTTGCTGGCTGGGAACACGATCTTCATGCTGCAATGAACAACATTCAGGAAGAAATCGAA -TTGGTTGGCGAGAATGCGGCGAGCATTGATGCTTATGCAGCCAGCGATCCTGCTGAATGTTTTGCCGTACTTTCT -GAATATTTCTTTAGCGCCCCAGAACTTTTTGCTCCTCGTTTCCCTTCATTGTGGCAACGTTTCTGCCAATTTTAT -CAACAAGATCCTTTGCAGAGACTGCATCACGCTAATGATACAGACTCGTTTTCGGCGACGAATGTTCATTAATTA -ACAACTTTGCAGATTAATTAACCAATTGAAATGACTTATGAAATTTAGTGTTGACAGACAAGGTACCGCTAAGTA -ATATTCGCCCCGTTCACACGATTCCTCTGTAGTTCAGTCGGTAGAACGGCGGACTGTTAATCCGTATGTCACTGG -TTCGAGTCCAGTCAGAGGAGCCAAATTCTAAAAATTCGCTTTTTTAGCGCAATGTCACTGACCTTAGTTGAACAT -TGTTTTTTAACGGATAGCGGGTTTTTAACATCTTAAGCGCCCTCGACCTTTATGGTTGAGGGCGTTTTGCTATGA -ACGCCATCACCATTTTCCCCTCGATTATAAAACTTGAGTTATTCAGTAGTCTCCCCTCTTGCAACTCACACCCAA -AACTGCCTAACGAAAAGTTATTAATTTTCAATCATATTGCTATCAGTATTTACATTTTTTCGCTGTGCTAGAAAG -GGCGCATTTATGTTAGCTCGTTCAGGGAAGGTAAGCATGGCTACGAAGAAGAGAAGTGGAGAAGAAATAAATGAC -CGACAAATATTATGCGGGATGGGAATTAAACTACGCCGCTTAACTGCGGGTATCTGTCTGATAACTCAACTTGCG -TTCCCTATGGCTGCGGCAGCACAAGGTGTGGTAAACGCCGCAACCCAACAACCAGTTCCTGCACAAATTGCCATT -GCAAATGCCAATACGGTGCCCTACACCCTTGGAGCGTTGGAATCGGCCCAAAGCGTTGCCGAACGTTTCGGTATT -TCGGTGGCTGAGTTACGCAAACTCAACCAGTTTCGTACGTTTGCTCGAGGTTTTGATAATGTCCGCCAGGGTGAT -GAACTGGATGTCCCGGCACAAGTTAGTGAAAAAAAATTAACCCCGCCGCCGGGTAATAGCAGTGACAACCTCGAG -CAACAGATAGCCAGTACTTCACAGCAAATCGGGTCTCTGCTCGCCGAAGATATGAACAGCGAGCAAGCGGCAAAT -ATGGCGCGTGGATGGGCCTCTTCTCAGGCTTCAGGCGCAATGACAGACTGGTTAAGCCGCTTCGGTACCGCAAGA -ATCACGCTGGGCGTGGATGAAGATTTTAGCCTGAAGAACTCCCAGTTCGATTTTCTCCATCCGTGGTATGAAACG -CCTGATAATCTCTTTTTCAGTCAGCATACTCTCCATCGTACTGACGAGCGTACGCAGATTAACAACGGCTTAGGT -TGGCGTCATTTCACTCCCACATGGATGTCGGGCATCAACTTCTTTTTCGACCACGATCTTAGCCGTTACCACTCC -CGCGCCGGCATTGGCGCGGAGTACTGGCGCGACTATCTAAAATTAAGCAGTAACGGCTATTTGCGACTGACCAAC -TGGCGCAGCGCACCTGAACTGGACAACGATTATGAAGCACGCCCGGCCAATGGCTGGGATGTACGCGCAGAAAGC -TGGCTACCCGCCTGGCCGCACCTTGGCGGTAAACTGGTCTATGAACAGTATTATGGCGATGAAGTGGCCCTGTTC -GATAAAGACGATCGGCAAAGTAATCCTCATGCCATAACCGCTGGACTTAACTATACCCCCTTCCCGCTGATGACC -TTCAGCGCGGAGCAACGCCAGGGTAAACAGGGCGAAAATGACACCCGTTTTGCCGTCGATTTTACCTGGCAACCT -GGCAGCGCAATGCAGAAACAGCTTGACCCGAATGAAGTCGCTGCACGGCGTAGCCTTGCAGGCAGCCGTTATGAT -CTGGTGGATCGCAACAACAATATCGTTCTGGAATATCGCAAAAAAGAACTGGTTCGCCTGACCCTGACAGACCCC -GTGACAGGGAAGTCAGGAGAAGTGAAATCACTGGTTTCGTCGCTACAAACCAAATATGCCCTGAAAGGCTATAAC -GTCGAAGCCACCGCACTGGAAGCTGCCGGTGGCAAAGTGGTCACAACGGGTAAAGATATTCTGGTTACCCTGCCG -GCTTACCGGTTCACCAGTACGCCAGAAACCGATAACACCTGGCCGATTGAAGTCACCGCCGAAGATGTCAAAGGC -AATTTGTCGAATCGTGAACAGAGCATGGTGGTCGTTCAGGCACCTACGCTAAGCCAGAAAGATTCCTCGGTATCG -TTAAGTACCCAAACATTGAACGCGGATTCCCATTCAACCGCCACACTGACTTTTATTGCGCATGATGCAGCAGGT -AATCCTGTTGTCGGGCTGGTGCTCTCGACGCGTCACGAAGGTGTTCAGGACATCACCCTTTCTGACTGGAAAGAT -AATGGTGACGGAAGCTATACCCAGATCCTGACCACAGGAGCGATGTCTGGCACGCTGACGCTGATGCCACAGCTG -AATGGTGTGGATGCGGCTAAAGCCCCCGCCGTGGTGAATATCATTTCTGTTTCGTCATCCCGAACTCACTCGTCA -ATTAAGATTGATAAGGACCGTTATCTCTCCGGCAATCCTATCGAGGTGACGGTAGAACTGAGAGATGAAAATGAC -AAACCTGTTAAGGAACAAAAACAGCAACTGAATAACGCAGTCAGCATCGACAACGTGAAACCAGGAGTCACTACA -GACTGGAAAGAAACCGCAGATGGCGTCTATAAGGCGACCTATACCGCCTATACCAAAGGCAGTGGACTTACTGCG -AAGCTATTAATGCAAAACTGGAATGAAGATTTGCATACCGCTGGATTTATCATCGACGCCAACCCGCAGTCAGCG -AAAATTGCGACATTATCTGCCAGCAATAATGGTGTGCTCGCCAATGAGAATGCAGCAAACACCGTCTCGGTCAAT -GTCGCTGATGAAGGAAGCAACCCAATCAATGATCATACCGTCACGTTTGCGGTATTAAGCGGATCGGCAACTTCC -TTCAACAATCAAAACACCGCAAAAACGGATGTTAATGGTCTGGCGACTTTTGATCTGAAAAGTAGTAAGCAGGAA -GACAACACGGTTGAAGTCACCCTTGAAAATGGCGTGAAACAAACGTTAATCGTCAGTTTTGTCGGCGACTCGAGT -ACTGCGCAGGTTGATCTGCAGAAGTCGAAAAATGAAGTGGTTGCTGACGGCAATGACAGCGTCACAATGACCGCG -ACCGTCCGGGATGCAAAAGGCAACCTGCTCAATGACGTCATGGTCACTTTCAATGTTAATTCAGCAGAGGCGAAA -CTGAGCCAAACCGAAGTGAATAGCCACGACGGGATCGCCACAGCTACGCTGACCAGTTTGAAAAATGGTGATTAT -AGGGTTACGGCCTCTGTGAGCTCTGGTTCCCAGGCTAATCAACAGGTGAATTTTATCGGTGATCAAAGTACTGCT -GCCCTGACCCTCAGTGTGCCTTCAGGTGATATCACCGTCACCAACACAGCTCCGCAATATATGACTGCAACCTTG -CAGGATAAAAATGGCAACCCACTAAAAGATAAAGAAATCACCTTCTCTGTGCCAAACGACGTCGCAAGTAAGTTC -TCGATTAGCAACGGAGGAAAAGGCATGACGGATAGTAACGGGGTTGCAATCGCCTCCCTGACCGGCACGTTAGCG -GGCACGCATATGATCATGGCTCGTCTGGCTAACAGCAATGTCAGCGATGCACAGCCAATGACGTTTGTGGCGGAT -AAAGACAGAGCGGTTGTCGTTTTGCAAACATCGAAAGCGGAAATCATTGGGAATGGCGTGGATGAGACAACTCTG -ACAGCAACAGTGAAAGATCCGTCGAATCATCCGGTGGCGGGGATAACGGTAAACTTCACCATGCCACAGGACGTT -GCGGCAAACTTTACCCTTGAAAATAACGGTATTGCCATCACTCAGGCCAATGGGGAAGCGCATGTCACGCTGAAA -GGTAAAAAAGCGGGCACGCATACGGTTACCGCAACGCTGGGTAATAACAATACCAGTGATTCGCAGCCGGTAACA -TTTGTGGCGGACAAAGCCTCGGCTCAGGTTGTCCTGCAGATATCAAAAGATGAGATCACAGGTAATGGCGTCGAT -AGCGCAACGCTAACTGCAACGGTTAAAGATCAGTTCGACAATGAGGTGAATAATCTTCCGGTAACATTCAGCTCA -GCCTCTTCAGGACTCACCCTGACCCCGGGAGTAAGTAATACCAACGAGTCTGGCATCGCGCAGGCCACTCTCGCA -GGCGTTGCCTTTGGTGAGAAGACGGTTACTGCATCACTGGCTAATAATGGTGCCAGCGACAACAAAACTGTGCAT -TTTATTGGCGACACAGCGGCGGCAAAAATTATCGAGTTGGCGCCTGTCCCAGACAGCATAATCGCCGGTACCCCG -CAGAACAGCTCCGGCAGCGTCATCACCGCCACAGTCGTTGATAATAATGGCTTTCCGGTGAAAGGTGTGACTGTG -AACTTCACCAGCAACGCAGCGACAGCCGAAATGACGAACGGCGGTCAAGCCGTGACGAACGAACAGGGTAAGGCT -ACCGTCACTTATACCAATACCCGCTCCTCGATAGAATCAGGAGCGAGACCGGATACCGTTGAGGCCAGTCTGGAA -AATGGTAGCTCCACGCTTAGCACATCAATTAATGTCAACGCTGATGCGTCTACGGCACATCTCACCTTGCTACAG -GCACTTTTTGATACAGTCTCCGCAGGCGAGACAACCAGTCTGTATATTGAGGTGAAGGATAATTACGGCAACGGT -GTCCCCCAGCAGGAGGTAACCCTCAGCGTTTCACCAAGTGAAGGCGTGACCCCCAGTAATAACGCTATATATACT -ACCAACCACGACGGCAATTTTTACGCAAGCTTTACCGCTACAAAAGCCGGGGTTTATCAATTGACGGCAACCCTC -GAAAATGGCGATTCGATGCAACAAACAGTGACCTATGTGCCGAACGTCGCGAATGCTGAAATCACGCTGGCAGCC -TCGAAGGATCCGGTGATTGCCGACAATAACGATCTCACGACACTAACAGCAACAGTCGCTGATACAGAGGGCAAT -GCGATAGCCAACACTGAGGTAACATTTACTCTGCCGGAAGATGTGAAGGCGAACTTCACGCTGAGCGATGGCGGT -AAAGTGATTACTGATGCTGAAGGCAAAGCGAAAGTCACGCTGAAAGGTACAAAAGCAGGCGCTCATACTGTTACA -GCATCGATGACTGGCGGTAAGAGTGAGCAGTTGGTGGTGAACTTTATTGCGGATACGCTCACTGCGCAGGTTAAT -CTTAACGTTACCGAGGACAATTTTATCGCTAATAACGTCGGGATGACCAGGCTGCAGGCAACAGTGACTGATGGA -AACGGCAACCCGTTAGCCAATGAGGCGGTGACATTCACGCTACCGGCAGATGTGAGCGCAAGCTTTACTCTCGGA -CAAGGCGGTTCCGCCATTACTGATATCAACGGCAAGGCTGAAGTTACACTGAGCGGTACAAAATCCGGCACCTAC -CCCGTGACAGTTAGCGTGAACAATTATGGTGTCAGTGATACGAAACAGGTGACTTTGATTGCCGATGCTGGTACC -GCAAAACTAGCCTCCTTAACCTCTGTATACTCATTCGTCGTCAGCACGACCGAGGGCGCAACCATGACGGCAAGC -GTCACTGACGCTAACGGCAACCCGGTAGAAGGCATAAAAGTTAATTTCCGCGGAACCTCCGTCACGCTAAGCAGC -ACCAGCGTTGAAACGGATGATCGGGGTTTCGCTGAAATTCTTGTGACAAGCACCGAGGTCGGACTGAAAACAGTT -TCAGCCTCTCTGGCAGATAAACCTACTGAAGTCATCTCGCGATTACTGAATGCCAGTGCAGATGTTAATTCTGCG -ACGATTACCAGTCTGGAGATACCGGAAGGTCAGGTAATGGTCGCACAAGACGTAGCAGTTAAAGCTCACGTTAAC -GACCAGTTTGGCAACCCGGTTGCGCATCAACCCGTGACATTCAGTGCAGAGCCATCCTCGCAAATGATCATCAGC -CAGAATACGGTCTCTACTAATACGCAGGGTGTAGCCGAGGTCACCATGACGCCCGAAAGAAACGGTTCGTATATG -GTGAAAGCATCCCTGCCGAATGGAGCCTCACTTGAGAAACAACTGGAGGCTATTGATGAAAAACTGACACTCACG -GCGTCCAGTCCGCTTATCGGTGTCTATGCCCCTACAGGCGCTACTCTGACGGCAACGCTAACCTCTGCAAATGGC -ACTCCAGTGGAGGGTCAGGTCATCAACTTTAGCGTAACGCCAGAAGGGGCGACGTTAAGTGGCGGAAAAGTGAGA -ACTAACTCTTCAGGTCAGGCTCCAGTCGTTTTGACCAGCAATAAAGTCGGTACATATACGGTGACTGCATCTTTC -CATAACGGCGTAACAATACAGACACAGACAACCGTGAAAGTCACTGGCAACTCAAGCACCGCCCATGTTGCTAGC -TTTATCGCTGATCCATCGACTATCGCCGCCACCAACACTGATTTAAGTACCTTAAAGGCAACGGTTGAGGATGGC -AGTGGTAACCTGATCGAAGGTCTCACTGTGTACTTCGCCTTAAAAAGCGGCTCTGCCACATTAACGTCATTAACA -GCGGTGACCGATCAAAACGGAATCGCGACAACAAGCGTGAAAGGAGCGATGACAGGTAGCGTCACGGTAAGCGCA -GTCACGACCGCTGGTGGAATGCAAACAGTAGATATAACGCTGGTGGCTGGCCCGGCAGACACCTCGCAGTCCGTC -CTTAAGAGCAATCGGTCATCACTGAAAGGGGACTATACCGATAGTGCTGAATTACGTCTTGTTCTGCACGATATA -TCAGGCAATCCGATCAAAGTTTCTGAAGGGATGGAATTTGTGCAATCAGGTACTAACGTGCCCTATATAAAAATT -AGCGCAATTGATTACAGTCTAAATATCAACGGTGATTACAAAGCCACTGTTACAGGAGGCGGAGAGGGTATCGCA -ACGCTGATCCCTGTATTGAATGGTGTTCATCAAGCTGGTCTGAGTACCACAATACAATTCACTCGCGCAGAAGAC -AAAATAATGAGCGGTACAGTATCAGTCAATGGTACTGACCTACCGACAACTACATTCCCTTCGCAGGGGTTCACC -GGGGCGTATTATCAGTTGAATAATGACAACTTTGCCCCAGGAAAAACGGCGGCTGATTATGAGTTTTCAAGCTCT -GCCTCCTGGGTCGATGTTGATGCTACCGGTAAAGTGACATTTAAAAATGTCGGCAGCAATTCGGAAAGGATTACG -GCGACGCCAAAATCAGGAGGCCCTAGCTATGTATACGAAATCCGTGTGAAGAGTTGGTGGGTGAACGCCGGCGAG -GCTTTCATGATATACAGCCTTGCTGAAAATTTTTGCAGCAGCAATGGCTACACGCTCCCCAGAGCAAACTATTTA -AACCACTGTAGTTCCCGAGGCATCGGGTCACTGTACAGTGAATGGGGAGATATGGGGCATTACACGACTGACGCT -GGTTTTCAATCAAATATGTATTGGTCATCTAGTCCCGCAAACTCAAGCGAACAATACGTAGTTTCCCTGGCAACA -GGTGATCAAAGCGTATTTGAAAAGCTTGGGTTTGCTTATGCGACATGTTATAAAAACCTGTGATTTTCCGTTATA -ATTTCTTAAAGAGTGTTCCATTCGGGGCACTCTTTTTTACATTCCCTCTACAGAACTAGCCCTTCTCTCACAGAA -AATGAATAAATAAAAATGCGGCACCGCCAGAATCGCGTTCGATGTGACTATGATCATTTTCGGTGAGTACTGCTT -TGATCTAAAGGCTGGTTTTCTGTGATGATTGACCAGCCTCAGAGTATTGATGACACCACCGTTCATAACAGATCG -GCATTACTATGCATAAGTACTGTCTCATATTCTCGCCAAAACACTTTTTAATGCCTTTGCGAATTCATCCAGACT -TATATTGTCAATTTTTTGCCCAACGACGACTGACTCCGAGACATCGGCCATTGCGGGCCATCGCGTTTTGTAATC -AGCATAAATTGCAACAACAGGGGTATTATAGGCACTTGCCATATGTAATATTGAGGTGTCAGGAGTTATTGCGAT -ATAAGCATCTTTTATGATTGCTGCTGAACGTTTAATCGAGGGTGGTAAGGATAAACGGTAGACATTATTATAACA -ATCCACTAATGCCCTGGCTTTATCTTCACCTTTGGGTCCATGAACGATCACTATTGGTATATCTGTTTCACTTTA -AATTTTTGCTATTAGATTTTCTGCAATCGATAATGAAAATGTACGTTCCTGCGAGCTACCTTCTAAATTGAACGC -AATGTAAGATCCTAACGATCGCATTTCCTCGCGCACCTCATCGAGTACATCCTCACTTAGTGGCAATTCATATAT -TGGCCTGACTGCTGGAAAACCCGCCTCACGCATCATAAATGCCCATGTCATAGGTACGGGAGCCCGGAGTTTCTG -ATCCATACTGGACGCGTTCTTGCACAAAGGGGAGAAGCAATTCATGGTTATACCAACAACCTGAAAATTCGTTTT -TGCTTTCAACTGACTGATAAATAACATCGTTTTCAGGTTCTTTTTACGCATCCCCTCAATGCAAAGATCCGGCGT -ACCGTATTGCTGTGTTATGTTCTTTGCTAAATCTTTTATTTCTTTTAATGTTGCGTGATCCTGCATAGTCATTGT -GACTAATGTTAATTTAGTCTGTTCAAGTTTAAGCGCATTAAAGACTTCTAAATTAATTGTCGACGTTACAATTAA -AAGATGCTTAATTTTATGCAATTCAAGCGCCCGAATAACAGGAAAGATGGCCATAGCATCGCCAATCTGATCGGG -AATATGGATGACAACAAAGTCTGTTTTTTCAATATTGAAATTATAAGCTTTATAATCGTAGTAACTAAATGCAAT -ACGTCTCAACAATGATGCTAAAAACATACCTAACCTCGCCTCCCTACTGGTTATAATGCAATGCAGTCTATCAGA -CTCATCAGGGTGCCATTTTGTGCATATGCGGACTTTTATGTTTCATATCTCTAACCTGTGGGTCCTCTGCTTAAT -CCTTAAACAACACCAGCAACTCCTGCGCTTTCATCTTCCATCGAATTTTTCATGTTGCCGCTAATCAGCCATAAA -ATCATTTGCAGATGCGCTCTGTCGAGGTAGTCTCATAAGGTTCGTTTATAGATCGACGGCAATGTGAGTTACCTT -TTCCATACTAATTATAAAAAGACAGTACAAACAGGATCATTATGGACTCCACGCTCATCTCCACTCGTCCCGATG -AAGGGACGCTTTCGTTAAGTCGCGCCCGACGAGCTGCGTTAGGCAGCTTCGCTGGTGCCGTCGTCGACTGGTATG -ATTTTTTACTCTATGGCATCACCGCCGCACTGGTGTTTAATCGCGAGTTTTTCCCGCAAGTAAGCCCGGCGATGG -GAACGCTCGCCGCATTTGCTACCTTTGGCGTCGGATTTCTTTTCCGTCCGCTCGGCGGTGTCATTTTCGGTCACT -TTGGCGACCGACTGGGACGTAAGCGCATGTTAATGCTGACCGTCTGGATGATGGGCATCGCGACAGCCTTGATTG -GTATTCTTCCTTCATTCTCGACCATTGGGTGGTGGGCACCTATTTTGCTGGTGACACTGCGTGCCATTCAGGGAT -TTGCAGTCGGCGGCGAATGGGGAGGCGCGGCGTTGCTTTCCGTTGAAAGTGCACCGAAAAATAAAAAAGCCTTTT -ACAGTAGCGGTGTACAAGTTGGCTACGGTGTAGGTTTACTGCTTTCAACCGGACTGGTTTCATTGATCAGTATGA -TGACGACTGACGAACAGTTTTTAAGCTGGGGCTGGCGCATTCCTTTCCTGTTTAGCATCGTACTGGTACTGGGAG -CATTGTGGGTGCGCAATGGCATGGAGGAGTCCGCGGAATTTGAACAACAGCAACATTATCAAGCTGCCGCGAAAA -AACGCATCCCGGTTATCGAAGCGCTGTTACGACATCCCGGTGCTTTCCTGAAGATTATTGCGCTACGACTGTGCG -AATTGCTGACGATGTACATCGTTACTGCCTTTGCACTTAATTATTCAACCCAGAATATGGGGCTACCGCGCGAAC -TTTTCCTTAATATTGGTTTGCTGGTAGGTGGATTAAGCTGCCTGACAATTCCCTGTTTTGCCTGGCTTGCCGATC -GTTTTGGTCGCCGTAGGGTTTATATCACAGGTACGTTAATCGGAACGTTGAGCGCATTTCCTTTCTTTATGGCGC -TTGAAGCACAATCTATTTTCTGGATAGTTTTCTTCTCCATAATGCTGGCAAACATTGCGCATGACATGGTGGTGT -GTGTGCAACAACCGATGTTTACCGAAATGTTTGGTGCCAGTTATCGCTATAGTGGCGCTGGAGTCGGTTATCAGG -TTGCCAGTGTGGTTGGCGGTGGATTTACACCTTTTATTGCCGCTGCACTCATCACTTACTTTGCCGGGAACTGGC -ATAGCGTCGCCATTTATTTGCTGGCTGGATGCCTGATTTCCGCAATGACCGCTTTGTTGATGAAAGACAGTCAAC -GCGCTTGATAGCCTGGCGAAGATCATCCGATCTTCGCCTTACACTTTTGTTTCACATTTCTGTGACATACTATCG -GATGTGCGGTAATTGTATGGAACAGGAGACACACATGAATAATAAGGGCTCCGGTCTGACCCCAGCTCAGGCACT -GGATAAACTCGACGCGCTGTATGAGCAATCTGTAGTCGCATTACGCAACGCCATTGGCAACTATATTACAAGTGG -CGAATTACCTGATGAAAACGCCCGCAAACAAGGTCTTTTTGTCTATCCATCACTGACCGTAACCTGGGACGGTAG -CACAACCAATCCCCCCAAAACGCGCGCATTTGGTCGCTTTACCCACGCAGGCAGCTACACCACCACGATTACTCG -CCCTACTCTCTTTCGTTCGTATCTTAATGAACAACTTACGTTGCTGTATCAGGATTATGGTGCGCATATCTCAGT -GCAACCCTCGCAGCATGAAATCCCTTATCCTTATGTCATCGATGGCTCTGAATTGACACTTGATCGCTCAATGAG -CGCTGGGTTAACTCGCTACTTCCCGACAACAGAACTGGCGCAAATTGGCGATGAAACTGCAGACGGCATTTATCA -TCCAACTGAATTCTCCCCGCTATCGCATTTTGATGCGCGCCGCGTCGATTTTTCCCTCGCACGGTTGCGCCATTA -TACCGGTACGCCAGTTGAACATTTTCAGCCGTTCGTCTTGTTTACCAACTACACACGTTATGTGGATGAATTCGT -TCGTTGGGGATGCAGCCAGATCCTCGATCCTGATAGTCCCTACATTGCCCTTTCTTGTGCTGGCGGGAACTGGAT -CACCGCCGAAACCGAAGCGCCAGAAGAAGCCATTTCCGACCTTGCATGGAAAAAACATCAGATGCCAGCATGGCA -TTTAATTACCGCCGATGGTCAGGGTATTACTCTGGTGAATATTGGCGTGGGACCGTCAAATGCTAAAACCATCTG -CGATCATCTGGCAGTGCTACGCCCGGATGTCTGGTTGATGATTGGTCACTGTGGCGGATTACGTGAAAGTCAGGC -CATTGGCGATTATGTACTTGCACACGCTTATTTACGCGATGACCACGTTCTTGATGCGGTTCTGCCGCCCGATAT -TCCTATTCCGAGCATTGCTGAAGTGCAACGTGCGCTTTATGACGCCACCAAGCTGGTGAGCGGCAGGCCCGGTGA -GGAAGTCAAACAGCGGCTACGTACTGGTACTGTGGTAACCACAGATGACAGGAACTGGGAATTACGTTACTCAGC -TTCTGCACTTCGTTTTAACTTAAGCCGGGCCGTAGCAATTGATATGGAAAGTGCAACCATTGCCGCGCAAGGATA -TCGTTTCCGCGTGCCATACGGGACACTACTGTGTGTTTCAGATAAACCGTTGCATGGCGAGATTAAACTTCCCGG -CCAGGCTAACCGTTTTTATGAAGGCGCTATTTCCGAACATCTGCAAATTGGCATTCGGGCGATCGATTTGCTGCG -CGCAGAAGGCGACCGACTGCATTCGCGTAAATTACGAACCTTTAATGAGCCGCCGTTCCGATAATAAGTTCTGAA -CCTTCTTATCAGAAATAGATGTGAAGGAGTAAGTAAGACACCTGGCAAATAGCCTGCAATAATCGTGGGCTGTTT -GCTTCCTTGGGCGGATACGAGTTTTATTATCGTCTTAATGATTTCCACATATTAAAAGCAAGTATGCTTTCAAAA -CACAATTATAAAAAATCCCGCCAACAATATAAGTTTTTATAAAATTAAATATAAGATTATGGCTTTAGAATATTT -TTATTTCTAATAGACGAGATTTTTCCTGTTATGATATAATATGCTGAATTAACACATGTTAACGATTTACCAGTA -ATGTAAATAAATTTTCGAGGAGATCATTCCAGTGGGACGTAAATGGGCCAATATTGTTGCTAAAAAAACGGCTAA -AGACGGTGCAACGTCTAAAATTTATGCAAAATTCGGTGTAGAAATCTATGCTGCTGCTAAACAAGGTGAACCCGA -TCCAGAATTAAACACATCTTTAAAATTCGTTATTGAACGTGCAAAGCAGGCACAAGTTCCAAAGCACGTTATTGA -TAAAGCAATTGATAAAGCCAAAGGCGGCGGAGATGAAACGTTCGTGCAGGGACGTTATGAAGGCTTTGGTCCTAA -TGGCTCAATGATTATCGCCGAGACATTGACTTCAAATGTTAACCGTACGATTGCTAACGTTCGCACAATTTTCAA -TAAAAAAGGCGGCAATATCGGAGCGGCAGGTTCTGTCAGCTATATGTTTGACAATACGGGTGTGATTGTATTTAA -AGGGACAGACCCTGACCATATTTTTGAAATTTTACTTGAAGCTGAAGTTGATGTTCGTGATGTGACTGAAGAAGA -AGGTAACATTGTTATTTATACTGAACCTACTGACCTTCATAAAGGAATCGCGGCTCTAAAAGCAGCTGGAATCAC -TGAGTTCTCAACAACAGAATTAGAAATGATTGCTCAATCTGAAGTTGAGCTTTCCCCAGAAGATTTAGAAATCTT -TGAAGGGCTTGTTGATGCCCTTGAAGATGACGACGATGTACAAAAAGTTTATCATAACGTCGCAAATCTCTAATT -ATCTTTTAAAGAAATCTGTCTTTACGGCAGATTTCTTTAATCTCATATAATTCTTATAAAAAATATAATATTCAA -CTCGTCATATTGATTATACCCCCCCGTTCCCAGAGAAATAATATTTATTAAAATTCCAGTTCTTCTTTTTCTGAT -TACAGAAGGCAAAGTGGCAATTACGCATAGTTTCCCGATAAAGACGCGATAGCGACATCCCGCATAAGGCATTTT -TCTCTTTATCTTTGTACGGTACTTCATGGAACAGAGTTTTTGACCTTGCGAATCGTGATGTCTGTTGGGGAGGGA -CAATTTGCTCACTGAAGCGTGAGACTCGATTAAGCGCACGAAACACAGAAATCAAAAAACCCGGTCACTTTTTTA -CAAGGTAACCGGGTAAAAATAATTTTTATTTTTTAACTGTTTTGAGACTCATAGAGATGTCTCAAAACTAAAATT -TGGCTCCTCTGACTGGACTCGAACCAGTGACATACGGATTAACAGTCCGCCGTTCTACCGACTGAACTACAGAGG -AATCGTGAGAACGAGGCGAATATTAGCGATGCCCACCCACAATGTCAAAGCCTGTTTTTTAAATTTGAAATCGTT -TGCTGAAATAATCTGCATTTTGTCGTTTATTCCGACACAACTGGCTTTTTTTCACACTTTTGCGGCTCGGGTCGA -GGGTATTTCCATAGCCAACGTCCAGTAACCATTCGCCAGTAAAACAGCACGGCCCGCACAGCCCAGTCGGCAAAC -ATTCCCATCCAGACACCAACCACACCCCAGCCAAGCATGATTCCCAGCACATAACCGACTACAACCCGACAACCC -CACATGCTCAACATCGAAACCCACATGGCGTAACGGGCATCACGAGCACCTTTAAATCCAGCGGGTAGCACCCAT -GAGGCGGACCAAATAGGCATAAATAAAGCATTTAGCCAAATCAGAATCACAACGACATGTTTAACCTGTGGATCC -TGGGTGTAAAACGATGCCATAACCCCGGCAAAGGGAGCCGTTAGCCAGGCGATGGCCGTTAATCCAAGAGTGGAA -AGCCAGAACACATGCCGCAACTGAATCTCTGCTTGCGCTATCTGCCCTACCCCCAACCTTCGGCCTGTAATGATC -GTAGAAGCAGAGCCGAGCGCACTTCCGGGTAAGTTGATAAGAGCCGCAATTGAAAACGCGATAAAATTTCCGGCA -ATAACACTGGTCCCCATCCCGGCAACGAACATTTGGGTTAATAACCGACCACTGGTAAATAACACTGATTCGACA -CTCGCGGGAATACCAATCCCCATGACTTCCCAGATAATGCTAAAATTCAGCGGTTTAAAATAGCTCTTTAACGAA -ATCCTTAGCGCAGGATTAAAACCAATCGCCAGCACCCACAAAATTGCAACTGCGCCAATATAACGAGAAATGGTT -AAACCCAGCCCTGCCCCGACAAATCCCAGTCCCGGCCAGGAGAAAAGGCCGTAAATCAATATGCCGCTAATAATA -ATATTAAGAATATTCAGGCTACCGTTAATCAATAGCGGTATTTTCGTATTCCCTGCACCACGAAGTGCCCCGCTA -CCAATAAGAGTGATGGCAGCTGCTGGATAACTGAGTACCGTCAGCTCCAGATAAGTCAACGCCAGTGCTTTAACT -TCTGTCGTGGCATCACCCGCGACGAAATCAATAATTTGTTCGCCAAAATGATGAATAAGCGTTGCCAACAGTACG -GCAAACAACGTCATGATCACCAATGACTGCCGCGTCGCCACCCTCGCTCGTCGTCGATCCCGCTTACCGAGACTA -AATGCCACAACGACAGTAGTACCAAGATCGATAGCAGCAAAAAAAGCCATAATGACCATATTGAAGCTGTCCGCC -AATCCCACGCCGGCCATCGCATCTTTTCCCAGCCAGCTGACCAGAAAAGTGCTCAGAACCCCCATCAACAGGACA -CAGGCATTCTCCATGAAGATAGGAACAGCAAGCGGGGTTATCTCGCGCCAGAACAACACTTTGTAGCTCTTGCGT -TTAGCGTGCCAGCGAGTGCCGTGAACAACCTGGCGTAAAGCAGAGGAGATATTCAAAGCCGACCTTAATTGCAGA -AAGTGAAACCACATTTCAAATAATGAGGGAGAATCAGCAAAGCTGCAAAGATTTTCGCCAACAAATTGTCTGCAA -ATGCAACAAACTGTTGATAGAAACGGCAAACAGTTGGGGAATTTAAAAATCGGGTTTGACAAAAGATTTTTCGCC -GTTAAGATGTGCCTCAACAACGATTCCTCTGTAGTTCAGTCGGTAGAACGGCGGACTGTTAATCCGTATGTCACT -GGTTCGAGTCCAGTCAGAGGAGCCAAATTCCTGAAAAGCCCGCTTTTATAGCGGGATTTTTGCTATATCTGATAA -TCAATTTCCTCTTCACTGCTTTCCATCACCTGCCGCTTGATATCCTCAACTGACAGTCCTGCATTACAAAGTTCC -AGAAAGCGCCAGACATAGTTACGCTGAAGTTGTCCTCGCTTCAGTCCCAACCAGACAGTATTAGCATCAAAAAGA -TGCCGCGTATCCAGGCGGATTAAATTCTCTTCCTCTTGTTCGCCACTGGATTGCTCGGCAACTAATCCGATCCCA -AGCCCAAGAGCAACATAGGTTTTAATGACATCAGAATCCTGCGCACTTAATACAATATCTGCCAGCAAACCTTTG -CGGGCAAATGCGTCATCAATACGTGAGCGCCCCGTAATCCCCTGTCGGTAAGTGATTAACGGCCACTTCGCTATT -GATTCCAGCGTCAATGGTGAAATTTGCGTCAAGGGATGATCGTGTGGAACAAGCAAACTATGGTGCCAACGAAAC -CACGGGAAGGCGACGAGCTGCGGGTCATTACTCAAACGCTCGCTGGCGATACCAATATCAGCTTCGCCATTTTGC -AACAATGTCGCAATTTCCTGTGGCGTCCCCTGGATTAGCTCGAGCCGAACCTCCGGGAAAAGTTCGCGAAAAGCT -TTAATGACCTCTGGCAAGCTATAACGTGCCTGAGTATGCGTCGTTGCAATAGTGAGAACGCCAGACGTATCGTTG -GTAAACAGGTCTGCAAGCCGACGAACATTACTGGCTTCATTCAGAATACGTTCTGCAATGACCAGTAATGCTTTG -CCCGGTTCAGTCATGCCCAGCAGTCGCTTACCTCGTCGAACAAATATTTCGATGCCAAGTTCATCCTCCAGTTCC -CGAATATGACGGCTGACGCCTGACTGTGAGGTAAAAAGCATATTCGCAACCTCTGTCAGGTTGTAATCCTGACGT -GCAGCCTCGCGGATTATCTTTAGTTGTTGGAAATTCACGGTAAACTCCGGGCAGTTCAGATTTCCCGTTATTGTT -AAAGTCTAATGCCCGGCATAACAAATAATAAAAACCCGCATCTTATTCCATCCCGATATAACACTTAGCTCACCA -ATTGCCACTGCCTTTTTTCCATCACTGGAGAACTAATCACTGACATTAACAACTCTTTCACTGCCTGTGCCTGTG -GCGATAAGTTCGCTCTGGCGGGTAAATTTAATGACAAAGAGAGACTCATGGAAGGAGTGGTAATGCGTGACATCC -ACCCATTTACTGCGCCACATAACGAACGCGCGGCCGATTCGGGTAATACTGCAACGCCCATGCCGCTGGCAATCG -CTGCGGTAAGCGTGGCAATAGACTCAATTTCACCAATAACTTTTGCCGTGAGTCGCCGTAGGGAAAAAGCCTCAT -CAACACGAAGTCTAATAGCACTGTAATCACTGGGGAGAAAGAGGTTCATTTGCGCAATAGCATTCACATCAACGC -TTTGCCCCGGGCAATCTTGAGTTCCTACCAGAAAAAGATCTTCTTTCAGCAAAGCCTGACTGGATACACCAGCCA -CAGGGGAATGCTCATAAATCACCGCCATATCGAGTTGGTGATTTATCAATTTTTCGTTAAGCACTGCACCACTAT -TTTCATGAAGATAGATAACGATCTCCGGAAATTCAGCGCGAACCGCCTGTAATAAGGGCATGGTGATGGATGACG -CAGCGGTTCCTGGTGCAAAGCCAATCGAGACTTGCCCCGATAATGCCTGACCAACGTTATGCACCGCCAGTTGGG -CCTGTTCACACTGACGTAAAATGGCCCGCGCATGGGTATAGAGAATTTTTCCGGCGTCTGTTGGTGTAACGCCCC -GCTTTGTACGGATCAAAAGTTGTTGATTTAACTCACCTTCCAGTGTGGCAACCTGCTGGCTGAGCGCTGGTTGTG -CGATATGCAATACTTCAGCAGCCTGGGTCAGGCTACCAATATCTACAATTTTTACGAAGTATTTCAGGCGTCTGA -AGTTCATGTTGCCTCCGGTTTTTAAGAATCGGCCCAAGTGCCGCCATTACTTACAACCAGATTGCAAGATGCTTG -CCAGTTTTATTTTGGTGTTGATGTACAAGCTAACCAACTGTCAAATAAGAGATTATGATAGATTCGTCATTTGCT -CCTTTAATCAGCTGTCGCGTTCCCCTGCCCTATAAAAGGAGGGTATGCACCACGATGGTTCATTACCCAATAAGA -TTGAAAGCTCACCACTTTGTTGAAATTGACAGCAAACAAACAAAAAAATGCATTTCACCCTTTGACATCACCATG -CACTGCCATTAATATGCGCCCCGTTCACACGATTCCTCTGTAGTTCAGTCGGTAGAACGGCGGACTGTTAATCCG -TATGTCACTGGTTCGAGTCCAGTCAGAGGAGCCAAATTCAAAAAAGCCTGCTTTCTAGCAGGCTTTTTGCTTTCT -AATTACCAACGCTCTTAAAACATCTGTCTTGAACCAGAACTAATTTGCACAGGCATTCCCGATCGACGTTGCAAC -GCAGCATTTGCGCGATTTACATCAACTTCTTGCCCGTTGATAAACGCCCGCAAAGATGGGGTTACCGGCAATGGC -ACTTTTCGGTCAGACTCATATTCTGCACGATTGCGCGACAATGGCTCATGAACTTCCAGCCAGTTCGAGCCATCT -GGTTCAGTGGTGTATTTTACTGGCTGGTCGATAATTTGCACACGCGTCCCAACAGGAACATTATCAAACAGATAT -TTGATATCGTCATTGCGCAGACGAATACAGCCCTGACTTACCCGGAGCCCAATACCAAAATTGGCATTGGTACCA -TGGATGGCATACAACCTGCCAATATAAATCGCGTACAGCCCCATGGGATTATCGGGGCCCGCAGGAACAAATGCG -GGCAAACTCTCCCCTCGTTTCGCATATTCGCGCCGAGTGTTCGGCGTTGGCGTCCAGGTTGGAGCTTCTTGTTTA -CGTTCAACGGTAGTCACCCAGTTACGCGGGGTTTCTCGCCCAGCCTGGCCGATACCAATAGGAAAGACTTCCACA -GTATTACTGTCTGGTGGGTAGTAATAAAGACGCATCTCAGCGACGTTAACAACAATCCCTTTACGAACAGTGTCG -GGCAAAATCAGTTGCTGCGGAATGGTGAGTTGCGAGCCAGACTTCGGCAAAAAAACATCAGCGCCCGGGTTCGCT -TCCAGCATGTTACTTAACCCTTGCCCGTATTGTGCGGCAAAAGTCTCCAGCGGCTGGGTATTGTGATCAGGAACA -GTTACAGTAAACGACTGCCCCACTAAACGGCTACCCTCTGGAGGTAATGGATAAGTTACCGCCAGGCTAGTATGG -CTGGCAAAAAGCAGAGCAAATGAGCAAAGAATATTTACACGACGCATCATGTCCCTTTCCTATGTCGCGAAAGCT -ATCCGTTAAGTATAGCTTTTATCAGACTTTTCGTTTTTAACTGTTCAAATCAGAAGTCGTATTCCCCGGTAGAAC -AATATTACTGGCAGCAAGTTCGCCCATGTTGTTGTATATCGCACAGGCAGCTTCGATGATGGGCATCGCCAGAGC -TGCGCCACTCCCCTCACCTAAACGCATCTCCATATTGAGATAAGGCTCCAGCCCCAAATGCGAGAGCGCTATACG -CGCGCCTTTTTCTGCCGACAGGTGAGAAGGAATGAGATACGGTTTGATCGCAGGAGACATCTGGCAGGCTGCGAG -CGCAGCAGCATAAGAAAGAAATCCATCCAGCAACACGGGTAAACCGCAGGAAGCAGCACCTAACATCACTCCAGC -TATTCCGACCAAATCAAATCCACCCACTTTTGCCAGGACATCAACACCATCCTGAGGATTTGGTTGATTCAACGT -AATCGCCCGACGCACAACATCAATTTTATTAGCCAGTTTATCTGTCGGCAGGTTTGCGCCAATCCCAACCACTTC -TTCAGGATCCCGGCCAGTGATTGTGCTGACTATTGCTGCTGCCGGTGTCGTGTTTGCCATCCCCAGTTCACCTAC -ACCAAACAGCGTGACACCGTTTTTTGCCAGCTCCTGCGTATAACATATGACGTCCAAAAGCAACTTTTCAGCCTG -ACGGCGACTCATTGCCGGAGCTGAAGCAATATTGCCGCTACCTCGTGCGACACGCATGTTGATAAGCCCGGGGAT -AGGCTCAGCAGTATCAATACCAACATCAATTACGTGGACGTTAGCGCCCGCTTGTTCTGCCAGCACACACACGCC -GGTTGTTCCACGGGTCATATTTTCAGCCTGTATGGCTGTCACTTCTTTTGGAGAAATAGCGACCCCTTCCTCCCA -GACGCCGTGATCGGCACACATAACCAGTACCGCTTTTTTGCCCACATGCGGTATGCCATTCAACCCCGGCATTCC -TGCCAGTTGTATGGCAAGCACCTCCAGCTTTCCCAGGCTACCAACAGGTTTGAGTAACCCGTCAATATGCCGTTG -TGCACGCGACATAGCGGTAGAATCGATGGCTGGGATCGTATTCAGTAAATCGGCAAGTATTTGCATCTCACGTCT -CTTTATAGCAGTGCCAGCAGGAAGACCAGTTCACCAAGCTCTATGGCTGCTCCCAGCGTATCGCCCGTTTGCCCG -CCCAGCGTACGTTTGAGAAGCTGACCGAGGATGAAAATCGCCACCATCGTCACCACCATAGCAGCCACACCATGC -ATACCCGGCAATAATACGGCAGCAAAAATAGCGGCTAAGCCGAGTGTGACGCAGGTTTGTCGCCCATCAATTTTG -CCAATGAACACATTGCCAAGCCCTTCTTCCCGCGCATAACGATGACGATACATCAATAATGCGGCAGTCCCGCGG -CTGACCGCACATGCTGCCGCCAGCGATGCAAGGATCGATTCGCCACGCAGAGCCAACTCGCTTAACACCAGAATC -TTTGCCAGTACCACAAAAATCAATGCCAGACCGCCGTGGGTGCCTAAACGGCTATCACGCATGATTTCCAACATG -CGATCGCGGCTACGTGCAGAAAATACGCCATCACAGGTATCAGCGAGGCCGTCCAGATGGAATCCCCCGGTCATC -AGCACCAGCACAAGTACGCTAAACAGTGCCGCCAGTGGTGCGCCACACCATGCCTGCAGCACCATGAAGACCAGC -CCGCTAATCGCGCCAAGCAATAATCCAATCAAAGGAAAAGTAATAATACCGCGAGAATAATGCTCGAAATCCAGT -CCCTGGGACCAGCGACGCGGTACAGGCAGACGCGTAATAAATGAGAGCATCGCCCAAAATAATTTACTCATTTGA -TTTTTACTCCAATACCCGAAACCACCAGCCATACTTCATTTGCCGCAGCGGCCAACTGCTGATTTACCCGCCCGG -CAATATCACGAAAATGTCGTGCCAGACGACTCTCCGGCACAATCCCCATTCCCACTTCGTTAGTCACTAATACAA -CCTTTGCGGGGCAACGTTGGCAGGCAGCAATCAACGACTGAATCTCAGCATTAATCGCCTGTTCCATCGCCTGAT -AATCCCATTCATCAGGGTCTTTATCGCCGCCATAATCAAACAACAGATTAGTCACCATTGTGGTAACGCATTCAA -GCAACACAACCTCATTCGGGTTAATGTCTGCATGAATTAATTCATCAAGATGTTGCCAGCGCTCCACTGTGCGCC -AGTGCTCCGGGCGGCCTTGCCGATGATGTTCTATCCGTGCAGCCATCTCATCATCAAGGATTTGCGAGGTAGCGA -TATACAGAACCTGTGAAGAGTCCCCAATAAGCGCCTCTGCGTGGCGACTCTTCCCGCTCCGTGCGCCCCCCGTCA -CCAAAATCATCATACCGACTCCTGATTCAAATGTATGATGGTATTCATTGAACAGAACAATGGATCCCCCACCGT -TGCTGACCGCAAAACATTTACGCGATTAATACTGCGCGTAATATAATTAAAAATCCAGCATTCTCAATCCATTAC -GAAATAAGATGGCATTACGGAATAGCCAGACTTTCTCGTGTTAACGTCCGACAAAATGCGTCATTGACAGCGGTT -TCTGTGGATTGACACATTTCATTCAGATAATGAATTAATGCTACTGCCGGAACAACCAGCAAACGGGCATTGTGT -TCTGAAATCCAGGCTATTGATTCAACGTCAGCGACAGATCTGCGCTGTAAAAGAACTTGTAAAACAACGTAATAG -AATTATCCGGAATGGTGGCGACTATGCACTAGGGAAGGTGCGAATAAGTGGGGAAATTCTTCTCGGCTGACTCAG -TCATTTCATTTCTTCATGTTTGAGCCGATTTTTTCTCCCGTAAATGCCTTGAATCAGCCTATTTAGACCGTTTCT -TCGCCATTTAAGGCGTTATCCCCAGTTTTTAGTGAGATCTCTCCCACTGACGTATCATTTGGTCCGCCCGAAACA -GGTTGGCCAGCGTGAATAACATCGCCAGTTGGTTATCGTTTTTCAGCAACCCCTTGTATCTGGCTTTCACGAAGC -CGAACTGTCGCTTGATGATGCGAAATGGGTGCTCCACCTTGGCCCGGATGCTGGCTTTCATGTATTCGATGTTGA -TGGCCGTTTTGTTCTTGCGTGGATGCTGTTTCAAGGTTCTTACCTTGCCGGGGCGCTCGGCGATCAGCCAGTCCA -CATCCACCTCGGCCAGCTCCTCGCGCTGTGGCGCCCCTTGGTAGCCGGCATCGGCTGAGACAAATTGCTCCTCTC -CATGCAGCAGATTACCCAGCTGATTGAGGTCATGCTCGTTGGCCGCGGTGGTGACTAGGCTGTGGGTCAGGCCGC -TCTTGGCATCGACACCAATGTGGGCCTTCATGCCAAAGTGCCACTGATTGCCTTTCTTGGTCTGATGCATCTCCG -GATCGCGTTGCTGCTCTTTGTTCTTGGTCGAGCTGGGTGCCTCAATGATGGTGGCATCGACCAAGGTGCCTTGAG -TCATCATGACGCCTGCTTCGGCCAGCCAGCGATTGATGGTCTTGAACAATTGGCGGGCCAGTTGATGCTGCTCCA -GCAGGTGGCGGAAATTCATGATGGTGGTGCGGTCCGGCAAGGCGCTATCCAGGGATAACCGGGCAAACAGACGCA -TGGAGGCGATTTCGTACAGAGCATCTTCCATCGCGCCATCGCTCAGGTTGTACCAATGCTGCATGCAGTGAATGC -GTAGCATGGTTTCCAGCGGATAAGGTCGCCGGCCATTACCAGCCTTGGGGTAAAACGGCTCGATGACTTCCACCA -TGTTTTGCCATGGCAGAATCTGCTCCATGCGGGACAAGAAAATCTCTTTTCTGGTCTGACGGCGCTTACTGCTGA -ATTCACTGTCGGCGAAGGTAAGTTGATGACTCATGATGAACCCTGTTCCATGGCTCCAGATGACAAACATGATCT -CATATCAGGGACTTGTTCGCACCTTCCCTAGAACACCACAATTTCGCTCTCTCGGTAAGGCACTGTCACAGCATT -CAACAGAATGTGACTTGCCAGATTTATTAGCGCCACCAGATGTTTAACCGGGTAACCACGACCCAGTCGGGGATA -TATTCCATCTTCTCGCTGACATCATCAAGAATAAAAAGGTTTATCACACTCAGAGCAACGTTCTTCAGCAGGCGG -GATAATTCTTCAACATTTAGAAGATGTGTTATTAAAGGCATACAAACTGGACGTATTGTATTTTCTTTTGGTGGT -TGACCTAAGGTAGCAGTTTATCCTGATGCGCTGAGATTTCTGTAATATCTACGTCAACATTCTCCTCGAATAGAA -AATGCAGCCCCGGCAAGTGATTCACATTTTTTAACAAAACGTTGTTAGCGTGCCATTTTCAGAAGCTCTCCAAGA -AAGCGAATTCTTTTCTCAAATTCTGCATTCTCAGACACAGCTTTCTACTCCATGGTAATGGCCCAAATACGAAGT -TGCTCAGGATCATTAGTGGTGCTGAGAAGTTAAATAACCATGCGGAGTACCACTCGTCATCACGTATTTATATAT -CATGAAGCTATTGTTGTGTTTTGTACATCAGTAGATATATTCTGATATACTCCTTTTGCTAGACATAACCTTTCA -CCTGCTTGCAAAGCTTCTGTGTTCTGACATTGCCAAATTGTTGCAATTCTGTATCCAGCCTTCTTTCAGTCATAG -CTTCGGGCCGCGATAAGACTCACTGATCTGACCCTGATTCCTCTTGCAGACTTTATAGACCAATTAAAATGCAGT -TTCTGCAGGTCAACGTCTGACCATCATTGTCATCACTCTGGCCATTAGAGTAACCTTCTGCATTCATCCTTTTGT -AAAAAGTTTATATTAGTATCAGCAATTAACCGGACCTGATACTGATATGAGTCTTACCGCATATACGGTCAATTT -CAGCAATTAATTACATTATCCACGCCAAAGTATTTGTCATCACAATGATGGTACCTTCTTTCAGACACCATTTTT -TCAACTCCGTTTTCCACGGACCGCACTCTTATGTCAAGAGTGCGGTCCGTGGATACAACCAGAGACCGACTGACA -CGAGTCAGAGGAAACGACGGATATGTTCAGTCGTAAAATATCTATCAAAAAACATGATTAAGGTCAAAAATGTTT -GATATTTACAATTTATGAAGATGACAATAATTATAGATATATGAGAACATAAATGAAAATAATTATCATTACAGT -AATCATTTGTACTTTGTATTAATGAGGGATGAAATGTTATATAATATACCTTGTCGAATTTATATCCTTTCCACT -CTGTCATTATGCATTTCTGGGATAGTTTCTACTGCAACCGCAACTTCTTCAGAAACAAAAATCAGCAACGAAGAG -ACGCTCGTCGTGACCACGAATCGTTCGGCAAGCAACCTTTGGGAAAGCCCGGCGACTATACAGGTTATTGACCAA -CAAACATTGCAGAACTCCACCAATGCCTCCATAGCCGATAATTTGCAGGACATCCCCGGAGTAGAGATAACAGAC -AACTCCTTGGCAGGCCGTAAACAAATCCGCATTCGTGGCTGGATTTGCCCCTATATTTCCAGACATCTGTTATCA -CTTAACCCATTACAAGCCCGCTGCCGCAGATATTCCCGTGGCGAGCGATAACCCAGCGCACTATGCGGATGCCAT -TCGTTATAATGCTCGAACGCCTCTGCAAGGTTCTTTGCTGCCGTTAACCCGTCTGGTTTGGGCATGATACTGATG -TAGTCACGCTTTATCGTTTTCACGAAGCTCTCTGCTATTCCGTTACTCTCCGGACTCCGCACCGCCGTGTTCTTC -GGTTCAAGTCCCAACATCCGGGCGAACTGGCGTGTTTCATTAGCCCGGTAGCATGAACCATTATCCGTCAGCCAC -TCCACTGGAGACGACGGAAGATCGTTGCCGAAGCGGCGTTCCACCGCTCCCAGCATGACGTCCTGTACTGTTTCA -CTGTTGAAGCCGCCGGTAGTGACCGCCCAGTGCAGTGCCTCACGATCACAGCAGTCCAGCGCGAACGTGACACGC -AGTCTCTCTCCGTTATCACAGCAGAACTCGAACCCGTCAGAGCACCATCGCTGATTGCTTTCTTTCACGGCCACT -CTGCCTGTATGTGCCCGTTTCGATGGCGGTACAGCAGGTTTTCGCTCAAGCAACAGCGCATTCTGGCGCATGATC -CGGTAAACACGTTTGGCATTGATCGCAGGCATACCATCAAGTTCTGCCTGTCTGCGAAGCAGCGCCCATACCCGA -CGATAACCATACGTTGGCAGCTCTCCGATAACATGGTGTATACGGAGAAGCACATCCGTATCATCAGTGTGACGA -CTGCGGCGGCCATCCATCCAGTCATCGGTTCGTCTGAGAATGACGTGCAACTGCGCACGCGACACCCGGAGACAA -CGGCTGACTAAGCTTACTCCCCATCCCCGGGCAATAAGGGCGCGTGCGCTATCCACTTTTTTGCCCGTCCATATT -CAACGGCTTCTTTGAGGAGTTCATTTTCCATCGTTTTCTTGCCGAGCAGGCGCTGGAGTTCTTTAATCTGCTTCA -TGGCGGCAGCAAGTTCAGAGGCAGGAACAACCTGTTCTCCGGCGGCGACAGCAGTAAGACTTCCTTCCTGGTATT -GCTTACGCCAGAGAAATAACTGGCTGGCTGCTACACCATGTTGCCGGGCAACGAGGGAGACCGTCATCCCCGGTT -CAAAGCTCTGCTGAACAATTGCGATCTTTTCCTGTGTGGTACGCCGTCTGCGTTTCTCCGGCCCTAAGACATCAA -TCATCTGTTCTCCAATGACTAGTCTAAAAACTAGTATTAAGACTATCACTTATTTAAGTGATATTGGTTGTCTGG -AGATTCAGGGGGCCAGTCTAGTGGCGAAGCATCCTCCCGTGTTTTAATTCTCATTGATGGTCAGGAGGTAACTTA -TCAGCGCGCCGGAGATAATTATGGTGTGGGACTGTTGATAGATGAGTCTGCGCTGGAGCGTGTTGAGGTAGTGAA -AGGTCCATATTCCGTACTGTACGGTTCACAGGCAATTGGCGGTATTGTTAACTTCATCACCAAAAAGGGTGAATC -TCCGGACTCCCTATATCACTTAAATTGATACAACTTTTTAGAGTAGTCATTAGTGAACAGATAATTGATAACTCA -GAACCAGTAAAATGCAAAAGACGCACCACGCTGGGAAAATCGCTGCTATTCAGCAGAGTTTTGTATCGAGAATGG -TGGCCAGCCACTTATTGCTCTCGCGTAAGCGGGTACCGTGACATTCTGCCTGAACTTGACCTGGTACTGTGGCTG -ATTAAAGCCGATGACCGTGCCCTGTCTGTGGATGAGTATTTCTGGCGACACATCCTGCAGTGCGGACATCAGCAG -GTGCTGTTTGTGGTGACGCAGGCCGACAAAACGGAGCCCTGCCATGAATGGGATATGGCCGGTATTCAGCCTTCT -CCTGCACAGGCACAGAATATTCGCGAAAAAACGGAGGCGGTATTCCGTCTGTTCCGGCCCGTACATCCGGTTGTG -GCCGTATCGGCCCGCACCGGCTGGGAACTGGATACGCTGGTCAGTGCGCTCATGACAGCGCTTCCCGACCATGCC -GCCAGTCCCCTGATGACCCGACTGCAGGACGAGCTGCGCACGGAATCTGTCCGGTCTCAGGCCCGTGAACAGTTT -ACCGGTGCGGTGGACCGGATATTTGACACGGCGGAGAGCGTCTGTATTGCCTCTGTTGCACGCACGGTTCTGCGT -GCCGTCCGTGACACGGTGGTCTCTGTTGCCCGTGCGGTATGGAACTGGATTTTCTTCTGAACCTGTCGTGACTGA -TGCCCTCCCTGACTCTGAGTCTGCTCACAAAAGCACTGTTTTCGTTACTGTCTCTCTTGTCCGTGCAATAGCTCA -ATAATAGAATAAAACGATCAATATCTATTTTATCGATCGTTTATATCGATCGATAAGCTAATAATAACCTTTGTC -AGTAACATGCACAGATACGTACAGAAAGACATTCAGGGAACAACAGAACCACAATTCAGAAACTCCCACAGCCGG -ACCTCCGGCACTGTAACCCTTTACCTGCCGGTATCCACGTTTGTGGGTACCGGCTTTTTTATTCACCCTCAATCT -AAGGAAAAGCTGATGAAACGACATCTGAATACCTGCTACAGGCTGGTATGGAATCACATGACGGGCGCTTTCGTG -GTTGCCTCCGAACTGGCCCGCGCACGGGGTAAACGTGGCGGTGTGGCGGTTGCACTGTCTCTTGCCGCAGTCACG -TCACTCCCGGTGCTGGCTGCTGACATCGTTGTGCACCCGGGAGAAACCGTGAACGGCGGAACACTGGCAAATCAT -GACAACCAGATTGTCTTCGGTACGACCAACGGAATGACCATCAGTACCGGGCTGGAGTATGGGCCGGATAACGAG -GCCAATACCGGCGGGCAATGGGTACAGGATGGCGGAACAGCCAACAAAACGACTGTCACCAGTGGTGGTCTTCAG -AGAGTGAACCCCGGTGGAAGTGTCTCAGACACGGTTATCAGTGCCGGAGGCGGACAGAGCCTTCAGGGACGGGCT -GTGAACACCACGCTGAATGGTGGCGAACAGTGGATGCATGAGGGGGCGATAGCCACAGGAACCGTCATTAATGAT -AAGGGCTGGCAGGTCGTCAAGCCCGGTACAGTGGCAACGGATACCGTTGTTAATACCGGGGCGGAAGGGGGACCG -GATGCAGAAAACGGTGATACCGGGCAGTTTGTTCGCGGGGATGCCGTACGCACAACCATCAATAAAAACGGTCGC -CAGATTGTGAGAGCTGAAGGAACGGCAAATACCACTGTGGTTTATGCCGGCGGCGACCAGACTGTACATGGTCAC -GCACTGGATACCACGCTGAATGGGGGATACCAGTATGTGCACAACGGCGGTACAGCGTCTGACACTGTTGTGAAC -AGTGACGGCTGGCAGATTGTCAAAAACGGGGGTGTGGCCGGGAATACCACCGTTAATCAGAAGGGCAGACTGCAG -GTGGACGCCGGTGGTACAGCCACGAATGTCACCCTGAAGCAGGGCGGCGCACTGGTTACCAGTACGGCTGCAACC -GTTACCGGCATAAACCGCCTGGGAGCATTCTCTGTTGTGGAGGGTAAAGCTGATAATGTCGTACTGGAAAATGGC -GGACGCCTGGATGTGCTGACCGGACACACAGCCACTAATACCCGCGTGGATGATGGCGGAACGCTGGATGTCCGC -AACGGTGGCACCGCCACCACCGTATCCATGGGAAATGGCGGTGTACTGCTGGCCGATTCCGGTGCCGCTGTCAGT -GGTACCCGGAGCGACGGAAAGGCATTCAGTATCGGAGGCGGTCAGGCGGATGCCCTGATGCTGGAAAAAGGCAGT -TCATTCACGCTGAACGCCGGTGATACGGCCACGGATACCACGGTAAATGGCGGACTGTTCACCGCCAGGGGCGGC -ACACTGGCGGGCACCACCACGCTGAATAACGGCGCCATACTTACCCTTTCCGGGAAGACGGTGAACAACGATACC -CTGACCATCCGTGAAGGCGATGCACTCCTGCAGGGAGGCTCTCTCACCGGTAACGGCAGCGTGGAAAAATCAGGA -AGTGGCACACTCACTGTCAGCAACACCACACTCACCCAGAAAGCCGTCAACCTGAATGAAGGCACGCTGACGCTG -AACGACAGTACCGTCACCACGGATGTCATTGCTCAGCGCGGTACAGCCCTGAAGCTGACCGGCAGCACTGTGCTG -AACGGTGCCATTGACCCCACGAATGTCACTCTCGCCTCCGGTGCCACCTGGAATATCCCCGATAACGCCACGGTG -CAGTCGGTGGTGGATGACCTCAGCCATGCCGGACAGATTCATTTCACCTCCACCCGCACAGGGAAGTTCGTACCG -GCAACCCTGAAAGTGAAAAACCTGAACGGACAGAATGGCACCATCAGCCTGCGTGTACGCCCGGATATGGCACAG -AACAATGCTGACAGACTGGTCATTGACGGCGGCAGGGCAACCGGAAAAACCATCCTGAACCTGGTGAACGCCGGC -AACAGTGCGTCGGGGCTGGCGACCAGCGGTAAGGGTATTCAGGTGGTGGAAGCCATTAACGGTGCCACCACGGAG -GAAGGGGCCTTTGTCCAGGGGAACAGGCTGCAGGCCGGTGCCTTTAACTACTCCCTCAACCGGGACAGTGATGAG -AGCTGGTATCTGCGCAGTGAAAATGCTTATCGTGCAGAAGTCCCCCTGTATGCCTCCATGCTGACACAGGCAATG -GACTATGACCGGATTGTGGCAGGCTCCCGCAGCCATCAGACCGGTGTAAATGGTGAAAACAACAGCGTCCGTCTC -AGCATTCAGGGCGGTCATCTCGGTCACGATAACAATGGCGGTATTGCCCGTGGGGCCACGCCGGAAAGCAGCGGC -AGCTATGGATTCGTCCGTCTGGAGGGTGACCTGATGAGAACAGAGGTTGCCGGTATGTCTGTGACCGCGGGGGTA -TATGGTGCTGCTGGCCATTCTTCCGTTGATGTTAAGGATGATGACGGCTCCCGTGCCGGCACGGTCCGGGATGAT -GCCGGCAGCCTGGGCGGATACCTGAATCTGGTACACACGTCCTCCGGCCTGTGGGCTGACATTGTGGCACAGGGA -ACCCGCCACAGCATGAAAGCGTCATCGGACAATAACGACTTCCGCGCCCGGGGCTGGGGCTGGCTGGGCTCACTG -GAAACCGGTCTGCCCTTCAGTATCACTGACAACCTGATGCTGGAGCCACAACTGCAGTATACCTGGCAGGGACTT -TCCCTGGATGACGGTAAGGACAACGCCGGTTATGTGAAGTTCGGGCATGGCAGTGCACAACATGTGCGTGCCGGT -TTCCGTCTGGGCAGCCACAACGATATGACCTTTGGCGAAGGCACCTCATCCCGTGCCCCCCTGCGTGACAGTGCA -AAACACAGTGTGAGTGAATTACCGGTGAACTGGTGGGTACAGCCTTCTGTTATCCGCACCTTCAGCTCCCGGGGA -GATATGCGTGTGGGGACTTCCACTGCAGGCAGCGGGATGACGTTCTCTCCCTCACAGAATGGCACATCACTGGAC -CTGCAGGCCGGACTGGAAGCCCGTGTCCGGGAAAATATCACCCTGGGCGTTCAGGCCGGTTATGCCCACAGCGTC -AGCGGCAGCAGCGCTGAAGGGTATAACGGTCAGGCCACACTGAATGTGACCTTCTGACAGAACCATCGCCTCTCT -GTGGTCCCGGTCATCATGACCGGGACCCGGACCGGCGCAACGGATCTTCAACGCCACATTCGCTGGCATTAACAA -TAACATGATATTCATCACGGAGTGACTATGTTACAGATAGTCGGCGCGCTGATCCTGCTGATCGCAGGATTTGCC -ATTCTTCGCCTTTTGTTCAGAGCATTAATCAGCACGGCTTCTGCGCTGGCAGGGCTCATATTGCTGTGTCTGTTC -GGCCCGGCCTTACTGGCTGGCTATATCACCGAACGCATAACCCGGTTGTTCCATATTCGCTGGCTGGCAGGCGTA -TTTCTGACGATTGCCGGAATGATCATCAGCTTCATGTGGGGACTTGATGGTAAACATATCGCGCTGGAGGCTCAC -ACCTTTGACTCTGTGAAATTTATTCTGACCACCGCTCTCGCCGGTGGTCTGCTGGCTGTTCCCCTGCAGATCAAA -AACATTCAGCAGAACGGGATCACACCAGAAGATATCAGCAAGGAAATTAACGGGTATTACTGCTGTTTTTATACT -GCCTTTTTCCTTATGGCGTGTTCTGCATGCGCACCATTGATCGCGTTACAGTACGATATTTCACCGTCACTGATG -TGGTGGGGCGGGTTGTTGTACTGGCTGGCTGCATTAGTGACGCTGCTATGGGCGGCCAGCCAGATCCAGGCGCTG -AAAAAACTGACCTGTGCCATCAGCCAGACACTGGAAGAACAACCGGTGCTCAACAGTAAATCGTGGCTGACCAGT -TTGCAAAACGATTACAGCCTTCCTGACTCACTGACGGAGCGCATCTGGCTGACGCTCATTTCTCAACGGATTTCC -CGGGGAGAGCTGAGGGAATTTGAACTGGCAGACGGAAACTGGTTACTGAACAATGCCTGGTATGAAAGAAACATG -GCAGGGTTTAACGAACAGTTGAAAGAGAACCTGTCATTCACACCTGATGAACTGAAAACGCTCTTCCGGAACCGC -CTGAATTTATCACCGGAAGCGAATGACGATTTTCTCGATCGTTGCCTGGACGGCGGTGACTGGTATCCCTTTTCA -GAAGGTCGCCGTTTTGTATCATTCCATCACGTGGATGAGCTTCGTATCTGTGCCTCCTGCGGGCTGACAGAAGTA -CATCATGCCCCGGAAAATCATAAGCCGGATCCGGAATGGTACTGCTCCTCTCTTTGTCGCGAAACAGAAACACTG -TGTCAGGAAATTTATGAACGCCCTTACAACAGCTTTATTTCCGATGCAACGGCGAATGGTCTGATTCTCATGAAA -CTGCCGGAAACCTGGAGTACAAATGAGAAAATGTTTGCTTCCGGAGGGCAGGGACATGGGTTTGCCGCTGAACGG -GGAAACCATATTGTCGACAGAGTCCGTCTGAAAAACGCACGGATCCTCGGTGATAATAATGCCAGAAATGGAGCA -GACAGACTGGTCAGCGGAACAGAAATCCAGACGAAATATTGTTCAACTGCAGCCCGTAGCGTCGGTGCGGCATTC -GACGGACAAAACGGACAGTATCGTTACATGGGAAATAATGGCCCCATGCAACTGGAAGTCCCCCGTGATCAGTAT -GCCGGCGCTGTTGAAACCATGAGGAATAAGATCCGCGAAGGTAAAGTAGAGGAGAGATGACGCCCGGCGAGCGCA -GCCTCATTCAACGGGCCCTGAAAACCCTGGACCGCCATCTTCATGAACCCGGCGTGGCCTTCACCTCCACCCGTG -CAGCACGGGAATGGCTGATTCTGAACATGGCGGGACTGGAGCGTGAAGAATTCCGGGTGCTGTATCTGAACAACC -AGAATCAGCTGATTGCCGGTGAAACCCTCTTCACCGGCACCATCAACCGCACGGAAGTCCATCCCCGGGAAGTGA -TTAAACGCGCCCTGTACCACAATGCCGCTGCCGTGGTACTGGCACACAATCACCCGTCCGGTGAAGTCACACCCA -GTAAGGCAGACCGGCTTATCACCGAACGTCTGGTACAGGCACTGGGCCTGGTGGATATCCGGGTGCCGGACCATC -TGATAGTCGGTGGCAACCAGGTTTTCTCCTTTGCCGAACATGGTCTGCTTTAACCCTTCACAACCACATCACACC -TGTTTTCACTTTTATCTTCTGTCTTCAGAGGTATCCCATTATGAAAATTATCACCCGTGGTGAAGCCATGCGTAT -TCACCAACAACATCCGACATCCCGTCTTTTTCCGTTCTGTACCGGTAAATACCGCTGGCACGGCAGTGCTGAAGC -GTATACCGGTCGTGAAGTGCAGGATATTCCCGGTGTGCTGGCCGTGTTTGCTGAACGCCGTAAGGACAGTTTTGG -TCCGTATGTCCGGCTGATGAGCGTCACCCTGAACTGAGTGGGAATTCTGATGAGCAGAATTATCGCCACTACCGG -ACCATTCTTAGCCGATTTTCTGTAAGGATTTTATCGTGTCAGACACACTCCCCGGGACAACACTTCCCGACGACA -ATCACGACCGCCCCTGGTGGGGGCTGCCCTGCACCGTGACGCCCTGTTTCGGGGCACGTCTGGTGCAGGAGGGTA -ACCGGTTGCATTACCTTGCCGACCGCGCCGGTATCAGAGGCCTGTTCAGCGATGCAGATGCGTACCACCTGGACC -AGGCCTTTCCGCTGCTGATGAAACAACTGGAACTCATGCTCACCAGCGGTGAACTGAATCCCCGCCATCAGCATA -CCGTCACGCTGTATGCAAAAGGGCTGACCTGCAAAGCCGATACCCTCAGCAGTTGTGATTACGTTTATCTGGCTG -TTTATCCGACGCCCGAAATGAAAAATTAACTCTCCAGAATAGCCTTCTGCTACGGCCTGGTGTTTTCACCACGCC -ACTTTTCCATTTTTATATCTGCATATCAGGAAAATCTTCAGTATGAAAACATTACCTGTATTACCCGGGCAGGCG -GCCAGTTCTCGCCCGTCTCCTGTTGAAATCTGGCAGATACTGCTGTCCCGACTGCTGGACCAGCACTATGGCCTC -ACACTGAATGACACACCTTTTGCCGATGAACGTGTGATTGAGCAGCATATTGAGGCAGGCATTTCACTGTGTGAT -GCGGTGAACTTTCTCGTGGAAAAATACGCGCTGGTGCGTACCGACCAGCCGGGATTCAGCGCCTGTACCCGCTCT -CAGTTAATAAACAGCATCGATATCCTCCGGGCTCGCAGGGCGACCGGCCTGATGACCCGCGACAATTACAGAACG -GTAAATAACATTACCCTGGGTAAGTATCCGGAGGCGAAATGATGACACTGGAAGCCGACAGCGTTAACGTACAGG -CGCTGGATATGGGGCACATTGTCGTTGACATTGATGGTGTTAATATCACTGAACTGATTAATAAGGCCGCTGAAA -ACGGTTATTCACTCCGCGTGGTGGATGACCGTGACTCTACCGAAACACCGGCAACTTATGCCAGCCCTCACCAGT -TGCTGTAAGACAATGCAGTGATACAGGGTATAGTGCCATTAACCACAGAAACAGCACTGTTGTCCTGTATTAAGC -AGGCAAGAGAAGATGTCCTTACCCTGCGCCATCTGCAGCTTCTGCACCAGAACCGGTGAATCTCACTCAACAGGC -TTCATTTCTCCTGACGCCAGCCTGAATACAGCTGGCGTTTTCATTTATAAACAGAAAGGAAAACCGATAATAATG -GAATGGACGCCCCGACCATGAAGCAACGGTAGGATATTACTGATAAACCTTCCAGTGGAGGTGCGTTATGGCCGT -TTTAACGATTAGCATTGACCTGACAAAAAATGAATTCCAAATCCACGGTCTGGGTAGGAACAGAAAAATCTAAGC -TCAGAAAACGGATTAAAGTAAGCGTCAACGGAGCACCGTATTGACGCTTATTTATTGGTGAGAACTACGTTCCAT -GGCAGGAGTTCGTCAACACGGTTGGAGGGCCATTCCGGCAGTATGCTCAGAATATGGCGCAGATACGCTTCCGGA -TCGATACCGTTCAGACGGCAGGTGCCTGCTTTTCTGGCAACAAGCAGGAATCTCAGCGCTGAAGCAGGAATTAGA -GGTAAAAACGCCCTACCGGGCCATGAATCACCCGGTCATTGGAGTAGTAACCAAAGCAGATTTAGCCAGCATGGA -ACAAATATCTTTGGTGAAAAGTTGGTTACGGGAAGCTGGAGCGCACAACGTGTTAGTAACCAGTGCAGTTAATAA -CAATGGAGTTACAGAACTTTTTGCCTTGCTGCATACAGAAGAAGGCTGTTGTTAATTTCGATTGGTTCTCGGATG -AGAATGATGACGGTGATACACAGATAAGAATCAATGAGCAATGAGGGTTGCCGGGCAACCCTCATTGAATAAAAC -GGGAATTACTTCGCTTCGCCGTTTTTCATTTCGCCCATAGCTTTCAGCTTTTTGGAGATATCGCGGCGTTCTTTG -GAGAGCTCGGCATTTTTGATGATGTAATCGTCAACGCGATCTTCATAGTCACCTTTCATGCTGGCGATGATGCCC -TGGATTGCTTCAACGCTCATCCCCGGCTTGATGTAATCGCTCAGGTTGTCCAGCAGCAGGACGCGCTTCTGGTTG -TCACGGATCTTTTTCTCAACGTCCTGAATTTCACGTTGCAGTTTGTTCTTACGACGGAACAGACGAACAAATTCC -AGTACGTCCTGGAATGAAGGCTTGGTAGTTTCCATTTTTATACCCCTGATAATGTGAGAGTCGGATTCGTTTAAG -CAACCGCTATTCGTTAGGGCCAACATTACTCATAGCTGCCGCAGATGACAATGCTTTTATCCCTTTTCACTATCA -TACCCTTTATCCTTGCTGAATCGAAGCAGCAGCAAGATGATTCTGAAGTTCAGGAATTATTTGCGCAAGGCCCGG -CAAATCAGATTCGATAGCAACTCAAGCTGATGCGCCGTTTCCATGTTCAGCCACACATAACCATAGATTGGTGTT -TCCACAACCTTCAGGTCATGGTGGTTATTGAGCAACTGACGCAGCTCTTCCACAGCATCGTTCAATTTTTCCGTA -TTGGCAAAAACCGGCTGCGGATTACCTTCGTACAGCGCATGAACAAGGCTCAGCAGTATTTGCTGCATCATGTGC -TGGGTATCACGAAGTTTTTGCGCGTTCAATAACACGAAATGGCTGGGGCGCGTGGCCCAGTATGCATTGATTTGC -AACTCCAGCATACAAACCAGATTGCGGTTAATGGTCTGGATACCTTCATATATCGATTTTGGAATACGGGTTTCT -TTGCTGGCGGGCGCAATCAGTCCACGCATTTTCACGGCATCGGTCAGGAGTTTTTGTAGATGGCTTTCCAGACGT -GGGCGTTCGAGTAAGTTCGGTGAGAATGCAGATTGATAGACCCGATTATACTCGGTCAGACTTTTCGCCAGTTGA -ATGCGCCAGTGGATGAACGCCCGTTGTGGCCAGATACCGGTAAACAACATTGCCAGTAAAGAGCCGAGGATCACA -TCGCCGCTTCGCCATAACGCCGTATCAATTTCACCTGTCGGGGAACCCACAACAATTGCCAGCGTCACCCCAATC -AATAAACCTTGATACGGTTTCTTGCCCAGCGCCAGCCAACCGCAAAGGAACATGGCCGCCGCGCACCAGACTAAC -ATCAGCGGTAACGAGATTAACTCCAGTTGCAGAGCGATAAGACCTAAAATCGAACCCAACACCGTACCGCCAATA -CGCTCAAAGGCGCGAGGGACAACGTTACCCCAGAACGAGATTGGCCCCATAATCACCACCATGGTGACCAGCGGC -CAGGTGCTTTCCGGGATAGTAAACAGGCGGATAATGAGAAAAGTGAGCAGGAATGCCAGCGCGACCCGAGTACCA -TGCACAATGCGGTAATGGCGGTATACCCGGATTTCAAACGGGCTTAATGACTTATCGGCACGCACGCAGAAACTC -CGTAATGAGATTAAAAGCGCTCATAACTCATCTGTCGGCCAGAAGGCGCGCCTCTGAATTATCCGACGGACAAAC -CGGGAACAGTGTAATTTCCCGGCAGGAGCGAAAAAATTGAAAGGCGCATCTTACTCTTTTCGCTTTCAAAAAAAA -GAGTGGTCATCGCGTTAACACACCGCCCTGAGATGAATTAGTGATGTTTTGGCTGCACCGCAACATACATTTCGA -TATCCCAGTACCCATCTTCCGCGCCATTGTTCAAATAAACCTCGAAGCAGGGCTTTGGTAACATTTCATAAGCAC -TGTCCTGCAAGAGACTATTAAAGAACTGATACCAGGGTTTAGCAAAATCATCACCGACTACACGAGCTACCGCCA -CCGCATACTGACCACCTGTAATTTCTGTCAGAATGACGCCCTCACTGTTTTCGGGAAGCGTAAAGTAACCCGGCA -CCGTCACGACGGTGTCGCAGCGTAATTTTTCGGCGGGTGTTTCATCTGGATTGTCGTAATAGACAGCAACCCACT -CCTTCGGCACAATATTTTTGCTATCTACCCACATCATCAACTGCTCAAAGCCTTTCTTTACCGTCTGTTCCCACG -GGCCAACGAGATGGAAACCTGCAACGGTACGTTTCTCTTCCTGCTTAATCTCGTAGTTCATGACGCCTCCATTGA -TACTGTTTTTATATACAGTATAGTTGCAAAATTAAAACCACAAGGAATGAGTGTTGATTATGCGAGCAGACTCGC -ACTCCTGCCAGTCTGCTGCAAAAGAAAGGTCAGGCCTTATGGTGGAAATAATCACTCAGGCGAGAAAACATGCTG -CCTTCCCCGACAGATTCCAGGGTAACCAGCGGCCAGTGCGCCACCTGTTTATCACGGTCGTAAAGTTCAATTTCC -CCTACCCGCTGATGGGCGCTAATTGGCGCGGTGAGTTCTTTACCATCAAGGGTATATTTGGCTTTGATATGTGGA -ATTTCGGCTTTCGGTAGCACCATCCAGAACTCTTGTTCCGTTCCCAGGTCGATATTTTCTTTATCGCCATACCAG -ATGCGTTCCGTTCCGACCTTTTTCCCACGGTGCAAAATTTGCACCGTAGTAAAGTTTTGTTGCCCCCAACGCAGT -AATTTTCTTGCCTCTTCCTCACGACCTTTTGCACTGTCAGCCCCCATTACCACTGCAATGAGACGACGCTGCCCA -TCTACAGCCGAAGCAATGAGATTAAACCCGGCACCAGAAGTATGACCCGTTTTCAGGCCGTCAACATTCATGGTT -TTATCCCACAACAACCCGTTACGGTTTTGCTGGGTGATACCGTTCCAGGTGAGACTTTTCTCACTGTACATATGA -TAAAACTCGGGCTCGCCGTGGATGATAGCACGAGAAAGCACAGCTAAATCATAAGCCGAGCTATGCTGGCCAGGT -GCATCCAGACCATGCACTGTTTCAAAATGCGTATCCTTGAGATGCAGCTTCTCGGCATAGTTGTTCATCATTTCA -ACAAACTGCCGTTGCCCACCGGCAATATAGTCAGCCAGAGCAACACAAGCGTCATTTCCGGAATCCACAATTAAA -CCACGGCTTAAATCACGTACCGATACGCGATCGCCCTCTTTCAAAAACATCAGTGAAGAACCGACAAACACCGGA -TTATCTTTCGCCCACGCATCGCGCCCCACGGTGACAATATCGTCTGGCGTAATGCGATGACTATCGATAGCGCGA -TCCACGACATAACCCGTCATCAGCTTTGTCAGGCTGGCGGGATTGCGCTGTTGATGCTCATTACCCGCGGTGAGG -ATCTGACCGGTGGTGTAATCCATCAATACCCAGGACCCGGCATGAATCTCTGGAGGCTGAGGTGAAAAAGGAATG -TTTTCCGCCGCAAAACCAGACGATAAGTTAAAAACGAACAAAGAAGCAGCAATAATAAGACGGCGTTTCAACAGC -AAACCCTCAGGAGTTTCAAATAGCTGTTCTTTTTACGGAAATACTTATGAACTGGCTGGAATAAAGTGCAAGAAA -ATGTGACTACCCTCTCATTTTTATCTGACATGATCTGTTGCCACTCGCTGCCAAATTGTGGCGCTAAAGCTGATT -AGCACGGTGATATTTGATACTCTGGCAGACAGCAGAAATAACGGATTTAACCTAATGATGAATGACGGTAAGCAA -CAATCTACCTTTTTGTTTCACGATTACGAAACCTTTGGCACGCACCCCGCGTTAGATCGCCCTGCACAGTTCGCA -GCCATTCGCACCGATAGCGAATTCAATGTCATCGGCGAACCCGAAGTCTTTTACTGCAAGCCCGCTGATGACTAT -TTACCCCAGCCAGGAGCCGTATTAATTACCGGTATTACCCCGCAGGAAGCACGGGCGAAAGGAGAAAACGAAGCC -GCGTTTGCCGCCCGTATTCACTCGCTTTTTACCGTACCGAAGACCTGTATTCTGGGCTACAACAATGTGCGTTTC -GACGACGAAGTCACACGCAACATTTTTTATCGTAATTTCTACGATCCTTACGCCTGGAGCTGGCAGCATGATAAC -TCGCGCTGGGATTTACTGGATGTTATGCGTGCCTGTTATGCCCTGCGCCCGGAAGGAATAAACTGGCCTGAAAAT -GATGACGGTCTACCGAGCTTTCGCCTTGAGCATTTAACCAAAGCGAATGGTATTGAACATAGCAACGCCCACGAT -GCGATGGCTGATGTGTACGCCACTATTGCGATGGCAAAGCTGGTAAAAACGCGTCAGCCACGCCTGTTTGATTAT -CTCTTTACCCATCGTAATAAACACAAACTGATGGCGTTGATTGATGTTCCGCAGATGAAACCCCTGGTGCACGTT -TCCGGAATGTTTGGAGCATGGCGCGGCAATACCAGCTGGGTGGCACCGCTGGCGTGGCATCCTGAAAATCGCAAT -GCCGTAATTATGGTGGATTTGGCAGGAGACATTTCGCCATTACTGGAACTGGATAGCGACACATTGCGCGAGCGT -TTATATACCGCAAAAACCGATCTTGGCGATAACGCCGCCGTTCCGGTTAAGCTGGTGCATATCAATAAATGTCCG -GTGCTGGCCCAGGCGAATACGCTACGCCCGGAAGATGCCGACCGACTGGGAATTAATCGTCAGCATTGCCTCGAT -AACCTGAAAATTCTGCGTGAAAATCCGCAAGTGCGCGAAAAAGTGGTGGCGATATTCGCGGAAGCCGAACCGTTT -ACGCCTTCAGATAACGTGGATGCACAGCTTTATAACGGCTTTTTCAGTGACGCAGATCGTGCAGCAATGAAAATT -GTGCTGGAAACCGAGCCGCGTAATTTACCGGCACTGGATATCACTTTTGTTGATAAACGGATTGAAAAGCTGTTG -TTCAATTATCGGGCACGCAACTTCCCGGGGACGCTGGATTATGCCGAGCAGCAACGCTGGCTGGAGCACCGTCGC -CAGGTCTTCACGCCAGAGTTTTTGCAGGGTTATGCTGATGAATTGCAGATGCTGGTACAACAATATGCCGATGAC -AAAGAGAAAGTGGCGCTGTTAAAAGCACTTTGGCAGTACGCGGAAGAGATTGTCTAATTTGAAGCCTCCGCCGCT -GGTACGGCGGAGGACAATGTTGAGTCAGGCTTTTTGAACGGTGATGCTCCACGCTGCATCGCCAATCTGCTGATA -ATCGGTGATGGCATGTCCTTCTTCTGCCGCCCACTGTGGGATTGCTTCAGTTGCCTGGGTGCAATCAAACTCAAT -CACTAACTCATCGCCGCTGACCATTTCTGCCAGAGCTGCTTTTGCTTCTATGAGTGGAAACGGACAGACCTGCGT -CACCACATCCAGCTTTTTAATCACCATCTTTACACCTTACTTAATTTGCCGCAGCAGTTGCCAGTCGCGCCTTAC -GCTGCGGTCGAACATACACAAGCCAGGACGCAGTCCAGACTCCGAGAATCATAAATACAAGGCCAATCCAGCCCT -GCCAGGTCATCATTGCAGTCATAACCAGTCCATTACCGATAGAGCAACCACCTGCAATACTGGCACCGAAGCCCA -TCAGTACACCACCTAACCCGCTACGTAATGTTGTTTGTGCATCAGCTGCGCGAACGCGGAACTCACGGCTCGCTT -TGGCTGCAATAAATGACCCCACGAAGATCCCTAACACCAGGAAAACGCCCCAGTTAATGTATTTCATGTCACCCG -CGACCAGAAATTGCAGAATATTGGCCGTTGGGGAAGTGATTCCTAACCCAAACATGCGTCCGGTTGCTTCACTCA -GGGGCCAGGCTAAAAGCGCAATCAAACCGATGAGTACAGCTGTGACAAAGGGATGCCAGCGTTTTTCAAACAGAA -TATGAGCGATCCCGGTTCGGCGCGGCGGTAAGGTCGCGACTTTGAGTTTTGGCTTCTTCAACTCTTTCATCACCA -CCCAGAGCGTTATCACCAGCAAAACGGCAACCAACGGCCACACAGACAAATTAAAAGTCTCAGCAATAGAGTTAT -GTTCAGTACTGTAGTGCTGCAAGGTTTGATTTAAACCACTGGCATGTGGAGAACGCATCACCGCACTCATCACCA -TATAAGTGAAAAGCGCGATCCAACTGCCGATCAATCCCTCACCCGCGCGATACCAGGTCCCGGTGGCACATCCAC -CCGCCAGAACAATTCCCAGCCCGAAGATATACCCACCTATAACAGTACCAAGCCACGGGAACGCCCCGGCTTCGT -AAGTCAGTAGGCCCGCCTGAATTAACGCAAAAACCCCCACGCTTTGTACCGAAATTGCAATCAGCAAGGCGTAAA -ACATGCGATTATTTTTCACGATATACATATCGCGAAAACCACCTGTCAGGCAAAAACGCCCACGCTGCATGACAA -ATCCCAGCAGAGCACCACAAATTAGCCCGCTTAATATCATTGAAAACATAAATTAATTAACCAGATGAATGTTAA -TGAGGAAATTATTCATGACTGGTGGAATGCAGACCAATAACCAAATTCTCTAAATTAGAACAAATGGTTATTAAT -GAGGAGTTCGATACAAAAGAATAAAAAAACCGGAGCCAAATGTTCATTCGACTCCGGTTTATTATTAGAAAAGAT -GATTATGCTACGTCTTCGTACTGCGGAACCGGATTACGGAAGCTCTTGGTGACGCAAGCCAGGTAAATCAGACCG -ATAGCAGCCCAGATCAGACCCAGAACCATTGAGCTTTCTTCCAGGTTAACCCACAGCGCACCAACGGTCAGCGCA -CCACACATCGGCAGGAACAGATACTGGAAGTGATCTTTCAGCGTCTTGTTACGCTTCTCACGGATCCAGAACTGC -GAGATGACCGACAGGTTAACGAAAGTGAACGCCACCAGCGCACCAAAGTTAATCAGCGCCGTTGCCATTACCAGG -TCGAAGTTGATTGCCAGCAGGGCAATCGCGCCAACCAGGATGATGTTCATCGCCGGAGTACGCCATTTCGGGTGT -ACATAACCGAAGAAGCTTTTCGGGAATACGCCGTCACGACCCATTACGTACATCAGACGCGCTACGCCTGCATGC -GCCGCCATACCGGACGCCAGTACGGTAATGGTGGAGAAGATCAGCGCGCCAACCTGGAACGCTTTACCCGCAACG -TACAGCATGATTTCAGGCTGTGACGCATCCGGATCTTTAAAGCGAGAGATATCCGGGAAGTACAGCTGCAGGAAG -TAAGTTGCAAAGATGAAGATCATGCCGCCGATCAGCGCGGTCAGGAAAATCGCACGCGGGATCACGCGCTCTGCA -TCTTTGGTTTCTTCCGACAGGTTGCTGATGCCGTCAAAGCCGGTAAAGGAGAAGCACAGGATTGTCGCCCCGGTA -ATCATCGGGATAACATGCGCATCGCCAGACCAGAATGGACGAGTGCTCGCCAGCGTACCAGCGCCTTCACCTTCA -AATACGCCATAAACAACCATGCCCAGAATCACCGCGATCAGCACTACCTGCAACACGACGATTACAGTGTTGAAG -TTCGCTACGGATTTCAGACTACGCAGGTTAAAGGCGGTCATAAAGGCCACCAGCGCCACCACAAACATCCACGAT -GGGATGGAAGGCACCAGAGCTTCAAAATAGATTTTCGCCAGTAGAATGTTGATCATCGGCGCGAACAGATAGTCG -AGCAGAGAAGACCAACCCACCATAAAGCCGACAGTCGGGCTAATGGATTTCTGGGCGTAAGTGTATGCAGAGCCA -GCAGAAGGATAGCGGCGAACCAGCTTCCCGTAGCTCAGAGCCGTAAACAGGATCGCAATCAATGCGAACGCATAG -GCTGTCGGCACATGACCATCCGTGAGGCCTGAAACGATACCAAAAGTATCAAACAGCGTCATCGGCTGCATATAG -GCAAGACCCATCATTACAACCGGAACTAACGTAAGCGTTTTACGCAATTCCACGCGAGAGGTGTTTGGAGTAACG -TTATGCGACATGGTCATTCTCCTTTACGGTGATAACCGTCGCGTAAGCAAAAAATTGCCCCATTTTTTTGGATTC -CTCAGCGACAACAACTGTCGATTTTTAGTAAATATCTATCCGGTACGAAGCCCGGCCTCTTGGTATGAATGATTG -GTTTGAAGCAAAAAATAACCGACGCTGATGAAACGTCGGTTTTTAGTCATTTTTTGACAGCGGCGCATTGTGCCT -AAATGGGGGGGAAATGACAAGAGAATGAGAGGCTTGTCAGAATAATTTTTCTTTAAATGGCTGATTTTCCGTCAT -CAGATTTTGCATAAACACCGGCGATCGCACTATTTGCTAAAATTTCATCCCGCCACCAGCCACTGGCAAGTCCTG -CGGTCTGTTCGTTCCAGCCAATCCAGACGGGTTCAAAGAGAGTTTGGGCGACCACTTTCTTCTCGATTAACGCGC -CACTATCGAGAAAACGTTGCGCCAGATAACGGGGTAAATAGCCGCAGCCGAGGCCGCTAATTTGCAGCTCCAGTT -TGGTTTTAAAATCGAAAACGGTAATGGCTTCTTGTTCGTCGAGAAGTTGTGATGCCGTAGAAGCGCCTGCCTGCG -CAGTATCCCCCACCACAATCGCCCGATATCGCTTAATAATACGACGATTTAACGGCTCTTCTTCCAGGGCTAACG -GATGATGAGGCGCGACCGCAAAGACTTGTTCCAGATCGCCCAACCGTGAAAAACCAAACTCACTGGAAGATGGTG -GCTCATGCATCGCGCCAACAATAATATCCGCTCGCCCCTGAGTCAGGGCATCCCATGAACCACCGAGTACGCCAT -TGATAAACTTCAGGCGCGTCACGCTATGATGTTGATAAAAAGCTTCAATGAGTGGCGCAAGCAGAGAAAAAGGAA -ACGTGTCGTCCACGCCAATCACCAGCTCGTTTTCCCAGCCTTCATGCAGTTTGATCGCCTGCTTTTCCAGTTCCC -GCACGGTATGCAGAACTTCCCGCCCTTTCTCTAATAACATTTTTCCGGTGCGGGTGAATTTAGCGCGGTGTCCGC -TACGATCAAGCAATTGAATATTAAGGTCGCTTTCCAGCTTGTGAACGGTGTAACTCAGAGCGGACGGCGTCTTGT -AGAGTTTGGCCGACGCCGCCGCAAAACTGCCTTCTTTTTCTAAGGCATCGAGGATCATCAACACATCCAGCAGTG -GTTTCATACACGCCCCCTTGCAGTGCATGCGGCGTCCTGCTGGCGTGATCGTTTACTCCAGCGGCATTACCAGCG -GATCGGGATACTGGTATTCAAATCCCAGTTCATTACAAATCCGACTGCCATCAATAATCTTACCTTTGCCGCTGT -CCAGACTATTTCTGAACTGCGGAGGTTCCAGCCCCAGTAAACGGGCCATCTGCGGATAGAAAACATTACGCGCAG -GGTGAGCTGGCGCACATATATTATAGATGTGTCCGCCTTTAGGTGCCTGTAACAACAGAGTGATAGCGCCAATAA -CATCTTCTAAATGGACTAAATTAACACCATGTTCACCATCAGGCGCGGTTTTTCCGGCAAAGAAGCGTCCGGGAT -GACGTCCCGGTCCGACCAGGCCCGCAAGACGCAGAATATCGACCGAAGTACCGGGTAAATTGTGCAGCCAGTCTT -CGAGTTCTTCTAATACTCGTCCACTGTTGGTTACTGGATTACGCGGGGTGGTTTCTTTCACCGTGCCTTGCGCGT -CGCCATAGACAGATGTTGAGCTGGTAAAAATAATGCGGGGAATACGATGGGCCAGCGCGCTATCCACTAACTCTT -GTACCGCTTGTAAATAGAACTCATCGCCGGGGCCGCTACGACGTGCCGGAAGCGTAATGACCAGCGCATCGGCAT -CCATCAGGGCATCCAGATCGTCAGAATCGCAAACTAGCTCAGGCTCCATGCGAAGCAGATAGCTATCAATGCCAC -TCATTCGGGCCGCTTCGACACCATCTTGTGTGGTTTTACTCCCGGTGACTTGCCAGCCTCGCGCTGAAAGTGACA -TCGCCAGCGGCATGCCTAACCACCCTAACCCGACAATTGCGACCTTTTTCATCCGTTATCTCCTGATACACCTTA -GATCTATAAGGCTACGCTAGCGTATCAAAACTGACAATTCATTCTATGAATGAATCTGTTCAATAATGATAACGA -CATGCTGCAATGAGCAGTGAATCGTCGGTAACCGCGTATACCAGACGGTGCTCCTCTGTAATGCGTCGGGACCAG -AAACCTGACAAATTATGTTTCAGGGGTTCTGGCTTCCCCTTACCTTCAAATGGCGTTCTGCGGGTATCTTTGATA -AGTTCATTGATCTTTTTAACAATTCGCTTATCTGTTTCCTGCCAGTACAGATAATCGTCCCATGATTCCTCAGAC -CAGATTAGTTTCACTCAATGATGTCCTTTTCCGTTCCTTTGCCTGATTTCAGGCTATCGATTGAGTCCATCAATC -TCCGGGCGTTAGCGGGGGAGCGCAGTAGATAAGCCGTCTCTTCCAGCGAGTTGTATTCTTCGAGTGACATCAGAA -CACAAGCCTCTCCATTCTGACGAGTAATAAGGATCGGGGCATGATCTTCAACGGCTTTCATCATTGTTGCCGACA -AATTCTGACGCGCTTCGCTGTAGCTAATTGTACGCATGTCAATCTCCTCTTTTGTACAGTTCATTGTACAATGAT -GAGCGTTAATTAACTATTTATTAATTAGTTTGTAGATCAAGGTATTGTCAGTGAGACGAAAATCCAGGCTTCGCT -ATTTTTGGTGCCATCAGCTAAGAGGACAGTCCTCTTAGCCCCCTCCTTTCCCCGCTCATTCATTAAACAAATCCA -TTGCCATAAAATATATAAAAAAGCCCTTGCTTTCTAACGTGAAAGTGGTTTAGGTTAAAAGACATCAGTTGAATA -AACATTCACAGAGACTTTTATGACACGCGTTCAATTTAAACACCACCATCATCACCATCATCCTGACTAGTCTTT -CAGGCGATGTGTGCTGGAAGACATTCAGATCTTCCAGTGGTGCATGAACGCATGAGAAAGCCCCCGGAAGATCAC -CTTCCGGGGGCTTTTTTATTGCGCGGTTGATAACGGTTCAGACAGGTTTAAAGAGGAATAACAAAATGACAGACA -ACACTCGTTTACGCATAGCTATGCAGAAATCCGGCCGTTTAAGTGATGACTCACGCGAATTGCTGGCGCGCTGTG -GCATTAAAATTAATCTTCACACCCAGCGCCTGATCGCGATGGCAGAAAACATGCCGATTGATATTCTGCGCGTGC -GTGACGACGACATTCCCGGTCTGGTAATGGATGGCGTGGTAGACCTTGGGATTATCGGCGAAAACGTGCTGGAAG -AAGAGCTGCTTAACCGCCGCGCCCAGGGTGAAGATCCACGCTACTTTACCCTGCGTCGTCTGGATTTCGGCGGCT -GTCGTCTTTCGCTGGCAACGCCGGTTGATGAAGCCTGGGACGGTCCGCTCTCCTTAAACGGTAAACGTATCGCCA -CCTCTTATCCTCACCTGCTCAAGCGTTATCTCGACCAGAAAGGCATCTCTTTTAAATCCTGCTTACTGAACGGTT -CTGTTGAAGTCGCCCCGCGTGCCGGACTGGCGGATGCGATTTGCGATCTGGTTTCCACCGGTGCCACGCTGGAAG -CTAACGGCCTGCGCGAAGTCGAAGTTATCTATCGCTCGAAAGCCTGCCTGATTCAACGCGATGGCGAAATGGAAG -AATCCAAACAGCAACTGATCGACAAACTGCTGACCCGTATTCAGGGTGTGATCCAGGCGCGCGAATCAAAATACA -TCATGATGCACGCACCGACCGAACGTCTGGATGAAGTCATCGCCCTGCTGCCAGGTGCCGAACGCCCAACTATTC -TGCCGCTGGCGGGTGACCAACAGCGCGTAGCGATGCACATGGTCAGCAGCGAAACCCTGTTCTGGGAAACCATGG -AAAAACTGAAAGCGCTGGGTGCCAGTTCAATTCTGGTCCTGCCGATTGAGAAGATGATGGAGTGATCGCCATGAG -CTTTAACACAATCATTGACTGGAATAGCTGTACTGCGGAGCAACAACGCCAGCTGTTAATGCGCCCGGCGATTTC -CGCCTCTGAAAGCATTACCCGCACTGTTAACGATATTCTCGATAACGTGAAAGCACGCGGCGATGAGGCCCTGCG -GGAATACAGCGCGAAGTTTGATAAAACCACGGTTACCGCGCTGAAGGTGTCTGCAGAGGAGATCGCCGCCGCCAG -CGAACGCCTGAGCGACGAGCTAAAACAGGCGATGGCGGTGGCAGTAAAGAATATTGAAACCTTCCACACTGCGCA -AAAACTGCCGCCGGTAGATGTAGAAACGCAGCCAGGCGTGCGTTGCCAGCAGGTCACGCGTCCGGTAGCTTCAGT -TGGGTTGTATATTCCTGGCGGCTCCGCCCCGCTCTTCTCAACGGTATTAATGCTGGCGACTCCGGCGAGTATTGC -GGGCTGTAAAAAAGTGGTGCTGTGCTCACCGCCGCCGATTGCCGATGAGATCCTTTATGCGGCGCAGCTGTGCGG -TGTGCAGGACGTGTTTAACGTCGGCGGCGCACAGGCCATTGCCGCACTGGCGTTTGGTACGGAATCTGTGCCAAA -AGTGGACAAAATCTTCGGGCCGGGTAACGCCTTTGTCACCGAAGCGAAACGTCAGGTGAGCCAGCGTCTGGACGG -TGCGGCGATCGATATGCCCGCAGGCCCGTCGGAAGTGCTGGTGATTGCTGACAGCGGCGCTACGCCGGATTTCGT -GGCTTCTGATTTGCTCTCTCAGGCTGAACACGGCCCGGACTCACAGGTGATTTTACTGACGCCCGCTGCTGATAT -GGCGCGTCGCGTTGCCGAGGCCGTCGAACGCCAACTGGCAGAACTGCCGCGTGCCGAAACCGCCCGCCAGGCACT -GAACGCCAGCCGCCTGATCGTGACTAAAGATTTAGCGCAGTGCGTGGAGATCTCCAACCAGTACGGCCCGGAGCA -CCTGATCATTCAGACCCGCAACGCCCGTGAACTGGTCGATAGCATCACCAGCGCCGGTTCGGTATTTCTTGGTGA -CTGGTCACCGGAATCGGCAGGTGATTACGCCTCCGGCACCAACCACGTTCTACCGACTTACGGTTACACCGCCAC -CTGTTCCAGCCTCGGGCTGGCAGATTTCCAGAAGCGCATGACCGTACAGGAACTGTCGAAAGAGGGGTTCTCCGC -GCTGGCTTCAACCATAGAAACACTGGCCGCCGCCGAGCGCCTGACCGCCCACAAAAATGCCGTTACTTTGCGTGT -TAACGCCCTTAAGGAGCAAGCATGAGCACCGTGACTATTACCGATTTAGCGCGTGAAAACGTCCGCAACCTGACG -CCGTATCAGTCGGCGCGTCGTCTGGGCGGTAACGGCGATGTCTGGCTGAACGCCAACGAATACCCCACTGCCGTG -GAGTTTCAGCTTACTCAGCAAACGCTCAACCGCTACCCGGAATGCCAGCCGAAAGCGGTGATTGAAAATTACGCG -CAATATGCAGGCGTAAAACCGGAGCAGGTGCTGGTCAGCCGTGGCGCGGACGAAGGTATTGAACTGCTGATTCGC -GCTTTTTGCGAACCGGGTAAAGACGCCATCCTCTACTGCCCGCCAACGTACGGCATGTACAGCGTCAGCGCCGAA -ACGATTGGCGTCGAGTGCCGCACAGTGCCGACGCTGGACAACTGGCAACTGGACTTACAGGGCATTTCCGACAAG -CTGGACGGCGTAAAAGTGGTTTATGTTTGCAGCCCCAATAACCCGACCGGGCAACTGATCAATCCGCAGGATTTT -CGCACCCTGCTGGAGTTAACCCGCGGTAAGGCGATTGTGGTTGCCGATGAAGCCTATATCGAGTTTTGCCCGCAG -GCATCGCTGGCTGGCTGGCTGGCGGAATATCCGCACCTGGCTATTTTACGCACACTGTCGAAAGCTTTTGCTCTG -GCGGGGCTTCGTTGCGGATTTACGCTGGCAAACGAAGAAGTCATCAACCTGCTGATGAAAGTGATCGCCCCCTAC -CCGCTCTCGACGCCGGTTGCCGACATTGCGGCCCAGGCGTTAAGCCCACAGGGAATCGTCGCCATGCGCGAACGG -GTAGCGCAAATTATTGCAGAACGCGAATACCTGATTGCCGCACTGAAAGAGATCCCCTGCGTAGAGCAGGTTTTC -GACTCTGAAACCAACTACATTCTGGCGCGCTTTAAAGCCTCCAGTGCGGTGTTTAAATCTTTGTGGGATCAGGGC -ATTATCTTACGTGATCAGAATAAACAACCCTCTTTAAGCGGCTGCCTGCGAATTACCGTCGGAACCCGTGAAGAA -AGCCAGCGCGTCATTGACGCCTTACGTGCGGAGCAAGTTTGATGAGTCAGAAGTATCTTTTTATCGATCGCGATG -GAACCCTGATTAGCGAACCGCCGAGTGATTTTCAGGTGGACCGTTTTGATAAACTCGCCTTTGAACCGGGCGTGA -TCCCGGAACTGCTGAAGCTGCAAAAAGCGGGCTACAAGCTGGTGATGATCACTAATCAGGATGGTCTTGGAACAC -AAAGTTTCCCACAGGCGGATTTCGATGGCCCGCACAACCTGATGATGCAGATCTTCACCTCGCAAGGCGTACAGT -TTGATGAAGTGCTGATTTGTCCGCACCTGCCCGCCGATGAGTGCGACTGCCGTAAGCCGAAAGTAAAACTGGTGG -AACGTTATCTGGCTGAGCAAGCGATGGATCGCGCTAACAGTTATGTGATTGGCGATCGCGCGACCGACATTCAAC -TGGCGGAAAACATGGGCATTACTGGTTTACGCTACGACCGCGAAACCCTGAACTGGCCAATGATTGGCGAGCAAC -TCACCAGACGTGACCGTTACGCTCACGTAGTGCGTAATACCAAAGAGACGCAGATTGACGTTCAGGTGTGGCTGG -ATCGTGAAGGTGGCAGCAAGATTAACACCGGCGTTGGCTTCTTTGATCATATGCTGGATCAGATCGCTACCCACG -GCGGTTTCCGCATGGAAATCAACGTCAAAGGCGACCTCTATATCGACGATCACCACACCGTCGAAGATACCGGCC -TGGCGCTGGGCGAAGCGCTAAAAATCGCCCTCGGAGACAAACGCGGTATTTGCCGCTTTGGTTTTGTGCTACCGA -TGGACGAATGCCTTGCCCGCTGCGCGCTGGATATCTCTGGTCGCCCGCACCTGGAATATAAAGCCGAGTTTACCT -ACCAGCGCGTGGGCGATCTCAGCACCGAAATGATCGAGCACTTCTTCCGTTCGCTCTCATACACCATGGGCGTGA -CGCTACACCTGAAAACCAAAGGTAAAAACGATCATCACCGTGTAGAGAGTCTGTTCAAAGCCTTTGGTCGCACCC -TGCGCCAGGCCATCCGCGTGGAAGGCGATACCCTGCCCTCGTCGAAAGGAGTGCTGTAATGAACGTGGTGATCCT -TGATACCGGCTGCGCCAACCTGAACTCGGTGAAGTCTGCCATTGCGCGTCACGGTTATGAACCCAAAGTCAGCCG -TGACCCGGACGTCGTGTTGCTGGCCGATAAACTGTTTTTACCCGGCGTTGGCACTGCGCAAGCGGCGATGGATCA -GGTACGTGAGCGCGAGCTGTTTGATCTCATCAAAGCCTGTACCCAACCGGTGCTGGGCATCTGCTTAGGGATGCA -ACTGCTGGGGCGGCGCAGCGAAGAGAGCAACGGCGTCGACTTGCTGGGCATCATCGACGAAGACGTGCCGAAAAT -GACCGACTTTGGTCTGCCACTGCCACATATGGGCTGGAACCGCGTTTACCCGCAGGCAGGCAACCGCCTGTTTCA -GGGGATTGAAGACGGCGCGTACTTTTACTTTGTTCACAGCTACGCAATGCCGGTCAATCCGTGGACCATCGCCCA -GTGTAATTACGGCGAACCGTTCACCGCGGCGGTACAAAAAGATAACTTCTACGGCGTGCAGTTCCACCCGGAGCG -TTCTGGTGCCGCTGGTGCTAAGTTGCTGAAAAACTTCCTGGAGATGTGATGATTATTCCGGCATTAGATTTAATC -GACGGCACTGTGGTGCGTCTCCATCAGGGCGATTACGGCAAACAGCGCGATTACGGTAACGACCCGCTGCCGCGA -TTGCAGGATTACGCCGCGCAGGGTGCCGAAGTGCTGCACCTGGTGGATCTGACCGGGGCAAAAGATCCGGCTAAA -CGTCAAATCCCGCTGATTAAAACCCTGGTCGCGGGCGTTAACGTTCCGGTGCAGGTTGGCGGCGGCGTGCGTAGC -GAAGAAGATGTGGCGGCGTTACTGGAAGCGGGCGTTGCGCGCGTAGTGGTCGGCTCCACCGCGGTGAAATCACAA -GATATGGTGAAAGGCTGGTTTGAACGCTTCGGTGCCGATGCCTTAGTGCTGGCGCTGGATGTCCGTATTGACGAG -CAAGGCAACAAGCAGGTGGCAGTCAGCGGCTGGCAAGAGAACTCGGGCGTTTCACTGGAACAACTGGTGGAAACC -TATCTGCCCGTCGGCCTGAAACATGTGCTGTGTACCGATATCTCGCGCGACGGCACGCTGGCAGGCTCTAACGTC -TCTTTATATGAAGAAGTGTGCGCCAGATATCCGCAGGTGGCATTTCAGTCCTCCGGCGGTATTGGCGACATTGAT -GATGTGGCGGCCCTGCGTGGCACTGGTGTGCGCGGCGTAATAGTTGGTCGGGCATTACTGGAAGGTAAATTCACC -GTGAAGGAGGCCATCGCATGCTGGCAAAACGCATAATCCCATGTCTCGACGTTCGTGATGGTCAGGTGGTGAAAG -GCGTACAGTTTCGCAACCATGAAATCATTGGCGATATCGTGCCGCTGGCAAAACGCTACGCTGAAGAAGGCGCTG -ACGAACTGGTGTTCTACGATATCACCGCTTCCAGCGATGGCCGTGTGGTAGATAAAAGCTGGGTATCTCGCGTGG -CGGAAGTGATCGACATTCCGTTTTGTGTGGCGGGTGGGATTAAGTCTCTGGAAGATGCCGCGAAAATTCTTTCCT -TTGGCGCGGATAAAATTTCCATCAACTCTCCTGCGCTGGCAGACCCAACATTAATTACTCGCCTGGCCGATCGCT -TTGGCGTGCAGTGTATTGTGGTCGGTATTGATACCTGGTACGACGCCGAAACCGGTAAATATCATGTGAATCAAT -ATACCGGCGATGAAAGCCGCACCCGCGTCACTCAATGGGAAACGCTCGACTGGGTACAGGAAGTGCAAAAACGCG -GTGCCGGAGAAATCGTCCTCAATATGATGAATCAGGACGGCGTGCGTAACGGTTACGACCTCGAACAACTGAAAA -AAGTGCGTGAAGTTTGCCACGTCCCGCTGATTGCCTCCGGTGGCGCGGGCACCATGGAACACTTCCTCGAAGCCT -TCCGCGATGCCGACGTTGACGGCGCGCTGGCAGCTTCCGTATTCCACAAACAAATAATCAATATTGGTGAATTAA -AAGCGTACCTGGCAACACAGGGCGTGGAGATCAGGATATGTTAACAGAACAACAACGTCGCGAACTGGACTGGGA -AAAAACCGACGGACTTATGCCGGTGATTGTGCAACACGCGGTATCCGGCGAAGTGCTAATGCTGGGCTATATGAA -CCCGGAAGCCTTAGACAAAACCCTCGAAAGCGGCAAAGTCACCTTCTTCTCGCGCACTAAACAGCGACTGTGGAC -CAAAGGCGAAACGTCGGGCAATTTCCTCAACGTAGTGAGTATTGCCCCGGACTGCGACAACGACACGTTACTGGT -GCTGGCGAATCCCATCGGCCCGACCTGCCACAAAGGCACCAGCAGTTGCTTCGGCGACACCGCTCACCAGTGGCT -GTTCCTGTATCAACTGGAACAACTGCTCGCCGAGCGCAAATCTGCCGATCCGGAAACCTCCTACACCGCCAAACT -GTATGCCAGCGGCACCAAACGCATTGCGCAGAAAGTGGGTGAAGAAGGCGTGGAAACCGCGCTGGCAGCAACGGT -ACATGACCGCTTTGAGCTGACCAACGAGGCGTCTGATTTGATGTATCACCTGCTGGTGTTGTTGCAGGATCAGGG -GCTGGATTTAACGACGGTAATTGAGAACCTGCGTAAACGGCATCAGTGAGTTGCGGGGTAAGCGGATGCGATATT -GTTGCCGCATCCGGCAAAAAAACGGGCAAGGTGTCACCACCCTGCCCTTTTTCTTTAAAACCGAAAAGATTACTT -CGCGTTGTAATTGCGTAGAGCATTACGCCCCAGCACAATCCCCGCGCCAACCATGCCACCCAGCAGCACCGCCAG -AATCAAGGTAATTGCCTTTTTCGGGCTATCACGACGAATAGGTAACATCGGTTTCATCACATAACGGTAAGCATG -AATATCAAGATCATCAACTTTTAAGCTTTCGATATCCAGCAGGTTTTGACGAGTCTGATAGTAGTTTGGCGAGAA -CACCAACGGACGGGTCGCCTCATGCTTAATCATCGACTCCAGCGCTTCGCTCCCCAAAAGGAACAACGTATCTTG -TGTGATATCTTCGCCAGTCTGTTGAATCTGCGGTTTTGTCACCTGCGCCTGATTCGCATACTGCAACGCTTCCTG -AATCTGACGGATACGCAGATCTTTCTGCTCCTGCGCGACTACTTCCTGCGTTCTTAAAGAGTCCTGCAAGTTTTT -CCGTCCCAGAGCAATGTTGTCTTTGAGATCCTTTTCTAGCTCTTGATTCACTTTATCGTCAACTTGCTGAATGTA -TTGGGCCAACTTCATTTGTGCGCCCTCTGCAGTTTGCCCAACATAAGAAACAGTCAATGGTAATTGCTGGTTCTT -AACAGAAGGTTCGATGGTAAGTTTTTCTCGTTCTTCCTGATTATCCAGCGTTTCTGCTAATGCAGAGAAGGCAGA -ACTGAAGCGACCAATTAACGTCTCCTGCAAATCCGATACTTTCGGTGCAGCCTGACCATAGATAACATTCATGGC -ATTGTTATAGCCAGCAATTTGCCCCACGTCGGGCTGAGTGATAATTGCTGTTGACGTCCATTTCTCCTTCGCTAC -TGCCAAATATCCAATAGCCAGGGCAATAGCCACAATGACGGAAATGATGATTGTCATCTTGCCACGCCACAACTG -CACTAGTAAATCAATCAAATCAATCTGTTCCGGGTCATGGTTTTGCCCAGAAACATTATTATTTTCTACTCTCAT -CATTACCCTAACTGACGGAAATTTCCAAGTCCGCATAGTTTAGCGATAATCCTCGTGAATGCTATAGGATAAGTG -ATAAAAATAATGAATTGTTGTGTAAGTAACAAAAGACAATCAGGGCGTAAATAGCCCTGATAACAAGATGTTAGT -CGCTGCCAAAGAGATCGCGGGTGTATACCTTATCTGCCACATCCTTAAGCTCTTCTGCCATTCGGTTAGAGATAA -TGACGTCGGCTTGTTGTTTGAAGGTGGCGAGATCACGTTCCAGGCGAGAGTTGAAGAATGAGTCTTCTTTCATCA -CTGGCTCGTAGATGATCACTTCAACACCTTTCGCCTTGATACGTTTCATAATCCCCTGAATAGAAGACGCACGGA -AGTTATCTGAACCGCTCTTCATAATCAGACGATAAATACCCACCACTTGCGGCTTGCGTGACAAAATGGCATCGG -CAATAAAATCTTTACGCGTGCGGTTAGCATCGACAATTGCCGAGATCAGGTTATTCGGCACAGACTGGTAGTTCG -CCAGTAACTGCTTGGTATCTTTCGGCAGACAATAACCACCATAACCAAACGACGGATTGTTGTAATGGTTGCCAA -TACGTGGGTCGAGACAAACGCCTTCGATTATTTGACGGGAATTCAGACCTAAACTTTCTGCATAGCTATCCAGTT -CGTTAAAGTACGCCACGCGCATCGCCAGGTAGGTGTTTGCAAAAAGTTTAATCGCTTCTGCTTCAGTGGAGTCGG -TAAACAGCATCGGGATATTTTGCTTAATCGCGCCTTCCTGTAACAGAGCAGCGAAACGTTCTGCGCGTTCTGAAC -GCTCACCGATGACAATACGTGAAGGATGGAGATTATCGTAAAGGGCTTTACCCTCACGGAGAAATTCCGGGGAGA -ATATAATATTTTCAGTGCGATATTTCTTATGCATCGCTGCGGTAAAACCAACGGGAACCGTTGATTTGATGACCA -TAACCGCATAAGGATTTATCTCAACTACGTCTTTAATTACTGATTCTACACTGGATGTATTGAAATAATTAGTTT -TAGGATCATAGTCGGTTGGAGTGGCGATGATGACATAATCAGCATCCCGGTAGGCTTCATTTTTATCTAATGTGG -CATTAAAGTGTATTTTATCTGATTGCAAAAACTGCTGAATTTCCTTATCAACAATAGGAGATATCCGATCATTCA -GCATAGCAACGCGTGACGGTAAAATATCTAATGCCACAACCTCATGATTTTGTGCGATTAGAAGCCCGTTTGACA -AGCCTACATAGCCAGTACCGGAAATGGTGATTTTCATTTCATGCTCTCAGAATTAACTTAACTGTGAATCATGAT -GTTTTTAGCATCCTGATAAGAGCTAAAAGTTTTAACGCTACGTTGTTCGATGGTCAACGCAACGAAAAACAATTC -AGATTTTCTTTATAAGAATAGCTGATATTTATTAAGTTAATATTAAGCAGTGAAATTTAGTCTATAAGATATTTG -GCAAAAAAAAGCCCGGTGCAATATACGCCGGGCCTCAATTTTATTGTTGGTTAAATCAGATTAATCCAGCCATTC -GGTATGGAACACACCTTCTTTATCAATACGCTTATAAGTATGCGCACCAAAATAGTCACGCTGTGCCTGGATCAG -GTTCGCAGGCAGAACAGCAGCACGGTAGCTGTCGTAATAGGCAACCGCTGCGGAGAAGGTCGGAACCGGAATACC -GTTCTGTACTGCATAAGCAACGACATCACGCAGCGCCTGCTGGTAGTCATCGGCAATTTGCTTGAAGTACGGAGC -CAGCAACAGGTTAGCGATCTGTGGATTTTCGGCATAAGCATCGGTGATTTTCTGCAGGAACTGCGCACGGATGAT -GCAGCCAGCACGGAAAATCTTCGCGATTTCGCCGTAGTTCAGATCCCAGTTGTACTCTTCAGACGCAGCACGCAG -CTGAGAGAAGCCCTGGGCGTAAGAAACGATTTTGCCCAGATACAGCGCACGACGAACTTTTTCGATGAACTCAGC -CTTGTCGCCTGCTGGCTGTGCTTGCGGACCAGAGAGAACTTTAGATGCGGCAACACGCTGATCTTTCAGAGAAGA -GATATAACGTGCAAACACAGACTCGGTAATCAGCGACAGCGGTTCGCCGAGATCCAGCGCGCTCTGGCTGGTCCA -TTTACCGGTACCTTTGTTAGCCGCTTCATCCAGGATCACATCAACCAGGTAGTTACCGTCTTCATCTTTTTTGGT -GAAGATATCTTTGGTGATGTCGATCAGGTAACTGCTCAGTTCACCGTTATTCCACTCGGTAAAGGTCTGCGCCAG -TTCTTCGTTGGTGAGGTTCAGGCCACCTTTAAGCAGAGAATAGGCTTCAGCAATCAGCTGCATATCGCCGTATTC -AATACCGTTGTGAACCATCTTCACATAGTGACCTGCGCCATCGGCACCAATATAGGTAACGCATGGTTCACCGTC -TTCAGCTACGGCGGCGATTTTGGTCAGGATCGGTGCTACCAATTCATAGGCTTCTTTCTGGCCACCAGGCATAAT -AGAAGGACCTTTCAGCGCCCCCTCTTCACCGCCAGAAACACCGGTACCGATGAAGTTAAAGCCCTCTGCTGAAAG -CTCACGATTACGACGAATAGTGTCCTGGAAGAAGGTGTTACCACCATCAATGATGATGTCTCCTTTATCGAGATA -TGGTTTGAGGGAATCAATAGCAGCATCCGTGCCTGCACCTGCTTTCACCATTAACAGGATGCGACGAGGCGTTTC -CAGAGATTCGACAAACTCTTTCACCGTATAGTAAGGAACCAGTTTCTTGCCTGGATTTTCGGCAATCACTTCTTC -CGTCTTCTCACGGGAACGGTTGAAAATAGAGACGGTATAACCACGGCTTTCGATGTTGAGCGCAAGGTTGCGTCC -CATCACTGCCATACCGACTACGCCGATCTGTTGCTTGGACATTACATACTCCTGTCAGGTGTGATCACCGCGCTG -AATGCTCGCGGCCTGGAATGTTCGCAAATAAGTATACAAAGTACTTATTAAAGTATAAATAGCTTATCCATGCTT -ATATGCTTACGGCTTTATATTACGGGTGAAAAACTGATGAAATTCGATCAAAGTTGCGATTTGATAAAATACGTT -TTCTGGCTAAATATCTAAAAGTACTTTTTAAGTGCCATCTGAAGGCTTTTGAAAAAAAACTTCGATTGTCATGAT -GAGCATAATGTATCGCATGAAAAGCGGGAACATAATGAAGTCTGACACCAGCCAGGCTAAGCCTCAAGCACAGGT -CAATATCTTCACAGTACATAAAGTAACCTTGATCGAAGCCATTTACACGCACAAAATCTGAAAAACGTACCAGCA -TAAATGATCCTGCGCACCAATCAACAACCGTATCAGAATAGATACTTTCTTTAGGAATTTTTGTTTTATTAAGGA -AGGTGCGAATAAGCGGGGAAATTCTTCTCGGCTGACTCAGTCATTTCATTTCTTCATGTTTGAGCCGATTTTTTC -TCCCGTAAATGCCTTGAATCAGCCTATTTAGACCGTTTCTTCGCCATTTAAGGCGTTATCCCCAGTTTTTAGTGA -GATCTCTCCCACTGACGTATCATTTGGTCCGCCCGAAACAGGTTGGCCAGCGTGAATAACATCGCCAGTTGGTTA -TCGTTTTTCAGCAACCCCTTGTATCTGGCTTTCACGAAGCCGAACTGTCGCTTGATGATGCGAAATGGGTGCTCC -ACCCTGGCCCGGATGCTGGCTTTCATGTATTCGATGTTGATGGCCGTTTTGTTCTTGCGTGGATGCTGTTTCAAG -GTTCTTACCTTGCCGGGGCGCTCGGCGATCAGCCAGTCCACATCCACCTCGGCCAGCTCCTCGCGCTGTGGCGCC -CCTTGGTAGCCGGCATCGGCTGAGACAAATTGCTCCTCTCCATGCAGCAGATTACCCAGCTGATTGAGGTCATGC -TCGTTGGCCGCGGTGGTGACCAGGCTGTGGGTCAGGCCACTCTTGGCATCGACACCAATGTGGGCCTTCATGCCA -AAGTGCCACTGATTGCCTTTCTTGGTCTGATGCATCTCCGGATCGCGTTGCTGCTCTTTGTTCTTGGTCGAGCTG -GGTGCCTCAATGATGGTGGCATCGACCAAGGTGCCTTGAGTCATCATGACGCCTGCTTCGGCCAGCCAGCGATTG -ATGGTCTTGAACAATTGGCGGGCCAGTTGATGCTGCTCCAGCAGGTGGCGGAAATTCATGATGGTGGTGCGGTCC -GGCAAGGCGCTATCCAGGGATAACCGGGCAAACAGACGCATGGAGGCGATTTCGTACAGAGCATCTTCCATCGCG -CCATCGCTCAGGTTGTACCAATGCTGCATGCAGTGAATGCGTAGCATGGTTTCCAGCGGATAAGGTCGCCGGCCA -TTACCAGCCTTGGGGTAAAACGGCTCGATGACTTCCACCATGTTTTGCCATGGCAGAATCTGCTCCATGCGGGAC -AAGAAAATCTCTTTTCTGGTCTGACGGCGCTTACTGCTGAATTCACTGTCGGCGAAGGTAAGTTGATGACTCATG -ATGAACCCTGTTCTATGGCTCCAGATGACAAACATGATCTCATATCAGGGACTTGTTCGCACCTTCCTTAATCCC -TAACATAAATGACACAATAAAATCAGAAAGCACAGGAAATTTTCTTACGGAATAATCATGTAAAGATTTCGCTTC -ATCTCGGAACAGGCATAATGTACTAAAAGCATAACGCTTACTTTCGACATATTTAATATATGTCAGCAAATCATC -ATGCTTCATGATGATATCGGGATTCAAAAACAAAATGTAATCATCATCTGCGGGTCTATATTTTTCCTTTACATA -CGCCACCGCAATATTATTATTATGACCAAAGCCGTATACACCTCCACTAATATAGTCCAGGCCTGCATAATGCTG -GCATATTTGTTTCAATAATAGAGAGTCTTTGTTGTCGCGTACGATAATCTTGTAGTGCTCATCGTCAGCATTAAG -ATTTTCGAGTAATTTTTTGATGTAGTCTTCATGTCCGTGGGAAACGATTATTATATATACCATTTCAATGTTCTT -CAGTAATAAAATTAACTAGTTCATCAAACCCAACTAATACATTTTCATTACGATAAATGAAATTTGCATCAGAGA -TATCTTTTTTGAGGTTACCTTTTTTGAAGTCAATAATAAGTTTAACTAACATGTCATCGTTATTAGAATCAAAAA -AAGCTTTCTTTTCATAACTACCAAGAGTTTCTCTAGTAAATGGGAAATCTGATGCTAATACCCACTTACCTCGCT -CTTTAGCTTCAGACAACGGCAATCCCCATGTTTCTAACCTAGAGGGAAAACAAACTATATCTGAAATATTATAAC -AATGATCGATTTTTTCTTTATCCAAGTACCCGAGGAAATGAACATTATCCAGTCCTTCTGCAAGACTGATAATAT -ATTTTGCATACGCATTTTCTGTACCACTGATAGTAAGCAGAAATTTAATATTGGATTGTTCTTTCAATTTCCTTG -CTGCACTAATAATAAGCTCGTAATTTTTAAATACTCGTGGAACAGCAGGGTAAAATATTGTCAACTCAGAAGGGT -TATTCTTAAATTGAGAATCATCATCAGTAAGTTGGCTTTTATCAGATAATTTAATTTCTGGCCGACTGACAATGA -TGTTATTTATAGAATATTTCTTGATAAATTTTTCTTTCATCCAGAATTGTTGAACAAACACTGCAGTATTTTTTT -TAATGTTTATTTTATATATCAGCCCGTATAGCATTTTAAATAAGAAAAAGCTAGGCTCCATAAGAATTTCACGGA -ATAAAATTCCTTTATAAAAAGGTGCAGGGTTATGACAATACACATATCTTTTTTTAGTGACGACATTGGCCGTAA -TATCATGCAGACAAATCCAATGCGTAGCATTCAGCTCTTTTGAAAGTTTTTTACAAACTACATATTCAAAGTGCA -AACGTTTTAGCCACGACCCTTTAACCTCAGGAAACTCAATGAATTTAACCCATGGATAACTTTCTTTTAACTCTT -TAGCAGAATGGACTAATGCGATAAAACTGACATTTTCTTTATTATTAGTTGCTGCCAAAAATTTTTTCAAAATGG -TAAATGGACCGCCAGTGGTAAAATTGACCGCAGAAACAACGACTATGCTTTTTCCCATAATTTGGTCTCATGATT -GTATTTCTTTATGATTTTTGCTGGTACTCCCGCAATGACAGTATTTTCGGGAATAGAACCTCTAACAACAGAATT -GGCGCCGACTACGACTCCATTACCAATAATTGTTCCAGGCAAAACCGTCACATTCTCACCCAACCAAACCCTCTG -GCCAATTACAACAGCTGAAGATTCCAACGTGCGCATGTCTGGAGGTATATTTGGCGAACTCATTGGATCAGAGTG -CTTAAAGGAACCGTGATTATGATCGGTAATAAATACTTTACTTGCAATAAGCGTATCCCGACCTATCGTAACGCT -CTCAATTGAGGCGATATGAACATAGTCGTTAACTTGCACATTATCGGAAAAAAAAATCACGCCACGTCCAAATGC -ATCCAGCCTGAGACCGACTCCACTTGTGAAATTTTCACCAAAATTAATGCTACCATCATTGCGAATATAGCAGGG -AAATCGAATAATTCTACAGTTCCGGTAAAATACACGAGTCAATAAGACATCTCTAACAAGCCGAATAAAACCACA -GAGACCATATCGTTTAGCGAGTTTTAAGATCATCGATCACCTCTTCAAGAACATCCCTGAAGTAACTTCCTGTTC -GAATTTTCTGAGAAATAATTTTTGTATTCTCACTAATTTGCTTATAAGTTTCTATTGTCATGGAGTCAACAATCT -CTTGCATTTCTTTGATTGATCCCACTGCATATCCTATTCTATTATCTACAATGAAATCCGCAAGGGCGGCTTTAT -CCCATATAAATACTGGAAGTTCCATTGAAAGATAAAGAGATGTCTTATGAGGGTTATTAAACTTTAAATAGTCGC -CAAAGGCACCACTACAGGTTTCGACAGAATCTCCATCCCAAATGAGTCCAAATTGCATGCCTGGGAGGTTAATCT -TTTCCGGAGATTGAGCATCAAAACTTCCAAGATATTTAGGATTATCTTTATTTTCATAGTTGACACCAAAGAGAG -TAAAATCGCATCCTTCAGTATATATGAAAGAACATTTATGCCTAGAAAGGTTGCCAGCATATATGACCCCTCGTT -GCTTATCCGTAACATCTCGATGCTCCACATCAGATGAGACGAGGTAATCAAATATTTTTATGTCTTTGATTTTAT -CCTGAGACATATATTTACTAAGGTACTTTGTCATTTGTGGATTGTGACTTATGACCATATCACAGGTAGCAAGCC -GCACAGAATCACTACCCCCTCCTCCTCTTAATTCATCAATATCATGAATCAGAGGTACTATTCTAAATTTTAGAA -GGCGGTGAAAGAATGACAATATATGCCAAAATGGTTTGGCCATCGGGAAATTGAAAATTAAAACATCTTTATTTT -CAAGACCGCAGAGAAATGTACTAAGCTTAACAGAACTAATAATTCTCTGGACTACTCCACCCCATAGAGGAATGT -TAACAACAGAAATGTTTTCATAATCTGAAGCAATGTCCAGTGCATCTTTTCTTGCTTTAAATCCAGCATCGCGTC -TAGAGAAATTTAAATCATTCAAAAAATACATTTTCACTTTATTTTCTGGGCCTTAAGAAATTGAGAGAATACTAT -GATACAAAGAGTTATTTGTATCCAACTGCTAATATTAGTCATGAAGCTTTCATGATAAAAAATGAAAGAAAAGGT -ATAAATAAAATATGAATAAAATATTTTCACAGATATGTAATTTCGAGACAATCTCCATAAAACACCTGAAATACA -GCCATGAATAACCATCATCAAATAGCTTAGCTCCGCGGAAATATAAACATAATCCGAAAAAGCAGTATAAACATT -TGTTGGCAAACCCACCCACACAAATTCTTTATGCAACGACATAGAGACTCCACCTGTTAATAGCCCCATCAGCCT -TTCAAAAAACCAAAAGACATGAGAACTGGCAGAGTTAGATACTTGCTGAAAATAAAACTCCTGAAACGCGATTAT -AGGGCTGACCAAATACATGGATAGATAATATGCCATCCCCCCAGGCAGTCCACGTAAAAAGAGCATATACAAGGA -GAATAGAACACCTACAGCTGTAATAAGATAAACATAATGTTTTACTCTATTAACACCTACGATGAATGCATAAGA -GATGATAACCATAAAGACAATTTGCTTACCAGTATTCAGTATAATTGCAAAGATGAATACAATAAAAACAAGTAA -AGTAAATGTTTTACTTACCTTTGTATTAGTAAATTTTTTAGACCAAATAAATAAAGCAAAAGTAGTTAGAATGAT -TGGCTGCATGTATGCTGAGAAATTTCTTGATGTGTCTTCAACATCAGCATCTCTTATCAAATTCATATAGCTAAG -TAAGCTAGTCCCGAACTGGTAGTTACTTAACCTCATGCATATATATATCATCGAAAAAGAAATAACTAACAAGCC -TACATTATGCACTTTCTTCGATGGTATGCTATAAATAGCATTATTGACTTTTCTGATATTTAGATCTAATACACT -TTCCGTCAATAAACATGACAGGGTAAATGTCAAAACATTGCAAAGTAGAAAAATCAACGTAGCGTCATTTAACTG -AAAAGCATATATATCTGACGTTATTTCATATCCCAATAAGACCAGTGCGAAGATGATATTAACGCATACGGCTGG -ATAAAATATATCCTTCTTAAGATATAAACAGATAAATGCTGTAATGAGAAAGACACTAATTACAAGATAGATCAT -TAATCCGTACTCATTATATTTTTCACTTGATAAAGAGCGGCAGATATCACTTGATGCATATCATAATATTTATAC -TCGGCCAAACGCCCGCCAAATATAACCTTGTCTTCTCTGCTAGCTAACTCTCTATATTTCTTAAAAAGCTCCATG -TTTTTATTATCATTAACTGGATAGTAGGGTTCGTCGCCAACTTTCCACTCTAATGGATATTCTTTTGTAACAACC -GTATGCTTTGTCTCAACATAGTCAAAATGTTTATGCTCAATTATTCTGGTATATGGTACATTAGCATCAGTGAAA -TTTATTACTGCATTCCCTTGGAAGTTTGGAAATTCATGGCGTTCCGTCTCAAATTTTAAAGAGCGATATTCTAAC -GCTCCAAACCTATAGTCGAAGTACTGATCAATGGGTCCAGTGTAGATGATTCTATGGGCTTTACTCGCTAGAGAA -TCTTTGTCTTTCAAAAAATCAATGCCTAATTTTACGTCCACACCTTCAAGCATTTTTTCAATAAGCTTAGTGTAG -CCTCCCACCGGAATACCTTGATAGCGATCGGAAAAATAATTGTTATCAAACGTAAATCTCACTGGGATTCGCTTA -ATAATAAATGCAGGCAATTCTTTTGCACTTCTTCCCCACTGCTTCTCCGTATAACCCTTTATCAATGCTTGGTAT -AAGTCCTCCCCAACTAATGAAATCGCCTGCTCCTCCAAATTTTCAGGTACCTTGTCACCATACTTTTTTTTCTGA -GCATTAATGATATTTTGAGCTTCTTGAGGATCTTTAACTCCCCACATTTGGTGGAAAGTATTCATATTAAAAGGA -AGGTTGAATAATTTGTCTTTATAAATCGCCAGTGGAGAATTAGTAAAACGATTAAATTCTACTAAATCATTAACG -TAATCCCATATATATTTATCATTGGTATGAAAAATATGTGCACCATATTTATGAATCTGGATACCCTCACAGTCC -TCTGTGTACGCATTTCCACCGATATGATTTCTTTTCTCAATCACTAAAACTTTTTTGTTTAGCTTTTTTAACTCA -TTCGCACAAACGGCACCAAACAAACCAGAACCAACAATGATATAATCGTACATAAAATCCTCAGCAAACCAGTAA -TTTATTATTTCTTACGAACATCAGCATGAGTGACGTAACTAAGCACTCTGTTGCAAGCAATGTTATTGCTGCACC -AATCTCTTTAAAAAGAGTTGTTAGCGGAAAAATCAACAACAAACTCAACAAACCCGCAGCGATTAAAATCTTACT -GAATTCTTTCTTATAATTATGGGTCAGCATAACTTGAATGCCATAGACATTACTTAATGAAATAAGAAAAGGCAG -AGGCGATATAATCATTAGCACAATCACTGCATTATCATATCCCGGCCCTATACTTATTTTTACTAGTATAGATGC -ACCCAAGAGCAGAATTAATGAAAAAGCACCACCAATCAAACTCAAGCAGGTCAATGATTTTTTAATTAAAATCAC -ACCCTTCACACGATTAAGAACAAGCGTACTTGATATTCTTGGGTATATTGCTTGGGTGATAGGATTTAATAGCCC -TTGAAGCGCGTTTCTTATAGTATTGGCCGCATTAAAATTCCCTACGGACGTTGGTCCAGATATAAATCCCAGGAT -AATAACTATTCCCGTAGAATATAAACTAATAGCAGATGTGGAAATAAAAACATGAAAACCGTCTGCTAAAGATCG -ACGCACATTATGTAATGATAGCGTAACTTTACCAATCCAACCTTCATGAACAACGATAGCTAGTGCAATAATTCC -AGCAACCAGATTTGCACTTGACTGAATAAAACCGGCAATTGCTATATCTGACTTTGTGTTCACAAAAATAAATGT -TAGAGGGATAATAGCCAAGCGGGATAAAATACTACTTAAAGTCAGCCATTTCATTTTTTCTTTTCCCTGAAACAG -CCAGATAGGGTAGATTAAATTCCCGACTAATGCAGGAACAAACGACCATATAATTACGGCATGCTTGTTATATTC -AGGAACAAGCAAGGTCATCGACGTTAAGAAAATCAATGTAATGACGATAAGAACTATTTTTGAAAATATCACCGC -CCAAAAAATAGACGTTACTTTATCTTTACTATCTGCTGCTTTGGCAATACTCTGAGTTGCTGTGAGATTGAAACC -ATATTCAACAAACATTATCATATATAGCATAGTCGCTTGGCAAAAACCGAATATACCGAAATTTTCAGGACCAAG -TGTTCTTACAAGATATGGAAATGTAAGCAATGGTAAAAGATAATTGCTACCTTGAACGACAGCCAGATATATAAC -GTTTCTTCTTAAAGATAATTTATTCGTATTCATGCAATTAATTTTAATCTGATAAGCTCATCTAACGTAAAGAGC -CTTTCATCTTTTGGCGAAAGGATTAACCCTGATGTTTGGGGCCAATCAATTGCAATGCGTTCATCATTCCAACAT -ATTCCACAATCGCTTTCAGGATGATAATAGTTTGTAGTTTTATATTGAAATTCAGCGATATCAGACAGAACCAAA -AAGCCATGAGCAAACCCTTTTGGTATCCACAACTGCTGCTTATTATCAGCTGAAAGCAGAACACCAACCCATTTA -CCAAAGGATACCGAATTGGGTCGAATATCAACAGCAACATCAAAAACTGCTCCATGAGTGCAGCGTACAAGTTTA -TCTTGTGCGTACTCGCCGCGTTGAAAGTGAAGGCCTCTGAGTACATTTTTTGATGAACGTGAGTGATTGTCTTGA -ACAAAGCTGACCGGATAGCCTAGAATATGTTCAAATGCTGATTGATTAAAGCTCTCATAAAAGAAACCTCTATCA -TCACCAAATACTCTTGGCTCCAGAATTAGCACATCTTCAATTTCAGTTCTAATCACATTCATTAATTTGAATCCT -TCGTCATTTTATAAAGATACTGCCCATAATTATTCTTTATTAGTGGTACAGCTAATTTTCTTACTTGCTCAACAT -CAATAAAACCTTTACGAAATGCAATCTCTTCAGGACAGGAAACCTTCAATCCCTGGCGCTCTTCAATTGTCGCAA -TAAAATTACTTGCTTCTATCAGACTCTGATGAGTCCCCGTGTCCAGCCACGCGTAGCCACGCCCCATCATCGCGA -CAGACAGACGTCCCTGCTCAAGATAAATACGGTTAATATCTGTAATTTCTAACTCACCACGTGCAGACGGCTTCA -AGTTTTTCGCCATCTGAACCACGTCGTTATCATAAAAGTACAGACCTGTAACGGCGTAATTACTCTTTGGTTCTA -ACGGTTTTTCTTCCAGACTGATTGCCGTACCGTTTTTATCAAACTCAACGACACCATAGCGTTCTGGATCATTAA -CGTGATAGGCAAATACCGTTGCACCACTTTCTTTGTTAACAGCGGCCTCCATTAGCTTCGGCAGATCGTGACCGT -AAAAGATATTATCACCAAGAACCAAAGCACAATCATCACCACCAATAAACTCTTCACCGATGATAAATGCCTGCG -CGAGGCCATCTGGGCTAGGTTGCACTTTGTACTGAAGATTCAGGCCCCACTGGCTACCGTCACCCAGCAATTGTT -GAAAACGAGGAGTATCCTGAGGTGTACTGATAATCAAAATATCGCGAATACCCGCCAACATCAGTGTAGAGAGCG -GGTAATAGATCATCGGTTTATCATAAATAGGTAATAGCTGTTTACTGACAGCCATAGTCACAGGATAAAGACGTG -TACCAGAACCACCCGCTAAAATAATACCTTTACGCATTTTCATTTCATCATTCCTTTTAATTCATCTTGCTCCAC -CATCACGAACAAGATGCAAAAACTATTAAATTGCTGTAGTCGTAAATAATTCATTGAGCATTCGTTTCACGCCAA -CCTGCCAGTCAGGCAAGACAAGCGCAAAGTTCTGCTGAAATTTTTCTGTATTAAGGCGAGAGTTATGTGGACGAC -GAGCTGGTGTAGGATAGGCTGTTGTTGGTACTGCGTTGAGCTTGTTGAGTGCAAGGGGAATGCCTGCTTTGCGCG -CCTCTTCAAAAACCAGCGCAGCATAATCGTACCAGGTTGTGGTACCACTGGCTACCAAATGGTACAAGCCTGCGA -CATCCGGTTTATTCAGTGCGACACGAATGGCATGTGCTGTACAATCAGCCAGCAGTTCAGCACCTGTTGGCGCAC -CAAACTGATCGTTAATAACCGCTAATTCTTCACGCTCTTTTGCCAGACGTAACATCGTTTTGGCGAAGTTATTTC -CTTTTCCTGCATAGACCCAGCTGGTCCGGAAAATAAGATGCTTCGCGCAATATTCCTGTAACGCTTTTTCTCCGG -CTAACTTGGTTTCACCGTAAACATTTAGTGGTGCGGTTGCATCCGTCTCCAGCCATGGCATATCGCCATTTCCAG -GGAAGACGTAATCAGTCGAGTAATGGATAACCCAGGCTCCAACTTCATTTGCTGCTTTCGCAATCGCTTCGACAC -TTGTTGCGTTAATTAATTGTGCAAACTCCGGTTCTGATTCTGCTTTGTCTACTGCGGTGTGAGCGGCTGCATTGA -CAATAATATCCGGCCGAATGCTTCTTACGGTTTCAGCTACACCTTCAGGATTACTAAAATCACCGCAATAATCAG -TAGAGTGAACATCAAAAGCAATCAAATTACCCAAAGGTGCCAGAGCACGCTGTAGTTCCCAACCTACCTGCCCTG -TTTTGCCAAAAAGGAGGATATTCATTACTGGCGGCCCTCATAGTTCTGTTCAATCCACGATTGATAGGCACCACT -TTTCACATTATCAACCCATTTTGTATTGGACAGGTACCATTCCACCGTTTTACGAATCCCGCTCTCAAACGTTTC -CTGTGGTTTCCATCCCAATGCGCGACCAATCTTCTCAGCATCAATAGCATAGCGGCGATCGTGTCCCGGACGATC -AGCAACATAAGTGATTTGCTCACGATAAGATTTCTCTTTCGGTACAATCTCATCCAGCAAATCACAAATAGTGAG -CACTACATCGATGTTTTTCTTTTCGTTGTGCCCACCAATGTTATAAGTTTCACCCGCTTTACCTTCGGTTACGAC -GGTATATAACGCACGCGCATGATCTTCAACATACAACCAGTCGCGGATCTGATCTCCTTTGCCATAAATAGGTAA -TGCCTTACCTTCCAGTGCATTAAGAATAACCAGTGGAATAAGCTTTTCCGGGAAATGATAAGGACCATAGTTGTT -CGAGCAATTAGTCACAATTGTCGGTAAACCATATGTACGTTTCCACGCGCGGACTAAATGATCGCTGGATGCTTT -GGATGCGGAATAAGGGCTGCTTGGCGCGTAAGCTGTCGTCTCAGTAAATAAGGGTAATTCTTCTGTATTATTTAC -TTCATCTGGATGAGGCAAATCACCATAGACTTCGTCAGTAGAAATATGATGAAAACGGAAGCTATTTTTCTTGTC -GCTATCAAGAGCAGACCAGTAATTGCGAGCGGCTTCCAAAAGGACATAAGTACCAACAATATTGGTTTCAATAAA -TGCCGCAGGGCCTGTAATTGAACGGTCAACATGGCTTTCAGCAGCCAGGTGCATCACTGCATCCGGCTGATGCTG -AGCAAAAATCCGTGCCATTGCAGGTGCATCGCAAATATCCGCATGTTCAAAAACATAGCGTTCAGAATCAGAAAC -ATCAGCAAGTGATTCCCGGTTTCCGGCGTACGTTAATTTATCGACATTAACAACACTATCCTGCGTATTATTTAT -AATGTGACGAACTACAGCTGAACCAATAAATCCTGCGCCACCAGTAACAAGTATTTTCACTTAATTTATTCCATA -TTACTTCAGAGCATGCTGTGAAATAAGCGGCTCTCAGTTTGATTAATAGAGGTATTAATGCACGCTACCGCCCCT -GGCTTTACAGCTACCAGAGCACTGCATGCATGCCTATGATGTGACGAGCGTTACCCACTCGCGCTAAACCCGAAA -AATTCAAACGCTAATTGTCTTACCAATCCGCTCTGGAAACAAGGAAAATCCTGGAAAACTTTGAATAAAACCCTA -CTGCTAACTCGTTGTTATTCTGATGGTTTATATAAAACAACGGCAGGAAGATTCGCAACAAATTACTTTTGCTGC -GAATTTTCACTGCCGTTATAATTTTCTTATCAACCGTTACATCCGGTCAGATTTTCATTATTCGCTTAACAGCTT -CTCAATACCTTTACGGAACTTCGCCCCTTCTTTCAGGTTGCGTAGGCCATACTTCACAAACGCCTGCATATAGCC -CATTTTTTTGCCGCAGTCGTAACTGTCGCCGGTCATCAGCATTGCATCAACGGATTGTTTTTTCGCCAGCTCGGC -AATAGCATCAGTCAGCTGAATACGTCCCCATGCACCAGGCTGAGTACGTTCCAGTTCCGGCCAAATATCGGCAGA -AAGCACATAGCGACCTACGGCCATGATGTCTGAGTCCAGCGTCTGCGGCTGATCCGGTTTTTCGATAAATTCAAC -AATGCGGCTGACTTTACCCTCACGGTCCAGCGGCTCTTTAGTCTGGATGACGGAGTATTCAGAGAGGTCACCCGG -CATACGTTTTGCCAGCACCTGGCTGCGGCCCGTTTCGTTGAAACGTGCAATCATGGCAGCAAGGTTGTAACGTAG -CGGGTCGGCGCTGGCATCGTCGATCACAACGTCTGGCAGTACCACGACAAATGGGTTGTCACCAATGGCAGGTCG -CGCACACAAAATGGAGTGGCCTAAACCTAAAGGTTCGCCCTGACGCACGTTCATAATGGTCACGCCCGGCGGACA -GATGGACTGTACTTCCGCCAGCAGTTGACGCTTCACGCGCTGCTCAAGGAGTGATTCTAACTCATAAGAGGTGTC -GAAGTGGTTTTCGACCGCGTTCTTGGACGCGTGAGTTACCAGGAGGATTTCTTTGATCCCTGCAGCCACAATCTC -GTCAACAATGTACTGAATCATTGGCTTGTCGACGATTGGTAGCATCTCTTTGGGTATCGCCTTAGTGGCAGGCAA -CATATGCATCCCGAGACCCGCTACAGGAATAACTGCTTTTAAATTCGTCATTATTTCATCCACCTGTAAAATGGT -TGCTGAATTATAGCTTGTTCGATTTTTTTCGCCAGCATCAATTACCCTGAATTGATTACTGAATTACTTGTGATG -TTACGCCGCTTCGTTGTGGATTGCAGTAGCATTGTTCCTAAGTATGACTCCATTTTTCCAGGAATGGTCGCAAAT -CTACTCCCTCAGTTCCGGCAATCTAAAGTTAATCTTCTCCACATTAACAATATGGTGATTAATCCTGTCGATATC -GACGGAGCTTTGTCCTTTTTCATTCACCGCATGAACATTTGCAAGAGACAGCAGTGTTTCTTTTTTCGCCATAAA -AACACCACGAACGTCTTTGCGCATGTCAAAGTTCATGCTCAATGCGGGTCCAACTGAGGATTCCTGCATCACATT -GATATTTCGCATAAAAAAATGTTGCGGTTTGTTGTGTAACTCCAGCGACGCACGCTTCATCTCAATGTTAGTTAG -CGCCACAAAGGAAACAGCATTCCCGGCGGAGATTTGAATGCCGCGCAATTTATAAGCAAGATGAGTATTATCCAG -TTGAATATCATTCACCCGGAAATTTTGCGGTATCGAGAGATATTTGCCTTTAATTACCCCATAGCCGATTAACAT -CCCGGCGCTATTAATCATTTCAATATTATCAATCACGAAATTGTCACAACCGTAAATAGCGACTGTCGCGTTATC -AATGCCCGCTTTCTTACTGAAATCCGGCGTGATATTGCGGGCTTTGATATTACGAATAACAAAATGTTTACCATT -TTCAACATGTATCAACTGCCGACAATCCGATCCCGTGATATTCGCCACGACAAAGTTTTTCACTGCCTGGTCTTC -CGGGTAGTTGTTATCATAAGTGCTTCCCGCAAGGCCTATGCCGATGCCCCAGTTGATTTTGCCGTTGGTACAGTT -GATGCGCTCGATGACATGGTCAGATATCAAAATATCACGGTCGTTAATTGCCACGTTCCATTCAATGGCGTCGCC -TTGTAAGTCGCTGAACTTACAATTGGTGATGTTGGCACCGATAATCTGGTTATGAAATCCCTGGCGTAAGATGGC -GTAATTAGCGTGGCTAACGGTCAGGTTATCGATGATCAGGTTGCGCATGACCCGTTTGTTTTTGCCGCCGATATA -AATCTGCGTCACCGGGCCAAAGCCGCTCATAGTCAGCCCTTTGATGGTGCAGTCAGAACCACGCACATCCAGGGT -GATGTTATGCATACTGCCGCCATCCTCCCCTGTCACCTGGCTGCCGTCCTGTAAGACAAATCGCCCTCTGCCGTT -GCCGCGCAAGCTTCCAAGAATGTGTAACGTTTTACCGGGAGGGATAAAGATGCCGGTGTTGATATTGTCACAAAC -CAATCCGGCAGGCACGACGACTGTTTGCCCTTCGCTGAAGGCTTGTTTAAATGAGGCGATCCAGTCGTGTGGGTT -GTAGTCGTTAATGTTAACGCTTTGTCGGGCGGGAAGCGCGCGGGCGAAAGGGGTATGGAGGAAGGCAAGCGCCGA -GCTTGCCGTCAGGAACGTGCGTCGGGAGAGTTTTTTAAATGGCATGCGTTCTCCTCTATAAAGCCTGCAGCAAGC -TGGCGAGTTCTCGATTGATCACCTGCTGGTTAAAATCGTGTTCAACTTTTTCGCGCGCGCGTTTGACGACCGGAG -CCAATTCGTCGGTGTCCAGTTGGCTAAACGCCGCCAGTCGTTGCGCCAGTGCGCGAGCATCGTTCTCAGGCACCA -GCCAGCCGGATTTGTCAGCCTCCACCAGTTCCGGTATTCCACTATGCAGAGTAGAAACCACCGGAATACCGACCG -CCATCGCTTCCATTAGCGCCACCGGAATACCTTCCATATCACCATCCGCACCTGTAACCGATGGCAACAGGAAGA -CATCCGCGTCGTCGAGCATCGCTTTCACTTCATGGCTCGGTTTAAAGCCCGGCATCTCCACCACATCTTCCAGTT -GATATTGTTCGATGAGGGTGCGCAGGCGTCTTTCCCACGGGCCAATGCCGAGGATGCGATAGCGAAATGCCACGC -CCTGCTCTTTCAACTGACGGCAGGCTTCGATCGCCACATGCAGGCCTTTTTTCTCGGTTAAGCGTGCGACGGAAA -TAATCTCCAGCGGCGTTGCGGGCGCTTTCACGGGACGCGGGCTAAAGCGCGTCATATCTACGCCCATGCGCGATA -CGGCGATTTTTTCCCTCGGGCAGCCCATTTTTTGCAGCCTTCCGGCCCACAGATCGCTTATCGGTAACATCAGGT -CGCCACGGCGAAACAGTTGCTGATATTCGGGAGTGTAGTGGTTGAGCACTTCCCGACTGGAGATATCAATACCGT -GGAAGATAGTGGCAATTTTGCCGCGAATGACACCCAGTTCGCGGAGTTTTGCTGCGGTTACCCCCGCGGGACCAA -AATGAGCGATGAACACATCGGCGCGAAACGGTGTTGCGACCTGGCCGCAAATGGCAGACAAAATCAGGTTCCGCG -ACTCGGCACCATAGCGTTTGAGGTTGAGCGCCTGCCAGGTATTTTTACGATGAATGCCGCGCAAGGTCTGGCTGG -CTCGGTGGCGCAGTTTCGCCACTTTGCCCGTAGGTTCGTCCTGTAACCAGCGGGTTCTGGCAGCAAGGTTGTATT -TCGTCCATGCCGCGTGGGTGTTTTGTGTGTCGCCTTTTTGCAGCGCGAGAATCTCTACCTCAAATCCCATATCAA -TAAACGCGGTAATTTGGTTAAGGACGAAGGTTTCTGACGACAGCGGGAATTTCAGTAAAAAGAAGCCGACCTTCA -TTTCACCTCCCCGATGCGCTCAAGCACAGACTGCACCATCTGCATTCCTGTCTGACGCTCACGACTGACGGCTTC -ACTAAGTCGCGCATTCAGCGCCGGAAGCTGGCCTAAGGTATCCGCAACCATCGCTTGCAGGCTGCCGTCTAATAA -ATGACGGATATCAATTGCCATCTCCGGTAGTCCCAGCTGCTGCATAATCCCGGCGGATTTATGTTCGTAGTTGAT -GGCAATTGCCGGAGTGGCAAAATTCATCGAGATAATGGCAGAGTGCAGGCGCGTACCGACGGTGAGTTCACAGGC -CCCCAGAATTTTGCCCATTTCCAGATCGTTGAGTTCATCCATCACTACGTGGTAACGGGCAGGATCGCTGATGTG -CTGGCGCAGGTTGAGCGCCACCATGCGGTCGTCTTTGTTATAGCTGTCAATGCCCGTACAGGTGGAGAGCGCAAT -CACCTGATACCCTTCATCGAGAATGCGATTGACCACCCCGGCAAAGGCTTTTTCATACGCTTGTTGAGTGGTGCC -GAGACGTTTGTCAAACGGTGCCAGTTCGCGCAGGGTAATGGCCACCGTTTTCTGTTGTGCGGCAACGTCCAGCCA -GTGTTGAACGGCATAGCTGGCGGTGAAGTCTTCTGTGTGGTGATCGACCAGCCACGCGGTATCGACGCCATGTTC -CACTTTTGCGGTGGTGATATTGCTGCGTTTCATCAGATCAAAGCTGACCGATTCGCGCAGGATCAGCGCGTCGCA -GTGACCAAAAACGTAGTTCGCCAGTTGGTTAAATTGCTCATCCTGGAACGGGCCAACACTGTGACCAATCATAAA -CAGCGGCTTTTTCGCCATAAACGTGCAAAGTGCATGTTCAAACTGCGGCACGCCATAGAGATCGACAAAAAACGA -TCCGCCGACCTGGATAATGGCGTCGTAACCTGACAGCAGGCGCACGAAGTCGGTGAATCCCTGGGCGATGGCGAT -ATTGCGCAGCTTGCCAGTGTCGGTGACGCGTGAGAGCAATACCTGATGCTGGTAGCGGCGACGGAGGACTTTTTT -AACGCGCCCGACAACGCCCGCCGCGCTGTTGTGTTGTTTCATTTGCAGGAACAGCGGATCGCCCATTACCGGGCG -GTTGAGCAGCCAGGAAGAACTGACCGGATAGCGGCTCATCACATCCACTTCGGCGTGTGGATTGAGAATGTTGAT -GGCATCAAGTAAGCCGCGCAGGATGGCGCTGTCGCCACGATTGCCGCAAGTGTGGTTGCCCAGAATAAGTAATTT -CATTTTTTCCTCATAAATTTGATGCCAGGTGAGGCTGCGTTTGTTTTGTTCGTTGCCGCTTTTTGCCTGATGCGA -CGCTGACGCGTCTTATCAGGCCTACAAGACCCGAGCACAGAACCGTAGGACGGATAAGGCGTTCACGCCGCATCC -GGCATTCAGTGCCTGATGCGACGCTGACGCGTCTTATCAGGCCTACAGGTCCCGAGCACAGAACCGTAGGACGGA -TAAGGCGTTTTACGCCGCATCCGGCAACCGTTGTCGGAACCGAAAACAGCAACTCACCCCGCCCGTAAAAGCATT -TTCATTTTTTCGCTGCGACAAAACTGACGCTTCACTTCCACCACCAGCGGATGGCGCGACAGCACAATCATCACC -ACAAACGCCAGCACCCCCGTGGCTATTTGCACCGCCAGCAGCATCCCCAGCGCCAGTTGCCCTTTCAGCACAATG -CCCAGCGCATAACTGACCACCAGCGTCGGCAGCGAGAGATAAAACGGCAGCCATAAACTCAGGATGTACTGGCGA -TAACTGGAACCAAGAACCGGTTTAATCATCACGAAGTAACTCAGAATGGTGTTGATAATTTGCACCAGCAGGAAG -CCAAGCGTGACGCCGATCGCGCCCGCCATCTGCCCACCTATAACAATCGCCGGAATAAACAGAAATGTTTTGAAT -ACGTTGAATTTAAAGCTGATATCGACCCGCGCTTTCGCCATCAGCAGCGAACCAATCGGGTTACCTACGGAGCGC -AGCAGACCCACCACACACAGCAATTGCAGCACCGGAATAATGCTGTTCCACTTCTCACCAAAGACCAGCGGTACA -AAGTTATTCGACACCACCATTAGCCCGAGCAGCGCCGGAAAGTTGATAATCCCCACTACCGACAGCAGCTTGTAG -AAGTTAACACGCAGCTTTTCGGTATCGTCCTGAATTTTGGCGAATGCCGGAAACAACACGCGGGTGATGATTGGG -TTCAGCTTCATCGGTGGCACAACGGCCACGTTGTACGCCAGGTTGTATCCCCCTGCCACGCCCGCGCCGAGAATA -CGCGCCAGCACGAGCGTTGAAAGGTTGGTATTGAGATAGTTGATGATGCTGTCCGCCGTCAGCCAGGCACCAAAG -CGTAAGTTCGGTGCCACCGACGCCAGCGAGAAATGCAGACCGGGGCGATAAATTTTGCGGCCAAAGTAGCCAAAC -AGCAGCGTTCTCACCGCACTATTGACCAGATAACCGAGGATCGCGGTCATCGCCAGCGGCCAGAAATGGGCGCTA -ACCACCGTACAAGTGAAGCCCGCCAGCACCGCGCTGGTTTCGATCATGCCGATTTTGTTGAACTCCAGCTCTTTT -TGCATCAACGCGCGGAACTGTTGCCCGTGGGGGATTACCACAAACGCCAGCGATAATGTTTTAATCAACGGTGCC -AGGTCCGGGTTATTCAGCACGTCGCCGATGAGATCACTCAACAAAAACACCGCCACGCACACCACGATCCCCAGC -CCGACGTTCAGCCAGTACAACGTGGTGAGTTCAAGGTGACTGATTTCTTTTCGCTGAATAATCGAGTTAGCGATA -CCGAAGTCAGAAAGCGTATCTGCCAGCGCGATAATCACCAGCGACACGGTAAGCAGGCCGAACTGGTGGTTGTCG -ATAATCCGCGCCAGCACGGTCATCTGCACCAGCCCGAGGCCGATGATGATCACCGTGGCAATCGCCGACCACTTC -GCGCCGCTGATGGTTTTTTCACGTAAGCTCATATCAATATGCCGCTTTGTTAACGAAACCTTTGAACACCGTCAG -GAAAACGATTTTGATATCGAACCAGACGCTCCATTCGCGGATGTACTCAAGGTCGAACTCGACGCGTTTTTCCAT -TTTCTCCAGCGTGTCGGTTTCGCCGCGCCAGCCGTTAATCTGCGCCCAGCCGGTAATGCCCGGTTTCACCTTATG -GCGCAGCATGTAGCCTTCAATGAGCTGTCGATACTGTTCGTTATGCGCTACTGCGTGCGGACGTGGACCGACAAT -CGACATCCCCCCGGTCAGCACATTGATAAACTGCGGCAATTCATCCAGCGAGGTACGGCGCAGAAAGTTCCCCAC -TTTGGTGACGCGCGGATCGTTCTGCGTCGCCTGGGTCACCACTTTGTCGTTCTCCATCACTTTCATGGAACGGAA -CTTCCACACTTTGATCGGCTTGCCATCCATGCCGTAGCGAGTCTGGCGGAAAATAACCGGCCCTGGTGAACTGAG -TTTCACCGCCAGCGCAATACAGCACAGCACCGGGGAGATCAGCAGCAGAATAAGCGTCGCCAGCACAATGTCTTC -CGCACGTTTGAGCAGGCGGTTAACCCCGGAAAGCGGCGTGTCGTAAAGCGGCACCACCGGTACGCCGTTCATCTC -TTCGAGGCGTGAATGGAGAATGTTGAAGGTAAAGACGTCGGGGATCAGCAGCACCGAACAGGTGGTGTCCGCCAG -TTGATGGACCAGTTTTTTCACTCGCGCGCCGTCGCACATTTGCATCGCGATATAGACGTTATGAATCTTGCCCGC -TTTCGCGTCCTCGACCAGCTGTTGCAGGTTACCCGCCCAGTCGTTAGAAACGCCGCCCGGTTTCGGGTCGTGGTA -AACGCCCACCACTTCAAACCCTAACCACGGCTGGTTACGGAAGCTCTCCATCAGCATTTGCCCGGCGGCTAAATC -CCCCGCCACCGCGACCATGCGCTTGTTATAGCCATGATTACGCAGCCAGCCCGCCCCAATGCGAATACACGAACG -GCAAACCACCAGTCCGATGCTGGTCAGCGCATACCACGCCAGCCAGATTTTCAGTTGCGTGTCGAAATCATTGTT -GAACGCCACCAGTCCGGCGCTGAAAATCACGCTTAAGGTCCAGTTTTGTAGCAACAGGGCAAATTCTGTCGCTGC -CCGAACACCGCGCCATGAGCGATAAAAATCGGTGATGCCGCCCAGCATCTGGAACACCACCAGCGTAATCAGCGC -CACCAACAGGTGCATGTAGAGGAATGACAGTCCGCTGACTTCGCAAACCAGCCATAGTCCGGCAAACATGATGGT -GATATCTGAAAAGCGTTGCACCATAGAGATTAACGATGCATTGGTTTTCGCTCGCTCGCGCTTTTTTAGATTTGT -CATCGTTGTTCCTGTTATTAGCCCCTTACCCGCAGTGGGGTAAGGGAAGATCCGACATTACTCGTTCAGCAACGT -CAGCAGAGTTCGCGTTCGCGCTTCCATCAGCGGCACATCACCGCGCGATTCCACATTCAGGCGCACCACCGGTTC -GGTATTGGAGGTGCGCAGGTTAAAGCGCCAGTCGGCAAAGGTCATGCTGATGCCATCGGTGCGATCCACCGCCAG -CGCCTCACGGCTAAAATGCTGTTCCACGCGGTTAATCGCCTCAACGGGTTGCGCCAGTTTGCTGTTGATCTCACC -GCTTGCCGGAAACGCCGCCATCCGGTCGCGTACCAGTTCGCCCAGCGTTTTATCTTTCAGGCACACCAGTTCGGC -GACCAGCAGCCACGGGATCATGCCGCTGTCGCAGTAAGCGAAATCACGGAAGTAATGGTGGGCGCTCATTTCGCC -ACCATAGATGGCGTCTTCCTTGCGCATACGTTCTTTAATAAAGGCGTGTCCGGTTTTCGACATTACCGGCGTGCC -ACCTGCGGCAGTCACCACATCAACGGTGTTCCAGGAGAGACGTGGATCGTGGATGATCTTCGCGCCGGGATTTTT -TTCGAGGAATGCTTCTGCCAACAGGCCGACAATGTAGTAGCCCTCAATAAACTGCCCTTTTTCGTCAAACAGGAA -ACAGCGGTCAAAATCGCCATCAAAAGCAATGCCCATATCCGCGCCGTGTTTGATGACCGCATTGCGGGTGTCGTC -GCGGCATTCCGGCAGTAGTGGGTTAGGAATACCGTTGGGGAAATTGCCGTCCGGCGTGTTGTGCACTTTGATTAA -TTCCACGGGCGCGCCGAGGGCTTTAAAGCGGGCTTCAATGGCGTCCACCACCGGACCCGCTGCGCCGTTCCCGGA -GTTGATCACCAGCTTGAGCGGCGTGAGGTTTTTGACATTGATATAACCGAACAGGTGATCAACGTAAGCGTCACG -CAGGTTGATTTGCTGATAGCGACCGCGTTTGGTTTCATCGACGGGAGGAAAGTCGTTGGCTTCAGCCAGACGCTG -GACGTCGCGCAGTCCGGTATCTCCGCTGATCGGGCGAGCCCCCTCGCGAACCAGCTTCATGCCGTTATAATCCAT -CGGATTATGGCTGGCGGTAACTTCAATGCCGCCATCCACGCCGAGATGGAACGTGGCGAAATAGATCTCTTCGGT -GCCGGACATACCAATATCCAGCACGTCAACGCCCGCATCCTGTAAACCTTTCGCCAGCGCCAGTTTTAAGGTTTC -GCTGGTGAGGCGGACATCACCGCCTAACACAATGGTTTTCGGTTTGAGAAATTCGCCATAGGCGCGACCAATGCG -CCAGGCGATATCTTCATTCAGTTCTTCGCCTAATTTCCCGCGAATATCATAGGCTTTAAAGCAGGTTAATTTTTT -CATATCGTTACCCTTTTTCAGGCAATAGTTGGCCCTGACCGAAGCGGCCAATTTTATTTTTGTCGTTATTTACAC -CGCGGTTTCGCATTCATTGCCTGATGCGACGTTTACACCCGTCCGTAGCGATCCGCGAAACGCACCACATCATCC -TCTTCGAGATAAGAGCCGGAGCGCACTTCAATTAAATCGAGCGGAATTTTCCCCGGGTTTTCCAGGCAATGCGTC -GCCCCCAGCGGAATATAAATGGACTCGTTTTCACCAAGCAGTTTGATATCACCATCAATGGTGACTTTTGCCGTT -CCCGCGACAACCACCCAGTGTTCCGCGCGGTGATGGTGCATCTGTACCGACAAGCCCTCGCCCGGTTTCACGGTG -ATGCGTTTCACCTGGTAGCGGTCGCCCGCGTCGATAGAGTCATATTTGCCCCACGGACGATACACTTCGCGATGC -ACCCGATGCTCATGGCGACCATCGGCTTTGATCTGCTCGACCACTTTTTTCACATCCTGTACCGCGTTACGGTCG -GCAATCAGCACCGCATCTTTGGTCTGCACCACTACCAGATCTTTCACCCCGACGGTGGTGACCAGGCCAGATTCA -GCATACACATAGCTGTTTTCAGTTTTGTGATTAATCACATCGCCGTGGCAAACGTTGCCCTCGGCGGTGTGGGCG -CTGATCTCCCATAATGAAGACCAGGAGCCAACATCGCTCCAGCCCGCATCCATCGGCACCACAACAGCATCTGCC -GTACGTTCCATGACCGCGTAATCCACCGACTCTTCCGGGCAGGCGAGAAACGCTTCTTCATCCACGCGAATAAAA -TTGAGATCCGGATCGACGGCGCTCATCGCTTTTTCACAGGCATCGAGGATATCCGGGCGATATTTTTTCAGTTCT -TCGAGATAGCGTCCGGCGCGGAACAGGAACATACCGCTGTTCCAGTAATATTCGCCGCTTGCCACATAGGCCTGA -GCGGTTTCCAGATTCGGTTTTTCGACAAACTGCGCCACTTCAAAGGCCACCATATCCTGCTCACCCGCAGACACT -TCACCGCGACGAATATAGCCATAACCGGTTTCTGGTAGATCCGGCACAATGCCGAAGGTCACCAGCTTGCCCGCT -TCGGCATATGGCATGGCATTACGCACGGCGGCACGGAACGCGTCTTCATCGGCAATCACATGATCCGCCGCCAAT -ACCAGCATTAACGGGTCGCTCTCCGGGCTATGACGTTTTGCCGCCAGCGCCGCCAGCGCAATGGCAGGTGCCGTG -TTTCGCCCTGCCGGTTCGAGAATAATGTTCTCGGTAAGTTTGTTCAGTTGACGCAGCTGTTCCGCGACAATAAAG -CGGTGCTGCTCATTGCAAATCACCACCGGGCTTTCGCACTCCACGCCGTTCAGGCGGCAGATGGTGGTTTGCAGC -ATGGTGAGATCGCCTTTCAGGCATAAAAACTGCTTGGGATAAAGTACGCGGGAAAGCGGCCATAAGCGGCTACCG -GAGCCACCTGCCATCACAACTGGATAGAGTTTCGACTGCGCCATAATTATCCCCGAATATCATTTATAAATTGAC -GTAACACGTTCTCTTTATCGAGCGTGCGTTCGGCATATTCACGTGCCACCGTGTTGTGTTTGGGCAGCAGGAGCG -CCTGACGGATCCCCGCCACCAGCGCCTCGACCGATTCCGGTTCAACGCAAACCGCAATGCCCGGAAAGGTTTCGC -AAAGCTGCCCCAGTTCTGTGTAGGCTTCAGCAGTAATCACCGCGTTACCGCCTACTGCCAGAATATTGGTCAGTT -TCGACGGCAATACGGCATCTGCCGCGCCGCGTTTTTGCACCACCAGATGGCAATCGCCCATCTTCAGCAGTGCGG -GTAAAGCGTCATACGATTGCAGCGGGAAAAATTGCATGTTGCGCAGTCCACGCTGCTGCGCCATTTTTTCCAGCC -GCGCTTTGCCGCCGCCCTGCCCGACAATGGCAAAAATCAGCGGTTCATCGCGCAGACGATCGGCAGCTTCAATAA -CGTTTTCCAGCCCCTGCTTTTCACCAATATTGCCGGAGTAAAGAATGATTTTTTTGTTATCCGGCAGGTCAAGCT -GGTTACGAAGGGCATCAACATCGGCATCTGCAACATGCTGAAAACGGGCAATTTCCGACCAGTTGGGGAAGAAGA -TGACGTTTTCCGCCGCCACGCCTTTTTCGATGGCTTTATTCATCATCGAACGCGAAATCGTGGAGACGTTATCGA -CGTTATGCAGTCCGCTACGTTCGAACGCCGTTGCCAGCTGTGCCACTTTGCCGCCTTTGCCTTTTCCGGCAAGGC -CCAGCCCCAGCATGGCGTCCACTTCGTAATCCTGAATATGCAGCACGGTACGCGCACCAGAGAGTTTCGCCAGCA -GGCGCATTCCCGGCGCGCAAAACAGCGTTGGCACCACGCCAATAATGCGATCCGGCTTCCAGCGACGTTGCGCCA -TCAGCGGAAAGAAACTGCTGACGGCAAAACTGCCCAGATGCAACAGGCGTTTCAGGGTGCTCGGCTGTTTTGGCA -CATACAGCGGGCAGCGCCACACCGTGGCGGCCCCCTCTTCTCGTTTGTAGCGCCAGGCGGAATAGTTCTCGCCCA -CCTGCCATTGCGGGTAGTAAGGCGGTGCGGTAATGACCCGCACCTCATGACCTTGTGCCGCCAGCCATTCCACCA -TCTCGCCGGTGTATTTGCCGATGCCGGTTAACTCCGGCGAGTAGTTAATGCCGTAGACCAGTATTTTCATAATCC -GGGTACTCCGGTACGCTTCTCAGCGAGAAAATAGGCGCGGCTGTTAGCATGAACATTATCACTGGCGAGCAGCGC -GTCCGACGTCAGCCAGCGGTAATCGTCATGCTGCTCATCCGGCAGTAACAGCTCTTCTTCCGATACTCTGAAGCG -AAAACCGAGCACCACATAGTGAGTGGTGAAATCCGTGCCAGAGAAGTTATCGTCATAAAAGTGCTGCCAGACACC -GTAAAACTGGCCTGCTGTTATCGGCAAACGCAGCCCCAGTTCCGCCATCGTCAGCCGCTCAAATGCGGCTTCCAG -CGTTTCGTCTTTCTGCACGCGCCCTCCCGGCACAAACCAGTAACCCTGCGCCGGGCGGTTGGTTCTTTTGCCAAG -CAGAAACTCGCCGCGACTGTTCTCGACAATAAAGTCGAGAGAGACAAGCGGAGTGGAGCGCACTACCGTGGCAAA -GTCTTCCTGACGTAAAAACATCATTACCCCCGAAAGCGGTCTTGATTCTCAAGGAACCACTGGTAAGTGCTGGCA -AGCCCCGCTTCCAGTGAGATTTCGTGATACCAGCCAAGCTGATGCAGGCGCGTCACATCCAGCAGTTTGCGCGGC -GTGCCATCCGGTTTGCTGGCATCAAAAACCACCCGGCCTTTGTAACCCACCACTTTGGCGATGGTTTGCGCCAGC -TCGCGGATAGTGCAGTCAACGCCCGTGCCGACGTTAATGTGCGACAACATCGGCTGGGTGTTCTCCAGCCAGACT -TCATGCGCCAGCTCCATGACATGAATGCTCGCCGCCGCCATATCATCGACGTGCAGAAATTCGCGCATCGGTGTA -CCGCTGCCCCATACCACCACGTCCGGCGCATTCTGTGCCGTCGCCTCGTGGAAGCGACGCAGCAATGCTGGGATC -ACATGCGAATTACTCGGGTGGAAGTTGTCGTGTGGCCCGTACAGGTTGGTCGGCATGACTGAGCGGTAATCGCGT -CCGTACTGGCGGTTGTATGATTCGCACAGTTTGATCCCGGCGATTTTGGCAATAGCATAAGGCTCGTTAGTCGGC -TCCAGCGTGCCCTGCAACAACTCGCTTTCTGCCATCGGCTGTTTTGCCAGTTTCGGGTAGATGCAGGACGATCCG -AGAAACAGCAGTTTGTTCACGTCGTTCTGATGCGCGGCGTGAATGATGTTGCTCTCAATCATCATGTTCTGGTAG -ATGAAATCCGCCGGATAGGTGTTGTTGGCAACAATGCCGCCCACTTTCGCCGCCGCCAGATAGACCTGGTCAATA -CGTTCGCTGGCAAAGAAATCATGCACGGCGCGGCTGTCCAGCAGGTTCAGCTCGTCGCGGGTGCGTAATACCAGT -TCCACATCACCGCGCTGTTCGAGCTGCCGCCTGATGGCGGAACCGACCATCCCGCGATGACCAGCAATAAAAACT -CGTTGTTTACTCATGCTTATGACTCCAGCGCGATCGCCACGTCGTAGCCGTGAGATTTCAGCAGAGAGTGTTTTT -TCGCCGCTTCGAGGTCATTAGCCACCATTTCAGACACCATCTCTCTGAGGGTGATTTCCGGTTTCCAGCCCAGTT -TTTCGTGCGCTTTGGTCGGGTCGCCGAGCAGCGTTTCAACTTCAGCCGGACGGAAGTAACGCGGGTCAACAGCGA -TAATCACATCACCCGGTTTAACGCCCGGCGCGTCATGCCCGGTGACGGAAACCACAATGCCCTTCTCTTCAACGC -CCGTGCCTTCAAAGCGCAGTTTGATGCCCAGCTGTGCTGCCGCCATTTCCACGAACTGACGCACGGAGTACTGAA -CGCCGGTCGCGATAACGAAATCTTCCGGCTGTTCCTGCTGCAGCATCATCCACTGCATTTTTACGTAGTCTTTGG -CGTGGCCCCAGTCACGCAGGGAATCCATATTGCCGAGGTACAGGCACGACTCCAGCCCCTGGGCGATGTTGGCGA -TTGCGCGGGTGATTTTGCGGGTAACGAAGGTTTCGCCGCGGCGCGGGGATTCATGGTTGAAGAGAATTCCGTTAC -AGGCGTACATGCCGTAGGATTCACGGTAGTTAACGGTGATCCAGTAGGCGTACAGTTTGGCGACCGCATACGGAG -ATCGCGGGTAGAACGGCGTGGTCTCTTTCTGCGGAATTTCCTGCACCAGACCATACAGTTCAGAGGTGGAAGCCT -GATAGAAACGAGTTTTCTTTTCCAGACCGAGGAAGCGGATCGCCTCCAGCAGGCGCAGCGTACCCATCGCGTCGA -CGTCAGCGGTATATTCTGGTGACTCAAAAGAGACCGCAACGTGGCTCATTGCGCCCAGGTTGTACACTTCATCCG -GCTGTACTTCACGCAAAATGCGCGTCAGGTTAGAGGTATCACTCAGGTCGCCATAATGCAGATGGAATTTCGGGT -TGCAGGTGTGCGGATCCTGATAAATGTGATCCACGCGCTCGGTGTTGAATGACGATGCGCGACGCTTAATACCAT -GCACCTCGTAACCTTTTTCCAGCAGAAACTCTGCCAGGTAAGAACCGTCTTGTCCGGTTACACCGGTGATGAGAG -CGACTTTTGACATGTATTATTCCTCTGTATTTTTGAATTTATTCAGTTTCAACGCGTTCGCGTATCACCACTGCG -GGATTCCCCCGGCAAACCACATTTGCCGGAAGCGATTTAAAAACACTGCTTCGTGCACCCACGACGGTGCCGTCG -CCGATTGTGACGCCTGGGGCAACAAAGACATCGGTTGCCAGCCAGCATTTCTCGCCAATCACAATAGGCGTGGCG -TTAATGGTGAAATGTTGACTTGCATGGTCGTGGCTACCGGTGCATAAATAACTTTTTTGCGATATCACCGAATGT -GCGCCAATGGTTATTTCACCGAGGGTATATAAATTGACGTCATCGCCGACCCACGCGTAATCACCTAAGGTTAAT -TTCCACGGATAGGTAATTTTTACTGACGGACGAATAACTACGTTTTTTCCTATTTTTGCTCCGAATAAACGTAAT -AAAAAAGCCCGCCAGCGATACAATACTTGTGGCGACCAGGCAAATATTGTTGCCTGTACTGCCCACCATAATTGC -ACTTTAATAGCGTTGCCGCCCCGGAACCCTTTCGGCACCGAGAAACCGCTTAAATCTTGCATTGGTTTTCCTTAT -ATTCAGACTTTGTTATATAAGGCTTTCGTCTTTGAGGTAGTACGTTGGCGTAAATGCCAGGATAATTCAGCCCAA -AAGCCAGGCACATGTAATATTTGTCGTTGGACTTTTTTCGCGTCAGCACACAATTCCATATTATTGGTGGTAGAT -ACCCCACCCATGGAAAATTCAGACACCAGGCCATTGAGTTTTTTAAATGCATAACCGGCTTTATACATTTTGGCT -GCCAGCGCGTAGTCGGAAGAAACTTTATATTCCAGGTCATAACGCCATTTTTTCAAGCCGGATACAGGGAAAAAT -ATCGCCTGATGACTGGCGGGCAGGCTGTGATAAATATACCAGCCCGGTTTGGCGCTACGTTTAATTTTATGCCCG -TCGCCAAAATCCAGCAGCGCATCGCCGGTGATCATCACGTTATCTTTTTGCATTTTTAACTTACGGACAAAATTT -GCGGCATTCTGATGAAAAATATCGCCCGAATTGAGAAACAACGCGAACTTGCCTTGTGCCATCGCAATGCCTTTG -TTCATGGCGTCGTAGATACCGTTATCTGGCTCGCTGACAAAGCGTAGGTTAAAGATACCATTGAGATTTTCCAGA -TACTCACGGGTGCCGTCGTTGGAACCGCCATCGACAACAATCCATTCGAAGCTGATATCTTCCACCTGCGCCAGA -TGCGCCAGCGAGGCATGTGTTTTGACTATCCCTTCGAGGTTACGAAACGCGACAGTGATTATGCTAAGCAACATG -TTCTTATTCTTACCTCGTAATATTTAACGCTTTTCGCAAAATAAACGGACAGACGATTAAAAATGCATATTCCGG -GCTAAATATCGAACCGGTAAAAAACAGCGATACCGGAGTAAAAAGATATAATTGCACGCGAAAATTGCGGTTATC -ACCAAAAGCGTTGATCATCATTTTTATCACTTTCCCCATGTACCACAGTGATAAAAACACCGCGAACCAGGAAAA -ATAAATAATCAGCAGATACAAACCATTGTCTATGGTTTTTCCGACATCCGCACCGTTAAATATTCCGAATGATGC -GACATATTCATAAAGTGAGCCAAATCTGACTACACCGTCAATATGGGTCAAAGAATAACCGACCATCACCAGCGG -ACCGACAATACGATAATATGATGACGATCCTTCCGTACCTAAATCGCCCAGACGGGTGGAAATATAAGGAAACGC -GATTACCACACCAACCAGGAATACAGCCAGAGAAATCAATGCTAACGGTAACTTTTTCTTAATCGCCTCTTTATT -CAGATATTGAAATGCCCACTCCAGCAAATAAAACAGGATAAAGGTCATAACCCCTGAAAACGATCCGGATAATAT -TATCCCTGCGAGAATCATAGCATCTGTTTTAGGCGTTTTGATACCAAACTGTTTGATGCTGAGCCAAATTGAGAT -TAATGCCAGAGCGAAAAATGCCGGTTCGAAATAAAGTGCTGTCGTGCGCTTGCCGCCGAATTTAATGAAATTCAG -CACATAGCTGTTGCTGTAAATCAGATATTTCGAAATCGACTCCATAATACTGCTGCCACCGGTGAGGATAATTTG -TGCCATCTCCACCGCCGCCAGCGCCACCACCAGCCCGACCACCAGATAAAAGAAACGTAATATCTTGCGATGGTT -GTGTGGCGAAATTGTTTTAAAACGAATACTCCACACCATGCCAATAATGATCACAATATAGACAAACAGCATAGT -TGAAGTGACGTATTTACTGGCATCCAGCGACTGACCAAACAGATAGTTAAACGCCGTGAGTCCCGCGCCAATCCC -TAAGGCAATCATCAATTTTTTAACGCTGATGCGTTCTAAAAACAGCAGTAACAAGACAGGTAAAAAAGTGACGAT -GGTGATGGGGAAACTTTCGCCAAGCTGGGCGATTTTGACGTTAACCAGCAGATAAATCAGCGGCAGCAACAGGTA -GCTACAGATTCTGATAGAAGTTGACATACTCCTCCAGCATCTGTTGTCCACTGTAGGCGGCGCGGCTGCGTTGGC -TGAACTCAGCCAGCGTGGTACCAAATATCGCCTGCGCGATTTCCGGTTTGCTTAACTGCACCAGTTGCAGCACCT -CTTCTTCGCTGACGGTTTTACCGCCGGATTTTTGCAACACTTCCCGCGCCGCATCGCTATGGGTGGCAATCACCG -GCACGCCAATCGATAGCGCCTCACACAAAATCAGCGGGTAGTTATCGACGCGAGAACTGAATACCAGCGCATCCA -TCTGATTGAGCGCGCTCATCAGCTTACGTTTGTCGGTTTCAAAGCCGTGATTAACCACGTTGCCAGCGGTGAACG -GCGAGAACTTACCAAAGGTATGCAGTTCAATTTTGTCGCCCAGCGCCATCATCTCGCGTACCAGTTGCTGGTTAG -TTTTGCCGTCGTAACGCAGATCATGCGCCACCACCGCGATTTTCGGCTTGCCCTGGGTTTCGCGCACCGGAGGCA -AGTCCGCCAGAATCGCTTCAGTTGCCATATCAATGCCATTATTGATAATCCGGCAACGCCCTGGACCGTACAGGC -TATTGAAAGCGTCAGCCACATGCTGGCTGGGGGAAATAAACTGACAGCCCAGCGCCAGCATCTCACGGAATAACT -GGCGTTTGCCCGCCACCAGTTGGTGTGCGCGATCAATCTTCACCGGCGGATAGTTATTTAAGGTCGGGCATTTCT -GGCAGCCTGTTTTCCAGCCTTCGCAACCGTCGGTAAAGGCGCAGCGTCCGGTAACACTCCAGTGGTCGTGCAGCG -TCCAGACCAGAGTGACGTCCGGTTTATGGTTTTTCACTTTTTCGCAAAAGCGCACCACGCTCTTAAGATTTAGCC -AGTAGCTGTGCAGCACATGAAAATGCAGGACCACCGGACCCGCTGTGCGAGTAATGGTGCGATATAACTCATTGA -AATTGCCAAACAGATCGCGATTAAACAGACGAAACAGAGCAATATTCGCCATCGCGGTCATCCGCGGCGTATGTT -TGATGACCTGCGGATAGTTCTGATGGCTGACGCTCTCTTTGCCGCCTTTGCCGTAACCGTAGACAAAATGTGACG -CCAGCCCCTGTTGCAGCGCACGCTGGTGGAGATCTAACGCCACACCTGCTGCCCCGCCTTCCGCCAGTCGCACAT -TAAATTGCAAAATATTCATTTAATTACCTTCACTCGCGCTTTTTCTCCCACCACCAGCGCGTTGTCCGGGACAGA -GTCGAGCACCACGCTGCCCGCGCCCACGGTGACGTTGTTACCAAGCGTGATATCACCAAGAATAATGACGTTGGC -ACCGAGTTCGACGCCGTTGCCAATGTGTGGACATGCCATGTTATCGGCACCACGATTGCCGATAGTGACGCCGTG -GCGAATGGTAAAATCATCCCCCGCTACCACGTTTTTATTGATCACGACGGCGTAACCGTGATGGATAGTAAAGCG -GCGGCCAATGGTCGCGGCAGCCTGGATTTCATAACCGAAAAAGCATTCGGTGATAATGCGATACAGCACCAGCAG -CGGGGCCGCCCACAGATTGTTGAGGACGTTCTTTTTGCGCCACACCGAACAAAAATGAGCAACACGATAGGCAAG -AACCATGCAGCACGGGCGTAAACTCCAGCTGTTGGCGCGCAGATCTTCCAGCATCTTTAGCGCCCCCGAATACCA -TCAGCCAGACGTTTGCCGTTACGCACCGACAGCAGCGTCAGCAAAGTGCGCCAGGTCATACGTTTATTGCGGATC -TGGTAGAGGGTAAACAGCTGATATTTTTTGCTGGCGCGGTCGAATTTGTCTTTGTGCTTGCGGTAAAAGTGGAAG -TACCCGGAGAATTTTTTCGGTGACGAGGTGATCTGCATTTCACCGTGATTGATATGCAGGATCTGCGTCGCCTCT -TCTACTTTCCACGGTTCGCCGTACTCCACCACCATCCGCAGGAAGATGTCGTAATCCTGTGCCGCTTTCAGTTCG -GTATCGAACAAACACTCTTTGAAACGCCATGCCCAGGTAAAGACCTGGTTGCCAATGATATTGCGTTTGTAGAAC -AGGCGGCGTGAATACGGCGATTTGGGATACAGCGGCAAGCTTGCCGGTTGGGAATAGACTTCGCCCTGGCAAACG -TAGTCGTTAGCGTACAAAAAGGCGTGTGTGACCAGTTGCTGTTTATGGGCGAGGAAGACGCTCAGACGGTTGGGT -GTCCATTCGTCATCGTCATCAATCCCGGTGATATATTCCCCTTGCGCCAGCATAATCGCCTGGTTACGTACCGCG -CACGCCCCGCTGTTAATGTCGTTGTGAATGTAAGTGATACGCGGATCGTTGAGGGCGGTGACGTACTGTTGCAGT -TGTTCCCAGGAGGTGGAGCAATCATCCACGATGATCATCTCCCAGTTGCTGTAGTCCTGGCGCAAAACCGATTTT -ATTGCCCGAATCGCCAGTTGTTGGCGGTTCCAGGTCGGCATATAGATTGAGATCAGCGGATTGTTTTTCATAGGT -TGTTCTCCCGGCTTATGAGCTGGTTTGCTTGCCGGATGCGGCGTGAACGCCTTATCCGGCCTACGGGGCGGTGCG -AATGCAGGCGTCGTTATTTCGCATCCGACTTATATTCGTATTCGTAATAGCCATAATCCTGATACGCGCTGGCGC -GGCGGAAGATGGAGTTCAGAATCACCCCTTTCACCGGAATACCGTTTTGCTCAAAGCGGCTCAGACTGGTTTCCA -CTTCTTTCAATGTGTTGACCGCATAACGCGCCACCATTAACGTGGTTCCGACATGACGACCAACAATTGCCGCAT -CGGTCACTGCCAGAATCGGCGGCGTATCAATCAACACCAGGTCATAGTTTTTACTCGCCCAGTTCACCAGTTCGG -CAAAGCGTTCGCTCATCAACAGTTCAGAAGGATTTGGCGGCACCTGACCGCGCGGGATCAGGTCAAATTTGGCAA -TAGAGGTCGGTTTAGCAGCGGTAGTAATATCGCCCTGACCAATCAGAATTTCCGACAGGCCATTAACGTTATTAG -TGCCCAACAGCTCGTGGGTGTAGCCTTTGCGCATATCGCAGTCGATCAACAACACGCGTTTATTGGTCTGGCTGA -TCACCGCCGCCAGGTTGGCGCAGACAAAGGTTTTACCAATTGACGGGCTAACCCCGGTCATCATCAACACATTGT -TCTGTGCCTGCATCATCGCGAAGTGCAAACTGGTACGCAGACTACGGATGGCTTCAATCGCCAGATCGGTTGGAT -TCCCCACCGCCAGTAGCTGGCTCTGTTTATAGCGTTTAATCCCTTTGATGGTTTTGACGCTATCACGCGCTTTCT -GCCATTCCGACAGCGGGATGCTGGCATAGACGCTAATACCGTGTTCTTCCAGTACTTGCGGGCTTTCAATGCCGC -GATTAAACAACGAGCGCAGCAGCACACCCACGATAGAAAGCATCAGGCCAAGGATAATCGCGCCGAGGATAATCA -GCCCTTTCTTCGGTTTCAGCACGCCAGGCTGAGTGATTGCCGGGTCAACAATGCGCACATCGCCGACGGTGCTGG -CCTCGGTGATTTTCAGCTCCTGCTCTTTATTCAGCAGTTGCATATAGACCTGCTGACCAGACTCGACATCGCGGG -TCAGACGGACAATCTCCTGCTGGGTTTTCGGCATCGCCGTTACGCGACCGTTAAGTTTGGCTTTTTCGTCTTCCA -GCGCCTGACGTTTCTCCAGCAGCGTGCGGTACGCCGGGTGAACTTTGGTGTACAGCTTGGAGATTTCCGCCTCTT -TAAAGGTCAGTTCGTTCAACTGCGCATCGATGTTCACCATCGAATCGAGCACCGCTTTTGCTTCCAGCGGCAGAT -CAACAGAATCTTTATCCTGACGGAAGGCATTCAGTTTGTTTTCGGCAACATCCAAGCGGCTACGTACTTCCGGTA -ACTGTTGCGCGAGGAAGGCGAGGCTTTTCGACGCTTCCGCCGATTTGCGCTCAATATTTTGTTCCTGATAGTTAC -GGGCGATGCTGTTAAGAATGTCGCGGATCTGTTCACGATCTTCACCGGTATAAGTCAGGCTCAAAACGCCAGCGT -CTTTGCCGTTCTCCGTTACCGTCAGGCTGTTTTGCAGTTGGTTGATCATCCCCAGCGTGGAGTATTTGGTGACGG -TAAACTCACTGCCCGGGCTGGCGTGAATGGCTTCAACCATCAGCGTGACGCCTTCTTTTTTCAGCATCTGGCCCG -CTTGCCCCCGGGCGCTAAAGCCGCCGTCGCTGCTCAGGGTGTAGTTTTTGTTGTCCAGCACATTAAGCGTAAACA -CCTGATCCGCCATCTCTTTCGGGCGGTTAAAGGTGGTCACTTTCACCGTCTCGTTCTGACGTCCCATCAGGCGAT -CCCAGCCCGCACCGAAAATCGGGAACGTGTTTTTGCTCACTGCAATATCGAGGTCGAGATCGTCCACCGTTTTAC -CAAGCACCAGACGCGAACGAATCAACTGGATCTCGGCGTCCGATGCAGGCGGTTTGTTGGCTAATGCCGAACCAA -TGTCCTGCACTAACGAATTGCCGCTGTTTTGCTCGATTTGTACCAGTGCGTCGGCACTATAAATCGGCGTGGCGA -AGAAGGTGTAAACCACGGCACAGAGGGCGAATACGGTGGTGATGCCAATCACCCACCAGCGCGCTTCAATGACGG -TGCCGACCAGGCGACCAATATCGATTTCATCACTGCCCGTTACCGGAGCGGCATGTTGTTTTACTTTTTCTGTCA -TTCTTATACCTGCTCTGCGTTCAATGCCTGCGCCCACTGGCGGGCAGACCGTTCAAGTAATGTGTACACCGCTGC -AAACGTTTCCCGGCTTTTGCGATACGGATCGGGGATTTCACATTCGTTATCCCAGTGACCAAACAGCATCACTTT -GCCGCGCATCTCCGGTGCCATCTCGCATAAGCGTTCGATATGGCGCTTTTCCATGGTCAAAATCAGGTCGTAGTT -GCGACACAGACGGCGGCTGATTTGACGGGCACAGTGACCTTCCAGAGACAGTTGATGTTCTGCGGCGACGCTGAT -AGCGGTAGGATCAGCGCCCTTACCGACCAGCGCGCCGAGTCCAGCGGACTCCACTTTCAGCTCCGGGTGATAACG -TTGCAGTAAGCGTTCCGCCGTCGGGGAACGGCAAATATTGCCGACACAGACAACTAAGATGTTGTTAAACATGAC -GATTACCAGTTATGAATGTCGCTGGCTGTATCCGTCATGTAACGGACACCGCTAATAGTTGGCAGCAACTGATTG -ATCAGACGGTTCCAGCGGGAAACCGGGGCGGTGGTGACATACACCACGTCATAAGGTTGCAGGCGGAATTCTGTC -GCCATCACCAGCGACGTGGCATCGGACATATCCAGCTGGTAGATATTGGCAATCTTGCCGTTACGCCCGCCCTCG -CCTTTCAGCGGACGAATGACAAAGATGCCGCTGGCGTTGGAGGTGGTCATGTCGATGCCTTCAGCATTGCCCAGG -GCTTCAGTCAGGGTCATGCCGCTAAAGTCCATTTTCAGGGTGCTCTGTTTCTTCACTTCACCCATCACAAATACT -TTCAGATCATCATTACGTGGCACGTAGAGAATATCGCCGGGGTAAAGCAGGCGATTCTGGTTGAGGTCGCCGTTT -TGCATCAGCGCCTGCAAAGAAATGCGCTCTTCACGACCATTGTGTGTTAGCACCACGTTGCGCCAGTCAGCGGTG -TCGGTCAGGCCACCTGCGGCGTTGATGGCGTCGAGAATAGTCAGTGGCACGTTGGTGATCGCCTGTTGACCGGAT -TTATTCACCTGACCGGAGATATAGGCCTTTTGTGAGCGGAAGGCGGCGATATTAACGTCCACCTGCGGGTCAGCG -ATGTACGTCGCTAAGCGCCCGGTAATATCACTGCGGATTTCAGCGAGCGTTTTCCCGACTACGTGGACCTTGCCG -ATATACGGGTAAAACATAGTGCCGTCAGGCTGTACCCAGTTGCCGGTGTCGCTGGAGCTGCGGTACTGACCGGCT -GGCGTGGTGAGTTCCGGGTGATCCCAGACGGTGACATTAAGAACGTCCCCCGGCCCGACGCGATACTGGTAATTC -GCGATCTCACTTTCCAGCGTCATATTGGGGCGCGCTACATTCGGGCGTGGGCGTAATTGGTCAATCAGGCGCGGG -GTCAGCGGATAAACATTCACCATTTTGTCGAGATCGAAATCAGCGTCCTGCTGTTTGATGACGTCTTTGCCCATC -GTCGACATATTGCTGCCCGGAAGTACTGTGCAACCGCTTATCAAGGTTACTGACACCAATAATGGCATCAATTTC -ATTTTGGATTTCATCATTGTTTATTTATCACTTTGGCAGAGTAATTATCCTGTGCACTATTAATAGCAATGTCGC -CATGCACATTTACCTTGCAGTTAATTGAATAAAAATTTAACTGGCATCAGTCCTAAAAAAATTGATTTCATCCGC -AGGCTATTGACAGAATAATTCAGACTGGTCTTTCAGGCATCCAGACACGCTACCGCCCCTGGCTTTTTAGCTACC -AATACACTGATTTAGTTTAATTTTTCACACCCTCTCAGCATGCAGTCGTTGATGAGAAAGGGTTATTACGGAAAT -TAACTTCCGAATATAAGGTGACATTATGGTAATTGAATATTGGCTTTCCAATAATGCAGGAGGAAGTGTTACAGC -TAACGGAATAGCAGGCAAGATAACAATTCGGTAATTGGCTATTTTTAAGAATTATATTAAGTGTCATTCAATATG -GTTTTTAGGAGTTTCTTTAGGTTGACAATATTTAATATAGTGTCTCCACATGCGATATTTCTTAAATAATGTTTT -ATTATTACCACTTTTAATTCAGGGATAATGTGAGGTTATTACCCTCAAATAATATGAGATAAATAGTGCTGCAAC -ATTGCATTTTTGCCCCGATTTATCCATGATCGAATTGTGACATTTGTCATACAACGAATAGGTTTTGTACTTACT -ATGGAATGGATTGCCGATCCGTCTATCTGGGCCGGGTTAATCACGCTGATTGTGATCGAACTGGTCCTCGGCATT -GATAACCTGGTCTTTATTGCCATCCTCGCCGAAAAACTACCGCCGAAGCAGCGTGACCGCGCACGGGTTACCGGG -CTGCTGCTGGCAATGTTAATGCGCCTGTTACTGCTGGCGTCAATCTCCTGGCTGGTCACCCTGACTCAACCGCTG -TTCAGCTTCCGCTCGTTTACCTTTAGCGCCCGCGACTTAATCATGCTGTTTGGTGGTTTCTTCCTGTTGTTCAAA -GCCACGATGGAGCTGAACGAACGGCTGGAAGGGAAAGACAGCAATAATCCCACACAACGCAAAGGTGCGAAGTTC -TGGGGCGTGGTGACGCAAATTGTGGTACTGGACGCCATTTTCTCACTCGACTCAGTGATTACCGCCGTCGGGATG -GTCGACCATTTACTGGTCATGATGGCCGCCGTGGTTATCGCTATCAGCCTGATGTTGATGGCCAGCAAGCCGTTA -ACGCAATTTGTTAACAGTCACCCGACGATCGTTATTCTCTGCTTAAGCTTCCTGTTGATGATTGGCTTTAGCCTG -GTGGCAGAAGGTTTCGGCTTCGTCATTCCGAAAGGCTACCTGTACGCTGCCATTGGTTTCTCGGTGATGATCGAG -GCGCTCAATCAGTTGGCTATCTTTAACCGGCGACGTTTTCTTTCCGCTAACCAGACGCTGCGCCAGCGGACTACC -GAAGCGGTAATGCGCCTGCTTAGCGGGCAAAAAGAAGATGCGGAACTGGACGCCGAAACCGCGTCCATGCTGGTG -GATCATGGTAACCAGCAGATCTTTAATCCGCAGGAACGGCGGATGATTGAGCGGGTACTTAATCTTAACCAGCGT -ACCGTCAGCAGCATTATGACGTCGCGCCACGATATTGAGCATATCGATCTCAACGCGCCGGAAGAAGAAATCCGC -CAGTTGCTGGAGCGAAATCAGCATACGCGGCTGGTGGTTACCGACGGTGATGACGCAGAAGATTTGCTCGGTGTT -GTTCACGTTATCGACCTGCTACAACAGTCTCTGCGCGGCGAACCGCTCAACCTGCGGGTGTTGATTCGCCAGCCG -CTGGTGTTCCCGGAAACCTTGCCGTTGTTACCTGCCCTGGAGCAGTTCCGTAATGCCCGCACGCACTTTGCTTTT -GTGGTGGATGAGTTTGGCTCGGTGGAAGGGATTGTGACATTAAGTGACGTCACTGAAACCATTGCCGGTAACTTA -CCGAACGAAGTGGAAGAGATCGACGCCCGCCATGATATTCAGAAGAATGCGGACGGTTCCTGGACGGCGAATGGT -CATATGCCGCTGGAGGATCTGGTGCAATATGTGCCGCTGCCGCTGGATGAAAAACGTGAATATCACACCATTGCC -GGGCTGTTGATGGAGTATTTGCAGCGTATTCCAAAACCTGGCGAAGAAGTTCAGGTGGGGGATTATTTGCTTAAA -ACGTTGCAGGTAGAAAGCCATCGCGTGCAGAAGGTGCAGATTATACCGCTGCGTAAGGATGGCGAGATGGAGTAC -GAGGTGTGATGGTATCGGTCATTTTACCCAATAGCCGAAAGGAATAAGATGAGGGAACCGCGCCATCGGCGATTT -ACCGCCGGGAGCCCGGGTTGCCAGGGTGGTGGAGATTGAGCCACCCTGGCACGTTCACCGGCTTGAGCGTTCCAT -AGTAGCGAGGAACATCAAGTGAACGGAACAGCCTTCGATCTTACATATTCAGAATATAATGATGCCGCCACGAAC -GCCTGATGCGACGCTTTACGCGTCTTATCAGGCCTACAGGACTGGTCACCTGGTAACCTACATCTTCTCCAGCAA -CTTCTTCACATCTTTGCCATTACGGGAATCTTTATTCCGCTCGGCCCAGTCATTCAGGCGACGTTTCGCTTCGTC -CTGTAGATGTTTGCGCAGTAACTGATCCACTTGCAGGCTGTAATTGAGTTGCTGCCAGTTGCCATAAACCCGCAG -CGGTACTGGCGTTTCTTTCAGGAAATCAATCAGTTTGCTTTCCCCGTTCCAGCCACCCACGACCCGAATATCAAA -CTGGGTGTCGCAGGTTTGATCTGCCAGATTCAACATGCCTTCCCCTGTCAGCGCCAGCACAGGCGATTGACCTTG -CATGTCGTTTAACGTCACGACGCCATCCTTCAACGTCAAATCGGTGGTAAAGCGGTCAAGCCGCGTCACGTTATC -AAAGTTTTCAGCGGCCTTCACATCACCGCCATTACGCTCTACCGCTTGCTGAATCATCTGCTGGAAGTTCATCCC -TTCCATGCGCGTGTCGGTCATTTCGACATGTGCCTGTCCTTGCCAGTTGTGGCGGAATGCGTCGGCATCTATGTC -AGCACCGGAGAAATCACCAGCCAGTGACATTTTTCCGGTCAACGAAATCGGATAGTTAAACGCCTTCAGAATGGT -ACCAATCTCAACGTTTTCCAGCCGTGGCTGGAAGTTTATCCGCGGATTTATTGATGTCGCGTCCAGCGTGCCCGG -CAGTGAAACCTGTCCACCGTTAAGTTTGCCCTGCAGTTGAGTAATTTCCAGCAAACCCGACTTGTTGGTCATTTG -CGTGGCAACATCTGTAAAATTCATTCCGCGCCAGCGCACGTTACTGGCCTGCAACAAAATATCAGCCGTAAAGCC -TTGCAGTCCCTGATAGGCCGGTTCATCAATACGCGAAGAAATGACCGGGCGCGGCAACGTTGATTGGCTCTGCCC -CTGCTGCGCGGCACCGTTTTCACCATTCGCGGTTTCATTAAGCGGGATGAGGTTGTCAAGATTCAGTTGCGGGAA -TTGCAGCCTCAGCTGCCATTCCGGTTTCTCTGTCAGCGTAACCTGTGCTTGCCCGCTTAGCGTACTATCATTGGC -GGTCAAACTAATTTGGTTAAATGAAAGGCGTTTATGTGACTCCTGCCACTGGGCCTGGAAACTCCCCTGCCCCTG -AATACCTTGTTTTGGTAAATCGGCACCCTGCAACTGCCAGTTAATTTGTTCAATAGCCGCCGTTAAATCATGCGG -ATAATCAGAAGCATCTACCGTACCGTTAAGGGATATCGTGAGATCGCGCTGATCGCGATTAACCCGCCCGGAGAA -CTCAAATGAACCACGATGTTGGGGATCTTGTTCCATTTGCAGGCGAATATTGCGGATTGTCACCTGCTCGTCATC -TTCATGCTGGAACACCAGCACGCTGTCCGCCACCTTAAGACTGGATATATCAAACGACCATCCGCGATCGTCTGA -CAGATCCGGCAAGGTATTGTCGCGCGGTGCAACCGGAGCGTCTTCACTGCGCACCGCTTCCGTCTGCGGCGTCAG -TTGGATCACTGCCCCTTTTAGCATCACCTGCTTAACGCTCAGTTGATGACTCAGTAGTGGTAAAAGCGCCACGTC -CAGACGCATGTTGTCGGCGCGAACCAGTGGCTGGCTTGCGCCCTGGGCGGTGAGAGACATTCGCCCGGAGAGGAT -ACTAAGCTGCGGCCAGACGTGCCAACGCAGTGGCCCGTCGAGCTGCAATTGATAACCGCTACGTGCAGCAACTTG -CTTGACCATATAGTCGCGGAAATCATTCGGATTCACCAGCAACACTAACGCAGATAACCCGGCCACCAGCACGAC -CAGGAGTATCATCAGCGTCGTCAGAAATCGTCTCATGGTATCCTCAATGGGCCTGAATTAGTCTTTATCGATTCG -GCTGGCTACCGCGCCCTGCTGGTTGCGATATTTCGCATCTTCACGGCGGTTGTAAGGTCGCACCGCCGGGCCGGA -AAGCGGCTCAAAGCTCAGCGCACCAATTAACATGCCCGGACGCAGCGCCAGCGGCAGCTTACCGGAGTTGTAGAA -CTCCAGCACAATGCAACCAGACCAGCCCGGATCGATGCGGTGCGCGGTGACGTGCACCATCAGCCCCAGACGCGC -CAGTGAGGAACGCCCGTCCAGCCAGCCCACCAGATCGGCTGGCAGCGTCACCGACTCCAGCGTCACCGCCAGCGC -CAGCTCTCCTGGGTGAAGATAGAACGCCTCGCCCTCGTCGAGAACGATCTCATCGCTCATCACGCGGTCAAGCGC -GGCGCTCACTTCATCTTTGGGACCGCTCAGATCGATAAACGCTGCCGTGTGACCACGGAAGGTACGAAATTTATT -GCCCAGGCGTACATCCACCGTCGCGCCGTTAATACGCTCCACTGGCGGACGTGGGTTGATCGACAAACGGCCTTC -ATCAAGCCAGGCTTCAATATCTCGGTCACACAGACGCATGGCATTTTCTCCTTTCGCGCATCACTCCCTTAACGC -CAATTACGTCAAGGGCATACTAGGTTATCACTGAACGGTACACAATTTATCAAGCTTATTCAAAGAACTGACTTA -TTTTCGCTTTCAATATATCGATCGCGATGCGGTTTTTCCCGCCGCGCGGCACGATAATGTCCGCATATTGTTTAG -AAGGCTCAATGAATTGCAGGAACATCGGGCGCACGGTTTTTTGATATTGCGCCATCACTGAATCCATTGAACGCC -CACGCTCGTTAACGTCACGCTTGATGCGGCGCATCAGGCAGATATCCAGCGGGGTATCAACGAAAATGGAGAAGT -TAAGTTCGTCACGCAAACGCGCATCCGTCAGCAACAAAATGCCTTCGAGAATGATGACCTTCTTCGGCTCAACCG -TCACCGTTTCTTTCATACGCGTATGTTCAACATAGCTGTAAACCGGCAGGTCAATTGCCGAGCCGCGTTTCAACG -CTTGTAAATGCTCAAGCAGCAGACTGTGATCCATCGCGCTGGGATGGTCGTAGTTGGTCTTAACGCGTTCTTCCA -TCGACAGATGGCTTTGATCTTTGTAATAGCAGTCTTCGGGAATTACGCCGATGTGTTCATCACCGACTTGCTCAC -GCAATTCACGATAAAGGGTACTGGCAATAAGACTCTTGCCGGAAGCCGATGCGCCAGCGATACCGATAATGACGC -ACTGATGAGACTGATCAGTCATATATTTAGCGACCTGATTAACCTGGATGTTAGGAAGGGGGCGACGAAGCGCCA -AACGCGGCAATTATAGGGATTTCATCCGTCTGATACCAGTCGAATAGCGTTGCCGCGCGCTCAGAGTTAATTGTT -GACAAAGAATTCCCGGGGGCAAATTACGTTGATCAGTTTTATGTAAGGTAAAAAATGTTAAACGCAGTTGCGCAA -ATTATCCGCCTTTACGTCACTTTATGAGCAATTCGCATATAAAATGTAAAACTTTTGTACTAGCATAAACACAGA -AACGAATACTGGCGACCAGGTCTTGCGGATAAAGCGGTAATGAGCAAACAATCACAGCATGTATTAATTGCCCTG -CCCCACCCGCTGCTTCACCTGGTCAGTTTAGGTTTAGTCTCGTTTATCTTTACCCTTTTCTCGCTTGAGCTTTCG -CAGTTTGGCACCCAACTCGCCCCACTGTGGTTCCCGACGTCCATCATGATGGTGGCGTTTTATCGCCATGCCGGG -CGCATGTGGCCGGGAATTGCGCTGAGCTGTTCGCTGGGAAATATCGCCGCATCCATCCTGCTTTTTTCCACCAGC -TCGCTGAACATGACCTGGACGACCATCAATATTGTTGAAGCCGTGGTCGGGGCAGTGCTGCTACGTAAATTGCTG -CCGTGGTATAACCCCTTGCAAAATCTGGCTGACTGGCTGCGTCTGGCACTCGGCAGCGCCATTGTTCCGCCTCTG -TTGGGGGGTGTTCTGGTTGTCCTGCTGACGCCCGGAGACGATCCTCTCAGGGCATTTTTGATATGGGTACTGTCA -GAATCCATCGGCGCTCTGGCACTGGTGCCGCTGGGATTGTTATTTAAACCACACTATCTGCTGCGCCATCGCAAC -CCACGGTTGCTTTTTGAGTCGCTGCTCACGTTAGCCATCACACTGACGTTAAGCTGGCTTTCGATGCTGTATCTG -CCGTGGCCTTTTACTTTCATTATTGTGCTGTTGATGTGGAGCGCCGTGCGTCTGCCACGAATGGAAGCCTTTTTG -ATCTTCCTTACCACGGTGATGATGGTGTCGCTGATGATGGCCGCGGATCCCTCCCTGCTTGCTACGCCGCGTACG -TACCTGATGAGCCATATGCCGTGGCTACCGTTTTTGCTGATCCTGCTGCCCGCCAACATCATGACCATGGTGATG -TATGCCTTTCGTGCGGAACGCAAACACATTTCCGAAAGCGAAACCCACTTTCGGAACGCGATGGAATATTCCGCT -ATCGGTATGGCGTTAGTGGGCACCGAGGGACAATGGCTGCAAACCAACAAAGCGCTCTGCCAGTTTCTCGGGTAC -AGTCAGGAAGAGCTGCGCGGACTCACCTTTCAGCAACTGACCTGGCCGGAGGATCTCAATAAAGATCTCCAACAG -GTTGAAAAGCTGATAAGCGGTGAAATAAACACCTATTCAATGGAAAAACGCTACTACAACCGCAATGGCGATGTT -GTCTGGGCGTTGCTTGCCGTCTCACTGGTGCGCCACACGGATGGCACGCCGCTCTATTTTATCGCTCAGATTGAA -GACATTAACGAGCTAAAACGCACCGAACAGGTCAATCAGCAACTGATGGAGCGCATCACTCTGGCTAACGAAGCG -GGCGGGATTGGCATCTGGGAGTGGGAGTTGAAGCCGAATATTTTTAGCTGGGATAAGCGGATGTTCGAGCTGTAT -GAAATTCCTCCACATATCAAACCGAACTGGCAGGTGTGGTACGAGTGCGTGCTGCCGGAAGATCGCCAGCATGCC -GAAAAAGTGATTCGTGATTCGTTGCAATCACGCTCGCCCTTTAAACTGGAATTTCGCATTACCGTAAAAGACGGT -ATTCGCCATATCCGCGCCCTCGCCAACCGGGTACTGAATAAAGAAGGCGAAGTCGAACGTCTCCTCGGCATCAAT -ATGGATATGACCGAAGTGAAACAGCTTAACGAGGCATTGTTTCAGGAAAAAGAGCGCCTGCACATTACGCTTGAT -TCCATCGGTGAAGCCGTGGTCTGTATTGATATGGCGATGAAAATTACCTTTATGAATCCAGTGGCGGAGAAGATG -AGCGGCTGGACGCAGGAAGAAGCGTTAGGTGTTCCGCTCCTGACGGTGTTGCATATTACTTTTGGCGACAACGGA -CCATTAATGGAGAACATTTACAGTGCCGACACCTCACGTTCCGCGATCGAGCAAGATGTGGTGTTGCACTGTCGG -AGCGGCGGCAGTTACGACGTGCATTACAGTATTACGCCGTTAAGTACTCTGGACGGCAGCAATATTGGTTCGGTT -CTGGTGATTCAGGACGTTACCGAATCACGCAAAATGCTGCGCCAGCTGAGCTACAGCGCCTCCCATGATGCACTG -ACGCATCTCGCCAACCGCGCCAGTTTTGAGAAACAACTGCGTATCCTGCTGCAAACGGTAAACAGTACACATCAG -CGACATGCCCTGGTGTTTATCGATCTTGATCGCTTTAAAGCGGTGAATGACAGCGCCGGGCATGCGGCGGGTGAC -GCTTTGCTGCGCGAACTGGCGTCGTTAATGCTGAGTATGCTGCGTTCCAGCGACGTGCTGGCGCGACTCGGTGGG -GATGAATTTGGTCTGCTGCTACCAGACTGTAATGTTGAAAGCGCGCGTTTTATCGCTACACGCATTATCAGTGCC -GTGAATGACTATCACTTTATATGGGAAGGCCGTGTGCATCGGGTAGGTGCCAGTGCCGGGATTACCTTGATTGAT -GACAACAATCATCAGGCGGCAGAAGTGATGTCGCAGGCTGATATCGCCTGTTATGCCTCCAAAAATGGTGGCCGG -GGCCGGGTGACGGTTTACGAACCGCAGCAAGCTGCCGCACATAGCGAACGGGCGGCGATGTCGCTTGATGAACAG -TGGCGGATGATTAAAGAGAATCAGTTGATGATGCTCGCCCACGGTGTCGCTTCGCCACGGATCCCGGAAGCGCGT -AATTTGTGGCTGATTTCACTTAAGCTCTGGAGTTGCGAAGGCGAGATTATTGATGAACAAACATTTCGTCGTAGC -TTCAGCGATCCGGCGCTTAGCCATGCTCTTGACCGCCGGGTATTCCACGAATTTTTCCAGCAGGCCGCAAAAGCG -GTTGCCAGTAAAGGCATAAGCATCTCCCTCCCCCTTTCCGTTGCCGGTTTGAGTAGCGCCACGCTGGTGAATGAT -CTGCTTGAGCAGCTGGAAAATAGCCCTCTACCACCACGGTTATTACATCTGATTATTCCGGCTGAAGCGATTTTA -GATCACGCAGAAAGCGTGCAAAAACTGCGGCTGGCGGGATGTCGGATAGTGCTCAGCCAGGTGGGCCGCGATCTG -CAAATCTTCAACTCGCTGAAAGCGAATATGGCAGATTACCTGCTACTTGATGGTGAGTTATGCGCCAACGTGCAG -GGTAATTTGATGGATGAGATGCTGATTACGATTATTCAGGGGCACGCTCAGCGACTCGGGATGAAAACCATCGCC -GGGCCAGTCGTTTTACCCTTAGTGATGGATACGCTTTCTGGCATCGGCGTCGATCTGATTTATGGTGAGGTGATT -GCCGATGCCCAACCGCTGGATTTGCTGGTGAATAGTAGTTATTTCGCGATTAACTGAGGCGTGCTTCCCCATCGC -CTGATGCGACGCTAACGCGTCTTATCATGCCTACAAATCGCTCATTCCCCAGGCCGGATAAGGCGCTCGCACCGC -ATCCGGCGACCAACGTCATGCTTCGTCTGGTTGCCAGCCTTCCGTATACCAGATATGCAACAGCGCATAAGAACG -CCAGGGCTTCCAGCGCTCGGCATAACGGCGGATTTGCGCCGGTGTCATTCCCGGAAATCGCTGTTTAATCAGATA -ATCATCCGGCAGGAAAACATCTTTCGCCTGCCAGCCACGCAAAGCAAAATAATTCGCCGTCCAGCGCCCGATACC -CGGAAAAGTTTGCAGCGTTTTCATCGCCTGCTCCACATCGCCCGGTATTGTCATTGGTAAGGTGCCCTCCAGCGC -CGCATTTGCCAGATGAATCAGCGCCTCTGCCCGTTTCAACGGCATACCTAACGCTTTTAATGCCTGCGGGTCTGC -TGCTGCCAGCCGCTGAGGCGTCGGGAAGCAGATATACTCCGGAAAATCATCCAGCCGTTCGCCATAAAGCTGTGC -CACTCTGGCGGTCAATTTTGCCGCCATCGCCACGCTCACCAGTTGGCCTAAAATCGCCCGCACGCCCTGCTCAAA -AGCATCAACACAGCCGGGTAAACGCAATCCGGGCCGCGCCGCGCCTAACCTGCCCAACGCACCGTTAACAATTTG -TGGGTTACATTGCAGATCAAACAGGCGGCTCATTTTCGCCAGACACTCTGCGGCAACAGGTTCTAAACCTGCACT -TAAATTTATGTGCAGAGTATGGCGGGCTATATCCGGAATAGCAGTCACCACGCCGCGATATTCGCCCACCGCCAG -ACTACGGGCATAATAACTGTCCGCGACCGTTTCCACACTGCTCACCGCACGGGCGGCGAGAAATCCCAACATCCA -CGACCAGTCATACGGCGGCTGCCAGTTCAGGGTATACATCGCATCTCCTTATTCATCCGCTTTCAGCATAAACGT -TATTCAGACGCTGCGCTTTGCTTTCATATTCCGGTTGTCGCGACGGCAACATTTCGCTAAAGTCACGCCCCTTCT -TCACCGGCATGGGGATTATTTCGTGTTTATTGGTTTTGATTACGGTACAGCAAACTGTTCAGTGGCGGTCATGCG -TGACGGTAAACCGCATTTGCTAAAAATGGAAAACGACAGCACGCTGCTGCCTTCAATGCTTTGCGCGCCAACGCG -TGAAGCGGTAAGCGAATGGCTGTACCGCCATCATGATGTTCCGGCAGACGACGATGAAACGCAGGCGCTGTTACG -TCGGGCGATTCGTTATAACCGCGAAGAAGATATCGATGTTACGGCGAAAAGCGTGCAGTTCGGTCTTTCCTCACT -GGCACAGTACATTGATGATCCAGAAGAAGTGTGGTTTGTGAAATCACCAAAATCGTTCCTCGGTGCCAGCGGCTT -AAAACCGCAGCAGGTAGCGCTGTTTGAGGATCTGGTCTGCGCAATGATGTTGCACATTCGCCAGCAGGCGCAGGC -ACAGCTGCCAGAAGCGATTACTCAGGCGGTGATTGGTCGTCCGATCAACTTCCAGGGGCTGGGCGGTGATGAAGC -AAACACCCAGGCGCAAGGGATTCTGGAACGCGCGGCGAAGCGTGCCGGATTCAGGGACGTGGTATTCCAGTACGA -GCCGGTCGCGGCTGGGCTGGATTACGAAGCCACCTTGCAGGAAGAAAAACGGGTGCTGGTGGTGGATATCGGCGG -TGGTACGACTGACTGTTCATTGCTGCTGATGGGGCCGCAGTGGCGTTCGCGTCTCGATCGTGAAGCCAGCCTGCT -GGGTCACAGTGGTTGCCGTATTGGCGGTAACGATCTGGATATCGCGCTGGCGTTTAAAAACCTGATGCCACTGCT -GGGTATGGGTGGCGAAACCGAAAAAGGCATCGCCCTGCCGATCCTGCCGTGGTGGAATGCGGTTGCCATCAACGA -CGTACCTGCGCAGAGTGATTTCTACAGTAGTGCCAACGGTCGTCTGCTTAACGATCTGGTACGCGATGCCCGCGA -ACCGGAAAAAGTGGCCCTGTTACAGAAAGTCTGGCGTCAGCGTTTAAGCTATCGCCTGGTGCGTAGCGCAGAAGA -GTGCAAAATTGCTCTTTCAAGCGTAGCGGAAACCCGCGCCTCACTGCCGTTTATCAGCAATGAACTGGCTACGCT -GATTAGCCAGCGAGGGCTGGAAAGCGCCCTCAGCCAGCCACTGACGCGGATTCTGGAACAGGTGCAACTGGCCCT -GGATAACGCCCAGGAAAAACCGGACGTTATCTACCTGACCGGCGGTAGCGCCCGTTCTCCGCTGATTAAAAAAGC -GCTGGCAGAACAGTTGCCGGGCATTCCGATTGCAGGCGGCGATGACTTTGGCTCCGTCACCGCCGGGCTGGCACG -CTGGGCGGAAGTGGTGTTTCGTTAATTGAAAAATGGCTCAGCAGCGGCTTAAATCTGCCTGCGCCTGAGCCAGTT -TTTCTGCTGCCTGACGTAACGGTTCCATCAACGGCATGGTCCGTGCTGGAGCATGAAGGCGGAATCGCTGCAACT -CTGTCGCGCCGACTGTCAACGCCGATTCCAGCCGATGTCGTTTGGCGGTCATTTTCGCCATTACCGCTTGTCTGT -CTGCTGGCGTTATCGCTTCATTCGGCCTGAACACAAAACGGCGTTCACAGCTCGCTTTCCAGTCGATAACCGCCT -GGGTCAGATGGTCGCCAAACCCTTTCACTTGCTTAACGCCACGACGGGTAACATCTGCGGCTGTTTCAATACCAA -AAGACCGTAACGCCGCTTTACGCGCAGGGCCAACGCCGGGAATAGAGGCAACATCAATAAAAAATCCCTCCAGAA -ACTTCTGCTTCTGCCGTTCCCTTGCAGTGTCATGAAGTGCTGCCAGAGCGCGTTTCTCTTCTTCCGGTAACCCGA -GAATTTCGTCCTTCATTTTTTCGAGCATCGTCCGTTTGGCGATAAAACCTTCCAGGCCGCCTACCTGCTGGATCT -GGCGGACTAAATGGTCATAGTCCATTTTCGCACGATTAAATGCCTCACGGCGTTGCTGAACTTCTGCTTTGTACG -CTTTGCTTGTCAGACTGCCAATAATCCAGATAGCCGCCAGCACAGGAACCAAAATAATATAACGCGGTTCTGCCT -GAAGGCCGCAAAGCAGCAGCGATAATGCTGACAGTGCGATCTCAAGCAGAATGATGTATTCGCGCCGTAACAGGC -CTAAAGGAAGCGGCCTGCCAGTCGGTTGGAAATGATCGGGTAATGGCAGTTGCAATGCTGGCGGTGCTACTGACG -CCATCACCATCGCCCAGACTTTCGCCAGCACAAAATTCCCGCCGGTGGTAATGACCTCTTCGCCGAGATCAATAA -AATAGATAACACCTTGATTATCCAGCGCACACCACGGGCAGTCAGTCAAATGAGCGGGGTAAACATGCATTGCTG -AAACGATACATTTCTTTAACTGTTGGCGTAGAGAGTCCAGTGCCGCTACCCACGCTTTAGCCGTCGGACGCCCGG -TTGCCACGCCACTTTCCGTGAATGCCTGCTGAAACATGGCTTCAACATCACTCGGTAACATCGATAGCGGAATAG -ATCGTGGCGGCGGTTTTAAACCACGTCGCTGATTATCTGACGCGTAGGCATAACGGAAATGGGTAATATCCGTCT -CCAGCGCATTACCCGCATCAGAGATAAGCGGCACACCAGAATAAGGATGCCGCCCACCAAACAAGACGTGAAAAA -TTAGCAACGCAAGGCCAAAATTATCGTGATTTTCTGTGCGTTCAAAACCGACAAATGATGGCAAGGTTTGTAGCT -CTGGCGGCGTAAAATGCGACACGCCGACTTCGCATAAATGCAGTGTGCCATTGGCGTTAATTTGAAAGGAGTCGC -TATCAATCAGTACCACTTTGCTGTCGCGACCTACCATAAAACTGTTCTGGTTTACGTCACCCACGACGTGCCCGT -GCTCGTGAACCGTAGCAAAAGATGAAGCAATATTGCGCGCAACATAGAGTAGAAAATCCCACGCACAATGAGGGT -AACTCTGGCGACGATGTGCCGGGCTATAGATCATATGAATCGGTTCTTTACCAGAAACTTTTGGCATCATAAAAC -CGATAACTTTTCCGCCTCGTCCACCGTGAAGCGTTGCCTGCGGCCAGGCGACATAATTCAACAACTGCGCGTCAG -CTGTCGCAGCCATAAAGGCAAGTTTGTCCTGTTTTAAGGCGGGTGGCGGCGTGTGATAAATCTTGGCGACGCTAT -CGACAAACTCCTCGATATCATAAACCGCGCCTTCACCACCTTTGCCCAGTTCACGGCCAAGAGTGGTCAATTCAC -CTGTCGATGTAAATACTTTTATATTTGTTTTCATAATATTTCGCGGGTAGTTATATTATATTTCAATGAATAATA -ACAACTAACCATTAAAATTATTTCTATATGGGGAAAACCCACTCAAGAATAAAAATGATAATGCAATTTTATCAG -GATACAATTCAATTTCGGCCTGATAATGATTAACTTCCACAGGTTTTTGCTAACTTTGACTACAAAGGGATTCTG -GAGAAAAAATGAAAAAGATATTACTTATGTTGAGTCTGCTATTTTTTACTACCGCGGGCTTTAGTGAAGTTTCGG -ATACGTTAGTGACGGGAGGTTATGATAAACAAGCGATGTCTGACGCGATTAAACATGCGCGGAAAGAAACCGATA -AATTCATCGAGGTTATGAATAAAAAAGATGCCGATACTTTCGCAGTCAAAGCCCCGATAACCGATCACGGAAGAA -CCGAGCATTTCTGGCTTACGGATGTCACTTATTCTAACGGCATGTTTATTGGCGTAATCAGCAATGACCCTGGTA -TTGTTACAAACGTAGAATATGGCCAGGAGTGGAAAATCAAGAAAGAAGATATTTCAGACTGGATGTATACGCGCG -GGGATAAAATTTACGGCGGTTATACCATTGATCCTTTATTGGTCACCTATCCAAAAGAAGAAGCCGACGAGCTAA -GAGCAAAATTAGTTCGCTAATCAGCCGTTATATTTATTGTTTAAACTGGCGGTTGAATTGTTGTCTTCAACCGCC -ATGAGAAACTCACTCTGCCCACAGCGCCAGTGCCAACGTTTTATCATCATCCGTACGCTCGTTTACCGCCGGGCT -GGACAAAAACTGCTTTAACAATTCAGGTAATAAATCGAGTTGTTCCTGCGTTGCTGCCGCCAGTCCATTGAAAAA -CGGGGTAAAGAAAGGCACATGAGGAGAATTATCCAGCATATTTAACGCCAGTCGCTGGATACCATCCGTAAATGC -TGCAACTTTGTGCGCACGCCCAGTGCTGGTGAAAGTTTCCAGTCTGGAAACGGCATCTTCGTCGGTAATGAAGTG -CGTCATGTTGGCATATTCACCCGCCATCGGCGTGAGAGGCAATTGCAGACCGTGACCCAAATCTACCACCACGCC -GCCATCGCCAATCTGCATAATCAAGGTGCCGTCAGGCGATGAAATCAGTCCCAGAAATGTGCAGGCAAAATCGCG -AACCGCTAATTCTTTGGCTTCCGCCTCGGCAAAAAGTCGTTGACGAATGGTCAGTACCATATTTGTGGCGAGGAC -ATCATTAAGCCCCAATTCCCCGCCCTGCACTTTTTGCGACATATAAGCCATCGCTTCATTGACGGCGAGCATCGC -GCCTTCGCCACCCTGCGAGACACTGCCTGCGCCATCAGCGACAAATACCGACAATAATGGCTGCTGGTCATTTAA -CCAGGCAATCTGCATCTGGCAGGCATCCTGACAAGGCAAGTCCGCGCTGATGTGCGACGTTCCAACGGTTGATGC -ATAGACCAGACGCCAGCTCACACTGACGTCCAGCCTTTTGGCGCTTCCAGCACAACTTCCGTTCCCGGCGTGGAG -CGGGAAACCGAACGCAGCGAACTGGATAACCAGCTAAACAGTTCACGGAATTGTAATCCTTGCAGAGGCAAAGGC -TGACGAACGCTAATTTGTGCCAGCGTCTTCATATCCGCCCCCTGAACACCGATGGAAAAGAAAGCAAACCTTTTA -TCTTCTTCCCCCCGAAACACTTTGTTGGCTGCAGCCTGCCACTCATCGGTTGGTGCACCATCGGTAATCAGGAAA -ATCCACGGGCGATAATACGAAATACCATTTGCACGATACTCACGTTTCCGCTCCTCTACCATATCCAGGGCTTTG -GTAATGGCCGCACCCATTGGTGTATCGCCCTGGGCAAACAGGATGGGCGGAAAAAAATTAGCGGCGCTGGTAAAG -GGTTGTTCCACATGCACCGGGCCGAACGTCACAATGCCGAGTTCCACTCTTTTTAAAGCCAGCGGATCAGCAAGC -AGTTCATCACGAAAGGTAACCAATCCGGCGTTAAGTTCATTAATAGGTCTACCGTTCATAGAACCAGAAACATCC -AGCAGCAAAATGCAGGGGCAACGTGGTTCCGGGTTACTGGCAAAATCGCTGGTGGCAAACGTGATTTGTTCGCTC -ATAAGAAATCCTTTCTTAGAGAATTATCGAGGTCCGGTATCATACCGACTGCAATAATGAAATAAGAGCAAACGA -AGAAACTTTCAGAATTAGGCCCGGCGGCGCAGAAAATTTTGCTATTCGCCTCGCAAGAACGGAGAGCCGTCGATT -GACACTAAGGGCGGAGTGACATAATTTCAGGAGTGAGGGTTAGGGAGAGGTTTCCCCCTCCCCCTGGTGTTCTTA -GTAAGCCTGGAAGCTAATCACTAAGAGTATCACCAGTATGATGACGTGCTTCATCATAACCCTTTCCTTATTAAA -AGCCCTCTTCTCCGGGAGAGGCTTTCCCGTTTCAGCGTCCCGCTGAAATCATCGGCTTACCTCCTTTCGCCCTGA -ATGCAGTCTATCGCTAACGCGTGAATAAAATAGTTTCCTCTGTGATTATTGCGTAACGACTCGCAAAGAATATTT -GCTGGCAGGATCGCAGACTACAAAGCCTGCGGATTGACAATCTTATCGTGAAGGCATACTTTCAGGAGTGAGGGT -AGAGCGGGGTTTCCCCCGCCCTGGTAGTCTTAGTAAGCGGGGAAGCTTATGACTAAGAGCACCACGATGATGAGT -AGCTTCATCATGACCCTTTCCTTATTTATGGCCCCTTCCTCGGGAGGGGCTTTCCCGTTTCAGCGTCCCGCTGAA -ATCGTCGGCTTACCTCCTTTCGCCATGCAAGCAGTCTATCGCTAACGCGTAGATAAAATAGTTTCCTGTGTTATT -ACTGGATGCGTGCTCGCAAATGTGCCCGTCATTCAGACGATTCCAGACAGTGTTTCATAATTCCTCCATTTTTCT -CCCTTATTGGCTGGCTACACTAGTATCATTCCGCGAAACGTTTCAGGAAGAGAAACTCTTAACGATGAAAGGTAG -TTATAAATCCCGTTGGGTAATCGTAATCGTGGTGGTTATCGCCGCCATCGCCGCATTCTGGTTCTGGCAAGGCCG -CAATGACTCCCGGAGTGCAGCCCCAGGGGCGACGAAACAAGCGCAGCAATCGCCAGCGGGTGGTCGACGTGGTAT -GCGTTCCGGCCCATTAGCCCCGGTTCAGGCGGCGACCGCCGTAGAACAGGCAGTTCCGCGTTACCTCACCGGGCT -TGGCACCATTACCGCCGCTAATACCGTTACGGTGCGCAGCCGCGTGGACGGCCAACTGATAGCGTTACATTTCCA -GGAAGGCCAGCAGGTCAAAGCAGGCGATTTACTGGCAGAAATTGACCCCAGCCAGTTCAAAGTTGCATTAGCACA -AGCCCAGGGCCAACTGGCAAAAGATAAAGCCACGCTTGCCAACGCCCGCCGTGACCTGGCGCGTTATCAACAACT -GGCAAAAACCAATCTCGTTTCCCGCCAGGAGCTGGATGCCCAACAGGCGCTGGTCAGTGAAACCGAAGGCACCAT -TAAGGCTGATGAAGCAAGCGTTGCCAGCGCGCAGCTGCAACTCGACTGGAGCCGGATTACCGCACCAGTCGATGG -TCGCGTTGGTCTCAAGCAGGTTGATGTTGGTAACCAAATCTCCAGTGGTGATACCACCGGGATCGTGGTGATCAC -CCAGACGCATCCTATCGATTTAGTCTTTACCCTGCCGGAAAGCGATATCGCTACCGTAGTGCAGGCGCAGAAAGC -CGGAAAACCGCTGGTGGTAGAAGCCTGGGATCGCACCAACTCGAAGAAATTAAGTGAAGGCACGCTGTTAAGTCT -AGATAACCAAATCGATGCCACTACCGGTACGATTAAAGTGAAAGCACGCTTTAATAATCAGGATGATGCGCTGTT -TCCCAATCAGTTTGTTAACGCGCGCATGTTAGTCGACACCGAACAAAACGCCGTAGTGATCCCAACAGCCGCCCT -GCAAATGGGCAATGAAGGCCATTTTGTCTGGGTGCTGAATAGCGAAAACAAGGTCAGCAAACATCTGGTGACGCC -GGGCATTCAGGACAGTCAGAAAGTGGTGATCCGTGCAGGTATTTCTGCGGGCGATCGCGTGGTGACAGACGGCAT -TGATCGCCTGACCGAAGGGGCGAAAGTGGAAGTGGTGGAAGCCCAGAGCGCCACTACTCCGGAAGAGAAAGCCAC -CAGCCGCGAATACGCGAAAAAAGGAGCACGCTCCTGATGCAGGTGTTACCCCCGAGCAGCACAGGCGGCCCGTCG -CGCCTGTTTATTATGCGTCCTGTGGCCACCACGCTGCTGATGGTGGCGATCTTACTCGCCGGGATTATCGGTTAT -CGCGCCCTGCCCGTTTCGGCGCTGCCGGAAGTGGACTATCCGACCATTCAGGTGGTCACGCTCTACCCAGGTGCC -AGCCCGGATGTCATGACCTCTGCCGTTACCGCGCCGCTAGAACGCCAGTTCGGGCAGATGTCTGGCCTGAAACAG -ATGTCGTCGCAAAGTTCCGGCGGTGCGTCAGTTATCACTTTGCAGTTCCAGCTAACATTACCGCTCGATGTCGCC -GAGCAGGAAGTGCAGGCCGCGATTAACGCTGCGACCAACTTGTTGCCGAGCGATCTGCCTAACCCGCCGGTTTAC -AGCAAAGTGAACCCGGCAGATCCGCCGATCATGACGCTCGCCGTCACCTCAACCGCCATGCCGATGACGCAAGTG -GAAGATATGGTGGAAACCCGCGTCGCGCAGAAAATCTCGCAGATTTCCGGCGTCGGCCTGGTGACGCTTTCCGGC -GGTCAGCGTCCGGCTGTTCGCGTCAAACTTAACGCTCAGGCGATTGCCGCCCTCGGCCTGACCAGCGAAACCGTG -CGCACCGCCATTACCGGCGCTAACGTTAACTCGGCAAAAGGTAGCCTCGACGGCCCTTCCCGTGCGGTCACGCTT -TCCGCGAACGACCAGATGCAATCCGCCGAAGAGTATCGCCAGCTAATCATCGCCTACCAGAACGGCGCGCCAATT -CGTCTGGGCGATGTCGCAACTGTAGAGCAAGGTGCAGAAAACAGCTGGCTCGGCGCGTGGGCGAACAAAGAACAG -GCCATTGTGATGAATGTTCAGCGCCAGCCCGGTGCTAACATTATCTCCACCGCCGACAGCATTCGGCAGATGCTG -CCACAGCTCACTGAGAGTCTGCCGAAATCGGTGAAGGTGACAGTGCTTTCCGATCGCACCACCAATATCCGCGCA -TCCGTCGATGATACTCAGTTTGAATTGATGATGGCTATCGCGCTGGTAGTCATGATTATCTACCTGTTTTTGCGC -AATATTCCGGCGACCATCATTCCCGGTGTTGCTGTACCGCTGTCGTTAATCGGCACTTTCGCGGTTATGGTGTTT -CTCGATTTTTCAATCAATAACCTGACACTGATGGCGTTAACTATCGCCACCGGATTCGTGGTCGATGACGCCATC -GTGGTGATCGAAAACATTTCCCGCTATATCGAAAAAGGCGAAAAACCGTTGGCGGCGGCGCTCAAGGGCGCAGGT -GAAATCGGCTTTACCATTATCTCGCTGACCTTCTCACTGATTGCGGTGTTGATCCCACTGCTGTTTATGGGCGAT -ATCGTCGGGCGACTGTTCCGCGAATTTGCTATTACCCTGGCGGTAGCGATTTTGATCTCAGCGGTGGTGTCGCTG -ACCCTGACACCGATGATGTGCGCGCGGATGCTCAGCCAGGAGTCGTTGCGTAAACAGAACCGCTTCTCCCGTGCC -TCGGAAAAAATGTTCGACAGGATAATCGCCGCCTATGGTCGTGGACTGGCGAAAGTGCTGAATCATCCGTGGCTG -ACCTTAAGCGTGGCACTCAGCACGCTGCTGCTTAGCGTGCTGCTGTGGGTGTTCATTCCGAAAGGTTTCTTCCCG -GTACAGGACAATGGCATTATTCAGGGCACTTTGCAGGCACCGCAATCCAGCTCCTTTGCCAATATGGCCCAGCGA -CAACGCCAGGTCGCGGACGTGATTTTGCAGGATCCGGCAGTGCAAAGCCTGACCTCATTTGTTGGCGTTGATGGC -ACTAACCCGTCGCTGAACAGTGCACGTTTACAAATCAACCTCAAACCGTTGGATGAACGTGATGATCGGGTGCAA -AAAGTCATCGCCCGTCTGCAAACGGCGGTAGATAAAGTGCCGGGCGTCGATCTCTTCCTGCAACCAACGCAGGAT -CTGACTATTGATACTCAGGTCAGCCGCACCCAGTACCAGTTTACCTTGCAGGCCACGTCACTGGATGCGCTCAGT -ACCTGGGTGCCACAGTTGATGGAAAAACTCCAGCAACTGCCACAGCTTTCTGATGTCTCCAGCGACTGGCAGGAC -AAAGGGCTGGTGGCGTATGTCAATGTTGATCGCGACAGCGCCAGCCGTCTGGGGATCAGCATGGCGGATGTCGAT -AACGCCCTGTACAACGCGTTTGGTCAGCGGCTGATTTCCACTATTTATACTCAGGCCAACCAGTATCGCGTGGTG -CTGGAGCACAACACCGAAAATACCCCAGGCCTCGCGGCGCTGGATACCATTCGCCTGACCAGCAGCGACGGCGGC -GTGGTGCCGCTAAGCTCAATTGCCAAAATTGAGCAGCGTTTTGCGCCGCTCTCCATCAACCATCTGGATCAGTTC -CCGGTAACGACCATCTCCTTTAACGTGCCGGATAACTATTCGCTGGGCGATGCGGTGCAGGCGATTATGGACACC -GAAAAGACGCTGAATCTGCCGGTGGATATCACCACGCAGTTCCAGGGCAGCACCCTCGCCTTCCAGTCGGCGCTG -GGCAGCACTGTCTGGCTGATTGTCGCGGCGGTGGTGGCGATGTATATCGTGCTCGGCATTCTGTACGAGAGCTTT -ATTCACCCGATCACCATTCTCTCGACGCTACCCACCGCAGGGGTTGGCGCACTGCTGGCGTTGCTGATTGCTGGT -AGCGAACTGGATGTGATTGCGATTATCGGCATTATTTTGCTGATCGGTATCGTGAAGAAGAACGCCATCATGATG -ATCGACTTCGCGCTGGCTGCTGAGCGCGAGCAAGGCATGTCGCCGCGCGAGGCAATCTACCAGGCTTGTCTGTTG -CGTTTTCGTCCGATCCTGATGACCACTCTGGCGGCTCTGCTTGGCGCGCTGCCGCTGATGTTGAGTACCGGGGTC -GGCGCGGAACTGCGTCGTCCGTTAGGTATCGGCATGGTCGGCGGTCTGATTGTCAGCCAGGTGCTGACGCTGTTT -ACCACGCCGGTGATTTATTTGCTGTTCGACCGCCTGGCATTGTGGACCAAAAGCCGCTTTGCCCGTCATGAAGAG -GAGGCGTAAGTGAAGTTTTTTGCCCTCTTCATTTACCGCCCGGTGGCGACGATTTTACTGTCGGTTGCCATTACC -CTGTGCGGCATACTGGGCTTCCGTATGCTGCCGGTCGCCCCGCTGCCGCAGGTCGATTTTCCGGTGATTATCGTC -AGCGCCTCGCTGCCCGGTGCGTCACCAGAAACAATGGCGTCTTCCGTTGCCACGCCGCTGGAGCGCTCACTTGGG -CGCATTGCCGGAGTCAGTGAAATGACCTCCAGCAGTTCGCTCGGCAGCACGCGTATTATTTTGCAGTTTGATTTT -GACCGGGATATCAACGGCGCAGCGCGTGATGTGCAGGCGGCGATCAACGCTGCACAAAGTTTGCTGCCCAGTGGG -ATGCCCAGCCGCCCGACCTATCGCAAAGCGAACCCGTCGGATGCGCCAATTATGATCCTCACGCTGACGTCCGAT -ACTTATTCGCAGGGTGAACTGTACGATTTCGCCTCGACGCAGCTGGCTCCGACGATTTCGCAAATCGACGGTGTT -GGTGATGTCGATGTCGGAGGCAGCTCACTGCCCGCCGTACGCGTCGGGCTGAATCCGCAGGCGCTGTTTAATCAG -GGCGTGTCGCTGGACGACGTACGCACCGCCGTCAGCAATGCCAACGTGCGTAAACCGCAGGGCGCGCTGGAAGAT -GGCACTCACCGCTGGCAGATCCAGACCAATGATGAGCTAAAAACCGCCGCTGAATATCAGCCGTTGATTATTCAC -TACAACAACGGCGGCGCGGTTCGTCTGGGCGATGTGGCGACGGTGACCGACTCAGTGCAGGATGTGCGCAACGCC -GGGATGACCAACGCCAAACCGGCTATTTTACTGATGATCCGCAAACTGCCGGAAGCCAATATTATCCAGACGGTT -GACAGCATCCGGGCAAAATTACCGGAGTTGCAGGAAACCATTCCGGCGGCGATTGATCTGCAAATTGCCCAGGAT -CGCTCCCCCACCATTCGCGCCTCGCTGGAAGAAGTCGAGCAAACGCTGATTATCTCGGTGGCGCTGGTGATTCTG -GTGGTGTTTTTATTCCTGCGCTCGGGTCGCGCCACTATTATTCCCGCCGTTTCGGTGCCGGTTTCGCTGATTGGT -ACGTTTGCGGCGATGTACCTGTGCGGATTCAGTCTCAATAACCTTTCGTTAATGGCGCTCACCATCGCTACTGGT -TTCGTGGTGGATGACGCCATCGTGGTGCTGGAAAACATTGCACGTCATCTGGAAGCGGGAATGAAACCGTTGCAA -GCCGCACTGCAAGGTACTCGCGAAGTCGGTTTTACGGTGCTGTCGATGAGTCTGTCACTGGTGGCGGTGTTCCTG -CCGCTGCTGTTGATGGGCGGATTGCCGGGCCGACTGTTACGCGAATTTGCCGTGACGCTTTCTGTCGCCATTGGT -ATATCGTTGCTGGTTTCTCTGACATTAACGCCAATGATGTGTGGCTGGATGCTGAAAGCCAGCAAGCCGCGCGAG -CAAAAGCGACTGCGTGGTTTTGGTCGCATGTTGGTAGCCCTGCAACAAGGCTACGGCAAGTCACTAAAATGGGTG -CTCAATCATACCCGTCTGGTGGGCGTGGTGCTGCTTGGCACCATTGCGCTGAATATCTGGCTGTATATCTCGATC -CCGAAAACCTTCTTCCCGGAGCAGGACACTGGCGTGTTGATGGGCGGGATTCAGGCGGATCAGAGTATTTCGTTT -CAGGCGATGCGCGGTAAGTTGCAGGATTTCATGAAAATTATCCGTGACGATCCGGCAGTGGATAATGTCACCGGC -TTTACAGGCGGTTCGCGAGTGAACAGCGGGATGATGTTTATCACCCTCAAGCCACGCGACGAACGCAGCGAAACG -GCGCAGCAAATTATCGACCGTCTGCGCGTAAAACTGGCGAAAGAACCGGGGGCGAATCTGTTCCTGATGGCGGTA -CAGGATATTCGCGTTGGTGGGCGTCAGTCGAACGCCAGCTACCAGTACACGTTGTTATCCGACGACCTGGCGGCA -CTGCGAGAATGGGAGCCGAAAATCCGCAAAAAACTGGCGACGTTGCCGGAACTGGCGGACGTGAACTCCGATCAG -CAGGATAACGGCGCGGAGATGAATCTGGTTTACGACCGCGACACCATGGCACGGCTGGGAATCGACGTACAAGCC -GCCAACAGTCTGTTAAATAACGCCTTCGGTCAGCGGCAAATCTCGACCATTTACCAGCCGATGAACCAGTATAAA -GTGGTGATGGAAGTGGATCCGCGCTATACCCAGGACATCAGTGCGCTGGAAAAAATGTTCGTTATCAATAACGAA -GGCAAAGCGATCCCGCTGTCGTATTTCGCTAAATGGCAACCGGCGAATGCCCCACTATCGGTGAATCATCAGGGA -TTATCGGCGGCCTCGACCATTTCGTTTAACCTGCCGACCGGAAAATCGCTCTCGGACGCCAGTGCGGCGATCGAT -CGCGCAATGACCCAGCTTGGTGTGCCTTCGACGGTGCGCGGCAGTTTTGCCGGCACGGCGCAGGTGTTCCAGGAG -ACGATGAACTCGCAGGTGATCCTGATTATCGCCGCCATCGCCACGGTGTATATCGTGCTGGGTATCCTTTACGAG -AGTTACGTACATCCGCTGACGATTCTCTCCACCCTGCCCTCGGCGGGCGTTGGAGCGCTGTTGGCGCTGGAGCTG -TTCAATGCCCCGTTCAGCCTAATCGCCCTGATAGGGATCATGCTATTAATCGGCATCGTGAAGAAAAACGCCATT -ATGATGGTCGATTTTGCGCTTGAAGCCCAACGGCACGGTAACCTGACGCCGCAGGAAGCTATTTTCCAGGCCTGT -CTGCTGCGTTTTCGCCCGATTATGATGACTACCCTGGCGGCGCTGTTTGGTGCGCTGCCGCTGGTATTGTCGGGC -GGCGACGGCTCGGAGCTGCGGCAACCCCTGGGGATCACCATTGTCGGCGGACTGGTAATGAGCCAGCTCCTTACG -CTGTATACCACGCCGGTGGTGTATCTCTTTTTCGACCGTCTGCGGCTGCGTTTTTCGCGTAAACCTAAACAAACG -GTAACCGAGTAAATGACAGATCTTCCCGACAGCACCCGTTGGCAATTGTGGATTGTGGCTTTCGGCTTCTTTATG -CAGTCGCTGGACACCACCATCGTAAACACCGCCCTTCCCTCAATGGCGCAAAGCCTCGGGGAAAGTCCGTTGCAT -ATGCACATGGTCATTGTCTCTTATGTGCTGACCGTGGCGGTGATGCTGCCCGCCAGCGGCTGGCTGGCGGACAAA -GTCGGCGTGCGCAATATTTTCTTTACCGCCATCGTGCTGTTTACTCTCGGTTCACTGTTTTGCGCGCTTTCCGGC -ACGCTGAACGAACTGTTGCTGGCACGCGCGTTACAGGGCGTTGGCGGCGCGATGATGGTGCCGGTCGGCAGATTG -ACGGTGATGAAAATCGTACCGCGCGAGCAATATATGGCGGCGATGACCTTTGTCACGTTACCCGGTCAGGTCGGT -CCGCTGCTCGGTCCGGCGCTCGGCGGTCTGCTGGTGGAGTACGCATCGTGGCACTGGATCTTTTTGATCAACATT -CCGGTGGGGATTATCGGTGCGATCGCCACATTGCTGTTAATGCCGAACTACACCATGCAGACGCGGCGCTTTGAT -CTCTCCGGATTTTTATTGCTGGCGGTTGGCATGGCGGTATTAACCCTGGCGCTGGACGGCAGTAAAGGTACAGGT -TTATCGCCGCTGACGATTGCAGGCCTGGTCGCAGTTGGCGTGGTGGCACTGGTGCTTTATCTGCTGCACGCCAGA -AATAACAACCGTGCCCTGTTCAGTCTGAAACTGTTCCGTACTCGTACCTTTTCGCTGGGCCTGGCGGGGAGCTTT -GCCGGACGTATTGGCAGTGGCATGTTGCCCTTTATGACACCGGTTTTCCTGCAAATTGGCCTCGGTTTCTCGCCG -TTTCATGCCGGACTGATGATGATCCCGATGGTGCTTGGCAGCATGGGAATGAAGCGAATTGTGGTACAGGTGGTG -AATCGCTTTGGTTATCGTCGGGTACTGGTAGCGACCACGCTGGGTCTGTCGCTGGTCACCCTGTTGTTTATGACT -ACCGCCCTGCTGGGCTGGTACTACGTTTTGCCGTTCGTCCTGTTTTTACAAGGGATGGTCAACTCGACGCGTTTC -TCCTCCATGAACACCCTGACGCTGAAAGATCTCCCGGACAATCTGGCGAGCAGCGGCAACAGCCTGCTGTCGATG -ATTATGCAATTGTCGATGAGTATCGGCGTCACTATCGCCGGGCTGTTGCTGGGACTTTTTGGTTCACAGCATGTC -AGCGTCGACAGCGGCACCACACAAACCGTCTTTATGTACACCTGGCTTAGCATGGCGTTGATCATCGCCCTTCCG -GCGTTCATCTTTGCCAGAGTGCCGAACGATACGCATCAAAATGTAGCTATTTCGCGGCGAAAAAGGAGCGCGCAA -TGAAGTTCTGGCGACCCGGTATTACCGGCAAACTGTTTCTGGCGATTTTCGCCACCTGCATTGTCTTGCTGATCA -GTATGCACTGGGCGGTGCGTATCAGTTTTGAGCGTGGCTTTATTGATTACATCAAGCATGGTAATGAACAGCGAT -TACAACTGTTAAGTGATGCGCTTGGCGAGCAGTATGCGCAGCATGGCAACTGGCGCTTCCTGCGCAACAATGATC -GCTTTGTCTTTCAGATCCTGCGTTCATTTGAACACGATAATTCGGAAGATAAACCCGGCCCGGGTATGCCACCGC -ACGGCTGGCGTACCCAGTTCTGGGTGGTTGATCAAAACAACAAAGTGCTGGTTGGTCCGCGAGCGCCGATTCCAC -CTGACGGTACACGGCGACCCATTCTGGTCAACGGTGCGGAAGTTGGCGCGGTGATCGCCTCCCCCGTTGAGCGGT -TAACGCGCAATACTGATATCAATTTCGATAAACAACAGCGGCAAACCAGCTGGTTGATTGTCGCCCTGGCAACGT -TACTCGCGGCACTTGCCACTTTTCTGCTGGCGCGCGGTTTACTGGCACCGGTAAAACGACTTGTCGATGGCACGC -ACAAACTGGCGGCGGGCGATTTCACTACCCGCGTAACGCCCACCAGTGAAGATGAACTGGGCAAACTGGCGCAAG -ACTTCAACCAGCTTGCCAGCACACTGGAGAAAAACCAGCAAATGCGGCGCGATTTTATGGCCGATATTTCTCACG -AACTGCGTACGCCATTAGCGGTGCTGCGCGGTGAACTGGAAGCCATTCAGGATGGCGTGCGTAAATTCACGCCGG -AGACGGTGGCGTCTTTACAGGCGGAGGTCGGTACACTGACCAAACTGGTTGACGATCTCCATCAGTTGTCGATGT -CTGATGAAGGCGCTCTCGCCTATCAAAAAGCACCGGTAGATTTGATCCCACTGCTGGAAGTGGCGGGCGGCGCAT -TTCGCGAACGATTCGCCAGTCGTGGCCTGAAACTGCAATTTTCCCTGCCAGACAGTATTACCGTATTTGGCGATC -GCGACCGTTTAATGCAGTTATTCAATAACTTACTGGAAAACAGCCTGCGCTACACTGACAGCGGCGGCAGCCTGC -AAATCTCTGCCGGGCAGCGCGACAAAACGGTGCGCCTGACCTTTGCCGACAGTGCGCCAGGTGTCAGTGACGATC -AGCTACAAAAATTGTTTGAACGTTTTTATCGCACCGAAGGTTCCCGCAACCGTGCCAGCGGCGGTTCCGGGCTGG -GGCTGGCGATTTGCCTGAACATTGTTGAAGCACATAATGGTCGCATTATTGCTGCCCATTCGCCTTTTGGCGGGG -TAAGCATTACAGTAGAGTTACCGCTGGAACGGGATTTACAGAGAGAAGTATGACCGAGTTACCAATCGACGAAAA -CACACCGCGTATTTTGATCGTGGAAGATGAACCGAAGCTGGGGCAGTTGCTCATTGATTATCTGCGTGCTGCGAG -CTATGCGCCGACGCTTATCAGCCACGGCGATCAGGTACTGCCGTATGTGCGCCAGACACCACCGGATCTGATCCT -GTTAGATCTGATGCTCCCTGGCACCGATGGCCTGACGCTGTGCCGGGAAATTCGTCGTTTTTCTGACATTCCGAT -CGTGATGGTGACGGCAAAAATCGAAGAGATCGATCGCCTGCTGGGGCTGGAGATTGGCGCAGATGATTATATCTG -TAAGCCGTACAGCCCACGGGAAGTGGTAGCGCGCGTCAAAACCATTTTGCGCCGTTGCAAACCGCAGCGCGAGTT -GCAGCAACAGGATGCTGAAAGCCCGTTGATTATCGACGAAGGTCGTTTTCAGGCTTCATGGCGCGGTAAAATGCT -TGACCTGACGCCTGCGGAATTTCGTCTGCTGAAAACGCTCTCTCACGAACCAGGAAAAGTGTTCTCCCGCGAGCA -ATTGCTCAATCATCTTTATGACGACTACCGCGTAGTAACCGACCGCACCATCGACAGCCACATTAAAAACCTGCG -CCGCAAGCTGGAATCTCTCGACGCCGAACAGTCATTTATCCGCGCCGTTTATGGCGTCGGTTACCGCTGGGAAGC -CGACGCCTGCCGCATCGTTTAGTTTTAGCGACATTATTTTGTTAGCCGGAGATGGCGTTCAGACCAGATCCGGCA -ACATTATCCCACGCATGGTCAGCAAACTGACATTATCTCTCCGCCCTGGCAGGCATCAGAAAATCGCTCATACTT -TAATCGGTAAACAGCACCTTTAGATGCTGTTTTCGATACACAATTTCAATCAAGGAGTCATTATGGCTGGTTGGT -TTGAACTCAGTAAGAGCAGTGATAATCAGTTCCGGTTTGTGCTAAAAGCGGGCAATGGTGAGACTATCCTCACCA -GCGAGCTTTATACCTCAAAAACCTCTGCGGAAAAGGGCATCGCGTCGGTGCGTAGCAACAGCCCGCAAGAAGAAC -GCTATGAGAAAAAAACGGCAAGTAACGGCAAATTCTATTTCAATCTGAAAGCCGCTAATCATCAAATTATCGGCT -CCAGCCAGATGTACGCCACCGCGCAATCTCGTGAAACCGGAATTGCCTCCGTTAAAGCCAATGGCACAAGCCAGA -CGGTGAAAGACAATACGTAATTACGATGCCGGGCGTGGGTTGTTGGCGTCCGGCGCTTTACCAGAGCCCCCCACA -GCGCTACAATGCCCGCCCTTAAAGTGGGGGCACTCCCCTAACCGCTTCATCAGGTGAAGCGGATCTGACCTGTCA -TCAGAACGAGAGAATTATGTTTAAACCGGAACTCCTTTCCCCGGCGGGAACGCTGAAAAATATGCGTTACGCTTT -CGCTTATGGCGCAGATGCTGTTTATGCGGGCCAGCCGCGTTATTCCCTGCGTGTGCGCAACAACGAATTCAACCA -CGAAAATCTTCAGCTCGGCATCAATGAAGCCCACGCGCTGGGGAAAAAGTTTTATGTCGTGGTCAACATTGCACC -GCACAACGCCAAGCTGAAAACCTTTATCCGTGACCTGAAACCGGTGGTGGAAATGGGGCCGGATGCGCTGATTAT -GTCCGATCCAGGGCTGATTATGCTGGTGCGTGAGCACTTCCCTGAAATGCCGATCCACCTTTCGGTGCAGGCTAA -CGCCGTGAACTGGGCGACGGTGAAATTCTGGCAGCAAATGGGCCTGACCCGCGTGATCCTCTCTCGCGAGCTGTC -GCTGGAAGAGATTGAAGAGATCCGCAATCAGGTGCCGGATATGGAGATCGAGATCTTCGTTCACGGCGCGCTGTG -CATGGCCTACTCCGGTCGCTGCCTGCTCTCTGGCTATATCAACAAGCGCGACCCGAACCAGGGCACCTGCACCAA -CGCCTGCCGCTGGGAGTACAACGTCCAGGAAGGGAAAGAAGATGATGTTGGCAACATCGTACACAAGTACGAGCC -GATTCCGGTGCAAAATGTTGAGCCGACGCTGGGTATCGGCGCACCAACCGACAAAGTGTTTATGATCGAAGAGGC -CCAGCGTCCGGGCGAGTATATGACCGCGTTTGAAGATGAGCACGGCACTTACATCATGAACTCGAAAGATCTGCG -CGCCATCGCCCATGTAGAACGCCTGACCAAAATGGGCGTGCATTCGCTGAAAATCGAAGGTCGTACCAAATCTTT -CTACTATTGTGCACGCACCGCACAGGTTTACCGCAAAGCTATCGATGACGCCGCTGCGGGAAAACCGTTCGATAC -CAGCCTGCTGGAAACTCTGGAAGGTCTGGCGCATCGTGGCTATACCGAAGGTTTCCTGCGTCGTCATACTCACGA -CGATTATCAGAACTACGAATACGGTTATTCAGTTTCTGACCGCCAGCAGTTTGTTGGTGAGTTTACCGGTGAGCG -CAAGGGGGACCTCGCGGCGGTAGCGGTGAAAAATAAATTCTCCGTTGGCGACAGCCTTGAGCTGATGACGCCGCA -AGGCAACATTAATTTTACCCTTGAGCACATGGAAAACGCCAAAGGCGAAGCTATGCCGATAGCACCAGGCGATGG -TTATACTGTGTGGCTCCCGGTCCCGCAGGATCTTGAGCTCAATTACGCGCTGCTGATGCGTAATTTCTCCGGGGA -AACCACGCGTAATCCCCACGGTAAGTGATTAATTTCGATTATTTTTCCCGGATGGAAAATTCTTAGAAACCGATC -ACATACAGCTGCATTTATTAAGGTTATCATCCGTTTCGCTGAAAAACATAACCCATAAAATGCTAGCTGTACCAG -GAACCACCTCCTTAGCCTGTGTAATCTCCCTTACACGGGCTTATTTTTTACGCGTAATACAATGAAATAAAAGGA -TTTATTTCTGGTCACGTCCACACATTGACCACATCGACAAAAAAGCCCCTCGACTGAGGGGCTTCCTGTTTCTAA -TTACATCCACATAATTTGCTGCCCTGACGGCAACGGGTGCGGCCTTACGACGTGGACTTCTCCCGGCTTCACAAT -GTATCGCTGTACCGACTCATAAGTGATGAACGTGGCGCTGCAATTCACGTTCTGACACTGGTGATAACGCTCTTT -TGTCGTGTCAGTGATATAGCGGCTTGTACGCGCATGTGCGGCATGCTGGCATAAAGGACAATGAAACATCGCGAG -CACCTCTTCCGGTTTTGTTGATGGTGCCATTTTAGTTAATTTACCCTTACAAAACAAACAGATAAAATAAAAACA -TCACTCATTATCTTCTGTTTCGTACCCCACATCAGAAAGCCTGACCTCAAGCTCTAATGACGTCGTGAAGCCGCT -ATTATTCAGAAAATGTGTCACCTTAGTGATTGTCCAGTCCTGCTCGTCTATGACGCGCTTAAAGCCAGACACTTT -GACCGGTGTTTCCGTGTAAATATCTGCCCGACCGGTAGCCAGGCTGATGGAGAACTCTGCTACACGGGCTTATTT -TTTTATGCATAAGCCCTATCTCTGGTAACCGTCTTCCATTGACCACATCGATAGAATCCTCCTTCATAGCACGAT -GCCTTTCACTTATCGGCATCGTGCTCCCACAGGTTCCGGCTACGCACAGCCAGAACGCGCATATTTGACGCTTAC -CAAAAAATATTCTCACTCTCCACATTTGAATGTCAGACGAGCGACACCATGTAATCCTACACCTTCTGTCTTCAG -CTCAACTATTTGCATTTTTTTGCCCTGAGTAACACAGAAATGAGTTGCATCATTTTTTACTATATTTTCTGCACC -AGATATTCTACCCCTGGCTAAAGAAGCTTCGGCTTCGGTGTAGTATTGGTTATCGAGTTTACGCTGAATATTACT -TTTATATGCAAGACCAAATTTACCGATACTTGTCTCATCATTATGCACAGCACAACCAGACATAATAAAAATACT -AATTAATGATATAGCAGCTATCTTTTTCATCTCACCTTCCCCCATTAAATACCAACGACACTCTCTAGTGTTTAA -ATATAATAATGGCATGATTATTATAATTGAATAGGATTATAATAAATGTTCTGTACAACATTTCCTACATAAGTA -GGAATTACGGACATTGAGGCCCTTCAGGGTAACTCCATGGGGGCTTTAATATATTATATTGAAGATGCCACTGTT -TAGTTGAATATTAGGTATATGCTCTTTTTTGAAATTTATCGGTGGCAGCCGTTAGTATTCGCTGTCCCCATTGCA -AGCTCCTGGTGGTAACCACTGAATCCTCCATACTTGAACTGACTTTTTATCCTCCGACTTTCATCCTGTTCTGAC -TCCACCTTTTGTTTTCTGCTCTACACTATCTACAGACCAATCATAAAGGCACATACGATCATGGCAGAATTTCCC -GCCAGCTTACTGATTCTTAATGGCAAAAGTACTGACAATCTACCCTTGCGCGAAGCAATTATGCTGTTGCGTGAG -GAAGGAATGACGATCCATGTGCGGGTCACCTGGGAGAAAGGCGATGCCGCACGATATGTAGAGGAGGCCCGGAAG -TTTGGCGTCGCAACGGTGATTGCCGGTGGTGGCGATGGCACCATTAATGAAGTTTCTACGGCGTTGATTCAGTGT -GAGGGGGATGACATACCCGCGCTGGGAATTTTGCCATTAGGAACCGCCAATGATTTTGCCACCAGTGTAGGGATT -CCTGAGGCACTGGATAAGGCGCTGAAACTGGCAATTGCCGGTGACGCCATTGCGATAGATATGGCGCAGGTCAAC -AAACAAACCTGTTTTATTAATATGGCGACAGGCGGATTTGGGACGCGTATTACCACAGAAACGCCGGAAAAATTA -AAAGCCGCGCTGGGTAGCGTCTCTTACATCATTCATGGCTTAATGCGTATGGATACTCTGCAACCGGACCGTTGT -GAAATCCGCGGTGAAAACTTTCACTGGCAAGGTGACGCCCTGGTCATTGGTATTGGTAACGGGCGTCAGGCCGGT -GGCGGTCAGCAATTGTGTCCGAACGCGTTAATTAACGATGGCTTGCTGCAACTGCGCATTTTTACCGGCGATGAA -ATACTTCCGGCTCTCGTATCAACCTTAAAATCTGACGAAGATAACCCGAATATTATCGAAGGCGCTTCGTCGTGG -TTTGATATTCAGGCACCACACGACATCACCTTTAATCTTGATGGCGAACCGTTGAGTGGGCAAAATTTTCATATT -GAAATACTTCCGGCAGCGTTGCGTTGTCGATTACCACCAGATTGTCCACTGTTGCGTTAATCAAACTATTCTCTC -TTGAACCAGGGAGAATCCGTAATGCCGGATGCGGTGTAAACACCTTATCCGGCATACAGAACAATACTACACCGT -AATTAATTTTACCCGCGTCTTCTGCAATGCCAGTTTATCCACCTCTGACACAGCATCATCGGTAATAATAATGTC -AATTTTTTCGATTGGTAGTACCTGATTAAAACCGCGACGGTTAAATTTCGATGAATCGAGAACGGCAATCACTTT -ATTAGCGGCTGTGACCATCGCACCGCTAATAGAATAACCTTCATTAAAGGTCGTAATACCATTAACCGCATCAAT -ACCATCAGCACCGACAAACATTAAATCGGCATTAATATCCTGTAATGAACGCTCGGCAATGGAACCATGCATCGA -GCGCGTTTTATGGCGGACCGTGCCACCACAGACGACCAGAGTAATGTCTTTATTTTCGGAAAGGGCAAACGCTGC -CGGGAGACTGTTGGTAATCACCGTGATATTTTTGGCGGTCATTAATCCTTCGGCGATAAGCATTGTCGTACTTCC -GCTGTCGAGAATAACGGTCTGATCTTACCCAGCAATAGTGGACACGCGGCTAAGTGAGTAAACTCTCAGTCAGAG -GTGACTCACATGACAAAAACAGTATCAACCAGTAAAAAACCCCGTAAACAGCATTCGCCTGAATTTCGCAGTGAA -GCCCTGAAGCTTGCTGAACGCATCGGTGTTACTGCCGCAGCCCGTGAACTCAGCCTGTATGAATCACAACTCTAC -AACTGGCGCAGTAAACAGCAAAATCAGCAGACGTCTTCTGAACGTGAACTGGAGATGTCTACCGAGATTGCACGT -CTCAAACGCCAGCTGGCAGAACGGGATGAAGAGCTGGCTATCCTCCAAAAGGCCGCGACATACTTCGCGAAGCGC -CTGAAATGAAGTATGTCTTTATTGAAAAACATCAGGCTGAGTTCAGCATCAAAGCAATGTGCCGCGTGCTCCGGG -TGGCCCGCAGCGGCTGGTATACGTGGTGTCAGCGGCGGACAAGGATAAGCACGCGTCAGCAGTTCCGCCAACACT -GCGACAGCGTTGTCCTCGCGGCTTTTACCCGGTCAAAACAGCGTTACGGTGCCCCACGCCTGACGGATGAACTGC -GTGCTCAGGGTTACCCCTTTAACGTAAAAACCGTGGCGGCAAGCCTGCGCCGTCAGGGACTGAGGGCAAAGGCCT -CCCGGAAGTTCAGCCCGGTCAGCTACCGCGCACACGGCCTGCCTGTGTCAGAAAATCTGTTGGAGCAGGATTTTT -ACGCCAGTGGCCCGAACCAGAAGTGGGCAGGAGACATCACGTACTTACGTACAGATGAAGGCTGGCTGTATCTGG -CAGTGGTCATTGACCTGTGGTCACGTGCCGTTATTGGCTGGTCAATGTCGCCACGCATGACGGCGCAACTGGCCT -GCGATGCCCTGCAGATGGCGCTGTGGCGGCGTAAGAGGCCCCGGAACGTTATCGTTCACACGGACCGTGGAGGCC -AGTACTGTTCAGCAGATTATCAGGCGCAACTGAAGCGGCATAATCTGCGTGGAAGTATGAGCGCAAAAGGTTGCT -GCTACGATAATGCCTGCGTGGAAAGCTTCTTTCATTCGCTGAAAGTGGAATGTATCCATGGAGAACACTTTATCA -GCCGGGAAATAATGCGGGCAACGGTGTTTAATTATATCGAATGTGATTACAATCGGTGGCGGCGGCACAGTTGGT -GTGGCGGCCTCAGTCCGGAACAATTTGAAAACAAGAACCTCGCTTAGGCCTGTGTCCATATTACGTGGGTAGGAT -CAGTCATCCCTTCGTGGATCATTTTGACTGCCGCCTGCGCTATTCTGTTTTTTGGCGCGCTGGCGAGCTGAAATC -GCTCTTTAAACCCGACTTCCTGGGTCTCGGTTTCACTATTACCAGACATTATTTTCGCCGCACCGCCATGAAAGC -GCGTAACCACGCCTTTTTGTTCGAGAAAGCGCAAATCGGCACGGATTGTCGCTTCCGAGGCAGCAAATACTCCCG -CCAGATCCTGAACAAGCACGGTTCCCTGTTCATTCACTAATTGGATGATCTTATTCCTTCGCTCGAATGAATTCA -TCGTCATTTACCCATATTCAATTGTGGCTAGTGTAAACGAAGGGGGACCATTGGTGAATGATCTGTTTTGCACAA -TACCGGGCCAGCATCACGCTGGCCCGCGGTTTCAGGGAATGAGCAACACTTTGCCCGGCATAGCATTACGAGCGA -TGTCACGCACCGCCTGGGCGAAGCTTTCAAAGCTTCCACGGTGAGCGATTAATGGCTCCAGGCTTAACTTACGTT -CTGTCAGCAACCGGCTCGCCGTTTCCCACTCCTGCCCCGGCCAAGGGCTGGAGTAGTTCATCCAACTGCCGATAA -CCGTCAGCTCTTTACGCAATATTTTGCCAAACGTTGCCGATGTTAAATGCAGATCCTGATGCAACGTGCCCACCA -GCGCCAGTTGGGCATGAGGACCGGCAATCTCTACCGCCAGTTCGACAGTTTGCGGTACGCCAGCCGTCTCGAGGA -TAAGCTGATTAAAGCGCAGTTCGCGTAAAACGCTCTGCATTTGCGGCGCGCTCATTTCGCTACTGTTAAATGTTT -GCATCGCACCGAAAGATTTTGCCAGTGCCAGTTTTTCTGAACTAATGTCGATCGCCGTCACACTCTTTGCTCCCA -GCGCGACAGCGCACTGAATGGCCAGCAGGCCAATGGTTCCGGCACCAATAATAATAACGTTTTTATTCTCACAAC -CTTGCGCTAAATGAAAAGCATGCAGACCAACGGTAATCGGCTCAATAAAAGCCCCATCCTCAATAGGCATATCCG -TGGGTAGAGCAAAGACATTTTTTCGCTTAACGACAATATATTCAGCAAATCCACCATCACGCCGCGAGCCAATAA -AATCATATTTTGCGCACTGGGAATAAAACCCTTTCAGACACTCTGGACAAGTAAAACAGGGTAATAACGGCACAC -AGGCAACCGCATCGCCAGGGTGTAAATCATCAACACCGGATCCCACCGCATCAATATAGCCGCTAAATTCATGGC -CTAACGTTATTGGATAATAATGTGCACCATTTTTAAATATCCTGGGTAAATCGGAACCACATAAGCCCGAGCTGG -CAATTTTTACCCGCACCTCATCCTGATGTTTAATTTCAGGAATGACGCTTTCTGCAACGCGCACGATACCATCAG -TATCATTCACCACTGATTTCATAAAAACTCCTGATTGTTAAGGGGGATAACCTCCCCCTCAGGTAAAAATTATTC -TGCGAGAACGACTTTCTCTTGTTTAATAAAGCCACGCGCTCTACGCCAGGTCATGAAAATACCGGTCAGATAAAT -TGCACCGATAATAATGAAACCGGGAATATTTTGCGGGGAGAAAACCTGAATCAGTAACCAGGTAATGGGAGAACC -GCCCTGATCCATTGAAGCCACCATACCCCCGGCTTTTAACGCCCCAGCATTAGCCGCCAGTTGGGTGTGCAAACC -AATAGTTTGCGTCGCGATCCACAGGGTGATGCTCATAATGATGACACCCGAGATTAAGGTGCGGAACAGATTTCC -ACGATGCACGGCGACCGCCATCGCCACGAAGAAGCCGATGGTGGCAAGATCGCCAAACGGCAGCACCTGATTACC -CGGCACACAAACAGCAATTAAAATGGTGAGTGGGATAAAAATCAGGCTTGCCGATACCACCGCCGTATGTCCCAG -CAGCAACGCCGGATCAAGGCCAATCAGGAACTCCTGACCGCCGAACTTCGCCTGTAAACGACTACGAGCCTGCTT -AGCGATGGGCGTTAAACCATCCATGATGGGTTTAATCACCCGTGGCATTAGCAGCATCACTGCCGCCGTTTTTAC -CGCCAGCTGCAATACACCTTTGACATCGTAACCCGCGAGGATGCCGATAATCAGCCCCATCACAAAACCCACGGT -GACAGGCTCGCCAAATGGACCAAATTTGCGCTGAATATCGTCGGCGCTAAATTTAATTCGGTTAACGCCTGGGAT -TTTCTCGATGATAGCATCGACCAGCACCGCAATCGGCCCCATATACGCCGACGTACCGTGCGGAATAGCAATACC -TTCCAGCTCAAAGAAATTTCGGGTATCGCGGGCAAACCAGTCGCCGAGCTTATAAACAAACGCCGCGTGAATTAC -CACACCTGCCATCCCTATCATCCATGAACCGGTTGCCAGATGCAGCAACGCGCCGGTGAAGGTCATATGCCAGAT -ATTCCAGATATCAACATTTACCACCCGCGTCATACGGGTCAGTAACATCGCCACGTTAACCAGAATCGCAATCGG -AATCGCCACCAGCGCAATTTGCGACGCCCAGGTCATTGGTGAAGAGCCCGGCCAGCCAACATCGACCACATGCAG -ATTCAGGTCGAAATTTTCCGCCATCGCTTTCGCCGCCGGGCCAATGGAATCCAGCATTAAGCCAATCACAAGGCC -AATGCCAACAAAGCCAATCCCGATATGCAGACCCGCTTTAAAGCAATCGCCTGCCTTCATGCCTAATATTTTAGA -AAAAATAATGATGACAATCGGCAGCATCACCGTAGGGCCGAGGTCGAGAATATAACGCATGACTTCTGAAAACAT -AGGTCACCCCTGTAAGATAGTCAGAATTTTATTTTGTAATGCTTCGATACCGATACCAGAAATAAAAGGCATGCC -GTGAACTAACGGAATATCGCCAAAACTACGATCCACTTTGGCAGTGGTGCATATCAAATGCACACCATCCATATA -GGTTTCTATTTCATTAACCCGACACTGGATTAATTCAACAGGAATATTATGATTCTGACACAACTCTTTAATTTC -TTCCGCCGCCATCGTAGAGGTCGCAACCGCGCCTCCGCAAGCGACAATAATCTTGCGTTTCATAAATAGTCCTTT -TTATTGTTACAGAGGGATTTATTCGTCTGAATCTAAAACATACTTTGTGAAGTATTCCTTTAACTGGGTTTCAGG -AAGAGTGATTAGTGTCTCGACGATATCGGGCTGTTGTAACTTGCCAAATAAACAGCGTAAAAGTTTCAATTGCTG -CTGCGGATTTTCCACAATCAACGCAATAACCAACGATACCGCCACGTCGTTATCATCATCCGCTTGCTGAAAATG -AACTTTATTTGTTGGCCTTAACAGATAAATGGCTGACGACTTAGCATGAATCGCCTCACAATGCGGTATTGCAAT -AGCGTGCTGCTCAAGCATTATCCCGGTAGGGAATTCTGCTTCTCTGGCAATTAATGCCTGTGGCCAGGTATCATG -AACCACACCTTTGGCGAGCATCTCATTACCGATATGGGTTAAAACTTCGCTACGATCGACAAAAGAAATTCCGCT -ACGAACAAACAGGTTAGTCATATACCGTCCTTATTCCGCACAGCCGTAGCGATAGGCGCGCAAAACATCATAAAT -TTTATCCATAATCAGCTGATGCGGTATTGCTGATAATTCCCCGGACTGAATGCGTTCAAATTGTTTGGGAAGATA -CTGACTAATCATGCCCAGTGGGATGTCCACGCCTTCAAGATTCACCATCATCGTTTCGACGCTATTTTTAATCCG -ACTATGCGGCCAGTAATAACGAATACGATCCGACAGGCTGTAACGAATATCCAGTAATGAATCGTTAAAACCCGT -ACGATAATATTTTTTCCAGTATTGCGGTTCGTCGAGCATCACTTCTTCAATTACCGCCAGGCAACCGCTGCGATT -TTCAGGGGCGATAAGTTCCTGCTCAATTTGTGCCAGTGCAAATATCGCCTCGCGTAAAGCAAAGGTTAATGCGGG -ACCGACTTTCAATATTGCAAAGTGATCGCGGACTAATTCCCAATAAGCCGTCCGGGTCTGGTAATCGGTAGAATG -TGCTTCATAAACCATTCGGGTGTTTTCTATCCATTGCGCCAGCGGCTGCGCTTCCTGCGGCTGATAATGGATAAT -ATTGCTGTGATCAAATTCCACACCCGGCTGCACCACGATGGCAATCACACGTGTTAACGCCTCTGTCAGCCCACG -GGCAATAAAGGCCTTTTGATGCGTACGTAAAGTATTGGCGGCATCTTCAACATGGGTGATGTGTACTGACTGAAT -GGCGCTGGCCTCACCGCCCGGAACCGGAACTTCGGTGCCAATGACATAGCTCAGTTGCTCACGCTGGCAATCTGT -CGCCACACTTTCCGCAGCAAAGCAAAGCACAGCAGCTCGTTCCGCAACCGTTTCTGGTGCTAACGGTATGGGATC -CCCCGCGCAGGACATTGACGCATCAAGATGAATTTTACTGAAGCCGGCACGAACATATTCCTTTACCAGCTCGAC -GGATTTTTCCATCGCCGCATCCGCATTTTCTTGCTGCCAGCAGTTTGGCCCCAGATGATCGCCGCCGAGAATAAT -GCGTTCGCGTGCAAACCCAACTTTATCGGCAATCGTAAAAACAAATTCGCGAAAGTCTGCCGGTGTCATTCCGGT -ATAACCGCCAAATTGATTGACCTGGTTTGACGTTGCTTCAATCAGCACTTTGCGCGTGCTGTTGCGATCAAATGC -CAGCGCCGCTTCGATAACCAACGGATGGGCAGAACAGACTGAACATATGCCGATATGTTCACCAGCTTTATGCCG -GGCAATTAACGTTTTCATGTTTTTTCCTTGTTAAATGGCAGGTGCGTTATGCCCTGCCCTCGCAGCCACAATCGG -CAATCACTTTGCTCACCACATCGCGCATTGCGGATTTAGCCGACTGCAAATAATCCCGGGGATCGGTCGCTTCAG -GGTGCTCGGTCAGGTAATTTTTTAACGCCTGCGAGAAGGCATTTTTCAGCTCCGTTGCAACGTTGATTTTGCATA -TCCCCAGTTTGATGGTTTGCTGAATATCCTTAGTCGATAACCCTGACGCGCCATGCAGCACCAGCGGTAAGTTCA -CCCACTGGCGAATGTTCTCCAGTCTAGAAAAATCAAGCGCCGGTGCGCTGGCATACATCCCATGAGCCGTGCCGA -TGGCGACCGCCAGGGAATCAATTCCGGTTGCCTCGGCAAATTCACGCGCCTGAGCGGGGTTGGTGTACAACGCAT -CGGCTTCATTGACTTGCACATCATCTTCCTGGCCGCCAAGTTGCCCCAGCTCCGCCTCGACGCTGACATCAAAGC -GATGGCAAAAATCCACCACCTCTTTGACCCGTGAAATATTTTGCGCAAAAGGCAAATGCGAGGCGTCAATCATGA -CTGAGCGCACGCCAGAACGAACCTTCTGAGCGATATCGTCAAATTTCGTGTGATGGTCGAGATGAATTGCCAGTG -GATGGTGATATTGCTTCGCCATCGCGCTGACCAGCGCCAACAGATTTTCTGTACCAGCATGAGTAAATGTGCCAG -GCGTTCCGGCGATGATGACCGGCGCATGCAGGTTGGCAGCGGTTTCTACCACCACTTGCATCGTTTCGAGATTGT -GAATATTGAATGCCGGAACCGCATAACCGCCGCGCTGTGCGTTGTTCAGCATCTGCTTTGTCGATACCACGTACA -TTTTCATATCCTGTCGTTTGTTTTCGATTTCAAAATATAATGAAATTATTTGTTTTTAAATATCGAGATAACGAT -CACAAAAACGACAATATGAAAATTATTCGAGGAGTGAAAGGCAAAAAAACGGCCTCCCGATAGGGAAGCCGTAGC -AAAGTGCGCGTGTTTTTATGCCGGATGCGGTGTAAACATACGTGGCAGTGCTATGTAGGCATGATAAGACGCTTC -AGCGTCGCATCAGGCATAGGTTGCCGGATGCAGCGTAAACGCCTTATCCGTCCTACGGGGTGGTGTTGTTCGTAT -AAGGCGTATCAGGCGATAGTAATTTTGCTATCGAGATAAACGTCCTGCACGGCGTTAATCAGTTTCACGCCGTCA -GCCATCGATTTCTTGAACGCTTTACGTCCAAGAATCAGCCCCATTCCGCCTGCGCGTTTGTTGATAACCGCAGTA -CGCACTGCATCGCTGAGGTCAGTTTCACCGCCCGCAGCACCGCCGGAGTTTATCAACCCAGCCCGACCCATATAG -CAGTTAGCTAACTGATAACGCACCAGATCAATCGGGTTTTCGCTGGTCAATTTGCTGTAAACACGATCGTCGGTG -TAACCGTAATTAATTGCTTTATAGCCGCCGTTATTTTCCGCCATTTTTTGTTTGACGATATCTGCACCGATGGTT -GCCGCCAGATGGTTTGCCTGACCGGTCAGGTCGGCGGAAACATGGTAATCAACGCCATCTTTCTTAAAGGCGGAG -TTACGCAAATAGGCCCACAGCACTGTCACCATACCCAGCTCGTGCGCACGTTCAAAAGCCGCAGAAATTTCTTCA -ATCTGGCGACGTGACTCTTCCGAGCCAAAATAGATAGTCGCACCAACCGCAACCGCGCCCATGTTGAACGCCTGC -TCCACGCTGGCATACAGCGTTTGATCGTAGGTATTCGGGTAACTTAGCGTCTCGTTGTGATTAAGTTTGACGAGG -AATGGAATGCGATGCGCATAACGCCGCGATACCGACGCCAGCACGCCGTAAGTTGACGCCACACAGTTACAGCCC -GCTTCGATCGCCAGTTCAACAATGTTTTTCGGGTCAAAGTAGAGCGGGTTAGCAGCAAATGAAGCTCCGGCAGAG -TGCTCAACGCCCTGGTCAACCGGCAGAATAGAAAGATATCCTGTGCCAGCCAGACGCCCGGTGTTGTACAACGTC -TGCATATTACGTAACACCGCTGGCGGGCGATTATTGTCAATCATTACGCGGTCTACGTAGTCATGTCCGGGGAGA -TAAAGCTGGTCAGAAGGAATTGTCATACAACGGTGCTGTAAAAGGTTGTCGGCGTCTTTGCCAAGCAACTGCGCA -ATATCTGTCATTACTATGCTCCCGTAAATTCCGATTGGATATCGGCTATGGATTGTCCTGGCCCGCCTTTTGCGG -GCAATCATAATCCTGGTCGTTACGGGCGAGTTTTTCCATCTTTTGGATGTTTTTTCAGCGTTTTCTGTTGGCTCG -ATTCATCAGAAAAAATGTTAGCGCGGTCAAGTTTTCACCGCAAAGGTATTTAAAAGGTATTATTAAGTGGTATTG -TCATCGCGTACCTTACATTACCTGTCATGAAGGAATTAAAAGATGAAAACAACAGCAAAGCTGTCGTTCATGATG -TTTGTTGAATGGTTTATCTGGGGCGCGTGGTTTGTGCCATTGTGGTTGTGGTTAAGTAAAAGCGGTTTTAGTGCC -GGAGAAATTGGCTGGTCGTATGCCTGTACCGCCATTGCGGCGATCCTGTCGCCAATTCTGGTTGGCTCCATCACT -GACCGCTTTTTCTCGGCGCAAAAAGTGCTGGCGGTATTGATGTTCGCAGGCGCGCTGCTGATGTATTTCGCTGCG -CAACAGACCACTTTTGCCGGGTTCTTCCCGTTACTGCTGGCCTACTCGCTAACCTATATGCCGACCATTGCGCTG -ACTAACAGCATCGCTTTTGCCAACGTGCCGGATGTTGAGCGTGATTTCCCGCGCATTCGTGTGATGGGCACTATC -GGCTGGATTGCCTCCGGTCTGGCATGTGGTTTCTTGCCGCAAATACTGGGGTATGCCGATATCTCACCGACTAAC -ATCCCGCTGCTGATTACCGCCGGAAGTTCTGCTCTGCTCGGTGTGTTTGCGTTTTTCCTGCCCGACACGCCACCA -AAAAGCACCGGCAAAATGGATATTAAAGTCATGCTCGGCCTGGATGCGCTGATCCTGCTGCGCGATAAAAACTTC -CTCGTCTTTTTCTTCTGTTCATTCCTGTTTGCGATGCCACTAGCGTTCTATTACATCTTTGCCAACGGTTATCTG -ACCGAAGTTGGCATGAAAAACGCCACCGGCTGGATGACGCTCGGCCAGTTCTCTGAAATCTTCTTTATGCTGGCA -TTGCCGTTTTTCACTAAACGCTTTGGTATCAAAAAGGTATTATTGCTTGGTCTGGTCACCGCTGCGATCCGCTAT -GGCTTCTTTATTTACGGTAGTGCGGATGAATATTTCACCTACGCGTTACTGTTCCTCGGTATTTTGCTTCACGGC -GTAAGTTACGATTTTTACTACGTTACCGCTTACATCTATGTCGATAAAAAAGCCCCCGTGCATATGCGTACCGCT -GCGCAGGGGCTGATCACGCTCTGCTGCCAGGGCTTCGGCAGTTTGCTCGGCTATCGTCTTGGCGGTGTGATGATG -GAAAAGATGTTCGCTTATCAGGAACCGGTAAACGGACTGACTTTCAACTGGTCCGGGATGTGGACTTTCGGCGCG -GTGATGATTGCCATTATCGCCGTGCTGTTCATGATTTTTTTCCGCGAATCCGACAACGAAATTACGGCTATCAAG -GTCGATGATCGCGATATTGCGTTGACACAAGGGGAAGTTAAATGAAAACAGAACGTATTCTCGGTGCTCTTTATG -GGCAGGCGTTAGGGGATGCGATGGGGATGCCCTCCGAGCTTTGGCCACGCAGCCGCGTTAAAGCACACTTTGGCT -GGATTGACCGTTTTCTTCCTGGACCAAAGGAGAATAACGCGGCCTGTTATTTTAACCGCGCCGAATTCACCGACG -ATACCTCGATGGCGCTGTGTCTGGCGGATGCGTTACTGGAACGTGAAGGCAAGATCGATCCGGATCTGATTGGGC -GTAATATTCTCGACTGGGCGCTGCGTTTCGACGCCTTTAACAAAAACGTACTAGGTCCGACCTCGAAGATTGCGC -TTAACGCCATTCGCGACGGTAAACCCGTTGCTGAACTGGAAAACAACGGCGTGACCAACGGCGCAGCGATGCGCG -TCTCGCCATTAGGTTGTTTGCTTCCGGCGCGTGATGTTGATTCCTTTATTGATGATGTAGCGCTGGCGTCCAGCC -CGACCCATAAATCCGATCTGGCGGTTGCAGGCGCGGTAGTCATCGCATGGGCGATTTCTCGTGCCATTGACGGAG -AAAGCTGGTCAGCGATTGTTGATTCCCTGCCTTCAATTGCGCGACATGCACAGCAAAAACGCATCACTACGTTCA -GCGCCTCACTGGCGGCGCGGCTGGAGATTGCGCTGAAAATTGTGCGCAATGCCGACGGCACCGAATCCGCCAGCG -AACAGCTTTACCAGGTCGTTGGCGCAGGTACCAGCACTATTGAGTCCGTTCCGTGCGCCATTGCGCTGGTTGAAC -TGGCACAAACCGACCCGAATCGCTGCGCCGTCCTGTGCGCTAACCTTGGCGGCGACACAGACACCATCGGTGCTA -TGGCGACGGCAATTTGCGGCGCGTTGCATGGCGTTAACGCTATCGATCCTGCGTTAAAGGCGGAACTGGATGCGG -TAAATCAGCTTGATTTCAACCGCTATGCCACAGCGCTGGCGAAATATCGTCAACAACGGGAGGCGGTATGAGCGG -CGCTCGATTACACACGCTGCTGCCTGAATTAACCACGCGTCAGTCGGTGATGGTCGTCGGCGCGGCGGTCATTGA -CGTGATCGCCGACGCTTATGCCCTCCCCTGGCGTGGGTGCGATATCGAACTGAAACAGCAGAGCGTTAACGTTGG -CGGCTGCGCACTGAATATTGCCGTGGCGTTAAAGCGCCTCGGCATCGAAGCGGGTAATGCCTTGCCGCTCGGTCA -GGGCGTGTGGGCGGAGATGATTCGCAACCGGATGGCAAAAGAGGGCTTAATCAGCCTGATCGATAACGCCGAAGG -TGATAACGGCTGGTGTCTGGCGCTGGTTGAGCCGGATGGCGAACGCACTTTTATGTCATTCAGCGGTGTTGAAAA -TCAGTGGAATCGCCAGTGGCTGGCGCGATTAACCGTTGCGCCTGGCAGCCTGCTCTATTTTTCCGGTTATCAACT -GGCCTCGCCCTGCGGCGAATTGTTAGTGGAATGGCTGGAAGAGCTGCAAGACGTGACGCCGTTTATCGATTTTGG -CCCACGTATTGGCGATATCCCGGATGCATTACTGGCGCGGATCATGGCCTGTCGACCTTTAGTGTCGCTCAATCG -TCAAGAGGCTGAGATTGCCGCCGAACGTTTTGCTTTATCCGCAGAGATAACAACACTTGGCAAGCAATGGCAGGA -GAAATTTGCCGCGCCGTTGATCGTTCGTCTCGATAAAGAAGGCGCATGGTATTTCAGCAACGACGCTTCTGGCTG -CATTCCGGCATTTCCAACGCAAGTTGTCGACACCATTGGGGCGGGCGACAGTCATGCCGGTGGCGTACTTGCCGG -GCTGGCCTCTGGTCTGCCACTGGCGGATGCCGTATTACTGGGCAATGCAGTGGCGTCGTGGGTTGTCGGGCATCG -GGGCGGTGATTGTGCGCCAACGCGCGAGGAACTACTCCTCGCACACAAAAACGTATAGATCGCTGCGACAGTGGC -TAATGCTGTACTCAATAGGCCGTTGCTGTTGGTCAAGCGCCACTTGCTTGATCACCAGCACCGGTATTTTGCTAT -CTAACTGAATATGTGACTGAAACTCGGCATCCGGCATCCGGGCGCTAACGCGGGAACGCGTACGTTGTGGGTAAA -TGTGCTGGCTGCGGAAATAGTCATAAAGTGAAATCCCGATGGCATCAACATCATGAATTAAATGCGCCGGAACCC -ACGATTCCTCAATCGATACCGCTTCTTCATCGACATAGCGAATACGCTTAAGCAAAAAGACATCACTTCCTGCTT -CGACCGCCAGCTGCTGCGCGACTTCTTCGGGACATTTCACGACACGCTTGTTAACCCATAGCGTATCGGGCTTTT -TCCCGCGCAATACCACCTGCTGAGAAAAACCTCGCGCTTCTTTCAACGAGTATTCGAAGATGTTGTTGATCTGCG -TGCCGTAACCGCGCGAACGCGTCACCACACCCTCTTCTTCCAGCGCCTGCATCGCCTTGCGCACCGTAATGCGCG -AAACGCCGGTTAACTGACTTAAATCACGCTCACCGGGCAAAATATTGCCATGCTCCAGCACCCCGCTGCGCACGG -CATTTTTTACCGTTTCGGCAAACTTAATATAAAGCGGCGTGTTATCCGCCGCTAAAATACGCTCGTTCAGTTGGG -CAATCAGCTGGGTATGCGCTTGTTCCATTTGTCTTTTTCCTGCCGGGGAGTCTGGTGGGAGTATATCACTGCTTC -TTATTTAAGGCGTTTCTTTAATCCCATCAACGAATGCCTGCAACTCCTCCACCGTGCCATTAAATACATTAAAAT -CCACCGGACCATTGATGCCATCTACCTGTCCACGGTCGGAATGCTGCCAGAAGCGCCAGGCCATTCCGTCATTGT -CCGGACGACGTTGATAGTAGTGAGCCACCCACCACGGATATTCATTGAAATAGCCCGCCAGATTGGTGTGATAAA -AAACGGCTCCTGAGTAAATAATCGGCTTTTTCCCCGTACTTTTTTCGACCATTTTTAGCCACTGACTTACCCGCT -TGCGTAATTCTTTTGCCGATAATTTTCCCCGTTCTTCTACGTCCAGCACGGCAGGGAAATCGCCTTGTGAGAAAT -CCACCGTTTGCAGAAATAATCTCGCCTGAACTGAAGCGGATACCGACGGGGAGAAATAATGATACGCCCCACGCA -GCAGGCCATTTTCGCGGCTTAGTTGCCAGTTACGCGAAAAATAGGGGTCCACCAGCTTTTCGCCTTCCGTCGCCT -TAATAAAAGCAAACTGTAAGCGGATACCATTGTCGCGCATTTTTGCCACCCGCTGCCAGTCGATCCGCTCCTGCC -AGCGCGAAACATCTATTCCGTGAATGGTGTAACTGGCAGGAATGCGAATAGCGAAAGATTTAACCGGGCGATAAC -CGTAGAAGTGGATGTAGTCTGTAATCTGAACTGCTGTCGAATAGAAAAAATTCACCGTCTGACGCGGATAAATTG -CAACGATGGAAATTAGCCCAAGAGCGCATAATAGAGAGGTGAGTTTTTTTCGACTGGTAATTCTTAGCTGCATTG -GTTTCATCCCTGAATGTCAGTGCCAAAGGCTGACAATAACCAAAGCAGCTATAGTACGGTGCTCACCACCAGGCG -TGGAAGTGGTGAACCGGACCAATACCGTGACCAACTTCCAGCGTGTCGGCCTGGGCTAACGCCGATGAAAGCCAG -CTTTTTGCCTCCTGTACGGTGTCAGCCCAGTTTGTATGGCGCGGGCGTAGTGCAGCCAACGCCGCAGAGAGTGTA -CAACCAGTGCCGTGGGTGTTTTTGGTCATAATGCGCGGTGCGGTAAACCGTTGTTCACCCTCGCGGGTAAACAGC -CAGTCCGGGCTTTGCTCATCATCCAGATGACCACCTTTCATTAGCACTGCGCCACAGCCCATCGCCAACAGCGAT -CGCCCTTGTTCCAGCATTTCCTGTTCGGTGCGCGCGTGTGGCGCGTCGAGCAAGGCGGCAGCTTCGGGCAAGTTT -GGCGTTATTAATGAAACCTGTGGCAATAATCGACTGCGCAGCGTAGCAACCGCCGAAGGTGAAAGCAGCGGGTCG -CCGCTTTTTGCCAGCATAACGGTGTCGAGTACCACGTTTTGGATCTGATAACGTTGCAACCGTTCTGCCACCGCT -TCAACAATATCGGTTTCCGCCAGCATACCGATTTTAGTGGTATCGATTCGCACATCGCTGAACACCGAATCGAGC -TGGGCGGCGACAAAATCAGGCTCAATGCGATACACCGACTGTACGCCACGGGTATTTTGCGCCACCAGTGCAGTA -ATAACTGAGCAACCATAAGCGCCAAGTGCCGAGAAGGTTTTAAGATCGGCCTGAATCCCCGCACCACCACTCGGA -TCAGTACCGGCAATCGTCAGAGCGTTAATTCGTTTCATGCCTGCACCTCCTGCGTCAATTGCCAGAGCGCATCAA -GGAAATGTGGAACAAAACTGCCTGGCCCCTCGCTTCTGGCGACTGCGCGTTCTCCGGCTTGTTTCATCCAGTGAC -AGGCAGATGCGACATTTTCCAGCGTATCGCCTGGTAACGCACAGCAGGCAGCGACAACCGCCGATAATGCACAGC -CAGTTCCTACCACTTTGGTCATTAACGGATCACCACCGTGAATACCAATGATACGATGTCCATCGGTAACATAAT -CCATCTCGCCAGTGACCACGACGATTGCGCCAGTTTCCCGTGCCAGTGTTTGTGCAGCGGGTATCGCGTTAGCTG -CGGCGTCAGTGGTATCCACTCCCCGTCCGCCATTAGCAATGCCAGCTAATGCCATGATTTCCGAAGCATTACCAC -GTATCGCTGCCGGTTTAAAAGATAAAAGTTCATGACAAAAATGGCGGCGATAATCGAGCGCACCCACCGCTACTG -GATCAAGCGTCCAGGGTGTTTGAGAGCTTTTTGCTTGCTCAACGGCAGCACGCATCGCCTGAGCGCGTGGCTGCG -TCAGTGTGCCAACGTTAATCAACAAGGCACTGGCGATAGCCGCAAACTGACTGGCCTCTTCGGTTTCGATAACCA -TCGCTGGCGATGCACCGAGCGCCAGCAAGGTATTGGCGGTAAAGGTTTGCACCACATCATTGGTCATGCAGTGCA -CAAGAGGGGAATGTTGGTGAAAAAGGTGTAACGCGTGCGCAGATTGCGCTGAACCCAGCAGGTCGACTTGCATAG -TTTGCTCCTGCCATAACGTGAAGAAGCAATGACCTGGTGGTCCGTGACTTCCCTACGCTGGCATTATCCAGATCA -GGTGATACGGGTATTTCTCAGCCTTCACGCAGAAGGGCACCCCGAGTCGTTTGGTTGCGATGATAAATCGCAGAG -GAGGATGGTAATGTCCAGCGCACGCGTTGTAAACGAGGAAAAACGGCAGTTTTACAATCGCGTTAATAAATTATT -TGATATATGAATCCAGCACCTTCAGAACGACATCCAGATCTTCTTCACGTTTTAGCTCATCCCCCTGGTGAACGA -TGTGTTCCGTCAGATGACCTTTAATCACTTCCCGCATCAGACCGTTTACCGCGCCACGGATAGCAGCAATCTGTT -GTAAAACTGCAGCGCATTCGTGCGGCTCGTCGAGCATTTTCTTGAGCGCCACGACCTGGCCCTGAATCTTACTGG -CACGCGCTTTCAGTTTCTGTTTATCACGGATTGTATGAGACATGGCAACACCTGGTTAACAAGAATATGAAAAAT -CATAGCACTATTAATCTACTGGGGGGTAGTATCAGGTACTGGGGGGGAGTAGAATCAGATTGCCGAATTAATACT -AAGAATTATTATCATGACCGAATTTACAACTCTTCTTCAGCAAGGAAACGCCTGGTTCTTCATCCCCAGCGCCAT -CTTACTTGGTGCGCTTCATGGCCTGGAACCAGGGCACTCAAAAACGATGATGGCGGCGTTTATCATCGCCATCAA -AGGCACCATTAAACAAGCGGTGATGCTCGGACTGGCAGCAACTATTTCGCATACCGCAGTGGTCTGGTTAATTGC -CTTTGGCGGGATGGTGATCAGCAAGCGCTTTACTGCTCAATCAGCAGAACCGTGGCTCCAGCTGATTTCCGCAGT -GATCATTATTAGCACCGCGTTCTGGATGTTCTGGCGTACCTGGCGCGGCGAACGCAACTGGCTGGAGAATATGCA -CGGGCATGATTATGAGCATCATCATCACGATCACGAACATCACCACGACCATGGACATCATCACCATCACGAACA -TGGCGAGTATCAGGATGCCCATGCACGAGCCCATGCCAATGACATTAAACGACGCTTTGATGGTAGAGAGGTCAC -CAACTGGCAAATTTTGTTATTTGGCTTAACCGGTGGCCTTATCCCCTGCCCGGCAGCAATTACCGTGCTGTTGAT -ATGCATTCAGTTGAAAGCCCTGACACTGGGCGCAACACTGGTCGTCAGTTTCAGCATTGGCCTGGCGTTAACGCT -TGTCACCGTAGGCGTTGGCGCAGCAATCAGCGTTCAGCAGGTCGCAAAACGCTGGAGCGGATTTAACACTCTCGC -TAAACGCGCCCCCTATTTTTCCAGTCTGTTGATTGGCTTAGTCGGTGTGTATATGGGCGTACATGGCTTCATGGG -CATAATGCGATAACTCAATCCTTTAGGCTTGCATGTTATCTTCAGCCCAGGATGATTCTTAAATCAGCTATTTCC -GCTGACTCTCTGCTCGCTAAGGATGCTTTTAGGGCATCCTTTCATTTACACTTTTTACGAAATCATGGGATCACT -AACAAAATATCGCTTGTCAGTTATATTGTATGGCAGGAAAGATATGCGACTGATATTACAGATCCCCAAAGTGGA -GAGTTTATGACCATTAAAAATAAGATGTTGCTGGGTGCGCTTTTGCTGGTTACCAGTGCCGCCTGGGCCGCACCA -GCCACCGCGGGTTCGACCAATACCTCGGGAATTTCTAAGTATGAGTTAAGTAGTTTCATTGCTGACTTTAAGCAT -TTCAAACCAGGGGACACCGTACCAGAAATGTACCGTACCGATGAGTACAACATTAAGCAGTGGCAGTTGCGTAAC -CTGCCCGCGCCTGATGCCGGGACGCACTGGACCTATATGGGTGGCGCGTACGTGTTGATCAGCGACACCGACGGT -AAAATCATTAAAGCCTACGACGGTGAGATTTTTTATCATCGCTAAAAAAAGCCCCCTCATCATGAGGGGGAAATG -CAGACACCTTGTTATTTTTTATTATTAGCCACTTGCTCGTCTTGCTTGTTATTAGTCGTATTTCACGTTGATTAA -TGCGGTTGCCTCCAGTGCGCCAGATTTAACTTTGTTTGTATCGTAGACGTAGTAACTGGCTGTTATCGGAATTGA -AACCGTTGTATCTGTAAGTTTTGACTTCGCCGCAACTTCCTTTAAATTTGTATATCCTTTACTGCTGTTAGTGAT -ATTTAAAAGTGTGACTGGCGAACCATTACTTTCAAGAATAAATCCTACGCCATTATCTTCCGCACCTTTCAGTAT -TGTGTTGCTGTTGGTTAACAAGTCAGAACTTGATAAATACACCTGCATTTTCCGTGATGTTTGATTTTGTTGACC -TAATAAATTTTTACAACGCAGAATAATATCCCCTTGTTTACTATTTATTGTTGCTTTGTTACCTGTGGCTGGTAA -TTGTGAAACGGGAATACTGTCTAAAGTAATTAATAAATCGTCCGGTTTGCAGGTTGTGGTTATCGGGTTGTATGA -CAATGTCAGATTAAAGGAATAGACACCTGCATTTTGTGCCAATGCATTTCTGTAGCTATTTACACATGCATCCCA -TGACTTGCCACCTAATAAACACAGTAGAAATTGTACTGCGGCACTCCCGCGTGTCGATGATGAAGCACTGGATAA -TGTCGCAACACCATTAATCATCACTGAACCGCCGCCCCCCGCAGAAACATTCACTTTTGCATTACTGGCCGCAGG -TGTCACCGTAACTGAATAACCACTGGTGAAACTGGTCTGATTATTTGACAACGTGATGTTGTTTTTATTGGTCCA -TTCAAAATGTAAATTTAATTTTATGGTATCGTTATAAAGTCCAACAATAATATCCGACGGGCTCATAGGGGTGAT -AGTATTTGTACTTACGCATGACGAATCATTAAAATTATGCTCATATGTCGCCATTTGTGTTTGAGTAAGTGCAAA -ATCCCCCTGAACAACCAAGTTGTGCTGAACAGATAACTCACTATAACATGCCGCATAGCTCACAGGCATAACCAT -CATCATTAATATAAATAGCATTATGCGAATTTCCATAGAACCACCTGACTATTACTGGCAAATATAATTTCTACT -TTCATCAATCTCTTTACCGAAGGTGATTGTGCATGAAAGTCCTTGTTGCTTATCAATTGCCACATTAACCGATGG -CGGTACTTCATTGGTGCGAATAAATAACTGACTTCCCTGGCCGACAACGCCAATATTATGACCATGGATATCATT -GACTTCATAACCAAACGTTAATGATTGCCCATCTGCTCTTAACGCTTTTATAAACCATGGCTTGCGCTGATCGGT -ATCAAAATTAACCAGTACAACCGCGCCGCGATAAGGGGCGGCAATTTTCCGGTTGCCACGTAATTCTGCTTCGCT -ATCGCTTTGCGACACATCCAGCATCAGGTGATTTTCCCGATAAGGTGTCATTCCGTCGTATATCACCACTCCATT -ACGGTTTGTTGTGCGATATTTTTGCCCATTGACATAAGCATCTTTAATTCCTGGCGCATTCATCACAGCAAACGT -TTCGGAAAGACGGTTCGCCAGATTAACGCCACCCGACCAGGCGACAATGCCCCCTGAAACACTGGCTCCAGCCTG -TCGATAAGTACTCGACTGACTATAACTGCCATTCACTGTCGCAACCGGCGCGTTCCAGGTCAAATTCGCCCCAGC -TGTCGTTTCATTTCCCTGATGTTGATGACTCAGGTTGACACCATAATTGAACTGATCCCGACTCCCTACTGTTCC -TGATAATCCCGTATTATTTGAGGCAAACCCCTGATCATCAAACGTCGTTGAGTTAGACATATATATTTGCCGACG -AGGCGTCGAAACGTCATCACCCCAATCAAAGGGAATCGATATAAAAATATTAAAACGTTTCTCTTCATGATGATT -CTCGTCATAAGCCTGGCTTGCCGCGAGGGTATAGCTTATCCGTCGCAGGTTGTTGGAATAACTCAACTGATAATC -CTTACTACTGCCGCTACGCCCCCAGTAATCTCGCCATAACGTACTTAATGACACAGACCCCCAACCTTCTGGCAA -TGACTGGCTCATATTGGCGGAAAAGCTATTTTTGCGGCCAAAATCGTTCTGGTAATAATCGGCAATGTCATAGAC -ATCGTTTTCATCACGGCGATAATTATCTTTATTGTTTGCCCAAACGTGATCGTTAAATGTCCGGTAATCACGCGA -CGAATAACGCCAGGCCGCCAGACCAAAACGCGTCGACGTTTGGCTCACAAATTTGTTGTAGGCAATTTGATAACT -TTGCCCGTCAAACACATCGCCGTTGTCTTGTTTACTATGCGACTTAGTGGCATCGACGGAAATGGCACCAATGCG -TGTATTCCAGCCAGCCCCCAAAGTAAACGCGTAATAATTATTCGCGACCATCGAGCCACCATACAGCGTCAATAA -ATTATTAAAACCATACTGATAACCCGCCTGGACAAAATCACTTTGTTTGCTCGCCCCTTCAATATGGCTACGACC -CGCCGCTAAATCATATTTCGACACGCCGGGTTGCAGCATATTTGGCACCGCTGCATAAGGCACCAGATAGGTGGT -TACCGAGCCGTCCGCCTCTTTCACGCTGACATCAAGATCTGCTCCACCACCGGCCAACTGCAAATCTGTAATCGC -GAACGGGCCAGGAGGAACCTCTTTCTGATAAACCACAAAACCATTCTGTTCAATAGTTACCAGCGCGTTACTCTG -AGCAATCCCCTGCACCCGTGGCGTAAAATTTTGTTTCGAGTTAGGCAACATCTGCATATCACGAAACAACCGCAC -ACCTCTGAAGCGAACAGAATCAAAAATATCGCTTGATGTGTACATATCACCCACGCGAAGCGTGCCGAGAAGTTG -GGCAAATCCACGTTCCAGATACAGGGTATTGCTTTTCCACACCCCTGGATTGTTATTTGTTTTACTGAAACTGGC -ATCAGAATGCAGTTGCCACCCCAGTAAATTTAACCCGCTGTTAAAACGTACATATGTACTCTTGTTATTACCCGA -CGCTTTATAGTCGCTGTAATACTGACTCAGATAATAAGAGGTATAAAACGCATTAATACCCCGCTCCCAGTTTTC -CGGTGGAACATAGCCACTTTCCAGTTCTTCCACCCAGGCCTGCGGGACACTGAAATCGAGACGAAAAACCCCGAT -ATCCCAGGTATAGCTCCCACCCTGAACAAGTTGCTCAAATGTTAAACATTGCTTACCGCTGGCGAAGTTATCGCT -ATTAATGCCTAACCGCTTGATAACTTCTCTTGATAAACATGTTTCTTGCGGGTTGTCTTTAACAATAATCTCATA -TTTCCCGCGCCATTGCTTATTGACATAAATATCGATGTCATACTGCCCCGGTAAGGGTTGATTATCATCAAGACG -AATATTTGCAACCTGCTGGTCTTTCATTCCACCTATCATAAAATGGGTATCAAAGGTTTCTTCAGCTGCATAAGC -TTCAATGCCGAGCAATAACGCTACGATTGCTGATGCAAGTGGGGTCATTCTCAACATAGGCAGCTCCTGCAATTA -AATTTTGTCACTAATATAGTTGCCATGGTCATCGATAATGGTCAGATGCCAGTTATTTGCATTATTACTTTTGAC -ATTAACACTCTGACTTTCTAAGGGGGCAATCATAATAGTTTCATAATTGACTTTGACATTATTAGCTTTGACATC -CGAAATCGTCACCCAATTAGCTGAGTCATTTTTTATCACCAAACCATTGCCACTGCGATTTACCAGCAATTTTTT -AAATGTCGCTTTATTTACCGGAGCAATACCCGCTGGCCGGTAAAACAACTTAATTCTGTTTTGCATCGCAAACTT -CAGTGCATTCTTACCTTCTTGCTCTGGACTATTTGGTGGAATATCCAGAACATTCAGATAAAAAATGCTTTCTTT -ATTAGTGGGCAGTTTATTCGGCATAATTTTGATTTTTACTTGCTGCCCGGAATTTGCCCCTATTTTTGCCACTGG -TGGCGTTAACATGAAAGGAACCTGAATTTTTTCTGGTGGTAATGACGTATCGCCATCATCAATCCACGCCTGCAG -CAGCGAAGAACGGTTTCCCTGGTTCATCAACTGCACCATCACTTCTTTATTTTCTGCCGGGTAAATAATGCGCGT -CCCGTAGATAACAATTCCGGCATGTGCAGGAAGGACCATAGAAAAAATGAGTAAAGATAATAATCCTTTCATTTT -AATGCCTCTTAAATTAAAAGGCCGCCATGGGATAGCGGCCATGTTTATTACCTGGAGAAACTTACAATTTTATTT -ATTAATCCTGCGCCACACGCATAACCAGAGAAGATAACACATCACCTGATTGCACTGAGTTATCTGTCAGTTTCA -GGTATTTTGCTTTAAACGGAATAGCATATTGACCTTCCGCTGTTTTATAACTCTCAATGTTAAAAGGTGCAGAAA -CATCCAGGACATCGCTGTTATCACCTAAATAGAGATAGTAACCCACGGTATCGTTGCTACTGGCTATCGCCTTAT -CGTTACCGGTTATTTTATCGTTGGTAATCAACGAGAGTTTTACACCAGCAACTTCTTTCGGGCAGCTAATTTTTA -ACATGCTGCTGGTTACACCGACTGCATCATCATAGGTAGAATATTTAGCTTTACCTTCAAAGACACTGGTTGGTA -CAGTCGGCATATTAATACTTACTGAATCACCACCCGCTTCGAATTTACACGGAGATTCTGCAATATTCCCCTTAA -TAGTTAATGTTCCGGTATCAACGTCTGCAGCAAATACTCCAGCGCTCATAAAAAAAGAAGAAAAGACAGCGGCAG -CAATAATTGAACGTTTCATAATATGTTCCTTAATAAAATTTATTTTTGGTTGTTAAGAGTCTGTATCTCTTGGAA -ACAAATTTCTCACATCAAAAAAGTTGCCGCAATGTAAACACATTGTTTTATTGATTTAAAACAAATTAACCATTG -CAATATAAATACAAAAAATATTTAAGAGTATTAACTATTTATCGCATCTATCAATTAATGTAGATTTATGTAAAT -GGTATTGTTGATATCAATAAAAAAGCCGAAATCATTTATATAAATGATTTCGGCTTTCTAAATGCAATTAAAATC -AGGTTGCCAAATTAATCGTAGCGATTTAACACGATTCGACGTTTGCTATCGCTACCTGCAACAACCACTTCTGTC -GTTACACCTTTGACGGGCGAAGAAAACAGATGACGGGTGTCAACATTATACGTTAACTGACCACAATGCTGTTGA -GGTTGACCATTAACCATAGCCATACTGCATGTTGGGGGACTGATCCTGCCATTAATCGCTAATGTGGCAGTCTCT -GAAGAGAATGCGGGAGAAGCCAATCCATAGGCAAGAAAAATAATTCCTGACAGCCAATACTTATTCATTGAACGT -TATCCCTGTAGTAAAGGTTATGCCTGGATAGAATGAGTGCATAACAAACTATAGCTGTACATCCACTACACAGCC -ACGAAGGATGATAATGAAGCATTGCCTGTATGATCAATCGACTTTGTAGAGTTTCGGACGAAGGTCCGCAGAATA -TTCGCAGTATTAAATAAGTGTTCATTAATGCGGCAAAAACTAATACACCGCATCAATGTAACATCTCTGCGGTGT -ATGAAGAATAACCAGAATGGTTAATAGGCGTTAGACCGCGCGGAAGGAAATCTCGCCTGGAATGACTTCACCCTG -CCAGTAGAGCTGAGCTGCAACGCGGTCAGCCAGCTGGCGGTAGATAGCGGTAAATTCGCTCTCCGGACGGCTGAT -AACCGTTGGCGTACCTTTATCGAGATCCTCACGTAAGGAGATGTGTAACGGCATCTGCCCCAGCAGCTGTGTATG -GTATTTTTCAGCCAGTTTCTCTGCACCACCGGTACCGAAAATCGGTTCATGGTGACCACAGTTACTGCAAATATG -CACACTCATGTTCTCGACAATACCGAGCACCGGAACCTCGACTTTCTCGAACATCACAATGCCTTTTTTCGCATC -GATCAGCGCGATGTCCTGCGGGGTGGTGACCACGACTGCACCGGTTACTGGAATGTTTTGCGCCAGCGTCAATTG -AATGTCACCGGTGCCTGGCGGCATATCAAGCACCAGATAGTCGAGATCCGGCCACAAGGTTTCCTGCAACATCTG -CATTAACGCCTTGCTCGCCATCGGTCCACGCCACACCATCGCATTGTCGTCAGTGACCAGATAACCAATTGAATT -GGTTGCCAGGCCATGAGACATAATCGGTGCCATATGGGTACCGTCCGGCGAAGTTGGACGCTGATTTTCTGCGCC -CAACATTGTTGGGATTGATGGGCCGTAGATATCGGCGTCCAGAATGCCGACTTTCGCCCCTTCTGCCGCCAGCGC -CAGTGCCAGGTTTACCGCCGTGGACGATTTACCCACGCCGCCTTTACCGGAACTCACCGCGATAATGTTCTTCAC -ACCGTTAATTCCCGGCTGATTCTTCACGCGTTTCAGAGTGGCTATGTTATGCGACAGTTTCCAGTCGATAGCTTT -CGCCCCGGTGATGCGCAGCAGTTCGGCGCTACATTGCTCTTTTAACTCTTCGAACGCGCTATGCCAGACAAACGG -CATAACCAGTTCCACATGCAACGTGTCGTCCATCCAGGCGACATGGTGCAACGCTTTCAGCGTGGTGAGGTTATG -CTTCAGGGTTGGGTGCTGAAAATTGGCCAGTGTCCCGGCGACCATTGCGCGCAAGGCTTCTGGTGATTTGGCCTG -GGATTGTTCGTTCATCCCGACTCCTTTTTTGTATAGATAAACCATCAGCTGATAGTTTACCTGAAGAATATAGAG -AAGTACTTACTTAACATTTTCCCATTTGGTACTATCTAACCCCTTTTCACTATTAAGAAGTAATGCCTACTATGA -CTCAAGTCGCGAAGAAAATTCTGGTGACGTGCGCACTGCCGTACGCTAACGGCTCAATCCACCTCGGCCATATGC -TGGAGCACATCCAGGCTGATGTCTGGGTCCGTTACCAGCGAATGCGCGGCCACGAGGTCAACTTCATCTGCGCCG -ACGATGCCCACGGTACACCGATCATGCTGAAAGCTCAGCAGCTTGGTATCACCCCGGAGCAGATGATTGGCGAAA -TGAGTCAGGAGCATCAGACTGATTTCGCAGGCTTTAACATCAGCTATGACAACTATCACTCGACGCACAGCGAAG -AGAACCGCCAGTTGTCAGAACTTATCTACTCTCGCCTGAAAGAAAACGGTTTTATTAAAAACCGCACCATCTCTC -AGCTGTACGATCCGGAAAAAGGCATGTTCCTGCCGGACCGTTTTGTGAAAGGCACCTGCCCGAAATGTAAATCCC -CGGATCAATACGGCGATAACTGCGAAGTCTGCGGCGCGACCTACAGCCCGACTGAACTGATCGAGCCGAAATCGG -TGGTTTCTGGCGCTACGCCGGTAATGCGTGATTCTGAACACTTCTTCTTTGATCTGCCCTCTTTCAGCGAAATGT -TGCAGGCATGGACCCGCAGCGGTGCGTTGCAGGAGCAGGTGGCAAATAAAATGCAGGAGTGGTTTGAATCTGGCC -TGCAACAGTGGGATATCTCCCGCGACGCCCCTTACTTCGGTTTTGAAATTCCGAACGCGCCGGGCAAATATTTCT -ACGTCTGGCTGGACGCACCGATTGGCTACATGGGTTCTTTCAAGAATCTGTGCGACAAGCGCGGCGACAGCGTAA -GCTTCGATGAATACTGGAAGAAAGACTCCACCGCCGAGCTGTACCACTTCATCGGTAAAGATATTGTTTACTTCC -ACAGCCTGTTCTGGCCTGCCATGCTGGAAGGCAGCAACTTCCGCAAGCCGTCCAACCTGTTTGTTCATGGCTATG -TGACGGTGAACGGCGCAAAGATGTCCAAGTCTCGCGGCACCTTTATTAAAGCCAGCACCTGGCTGAATCATTTTG -ACGCAGACAGCCTGCGTTACTACTACACTGCGAAACTCTCTTCGCGCATTGATGATATCGATCTCAACCTGGAAG -ATTTCGTTCAGCGTGTGAATGCCGATATCGTTAACAAAGTGGTTAACCTGGCCTCCCGTAATGCGGGCTTTATCA -ACAAGCGTTTTGACGGCGTGCTGGCAAGCGAACTGGCTGACCCGCAGTTGTACAAAACCTTCACTGATGCCGCTG -AAGTGATTGGTGAAGCGTGGGAAAGCCGTGAATTTGGTAAAGCCGTGCGCGAAATCATGGCGCTGGCTGATCTGG -CTAACCGCTATGTCGATGAACAGGCTCCGTGGGTGGTGGCGAAACAGGAAGGCCGCGATGCCGACCTGCAGGCAA -TTTGCTCAATGGGCATCAACCTGTTCCGCGTGCTGATGACTTACCTGAAGCCGGTACTGCCGAAACTGACCGAGC -GTGCAGAAGCATTCCTCAATACGGAACTGACCTGGGATGGTATCCAGCAACCGCTGCTGGGCCACAAAGTGAATC -CGTTCAAGGCGCTGTATAACCGCATCGATATGAGGCAGGTTGAAGCACTGGTGGAAGCCTCTAAAGAAGAAGTAA -AAGCCGCTGCCGCGCCGGTAACTGGCCCGCTGGCAGATGATCCGATTCAGGAAACCATCACCTTTGACGACTTCG -CTAAAGTTGACCTGCGCGTGGCGCTGATTGAAAACGCAGAGTTTGTTGAAGGTTCTGACAAACTGCTGCGCCTGA -CGCTGGATCTCGGCGGTGAAAAACGCAATGTCTTCTCCGGTATTCGTTCTGCTTACCCGGATCCGCAGGCACTGA -TTGGTCGTCACACCATTATGGTGGCTAACCTGGCACCACGTAAAATGCGCTTCGGTATCTCTGAAGGCATGGTGA -TGGCTGCCGGTCCTGGCGGGAAAGATATTTTCCTGCTAAGCCCGGATGCCGGTGCTAAACCGGGTCATCAGGTGA -AATAATCCCCCTTCAAGGCGCTGCATCGACAGCGCCTTTTCTTTATAAATTCCTAAAGTTGTTTTCTTGCGATTT -TGTCTCTCTCTAACCCGCATAAATACTGGTAGCATCTGCATTCAACTGGATAAAATTACAGGGATGCAGAATGAG -ACACTTTATCTATCAGGACGAAAAATCACATAAATTCAGGGCAGTTGAGCAACAGGGAAACGAGTTGCATATCAG -TTGGGGAAAAGTTGGCACCAAAGGGCAAAGCCAGATAAAAAGTTTTTCAGATGCTGCGGCAGCGGCAAAAGCGGA -GCTTAAGCTGATTGCGGAGAAGGTGAAGAAGGGGTATGTGGAGCAAGCGAAGGATAATTCTTTGCAACCTTCCCA -AACGGTAACGGGCTCTCTCAAGGTAGCGGACTTATCCACCATTATTCAGGAACAACCCTCTTTCGTAGCAGAAAC -CCGTGCGCCTGACAAAAATACAGATGCTGTTTTACCGTGGCTGGCGAAAGATATTGCTGTCGTTTTTCCGCCCGA -AGTTGTACACACCACGTTAAGTCATCGCCGCTTTCCCGGAGTTCCTGTTCAGCAAGCAGACAAATTGCCCCAATT -ACGTCGCTTAGCCTGTAGTGTGTCGCAACGGGATAATAAAACAGCCACATTTGACTTCAGCGCCTGTTCTTTAGA -ATGGCAAAACACCGTCGCCCAGGCGATCAGTCAGATCGACGGCCTGAAAACAACACAGTTACCATCACCAGTAAT -GGCTGTACTCACGGCACTTGAAATGAAATGCACAAGATATAAAGTGCGTGAGGATGTTATGGATCAGATCGTCCA -GGAAGGCGGTCTGGAATATGCTACTGATGTAATAATACACCTTCAACAGATTGATATTGAATGGGATTATGCGAA -TAATGTCATTATTATTCTGCCGTCTGGCATTGCACCTAGCTACTTGGAGCAATATTCCAGATTTGAATGACGCCT -ACGTAAACATTTATCACTGACGGAAGAGTCTCTCTGGCAAAAATGTGCACAAAAACTTATTGCCGCAATTCCACA -TATTCCAGAATGGCGGCAACCATTAATTGCTTTGTTATTACCCGAAAAACCAGAAATTGCACATGAAATTGCCCA -GCGTCTACTGGGGCAAAAAAAATTACCCTCGCTTGAGTGGTTAAAAATAGTGGCGACTGATGAGCACATTCTTGC -CTCATTAGAAAAATATCACGAACCATATGCCATTTTTGATGATTACTATTGTGGTGCGATATGGTCAGCCACCGT -ATTACAGGAGCAAGGTGTTGCAGCCCTGCCCCGATTTGCTCCCTATGCCGCAAGTGACTACTGCGCCGATGTGTT -GCGTCATATCAATCATCCGTTCGCATTGACACTGCTTATACGTGTAGCCGGGCAAACTAAACGCTGTCACGATCG -GATGACGAAAGCCATTGCTGCGTTCCCACATGCAGCAATGGCGGCACTGACGGAACTTCTTGGGCAAAAAGAAGA -GAACAGTTGGCGCATTATGCTAATGACAATGCTTATCTCACAACCAGCACTGGCAGAACAGGTCATTCCCTGGCT -CTCGACACCCGCAGTTGCCGTACTGAAATCATGCCAGCAACAACTGACACAGCCCTCAAACCATGCCAGCGCCGA -TCTACTGCCAGCCGTAGTAGTCTCCCCTCCCTGGCTTTCGAAAAAGAAAAAATCGCCGATTCCGGTGCTGGATTT -AGCGCCATTAGGCATTGAGCCAATCTGTTATCTGACAGAAGAAATCAGTAATCAACTTTTGGCGAAATATATCTG -GTATTCAAAACACATCACGGTTAGCCATGAAGAAAGTACTACCAACCTGTTGGCAAGGATGGGTTTTCAACGACG -GATCGCTGGTACATATATTAAAGCTCCCGAAGCGGTAGTTGAGGCATGGCTAAATGAAGATTATTCAACCTTACT -AAGTGAATTTAAGGTGTTTCATTCACCTACCGGGCATTATTGGCAGTTGGGGATTTTGACAACATTGCCGCTGGA -GAAAGCAGTAAAAGCATGGAATGCCCTTACCCTATCTCCACATACCGATACCGAATACTCCATGTTACATTTTGG -ACTCAAAGGGTTACCTGGGTTAGTAAACTCACTTGCACGCTATCCACAAGAAGCCTTGCCCATCACGAATTACTT -CGCAGCGAGTGAGCTGGCTCCTGCCGTCGCCCGTGCCTTCAACAAACTGAAAACGCTACGCGAAAACGCCCGTAG -CTGGCTGTTGAAATACCCGGAACATGCCCTTACCGGCCTGCTGCCTGCGGCGCTCGGCAAAGCCGGTGAAGCACA -GGATAACGCCCGCGCTGCCTTGCGTATGCTTACCGAAAACGGTCATCAGCCATTACTGCAAGAAATCGCCCGACG -TTATAACCAGCCGGAAGTAACCGATGCGGTGAACGCTCTGCTTGCGCTCGATCCCTTAGATAATCACCCGACAAA -AATCCCCACTCTTCCGGCCTTTTATCAGCCATCGCTCTGGACGCGCCCGGTATTAAAAGCAAATGCCCAATCACT -GCCAGATAGCGCCCTCCTCCACCTCGGTGAAATGCTCCGCTTCCCTCAGGAAGAGGCTCTGTATCCGGGATTATT -GCAGGTGAAAGACGTCTGTTCCGCCGACTCACTGGCGGGATTTGCCTGGGATCTGTTTACCGCCTGGCAGACCGC -TGGCGCGCCGTCGAAAGAGAGTTGGGCGTTCACTGCGTTAGGCGTTCTCGGTAACGATGACACCGCCCGCAAACT -GACGCCATTAATACGCGCCTGGCCTGGTGAATCCCAGCATAAACGCGCCACCGTTGGGTTGGATATTCTCGCTGC -TATCGGTAGTGATATCGCCCTTATGCAGCTTAACGGCATCGCCCAGAAACTGAAATTCAAAGCATTACAGGAGCG -GGCAAAAGAAAAAATTGCCGACATTGCCGAGAGCCGCGAACTCACGGTGGCGGAGCTTGAAGATCGGGTTAGCAC -CGGATCTCGGTCTGGATGATAACGGTTCGCTGCTGCTGGATTTTGGCCCACGGCAGTTCACCGTCAGCTTTGATG -AAACCTTAAAACCGTTTGTGCGTGATGTTTCCGGCAGCCGCCTGAAAGACCTGCCCAAACCGAACAAAAGCGATG -ATGAAACGCGGGCGAACGATGCGGTTAACCGCTACAAATTGCTGAAAAAAGATGCGCGTACCATCGCCGCCCAGC -AGGTAGCAAGGCTGGAATCCGCCATGTGCCTGCGCCGCCGCTGGTCGCTGGAAAACTTCCAGCTCTTCCTGGTTG -AGCATCCGCTGGTTCGTCACTTAACCCGCCGTCTGATTTGGGGCGTTTATAGCGCCGAAAACCAGCTACTGGCTT -GCTTTCGCGTAGCAGAAGATAACAGCTCCAGCACCGCTGACGATGATCTTTTCACCCTGCCGGAAGGCGATATCT -CTATCGGCACTCCTCACGTTCTGGAAATATCACCAACGGATGCTGCCGCCTTTGGTCAGCTTTTTGCCGACTACG -AACTGCTACCACCGTTCCGCCAGCTCGACCGTAACAGCTACGCCCTGACAGAAGCCGAGCGCAATGCCAGTGAAC -TGACCCGCTGGGCAGGCAGAAAATGCCCGAGTGGTCGGGTCATGGGGCTGGCGAATAAAGGCTGGATAAAGGGCG -AACCACAGGATGGAGGCTGGATCGGATGGATGATCAAACCTTTGGGTCGCTGGTCGTTAATCATGGAAATCGATG -AAGGCTTTGCGGTAGGCATGTCGCCAGCCGAACTCAGCGCTGAGCAGCTCTTAAGCAAGCTGTGGCTATGGGAAG -GCAAAGCAGAAAGATATGGCTGGGGGAGTAATTCAACACAGGAAGCGCAGTTCTCCGTAATCGATGCCATCACCG -CCAGCGAGCTAATTAACGATATTGAAGCCCTGTTTGAATAAGGAAAGAGCATGGACAAGGAATTACCGTGGCTGG -CGGATAACGCCCAACTGGAACTGAAATATAAAAAAGGCAAAACGCCGCTCAGTCATCGTCGCTGGCCGGGCGAAC -CAGTGTCCGTTATCACTGGAAGTCTCATCCAGACATTGGGTGATGAATTGCTACAAAAAGCTGAGAAGAAAAAAA -ACATTGTCTGGCGTTATGAGAATTTTTCACTGGAGTGGCAGTCCGCCATCACGCAGGCCATCAACTTGATCGGCG -AACACAAACCCTCAATCCCGGCCCGGACAATGGCGGCGCTAGCCTGTATCGCGCAAAATGACAGCCAACAGTTGC -TCGACGAAATCGTCCAACAAGAGGGGCTGGAATATGCGACTGAGGTGGTGATTGCACGCCAGTTTATTGCGCGGT -GTTATGAGAGTGATCCTCTGGTAGTGACATTGCAGTATCAGGACGAGGATTATGGCTATGGTTATCGCTCAGAAA -CCTATAACGAATTCGATCTCCGACTGCGTAAGCATCTCTCTCTGGCAGAGGAAAGCTGCTGGCAGCGTTGCGCCG -ACAAACTCATTGCCGCACTACCAGGAATAAACAAAGTTCGCCGCCCTTTTATTGCGCTGATCCTCCCGGAAAAAC -CAGAAATAGCCAATGAGTTGGTAGGCCTTGAATGCCCGCGAACTCATTTTCATTCTAAGGAGTGGTTAAAAGTTG -TTGCTAATGACCCCACAGCGGTGAGAAAACTCGAACACTACTGGAGCCAGGATATATTTAGCGATCGAGAAGCCA -GCTACATGTCGCATGAAAACCACTTCGGCTACGCGGCCTGCGCCGCCCTTTTGCGCGAACAAGGACTGGCAGCCA -TTCCGCGCCTCGCGATGTATGCCCATAAAGAAGATTGCGGCAGTCTGCTGGTACAAATTAACCATCCGCAAGTCA -TCCGCACCTTGCTACTGGTGGCTGATAAAAACAAACCCAGCCTGCAACGTGTAGCTAAATACCATAAAAACTTCC -CCCATGCGACGCTCGCCGCACTGGCAGAACTGCTGGCGTTAACAGAACCACCAGCCCGCCCTGGTTATCCAATCA -TCGAAGACAAAAAGCTGCCTGCACAGCAAAAAGCACGCGATGAATACTGGCGTACGCTGTTACAAACGCTGATGG -CATCGCAGCCACAACTGGCAGCAGAAGTGATGCCGTGGTTAAGTACTCAACCCCAGTCAGTGCTGAAGAGTTATT -TATCGGCACCGCCCAAACCGGTTATTGATGGCACCGATAACAGCAATCTGCCAGAAATCCTCGTTTCACCACCGT -GGCGTAGTAAGAAAAAAATGACAGCTCCACGTCTTGATTTGGCACCGCTCGAATTAACTCCGCAAGTTTACTGGC -AACCAGGCGAACAAGAGAGGCTTGCCGCCACTGAGCCTGCCCGTTATTTCAGCACGGAATCTCTTGCGCAACGCA -TGGAACAAAAAAGTGGACGAGTTGTATTACAGGAACTGGGTTTTGGGGATGATGTATGGCTGTTTCTGAATTATA -TACTCCCCGGAAAACTGGATGCTGCACGCAATTCACTCTTTGTTCAGTGGCATTACTACCAGGGGCGGGTTGAAG -AGATCCTGAATGGCTGGAACTCCCCGGAAGCACAATTAGCAGAACAGGCGCTCCGCAGCGGTCACATAGAAGCGT -TAATTAACATATGGGAAAATGACAACTACTCACATTATCGTCCGGAAAAGAGTGTCTGGAACCTGTATTTATTGG -CACAGTTGCCGCGTGAGATGGCTTTGACCTTCTGGCTGCGTATCAATGAGAAAAAGCATCTGTTCGCGGGTGAGG -ACTATTTTCTCAGTATCCTCGGATTGGATGCGCTACCAGGTCTGCTGTTGGCTTTTTCACATCGTCCAAAAGAAA -CATTTCCGTTAATTTTAAATTTTGGCGCAACAGAACTGGCGCTGCCTGTTGCCCACGTCTGGCGACGTTTCGCGG -CGCAGCGTGATCTGGCTCGCCAGTGGATTTTACAATGGCCGGAACATACGGCTAGTGCACTTATCCCTCTTGTCT -TTACCAAACCCAGCGATAATAGCGAAGCCGCATTACTTGCCCTGCGTTTACTGTACGAACAGGGACATGGCGAAT -TGCTACAAACCGTGGCAAACCGCTGGCAGCGTACAGATGTATGGTCTGCCCTGGAGCAGTTGCTTAAACAGGGTC -CAATGGACATTTACCCGGCACGCATTCCAAAAGCCCCTGATTTCTGGCATCCGCAAATGTGGTCCAGGCCGCGCC -TTATCACTAATAATCAAACTGTTACCAATGACGCTCTGGAAATTATCGGCGAAATGCTGCGCTTTACCCAGGGGG -GACGTTTTTATAGCGGGCTGGAACAACTGAAAACGTTCTGCCAGCCACAAACGCTGGCAGCTTTTGCCTGGGATC -TCTTCACTGCGTGGCAACAAGCTGGTGCCCCCGCAAAAGACAACTGGGCATTTCTGGCGTTAAGTCTCTTTGGTG -ACGAAAGCACGGCACGGGATCTGACGACACAGATCCTCGCCTGGCCACAAGAAGGCAAATCTGCCCGTGCTGTCA -GCGGCCTGAACATCCTTACCCTGATGAATAATGATATGGCGCTGATACAGCTGCATCATATATCGCAACGGGCTA -AATCCCGCCCCTTACGTGATAACGCGGCGGAATTTCTTCAGGTGGTCGCAGAAAATCGCGGGCTAAGCCAGGAAG -AGCTAGCGGACAGATTAGTCCCAACCCTGGGCCTTGATGATCCGCAGGCGTTGAGTTTTGATTTTGGTCCCCGGC -AGTTTACCGTTCGCTTCGATGAAAATCTCAACCCGGTTATCTTTGATCAGCAAAACGTTCGCCAGAAAAGCGTTC -CCCGTTTGCGCGCCGATGACGATCAACTGAAAGCGCCCGAGGCACTGGCCCGACTAAAAGGGCTAAAAAAAGATG -CTACTCAGGTGAGCAAAAACCTGCTCCCGCGTCTTGAAACGGCCCTACGTACCACCCGACGCTGGTCGCTGGCAG -ATTTTCATTCTCTGTTTGTTAATCATCCCTTTACCCGTCTGGTTACCCAGCGATTAATATGGGGGGTTTATCCGG -CAAATGAACCGCGTTGTTTACTCAAAGCCTTTCGTGTGGCCGCAGAGGGGGAGTTCTGCAATGCGCAAGATGAGC -CAATTGACCTGCCTGCGGACGCTCTGATTGGCATTGCCCACCCGTTAGAAATGACAGCAGAAATGCGCAGTGAAT -TTGCACAGCTTTTTGCCGATTACGAAATTATGCCGCCTTTTCGCCAGTTGTCGCGCCGCACGGTGCTGCTCACAC -CTGACGAGTCAACCAGTAACAGCCTGACTCGCTGGGAAGGTAAATCCGCTACCGTTGGGCAACTTATGGGAATGC -GATACAAAGGCTGGGAGTCAGGCTATGAGGACGCATTTGTCTATAACCTGGGTGAGTACCGGCTGGTCCTTAAGT -TTTCACCCGGTTTTAACCACTACAATGTTGATAGCAAAGCGCTAATGAGCTTCCGTTCTCTTCGAGTGTACCGTG -ACAATAAATCCGTCACTTTTGCCGAACTTGATGTGTTTGATTTGAGTGAGGCGTTAAGCGCACCTGACGTCATTT -TCCATTAAAACACAGCGGGCAGTGATGCAACTGCCCGTTATCAACACGACTTACCAGCGGGGAAAGCGATGATCG -TGCAAAAAGAGCTGGTTGCTATTTACGATTATGAGGTCCCTGTACCTGAAGATCCGTTTTCCTTCAGACTTGAGA -TCCATAAATGCTCTGAATTATTTACAGGTTCCGTCTATCGACTGGAGCGATTCCGGCTACGTCCAACATTTCATC -AACGTGATCGAGAAGATGCTGACCCGCTAATAAATGATGCGTTGATTTATATAAGAGATGAGTGTATTGATGAGC -GGAAATTACGAGGTGAATCACCTGAAACTGTAATAGCAATTTTTAATCGTGAACTACAGAATATATTCAACCAAG -AAATAGAATAATATACTCTAAATAATTCAAATTGGTCCGATCCGGCGCAACGTCCCAATGGCCTGGATTATAAAT -CTCATTATCTTAATTGCAACGGGGTCCAGCCGTGGTTATAATTCGTTCGTTGGAACACGATGTTGCACAGGCTGT -GGTGTTAGGCCTGAAAATAGTAAATAAAAGAACCTGCCTCACCAGCAGGTTTTTTTATTTACTGTGATCTGCTTT -CCAGATATTTTTCGCTCAAACAACTAATGCGCCAAACATTTATTGCGCGTAAAATATCGTTTATTTCATTAATAC -ATTTCAGGGATGAATATATGTCACCGCAGAATAATCATCTGCAGCGTCCGCCTGCTGCTGTGTTATACGCCGATG -AACTGGCAAAATTAAAACAAAATGATAACGCACCTTGCCCGCCCGGTTGGCAGTTAAGTTTGCCTGCGGCCCGTG -CTTTTATCCTTGGCGACGAAGCGCAAAATATCAGCCGTAAAGTGGTGATTAGCCCCTCCGCTGTCGAACGTATGT -TAGTCACTCTTGCTACCGGCCGCGGTTTGATGTTGGTGGGGGAACCGGGTACCGCAAAATCTCTTCTTTCTGAAT -TACTGGCAACCGCTATTAGCGGCGATGCCGGGTTAACCATCCAGGGCGGGGCATCTACCACCGAAGATCAAATCA -AGTATGGCTGGAACTACGCCCTGCTTATCAATCATGGTCCGTCAACGGAAGCGCTGGTCCCTGCCCCGCTTTATC -AGGGAATGCGCGACGGCAAAATCGTCCGTTTCGAAGAGATAACGCGTACACCGCTGGAAGTGCAGGACTGTCTGT -TAGGTATGCTTTCTGACAGGGTGATGACGGGGCCGGAACTCACTGGTGAAGCCAGTCAGCTCTATGCGCGAGAAG -GCTTTAATATTATTGCCACTGCCAATACCCGCGATCGCGGCGTCAATGAAATGAGTGCTGCGCTAAAGCGTCGCT -TCGATTTTGAAACGGTTTTTCCGATTATGGATTTCGCCCAGGAGTTGGAACTGGTCGCCAGTGCTTCGGCGCGTT -TGCTGGCCCATAGCGGTATTCCGCATAAAGTGCCTGACGCGGTACTGGAATTACTGGTCCGCACCTTCCGCGATC -TGCGTGCCAACGGCGAAAAGAAAACGTCAATGGATACACTGACAGCGATTATGTCCACCGCTGAAGCCGTGAACG -TGGCCCATGCTGTGGGCGTCCGCGCCTGGTTTTTAGCGAATCGCGCGGGGGAGCCTGCCGACCTGGTGGAATGTA -TTGCCGGAACCATCGTCAAAGATAACGAAGAAGATCGCGCGCGTCTGCGCCGTTACTTCGAACAGCGTGTCGCCA -CACATAAAGAAGCTCACTGGCAGGCTTATTATCAAGCCCGCCACCGCCTGCCGTGAGGAAAGATGCATGAGCGAG -CCGTTAATTGTCGGCATCCGGCATCATAGTCCGGCCTGCGCCCGGCTGGTGAAATCGTTAATCGAAAGCCAGCGG -CCACGATACGTGTTGATTGAAGGCCCGGCTGATTTTAATGACCGGGTAGACGAACTGTTTTTAGCCCACCAGCTT -CCGGTAGCTATTTACAGTTATTGCCAGTATCAGGACGGTGCAGCCCCCGGGCGTGGTGCCTGGACGCCATTTGCT -GAATTTTCGCCGGAGTGGCAGGCGCTACAAGCCGCACGTCGCATTCAGGCACAAACTTACTTCATCGATTTGCCT -TGCTGGGCGCAGAGTGAAGAAGAGGACGATTCGCCTGATACGCAAGATGAAAGCCAGGCCTTACTGCTGCGTGCC -ACCCGCATGGATAACAGCGATACCCTGTGGGATCACTTGTTCGAAGATGAAAGCCAGCAAACTGCATTACCCTCT -GCGCTGGCGCACTATTTTGCCCAACTGCGGGGCGACGCCTCCGGCGATGCGCTCAATCGTCAGCGCGAAGCCTTT -ATGGCCCGCTGGATTGGATGGGCGATGCAGCAAAATAATGGCGACGTGTTAGTTGTCTGCGGTGGCTGGCACGCT -CCGGCACTGGCAAAGATGTGGCGCGAATGCCCTCAGAAAATTAACAAGCCAGAATTGCCCTCGCTGGCAGATGCC -GTTACAGGTTGTTATCTCACACCCTACAGTGAAAAGCGCCTTGATGTGCTGGCAGGATACCTTTCAGGAATGCCT -GCCCCGGTATGGCAAAACTGGTGCTGGCAGTGGGGCTTGCAGAAGGCCGGTGAACAACTGCTAAAAACTATCCTT -ACCCGTTTGCGCCAGCACAAATTGCCCGCTTCTACCGCGGATATGGCTGCCGCTCATCTGCATGCGATGGCGCTG -GCACAGTTGCGCGGTCATACACTACCGTTACGCACTGACTGGCTGGATGCCATAGCAGGCTCGCTGATTAAAGAA -GCCCTGAACGCGCCGTTGCCGTGGAGCTATCGCGGCGTTATTCATCCCGATACCGATCCGATTCTGCTAACGTTG -ATAGACACATTAGCGGGTGACGGATTCGGTAAACTTGCCCCTTCTACGCCACAACCGCCTCTGCCAAAAGATGTC -ACCTGCGAACTGGAACGTACCGCAATCTCCCTTCCGGCGGAGCTTACCTTAAATCGCTTTACCCCCGATGGGCTG -GCGCAAAGTCAGGTGTTACATCGGCTGGCAATACTGGAGATCCCTGGGATTGTACGCCAGCAGGGAAGTACACTG -ACACTTGCAGGCAACGGTGAAGAACGCTGGAAATTAACCCGCCCGCTTAGCCAGCATGCGGCATTGATTGAGGCC -GCCTGTTTTGGTGCCACACTCCAGGAAGCCGCACGCAATAAATTAGAAGCCGATATGCTGGACGCGGGCGGAATC -GGCAGTATCACCACATGTCTTAGCCAGGCGGCGTTAGCGGGTCTGGCGTCCTTCAGTCAACAATTACTGGAGCAA -CTCACACTATTAATCGCCCAGGAAAATCAATTTGCCGAAATGGGCCAGGCGCTGGAAGTGCTTTATGCCTTATGG -CGGCTGGATGAAATTAGCGGTATGCAAGGCGCGCAGATATTACAAACGACGTTATGCGCGACTATCGATCGCACG -CTGTGGCTGTGTGAATCTAACGGCAGACCGGATGAAAAGGAGTTTCACGCTCACCTGCATAGCTGGCAAGCGCTT -TGCCATATTCTGCGCGATCTACATAGCGGCGTTAATTTACCCGGCGTTTCTCTTTCTGCGGCGGTAGCCTTACTG -GAGCGACGCAGTCAGGCAATTCATGCCCCGGCGCTGGATCGCGGCGCGGCTCTTGGCGCACTAATGCGTCTGGAA -CATCCCAACGCCAGTGCCGAAGCGGCGCTGACGATGCTGGCGCAGTTATCCCCGGCACAATCTGGTGAGGCGCTG -CACGGTTTGCTGGCGCTGGCCCGCCATCAACTGGCCTGTCAGCCGGCATTTATCGCCGGTTTCAGCAGTCATTTA -AATCAACTGAGTGAAGCCGATTTTATTAACGCCCTGCCCGATTTACGCGCGGCGATGGCCTGGCTACCACCACGA -GAACGCGGGACGCTGGCGCATCAGGTGCTTGAGCATTATCAACTGGCGCAACTTCCCGTTTCGGCGCTGCAAATG -CCGTTGCATTGTCCACCACAGGCCATTGCACATCATCAACAACTCGAACAGCAGGCACTGGCATCGCTGCAAAAC -TGGGGAGTTTTCCATGTCTGAACTGAACGATCTTCTGACCACCCGTGAGCTACAACGCTGGCGATTAATTCTTGG -CGAAGCGGCAGAAACGACGCTTTGTGGGCTGGATGACAACGCCCGGCAGATAGACCACGCGCTGGAGTGGCTGTA -TGGGCGCGATCCTGAACGGCTCCAGCGTGGTGAACGTTCCGGTGGATTAGGTGGCTCAAATCTCACCACCCCTGA -GTGGATCAACAGTATTCACACGCTGTTTCCGCAGCAGGTGATTGAGCGGCTGGAAAGCGATGCCGTGCTGCGCTA -CGGCATTGAAGATGTGGTGACGAATCTCGACGTGCTGGAACGTATGCAGCCTTCTGAAAGCCTGCTACGCGCTGT -TTTGCACACCAAACATCTGATGAACCCCGAAGTACTGGCTGCCGCCCGCCGGATAGTGTGCCAGGTTGTTGAAGA -AATTATGGCTCGACTGGCAAAGGAAGTTCGTCAGGCTTTTTCTGGTGTCCGCGATCGCCGTCGCCGTTCATTTAT -TCCACTGGCGCGAAACTTTGATTTCAAAAGTACTCTGCGCGCCAACCTGCAACACTGGCACCCGCAACACGGCAA -GTTGTATATCGAATCCCCCCGCTTTAACAGCCGCATTAAACGCCAAAGCGAACAATGGCAACTGGTCTTACTGGT -TGATCAAAGCGGATCGATGGTCGATTCGGTGATCCACTCTGCGGTGATGGCGGCCTGTTTGTGGCAGTTACCCGG -CATTCGTACCCATCTGGTGGCGTTTGACACAAGCGTCGTTGATCTCACGGCAGACGTTGCCGATCCGGTAGAGTT -ATTAATGAAAGTACAGTTGGGCGGCGGGACCAATATCGCCAGTGCCGTGGAGTATGGTCGGCAACTTATTGAACA -ACCAGCGAAAAGCGTCATTATCCTCGTGAGCGATTTTTACGAAGGGGGTTCATCATCATTACTGACGCATCAGGT -GAAAAAGTGTGTCCAGAGCGGCATCAAAGTGCTGGGACTGGCAGCGCTCGATAGCACCGCAACACCTTGCTATGA -CCGCGATACGGCCCAGGCGCTGGTTAATGTCGGCGCACAAATAGCCGCCATGACGCCGGGCGAGCTGGCATCATG -GCTTGCGGAGAATCTTCAGTCATGAATTCACTACGTCCGGAATTATTAGAACTGACACCGCAGGCCCTGACGGCG -TTAAGCAATGCCGGTTTTGTTAAGCGCAGTCTTAAGGAACTGGAAAATGGCAACGTCCCGGAGATCAGCCATGAG -AACGACGCTTTAATCGCCACCTTCAGTGACGGTGTCCGTACCCAGCTGGCGAACGGCCAGGCACTGAAAGAGGCT -CAGTGCAGTTGCGGGGCCAACGGTATGTGCCGTCATCGCGTGATGCTGGTGTTAAGTTATCAACGACTTTGTGCC -ACCACTCAGTCTACGGAAAAAGAAGAAGAGTGGGATCCGGCAATCTGGCTGGAAGAACTGGCTACCCTTCCCGAT -GCTACCCGCAAACGCGCACAGGCGCTGGTCGCTAAAGGCATCACCATTGAGTTGTTCTGTGCGCCGGGTGAAATT -CCCTCTGCCCGCTTACCGATGAGCGATGTGCGTTTTTATTCCCGCAGCAGTATTCGTTTCGCCCGTTGTGATTGT -ATTGAAGGCACACTTTGCGAACATGTCGTACTGGCGGTACAGGCCTTCGTCGAGGCCAAAGCGCAGCAAGCAGAA -TTTAACCATTTAATCTGGCAGATGCGCAGCGAACACGTCACATCATCTGACGATCCGTTTGCCAGCGAAGAAGGC -AACGCGTGTCGTCAATATGTTCAGCAATTAAGCCAGACATTATGGCTTGGCGGCATCAGCCAGCCGCTCATCCAT -TACGAGGCAGCATTCAACCGCGCATTGCAGGCGGCAGAGACCTGCAACTGGCGCTGGGTGAGTGAATCGCTACGG -CAACTGCGCGCCAGCGTTGATGCCTTCCACGCCCGCGCCAGCCACTATAATGCCGGAGAATGCTTACATCAGCTT -GCGGCATTAAACAGTCGATTAAATTGCGCACAAGAGATGGCCCGGCGCGACAGTATTGGTGAAGTTCCTCCTGTG -CCGTGGCGCACGGTCGTTGGCTCTGGCATTGCCGGAGAAGCAAAGCTTGATCATCTGCGGCTGGTGTCTTTAGGT -ATGCGTTGCTGGCAGGATATTGAGCATTATGGTTTACGCATCTGGTTTACCGATCCCGACACCGGCAGTATTTTG -CACCTTTCGCGCAGTTGGCCGCGAAGTGAACAGGAAAACTCACCGGCAGCTACGCGTCGGCTGTTTAGTTTTCAG -GCTGGCGCACTGGCGGGCGGGCAAATTGTTTCACAAGCAGCAAAACGCAGTGCCGATGGCGAGCTGCTGTTAGCT -ACCCGCAACCGCTTAAGCAGCGTTGTGCCGCTGTCGCCTGATGCCTGGCAAATGTTGAGCGCGCCGTTACGCCAG -CCGGGCATTGTGGCTTTGCGGGAATATTTACGCCAGCGTCCCCCCGCCTGCATACGGCCTCTTAATCAGGTCGAT -AACTTATTTATTCTGCCGGTCGCTGAGTGTATTTCGCTCGGTTGGGACAGCAGCCGCCAGACGCTGGATGCGCAG -GTCATTAGCGGCGAAGGGGAAGATAATGTGCTGACGTTATCATTACCAGCCTCAGCCAGCGCACCTTATGCCGTT -GAACGCATGGCGGCGCTTTTGCAACAAACAGACGACCCCGTGTGTCTGGTTTCTGGCTTTGTCAGTTTTGTTGAA -GGGCAATTGACACTGGAACCACGGGTGATGATGACAAAAACCCGTGCCTGGGCGCTGGACGCAGAAACTACGCCT -GTGGCACCGCTACCTTCTGCCAGCGTTTTGCCTGTGCCGTCTACTGCTCATCAGTTGCTGATACGCTGCCAGGCG -TTACTTATTCAACTGCTCCATAACGGCTGGCGCTATCAGGAACAGAGTGCTATTGGTCAGGCATAGTTGCTGGCG -AATGACCTCACCGCGGTGGGTTTTTATCGGCTGGCACATGTGTTGGGACAATTTCGTAATACAGAAAGCGAGGCA -CGGGTAGAAGCAATGAATAACGGTGTTTTGCTTTGCGAACAATTATTCCCCATGCTTCAGCAACAAGGATGAAAT -AGTGCTTTTTACTAAGAGTTCTACTCCAGTTCCGGACTGCTCACGCCACGGTATTAGGCATATCCTATATAGCCC -CTGGTGAGAGTCACCAGTTCCTTGATTAAATAAAATGGAGTTTTACATGAAGGCTTTCAATAAGCTGTTTTCCCT -CGTTGTTGCATCTGTTCTGGTTTTCTCTCTTGCTGGCTGCGGTGACAAAGAAGAATCGAAGAAATTCAGCGCCAA -TCTGAACGGCACTGAAATTGCCATTACCTATGTCTACAAAGGTGACAAGGTGCTTAAGCAATCTTCTGAAACCAA -AATTCAATTTGCCTCCATTGGTGCAACCACCAAAGAAGATGCTGCCAAGACACTTGAGCCGTTAAGCGCCAAATA -CAAAAACATCGCGGGTGTTGAAGAAAAATTAACCTATACCGATACCTACGCGCAGGAAAACGTGACTATCGATAT -GGAAAAAGTGGATTTTAAAGCCCTGCAGGGTATTTCAGGAATCAACGTTTCTGCTGAAGATGCCAAAAAAGGTAT -CACTATGGCGCAAATGGAACTGGTGATGAAAGCCGCTGGTTTTAAAGAAGTGAAATAATCGGTTGGCGGTCATGC -TCTAAACATGACCGCCAATTTTTTAGCCTTTTTTCACATGCTGGCGCGCTGCCAGTCCACGCAGAAAATAACGTA -AAAATTGATCGCCGCATTCGCGGAAGTTTTTATGATCCGGTGCGCGCATCATCGCTGTAATTTCCGGCATCGAAA -CGCGGAACTGCTGTTCGGTGAGGATAGCCAGAATGTCATCGGTTTTCAGCGAAAACGCGATGCGTAATTTTTTCA -GCACGATGTTGTTATTAATGCGACGTTCCGGCTCCAGTGCCGGAGCAGACTCATCCTTGCCGCGTTTTTCATAAA -TCAGGCCATTGAGGAATGACGACAAAACAATGTCCGGACAACGCTGAAAACCCTCTTCGTCTTCTTTACGTAGCC -AGACGGCGATCTGTTCCGCGGTGGCTTCGACATTACCCAGCGCCAGAATACGCACCAGGTCATTATTATTGGCTT -TCAAAATGTAGCGCACGCTGCGCAGAATATCGTTACTTAGCATGAGGCCTTCAGGTGTTGATGAGGCAAAAAGCC -ATTTTAGCAGTCTTTTACAGGCCAATCGCCTCTTTTAAGCTTTTCAGATAACGGCGGCTGACCGGCACGGTTAAG -CCATTACGCAAAATCAACTCGGCCTGGCCGTTATCTTCCAGACGAATCTCCTGTAAATGCGCGAGGTTAACCAGA -TACTGACGATGGCAGCGCAGTAGTGGTGTACGACTTTCCAGGGTACGTAATGTCAATTCGGTAAAGCCCTCTTTC -CCTTCGTGGCTGGTAACGTAGACACCGCTCATCCGACTGCTGACAAATGCCACATCTTTCATTTGCAGCAAATAA -ATCCGACTATGCCCCGTACAAGGGATAAATTTCAGCGCCTGTTGATTTTCCGGTAACAGCGAAACATCCTGCTTG -CTGCGCTCCTGACGCAATCGCGCCAGCGTTTTCTCCAGTCGCGCTTCATCAATTGGCTTCAGCAGATAATCAAAG -GCATGTTCTTCAAAGGCTTTAATTGCGTATTCGTCAAACGCAGTGAGAAAAACAATATACGGGCGATGTTCCGGG -TCAAGCATCCCCACCATTTCCAGACCACTGATGCGCGGCATCTGGATATCGAGAAACAGCACATCCGGGCGCAGT -TTATGCACCGCGCCGATCCCTTCCACGGCGTTTGAACACTCTCCAACGATTTCAATATCGCTCTGCTCCTGCAAA -AATACACGCAGGTTCTCCCGTGCTAACGGTTCATCATCGACAATTAAGACTTTAATCATGCCTCGTCCCTCCATG -GTAGTCGTAACGTTATTCGGGTGTAACTATCAGGCTCACAGGCGACGCTTATTCCATAGTCATCGCCAAACCGTT -CACGTAAACGCTTATCCACCAGATTCATCCCCAGCCCACTGGCATTGGTTACCGGTTGATACAAACCGGCATTGT -CTTCGATCTCCAGCATCAAATGTTGCCCCTCACGTCGGGCGCTGATTGCCACTCGCCCTGTATCCAGCAGTTGTG -ATGTCCCATGTTTAATGGCGTTTTCCACTATCGGTTGCAGGGTAAACGCGGGCAATTGCTGCTGGGATAATTCTT -GCGGAATAGCAATGTTGACCTGCAACCGCGACTGGAAGCGCGCCTTTTCAATTTGCAGATAAGCATTCACATGTT -CAATTTCGTCGGCGAGAGTAACAAACTCCGAAGGCCGCTTTAAGTTTTTGCGGAAAAAAGTGGAAAGATACTGCA -CCAGCTGGCTGGCCTGTTCGCTGTCGCGGCGGATCACCGCTTTAATGGTGTTAAGCGCATTAAACAAAAAATGGG -GATTCACCTGGGCGTGAAGCAGTTTGATCTCTGACTGGGTGAGCATCGCTTTTTGCCGCTCATATTGCCCGGCAA -GGATCTGCGCCGAAAGCAATTGCGCAATCCCCTCACCCAACGTGCGGTTGATTGAACTGAATAAACGGTTTTTGG -CTTCATACAATTTGATGGTGCCCATCACCCGCTGATTTTCACCACGCAACGGAATTACCAGCGTCGACCCCAGTT -TGCATTGCGGATGCAAAGAGCAACGGTAAGGTACTTCGTTGCCATCAGCGTAGACCACTTCACCGGTTTCAATCG -CTTTTAAAGTATAAGTTGAAGAAATCGGTTTGCCGGGTAAATGGTGGTCGTCACCAATTCCGGTAAAGGCCAGCA -ATTTCTCTCGATCGGTAATCGCGACTGCACCAATATCCAGTTCCTGATACAGCACCTGAGCCACTTTCATGCTGT -TCACTTCGTTAAACCCCTGGCGCAAAATGCCTTCCGTCGAGGCTGCCACTTTCAGCGCAGTGGCAGAAAAAGCCG -AAGTGTATTTTTCAAACATCGCGCGTTTATCGAGCAATATACGCATAAACAGCGCCGCGCCGACGGTATTGGTGA -CCATCATTGGCGCAGCAATATTACTCACCAGACGCACCGCATCTTCATAAGGTCGGGCGATCGCAAGGATGATCA -GCATTTGCACCATTTCAGCGACGAACGTGACGGCACCGGCGGTAATGGGGTTAAAGACTTTATCAGTGCGCCCGC -GGCGGATCAGGATGCTGTGTACCAGGCCACCGAGTAATCCTTCAACGATGGTCGAGATCATGCAACTTAACGCGG -TCATGCCCCCCATCGAATATCGATGTAAGCCGCCGGTCAGCCCAACCAGCCCACCGACGACCGGACCGCCGAGTA -AGCCGCCCATTACCGCGCCTATCGCACGGGTATTGGCAATAGAATCGTCAATGTGCAACCCAAACCAGGTGCCCA -TGATGCAGAAGATGGAAAAGACGATGTAGCAGAGAAATTTATGCGGCAGACGAACCGTGACCTGCATTAACGGTA -TGAATAATGGCGTTTTACTCATTAACCATGCAATGACTAAAAAAACGCACATCTGCTGAAGCAGCAGCAACACCA -GATTAAAATCGTACATACCCGCAAACCACACTTCCCTTTAAAACGCGTAACATACATTGCCTGCGTTTAACTTTC -TTTGAACTCTTGCAGAAAAATGAGAATTCGTGAGTACGATCACTCAAAATCGCCTGGCAAAAATAAAATCACCCT -ATAGATGCACAAAAAACGGGCAAAACTACCTGGTTCGCAAAACTGCGTCTAAAGTTAAACCGGGACCTCGCGAGC -AAGGGTGAGACGATGGCGCTTTACACAATTGGTGAAGTGGCGTTGCTTTGTGATATTAATCCTGTCACGTTACGC -GCGTGGCAGAGGCGTTACGGATTGCTGAAACCGCAACGGACAGACGGCGGTCATCGGCTGTTCAACGATGCCGAT -ATTGACCGGATCCGCGAGATCAAACGCTGGATCGACAACGGCGTGCAGGTCAGCAAAGTTAAAATGCTGCTCAGT -AATGAAAATGTTGATGTGCAGAACGGCTGGCGCGATCAGCAAGAAACATTACTGACTTACCTGCAAAGCGGCAAT -CTACATAGCCTGCGAACGTGGATCAAAGAGCGCGGTCAGGATTACCCCGCCCAGACACTCACCACACATCTGTTT -ATTCCTCTGCGCCGACGGCTTCAGTGCCAACAACCGACTCTCCAGGCGCTGCTGGCGATCCTCGACGGCGTACTG -ATCAACTACATCGCCATTTGTCTGGCTTCGGCACGTAAAAAACAGGGTAAAGATGCGCTGGTGGTTGGCTGGAAT -ATTCAGGATACCACCCGTCTGTGGCTGGAGGGCTGGATTGCCAGTCAACAAGGATGGCGCATTGATGTCCTCGCC -CACTCGCTCAATCAACTACGCCCTGAACTATTCGAAGGCCGTACATTGCTGGTGTGGTGCGGTGAAAATCGAACC -TCCGCCCAACAGCAGCAACTCACCAGTTGGCAAGAACAAGGCCATGATATTTTCCCACTCGGCATTTAATGATTC -GTTAACAAATGCGCTTTACTGTACAATCCTTTCGTTAACATAAGGAGTGCATTATGCGCATAGCTAAAATTGGGG -TCATCGCCCTGTTCCTGTTTATGGCGTTAGGCGGAATTGGTGGCGTCATGCTCGCAGGTTATACCTTTATTTTGC -GTGCTGGCTAAGCGCCTGCACCAGCCTTTCAAACAGGCGGTCTGCGATGATCGCCGCCAGTGCCACCAGTAACGC -CCCCTGGATCACATACGCGGTATTAAATCCGCTAAGCCCGATGATGATGGGCGTACCCAGCGTGCTGGCCCCTAC -CGTTGAGGCGATCGTCGCCGTACCAATGTTGATAATCACCGAAGTTCGCACGCCCGCCAGAATCACCGGAGCCGC -CAGCGGTAGCTCGACCTTACGCACTCGCTGACCACGACTCATTCCCATACCTTTCGCAACTTCTGTCACGCTGGC -ATCAATCGCTCCCAGCCCGGCAAGTGTCGCCTGCAGGACGGGCAGCACACCGTAAAGGATCAAGGCGATAATCGC -TGGTTGCAGACCAAAGCCGATCACCGGAACGGCGATCGCCAGCACTGCGACGGGCGGAAAAGTCTGTCCAACGGC -GGCAATAGTTTCCACCAGTGGGCGAAATTCCGCGCCCCACGGGCGAGTGACAGCAATTCCGGCACCAGTGCCAAT -GATCACCGCAAACAAACTCGAAATTCCCACCAGCCAGAAATGAGCCAGTGCCAGAGCTGCAAAACTTTCTTGCTG -ATAAACGGGTCGTGGCAGTTGTGGGAACAAGGCAGCAAACAGCGGCTGGCTGTAAGGCAGCCAGAAAATCAGCGC -CACAAACAGAGCAATGAGCCAGAACAGCGGATCGCGCAACATCTTCATACGCTTACGCCTCCACCAGCAGATCCT -GAAAATGCAGCGTGCCGCAAGGCTGGCCCTGCATGTTCACCACCGGCAGCACCTCGCATCCCCGCGCAACAAACA -GAGAGAGCGCATCGCGTAGCGTCATCTCTTCTGCCAGTGCCTCACCATCTGCTCGTTCTTCGCGACGCACGTAAT -CCGCCACACTACGTAACGAAAGCAGGCGCACACCCAGTTCACTACGTCCAAAAAACTGGCGGACAAAATCATTCG -CCGGACGAGTCAGCATCGTCAGCGGATTGCCCTGCTGCACTACTTCACCGTGATCCATCAATACCAGATGTTCTG -CCAGCCGTAGCGCCTCATCAATATCATGAGTGACCAGCACAATGGTACGCCCCAGCAAACGGTGAATGCGCGTCA -TCTCTTGTTGCAACGCGCCGCGCGTTACCGGGTCCAGTGCGCCAAAAGGTTCATCCATTAGTAAGACTTGCGGAT -CGGCAGCCAGTGCACGCGCCACTCCCACACGTTGCTGCTGACCACCGGAAAGCTGATGCGGATAACGCTCACGCA -AATTTGACTCCAGCCCCAGTAGCGCCATTAATTCGTCGATACGATCGTCAATCCGCGCCCGCGACCATTTTTGTA -ATTGCGGCACGGTAGCGATGTTTTGCGCCACGCTCCAGTGGGGGAACAGGCCAATAGATTGAATGGCATAGCCCA -TCCGGCGGCGCAACTCCAGTACTGGCAGCGAGCGAATTTCTTCTCCGGCAAAGCGGATCTCTCCGCTGTCATGCT -CCACCAGGCGGTTAATCATTTTCAGGGTGGTGGATTTGCCGGAGCCAGATGTGCCAATCAGCACCGAAAAACTCC -CTTCCTGAAAATTGAGATTGAGATCGTTAACGGCTTTTTGTGCGCCGAACAGTTTGCTGACATGGCTAAATTCAA -TCATTACGTTTCACCTTCAGCAGTGCGATAAGCAAATCGAACAGCGCGTCGGTAAGCACCGCCAGAACAATTACC -GGGATCACCCCCAGCAACACTAAATCAATGGCGCTGCTTAGCAGCCCCTGGAAAACCAGCGCACCAAAACCGCCT -GCGCCGATTAACGCCGCAATCACCGCCATACCTACAGTTTGCACCATCACCACCCGCAGGCTGCGCAGAAATACC -GGTAACGCCAGCGGTAACTGAACATGCAGGAAACGCTGCGCCCCGCTCATCCCCATCGCTCTGGCGCTTTCCAGC -ACATCGCGCGGGATCTGGTTCAAACCGACTACCACGCCGCGCACCAGCGGCAGCAAGGCATAGAGCACCAGCGCA -ATCAGTGCGGGTGTCATTCCGGTTCCTGCTATGCCGAGCGTCCCCAGCCACGGAAAGGCCGTAACCAGCGCGGCA -AGCGGCGCAATCAACAGGCCAAAGAGCGCCACCGAAGGCACGGTCTGAATCACATTGAGCAGAGAAAAAATTGCC -CCCTGCCGAGCAGTGGAAAAGTAGCACCAGATGCCCAACGGCACACCAATCACTAACGCAGGCAGCACCGCACCA -AACAGCAACGTCAGATGTTGTGCCAGCGCGTCGTCAAACACATCCTGACGGTTGGCGTATTCTTTCATTAGTGAG -AGATCGTTAAGCGTGCCGGAGTACAGCAACCACAGCGGAATAATGGCAATCTGCATATGCAACAACCAGCGCCAC -AGCGGATGCGTGGAGATTCGGCGGATGGCATCGCTACAGGCCAGCAATGCCAGCGCCGCAGCCAGCCAGAAACCA -CTGCCGAGGCTGGTACGCGCCAGCGCACTGCCATTTTGCGCCAGTTGGGTCGCCGCCTTTCCAGCTCCCCACACC -AGCAATACGAAGACGAATTGCGCCAGAATGAGTGCACAAATGCTGCCTTTTTTACCGGGAATAAAACAGGCCGTC -AGCCAGGCGCAACCAACGCCCACCAGCATCCAGATCGTTTGCGGCCACAGCTGCCAGAGATGACGCCCCTCACCC -GAAACTAAACGATTAGGCGCGTAACTGATAAACGGCAGCGCCGCTGCGATTGCCGTCAGCAACAGCAGCAGCGCC -AGAACAGGATTAATACGGAAATAAGTCACGGGAAATTACTTCGTCCACCCTTTTTGTTTCAGGTAGTCGGCAGCC -ACTTTTTTGGCATCCAGTCCTTCCACAGCAATGCTGGCATTCAGTTGCTGCAATGTTTTTGCATCGAGGCTGGCG -AAGACTGGCTGTAGCCACTGTGCCATTTGCGGATACTCCCTCAACACCGACTCACGCACCACTGGTGCAGGCGCG -TAGATAGGTTGCACACCTTGCGGATCGCTTAAGGTTTGCAGCCCCAGCGCCGCTACCGGGCCGTCAGTGCCGTAA -GCCATTGCAGCATTAACGCCAGAGGTTTGCTGGGCAGCGGCTTTGATCGTCACCGCCGTGTCGCCACCAGCCAGT -GACAGCAACTGATCCTGACCGAGCTTAAAGCCATAGGCTTTTTCAAACGCGGGTAACGCATCGGCGCGTTCGATA -AACTCTGCCGAGGCTGCCAGTTTGAAGGTGCCGCCCTCTTGCAGATAACGACTCAGGTCGGCAAGCGAAGTGAGT -TTATTTTTCTCTGCCACATCCTGACGCACGGCGATAGTCCAGGTGTTATTTGCAGGCGCGGGCGTCAGCCAGATT -AACTTGTTGTGCTCCGAATCGAGCTTTTTGACTTTCTCGTAACCTTGCTGCGCGTTTTTCCACGCTGCATCGTTT -TCATCTTTAAAGAAGAAAGCGCCATTGCCGGTATATTCCGGATAGATATCCAGTTCACCGGAAGTAATCGCCCCG -CGCACCACAGGAGTCGTTCCGAGTTGCACTTTATTCACCGTCGGTACGCCGTGGCTTTCCAGCACCTGCAAAATG -ATATTGCCGAGTAGCGCACCTTCGGTATCGATTTTTGAACCGACTTTAACGGGGGAAGCCGCCTGTAGCGGCAGG -CTCACGGCTGCCAACATAACCAGTGAACCTGCCCAGAGCTTTAAGAGTGGCATGATGCTTTCCTCATTCTTTTAC -TGTTGTTTTCAGCGAATTAAGAGAAAAGCATAGTTGATAATGGCGGGGTTAGCTTGAGCGGAAGGATTCAGTTGC -AGAATCAGATAAATACTTAAGAGGCATATTCGGTCCGGCGTTTCCTGCCGGATGCGGCGCGAGCGCCTTATCCGG -CCTACAAAGGGCGCAAACGTCGCGCCCTTACTAAAGCATTACAGCAACTCAAACTCGCCTTTCTTAACGCGTGCG -GAATCAGTGCCGATAAAGACATTGAACTTGCCAGGCTCGGCGTCATATTTCATCTGTTGATTCCAGAACTTCAGC -GCCTCAATATCGATCGGGAAGCTGACAGTCTGAGTTTCGCCCGGTTTCAGGGTGATTTTCTCAAAGCCTTTCAGC -TGTTTCACAGGGCGACTCATGGAAGCCGTCACATCCTGCAAGTACATCTGCACTACCGTGGCACCCTCGCGCTTA -CCGGTGTTCGTCACCTGCACGCTGGCAGTCACTTTGCCGTCACGCTTCATGGTCGGCGCAGAAAGTTTCACATCA -GAGACGGTGAAAGTGGTGTAGCTCAGCCCATAGCCGAACGGATACAACGCCCCGTTAGCTTCATCAAAATAACGC -GAAGTGTATTTGTTCGGCTTGTCGGCATTATACGGGCGACCGGTATTCAGATGGCTGTAGTACACCGGGATCTGC -CCGACAGAACGCGGGAAGGACATTGGCAGCTTGCCGGACGGGTTGTAATCGCCAAACAATACATCGGCAATTGCA -TTACCGCCTTCAGTCCCCGCAAACCAGGTTTCCAGAATCGCATCAGCCTGCTGATCTTCTTTCACCAGCGCCAGC -GGACGCCCGTTCATCAGCACCAGCACCAGCGGTTTACCGGTGGCTTTCAGCGCCGCAATCAAGTCACGTTGGCTT -TGCGGAATAGTGATATCGGTCCGGCTGGAGGCTTCGTGCGCCATCCCCTGTGCTTCACCGACTACAGCCACCACC -ACATCAGATTGTTTCGCCGTCTGCACCGCTTCATCAATCATCTCTTGCGGCGAACGCGGATCGACTTTGACCGCT -TCTTCATACTGATTCAGGAAATCGATAATGCCTTTGTCACTGGTAACGTTCGCCCCTTTGGCATACAGCACTTTA -CCGTTTTCACCGACGGCATTTTTAATCCCGGTCAGTACGGTCACGGATTGATCGGCAACACCGGCTGCGGACCAG -CTGCCCATCACGTCACGTTTACTGTCCGCCAGTGGCCCAACCACCGCAATGGTGGCCGATTTTTTCAGCGGTAAC -GTTTCGAGACGGTTTTTCAGCAACACCAAGCTTTCGCGCGCCACTTCACGCGCTTCTTTACGGTGCAGGCGGCTT -TCGGCATTGGTATCCACCGGGTCAGACTCTTTCGGCCCCAAATGGCTGTATGGGTCGTTAAACAACCCCATATCA -TATTTAACGTTCAGTACATGGCGGGCAGCATCGTCCAGCTCTGCCATCGTCACTTTGCCGGATTTAATCAACCCA -GGCAGATACTTCGAGTAGTACTCGTCGCTCATGCTCATGTTGATTCCGGATTTCAGCGCCACGCGCACCGCATCT -TCCGGGTCTGCCGCCGTGCCATGTTTAATCAGCTCTTTGATTGCACCGTGATCGGAAACGGTGATGCCTTTAAAG -CCCCACTGGTCGCGCAGAACATCTTTCAGCAGCCAGGAATCGGAGGTGGCTGGCGTGCCGTTCAGCGAGTTCAGC -GCCACCATCACCGCGCCGCTGCCTGCGTCCAGCCCCGCTTTGTACGGCGGCATATAATCATTAAACAGGCGCTGC -GGACTCATATCGACGGTGTTGTACTCTTTACCGCCTTCTACCGCGCCGTATGCGGCAAAGTGTTTGACGCTGGTC -ATCACCGAGTAGCGATCTGCCGGGCTTTTACCCTGCATCGCTTCCACCATGGTTTTACCCATTGTTGAGGTGAGA -TACGTATCTTCGCCAAAACCTTCGGAAGCACGTCCCCAGCGCGGATCGCGCGAGACATCGACCATCGGTGCCCAG -GTCATATTCAGGCCATCATCTGCCGCTTCATAAGCAGAGACACGTCCGACCGTTTTCACTGCATCGAGGTTAAAA -GACGAGGCCAGACCGAGGCTAATCGGGAACACCGTGCGCTGACCGTGCAGCACGTCGTAAGCAAAGAAAAGAGGA -ATTTTCAGGCGGCTTAATTCCATCACCTGATCCTGCATGGCGCGGATATCCTGACGGGTTACGGTGTTGAAAATC -GCCCCAACCTGACCGTCTTTGATCATCTCGCGGATCGCCTCTTTCGGGTTATCCGGGCCGACGCTGATTAAGCGC -AGCTGACCAATTTTCTCATCAACTGTCATTTTCTTAAGCAGTTCGGTGACGAACGCATCCCGCGCTTCGGGCGTT -AATGGATGGTTGCCGAATAAATCATCCGCCAGTGCTGGCTGCAGGGCCAGACTCACCGCGATTCCTACTGAACAT -AGCCATTTCATATGGATTTTTCTTCCTTTGTTGCCCGACGTGGCAGCGAAAATGGTGCAAAAACCGTAGTTTGCC -ATAAGCATGATGGAGAGAGAAAAAGAATGCTCAGTTTATTGTCTGAATTTTCAAAATATTCACTCGCTGAATTGT -TATACAAGGCGCTATTCTAGTTTGTGATATTTTTTCGCCACCACAAGGAGTGGAAAATGTCTTCCATGACAACAA -CTGATAATAAAGCCTTTTTGAATGAACTTGCTCGTCTGGTGGGTTCTTCACACCTGCTCACCGATCCCGCAAAAA -CGGCCCGCTATCGCAAGGGCTTCCGTTCTGGTCAGGGCGACGCGCTGGCTGTCGTTTTCCCTGGCTCACTACTAG -AATTGTGGCGGGTGCTGAAAGCCTGCGTCACCGCCGACAAAATTATTCTGATGCAGGCCGCCAATACAGGCCTGA -CCGAAGGATCGACGCCAAACGGTAACGATTATGATCGCGATGTCGTTATCATCAGCACCCTGCGTCTCGACAAGC -TGCACGTTCTTGGCAAGGGCGAACAGGTGCTGGCCTATCCGGGCACCACGCTCTATTCGCTGGAAAAAGCCCTCA -AACCGCTGGGACGCGAACCGCACTCAGTGATTGGATCATCGTGTATAGGCGCATCGGTCATCGGCGGTATTTGTA -ACAACTCCGGCGGCTCGCTGGTGCAACGTGGCCCGGCGTATACCGAAATGTCGTTATTCGCGCGTATAAATGAAG -ACGGCAAACTGACGCTGGTGAACCATCTGGGGATTGATCTGGGCGAAACGCCGGAGCAGATCCTTAGCAAGCTGG -ATGATGATCGCATCAAAGATGACGATGTGCGTCACGATGGTCGTCACGCCCACGATTATGACTATGTCCACCGCG -TTCGTGATATTGAAGCCGACACGCCCGCACGTTATAACGCCGATCCTGATCGGTTATTTGAATCTTCTGGTTGCG -CCGGGAAGCTGGCGGTCTTTGCAGTACGTCTTGATACCTTCGAAGCGGAAAAAAATCAGCAGGTGTTTTATATCG -GCACCAACCAGCCGGAAGTGCTGACCGAAATCCGCCGTCATATTCTGGCTAACTTCGAAAATCTGCCGGTTGCCG -GGGAATATATGCACCGGGATATCTACGATATTGCGGAAAAATACGGCAAAGACACCTTCCTGATGATTGATAAGT -TAGGCACCGACAAGATGCCGTTCTTCTTTAATCTCAAGGGACGCACCGATGCGATGCTGGAGAAAGTGAAATTCT -TCCGTCCGCATTTTACTGACCGTGCGATGCAAAAATTCGGTCACCTGTTCCCCAGCCATTTACCGCCGCGCATGA -AAAACTGGCGCGATAAATACGAGCATCATCTGCTGTTAAAAATGGCGGGCGATGGCGTGGGCGAAGCCAAATCGT -GGCTGGTGGATTATTTCAAACAGGCCGAAGGCGATTTCTTTGTCTGTACGCCGGAGGAAGGCAGCAAAGCGTTTT -TACACCGTTTCGCCGCTGCGGGCGCAGCAATTCGTTATCAGGCGGTGCATTCCGATGAAGTCGAAGACATTCTGG -CGTTGGATATCGCTCTGCGGCGTAACGACACCGAGTGGTATGAGCATTTACCGCCGGAGATCGACAGCCAGCTGG -TGCACAAGCTCTATTACGGCCATTTTATGTGCTATGTCTTCCATCAGGATTACATAGTGAAAAAAGGCGTGGATG -TGCATGCGTTAAAAGAACAGATGCTGGAACTGCTACAGCAGCGCGGCGCGCAGTACCCTGCCGAGCATAACGTCG -GTCATTTGTATAAAGCACCGGAGACGTTGCAGAAGTTCTATCGCGAGAACGATCCGACCAACAGCATGAATCCGG -GGATCGGTAAAACCAGTAAACGGAAAAACTGGCAGGAAGTGGAGTAAAAATTACGGATGGCAGAGTATCGCCATC -CGAATTCACTTAATCGTTCTGTGCCGTCTGCCCCGCCGCCGCCATTTGGGCGGCTTTTTGTTTTTTATAGCTCAA -CGCTGCTGCCGGCACAGGCATCACTTTACCGGTTTCAATCCAGGTACGCAGGCGGCTGGCATCGGCAAAATGGGT -ATATTTGCCAAACGCGTCCATCACTACCAGCGCCACCGGTTTATTATTGATAACCGTACGCATCACCAGACAATG -GCCCGCCGCATTGGTAAAGCCGGTTTTGGTTAACTGAATATTCCAGTTATCGCGATACACCAGATGATTAGTATT -GCGGAACGGCAGCGTATACGTCGGATTAGAGAAGGTTGCCATATCTTCCCGGGTAGTACTTAACTGCCCGATCAA -CGGATATTGTTTGCTGGCAATGAGCAGTTTGGTTAAGTCACGGGCAGTTGAAACGTTATGCACCGACAATCCGGT -AGGTTCAACAAAGCGCGTGTTGTTCATTCCGAGCGATTTCGCTTTCGCATTCATTGCCTTAATAAAGGCTTTGTA -ACCACCGGGATAATGGTGCGCAAGGCTTGCCGCCGCGCGGTTTTCTGAAGACATCAGCGCCAGCAACAGCATATC -TTTACGGCTGATTTCGCTATTCAGTCGTACGCGCGAATAGACCCCTTTCATCTCCGGCGTCTGGCTGATATCCAC -TTTTAGTTTTTCATCCAGCGGCAGTCGTGCATCCAGCACAACCATCGCGGTCATTAATTTGCTGATAGACGCAAT -CGGACGCACCAGATCCGGGTGGTTCGAATAGATCACTTTGTTGGTATTCAGATCAACAATCATCGCGCTACCGGA -GGCAATTTCCGGTTGTGAAGCGGTGGTAGCGGCTGCCGTTTTCGCAACGGCCTGCGGTGCAAAAGGCACAGCCAG -CATCAGGGCCAGGCTAAATAAAGAAACTCGAAATTTCGGCATGATGAGCATTCAGATAGTGGTTCACGCGCACGG -GTTGCGCACCGCCGGAGTAAGGATTTACTGAGGCTAGCGACGCCATCATAACGAGCAAAAAGTGCGATCGTCAAA -GGAGAATCGTGAGGAAATGCTGCATTGCTGACATTTACGCCAGCAATGCAACGTCAAAGAACTTTCTAGAACAAA -CGATAACCGTAGCCCCATAGTATAACGGTTAGGGCGAGCAGCACTTCCAGTACCAGCACGCCAATCGCCAGCGTC -GAACTAGAGAAGCTAAGGCCTTCCTCTTTGTTGATATTCAGGAAGCTCGGAATACCAAGGTAAAGCAGGTAGCCG -GTGTAAAACAGCGCCACCGTGCCGACCAGCGCACACAACCAGACCAGTGGATAAAGCGCCACCAGACCGCTTAAA -AACAGCGGAGTTGCAACGTAGCCCGCGAAGACCATGCAGTGCGCAAGTGACGGACGCTGCGGATAATTACGCGCC -ATCCACCAGATGACCCGCCCCATCACCGCGACCCCAGCCAGCATAACGCCGTAAAACAAGACAGCCAGCGCCAGT -CCGGTAAACCAGGATAACTTCAGGATAGTGCCATCGCCAAAATTCCAGCCAATCTGTGTAGTGCCAATGAAGGCG -CAAATCACCGGAATCGCCGCCATCAGCAAAACGTGGTGGGTGTAATGGTGAGAAATCGTTTCGTTTTCGCGATTA -ATCACCTGCATTTCACGATCGGGATGGGAAAACAGTCCCCAGACATGGCTCATACCGCCCCCTTGTTGTGAGTTC -ATGAACCTGACAGTTCAAGTATAAGTCAGCTTGTGATTATTTTTTGTTCGCCCATGTAATTTTCACTGTCTGATG -AACGTCCTTTTTCAGCGTGAATGATTCACAGGGTGTATGCTTACTGGCAACCAAAGGGAGACAGACTGGCCTATG -GATCTCAATACACTTATCTCACAATATGGTTATGCCGCGCTGGTGATCGGTAGCCTGGCGGAAGGTGAAACCGTG -ACTTTGCTGGGAGGCGTTGCGGCGCATCAGGGGCTATTAAAGTTCCCGCTGGTGGTACTTTCTGTGGCGCTTGGC -GGCATGATTGGCGACCAGGTGCTCTATCTGTGCGGGCGGCGGTTTGGCGGCAAGCTGTTACGCCGTTTCTCGAAA -CATCAGGATAAAATTGAGCGGGCGCAGAAACTTATCCAACGCCATCCGTATCTGTTTGTCATTGGTACGCGCTTT -ATGTATGGCTTTCGGGTGATTGGCCCGACGCTGATTGGTGCCAGCCAGCTGCCGCCGAAAATCTTTCTGCCGCTG -AATATTCTCGGCGCATTTGCCTGGGCGTTGATTTTTACCACTATTGGTTACGCTGGTGGTCAGGTGATTGCGCCG -TGGTTGCACAATCTCGACCAGCATTTGAAGCACTGGGTCTGGTTGATTCTGGTCGTGGTTCTGGTGGTGGGCGTG -CGCTGGTGGCTGAAACGACGCGGGAAGAAAAAGCCGGATCATCAGGCGTAAAACCATTGCCCTGGATAAGGCGTT -CGCGCCGCATCCGACATCCGGAGTACCATGCCTGATACGACGCTTGTGCGTCTTTTCATGCCGACCAAAATATTA -CCCAATGAAATATCCACGCACCTCACTGCGCTATTCTGGGTTGAACTGTGGATTCGCCAACATAAAGCCGCCATC -CACTATCAACGACTGCCCGGTGGTGTAATTTGCGCCCTCCGAACAAAGCCACACCACCAGGCTGGCAATCTCATG -CGTTGCGCCAAAACGCCGCAAGGGAATCGAAGGCTCCGCGTCGGGCTTCACGTCGCTGTCATCCATGCCATTCAT -TGGCGTGGCGATCGCCCCAGGCGCGACTGCGTTCACCAAAATCTTATGCCTGACCAGCTCCAGCGCCATCGCTTT -GGTTAACCCACCGAGCGCATGTTTAGCGGCTGTGTAGGCGCTGGCATCCGGCAGCGGCGTATGTTCATGTACCGA -CGTAATGTTGATGATGCGACCGCCCTGCCCTTGTTTCACCATCTGACGAGCCGCAATTTGCGAGCATAAGAATGC -ACCATCGACATCAACGGTAAAAATCTTGCGCCACTCATCAAAAGCCATATCAAGAAACGGCGCTTTGGTCATTGC -ACCCGCATTATTCACCAGCACATCAATGCGCCCCAGCCGTTGAATGAGTTTCTCCAGCGCCAGTGCCCCTTCTGG -TAGATTGCCGAGATCCAGCTGCACGATCTCCGCACGTACGCCGTGGCTAACTACCTCACGCGCGGTATCTTTTGC -CCCTTCTTCATCTGAGTGCCAGGTAATACCAATATCAAACCCCTGCTGCGCCAGTAATAACGCGCACTCTTTGCC -GATCCCCGAATCGGAGGCGGTAATAATCGCAACCTGTGCCATCGAGTTCTCCACTTAACGCTGAATAAACGTTAA -GTATAGAAGGCGCATATCATCAGCGTTTGTACCCCCCGCCCAACGCACCAGTGAGTTGAATGGAGGCATCCAGCC -ACTGCCCTTGCAATAACAGGCCATTGGCCCGCTCACGCAGCGCGGGGATTCTGGCTTCGCTGACGCGGGAACCAG -CAATGATGCCCGCGTTAAAGCGCGCCTGCGCAAGACCTACCACACGCAAGGCATCGCGCTCAATTTGCGCCTGAT -GCTGGTTTTTCTCCGCCAGTGTCTGAACCTGACTGGCTGCCCGCGCCACGTCATTCACCGCTTCAACCACCGCTT -TGTTGTAGCTGGCGATAGACAAGTTGCTTTCGGCTTTTGCGATATCGAGATTGGCGTTAAGACGACCACTATCGA -AAATGGGTAGCGTCAGGCCTGCCGTAACGCCCATTTGCTGCGCGGAATGACGGAACAGATCGCTTAAGTGCAACG -CATCCTGTTGCAGGAAGGCCATCAGGTTGATGTCAGGATAAAATGCCGCTTTTGCCGCATCAATGGTGCTTAGCG -ATGACTCAACGTACCAGTGCGCCGCCTGCAAATCTGCCCGCCGGGCCAGTAAGGAGTACCCCAGTTCATCAGGAA -GCTGGCTTGCCACTTTCGGCAACGCGACCGGTTTAAGCTTCAATGACTTTGTCTGGTTATTTGTAAGTGCGCTTA -ACCGTGCCTCAATAATTTTCATTTTCCCCGCGACATCGTTGAGCTGCTGCCGGGTTTTGCTGGCATTAATATCGG -TTTCCACACCTTCAACTGAAGAAGTAATCCCGTTCTGATATAGCTGGCGATCGGTCGCGATAATGGTGTTCTGCT -CTTTTTCTATTTGCTGCAAGACCGTGTTTAACGCCGCCTGGGTTTGCCACTCCCAGTACAGGCGGGCTACGCTGC -CAGCCAGCAATTGGCGGGTTTGCTCGCGTTCCGCCGCCCGTGCTTTAACCGTACCCAGGCGGGCAGTAACCTCCG -CCCGATTCTTTCCCCAGATATCGAGATGCCAGCCCGCCGTTAAGCCAAAAGTACCGTTGGTGTACCACGGGCCGG -TCGTACCTGCGGCCGGATCGTTCAGAGCAAACGGCCCCATTAAGCCTTCTGCCGACATTTTTTGCCGCTCCATAT -CCGCCGAAAAGTCGATCTGCGGACCATCCTGAGTGGCAACTGCCTTCGCCTGGGCTTCAGCTAGCTGAATGCGCT -GTTCAGCCACCTGCATATCCGGTGCGTTCTGTAGTGCATTGTTAATTAAGGAAGTGAGTTGATTATCGTGATACT -CCAGCCACCATTGGCTGTCTGGCCAACCATTTTCAGCGCCGTGGGTAATGCGGTGTCAACTTGTGCAGCGGGCGT -TTGCTGGCTTAACGCCTGGCGGGTTTCATGCATAGGCGCACACCCGGCCAGCATCAGTAACAGCGGAAAACAGGC -GATGGCTGGATAAAAGGAATCACGATTCATGGGGGAATAATCAGGTAAGAAAAGGTGCGCGGAGATTACCGTGTG -TTGCGATATATTTTTTAGTTTCGCGTGGCAATACATCAGTGGCAATAAAACGACATATCCAGAAAAATATACACT -AAGTGAATGATATCTTCCGATTTATCTTAATCGTTTATGGATAACGGCAAAGGGCTTCGTTTTTTCCTATACTTA -TTCAGCACTCACAAATAAAGGAACGCCAATGAAAATTATACTCTGGGCTGTATTGATTATTTTCCTGATTGGGCT -ACTGGTGGTGACTGGCGTATTTAAGATGATATTTTAAAATTAATTAATGTCATCAGGTCCGAAAATAACGAGAAT -ATTTCAGTCTCTCATCCTGTTGCGCTCCTGTCATGTGCATTGCTTCATATAATCACTGGCGCAAGGAGCGCGCAG -GGGGCGGCCAATCGCCGCCGCCCCCTGCACCCCCGGGCTCTGGCGAACAAAATCGCCGCTGCGCGGTGCCCTCGG -CTTATCCCTTACGGCTACCGGGTCGGGCGCGAGGTAACATCCCTGTAAAACGCGCCCTCAGCCCACATCCATGTG -GGCTGCCCCGGCCTTCAGGGAACGCCTCGGCAATTTTGACGCCACCAAACAACCGTGCGGCCTATTGATAAAGAG -CTAACACATTGTCAAAAAACATCACTATGGTTTTTTAGAGTTTCTCGATATCAATTGCCTGAATAGCCCTTGCAA -TATCAGGGGAATTATTCAACACCCGAACATGCTGAAATAATTCCGTTGCTTCATCGTATTCTTTACGCAAATAAC -TCAACCACTGTTTAATCCGCGCAACGTGATATAACCCGGTATCGCCCTGCTTTTCCAGACGGGTATATTTTTGCA -GCAAAGCAACCACCTCCGGCCACGGCATTCGCGGTTCGTTATATTTTACCACCCGGCTCAGGTTGGGAATATTGA -GCGCCCCGCGACCAATCATCACTGCGTCGCAGCCGCTGATCGCCATGCATTGTTGCGCGCTCTGCCAGTCCCAGA -TTTCACCGTTGGCAATCACCGGAATATTCAGCCGCTGGCGAATATCGCCAATCGCCTGCCAGTCAATATGCTCCG -CGCGGTAACCCTGCTCTTTCGTCCGCCCATGCACCACCAGCTCCGTAGCGCCAGCCTGTTGAACCGCATCGGCGA -TTTCAAATTTCTTCTCACCGCTGTCCCAGCCCAGACGCACTTTCACGCTGACGGGCAAATGCGCCGGTACAGCTT -CACGCATCGCTTTTGCACCCTGGTAGATGAGTTCAGGATCTTTGAGTAACGTCGCCCCGCCGCCGCTACCGTTAA -CCGTTTTCGACGGGCAGCCGCAATTGAGATCCACGCCCCAGGAACCTAACTCCACCGCACGGGCGGCGTTCTCTG -CCAGCCATTGTGGGAACTGACCTAACAACTGCACGCGCACCAGCGTACCAGATGGTGTCCGGCTGGCGTTTTGTA -GCTCAGGGCAAATGCGATGAAAGACTTTTACCGGCAGCAGTTGATCCACCACGCGGACAAACTCGGTGATGCACA -GATCGTAGTCGTTAACTTCGGTCAGCAATTCACGCACCAGAGAGTCAAGCACTCCCTCCATCGGTGCCAGTAACA -CACGCATATCATCACCCGCAAAAAAATGAGGCGCTATGTTAGCGCCTATGGTCAGCGGATTAAAGGTCTGCAAAG -AGGGATTGCTGCAAACTGCAATCCCTCTCTATGCTTGATGTATGCCTGAGTTCGCTGCGCATTGCGTAATGCCGG -GGAGCGAAAAAATAAGCGCTGATTTCTTAATGTGATCGGTAGCACGTTTTACGAATTAATTGTATGATGAATCCA -TCTCATCTGGGGTGTTGATTATGAGTAAGACACTGAACATTATCTGGCAATATTTACGCGCTTTCGTCCTGATTT -ATGCCTGCCTGTATGCAGGCATTTTCATTGCTTCCCTGCTACCGGTAACCATTCCGGGCAGCATCATCGGGATGC -TGATCCTGTTTGTCCTGCTGGCCTTGCAAATTCTTCCGGCAAAATGGGTCAATCCGGGGTGCTACGTACTGATTC -GCTATATGGCGCTATTGTTTGTGCCGATTGGCGTAGGCGTCATGCAATATTTTGATTTGCTCCGCGCACAGTTTG -GCCCGGTAGTGGTTTCCTGTGCAGTCAGTACGCTGGTGGTTTTTCTGGTGGTGAGCTGGAGTTCGCAACTGGTAC -ACGGTGAACGTAAAGTCGTAGGTCAGAAAGGATCAGAAGAATGATGGCGAATATCTGGTGGTCATTACCGCTGAC -ATTGATTGTCTTTTTTGCCGCCCGCAAACTGGCGGCACGGTATAAGTTTCCCTTGCTTAACCCGTTGCTGGTAGC -AATGGTGGTGATCATTCCTTTTTTAATGCTGACTGGCATCTCTTACGACAGCTACTTTAAAGGTAGCGAAGTGCT -AAACGATCTGCTGCAACCGGCGGTCGTCGCGCTGGCCTATCCTTTATATGAGCAGCTACACCAGATCCGCGCGCG -CTGGAAATCGATCATCACCATCTGTTTTATCGGCAGCGTGGTTGCGATGGTGACGGGGACTTCCGTGGCATTGTT -GATGGGCGCTTCACCGGAAATCGCCGCGTCAATCCTGCCGAAATCAGTCACCACGCCTATTGCAATGGCGGTTGG -CGGCAGTATTGGCGGTATTCCGGCAATCAGCGCAGTTTGCGTGATTTTCGTCGGCATCCTCGGCGCGGTATTTGG -CCATACATTGCTTAATGCGATGCGTATTCGTACCAAAGCTGCGCGCGGTCTGGCAATGGGGACTGCCTCGCACGC -CCTCGGTACGGCGCGCTGCGCCGAGCTGGATTATCAGGAAGGTGCATTTAGTTCGCTAGCGCTGGTGTTATGCGG -GATAATTACTTCGCTGATCGCACCGTTCCTTTTCCCGATTATTCTGGCAGTAATGGGCTAAAATTTGCGATGCGT -CGCGCATTTTTGATGTATGTTTCACGCGTTGCATAATTAATGAGATTCAGATCACATATAAAGCCACAACGGGTT -CGTAAACTGTTATCCCATTACATGATTATGAGGCAACGCCATGCATCCACGTTTTCAAACCGCTTTTGCCCAACT -TGCGGATAACTTGCAATCTGCACTGGAACCTATTCTGGCAGACAAGTACTTCCCCGCTTTGTTGACCGGGGAGCA -AGTCTCATCGCTGAAGAGCGCAACGGGGCTGGACGAAGACGCGCTGGCATTCGCACTACTTCCGCTGGCGGCGGC -CTGTGCGCGTACGCCATTGTCGAATTTTAATGTTGGCGCAATTGCGCGCGGTGTGAGCGGAACCTGGTATTTCGG -TGCCAATATGGAATTTATTGGTGCGACAATGCAGCAAACCGTTCATGCCGAACAAAGCGCGATCAGCCACGCCTG -GTTGAGTGGTGAAAAAGCGCTTGCAGCCATCACCGTTAACTACACGCCTTGTGGTCACTGCCGTCAGTTTATGAA -TGAACTGAACAGCGGTCTGGATCTGCGTATTCATCTGCCGGGCCGCGAGGCACACGCGCTGCGTGACTATCTGCC -AGATGCCTTTGGGCCGAAAGATCTGGAGATTAAAACGCTGCTGATGGACGAACAGGATCACGGCTATGCGCTGAC -GGGTGATGCGCTTTCTCAGGCAGCGATTGCGGCGGCAAACCGTTCGCACATGCCTTACAGTAAGTCGCCAAGCGG -TGTCGCGCTGGAATGTAAAGACGGTCGTATTTTCAGTGGCAGCTACGCTGAAAACGCCGCATTCAACCCGACTCT -GCCACCGTTGCAGGGAGCGTTAATTCTGTTGAATCTCAAGGGTTATGATTACCCGGATATCCAGCGCGCGGTTCT -GGCAGAAAAAGCCGATGCGCCGTTGATTCAGTGGGATGCCACCTCCGCAACGCTGAAAGCTCTCGGCTGTCACAG -TATCGACCGAGTGCTTCTCGCTTAAGCCTGGTGCCGGATGCGGCGTGAACGCCTTGTCCGGCTTGCCAGCCCTCT -CCTGGTGTCGAAATTCCCGGCAAACAGTTTGCCGTTTCTTGCGCAAAACCAGCGGGTAAAGTAGCCTGATGGAAA -TTTTCCTTAGATCGAGTCTCCTGCATGTTAAAGCGCGTGTTCCTCAGCCTGTTAGTCCTGATCGGCTTGCTGCTG -TTGACTGTGCTCGGCCTCGATCGCTGGATGAGCTGGAAAACCGCGCCTTATATCTACGACGAATTGCAGGATCTC -CCCTACCGCCAGGTCGGTGTGGTGCTCGGAACAGCAAAATATTATCGTACTGGCGTAATTAATCAGTATTATCGC -TACCGCATTCAAGGAGCGATTAATGCCTATAACAGCGGTAAGGTAAATTATCTATTACTGAGCGGCGATAACGCA -TTGCAAAGTTATAATGAGCCGATGACCATGCGCAAAGATTTAATCGCTGCTGGTGTCGACCCATCAGATATTGTT -CTCGATTACGCAGGCTTTCGTACGCTGGATTCCATCGTGCGTACACGCAAAGTTTTCGATACTAATGATTTCATT -ATTATCACCCAACGTTTCCACTGTGAGCGAGCATTATTTATTGCGCTGCATATGGGGATTCAGGCTCAGTGTTAT -GCCGTACCGTCACCGAAAGATATGCTGTCAGTACGTATTCGTGAATTTGCCGCCCGTTTCGGTGCGCTGGCTGAC -CTTTATATTTTTAAACGTGAACCGCGTTTTTTAGGGCCGCTGGTCCCTATTCCGGCTATGCACCAGGTACCGGAA -GATGCGCAGGGGTATCCCGCCGTCACACCCGAACAGTTACTTGAATTACAAAAGAAACAAGGAAAGTAGTTATGG -ATGTACAGCAGTTTTTTGTCGTTGCCGTTTTTTTCCTTATCCCGATATTTTGTTTCCGCGAAGCATGGAAAGGCT -GGCGCGCAGGCGCGATTGATAAACGGGTTAAAAATGCACCGGAACCGGTGTATGTCTGGCGAGCAAAAAATCCCG -GACTCTTTTTCGCTTATATGGTGGCATATATCGGCTTCGGAATTTTATCTATCGGCATGATTGTTTATCTTATTT -TCTATCGTTAATATTCCCCTCTCCAGTTAATTATTGAGAATAATTATTACTTCACCTGATAAGCTGCGGATATCA -CATTCCTAACCGCAGCTATTTGTGAATCTTTTCACAGTTTAAATTCCCCCGCACGCTTAGCCTTAATATCAGTAC -ATTATTATTTACTAAACGCTCGCCTTAATTACCTATAGCATTAAGGAAGATCACATGCCGCAACAAAATTATCTG -GATGAACTCACTCCGGCTTTTACGTCTTTACTGGCGATTAAAGAAGCCTCTCGCTGTTTATTATGTCACGACGCT -CCCTGTAGTCAGGCTTGCCCGGCACAGACCGATCCGGGGAAATTTATTCGCTCAATCTACTTTCGTAATTTTAAA -GGCGCTGCCGAGACAATTCGCGAAAATAATGCCCTCGGTGCCGTTTGTGCCAGAGTGTGCCCGACGGAGAAATTA -TGCCAAAGCGGTTGTACCCGTGCCGGTGTTGATGCTCCCATTGATATCGGCCGCTTACAGCGTTTTGTTACTGAT -TTTGAACAACAAACCGGAATGGAAATTTATCAGCCCGGTACTAAAACGCTCGGCAAAGTCGCGATTATTGGCGCA -GGTCCTGCCGGATTGCAGGCCAGTGTGACACTGACAAACCAGGGTTATGACGTCACGATTTATGAGAAAGAAGCG -CACCCCGGTGGCTGGTTGCGTAACGGTATTCCGCAATTCCGGTTACCGCAATCAGTGCTGGATGCAGAGATCGCC -CGTATTGAAAAAATGGGCGTGACCATTAAGTGCAACAACGAAGTCGGTAACACACTCACCCTTGAGCAGCTGAAA -GCAGAAAACCGCGCGGTACTGGTCACCGTGGGGTTATCAAGCGGTTCCGGGCTACCGCTGTTTGAGCATAGTGAC -GTTGAGATTGCCGTCGACTTCTTGCAACGTGCACGACAGGCGCAAGGCGATATCAGCATTCCACAAAGCGCATTA -ATTATCGGCGGCGGTGATGTCGCGATGGACGTAGCCAGCACGCTGAAAGTTCTCGGCTGTCAGGCGGTAACTTGC -GTAGCGCGTGAAGAGTTAGATGAGTTTCCGGCAAGCGAAAAAGAGTTTACCAGCGCCCGGGAGCTGGGCGTTTCG -ATCATCGATGGATTCACGCCAGTAGCCGTGGAAGGCAATAAAGTCACGTTTAAGCATGTACGGTTATCGGGCGAA -CTGACGATGGCGGCAGATAAAATTATTCTCGCCGTCGGTCAGCATGCCAGACTAGATGCCTTTGCGGAGTTAGAG -CCGCAGCGTAACACCATCAAAACACAAAATTACCAGACCCGCGACCCGCAAGTCTTTGCTGCTGGCGATATTGTT -GAGGGTGACAAAACCGTGGTCTATGCCGTGAAAACCGGGAAAGAAGCCGCCGAGGCGATTCATCACTATTTAGAG -GGAGCTTGCTCATGTTAACGAAAGATCTTTCGATTACTTTTTGCGGCGTGAAGTTTCCCAACCCGTTCTGCCTCT -CTTCTTCGCCGGTAGGCAACTGCTATGAGATGTGTGCCAAAGCCTACGACACAGGTTGGGGCGGTGTGGTGTTTA -AAACGATCGGCTTTTTTATCGCCAACGAAGTCTCGCCGCGTTTTGATCATCTGGTGAAAGAAGATACCGGTTTTA -TCGGCTTCAAAAATATGGAGCAGATTGCTGAACATCCGTTGGAAGAGAATCTGGCCGCCCTGCGTCGGCTGAAGG -AAGATTACCCGGACAAAGTATTGATCGCTTCGATCATGGGGGAAAATGAGCAGCAATGGGAGGAGCTGGCGCGCC -TGGTGCAAGAAGCTGGCGCGGATATGATCGAGTGTAACTTCTCCTGTCCGCAAATGACTTCTCATGCGATGGGTA -GCGATGTCGGGCAAAGCCCGGAGCTGGTAGAAAAATATTGTCGGGCAGTGAAACGGGGTTCCACGCTGCCAATGC -TGGCGAAGATGACGCCGAATATCGGTGATATGTGCGAAGTGGCGCTGGCGGCGAAGCGCGGCGGCGCAGATGGCA -TTGCGGCGATTAACACCGTTAAATCCATCACCAATATCGATCTTAATCAGAAAATCGGTATGCCGATCGTTAACG -GAAAATCGAGTATTTCCGGATATTCCGGTAAAGCGGTAAAACCGATCGCCCTGCGCTTCATTCAGCAAATGCGCA -CCCATCCAGAACTGCGCGATTTCCCAATCAGCGGTATCGGCGGCATTGAAACCTGGGAGGATGCGGCTGAGTTTT -TATTGCTCGGCGCAGCAACGTTACAGGTGACCACCGGCATCATGCAGTACGGGTATCGGATAGTGGAAGATATGG -CAAGCGGGTTGTCGCATTATCTCGCCGATCAGGGATTTGATTCGCTGCAGGAGATGGTAGGTCTGGCGAATAACA -ATATTGTCCCGGCGGAAGATTTAGACCGCAGTTATATTGTCTATCCCCGTATCAATCTTGATAAATGTGTTGGCT -GTGGACGCTGTTATATTTCCTGTTACGACGGCGGTCACCAGGCGATGGAATGGAGCGAGAAAACCCGCACACCGC -ATTGTAATACCGAGAAATGTGTGGGTTGTCTGCTTTGTGGTCACGTCTGCCCGGTGGGTTGTATTGAGCTCGGGG -AAGTGAAGTTTAAGAAAGGCGAGAAAGAACACCCGGTAACGTTGTAAAACCAGAGACGCATCCGGCATTTGGTTC -CTGTCGCCGGATGCGGCTTGAACGCCTTATCCGGCCTACAAAACCATACAAATCAGTATGTTGAGCTTATTGTAG -GCCGGATAAAACGCGCCAGCGTTGCATCCGGCATTTGGCTCCTGTTGCCGGATGCGGCGTGAACGCCTTATCCGG -CCTACAAAACCACACAGATCATGATGTTATGTGCGTTTATGACCGAATGCGGACCACATTCACATCATTTCTTAC -GCGCGTATTTCAGTGAATCCAGCGCTACGGCGAAGATAATAATCGCCCCTTTGATGATGTACTGCCAGTATGGGT -TTACGCCGATATACGTCAGGCCATAGTTGATGACGGTAAAAATAATTACCCCGGTCACCACGCCAATCACCGTCC -CCACACCGCCGCTGAACGATACACCGCCTACCACGCACGCCGCGATAGCATCCAGCTCATACATAAAGCCGAGGT -TGTTGGTGGCAGAGCCGATACGTCCGGCTTCTAACATCCCGCCAAAGGCATAGAACACGCCAGACAACGCGTAGA -TCATCAGCAGGTTCAGGCCGACGTTGACACCAGATACTTTTGCCGCTTCCGGGTTACCGCCAATGGCAAAAATGT -TCTTACCGAAGCGGGTTTTGTTCCACAACACCCAGACGAACGCCACCGCAATCAACGCGTAGAAGGTGATGTAAG -AGAGACGGAAACTCCCCAGCGCGACAAAGCCCTGAGCAAAGGTAGAGAAGCCACTGTCAAAACCAGAAATTGGCG -ACGCCCCGACAAAGTCGTAATAGAGCGAGTTGATGCCATAGACGATGATCATCGTGCCGAGCGTGGTAATGAACG -GCGTCACGTTGAGATAAGCGATAATCAGACCGTTGATCAAACCGATCACCGCACCAATGGCACAGACAATCAGAA -TAACCAGCGCAATCGGCATCGTCGCCATTTCCGGGAACACTTTGTTGGCGTTATCCATGGACTGCAATAATGTCG -CAGCCACCACTGCCGCCAGCCCTACCTGACGACCAGCAGAAAGATCGGTCCCCTGGGTGACAATTAACCCTGCCA -CACCGAGCGCGATAATAATACGCACCGATGACTGGGTGAGAATATTACTTAAGTTCAACAGACTTAAAAATGTTG -GGTCCTGGAAAATAATAATCGCCAGCAAAACTAAAAGAACGACGTAAATACCGCCCTCTTTCAGGTAAGTAAGAA -AACTTTTCTTATTTAACGCACTCATGGGAAGCCCCTAATCTTAAAGGTGCAAAGACGCAAGACGCAGAATTTCGT -TTTGCGTTGTTGTTTTTGTATCGACAATTCCGGAAACGAGACCATTGCTCATGACCAGAATACGGTCTGTTATCC -CTAACAACTCAGGCATTTCAGAGGAGATAATAATAATCCCCTTGCCTTTCTTCGCCAGTTCGGCAATTAACTGAT -AAATTTCAAACTTCGCCCCGACATCAATACCGCGCGTCGGTTCATCGAGCATTAATATTTCTGGTTGCGTTAGTA -GCCAGCGACCAATAATCACCTTTTGCTGATTACCACCGGAGAGCGAACCAATTTGCGTCCGATGACCCGGCGTTT -TTACCCGCATCGAATCAATCACCCACTGGGTATCGCTTTTCATCCGCGAGTTATCCAGTAAACCAACTTTATTTT -TGTAGTTGCGAATATTGGAAATTAACGAGTTAAAACCAATATCCAGATAGGCATAAATTCCCGTTGAGCGGCGCT -CCTCAGTTACCAGTGCAAATCCATGGTTTATGGCTTCGTTGGCATTATGGTTATTGATCTGTTTGCCGTGCAACG -TTATGGTGCCAGCCGATTTCTCGCGAATACCAAATAACGTCTCAACAATATCGGTACGTTTCGCCCCCACCAGAC -CGGCAATACCGAGGATCTCCCCTTTATGCAGATCAAACGAGACATCGCGAATCGACGGCTGGCGCAGTGACGTCA -GGTTACGTACCTCGAGGATGACTTCGCCCGGTTTGTTTTCTTTGTCAGGGAAACGCTGGTTAAGAGAACGCCCAA -CCATCATGGCGATGATCTTGTCCATCGTCAGTCCTGCCAGCGGTTCGGTGGCGATCCACTGACCGTCGCGCAATA -CGGTAACTTCATCACATAACTGGAAGATTTCTTCCATTTTATGCGAGATATAAACAATACCGCAGCCGCGCTCTT -TTAATTTACGAATAATAGTGAACAGATGATTGACCTCTTTTTCGGTTAACGAAGAAGTCGGTTCATCCATAATCA -CAATTTTCGCGTTATAGGAAAACGCTTTGGCGATTTCGATCATCTGCATTTGCGAAACGGATAATGTGCCGACGC -GCGCACGCGGATCGATATCAATATCCAGTTCGTCAAAAATCGCTTTGGTTTCGCGGTACATTTTGTCCTGATCGA -CAAACATGCCTTTGGTGGGATATCGCCCCAGCCACATGTTATCCATCACCGAACGTTGTAATACCAGGTTTAACT -CCTGGTGTACCATCGAAATACCATTTTCCAGGGCTTCTTTTGCAGAATGGAAATCGATCTCTTTACCCTGGAATA -AAATGGTGCCGGAGTCTTTTTGATAAATACCAAACAGGCATTTTAATAATGTCGATTTTCCTGCACCGTTTTCCC -CCATTAATGCATGGATAGAATGTGGCCGGACTTTTAAATTAACGTTATCAAGTGCCTTAACACCAGGAAAGGACT -TGTTGATACCGCTCATTTCCAACAAGTATTCCCCGGAGGACGGAGTCGTTGAGCTGACCATATAATTTTACCTTG -TTGGCCATACAATAAGGGCGCAGTAATAGACTGCGCCCAATCAGTCTTATTTCTTGCTGAATTCAGCCAGGTTGT -CTTTATCTACGCCAACATAAGGTACGCGGACCACTTTGTTGTCGATTTTCCAGTTGGTGCCATCAGCCGCACCTT -TACCATCGGCCAGGTTTTTCGCCAGATCAAAGGTCGCTTTCGCCTGGTTGTTAGCATCGTTCAGTACGGTGCCCG -CCAGTGCACCGGATTTCACCAGCGCCAGCGCTTCTGGCAGCGCATCGACGCCAAACACCGGAATGCTGGACTTGT -TGTGTGCTTTCAGCGCTTCAACCGCGCCCATTGCCATCGCATCGTTGTTGGCGATAACCACTTCGATTTTGTTGG -CGTTCGGGCCAGACAGCCAGGCGTCCATCTTATCTTTCGCCTGAGCGGTGTCCCACATTGCGGTATCTAACTGTA -ACTGTTCAGTTTTGATGCCTTTATCGTTCAATTCTTTAATCACGTAAGTGGTACGTGCTTCTGCATCCGGATGGC -CCGGTTCACCTTTCAGCAGTACGAACTGAATCTGACCGTCTTTGTTCAGATCCCAACCCTGATTCGCCGCCCAGT -GTTTAGCAATCAAATCGCCTTGAATAATGCCGGACTCTTTGGAGTCAGTGCCAACGTAGTAGGCTTTGTCGTAGC -TATCCAGCGCCTTACGAGACGGTTCTTTGTTGAAGAAAACCACCGGCACGTTTTGCCCACGCGCTTTCTCAATCA -CCGTACCCGCAGCTGCCGGGTCAACCAGGTTGATTGCCAGTGCCTTCACCCCTTTCGCCAGCAATACGTCGATCT -GATCGTTCTGCTTGGACTGGTCATTCTGAGAATCATTCATCAGCAGCTGAACATCTGGCGCGGCTTTCGCATCTT -GCTCAATAGCCTTGCGCACTACAGACATAAAGTTATCGTCGTACTTATAGATTGTTACACCAATGCGAGTATCAG -CAGCGTGTGCAGCGGCACCGAATAACATGCTGGCCATCACAGCAGACAGGGTTAACACCTTCTTATTCATGGTAT -CTCCGGTTTTTCTTATGCAGGGTAGTGCTTGAGATAAATGCTCGGCGGGGCAGTAGAGTTAATGAAGTGTTACTG -AACGCCGAAGCTCACTTTTTAAAATTCGTTCTTCCATGCCCGGTAACGCTCCAGAAAACGGCTTTAATTGTTGTT -ATGACGCTGTTACCTCGGCAAAAGTGATTATTCACTGTTACATACGGGTTACAACGTTAAAACGGTGCAATCATA -GCTATCACATTGTTAAGATACTGTGAAATCACTCACAGATTGAAAGCGGTTACATCGCCTGATTTGTTGAGTTAG -TGATCGCCGCCGCATTCTGGCGTGTTGCGACAGAATGGCGACGCACTAACGTCGGCATAAAACAGTGGCTGGCAC -GAGGATCAATATTGCCTGCTGCCCCCTGCAAGGCCAGTTCGGTGGCTAATTTCGCCATTGAAGCAATGGGATAAC -GCACGGTCGTTAATTGCGGGTCGGTGTAACGGGCGATGGGAATATCATCGAAACCGATGATTGAGAGATGTAACG -GAATCGCAATGCCATTATCTTTTAATGCTGTCAGTGCGCCAGCGGCCATATTGTCGTTATAAGCAAATACAGCGG -TAAGTTGTAGATTGCGCCCCAGCAGTTCAACCATCGCCGCCTCACCGCCCGGCATGTCCGGCGTACCAGCGCCAA -TCCAGCTTTCCGGCGGAATAATATCCTGCTCTTTCAACGCACTCATCCAGCCTGCTTTACGCATGGCGTCATCTT -CAATGCCGTGGCTGGAAGAAAGATAACCAATACGTTGATGACCGTTATTCAGCAACATGCGCGTCGCCATTCGGG -CACCGCTGAGATTATCCAGGCAAACGCAACGATGGGCGTACCCCGGCACAACGCGGTTGATTAACACCATACCGG -GAATGTTATCCATAAATTGCGCCAGTTCATCGTCACTCAATGCTTTTGAGTGAACAATCAACGCATTACAACGCT -GGCGAATTAACACCTCAATGGCGTGACGCTCTTTTTCCGCTTCATGATAGCTATTGCCGATTAGCACGTATTTCT -GATGCTGCTGAGCGACCAGATCCACCGCTTTTACCAGCGCGCCGAAAAACGCATCAGAAACGTCCATCACCACCA -CGCCAATGGTGTCGCTAACCTGAGTTGCCAGCGCCTGGGCATTGGCGTTTGGCCGATAATCCAGCTCACTCACGG -CTTTCATTACTGCTTCACGCGTGTCGGCACTGACCAGCGTGCTGTTATTGAGCACCCGGGAAACCGTTGCCACAG -AGACGCCAGCCTGACGCGCTACATCACGAATGGTGATCATATTCACTACCTGTTATGAGATTGCAGTAAATGACT -GCTTGCTGGCGGCTATTTTGTCAGCACTGAATACAGGACTTCGTGAATCGAGTCACAGCAATGGAAACGGTTACA -GCCGTTTTGTTAACGAATGTGATCCAGATCGTTATCTTGATGTTTTAGATATTGCCGGTCCGGCAGCACGCAAAG -TTAACTGACGCCAGAGCCATTCCACCGGCCCCTGGCGGAAGTAACGCAGCCAGATAACAGAGAAGAGGATATTCG -CCAGCCATACCGGAATAACAAACGCCAGCAGCTCCAGGCGGTCAAAATGCATAAACAAACCGAGGTGGTAAAAAA -GCGTGGTACAAATCAGCGTTTGCAATAGATAGTTGGTCAGCGCCATCCGTCCGACGCAGGCGATCGCAAGCACCA -GCTTAAAGCGGCTCAATTGCGGCCAGAAGCCATAAAACAGCGACGCATAGCCAATCGCCTGAAACGGCGCACTCA -GTTCCCGCGGCATTTGAAGTAAGAAGGCACACCAGCGATACGCCCAGTCCAGCTGCCATTGCAGGGCGATGGCAG -GAAGGTTAATGGTCACCCCAATCGCCACCAGCACAAAACCAGTACGACGATAGTGACGTAAGCTGAACTGCCCTT -TCAGCCAGCCGCTGCGCATCAGCGCCGCACCAATGAGCATCATCCCTGCCAGTTGCCAGCCATACTGTGCGCCCA -GTGCCAGTAAACTGTTGCCAACACCATCGGCACGATTACTGATCGCTTCAACGCCGCCGTGAAGCTTCCAGTATT -TTTCATACAAAATAGCCGATGCATCCGGCGTCCAGGCGCGGCTGGTCTGGCTGTCGGAAATCAGCCCCAATAACA -GCAAAACGCCAAGCCCCACCAGATAAAGCATGACGCCTGTATTAAACAGGCTTTTTACCGATGGCGCATCGCGCA -CCAGCCGCCAGCAGATTAAGCCCACCAGCCCGTAAGCCAGCAAAATATCGCCGTCCCAGAACAATAAACCGTGAA -TAAAGCCCAACAAGACTAACAGCGTTAACCGCGACTGGATCCAGCGTCTGCCACGGGGCAGCAACATTTGCAGGC -CCGCACCAAACAGTAGCGCAAAAAGCGTGAGGAATTTCACCTGGCCGATGAGATCAAGAAATGCCCAAGTCCATG -CATCCCGCGGCGTAATAGCACCGTACCAGGCGGGATTGAGATAAGCCGCCTTTGGTAGCCCAAAGGCGCTGATGT -TTAATAGCAGGATCCCCAGAATGGCGACGCCGCGAACAAAATCGAGCGTGACGTTGCGCTCCATGGTTCCTGCCT -TTTAATCAGTTGTGATGACGCACAGCGCGCAGAAACTCGTGGCGCGTATTCTGACTGGATTTGAACAATCCACCA -AGAGAGGTCGTTGTCGTGGCACTGGTTGCATCGCGGATGCCACGCGCCTTCACGCAGTAATGCACCGCGTCGATC -GAGACAGCCACGTTATTGGTGCCCAGCAGCGTTTGTAGCGCAATAAGAATTTGCTGCGTCAGACGTTCCTGCACC -TGCGGACGCTGGGCAAAGAACTGCACAATGCGGTTAATTTTTGACAGACCGATCACCGAATCTTTCGGGATATAG -GCCACCGTCGCTTTGCCATCGATGGTAACAAAATGGTGTTCACAGGTGCTGGTCAGAGTGATATCGCGCACGGTG -ACCATTTCATCGACCTTCATTTTGTTTTCAATGAGGGTGATTTTCGGGAAATTGGCGTAATCCAGACCGGAGAAA -ATTTCATCGACATACATTTTAGCGATGCGATGCGGCGTTTCCATCAAACTGTCATCAGCCAGGTCGAGATTCAGC -AGCTGCATGATTTCGGTCATATGACCAGCAATAAGGCTTTTGCGCGTTTCGTTATCCATTTCATGCACGGGCGGG -CGCAGCGGTGTTTCCAGTCCTCGCGCAACTAACGCTTCATGAACCAGGGCCGCTTCTTTACTGAGTGATGGCATT -TATGATTTCTCCTGCAGGTGTGACGCCTCCGCCCTGCGTGGGGGCAAAGTTATTAAGCTGATTTACAGCCTGATT -ATTGTGCGTGAGGCGGCGCACATAATCCAGTATTCACAGCGATAATTATTGTAATTGCCGCTGCCTTTCATCAGC -AGATGTTAAAACATCGTTATGCAAATACGGAAGTGAAAGTTACTCACAGCACATTGAATAAACGGTATGATGAAG -AAATTGCAAACAACACAACAAGGAGCCACGCATGGAAATGCTCGAAGAGCACCGCTGTTTTGAAGGCTGGCAGCA -ACGCTGGCGACACGACTCCAGTACCTTAAACTGCCCGATGACGTTCAGTATCTTTCTCCCTCCACCTCGTGATCA -CACTCCGCCACCAGTGCTGTACTGGCTTTCCGGATTAACCTGCAATGACGAGAACTTCACCACCAAGGCGGGTGC -CCAGCGGGTAGCGGCGGAACTGGGGATTGTACTGGTGATGCCAGACACCAGCCCGCGCGGCGAAAAGGTTGCCAA -CGACGATGGCTACGATTTAGGCCAGGGCGCAGGCTTTTATCTTAATGCCACGCAACCGCCGTGGGCGACGCATTA -CCGGATGTATGATTATCTGCGCGATGAATTACCGGCGCTGGTTCAGTCGCAATTTAATGTCAGCGACCGCTGCGC -CATTAGCGGTCACTCAATGGGTGGTCACGGTGCGCTGATTATGGCGCTGAAAAATCCGGGTAAATACACCAGCGT -TTCGGCCTTTGCGCCAATTGTGAATCCGTGCAGCGTCCCGTGGGGAATCAAAGCGTTTAGCAGCTATTTAGGTGA -GGACAAAAATGCATGGCTGGAATGGGACAGTTGCGCACTGATGTATGCCAGTAACGCGCAGGATGCGATCCCGAC -GCTTATCGATCAGGGCGATAATGATCAGTTTCTTGCCGACCAGTTGCAACCTGCGGTACTGGCAGAAGCCGCGCG -CCAGAAAGCGTGGCCGATGACGCTGCGTATTCAGCCGGGATATGATCACAGTTACTACTTCATCGCCTCTTTTAT -AGAGGATCACCTGCGCTTCCATGCGCAGTATTTACTGAAGTGAAAGTCCGCCCGGTTCGCCGGGCATCTTCTCAT -CAGAAGCGATAATCCACTGCCATAAAGTAACGACGTCCGTCTTCGTTATAGCTGTAGTCGTCACGACTGAGATCC -TTGTCGCCAAGGTTCAGCACGCCTGCGCGCAGTTTGACGTCTTTAGTCACCTGCCAGGCCGCGCCGGTATTCCAG -ATGGTATAACCGCCCGGTGTTTTAGCCGTCGCGCTGTCGGCGCGTTTCTGCCCGGTATAGTGCCCAGAAACATAG -AATGACCAGTCTTCCAGCGCCAGCGGTTTCCAGTCCAGCGTACCGTTAGCAGTATGGAACGGCAGATCGGATAGC -GGTTTGTTTTCGCCGTTGCTGACATCACGACCATCGTTGTAGGTGTAGTTGATCGACAGTTTCCATTCATCGTTG -AACGGAATTTTCAGTTCGGTTTCCACGCCCTGAATACGAGCTTTGTTAACGTTGTAGTAGCTAAATACCGGTATG -CGCCGTCCGTTAGCGCCCGTCTCAAAACCAACAAAGTTTTGGTAGCCCGGTGCAGCGTTGACGTCAGACGTACGG -CTGATGCTGATACGATCTTTCACATCGTTACGGAAAACGGTAACGCTGGATTCAACCCCTTCCAGCCAGCCTTCT -TCACCCATGTAGTAAAGCCCCAGCTCCCAACTTTCGCTGGTTTCTGGTTTCAGATCCGGGCTACCCACAATCTTA -CATGCGCCACGGCAGGAATTGCTCGTCCAGTCAGGGCTAAGTTGCAACAGAGAAGGTGCTTTAAATGCCGTCGCC -CAGCCCCCTTTCACCGTTACGGTGTCGGTGGCGTTATAAACCAGGTAGGCACGCGGACTCCAGTGTTCACCGTAG -GTTTCGTGATCGTCCATACGCACGCCGGTCGTCAGCGCCAGCGGCTCGAAGATCCGCCATTCATCTTCCACAAAC -AGCGCGTACTGGCTGGCAGACGTTTTGGAGCTGGTTCCCCCGGTCAGGTTCACCGCATCGCTAAGTTTGTCGTGA -CGCCATTCACCGCCAACCGTGAGAAACTGATTAATCGCCGTCAGCGGCAACGTGTATTTGCCGTCGACCGTATTG -CTTTCGGAAGTTATCGGGCTGCTGTTGCCAGGGTTTTTGTTCTCGACTTTCTCACCGTAGTATTTCAGTTCGCTG -GTGCCGTAATCCCAACGCCCATTATGGCTGACGGAGTAGTTCTGGCGTTCCAGGCGGTTTTTGTCCAGCGAGTCG -GAATCACGATCCTGACGGTCGAAACCGTATCCGGCAGTAAAATCGTGATTTTGATTCGGTGTCCAGGCAAATTCG -ACATTGCCGTCGCGGCTGGAGAATCCTTCAATACGCGGCGTTTCTCCGGTATCGGTGGTCGTTGAGTTTTGCGGG -TCATCCTTTTCACGTTTTGCCAGGCTGCCGTAAGCTTTCATTCCCAGCACACCATCAATTAATGGTCCACTGGTA -AAGAACTGACCGTTATAGGTGTCACCGCGATCGCGATGTTCCTGAATGGTGGTATCGACGGTAACGGTACCCGAC -CATTTCTGACCGATTTTTTTGGTGATGATATTCACTACACCGCCGAGCGCATCGGAACCGTACAGCGACGACATC -GGGCCACGGACCACTTCAATACGTTCGATGGAATCGACCGGGATCCAGTTCAGATCGAAATCATTGTGGCGGAAG -ACGGCATTGCGGGAGTTCACGCGTTTACCGTCGACGAGAATCAGGGTATAGCTGCTGTCCAGACCACGAATACTA -ACGCCCTTACGGTTATCCCCTTCGTTCGTCAGTTGTACGCCAGGCACTTCTTTGAGGACATCCTTCAGATTCTGT -ACCGGTTTTCGCTGCAGGTCTTCCTGGGTAATGACGCTGATACTGGCAGGTGCATCTTTAAGATTTTGTTCCACG -GAAGATGCAGTGACAACCATCGTTTCGCCATCATCATCGACCGCTAACACAGGCCATGCACAAGAAATAGCGGAC -AAACACAGCCCGACCCGTACGAAAGGGTTCAACCTAAACATTCCATATCTCCATGAGGTAACTACGAAAATAAAA -TGGGTTATCGCTCACATCTTCTTCACGTCCCCTTGCGTACGGCAGCATCGCGGTGGACTTATTTTTTATGCAGGT -GATCATCCCAGAAAGCCGGAACAGCCTCTGATTTGTCAGCCTTTTTTGATTGCGGCGTAACGATAATGCAAACGA -TAACAATTATCAATCCAAATGTTAAATTTTATATCCGCATGATTTGTCAGGGAAATGGAATTGAAAAAGCCCTCT -CGGTTGAGAGGGCTTAGCAAGGAAGGGAGGAAACTTATTTCTTATCGTTCTGCGGGAACTTCATTTCGCTGTAGC -GTACGAAGTGAGTTCCTTTAATCAGCTTGTAGCCGAACCAAATAATCAGGAACAGCGGGATACCAATATACGTTG -CCGCTACGCCGCCCCAGTCAATAGTATCTTTCAGGAACGCTTCGTAGTTCTGGCCCAAAGTGATAATCAGACACA -GAATGAATGCGAAGATCGGCCCCAGTGGGAAGAAACCTGAACGGTACGGCAGATCGTTAATGTCGTGTCCCTGCA -ATACGTAACCGCGACGGAAGCGATAGTGGCTAATGGCAATCCCCAGCCAGGCGATAAAACCCGTCATCCCGGAGG -TGTTCAGCAGCCACAGGTATACCGTCTGGTTGCCAAACATGGAGGTCAGGAAGCACAGACCGGCAATCACCGTCG -TCGCATACAGCGCATTACGCGGCACGCCACCACGCGACAGTTTAGCGAAAATGCGCGGCGCTTTACCGTCACACG -CCAGGGTGTACAGCATACGAGTAGACGCATACATACCGGAGTTACCCGCTGACAGCACCGCCGTCAGAATAACTG -CGTTCATCACCGCCGCCGCAGAGAGCAGACCCGCGTGCTGGAACACCAGGGTGAACGGACTAACGCTGATGTCTT -TAACATCGTTACGCAGCAGGCTCGGATCGGTGTACGGAATAATCAGGCTGATAATCAGGATCGCGAACACATAGA -ACAACAGGATTCGCCAGAACACCTGACGTACCGCGCGTGGAATGTTTTTCGCCGGATCTTCGGACTCGCCTGCAG -CAATACCGATCAGCTCGGTTCCCTGGAAAGAGAAGCCGACAATCATAGCTACGCCGATCATCGCCGCAAAACCAC -CAGCAAACGGCGCTTCGCCGATTGTCCAGTTGCTCCAGCCCGCAGGCTGCGCGCCTTTGAAGATACCGATAATCA -TCAGCACGCCAACGATGATAAAGACAATAACTGTCGTGACTTTGATCAGTGAGAACCAGTATTCCGCTTCACCAA -AGCCACGAACTGAGATGTAGTTCAGCAGGAAGATAACGCCGAGGAACAACGCACTCCAGATCCAGCCCGGTGTAT -CCGGGAACCACCAGCTCATGACCAGCTGAGCTGCAACCAGGTCAACGGCGATAGTCACCGCCCAGTTGTACCAGT -AGTTCCAGCCCAGCGCGAAGCCAAAGCCTTCTTCAACATAGTTCTGACCGTAAGTGGCAAACGAACCGGAAACCG -GCATATATGCAGCCAGTTCACCGAGACTGGTCATCAGGAAGTAAACCATCAGGCCAATCAGCATATACGAGAGCA -ATGCCCCGCCCGGACCTGCCTGAGAAATCGTTGCGCCAGAGGCAACAAAAAGACCTGTACCGATGGAACCGCCAA -TGGCAATCATCGTCAGGTGACGCGCCTTTAATTCACGGCGTAAGCCCGGCGCTTCTGTGGTTTTAGTTTCGGAAA -CCATACAAAAATGCTATCCATCTTAAAAATGAGGCGCGATTGTAGCAGACGATTGGCAATCCTTCCGGCAGAAAT -ACACGGTTATAAGACACCTTCATGATCGCCCAGGGATTATAAGTAAAGCAGCCAATCTCTTTTCTGGCGAATGCA -TGCTGAAGGCGCTGCGTCACGAAATCGACACAGCACCAGCATGTTCTTGTACAGCAACTTAACGCGGCACATTTG -CGGGATCGCAATAGTCCAGAAAGCGCCGTAGCGCGTTGGAAAGGTGTTTTTGCCGATGATGTATACGCCACAACG -TACGCATCAGGCGCGGCAGAGGGACCGCAACTTCACTTAATGTGCCTGCCTGCAATTGATCTTCAATCACACGTC -GCGACAGGCAACTAATTCCCAACCCATGACGCACCGCATGTTTGATTGCCTCGGAGTTACCTAATTCCATCGCCA -TCTCAAACTTCGGTAAATGTGACAGCAACAGATAATCGACAATCTCCCGCGTGCCGGAACCGCGTTCACGCAGGA -TCCACGGCGCAGCGGCCAGCTGTTCTAAGGTGACCGGACCACGGGCCAACGGCGAAGTCGGCGCGGCGAAAACCA -CCAGCTCGTCTTCCAGCCACGGTTCAGAAATGATTTCAGTGCTGTGGCACGGTCCTTCAATAAAGCCAATATCAA -CGCGGAAATCCAGCACCGCTTGCATCACGTCCTGGCTATTCCCAACGCTAAGTTCAATCGGCAACTGCGGATAAT -CATGGCGATAACGGGCGATAACTGCAGGCAGAATGTAGTTACCGATGGTACTACTGGCATAGATACGAATCGCGC -CGTTGTCTTCGCGAAACAGTTGTTCGATTTCAACCGCCTGTTCAAGCAATGCCAACGCACGCGGATAGAGCAGCC -GCCCGTGTTCATTAACAACCAGTCTTTTCCCCACGCGATCAAACAGTTGCACGCCAAGCTGCCCTTCCAGGTCGG -TCAAGGCTGCGCTCACTGCTGATTGCGACAACGCCAGCATCACCGACGCCTGGGTGGTTGATCCACTTTTCAATA -CTTCTGCAAAAACTTCCAACTGCCGGAGGGTGATGTGCATAGTCGCTTACCACTTATAAAGATTAATTATAAATA -TATAATCAATTTTATTTTTAAACCAGTTAGTCGTAACCTTATGCCCGGTTAAAGGAGAGGGTTATGACGAATATC -ACCTTACAGAAACAACATCGTACACTGTGGCATTTTATTCCGGGGTTAGCCCTGAGTGCAGTTATCACCGGGGTC -GCCCTGTGGGGTGGTTCCATTCCCGCGGTTGCGGGTGCCGGGTTTAGTGCCCTCACCCTCGCAATCTTGTTGGGG -ATGGTTTTAGGCAACACCATCTATCCGCACATCTGGAAAAGCTGTGACGGTGGTGTGCTGTTTGCCAAGCAATAT -TTATTACGTCTGGGTATCATTCTTTATGGCTTCCGTCTGACGTTCTCGCAAATTGCCGATGTCGGTATCAGTGGG -ATCATCATTGACGTGTTGACGCTGTCCAGTACCTTCCTGCTGGCTTGCTTCCTGGGGCAGAAAGTGTTTGGTCTG -GATAAGCACACCAGCTGGTTGATCGGTGCCGGTAGCAGTATCTGTGGTGCTGCCGCGGTACTGGCGACTGAGCCG -GTAGTGAAAGCGGAAGCCAGTAAAGTAACCGTGGCTGTTGCAACCGTTGTTATCTTCGGGACCGTCGCGATTTTC -CTCTACCCGGCGATATATCCGCTGATGTCTCAATGGTTTAGTCCGGAAACTTTCGGTATCTACATTGGTTCTACT -GTGCACGAAGTGGCGCAGGTGGTGGCGGCAGGTCATGCCATCAGCCCGGATGCGGAAAACGCAGCAGTTATTTCC -AAAATGCTGCGCGTGATGATGCTGGCTCCGTTCCTCATCCTGCTGGCGGCGCGTGTTAAACAGCTGTCTGGGGCG -AACAGCGGCGAGAAAAGCAAAATCACTATTCCGTGGTTTGCCATCTTGTTCATCGTAGTTGCCATCTTTAACTCG -TTCCACCTGTTACCGCAGAGCGTGGTGAACATGCTGGTAACGCTGGATACCTTCCTGCTGGCAATGGCGATGGCG -GCGCTGGGTCTGACCACTCACGTCAGCGCGCTGAAAAAAGCTGGGGCGAAACCTCTGCTGATGGCACTGGTACTG -TTTGCCTGGCTGATTGTTGGTGGTGGTGCGATTAACTATGTGATTCAAAGCGTCATCGCATAAACCACTACATCT -TGCTCCTGTTAACCCGCTATCATTACCGTTTTCCTCCAGCGGGTTTAACAGGAGTCCTCGCATGAAATACATTGG -AGCGCACGTTAGTGCTGCTGGCGGTCTGGCAAATGCCGCAATTCGCGCCGCCGAAATCGACGCAACCGCGTTTGC -CTTGTTCACCAAAAACCAACGTCAGTGGCGTGCCGCACCGCTCACGACGCAAACCATCGATGAATTCAAAGCCGC -CTGTGAAAAATATCACTACACATCGGCGCAAATTCTTCCCCACGACAGTTATCTGATTAACCTCGGACATCCGGT -CACTGAAGCTCTGGAAAAATCGCGCGATGCCTTTATAGATGAAATGCAGCGTTGCGAACAGCTGGGGCTTTCTTT -GCTCAACTTCCACCCTGGCAGCCATCTGATGCAGATTTCAGAAGAGGATTGCCTTGCGCGTATTGCCGAATCCAT -CAACATTGCGCTGGATAAAACTCAAGGTGTGACAGCGGTGATAGAAAACACCGCCGGTCAGGGCAGTAACTTAGG -GTTTAAATTCGAACATCTCGCGGCGATTATCGACGGCGTGGAAGATAAATCCCGCGTCGGCGTCTGCATTGATAC -CTGCCATGCTTTCGCTGCCGGGTATGATTTGCGTACTCCAGCCGAATGCGAGAAAACATTCGCGGATTTTGCCCG -TACTGTCGGCTTTAAGTATCTGCGCGGGATGCACCTTAACGATGCGAAAAGCACCTTTGGCAGCCGCGTTGACCG -CCATCATAGCCTCGGTGAAGGCAATATCGGTCATGATGCGTTCCGCTGGATCATGCAGGACGACCGTTTCGACGG -CATTCCGCTGATCCTCGAAACCATCAACCCGGATATCTGGGCAGAAGAGATCGCCTGGCTGAAAGCGCAACAAAC -TGAAAAAGCGGTAGCCTGAAGATGAATAACCGGGAAAAGGAGATCCTTGCAATTTTACGGCGTAACCCGCTGATT -CAGCAGAACGAAATTGCGGACATGCTGCAAATCAGCCGTTCGCGCGTTGCGGCGCATATTATGGATTTAATGCGC -AAAGGCCGGATTAAAGGCAAAGGTTACATTCTCACCGAGCAGGAATACTGCGTAGTGGTGGGGACAATCAATATG -GATATTCGCGGGATGGCGGATATCCGTTACCCGCAATCGGCTTCTCATCCCGGTACAATTCATTGCTCAGCGGGC -GGCGTGGGACGCAACATCGCCCACAATCTGGCGCTGTTAGGCCGTGACGTCCATTTGCTTTCAGTGATTGGCGAT -GACTTTTATGGCGAAATGCTCCTGGAAGAAACGCGCCGTGCCGGCGTGAATGTCTCCGGCTGCGTTCGTTTGCAT -GGTCAAAGCACATCGACGTATCTGGCAATTGCCAATCGAGACGATCAAACCGTGCTGGCGATTAACGATACCCAT -CTGCTGGAACAGTTGACACCGCAACTACTGAACGGGTCGCGCGATTTACTTCGTCATGCGGGCGTGGTACTGGCT -GATTGCAACCTGACAGCCGAGGCGCTGGAATGGGTCTTTACCCTCGCTGATGAAATCCCGGTGTTTGTCGATACC -GTTTCAGAATTCAAAGCGGGCAAAATCAAACACTGGCTGGCGCATATTCACACCCTGAAACCCACTTTACCGGAG -CTGGAAATTTTATGGGGACAGGCGATCACCAGCGATGCTGACCGTAATACCGCAGTGAATGCATTGCATCAGCAA -GGTGTTCAGCAACTGTTTGTTTATTTGCCCGATGAGTCAGTTTATTGCAGCGAAAAGGATGGAGAACAATTTTTG -CTGACCGCGCCAGCGCATACGACAGTAGACAGTTTTGGTGCTGACGATGGTTTTATGGCGGGCCTGGTATATAGC -TTTCTTGAAGGATACAGTTTCCGCGACAGCGCCCGTTTTGCGGTAGCCTGCGCGGCAATTTCGCGCGCCAGCGGC -AGCTTAAACAACCCTACCCTGTCTGCCGATAACGCGCTTTCATTAGTGCCAATGGTGTAACAATGTTGCCGGATG -CGACGCTTAACGCGTCTTATCCGGCCTACAAATCAGGCAATTTCAGCAAGTAAATGTAGGCCTGATAAGCTTGCG -CATCAGGCAATGACACTCAAGCTAAACCAATAAAGAACCCGGCAATGGTCGCACTCATCAAGTTGGAAAGCGTCG -CCGCCGCCAGCGCCCGTAAACCAAGCTGGGCGATTTCCGGCGCACGGTGTGGCGCAACCGCAGAAAACGCCCCCA -CCACCACCCCGATAGAACCAAAGTTAGCGAAACCGCACAACGCGAAGGAAATAATCGCCACAGTTTTAGCATCGA -GAGTGCCAGCCGTTTGCAGATAGGGTGAGAAATTGAGATAAGCGACAAATTCATTTATTGCCAGTTTCTGTCCAA -TCAAACTCCCGGCAAGATTCGCATCACTCCAGTCCACACCCATCACCCACGCCAGTGGAGCCAGCAGGTAACCTA -AAATGGACTCCAGCGAGGCATGTTCAAAACCAAACCAGCCACCAACGCCGCCGATAATACCGTTAATCAACGCAA -TTATTGCAACAAATGCCATCACCACTGTTGCCACACCTGCGGCGATTTTCAGCCCGGTCATTGCCCCTGTCGCAG -CGGCTTCAATAATGCTTTTTGGCGGTGTTTCGGTGAAAGAGAGGTTATTAAAGGAAACCTGCGAAGATTCCGTTG -CCGGGCTTAACAGGCGGGCAAACAAGATCCCGCCAGGGATCGCCATTAATGATGCCGCCAGCAGATATTCCACAG -GCACGCCCAGTGCGGCGTAACCAATCATTGTCGAACCAGCAATCGAGGCCATGCCACTACAAATCGCTGTAAATA -ATTCATTGCGATTCAGACGATCGATAAAGGGTTTGACGATTGCCGGAATTTCGTTTTGCCCGAGGAAAATGGTGG -TGACCGCGACGAATGACTCGATCTTGCTGATATTTAATGCTTTCTGGAAGATACCGCCGAGAATTCGAATTAAAA -TCCCCATCACACCGATGTAGTAGAGAATACTCACCAGCGCGGTGACGAAGATAATTGCCGGTAACACCCTGAAAC -CAAAGATAAATCCTGCACCATCAAATAAGGTATCCATTTTCGGTCCGACCAGAGAACCGAAGATAAATGCGCTAC -CCGCGTCGCTGTACGCCATCACTTTATGCACGCCAAAAGCGACTTTTTCAGCGACCCAACGCCCTGGCGGTAACC -AAAGCATAATGCCGCCAATCACGACCTGTAACACTAACGCCGCGCCAACGGTACGCAGGCTGATCTTCTTCTTGT -TTACTGACAGTAAAAACGCAATCGTCAGCAATACCACCATTCCCAGAACACTTCTCATGACATCCATAGTGATTA -TCTCTTCATGTCATATTGGGCGACGGCTTTCTGCCCATCAGAAATAGCCAGGCCTGCATCTTGCGATACCGGCCC -GGCTTGTTATCAACACTTAATGGGTTTTGATGTAGCCGCGCACGCACTCTTCGACTAATCCCCAGAACCAGTCTG -TATCAATAGTGATGCCGACTTTGGTATTGGCGGGCTTGCCAAGAACGCCCAGCTCGTCGCAGACGGTACGCCCAT -AGCAAGGGCCACTGTTGACGTCCACTTCGACGTACATCTCCTGGGTTTTAATGCCATCAGGGTTAATCAGATAAC -CGATGCAGGTGGCGTCGTGCACCGGGCCGCCAGCAAGGCCGTAGTTTTCGAACTGCGTTTTGAGAGTGAAGTTCA -TGATGTCGCTGAACAGCTCTCCGGCGGGGCCGCCTGCCCTTTCCATCCGAGCAATCACGTCCGGGGTGCAAACGG -TCTGGTTGGTGAGATCGAGGCCCATCATCACTAATGGAACGCCGGAGGTGAACACTACGCGTGCGGCTTCCGGGT -CGGCAAAGATGTTGAACTCGGCAGATGGCGTGAAGTTGCCTGTACCGTAAGCGCCGCCCATTAGCACAATTTCAC -GGATTTTGGGCAGGATCGCGGGTTGCATACGCATTGCCACCGCGATATTTGAAAGCGGACCAACCGGCACCAGAG -TGATATCGCCATCGCTTGCCATCAGGGTATCAATGATATATTTCACCGCATGAGTGCTTTCTGCCTGGCGGGTCA -GCGGCTCGAATACCGGGCCATCCAGTCCGGTTTCACCGTGAATATTATCGGCAACGATTTGTTGACGCATAATGG -GCTGCGGCATCCCCGCATAAACCGGAACATTAATCTCCAGTTTCTGGCAAACATTCAGGCCATTAATTAATGTTT -TATCAAGCGTCTGATTACCCGCTACAATAGTGATGCCTAATAAATCTATTGCCGGATGTTTCGCCGCCATCATTA -TAGCAATAGCATCATCATGACCCGGATCACAATCCAGAATAATTTTTCTCTTTTCCATTGTTTATTTCCTCTGTT -TCCAGTTGCGTTATTTTTTCTACAGCAAAGAAAATTCGACCGGGCCGATGATTGAATCTTAACAACAGCGTACGT -ATGCTAAATATGAGAAATCTCATAGCGGATAAACATCGTGAAAGAAATCCACAATAATGATCTTAAGCAGCAATT -GATGAGTGAATCCGCGTTTAAGGATTGCTTTTTAACGGATGTTTCAGCCGATACGCGGCTGTTTCATTTTTTAGC -GCGTGACTACATTGTGCAGGAAGGGCAACAGCCGTCCTGGCTGTTTTACCTGACGCGAGGCCGCGCCAGGCTTTA -CGCCACGCTAGCTAATGGTCGCGTGTCGCTGATCGATTTCTTTGCCGCCCCCTGTTTTATTGGCGAGATTGAGTT -AATCGATAAAGACCATGAACCGCGTGCGGTGCAGGCTATTGAAGAGTGTTGGTGCCTTGCGCTCCCTATGAAACA -TTACCGTCCGCTGTTATTAAACGACACGCTATTTTTACGAAAACTCTGCGTCACCTTAAGTCATAAAAATTATCG -TAATATTGTTTCTTTAACTCAGAATCAATCATTTCCGTTAGTGAATCGCCTGGCAGCATTTATATTACTCTCGCA -GGAAGGTGATCTTTATCACGAAAAGCATACGCAAGCGGCAGAGTATTTAGGCGTTTCTTATCGACATCTTTTATA -TGTTCTCGCGCAGTTCATTCACGACGGTTTATTAATTAAAAGCAAGAAAGGGTATCTCATTAAAAACAGAAAGCA -GTTGTCAGGACTGGCGCTGGAGATGGACCCGGAGAATAAATTCTCCGGGATGATGCAGTAAAAATTATTTTCAAT -AGCGCGATTGCCGGATGCAACGCTTAATACGTTTTATCCGGTCTACAAATCGAGCATTACGCCAGACCAATAAAG -AACCCGGCAATAGTCGCACTCATCAGGTTGGAAAGCGTTGCTGCTGCCAGCGCCCGTAAACCAAGCTGGGCGATT -TCCGGCGCGCGTTTTGGCGAAATAGCCGAAAATGCGCCAACGACAACACCGATAGAACCAAAGTTAGCAAAACCA -CAAAGCGCAAAGGAGATAATCGCAATGGTTTTCACTTCCAGCGTGCCGCCCGTTTGCAGGTATGGGGAGAAACTC -AGGTAAGCGACGAATTCGTTAATCGCCAGTTTCTGCCCAATCAGGCTACCCGCAAGATTGGCATCACTCCAGTCC -ACACCCATGATCCACGCCAGCGGTGCCAGCACATAGCCAAAAATACTTTCCAGAGAGGCATTGGCGAAACCAAAC -CAGCCGCCAATTCCGCCGATAATGCCGTTGATCAGCGCAATAATTGCGACAAACGCCATTACCACCGTCGCCACA -CCAGCGGCGATTTTTAGCCCGGTCATCGCACCGCTCGCCGCCGCTTCGATAAAGCTTTTTGGCGGCGTTTCGCTG -AACGACAGATTTTCAAATGTGACCTGCGAAGGCTCGGTTGCCGGGCTAAGAATACGTGCAAACAAAATCCCGCCA -GGGATCGCCATCAGCGATGCCGCTAACAGGTAGTCAATTGGTACGCCCATTCCGGCATAACCAATCATCATCGAA -CCAGCAATGGACGCCATCCCGCTACAAATTGCGGTAAACAACTCGTTGCGATTCATGCGATCGATAAACGGTTTA -ACGATCGCCGGGATCTCATTTTGCCCGAGGAAAATAGTAGTAACCGCAACAAAAGATTCGATTTTGCTGATGTTG -AGGGCTTTCTGGAAAATGCTGCCAAGGATGCGAATCAGCAGCCCCATCACGCCAATGTAGTACAGCAGACTGATG -AGCGCAGTAACGAAAATAATCGCCGGAAGTACGCGAAAGGCGAAGATAAAACCCGCACCGTCAAACAGGACATCC -ATTTTCGGCCCAACCAGCGAACCAAAAATGAAGGCGCTACCGGCATCACTGTAAGACATCACTTTATGAACGCCT -AATGCCGCCTGTTCTACTGCCCATTTTCCCGGTGGGAAGTAGAGCATGATGCCACCAATAGCGATTTGCAGCAGC -AGTGCGGCTCCAACCGTGCGCAAACTGATGCTCTTTTTATTCACTGACAACAGAAATGCTATTGCCAGTAACACC -ACCATCCCCACAACACTTCTCATTATATCCATAATGATTTTCCCTTCATGCCGGTAAACCCGGCGTCAGCGCCAG -GTTTTGGTATGCTTGATGAGTACGGGCGACGGCTTTCTGCCCGTCAGAAATTAACCCGCGAGACGCTGATATTCT -TTGGCAATTTCGCTCGCCAGAATGGCGTTGTTGAACACCAGCTGGATGTTGGATTTCAGGCTGTCACCGCCGGTC -AGTTCAGCAACGCGCGCCAGCAGGAATGGCGTACTTTCTTTACCAATGACTCCCTGAGCTTCAGCTTCAGCTACC -GCCTGATCGATCGCCGCATTGATAGTGTGTTCCGGCATAGCAAACTGTTCCGGGATCGGGTTCGCTACCACGAGG -CCACCGTTCAGACCGCTTTGCCATTTCACCACCATTGCACGGGCAATTTCGCTGGCGCTGTCGAGACGAATGCTG -ACGTCAAACGGGCTGGTGCGGCAGAAAAACGCAGGCAGCGCTTTAGTCTGATAGCCAATTAACGGCACACCGAAG -GTTTCTAAATACTCAGTGGTTAATCCTAAATCGAGAATAGATTTCGCCCCGGCACAAACAACGGTGACATTAGTA -TTTGCCAGTTCTTGCAAATCGGCAGAAATATCGAAGGTATGTTCCGCCCCGCGATGCACACCACCAATTCCCCCG -GTGGCAAATACTTTAATTCCGGCAAGCGCCGCAATAATCATCGTTGAAGCCACAGTGGTTGCGCCATTTTTTCCG -GCGGCAACAACAAAAGGTAAATCGCGACGACTAACTTTGGTCACGTTATGCCCTTCACGACCCAGTAATTCAATT -TCTTCTTTGCTTAACCCCACTTTCATCACGCCGCCAATAATGGCGATCGTGGCAGGTACAGCGCCCTGTTTACGA -ATAGTTTCTTCAACTTCAATTGCGGTCTGGGCATTTTGTGGGAACGGCATCCCGTGAGAAATAATGGTCGATTCC -AGCGCCACAACCGGTTTTTTGTTTTTTAAAGCGTCCTGCACTTCCGGGGAAATTTGTAATAATTCAGGGGAAATT -TTTAATTCAGACATTCTGCGTTCTCCACTAACGATATAACGTTGGCAATCGATAAATCGGGGTTATTGGTGTATT -CACAGGAGAGCGCCATTGACGAACATCCCTGTGCGAAACGAACAGATTCGGCAAACGGCATTCCGTCTACCCAAC -ACGAAGCAAGTCCCGCCATCATGGCATCGCCCGCTCCGGTAACATTAATAACATTGGTTTTGATCGGCGCAGACC -AGCCACTTTCACCGCTGATATCGCTGTAATAAACGCCGTCGCCGCCCATGCTCAATACCAGTCGGTTCAGGCCAT -GTTGATGGAACCAGGCAGCAACTTTTGCCACATCTTCACGCCCTGACAGCGCAATCCCACTCAGGGTTTCCGCTT -CAAGGCGGTTTGGCTTGAGAGTGTGGATCTGATTTAGACGGTCGCGCACTTTGACACATTTCCATGCCGAAACCG -GATCGACAAATACGGGTACGTTGGCGGCATTATCCAGAATCCATGCCAGTGCCTCTTCACTGATATTACAGTCCG -CGACAATGACCTTTGCCCTCTGAATAAATTCACCGTGCTGTGCGAGATATTCAGCTGTAATAGCGTTGCTAATAT -TCATGTCATTTATAGCAACCAGCATTTCACCGGTATTATCGAGTAATGATAAATAACTCGACGTATTTTCTCCCG -GCACAATCAGGCATTTATCGACATAAACGCCAGATTGATTGGTTTGCGTTAGCAGCGATTGACCATAAAAATCAC -TGCCTACGGCGCTCAGTAGCCAGGCTTTGTTACCCAGCAACGCCAGGTTTTGTGCAATATTGCGCCCTACTCCAC -CAGGCGTAAATTTTATTTTACCTGGATTTGAATCCGCATAATTTAATGATTCATGTGAATATCCGGCGACATCAA -TATTCGCCGAACCTATAATTACGACATAATCCTTTTCGCGCATAGCACGTCCTCTGGTAAAAAATTACCAACCCT -GTCAATCCACAAGAATATAGATACTGCAAAGACGGTTTAAACATGTGTTCATATTTAAACATGTGCTCATAGTAT -GCATGTTTTACGTAAAGTAAATTACCGCCAGAGAGGCAAAATGGGCAGATTTGAGCAGGCTCACAAAATGCGATT -AAATGCCTGAATTACAAAAGCGAGGAATTTGTGACGGGATGCACAGAACAGAACAATAAAAAAGGGCAGAAAATA -ATCTGCCCTTGAGGAAATAACCTGAGTGTTTGATGAACGTTTGAAGTTTCTACTGAAAGATAAAACCATTTAAAT -TCATAAAATTACATTCACAAACCGGTCATTCTCTTTGCGCTCATCAAATGTTACAGGACAGGAAATTTCTGCCCT -GTAACACACCTTTTATTACGCTGCTTTCGCTACTGCGTCCACTTCCGGACGTTTCAGGAAGGCATAGGCCAAACC -CGCCACCAGCGTACCGGCAATAATTGCTACCAGGTAACCCAATACCGGCGTAATAGCGCCAGGGATCAGCAGAAC -AAACAGACCACCGTGCGGTGCCATCAGTTTCGCACCAATCGCCATTGAGATTGCGCCAGTCAGCGCCCCACCCAC -GATACAGCACGGCAGCACACGCATCGGATCACGAGCAGCAAACGGAATTGCACCTTCCGAAATGAAGCACAGTCC -CAATACCAGAGCGGCTTTGCCACCTTCCTGCTGCGCTTTGTCGAATTTGCGACGCGCCACCATTGTTGCCAGACC -CATTGCCAGCGGTGGCACCATACCTGCCGCCATAATCGCCGCCATCGGGCCATAGGTTTGAGTACTCAGCAGACC -CACACCGAATGCGTACGCTGCTTTGTTTACCGGACCGCCCATGTCAGTACACATCATGCCACCGAGGATCGCCCC -CAGCAGAACCGCATTCGCAGTCCCCATGGTCTGCAGCCAGTGAGTCAGCCCTTCGAGAATGCCAGCAACTGGTTT -ACCGATCAGGTAGATCATCGCCAGACCGACCACCAGACTGGAAATTAGCGGAATGATCAGGATCGGTTTCAGCGC -CTCCATACTCTGTGGCAGTTTCAATTGCGTACTGATTAACTTCGCAATGTAACCAGCCAGGAAGCCCGCAATAAT -ACCACCAATGAAGCCAGAACCGGTGCTGACCGCCAGCATACCGCCAATCAGACCCGGAGTGAGGCCCGGACGATC -GGCAATGGAAAAGGCAATATAACCTGCCAGTACCGGCACCATCAGCGCAAAGGCTGAACCACCACCAATCTGCAT -CAGCGCCGCAGCCAACGTACCCGGCTCTTTAAACGCTTCGATACCAAAAGCAAAAGAAAGCGCGATACACAGACC -ACCTGCAACGACCATCGGCAGCATGTAAGAAACGCCCGTCAGCAAGTGACGGTATGCGCCTGCACTCTCTTTCTT -ACTTTCAGTGGTCGCCGTTTGAGCTTTGCCCGCCGGTTCATACGGCGTTGCTTCAGCAACCGCTTTATCCAGTTC -CTGCGCGGTTTTCTTCAGCGCCAGACCGGTAGAGGTACGATACATCGGTTTACCAGCAAATTTCGCCAGATCCAC -TTCGATATCTGCCGCCACAATCACCAGATCCGCTGCTGCGACTTCTTCGGGAGTGATTGCATTACCCGCGCCAAC -AGAACCACGGGTTTCAACTTTCACCCACCAGCCACGTTTTTTCGCTTCGGTTTCAATGGCTTCAGCCGCCATAAA -GGTGTGTGCTACGCCAGTCGGGCAAGCAGTCACCGCAACTACGCGTTTCGGACCGCTGGCGGCAACTGGTGCTGT -CGCAGCGACCGGCGCAGTGTAAGGTTTCGCATGGCCTTTGGCTTCACTCAGGAACAGCTCAGGGTGCGCAACTGC -CCGGGAAATATCGCCCAGCCAGACATTTTTACCGTTCAGCGCGCTGTCGTTCGGGATGGAATCACCGAGAACAAT -CGCCATTTCAGCGTCGTTCGGATTGTCGATGATTTCCAGTTTTGCTTTTCGCGCCGCCGCGCCCAGCAGGGTCTT -CGCCATATAGGCGCGTGCCTGACCGAGATTAGCGTCAATAATCAGCAGCGTTTTCATTATGCCTCTCCTGCTGTC -AGTTAAAAGGTTGTAAGTCGACGCGCGCCATCATTGCGGCCAACTGCGGACGATCGGTAATACCCACATTGCTTT -GACTTACCGCCAGGGCTGCAACAGCTGTCGCCAGACGCAGTGTGTGTTCACTGGATTCACGCATCAGCAAGCCAT -AAATCAGGCCACCAACCATAGAATCCCCTGCGCCAACGGTGCTTACGACATCGACTGACGGTGGTTTGGCGATCC -ATTCGCCGGAGGCATTAACCCAAAGCGCGCCTTCGGCACCCAGTGAAATAACAACATGCGCGATGCCTTGTTCAC -GTAGCGCATGTGCAGCTTCAATCACATCTTTCATTTCAGGCAGTTTACGGCCTGCCCAGATTTCCAGCTCGCGGC -GGTTAGGTTTCACCAGCCACGGTGCCGCTTTCAAACCTGCTACTAACGCTTCACGGCTACTATCAAAGATAATGC -AAGGACACTGACTACGCAGGCGAGTCATCCAGTCGGTGAACGCTTCCGGGCTGACGCCTGACGGTAAGCTTCCGC -TGACACAGACCATATCGAACTGACCGAGCCAGCTCAGAGAATCAGTCACAAAGCGTTCCCAGTCGGCGGGGGTGA -CTTCAAAACCCGAGAAGTTGAAGTCGGTCACTTCGCCGTCTTTTTCCGTCAGCTTAACGTTAATTCGGGTGCGCC -CCTGTACAACCTGGAAACGGTTGGCAATGCCCAGCTCGCTGAACAGTTGCTGAAAACCATCCTGATTGTCTTTAC -CCAGGAAGCCGCCAACGGTGACATCAATTCCCAGGTCTTTTAATACTTTGGCCACGTTGATGCCTTTACCCGCCG -CATGCAGACCGGTGGTTTTCACCAGGTTCACTTCGCCGCGTTCAATTTCCGGGCAGAAACCAACAAGGTCATAAG -CCGGATTAAGGGTGATAGTAGCAACACGTCTGCTCATTATGCGCCCTCCCCAAGACCAGCAGCGATAGCGTCGCC -GATTGCTTTCAGCGCCTGTTCAGCATCTGCACCCTGGGCGGTAAAGCGTAGGCGATGACCTTTCTTAACGCCAAG -TGCCACAACTTTCATCAGACTACGTCCGTTTGCCGGTTTGCCGGTACCATCAAGGTTTGTCACGGTAATATCACT -GTTAAATTGTTTAATGGTATTGACCAGCATGGTACCTGGACGAGCATGCAGGCCGTGTTCATTGCGCACCACAAA -CTCCGCGCTTAACACGTCGTCGGTCGGCGCATCATCGCTGGTCAGCAGCGCCAGCAACGTTGCCGCATCCGCTTT -CAGCAAGCGGTCAGCTTTATTGTCGAGCAATAAATCAGCGAGACGCTTAAGAACCGCGATGGGCTGATCGTCATT -CATCGCCACACTCACCAGCATGGCTGCCGTTTCGCCGTCCACATCAAAAGCATTTGCCGCACGGCTTACCGCAAT -CGCGCTACGCAGATTGCCTTCGGCGCTATCGCTCAGCCAGATACCCTGTCCGAGATTCAGCGGTTGTTCATTGAT -GGCTTTGGTGACGAAAGTGGCGTCAACTGCCCCCGCCTCTTTCAGACGCGCAGCGTTCAGCGCCTGAAGAGTCAG -CAGATCGCTGGCGACGATATCCAGTGTCAGCATTTCGTTGTCGAGCTTCAGCTGCTCACTCTGCTTTTCGCCCAT -CAGTAATGCGCGAAGTTCTTCTGCTGTTGTTGCTGACTTCAGTTGTTCAGCAACGGAATCATCGCTCAGTACGTG -GGTCAGCTGGCGTAGCAGGCCCAGATGTTCATCCGAGCTGGCAGCAATACCGATTGCCACGTACGCTACCTGACC -GTCACCCCAGGTGACGCCTTCCGGGAACTGAAATACCTGAACGCCGGTTTTCAGCACCTGATCGCGGGTGTCGGT -AGTGCCGTGTGGAATAGCAATACCATTGCCGAGGAACGTTGAGGTTTGCTGTTCGCGCGCCAGCATGCCATTGAC -GTAGCCTTCTGCTACATTACCGGCCTGCACCAGCGCCGCAGCGACCTGGCGAATCGCCTCTTCTTTGTCTCCGGC -CTTTTCGCCCGGATGGATGTCCTGTACGGATAACTGGAACATAGTTCTCCTCTCTTGCTGAATTGAAACGATTCA -GCCTCTATGAGAAAAAAAGCGCCAACCTGGCTTAGGGTTAAAGACAAGATCGCGCTGAAACGTTTCAAGAAAGCA -TAATACTTCTGTTTCAGCACGCAAGGAAAGCCGTAAAGTTATGAGCAAAAGTTTGATGTGCTGCACAATTTTTTG -CCATTTTTCCTAATTGCTGATGGGAAAATCCGTTATCAGCAATTTCATTTCAGCAGCGTCAGCAGCCAATCAGCA -ACAGTGAAATGGCATTTTGACTATTCGTGGCGCTTTTGATTTCGCTGTCTGTTTATTTTCTGACAAGCAGCGTAA -ACTCCGCGTCTTCCTCTTCCAGTGATCGACCAGCATGCATAACTCCCCCGCAGTCTCCAGCGCGAAATCGTTTGA -CCTGACCTCGACGGCGTTTTTAATCGTTGCCTTTCTCACCGGTATTGCGGGCGCTCTGCAAACCCCGACACTCAG -TATTTTTCTTACCGATGAAGTACATGCCCGTCCGGCGATGGTGGGATTCTTCTTTACCGGCAGCGCTGTCATTGG -GATTCTGGTAAGTCAGTTTCTCGCCGGGCGCTCTGATAAGCGCGGCGATCGCAAATCGCTGATTGTCTTTTGCTG -CCTGTTAGGCGTGCTGGCCTGCACCCTTTTTGCCTGGAATCGCAACTACTTTGTTTTGCTATTCGTTGGCGTCTT -TCTTAGCAGCTTTGGCTCGACCGCTAACCCGCAAATGTTTGCCCTTGCCCGTGAACATGCCGACAAAACCGGACG -TGAGGCGGTGATGTTCAGCTCTTTTTTACGCGCTCAGGTTTCACTGGCATGGGTCATTGGCCCACCGCTGGCTTA -TGCCTTAGCGATGGGTTTCAGCTTTACGGTAATGTATCTGAGCGCAGCGGTAGCGTTTATTGTTTGCGGTGTGAT -GGTGTGGCTGTTTTTACCGTCGATGCGAAAAGAGCTTCCGCTGGCGACCGGCACGATCGAAGCGCCGCGCCGTAA -CCGTCGCGATACGCTGCTGCTGTTTGTCATTTGTACATTGATGTGGGGCTCGAACAGCCTGTACATCATCAACAT -GCCGCTATTTATTATCAACGAACTGCATCTTCCCGAGAAACTGGCCGGTGTGATGATGGGGACCGCCGCCGGGCT -GGAAATCCCGACGATGTTGATTGCCGGATATTTCGCCAAACGTCTGGGTAAGCGTTTCTTAATGCGCGTTGCTGC -CGTGGGTGGCGTCTGTTTTTACGCAGGAATGCTGATGGCGCATTCACCTGTCATTCTGTTGGGCTTGCAGCTGCT -AAATGCTATTTTTATTGGCATTCTGGGCGGCATCGGGATGCTCTATTTTCAGGATCTGATGCCCGGTCAGGCGGG -TTCAGCCACCACGCTCTATACCAACACTTCGCGCGTGGGCTGGATCATCGCAGGATCAGTGGCGGGCATCGTCGC -CGAGATCTGGAATTATCACGCTGTGTTCTGGTTTGCGATGGTGATGATTATCGCCACTCTGTTTTGCTTACTGCG -GATTAAAGATGTTTAAGGCGCGGTCAGCATTTCCAGATCGATAAGCCAGGTCATGGCCTGCTGACGCGAGTTACC -GCACATTTCAGCGCTGGCTTGTAAGCCTGCACAGACTTTCGGTCGCAGTGGCGAGGTGAAAATTTTACAGCGTTG -CTGTTCATCAAGCTGAATGCAGGGCGTATTGGCGGGCTTGCCATCTGGCATACCGGGAATAGGGCTGGAAATTGA -AGGGGCAGTGCAACACGCCCCGCAACCCGGACGGCATTCCATACGTTGTTCTCTTAAGGTTAACCACCGGATTGA -TGAGCGCGCACAGTACCACCTTTTTTGCACCAGCAAAAGTGCGAATACCACTTGCCCGAAAGGCCCGTCGCGAGT -ACTTTGTCGCGATATTTTTGACATTTTCGACTACAGGAATTTTTCGATGCCAAGAGCGAACGAAATTAAAAAAGG -TATGGTACTGAATTACAACGGCAAACTGCTGCTGGTTAAGGATATTGATATTCAGTCGCCCACTGCCCGCGGTGC -CGCTACGCTGTACAAAATGCGTTTTTCTGATGTCCGTACCGGGCTGAAAGTAGAAGAGCGTTTCAAAGGTGATGA -TATCGTTGACACCGTGACGCTGACCCGCCGTTACGTTGACTTCTCCTATGTCGATGGCAACGAATATGTCTTTAT -GGATAAAGAAGACTATACCCCGTATACCTTCACCAAAGATCAGATTGAAGAAGAGTTGCTGTTTATGCCAGAGGG -CGGCATGCCGGACATGCAGGTGCTGACCTGGGACGGTCAACTGCTGGCGCTTGAGCTGCCGCAGACCGTTGATCT -GGAAATCGTTGAAACCGCACCAGGCATCAAAGGGGCATCTGCCAGCGCCCGTAACAAACCGGCGACATTGAGCAC -TGGTCTGGTGATTCAGGTACCAGAATACTTAAGCCCGGGCGAAAAAATTCGTATCCATATCGAAGAACGCCGTTA -TATGGGGCGTGCTGACTAACTTCAGCCGCATGCAGAAAAGGGATAGCTCAGGCTGTCCCTTTTTTAATTTATTAT -ACCAATCTTCTATTTTGCGCTTCCTGAACACCTTACGCCCTCAATTTTCACTCGTTGATTGATCGCCCTCACACT -TCATCGCATTAACAATCCAGACCAATTTCAATTGCTGTCATATAACTTTACACTGTCGTTGTTAATTAATCGTTA -CTAAGACGTGACTCCTATGAATACAATCGCCTCCGTTACGCTCCCGCATCATGTACACGCTCCACGCTATGATCG -CCAGCAGTTGCAATCACGTATCGTTCATTTTGGCTTTGGAGCCTTTCACCGCGCTCATCAGGCGTTACTGACCGA -TCGTGTGCTGAATGCCCAGGGCGGCGACTGGGGGATCTGTGAAATCAGCTTGTTCAGCGGTGATCAACTGATGAG -CCAGCTCCGCGCACAGAACCATTTATATACCGTGCTGGAGAAAGGTGCGGACGGCAATCAGGTGATAATTGTCGG -TGCCGTTCACGAATGCCTTAATGCAAAACTGGATTCCTTAGCGGCAATTATTGAGAAATTTTGCGAGCCACAGGT -GGCAATTGTTTCCCTGACGATTACCGAAAAAGGCTATTGTATTGACCCGGCCACCGGTGCACTCGACACCAGTAA -TCCGCGGATTATTCACGATCTACAAACCCCTGAAGAACCTCACTCCGCACCGGGTATTCTCGTCGAAGCACTGAA -ACGCCGCCGTGAGCGCGGCCTTACACCGTTTACCGTGCTCTCCTGCGACAATATTCCCGACAATGGTCATGTGGT -GAAAAACGCGGTGCTGGGAATGGCAGAAAAACGTTCGCCAGAACTCGCCGGGTGGATAAAAGAGCACGTCAGTTT -TCCGGGAACCATGGTCGACCGCATTGTTCCGGCTGCAACCGACGAATCACTGGTGGAAATCAGCCAGCATCTGGG -GGTGAATGATCCCTGCGCGATTAGCTGCGAACCGTTTATCCAGTGGGTGGTGGAAGATAACTTCGTCGCTGGGCG -TCCTGCCTGGGAAGTCGCAGGTGTACAAATGGTGAATGATGTCCTGCCATGGGAAGAGATGAAACTGCGGATGCT -TAATGGCAGCCACTCTTTTCTCGCTTATCTGGGTTACCTCTCAGGATTCGCCCATATCAGTGATTGCATGCAGGA -TCGCGCATTTCGCCATGCCGCCAGAACATTAATGCTGGATGAGCAAGCGCCGACACTGCAAATTAAAGATGTCGA -TTTAACACAATATGCGGATAAGTTAATTGCACGTTTTGCTAATCCGGCGCTGAAACATAAGACCTGGCAAATCGC -GATGGATGGCAGCCAGAAATTACCGCAACGCATGCTGGCAGGTATTCGCATACATCAGGGGCGCGAAACGGACTG -GTCGTTGCTGGCATTAGGCGTTGCAGGCTGGATGCGTTACGTCAGCGGCGTTGATGATGCCGGAAATGCCATTGA -TGTTCGCGATCCGCTTAGCGATAAAATTCGCGAACTTGTTGCGGGCAGCAGCAGTGAACAACGCGTAACCGCCCT -GCTTTCCCTGCGTGAAGTTTTCGGTGATGATCTGCCAGATAACCCGCATTTTGTGCAGGCCATCGAACAAGCCTG -GCAACAAATCGTACAATTCGGCGCACATCAGGCGCTATTAAACACCCTCAAAATTTAACGATTTCTGCGGTTAAA -GCGGATGAAGCTCACCTTCGTCCGCTCTCCCCTTCTCTTTTCTGCCTTTTTTAGCCAGGATTAACGCTCAGTTAA -CTTACCAGAGTATTGCGGAGCCGTTGTGACCAGGACCAACCTCATCACCGGTTTTCTCGGCAGCGGGAAAACCAC -GTCGATTCTTCATCTGTTAGCCCATAAAGATCCCAACGAAAAATGGGCGGTACTGGTTAATGAATTTGGGGAAGT -CGGAATTGATGGTGCTTTGCTCGCCGATAGCGGCGCATTGCTGAAAGAGATCCCCGGCGGCTGCATGTGCTGCGT -TAATGGTTTACCCATGCAGGTAGGGTTGAATACCTTACTGCGTCAGGGAAAACCAGACCGCTTGTTGATAGAGCC -GACCGGGCTGGGCCATCCGAAACAGATCCTCGATCTGTTAACCGCACCAGTCTATGAACCGTGGATAGATCTGCG -CGCCACCTTGTGCATTCTCGATCCGCGCTTGCTGCTGGACGAAAAAAGCGCCAGCAATGAAAACTTCCGTGACCA -GCTGGCTGCCGCAGACATCATTGTCGCCAATAAATCCGACCGTACGACGCCCGAAAGTGAGCAAGCGCTACAGCG -TTGGTGGCAGCAAAATGGTGGCGATCGACAATTAATTCACAGTGAGCATGGGAAAGTTGACGGTCATCTTCTGGA -TTTGCCGCGTCGCAATTTAGCCGAGTTGCCCGCCAGCGCCGCGCATTCTCATCAGCATGTCGTGAAAAAAGGGTT -AGCAGCGTTAAGCCTGCCAGAGCATCAACGCTGGCGTCGCAGTCTGAACAGCGGGCAAGGATATCAGGCCTGCGG -CTGGATATTCGACGCTGATACGGTATTCGACACCATTGGCATTCTGGAATGGGCGCGACTTGCACCGGTGGAACG -CGTCAAAGGCGTGCTGCGTATTCCCGAAGGGCTGGTGCGAATCAACCGTCAGGGCGATGACCTGCACATTGAAAC -GCAAAACGTTGCGCCACCGGACAGCCGTATTGAGCTGATTTCCAGCAGCGAAGCTGACTGGAATGCCTTGCAGAG -CGCGCTGTTGAAGCTTCGTTTAGCGACTACCGCGTAAGGTTGCCTGCGTTTTTCAGTAAGATAATTAGAGAAAAT -ATGATTAAAAATTTGCCGCAAATAGTGTTGTTGAATATTGTCGGCCTCGCGCTGTTTCTTTCCTGGTATATCCCC -GTTAATCATGGATTCTGGTTGCCGATTGATGCGGATATTTTTTATTTCTTTAATCAGAAACTGGTCGAAAGTAAG -GCCTTTTTGTGGCTGGTTGCATTGACCAACAATCGCGCCTTCGACGGTTGTTCACTGCTGGCGATGGGTATGTTG -ATGCTGAGTTTCTGGCTGAAAGAAAACGCCCCTGGCAGACGACGTATCGTGATTATTGGTCTGGTCATGCTATTA -ACTGCAGTGGTATTAAACCAGCTGGGTCAGGCATTAATTCCTGTAAAACGGGCCAGCCCAACATTGACTTTTACC -GATATTAACCGCGTCAGCGAACTGCTCTCTGTTCCCACGAAAGATGCCTCACGAGATAGCTTTCCCGGCGATCAC -GGCATGATGCTGCTTATTTTTTCGGCATTCATGTGGCGTTATTTCGGCAAAGTTGCAGGCCTTATCGCCCTTATT -ATTTTTGTGGTTTTTGCATTTCCCAGAGTAATGATTGGCGCACACTGGTTTACTGACATCATTGTCGGTTCGATG -ACCGTGATATTGATCGGTTTGCCCTGGGTGTTGCTGACGCCATTAAGTGATCGATTAATCACCTTTTTTGACAAA -TCACTACCAGGAAAAAACAAACATTTCCAAAACAAATAACTCACAGTAATTAACATCATCAGGGTTATTTTTATA -GTGAGGATAATCCTGATGATGCGCACCGTGCTTTCATCTATCGAACGCAAAAATCATTCTCTAAGTAAATGAATG -GATTGCATGCGTTTCACTCAATTGTACTTTAATTGACCAACCCCGCTTATTAACTTTCTGTATCACTTTTTCTTA -TAAAAAATCATGTAAAACCGCTCGCCAAGACCGCACCAATCGGGTAATCTCGAACTCGTTTTGCCTCGGCGGTAG -ATTATCCTCACAGCATATAATTTTGTGCGTTAGTCCACAGATTTGGCCTTAAGGAATTGTTTCAACATGCCCAGG -TAATTAGTCTCGTGTCGCTTGGCATTTTTTTATAACGATATTTGTCGTTAAGGACTTCAAGGGAAAACAAACAAC -ATGGTCAAATCTCAACCGATTTTGAGATATATCTTGCGCGGGATTCCCGCGATTGCAGTAGCGGTTCTGCTTTCT -GCATGTAGTGCAAATAACACCGCAAAGAATATGCATCCTGAGACACGTGCAGTGGGTAGTGAAACATCATCACTG -CAAGCTTCTCAGGATGAATTTGAAAACCTGGTTCGTAATGTCGACGTAAAATCGCGAATTATGGATCAGTATGCT -GACTGGAAAGGCGTACGTTATCGTCTGGGCGGCAGCACTAAAAAAGGTATCGATTGTTCTGGTTTCGTACAGCGT -ACATTCCGTGAGCAATTTGGCTTAGAACTTCCGCGTTCGACTTACGAACAGCAGGAAATGGGTAAATCTGTTTCC -CGCAGTAATTTGCGTACGGGTGATTTAGTTCTGTTCCGTGCCGGTTCAACGGGACGCCATGTCGGTATTTATATC -GGCAACAATCAGTTTGTCCATGCTTCCACCAGCAGTGGTGTTATTATTTCCAGCATGAATGAACCGTACTGGAAG -AAGCGTTACAACGAAGCACGCCGGGTTCTCAGCCGCAGCTAATAAACCGTTTGGATGCAATCCCTTGGCTATCCT -GACGAGTTAACTGAAAGCACTGCTTAGGCAGTGCTTTTTTGTTTTCATTCATCAGAGAAAATGATGTTTCCGCGT -CTTGATCCAGGCTATAGTCCGGTCATTGTTATCTTTTAAATGTTGTCGTAATTTCAGGAAATTAACGGAATCATG -TTCATACGCGCTCCCAATTTTGGACGTAAGCTCCTGCTTACCTGCATTGTTGCAGGCGTAATGATTGCGATACTG -GTGAGTTGCCTTCAGTTTTTAGTGGCCTGGCATAAGCACGAAGTCAAATACGACACACTGATTACCGACGTACAA -AAGTATCTCGATACCTATTTTGCCGACCTGAAATCCACTACTGACCGGCTCCAGCCGCTGACCTTAGATACCTGC -CAGCAAGCTAACCCCGAACTGACCGCCCGCGCAGCGTTTAGCATGAATGTCCGAACGTTTGTGCTGGTGAAAGAT -AAAAAAACATTCTGTTCATCTGCGACCGGTGAGATGGACATTCCACTCAATGAATTGATTCCGGCGCTCGACATT -AATAAAAACGTCGATATGGCGATCTTACCCGGCACGCCGATGGTGCCGAACAAACCCGCAATCGTCATCTGGTAT -CGCAACCCTTTGCTGAAAAATAGCGGCGTCTTTGCCGCTCTGAATCTCAACCTGACGCCTTCACTCTTTTATAGT -TCACGGCAGGAAGATTACGATGGCGTCGCCCTCATTATTGGCAATACTGCGCTATCTACCTTTTCTTCACGTTTG -ATGAACGTTAACGAATTAACCGACATGCCAGTCCGTGAAACTAAAATTGCGGGCATTCCTCTGACCGTTCGGCTT -TATGCAGATGACTGGACATGGAACGATGTGTGGTACGCATTTTTACTGGGCGGCATGAGTGGAACTGTCGTTGGC -CTGCTCTGCTATTACCTGATGAGCGTACGTATGCGCCCCGGCAGAGAAATCATGACCGCCATCAAGCGCGAACAA -TTTTACGTGGCGTATCAACCGGTGGTGGATACACAAGCTTTGCGAGTAACGGGCCTGGAAGTACTGCTACGCTGG -CGGCATCCTGTCGCGGGAGAAATTCCCCCGGATGCCTTCATTAACTTTGCCGAATCGCAAAAGATGATTGTGCCG -CTGACTCAGCACCTGTTTGAGTTAATTGCCCGCGATGCCGCAGAATTAGAAAAAGTGCTGCCGGTAGGCGTCAAA -TTTGGTATTAACATTGCGCCGGACCATCTGCACAGCGAAAGCTTTAAAGCAGATATCCAGAAACTGCTCACTTCC -CTGCCCGCACACCATTTCCAGATTGTGCTGGAAATTACCGAGCGCGATATGTTGAAAGAGCAAGAAGCCACACAA -CTCTTCGCCTGGCTGCACTCGGTCGGCGTAGAAATTGCTATTGATGACTTCGGCACCGGGCACAGCGCGCTTATC -TATCTTGAGCGTTTTACGCTCGATTATCTGAAAATTGACCGTGGATTTATCAACGCCATCGGTACGGAAACGATC -ACTTCCCCCGTACTTGACGCGGTGCTGACGCTGGCGAAACGCCTCAATATGCTGACGGTTGCTGAAGGGGTCGAA -ACGCCGGAACAGGCGCGATGGCTAAGCGAACGCGGCGTTAATTTCATGCAAGGCTACTGGATTAGCCGCCCGTTA -CCGCTGGACGATTTTGTTCGCTGGCTAAAGAAACCGTATACGCCGCAGTGGTAAGGTGTGCTTACGTCCCTTATT -ATTCATAGTGAAAGCATGCCGGATTGCGGCTAATGATGAGTAAAAGGAAATCCGTTGCAGATGATTGTGCGCATA -CTGCTGCTGTTTATCGCTCTGTTCACCTTTGGTGTGCAGGCGCAGGCTATCAAGGAAAGCTATGCCTTTGCCGTG -CTGGGCGAACCCCGGTACGCGTTTAATTTCAACCATTTTGATTATGTGAACCCCGCCGCGCCAAAAGGTGGGCAG -ATAACGTTGTCAGCCCTCGGCACCTTCGATAATTTCAACCGCTATGCACTGCGCGGCAACCCGGGCGCACGCACC -GAGCAGCTGTACGACACGCTATTTACGACTTCCGATGACGAACCAGGCAGTTATTACCCGCTGATTGCTGAAAGC -GCACGCTATGCTGACGATTATTCCTGGGTGGAGGTCGCTATTAATCCGCGCGCCCGTTTTCATGATGGTTCGCCC -ATTACTGCCCGCGATGTAGAGTTTACTTTTCAAAAATTTATGACCGAAGGCGTGCCGCAATTTCGTCTGGTCTAC -AAAGGCACCACCGTCAAAGCCATTGCACCGTTAACCGTGCGCATTGAGTTAGCTAAACCCGGCAAAGAAGATATG -CTGAGTCTGTTTTCGCTGCCGGTATTTCCAGAAAAGTACTGGAAGGATCACAAACTTAGCGACCCGCTCGCCACG -CCTCCGCTTGCCAGTGGTCCGTACCGCGTTACGTCCTGGAAAATGGGGCAAAATATTGTCTATTCCCGTGTGAAA -GATTACTGGGCAGCAAACTTACCGGTAAACCGTGGACGCTGGAATTTCGACACCATTCGCTACGATTATTACCTC -GATGATAATGTCGCCTTTGAAGCGTTTAAAGCAGGTGCCTTTGATTTGCGTATGGAAAACGACGCCAAAAACTGG -GCCACGCGTTATACCGGTAAAAATTTCGATAAAAAATACATCATCAAAGATGAGCAAAAGAACGAATCAGCCCAG -GATACGCGTTGGCTGGCGTTTAATATCCAACGTCCGGTATTCAGCGATCGCCGGGTCCGGGAAGCTATCACTCTC -GCCTTTGACTTTGAATGGATGAACAAGGCGTTGTTTTACAATGCCTGGAGTCGCACGAACAGTTATTTTCAGAAT -ACCGAATACGCGGCCAGAAATTACCCCGACGCCGCGGAGCTGGTGCTTCTGGCACCAATGAAAAAAGATCTACCG -TCAGAAGTCTTCACACAAATCTACCAGCCGCCGGTATCCAAAGGCGATGGCTACGATCGTGACAACCTGTTAAAA -GCCGACAAACTTCTCAACGAAGCGGGCTGGGTGCTGAAGGGTCAGCAACGCGTTAATGCCACAACGGGTCAGCCA -CTCAGCTTTGAATTATTGCTTCCCGCAAGCAGCAATAGTCAGTGGGTATTGCCGTTCCAGCACAGCCTGCAACGG -CTGGGTATCAACATGGACATTCGCAAGGTGGATAACTCGCAAATCACTAACCGCATGCGCAGTCGCGACTATGAC -ATGATGCCGCGCGTATGGCGGGCGATGCCGTGGCCCAGTTCCGATTTACAGATTTCCTGGTCATCGGAATATATC -AATTCCACTTATAATGCCCCCGGCGTGCAAAGCCCGGTTATCGACTCGCTGATCAACCAAATTATTGCCGCGCAG -GGAAATAAAGAAAAATTACTGCCGTTGGGGCGAGCACTGGATCGCGTATTAACGTGGAATTATTACATGCTGCCA -ATGTGGTACATGGCGGAAGACCGTCTCGCCTGGTGGGATAAATTCTCCCAGCCGGCCGTGCGCCCCATCTATAGC -CTCGGTATCGATACCTGGTGGTATGACGTCAATAAAGCGGCCAAACTGCCGTCCGCCAGCAAACAGGGAGAGTAG -ATGGGCGCTTACCTGATTCGCCGTCTGTTGCTGGTGATCCCAACATTATGGGCGATTATCACCATCAACTTTTTC -ATCGTGCAAATTGCGCCTGGCGGTCCGGTCGACCAGGCCATCGCCGCCATTGAGTTTGGTAATGCCGGAGTATTA -CCCGGCGCAGGCGGTGAAGGTGTTCGTGCCAGCCATGCGCAAACGGGTGTCGGCAATATCAGCGACAGTAATTAC -CGTGGCGGACGCGGATTAGATCCAGAAGTGATCGCTGAGATCACTCATCGCTACGGTTTTGATAAGCCGATCCAC -GAACGTTACTTCAAAATGCTCTGGGACTACATCCGCTTTGATTTTGGCGATAGCCTGTTTCGCAGCGCCTCGGTG -CTGACGCTGATTAAAGACAGTCTGCCGGTTTCCATCACCCTCGGATTGTGGAGCACGCTGATTATCTATCTGGTG -TCGATTCCGTTAGGCATTCGCAAAGCTGTTTATAATGGGAGCCGCTTTGACGTCTGGAGTAGCGCATTTATCATC -ATCGGCTACGCCATTCCGGCCTTTTTGTTTGCCATCCTGCTGATTGTCTTCTTCGCGGGCGGCAGCTATTTCGAC -CTGTTCCCTCTACGCGGCCTGGTTTCCGCTAACTTTGATTCGCTGCCGTGGTATCAGAAAATCACCGATTATCTG -TGGCATATCACGCTGCCGGTGCTGGCGACAGTGATTGGTGGCTTTGCGGCGCTGACCATGCTGACAAAAAACTCA -TTCCTTGATGAAGTGCGCAAGCAATACGTGGTGACCGCGCGTGCGAAAGGGGTAAGTGAAAAAAATATTCTCTGG -AAACATGTGTTCCGCAACGCCATGCTGCTGGTGATTGCCGGTTTTCCGGCGACGTTTATCAGCATGTTTTTTACC -GGCTCGCTGCTGATTGAGGTGATGTTTTCACTCAATGGTCTGGGCTTACTGGGCTACGAAGCGACCGTCTCGCGC -GATTATCCTGTAATGTTTGGTACCTTGTATATTTTCACCCTGATTGGCCTGCTGCTGAATATTGTCAGTGATATC -AGCTATACGCTGGTTGATCCGCGTATTGATTTTGAGGGACGTTAATGTCGCGACTCAGCCCCGTCAATCAGGCCC -GTTGGGCGCGTTTTCGTCATAACCGTCGCGGCTACTGGTCGTTATGGATTTTCCTCGTCTTGTTTGGTTTGAGTT -TGTGTTCTGAACTTATCGCCAACGATAAACCGTTGCTGGTGCGTTATGACGGCAGTTGGTATTTCCCGTTATTGA -AAAACTACAGCGAAAGCGATTTTGGCGGCCCGCTGGCAAGTCAGGCTGATTATCAGGACCCGTGGCTGAAACAAC -GGCTGGAAAATAACGGCTGGGTACTGTGGGCACCGATTCGCTTTGGTGCTACCAGTATCAACTTTGCTACCAATA -AGCCCTTCCCTTCTCCACCCTCCCGGCAAAACTGGCTGGGAACGGATGCCAACGGCGGCGATGTGCTGGCACGCA -TTCTCTATGGCACGCGGATCTCGGTTCTGTTTGGCCTGATGCTGACTCTCTGTTCCAGCGTGATGGGCGTGCTGG -CGGGGGCGCTACAAGGCTATTACGGCGGTAAAGTCGATCTCTGGGGACAACGCTTTATTGAAGTATGGTCGGGGA -TGCCGACGCTGTTTTTGATTATTTTACTTTCCAGCGTCGTACAGCCTAACTTCTGGTGGCTGCTGGCAATTACTG -TCTTGTTTGGCTGGATGAGTCTGGTCGGCGTGGTGCGGGCGGAGTTTTTACGTACTCGTAATTTCGACTACATTC -GTGCGGCACAGGCGCTTGGCGTCAGCGATCGCAGTATCATCCTGCGTCATATGTTGCCTAATGCCATGGTCGCGA -CCCTCACCTTTTTACCGTTTATTTTATGTAGTTCGATAACCACCCTGACCTCGCTCGATTTCCTCGGCTTCGGTC -TACCGCTCGGTTCACCGTCACTCGGTGAACTGCTGTTACAAGGGAAAAATAACCTTCAGGCCCCGTGGCTTGGGA -TCACCGCCTTCTTGTCGGTGGCGATATTATTGTCTTTGCTGATCTTTATTGGTGAAGCCGTCCGCGACGCATTTG -ATCCTAATAAGGCGGTGTAGCATGACGCAAACTCTGTTAGCGATTGAAAATTTGTCGGTGGGTTTTCGCCATCAG -CAAACCGTACGTACAGTAGTCAATGATGTTTCACTACAGATTGAGGCTGGCGAAACGCTGGCGCTGGTGGGTGAG -TCAGGTTCAGGCAAAAGCGTTACCGCGCTGTCAATTTTACGCCTGCTCCCTTCCCCGCCGGTTGAATATCTCTCC -GGCGATATTCGTTTTCATGGCGAATCGCTGCTTCACGCCAGCGATCAAACGTTGCGCGGTGTACGCGGTAATAAG -ATCGCCATGATTTTTCAGGAACCGATGGTGTCGTTAAATCCATTGCATACCCTGGAAAAACAGCTTTATGAAGTG -CTTTCACTCCACCGCGGGATGCGTCGGGAAGCGGCTCGTGGCGAAATTCTTAACTGCCTTGATCGCGTTGGTATC -CGCCAGGCGGCAAAACGGCTGACAGATTATCCGCATCAGCTCTCCGGCGGCGAACGGCAGCGGGTGATGATTGCG -ATGGCGCTGTTAACGCGACCGGAATTATTAATTGCCGATGAACCGACCACCGCACTGGACGTCTCTGTCCAGGCG -CAGATTTTACAGCTGTTGCGCGAACTGCAAGGCGAGCTGAATATGGGCATGCTGTTTATTACTCATAACCTCAGC -ATTGTCAGAAAACTGGCCCACCGCGTGGCGGTAATGCAAAACGGTCGCTGTGTCGAGCAAAATTACGCCGCTACG -CTATTTGCATCACCCACTCATCCTTACACACAAAAGCTACTCAACAGTGAACCGTCAGGCGATCCAGTGCCGTTG -CCAGAACCTGCCTCAACGTTGCTGGATGTTGAACAGCTTCAGGTTGCCTTCCCCATTCGCAAAGGGATTTTGAAG -CGCATTGTGGATCATAATGTGGTGGTGAAAAACATCAGTTTTACGCTACGAGCGGGTGAAACACTGGGTTTAGTG -GGCGAGTCCGGTTCCGGGAAAAGTACGACGGGACTGGCGCTGCTGCGACTGATTAATTCTCAGGGCAGCATCATC -TTTGACGGTCAGCCACTGCAAAATTTAAATCGCCGCCAGCTGTTACCTATTCGTCATCGCATTCAGGTGGTATTT -CAGGATCCAAACTCCTCGCTCAACCCACGACTCAACGTTTTGCAGATTATTGAGGAAGGCTTACGGGTTCACCAG -CCGACGCTTTCTGCCGCACAACGCGAACAACAAGTGATAGCCGTGATGCATGAAGTGGGATTAGATCCTGAAACA -CGCCACCGTTATCCGGCGGAGTTCTCTGGTGGTCAGCGACAACGTATTGCGATTGCCAGGGCATTAATTCTTAAG -CCCTCGCTGATCATACTTGATGAACCGACATCATCACTCGACAAAACGGTACAGGCGCAAATATTGACGCTATTG -AAATCATTGCAACAAAAGCATCAACTGGCCTATTTGTTTATCAGCCACGATTTGCACGTTGTCCGCGCGTTATGT -CATCAGGTTATCATACTGCGACAAGGGGAAGTAGTGGAACAAGGACCGTGCGCGCGCGTGTTTGCCACACCGCAG -CAGGAGTATACGCGTCAGCTACTGGCGTTGAGCTGACGCTTAAAAAGGATTGTAGTTTGAAAAGGGTTCGGCAAT -TGCCACACCAAAATTTTTCAATCGGCATGTTGCAGCAAACTCGTCCTGGCGATTTACAAACAGGCACGGCTCACC -TTCACACTCCAGCACCGAACATGGAACTTCGATGTCGCTTAACGCCTGGCTTAGTTTATACATCACCGACCATGC -ATTATCACCATCCGGGCTAAGCAATTTAAGCGCCACCAGGCTGTTGTCACCGCACGGTCCATTTTGCGGAATCGG -TTCAACCTTCGAACCTGCGAAACCAGCAGACCAGCGATAGTTCTGCGGCAGTCGATGGACGATTGAGAGTTGTAA -TGAAGTCACTTATTTTCCCCGGAAGCACATTCACTTCACAATTTGTTTACATCAATTTTAACACATCATCAACAA -TCCGTCTTTATACAGATCGTAAAGATTGATGCCTCGCCTGCGTGGCCTCTATGGCTCTGATTTAAGTAATATCTG -CGGGCGTGGTCACGTTTGCGGGGCTATATGTACCCGTTTCTGCGATCTAACTCAACCTTTTTAACTACAATGATG -TGACTTTTTACATAAATTGATTTTACATAAAATAAACATATATCGGGGGAATGATAGATTTGTGGTTGACATGCA -TCAACAAAGGAAGCCTTTTAGCTTCCTCGTTGTGCAATAGATCACCGTTTTTTCGGCCGACTGGCGTACAGACAG -AAGAGAATGGAGCTGGTTGCGCAGAATGCAATTGACCAAATCATCGGCCATGCAGAGTTAAAGGTCGCAAGAGAA -AGCAATGCGCCAACAATTGCCCCTATGCCAAAACGGAAGGTTCCTGCCAGCGAAGATGCCGTTCCCGCCATATGG -GGAAACTCATCAAGAATGACCGCCATCGCATTGGATGACACCATCGACACGCAGCCCACAAACGCCGCAACGCCA -ACCACCAGCGACCAAAATCCCAGCCCCAGCAGCGCACTGATGACCATCCACGCTGCCATAATAAATTGTATCCAC -AACCCCGAGCGGAACATATTTAACGCGCCAATGCGGCGGACGAAGCGGCTGTTAAAGATGGTCATCACGAACAGA -AAAACAATGTTTAGCGCAAAGTAATAACCAAAGTTTTCCGGCGCGACGTGGTTAATTTCAATATAAACAAACGGT -CCGGCGCTTAAGAATGAGAACATCCCGGCAAAGCTGAAACCACTGGCAAGCATGTAGCTCAGGACACGTTTATGG -CGGAACAGCGCCGCAAAGTTACCAATAGTGGTACGAATGTGAAATGGCTGACGACGCTCCGGTGGTAAGGTTTCT -TTAATCAGGAAGAAAATCATTGCCGAAGCCAGAATCGCCGCTAATGCCAGGATCCAGAAGATGTAATGCCAGCTC -AGCCACACCAGCACCCAGCCGCCAACTATCGGTGCCATCAGCGGTGCAATGGTTGTCACCAGCATGACAAACGAC -ATCATCCGCGAGAACTCTTCTTTCGGGTAAATATCGCGCATCAGGGCGTTAATGACCACGCTGGCCGCAGCCGCA -GCCAGCCCGTGGAAGAAACGCATCACAATCAGCTGATCGATGGTGTTTGCCAACGCACACGCCACCGCGGCGGCG -GCAAACACCAGCGTACCGCCGAGCACCACCGGCTTACGCCCGAAGCTGTCTGCCATCGGCCCGTAGATTAACTGC -CCCAACGCAAAGCCCAGAATATAAGTACTGAGGGTCATCTGCGTACTGCCCGCCGGTACGCCAAACTGCGCTGAA -ATTACCGGTAGCGCGGGCAGATACATATCAATCGACAGCGGCATCAACATGGCCAGCAGGCCAAGGATAAAAACA -ATAGCAAACGACGAATGCTGTCGGGTGGTCACAACGGGCTCCTGAAAGTCATTGAAAAGTTAGACGACGCTGGCA -ATTTCTTCTTCAGTTAACGGACGATATTCACCGGGGGCTAAATCAGCATCCAGCGTAATACCGCCAATACGTTCA -CGATGCAGCTCAACCACGTGGTTACCCACGGCGGCGAACATGCGTTTCACCTGATGATAACGCCCTTCGCTGATG -GTCAGACGAACCTGCGTTGGGGTAATCACTTCCAGCACCGCAGGCTTAGTGAGATCTTTTTCGTTATGCAGCTGC -ACGCCTTTAGCAAATTGCTCTGCCGTATCGTCAGCTACAGGTGATTCCAGTGTCACCAGATAGGTCTTCTCGCAA -TGATGGCGCGGAGAAGTAATGCGGTGCGACCACTGACCATCATCAGTCATCAGCACCAGACCGGTGGTATCAATA -TCCAACCGCCCCGCCGCATGCAGTTTCCACGCTACCGGTTCATCAAGAAAATAGAGCACCGTTGGGTGATCAGGG -TCGTCCGTGGAGCAAACATAGCCCTGAGGCTTATTGAGCATGAAGTAACGTGGACCGTGTTGCTGCGCCAGCGGG -TTGCCATCGTAAGCGACATCATGTTCAGGAAGCAGTTTGAACGCTGCATTACGGACGATTTCGCCATCGACGGTG -ACACGATTGCCGCGGATTTCACGCCCGGCAATAGCACGGCTAACGCCGAGTTGCTGTGCGATAAATTTATCAAGT -CGCATGTGTGTGATTTTGCCTGTAAAAACGGAGGTCGGGCATTGACCCGAAAATCTGAACTGTTGTCTGCCCAGT -ATAGCGGTCTAATAACATCCCTCAAGGGAAAAAGATCCATGGCATACTATTAGCAGAATAATCTACCTACGCGAG -ACCATGATTTTTACACTTCGCCCATATCAGCAAGAAGCCGTGGATGCCACGCTCAACCATTTTCGTCGTCATAAA -ACCCCTGCCGTTATCGTGCTGCCCACCGGCGCAGGTAAAAGCCTGGTGATAGCGGAACTGGCACGGCTGGCTCGT -GGTCGCGTGCTGGTGCTGGCACACGTTAAAGAACTGGTGGCGCAAAACCATGCAAAGTATCAGGCGCTGGGGCTG -GAAGCCGATATTTTTGCCGCCGGGCTAAAGCGCAAAGAGAGCCACGGTAAAGTGGTATTTGGCAGCGTGCAGTCT -GTCGCCCGTAATCTTGATGCCTTTCAGGGTGAATTTTCGCTGTTGATTGTCGATGAATGTCACCGTATTGGTGAC -GATGAAGAGAGCCAGTATCAGCAAATCCTCACTCACCTGACAAAAGTGAATCCCCACTTACGCCTGCTGGGGCTG -ACTGCCACGCCTTTTCGATTGGGCAAAGGCTGGATCTACCAGTTTCATTATCACGGCATGGTACGCGGCGATGAG -AAAGCCCTTTTCCGTGACTGCATTTATGAGCTGCCGCTGCGTTATATGATTAAACACGGCTATCTGACGCCGCCA -GAACGACTGGATATGCCAGTAGTGCAATACGATTTCAGCCGCTTGCAGGCACAGAGTAACGGGCTGTTCAGCGAA -GCCGATCTCAACCGTGAGCTGAAAAAACAACAACGTATTACCCCGCACATCATCAGCCAGATTATGGAGTTTGCT -GCAACGCGCAAAGGGGTGATGATTTTTGCCGCGACGGTTGAACACGCAAAAGAGATTGTGGGATTACTGCCTGCC -GAAGATGCAGCACTGATTACTGGCGACACCCCCGGCGCTGAGCGCGATGTGTTAATTGAAAATTTTAAAGCCCAG -CGTTTTCGCTATCTGGTCAACGTCGCGGTACTGACCACCGGATTTGACGCCCCGCACGTCGATCTTATCGCCATT -CTGCGCCCTACCGAATCAGTGAGTCTTTACCAACAAATTGTCGGGCGCGGTCTGCGTCTCGCTCCGGGCAAGACT -GATTGCTTAATTCTTGATTATGCGGGTAATCCTCACGATCTCTACGCGCCGGAAGTTGGTACACCAAAAGGCAAA -AGTGACAACGTTCCGGTACAGGTTTTCTGCCCTGCCTGCGGTTTTGCCAACACCTTTTGGGGGAAAACGACCGCC -GACGGGACATTGATTGAACACTTTGGTCGTCGCTGTCAGGGATGGTTTGAAGATGACGACGGTCATCGCGAACAA -TGTGACTTCCGTTTCCGTTTTAAAAATTGCCCGCAATGTAACGCGGAAAACGATATTGCCGCCCGCCGCTGCCGC -GAATGTGACACCGTACTGGTTGATCCGGACGATATGTTAAAAGCGGCGCTACGACTGAAAGACGCGCTGGTATTA -CGCTGTAGCGGCATGTCTTTGCAACATGGGCACGACGAGAAAGGCGAATGGTTGAAAATCACCTATTACGATGAA -GACGGCGCGGATGTGAGTGAGCGTTTCCGTCTGCAAACACCTGCCCAGCGTACCGCCTTCGAGCAGCTTTTTATC -CGCCCGCATACGCGCACACCGGGCATCCCGCTGCGCTGGATCACCGCCGCCGATATCCTCGCCCAGCAAGCCTTA -TTGCGACACCCGGATTTTGTCGTCGCCCGCATGAAAGGCCAGTACTGGCAGGTGCGTGAAAAAGTGTTCGATTAC -GAAGGTCGTTTTCGTCTGGCGCACGAATTACGCGGTTAATGGTAGTTTTGATTGATGTATAAGGCGATTGAGTAT -AGAATCTCGCCCGCTTTTGCATACGCAAAGCAGATCACTTACCTGTTGCTGGGTCGCCTGTAGCAGGATTAATTT -AAGAGAGAAAGAAATGTTTACTATCAACGCAGAAGTACGTAAAGAGCAGGGTAAGGGTGCGAGCCGCCGCCTGCG -TGCCGCTAACAAGTTCCCGGCAATCATCTACGGTGGCAAAGAAGCGCCGCTGGCTATCGAGCTGGATCACGACAA -AGTCATGAACATGCAAGCTAAAGCTGAATTCTACAGCGAAGTTCTGACCATCGTTGTTGACGGTAAAGAAATCAA -AGTTAAAGCTCAGGACGTACAGCGTCACCCGTACAAACCGAAGCTGCAGCACATCGACTTCGTTCGCGCTTAATT -GCTGAATAAGTTGTAAAAAACCCCGCTCCGGCGGGGTTTTTTGTATCTGCAGATTATGCCTGATTACGGTATTGC -TATTTTTTGCAGGCCAGATAAGGCGTTCACGCCGCATCTGGCATTCAGAACACAAAACCGATTAATTGCCGCCAG -ACGTCCGGCGCTGCAATTGGTCGCGCAAATTCGGCGGCGTGCCTTTAATGGTCAAGGTATCGGTTGCTGGATCCC -AGAAGATGCGTTCACCTAACAGCATCGCATCAAAGTTAATAGTCAAGCCACCGCCGCTACCGGCAAACTTCGTCA -ACTGACGCAGTGTGCTACGGTCTGCCGGGAAGCTCTCTTCCAGTTCGTAGCCTTTTTCAGCCGCAAACTCCGTGA -AGCTCACTTCGCTTACGCCTGCCAGCTCTTTCGACAGCGATTTCAGTTCGATCTCTTCGCCTGCCTGCAGCTGCT -CATTACAGTAGCTATAAACCTGCTGGCGCACGTTCTGTCGCTCTGCTTTATCCAGTTGTGCTTCGGCAGTGAAAT -CATCAACCGCTTGCAACAGCCCACGGTTTTGCGCTTTCGCGTTTAACCCTTCGCTGGCCCCGAGGAAATCCATAA -AGAAATCCGCCACTTTGCGCCCTACTCGCCCTTTCAGGAAAGTGAGATAGCGGGTGGACTCTGGATTGGTTTCCC -ATTCGGTTAAATCGATACGCGCAACAATATCCGCATGATTGATATCAAGATAATGGGTTGGGTTGATGTCGAGAT -TTTCGTTAACGCGCATACTGCTCAGGTTGCTCAGAACTGCCACCAGCAAATACTCCACCGCCAGATAGCGATAGT -GGCAAAACAGCACGAATCCACCGTCAGCAAAAGGATATTTCGCTAATTCGTCACGCAGGCGGCCGGTTGCCGCGC -GGCTAAATGCCAGGAAGTCCTCTTCGCCCTGACGCTGTAAGCGCAGCGTCTGCGCCAGTTCACTCTCTTCGCTAA -ACAAGCCGTAAGCTTTATTTTTGGCGCTATAGACCCGATGCAGTTCTGCCACCATCTCAACGACGGTTTCTGTCG -GTTCCAGCAATGAATCGCGCAACACCAGCTCAAGGTTCTGCTCATCACGCTTGATAAGCTGGTGCAGAGCAATCT -GGTTGATATCCAGACTCATGATAAACTCTCCTTTAAGACCGGGCGGTATTCAACCACCGCCGGTTAAGCGACGCA -ATAAAAGATGGCGGTCATTTTACAGAAGGCAGCGTAACGAGAATGATTTAACGCATAAAAAAGCAGAAAAAAAAC -CGTTGCTACGGTAATATGTTGCCCTTTCATCAACTAACTGATTTCGATTTATGCCACAAATTTCCCGCTACAGTG -ATGAACAGGTTGAACAATTGCTCGCAGAGCTGCTCAACGTACTGGAAAAACATAAGGCTCCGACCGACCTTTCCC -TGATGGTGTTAGGCAACATGGTCACTAACCTTATCAACACCAGCATTGCCCCGGCCCAACGCCAGGCAATTGCCA -ACTCTTTTGCCCGCGCCTTACAGTCCTCTATCAACGAAGACAAAGCGCACTAAGGGAAACAGATAACAGGTTATG -GTAACTCATCGTCAGCGCTACCGTGAAAAAGTCTCCCAGATGGTCAGTTGGGGGCACTGGTTTGCACTGTTCAAT -ATTCTGCTTTCGCTCGTCATTGGCAGCCGTTACCTGTTTATCGCCGACTGGCCGACAACGCTTGCTGGTCGCATT -TATTCCTACGTAAGCATTATCGGCCATTTCAGCTTCCTGGTGTTCGCCACCTACTTGCTGATCCTCTTCCCGCTG -ACCTTTATCGTCGGCTCCCAGAGGCTGATGAGGTTTTTGTCCGTCATTCTGGCAACGGCGGGAATGACGCTATTA -CTGATCGATAGCGAAGTCTTTACTCGTTTCCATCTCCATCTTAATCCCATCGTCTGGCAACTGGTTATCAACCCA -GACGAAAATGAGATGGCGCGCGACTGGCAGCTGATGTTCATCAGCGTGCCGGTTATTTTATTGCTTGAACTGGTG -TTTGCGACGTGGAGCTGGCAAAAGCTGCGCAGCCTGACGCGTCGTCGACGCTTCGCGCGCCCGCTGGCCGCATTC -TTATTTATCGCCTTTATCGCCTCGCATGTGGTGTATATCTGGGCCGATGCCAACTTCTATCGCCCGATCACCATG -CAGCGCGCTAACCTGCCGCTTTCGTACCCGATGACGGCGCGACGTTTTCTTGAGAAGCATGGTCTGCTTGATGCG -CAGGAGTATCAACGCCGTCTTATTGAGCAAGGTAATCCAGACGCCGTTTCCGTTCAGTATCCGTTAAGCGAACTG -CGCTATCGCGATATGGGCACCGGGCAGAATGTGCTGTTGATTACTGTCGATGGCCTGAACTACTCACGCTTCGAG -AAGCAGATGCCTGCGCTGGCAGGTTTTGCTGAGCAAAATATTTCGTTCACGCGCCATATGAGCTCCGGCAACACT -ACAGACAACGGCATCTTTGGCCTGTTCTATGGCATCTCGCCGAGCTATATGGACGGCATTCTGTCGACCCGTACG -CCTGCGGCATTAATTACTGCGCTTAATCAGCAAGGCTATCAGCTGGGGTTATTCTCATCAGATGGCTTTACCAGC -CCGCTGTATCGCCAGGCATTGTTGTCAGATTTCTCGATGCCGAGCGTACGCACCCAATCCGACGAGCAGACCGCC -ACGCAGTGGATCAACTGGCTGGGACGCTACGCACAAGAAGATAACCGCTGGTTCTCGTGGGTTTCTTTCAATGGT -ACTAACATTGACGACAGCAATCAGCAGGCATTTGCACGGAAATATAGCCGGGCGGCAGGCAATGTCGATGACCAG -ATCAACCGCGTGCTCAATGCACTGCGTGATTCTGGCAAACTGGACAATACGGTGGTGATTATCACTGCCGGTCGG -GGTATTCCACTGAGCGAAGAGGAAGAAACCTTTGACTGGTCCCACGGTCATCTGCAGGTGCCATTAGTGATTCAC -TGGCCAGGCACGCCGGCGCAGCGTATTAATGCTCTGACTGATCATACCGATCTGATGACGACGCTGATGCAACGC -CTGCTACATGTCAGCACACCTGCCAGCGAATATTCGCAAGGTCAGGATTTGTTCAACCCTCAACGCCGTCATTAC -TGGGTTACCGCAGCGGATAACGATACGCTGGCAATTACCACCCCGAAAAAGACGCTGGTACTGAACAATAACGGT -AAATACCGCACTTACAACTTACGTGGTGAAAGAGTGAAAGATGAAAAACCACAGTTAAGTTTGTTATTGCAAGTG -CTGACAGACGAGAAGCGTTTTATCGCTAACTGATTAATTATAAATCAGTTAGCGAAATATCTTACTTGCAATCGG -TGTGGAAAACGGTAGTATTAGCAGCCACGAGTCGGCACGTAGCGCAGCCTGGTAGCGCACCGTCATGGGGTGTCG -GGGGTCGGAGGTTCAAATCCTCTCGTGCCGACCAAAAATCCCAAGAAAAAACCAACCCTTACGGTTGGTTTTTTT -ATATCTGCAATTAATTCGATAAACAGACCGTGACACATCACAGCCTGTTTATTTTCTGTTATCAGAACGTCCAGA -CCACACCCGCCTGAGTATTCCACGGCGATTCTACCCCTGCGCCATTGCCATAGCTGACTGACAAATGACCGCTTA -ACGTCGGGGTAAACGATGACCTTATACCAGCCTGATAAACGCCACTGGTTCCAGCCACATCATTATTAAATTTGC -CATCGTCATTAACTTTCACCTGGTTAGAATCGGCGTATTCCTGACGCACGGCCGCTTTCAGCCAGGGTTCCAGCG -TCGTACCGTTTTGCAGGTCCATGTGATAGCTTACCGCCGTTCCCGCTTCAGCGCGTAATATCCGGGTATTTCCCA -CATCCGCGCGCATGCCGTTTGATAACGTGTAGTCCTGACCATCTGTGGTAAAGCCGGTAAAGGCCAGATAGGGTC -TAACACTCCACAATCCGTCAACCCAACGGAACCCGCTCTCAACATGAGCACCCGCGCCGTTACTATTGTAATCGC -CAAACGCTGTTGCCCCATTACTCATCTTGCCATGGATGGTGTTGGCAAAACGGTCAACTTTCACCACCCCATCAA -CATAGGCACCGTTCTGATGCTCCCAACCGGCATAAGCCCCCAGGGTATAGCTATCGATATTACCTTTGCCGCCGC -GATCAAAACCAATATCAGAATGAGAGTAACCAAAGATCAAGCCGCGAATTGTACTGCTTTCTTCACGGGAGAAAC -GGCTATCGATACCGAGCGTCAGGCCCGTCAATGTTTGCTCAAAACCAGCTCCCGCATCAGTGGTCACGTTGTTGC -GGGTGTTAATTGCCGAACTCCACATCGCCGTATCGTAACTAACGCCTTTTACGCTACCAAGACGCTCACGCACGG -TGTCCAGTTCTGCATCAAATACCAGCGGTTGTGCGGCCGCCATATTCAGCACATCAGTGGTTGAAGGGGTAATTT -GCGCGCGATTCTCTGCCAGACTCCAGCTATGGTTGCCATTATCCAGCAAGGTATATTCATACGTACCGATATCAA -CAACGCCTCCGGCATTGCCCAACGTAAATGCAGCATCACCGCCGCCCGTTGTTACCAGTGTAAGGCTATCTCCTG -CTGCCGGGCTGGCACCGGTGTCCGTCACGAATATTTTGAAATCACCTGTTGCCTGACCGGTGACGTTGAGCTGAT -CGCTCTGATGATTAGCCATATCGGTACGCATATAAAAATTGCCGTTTCCCGACAGGGTATTGGTGGTCAACGTAA -TGAAATTTTCCGCACTTGCCGTCACTGATGAACGAGTCACTGGCTCATCCATCATAATCACATTTGCGTCAGACA -TCGCAAGGTTGGCTAAGTTGAGGAGGGTGTTTTGGTTCGTCGTAGTGATATCGGCAATGATGGTCCATACGCTAT -TTTCGAGCGAAACGTCCGCTTTGCTGGTATCCACGGCACCATGCGTTCTAAAAGAAGCGCCCTCAGAAACCACTA -CCTTACCCACCAACATTGCGGGTGCATAATTTATTTGCGGCTTCATGACCTCAAGAATGCCATCATTCCCTCTGA -CTGAAACGTTAACCATTGTGCCAGCCCAGACGTTAGCGCGGCCATTGTTGATAACCATATTTTCAGAGATGGCTT -TTGAGGAATACGTGATACTTCCATTCTGATATGATCGACCGAGATCATATACCGCATTTGCCTGCACTTTCGTAC -CAGTATCCTTTCCCAGCGATTGCATAGTGGCATGCTTATCAAGGATAGTATCAATGGCCTGCGTGTCCTCCATAA -CAATGAGCCCGGAACCATCATCCAGTTCATAATTTTTTGACACACCATCTTTTATACTAAATTGGCCTTTACTGT -TTGGACCACTCACTTCCAGCGCATTCGTTGAGACAATTAATTTTCCGCCTGCTTTTTTATCAACGCCAGTTACAG -TCCCGCCATCCATAACCTCCAGTAAGCCGCCACTATCTACAGTGGTATTATAAGCGAAGTCATTTTCTTCAACTC -GCAAACTTCCGCCGTTTTCCAACAACATATTATTAGCAATACCATTCTTGATATCGAACTGACCGAGACGGTTTG -TTCCGAATACCTCCATGGCCCGCGTGGTTGTTTTAATAGCACCGCCTGCTTTCTGATCTACCGCAAATGCAAATC -CCCCCTCTTTAACCTCCAGTAGTCCTCCCTTTTCGATAGCGACAAAGACGGCCCCCCCATCTTTTTCAACGATTA -AGCGCCCGCCTTTAATCGTGGTATCATTCGCTGCGCCATAAACCTGTAGCACACCATTATTGAGCGTAGTCTGGT -TTGCCGCGCCACCCATTTGAACAATTTGATAACCGTCATTTAATACTGAGTATTCTGCGGCGCCATTCATTTCAA -TGTACTGATACCCTCCGTTAATTTCAGTATTATTACTTACACCAAATTCTTTTATATGCTGTTCTCCGCCAGGAT -TGATTTTCGTATTATTGGCGGTCCCATAAACCAGCTGGATATCTTTTTCCAGGACAACACCATCAACTGTCTCAC -CATACTCAACAGTTGATGCCAATGCTATGGGTGAATATAAGGAAGGTGCGAATAAGCGGGGAAATTCTTCTCGGC -TGACTCAGTCATTTCATTTCTTCATGTTTGAGCCGATTTTTTCTCCCGTAAATGCCTTGAATCAGCCTATTTAGA -CCGTTTCTTCGCCATTTAAGGCGTTATCCCCAGTTTTTAGTGAGATCTCTCCCACTGACGTATCATTTGGTCCGC -CCGAAACAGGTTGGCCAGCGTGAATAACATCGCCAGTTGGTTATCGTTTTTCAGCAACCCCTTGTATCTGGCTTT -CACGAAGCCGAACTGTCGCTTGATGATGCGAAATGGGTGCTCCACCCTGGCCCGGATGCTGGCTTTCATGTATTC -GATGTTGATGGCCGTTTTGTTCTTGCGTGGATGCTGTTTCAAGGTTCTTACCTTGCCGGGGCGCTCGGCGATCAG -CCAGTCCACATCCACCTCGGCCAGCTCCTCGCGCTGTGGCGCCCCTTGGTAGCCGGCATCGGCTGAGACAAATTG -CTCCTCTCCATGCAGCAGATTACCCAGCTGATTGAGGTCATGCTCGTTGGCCGCGGTGGTGACCAGGCTGTGGGT -CAGGCCACTCTTGGCATCGACACCAATGTGGGCCTTCATGCCAAAGTGCCACTGATTGCCTTTCTTGGTCTGATG -CATCTCCGGATCGCGTTGCTGCTCTTTGTTCTTGGTCGAGCTGGGTGCCTCAATGATGGTGGCATCGACCAAGGT -GCCTTGAGTCATCATGACGCCTGCTTCGGCCAGCCAGCGATTGATGGTCTTGAACAATTGGCGGGCCAGTTGATG -CTGCTCCAGCAGGTGGCGGAAATTCATGATGGTGGTGCGGTCCGGCAAGGCGCTATCCAGGGATAACCGGGCAAA -CAGACGCATGGAGGCGATTTCGTACAGAGCATCTTCCATCGCGCCATCGCTCAGGTTGTACCAATGCTGCATGCA -GTGAATGCGTAGCATGGTTTCCAGCGGATAAGGTCGCCGGCCATTACCAGCCTTGGGGTAAAACGGCTCGATGAC -TTCCACCATGTTTTGCCATGGCAGAATCTGCTCCATGCGGGACAAGAAAATCTCTTTTCTGGTCTGACGGCGCTT -ACTGCTGAATTCACTGTCGGCGAAGGTAAGTTGATGACTCATGATGAACCCTGTTCTATGGCTCCAGATGACAAA -CATGATCTCATATCAGGGACTTGTTCGCACCTTCCATAACGCTGTAGCCACCAGAACAGATATTGCGGAACGACA -AAGAGAAACAGAACCAGATTGATGCATTGAGCTTTCATCCTATGAAATTAATTGCTGTTAAAAGCATTGGGTACA -GAAAATACCCATAGCTCCATACCCGGAGTCAGTTTTTAAAAACTGTTTAAAGAAATGCACAAGTATTGTGATTGA -TTTTTTAGTTGTTTTTCTTGATGAGAAGCTGATGCAAAATTCCGTCTTTATAATGAAAATGATGCCAAAGCGAAC -GACAAGGTTGTAGTTTTCACTACATGTCCATACATAAAATGGGGTAACATTCACGCGCCTGGTAGCGTTACCAAC -GCTACGCTCAAACATAATGATTCTAATAAAACCTCAGGAGACTACTATGCCTGAAGCAACACCTTTTCAGGTGAT -GATTGTGGATGATCATCCACTTATGCGACGCGGTGTTCGTCAGTTACTGGAGCTTGATCCTGGCTCTGAAGTGGT -CGCCGAAGCGGGCGACGGCGCGAGCGCTATCGATCTGGCGAATAGACTGGATATCGACGTGATCTTGCTGGATCT -CAATATGAAAGGTATGAGTGGCCTGGATACTCTCAATGCCTTGCGCAGGGATGGCGTTACCGCGCAAATTATTAT -CCTGACCGTATCCGATGCCTCCAGCGATGTCTTTGCGCTGATAGACGCAGGCGCAGACGGTTATCTGTTGAAAGA -CAGCGACCCGGAAGTATTGCTGGAAGCGATTCGTGCCGGAGCGAAAGGCAGCAAAGTCTTTAGCGAACGCGTCAA -TCAGTACTTACGTGAACGTGAAATGTTTGGCGCGGAAGAAGATCCCTTCAGCGTGCTGACGGAGCGCGAGCTGGA -TGTTCTGCACGAGCTGGCACAGGGGCTGTCAAATAAACAGATTGCCTCGGTGTTGAATATTTCCGAGCAGACAGT -AAAAGTACATATTCGCAATCTGCTGCGTAAACTCAATGTCCGCTCACGCGTGGCGGCCACCATTCTGTTCCTGCA -ACAACGCGGGGCACAATAAAAATAGCCCGATGGATTTATCATCGGGCTGAGATTTATGACAAACGCAAAACTGCC -TGATGCGCTACGCTTATCAGGCCTACGTGGATCGATCAATTTATTGAATTTACACAATTTTGTAGGCCGGATAAG -GCGTTCACGCCGCATCCGGCATAAACTAAGCGCACTTTGTCAACAGTCTAGCCCGATGGCATCACCATCGGGCCT -CTTTTTATTTACTCTCCTGCGGCGACAAATGTTGCATCGCCTGCGCGATACTACGTTCAATCACCGCACGGCGAG -TATCGTTGGCAGGTAAGAGTTTCAACATCATCTCCCACGCGGCAACGGCTTCGCCAAATCGCTGCTGCTCAAAGG -CATTAAACGCATACATGCTTAGCACACGGATATTGCTATGGTCCGTTCTCACCAGCTGACGTAGCAGTTCACCGC -CGAGGCGGTTGTCGTTGGGATCAGATGAACGAGTCAACGCTTCAGCGTATCCCAGTGCAGCATCACTGTTTTTCG -GATCGAGGCGATACGCAGTGGCGTATGCATCGGTGGCGATACTGGCGTTACCCAGCGCCATGCCAACGCGGCCCA -ACATAATCCAGCCTTCTATATCTCCCGGATTTTTTTGCAGTTGAGTACGCATCCCCAGCGCAAGACGCGACATCT -CTTCTTCGTTGAGCGGATCGGCTTTCGGATCCAGCGCCCTGTCCAGCAACGCCGGAGCCTGTGCCGTGGCCTGCT -GCCAGATTTTCACCTGCTGATAATTGCCAGTCTGGTAGTAGCTGACGCCAGCCACAATTAACGCCACCACAATAC -CCGGCAGATAAACAACATATCCGGCACGCTTACCTTCCGGCACGCTTTGTTCAGGAAACGCTTCCGGCACCACGC -GTACCCGACGCCGCGAGCGGGCGTATATGACCCAACCGCCAATGCCAATAGCCACTACTGGCAGCACCCACAGCA -GCACGGTCAGCGGCGTTAACGGCGGATCGTAAGTGACGAAGTTGCCGTAACGCGCCACCATATAATCGACAATCT -CTTTTTTACTTTTACCTTCCTGCATCAGTTCATACACTTTCTGACGCAGGTCGGTGGCAATCATCGAGTTGGAAT -CGGCAATGCTGTTGTTCTGGCATTTCGGGCAGCGCAGTTCTTCAGTGAGCTGACGGAACTGTTGTTCCTGTGCTT -CATCTTTAAACTGCAACACATCGATGGTCGCCAGCGCTGAGCCGGAGATCATCAGCATCAGCACGCCCAATAAAA -ACCTCATTGTGCGGCCTCCTTACTGTATTTCTCCCACAGCGGCTTGATCTCTTCTTCCCAGACGCGAGGATTCAG -ATCGCCCGCATGGCGATAGCGAATGATGCCGTTGCCGTCAATAAGAAACGTTTCTGGCGCGCCATAGACACCGAG -ATCCAGCCCTAACATGCCATCGCCATCAAACAGGCTTAGCGCGTAAGGATTGCCCAGCTCTTTCAGCCAGCTGAT -TGCCTTCTGGCGATCGTCTTTATAGTTCATGCCGACCACGCGGATGCCCTGCGCAGAAAGCTGATTCAGATATTG -ATGTTCCGCACGGCAGGTCGGACACCAGGTCGCCCAGACGTTAAGCAGTACTGGTTTGCCCTGAGTCAGCACATC -CGCCTGATAAAACTGCCCCGGATTGTCCAGTGATTCGAGACGAAACTTCGGCACAGGCTTGCCAATGAGCGCCGA -TTCCAGATTGGTCGGATCATCCCCTTCGGCATTACGCGCCAGCTGCCACAGCAGCGCCGCGGCAATCGCCAGGAA -GATAATCAACGGAATTAACAATACTTTGCGCTTCATACGGCCTCCGGCGCAGTTTTTTGCGGACTCACGCGCTTA -CGATAGCGAGGATCAAACAGACACAGCAGTCCGCCCAACGCCATCATCAGCCCGCCCGCCCAAATCCAGCGAACA -AATGGTTTGTAGTAAAGACGCACGGCCCACGCGCCGTTTTCCAGCTCTTCACCGAGGGCCGCGTACAGGTCACGC -GTGATGCCGCCGTCAATTGCCGCTTCGGTCATCATCGACCCGGCAGTGTTGTAATAACGTTTTTCCGCATACAGC -ACCGTTTCCGGCTTGCCATCGCGCGTTACGCCGATAGTCGCCACACCGCCACGCCAGTTCGGGCCAGTCACCTCT -TTGACATCACGGAAGGTGAAGCGATATTCATGAATATCGACGCTATCGCCGGACTTCATGCGCACATCACGCTCA -ACGCTATAGTTCTGGCTAAAGGCAATGCCAACAATTGTCACTGCCAGCCCAAGGTGAGCCGCCACCATCCCCCAA -TAACTGAAGGTGGTTTTCGTGCCGCGTGAAATACGTAGCGCAGCTTCCGCAATTGCCAGCACCGCAATCCAGCAG -GCCATTGCCAGGCCGAGCACCGTCATCGCCACAACTTTGCTTTCGAACAGCCACGGCAACAGCAGCGACAGCACC -AGCGTAGAGATGAAGGCGATAATCAATAAATTGCGGATCTTACGCGGGCGATCCCGCCCCCAGCGCACCAGAGGA -CCGACACCAAGCAGTAGCGCAAACGGCACCATCAGCCAGGTAAACATGGTGTTGAAGAACGGTTCGCCAATCGAA -ATACTGCCCAGTCCCAGTTGCTTATGCACCAACGGCAGCAGCGTCCCCAGCAACACCACCAGCATCGCAGCGACC -AGCAAAACATTGTTCGCTAACAGCAAAGATTCCCGCGACCACAGCGCATTGTTTACGCGTGAGCGAACTTTGTGT -CCACGCGCGGCAAACAGCAGCAGCGAACCGCCAATCACCAGCACCATAAAGGCGAGGATAAACATACCGCGCGCC -GGATCAGACGCAAACGCGTGTACCGATACCAGCACGCCGGAACGCACGAGGAAAGTCCCCAACAGACACAACGAG -AAGGCACTGATTGCCAGCAGTAATGTCCACGCTTTGAAGCTGGCGCGTTGTTCAGTGACCGCCAGTGAGTGCATC -AGCGCAGTCCCCACCAGCCACGGCATAAACGAGGCGTTTTCTACCGGATCCCAGAACCACCAGCCACCCCAGCCG -AGTTCGTAATAGGCCCATGCGGAACCGAGCACGATGCCGAGCGTCAGGAAGATCCACGCTGCCAGCGTCCACGGA -CGAGTAAAACGCGCATAAGTGCTGTCCAGACGCCCGCTCAGCAAAGAAGCAATGGCAAAAGCAAACGCCACCGAG -AAACCCACGTACCCCATATAAAGCAGAGGCGGATGGAAGATCAGCCCCGGATCCTGCAATAGCGGGTTAAGATCG -CGACCTTCAATCGGGAAGTTCGGCAACGTGCGAGAGAACGGGTTAGAGGTAAAGAGAATGAACAGCAAAAAGCCG -ACACTGACCATCCCCATTATCGCCAGTACACGGGCCACAATATCCAGCGGAATACGCTGACTAAAAATCGCCACC -GCAAAGGTCCAGCCGCTCATCAGCAGCACCCACAGCAGTAGCGAGCCTTCATGCGCGCCCCAGGTAGCCGCCACG -CGATACCACACCGGAAGCTGGGTATTGGAGTTGCTGGCAACATAGGTGACGGTGAAGTCGTTGACCACGAAAGCA -TTGACCAGCACCAGAAATGCGCCAGCCACAGACATAAACAGCAGCCAGGCAAACAAGCGGGAAGACGCCATCATG -CGCGCATCTCCGCGCGCCACGCCCCATAGCGGATACACGGACAGCAGCAGCGCAATTCCCAGCGCCAGGCACAGC -AGTCCGTTACCAATTTCTGGCATCATGATGCTGGGTCCTTATAAACACTCGCCGGGCGACGGTGGTTAGCTTCCA -TCGCTTTCTCAACTTCTGGCGGCGTATAGTTTTCATCGTGTTTCGCCAGCACTTCTTTCGCGAGGATATGATTGC -CTTTTTCCAGTTCGCCCTGCACCACAACGCCCTGCCCTTCACGGAACAGATCCGGCAAAATGCCTTCGTAAGAGA -CATCCACTGAGCCTTCAGCATCGTAAATGGTGAAGGTCACTTTCAGCGAATTGGGATCGCGCTGCACACTACCCG -GCATCACCATCCCGCCAACGCGCAGACGCTGACCGACTTCCGGCATTTGCTGAGTTTCACGCTTGCCGTAGAGAA -TTTCCCCCGGCGTATAAAAGAGATCGATATTCGAGCGCAGCGCATATAGCACCAGACCGATAGTCAGCGCCAGCC -CTGCCAACACGGCACAGGCAATCCACAAGCGGTTTTTACGGCGAATATTCATGCAGCCTCCTGCTGTTGCGCAGC -ACGTAAACGCGCCTCACGCGCCCGCTGTTGCGCCACGCCACGCAGAATTGCGCGATGTTGCATCACCGAGTGCAC -GACCAAAACCACCAGCGGAATAACGGTCATCACCACCGCCAGCCAGACAAAAAAGGCGTAACCGCCCATTGCGAA -AAATTCATTCCAGGAAGCAAATGCAGGGGTCATTTACGGCCTCTTTTCAGTATCAGTTCACTCACCCACGGACGG -CGTTTTTCCATCAGCAAAATCAAATTACGCATCCGCATCAGCGTCAGCGTGGCAGACAGGAGCAGGAAGCCAAAA -ATCGACCAGCGCAGCGGCGAACGCATCGCCGGATCGATACTTTGCTGCATCCGCGTTGATCCCTGATGCAGGGTG -TTCCACCACTCCACGGAGTAATGAATAATCGGCAGATTCACCACGCCAATCAGCACCAGGATACCTGCCGCACGG -CCCGCCAGACGGCGGTCGTCGAAGGCGTGCCACAGGGCAATCACACCCACATACAAAAACAGCAGCACCAGTTCA -GAAGTCAGACGTGCATCCCATACCCACCAGGTGCCCCACATCGGTTTTCCCCATGCAGAGCCGGTAACCAGGGCA -ATAAAGGTAAACACGGCACCAATGGGGGCCATCGCCGCCACCGCCAGGTTGGCCATTTTCATCTGCCAGACAAGG -CCAATAAACGCTGCCACTGCCATTGATGCATAAATGCCCATCGACCAGATCGCCGCAGGCACATGCAGGTAGATA -ATGCGGTAGCTATTTCCCTGCTGATAATCAGCCGGAGCAAAGCCGAATCCCCAGATCCAGCCGACGGTAAGCACG -ACCACACTGGCAATTGCCAGCCACGGTATAAACCAGCCACAGATTTGATACAGCCGTGGTGGGATCGCCAGTTGA -TGCAGTGTTTTCCACATAGTTTCGATACCAGACTCGAACAAAAATCAGTAATCCAGCGTTATTGAATGCTGATTC -GTAACGCTGCCGCCGTCGCAAAAGGACTTAATGTCGCGGTGCCTGCCAGCAACGCGCCTAAAATTGCCAGATACC -CGTCAACGGGCAAATGCATAGAAGCCGCGTCCATCGCGGCGGTGGCAAAGATGAGTAATGGGATAGTCAGCGGTA -ACACCAGTATGCTGAGCAGCACACCACCGCGCTTAAGTCCCACTGTCAGCGCCACGCCCGGTGCACCGAGAAAGC -CAAGCGTAGGCGTTCCCAGCAGCAGCGTCAGCGCCATCACTTGCCAGCCATAAACATCCATTCCCAGTAGCATTG -CTACCAGTGGCGAAAGGATGAGTAACGGCAGACCGGTTACCATCCAGTGCGCCATCACCTTCGCCAGCACAACGG -CGGGCAAGGGTAACGGCAACAACATCAATTGTTCAAGACTGCCGTCCTGCAAATCGTCACGGAACAGTCGTTCCA -GCGCCAGCAAGGATGAAAGCAGCGCAGCAACCCAGATAATGCCCGGTGCAATACGCGCCAGCAGTTGCGGCTCCG -GACCGATACTGAGCGGAAAAAGGGTAATTACAATCAGGAAGAACCACAGCGGGTTGGCGATTTCGGCGCTATGGC -GAAACGCTACACGCAGCTCAAGACGGAAAATGCGCCAGAACATCATGCGGCCCTCGTTTGCGTCAGTGAAATGCG -GCGAATTTTACTTTCAGCAACGTTGAGCGGCTGGTGGGTAGTCAGAATCACAATCCCCCCCTGCTCCGTATGCTG -CGCCATACGCTGGGTCAGACGATCGACACCGTTAACGTCAATCGCGGTAAAAGGCTCGTCGAGGATCCATAACGT -GGCACGGGTCAGCCACAGACGCGCTAAAGCGACGCGGCGTTGTTGCCCGGCCGAGAGCTGATTTACAGGAATATC -TTCGAATCCGGCAAGCCCGGCCTGCGCCAGGGCTTCCAGACATTGTGCGGTATCGCCATCGCGATGATAAAAGTG -CAGATTTTCTAACGCCGTCAGCCGGGTTTTGATCCCCGGCTGATGGCCTATCCATAACAGGTTTTGATGGTAGCT -GTCGCGTACCTGATGCAAGGGCTGCCCTTGCCAGAGAACCTCGCCTGCGTCAGGGCGAGACAACCCCGTCAGCAA -ACGGAGAAGCGTTGTCTTCCCCGCGCCGTTGCTACCGGTGATTTGTACCCACTCTCCTGCGTTCAGCGTAAATGA -CAAGCCACTAAATAAGGTTCGTTCATCCCGCTCACAAAGTAACTCTCTGGCTTCAAGCATACCCACGCAATAACC -CTGTTAAAAACCTGGCTCGACTTCACGCATATCGGGCAGCTTGTGCGCTATCCCTTTATGGCAATCAATACAGGT -TTGCCCATCTTTCACCGCCTGGTCATGCATCTTCGCGGCAACCGATTTCTGGGCGGTTGTATCCATATACTCGAA -GTTGTGACAGTTACGGCACTCCTGCGAGTTATTGTCCTTCATGCGCCGCCACTCATTCTGTGCCATCGTCAGACG -ATGAGCTTCAAATTTCTGCGGCGTGTCAATAACGCCAAAAATTTTACCATACAGCTCTTTACTTGCTTTGAGCTT -GCGTATCATCTTCGGCACAAACTCGTGCGGAACGTGACAATCCGGACAGGTCGCACGGACGCCGCTACGGTTGTT -GTAGTGCACGGAATCCATGTATTCCTGATACACCGTGTTGCGCATTTCGTGGCAGCTAATGCAGAACTCTTCGGT -ATTGGCTTTTTCCATCCCGGTGTTAAAGCCACCCCAGAAGACGATGCCGCCAACAAAACCGATCAACAGCAGCGT -CCCCAGCGCCAGACGGCTGGGGGTACGCCACCATTTCCACAGGCGCTTAATCAGACCAGGCTTACGGTCAGAATT -TCCCATAATAACCTCTTATTTCCCGTAACCTTTTGATGGGGTAAAGGTATTCCCCACGATTGGCGCGGTATCGGC -CTGCGGTACGTGACATTGCAGACAGAAATAACGACGCGGAGCCACTTCCGCGCCCACTTTGCCGTCGCTGTCCAT -AAAGTGAGTAGGACTGATACGCGGCGCGCCAGTGGTGCGATAGCTTTCGACACCGTGGCACTGCAAGCAGCGATT -GGTATTGGTCGTTACCTGATAACCTTCAACGCTATGCGGGATCATTGGCGGCTGATTCACATAGTTCAGCGGCAT -CCGATCCTGCTCTTTTGGCATCCGAATGGCCCCTTCCTGTGTCCCGGATACTTCCGGCGACTGGCTAAAATCGAC -GCCATTAGCCGCCCAAACCGCGCCGCTTACCACCAGGGCCAGCATCGCCGTCCATTGACACAGCGCTTTCTTCAG -GTCATGGCTTTTCATGATTTCGCTCCCGAACTCCATCGTGTAGTTATTGTAAATACATCCTCAGAACAGACATCC -ACGCAGCGACCGCACGTCATGCAATCGCGGCTGGTGACCTGCACCGGGCTTTGTTCATCCAGCACCGGGGCACGT -AGCACATGCGGTTCCGGGCAAACATGAAAACAATCCATACAGCGGTTACATTTCTGCCGATCGGTGGCCGCAACG -GTAATCACACCTTTGCTACCCAGCACGCCATACAGCGCGCCAACCGGACAAATGTGCCCGCACCAGCCGTGTTCA -ACGACCAGTAGATCAAATAAAAACAGCGCGAGAATAAGCAGCGCGCCGCTGCCGAAGCCCATTACCAGGCTACGC -CCCATCAGAGAAACGGGGTTGATCCATTCCCAAATGAGCGTGCCAGTTAAGGCTGATCCCACCAGAATGACCACC -AACAGCACGTAGCGAATGTGGCGAGGGATCGTCGCAGACTGATTGAGGTCAAAGCGCCTGCGTAACCAGTTCGCT -AAGTCGGTAATCGGGTTCAGCGGGCAGACCCAGCTGCAAAATAATCGCTTTCCCGCCAGGGCGTAGAGCACGGTG -ATAATCACCGCACCGGTCAACGCCACCGTGGCAGGCAGATGACCACTGGCAAGACTTTGCAGCGTCATCAGCGGA -TCGGTCAGCGGAACGGTGTCGAATAACAGGCTACTGCTGTAGTTGCCGTGCAAGATCCACACACCAAACCATGGA -CCGCTCAAAAACATCCCCAGCACGAAGAACTGACAAAGGCGACGTAACACCAGCCAACGGTGACTGCGCCACCAG -CCTTTTTTCTCCAGCGCCTCGCGCCCGGCGTCACGTTTACGATTTGCCATTGTTCCCCTCCAGCCAGCCGAAGCG -GTAATGGTGACCTAACTCCCCTTTCGCCAGTGACAGCGGTAACACCTTGATTGCCGGTTGTTCCAGCACGCATAC -TTTTTCGCACTTACCGCAACCGGTACAGGCGTCGCTGTGAACCGTCGGCAGAAAGCGGGCGTGCTTACCGGTACG -CGTGTTGCGCTCCAGCTCCAGGGTGATGGCCTCATCAATTTTCGGGCATTCGCGATAACAAACATCGCAGCGCAG -CCCCTGAAAGTTGAGACAGTTTTCCTGGTCCACCAGTACCGCCAGCCCCATCCGCGCGTCGTCGATCGATTCAAT -CTCACGATCCAGCGCACCGCTTGGGCACACTTTGGCGCACGGAATGTCCTCACACATTTCGCAAGGAATATCCCG -TGCGACAAAATATGGCGTGCCCGCCGACAGACCAGAGGCCAGCGTCGCCAGTTTTAAGGTGTCGTAAGGGCAAGC -CTGAACACACTGACCGCAACGCACACAGGCACTGGCAAAGGCGTTCTCGTTTATGGCTCCGGGCGGGCGCAACCG -CACGCCAGATGCGCGTGCGGTTTGCTGTTGTAACCCCAGCGCCACACCCACGGCAGCCAGCCCGCCTGCTGTGCG -AACGACATCGCGCAGAAAGCGGCGGCGACCATTTTGAGGTTTCGCTGACCGGGACATAATGGCTTACACCTTCTC -CAGTTTGACCGCGCACTTCTTGAAGTCCGTCTCTTTCGAGAGCGGATCGGTCGCATCCAGCGTCAGTTTGTTAAC -CAACTGTGCGGCGTCGAAGAACGGCATGTACACCAGGCCCTGTGGCGGACGGTTACGACCGCGCGTTTCAACAAT -CGAGATCACTTCGCCACGGCGAGAAACCACTTTCACTTTGTCGCCACGGCGCAGATCGCGCGCTTTCGCATCCAG -CGGGTGAATAAACAGGACCGCTTCCGGGAAGGCGCGGTGCAGTTCTGGTACACGGCGAGTCATACTGCCGGTGTG -CCAGTGCTCCAGAACGCGTCCGGTAGAGAGCCACAGGTCGTACTCTTCATCCGGTGCTTCCGCCGCCGGTTCGAA -TGGCAGTGCGAAGATCACCGCTTTGCCATCCGGTTTACCGTAGAACTTATAGCCTTCGCCCGCTTTCACGTACGG -GTCGTTACCTTCGCTGTAACGCCACTGCGTTTCTTTACCGTTCACCACCGGCCAGCGCAGACCGCGCGCTTTGTG -GTAGTCATCGAACGGTGCCAGATCGTGACCGTGACCGCGACCAAACCATGCGTACTCTTCGAACAGCCCTTTTTG -CAGATAGAAGCCCAGCTCGCGGGATTCATCGTTCAGCTGATCTTCCGCCAGTTCGGATACCGGGAATTTGCTCAC -TTCCGGTGTGGCATACAGCACTTCGTACAGCGTTTTGCCACGCAGTTCCGGTTTCTTCGCCAGCAGATCTTCCGG -CCATACTTCTTCAGTTTTGAAGCGGCGGGAGAACTGGACTAACTGCCAGAGATCCGATTTCGCTTCGCCCGGTGC -CTGTACCTGTTGACGCCAGAACTGAGTACGGCGTTCGGCGTTACCGTAAGCGCCCTCTTTCTCTACCCACATTGC -GGTCGGCAGGATCAAGTCGGCGGCCAGCGCACTGACTGTCGGATACGGATCGGAGACGATGATGAAGTTGCGCGG -ATCGCGCCAGCCCGGCATACGCTCTTCATTGATGTTCGGCCCGGCCTGCATGTTGTTGGTACACATGGTCCAGTA -AACATTCAGTTTGCCGTCTTTCAGCGCACGGTCTTGTGCCACCGCGTGCAGACCGATTTTCGCCGGAATGGTGCC -GCTCGGGATATTCCACTTCTTCTCGCAGATATCACGGTGTTTCTCGTTGGTCACCACCATGTCCGCAGGCAGACG -GTGAGCAAAGGTGCCCACTTCACGCGCAGTACCACACGCAGAAGGTTGCCCGGTCAGGGAGAACGGACCGCAACC -CGGCTGGGAAATTTTGCCGGTCAGCAGGTGCAGGTTGTAGACCAGGTTGTTAGCCCACACGCCACGAGTATGCTG -GTTGAAGCCCATCGTCCAGTAGGAGATGACTTTCTTGTTCGGATCGGCATACAGCTGCGCCAGTTGTTCTAACTG -GTCTTTCGGCACGCCGGTCATTTCGGCAGTTTTTTCCAGCGTATACTCGGCAACGAAGGCTTTGTAATCTTCAAA -GCTCATCGGTTCGGAGGCGTCAGAACCCGGATTCTTCGCTGCTTTTTCCAGCGGATGGGTCGGACGTAAACCGTA -GCCGATGTCCGTCGCCCCTTTGCGCAGGTTAACGTGCTTGCTGAAGAAGTCCTGATTTATCGCATTGTTTTGAAT -GATATAGTTGGCGATGTAGTTCAGGATCACCAGGTCAGATTGCGGCGTAAAGATGATGCCGTTATCCGCCAGCTC -GAAGCTACGATGCTGGTAGGTAGAAAGCACCGCCACGGTGACGTTCTGGTTAGAGAGACGACGGTTAGTGATGCG -CGACCAGAGGATCGGGTGCATTTCCGCCATGTTTGCGCCCCACAGCACAAACGCGTCAGCCTGCTCGATGTCGTC -ATAGCAGCCCATCGGCTCATCCATACCAAAGGTACGCATAAAGCCAACTACTGCCGACGCCATACAGTGACGCGC -GTTCGGGTCGATGTTGTTCGAACGGAAGCCCGCTTTAAACAGCTTGGACGCGGCATAACCTTCCCAGATAGTCCA -CTGACCAGAACCGAACATACCGATCGATTCCGGCCCTTTTTCTTTCAGGGCGGTTTTGAATTTCTCTTCCATCAC -ATCGAAGGCCTGATCCCAGGTGATTGGGGTAAATTCGCCTTCTTTGTCATATTTACCGTTTTTCATACGCAGCAG -CGGCTGCGTCAAACGGTCTTTACCGTACATGATTTTGGGCAGGAAATAGCCCTTAATGCAGTTCAGGCCACGGTT -AACCGGTGCGTCCGGGTCGCCCTGACAGGCCACCACACGTCCCTGCTGCGTTCCGACCAGAACGCCGCAACCAGT -ACCGCAGAAACGGCACGGCGCTTTATCCCATTTGATGGCTTCCTGCTGACCAACAACGGCGCGGGCAACGCCCGG -CACGCTGAGACCGGCAGCCGCCGCAGCGGCCGCAACGGCGTTAGCTTTCATAAAGCTACGACGACTGAGTTTCAT -GGTGTTTCCTCACCTTGCTCTTCCTGCTGGTGATAAACCAGCGACACCGCCAGCACGCCCTCTACGTTGCGTACT -GACTCAATGGTTTGGATCAGCGTTTCGCTGTCTTCTGCTTCCACCACCACAATCAACTGACCGCTCGGCGCGTCG -CTGACAGCAACTTCACAGCCGGGAAAGGCGTTCAGTTGGGTGCTGATGTCTGAAATTCGTTCGCTTTTGGCCTGC -ACGACCAGGCTGCAAACTTGCCAGTTAGTGTGCATGGAGATACTCCGCAGTTATGGCTGATACCGGACAGCTGGC -TGCACATGCTCCACATCCGTTGCAAAGTTGGCTATTAAGTTGCGGCTGGTAGATCCCGGAGAGCGTCGGGCGAAA -GATAATTGCCATTGGCTCACAGCTATCCTGACAGCGGCGGCATTCAACTGACTGATACGCCAGGCACGCGTCCCC -GATGGTGAACTGCAAATCCCAGGCCCTGGTGTGGCGCGGAGAAAATAGCGATTCGGGGCAAGCCTGCGCGCAGGC -GTAACAGAAGCTGCACTCGTTATTTTTGAAATTAACGCTCGGATAGCCGCCCGCGCCGCGTTGCAGAATGTTGTT -TTCACAAGCATTAATACAGGCGTCGCAGCGGGTGCAATGGGTCAGAAAATGAGATTCATCACCGGACCAGGGCGG -ACGGATACCGTTACTGGCTTTGCGCCAGCGACCAGTGAGTATGCCCCGACGGGATGCATCAATCTTCACATTGAC -CTTCCATCATTAACGCGCTCTGAAAATTGAGAGCGACCAAATAAACCGCATAATTAATAAGCCATTTTTATAGCC -GCTAAGATATTAAAGGATGTGTCAAAGATGCATACCCCGATCGGGGTAAAACCTGTAGCAGGATCAAAAGAGTGG -CGGGAAGCGTGGCAAAAACGGGCTTTTGCTCACATTTCAAATGGTTATAAATATATTTATATAGCGATTGATTCA -CCAGAGATATTTCTGCTGGTTTGCTCTCTCATTAGAATTTAACACTAAAAGAGCAGGTAAAATTGTCTGAATGTT -CTTTAAGTTATTCATAAAGCAAATTAATAAATCTGATGAATATGTTAACCTTCAGCGACATCATCGGTGAAAACC -TATAAATGAAGAAGGAAAGCAAAAAAATGAAGACCATTCTACCTGCAGTATTGTTTGCCGCTTTCGCTACCACTT -CCGCCTGGGCGGCAGAAAGCGTCCAGCCACTGGAAAAAATCGCGCCTTATCCACAAGCTGAAAAAGGGATGAAGC -GTCAGGTGATTCAGTTAACCCCGCAAGAAGATGAATCTACCCTGAAAGTAGAACTGTTAATCGGTCAGACGCTGG -AAGTCGATTGCAATTTGCATCGTCTCGGCGGGAAGCTGGAAAACAAAACGCTGGAAGGCTGGGGCTATGATTATT -ATGTCTTTGATAAAGTCAGTTCCCCGGTTTCAACGATGATGGCCTGCCCGGATGGCAAGAAAGAGAAGAAATTTG -TCACCGCGTATCTGGGCGATGCTGGAATGCTGCGTTACAACAGCAAGCTGCCGATCGTGGTGTATACGCCAGACA -ATGTAGATGTGAAGTACCGCGTCTGGAAGGCGGAAGAGAAAATTGACAACGCGGTAGTTCGCTAAACTGCCGTGA -AGTGCGGCACCCCGTAGGTCAGACAAGGCGGTCACGCCGCATCCGACATCCAACGCCCGAGCCGGTTGCCTGATG -CGACGCTGGCGCGTCTTATCAGGCCTACACCGCTGTGAAGTGCGGCACCCCGTAGGTCAGACAAGGCGGTCACGC -CGCATCCGACATCCAACGCCCGAGCCGGTTGCCTGATGCGACGCTGGCGCGTCTTATCAGGCCTACACCGCTGTG -AAGTGCTCCACCCCGTAGGTCGGATAAGGCGGTTACGCCGCATCCGACATCTAACGCCCAAGCCGGTTGCCTGAT -GCGACGCTGGCGCGTCTTATCAGGCCTACACCGCTGTGAAGTGCTCCACCCCGTAGGTTGGATAAGGCGGTTACG -CCGCATCCGACATCCAACGTCCGAGCCGGTTGCCTGATGCGACGCTGGCGCGTCTTATCAGGCCTACACCGCTGT -GAAGTGCTCCACCCCGTAGGTCGGATAAGGCGGTTACGCCGCATCCGACATCTAACGCCCAAGCCGGTTGCCTGA -TGCGACGCTGGCGCGTCTTATCAGGCCTACACCGCTGTGAAGTGCTCCACCCCGTAGGTTGGATAAGGCGGTTAC -GCCGCATCCAACATCTAACGCCCGAGCCGGTTGCCTGATGCGACGCTGGCGCGTCTTATCAGCATACGCCACATC -CGGCATACCATGCCGGATGTGGCGTATCATTACAACGCAATATCCGCCACTTCTTTTTGAACGGGTTGCGGTTTC -AACTGCGGTTTCGGCGTACTATCTGCTGCCTGCGGCTTGTCGTAGTTCAACCCCAGCACTTCGCTGGTGTACTGC -AACTCGCGTTCTGTTGCCGCTACATCACCGTTCAGCTTGCGTCCATAAGACGGAACGATCGCTTTCAACGTAGCC -TGCCATTGCGGGCTGGAAACACGATCGCCAAATACTTTTTCCAGCAGATTCAACATAATCGGCGCGGCGGTTGAC -GCCCCTGGCGATGCCCCCAGGAGCGCGGCAATGGTTCCTTGCTGGTCACTGACGACTTCAGTACCCAGACGCAGT -ACGCCACCTTTCTCGGCATCACGCTTGATAATCTGCACGCGCTGCCCCGCTTGCCACAAACGCCAGTCCTCTTTT -TTCGCCTGCGGATAGTACTCTTTCAACGCTTCAAAACGATCCTCTTCACTCAACATCACCTGACTCACCAGATAT -TTCACCAGATCGAAATTATCCAGCCCGACGTGCATCATCGGCATCACGTTAGAGGTGGTGGTGGAACTCATTAGA -TCCCACAATGAACCGTTTTTGAGGAATTTGGTTGAGAAGGTGGCAAATGGCCCAAACAGCACTACGCGTTTACCG -TCCAGAACGCGGGTATCGATATGCGGAACCGACATCGGTGGTGCGCCAACGGATGCTTTACCGTAAACCTTCGCC -AGATGGTGATTAACCACGTCCGGGTTTTCCGAAACAAGGAACTGTCCGCCCACCGGGAAACCGGCGTAGTCTTTC -GCTTCCGGAATCCCCGATTCCTGTAACAGCTTCAGCGCCGCACCGCCCGCGCCGATAAAGACAAATTTGGCACGA -ATGTTCTGTGCAGTGCCATTTTTCAGATCGGCAACGGTAACGGTCCAGGTGTTATCGTCATTACGCTTTAGGGCG -CGGACTTCGCTGCTGAGTTGCAGCGAGAAGTTAGATTTCTTCTGCAAGGAAGCAATTAACTGGCGGGTGATCTCG -CCGTAGTTCACATCGGTACCAATTTCCGTACGCGTGGCTGCCACTTTCTGTTGCGGATCGCGCCCTTCCATCACT -AACGGTGCCCACTCTTTGATCTGCGCGTGATCTTCAGAGTAACGCATACCGCGAAACAGCGAGCTTTGTTGCAAC -GCGGCGTAACGGGCGCGCAGGAAATTGACGTTATCCTCGCCCCAGACAAAGCTCATATGCGGAACGGTATTGATA -AATGAACGCGGAGTACGCAGCACGCCGCGCTCAACCTGGTGCGCCCAGAACTGGCGGGAAATCTGAAATGCTTCG -TTAATGGCGACTGCTTTTTCAATACTGATGCTGCCATCGGCGTTTTGCGGGGTGTAGTTCAGTTCCATCAGTGCA -GAATGCCCGGTTCCGGCGTTATTCCAGCCGTTCGAACTCTCCTGCGCGACACCCTCCAGGCGCTCCACCATGGTC -ATCGACCATTCAGGCTCCAGCTCGCGTAAATAGGTCCCCAACGTGGCGCTCATAATGCCGCCGCCAATCAACAGT -ACATCAGTTTCCTGCTCCTCGGACGCTTTCGCTTTTGCCGCCATCGAAACGGCATTAAGCCCCACGGCCATCGAG -AAGAGCATGGCAGTCACTTTTTTCATCTTGTTAATGCCTTACTTTTAGTCGCTTTATTGCAGGTGAGATTTGCGC -GGCATCAACGGTAACACTTAAGTAACAACATTTAAATAATGTTTATAAATTATATTCTAATTTTAGAAACATTAT -AATTTCGTTGATTAATTATAGGGTTATTAGAAATGAAGGGATTTTTAGCATATTGACCTGACGGCAGCAGTCCGC -CAGGTCAGCGTCGTAATATTATGCCGTCCGGGCAACGGCATCACGCGAAGCGGCATCGCGCTCTTCGCCCGTCAG -CTCGCTAAGTTGCCCATTGCGCATTTCCAGCAGGCGGTCGGCGTGGATAAAGTAATGATCATCATGACTGATAGC -GAAAATAGTTTTACCCATCTCCTGCATCAGCGGCAGCAACACCTGATAAAACTCACGACGGAAGTGTGGATCCTG -ATCCGCCGCCCATTCATCCAGCAGGATAATATCGCGTTCTTCTGCCAGCGCCAGCAACAGCGCCACGCGTTTTTT -CTGCCCTTTTGATAACTTCAGGTTAACAATACGCCCGTTGCTTAACTCAAGCTTATGAGCCATTTTCAGCTGCGC -CAGCCACTTCTCAACCAGTTGCGGGTTAGCGGGTTTACCCTCCGGCCCCAGCAGTTGATCAAACAGCCAGACATC -GGTAAACACTGCCGAAAACAGTTTGCGATAATCTTCCGGTTGTTCGCCGCTGACAGGTTTGCCATCCAGCAAGAT -TTCGCCGCTTTGTGGCTGATACAAGCCCGTCAACAACATCGCCAGCGTCGATTTTCCGCTACCGTTGCCGCCAAT -CAGAAACAGCAGCTCGCCACGTTTGATGGTGAGATTAATCGGACCAACGGAAAACGCGTTATCCTGATAAGCAAA -CGTCACGTTACGCAGCTCCAGCGTTTGCCAGTTGGGAAACGCCTGCGGGCGCGGAAACTCTGCTTTGAAAGGCGC -GAGCGCGAATTTGTTCAGCTTGTTAAACGCCACCTGCGCCGTCAGCAGCGTCGGCAATGCGCCAACCGCCGAAAG -CAGCGGCGTACGCAGGAATAAAAGCGTCAACGAATAGGTCGCGGCAACGTTGGTATCAGCCCAACCGAGGCTGTT -CGCCATCCAGAACACCAGGCCGATTGCGCCCAGCATCATGATGTTTGACCAGTTCACGGCACTAAGATGGAAGGT -GTCTGCGCGAATAATATGGTGGCGATACTCTTGCGCATCAGGAATGTAGAGGTTGTTAAACACATACTCGGCGCG -TTCCCGGTTCAGAGTCAGCTCTTTGCGCCCTTCAAGTACAGTTTGAAAATCCGTGTACAGCTTGTCTTCGGTTTC -ACGCAGGGTCGCCATATGTTTGTACACCCGCGCCACCAGCACAAAACCGCCCCAGATGGTGATCGCCATCCAGAT -AGCCGTTACCAGCAACATTTTGCCCGACAGCATCCACAGATACGCCGCTGAACCGATAGTGAGAATGATCCCCTG -CACCAGTTCCGGCAGACGCACAAAAGCAATGGTGATATTGCGCACATCGCTGGTTAACCCCGCCAGCAACGAGGC -GCTACCGAGTTGTTCAATGCGCTCGACGTGAGTATCCAGAATCCGCTTGATAAATTCACTACGCAGTCGGTAAAC -GAAGTGATGCCCCAAAGTGGTGAGCGCCAGTTGCGATCCGAGAGTGACTGCCATCAACAGCAGCAATAATCCCAG -AAACTCCGGCAACACCAGCAGACTGGTATCCGCCGTTTCGATAAGGCGCTGATTGATAAAAGCAATTAAGCCAAT -GCCTAATGCCGCACTGGCGAGGCTTAGCGCCATCACACTGATAAATGGCCAGCGATACTGCCGCCAGACAAGTAC -AAGAAGTTCCATGCAGAAAACCCGGACAATGAATTACAGCCCGCAGTTTAAACATCTTCGCGCGCACAGCAATAA -TAATTCTTATTTTTATTCTTTTTTACCTGCCTGACGGAATGTCAGGTTGTAGCGGCAGTCGATGGTGAGTGGATG -AAACCCCGCTTTCAACGGTTGAATACCGTGATAAAACAGCCGCGATTCACCGCCCCATACCACCACATCGCCATG -TTCCAACAACAAACGTTTGAGCGGATCATTTCGTTTCAGGCCGCCAAATTGAAAAATCGCGGGTAAGCCCAGAGA -AACAGAAACAATTGGCGCGCGCAGATCCGGTTCGTCTTTATCCTGATGCAGCGACAGTTTCGCGCCAGGAGCGTA -GCGGTTGATAAGACAAGCATCTGGCTGGAAATCTGGATAGCCCGCCGCCGTAGCCGCACGTTGACATAAATTATG -AAAACTCTGTGGCATGGCGGGCCACGGTTTATTTGTTTGCGGATCAATGGGCGAATAGAGATAACCTTGCCGATG -GGTCGTCCAGCCCAGATGCCCACAGTTGGTCATCGCCACCGACATGGTATATCCCCCGGGGGTGACCATCTGGCG -AAACGGCGACTGGCTGGCAACGTCATTAATATCGCGGATCAGTTGCTCCGCAGCGTTAAAAGCAAAACGCCGTAA -AATTACCGCACCAGCCGCCAGTGGCTCTTGCCACGGTTCAGCATCGGCAAACAGATCCAACATTACCTCTCCTCA -TTTTCAGCTTCGCGGCGCAGCAGTTGCGCTTTACGCGACACGCCCCAGCGGTAACCGGAAAGTGTGCCATCACCA -CGGACCACCCGATGACAGGGTATTATGATAGCCAGCTTGTTGGCGGCACAGGCGCTGGCAACGGCCCGTACCGCT -TTCGGTTTGCCGATGGCGTTAGCCAGTTGCTGATAACTGACGGTTTCACCGCAAGGTATCGTGCGCAGTGCCTGC -CAGACTTGTTGCTGAAAAGCAGTGCCGCGAATGTCCAGCGGTAACGTCAGCGGCGTATCGCGTTGATTGAGGCTG -GCGATCACTTCACGCACATGTTGCTGAAACATCAGATCGGCAGGCGCGTTGTCGGCAGCGGGAAACATCTGCTGC -AACTCGCTGATTAGTGTCGCGTCATCATCGCCCAGCAATATCGCGCAAATCCCCCGCTCGCTTTCTGCCACCAGG -CAACGACCCAGCTCACAATCAGCCAGCGCGTAACGCACCGCCAGATTTTCGCCACCGTGACGGAATTGTTTAGCC -GTCATGCCCAGCGTTTCGTCAGCTTTGCGATAGTAACTGCTGCTGTCGGGGAATCCGGCGTTAAGAATAGACGTC -GTCACGCTCTCCCCTTTCGCCAGCGATTCGCGCAAACGGCGAGCGCGCCAGGCCTGTTGCCAGGCTTTAGGCGTC -ATTCCGGTAGTCGCTTTAAACAACCGATGTAGATGAAATGGACTCATCGCCACCTGGTCGGCTAAGGCTTCCAGC -GTTACAGGCGTTTCCTGTTCCAGCAGTCGACACGCGTGGGTGATTTTATCCAACCGATGTTGCTGGGCATTGGCT -TTTTCTGGCTGACAACGTTTGCAGGGGCGAAAGCCAGCGGCGAGTGCCTCGCTGGCATTTGCGTAGAAGGAGACG -TTTTCCCGCAAAGCATGTCTGGCGCGGCAAGACGGACGGCAAAAGATGCCTGTGGTACGCACGGCGAAAACGAAT -TCGCCGTCGGCATTCGGGTCGCGGGCTAAGACAGATTGCCAGCGTTGATCGTCAGTTAAGCATGTGGCTTTTTTC -ATAATCAGCTCCCTGGTTAAGGATAGCCTTTAGGCTGCCCGGTCACCATCACGCAAAAACCAACAATCTTGCGCT -TTAATTTTTTTCGCTGACAAGGAAGCTTTTAAACTGTGGTGACATCCAGGTTTTAAAGCTATCGCCTTCTTTGGT -GATCATATAAACCGCCAGCCCTTCCCGGCGAACAACCTCTTTAGCTTTCTCCGGCCCGAGTACCATCAAGCCAGT -ATCCCAGGCATCGGCTTCCAGCGCCGTCGGAGCAATCACCGTCACGGATACCAGATTGTGTTCGATGGGACGCCC -GGTTTGCGGATCGATAACATGGGAAAGACGTTTGCCGTCCAGTTCGTAATAGTTACGGTAGCTGCCAGAGGTGCT -AATCCCATGACCGTTGATATCCACCACAGCCTGAACCGCGTTTTCTTTATCGGTTGGTTTTTGAATCGCTACCCG -CCACGGCAGGCCTTCACCGTTCATACCACGGCTGTTCAGCGCGCCGCCCACCGACACCAGATAGCGGGAAATCCC -TTCCTGCTCCATCAAGCGTGCCAAATGATCGGCCGCATAGCCTTCGCCGACGGTGGAGAGATCGACATATAAATC -CGGCAGGTCTTTTTGCAGATATTGCTGATGCGACTGATTGATGACCGTCAGGTGCTGTAAGCCGGTTTTGGCTTT -CATCGCATCGATCTGTTCCTGGCTCGGAATTTGAACCGGCTGTTGTTCCGGGCCAAAGCCCCACAGATTCACCAG -CGGCCCGACGGTTATATCCATCGCGCCATCGGTCTTCGCGCCAATGCGCAGCGAGGTGGTGACGATATCGGCCAT -CGCTTCACTTACCGGCCACGGCGATAAACTTTGCGAGTCGTTAAAGCGCATCAGCGCGGAATCTTTTTTATAGGT -CGAAAGCAGCTGATCGTCGGCGTCCAGTTGGGTCTGAATCTTTTCTTTAAGTTCGGCGCTGCGTTTGGCGTCAAT -GCCCGGGATGCTGGCACGCCAGAAGGTACCCATAGTTTTGCCTTCAAGAACGGTAACTTCAGTAGCGTGGGTTTT -GGCGGGTTGTGGTTTTTGATCGCAACCAACAAAGAAGAGCGCGGCAGCCAGCAGTGCCACGCGGGTAAAGCTTAT -TTCCATACGTGATTATCCTCATGCGAACGGTCGCAAGAGTACACCAAAAAACTGAGTTTGTACGCTGAAAACAAT -GAAAAAAGGGCCCGCAGGCCCTTTGTTCGATATCAATCGAGATTAGAACTGGTAAACCAGACCCAGAGCTACGAT -GTTATCAGTGTTGATGCCAGCGTCACGAGTGAACTGGTTGTCGTCCAGCAGGTTGATTTTGTAGTCAACGTAGGT -GGACATGTTTTTGTTGAAGTAGTAGGTAGCACCAACATCAACATATTTCAGGATATCTTCGTCGTCGTAGCCACG -ACCCAGGTTTTTACCTTTAGACTGCAGGTAAGCCAGGGACGGACGCAGACCGAAGTCGAACTGGTACTGAGCAAC -AGCTTCGAAGTTCTGTGCTTTGTTCGCCCAACCCAGGGAACCTACGCGAGTTGCGTTGTAGGTCTGGGTGTACTG -AGCAGCCAGGTAGATGTTGTTAGCGTCGTATTTCAGACCACCAGTGTAGGTTTCAGCACGGTCGCCGTTACCGAT -GTAAGCAGCGGTGTTCTGAGCATCAGTACGTTTGGAGCTGGAGATCGCACCACCGATACCGAAACCTTCGTAATC -ATAAGTGATAGAACCGCCGACGCCGTCGCCGTTTTGACGCAGTGCGTCACGACCGTTGTTAGTTACGCCACTAGT -AAAGCCTTCACCAGATGGGTTGCCGTTTTTACCCTGGTACTGAACAGCAAAGTTCAGGCCGTCAACCAGACCGAA -GAAGTCAGTGTTACGGTAGGTCGCGAAGCCGTTACCACGCTGCTGCATGAAGTTGTCAGAACCGTAGGTGTCACC -ACCGAATTCTGGCAGTACGTCGGTCCAGGAAGTTACGTCATAAACAACGCCGTAGTTACGACCGTAGTCGAAAGA -ACCCACATCCTGGAATTTCAGACCTGCGAATGCCACACGGGTCCAGGAGTTGTTTTCGTTTTCAGCGCTGTTGCC -CTGGATCTGATATTCCCACTGGCCGTAACCGGTCAGCTGGTCAGTAACCTGAGTTTCACCTTTGAAGCCAAGACG -CATGTAGGTCTGGTCGCCATCTACATCTTTGTTGTCAGAGAAATAGTGCAGGCCGTCTACTTTACCGTACAGATC -TAATTTGTTGCCGTCTTTGTTGTAAACTTCAGCAGCGTTTGCTGCGCCTGCTACCAGCAGAGCTGGGACCAGGAG -GGACAGTACTTTAACTTTCATGTTATTAACCCTCTGTTATATGCCTTTATTTGCTTTTTTATGCCACTGCATACT -GATTAACCCTCATTAATCAGTCGGCAAGTCCATTCTCCCCAAAAATGCAGAATAATCCAACACGAATATGATACT -AAAACTTTTAAGATGTTTCATTTATCGCTATAGATGTTTCAAAATGTAAATGCAAGGGAACTTTTTAAGATTATT -GCGGAATGGCGAAATAAGCACCTAACATCAAGCAATAATAATTCAAGGTTAAAATCAATAACTTATTCTTAAGTA -TTTGACAGCACTGAATGTCAAAACAAAACCTTCACTCGCAACTAGAATAACTCCCGCTATCATCATTAACTTTAT -TTATTACCGTCATTCATTTCTGAATGTCTGTTTACCCCTATTTCAACCGGATGCCTCGCATTCGGTTTTTTTTAC -CCTTCTTTACACACTTTTCATTATTCTGTGCTACCACAGAAAAACTATAACGCTTGTTAACTATTTCACAAATAA -TTAACATCCGCATAATTTCCAGCAATCTTTGTTTATTTGCAATTATTTTTGTTGGGCTTTTTGTAGGTTATTTGT -ACAGCAAAATGGCGCTTGTACATCTATTTCCCCCAATGCAGGATGATAAATATCACGGGAGAATAGAGAATCATC -AATCAGGTAAGAGTCTGGAATTTCACACTGTACCCTTTATACTGCCCTATCACTTCGCGAAGTTTTAACAGGTCA -TAAACACGAATGCGTCAGAAAGAGACAACGGCCACGACCCGCTTTTCACTCCTACCGGGGAGCATTACCCGCTTC -TTTTTACTGTTGATCATTGTGTTACTGGTGACGATGGGTGTAATGGTACAAAGCGCCGTTAACGCCTGGCTGAAA -GATAAAAGTTACCAGATTGTCGACATTACCCATGCTATCCAAAAGCGCGTCGATAACTGGCGTTACGTGACCTGG -CAGATCTACGACAACATTGCCGCGACGACCTCCCCCTCCTCCGGCGAAGGTTTACAAGAGACGCGCCTGAAACAG -GATGTCTACTATCTGGAGAAACCACGCCGCAAAACGGAAGCGTTAATCTTTGGCTCTCACGACAACTCAACGCTT -GAGATGACTCAGCGGATGTCCACTTATCTGGATACATTGTGGGGCGCAGAAAATGTACCGTGGTCGATGTATTAC -CTGAATGGTCAGGATAACAGTCTGGTGCTGATCTCAACCCTACCCCTTAAAGATCTCACCTCCGGATTTAAAGAA -TCGACCGTCAGCGACATTGTTGATTCACGTCGTGCAGAGATGTTGCAACAGGCCAACGCCCTCGATGAACGCGAA -AGCTTTTCTAACATGCGCCGCCTGGCCTGGCAGAACGGTCATTACTTTACATTGCGTACTACCTTTAACCAGCCA -GGACATCTGGCAACGGTCGTGGCTTTTGATCTGCCGATTAATGATTTGATCCCACCGGGTATGCCGCTGGACAGT -TTCCGCCTTGAGCCAGACGCGACGGCAACGGGAAACAATGATAATGAGAAAGAAGGGACGGATAGCGTCAGTATC -CACTTTAACAGTACGAAGATTGAAATCTCCTCGGCACTCAACTCTACCGATATGCGCCTGGTCTGGCAGGTTCCT -TATGGCACCTTATTGCTGGATACGTTGCAAAACATTCTGCTGCCACTGCTGCTGAACATCGGTTTGCTGGCGCTG -GCGTTATTTGGCTATACCACATTCCGCCATTTCTCCAGCCGCAGTACAGAAAACGTCCCCAGCACGGCGGTCAAT -AACGAATTGCGCATTTTACGGGCAATCAATGAAGAGATAGTCTCACTGCTGCCGCTCGGCCTGCTGGTTCACGAT -CAGGAATCGAACCGCACTGTCATAAGTAACAAAATTGCCGATCATTTGCTGCCGCATTTGAATCTGCAAAACATC -ACCACCATGGCGGAACAGCATCAGGGGATTATTCAGGCGACGATCAATAACGAGCTGTATGAGATCCGCATGTTC -CGCAGCCAGGTCGCGCCGCGCACACAAATTTTCATTATTCGCGATCAGGATCGCGAAGTGCTGGTAAACAAGAAA -CTCAAGCAGGCGCAGCGTCTGTATGAGAAAAACCAGCAGGGGCGGATGATCTTTATGAAAAACATTGGCGATGCG -CTGAAAGAACCCGCACAGTCCCTGGCGGAGAGCGCGGCTAAACTCAACGCCCCGGAAAGCAAACAACTGGCGAAT -CAGGCAGATGTGCTGGTGCGGCTGGTTGATGAAATACAGTTAGCGAACATGCTTGCGGATGATAGCTGGAAAAGT -GAGACGGTGCTGTTCTCCGTGCAGGATTTAATTGATGAAGTTGTGCCTTCAGTGTTGCCTGCCATCAAGCGTAAA -GGTCTGCAACTGCTGATTAACAATCATCTGAAAGCACACGATATGCGCCGCGGCGATCGCGATGCCTTACGACGT -ATTTTGCTGCTACTGATGCAATATGCCGTGACCTCAACGCAATTGGGAAAAATCACCCTTGAGGTTGATCAGGAT -GAGTCCTCCGAAGACCGCCTGACGTTCCGCATTCTGGACACGGGAGAAGGCGTAAGTATTCATGAAATGGATAAT -TTGCACTTCCCGTTTATCAACCAGACCCAAAACGATCGCTATGGCAAGGCGGACCCGCTGGCATTCTGGCTGAGC -GATCAACTGGCACGTAAACTGGGCGGTCATTTAAACATCAAAACGCGGGATGGGCTTGGTACACGCTACTCTGTG -CATATCAAAATGCTCGCAGCTGACCCGGAAGTTGAAGAGGAAGAAGAGCGTTTACTGGATGATGTCTGCGTAATG -GTGGATGTTACTTCGGCAGAAATTCGGAATATTGTCACTCGCCAGTTAGAAAATTGGGGTGCAACCTGTATCACA -CCCGATGAAAGATTAATTAGTCAAGATTATGATATCTTTTTAACGGATAATCCGTCTAATCTTACTGCCTCTGGC -TTGCTTTTAAGCGATGATGAGTCTGGCGTACGGGAAATTGGGCCTGGTCAATTGTGCGTCAACTTCAATATGAGC -AACGCTATGCAGGAAGCGGTCTTACAATTAATTGAAGTGCAACTGGCGCAGGAAGAGGTGACAGAATCGCCTCTG -GGCGGAGATGAAAATGCGCAACTCCATGCCAGCGGCTATTATGCGCTCTTTGTAGACACAGTACCGGATGATGTT -AAGAGGCTGTATACTGAAGCAGCAACCAGTGACTTTGCTGCGTTAGCCCAAACGGCTCATCGTCTTAAAGGCGTA -TTTGCCATGCTAAATCTGGTACCCGGCAAGCAGTTATGTGAAACGCTGGAACATCTGATTCGTGAGAAGGATGTT -CCAGGAATAGAAAAATACATCAGCGACATTGACAGTTATGTCAAGAGCTTGCTGTAGCAAGGTAGCCTATTACAT -GAACAATATGAACGTAATTATTGCCGATGACCATCCGATAGTCTTGTTCGGTATTCGCAAATCACTTGAGCAAAT -TGAGTGGGTGAATGTTGTCGGCGAATTTGAAGACTCTACAGCACTGATCAACAACCTGCCGAAACTGGATGCGCA -TGTGTTGATTACCGATCTCTCCATGCCTGGCGATAAGTACGGCGATGGCATTACCTTAATCAAGTACATCAAGCG -CCATTTCCCAAGCCTGTCGATCATTGTTCTGACTATGAACAACAACCCGGCGATTCTTAGTGCGGTATTGGATCT -GGATATCGAAGGGATCGTGCTGAAACAAGGTGCACCGACCGATCTGCCGAAAGCTCTCGCCGCGCTGCAGAAAGG -GAAGAAATTTACCCCGGAAAGCGTTTCTCGCCTGTTGGAAAAAATCAGTGCTGGTGGTTACGGTGACAAGCGTCT -CTCGCCAAAAGAGAGTGAAGTTCTGCGCCTGTTTGCGGAAGGCTTCCTGGTGACCGAGATCGCTAAAAAGCTGAA -CCGCAGTATTAAAACCATCAGTAGCCAGAAGAAATCTGCGATGATGAAGCTGGGTGTCGAGAACGATATCGCCCT -GCTGAATTATCTCTCTTCAGTGACCTTAAGTCCGGCAGATAAAGACTAATCACCTGTAGGCCAGATAAGACGCGT -TAGTGTCTTATCTGGCATTTGCACCGATTGCCGGATGCGGCGTAAACGCCTTATCCGGCCTACGATTCCCATTAT -TTCAACAAATTACATTAAAGTAGGCCAGATAAGACGCGTCAGCGTCGCATCTGGCATTTGCACTGAATGCCGGAT -GCGGCGTAAACGCCTTATCCGTCCTACGAATCCCGCGATTTCCTGACCCTCTCGGCATATAACGTCAGCGTCTGT -TTTATCACATCCAGCGTTACCGGCTTCGACAGGCAGCTGTCCATACCGGACTCCAGACACCGCTGCTTCTCTTCA -GCCAACGCATTAGCAGTTACTCCGATTACCGGCAACGTCAGTCCCAACTGACGAATGCGTTGCGTCAAGCGGTAA -CCATCCATATTTGGCATGTTGACGTCGCTAAGCACGATATCAATATGATTCTTGCTAAGTACATTAAGCGCATCG -ACGCCATCATTCGCGGTTTTACATTGATAGCCCAACGATCCCAACTGATCTGCCAGCAAACGCCGGTTAATCGGA -TGATCATCCACGACCAGAATCATCATATCGTCATTATCGCTGACCGCTTTGTCCGTTGACGGCAGAGCGTTAGCA -GGATCGTCGCTCTCCATCTCGATCAAATAAATACGCGCCAACAATGCCGGTAGCTCATGCGGAGCAGCCACACTG -TGTACCCACTCCCCTGGCGCTTTCTCCAGCGGAATACCAATATGGCGACGACAGAAGGTCACTACCGCTCTGCCC -TGCCATTTTTTACTCACTACCTCGTCAGTGATCAACACATCTTCGGGAGTCGGTTCCTGCCCTTCGTATGTTGTA -ACGACGATGCCGCTGCGCTGCAAACTGGTTTCCAGGAACTGACAGAGCGACGCATTGCGGACCGCCAGCCAGCAG -CGTTTACCACTCAACCCTTCCACGCCTTTTTTCTGCGGGTACTGAGCGCCGTACAACGGAATACGCACGGTAAAC -TGGCTGCCCATTCCCGGTTCTGAATCTACCGAGATATCGCCGTCCATCATGCTGATCAGTTTTTCACAAATCGCC -AGACCCAGACCGGTCCCCTGGAAATTACGCTGTACGCCCGTTCCGACCTGGAAGAAGGGATCAAACAAGCGCACC -ACTTCTTTCGCCGGTATCCCCACGCCGGTATCGCGAACACGGATAGAGAGATAATCGCCATCCGCGCGAACATGC -AAAACTATACAGCCGGTATCGGTGAATTTTATGGCGTTACTCAACAGGTTGGAGATGACCTGCTGTAAACGCATC -GGGTCGCCATTTAAGGCCACTGGCACATCCGGTTCAATAAAGCAGTACAAGCCTAACTGCTTGCGTACCACCAGC -GGTAAATAGTTGGCGGTGATGTGGTTCATCACTTCACGCGGTGAAAACTCACGCGGTTCGATCTTCAACTGTTCC -GATTCAATCTTCGAGAAATCGAGAATATCGCTGATAATTTTCAACAACAGGCTGGAAGAGTTGTTCATTGCCGTC -ACCAGCCGATCGACGCCTTTCGGTAACTCTTTGGTTTGCAACAGATCCAGGTTACCGATAATGCCATACAGCGGC -GTTCGCAGCTCATGACTGACGGTGGCAAGGAACATCGATTTTGACTGGCTCGCCTGTTCCGCTGCTTGTGCCATC -TCCTGCAACGACTCTTCCATCTTCACGCGCGAAGAAACATCCACCAGCACACAAATGGCCACGTTTTCATTACGA -TAGCGCGAATGGACGAAGCTGATTTGCAGATTGGTATTGTTGCTGGTCAGGACATCAACAAAATTGACCTGCTGC -CCACAGATAATTTGCGTCAGTCGTTGGCGGTCCTCATGCGTAAGCATATTGAGATAGGTATGCGCCAGTTCGTTA -CTTAAAATATTGACGCCATCAGCGGTACGCAAAATGCAGATACCCACTGGCGCGGAGGCGACAATCTTGCGATTG -AACTGCTCATGTTCTTCCAGTCGCAGGGCGTCGCTTTCCGCCGGAATGAAAATACGTCGCTCGTACATCCGTGCG -AGAGTAAACAATGCAGCTCCGGCAAGCACATTCAGCAAAATTGCGTTAAGGATCAACATGCGAATGCGTTCCAGC -ACCTTATCAACCGGCACCGAATACACGATGCTTAGCGATGAGGGTGGCAGATTTTTCTTCAGCACCAGCTCCCGG -AACCCTTCCGTATAGCCAAACCAGGAGCGTTCCTGCATCCAGCGAGGATCGCCCTTAATTTTACTTTCTGGTCCG -GTAAGCGAAATCAGGGTATGACCATTTTCATCAAGAATGGTAACCCCCATCGGCAACGTACCCGGTAAGAAAAAG -TTCTCCATCCGGATGGTCTGCTCGACACCCAAAAGCGCCTGCAACCGGTTCGCCAGATAAACTGGCGTCAACGCG -TAAAAATACCCGACGCCAGGGCGCGGACCTTCGCTGATCCAGTAGAGGTTACTGCCGCTATCATCTTGTGGTGCA -TTTCGATATTTATTGATGCGTTCATGCAAAGCTTTCAACGCGGTATCGCGTTCCACTGGCATATCACGCAGACCG -AAATTGGCCATGCAGAGGTTATCGCTGCCGATTAAAAATACCCGGTTTAGATCGTAAGCCGCAGAAAAATTATCG -CGCCAGTAGCGCATAAACCACGCCAATGACTCCAGAGAACCTCGCCAGGTGTTACTCATTGCGGAACAATCGGAG -TCGGCAAACAGCGGTTCAAACGCAGGCACATCCGCCTGCGTTTCTCGTCCACGCGGGGAAAGCACACCGTTTTCT -GCCGATAAGCGATTTTCGGCGATGTACTTCAGCTCTTTCATCACATCAGAGGTGCGTTGAATAAAGCGCTGAGCC -TGATCGGAACTCAGATTAAATTCCTGACGAATTTCCGATTCTCGCTGATGTAACGCATTAACGATGTAAAAAACG -GATGAAAAAGCAATCAACAGCCAGAGCACTAACGCCAATGCTCTGAACATGTAGCGCGAGGCTTTCAGGGTTGTA -CGAAAAGAAGCAAGGTATTTCAAAGGGGCGAAGCTCCGCCTCAGGTGACCGATGGAGTGTGGTTAAGGTAGCGGT -AAAAGCGTGTTACCGCAATGTTCTCTCTTCTCTGGAATATGATACACCGCCGAGAAATCATCACCTTAACCTCTG -ATAATCGTCATATACCGGACAAGACTAGTGGATTTCAGCATGCATTATATGAAGTGGATTTATCCACGCCGCTTA -CGCAATCAAATGATCCTGATGGCAATCCTGATGGTCATTGTCCCAACGCTTACTATTGGTTATATCGTAGAAACG -GAAGGACGTTCAGCAGTCTTATCTGAAAAAGAGAAAAAACTTTCTGCCGTGGTCAACCTGCTTAATCAGGCACTA -GGCGATCGCTATGATCTCTACATCGACTTACCACGTGAGGAGCGTATCCGCGCATTAAATGCAGAACTTGCCCCC -ATTACCGAAAATATCACTCACGCCTTCCCTGGCATCGGTGCTGGTTATTACAACAAAATGCTGGATGCGATAATC -ACCTACGCGCCTTCAGCGCTATATCAGAATAATGTCGGCGTTACCATTGCCGCAGATCACCCTGGTCGCGAAGTG -ATGCGTACAAATACCCCTTTAGTTTATTCAGGCAGGCAGGTGCGCGGCGATATTTTGAATTCAATGCTCCCCATT -GAGCGTAATGGTGAAATCCTCGGCTATATCTGGGCCAATGAATTAACCGAAGATATTCGCCGCCAGGCCTGGAAA -ATGGATGTGAGGATTATCATTGTGCTCACCGCTGGTTTGCTGATAAGCCTGCTGTTGATTGTCCTTTTCTCCCGT -CGCCTGAGCGCCAATATTGATATCATCACCGATGGCCTCTCGACTCTGGCACAAAATATTCCCACTCGATTACCA -CAATTGCCCGGTGAAATGGGGCAAATCAGTCAGAGTGTTAATAACCTCGCCCAGGCACTGCGTGAAACGCGGACA -CTTAACGATCTGATTATTGAAAACGCTGCCGATGGCGTCATTGCCATTGACCGCCAGGGTGATGTAACCACCATG -AACCCAGCAGCAGAAGTTATCACTGGCTATCAACGCCATGAACTGGTAGGGCAGCCTTACTCCATGTTGTTCGAC -AATACTCAGTTCTACAGTCCAGTACTGGATACGCTGGAACATGGCACCGAACATGTGGCGCTGGAGATCAGTTTT -CCAGGTCGTGACCGCACCATTGAACTCAGTGTCACTACCAGTCGTATTCATAACACGCACGGTGAAATGATAGGT -GCTTTGGTGATTTTCTCTGATTTAACTGCCCGCAAAGAAACCCAGCGCCGCATGGCGCAAGCAGAACGCCTCGCC -ACACTGGGTGAGCTGATGGCTGGCGTCGCGCATGAAGTACGTAATCCGTTAACGGCTATTCGTGGTTATGTACAG -ATCTTGCGCCAACAAACCAGTGACCCAATACATCAGGAATATCTGTCCGTAGTACTCAAAGAAATCGATTCAATT -AACAAAGTTATTCAGCAATTGCTCGAATTTTCACGTCCACGCCACAGTCAATGGCAACAAGTCAGCCTCAATGCA -TTGGTTGAAGAAACTCTGGTACTGGTACAAACCGCCGGCGTACAAGCGCGGGTCGACTTCATAAGCGAACTGGAT -AATGAATTAAGCCCGATTAACGCCGATCGTGAACTGCTCAAACAGGTACTACTGAATATCCTGATCAATGCCGTC -CAGGCTATCAGCGCACGAGGGAAAATTCGCATTCAAACCTGGCAATACAGCGACTCACAACAGGCCATTTCGATA -GAGGACAACGGCTGTGGCATTGATCTCTCGCTGCAAAAAAAGATCTTCGATCCCTTTTTCACCACCAAAGCCTCA -GGAACCGGGCTTGGTCTGGCGTTAAGTCAACGCATCATTAATGCCCATCAGGGTGATATTCGCGTCGCCAGTTTG -CCGGGCTACGGCGCAACCTTCACGCTTATTTTACCGATCAACCCGCAGGGAAATCAGACTGTATGACTGCTATTA -ATCGCATCCTTATTGTGGATGATGAAGATAATGTTCGCCGTATGCTGAGCACCGCTTTTGCACTACAAGGATTCG -AAACACATTGTGCGAACAACGGACGCACAGCATTACACCTGTTTGCCGATATTCACCCTGATGTGGTGTTGATGG -ATATCCGCATGCCAGAGATGGACGGCATCAAGGCACTAAAGGAGATGCGCAGCCATGAGACCCGGACACCCGTTA -TTCTGATGACGGCCTATGCGGAAGTGGAAACCGCCGTCGAAGCGCTACGCTGCGGAGCCTTCGACTATGTTATTA -AACCGTTTGATCTCGATGAGTTGAATTTAATCGTTCAGCGCGCTTTACAACTCCAGTCAATGAAAAAAGAGATCC -GTCATCTGCACCAGGCACTGAGCACCAGCTGGCAATGGGGGCACATTCTCACCAACAGCCCGGCGATGATGGACA -TCTGCAAAGACACCGCCAAAATTGCCCTTTCTCAGGCCAGCGTCTTGATTAGCGGTGAAAGCGGCACCGGGAAAG -AGTTGATTGCCAGAGCGATTCACTACAATTCGCGGCGGGCAAAGGGGCCGTTCATTAAAGTCAACTGCGCGGCGC -TGCCGGAATCGTTGCTCGAAAGTGAACTGTTTGGTCATGAAAAAGGTGCATTTACTGGTGCACAAACCTTGCGTC -AGGGATTATTTGAACGAGCCAACGAAGGTACTCTGCTCCTCGACGAAATTGGCGAAATGCCGCTGGTACTACAAG -CCAAATTACTACGCATTCTACAGGAACGGGAATTTGAACGGATTGGCGGCCATCAGACCATAAAAGTTGATATCC -GCATCATTGCTGCCACCAACCGCGACTTGCAGGCAATGGTAAAAGAAGGCACCTTCCGTGAAGATCTCTTTTATC -GCCTTAACGTTATTCATTTAATACTGCCGCCTCTGCGCGATCGCCGGGAAGATATTTCCCTGTTAGCTAATCACT -TTTTGCAAAAATTCAGTAGTGAGAATCAGCGCGATATTATCGACATCGATCCGATGGCAATGTCACTGCTTACCG -CCTGGTCATGGCCGGGAAATATTCGAGAGCTTTCCAACGTTATTGAACGCGCCGTCGTGATGAATTCAGGCCCGA -TCATTTTTTCTGAGGATCTTCCGCCACAGATTCGTCAGCCAGTCTGTAATGCTGGCGAGGTAAAAACAGCCCCTG -TCGGTGAGCGTAATTTAAAAGAGGAAATTAAACGCGTCGAAAAACGCATCATTATGGAAGTGCTGGAACAACAAG -AAGGAAACCGAACCCGCACTGCTTTAATGCTGGGCATCAGTCGCCGTGCATTGATGTATAAACTCCAGGAATACG -GTATCGATCCGGCGGATGTATAACACCAAAACTTGCTATGCAGAAATTTGCACAGTGCGCAATTTTCTGCATAGC -CGCTCATTCTCCTTATAAATCCCCATCCAATTTATCCCTTCATATTCAATTAGTTAAATAACTAAATCCAATAAT -CTCATTCTGGCACTCCCCTTGCTATTGCCTGACTGTACCCACAACGGTGTATGCAAGAGGGATAAAAAATGAAAA -CAAAATTGATGACATTACAAGACGCCACCGGCTTCTTTCGTGACGGCATGACCATCATGGTGGGCGGATTTATGG -GGATTGGCACTCCATCCCGCCTGGTTGAAGCATTACTGGAATCTGGTGTTCGCGACCTGACATTGATAGCCAATG -ATACCGCGTTTGTTGATACCGGCATCGGTCCGCTCATCGTCAATGGTCGAGTCCGCAAAGTGATTGCTTCACATA -TCGGCACCAACCCGGAAACAGGTCGGCGCATGATATCTGGTGAGATGGACGTCGTTCTGGTGCCGCAAGGTACGC -TAATCGAGCAAATTCGCTGTGGTGGAGCTGGACTTGGTGGTTTTCTCACCCCAACGGGTGTCGGCACCGTCGTAG -AGGAAGGCAAACAGACACTGACACTCGACGGTAAAACCTGGCTGCTCGAACGCCCACTGCGCGCCGACCTGGCGC -TAATTCGCGCTCATCGTTGCGACACACTTGGCAACCTGACCTATCAACTTAGCGCCCGCAACTTTAACCCCCTGA -TAGCCCTTGCGGCTGATATCACGCTGGTAGAGCCAGATGAACTGGTCGAAACCGGCGAGCTGCAACCTGACCATA -TTGTCACCCCTGGTGCCGTTATCGACCACATCATCGTTTCACAGGAGAGCAAATAATGGATGCGAAACAACGTAT -TGCGCGCCGTGTGGCGCAAGAGCTTCGTGATGGTGACATCGTTAACTTAGGGATCGGTTTACCCACAATGGTCGC -CAATTATTTACCGGAGGGTATTCATATCACTCTGCAATCGGAAAACGGCTTCCTCGGTTTAGGCCCGGTCACGAC -AGCGCATCCAGATCTGGTGAACGCTGGCGGGCAACCGTGCGGTGTTTTACCCGGTGCAGCCATGTTTGATAGCGC -CATGTCATTTGCGCTAATCCGTGGCGGTCATATTGATGCCTGCGTGCTCGGCGGTTTGCAAGTAGACGAAGAAGC -AAACCTCGCGAACTGGGTAGTGCCTGGGAAAATGGTGCCCGGTATGGGTGGCGCGATGGATCTGGTGACCGGGTC -GCGCAAAGTGATCATCGCCATGGAACATTGCGCCAAAGATGGTTCAGCAAAAATTTTGCGCCGCTGCACCATGCC -ACTCACTGCGCAACATGCGGTGCATATGCTGGTTACTGAACTGGCTGTCTTTCGTTTTATTGACGGCAAAATGTG -GCTCACCGAAATTGCCGACGGGTGTGATTTAGCCACCGTGCGTGCCAAAACAGAAGCTCGGTTTGAAGTCGCCGC -CGATCTGAATACGCAACGGGGTGATTTATGATTGGTCGCATATCGCGTTTTATGACGCGTTTTGTCAGCCGGTGG -CTTCCCGATCCACTGATCTTTGCCATGTTGCTGACATTGCTAACATTCGTGATCGCGCTTTGGTTAACACCACAA -ACGCCGATCAGCATGGTGAAAATGTGGGGTGACGGTTTCTGGAACTTGCTGGCGTTTGGTATGCAGATGGCGCTT -ATCATCGTTACCGGTCATGCCCTTGCCAGCTCTGCTCCGGTGAAAAGTTTGCTGCGTACTGCCGCCTCCGCCGCA -AAGACGCCCGTACAGGGCGTCATGCTGGTCACTTTCTTCGGTTCAGTCGCTTGTGTCATCAACTGGGGATTTGGT -TTGGTTGTCGGCGCAATGTTTGCCCGTGAAGTCGCCCGGCGAGTCCCCGGTTCTGATTATCCGTTGCTCATTGCC -TGCGCCTACATTGGTTTTCTCACCTGGGGTGGCGGCTTCTCTGGATCAATGCCTCTGTTGGCTGCAACACCGGGC -AACCCGGTTGAGCATATCGCCGGGCTGATCCCGGTGGGCGATACTCTGTTCAGTGGTTTTAACATTTTCATCACT -GTGGCGTTGATTGTGGTGATGCCATTTATCACCCGCATGATGATGCCAAAACCGTCTGACGTGGTGAGTATCGAT -CCAAAACTACTCATGGAAGAGGCTGATTTTCAAAAGCAGCTACCGAAAGATGCCCCACCATCCGAGCGACTGGAA -GAAAGCCGCATTCTGACGTTGATCATCGGCGCACTCGGTATCGCTTACCTTGCGATGTACTTCAGCGAACATGGC -TTCAACATCACCATCAATACCGTCAACCTGATGTTTATGATTGCGGGTCTGCTGCTACATAAAACGCCAATGGCT -TATATGCGTGCTATCAGCGCGGCAGCACGCAGTACTGCCGGTATTCTGGTGCAATTCCCCTTCTACGCTGGGATC -CAACTGATGATGGAGCATTCCGGTCTGGGCGGACTCATTACCGAATTCTTCATCAATGTTGCGAACAAAGACACC -TTCCCGGTAATGACCTTTTTTAGTTCTGCACTGATTAACTTCGCCGTTCCGTCTGGCGGCGGTCACTGGGTTATT -CAGGGACCTTTCGTGATACCCGCAGCCCAGGCGCTGGGCGCTGATCTCGGTAAATCGGTAATGGCGATCGCCTAC -GGCGAGCAATGGATGAACATGGCACAACCATTCTGGGCGCTGCCAGCACTGGCAATCGCCGGACTCGGTGTCCGC -GACATCATGGGCTACTGCATCACTGCCCTGCTCTTCTCCGGTGTCATTTTCGTCATTGGTTTAACGCTGTTCTGA -CGGCACCCCTACAAACAGAAGGAATATAAAATGAAAAATTGTGTCATCGTCAGTGCGGTACGTACTGCTATCGGT -AGTTTTAACGGTTCACTCGCTTCCACCAGCGCCATCGACCTGGGGGCGACAGTAATTAAAGCCGCCATTGAACGT -GCAAAAATCGATTCACAACACGTTGATGAAGTGATTATGGGTAACGTGTTACAAGCCGGGCTGGGGCAAAATCCG -GCGCGTCAGGCACTGTTAAAAAGCGGGCTGGCAGAAACGGTGTGCGGATTCACGGTCAATAAAGTATGTGGTTCG -GGTCTTAAAAGTGTGGCGCTTGCCGCCCAGGCCATTCAGGCAGGTCAGGCGCAGAGCATTGTGGCGGGGGGTATG -GAAAATATGAGTTTAGCCCCCTACTTACTCGATGCAAAAGCACGCTCTGGTTATCGTCTTGGAGACGGACAGGTT -TATGACGTAATCCTGCGCGATGGCCTGATGTGCGCCACCCATGGTTATCATATGGGGATTACCGCCGAAAACGTG -GCTAAAGAGTACGGAATTACCCGTGAAATGCAGGATGAACTGGCGCTACATTCACAGCGTAAAGCGGCAGCCGCA -ATTGAGTCCGGTGCTTTTACAGCCGAAATCGTCCCGGTAAATGTTGTCACTCGAAAGAAAACCTTCGTCTTCAGT -CAAGACGAATTCCCGAAAGCGAATTCAACGGCTGAAGCGTTAGGTGCATTGCGCCCGGCCTTCGATAAAGCAGGA -ACAGTCACCGCTGGGAACGCGTCTGGTATTAACGACGGTGCTGCCGCTCTGGTGATTATGGAAGAATCTGCGGCG -CTGGCAGCAGGCCTTACCCCCCTGGCTCGCATTAAAAGTTATGCCAGCGGTGGCGTGCCCCCCGCATTGATGGGT -ATGGGGCCAGTACCTGCCACGCAAAAAGCGTTACAACTGGCGGGGCTGCAACTGGCGGATATTGATCTCATTGAG -GCTAATGAAGCATTTGCTGCACAGTTCCTTGCCGTTGGGAAAAACCTGGGCTTTGATTCTGAGAAAGTGAATGTC -AACGGCGGGGCCATCGCGCTCGGGCATCCTATCGGTGCCAGTGGTGCTCGTATTCTGGTCACACTATTACATGCC -ATGCAGGCACGCGATAAAACGCTGGGGCTGGCAACACTGTGCATTGGCGGCGGTCAGGGAATTGCGATGGTGATT -GAACGGTTGAATTAATCAATAAAAACACCCGATAGCGAAAGTTATCGGGTGTTTTCTTGAACATCGACGGCGAAG -GTAACCCCATTAATCACCAGTCAAAACTTTTCACCAGCGTCAGCTCGCCAGCATTACGCATCGGTACAATAAATG -TTTCCTGTTTCTCATTGACCGATCCTTCATCGGTGATCAGCGTCAGTTGGGCGGTGGTTAATTCCGTTTCGCTGC -GCCCACCATAGTAGTTGATATACACCTGATAGCGCCCGTGAATTGGCGCGGGCATGGCGAAAATCTCGGGTCCGT -ACCCCGTCGTGACATCCATATCCAGTGCACCACTGTTTTTCAGCACGGTGTTACCGTACCAGGCGTGTTCGCCAT -CGGGCGTAACAACGTGAAGGTCGAGGTCGGTATTGTCCGTATCCCACGAGAGAACCAGCCGTAAACGTGCACGAA -TCGTTCCTGTACCCGGCGTTGAGTAAAACTGCATTTTTTGTCGGCTTTGCCCATCCGGGCTGATGACCTGCACGC -TGTTGCTGCCTTCAGTGAAAATATAAGGGCGTGCAAATGAACCATCGGATTCAATTCTCTGCGGCATACTGGCAC -CGTTGACCACCAGCCGGCCCTGCTGAACTTTACCCGCCGCAGCATAATTCTTTATTTTGCCGCGGATCTGCGCTG -AGATATTTTGATCATCTGCCATGTTGACGGACGACGCCGGGTAATTGATCGATTGTGAAAAACTGGCATCTTCGC -CCTCTGCCGGATGCCAGCCTGAGAGCGGTGCATCAATCTCGACTTCCTGCACACCTTCACTGTGAGCGACAGGCG -AAAGCGCCACCAGTAACAACGGAAGAAAAATCTTTCGCATAGCATTAGTCCATTAATAATTGTCGGGTCAGCGTT -TCGATATAGTTCTCATCAAGCCCGGTGGGATAACCATCAAAGGCCAGGTGCAGATACTCATGGGTTAAATCCAGC -CGATCCTGAAGCGTAAAGAAGTTACGAATAAACAGCCGTTTCTGCTGCCGATCGGTATAGGGGAAACCTGAGACT -AAACGGCAAACCGCAAACACGTCTGGTTCGTTGTACCCCGTCTCAGCTTGTAATATACGCCGCCACTGCGGCATT -TTTTTCGCCAGCCAGGCTTTCGCTTTGGGTAATAACTGGCAGGTTGAGCGTGGCGCTCCCCAGCGGCTAAGACTG -TTGTCGGGATAAGCAAACGCGAGTATCTGATCGTAACGCTCTCCCTGCCCCGCCTGGGCCGTGGCTTGCCGCCAG -GAAAGTGTCCCTTCGGTAGCGCGACTGCCATGATAATGAACCGGATCGCCTGCATAGATGAGATCCTGCGTCCAG -GCGGTCATCGTTCGCGCCCCCGTGGTCGCTGGCGAAGCAGAAACACGCTGCGTGGCGCTGCTGTCGGGGATGGTC -AGGCAATCGCCTTCCCGATTGGCGTTTTGCTGTAAAAAAGTGCGAATCGCCACGGTCATGGCTTTCGCTGCCTCA -GGGGGCGTACTTTTCGCCTCGCGATCCAGAACTCTGGCAACGTACTCTTCACGATCGAGATGCGACTGCAATTTC -AGTTTGCCCTTTTCGCTCAGTAAGGTCGTCTCACCGTGGCTGACAAACGTAATGTGGTTACCATTAGTAAACGTC -ACACGATAGCGCCCATTAAGTACGCCGGGATTTACTGCCGTCGTACTCTTTTCCGCTGTGATTTTCTTCAGCGGA -TAGCGGGCAAACAGCTCCACCTCTACACATTGCCCACTGGCAACCTGCGTCGGCACTGGCAAAACCCGATTAAGC -ACCGTCGCATAACGGGTTAGTACCGTTTTGCTGGTGCCACTGCCAGTAACCCACAGCGGTGTACCATCGGTTAAC -CAGCCAGCAAAACCACCCTGACGGATTTCCTGTTTATCATCGGCAAACCAGCTCCAGGTTTTCACCCGTACCCGA -CTACCGAGCATGGATGCGACACCGATTTTCGCCTCGTCCAGCACCACATCCAGTAAGACTTCCTGAGCTTTGTTT -TGCGCGGGTAACGTCGCTAATGAATCAAGCAGCGATTTAACCGTTACCGAGGTTTCTGGCTTCAGCGTAGTCAGA -GACGCTAACCACGCAGGTGCCTGACGCTGTTGCCAGTATTGCCCCCACACATCTGCGCCAATATGCAACCGCTGC -GGCGCAAAATAGAGCCCACAGGAACGTACCAGCGCGGTATCGCGCGTTATGCTCTCCCCAGCCTGACAACAATAA -ACCTCTTCCGGGGAGTTTCCGCGACACTGGTAGGGCTGCTCCGGTTGATGGGTATCCTCCAGCCAGGCGTAAACA -TACAGTTTCCACAAACTCCCTAACGGCGTGGTGAGCGAGTCAGGTAATGCTGAGACTTTGGTCACGCCTGATGAC -GACAGCTGATACAGTTGATCGTGCTGCGCACCGCGCAGCACCAGTTGTAACGGCGTCTCCTCCGCAAGTGTTGGC -AGAGTAACCAACGCCAATAGCCAGACGATTCTGCGCCAGTTCACTTATTTCACCTGCATCCCGGTCCATTCACTC -CCTGCCGCAACACTTTGCTGCGCAGGTGCATAGGAACGCACATAACGAGCAGGAGGCAGAACGAATTGCCCTTTT -TGCGAGAAGCGCAGCAAATGGCGGAAAGTGACCGTTCCCGTCAGTTCTTTCACCGGCACCATATAGGCCAGTTCG -CCCATTTCATTTCGCGCTTTTTCCAGCAATTGCCCCTGCTGTTTCGCGGCGTTGGGTTTATTGACCGAAATGCCC -CATGTTGTGCGCTCAACGTCGGCTCCCGGTGGCAGCGGTACTTCCACCTGACCGTAGCGCAGAACTGCATCCTGC -TCGCTGGTAAGCGTGATTTCATCGAGATACAGCGCATCGCTGTCAATCTCATTGCTGGTCACCGGTTGCAGAATA -AAGCTCATCTCTTCTTCACCAGGGATAAGCCGATACAACTGGCGTTCAACGGTCACCGGAATGTTACTTTGTTGA -GCCATTTTTGCCGGCTCACGTCAGCGGACCTGCACATTTTGCGGCGATAATTCGTCACCAAAAGAGAGAATGTCC -GGCACGCCCTGACCAACCCAACGCCAGTCTTCGCCCCCTCCAGTTAACTTATGTTTAGCCCATGCGCCCGCAGGC -GCAGGCAAAACAACTGGAGGCATTGTCGCCATATATTTCGCCAGCCAGTTCATGGCCAGCGCGCGCTCAATAGTG -GATTGCTCAGCGGTCAAACCACTTAAAATAGCGGCCGTCTGGGTAGCGTCGCCACCGCTATTAAGCAGCACAACC -GTGTGCGCCAGCGGCTGATTGCTGTTTGCCGCTTTATCCCACGCATATTGCTGAACCTGTGGCATCACCGTGGAC -TTCAACTGCGCTTTTTTCAGCAACGTCATGGTTAAGACGTTTGCCACCGCATCTGCCAGTGGAGACTCCGGTGTA -TCGAGGATCAGGCTATCATTGATATCGCGGGTGTCTTCCTCAGAGAAATCTTCAGTTTTAGTTCCGCGCCGGGCG -ATAGCTTCATCCAACCCTTTCAACAACGTTTTGCACGGCAAATTCATCTCCTGCGCCCATGCCAGCACCAGCGCC -CGATGCAATAACGGCATGTTATCTGCCTGCTCCGCGTAGCTGTCGAGCATATGCTGCCAGTATTCCGGTTGTTGC -GTTACGCCGATCGCCTGGCTGGCCTGCCAGTCGGCGTACCATGCCCATGCCGTAAGGAAGGCGTCACCATTGCCA -TCTTCACCCCACCAGGTAAAGCGCGCTCCGGGCCCCGCCAGTTGCATCAGCCGCAGACGGTTATCCTGAATCATC -TGACGAATGTCGTTAGCGGCGGCACTTTGATGATCGGCAAGCGAACGCCAGGCGAGACTGAGCGGGATCAGACGG -CTACCGGTGTTGATTACGCCACCCCACGGTTCATCGACTAACGCATCAAGATTGTTGCGGAAAATCTCCTGCGGC -GTTTCACTACTTTGTAGCCGGATATTGCTCGCCTGCTCGGGCAACATCAGCGCGTTATCGCCACCACCGAGCATG -ACATTTTTCTGCTGTTCAACGGGCCAGCTGTTATCCACAAAAGACAGTTTTGTGCTAATGCTGTCCTGCACTTGC -CCATTTTGTTGCAGTTCTGCACTTAACAAGCCAGATTGCTGAATATTCTGCGTCAGCGAAATATAATTCGCCCCT -TTGTGCAGCGTCAGCGTCTGGCGCATCTCAGCGCCTGCAAATTTAGTCACCAGCGCCACCGGTTCGTTATCCTGC -TGACTGAAGATAAACAGTCCTGCCGCCGGTTTGTCGCCCACGCGATACACCGTTGGCATACTCCACTTCATGTAG -AGATTTTTTTCCGAACGCAGATAAGCACGCCCCTGCCCGACCAGCCCGTCGCCGTTCATCCCACGCGCGGTGATA -CGCCAGCGGGTTAACGAATCAGGCATCAGGAACGTGAAATACGCTTTGCCTTGTTTATCGGTTGTGAGTGACGGC -ATCCATGCCGCGGTATCCACCTCTTCACGCCGTGGACGTTCAAGCATTTTTACTCGCCGCTCGCTGCGGTTAGTT -GCGCCAGGCGCAACCGGCTCGCTGGAGAGCGCCTGGTCGTAGCTGATAAACGACAGACTGGAGCTGGTACGCACA -TTGTTACGCCCCAGCGGATAGAAAAATTTGCCGATATTCGGCGCGATTTCTGGTTGCAGCGCGTAGATCATTTCA -TCGACCACGCCTACCGTTAGCTGCGCAGAAACAGGTTTACCTTTCAGCGACGAGGTTAATTCGACATTGACCAGT -TCACCAGGCTGGTAATGGGTTTTGTCCGTTTTCACCCGGATATCCAGCTGGGGAACGGCAACTTTGATCCCGGCG -TTCTGAAAACTGTACTGACCGTTACGGGTATACAGCACCGAAAAAGTGATGTTAGGCGCAAAGGAATTGCTCACT -GGAACCCGGGCTTCATACTGGGTATCGTTTAAACGTTGTAGCGTTAGCCAGTTTGCCGGATGCGAAAGCAGCGAC -TGCTGTTCCACGCGATCGCGTTCCAGCGTCAATAATGCTTCATCAATTGGCTCCGGAAAGGTAATCAGCATCTTC -GCGGTTTCGCCTGGCTGGTACAGCGTTTTATCCGCCACGATATCTACCGTACCAGTATGCGCCGTGCTGCCCTTA -CCGCTGACGGCATGACTTAACCCAGCGAGAATTAAGCCGTCTTTATCGCGTAATGTCAGATTGTAGTTGCCAGGT -TTAGCGAAATTGACGGTAAAGGATTTGCCGCCTGACGGTAGCTCTCCGCTATGGCTCGTGCGGTCTTCGAGACGC -AACCATTCATACGTAACAGGAACCTGTTTTGAAGATTCCAGCGCGGCATAACGGAACACAACCGACTCGCCGCTA -TTACTGTATTGTGCGGCAGTACTTAATGAGTAATGCGCCAGACCGCGTTCAATGAGGATCTCTTTGGTGGTGGTG -ACGCGATACGCCGCGCCGTCACTGGCGGAGACGGTTAACAAATAGCGGCTCGGTTTATCGGCGGCGGGGAGATTT -AACGCCACATGACCGCTGGCGTCGGACACCGTTTCGCTGCCTTCCAGCGACACGGGGAAACGTCCGGCATAACGC -AAATCGTTACCGACCATTGATAATTGCTGAGCGCGCAAACTTAACTGCACGCGGGCATTTTTTACCGGCTCGCCA -TCCGGGTAGAGCAGTTGCAGTTTGCCGCTGACCGCTTCGCCAGTTTTGAACTCTTTTTTGGCGAGAGCTAAACCA -ATCTCGAAATGTGGCTTGATGTAGTTTGCCACGCGAAAACTGCTGCTATAGACCTGATTGCGGTAAGCAAGACGT -AACTCATAACCTCCGGCTACGGCATTTTCTGGCAGGCGGAAACTTCCCTGCCCGCCATTGCGCGCATCCAGCGTG -ACATTGACGGTTTGCAACAGACTGCCGTTGGCGTCCAGCACCGAAAGCTTCGCCGGGGCGCTGACGATGGGGGAT -GAATGCAACGGATCGTGGAACTCGCGGCCGATCACTTTAACATCGACACGATCGCCTGCGCGATATAGCGGGCGA -TCGGTAAAAATATACAAGCGGGTGTTGTAGATTTCGCTTTCGTAGAAGAAGTTCTCGGAGACAAAAACGCCGCCT -TCAGCATCCTTACCCAGAATGTATGAACGTTCTGGCGATATATGTTGTAACTGCAAGGTACCGCTGTCATCGGTC -ACACCGCGGGTCATCACGCCAAGACCGTCAGTCCACAAGATCTCTGAGCCGGGCTTCGCTTCACCCTGTTTTTTA -CCCGCGGTCCACACCAGAAGCTCTTTGCCTGACACTTTGCTAAGCGCCACGGTATCGGAAACAAACACCACCGTC -GTCGCCCGATACCCACCAACCATCGCCTCGACGAGGTACAGTCCCGGCTCTTGTTGGCCGAGAGGAATATAAATG -TTACCCGGCTGCGGCGAGATGAAATTGCTGGATGCGCCTTCCAGTTTTACCCCTTGCTGCGGCTCGAACGGTTTA -GCCTGCCATAGTGGATAACGGAACTGTTTCACCAGGGGATATTTTTTCAGCGGGGAAAACTGGTTGTTCTGTACA -TAACGGGAAGGTTTAATAATGGCATTGCCGAGCTGTAATTCGGGTAACGCCTGAGTCACATTCTGCCGTGACTGA -GAAGAGAAAGTACGCTGCATCACGCGGCGAGATTTGCCGTACCAGTTATCCCACAGCCAGGTTAGCGTATTGTTC -AGCCCGTCGCCCAGATATTGCGGTTGCACCACAATGCGATGCAGGTTTTTCTGCTGGCGCAAAAATGCCATCGGG -TCAGGAATACGATACAGGCGAACGTCCACGCCGCCGTACTCTTCCATCTGATAGCGCCGATAATCACGCCCCGGC -GCTTCCAGTCGCACTTTCGCCTCTTCACTGCTGCTAAAACTGCTGTCAGCAAGCAAAAAGAATGTTCCCCCGGCA -GGCGGCGCATAGTTGCTGGAAGGAAGCGAATCATCAGCATTAGCAAGCCCTGTTCCCACAAGAGACAGGGACAAG -CACGCTGCTATCGCGCCAGAAAATTTAAACGATAAATGCCAATGAAATTGGGATTGGAATCGTTGGGTATCCATC -GGGTGTCCTTCCATGTCATAAGTTGTTGCAGACTGACTGCGCGCATTCCGTTGTCAGTTTTCGTGGCGCTTCCGG -TGTGGTAGATGACGTAACGCCCCATCCAGACCATTAAGTGCTGGGCATCGCCCTGATCGAAAAAAATCATATCGC -CAGGCAGCGCCTGGTTTATGTCCTGGCCAATAAACTGGCTGTTGTACTGAATCAAATTAATCGCGGTCACATAGG -GGCCGGTTTTCCCGTTCCCCTGATTCCAGTTTTGCGCCAGTTGACGCTGTTCAGGTGTTAGCGTCATCTCTGGCG -GCAAATACTGGCTAGATAAACCGTTACTTTTTAGCCATTTACTGTCGTGAACTTTCAGCGTCTCGTTCGCCGCAA -ATCGCACCAGGCCCGCACAATCCTGCTGATACCAGCGTGGACTTGGCCCCTGGCGGAGCTGTTCTTGTGCAATGC -GTACAAACCAGGCGCGAAACAGCCCGGATTGTTCGACATTCAGCATTTCGCTATGGGCAACAACACAACACAGCC -AGCAAATCAGCGCCAGCAGCCCGTGCCTCATAGCGGCTGCCAGGTTATGGGTAGCCACTGCCAGGCGGCACCGGG -TTCCATCTGGGCCAGCTTCATGACATAACGCGGTTGTTGAGATAAAGCGTCCAGCTTCGGCATTAATAAAGTTTG -TGCGGCGTTATAAAAAACCGGTTCGAGATTCTTCGGCAGACTGGTCAACGTTTCGTTACGCAGCAGTTTCGCTAT -TCCTTGTGGATTGATATAGAGCGGAACGATGCCATCAGTGGGTATTACATCCACCATTGCCGGGCGGGTTTTATT -CAGTGTTTGCAGCGCGTTATTAACCAGCGTGTCATCGAGGGAGAAAAGCAGCGTTTTGTTTTGCATCGCCAGCGA -CACACGGAAAAAATAATCCGACATTAATTGATCGGGTTGCGCCGCCTGCGCTTTCGGATACTGGCCGTATCGGGA -ACTCACTTCGCGACGCCAGATTTGCGCTTCGCCCTGCTGAGTCTGGCTTACCGGCAAAACACCTTCTGGCGCTTT -GCTTTCGTGCGCACCAATATTTTGCGTAAACAGTTTCCCTGGCAATTGCGCCTGTTCGGCAGTGCCATCAAACTG -ACCGACAAACAGCGGGGTTTGCAATTTTGAGTCTTCATACCAGCACAGCCCCGCGGCACCGTCTAACGCCCCATT -CAGCTTGTCGTTTTCCTGGCTGATGTGCGAAAGCATCTCTTCGGCAATACCGTGTGAATACGGCACCGCCACACA -GAAGCTGGCTCCGGCAGGCATACTGTTCCATACCGGCGTAAAATCGAAACTGGCATCTACGCTGGCGGATTCATC -ATTTAACGCCACAAAACTGTGCCAGCCGTCGTTACCCATTTCGAAGCGTACGCCAGCAAAAGAAGGCATTAACCG -CTGGTAGCCAAACCCCAGCCACCTGGCGCTGACTACGATGCGCTGGCGTACTGGCGTTTTTTCGGCAGTACGCTC -TTCCAGGCCAAAGCTTGCTTGCCAGCGTTTTTTGCCGCTCAACAAATCACCTGCGATCGCCGTGGCTTCGGTATC -CTGCTGATCATCTTTAAACAACATATCCGTGCTGGAAAACACCAGCATCTTGTCCTGATAAGTCGCGAACATCAG -GGCGTTATTGCCGTTATAGCGCAACTGATAAACAGGAACAGTTTCACTATTTATCTTGATGCTACTGATTTCCGT -TTTGCTTAACTGGCTGTCGCTGGTAGCGGCAAACAACAATGGCTCCAGCAGTTTGCTTAAACCACTGCGCTGGAT -CAGCACCATATAATGTGAAAGATGGCCTTGTTTATCGTGCCACAGCGCTGCCTGCGCGGGCTGATCTAAGAGTGA -CGAAAAGAGCTTATCTTTCAGCGTGAGATCGTGTTCATAGACAATACGACGAATGCTGCCTTCAATGCCCAGACG -ATCGGCATGATTCTGATAATAGAAAACGAAATCTTCGCTCAGAACATCGTGGAGAAACGGAATGGTGAGGAGATC -TTTGGGAAGCTGGCTCAGAGAGTCGCTGTCGAGAAAGAGGTCCGGCTCATTGAGATCGATTTGCAGATTGTTGTG -CACCACCAGCGGCGACAACGTTTTTTCTGGCCCACTGCCAGCATATTGCAACGCCCAGACGCCAGCGGAAAGCAG -TGCTATTGCGCCAAAACCTACAAGACCATAGAACCGCCAGCCTTTCGCCTTTTTTTCACCACTCATTGCCACATT -CCTTGTGTATAGCCAGCCATTTTTTACGGGCACAGCCAAACTTTACCGTGCCCTAATACGACAAAAGCCCAGACT -TTGCAGCCTGGACTTTTCAATTCAAACAAGGGAGATAGCTCCCTTTTGGCATGAAGAAGTAAAATTATTCTTCTT -CTGGCTCGTCGTCAACGTCCACTTCCGGAGCGATTTCATCGTCCCCTTCCGCGGCACTGCCGTCGATGGTATCCA -GATCTTCCTCGTCAACCGGTTCAGCAACACGTTGCAGACCCACTACGTTTTCATCTTCCGCAGTACGGATGAGGA -TCACGCCCTGGGTGTTACGGCCCACGATGCTGATTTCCGAAACGCGAGTACGTACCAGCGTACCGGCATCGGTGA -TCATCATGATCTGGTCGCAGTCATCTACCTGTACCGCGCCAACAACTAAACCGTTACGTTCGGTAACCTTGATGG -AGATAACCCCTTTCGTCGCACGCGACTTGGTTGGGTATTCCGCCACTGCGGTACGTTTACCGTAACCGTTTTGCG -TTGCGGTGAGGATTGCGCCATCGCCACGAGGCACGATCAGAGAGACGACTTTATCGCCTTCACCTAAGCGAATAC -CGCGAACACCGGTGGTGTTGCAGCCCATCGCACGGACAGAAGACTCTTTAAAGCGCACCACTTTACCTTCAGCGG -AGAACAGCATTACTTCGTCTTCGCCGCTGGTCAGGTCAACGCCGATCAGCTCATCGCCGTCAACCAGTTTGATCG -CCACTTTACCGGCGGTACGCAGACGGTTGAACTCGGTGAGGACAGTTTTCTTCACGGTACCGTTAGCGGTCGCCA -TGAAGACTTTCACGCCTTCTTCAAACTCGGTCACTGGCAGGATCGCAGTGATACGTTCGTCCTGCTCCAGCGGCA -GCAGGTTGACGATCGGACGACCGCGCGCGCCACGAGTGGCTTCCGGCAACTGATAAACTTTCATCGAATAGACGC -GACCACGGCTGGAGAAGCACAGAATATGGTCGTGAGTGTTCGCCACCAGCAGTCGGTCGATAAAGTCTTCTTCTT -TAATACGTGCGGCAGATTTACCTTTCCCGCCACGACGCTGCGCTTCGTATTCAGAAAGCGGCTGATACTTAACGT -AGCCCTGGTGAGAGAGCGTCACGACCACATCTTCCTGGGTGATCAGATCTTCCAGGTTGATGTCTGCGCTGTTGG -CGGTGATTTCAGTACGACGTTTGTCACCGAACTGTTCACGAACCAGCTCCAGCTCTTCACGGATCACTTCCATCA -GACGATCGGCGCTACCAAGAATACGCAACAGTTCCGCGATCTGATCCAGCAGCTCTTTGTATTCGTCGAGCAGTT -TTTCGTGCTCAAGACCGGTCAGTTTCTGCAAACGCAGATCCAGAATCGCCTGAGCTTGCTGTTCGGTCAGGTAGT -ACAGACCATCACGCACGCCGAACTCTGGCTCCAGCCATTCCGGACGCGCAGCATCGTCGCCAGCACGTTCGAGCA -TCGCGGCAACGTTGCCCAGCTGCCACGGATTAGCAACCAGCGCAGTTTTCGCTTCTGCAGGCGTCGGCGCATGAC -GGATCAGTTCGATGATCGGGTCGATGTTCGCCAGCGCCACGGCTAATGCTTCAAGGATATGAGCACGATCGCGAG -CTTTACGCAGTTCGAAAATAGTACGACGGGTCACCACTTCACGGCGGTGACGAACAAACGCCGCGATGATGTCTT -TCAGGTTCATGATCTTCGGCTGACCATGGTGCAATGCCACCATGTTGATACCGAAAGAAACCTGCAACTGGGTCT -GGGAGTAGAGGTTGTTGAGCACAACTTCACCGACCGCATCGCGTTTCACTTCAATCACGATGCGCATACCGTCTT -TGTCAGACTCGTCACGCAGCGCGCTGATGCCTTCCACGCGTTTTTCTTTTACCAGTTCCGCAATCTTCTCGATCA -GGCGCGCTTTGTTTACCTGATACGGAATTTCGTGGACGATAATGGTTTCACGACCGGTTTTGGCGTCAACTTCCA -CTTCTGCGCGAGCGCGGATATACACCTTGCCGCGACCGGTACGGTAAGCTTCTTCAATACCGCGACGACCGTTAA -TGATTGCCGCCGTCGGGAAGTCCGGCCCCGGGATGTGTTCCATCAGCCCTTCAATGCTGATGTCTTCATCATCAA -TATACGCCAGACAACCGTTGATGACTTCCGTCAGGTTGTGCGGCGGGATGTTGGTTGCCATACCTACGGCGATAC -CGGAAGAACCGTTCACCAGCAGGTTAGGAATTTTGGTTGGCATGACGTCCGGAATTTTTTCCGTGCCGTCATAGT -TATCAACGAAATCGACCGTCTCTTTTTCGAGATCGGCCATCAGTTCATGGGCAATTTTCGCCAGACGGATTTCCG -TATAACGCATTGCCGCCGCAGAGTCGCCGTCGATAGAACCGAAGTTACCCTGACCGTCTACCAGCATATAACGCA -GCGAGAATGGCTGCGCCATGCGGACGATCGTGTCATAGACCGCCGAGTCACCATGGGGATGGTATTTACCGATTA -CGTCACCAACGACACGGGCAGATTTTTTATAGGCTTTGTTCCAGTCATTGCCTAGTACGTTCATGGCGTAAAGTA -CGCGACGGTGTACCGGCTTCAGGCCATCTCGGACATCTGGCAGCGCACGGCCAACAATGACCGACATCGCATAAT -CCAGATAGGAGCTCTTCAGCTCTTCCTCAATGTTGACCGGTGTAATTTCTCTCGCAAGGTCGCTCATCTAACCGC -TATCCCTCTACTGTATCCCGGATTCAAAGGTCGCAAATTATAACACAGCCGCGCAGTTTGAGGTAAACCTATACG -CTTTATTCACATCCAATGCCTGATATACTCGTTTGTCTTGCCAATTACGGAGTAGAAGTGCCAATGAATGCCGAA -AAATCGCCGGTAAACCATAACGTAGACCACGAAGAGATCGCTAAATTTGAAGCCGTCGCCTCCCGCTGGTGGGAT -CTGGAAGGTGAGTTCAAACCGCTGCACCGCATTAACCCGCTGCGTCTGGGCTATATTGCCGAGCGTGCTGGCGGT -TTATTTGGCAAAAAGGTGCTCGATGTCGGTTGTGGCGGCGGCATTCTGGCCGAGAGTATGGCGCGCGAAGGCGCG -ACGGTGACCGGTCTGGATATGGGCTTTGAGCCATTGCAGGTGGCAAAACTGCACGCACTGGAAAGCGGCATTCAG -GTGGATTACGTGCAGGAAACCGTGGAAGAGCACGCGGCAAAACATGCCGGGCAGTATGATGTGGTGACCTGCATG -GAGATGCTGGAGCACGTCCCCGATCCGCAGTCAGTGGTCAGAGCCTGTGCGCAACTGGTGAAACCAGGCGGCGAT -GTCTTTTTCTCGACACTTAACCGCAACGGCAAGTCATGGCTGATGGCGGTGGTTGGTGCGGAATATATTTTGCGC -ATGGTGCCCAAAGGCACGCATGATGTGAAGAAGTTTATTAAACCGGCAGAATTGCTGGGCTGGGTGGATCAGACC -AGTTTAAAAGAGCGGCATATCACTGGGCTGCATTACAACCCGATCACTAATACTTTTAAACTCGGCCCCGGCGTG -GATGTGAACTATATGCTGCACACGCAGAATAAGTGAGGTTGATGTTTGGCCGCGCCAATGCCTGATGCGACGCTT -GCCGCGTCTTATCAGGCCTACAAATGCTCCCCGTAGGCCGGATAAGGCGTTTACGCCGCATCCGGCAACCGTGCC -GACTAGACAGTGATTACCATTTCACCGTCATCGACAAAAACCCTGCCGTCTGGGCAAAATCATCACTCCCTTTCT -GCCACGCCACGCTGCCGCGCAGGGACACTCGCTGACTGATATTGCCCGTGACTCCCACTTTTATTTCACCCCGTT -GCTTCACCGCATCGTCACTGATAGTGCTGCCATCCTCTTCAATTTCCGTCGAATGGGGATCGTGATAATAATTCA -GATCTAATGTTGGTATGACATGAACAGCGGTACGCCATTCGCTGTGTAAACCCAGCCGCGTCTGAATATCATCAC -CCTGCGATTGTGACACGCGCGCACGGTTAGCGGCGGTAAAATCATCCTGCTGCACGCCCTGATAAATCACCTGCG -CCTGCGGTTCAATCACCACACCACGCCCCGGTAACCACTGATACCCCGCCTCCAGCGAGGCGATAATCCCCGACG -AGTGGTAATGATCTGTGCCATCTTCTTGTTCGGAAACATCATTGCTAAACCACGCGTATTGCAGCCAGCTATCCA -GCCAGGCCCCTTGCTTCTGATTACCGTGCTGAAACCAGCTTGATGTCAGCCCAACGGCATAACCGTGGTTCTGGT -TATCGGCGCGAGTTCCGGTCATATTCGAGCGGCTGTCGCCCTGGTTATCGCTGTAGCCACCAACAATCCCAAGCA -TCCACTCGCCATCCGTGCCCCAGCGCCCGCTAAACAGATCGCCGCTAAGTTGCACCGTAGAAGTGTCTTCATGTT -GAGCCAGTTGCCCCGCTGCTGTGTAATGATAATCTCCGCCGATAACACGTAAATTCAGCGTCTGACCATCGCCAC -CTGCGTGATCGCGTCGCTCCATCATAAACGCCTGATTTGCCGCCCGCAGGTTATTAAGATAACCGCCAACTTTGG -CATTCAACACCGGCTGGTAAGCAGGCGTAGGTTCCGGGTCGGGTGTTGGATCAGGATCCGGCGTGGGATCAGGAT -CGGGAGTCGGGTCTGGATCAGGTGGCGATGGCGGCGTTACTTCTTGCGATCGCAGATACCAGTCGTTGTTATCTT -CCACCAGCGTGTAGTCATACGCTCCCATATTGACGTAGCCGCTGCCTGCCAGACTGAACTGCGCATTGTTTTGAA -ACTGCGTGGGATCAGCTGCGAAATCAACCACTTTAATGCCTGTCGATGTCGGCTCACCAATCCCTGTAATGGAGT -TAACCACCACAGTTGTGTTGCCAGCAGTATTACCGTTCATCACCAATTGATCGCTTACCGAGTCATCGCCGTTTA -ATTCGCTATCGAGCAGTAGCGTACCGCCGCCGGTATAATCACCGTTTACCGTCAGCGTATCGCCAGCGACGCCAT -TTTGCAGGCTAACCGCACCGGACGTATTGGTCAGATTGCCATTAACCGTCACGTTGGAAAGATAAGTCAGGCTGT -CAGTTTCAAGGTTGGTATTAAGCTCACCTGTCAACGTCACACCATCGGTGGCATTCACCAGCGTCCCATCGCCGT -TAAATAGTGAGGCATTAAGGGCGACGGAAGTATCCTGCCCGGTCAGGCGCAAAACCGTACCATCGCTGATGTCGA -TAGTGCCGCTGGAAATAGCATCAATTGACTGAATATCCTGATCCGCGCCAGTAACGAACGTTGCCCCATCACCAA -CCCACAGTGACGAAGCATAAGGAAGGATATCAGCAACATCACCTTTCAGGGTGCCTTCTTCGACACGTACCGCCG -ACTGCGTTGTACCGCTGGCGGTCAGCTCCAGTGTACCAGCCCCCGTTTTAGTCAATGTGCTACCCTCATCCTGAT -GCTGCCCGCTGCTGTCAGCCATCAGTGCGCCCCACTGCGTGTCTACCCCCGCATCAACTGCCACTTCACCGTCGG -CGCGCATTTCAATATCACGTCCGTGGCCTGCCGCATCTGAACGCGTGTCAACGTCGGAGGTAATCTCCATCACGC -TTTCTTGTTGCTTATCGGTAAAGATAACCTGGCGGTTATAGTGGGTATCTCCAAGCTGCGAGTTGTCGCTCACCA -TCAGCGTACCGGAGGCGATTTGTGTTGTGCCCAAATAACTATTATTGTTTGCCAGACTTACCTGCCCGTCGCTCG -CATCGACCACCACGTAGACGCCATCTTTCCCGTCGCCGCCGATATGCAAATTGTCGCCACCTGCAAGATCTACCA -CATCCTGACTGCCGATAACCGTTCCGCTGCTGCCACTGACTTCAAGGCCATCGTTGTATGATGTGCCGCTCTGCC -AGGTGGAGAAATCAGAGAGATCGAGCACACCGCCGTTTAACACGATCGACTGCGGATCGTCCTGGAGAGCGGTAA -GATCTGCCGCGTCGCCTTCCAGCGAAAGCACCGCACCATCATCAACGACTATATCGCCGGTTAGCGCCATCGACT -GCGCCCCTGCCAGCACGTAGCTGCCGTTTTGCGCAATGGTGAGCTGACCAGCACCTTCGATGATGCCAGCAAAAC -TGCCCTGATTAACAGTAACGTTGCCACCAGCATCGATATTTAAAGTGCCATTCTGAAAGCCCGTCAATGCGTGCA -CAAAAGTTTGTTGGGTCGAGCCAACGTTTAGCTCAGCCTGATTCTGATACTGATCAATACTCCCTATCGTCAGAC -CGTAGCAGTCTTGCGGATCGTCCTGGCAATGCGTATCGCCGACATTCATCAGGGAGTTGCTGCGGCCCAGGGTAA -CTTCACCGTTTTCAATCTGCATCTCACCAGTAAAGTCATTGTTATCTGCATTAAGTACCAGATCGCCGGAACCTG -TTTTGGTGATTAACCCGGTACCAGCAATAGAGTCAACAGCTCCGTCATTCTCTGTATTGCCAATAACCAGCGTTT -TTCCGTCGGCAATATCAAAGGTAACTTCACTTAAGCCGAGATACATAAAGCCACCCGCCGCAGAGGAAGGACCAT -CTCCATAGCCTGCTGCGCTATTGTTCTCATCGACTAACACGCCTCCGTTCTGGCTGTAGCTGTCATCAACAGAAA -TATCAATAAGATAGGGAGCCGTCACGCTATTGGTATATATCGCCCCGCCATAACCTTCGGCAGTGTTATTTGTAA -AGGCAGTGTTATTTACTATCGTATAACCTGAAGGATGCTTGCTGTCGCTATTATTATCGGTAACATCGATTGCCC -CGCCATCGCCATCACTGTAACTTGTTGATGTATATGCCTGGTTGTTATCAAAAATAACATCACTTAAATAAACGT -CATTATTAATGGTATAAATTGCGCCACCTTTGCCATCATTAGCGATGTTATTGCGAAACATGGCGTTAGTGACAC -GTAAATCGACGGCACCAGTATCGTTAGTACCAGAAGAATAGATTGCGCCACCATAGCCGCCTGCGACGTTACCGG -AAAAAATAACATCAGTAAGATTCAGCGTTGAGTTTTCTTTAGCAAATATGGCCCCGCCGTTATTATATTCTCCTG -TAACGGTGTTATTGGCAAACAGAGTCATTCCAGTTTCATTTTCTGGTAATAGTGAAAATTCCGCTCCTTGTTGCA -AAAATACGGCCCCACCGCTGGCGTTATTGGTCATATCCGAAAAAACCAGCCATTGCCCATCAGCGATACTCCAGT -CCTGCGTAATGCCTGAAAGGCTTTGCCTGCTGGCCTGACAACTCGCTTTGACATCATATCCCTGGCATGAATCAG -TGACCGCCGCGACACCGTTAGCAGAGAAAAGAGATGCAATCATTGACGGGAGTAAAGATAAATACTCCTTGCGTA -GAAAGATAATCCGCATATTAATCTAACCATCATTTTCTATAAGACGGCGTATTTAATCGCATTATACGATATGGA -ATATCTTTCTTTTGTAAATTGTTCAACCCGGTGCAATGGCTATTTTGTTATTATTTGATGAATAATATCAGTGCG -TCATAATTCAAGTTAATAACCTTCAGGGATATCAGTTATATTTAAACTAAATTAAAGTCATGAATAATTTTCTTA -TAATATAAGGTAAATTAACAAAATGGCTTAGCATTTAACAATAACCGAATAGAAAACAACCATTTCGCCATCAAC -AATCTCTTACATTCGCTTATATATTGACCACAACTGATACATCAGATTATGTGATGACTCGTGCTTAGATCAATT -TTTGCAATCATTAGCAAAAAGATTAATAAGCCATCTATATCAATTTATCTAACCTATTATGCCGTTCAAGAAATC -GCCGAACAGTTATTTTTAACAAATTTTTCTCTTCCCATTGACTTTCCCGGACACCTTGTCTGACCTAAGGTGCGC -GAAAGCCACTTTTTCCTTCCTGAGTTATCCACAAAGTTATGCACTTGCAAGAGGGTCATTTTCACACTATCTTGC -AGTGAATCCCAAACATACCCCCTATATATAGTGTTCTAAGCAGCTTCCCGTACTACAGGTAGTCTGCATGAAACT -ATTGCGGAAAGAATTCCAAAAACAGGTACGACATACATGAATCAGAATCTGCTGGTGACAAAGCGCGACGGTAGC -ACAGAGCGCATCAATCTCGACAAAATCCATCGCGTTCTGGATTGGGCGGCAGAAGGACTGCATAACGTTTCGATT -TCCCAGGTCGAGCTGCGCTCCCACATTCAGTTTTATGACGGTATCAAGACCTCTGACATCCACGAAACCATTATC -AAGGCTGCCGCAGACCTGATCTCCCGTGATGCGCCGGATTATCAGTATCTCGCCGCGCGCCTGGCGATCTTCCAC -CTGCGTAAAAAAGCCTACGGCCAGTTTGAGCCGCCTGCGCTGTACGACCACGTGGTGAAAATGGTCGAGATGGGC -AAATACGATAATCATCTGCTGGAAGACTACACGGAAGAAGAGTTCAAGCAGATGGACACCTTTATCGATCACGAC -CGTGATATGACCTTCTCTTATGCTGCCGTTAAGCAGCTGGAAGGCAAATATCTGGTACAGAACCGCGTGACCGGC -GAAATCTATGAGAGCGCCCAGTTCCTTTATATTCTAGTTGCCGCGTGCTTGTTCTCGAACTACCCGCGTGAAACG -CGCCTGCAATATGTGAAGCGTTTTTACGACGCGGTTTCCACATTTAAAATTTCGCTGCCGACGCCAATCATGTCC -GGCGTGCGTACCCCGACTCGTCAGTTCAGCTCCTGCGTACTGATCGAGTGCGGTGACAGCCTGGATTCCATCAAC -GCCACCTCCAGCGCGATTGTTAAATACGTTTCCCAGCGTGCCGGGATCGGCATCAACGCCGGGCGTATTCGTGCG -CTGGGTAGCCCGATTCGCGGTGGTGAAGCGTTCCATACCGGCTGCATTCCGTTCTACAAACATTTCCAGACAGCG -GTGAAATCCTGCTCTCAGGGCGGTGTGCGCGGCGGTGCGGCAACGCTGTTCTACCCGATGTGGCATCTGGAAGTG -GAAAGCCTGCTGGTGTTGAAAAACAACCGTGGTGTGGAAGGCAACCGCGTGCGTCATATGGACTACGGGGTACAA -ATCAACAAACTGATGTATACCCGTCTGCTGAAAGGTGAAGATATCACCCTGTTCAGCCCGTCCGACGTACCGGGG -CTGTACGACGCGTTCTTCGCCGATCAGGAAGAGTTTGAACGTCTGTATACCAAATATGAGAAAGACGACAGCATC -CGCAAGCAGCGTGTGAAAGCCGTTGAGCTGTTCTCGCTGATGATGCAGGAACGTGCGTCTACCGGTCGTATCTAT -ATTCAGAACGTTGACCACTGCAATACCCATAGCCCGTTTGATCCGGCCATCGCGCCAGTGCGTCAGTCTAACCTG -TGCCTGGAGATAGCCCTGCCGACCAAACCGCTGAACGACGTCAACGACGAGAACGGTGAAATCGCGCTGTGTACG -CTGTCTGCTTTCAACCTGGGCGCAATTAATAACCTGGATGAACTGGAAGAGCTGGCAATTCTGGCGGTTCGTGCA -CTTGACGCGCTGCTGGATTATCAGGATTACCCGATCCCGGCCGCCAAACGTGGAGCGATGGGTCGTCGTACGCTG -GGTATTGGTGTGATCAACTTCGCTTACTACCTGGCGAAGCACGGTAAACGCTACTCCGACGGCAGCGCCAACAAC -CTGACGCATAAAACCTTCGAAGCCATTCAGTATTACCTGCTGAAAGCCTCTAATGAGCTGGCGAAAGAGCAAGGC -GCGTGCCCGTGGTTTAACGAAACCACTTACGCGAAAGGGATCCTGCCGATCGATACCTATAAGAAAGATCTGGAT -ACCATCGCTAATGAGCCGCTGCATTACGACTGGGAAGCTCTGCGTGAGTCAATCAAAACGCACGGTCTGCGTAAC -TCCACGCTTTCTGCTCTGATGCCGTCCGAGACTTCTTCGCAGATCTCTAACGCCACTAACGGTATTGAACCGCCG -CGCGGTTACGTCAGCATCAAAGCGTCGAAAGACGGTATTTTGCGCCAGGTGGTGCCGGACTACGAGCACCTGCAC -GACGCCTATGAGCTGCTGTGGGAAATGCCGGGTAACGATGGTTATCTGCAACTGGTGGGTATCATGCAGAAATTT -ATCGATCAGTCGATCTCTGCCAACACCAACTACGATCCGTCACGCTTCCCGTCAGGAAAAGTGCCGATGCAGCAG -TTGCTGAAAGACCTGCTCACCGCCTACAAATTCGGGGTCAAAACACTGTATTATCAGAACACCCGTGACGGCGCT -GAAGACGCACAAGACGATCTGGTGCCGTCAATCCAGGACGATGGCTGCGAAAGCGGCGCATGTAAGATCTGATAT -TGAGATGCCGGATGCGGCGTAAACGCCTTATCCGGCCTACGGCTCGGTTTGTAGGCCTGATAAGACGCGCCAGCG -TCGCATCAGGCTCCGGGTGCCGGATGCAGCGTGAACGCCTTATCCGGCCTACGGCTCGGATTTGTAGGCCTGATA -AGACGCGCCAGCGTCGCATCAGGCACAGGATGCGGCGTAAAATGCCTTATCCGGCATTAAACTCCCAACAGGACA -CACTCATGGCATATACCACCTTTTCACAGACGAAAAATGATCAGCTCAAAGAACCGATGTTCTTTGGTCAGCCGG -TCAACGTGGCTCGCTACGATCAGCAAAAATATGACATCTTCGAAAAGCTGATCGAAAAGCAGCTCTCTTTCTTCT -GGCGTCCGGAAGAAGTTGACGTCTCCCGCGACCGTATAGATTACCAGGCGCTGCCGGAGCACGAAAAACACATCT -TTATCAGCAACCTGAAATATCAGACGCTGCTGGATTCCATTCAGGGTCGTAGCCCGAACGTGGCGCTATTGCCGC -TTATTTCTATTCCGGAACTGGAAACCTGGGTCGAAACCTGGGCGTTCTCAGAAACGATTCATTCCCGTTCCTATA -CTCATATCATTCGTAATATCGTTAACGATCCGTCTGTTGTGTTTGACGATATCGTCACCAACGAGCAGATCCAGA -AACGTGCGGAAGGGATCTCCAGCTATTACGATGAGCTGATCGAAATGACCAGCTACTGGCATCTGCTGGGCGAAG -GTACCCACACCGTTAACGGTAAAACTGTGACCGTTAGCCTGCGCGAGCTGAAGAAAAAACTGTATCTCTGCCTGA -TGAGCGTTAACGCGCTGGAAGCGATTCGTTTCTACGTCAGCTTTGCTTGTTCCTTCGCATTTGCAGAACGCGAAT -TGATGGAAGGCAACGCCAAAATTATTCGCCTGATTGCCCGCGACGAAGCCCTGCACCTGACCGGCACCCAGCATA -TGCTGAATCTGCTGCGCAGCGGCGCGGACGATCCTGAGATGGCGGAAATTGCCGAAGAGTGTAAGCAGGAGTGCT -ATGACCTGTTTGTTCAGGCAGCTCAACAGGAGAAAGACTGGGCGGATTATCTGTTCCGCGACGGTTCGATGATTG -GTCTGAATAAAGACATTCTCTGCCAGTACGTTGAATACATCACCAATATCCGTATGCAGGCAGTCGGTTTGGATC -TGCCGTTCCAGACGCGCTCCAACCCGATCCCGTGGATCAACACTTGGCTGGTGTCTGATAACGTGCAGGTTGCTC -CGCAGGAAGTGGAAGTCAGTTCTTATCTGGTCGGGCAGATTGACTCGGAAGTGGACACCGACGATTTGAGTAACT -TCCAGCTCTGATGGCCCGCGTTACCCTGCGCATCACTGGCACACAACTGCTGTGCCAGGATGAACACCCTTCCCT -TCTGGCGGCGCTGGAATCCCACAATGTGGCGGTTGAGTACCAGTGTCGCGAAGGTTACTGCGGCTCCTGTCGCAC -ACGCCTGGTTGCAGGTCAAGTTGACTGGATTGCCGAACCGTTAGCCTTTATTCAGCCGGGGGAAATTTTGCCCTG -TTGTTGCCGGGCAAAAGGCGATATTGAAATCGAGATGTGAATTGGTTGTAGTGCCAGATACAACGCTTATGCGTC -TTATCTGGCCTACAACGATTACATGGCGTAGTAATACGCTTTCACCTGCTCCCAGTCCGCTTTGGGGATTGGCTC -CAGATATTTTTCCAGCTGGCGGAAGTCATGATTAATCGCTTTATCGCGACGCAAGCGGCGACGACTTTTCTCCAG -GTCAAGAAAACCAGCTTCTGCATTACCTTCTGTTTTCACATAGATATGGCGAACATAACAACAGCCATGCTGACG -ATTAATGCTATGCATTTTCTTAAACGCCAGCGCCACTGCTTTCAACATGGCTTGCCGTACTTCGTCAGAATAAGG -CGATACTGCATGCTGGGCATACCAGTCAGCAATGCTGATGAACCCCGCCATATCTTCAGTCACCAGCAACGCTCG -CCATTCACCCTCAATTTTCACCGCTTCACCAAAAACGATCTTCGGCACGATGACACCGGCCCGTTCCAGTTCTTT -AATTACCGCAACCTCACGGACAATCGTTGGTCGGCCGAACGGATAACGTACGGAATGAAACAGATGATGCGTCAT -GCGCTTTACATACAGCTTTTTGCCGTTGCGCTCGACGCATTGCACCCCGCTCATACCATTACGGCGATAGTTAGG -CTCTTCAACCCAGTCGCCCTCTGTTGCCCACCAGTGATTAAATTCGTCGTACTTTGCTGAAACTGCCATACCCTA -TCGCCTGTCATTTTTATTAACGACAATGACTATAGGTGGTTACCTGAGGAAAATCTTAATGAAACGTGTCGTATT -AATGAATTTCTTTTGCCACTACTAGCTTGACACCGCTTTTACCCTTCATTTGCAGCGCATAGATTCCACCAGCCA -CTACCACTAATAGTGCGCCCAGCAGATAAAATGTGAATTTAATCAGGCGGATACAGCGATGAATTTTATTCGACA -GGGATTAGGCATCGCCTTACAACCAGAGTTAACGCTGAAAAGCATTGCAGGTGAATTGTGTTCCGTTCCTCTCGA -ACCAACTTTCTATCGACAGATTTCGTTGCTGGCTAAAGAAAAGCCGGTAGAAGGCAGTCCACTGTTTTTACTACA -AATGTGCATGGAACAATTAGTGGCGATTGGAAAAATTTGATATGAGACAGGATGGCGCATGAACGCCATCCTGCA -GTAACATTACTCTTTATTAAGAAATTTTACTGCCTTATCAGGGAAATCAGTAAACAGCCCATTTACACCCGCTTT -GTTATACAGAGCATCATATAACTGATTCACATCAGGAGTGTATTCAGGCAGTTTATCTGACCGCACGGTATAAGG -ATGCACTACCAGTTTATTCTGCTGAGCATCTTGCACCATGCCAGTGAGTTTGATATTACCCGGCTGCGATGTCTC -CTCAATCAACATATGGTAATCCGGACCAATACCATCTGCATATTCCGCCACCTGTTTCATGGCACCCGGCTTAAA -CATCCAGTCGTAGTTGTAATTAACCCAGCTTCCATCCGGCTGTTTCTGCTGCGTTTCATTCCAGTCGGTATAGGC -AATCAGCTGTACCAGATTGAGCTCCATGCCCATTTTGGGTTCCAGCTCATTCTTAATACGCTTCAGCTCATCAGC -ATCAAAACATTGCAAATAAACTTTATCGTCTTTACCGGTGTAACCATATTTCTTCAGCACTTCCAGCGTTTTTGC -CGCAATATCCTTCCCTTCCTGATGATGGAACCACGGCGCTTTGATTTCTGGATAAATACCGATATTTTTCCCGGT -AGAGTGATTTAACCCCTGAACAAATTCAATCTCTTCTTCAAAGGTGTGCACCCGGAAGTCGGACTTACCCATTGG -GAAACGCCCCGGATAAGTCTGCACTTTTTTACCGTTTTCAATATCGAAACCTTCGGTAAATTTCAACGACTTAAT -TTCATCCAGCGTGAAATCTATCGCGTAGTAACGACCGTCTTTGCGCGCCCGATCCGGGAAACGATCGGCAACATC -AGTAACACGATCGAGGTAATGGTCATGCAGAACAACCAGATTGTCGTCTTTGGTCATCACCAAATCCTGTTCCAG -ATAATCCGCTCCCTGCGCATACGCCATCGCTTTTGCTGGCAGCGTATGCTCCGGCAAATATCCACTGGCACCGCG -ATGGGCGATGACTATTTTTTCGTTGCTGTCCGCCGCCATTGCACTGCTTCCCATGACTATAGTGCTCATCATGAT -CGCCATGCTAAGGTTTTTCAGCGTCAATTTCATGCCATTAGCCTCCGTTGCGTTCTTGCAGTAATTGTTCATGGC -GACGTTTTTCGCCAATCATCACAACAATCAACAAGATAACCGCCAGAATGCTGCCGCCAATCATTACCATAAAGC -CGCCATCCCAGCCGAAGAAGTCCACGGTGTAGCCAACAATCGCGCTCGCCGCCACCGAACCGCCCAGGTAACCAA -ACAGCCCGGTAAAGCCCGCTGCCGTACCTGCCGCTTTTTTCGGTGCCAGTTCCAGCGCATGCAGACCGATCAGCA -TCACAGGACCGTAGATCAGGAAGCCGATAACAATCATACAAATCATATCGACGGTTGGGTTACCTGCCGGGTTCA -TCCAGTAAACGATAGTCGCGATGGTCACCAGTGTCATAAAGAAAACGCCGGTTGCCCCACGGTTGCCACGGAAGA -CTTTATCCGACATCCAGCCGCACAGCAGAGTGCCCGGAATACCTGCATATTCATAAAGGAAGTAGGCCCAGGAGG -ATTTATCTAGCGCGAAATGCTTAACCTCTTTCAGATAAGTCGGTGACCAGTCGAGGATGCCGTAACGCAGCAGAT -AAACGAACACGTTGGCGATGGCGATATACCACAGCAGTTTGTTCGGCAGTACGTACTGCATGAAGATTTGCTTCG -CCGTCAGCTCCTGTTCCGCTTTTTCGTTATAGTCGTCCGGATAATCATTTTTGTACTCTTCGATCGGCGGCAAGC -CACAGGATTGCGGGGTATCGCGCATCATCGCAAAGGCGAATAATGCCACCAGAATGGCGCAGAAAGCAGGCATAT -AGAGCGCCGCATGCCAGTCATTGAACCAGGCCATCCCCAGCAGGAACAGCAGCGGCGGAATACCACCACCGACGT -TGTGCGCACAGTTCCACACTGACACAATGCCGCCACGTTCTTTCTGCGACCACCAGTGCACCATAGTACGACCAC -ACGGCGGCCACCCCATCCCCTGGAACCAACCGCAGAGGAACAACAGTACAAACATCACCGCAATGCTCGACGTCG -CCCATGGCACAAAGCCCATAAACAACATCACTGCCGCCGCCAGAATCAAACCTGCGGGCAGGAAAACGCGCGGAT -TCGAGCGATCCGATACCGAACCCATGATGAATTTCGAAAATCCATAAGCAATCGAGATCCCCGAAAGGGCAAAAC -CTAAATCACCGCGTGAGAATCCCTGCTCAACCAGATAAGGCATAGCAAGCGCAAAGTTCTTACGAACCAAATAGT -AAGCCGCATAGCCAAAGAATATCCCCAGGAAAATTTGCCAGCGCAATCGACGATAAGTCGGATCGATCTCCGCGG -CAGGTAAGCGCGCTTTGTGTGGCGCTGGTTTAAAAATACTCAACATTGATAGCCTCCGTGGCCCGTGGTCTTATT -TATGATTAACAGCCTGATTCAGTGAGAGAACCTGCCGTTTCTTGAGTTGCCGCGATGTTAAGAAAACATTCATAA -ATTAAATGTGAATTGCCGCACACATTATTAAATAAGATTTACAAAATGTTCAAAATGACGCATGAAATCACGTTT -CACTTTCGAATTATGAGCGAATATGCGCGAAATCAAACAATTCATGTTTTTACTATGGCTAAATGGTAAAAAACG -AACTTCAGAGGGATAACAATGAAAACTCGCGACTCGCAATCAAGTGACGTGATTATCATTGGCGGCGGCGCAACG -GGAGCCGGGATTGCCCGCGACTGTGCCCTGCGCGGGCTGCGCGTGATTTTGGTTGAGCGCCACGACATCGCAACC -GGTGCCACCGGGCGTAACCACGGCCTGCTGCACAGCGGTGCGCGCTATGCGGTAACCGATGCGGAATCGGCCCGC -GAATGCATTAGTGAAAACCAGATCCTGAAACGCATTGCACGTCACTGCGTTGAACCAACCAACGGCCTGTTTATC -ACCCTGCCGGAAGATGACCTCTCCTTCCAGGCCACTTTTATTCGCGCCTGCGAAGAAGCAGGGATCAGCGCAGAA -GCTATAGACCCGCAGCAAGCGCGCATTATCGAACCTGCCGTTAACCCGGCACTGATTGGCGCGGTGAAAGTTCCG -GATGGCACCGTTGATCCATTTCGTCTGACCGCAGCAAACATGCTGGATGCCAAAGAACACGGTGCCGTTATCCTT -ACCGCTCATGAAGTCACGGGGCTGATTCGTGAAGGCGCGACGGTGTGCGGTGTTCGTGTACGTAACCATCTCACC -GGCGAAACTCAGGCCCTTCATGCACCTGTCGTGGTTAATGCCGCTGGGATCTGGGGGCAACACATTGCCGAATAT -GCCGATCTGCGCATTCGCATGTTCCCGGCGAAAGGATCGCTGCTGATCATGGATCACCGCATTAACCAGCATGTG -ATCAACCGCTGCCGTAAACCTTCCGACGCCGATATTCTGGTGCCTGGCGATACCATTTCGCTGATTGGTACCACC -TCTTTACGTATTGATTACAACGAGATTGACGATAATCGAGTGACGGCAGAAGAGGTTGATATTCTGCTGCGTGAA -GGGGAAAAACTGGCCCCCGTGATGGCGAAAACGCGCATTTTGCGGGCCTATTCTGGCGTGCGCCCGCTGGTTGCC -AGCGATGACGACCCGAGCGGACGTAACGTCAGCCGTGGCATCGTGCTGCTCGACCATGCTGAACGCGATGGTCTG -GACGGATTTATCACCATCACCGGTGGCAAACTGATGACCTATCGGCTGATGGCTGAATGGGCTACCGACGCGGTA -TGCCGCAAACTGGGCAACACGCGCCCCTGTACGACTGCCGATCTGGCACTGCCTGGTTCACAAGAACCCGCTGAA -GTTACCTTGCGTAAAGTCATCTCCCTGCCTGCCCCGCTGCGCGGTTCTGCGGTTTATCGTCATGGCGATCGCACG -CCTGCCTGGCTGAGCGAAGGCCGTCTGCACCGTAGCCTGGTATGTGAGTGCGAAGCGGTAACTGCGGGTGAAGTG -CAGTACGCGGTAGAAAATTTAAACGTTAATAGCCTGCTGGATTTACGCCGTCGTACCCGTGTGGGGATGGGCACC -TGCCAGGGCGAACTCTGCGCCTGCCGCGCTGCCGGACTGCTGCAACGTTTTAACGTCACGACGTCCGCGCAATCT -ATCGAGCAACTTTCCACCTTCCTTAACGAACGCTGGAAAGGCGTGCAACCCATCGCCTGGGGAGATGCACTGCGC -GAAAGCGAATTTACCCGCTGGGTTTATCAGGGATTGTGTGGTCTGGAGAAGGAGCAGAAAGATGCGCTTTGATAC -TGTCATTATGGGCGGCGGCCTCGCCGGATTACTCTGTGGCCTGCAACTGCAAAAACACGGCCTGCGCTGTGCCAT -TGTCACTCGTGGTCAAAGCGCACTGCATTTCTCATCCGGATCGCTGGATTTGCTGAGCCATCTGCCAGATGGTCA -ACCGGTGACAGACATTCACAGTGGACTGGAATCTTTGCGTCAGCAGGCACCAGCCCATCCTTACTCCCTTCTCGA -GCCACAACGCGTGCTCGATCTCGCTTGCCAGGCGCAGGCATTAATCGCTGAAAGCGGTGCGCAATTGCAGGGCAG -CGTAGAACTTGCTCACCAGCGGGTTACGCCGCTCGGCACTCTGCGCTCTACCTGGCTAAGTTCGCCAGAAGTCCC -CGTCTGGCCGCTGCCCGCGAAGAAAATATGTGTAGTGGGAATTAGCGGCCTGATGGATTTTCAGGCGCACCTTGC -GGCAGCTTCGTTGCGTGAACTCGGCCTTGCCGTTGAAACCGCAGAAATAGAGCTGCCGGAACTGGATGTGCTGCG -CAATAACGCCACCGAATTTCGCGCGGTGAATATCGCCCGTTTCCTTGATAATGAAGAAAACTGGCCGCTGTTACT -TGATGCGCTTATTCCTGTCGCCAATACCTGCGAAATGATCCTGATGCCCGCCTGCTTCGGTCTGGCCGATGACAA -ACTGTGGCGTTGGTTGAATGAAAAACTACCTTGTTCACTGATGCTTTTGCCAACGCTGCCGCCTTCCGTGCTGGG -CATTCGTCTGCAAAACCAGTTACAGCGCCAGTTTGTGCGCCAGGGTGGCGTGTGGATGCCGGGCGATGAAGTGAA -AAAAGTGACCTGTAAAAATGGCGTAGTGAACGAAATCTGGACCCGCAATCACGCCGATATTCCGCTACGTCCACG -TTTCGCGGTTCTCGCCAGCGGCAGTTTCTTTAGTGGCGGACTGGTAGCGGAACGTAACGGCATTCGAGAGCCGAT -TCTCGGCCTTGATGTGCTACAAACCGCCACGCGGGGTGAATGGTATAAGGGAGATTTTTTTGCGCCGCAACCGTG -GCAGCAGTTCGGTGTAACCACTGATGAGACGCTACGCCCGTCACAGGCAGGGCAAACCATTGAAAACCTGTTTGC -CATCGGTTCGGTGCTGGGCGGATTTGATCCCATCGCCCAGGGATGCGGCGGCGGTGTTTGTGCCGTCAGTGCTTT -ACATGCCGCTCAACAGATTGCCCAACGCGCAGGAGGCCAACAATGAATGACACCAGCTTCGAAAACTGCATTAAG -TGCACCGTCTGCACCACCGCCTGCCCGGTGAGCCGGGTGAATCCCGGTTATCCAGGGCCAAAACAAGCCGGGCCG -GATGGCGAGCGTCTGCGTTTGAAAGATGGCGCACTGTATGACGAGGCGCTGAAATATTGCATCAACTGCAAACGT -TGTGAAGTCGCCTGCCCGTCCGATGTGAAGATTGGCGATATTATCCAGCGCGCGCGGGCGAAATATGACACCACG -CGCCCGTCGCTGCGTAATTTTGTGTTGAGTCATACCGACCTGATGGGTAGCGTTTCCACGCCGTTCGCACCAATC -GTCAACACCGCTACCTCGCTGAAACCGGTGCGGCAGCTGCTTGATGCGGCGTTAAAAATCGATCATCGCCGCACG -CTACCGAAATACTCCTTCGGCACGTTCCGTCGCTGGTATCGCAGCGTGGCGGCTCAGCAAGCACAATATAAAGAC -CAGGTCGCTTTCTTTCACGGCTGCTTCGTTAACTACAACCATCCGCAGTTAGGTAAAGATTTAATTAAAGTGCTC -AACGCAATGGGTACCGGTGTACAACTGCTCAGCAAAGAAAAATGCTGCGGCGTACCGCTAATCGCCAACGGCTTT -ACCGATAAAGCACGCAAACAGGCAATTACGAATGTAGAGTCGATCCGCGAAGCTGTGGGAGTAAAAGGCATTCCG -GTGATTGCCACCTCCTCAACCTGTACATTTGCCCTGCGCGACGAATACCCGGAAGTGCTGAATGTCGACAACAAA -GGCTTGCGCGATCATATCGAACTGGCAACCCGCTGGCTGTGGCGCAAGCTGGACGAAGGCAAAACGTTACCGCTG -AAACCGCTGCCGCTGAAAGTGGTTTATCACACTCCGTGCCATATGGAAAAAATGGGCTGGACGCTCTACACCCTG -GAGCTGTTGCGTAACATCCCGGGGCTTGAGTTAACGGTGCTGGATTCCCAGTGCTGCGGTATTGCGGGTACTTAC -GGTTTCAAAAAAGAGAACTACCCCACCTCACAAGCCATCGGCGCACCACTGTTCCGCCAGATAGAAGAAAGCGGC -GCAGATCTGGTGGTCACCGACTGCGAAACCTGTAAATGGCAGATTGAGATGTCCACAAGTCTTCGCTGCGAACAT -CCGATTACGCTACTGGCCCAGGCGCTGGCTTAAACTCCTTTCTGATGCCCGGTAAGCATGTGGTTACCGGGCATT -TTTGCGTACACGATTCCGTGCCCAATGTATGCGTTGCAACGCAGTGAAAATTCCTCTGAAAACGTCTCGCAAAGG -CTGAAACTGGCAGATGTCAAAGGCCTGGGATAACCGTAATGTCGCGTCATCATAAATATCAGGTGACGGACAACC -ATGACCGAATCAACAACCTCCTCCCCGCATGATGCGGTATTTAAAACCTTTATGTTCACACCCGAAACCGCACGG -GATTTTCTCGAAATACATTTACCAGAACCACTGCGCAAGCTTTGCAACCTGCAAACCTTACGCCTGGAACCCACT -AGTTTTATTGAAAAAAGTTTACGCGCTTACTACTCGGATGTTTTGTGGTCCGTGGAAACCAGCGACGGTGACGGC -TATATCTACTGCGTGATTGAACATCAAAGCTCTGCAGAAAAGAATATGGCTTTTCGGCTAATGCGCTATGCCACT -GCCGCCATGCAGCGTCACCAGGACAAAGGCTATGACAGAGTCCCGCTGGTGGTGCCGTTGCTGTTTTATCATGGC -GAAACCTCGCCTTACCCGTACTCACTCAACTGGCTGGATGAGTTTGACGATCCGCAACTTGCCCGGCAGTTGTAC -ACCGAAGCTTTTCTGTTGGTGGATATCACCATCGTACCTGACGATGAGATCATGCAACATCGGCGTATAGCTCTG -CTGGAACTGATTCAAAAGCATATTCGCGACCGCGATTTAATCGGCATGGTCGACAGGATCACCACGCTTTTGGTT -AGAGGCTTCACTAATGACAGCCAGCTACAAACACTGTTTAATTATCTGCTGCAATGCGGCGATACCTCCCGTTTC -ACCCGTTTTATTGAGGAGATTGCCGAACGTTCACCACTACAAAAGGAGAGATTAATGACTATTGCTGAACGGCTA -CGGCAGGAAGGGCATCAAATTGGCTGGCAGGAAGGTATGCATGAACAAGCCATTAAAATTGCTTTGCGCATGCTG -GAGCAGGGCTTTGAACGTGAGATTGTGCTGGCGACAACCCAACTCACTGATGCTGATATTCCGAACTGTCATTAA -AAGGAGAGATTAATGACTATTGCTGAACGGCTGCGGCAGGAAGGACATCAAATTGGCTGGCAGGAAGGTAAATTA -GAAGGTTTGCATGAACAAGCCATTAAAATTGCTTTGCGCATGCTGGAACAGGGCTTTGATCGTGACCAGGTGCTC -GCGGCCACCCAGCTAAGCGAAGCCGATCTGGCAGCGAATAACCACTAATTAACACAGGCCCACAGCCGATCCCCA -TGGGCCTTTGATATCAATAACTACCTTTTATGCGTGGCCCATTTTTGCCTGATTTAAACATCGCCAGTCGTTGAT -CCAGGGCATCGCTGTAGAGCATCGTGTCAACGCCAACAGCGACAAAGTTCGCTCCCCACGCCAGGCATTGCTGCG -CCATATCAGGAGCCACAGCCAGAAAACCAGCCGCTTTACCCGCAGCACGGATCCGCCGAATACTGGTTTCAATAA -TTCGCTGCACTTCCGGGTGCCCGGCGTTATCCGGGTAGCCCAACGACGCAGAAAGATCCGCAGGTCCAATAAACA -CGCCATCAATCCCTTCGACGTCGAGGATTTCGTCCAGGTTATCCAGTGCCGTTTTACTTTCCACCTGCACCAACA -GACAAAGCGAATCGTTAACTTGCGCCATGTAATTCTCAATGCGTCCCCAGCGCGCAGCCCGTGCCACACTGGCCC -CGACACCACGCTCACCGTAGGGAGGATAGCGCGTGGCAGACACCACCTGACGTGCCTGTTCGGCAGTATCGACCA -TCGGGATCAGTAGAGTTTGCGCGCCAATATCCAGGACTTGTTTAATCAGCGGTTTACTGCCTTCCACCGGACGGA -TCACGGGTTGGCTGGCATAGGGCGCTACCGCCTGTAGCTGATGATAAAGATCCTGAATGGTGTTTGGCGCGTGCT -CCCCGTCAATCAGCAACCAGTCATAACCAGAAGTGGCGGCAATTTCTGCCATATAGGCAGTCGTTGAGCTTAACC -ACAGACCAATTTGCACTTCGCCCTTGCGTAAACGTTCTTTAAAGGGATTGCTTAATAATGCGTTCATCGTGTTCC -TTAACCTATTTAATGATGTGCCACGTCGGTCTGCGCAACAGTGCGATTTACACGCAGAGTGAAAATAATCAGCGA -ACCGATGACCGCCACCGCTGCCAGCGTCAGTAATCCCGCCGCATCGCTGGCAAATAACGTTTCTGCTTTCACGCG -CAGGATCGGGGCAATAAACCCGCCCACTGCACCAAACAGGTTTACAAAACCAATTCCCGCAGCCAGCGCCGTACC -GGAAAGCAGTTGTGTCGGCATCGTCCAGAACACTGGCTGCACGGCAATAAACCCGATAGCTGCAACACACAGCGC -TACGATCGCCATTACTGGAGAAAGCAGCCCGGACAGACCAATACCAATGCCCGCCGCCAGTAATGTCAGCGCTGC -GACATTACGCCGTTCGCCGGTTTTATCGGAATAGCGCGGAATAAGCCAGGTCCCAAACAAGGCCGCAACCCACGG -AATGGCGGTGACCACCGACGCTGTAAAGCCCACTTTTGTTCCCAGCAATGCCGCAACCTGGGTCGGCAGGAAGAA -AATTAATCCGTAAACCGCCACCTGAATGGTCAGGTAGATAATCGCTAGTTGCCAGACTCGGCCATTACGCAGCGC -ATCGCTCAGCCGAGAAGTCACTTTCTGTTGTTCTTCACTTGCCAGTTGATTGATAAGCAACGTTTTTTCTTGTTT -ACTCAGAAAACGTGCCTGCTCCGGTGTGTCATCAAGCCAAAAGAATGTGAATACCCCAGCACCGACTGCCAACAA -TCCTTCAATCACAAACATCCAGAACCAGCCGGGATGCCCCATAAATCCATGCATCTCCAACAGCGCGCCGGAAAG -CGGTGATCCCAGTGTTAACGCCAGCGGTGCGCCCATATAGAACAGCCCCATAATGCTGGCGCGATTACGCTGCGG -AAACCATTGCGAGGTGAGATAAATCATACCAGGGAAAAATCCGGCCTCCGCAGCACGAAGCAGAGTGCGAACTAT -CAGAAATTTCGCTTCAGTATCGGCCCATGCCATGGCTGCCGAAAGAAATCCCCACAGCAGTGTTGTCGTACCAAT -CCAGGTTCTGGCCCCCAGTTTGCGCATCAAAAGATTCGCCGGAACACCCAGAAACGCATATACCACAAAGAAAAT -GCCTGCTCCCAGCGCATAAGCTTCATTACTCAACCCGGTATCAATCTGGTAGGTCTGTTTGGCAAAACCGATATT -CGAACGGTCGAGAAACGCCAGCACATACAGCGCCAACATAAACGGAATTAAACGCACACGGTTTTTCTTCACCAC -GGCGTCAAGCAAAGCGGTGCTCATAAAAAGCTCCTTAGAATATGTGGGCGTTACCGTTGTCACAGCAACGCCCGG -AGTGATTAGTGGCTGTAGGGGCGTTTCAAATTGCAGTCACGATTGAGTTCGACGCCAAAACCGGGTTTATCAAGC -ACTGATTTATGAATACGACCATTCACCGGAACCGGCTCATTGAGCAGAATCGGGTCAAACTGCGGACGCATCGTT -GAACAATCCGGGCTGGTCATCAGGAATTCGCTGAATGGCGTATTGGTGAAGGTGATCACCGCATGGTGAGAGTAA -ACAGACGAACCGTGCGGCACCACCAGTTGCCCCCTGGATTTGGCGATTGCGGCAATTTCCACCAGCGTGGTTAAA -CCACCGCACCAGCCAACATCCGGCTGCATAATGTCGATACCGGTTTCTGAAAGCGTACGAAAAGATTGCAGTGTG -CCGTGGTGCTCACCGCTGGTGACCATCATTCCGACTGGCGCGTTGCGTTTCAGTTCGCGATAACTTTCATACTGC -TGTGGCGGCAGGCACTCTTCGATCCATTTCAGGTTATAGGGCGCGCAAGCGTGGGCCAGTTTGGTCGCATAGTTC -ACGTCCTGACTCATCCAGCAGTCGAGCATTAACCAGAAATCCTCACCGCATTTTTCACGCATATCCGCGACCATA -GCGGCATCTTTGCGGATCCCCGCATCGCCATCATGTGGCCCCCAGTGCGTCGGCATTTTGCCACCGATAAAGCCC -ATCTCTTTTGCCAGATCCGGACGCGCACCTGTGGCGTAGAACTGAATCTCATCACGAACAGCGCCGCCTAAAAGT -TTATAAACCGGAAGCCCGACCACTTTGCCGAACAGATCCCACAGAGCCAGATCGACACAAGAAATCGTATTCATC -ACCAGGCCACCAGAGCCGGAGTAATACAGGGTGGCACTGAGCATTTGATCGTGGATCAGTTTGATATCACTGACA -CATTTACCCTCAATGAAACGGTTAAGATGTTTTTCGACAATAAAACAGCCCATTTCACCGGCTGTCGAAACGGCG -AATCCGGTCTGGCCGTTTTCTGCTTCGACTTCAACAACCAACGTGCCAAGAACGTTAATGCCAAATGACTGGCGT -GACTGCTCGTAATCGCGGTATTTACTCATCGGGGTGGCAATATGATCGTCTATCCAGTGATTCGCCCCCTGGTCG -TGATAATCACCGCCGCCAGCGCCTTTTTCTGCTGTCGCACCGCCAGTAAACCAGGCGCGAACCTGTTTAATTTTT -GGTAGGGTCATGATGTTCTCCATTGTTATGAGGCTTGTAAGTCAAAGGGACTTTTCCATCCCAACAGACGTGAAA -TATCCCTGGCGCAGGCAATGGCCTTGCCCGCCAGATAATCACGGTATTCTTCATTGATTTGTAAGCGGGTACCGA -CCACCGAGATCGCAGCGGTAAGCTCGTTATTGGCGTTAAACACCGGCGCAGCGACACAACGGACATCGGCGTAAT -CTTCGCCGTTGTCATAGCTCCAGCCCTGACGGCGAATACGCGCCAGTTCTTCGTGAAGTTGCTGTGGATGAGTAA -TCGTTGTGGGTGTCGCCTGCTCCCAGACCAGCCCTTCGATAATACTTTGCTGTACCGCTGCAGGTTGCCAGGCAA -GCAGGCATTTACCTATTCCGGAGCGATAAAGCGAAAGGCTTTTTCCTTCATGGGAACGCACGCTGATAGTGGCTG -ATGACTCCACTTTCAAAATGTAATAAGCGCTGCCGTTATCAATAATCCCCAGGTGACATAACAGCCCGGTGGTAT -CCATCAGTTGCGTCAAACGCGGTCGAGCCAGTTCCCGGAGATCCATCTTGCTTAACGCATGACCGGAAAGCTCCA -CCAGCCTGGTCCACAAACAAAAATTTTCCTGGTGATCAAGGCTAAGAAAACGCTGACGCCTGAGTTCATTAAGCA -GCAAATAGGCCGTGCTTTTAGGGATTCCCAATGTGTCAATGATCGTCGCAGCACTACAGGGGCCAATGCGGGCAA -TCAAATTGAGAATATCAATAGCCCGTGTCAGGGCGGGAACTTTGCTTGATTCCAACATACTGGACTCCAGTCTTA -GATACTGGAATCAGTCTCGTTGCTCAGGGGGAGTAAAATTGTGAAGCGCATCAAATCCCGCTCCTCGTCCAGCAG -ACTGGAGAAATTACGCACAAATTTGTGAATCAGCGCACGGATTTTTTCTTATTGAGTACAACAGGTTGGACAAAT -TTTGCCGGAGGGGGAATGTGCCGGTGCAGTAAACCGGCACAGAGTGGCGGAATCAGACAGATAAGGTCATGGACT -CAACAACCTCAATCCAGCCATGCTCACTGGCGATATCCTGGCCGTTTAACCAACGGCGCAGCATATTCAGTGCCA -TCATTGCGCACACTTCCTGACGGATAGCCAGGCTGTAGCGCGTAGTGCTGAAACGCACACGCAGAGCGAAAGTGC -CGTCTGGCGTGGCTAGCGCAAAGTTGAGATGCTCGTTCTCGAAACCCGAAACAGCCAGTGCCAGCCCGGCAAAAT -GGTTGGCCCGCCGTTCTGTAATCCAGTGCGCAGTTTGCGCCAGGGTTTCCTCCTGTGAAGGAACCACTTCACACG -CCAGCAATGGAGCACCTGCGCGAGAAAGTTGCAAAGCCAATAAACCACCGGTGAATTGCTCGCTCAACGTCAGGC -TGAACTGGCGGTTTTGCAATTCGCGACTGATCTGCGCGGGCAGTCCTTCAGTGCCTTCGAAAATCACGCTCTGTC -CGGCAACACGTTTAACATCCAGCCACAGTTTTTCCATCGCCTGTTGCTCGCTTGCCGGTCCGGTGAGTTTCAGTT -CGATGATAGGCATTGAGGAGCGATAGCCCATTGTTACGCCCGGCGGCAGTTGTAGAGTGTCCAGGCTTTGTGCCA -GATCGCTTTCCGAACGACCAAAAGTAGTCAAACGCAGACAAACCGGCGGCTGCGGTAAAGAAAAACGCTCGCGCA -GGCGCGGCAGGATTTCGTGCTCGACCATCACCTTAAATTCTGACGGTACGCCGGGAGTAAAGAACATCAGGCAAC -GATTAAGCTGCACGGCAAAACCACAGGCGGTGCCTACCGGGTTATTGATAAATTCAGCACTGGCAGGCAGCTCCG -CTTGTTTACGGTTGCTCGGTGCCATTACTCGTCCACGTTCGTGGAAATAGCGTTCCATCTCTTTGAGCCAGGCTT -CATGCAGCACCAGGCCTTCACCTTTTGCTGTCGCAGCGGCGAGTGCGCTTAAATCATCGCTGGTCGGTCCCAGCC -CGCCGTTAACGATCAGCACATCGGCGTGCTGACTACGTTCGCGAAGAATGGTGACTAAGTCATCAAGGTTATCCC -CCACCGTATTGCGGCGAGATAATGGCAACCCCTGATGAAAGAAAAAATCGGCCAGCCAGGCAGCGTTAGTGTCAA -CGATTTGCCCGTGTAACACTTCATCCCCGGTGGATAACATTTCCACTTTTAACATGGTTATCTCCTGCTTTTGTT -ATCGAATCACTATAACGCAAAGGGAGATAAGGCGTAGTAAGAAACTGAATGGCGCGACAGAATGCCGCGCCGGAA -GGGATCAGAAACTGGCGTTAACCCCAACATACGGGCCGTCAGCCACGGCGTTGTCGCGGTTACCGTCTTTACCCG -ACAGATTCAGGTAGCGATAACCCGCCTCAATACTGACTGGACGCATAATGGTGTAACGCGCGCCAGCATTCGCTT -CTTCATAACTTTGAATACCGCTGGAGAGCGAATCCGGAGAGTAGTAATACTCGCCAAACAAACGGAAGCTGTTGC -CAATTTTCCACTGCAAACCACCTCCTACCGCTGCGGCATAACCTTCATCGCCGTAATTCGGGTTGGTGTAAACGC -CTTTTCCGCCAACGGTCGCCATTAACGGCCCGAGAGGCAGATTCAACCCCAGCCCCACGCCAGCGACATCACCGT -CGTCGTCGTTATGTGTCCAGTTACCGCTTAACGCCAGGCCCGTCGTTTCAGTCCCAAAACCGACACCAATATTGG -TGTATTCTTTACCCGCCTGACCGCTGATGCTCATTGCATTGACCGATGCAGAAACCAACAGCATTCCGGCCAGAC -CTGCTAGCGCAATTTTTTTCATTATCCCCTTTCCCACAAGCAATTAATCAAAATTCCCAAAGCTGCGGGATTGTA -CTGCCTGGCACAGAGGATTCAATGAGCGAAAAAAAGGATCTAGTCACTTATTGTAACTAAATACTTCTTAAATAA -TTAAATGCCGAAAAAATAAACACACTTTATCGATACACACAAAAATAATAATAAGTACAGTTATCATCGCAAAAG -AGATTACTGTCACTTTCACATATTTGTGAGTTACCGTATTCTCATGGTTTCTTTTTATTTATAAGGAATATCCCT -GTGCGACAACGGACTATTGTATGCCCTTTGATTCAAAATGATGGTGCTTATTTGCTGTGTAAAATGGCCGACGAT -CGCGGCGTTTTCCCCGGTCAATGGGCGATTTCGGGTGGCGGCGTGGAGCCTGGCGAACGAATTGAAGAGGCACTA -CGCCGCGAAATTCGCGAAGAACTGGGAGAACAGCTGCTTTTGACAGAAATCACGCCGTGGACCTTCAGCGATGAT -ATTCGCACCAAGACGTATGCAGATGGTCGCAAGGAAGAGATTTATATGATTTACCTGATTTTTGACTGCGTTTCT -GCCAACCGAGAAGTGAAAATAAACGAAGAGTTTCAGGACTACGCGTGGGTAAAACCTGAAGATCTGGTGCATTAT -GATTTGAATGTCGCCACCCGAAAAACGTTACGTTTGAAAGGTCTTCTGTAACAATGATGACAGCCATTACTGGCT -GTCAGATTGAAAATTTAGTGGTTAACGAATTCCCCATCCAGATAAACTTTGCCTTTTTCCACATGCATGACTAAA -CCATCCAGATAATCAGGTTTAAATGTCGCGTCACGCTTATCTTTAGCAATATATGTCAGGCAATGATTATGGGTG -AAAATAACGATATTTTTATCAGGCGCTTTGCTTTGTAAGTCCTTAATTGCACTATAAATCTCATTACCGCACTGA -AGAAGTCGTTTATCTACCGTCAATTTTTTACCCGCTGAAAACCAGGTAGCCGACTGAATGGTCCGGACGGTATTA -CTGGAATAAAGATCGAAATCAGGGATATCAGCACTAAAAGCGTTGCCCAGTTCACGGGCATCCTGGGTACCTTTA -ACCGTAATACCTGTTTTATCTGACAAGCATTGATTGGTTGAACGGTCGCAACGTTCAGCATGACGAAACAAAACG -ACAACCGGGTGCTGCTGTGCCAGTCTGGCCAGTGTTTTATTGTCGATACGTGGCAAACCATTGCTACTCCAGGCG -GCATGAGTACCCAGTCCGGCAATTGCAGCGAGCGCCAGTAAAATGATGATATATTTTTTTGACTTCAACGAAGAG -CGGCAAAAAGCTAACACGTAAACTCCACCTATAGACAAGCGCAACCAGACAATTACCGTGAAATTGAGCTACATT -TCTGGCGATAATTCGCAGTTGGTGTAATATTAAAAATCCTACGATGTCGGCAAAATGCCTCAAAATTTTGCCAAA -TGCAAAGCCTAAATAAGAAAAAATATAAAAATTTCAATATTTACGTCTAATATTAGTTTCTTAAGGTTAAGTTAA -TATTCTATCCTTAAAATTTCGCTCCAAATGGCAAAATATACACAACACTCTTTATAGCAAATATAAGTGGACAGG -TATTCAATGGCGGAAGGAAAAGCAATGTCAGAATTTTTGCCTTTTTCGCGACCAGCAATGGGCGTGGAGGAACTC -GCTGCAGTTAAAGAGGTTCTCGAATCCGGTTGGATCACAACCGGTCCGAAGAATCAGGCGCTTGAGCAAGCTTTT -TGCCAGTTGACGGGAAATCAGCATGCCATCGCGGTCAGTTCAGCCACCGCCGGAATGCATATCACGCTAATGGCG -TTGAAAATTGGCAAGGGCGATGAAGTGATTACGCCTTCCCTGACCTGGGTTTCAACCCTCAATATGATTTCCTTG -TTGGGTGCAACGCCGGTAATGGTGGATGTCGACCGCGATACGCTGATGGTCACGCCTGAAGCTATCGAGTCAGCC -ATTACGCCACGCACTAAAGCCATCATTCCGGTGCATTATGCCGGTGCGCCAGCAGATATTGACGCCATTCGCGCC -ATTGGCGAACGTTACGGCATCGCAGTTATCGAAGATGCTGCCCATGCCGTCGGTACGTATTACAAAGGGCGACAT -ATTGGCGCAAAAGGTACCGCTATTTTTTCATTTCATGCCATTAAAAATATTACCTGTGCTGAAGGTGGCCTGATT -GTAACTGATAATGAAAACCTTGCCCGCCAGCTACGGATGCTGAAATTTCACGGTCTGGGTGTCGATGCCTATGAC -AGACAAACCTGGGGCCGTGCACCGCAGGCTGAAGTCTTAACACCGGGCTATAAGTACAATCTGACCGATATTAAC -GCCGCGATTGCCCTGACACAGTTAGTCAAATTAGAGCACCTCAACACCCGTCGGCGCGAAATTGCCCAGCAATAT -CAGCAAGCACTGGCAGCTCTCCCCTTTCAGCCATTAAGCCTTCCCGCCTGGCCGCACGTTCACGCCTGGCATCTG -TTTATTATTCGTGTCGATGAACAACGTTGTGGTATCAGTCGCGATGCGTTGATGGAAGCGTTAAAAGAAAGAGGC -ATTGGTACCGGGTTACATTTCCGCGCCGCTCACACACAAAAATATTATCGCGAGCGTTTTCCCACGCTGTCGTTA -CCGAATACCGAATGGAATAGCGAACGCATCTGTTCTTTGCCGCTGTTCCCGGATATGACTACCGCCGATGCCGAC -CATGTCATCACAGCCCTTCAGCAACTCGCAGGACAATAAGCCATGTTTGAAATCCACCCTGTTAAGAAAGTCTCG -GTGGTTATTCCCGTTTATAACGAGCAGGAAAGCTTACCGGAATTAATCAGGCGCACCACCACAGCCTGTGAATCG -TTGGGGAAAGAGTATGAGATCCTGCTGATTGATGACGGCAGTAGCGATAATTCCGCGCATATGCTGGTCGAAGCC -TCACAAGCGGAGAACAGCCATATTGTGTCTATTTTGCTTAACCGCAATTACGGGCAACATTCAGCGATTATGGCG -GGATTCAGTCACGTTACTGGCGACTTAATTATTACCCTTGATGCCGATCTCCAGAATCCGCCAGAAGAAATCCCC -CGCCTGGTGGCAAAAGCCGATGAAGGTTACGACGTGGTAGGGACTGTACGCCAGAACCGCCAGGACAGCTGGTTT -CGTAAAACCGCTTCGAAGATGATTAACCGGCTTATTCAGCGCACCACTGGCAAAGCGATGGGTGATTACGGTTGT -ATGCTGCGCGCCTATCGCCGTCATATTGTCGATGCGATGTTGCACTGCCATGAACGCAGCACCTTTATCCCGATT -CTGGCGAATATCTTCGCCCGCCGTGCCATTGAAATTCCAGTACATCATGCCGAGCGTGAGTTTGGTGAATCCAAA -TACAGTTTTATGCGCCTGATTAATTTGATGTACGACCTGGTGACCTGCCTTACCACAACGCCGCTACGTATGCTG -AGTCTGCTCGGCAGCATTATTGCGATTGGAGGTTTTAGCATTGCGGTGCTGCTGGTGATTTTACGCCTGACCTTC -GGACCACAATGGGCGGCAGAAGGCGTCTTTATGCTATTTGCCGTGCTGTTTACTTTTATTGGCGCTCAGTTTATC -GGCATGGGATTACTCGGTGAATATATCGGCAGGATCTACACCGATGTCCGCGCCCGCCCCCGCTATTTTGTTCAG -CAAGTTATCCGTCCATCCAGCAAGGAAAATGAATAATGAAAACCGTCGTTTTTGCCTACCACGATATGGGATGCC -TCGGTATTGAAGCCCTGCTGGCTGCCGGTTACGAAATTAGCGCCATTTTTACCCATACTGATAATCCCGGTGAAA -AAGCCTTTTATGGTTCGGTGGCTCGTCTGGCGGCGGAAAGAGGCATTCCGGTTTATGCGCCGGATAACGTTAATC -ATCCGCTGTGGGTGGAACGCATTGCCCAACTGTCGCCAGATGTGATTTTCTCTTTTTATTATCGCCATCTTATTT -ACGACGAAATTTTGCAGCTCGCTCCCGCAGGTGCATTTAATCTGCATGGTTCGCTGTTACCAAAATATCGTGGTC -GCGCGCCGCTGAACTGGGTGCTGGTCAACGGTGAAACGGAAACTGGCGTTACATTGCACCGAATGGTGAAACGTG -CCGATGCCGGGGCCATTGTGGCGCAACTGCGCATTGCCATTGCGCCAGACGATATCGCTATTACGCTGCATCATA -AATTGTGCCATGCCGCGCGCCAGCTACTGGAACAGACATTACCCGCCATTAAACACGGTAATATTCTGGAAATCG -CCCAGCGCGAAAACGAAGCCACCTGTTTTGGTCGCAGAACGCCGGATGACAGTTTCCTTGAATGGCATAAACCGG -CATCCGTACTGCACAACATGGTACGTGCCGTTGCCGATCCGTGGCCGGGTGCCTTCAGCTATGTTGGCAATCAGA -AATTCACCGTCTGGTCGTCGCGTGTTCATCCTCATGCCAGCAAAGCACAGCCGGGGAGCGTGATTTCTGTTGCGC -CACTGCTGATTGCCTGTGGCGATGGCGCGCTGGAAATCGTCACCGGACAGGCGGGCGACGGCATTACTATGCAGG -GCTCGCAATTAGCGCAGACGCTGGGCCTGGTGCAAGGTTCACGCTTGAATAGCCAGCCTGCCTGCACCGCCCGAC -GCCGTACCCGGGTACTCATCCTCGGGGTGAATGGCTTTATTGGCAACCATCTGACAGAACGCCTGCTGCGCGAAG -ATCATTATGAAGTTTACGGTCTGGATATTGGCAGCGATGCGATAAGCCGTTTTCTGAATCATCCGCATTTTCACT -TTGTTGAAGGCGATATCAGTATTCATTCCGAATGGATTGAGTATCATGTCAAAAAATGTGATGTCGTCTTGCCGC -TGGTGGCGATAGCCACGCCGATTGAATATACCCGCAACCCGCTGCGCGTATTTGAACTCGATTTTGAAGAGAATC -TGCGCATTATCCGCTACTGCGTGAAGTACCGTAAGCGAATCATCTTCCCGTCAACTTCAGAAGTTTATGGGATGT -GTAGCGATAAATACTTCGATGAGGACCATTCTAATTTAATCGTCGGCCCGGTGAATAAACCACGCTGGATTTATT -CGGTATCAAAACAATTACTTGATCGGGTGATCTGGGCCTATGGCGAAAAAGAGGGTTTACAGTTCACCCTCTTCC -GCCCGTTTAACTGGATGGGACCACGACTGGATAACCTTAATGCAGCGCGAATTGGCAGCTCCCGCGCTATTACGC -AACTCATTCTCAATCTGGTAGAAGGTTCACCGATTAAGCTGATTGATGGCGGAAAACAAAAACGCTGCTTTACTG -ATATTCGCGATGGTATCGAGGCGTTATACCGCATTATCGAAAATGCGGGAAATCGCTGCGACGGTGAAATTATCA -ACATTGGCAATCCTGAGAACGAAGCGAGCATTGAGGAACTGGGCGAGATGCTGCTGGCGAGCTTCGAAAAACATC -CGCTGCGCCATCATTTCCCACCGTTTGCGGGCTTTCGCGTTGTCGAAAGTAGCAGCTACTACGGCAAAGGATATC -AGGACGTAGAGCATCGTAAACCGAGCATCCGCAATGCCCACCGCTGCCTGGACTGGGAGCCGAAAATTGATATGC -AGGAAACCATCGACGAAACGCTGGATTTCTTCCTGCGCACCGTTGATCTTACGGATAAACCATCATGACCAAAGT -AGGCTTACGCATTGATGTCGATACCTTTCGTGGCACCCGTGAAGGCGTGCCGCGTCTGCTGGAAATCTTGAGTAA -GCATAATATTCAGGCCAGCATTTTTTTCAGCGTCGGCCCGGACAATATGGGCCGCCATCTCTGGCGACTGGTGAA -GCCACAGTTTTTGTGGAAGATGCTGCGCTCAAACGCGGCATCGCTTTATGGCTGGGATATTTTACTGGCAGGTAC -GGCCTGGCCAGGTAAAGAGATTGGTCATGCCAATGCCGATATCATTCGTGAAGCGGCTAAACATCACGAAGTCGG -CCTGCACGCCTGGGATCACCATGCCTGGCAAGCCCGTAGCGGTAACTGGGATCGGCAAACAATGATCGACGATAT -TGCACGCGGTCTTCGCACTCTGGAAGAGATTATCGGTCAACCGGTAACCTGTTCTGCCGCTGCGGGCTGGCGTGC -CGACCAGAAGGTGATCGAAGCAAAAGAAGCGTTCCATTTGCGCTACAACAGCGATTGTCGTGGGGCCATGCCGTT -CCGTCCATTGCTCGAATCAGGAAACCCTGGCACTGCGCAAATTCCGGTGACCTTACCCACCTGGGATGAAGTGAT -TGGTCGGGATGTGAAAGCAGAAGATTTTAACGGTTGGTTACTCAACCGCATCCTGCGAGATAAAGGCACGCCGGT -TTATACCATTCATGCAGAAGTTGAAGGCTGCGCTTATCAGCATAATTTTGTGGATCTCCTCAAACGCGCAGCTCA -GGAAGGCGTGACATTTTGCCCTTTAAGCGAACTGTTATCAGAGACGTTGCCGCTCGGACAAGTTGTTCGCGGAAA -TATTGCCGGACGTGAAGGCTGGCTGGGTTGCCAACAAATTGCGGGTAGTCGCTGATGAAATCGGTACGTTACCTT -ATCGGCCTCTTCGCGTTTATTGCCTGCTATTACCTGTTACCGATCAGCACGCGTCTGCTCTGGCAACCCGATGAA -ACGCGTTATGCGGAAATCAGTCGAGAAATGCTGGCATCCGGCGACTGGATTGTGCCCCATCTGTTAGGGCTACGT -TATTTCGAAAAACCCATTGCCGGATACTGGATTAACAGCATTGGGCAATGGCTATTTGGCGCGAATAACTTTGGT -GTGCGGGCAGGCGTTATCTTTGCGACCCTGTTAACTGCCGCGCTGGTGACCTGGTTTACTCTGCGCTTATGGCGC -GATAAACGTCTGGCTCTACTCGCCACAGTAATTTATCTCTCATTGTTTATTGTCTATGCCATCGGCACTTATGCC -GTGCTCGATCCGTTTATTGCATTCTGGCTGGTGGCGGGAATGTGCAGCTTCTGGCTGGCAATGCAGGCACAGACG -TGGAAAGGCAAAAGCGCAGGATTTTTACTGCTGGGAATCACCTGCGGCATGGGGGTGATGACCAAAGGTTTTCTC -GCCCTTGCCGTGCCGGTATTAAGCGTGCTGCCATGGGTAGCGACGCAAAAACGCTGGAAAGATCTCTTTATTTAC -GGCTGGCTGGCGGTTATCAGTTGCGTACTGACGGTTCTCCCTTGGGGACTGGCGATAGCGCAGCGGGAGCCTAAC -TTCTGGCACTATTTTTTCTGGGTTGAGCATATTCAACGCTTTGCACTGGATGATGCCCAACATAGAGCTCCGTTC -TGGTACTACGTGCCGGTCATCATTGCCGGTAGCCTGCCGTGGCTGGGATTACTCCCCGGTGCACTGTACACAGGC -TGGAAAAACCGCAAGCATTCCGCAACCGTCTATTTGTTGAGCTGGACGATAATGCCGCTGCTGTTTTTCTCCGTC -GCTAAAGGTAAATTGCCCACCTATATTCTTTCCTGCTTTGCATCTCTGGCAATGCTGATGGCGCATTACGCTTTG -CTGGCAGCAAAAAATAATCCTCTGGCGCTGCGGATTAATGGCTGGATTAACATCGCTTTTGGCGTCACTGGCATT -ATTGCCACATTTGTGGTCTCCCCGTGGGGACCAATGAACACGCCGGTGTGGCAAACCTTCGAGAGCTATAAAGTC -TTTTGTGCCTGGTCGATTTTTTCGCTATGGGCATTTTTCGGCTGGTACACCTTAACAAACGTCGAAAAGACCTGG -CCTTTTGCCGCGCTTTGCCCGCTGGGGCTGGCGTTGCTGGTAGGATTTTCAATTCCTGACAGAGTTATGGAAGGA -AAACATCCGCAATTTTTTGTCGAGATGACACAAGAATCACTTCAGCCAAGCCGCTATATTCTTACTGATAGCGTC -GGTGTTGCCGCAGGTCTGGCATGGAGCCTGCAACGCGATGACATCATCATGTATCGCCAGACAGGTGAGTTGAAA -TACGGCCTTAATTATCCGGATGCGAAAGGGAGATTTGTCAGCGGTGATGAGTTCGCAAACTGGCTTAATCAACAT -CGTCAGGAGGGGATTATTACTCTCGTGCTTTCGGTTGACCGCGATGAAGATATCAACAGTCTCGCCATTCCGCCC -GCAGATGCCATCGATCGTCAGGAGCGTCTGGTGCTGATTCAGTATCGTCCCAAATGATCTGGCTAACATTAGTCT -TTGCCAGCTTGCTTAGCGTTGCCGGGCAGTTGTGTCAGAAACAGGCAACCTGCTTTGTGGCGATAAACAAACGGC -GCAAACATATCGTGCTGTGGCTGGGACTGGCGCTGGCTTGTCTTGGTCTTGCCATGGTGCTCTGGCTGCTGGTCT -TGCAGAACGTACCGGTAGGCATTGCTTACCCGATGTTAAGTCTGAATTTTGTCTGGGTGACGCTGGCTGCAGTAA -AACTGTGGCACGAACCGGTATCGCCGCGTCACTGGTGTGGGGTGGCGTTCATTATTGGCGGCATTGTGATCCTCG -GGAGTACGGTGTAATGGGCCTGATGTGGGGATTATTCAGCGTCATTATTGCCTCAGTTGCGCAATTAAGCCTGGG -TTTTGCGGCGAGTCATCTGCCGCCGATGACGCACTTATGGGATTTTATCGCGGCTCTGTTAGCTTTTGGCCTGGA -TGCCCGGATACTGTTACTCGGGCTGCTGGGTTATCTGCTTTCCGTTTTTTGTTGGTATAAAACGCTTCATAAACT -TGCGCTAAGCAAAGCCTATGCCTTGCTCAGTATGAGTTATGTGCTGGTATGGATTGCTTCAATGGTACTTCCCGG -CTGGGAAGGGACTTTTTCGCTGAAAGCACTACTGGGAGTAGCCTGTATTATGAGCGGGTTGATGCTGATTTTCCT -GCCCACGACAAAACAACGTTACTGAGTTTTCCCTGCCACTTTACACTGCCGTTCCCACTCATCGGGGCTATAACT -GCTTGCCGAGAGGACTTTCACCGTATGCAGCTTTTCACGATTAATACAATAAAGCGCATTCTGCAAAGGCGAGAG -TAAATCCCCCACTTTCACGGCGAAGTCACTCTTCACTTCGGCGATCATTTTTATCGCGCCGCCAGCATCGCAGAG -CATAAGTACATGTCTGTTATCTTGTTTATTGCAGCACGATTTTTTGACCAGCCATTCCATTGCATTATCCTGTTT -GCTAAGAGTTTTCACATCAATTTACAGATTAACAGATAAACTCTTTATCAACGGCAATGGAATGGCAGAAATGAG -AAGTGAAACGGAGGGTTAATTATTGCTGACGTTGCACCCACTCTTTTAGCGCCTGACGTGAAATTTTAATACCGC -CGTTTTTCAGCTCCGGCGGCAGAGTTAGCCAGCGCACCGGTTGTTGAAAACGGGCCAGCTTATCTTTCACCCATT -CACTAAGATCAACGCTCTCGTGGTCATACTCCATCACCGCCACCGGTCGATGACCAAACTCCTTGTCGGCAACGG -GGACGATAAACACCTGCAAAACCGCAGGATGTGCAGCAATTACGCGCTCGACTTCTTCCGGCTGAATACCCTCTC -CGCCACTGAAGAATAGATTGTCTAAACGTCCGACAATGGTCAGCTTGCCATTATGCATCTCACCGCGATCGCGCG -TAGCGTACCAGCCTTCGTCATTAACCAGTGAAACCAGTTGCCCGTTACGCCAGTAACCTTCTGCCATACTGGCAG -CCCGCAGCCACACTTCATTATTAACGATTTTCACTTCCCGACCCGGCAGCGGCGAACCAACGTCTGCCAGGCCGT -CGGCTTCTTTCGCACACACCGTGGAGGCAAACTCGGTCAGACCATAGCCGCAAAAGCAACGAATCCCCTGCTCGC -GCGCCTGTTCCGTCAACTCGACCGGGATAGCCGCGCCGCCAAGTAACACCGCTTTCAGGGAAACGGAACTACGGT -TAACCAGCAAACGCCAGAGTTGTGTTGGCACCAGTGAAGCGTGAGTACAGCCTGCCAGCATTTGCTCCAATGGCT -GTTTATCACGTACCGTCATCCGCGCACCAGCGTATAACCAGCGCCACATAATTCCCTGACCGGAGACGTGAAACA -GCGGTAAAGAGAGCAACCAATCATCGTGATCGCCAAACGGAATCAGCGATAACACACCTTGCGCACTGGCAAGAT -GGGCCTGATAAGTATGGACAGCGGCTTTCGGCAAACCGGTAGAACCCGAGGTCAACGTCATTGAGCACAGACGCG -TCGGCTGCCACGTAGCGGCATGTGCGCCTTCAACCAGCTGAATGTGCAGCGACGTTAATGCCGGAAACGTGTTTT -CCCCATCCGGCACCAGAGCAAATTGCAGCGTCAGATTGGGCAGCAATTCTTCAAGCAACGGTTGCGGCAGCTGAG -GGTTCACGGGCAACACCCGCGCCCCGCATTGCAGTAACGCCAGCCAGGCGAGCAGCGTTTGCGGCGTATTCCACG -CCCGCAACATCACGCCGCTGCCCTCAACCACCCCCTGCACCGCAAATCCGGAGGCTAATTCATCGACGCGAGCAC -AAAGCTCGCGCCAGTTGAGTTGCTCGTCATTAAGACGTAAGGCGATGGTTTCTCCCCGCACTTGCCGCCAGTGAC -GCCACGGCCAGTCAGAGAAGATCATAACAACCGCTCCAGTGCATCAACTTCCACGACAGGCAGCGTGCTACCCGG -CCAGCGACGTACCTGCTGCGCCTGCATCAGATCCAGCGTGTCCAGCCCTGGAATGGTGTCCGGCGTTAACCAGGC -GGCAATCCGCGCCAGTTGCGTTAAGCCTAAGCTCGATTCAATGGAAGAACTGATCACCGCCGTCAGCCCCAGCGC -GTGCGCCGCCTGTACCTGCTCGCGTACTTTTTCCAGACTGCCCGTGAGCGTGGGTTTGATAACTACCGCGCGCAC -GCCCTCTTCAGCCACAAAGGCAAAATCCGGCTCGCGCAGGCTTTCATCCCAGGCAATGGCAATGCCGGTTTCACG -GGCAAACGCTCGCGAATCATCGCGGGTTTTGCACGGCTCTTCGAGAAACGCGATGCGGTCGCGATAATCCGGGTT -AACGTATTTGGCAAACTGCTGACCTTTCAGCGGTGTCCAGGCGCGATTTGCGTCAAGACGCAAATGCAGATCCGG -AATTGCCTCCAGCAACAGATTCACCACCATGCCGTCGCGCACCGCTTCGTACAATCCCACTTTGACCTTCGCCAC -TTTCTCGCCTGGCATATCTGCAAGTTTGAGGATCAGATCGTCCGGATCGCCATTACACAGCGGTGCCGCACGGTA -GTTGGCTGCTTGCGGCAACGTATCTGTCAGTTCTGCCAATGCACAGCTTACGCCAAAGGCCACGGAAGGCATCTG -CGGTAGCTCGCAATCGCCTGCCAGCCAGTTATTTACCCAGGCAAGCAGCACACTTTGCGCCTCTTCCCAGGTTTC -CTGACTGAAGCCCGGCAGTGGGGAGATCTCCCCCCACCCTTCGCGCTCGCCTTCACGCAGGCAAACATACAGCCC -GTCGCGGGTTTTTAACCGCCTGTCGCGCAGAACCACCCCCGCGTCCATGGGGATCTGCCAGCGGTATACCTGCGC -GCTACGCATTACGGATTCCGTTTGAATTTGCTGAAGTCAGGCTGACGTTTCTGGTTGAAGGCGTTGCGACCTTCC -TGACCTTCTTCCGTCATGTAGAACAGCATGGTGGCGTTGCCCGCCAGCTCCTGCAGCCCCGCCTGCCCGTCACAG -TCGGCGTTCAGTGCAGCTTTCAGGCAGCGCAGCGCCATCGGGCTGTTTTGCAGCATTTCGCGGCACCAACGGACG -GTTTCTTTTTCCAGATCCGCCAGCGGTACCACGGTGTTCACAAGGCCCATATCCAGCGCCTGTTTTGCGTCGTAC -TGACGGCACAGGAACCAGATTTCACGCGCTTTTTTCTGCCCGACGATGCGAGCCATGTAGGAAGCGCCCCAGCCG -CCGTCGAAGGAACCGACTTTCGGGCCAGTCTGACCGAAGATGGCATTATCTGCCGCGATAGTCAGGTCGCACATC -ATGTGCAGAACGTGACCGCCGCCGATGGAGTAGCCAGCCACCATCGCGACAACCGGTTTCGGACAGGTACGGATC -TGACGCTGGAAGTCCAGCACATTCAGGTGATGTACGCCGGAATCATCTTTATAGCCGCCGTAATCACCACGCACT -TTCTGGTCACCACCGGAGCAGAACGCTTTATCGCCTGCACCAGTCAGAATGATCACGCCGATGTTGTCGTCATAA -CGCGCATCTGCCAGCGCCTGGATCATCTCTTTTACCGTCAGAGGACGGAAGGCATTGCGCACCTGCGGACGATTA -ATGGTGATTTTTGCGATACCGTCGGTGGATTTTTCATAACGAATGTCCTCGAAACCTTCGGAGCAGTCGTGCCAT -TCAACCGGTGCGTAAAGCATTGCTTCATCAGGATAAATCATATTGTGTCCTTTAGTCAGAAACGCAAGATCTGCG -CCAGACTTGCGATTACGCCAGCGGGATTTTCCCGATGCGCGTTATGTCCGGCGCGAGGAATGACATGGCAGTCGG -CAGCCAGTTCCGCCGCCAGGGCGCGGAATTTGCTGTCACGTTCACCACATAAATAATAAAACGCAAATGTGCGGG -CGCTAAGGTTAGCACGTAAATCAGGCTGGACGGCGAGAGAAGTCGCCTCCAGCATGGCGGCAAGCGTTGCGCCAT -TATTGTTGCTGCGCAGCGCCACCAGCTCCCGGCGTTGATCGTCATTGAGTGAGGCAAAAACAGGCTGTTGATACC -AGTCGGCAAATACCGCCGTTAACGGTTCTGTGAGAAAACGCTGCACCCATTGGCGATCGGAACGCTGACGTTCCG -CACGTTGTTCAGCATTTTGCAGCCCCGGATGCCCGCCTTCGACAATAACCCCACAAAGCCCCGCCAGCCCCTGGC -AAGCCGCCATCATCGCCACCCGTCCACCAAGCGAGTACCCCACCAGCCAGAAGTCAAGGATGTTGTAACTAACCA -AGGTTTTACGCAGTAAGTCGGTGACATCATCAAATCCATCGACGCTAATCGCCGCCGAACCACCGTGACCTGGGA -GATCAACATACAACCGTGAGTAGTCGGCAAACGCCTCGCCCACTTCTTGCCATTCGTGGCAATCGCCGGAAAAAC -CGTGCAAAAACACCAGCCAGGGTAAACCTGGTTTTCCGTGTTTTGCCTGCGCGTGCAGGATCATAAATGGCTTAC -CTGCGCCAGAAGTTGCTGGAGCGTTTGCGCACCATCGGTGTCGTTAACCACCATTTCAATCACCGTGGTGGTTGG -CGTGCGCCAGGCGTCGGCAAATGCCGTTTCAAGTTCCTGCCAGTTTTGCGGACGATGATATTTCAGCTCGAACAT -CGCGGCGGCGTGCTCAAAATGGACGTTTTGCGGCATCAGATAGAAACGCTCACGCTCGCTTTGCGGCGTTGGCAA -CAGCGAGAAAATTTGCCCGCCGTTGTTGTTCACCACAATTAATACCAGCGGCGCAGAAACCTGACGCAATAACGC -CAGCGCGTTGAGATCGTAAAGTGCGGAGAGATCGCCCACAATCGCCAGCGTCGGTTTGCCGCTTGCCCGCTGAAC -GCCGGCGGCGGTCGAAAGCAGCCCGTCGATACCGCTGGCCCCACGGTTGCTGTACACCGGGTAACCTGCCGGAAG -TTGCGAAAGCGCATCAATCAGACGTACCACCAGGCTGTTACCAACAAACAATTGCCCCTGTTCAGGCAGATAGTC -GCAGATGCGATGCGCCAGTTGCGCTTCGCCAAACGCATCACGGCGGGCAATAACCGCCTGCATTGCCTGTTCCGC -CAGGCGCGGGATTTCAACGCACCAGGGCTGGCGTTTTTCTGCCGGATGCAGCTCCAGCCAGTCGGCAATATTGGC -AATTAAGCGACGTCCGCGATGGTGTGCCGGATCAAGTCGCCCTTCAATGTCATCAACAATCCAGTACTCTTCTGG -TTCACAGCTTGCCTGCCATTGCAGGAGCCGTTTCCCCGTCAGGCTGCTTCCCAGTTGCACCACAATTTGCGCCTG -CTGCAGCTCGCTGGTCGCTTTGGCATTGCCTAACCAAAGATCGGCACACGGCAGCGGCTGCCCGGTTTGTGACAG -CACATCGCCAATCAGCGGCCAGCCAAGAGTTTGCGCCCACAGGGCAACTTTTTTGCCCTCTTCCGCACTCATGCG -CCCGGCAACCACCACGCCGCGCTTTTGTCGCCAGAAGAACCAGTCGCGCTGTTTTTCACTTTCCAGACGAGGCGC -TTCACGCAGCCACGGTTTGTCGTCCTGCCACCAGTCACCCAGACGCTGTTGCCAGCTAAGCCCGGTATCGTCCAT -TTCGCCATACAGCGGTTCAGCAAACGGGCAGTTGATATGGACTCCCCCCGCATGAAGCGTACCGAGAGCGTGGTC -GATGGTAGAAACCAGCCAACGTGCGGGGATATCCTGGGTCGGGCGCGGCAATGAAATACTGTGCGTGGGGTGAGA -GGCGAACATTCCCGGCTGGCGAATTGCCTGATTCGCGCCGCAGTCAATTAGCTCCGGCGGGCGATCGGCGGTTAA -GAGAATCAGTTTTTCTCCGGTTAACCCGGCTTCAATCAGTGCCGGATAGAGATTTGCCACCGCCGTGCCGGAGGT -CACAATCACCGCCACCGGCTGCTTGCTGACTTTCGCCAGCCCCAGCGCCAGATGCCCCAACCCACGCTCATCGAA -ATGGGTGTGGTGAATGAATGCGGAATTCTCCGCCGCCGCTAACGTTAACGGTGTAGAACGCGAGCCTGGGGCGAT -ACAGATGTGTCTGACGCCGTGACGCGTTAATGCTTCCAGAATGACCGCCGCCCAGCGTCGGTTAAATGCGCTTAC -TGACATGAGTTTGTCCGGTATCAATATTGCGGCTAAGTATAAGGAGCTACAAAAATAGATTATTGATATGAATCG -GTAATGATGCGACTCATTACTATTCCATTTGTAATAAAGTACGCAGCCCTGCCGCTTTGTTGTCGATTTCCTGCC -ACTCTTGCTCGGGGTCGGAACCACGGACAATGCCCGCGCCAGCATATAATCGCACGACATTGCCGCTAATTTTTG -CTGAGCGCAGGGAAACGCAGAATTCGCTTTGTTGTAATGAGAGATAGCCCGCAGAACCGGCGTACCATTCTCGGG -TGAACGGTTCGTGACGGGCGATAAACTGTCGCGCCAGATCGCGCGGTAAGCCAGCAACTGCTGCCGTTGGCTGCA -ACTGATGTAAACAGATCACATCATCCGCTTTGTTGAGTGAAGTCCAGATACAGCGGCGAAGATGCTGCACTTTAC -GCAGACGCAGTACCTGCGGCGGTAAAACATCCAGCGTCTGGGTATCGGCCTGTAATCGTTGACAGATATCTTCCA -CCACCAGCATGTTCTCGCGCTGGTTTTTATCATCCGCCATCAGCCACTCTCCTAACTGCTGCGCCTGCTTATCAT -CAGGATTATTTGCTACTGTTCCCGCCAGCGCTTCAGTACGCAGCGCTTTGTCACGCCGCCGCCATAACCGTTCCG -GTGAAGAGCCAAGAAAAGCATTTTCGCCATCAAAGGCCATGTAAAAATGGTAGCAATTCAGATTCAGTCGACGAC -TGGCAGCCATCATCGCCGCCGCGTTGACCGGACTTGCGAAATGCAGGTCAGTTGCCCGAGCGAGCACCACTTTGT -CGAGCTCACCTTCGGCGATGGTTTTCGTTGCCAGTTCGATTAATTGCGTCCAGCCCGTTTTGTCCGGCCAGTGTT -GTTCTCGCGTGGTGGTTAAATGTAACCCAGGCAAGGGCTTGATACTCACCAGTGTGGCGATAAATTCTTTTGCCT -GAATCGCATCGTGCTGAAGGGAGCTTTCGCTGAATAGCGTCAGCCGCAGCGTGGCTTTACCGCCACAGCGTCGCC -ATTCCAGGCGGGGTAAAAGTAAATTGCCCTGCGACGGGTCAAAAGCATTCAGCCCCCAAATGCGTAAGTCGGCGT -GTTCCGGGTGCTGGCGAAGAAAACGTTGTGCCTGGTCCAACGACGTAAAACGGGTAATCGCGCCCAGGACGACAG -CTTCTTCATCACCATTACGTTGTTGCCAGTAGAATTGCGGGTATGTTTGCTGACTGGCCAGCCAGCTCAAGGCAT -CAAAAGCGTCTTTGAGAGGGAAAGGAATATCGATAACCCGAATGCCGGGTGTCGCCGGAATCTCTTGCGACAAAT -GGCGCAGTAGATTTTCCAGCGCCGTAGTAAGTGATTGCACGCGGACCTCTCCCTGTTAAAAGCCTCACATTATAC -GGGGTACTACAAAAAAAATGCAGTACCCCGGTGTAGGGAGGTTTTAACGGCGTGCCAGCAACAGTCCTAGTACCA -GCCCAACGGCCGCGCCCACACCAATTCCTTGCCAGGGTTTTTCGTGGACGTAGTCATCAGCACGATAAACTGCCT -GCTTCGCCCGATAGTAATAACTGTCTGAAGCCTGGCTAACCCGTTTTTTCACATCATCCAGCGCTTTTTCTGCAC -GCGCTTTCAGCTCAACATATTTCTGATCGGCGGGATCGCCAGAGGAGCGGAGCACCTCTTCCAGTGTTTCACTAA -GCAGCGTCAGGTCGTCATCGATACGTGTATCACCAAACTGATTAGACATTCTCGTTCTCCATTTGCGTAAAACCT -GTCACTAACTATAGACAAGGGTTGTTGATTACGCCTGAATTACCTCGCGTGCCATCCCAATGTGTGGGATACCAT -CTTCTTCATAGACCTCCGTCACAGGGATAAAACCGAAACTCTGGTAGAAGTTTTGCAGATGCGCCTGCGCCCCGA -GGTAAACAGGCTTATCAGGCCAGTGATGCGTACATGTTTCGAGTGTTTTACTCATCAGCTGCTGCCCCACTTTTT -CGCCACGCAACGCTTCACTGACAATCACCCGACCTATAACGACCGGCTCAAGATCATCATCACTTTTCAGAATCC -TCGCATACGCCACCAGTTCATCATTTTTCCAACCGAGAATATGGCGATTATCCCCCGTCAAATCATCACCATCGA -TATCCTGATAAGGGCAATTCTGCTCGACAACAAACACCGCGCAACGCAGTTGTAATAAGGCATAAAGCTGGGAAA -CCGATAATTCAGAGTGATGCAGATCTTGCCATTCAATCATAATGCTCTCCTTTTAGATGTATGCCTTATACTAGC -CGGAATATTTTTTGAAACGTGATGAACTCATGGAATTAATTTTTTTAGGTACTTCAGCCGGTGTGCCAACCCGCA -CGCGCAATGTCACGGCAATATTGCTTAACCTGCAACATCCGACCCAGAGCGGACTTTGGTTGTTTGACTGCGGTG -AAGGCACCCAGCATCAGCTACTGCATACCGCCTTTAACCCTGGAAAACTGGACAAGATTTTTATCAGTCACCTTC -ATGGCGATCATCTTTTTGGTTTACCCGGCTTGCTGTGCAGTCGTTCTATGTCAGGCATTATCCAACCCTTAACGA -TTTATGGTCCGCAAGGTATCCGTGAATTTGTGGAAACCGCGCTGCGGATTAGCGGCTCATGGACCGATTATCCGC -TGGAAATTGTCGAAATTGGCGCTGGCGAAATTCTCGATGATGGCCTGCGCAAAGTAACCGCTTATCCGCTGGAAC -ACCCACTGGAATGTTATGGCTATCGTATTGAAGAACATGATAAACCGGGTGCATTAAATGCCCAGGCATTAAAAG -CTGCTGGCGTGCCGCCTGGCCCACTGTTTCAGGAATTAAAAGCGGGCAAAACAATCACGCTGGAAGATGGAAGGC -AGATTAACGGCGCAGATTACTTAGCTGCTCCAGTGCCAGGTAAAGCGCTCGCTATTTTCGGCGATACCGGCCCCT -GCGATGCCGCACTTGACCTGGCTAAAGGTGTCGATGTCATGGTGCACGAAGCGACGCTGGATATAACCATGGAAG -CCAAAGCCAATAGTCGCGGCCATAGCTCTACACGCCAGGCTGCGACACTAGCCCGTGAGGCTGGAGTCGGCAAGC -TAATCATTACCCACGTCAGCTCGCGCTATGATGACAAAGGTTGTCAGCACCTGTTACGTGAATGCAGGTCAATTT -TCCCGGCGACTGAACTGGCGAATGATTTCACCGTGTTTAACGTTTAACTCTGCTTATTATTAAAAACAGGGCGAA -ACTTGCCCTGTTATCGCAACCCGCGCTACATATATCCACCCACACAGGCATATTGAGCGATTTTTGATATTTATT -CATCTCCTTACGCACTATATTCAGAGCAATAAGTTGCCTCTTTTCATCTTGATTCAGCACAACCTTTGCAACTAA -AAGGAGCCCATGATGGTTACAGTTGTCAGCAATTATTGTCAATTATCTCAAACGCAACTCAGTCAGACATTTGCA -GAAAAATTTACTGTGACCGAGGAATTACTGCAGTCTTTAAAAAAAACAGCGTTATCCGGAGATGAAGAAAGCATT -GAGTTACTGCATAATATTGCGTTAGGTTATGATAAATTTGGGAAAGAAGCTGAAGATATTCTTTACCATATTGTT -AGAACCCCAACAAATGAGACCCTATCGATTATCCGACTTATCAAAAATGCTTGTTTAAAATTATATAATCTGGCA -CATATCGCAACCAACTCCCCCCTCAAATCACATGATTCAGATGATCTCCTGTTCAAAAAACTATTCTCCCCTTCG -AAATTAATGACAATTATCGGTGATGAAATTCCTCTTATATCTGAAAAACAGTCGCTTTCAAAGGTGCTTTTAAAT -GATGAGAATAATGAACTGAGTGATGGTACAAACTTCTGGGATAAAAATCGTCAATTAACCACAGATGAAATAGCT -TGCTATCTTCAGAAGATCGCCGCTAATGCAAAAAATACTCAAGTCAATTATCCTACTGGTCTCTACGTCCCCTAC -TCCACCAGAACTCACCTGGAAGACGCTCTCAATGAAAATATTAAGAGCGATCCATCATGGCCGAATGAAGTCCAG -TTATTCCCCATAAATACTGGCGGACACTGGATATTAGTTTCGCTACAGAAAATAGTAAATAAAAAAAATAATAAA -CTACAAATAAAATGCGTCATATTCAACTCATTGCGTGCACTAGGCTATGATAAAGAAAATTCACTTAAGCGTGTC -ATTAATAGTTTTAATTCTGAACTCATGGGAGAAATGTCGAATAATAATATAAAAGTTCATTTAAATGAACCAGAG -ATAATATTTTTACATGCCGATCTTCAGCAATACTTAAGCCAAAGTTGCGGTGCATTTGTGTGCATGGCAGCCCAG -GAAGTGATTGAACAAAGGGAAAGCAATTCTGACAGCGCCCCCTATACGTTATTAAAAAACCATGCTGACAGATTT -AAAAAATATTCAGCAGAAGAGCAGTACGAAATTGATTTTCAACATCGACTGGCAAACAGAAATTGTTATTTAGAT -AAATATGGCGATGCAAATATCAATCATTATTATAGAAACTTAGAAATAAAACACTCACAACCCAAAAATAGAGCA -TCCGGCAAAAGAGTGAGTTAACATCATTGTTAATTAATTCGACCAGTCAGCAAATATGCTGACTGGTCGAACATA -GTTTGCTAAACAGTCATCACTGACTGATGTCAGTCACACCATCCGCCAGTTCAATCAGGCGAATAAATTCCGCCC -TGTAACCCTGTGGATCTTCCCCTTTTGCCTGCTGAGCCCACTGTTTGATCTGCTGCCAGGAGGTATTGTTCAGGT -ATTCAGAACCGCGTAACTTTTGCCCATATGCAGCTACTGCTGCGCGAAAACGCATATCTTCAGAGGGCGCGTTTA -TTGTTGGCCCCAGCGGGAATTCAACTAACTGACTTTCTTTTCCCTGCGGGTATTTCCAGCGAATTTTTAACCAGG -CCAGTTCTTTCGTTTTGTCCGATTTCGCTAATTTGTTATCCGGGGCATAGCGTAACTTATCAATTGATGCTTTTT -GCCCGTTCAGCGTTAATTCGAATAACAACGTTATATGTTTGCCTGCGCCTATATCCCCTGCATCAACGTTGTCGT -TATTAAAATGTTCCACCCGAAGTTGGCGCTTTTCATAACCAATCTGACGGTATTCCGTTACCCACGCGGGGTTAA -ACTCAATTTGCGCTTTGACATCTTTTGCTACGGTAATCAACATCTGCCGCATTTCACTATTCAATACTTTCTGCG -CTTCAGAGAGGGTATCAATGTAGCTGTAGTTGCCGTTACCAACATCGGCAATTCGCACCATCATTGCCTCGTTGT -AATTGCTATTCCCCACGCCAAACGTCGACAGAGTAACACCAGACTCCCGCTGTTTTTTGACCATTGATTCAATCG -ATTTTGGATCGTCAATGCCAACGTTAAAGTCACCGTCAGTGGCTAATAAAATGCGATTGATGCCGCCCTTAATAA -ACCCCTTCGTCGCCTGCTGATAAGCCAGTTCCAGCCCGGCACCGCCATTGGTACTGCCTTCGGCATCCAGCGAAT -CAATTGCGGCATTAATTTCCGCCTTATGACTCCCGGAGATAGAAGGCAATGCAATACGGGAGTCGCCAGCGTAGG -TCACGATGGCAATGTTATCCTGCTCACGAAGTTCTTTGACCAATAATTTCAACGAAGACTGGATAAGTGGCAAAC -GTTCATCAGAAATCATTGAACCAGAAGTGTCGATAAGAAAGACCAGATTAGAAGCTGGTAACTCTTCACTTTTGC -GATCTTTCGCCAGGATATCAACTTTCAGCAATGTTCGCTGTTCATTCCATGGTGCAGGTGCCAATTCGTAGCGCA -TAGCGAAAGGTATTGGCTTAGAGGCCGGAATAGATTGTTTGTCTTTGATATCCCAATCAGACGGGAAATAATTGA -CTATCTCCTCCACCCGCACAGCGTCTGGCGGAGGTAACAGCCCTTGATTGAGGAAACGCCTTACATTCGCATAAC -TGCCAGTGTCAACGTCAAGACTAAACGTCGCCAACGGATTTTGCGCTACCTGCTTAACCGGATTATCATCGAACT -GCTGGTAGCGAGCGGTTCCTGGATTTGCGATATGTGTAGCTTTTGCTTTAGCCGCTCTTGCAAATGTTGGCGCTT -CCTGCAATCGCCCCTGTAAAGCCTGTTTGTCTGAATATTGTTGCACTTCTTGCTGGGCCAAGGCTTTCGCGGCGG -CGGCGCTTTGCTCAGCCTCTTTTATTGCAGCTTGCTGCGCGGCAAGCACTTGCTGCTCTGTGGGAGTACTGGGTT -GTTGTTGCTGACTTTCCTTATTCTCAGGTTGCGGCCCACATCCTGACAAAATCAAACTACTCATAAGCAACATGA -TTATATTTTTATTTCGCATATAAAATCCTTTTAAATAAACTCAGGCACCAGACATAAAATATACTCTTTGTATAA -TCCTGCTAATCTTAATAAAATACAATATCGAAACCCATAGCAAATAATGATTCAACAACGCAACCCATTAATAAT -TTGCATATGAAAAAAATAATCTTTGCTTTTATTATATTATTTGTGTTTTTACTCCCTATGATTATTTTTTACCAA -CCCTGGGTCAATGCATTACCGTCAACGCCCCGACACGCAAGTCCTGAGCAATTAGAAAAAACAGTTCGTTATCTT -ACACAAACTGTGCATCCACGTAGTGCCGACAATATTGATAATCTGAATAGGTCCGCAGAATATATAAAAGAGGTC -TTTGTCAGTAGCGGTGCCAGAGTTACCTCGCAGGACGTCCCCATTACGGGTGGCCCCTACAAAAACATTGTTGCT -GATTATGGTCCTGCCGATGGACCGCTGATTATTATTGGTGCGCATTATGACTCTGCCAGCAGTTATGAAAACGAT -CAATTGACCTATACGCCGGGCGCGGATGATAACGCCAGCGGTGTGGCAGGATTACTCGAACTGGCACGTTTGTTA -CATCAGCAAGTACCGAAAACAGGCGTGCAGCTGGTCGCCTATGCGTCGGAAGAACCGCCCTTCTTTCGTAGCGAT -GAAATGGGGAGCGCGGTGCATGCAGCTTCGCTTGAGCGTCCAGTGAAATTAATGATAGCACTGGAGATGATTGGC -TATTACGACTCTGCGCCTGGAAGCCAGAATTACCCTTACCCGGCAATGTCCTGGCTTTATCCCGATCGGGGAGAC -TTTATTGCCGTGGTCGGCAGAATACAGGATATCAACGCCGTTCGTCAGGTAAAAGCGGCATTGTTGTCATCTCAG -GATTTATCTGTTTATTCTATGAATACCCCAGGGTTTATTCCCGGTATTGATTTCTCTGACCACCTGAATTATTGG -CAACACGATATTCCCGCCATAATGATTACTGACACCGCTTTTTATCGTAATAAACAATACCACTTGCCCGGTGAT -ACCGCAGACAGATTGAATTATCAGAAAATGGCTCAGGTAGTGGATGGTGTTATAACTTTGTTATACAACAGTAAA -TAATAAAAATTTCTCGAGGCGGGTCCAGAAAAAGCGACATGCACATTTTATTTTCCCTCATCTGTTTTAAGATGC -GAAACATGAAATTCAACGGAGGAAAAATAAATGGGAATGATTGGCTATTTTGCAGAAATTGACTCAGAAAAGATT -AACCAACTGCTTGAGTCTACTGAAAAACCTTTGATGGATAATATACATGACACGCTTTCAGGATTACGCCGACTG -GATATTGATAAACGCTGGGATTTTTTACACTTTGGGCTGACAGGCACCTCTGCTTTTGATCCCGCGAAGAATGAT -CCGCTGAGTCGTGCCGTGCTTGGTGAACACAGCCTCGAAGATGGCATAGATGGCTTCCTTGGATTGACCTGGAAT -CAGGAGTTAGCCGCGACAATCGACCGACTGGAATCACTGGATCGAAATGAACTGCGTAAACAGTTTTCCATTAAG -CGACTCAATGAAATGGAGATTTATCCGGGAGTGACCTTTTCAGAAGAGTTAGAGGGGCAACTCTTTGCCTCGATC -ATGCTTGATATGGAAAAGCTGATTAGCGCGTATCGACGTATGCTGCGACAAGGGAATCATGCGCTGACGGTTATT -GTTGGGTGATATAGCTTGATGCCTGGGGGAGAAAGACCCATTAGTTAAGATTTACGCCAGGATCATCTTGAAAAA -ATCTTTAACCATGGTCCGGTTTTTATCCCCTTGTATAAATATTACTAAATGCTTGCTTAGTCGCATTGTTAAATG -CAATACCGTATATTCGGTATGTAACAGCGATATCCTCTGTGCTGGCAACGATCTGTCATGCTTGATGAAAACGGA -ATTGAACCTGTCATTACCAGGTAGATAAAAAGCCTGTTCAATTTTGGGATTATTTTTTATAACTCGTGTCTGTTA -TGGCGACACGGGAAAACATCAATATTGTCCTTCACAAATTGCAGTAATATAGAATCAACCTCTCTTGCAAGTTGG -TCACAATGTATTATAAGCATTTTGAATATGTCATCCTCTGTAATCTCGTGAAAATTTTCGGCCTTGTCTTTTAGC -TCATCATATCGGATTCTTGCAGTAACCATTTTTTGGGCGAGTTCTAATAACCCCAAAGCTTGCAATTGCTGGTGA -GTATGATCACTTTCAAAAAATATCCCACACTCCATTCCTTCCCAACCAACATATTCATGCCATTCATAAACCAGC -ATAAATGTTTGTAAAACTGGCGGTAATAATTGGATATCTGCAAAACCAAACCAAAACTTACGCTTGAGATCCCAC -TCATATTCAATCGCCAATGCTATATTGTTTAAGGCATCTCCGGCATCCTTATTTTTACGCAAAATCAATTCCGTC -AGTGTATAGCGTTGTTCATCAATACGCCGAAGAGCTTCTGCAATATCATAGTTTGTAGCCAACAAAACATTCTCT -GCTTCCTGATGAGTGACGTCTGCTTTTGCCGTCAATATATTGATTTGGTCAATATGAAACAACTTGATGGCTTCA -TCAACATCACCGCCAGTCCTCTCTAACAAACGTCTGGCAACCTGGATACCGACAGGTACGTTCTTCCGAAGTTTA -CGAATTTCACTTAACCATTCCATGTCAAACCCCTTTAAATATTTATGATATTAAATATAACAACGTCTGGATAAC -GACCCGGCCTGACTGAATATCTCACGTTTTCCTGCTTAACATTCATGTTATGATGCTCTTGAAACTAATAATACG -TATGGAATTGTCACTATTTATCTGCTAATGAATTCAAACAATGTCATTCGTTTGATGAATATATTATTTCAGGGA -ATAATTATGACACCTTTAGAACGCATTACCCAACTTGTTAATATCAATGGTGATGTTAATAATCCTGATACTCCT -CGTCCATTGTTATCTCTTGAGGATTTTTTTATTGACAATAATATCCATGGTTCAATATGTTGCAATGTGATTCCA -GAACAATCTCCGCAAGCTATCTATCACCATTTTCTGAAAATACGTGAGCGTAACAATGTTAGTGATGTTTTGGTA -GAAATTACGATGTTCGATGACCCAGACTGGCCCTTTAGTGAAAGTATTTTAGTTATCACCACTGCTTCACCAGAA -GAAGTTCAGAGCTGGTTTGTAGAAGAAATTGCCCCTGATGAGTGCTGGGAAGGATGGTCAGAAGATACGGAGCAT -GGATGGGTTGAAGTCCCTGTGGGTATGCATCCGGTTACTTGTTGGTGGGATTAAAACATTTATATAAACAGATAA -GCGGATGTTTACATAAATTTTTATGTGAAGGAACATGATGAAACTTATTCCTCGCAGTAGTGATATTTCACCTGG -CATTGATGGAATTTGCCCGGGGCCTTTTCCTCCGAACGGATTTACCGTACTTACAGATGCAGCATATGGTAACGG -AGACTGTTTCGGTTTGTACTGGCCTATTGGTCAGGAGCATAAACTACCTATAGTGTGCGAAACGTACCATGACGA -ATGGCGAATCGTACCTGCCTTTTCCAGCATTAAGAAGTTCGAAGAATGGCTGGAAGTGAATGATGATGATCCCCA -TGAAAATGGCATCAGCATCGAAGATCAAGACTTTGCAGCAAATCTCTTCCGTGTTGCTCGGAAATGTCTTTCAAC -GGGAAGGCTTGATGACGCACTGCCACTGTTACAGCGAGCAACAGAACAATTGCCTGAAGTCAGCGAATATTGGTT -AGCACTGGCAATCCAGTATCGCCGATGTAAAAAAACAGAAGCTGCAGCACAGGCTGCGCTTAATGCTTATCTTGG -CAATTGGGCATTTGGTGTTCCTGACAATAAAGTCATTCATTTGCTGTCACAGGCCGCAGATGTCCCGAATTTCCA -GGATGATCCTGTGATTCAGTGCATTAAAGAACAAGGATTAGATCTTAGCTTTGGAGGAACAAAGGAAAATAATAA -TTACCCCTTGATGCAGATGTGTGTTGATACTTATTTTGCGCAGAGAAAACCGCTTCAGGCATTAACCCTGTTACA -TAATTATGCCTGGATAATGTCCAGTGAAACGACTGCATTTCAGGAACGCTATGATTTTAATATCGATGAATGGCG -GGCAAAATTCAGGCAGTTATGTTTAGAGTATTTTGGCGATAGTCGTACACAGTTCACTTAACGCTCTGCGTCTAT -CTACTATCCCTTCTTTTTCAGAAAAACCGCCGAGCATGTCGGCGGCTTTCTGACTTACAAAGTAACAGATTACAT -CAGCGGCATTGCCAAACGCACAATGCTAATCAGCGGTTGTGGCCATACACCCAGCACCAGTACCAACAGTGCAGA -GATCAGCACAACGATACCGCCCGCGCTGTACTGCCAGTTTGATGGTGCATCGCGACCCGGTTGTTCCGGGGCGTG -AAGATACAGGCTCACCGCCACGCGCAGGTAGTAGTAGAGGCCGATTGCCGAACCGACAACCACGGCACCCACCAG -CCACCACAAGTGTGCCTGGACACCGACCGCCAGCACGTAGAACTTACCGATAAAGCCCAGCGTCATCGGGATACC -GGCCAGAGACAGCATCATCACCGTCATCACTGCCGCGAGGATCGGACGATGCCAGAACAGACCGCGGTAAGAGAA -CAGGGAATCAGCATCCGGGCCACGATACGGGCTGGACATCAGGCTGACCACGCCGAACGCGCCGAGGCTGCTGAA -CAGATAACCGGCCAGGTAAACCCCTACCGCTTCCATCGACATCTCGCCGGTTTGCAGCGCAATCAGCGCTACCAG -CAGATAGCCGAGGTGAGAGATAGATGAGTAACCGAGCAGACGTTTGATATTGGTCTGGCTCAGCGCCATCAGGTT -ACCGAAGATGATGGAGGCAAAGGCGATAATCGCCAGCACCACGCGAATCGCTTCGCTGTCACCCACCGGTGCGTA -GAGGAACAGACGCATCACCACACCGAAGATAGCGATTTTGCTCGCCGTCGCCAGGAAAGTGGAAACCGGCGCAGG -CGCGCCCTGGTATACGTCTGGCGTCCACAGGTGGAACGGCACCAGAGAGAGTTTGAAGCCGAGGCCAACAATCAT -CAGGCCGAAACCTGCCAGCAACAGCGGCTCGTTGAGCATACCGTCGCCAAGGTTTTTACCCAACGCGACAAACGA -CAGGTCGCCAGACTGCGCATACACCAGCGCCATACCAAACAGCAGGAAAGAAGACGCTGCGGCAGAAAGGATGGT -GTATTTGATACTGGCTTCCAGTGAACGTTTCTGGCGGAAAGCGTAACCGACCAGGCCAAACAGCGGCAAAGAGAT -CAGTTCGATACCGAGGAACAGAGACGCCAGATGGTTGGCATTCGCCAGCAGGATCCCGCCCAGCGCGGCAATTAA -CACCAACAGGTAGAACTCATCCTTGTTGTCGTTATAGCCTTCAAGCCACGGGTAGGCGAAAGTACAGGTGGCGAG -GCTCGCCAACAATACCAGCCCGGTGTAAAGCATGGCGAAACCATCAACGCGCATCAGCGGCGTAACGTCCATAGC -GCCCGCCTGGCCAACAAACCAGAGCGAAACCAGCGCCGCGTTAAGCCCAATAACCGAGAGCGTAGCGTTGAGGAA -ATGATTGCGTCGCCACGCAATGGAGAGCATCACAACCACCACCGTCAAGCCGACGATCAGCAACGGTAGCAGTGC -GATCAGGTTTTGTGGAGTTATTGTCATGGCGATTTACGGCCTTGTAGTAGTAACGGAATTAACAAACCACTGCTG -GATATTGCCAATCGCGGAGTGCGAGGTATCCAGAATCGGCTGCGGATAGAAGCCCAGCAGTACCAGCAGCACCAC -CAGCAACAGGATCATAAACAGCTCACGCAGCGACATCCCTGGCAGTTCCTGGCTGGCAATCTGGCTTTTCGCTTT -ACCGAAGTAAGCGCGATGTAACATCGCCAGCGAATAAACAGATGCAAAGACCAGCCCAAAGGTAGAGATAACGGT -AATCACCGGTACAACCTGGAAGCTGCCGAACAGAATCATAAATTCGCCGACGAAGTTACCGGTGCCAGGCATCCC -AAGCGTTGCCACCGCAAAGAACAGCGACAGTGCTGGCAGCCATTTCATCTTGCTCCACAGACCGCCCATCATGCG -CATGTCGCGGGTATGGATACGTTCATAAAGCTGACCACAAAGAATAAACAGACCCGCCGCCGACAAACCGTGCGC -AATCATCTGGATTACCGCGCCCTGGTAGGCCAACTGGCTGCCGGTGTAGATAGCAATCAGCACGAAGCCCATGTG -GGAAACCGAGGTGTAGGCGATCAGACGTTTGATATCGGTCTGGGCGAAGGCCATCCACGCACCGTAGAAGATGCC -GATAACACCCAGCCACATAGCAATTGGCGCGAACTCTGCCGACGCGTTCGGGAACAGCGGCAGGGAGAAACGCAG -CAAACCGTAAGCGGCAGTTTTCAGCAAGATCCCCGCGAGGTCAACGGAACCGGCGGTCGGAGCCTGGGAGTGCGC -ATCCGGCAGCCAGCCATGCAGCGGAACCACCGGCATTTTGACTGCGAAGGCGATGAAGAAGCCCAGCATTAACAG -GTATTCCACACCACTGGACATTGGCGTATTCAGCAGCTCTTCATAGTTGAAGGTCCAGACGCCGGTCGCATTGTA -GTGAACAAAAACCAGCGCCAGGATGGCAATCAACATCACCAGGCCACTCGCCTGGGTGTAAATGAAGAACTTGGT -TGCCGCCGTGATACGCGTTTTACCGTCAGAGGCTTTATGCCCCCACAGTGCGATCAGGAAGTACATCGGCACCAG -CATCATTTCCCAGAAGAAGAAGAACAGGAACATGTCGATGGCAAGGAACACGCCGATAACGCCGCCCAGGATCCA -CATCAGGTTGAGGTGGAAGAAGCCCTGATATTTTTCGATCTCTTTCCACGAACATAGTACCGCCAGCACACCGAG -CAGACCGGTCAGCACGACCATCAGCAGCGACAGCCCGTCAATGGCGAGATGAATAGAGATACCAAAACGCGGGAT -CCACGGCATGTCGAATTCAGACTGCCACTGCGGAATTCCGGCGGATTGCGTCAGTGAATAACCGCCCTGCAACCA -CAGTTGCAGCGACAGCGCCAGCGTCAATCCCATGGTGATCAGCGCGATCCAGCGTGGCACCTTGACGCCAAAGCG -TTCGGTCTGCCAGCACAGGAAGCCGCCAATAAAGGGAATTAATATTAGCCAGGGTAGTAACATGGCGATCTTTAT -TCCTTGTAAAAGTCCCGTCAGGACCGGATTTTCAACGAATTCTCACGACAGAAAATTCTCTTCGGACTGGGGGTA -GTGTCGGATGCACCGCGAAGGCGGCTTATCCGACCTACGTTCTTATATGCCCAGGGGCAATCCCACAATCCTTAA -CTCAACGCAGTACCATCAACAGTGCCAGCACCACGACCGCACCGATGCTCATGGATGCCACATACCAGCGCAGAT -AGCCGTTCTCACTTAACAGCAGACCTTTACCTGCAAAGCGGGAAAGGACAGCCGGGATGTTCATCATTGAGTTCA -GCGGATCGCGTTTCAGCAACCAGGCAATACCCAGGAACGGCTTGACGAACACTTTGTCATACAGCCAGTCAAATC -CCCAGGCGTTGTACCACCAGGTGCCCAGCAGACGGCCCGGCGCACTGTTGGCGATGGAGGTCACCAGAGTACGTT -TACCCAGCCACAGCCAGGCTGCCAGCAGAATGCCGACCACCGCGACCACGCCAGAGGTAATTTCCAGGGTCAACA -TGCTGCCGTGCGCCAGTTCCGTCGTTTGCGGAAGCACGCCCTGCAGCGGCGGTACAATCAGTGCGCCAACGAAGG -TGGAAAGGATCAGCAGCACAATCAGCGGCAGGCTGTGAGTTACCCCTTTCACGGCGTGAGCGTGAATTTGTTCTT -TTCCGTGGAAGACGATGAAAATCATACGGAAGGTGTAGAGCGAGGTCATAAACGCACCGACCAGACCTGCCACCA -TCAGATTGATATGACCATTCGCCATCGCACCCGCGAGGATCTCATCCTTACTGAAGAAGCCCGCAGTGACCAGCG -GTAGTGCCGACAGTGCTGCGCCGCCCACCAGGAAGCAGAGATAAACCAGCGGAATAGATTTACGCAGACCGCCCA -TCTTGAAGATGTTCTGTTCGTGATGGCAGGCCAGAATGACGGAACCGGATGCCAGGAACAGCAGCGCTTTAAAGA -ACGCGTGGGTCATCAAGTGGAAAATCGCCGCATCCCATGCCTGCACGCCAAGCGCGAGGAACATGTAGCCAATCT -GGCTCATGGTAGAGTAAGCGAGAACACGTTTGATGTCGGTCTGTACCAGCGCGGCAAAACCGGCCAGCAGCAGCG -TAACCGCCCCGACAATACCCACCAGATGCAGAACTTCCGGCGTCATCAGGAACAGGCCGTGGGTACGGGCGATCA -GGTAGACACCCGCGGTTACCATGGTTGCGGCGTGGATCAGCGCGGAGACAGGCGTCGGGCCCGCCATCGCGTCGG -CAAGCCATGTCTGCAACGGCAACTGCGCAGATTTACCGACCGCACCGCCCAGCAGCATCAGCGTCGCCCACATCA -GCATGTTATTGCCGTCAGCAAAGTGCGCTGGTGCCAGTTCCACCATTTCGCGGAAGTTCAGGGTGCCCAGTTCGT -TGTAAAGAATGAACAGTGCGAAAGCGAGGAACACGTCACCCACACGGGTCACGACGAACGCTTTCATTGCCGCTG -CGCCATTCTTCGGATCGGTGTAATAGAACCCGATCAGCAGATAGGAGCACAGGCCCACGCCTTCCCAGCCGAGGT -ACATCAGCAGCAGGTTGTCGGCAAGCACCAGAACCACCATGCTGGCGATGAACAGGTTGGTGTAAGCGAAGAAGC -GAGAGTAGCCCTCTTCACCGCGCATATACCAGGAGGCGTACATGTGAATAAGGAAACCCACACCAGTGACCACCG -AGAGCATGGTCAGCGACAGGCCGTCCAGCACCAGGTTAAAACCGATGTTAAAGTCGCCTACCGACATCCACGTCC -ACAGCGGCTGGCTGTATGTCTGCTCGCCGTTAGCGAAGAAATCAACGCCGATAAAGGCGGTTACCAGCGCCGCCA -GGCCCACAGAGCCTACGCCGACGATCGCCGAGACGTTTTCAGACCAGCGCCCACGGGAGAATGCCAGCAGGACGA -AGCCAATCAATGGCAAAATAATGGTTAAGGCAAGCATGTTCATCCGCGCATCTCACTTACTGAATCGATGTTCAG -GTTCTGGCGACGACGGTGAAGTTGCAGCAGCAGCGCAAGGCCGATACTCGCTTCTGCCGCCGCGAGGCTGATGGC -GAGAATGTACATCACCTGACCGTCGGTCTGGCCCCAGTAGCTTCCGGCGACCACGAAGGCCAGCGCGGAGGCGTT -AATCATGATTTCCAGACCAATCAACATAAACAGCAGATTGCGACGGATAACCAGACCGGTTAAGCCAAGAACGAA -TAAGATTGCCGCGAGGATCAGTCCATGTTGTAAGGGGATCATGCGTGCTCCTCCGTTTTTCTTTTCGCGCTGTCG -TCTTTACGATTGCTCAGCACTTCACCCGCACGCTCTTCACGACCGACGTGGAAGGCCACAACCAGACCTGCGAGC -AGCAGCATAGAAGCCAGTTCCACCGCCAGTACGTAAGGCCCGAACAGCGTAATACCCACTGCTTTAGCACTGATT -GGCGTACCGTCGATACCCTGATCGTTAACACCGAGGATGGCGTAAACAATCACCACCAGCATGATGGCCGACAAA -ATTGCCGGACCAATCCACACCTGCGGTTTCAGCCACTGGCGTTCCTGTTCGATTTCTGAACCGCCCAGGTTGAGC -ATCATCACCACGAACACGAACAGCACCATAATGGCACCCGCGTAGACGATAATTTCCAGCGCACCGGCGAAGTAA -GCGCCCAGTGAGAAGAACACCCCGGAAATCGCCAGCAGCGAAATAATCAGGTACAGCAGTGCGTGTACCGGATTG -GTATGGGTGATCACTCGCAAGGTCGCAAGTATGGCTATCAGGCCACAGATATAAAAAGCGAACTCCATTGCCCCT -CTCCTTACGGTAACAGGCTCTTGACGTCGATAGGCTTGGCTTCGTTCTCTGCTTCGCCCTTATCTTTGCCGTCGA -TTGCCATACCTGCCATCCGGTAGAAGTTATATTCCGGGTATTTGCCCGGACCGGAGATCAGCAGATCCTCTTTCT -CGTAAACCAGATCCTGGCGCTTGTATTCCCCCATTTCGAAATCCGGGGTTAACTGAATCGCCGTGGTCGGACAGG -CTTCTTCGCACAGACCACAGAAAATGCAGCGTGAGAAGTTGATGCGGAAAAATTCCGGGTACCAGCGACCGTCTT -TGGTTTCTGCTTTTTGCAGCGAGATACAGCCGACCGGGCAGGCTACCGCGCAGAGGTTACAGGCTACGCAACGCT -CTTCGCCGTCCGGGTCGCGGGTCAGAACGATACGACCACGATAACGGGGCGGCAGATAGACCGGCTCTTCCGGGT -ACATTCGCGTTTCGCGTTTGGCGAACGCGTGCAGGCCGATCATCCAGATACTACGAACCTGGGTGCCGAAACCTA -CTAACAATTCTTTTAAGGTCATGGTCTTATTGCCCCTTATTGCGCCTGCCAGAGAATGACAGCCGCCGTTACCAG -CAAGTTGATCAGCGTCAGCGGCAGGCAGATTTTCCAGCCGAAGGACATTACCTGGTCATAACGCGGACGCGGTAA -CGACGCACGAATCAAAATGAACATCATCATAAAGAACGCGGTTTTCAGCGCGAACCAGATGAATGGCGGTAACAA -CGGGCCTTGCCAGCCACCGAAGAACAGCGTCACCATCAATGCAGAGATGGTCACAATCCCGATGTACTCACCCAC -GAAGAACAGACCGAACTTCATACCGGAATATTCAATGTGGTAACCATCCGCCAGTTCCTGCTCGGCTTCCGGCTG -GTCAAACGGGTGACGGTGACATACCGCCACGCCCGCGATGGCAAAGGTAATAAAACCAAAGAATTGCGGGATAAC -GTTCCACACATGCGCCTGGCTGTTGACGATGTCGGTCATGTTGAATGAACCGGCCTGCGCCACCACGCCCATCAA -GGAAAGCCCGAGGAACACTTCGTAGCTCAGGGTCTGCGCAGAAGCACGCATCGCACCCAGCAACGAGTATTTGTT -GTTACTTGACCAGCCCGCAAACAGCACCGCGTAAACCGCCAGACCTGCCATCATCAGGAAGAACAAAATCCCGAT -GTTCAGGTCGGCAACCACCCAACCCGGACTGACTGGCACAATCGCAAAGGCCAGCAGCAGCGAGGTAAAGGCAAT -CATCGGTGCCAGGGTAAAGATGACGCGATCCGAGAATTTCGGGATCCAGTCTTCTTTAAAGAACATTTTGATCAT -GTCCGCAACCAGCTGGAGCGAACCGCCCCAGCCAACACGGTTAGGTCCGTAACGGTTCTGGAACAGACCCAGCAG -GCGACGTTCGCCAAAGCTCATGAATGCCCCGCAGGTGACAACCACCAGCAGGATCACCACCGCTTTGAGGATGGT -CAGCAGGATCTCAATCAGTTCCGGTGATATCCAACTCATTGTTGTGCCTCCTTGAGATCCTCAAGATGCGCGCCA -GCCAGCACCGGAGCAATGCCGGACATACCCATCGGCAAGCCCACCTGCCCTGCCGTCAGTCCTTCGGCGATTTCA -ACCGGCAGCGTGACCGTGTTGCCATCGTAACTAAAGGAGACGCGTGTACCTGCGTTCACACCCAACTTCGCGGCA -TCCGCTGGGTTGAGTTTGATGTACGGCTGCGGCATACGGCTCTGGAAGACCGGAGCACGCTGTGACAATTCATCG -CTGCCAAACAGGTGGTAATACGGCGCGATACGCCATTTCCCGTCCTGCGGCTGGAAGCGTGCCGGTACGCTGGTG -AAGTAATCCAGACCATTTTCGCTGGTTTCAAACAGACGCACGCCCGGATCGCCAAAGCGCAGTTTGCCGCCCACT -TCGTCCTGGAATTTGTTCCACGCCTGCGGGGAGTTCCAGCCCGGCGCCCAGGCAAACGGCACTTGCGAACGGTGC -GCAGTCGGCTGGTTGTTACCTTCCATCGAGAAGGTGAACATGGTGTCAATATCCTGCGGCTGACGCGGCTCATGA -ACGCTGATATTGGCGCGCATGGCGGTACGACCGCTGTAACGGTGCGGTTCACGGGCCAGTTTCTGCCCACGAATA -CGGAATGTCGCATCCGGCGCAGCATCTTTGATACCTGCCAGTTCCGGGATTTTCGCCACAACAGCGTCAATCACA -TGGTCGAGCTGCGTCCAGTCCACTTCACGGCTCAGCAGGGTGCTGTGCAGCGAGTGTAACCAGCGCCAGCTTTCC -AGCATGACAGTTTTGCTGTCGTAATAAGCAGGATCGTAAACCTGGAAGAAACGTTGGGCGCGGCCTTCGTTGTTG -ATCACCGTACCGTCGCTTTCAGCAAAGCTGGCAGCAGAAAGTACCAGATGGGCGTTTTCCATAATCGCTGTGCGT -TGATGATCAACCACCATCACCAGCGGTGCTTTAGCCAGCGCAGCATTCACGCGGATAGCAGAAGCGTGACGATGC -AGATCGTTTTCCAACACCACCACCGCGTCGGCGCGTCCGGTTTCCAGTTCGGTTAACGCTTCTTCAAGCGAACCG -CCACCCATAATGCCCAGCCCCATGCTGTTGACGGAACGGGCAATCATGGTGATACCGACGTCAGCGCCGCGACCT -TTCAGGGCTTTCGCGACGTTAGCCGCCGCCTGAATCACCTCTAAGCTACCGGCGTTCGTCCCGGAGATAATCAAC -GGTTTCTTCGCACCTGCCAGTGCCTGCACGATGACGTCGATTTTGCTTTGCAGCTCAGGTTCGATACCGTCAACC -GCTGGTGCAGAGTTATCCAGCGCATGGGCGATGGCAAAACCTAAACGCGCCTGATCTTCAACCGGTGCGCGGTAA -GTCCACGCCGCGATATCATCCAGACGGGTGTCATCAACGTTGGTAACAAACAGCGGATGCTTCGCACGTTGACCG -ATGTTGAGGATTGCCGCAATCTGCCAGTCAGCCACTTTCTGTGCTGCCGCCATTTCGCGCGCTTTACCTTTCACA -GCCTGACGCACTGCCAGCGCGACGCGCGCGCCGGTCTGGGTAACGTCTTCGCCCAGCACCAGTACCGCATCGTAA -GATTCGATTTCGCGCAGAGCCGGAGTATAAATGCCGCCTTCACGCAGCACTTTCAGCGCCAGTTGCAGACGTTCC -TGCTCACCGTGAGCGATACCGGTGTAGAAGTTTTCTTCGCCCACCAGTTCACGCAGCGCAAAGTTGCTTTCCACG -CTGGCACGCGGAGAACCAATACCGATCACTTTCTTCGACTGACGCAGAATATCTGCCGCGCCCTGCATTGCCTGT -TCGGCGTTGAGGGTAATGAAATCATCGCCACGACGCTGTACTGGCTGACGCGGACGATCCTTCAGGTTGACGTAA -CCGTAACCGAAACGACCACGGTCGCAGAGGAAGTAGTGGTTTACCGTACCGTTGTAACGGTTTTCGATACGACGC -AGTTCGCCGTAACGTTCACCGGGGCTGATGTTACAGCCGATGGAACATTGCTGGCAGATGCTCGGCGCAAACTGC -ATATCCCATTTACGGTTGTAACGCTCGGAGTGCGTTTTGTCGGTAAATACGCCGGTCGGGCAAATTTCGACCAGG -TTACCGGAAAATTCGCTTTCCAGCGTGCCGTCTTCCGGGCGACCGAAGTAGACGTTGTCGTGCGCACCGTAAACG -CCCAGATCTGTACCGTCAGCGTAATCTTTGTAGTAACGCACACAGCGGTAGCAGGCGATGCAGCGGTTCATTTCG -TGAGAGATGAATGGCCCCAAATCCTGATTACGGTGGGTACGTTTGGTGAAACGGTAGCGACGGAAGCTGTGTCCG -GTCATCACAGTCATATCCTGAAGATGGCAGTTACCGCCCTCTTCACATACCGGACAGTCGTGCGGGTGGTTGGTC -ATCAACCACTCGACCACGCTTTCACGGAACTGTTTCGCTTCTTCGTCGTCAATGGAAATAAAGGTGCCATCGGAA -GCCGGTGTCATACAGGACATCACCAGGCGACCACGCGTGTCTTCCGCGTTTTGGTATTGCTTCACCGCACACTGG -CGGCAAGCACCGACACTTCCCAGCGCCGGATGCCAGCAAAAGTAAGGAATATCAAGGCCCAGAGACAGACAAGCT -TCCAGCAGGTTGTCCGCTCCGTTGACCTCGTATTCTTTGCCGTCTACATGAATTGTAGCCATTAGCATGCTTCCA -GTTTTCTCAGTCAGAGACTGAGCGTTAATCGAAATTCGGTTACCAGCGCTCTTTCAGCAGGTTCGGCTGAATCCC -ATTAATCAAATGGGTATTGCTGAACGGCTGTTTGATTCCCGCCTCAAATTCTTCGCGGAAATATTTGATGGCGCT -CTGTAACGGCTCCACTGCACCAGGTGCGTGGGCACAGAAAGTTTTACCCGGGCCTAAGAATCGACACAGTTGCTC -AAGTGTTTCGATATCGCCCGGCTGACCTTCACCACGCTCCAGCGCACGCAGAATTTTCACGCTCCACGGCAGACC -GTCGCGGCACGGCGTACACCAGCCGCAGGACTCACGGGCGAAAAACTCTTCCAGGTTACGCACCAGCGACACCAT -GTTGATCTCATGGTCAACCGCCATCGCCAGCGCCGTACCCAGACGGCTGCCCGCTTTACCGATACTTTCGAATTC -CATCGGCAGATCAAGGTGCGCTTCGGTCAGGAAGTCAGTCCCCGCGCCGCCTGGCTGCCAGGCTTTAAATTTCAG -ACCATCACGCATACCACCGGCGTAATCTTCGAGGATCTCGCGTGCGGTGGTGCCGAACGGCAGTTCCCACAGTCC -CGGATTTTTCACCCGACCGGAGAAGCCCATCAGCTTGGTGCCAGCATCTTTACTTTTCGAGATGTTCTGATACCA -CTCCACGCCGTTAGCGAGGATCGCCGGAACGTTACACAGGGTTTCGACGTTGTTGACACAGGTCGGTTTACCCCA -TGCGCCGGAGGTTGCCGGGAAGGGTGGCTTCGAGCGTGGGTTAGCACGACGTCCTTCCAGGGAGTTGATTAACGC -TGTTTCTTCCCCGCAGATGTAGCGCCCTGCCCCGGTATGGACGAACAGTTCGAAATCGAAACCTGTTCCCATAAT -GTTTTTGCCAAGCAGACCCGCTTCGGTGGCTTCGGCAATGGCACGGCGCAGATTAACTGCCGCTTCGATATATTC -GCCACGCAGGAAGATGTAGCCACGGTAAGCTTTCAGCGCAAACGCGGAGATGAGCATACCTTCCACCAGCAGGTG -CGGCAGTTGCTCCATCAACAGGCGGTCTTTATAGGTGCCCGGCTCCATTTCATCGGCATTACACAGCAGGTAACG -GATGTTCATGGATTCGTCTTTCGGCATCAGGCTCCATTTCAGGCCAGTCGAGAAGCCCGCGCCGCCGCGCCCTTT -CAGACCAGCGTCTTTTACCTGATTAACGATTTCGTCCGGAGACAGCCCGGTCAGCGCCTTACGCGCGCCTTCGTA -ACCGTTTTTGCTGCGGTATTCGTCCAGCCACACTGGCTGTTTGTCATCGCGCAGACGCCAGGTCAGCGGATGCGT -TTCGGGAGTACGGATAATGTTTTTCATTTATACCGCTCCAGCAGTTCAGGGATCGCTTCCGGGGTCAGATGCGCG -TGAGTGTCCTCATCGATCATCATGTTTGGCCCTTTATCACAGTTCCCCAGGCAGCAAGTTGGCAGCAGCGTAAAG -CGGCCATCAAATGTCGTTTGCCCTGGTTTGATGTTCAGCTTTTTCTCGAGCGCCGCCTGAATACCCTGATAACCG -TTGATATGACAGACCACGCTGTCACAATAACGGATCACATGGCGACCAACCGGCTGGCGGAAGATCTGACTGTAG -AACGTTGCCACACCTTCGACGTCGCTTGCCGGAATACCCAGCACATCGGCGATCGCGTGGATCGCACCATCCGGC -ACCCAGCCACGCTGCTTCTGAACGATTTTCAGCGCTTCAATGGACGCCGCACGCGGGTCTTCGTAGTGGTGCATC -TCGTGCTCGATCGCTTCACGCTCTGCCGCACTCAGCTCAAAAGCCTCGGTTTGTGGTTGTTGATTCTCGTGCATA -ATTAGCGGTCCACATCTGACATAACAAAATCGATACTGCCCAGATAAACAATCAGGTCAGACACCAGGCTGCCGC -GGATCGCCGCCGGAATTTGCTGCAAATGCGCAAAGCTCGGGGTACGAACACGGGTGCGGTAACTCATGGTGCTGC -CGTCGCTGGTCAGGTAGTAACTGTTGATCCCTTTGGTCGCCTCAATCATCTGGAAAGATTCATTGGCAGGCATCA -CCGGACCCCACGACACTTGCAGGAAGTGGGTGATCAGGGTTTCGATATGTTGCAGCGTGCGCTCTTTCGGCGGCG -GCGTGGTCAGCGGGTGATCCGCTTTGAACGGGCCTTCCGGCATGTTGTTGAGGCACTGCTCAAGAATGCGCAGAC -TCTGGCGCAGCTCTTCCACTTTAAGCATTACGCGGGTGTAGCAGTCAGAAACGCCACCACCCACCGGGATTTCAA -AGTCGAAGTTTTCATAGCCAGAATAAGGACGCGCCTTACGCACGTCGAAGTCGATCCCGGTAGCACGCAGGCCCG -CGCCAGTGGTGCCCCACTCCAGCGCCTCTTTCGCGCCATAGGCGGCAACGCCCTGGGAACGACCTTTCAGAATGG -TGTTTTGCAGCGCCGCTTTCTCGTAAGACGCCAGACGTTTCGGCATCCAGTCGAGGAACTCACGCAGCAGGCGAT -CCCAGCCGCGCGGCAGGTCGTGCGCTACGCCGCCAATACGGAACCACGCCGGGTGCATACGGAAACCAGTGATTG -CTTCCACCAGATCGTAAATTTTCTGACGATCGGTAAAGGCGAAGAACACTGGCGTCATTGCGCCGACGTCCTGAA -TAAAGGTCGAGATATACAGCAGGTGACTGTTGATGCGGAACAGTTCGGAGAGCATAACGCGAATGACGTTAACGC -GATCCGGCACGGTGATCCCGGCCAGTTTCTCTACCGCCAGCACGTAAGGCATTTCGTTAACGCAGCCGCCGAGGT -ATTCGATACGGTCAGTATACGGAATGTAGCTGTGCCAGGACTGGCGTTCGCCCATTTTCTCCGCACCACGGTGGT -GGTAACCGATGTCTGGTACGCAGTCGACAATCTCTTCGCCATCGAGTTGCAAAACGATACGGAAAGCCCCGTGCG -CCGACGGGTGGTTCGGACCGAGGTTGAGGAACATGAAGTCCTCGTTTTCGGTGCCGCGCTTCATCCCCCACTCTT -CCGGTTTGAAGGTCAGGGCTTCCATCTCCAGATCCTGTTTGGCTTTGGTCAGCTCAAACGGCGAGAATTCGGTAG -CGCGCGCCGGATAATCTTTACGCAGCGGGTGACCTTTCCAGGTTTGCGGCATCATGATGCGTCGCAGGTTCGGGT -GACCGTCGAAAGTAATGCCAAACAGATCCCAGGTTTCACGCTCATACCAGTTAGCGTTCGGGAACAGTTTGGTGA -AGGTCGGTACGTGCAGGTCGTTTTCTGCCAGCGCCACCTTCAGCATGATGTCGCGGTTACGATCGATAGAAATCA -GATGGTAGAAAACGGAAAAATCCGCGGCAGGTAACCCTTCGCGGTGTGTGCGCAGACGTTCGTCCATGCCGTGTA -AGTCAAACAGCATGACGTAAGGTTTCGGCAGTTTCTTTAAGAAATCGCCAACTTCCAGTAATTGTTCACGCTTGA -TCCACACAACGGGAACCCCGGTGCGAGTCGCCTGAACAGTAAAGGCATCCGGCCCAAAACGGTTGCGCAGTTCGC -CAATCACCGGATCATCAAGATGATCGCGGGTCTGCCAGGCGGGTTCTTGCGCGGTTAAGTCGGTCATATTGTTCA -CCATTGCAAATGGTCCGTGGTGACTGTCGGCGCAGTAAGCTTCGCGAAATAGATTTAGGAATAAGCGAAGAAAAA -TCCCTTTGCCGACAGGCGCAAATTAAATCTCGTCAGGTGTACGCAGGTTAGTTACGGCAATGCGTTCACCGCGCT -TGCGTTCGCGCTCTGATTGCATATTGGCGCGATAAACGCCCTGATCGCCAACCACCCAGGAGAGCGGACGACGTT -CTTTGCCGATAGATTCCTGCAACAGCATCAGTGCCTGCATGTACGCTTCAGGACGCGGCGGGCAGCCCGGGATAT -ACACATCAACCGGGATGAATTTATCGACGCCCTGCACAACGGAATAAATATCGTACATACCACCAGAGTTGGCAC -AGGCACCCATTGAGATAACCCATTTTGGTTCCAGCATCTGGTCATACAGACGCTGAATAACCGGTGCCATTTTGG -TAAAGCAGGTTCCTGCAACCACCATCAGGTCAGCCTGACGCGGCGAAGCACGCAATACTTCTGCGCCAAAACGCG -CCACGTCATGCACCGCGGTAAACGAAGTCACCATCTCAACGTAACAGCAGGAAAGACCGAAGTTATACGGCCAAA -TTGAGTTTTTACGACCCCAGTTAACCATGTCATTGAGCTTGCCCATAAACACGTTTTTGTTAACTTCTTGCTCCA -GAGGGTCGGTTACGATCTCCTGCTTTTGCAGGGGGTAACGGTCGTTCTCACCGTTGGGATCTATGCGGGTGAGCG -TATAATCCATCTTAATGCCTCGCGGTTAGCGTTGACGATTAGCGATACTGTTCGTTTCCGGGTTCATACGCTCGC -GGCGTGAACGCGCGGGCGTCCAGTCCAGCGCGCCAATACGCACCAGATAAACCAGACCTGCCAGTAACACAAAAA -TAAAAATTGCAGCTTCCACAAAGCCTACCCAGCCGCTTTCGCGGATAGAGGTTGACCATGCGAACAGATACAGCG -CTTCAACGTCGAAGATAACGAAGAACATGGCCACCAGATAAAACTTGGCGGACAGGCGTAAGCGGGCGGAGCCGA -CCGAGTCGATACCGGATTCAAACGGCACGTTTTTCGACCTCGCGCGTGCGCGACCGCCTAAAAACCAACCGCCTA -CCAGCATCAGGCAACACAGGCCAATGGCAACGATAAGAAAGATAGCGAATGCCCAGTGATGAGCGATGACTTCAG -TGGATGTTGACATACTCATTGCTTACTCATCAAAAGTAGCGCCAGATTCACTGCTCTTCACGGCAGATGGACGCC -ACATCGATTCATGGGGAGGAATAAAAAAAACCTTACAATCACTGTAGAAATTCTTTTATACAGCTAATTGATGTG -GTTTTTTACTCCTTTCTATAACCTTTTGTCAACTTTAACAAAAGTTTCTTCACATTAGTTTACATAATATCAACA -CCATTAGCATTTAATGCCCTTTCACCCCAGATCCTTGACGACTCCAGGATAATTAGATGTTGTTGAATCGTGTCC -GTTGTGAAGCAATGGAAAAAATACGGGTCTATTTTGACAGGAATTTGTGTCGATTCCTCCCCCCAAAAGAGAGTA -TTTTCTTGATCTGTGACACGCTTTTGTCATTCCATAACAAAAACGCAGCAACAAATTTACGTATTTTTTAACATC -ATTGTAGCAGGTGATTTTTTTCAGGCGATTATTTGTGCGTTCGGGACGTGAATCTCTGGTGGTTGAAAAATGAAC -AGTTTTGTACGTTCTGCACTATGCGATGAAGGATTTTTACTAAAAAAAAGCCGCTGGGGTTTAAAACACCCCCAG -CGGCTCGTTTTTTACACTATTGTCTCAGGAATTATCTATCGTCCGTCGATTACTCGATATCCCTTTCAATCAACA -ATGAATCATCCCCTTCCGGAGCAGACATTGGGCTGTATTGCCACGGATTATGGTAGCTCTCCATCGCCTGATAGA -TCACCTGGGCCAGCTCATTATTACTGGACGGATCATAGCACAGCAAATATTCGGTATCAGGTAGCGGCGGTAAGC -CATCTACTCCACTCAGCACACGCAGGTCCGGGCTCATCATCTCAACCGGCCTTGCCGTCACGCCAAGACCGGCTT -TCACTGCCGCACGAACGGCCGGAAGCGTCGAGGCGACATAAGCCAGTCGCCATGGAATATCTGCTTTATTAAGCG -TCGCCAGCACCATATCGCGAAACGGGCTAGGATCATCCAGCAATACAAGAGGGATCGGCTCGCCTTTTTGCAATA -TGTATTCCGCTGCGCAGTACCAGTGTGTTGGCGAGGTACGCAGGTTCAATGCCTTAAACGCTGAAGGACGATGGG -TGGTTACCATCAAATCCACTTCCTGGGATTCCAGCATTTCTGCCATATAGGCATTACGTTTAACGCGGACATCCA -GCGCTAATTTCGGATAAACCGAACTCACGCGATTTAACAGGAAAGGTAAGATCGTATCGGCAGATTCATCTGAAG -CACCGATAGTTAATACGCCCTGAAGATTACTGAACATTAATGATGAGCAGGCCTCATCATTAAAACGCAGGATTT -TCCTGGCGTAACCAAGAAGTTGAATGCCATGTTCAGTTAACAGTTTGTTGCGACCGTGACGAGCGAACAGTTCTT -TCCCAACGAGTTGTTCCAGACGCTGCATTTGCTGACTTACGGCGGACTGAGTACGACACACAGCGGCAGCTGCGG -CAGCAAAAGTGTTCAGATCGGCAACAGCAACAAATGTTCTCAGCAGATCGAGGTCGAGGTTAATTATCGGACGAT -TTGCACTTATCATATATTATCACTTACTGGCGGCTCATACTGAGCTGGTTAATGCTGTGCACACACAAACAAGCA -ATTCCATTTGTAATGTGCCTCCCTGGCAGTTTCATCCGGAACCCGGACGAAAGTAAAAATGCATATGAGTTGCAC -TAAAAAAGCGACTCACATTGTTCCGTTATAATGCCTGAAGTAGATCACAGAATATATCTTCAGGGATCGCATATC -TATTAAGTTACTCACTCTTTTCTATTTATGACATGCGCGTGTTTGTATAAATGTAAATGTGAGTCCTTGTTCCAC -TCTCGTGCAGCATCGCTGGTCATACGCGAACACGTACCAACAGCAATGGTGAGGCGGCATCAAGAGCAGGGATCC -GTCATTTATCCGAGCATTTTACCCCAAAAACCTTTTATTTATAAGGGTCATTGCGAATTATCTGATGCAAAGTTA -TGTTATGTTAGGCAAAGTAATCTTCTATTATTAATAAGCACATCAAAACCTTTTTGAATATTAAATAATAATTAA -TTAGCATCATCCTCATTCATTAATTCCGCTTAACAATAGTTTCACACCTTGCCCCCATTGCGACACCTCGGAAAT -CATCACGCAGTTAAACTCTCCGTAATGAGGAAATATCATCATCGCGTTTCATTAGTGAATTCTTAAATGAGGCAT -TTTCACACAATTATCTTACAGATAAAAAAACCAGACTTACAATTAAGAATCAGAACAATTCACTATATAACATTG -CATGTAAAGCATATACACCTCATTATTTTGTCATTATTAAGTTATTAACAGCACAATCGAGCCTTCCCCTCTGGC -AAAATCTTATTCTGCAGACCTTCAAAACACCGTCCTGGGGGAGTACATTGTTCTAAGCTGACTTCCACGGCAGGG -AGTGGCGATAACAGCAAAAAAGGTCAAGATTCATGTCCCCCATTGAAAAATCCAGCAAATTAGAGAATGTCTGTT -ATGACATCCGTGGTCCGGTGCTGAAAGAAGCAAAACGCCTGGAAGAAGAAGGTAACAAGGTACTGAAACTGAACA -TCGGCAACCCAGCCCCGTTCGGTTTTGACGCGCCAGATGAAATCCTCGTTGACGTGATACGCAACCTGCCTACCG -CTCAAGGGTATTGCGATTCCAAAGGTCTTTACTCCGCGCGTAAAGCCATCATGCAGCACTACCAGGCTCGTGGCA -TGCGTGATGTTACCGTGGAAGATATTTACATCGGCAATGGTGTATCGGAGCTTATCGTTCAGGCAATGCAGGCAT -TGCTGAACAGCGGGGACGAAATGTTGGTTCCTGCACCAGATTACCCACTCTGGACCGCGGCGGTTTCGCTTTCCA -GCGGTAAAGCGGTGCATTATCTTTGCGATGAATCCTCTGACTGGTTCCCGGACCTCGATGATATTCGCGCTAAAA -TTACGCCTCGTACGCGTGGGATCGTTATTATCAACCCAAATAACCCAACCGGCGCGGTATATTCCAAAGAGCTTT -TAATGGAGATTGTGGAGATTGCACGTCAGCATAATCTCATTATCTTCGCCGATGAAATTTATGACAAAATTCTCT -ACGACGACGCTGAGCATCACTCAATTGCGCCGCTGGCACCTGACCTGCTGACCATTACCTTTAACGGACTGTCGA -AAACGTACCGCGTTGCAGGCTTCCGTCAGGGGTGGATGGTGTTGAACGGGCCGAAAAAACACGCCAAAGGCTACA -TCGAAGGTCTGGAAATGCTGGCTTCAATGCGCCTGTGTGCTAACGTTCCTGCGCAACACGCCATTCAGACCGCGC -TAGGTGGTTATCAGAGCATCAGTGAATTTATTACCCCTGGCGGTCGTCTTTATGAGCAGCGTAACCGCGCGTGGG -AACTGATCAACGATATTCCGGGCGTTTCCTGCGTGAAACCTCGTGGTGCGCTGTATATGTTCCCGAAAATCGACG -CCAAACGCTTTAACATTCACGACGATCAGAAAATGGTGTTGGATTTCCTGTTGCAGGAAAAAGTTCTGTTGGTGC -AAGGGACGGCATTCAACTGGCCGTGGCCGGATCACTTCCGCATTGTCACGCTACCGCGTGTCGATGATATCGAGC -TGTCTTTGAGCAAGTTCGCGCGTTTCCTTTCTGGTTATCATCAGCTGTAATCTTAATTTCACTGCCGGAGATTGC -ATCCGGCAGCGTTATCCCGCCACAATGACCTGATGATGTCATCATACGTAAGGTCACTATGAAACAGAGCCATTT -TTTTGCCCATCTCTCCCGCCTGAAACTCATTAACCGCTGGCCGCTCATGCGCAACGTGCGGACGGAAAATGTGTC -CGAACACAGTTTGCAGGTAGCGATGGTCGCCCATGCGCTGGCAGCTATCAAAAATCGAAAATTTGGCGGTAATGT -CAACGCCGAACGTATCGCTTTACTGGCGATGTACCACGATGCCTCAGAAGTGCTCACCGGCGATCTCCCTACTCC -GGTGAAATACTTCAATTCGCAAATCGCTCAGGAGTACAAGGCTATTGAAAAAATCGCTCAGCAAAAACTGGTCGA -TATGGTTCCGGAAGAGCTGCGGGATATCTTTGCGCCGTTAATTGACGAGCATGCATATAGCGATGAAGAAAAATC -GCTGGTGAAACAGGCAGATGCACTGTGTGCATATCTGAAATGTCTGGAAGAACTCGCGGCCGGAAATAATGAATT -CTTGCTGGCAAAAACGCGACTGGAAGCGACGCTTGAAGCGCGTCGCAGCCAGGAGATGGACTACTTCATGGAAAT -ATTTGTTCCCAGCTTCCATCTTTCGCTCGATGAGATTAGCCAGGATTCACCGCTGTAAGCAGCCGGAGTCTGCGT -CGCATCAGGCAATAAGCGCCGGATGCGACATCAGGCTCTTGTCAAAACGGAAACAGCATCGGGATCATCACCACA -CAAACCGCCATCACGATAATGGTGAACGGTACCCCCAACTTCACAAAGTCACTGAAGCTGTAATTTCCCGGACCT -AAAACCAGTGTGTTAACAGGTGAAGAAACCGGTGTCATAAAGGCGGCGGATGCTGCCATCGCCACGACCATCGCG -AATGGATAAGGCGACACCCCCATCGTTTTGGCAGCAGCCAGCGCAATCGGAGCCATCAACACCGCCGTCGCGGTA -TTAGAGATAAATAGCCCAATAACCGCCGACAAGACAAACAAACACCCCAGCATCATATGTGGCCCGTAACCACCG -CCAATGTCCATCAGCCCTTTCACCGCCAGCGCGACACCTCCCGTTTTCTGTAATGCCACAGCAAACGGCATCATC -CCAACGATCAAAATAATGCTCGGCCAGTGAATGGATTTATAGGCGCTTTCAGCATCTATACAGCGGAATTTCCCC -ATCAGCAGGCAGGCGATGATAGCGGCAACAGGATTAGGAATTTCATCTGTCAGCATTAACGCCACCATTAGCACC -AGACAGAAAATGGCATGGGGTGCCTGGCTGTGCGCGGGTGATGCTTCACTCACCTCTTCCGGTAAGTTCAGCGCT -ACGAAGTCGCGGCCCTGTTTGGCCAGCATACCGATCAGTTTCCAGTTACCCACAACCAGGATGATATCGCCCAGC -AGCAGAGGCTCATCCGCCAGCGAACCTTCCAGCGCCACGCCATTGCGCTTTAGCCCCACCACATTCAGTCCGTAG -CGGGTACGAAAACCAATTTCGCGCACCGATTTACCAATCAGTTCTGACTCAGGAATTAATGAAATCTCTGCCATG -CCCACATCAAGGGCCTGGTCAGAAAAATACTCGCCGCGCAGTACCATCGGCTCCAGCAATTGCTCACTACAAAAT -TGCCGGAGATCGACATCAGCCGCAGACATATCAATAAGCAAAACGTCACGCGCGCGAAATTCAGAAACCCCATTA -ACGTTCACGATAACGCGACGAAAACGCCGCCAGCGTTCAACACCGATGACGTTAGCGCCATAACGCTCACGTAAT -TTGAGATCATCCAGCCGTTGACCAATCATTGGCGATCCGGGGCGAATAGCCAGACGTCGCGCACGCCCGGTCAGT -CGATATTCACGGATAAGATCGCGAAAGGTTCGACGCGTCCAGCCTTCGCGCTGCGGGGTCTGGGTATCCCCTTTC -AGCATGAAACGCATCACTAACATATACAAAATACCCAGCACCAGCACGACCAGGCCAATAGGTGTTACGCTAAAG -AAACTGAAGCCGTGATAGCCTTCACGCAGCAATTCACTGTTGACTACCAGGTTCGGCGGCGTCGCCACCAGCGTC -ATCATGCCGCTAATCAGCCCGGCAAAACTTAACGGCATCATCAGACGTGACGGCGACGTTTGCATACGCATGGCA -ACGCTTAACACCACGGGAATAAAGATAGCGACAACGCCGGTTGAACTCATAAACGCGCCAAGCCCCGCGACGGTC -AGCATCAACAAAACCAACATTTTGATTTCACTATTGCCCGCAACTTTGACCAGCCATGTTCCCATTACGGTGGCA -ACACCGGTACGGACCAAACCATCGCCAATAATAAACAAGGCGGCAATCAGGACAACGTTAGGATCAGAAAAGCCG -GAAAATACTTCTGGGACTGTCAGCGTTCCGCTTAATGCAAACGCGACAATAACAAACAAAGCGACCGCATCCATA -CGCACTCTGCCCGTCGCAAACAAGACGATGGCAACGGCCAGTAATGAAAGAACCCAAATCAATTCACCGTTCACA -ACTTATCCTTGTTAATTGAGGGGGATGACTTGATTCTGCCATAAAAAAGCCCCGACGAGACGGGGCTAAATCATG -ATCAGGTGTTTCACTGAATAATAACATCGCCATTTGGCTGTTTGGTCACAGTAATTTGCTCCAGACTGTGGAGGA -CCAAATCGACCTCATTCAGGCGCGGGGTATCTGCCGGAGCGTTAACCGCAATGACATGACAACCCGCCGCCAGGC -CAGAAAGCACGCCAGCGGGAGCATCTTCCACCACCACACACTCCTGCGGCGCAAGCCCCAGCAGCTGCGCGCCTA -ACAGATACGCATCAGGTTCTGGTTTTCCGCGCTTCACTCGCTCAGCGGTTACAAACACCTCTGGTGCGGGAAGCC -CAGCTATTTTATGGCGCGCTCGCGCTACCGGCATGGAGCCAGAAGTCACAATGGCCCACGGAATACCTGCTTTAT -TCAAATGACTGAGTAAGGCGATTGCCCCCGGAAGCGCGGTAATACCTTCGGTTTCCGTGGCCTCGATGTGCTCCA -GACGCGTAAACTCGGCGGCAATATCAGCCTCGGATTTGCCCGCCATAAAATGGCGCAGAGAGGTGATCGCCTGTT -TACCGTGAATGAAAGCCAGCACCTCTTCCGGCGCTAACCCATGACGTCTGGCCCAGTTGCTCCACGCCCGTTCTA -CCGCAGGCAGGGAATCCACCAGCGTTCCATCAAGATCAAACAGAAAACCTTTGCACCGCACGCGGGCCTCCTCAG -GCATTGATAATTTGATTAATTTCGTTGGCGCTCAAATGGTACTGACGCGGGCAGGCATGCCACACATTAAGCATG -CGCTGATATTTTTCCCACATTGGCGTCTGGGCGTTAAAACCGTGAGTTCCGGCGTCAAAATGGGTATAGCGCCCT -TCCACATTAACCATAAAGCGGACATAACCGAGGTAACGTGCTTCAGTGGCGGCGTCAAAGCCGAGGAAGGTGACA -CGACGTTCATCGATGGATTGCTGGTCCTGCAAATTAGACCAGGAAACATGCAACGCATGATACATCTCCATAATG -TCGATGATAGTGCGGCAGGTTTCTTCTTTCAGCTCGCCAAACTCGCGATCCAATTCACGCATCTGTAATCCGTAA -CCACGCTCAATAATTGTTTGCAGGCGACGGTAACGTTCAGCATTTGCCGGATCGAGCATAGTCATCATCTTGTAC -TGATTAGACAAAATAAGACGTTGCGCGTTGGTCATTTCCATTGTTGACTCCTGTATCACTCTACTACGGTGAAAA -AAAAGAAGGCTGAGTATGCCTTCTTTTATATGCGTAATCAGGGGTCAATTACAAATCATCAAGGAAAGTTTTATC -CAGTTGTTTGAAGGCGCGCTTAAGCGTGTCAGCTAATGCCTGGTAATCAGGCTTGCCTTCAACGGGTGCCAACAC -CTGTCCAGACTCCTGCAATTTACCGCGAACTTCATAAAACCAGTTAAGGATTGCAGGGGGTAATGGCGTGACAGA -ACGCTTGCCCAGCCACCACAATCCCTGCATGGGTAAACTTAAGGCGAACAGGGCAGTGGCAACTGCCGGCCCAAG -CTGACCGCCCAGGGCAATCTGCCAGCAGAGAGTAAATACGGCGATCGGCGGCATAAAACGGATCGCATAACGCGT -CATCTTGATAACGCGATTTTCGACAAAGACCGGGGCAAGGCGTTTTTCCAGCGGCCACGTCTTTGAGTAATGCTG -TCCCCGGCGAAACAAGCTAAAAAAATTAACAGAACGATTATCCGGCGTTGACATGCTTCACCTCAACTTCACATA -TAAAGATTCAAAAATTTGTGCAAATTCACAACTCAGCGGGACAACGTTCAAAACATTTTGTCTTCCATACCCACT -ATCAGGTATCCTTTAGCAGCCTGAAGGCCTAAGTAGTACATATTCATTGAGTCGTCAAATTCATATACATTATGC -CATTGGCTGAAAATTACGCAAAATGGCATAGACTCAAGATATTTCTTCCATCATGCAAAAAAAATTTGCAGTGCA -TGATGTTAATCATAAATGTCGGTGTCATCATGCGCTACGCTCTATGGCTCCCTGACGTTTTTTTAGCCACGTATC -AATTATAGGTACTTCCATGTCGAGTAAGTTAGTACTGGTTCTGAACTGCGGTAGTTCTTCACTGAAATTTGCCAT -CATCGATGCAGTAAATGGTGAAGAGTACCTTTCTGGTTTAGCCGAATGTTTCCACCTGCCCGAAGCACGTATCAA -ATGGAAAATGGACGGCAATAAACAGGAAGCGGCTTTAGGTGCAGGCGCCGCTCACAGCGAAGCGCTCAACTTTAT -CGTTAATACTATTCTGGCACAAAAACCAGAACTGTCTGCGCAGCTGACTGCTATCGGTCACCGTATCGTACACGG -CGGCGAAAAGTATACCAGCTCCGTAGTGATCGATGAGTCTGTTATTCAGGGTATCAAAGATGCAGCTTCTTTTGC -ACCGCTGCACAACCCGGCTCACCTGATCGGTATCGAAGAAGCTCTGAAATCTTTCCCACAGCTGAAAGACAAAAA -CGTTGCTGTATTTGACACCGCGTTCCACCAGACTATGCCGGAAGAGTCTTACCTCTACGCCCTGCCTTACAACCT -GTACAAAGAGCACGGCATCCGTCGTTACGGCGCGCACGGCACCAGCCACTTCTATGTAACCCAGGAAGCGGCAAA -AATGCTGAACAAACCGGTAGAAGAACTGAACATCATCACCTGCCACCTGGGCAACGGTGGTTCCGTTTCTGCTAT -CCGCAACGGTAAATGCGTTGACACCTCTATGGGCCTGACCCCGCTGGAAGGTCTGGTCATGGGTACCCGTTCTGG -TGATATCGATCCGGCGATCATCTTCCACCTGCACGACACCCTGGGCATGAGCGTTGACGCAATCAACAAACTGCT -GACCAAAGAGTCTGGCCTGCTGGGTCTGACCGAAGTGACCAGCGACTGCCGCTATGTTGAAGACAACTACGCGAC -GAAAGAAGACGCGAAGCGCGCAATGGACGTTTACTGCCACCGCCTGGCGAAATACATCGGTGCCTACACTGCGCT -GATGGATGGTCGTCTGGACGCTGTTGTATTCACTGGTGGTATCGGTGAAAATGCCGCAATGGTTCGTGAACTGTC -TCTGGGCAAACTGGGCGTGCTGGGCTTTGAAGTTGATCATGAACGCAACCTGGCTGCACGTTTCGGCAAATCTGG -TTTCATCAACAAAGAAGGTACCCGTCCTGCGGTGGTTATCCCAACCAACGAAGAACTGGTTATCGCGCAAGACGC -GAGCCGCCTGACTGCCTGATTTCACACCGCCAGCTCAGCTGGCGGTGCTGTTTTGTAACCCGCCAAATCGGCGGT -AACGAAAGAGGATAAACCGTGTCCCGTATTATTATGCTGATCCCTACCGGAACCAGCGTCGGTCTGACCAGCGTC -AGCCTTGGCGTGATCCGTGCAATGGAACGCAAAGGCGTTCGTCTGAGCGTTTTCAAACCTATCGCTCAGCCGCGT -ACCGGTGGCGATGCGCCCGATCAGACTACGACTATCGTGCGTGCGAACTCTTCCACCACGACGGCCGCTGAACCG -CTGAAAATGAGCTACGTTGAAGGTCTGCTTTCCAGCAATCAGAAAGATGTGCTGATGGAAGAGATCGTCGCAAAC -TACCACGCTAACACCAAAGACGCTGAAGTCGTTCTGGTTGAAGGTCTGGTCCCGACACGTAAGCACCAGTTTGCC -CAGTCTCTGAACTACGAAATCGCTAAAACGCTGAATGCGGAAATCGTCTTCGTTATGTCTCAGGGCACTGACACC -CCGGAACAGCTGAAAGAGCGTATCGAACTGACCCGCAACAGCTTCGGCGGTGCCAAAAACACCAACATCACCGGC -GTTATCGTTAACAAACTGAACGCACCGGTTGATGAACAGGGTCGTACTCGCCCGGATCTGTCCGAGATTTTCGAC -GACTCTTCCAAAGCTAAAGTAAACAATGTTGATCCGGCGAAGCTGCAAGAATCCAGCCCGCTGCCGGTTCTCGGC -GCTGTGCCGTGGAGCTTTGACCTGATCGCGACTCGTGCGATCGATATGGCTCGCCACCTGAATGCGACCATCATC -AACGAAGGCGACATCAATACTCGCCGCGTTAAATCCGTCACTTTCTGCGCACGCAGCATTCCGCACATGCTGGAG -CACTTCCGTGCCGGTTCTCTGCTGGTGACTTCCGCAGACCGTCCTGACGTGCTGGTGGCCGCTTGCCTGGCAGCC -ATGAACGGCGTAGAAATCGGTGCCCTGCTGCTGACTGGCGGTTACGAAATGGACGCGCGCATTTCTAAACTGTGC -GAACGTGCTTTCGCTACCGGCCTGCCGGTATTTATGGTGAACACCAACACCTGGCAGACCTCTCTGAGCCTGCAG -AGCTTCAACCTGGAAGTTCCGGTTGACGATCACGAACGTATCGAGAAAGTTCAGGAATACGTTGCTAACTACATC -AACGCTGACTGGATCGAATCTCTGACTGCCACTTCTGAGCGCAGCCGTCGTCTGTCTCCGCCTGCGTTCCGTTAT -CAGCTGACTGAACTTGCGCGCAAAGCGGGCAAACGTATCGTACTGCCGGAAGGTGACGAACCGCGTACCGTTAAA -GCAGCCGCTATCTGTGCTGAACGTGGTATCGCAACTTGCGTACTGCTGGGTAATCCGGCAGAGATCAACCGTGTT -GCAGCGTCTCAGGGTGTAGAACTGGGTGCAGGGATTGAAATCGTTGATCCAGAAGTGGTTCGCGAAAGCTATGTT -GGTCGTCTGGTCGAACTGCGTAAGAACAAAGGCATGACCGAAACCGTTGCCCGCGAACAGCTGGAAGACAACGTG -GTGCTCGGTACGCTGATGCTGGAACAGGATGAAGTTGATGGTCTGGTTTCCGGTGCTGTTCACACTACCGCAAAC -ACCATCCGTCCGCCGCTGCAGCTGATCAAAACTGCACCGGGCAGCTCCCTGGTATCTTCCGTGTTCTTCATGCTG -CTGCCGGAACAGGTTTACGTTTACGGTGACTGTGCGATCAACCCGGATCCGACCGCTGAACAGCTGGCAGAAATC -GCGATTCAGTCCGCTGATTCCGCTGCGGCCTTCGGTATCGAACCGCGCGTTGCTATGCTCTCCTACTCCACCGGT -ACTTCTGGTGCAGGTAGCGACGTAGAAAAAGTTCGCGAAGCAACTCGTCTGGCGCAGGAAAAACGTCCTGACCTG -ATGATCGACGGTCCGCTGCAGTACGACGCTGCGGTAATGGCTGACGTTGCGAAATCCAAAGCGCCGAACTCTCCG -GTTGCAGGTCGCGCTACCGTGTTCATCTTCCCGGATCTGAACACCGGTAACACCACCTACAAAGCGGTACAGCGT -TCTGCCGACCTGATCTCCATCGGGCCGATGCTGCAGGGTATGCGCAAGCCGGTTAACGACCTGTCCCGTGGCGCA -CTGGTTGACGATATCGTCTACACCATCGCGCTGACTGCGATTCAGTCTGCACAGCAGCAGTAATCTCGTCATCAT -CCGCAGCTTTGCGCTGCGGATATCTGAACCGGAAATAATCACTATTTCCGGTTTTTTATTCTCTTAATTTGCATT -AATCCTTTCTGATTATCTTGCTTAACTGCGCTGCATCAATGAATTGCGCCATCCCACTTTGCATACTTACCACTT -TGTTTTGTGCAAGGGAATATTTGCGCTATGTCCGCAATCACTGAATCCAAACCAACAAGAAGATGGGCAATGCCC -GATACGTTGGTGATTATCTTTTTTGTTGCTATTTTAACCAGCCTTGCCACCTGGGTAGTTCCGGTGGGGATGTTT -GACAGTCAGGAAGTGCAGTATCAGGTTGATGGTCAAACAAAAACACGCAAAGTCGTAGATCCACACTCATTTCGC -ATTCTGACTAACGAAGCAGGCGAACCTGAGTATCACCGCGTACAGCTGTTCACGACGGGCGATGAACGCCCGGGC -CTGATGAACTTCCCGTTTGAAGGATTAACCTCAGGATCGAAATACGGGACAGCCGTTGGCATCATCATGTTTATG -CTGGTGATTGGCGGCGCGTTTGGCATTGTGATGCGTACAGGAACCATTGATAACGGTATCCTGGCGCTTATTCGC -CATACCCGCGGGAATGAAATTCTCTTTATTCCTGCGCTGTTTATTCTGTTTTCACTTGGCGGCGCGGTATTTGGT -ATGGGAGAAGAGGCCGTCGCCTTTGCCATTATCATCGCACCGCTAATGGTCCGGCTGGGCTATGACAGTATTACC -ACCGTCCTGGTGACCTATATTGCCACGCAAATCGGTTTTGCCAGTTCGTGGATGAACCCGTTTTGTGTGGTCGTT -GCTCAGGGGATTGCCGGCGTTCCGGTGCTTTCTGGCTCCGGGTTGCGCATCGTGGTGTGGGTTATCGCCACTCTG -ATTGGCCTGATCTTTACCATGGTGTACGCCTCACGAGTGAAAAAGAATCCTCTTCTGTCACGCGTGCATGAGTCC -GACCGCTTCTTTCGTGAAAAGCAGGCTGATGTTGAACAACGTCCGTTTACCTTTGGTGACTGGCTGGTATTGATT -GTCCTGACCGCCGTAATGGTCTGGGTGATTTGGGGCGTGATCGTTAATGCCTGGTTTATTCCAGAAATTGCCAGC -CAGTTCTTCACCATGGGTCTGGTGATTGGCATCATCGGCGTTGTTTTCCGCCTTAACGGCATGACGGTTAATACC -ATGGCTTCATCCTTTACCGAAGGGGCGCGAATGATGATCGCCCCTGCCCTGCTGGTGGGTTTCGCCAAAGGGATT -TTGCTGCTGGTCGGTAATGGTGAAGCGGGTGATGCCAGCGTGTTAAATACCATCCTCAACAGCATTGCCAATGCC -ATTAGCGGTCTGGACAACGCGGTCGCGGCCTGGTTTATGTTGCTCTTCCAGGCGGTATTTAATTTCTTCGTGACG -TCCGGTTCTGGTCAGGCGGCGTTAACCATGCCGTTACTGGCACCGCTTGGCGATCTGGTCGGTGTTAACCGTCAG -GTTACCGTGCTGGCGTTCCAGTTTGGTGATGGCTTCAGTCACATCATTTACCCAACCTCAGCGTCGTTAATGGCA -ACGCTCGGTGTGTGCAGGGTGGACTTCCGTAACTGGCTGAAGGTGGGCGCGACCCTACTTGGACTGCTGTTTATT -ATGTCCAGCGTCGTAGTGATCGGCGCTCAGTTGATGGGCTACCACTAAAAATGTTAAGAGCCGCAATTGCGGCTC -TTTTTTCATTCTGCCGTTTCAGTCTCTACGGCTTCATTTTTGGCATTGCGCTTCATCCACAACGCTAGCGCTTTC -AGCGAGTCTGGAGTGAACTCATCGCAGCGTGCGGTGATTTCTTCCGGCGTCAGCCAGCAAACTTCACTGACTTCA -TCTTCCTGTAGTGCGAAGGGACCGTGAGAGACGCAGCTGAACAATGCGCCCCAGACACGGCAATTTTTATCTTCG -AAATAGAACTGCCCGTGCTCGGCAAAGGGGACACCGGCAATGCCCAACTCTTCTTCCGCTTCGCGACGCGCGGAT -TCCAGCAGTTGCTCATCGGCCTGGACTACACCGCCTGCGGTCGCATCTAACATGCCGGGTAAAAAGTCTTTTGTC -TCGGTACGACGCTGGACCAGAATTTTGCCCATGCCATCATGCACGACGATGTAAGTTGCACGATGACGCAGACAC -TGTGCCCGCATTTGTTCCCGGCTGGCTTGTGCAATGACTTCGTTCTCTTCATTGACAATATCCACCCATTCAGTA -CTTGCCAAACGACGCTGTTCCATTATCAGGAAACCTTCTTTTTCTGGCGCTCTTACGGCGCATTTTGAGTTGTGG -GTAAATTACGGATTAATCGCGACCTGCGCAATGATACTTTGATCATTGAGTGCGATTACACTAAGTACGTCATTA -TCCAGCATGCCATAACTCGCCGGATTACCGCCTTTCGGAATACTCACCGAGCCGGGGTTGAAGTGGAAAATCTCC -CCCCGCTGTTCTGCCACTGGCAGATGGGTATGACCGTACACCAGCACATCGTTCTGGTTTAAAGCAGGCAGATTT -TCCGGGCCAAAAAGATGACCATGCGTCAAAAACAGACGTTGTTTTTCCAGTAATACCTGTTGCCACGGCGCGGTT -ATCGGGAAATGCAGCAGCATTTGATCCACTTCGCTGTCGCAGTTGCCGCGCACAGCGATAACCTTATGTGCCACT -TCATTAAGCCGTTCAGCGACTTTGGCTGGCGCGTAACCCTCCGGTAAAGCATTACGCGGGCCGTGATTCAACACG -TCGCCAAGGATCACCAGCCACTGGGCACCGCTTTGGGCAAACAACTCCAGAACACGTTCCGTCGCCGGTAACGAC -CCATGAATGTCCGATGCAAACATCAGTTTCATCACTCACTCCTCGTCGAAAAAACGTAAGCTATGATACTGGATT -CTGTCGTTGCTATCAGCCAGATTGCTTCGCCGAAAGTGCAATAAAACGCTGGACAGACGCTCGCTGCCACTGGAA -TGTTGCATAATCCACCAGGCGTTCTGGCACCTCATCGCCATGTAGTACCAGGCGGTTAATCATTAGCGCCAGATC -AGTATCAGCAATGCACCATTCACCAAATAAATTCGGCTGACCCAGTACTAACAAATGTTCTGCCATCGCGAACAG -TTTCTCTGCACTGGCTTTTCCCTCGGCCGTTAGTGGCGCTTTTTTCGCCCCCGCAAAGACAACATCCGTCGGACG -CTCTTCGCGGATGGGCATCAGATCGCTGCGCAGCCAGGCCTGAATCTGTCGTGCACGCGCACGATTTTCTAAATC -AAGCGGATAAATACGTTCCCAGGTCGGTGGCGCAAATCGATCTTCCAGATACTCCGCAATGGCAGAAGATTCACT -CAACTCAAAATCATCGATTTGTAATAACGGCACACGGCGTGTCTGACCGTAACCTTGCCACGTCGGCTGCAAATG -TTCACCGCTGTCGAGGTCGATGGTCTTGATATGAAACGACAGGCCTTTTTCCTGCAACGCCACCCAGGCGGATAA -CACATAAGGGGAGAAAAAGTGGGCATCTGACCAAAGCGTGATAGCGGGTTTACTCATTATGTCCTCGGCAATAAA -GGGGGCTGGCTATCAAACTATAGAGCCTTTTTGTCACTGTCACGTGACGAATACTCACGTAAGTCGCCGCGCTTT -CTATACTTGTGGTGTTCAGATGATTAAACAACCGGAGCTGCAATGATCGATCTCTATTTCGCCCCGACACCCAAT -GGTCACAAAATTACGCTGTTTCTCGAAGAAGCAGAGCTGGATTATCGCTTGATTAAGGTAGACCTGGGGAAAGGC -GGTCAGTTTCGTCCGGAATTTTTGCGCATTTCGCCCAACAACAAAATTCCGGCAATTGTTGATCATTCTCCTGCC -GATGGCGGCGAACCGCTAAGCCTCTTTGAGTCTGGTGCCATTTTGTTGTATCTGGCTGAGAAAACAGGACTCTTT -TTGAGTCATGAAACGCGTGAGCGCGCCGCCACATTACAGTGGTTATTCTGGCAGGTAGGCGGACTGGGGCCGATG -CTTGGGCAAAATCATCATTTTAATCACGCAGCCCCCCAAACCATTCCTTACGCTATTGAACGTTATCAGGTTGAA -ACTCAGCGTCTTTACCATGTACTGAACAAGCGGCTGGAAAACTCGCCCTGGCTGGGAGGCGAGAACTACAGCATT -GCGGATATTGCCTGCTGGCCGTGGGTTAATGCCTGGACTCGCCAGCGAATTGACCTAGCAATGTATCCGGCAGTC -AAGAACTGGCATGAGCGGATCCGTTCGCGCCCTGCCACCGGGCAGGCACTGCTAAAAGCACAACTCGGTGATGAG -CGTTCGGATAGTTAACAGAAACAGGTTCTCGTGTATTATTTCATCCTAAGTAAAACAACGGAGAACCTGCAATGG -CACAACCTGCCGCTATTATTCGTATAAAGAACCTTCGTTTGCGTACGTTTATCGGAATTAAGGAAGAAGAAATTA -ACAACCGTCAGGATATTGTTATCAATGTGACGATCCACTACCCCGCCGATAAAGCGCGCACTAGCGAAGATATCA -ACGATGCGCTGAATTATCGCACCGTAACGAAAAACATTATTCAGCATGTAGAGAATAACCGTTTCTCTTTGCTGG -AAAAATTAACTCAGGATGTGCTCGATATCGCACGTGAACATCACTGGGTGACGTATGCTGAAGTGGAGATCGATA -AACTGCACGCGCTGCGCTACGCCGATTCGGTATCCATGACCTTAAGCTGGCAGCGTTAATCGCCATATCGGGAGG -CTGCATGAACATAGTGATCACCGGAGGGACAGGATTAATTGGTCGCCATTTGATTCCGCGTTTGCTGGAGCTGGG -CCATCAAATTACGGTAGTGACGCGTAACCCGCAGAAAGCCAGTTCCGTTCTCGGCCCTCGGGTGACACTATGGCA -AGGGCTTGCCGATCAAAGCAACCTCAACGGCGTTGATGCGGTAATCAACCTGGCCGGAGAACCGATTGCTGATAA -ACGCTGGACTCACGAGCAAAAAGAGCGTCTCTGCCAAAGCCGCTGGAATATCACGCAAAAACTGGTCGATTTGAT -TAATGCCAGCGACACGCCACCGTCGGTACTCATTTCCGGCTCGGCAACGGGCTATTATGGTGACTTAGGTGAAGT -GGTGGTTACCGAAGAGGAACCGCCGCATAACGAATTTACCCATAAACTCTGCGCTCGCTGGGAAGAAATTGCCTG -CCGGGCGCAAAGTGACAAAACGCGAGTGTGCCTGCTGCGTACCGGTGTAGTGCTGGCACCGGATGGCGGTATTCT -CGGTAAAATGCTGCCGCCGTTTCGTCTTGGCCTGGGCGGGCCGATTGGCTCTGGTCGGCAGTATCTGGCCTGGAT -TCATATTGATGATATGGTCAACGGTATTCTCTGGCTGCTGGATAACGAGCTGCGCGGGCCATTTAATATGGTTTC -GCCCTACCCGGTACGCAATGAACAATTTGCCCATGCGCTCGGTCATGCGCTGCATCGCCCGGCCATTTTGCGCGT -CCCCGCGACCGCCATTCGACTGTTAATGGGCGAATCTTCAGTACTGGTATTAGGTGGACAACGCGCGCTGCCTAA -ACGGCTGGAAGAAGCGGGTTTTGCGTTTCGCTGGTACGATTTAGAAGAGGCGCTGGCGGATGTCGTTCGCTGATG -TGGTTTACAGCAAACATCCGCCAGTTAACTCCCGGTGTTACAGGATTAGTGGCTTTGCGCGATAAGATCGTCTGG -TGAAAGTCGGGTCACCATCATAACTAACTCTCTGTCTAAACCTCTATCCAGCATCTCCTGAGCAATACGCAGGGC -TTCTTCGTGTTTGCCCTGCATTGCGCCTTCTTCACGTAATCTGTCAGCAATGGTCATCAGTTTCTCCTTTTCTTG -TGGTGCGCGTTCCGCTATCTCACCAATAAATGCACGAAAACGCTGGGCATCCCCTGTTTGTAATACGTAATTAAA -CAGGGCTTTTAGCTGTCTGTCATTAGTGTTCCCTGTAACTAGCAGCGAAACAATTTGGTCGACTAATCCCAACAG -ATCGCGCTGACGAATATGTTTCTGAATTAACTCCAACAGCGCCATTTTGCGGTGTTGCATAATCTCGTCATCCGG -CACCACGGTAATATCCACCAACGGAAAAGCCGATGAATATATTTTGCGGGCTATAGCAGGCTCGGCAAATTCATC -AAGCCAGCAGAGTGAATAAGGATAAGGACTTCTGCAACCATGATAAAACAGCATCGGGAGCACCAATGGAAGCTC -TTTATAGCCCGCATCAAGATGGTTTTGCATTGCCGCAATGGAATAACGCATCATGCGAAAAGCCATTAATTCTTC -CGGCTTACTTTGGTGCTCTATCACTACATAAATATAACCCACTCCCTCCTGCGTTTTCACAGACCACAAGAGGTC -GGAATAATATTGCCGCAGGTCTTCATCAATAAAACTGTTTGGTTCCAGTTTAAGCGTCGTTAAATCACACAGTTT -GCGCAGCGGCGCGGGAAGATGAATATCAATAAAATCCCGCGCGGTGTCTGGATGGCGTAAAAAAGATTTAAATAC -CGCATCATGCGGCGTGGAAGTTGTCGATATTGTCATGGCGTTCCGTCACCCCTCAAATTTAAGATGACGCGACAA -TAACCACGATTAACACCCAATGCAGCAGGCAGTTTTTATCTTTGGACAGCGAATTCAGAAGTATTTTTAGCGGAC -TGTAACTTTTACATTTCAGCGGAAGCTGACTCGCAAATTCCCCATGAAAATACTCCGGCAGCGTTAGCCACCGGA -GAGGAAATTATTTCAGCGATCCCTTAAGGAACCGTTGCAGACGAGGGCTTTGCGGGTTGCCAAATAACTGCTCCG -GCGCGCCCTCTTCTTCTATTTTCCCCTGATGGAGGAAAATGACATGAGTAGAAACATGGCGAGCAAAGCCCATTT -CGTGAGTCACTACCACCATGGTTTTCCCCTCTTCTGCCAGTTGCTGCATAATACGCAACACTTCGCCTACCAGTT -CAGGATCGAGCGCCGAGGTAGGTTCATCAAACAGTAAAACTTCCGGTTCCATCGCCAGCGCCCGCGCGATAGAAA -CACGCTGTTGCTGACCGCCGGAAAGATGCACCGGATATTTCCCCTGCGCACGTTCGTCTATCCCGACTTTTGCCA -GATACTTCACCGCCCGCTCGCGCGCTTCCTGCTTGCTCAGGCCCAACACCTGAATCGGCGCTTCCATGACGTTTT -CCAGCACCGTCATATGGCTCCAGAGATTGAAGTGCTGGAATACCATCGTCAGGCGTGTGCGCAGTAAGCGCAGTT -GATTTTTATCGGCGACTTTGAGTTGACCGTCTTTGTCGCGCACCAGATTGATCGTCTGGCCATTGACCACGATCG -ACCCTTCACTCGGTTTTTCGAGGAAGTTAATGCAGCGCAGAAAGGTACTTTTCCCCGATCCCGACGATCCGATGA -TGCTTATTACATCTCCGGCATTCGCTTGCAGTGATACCCCTTTCAGCACTTCATGTTCGCCGTAGCGTTTGTGCA -AATCGATAACGTTTAATTTATTCTCGGACATCGTATTCTCAGTGCGTTGAAGAAGGTTTCACATGCTGCAACCAG -CGTTTTTCCGCTCTGCGAAAGAGGCTGATCAGGACATAAGAGATGATTAAATAGAGCACCGCGGCAATGCCGAAG -GCGGTAAAAGGTTGATACGTGGCGGCGTTAATATCGCGGGCTATTTTCAGCAGATCCGGCACCGTGGCAGTAAAT -GCCAACGCAGTAGAGTGCAGCATCAGGATCACTTCGTTGCTGTATGCCGGTAACGCAATACGCAGCGCAGAAGGC -AAAATAATGCAGCGATACATTTTAAAAGTCGAGAAGCCATAGGCTCTGGCGGCTTCAATTTCCCCATGCGGAACC -GAACGGATTGCCCCAGCAAAAATCTCGGTAGTGTAAGCGCAGGTGTTAAGCGTCAGCGCCAGCACGGTACAGTTC -AGGCCACTGCGGAAGAAAGCGTTAAGGAATTCGGTTCCCTTAACAATCTCAAGCGTGTACATGCCGGAATAGAAC -ACCAGCAACTGAACATACAGCGGCGTACCGCGAAAAATATAGGTAAATAACCAGATTGGAAACTGGATGTATTTA -TTACTGGAGACACGACCAATCGCCAGAAACAGCGCCAGGACTCCGCCTATCACTACCGACAAAATAAGCAGCCAC -AGAGTGATCGCCACACCAGTAAAGCGATAACCGTCGGTCCACAGCAGCGGTTTCCAGTATTCATGTAAGATTTCG -ATCACAGGTCAGCCCTCTTCACACCCACGGAGTAGCGGCGCTCAAGGAACAGCAGCACACCATTGGAAACAGTGG -TGAAAACCAGGTAAATCACGCCACAGACGATGGCGAAATAGAACGGTTCCCAGGTACTTTTGCCTGCCAGTTGGG -TGGCTTTGACCACATCTTCCAGGCCGAGTAACGAAACCAGTGCGGTAGATTTGAGGATCACCTGCCAGTTGTTGC -CAATGCCTGGCAGGGCGTAACGCATCATCGACGGAAACATGATCCGCCGAAACACTTGCCCACGAGTAAAACCGA -ACGCCGTCGCCGCCTCTATATGTCCTTTCGGCACTGCCATAAAAGCACCACGGAACGTTTCGGTAAAATAAGCAC -CGTAGATAAAACCGAGAGTGATAATACCAGCGACCATCGGATCGATATCAATCTGCCCGACGCCCATCGCCTCCG -TCACCGTGTTTAGCGCAATCTGCAAACCGTAGAAAATCAGCAGCATCAACACTAAGTCCGGCACGCCACGAATCA -GCGTGGTGTACCCTTCGAAAATCAGCCCCGAAAGCCGATTTTGCGAGAGCTTACCGCCAGCGCCAATTAAACCGA -TGATTACAGCGAGCACTACAGAGCTGATAGCCAGCTCCAGCGTGACGAGCGCACCCTGTAAAATAACACCTGAAA -ACCCATACAACATGCTGCCTGTCCTGTCGTGTGTGGTGAATTACCGCCTCTTGTCTCCCTCCGGTTACCCGAAGG -GAGCGGGCTTTCTTTCACCGATGGCGATTAGCCACCATAAACATCAAAATCGAAGTACTTTTTCGCTAATTTCTC -GTAAGTACCGTCAGCGCGCATTTCGGCAAAGGCTTTGTTCAGTGCTTCGCGCAGTTCGTTATCTTCTTTACGCAG -GCCCATGCCGGTCCCTACGCCAAACAGTTTTTCATCTTTAACAGACGGGCCACCGAATTTGTAATCTTTACCGAC -AGGTTGTTTGAGGAAACCTTCGCTGGCAGCGACCTCATCCTGGAACGCGGCATCAATACGTCCGGCAGTCAGGTC -AGAATAAATGTTGTCCTGCCCCTGATACGAGACGATTTCAATGCCTTTTGGTGCCCAATGTTCATTACCGAACGT -CTCCTGGGTGGTGCCCTGCAATACGCCTACCCGTTTGCCTTTCAGCGACTCGACTGTCGGCTGAATGTCAGAATT -TTTCGCCACCACCAAACGAGAATCGGCAGCGTACAGTTTGTCGGTGAAGGCTATTTCTTGCTGACGTTTTTCCGT -AATGGAAAGCGATGACATGATGGCGTCAATCTTCTTCGCTTTTAAGGACGGGATTAACGCATCCAGCGGATTTTC -GACAAACGTACATTGCGTATTGATGCGTTTGCATAATTCCTTTGCCAGATCGATATCGAAGCCAACCAGTTCGCC -TTGTGAATTTTTTGATTCAAATGGCGCATAGGTCGGGTCGGTACCGATGCGGATGTTTTGCGGAATCGCAGCAAA -CGCCGCAGTTGCGCTGGAGAAGGCCAGAACCAGAGAGAGCGATAGCACCAGTTTTTTCATAATGTCCTCAACTGA -CAGTCTTTTTATAGGGAATATTTACAGGTTTGTTACACTTATCGTGCCATAAAATTGACCATCAAGGCAAAATAT -CCCGCCCCGTTAGACGTATTATTTTTCATTAAAAATGCTTAAGTATGCATTTCAATGCACCACGATAGTGCAACA -AACCTGGCGTGCACCATGATGATCATTCCATCAGGTACAGCTTCCCAGCGACGTATCAGTCACCGTAGACATTAA -AGTCGAAATACTTTTTCGCCATCTTGTCGTAGGTGCCGTCCTGACGCAGCTCGCCAAGCGCCTTATTGAAGGCAG -CCGTCAGTTCAGCATCATCTTTACGTAGCCCTACACCGGTGCCATCACCGAAGTATTTTTTGTCTTTTACTGATG -AGCCAGCAAAGGCGAAATCTTTACCAGCAGGTTGCTTGAGGAATCCTTCGCTGGCAGCAACTTCATCTTGTAACG -CAGCATCCAGACGTCCTGCAGCCAGATCGGAATAGACCAAATCCTGGTTGGCATAGGCCACCACATCCACGCCTT -TACTACGCCAGGTCTCGTTAGCGTAAGCTTCCTGGGTTGATCCCTGCAGCACACCAACATGTTTACCTTTCAGTG -AATCCAGCGTTGGCTGAATCGGTGAACCTTTGGCCGCAATCAAACGAGAATCTGCGGCGTACAGCTTGTCGGAGA -AGGCAATCTCCTGCTGACGTTTATCGGTAATGGAAAGCGACGAAATAATAGCGTCGATTTTTTTCGCTTTCAGTG -AGGGGATCAGCGCGTCAAAGTCACTGGCAACCCAGGTACATTTCACCTGCATCCGTTTGCACATCTCGTTACCGA -GATCGATATCAAAGCCAACAAAATCACCTTTAGCATCTTTCGATGAGAACGGTGCGTAGGTGGTATCGGTTCCGA -TACGTACCGTCTCCGGTAGCGCCGCATAGCTGGAAGCCGCTGTGGAGAGACCGACTAACAAAGACAGAGCGAGAA -TCGACTTCTTCATACATAACCCTCAAGTGAAAATGGCTTTTTTATGTTGTGTATTGTGTTGTGTGTTTGCAGGCT -CTTTCATGCAGGTCTTATGCCATCTTGACGACAACAGTAACATTCAACGTTAAATATGTTAATAAGACGTTGCAT -TATTGTCCTGAAGTTGAAGATAGCAGGTATAGCGGTTGAATCGCAGCGTTTCGATTGAATGGCAGAAACAAAATG -TCGAGGATTTGATCGCGGTTGCAAAATTGCCCTGAAACAGGGCAACAGCGGAGTTATGCGCCCTGCCAGCGGGCA -AAGAGATCTTCAGGAAGGGTTATCGCAAACTGGTCAAGAACACGATTAACCGTCTGATTTATCACATCATCAAGG -GATTGCGGGCGATGATAAAACGCCGGAACGGGAGGCATAATCACCGCACCGATTTCTGCCGCCTGAGTCATTAAA -CGCAGATGGCCTAAGTGCAATGGTGTTTCACGCACGCAGAGCACCAACGGGCGACGCTCTTTCAGCACCACATCT -GCCGCACGGGTCAGTAAGCCATCAGTATAGCTATGGACAATGCCGGAAAGGGTTTTGATTGAACAGGGTAAAATC -ACCATCCCCAGCGTCTGGAAAGAACCGGAAGAGATGCTGGCGGCAATATCGCGCGCATCGTGCGTGACATCGGCT -AATGCCTGCACTTCGCGCAGAGAAAAATCCGTTTCGAGGGATAAGGTCTGGCGCGCTGCCTGGCTCATCACCAGA -TGCGTTTCGATATCTGTGACATCGCGCAGAACCTGTAATAAGCGCACGCCATAAATCGCGCCGCTGGCACCGCTG -ATGCCTACAATGAGTCGTTTCATAAATAGTTGCCCTGTCAGACTTGCAGGCAGACTTTGCAGGATTTCGGCGGGA -GTTGCAAGTCAGGGTGCCAGACCGGCACCCTCAGCGAAGGCATCATCCTTCGTTATGCATTTCGAGATTTTCCAC -TTCGTTCTGACGTTGCACTGCTTTGGCGTCATCATTACGTAACGTATCGAGGAAATCGAGGTAGCCCTGATCAAC -ATCTTTGGTGACGTAGACGCCGTTGAACACCGAGCATTCAAACTGCTGGATATCCGGATTTTCAGCGCGAACGGC -GTCGATCAGATCGTTCAGATCCTGGAAAATCAACCCGTCAGCACCGATGATCTGGCGAATTTCATCAACTTCGCG -ACCGTGAGCGATCAGTTCCGTGGCGCTCGGCATATCAATACCATAAACGTTCGGGAAGCGAATTTCCGGTGCCGC -AGAAGCGAGGTACACTTTCTTCGCTCCGGCTTCGCGTGCCATCTCGATAATCTGCTCAGAAGTGGTGCCACGGAC -GATGGAGTCGTCGACCAGCAGGACGTTTTTATCGCGGAACTCGGCGCGGTTGGCATTCAGTTTACGGCGCACGGA -CTTACGACGCAGCTGCTGGCCCGGCATGATAAAGGTGCGGCCAACATAGCGGTTTTTAACGAAGCCCTGGCGGTA -CGGTTTGCCCAGAATACGAGCAATTTCCAGCGCGATATCACACGAGGTTTCTGGGATCGGGATCACCACGTCGAT -ATCCAGATCTTCCCATTCGCGGGCAATTTTCTCGCCCAGTTTCGTGCCCATATTCACACGCGCGCTGTAAACGGA -AATTTTGTCGATAAACGAGTCCGGGCGGGCAAAGTATACATACTCAAACAGGCACGGATTGCTGACCGGATTGTC -AGCACATTGACGGGTAAACAACTGCCCTTCTTCAGTGATGTAAATCGCTTCGCCCGGCGCGACGTCACGCAGGAA -ATCAAAGCCCAGCGTATCGAGCGCTACGCTTTCGGAAGCGACCATATATTCTGTACGGTTCTCGTCAATATCACG -TTTTCCCAGTACCAGCGGACGAATCCCGTTTGGATCGCGGAAAGCAACCATACCGTGGCCGATAATCATCGCCAC -ACAGGCATACGCGCCGCGGATTAAGCGGTTTGTGGCAGCAATGGCAGCGAAAATATTGTCGGCTTCCAGCGGGTA -GTGGCGGAAGTTGTCCAGCTCGCTGGCGAAGATATTAAGCAGAATTTCCGAGTCGGAAGTGGTGTTGATGTGGCG -GCGTTTTTCTTCAAACAGTTTTTTACGCAACTCGTGAGCGTTGGTCAGATTGCCGTTGTGGGCAAGCGTAATGCC -ATACGGGGAGTTAACGTAAAACGGCTGCGCTTCAGAGGCGCTGGAGCTGCCAGCCGTGGGGTAACGCACATGACC -AATGCCCATATTGCCCTGCAAACGCTGCATATGGCGAGCTTCAAATACATCGCTCACCAGCCCGTTCGCTTTACG -CAAACGGAAGCAGTTATTGGCATCTATGGTGATGATGCCGGCGGCATCCTGACCGCGATGCTGAAGCACCGTTAA -GGCATCATAAATCGACTGGTTAACCGGCATAACACCGGCGATACCGACAATACCGCACATACGTCTTTTTCCTCG -TTAAGCCACATCTCAGAGCACTTACGCTCTGGGCAAGAAACTTGACGAGCTTTGCAGATAATCAAAAAAACATCT -GATGATAAAACTGAATTGCGGGATCAGCTGTGATTTGCTCCAGTCTTCGCTTTTCGACACCCCGGTAAAGGAGTC -GAGAAAGAAGAGAATGGCAGCAACAATCAACACACCGCGCAACGCACCGAAACAGACGCCCAGCACCCGATCGGT -GCCTGACAACCCCGTTTTCTCCACCAACTGGCCTATCACGAAGTTCACGATAGCACCAACGATCAGGGTAGCGAT -AAACAGTACCGCGATGGCAATCCCATTTCGAACCAGTTCGTCTTCAAAGCCCGTAAACCAGACTGACAGGTAAGT -GTAGTAATGACTGGCAACAAAGAAAGCACAACCCCATGTCACCAGCGATAACGCTTCACGAACAAAGCCGCGGAT -CAGGCTAACCAGAGAGGAAAAAGCAATCACCGCGATTATGGCGTAATCAATCCAGACCATATGTGTCCCACGATT -TTACGCCCTGTCATCCTGTTCGGGGCGCATTCTAACAGAAAAAGAAAACGTTTGCGTAGGGATTTCCTTCCCGCG -CATCAATAAAAATGGCGCTGAAAAAATATTCAACGCCATCGACTTTTTATGCCTTTGCGGCATCGGGCAATGCGT -GTCGGATGCGGCGTAAACGCCTTATCCGACCTACGGTTCTACCCCTGCGTAGGCCTGATAAGACGCGCCAGCGTC -GCATCAGGCAAGACCGTATTAATTCGGCGTATAGCCCATTACCACGCCACTTAAGCCAGAAAGTTGCTTCAACTC -ACCCAGCGAACCTTTCAGCTTATCTTTCGAGGCATCCGGCCCAACCAGAATACGGGTAATTTTACCCTGCACTGG -CGTGGATGGCGACGTATAAACCCGATAACCGGCACCGCGCAGCTTACCGACAATCTCATTCACTTTATCGGCATT -TTTCAGCGCACCCAGTTGCACAACATAGGCTTTACCCGTCGGTGCAGCTTTTTCTTCCACGACCGGCTTCGGTTC -TGGCTTCGGCGCAGGTGGTGCTTCAACCTTTGGTTTAGGCGGCTCCACCGGTTTCGGCTTCGGTGGGGCGACCGG -TGCAGGTTCCGGTTCAAACTCGGTGTTATTGGCTGCAATAGTGGCCGGATCGAGCGACGGTGCTGCGGCATCACC -TGCCCGCACCTCTTCCGCTGCGCCTTCCGGCGGCTGCGTCGGTAACGCCTGGGTGGCGGCTGGCATCATATCAGG -CTCATCACGATCGCCCGCTTTCGGCACCAGCGGGATAGCCGCGAACTCATCCTGATAATGTTTTTTCTGCCCGTC -CAGCAGCCCTGGAAGTACAATCACCCCCAGCGCCACCAGCACGATCGTGCCCACTAACCGATTCTGAAACTTACT -TGCCACCGCTTCTCCTCGCGTCAATCACTTCCATGACATGTGCGACCGTGTGGAAAGAACCACACACCAGCACGG -TGTCTTCCGCTTTAGCGTCCGCCATTGCGGCATCCCATGCCTGCGCAACGCTATCAAATGATTTGCCGTTACCCA -AATGCTCAAGCAGTTGTTCTGCCGTGGCACCGCGCGGCCCTTCCAGTGGCGCACAATACCAGTCATCAACCACGC -TTTTCAACCAGGCCAGAGTTCCGGCAATATCTTTATCATGTAGCATACCGATAACCGCCAGCACGCGCCCGTTTT -TCGGTAGCGCTTTCATACGCCCGGTGAGATATTCCGCCGCATGTGGATTATGCGCGACATCAAAAATAACGCGTG -GCGACTCGCTCACAATCTGGAAACGTCCCGGCAAAATTGCGCTGGCAATCCCGTCGCGAATGGCATTTTCACTGA -CTTCCAGCCCGCTGGCACGCAGTGCCGCCAGCGCTGTTGCGGCATTCGGTTGCGGGACAAGCGGCAACGGCAGAT -TTTCCAGCGTGCCGTGAGCATCGCTAAACGCCCAGTCATGATCGGTGACGGAATAGTTCCACTCAACGCCCCGAC -GTTGTAACAGTGCACCTTTTTCCTGCGCCACATCAGCAATGGTAGAAGGCATTTCCGGCTCACCGACAATTGCCG -GTTTTTCGCTGCGGAAGATGCCTGCTTTCTCGCGACCAATACTTTCGCGATCTGGACCCAGCCAGTCGGTATGAT -CCAGCGCAATACTGGTTACTACCGCGACATCGGCGTCGACAATATTGGTTGCGTCCAGACGACCGCCCAGCCCTA -CTTCCAGAATCACCACGTCAAGTTGTGCCTGCTTGAACAGCCACAACGCCGACAGCGTACCGTACTCGAAATAGG -TCAGGGAAATATCACCGCGTGCCGATTCAATCTCCGCAAAAGAGGCGGTGTGGGCCGATTCCGGCAATTCCTGGC -CCTGCACACGTACGCGCTCGGTATAACGCACCAGATGAGGCGAACTGTAGACGCCCACTTTGTACCCTGCCGCCA -TCAGAATCGACTCCAGCGTACGGCAGGTGGTGCCTTTGCCATTCGTACCCGCAACGGTAAACACAAATGGCGCTG -GTTTCAGGACGCCAAGACGCGCCGCGACCAGGCTCACGCGCTCAAGGCCGAGATCGATAGTTTTACTGTGCAGGT -TTTCCAGATAAGAAAGCCACGAAGCCAGAGGCGACGCGGCTTGAGGAGTGCGTTTGATAATCATGGTATCCGCTG -ATTCGTTACGGTGAGAATAGCAAAAGGGCAGAGCCAGTGGCCCTGCCCTTATCAGTTATCAGGCCTCAGGTTCCT -GATCCGGTACCGGGGGTACCACTACGCCTTCACGCGGCGCTTCAGGATTCGGCGCTGGCAGATTCATCAACTTCG -CCAGAATGCTCGCCAGTTTCAGGCGCATTTCCGGACGACGGACGATCATGTCGATCGCGCCTTTCTCGATCAGGA -ATTCACTGCGCTGGAATCCAGGCGGCAGTTTTTCGCGAACGGTCTGTTCGATAACACGCGGACCGGCAAAGCCGA -TTAACGCTTTCGGTTCAGCGATGTTGAGATCGCCCAGCATGGCGAAACTTGCAGAAACACCGCCCATCGTCGGGT -CGGTCAGCACGGAGATGTACGGCAAGCCGCGCTCCTGCATTTTTGCCAGTGCCGCAGAGGTTTTCGCCATCTGCA -TCAGCGACATCAGTGCTTCCTGCATACGTGCGCCACCAGAGGCGGAGAAGCAGATCAGCGGGCAGTTATCTTCCA -GCGCCTGCTCAACGGCACGCACGAAACGTGCACCCACAACAGACCCCATTGAACCGCCCATAAAGGCGAACTCGA -ATGCCGCAGCGACAACCGGCATTCCATACAGAGTGCCTTTCATCACCACCAGCGCATCTTTTTCGCCGGTTTCTT -TCTGCGCAGATGCCAGACGGTCTTTATACTTCTTGGAGTCACGAAACTTCAGCACATCTTTCGGCTCAAGCTCGC -TACCCAGCTCCACAAGGCTTCCTTCATCTAACAGGCTATGCAGGCGATTACGCGCTGTCATACGCATGTGATGGT -CACACTTCGGACAGACCTCAAGATTACGTTCCAGCTCAGCGCGGTATAAAACCTGACCGCAGCTATCACACTTAG -TCCACACCCCTTCAGGAATGCTCGCCTTGCGGGTGGGAGTAATGTTGCTTTTAATTCGTTCAATCCAGCTCATTA -GGGACCTTTCTGTCTGAACCTGGTTCGATGCCAGTTTTATCTTTGGGGACGCATAATGCCATTTTTGCCCCCAAC -AGACCATGAATGTTGCACATTAAAACATAACAGCCCGAAACTTTGGATAAAAAAGTGGTCGAACCGCGGAGTTAC -TTTTTATTTTGCGGCGCGTGCCGCAGCGCGTTTGTGACGGATTATTTCGATGACGCCCGGCAAAATAGAAACCAC -AATAATCCCGACGATCAGCAGCTTAAGGTTATCCTGAACCATCGGGATTGTACCGAAGAAATAGCCTGCGTAGGT -AAAAAGCAGTACCCACAACAGTGCGCCGATCACGTTATAAGCGGCGAAATGACGGTACGACATGTGGCCCATTCC -CGCAACAAACGGGGCGAACGTTCTGACGATCGGCACAAAACGGGCGAGAATAATCGTTTTGCCGCCATGTTTCTC -ATAAAACTGATGGGTTTTGTCGAGATAACTGCGACGGAAAATTTTCGAATTGGGATTACTGAACAACTTTTCACC -GAACAACCGCCCGATAGTGTAATTGACCGCGTCACCCACAATCGCGGCGATCAGCATCAGCACCACCATCATATG -GACGTTGAGATCGTTGGTTTCCAGTGATGCCAACGCTCCGGCAACAAACAGCAATGAATCACCCGGTAAAAACGG -CGTTACCACCAGACCGGTTTCACAGAACAAAATTAAGAACAAAATGGCATAAACCCAGACGCCGTACTCCGCGAC -CAGCTCTGCCAGATGCACGTCAATGTGCAGGATAAAATCGATGAGGAAATAAATCAGGTCCATATTTGCCTATGC -CTTGTACTCGTCATCTTTCAGGCTGTAACTACGTTGGCTACAGCCTGAAATGTTCCGAGCATTATTCTCGTTAGT -CCGCCAGAAATAGCGGGCCCATTGGCGGTTTTGGAAGATCATACCGGTCAGGGTAATCCACCGCGACCAGATACA -GCCCTTCCGCTTTTGCCGTTGCTGCCGCCAGCGTTCTGTCCTTTGCCGCCAGCAACTCTGCTATCCAGCTCTCCG -GCTGGTTGTGGGCACCGACTTCCATCAGGCTGCCGACAATATTCCTGACCATATGATGTACAAAAGCATTCGCTT -TAATATCTACCACCACATAAGGACCGTGACGCGTGACATTAATATGCATAACGTTGCGCCACGGGGTTCGGGACT -GGCACTGCACCGCACGGAACGAGGTGAAATCATTCTCGCCCAGCAAGCATTGCGCAGCCCGATGCATCCGTTCAG -CGTCCAGCGGTTCGTAAAAATGGGTTACCCCTTTACTCAGTACCGCCGGGCGCAGCCGATGATTGTAGATGATGT -AGCGATAACGGCGAGCCGTGGCGCTAAATCGGGCATGAAAATCATCAGGTACAGTTTTAACCCAACGCACAGCGA -TGTCACCAGGTAAATTCGCATTTACGCCCAAGGTCCACGCCGCGTCTTTGCGCAGCGCGGTTGTTTCGAAATGCA -CAACCTGCCCGGTACCGTGTACCCCTGCGTCAGTACGCCCGGCGCAGAAGACGGTGATGGGTTCGTTCGCCACCT -GGGAGAGCGCCTTTTCCAGCTTCTCCTGCACACTGCGGACTTCGTTCTGCCGTTGCCAGCCGTAATACTTACTGC -CGTCGTACTCAATGCCCAGCGCAATTTTATAAACTGGCGGTTGTTGCTGGTCGGACATTAGTACAGATACTCCTG -CACCAGTTTCTCGGCGATTTTTACTGCCATCAGCGCGCCGCCAAAGCGAACGTTATCGGCCACCGACCAGAACTG -GACTTGCTCCGGCATACCGTAGTCATTACGCACGCAGCCAACAGAAAGATGCGGCGTACCCGAAGCATCACCTAC -CTGAGTTGGGAATTCGTTCTCTTCAGAGAGCACAATATCTTCGCCTTGAACAAACGCATCACGCGCTTCTTCTGC -TGCCAGTGGACGCAGAGCTTCAAAGTTGACCATCTGGGCATGACCGTAGAATACCGGTGCCTGGACGACGCTAGC -CGAAATCATCAGCCCTTCGTCCTGCAGGATTTTGCGTACTTCGTCAACGATACGACGTTCTTCACGCACGCTACC -TTCGCTATCCGGCAGTAACGGCAGCATGTTGAACGCCAGCTGACGCCCGAAGAAATCTTCTTCGTCAATCGGAAT -GCCGTTGAGCAATTTCGCACTCTGCCCCGCTAACGCATCGACCGCTTTTTTGCCCTGGGCGGAGGCTGAAATCAG -GCTGGTAACGCTGATACGTGATAAACCGCCCTGATCGATTAACGGTTTCAGTGCCGCCAGCAGCTGGCTGGTCAG -ACTGTCTGGTACGGCGATGACATTCCGGTTCCGGTAATCTGTCAGTACAAACGGGTTTACTTCCGGCACCACCAG -CGGTACGTCGGGTTCGAGAGCAAACAATCCACTGCTGTCGATCACCAGGCAACCTGAGTTGGTCGCTTCTTCAAC -CCAGGCAGCGGTAGCTTCTTTGCCTGCGACAAAAAATGCCAGCTGCGCCTGCGTCCAGTCGAATTCAGCGGCATC -CTGCACGGTGATTGTCTTACCACCAAAGCGCAGTTGTTCGCCTGCGCTTTCGTTACGTGCCAGTGCATAAATTTC -CCCAACCGGGAACTGACGTTCAGCCAGCGTTTCAAGCAGGGCTTCGCCCACAGCGCCAGTTGCGCCCAGGACGGC -AATGTTCCAGCCTTCAGACATGGTGGTTTACTCCAGAAATAGCAAAGCTCCCTGCCAATGTTACAGCAGAGAGCA -TGAAGAAGAGATTAACGTGCCGGATGATGAACGGCGTTAAAACCCAGTTTACACAGCAATGATGCCGCACTGGCG -TCATCACAAATTACATACAGAGATGACCATTCACGGCGCTCAAGATAGTTTTTGCGCAGTTTATCGAACTCACCC -GGTATCCCGGCGACTTTACGCAGCGGTGCGTCATCGCGGCGCACATCATACACCAAATGCACCAGCCTTTTCAGC -GTCGGTTGATCGAGCGGGCCATGCAGCGTAATGCGACCAAACTCTGGCGCAGGCAGTAATGTATCCAGCGCAACG -TGCTGTTCATGCCCAATAAACTTGCTATAAGCTTCAAACACTTGCGTAGTACCGCGTGCTTTACCTTCCAGGGTA -TAGCCTGCGATATGCGACGTGCCGATATCCACTTTTTTCAGCAGCTCGACGTTGAGTTCCGGTTCGCCTTCCCAG -ACATCCAGCACTACGCTTAACTTCTGGCCTTCATTCAGGCAGGTCAGCAACGCAGTATTATCGACGACTGCGCCA -CGGCAGGCGTTAATCAGAATCGCTCCGGGCTTCAGGCTACGGATCAGTTTTTCATCCGCCAGATGTAGCGTTTTG -TACGGACCATCTTTAAAGAGTGGCGTATGGAAAGTCAGAATATCCGCGCGCTGGACTAACTCATCCAGCGAGCGG -AAATCACCCTCATCCCCACGGTCGGCGCGAGGCGGATCGCAAAGTAAGGTTTTAATCCCTAACGCTTCCAGTCGC -GCCTGCAATCGACGTCCAACGTTACCAACGCCCACGATCCCCACCGTACGGTCGTACAGTGAAAATCCATCGCGT -TCGGCAAGCATCAGCAGGGAGGAGAAAACATATTCCACCACCGCAATCGCATTACAGCCAGGTGCAGCGGAAAAA -CCAATTCCCGCCTGCTTCAACCATGCTTCATCGACATGGTCGGTCCCCGCAGTGGCAGTGCCAACAAATTTAATG -GGTTTTCCTGCCAGCAAAGATTCATTCACTTTCGTGACCGAACGCACCATCAGCGCATCCGCGTCTGCCAGTTGA -GCGACGGGGATTGGACGCCCGGGAACCGCGGTCACCTCACCCAAACGGCTAAATAAGTCGCGGGCATAAGGCATA -TTTTCATCAACAAGGATTTTCACGTTTGTGTTACCTGTATGAGACGAGAGTTAACCGGACAAGTGTGCCATAATC -TCGCGGCCAGGCATACTTGCGAAGATTTCAGGTATAAGGATACGTAATGATACAACCTATTTCCGGCCCTCCTCC -TGGGCAACCACCAGGTCAGGGAGATAATCTGCCGTCTGGCACGGGCAATCAGCCTTTATCCAGTCAGCAACGTAC -TTCGCTGGAAAGCTTAATGACGAAAGTGACCTCACTGACGCAACAGCAAAGAGCAGAACTGTGGGCGGGTATCAG -GCACGATATTGGTCTGTCGGGAGATTCACCGCTGCTTTCGCGTCACTTCCCTGCCGCTGAGCATAATCTGGCGCA -ACGTCTGCTGGCCGCGCAAAAAAGCCATTCTGCCCGCCAGCTTTTAGCGCAATTAGGGGAGTATTTACGTCTGGG -GAATAATCGTCAGGCGGTCACGGATTATATCCGTCATAACTTTGGTCAGACGCCGCTGAATCAGCTCTCACCGGA -GCAATTAAAAACCATTCTCACCCTGTTGCAGGAAGGGAAGATGGTTATTCCGCAACCACAGCAGCGCGAGGCGAC -CGACCGTCCTTTATTACCGGCGGAGCACAATGCGCTAAAACAGCTGGTGACCAAACTTGCGGCGGCAACGGGGGA -ACCCAGCAAACAGATCTGGCAATCGATGCTGGAACTTTCCGGGGTGAAAGATGGCGAGTTAATTCCAGCGAAACT -GTTTAACCATCTGGTGACCTGGCTACAGGCGCGTCAGACGCTAAGCCAGCAAAATACGCCGACGCTGGAATCACT -ACAGATGACGCTAAAACAACCTTTAGATGCCAGTGAACTGGCGGCGTTATCGGCATATATCCAGCAAAAATATGG -TCTTTCTGCGCAATCATCGCTTTCTTCTGCCCAGGCCGAGGATATTCTTAATCAGCTTTATCAACGGCGGGTTAA -AGGGATTGATCCGCGTGTTATGCAACCGCTGCTTAATCCTTTTCCACCGATGATGGACACGTTGCAAAATATGGC -AACGCGTCCCGCGCTGTGGATACTGTTAGTCGCGATTATCCTGATGCTGGTCTGGCTGGTTCGTTAACCCCGACG -AAATGACAGTATCGTGACAATAATACCCAGCACCGCAGAGATCGCCCCGGCAAGAAATACCGAAGAGTAACCAAA -CGTGGTCGCCAGCATTCCCGCCAGCGGCCCGGAGACGCCGAGGGCGATATCCTGAAACGCGGCGTAACCGCCCAG -TGCGGTGCCGCGAACTTGTGAGGGGACGCGTTTAACCACCTCCACGCCCAGCGCAGGAAAGATAAGCGAACATCC -GGCTCCGGTTAACGCCGCGCCCGCTAATGCGACCCATGCACCTGGGGCTTGCCAGAGCAGCAACAAGCCCACCGT -TTCTACAAGCAGAGAGACAATCGCCACTTTCACGCCGCCAAAACGGTCCGGCATCCAGCCAAACATGACGCGCAT -CACGACAAATGCGCCGCCAAACGCGGTAAGAGTAAAGCCCGCCATCGCCCATCCTTTGCTGGCAAAGTAGAGCGA -AACGAAAGTCCCGATAACAGCAAAACCAACGCCTTGTAGTGCCAGACCTAACCCTGGTTTCCAGATAAGCCCGAC -AACGCTCCACAGCGATGGACGTTCTCCCGCCAGGGCCGGTACTTTGCGCACTGTGCCGTTACAGGCCCACGCCAG -TACGGGTAATACCATTGTGGTGATCGCCAGTGCGGCAAAACCGTAATGGCTATGAATCAACAGGCCAAGCGGAGC -ACCAACAGCGAGGGCACCGTAAATCGCCATTCCGTTCCATGACATCACTTTGCCAGAGTGTTTTGGCCCTACGAT -GCCTAGTCCCCAGGTCAGAGCGCCTGTCAGTAACTGGCTTTCACCAAAGCCAAGAATCAAACGCCCGACGACCAA -CAGAGCAAATTTGAACGGTGCGGAGACAGGCAAAATCGCCGCCAGCAGCAACGCGCCGCCAGCCAGACCACAAGC -TAACATTCCCTGAAGCGCCGAACGTTTTGCACCATATTGATCGGCCAGTCGCCCGGCGTAACCACGCGTCAGCAC -CGTAGCCAGAAACTGAATCCCGACGGCAATGCCGACCATGGTATTGCCATAGCCCAGTTCATGATGAACAAACAG -CGGGATAACCGGCAACGGCAACCCTACGGTCATGTAGGTGAGAAAAACCGCAAAAGCGATGCGGAAGAGCGAAAA -ATTGGCAGAAGATCGTGTTTCGGTTTGGCTTACAGCAGTCATGCATTACTCCAGAATGCAGCGCAAGGCGAGGAG -TATCCCCGTCTCATCTCTCTGGTTTCAGGGTTACGGTGCGTTGGCAGGATTTAACGCGTACGTCTTTTCAGAAGG -AAATCGACAAAGCGGGAAGTTTGCCTGGAACTGGCGGCGATTGTCAATGATGTGAAAAAGGGAACCATCAGGTTC -CCTTTTGCGTTAGTGCCGGAGGCCGCATTGGCGCGTAACGTCGGATGCGACGCTGGCGCGTCTACTCCGACCTAC -TGCGAATTAATCTTTCAGCTTGCGCATTACCAGCGTGGCGTTGGTGCCGCCGAAGCCGAAGCTGTTAGACATAAC -GGTGGTCAGTTCGCGATCGGTCGTTTCGGTCACGATGTTCAGACCCGCAGCCTGCTCGTCCAGCTCTTCAATGTT -GATGCTCGGGGCGATAAAGCCGTGTTCCAGCATCAGCAGAGAGTAGATAGCTTCCTGTACGCCAGCAGCGCCCAG -AGAGTGACCGGTCATGGCTTTGGTTGCAGAAATCGCCGGGCTCTTATCGCCGAACACTTCACGGATAGCTGCCAG -CTCTTTCACGTCGCCAACCGGAGTCGAAGTACCGTGGGAGTTCAGGTAATCGATTGGGGTATCAACGCCATGCAT -CGCCATCTTCATGCAGCGTACTGCGCCTTCGCCAGACGGAGCAACCATGTCTGCACCATCAGAGGTTGCGCCGTA -GCCAACGATTTCAGCATAGATGTGAGCACCACGCGCCAGCGCGTGTTCCAGCTCTTCAACCACTACCATACCGCC -GCCGCCAGCGATAACGAAACCGTCACGGTGAGCGTCGTAAGTACGGGAGGCTTTTTCCGGGGTGTCGTTGTATTT -AGTAGACAGCGCACCCATTGCGTCGAATTCGCAAGCCATTTCCCAGCACAGCTCTTCGCCGCCGCCAGCAAACAC -GATGTCCTGTTTGCCCAGTTGGATCTGCTCTACTGCGTTACCGATACAGTGTGCGGAAGTCGCACACGCGGAGCT -GATGGAGTAGTTAACGCCATGAATTTTAAACGGGGTGGCGAGGCAGGCAGAAACGCCGGATGCCATCGCTTTGGT -GACCACATACGGGCCAACCGCTTTCAGGCCGCGCGGGCCGCGCATTGCGTCAGCGCCGAACACCTGGAAACGCGG -GGAGCCGCCGCCGGAACCTGCAATCAGGCCAACGCGCGGGTTATTCTGGTAAGCTTCCGGAGAGAGGCCCGCATC -AGCGATTGCCTGCTCCATAGAAAGGAATGCATAAATGGATGCGTCGCTCATAAAGCGCACAACTTTGCGGTCAAT -GAGGCCAGTGGTATCCAGTTTTACGTTGCCCCAGACGTGGCTACGCATGCCGGAATCCTTCAGCTCCTGAGAGAA -AGTGATCCCTGAACGTCCTTCACGCAGAGATGCCAGGACTTCCTGCTGGTTATTACCGATGCTGGAAACAATGCC -CAGGCCAGTAATCACTGCACGTTTCATTCAATACCTCTGTAAGTCGCACATAGAGTAAGTTTCGAATGCACAATA -GCGTACACTTGTACGCCGAACAAGTCCGATCAGCCATTTAATAGAGAAATTTGCGCAGCCTTACACACATCGCTA -AGATCGAGCCACCGCCTGTAAGACGAGTAACTTACGTGAAACACTACTCCATACAACCTGCCAACCTCGAATTTA -ATGCTGAGGGTACACCTGTTTCCCGAGATTTTGACGATGTCTATTTTTCCAACGATAACGGGCTGGAAGAGACGC -GTTATGTTTTTCTGGGAGGCAACCAATTAGAGGTACGCTTTCCTGAGCATCCACATCCTCTGTTTGTGGTAGCAG -AGAGCGGCTTCGGCACCGGATTAAACTTCCTGACGCTATGGCAGGCATTTGATCAGTTTCGCGAAGCGCATCCGC -AAGCGCAATTACAACGCTTACATTTCATTAGTTTTGAGAAATTTCCCCTCACCCGTGCGGATTTAGCCTTAGCGC -ATCAACACTGGCCGGAACTGGCTCCGTGGGCAGAACAACTTCAGGCGCAGTGGCCAATGCCCTTGCCCGGTTGCC -ATCGTTTATTGCTCGATGAAGGCCGCGTGACGCTGGATTTATGGTTTGGCGATATTAACGAACTGACCAGCCAAC -TGGACGATTCGCTAAATCAAAAAGTAGATGCCTGGTTTCTGGACGGCTTTGCGCCAGCGAAAAACCCGGATATGT -GGACGCAAAATCTGTTTAACGCCATGGCAAGGTTGGCGCGTCCGGGCGGCACGCTGGCGACATTTACGTCTGCCG -GTTTTGTCCGCCGCGGTTTGCAGGACGCCGGATTCACGATGCAAAAACGTAAGGGCTTTGGGCGCAAACGGGAAA -TGCTTTGCGGGGTGATGGAACAGACATTACCGCTCCCCTGCTCCGCGCCGTGGTTTAACCGCACGGGCAGCAGCA -AACGGGAAGCGGCGATTATCGGCGGTGGTATTGCCAGCGCGTTGTTGTCGCTGGCGCTATTACGGCGCGGCTGGC -AGGTAACGCTTTATTGCGCGGATGAGGCCCCCGCACTGGGTGCTTCCGGCAATCGCCAGGGGGCGCTGTATCCGT -TATTAAGCAAACACGATGAGGCGCTAAACCGCTTTTTCTCTAATGCGTTTACTTTTGCTCGTCGGTTTTACGACC -AATTACCCGTTAAATTTGATCATGACTGGTGCGGCGTCACGCAGTTAGGCTGGGATGAGAAAAGCCAGCATAAAA -TCGCACAGATGTTGTCAATGGATTTACCCGCAGAACTGGCTGTAGCCGTTGAGGCAAATGCGGTTGAACAAATTA -CGGGCGTTGCGACAAATTGCAGCGGCATTACTTATCCGCAAGGTGGTTGGCTGTGCCCAGCAGAACTGACCCGTA -ATGTGCTGGAACTGGCGCAACAGCAGGGTTTGCAGATTTATTATCAATATCAGTTACAGAATTTATCCCGTAAGG -ATGACTGTTGGTTGTTGAATTTTGCAGGAGATCAGCAAGCAACACACAGCGTAGTGGTACTGGCGAACGGGCATC -AAATCAGCCGATTCAGCCAAACGTCGACTCTCCCGGTGTATTCGGTTGCCGGGCAGGTCAGCCATATTCCGACAA -CGCCGGAATTGGCAGAGCTGAAGCAGGTGCTGTGCTATGACGGTTATCTCACGCCACAAAATCCGGCGAATCAAC -ATCATTGTATTGGTGCCAGTTATCATCGCGGCAGCGAAGATACGGCGTACAGTGAGGACGATCAGCAGCAGAATC -GCCAGCGGTTGATTGATTGTTTCCCGCAGGCACAGTGGGCAAAAGAGGTTGATGTCAGTGATAAAGAGGCGCGCT -GCGGTGTGCGTTGTGCCACCCGCGATCATCTGCCAATGGTAGGCAATGTTCCCGATTATGAGGCAACACTCGTGG -AATATGCGTCGTTGGCGGAGCAGAAAGATGAGGCGGTAAGCGCGCCGGTTTTTGACGATCTCTTTATGTTTGCGG -CTTTAGGTTCTCGCGGTTTGTGTTCTGCCCCGCTGTGTGCCGAGATTCTGGCGGCGCAGATGAGCGACGAACCGA -TTCCGATGGATGCCAGTACGCTGGCGGCGTTAAACCCGAATCGGTTATGGGTGCGGAAATTGTTGAAGGGTAAAG -CGGTTAAGGCGGGGTAATCTGCTCTCGCAGTGTTTGCCGGATGCGGCGTGAACGCCTTATCCGACCTACGTGTGA -CGTGTAGGCCTGATAAGACGCGATAAGCGTCGCATCAGGCATGCTGCTCCAGACGCCGCAACTTACTGCTGTGAC -GCCTGCTGAAACAGGTTTTCCCACATATCGGTCACCAGCGCCTGGTCACGCGGCGACAATTCACCAGCACCAATG -GCTTTTTCCAGACTCTGGCTAACGGTCGTATGCACCGCCTGAGCGGAGTGGTCATCACCACTTTCCAGTTCTGCG -ATGGCTAATGTCAGGTGGCCACGCAAATACCCACTGGCAAACAACTCATCATCACTGGCATGGTCAACCATACCG -TCGATTAATGCCAGAATGCGTGATTCAAACTCCGCGATCATCTTCTTTCCTCATTGTAAAACGTGGCGCTGGCTT -CAGTTGAGCGCTTCCGGCCACGGGAACTGTTCCGCCGTAAGTTCCGGCGTGTGATAATAATTTTGTAGTGCTTTA -ATGAAGCGTGCCGGACGTTCCGGAATGCCATTTGTCAGATAATCCATCACCTGCGCATGTACTCGCCGTTGAAAC -ACCACACGATCCGGTTCGAAATCCCCTTCCAGATTGTCGCAACTGACGTTAAACGGATATCCCGCCGCCACACAG -AACAACCAGTCGAGCGCCTGCGGCTTCACTTCAACATCTTCAAACTGGCTTTGCGTTTGGGCATCGCGTCCGTCC -GGGCAATACCAGTAGCCGAAATCAACCAGCTCACGGCGCGCTTTCCCGGCAATACACCAGTGCGAAATCTCATGA -ATTGCGCTGGCATAAAAGCCATGAGCAAAGACGATTCGGTTATACGGTACTTCCGCATCAGCAGGAAGATAGATC -GGTTCGTCGTCGCCTTTAATCAGACGGGTATTAAAATCATCGGCAAAGCAGCTATTAAAAATTTCAATCAACTGC -TCGTAGTGGTGTGTACTGTTCATTAGTTCATCCCCAACCAGTGGAGGATCTCCTGTCCGTGGCTGTCGTAAAGTA -ATTTGGCACTCATCACCGCCGAGACGATAACAATCATCGGGCGGATCAGCTTTTGTCCTTTGCTCAACACCAGTC -GTGAACCCATGCGCGCGCCGAGGAACTGCCCCACCAGCATGACAAAGCCCGTCGCCCAAATCACTTTGCCGCCGA -GAATAAACAGCAGTAAACCGCCGATGTTTGACGTTGCGTTGAGTAATTTGGCGTGAGCCGTGGCTTTGGCGAGGT -TAAATCCGCACAGCGTAACGAAGGCCAGCGCGTAAAACGACCCGGCAGCCGGGCCAAAGAATCCATCATAAAAAC -CGACGCAGCCACCGGCTATTAACGCGAAGGGTAAACCGTACATCCGGCGCTGGCGGTCTTCTTCACCTAGCTTTG -GCATCAGCAAGAAATAGAGGCCGATACAAATTACCAGAATGGGCAAAATCTGCCGTAAGACATCAGCCTGAACGT -ATTGCACCAGCAGTGCGCCGCTCATTGAGCCGACAAAGGTCATGGCGATATTGAGTTTCTGATCGCTTAAACTAA -CCACTTTGCGGCGAATAAAGTAGATAGTAGCGGAAATAGAGCCGCCGCAGGCTTGCAGTTTATTGGTTGCCAGCG -CATTAGCGGGAGACATCCCCGCTGCCATCAATGCCGGAATGGTGAGTAACCCACCGCCACCGGCAATCGAGTCGA -TAAATCCCGCCAGCATGGCGACAAAAAAGAGAACTCCCAGCAACAGCGGGGAAACCATAAACAGGCTATTAAACG -TTTCCATTAGATCACGTGCTCATCCAGTAGCGCCTGGCAGGAAGGCGGCAACGGAGGCGGTGTCTTCTTCTCAGG -CTTTGTTGTTCCCGGTTTTGGAGGTTCAAACCAGCTTTGCAGTTCTGCCCCGCAACCATCGCCTGATGGCGGTAA -AGGTTGATCTTCACACTCCAGACTATCGGCAGGGCAACGTAATCGTACATGCATATGCGCGCGATGCTGGAACCA -GGGTCGCACTTTGCGCAACCAGTCGCGATCGGTGCCCGCATCAAGGCAAAGTTGTTGTTTAATCGCCGGATTAAC -AAAAATGCGCGTGACGTCTTTGTCCTGGGCGGCGAGTTTGATCAAGCTGAAAATTTCTGGCTTCCACAGCGTGGA -GACAACGTGTTTACCGTCGCGGGAAACTAAGTCCAGTGCTTGCGGGCGCAAGAGCTGCGCGGAGGTCCAGCGAGT -TTTCGGCAGTTGCAGAAAGATATCGACATCCAGTCCGGTCTGGTGGCTGGCATGACCGCCGTTGAAACGCCCACC -AGCGGGCATCCCCATATCGCCAATCAGCACCGTACCCATGCCCAGATTGCTCACCTGGCTACTCAGACGCTGGAT -AAACATCACCAGATCCGGGTGACCGAAATAGCGACGCTGATCGGTACGCATGACCTGATAATGTTCGGACTGTAT -CGGCAGCGTGTCAGCGCCGACAATACAGCCATTAGAAAAACTGCCTATCGATTGTGCGCTACCCGGCACAGGTTG -GGTTATTTTTTGCCACGGCGTCGCTGCCAGGCTGGCGCTACTGGCAAGCAGAGCCAGCAGCGCAATCGCGGTTTT -ATTCATTTTTTACCAGCGTGGAATATCAGTCTTCACATCGGCATTTTGCGCCCGTTGCCGTAACAGGTGATCCAT -TAAAACGATCGCCAGCATCGCTTCTGCGATCGGCACTGCGCGGATCCCGACACAGGGATCGTGACGGCCTTTGGT -GATCATCTCAACTTCTTCGCCAAAGCGGTTAATGGTACGACCCGGCACGGTAATGCTGGAGGTCGGTTTCAGCGC -CATATGGGCAATGATTTGCTGCCCGCTGCTGATACCGCCGAGAATGCCGCCCGCATGGTTGCTCTGGAAACCGTC -TTTGGTGATTTCATCGCGGTTCTGGCTGCCGCGCAGCGCCACCACGTCAAAGCCGTCGCCAATTTCCACGCCTTT -CACCGCGTTGATGCTCATCAGCGCATGGGCGATGTCAGCATCCAGGCGGTCAAAGACCGGCTCGCCAAGTCCGGC -AGGAACGCCACTGGCAACAACGGTGACTTTAGCGCCGATGGAGTCGCCCTCTTTTTTCAGCGCACGCATCAACTC -GTCTAACGCGTCGATTTTGTCGGGGTCCGGGCAAAAAAACGGATTTTGCTCGACCTGCGACCAGTCTTTGATATC -CAGCGGAATGTCGCCCATCTGGGTCAGGCAGCCACGGATTTCAATACCAAATTTCTCGGCGAGATATTTTTTGGC -AATAGCTCCTGCCGCCACGCGCATGGCGGTTTCGCGGGCGGAAGAACGTCCACCGCCGCGATAATCGCGCAGACC -GTATTTTTGTTCGTAGGTGTAATCGGCATGGCCTGGACGGAAAACGTCCTTAATCGCACTGTAATCCTGAGAGCG -CTGGTCAGTGTTTTCGATCAACAAGCCAATGCTGGTGCCGGTAGTAACGCCTTCAAAAACACCGGAGAGAATTTT -GACCTGATCCGGCTCGCGGCGCTGGGTGGTATAGCGCGATGTCCCAGGGCGACGACGGTCGAGGTCATGTTGCAG -GTCCGCTTCCGTCAGCGGAATGCCTGGCGGAACACCATCGACGATGCAGCCGAGCGCCAGCCCGTGCGATTCGCC -GAAGGTGGTTACGCGAAAGAGTTGTCCAATTGTGTTTCCAGCCATCACGGCTCCGTTATTGTTGTGTTTGCGTGT -TTACTTAATCTTTATAAATCGCGAAATGTTCTCGTGCGGCAATAAGCTGCTCTTTGGTGAGCATAAACACACCAT -CGCCGCCGTTATCAAACTCCAGCCAGGTGAACGGAACATCCGGATATTGTTCCATAAGATGTACCATGCTGTTGC -CGACTTCACAAATCAACACGCCATCATCAGCAAGGTAATCTGCCGCGTTACCGAGAATGCGACGCGTCAGTTTCA -GGCCGTCAGTGCCAGATGCCAGGCCCAGTTCCGGCTCGTGGCGGTATTCGTTTGGCAGGTCGGACATATCTTCCG -CATCGACATACGGCGGGTTAGTGACAATCAGGTCGTACTGCACTTTCGGCAAGTCGCGGAACAGATCGGAACGAA -TCGGAATGACGTTGTGGATCAGACCGTGTTCTTCGATGTTCTGTTCAGCAACCGCCAGCGCGTCTGGAGAGATAT -CCACCGCGTCGACTTCTGCATCCGGGAAGGCATAAGCACAGGCAATGGCGATGCAGCCGCTACCAGTACACATAT -CTAAAATATGCTGCGGTTGCTTGCTGATAAGTCCGGCAAATTTATTGTTGATCAGTTCACCAATCGGCGAGCGCG -GCACCAGCACGCGTTCATCGACGTAAAATTCATGGCCGCAGAACCACGCTTTGTTGGTCAGGTAAGCCACCGGAA -TGCGTTCATTGACGCGGCGGATCACGCGTTCAACAATACGGTGTTTTTCGCTGGAGGTCAGACGCGCGGTGCGCA -TATCTTCCGGAATATCCAGCGGCAGGTAGAGCGAAGGCAACACCAGCTGTACGGCTTCATCCCACGGGTTATCGG -TACCGTGACCGTACCAGATATTTGCCGCGCTGAAGCGGCTCACCGACCAGCGCAACATGTCCTGAATGGTTTGCA -GCTCATTTACTGCTTCATCAACGAAAATTTTATCCACGTATTCCTCCAGGGCATGATCGCAATAATTTCGGCGGC -TAGTTTGCCATGAAGATGACGATAAATCAGCATTCACGCGCGGTGAGTGAGGAAAAATACGTTTAAAACGATCGA -TTGCGCTACGAGTCGGGTAAACTGTAGGAAAATTAGAAATAGAGACAGATAAATGAAAAAGAAAACAACACTTAG -CGAGGAGGACCAGGCTCTGTTTCGCCAGTTGATGGCGGGGACTCGCAAGATTAAGCAGGACACGATTGTCCACCG -ACCGCAGCGTAAAAAAATCAGCGAAGTGCCGGTGAAACGCTTGATCCAGGAGCAGGCTGATGCCAGCCATTATTT -CTCCGATGAGTTTCAGCCGTTATTAAATACCGAAGGTCCGGTGAAATATGTTCGCCCGGATGTCAGCCATTTTGA -GGCGAAGAAACTGCGCCGTGGCGATTATTCGCCGGAGTTGTTTTTGGATTTACACGGTCTGACGCAGCTGCAGGC -CAAGCAGGAACTGGGGGCGTTGATTGCCGCCTGCCGCCGTGAACATGTGTTTTGCGCCTGCGTGATGCATGGGCA -CGGGAAGCATATTTTGAAGCAACAAACACCGCTGTGGCTGGCACAACATCCGCATGTGATGGCCTTTCATCAGGC -ACCAAAAGAGTATGGCGGTGATGCGGCGTTGTTGGTGTTGATTGAAGTCGAAGAGTGGCTGCCGCCGGAGTTGCC -CTGAGGAGTTGAGCGCGTTGCGCCAGGTACGGGTAATGGCAGGGGCGAATGCCCCTGCCTGGTGTATCTAAGGGC -TACAACTCATTCAGTATGTACTGGAACCGGCAAGTAGAATCGATTGGCTGCATACTGCTGGTATCAACACGCACG -ACCATATCGTGTAACTGTTTGTCCGTTATAGGGTGTCGATTTGGCGTGACCGAGACTTCCGCCTTGTCACATCCC -GACGCGGTAAAAGTTATCATCTGTGCAACCCAGCGGCAGTAACCACCTGTTTCATTCATCTGCGTACTGTCGCAC -AACTTCCCATCTTTCATCAAATACGTTGAAAGCGTTTTCTCAACCACACCGCCCGTCGACTGCAGGGTGAGCAGT -TTTGACTTACTGACATAATTCTCATTCCATGAAACGTCATAAGGTTGAACAGAAACGGATGGACAAATCGTGTCG -TGACTATCAGGCCCCTGATACGTCACGCCCCCTGGAGAGGCTTCAGAGTCATTCATAATAACCAACCATGGACAA -GAAAAGTAAGATTCAATCTCTGCAGAGACAATAACCTCAAATGTATAATACCCGCAGTTCCACCCAGACGGTAAT -CCAGGACAACTTGCTTTGTTGATATTTTGATGGTAGCCAATCAGCTTAACCGAAGGGGCAGGAGGAGGACCACTC -CAGCTCACATTTTGCAATATTTCCCCAGTCATGAGCCATTGACTACTTTTATATTCACCAACGTACACTGCGGAT -GGCATCATTATTTTTAAATTAAAAGTCGCAATATTACGCGAATCACCGTTGTAACCGTAGTAAACGTCAACGCTA -TGCCCGGCAGCCATAGCTTCTGTAGTAGCAATAAGCATGACCAGAGCGAACAACCATCGTAGTATTTTCATTTTA -AATATACTCAAATGTCGCAGTTAAAGAGGCGGTAAATTCACCGATCGTCACATCACGGCCGCTTTTCGCCTGTAG -CCAGGCTCTGAAATTGATATCGTTATTGCCATTGGTTAGCGCAAAGGTCGCCCCATTTGTATTGTTGATGGCAAC -CTGCATTCCGTCGGTTTTTTCCATGCCAATTCCCACTCCCTGAGCGGTTGATGACGTATCCAGTGCCAGAAAACC -GGGTTGTTCGCTGTCTTCTACCCCCGTGAGCGTGACTTTTACGTTGTATCCCGCCGGCCCTTTGCAATCTTTCAG -CTTAAAGACTACGGGTACACGAGCGGACTGGCCTGCAACGTTCAAATCCTGACGACTGACCGTGGGAAAGCGCAC -CTCTGCCAGATATTGGCCATCCACCACCAGCGCACAGGATTTACTTAATAAATTACCGGAGAAATGCAGATTATT -ATCTGCCGCGAATAACGTGCTACTCATTGCCAATATCAGCCCCGCTAACAGGACGTAACCACCGGACTGAATCAT -TGATTTATTCATTGATAATCCACCCGTAATGTTGCGTAAGCCGAAAAATTCGTATCGCTTAACACAGCATCACTC -GCTTTTACCGGTACGGCCTCCAGCTTCGGCTTTTGCGTAAAATCAGTGGCGTTGATAGCAAGCGGAGTATTGAGT -TTAAAACGCTGACCATCGTGCTGAAGCTCGATACCAAAACCGGGTACATCAGTTTCAATTGCTGCATCATTAAAA -CTGGTTTGTGTACCAGTCCAGGTGAGGGTCATCTCCCAATCTGGATGACGGGTCGTCGAGTCACAAGTGAGTTCA -TATGGCACCTCTTTACGACCATAGTTGCCGTTGATGTCGTCGATAATGAGATCGCGAAATTCGACTTCAATGGTT -TTACCACCGCTGATGCTACAGGTTGGCGGTGACAATAATGTCCCGTGAAAGGTGATGTCTTCATCAGCAGCATGA -GCTATGGCGCTACTGACACAAAGCAGGGTTAAGAAAGTCTTTCTCATTGATAGTCCACCACCATGGTCAAACTGG -CGTTAAACTCGCCCGCAGCAAGTTGCGCCCCGCTTGCCTTCACAGGTACAGCCTTCAACTGTGGCTGGTTATTGA -TATTAAATGGCGTCCAGCTATTTTCACCGACGGCAAACAATGAGTTATCGGCGCTATTTTCTATCCGAATGCCCA -GCCCGGTGATATTGGTACTGAGTACCGTTTCGCCGTTAATCGTTGAGGTATTGCCCTTAAGTTGCATCCGCAAGT -CGTTAGCAAGACTGTTTGTGCAGTTCAACGTGTATTTCGCATCTTGCCGATAATTGGTGCCATCAACGTTATCAG -CAATCATATTGCCGAACTCTACCTGGCTGCCCTTGATTGAACAGGGTGGCGGAGCATCGACCAACACGCGCAGAA -TTAAATCCACGGGTTTACTACCAGCCATAGCAGATAAACTACAGACACTGCATACCAGCAGCCCTGCGCCCACTA -CAAACTTTTGACTCATAACTCCCCCCGTCATCAGCCTTTGCGGCTCTGCTCTTCATCCACCTGGCAGCTGTTGCC -ATTGCACTGGAAGAACAGCGGCATCCGTGCGCCAAAGTCGTTGACGTAAGTCAGCACCGGTACGCTATCCATTTT -CACATTCAGCGGTACCGTGGTTTTCGGCTCAATGACCAGAGGCGAGAACCCTGCAGCTGGATTACCGTTTTTCTG -CGCACTGGCGTTGCTGATAATCACGTAGTACGGCGTTGGGTTATTGACGGTAAATGCCTGACCGCTGCGGGTGAG -CGTCACCTTGTGCTGCCACGGACTTTTCATACTGACCTTTTCCAGCGCCTTTGGTCGCCAGAACAACTTGATACG -CGTTTGCAGCGCGATTTGCAGGGTATTGGGTTTGTTTGATTTTGGCGGGATCTCGCGCACGTTAAAGTAGAACAT -GCTTTCACGATCGGCTGGCAATTTGTTGATATCCGGCATTCCCTGCACTTTTACCTGCCCGTTCATCATTGAATC -GATGCGTTGCACTGGCGGCAGCACAGTTAACGGCGAGGTGATCTTGTTACCCTTTTCATCTTCAATCCAGCTTTG -AGCCAGATAAGGGAGTTTCGGATCGTTATTACGCAGCGTCACGCTGATTGATTTGTCGCTTTCATTAAATATCAA -ACGGGTACGATCTGGCGTTACAGACGCCAGGGCAGACAAACTGGTAGCGCTAAGCAGTAACGCCAGCGTCATAGC -ACCCAATTTGGCAGAGCAAAGTAAATCAGACATGGATCATTCCTTAATCACGTTATTGGTTAGCTGAAACAGAAA -CAGGGGGATCGGTGGGTGTCACCTGTTGCGTCTGCTCCTGAATGACAGGCTTTATGTCATCAGGAACAACCGGCG -CGACGTTGCCTTTATGCTGGCATGGCAGTAACAAGCCGTTAAACAGATCGGCAGGCAGCGGGTCCGGCAGGTTGA -TATCGCAATGCGCAACACCACTCCAGAACACACTCATATGTTCGCCAGGTTTCACCCCAGCCAGATAGACACTAC -CGTCATCATCGACAAGGCCCACTGTCTGCTCGTTATCATTTTTTACTTCTGCGCCAAACGGTGGATGGCTGCCAT -CTTGTAAACGCAGCACCGCCATCGCTTTTTGACCACTGATGACGGCAAATTTGCGGTAGCCAATGGCTCCTTCAG -TTAGCGTGGCTTGCACCACCGACTGGGTTGCTTCGGCGTTTTCCGGCAATTTGTTGAGGTCGATATACGCCTGAT -TGCGATAATAATTGTTAACGTCAGAAACGACGGCTTTACCAAACATATTGGTATAAACAGCAGCCCCGTTACCTT -CCACCGGAACATCGGCAACGCCATCGGCATCAATCAGCAGGCGTGTCCCGCCCATATTCTGGGTACGGTGAAGTG -CGCCGCCGTGGGTAGTAAGCGTTGCGCCGCCCTGTAACGACAAGCCCGCAGAGGTGTATTGCCCTTCATGGTAGT -TCGCACTGAGGTCAACCTGCGCCAGCGAACCATCATGGCTGTAGTAGCCATCAACGCTGGTGTGTTTGTCACTGG -TGCCGATGTTCAACTGATAGTGAGTCGCGTCATCGACACGGCTAAAATAACCGACCTGGCTGCTGTCCGTCCCAC -TGCCATAGTTGCCGTTATAGCTAACGGTACTGTTGTCGCCCCACGGCATACTGAGCGAAATCTACATGCCCTTAT -CCGCCCGGTTGTCATACTCGTAGCGGTAGCCAGTCAGGGAAACGCTCATATTACGAATGCTGCCCATATTGAAAT -AGTGGGAGAGCATGATGTTGTAGTTTGTCTGCTCCTCACGATCCCAGTAGGTATGGCGGGTATAGTTGAGATAAA -CCGAAACACCCGCATCGCGGAAGTTCTGGTTATAAGTGGCGGTGTACATCTCTTTGTCGTTGCCCGTACGGACCA -TTTCGCTGTCACTGGCATCCAGATACTCGCTCATGGTCATAAAGTTCTCTTCCGAGAAGCGATATCCAGCGAAAG -TGACGCGGCTGTTGAGCTGGTCAAAGTCTTTGGAATAACTCACACGGAAGGAGTTACCGTCCAGCGAACCTTTGC -CATAAGCGGTGTCTTTATCCAGTTTGGTATGCGAATGAGTAACATCAAACGCGACCGCGCCGAAGGTAGACAAAT -CGCGACCGACGCCCAGCGCCGCAGACTGATAGTTTTCATCACCCAGCGCACCGCCATATAACGACCAGCCGTTAG -CGATGCCCCAGGAGGCTTCAGCACCAGAGAAAAATCCCCCCTCGACATGGTGGCCCCACTCTTGCGGACGTCCCA -TCATGATCTTATAGCGAACCTGGCCTGGGCGAGTGAGGTATGGCATCGAGGCGGTGCTGATGTCATATTCCTGCA -CCTGGCCGTTCTGTTCTTCAATGCGAATATGCAACGTACCGGAGACGGAATCACCAAGATCCTGAATACGAAACG -GTCCAGCCGGAACCTGCGTTTCGTAAATCACACGCCCCATCTGGCTGACGGTCACTTTTGCTGTGGTGTGTGCCA -CGCCGGAAATGTCTGGCGCGTAGCCGCGCAGATTGGGAGGCAACATTTGATCGTCAGTGCTGACACTGCCACCAA -CATAATTAAAACCGTCGAAAATATCGGAATTGAGGTAATCTTCGCCCAGCGCCAGTTTGGCTTTTAATGACGGTA -ACGCCCGCCAGGCATAATAGCGACTCCACTCCCATTTTTTTTGTGTGTCATCGCCGCCAAATTCATCGTCATCAT -CATTACTGCGCGTATGTTGATAGTTGGTCTGCCAGTCAGCGCGCATACGCCATGGCCCCAGGTTAACCCCGACCG -TCCCGTTGCCGCTGATCTCGTTACTGTCATCGCCGCCATTTTCTTCGTGTCGTGTTTGCGCAGTGATGCTGTAGT -CCGCAATGATCCCGGAGATGCCATCATCCCAACGAGAAGGTGGATCCCAGTCGGGCCAGGTATATTCGAGGTAAG -CCTGCGGTAGTGAAATGACTAATGCGGACTGGCTTAAATCAGCCTTAATTTCCACGCCTTCCAGTTGACCGGGCT -TCAGGCATTTACCATCGTGGCTCCATTGCAGATTTTTCGCCACGTCTTCTTTTAAACCAAACTGCGCCACCAGTT -CCGGTGTCAGACAAGCATAGCTTTTGCTAACGTCATCTTCACCAGCATACCAGTAAATATCGTACTCTTCCGCCA -ATGGCTGTTTATTTAGTTGAACCTGTAAATTGTATTTTCCGGGCTCAACATACCCCTGGCTGGAAAAACGCTTCA -GATCAATTTTTGTGTCGCCTTTTAATTCCAGAAAACGGGAATCAAACTGAATGTCGTCTTCAGCCCAGACACTGC -TATAACTCCCTGACATTGCCAGCGCAATGCACCACGGAAGAATCCGTAATCGAAAAAGAGAATGGTCAGGCATAC -ACGTTTTTATCCGTTTTTATTCTTGTTCGGTCAAAATCCATTTAAATACCCCATAGCAGTGTCGCTATGGGGGTA -TGCCTTACAGGTAAGTAATCTGGAAGGTGGTATTTGCTTCGAAATTACCCAGATCTGGCGCATCAGCTGCGCCGA -CCAGCCAGGCTTTAAAGTTCAGAGTCTGCTTCGCTTTGCCTTTATTAGTGGCAGTATCTTTCACGATTTTCTGGT -CAATACCCATGCCGCTTTTGTAAGAGGTACCCAGAGAGTCACCGATCGCCAGGCTAACATTGTTAAATGCCGCAC -CGGTATCGGTATTGAAAATGGTGTAATAATTGCCGCTATTTGCAGAAGAAACGGTACCAGTAAAGGTAGTGGTCA -TTGTTTCCTGAGTATCAAATACGCAATCTTGCAGGCGAATCTGGAAATTTTTCGGCGTGGTGGTGCCGTTATTTT -TCAGTTTTTCGGCACCGATATCACCCATATCAACTTCCAGTTTGTGATCGTCCGGAACGATAGAACACACTGAGT -CTTCAATGGTGCCGTAAAAACGTGCAGTACCGTTGTTACCCGCAGCGATTGTTGCCGTAGAGGTGAACGCGCCCA -TCACCATTGCCGCAGCAATAGCTGTTTTAACAAACTTACTCATTATTTGTCCTTAAACTATAAATAATTAAAATA -TAAACATTGCAATACATTGATTCAGTCAATAGCCAATGTTTATACCCAGCCATTGAATACGGCATGCGATCCAAA -AAAACAGGTCGTAAAAAATGTATTCGTTGGTGTGGGGTCGAATAGTGATGTTTTCACTCCCCTGATTCAATTTAA -TTTTACTAATGAGTAAATGTAGATTTAATTAATATATTGATAGGGGAAAGATTATCTTAAGGATCTTCTAAAAAA -ACACGAAATATATATTTAGAAAAAACAGGAAGCATATCAACAATGAATGCCAATAGCTTAAAAAACAAACAATGA -ACATATAATGCGATTGGCATTAACCCGCTTTTGTCGATATAATATATAAACACTATAGCCAGAATTTAATCAAGT -TTCAATTACGTCCTGCCTGATTATTCAACTCTATTTTCTCCATTATCTGTATTAATAAATGATAATGAGTGTCAA -ACAGACATTATTCATTTCAACATGTAACTTTGGGCAAAATCAAGATACGCGCAGAAGAATACTTTCCGAATGAAA -GTTAAAGGTGTTTTATTTATAGATGGGGAGAGTCTTCGATAGTAGTGAGGTTGACAGATATCCGCTGCCTGATGA -GCAATTATGCCCAATGAATCTACCTCATTGGGCATAATTTGGAACTCATCAGATAGCTTTTGCCATCTTCAGATT -ACACGGGCTCATCTGCCAGTTGAATGTGCCGTTTCCGCTTTCATCAAGCGTTACGCTGGCAATGGCCGAGGTGGT -AAACATAGGCGGCGTTTCGCCCGGACATAACTCGGCAACCAGATACCCGACTAACGGTAAGTGAGAGATCACCAG -TACCGAAGCAACACCTTCATTGGTCAACGCCTGCAAATAGGCACTGACCAGACCAACATCGCCGCAGGGCGTTAA -CTCCGGCAGAACTTCTGCACTGGAAGGCAGGTTCAGACAATCCCCTACTTCTTCCAGTGTTTGCTCGGCTCGCAG -GAACGGGCTCACCAGAACGCGTTCGATTTCCACTTTTTGACCTTTCAGCCAGTTCGCCATCAGGCGAGATTCGTC -ACAACCATTAGTGGTCAGAGGACGAACGGAATCACTGGCGGCATCGAGGGCTGCGTCGCCGTGACGCATGATAAA -AACTTGCATATTGCACCGCTTTTGTTAACCAGATTCGCCCGTTTTCTTTCATCTGAAACCAGAGAAAGAAAACGG -TGGCCGGCATTGTGCCTTATCCATTCACCGAATGAAACGCTGTTTTTTACCTCAATGGCGTAAGTATAGTCAATA -TGCGTTTACATTTTGACCAACACTCCGCCATTCAGCGCGGATTCATATAGCTTTGACCTTCTTATTGCAGGTCAG -TTGCAGTTGTTTTCCAAAAACTTTCCCCACGCGCGCCCATCTCGACCAAACGCTCGCAAGGGGTAAAACGGGAAC -CATACTGCGTGGCAAGTCGTTGCATTATTGCAACCACTTCGCCCGCGCCGAGAGAATCGATATAGCGGAACGGTC -CACCGAGAAATGGCGGAAAACCAATGCCAAATACCGCGCCAATATCCCCGTCACGCACGCTACGGATAACCTGCT -CATCAACACAACGTACTGCTTCATTCAGCATCAACATCACACACCGTTCAGCAACCTGCGGTGCGGAGATTCGCC -CCTGCCCTTGTGTGCCAATCAGCGGGTAAATGGCGGGATCGACCTGTTTTTTGCTTTTACGCCCTTTCTGACCAT -AAAGATAGAAACCCCGGCCATTTTTTCTGCCTTTGCGATCGTCGTTCAAAATTGAAGAAACAACATTTGCAGGCG -CGCTAAAACGTTCTCCATAAGCGGCTTCCAGTACAGGAATAATTTTAGTCCCGGTGTCGATTCCTACCTCATCCA -AAAGTTGGATTGGGCCTACCGGAAAACCAAATTTCACTAGCGCGGCATCAATGTGCTCTACCCGTTCACCTTGGG -TCAACATGCGGATAGCTTCATTAATGTAAGGCGCTAAGATGCGATTGACGTAAAAACCGGCTTTGTCACGCACGA -CAATTGGCGTTTTACCCTGTTTTTTCGCCAGTTTTACTGTGGTAGCGATGGTTTGCGCCGATGTCCCCGCATGAG -GAATAATCTCCACCAGCGGCATTTTTTCCACCGGACTGAAGAAATGCAGGCCGATAACTTGCTCAGGTCGCGTGG -CGTGAGCGGCGATATCACCAATCGGTAAAGATGACGTATTCGAAGCAAAGATGGTATGAGCGGCGCAATTTTGCT -CAACTTCCGCCACCATCTGTTGTTTCAATTCGAGATTTTCAAACACCGCTTCAATAATCAGATCGCGATGGGCAA -AGCCGCGATAGTCCGTCGTTCCGGAGATTAATGCCAGCTGTTTGTCACGTTCGCTGGCTTTGAGATGACGACGGC -GAACTTTGCCCTCCAGCTGATCCCAACTGTACTTCAGCGCATGATTTATGCCCTGCGGGTTGATATCTTTAATTC -TGACCGGAATCCCCGCTTTACAAGCAGTGACATAAGCAATACCGCCGCCCATCAAGCCACCACCTAAAATCCCCA -CGCTGTTTAATGGCGCAGGCGGCGCATCACTGCCGGGATCTTTCTTCACGTCCGTACTGGCAAAAAAGATACTAC -GCAGCGCCTGCGATTGTGGCGTCATCGCCAGTTCGCCAAACGCCCGAGCTTCGGCGTCATAACCGCTGCTGGTGC -CCTGCGCTAATCCCGTTTCAACAACCTCCAGGATGCGTTCTGTCGCCGGATAATTGCCTTGAGTTTTGTGTTCTG -TTTTCTTGCCGACCATTTTGAACAGCAGCGCACGACCTAACGGCCCCGCCAGAATACGCTCGCGTACAGGTAGAG -GGCGGGAAGATGGGCGCTCCTTCTTTGCCAGCTCAACAGCGGCTTCCAGCAGAATGGAGTGCGGAACAACGTCAT -CCACCAGCCCCAGCTTTAATGCCTGTTTCGCCCGAAGTTGTTTTCCGGTGAGGATCATCTCTAATGCTGTGCTGA -CGCCTATCAGACGCGGTAAACGCTGGGTGCCGCCTGAACCGGGTAACAATCCAAGTTGTACTTCAGGCAAACCGA -GCACCGTTTTAGGATCGTCAGTACAAACGCGACCGTGGCACGCCAGCGCCAACTCCAGCCCACCACCCAGGCAAG -CGCCATGAATAGCCGCGATAACCTGAATGGGCAAAGCATGAATCTCCGCCATCAACTGTTGGCCCTGCCGCGCCA -GAGCTTCCGCTTCTTGCGCCGTTTTGCAGTTGCCGATCATGTTGATGTCTGCGCCAGCAATGAAGTTGTCCGGTT -TAGCGGAGACAAACACCACGCCTCGCAACTCTTTGTTTTCACGGAGTTGCTTAATAATGGCGCGCACCTGCGAGG -CAAACTCCGCCTTCAGGGTATTCATTTTCTCACCCGGTACGTCGATGGTGATAACGGCAATGTTGTCCAGACGAA -CATTAAGGGTAAACGCTGATGTCATTTCCATTATTCCGCCTCCAGAACCATTGCCGCGCCAAGCCCACCGGCAGC -ACAGGCGGTAACTAAACCAAATCCACCGCCGCGACGGCGAAGTTCATGCAATGTCTGGGTAATCATCCGCGCGCC -GGTCGCCGCGAAGGGATGCCCGTAAGCAATCGAACCGCCAAGCACGTTAAATTTGCTATCGTCCACTTCGCCAGT -GGCATGTGCACGCCCCAGTGCTTCACGAGCAAAACGTTCACTACCCAGCAACTGAATATTCGCCAGCGTCTGAGC -TGCAAAGGCTTCGTGCATATCGATCAATGTCAGATCGCTCATCGTCAAACCGGCACGCTCCAGCGCCAGCGGTGT -TGACCAGGCTGGACCGAGCAACATGTCCTGCCAGACATCAATCGCAGTAAATGCGTAGCTGCGCAGATACCCCAG -CGGCACCAGCCCTAATTCTTTCGCCCGGGATTCAGTCATCAGGATCACCGCTGCCGCGCCATCGGTCAGCGGCGT -ACTGTTTGCCGCCGTTACCGTTCCGTGTTTGCGATCAAACGCCGGGCGCAGCTTTGCGTAATCGGCAAGCGAGGA -ATTACCGCGAATATTGTTGTCTTCGACAAGCGGTTGTTTATAAGGAGGGATAAAGGCAGTCATCACCTCTTCTTT -GAGTTTTCCGTCTGACCATGCCTGAGCGGCACGCTGATGCGAACGGTGCGCTAATGCATCTTGCTGTTCTCGGGT -GATGCCGTAGGTTTTCGCCATTTGCTCTGCGGTGTCGCCCATCCGCAAGCCGGTAGAATATTCTGCTACCGCAGG -TGGTACGGGCATTAAGTCGCGCAAACGCAGGCGAGAGAAGAGTTTCAGTCGCTGGCTCATGGTACGAGCTTTGTT -GACATCAACCAGCACGCGCGCCAGTTTTTTACTGACGCCAATTGGCAATACCGAAGAGGAATCTGCCCCACCGGC -AATCCCCGCTCGAATAGTTCCCGCCATCAGGCTTTCTGCGACGTTTGCAACTGCCTGGAAACTGGTAGCGCAAGC -GCGGCTGACGCTGTAAGCATCGGTATGTACATTCATTCCCGTACCGAGAACAATTTCACGCGCAATGTTGGGGGC -TTCAGGCATTTGTACGACCTGACCAAAGACCAGTTGTTCAATCACTTCGGCGGGGATCTCGCTGCGTGCCAGCAG -TTCGCCTACCACCATCTTCCCTAAATCAACCGCGGGAATGCCATGAAAAGCCGTCGCCTGACGGGCAAAAGGCGT -ACGTAAACCGCTAACAATGGCGATACGATCGCCCTGGCGGGTAACCAGCGGTAAAACCTGACCCATAACACTCCC -CTGTAAAAAAATAAATAAAGTGGTCTGACCTGATCATAGTCTTAACCATTTTTTTACATTTAGCCAAGTGGAGAA -AAGGGAAAGTGGGAGCTATGACACAGAGAGAAAAGAAGAAGAGAAAAGAAAACGCCCCTGCCAGCAACTGACAGG -GGCGTACGTACCCGAGAGGAATTAACGCAGACCCAGCTGGAAAATCAGCATTTCAGCTTCGCAGGCAAAAGTGAA -ATCGATATCCAGGCGCACACCGTCAGACTCTTCAGTGAAAGTCGGGGTGATTTTGCAAGGTTCAGATTCCACGCT -ACGGGCTTTTTCAGTCAGCGCCGCCAGCGTTTGCTCTGCTTCTGCGCGGTTTGCAAACACGCGGCTGTAAGACGC -GGTGCAGTCGGAGTTGTCCATAATGGTGCCAACATCCATACAGCAGCAAACCGGGGTTTCATCAGCACTACATTT -ACTCATCGTTGATTTCCTCTGTATGTGCACCCAAGGTGCCAGATAAACGTTGTGGATATTTTACGCTTCCGGAAA -GTGCTGCTCCAGTTGTTAATTCTGCAAAATCGGATAAGTGACCGAAATCACACTTAAAAATGATCTAAAACAAAA -TTCACCCGAATCCATGAGTGCGCCACCTCCAAATTTTGCCAGCTGGATCGCGTTTCTTAGATCATATTTGAAAAA -AGATAGAAACATACTTGCAACATTCCAGCTGGTCCGACCTATACTCTCGCCACTGGTCTGATTTCTAAGATGTAC -CTCAGACCCTACACTTCGCGCTCCTGTTACAGCACGTAACATAGTTTGTATAAAAATAAATCATTGAGGTTATGG -TCATGAGCCAGAAAACCCTGTTTACAAAGTCTGCTCTCGCAGTCGCAGTGGCACTTATCTCCACCCAGGCCTGGT -CGGCAGGCTTTCAGTTAAACGAATTTTCTTCCTCTGGCCTGGGCCGGGCTTATTCAGGGGAAGGCGCAATTGCCG -ATGATGCAGGTAACGTCAGCCGTAACCCCGCATTGATTACTATGTTTGACCGCCCGACATTTTCTGCGGGTGCGG -TTTATATTGACCCGGATGTAAATATCAGCGGAACGTCTCCATCTGGTCGTAGCCTGAAAGCCGATAACATCGCGC -CTACGGCATGGGTTCCGAACATGCACTTTGTTGCACCGATTAACGACCAATTTGGTTGGGGCGCTTCTATTACCT -CTAACTATGGTCTGGCTACAGAGTTTAACGATACTTATGCAGGCGGCTCTGTCGGGGGTACAACCGACCTTGAAA -CCATGAACCTGAACTTAAGCGGTGCGTATCGCTTAAATAATGCATGGAGCTTTGGTCTTGGTTTCAACGCCGTCT -ACGCTCGCGCGAAAATTGAACGTTTCGCAGGCGATCTGGGGCAGTTGGTTGCTGGCCAAATTATGCAATCTCCTG -CTGGCCAAACTCAGCAAGGGCAAGCATTGGCAGCTACCGCCAACGGTATTGACAGTAATACCAAAATCGCTCATC -TGAACGGTAACCAGTGGGGCTTTGGCTGGAACGCCGGAATCCTGTATGAACTGGATAAAAATAACCGCTATGCAC -TGACCTACCGTTCTGAAGTGAAAATTGACTTCAAAGGTAACTACAGCAGCGATCTTAATCGTGCGTTTAATAACT -ACGGTTTGCCAATTCCTACCGCGACAGGTGGCGCAACGCAATCGGGTTATCTGACGCTGAACCTGCCTGAAATGT -GGGAAGTGTCAGGTTATAACCGTGTTGATCCACAGTGGGCGATTCACTATAGCCTGGCTTACACCAGCTGGAGTC -AGTTCCAGCAGCTGAAAGCGACCTCAACCAGTGGCGACACGCTGTTCCAGAAACATGAAGGCTTTAAAGATGCTT -ACCGCATCGCGTTGGGTACCACTTATTACTACGATGATAACTGGACCTTCCGTACCGGTATCGCCTTTGATGACA -GCCCAGTTCCTGCACAGAATCGTTCTATCTCCATTCCGGACCAGGACCGTTTCTGGCTGAGTGCAGGTACGACTT -ACGCATTTAATAAAGATGCTTCAGTCGACGTTGGTGTTTCTTATATGCACGGTCAGAGCGTGAAAATTAACGAAG -GCCCATACCAGTTCGAGTCTGAAGGTAAAGCCTGGCTGTTCGGTACTAACTTTAACTACGCGTTCTGATAACGCG -TTCGCCTGGATAAAGTCACCTGCATAGCAGGTGACTTTAACTCCCCCACTTCACCGAAAGTAGTGTCCTCATTGC -TTACCTCCTGAGTTTTGCAAACAGCCTGTTGGCAGCTTGCCCTTTCAAATCAATAAGCGGTATCCACAGACAAAC -CTGAAGGGAAAGGCATATTTTCAGGCGTTCTGCTCGTCCTTCTCAAAGAGTTTACTTTTCTGCATTTCCAGGATA -CTCCCCCCCCCTGGCTATTGTGCGCTCATACACTCAAATTAAAGATAGGTTCTAAATAAATGAGCGTTTTTTGAT -AGTCTATTTCATTAGGTAATATATATTTGTAACAAATCAATCAAAATGGAATAAAATCATGCTACCATCTATTTC -AATCAACAATACCAGCGCAGCTTACCCAGAATCCATCAATGAAAATAACAATGATGAAGTTAATGGATTAGTACA -AGAGTTCAAAAACCTTTTTAATGGTAAGGAAGGAATAAGCACCTGTATTAAACATCTACTTGAGCTTATAAAAAA -CGCCATACGAGTAAACGACGATCCTTATAGATTTAATATTAATAATTCCTCAGTTACTTATATTGATATTGACTC -CAATGATACAGACCATATTACTATTGGTATCGACAACCAAGAACCAATAGAATTACCTGCGAACTATAAAGACAA -AGAACTCGTCCGTACTATCATTAATGACAACATAGTTGAGAAGACTCATGATATCAATAACAAGGAAATGATCTT -CAGCGCATTAAAAGAAATATATGATGGAGATCCTGGTTTTATCTTCGATAAGATATCACACAAACTCAGACATAC -GGTAACGGAATTTGATGAGAGCGGGAAAAGCGAACCAACGGACTTATTTACCTGGTACGGTAAAGATAAAAAAGG -CGACTCTCTCGCTATTGTAATTAAAAATAAAAACGGAAATGATTACTTATCTCTCGGTTACTACGATCAGGACGA -CTACCACATTCAAAGAGGAATTCGTATTAATGGTGATAGTCTCACCCAATATTGTAGTGAAAACGCCAGGAGTGC -TTCAGCGTGGTTTGAAAGCAGTAAAGCTATCATGGCAGAATCATTTGCAACTGGTTCCGATCATCAGGTTGTAAA -CGAGCTCAACGGGGAAAGACTGAGAGAACCAAACGACGTTTTTAAACGTTATGGTCGAGCAATAAGATATGATTT -TCAAGTGGACGATGCAAAATATAAATGCGACCATCTAAAAGAAATAGTTTCTACTTTAGTCGGTAACAAAATTAA -CGTTGGCCATTCTCAAAAAATATATAAGCATTTTAAGGATCTCGAAGGTAAAATTGAAGAAAGGCTTCAAAATCG -CCAGGCTGAATATCAAAATGAAATTAATCAACCATCTGCGCCAGGTGTTAATTTTGATGATATTTAAAATTATTT -TTCCAGTTTTTTGATTTTTCAACAGCTGAATATCGGAAATAGTCAGTGACGAACATCAGTATTTTTACATAATTA -CGTCTAGGTCATTGTCGGTTTATCTCCTTTTACTTGTGGTAATTGAGGGATAACAACAAAAAAGGTGAGTTTTGC -GACTCACCTTTTTTATTTGTTTCTTATTCAGAATCAATATCTTTTAAATCATCCTGAATCGCTTGTGCGTTCGGA -TTTTCCTGCGGTTTGAGTTCGCCGCCATTAGCGATGAAATCATGACGCTGGAAGTACGCTTCGCGCACCATAATA -TAAGGATCGGACGACTGACGCAGCAGACCATCGGAATCCAGCAGCTGAGCGCGGGTTTCGATCCCTTCAAGCGTC -CATTTACCCACAGACATCGGCCAGGTCAGCCAGGAAAGAACCGGGTAAAAACCATCCGCCATATCACCACCGTCA -TCACGCAGCGTGAAGCTACCGTAGAACGGTAACTGAACGTAAGGCCCATAACCCACGCCATAATGACCAAGCGTA -CTACCGAAGCGGTGAGGTTCAGTCCGTTGCAGTTTCGGGTTCGCCATCCCTGCAACATCAATAAAACCGCCCATC -CCCAAAATGGTGTTCAGGAAAAAGCGGGTAAAGTGGACCATCCCCTGATAAGGGTCGCCCTGCAAGAAGTAGTTA -ACCATCACCGCAGGTTCTTCAAGGTTGCCAGTAAAGTTGCTCAAACCGTTACGCGCCGGTTGCGGAACATAATCA -CGCCAGGCGACAGCGACCGGTCGAACAATATACGGGTCTAATACATTGAAGTTGAAGTTGTACATGGTGCGGTTG -AACCCTTCTAACGGGTCAGAACGCCCTTGCTGATCTGTACCGGAACTCGCACACCCCACCAGAAGCGTAGTTCCC -AGAGCAAGCGCCGACAGGCGAAGCTTCATAAATGTCTCCCTGTTTTTTTATGGCTTATGCAGTTTGCCATCCATG -ACGGAACGATACCGTATCCGCCTGTTTAGGTGTGGGCGATTGTAACAGCACGTCAACTGATGTCCAGACGCCCTG -ATTTGCTGATTTGATCATAGCCTGGTAATCGCCGCCCTGTAGGCTACTTGATTCTATAGAAACAGAAAAAGGCAA -ACGCAGCCTTTTCTACATTTTCAGAGTAACTCCCGTCAGTTGCGAGCAAAAAAGCCGCTACGCTTTAGCTATACG -TGCTAATTCAAGAGAAGAGACCATGGACAACGACAAAATTGATCAACACAGCGACGAAATTGAAGTTGAGAGCGA -AGAAAAAGAGCGCGGCAAAAAAATAGAAATAGATGAAGACCGACTCCCCTCCCGGGCGATGGCAATTCATGAGCA -TATCCGCCAGGATGGTGAAAAAGAGCTGGAACGCGACGCAATGGCGCTACTGTGGTCAGCCATTGCGGCGGGTCT -GTCGATGGGCGCTTCGTTACTGGCAAAAGGGATATTTCAAGTCGAACTGGAAGGTGTGCCGGGCAGCTTCTTGCT -GGAGAATCTCGGTTATACCTTTGGTTTTATTATCGTCATTATGGCCCGCCAGCAATTATTTACCGAAAATACCGT -GACTGCGGTACTACCCGTCATGCAAAAACCGACAATGAGCAACGTCGGCTTACTTATACGGTTATGGGGCGTCGT -GCTGCTGGGTAATATTCTCGGGACAGGTATTGCGGCGTGGGCATTTGAATATATGCCTATCTTCAATGAAGAAAC -TCGCGATGCATTTGTCAAAATCGGCATGGATGTGATGAAGAACACCCCCAGCGAGATGTTTGCCAACGCGATCAT -TTCCGGCTGGCTGATCGCCACTATGGTTTGGATGTTTCCTGCAGCGGGTGCGGCAAAGATTGTGGTGATTATATT -GATGACCTGGCTTATTGCCCTGGGTGACACCACCCATATCGTGGTCGGTTCTGTTGAAATCCTCTATCTGGTGTT -TAACGGTACGCTGCACTGGAGCGATTTCATCTGGCCCTTCGCACTACCTACTTTAGCGGGGAACATCTGCGGCGG -CACCTTTATCTTCGCGTTAATGAGTCATGCACAGATTCGTAACGACATGAGCAATAAGCGTAAAGCAGAAGCACG -CCAAAAAGCAGAACGTGCGGAAAACATTAAGAAAAATTATAAAAACCCGGCATAAATGGCGAGGGTTTAAGCAAT -CGAGCGGCAGCGTACTTACCCCGCACTCCATTAGCGGGTATACTCATGCCGCATTGTCCTCTTAGTTAAATGGAT -ATAACGAGCCCCTCCTAAGGGCTAATTGCAGGTTCGATTCCTGCAGGGGACACCATTTATCAGTTCGCTCCCATC -CGTACCAGTCCGCAAAATCCCCTGAATATCAAGCATTCCGTAGATTTACAGTTCGTCATGGTTCGCTTCAGATCG -TTGACAGCCGCACTCCATGACGGGTAAAAAGTGGATAAAATAATTTTACCCACCGGATTTTTACCCATGCTCACC -GTTAAGCAGATTGAAGCAGCAAAGCCGAAAGAAAAACCATACCGCCTTCTCGATGGTAATGGCCTGTACCTTTAT -GTCCCTGTGTCAGGGAAAAAGGTATGGCAGCTTCGCTACAAGATTGACGGTAAGGAGAAAATCCTGACCGTCGGA -AAATATCCGCTTATGACTTTGCAGGAGGCAAGGGATAAAGCATGGACTGCGAGGAAAGACATCTCGGTTGGCATC -GATCCTGTAAAGGCGAAAAAGGCTTCGTCTAACAACAATTCCTTTAGTGCGATTTACAAGGAATGGTACGAGCAC -AAGAAGCAAGTATGGTCAGTAGGGTATGCAACTGAACTTGCCAAAATGTTTGACGACGACATTTTACCTATCATT -GGCGGCCTTGAAATTCAGGATATTGAGCCGATGCAACTGCTGGAAGTAATCCGCAGGTTTGAAGATCGCGGTGCA -ATGGAACGAGCCAACAAAGCACGCAGAAGATGCGGCGAGGTTTTCCGTTACGCTATTGTCACCGGAAGGGCTAAA -TATAACCCGGCACCTGACCTTGCTGACGCCATGAAGGGATACCGCAAGAAGAACTTCCCGTTTCTTCCTGCAGAC -CAGATCCCGGCATTCAACAAAGCACTGGCAACATTTTCAGGAAGTATCGTATCGCTCATTGCGACCAAAGTTTTA -CGCTACACAGCCCTAAGAACGAAAGAGCTTCGTTCCATGCTATGGAAGAACGTCGATTTTGAAAATAGGATTATC -ACCATCGACGCCAGTGTGATGAAAGGACGCAAAATTCATGTGGTTCCTATGTCAGACCAGGTAGTTGAACTTCTC -ACTACGCTAAGCTCCATCACCAAACCAGTCTCAGAGTTTGTTTTTGCCGGGCGCAACGATAAGAAGAAGCCAATC -TGCGAGAACGCGGTACTGCTTGTGATCAAACAAATCGGCTATGAGGGTCTGGAAAGCGGTCACGGATTCAGGCAT -GAATTCAGCACGATTATGAACGAGCACGAATGGCCTGCTGACGCTATTGAAGTGCAACTGGCACATGCAAACGGC -GGATCTGTGCGTGGGATTTACAACCATGCTCAGTATCTCGATAAACGCAGAGAAATGATGCAATGGTGGGCGGAC -TGGCTTGATGAGAAGGTGGAGTGAGCGACCTTAACAACTATCGAATAGCACAAAGTCTTGCAATCCAGTGCAAAG -CTTTGTGTGTATAAGTTTTGTCTCATCAACCACAGCAAGTATCGATCGATTAAGACTTGGATGATAGACTTCATT -CCTTTGATTATTAGCTGATAGAAGAAATGTTAAAGCTATTTGCAAAGTACACCTCTATTGGTGTGCTGAACACCC -TTATACACTGGGTGGTTTTTGGTGTTTGTATCTATGTCGCGCATACAAACCAAGCTCTTGCAAACTTCGCAGGTT -TCGTTGTGGCTGTGAGCTTTAGCTTCTTCGCGAATGCAAAATTCACATTCAAGGCATCGACTACAACGATGCGCT -ACATGCTATATGTTGGGTTCATGGGGACACTGAGTGCTACTGTTGGATGGGCTGCTGATAGATGCGCACTTCCCC -CGATGATAACTCTTGTCACCTTCTCCGCCATCAGCCTGGTGTGCGGTTTCGTCTATTCAAAGTTCATTGTCTTTA -GGGATGCGAAATGAAGATATCTCTTGTAGTTCCTGTCTTCAATGAAGAAGAAGCGATACCAATTTTTTATAAAAC -GGTACGTGAATTCGAAGAATTGAAGTCATATGAAGTGGAAATCGTTTTCATAAATGACGGCAGCAAAGACGCTAC -GGAGTCAATCATTAATGCTCTGGCTGTTTCAGATCCTCTAGTTGTTCCGCTGTCATTTACACGCAACTTTGGTAA -AGAACCAGCATTGTTTGCAGGGTTAGACCATGCAACCGGGGATGCGATAATCCCAATTGATGTTGACCTGCAAGA -CCCGATTGAGGTTATTCCTCATCTTATTGAAAAATGGCAAGCAGGTGCTGATATGGTTCTTGCTAAAAGATCTGA -CCGCTCAACTGATGGACGCCTGAAGCGAAAAACGGCTGAGTGGTTCTATAAGCTCCACAATAAAATAAGCAATCC -TAAAATTGAAGAGAATGTTGGTGATTTCAGGCTGATGAGCCGTGATGTTGTCGAAAATATTAAACTTATGCCAGA -ACGAAACCTTTTCATGAAAGGTATTCTGAGCTGGGTAGGAGGAAAGACAGATATTGTTGAATACGTGCGAGCGGA -AAGAATTGCTGGAGATACAAAATTTAATGGATGGAAACTTTGGAATTTAGCACTTGAGGGTATTACAAGCTTTTC -CACATTCCCTCTTCGCATCTGGACATACATAGGGTTAGTGGTAGCCAGTGTAGCATTTATTTATGGGGCGTGGAT -GATTTTAGATACTATCATATTTGGAAATGCTGTTAGGGGATATCCTTCACTACTTGTTTCAATACTGTTTTTAGG -TGGAATTCAGATGATTGGAATAGGAGTATTAGGTGAATATATTGGACGCACATACATTGAAACCAAAAAACGCCC -GAAATACATCATCAAGAGAGTCAAAAAATGAATAAAGCAATAAAAGTATCATTGTATATATCTTTTGTTTTGATT -ATTTGCGCCTTATCTAAAAACATAATGATGTTAAATACATCTGATTTCGGAAGAGCCATTAAGCCATTAATTGAA -GACATACCAGCATTTACATATGACTTACCTTTATTGTATAAATTGAAAGGTCATATTGATTCAATTGATAGCTAT -GAGTATATAAGTTCATATAGTTATATTTTGTATACATACGTCCTGTTTATTAGCATTTTTACTGAATATCTTGAT -GCTAGGGTGTTATCGTTATTTCTAAAAGTAATATATATTTATTCATTATATGCGATATTTACTTCATATATAAAA -ACAGAAAGGTATGTAACTTTATTTACATTCTTTATTTTAGCTTTTCTTATGTGTTCTTCATCAACACTGTCAATG -TTTGCATCATTCTATCAAGAGCAAATAGTTATAATTTTCCTTCCATTTTTGGTGTATTCATTAACATGCAAAAAC -AATAAATCTATGCTTTTGCTATTTTTTTCGTTGCTAATAATATCTACTGCTAAAAATCAATTTATATTAACCCCA -CTAATAGTGTATTCATATTATATTTTTTTTGATAGACACAAACTAATTATTAAATCTGTAATATGCGTGGTGTGC -TTGCTTGCGTCAATATTTGCAATATCTTATTCAAAAGGTGTTGTTGAATTAAATAAGTACCATGCAACATACTTC -GGTAGTTATCTTTATATGAAAAACAACGGGTATAAAATGCCATCGTATGTTGATGATAAGTGTGTTGGGTTAGAT -GCCTGGGGTAATAAATTCGACATATCATTTGGCGCAACCCCAACAGAAGTTGGAACGGAATGTTTCGAATCTCAT -AAAGATGAAACGTTTTCGAATGCACTCTTTTTATTGGTTAGCAAACCAAGCACCATCTTCAAACTTCCATTTGAT -GATGGTGTGATGTCTCAGTATAAAGAAAATTATTTCCATGTATATAAAAAACTACACGTAATATATGGAGAATCA -AACATACTAACGACTATTACTAACATAAAAGACAATATATTTAAAAACATTAGATTTATATCATTGTTATTATTT -TTTATTGCTTCTATTTTTATTAGAAATAATAAAATAAAGGCATCTTTATTTGTAGTATCTCTTTTTGGAATATCT -CAATTTTATGTGTCATTTTTCGGGGAAGGATATAGAGATTTAAGCAAGCATTTATTTGGAATGTATTTTTCGTTC -GACCTTTGCTTATACATAACAGTCGTTTTTTTAATTTATAAAATAATTCAAAGAAATCAAGACAATAGCGATGTA -AAGCACTAAGTTTAAATTGCGCGCCAATCATGGCGCGCACAAGCTATAATACCAACCTAATTTCTCCTCCTCTTA -GAGTGACTATATCTCCTGATAGAATTGCGGTATTGACTATCAAATGCCCTGATTCGTTGTTTATTGTAATATCTC -CTCTATCTGCAGACGATAACTTAAATGCATCATTGCCCACAACAAACCCCCTCCAGAACCAAGTGCTGATATTAT -CATCAACAGTGATAGATACATATACTAACTGATTATCGTTATAAGTGATTCCTGTCTTATACTTAACATAAGGAC -TTCCACTTTGATTCTCGATAGACACATAACATCCAGGGGTTATGTTTGTATGCGTCCCGCGACTATCGCCCCATT -AACGCCATACGATAAATGGGATGGTGAGAAATGGGTGACGGATACCGAGGCACAGCATAGCGTCGCAGTAGATGC -AGCAGAAGCACAGCGCCAGTCGCTGATTGATACTGCAATGGCTTCCATTAGTCTGATTCAACTGAAATTACAGGC -TGGGCGGAAGCTGATGCAGGCAGAGACCTCCCGACTTAACACTGTGCTGGATTACATTGACGCGGTGACGGCAAC -AGATACCAGCACCGCGCCGGATGTCATCTGGCCTGAACTGCCGGAGGAGTAGGCCATTCAATATCTGGCGCACTG -GAAGTATCGACCAGCTCCAGTGCGTCCAGATAATCCAGCCACAAATTATATTGCGCCAGTTCCTCACCTTTCAGA -CGACCAATAGCCGCTTTACCAGCCCATTGTTTACTGTTCATATAATCGTTGGCCTGATTAATCAATTGCTGCTTT -TTCAGTTCGGCTGCAGCAATCTGTTCCTCATGTGTTGGTGGTGGAATTTCAGACCATGCAGGAAAACCATTTTCT -CCAGCGATACGGATTTTTCCTTTCGGCGGTAATCCGGAAAACTCAATATACACTTGCTCATCAACTTCAACAGCA -TCATCTGGCCATGAGCCAGCTTGCGTGTAATCCTCTTTCATCTCCAAGGGATAGAAAGAGTTTGTAGTCGCGGAA -TATATGTAATTCATTTTTCACTCCATAAAGTTAAAAGAAATTAACACCCTAATGCGAAAAATGAAGCACCGATAC -CGGGTACGCCTGCTCTGGAAATAAATTTCACCGGGTCCTGGTTATAACCGGCACAAGCTATATAGCCAACATTTG -CACTGCCGGGAGTGTAATCCTGAGTCGCAAATACCCGCAGACATCTATTCGGAAATGCAATCGGAAAATAGGTTA -CTGTGTCCTGAGACGTCAGCGGAACATCAATTGGCCCCCATTGAATAATTAAACCGGATGGCAATTTTTGATATC -CAGGAACTGAAGCAGAAAGCATAAAACTACCCATATCAGGTATCTGATTCGCCCCTGTCCCTACATTTCTTTTAG -CCGCTTCTCCCAAACCAAGGTTTTCGAGAGCCTTTTGCACCGTGCCGTCCAATTTGATATCGCCAAACGGATTCT -TGCGGCTTAACAGCAGCGCACGAAGCGCGGTAAGCAGCTGGTCATGCCGCCCCTTCTCCAGGCTGGCACCGGAGG -CCTCCACAACGCTGCAAAGCTCCTCCTGCAACATGTCAAAGTAGTCATCATCCAGATCGGTGGCAGGCGTGCCGG -TCTGGGGGTTACCACGGGTACGGGGGATTACCAAAGGCAGCACCTTTAAGCTCCGCAAGACGTTCTGACCAGTCA -TGCGCCAGCGCGTTGTCTTCCGCAGTGTAATACGCGGCACATTTGGCGTTATCACCATCAGTAAACAGATCCAGA -ACAAACGGGCCAAACAGGGTGTTAATTCCCCAGAAAATGTTGTCCGGCGTGCGCCACTGATCGCCCACTTCCTTC -AGTTCATGGGCTGGTTTGTTCCGCAGCTCCACCAGCGCCTGGCAATATTTATTACTCATTAAGCCCCCACGTAAT -TCCCTGAGAGATACCACTCTTCACCTGATGCAGCCCGCTTACTGCTTTTCCGTAAACACCGTTCACGACGCGCCA -GAAAATTGTTTCGTTCTGGCTGGGAGTGGCTTTCACGGAATGCCGCCATCCACACCGTTGCAGCACGACGGTATA -AGCCCCTGGACTCCAGTTCTTCCGCCTGGCGGGTCAGGCACAAAATCACCCGCGGGTCGTTAGTGCCGACATAGA -AATTGCGCACAGGTCTGGTTTCACGAACTGGTTGTGGTTCCGGATCCTGCGCTCTCTCAGTCAGGCGCGGGAAAT -GTCTGTGTGTATCTCCTTCACAACGGTGAGCCACACGCCCACTCTGACGTAACTTGCTTGCTGACTGCAGAACGC -GCTGCCGTGAGTAACCTGCAAAAGCATCCGCAATGTCTCCGGAAGTACAGCCCGGATGGGCTTCAATGAATTTCT -GAACGTCATTCAAAAGACTCATGCTCACCCCCTGAATCCTGCCGGGATCTGGCTGTAGTCCACATTGTCGTAACT -GGCTTTGAAGTACGGGTCTTCGCGTTTTTCTGTGTACGTGCTGACGGACGGCGATAAGCGCAGGGAAAGCTCATC -CCATTTTTCCCGCAGCTTCGACGGGCTGAGCACGTTACGGCACCAGAACGGATCGCGGCTGACGCGGCTGTACAT -CTCGCAGATTTGTTTGTGAGTACGACCATCCTGCACACACATCAGGCGAATTTCGTTTGCCCAGGCTGTCCAGTT -CGGTTCTTTGGGACGAACCACCTCGCCGTCACATTCGGCGGCCTGCTCGTACAGGGCGATGATTTTTTTCCAGAG -CCACTGTGCGCAGGTCAAATCATCCTGCGTTCCCCACTGGCGCTTTTTAGGGCTGAATACAACCGCATCAGGATG -GCGAGTTAAAAAATCCTGTTCATCCGTCTGCGTGTCCGGTTGCGAAGCGTCCGGACGAGAAGGTTTTTTATCTGA -CGGATCATGTTTTGATTTTACTGACGGATCCCCGCCAGATTCTGACGGGTGAAAACCCGATTTTTTGCCAGATTT -CGACGCATCAAATTTTGACGGGTCAGATTTTGATGCGTCAGATTTTGACGGGTCAGAGTCTGACAGTTGAGAAAA -TGCCGCTGCCTGAAGCTTCGCAACGTTAAGCTGATAAACATTCGACGCATTGCGGTTATGATGAGGAGCAGCAAA -ATGGCTAGCGAACGCAGTACTGATGTGCAGGCATTTATCGGGGAGCTGGACGGCGGCGTATTTGAAACCAAAATC -GGCGCAGTTCTCAGTGAAGTCGCTTCCGGTGTGATGAACACGAAAACCAAAGGTAAGGTCTCACTCAACCTGGAA -ATCGAACCATTTGATGAGAACCGTCTGAAAATCAAACACAAACTCTCATATGTTCGCCCGACTAACCGTGGGAAA -ATTTCCGAAGAAGACACCACCGAAACGCCGATGTATGTCAATCGCGGTGGTCGCCTGACTATTCTGCAGGAAGAC -CAGGGACAATTACTGACTCTTGCCGGTGAGCCTGACGGAAAACTCCGCGCAGCAGGTCATTAATATCATTCTTAA -TTAACTAATTATTTATCTCATCACTGAATATCTTAATATAGTGAGGACTTATTATGTCTCAGAACTTAGACGCAA -CCGCAATTAATCAAATCCATGCCCTTATTTCTGCTCAGGGTGTTAATGAAATTATCAGTAAGATTGGTGCCGATG -CTGTGGCATTGCCTGAGAATTTCCGCATTCATGATCTGGAAAAATTTAATTTAAATCGCTTCCGTTTCCGTGGTG -CGCTTTCCACTGCCAGCATCGATGACTTTACCCGTTATTCTAAAGATCTTGCAGATGAAGGCACCCGCTGCTTTA -TCGATGCTGATAATATGCGTGCCGTCAGTGTGCTTAACCTGGGTACTATTGATGAACCAGGTCACGCAGATAACA -CCGCCACTCTCAAACTGAAAAAGACAGCACCGTTCTCTGCCCTGTTGTCTGTTAACGGCGAGCGTAACTCCCAGA -AATCACTGGCAGAATGGATTGAAGACTGGGCCGACTACCTTGTGGGCTTTGATGCTAATGGTGACGCCATTCAGG -CAACAAAAGCGGCTGCGGCAATCCGTAAAATCACGATTGAAGCAAACCAGACCGCTGATTTTGAAGATAATGACT -TCAGCGGCAAACGCTCCCTGATGGAATCTGTCGAAGCGAAGACCAAAGACATTATGCCAGTGGCATTTGAATTTA -AATGCGTTCCGTTTGAAGGTCTGAAAGAACGTCCGTTTAAATTACGCCTCAGCATTATCACTGGCGATCGTCCTG -TACTGGTTCTGCGCATTATTCAGCTGGAAGCGGTGCAGGAAGATATGGCTAACGAATTTCGTGATCTGCTTGTTG -AGAAATTCAAAGACAGCAAAGTAGAAACCTTTATTGGTACTTTCACCGCCTGATTTCATTACTGCAAATGCCCCT -GCGGGGGCATTTATGGAAACGTAATTAACTCAATAATCACCGGATGGTGAGGGCTTCCTTTTACCCAAACTCAGC -GCGGTGCAGCGCATATACGTGGAGAACAAAATGTCATTTATTAAAACTTTTTCCGGGAAGCATTTTTATTATGAC -AAGATAAATAAAGACGACATCGTGATTAACGATATCGCGGTTTCCCTTTCAAATATCTGCCGCTTTGCCGGTCAT -CTTTCTCACTTCTACAGTGTCGCCCAACATGCGGTGCTTTGCAGCCAGCTGGTGCCGCAGGAATTTGCTTTTGAA -GCATTAATGCATGATGCAACAGAAGCGTATTGCCAGGACATCCCCGCACCACTGAAACGCCTTCTTCCTGACTAT -AAACGGATGGAAGAAAAAATAGATGCAGTAATCCGTGAGAAATACGGGTTACCTCCTGTTATGAGCACGCCAGTG -AAATATGCCGATCTCATTATGCTGGCAACCGAACGCCGTGATCTCGGGCTTGATGATGGCTCTTTCTGGCCTGTA -CTGGAAGGCATCCCGGCAACAGAGATGTTCAACGTGATTCCACTGGCACCGGGTCATGCCTACGGGATGTTTATG -GAACGTTTTAACGATTTATCGGAGTTACGCAAATGCGCATGAATGTTTTCGAAATGGAAGGGTTTCTTCGCGGGA -AATGTGTACCGCGAGATCTGAAAGTGAACGAAACAAATGCTGAGTACCTGGTACGTAAATTCGACGCGCTTGAAG -CTAAATGTGCGGCACTGGAAAACAAAATAATACCAGTGTCAGCTGAACTGCCACCAGCAAATGAAAGTGTTCTGT -TATTTGATGCTAACGGAGAAGGCTGGCTGATTGGCTGGCGTTCTCTCTGGTACACCTGGGGACAAAAAGAAACCG -GAGAATGGCAGTGGACATTTCAGGTTGGGGACCTTGAAAACGTCAATATCACTCACTGGGCAGTAATGCCAAAAG -CACCGGAGGCTGGAGCATAATGACCACATTTACCAATAAAGAACTGATTAAAGAAATCAAAGAACGAATCAGCAG -CCTAGAGGTTCGAGACGATATTGAGCGCCGTGCTTATGAAATCGCACTCGTATCTCTGGAAGTAGAGCCAGATGA -ACGCGAAGCCTATGAATTATTCATGGAAAAGCGTTTCGGTGACTTAGTAGATCGTCGGAGAGCAAAAAACGGCGA -TAACGAATACATGGCATGGGATATGACTCTCGGTTGGATCATCTGGCAGCAACGAGCTGGTATCCATTTTTCAAC -AATGTCACAACAAGAGGTGAAATAATAGAGCCATACAGCCTCACACTCGATGAGGCCTGTCAGTTTCTTAAAATA -TCCTGATCTACCATCGCCGTCATAGAGCGTATTTTTATTACCTGATTTGCAGGTTCGATTCCCTATTCGGAGATA -GCACTCATGCAACACGAACTACAGCCTGATTCACTGGTTGATTTGAAATTCATCATGGCTGATACTGGCTTTGGT -AAAACCTTCATCTATGACCGGATTAAGTCAGGCGACCTGCCAAAAGCCAAAGTTATCCACGGGCGAGCAAGATGG -TTATATCGTGACCATTGTGAATTCAAAAATAAGCTCTTAAGCCGCGCCAATGGGTAAAATAGCGGGTAAAATATT -TCTCACATCTAAAAAACACCATTCCAATCAATCCCCTGCTGCTTCAAGTAGATGTCTGCAGGGGACACCATCCTT -GTGTTTATCCCTAAAACCACATAAAAACCGTAAATTAAATTCGAACTAGCAGGCCGAATAAGGCACACCAGGAAC -TCGTGGTTTTATTCATTATGAAGTGGTTTTTACCTGTTCTCTTAGCCAGATAATAAACGCTTCAATTTTTGGCCA -CTGCCTGCCCGGTAATGTGGTGATGTAATAATGCTGATGGCATTTCACCGTCATATCGCCAAACGGCGCGACGAG -CTCACCACTGGCAAGCCTTTTTTGTACCAGGCGTTTTCTTCCCATCGCCACCCCAATATGATTCATCGCGGCAAT -AACAGCTAAATCAGAACGATCAAAGCCAATTCCAGAAGATGTCGGCAAATTAACCGCATAATGTTGCGCCCAACT -ATGCCATTCATCCGTACCGGAGTCGTTGCTCCATGCCTGTCTGTCATGGAGCAACGTACAGTGACACAGGTTAAT -TACCGTGTTGGTTAAAGCATGTCTTTGAGCGTATTCCGGGCTACATACTGGCAGGATTTCTTCATCCATCAGAAA -GTGATGAGTGAGTTGCGCTGACGGCGCATCATCAAAGTAGATCGCCAAATCGATTCCGGCACGTTGCAGATTGAC -GTTGTCATTACCAGTGAGCACGGTGAGCGAAATAGACGGATACCGGCGTGTAAAGTCACCTAATGCGGGCACCAA -CCAGCATTGGGCGATAGAGGGCCGGGAATACAGAGTTAACGTTCCCGATAACTCCTGATTTTTGATATCAAGAAT -TTCCTGGTTCAGGGTATCCAGCGACGATTTTAGCGCCCAATAAACACGTTTCCCCTCGTGCGTTAATTCCACTTT -GCGATGGGAACGAACAAACAACTGAATGCCCAATTCTTCTTCCAGCTGATTGATACGGTGACTTACCGCACTGGG -GCTCAGCGACAATTCCTCTGCCGCCAGGGCGAAGGACTGATGCCTGGCAGCCACTTCAAAAGTATGCATTTTTGA -TAATTGCCAGCCGTTAAGCAGCCGATTTCTTATTTCACGAAGGGGTTCCATAATCACCTCATTTTTCGCTTAAGT -GTAAAAAAATAGCGGCAAAATTTCAGCTATGAGATGAGCTAAAGTGAACCATATCTCAATTCACCTTCATTTTTA -GATGTAAATCACTCCATTGATGCAATTTACCTCATGTGAAAGGCAAATTTTATCGTTTGTCAGCCTGCGTTGTTT -TTTTGTCCAATATCATCAGGTTAATCACAGGGGAAGGTGAGATATGCACTCTCAAATCTGGGTTGTGAGCACGCT -GCTTATCAGCATCGTGTTAATTGTACTGACCATCGTGAAGTTCAAATTCCACCCGTTTCTGGCGCTGTTGCTGGC -CAGCTTCTTCGTGGGAACGATGATGGGCATGGGGCCACTGGATATGGTAAATGCTATTGAAAGTGGAATTGGCGG -AACGCTGGGGTTCCTCGCAGCGGTTATCGGCCTTGGCACGATACTGGGAAAAATGATGGAAGTATCCGGGGCCGC -AGAAAGAATTGGTCTGACACTTCAACGCTGCCGCTGGCTTTCAGTTGATGTCATTATGGTGCTGGTTGGCCTGAT -TTGTGGCATCACGCTGTTTGTTGAAGTGGGCGTCGTGCTATTGATTCCTCTGGCTTTTTCAATTGCCAAAAAAAC -CAATACCTCATTATTAAAGCTTGCCATTCCGCTATGTACCGCATTGATGGCAGTGCACTGCGTGGTTCCTCCACA -TCCGGCTGCTTTATATGTTGCCAATAAGCTGGGCGCAGATATCGGTTCGGTGATCGTCTACGGTTTGCTGGTTGG -GCTGATGGCATCACTGATCGGTGGCCCACTTTTCCTTAAATTTCTGGGTCAACGACTGCCCTTTAAACCTGTACC -CACAGAGTTTGCAGATCTCAAAGTTCGCGATGAAAAAACACTACCGTCATTAGGCGCAACGTTATTCACCATACT -GCTACCCATTGCGCTGATGTTGGTTAAAACGATTGCCGAATTGAATATGGCGCGTGAGAGTGGTTTGTATATCTT -GGTTGAGTTTATTGGCAACCCTATCACTGCCATGTTTATCGCCGTGTTTGTCGCCTATTATGTGTTGGGTATACG -CCAGCATATGAGCATGGGGACGATGCTCACACATACGGAAAATGGCTTCGGTTCTATTGCTAATATTTTGCTGAT -TATCGGGGCCGGAGGCGCATTCAACGCCATTTTAAAAAGCAGCAGTCTCGCTGATACGCTGGCAGTTATTCTCTC -CAATATGCATATGCACCCGATTCTTCTGGCCTGGTTAGTGGCTCTTATTCTGCATGCGGCAGTGGGCTCCGCTAC -CGTGGCAATGATGGGGGCAACGGCAATTGTTGCACCCATGCTGCCGCTGTATCCCGACATCAGCCCGGAAATTAT -TGCGATTGCTATCGGTTCAGGTGCAATTGGCTGCACTATCGTTACGGACTCGCTTTTCTGGCTAGTGAAGCAATA -TTGCGGCGCTACGCTCAATGAAACATTTAAATACTATACGACAGCGACATTTATCGCTTCAGTCGTCGCTCTGGC -GGGCACATTCCTGCTGTCATTTATCATCTAAGCGCAAAGAGACGTACTATGGAAAACGCTAAAATGAACTCGCTC -ATCGCCCAGTATCCGTTGGTAAAGGATCTGGTTGCTCTTAAAGAAACCACCTGGTTTAATCCTGGCACGACCTCA -TTGGCTGAAGGTTTACCTTATGTTGGCCTGACCGAACAGGATGTTCAGGACGCCCATGCGCGCTTATCCCGTTTT -GCACCCTATCTGGCAAAAGCATTTCCTGAAACTGCTGCCACTGGGGGGATTATTGAATCAGAACTGGTTGCCATT -CCAGCTATGCAAAAACGGCTGGAAAAAGAATATCAGCAACCGATCAGCGGGCAACTGTTACTGAAAAAAGATAGC -CATTTGCCCATTTCCGGCTCCATAAAAGCACGCGGCGGGATTTATGAAGTCCTGGCACACGCAGAAAAACTGGCT -CTGGAAGCGGGGTTGCTGACGCTTGATGATGACTACAGCAAACTGCTTTCTCCGGAGTTTAAACAGTTCTTTAGC -CAATACAGCATTGCTGTGGGCTCAACCGGAAATCTGGGGTTATCAATCGGCATTATGAGCGCCCGCATTGGCTTT -AAGGTGACAGTTCATATGTCTGCTGATGCCCGGGCATGGAAAAAAGCGAAACTGCGCAGCCATGGCGTTACGGTC -GTGGAATATGAGCAAGATTATGGTGTTGCCGTCGAGGAAGGACGTAAAGCAGCGCAGTCTGACCCGAACTGTTTC -TTTATTGATGACGAAAATTCCCGCACGTTGTTCCTTGGGTATTCCGTCGCTGGCCAGCGTCTTAAAGCGCAATTT -GCCCAGCAAGGCCGTATCGTCGATGCTGATAACCCTCTGTTTGTCTATCTGCCGTGTGGTGTTGGCGGTGGTCCT -GGTGGCGTCGCATTCGGGCTTAAACTGGCGTTTGGCGATCATGTTCACTGCTTTTTTGCCGAACCAACGCACTCC -CCTTGTATGTTGTTAGGCGTCCATACAGGATTACACGATCAGATTTCTGTTCAGGATATTGGTATCGACAACCTT -ACCGCAGCGGATGGCCTTGCAGTTGGTCGCGCATCAGGCTTTGTCGGGCGGGCAATGGAGCGTCTGCTGGATGGC -TTCTATACCCTTAGCGATCAAACCATGTATGACATGCTTGGCTGGCTGGCGCAGGAAGAAGGTATTCGTCTTGAA -CCTTCGGCACTGGCGGGTATGGCCGGACCTCAGCGCGTGTGTGCATCAGTAAGTTACCAACAGATGCACGGTTTC -AGCGCAGAACAACTGCGTAATACCACTCATCTGGTGTGGGCGACGGGAGGTGGAATGGTGCCGGAAGAAGAGATG -AATCAATATCTGGCAAAAGGCCGTTAATAACGTTTCAACGCAGCATCGCAATCCTTTCCCTGGGTGAGCGATGCT -GCCGATGGCGCAGACTTAAGATCCCCGGTCTTACCCGCTATAACCCCCTCCTTTTATCATCACCCAACGCCTTTC -GCTGTAAACGGCGGTTTCGCAAACCAAACCAAAACCGTAAGTAAGATAAAAGCAATAGCCGCCATACGGAAAATC -TCATTTGCAGAAATAGAAAGTGACTGCTGGGTTATTTCATTATTAATTTCATTAAGAACTCCTGAAAGCGAACCA -TAATATTTATCCATAATTTGTGACGATGAATTAAACACGGGGTTAAATTGATCGATGGTTGCTGTCAACTGACTA -TGGTGTAACGATTCGCGTCGTCCCCACAGCGTCATTGTCAACGACGTACCAACTGATCCTGACAAGGTACGAAAA -AAATTACTCATACTCGAGGCATTGGCAAATTTATTATCTGGCAAGCCTGAAAACGAAATCGTTGTTAAGGGTAAA -AAGAAACAGGCAACGGCGAATCCCTGAAAAAACTGCGGCAAAATGATGCCTGTAAAATCAATCGTTGGCATAAAT -GTCACAGAACGCCAGTAATAGCAAACCGCATACATCAAAAAACTAAATGTCACTAACAACCGCATGTCTATTTTG -TTGCCATAACGTCCTATCAAAGGTGAAATTAATAGTGGCATGATGCCGATGGGCGCATAAGCAAGTCCGGCCCAT -ATCGCATTATACCCCATCGTTTCCTGGAGTAACTGCGGCATAAGGACGATCGCTCCAGAGTAAAATAAATACGCG -CATGTGATACTCACAATACCAATGGTGAAGTTACGGGACTTAAACAAACTGAGATCAAGAATCGGGTTCTCTGAG -GTCGACTCCCAAATGACTAAAGAGATCAGAGAAATAACTGATACTACTGTTAATATTATTATTGTACTCGAGTTG -AACCAATCCAGATCGCGCCCTTTATCAAGCATAATTTGCAAGCCACCAACACCGAGCACTAACAGGGTCAGTCCT -GGTAGATTCATTTTGACCGGTGAAGTCTCAGTTTCTCTTCCTTTAAGTAAGGTTAAGCATAATGTCAGGACGATA -ATCCCCATAGGGACATTGATTAAAAATATCCAACCCCAGCTAAAGTTATCACAAATATAACCGCCCAATATCGGC -CCACATATCGGAGCGATAATCACGGTCATTGACCATAATGCCAGAGCAAATGTTCTTTTTTCTGGCGGATAATTC -CTTAATAATAAACTCTGTGACAGTGGAATTAACGGCCCCGCCATTAACCCCTGAACGACTCTAAAAAATATCAGC -ACATCAAGATTGGTCGATAGGCTACACATTAATGAAGACAGCGAAAAAAAAGTGACTGAAAGTAAAAATAATCTT -AATTCGCCTATTCTTTGTGCCAACCTGCCAGTAACAGGGATCGCAATGGCATTTGCTACACCAAACGAGGTGATA -ACCCAGGTGCCTTCGTCTGTTGATGCTCCCAGAAAGCCAGATATTGTCGGTATTGCGACGTTAGAAATAGTGGAA -TCCAACATTTGCATAAATGTCGCTAATGACAATGCAATAGTGACGCACCATAACGTCCCACCGGTTAATGGTGCC -GGAGTTGATTTAGTGATTGCCATTAAAGTTGTCCATTATGCGAAATAATGTTGCTAATTTCTTTTTCTATCGGAC -TGGTATCGATAACTAAAGCCTTACTGGTATAAGCCGGCATGGAGGTCACGGTTGAAGCCAGCTCAGGCATCTCGG -CAATGTCTTCGTTCTTCGTATCAATAGTTGCTGTCATCGATAAACCAATACGCAAGGGGTGTTCCATGAGTTCTT -TTGGATCAAGAGAAACTTCAACCGGTACACGCTGAACGATTTTGATCCAGTTCCCTGTCGCATTTTGTGCAGGTA -ATAAGGAGAACGCATTGCCGGTTCCCATATTGATCCCTGTCACCCGACCATGAAACACAACATTTTCACCATAAA -GATCGCTGATAATATTGACCGATTGACCAATCCGTACATCCGTGAGTTGTGTTTCTTTAAAGTTGGCATTAACCC -ACATTTGACGTGCCGGTACGACAGCCATTAACGATTGTCCGGGGCTCACTGTTTCGCCGACCTGAACACTTCTCT -GGGCAATATAGCCGGTAACCGGACTCTTAATATCCGTACGTTTAAGCGCCAACCAGGCTTCTTTAGTTGCATCCG -CCGCTTCAACGACTTGTGGCTGACGGTTTAATGGTGTGTTCATTACTAAAGCTTTATTCGCTTTATAAGCCTGGA -TAGCGGCATTCAATGCCGCTTTGCTACTTATTAACGTATCTTTGGTATGCTCCAGCGTTTCTTTTGAAATAACCC -CCTGCTTCGCTAACGGCACTCGACGGTTATAATCTTCTAAAGATTGTTGATACTGAATACGTGCTGAAGCGACTT -CGGCACTGTATTGTTTATCCTGTAAGTATAGTTTATTCGTTTGCCGAACAATATTTGCCAGATTATTTTTAGCTT -TATTGAGTGCGATAGTGGCATCAGTTTTATCCAGTGAAACTAAAATGTCACCTTGTCGAACGTAGTTCGTATCTT -TATGATTAACGACAGTGACACTACCTGAGACTTGTGCAGAAATTGGATCTGCATTCCCCGTGACATAGGCGTCAT -CTGTACTAATCATGTCTTCTAATTCCATTGACCAATAGGCATAGGCACCTGAAAACGCAATAAATAAAACTACCG -CCAATAAAGAAAAGTATTTTCTTCTGTTAGAATGTTTTTTATTTGAATTAATCTGTTCCACTATTATCTCTCATT -TCTCATAGATGAAATTTATGAATTGAATGAAAAGAGCATTCATTCTTCATATCAAACACAGTGCATGTGTTGCAC -ATTATCCCAGGAACGTTGGAGGCCTAATTTAAATGAGGTGCAAAAAAAACAACAGAGGACTAAACCGTGGCTTTT -GCAATACAATTCTTACGCCTGTAGGATTAGTAAGAAGACTTATAGTGCCAACTTGAAACTATAAATCATCGGTAC -AATCCCTGATTTTATTGTTGACATTTCATTTATGCCGACTATTTATATGGTATACTTGTCGAATTATCTTAAAGG -AAGCTCAGATTTTCTTATTTTTATTGAGAAAATGAGATGACGCCTTATGTCTGTATTACTACAGGGAGAAGGGAG -ATGCTTCATTGCAAAGGGAATAATCTATGAACGCAATAATTATTGATGACCATCCTCTTGCTATCGCAGCAATTC -GTAATTTATTGATCAAAAACGATATTGAAATCTTAGCAGAGTTGACTGAAGGCGGAAGTGCCGTTCAGCGGGTGG -AAACACTTAAGCCTGATATCGTCATCATTGATGTCGATATCCCCGGAGTTAACGGTATCCAGGTGTTAGAAACGC -TGAGGAAGCGCCAATATAGCGGAATTATTATTATCGTCTCCGCTAAAAATGACCATTTTTACGGGAAACATTGTG -CTGATGCTGGCGCTAATGGTTTCGTGAGTAAAAAAGAAGGCATGAACAATATCATTGCGGCTATTGAAGCTGCAA -AAAATGGCTACTGCTATTTCCCCTTCTCTCTCAACCGGTTTGTTGGAAGTTTAACGTCCGACCAGCAAAAACTCG -ACTCCTTATCGAAACAAGAAATTAGTGTCATGCGGTATATTCTTGATGGCAAGGATAATAATGACATTGCTGAAA -AAATGTTCATCAGCAACAAAACTGTCAGCACTTATAAAAGTCGCCTGATGGAAAAATTAGAATGTAAATCACTGA -TGGATCTTTACACATTCGCACAACGTAACAAAATCGGCTAACCACATGAAGTTTTTACCCTATATTTTTCTTCTC -TGTTGTGGTCTTTGGTCGACCATAAGTTTCGCAGACGAAGATTACATCGAATATCGTGGCATCAGTAGTAACAAC -CGTGTCACACTTGATCCACTACGTCTGAGCAACAAGGAATTACGTTGGTTAGCGAGCAAAAAAAATCTTGTGATT -GCAGTACATAAGTCCCAAACGGCTACGTTGTTGCATACCGATTCGCAGCAACGGGTTCGTGGTATTAATGCTGAT -TATTTAAATCTTTTAAAAAGAGCGTTAAATATCAAATTAACACTCCGGGAATACGCAGATCATCAAAAAGCAATG -GACGCGCTTGCAGAAGGTGAAGTCGATATAGTGTTATCACATTTAGTTACTTCGCCGCCTCTTAATAATGACATT -GCTGCAACCAAACCATTGATAATTACCTTTCCGGCGCTGGTAACCACCCTTCACGACTCAATGCGACCGCTTACC -TCACCAAAACCAGTAAATATTGCTCGGGTAGCAAATTACCCCCCAGACGAGGTAATTCATCAATCATTTCCAAAA -GCAACAATTATCTCTTTTACAAATTTATATCAGGCATTAGCATCCGTCTCAGCTGGGCACAATGATTACTTTATT -GGTAGTAACATCATTACCAGCAGTATGATTTCCCGCTATTTCACTCACTCCTTAAATGTAGTGAAATATTATAAC -TCGCCGCGTCAATATAATTTTTTCTTGACCAGAAAAGAATCTGTCATTCTTAATGAAGTACTCAATAGATTTGTT -GATGCTTTAACAAATGAAGTTCGCTATGAAGTATCACAAAATTGGCTTGATACAGGAAACCTGGCCTTTCTGAAC -AAACCATTAGAACTCACTGAACATGAAAAACAGTGGATTAAGCAGCATCCCAATTTAAAGGTGCTGGAAAATCCT -TACTCGCCCCCCTATTCTATGACGGATGAAAATGGCTCGGTTCGGGGCGTTATGGGGGACATTCTTAATATTATT -ACCTTGCAAACAGGTTTAAATTTTTCTCCGATCACCGTTTCACACAATATCCATGCTGGAACACAGCTTAGCCCC -GGAGGATGGGATATAATACCTGGCGCTATTTATAGTGAAGATCGAGAAAATAATGTTTTATTTGCTGAAGCCTTC -ATAACAACGCCTTACGTTTTTGTCATGCAAAAAGCGCCTGACAGTGAACAAACATTAAAAAAAGGAATGAAAGTT -GCCATTCCATATTATTATGAGCTGCATTCGCAATTAAAAGAGATGTATCCGGAGGTTGAATGGATACAGGTCGAT -AATGCCAGCGCTGCATTTCACAAGGTTAAGGAAGGTGAACTTGATGCTCTGGTCGCGACACAGCTAAATTCGCGT -TACATGATCGATCATTACTATCCTAATGAACTTTATCATTTTCTTATTCCTGGCGTTCCGAATGCATCGCTTTCG -TTCGCTTTTCCTCGCGGAGAACCGGAACTTAAGGATATTATTAATAAAGCACTGAATGCAATTCCCCCAAGCGAA -GTTCTGCGCCTGACGGAAAAATGGATTAAAATGCCCAATGTGACCATTGACACATGGGACCTATATAGCGAGCAA -TTTTATATTGTTACGACATTATCCGTTTTATTAGTTGGCAGTAGCCTTTTATGGGGATTCTACCTGTTACGCTCA -GTTCGTCGTCGTAAAGTCATTCAGGGTGATTTAGAAAACCAAATATCATTCCGAAAAGCACTCTCGGATTCCTTA -CCGAATCCAACTTATGTTGTAAACTGGCAAGGTAATGTCATTAGTCATAATAGTGCTTTTGAACATTATTTCACT -GCGGATTACTACAAAAATGCAATGTTACCATTAGAAAACAGTGACTCACCCTTTAAAGATGTTTTTTCTAATGCG -CATGAAGTCACAGCAGAAACGAAAGAAAATCGAACAATATACACACAGGTATTTGAAATTGATAATGGCATCGAG -AAAAGATGCATTAATCACTGGCATACATTATGCAATCTTCCTGCAAGTGACAATGCAGTATATATTTGTGGTTGG -CAAGATATTACTGAAACGCGTGATCTAATTAATGCACTCGAGGTAGAAAAAAATAAAGCGATAAAGGCTACCGTA -GCAAAAAGTCAGTTTCTGGCAACGATGAGTCACGAAATAAGAACACCAATAAGCTCTATTATGGGCTTCCTGGAA -CTTCTGTCGGGTTCTGGTCTTAGCAAGGAGCAACGGGTGGAGGCGATTTCACTTGCCTACGCCACCGGACAATCA -CTCCTCGGCTTAATTGGTGAAATCCTTGATGTCGACAAAATTGAATCGGGTAACTATCAACTTCAACCACAATGG -GTCGATATCCCTACTTTAGTCCAGAACACTTGTCACTCTTTCGGTGCGATTGCTGCAAGCAAATCGATCGCATTA -AGTTGCAGCAGTACGTTTCCTGAACATTACCTGGTTAAGATCGACCCTCAGGCGTTTAAGCAGGTCTTATCAAAT -TTACTGAGTAATGCTCTCAAATTTACCACCGAGGGGGCAGTAAAAATTACGACCTCCCTGGGTCACATTGATGAC -AACCACGCTGTTATCAAAATGACGATTATGGATTCTGGAAGTGGATTATCGCAGGAAGAACAACAACAACTGTTT -AAACGCTACAGCCAAACAAGTGCAGGTCGTCAGCAAACAGGTTCTGGTTTAGGCTTAATGATCTGCAAAGAATTA -ATTAAAAATATGCAGGGCGATTTGTCATTAGAAAGTCATCCAGGCATAGGAACAACATTTACGATCACAATCCCG -GTAGAAATTAGCCAGCAAGTGGCGACTGTCGAGGCAAAAGCAGAACAACCCATCACACTACCTGAAAAGTTGAGC -ATATTAATCGCGGATGATCATCCGACCAACAGGCTATTACTCAAACGCCAGCTAAATCTATTAGGATATGATGTT -GATGAAGCCACTGATGGTGTGCAAGCGCTACACAAAGTCAGTATGCAACATTATGATCTGCTTATTACTGACGTT -AATATGCCGAATATGGATGGTTTTGAGTTGACTCGCAAACTCCGTGAGCAAAATTCTTCCTTACCCATCTGGGGG -CTTACAGCCAACGCACAGGCTAACGAACGTGAAAAAGGGTTAAGTTGCGGCATGAACTTATGTTTGTTCAAACCG -TTGACCCTGGATGTACTGAAAACACATTTAAGTCAGTTACACCAAGTTGCGCATATTGCACCTCAGTATCGCCAC -CTTGATATCGAAGCCCTGAAAAATAATACGGCGAACGATCTACAACTGATGCAGGAGATTCTCATGACTTTCCAG -CATGAAACGCATAAAGATCTACCCGCTGCGTTTCAAGCACTAGAAGCTGGCGATAACAGAACTTTCCATCAGTGT -ATTCATCGCATCCACGGTGCGGCTAACATCCTGAATTTGCAAAAGTTGATTAATATTAGCCATCAGTTAGAAATA -ACACCTGTTTCAGATGACAGTAAGCCTGAAATTCTTCAGTTGCTGAACTCTGTAAAAGAACACATTGCAGAGCTG -GACCAGGAGATTGCTGTTTTCTGTCAGAAAAATGACTAAATAGCGGCTCCCACAATGTTCAAATGTGGGAGCTAT -TTACCAGCACATCTTACATTTATGATGAGAACTCCTGGCGAATTTGTTCCCCATGCTGGTCGAGCGTTGCCGCTC -CCGGCATAACATGCGGGTCCGCGCAGCCGCTGATTTTTATCGGATTACCCGGCATCATTATTCCCCCGGCTTCAA -TCAACATATTTCTCGCCTGAGTTTGTGGCAATTTAATGGCCTCAGCCACACTTAATAACGGCGCGACGGGTACAC -CAACTTCATGTATTCTGGCTAACCAAACTTCAGCTGCCTGCGTTTTTAACGTCCGCTCAATATATTGTTTAAGAA -TAGCCTGGTTTTGTACGCGTAAAATATTGCTGCTAAATCGGGGATCATTAACCAGTTCCGTAAGCTCCAGTGCCT -GGCATAACGCAGAAAAAAGCTTGTCATTACCACAACAAATCGTAATCGGCTTATCCTGAGTATTGAAAACATCAA -AAGGTGCCATGTAGGGATGGCGATTTCCCAGACGTTGTGGTGACTTCCCAGTTGCGATATATGCCATCAGACCAT -GCTCCAGAAAACTCAGCGTGGCATCAAACATCGCTATATCGACATGCGCCCCTCTCTGGCTCTTTTCGCGGCCAT -AAAGTGCACTCACTATTCCGCTGAATAAATAGACACCGCCGCATAGATCCGCAAGAGATGTACCAACGCGCACTG -GCGGAGCATCAGGATATCCTGTTTCCATCATTATCCCGCTCATTGCCTGAATGATGGTATCGTAGGCAGGAGCAT -CTTTTAGCGGACCGGTATGTCCGAAACCTGACGATGAAGCATATATGAGGCGCGGGTTGATTTCTTGAAGCGTTT -CCCATGAAAACCCCAGTTTTTCCATTGTACCTGGGCGAAAATTCTCAGCTAATACATCAGCTTGTTTGAGCATAT -TTATAAATATACTTTTATCGTGATCATTCTTTAAATCAAGAACCACACTCTCTTTGCCATGATTAATAAAACTGT -AATAGAGTGACTGTCCATCCACATAGGGACCAAATGTGCGGGTATCATCACCATGACCCGGCGGCTCAACTTTAA -TTACCCTTGCGCCCATATTACAAAGAAGTTGAGTTCCGAAAGGTCCATTAAGGACATGTGTCATATCGATAACTA -ATAAGCCTTCAAACGGCCCTTTGCTTTCATTATTTGTCATTTGCTTATGCCTTGAAAAAAGCCGAAGGTGAAAAG -ACACTTCGGCATTTATGTAAAATCAATAACATGATTAATTATGAAACCAGTCGACTGACATAAATCCACAAGGGA -GCCGTGACGACAAAGCCCAGTACGCTCACAGCCAATGACGCTGTACCAGTACGGGTGTAGACATTAAACCGGCTG -GCAATAATGATTCCGGAGAATGCCGGCGGTAATGCGCCTGCCAGTACCATCATCTGCAGATGTTCGCTGTTCAAA -TGACATGCCATACCAACGAGAAGCAGTGCCAGTGGCATCAGAATCAGCTTCAGGAAGGTGTTATAAGCAATTTCG -GCACTGAACTCGAATTTATGTGCAGCCAGAGTCAACCCCGCAGCGAATACCGCTACCCCTGAGTTAGCCTTCGCA -ATCAGATTAAAGGTTGGGTCCCATGCTGCCGGAATTTTTACCCCAACCAACACCAGGATCGTTGCCAGAACAGGT -GCCCATACTACTGGCTCCTTTGCCGCAGAAATTAATGCGCTCAGATTACTATTCTTCTTACCATCCGCTCCTGAA -GAAGGATTCAGCAAATACAGACCAATAGGAATAGTAATTGCGTTAACAATAATAGAAATAATTGCTACCACTAAA -CCTGTTGATACGGAATCACCATAAATAGGATCGAGAACTGCAAACCCCAGGAATCCAATGGTAGGTGAACCTGCA -ATTAATGCACATACAGCTGCTTCTGCATGGGTACGTTTAAAAAATTTGTAGCAACCGAACCAGGAGAAAAAGAAA -CATCCGACAATAACCACAAGTGATACAAGGGTCAGACGAGTGTCCGCAAAAATCATTTCCCTGTTTGCCCGAGTA -ATAGATACAAATAGAGCCGCAGGAAGCGCGTAGTTTAATACCAGTTTATTAAATGCCCGAGCTTGATCTTCTGAA -AATGTTTCTCGTCTGCCGCTAAAATAACCCAACAGCATGATTACGATAATAGGCAATAAATCGCCAATAAAAAAT -GTTAGCATAATAGTATTTCCGATAAGGGTCCCCTCACCATCGCATAATGAGTTGGCAAGAGGAGACGATGTCAGT -ATTTAATTACCAGCGACTTGTTTTGGGTTAAGTTTGGTAATATGGCCACTTTCAGTTCCTGCTGCAGGGTCGATG -ACCACATTAATAATGGTCGGTTTGCGCGACTGAATACCGGTGGTTAAAGCATGACGAAGTTCATCTGTCGTGGTG -ACGTTATAGCCAACGCCACGAAACGCATCCATTAATTTGTCATACCTTGCATGGTGCAACAGATCCGTTGGTGAT -GGTGCACCAGCGCCACTGAGATCAACACCGTCTCCTCTGTAGATGCCGCCATTATTAAAAATAACGATCGTCACC -GGCAGGTTATATCGACAAATCGTTTCAATTTCCATCCCACTGAAACCAAAAGCACTATCACCTTCAATGGCGACA -ACCGGAGAACCAGAAGTCACGCTAGCACCGATGGCATAGCCCATACCGATGCCCATGACACCCCAGGTACCACAA -TCCAGACGACGACGTGGTTTATACATATCAATAATATTTCGTGCATTATCCAGGGTATTTGCACCTTCATTAACT -AAATAAATATCCTGGTTCTCGCGCAATACGTCGCGCACAGCACTTAATGCATTAAAGTAATTTAATGGTTGAGTA -TCTGTACTTAATTTTTCATGCATTTTTTGTGCATTTTGCTGCTTGTGGATATTTAAAATATCGCGCCATACCAGT -GGAGTCGTAAATGTGTTTTGTTTCAGTTCTGCCAGCATACCTTGCATACTGGATGCAATATCACCAACGACTGGC -ACAGCAATGGGGCGGTTGCTGTCAATTTCCTGCGGTTCAATATCCAGTTGAATAAACTGTGTATCTGCCGCCCAT -CCTTTTTTACCGTGTGCCAATAACCAATTCAGTCGTGCACCAACAAGCATGACAACGTCAGCATTTGCCAGGGCA -AACGAACGCGCAGCTGCCGCAGAAAGTGGATGCGTATCTTCAAGGATCCCTTTCGCCATAGACATTGGCAGGAAT -GGAATCTGAGCACTTTCAATAAATTCACGAAGCTGTTCATCAGCTTGTGAATACGCCGCGCCTTTGCCAAGGATA -ATTAATGGCCGTTCAGCTTTTGCTAAAAGCGAAATTGCGCTAGTGACTGACTTCGGGCATGGCAATAATGCTGGC -GACGGATTTTCAACTTTAACAATCGTGGTTAACGCTTCGTCTTTTTCCATCGTCGCGGCCAGGACATTTGCTGGC -AAATCAAGATAAACTCCGCCAGGGCGACCCGATACAGAGACCCGGATAGCGCGTGCCAATGCAATGCCAAGATCC -TGCGGCTGATTAACGCGAAATGCTGCTTTGGCATACGGTTTTGCCGCATTCATTTGGTCCAGCTCTTCATAATCA -CCTTGCTGTAGGTCGACGATCGCGCGGTCGCTGGAGCCGCTAATCATGATCATCGGAAAACCATTTACCGTTGCG -TTGGCCAATGCGGTCAAACCATTGAGGAATCCTGGCGCAGAAACTGTCAGGCAGATCCCCGGTTTTTGGGTAAGA -AAACCGCTTGCCGCAGCGGCATAGCCTGCCGACTGCTCATGACGAAAACCAATATAACGAATGCCTTCCGCCTGG -GCATGGCGTGCCATATCCGTCACAGGAATACCTACAACACCATAAATAGTGTCAATATTATTCTGTTTTAATGCT -TCAACGATGATATGCATACCATCTGTCATTTGAAGTTGATCTGACATGATTAATAACCTCGAAATTTTTATAAAT -TGGGAGCCAGAAGCCCCCGTTAATATCAGATGGCGTGGTTTTGCTTCATTGCAGCAATTTCATCGTCGCTATAAC -CCAGCTCCTGCAATACAGCAGCGGTATGTTCACCTAATAGCGGCGCAGCTTTAATATCCGGCGTAAAGGCAGAGA -ATTTCATTGGACAACCAACGGTCAGATATTTTCCACGCAACGGTTGTTCCACTTCAACAACACTGCCACTTTGGC -GCAAAGAGGGATCAAGTGAAATTTCTTTCATACTTAAAACCGGTGCACAAGGAATATCAAACTGAGTCAAATAGG -CCACCGCTTCATGTTTATCAATAGTGACAGTGTATTTTTCGATTTCAGCAAAAATATCGAAAATATGTGGCTGTC -GTGCATGGGCTGTACTGTATGCCGGATCGGTAATCCATTCTGGTTTGCCGATGGCTTTACAGGTGTTTTCCCAGT -TTTGCTCCTGAATAGTGAAATAAATATAGGCGTTAGGATCGGTTTCCCAGCCTTTACATTTCAGGATCCAGCCAG -GCTGACCGCCACCACCTGCATTACCACCGCGGGGAACTGCATCACCAAATGTACCATTCGGATACTGCGGGTATT -CTTCCAGATAACCCAATTTATCGAGACGCTGCTGGTCACGTAATTTCACGCGGCAAAGGTTCAATACGGCATCCT -GCATTGACATGGTGACTCGTTGCCCACGCCCCGTTTTTTCGCGATGCAGCAAAGCAGCAAGTAAACCGATCAGCA -AATGCATTCCGGTGTTGCTGTCACCCAACGCTGCAGCGCTTACCAGCGGCGGACCATCCCAAAAACCCGTAGTGG -ATGCCGCGCCACCCGCTGCCTGAGCAACGTTTTCATAGGCTTTTACATTCACATAAGGCGAACACTCATCAAACC -CTTTGATCGAACCAAAAATCAGACGTGGATTGATTTCTTGAATATGCTCCCAGGTGAAGCCCATGTGATCAATGG -CCCCTGGATGAAAGTTCTCGACTAAGATATCAGCTTCGCGGATCAGCTTTTCCATTACCTCTTTGCCTTCCGCTG -TTTTGGTATTTAACTCAATAGAACGTTTGTTACTGTTAAGCATGGTGAAGTAAAGCGCATCGATATCAGGAATAT -CTCGCAGCTGGTGACGCGTTACGTCACCAACGCCGGGACGTTCAATTTTAATAACGTCAGCGCCAAACCAGGCCA -GCATTTGAGTACAAGATGGGCCAGATTGCACACCGGTGAAATCGAGAACTTTAATTCCTTGAAGTGGAGTTGACA -TAGCAATACCTATTAGTTAATTAAATATGTGTTAATTTAGCGTTTATTTAAGGCGTAATATCTTCTATAAATAAC -CCGCAAAATATCGTCGTAGCTGCACTCGATATTTTTAAAATCCTGTATCAAGTGCTGAAAATCATTTCATCGCCA -CTTCCAATTCCTTTCTGCATGGTAAGTAGTGAGGACGAAAAGAAGAATATGATAAATATTGATTCGTGGTAATCA -GAGAGAGTCGCGACATTTGTGATGTTATTCTTACAACTGTAAGAAGCGCCGGTGATTTACAAGCAAGGGTATGAT -TACGCTTTTTAAAGCGTACCATAAAACATAACATAATAAATGATTTGTGATGACACGGGATTATTGCGGTTTACT -TTGAGGAATATAAAATGCGAGTTTATAGCACCGCGAGCGCCAAATAATTTTATGACCACAACCTGTCGTATTGTG -GTCATAAAAAATTGTCGGCTGGAGGGAGTTAAATCCTTTACCTCAATATACTGCCTGTCAGCATTAGTTCACAAA -CAGTGCTTCGCTATCGACGATGATTCCATCTTCCGCACCTTTAAGCGCCAGGTTTGCCTCGTAGTATTGCTTTTT -ATCAAGCAGTTTCTGCGCATCAGCAAGTGCATTACGAGTCTGTTTAAGTGGCATCAGATATTGGTTTTCCATTAC -GCCAACACCGGCCAGGCGAAGCTCTTCCATTGCGCCCTTTTTATCCCCTTTCGCCATTTTTTCATTGGCAATTTT -TATCGCGGCTTCTTTTTCGGGAGTTGCTACATAACTCTCAGAAATTCCGACAGATGCATTAATGACAATATATTG -GTCATCATTGAGATTGGTCTTTTTACCTGGCTTAGCGAACTTTGCCCATTCGGTACTGTCATCTGACAGCAAAGC -GGAAGCTTCATTGGTCAGTTCTTTTGCCTTTTCTGGATCGCCATGAAACAGAGCCAGGCGCGCTACCTGCACGTC -ACGCATCGCATATAAACCTTGTTCAGAGATACGCTCTGCTGCCGCTGCCGTTTTCTGGGTTTGCTGAACTTGCTG -AGTTTGCTGTTGTGCCGCTACCGGAGCATTATCAGCAGCCCATACAGTTGAAGATGCCAGAATTGCTGTGACCAT -CGTGGCCATAATTAAACGTTTCATACTTACCTCATTCTTTAACAGTTTTAGAAAACGCCGCCATCATATTGGGTG -AGCATGAAATGAGAAATCAGAGAGCAACGGTCATTTTGAAAGGGTTATCTTACAGTTGTAGTTATTATCGCAAGA -AGTATTTTAGTCTTACAATTGTAGGAATATGCTTCCTGTCGCAGAGAACTATTCTTATATACCACAAAGAGATGT -CATTTATTATATCGATGTAAATACTGATTAATTAAATGTAAATACAGCCATAACATCGTAGGTTCTCAGTGAACC -ATTTTCAGGATAACTTTCTATGAAAGTAAACTTAATACTTTTCAGCTTATTTTTATTGGTCTCTATTATGGCATG -CAATGTTTTTGCATTTTCCATTTCGGGTGGTGGAAGTGAGAGGAGCTATAAAGAGACTGAAAAAACATCAGCGAT -GACGACCACACACTCTACAAAACTTCAGCCATCACAGGCGATTTTGTTTAAGATGAGAGAAGATGCGCCACCATT -AAACCTCACAGAAGAAATGCCGCCCCCTTTTCCGACAAAGGCGAATTATCTTATTCATCCTGTGCGATAGCGTCT -TTCACATGGCAGGTGAACAATCATGTCTGATGCTGATGTGAACACCTGCCCAAATGAGCCATCCTGACCCACTAC -CGCCTGCCATACCCCACCATAAAGCGAATCATCAAGCCACAAGCCGGGGCAAGAAACATAAATATCCCCGTCACT -AGTTCATTACCGCCAGTTAACCACATGGTGAAGTAATAAATGAGTGCAGCGAGGATCACCATGCCGAAGAAAGAA -GAGACCGCCGATACCACGTTCAGTACCTGACCGATGTAGCCGCTTACGCAGACAATACACAGGGCGAGAAACATC -CATAAATTAATCATAGCTCAACCTCCTGCCGCGCTAAAAAACCTGTAACTTCAGTCACTTTAATAGTAAGACAAT -CCTTAACCTCTGGCAATTTTTGCTAAGCATCAATGAAAACAGCATGTTAAATGCAAGACTGTTGTGTACGGAAAA -ATATTTACTTTGCACGATTAATAATCAGTAGCTGAAAGCAGTCAGCGAGTGATAAAGTACAGATACCGCATTCAT -GCTCCTCGTGGTTATGTCCTGACTAGTCTTTACACTCTTTACAGGAACCATTGTCGTACATGATGGCCCAACCAA -TTGAGTGTACCGCTGTCGACATGGAATCTTCTGCGATACAACAATTCGTATCTACAGAAGGTAACTATGTTTCCA -CAATGCAAATTTTCCCGCGAGTTTCTACATCCTCGCTACTGGCTCACATGGTTTGGGCTTGGTGTACTCTGGCTT -TGGGTACAGCTTCCTTATCCTGTTCTCTGCTTTCTCGGCACGCGTATTGGCGCAATGGCGCGACCATTCCTGAAA -CGTCGTGAATCTATCGCCCGTAAAAACCTGGAACTTTGTTTCCCGCAGCATTCTGCGGAAGAACGCGAGAAGATG -ATTGCCGAAAACTTTCGTTCACTCGGCATGGCGCTGGTAGAAACCGGCATGGCATGGTTCTGGCCCGACAGTCGC -GTACGTAAATGGTTTGATGTTGAAGGGTTGGATAACCTTAAACGCGCACAAATGCAAAATCGCGGCGTAATGGTT -GTCGGCGTCCATTTTATGTCGCTGGAACTGGGCGGCCGCGTGATGGGACTGTGCCAACCAATGATGGCTACCTAT -CGTCCACATAATAATCAGCTGATGGAATGGGTGCAGACCCGTGGGCGCATGCGCTCTAACAAAGCGATGATCGGC -AGAAATAATCTGCGCGGCATTGTCGGTGCACTGAAGAAAGGTGAAGCGGTATGGTTTGCTCCCGATCAGGATTAT -GGTCGTAAAGGCAGCTCCTTCGCGCCGTTCTTTGCGGTGGAAAATGTCGCCACAACCAATGGCACCTATGTTCTC -TCCCGTCTCTCTGGCGCAGCCATGTTGACCGTAACGATGGTAAGAAAAGCGGATTACAGCGGATATCGTTTGTTC -ATCACCCCAGAGATGGAAGGCTACCCGACAGATGAAAATCAAGCCGCTGCCTATATGAACAAGATTATCGAGAAA -GAGATCATGCGCGCACCGGAGCAGTACCTCTGGATCCACCGTCGCTTTAAAACGCGCCCGGTGGGAGAATCGTCG -TTGTACATTTAACAAACTGCTCTTACTCTTTCCCTCCTCAAATCGGCCATAATAACCTCATGGTTTTTATGGCTT -TTTTCTTAAGGTTTTTTCCTTCGCTGAATATCTAATTATTACCGTCAGAAATTAAACTGTCGCCGATATGAGACA -CTTGTAAGTTACTAAAAGTAAATAAGAAAATGCCTCTTGTCTCGTTTCAGTTTTAGGCGTACATTAGCGCCGTCT -CGAGCAGTTTAGCTCAGAATTCTGGGGTGATGCCCACGGTAAAATACAGGGCTTTTAAGGTCGCTTTGCCCGGTG -TCAACTCACTGTATCAGGTGTAATGAAGTCATTCAGGCGTAACAGTAATTACGCGGAGAGATGTAAAGTGAAATA -TTTCTTTATGGGCATTTCTTTTATGGTCATCGTTTGGGCCGGTACTTTTGCCCTGATGATCTAAAAGCAAACTGT -GCAATGAAAAACAGGAGCCATCAGGCTCCTGTTTGCATTTCTGACGACGGTGTTTATTCCGCGTTTTCGTGAATA -TGTTTGCTGCTGGCGGGTAGTAAACCGTCGGCACGGAACATCGCTTTAATCCCTCTGATGGCCTGACGAATACGG -TCGCGGTTTTCAATCAGTGCAAAGCGAACATGCGTATCACCATAGTCGCCAAAGCCAATCCCCGGCGAGACACAA -ACCTTCGCTTCGTTAAGGAGCTTCTTGGCAAATTCCAGCGATCCCATGGCCGCATATGGTTCCGGGATTTTCGCC -CAGACATACATCGAAGCCTTCGGCATTTCAACCATCCAGCCCGCTTCATGCAGCCCTTTAACCAATACATCACGG -CGGCGTTTGTACTGTTCGGCAATGTCGCGCACGCACTGTTGATCGCCCTCCAGCGCCGCAATCGCCGCCACCTGC -AACGGCGTAAAGGTGCCGTAATCGTGATAGCTTTTAATACGAGCCAGGGCGCTGACCAGCGTTTTGTTGCCAACC -ATAAAGCCGATACGCCAGCCCGCCATGTTGTAGCTTTTCGACAGCGTAAAGAACTCGACTGCCACATCGCGTGCA -CCCGGTACCTGCATAATTGACGGCGCTTTCCAGCCATCGTAGACGATATCGGCATAGGCCAGGTCATGGACCACC -AGCACATCGTAGCGTTTCGCCAGCGCCACTACTTTTTCGAAGAACTCCAGTTCCACGCATTGCGCGGTTGGGTTT -GACGGGAAGCCGAGGATCATCATCTTCGGTTTCGGATAACTTTCACGAATGGCTCGCTCCAGTTCGTTGAAGAAA -TCGACACCTTCCACCAGCGGCACTGAGCGTACCTGCGCCCCGGCAATCACCGCGCCATAAATATGGATCGGGTAA -CTTGGATTCGGCACCAGCACCGTGTCACCATGATCCAGCGTCGCCAGCATCAGATGCGCCAGGCCCTCTTTCGAA -CCAATAGTGACGATGGCTTCTGATTCCGGGTCGATTTCAACGTCGTAGCGATCCTGATACCAGCGGGAAATGGCG -CGACGTAACCGCGGAATGCCGCGTGAAGTGGAGTAACCATGCGTGTCCGGGCGCTGGGCCACAGTACATAATTTT -TCGACGATATGCGGCGGAGTCGCACCGTCCGGGTTACCCATGCTGAAATCGATAATATCTTCGCCGCGCCGACGC -GCAGCCATTTTCAGTTCAGCGGTGATGTTAAAAACGTAGGGCGGGAGACGATCAATGCGCGTAAAGCGACGTTCA -GGGCGAGTGTCAGCCATAATTTCCTCAGATTAACGTTAGCGCCCGGACCGTCCGAGCGACGCTGCCACGATGGTG -GCTGTTTTGAAAATAGCCTGATTAATTTCTGTCTGTCCAGCGTTTTAGAACATTTTATTAATGACGTTAAATGAG -GAACTCTGCTTTAAAAACAGGAAATTTATCTGCGCTAACAAGAAAATTACCACTCATTTTATTAACATAATAATT -TCAATAAATTTACTAACCAGAAGTGCATTATCAAGAGATGCATTGCTAATACACCATTTATCTATCAATCCCCTT -TTAAAATTGTGGTTTTTCCTCAAAAACGGCCTGCTGGTCATCAGCCTTCAGGTTACCTATCATAGAGGTTTAATC -CTTATTCAGAGTCACCCGTGCACGAAATATTCAACATGCTGCTGGCGGTCTTCGATCGGGCAGCGTTAATGCTTA -TCTGCCTGTTCTTTCTCATCCGTATCCGCCTGTTTCGCGAACTGTTGCACAAGTCGGCGCACTCCCCAAAAGAAT -TGCTCGCCGTTACCGCCATTTTCTCGCTGTTCGCCCTGTTCAGCACCTGGTCCGGCGTTCCCGTAGAAGGCTCGC -TGGTGAACGTACGTATTATCGCGGTGATGTCCGGCGGGATTCTGTTTGGCCCGTGGGTAGGCATCATTACCGGCG -TGATTGCGGGTATTCACCGGTATTTAATTGATATCGGCGGCGTGACGGCGATCCCCTGCTTTATCACCAGCATTC -TGGCGGGTTGTATATCGGGCTGGATCAACCTGAAAATCCCCAAAGCACAGCGCTGGCGCGTCGGTATTCTCGGCG -GCATGTTGTGTGAGACGTTGACCATGATTCTGGTAATTGTCTGGGCACCAACTACCGCGTTGGGGATCGATATCG -TCTCTAAAATCGGCATTCCAATGATCCTCGGTAGCGTCTGTATCGGCTTTATTGTGCTTCTGGTGCAAAGCGTTG -AGGGCGAAAAAGAGGCCAGCGCCGCGCGGCAGGCCAAGCTGGCGCTGGATATCGCCAACAAAACGCTACCGCTGT -TTCGCCATGTCAATAGCGAGTCATTACGCAAGGTCTGCGAAATTATCCGCGATGACATTCACGCCGATGCGGTGG -CGATTACTAATACCGATCATGTGCTGGCCTATGTTGGCGTGGGTGAACATAACTATCAGAATGGCGATGACTTCA -TTAGCCCGACTACCCGTCAGGCGATGAATTACGGAAAAATCATCATTAAAAACAATGATGAAGCCCACCGCACAC -CAGAGATTCATTCCATGCTGGTGATCCCATTGTGGGAGAAAGGGGTCGTGACCGGAACGCTGAAAATTTACTACT -GCCACGCGCATCAGATCACCTCGTCATTACAGGAAATGGCGGTCGGTCTGTCGCAAATCATCTCCACGCAACTGG -AGGTTTCACGCGCCGAGCAGCTACGTGAAATGGCAAATAAGGCAGAGCTTCGCGCCCTGCAAAGCAAAATTAATC -CCCATTTTCTGTTTAACGCTCTGAACGCTATTTCATCGTCAATCCGTCTGAATCCGGATACCGCTCGCCAGTTGA -TCTTTAATCTGTCGCGTTATCTGCGCTATAACATTGAATTAAAAGACGATGAGCAAATCGATATCAAAAAAGAGC -TGTATCAAATTAAAGACTATATTGCCATTGAGCAGGCCCGCTTTGGTGACAAGCTGACGGTTATCTATGATATTG -ATGAAGAGGTGAATTGCTGCATTCCCAGCCTGCTGATCCAGCCGTTGGTGGAGAACGCCATTGTCCACGGTATTC -AGCCTTGCAAAGGTAAAGGCGTTGTCACCATCAGCGTTGCAGAGTGCGGAAATCGGGTACGCATTGCGGTGCGAG -ATACCGGGCACGGCATCGATCCAAAGGTGATTGAGCGGGTCGAAGCGAATGAAATGCCGGGCAATAAAATTGGCC -TGCTGAATGTCCATCATCGCGTGAAGTTATTGTATGGCGAGGGGCTGCATATCCGCCGCCTGGAGCCGGGGACGG -AAATTGCGTTTTACATTCCTAACCAACGCACCCCAGTCGCCTCACAGGCTACGTTATTGCTTTGAGCCGGAGTGA -TATTGTGAAAGTCATCATTGTTGAAGACGAATTCCTGGCACAACAGGAACTGAGCTGGCTAATTAAAGAGCACAG -CCAGATGGAGATTGTCGGCACCTTTGACGACGGTCTGGACGTGTTGAAGTTTTTGCAGCATAACCGCGTCGACGC -CATTTTTCTGGATATCAATATTCCGTCGCTGGATGGCGTGTTGCTGGCGCAAAACATCAGCCAGTTCGCCCATAA -ACCGTTTATTGTGTTCATCACCGCGTGGAAAGAACATGCGGTAGAAGCGTTTGAACTGGAGGCGTTTGACTACAT -TCTCAAACCGTATCAGGAGTCACGTATTACCGGGATGCTGCAAAAACTGGAAGCGGCCTGGCAACAACAGCAGAC -CAGCAGTACGCCTGCCGCGACGGTAACGCGTGAGAATGACACCATTAATCTGGTGAAAGATGAGCGAATAATCGT -CACGCCAATTAACGATATCTATTACGCCGAAGCGCACGAGAAAATGACCTTTGTCTATACGCGGCGTGAATCCTA -CGTAATGCCGATGAACATTACCGAATTTTGCAGCAAACTGCCGCCGTCGCATTTTTTCCGCTGCCATCGCTCATT -TTGTGTCAATCTGAACAAAATACGCGAAATCGAACCGTGGTTTAATAACACCTACATTCTGCGACTGAAAGATCT -GGATTTTGAAGTGCCGGTCAGCCGCAGCAAAGTGAAAGAATTTCGCCAGTTAATGCATCTTTAATCGGGAACTTT -CATGAAAGCACCAGGCTTGCCCGCCGATCAACAATTTTTCGCCGATCTGTTCAGCGGCCTGGTGCTTAACCCGCA -ACTACTGGGGCGCGTCTGGTTTGCCAGCCAGCCTGCCTCGTTGCCGGTGGGCAGTTTATGTATTGATTTTCCCCG -TCTGGATATCGTGCTGCGCGGCGAATACGGCAATCTGCTGGAAGCAAAGCAGCAACGTTTGGTGGAAGGAGAAAT -GCTGTTTATTCCGGCGCGCGCGGCTAATTTACCGGTCAACAACAAACCGGTGATGCTGTTAAGCCTGGTGTTCGC -TCCGACCTGGCTTGGGTTATCGTTTTACGATAGCCGCACCACGTCGTTGTTGCATCCTGCTCGCCAGATCCAGCT -TCCCAGCCTGCAACGCGGTGAAGGTGAAGCGATGCTTACCGCCCTCACCCATCTTAGCCGTTCGCCGCTGGAGCA -AAATATCATTCAGCCGCTGGTGTTAAGTTTGCTGCATCTTTGCCGTAGCGTGGTGAATATGCCGCCGGGCAATTC -GCAGCCGCGCGGCGATTTTCTCTATCACAGCATTTGTAACTGGGTTCAGGATAATTATGCCCAGCCGCTCACCCG -CGAGAGCGTGGCGCAGTTTTTTAATATCACGCCCAATCATCTGTCAAAACTGTTTGCTCAGCATGGAACGATGCG -TTTTATCGAGTATGTGCGTTGGGTGCGAATGGCGAAGGCGAGGATGATTTTGCAGAAATATCATCTGTCAATTCA -TGAAGTGGCACAGCGTTGCGGTTTTCCGGATAGCGACTATTTTTGTCGCGTTTTCCGGCGTCAGTTTGGTCTGAC -GCCGGGAGAGTACAGCGCCCGTTTTCAGGGCTAACGTCAGAAGGTTAATTCTGTTTCCAGCAGCGTCAGGATACT -TTGTGCATCTTGCGCGGCAAACAACGACTGGCGGAAGTTTTTATTCACCAGTTTACGCGCCAGCTGCGAGAAGAC -TTTCACATGATTCATCCCTTCGTTAGCACCCAGCGTCAGCATGATCACCAGTTCGACTTCGCCCATTTCTGACTG -CCAGCCAATCGGTTTCGCCAGCCGGGCAATGCTGATACTGGAATGACGGATCCACTGAGATTTGGTGTGCGGGAT -CGCTACGCCAAAACCAACGCCGGTGGTAACAATCTCTTCCCGCTGCCAGACATCTTCTTCCAGCTCAAACGGATG -TTCAGTGCGCCCGTTAACGCCGAGGTTGCCGCACAGGAACTGGATCGCCTGCTCTTTATTGCTAAAATCCTGATC -AACAAAGATATTCTCCAGCGCCAGCAGTGGGCGAACGTCTTCTTCCGGCGTAAAGGCGGTGAGTAACGCTTCAAT -TTCCTGCGCACTGCGGCATTCACATGCCTGACGCGCCAGTTCCCGACACGCCTCGCTATCCAGTTGACGAAGCTG -GCTTTTCACCGCCGGAATACGCGGGCTACTCATACTCAGCTCATCCAGGCCCAGCCCAAGCAGTAGCGGCAGATA -ACGGCTTTCACCGCCCAGTTCACCGCAAATGCCTACCCATTTGCCCCGCTGATGCGCAGTGGTAACTATTTGCTG -CAACATGCGCAGGAACGATGGCGTAATCGGGTTATATAGCGGCGATACGCGCGGGTTATTACGATCGACCGCATA -CAGATACTGGGTCATATCGTTGGAGCCGATACTGAAGAAATCGACCTCATCGCAGAAGTGGTCGATGATGTAGCA -CACCGACGGAACTTCCACCATGATCCCAAGCGTAATCGTCTCTGCATGACGCAGGCCATCGCGCTTAAGCTCAAC -GATCGCTTTTTGGATCTCGCCTTTCACCCATAAGATCTGATCGAGGCTGTGAACCATCGGGATCATCAACTGGGC -GTTGCCGAAACTGGCGGCGCGCAAAATGGCCCGCAGTTGAGTGCGGAACAGGCCAGCAAATTCCGGGTAAATACG -TACCGCGCGATAGCCGAGGAACGGGTTCTCTTCCTGGGGAATATTCAGATAAGGAATGCTTTTATCGCCGCCGAT -GTCCATCGTGCGGAAGATAATCGGCTTGTCGCCCGCCGCCAGTAGCACCTGCTGGTAGGCTTCAAATTGCTCCTG -CTCGTCCGGCGCGCTGTCGCGATCCATATAGAGCATTTCGGTACGGAACAGCCCGACACCTTCCGCGCCGTTGGC -AAACGCGCCTGGCGCTTCCAGAGCGGTGCCGATATTCGCCGCAATATCAATACGCTTGTTATCACGGGAATAGGC -CAGCTGCGCGGCAGCCTGCGCCTGTTGTTTTTGGCGTTTATCCGCCAGCGTCTGCGCGACCTGATAATAACCGCT -CACCGCGTCATTCGGGTTAATCGCCAGCACGCCGCACTGGGCGTCAAGCACTGCAGGTTGCCCGGCATAACGGGC -AATCGCATCCAGCGGCAAGCCACTCAGTACCGGGATCGCCGAGGCACGGGCCAGAATCAGTGTATGCGAGGTGCG -CCCGGTTTTCTCCAGAATCATGCCCGCAAGATTTTTCAAATCAAGGCTCAAAAACTGGCTTGGGGTTAAATCTTC -AGCCACCAGAATGGTCGGTTTTTCAAGCACCAGCTTGTTGCGCGGCTTCAGTTCCGGCCAGGTGATATGCAGCAA -CTGTTCGCTGATATCGCGAATGTCGCTAACACGTTCGCGCAGATAATCGCTGGCAGAGGCAGAAAGTTTGGCGCA -AACCTGCTCCATATTGCTGATGATCGCCGCCCCCAGCCCCTGATGCTGTTCTGTCATCAGGCGACGGATATTGCC -TGCAAATTCATCATCCTGAATCAGCGACAAATGGGCGCTGAGGATAGTTTTGCTTTCGCCGTCACGCTCACGCAA -TTGCTGGTTCAGTTGCTCGGCAAGCGTTGCCAGGCTGTGCTCCAGCCGGGTGGAATCTTGCGCACTGGCGGGGAT -TGCCCGATAACTGTCGAGGCTGTCGCTTTGTAACAGGGTCAGCGTACCCACGCCGACGCCGCTTGCCAGCACATT -GCCGTACAGTAAATCCGGGTTAAGGCGGCTTAATGAACGCGGCAGCGGATGCGCCGTCAGTTCTGCCTGCGTAGG -CTGAACGCTGTCGCTGTCGATAAAGCGCACCTGGATGTACTCTTCCAGCACGCGCCGCGCCTGCTCTTCATCGCT -GCCGCTAATGTTCAGGCTGCAACTGTCATTAAATAGGGTGCCGGTGCCAATCAGCGCCAGCGAGCTTTTCGCATC -TGCCTTTGCGTTCTGGCGATGGTTAATAAAAGTGATTTCGCTTTGCCACTGGCTGCACTGTTCTTTAAGTTCCCA -CGCCGGACGAGCATGTAGACCGTTAGGCAAAGGACAGAGAAATTGAATCGTTAACATAACCGCTCCGGGTTAATC -AGGAGATCATCTGAAATCCGTCAGTTGAACAACCGTCTCACGCGTAAGACGTTGAATAAGGGCAGATAAAAGTTG -CTGCATCTGCAAAATGTCGCGGCAATCGGCAATCGATGCGGCGCAATGTCCATGGCGGGTTGCTGGCCCCATCAC -CACTGTGGGCACGCCGGTGCCGGTTAAGTGCACCGCCCCGCCGTCCGTGCCGCCGTTGCTGAACATATCTGCCTG -CAACGGCACGCCAATTTCTGCCGCCACGGTTTCGACCCAGGCGGTAAGTTTTGGCGGCGCAATCAGCGACTTGTC -GCTTAACACCAGCATCGGCCCGTTACCAATCTGGCGATGGTTAGCCGCGCCATAATCAAAGTTTTTCGCCCAGCA -GGCGGTATCAAGCACAATGGCGACGTCCGGCGACACCGCGCGGGTGGCAGTTTGCCCGCCGCGTAATCCCACCTC -TTCGCTGGAACTTGCCACCAGCCACACTTCCGCAGGTAGTTCGGCGTCGTGCAGTTCGCGCAGTAACGTCACCAG -CAGATAGCAACCGAGGCGGTCATCAAAGGCTTTCCCCATCACTCGCTGGTGAGGGAGAACCTGAAAAGTGGTATC -AAACGTGACGCGATCGCCGGGACGAATTCCCGCCTGCATCACTTCGTCATAGGAGCGCGCACCAATGTCCACGCG -CATGGCGCTGACGTCATTCCCCTGCCGGTCGCCGTCAAGCAGGCCTGGAATTTTGCACTCTTCACGGGTGGTGAT -GCGCACCGGCTGCAGCTGGCGGGCAGCCATGCGTACGTTGCCAACCGGCAGCACATCAATCGCCCCTTCGCGGGA -GATGCTGCGCACCATAAATCCCACTTCGTCCATATGCGCACAGATCATCACCTTCGGACCTGTCGATTCATTCAG -GCGGATCAGCACCGATCCCAGACCATCAAATCGCACTTCTTTTTGCAGGCGATCCGCTTCTTCCAGCAGGATCTG -CCGCACTTCCTGTTCCGAGGAGGCGATCGCATCTGCCTCGCTCAACGCTTTTAATAGCGATAAATCCATTATGCC -TCTCCCGTGAGCAACACTGTTTTCGGCATGGCGTAGAGCACTTCTGCGCCTTGCGGGGTAACCAGCACAACATCT -TCGATGCGCACGCCCCCTTGCCCTGGCAAATAAATCCCCGGCTCCACGGTCAGTAACATGCCTGGCTGTAGCGTC -GTGGTGTCCCGCGGTGAAAAACGCGGATCTTCATGAACTTCAATGCCGATAGCGTGACCGGTGTTATGACCGAAA -TAGTCGCCATAACCTGCTTCTGTAATGACCCGGCGCGCGGCATCGTCAACCTGCTGGCAGCGCACGCCGGGGCGA -ATCGCGGAGATTGCTGCGAGCTGTGCCTGCAGGACAATTTGATAGACGTTAAACAGCAGGTGAGATTCGGCGCTC -ACCCCTTCGCCATTCACCAGCAAGGTGCGCGTCATATCAGAGCAGTAGCCCTGATACAGCGCACCGAAATCGAGA -GTGACAAACTCGCCCGCTGCAACAATCTTGTCGCTGGCTTTGCCGTGCGGCAGCGCCCCACGCCAGCCACTGGCG -ACAATGGTGTCAAAAGAGGCTTTTTCTGCGCCCTGCTGGCGCATAAACCACTCCAGTTCAGCGGCTATCTCGCGC -TCGCTCATCCCCGCCTGAATAAAGCGGCGAATATGCTCTGCACCGCGATCAGCAATCCCACAGGCGAGGCGGATT -TTCTCCACCTCCTCTGGCGTTTTGATTTGCCGCAGCACATCCGGCGTGGCGCTAACCAGTTTCGCATTGAGTTCA -GACTGCCAGCGGTGCGCGGTTTCCCAACTCACCTGCTGGCCCTCAAAACCGAGCGTTTGCAACTGTTCATCGGCA -ATGATTTGATTGACGATAGTGGTAAGCGTGTTCGTCGCGTCAAGCAAATGCAGCTGGTAGCCTTGCGCACGGGCT -TCCACCTCAACGTAATAGCGCGAATCCACCAGAATGTGCGCACTTTCACGGCTAATCACCACATAACCTGATCCG -GTGGAGATCCCCAGATGCGGCTGTTTGTTCTGCCGTGAGGAGAGAAGCACTGCATCCAGTTGTTGCGCCTTAAGC -CAGTCGCGCAGCGAAGCGAGTAATGTCATCTGGATTTTCCTTCTTACAGGCTATCGATTAACAATTTGCCTTTAC -GGAACATCATCAGACGCAGGAACACCACCATCAGCGCAGTTATGACTGCCCCCAGCGCGATCCCCGCCATATAGA -CGCCCAGGTTAGTGACCAGCGGCCATGCCCAGATAGCGGACTCCGGGAACCATTGCACTGCGCCCAGCCAGACAG -CGGCGGTTGAGCCGACAATAGCGCCGACCATATACGACGGAATGGCGGTGATGGGGCTTTCCAGCGCAAACGGAA -TCGCACCCTCACTGATCCCCATAAACGCCAGGAACATGGCGGTCTTACCCTGCGGATAAAGTTGAGCGTTGAACA -GGCGTTTGCCGGTTAAACGACGGTCGATAATGGTCGCCAGCCCCAGACCAATCGGCGGAATAACGATAGCGATAG -AACGAGCGGTGACCGGTAATACGTGGTCAGTGGTAAAGCTGAAGGCAACAAAACCTGCGGCTTTGTTGATCGGGC -CACCAAGGTCGATTGCTGTCGCCGCGGCGATCCCCATTGCGTACATCAGCGCGCCCTTCTCACCTGCGGCAGTCA -GCACAGTACGGATACCGCCGTTGATCCAGCCACCAAAGGGGGTGATGACGTAGTACATCGCCAGCATGACAAAAA -TGGCGGAAAGAATCGGGAGCAAAAATGTGGTTTTGAACGCTAACAGGAAATCCGGTAACTGGATTTTCTGGTTCA -TCCACTTCACAAGGTAACCGGCAACGATAGAAATAATCAGCGCACCAATGAAGGTGGACGGCACCGGCGAAGAGG -TCGCCCATTGCATAGTGCTGGGATCGAAGTTCAGCAGTTGCGTCGGCTGGGTAGACATCAACCCGCCGATAAAAC -CAGCCGGGAACGCCAGTTTGCCACCGATAGAGTTCGCCACAAAAGCAGCAAACATCGGAATGGCAAAACCAAACA -ACACGCCGCCGAAGGACTGCGACAGCCAGGCAAATTTAAGTAAGGAGAGGTCGAAACCGGAGAATTTCCCGCTAT -TAAGAGCATCCATGATGCCGATCTCAGCAGGAATTTTAAGCCAGCTATAAGCAATCAGCTGGCTGAAAGCGAGGA -TCACACCGCCCATAATTAAGGTCGGCACCATGCGTGAAATCCCTGACATCACATGCTGCGGGAGTTCACCCCAGA -AGCTGGTTTTAGAGGCCTGCGGATTCTTAACTGCCGCTGCCGCACCGGATGCGCCAGGCACAACGGTTGCACTGC -GTTTTTTAATGGCCATAACAATTATCCCTGTCGAATATTACTGTTGTTCAGAGGCAATCATCTCTTCGATTTCTT -TGATGATGCCCGCAGCGTTTTTAATTGCGTCCTGCAAAGTGATTTCATAAACGTCGCGTGATTCGAAACGTTCGT -TATCTTCCGGGGTAACTGCCACGGAGTGGATGATGATGGTCGCTTCGGCGATATCCTGCGCCGTCAGGCGATTCT -GGATACCGTCCGCGCCCTGGGTTTCAATTTTCACTTCATAACCGGCTTCTACCGCCGCTTCTTCCAGCGCCTGAG -CGGCCATAAAGGTGTGAGCCAGGCCCATCGGGCAGGCACATAAGGCAATCAGTTTCTTACTCATCGTTAATTCCT -CGTTCAGTGATAGTTGACGAGTGAAATTATGAACGTGCAAAACAAATCGCCGTTACCAGACAAATAATGCATTTA -CTGGAGAATTAATCCCGCTGTACGGAAGTGTGACGCAGGTCGACCTTGTGAGGGGACACAAAGAAAAATTGAATA -AACTGTATGATTTAAAAGATTATCGGGAGAGTTACCTCCCGATATAAAAGGAAGGATTTACAGAATGTGACCTAA -GGTCTGGCGTAAATGTGCACCGGAACCGAGAAGGCCCGGATTGTCATGGACGATGAGATACACCGGAATATCATG -GACATATTCTTTAAAGCGCCCTTTATCTTCAAATGCGGCACGGAAACCGGAGGCTTTGAAGAACTCAAGGAAGCG -CGGCACGATACCGCCCGCAATAAACACGCCGCCAAATGTCCCGAGATTGAGCGCCAGATTGCCGCCAAAACGGCC -CATAATGACGCAAAACAGCGACAATGCGCGGCGGCAATCGGTGCAGCTGTCAGCCAGCGCGCGTTCGGTAATATC -TTTTGGCTTGAGATTTTCTGGCAGGCGGTTGTCAGCTTTCACAATTGCGCGATACAAATTCACCAGCCCAGGGCC -AGAAAGCACGCGCTCCGCCGAAACATGACCAATTTCCGCACGCAATATTTCGAGGATAATGGCCTCTTCTTCACT -ATTCGGCGCAAAATCAACGTGACCGCCTTCGCCTGGCAAGCTTACCCAACGCTTATCGACATGGACCAGATGCGC -AACCCCAAGCCCCGTTCCGGCACCGTAAACCGCAATAGGCTTACCTTCGACCGGTTCTGCGCCACCAAACTGAAT -CAGATGCTCTTTTTTCAGCATCGGGATCGCCATCGATACAGCGGTAAAATCGTTAATAATTTCCAGATGGCTAAA -ACCGAGATTCTTTTTCATTTCGGCAATTGAGAACGCCCAGGTATGGTTGGTCATCGCCACCCAGTCACCGGTAAT -TGGGCAAGCGATGGCAATACAGCCGTCTTTCACCTCGACCTTATGTTCTTCAAGATAAACGCGAATGACCGCTTC -GAGGCTGGGGTAATCAAGCCCTGAATAGGTCTTAGCCTGCGAGATTTCACCACTGGCAATATCACACAGAGCAAG -ACGTGCGTTGGTGCCGCCCACATCACCGACTAATGCATACTTTGTCATTCTTCAACTGCTCCGCTAAAGTCAAAA -TAATTCTTTCTCACACTGTAAATACCTGGGGGCATAACAACAACGCCGGAAAGGCAGGCTCCCTGTAAATATCGA -TCTGGGTCACACAATTACTTTATCGTTTCAGCACCAATTGCAGCGATGCCTTTTTGCAAGCTGGGCAAACTAAGT -ATCTGACCCCGCATAAGGAATAGAACATGCTCCATCCGCGAGCCAGAACCATGTTGTTATTATCGCTCCCCGCCG -TGGCAATTGGGATTGCGTCCAGTCTTATTCTGATTGTGGTGATGAAAATCGCCTCGGTATTACAGAATTTGCTCT -GGCAACGACTGCCGGGAACTCTGGGGATAGCCCAGGATTCACCCCTCTGGATCATCGGTGTATTAACGCTAACGG -GTATTGCGGTGGGGTTGGTTATCCGTTTCAGCCAGGGTCATGCCGGACCAGACCCCGCCTGTGAACCGCTGATCG -GCGCACCGGTTCCGCCCTCTGCGCTACCTGGACTTATCGTAGCATTAATTCTCGGTCTTGCTGGCGGCGTCAGCC -TGGGGCCGGAACATCCGATCATGACCGTCAATATCGCCCTTGCGGTTGCCATTGGCGCTCGTCTGTTACCGCGCG -TCAACCGAATGGAGTGGACTATTTTAGCCTCTGCCGGAACCATCGGCGCACTGTTTGGCACTCCTGTTGCGGCGG -CGTTGATATTTTCGCAAACCTTAAATGGCAGTAGTGAAGTTCCGCTATGGGATCGTCTCTTTGCGCCGTTAATGG -CGGCAGCAGCTGGTGCACTTACTACCGGATTATTTTTCCATCCTCATTTTTCACTGCCCATTGCTCATTACGGAC -AGATGGAAATGACCGATATTCTCAGCGGTGCAATTGTCGCGGCGATTGCCATCGCAGCAGGGATGGTCGCCGTAT -GGTGCTTACCACGGTTGCACGCGATGATGCATCAAATGAAAAATCCGGTGCTCGTGCTGGGTATTGGCGGATTTA -TTCTCGGTATTCTGGGGGTTATTGGTGGACCAGTTTCGCTGTTTAAAGGGCTGGATGAGATGCAGCAGATGGTGG -CAAATCAGGCTTTCAGCACCAGCGATTACTTTTTGCTGGCGGTAATTAAACTTGCCGCCCTGGTCGTTGCTGCCG -CCAGTGGCTTTCGCGGTGGGCGAATCTTCCCGGCAGTGTTTGTCGGCGTGGCATTAGGGTTGATGCTGCATGAGC -ACGTTCCCGCCGTACCAGCGGCAATAACCGTTTCTTGCGCTATTCTCGGCATCGTGCTGGTGGTAACACGCGATG -GCTGGTTAAGTCTTTTTATGGCGGCAGTCGTTGTACCCAATACCACATTGCTACCGCTGCTCTGTATCGTCATGC -TTCCGGCATGGCTGTTATTAGCAGGTAAGCCGATGATGATGGTCAATCGTCCGAAGCAACAGCCACCCCACGATA -ACGTTTAGCAAAAAATGCTCTCCTTTATGATTTAAGAGTTATGGCGATGATACGGGGCTTTACCTCCCCGTAATA -TTGCGTTAACAGGCCGCTGACGGCTTCGAGCGTGAAGGAGAATAACAATGTTCAGGTCACTGTTTCTGGCGGCCG -CCCTGATGGCATTTACCCCGCTTGCAGCAAACGCAGGTGAAATCACCCTACTGCCATCAATCAAATTACAAATTG -GCGATCGCGATCATTACGGTAATTACTGGGACGGTGGTCACTGGCGCGACCGTGACTACTGGCATCGCAATTATG -AGTGGCGCAAAAACCGTTGGTGGCGTCATGATAATGGCTACCACCGTGGCTGGGATAAGCGTAAAGCGTATGAGC -GTGGCTATCGTGAAGGCTGGCGCGATCGTGACGATCATCGCGGAAAAGGCCGGGGTCATGGGCACCGCCATTAAA -CGCGTCCGCCAATGGAGCACAATGCCTGATGCGACGCTAGTGCGTCTTATCAGGCCTACAAACCGGCTCTTTAAC -GCGTAGGGCGGATAAGGCGTTTACGCCGCATCCGCCAATAGTGCCAGATGCGACGCTCATTCAACTACAATCCCA -GCGCCGTCCCCACCAACAACCAGATATTCAGCGCCACGACCAGCACCACAATCACCCAGCCTGTCTGTTTTACGC -GTTTGCTGTTCACCAGATCGCCCATCAACTTGCTGTCACTGGTGAAAATCAGCAGTGGAACCAGCGCCAGAGCGA -TACCAAAACTTAACAGTACCTGACTCATAACCAGAATCCGTGTCGGATCTAATCCCATCAGAATGACAATAAATG -ACGGCAACATGGTGACTGTACGACGCACCCACAGCGGGATATGAAAGCGAATGAAGCCCTGCATCACCACCTGCC -CCGCCAGTGTCCCCACCACCGTTGAAGACAGCCCCGCAGCAACCAGGCTTAATCCAAAGACCGTTGCCGCAGCGT -GGCTTAACAGCGGTTGCAGCGTCAGATAAGCCTCATCAAGATCGGCAACACCAGTATGACCGGAAAAGTGGAACG -CCGCCGCAGCTGTAGCCATCATCGCCAGATTGACAAAACCGGCAATAGTCATGGCGATAGCCACATCCCATTTGG -TGGCGGAATAACGTTGTTGACGCGAACCGCCATGTAAATGCTGAGTGAGCGAGGAGTGCAAATAAATCACATGCG -GCATAATCGTCGCCCCTAACACGCCTGCTGCCAGGAAGACCGCTTCCGAAGTAGGTAAACTCGGGATCACCATTC -CTTTACCCAGCTGCGCCAGGTTAGGCTGGGAGAAAATCAACTCGACAATGTAAGCCGCGGCAACAAACAACAGTA -ACCCGCCAATCACTTTCTCCAGCGGTTTTTGCCCGCGACGTTGCAGCATTAAAATCAGGAAAGTCGCGATCCCCG -TCAGCACCGCGCCCTGCAACAACGAAACACCAAGAATGAGTTTAAAACCGATCGCCGCACCAATAAATTCCGCCA -GGTCGGTTGCCATCGCAATAATTTCTGCCTGAACCCAATAGAACCACACTACGGGACGCGGATAGTGATCGCGAA -TCTGCTCCGCCAGATTTTTACCGGTGGCAATCCCTAGTTTGGCAGAGAGGATCTGAATCAGCATCGCCATCAGGT -TGGCCCAAACGACAACCCACAGTAGCTGATAGCCGAAGCTAGCACCCGCCTGAATATTGGTCGCAAAGTTACCGG -GATCGATATAACCAATCGCCGCAATGAACGCAGGTCCCATTAATGCGAGCCTCATCTTGCGCGCCGCCCGTCCGC -TGCTACTCTCAACGCGATAGTTCGTCATCTTGTGCCTCTAAAACATAGCCTTTGCTATGTTTCATGCTATGCCAA -ACGAGAATGATTATCAAATTCATTTAAATGGATTGTGGTGATTTCTCTGATAGACCAGGATTATGACTACGAAAA -GATTGATGACTTGAATGTTATGGTTATGTTTAATGTTAGCACATTTACATAACTTTCAGCTTCCATACACAACAT -AGCAGAAATGTATGACAGATCACTATTTTTGAAGCCTGTCACAGGACGTCATTATAGTGTGTGTCAGATCTCGTT -TTCCTTAACCATGTTACATAGAATGTGCACGGAAATTTAACCTGCCTCATATTTGGAGCAAATATGGACCGCGTC -CTTCATTTTGTACTGGCACTTGCCGTTGTTGCGATTCTCGCACTGCTGGTAAGCAGCGACCGCAAAAAAATTCGT -ATCCGTTATGTTATTCAACTGCTTGTTATCGAAGTGTTACTGGCGTGGTTCTTCCTGAACTCCGACGTTGGTTTA -GGCTTCGTGAAAGGCTTCTCCGAAATGTTCGAAAAACTGCTCGGATTTGCCAACGAAGGGACTAACTTCGTCTTT -GGTAGCATGAATGATCAAGGCCTGGCATTCTTCTTCCTGAAAGTGCTGTGCCCAATCGTCTTTATCTCTGCACTG -ATCGGTATTCTCCAGCACATTCGCGTGTTGCCGGTGATCATCCGCGCAATTGGTTTCCTGCTCTCCAAAGTCAAC -GGCATGGGCAAACTGGAATCCTTTAACGCCGTCAGCTCCCTGATTCTGGGTCAGTCTGAAAACTTTATTGCCTAT -AAAGATATCCTCGGCAAAATCTCCCGTAATCGTATGTACACCATGGCTGCCACGGCAATGTCCACCGTGTCGATG -TCCATCGTTGGTGCATACATGACCATGCTGGAACCGAAATACGTCGTTGCTGCGCTGGTACTGAACATGTTCAGC -ACCTTTATCGTGCTGTCGCTGATCAATCCTTACCGTGTTGATGCCAGTGAAGAAAACATCCAGATGTCCAACCTG -CACGAAGGTCAGAGCTTCTTCGAAATGCTGGGTGAATACATTCTGGCAGGTTTCAAAGTTGCCATTATCGTTGCC -GCGATGCTGATTGGCTTTATCGCCCTGATCGCCGCGCTGAACGCACTGTTTGCCACCGTTACTGGCTGGTTTGGC -TACAGCATCTCCTTCCAGGGCATCCTGGGCTACATCTTCTATCCGATTGCATGGGTGATGGGTGTTCCTTCCAGT -GAAGCACTGCAAGTGGGCAGTATCATGGCGACCAAACTGGTTTCCAACGAGTTCGTTGCGATGATGGATCTGCAG -AAAATTGCTTCCACGCTCTCTCCGCGTGCTGAAGGCATCATCTCTGTGTTCCTGGTTTCCTTCGCTAACTTCTCT -TCAATCGGGATTATCGCAGGTGCAGTTAAAGGCCTGAATGAAGAGCAAGGTAACGTGGTTTCTCGCTTCGGTCTG -AAGCTGGTTTACGGCTCTACCCTGGTGAGTGTGCTGTCTGCGTCAATCGCAGCACTGGTGCTGTAAGACCATACA -TAAAAAAGCCGGGGATAATTCCCATAAGCGCTAACTTAAGGGTTGTGGTATTACGCCTGATATGATTTAACGTGC -CGATGAATTACTCTCACGATAACTGGTCAGCAATTCTGGCCCATATTGGTAAGCCCGAAGAACTGGATACTTCGG -CACGTAATGCCGGGGCTCTAACCCGCCGCCGCGAAATTCGTGATGCTGCAACTCTGCTACGTCTGGGGCTGGCTT -ACGGCCCCGGGGGGATGTCATTACGTGAAGTCACTGCATGGGCTCAGCTCCATGACGTTGCAACATTATCTGACG -TGGCTCTCCTGAAGCGGCTGCGGAATGCCGCCGACTGGTTTGGCATACTTGCCGCACAAACACTTGCTGTACGCG -CCGCAGTTACGGGTTGTACAAGCGGAAAGAGATTGCGTCTTGTCGATGGAACAGCAATCAGTGCGCCCGGGGGCG -GCAGCGCTGAATGGCGACTACATATGGGATATGATCCTCATACCTGTCAGTTCACTGATTTTGAGCTAACCGACA -GCAGAGACGCTGAACGGCTGGACCGATTTGCGCAAACGGCAGACGAGATACGCATTGCTGACCGGGGATTCGGTT -CGCGTCCCGAATGTATCCGCTCACTTGCTTTTGGAGAAGCTGATTATATCGTCCGGGTTCACTGGCGAGGATTGC -GCTGGTTAACTGCAGAAGGAATGCGCTTTGACATGATGGGTTTTCTGCGCGGGCTGGATTGCGGTAAGAACGGTG -AAACCACTGTAATGATAGGCAATTCAGGTAATAAAAAAGCCGGAGCTCCCTTTCCGGCACGTCTCATTGCCGTAT -CACTTCCTCCCGAAAAAGCATTAATCAGTAAAACCCGACTGCTCAGCGAGAATCGTCGAAAAGGACGAGTAGTTC -AGGCGGAAACGCTGGAAGCAGCGGGCCATGTGCTATTGCTAACATCATTACCGGAAGATGAATATTCAGCAGAGC -AAGTGGCTGATTGTTACCGTCTGCGATGGCAAATTGAACTGGCTTTTAAGCGGCTCAAAAGTTTGCTGCACCTGG -ATGCTTTGCGTGCAAAGGAACCTGAACTCGCGAAAGCGTGGATATTTGCTAATCTACTCGCCGCATTTTTAATTG -ACGACATAATCCAGCCATCGCTGGATTTCCCCCCCAGAAGTGCCGGATCCGAAAAGAAGAACTAACTCGTTGTGG -AGAATAACAAAAATGGTCATCTGGAGCTTACAGGTGGCCATTCGTGGGACAGTATCCCTGACAGCCTACAAAACG -CAATTGAAGAACGCGAGGCATCGTCTTAACGAGGCACCGAGGCGTCGCATTCTTCAGATGGTTCAACCCTTAAGT -TAGCGCTTATGGGATAATTCCCCGGTTTTTTTACGCCTGTTAATCAGCTAATGGCTGCGGGCGACCAATCAAATA -CCCTTGCAGATATTGCACCCCGAGCTTATGCAATAGCGCCTGCTGCTGTTGCGTCTCGACAAACTCCGCGACCAC -ACTCAATGACTTCGCTTTCGCCAGATCGGTAATTGATCTCACAATCATCGCATCCAGCGTGTTCGTGACAATATC -TTTCACAAAGACGCCATCAATTTTGATGATATCAGCCTGCAAACGCTTTAACCGTTCGTAGTTGGCATATCCGGT -GCCAAAGTCATCAATCGCAATCCGGAAACCAAACTTATGCAGCTGCTCGATGTTGTACATGCTGCTTTCTGCGTT -AGAAAACGCCTGCTCCTCGGTGATCTCAAGAATGACCGCCTGCGGGGAGATGTGATAACGCTTAAACAGACGAAT -AATCCGCCCGGCAATATTCTTTTGCAGCAGCGTGAGCGGCATTAAATTGACTGAAAAGCGCGGTCCTTTTTTGTC -GCAAGGGTGTGTTGCCAGCCACTTCAACAAGGATTCCAGCACTTGCAAATCAAAACGCGCGCTAAGGTTAAACTG -AGCAATAAGGGGCAGAAACTTATCCGGGGTCATAATGCCGCCGTCATATTTCAGTCGCGCGAGGATCTCATCATA -ACCTTCACCCTCTTTGTTGCGAATTGGCTGGGCGTAGAGCAGCAAATCACCCTGATCTAACGCCGTGCGAATGGT -ATTCAGCAATAGCACCTGTTTAGTGGTCTGCCCGGAAACCATCTCCTCTCTGCTATCCAGCGCCAGCACATGATG -ATGTGCGCAGGATTGCTCCGCCAGCCAGCTTAACTGCCCCAACAAGGGTTGCAGGGTTTCCTGATTTCCATCAAA -ACGCCCCCAGGCAGCACCATAGCCCATATCCAGCCCGGTATTGTTCCAGTGAATTTGCCGACTATTCAGGATGTT -AACCATATGCTGGAGTCGCCCTTCCGTTTCCGGCCCGCTCAGCACTAACAGCAGTTCACTACCCGGCAATTGATA -CAACTTTTCGTTTTCCTGCATCAACGGCAGCAGCGTACGGCAAATTGAGCGGATACAGTGAACGCGCATCATTAA -GCCGTAATGACGACTCATAAACTCAAGATTATCAATGCGCAGGCAGCAAAAACTCTTGCCCGCCTCTTGCTCCGG -CGCTTGTTCCAACGCACGAAAGTTGGGTAGGAGCGTTAACGGATCTGTCAGCGCCTGCAAATGCCAGCGGCGATT -AAGCCATTCACTGCGATGATAAATGCGCACCATATAGAGCAGGCAAACGCTAAAGGAAATCAGCACCGCAAGAAT -AAATGCCAGCGAATATTCGGTTTCCACCCCTTGCAAAAAGTTCTGGTTGTAATTCAGAAGGCAAAGCGTTGAAAC -AGCCCAGGTGAGATTTAAAAACGGATAGCGAAGCTTACCGACCCCGAGGGTAAAGATGATGAAGAAAACGGGTAC -CAGGTAACCGGCAATAAAGTCGTTTTCATAAGGTGTGCACAACAGAAGTAGCAGCACGCTTAACGCTGCCAGCCA -GCTTAAGGTAAATGCGCGTTTCTCTTTGCCCAACGACGGAGCGATATCCCTGCGCCACAATATCTGCGCAAAGTG -GGGACTTACAATCATGCGAGTGAGATAGTAGAAAAGCATGTTGTAAATCAGCACAGCGGTGAAAAGGCTTAGCAA -ATCAACGACCGTGAAAATGGCATCCGCATCGCCGAAAAAGGTGGATATCTTTAGCGGGAAATCAAAGAAGCTCCC -CACAAGATACATGCTGCATTTGATGCCGATCGGCGTCACCAAACCAAGCCAGAACAGACGTTGCCAGACATATCG -GCTGGTCAATCCATAACGCCAACGCGTCCCCAGCTGCCAGCGTAATATTGCGCAGGCACACAACACGACAAACGT -CTGGCTACCGAGCATGACCGCAGTCTGTAAAAAAGAGAGATGAAAGTTCCACAGATTGGTGCAAAACATCCCGCA -TAAAACGGGAACGACACCGCGCCAGCCAAAGATAAACAAGATTGACAGCATTACGCACAGTGGCATCCACGCCAG -AAAGATATAACTGGAATGGATAATGGCAAGTGGCGAAATAAAACGGGATAGCTGAATAAGTACCACGGTGAGCGT -AAACGCTAGTGTGAATATCTTGATATTTTTTATCAGGTTATGCTCCACAAACATGAGTACACTACTCTCACTGAT -CGGGGTTTTCAGGCACACAAATAATAAGTTTATTCGCATCGCGAAGCAAACAGGGGGCCAGCCTGTTGCCGATTT -TTCATCCAATGATGCTTTCACCAGGCGGCACTAACCCGGACGTAGACTGTATTACAAAAGCGGCAAAAAGCAGAG -ACAAAAAACCCCCGCTTTGCAGCGAGGGTTGGAAATTTGGTGGAGCTAAGCGGGATCGAACCGCTGACCTCTTGC -ATGCCATGCAAGCGCTCTCCCAGCTGAGCTATAGCCCCACGATGCGTTTACGTACCAAGTTTGCTGGGTGCAAAA -TTTGGTGGAGCTAAGCGGGATCGAACCGCTGACCTCTTGCATGCCATGCAAGCGCTCTCCCAGCTGAGCTATAGC -CCCGTCACGTAAAGCTTGTCGAGTTGACGGGCGGCATCATATGAATTCCGCCCGAATGTGTCAACGGCAAATTGC -AACGTGTAGTTTCAATCGCTGAAAAATCAGGCAAATGAACAATTTTGGAAAACCGCTCGCATTCAGTAGTTATTC -ATGTCACGGTTTCCTGTAAAGTGGTGTTATAAAATGAACTACTAATAGACCCACATACATTCAGGGAATTGTTAT -GTTCAAGGAGAGGATGACACCAGATGAACTTGCCAGACTGACCGGCTATAGCCGCCAGACCATTAATAAATGGGT -ACGCAAGGAAGGCTGGACAACGTCACCAAAACCTGGCGTCCAGGGTGGCAAAGCCCGACTGGTTCACGTCAATGA -ACAGGTTCGTGAATATATTCGCAATGCTGAACGTCCAGAAGGTCAGGGAGAAGCGCCTGCCCTTTCTGGTGATGC -GCCGCTTGAAGTATTGCTGGTGACACTGGCGAAAGAGATGACGCCAGTTGAACAAAAACAGTTTACATCCTTGCT -TCTGCGGGAAGGGATTATCGGATTGTTACAACGCTTAGGGATTCGCGATAGCAAATAATATGAAAAGATTACGCA -ATAAAATGACCACCGAAGAACTGGCTGAATGCCTCGGTGTGGCTAAACAAACTGTTAACCGTTGGATCAGAGAAA -AAGGCTGGAAAACGGAAAAATTTCCCGGCGTGAAAGGCGGTCGTGCCAGACTTATTCTGGTCGATACGCAAGTTT -GCGAGTTTATTCAGAACACGCCAGCCTTCCATAACACACCAATGTTGATGGAAGCTGAAGAGAGAATTGCTGAAT -ACGCTCCTGGAGCACGCGCCCCGGCGTATCGACAAATCATCAACGCGATAGATAATATGACAGACATTGAGCAGG -AAAAAGTCGCGCAATTTTTGTCACGTGAAGGAATTCGCAATTTCCTCGCCCGTCTCGATATTGACGAATCAGCAT -AAATAAAAAACGGCAGGATATTATCTCCTGCCGTTTATCTTTTTACACGCTAATTACTGCTGATTTTCGCGTTCA -GCAATAAAATCCAGCGCTTTGTTGATACGCTCGATACTGCGGGTCTTACCAATTGCGTGAACGGTAACATCCAGT -GCTGGAGACTGCCCCGCACCGGTTACGGCGACACGCAGCGGCATACCAACTTTACCCATACCCACTTCCAGCTCA -TCCGCCGTCGCCTGAATAGCGTGATGAACGTTTTCAGCGGTCCAGTCAGTAATCGCGGCCAGTTTGTCACGAACC -ACTTCCAGCGGCTGACGCGCTACCGGACGCAGATGTTTTTTCGCGGCGTCGGCATCGAACTCAGCAAAATCTTCG -TAGAAATAACGGCAGCTCTGTGCCATCTCTTTCAGCGTCTTGCAGCGTTCGCCCAGCAGTTTCACCAGATCAGCC -AGCTGCGGGCCGTTACGGGTATCGATATTTTCCTGCTCAATGTGCCACTGTAAGTGAGTAGCAACATACTCCGGC -GGCAGCGCGTTAATGTAGTGATGGTTCAGCCACAGCAGCTTGTCGGTGTTGAACGCACTGGCAGATTTGCTGACG -GCATTCAAAGTGAAGTATTTGATCATCTCTTCACGAGTGAAGATTTCCTGATCGCCGTGGGACCAGCCCAGACGC -ACCAGATAGTTCAGCAGTGCTTCTGGCAAATAACCGTCATCACGATACTGCATTACGCTGACTGCCCCGTGACGT -TTGGACAGTTTTTTACCGTCATCGCCATTGATCATAGAAACGTGCGCGTAAACCGGCACCGGCGCTTTCAGGGCC -TTAAGAATGTTGATCTGGCGTGGCGTGTTGTTGATATGGTCTTCGCCACGGATAACGTGGGTGATTTCCATATCC -CAGTCATCGACAACCACACAGAAGTTATAGGTTGGGGAACCATCGGTACGGCGGATAATAAGATCGTCCAGTTCC -TGGTTGCTGAACTCGATCGGACCACGGATCTGATCGTCAAAAACAACAGAACCTTCCTGCGGGTTAGCAAAACGT -ACAACACACGGTTCATCATCAGCATGATGCTCATGGCTGTGGCGGCAGCGACCGTCATAACGCGGCTTCTCACCT -TTCGCCATTTGCTCTTCGCGCAGCGCTTCCAGGCGCTCTTTAGAGCAATAGCATTTATAAGCAGTGCCCTCTTCC -AGCATCTGATCGATCACCGCGTTGTAGCGATCAAAACGTTTGGTCTGGTAGTACGGACCTTCATCCCACTCCAGG -CTCAGCCAGTTCATGCCATCCATAATGGCTTCGATAGCTTCCGGCGTGGAACGCTCAAGATCGGTGTCTTCAATA -CGCAGCACGAACTCACCGCCGTGGTTACGTGCAAAAAGCCAGGAGTAAAGAGCAGTACGCGCGCCGCCAACGTGC -AGATAGCCTGTTGGGCTTGGCGCGAAGCGAGTTTTGATTTTCATGAAATGGCCTTACGTTTAGAAAGATGCCGAC -AACCGGCAAATCCTGGAAAAATTAAGTGGGCGATATTCTATCACTCCCGCCTGATTCCTCAATGTAGTTCGGGTT -TCTACCTTACGCATTATTGTTTTCGTTGACAAATTGCGCAACACGGTCTGTTTTGCGATCATCTTGCTTAAATTT -ACGACGAACGAACAATTTCTTTAGAAAATGCGTTGACTCATTTTGAACTCTCCCTATAATGCGACTCCACACAGC -GGGGGTGATTAGCTCAGCTGGGAGAGCACCTCCCTTACAAGGAGGGGGTCGGCGGTTCGATCCCGTCATCACCCA -CCAACTACTTTATGTAGTCTCCGCCGTGTAGCAAGAAATTGAGAAGTGGGTGATTAGCTCAGCTGGGAGAGCACC -TCCCTTACAAGGAGGGGGTCGGCGGTTCGATCCCGTCATCACCCACCACTTTCTCGCCAGCTAAATTTCTTGTAA -AAATGTGAAGTACCGAAGTGGGTGATTAGCTCAGCTGGGAGAGCACCTCCCTTACAAGGAGGGGGTCGGCGGTTC -GATCCCGTCATCACCCACCACTTCGGGTCGTTAGCTCAGTTGGTAGAGCAGTTGACTTTTAATCAATTGGTCGCA -GGTTCGAATCCTGCACGACCCACCAATGTAAAAAAGCGCCCTAAAGGCGCTTTTTTACTATCTGCGATACTCAAA -GATTCGAACCTGCAGCAGGTTTGAGTTGAGCGCAGCGAAACAACGGAGCCGCTCGCGGCGACGGCCCGAAGGGCG -AGCGAAGCGAGTCATCCTGCACGACCCACCAATGTAAAAAAGCGCCCTAAAGGCGCTTTTTTGCTATCTGCGATT -TGCGAAATTGCCTGATGCGCTTCACTTAGCAGACTACTATTTCCGGCAATTCCTGTCTCCTCACCTACTGTGTCA -ATGCAGCCAACAGCTTAACCATCGCGGGCGTCACCTGCTGTGTTTCATAAACAATATATAAATCTGCAGGGATGC -GCTGTTTGAGCGGACGGAAAATGACACCTGGCCAGTTCATTTGTGCGTAGCTGTCCGCTATCAATGTGATACCAA -TGCCCATACTGACCATAGCGAGTACCGTTTGCGGTTCATTAACTTCGCGAATAACAACCGGTGAAAATCCCACCT -GCTGGCAAACTCGCTGCAAAAAATCCCAGTCAGTGTAAACGGGCGGCATTGTAACAAAATACTCGTCACGTAGCG -CTTCCAGCGGGACGGTGGAAAATGATGAGAGATGATGCTCTTCAGGCATCGCCACCAGAAACGCCGATTCATGCA -ACCGTAAGCTGGTAAAACCAGTCGGTGGTTCTGTCGCCATTCGCCAGATCCCGGCATCAAGTTCGCGGCGTTCCA -GCAAGGCCATTTGCATCGCGGGCATCTTTTCGCGAAAAAGAACGTCAACGTTAGGATTTTCCCTGAGGAATCGCC -GCATAACCGGGCGCATCCGTCCCCACATTGCCGTTCCCACTACGCCGAGTTCAATCCGCCCTGCTTCTCCCCGAC -CTATTTGTTCAATCCGAGCCAATACATTATTAGCATTCACCAGCAATCGACGCGATTCTTCCATCAAGATTTTGC -CCGCGTGTGTCAGTACGACGCTGCGCGAATGGCGAATAAAAAGCTGCGTGCCGAGTTGATTTTCCAGCTCTTTAA -TATGAATGCTGAGCGGAGGCTGAGACATATTTAAACGCGCTGCTGCGCGGCCAAAATGCAACTCTTCCGCTACGG -CAAGAAAATAACGGAGCAACTTAAGATCTGTTCTGTATACGCGTTCCATAATTAAGTGCTCCATATAATAAATAC -ATCGTATTAAATTATCATGGCATAAAGTATTTCACCACCAGATATCCGACATACATAAACACAATGGATAATATA -CCCGGTAATACATTTGGTACAGGAATAGGCAAGCGCACGATTGTAAACAAAGCACCAATACCAAAACCAACGCCG -GAAGAAAATAAAATATCTTTCACTAATTAACCTTTATCATAAAAGCAGCTCTGAAGAGCAGAGCCGCGAATCCTT -TTAATGAGTCACCGCTCGATGCTTTATCTTTTCAGGGTCATGATTATATTTAAACCCAAAGAAAAATATCACTGC -GAGAAAAAGAGCATATCCTGCAAACACCAGCCAGATAGTTTGCCAGTCTTTTACGCCATCCACCGAAAAGTAATC -TACTGCCATGCCACTCAGAATCGAGCCAACCCATGCGCCGACACCATTTACCATGGTCATAAAGAGCCCCTGCGC -GCTGGCACGAATGCTGGAATCAACTTCCTGTTCGACAAATACCGAACCAGAAATATTGAAGAAATCGAATGCACA -GCCATAAACAATCATCGACAGCAGCAGCAAAATAAATCCGGTTGTTGACGGATCGCCATAGGCGAAGAAGCCAAA -GCGCAGCGTCCAGGCCACCATACTCATCAGCATGACGGTTTTAATGCCAAATCGCTTTAAAAAGAATGGGATAGT -CAGTATAAAGCCCACTTCTGCCATCTGTGAAACTGACAGTAAAATGGAGGGATATTTCACCACAAAACTGTCAGC -AAACTCCGGGTTACGGGCGAAATCATGTAGGAACGGATTACCAAAAACGTTGGTAATTTGCAGTACCGCACCCAG -CATCATGGCAAAGAGGAAAAAGATGGCCATGCGTGGATTTTTAAACAGCACGAAGGCATCCAGACCCAGCTTGCT -GGCAAGCGATGTGGTCGCTTTTTTCTCCGCAACCGGAATCTTCGGCAAAGTCAGCGCATAAGCCGACAGCAGCAA -TGACGCACCGGACGCGATATACAGCTGCAGACTACTCAATTCCAGATGCAGCAGGCTTACTGCCCACATCGCGAC -AATGAACCCCACCGTACCAAAAACGCGAATGGGCGGGAAAGCGGTCACCGGGTCAAGCCCTGCCTGGGCAAGACA -GGAATAAGAGACGCTGTTCGATAACGCAATAGTCGGCATAAACGCCATCGCATTGACTAACATCACCCAAAACAT -CATATCCGGATCAGTTACGGATGCCGCATAAAAAAGTACGCCCGCACACACCAGGTGACACAGCATGTATGCACG -TTCTGCGCGCAGCCATTTGTCTGCGATGATCCCCATTATACCAGGCATAATAATCGCGGCGATCCCTTTGGAACT -GTAAACCATGCCAACATTAGCGCCGGTGAAATGAAGAGTATTAATCATGTAAGAGCCGAGGGTAACCAGCCAGCT -CCCCCAGATAAAATATTGCAAAAAGGACATTACCTTTAAGCGCATCGCGATGCTCATAATCGTTTCCTTGTCGCA -TCATTTGGCCTCACCCGCGAGGCCGTTTCTTATTGTTTTTCTCAGGCAATTTTGCGCAGAAAGCCACAAATAAGG -TTGATGAAGTTCTGCTTAGAGAGCTCCGCAGCCGCCAGCGTTTGCGCATGTGACAATTTCACATCGCTTAAACCT -TCCGCCATATTGGTAATCGCAGAGACCGCAACGACTTTAAGGTCGCAATGGCGAGCTGAAATAACCTCAGGCACC -ACAGACATACCAACAACATCCCCACCAATAATTTGCATCATGCGAATTTCCGCCGCAGTCTCGAAATTCGGCCCC -GGATACGAGACGAACACGCCCTCCGTCAGAGGGAAACCCTCTTCTTTCGCCACTTTTTGTAACAGTGCGCGGTAT -TCCGCATCGTAGGCATTTGCCAGTGAGAAGAAGCGCTCTCCAAAACGATCATCGTTAAGACCCACCATCGGCGTA -CCGGGCATGGTGTTGATATGATCTTTCAATGCGACCAGGCTGCCTGCCCCCACTTCCGGACGCAGCGAGCCTGCC -GCATTGGTGCAGAACAGTAGCTCGCAGCCCAGCAGCTTAAAGGTACGAATTGCGTCAGTCATAATGGTCATTCCA -CGACCTTCGTAGAAATGTCCGCGACCTTTCATACATACCACCGGTACGCCCTGGAGATGGCCCAGCACTAACTCC -CCCGCATGACCATGTACCGTACTTACCGGGAAGCCCGGCAGCTTTTCGTAGGAAATTGCGACAGCGTTCTCAATC -TGATCGGCCAGCGCGCCGAGCCCGGAACCTAAAATAAAGGCCACTCGTGGCGTGAAATCAGGTTTATAAGTCTTG -ATAATATCTATGCAAAACAGCGGGTTATGAGAAAATTGAACCTGAGACATACATATCCTTTTTCTGTAGGGTGGA -ATCTAACGCCTTTTTATAGCGAGGTTGTCCCGGCTCTTACCAATACACTTTTCTCACGCATTCAATAGCGATTCG -ATATCGATGGATTTATATCTTTTCTCTATTAATCCACGGTAAAAACTGTATTGGCGATATTAATTCCTTTGCATT -AACAATATGTCGTTTTTAGCAAACCACTTTATTAAGCAATCTACTAATAACGATCGGCATAGGGAATTATGCTAT -GAAAAAACATCTTTTAACTCTGACACTTTCCTCTATATTAGCGATACCTGTTGTATCTCATGCAGAATTTAAAGG -CGGTTTTGCAGATATCGGCGTGCATTATCTGGACTGGACCAGCCGGACTACCGAAAAATCGTCGACCAAATCACA -CAAAGATGATTTTGGTTATCTTGAATTTGAAGGTGGCGCTAACTTTAGTTGGGGAGAAATGTACGGGTTCTTCGA -CTGGGAAAACTTCTATAACGGTCGCCATAATAAACCAGGTAGCGAGCAGCGTTATACCTTTAAAAATACCAACCG -TATTTACCTGGGTGACACCGGATTTAATCTCTACTTGCATGCGTATGGCACCTACGGTTCTGCGAATCGCGTGAA -TTTCCACGACGATATGTTCCTGTACGGTATCGGCTACAATTTCACCGGCAGCGGTTGGTGGTTCAAACCGTTCTT -TGCTAAGCGTTATACAGATCAAACCTATTACACTGGCGACAACGGCTATGTCGCCGGCTGGGTTGCAGGTTACAA -CTTTATGCTGGGCAGCGAGAAATTCACTCTTACCAACTGGAACGAGTACGAGTTTGACCGTGACGCTACCTATGC -AGCGGGTAATGGCGGTAAAGAAGGGCTGAATGGCGCAGTTGCACTGTGGTGGAATGCAACATCACACATTACTAC -GGGGATTCAGTATCGATATGCGGATGACAAACTGGGCGAAGATTTTTACCAGGATGCGATAATCTACTCCATCAA -ATTTAACTTCTGATTGATTACTGCCGGGGCTCCCGGCAGTATGAATTCACTCTATATCTGATACAACGGATCCCC -TTCCCGCCCAGCCATTAGCGCATTGCCCTGGTCTCGTACCACGTCCCATAAAGCTTCAGCGGCGGTGGAAAGTGA -ACGGTTCTTCCTGCGCACCAGCATCAACTGGCGTTCAACAACCGGCGTAATGCGCTTTACCACCAGTGGGCTACC -TTCAGGCAATGGTAGCGCCAGTGCGGGAAGAATACTGATGCCGATGCCTGCGGCTACCATCGGGAACAGCGTCGC -CGGATGTCCAATCTCCTGCACAATATTCGCCTGAATACCATTGCGCGCCAGCGCTGCGTCAATCAGCGGTCGGCT -GCCTGACGCGTAATCCTGCAACACCAATTTCGCTCCCTGTAATGCCTGCCAGGGTACATAATCTTCCACGGCCAA -AGCGCTATCGCGATGGCAAAGCAGAAAGAAAGGCTCGGAAAGAATCGCTTCACATTGCAGATCGCCCACTGGGCC -TGGATCGATGACGATGCCAAAATCGACATCTCCCTGGCGAATACTTTCCATTACCCACTGCTGCGGACGATCGTG -CAGGACAAACTGAATATCTGGATAGCGGCGATGGCTTTCAGCAATGCATTGCGGAATAAGATGCGCGGAAATGGT -CTGGCTGGCAGCGACCCGAACTTTTCCGCTCAGTTGTTGCCCCATACGCCCGGTATCGCGCAACGTGCTGTTCAG -TTCATCCAGCAGTCGCTCAAGACGCAAAGCCAGCTGCTGCCCTGCATCTGTAAGCACCACTTCACGCGTGGTTCT -GTCCAGCAGGCGAACACCAGTATGATTTTCCAGTTCCTTCACACTGTGACTCACTGCCGACTGGCTCAGGCCGAT -ACGCTCTCCTGCACGACTAAAACTTTTCTCCTGCGCTACTGTGACGAAAACCTTTAATTGTTTTAAAGAATAATT -CATCTGTTTTCTTCATGAATGGATGCAATAAATCAATTTTATTTCTCAAACTGGAAGAAGCACAATAGAACCATC -GATCATCTGGAGTCTTTATGAAACTTTTTCGTATCCTCGATCCTTTCACCTTAACCCTGATCACGGTGGTGTTGC -TGGCCTCTTTCTTTCCGGCCAGAGGCGATTTCGTCCCCTTCTTTGAAAATCTGACCACCGCAGCTATTGCCCTGC -TGTTCTTTATGCACGGCGCGAAGTTGTCGCGTGAGGCGATTATTGCTGGCGGTGGTCACTGGCGACTGCATTTGT -GGGTAATGTGCAGCACCTTCGTGCTGTTTCCGATTCTGGGTGTACTGTTTGCCTGGTGGAAACCGGTAAATGTCG -ACCCGATGCTCTACTCCGGTTTTCTCTACTTGTGCATTCTCCCGGCTACCGTGCAGTCTGCAATCGCCTTCACGT -CAATGGCGGGCGGTAACGTCGCGGCAGCGGTTTGTTCTGCGTCGGCATCCAGCCTGCTGGGGATTTTCCTTTCAC -CATTGCTGGTTGGTCTGGTGATGAATGTTCACGGTGCAGGGGGCAGCCTTGAGCAGGTCGGTAAAATTATGCTGC -AACTGCTGCTGCCGTTTGTGTTGGGGCATCTTTCCCGGCCGTGGATTGGTGACTGGGTGTCGCGCAATAAAAAAT -GGATTGCGAAAACTGACCAGACGTCCATTCTGTTGGTGGTTTATACAGCGTTCAGCGAAGCCGTCGTTAATGGTA -TCTGGCATAAAGTTGGCTGGGGATCATTGCTGTTTATCGTGGTGGTCAGCTGCGTTCTTCTGGCTATCGTGATTG -TAGTTAACGTCTTTATGGCACGCCGACTGAGCTTCAATAAGGCAGATGAAATTACTATCGTCTTTTGTGGTTCGA -AAAAGAGTCTGGCAAATGGCATCCCGATGGCAAACATTCTGTTCCCCACATCGGTGATCGGTATGATGGTGCTGC -CCCTGATGATTTTCCATCAGATCCAATTGATGGTCTGTGCGGTGCTGGCGCGTCGATACAAACGCCAGACCGAAC -AGTTACAGGCGCAGCAGGAAAGCAGCGCCGATAAAGCTTAAAGCGGACGCTTCAGGGGCTGGACCAGTTGCGTCA -GCCCCTCGGTTTTAATCAGCAGCGTGATTTGCATTAGCTCACCGAGCTTCCCTGCCGGGAACTCATCTTTGCGGG -CAAACCACAGCAGATACTCCTCCGGCAGGTCGATTAAGCGACGCCCTTTGTATTTGCCAAACGGCATTATCGTAT -TGGCTATTTCAATCAGCTGCTCTTTTTCCATCTCAGCTACCCAGCAAACGCAGCATTTCCGCTTCGTCGATGACT -TCAATGCCCAGTTCCTGCGCCTTCGCCAGTTTAGATCCTGCAGCTTCACCCGCTATCACCAGATCGGTTTTCTTC -GACACGCTGCCCGCGACTTTCGCGCCCAGTTCGACCAGTCGAGCTTTAGCGTCATCACGCGACATCTGGCTTAAG -CTGCCCGTAAGCACCACGGTTTTACCAGCAAACGGGCTGTCAATCTCTTCCGCGTTGATAACGATCGGCGCAGGC -CAGTGAACACCTTCCGCCAACAGCTCGCTGATGACATTGCGGTTGCTTTCTTCGGCAAAGAAGTTGTGAACGTGG -GATGCAACGACAATGCCAACATCAGGCACCTTTTGCAGCTCTTCAATCGAAGCGGCTTCCAGCGCTTCCAGCGTG -CCGAAATATGCCGCCAGACCTGCTGCGGTGGCCTCGCCGACTTCACGGATGCCAAGTGCATAGAGGAAGCGAGCA -AAGGTGGTTTCTTTCGCTTTTTCCAGCGCGTTAACCACGTTTTGTGCCGATTTTGGCCCCATACGCTCCAGTCCG -GTCAGTTTGCCTGCGGTGAGTTTGAACAGATCTGCCGGAGTATGGACATATTCTTTTTCAACCAGCTGATCGATG -ATTTTGTCGCCCATTCCGTCAACATCCATCGCACGGCGGGAAACAAAGTGTTTCAGCGACTCTTTACGCTGCGCA -CCGCAAATCAGGCCACCGGTACAGCGGGCAACCGCTTCACCTTCCACACGCTCAACGTCAGAACCACATACCGGA -CAATGCGTCGGGAATACAACCTCACGGGTATCTTCCGGGCGTTCAGAAAGCACGACGTTAACCACCTGCGGGATC -ACGTCGCCAGCGCGGCGAATCACCACTTTATCGCCAATGCGTAAACCAAGACGTTCGATTTCATCCGCATTGTGT -AAGGTTGCGTTACTCACCAGCACGCCTGCAACATGGACAGGTTCCAGACGCGCAACAGGCGTAATCGCGCCAGTA -CGCCCAACCTGAAACTCGACGTCACGCACAAAGGTCATCTGCTCCTGCGCCGGGAATTTAAACGCTACCGCCCAG -CGCGGGGCACGCGCGACAAAGCCAAGCTGCTCCTGCTGTGCCAGTGAGTTGACCTTAATCACCACGCCGTCGATA -TCAAAGCCCAGCGTCGGGCGGTCTTCTTCCACTTTGTGATAGAACGCCAGCACTTCTTCCGCCGATTCACAAAGC -GTTACCCGATCGCTGACCGGCAACCCCCACTTTTTAAATTGCAGTAAACGGCCAAGATGAGTATCCGGCAGCTCG -CCACCTTCCAGAACACCAACGCCATAGCAGAAAAAAGTGAGCGGTCGCTTCGCTGTAATACGCGGATCAAGCTGA -CGCAGTGAACCAGCTGCCGCATTACGTGGGTTAGCAAACACTTTCCCGCCCGTGCGTCGCGCATCTTCGTTAATC -TTTTCGAACCCCGCCTGCGGCAGGAACACTTCACCACGCACTTCCAGACGCGCCGGGATATTCTCTCCGTGCAGC -TTCAGCGGAATGGCGCGAATAGTACGCACATTAGACGTGATATCTTCCCCGGTGGTGCCATCGCCACGGGTCGCG -GCACTGACTAAAACGCCATTTTCATACAGAATACTGACGGCAAGACCATCCAGCTTCAGCTCACAGCACCAGGTG -ACTTTCTCGTTGTTTTTCAGACGGTCCTGCACACGTTTGTTGAAAGCAAGAAAGCTTTCTTCATCAAAAACGTTA -TCCAGTGACAGCATTGGTACTTCATGGCGTATCTGGCTGAAAGCCGCCAGCGGCGCAGCGCCTACACGTTGAGTA -GGCGAATCAGGCGTAATCAGTTCTGGATGTTTGGTTTCCAGCTCGCGCAGTTCGCGCATCAGCCTGTCGTATTCA -GCGTCGGGAATTTCCGGCGCATCCATCACATGATAAAGATATTCATGATGGCGAAGCGTCGTTCGCAGTTCTGTC -AGTTGTTGTTCGATTGATTCCATATCGCACCATCAATGCTAAAAACCCCCGACAAGCGGGGGTTCGAAGAGGAGT -TAATTTGCCTTAAGTGTATCAGGCGTTGGCGTCTTTGACTTCGCGGATGATGTCCTGGTACTCGCGCAATTTCTG -CGGAGTCATCATACGGCGCTGATCGTCAAGCACGACACCGCCCACTTCATCGGCAATATGCTGCGCAGATTGCAG -CATCAGCTTGAAGTTCTGCAGCTCGTCACCGTAAGACGGTACCTGCATAAAGATAGTGACACCCGGAGTAGTGAA -ATCCTTCATTTCAGGATCAAAGGTTCCCGGTTTCACCATATTCGCCAGGCTGAATAACGCCGGGCCGCTGCCATC -CGGGCTAAGATGACGATGGTAAATATTCATATCGCCAAAAATGAAGCCCGCTTGTTGAATGCTGTTAAGAAGCAG -TTCACCGTTTAGCTCGCTACCGTGATGCGCCGCGACGTTCATGATAATCACCGCTTCTTTGCGCTTCGGTTTATC -CATAACTGGAGCAGGTTCCGCTACAGGCTCAGGCTGTGGTGCCGCTACGGGTTCTGCAGGCTGGAAAGCCTGTTG -TGCCGGTTGCGGTGCTGAATGCACAGGCTGCGGCGCTGGCGCGACCTGTGGCGAAACTGGCTGCTGCAACGGCTG -TTCAGGCTGCGGCTGATAGGCAGGCTGCTGCACCGGCTGCGCTGGATGCGGAGCATGTTGCGGCGGTACCTGCGC -TTCAGGCGGCTGCTGGACCGGTTGACGCGGCTGCGCAGACGCATAAGGCGGTTGGTACTGGTGTTGCGGCGACGG -ACGAGCAGCCTCATGCTCCTGAGCGTTAGCCGGGGCATGATTCACGCGGTGAACACGAACCTCACCAACGCCCTC -ATCATCTTCGACATCCTCGTCATAAGAATCGTCGTCACGTTTTGACTTCATTCGTTTTAATGGCCGATCGCGGAA -CATAGAAGATCGTTCTTTACGGCTGGTCCAGAAACCATGTACCAGTAAAGCGATTATGGCGATCGCGCCAACAAT -GATTAATATCAGACGCAAATCCTGCATCATTATATTCTCTGTTGTTCTAACACCTTGCCACCACGGCAAACATTT -ACTCACTAAGAGTATTTGCCGATTACCTCAAGTGCAAGTGCACTATTAACTTTCACAGCACAAAGATAGATGAAA -TCGTGCTTTTTGCTGTTTTTTCGAACATATCCTAACTGTCCATTGCGCAATTACCCGGTAAAATACGCAGAATTT -TCCTGGGATTGGTCAAAAGGAGCTCATCCTGATTATGGTTTCATCATTCACATCTGCCCCACGCAGCGGTTTTTA -CTATTTTGCGCAAGGCTGGAAGCTCGTCTCGCAACCTGGGATTCGGCGTTTCGTTATTTTACCGCTGCTGGTCAA -TATTTTGTTGATGGGGGGCGCATTCTGGTGGCTCTTTACACAGCTCGATGTCTGGATCCCGACTCTCATGAGTTA -CGTTCCGGACTGGCTACAATGGCTGAGTTATCTGTTGTGGCCTCTGGCTGTCATCTCTGTGCTGTTAGTGTTTGG -CTATTTCTTCTCCACGATTGCTAACTGGATTGCCGCTCCGTTTAACGGTTTATTGGCTGAACAACTGGAAGCACG -ATTGACTGGCGCTACACCGCCAGATACCGGGATTTTCGGTATCATGAAAGATGTGCCGCGAATCATGAAACGCGA -ATGGCAAAAATTTGCCTGGTATCTGCCGCGCGCAATTGTATTACTAATTCTTTACTTCATCCCTGGTATTGGGCA -AACCGTCGCGCCGGTACTGTGGTTCCTGTTTAGCGCCTGGATGTTAGCCATCCAGTATTGCGATTACCCCTTCGA -TAACCACAAAGTGCCGTTTAAAGAGATGCGCACCGCCCTGCGCACACGCAAAATCACCAATATGCAGTTTGGTGC -TTTAACCAGCCTGTTTACGATGATCCCGCTGCTTAATCTGTTCATCATGCCCGTTGCCGTTTGTGGCGCGACGGC -GATGTGGGTCGATTGCTATCGCGATAAACACGCGATGTGGCGGTAACAATCTACCGGTTATTTTGTAAACCGTTT -GTGTGAAACAGGGGTGGCTTATGCCGCCCCTTATTCCATCTTGCATGTCATTATTTCCCTTCTGTATATAGATAT -GCTAAATCCTTACTTCCGCATATTCTCTGAGCGGGTATGCTACCTGTTGTATCCCAATTTCATACAGTTAAGGAC -AGGCCATGAGTAAGATTTTTGAAGATAACTCGCTGACTATCGGTCACACGCCGCTGGTTCGCCTGAATCGCATCG -GTAACGGACGCATTCTGGCGAAGGTGGAATCTCGTAACCCCAGCTTCAGCGTTAAGTGCCGTATCGGTGCCAACA -TGATTTGGGATGCCGAAAAGCGCGGCGTGCTGAAACCAGGCGTTGAACTGGTTGAACCGACCAGCGGTAATACCG -GGATTGCACTGGCCTATGTAGCTGCCGCTCGCGGTTACAAACTCACCCTGACCATGCCAGAAACCATGAGTATTG -AACGCCGCAAGCTGCTGAAAGCGTTAGGTGCAAACCTGGTGCTGACGGAAGGTGCTAAAGGCATGAAAGGCGCAA -TCCAAAAAGCAGAAGAAATTGTCGCCAGCAATCCAGAGAAATACCTGCTGCTGCAACAATTCAGCAATCCGGCAA -ACCCTGAAATTCACGAAAAGACCACCGGTCCGGAGATATGGGAAGATACCGACGGTCAGGTTGATGTATTTATTG -CTGGCGTTGGGACTGGCGGTACGCTGACTGGCGTCAGCCGCTACATTAAAGGCACCAAAGGCAAGACCGATCTTA -TCTCTGTCGCCGTTGAGCCAACCGATTCTCCAGTTATCGCCCAGGCGCTGGCAGGTGAAGAGATTAAACCTGGCC -CGCATAAAATTCAGGGTATTGGCGCTGGTTTTATCCCGGCTAACCTCGATCTCAAGCTGGTCGATAAAGTCATTG -GCATCACCAATGAAGAAGCGATTTCTACCGCGCGTCGTCTGATGGAAGAAGAAGGTATTCTTGCAGGTATCTCTT -CTGGAGCAGCTGTTGCCGCGGCGTTGAAACTACAAGAAGATGAAAGCTTTACCAACAAGAATATTGTGGTTATTC -TACCATCATCGGGTGAGCGTTATTTAAGCACCGCATTGTTTGCCGATCTCTTCACTGAGAAAGAATTGCAACAGT -AATGCCAGCTTGTTAAAAATGCGTAAAAAAGCACCTTTTTAGGTGCTTTTTTGTGGCCTGCTTCAAACTTTCGCC -CCTCCTGGCATTGATTCAGCCTGTCGGAACTGGTATTTAACCAGACTAATTATTTTGATGCGCGAAATTAATCGT -TACAGGAAAAGCCAAAGCTGAATCGATTTTATGATTTGGTTCAATTCTTCCTTTAGCGGCATAATGTTTAATGAC -GTACGAAACGTCAGCGGTCAACACCCGCCAGCAATGGACTGTATTGCGCTCTTCGTGCGTCGCGTCTGTTAAAAA -CTGGCGCTAACAATACAGGCTAAAGTCGAACCGCCAGGCTAGACTTTAGTTCCACAACACTAAACCTATAAGTTG -GGGAAATACAATGTTCCAGCAAGAAGTTACCATTACCGCTCCGAACGGTCTGCACACCCGCCCTGCTGCCCAGTT -TGTAAAAGAAGCTAAGGGCTTCACTTCTGAAATTACTGTGACTTCCAACGGCAAAAGCGCCAGCGCGAAAAGCCT -GTTTAAACTGCAGACTCTGGGCCTGACTCAAGGTACCGTTGTGACTATCTCCGCAGAAGGCGAAGACGAGCAGAA -AGCGGTTGAACATCTGGTTAAACTGATGGCGGAACTCGAGTAATTTCCCGGGTTCTTTTAAAAATCAGTCACAAG -TAAGGTAGGGTTATGATTTCAGGCATTTTAGCATCCCCGGGTATCGCTTTCGGTAAAGCTCTGCTTCTGAAAGAA -GACGAAATTGTCATTGACCGGAAAAAAATTTCTGCCGACCAGGTTGATCAGGAAGTTGAACGTTTTCTGAGCGGT -CGTGCCAAGGCATCAGCCCAGCTGGAAACGATCAAAACGAAAGCTGGTGAAACGTTCGGTGAAGAAAAAGAAGCC -ATCTTTGAAGGGCATATTATGCTGCTCGAAGATGAGGAGCTGGAGCAGGAAATCATAGCCCTGATTAAAGATAAG -CACATGACAGCTGACGCAGCTGCTCATGAAGTTATCGAAGGTCAGGCTTCTGCCCTGGAAGAGCTGGATGATGAA -TACCTGAAAGAACGTGCGGCTGACGTACGTGATATCGGTAAGCGCCTGCTGCGCAACATCCTGGGCCTGAAGATT -ATCGACCTGAGCGCCATTCAGGATGAAGTCATTCTGGTTGCCGCTGACCTGACGCCGTCCGAAACCGCACAGCTG -AACCTGAAGAAGGTGCTGGGTTTCATCACCGACGCGGGTGGCCGTACTTCCCACACCTCTATCATGGCGCGTTCT -CTGGAACTACCTGCTATCGTGGGTACCGGTAGCGTCACCTCTCAGGTGAAAAATGACGACTATCTGATTCTGGAT -GCCGTAAATAATCAGGTTTACGTCAATCCAACCAACGAAGTTATTGATAAAATGCGCGCTGTTCAGGAGCAAGTG -GCTTCTGAAAAAGCAGAGCTTGCTAAACTGAAAGATCTGCCAGCTATTACGCTGGACGGTCACCAGGTAGAAGTA -TGCGCTAACATTGGTACGGTTCGTGACGTTGAAGGTGCAGAGCGTAACGGCGCTGAAGGCGTTGGTCTGTATCGT -ACTGAGTTCCTGTTCATGGACCGCGACGCACTGCCCACTGAAGAAGAACAGTTTGCTGCTTACAAAGCAGTGGCT -GAAGCGTGTGGCTCGCAAGCGGTTATCGTTCGTACCATGGACATCGGCGGCGACAAAGAGCTGCCATACATGAAC -TTCCCGAAAGAAGAGAACCCGTTCCTCGGCTGGCGCGCTATCCGTATCGCGATGGATCGTAGAGAGATCCTGCGC -GATCAGCTCCGCGCTATCCTGCGTGCCTCGGCTTTCGGTAAATTGCGCATTATGTTCCCGATGATCATCTCTGTT -GAAGAAGTGCGTGCACTGCGCAAAGAGATCGAAATCTACAAACAGGAACTGCGCGACGAAGGTAAAGCGTTTGAC -GAGTCAATTGAAATCGGCGTAATGGTGGAAACACCGGCTGCCGCAACAATTGCACGTCATTTAGCCAAAGAAGTT -GATTTCTTTAGTATCGGCACCAATGATTTAACGCAGTACACTCTGGCAGTTGACCGTGGTAATGATATGATTTCA -CACCTTTACCAGCCAATGTCACCGTCCGTGCTGAACTTGATCAAGCAAGTTATTGATGCTTCTCATGCTGAAGGC -AAATGGACTGGCATGTGTGGTGAGCTTGCTGGCGATGAACGTGCTACACTTCTGTTGCTGGGGATGGGTCTGGAC -GAATTCTCTATGAGCGCCATTTCTATCCCGCGCATTAAGAAGATTATCCGTAACACGAACTTCGAAGATGCGAAG -GTGTTAGCAGAGCAGGCTCTTGCTCAACCGACAACGGACGAGTTAATGACGCTGGTTAACAAGTTCATTGAAGAA -AAAACAATCTGCTAATCCACGAGATGCGGCCCAATTTACTGCTTAGGAGAAGATCATGGGTTTGTTCGATAAACT -GAAATCTCTGGTTTCCGACGACAAGAAGGATACCGGAACTATTGAGATCATTGCTCCGCTCTCTGGCGAGATCGT -CAATATCGAAGACGTGCCGGATGTCGTTTTTGCGGAAAAAATCGTTGGTGATGGTATTGCTATCAAACCAACGGG -TAACAAAATGGTCGCGCCAGTAGACGGCACCATTGGTAAAATCTTTGAAACCAACCACGCATTCTCTATCGAATC -TGATAGCGGCGTTGAACTGTTCGTCCACTTCGGTATCGACACCGTTGAACTGAAAGGCGAAGGCTTCAAGCGTAT -TGCTGAAGAAGGTCAGCGCGTGAAAGTTGGCGATACTGTCATTGAATTTGATCTGCCGCTGCTGGAAGAGAAAGC -CAAGTCTACCCTGACTCCGGTTGTTATCTCCAACATGGACGAAATCAAAGAACTGATCAAACTGTCCGGTAGCGT -AACCGTGGGTGAAACCCCGGTTATCCGCATCAAGAAGTAATTCTTGCCGCAGTGAAAAATGGCGCCCATCGGCGC -CATTTTTTTATGCTTCCGCCAGCGGCGGCAAAATCAATTCATCGCTCTCATGCTGCTGGGTGTAGCGCATCACTT -CCAGTACGCGCAACCCCGCTCGGTGCACTGCATCGGTTAACGCCTTCCCTTTCAGCAAGCCACTGATGAGCTGAG -CACAAAACAGGTCGCCAGTCCCTTTCAGGTCGGTTTTTACCCGTGAATGGGAAATGACATTCACGCTGTCGGCAG -TGACCACCACAACCTGCATCTCCTGATTTTCTTCATTACCGGAGGCGCTGGTAACCACCACCCATTTTAATGTGT -CTGAAAGCAGACTTTTTGCGGCAGCAATGGCACTGTCGAGATCGCGGCAATTTTTACCGGTCAGGATTTCCAACT -CAAAGATATTGGGGGTAATTCCCTGCGCCAGCGGCAGTAAATATTGTCGATACGCTTCGGGAAGGTCAGGTTTGA -CATAAATTCCGCTATCAATATCGCCAATCACCGGATCGACCATGATCAATAGGTCAGGATGGTCTTTGCGTAGCG -CAGTCAGCCACTCGGCAAGGATTTTGATTTGCGATGCCGTTCCCATATAGCCCGTGGTTACAGCACGAAGTTGGC -GCAGCGCATCACGCTCCTGAAGCGCACGCAAATAGCCGCTAAACCATTCGTCCGGAATCGCACCACCGTAGAAAG -TGTCATAATGCGGCGTATTGCTCAGCAATACCGTCGGCACGGCAAAGACATTCAGGCCGTTCTGTTTGATAGCAG -GCACGGCAATGCTGTTGCCCACGCTGCCGTAAACCACCTGCGACTGCACGGCGACGATATCCGCCTGCAGTGCCC -TACTCTTATCGTTAAACAACAACAAACTACTCATTTAATTTTTTCTCCTTGCCGATGATCCTCATCGTAATCCAA -CCGAAACTTTACCTGATTCTGGCAGTCAAATCGGCTATCACAAAACAAGGATAAGGTAATTCAATGAAGAAAATC -ATTTGTCTGGTCATTACACTACTAATGACACTCCCCGTTTACGCGAAGTTAACTGCCCATGAAGAAGCCCGCATC -AACGCCATGCTGGAGGGATTAGCACAGAAAAAGGATTTGATATTTGTGCGCAACGGTGATGAACATACCTGCTAT -GAAGCGGTTTCTCATCTGCGTCTGAAGCTCGGCAATACCCGTAACCGCATTGACACTGCCGAGCAGTTTATTGAT -AAGGTTGCTTCGTCGTCATCGATTACTGGGAAGCCGTATATTGTGAAGATCCCCGGTAAGAGCGATGAGAACGCA -CAGCCTTTTTTACATGCGTTAATTGCGCAGACGGATAAAACGGTGCCTGCGGAAGGAAATTAATCCGCTTTGGGA -AGGCATTTACAGGAGGTAACATGAAAAAACGCTTTATTTATCACGATGAAAAATCGAATAAATTTTGGTGGATAG -ATTACGAAGGGGATAGTTTAGCTGTCAACTATGGCAAGGTAGGTAGTATTGGTAAATTCCAGACAAAAGAGTTCG -ATAATGAAGAACAGTGTCTGAAAGAAGCCAGTAAATTGATTGCCGCAAAAATGAAGAAAGGCTATCAAGAAGATC -CAAAGTTTAACTTCATGGATCGCTACTATTTTGATGATGAAGAAATTGGGTTACATGTTAAAACGTCACACCCAA -ACTTCCAGTGCCATTTTACTGATCCACTTTATATGTGTTGCTGGGATGAAGAATCTCCTTTTGGCAGCGATGAAG -GTGCTGATGCTCTAAACGTTCTTGAAAATAGCCTCCGTAAAGAGCCGGATCTGGACTGTGCTGATTTCCCTCAAA -TGTTAATTGAAACTATGTGGGGTATGAAATACATCGCTATGGACAGTATTCTTGAAGAGGATGTTCGTGCGCAAT -TACTAGTCGATGAAATGAGCACTATCCAGAGCAATATGATTACCTACGCAACTGCATTCGGTCAGATTAAAGTCA -TGGGTAAAATCTCCCATAAACTTAAAAAGATGGGACTCAATGCACTAGCGCGTCATCAGCTTACCGCAAAAATTC -TTCAATGGGGTGACGGTCAGGACTCACCAATACTTCAAAAAATGATTGATGACCTTACGGCGTTTCCTCACGAAA -ATTAAATACTGCATTTGTCGGCAGCAACAACTGTTAAAAAAGTGCGCTTTGTTTATGCCGGATGCGGCGTAAACG -CCTTATCCGGCCTACAAAATCGTGCTAATTCAATATATTGCAGAAACCTTGTAGGCCTGATAAGCGTAGCGCATC -AGGCAGTTTTGCGTTTGTCATCAGTCTCCGATGCTATTAATCCTTAAATCCCCGCCCCCTGGCTAAAATGCTCTT -CCCCAAACACCCCGGTAGAAAGGTAGCGATCGCCACGATCGCAGATGATCGCCACCACCACCGCGTCAGGGTTAG -CTTTTGCCACCCGCAGTGCTCCGGCAACCGCGCCGCCGGAGCTGACGCCACAGAATATTCCTTCCCGCACCGCCA -GTTCGCGCATGGTGTTTTCCGCATCGCGCTGATGAATATCCAGCACCTCATCCACCAGAGAAGCGTTGAAAATCC -CCGGCAGATATTCCGTAGGCCAGCGGCGAATGCCGGGAATGCTGCTGCCCTCTTCCGGTTGCAGGCCGACAATGG -TCACCGGTTTGGATTGTTCGCGCATAAAGCGTGAGACGCCGGTGATAGTGCCGGTCGTCCCCATGCTGGAGACAA -AATGAGTGATGCGCCCGCCGGTTTGCTGCCAGATTTCCGGCCCAGTGGTGGTGTAATGCGCATAAGGGTTATCGG -GATTATTGAACTGATCGAGCAGCTTTCCTTCGCCACGATTCGCCATCTCCAGCGCCAGATCGCGCGCACCTTCCA -TGCCCTGCTCTTTGGTGACAAGAATCAGTTCCGCACCATAAGCACGCATCGCCGCACGGCGTTCCTGGCTCATGT -TGTCGGGCATCAGCAATTTCATGCGATAGCCTTTCAGCGCGGCAATCATTGCCAGCGCAATGCCGGTGTTACCAC -TGGTGGCTTCGATTAAGACATCACCCGGTTTAATTTCCCCGCGCTTTTCCGCCTCGACGATCATCGAAAGTGCCG -CACGATCTTTCACCGAACCTGCCGGGTTATTGCCTTCCAGTTTTAACCACACTTCACTGCCGTTATCCGGCCCCA -TTCGCTGCAACTTCACCAGAGGCGTATTGCCTATTGTTTGTTCTAATGTACTCACGATCTCTATCCATACGTGGT -GTTGCCTGATGCGACGCTTGCGCGTCTTATCAGGTCTACAGGTTACAAACCTTGCCATTAAAAAGCCCGGATCGC -GGGAAGCGCCTCCGGGCGTTTAACATTCACTCAACCTATCAGGCGCTTTGTGCGAGAGCAAGTTCCTCATCGCGG -GTTTCGATACGCTCGTCGCCGTTATACAGCCGCGCATGTTGCAGACCAACGAATAAACGCTCGCCACGCTGCGGG -GCATCGTCGCCATGCATCACGACCGTCAGCGGTTCGTTGTACCACCCCAGCGGCTGCACCACTAATTGGGTGTAG -TGACCTTTCGGGCTGGCTTCCAGTACCTGTACCGGCAGCGGCGAATCGAGGCTGGTACGGCGGCTGATATCCACT -TCCCAAGGGCGCAGGAAGAGATCCACCGGCCCCTGATACGCAGGTGTGTAGCCCAGCGGCCAGCGATGCGCGCCA -ACATGGAACTGCCCGCCGCGAATGGTTCCCTGCAGGCGGTTCACTTCGCCCATAAATTCGAGCACAAAACGGGTC -GCCGGTTCGCGCCATACCTGATCCGGCGCGTCAGCCTGTTCAATATTGCCCTGGCTCATCACAACTACACGATCA -GCTACTTCGGTCGCTTCTTCCTGATCGTGGGTCACAAAAACGCTGGTGAATTTTAGTTCTTCATGGAGTTGACGC -AGCCAGCGACGCAGCTCTTTACGCACCTGCGCATCCAGCGCGCCAAACGGTTCATCAAGCAGCAGAATTTGCGGT -TCCACAGCCAGCGCGCGCGCCAGCGCCACGCGCTGTTTCTGGCCGCCGGAAAGCTGCGCCGGATAACGATCCGCC -AGATGGGCAAGCTGGACCATTTCCAGCAATTTTGTCACTTTCGCTTTGATGGCTGCGGCATTCGGGCGCTCGCGA -CGCGGCAGCACCGTCAGGCCAAAAGCGATATTGTCGAACACCGTCATATGGCGGAACAGCGCGTAATGCTGGAAC -ACGAAACCGACTTTACGATCACGTGCGTGCAGGCGGCTCACGTCGGTGCCGTGGAAGCGAATATGCCCGCTGGTT -TGATGCTCCAGCCCGGCGATAATGCGCAGCAGCGTGGTTTTCCCGGAACCGGACGGCCCCAGCAACGCGACCATC -TGACCTGAAGGAATATCCAGTGAGATATCGTTCAGCACCTGGGTGCGACCAAACGACTTCTTAATATTGGCAATC -TCAATGCTCATGATGTTCCTCCTGCTGTGCGCGTTTTTCCTGATTCTCCAGGCGCCACTGCAACATACTTTTTAA -AAACAGGGTGATAATCGCCATCAGCGTTAACAGCGCCGCAGCGGTAAAGGAGCCGACGGTGTTGTAGTCCTGCTC -CAGCAATTCAATCTGTAACGGCAGCGACAGGGTTTCGCCGCGAATCGAGCCGGAAACCACCGACACCGCGCCAAA -CTCGCCAATTGCGCGGGCGTTGGTCAACACCACGCCATAAAGCAGCGCCCAGCGGATGTTCGGTAATGTGACGCG -ACGGAACATCTGCCAGCCGGACGCGCCAAGCAAAATCGCCGCTTCGTCTTCCTGGCTGCCCTGGCTTAACATCAC -CGGCACCAGTTCGCGCACCACAAACGGACACGTCACGAAGATGGTGACCAGCACCATTCCCGGCCAGGAGAACAT -AATTTGCAGGTTATGCTCGTCGAGCCAACCGCCGAGCGGGCCGTTAGAGCCGTAGAACAGCAAATACACCAGACC -GGCAACCACCGGCGATACGGCAAACGGAATGTCCAGTAGCGTCAGCAGTAACTGGCGTCCAGGGAAGTTAAAGCG -CGTCACCAGCCAGGCCAGCAGAATGCCGAACACCAGGTTTACCGGTACGGCAATCAGCGCGATCATCACCGTCAG -CCAGATGGCGTGCAGCATGTCCGGATCGGCCAGATTCTGTAAAACCGGCATCAGCCCCTTGCTGAATGCCTGCAC -GAAGATGTAAATCATCGGCACCAGCAGGATGAACGCCGAAACCAGCATCCCGATGCCAATCAGAAACCATTTGCC -CCAGTTAATCGGGCGCGCGTCATAACGCTTCAATTGGGTAACTTCCGCCATTAATGACCTACCACACGCCGACCA -AAGCGACTTTGCAGAGTGTTAATTGAGAACAGCAGCAGCAGAGATGCCGCGAGGATCACCGAAGCAATCGCGCTC -GCTGCCGGGTAATCAAACTCCTGTAAGCGCACAAAAATCATCAGCGACGTCACTTCCGTCTTCCACGCGATATTT -CCGGCGATAAAAATCACCGCGCCAAATTCACCAAGACTACGGGTAAACGACAGCGCCACGCCCGCCACCAGCGCC -GGAGAAAGCTCCGGCAGCACCACTTTGCAGAAACTCTGCCAGCGCGTTGCACCAAGCGTTTCCGCCGCTTCTTCA -TATTCCGGGCCTAACTCTTCCAGCACCGGCTGCACGGTACGCACCACAAACGGAATGCTGGTAAAGGCCATAGCC -ACCGCAATCCCCAGCCATGTATAGGTGACTTTGATATCAAACTTCGCCAGCCATTCACCGTAAAAACCGTTTACG -GAAAAGAGCGAGGCCAGCGTTAAACCGGCGACAGCCGTTGGCAGCGCAAAGGGTAAATCCATCAGCGCATCAAGC -AGCGTGCGGCCTGGGAAGCGATAGCGGGTTAGGATCCACGCCATCAGCAGACCGAAAACGCCGTTAAAAATCGAT -GCCACAAACGCCGACAGCAGCGTTACTTTGTAGGCCGCGACCACCTGCGGGTTGGTGATCACCTCCCAGTACTGC -GCCCAGCTCATCTGGGCCAGTTGCATCACCAGCGCGGAGAGCGGCAGCAGCAAAATCAGGCACACAAACAGCAGA -CTGGTGCCGAGGCTTAAGGTAAAGCCCGGCAGCACGCGTCTGGAGGAGACAGCAAACATCAGTTACGCCCCGCCG -CTAACAGCTTGTCTAACTCGCCGCCGCTGGTGAAGTGGGTTTTCATCACTTCCGGCCAGGAGCCAAATTTGTCTT -CCACGCGGAACAGCTCGGTCTGCGGGAATTTGTCTTTCAGTTTGTCCATCACCTCCGGGTTATTCACGCGGTAGT -AATAGTCGGTGATGATGGTTTGCGCCTGCGGGCTATAGAGCCAGTTCAGATAGGCTTTGGCGGCTTTTTCCGTAC -CGTTGGCCTGCACGTTTTTATCAACCCACGCCACCGGGAATTCCGCCAGAATGTTGGTTTTCGGAATCACCACTT -CAAAGCCCTGCGCTTCATACTGTTTACGGATGTTGTTCACTTCCGATTCGAAGCTAATCAGCACATCGCCCAGGC -CGCGCTCGGCAAAAGTGGTGGTCGCGCCACGACCGCCAGTATCGAACACTTCAACGTTTTTCAGGAACTGGGTCA -TAAACTGTTCGGTTTTGCCTTTGTCACCACCGTCAGCTTTATCCGCTGCGCCCCATGCCGCCAGATAGGTATAAC -GCGCGTTACCCGACGTTTTCGGGTTCGGGAAAATCAGCTTCACGTCGGAGCGCACCAGGTCGTTCCAATCGTGGA -TATTCTTCGGGTTACCCTTACGCACCAGGAAGCCCATGGTGGAGTAGAACGGCGAGCTATTATTCGGCAGGCGCG -ACTGCCAGTCGGCCGGGATCAGCTTGCCTTTATCGTGCAGGATTTGTACGTCGGTCACCTGGTTATAAGTGACAA -CGTCGGCTTTTAAGCCCTGTAAAATCGCCAGCGCCTGTTTTGATGACCCGGCATGAGATTGTTTTATCGTCAGTT -TGTCGCCGCCGTTATCTTTTGCCCATTGTTGCTCAAACGGCGGATTCAGGGCGGCAAACAGCTCGCGGGAGACGT -CATAAGAACTGTTCAGCAGTTCCGTTGCCTGTACATGGCCCGCCAGCAGCAGAGAAGCGACCAGCGCGAGTGAGT -TCTTTTTCAGTAAGTTAACGGCCATTGCGCACCCTTATAAATTTAATGACTTTCTAATAGCCATCATATTTATAA -CGGACGTGAAAGGAGTAACGGTTTTATATACCGTTTGGTGATTTGGAAGTTGAAAAGGGAATAAGAACTTGGTTC -AACAGGCGTAATTGTTGCAGTCAGTTTGGACACGAACAGCGCGGAGAAACCGGAGCGTACACATAGTACGTGAGG -ATTTCGAGCACTGCCCGGGGCCAAAATGACAAATAAAATAGCCTGGTGAACTTAGTTCAAGACGAAATCCTCCCC -ACAAATGCAGGGAGGAAACAGAGGTGAATCAGATACCGACGCTAACCGTCTCCGGCAGTGTGCTGCCGCCATCAA -TCACATTCTGTGTACCGGTTAAATAGCTGGATTCATCCGATGCGAGGAAGGCCGCCAGTTCGCCGACTTCCAGCG -GATCGGCGAGGCGACGCATCGGGATTGCTTTCGCCATTTCAGTCAGCACCGACTCTGGATCTTCCGGGTTCGACT -GGCGGGCAATGCTTTCCGCCATTGGTGTGCGCACGTATCCCGGGCAAATGGCGTTAACGCGAATACCAGACTGCG -CGTACTCCACCGCCAGCGATTTTGTCAGGCCAACAATCGCCGCTTTCGTTAAGGCGTACGCCGTTTCGCCAGGAT -CGGCCACCATATCACCAGTGACTGAAGACATCATCACAATGCGACCATCTTTGCGGGCAATCATCTCCGGCAGCA -CCGCCTTCGTGACGTTCCATACGCCTTTAATATTGATGTCAATATGGAAATCGCGATCGTCATCGCTCATATCGA -GGAAACTGCCCAGACGACAAACGCCTGCGTTATTCACCAGGATATCAATGCGCCCTTCTTTTTCCTTCGCGCGTT -TGATAGCTGCGGCTACCGACGCCGGGTCACGCACATCGGCGACAACCGCCGTACAGCGATGACCACGACCACACA -GTTCGTCCGCCAGCTTTTCGATCTCAGGGGAGATATCCAGCAAGATTAGGTTCGCGCCATGACGTGCAAAAGTTC -TGGCAATTCCTTCGCCAATTCCCTGCAATGCGCCCGTAATCAGTGCTGTCTTGCCCGTGAGTTTACCCATTTTAA -TGCTCTCCTTGTTAATACAGAGCGTTACACTCCATTCCCTCTGAAAATACAGGATAAACAAAATATTGCTGCGGA -TCAGCTCACTAATTCAGGAAAATCTCAATCCAGTCGCTGCTTTATGCATCATTTCAGGCGTTGTGTTAGCTCACT -GCTGCGCTGAATCATTTTCAATGACTCCACATCATTGAGTTGCACAAGGCCAACAAACAGTAAATCGGTAACAGA -ATTTTGCGCCGTGCGGGTAGACATCGACGAGCTACGCCATTCGGTTTCTCCGGAAACGGTATCGAGGGTGAAATG -CGCCAGCCGCCGCAGCGGAGAGTCAGTCAGAGAAGTAATGGCAATCACCGTTGCCCCCTGCTTTCGTGCCGCTTC -TGCGCACAAGACAATCTCTTTTTTACTGCCGCTGTAAGAGATAGCGATTTGTACATCGCCTTTTTTCAACGCCTG -AGAAACGGTGGCTTGTACGTGCGTGTCGGCTTCGCAGGCCACGCGATAGCCAATTTTCATCAGTTTGAACGACAG -ATCGCGCCCCACCAGCGCCGATCCGCCCAGGCCCGTTATCTGGATAAACGGTGCTTTACTGATGACCTCAATGAT -TTTTTGCAGCCGCGCGTAATCGAGCAACGCGCAGGTTTGCTCCAGCGCCAGCTCTTTTTCGCGATTCAGTTTGCG -CGCGATCACTTCCAGCGAATCATCACTGGTAATCGAACTGTGCAGGTGCAGTGCCGTGGCATTCGTTTTCTCCCG -GCTGGCACTGTATTCGCCTATTAACGCCATACGCAATTCAGTAAATCCTTGCGCGCCGAGTTTTTGGGCAAATTT -CACTATGCTCGACTGGCTAATGCCGAGCTGTTTCGCCATCTGCCGTGAAGAAACGGATTGCAGCTCACTCACGTT -GGCCTGCAGAAAGTCAGCGATTTTTTGCTCGTTTTCGGTGAATTCACTCCCCGCATTGCTTATTTTCGTCAGGTA -CAACATCTTCCACTCTCCTGGGCTGGCAGCATAAATTCCGCTTAAGTTCTTATGACGCTCTTCACACTCTGCGAG -TGTAGACTCAATGATTCCTTTAAGCCTGTCAATTCGGGATATATGATTCCATACATCTGCAATTATTTGATCGTA -AATAGTAAGGTCACCACCGATGCAATTTGAAAAGATGATTACTGAAGGCTCGAACACCGCCTCGGCTGAAATTGA -CCGCGTATCGACGCTGGAAATGTGCCGGATTATCAACGATGAAGATAAAACCGTACCGCTTGCCGTTGAGCGCGT -ACTGCCGGATATCGCCGCGGCGATCGATGTTATCCACGCCCAGGTAAGCGGCGGCGGGCGTCTGATTTACCTCGG -TGCGGGAACATCCGGTCGTCTGGGGATTCTGGATGCCAGCGAATGTCCGCCCACCTACGGCGTGAAACCGGGTCT -GGTGGTTGGTTTGATTGCTGGCGGCGAATATGCCATTCAGCACGCGGTGGAAGGCGCGGAAGATAGCCGGGAAGG -CGGTGTTAATGATCTGAAAAATATTAATTTAACGGCACAGGATGTGGTGGTTGGCATTGCTGCCAGCGGTCGCAC -GCCGTATGTGATTGCCGGACTGGAATACGCACGCCAGCTCGGCTGCCGCACAGTGGGAATTTCCTGTAATCCGGG -GAGCGCCGTTTCAACCACCGCTGAGTTTGCCATTACACCGATTGTAGGTGCCGAAGTTGTTACCGGTTCTTCGCG -GATGAAAGCAGGTACAGCGCAGAAACTGGTGCTCAATATGCTTTCCACCGGGCTGATGATTAAATCCGGCAAAGT -GTTCGGCAACCTGATGGTCGATGTGGTCGCCACCAACGAAAAACTGCATGTGCGACAGGTCAATATTGTTAAAAA -CGCCACCGGATGTAGCGCAGAGCAAGCGGAAGCGGCGTTAATTGCTTGCGAGCGCAACTGTAAAACGGCCATTGT -GATGGTGCTGAAAAATCTCGATGCCGCAGAAGCTAAAAAACGCCTGGATCAACACGGCGGCTTTATTCGTCAGGT -TTTAGACAAGGAATAACCCATGGCCAAAGAGATCAGCAGTGAACTTCTGAACACCATTCTTACCCGTGTCGGCGG -ACCGGGAAATATCGCCAGTTGTGGTAACTGTATGACGCGCCTGCGTCTGGGTGTACATGACAGTTCACTGGTTGA -TCCCAATATCAAAACGCTGGAAGGCGTGAAGGGCGTCATTTTGACCAGCGACCAGGTGCAGGTCGTTTTTGGGCC -TGGTAAAGCGCATCGTGCCGCAAAAGCGATGAGCGAGCTGCTGGGAGAAGCACCGGTACAGGATGCCGCAGAAAT -CGCCGCCCAGAACAAACGTCAGTTAAAAGCCAAACAAACCTCCGGCGTGCAACAATTTCTCGCCAAATTCGCCAC -CATCTTCACGCCGCTGATCCCCGGTTTTATTGCCGCCGGTCTGCTGCTGGGGATAGCGACGTTAATTGCCACGGT -GATGCACGTTCCGGCAGATGCTCAGGGAACACTACCCGATGCGCTGAATTTTATGAAGGTGTTCAGCAAAGGTTT -GTTCACTTTCCTGGTGATTCTGGTGGGCTATAACGCCGCCCAGGCATTTGGCGGCACGGGCGTAAATGGCGCAAT -TATCGCCGCGCTCTTTTTGCTCGGTTATAACCCCGCAGCGACCACCGGTTACTACGCCGGTTTTCACGATTTCTT -TGGTCTGCCCATCGATCCGCGCGGCAATATTATCGGCGTGCTGATTGCCGCGTGGGCCTGCGCCCGCATTGAAGG -CATGGTGCGCCGCTTTATGCCGGACGATCTCGACATGCTGCTGACCTCGTTAATCACCCTGCTGATCACCGCTAC -GCTTGCGTACCTGATCATTATGCCGCTGGGTGGCTGGTTATTCGAAGGTATGTCATGGCTGTTTATGCACCTGAA -CAGTAATCCGTTCGGTTGTGCGGTTTTAGCCGGGCTGTTCCTGATCGCCGTGGTATTTGGCGTGCATCAGGGCTT -TATTCCTGTTTACCTCGCGTTAATGGACAGCCAGGGATTCAACAGCTTATTTCCCATCCTTTCAATGGCAGGCGC -GGGCCAGGTGGGCGCGGCGCTGGCACTCTACTGGCGGGCGCAACCGCACAGTGCGCTACGCAGTCAGGTACGCGG -GGCGATTATTCCCGGCCTGCTGGGCGTTGGTGAACCGCTGATTTACGGTGTCACCCTGCCCCGCATGAAGCCGTT -TGTTACCGCCTGTTTAGGCGGCGCGGCGGGCGGTTTGTTTATCGGCCTGATAGCCTGGTGGGGTCTGCCGATGGG -CTTAAACAGCGCCTTTGGGCCGTCTGGTCTGGTAGCGCTGCCGCTGATGACTTCCGCACAAGGCATCCTTCCGGC -CATGGCGGTTTATGCTGGCGGGATTCTGGTGGCATGGGTTTGCGGGTTTATTTTCACCACGCTCTTTGGCTGCCG -TAACGTCAATCTGGACTGATATCATGAAACGGACAATGCTCTATCTTTCTCTGCTGGCTGTTAGTTGTAGCGTCA -GCGCCGCAAAATACCCTGTTCTGACAGAAAGCTCGCCAGAGAAAGCAGGGTTTAACGTCGAACGGCTTAACCAGA -TGGATCGCTGGATTAGCCAGCAAGTTGATGTCGGTTATCCCAGCGTAAACCTGCTGATCATTAAAGATAATCAGA -TTGTGTATCGCAAAGCCTGGGGAGCGGCGAAAAAGTACGATGGCAGCGTGTTGATGGAACAGCCTGTCAAAGCCA -CCACCGGGACGCTGTATGACCTGGCCTCAAACACCAAAATGTACGCCACGAACTTCGCCCTGCAAAAGCTGATGA -GCGAAGGCAAACTGCATCCTGACGATCGGATTGCGAAATATATTCCGGGGTTTGCCGATAGTCCAAATGACACCA -TTAAAGGCAAAAACACCCTGCGGATTTCTGACCTGCTGCATCACAGCGGCGGTTTCCCGGCAGATCCGCAATACC -CGAATAAAGCGGTCGCGGGCGCGTTATATTCCCAGGATAAAGGCCAGACGCTGGAGATGATCAAGCGCACGCCGC -TGGAATATCAGCCCGGCAGCAAACATATCTACAGCGATGTCGATTATATGCTGCTTGGATTTATCGTCGAGTCGG -TTACCGGTCAGCCGCTTGACCGCTATGTTGAAGAGTCGATTTATCGCCCGCTCGGCCTGACACATACGGTATTTA -ACCCGCTGCTGAAAGGCTTTAAACCGCAACAAATTGCCGCCACGGAATTGAACGGCAATACCCGCGATGGCGTGA -TCCATTTCCCGAATATCCGCACCTCCACTCTCTGGGGTCAGGTGCACGATGAAAAAGCCTTTTATTCGATGGGCG -GCGTTTCCGGGCACGCAGGTTTGTTTTCCAATACCGGCGATATTGCGGTGTTAATGCAAACGATGCTGAACGGCG -GGGGCTATGGTGATGTGCAGCTGTTCAATGCGGAAACGGTGAAGATGTTCACCACCAGCTCTAAGGAAGATGCCA -CTTTTGGCCTCGGCTGGCGCGTGAATGGTAATGCCACCATGACGCCGACGTTTGGCACGCTGGCAAGCCCGCAAA -CCTACGGTCACACTGGCTGGACCGGAACGGTGACCGTTATCGATCCGGTGAATCATATGACGATTGTGATGTTAA -GCAACAAGCCACATTCGCCGGTTGCCGATCCGCAAAAGAATCCCAATATGTTCGAAAGCGGTCAGTTGCCGATTG -CAACTTATGGTTGGGTAGTTGATCAGGTGTATGCGGCGTTAAAGCAGAAGTAATAAAAAGGCCAGTCAGTAATGT -TACTGGCTGGTCTGAGAGTGCTGACAAACGCAAAACTGCCTGATGCGCTACGCTTATCAGGCCTACGTGGAGCCC -ACAATATATTGAATTAGCACGATTTCGTAGGCCGGATAAGGCGTTCACGCCGCATCCGGCGTGTACAACGCGCAC -TTGGTCAACAATCTGAGGCCAGTCAGTAATGTTACTGCCTGGCCTTTAATCAATGAATCAGAAACGCTTACAGCG -CCATCAACTTGTCCAGCGACGGTGCGAAATAATAGCCGCCGGTTACCGGTTTGGTGAAACGCAACATCGCATCAC -GCTTACCATCGGTATCGCCAAACATGCTCAGCAGTTGCTGCTCAATGTTATGCAGACGCGCGCAGTAGGCGCAGA -AGTACAGACCGTGAGTGCCACTGGCAGTGCCGTACGGCAGGCTCTGGCGAACAATCTTCAGCCCTTTGCCATCTT -CTTTCAGATCAACGCGGGTGAGGTGAGAGGTTTCCGGACGTTCGTCGCCGTCGATCTCTTCGTTGGCCTCTTTGG -TGCGCCCGATCACCATCTCCTGATCGTGAACGCTCATCCGGTTGAGCTGCTTCAGGTTGTGTTCCCAACGCTGGA -CAAACACATAGCTGCCGCCCGCATCCACGCCGTCTTTGATAACCGCCACTTCGCGACGCGTCTCTTCACCCGCCG -GGTTTTCCGTACCGTCAACAAAGCCGCTCAGGTCACGCTCTTCAACCCAACGGAAGCCGTGGATCTCTTCTTTCA -CTTCAATGCAGTCACCAAAGGCTTCCATCGCCGCCTGGGCGACAGAGAAGTTTACGTCGTGACGCAGAGAAAGAA -TGTGGATCAACACATCGAACTGGGTCGTCGGCGCAAGGCCTTTACCGTAGCCCGGAAAATCTTTCAGCTCTTCTG -CCCCAACGCCGCCGCTCAGAGCGCGCCAGGTGTTGTTACCAAAGGCAACCACCGCACCAAGATGCGCGTCCGGGA -ATTTCGCTTCAAAAGTTGCCAGTTTGTCGGCAAATGTTTTACTGGCCGCACGCAGGGCGTCAACTTCCCCTTTCA -CGTTGGCTTCGATCCAAATCGCCGCGCGGCAATGTTCTGGCAAAATGCCACTCTGAACCTGAGACATTGTTCCTC -CTGAAAATAATAATGCCACGCAATCCGTGGCATTGTTGAGCGCTATTTTACGTGTTTTTTCGCGGCGGCGGTTTG -TTCAGACGCAAATTAACGCCGCCAGATAATTTTACTGACTTTCCAGTTTTTCAGGGTATCGTCCGAAGGCATTAA -CCCTTCAGGACCACGCCATTCCCCGCTGAACTGGTAGCTAATATGTTGACTGCCTTCGGCTTTACATTCGACGGC -ACGATTATCATCACCATCAGCTTTTTGGCAATTGCCAAATGCTTTGCTGTAAAGGTCGCTAAACGGTGTACCGAT -TTTAACACCGGTGTCAGCAGGAATATCGCTATCCAGCACGTCAATGCGACTGATCGTGCCTTGATCGCCGTTAAT -CACCATCGCCACGTTGTCGCCCTTCATCACTTCAAAAAAGCGCACCACGTTGCCGTTCGCGGTTTTCATTCCGCT -GCGCAGGCGATAATCGCCATCAAGCGCATCGGCAATGGCTTGTTCTTGCAGTGGTGTGGACGCCGTTAATTCACC -CACGCCCTGCTCGCTCACTTTGGTGGACGACCCAAACCAGTTCCACGGGTTAGCGGCAGACCAGTTAACTGACGA -CATCGTGGAACAGCCGGTCAGCATCAATGGCATAGCGCATAACATTAAACGCAGCGATTTCATGTCACTTCCTTT -GGTTATTCAATAACGTTGCTTGGAGTGCAAATTCACCAAAAAGTGCCGTTATTCTTTTACTTCATAAAAACAAGC -GCGTAAACGTCGATTGGTCAGCAGCCAGATTAACGCCACAATATCCGCCACTACCAGCGCCAGACCGATACCGCT -AACGGATTCACCGTTCAGCCACAGCCACGGTTGCCAGCAAAGTAAAACCACCTGCGCCAACAGCAACAGAAAATA -GAGTACACGCCAGGTGCGAGGAAACGTAGCCCGCCGACCGCTCAACAAAAACGCCAGCACCGCCGGAATGCCAGG -AATCAGCCCCAGCCAGAAATTATCGTGATCGGGATAAAACAGATTTAGCAGCGCAGTACCCTGCTCGCGCGACGC -ACCGGCAATGACAAACAGCACCCAGGTTCGCGCCTGAAGCAATAGCACAAGCCAGAAGAGCAAGGGTAAACGCAG -GCGACCGTGCGCATCATAATGGACAGGATGAAACTCAGTACTCTTCATCTTCAATCAAACGCTTACCCAGACTCA -GCACGTCGGCGTGTTCATATCCCAGGCGTTCATACATTCCGAGCACCATGTCGTTATCTTCCGGCACATTGATCT -GAATTTTCGGGCAGCCACGAGCAATCAGCTTTTTCTCCAGCCGATTAAGCAACGCATTGGCAATCCCACGCCCAC -GAAACTCTGGATGCACGCCAAGATAATAAGCAGACCCGCGATGCCCGTCATAACCGCCCATCACCGTTCCGACCA -CGTCACCGTTTACCTCAGCGACCAAAAACAAACTGACGTCATGGTTCATCTTACGCTCGATGTCCATTTCCGGAT -CGTTCCACGGACGCAGCAAGTCGCAACGCTCCCAAAGGGTGATGACCTCTTCGAAATCTTCCTGGCGAAATACGC -GTATCTCCATGGTATTCGTTACCTTTTTGCGGGTTAAAAGGCTGATTATGGCGTGAACGGTCGAATTAGCCAATA -TCTGACGAAAATCGGTTGAAAAAGTGGCATAATGGGGAGTTGTCAACTATTGAAATGAAAAGTAAAACAATTCTC -AACAGCAAACCGTCGTAACGGATTACGCGATACGATATAACATCTGGAACTTTATTATTACAACTCAGGCCGTAT -GAGCACTTTTAAACCACTAAAAACACTCACTTCGCGCCGCCAGGTGCTGAAAGCCGGTTTGGCTGCCCTGACGTT -GTCAGGAATGTCGCAAGCCATCGCCAAAGACGAACTTTTAAAAACCAGCAACGGACACAGCAAGCCGAAAGCCAA -AAAATCTGGCGGCAAACGTGTCGTTGTTCTCGATCCAGGTCACGGCGGAATTGATACCGGAGCGATCGGACGCAA -CGGTTCGAAAGAAAAACATGTGGTGCTGGCGATTGCTAAAAACGTCCGTTCCATTTTGCGTAATCATGGGATTGA -TGCGCGTTTAACGCGTTCTGGCGATACGTTTATCCCACTTTACGATCGCGTTGAAATCGCCCATAAACATGGCGC -AGATCTGTTTATGTCAATTCATGCCGATGGCTTTACCAACCCGAAAGCTGCCGGTGCTTCGGTATTTGCCCTCTC -TAACCGTGGGGCAAGTAGCGCAATGGCGAAATACCTGTCTGAACGCGAAAACCGCGCCGATGAAGTTGCCGGTAA -AAAGGCGACTGACAAGGATCACCTATTGCAACAAGTGCTGTTTGATCTGGTGCAAACAGATACCATTAAAAATAG -TCTGACGCTCGGCTCGCATATTCTGAAGAAGATTAAGCCGGTGCATAAACTGCACAGCCGCAACACCGAACAAGC -GGCATTTGTGGTGTTGAAATCACCGTCGGTTCCTTCGGTGCTGGTGGAAACCTCGTTTATCACCAACCCGGAAGA -AGAACGGCTGTTAGGCACGGCGGCGTTTCGTCAGAAAATCGCCACAGCGATTGCTGAAGGCGTGATCAGTTATTT -CCACTGGTTCGACAACCAGAAAGCACATTCGAAAAAGCGATAAGTTATGAAACCCGACGCACACCAGGTTAAACA -GTTTCTGCTCAACCTTCAGGATACGATTTGTCAGCAGCTGACCGCCGTCGATGGCGCAGAATTTGTCGAAGATAG -TTGGCAGCGCGAAGCTGGCGGCGGCGGGCGTAGTCGGGTGTTGCGTAATGGTGGTGTTTTCGAACAGGCAGGCGT -CAACTTTTCGCATGTCCACGGTGAGGCGATGCCTGCTTCCGCCACCGCTCATCGCCCGGAACTTGCCGGGCGCAG -TTTCGAGGCGATGGGCGTTTCACTGGTAGTGCATCCGCATAACCCGTATGTTCCCACCAGCCACGCGAATGTGCG -GTTTTTTATTGCCGAAAAACCGGGTGCCGATCCCGTCTGGTGGTTTGGCGGTGGCTTCGACTTAACCCCATTCTA -TGGTTTTGAAGAAGATGCTATTCACTGGCATCGCACCGCCCGTGACCTGTGCCTGCCATTTGGCGAAGACGTTTA -TCCCCGTTACAAAAAGTGGTGCGACGAATACTTCTACCTCAAACATCGCAACGAACAGCGCGGTATTGGCGGGCT -GTTCTTTGATGACCTGAACACGCCAGATTTCGACCGCTGTTTTGCCTTTATGCAGGCGGTAGGCAAAGGCTACAC -CGACGCTTATTTACCAATTGTCGAGCGACGGAAAGCGATGGCCTACGGCGAGCGCGAGCGCAATTTCCAGTTATA -TCGTCGCGGTCGTTATGTCGAGTTCAATCTGGTCTGGGATCGCGGCACGCTGTTTGGCCTGCAAACTGGCGGGCG -CACCGAGTCTATCCTGATGTCAATGCCGCCACTGGTACGCTGGGAATATGATTATCAGCCAAAAGATGGCAGCCC -AGAAGCGGCGTTAAGTGAGTTTATTAAGGTCAGGGATTGGGTGTAACTCCCTCACCCCCACTCCCGCATCCGCTG -ATGCAGCGTCAGTGACGGCTTCTCGGAAAACAGCTGCTGGTAATCCGTGGCAAATTGCCCCAGATGCCAGAATCC -CCACTGCATGGCGGCGTCTTTTACCGTCATACTTTGCGACCACGGACTTATCAGTTCGCGGCGTACGGCGTTCAG -GCGAATGCGTTTCAGCCACGCGTTCGGGCCAATGCCTAAAATAGCGTGAAACGCGTTTTGTAGCGTGCGGCGGCT -GACATGCAGTTGATTACACAAATCCAGCACCGTCACCGGTTCGGACATGTTTTCCAGCACATATTCACGGGCGCG -GGAAAGCAATCGACGGTAACTCTGATGACTGATGCTTTCCGCCGTCACCATTGGTTGCGCTTCTTCCAGCATGGC -CCCCATCGCCATTAGCAAATTATCCCCCAGCACTTTTCGCACTGCAGGCTGATGGAGATTTTCCGGATTCTCGCA -AAACGTCGCCAGCGCCTGTTGGACAAAGCCCCACAGCGCGGCTTTATGCTGCTCTTTCACTTCCAGCGCCGACTG -GTTACGCAACATATGTAATACCCGATCCGGGTTATGCAAAAAGTTAGCCTGCCGGGTGATGACATCTTCAGAAAG -CACCACGCCCAGGATCGTGTAATCATCCGGCGTGCTCAGTTCAAATTCAGTGCCACCAGGGCGGGTGGCGATTTC -CGCGCTTCCCAGACATTGCGAACCGATAAATCCCTGCTCACCGCGCGTCGCCGGAATGCCAAACCAGAACGAGTT -CGGCCAGACCAGGCACGACTGACGCAGCGCCAGACCGGTGTATTCACGAAAAACCTGAATATCATCGAGTAGAAT -TTCCGTAAATTCACCATGAAACTTGCCCGGATGCAGCTGATCGTAAATCTGCTGCCAGGCGGTAATCGTTAAAGC -ATGTTCATAGACATCCGTTGTCTGTCGTTGATGAACATTATCCACTTCGACCTTCGGCGTGAGCTTCAGGTTTTC -GGGTAAGGGTTCATGATAAAGATGGTGCAAATTGGCTGTACGGGTCTTTTTCATGATGTTAATGCCGGGTGTTGT -AGGACACCCGGCACCTCCGACAGGTTAATGGGGCTTGAGACGATAACGACTACTGCGTTTACGTAACGTCCCGGC -AGAAAAGAGCTGTTCGAGCGCATTTCTGGCTTTTTCCAGCGGCCAGCCAAAGTGGGCAGCCACTTCTCCTGCCGT -CATTCCCTGACGTACTGATGTTAACAGCGCCAACAACTCGTCAGCAGATTCCGCGACGATAACTGGCGCGTCGGG -TTCCCTTACGGGTTGCTTCGGCTGGCGGTTAAAGCCAGTAACCAGCCACTGGGTGTCATCGTCTGGCCGACCGAT -CTCCTTGCGGCTGATGACACGCCCGGTACGCATCGCGGCAGCACAACCTGCGTCCAGCGCCGCACGACACGCCGC -CAGATCGCCTTCCACCACCAGCGTTAAGCGACCAGGGTCAAGCACTTCGTGACTGAGCAGACGAACGTTAGCTGC -TTTGAGCATGGCATCCGCTGCATCTATCGCGGCGACCATGCCGTCCACTTCCAGCAATCCCAGTGCATTGATCAT -CGGCAACCTCCGTTACGCACGCTGGATTGGATTACGCGCGATTTCCAGCACTGCATCGGTAAAGGCGTTACAGGC -TGCTTTACACGCTGCCTGGCTACCGGTTAAAAATGCTGCCGAGTAGTTGGTTTCAGACGGTGGCGGGACATAGGT -CGCCAGCTGTACGTCGGCAGACTTCAGGGCTGCATCAATGCCATAGGTCGCTTCCAGCGGCGGTGCCACCAGATA -CGCCATCGGATCGCCAAGCGTGATCCCGGCGGTTGATGAGAGATAAGAACCGGTACGCGAAACTACATGTGCCAG -GAATGCCGTATCTTGCGCGTCATTAGCCCACTGGAAAGCTGCGCCATTTTCAATATGCGCAATCATCGCATCCAG -ACCTGCACGCACTTCCGCCGGGTTTGGCCCACCAAGCATAATCAGCACTTCACCGGCAGTCGGTGACGGGCCGTG -TGCAGCGCCCGCATATAGCGAGCGGCCATACACCACTTCCACCATCGCCTGCTTGGTCGCTTCATCAGCGGCAAT -GTAGGTGACGTCATCGGAGTCGGCAGAAATCAGACCGAGGCTACGAATATGCGGCGGCAATTTCAGTTCACGCGC -AAAATCGGCGTTAACGGAGGCAATCACCCGCATAGCGGTGACAGACGGTCGAATCAAATCTAAAGCTGGCATGAT -GCCTCCTTATCGGGTCATGTTGATGCCGGATGCTTTCTGCTCCAGCATACGTTTCGCCAAATCCACAATGACGGC -TGCGGCTTCAACCGGCGGCGTGCCGCCCTGGTGAATGTTAGAGATACAGGTGCGATCGGCCTCAACGGTGGTCGC -CATACGCGGCGAGTAAACGGCGTAGCAGGAGAGGCTTTCTGACTGACCCAACCCCGGACGTTCGCCCACCAGCAG -GATCACTACTTTCGCGCCGAGGATCTCACCGATCTGATCTTCAATCTTCACGCGACCATAACGAACAAAGAATGG -TGTACCGACTTTCAGCCCGGCCTGTTTCAGGCCCGCCATCAGCGGTGGCAGGATCTCTTCGTAGTTCACGGTGAT -CGCATCAGTTGACAGGCCATCAGAAATAACGACCTGTACGTCCGGATTGGCAACACACTGCGCTTTCAGCGCTTC -AACAGCTTCTGCACACAGGCGGCGGCCCATATCCGGGCGAGTCAGGTAGAGATTTTTGTCGCTAATTTCAGAGCG -TACTTCCAGCAAGCCCTGCGCTTTCACCCACTCTTCCGGCACTTCTTTCAGTACGGTATCTTTCGAACGAGAGTG -ATCGGCCAGGAAACGCAGCAGCGCCTGCGTACGTGGACGCGGACCGGCACGACCGGTACAAACGCGGGCCACGGT -GCTGCGGCGCAGTTCTGTTAATACGTCTGCGCGATGCGGATTTTCAACACCAATCCACGCTTTTGCTTCAGCGGA -ACCTAAATCCAGCGCACAGCTTTCCGAGGTCACCGGTGCCGCACAGTTGGTGGTGGCGCACTTTGCTTCTGACGG -CGCGGGGGCCGCTTGTCCCATTGACGCCATCACGCTGCGTACAATTTCTTCAATCTGTTTTTGATCCATGATATG -TTATCTCCGCGTCATCAGAAGAACAGTGACGGATCGCCCGCCCGTTTGGTCAGGCGACCGTTTGCCATAATGCCC -ATGCTTTCCAGCCAGCGTTCAAACTCCGGTGACGGGCGCAGGTTGAGTAACTGACGCACAGTGGCGGTATCGTGG -AATGCGGTGGTCTGGTAGTTGAGCATGATGTCATCACCCAGCGGCATCCCCATGATGTAGTTGCAGCCTGCGGTG -GCGAGCAGGATCATCAGGTTTTCGTTGAGGTTCTGGTCAGCGTCAGCGTGGTTGGTATAACAGCAGTCACAGCCC -ATAGAGATGCCGCTCAGCTTGCCCATAAAGTGATCTTCTAAGCCAGCACGGATAATCTGGCGGTCGTTGTAGAGA -TACTCCGGCCCAATAAAGCCGACCACGGTGTTGACGATAAACGGATCGTAATGACGCGCCAGCCCGTAGTTACGT -GCTTCCATCGTTACCTGGTCTGCGCCGAAGTTAGCGCCAGCGGATAGCGCAGAGCCTTGTCCGGTTTCGAAGTAG -AGGCAGTTTTCCCCGGCGATACGGTTGAACTCCGCGCCCACTGCGCGCGCTTCGTCGAGCATCGCCAGCTCCACG -CCAAACTCTTTCAGCCCTTTTTCGCTGCCACAGATACTCTGGAAAATCAGCCCGCCCGGTGCGCCACGACGGATC -GCTTCGATCTGGGTGGTGACGTGCGCCAGTACACAGCCCTGAGTTGGGATGTTGAATTTGTCGATCACGCCATAG -ATGGTATCCAACACGCGGCTTAAGTTTTCCACGTCGTCAGTCACCGGGTTAACGCCGATCACCGCATCGCCCACC -CCGAAGGAAAGCCCTTCGTAGATTTGCGCGGCGATACTTTGCACGTCGTCACGGGTGTCATTTGGCTGCAAACGG -GCGCTAAAGGTGCCCGGAATACCGATGGTGGTATTGGCCTTTTTGATTACCGGCATTTTCTTCGCGCCGTAGATC -AGGTCCGCGTTGGAGCAAATCTTCGCTACCGCCGCGACCACTTCCGAGGTCAGCCCTTTGCGGGTAAAGGCAATG -TCGTCCACGCTGGTTTCATCGCTCAGCACATACTCACGCAGTTCGCTGATGCTCCAGTTTTTAATCTGGTTGTAG -GCCGTTTCGTTAACATCGTCCTGAATCAGCCGCGTCACGCAGTCATCTTCATAGGCAATCACCGGATTATTGCGG -ATGTCCGCTACGGTCATTTCCGACAACACCTGCTTTGCCGCCACGCGCTCCTGTGAGCTTGCCGCTGCGACGCCC -GCCAGCACATCCCCCGAACGCAGTTCGTTGGCTTTAGCCAGCACCTCTTTTACATCCTTAAACTGATATACATTG -CCGAACAATGTGGTCTTTAGTTTCATAAGTCGTTCCCTCAGGAAGAATCGATGATTGGCATTTTTCACAGCATTC -TAACAATCACGTTTCATCGTCAGCCCTTGTCGTGTAAGGTGGTTGCCTAAACACGCCCGTTATTCATCACGCCGA -ACGCGCCGGATACATGATCGGGGTTATCCAGTCGTTAAATCAAGGTATCCGGTTTTGAGCAAGACACCACTCACA -GCAAAGGCCATAGACGCCGCACAGCCGCAGGACAAGCCCTATAAACTCACCGATTCACTGACGCCGGGGCTGTTT -TTGCTGGTGCATCCCAACGGTTCGAAATACTGGCGATTCAGGTATTGGCTGAATAAACGAGAGTTTTTGCAGGCC -ATTGGAGTTTACCCGCTAATCACACTCAAAGAAGCACGCAGGCGCGCCACGGAGAGCAGATCCCTTATTGCCAAT -GGAATTAACCCAGTGGAACAAGCCCGCAAGGAAAAAGCCATTGATGCGCTCAACATGGCGGCAGGATTTAAGAAG -GTGGCGGAAGACTGGTTTGCTACCAGGGTTGGAGGGTGGTCGGAATCCTATGCAAAACAGGTCAGATCGGCACTA -GAAAAAGACGTCTATCCGGTACTTGGCAAGCGGTCGATTGTCGATATAACCGCCCGTGACGTGCTGGCATTACTC -CAGAAGAAAGAACGTACCGCACCGGAGCAGGCCCGCAAGCTACGCCGGCGCATCGGTGAGATCTTCAAGTTTGCC -GTTATCACCGAACTGGTAACGAGGAATCCGGTTGCAGATCTTGATACGGCACTGAAGGCCCGCCGACCTGGTCAC -AACGCGTGGATACCGATTAGTGAAATTCCGGCCTTCTACAAAGCCCTTGAGAGGGCCGGGAGCGTCCAGATTCAG -ACGGCAATACGTTTGCTTATATTAACGGCATTAAGGACCGCAGAACTGCGTTTGTGCCGTTGGGAATGGATAAAC -CTGGAGGACGCAACAATCACATTGCCCGCTGAAGTCATGAAGGCCCGCCGCCCGCATGTGGTCCCGCTATCACGG -CAGGCGGTCGAGCTATTGCAGGACCAGTTCACACGCAGCGGATACAGTGCTTTCGTCTTTCCAGGCCGATTCATG -GATAAACCCTTGTCAGCCAGCGCGATACTTAAAGCGCTTGAGCGTATCGGGTACAAGTCGATAGCCACAGGCCAC -GGCTGGCGCACAACGTTCAGCACCGCACTTAACGAATCAGGCAGATACTCGCCGGATTGGATTGAGATCCAACTA -GCCCACGTCCCGAAGGGAATAAGGGGCGTTTATAACCAGGCTGCCTACCTGAAGCAACGGCGAGCAATGATGCAG -GATTACGCCGACGCTATTGATTCAATATTGGCAGGTAACGGCAATCCTCTAGAACCGGAATGAATAATTAAGCGG -CTTTTTTGCAAAGCGCAATTTTGCATTTTGTATAAGTATTTGTTTTGTGTGGTTTAACTATCACCTGATAAGAAA -CCTGTATTCAATTTGCCGGATTCGTCCGGCTTTTCTTTTTCGCTAATTATTCCATTATTCCAATTAAGTGGAATA -AATTATTCAATATCAAGAACTTAAATCCATGTTTGCAACGAAAGATCCAGAGTTCGAAAATAGGATCAACACAAA -TAAAAGCCCCCGGAATGCTGCAACATGCCGGGGGCGGTATGAGAAACAAGCTAAAGGAGAATTTCTCATGTCTGA -TATGCTAGCAGTAGAACAAGAAACAAACAATGATGTTCGTCAATTTTTAAACAAAATTAACGAGTTACGGAATAA -AGCACCCAAAAACGAAGAGACTAAACACGAAGAACACACGCCAGATAATCACGAGGAAACAGATCATCACGAGGC -AAAACAGCAGGAGCAAGCCTGGCGTGGCAACCTGCGCTACCTGGACACATTAAACCGACTTGATGAAGTATTGCC -CCGCAAACTGTACGAAAGATGGGAGAAAGAACATACAGTCAACGACGAGGCTGTGCTACGTGCTCTTTGTTACTT -CGCTGGTACTGGCAAAAACTCACAGTTGGGATGGTGCAGGGTTGGTAGGGGAACAATCGACAAACGAGCCAGGCT -ATCAAAAAACACGGTTAAAAAATGCCTCGATCGTCTGGTCAACCACTTCAAACTTGTTGAGCGTACTGAAGGCTA -TATACCAGGATCGGCAGAAAGGGAGTGCAACGAATACCAGTTATTATTCAAGCCGTACAACATGAAATAACGGAA -TCAGGCGGGCAATGTTCCCGCCTTTTCTTTGCCTTAATTCCATGAATTCAGGTGGGTCAAAAGTTGCCGTTAGTG -GTGGGTCAAAAGTTGCCGTTAAGGTGGGTCAAAAGTTGCCGTTAAGGTGGGTCAAAAGTTGCCGAGTAAGAATTC -TACTATTAAGAATTCTAGGCGACGGGAGTTTTTTAGCCTCCCGGTCGGTCATAGAGAGTCGCCTAGAGTTAAACA -GAAGAATTATTTCGCCGCCTGATAGGTCGGCTGGTTGCGAGCATTAACCATGCTGATTAGCGCAATCATTTCCAG -CAAGCTGGAAACGCCCATTCACTCACGCACAACCTGAACAGCAGACCAACAAACCATCATGGCATTCGTTCATGG -GGAGCGCGGTATATCTCAAAGGGTGATTTCTTATTGGTGGGCCTTCGGAAGGCTTCGAGCAATTGCCAGCTTAAA -AGACGGGCTTAGCAGTGATGGTTATCCGCCACGAATGTCCGTCATATTGCATTGCGCAGAAACGCGTGGCACTGA -GGGAGTTTTCCGAATTAGTTTTGGGGACCCTTTCCCTGCTTCTGGAGCAAAAGACGAACGGCAAATGCAGTGCTT -CCTTGTACGACTGCAGCGAAGAAGAAAAGCTGTTTGTTAAGCGCCTGAAGTTAATCAAAGCGGATATCCACGCCC -AGCTGAAGGCCTGTGATTGCGATATTTCTGAATGACAGGTGGAATCATGAAACACGTTTTTAAATATCTTGATTT -TGCAGAAGACCGCGAACACGCAGAATCAGTGGCGACCAAAGAGTTAAAACTGGACCACGTAGAAAAATTCGCTAT -CCGCGATCTAGCCAATGATATCAAAGAGCGTGGGTGTGTTGAGCTTGTCCAGCCTGGTGGATTCGATGAGCTGGT -TCAGATCTATGAGGCCGGAGGCGATGGAATAGAGCCACTCAATTGTGGAATCGAATCAAGGAAGGTGGCAATTGC -TGCCCTGCTTCGCGTCATGCGTGAACCAGACTTTCAATGCCTGGAAATGGTTCACGAAATCATAAGAATTGCTAG -AGATTTGGAAGCGCCAGTTGACGCTCCGTTAGATTGCTAACGCCAAAATTAGCGCTGAATTAATGGGTAATTATT -GCGGTTTTTGTCAATTTTCAACCTCAATTCTTGCGAAAAATGGCAAAAATAACGGTATTTTTCATCATTTATTGG -GGGTTTTATGGAAGGCGAACTGATAGAAAACAATGGGTTAGACATTTATGACACCAGCGAAACACCGAAAAAGCG -CGGTCGGCCAGCTAAATATAATGAAAAAATAGCAACGCAAATCGTCCTATTGGTAAGCGAAGGTTATAGTTTGCG -CAAGATCAGCATGATGCCAGGGATGCCGAGCCACCGTCAGATGATGCGCTGGCAACTGGAGCATATGGACTTCAG -GGAAGGGATAGCCTGGATGTCGTGGCTATGGTGCGCTGAAGCTGGCCGACGTGCCGTCGAGATAATCGACGAGGT -TGATATAAACGCAGAGGATGGGCCGAAGCAGTTGCGCAAAGCAGAAGCAAAGGCAAAGGCACTACTGGCAGCAGC -CAAGCTGAATAGTTTGAAACATTCACCATTTGGAGATGACAAACAATGAGCCTGATCCGCACTGAAACCAGAGAC -ACAAAACGCGCAGCTGACCCACTGCACGACCTGCGTAGCAAGCCGTTTTCTGAGTGGGGCGAAGATGAAATCAGG -CGTTTTAATCTGATAGACGCGCTTCTTGAGTTTGTCTACACAGACACATCCAGCCCGTTCGGTATCGGCATGACC -TTCGATTACACGGAGTGCTGGGAAATTGGTGTTCGTGACGACTGCCTGGTAATGACACGCGTTAAGCCGGTGCAT -CCAGAATATGCGAAGCACTGGAACATGAAAGGCGTCATGAATGACAAAACCCGCTTCCACGCCGACAAGTGGGTA -GGGTACAGCAAGGTGCTTGCCTGGGTGAGCTTATCGCACAAAGACACCTTCACGGGTGCGAAACGGTTTCAATAC -TTCCAAACGATGTACGACATGGAACGGCAAATCAACGCAAACCTGCCGGTTGGCGGCCTTCCCAACGTTGACACA -GAGCGAACTGGCAAACTGTTCCAACGCGATGACTTTTCTGAGGATAGCCATGCCAACGATCCGAAGTTGGTTGGT -GATGATTACGTCCCCCAGGCACCGGAGCAAATCAACTGAATTTTCGGACAAACGCGCGCGTAGCCGACGTCAGCG -GCAAGACTGGCGGTCATTTCCCCGCTCCTACGCGAAAAATCCCTCACAACTACCCTGCAAATTTTCCAGATTTCA -CGTACACGCGCCAAAAATAAAGGCCCAGGCAGTTAGCAACCTACCCGGGCCTTTCTCACAATCCCCGCTGACATT -ATATCACCCATCTTTCCGTTTTCAGGTGGGAGACTGATGGCCGCCGACGTTGCACAATTGATTAATTTCTGAACA -TTCAAATCAACTCCCACCAAAGCCAACAAGATGGGAGGTGAATTTTGTGATGCAGATCGCTTTTTCCCTTCAGGC -ATTTTTGTTTAATTCAATCAACGAAAGGCAGTTCCCAACAACAAAATAAAGATGGGAGGTAAAAATGAAACGGTG -GGAAGTGGCTTTACTGGTGATGGTAATGTTGGTTTGCTGTATTGAACTGTGAAGGAGGACGCCATGAAACTTTTA -ATCGCAATCATCCTGATGGTGCTGACTGGTGTTTGCTTTGCAGATGTTGGTGATTACAGGCTGAACGGGGAGGAT -AACGCAAGAATTGAATCAGTCGTTACTGATAACTGTGAAAAAACAGCCGTATTGGTAGGCGGTGACAGGCTTGCG -AGGGTTGAGATCGAATATATAGCGACATTGTGCAAGCCGGTGGCTTTGGTGATTATTTACGACAGATTTGACGAT -ATAGCGGCAATCCCTCTTAAGGTGACGTTGAAAAAGGTATTGAAAGAGAATAGCGATGAAAAGATTAACCTATTG -AACAAGATGGGGGATCTGGCTGGTCGTATCGTTGCAGAGCAGTATTTAGGCATGAGTTTTGAGTAAGGAGGCAAT -CATGAAAGTGTTAGGTAATATTTTATGGTGGGCTTTTGTTGGTTTCATGGCTTACGCCACTTTGATTAAGCCGGA -CAACACTGATCCAGCTGTTGTGAACTATGAAGAGCCTTTGCCTATGGAGCTTGCCAACTATGGCGAACCAGGTGA -AGGGGCGAAAATCATGAATGCCGCAAAAATAATGGGTCGCGACTACGCATGGAAACATGTAAAAGAAGACAGGTT -GCCATGTCTGTTTGCCGCCGGGGTTGTTGCTGATAACATCCTGGTAAAATACCATTTCAGCAATGAAACTGAGTT -CAAACTTAAAGCGGCAGCGGTCAGAGAATGCGCCAACGTAGCAGAAAACAACGGCTTTGTTTTGGTAGGTAGAGT -ATTTGAAAAACGTAATTGATTGCGAATAGCAACAACTAAACAACCAATACACCCGGCCCCTCGCCGGGTTTTTTG -TGATCTGCGTCAATATTCCCTTCCGTTACGCTTACCCTCCACCAATACGCGTGTTAACCTCCCAATGGATTCTAT -GAGATGGGAGATAAAAATCATGAGTTACGAAATCAAAATTTGCGACATCCTCAAAGGCGCTGCGATGGAAGGACA -ATATAAGGGCGCTCAACGTGGGGCCAAATGCGAGGAGATCGCAAACGAGTTAACTCGCCGGGGAGTTAAAAACAA -CAAGGGAGAGGTTATTACTAAGGGCGGCGTTAGCCATTGGCTGGAAGGTAGACGGGAGCCAAATTTCGACACTCT -GGCTGAACTGTGCGACATGTTCGGCGTTTATGCCCTGATGCCGATGCGTGGCGGTAAATGGATTCGAGTTCACCC -GGAAGACCGTGGAGAAATGGAATTACGCGAGGCTGTAGCTGAACGAGATGCTATTATCGACGACCTGAAGGCCCG -TATCGCTGAGCTTGAGGCGGCACTAGCAAATAAACAAGTCCCAGCAGAAGCGGAAGAGATGGGAGGTGAAAAAGT -GGAAGAAGTGGCAGCAGAGCAAGCGCCCAACGATGAAAAAGAGATGGGAGCTAAGGAGTGGGTTAACCCGAACCC -GAAAAAATACAGCGTCGGCATGTTGTGTCAGGTACTGGCTGCAATGGGCGGCGAATACCTGGGCAACAACGCAGG -GTTACAGCAGAAGATCACTGTGTTGGATAACGACGGCAACCGGAAGCCAATCAGTAACGGCGCGTTTTATCGACT -GATTGAGCAGGCCAAAGGGAGAGGATTGATTAGCGTTGAACAGGAAATCAAACACAAGAAAGACGAAAACGGCAA -CCAGATCGGCAAAGGCAAGAAAGGTGACAAGCTGATAACTTTGCTTCCCAACTGGATTGATAAGCTGGGAGACGA -ATAAACCAGCCTTCAACCCCATCTCATCAATCAACGCCCGGCCCCGCTGCCGGGTTTTTGCTATGCACCACAATT -ACCCCAACCGGATACACAGCCGGATACAATTCCACCAGCACCCAGCCACCCAGCGCCACCGCTGGCGAATACCGC -ATTCAGGAAGGAAATGCGAGTGATTTCACCGTCACCGGCACAACCGATCCGCCAAAAAGAGGCGTACCAATGTCG -ATATAGTCCCCCGCGCGGACAATCACTTCGTCAATGACTGCCAACGGGAGTTGTTGTAGCTGTGGGCGCAACAAC -ATGCCCAGAGCTTTACCAAAGTCCTGCCCGGCCACCACCAGCAGGGGATGCGGATTCGGAAAACGCGCGACGAAA -TCGACCAACGCGTTGATGACCGTCAGTACCGCGGCGTAACGCACAGGCAGCGAGGCGGGAAGCGCCAGCACGTAC -GCGTCAGTTTTGGGATCAAGATCCAGCTGAATCAGCGCCTGTTGCCAGGCCCCCACCAGATCCGTTTCATCAATC -GGGATCGCCACCGGCAAATTGCGCAGCGGCAGTTGTACGCCCTCAAGCCAGATTGTGCTGCCAGAGAGCGAAAGG -GTATGCGCGCCCGCGCCAATCACCGTGGCGCGCACGGTTTGCGCCGGAAACTGTACGTTCATCTCACGCAGGCGC -GGATGGTCATGCAGCGCAGTTGCCAGCAGCGGGCCAATATCGGCAAAACAGAACGGGTCGGCGGGCTGGTGGCGA -TAACATTCGCCCACGCCGCCAGAAAGCGTAATGATTTCGGGCGTAACACCTGCGGGCAGCAAACCGGTTTGCATC -AATGCCTGCGCGAGCGGTGAGAGCGTTCCGTCAATCACTTCGACAATCAGTTCTGCCATCCGCCGGGTCACCTGC -ACCAGCTGCGCGCCGGTCAGCGAACGGGCGTCGGTGCCTGCACCGAAGCACTCATCCACAATCATCTGCCCCGGT -TTATGAGCGTAAACCACGCGCCCGTGGCTGTCGGTTTCCAGCAGGCGACCACCGACGTTGAGGCAGGCAGTGCCG -CTGATTTTTCCGGCATCGAACAGGGCGTAGTTCGCGGTGCCACCGCCGATGTCGATATTCAGTACCCGACACAGC -CGTTGTTCAGAAAGGGTTTGTGCCCCGGCTCCGTGACCGGCGATCACGGATTCGAGGTGCGGCCCGGCGCTGGCA -ACGACAAAATCGCCCAGCGACTGAGAGAGCGCCATCACCGCCGGGCGAGCATTGCGGGTTTTCGCGCTTTCACCG -GTGATGATGATGGCACCAGAATCAACGCTTTCCGGCTCAATACCCGCAGCATGATATTGCTCGAGTATTAAGGTT -TTCAGTTCCGCTTCTTTTAAACCGCCCTGTTTATCGACAGGGGTAAAGAACACCGGACTTTGCCAGCTAATTTCG -CGTTTAATGAATTCGTAGCGCGGCACCTGCGACACCGCCGCACGGTTAACCAGCTCCAGCCGGGAGAAAATCACC -TGGGTGGTGGTGGTGCCGATATCGATACCGACGCTCAATAGCTGGCGAGTGTTCACGATTGTGCCTCCGCTTCGG -TTTTAGTCGCGGTCGCGTCTTCTTTTGGCACCAGCATCATCGCCACGCCAATCGCCGTTACGCCGCCGATCAACT -TGCCGACAATCATCGGGAAGATCATGGCGTTCATGTTGGCAGCGGCGAAGCCTAAGTGGTCGCCCAGGGCGAAAG -CAGCGGAAACGGCGAAGGCGCAGTTGATGACTTTGCCGCGGGTATCCATCTGCTTCATCATGCCGAACATCGGGA -TGTTGTTGGCAAGCGTTGCCACCATGCCGGCTGCCGCGATGTTGTTCATATTCAGTACTTTACCGACGCTCATCA -GCGGTTTTTCAAACCAGCGAGTCAGCAGCAGCACCATCGGATACGCCCCTAACAGAACGCAGGAGATAGAACCGA -TAACTTCAATGGCGCGCATCACCTCACCGGGTTTATCGCCAGGGGCCATAAAGATAGGATCCAGACCGGGGATCA -GTTCCCAGCCAAGCAGGAATTTCACTACCGCAGCGGCAAGACCGAGGGTGATCAATGCAACGAGGAATTTGGCGA -AGATCTGGAAGCCGTTGATCATTTTTTCCGGGATGAATTTCAGCCCCAGCGCCACCAGAATCGCAACAATGATCA -CCGGGATCATGTTCATCAGGATCAGGGCGAAAGTGAATTCCACCGGCTGGCCGTTGATCTGCACACCGGAGTACA -TAGCAACCAGACCACCAGCGATACAACCAATCGGAATGGTCACAATGCCCGCCAGCACGCCGAGCGCCAGATAAC -GACGGTCAGAAGGTTCGATAATGCCGAGCGCCACCGGAATGGAAAACACAATCGTTGGCCCCATCATCGACCCGA -GAATTAACCCAGAGTATAGCCACGCGGCTACGTCGCCGCCCGCCAGCTCTTTGGCGAGGAAGAAGCCGCCCATAT -CGCACGCCAGCAGTGTTCCGGCGAACATCGATGGGTTAGCGCCGAGCATTTCGTAAACCGGAATAATTACCGGCC -CGAGAACGTGAGCCAGTACCGGTGCCAGCGCGGTCATACCGACCATCGCCAGGCCCAGTGCGCCCATTGCCATAA -AGCCTTCTTCGAACTGACCGCCTGATCCTTCGATACTTTTACCGAACTTACCGAGGAAACGAGCAGAACCGCCGA -ACTGCGACAGGATCCTGTCTACGGCAGCTATCAGCATAAAGAACATCATGATGTACATGATGATTTCGTTAATTC -CCATCGCCTTTACTCCCTGTTAGTTGTTATTTATTGGCGGATGCGGCGTAAACGCCTTATCCGCCCTACATGTGC -AATCCCGTAGGCTGGATAAGACGCGGCAAGCGTCGCATCCGGCAATTGCACCGCGCCACTGGCGGATGCGGCGTG -AACGCCTTATCCGCCCTACATGTGCAATCCCGTAGGCTGGATAAGATGCGGCAAGCGTCGCATCCGGCATTTATT -GCGCCGCTGCGTACAGGCCGACAATCTGCTCCAGGCTGGCGGTACGCGGGTTACTGCGCAGACAAATATCTTCCA -GCGCGGCCTGCGCCCATGCGCCGTAATGCGCAGATGTCGCACCAACATCGCCCAGTCGTTTACCAATCCCAACTT -CCGCAATCAGCTCACTTACCGCGTTAATAGCGTCACGATCGTCGGATTTTTTAGTTCGCAGTGCCCGACCAATCT -GACTAAAGCGTTCACGACAAACCATCCGGTTAAATTCCATCACCGTTGGCAGCAACATGGCGTTCGCGAGACCGT -GCGGAATATGCAGCGCCGCGCCCGGCTGATGCGCCATCGCGTGGCACAACCCAAGACCCGCACTGGAAAACGCCA -TTCCCGCCATACATGAAGCCAGCAACATGCTCTCGCGCGCGGCAAGGTCGTGACCGTAGCCCACCGCTTTCGGCA -GCGATTTGCCAATCATCGCAATGGCACCAATCGCCAGACTGTCGGTAAACGGTGTAGCGTTCAGGGCGCTGTATG -CTTCAATGGCATGGGTTAACGCATCAATGCCGGTCATCGCCGTGACATGCGACGGCACACCTTCGGTCAATGCGG -CGTCGAGGATCGCCACATCCGGCATCAGCGAGGCATGGGCTAACACCTGCTTGCGCCCGCTCACCGCGTCGATAA -TCACCGTTACATTGGTGGTTTCAGAGCCGGTTCCGGCGGTAGTTGGAATGGCAATCAGCGGCAAGCGCGGTTGCA -GAACGCTGGTTTCTGACATCTCTGCCAGCGTGCTATCCGGGTTCGTCACCAGCAACGTCACGGCTTTCGCCGCAT -CCAGCACCGAGCCGCCGCCAAACGCGATCACCCCATCACAGCCTGACTCACGCAACTGCGCCACGGCTGCACACA -CGTCGGTAATGCACGGTTCGCCCACCGGACATGGCCAGAGCGTCATGGCGATACCTTTAACGGTCAGGCTACGCG -TCAGCCCGGCGGTCATCCCTGCCTGATGCAAAAAGCTGTCTGCCATCACGAACAGATGTTTCAGCCCACGCGTTT -GCGCTTGCTGTCCGCAACTGCTCACCGAGCCCGGACCGCAAAGCGTCACCGGTGGAACGCTAAATGTTTTTACCC -GTTGCAGATTCAGGGTATCGAACGCCTGAAAGAGCGCGGTCTGCAATTCATTTTGCATATAGCCCCTCCGCTTTC -TCTCGCCCACTACTGGCGATCGCCAGCGGGGTCATAAACAAACTGTGCTGCGGTAAATGCACCTGTAACGCCGGG -AATTGTTTGCGAAACAGTTCCGCCACGCCCGGTTGCATACAAGAGCCGCCCGCCAGCCATAAATCAGTAATGCCC -TGCCCTTCAATATGCCGGGCGACAATGTCCGCCATTTTTTCGTACACCGGTTTCACCGCAGGCCAAATCTCTTCA -CCGTGACCGCGCTTGTACTGCTCCGCCTCTTCCAGCGAAATACGGCGATTTCCGGCGAGAGTCAGAGAGATGTGA -TGTCCGCCGGTGGCTTCATCCGCCGAGTACGTCACCTTGCCCTTTTTCACGATGGCAATGCCGGTAGTGCCGCCG -CCGATATCCACTACACCGGCGTTGTCCAGTTGCAGCAGATCCGCAACTGCGGTTGGCTCATCCAGCACATGGCTC -ACTTCCAGTCCGGCAGATTCCAGCACGTTGATGGAAATACGCGGGTCCGTACCTGGAGGAAATGAAGTCGCCGCA -TGGCTAAAACGACGACCGAATTGCTGCTCGAGCGTGTCGAGATGGCGACGAACAATGGTGACAGCGCCGAAGAAA -TCCCAGACGATGCCGTCGCGAACCACATCGGCCCAGTCGAGGCATACCGCCACTGGCTGACCGTCGCGGTCGACA -ACCATCGACACCACATCGCAGGTGCCCAGATCCACCCCCAGCCACAGCGGAGATTCCGTCGCGGCGGGCGTCTGG -TTACACAGCGTTGCCGCCGTTTGCAGACGTGGGGTGAGCCATTGTTCGTCGTGCGCCATCTGTTACTCCTTAAAC -AATGCGAAACGCATCGACTAATACACAGCGACGCAGACGGACAAACGTACGCGCGCTGGTTACCCCTTCACCGGT -TGGCGTGGTGATGGTCATGGTGGTCCAGCCTTCCCCGCCCAGCCCCAGCCCGGCAATGCACGGTCCGTTCTTAAC -GAAAATGCTGGTATCAATAGCATTCGCCATCTGGTTCATGTTTTCGATGTTGCGCGAGTGCATTGCCGCCGTGTG -GTGGCAACCGCCTTCCAGTTTCACCGCTAGCGCAATGGCATCCGCCACGTTGGCGACGCGCACGACGGGCAACAC -CGGCATCATCAGTTCAGTCACGGCAAACGGATGTTCTGCGGTGGTTTCCACAAACAGCAGGCGCGTTTCTTGCGG -AACTTTAAGGCCGATTGCCGCCGCGATTTTGCCTGCGTCGCGACCAACCCAGTCACGGCTGACGGTGCCTTTTCC -GCGCTCGTCGATATTTTTCAGCAACACCGGTTGCAGCTGCTGCGCCTGTTCTGCGGTCAGTTTCACCGCGTGCTG -GCCTTCCATCAGACGCATCAGTTCATCGGCTACGCTATCAACAACAATCAGTACCTTTTCGTCGGCACAAATGAT -GTTGTTATCGAAAGAAGCGCCTTTGACGATGGACTGAGCGGCACGGGCGAGGTCGGCGGTTTCATCCACCACTAC -CGGCGGGTTGCCAGCGCCTGCGGCAATCAGACGTTTATTGGTGTGTTTACGCGCCGCTTCTACTACCGCTTCGCC -GCCGGTTACCACCAGCAGGCCGATACCCGGAAACTTGAACAAGCGTTGCGCGGTTTCGATATCCGGATTTGCCAC -AGTAACCAGTAAGTTTTCCGGCCCACCTGCGGCAACAATCGCCTGGTTGAGCAGCGTAATCGCCCGCTGGGAGAC -TTTTTTCGCCGCCGGATGCGGGGCAAAAATGACGCTGTTGCCCGCGGCAATCAGGCTGATGGCGTTGTTAATTAC -GGTTGCCGCCGGGTTAGTGGAAGGCGTCACCGAAGCCACCACGCCCCAGGGTGCGTTTTCAATTAGGGTCAGGCC -GTTGTCGCCAGTCAGCACTTGCGGAGAGAGGCACTCAACGCCTGGTGTGCCGCGCGCCTGAGCGACGTTTTTTGC -AAATTTATCTTCAACGCGCCCCATGCCGGTTTCACTGACGGCAAGTTCCGCTAAATCTCTGGCGTGTTTTTCGCC -TGCTTCACGAATGGCAGCAATGGCTAACTGGCGCATTGCCACGCTTTTTAACCCTTGCTGGGCGACTTTGGCTGC -CGCAACGGCGTCATCCAGGGACGCGAAAACGCCCATCTCATGAACGGCGGCGGACGGCGTGTCACTGCTTTGCAT -TTTCAGCAGTACCGCTTTCACCACCTGTTCAATATCCTGTTGATTCATGATGTTCTGCCTTATTTGTGGAAAATT -ACCTGACCGCCAGACACCACCTCATCGACAATGCCAATCACGCACAGATCGACCGGTGACGTTTCGCTTTTATGC -GCCTGGCGGGCGGAACTGCCACTCACCAGTAACACCCACTCCCCGGTTCCCGCGCCAATATTGTCGATGGCGACG -GCGCATTGCCCGTCAGGATTACCTTGTGGATCAATCATTTCCACCATCAGCAATTTGTCATGCGCCAGTCCGTGA -TGGCGTACGGTACAAACAATTTGTCCAGTGACGACTGCCAGTTTCATACCCGCCTCCGTGGCGTATTTCAGGTAA -AAGCTCCCCCTACCCTCCGCAGAAGGTAAAATGAAAAAGGAGAGAGCGTGACGCCCGAATCGACGTCACACAGGG -TGATTACAGGTTGCTGCTATCGCCTTTCAGGCCGATCGGGAAGACTTCTTCCAGGTCGCCGTGCGGACGCGGGAT -AACGTGTACAGATACCAGCTCGCCGATACGCTGTGCCGCTGCGGCACCTGCATCGGTCGCGGCTTTACAGGCTGC -AACATCACCACGAACCATGGCAGTACACAGGCCGCCGCCAATCTGCTTAACACCAACCAGCTTGACGCGCGCAGC -TTTCACCATCGCGTCAGAAGCCTCAATCAGTGCAACCAGGCCCCGGGTTTCGATCATTCCTAATGCTTCCATTGT -GCTTTCCTCTTTATCAGGGTCCAGAACGGGACCGTTCATTCAACCAGTGTTTGTAAACTGCTTTCGCGGTTCACT -TCTGTCTGACGCGGCACAGCTGCCACCAGCGCCAGCTCGATAATTTCCTGCACGCTACAACCACGAGAGAGATCG -TGCATCGGCGCGGCAAGTCCTTGTATCAGTGGCCCGACGGCACGATATCCGCCGAGTCGTTGTGCGATTTTGTAA -CCAATATTTCCGGCTTCCAGCGACGGAAAAACCATCACATTGGCCTTGCCCTGTAGCGGGCTGGCAGGCGCTTTT -TGCGCCGCCACTTCCGGCACGAAGGCGGCGTCAAACTGTAACTCGCCATCCACCACCAGCTTTGGTGCGCGCTCA -CGGACGATTTCTGTCGCCTGCTGGACGTTAGCAACACAGGGGTGACGGGCGCTACCATTGCTGGAAAACGACAGC -ATCGCCACGCGCGGCTCTTCTCCGGTGATGGCGCGCCAGGTTTCGGCACTGGCAAGCGCGATATCCGCCAGCTGC -GCCGCCGTCGGCTGTGGCACCACGCTGCAATCGGCAAAGCCCAACGCCGGGCCGCTGTACTGTGGCAACATCAGG -AAAATGGAAGAGAGCGTTTTACAGCCTGGCTGCAAGCCGATAATGCGTAATCCGGCACGCAGCACATTTGCCGTG -GAAGAGAGGTTGCCCGCGATACAGACATCCGCTTTACCGGCGCTGACCATTGCTGCGGCGAACATCAGAGGGTCG -GTAAGTTTTTCCAGCGCATCCGGCGGCGTTTTTTCGCCCGCGCGGGCCAGCCAGCGATGAGCAAATTCTTCCCGC -ATTGCGAGGTTGCCATGCGGATCAATCACCTGTAGCCCGTCCATCGCCACGCCGTGACTGAGCGCAAACTGACGA -AGTTCAAACGGATTGGCGACCAGAATGGGCGTTGCCAGACCTTGTTGATGTAAATATTGCGCGGCTTTCAGCACA -CGTTGGTCTAACGCATCCGGAAAAACCACTCTGGCGGGCGCTCGCAACGCCAGTTCACGACAACGTTCAATAATC -ATTGCGTTTCCCCCAGTCGTTGTTGGATCTGCTTCACCGTTAGCGGCTGCTTCGTTACGCTCAGGATCATCATCA -CGTAGACCGTGCTCGAAAGGCGGTTCAGCGCCTGCAAAATGTCCGGGCGTAATACTTCAAAGCTGCGGGTGATAA -AGACCTGCGCCGCTACGGTTTCGGTTTCCCGCACTTTGGTGCGTAGCAGATTGAGCAACGCAGCATCGCGCCCGT -GGCTGGCTTCCGGCACCAGATGATCGTGGTCGAGATAGCGCAGCGGCTGATGAGAAAGCCGATGCAGATCTTCGT -CAGAAAGCCCGACAATCGCCTGGCAGCCCAGCGGTTCCCCCAGCGCATCGGCGCGCATAATGTTGCCAAGACGCG -AACGGATATCCGCCAGCCACGGCTGCCACGGTTCCGCCAGTTCAATTTGCAGCCACACTGCCAGCGCAATGGTGC -TGTCGAGAACCGCGCGAAAACCCAGACGCGGATCGCTTTTGGCGACCATTTTTTCCGCCGACAGGTGAGTCAGCG -TATCCGGCTTTTTTGCCACCGGCTGGCGACACAGTTCGCAGCACGCCTGCGGATGTTCATCGCTACTGGTCAGCC -CATGAACGGGCTGCGGCTGCTGCTGTTCATCGTCAACAAACAGGCGGCCCTGCTCGTCAATAAACTTGATGCGCA -GATGGCGGCTTTCCAGCAACTCCCGGGCAGAGGGCGTCAGGCGACTGTCCGCAGGGAGATGGATCTCTGCGCCTT -CGCTGAGCGTATGGTTCGCTCTTAGCCATGCTTCGGTGATGAAATCTTTCATAGGGATTGCCAGTTAGCCGGCCA -GGCGACATACAGGAATTTCACGCTGGATGTCGTACCAAATTCGATGCTGGAGCCTTTCGGGATAAACATCACGTC -GCCTGCTTTGGCGATCATGGTTTGGCCTTCGTGGCGAACATGCAGCTCCCCTTCCAGCACCATGTCGATTTCGTC -GTAGTTCAGGGTCCACGGGAAGAATGCGTTCTCCCACTGCATAAAACCGGCGGCCATGCTGCTGCCGTCGTCTCC -GGTCACAAGATCAGTCAAGCCCACGCAATGCGGCTCTGCGCCGTCGAAACGACCAAACTTGACGCTACTGCCATC -AATCACTTTGATGCCGCCTTTGCCGGTCACCGATTTGAAGCTCGGCTGCATTGCGCCCTGCTCCAGCGACTGTTT -TTCCTTCATCACTTTTTCCATCAGCTGTGCGACCAGGCTTTCGGTAAACTGGCCTTCCGGCAGCTGGGCAATGAT -GGTTTCGCGGATGCGCTGGCTTTCGGTTTTGTCGGCTGGCACGCTGGCGGGCACGGACGCCGTTACCGGGATCGA -TTCATCACATTCGGTGATGGTAAAACCCAGTAGATCCGCCACTTCACGGGCTTCCGGGGTAATAATGCTGGCGCG -CAGAACCACGGACATTGCCTGTTCGCCGCGCGCGTGTGCTTCACGAATATCATTCGCTGTGATGAGTTTTTTCAC -CTGCTTCCTCCTGTTTGGTGAGAGATGCCAGATAATCCACCAGTTGCTGCACGCTTTGCGGGTCGTGGCTGTTTA -GCTCGAACATCGGCTCTTCGAAACCCGTCTCAAGCAATAACTTTCGCGTTGCGGCGACGTCAGCATCTGGCATGT -CCGTTTTACTGATGACGGCGATTTGCCGTTTGCTGACGCCAATATCCAGCAACCCGGCAGGCAACCGACTTTCCG -GGTCATTTGCGCCATGGACATAGATCAGCATGTCTACATCCTGTAGCGTGGTAATTAAGGCGTGATACCAGCGGG -GATGGTTAAAATATTCACCCGGCGTATCAATATCGCCCTTATCATTAAATTCCACGGCCTGTGTTTTTCTGGCGA -GGGTATAATTCCCCTGCAACGCATTAAATAACGTTGTTTTTCCTGCCCCGACGCTACCCACAAACGCAATTCGTT -TCATGAATGCCTCGTATTAACTTTTGGTCATTTCACAAAGCGTATAATTTAATAAGCGACCTAAACCGCTGACGG -TTTGTGATAACGCTTCTTCTACTGCGCCCACCGAGCCATAAATCACCAATGCACCGCTGAATCGGTCGAGAAAAC -CGATATGCACATCAGCGGCTTTCAGCGCTAAATCACCGGCGATCATCGCCGTTTCGCCGGGAGTTAGCGTCATAA -TGCCAATTGCGCCCGCATCCGGAACGCCGATTTTCTTCGCCAGTTCCTCACCGGGATGCGCGATGAGATGCGCCA -GTGTGACCTGTTTGCCGGGCACAAATTCCTGAATGATGCGTTCTTTATCCATGAGTCGCCGCCTGTGAAAAACTT -TCGTGTATCGTGACAATTTTTCGTCAGAGTAAATAACAAAATTCGGCAAGCGCGTTTAAAAGGTGAGGTAGATCA -CTAAGAATGGAGAGATATTCGCTGTGGTGCATAAACTTTCATATGCAACGCATGAATATAAATAAAATAATATCG -AGATATTATATAGACTGCTTTTTTTTATTATTCGCAAACTCAGTAATAAGCTTTACTAATATATTGCAGCTAAAC -TGCTTACCCTGAATATTCAGGGTAAGCGTGAGAGTTAAAAAAAATTACAGCGGTTGGGTTTGCGCTTCTACCACG -GCCAGCGCCACCATGTTGACGATACGACGCACCGATGCGATCGGCGTTAACACGTGAACCGGTTTCGCCACACCC -ATCAGCACCGGGCCGACAGTCACACCTTCCGAGCTGGAAACACGCAGTAAGTTGTAACTAATGCGGGCAGCTTCC -ATGTTCGGCATCACCAGAATATTGGCGGAACCTTTCAAAGAGCTGTCCGGCATACGGTCGTTGCGAATCGCTTCC -ACCAGCGCTGCATCGCCGTGCATTTCACCATCAATCATCAGTTCTGGTGCACGTTCCCTGACCAGTTCCAGCGCC -TGACGCATTTTGCTCGACGACGGGCAGTCAGAAGAACCAAAGTTGGAGTGCGACAACAAAGCAACGCGCGGCTCA -ATACCAAAACGACGGACAGTTTCTGCCGCCATCAAGGTGATCTCCGCCAGCTCTTCTGCATCCGGTTCATCATTA -ACATATGTATCGGCAATAAAGGTGTTACCACTCGGCAGCAGCAGCGCGTTCATGGCACCTGCGGTGTGAACGCCA -TCGCGATAACCAAAGACATTTTTCACCACGCTAAAATGTTCATGATAATCACCCACCGTACCGCAAATCATTGCA -TCGGCTTCCCCACGCTGAACCATGATCGCGCCGATCACTGTCGGGTTACTGATCAGCGCCCGCTGCGCCTGTTCC -TGAGTGACGCCGCGACGCTTCATGATCTGGAAGTATTCGGTCCAGTACTCTTTAAAGCGCGGATCGGATTCGTTA -TTGACGATCTCAAAATCAACGCCCGCTTTGATCTGCAAGCCCAGTTTCTGAATGCGCATTTCGATCACGTTCGGA -CGACCGATAAGGATCGGTTTCGCCAGTCCCAGCGTTACCAGTTCCTGAGTGGCATGCAGAACGCGCGCCTCTTCC -CCTTCCGGCAGAACAACGCGCTTCGGCGCTTTGCGAGCCTGGGAGAAAATCGGCTTCATAAACAGGTTGGTTTTG -TAAACGAACTCAGTCAGCTTGTCGATGTAGACGTCGAAATCAGCAATCGGACGAGTCGCCACGCCCGACTCCATC -GCGGCTTTAGCGACCGCAGGAGCGATCTTAACGATCAAGCGCGGATCAAACGGTTTTGGAATGATGTATTCCGGA -CCAAAGCTCAGATCCTGATCGCCATACGCTGAAGCCACCACTTCGCTCTGTTCCGCATGGGCGAGTTCTGCAATC -GCACGTACCGCCGCCAGTTTCATCTCTTCGTTGATGGCGGTTGCGCCAACGTCCAGCGCGCCACGGAAGATGAAC -GGGAAGCACAGGACGTTGTTCACCTGGTTCGGATAGTCAGAACGACCGGTGCAAATGATGGCATCCGGACGCACT -TCTTTCGCCAGCGGCGGCAGAATTTCCGGTTCCGGGTTCGCCAGCGCCAGGATCATTGGCGCACGAGCCATTTTC -TTCACCATTTCCTGGGTCAGCACTTTCGGGCCGGAACAGCCCAGGAAAATATCCGCGCCTTCAATCACATCATCG -AGGGTACGTTTGCCGTCATCCACCACCGCATATGCGGCTTTGGTTTCCGCCATGTTTGGCTCACGGCCCTGATAG -ATAACGCCTTTTGAATCGCAAACCACGATGTTATGTTTTTGCAGACCCAGCGCTACCAGCAGGTTCATACAGGCG -ATTGCTGCGGCACCCGCGCCGGAAACCACCATCCGCACGTCGGAGATGTTTTTCTCCACCACGCGCAAGCCGTTG -AGGATGGCGGCAGTGCTGATAATTGCCGTGCCGTGCTGATCGTCGTGGAATACCGGAATATTCATCCGCTCGCGC -AGTTTCTGTTCAATATAGAAACATTCTGGCGCTTTAATGTCTTCGAGGTTGATGCCGCCGAAGGTTGGTTCGAGC -GCGGCGACAACTTCAATAAATTTGTCCGGGTCGAGTTCGTCAACTTCAATGTCAAATACATCAATCCCGGCGAAT -TTCTTAAACAGAACGCCCTTGCCTTCCATCACCGGTTTGCCTGCCAGCGCGCCAATGTTGCCTAACCCCAGCACC -GCCGTACCGTTAGAGATCACCGCCACCAGGTTACCTCGGGCGGTATATTTGTAGGCTTTTAACGGGTCTTTTTCG -ATTTCAAGACAAGGTGCGGCAACGCCTGGTGAGTAGGCCAGCGCCAGATCGCGCTGTGTTGCCAGAGGCTTGGTT -GGAGAAACCTGGATTTTCCCTGGAACTGGAAATTCATGGAAATCAAGTGCACTTTGTTTTAACTGGTCATCCATT -TGGTTGTTCCTTTCACGTAACGTTCACAAATAAAGTGTGTGGGCAACAGCCCCTGCCCACAACGTGGCGCACATT -ATTACCCTGCCGGAGTCTACAGACTTTGAGCAAGTCCAAACTCTCACCATTAATATAATGTTTTGGTAATAATCC -TATAACACTGATGTTACCTGCTTAATCCAGCAATACCATGCCTGTCTGCTATGCTTTTTTGATGCGTTTAGCGAA -ATTTCTCAGAAGTGTGAATTAACGCACTCATCTAACACTTTACTTTTCAAGGAGTATTTCCTATGAACGAGTTAG -ACGGCATCAAACAGTTCACCACTGTCGTGGCAGACAGCGGCGATATTGAGTCCATTCGCCATTATCATCCCCAGG -ATGCCACCACCAATCCTTCGCTGTTACTCAAAGCTGCCGGATTATCACAATATGAGCATTTAATAGACGATGCTA -TCGCCTGGGGTAAAAAAAATGGCAAGACCCAGGAACAACAGGTGGTCGCAGCGTGTGACAAACTGGCGGTCAATT -TCGGTGCTGAAATCCTCAAAATCGTACCCGGTCGCGTGTCAACAGAAGTTGATGCACGCCTCTCTTTTGATAAAG -AAAAGAGTATTGAGAAGGCGCGCCATCTGGTGGACTTGTATCAGCAACAAGGCGTTGAGAAATCACGCATTCTGA -TCAAGCTGGCTTCGACCTGGGAAGGAATTCGCGCGGCAGAAGAGCTGGAAAAAGAAGGTATTAACTGCAACCTGA -CGCTGCTGTTTTCTTTTGCACAGGCACGGGCCTGTGCGGAAGCAGGCGTTTTTCTGATTTCGCCGTTTGTCGGGC -GTATTTATGACTGGTATCAGGCACGCAAGCCGATGGACCCGTATGTGGTGGAAGAAGATCCGGGCGTTAAATCGG -TGCGCAATATCTACGACTACTATAAGCAACACCACTATGAAACCATTGTGATGGGCGCGAGCTTCCGTCGCACCG -AACAAATCCTCGCCTTAACCGGCTGCGATCGACTGACTATCGCACCGAATTTACTGAAGGAGCTGCAGGAAAAAG -TTTCGCCAGTGGTACGTAAATTAATCCCACCTTCTCAGACGTTCCCACGCCCAGCTCCCATGAGCGAAGCGGAGT -TCCGTTGGGAGCACAATCAGGATGCGATGGCGGTAGAAAAACTGTCTGAAGGCATTCGTCTGTTCGCCGTTGATC -AACGCAAACTGGAAGATCTTCTTGCCGCCAAACTATAAACCAGCCACGGAGTGTTATATGTCCCGAAAAGACCTT -GCCAATGCGATTCGCGCACTCAGTATGGATGCGGTACAAAAAGCCAACTCTGGTCATCCCGGCGCGCCGATGGGC -ATGGCTGATATTGCCGAAGTGCTGTGGAACGATTTTCTTAAACATAACCCTACCGACCCAACCTGGTATGATCGC -GACCGCTTTATTCTTTCCAACGGTCACGCGTCGATGCTGCTCTACAGTTTGCTACATCTGACCGGTTACGACCTG -CCGCTGGAAGAACTGAAGAACTTCCGTCAGTTGCATTCGAAAACCCCAGGCCACCCGGAGATTGGCTATACGCCA -GGCGTTGAAACCACCACCGGCCCGCTTGGACAAGGTTTGGCGAACGCCGTCGGGCTGGCGATAGCAGAGCGTACA -CTGGCGGCGCAGTTTAACCAGCCAGACCATGAGATCGTCGATCACTTCACCTATGTGTTTATGGGCGACGGCTGC -CTGATGGAAGGTATTTCCCACGAAGTCTGTTCGCTGGCAGGCACGCTGGGACTGGGCAAGCTGATTGGTTTTTAC -GATCACAACGGTATTTCCATCGACGGTGAAACAGAAGGCTGGTTTACCGACGATACGGCAAAACGTTTTGAAGCC -TATCACTGGCATGTGATCCATGAAATCGACGGTCACGATCCGCAGGCGGTGAAGGAAGCGATCCTTGAAGCGCAA -AGCGTGAAAGATAAGCCGTCGCTGATTATCTGCCGTACGGTGATTGGCTTTGGTTCGCCGAATAAAGCAGGTAAG -GAAGAGGCGCACGGCGCACCACTGGGGGAAGAAGAAGTGGCGCTGGCACGGCAAAAACTGGGCTGGCACCATCCG -CCATTTGAGATCCCTAAAGAGATTTATCACGCCTGGGATGCCCGTGAAAAAGGCGAAAAAGCGCAGCAGAGCTGG -AATGAGAAGTTTGCCGCCTATAAAAAGGCTCATCCGCAACTGGCAGAAGAGTTTACCCGACGGATGAGCGGTGGT -TTACCGAAGGACTGGGAGAAAACGACTCAGAAATATATCAATGAGTTACAGGCAAATCCGGCGAAAATCGCTACC -CGTAAGGCTTCGCAAAATACGCTTAACGCTTACGGGCCGATGCTGCCTGAGTTGCTCGGCGGTTCGGCGGATCTG -GCTCCCAGCAACCTGACCATCTGGAAAGGTTCTGTTTCGCTGAAGGAAGATCCAGCGGGCAACTACATTCACTAC -GGGGTGCGTGAATTTGGCATGACCGCTATCGCCAACGGCATCGCGCACCACGGCGGCTTTGTGCCGTATACCGCG -ACGTTCCTGATGTTTGTTGAATACGCCCGTAACGCCGCGCGGATGGCGGCACTGATGAAAGCGCGGCAGATTATG -GTTTATACCCACGACTCAATTGGCCTGGGCGAAGATGGTCCGACGCACCAGGCTGTTGAGCAACTGGCCAGCCTG -CGCTTAACGCCAAATTTCAGCACCTGGCGACCGTGCGATCAGGTGGAAGCGGCGGTGGGCTGGAAGCTGGCGGTT -GAGCGCCACAACGGACCGACGGCACTGATCCTCTCAAGGCAGAATCTGGCCCAGGTGGAACGTACGCCGGATCAG -GTTAAAGAGATTGCTCGTGGCGGTTATGTGCTGAAAGACAGCGGCGGTAAGCCAGATATTATTCTGATTGCCACC -GGTTCAGAGATGGAAATTACCCTGCAAGCGGCAGAGAAATTAGCAGGAGAAGGTCGCAATGTACGCGTAGTTTCC -CTGCCCTCGACCGATATTTTCGACGCCCAGGATGAGGAATATCGGGAGTCGGTGTTGCCTTCTAACGTTGCGGCT -CGCGTGGCGGTGGAAGCAGGTATTGCCGATTACTGGTACAAGTATGTTGGTCTGAAAGGGGCAATTGTCGGGATG -ACGGGTTACGGGGAATCTGCTCCGGCGGATAAGCTGTTCCCGTTCTTTGGCTTTACCGCCGAGAATATTGTGGCA -AAAGCGCATAAGGTGCTGGGAGTGAAAGGTGCCTGATGGTGATTGCCGGATGCTGATTGCCGGATGCGACGCTGA -CGCGTCTTATCCGGCCTACAGCGTCTTATCCGGCCTACATGTCCCGCCATTTTGTTTAACGGGTGATCCACAACG -TGGGCCAGGCGTCTGGCCCATGCCAGTTATCGCAGGTGGGTTCTGCGGCGTAACGCACCAGGCGAAAACGCTGAC -CGTCAAAGCGCCAGCGCGCCTGAATGCCACAATCGCTTAATCCGCGCCCTTTCGCTAAGGTCACCAGTTCACGCG -ATTTCTCATCAAATGTTGCGTTCATCAGTTCCAGTTCATTCGTCTCCTGACCGTTGTTGAACGGCAAACGCAACC -GAACCGGGCGCGAAGCTAGTGGCTTTTTACGCGACACAATCCATGCCAAATCAATGGTGTTATAGGCCCCTGCCT -CACAGCTAATCATCATCAGCGCTTTATCATCAGTCAGCGCAGTGACATTCACCTCACGACGCAATGGATCAAGCG -AGCAGCGCAGACCATTCATCCGCCAGTTTCCATAATCCAGCAAATCGTTGCGTTCTTCGAGTGAGAGTGGCGTCG -GCGTTGGGTTAACCACCGCGACCTCTTTCAGCGCAGGCGCGGGCGGTACGCTGAGCGGCGGTTCGTCCCCTTTCT -TGATCCACGCGGTTTCACTGCCAACGCGCTTTTGCTGAGCATCAATAAACAACAACGCTGCTTTTAAGCCACTCA -GAGAAATGGTCTGATCGCCATCGCGTAAGGTGATTGCCTTCCCTTCCTGAATCATCTGCAAAAACGCGGTGATGG -TTGCCGTATCATCGGTTACTAATAACCATGGTGAAATCCGCCACTTGTCACCACTTAACGCCAACGGCTCGCCAT -CTAACAGCAGCCGTGGCGCTATCTCCCCTTCTGACGCCTCCGGCGACTTCAATCCGCCGCGCTCAATACGTAAAA -CGGCATCGGTATGCGCCCCGGCGCTGCGGCTCAGGGTCATCACCAGTCCATTATGATCGCCCGTATTACGCGCCA -CGCAGAAATTTTGGTTATTACAGGTGACCTGCCAGTCGGAAAACGCCCGTTGCGCTGGTGCCGCCCACACCAAAG -ACGTCGGCAACAAAGCGAAAAAAAAGAGAAGGAAAATGCGATAGCGCATGGACGGTACGACCCCAGAAGTTCAAA -CAAACAGCACAAGTCGTATCTTCGTTGCGCAGGTAGCGCGGCTCAATCGGATTTGTCGGATTGAGCCAATAATAA -ACAACGAAATATTATTGTTATTTTTCAGTCCATTAAATGTGACGTTTGCAAATAGTTAAGCAATAACACCGTCTT -ACCGTCACGTATCTCGCCGGTTTTGATCATCTCCAGCGCCTGGCTGAACGGCAGCTCGAGCACTTCAATATCTTC -ATCTTCGACACCGCCACCGGCGTTAGCGCGCTGATTGTCACTGTATTCGGCGATAAAAAAGTGGATTAGCTCAGT -CACACCGCCTGGCGACATATACAGTTCAAATAATTTGCGCACTTCACCCACTTCATAGCCCGTCTCTTCAATCGC -TTCTTTGCGAATACACACTTCCGGTTCGTCGTTATCCAGCAGCCCGGCGCAGCTTTCAATCAGCTGCCCGCTTTC -ATTGCCATTAACCCAGGTAGCGACACGGAACTGACGAATCAGAACCACGGTCTTTTTCTTCGTGTTGTACAGGAG -GATCGTCGCACCATTGCCGCGATCGTACACTTCACGTTTATGGCGGATAACTTCGCCGTCTTTGCGCGTGAGATC -GTAAGTAATGTTGTGCAGGGTGAAATAGTTATCGGAGAGAATTTTGTCTTTAATGAGGGTGATTTGTTGCGTCAT -ACCGACTCCACAGCGCGAAATGAACAATTATCTTACGCTGTGAAGTCGGGTTTGTCTGCGCAGGCTATCAGTGAG -ATTTGACTGATTTTACCCCCAGCCAGTCAATAATCCCCTGTGCCGCATGACGTCCTTCTGCCATTGCGGTAACCA -CCAGATCCGCACCACGCACGGCGTCACCACCAGCGAAGATTTTCGGATTGGTGGTCTGGTAACGGTACTGGCTTT -CCACATCCGCGATGATGCGGCCCCATTTGTCTACCGTTACACCGTGCGACTCCAGCCACGGCATCCCGTGCGGAT -TGAAGCCAAACGCCATAATCACCGCGTCGGCTGGCATGACAAATTCACTGCCTTCCACCGGCACTGGACGCCGAC -GCCCCTGGGCATCCGGCTCTCCAAGACGCGTGCGCAGGAAACGAATCCCGCAGACGTGACCTTGTTCATTCAGCT -CAAGCGCCACCGGCTGGACGTTAAATTCGAAGTTGGCCCCCTCTTCGCGGGCGTTCTTCACTTCTTTCTTCGAGC -CTGGCATGTTAGCTTCATCACGACGATAAGCGCAGGTGACGTTACTCGCGCCGTGGCGCAGTGCGGTACGCACAC -AGTCCATCGCGGTGTCGCCGCCGCCCAGTACCACGACGTTAAGTCCGGCGGTATTGATAAACGGCTCTTCCGGTA -GCTCTTCGAGCCCCATCACCTGTTTAGTGTTGGCAATGAGGAACGGCAGCGCGTCATAAACGCCCGGCGCATCTT -CATTGGGTAAACCCGCTTTCATGGAACGGTAAGTGCCTACGCCAACGAAGACCGCGTCGTATTGTTCCAAAAGCG -AATCCAAAGAGACATCTTTACCCACTTCACAATTGAGTTCGAAGTGAATCCCCATCGCGCTGAAGATTTCCCGAC -GGCGTGCCAGCAGGGATTTATCCAGTTTGAAAGAAGGAATGCCGAAAGTGAGCAAGCCACCGATTTCTGGATGGC -GATCGTACACCGTCACCCCCACGCCATTGCGGGTCAGAACATCCGCACAGGCCAGCCCTGCCGGACCTGCACCGA -TAATCGCCACCCGCTTGTCCACTTTGGTGACATGGCTTAAGTCAGGACGCCAACCTTTCGCCAACGCCTGATCTG -AAATGTAGCGTTCAATGTTGCCGATAGTTACCGCGCCGTGCTCATCGCGAATAGTACAGGCACCTTCACACAAAC -GGTCTTGCGGACAAACGCGTCCGGTAATTTCCGGCAGGGTGTTGGTCTGGTGAGAAAGCTCGACGGCGGCGTCGA -TGTTTCCGGCTTTCACCAGTTCAATCCACTGCGGTATATGGTTATGCAGCGGGCAGGTCCATTCACAAACGCTGT -GCTCGCCGCACTTAAGGCAGCGCGAGGCTTCCCGTTGTGCCTGGTCGGCGCGAAATGGCAGATAAATTTCATCAA -AACCGGTTTTGCGCGCTTCAATCGCCAGTTTATCCGGCTCGCCACGCGCGGGCGTTGCCTGCATTTGTTCGACTT -TACTCATTACCGGCATTTCTTGCGCCGCGGTACTGGCATGCCACGGTTGATGTTCCTGACGCGCGGTGCGCAAGC -GGCGGGATTTCGCCATGCCGGAGAGTGCGACGTCAGTGACCAGTTGCAGCGCGTCCGCCGGGCAATTCTCAACAC -AGGCAGGACCGTTTTCGCGCCCCGCACAAAGGTCGCATTTATGCGCCGTGGCTTTTACTTTTCCTGCCGCGACGG -GTGTCAGGACGATTTGCATCGTACCAAAAGGACAGGCCACCACGCAGGATTTACAGCCAATACACTTTTGCTGAT -TGACCTGAATGCTGTCATCAACGTGGCTGATTGCGCCATTAGGGCAGCTACGGGCGCAGGGCGCATCTTCACAAT -GGTGACAGGTCACTGCACTACGTTGCTGTTGATGTTTGATAACCGTAATTCGGGGATGAAAATGGTGTTGGCTCA -GGACATGTTGCTCATCATTGTGAGCCATGACACAGGCGATTTCACAAGCATGACAACCCAGACATTGCTGACTGT -TGGCCATAATAAAACGATTCATAACGACCTTCTTTTTTGGTTGTAAAAACCTTATTCTTTATATGAGTGTTGTTA -TTACCCGACTTACAGGGGAATCGGCAATGTTCATGTGCCCAGAATAAGTAACTATTTCGCTATAAACTGTGGCAG -ATCAAATAATCCCATCACTGACTAAATTGCGTTTCAGCGAACTGGAACATTAATGATTTTTTGTGGAGAAGACGC -GTGTGATTGTTAAACGACCCGTCTCGGCCAGTCTGGCCCGGGCCTTTTTTTACATTGTGCTGCTGTCGATTCTTT -CCACGGGTATCGCTCTGCTAACTCTGGCGAGCAGTTTGCGCGACGCTGAGGCTATCAATATTGCCGGATCGCTGC -GTATGCAGAGTTACCGCCTGGGCTACGACTTGCAAAGTGGCAGTCCACAACTCAATGCACATCGCCAGTTATTTC -AGCAGGCACTGCATTCACCGGTATTAACCAACCTCAACGTCTGGTATGTGCCAGAAGCAGTAAAAACTCGCTATG -CGCATCTGAATGCCAACTGGCTGGAGATGAATAATCGGCTCAGCAAGGGCGATTTGCCGTGGTATCAGGCCAATA -TTAATAATTATGTTAATCAGATAGACCTGTTCGTACTGGCTTTACAGCACTACGCTGAACGCAAAATGCTGCTGG -TGGTGGCGATTTCCCTGGCTGGCGGCATCGGTATTTTCACGCTGGTCTTTTTTACTTTGCGCCGCATACGCCATC -AGGTGGTTGCCCCGCTGAATCAGCTGGTTACCGCCAGTCAGCGTATTGAACACGGGCAGTTCGACTCGCCGCCGC -TGGATACCAACCTGCCGAATGAGCTTGGTCTGCTTGCAAAAACCTTTAACCAGATGTCGAGCGAGCTGCATAAAT -TGTACCGTTCGCTGGAAGCGTCAGTAGAAGAAAAGACCCGCGATCTCCACGAGGCCAAGCGTCGTCTGGAGGTGT -TGTATCAGTGTTCGCAGGCGCTGAACACTAGCCAGATTGATGTGCATTGTTTCCGCCATATTTTGCAGATTGTTC -GCGACAATGAAGCGGCTGAATATCTGGAGTTAAATGTCGGTGAAAACTGGCGGATTAGCGAAGGGCAACCAAACC -CGGAATTGCCGATGCAGATTTTACCGGTGACAATGCAAGAGACGGTTTACGGCGAACTGCACTGGCAAAATAGTC -ACGTTTCATCATCAGAACCGCTGCTTAACAGCGTTTCGTCGATGCTGGGACGCGGTTTGTACTTTAATCAGGCGC -AGAAGCATTTTCAGCAATTATTGTTGATGGAAGAACGTGCGACCATCGCCCGCGAATTGCACGACTCGCTGGCTC -AGGTACTTTCTTACTTACGTATCCAGTTGACGTTACTGAAGCGTTCGATACCGGAAGATAACGCCACCGCACAAA -GTATCATGGCCGATTTTTCCCAGGCGTTGAATGATGCTTATCGGCAGTTACGCGAGCTGTTGACTACTTTCCGCC -TGACGCTGCAGCAGGCGGATCTCCCCTCCGCATTGAGGGAAATGCTGGATACGTTACAAAATCAAACCAGCGCCA -AACTGACCCTCGACTGCCGTCTGCCAACCCTGGCACTGGATGCGCAAATGCAGGTGCATTTGTTGCAAATTATTC -GCGAAGCGGTGCTGAATGCGATGAAGCACGCCAACGCCAGCGAAATCGCCGTCAGTTGCGTCACCGCGCCGGACG -GCAATCACACGGTTTATATCCGTGATAACGGGATTGGTATCGGTGAACCGAAAGAACCCGAAGGTCATTATGGTC -TGAATATCATGCGCGAACGCGCGGAACGGCTAGGTGGGACGCTGACTTTTTCACAACCTTCCGGCGGCGGCACGT -TAGTGAGTATTAGCTTTCGCTCTGCGGAGGGTGAGGAAAGTCAGTTAATGTAATGCCTCCTACTGACCAAAGAAT -ACTTGCACTTAAGGTTCAGTATAAAAGGGCATGATAATTTACATTAACTCCTTTTTTTCTCCACGATTGGCTCGT -ACCTTGCCGCTACAGTGAAGCAAGTCAAGCCTACAACGATACGCAGAAACACGAGGTCCTCTTTTAATGGCGAAT -TTCTTTATTGATCGCCCCATTTTTGCCTGGGTGCTGGCAATCCTGTTGTGTCTGACAGGTACCCTGGCGATTTTT -TCATTGCCCGTTGAACAATACCCCGATCTCGCGCCACCGAATGTGCGAGTGACCGCTAACTATCCCGGCGCATCG -GCCCAGACGCTGGAAAACACCGTGACCCAGGTTATCGAGCAAAATATGACCGGCCTCGATAATCTCATGTATATG -TCATCTCAGAGCAGTGGCACCGGTCAGGCATCTGTCACTTTAAGTTTTAAAGCAGGCACCGATCCGGACGAAGCC -GTGCAGCAAGTACAAAACCAGCTGCAATCAGCCATGCGAAAGTTACCGCAGGCGGTGCAAAATCAGGGCGTGACG -GTGCGTAAAACCGGCGATACCAACATTCTGACCATTGCCTTCGTCTCTACCGATGGTTCGATGGATAAACAGGAT -ATTGCTGATTATGTTGCCAGTAATATTCAGGACCCGTTAAGCCGCGTGAATGGCGTCGGGGATATCGATGCCTAT -GGTTCGCAATATTCCATGCGTATCTGGCTGGACCCGGCGAAACTCAACAGTTTCCAGATGACGGCTAAAGATGTC -ACTGATGCCATTGAGTCACAGAACGCGCAGATTGCGGTTGGGCAACTTGGTGGTACACCTTCCGTCGATAAGCAG -GCGCTCAACGCCACCATTAACGCCCAGTCACTGCTGCAAACACCAGAACAGTTCCGCGATATCACCTTGCGGGTC -AATCAGGACGGCTCAGAGGTAAGGCTGGGCGATGTCGCCACCGTCGAAATGGGGGCGGAGAAATACGATTATCTT -AGCCGCTTCAATGGTAAGCCAGCCTCCGGGCTGGGGGTAAAACTGGCCTCCGGCGCTAACGAAATGGCGACAGCG -GAGCTGGTGCTCAATCGTCTCGACGAGCTGGCGCAGTATTTCCCGCATGGACTGGAATACAAGGTGGCGTATGAA -ACCACCTCGTTTGTTAAAGCCTCCATTGAAGACGTGGTGAAAACGCTGCTGGAAGCTATCGCTCTGGTTTTCCTC -GTTATGTATCTGTTCCTGCAAAACTTCCGCGCCACGCTGATACCCACTATCGCCGTGCCGGTGGTGTTGATGGGA -ACCTTCTCCGTACTTTACGCCTTCGGTTACAGCGTCAACACCTTAACCATGTTCGCGATGGTGCTGGCGATCGGT -CTGCTGGTGGATGACGCCATCGTGGTGGTGGAAAACGTCGAACGTATTATGAGTGAGGAAGGACTCACTCCTCGC -GAAGCCACACGTAAATCGATGGGGCAGATCCAGGGGGCACTGGTCGGGATTGCGATGGTTCTTTCGGCGGTATTT -GTACCAATGGCCTTCTTCGGCGGCACCACCGGTGCCATCTATCGCCAGTTCTCTATTACCATTGTTGCGGCGATG -GTGCTGTCAGTACTGGTAGCGATGATCCTCACTCCGGCTCTGTGTGCCACACTACTTAAGCCACTGAAAAAAGGT -GAGCATCATGGGCAAAAAGGCTTTTTTGCCTGGTTTAACCAGATGTTTAACCGCAACGCCGAACGCTACGAAAAA -GGGGTGGCGAAAATTCTCCACCGTAGCCTGCGCTGGATTGTGATTTATGTCCTGCTGCTTGGCGGCATGGTGTTC -CTGTTCCTGCGTTTGCCGACGTCGTTCTTACCGCTGGAAGACCGTGGCATGTTTACTACCTCGGTACAGTTGCCC -AGCGGTTCAACGCAACAACAGACCCTGAAAGTCGTTGAGCAAATCGAGAAATACTACTTCACCCATGAAAAAGAC -AACATCATGTCGGTGTTTGCCACCGTTGGTTCTGGCCCTGGGGGTAACGGGCAAAACGTGGCGCGAATGTTTATC -CGCCTGAAAGACTGGAGCGAACGCGACAGTAAGACCGGCACCTCGTTTGCCATTATCGAGCGTGCAACGAAGGCG -TTTAACCAAATTAAAGAAGCTCGCGTTATCGCCAGCAGCCCGCCAGCAATTAGCGGTCTTGGTAGTTCTGCAGGT -TTTGATATGGAGTTGCAGGACCACGCTGGAGCGGGTCACGATGCGCTGATGGCAGCACGTAATCAGTTGCTGGCG -CTGGCGGCGGAAAACCCGGAGCTAACCCGTGTGCGCCATAACGGCCTCGACGACAGTCCGCAGTTGCAGATTGAT -ATCGACCAGCGTAAAGCTCAGGCGCTGGGCGTTGCTATCGACGATATTAACGACACACTGCAAACCGCCTGGGGT -TCGAGCTATGTGAATGACTTTATGGATCGCGGTCGCGTGAAGAAAGTCTATGTGCAGGCAGCTGCGCCGTATCGC -ATGCTGCCAGATGACATCAATCTCTGGTATGTCCGAAATAAAGATGGCGGCATGGTGCCCTTCTCTGCTTTCGCG -ACCTCACGCTGGGAAACAGGCTCGCCGCGTCTGGAACGCTATAACGGTTATTCTGCGGTTGAGATTGTTGGGGAA -GCCGCACCGGGGGTCAGTACCGGTACGGCGATGGATATTATGGAATCGTTAGTGAAGCAGCTGCCAAACGGCTTT -GGTCTGGAGTGGACGGCGATGTCGTATCAGGAGCGGCTTTCCGGCGCGCAGGCTCCGGCGCTGTACGCCATTTCC -TTGCTGGTGGTATTCCTGTGTCTGGCTGCGTTGTATGAAAGCTGGTCGGTGCCGTTCTCGGTAATGCTGGTCGTG -CCGCTGGGGGTAATCGGCGCGCTGCTGGCAACCTGGATGCGCGGGCTGGAAAACGACGTTTACTTCCAGGTGGGC -CTGTTAACGGTCATTGGTTTATCGGCGAAAAACGCCATCCTGATCGTCGAGTTTGCTAACGAGATGAACCAAAAA -GGCCACGACCTGTTTGAAGCGACGCTCCACGCCTGCCGTCAGCGTTTACGCCCGATTCTGATGACCTCGCTGGCA -TTTATCTTCGGCGTATTGCCAATGGCAACCAGCACGGGTGCCGGTTCCGGTGGTCAGCATGCGGTGGGTACTGGC -GTAATGGGCGGGATGATTTCGGCCACTATTCTGGCTATTTACTTCGTGCCGCTGTTCTTTGTGCTGGTGCGCCGC -CGCTTCCCGCTGAAGCCGCGCCCGGAATAAGCAATAAAAAAGGCGACATGCCAATGTGTCGCCTTTTTCAACTTT -CCGATTAAGAACCTGCTCAGCGGGTTCTTGCTGTTTGTACTTTGTCTCAGGAATTACTTACGAAGCATAACTTCG -ATAAAGTCTTTCCAGTTCCCCAGTTCACGTTCAATCATAACAACCTCTCTTATAATTATGGGTATTCTACGGAAA -CAATATACCGTGGTGAAGCTAATTTACTCGATTGCTGCGATGACTACCTCCGGGGGACAAATCTTATGTAAATAC -TATGGTCCTGCGGTGATGATTTGTATGTGATACACAGCAACATTTCGAGATATTCATACGGCATCTAATACTGAT -TTAATTCTGGTTAAAATACAGACAGATAACAAGATGAATATTCTTAATGTTTACGTTAAAAATGTTTAATATTAT -TTAATAGTTGTTAATTTGAATACTTCGATAATGTTATATTTCCTGATAATCATTTGCAGGCAAAATGTTTTCACC -CTTAAATGAGTATTTATTCTCATAAATCGAAAAAGGATTCATTATGGTTACACTTTACGGTATCAAAAATTGTGA -CACCATTAAAAAGGCTCGCCGTTGGCTGGAAGCCAATAACATCGACTATCGTTTTCATGATTACCGCGTCGATGG -GCTGGACAGCGAATTATTGAACGATTTTATCAACGAATTAGGCTGGGAAGCGTTACTCAACACCCGTGGTACAAC -CTGGCGTAAACTGGACGAAACCACCCGCAATAAAATCACCGATGCGGCCTCTGCGGCGGCATTAATGACTGAAAT -GCCTGCAATTATCAAACGTCCATTGCTCTGCGTGCCCGGTAAGCCTATGCTGCTGGGTTTCAGTGATTCCAGTTA -TCAGCAATTTTTCCATGAGGTGTAGTCTATGTCGTGCCCGGTTATTGAGCTGACACAACAGCTTATTCGCCGCCC -TTCCCTGAGTCCTGATGATGCAGGATGCCAGGCTTTGTTGATTGAACGTTTGCAGGCGATCGGTTTTACCGTTGA -ACGCATGGACTTTGCCGATACGCAGAATTTTTGGGCATGGCGTGGGCAGGGTGAAACGTTAGCCTTTGCCGGGCA -TACCGACGTGGTGCCGCCTGGCGACGCCGATCGTTGGATCAATCCCCCGTTTGAACCCACCATTCGTGACGGCAT -GTTATTCGGGCGCGGTGCGGCAGATATGAAAGGCTCGCTGGCGGCGATGGTGGTGGCGGCAGAACGTTTTGTCGC -ACAACATCCCAACCATACGGGGCGACTGGCATTTCTGATCACCTCTGATGAAGAAGCCAGTGCCCACAACGGTAC -GGTAAAAGTCGTCGAAGCGTTAATGGCACGTAATGAGCGTCTCGATTACTGCCTGGTTGGCGAACCGTCGAGTAT -CGAAGTGGTAGGTGATGTGGTGAAAAATGGTCGTCGCGGATCATTAACCTGCAACCTTACCATTCATGGCGTTCA -GGGGCATGTTGCCTACCCACATCTGGCTGACAATCCGGTACATCGCGCAGCACCTTTCCTTAATGAATTAGTGGC -TATTGAGTGGGATCAGGGCAATGAATTCTTCCCGGCGACCAGTATGCAGATTGCCAATATTCAGGCGGGAACGGG -CAGTAACAACGTTATTCCGGGTGAACTGTTTGTGCAGTTTAACTTCCGCTTCAGCACCGAACTGACTGATGAGAT -GATCAAAGCGCAGGTGCTTGCCCTGCTTGAAAAACATCAACTGCGCTATACGGTGGATTGGTGGCTTTCCGGGCA -GCCATTTTTGACCGCGCGCGGTAAACTGGTGGATGCGGTCGTTAACGCGGTTGAGCACTATAATGAAATTAAACC -GCAGCTACTGACCACAGGCGGAACGTCCGACGGGCGCTTTATTGCCCGCATGGGGGCGCAGGTGGTGGAACTCGG -GCCGGTCAATGCCACTATTCATAAAATTAATGAATGTGTGAACGCTGCCGACCTGCAGCTACTTGCCCGTATGTA -TCAACGTATCATGGAACAGCTCGTCGCCTGATGAGTGGTTCTGCAAGAGGAAATAAGCATGGACTGGCTGGCTAA -ATATTGGTGGATTCTGGTGATTGTCTTTTTGGTAGGCGTCCTGCTGAACGTGATTAAAGATCTCAAGCGCGTCGA -CCATAAGAAATTTCTCGCCAACAAGCCGGAGCTTCCCCCGCATCGTGATTTCAACGATAAGTGGGACGATGACGA -CGACTGGCCGAAAAAGGATCAACCGAAGAAGTAAGCTGAGTGCTCAACCGTAGGCCGGATAAGGCGTTAACGCCG -CATCCGGCAATGGTGAACGATGCCTGATGCGACGCTCACGCGTCTTATCAGGCCAGGTAATCTGTCTTTTACATC -ATTTCAATCACATCATCATCGCCAGGCTTACCGCCACTTAGCGCTTCGTCGAAATAATGTTTCGGAATGGTATAA -CGCAAGTGATCCAGGGCAAATTGCATACTGCGATTGTCGATCGCATGGCCTAAATCCTCCACGATATCCAGCGTC -ACGTCACCACCGGCACTGATTAACGCTTCCTGCGCCGCAACCGCATGCGCCAGATCGATAACCGGATCTTCACCG -CCATGAATCAGGTGAATTGTCGTGGCTGTAGACGCAGTTTCCGGCAGGCTCGCATAGCGTCCGTTAAAAGCAATG -ACGCGTGAAGCAAGGCCCGGTTCGGCTTTAATGCTCTCCAGCACCATAATCGCGCCTTGAGAGAAACCGATGAGC -GCCGTGGCGTTAGCCCCTACTCCGCTCTGTTTCTGCCAGTAGCGCACCGTTTCAATAAACGTCGGCATGATCGCA -TCCACACGCGCCTGGCGATTATCTTCCGTAATACCCTGCACCGAAAACCACTGACGCCCCGCCGGATTACCGCTC -GGCTCCGCGCCACCGACACTCACCACCAGCGCATCAGGAAACAGCGGTGCAAACCAGTTGCCTATTTCCCCCATT -GCCACCGGGTTATCCCCGACACCGTGGAAAAGCAGTAACAACTGTTGCGCAGGTTTATCCGGGCTTTGAACAACA -AAATGGTCATGTTTCATGGCGAACTCCTTAACTGATGTCATTAATTTTACGCCGCTGACTCACAATGACCATGAG -ATAAAATTGAAGGAGTCAGTGAAATAATTGCCATTGCGTTATGCGATCGCGCAGACGCTCAGTGCGAACATCATT -AAGTGCGAACAGCGCCTGCGCGGCCTCTTCCCGCTGACGGACCAGTAACATCTTGCGGCCTGAAAGTTTAAGTGT -GGTACATAACTGCGCATCACTGGCGTTTTTCTGTAAACGCCCACGCAGCGCCGGTAATGCCAGTTCACTGGTTTG -TAACAGACGCAATAAGCAACCTAACGACGTTAATAGCGGACGATGAGCGAAAGCAAAACCGGCCAGTTCAAGCCA -GTCGTCGTCAGAAAGGACGGCATCGTTTAGTGGATCAACAGGAAGCGTTTCGCCATTCCACTGCGCGAGAGCTTG -CGCATCGCGACGTAAACGGTAATGCTCACGTTCAGCCAGCTGTTTACCCGCATCACTCATCGGTAACAGCGCCAT -CGCCGTATAGCAACCGCTGCTGGCTTCCCGATGATTACCCATCCGCACCAGCACAAAACCGCAGCGTTGCCAGAA -ACGCCATAACTCCCCGGTGTAACCAAAACTCACCGAAAGATAGTCGAGGTCTTGCGTATATTGCAAAGCACCAGC -AATAAGTTGCCGCCCTGTGCCTTCCCGCTGACGAGCCGGATGAACTGCTATCCGGCTGACCCGCCGTCCACGCAA -TGTCGCCGCCAGTGGATTGTTGCCGTGCGCCGCCAGCGACTGGGCCACCAGATTACCCCGCGGGCGACGAAAACC -TGCCCATACCGCCTGACTGAGTTGTTGAGATAATCCACCCTCATCCACCAGCCACAGCGCCCCGGCAATCTCGTT -TTCGCCAGCCGCCTGTAAAAAATGTTGCCCTGGTGCATCCATCATCCGGCGTAAATCCAGCGGCGAAGTCCGATA -GTGCGCACCAGACAAGAGCTGATAAACCTTTAACGGCGTTTCTGGATCGCTTTGCCATAACGTCTGTTCAAATGC -GGAAATGACAATATTGCCTTGTGGTGTATGGGTGAAGTTTTCATCGTCAAAAACCAGTGCCTCGCTGACCATTTT -TTCCAGCGGGCATCCCTGCGCCCAGCGGATCGGCTGTTGCAGTTCAAAACGGTGTAAATGCGGAAAGCGAGCGCA -AAATTTCAGCAAAAAACCACGTCCGGTGCCTTCGTAGCCCTGCACCGTAGTGGTTAACAACGTTCGAGGAAAACG -CGATACCAGTTGATGCAACAATGGCGCAGGTATGGCTGCGGCTTCATCGACCACCAGCCAGTCGGCTTGCTCATC -GCTGGCTAACAAGGCATCCGGCGCAATAAAGCGAAACTTCTCGCCCGCAAATTGTGCCAGTACATCCGTTGACGC -TTTTGCGGGCGCGGTGACAATCGCTCTGCCCGCAATACGAGAAATGAGTTGCCCTGCCAACGCCGACTTACCGCG -CCCACGCGCAGCCGTTACCGCTGCCACGCCCGGCGGCATGGTCATTAGCTGCTTTAAGAGTTGCTGTTGTTCTGG -TTGTGGTGCGCCAGTCGCGGGGTACCAGTCAGTACGGGGAGTAAAATGCGCCAACGAGAATGGCTGGTTTTGCCG -CCAGAGGATAGCCTCGTTATCCGCCGTAAGTACGCGTTTGAGATGCTGGACAAAATGCGGCGTCGCAATAGGGTC -AGGGCAATCACTCCAGCGCAGCGAGTCGGCATCAGGTTGGTTTTCCCACTCTTCCCATACAGGGAGTAACAAAAC -CAGCCAGCTTCCCGCTTTCAACGTTCCGCTAAGTGCGGCAAAGGCAGCGGCATCAAAGCCGTGGCGGGCGTCGAA -TACCGCATGCCGGAACTCGCGCCCAAGTAAAGTTTGTAGTGCCGAGGGAGAACAGTGGTTTTCAGCATCTGGCCG -CGGCGAAATCCACAGCCAGTCGCCAGGTAAGGCATCACGCAACTTAAGAGTATGCTCAAAACACCAACCCTCTTC -CCCGCTCAACACCAGCAAGCGGCGGATCCCTTCACGTTTCATTTGCGCTGTTAATGTGTGAAGCGCAGTCAGTTC -AGCCATCCCTGCCCCGGAAGTTAAATGCTTTTACCAAAAGTATTGCATTGTGCCGGATCGCCGCTGTCGAAACCA -CGTTTAAACCAGCTGTAGCGTTGCTGAGAAGTGCCATGAGTGAAACTGTCTGGTACTACTCGCCCCTGACTTTGC -TGTTGTAAACGGTCATCGCCGATGGCCTGCGCCGCGTTCAGCGCCTCTTCCAGATCGCCGGTTTCCAGAACGCCT -TGCTGCTGCATACTATGCCCCCAGACACCGGCAAAACAGTCGGCCTGGAGTTCCATACGCACAGATAAGCGGTTT -ACTTCCGCCTGCGTCGCGTTTTGTTGCAGTTGACGAACTTTCGGCTCGATGCCTAACAGTTTCTGCACATGATGA -CCGACTTCATGGGCGATAACGTACCCCTGGGCAAAATCGCCATCCGCGCCAAGTTTGTCTTTCATGTCATCATAG -AAGGAGAGATCGATATAAACCGTGCCATCCGCCGGGCAATAGAACGGCCCCATTATGGACTGGCCCGCCCCGCAG -CCGGTACGCGTCATTCCACGGTACATGACCAGCTTCGGTTGCTGATAGGTCTTACCCATCTTCTCGAACTGTTGT -CCCCAGGTGTCTTCCGTGGTTGCCAGAATCACCGAGGTGAATTTTGCGGCTTCGTCTTCATTTGGGCTAATTGAC -CGCGTTGATTGTTGTTGGGAAACCGGCTGCCCGGTCATCAACCCGGTTAAATCAACACCATAGTAGCCTGCAACC -AGCACGACTATCAGTAAAATCAGCCCGCCTTTACCGCTTGGCAGGCGAAAACCGGGACCGCCCATAGATGGACCA -CCAGAGCTGTTGCGCCTGTCTTCAACATTGTCACTTTCACGTCGCCCTTGCCAACGCATAGATACCTCAACAATA -TATTCATTATAGAAATGATCGTAGGTGGTTCAGAGGAAGATTACCACAGGAAAGCGGGATGAAATGGCGGAGGAA -TGAGCGTTCAATGCATATATTCCGAGAGCGGTTGTCTTGCCGTGCCAGCTGCACGGCAAGATGATGAACAGAAAA -ATCAGTCCAGCTGTACACCCAGGCGGCGGGCGACGGCTTCATAGGCTTCGATCAGGCCACCGAGGCTCTGGCGGA -AACGGTCTTTGTCCATTTTCTCCAGCGTTTCTTTGTCCCACAGGCGGCTACCGTCCGGGGAGAACTCATCACCCA -GTACCACTTCGCCTTTGTACAGACCAAATTCCAGCTTGAAGTCGACCAGAATCAGACCAGCATCATCGAACAGTT -TTTTCAGCACGTCGTTCGCTTTGTAGGTCAGCTCTTTCATACGCGCCAGGTTCTCTTTGCTCACCCAGCCAAAGG -TTTCGCAGTAAGATTCGTTGACCATCGGATCGTGCATGGCGTCGTTTTTCAGGAACAGATCGAACAGCGGCGGGT -TCAGCTCAATACCTTCTTCGATTCCAAGACGTTTCACCAGAGAGCCAGCAGCACGGTTACGCACGACACACTCAA -CCGGCACCATATCCAGCTTTTTCACCAGACATTCGGTATCGGAGAGCAGACGCTCCATTTGAGTCGGGATACCCG -CTTCAGCCAGTTTGCTCATAATGAAGTAGTTGAACTTGTTGTTCACCATACCTTTGCGATCAAACTGCTCAATGC -GCGCGCCATCCCCTGCTGACGTATCATTGCGGAATTCGAGCACCAACAGGTCCGGGTTTTCCGTGCTGTATACGG -TTTTCGCTTTACCACGATACAACTCAGCTTGCTTTTGCATCTTTATCACTCCTGGGTGTGAATTAACGTTTTAAA -ATCTTTTGCTGTCTGGTGTGCCGGATGTTTTGTCGGATGCGGCGTGAACGCCTTATCCGAACTACGTCCGACAAA -CAAATTTCGTGCGAATTACCGCTAAAATCGCGTTTTCCTGCAGACGCACACGTTTGCGTATCATATCAGAAAAAA -GGGCCGGATGATTCCAGCCCTGTATTTTTACTTGCTAAACGCAGCCTGGAAGACAGCTACCAGCGCGTCGTTCTG -ACTCTGAGTCAGAGTATGACCTTTCGGATCGATGAACTGTAGGCTGCTGCGGTTATCTAAATCGCCAACCTGCAG -TTTATAGTCACCGGATGCCAGGCCTGGATCGCTCGCGCCCAGTTCCTGCCAGTCGCTGTCAGACAGCGGCTTATA -AGTTACGGCCATGTTGCCCTGCGAACGGGTGCTGTCGGTCACTTTCATGCCCACTTTTTCCAGCGCCGCTGGCAG -ACGTTGCCAAACCACATTGAACGGCCCGCGTACGACCAGCATTGGTAAACCGGTGTCATCAGCTGCACTTTGTAC -GTCCATAGTGGTGGAGGCACGATTTTGCGCAGCGTTCGCGGCGTCAGTGGCAGATTTATCCAGACCGGCGGAAAT -AACGTTCATCATCTCCGTGCTGTAACGCTGCATGGAAGCCGCGTCTGCAACCGGTTTGCCCGCCTGTTCCAGGTT -CAGCAGTTTAACCGTAACCGCCTGCTGATAACCCTGCGGCTTAACAGAGATTTGATAACGACCACGATACTGCTC -GTCTTCGTCCAGACGGTTCCATTGTACCCAATCGGTGGTCAGTGTCTGACCAGCATCATCACGTTGGGTGATGGT -GTAGTTTTTCGCCTGCAGCACGCTAACCACCTGCGGCCACAGAGTATTGCCACGACCATTTTCCACCAGCAATGA -AGCGGTATCGCCCGTGAACTGGGTACGCGCGCCAGAAACCAGTGCCAGCGGCTGGGCTGGTGGACGAATGTCCAG -CGCCTTACCGACAGCACCACTACCGTTGGTCACCGGGATTGCATAATCACCGGAGGTCACCGGCAAAATCATTCC -AGCCGGGGCATGAAGCTCCGCAAGCGGTGCCGCTTCCAGGTAGGCTTCATCACCACTGACCTGACGCTTATAGCG -TGAGTCAGAACTACAGGCAGCGAGTAATAAAACAAGCGAAACACCCGCAACCTTTGCCAGGCGCGACTTTTGAAC -AGAGTAAGCCATCAAATCTCCCTAAACTTTACAGCAAACCGGCATGCTTAAGCGCCGCTCTGACCGTCTCACGAC -CACTGTCGGTGATTGGTGTCATTGGCAGGCGCAGCGTATCGGTCGCCACAAGACCCAGTTCCTTACATGCCCATT -TCACCGGGATTGGATTGGGTTCGACAAATAGTTTGTTGTGTAATGGCATCAGACGCTGATTAATAACGCGTGCCT -CGGCAAAATGCCCTTCTGCTGCCAGTTTGCACATCTGGGCCATATCACGCGCTGCGACGTTAGCCGTAACGGAAA -TAACCCCATGACCGCCCAATTGCATGAAGTCCAGCGCGCTCGCATCATCGCCGCTCAGCAGAACAAAATCATCTG -AAACCAGCTCTTTGATCTGGTTTACACGCGTTAAGTTCCCTGTTGCCTCTTTGATTCCGATAATATTTTTTACTT -TCGCCAGACGGCCCACCGTTTCCGGGAGCAGATCGCAGCCAGTACGGGACGGCACATTATACAGAATTTGCGGCA -GGTCAGTATGCTCAGCGATGGCTTTGAAATGCTGATACAAACCTTCTTGCGACGGACGATTGTAGTAAGGGGTTA -CCGTCAGGCAGCCGACGATACCACTGTCATTGAAGCGCTGCGTCAGGCTAATGGCTTCCGCAGTAGCGTTAGCGC -CGGTCCCGGCAATTACCGGAATGCGCCCATCAGCCAGATCCAGCGTCATCATCACCACATCAGCATGTTCGTCAT -GATTTAAGGTAGCGGACTCGCCAGTGGTGCCAACAGAAACGATCGCCGAAGTACCGCTGGCGACATGATAATCAA -TCAGTTTTTTCAAGCTAGCCCGACAGACATTACCTTTTTCATCCATCGGAGTAACAATCGCGACAATACTTCCCG -TGAACATGGGCCATCCTCTGTGCAAACAAGTGTCTCAATGGTACGTTTGGTATGGCATTAAAAGCAAGCAGACAG -AACCGTTCTGATTGTTGTATGCATGTTTTTTTTATGCTTTCCTTAAGAACAACTCACCCCTTAAAGGAATAACCA -GTTTGACACTGTCATCGCAACATTATCTGGTGATCACTGCGTTGGGTGCCGATCGCCCTGGAATTGTGAACACCA -TCACCCGTCATGTCAGTAGTTGCGGCTGTAATATTGAAGACAGTCGCCTGGCGATGCTGGGAGAAGAGTTCACGT -TTATTATGCTGCTTTCCGGTTCATGGAATGCCATTACTCTGATTGAATCAACGTTACCGTTGAAAGGTGCCGAAC -TGGATCTTTTAATCGTGATGAAGCGCACGACGGCGCGTCCGCGTCCGCCAATGCCAGCATCTGTCTGGGTTCAGG -TCGATGTGGCAGACTCCCCGCATTTAATTGAACGCTTCACAGCACTTTTCGACGCGCATCATATGAACATTGCGG -AGCTGGTGTCGCGCACGCAACCTGCTGAAAATGAACGGGCTGCGCAGTTGCATATTCAGATAACCGCCCACAGCC -CCGCATCTGCGGACGCAGCAAATATTGAGCAAGCGTTCAAAGCCCTATGTACAGAACTCAATGCACAAGGCAGTA -TTAACGTCGTCAATTATTCCCAACATGATGAACAGGATGGAGTTAAGTAATGAATCCACTGAAAGCCGGTGATAT -CGCACCGAAATTTAGCTTGCCGGATCAAGACGGAGAACAAGTTAATTTGACCGACTTCCAGGGACAGCGTGTTCT -GGTTTATTTCTACCCGAAAGCCATGACCCCCGGCTGTACCGTACAGGCCTGCGGCTTACGCGATAACATGGATGA -GTTGAAAAAAGCGGGCGTTGATGTGCTGGGTATCAGCACCGATAAACCCGAAAAACTCTCCCGTTTTGCGGAAAA -AGAGCTGCTTAACTTTACGCTCCTGTCTGATGAGGACCACCAGGTGTGCGAACAATTCGGCGTCTGGGGTGAAAA -GTCCTTCATGGGCAAAACCTACGATGGCATTCATCGCATCAGCTTCCTGATTGACGCTGATGGCAAAATCGAACA -TGTCTTTGACGATTTCAAAACCAGCAATCACCACGACGTTGTGCTGAACTGGCTGAAAGAACACGCCTGATTACT -TTGCTCCATTCCGTGCTGGCTGCGCTTGCGGCCAGCATACCTCACTTCTCGTGATCAAGATCACATTCTCGCTTT -CCCCTGCGACACGGGTGTCGAATCCATTTTTTGCTGAACGTTAATGACCATCATTTTTGTACCGTTCAGAATCCA -GTTAATACATAACTTATTGAATATATTGAGTTAATCAGAATGGCATCCTTTATGCAATATGAAATGCAATGTTTC -ATATCATTTTCAAGGAGCCGACATGAACCGCTTTGTGGTGGCCGAACCACTGTGGTGTACAGGATGTAATACCTG -TCTCGCTGCCTGTTCGGACGTGCATAAAACGCAAGGTTTACAGCAACACCCGCGCCTGGCCCTGGCGAAGACGTC -AACAATCACTGCCCCTGTCGTGTGTCATCACTGTGAGGAAGCCCCTTGCCTGCAGGTCTGCCCGGTCAATGCCAT -CTCTCAGAGGGATGATGCGATCCAACTCAACGAAAGCCTCTGTATTGGCTGCAAGCTTTGCGCCGTGGTCTGCCC -ATTTGGCGCAATCAGCGCTTCAGGAAGCCGTCCGGTGAATGCCCATGCGCAATATGTTTTTCAGGCTGAAGGCTC -ACTCAAAGACGGCGAAGAAAACGCGCCAACACAACATGCTTTGCTGCGCTGGGAACCTGGTGTCCAGACCGTCGC -GGTGAAATGCGACCTGTGTGATTTCTTGCCAGAAGGTCCGGCCTGCGTTCGCGCTTGCCCGAATCAGGCGTTACG -GCTGATCACCGGTGATAGCCTGCAACGTCAGATGAAAGAAAAACAGCGCCTTGCCGCAAGCTGGTTTGCCAATGG -CGGGGAGGATCCCCTTTCCCTCACTCAGGAGCAACGCTAATGGATGCCCTGCAATTATTAACCTGGTCGCTGATT -CTCTATCTGTTTGCTAGTCTGGCTTCGCTGTTTTTACTCGGTCTGGACAGACTGGCTATTAAGCTTTCCGGCATC -ACATCGCTGGTGGGCGGCGTGATTGGCATCATCAGCGGAATTACGCAATTACATGCTGGTGTAACTTTAGTCGCC -CGTTTTGCCCCCCCTTTTGAATTTGCCGATTTAACCCTGCGAATGGATAGCCTCTCGGCATTTATGGTGCTGGTT -ATCTCCTTGCTGGTGGTGGTTTGTTCTCTCTATTCATTGACTTATATGCGCGAATACGAGGGCAAAGGCGCGGCG -GCGATGGGCTTCTTTATGAATATTTTCATCGCATCGATGGTTGCCCTGCTGGTGATGGACAACGCTTTTTGGTTC -ATCGTGCTGTTTGAAATGATGTCGCTGTCTTCCTGGTTTCTGGTCATTGCCAGGCAGGATAAAACGTCGATCAAC -GCTGGCATGCTCTACTTTTTTATCGCCCACGCCGGATCGGTGCTGATAATGATCGCCTTCTTGCTGATGGGGCGC -GAAAGCGGCAGCCTCGATTTTGCCAGTTTCCGCACGCTTTCACTTTCTCCGGGGCTGGCGTCGGCGGTGTTCCTG -CTGGCCTTTTTCGGTTTTGGCGCGAAAGCCGGGATGATGCCGTTGCACAGCTGGTTGCCGCGCGCTCACCCTGCC -GCACCATCGCACGCTTCGGCGTTGATGTCTGGCGTAATGGTCAAAATAGGTATTTTCGGCATCCTGAAAGTAGCG -ATGGATCTGCTGGCGCAAACGGGTTTGCCTCTGTGGTGGGGCATTCTGGTGATGGCGATCGGCGCAATCTCCGCG -CTCCTGGGCGTGCTATATGCGCTGGCGGAACAGGATATCAAACGGCTGCTGGCCTGGAGTACCGTCGAAAACGTC -GGCATTATTTTGCTGGCAGTCGGTGTGGCGATGGTCGGTCTGTCACTGCACGACCCGCTGCTCACCGTGGTTGGA -CTGCTCGGCGCACTGTTTCATCTGCTCAACCATGCGCTGTTCAAAGGGCTGCTATTTCTCGGCGCGGGAGCGATT -ATTTCGCGTTTGCATACCCACGACATGGAAAAAATGGGGGCACTAGCGAAACGGATGCCGTGGACAGCCGCAGCA -TGCCTGATTGGTTGCCTCGCGATATCAGCCATTCCTCCGCTGAATGGTTTTATCAGCGAATGGTACACCTGGCAG -TCGCTGTTCTCACTAAGTCGTGTGGAAGCCGTAGCGCTACAACTTGCGGGTCCTATTGCTATGGTAATGCTGGCA -GTCACTGGTGGGCTGGCAGTAATGTGCTTCGTAAAAATGTACGGTATTACTTTCTGTGGTGCGCCGCGCAGTACA -CACGCTGAAGAGGCACAGGAAGTGCCAAATACGATGATCGTCGCCATGCTACTGCTCGCGGCACTCTGCGTATTA -ATTGCGCTTAGTGCCAGTTGGCTGGCACCGAAGATAATGCATATTGCCCATGCGTTTACCAATACCCCTCCCGCC -ACTGTCGCCAGCGGAATAGCACTTGTACCCGGCACGTTTCATACACAGGTCACCCCCTCATTACTGTTGCTGTTA -CTACTGGCGATGCCTTTGCTGCCTGGCCTTTACTGGCTGTGGTGTCGTTCGCGCCGCGCAGCGTTTCGTCGCACA -GGAGATGCCTGGGCATGCGGCTACGGCTGGGAAAATGCGATGGCCCCGTCAGGCAATGGCGTGATGCAGCCGCTG -CGTGTGGTCTTTTCTGCGCTATTTCGTCTACGACAACAGCTCGACCCTACGCTGAGGCTAAATAAAGGTCTTGCG -CACGTCACCGCCAGGGCTCAGAGCACAGAACCCTTCTGGGATGAGCGGGTGATCCGCCCCATCGTGAGCGCCACC -CAACGGCTGGCCAAAGAAATACAGCATCTGCAAAGCGGCGACTTTCGTCTCTATTGCCTGTATGTGGTCGCCGCA -CTGGTTGTGCTGCTAATCGCTATTGCCGTCTAAGGAAATCACCATGAGACAAACTCTTTGCGACGGATATCTGGT -CATTTTTGCGTTAGCACAGGCCGTGATTCTGCTGATGCTAACCCCACTTTTTACGGGTATTTCCCGGCAGATACG -CGCGCGTATGCACTCCCGCCGCGGGCCGGGGATCTGGCAGGATTATCGCGATATCCACAAACTGTTTAAACGCCA -GGAAGTTGCGCCGACATCTTCAGGTCTGATGTTCCGCCTGATGCCGTGGGTATTAATCAGCAGCATGCTGGTGCT -GGCGATGGCCTTACCACTGTTTATTACCGTTTCCCCTTTTGCGGGCGGCGGCGATCTGATCACCCTTATCTATCT -TCTTGCCCTGTTTCGTTTTTTCTTTGCTCTTTCCGGGCTGGATACCGGAAGTCCGTTTGCGGGAGTCGGTGCCAG -TCGCGAGTTGACGCTCGGCATTCTGGTCGAACCAATGCTTATTCTCTCACTGCTGGTATTGGCGCTGATAGCAGG -TTCCACGCATATCGAGATGATCAGCAATACGCTGGCGATGGGCTGGAACTCGCCGCTAACCACCGTACTGGCGTT -ACTGGCCTGTGGTTTTGCCTGCTTCATTGAGATGGGAAAAATTCCCTTTGATGTTGCTGAAGCAGAACAGGAATT -ACAGGAAGGCCCGCTGACCGAATATTCCGGTGCCGGGCTGGCGCTAGCGAAATGGGGGCTGGGGCTGAAACAGGT -CGTGATGGCATCACTGTTTGTGGCCCTGTTTCTGCCCTTTGGGCGCGCGCAAGAACTTTCTCTCGCCTGCCTGCT -GACTTCACTTGTCGTTACGCTGCTCAAGGTTTTGCTGATTTTTGTACTGGCCTCAATCGCAGAAAACACGCTGGC -ACGCGGGCGTTTTTTACTCATTCACCATGTGACCTGGCTTGGCTTCAGCCTTGCTGCGCTTGCATGGGTCTTCTG -GTTAACCGGTCTGTAAGGAGCACTGACGGAATATGGAAAATCTTGCTCTGACGACGTTATTGCTGCCTTTTATCG -GCGCACTGGTCGTTTCGTTTTCGCCACAACGTCGGGCCGCCGAATGGGGGGTTTTGTTCGCCGCGCTGACCACGC -TGTGCATGTTGTCACTGATCTCCGCGTTTTATCAGGCCGATAAAGTTGCCGTCACGTTGACGTTGGTCAACGTGG -GGGATGTGGCGTTGTTTGGCCTGGTCATTGATCGCGTGAGTACGCTGATTCTGTTTGTGGTGGTGTTTCTCGGTT -TGCTGGTCACGATCTACTCCACGGGTTATCTGACGGATAAAAATCGCGAACACCCGCATAACGGCACGAATCGTT -ATTACGCATTTTTACTGGTGTTTATCGGCGCGATGGCGGGACTGGTACTCTCCTCGACGCTGCTCGGTCAGTTGT -TGTTTTTTGAAATTACAGGCGGCTGCTCCTGGGCGTTGATCAGTTATTACCAGAGCGATAAAGCGCAGCGTTCAG -CACTAAAAGCGTTACTTATCACTCATATCGGCTCGTTGGGGTTGTATCTTGCCGCCGCCACGCTGTTTTTGCAGA -CCGGAACGTTTGCGCTTAGCGCGATGAGCGAGTTACACGGCGACGCACGTTATCTGGTTTATGGCGGCATCCTGT -TTGCCGCGTGGGGGAAATCGGCCCAGCTACCGATGCAAGCGTGGCTACCGGACGCAATGGAAGCGCCAACACCGA -TCAGCGCCTATCTCCACGCCGCATCGATGGTGAAAGTGGGCGTTTACATTTTTGCCCGCGCTATTATCGACGGCG -GCAATATCCCGCATGTGATTGGCGGCGTTGGCATGGTCATGGCACTGGTCACCATTCTTTATGGCTTTCTGATGT -ATTTGCCACAGCAGGATATGAAGCGGTTGCTAGCCTGGTCGACCATCACTCAACTTGGCTGGATGTTCTTCGGCT -TGTCGCTCTCCATCTTCGGCTCGCGGCTGGCGCTGGAGGGCAGCATCGCCTACATCGTCAACCACGCGTTCGCTA -AAAGCCTGTTTTTCCTTGTAGCAGGTGCGCTGAGTTACAGCTGCGGCACGCGCTTGTTGCCGCGTCTGCGTGGCG -TATTGCACACCCTGCCGTTGCCAGGCGTGGGTTTCTGCGTGGCAGCGCTGGCGATTACCGGCGTGCCGCCGTTCA -ACGGCTTCTTCAGTAAATTCCCGCTGTTTGCTGCCGGTTTTGCGTTGTCAGTGGAGTACTGGATCCTGCTGCCCG -CCATGATTCTTCTGATGATTGAATCGGTCGCCAGTTTCGCCTGGTTTATTCGCTGGTTTGGTCGCGTTGTGCCTG -GCAAACCGAGCGAGGCCGTCGCCGATGCCGCACCGCTGCCAGGATCAATGCGCCTGGTGTTGATTGTACTGATTG -TGATGTCGCTGATTTCCAGCGTAATCGCCGCGACCTGGTTGCAGTAAGGAGATGATGAATGACCGGTTCTATGAT -CGTAAATAATCTGGCGGGACTGATGATGCTGACATCGCTGTTTGTGATTAGCGTCAAAAGCTATCGCCTGTCATG -CGGATTTTACGCCTGCCAGTCACTGGTGCTGGTGTCTATTTTCGCCACTCTCTCGTGCCTGTTCGCCGCAGAGCA -ACTGCTGATCTGGTCCGCCAGCGCCTTTATCACCAAAGTGCTGCTGGTACCGTTAATCATGACTTACGCTGCACG -AAATATTCCCCAGAACATCCCGGAAAAAGCGTTATTCGGTCCGGCAATGATGGCACTGCTCGCGGCGTTAATTGT -CCTGCTTTGCGCATTTGTCGTTCAGCCCGTGAAGCTACCGATGGCTACCGGGCTGAAACCGGCGCTGGCGGTAGC -GTTAGGTCATTTTCTGCTTGGCCTGCTGTGCATTGTCAGCCAGCGCAATATCCTGCGGCAAATTTTTGGTTACTG -CCTGATGGAAAACGGCTCCCATCTGGTGCTGGCGCTTCTTGCCTGGCGAGCACCGGAACTGGTGGAAATAGGTAT -CGCTACCGACGCCATCTTCGCCGTCATTGTGATGGTGTTACTGGCAAGAAAAATATGGCGTACCCACGGCACGCT -GGACGTGAACAACTTGACCGCGCTGAAGGGATAATGAGATGAGTTATTCTGTGATGTTCGCTTTACTCCTGCTCA -CGCCGCTGCTTTTTTCGCTGCTCTGTTTTGCCTGCCGGAAACGGAGACTTTCTGCGACTCGCACGGTGACCGTAT -TACATAGCTTAGGGATCACACTGCTGCTGATTCTGGCACTCTGGGTGGTCCAAACTGCCGCTGATGCAGGAGAAA -TATTCGCTGCGGGACTGTGGCTTCATATTGATGGTCTGGGCGGTTTGTTCCTCGCCATTCTTGGTGTGATTGGCT -TTCTCACCGGTATTTACTCGATTGGCTACATGCGTCATGAAGTGGCACACGGCGAGCTTTCACCCGTTACGCTGT -GCGATTACTACGGTTTCTTCCATCTGTTTTTGTTCACCATGCTGCTGGTTGTTACCAGCAATAACCTGATTGTGA -TGTGGGCGGCGATCGAAGCCACCACCTTAAGCTCGGCGTTTCTGGTAGGCATTTACGGTCAGCGTTCATCGCTGG -AAGCTGCATGGAAGTACATCATTATTTGTACTGTTGGTGTCGCTTTTGGTCTGTTCGGTACCGTGCTGGTATACG -CCAACGCCGCCAGCGTTATGCCGCAGGCAGAAATGGCGATATTCTGGAGCGAGGTTCTTAAGCAATCGTCCTTGC -TTGACCCAACATTAATGCTGTTGGCCTTTGTGTTTTTGCTAATTGGCTTTGGTACCAAAACCGGGCTATTTCCCA -TGCACGCCTGGCTGCCGGATGCTCACAGTGAAGCGCCGAGTCCGGTCAGCGCCCTGCTCTCCGCCGTATTGCTGA -ACTGCGCGCTGTTGGTGCTGATTCGCTATTACATCATTATTTGCCAAGCCATCGGCAGCGATTTCCCCAACCGGT -TGTTGCTCATCTTCGGCATGTTGTCGGTTGCCGTGGCGGCATTTTTCATTCTGGTACAGCGGGACATTAAGCGTC -TGCTGGCGTACTCCAGCGTGGAGAACATGGGGCTGGTCGCGGTGGAGCTAGGCATTGGCGGGCCGCTGGGAATTT -TTGCCGCGCTGCTGCACATCTTAAACCACAGTCTGGCAAAAACGCTGCTGTTCTGCGGTTCCGGCAATGTACTGC -TCAAGTACGGCACGCGCGATCTCAACGTCGTCTGTGGGATGCTCAAAATCATGCCATTTACCGCCGTGCTGTTTG -GCGGCGGTGCGCTGGCGCTGGCAGGGATGCCGCCCTTCAACATTTTTCTTAGCGAATTTATGACCATTACCGCCG -GACTGGCACGTAATCACCTGCTGATTATCGTCCTGCTGTTATTGCTGTTAACGCTGGTGCTGGCGGGCCTGGTAC -GGATGGCTGCGCGGGTGTTAATGGCGAAACCGCCGCAGGCCGTTAACCGGGGTGATCTCGGCTGGTTGACCACCT -CGCCAATGGTGATTCTGCTGGTCATGATGCTGGCGATGGGAACGCATATTCCACAACCTGTCATCAGGATCCTGG -CGGGCGCTTCCACTATAGTCCTCTCAGGGACGCACGATCTGCCTGCACAACGTAGCACCTGGCATGATTTTTTGC -CTTCAGGCACCGCATCTGTTTCGGAGAAACACAGTGAACGTTAATTCATCGTCAAATCGTGGCGAAGCGATTCTC -GCCGCCCTGAAAACGCAGTTCCCCGGCGCGGTGCTGGATGAAGAGCGACAAACGCCTGAACAGGTCACCATTACG -GTGAAAATCAATCTGCTGCCTGACGTTGTACAGTATCTTTATTATCAACATGATGGCTGGCTTCCGGTCCTGTTT -GGCAACGACGAGCGGACACTTAACGGTCATTACGCGGTTTATTATGCCCTTTCAATGGAAGGGGCCGAAAAATGC -TGGATTGTGGTGAAGGCGCTGGTCGATGCCGACAGTCGGGAGTTTCCGTCAGTCACACCGCGCGTCCCTGCCGCG -GTCTGGGGCGAGCGAGAAATTCGCGATATGTACGGGCTGATTCCGGTTGGCCTGCCGGATCAGCGTCGCCTGGTG -TTGCCCGATGACTGGCCGGAAGATATGCATCCGCTGCGCAAAGATGCGATGGATTATCGACTGCGCCCTGAACCG -ACGACTGATTCCGAAACGTATCCGTTTATCAATGAGGGCAACAGCGATGCGCGGGTGATCCCTGTCGGCCCGCTG -CATATCACCTCCGATGAACCGGGTCACTTCCGCTTGTTTGTGGATGGCGAGCAAATTGTCGATGCTGATTACCGC -CTGTTTTATGTCCATCGCGGCATGGAGAAACTGGCAGAAACGCGGATGGGCTACAACGAAGTGACCTTCTTATCG -GACCGCGTGTGTGGGATTTGCGGTTTTGCCCACAGTGTGGCCTATACCAATTCGGTTGAAAATGCACTGGGGATT -GAGGTGCCGCAACGAGCACATACTATTCGCTCGATTCTGCTGGAAGTCGAACGGCTACACAGTCATTTGCTTAAC -CTTGGCCTCTCCTGCCATTTCGTTGGTTTTGATACCGGCTTTATGCAATTTTTCCGCGTGCGGGAAAAGTCGATG -ACGATGGCGGAATTGCTGATCGGGTCGCGTAAAACCTACGGTCTGAATCTGATTGGTGGTGTTCGCCGCGATATT -CTCAAAGAGCAACGTCTGCAAACGCTGAAACTGGTGCGCGAGATGCGCGCCGACGTGTCGGAGCTGGTAGAGATG -CTGCTTGCTACGCCGAATATGGAACAACGCACTCAGGGCATTGGCATTCTCGACCGACAAATCGCCCGTGATTTG -CGCTTTGATCACCCCTACGCCGACTACGGCAATATTCCAAAAACACTGTTTACCTTTACCGGCGGCGATGTTTTC -TCCCGCGTGATGGTCCGTGTCAAAGAGACGTTTGATTCGCTGGCAATGCTGGAATTTGCCCTCGACAACATGCCG -GATACCCCACTGCTGACCGAAGGCTTTAGCTATAAACCTCACGCATTCGCGCTGGGCTTTGTTGAAGCGCCACGC -GGTGAAGACGTGCACTGGAGCATGCTCGGTGATAACCAAAAATTGTTCCGCTGGCGCTGCCGTGCCGCCACCTAC -GCCAACTGGCCGGTGTTGCGTTACATGCTGCGCGGCAATACCGTTTCTGACGCACCGCTGATTATCGGTAGCCTT -GATCCCTGCTACTCCTGTACCGACCGTGTGACGCTGGTAGATGTGCGCAAGCGCCAGTCAAAAACCGTGCCGTAT -AAAGAGATCGAACGCTACGGCATTGATCGTAACCGTTCGCCGCTGAAGTAAGGACAGAAGATGCTGAAGTTACTG -AAAACTATTATGCGCGCCGGAACCGCGACGGTGAAATATCCCTTCGCGCCACTGGAGGTCAGCCCTGGCTTTCGC -GGAAAACCGGACCTGATGCCCAGCCAATGTATTGCCTGCGGTGCCTGCGCCTGTGCTTGTCCGGCAAATGCGCTG -ACTATCCAGACCGACGACCAGCAAAATTCGCGCACCTGGCAGCTCTATCTGGGGCGTTGTATTTACTGCGGACGT -TGTGAAGAAGTGTGCCCGACCAGAGCCATCCAGCTTACCAATAACTTTGAACTGACCGTCACCAATAAAGCCGAT -CTCTATACCCGCGCGACGTTCCATCTACAACGTTGCAGCCGTTGCGAACGCCCGTTTGCCCCGCAAAAAACCATC -GCACTGGCTGCTGAATTGTTAGCACAGCAACAAAATGCGCCACAAAACCGCGAAATGTTGTGGGCGCAAGCGAGC -GTCTGCCCGGAATGCAAACAACGCGCGACGCTGATCAACGACGATACAGATGTACTGCTGGTGGCTAAGGAGCAG -CTATGAGTCCAGTGCTTACACAACATGTCAGCCAGCCCATCACGCTGGACGAGCAAACGCAAAAGATGAAGCGGC -ATTTGCTACAGGATATCCGTCGCTCGGCTTACGTTTATCGCGTCGATTGCGGCGGCTGCAACGCCTGTGAAATCG -AAATTTTTGCTGCCATTACACCAGTATTCGACGCAGAACGTTTTGGCATTAAGGTTGTTTCATCACCGCGTCACG -CCGATATTTTGTTATTTACTGGCGCAGTCACCCGGGCGATGCGTATGCCTGCACTTCGGGCGTATGAGTCTGCCC -CCGATCATAAAATTTGTGTTTCCTACGGCGCGTGCGGTGTCGGCGGCGGTATTTTCCACGATCTCTACAGCGTCT -GGGGCGGTAGCGACACCATTGTCCCCATTGATGTTTGGATCCCCGGCTGCCCGCCAACACCGGCCGCCACCATTC -ACGGTTTCGCCGTGGCGCTCGGTTTGCTGCAACAGAAGATTCACGCTGTGGATTATCGCGATCCCACCGGGGTGA -CTATGCAACCGTTGTGGCCGCAGATCCCGCCATCACAGCGTATCGCCATTGAGCGAGAAGCGCGGCGGCTGGCGG -GCTATCGTCAGGGGCGAGAAATTTGCGATCGGCTCCTGCGCCATTTAAGCGACGATCCTACAGGAAATCGGGTTA -ACACCTGGTTGCGCGATGCCGACGATCCACGTCTCAATAGTATCGTTCAGCAACTCTTTCGCGTACTCCGGGGGT -TACATGACTGAAGAGTGCGGGGAAATTGTTTTCTGGACGCTGCGAAAAAAGTTTGTCGCCAGTAGCGACGAGATG -CCGGAACACAGCTCTCAGGTAATGTATTACTCGCTAGCTATCGGCCATCACGTTGGCGTGATTGATTGTCTGAAT -GTCGCCTTCCGCTGCCCACTGACGGAATACGAAGATTGGCTTGCACTGGTCGAAGAGGAGCAAGCCCGACGTAAG -ATGCTGGGGGTGATGACTTTTGGTGAGATTGTTATTGACGCCAGCCACACCGCCCTGTTGACCCGGGCATTCGCG -CCACTGGCGGATGACGCGACGTCTGTGTGGCAGGCGCGTAGCATTCAATTCATTCATCTGTTGGATGAAATTGTG -CAGGAACCGGCCATCTATCTGATGGCCAGAAAAATTGCGTGAGAAGGATTTCTCATTAATAAGGACTGTTGATGG -CTATGTCAGACGAGGCGATGTTTGCCCCGCCACAAGGAATAACAATTGAAGCGGTAAACGGAATGCTCGCGGAGC -GGTTAGCACAGAAACACGGCAAGGCGTCTTTATTACGCGCCTTCATCCCGCTGCCGCCGCCGTTCAGCCCGGTAC -AACTTATTGAACTGCATGTTCTCAAAAGCAACTTCTATTACCGCTACCATGATGATGGCAGCGATGTGACGGCAA -CAACAGAGTATCAGGGCGAGATGGTCGATTATTCGCGTCACGCCGTCCTTCTCGGCAGTAGTGGAATGGCGGAGC -TACGCTTTATTCGCACCCACGGCAGTCGTTTTACTTCCCAGGATTGCACACTGTTTAACTGGCTGGCGCGGATAA -TCACCCCGGTTCTGCAATCATGGCTCAATGATGAAGAACAGCAGGTGGCGCTGCGTTTGCTGGAGAAAGATCGCG -ATCATCATCGGGTACTGGTTGATATTACTAATGCAGTGCTGTCACATCTTGATCTCGACGATCTGATCGCTGACG -TCGCTCGTGAGATCCATCATTTTTTCGGTCTGGCTTCAGTCAGTATGGTACTGGGCGATCATCGAAAGAACGAGA -AGTTCAGCCTGTGGTGCAGCGATCTTTCTGCCTCACATTGTGCGTGTCTGCCACGCTGTATGCCTGGCGAAAGTG -TATTGCTGACACAAACGCTACAAACCCGACAACCGACCTTGACGCACCGTGCAGATGATCTGTTTCTCTGGCAAC -GCGACCCGTTATTACTCTTACTTGCATCTAACGGCTGCGAATCTGCGCTCCTTATACCGCTTACCTTTGGCAACC -ATACACCGGGTGCATTGTTGCTGGCGCATACCTCTTCCACTCTCTTTAGTGAGGAAAACTGCCAGCTACTACAAC -ACATAGCCGATCGCATCGCTATTGCCGTTGGCAATGCCGATGCCTGGCGTAGCATGACCGATTTGCAGGAAAGTT -TGCAGCAAGAAAACCACCAGCTTAGCGAGCAGCTCCTTTCGAATCTGGGCATCGGTGACATTATCTATCAAAGCC -AGGCAATGGAAGACCTGCTCCAGCAGGTAGATATTGTGGCGAAGAGCGACAGTACGGTGTTGATTTGTGGTGAAA -CCGGAACTGGCAAAGAGGTGATCGCCAGAGCGATCCATCAACTTAGCCCGCGACGCGACAAGCCGCTGGTCAAAA -TCAACTGCGCTGCCATCCCCGCCAGTCTTCTGGAAAGTGAGTTATTCGGTCATGACAAAGGGGCGTTTACTGGTG -CGATTAATACCCATCGTGGTCGTTTTGAAATTGCCGATGGCGGCACGTTGTTTCTCGATGAAATTGGCGATCTGC -CGTTAGAACTTCAGCCTAAACTGCTGCGCGTATTGCAGGAGCGGGAGATTGAGCGTCTCGGCGGGAGTAGAACGA -TCCCGGTGAATGTCAGAGTCATTGCCGCCACCAACCGTGATTTGTGGCAAATGGTTGAAGATCGCCAGTTTCGCA -GCGATCTCTTTTATCGCCTGAATGTCTTCCCACTGGAATTGCCGCCGCTACGCGACCGTCCGGAAGATATCCCTC -TTTTAGCAAAACATTTCACGCAAAAAATGGCGCGCCATATGAATCGCGCAATTGACGCCATCCCGACCGAGGCAC -TACGCCAGTTGATGTCGTGGGATTGGCCGGGCAACGTGCGCGAGCTGGAAAACGTGATTGAGCGGGCGGTACTGT -TGACTCGTGGTAACAGTCTGAATTTACATCTAAATGTCCGACAAAGCCGTTTACTGCCGACGCTAAATGAAGATT -CAGCGCTTCGCAGTTCAATGGCGCAGTTACTGCACCCGACGACGCCAGAGAATGACGAAGAAGAACGTCAGCGCA -TTGTTCAGGTATTGCGAGAAACCAATGGCATTGTTGCCGGGCCCCGTGGCGCAGCGACGCGATTAGGGATGAAGC -GCACCACGCTGCTGTCACGAATGCAGCGGCTGGGGATCTCGGTTCGCGAGGTGTTGTAATCTGCTTTTGCAGGAG -TATGCATGAGAAACAAACTCTCTTTCGACTTGCAGTTGAGCGCCAGAAAAGCGGCAATCGCTGAACGGATTGCCG -CCCATAAAATTGCCCGCAGTAAAGTGTCGGTCTTTTTAATGGCGATGTCCGCTGGCGTGTTTATGGCGATCGGAT -TTACTTTTTACCTTTCCGTTATCGCCGATGCCCCGTCTTCACAGGCATTAACCCATCTGGTGGGCGGCCTTTGCT -TTACACTCGGCTTTATTTTGCTGGCGGTTTGCGGCACCAGCCTGTTCACCTCGTCGGTAATGACGGTGATGGCAA -AAAGTCGGGGCGTTATTAGTTGGCGAACTTGGCTGATTAACGCACTTCTGGTGGCCTGCGGTAATCTGGCAGGTA -TTGCCTGTTTCAGTTTGTTAATCTGGTTTTCCGGGCTGGTGATGAGTGAAAACGCGATGTGGGGAGTCGCGGTTT -TACACTGCGCCGAGGGCAAAATGCATCATACATTTACTGAATCTGTCAGCCTCGGCATTATGTGCAATCTGATGG -TTTGCCTGGCGCTGTGGATGAGTTATTGCGGGCGTTCGTTATGCGACAAAATCGTCGCCATGATTTTGCCCATCA -CCCTGTTTGTCGCCAGTGGCTTTGAGCACTGTATCGCCAATTTGTTTGTGATTCCGTTCGCCATTGCCATTCGCC -ATTTCGCCCCTCCCCCCTTCTGGCAGCTGGCGCACAGTAGCGCAGACAATTTTCCGGCACTGACGGTCAGCCATT -TTATTACCGCCAATCTGCTCCCGGTGATGCTGGGTAATATTATCGGCGGTGCGGTGCTGGTGAGTATGTGTTATC -GGGCTATTTATTTACGTCAGGAACCCTGAAAAATCAGCCCGGCGAAACAGTTCGTCGGGCTGAAGATTATTCTTG -CGCGATTTGCCCATCGGGCCAGGCATGAATCACGGCTTTGATCAGCGTCGCCAACGGAATGGCGAAGAATACGCC -CCAGAATCCCCACAAACCACCGAAGATCACCACCGATAAAATAATCACCAGCGGATGCAGGTTAACCGCTTCGGA -GAACAACACCGGCACTAACAGGTTGCCGTCCAGCGCCTGAATAATCAGATACACCGCGAAGCAGCTCCAGAATTC -AGTACCTGCGCCAAACTGGAATAGCGCCACGCCAACCACCGGAATGGTCACCACAAATGCGCCAATGTACGGAAT -AAGAACCGAGAAGCCGACCAGCACTGCCAGCAGCAGCGAATAGTTCAGCCCGAAGAGCAAGAACCCCAGCCAGGT -GGCGATCCCCACCACGATCATCTCCAGCACTTTGCCGCGGATATAGTTGGTGATTTGTTGATTCATCTCCTTCCA -CACCTGTCCTGCCAGCCCACGGTTACGCGGCAGCACCCGGCGAACGGCGTTCAGCATCTGCTCTTTGTCTTTCAG -CAGGAAGAAGACCATCAATGGCACCAGCACCAGATAGACGGCTATGGTCAGCAAACCGACCAGCGAGGCGAGGGA -AATTTTCACCACCGAATCGCCCATGGTCAGCATCCGACTGCGCATATTTTCGGCCATTGCATCAATAATGCCCGC -GTCCATTAACGCCGGATAGCGGCGCGGCAACGTGGCGGCAAAGTCAGAAAGCTTATTGAGCATCCCCGGCATATC -GCGGATTAAGTAGATGCCCTGTTGCCAGGCGATAGGCAGTACCACGAACGCCATCAGTAGCAATATACCGACGAA -AACCACCAATACAATCGACGTCGCCCAGCGGCGGGAGCAGCCAATAGATTGCAGACGCACGGTTGGCCATTCCAG -CAAATAGGCCAGCACAATAGCCACCAGCAACGGAGCAAGCAGGCCACTAAAGAAAAAGATAATGCCAAATCCGGC -AACTAAAATAACCAGCAAGGCAATCGCTTCCGGGTCGCTAAAACGGCGGCGATACCATTGCATCAACATTTCGAG -CATAAAGACCTTCCCTGAACCTCAAGAGCGGGATTGCGATCCGCAATTGTATCGAAATGTCACAAAAAAGACTTC -GCTTTTTATGACGGATTCAGGAAACTGAAAAGTCATTTGAGTGGGCTAATCTTCGCCGTTACACTCAAAGGCGGC -GCGGTGGGAACGATATTTCACAGTATCGGTCAAATGACTATCTCCAGAAATACAGGATAGAGGTTATGTTCAGGC -AGTTGAAAAAAAACCTGGTTGCAACCCTCATTGCTGCTATGACCATTGGTCAGGTAGCCCCGGCGTTTGCCGACA -GCGCAGACACCTTGCCGGATATGGGAACCTCCGCAGGAAGCACGCTTTCCATTGGTCAGGAAATGCAGATGGGCG -ACTATTATGTCCGCCAGCTACGCGGCAGCGCGCCGTTAATTAATGACCCGCTGTTAACGCAATATATTAATTCGC -TGGGGATGCGTCTGGTTTCGCATGCCAATTCGGTTAAGACACCGTTTCATTTTTTTCTGATCAACAACGACGAAA -TTAACGCCTTTGCTTTCTTTGGCGGCAACGTGGTGCTGCACTCTGCCCTGTTCCGTTATTCCGATAACGAAAGTC -AACTGGCTTCAGTTATGGCGCACGAAATCTCCCACGTCACCCAACGTCACCTGGCGCGAGCGATGGAAGATCAGC -AGCGCAGCGCGCCGCTGACCTGGGTCGGCGCGTTAGGTTCTATTTTACTGGCGATGGCCAGTCCGCAGGCGGGGA -TGGCGGCGCTGACCGGTACACTGGCGGGAACGCGTCAGGGGATGATCAGTTTCACCCAGCAAAATGAACAGGAAG -CGGACCGCATTGGTATTCAGGTGCTGCAACGCTCGGGATTCGATCCGCAGGCGATGCCAACCTTCCTCGAAAAAT -TACTCGATCAGGCGCGTTACTCCTCGCGCCCGCCGGAAATTTTATTGACTCACCCGTTGCCGGAAAGTCGTCTGG -CAGATGCCCGCAACCGTGCTAATCAGATGCGCCCGATGGTGGTGCAGTCGTCGGAAGATTTCTATCTGGCGAAAG -CGCGCACACTGGGGATGTATAATTCCGGACGTAACCAGCTCACCAGTGATTTGCTGGATGAATGGGCGAAAGGAA -ACGTTCGTCAGCAACGAGCAGCACAATATGGTCGTGCTTTACAGGCGATGGAAGCCAATAAATACGACGAGGCGC -GTAAAACGCTGCAACCGTTACTGGCGGCAGAACCTGGCAACGCATGGTATCTCGATCTGGCTACTGATATCGATC -TTGGGCAAAACAAAGCCAATGAGGCGATCAATCGTCTGAAAAATGCCCGCGATTTACGCACCAATCCGGTGTTGC -AGCTCAACCTGGCGAACGCTTATTTGCAAGGCGGTCAACCACAAGAAGCGGCCAATATTCTGAATCGCTACACCT -TTAATAATAAAGATGACAGCAACGGCTGGGATTTGCTGGCACAGGCGGAAGCCGCGCTAAATAACCGCGATCAGG -AGCTGGCTGCGCGAGCAGAAGGTTATGCGCTCGCCGGACGACTCGATCAGGCCATTTCGCTGTTGAGTAGCGCCA -GTTCGCAGGTGAAATTAGGCAGCCTGCAACAAGCGCGTTACGATGCGCGCATCGACCAGTTGCGCCAGCTGCAGG -AACGCTTTAAGCCTTATACCAAGATGTAATTCGCATTAAAGGAAGAACAATGACCAAACAGGTAAAAATCTACCA -TAACCCACGCTGTTCAAAGAGCCGGGAAACGCTGAACCTGCTGAAAGAAAACGGCGTGGAGCCAGAAGTGGTGCT -CTACCTTGAGACACCCGCCGATGCGGCAACGCTGCGCGATTTGCTGAAAATACTGGGGATGAATAGCGCCCGTGA -ATTGATGCGCCAGAAAGAGGATCTTTATAAAGAACTGAACCTGGCTGACAGTTCGCTTAGCGAAGAGGCGCTGAT -TCAGGCAATGGTGGATAATCCGAAGCTGATGGAGCGCCCGATTGTGGTCGCGAATGGCAAAGCGCGGATTGGTCG -TCCACCGGAGCAGGTACTGGAAATCGTGGGTTAAGATGTGCTCCATCGCTAGTTGAAGCACATTGCCGGATGCGA -CGCTTGCCACGTCTTATCCGGCCTACGAATACTATGGATTAACTTCGCGTAGTTCGGATAAGGCGTTCGCGCCGC -ATCCGACAATAAACACCTTATCTACAACTTCAGAATTTCTTTCACAAACGGAATGGTCAGCTTACGTTGCGCGGT -AATCGACGCACGATCCAACTGATCCAACGTCATAAATAGCGTGCGCATTTCTCTGTCGAGCCGCTTCAGCAAGAA -ACGCCCCACATCTTCCGGCAGTTCAAAACCACGCAAACGCGCGCGTAACTGTAGCGCCTGCAACTTATCTTCATC -AGAAAGTGGCTGCAATTTGTAGATCTGCCCCCAGTCGAGTCGCGACGCGAGATCCGGTAATCCCAGATTCAACTG -CCGCGGTGGACGATCGCCGGTGATCAACAACCGTGTTTTGCCCGATTCCAGAATTCGATTGTAGAGATCGAAAAT -CGCCATCTCCCACAACTCATCGCCTGCAATACACTCAATGTTGTCGATACAGACCAGCGACAAATGCTCCATACC -GTCGAGCACTTCCGGAACAAACCAGGTGCGTTTATCCAGCGGGACATAGCCCACCGCATCGCCACGCTGCGACAA -TTCCGCGCAAGCCGCGTGCAGCAGATGGCTGCGCCCCGCGCCTTCGCGTGCCCAGAGATAGATGTAACCGCTATG -TTCCTGACGCAGCACGTTTTGCAGCGCGGCCAGTAAAGAGGAGTTATCCCCCGGCCAGAAACTTGCAAAGGTTTC -GTCGTCAGGAAGATAAAGTGGCAAAGAGAGCTGTGCCGGTGTGTTCAGAGATACCTCAACCAGGATTTCACAAAA -TCGCGAGAAGTTTACCACAGAATCCCATGATGTTTGAACCGGGCAGCAACACTGCCCGGTCGGTACATTATTTGT -CTGTTATATCCGCGTCTTCTGCGTCCAGCACCACTTCTTCAGGGCGCAGCACACTGATCAGTTTGAAGATCAAAC -TTAAGCCGATACCGACGATGGTCGCCAGCGCCATACCTTTTAACTCCGCCGCGCCGATGTTTACCTTCGCGCCAC -TGACGCCGATGATCAAAATCACGGAAGTCAGGATCAGGTTCTGTGCTTTGTTGTAATCCACTTTCGATTCGATCA -AAACACGAATACCGGAAGCACCGATGACACCATAAAGCAGCAGCGAAACGCCGCCCATCACCGGCAATGGGATCA -TCTGGATAGCGGCAGCCAGTTTACCGACGCAGGAAAGCAGGATAGCGAAAATCGCCGCCCCGCCGATAACCCAGG -TACTGTAAACACGGGTGATCGCCATCACGCCAATGTTTTCTCCGTAAGTAGTATTTGGCGTAGAGCCAAAGAAGC -CGGAAATCACGGTCGACAAGCCATTAGCAAACATCGAACGGTGCAGACCTGGATCGCGCAGCAGATCTTTTTTGA -CGATATTAGCCGTTACTACCAGGTGCCCTACGTGTTCGGCAATAACCACTAACGCCGCTGGCAGAATAGTCAGAA -TGGCAAACCACTCGAAGCGCGGCGTATAGAGGGTTGGCAGCGCAAACCAGTGAGCATTAATAATCGGCGTGGTAT -CGACAATTCCCATTGCGAAAGAGAGCGCGTACCCCACCAGCACGCCAATTAAAATCGGGATAATTGCCAGGAAAC -CACGAAACAGCACGGAACCTAAAACCGTGACCGCCAGGGTGGTAATAGAGATGATGATGGTTTTGGAGTCTGGCG -TTTGCCCTTCAGCCGGGAGTAAACCCGCCATACCGGCAGCTACGCCCGCCAGCTCCAGACCGATGACGGCAACGA -TTGCGCCCATTGCCGCAGGTGGAAACAGCACGTCCAGCCAGCCGGTCCCCGCTTTCTTCACGATAAAAGAAACCA -GGCAGAACAGCACGCCGCACATAATAAAGCCGCCCAGCGCGACTTCATACCCTAACGGCAACAGTAACAATACCG -GTGAAATAAAGGCAAAGCTGGAACCAAGATAAGCCGGAATTTTCCCTTTACAGATGAAGAGATACAGCAGCGTTC -CAATACCGTTAAATAACAGTACAGTCGCCGGGTTAATATGAAATAAGACGGGCACCAGGACGGTTGCACCAAACA -TGGCGAACAAATGTTGCAAACTAAGCGGGATTGTCTGTAAAAGTGGCGGTCTTTCACTCACCCCGATAGCACGGC -GCGTCATAGTATTATCCTCTGTATTATGTGTTATAGGCGCTTTACTCAAAAAAAAGCCGACTCTTAAAGTCGGCT -TTAATTATTTTTATTCTTTATTTCGTACCAAAGATTTTGTCACCGGCATCGCCGAGGCCCGGAATAATGTATCCG -TGCTCGTTCAGTCCCTGATCAATCGATGCGGTATACAGTTCGACGTCCGGGTGCGCTTTTTCCAGCGCAGCGATA -CCTTCTGGCGCAGCTACCAGCACCAGAACTTTGATGCTGCTGCAGCCCGCTTTTTTCAGCAGGTCGATGGTCGCG -ATAACGGAACCACCGGTTGCCAGCATTGGGTCAACGATCAGCGCCATACGCTCATCGATGTTAGAAACCAGTTTC -TGGAAGTACGGTACCGGCTCCAGCGTTTCTTCATTACGGTACATACCGACAACGCTGATGCGCGCGCTCGGAACG -TTTTCCAGCACACCGTCCATCATACCAAGACCCGCACGCAGAATTGGCACAACGGTAATTTTCTTACCTTTGATC -TGGTCGATTTCTACCGGGCCGTTCCAGCCTTCGATAGTTACTTTTTCCGTTTCGAGGTCGGCGGTCGCTTCGTAA -GTCAGCAGGCTACCCACTTCGGAAGCGAGTTCGCGAAAGCGCTTGGTGCTGATATCTTGCTCACGCATCAGTCCC -AGCTTGTGTTTGACGAGTGGGTGTTTGACTTCCACGATCTTCATACTCTTTCTCCTTTGAGGGGCAGCCACAAAA -AAAATCGACGGATTATACCTCCTTTCTTCAAGGCGGCAATATTCTTTTCGTTGACTTTAGTCAAAATGATAACGG -TTTGAGATAAAGTTATTTTATATTCAGATGGTTATGAAAGAAGATTATTCCATCCGAAAACTAACCTTTACCCTG -GCACAAGTCTTCTTTCGCCGCGCGCCTGGGGAAAAGACGTGCAAAAAGGTTGTGTAAAGCAGTCTCGCAAACGTT -TGCTTTCCCTGTTAGAATTGCGCCGAATTTTATTTTTCTACCGCAAGTAACGCGTGGGGACCCAAGCAGTGACCG -ATAAAACCTCTCTTAGCTACAAAGATGCCGGTGTTGATATTGACGCGGGTAATGCTCTGGTTGGAAGAATCAAAG -GCGTAGTGAAGAAAACGCGTCGTCCGGAAGTGATGGGCGGTCTGGGCGGCTTCGGTGCGCTGTGTGCATTGCCGC -AAAAATATCGTGAACCCGTGCTGGTTTCTGGCACTGACGGCGTAGGTACCAAGCTGCGTCTGGCAATGGACTTAA -AACGTCACGACACCATTGGTATTGATCTGGTCGCCATGTGCGTTAATGACCTGGTGGTGCAAGGTGCAGAGCCGC -TGTTTTTCCTCGACTATTACGCAACCGGAAAACTGGATGTTGATACCGCTTCAGCGGTGATCAGCGGCATTGCGG -AAGGTTGTCTGCAATCAGGCTGTTCACTGGTGGGTGGCGAAACGGCAGAAATGCCGGGGATGTATCACGGTGAGG -ATTACGATGTCGCGGGTTTCTGCGTTGGCGTGGTAGAAAAATCAGAAATCATCGACGGCTCTAAAGTCAGCGACG -GCGATGTGCTGATTGCACTCGGTTCCAGCGGTCCACACTCGAACGGCTATTCGCTGGTGCGCAAAATTCTTGAAG -TCAGCGGTTGTGATCCGCAAACCACCGAACTTGATGGTAAGCCATTAGCCGATCATCTGCTGGCACCGACCCGCA -TTTACGTGAAGTCAGTGCTGGAGTTGATTGAAAAGGTCGATGTGCATGCCATTGCGCACCTGACCGGCGGCGGCT -TCTGGGAAAACATTCCGCGCGTATTGCCAGATAATACTCAGGCAGTGATTGATGAATCTTCCTGGCAGTGGCCGG -AAGTGTTCAACTGGCTGCAAACGGCAGGTAACGTTGAGCACCATGAAATGTATCGCACCTTCAACTGCGGCGTCG -GGATGATTATTGCCCTGCCTGCTCCGGAAGTGGACAAAGCCCTCGCCCTGCTCAATGCCAACGGTGAAAACGCGT -GGAAAATCGGTATCATCAAAGCCTCTGATTCCGAACAACGCGTGGTTATCGAATAATGAATATTGTGGTGCTTAT -TTCCGGCAACGGAAGTAATTTACAGGCAATTATTGACGCCTGTAAAACCAACAAAATTAAAGGCACCGTACGGGC -AGTTTTCAGCAATAAGGCCGACGCGTTCGGCCTTGAACGCGCCCGCCAGGCGGGTATTGCAACGCATACGCTCAT -CGCCAGCGCGTTTGACAGTCGTGAAGCCTATGACCGGGAGTTGATTCATGAAATCGACATGTACGCACCCGATGT -GGTCGTGCTGGCTGGTTTTATGCGCATTCTCAGCCCGGCGTTTGTCTCCCACTATGCCGGGCGTTTGCTGAACAT -TCACCCTTCTCTGCTGCCGAAATATCCCGGATTACACACCCATCGTCAGGCGCTGGAAAATGGCGATGAAGAGCA -CGGTACATCGGTGCATTTCGTCACCGATGAACTGGACGGTGGCCCGGTTATTTTACAGGCGAAAGTCCCGGTATT -TGCTGGTGATTCGGAAGATGACATCACCGCCCGCGTGCAAACCCAGGAACACGCCATTTATCCACTGGTGATTAG -CTGGTTTGCCGATGGTCGTCTGAAAATGCACGAAAACGCCGCGTGGCTGGATGGTCAACGTCTGCCGCCGCAGGG -CTACGCTGCCGACGAGTAATACCCCCGTAATTAAAGCGCCAGCTCTGCCGCTGGCGTTTTTCAATTCACCTGTAA -ATCGCAAGCTCCAGCAGTTTTTTTCCCCCTTTTCTGGCATAGTTGGACATCTGCCAATATTGCTCGCCATAATAT -CCAGGCAGTGTCCCGTGAATAAAACGGAGTAAAAGTGGTAATGGGTCAGGAAAAGCTATACATCGAAAAAGAGCT -CAGTTGGTTATCGTTCAATGAACGCGTGCTTCAGGAAGCGGCGGACAAATCTAACCCGCTGATTGAAAGGATGCG -TTTCCTGGGGATCTATTCCAATAACCTTGATGAGTTCTATAAAGTCCGCTTCGCTGAACTGAAGCGACGCATCAT -TATTAGCGAAGAACAAGGCTCCAACTCTCATTCCCGCCATTTACTGGGCAAAATTCAGTCCCGGGTGCTGAAAGC -CGATCAGGAATTCGACGGCCTCTACAACGAGCTATTGCTGGAGATGGCGCGCAACCAGATCTTCCTGATTAATGA -ACGCCAGCTCTCCGTCAATCAACAAAACTGGCTGCGTCATTATTTTAAGCAGTATCTGCGTCAGCACATTACGCC -GATTTTAATCAATCCTGACACTGACTTAGTGCAGTTCCTGAAAGATGATTACACCTATCTGGCGGTGGAAATTAT -CCGTGGCGATACCATCCGTTACGCGCTGCTGGAGATCCCATCAGATAAAGTGCCGCGCTTTGTGAATTTACCGCC -AGAAGCGCCGCGTCGACGCAAGCCGATGATTCTTCTGGATAACATTCTGCGTTACTGCCTTGATGATATTTTCAA -AGGCTTCTTTGATTATGACGCGCTGAATGCCTATTCAATGAAGATGACCCGCGATGCCGAATACGATTTAGTGCA -TGAGATGGAAGCCAGCCTGATGGAGTTGATGTCTTCCAGTCTCAAGCAGCGTTTAACTGCTGAGCCGGTGCGTTT -TGTTTATCAGCGCGATATGCCCAATGCGCTGGTTGAAGTGTTACGCGAAAAACTGACTATTTCCCGCTACGACTC -CATCGTCCCCGGCGGTCGTTATCATAATTTTAAAGACTTTATTAATTTCCCCAATGTCGGCAAAGCCAATCTGGT -GAACAAACCACTGCCGCGTTTACGCCATATTTGGTTTGATAAAGCCCAGTTCCGCAATGGTTTTGATGCCATTCG -CGAACGCGATGTGTTGCTCTATTATCCTTATCACACCTTTGAGCATGTGCTGGAACTGCTGCGTCAGGCTTCGTT -CGACCCGAGCGTACTGGCGATTAAAATTAACATTTACCGCGTGGCGAAAGATTCACGCATCATCGACTCGATGAT -CCACGCCGCACATAACGGTAAGAAAGTCACCGTGGTGGTTGAGTTACAGGCGCGTTTCGACGAAGAAGCCAACAT -TCACTGGGCGAAGCGCCTGACCGAAGCAGGCGTGCACGTTATCTTCTCTGCGCCGGGGCTGAAAATTCACGCCAA -ACTGTTCCTGATTTCACGTAAAGAAAACGGTGAAGTGGTGCGTTATGCACACATCGGGACCGGGAACTTTAACGA -AAAAACCGCGCGTCTTTATACTGACTATTCGTTGCTGACCGCCGATGCGCGCATCACCAACGAAGTACGGCGGGT -ATTTAACTTTATTGAAAACCCATACCGTCCGGTGACATTTGATTATTTAATGGTATCGCCGCAAAACTCCCGCCG -CCTATTGTATGAAATGGTGGACCGCGAGATCGCCAACGCGCAGCAAGGGCTGCCCAGTGGTATCACCCTGAAGCT -AAATAACCTTGTCGATAAAGGCCTGGTTGATCGTCTGTATGCGGCCTCCAGCTCCGGCGTACCGGTTAATCTGCT -GGTTCGCGGAATGTGTTCGCTGATCCCCAATCTGGAAGGCATTAGCGACAACATTCGTGCCATCAGTATTGTTGA -CCGTTACCTTGAACATGACCGGGTTTATATTTTTGAAAATGGCGGCGATAAAAAGGTCTACCTTTCTTCCGCCGA -CTGGATGACGCGCAATATTGATTATCGTATTGAAGTGGCGACGCCGCTGCTCGATCCGCGCCTGAAGCAGCGGGT -ACTGGACATCATCGACATATTGTTCAGCGATACGGTCAAAGCACGTTATATCGATAAAGAACTCAGTAATCGCTA -CGTTCCCCGCGGCAATCGCCGCAAAGTACGGGCGCAGTTGGCGATTTATGACTACATCAAATCACTCGAACAACC -TGAATAACCCTATGCCAATACACGATAAATCCCCTCGTCCGCAGGAGTTTGCTGCGGTCGATCTTGGTTCAAACA -GTTTTCACATGGTCATAGCCCGTGTGGTAGATGGTGCCATGCAGATTATTGGCCGCCTGAAACAGCGGGTGCATC -TGGCGGACGGCCTGGGGCCAGATAATATGTTGAGTGAAGAGGCAATGACGCGCGGTTTAAACTGTCTGTCGCTGT -TTGCCGAACGGCTACAAGGGTTTTCTCCTGCCAGCGTCTGTATAGTTGGTACCCATACGCTGCGTCAGGCGCTGA -ACGCCACTGACTTTCTGAAACGCGCGGAAAAGGTCATTCCCTACCCGATTGAAATTATTTCCGGTAATGAAGAAG -CCCGTCTGATTTTTATGGGCGTGGAACATACCCAACCGGAAAAAGGTCGCAAACTGGTTATTGATATTGGCGGCG -GATCTACGGAACTGGTGATTGGTGAAAATTTCGAACCTATTCTCGTTGAAAGCCGCCGGATGGGTTGTGTCAGCT -TTGCCCAGCTTTATTTTCCTGGCGGGGTCATCAATAAAGAGAATTTTCAGCGCGCTCGCATGGCGGCAGCACAAA -AACTGGAAACTTTAACCTGGCAATTCCGTATTCAGGGCTGGAACGTTGCAATGGGCGCTTCCGGTACCATAAAAG -CCGCCCATGAAGTGTTAATGGAAATGGGCGAGAAAGACGGGATAATTACCCCGGAACGTCTGGAAAAACTGGTAA -AAGAAGTTTTACGTCACCGTAATTTCGCATCGCTGAGTTTACCGGGTCTTTCCGAAGAGCGGAAAACAGTCTTCG -TTCCGGGACTGGCGATTTTATGCGGTGTGTTTGATGCTTTAGCCATCCGTGAACTGCGCCTTTCTGACGGGGCGT -TACGCGAAGGCGTACTGTATGAAATGGAAGGACGTTTCCGTCATCAGGATGTGCGTAGTCGCACCGCCAGCAGCC -TCGCCAACCAGTATCACATCGACAGCGAACAGGCCCGACGGGTGCTGGATACCACTATGCAAATGTACGAACAGT -GGCGGGAACAGCAACCGAAGCTGGCGCATCCGCAACTGGAGGCGCTACTGCGATGGGCCGCCATGCTGCATGAGG -TCGGGTTGAATATCAACCACAGCGGTTTGCATCGCCACTCCGCTTATATTCTGCAAAACAGTGACTTGCCGGGTT -TTAATCAGGAACAGCAGCTGATGATGGCGACACTGGTGCGCTATCACCGTAAAGCGATTAAGCTCGACGATCTAC -CGCGCTTTACCTTGTTTAAGAAGAAACAGTTCCTGCCACTGATACAGCTATTGCGCCTTGGCGTATTACTCAACA -ATCAACGTCAGGCAACCACCACACCGCCAACATTGACGCTGATTACTGATGACAGTCACTGGACACTGCGTTTCC -CGCATGACTGGTTTAGTCAGAATGCGCTGGTACTGCTTGATCTGGAAAAGGAGCAAGAATACTGGGAAGGCGTGG -CTGGCTGGCGGTTGAAAATTGAAGAAGAAAGTACACCAGAAATCGCCGCTTAATACTTTGCGGGCCGACGAGAAA -TGTCGGCCCGCATTATTCAGGCACTTTCGCGAATGGGTTCGATTTCATTCAGCGTATCAATTAACGGCTGCGGCT -TACCAATAAGATAACCCTGCATATAATCGATCCCCAAAGAGAGCACCGCCTCGCGGATCTCTTCGTTTTCAACGT -ACTCTGCCACTACCAGCATTTTCTTCATTCGCGCCAGGTGGCAAATCGATGCCACTATCTGATAATCCAGACTAT -TTGACACAATATTGCGGATAAAACTGCCGTCAATTTTAAGCAGATCGGCATTCACATTTTTAAGCCGCGCATAGC -TGGCGTAGCCGGTGCCGAAATCATCAATCGCAATCTGGCAGCCTAATTCCTGAAGATGCTGCAAGGTGATTTGCG -CCTGCTTAACATTGGTCAGAGCATTACTTTCGGTGACTTCAAAAATAAGTTGCCACGCTTCAATCTGATATTTAG -CCAGCAACTGACTGACTTCAACAGGAAAACGAGCCTGACATACCGAGGTTGGAGACAGATTAATAGCAAAACGGT -GAGCGGGCATCTTCGCTCTGTTTTCAGCCATAAATTGCAGCGTATGCTCAATGACCCACATGTCGATACTCGACG -ATAAACCAAATTCGTGCGCGACCGGCAAGAAGCTATCGGGGCTGATCAGTTCATCATTCTCACCTTTCATGCGCA -GAAGAATTTCATGGTAAACATCACCACGCATACCGGTAATCGGCTGGGCCATCAGGAAAAAATGGTTGTGTTCCA -GCGCCTGCTGTAGTCGATTCATCATCGCGACTTTATCTTTCAATTCGCGTTGCAAATACATTGCCCCGCGACGCT -GCATATTTTCCGGGGCGTTGGTCACGATGGAAAGTTCGGCGACCGTATTTAGCTCTCCCAGCAGCAGGTAGATAT -GATTCACTGGCGAGCGCACATAGCAGTAACTGACGCCAATCTGCGGTTGCATCGGCATGCCATCCCAAAAGAAAC -GAAATTGCTTGAGATGGCTATCCAGTGCGGTAATGCGCTCCTGGTGCGATTCTGTATTCAGTCGCAGCGCGAGAT -CGTTACCCGAAAGCTGATAAACATCTTCACCCGGTTCCAGCAAGGGTGACAGCCAGTGAGAAAGTTTTTGCTTGT -ATTGAATCCGCAGCATGATGCCATAGTTCTTAACCAGCATTTCCATGCCAGGGATGCGTAAATAACAAAGCGCAG -ACCAGGGGGCATCACGCAACGCGCGATTCAGGGCGCGAACATTTGGCAGATGAACCACCGGGTCCACATACGCAA -GCCGCTGAATGCGTCTGACTACCGCTCTCTGACGGGTTGCCAGTACAGCCATATAATTGACAATAAAAGAGAATA -CCAGATAACTGGAGGAGGTTATGGTCAGCTGCGTGGTATAGCCAGGATAAATGGGAATGTAATTTTGATAGCTGT -GGATGCTGATCATCAACACGACCGCCCAGAGCAGCGAAATCAGCTTATAACCATAGCGCATCGCTCCCCACATCA -TCAGGGGCAGCAATAATGACAAGGTATAATTGGTGCTAAAAATTGTGCTTTTTTCATTTAACGGCATGCATAACA -GCAACAATAAAGCACCTAATGCCAGTAGCCAGAGCGCGAACTCTTTTTTGGTGACTTTGGCATCAACCTGCTGTT -TTAATTGCGAATAATAGCTACGTAAATAAAATGGATTTCGCACTACCCGAATGATGAAGTAGCACAGCGGGACAC -CGATCAGATTACCCACCAGTAAGGCCTGATAATTGATTAAAGTCCCGAGGTTAAAAGGCATGACACCGACCAGAT -TTTCTCTGCTCGCCAGTAATCCTACAAATGCAGCAAACTGGAAAAGTATCAGAAACAGCGTTGCAGGAAACACAA -TCTGCCAGAATATACGCTGGGAAATTAAACGGGTATCACCATGTGAAACGTTGTTACGCCGGGGAGTAAAGACCC -TGTAACCGCCCCAACAGAGAATGATAATGATAATAAAATTAGCCGTTAATGATAGCGTTTCGTAAAAACCCAGCT -CTGCATATTTGCGGACAAAAATCCCTAAGGCGATCCCTGGCAATGCCGCCCAGCTGAAAAACATCATCATGCTGA -TCATCAGTGCCAGAGGCAGATAAAAGAGAAAAACCTCACCGGAAGAAATATGCGCGAAAGTATTAATGTGGGCGA -AAATGGGCAAGATTAAAGAAGGCAGGAACAGCGGAAGCCCCCACCATTTATCACGTATTTTTATATAAGTTGCAT -TCAGTTTCATAGATGCTCAGCAGAATCCCCCACATCCTGAAGGAGGTGTATTCAGACAGGCATCCCACCTGACTT -CGAATGATGATTATTCATCACTATAGAGAGCATTGATTCTAAGTGTCATATGAAAGTACCAATTGATATATATCA -AACAAAATAACCCTGATTAATGAATTATTACGTTTATCATGTTAATTCATCATTATTACATCATCATTGTAAATA -ATTAAATTAACTTCCATAACATTAAAATATGTATCCACTGACGCTTTTTTACATAACGAAGAATTGACCATTTTG -TCCTGTTGTGCCTTAATGTAAGTACCGTCCACAGCGTGGGACATACTTCAAGGAACCTTTTGTGAGTCAGGCAAC -CAGTATGCGAAAACGACACCGATTTAACAGTCGCATGACCCGTATCGTACTGCTCATCAGCTTTATCTTCTTCTT -TGGCCGTTTTATCTACTCGTCCGTCGGTGCCTGGCAGCACCATCAGAGCAAAAAAGAAGCTCAGCAATCCACACT -CTCCGTCGAATCACCGGTACAACGTTAGCGGTTACCTTCTCCACTTTCACAGAACATAACGGCACTTCGCTGTCG -GATGCTTTTGCTGTTTGGGATTATCAAAGCGGCAGATATTCTTTCATCTTAAATTTTACGTCTTTATCCTGACTG -ATGTTTATCCTGTTTGGCTGCGAAATAAATATAAAATTAATATATATGTTGTAATGATATATTTTTATAAATTAT -TCCCTGCGTGAATTTTAATAAATTTAATCTATCCCTTTATACGCAATACATTTACTTTCCTCTTTTGATGATCTT -AAATGTCTTATTTTTCGTAATGTGTATAACAAGGAATAGTGATGAAATTTAAAAAATGTCTTCTGCCTGTGGCAA -TGTTAGCGTCATTCACTCTGGCAGGATGCCAGTCAAATGCTGACGATCATGCTGCCGATGTTTATCAAACCGATC -AACTGAATACCAAACAAGAAACTAAAACCGTTAATATTATTTCCATTCTTCCCGCAAAAGTTGCCGTAGACAACT -CCCAAAATAAACGGAACGCACAAGCCTTCGGCGCGCTTATTGGCGCAGTCGCTGGCGGTGTTATCGGCCACAACG -TCGGGTCTGGCAGCAATTCCGGAACGACGGCAGGTGCAGTTGGCGGCGGAGCTGTAGGCGCGGCAGCGGGTTCTA -TGGTGAATGATAAAACCTTAGTGGAAGGTGTTTCTTTAACCTATAAGGAAGGCACCAAAGTGTATACCTCTACCC -AGGTGGGTAAAGAGTGCCAGTTTACGACAGGTTTAGCCGTTGTTATTACCACGACGTATAACGAAACGCGTATTC -AGCCAAATACCAAATGTCCTGAAAAGAGCTAATAATCAGGAGGAGTCATGAAGAAAGTTTTTCTTTGCGCCATCT -TAGCCTCCTTAAGCTATCCGGCTATCGCCTCATCATTGCAGGATCAACTCTCTGCTGTCGCAGAAGCGGAACAGC -AAGGTAAAAATGAAGAGCAAAGGCAGCATGACGAATGGGTCGCGGAGCGCAACAGGGAAATCCAGCAAGAGAAGC -AACGTCGCGCAAATGCCCAGGCCGCCGCTAACAAAAGAGCGGCAACGGCAGCGGCAAATAAGAAAGCTCGTCAGG -ATAAACTGGACGCCGAAGCCTCTGCGGACAAAAAACGCGATCAAAGTTATGAAGATGAGCTACGCAGCTTAGAGA -TTCAGAAACAAAAACTGGCGCTGGCGAAAGAAGAAGCCCGCGTTAAGCGAGAAAACGAATTTATCGATCAGGAAC -TGAAGCACAAAGCTGCGCAAACCGATGTGGTGCAATCTGAAGCTGACGCCAACAGAAATATGACTGAAGGCGGTC -GCGATCTGATGAAAAGCGTGGGCAAAGCAGAAGAGAACAAATCGGACAGCTGGTTTAATTAATCGATGTTAGTAA -CTTCAATCCTATAATTCTTGAAGATAAAAAACCCTCTGTAGTAACAGAGGGTTTTGTTCATTCATAGTGCAGGGT -CAAATCATTCCCACTCAATGGTAGCTGGCGGCTTGCCGCTGATGTCATACACCACGCGGGAAATACCGTTCACTT -CATTGATAATGCGGTTGGAAACGCGACCGAGGAAATCGTACGGCAGATGCGCCCAGTGTGCGGTCATAAAGTCGA -TGGTTTCGACAGCACGCAGAGAGACAACCCAGTCATACTTACGACCATCGCCCATTACGCCAACGGAACGTACCG -GCAGGAACACAGTGAACGCCTGGCTGACTTTGTCGTACAGGTCCGCTTTACGCAGTTCTTCAATGAAGATGGCGT -CAGCACGGCGCAGCAGGTCACAGTACTCTTTCTTCACTTCACCCAGAACACGAACGCCAAGGCCTGGTCCCGGGA -ACGGGTGACGGTACAGCATGTCGTACGGCAGGCCCAGCTCCAGACCAATCTTACGCACTTCGTCTTTGAACAGCT -CTTTCAGCGGTTCAACCAGGCCCATCTTCATCTCTTTCGGCAGGCCGCCCACGTTGTGGTGAGATTTGATGACGT -GTGCTTTACCGGTTGCAGACGCCGCAGATTCGATAACGTCAGGGTAGATGGTGCCCTGCGCCAGCCACTTCACGT -CTTCCAGTTTCAGCGCTTCTTCATCGAATACTTCAACGAAAACGCGACCGATGATTTTACGTTTTGCTTCCGGAT -CGTTTTCGCCAGCCAGCGCTGACAGGAAGCGATCTTCTGCCGGTACGTGAACAATGTTAAGACCAAAGTGATCGC -CAAACATATCCAGAACCTGCTCTGCTTCGTTGAGGCGCAGCAGGCCGTTGTCGACGAATACGCAAGTCAGGTTTT -TACCGATAGCGCGGTGCAGCAGCATTGCGGTTACGGAGGAATCCACACCACCAGAGAGGCCGAGGATGACTTTAT -CGTCGCCTACCTGCTCGCGGATGCGAGCTACAGCATCGTCGATAATTTTCGCTGGCGTCCACAGGGCTTCACACT -GGCAGATATCACGCACAAAACGCTCCAGCATGCGCATACCCTGGCGGGTATGAGTCACTTCCGGGTGGAACTGTA -CGCCATAGAAGCGTTTTTCTTCGTTAGCCATAATGGCAAACGGGCAGCTTTCGGTGCTGGCTACGGTGATGAAGT -CGGACGGAATAGCGGTAACTTTATCGCCGTGGCTCATCCAGACATCGAGCAGCGGTTTACCGTCTGCGGTCAGCG -CATCTTCGATACCGCGAACCAGTGCGCTGTCGTTTACGACTTCAACCTGCGCGTAGCCAAATTCACGTTCGTTAG -AGGCTTCAACGTGACCGCCCAACTGCATTGCCATGGTCTGCATGCCATAGCAAACGCCGAATACCGGTACGCCTG -CTTCAAAGACATACTGCGGCGCACGCGGACTGTTTTCTTCAGTAGTACTTTCCGGGCCGCCGGAAAGAATAATGC -CGCTTGGATTGAAGTCACGAATTTGTGCTTCTGTCACATCCCACGCCCACAGTTCGCAGTAAACACCCAGCTCAC -GCACGCGGCGCGCAACCAGTTGAGTGTACTGAGAACCGAAGTCCAGAATGAGGATGCGATGCTTATGAATGTTTT -CCGTCATTGACGCTTATTCCGAGGCAAGTGAAACAGATAATATAAATCGCCCGACATGAAGTCGGGCGAAGAGAA -TCAGGAGCCCAGACGGTAGTTCGGGGACTCTTTAGTAATGGTCACGTCGTGAACGTGGCTTTCCTGAATGCCCGC -ACCGCTGATACGTACAAACTCCGCTTTAGTACGCAGTTCGTCGATAGTACCACAGCCGGTCAGACCCATACAGGA -GCGCAGGCCGCCCATCTGCTGGTGAATGATCTCTTTCAGGCGACCTTTATAGGCTACGCGACCTTCGATACCTTC -CGGCACCAGTTTGTCGGCAGCGTTATCGCTCTGGAAATAACGGTCAGAGGAACCTTTGGACATCGCGCCCAGGGA -ACCCATACCACGGTAAGATTTGTAAGAACGGCCCTGGTAGAGTTCGATTTCACCCGGAGATTCTTCAGTACCCGC -CAGCATGGAACCTACCATCACCGCGCTTGCGCCAGCGGCGATAGCTTTGGCGATGTCGCCGGAGAAGCGAATACC -GCCATCAGCGATAACCGGAATACCGGTGCCTTCCAGGGCTTCTACTGCGTCAGCAACAGCGGTAATCTGCGGAAC -ACCGACGCCAGTCACGATACGAGTTGTACAGATAGAGCCAGGGCCAATGCCGACTTTAACCGCACTGCAACCAGC -TTCTGCCAGAGCGCGTGCACCTGCAGCTGTTGCCACGTTGCCGCCGATAATTTGCAGATCCGGATATTTAGCACG -GGTTTCACGGATACGTTGCAGTACACCTTCTGAGTGACCGTGGGAGGAGTCGATCAGCAGAACGTCAACGCCTGC -GGCAACCAGCGCGTCAACACGCTCTTCGTTACCCGCACCTGCGCCAACCGCTGCACCAACACGCAGACGGCCTTG -CTCGTCTTTACAGGCGTTCGGTTTACGTTCCGCTTTCTGGAAGTCTTTCACGGTGATCATGCCGATCAGGTGGAA -TTCGTCATCAACCACCAGCGCTTTTTCAACGCGTTTTTCGTGCATTTTTGCCAGCACCACTTCACGGGCTTCACC -TTCACGCACGGTGACCAGACGCTCTTTCGGCGTCATGTAAACGCTAACCGGCTGGTTCAGGTCGGTAACAAAACG -CACGTCACGACCGGTGATAATACCCACCAGTTCGTTTTCTTCGGTAACGACCGGATAGCCCGCAAAACCGTTACG -CTCGGTCAGTTCTTTCACTTCGCGCAGCGTCGTGGTTGGCAGAACAGTCTGCGGATCAGTCACCACACCAGATTC -GTGTTTTTTCACACGGCGAACTTCTTCTGCCTGGCGTTCAATGGACATGTTTTTGTGGATAAAGCCGATACCGCC -TTCCTGAGCCAGAGCAATAGCCAGGCGCGCTTCCGTTACGGTATCCATTGCTGCGGAAAGCATAGGGATATTCAG -ACGAATAGTTTTCGTCAGCTGGGTGCTGAGGTCAGCAGTATTCGGCAGAACGGTAGAGTGAGCAGGAACGAGGAG -AACGTCGTCAAACGTCAGAGCTTCTTTAGCGATACGTAGCATGGGCAATATCTCGACCAGAGTGGTTAATAAATA -TTGCCGCGGCATTATACAGAGCGTAACCGATTGCATCTACCCCTTTTTGCAAAAAATGCTTGCTATCCCCGAAGG -GCGGGTTACTATCGACTGAATAACCTGCTGATTTAGAATTTGATCTCGCTCACATGTTACCTTCTCAATCCCCTG -CAATTTTTACCGTTAGTCGCCTGAATCAAACGGTTCGTCTGCTGCTTGAGCATGAGATGGGACAGGTTTGGATCA -GCGGCGAAATTTCTAATTTCACGCAACCAGCTTCCGGTCACTGGTACTTTACACTCAAAGACGACACCGCCCAGG -TACGCTGCGCGATGTTCCGCAACAGCAACCGCCGGGTGACCTTCCGCCCACAGCATGGGCAACAAGTTTTAGTTC -GCGCCAATATTACGCTCTACGAGCCGCGCGGCGACTACCAGATAATCGTTGAGAGTATGCAGCCGGCCGGTGAAG -GGCTGCTGCAACAGAAGTACGAACAGCTCAAAGCGAAGTTGCAGGCTGAAGGTTTGTTCGATCAGCAATACAAAA -AACCACTTCCCTCCCCTGCGCATTGCGTTGGTGTGATCACCTCAAAAACCGGTGCTGCGCTACATGATATTTTGC -ATGTGTTAAAACGTCGCGATCCTTCTCTGCCGGTGATCATCTACCCTGCCGCCGTTCAGGGCGATGACGCGCCGG -GGCAAATTGTTCGCGCCATTGAACTGGCGAATCAGCGCAATGAGTGCGACGTATTGATCGTCGGGCGCGGCGGCG -GTTCGCTGGAAGATTTATGGAGTTTTAACGACGAACGCGTAGCGCGGGCGATTTTTACCAGCCGCATTCCGGTTG -TCAGCGCCGTCGGGCATGAGACGGATGTGACCATTGCCGATTTTGTTGCCGATCTGCGTGCGCCAACGCCGTCTG -CCGCCGCTGAAGTAGTGAGCCGTAATCAGCAAGAGTTACTGCGCCAGGTGCAATCGACCCGTCAACGGCTGGAGA -TGGCGATGGATTATTATCTCGCCAACCGCACACGTCGCTTTACGCAAATTCATCACCGATTACAGCAACAGCATC -CGCAGCTCCGGCTGGCACGCCAGCAAACCATGCTTGAGCGCCTGCAAAAGCGAATGAGCTTTGCGCTGGAAAATC -AACTTAAGCGTACCGGGCAACAGCAGCAGCGGTTAACACAGCGGCTGAATCAGCAAAATCCACAGCCGAAGATTC -ATCGCGCGCAAACGCGCATTCAGCAACTGGAATATCGTTTAGCAGAAACCCTGCGCGCACAGCTTAGCGCCACGC -GTGAACGTTTCGGTAATGCAGTAACGCACCTCGAAGCCGTAAGCCCACTGTCAACGCTGGCGCGTGGATACAGCG -TTACTACTGCTACTGACGGCAATGTACTGAAAAAAGTGAAGCAAGTTAAAGCGGGTGAAATGCTAACCACACGTC -TGGAAGACGGCTGGATAGAAAGTGAAGTAAAAAACATCCAGCCAGTAAAAAAATCGCGTAAAAAGGTGCATTAAG -CCAGCACGAATTCAACGCGTTTTTTCGATATCAAGCCATGCCCGTGCTGACAGAAGTAATCTACTGCACCACAGG -CTTTTAACACCTGCAACGGTTGATGGCAGTCTGGACAAAGAGCTTTCATTTCAATAAATTCCCCGCAGGATCGGC -AACGCGCATGGCCGTTATCCTGATCAAGCACATGCTGACATTGTGGACAATGCAGTTCCATATGAATTCCTCCGG -TAGCCATTCCCTCTACATTCATAGAGGGAATGGCAGATAAAATACTTACGGATAATTATTTATTTTTCTTGATGT -GCTTCATCAGACGCTTACGTTTACGCATCTGGGTTGGCGTCAGGGTGTTACGCTTATTCGCATACGGGTTTTCCC -CTTCTTTGAACTGAATACGAATCGGCGATCCCATTACGTCCAGCGATTTGCGGAAGTAGTTCATCAAGTAGCGCT -TGTAGGAATCAGGCAGGTCTTTCACCTGATTACCGTGAATCACCACAATCGGCGGGTTATAACCACCGGCGTGGG -CATATTTCAGCTTCACACGACGACCGCGTACCAGCGGCGGTTGGTGATCTTCAACAGCCATCGTCATGATGCGCG -TCAGCATAGAGGTCCCCACACGACGGGTGGAGCTGTCATACGCTTCACGTACTGATTCAAACAAGTTACCAACAC -CACTGCCGTGCAAGGCAGAGATAAAGTGCACACGAGCAAAATCGATAAAGCCCAGACGGAAGTCCAGCGTTTCTT -TCACCTGCTCTTTCACTTCCTGACTCAGGCCATCCCACTTATTCACCACAATGACAAGTGAGCGCCCACTATTGA -GAATAAAGCCCAGCAGCGAGAGATCCTGATCGGAAATACCTTCGCGCGCATCAATCACTAACATCACCACGTTGG -CGTCTTCAATGGCCTGCAACGTTTTGATTACGGAGAATTTCTCTACAGCATCGGTGATTTTGCCGCGTTTACGTA -CGCCAGCGGTGTCAATGAGCACATACTCACGTCCATCGCGTTCCATTGGGATGTAGATGCTGTCACGCGTCGTGC -CAGGCATGTCGTAAACAACAACGCGCTCTTCACCAAGAATACGGTTAGTGAGTGTAGACTTACCTACGTTCGGAC -GACCCACAATCGCCAGTTTGATCGGCAGACTTTGCGGGTCGAAGTCGTCTTCCTCTTCTTCTTCGCCGTTCTCTT -CCGCTTCAAATTGCGCCCAGTATTCAGCGTCTTCGTCGACTTCCTCTTGCGGTGCGAGATCTTCCATCCACGGCA -GCAGCACATGCTCCAGCAGACTTAATACGCCACGACCGTGAGACGCGGCGATCGGGTAGATTTCACCTAAACCAA -GCGAGTAGAAATCAACCACTGCCTGATCGGGATCCAGACCGTCAGTTTTGTTTGCCACCAGGAAGGTCGGTTTTT -CACGGGAGCGCAGATGTTTGGCAATCGCTTCATCTGCCGGCATCAGGCCCGCGCGCGCATCCACCATAAACAGTA -CGACGTCCGCTTCTTCAATCGCCAGCAGCGACTGTTCCGCCATGCGGGTTTCTACACCGTCTTCTGTGCCATCAA -TCCCGCCGGTATCAATACAGATAAACTCACGGCCTTCAATTTCCGCACGACCGTACTTACGGTCACGAGTCAGAC -CCGGGAAATCCGCAACCAGCGCATCTCGGGTGCGAGTTAGACGGTTAAATAACGTGGATTTTCCTACGTTAGGGC -GCCCGACAAGCGCGACCACAGGTACCATGTTTAAAGCCTCATTTTTATAAATCATCAGACAACGCACGCTATATT -CGCGTCGTTGTTAAAAACAGGAAAACGGCCCCTGTCCAGGAGCCGTTTTCAAAGTGAACGACAGAGACGATTAAC -GTGTAATAGAGTACACGGTTCCGTCTTTTGCCTGGATCAGCAGTTTGCCGTCAGCGGCAACCGGTTCAGTCTGGA -AACCGGAACTATCAACTTTTTGCTGGGCAACGAAACGACCATCTTCGACGTTAATCCAGTGCAGATAACCTTCAC -TGTCACCGACCACCAGGTTGCCATTATACAGCACCGGAGAAGTCAGCAGGCGATGCAGCAGATCGCTTTGTGTCC -ACAGCGTAACGCCGCCATCAATGGTCAACGCCATCACCCGGTCATTTTGATCGACCAGATAGATGCGATTGCCGT -CGACGATGAAATCATTCACCGAACCCAGTTCGCGTTTCCACATAATCTGACCACTGCGCAGATCAAGCGCCGTCA -GGTTACCATTATAGGCCAGCGCGAAAACAACGCCGTTAACAACGACGGGAGTCGTGTCAACATCGCTCAGACGGT -CAATTTCGGTAGAACCGGTCGCCTGGGAAATACGCTGCTGCCAAATCATCTGGCCCTGTTCCATCAGCACTGCGC -TGACGCGACCATTATCGCCCCCCACGACGGCCGCACCAAAAGCCGTTGTCGGCGCAGACTCGCCACGCAAAGAGA -GCGAAGGCATATCGAGGTTAACTGTCCATTTGACAGCGCCGTCAGCTTCGTTCAGCGCTTGTAACTGACCGTTAC -TGGTGTGGATTAACACCAGACCGTCGCTGACCACCGGGCGCGAAAGTGCTTCACCCGCGACTTTAGTTTGCCATG -CCACAGTACCATCGCTGGTATTCAGCGCGTAAACCTGCGCCTTTTCGCTGCCAATGTAGACATGCCCACCAGACA -CGGTCACACCGCCAGAAAGTAATGCAGGCTCTTTAGAGAACCAGCCATCTTTCTCGGCCAGGCTGACAGACCAGA -TTTCTTTGCCATCATCCGCATTCAGCGCTTTTACTAAACCAGCGCGGTCCGCTGCATAGACAACGTTGTCCGCCA -GTGCCGGATGAAGATTGGAATAGAAGTTGCCAATGCCGCTACCAACGGAAGTGCTCCACGCCGTGGTCGGCGTAA -ACTGGTTTTCAACGGTTGGCAATGGGGACATCTTTACCACATCTTCTTCGCTGTTAAACAGCGAACAGCCGCTTA -AAAGGGTAACGGAAAGCAGTCCTGGCAGCAGTAATTTACGCAATTGCATCGGGTCCCTCTCAGATGGACAAATTA -TTAATTTTCATCTGCATCATTTCGCTCAGTGCCGGAGTAACATCGCTTTTCACGCCTGCTTCCCATGCACTACGC -GCACCTTGCTTATCACCTTTGCTCAGCAATGCTTCACCACGCAGGTCGGCAACAATGGCAGCCCACCCTTCACCT -TTGATGGTATCAAGGGTTTTCAGCGCGGCATCAGCCTGCTTGAGCTGTACCTGAACGCGAGCAAGACGCAGATTT -ATCACGGCTTTGAGATTTTCATCGCTCGTGTCTGCCAGCCCCTGTTGTAACTGGGCGGCAGCTTTCTCTAGTTCA -TTTTTGTCAACAAATTGCTGCGCAAGTTCCAAAGAAGCCAGCGCACCATAAGTATTTTTATTTTCAGCAGCAAAT -TTTTCCGCCGCCGGGATGCTATCCGGTTTGCCTTCGCTCACTGCGGTAACCGCATTTTGATAGGCAAGAGAAGCG -GAGCGTGCAGAATCAACCTGATGGCTGTTCCAGTAGCGCCAGCCAATCAGTGCGCCAACGCCCAAAATCACCCCA -ACAGCCAGTGCTTTGCCATTTTCAGCAAAAAAGCGTTTAACCGCTTCTACCTGGTCGTTTTCGTTCTCGTAAATT -TCCACGCTGTCCTTCTCCTTCCTTAACCCAGTAACGTGCGCAAATGCGCGGCTACGCTATCCTGCGCAACTGCCG -TTTGCTCACCAGAGCGCAAATCCTTCACTACTGCTGTGCCGTTAGCCACTTCAGACTCACCCAGCACCACAGCAA -CGCGGGCACCCCATTTATCAGCACGGGCAAACTGTTTCTTAAAGTTGCCGCCGCCGTGGTTGGTCATCAATTTCA -CGCCCGGTAATTCATCACGCAGACGCTCAGCTAATGCCATAGCCGCAGATTGTGTATCAGCACCTGAAGCCACCA -GGTATATATCGACAACAGGATCGGCTTTAAATTCCGGATTAACGGCCTGTACTAACAATACAAGACGTTCGAGGC -CCATAGCAAAACCGACAGCCGGTGTTGCACGACCGCCCAGTTGTTCCACAAGACCGTCATAACGACCGCCTGCAC -ACACGGTGCCCTGGGAGCCGAGACTGTTAGTCACCCACTCGAAAACGGTACGGTTGTAGTAATCCAGACCACGCA -CCAGACGCTGGTTTACGGTGTAAGCGATCCCCGCGCTCTCCAGCAGTTTGCACAGACCGGCAAAATGCTCACGAG -ATTCCTCGTCCAGATAGTCACCTAATGCCGGAGCGTCGTTGAGAAGCGCCTGCACTTCCGGATTTTTTGAATCCA -GCACGCGCAGCGGGTTAGTGTACATGCGGCGTTTGCAGTCTTCGTCCAGCTTTTCTTTATGCTGCTCAAGGAATG -CCACCAGCGCATCGCGGTAATTGGCGCGTGCTTCCAGCGAACCGATAGAGTTCAGCTCAAGAGTTACGTGCTCGG -AAATACCCAGCGCGCGCCACCAGCGGGCAGTGAGCATAATCAGTTCAGCGTCGATATCCGGACCTTGCAGACCGA -AAACTTCGCAGCCCAACTGATGGAACTGACGATAACGCCCTTTCTGCGGACGCTCGTGACGGAACATCGGCCCGA -TATACCACAGACGCTGTTCCTGATTGTACAGAAGACCATGCTCGATGCCGGCGCGTACACAGCCCGCCGTCCCTT -CAGGGCGCAGAGTCAGGCTGTCGCCATTGCGATCCTCAAAGGTGTACATCTCTTTTTCAACCACGTCGGTGACTT -CACCAATCGCACGTTTGAATAGCGGGGTCTGCTCTACAATCGGCAAGCGGATTTCACTGTAACCGTAGCTGCCGA -GCACGTTTTTCAGTGTGCCTTCAATGCGCTGCCAGATGGCCGTTTCGCCAGGCAGGTAATCGTTCATGCCGCGAA -TGGCTTGAATGTTTTTTGCCACGTTTATTCTCTTTCTGAATATAAAAATGAACCCTCAACGCTTCCCTCAATGTT -TCGGGAGCCATGCGGGTTCAATCATACACGGGAAGCGAGGCGCTTCCCATCACGTTATTATTTTTCAACCTGCTG -AACGTCAATTCGACGCGCTTCGTCCAGCTGACTGGCTTTCGCACGAATGCGTGCTTCCAGCTGGTCGATCATATC -GTTGTTGTCCAGACGGTCTTTGCGCACGCCATCTTCATAGAGGCCGCTTTTCTTGTTGCCGCCGGTGACGCCGAG -TGTAGAAACCAGCGCCTCACCTGGGCCATTCACCACGCAGCCGATAATCGAAACGTCCATCGGAGTGATGATATC -TTCCAGGCGTTGCTCCAGCGCGTTAACCGTACCGATAACATCAAATTCCTGACGCGAACAGGTCGGGCAGGCGAT -GAAGTTGATCCCTCGCGAACGGATACGCAGCGATTTCAAAATATCGAAACCGACTTTGATCTCTTCGACCGGATC -GGCCGCCAGCGATACGCGCAGCGTGTCGCCGATGCCTTCAGACAGCAGCAGACCTAAACCAATGGCGGATTTTAC -TGCCCCGCTGCGCGCACCACCGGCTTCGGTGATCCCCAGATGCAACGGCTGATCGATCTGTTTTGCCAGCAAACG -ATAAGACTCAACAGCGAGGAAGACGTCAGACGCTTTCACGCTGACTTTGAACTGATCGAAGTTCAGGCGATCGAG -ATGATCAACATGACGCATGGCAGATTCCAGCAACGCCTGCGGCGTCGGTTCGCCATACTTTTCTTGCAGATCTTT -TTCCAGCGATCCGGCGTTAACGCCAATACGGATCGGAATGTTTTTATCGCGCGCACAGTCAACCACCATGCGAAT -ACGCTCTTCATTACCGATATTGCCAGGGTTAATACGCAGACAATCGACGCCGTATTCCGCTACTTTCAGCGCAAT -GCGATAGTCGAAGTGGATGTCAGCCACCAGCGGCACGTTAACCTGCTGTTTGATGAGTTTGAACGCTTCTGCCGC -GTCCATCGTCGGTACGGATACACGGACGATATCAGCGCCAACGCGTTCCAGCGCCTTGATTTGATTGACCGTTGC -TTCGACGTCTGTCGTACGCGTATTGGTCATGGACTGTACGGCGATGGGAGCACCATCGCCAATCGGCACATTCCC -AACGTAAATACGTGTTGATTTTCTACGTTGAATTGGAGCCTGGTTATGCATGAAAAATCTCCCGCGTTACCCGTC -TGTTACTGCGCCGGTGATTGTTCGGCATTGAGGGTCAGACGCGCAACCTGGTTAGTTCTGATAAAACGACTCAGA -TCGACAGGTTTCCCTTGATACTGGATCTGTACTGCGGCTGGCGCACCAATTTTCAGTTTGTACGGTGCCTGGCCG -GTTAAGTTCAAATTACCGTCTTTACGCTGCATACCGCTAAACAATTTTTTACCGGTAGCATCAGTGACCTCCAGC -CAGCAATCGGCAGTAAAGTTCATCACCAGCGCATTCGGATCAGCCACCGGCGTGGTCACGCCAGCCTGATCGGTT -GGCAACGGCGCAGCACCATCTGGCGTTGTTGCTGCCGTTGGTGCCGGGGTCGCGGCGGTATCAACATTTGCCTGC -GAAGGCGAAACAACCGCATTCTGTTGCGGATCAACAGCTGGTGCTGGCGCAGTTACGGCAGGTGTTTGCGTGTTG -GTTGCGGTAGTATCCACAGACGCTGGCGGCGTGGACGTTGTAGCCGGGTCTGTAGTTGTCGACGTATTTAATGGA -ACACTCTGCCCCTGCTCGCTATTACTGCTCAGTTCCGCCGAAGATTGATCGGCCATAGTGGTGATCTCTTCCTGC -TGAGCTTTGCGGTCTTGCCACCACCAGGCACCGCTCAGGCCGATAACCACAAACAACACCAGCCAAGTGAAGGTC -ATCAGCCAGCCGTCGCGTTTTTTGCGGCGTTTACCGAGGGAAAAACTCTGCATCGGCGCAACTTTTGCAGCCCGA -AGTGGAGCCTGCTTTTCCAGCCCTGGCAGCAGTTCTTCTTCTGGAATATGTACCAGACGCGCATAAGAGCGGATA -TATCCGCGCAGGAATGTTGAAGCAAGATCGGCGGGTGCCTTATCTTCTTCAATGTCGCGTACCGTGGAAACCTTC -AGGCAAAGTCGCTCGGCAACGGCCTGCTGACTAAGTCCTAGTTGTTCGCGAGCATTACGCAGGCGAGCGCCGGTA -GTAAGTGCTTCATTTTGGTCGTGCGTGGCTTCAGTATTCATTCGCTGCAGGTACGTTTAAATGAGAATTGAGATG -CCGGTGAACCATCATGCTCACCCACACCGCGAAACATCCGTTAAGTTAACCGTTATCATACAGTATAAGACCGTC -TGTGTGCTCGTGACAAAGCCCACATTCACTAAGGCTAACTTACTGTTGCATCGTTACATACTGCCTTAAAGTCAG -CAAAAACGCACCGTTAATATTGACCAGACAATTGCAACTTAATACTTCATTCATAAAACATTACGCCACGGTACA -TAAAGTAACCGTGGCGTAATGGCTATCAGACCGCTTTAATGTCGATGGCTTCACCCTGCATCCGTTTACGCAGGG -TACGTTTCGTACGGTCGATAACATCGCCCGCCAACTGACCACAGGCAGCATCGATATCATCACCACGAGTTTTAC -GCACAATAGTGGTGAAACCGTAGCTCATCAGCACTTTTGAGAAACGGTCGATACGGCTGTTCGAGCTGCGTCCAT -ACGGCGCACCCGGGAACGGGTTCCACGGGATCAGGTTGATCTTACACGGCGTATCTTTCAGCAGTTCCGCCAGTT -GGTGCGCGTGTTCAGTGCCGTCGTTAACGTGGTCAAGCATCACGTATTCAATAGTGACTCGGCCCTGATTGGCGT -TGGATTTCTCCAGATAACGGCGCACCGCAGCAAGGAACGTTTCGATATTGTACTTTTTGTTGATCGGCACAATTT -CGTCACGAATTTCGTCGTTCGGCGCGTGCAGGGAAATTGCCAGTGCAACGTCGATCATATCGCCCAGTTTATCCA -GCGCCGGAACTACACCGGAAGTGGAAAGCGTGACGCGACGTTTAGACAGGCCAAAACCGAAATCATCAAGCATGA -TTTCCATCGCCGGAACGACGTTGTTCAGGTTGAGCAGCGGCTCGCCCATGCCCATCATCACTACGTTAGTGATCG -GACGCTGACCGGTGACTTTTGCTGCGCCGACGATTTTCGCCGCACGCCACACCTGGCCGATAATTTCCGACACCC -GCAGGTTGCGGTTAAAGCCCTGCTGGGCGGTGGAACAGAATTTACACTCCAGCGCACACCCCACCTGCGAAGAGA -CGCAGAGCGTGGCACGGTCGTCTTCCGGGATATACACCGTTTCGACGCGCTGATCGCCAACGGCGATCGCCCATT -TAATGGTGCCGTCAGATGAACGCTGTTCTTCAACCACTTCCGGTGCGCGGATTTCCGCCACCTCTTTCAGTTTGC -CGCGCAACACTTTGTTGATGTCGGTCATCTCATCAAAGTTGTCGCAGCAATAGTGATACATCCACTTCATCACCT -GATCGGCGCGGAAGGGTTTTTCACCTAAATCTTTAAAAAACTCCCGCATCTGCTGACGGTTGAGATCCAGCAGGT -TGATTTTTCCATCTTTCGTGGTGACGTTTTCAGGTGTGACTAATTGTTCAGACATATGCTATTCCGGCCTCGTTA -TTACACGTTATGGCCCCTGGAGGGTTGAAAAAAGAAACGCCCCGGTGAGCGGCTGCTCGTCCGGGGGCGCTGCAT -TGTACAAATTCTGGCGCACGGATGCCACGTTTGCACGCGGCATTTACGAAATTATTAACGGGTGCGCGGGCACAC -TTCGCCTTCGCCAAAGAAATAAGCGATTTCGCGAGCGGCAGATTCGACGGAATCAGAACCGTGGGTACCGTTTTC -GGTCAGGCTGTCAGCGTAATCAGCGCGCAGAGTACCAGCCAGTGCGTTTGCCGGATTGGTCGCGCCCAGCAGATC -GCGGTGACGCTGAACGGCGTTTTCACCTTCCAGCACGGAAACCACGATCGGGCCAGAGGTCATGAATTCAACCAG -ACCATCAAAGAACGGTTTTCCATCGTGTTCAGCATAAAAGCCACGTGCCTGTTCAACGGTCAGGTGCAGCATTTT -GGTGCCAACAATTTTGAACCCTGCAGCTTCAAAGCGCGCAAAGATATTACCAATGACGTTTTTTGCTACCGCGTT -CGGTTTGATGATGGAAAAAGTACGTTCAATAGCCATTTTTACCTCTGTAAATTGTTCTGTTGTTGTCTGTACCAG -CGTACGAGATGGCGCGGATTATAATGAGCAACAGGGCCGTTGACTATTGATGAAGGTAACATTTTTTTAAAATAA -AATGAGTTTTAGCAACAATCAGGGACAAAACAGACTATTGCATGACAAATTTCACTGTCGCGATTTGCCCCACGT -CATCCATCACCAGCAATTGATAATCACCTTTATCCGTCAAATGCAGGGTCACGTTGCGCCCGCGTTCAGTTAACG -GTTCGCCATTCAGAAACCACCAGCGTTCACCTGCCCCTCCACTTGATTGCAACGGCAAAGTCGCTTCCGCTGCGC -CCGGTAAACGTTTAATAATCGCGCCATCGCGAACGCCTGTCAGCTGCAGCGGGAGCTGGGCATCGTGACCGTATG -GCGGGCAACTTGTCGAGGCCGGTGGTAAGCGCACAGCGCGACGTTCTGATGCGGGCAGCCAGGGTTCCAGCGGTA -GCGGCCAGACATTTATCATTTCTTGTCGCGCTTGCGGGCAATCAGCGGCAACACGTTTGCCATTTTCATCCAGCC -AGATGGGGAAACGAATGCCATTAATGCCTTCCTGCTCCGGCAGTAATAGAGTTGGCGGCTGACTCCCGTCCAGCA -GCCAGGTTGCCAGGCGGCGGCGACAGTTACCGTCACCTTCCGGCAAAGACTGTCCGCCCGGCCAGCAGATAACGC -CACGAGTGACTGAGTTCGGGCGCGGGTCTTCCGGCAGATTCGCACTGCGCGACAGTAAGATATTATTGACCTGAT -TCAACAATGGTACGGCACTGGCAAAGCCAAACTGACCAACAACGGGCGTGCCGTCCGGTCTGCCAGTCCAGATCC -CAATGACATAGCGAGCGTTAACCCCAATCGCCCAGGCGTCACGATAGCCATAGCTGGTGCCCGTTTTCCATGCCA -GTGGGGCGACGCGCGGCAAGGCACTATCCGGCAAGGGTTGCGCTTCATCAGCCATAATCCGGCGAATGATCCACG -CCGCCCCCGACGACATTAAAGGCCGTTCAAGCAGCGGATCGTCAGGCTGTAAGCGCAATTTGCCTGCCTTGCCGT -GGCGAGCAAACGCGGTATACGCTGCCGCCATATCTTCCAGTTTTGCACCAGCGCCGCCGAGAATGAGTGAAAGAT -TCGGCGCAGCACCGTTGGGCAAATATAACGGCAATCCAACATTGCGTAACTTTGCCGCAAACCGTTTCGGTCCAT -AGGCTTCCAGCACCTGCACAGCAGGTAAGTTCAGCGAGCGCACCAGCGCCTCGCTCATGCTGATCGGGCCATGAA -AACCGCTATCAAAGTTACCTGGTCGATAATCACCGGTGCGCCGGGGGACGTCTTGCAGCAGTGATGCCGGGTGGA -TCAAGCCTTCATCCAGCGCCAGACCATAAACAAACGGTTTGAGCACTGATCCTGGCGATCGGATCGAATTGACCA -TATCAACATGACCAAAGCGTGAATCATCGTTGAGATCAACCGATCCCACCCAGCCGCGAACACGCATATCGGTAT -GATCAACCACGATCATCGCCAGTGAGCTGCGCGGTGGCAACCGCCCTTTCCAGTTTTGCGCCAGTTCTTCCAGAC -GTCGTTGAAGACCGGCATCCAACGTAGTAGTGATTTTGTCGCTTTTGCTTTTACCGAGCATCATGCGCGAAAACA -GCGGTGCCAGTTGCGGCATTTGTCGGGGGGCCAGCCAGATGGGTTCTTCCCTTGACTCTTTTACCTGCTCACGGG -ACCACACACCTTGCACGGCCATCCGTTCGAGCACTTTATTACGCGCGGCTTCGGCACGCTCCGGCCAACGATCCG -GGCGAAGACGGCTGGGCGCTTGCGGCAAAACCGCCAGCATTGCCGCCTCGGAATAGCTTAAATTCGCAGGCGATT -TTCCGAGATAAGCCCAACTTGCCGCACCGATCCCCTGCAACGTACCGCCAAACGGAGCGCGGTTAAGATACAAGG -TCAGAATTTCACGCTTAGACAGATGCCATTCCAGTTGCAACGCGCGCCAGAGCTGGCGAATTTTGCCGCCAAATG -TTTTGGGGTGAGGATCAAGCAGACGAGCAACCTGCATAGTGAGCGTGCTGCCACCGGAAATAACCCGTCCCGAAG -TGAGATCTTGCCATGCTGCGCGCGCCACCGAGAATGGATTCACCCCCGGATGCTTCCAGAACCAGCGATCTTCAT -AATTGATCAGCGCTTCAAGGTAACGTGGAGAAACATCTTCGATTGTTACCGGATAACGCCAGATGCCGTCAGCAT -CGGCGAAGCGCCAGAGCGGCGTACCATCCTGCGCCACGACCACTCGTGCGGGATTGACTTCATGCAGCGGTAGAG -GCCAGAGTTTATCTGCTCCCCACGCTGCAAGAAAAAGGAGAAAGGGCGCGGCTGCCAACGTTATCCAGCAGCCGC -GTTTGGTTAACAAGCGAGGCATTTACGGTCTGACAATCAGCAGATCTTCAGCCGCGCCGGTCGCCCGCCATTGGG -GAACATACATTGATTCCACCATCGGTTGCGGTACCTGATACGTTCCCGGCGTCACCGCCCGCGCCAGATACACCA -GCGTTACCGGTTGGTATTCATCAACGGCAACCGCCGCCACAAAGCGATCGTCACGGAACTCAATGTGCTTAATGC -TCGCCTGCTGCATCTGGTTCAGTAAGTTCTGCACTTCGCCACCACTTTGCTCCAGGCTGGCGCTACCGTTCGCCA -GATTCTGGTTTTCCAGTTCCAGACCCGCAGGCAGCAGATCCACGACTAACGCATCCGGCACGCTGTTACTGGCTT -TTACCTGCAACCACACCAGCACCAGATCGCCGCTACGTAACGAGTCCAGCGATTTGCTCTTACCATCAGTACCAA -GAATATGACGCTCGATTTGCAGCACATTGTTCGCCGGTAAAGGTGCGGATTGCGGATAACCGCTGGCATCCATAC -GCAACCATAACGGCTGATCGCCACTGTTGCTCACCTGCAAGGTGACAAGTTGATCGCTATTCAGATTGCTGTTTT -GCGCTTTCTCGCCTGTCAGCTGCTCAGCTGAGAAAGAGGTTTGCGCCTGCCATTTACCGGGTAAATCCTGAATCG -TACGGGCAGCCAGGAACAACGCGTTACTTTCCTGCGTCGATAGCCAGCGTTCACCAAACGCCTGCTGCGAAAGTG -TGTTCAGCAAAGTGTACTGCTCATCGGGTAGCAGTTTATTTTCTTCCAGCAAGGAGAGCATTAACGCGTTGTCGC -GCAGTGAACTACCGTAATCACCCAGCCATATCCGCTCATCACTATTACGCGGCGTTTTCAGCGCCAGCGCAATCG -CTTCTTCACCACGCGTCGCATCACCCATGGTTTTCAGCGCAACGCCAAGTTGCAGCAGCGGTAAACCAGAAGCGG -CATCTGCACGATGCTCCCAGATTTCACGCAGCGCACCCAGCGGAGCCTTTTGCTGACGGGCCAACACCAGCGCAG -CGTAAGACTGTACGGCGAATTTACTGGCTTTGAGATTATCCGCGTACGGGATCGACATCATGCCCGGATCTTGTA -AATAGCGCAGCAGACGCTCATTACCCCGGTTAATGGCGTCTGTCGGCACGCTGTAACCCTGTTCGCCTGCGCGGA -CCAGGAAATCCATCACGTAAGCCGTCAGCCAGTACTCTTCGTCACCGTTTTTATCCCACAGCGCAAAGCCGCCGT -TATCACGTTGCATTTGCAGCAAACGGGAAATGCCGATATCGACCGATGCACGGCGTTTCTCATCACTGTCGCCTT -TGATGCCCAACGCCTGCAGTTGGGCTGCGTTGGTATAAAGTGACGGAAACAGGCCGCTGGCGGTTTGCTCAAGAC -AGCCGTACGGATACGCTTTTAACTCTTTGATATAACGTGCGATGTTCAGCGGTGGTTTGCCGCTCAACAACAATT -GCCCTTCCAGCGTAACAGGCGAGAAGTTTTGCAATCCATCCGCCGGAATCGCCCATGTCTCACCAGGCTGTAACG -CCGTACCGTAATTAACCGTTTGTGCCGGGAACGCCGGACGGACGCCGATTTTCCACTGCTTATGCTGATCGGCAA -CGGTTTCACCCGGTAACGCTAACCCGCTAATGGTGGCCTGAATTTCTCCATCGCCATAACCCGGCAATGCTCGCA -CCGGGATAAACAGCGTAGTACGCACACCTGGCGCTAATTCAACGGCTGCGGGTGAATCGCTGACCAGTTCAAGCA -AACCACTGGCGGTCAGGGCAACGTTCAGTTTTTGCGGTTTATCGGTAAGATTAGTGATATCCAGCGTCAGACGCG -AGGTATCGCCACTCGCCATAAAGCGCGGCATGTTCAGTTCAGCAATCACCGGTGCGGCAACTATCACTTTACTTT -CGTTGCTACCGAAGTCATCTGCCGTCCAGGCTTGCGCCATGACGCGCAATTCACCGTTAAAATCGCCAATCGGCA -GTGTAACCGAGCCTTCGCCCTGTTCGTTGAGCGTTACCGGCAGCGCCTGCTGCACGACAATATTGACGTGATTGA -CCGGCGGTTTACCACCACGTTTCAGCTCATCACCATCGCCACCGAAACGCAGAGCTGCCAGACGCCCCTGACCTT -CAATAACCTGACCGTAAATATCGTAAATGTCTGCGCCATAGCGTTTCTGACCAAAGAACGCCTGCCACGGATCTG -GCGTGACGTAGTCAGTAATATTCAGCACACCACTATCAACGGCAGACACCAGCACATTCACCTGTTTAGGCTTCT -CGCCATTTTTAGTGCTGGCTTTAATTTTCACGGTTAATGGTTGATTGGGACGCATTTTTGCTGGTGTTTCCAGCG -CCAGATCGAGGCGACGGTTTTCATCGCCAAGCGGCAGATGCAACACACCAACCGCGCGTTTTGGCGTCGCGGAGC -GAGATTTATCGCCAGGACGTACCACCAGCGTACTTAAATACAGATCATGACGATTCCAGGTTTTATCGACCGGAA -TCGTCAGATCCAGCCCTTGAGCCCGAACATCAATCTCTTGCCACCACAGCGGCCCTTCACTGGACTCGACCATCG -CATAACCTTTACCCGCCGTTGGCGCGGCGATATGCAACTTAATGGTGTCGCCAGGGCGATAACTGGCTTTATCCA -GTTTCAGCGTGACACGGTCGGGTCGCACTGCGCCGCTACCGTCGCTGTTGTCCTGCCAGCTATAGCCAGCCCAGA -AACGAACACTACTGACCGCTTCATTCGGCGCTTTGACTTCCAGACGATAAGCGCCCCACTCTACCGGAAAACTGA -CCTTGCCGGTTTCGTCCGCTTTCAGATCCAGAGTTTGTTCATTTTCGATCAGATCTTTTTGATCAAACTGTGACT -GCCAGCCTTCATCTTCTGACCAGTTCCAGTAGTAATCGCGGCGTTCGCGAATCAGGCGCACCTGCAAGCCCGACA -CGGCTTTTTTCACGCCTTGCGCATCGCTATAAACGATGTCAAAAGCGGCGTTACTGCCTTCATCAACAATGGGCT -GTTTCACCGTGCTGTCAGTACGATAATCGTAAACCGATTTCGAGGCGAACTGCGGACGGATCCCCGGCAATGCAT -CGGCAGGCCAGATAGCCTGCTCAGCGCGGCGCGTCACCGGGCGACCGCCCGATTCCAGCAAACTACCCTGGAAAA -TAACCTGTAATGGGGAATGCGTTTCCTTCCACTGGCTTTCTGTAGAAACTTCGCCGCGCCCTTTATCATCCAGCG -TCAACTGAACTTCATCCAGCGTGCGGGAAAGATTTTCGGCAGCTATATCGCCGAATTCAAAACCAGGTAAGGCTG -ACACAGCTTCACGCAGTGGGCGCAGGAAAAGTTGCCCTTGCAAAGTATTACCATTAGCAGGTGCACCATACAGGT -AGTACCCCACCACGGAGAATTTCACTTCATCTTTCGGCGTTAGCGGGGTTTTCTCACCGGTCAGATTCAGCGCCA -TGCGCTCTGGCATAAAATCTTCGACGTGGAAATCCCACATCCGATACTGATTATCGCCCGTGTTAGCGCGAATAT -GCCACATACCGGTTGCCGCATTGCTATCGAGTGGCCAGGTAAAGTGGTAGAGGCCATTCTCCGGCTGACTAACGA -CGCTCCTGAGTACCTGCCCATCGGGTTTAATCACGTCTAACTTGATGGGTTGATTGGGCAACGCTTTACCGTCTG -CATCACGCAGCAAACCATTGAGGATTACCGTTTCACCTGGGCGATAAAGATCGCGTGGGCCAAACATGAAAAACT -GTTTGCTATAGCCTGGCGCGCCAGCAATGTTAAATTCTGCTAAGTCCAGCGCCGGAAGTTTTAAATCGAGTAGCG -TTGTCTGACCGTCTTTACGCGCCAACAGTAATGCCGCGTTTTTATCATTTTCCAGCTGCACATGCCCCTGAGCGT -CACTGGTTGCCTGAGTCAGAGTCTGCCCTTTCTCATTTAATAAAGAGACTTCAATTCCTTGCTGGGCCGCGCCGT -TTTCCAGACTTTGGGTAAAGATATCCAGACGATTGTGATAACGGTGAGCTGAAACGCCGATATCACTTAACGTAA -ACAGCGTCGCGGGATTACTGTAATCGTAACGTCCAGCCTGATTCATCACAGCCAGATACACGCCCGCCTGCTGAA -GCGGTTTGATATCGCCCAGCGGCAGCAATAATTTTTCACGGGTGTTACGCGCAGGATTGAGATCAAACCGTCCGG -TGTAGACCAGATCCGCCATCTGCAGCAGTTTGTCTGACTGCCAGTTCGCCAGCGAATTGCGGTATTCCCATTGGC -TAATGAATGCTGGCAGAGATTCTGGCTTAACGCGGAAGAAGTTAACATCGACATTATTAACGTTGAGCGCCATTA -CCGGCAGCCCTTCAACGACTTTGCCAGGCAGCAGCGAACCACGGCTGGCAAAACCGACGCTGGGTTGGATGTCGC -GGGTAGTTATAGTTTTTTCGTAATCTTTACTGAAGGTTGCGTTGTTGAGTGCTTTGACCTCCTTGCCAATAGTAA -CGATCAAATCACGTTTCGGTTCGAGGTGGCGTAAACGTAACTCTTTAAGATTATCTGACAGCTCCCAGGCACCAT -CCACTTTGCCGCTTTTTTTATCGACGACATGAATAACGCGTGAGAAATCCTGATCCGGGTCGAGAGGGATGGAGA -ACGTCAGCACCAGCGTGGCTGCACCATCAAGTTGGACTTCAGAGAGATCCAGCAATGTCAGCACCTTACCGGCAC -TCTGTTGGGCCAGTTTTTGTCTCTCCGGCACGGAGAGTTTTGCTGAACTCGCGTTTTCTGAAGAGGCCGCTTTAG -TAACTTCAGAAGGCGCATCTTTTTTCACCGCTGTTGGCGCGTTATCGTTGTTGTCGCACCCTGCCAGCGCCAGCA -TTAGCATGCAGGCGGCTACGCGTAACTTTTTCATTTTTCATCCCTGCCACAATGGCCCGTTAGCAACGTCGAATA -ATTATTATGCGTGAGAATTTACGTTATGTAATTCAGTATCACGCCCATACAATCCGAATTTTAGTGAGAATTGTG -GCTCAGACAGCCAAATCAGCCTCTTTTGCTTGTCGCTTTTCACTAAACATCCGACAATTTAGCCTAACCCCGGCA -AAAATGGAGATGCCTATGTCCACGACATGGTTTGTAGGAGCCGACTGGCTCGCCGAACATATTGATGACCCGGAA -ATTCAGATTATCGATGCCCGCATGGCGTCGCCTGGACAGGAGGATCGTAACGTTGCTCAGGAGTATCTGAATGGA -CATATTCCCGGCGCAGTGTTTTTTGATATCGAAGCGCTTTCTGATCACACTTCCCCGCTTCCGCACATGCTGCCG -CGCCCGGAAACGTTCGCCGTGGCGATGCGTGAATTAGGCGTTAACCAGGATAAGCACCTGATTGTCTATGACGAA -GGTAATCTTTTCTCAGCCCCACGAGCATGGTGGATGCTGCGCACCTTTGGTGTAGAGAAAGTGTCGATTCTGGGG -GGTGGACTTGCAGGCTGGCAGCGCGATGATCTGCTGTTAGAAGAAGGTGCAGTAGAGCTGCCGGAAGGAGAGTTT -AACGCCGCGTTTAATCCTGAAGCCGTGGTGAAAGTAACCGATGTATTATTGGCAAGCCATGAAAATACGGCGCAA -ATTATTGATGCCCGCCCGGCTGCACGTTTTAACGCAGAAGTTGATGAACCTCGCCCAGGTTTACGTCGCGGACAT -ATTCCCGGAGCACTGAATGTTCCGTGGACGGAACTGGTGCGCGAAGGCGAACTAAAAACGACCGATGAACTGGAT -GCGATATTTTTTGGTCGCGGCGTCAGCTACGACAAACCAATTATCGTCAGCTGCGGCTCTGGTGTAACGGCAGCC -GTGGTTTTGTTAGCACTCGCGACGCTGGATGTGCCAAACGTGAAACTGTACGACGGCGCATGGAGTGAATGGGGC -GCGCGGGCAGATTTACCGGTTGAGCCAGTGAAATAAGTATTTTACAGGCAATAAAAAACCGCCGAATTTGGCGGT -TTTTTATTGCTAGTCTGGTTCGCGGCCTTTCCAGCAGGTTGACTTGTGTTACATGAGCAACGCAGGTGCTTCACA -GCAAAACAATACTCACCAGTAACTCTCTTTTTGTCAAGCAAAAGAGAGTAATTATTGTTTATTTAGCGTATTATC -GACACCGGCCCTTTCCGCCGTGTTCGGTAATAAAATAACCTGGCTTATTAGTCCGAATTCAGACAAATATAAATA -AATCCTGCTCAAAATTAAAAATTCTAACCGGTAAAAGATATTACTTAAACATGTAAATTCACTTTCCTTTAAAAA -ACAAAAAACCGCCAAAATCAGGCGGTTTTTTGTTGCTGGTCCGGTTCGCGGCCTTTCCAGCAGGTTGTATTACCG -TAGTAATGCAAGCGCGTCTCAGCGGAGACAATACTCGCCAGTAACTCTCTTTTTGTCAAGCAAAAGAGAGTTATT -ATTGTTCTGTTAGTGTATTATCCACTGCGGCCCTTTCCGCCGTCTCGCAAACGGGCGCTGGCTTTAGGAAAGGAT -GTTCCGTGGCCGTAAATGCAGGTGTTTCACAGCGCTTGCTATCGCGGCAATATCGCCAGTGGTGCTGTCGTGATG -CGGTCTTCGCATGGACCGCACAATGAAGATACGGTGCTTTTGTATCGTACTTATTGTTTCTGGTGCGCTGTTAAC -CGAGGTAAATAATAACCGGAGTCTCTCCGGCGACAATTTACTGGTGGTTAACAACCTTCAGAGCAGCAAGTAAGC -CCGAATGCCGCCCTTTGGGCGGCATATTTTAGATTATCCGATTCTGTTTAAAGTCACGCAAAAAACCACCCCAGC -GACGTTCATAGAATGGCGCAATATGTTCGGTAATAAAGTGGCTAATTCCTTTTTCCCCTTTTTTCACCTGACAAA -TATCGATTGGTTCATCGCCAGGTAATGTATCGGTCGCTACACTTCCCGTCGCCTGAATAATTTCTTCGATATCAC -CATCGGCTTCAATGCCAATAAGTAAATTAGGCTGTGCCTCTTCGTTCTCTTTAATTGAACAAATAAAAGCACGCT -TCACCGGCTTAATGGTTTTAAATAAGGTGGTGAGTGAATCAATCATTTGTGCTGGCGGCTCTGCGACTTCCGATA -ATATCAGCGATTCACCGCCTTCCAGGATTTCCTGGCTGCTCAGCGGATTTCCCTCTTCACCAATCAACAAACTGA -TTTCACGCGGCATAAATTCTTTACCGGTTGGCAGTTTGGCATTAAGGAAGAGCGTTTCGCCAAGTGTCATCTCAA -ACAGCGTGCGAACGGGCATTACGACAAATGCCTGTTCGTCTTCAACCGCCTGTTGAAGTGCTTCTAACGAGGTGA -AAAAAGGAATGACGCTGGTGCCGTCTTCTTTTTCCCAGTGCTGTAAATCAAGCGCGCTATCTTCAACCACAGCCT -CGCCCTGCGCCGCCGTACCAGGCACCCAGACGGTGGATTCCAGTAGAGTACGGAAAAAGGCCGGGCGGTGCGCCG -GTTCAGTTGCTGCTTTTTCCAGCAGGTCTTCAAGTTCGTTTTTTGTTTCGGACATAAGAACCACAATTCATTCAA -CGTTCGGGGCGCAAATGCCTGATGCGCTACGCTTATCAGGCCTACAAGGGATTCGCAATTTGTTGAATTTGCAGA -ATTTGTAGGCCGGATAAGGCGTTTACGCCGCATCCGGCATATTAGTTTACGCCGTTAACAGATTAGCTATCGTGC -GCACACCAAGTCCCGTAGCGCCCGCAGACCACTGTTCAACCGGCGCTTTACGGTAAGTCGCCGAGCAGTCGATAT -GCAGCCAGCCTTGCTGATAGTTCTCAACAAAGTGCGACAGGAAGCCCGCCGCCGTGCTCGCGCCTGCCGGATACG -CCGCGCTTCCGGTATTGTTCAGTTCGGCAAAGTTAGACGGCAGCTGGCTGCGGTGGAACTCCGCCAGCGGCAGAC -GCCAGAACGGTTCGTTCTCCTGCGCGGCACTCGCCAGCAAGCGACCGGCCAGCGCATCGTCAAAACTGAACAGCG -CGTGATAATCATTACCCAGCGCAGTTTTCGCCGCCCCGGTGAGGGTCGCCGCATCAATGATCATTTCCGGTTTCT -GCGCACTGGCATCAATCAGACCATCGGCAAGCACCAGACGCCCTTCGGCATCAGTGTTCATCACTTCAACTTTTT -TACCGTTGCGATAGGTGATGATATCGCCCAGCTTGAACGCATTGCCGCTAATCAGGTTATCCGCACAGCAGAGGA -ACAGCTTCACGCGCTTGTTCAGTCCGCGCGTAATGGCAAATGCCAGCGCCCCGGTAACCGTTGCCGCGCCGCCCA -TGTCCGACTTCATCGAGTCCATAAACGCAGTCTGTTTGATGCTGTAGCCGCCGGAGTCAAAAGTGATACCTTTAC -CTACCAGGCACGCGTACACTGGCGCTTCTTTATCGCCAGTTGGGTTGTAATCCAGCGCCAGCAATACCGGAGAAC -GTTCTGAACCGCGTCCGACTGTGTGCAGCCCCATATAACCTTGCTCACGCAGATCTTCGCCTTTGGTGATCCGAT -AAGTCACACGATCGCCCGCGACGTTGCTGATCAGATCAACAGCACGCTGTGCCAGTTGCGATGGTCCCAATTCTT -CTGCCGGTGCGTTGATGGTGTCACGCACCCAGTCGATGATCATCAGGCGGTTATCCAGTTCCTGGCGCTGGGCAT -CGTCCAGATCCGGCCACACCACTTTACGCGTGCCTTTCGGGGCTTTGTAACCTTGCCAGAATGCCCAGCAGCGAT -CCGCATCCCAGCCTTCACCGCTTAACTGAACATGCTTGATGCCCAGACCGTCAATCTTGCGCGCCGCACGCTGGA -TCAGCCCCAGATCGTCTGCCCCGTTCAAATGCAGGGTAATGCCGTCATTATTAATGCTGTAAGTTGCTTTTTCTC -CCCAGCGCGCGTCGGCAGGTTGGGTAGAGAGGGTAATCTTCATCGCTTCTGTCATTTTAGTTATCCTTCTTTGTA -AAAGGGCCGCCAGTTGGCAGCCCCAGGATTTTTCCGCTAAATGATTCGCGTTGCAGGAAGGCGGCAAGTGAGTGA -AGCCCCAGGAGCATAGATAACTATGTGACTGGGGTGAACGAGCGCAGCCAACGCATCTGCGGCGTGAAGCATGAC -GCGGAAATTATTCGGCCTCGTCCAGCCAGACTAACAAAATCGCTTCGAGGATTTTCTCGTTGGATGCCTGCGGGT -CGTCGTCGAAATCTTCCAGATCGCAAATCCACTGATGCATATCGGTGAATCGAACCGTTTTCGGATCAAGATCGG -GATACGCATCGTACAGTGCTTCGCCAATTTCGCGGCTATCGGTCCACTTAAGTCCCATACTAACCTCTGTTAATG -CTCACGCGCATGGTTGATAGTGTAACGCGGGATTTCGACTACTAAATCTTCGTCGGTAACGCGCGCCTGGCAGCT -TAAACGGCTTTCCGGCTCCAGTCCCCAGGCTTTGTCCAGCATGTCGTCTTCCTGCTCTGAGCTTTCCGGCAGTGA -GTCAAAACCTTCACGAACGATGCAGTGGCAGGTGGTGCAAGCACAGGATTTTTCACAGGCGTGTTCAATCTCGAT -ACCGTTACGCAGAGCTGCGTCGAGAATGGTTTCACCGCTATTAGCTTCCAGAACAGCGCCATCAGGGCAGAGATC -CTGATGAGGCAAAATAACAATCTTTGGCATATTAAACCTCGTCCACGGAATGGCCTTTCAGCGCACGACGAACCG -ACTGGTCCATGCGGCGAGCGGCGAAATCCTGGGTTTGTTTGTCTACGTTTTTAATCGCTTGTTCGATGGCGTCAA -CATCATCGCCCTGCGCCACTTCACTCAGGTGAGCGGCAGCATCGTCAATGACCTGACGTTCTGCGGCGCTTAACA -GCGCGGCATCAGCAGCCAGCGCGCCGTGCAGACTTTCCAGCACACGCGCCGCTTCTACTTTTTGTTCTGCCAGCA -TTCGGGCTTTTACGTCCTGCTCGGCATAGCTCATTGAGTCTTTGATCATCGAAGCGATTTCGCTATCGGTCAGAC -CGTAAGACGGTTTGACCTGAATAGACGCCTCAACGCCGGTGGATTTCTCCATCGCCGTCACGCTCAAAAGACCGT -CGGCATCGACCTGGAACGTCACGCGAATATGCGCACCGCCAGCCGGTAGCGCCGGAATACCACGCAGCGCAAAAC -GCGCCAGTGAGCGGCAGTCCTGCACCAGTTCGCGCTCACCCTGCATTACATGGATAGACATCGCCGTCTGACCAT -CTTTAAAGGTGGTGAAATCCTGAGCGCGGGCCACCGGAATAGTGGTATTACGCGGAATCACTTTCTCCACCAGGC -CGCCCATCGTTTCGAGGCCCAGCGACAGTGGGATCACATCAAGCAACAGCATTTCGCTGTCTGGCTTGTTACCCA -CCAGAATATCCGCCTGAATCGCCGCGCCAATAGCGACGACTTTATCCGGGTCGATGGAAGTCAGCGGTGGACGAC -CGAAAAATTCGCCTACCCGTTCACGCACCAGCGGCACGCGAGTAGAACCGCCCACCATCACCACTTCCAGCACTT -CATCAGCTTCTACACCCGCGTCTTTCAGCGCGCGACGACAAGCCAGTAAGGTTCGTTTTACCAGTGGCGCGATCA -GTTCATTGAATTGTTCACGGCTGATTTCGCCCTGCCAGCCCGCAACGTTAACGGTCACGGAGTCCGCATCGCTCA -GCGCGATTTTGGCTGCAATGGCGGCATCCAGCAGTTCACGCTGAACGCGGTTATCGCTACGATCAGGAATGCCCG -CCTGCTCGCGAATGTAATCCGCCAGCAGATGGTCGAAATCATCGCCGCCGAGCGCGGAATCACCGCCGGTTGCCA -GCACTTCAAACACGCCGCGACTTAAGCGCAGAATGGAAATATCAAACGTCCCGCCACCGAGGTCATAAACGGCGA -TCACGCCTTCCTGACCGGAATCCAGCCCGTAGGCGATAGCCGCAGCGGTCGGTTCGTTAAGTAAGCGCAGGACGT -GAAGGCCCGCCAGACGCGCCGCGTCTTTGGTGCCCTGACGCTGGGCATCGTCAAAGTACGCCGGAACGGTGATAA -CTACACCATCCAGCTCGCCTGCCAGGGCTTCAGTTGCCCGCGCCGCCAGTGCTTTGAGGATGTCCGCAGAAACGC -GCACCGGGTTCAGCAGCCCCGCCGCCGTTTCAATCATCGGCAGGCCGTTTTCGCTGGCCTGGAATTGATAAGGCA -GATGCGGATAGCGTTGCTGGATATCAGCCAGCGAGCGTCCCATCAGGCGTTTAACAGAACTAATTGTGTTGGCGG -TATCGAGCGCTGCATTAGTACGCGCGTCATAACCCACCGAATGCCCTTGCTGTTGATAGTGAACAACAGATGGCA -GCAGGTGACGGCCTTCATGATCGGCTAACGTTTCGGCCTGACCGCTGCGCACTGTCGCCACCAGCGAGTTGGTTG -TGCCCAGGTCAATACCGGCCGCCAGACGACGCTGATGCGGCGCAGCACTCAAACCAGGTTCACTAATTTGTAATA -AGGCCATGTTTAGCTTCCAGAAATTAAAAATCGAGCAGTTTTTCTTCGAGTTGTTCGGCACTGCTTCGCAGTTTA -TCGAGAAAACGCAGCTTACGCACGGTATCCGCCGCCGCGTCCCACGTCTCGTTGTCTAACTGTTCAACCATCAAC -TGATGGCGGGTATCAAACATCTTTTTCACACGTTTGATAAAGCTTTCCAGCCGCGCTTCATCTTTCGCCTGTTCG -ATCTCGTCCAGCTCTTCGCGCAGCTCCAACTGTTCCATCAGGAACGCGGTGTCGCGCACAGTATGCTGCTCGCTG -GCGAGATCAAAGCCGTGCAAAGAAAGCAAATATTCCGCGCGCATTAACGGATGACGCAGCGTTTGCCAGGCCTGG -TTAATGGTTGCAGATTGCTGTACGGCGGCGAGTTGTTCCGCCTGGCTTCCGCTGGCGAATTTATCAGGATGATAC -TGACGTTGTAGATCCTGAAAACGCAGGCTCAGCGCCTGGGTATCGAGTTGATAGCGGGCAGGCAAGCCAAAGAGG -GTGAAGTAATCCATAACATTCTCAGGGCTGCGATCCGCCGCGATAACGGCGAATCAGGTAAAACAAACCCCACGC -GCAGGCGACCACGGTGGGGTTATCGGTATGCGCATCAAACGTGGAAGCTTTCGCCGCAACCACACTCATCTTTGA -CGTTCGGGTTGGTGAATTTAAACCCTTCGTTCAGGCCTTCTTTTACGAAGTCCAGCTGCGTACCGTCCAGAAATT -GCAGGCTCTTGCCATCGACCACGACTTTCACGCCTTTGTCTTCAAACACGATGTCTTCCGGCGTCGGTTCGTCAA -CAAATTCCAGTACATAAGCCATACCTGAACACCCGGAGGTTCTCACGCCCAGACGCAGGCCAAACCCTTTACCGC -GGTTAGCCAGAAAGGTATTTACTCGCGCTGCTGCACTGTCGCTCAGTGTAATCGACATAACCAAACCTCAACTCT -TATTTTGCTTCACGTTTGCTTTTATAGTCCGCAATGGCGGCTTTGATCGCGTCTTCTGCCAGAATAGAACAGTGA -ATTTTCACCGGCGGCAGTTCAAGTTCTTCAGCAATATCGGTGTTTTTGATCGCCTGCGCTTCGTCGAGAGACTTC -CCTTTCACCCATTCGGTGACCAGGGAGCTGGAAGCGATAGCGGAACCGCAGCCGTAAGTTTTAAAACGCGCGTCT -TCAATGATACCTTCATCGTTGACTTTAATCTGCAACTTCATCACGTCGCCACAGGCCGGTGCCCCCACCATGCCG -CTGCCGACGTTCTCGTCGTTGTTGTCAAAGGAACCCACGTTACGCGGATTCTCGTAATGGTCGATAACTTTTTCG -CTGTAAGCCATTATAAATTCTCCTGATTCCGATACCGATTAATGATGAGCCCATTCGATGCTGTTCAGATCCACG -CCCTGCTTGTACATTTCCCACAGCGGAGAAAGGTCACGCAGACGACCGATGGATTTACGAACTAACTCGATGGTG -TAGTCGATCTCTTCTTCAGTAGTAAAACGACCTAAAGAGAAACGGATAGAGCTATGTGCCAGCTCGTCGTTCAGC -CCCAGCGCGCGCAGCACGTAGGACGGTTCGAGGCTTGCTGACGTACAGGCGGAACCTGAAGAAACTGCGAGGTCT -TTCAGCGCCATAATCAGCGACTCACCTTCAACGTAGTTGAAGCTGACGTTGAGAATGTTCGGCGCACCGTGTTCC -AGGTCACCGTTCAGGTAAACTTCTTCGATATCTTTGATGCCGTTCCACAGACGGTTACGCAGGCCGCGCAGACGT -TCCATCTCGGTCGCCATCTCTTCTTTTGCGATGCGATAGGCCTCGCCCATTCCGACGATCTGGTGAACAGGCAGA -GTGCCGGAACGCATACCGCGCTCGTGACCGCCGCCGTGCATTTGCGCTTCGATGCGTACGCGCGGTTTACGACGT -ACATACAGCGCACCGATACCTTTCGGGCCATAGATTTTGTGACCGGAGAAAGACATCAGGTCAACTTTCAACTGG -CTCAGGTCGATAGGCAGTTTACCCACGCTCTGGGTTGCATCAACGTGATAGATAATGCCACGAGCACGGCACATT -TCGCCGATAGCCGCGATATCCTGCACCACGCCGATTTCGTTATTTACGTGCATGATGGACACGAGGATGGTGTCG -TCACGCATCGCTGCTTCAAGTTCTTTCAGGTCGATAATGCCGTTACGCTGCGGTGCCAGGTAGGTGACTTCAAAA -CCTTCGCGCTCCAGCTGACGGCAGGTATCCAGTACCGCTTTGTGTTCGGTTTTGCTGGTGATGATGTGCTTGCCT -TTTTTCTGATAAAAGTTGGCTGCACCTTTGATCGCCAGGTTGTCAGATTCGGTTGCACCAGAGGTAAAGACGATT -TCACGCGGATCAGCGCCGACCAGATCGGCAATCTGATTACGGGCGATATCTACCGCTTCTTCAGCCTGCCAGCCG -AAACGGTGAGAACGGGAGGCCGGGTTACCAAAGGTTCCGTCCATCGTCATAAACTGCATCATTTTCTCGGCAACA -CGCGGGTCCACCGGCGTGGTTGCGGAGTAGTCGAGATAAATCGGTAATTTCATTGCTCTATAAACTCCGTACATC -ACTCAATGCAAGGAATCAGGCTACCGGCTGGATGTACGACCGTGTTTACGGAGTATTTAGCACTCCGGCCTGATT -CTGAATTCTTTTTATTAAGCGCGTAACTTAACGTCGATCGCGTCTTGTGTGCGGGTGCGTGGCGCGTCGTGAGTA -TGCTGACGACCAGACACATCCAGCACTTCCTGGTTATTAACCAGTTCGCCTAAAGTAATGTTGTTGAGAAAACCG -GTGAGACGGTCGCTCAAATCACGCCACAGCGCGTGGGTCAGGCATTTATCGCCGCCCTGGCAGCCGCCTTTACCC -TGACAACGGGTGGCATCTACAGATTCGTCAACGGCGCTAATTACTTCGCCAACGGCGATGCTGCTGGCATCTTTG -CCTAACAGATAACCACCGCCTGGTCCACGTACGCTGGAAACCAGACCATTTTTACGCAGACGGGAAAACAGTTGT -TCCAGATAAGAAAGGGAAATTCCCTGACGTTCGGAAATATCAGCCAACGGTACCGGGCCCGCTTCAGAGTTGAGC -GCAACGTCAAGCATTGCGGTCACGGCATAGCGCCCTTTAGATGTCAGTCTCATGTCTTACTTCACCTCAAACTCG -CCCCTGCCCGGGGTTTTTTATTGTAAAAGTGGGGGTATTGCATAGCAGGGTCAAGTCTGACATTCCCGAGTAAAT -TGGTCAACTATTTACTTGACTGATTTAGTCGGGTATTTAACCTTCAGTGCCATTTTTTTATCGTGGCGTTTGTAC -CTGTTGTCGGATGCGGCGTGAACGCCATATCCGCCCTGGGGTTCTGTACACTGTAGGCCTGATAAGACGCATTAC -GCGTCGCATCAGGCAACGGCTGTCGGATGCGGCGTGAACGCCTTATCCGACCTACGGTTCTGTTCACTGTAGGCC -TGATAAGACGCATTACGCGTCGCATCAGGCAACGGCTGTCGGATGCGGCGTGAACGCCTTATCCGACCTACGGTT -CTGTTCACTGTAGGCCTGATAAGACGCATTACGCGTCGCATCAGGCAACGGCTGTTATTCGGCCTTGTTACCTTT -ATTCTGCTGCTCAATAGAAGCCAGAATCCCGCGCAGGATATTCAACTCCTGGCTTTCCGGGCGCGCACGGGTAAA -CAGACGGCGCAATTTATTCATCACCTGCCCCGGATGGTTTTCACGGATAAAACCGGTTGCCAGCAGCGTTTGTTC -CAGATGACCATAAAAACGCTCCAGATCATCGACCAGCGGATACGGCGTCTCTTCATGCTCGACCTGCTCGCCGTT -TTCCTGAGTTGCCAGCCAGGCCATGCGCACTTCATAGGCAATAACCTGAACCGCCATCGCCAGGTTCAGCGAGCT -GTATTCCGGGTTAGCCGCAATCGCGACATGATAATGGCATTTCTGCAACTCTTCATTGGTCAAGCCGACGCGCTC -GCGACCAAACACCAGCGCCACCGGGGTATTTGCCGCTTCAGCGACGCTTTTCAGGCCGCATTCGCGCGGGTCGAG -CATCGGCCATGGCAGCGTGCGGGAACGTGCGCTGGTGCCCACCACCAGGCTACAACCGGCTAACGCTTCGTCGAG -CGTATCGACGATGTGAGCATTACCAATCACATCGCTGGCCCCTGCTGCCAGGGCAATCGCCTGGGAGTCGGGTTT -CACCAGTGGATTAACCAGCCACAGATTGGTTAATCCCATTGTTTTCATGGCACGGGCAACAGAACCCATATTGCC -GGTGTGTGACGTCTCCACCAGCACAATTCGAATATTTTGCAGCATTGTCTTTCTTCATCTAAAGATTATTCACGC -ATCTTATCATAAAACGAAGACAGATGCCGATCTCGCTGCTATACTCTGCGCCGTTTTCCCGTTCTTTAACATCCA -GTGAGAGAGACCGATGCATCCGATGCTGAACATCGCCGTGCGCGCAGCGCGCAAGGCGGGTAATTTAATTGCCAA -AAACTATGAAACCCCGGACGCTGTAGAAGCGAGCCAGAAAGGCAGTAACGATTTCGTGACCAACGTAGATAAAGC -TGCCGAAGCGGTGATTATCGACACGATTCGTAAATCTTACCCACAGCACACCATCATCACCGAAGAAAGCGGTGA -ACTTGAAGGTACTGATCAGGATGTTCAATGGGTTATCGATCCACTGGATGGCACTACCAACTTTATCAAACGTCT -GCCGCACTTCGCGGTATCTATCGCTGTTCGTATCAAAGGCCGCACCGAAGTTGCTGTGGTATACGATCCTATGCG -TAACGAACTGTTCACCGCCACTCGCGGTCAGGGCGCACAGCTGAACGGCTACCGACTGCGCGGCAGCACCGCTCG -CGATCTCGACGGTACTATTCTGGCGACCGGCTTCCCGTTCAAAGCAAAACAGTACGCCACTACCTACATCAACAT -CGTCGGCAAACTGTTCAACGAATGTGCAGACTTCCGTCGTACCGGTTCTGCGGCGCTGGATCTGGCTTACGTCGC -TGCGGGTCGTGTTGACGGTTTCTTTGAAATCGGTCTGCGCCCGTGGGACTTCGCCGCAGGCGAGCTGCTGGTTCG -TGAAGCGGGCGGCATCGTCAGCGACTTCACCGGTGGTCATAACTACATGCTGACCGGTAACATCGTTGCTGGTAA -CCCGCGCGTTGTTAAAGCCATGCTGGCGAACATGCGTGACGAGTTAAGCGACGCTCTGAAGCGTTAATGACTCAG -GCGGGTGATATCACTCACCCGCCCTCGCCTTTCAGGCGCTATTCCGAAATACTTCCTCACTGCTTTACTTTCTTT -CGTCACTCTCCCACCATCTTTCCCCGATTAATGGATGATAAAGAAGTCGCAAGGAAAGGTTATGGCACTGCCAGT -GAACAAACGCGTTCCCAAAATTCTGTTTATTCTCTTTGTTGTTGCCTTCTGCGTTTATTTAGTGCCGCGCGTTGC -CATCAACTTCTTCTATTATCCCGACGATAAAATTTACGGTCCCGATCCCTGGTCGGCGGAATCCGTCGAATTTAC -GGCTAAGGACGGTACTCGTCTGCAAGGCTGGTTTATCCCTTCTTCGACGGGCCCTGCTGACAACGCCATCGCAAC -CATCATTCATGCTCACGGCAATGCCGGAAATATGTCCGCCCACTGGCCGCTGGTCAGTTGGTTACCCGAGCGTAA -TTTCAACGTTTTTATGTTTGATTATCGCGGGTTTGGTAAATCAAAAGGCACGCCGTCCCAGGCCGGATTGCTGGA -CGATACGCAAAGTGCCATCAATGTGGTGCGCCATCGCAGTGATGTAAACCCACAACGTCTGGTGCTGTTCGGGCA -GAGTATTGGCGGGGCGAATATTCTGGATGTTATTGGTCGGGGTGATCGTGAAGGCATACGTGCGGTGATCCTCGA -CTCCACATTTGCCTCTTATGCAACCATCGCCAACCAAATGATCCCCGGCAGTGGCTACTTACTTGATGAGAGTTA -CAGCGGCGAAAATTATATCGCCAGCGTCAGCCCGATCCCGCTTTTACTCATTCACGGTAAAGCTGATCACGTTAT -CCCATGGCAGCACAGCGAAAAGTTGTATAGCCTGGCAAAAGAGCCAAAACGGTTGATCCTAATCCCGGATGGCGA -ACACATTGATGCTTTTTCCGATCGTCACGGCGATGTTTATCGCGAACAGATGGTGGACTTTATCCTTAGCGCGTT -GAATCCGCAGAACTAACCCATGATCGCTAGCACGATAATCATTCACAAAACCACCTTAAGACATGCTAATCCACT -GGTCAGAACAGTTTAAGATGAGAAAAATTCTGTGACGCTTGCCAACATTTCTGATGATTAGCATTCCCTTCGCCA -TTTCCTTGAGCAAACTTTAGCTATTCTTATCAATTATGCTTATGGGAGATCTACAGATGATGCCTACGCTTGCTC -CACCATCTGTCCTTTCGGCTCCCCAGCGCCGCTGCCAGATCTTGCTGACGCTCTTTCAGCCGGGGTTGACCGCCA -CCATGGCAACCTTCAGCGAGCTTAATGGTGTGGATGATGATATTGCCAGTCTTGATATCAGCGAAACAGGACGGG -AGATCCTGCGCTATCATCAACTCACACTGACGACTGGTTATGACGGTAGCTACCGGGTTGAAGGTACAGTGCTTA -ACCAACGTTTGTGTTTATTTCACTGGCTACGACGTGGTTTCCGTCTGTGTCCGTCATTTATTACCAGCCAATTCA -CCCCCGCCCTGAAGAGTGAACTGAAGCGGCGCGGAATTGCGCGTAACTTTTACGACGATACCAATCTACAAGCGT -TAGTGAATCTCTGCTCCCGACGGCTGCAAAAACGCTTTGAATCGCGCGATATTCATTTCCTGTGTCTGTATCTGC -AATATTGTTTGCTGCAGCACCACGCTGGAATTACGCCTCAGTTTAATCCGCTCCAACGTCGCTGGGCGGAATCCT -GCCTTGAATTTCAGGTAGCGCAGGAAATTGGACGCCACTGGCAGCGTCGGGCGCTCCAGCCTGTACCACCTGATG -AGCCACTGTTTATGGCACTACTTTTTTCCATGTTGCGGGTTCCCGATCCATTGCGGGATGCGCATCAGCGGGACA -GACAATTGCGTCAGTCTATCAAACGTCTGGTAAACCATTTTCGTGAGCTGGGAAATGTTCGTTTTTATGATGAAC -AGGGGTTATGTGATCAGCTTTATACCCACCTCGCCCAGGCGTTAAATCGCAGTTTGTTTGCCATCGGTATTGATA -ATACCCTGCCGGAAGAGTTCGCCAGACTGTACCCACGCCTGGTGCGCACCACCCGCGCGGCGCTGGCCGGATTTG -AAAGTGAATACGGCGTCCATCTTTCTGATGAGGAAAGTGGTCTGGTCGCGGTGATTTTCGGTGCCTGGCTAATGC -AGGAAAACGATCTGCATGAAAAACAGATTATTCTTCTTACCGGGAATGATAGCGAGCGAGAAGCGCAGATTGAGC -AGCAGTTACGCGAACTAACGTTACTGCCGCTCAACATTAAGCATATGTCGGTAAAGGCATTTTTGCAGACAGGCG -CTCCGCGTGGCGCGGCACTGATTATTGCGCCTTATACCATGCCATTACCGCTCTTTTCACCACCGCTGATCTATA -CGGACCTGACGCTGACAACACATCAACAGGAGCAGATCCGCAAAATGCTCGAATCAGCATGAGGGAACAACTTTC -GGGCGCAAAAACATTGCCGGAAGCGCCACCAGCGCCATTACCCAGAACACGCCGTGGCCCAGATATTGATACAGG -AAACCGGCGAAAACGGTCATGATAGCGATACTGCCGCCCATCGCGACGGCAGAGTAAACCGCCTGTAAACGGATG -ACTTCGCTACCCTGGCGAGCAGCAATATAACGCATGGCGGCCAGGTGGCAGACCGTGAAGGTGCCGCAATGCAGA -ATTTGCACCACTATCAACCACGGCAACGCCGTAGTTGCTCCCATAATGCCCCAGCGCACTACGCCGCAAATCGCC -GAGATCAACAGCATATCGCGTGCACTACAACGGCGGAAAAGTTTATTACTCAGCGCAAAGATAATGACTTCCGCC -ACCACGCCCAGCGACCACAAATACCCCACCGCCGAGGCCGAGTAGCCAGCTGCCTGCCAGTAAATGGCGCTAAAA -CCGTAATAGGCCGCATGTGCCCCCTGCAATAAACAAACGCAGGCCAGAAAGCGCCAGTTCTGGCGAACCAGCGCC -AACCACGCAGACCAACCGGTGCTCTCCTGCTGGCGACTTGCCCCTTGTGGCTGAATCGTCGGACGGATGAGAAAG -CCGAGCAGCATGGATGCCACGCCCAACGTCAACAGCGCGAGGATCACCCGATAATCAAACATAGTGACCAGTTTG -CCCGTCAGCGCCGAGCCAATGACAAACGCCACCGAGCCCCACAGTCGCACTTTGCCGTAATCAAGCGGGAACTGC -TTTTGCCACGTATTCGCCAGTGCATCGGTCAACGGTACCAGTGGTGAGAAAAAGAGGTTAAAGCCAATCATCACC -AGCATCAGCCACGCTACGTGCGCCCCCGCCCAGAAGGCGACAGCAAAGAGAAGTGTCAGCAGTGCCAGCACGCGC -AAGGCGGAAATCAGGCGGGAAGGATCGCTGACGCGGGGCGCGATGAGCAAACTCCCGAGGAAACGGGCAACCAGA -CCTGCCCCCAATAACAGGCCGATGGTTTCTGGCGTTAAACCAATCCCTTTAAGCCAGACGCTCCAGAAAGGTAGA -AAAATGCCGTAACTAAAAAAGTATGTGAAATAGCCGAGCGCCAACCAGCGCGTGGATTGCAAAACCATGAGTCCC -TCCCGTCAGGAGGCGTTAGTCTGGGGTTAATCGAATGTTGGTGCAAGTTGAAAAATAAGAATATTCGAGCCTGCT -TCCCGATGTCTGTAACGCCAGTTCACAAGCACTAAAAAACTGAGATCCGCGACGCATGTTGCAAAAATAATGCGT -AATTATGCCGTTACGCTTGCCAAACGTTCCTGCACAATGGCGATGAAATCGCGTAATGCCGGCTTCATCTCCCCT -TTCTTCCACGCCATCAGTAAAGCAATGGAAGGCACATTTCCGGCAATGGGACGAAAAACAACCTGTCCGGTATTA -AAATTATTCATATAACCGGGTATCAAAGTGACGCCCAGCCCCATGCCCACCAGATTCATGGTCACCAGAATATTC -GTTGCCACCTGGACGATATTTGGCTGGCTGTTTTCTTGCGCAAACCACGCTTTAACGATCGGCGCAAGCGAACCG -GAATACACCGGATCGGTACTGACGAAATTCACGCCATCCAGTTGCGCGGCGGTGATCTCTTTTTCATGTGCTAAA -GGGTGATCAACCGGTAACACAACCACTAATGGTTCGTCAAAAAGCTCCAGATAATCAATCTCCGGGCTATAAACA -GGATGGCGCATTAAGCCGACGTCGAGTTCACCACGGCGAATTTTTTCCTCCTGTTGCGTGGTGATTAAACTCACC -AGCTCAATCAAGGTGTCTGGCTGTCTGAGACGAAACATCGGTAATACTTTTGGCAGTAAATTCACTTCCGCCGAT -GGCACAAAGCCAATGGTTAATTGTCTGTCTTCCTGAACAATTTTCCGCGCCCGTAATTTGGCATTTTCCGCTTGT -TCGAGGATTGCCAGCGCGTCCTGGAGAAAACATTCTCCCGCCGCCGTCAACGCGACTTTGCGCTTATCCCTCACC -AGTAACGGAACACCGACACAGTTTTCAAGATCGCGGATCTGGCTGCTTAACGAAGGCTGTGAGGTATGCAGTTTT -TCCGCCGCACGGGTAAAGTTCAGTGCCTGCGCCACTGCGACGAAATAGCGTAAATGCCGTAGTTCCATCACCTTC -CCCTTGTTATCGAAAAAACGTCTCAGCTGGTAGAAATTAACTATTTCACATATTAGCAACCAACCAGCAACATCC -TTATGGCACAAAAATAGAAGGTCAATACATCTTATCTTTCAGGATTAAAAAATATGACCACACCCTCAGATTTGA -ACATTTACCAACTGATTGACACCCAAAATGGTCGGGTCACTCCGCGTATTTATACCGACCCGGATATTTACCAAC -TGGAGCTTGAGCGTATTTTCGGTCGTTGCTGGCTATTTCTCGCCCACGAAAGCCAGATCCCAAAACCCGGTGATT -TCTTTAACACCTACATGGGAGAAGATGCGGTTGTCGTAGTGCGTCAGAAAGACGGCAGCATCAAGGCGTTTCTCA -ACCAATGCCGCCACCGGGCCATGCGTGTGAGTTATGCAGATTGCGGCAACACTCGCGCCTTTACCTGCCCGTATC -ACGGCTGGTCTTATGGCATTAACGGCGAGTTGATCGATGTACCGCTGGAACCTCGCGCCTACCCACAAGGGTTGT -GTAAATCCCACTGGGGACTAAACGAAGTTCCTTGTGTGGAGAGTTATAAAGGGCTAATTTTTGGCAACTGGGATA -CCAGCGCACCGGGCCTGCGTGATTACCTGGGTGACATTGCCTGGTATCTGGATGGCATGCTGGATCGTCGCGAAG -GCGGCACCGAAATTGTCGGCGGCGTACAAAAGTGGGTGATCAACTGTAACTGGAAATTCCCGGCAGAGCAGTTCG -CCAGTGACCAGTATCATGCTCTGTTCAGCCATGCTTCTGCCGTTCAGGTATTAGGGGCGAAAGATGATGGCAGCG -ATAAGCGCCTCGGTGATGGACAAACCGCCCGCCCGGTGTGGGAAACCGCCAAAGATGCGCTGCAATTTGGTCAGG -ACGGTCACGGTAGCGGTTTCTTCTTTACTGAAAAACCGGATGCTAATGTCTGGGTCGATGGCGCAGTTTCAAGCT -ATTACCGCGAAACCTATGCCGAAGCAGAACAACGTTTAGGTGAAGTTCGCGCCCTGCGCCTGGCGGGTCATAACA -ATATTTTCCCCACGCTTTCATGGCTAAACGGCACTGCCACACTCCGCGTCTGGCATCCGCGCGGCCCTGATCAAG -TTGAAGTGTGGGCGTTCTGTATTACTGACAAAGCCGCCTCCGATGAAGTTAAAGCCGCTTTTGAAAACAGCGCCA -CTCGTGCTTTTGGTCCTGCTGGTTTTCTCGAGCAGGATGACTCGGAGAACTGGTGTGAAATCCAGAAATTGCTTA -AAGGCCACCGCGCCCGCAACAGCAAACTGTGTCTGGAAATGGGGCTTGGTCAGGAAAAGCGCCGCGACGACGGCA -TTCCTGGCATTACTAACTATATCTTTTCAGAAACTGCCGCTCGTGGAATGTACCAACGCTGGGCCGATCTTCTGA -GTAGCGAAAGCTGGCAGGAAGTGCTCGATAAAACCGCCGCTTACCAGCAGGAGGTGATGAAATGAGTGCGCAAGT -TTCACTAGAGTTACATCACCGCATTAGCCAGTTTCTCTTTCACGAAGCCAGCTTACTGGACGACTGGAAATTTCG -TGACTGGCTGGCGCAGCTCGACGAAGAGATTCGTTACACCATGCGCACCACAGTTAACGCGCAAACACGCGACCG -CCGCAAAGGCGTCCAGCCACCGACAACCTGGATTTTTAATGACACCAAAGACCAGCTGGAGCGGCGAATCGCCCG -TCTGGAAACGGGCATGGCCTGGGCAGAAGAGCCGCCGTCACGCACCCGTCACTTAATCAGCAACTGCCAGATAAG -CGAAACCGACATCCCAAACGTATTTGCTGTGCGGGTAAATTATCTGCTTTATCGGGCACAAAAAGAGCGCGATGA -AACATTCTATGTTGGAACGCGTTTCGACAAAGTTCGCCGTCTGGAAGATGACAACTGGCGCTTGCTGGAACGGGA -TATCGTCCTGGATCAAGCGGTAATCACTTCCCATAACCTGAGTGTACTGTTCTGATGAATCGAATTTATGCGTGT -CCCGTTGCGGATGTGCCGGAGGGTGAGGCTCTCCGGATCGATACCTCGCCCGTCATCGCCCTGTTCAACGTTGGC -GGCGAGTTTTATGCCATTAACGATCGTTGCAGCCATGGTAATGCGTCAATGTCAGAAGGGTATCTGGAAGATGAC -GCCACGGTGGAGTGCCCGCTACACGCCGCCAGTTTTTGCCTGAAAACGGGGAAAGCGTTATGCCTGCCCGCCACC -GATCCGCTCACCACTTATCCAGTACACGTTGAAGGTGGTGACATTTTCATCGACTTACCGGAGGCGCAGCCATGA -GCGATCTGCATAACGAGTCCATTTTTATTACCGGCGGCGGATCGGGATTAGGGCTGGCGCTGGTCGAGCGATTTA -TCGAAGAAGGCGCGCAGGTTGCCACGCTGGAACTGTCGGCGGCAAAAGTCGCCAGTCTGCGTCAGCGATTTGGCG -AACATATTCTGGCGGTGGAAGGTAACGTGACCTGTTATGCCGATTATCAACGCGCGGTCGATCAGATCCTGACTC -GTTCCGGCAAGCTGGATTGTTTTATCGGCAATGCAGGCATCTGGGATCACAATGCCTCACTGGTTAATACTCCCG -CAGAGACGCTCGAAACCGGCTTCCACGAGCTGTTTAACGTCAATGTTCTCGGTTACCTGCTGGGCGCAAAAGCCT -GCGCTCCGGCGTTAATCGCCAGTGAAGGCAGCATGATTTTCACACTGTCAAATGCCGCCTGGTATCCTGGCGGCG -GTGGCCCGCTGTACACCGCCAGTAAACATGCCGCAACCGGACTTATTCGCCAACTGGCTTATGAACTGGCACCGA -AAGTGCGGGTGAATGGCGTCGGCCCGTGTGGTATGGCCAGCGACCTGCGCGGCCCACAGGCGCTCGGGCAAAGTG -AAACCTCGATAATGCAGTCTCTGACGCCGGAGAAAATTGCCGCCATTTTACCGCTGCAATTTTTCCCGCAACCGG -CGGATTTTACGGGGCCGTATGTGATGTTGACATCGCGGCGCAATAATCGCGCATTAAGCGGTGTGATGATCAACG -CTGATGCGGGTTTAGCGATTCGCGGCATTCGCCACGTAGCGGCTGGGCTGGATCTTTAAGGAAGCACGATGAAAG -AAAAAACGATCATTATTGTCGGTGGCGGGCAAGCGGCGGCAATGGCTGCGGCCTCGCTACGCCAGCAAGGGTTCA -CCGGTGAGCTGCATCTGTTTTCCGATGAGCGACATCTTCCTTATGAACGACCTCCACTCTCGAAATCCATGTTGC -TGGAAGATTCCCCGCAGTTACAGCAGGTGTTACCCGCTAACTGGTGGCAGGAAAACAATGTTCATCTGCATTCCG -GTGTAACCATCAAAACGCTGGGTCGCGACACACGAGAGTTAGTGTTAACCAACGGCGAAAGCTGGCACTGGGATC -AGCTTTTTATAGCAACCGGCGCGGCAGCTCGACCGCTGCCGTTGCTTGATGCACTGGGAGAACGCTGCTTTACCC -TACGCCATGCCGGTGATGCCGCCAGACTGCGAGAAGTTCTGCAGCCCGAACGGTCAGTCGTGATTATCGGTGCCG -GAACTATTGGTCTGGAACTGGCTGCCAGCGCCACGCAGCGCAGATGTAAGGTGACAGTGATTGAACTGGCGGCAA -CCGTCATGGGCCGTAATGCACCACCGCCCGTGCAACGCTATCTTTTACAGCGCCACCAGCAGGCTGGTGTGCGCA -TTCTGCTCAATAATGCCATTGAACATGTGGTCGATGGTGAAAAAGTAGAACTGACGCTGCAAAGTGGGGAAACGC -TTCAGGCTGATGTGGTGATTTACGGTATTGGTATCAGCGCCAACGAGCAACTGGCTCGCGAGGCCAACCTTGATA -CTGCCAATGGCATTGTCATTGATGAGGCTTGCCGCACCTGCGATCCCGCGATCTTTGCCGGTGGCGATGTGGCAA -TCACTCGTCTTGATAATGGTGCACTACACCGCTGCGAAAGCTGGGAAAACGCCAATAACCAGGCGCAAATTGCCG -CTGCCGCAATGTTAGGGCTACCGCTACCGCTACTGCCGCCGCCGTGGTTCTGGAGCGATCAGTACAGTGATAACT -TACAGTTTATTGGCGATATGCGTGGCGATGACTGGCTTTGTCGTGGCAACCCGGAAACTCAGAAGGCGATTTGGT -TTAATCTGCAAAACGGCGTGCTTATCGGTGCGGTCACGCTGAATCAGGGGCGTGAGATTCGCCCAATTCGCAAAT -GGATCCAGAGCGGCAAAACGTTTGATGCGAAACTGCTGATAGATGAGAACATCGCGCTTAAATCACTGTAACCAG -GATAATTAGCGAATATCTCAATGCCTGGGGCGTGGCGAGGTGCAAGAGTGTGTATTACGTTTAAATCACATTATC -TTGCAAAGGGATTGGTTATGAACACACTACGTTATTTTGATTTTGGAGCTGCCCGCCCCGTTTTGTTATTAATTG -CCCGTATCGCCGTGGTCTTAATTTTCATTATTTTTGGTTTTCCCAAAATGATGGGCTTTGACGGTACGGTCCAAT -ATATGGCCTCGTTGGGCGCGCCAATGCCGATGCTGGCAGCGATTATTGCGGTAGTTATGGAAGTGCCCGCCGCGA -TATTAATCGTGCTTGGCTTTTTCACCCGTCCGCTGGCGGTGCTGTTTATTTTCTACACGCTGGGTACGGCGGTGA -TTGGTCACCATTACTGGGATATGACCGGCGATGCGGTTGGGCCAAATATGATTAATTTCTGGAAGAATGTCAGTA -TCGCTGGCGCGTTCTTGCTATTGGCAATTACCGGGCCGGGGGCAATTTCTCTCGATCGGCGTTAGGAAAGATGCC -GGATGCGGCGTGAACGCCTTATCCGGCATTTAATAAATTACAGCCACTCTACCCGCAACGACATCTCTGAAGTTG -TTGATTCCCCTGGTGCTAGCGCAATGAGATCACCCCCTTCCGGGCGATGATGATCATCCGGCGCATGGCTCATCG -GTTCCAGACAGAAGAAATCAAACGCATATCCTTTATCAAACGCAGGGTCGGAAACAAAGATGAAATAACACGGTG -CAGGTGGCGTCGTTTCCATGATGATGGCATAACCTTCCTGCGGCTGCTCGATGCGGGCCTGACCATTCCATCCGG -CAAAACCATTGTTCACCCACTGGCGCGGCAACGGCGCGGGCTGGTTAAAATCCAGTTCCTGCGGTAGCTGCTCGC -AAAACTCACCCGCCAGCCACTGCTCCCGCTCCAGCCAGTAACCGCTCGCCTGTGCCTGAATCCGCGTTTGCGGCG -ACAACGGAAAATAAGGATGCCAGCCGGTACCAAATGGCAGCGTCTCTGCCCCTTGATTGGTGACAGAGAGCGTCA -CCGTCAGCGTATCCGCCGTTAAATGAAACGCCTGACTTACCCGATAGTGATAGACACCGCTGCGATGTTCATACA -CCAGACACAAACTATCATCGCTGTGCGAGACACATTGCCACTCGCCCAGCCAGCCATCGCCGTGTAGATAGTGCG -CATCCCACTCAACATTCGGTTGCAGTTGATACTCACGCCCCTGCCAGACAAAACGATTGCCGCTCACCCGGTTTG -CAAATGGCACCAGCGGAAAACATGAGGCATCGGTTGCCACACCGCTTTTTTTACCAGGACGTAAGAGCGGCGTCG -TATCGCGCCAGAAGCCTTCGATTACGCCGCCCTGGTCAGAAACGTCCAGCTTTAGCGACCCGTGGGATAAGGTAT -AGATGGTCATCCGCTAACTCCTTAATCCGGGAAGTTAATCACAACTTTCCCGCATTTGCCGCTCGCCATCAGCGC -ATAGGCATCACCTGCCTGTTCCAGCGAGAAGCGATGGGTAATGGCGTTACGCGGCCACAGCTTCCAGTCCGTCAG -ATCATGGGCGCATTTTTCCATATGGAACAGACTGGTCACCCAGGAGCCGATAATCCGCCGTTGATGGTGCATCAG -ATCGGCGCTGACCTCGAATTCCACTTTTCCGGTTTCACCAATGTAAACCACCCGTCCCCAGTCAGCGGTGGATTG -CAGTGCCAGCAAGCGACCTGCGGCATTACCGGAACAATCGAGCGCAACATCCGCGCCACCGTGGGTGAGTTCGGC -GATAATCTGCGGCAGACCTTCGGTGGTTGCTAAATAGCCGTGATCCATCACCCCTAACTGTTTTGCCATCGCCAG -ACGTTCCGGCAGCATATCAACGCCGATGATCCGTTTTGCACCGCGACCTTTCGCCAGCATCATCGCCATCATGCC -GACTGGCCCCAGACCGACCACCAGCACGTTATCACTGCCGGAAACTTCGCCGCGCAAAATTCCTTCATACGCTGT -ACCAACGCCGCAACTGATAAACGCACCATCTTCGTAGCTCAGCGCATCCGGCAGGAGGATCAGATCTTTTTCTTC -CGCCAGCAAGTATTCGGCATGACCGCCGTCACGCTGCCAGCCGTAAGCCGCTTTTCCTTCGCCAGTACAAGAAAT -AGGAAAACCGCGACGGCAGTTCGGGCAAAAACCACAGCCAGAAATGTGATACACCAGCACGCGGTCGCCCTCTTT -AAAATGGCGGCAGCCTTGCCCCATCGCCACAATCTGCCCGCACGGTTCATGACCGTTGATAAAGCCCTGGTATAA -CGGTTTATCGGGTGCCGCCGCTGTGGCACGGTGTTGATGATAGATATAGTGGACATCGCTTCCGCAAATCCCGGA -GGATTTCATTTTGATCAGTACCTGGTTAATCCCCGGCGTCGGCACCGCAACTTCCCGCAGATCGACGGTCGAATT -TCCTGGTAAATAAGCTGCCAGCATCGTTTTCATAAATCCCTCATTAACAATACGATTAATTTTCATCCCTGCCGC -ACCCGCGCCAGGGGCGTTAAGGTTTAGCGTTTCGCTTTACTGCTTCGCTGGGTCAGCAAGATATTCGCCAGCACC -GCCACCACGATGATGACGCCGCGTACCACCTGCTGGAAAAAGGAGTTAATACCGAGCAGCACCAGACCGTTACCG -ATTAGCGTAATCACCAGCACACCAAGCAATGTACCGAACAGGGAACCGCGACCGCCGGAAAGTGCCGTACCGCCG -ACCACGACCGCGGCGATGACGTCAAACTCCAGACCGTTTGCGGCACCTGCGTTACCAGAACCGAGGCGCGCCGCC -AACAAAATGCCGGTCACCGCCGCTAATAATCCCGAAAGGGTAAAGATAAGAATGCGCACCCGACGAACGTTGATG -CCGCACAACTGCGCCGCCGTAGCATTACCGCCAACGGCAAAAACCGAGCGCCCGAAGGCGGTTTTGCGGCTGATG -AACACAAACAGCGCAAACAACACAATCATGATCAGCGCGGATACCGGCACACCGAGAAATTGTCCGCCCAGCCAG -TCCAGCACCTCGTTTTCATCAATCGGCACTGGCAGTGCGTTCGTCATAAACAGCCCCATTCCGCGCAGGGCGCTC -CACAGCCCCAGTGTGGCAACGAAACTTGGTACATTAAACACGCCGCGCAGCACCCCGGCCAGCGTTCCCATCAGC -GCGCCTAACAGCAACACCAGCAGGCACGCCACCGCCAGCGGAACTTCAAATTGCAGCAAAAATGCCAGGCACACC -GAGACAAAAGCCACCATCGGCCCAACGCTGACATCAATTTCACCGGAGATAATAATCAGCGTCATCGCCCAGGCG -GCAATCCCAATGGTGGCGGCATCGCGCAGCACGTTCATCTGGTTATTCAATGAGATAAAGCCAGGCGCGTTCAGG -GAGAAGACCAGATAAAGAATGGCAATCACCACCAGCAAACCGATCTCATTAATATGGCGACTGACAAATTGTTTG -AGCGAGACGCTCTTGCCCTGCGGCAATGGTAATGACGAAGCAGACATCTTCAGGTTCCTCGGTAAAATTCATCAG -TGCACAGACAGAATGGCGGACATCAGCTCATCCACATTGACCGGAGCGTGAAACTCCTGCGAGAACGTGCCGTGC -TGTAATAACAGGATGCGGTCACACACCAGCGGCAACTCCTCCACTTCACTGGAGATAAACACCACGCTTTTTCCT -TCGGCAGCCAGCTCACGGACAATACGGTAAATCTGCTGTTTGGCTTCGATATCGACGCCGCGCGTTGGCTCGTCG -AGCAACAAAATCTGGCTGGCAGCATAGACCCAACGACCGATCACCACTTTTTGCTGATTGCCACCAGAAAGCGTG -CCGATGGGTGTTTCGCTACTGGCGGCCTTGACCGTCATCCGCTGCATCACCTCTTCGGTCAGGCGGCGGATGGTG -GACCATTGCAGCACACCGTTGGCGCTGATTTTTTGCCGATTGGTCAGCACTGTATTTTCGTCAACGCCCAACCAG -GGAATGATCCCCGCTTCTTTGCGGTTTTCTGGCGTATAGCCAATGCCGCGTTTCAGCATGTCGCCGTAATCGGGG -CGCGTGATTTTCTCGCCGTTGATAACAATTTCGCCCTGTTCATACTCCTCCAGCCCAACAATCGCCTTCAGCAAT -TCACTGCGCCCTGCCCCCAGCAGACCAGCAATGCCGAGCACTTCGCCACGACGTAGCGTAAAACTGATATCCTCC -AGCTTGGGCTTATGGCGTAACGCACGGACTTCCAGCACGGCCTGATCCACAATTTCCTGAGGGGCTACCGGCGCA -ATATCAACGTGATCGCGCCCGAGCATCAGCGACACAATATGATGCGTGGAGGTGTTTTCGAGCATCACATCGCCC -GCCACCTGACCATCGCGCATAACGGTGGCACAGGAGGCAATGCGGCGAATTTCTTCCATCCGGTGGCTGACATAA -ATCACCGCCACGCCCAGTGCCGACATCTTTTTCACCGCGCTGATCACCAGTTCAACTTCCGCACTCGCAAGCGAA -CTGGTAGGTTCATCAAGAATGACCACGCGCGGCTCGCCCTTCATCACCCGCGCAATTTCCACCAGCTGCTTTTGC -GCCGGGCTTAGCGTTGAAACAAGTTGTTCAGGACTAACGTCAACGCCCAGCGCCTGTAAGCAACGTTGGGCATCC -TGCGCCATTTGCAGGTAATCAATCATGCCGTTGCGGCGGGGCCACTGACCGAGGCAGAGGTTTTCCGCCACTGTC -AGCCCTTCCACCAGACTTAACTCCTGATAAACCGCGCGCACCCCCAGTTCAGCGGCACGGCGAGTCAGCGTAGCT -TCGTCACCTTCCAGTCGCGTCTCGCCAATCCAGATATCACCGCTATCCGGGCGTTCGCTGCCGGTAAGCATTCGA -ATGAGAGTCGATTTGCCCGCGCCGTTTTTACCTAACAGCGCACGAACTTCGCCTTTATTGAGCGTGAAGTTAACG -TTATCCAGCGCAACGACGCCGGGATAACGCTTATTTCCTGCCACCACTTTTGCTACCGGGACTGCCTCTGTTGCC -GTGAACATAGGGACCTCTGCGAATCAGCGATTAGGGCAGACCATCAACGTGCGTTGCCAGCCACTGTTTACCGTC -TTCCGTTTTGGTATAGAGATCGATAGGCACCTGAATCACTTTTTCACCGTCGGCTTGTTTATTGATAACCTTCAA -TGTTTGCGCGAAAACAGCATTGCCCATTTTCTTACCGGAAATATCCACTACCGCTTTCAGCACCTGATTGTTTTC -CAGCTCCTGAGCAATTTCGGTTGTCATATCCGAACCGAAAACAGCAATTTTTCCGGCCTGATTTTGATTACGTAC -CGCTTTTACCGCGCCGAGTGTCGCACCGCCCGATTCCCCCATAATGGCGTTGAGATCCGGCGTGGAGATAATTAG -TTTTTCACCAACGGAAATCGCTTTATCTAAAACAGTCCCTTCCTGATTAGCGACAATTTGCGCGCCGGGAACGCG -GGATTTTAAAACTTCTTCAAATCCTTTACGTCGCTGCACACAAACTTCAAAGGCTTCGCAATTGATGACGGCAAT -TTTCGGCTGGTCAATTTTATTGGCAATAAAATAATCAGCGGCAGCGTTACCCAGTTTTTTACCAAATTCCAGCGG -ATCGCCGACCAGATACGCCGAGACATATTTATCGACCCCCTTTTGATTAATACAGGTGTTGTAGCAAATCACCGG -AATGCCCGCTTCACTGGCGCGACGAACGGTACGGCTACTGCCATTTTCAGACACTGCCGATAAAATAATGGCATC -GACATTACGCGCCACGAGGGTATCAACAAAGGTACTTTCTTTCGAAATATCACCCTGGGCGTTAGTTTCTATTAA -CTGAACTTGTACTGAGGAATCTTTTGCCGCATCCTGAACGCCCTGACGCACTCCAGCGTAGTATCCCTGAGTATC -AAGGTATATTGCGCCAATGGTCATTTCTTTTTCCGCAGCCCTGGCAAATAGTGCGCTACCTAATAGCGTAGCCAT -TAATAATAGATTACGGGTTGTTCTCATTTTTGTAGGCATAGAGCCTCCTGTAGGGTTTTTATTAACAACGGCTTA -TTCTAATTATTTTGTGATGAGCGGCAGCGCGTGCCGCTCAAATATTACAGTTAATAGGGTTTAGTGAACGCGGTT -AAAAATAAAAGGCATCACGGTGGTGAATAATGCCGCTTTCGGCCAAGCCGGATTAATCGCCGTCAATTCAGCGCG -AGCAGACTCATATTGCGCAACCTCCCCGAGTCCCGCGGACGCCAGCATCGCCACCATCAGGCATTTTTCTTTATG -CTGCTGTTGTAAATCGCCATACAGCGACAACAAGTCAGGTTGCGAGACGGCAAAGAAATCCGCTTCGATACTGGT -TTTCGCCATCTCTTGCGCCCACTGTTTCATTTCACTAAACAGTTGCTGTGCGGTTTGTTGTTCGCCCAGCAGTCG -CAGCGCCATCCCTTGCCAGAAGAGATAATCAACCGGCTGATCGTTGTAATAACTGTGAATGTTAATAGTGCGATC -GCCGGTCGCCGCCAGACGTAAACAACGCGTCGCTTCAGTTTCATCGCCCTGCGCGTTGGCGCATATCGCCTGCCA -GAACCAGATGTCGTTATCAGTTTGCCCCGGTAAACGGCCTTCGCTTAAATTCTCCGGATAATGCAGCGCGGCATG -AAGCAGTTCGCAGGCCTGCTGCGGCTGTCTGGCATCAAGATGCTGCCAGGCGCGTAATAACTGGTTGAGGATAAA -CTGACTGGTGACCTTCCCTTCCCCGCCTTCCCACGGGTGGAATTTGCGCGTGGCGAGAATGTCCGCCGCTTTGTC -TGCCTGACCCGTGAGATGCCACAAATTGAGCAGTTCTGCGGTCATGTCGTCGCGTTTCAGCGCAATTTCCAGATT -ATTTTCCAGACGCGCCAGTCGTTTCTCCGGTGTGGCTCCACTTAACTTATCCAGCAAATCCCGTTCGAAAAGCAG -ACGTGCATCCTGCGGCGCAAGCTGATAAGCATTATCAAGATAACGCGCGGCCAGCTCATAATCGTGTTGCTTATT -CCACGCATGGATCGCTAACCCGCGCCAGCCGTCGGCAAACTCCGGCGACATCTCTACGCAACGTTGCCAAAAGGC -AATGGCTTTGTTGTAGCTACGTTTGTTGTAGTAGAAGCAAGCTAGTAAATGGCGAGCAAACCAGCACTCTTCAAT -ACTCTCCAGCGCCGCCACTTCTTCCAGCGTATTCGGGAAACGGACAAACTGCGGGAAGACATCAATGGCTTTTGC -GACCAGTTCGCCACGTTCGGCTTTCGGCAGCAAGCTGGCTTGCAGGTAAAGCGGCAGCGTGCGCTGGCAGTCCAG -TGCGTTCAGCATCTCTGCCGCCAGGGTGGGCATTCCCCAGTTAATCAGTTGCCCGGCGGTCATCAGGGCGTTAAC -GTCGCGTCCCTGACACAGACCGCGCCACTGCGCGAGAGCTGATTCGCTACGACCATCGAACCAGTTCAGCCACCA -CAGAGTGGCGTTCAGCGGATAATCGCGCAGCAGTTTCTCGCGCTGCACACGCGCGTTGTCCTGACGACCACTTAA -CACCAGCAGCAGATTATGCAGGCAAAGCACTTCCTGATTGGTTGGGCAGGCGCGAAGACTTTGTTGGCAAAAATC -CAGACCAGCGTCGAAGTTACCATTACGCGCCGCCAGTCGTGCCAGGCCATAATAGCCACCGGCTTTGCTGTTGCC -GCTCCAGACCGCACGCCAGAAATCCTCTTCGGCTTGTTGATATTGTCCCTGACGTTCGTAAGCACTGGCGCGAAT -CAAACTCGCCTGTCCGCACTGCGGATTTTTGTTCAGCGCATGTGCGCGTTTCAGAGCCTGAGTGGCATACGCCAC -CGCTTGCGGGAAATCTGCGCGGTTATATTCCAGCATCGCCAGCGCCAGGTTACAGCGATAATCCAGCGGGTCCAG -CGCCACGCCGCGCAGGTAGTAATCGAACGGTGAACGGCTGGCGTGATGATATTGCTCCAGATGCTGACCGATAAA -CCAGGCTTCATCTGTACTGGTAATGTCTTGTGCTGCCAGTGGCGCTTTGGCGACGTCCGGTAACGGCAACGCTTG -CGGCTGATGTTCCTGATAACTCAGTACAATATTGCCGTCGGCATCGGAGAGCTCAATGGTCAGCCTTTCAGGATT -GATACCGTGCAACACGCCCTGGATGGCGGTCGCAGGCATCAGTGCCACGGCATCATCAAGTAACGCGTTGCATTT -ACCGATTTCGCGGATCGCCAGGCGGTATCCGTTCAACGGAGAGATGGCATACAGCCCCCACTCAATCCCCCGCTT -ACTACGCTGGAGTTTTATCACCGCATCGCGGGAGGCATTTTGCACCATGCCCAAAGAATGATAAGGCAGGAAATA -CTGCTCAAAACGCTTCTCTTCGTAAGCATCAAGCCAGGTAAAATCGGGCTGGTTATCGGCAAAAATACCGGTCAT -CAGTTCGATATACGGGCCGTTATTGTCGGTCAGACTCTTATCCCACGCCTGGCCAAATTCACTGTGTCCCCAACT -CCACTGTTTTTTACCTGGCGCAATATGGTGGTTGGCAACGTGCAGCAAACCGCCATCTTCATCGTGACACCACGC -GCCGACAAAATCGTACTGCGATTTTTCGGCCATATATGAGGTTGGAACAGGCACATTTTTATAGCGAGAAATGTC -CACTCCAGCGGAGTAGTCCACTTTGTAGTAAGTGCCGGTAGCGATGGGGAAAGCGGAGACGGCCCGTTTGCCGTG -ATCAAACACCGCCGTTACATCCGGCGGGAAGACGCTCTGATGCCCTTCCCCCCCTTTCACTGCCGGGTTGGCCCA -CCACAAGAAATGACGCGGCGTGGCGTTCCCGTTATAGACGCGGCTGGCGATTTCCAGCGCCGCCCGGTCAGGGCG -CAGGGTGAAACCTGTCATCACCTGTAAACCATGCATCGGCTCCGTTTCGCCTACCCACACCGTCTGTGCACCGTC -TTCATGGGCTTCGAGGGTGAAATCAACGGGCATAAAGGTGGTCGGGCGATGATGTTGCGGCCAGTTAAACTCAAT -CCCACCGGAAATCCACGGCCCCAGCAGCCCCACCAGCGCAGGTTTAATGACTTCATTGTGATAAACAAAATCGCG -CTGTTTCACTTTATCCCACGCGCGATGCACCCGACCGCCCAGTTCCGGCAGGATCATCACTTTGATGTAGTCGTT -TTCCAGCCACACCGCCTGCCAGGATTTCAGGGTTTTCTGCTCGCTCAGCGTATCGGTCACGCCGTAGGGATAAAC -CGCGCCGGACGATCCCTGATAAACGCGATTTTCCAGGAACATGGGATGTATATCCTGCGGCCCGGTTTCATAGGT -CGGGATCTCAACGCGCTCTTGCCACACTTTTACTGGAGTCATGGTGCCCTCAATATTAACAAGACATACTGAATT -AAAAGATTTGTGGCAGTGTATTGAACAATCTGGCAATGTTTTCGCGGAATAATCACGCAATTAACTAAACAAGGT -TTAGTGAAGATGAGAGCCTGCATTAATAATCAACAGATTCGCCACCATAACAAATGCGTGATTCTGGAACTGCTG -TACCGGCAAAAGCGCGCCAATAAATCAACGCTGGCCCGGCTGGCGCAAATTTCGATTCCGGCAGTCAGTAATATT -TTGCAGGAACTGGAAAGCGAAAAACGGGTGGTGAATATTGACGATGAAAGCCAGACGCGCGGGCATAGTAGCGGT -ACATGGCTGATTGCGCCGGAAGGTGACTGGACGCTGTGCCTGAACGTGACGCCCACCAGTATTGAGTGTCAGGTT -GCTAATGCTTGTTTAAGTCCGAAAGGTGAATTTGAGTATTTACAGATTGATGCACCGACGCCGCAGGCGCTGCTG -TCCGAAATCGAAAAATGCTGGCATCGCCACCGTAAATTGTGGCCGGACCATACCATCAACCTGGCGTTGGCAATC -CACGGTCAGGTTGATCCTGTGACCGGCGTGTCGCAAACCATGCCGCAAGCGCCGTGGACAACGCCGGTGGAGGTG -AAATATCTGCTGGAAGAGAAGCTCGGCATTCGGGTGATGGTCGATAATGACTGCGTGATGCTGGCGCTGGCGGAG -AAATGGCAAAATAATTCGCAGGAACGGGATTTCTGCGTGATCAACGTTGATTACGGCATTGGCTCGTCGTTCGTG -ATTAACGAGCAAATTTATCGCGGCAGTTTGTATGGTAGCGGACAGATTGGTCACACCATCGTTAATCCGGATGGC -GTCGTCTGCGACTGTGGACGTTATGGCTGCCTGGAAACTGTCGCCTCGTTAAGCGCATTAAAAAAACAGGCGCGG -GTATGGCTAAAATCACAACCGGTTAGTACTCAACTTGATCCTGAAAAACTGACTACAGCGCAGTTAATCGCTGCC -TGGCAAAGTGGAGAACCGTGGATCACCAGCTGGGTTGATCGCTCTGCCAATGCCATTGGTTTGAGTCTGTATAAC -TTCCTCAACATCCTCAATATTAATCAGATTTGGTTGTACGGTCGCAGTTGTGCCTTTGGTGAGAACTGGCTTAAT -ACTATTATTCGCCAGACAGGATTTAACCCGTTCGACCGCGACGAAGGACCGAGCGTGAAAGCGACGCAAATTGGC -TTTGGGCAATTAAGCCGCGCACAACAGGTGCTGGGAATTGGCTATTTGTATGTTGAGGCGCAGTTACGACAGATT -TGATGGCGCGATAACGTAGAAAGGCTTCCCGAAGGAAGCCTTGATGATCATAAACGAAAAATTGCCTGATGCGCT -ACGCTTATCAGGCCTACACGGAGATTGCAATATATTGAATTTGCAAAGTTTTGTAGGCCGGATAAGGCGTTCACG -CCGCATCCGGCATGAACAACGAGCACATTGACAGCAAATCACCGTTTCGCTTATGCGTAAACCGGGTAACGTGCG -CAGATGTCGAGAACTTTACCTTTGATGCGCTCGATAACGGCTTCATCATTGATGCTGTCCAGCACGTCACACATC -CAGCCAGCCAGTTCTTTCGCTTCGGCTTCTTTAAAGCCGCGACGGGTAATCGCCGGAGTACCTACACGAATACCG -GAGGTCACAAACGGGCTCTTCGGATCGTTCGGTACGCTGTTTTTGTTGACGGTGATGTTAGCACGGCCCAGAGCG -GCGTCTGCTTCTTTACCGGTCAGGTTTTTATCAACCAGATCAACCAGGAACAGGTGGTTATCAGTGCCGCCGGAA -ACCACTTTGTAGCCGCGCTCGAGGAACACTTCTACCATCGCTTTAGCGTTTTTAGCGACCTGCTGCTGGTAAGTT -TTGAACTCAGGCTCCATCGCTTCTTTCAGAGCAACCGCTTTACCGGCGATTACGTGCATCAACGGACCGCCCTGA -CCACCAGGGAAAACGGCAGAGTTCAGTTTTTTGTACAGCTCTTCGCTACCACCTTTCGCCAGGATCAGGCCGCCG -CGCGGACCCGCCAGGGTTTTGTGAGTGGTGGTAGTAACAACGTGAGCATGAGGAACCGGGTTCGGGTAGACGCCA -GCAGCAACCAGGCCCGCAACGTGCGCCATATCAACGAACAGGTAAGCACCGATGCTGTCAGCGATTTCACGCATT -TTCGCCCAGTCCACCACGCCGGAATATGCAGAGAAACCACCGATAATCATTTTCGGCTTGTGTTCTTTGGCTTGT -TTTTCCAGATCGGCGTAGTCGATATGACCGGTAGCATCGATACCGTAAGGAACGATGTTGTACAGTTTACCGGAG -AAGTTAACCGGAGAACCGTGAGTCAGGTGACCGCCATGCGCCAGGTTCATACCCAGAACGGTATCACCTGGTTCC -AGCAGCGCGGTGTAGACCGCAAAGTTAGCCTGGGAGCCGGAGTGCGGCTGGACGTTAGCGTAGTCAGCGCCGAAC -AGTTCTTTCGCACGATCGATCGCCAGTTGTTCAACGATATCAACATACTCGCAACCGCCGTAGTAGCGTTTGCCC -GGATAACCTTCAGCATATTTGTTGGTCAGCTGAGAACCCTGCGCCTGCATTACGCGCGGGCTGGTGTAGTTTTCG -GAGGCGATCAGTTCGATGTGCTCTTCCTGACGTACTTTTTCCTGCTCCATAGCCTGCCACAGTTCGGCATCATAA -TCGGCAATGTTCATTTCACGCTTTAACATCCGCATCTCCTGACTCAGCTAACAATAAAATTTTTGGCCTTTATAG -GCGGTCCTGTTGGACAACGGCGAACAGTATAACCGAATCATTGTGCGATAACAGGTCTTGACAAAGGAATTTACG -CAAACGATTACCTTCAGGCTACGCAAGGCTTTGGAGAATAAAGAGCTTGCAACCGGAAACGGATTTCTTTTCAGG -TTTGTGATGCAAATTTTTCACTTCATCACATTCTTTCTGAAAAACACCAAAGAACCATTTACATTGCAGGGCTAT -TTTTTATAAGATGCATTTGAGATACATCAATTAAGATGCAAAAAAAGGAAGACCATATGCTTGACGCTCAAACCA -TCGCTACAGTAAAAGCCACCATCCCTTTACTGGTGGAAACGGGGCCAAAGTTAACCGCCCATTTCTACGACCGTA -TGTTTACTCATAACCCAGAACTCAAAGAAATTTTTAACATGAGTAACCAGCGTAATGGCGATCAACGTGAAGCCC -TGTTTAACGCTATTGCCGCCTACGCCAGTAATATTGAAAACCTGCCTGCGCTGCTGCCAGCGGTAGAAAAAATCG -CGCAGAAGCACACCAGCTTCCAGATCAAACCGGAACAGTACAACATCGTCGGTGAACACCTGTTGGCAACGCTGG -ACGAAATGTTCAGCCCGGGGCAGGAAGTGCTGGACGCGTGGGGTAAAGCCTATGGTGTACTGGCTAATGTATTTA -TCAATCGCGAGGCGGAAATCTATAACGAAAACGCCAGCAAAGCCGGTGGTTGGGAAGGTACTCGCGATTTCCGCA -TTGTGGCTAAAACACCGCGCAGCGCGCTTATCACCAGCTTCGAACTGGAGCCGGTCGACGGTGGCGCAGTGGCAG -AATACCGTCCGGGGCAATATCTCGGCGTCTGGCTGAAGCCGGAAGGTTTCCCACATCAGGAAATTCGTCAGTACT -CTTTGACTCGCAAACCGGATGGCAAAGGCTATCGTATTGCGGTGAAACGCGAAGAGGGTGGGCAGGTATCCAACT -GGTTGCACAATCACGCCAATGTTGGCGATGTCGTGAAACTGGTCGCTCCGGCAGGTGATTTCTTTATGGCTGTCG -CAGATGACACACCAGTGACGTTAATCTCTGCCGGTGTTGGTCAAACGCCAATGCTGGCAATGCTCGACACGCTGG -CAAAAGCAGGCCACACAGCACAAGTGAACTGGTTCCATGCGGCAGAAAATGGCGATGTTCACGCCTTTGCCGATG -AAGTTAAGGAACTGGGGCAGTCACTGCCGCGCTTTACCGCGCACACCTGGTATCGTCAGCCGAGCGAAGCCGATC -GCGCTAAAGGTCAGTTTGATAGCGAAGGTCTGATGGATTTGAGCAAACTGGAAGGTGCGTTCAGCGATCCGACAA -TGCAGTTCTATCTCTGCGGCCCGGTTGGCTTCATGCAGTTTACCGCGAAACAGTTAGTGGATCTGGGCGTGAAGC -AGGAAAACATTCATTACGAATGCTTTGGCCCGCATAAGGTGCTGTAATTTGATGTTGCCGGATGGAAACATCCGG -CAACCCTTGACGCGGTTTAAATTGCCGCGTCGTCCTCTTCACCGGTACGGATGCGAATGACCCGTGCCACGTCAA -AGACGAAGATTTTACCGTCACCGATTTTGCCGGTTTGCGCCGTGCGAATAATGGTATCGACACAGGTATCGACAA -TGTCGTCCGGTACGACAATCTCAATTTTCACTTTCGGCAGAAAATCCACCATATACTCCGCGCCGCGGTACAGCT -CGGTATGGCCTTTCTGGCGACCAAAGCCTTTCACTTCGGTCACCGTCATGCCGGTAATACCGACTTCGGCCAGTG -CTTCGCGGACATCGTCCAGCTTGAAGGGTTTTATAATCGCATCAATCTTTTTCATGCTATTCCTTGAAAAGGTCG -CCTGTCTTTTGATCTGCTAAACGTAACACATAACGCCAATTCATTCCTTGAAATCGTTTGCATCCAGCTCGTGTC -GGGAAAGCAGTTTATAAAATTCTGTCCGGTTGCGCCCCGCCATTCTCGCCGCGTGGGTGACGTTGCCTTTGGTGA -TTTGCAGCAGCTTACGCAAATAGTTGAGTTCAAACTGATTACGTGCCTCAACAAAGGTTGGCAGCGCCGTATTTT -CACCCTCCAGCGCCTGCTCCACCAGCGCATCACTAATCACCGGAGATGAGGTCAGCGCCACGCACTGTTCAATCA -CGTTGACCAACTGGCGCACATTACCCGGCCAGCTCGCGGTCATCAGGCGTTTCATCGCATCGGTAGAGAACGCGC -GGACAAACGGTTTATGTCGCTCTGCCGCCTGGCGCAACAGGTGATTTGCCAGTAGCGGAATGTCTTCTGTGCGCT -CCGCCAGTGCCGGAATTTTCAGGCTGACAACGTTGAGGCGGTAATAGAGATCTTCGCGGAATTCCCCGCGCGCCA -TCGCTTTTGGCAGATCACGGTGAGTGGCAGAAATAATCCGCACATTGATATCAATATCGCGGTTACTGCCCAGCG -GGCGCACTTTACGCTCCTGCAACACGCGCAGCAGTTTGACCTGTAACGGCGCAGGCATATCGCCAATTTCATCGA -GAAATAGCGTTCCGCCTTCCGCCGCCTGGAATAAACCTTCGCGATTGCTGACAGCGCCAGTAAACGCGCCACGCG -CATGACCAAACAGCTCCGACTCCAGCAATTGCTCGGGCAATGCGCCACAGTTAATAGCAATAAATGGTTTGCTGT -TGCGCGGGCTGGCGTTGTGGATAGCCTGGGCGAAAATCTCTTTCCCGGTGCCGCTCTGACCGTTAATCAAAACGC -TGACGTCTGATTGCGCCACCAGCCGCGCCTGTTCCAGCAAACGCAGCATCAGCGGGCTGCGGGTGACAATTGCCT -CGCGCCAGCGTTCATCGGTGGCTGGCGCGGATTGCTCCAGCGCATCGTCAATTGCCTGATATAGCGCGTCTTTGT -CGACAGGCTTGGTGAGGAAACTAAAAACGCCCTGCTGTGTTGCAGCAACGGCATCGGGAATAGAACCATGCGCGG -TAAGAATAATTACCGGCATTCCCGGCTGCACTTTCTGGATTTCAGCAAACAGCTGCATACCGTCCATTTCATCCA -TCCGCAGGTCGCTGATGACTAAATCTACTTTTTCGCGATTCAGTACCCGTAATCCTTCAGCGCCACTTTCCGCCG -TGACCACACTGTAGCCTTCGCTGGTCAGGCGCAGGCCAAGCAGTTTCAGCAATCCCGGATCGTCATCGACCAATA -ATAAATGCGCAGGTTTATGGCTCATCAGGAGTGACCTCATGGGTGGATGGCGCGGGCTTTTCACTCTCGTGCGGC -GTATCCGGCGAGAAATTTCCAGCCGGTTTGCGGGTCGAGAGCTGGCGTTCAATATCGGTCAGGTTTTCCAGCTTG -CGGGTGGTGAGTTCCAGTTGCTGCTGTAGAACGTGATGTTGCTGGCGCAATGTATCCAGCTCGCTGTCGCTGGAC -TGCTGGAGTTTACTGTAACGTTGGCGCTCTTCCGCCAGTTGCAGTTGCAGCGCCTGACCATCGCGCCAGAGTTGA -TACAGTGGGCGAACCTGTGCCGGGATCTCGGTACTTAACGCTTCAATACGCGCGACCAGCTGGCGGCGCTCATAC -GGCGTAATTTTGGCGTCGGCGAGCAAAATCCCTTGTTTAAAGGTATTTTGCCAGCTGCCGTCGTCATATTGGCGA -GCTTGCTGACGCGACTGCGCAGGCATTAAACGATCAGCACAATCCATCGCCCGCAGCCAGTAAAGCGGATTGGTT -TCGGTTGATTTACCTTGCAGCGCCCAGATGTCGCTACATTCAGTAGAAAGATAGTCAGCCAGTTGATAAACCGGA -ATTTTTTCTTCTGCTGGCGTATCAATGGCTGGCTTATTGTGATTCTGCACGCAACCCAGCAATGCCAGACATGGC -AGCCCTGCCAGCCACAGCCGTCGGGGCAATAATCGTTGAAAAATGTGTCGCATATTCACCAGACTTAAAGCCTAT -CCCAGTGGGCGTAATTGTTGCAGACAGTCTGGACATGGACAGCGCGGAGAAACCGGAGCGTACATATCGTACGTG -AAGATTTCGAGCACTGCCCGGGGCCGAACTGACAAATAAAATAGCCTGATAGGATAGGCTGTTAGCATTATTTCG -TGTTTTTCGACGACGGTAATTCAATGCGGAAACAAACGTCTTGCCCGCTCTCGTCGACCAGATACAGTTCCCCTT -GCATACGGCGAATACAATCCCTGGCAATGCTTAATCCCAGACCGCTGCCCTTCACCGCCCCTTTTCGCTGGTGGC -TTCCCTGAAAAAAGGGTTCGAAGATCATGGCGCGTTCCTCTTGCGGAATGGGCGTGCCTGTATTGATGACATCAA -TATAAACCCGCGCACCATGTAAACTGCTGCGAAGGCAAATGTTACCGGATTCAGCCCCGTAGTGCACCGCATTGG -AGTAAAGATTATCCAGTACGCTCATCAGCAGCATTGGCTCCGCCAGGCAAGCTGTTGCTTTGAGATCGACGTCGG -TATGCATCATTTTAGCCCGTGCGGGCAGGCTATGAGCAGAAACCACTGTCTCCACCAGCGGTGCTAACTCAACAT -TCTCCAGTTCCACCGCACTGTCCGCCTGTTTACGGTTGTAATCAAGCAGTTGTTCGATCAGTTTTTGCAAATTGC -GGCTGCTGCTATCAAGAATGCTCACCACCTCTTTTTGCTCTGGCGTAAGCGGCCCGACAACCTGGTCAGCCAGTA -ATTCAGTGCCCTCGCGCATACTCGCCAGTGGCGTTTTTAATTCATGAGATAAATGTCTTAAAAATTGATGGCGTT -GGGATTCCAGCCATGACAGGCGCTCACTTAACCAAAGAATACGTTGCCCAACCGAGCGTAACTCGCTCGGTCCAC -TGAACGAGACGCTATTGCCCAGAGAACGCCCTTCCCCCAGACGGTTGATCATGCGCTCGATATTTTTCACCGGCC -CGATAATCATCCGCGTGAAAAGCAGTACCATTACCAGACTCACCAGAAATAGCACCAGCGATTGCCAACCAAAAT -ATTGCCCACGTTCGGCGATTTCACGCTGAAGCTGCTGCCCACGAGAGAACACCACTGTGCGCGTGGCCTGTACCA -TTTCGGTATTGGCACTGGCAAAGGCTTCAAGACGTGCGGCGGCGGCAGCATCGGGACCGCTGTTGTTACACTGAA -GTTGAGCCAGATTGTGCAAATCCTGACGTAATGCCTGGTAGAGTTTATCGTCCGGCAGCACGCCTGCGTGGGCAT -CGAGCATTTCGCTGTAACGCTTGCGCTGGCTTTGATAAACCTTCGCCAGGGTTGGGTCGTCCAGCACGCAATACT -GACGGTAACTACGCTCCATCTCCAGCGCCGCGTTGGTCATCGCTTCACTGCGCCGGGCATCAATAAGCGTAGTGC -GGTTAACCAGCGCCGCCTGATCGCTAAGCGCATTCAGGCTTTGCCAGGCTTGCCATGCCAGCACCAACAGGGGCA -GCAGAATCAGCAAAAATGCCAGCATTACCAGTTGTCGTAATGAGCGGGGAAAAACGGGCCAGCGTTTCAAGGTGT -TACTCTCGTCAGACGCGAATAGCCTGATGCTAACCGAGGGGAAGTTCAGATACAACAAAGCCGGGAATTACCCGG -CTTTGTTATGGAATAAGGCGGTGCCTAACTCGACGTTTCGCCCGATGGTTGATATAGCTACGCTGATATCAGAAG -TTGGACGGCAGGCACCTTGTTGTGCGTCATTCGTATTTTATGTAGCACGTCCCGAAGGGGCTGACATAAGTCGGT -GAATGAGCCACTGGTTACTATTATGCAGTAACTGTGCCAATAAAGAAAATAGTTTGGTAACGTACTGATTATACG -TTGCTTTGAGGGGTTTATGTCTCCTCCGCTGTTTGAATGTAAATCAGCCACTGTGTCGCTAAAAAGAGACAACTT -AAGATAAACTTATTAGATAATATTAAAATCAATGAGTTAAGTGTCGCCAGAAAGCGACACGGCAAACCACCCATT -GTCGTGATTTACAGACACAAAAAAGCTCCCGGAGTTGGGAGCTTATGATAGTGGTTGGTGCTTAATGCCGCATCC -GGGCTGCAAAACCAATGGGCTGACGACTTACCCCAACTGCTTACGCGCATTGCGGAAAATGCGCATCCATGGGCC -ATCCTCGCCCCAGTTTTCCGGATGCCAGGAGTTGCTGACAGTACGGAAAACACGTTCCGGGTGCGGCATCATAAT -GGTGACTCGACCACTTTCAGTCGTGACTGCCGTAATACCGTTCGGTGAACCGTTCGGGTTAGCCGGGTAGGTTTC -AGTGACTTTGCCGAAGTTATCGACATAGCGCAGTGCCACCAGCCCTTTGCTTTCCAGTGCCGCCAGATGCGCCGC -ATCACGCACTTCCACGCGCCCTTCACCATGAGAGACAGCAATCGGCATTTGCGAGCCCACCATCCCCTGCAACAG -CAGAGACGGGCTTTGGGTTACTTCAACCAGGCTGAAACGCGCTTCAAAGCGATCGGAGGTATTGCGCACAAAACG -TGGCCACAACTCACTACCTGGGATCAGTTCACGCAGATTAGACATCATCTGGCAACCGTTACATACCCCCAGCGC -CAGCGTTTGCGGACGGTGGAAGAAGGTTGCAAACTCATCGCGTACACGGTCATTGAACAGGATTGACTTCGCCCA -ACCTTCACCGGCACCCAGCACATCACCGTAGGAGAAACCACCGCACGCGACCAGGGCGTGGAAATCTTCCAGGCC -CGTGCGTCCGGTCAGCAGGTCACTCATATGCACGTCGATAGCATCAAAGCCTGCACGGTGGAAAGCTGCCGCCAT -TTCAACATGCGAGTTCACGCCCTGCTCACGCAGTACGGCAACTTTCGGACGTGCGCCAGTGGCAATATACGGTGC -TGCCACATCTTCGTTGATATCGAACGACAGTTTTACATTCAGGCCCGGATCGGCGTCGTTAGATTTCGCCTGATG -CTCCTGATCGGCACACTCCGGGTTGTCACGCAGGCGCTGCATCTGCCAGGTAGTTTCTGCCCACCAGACACGCAA -CGTGGTGCGGCTTTCGCTGAATACAGTCTGCCCGTTGGCGGTAATCACAAAACGGTCACCGGAAACCGCCTGCCC -TACATAATGGACACAATCAGCAAGCCCATGCTGTGCCAGTACGGACTCGACCGCTTCACGGTCAGCGGCACGAAC -CTGAATCACCGCACCCAGTTCTTCGTTAAACAACGCCGCCAGGCGATCGTCACCCAGAGTGGCGATATCCGCGTC -AATGCCACAATGACCAGCAAAGGCCATTTCCGCCAGCGTTACCAGCAGGCCGCCATCAGAGCGGTCGTGATACGC -CAGCAGCTTACGCTGTGCAACCAGCGCCTGAATCGCGTCATAGAAGCCTTTCAGTTGCGCGACATCGCGTACATC -TGCCGGTTTGTCGCCAAGCTGACGATAAACCTGCGCCAGCGCCGTTGCGCCCAGCGCGTTATTGCCTTTGCCCAA -ATCAATCAGCAGCAGTGCGTTATCTTCGGTAGAAAGCTGCGGCGTGATGGTGTGACGTACATCTTCCACGCGGGC -AAATGCAGAAATCACCAGCGACAGCGGCGACGTCATTTCGCGCTCTTCGTTACCTTCCTGCCAGCGGGTTTTCAT -CGACATGGAGTCTTTACCCACCGGGATCGTCAGGCCCAGCGCCGGACAAAGCTCTTCGCCCACGGCTTTAACGGC -TTCATACAGGCCCGCATCTTCACCAGGGTGGCCTGCCGCCGCCATCCAGTTGGCGGAAAGTTTGATGCGTTTGAT -ATCGCCAATTTGTGTTGCGGCGATGTTGGTTAACGCTTCACCGACCGCCAGACGGGCAGAGGCGGCGAAATCCAG -CAGCGCAACCGGCGCACGCTCGCCAATCGCCATCGCTTCACCGTAGTAGCTGTCGAGGCTGGCGGTAGTGACCGC -GCAGTTAGCGACCGGCACCTGCCACGGCCCCACCATCTGATCGCGCGCTACCATGCCGGTTACGCTGCGGTCGCC -AATGGTCACCAGGAAGGTTTTTTCCGCCACAGTCGGCAGATGCAGCACACGTTTCACCGCGTCTGCAATGGTGAT -CCCTTCACGGGCCAGCGCGTCGCCTTTCGCTTTCAGCGTTTGTACATCGCGGGTCATCTTCGGCGTTTTACCAAG -CAGGACGTCCAGCGGCAGATCGATCGGCTGATTATCAAAATGACGATCGTGCAGAGAAAGATGCAGTTCTTCGGT -CGCTTCACCAATCACCGCGTAGGGTGCGCGCTCACGCTTACACAGTTCGTCAAACAGCGGTAATTGATCGGCAGC -AACCGCCAGCACGTAGCGTTCCTGGGATTCGTTACACCAGATTTCCAGCGGGCTCATGCCCGGTTCGTCGCTTAG -AATCTCGCGCAGTTCAAATTTACCGCCGCGCCCGCCGTCGCTCACCAGTTCCGGCATGGCGTTAGAAAGACCGCC -AGCGCCAACGTCGTGGATAAACAGGATTGGGTTGGCATCACCAAGCTGCCAGCAACGGTCGATCACTTCCTGGCA -GCGACGCTCCATCTCCGGGTTGTCGCGCTGTACGGAAGCAAAGTCGAGGTCGGCATCAGACTGACCAGACGCCAT -AGAAGACGCTGCACCACCGCCAAGACCGATGTTCATTGCCGGGCCGCCGAGAACGACCAGCTTCGCACCGACGTT -GATCTCGCCTTTTTGTACGTGATCGGCGCGAATGTTGCCGATCCCGCCCGCCAGCATGATCGGTTTGTGATAACC -GCGCAGCTCTTCGCCGTTGTGGCTGTTCACTTTTTCTTCATAAGTACGGAAGTAGCCGTTCAGTGCCGGACGACC -AAATTCGTTGTTAAACGCCGCGCCGCCCAGCGGGCCTTCGGTCATGATGTCCAGCGCGGTGACAATGCGCTCAGG -CTTACCGAAATCTTCTTCCCACGGCTGTTCGAAGCCAGGAATTCGCAGGTTGGAAACGGAGAAACCAACCAGACC -CGCTTTCGGCTTTGCGCCGCGCCCGGTGGCACCTTCATCGCGGATTTCACCGCCGGAACCGGTCGCCGCGCCCGG -CCACGGAGAAATCGCCGTCGGGTGGTTGTGAGTTTCGACTTTCATCAGAATATGCGCCGGTTCCTGATGGAAATC -GTAGCGGCCCGTTTCGTGGTCAGCAAAGTAGCGGCCCACTTCAGAACCTTCCATTACGGCGGCGTTATCTTTATA -AGCAGAGAGAACGTGATCTGGCGTGGTTTCGAAAGTATTTTTGATCATCTTGAACAGCGATTTCGGCTGCTGTTC -ACCATCGATAACCCAGTCGGCGTTAAAAATTTTGTGGCGGCAGTGCTCGGAGTTCGCCTGGGCAAACATATACAG -TTCGATGTCGTTCGGGTTACGACCAAGCTTTGTGAAAGCATCCTGCAGATAGTCAATTTCATCTTCCGCCAGAGC -CAAGCCAAGACGCAGGTTAGCGTCGATCAGCGCCTGACGGCCCTGCCCCAGCAAATCAACGCTGGTAACCGGAGT -CGGTTGATGGTGGGCAAACAACTGCTCTGCATCATCTAAAGCAAAAAAGACCGTTTCCATCATGCGGTCGTGCAG -TTCAGCGGTAACCTGCTGCCATTGTTCATTGGTCAGCGTACCGGCTTCTATATAGTAAGCAACGCCGCGCTCAAG -GCGGTTTACCTGTTGTAGCCCGCAGTTATGGGCAATATCGGTCGCTTTCGAAGACCAGGGAGAGATGGTGCCAGG -ACGCGGGGTCACCAGCAGGAGTTTGCCTTGCGGGGCGTGGCTGGCGAGTGCCGGGCCATATTTCAGCAGGCGTTC -AAGTTGTGCGTGCTCATCATCGTTTAACGGCGCATTGAGGTCAGCAAAATGGACATACTCGGCGTAAATATTGTG -AACCGGGAGCCTGGCAGCCTGAAAACGTGCCAGCAGTTTGTTGATTCGGAATGCCGACAGTGCAGGCGAACCACG -CAGAATTTCCATCATAAGTCTCTCGTCTTCTAAGCTTTCGGTGTACCCAAGGGGGGGAAACGGGCGTCATTATAA -AGAATCTGATGCGCTGACGAAACCGTTTGCGTGGAAATAAAATCACCATCGTGAATTAGCAACGCGTGCCGCCAA -TGGCTGTAATAAGTTGCCATCTGGCGCAGGTTTACGCAAAATGCCGCTCATTTATGAGTAAACCTTTCACTATTA -TTACGTTTTTTCAAGCTGGGACGCGCACGACACAGAGAATTAACTAATTGAAAAAATTAAAGATTAATTATCTGT -TCATCGGCATTCTGGCACTGCTGCTCGCGGTCGCTCTCTGGCCATCCATTCCCTGGTTTGGTAAAGCCGACAACC -GTATCGCCGCCATTCAAGCGCGGGGAGAGTTGCGTGTGAGCACCATTCATACTCCCCTGACTTATAACGAAATCA -ACGGGAAACCTTTTGGCCTGGATTACGAACTGGCGAAACAGTTTGCCGATTACCTCGGCGTAAAACTGAAAGTGA -CCGTGCGGCAGAATATCAGCCAGCTGTTTGACGACCTTGATAATGGTAACGCCGACCTGCTGGCGGCAGGACTTG -TCTATAACAGTGAGCGGGTAAAAAATTATCAGCCTGGCCCTACCTATTATTCCGTGTCACAACAACTGGTTTATA -AAGTGGGTCAGTATCGCCCACGTACGCTGGGCAACCTGACGGCGGAGCAACTCACCGTTGCACCGGGTCATGTGG -TGGTTAACGATCTCCAGACCCTGAAAGAAACAAAATTCCCGGAATTAAGCTGGAAGGTAGACGACAAAAAAGGCT -CTGCGGAATTAATGGAAGATGTCATCGAAGGAAAACTCGATTACACCATTGCTGATTCTGTCGCCATCAGCCTGT -TTCAGCGCGTTCACCCGGAGCTCGCCGTAGCGCTCGATATCACCGATGAACAACCGGTGACTTGGTTTAGCCCGT -TAGATGGCGATAATACCCTTTCCGCCGCCCTGCTCGACTTCTTCAACGAAATGAATGAAGACGGTACGCTGGCAC -GCATTGAAGAGAAATACCTGGGGCATGGCGATGATTTTGATTACGTCGATACGCGCACATTTTTACGCGCCGTCG -ATGCGGTACTGCCGCAGTTAAAGCCCCTGTTTGAGAAATACGCCGAAGAAATTGACTGGCGTTTGCTGGCCGCTA -TTGCTTATCAGGAATCGCACTGGGATGCACAGGCCACTTCACCGACGGGTGTGCGCGGCATGATGATGTTAACCA -AAAATACCGCGCAAAGCCTCGGCATTACGGATCGTACCGATGCCGAACAGAGCATCAGCGGTGGCGTGCGTTATT -TGCAGGATATGATGAGTAAAGTGCCGGAAAGTGTGCCGGAGAACGAGCGGATCTGGTTTGCCCTCGCTGCGTACA -ATATGGGCTATGCGCATATGCTGGATGCCCGCGCCCTGACGGCAAAAACCAAAGGGAATCCTGACAGTTGGGCTG -ACGTAAAACAGCGTCTGCCTTTACTTAGCCAGAAACCCTATTACAGCAAGCTGACTTACGGCTACGCTCGTGGAC -ATGAAGCCTACGCTTATGTCGAAAATATTCGTAAGTATCAGATTAGCCTGGTGGGTTATCTGCAAGAGAAAGAGA -AGCAGGCTACAGAAGCGGCGATGCAACTGGCGCAGGATTATCCGGCGGTATCGCCTACGGAGTTGGGCAAAGAGA -AATTTCCTTTTCTCTCGTTTCTTTCCCAGTCGTCATCAAACTATTTGACCCATTCTCCCTCTCTGCTGTTTTCCA -GGAAAGGGAGTGAAGAGAAACAAAATTAATCCGTCGAGGATTGCGCTTTTTTCTGCGCTTTAATTTCCTGGCGGC -GCATGCGAAAGAAGTCACTGAGCAACGCCGCGCACTCATCCGCCAGTATTCCTTCCGTAATTTCCACTCGGTGAT -TCATACCCGGATGATGCAGCACATCCATTAAAGATCCCGCAGCGCCAGTTTTCGCGTCACGCGCACCAAAGACCA -CGCGACCAATGCGACTGTGGATCATCGCTCCGGCACACATTACACATGGTTCAAGCGTGACATACAACGTGGCGT -CGATCAGACGATAATTTTGCATCACCAGACCACCCTGCCGCAGGGCCATGATTTCTGCATGTGCGGTGGGATCAT -GGCGACCAATCGGGCGGTTCCAGCCTTCGCCGATTACCCGATTGTTATGCACTAATACCGCGCCGACCGGCACTT -CCCGCTCATCCCAGGCACGTTTCGCCAGCGTCAGCGCGTGACGCATCCAGTATTCGTGGCTAAATTCGACTTCAG -ACAAAAAGAAAACTCCGGTTATAAAAGCGCGGCGCATTATACACGGACGCTATGCTTTACTCTATTCCAGTTGCT -GGAGTTCACCGCGCGGGGTTACTCGCCAACGATGCTGACAGAAATAAAGCAGCGGATTGTCCTGATTACTGTCGC -TATAGCCACTGTACAGCCGCAGCGGAGTGCCGATTTTGCGCTCCAGTTGTGCGACCTTTTCATGTCCCAGACAAC -GCATCGTCAATACCCAACCACCATAGCCACGCTGAATTTGGCTGGCGATAAGATTAACCCGCGGCAGCCAGGGCG -TATCGAAATAAACCGCTTCAACCAGCGGCTGCGGAGAGCCGGTAATCAACCAGATATCAGCATCGGAACTTAACA -GGTAGGTGGTTAATCGCTCCTGAACCAGCGGAAAGGCGGTAACATTGTCGCGAAACCAGCGCACGAAATCGGCCT -GCAACGTCTGTAAACGTGCTTCGCTGTGACCAAAAGTGCACCCCCACAGAAGCAGACTCATCGGCCAGCGTGCCG -CACGACCTTTTATCAATAACGCAATGGCTATAATCGGTAACAACGGCAGGACAAGTAACGCATTCAGCGGTTGGC -GACGTAGTAAATAGCGCAGAAAACTGCCGAACATATCCTGCTGATGCAATGTTCCATCTAAGTCAAAAAACACCA -CACGACGCTCGTGAGTTGCCAAACCATACTCCTCTGGACTGAAACATCCTGATTAATTTTCGCTACTACATAGCC -TAACAGATAGATCATCACTTTTCCGGCAACAATCGACCGCATCATGGCTAACTGGAATTTTTAATTCATGGCAAT -TAGCGGCAATGGAATATAAAATTCACTCGCGTGTGTCTCATATTGCCTGTTGTCGCCACTATTTCATCGCGAGGA -AAGATATGAACGGCTTACTTCGTATCCGTCAGCGTTACCAGGGGCTTGCCCAGAGTGATAAAAAACTGGCGGATT -ATCTGCTGCTACAACCTGATACGGCGCGCCATTTAAGCTCTCAGCAACTGGCCAACGAAGCCGGAGTCAGTCAGT -CCAGCGTCGTGAAGTTCGCGCAAAAACTCGGCTATAAAGGTTTTCCGGCGCTTAAGTTGGCGTTGAGTGAAGCGC -TGGCAAGCCAGCCGGAATCACCCTCCGTGCCCATTCATAACCAAATCCGCGGTGATGATCCGTTACGGCTGGTCG -GCGAAAAACTGATTAAAGAAAATACTGCCGCTATGTACGCAACGCTAAACGTTAATAGTGAAGAGAAACTGCATG -AATGCGTAACAATGTTGCGCTCTGCGCGGCGGATAATTCTGACCGGTATTGGCGCTTCGGGTCTGGTGGCGCAAA -ACTTTGCCTGGAAGCTGATGAAGATTGGCTTCAATGCTGCCGCAGTGCGCGATATGCATGCGCTACTCGCAACAG -TACAGGCGTCGTCCCCTGACGATCTGTTATTAGCCATTTCCTACACCGGTGTACGACGCGAGTTAAACCTGGCGG -CAGATGAGATGCTGCGAGTGGGCGGAAAAGTGCTGGCGATTACCGGCTTTACTCCGAATGCCCTGCAACAGCGTG -CTTCTCATTGCCTGTATACCATTGCCGAAGAACAAGCGACAAACAGTGCTTCAATCTCTGCTTGTCACGCTCAGG -GAATGTTAACGGATTTGCTGTTCATTGCGCTGATTCAGCAGGATCTGGAACTGGCACCAGAACGTATTCGTCATA -GTGAAGCGCTGGTGAAAAAACTGGTCTGAGTAAAGAATGCGCGTATAATGCCCGCCCGGTTTGTGTTGTTTTGAG -AGTTTCCTTATGGCGTTGTTAATCACTAAAAAATGCATCAATTGTGATATGTGTGAACCCGAATGCCCGAATGAG -GCGATTTCAATGGGAGATCATATCTACGAGATTAACAGCGATAAGTGTACCGAATGCGTAGGGCACTACGAGACA -CCAACCTGCCAGAAGGTGTGCCCGATCCCCAATACTATTGTGAAAGATCCGGCGCATGTCGAGACAGAAGAACAG -TTGTGGGATAAATTTGTGCTGATGCACCACGCGGATAAAATTTAATATTCTACTCTGGAAGTAGAGTATTAATTA -TATTACTGGGAAGCCTTAACGCCATTATATTTATTTAATTGATGACATTAGCATAATCATTCACTAAGTTAATTT -ATATAGTATCTGCCCAGACACTTATTTATAGTTATTAAAGGTGCGTCCGACTGGTTCACCGGACGCACCTTAAGT -ACGTTTCCTTGTGTTATAAGAACAGAAGGATCAGCTGTAAAACAGCAATGATGATTTTGATGACCCGTTTAATCA -GGTATCGGCAATCAGTCATTCGTTTTTCCTTAAACAAGGAATGCAGCCATTCAGATTAGCCCTTACATCTCCCCA -AAACTGAACGTGCGAGTTATTGAGGGTGCATGCTGCACTCCACACCAGAGCTTTGACGACACCACTCGTTTCAAT -GGGGGAATTCTGTGGCATGGTGTAAAGCACAGCAAAATCTTCAATAACGAAGCCAATTTTAATGTACTTACGAAT -TGGCGGTCACGTTAATCTTTCCATCAATATTGCTTTCTTCGTAAAGGCTCGAGTTTTTATGCTAAAGATTGCAAG -TTGCTTGTAAAAGATAAGTACACTGATCCATAATCGCTGTTGTTGAGGGTGCATGCTGCACAAAATTAAAGTTAA -AAAGTAAAACCCCCGTTCCTTACCAGTTCGGGGGTTTTACTTTTTAAAGAGAACGGTATTATTTTTAACTTTCAA -TAATTACCGTGGCACAAGCATAGTGCCGCTCATCTGCCAGCGTTACATGCATATTTGCAACGCCCAGCTTTTCCG -CCAGTTTTAATGCCTCGCCCCATAGCCGTAGCCGTGGTTTGCCGAGCTCATCATTGAATACTTCAAATTGATTAA -ACGCCAGACCATTGCGGATCCCGGTGCCAAACGCTTTTGCTGCGGCTTCTTTCACAGCAAAACGCTTCGCCAGAA -AACGCACCGGCTGGTGGTGCGTTTTCCAGATAGCCCATTCGTTATCGCTTAATACGCGGCGTGCCAGGCGATCAC -CGGATCGGGCGATCACCGCTTCGATGCGAGCGATCTCCACAATATCCGTGCCTAAACCTAATATTGCCATTAGCC -ACGCGCTTCCAGCATCAGACGCTTCATTTCTGCCACCGCATCTTTCAGTCCGGTCATCACTGCACGACCAATAAT -GGCATGACCGATATTCAGTTCATGCATCTCAGGGATGGCGGCAATGGCTTTCACGTTGTGATAGGTCAGACCGTG -TCCGGCGTTAACTTTCAGACCGAGGCTTGCGGCAAAGGTCGCGGCTTTGGCGATACGCGCCAGCTCTTGCGCCTG -TTCGGCGTCAGTTTTGGCATCAGCATAGCAACCGGTGTGGATCTCGATAAACGGTGCGCCAACCTCTGCCGCAGC -TTTGATCTGCTCTTCATCGGCGTCAATAAACAGAGAAACCTGAATCCCGGCATCTGCCAGACGTTTGCAGGCATC -GCGCATTTTGTCACGCTGCCCTGCGACATCCAGGCCGCCTTCGGTTGTTACTTCCTGACGCTTTTCCGGTACCAG -GCAGCAAAAATGTGGCTTCGTCTCAACGGCGATCGCCAGCATCTCTTCGGTCACCGCCATCTCCAGATTCATGCG -GGTATCCAGCGTCTGACGCAGGATGCGCACGTCGCGGTCAGTAATGTGACGGCGATCTTCACGTAAATGCACGGT -AATGCCGTCCGCTCCCGCCTGCTCGGCAATAAACGCGGCCTGCACCGGATCCGGGTAAGCGGTACCGCGCGCGTT -GCGCAGCGTAGCGATATGGTCAATGTTGACGCCTAACAGTAATTCAGCCATGACAATCCTCATCATTCATAATGT -GTTTTCACCGTTCGCTTAGGCATAAACTGCCGGAACAGTTCCCTGCTCTTTAAAGGTTTACCGCCAAGATACGGC -TTAAGCGCCATGCGGGTAAAGCGTTTCGCGGCGCGCAGTGTGTCTGCGTCAGGAAATTCCCGTGCGTTTAACGCT -TTTAACTGCCTTCCGGTGAACGTTTTATTGTCGATAACGACGCTTGCGATAAACCCTTTTTCTTCGCGATAACGA -TACGTCATGGTGTCATCTACCGGCTCGCCGCTACCCGCACAATGGGTAAAATTGACGCCATAACCCAGATGCCCG -AGCAGTGCCAGTTCAAAGCGGCGCAGCGCGGGTTCTGGCGTACCAGTGACCCCTGCAAGAGACTGAATGCAGTGC -AAGTAATCGAAAAAAAGTTCAGAGAAGCGCGTCTCGTATTCCAGTACGCGGGAGAGAAGTTCGTTGATGTACAGA -CCGCTGTAAAGCGTGATACCGCTTAATGGCAGCGCCAGCGAGACGGCTTCAGCACTGCGCAGCGTTTTGACTTCG -CCACGCCCGCCAAAACGTAGCAAGAGAGGGGTGAAAGGCTGTAATGCACCTTTCAGGGTAGAGCGTTTAGAGCGT -GCGCCTTTGGCAACCAGACGCACGCGCCCCGATTCCTCCGTGAAGACGTCCAGCATCAGGCTGGTTTCGCTCCAC -GGGCGACTATGCAGGACAAATGCGCGCTGCCAGCCTTCCATCGGAGTTACTCTTAAAGATCGTCAACGTAACCGA -GACTGCGCAGTGCGCGTTCGTCGTCGGCCCAACCGGATTTCACTTTTACCCACAGTTCAAGGTGAACAGGCGCTT -CGAACATTTCCTGCATGTCTTTACGCGCTTCAATCCCGATGGTTTTGATCTTGGCCCCTTTGTTGCCAATGACCA -TCTTCTTCTGCCCTTCACGCTCAACGAGAATCAAACCGTTGATGTCATAACCACCGCGTTCGTTAGAGACGAAAC -GTTCGATCTCCACGGTCACGGAGTACGGCAGTTCAGCGCCGAGGAAACGCATCAGTTTTTCGCGGATGATTTCAG -ACGCCATAAAACGCTGTGAGCGATCGGTGATGTAATCTTCCGGGAAGTGATGAGTCGCTTCAGGTAGATGCTTAC -GCACGATTGCCGCAATAGTGTCAACATTCAGCCCGGTTTCGGCAGAGATTGGCACGATATCGAGGAAGTTCATCT -GGCTTGCCAGGAACTGCAGGTGCGGCAGCAGATCGGCTTTCTCCTGCACGTTGTCCACTTTGTTCACCGCGAGGA -TTACCGGCGCTTTGCCTTCGCGCAGTTTGTTGAGCACCATTTCGTCGTCCGGCGTCCAGCGGGTGCCTTCAACGA -CAAAAATCACCAGCTCAACATCGCCAATAGAGCTGCTCGCCGCTTTGTTCATCAGGCGGTTAATGGCGCGTTTTT -CTTCCATATGCAGGCCCGGTGTATCGACGTAGATCGCCTGATACGCGCCTTCAGTATGGATCCCCACAATGCGGT -GACGAGTTGTCTGCGCCTTGCGGGAAGTGATGGAGATTTTCTGCCCCAGCAGTTTGTTCAACAATGTGGATTTGC -CAACGTTCGGACGTCCGACGATGGCAATAAATCCGCAGTAACTTTTATCGATGCTCATTCCAGCTCCAGTTTTTT -CAACGCCTGTTCGGCGGCAGCCTGCTCAGCCTTACGACGGCTTGAACCTGTGCCAACCACCGGTTCACTCAGGCC -GCTGACCTGGCAGTGGATAGTAAATTCCTGATCGTGCGCTTCGCCACGTACCTGGACTACCAGATAAGTCGGCAG -CGGCAGATGGCGACCCTGCAAATATTCTTGCAAGCGCGTTTTCGGATCTTTTTGTTTATCGCCTGGGCTAATTTC -GTCCAAACGAGTTTGATACCAGTTGAGGATTAATTTCTCGACGGTTTGAATATCACTGTCGAGGAATACGCCACC -AATTAATGCTTCGACGGTGTCGGCGAGAATTGACTCACGACGAAATCCACCGCTTTTAAGTTCACCTGGCCCTAA -ACGTAAGCACTCGCCTAACTCAAATTCGCGCGCCAGTTCCGCCAGCGTATTGCCACGGACCAGCGTGGCGCGCAT -CCGGCTCATATCGCCTTCATCCACACGAGGGAAACGGTGATAAAGCGCATTGGCGATAACGTAGCTCAGAATAGA -GTCGCCTAAAAATTCTAAACGCTCGTTATGTTTACTGCTGGCACTACGATGAGTTAATGCCTGCTGCAACAGTTC -CTGATGATTAAAAGTGTAGCCCAGCTTCCGTTGAAGCCGATTAATTACGATGGGGTTCATGCGATACCAATAAAT -AAATGCGTCAACAATTCAGCACACGAAACAGACCTGATATACATGGTTCTGCTAACTGCTTCGCTGCAGTTTCAG -TTTACCGGTATATGGGGACCAACGCTGTTTCGTGTGCCGTGGCAACCTGGAGGTGCCAACCTTAAACTTCGGGGG -AATATTCTATACACAACGACGGGGGATGTCGTTAGCCACGGGAGATTTATCTCATAAATAATTCACGTTGTCGCC -ATAACGGCGACAACGTGAACGAAGATGGCTATTAATGGATGCCGCCAATGCGACTTAAGCGCAGACCAGTCGGCC -ATTCGCCTTCTTGCTTATCGAAGCTCATCCAGATAGCCGTTGCCCGACCGACCAGATTCGCTTCCGGCACAAAGC -CCCAGTAACGGCTGTCCGCGCTGTTGTCGCGGTTGTCGCCCATCATGAAGTATTGTCCCGGAGGAACAATCCAGG -TTGCCAGTTGTTGCCCTGGCTGCTGGTAATACATCCCCACCTGATCCTGCGCAATCGGCACTGTCAGAATGCGGT -GCGTCACATCACCCAGTGTCTCTTTACGCTCGGAAAGACGAATTCCATTTTCTTTGGTTTCGTTTTTCGGCACTT -CAAAGAATCCGCTGGTCGCTTCCCCACCATTACGGCGTGAGAAGGTCTGAACGAAATCGCTCGGTTCCACGTTTG -AGTAGGTGACCGGCAGCGCGTTTTCACACGCCTGGCCGGAACTGCATCCCGGTTGAATCGTCAGCTCTTTTGAGA -CCGGATCGTAAGTGACTTTATCGCCCGGTAAACCCACCGCGCGCTTGATGTAATCAAGCTTTGGATCTTCCGGAT -ATTTAAAGACCACGATATCGCCGCGTTTCGGATGACCGGTTTCGATCAGCGTTTTCTGGTAGATAGGATCTTTAA -TGCCATAAGCAAACTTCTCTACCAGAATAAAATCACCAATTAACAGAGTCGGCATCATCGAACCTGACGGGATCT -GGAACGGTTCATAAATAAACGAACGCACAATCAATACGATAGCCAGTACCGGAAAAACAGAAGCACCGGTTTCCA -GCCAGCCAGGCTTCGGCGCAACCTTTTTCAACGTTGCTTTATCCAGTGAGTCCCCGGCAGCCGCCTGCGCCGCTG -CCTGACGTTCCCGCCGTTTAGGTGCGAAAAAGAATTTATCCACGCACCATAAAATGCCCGTCACCAGTGTGGCAA -TCACCAGAATCAGGGCAAACATATTCGCCATGCCAACTCCTAAGGGTTATTTGTTGTCTTTGCCGACGTGCAGAA -TGGCGAGGAACGCTTCCTGCGGCAGCTCGACGTTACCGATCTGCTTCATGCGTTTCTTACCTTCTTTCTGCTTCT -GCAGCAGCTTTTTCTTACGGCTGATATCGCCGCCATAACATTTAGCCAGTACGTTTTTACGCAGCTGTTTCACGG -TGGATCGCGCAATGATGTGCGTACCAATCGCTGCCTGAATGGCGATATCAAACTGCTGGCGTGGGATCAGATCTT -TCATCTTCTCCACCAACTCGCGACCGCGGTTTTGCGAATTATCACGGTGGGTGATCAACGCCAGCGCATCAACAC -GTTCACCGTTGATTAATACGTCTACACGTACCATGTCGGACGCCTGGAAGCGCTTGAAGTTGTAATCCAGAGACG -CATAACCACGCGAGGTAGATTTCAGGCGATCGAAGAAGTCGAGCACCACTTCCGCCATCGGGATCTCGTACGTCA -GCGCCACCTGATTACCGTGGTAAACCATATTGGTCTGCACGCCGCGTTTTTCTACGCACAACGTAATAACGTTGC -CGAGATATGCCTGCGGCAGCAGCATGTGACACTCTGCAATCGGCTCGCGCAGTTCGTAGATGTTATTTACCGCAG -GCAGCTTGGATGGGCTGTCGACGTAGATAACTTCTCTTGACGTGGTTTCAACTTCATACACTACGGTCGGCGCAG -TGGTGATCAGATCCAGATCGTATTCACGTTCCAGACGTTCCTGGATGATCTCCATGTGCAGCAGGCCGAGGAAGC -CGCAGCGGAAACCAAAGCCCAGCGCGCTGGAGCTTTCCGGCTCATAGAACAGTGAGGCATCGTTCAGGCTGAGTT -TACCCAGCGCGTCACGGAAGGCTTCATAGTCGTCGGAACTTACCGGGAACAGACCGGCGTATACCTGCGGTTTGA -CTTTCTTAAAGCCAGGCAGCGCCTTTTCTGCCGGATTACGCGCCAGCGTTAAGGTATCGCCGACTGGAGCGCCGT -GGATATCTTTAATCGCACATACGAGCCAGCCTACTTCGCCACATTTCAGTTCAGTGCGGTCAACCTGTTTCGGCG -TGAAGATGCCCAGACGGTCGGCGTTATAGGTCTGCCCGGTACTCATGACTTTCACTTTGTCGCCCTTACGCAGGG -TGCCGTTTTTAATACGGATAAGTGAAACAACGCCCAGGTAGTTGTCGAACCATGAGTCGATAATTAGTGCCTGCA -ACGGGCCTTCCGGATCGCCTTCCGGCGGCGGAATGTCGCGCACCAGACGTTCGAGAACGTCCTGCACACCAACGC -CGGTTTTCGCTGAACAGCGCACCGCGTCGGTGGCGTCGATGCCGACGATATCTTCAATTTCTTCCGCCACGCGTT -CAGGATCGGCTGCCGGCAGGTCAATCTTGTTCAGTACCGGCACAACTTCGAGATCCATTTCCATGGCGGTGTAGC -AGTTTGCCAGGGTTTGCGCTTCTACGCCCTGCCCGGCGTCGACCACCAGCAATGCACCTTCACAGGCAGCCAGCG -AACGGGAAACTTCATAGGAGAAGTCTACGTGGCCCGGGGTGTCGATAAAGTTAAGCTGATAGGTTTCGCCGTCAG -ACGCTTTGTAGTCCAGCGTCACGCTTTGCGCTTTGATGGTAATGCCACGCTCACGCTCAAGATCCATGGAATCGA -GAACCTGCGCCTCCATTTCACGGTCAGACAGGCCACCGCAGATCTGGATAATACGGTCAGACAGCGTCGATTTAC -CGTGGTCAATGTGAGCTATGATCGAAAAGTTACGTATATTCTTCATAAAGTATGATTATTGTGCCTTAATGCCCG -GTTAACCAGGCTTTTAGAAGTCGCTGTTCTGAGCTTAACGTCTGTATTAATAGAAACGCCGCATTCTACACTACA -ACATTGAGGCGAGGAAATGTTCATACCGTATGGATTGTGGTATCTGGAAACGTCCTCGCATTTGTTATGCAAAAT -GCAACAAAGCCAGTGAAATCACTGGCTCGCGTCTTCCGAAGATGTTTCAAATCGCACAAGGCCAGGCGGCAATGC -CACGCTTAAGATGATCGGTTGCCATTCTGCCCGGGCAGCAAACTTACGCGAGTAGCCGCGCGCAATCAGGAACCC -GCCAATACCACCGAGGATCGCACCACATAATGCTGCGACGTCAGAAGCAAAGAGTAGCTGAAATAGCGAAGCGAT -AAGGAATAATCCCACCAGCGGCGACATATAAACCAGTAATGCGGAGCTAAGCAGGCTGCCTTCGGCGATCCCCAA -TTCCACTTTTTGCCCCGGCACTAACGGCTCATCACAGGGTACGACAATGGTATGCGTGGTTTGCGGGCCAAGTTT -ATTTAACACGCGGCTACCGCAACCGGCGCGTGAAGCGCAGCTGCTGCATGAAGCTTTAACATCACAACTGACCAG -CGCCTGCCCGTTTTGCCAGGAGACGACGGTAGCCCACTCTTTGATCATTGCGCTGCCCCGAACTTAATATTCTCG -GCAATGCGTTTCGCCGTTTGCGGCGGCAGTTCACCGACAATGGTGATTTCGGCGTTATCACGTACGCTTGTACTG -ACGGTTCTGCGTCCGGTGCGCAACATCTGATCGGTGCTCGATGGCGTAGCGCGGTTAACGTTTACCGAGAAGCTG -AATAATCCGTCGGAATAGAGACGTGATTCGATAGGCATGTTGTCCATCGTCGGTAGCGGACGTCGACTACTGGAA -ACTTCGCTAAAACCCTGTGGCAACCAGGTTGGCGTCCAGCTGAATTTAGCTTTTTCACCTACAGGAACAGAAAGC -AACGGCGGCAAATTTGCCTTCGCCAGCGTCTGCATACTGCTGCTGATATCCTGATTGACGTTAAAAGCAATCACG -CGAAATTGTTCCAGCGTTTCACCATCGCGATCAAGGAGATCAACCCGCATCGGTAATTTCGATTCGGTGTCCATC -CACACGATGTAGCTGTAGCGTGTACCATCTCGGGCAACCACGCGAATGACTTCGCAAAGACGATCAGCAATACGC -GTGCGCCCGACGGAGATAAAGTCGTAGTAAGGAGAAAGGCGTTTGAAATCGGTATAGATAAGCGATGGCAGAGAA -TCAACAATGTAATCGCCATTAAGCGTGAACGGTTCAAGTCCCGGTTCAAAATAGCTGATTTCATTGCCGCGCTGT -ACCACTTCCCGGCGCGGGCCATCCATTTGCAACAATTGTGCAAGAGGACGGTTATCGAGGCGTGCATGTCGATAA -CGCAGAGACTCAACACCCTGTTTATTGATGCTGATGAATGACAGCTCGTAATTCAGTGACTGACTGGCCAGGTTC -ATCTGCTGTAATAACGCCCCGGACGCGGGAGTGGCCGAGGCGTTAGCAGAGAATAACAGGCTACCTGTCACTAAT -GACATGGCAAACCAAAGTTGCTTCATTACTGCGATTGCGTTCCTAAAGTTTGAATTCCTGGCACCTGTACAGCGG -CTTGCTGGGTTTGCGCCTGCTCAAACTGAAGCTGTTCAGAGTGGAGTCGGCGTTGCAGTTCGTAATCCTGCAACA -TTGCATTAATGCGACGACGCTGCTCCTGTACCTGCTGCTGTTGACCATTGTTTGCGGTCGCTTCAGAAGGTACTC -CCAGGCTTACCGGGCTGGCTTTACCCATCATCGGCAGTGTATTAAATACCGGCGTTTCGGGCTGCTGGGACGTTT -CAGATTGTCCATTATAGTGCTGGACGCCAACGATAACTGCAAGCGATACGCATGCGGCTACGCCCATTTGGGTAA -GCTGTGCCGCCCACGGACGTACTTTCTGCCAGAATGGCATTTTCTGCCATTGATGCGGCGCAGGCTGGGCTTCCG -GGATCAATGTCGCCGGTTGACGTACTGGCTCTTCTTCAATGGCGGCCATCACGCGTGAAGAGATATCGAAATGGA -GCACCTCGGGAGTATCACCCCGCATTGAGTCACGGATTAAGTGATAGCTTTCCCAGGTTTTCTGCATTTCTGGGT -TATGAGCCAGTTCGTTAAGCAGCTCACTATCCAGCGTTTCGCCATCCATTAAAGCGGAAAGTTGTTCTTTCTGCA -TGCCTAATACCCTTATCCAGTATCCCGCTATCGTCAACGCCTGATAAGCGGTTGAACTTTGTTATCAATAGCTTC -CCTCGCTCGGAAGATACGTGAACGCACCGTACCTACCGGACAATCCATGATAGCGGCTATCTCTTCATAGCTCAG -GCCATCCAGCTCCCGCAAGGTTATTGCCATGCGTAAATCTTCCGGGAGGGACTCAATAGTTCGGAAAACTATCTG -TCTCAGTTCTTCTGACAACATTAAGTTCTCAGGGTTCGAAATTTCTTTCAACGCGCCGCCACTTTCGAAGTTTTC -AGCTTCAATGGCATCCACATCACTGGAAGGTGGACGACGCCCCTGAGCAACCAGGTAATTTTTCGCTGTATTTAC -AGCAATCCGATACAGCCATGTATAAAAAGCGCTATCTCCCCGGAACGAATCCAGCGCACGATAGGCTTTAATAAA -AGCTTCTTGTACCACATCGGGAACATCACCCGACGGCACATAGCGGGAAACCAGACTCGCCACTTTATGCTGATA -GCGCACTACCAGTAAGTTAAAGGCTTTCTGATCTCCCTTCTGGACCCGTTCAACCAGGACCTGGTCCGTTAACTG -CTCGCTCATCCGAGGTAAAGTCTCCCCAAACCAAATTTCCACGCGCTATCGAAACGCCACTCCATTAGCTGCAAT -TTGAGCAAGCAAAGGGTTAGAGTGTCTCGTTTTTGTAAAGTTCCGTAACGCATCTGTTTTTGTTTGTCATGCTGT -AGACGGATCATTATCTATCATTATAAGTCTACAGAATCTGAACATCGCATTATCTGTGTAGAAATGCCCATTTAA -CTGCCTGAAGAGTAACCCAACGGCCTTTTTATTTCACCACCTAATCCTCCACCAGCCAGTAACTTCTCTTTTTCT -CGCCGCCCTGCGTCAGCGTGTTTAGCAACTGTAACAAATATTAAAATAGCAGGTGTTTATCCGCACAACATGATG -CTATGCTGACCAAACCATGTTTAGTAAATTAAACAAAGAAAATGAATACTCTCCCTGAACATTCATGTGACGTGT -TGATTATCGGTAGCGGCGCAGCCGGACTTTCACTGGCGCTACGCCTGGCTGACCAGCATCAGGTCATCGTTCTAA -GTAAAGGCCCGGTAACGGAAGGTTCAACATTTTATGCCCAGGGCGGTATTGCCGCCGTGTTTGATGAAACTGACA -GCATTGACTCGCATGTGGAAGACACATTGATTGCCGGGGCTGGTATTTGCGATCGCCATGCAGTTGAATTTGTCG -CCAGCAATGCACGATCCTGTGTGCAATGGCTAATCGACCAGGGGGTGTTGTTTGATACCCACATTCAACCGAATG -GCGAAGAAAGTTACCATCTGACCCGTGAAGGTGGACATAGTCACCGTCGTATTCTTCATGCCGCCGACGCCACCG -GTAGAGAAGTAGAAACCACGCTGGTGAGCAAGGCGCTGAACCATCCGAATATTCGCGTGCTGGAGCGCAGCAACG -CGGTTGATCTGATTGTTTCTGACAAAATTGGCCTGCCGGGCACGCGACGGGTTGTTGGCGCGTGGGTATGGAACC -GTAATAAAGAAACGGTGGAAACCTGCCACGCAAAAGCGGTGGTGCTGGCAACCGGCGGTGCGTCGAAGGTTTATC -AGTACACCACCAATCCGGATATTTCTTCTGGCGATGGCATTGCTATGGCGTGGCGCGCAGGCTGCCGGGTTGCCA -ATCTCGAATTTAATCAGTTCCACCCTACCGCGCTATATCACCCACAGGCACGCAATTTCCTGTTAACAGAAGCAC -TGCGCGGCGAAGGCGCTTATCTCAAGCGCCCGGATGGTACGCGTTTTATGCCCGATTTTGATGAGCGCGGCGAAC -TGGCCCCGCGCGATATTGTCGCCCGCGCCATTGACCATGAAATGAAACGCCTCGGCGCAGATTGTATGTTCCTTG -ATATCAGCCATAAGCCCGCCGATTTTATTCGCCAGCATTTCCCGATGATTTATGAAAAGCTGCTCGGGCTGGGGA -TTGATCTCACACAAGAACCGGTACCGATTGTGCCTGCTGCACATTATACCTGCGGTGGTGTAATGGTTGATGATC -ATGGGCGTACGGACGTCGAGGGCTTGTATGCCATTGGCGAGGTGAGTTATACCGGCTTACACGGCGCTAACCGCA -TGGCCTCGAATTCATTGCTGGAGTGTCTGGTCTATGGCTGGTCGGCGGCGGAAGATATCACCAGACGTATGCCTT -ATGCCCACGACATCAGTACGTTACCGCCGTGGGATGAAAGCCGCGTTGAGAACCCTGACGAACGGGTAGTAATTC -AGCATAACTGGCACGAGCTACGTCTGTTTATGTGGGATTACGTTGGCATTGTGCGCACAACGAAGCGCCTGGAAC -GCGCCCTGCGGCGGATAACCATGCTCCAACAAGAAATAGACGAATATTACGCCCATTTCCGCGTCTCAAATAATT -TGCTGGAGCTGCGTAATCTGGTACAGGTTGCCGAGTTGATTGTTCGCTGTGCAATGATGCGTAAAGAGAGTCGGG -GGTTGCATTTCACGCTGGATTATCCGGAACTGCTCACCCATTCCGGTCCGTCGATCCTTTCCCCCGGCAATCATT -ACATAAACAGATAAAAAGCCTGGGTCAGCGCCGTATACGCTTCGGAATAGTTCTGGTCTGGCCCACGAATGACTA -AGCGATCGCTAAAGCATTCTCCCGCCTGCGGGGAGAATGCCAGCAGCACCCGATGCGGCAGTCGCGCTTCGTTTT -CCGCCACATCCGTCCGCAAACGTAAATGCCAGCCCATGCTTAATGCCAGCTCCGTAAAACCATTACCAATCTGCT -CTGGCAGCACTACGCAGAAAAATCCCTCTTCGGTAATGCACTCCGCCGCACAGGTCAGCAACGATGGGTGATCAA -GCGTAGTGGTATAGCGAGCCTGTTCCCGTTGAGGTGTCGAGCACTCTACTCCCTGCTGATAGTAAGGTGGGTTAC -TGATGATTAAATCGAAGCGTACTGTCTGCTGTGTGATCCACTGCTGAATATCCGCCGTATGGACGTTAATCCGCT -CTGCCCACGGGGACTGGTTGATATTTTCCTGCGCCTGCGCGGCAGCTTCACTTTCCAGTTCAACTGCATCAATCA -TCACGCTGTCATCGGTTCGCTGCGCCAGCATTAATGCCAGCAACCCGCTACCCGCGCCGATATCAAGGCAACGTT -TTACCCCAGCCACCGGTGCCCATGCGCCCAATAAAATACCATCCGTTCCCACTTTCATCGCACAGCGATCGTGAG -CAACAAAAAACTGTTTAAAAGTAAATCCATTACGACGAAGCACGGATGTAGACTGTGACATGAAAATAAAACCTT -GCAGGAAAAACGGCGATAGCACCGGGTGAGAACAATACCCGAGAAGCGATATCCATACAAACAGATGAAGATTGC -AGCCGTAACGTCTATAATCAGCGCCCCACACAGAGGTAGAACATGACTGTAACGACTTTTTCCGAACTTGAACTC -GACGAAAGCCTGCTGGAAGCCCTCCAGGATAAAGGTTTCACTCGCCCGACCGCCATTCAGGCTGCCGCCATTCCG -CCTGCGCTCGATGGCCGTGATGTACTCGGTTCTGCGCCGACAGGCACCGGTAAAACGGCGGCGTATCTGCTGCCA -GCGTTGCAGCACCTGCTCGATTTCCCGCGTAAGAAATCCGGTCCGCCGCGTATTTTGATCCTCACCCCAACTCGC -GAGCTGGCGATGCAGGTGTCCGATCATGCCCGCGAACTGGCGAAACATACGCATCTGGATATCGCCACCATCACC -GGCGGCGTAGCCTATATGAACCACGCGGAAGTGTTCAGCGAAAATCAGGACATCGTGGTCGCCACGACCGGACGT -CTGCTGCAATACATAAAAGAAGAGAACTTCGATTGCCGCGCGGTTGAAACGCTGATCCTCGACGAAGCAGACCGT -ATGCTGGATATGGGCTTCGCTCAGGATATCGAACATATTGCTGGCGAAACGCGCTGGCGTAAACAGACCCTGCTC -TTTTCGGCAACGCTGGAAGGCGATGCGATTCAGGACTTTGCCGAGCGTCTGCTGGAAGATCCGGTGGAAGTTTCT -GCCAATCCCTCCACCCGTGAGCGCAAAAAAATTCATCAGTGGTATTACCGCGCCGATGATCTTGAGCATAAAACC -GCGTTGCTGGTGCATCTGTTAAAACAGCCGGAAGCGACCCGCTCAATTGTGTTTGTGCGTAAGCGTGAGCGTGTG -CATGAGCTGGCAAACTGGCTGCGCGAAGCGGGCATCAACAACTGCTATCTCGAAGGTGAGATGGTACAGGGCAAG -CGTAACGAAGCGATCAAGCGTTTGACCGAAGGTCGCGTAAACGTACTGGTCGCAACCGATGTTGCCGCGCGCGGT -ATCGACATTCCTGACGTCAGCCACGTCTTTAACTTCGATATGCCGCGCAGTGGCGATACTTATTTGCACCGTATC -GGACGTACCGCGCGCGCCGGTCGTAAAGGCACCGCAATTTCGCTGGTGGAAGCCCATGACCATCTGCTGCTGGGT -AAAGTAGGCCGCTATATTGAAGAGCCAATTAAAGCTCGCGTTATTGATGAGTTACGCCCGAAAACGCGTGCGCCA -AGCGAAAAGCAGACCGGCAAGCCATCGAAGAAAGTACTGGCTAAACGTGCTGAGAAGAAAAAAGCTAAAGAGAAA -GAGAAGCCGCGGGTGAAAAAACGCCATCGCGACACCAAAAATATTGGTAAGCGCCGTAAACCAAGCGGAACGGGC -GTGCCACCGCAAACGACAGAAGAGTAATCTCAATGCCAGGTTTAAGCCTGGTATTAAAAGTGCTGGCAAACGCAA -AACTGCCTGATGCGCTACGCTTATCAGGCCTACGTGGCTCATGCAATATATTGAATTTGCACGATCTTGTAGGCC -GGATAAGGCGTTCACGCCGCATCCGGCATGAATAAAGCGCACTTTGTCGACAAGTTAAATGCCGGGTTTAATCCC -GACATTATTTTTATCCAGCCACAAAACTCTCTTCAACACACTGAATAAAAGTGTGCATCGCCGGGCTAACCGCTT -TTCCAGCATGATGTGCGCACATGGCCGTAATGGTCTGCGACTGTTCGCCAAAAGGCAATTCAATTAATTCTCCGC -ACTCCAACTCTTTTGCCACCGCAAAGCGCGGTAGGTAGCTGACCCCGATATTCGCCGCGACACAACGCTTGATGC -TTTCGATACTTATAAGCTCAATGGTGTTTTCCACCGTGATCCGCCGCTGACGCAGCGTGCTCTCAAATATCTGCC -GGAAGACACATTGCGGTTCGTTGATAATAAAGCTACAGGCGTTATGTCTTCCCGGCTCAGTAAAATCGACATCTG -CAATTTGCGGTGAAGCCACCAGCACCAGTGATTGTTCACCCAACTCTCGTCGATTCAGAGCATCATCATTCCCTA -CACGATAAAAGACGCCAACATCGGCCTCATCATTCAGTAGCGCATCACGGATCACGTAACAGTTCAGCGACTGCA -ACGATAAACGCACTTTTGGGGCGCGTTGCCGAAAACGCTGCAACACCTGCGGCATTCGGTAAGAGAGCAACGTTT -CGCCCGAAACAACGCGTAGTTCCCCGTCCGGATCTGACTCCTTTTTGGCAGCCTCACGAAGCGTATCCATCACTC -GGGTAAGTTCATAAATGTGCGGCAGCAACTTTTTTCCTTCGCGGGTAAGGCACATCCGTCGGCCAATTTTCTCAA -ATAACTGGACTGAAAACTCCTGCTCAAGCTGCTGAATATGAAAAGTCACCGTCGATTGTGTACAGCACAATTTTT -GCGAAGCTCGCAAAAAGGAACCCTCTTCCACCACGGTTTTAAGCGTAATAAAACGGCGCAGATCCATAACCCCAA -ACCTATCGAAAATATCGAATCTAGAATATAAAAACATTCATTTTTTTAAATGTTCCGTGTCGGGTACTGTCTACC -AAAACAGAGGAGATAACAAGTGACACCGACCCTTTTAAGTGCTTTTTGGACTTACACCCTGATTACCGCTATGAC -GCCAGGACCGAACAATATTCTCGCCCTTAGCTCTGCTACGTCGCATGGATTTCGTCAAAGTACCCGCGTGCTGGC -AGGGATGAGTCTGGGATTTTTGATTGTGATGTTACTGTGTGCGGGCATTTCATTTTCACTGGCAGTGATTGACCC -GGCAGCGGTACACCTTTTGAGTTGGGCGGGGGCGGCATATATTGTCTGGCTGGCGTGGAAAATCGCCACCAGCCC -AACAAAGGAAGACGGACTTCAGGCAAAACCAATCAGCTTTTGGGCCAGCTTTGCTTTGCAGTTTGTGAACGTCAA -AATCATTTTGTACGGTGTTACGGCACTGTCGACGTTTGTTCTGCCGCAAACACAGGCGTTAAGCTGGGTAGTTGG -CGTCAGCGTTTTGCTGGCGATGATTGGGACGTTTGGCAATGTGTGCTGGGCGCTGGCGGGGCATCTGTTTCAGCG -ATTGTTTCGCCAGTATGGTCGCCAGTTAAATATCGTGCTTGCCCTGTTGCTGGTCTATTGCGCGGTACGCATTTT -CTATTAACGAAAAAAAGCGGAAGAGGTCGCCCTCTTCCGCTTAGTAACTTGCTACTTAAGCCTTACAGGCTTTCA -GTAAAGGTACGAGCGATAACGTCGCGCTGCTGTTCCGGAGTCAGAGAGTTAAAGCGAACTGCATAACCGGATACA -CGGATGGTCAGCTGCGGATATTTTTCCGGATGCTTAACTGCATCTTCCAGAGTTTCGCGACGCAGAACGTTAACG -TTCAGGTGTTGACCACCTTCAACGCGAACTTCTGGTTTCACTTCTACTGGAACTTCACGGTATTCAATGTCACCC -AGTTTGCTTACTGCAACCACTTCATCTTCTGCATAACCTGCTTTTGCAACGATGCAACGCGCTTCGCCTTTTTCG -CTGTCCAGCAGCCAGAAAGAGTTCAGCAGATCGTCGTTAGCGGCTTTAGTAATCTGGATACCTGTAATCATGTGA -TGCCTCCCCGGCAAAATTATTTGATTTGTTCAGCCTGTCGCGGCCAATTGGTAAAACCATTGTTGCTTGAGTGTA -TATATACTCCTCAAACACCCTTGAATCTTTGATTTAAATCAATAAAAACCACACATCAAGTATGGTCGCAAATGG -ATTTTATTGTTTTACATCAACTTATGCGGGTGTGAAATTTTACCAATTTACATTTTTTTGCACTCGTTTAAGTCT -AAAAAATGAGCATGATTTTGTTCTGTAGAAAGAAGCAGTTAAGCTAGGCGGATTGAAGATTCGCAGGAGAGCGAG -ATGGCTAACGAATTAACCTGGCATGACGTGCTGGCTGAAGAGAAGCAGCAACCCTATTTTCTTAATACCCTTCAG -ACCGTCGCCAGCGAGCGGCAGTCCGGCGTCACTATCTACCCACCACAAAAAGATGTCTTTAACGCGTTCCGCTTT -ACAGAGTTGGGTGACGTTAAAGTGGTGATTCTCGGCCAGGATCCTTATCACGGACCGGGACAGGCGCATGGTCTG -GCATTTTCCGTTCGTCCCGGCATTGCCATTCCTCCGTCATTATTGAATATGTATAAAGAGCTGGAAAATACTATT -CCGGGCTTCACCCGCCCTAATCATGGTTATCTTGAAAGCTGGGCGCGTCAGGGCGTTCTGCTACTCAATACTGTG -TTGACGGTACGCGCAGGTCAGGCGCATTCCCACGCCAGCCTCGGCTGGGAAACCTTCACCGATAAAGTGATCAGC -CTGATTAACCAGCATCGCGAAGGCGTGGTGTTTTTGTTGTGGGGATCGCATGCGCAAAAGAAAGGGGCGATTATA -GATAAGCAACGCCATCATGTACTGAAAGCACCGCATCCGTCGCCGCTTTCGGCGCATCGTGGATTCTTTGGCTGC -AACCATTTTGTGCTGGCAAATCAGTGGCTGGAACAACGTGGCGAGACGCCGATTGACTGGATGCCAGTATTACCG -GCAGAGAGTGAGTAAATTTGCGGGGAAATGCCGGATGGCAGAGTTGCCACCCGGCTGATTTATCAGGCTTTATTC -TGACGCCACCATTCACCAAGCAAAACGCCGGTTGCGACAGAGATATTCAGCCCGGCAACGTTGCCCGTACCGTCA -ATCTTCACGCGCAGATCGTTCGGATCGCGTGCGGCATCCGGTAACCCTTCATATTCCTGACCCAGCACCAGTACC -ATTTTCGCTGGCAGACTAGTTTTGAACAGCGGTTTACCCTGCTCGCTGGAAGTGGTCACTACGGTGTAACCTGCC -TGACGGAAATCATCCAGCACGTTAACAATGTTGTCGCCAGTAATCGGCTGAACGTGCTCTGCGCCGCCTTCTGCG -GTACGGATAGCCGCCCCCGACTCCAGCAGTGCCGCATCCTGCACCACGACACCTTTCACGCCGAAGTGCGCGCAG -CTGCGCATCATGCCACCCAGGTTATGCGGGTTAGATTCGTTTTCCAGTGCCAGAACGCAATCCTGCGCGCCTGCC -TGGCTTACCCACTGCTGCACGGTTGTACCGTTACGCTTTTTGATCAAGAAGCAAACGCCGCCGTGATGTTCCGTG -CCTGACGCTTTTGTCAATTCCGCTTCATCCACCACATGGTACGCTTTGCGGTTTGCTGCCATCCAGCGCAAAGCT -TCTTTAAAACGCGGCGTTACACTCTGGATAAACCAGGCGCGAACAATCGCTTCCGGACGGCTCTGGAAAAGTGCC -TGACATGCATTTTCGCCGTAGACGCGGGTTTCTTCCGCACGCTGACGACGCAACACTTCCGGATCAATAAAACTT -TTACCACTGATGCCACCGTGATCGGCCTTTTCCGGCGTCTCATCACCCGGCGCGCGGGAAACCGTGCGCCACGGC -GAATCTTCCCACTTGCGGTCACGGGGCTGACTCTGTTTGTCATCGCGGGCGGGGCGACGGCCACCGTCAGCACGA -GATTTTCCTGGACGCCCGCCCCCTTTCCCGGTACGCGGGTTGTGGGTACGTTTATCAGAATCATCATCACTGCGG -ACATACATCACTTTGACCTTGCCGCTTTTACCTTTCATTTCATCGTTCATGCTTTTCTCCACCAGCGCTGCGCGA -AGCGCGCAGATTACCCGAAGTCCGCGCGGTTCGCCATGATTTCGTACCAAAGCCTGCGACTATCATACCTATTGA -ATAAAACAGATTGTTGTCTGGAACAATGTCCCCGATAATATGTAACATATTAGAAACATACCGGCGTCGTTGCCG -ATAAGTCTCCTTACTCATCCCGAGGTTAGTTATGAATACCGTTTGTACCCATTGTCAGGCCATCAATCGCATTCC -CGACGATCGGATCGAAGATGCGGCAAAATGCGGACGCTGCGGTCACGACTTGTTTGACGGAGAGGTGATTAATGC -GACCGGTGAAACACTCGACAAATTGCTGAAGGATGATCTACCTGTGGTGATCGACTTCTGGGCACCGTGGTGCGG -CCCCTGCCGTAATTTCGCACCAATTTTTGAAGATGTCGCGCAAGAGCGTAGCGGTAAAGTGCGCTTTGTGAAAGT -GAATACCGAAGCTGAACGTGAATTGAGCAGTCGCTTTGGAATTCGTAGTATACCGACGATCATGATTTTCAAAAA -CGGTCAGGTTGTCGACATGCTTAATGGCGCAGTACCGAAAGCGCCGTTCGATAGCTGGCTGAACGAATCTCTTTA -ATCTTACCGGGGCGCATCTTGTGCCCCGTTTTCTCCTCTGCGACAATGGCGTTTTTTCGACGCTCTCTTATGACC -GAAAACGCTGTTCTCCAGTTACGCGCCGAGCGTATTGCGCGCGCAACACGTCCTTTTCTTGCCCGCGGTAATCGC -GTTCGTCGCTGCCAACGCTGTCTTTTGCCAGAGAAATTATGTCTCTGTTCGACAATTACCCCAGCACAAGCAAAA -AGTCGCTTCTGTTTGCTGATGTTCGACACCGAGCCAATGAAGCCCAGTAATACCGGGCGTCTCATTGCTGATATT -TTGCCTGATACCGTTGCGTTTCAATGGTCGCGTACCGAACCCTCGCAGGATTTGCTGGAGTTGGTGCAAAACCCG -GACTATCAGCCAATGGTGGTCTTTCCCGCTTCGTATGCTGATGAGCAACGGGAAGTGATCTTCACACCACCTGCC -GGTAAGCCACCGCTGTTTATCATGCTCGATGGTACCTGGCCGGAAGCTCGCAAGATGTTTCGTAAAAGTCCGTAT -CTGGATAATCTTCCCGTCATTTCCGTCGATCTTTCCCGGCTTTCTGCCTATCGCCTGCGTGAAGCCCAGGCTGAA -GGCCAATATTGTACTGCCGAGGTAGCCATCGCACTGTTAGATATGGCCGGCGATACCGGGGCGGCGGCAGGGTTA -GGCGAGCATTTTACCCGCTTTAAAACACGCTATCTGGCAGGAAAAACGCAACATCTGGGTAGCATCACAGCAGAA -CAGTTAGAAAGCGTTTAAAATCATTCGGTCACTTCTGCGGGAGACCGGTATGAGTCAGCGAGGACTGGAAGCACT -ACTGCGACCAAAATCGATAGCGGTAATTGGCGCGTCGATGAAACCCAATCGCGCAGGTTACCTGATGATGCGTAA -CCTGCTGGCGGGAGGCTTTAACGGACCGGTACTCCCGGTGACGCCAGCCTGGAAAGCGGTGTTGGGTGTGTTGGC -CTGGCCGGATATTGCCAGCTTGCCCTTTACACCCGACCTTGCGGTTTTATGTACCAATGCCAGCCGTAATCTTGC -TCTTCTGGAAGAGCTCGGCGAGAAAGGCTGTAAAACCTGCATTATTCTTTCCGCCCCGGCATCGCAACACGAAGA -TCTCCGCGCCTGCGCCCTGCGCCATAACATGCGCCTGCTTGGACCAAACAGTCTGGGTTTACTGGCTCCCTGGCA -AGGTCTGAATGCCAGCTTTTCGCCTGTGCCGATTAAACGCGGCAAGCTGGCGTTTATTTCGCAATCGGCTGCCGT -CTCCAACACCATCCTCGACTGGGCGCAACAGCGTAAGATGGGCTTTTCCTACTTTATTGCGCTCGGCGACAGCCT -GGATATCGACGTTGATGAATTGCTTGACTATCTGGCACGCGACAGTAAAACCAGCGCCATCCTGCTCTATCTCGA -ACAGTTAAGCGACGCGCGACGCTTTGTTTCGGCGGCCCGTAGTGCCTCGCGTAATAAACCGATTCTGGTGATTAA -AAGCGGACGTAGCCCGGCGGCACAGCGACTGCTCAACACGACGGCAGGAATGGACCCGGCATGGGATGCGGCTAT -TCAGCGTGCCGGTTTGTTGCGGGTACAGGACACCCACGAGCTGTTTTCGGCGGTGGAAACCCTTAGCCATATGCG -CCCGCTACGTGGCGACCGGCTGATGATTATCAGCAACGGTGCTGCGCCTGCCGCGCTGGCGCTGGATGCCTTATG -GTCACGCAATGGCAAGCTGGCAACGCTAAGCGAAGAAACCTGCCAGAAACTGCGCGATGCACTGCCAGAACATGT -GGCAATATCTAACCCGCTCGATCTACGCGATGACGCCAGCAGTGAGCACTATATTAAAACGCTGGATATTCTGCT -CCACAGCCAGGATTTTGACGCGCTGATGGTTATTCATTCGCCCAGCGCCGCTGCTCCCGCAACAGAAAGCGCGCA -AGTATTAATTGAAGCGGTAAAGCATCATCCCCGCAGCAAATATGTCTCTTTGCTGACGAACTGGTGCGGCGAGCA -CTCCTCGCAAGAGGCACGACGTTTATTCAGCGAAGCCGGGCTGCCGACCTACCGTACCCCGGAAGGAACCATCAC -TGCTTTTATGCATATGGTGGAGTACCGGCGTAATCAGAAGCAACTACGCGAAACGCCGGCGTTGCCCAGCAATCT -GACTTCCAATACCGCAGAAGCGCATCTTCTGTTGCAACAGGCGATTGCCGAAGGGGCTACGTCGCTCGATACCCA -TGAAGTTCAGCCCATCCTGCAAGCGTATGGCATGAACACGCTCCCTACCTGGATTGCCAGCGATAGCACCGAAGC -GGTGCATATTGCCGAACAGATTGGTTATCCGGTGGCGCTGAAATTGCGTTCGCCGGATATTCCACATAAATCGGA -AGTTCAGGGCGTCATGCTTTACCTGCGTACAGCCAATGAAGTCCAGCAAGCGGCGAACGCTATTTTCGATCGCGT -AAAAATGGCCTGGCCACAGGCGCGGGTCCACGGCCTGTTGGTGCAAAGTATGGCTAACCGTGCTGGCGCTCAGGA -GTTGCGGGTTGTGGTTGAGCACGATCCGGTTTTCGGGCCGTTGATCATGCTGGGTGAAGGCGGTGTGGAGTGGCG -TCCTGAAGATCAAGCCGTCGTCGCACTGCCGCCGCTGAACATGAACCTGGCCCGCTATCTGGTTATTCAGGGGAT -CAAAAGTAAAAAGATTCGTGCGCGCAGTGCGCTACGCCCATTGGATGTTGCAGGCTTGAGCCAGCTTCTGGTGCA -GGTTTCCAACTTGATTGTCGATTGCCCGGAAATTCAGCGTCTGGATATTCATCCTTTGCTGGCTTCTGGCAGTGA -ATTTACCGCGCTGGATGTCACGCTGGATATCTCGCCGTTTGAAGGCGATAACGAGAGTCGGCTGGCAGTGCGCCC -TTATCCGCATCAGCTGGAAGAATGGGTAGAATTGAAAAACGGTGAACGCTGCTTGTTCCGCCCGATTTTGCCAGA -AGATGAGCCACAACTTCAGCAATTCATTTCGCGAGTCACCAAAGAAGATCTTTATTACCGCTACTTTAGCGAGAT -CAACGAATTTACCCATGAAGATTTAGCCAACATGACACAGATCGACTACGATCGGGAAATGGCGTTTGTAGCGGT -ACGACGTATTGATCAAACGGAAGAGATCCTCGGCGTCACGCGTGCGATTTCCGATCCTGATAACATCGATGCCGA -ATTTGCTGTACTGGTTCGCTCGGATCTCAAAGGGTTAGGCTTAGGTCGACGCTTAATGGAAAAGTTGATTACCTA -TACGCGAGATCACGGACTACAACGTCTGAATGGTATTACGATGCCAAACAATCGTGGCATGGTGGCGCTAGCCCG -CAAGCTCGGGTTTAACGTTGATATCCAGCTCGAAGAGGGGATCGTTGGGCTTACGCTAAATCTTGCCCAGCGCGA -GGAATCATGAGTAAGGTACTGGAAATGTTGACCACTTAATCGGGACTGGTGTTATTATTGCCCGCTTATGTCGTC -TGCATTGCACAGAGGACCCTTCAATGAACAGAGAAGAAATGCACTGTGATGTTGTCAAAATTTAAGCGTAATAAA -CATCAACAACACCTTGCCCAACTACCCAAGATTTCTCAATCAGTTGATGATGTCGATTTCTTTTACGCTCCCGCC -GACTTCCGGGAGACGCTGCTGGAAAAAATAGCCAGCGCGAAGCAGCGCATTTGCATTGTCGCCCTGTATCTCGAA -CAGGATGACGGTGGCAAAGGCATTCTGAACGCGTTGTATGAGGCTAAAAGGCAGCGTCCGGAACTGGATGTGCGG -GTGCTGGTCGACTGGCATCGTGCACAACGTGGACGCATTGGCGCTGCGGCATCTAACACTAACGCTGACTGGTAC -TGCCGCATGGCGCAGGAAAATCCGGGCGTAGATGTTCCGGTTTATGGCGTTCCAATCAATACTCGTGAAGCCCTT -GGTGTTCTGCACTTTAAAGGCTTTATCATCGACGATAGCGTACTTTATAGCGGTGCCAGCCTGAACGATGTTTAC -CTGCATCAGCACGATAAATATCGCTACGACCGTTATCATCTGATCCGTAACCGTAAGATGTCAGACATTATGTTT -GAATGGGTTACACAGAATATTATGAATGGCCGCGGCGTTAATCGTCTGGATGATGTTAATCGGCCAAAAAGCCCG -GAAATCAAGAACGATATTCGTCTGTTCCGCCAGGAGCTGCGTGATGCCGCTTATCATTTCCAGGGCGATGCCGAC -AACGATCAGCTTTCTGTAACGCCGCTAGTGGGGCTGGGGAAATCGAGTCTGTTGAACAAGACCATTTTCCATCTT -ATGCCTTGTGCCGAGCAGAAACTAACCATCTGTACGCCATACTTCAACCTGCCAGCAATCCTTGTGCGCAATATT -ATCCAGTTGCTGCGCGAAGGGAAAAAGGTCGAAATTATTGTTGGTGATAAAACCGCGAATGACTTCTACATTCCG -GAAGATGAACCTTTCAAGATAATTGGCGCATTGCCTTATCTCTATGAGATCAATCTGCGTCGTTTCCTGAGCCGT -TTGCAGTATTACGTCAATACTGACCAGCTAGTGGTTCGGTTATGGAAAGATGACGACAACACCTATCACCTGAAA -GGGATGTGGGTTGATGATAAGTGGATGTTGATCACCGGTAATAACCTGAACCCGCGCGCCTGGCGTCTGGATCTG -GAAAACGCCATTTTGATCCACGATCCGCAACTTGAGCTGGCGCCACAGCGAGAGAAAGAACTGGAGCTGATCCGC -GAGCATACCACCATCGTTAAGCACTATCGCGATCTGCAAAGTATTGCCGATTATCCGGTGAAGGTTCGTAAACTC -ATCCGCCGTTTGCGCCGTATCCGCATCGACCGATTAATTAGCCGCATCCTGTAATCACAACCCCGTCCTGTACGG -GGTTTGTTTTTTGGAGGCCACGTTTTGCGTATTCTTTTTGTCTGTTCGCTATTGTTACTTTCTGGATGCAGCCAT -ATGGCTAACGATAGCTGGAGCGGGCAGGATAAAGCTCAACACTTTATCGCCTCGGCGATGCTTTCCGCCGCCGGA -AATGAATATTCACAGCATCAGGGGATGAGCCGGGATCGCAGTGCCATGTTTGGATTGATGTTCTCTGTCAGTTTG -GGGGCGTCAAAAGAGCTTTGGGATAGCCGCCCCGAAGGGAGCGGCTGGAGCTGGAAGGATTTGGCCTGGGATGTC -GCCGGTGCAAGCACCGGCTATACCGTCTGGCAACTGACCCGTCACTAAAGACGCATCCCCTTCCCTTTGCGATGT -AGCATCAAAGAAACCAGAAACGCCACCACGGCCATCAAGGTCACATACCAGAAGAAGGCTGTTTCCATTCCTATT -GATTTCAGCGACAACGCTACGTACTCCGCCGAACCACCAAATATAGCATTAGCGACCGCATATGACAGACCAACG -CCTAATGCGCGAACCTGTGCCGGGAACATCTCAGCCTTCAGTATTCCACTGATTGATGTATAAAAACTCACTATC -AGCAGGGCACACATCACCAGACCAAAAGCGGCATAAGGCGAGGAAACGTTTTGCAATGCTGAGAGAATAGGAACG -GTAAAAATGGCTGCCAGCGAACCGAAACATAACATTGAGGTACGGCGACCAATCTTATCCGACAGCGCGCCAATG -AGTGGTTGAATAAGCATGAATACAAACAATGCGGCAGTCATAATGCCACTCGCCACGTTGGCATGCATTCCCGCA -GTATTTACCAGATACTTCTGCATATAAGTAGTGAAGGTATAGAAACAAAGGGAGCCCGCAGCGGTAAAACCGAGA -ACCATGATGAATGCACGGCGATTGCGCCATAATCCTTTCAGAGATCCAGCTTCTTTTAAAGCGCGCGTTTCTTGT -TGCGAAGTTTCATCTAACTGACGACGTAACCACAACGCCACAACAGCTAACACAGCTCCTAACGCGAAAGGAATA -CGCCATCCCCACTCTCTGAGTGCAGCGTCTTCCATGGTGTGTTGTAAAACCACGACAACCAGTAGGGCTAGCAGT -TGTCCGCCGATCAACGTCACATACTGAAATGATGCGTAAAAACCTTTGCGCCCTTCAACGGCAACTTCACTCATA -TAGGTGGCGCTGGTGCCATATTCTCCGCCAACAGATAATCCCTGAAATAAACGAGCGAGAAGCAATAATGCCGGA -GCCCACGTACCTATAGTTTCATAACCTGGGAGGCAGGCGATAACCAGCGATCCGAAACACATCATACACACCGAT -AACAGCATCGATTTTTTGCGACCATGTTTATCGGCTATGCGGCCAAATAGCCAACCGCCTATTGGGCGCATCAGG -AATCCCGCAGCAAAAACACCTGCTGTTTGTAGTAGTTGAGTCGTCGTGTTCCCGGAAGGGAAGAAGATGTGGGCA -AAGTAGAGTGAACAGAACGAGTAGACATAGAAATCGAACCACTCGACCAGATTACCTGAAGAGGCCCCCACAATC -GCCCAAATGCGGCGACGAGTATCACTACTTGTCAGTTTGCTGTCTGCCGTTACAGTACTTTCAGCCATGCCATTA -TGTCTCCTGCCGTAATCCGATGCTTTTGTCGGTCGCTTTTGTTTATTTTTTTTGTAAAGGAAATATTATACATTT -GTTGCATATCATTATGCAACCTTAACCATGAATTTAGTTAGCAGGAAAATGGTTATTGAGGAGCTTAAGGATAAA -TTTCTGGTAAGGAGGACACGTATGGAAGTGGGCAAGTTGGGGAAGCCGTATCCGTTGCTGAATCTGGCATATGTG -GGAGTATAAGACGCGCAGCGTCGCATCAGGCATTTTTTTCTGCGCCAATGCAAAAAGGCCATCCGTCAGGATGGC -CTTTCGCATAATTTGATGCCTGGCAGTTCCCTACTCTCGCATGGGGAGACCCCACACTACCATCGGCGCTACGGC -GTTTCACTTCTGAGTTCGGCATGGGGTCAGGTGGGACCACCGCGCTACGGCCGCCAGGCAAATTCTGTTTTATCA -GACCGCTTCTGCGTTCTGATTTAATCTGTATCAGGCTGAAAATCTTCTCTCATCCGCCAAAACAGCTTCGGCGTT -GTAAGGTTAAGCCTCACGGTTCATTAGTACCGGTTAGCTCAACGCATCGCTGCGCTTACACACCCGGCCTATCAA -CGTCGTCGTCTTCAACGTTCCTTCAGGACCCTTAAAGGGTCAGGGAGAACTCATCTCGGGGCAAGTTTCGTGCTT -AGATGCTTTCAGCACTTATCTCTTCCGCATTTAGCTACCGGGCAGTGCCATTGGCATGACAACCCGAACACCAGT -GATGCGTCCACTCCGGTCCTCTCGTACTAGGAGCAGCCCCCCTCAGTTCTCCAGCGCCCACGGCAGATAGGGACC -GAACTGTCTCACGACGTTCTAAACCCAGCTCGCGTACCACTTTAAATGGCGAACAGCCATACCCTTGGGACCTAC -TTCAGCCCCAGGATGTGATGAGCCGACATCGAGGTGCCAAACACCGCCGTCGATATGAACTCTTGGGCGGTATCA -GCCTGTTATCCCCGGAGTACCTTTTATCCGTTGAGCGATGGCCCTTCCATTCAGAACCACCGGATCACTATGACC -TGCTTTCGCACCTGCTCGCGCCGTCACGCTCGCAGTCAAGCTGGCTTATGCCATTGCACTAACCTCCTGATGTCC -GACCAGGATTAGCCAACCTTCGTGCTCCTCCGTTACTCTTTAGGAGGAGACCGCCCCAGTCAAACTACCCACCAG -ACACTGTCCGCAACCCGGATTACGGGTCAACGTTAGAACATCAAACATTAAAGGGTGGTATTTCAAGGTCGGCTC -CATGCAGACTGGCGTCCACACTTCAAAGCCTCCCACCTATCCTACACATCAAGGCTCAATGTTCAGTGTCAAGCT -ATAGTAAAGGTTCACGGGGTCTTTCCGTCTTGCCGCGGGTACACTGCATCTTCACAGCGAGTTCAATTTCACTGA -GTCTCGGGTGGAGACAGCCTGGCCATCATTACGCCATTCGTGCAGGTCGGAACTTACCCGACAAGGAATTTCGCT -ACCTTAGGACCGTTATAGTTACGGCCGCCGTTTACCGGGGCTTCGATCAAGAGCTTCGCTTGCGCTAACCCCATC -AATTAACCTTCCGGCACCGGGCAGGCGTCACACCGTATACGTCCACTTTCGTGTTTGCACAGTGCTGTGTTTTTA -ATAAACAGTTGCAGCCAGCTGGTATCTTCGACTGATTTCAGCTCCATCCGCGAGGGACCTCACCTACATATCAGC -GTGCCTTCTCCCGAAGTTACGGCACCATTTTGCCTAGTTCCTTCACCCGAGTTCTCTCAAGCGCCTTGGTATTCT -CTACCTGACCACCTGTGTCGGTTTGGGGTACGATTTGATGTTACCTGATGCTTAGAGGCTTTTCCTGGAAGCAGG -GCATTTGTTGCTTCAGCACCGTAGTGCCTCGTCATCACGCCTCAGCCTTGATTTTCCGGATTTGCCTGGAAAACC -AGCCTACACGCTTAAACCGGGACAACCGTCGCCCGGCCAACATAGCCTTCTCCGTCCCCCCTTCGCAGTAACACC -AAGTACAGGAATATTAACCTGTTTCCCATCGACTACGCCTTTCGGCCTCGCCTTAGGGGTCGACTCACCCTGCCC -CGATTAACGTTGGACAGGAACCCTTGGTCTTCCGGCGAGCGGGCTTTTCACCCGCTTTATCGTTACTTATGTCAG -CATTCGCACTTCTGATACCTCCAGCATGCCTCACAGCACACCTTCGCAGGCTTACAGAACGCTCCCCTACCCAAC -AACGCATAAGCGTCGCTGCCGCAGCTTCGGTGCATGGTTTAGCCCCGTTACATCTTCCGCGCAGGCCGACTCGAC -CAGTGAGCTATTACGCTTTCTTTAAATGATGGCTGCTTCTAAGCCAACATCCTGGCTGTCTGGGCCTTCCCACAT -CGTTTCCCACTTAACCATGACTTTGGGACCTTAGCTGGCGGTCTGGGTTGTTTCCCTCTTCACGACGGACGTTAG -CACCCGCCGTGTGTCTCCCGTGATAACATTCTCCGGTATTCGCAGTTTGCATCGGGTTGGTAAGTCGGGATGACC -CCCTTGCCGAAACAGTGCTCTACCCCCGGAGATGAATTCACGAGGCGCTACCTAAATAGCTTTCGGGGAGAACCA -GCTATCTCCCGGTTTGATTGGCCTTTCACCCCCAGCCACAAGTCATCCGCTAATTTTTCAACATTAGTCGGTTCG -GTCCTCCAGTTAGTGTTACCCAACCTTCAACCTGCCCATGGCTAGATCACCGGGTTTCGGGTCTATACCCTGCAA -CTTAACGCCCAGTTAAGACTCGGTTTCCCTTCGGCTCCCCTATTCGGTTAACCTTGCTACAGAATATAAGTCGCT -GACCCATTATACAAAAGGTACGCAGTCACACGCCTAAGCGTGCTCCCACTGCTTGTACGTACACGGTTTCAGGTT -CTTTTTCACTCCCCTCGCCGGGGTTCTTTTCGCCTTTCCCTCACGGTACTGGTTCACTATCGGTCAGTCAGGAGT -ATTTAGCCTTGGAGGATGGTCCCCCCATATTCAGACAGGATACCACGTGTCCCGCCCTACTCATCGAGCTCACAG -CATGTGCATTTTTGTGTACGGGGCTGTCACCCTGTATCGCGCGCCTTTCCAGACGCTTCCACTAACACACACACT -GATTCAGGCTCTGGGCTGCTCCCCGTTCGCTCGCCGCTACTGGGGGAATCTCGGTTGATTTCTTTTCCTCGGGGT -ACTTAGATGTTTCAGTTCCCCCGGTTCGCCTCATTAACCTATGGATTCAGTTAATGATAGTGTGTCGAAACACAC -TGGGTTTCCCCATTCGGAAATCGCCGGTTATAACGGTTCATATCACCTTACCGACGCTTATCGCAGATTAGCACG -TCCTTCATCGCCTCTGACTGCCAGGGCATCCACCGTGTACGCTTAGTCGCTTAACCTCACAACCCGAAGATGTTT -CACTTCAGAGTTGCGAAAATTTGAGAGACTCACGAACAACTTTCATTGTTCAGTGTTTCAATTTTCAGCTTGATC -CAGATTTTTAAAGAGCAAATATATCAAACAAGACTTAACAGTCTGTTTTGAGATATTGAGGTCGGCGACTTTCAC -TCACAAACCAGCAAGTGGCGTCCCCTAGGGGATTCGAACCCCTGTTACCGCCGTGAAAGGGCGGTGTCCTGGGCC -TCTAGACGAAGGGGACACGAAAATTGCTTATCACGCGTTGCGTGATATTTTCGTGTAGGGTGAGCTTTCATTAAT -AGAAAGCGAACGGCCTTATTCTCTTCAGCCTCACTCCCAACGCGTAAACGCCTTGCTATTCACTTTTCATCAGAC -AATCTGTGTGAGCACTGCAAAGTACGCTTCTTTAAGGTAAGGAGGTGATCCAACCGCAGGTTCCCCTACGGTTAC -CTTGTTACGACTTCACCCCAGTCATGAATCACAAAGTGGTAAGCGCCCTCCCGAAGGTTAAGCTACCTACTTCTT -TTGCAACCCACTCCCATGGTGTGACGGGCGGTGTGTACAAGGCCCGGGAACGTATTCACCGTGGCATTCTGATCC -ACGATTACTAGCGATTCCGACTTCATGGAGTCGAGTTGCAGACTCCAATCCGGACTACGACGCACTTTATGAGGT -CCGCTTGCTCTCGCGAGGTCGCTTCTCTTTGTATGCGCCATTGTAGCACGTGTGTAGCCCTGGTCGTAAGGGCCA -TGATGACTTGACGTCATCCCCACCTTCCTCCAGTTTATCACTGGCAGTCTCCTTTGAGTTCCCGGCCGGACCGCT -GGCAACAAAGGATAAGGGTTGCGCTCGTTGCGGGACTTAACCCAACATTTCACAACACGAGCTGACGACAGCCAT -GCAGCACCTGTCTCACGGTTCCCGAAGGCACATTCTCATCTCTGAAAACTTCCGTGGATGTCAAGACCAGGTAAG -GTTCTTCGCGTTGCATCGAATTAAACCACATGCTCCACCGCTTGTGCGGGCCCCCGTCAATTCATTTGAGTTTTA -ACCTTGCGGCCGTACTCCCCAGGCGGTCGACTTAACGCGTTAGCTCCGGAAGCCACGCCTCAAGGGCACAACCTC -CAAGTCGACATCGTTTACGGCGTGGACTACCAGGGTATCTAATCCTGTTTGCTCCCCACGCTTTCGCACCTGAGC -GTCAGTCTTCGTCCAGGGGGCCGCCTTCGCCACCGGTATTCCTCCAGATCTCTACGCATTTCACCGCTACACCTG -GAATTCTACCCCCCTCTACGAGACTCAAGCTTGCCAGTATCAGATGCAGTTCCCAGGTTGAGCCCGGGGATTTCA -CATCTGACTTAACAAACCGCCTGCGTGCGCTTTACGCCCAGTAATTCCGATTAACGCTTGCACCCTCCGTATTAC -CGCGGCTGCTGGCACGGAGTTAGCCGGTGCTTCTTCTGCGGGTAACGTCAATGAGCAAAGGTATTAACTTTACTC -CCTTCCTCCCCGCTGAAAGTACTTTACAACCCGAAGGCCTTCTTCATACACGCGGCATGGCTGCATCAGGCTTGC -GCCCATTGTGCAATATTCCCCACTGCTGCCTCCCGTAGGAGTCTGGACCGTGTCTCAGTTCCAGTGTGGCTGGTC -ATCCTCTCAGACCAGCTAGGGATCGTCGCCTTGGTGAGCCGTTACCCCACCAACAAGCTAATCCCATCTGGGCAC -ATCCGATGGCAAGAGGCCCGAAGGTCCCCCTCTTTGGTCTTGCGACATTATGCGGTATTAGCTACCGTTTCCAGT -AGTTATCCCCCTCCATCAGGCAGCTTCCCAGACATTACTCACCCGTCCGCCACTCGTCAGCGAAGCAGCAAGCTG -CTTCCTGTTACCGTTCGACTTGCATGTGTTAGGCCTGCCGCCAGCGTTCAATCTGAGCCATGATCAAACTCTTCA -ATTTAAAAGTTTGATGCTCAAAGAATTAAACTTCGTAATGAATTACGTGTTCACTCTTGAGACTTGGTATTCATT -TTTCGTCTTGCGACGTTAAGAATCCGTATCTTCGAGTGCCCACACAGATTGTCTGATAAATTGTTAAAGAGCAGT -GCCGCTTCGCTTTTTCTCAGCGGCGCGGGGTGTGCATAATACGCCTTCCCGCTACAGAGTCAAGCATTTCTTTGC -TTTTCTCTGTTGAGATTCTCAGGAGAACCCCGCCGACCCGGCGGCGTGTTTGCCGTTGTTCCGTGTCAGTGGTGG -CGCATTATAGGGAGTTATTCCGGCCTGACAAGCGAAAAATATAAAAACTTTATCGTTCGCTCACTTTTCAGGCAA -AACATCTTAAATATAGTCTTTTCCGTCTAACTTATAGACAAAAACGAGCCCCGAAGGGCTCGTTTTATCATTTAC -TGGACGGCGACAATCCGGTCTTCATTAACTTCCAGGCGAATCACTTTACCCGGAACCAATTCACCAGACAGTATT -TGCTGTGCCAGCGGGTTTTCGATCTGCTGCTGAATTGCACGTTTCAGAGGACGTGCACCATAGACCGGATCGTAA -CCGTTCTCGCTCAGCAGTTTCAGCGCCTCGTCAGAAATGTGGATTTCATAACCACGTTCTTCCAGACGTTTGTAC -AGACGTTTCAACTGAATCTGCGCAATCGAGGCAATGTGCTGTTCACCCAGCGGATGGAAGACCACCACTTCATCG -ATACGGTTAATGAATTCCGGACGGAAGTTATGGCTTACCACACCGAGCACCAGCTCTTTCATGTGCGCATAATCC -AGTTCACCGAAGCGTTCCTGAATCAGATCGGAACCGAGGTTAGAGGTCATAATGACGACCGTATTACGGAAGTCG -ACCGTTCTCCCTTGCCCGTCAGTCAGACGCCCATCATCCAGTACCTGCAACAGAATGTTGAAGACATCCGGATGC -GCTTTTTCCACTTCATCCAGCAGGATGACGGAATACGGACGACGACGCACCGCTTCGGTCAGGTAGCCACCTTCT -TCATAACCGACATATCCCGGAGGCGCACCAACCAAACGAGACACCGAGTGTTTCTCCATAAACTCGGACATATCG -ATACGGACCATCGCCTCGTCGCTATCAAACATAAAGTTCGCCAGCGCCTTACAAAGCTCTGTTTTCCCCACACCA -GTTGGGCCGAGGAACAGGAATGAACCAATCGGGCGATTTGGATCCGCCAGCCCCGCACGGCTACGACGAATAGCG -TTAGATACCGCATCAACCGCTTCGTTCTGACCAATTACGCGATGGTGCAGTTCTTGCTCCATACGCAGCAGTTTT -TCGCGCTCGCTTTCCATCATGCGAGAAACCGGAATCCCCGTCCAACGCGCCAGCACTTCAGCAATTTCGGCGTCG -GTCACTTTATTACGCAACAGACGCATAGTTTTGCCTTCGAGCTGCGTTGCGGCTTCCAGTTGCTTTTCCAGTTCC -GGGATTTTGCCGTATTGCAGTTCAGACATCCGCGCCAGGTCCCCCACACGGCGAGCCTGTTCAATAGCGATTTTC -GCCTGTTCCAGTTCCGCTTTAATGGTCTGCGTACCAGAAAGCGATGCCTTCTCTGCTTTCCACTCTTCTTCTAAC -TCGGAGTACTGACGTTCTTTGTCGCTCAGTTCTTCGTTGAGCATATCCAGACGTTTTTTACTGGCTTCATCAGAC -TCTTTCATTAACGCCTGTTGTTCCAGTTTGAGCTGGATGATACGACGATCGAGTCGGTCGAGTTCTTCTGGTTTT -GAGTCAATCTGCATACGAATGCTGGATGCTGCTTCATCGATCAGGTCGATGGCTTTATCCGGCAGCTGACGGTCA -GCAATGTAGCGATGAGACAACGTCGCCGCTGCAACAATTGCCGGGTCAGTAATTTGCACATGGTGGTGCAATTCG -TAACGTTCTTTCAGGCCACGCAGAATCGCAATGGTATCTTCAACAGAAGGCTCGGCAACAAACACTTTCTGGAAA -CGACGTTCCAGCGCAGCATCTTTTTCAATGTACTGGCGATATTCGTCAAGCGTCGTGGCACCTACGCAGTGCAAT -TCACCACGCGCCAGCGCCGGTTTCAGCATGTTTCCGGCGTCCATTGCGCCATCGGCTTTACCCGCGCCGACCATG -GTATGTAATTCGTCGATAAATAGGATGACGTTGCCTTCCTGTTTGGCAAGATCGTTAAGCACGCCTTTTAAACGT -TCTTCAAACTCACCGCGATATTTCGCCCCAGCCACCAGCGCGCCCATATCCAGCGCCAGTACCCGGCGGCCTTTC -AACCCTTCCGGCACTTCGCCGTTGATAATACGCTGCGCCAGACCTTCAACGATGGCAGTTTTACCGACGCCGGGT -TCACCAATCAGTACCGGGTTATTTTTAGTACGACGTTGCAGCACCTGAATGGTACGGCGAATTTCTTCATCACGA -CCAATCACCGGATCGAGTTTGCCCTGTTCGGCTCGTTCGGTAAGGTCGATGGTATATTTTTTCAAAGCCTGACGT -TGGTCTTCAGCACCTTGATCGTTCACGCTTTCACCTCCACGCATTTGTTCAATCGCTTGAGTAATGTTGGCGGTG -GTCGCCCCTGCTGCTTTCAGGATGTCGGCCAGCGTGCCGCGAGACTCAAGTGCCGCCAGAACGAACAGTTCTGAC -GAGATAAAGTTATCACCACGTTTTTGCGCCAGCTTGTCGCAAAGATTAAGAACGCGCACCAGATCCTGTGATGGC -TGGACATCACCACCAGTACCTTCAACCTGCGGTAAACGATTTAATGCCTGATTGATATCTGTGCGCAACTGGCCA -GCATTTATGCCAGCGGATGTTAATAAAGGACTAACCGAACCCCCTTCCTGATTCAGCAGGGCGCTCATTAAATGA -AGTGGTTCGATAAATTGGTTGTCGTGCCCGAGTGCAAGTGATTGGGCATCGGCAAGAGCAAGCTGGAATTTATTA -GTAAGACGATCCAGACGCATAACTCCTCCCATAACGGATCAAAGTTGCTACTGGAGATTAAATGAGGTCATCCCT -CAATTATTCAAGGTTATTGACCAGATTAATGTGAAAAGAAAATCACGCGTACCGGATCGTCTTGATTCTTTAGGT -TATATCAGCCAAATGAAACTTGCCATACGACCGGTGGTCTTGTCGCGACGATAAGAGAAGAAAGTCTCATTTTCC -GTATATGTACAACGGTCGCCGCCGAAAATTTGCTCAACACCCACGTTCGCCAGACGCTGCCGGGCAAGCTGATAA -ATATCCGCCAGATACTTATCACCATGCTGAATGAAAGCTGCACTTGCTTTAGCGTCTACTGCCATAAACGCCTCG -CGAACCTCCCCCCCCACTTCGAACGCGCGTGGACCAATTGCCGGCCCTAACCAGGCGAGAATATTTTCCGGATTA -TCAGCAAAACAGGAAACCGTCTCTTCCAGCACGCCTGCGCACAGTCCACGCCAGCCAGCATGAGCGGCGGCGACT -TCCGTTCCCGCTCGATTGCAAAACAGCACAGGGAGGCAGTCGGCAGTCATCACTGCGCAAACCGTGCCGGGCGTA -TTGCTATAAGAGGCATCCGCCCGTTTTGAGGCATAAGGTTCGCCAGTGAGCTTAAGCACATCTTTGCCGTGTACC -TGCTCAAGCCAGACCGGTTTAGAAGGCAAATTGCCCGCAGCAAAAAGTCGCTTGCGATTCTCCTCAACGTGATCC -GGGTTATCGCCACAATGGGCACCGAGGTTGAGTGAGTCATACGGGGGCAAGCTCACGCCGCCGATACGAGTGGAG -CTACAGGCCGCAACACCTTTTGGCTGCGGCCACTGCGGGACAATCAGCTTACTCATAACCAGTCCACTTCATCCT -TATGTTCTTCGAAATCGGCGCGCATCACCTCAATCAGCTCCACCATATCTTGTGGAATAGGCGCATGCCATTCCA -TTTCGATGCCGGAGATCGGGTGATAAAGACGCAGCATGGTTGCATGTAGCGCCTGGCGGTCAAACTTACGCAGCG -TGGAGATAAATGCTTCCGAAGCACCTTTTGGCGGACGCGGACGGCCACCATAAACCGGATCGCCCACCAGCGGAT -GAGTGATATGGGCCATATGCACGCGGATCTGGTGCGTACGTCCAGTTTCCAGACGCAACCGCAGACGCGTGTGCA -CACGGAAGTGTTCCATGATGCGATAGTGAGTCACCGCTGGTTTGCCCATCGGATGCACCGCCATATGGGTACGTT -TGGTCGGGTGGCGACTGATTGGCTCGTCCACCGTGCCACCTGCGGTCATATGACCAATCGCCACCGCTTCATACT -CACGAGTAATTTCACGCCGTTGCAAAGATTCGACTAAACGCGTCTGAGCCGGAACGGTTTTTGCCACAACCATCA -GGCCAGTGGTGTCTTTATCCAGACGATGGACGATGCCCGCACGCGGTACATCGGCAATGGGTGGATAGTAATGAA -GCAACGCATTCAGTACCGTGCCATCCGGGTTACCCGCGCCAGGATGTACCACCAGGTCGCGCGGTTTATTAATGA -TAATAATGTCTTCATCTTCATAGACGATATCCAGCGGGATATCCTGCGGTTCAAAACGCGCTTCTTCTTCAATCT -CAGCGTTGATGGCAACCTGCTCGCCACCCAATACTTTTTCTTTCGGCTTATCACAAACTTTGCCGTTAACCAGCA -CTCGCTGGTCGAGGATCCATTCTTTTATTCGCGAACGTGAATAATCCGGGAACATTTCGGCCAAAGCCTGATCTA -AGCGTTGACCGAGTTGGTTTTCGGACACCGTTGCAGTGAGCTGTACTCGTTGTGCCATATATACTGCTTCTTCGT -TTATCGTTGGGGTTTTACGGCTTTGCCGTTTAATATAGTGTGCTATTGTAGCTGGTCTTAACCGGGAGCAGGAAC -AGAGAATCTCCCGTATTACATTTTGAGGAAAGTCAAAACGTCATGACGCGCATGAAATATCTGGTGGCAGCCGCC -ACACTAAGCCTGTTTTTGGCGGGTTGCTCGGGGTCAAAGGAAGAAGTACCTGATAATCCGCCAAATGAAATTTAC -GCGACTGCACAACAAAAGCTGCAGGACGGTAACTGGAGACAGGCAATAACGCAACTGGAAGCGTTAGATAATCGC -TATCCGTTTGGTCCGTATTCGCAGCAGGTGCAGCTGGATCTCATCTACGCCTACTATAAAAACGCCGATTTGCCG -TTAGCACAGGCTGCCATCGATCGTTTTATTCGCCTTAACCCGACCCATCCGAATATCGATTATGTCATGTACATG -CGTGGCCTGACCAATATGGCGCTGGATGACAGTGCGCTGCAAGGGTTCTTTGGCGTCGATCGTAGCGATCGCGAT -CCTCAACATGCACGAGCTGCGTTTAGTGACTTTTCCAAACTGGTGCGCGGCTATCCGAACAGTCAGTACACCACC -GATGCCACCAAACGTCTGGTATTCCTGAAAGATCGTCTGGCGAAATATGAATACTCCGTGGCCGAGTACTATACA -GAACGTGGCGCATGGGTTGCCGTCGTTAACCGCGTAGAAGGCATGTTGCGCGACTACCCGGATACCCAGGCTACG -CGTGATGCGCTGCCGCTGATGGAAAATGCATACCGTCAGATGCAGATGAATGCGCAAGCTGAAAAAGTAGCGAAA -ATCATCGCCGCAAACAGCAGCAATACATAACAGAAACCTGAAACACAAAACGGCAGCCCTTGAGCTGCCGTTTTT -TTATTCTGTCAGTTGTGAAACTGAAGCGATTTAGTCGCTATCGATCTCATCAAATATGGCTCGCTTTGAGATATT -CCTCAAGTAAAAAAACATCTCTTCCTGCGATTTCTCACAAAAAAGATTCGTTGACAAAAAGTGACAAAATTATGA -GATTTTCATCACACATTTTGACATCAGGAACGGTATGCTGAATTCACCAAGACGGGAAGACAAGAGGTAAAATTT -ATGACAATGAACATTACCAGCAAACAAATGGAAATTACTCCGGCCATCCGCCAACATGTCGCAGACCGTCTCGCC -AAACTGGAAAAATGGCAAACACATCTGATTAATCCACATATCATTCTGTCCAAAGAGCCACAAGGGTTTGTTGCT -GACGCCACAATCAATACACCTAACGGCGTTCTGGTTGCCAGTGGTAAACATGAAGATATGTACACCGCAATTAAC -GAATTGATCAACAAGCTGGAACGGCAGCTCAATAAACTGCAGCACAAAGGCGAAGCACGTCGTGCCGCAACATCG -GTGAAAGACGCCAACTTCGTCGAAGAAGTTGAAGAAGAGTAGTCCTTTATATTGAGTGTATCGCCAACGCGCCTT -CGGGCGCGTTTTTTGTTGACAGCGTGAAAACAGTACGGGTACTGTACTAAAGTCACTTAAGGAAACAAACATGAA -ACACATACCGTTTTTCTTCGCATTCTTTTTTACCTTCCCCTGAATGGGAGGCGTTTCGTCGTGTGAAACAGAATG -CGAAGACGAACAATAAGGCCTCCCAAATCGGGGGGCCTTTTTTATTGATAACAAAAAGGCAACACTATGACATCG -GAAAACCCGTTACTGGCGCTGCGAGAGAAAATCAGCGCGCTGGATGAAAAATTATTAGCGTTACTGGCAGAACGG -CGCGAACTGGCCGTCGAGGTGGGAAAAGCCAAACTGCTCTCGCATCGCCCGGTACGTGATATTGATCGTGAACGC -GATTTGCTGGAAAGATTAATTACGCTCGGTAAAGCGCACCATCTGGACGCCCATTACATTACTCGCCTGTTCCAG -CTCATCATTGAAGATTCCGTATTAACTCAGCAGGCTTTGCTCCAACAACATCTCAATAAAATTAATCCGCACTCA -GCACGCATCGCTTTTCTCGGCCCCAAAGGTTCTTATTCCCATCTTGCGGCGCGCCAGTATGCTGCCCGTCACTTT -GAGCAATTCATTGAAAGTGGCTGCGCCAAATTTGCCGATATTTTTAATCAGGTGGAAACCGGCCAGGCCGACTAT -GCCGTCGTACCGATTGAAAATACCAGCTCCGGTGCCATAAACGACGTTTACGATCTGCTGCAACATACCAGCTTG -TCGATTGTTGGCGAGATGACGTTAACTATCGACCATTGTTTGTTGGTCTCCGGCACTACTGATTTATCCACCATC -AATACGGTCTACAGCCATCCGCAGCCATTCCAGCAATGCAGCAAATTCCTTAATCGTTATCCGCACTGGAAGATT -GAATATACCGAAAGTACGTCTGCGGCAATGGAAAAGGTTGCACAGGCAAAATCACCGCATGTTGCTGCGTTGGGA -AGCGAAGCTGGCGGCACTTTGTACGGTTTGCAGGTACTGGAGCGTATTGAAGCAAATCAGCGACAAAACTTCACC -CGATTTGTGGTGTTGGCGCGTAAAGCCATTAACGTGTCTGATCAGGTTCCGGCGAAAACCACGTTGTTAATGGCG -ACCGGGCAACAAGCCGGTGCGCTGGTTGAAGCGTTGCTGGTACTGCGCAACCACAATCTGATTATGACCCGTCTG -GAATCACGCCCGATTCACGGTAATCCATGGGAAGAGATGTTCTATCTGGATATTCAGGCCAATCTTGAATCAGCG -GAAATGCAAAAAGCATTGAAAGAGTTAGGGGAAATCACCCGTTCAATGAAGGTATTGGGCTGTTACCCAAGTGAG -AACGTAGTGCCTGTTGATCCAACCTGATGAAAAGGTGCCGGATGATGTGAATCATCCGGCACTGGATTATTACTG -GCGATTGTCATTCGCCTGACGCAATAACACGCGGCTTTCACTCTGAAAACGCTGTGCGTAATCGCCGAACCAGTG -CTCCACCTTGCGGAAACTGTCAATAAACGCCTGCTTATCGCCCTGCTCCAGCAACTCAATCGCCTCGCCGAAACG -CTTATAGTAACGTTTGATTAACGCCAGATTACGCTCTGACGACATAATGATGTCGGCATAAAGCTGCGGATCCTG -AGCAAACAGTCGCCCGACCATCGCCAGCTCAAGGCGGTAAATCGGCGAAGAGAGCGCCAGAAGTTGCTCAAGCTG -AACATTTTCTTCTGCCAGGTGCAGCCCGTAAGCAAAAGTAGCAAAGTGGCGCAGTGCCTGAATAAACGCCATATT -CTGATCGTGCTCGACGGCGCTAATACGATGCAGCCGAGCGCCCCAGACCTGAATTTGCTCCAGAAACCATTGGTA -TGCTTCCGGTTTACGTCCATCACACCAGACCACAACTTGCTTTGCCAGGCTACCGCTGTCCGGACCGAACATCGG -GTGTAGCCCCAGCACCGGACCATCATGCGCCACCAGCATGGCCTGTAATGGCCCATTTTTCACTGATGCCAGATC -GACCAGAATACAATCTTTCGGTAAAGGCGGTAATTTGCCAATAACTTGCTCAGTAACGTGGATTGGCACACTAAC -AATCACCATTCCGGCATCGGCAACAATATCAGCCGCTCGATCCCAGTCATGTTGCTCCAGAATCCGCACCTGATA -ACCCGAGAGGGTCAGCATCTTCTCGAACAGGCGTCCCATCTGACCGCCACCGCCGACGATAACCACCGGACGCAG -TGACGGACAAAGTGTTTTAAATCCTTTGTCGTTTTCACTGGAGTAAGATTCACGCATCACCCGACGCAAAACATC -CTCAATCAGATCTGGCGGTACACCCAGAGCTTCCGCCTCTGCACGACGCGAGGCCAACATAGATGCCTCGCGCTC -CGGAACATAAATAGGCAGTCCAAAGCGGCTTTTCACCTCGCCCACTTCAGCAACCAGTTCCAGACGCTTCGCTAA -TAAATTCAGCAGCGCTTTATCGACTTCATCAATTTGATCGCGTAATGCGGTCAATTCAGCAACCATAATAAACCT -CTTAAGCCACGCGAGCCGTCAGCTGCCCGTTCAGATCCTGATGAATTTCACGCAGCAAGGCATCGGTCATTTCCC -AGCTAATGCAGGCATCGGTTACGGATACACCGTATTTCATTTCACTGCGCGGTTGCTCGGAAGACTGATTGCCCT -CGTGGATATTACTTTCGATCATCAGACCAATAATTGAGCGATTGCCATCTTTGATTTGAGCAACCACGGATTCTG -CCACCGCAGGCTGACGGCGATAATCTTTATTGGAATTACCGTGGCTGCAATCTACCATCAGAGACGGGCGCAGTC -CCGCCTGTTCCATCTCTTTTTCACATTGCGCAACATCCGCAGGGCTATAGTTCGGCGCTTTACCACCGCGCAGGA -TCACATGGCCGTCCGGATTCCCCTGAGTTTGTAGCAACGCAACCTGCCCTGCCTGGTTAATGCCAACAAAACGGT -GCGGCTGGGCGGCGGCGCGCATAGCGTTAATTGCTGTTGCCAGACTGCCGTCGGTGCCGTTTTTAAAACCAACCG -GCATGGAAAGCCCGGAGGCCATTTCACGGTGAGTTTGCGATTCCGTTGTACGAGCACCAATTGCTGACCAGCTAA -ACAGATCGCCCAGGTATTGCGGGCTATTCGGATCTAACGCTTCCGTCGCCAGTGGCAGTCCCATATTCACCAGCT -CAAGCAGCAATTTACGCGCGATCTGCAGCCCGGCTTCTACATCAAAAGAGCCATCCATATGGGGATCGTTAATTA -ACCCTTTCCAGCCGACAGTGGTACGGGGTTTTTCAAAATAGACGCGCATTACCAGATAGAGGCTATCGCTGACCT -CTGCGGCAAGGGCTTTAAATCGACGAGCATATTCCAGAGCAGTTTCCGGATCATGAATGGAACAAGGACCACATA -CTACCAGCAGACGAGGATCGCGCCCGGCGATAATATCTGAAATGCTTTTACGCGAGTCAGCAATCTGGGCTTCTT -GTTGCAGGCTCAATGGAAAAGCGGCCTTCAGTTGTTCCGGAGTCATTAAAACCTGTTCGTCGGTAATATGTACGT -TATTCAGCGCGTCTTTTTGCATGATGGCGATCCTGTTTATGCTCGTTTGCGATAGTTGATCCTCAGCGAGGATGA -CGTAACGATAACACATAAAGTAAAGTTTTCAATCCATATTTCGTACATTTTTATTTACACAGGCAATTTAGTCGC -GCTTTCAACCCTTACCTCTGTATAGATAAATTTACACTCCCTTTGAAAACAATCCGCTATGCTTTGAAAAAGGAG -AAAGAAATGATGAAAAAGTTTATCGCCCCCTTGTTGGCTTTACTGGTTAGCGGATGTCAGATTGATCCTTATACT -CACGCGCCAACCTTGACCAGCACCGACTGGTATGATGTCGGTATGGAAGATGCGATATCGGGCAGCGCCATAAAA -GATGACGATGCATTTAGCGATTCACAGGCGGATCGCGGTCTATACCTTAAAGGATATGCCGAAGGACAAAAGAAA -ACTTGCCAGACCGATTTTACTTATGCCCGAGGACTTTCCGGTAAAAGCTTTCCTGCCAGCTGCAACAATGTTGAA -AATGCCAGCCAACTGCATGAAGTATGGCAAAAAGGGGCTGATGAAAATGCCAGCACAATACGATTAAATTAATTA -AAACCCCACAAATAAATTAAACATAAGATTTTACTCATTGTGTTTTATTTCTCACATTGATGACGGTCGCATGAA -AAAATGATATTTTAATGAGCATTCTGAAAAAATATCGATGCATTTCGAGCGAAGATGGTGGGGATCCCTGAATGC -GTTTTTCTCACCGACTGTTCTTACTTCTGATTCTCCTGCTGACGGGAGCACCAATACTCGCTCAGGAGCCTTCTG -ACGTTGCGAAAAACGTGCGTATGATGGTTTCCGGTATTGTCAGTTACACCCGCTGGCCTGCGCTATCAGGGCCAC -CAAAGTTATGTATCTTTTCATCTTCACGTTTTAGTACCGCCCTACAAGAGAATGCCGCGACATCTTTGCCTTATC -TGCCTGTCATCATTCACACTCAACAAGAGGCGATGATTTCAGGCTGCAATGGTTTTTATTTTGGCAACGAGTCAC -CGACATTCCAGATGGAATTAACCGAACAATATCCGTCAAAGGCGTTATTATTAATTGCCGAACAAAATACCGAGT -GCATTATTGGTAGCGCCTTTTGTCTGATCATCCACAATAATGACGTCAGATTTGCCGTAAACCTGGATGCCTTAT -CGCGTAGCGGTGTAAAGGTCAACCCGGATGTCTTAATGCTCGCACGGAAGAAAAATGATGGATAACGATAATTCT -CTTAATAAGCGCCCCACGTTTAAAAGAGCATTACGCAACATCAGTATGACCAGCATATTTATCACTATGATGCTG -ATCTGGTTGCTGCTTTCCGTGACCTCGGTGCTGACCCTGAAACAGTACGCGCAAAAAAACCTGGCACTGACAGCA -GCAACAATGACTTACAGTCTGGAAGCAGCTGTCGTTTTTGCCGATGGCCCTGCAGCAACTGAAACACTGGCAGCG -CTGGGCCAGCAAGGGCAATTTTCAACTGCAGAAGTACGTGATAAGCAGCAAAATATTCTGGCATCCTGGCATTAC -ACCCGTAAGGATCCAGGCGATACTTTCAGTAATTTCATAAGCCACTGGCTCTTCCCTGCCCCCATCATTCAGCCG -ATTCGTCACAATGGTGAAACCATTGGCGAAGTACGCTTAACCGCTCGCGACAGTTCAATCAGCCATTTTATCTGG -TTTTCGCTCGCCGTACTGACCGGTTGTATTCTGCTGGCATCAGGCATCGCAATTACCCTCACCCGCCATTTGCAC -AATGGCCTGGTAGAAGCGCTGAAAAATATCACCGATGTCGTACATGATGTGCGTTCCAACCGCAATTTTTCCCGA -CGAGTTTCGGAAGAACGTATCGCTGAGTTTCACCGCTTCGCTCTCGACTTCAACAGTCTGCTGGATGAAATGGAA -GAGTGGCAGCTTCGTTTACAGGCTAAAAATGCGCAGCTTCTACGTACCGCGCTACATGACCCATTAACCGGGCTG -GCTAACCGCGCAGCGTTTCGTAGCGGCATCAACACGTTGATGAACAATTCCGATGCCCGAAAAACGTCGGCGTTA -CTATTTCTTGATGGCGATAATTTCAAATACATCAATGATACCTGGGGTCATGCGACGGGCGATAGAGTCTTGATT -GAAATCGCAAAACGGTTAGCTGAATTTGGCGGGCTGCGACATAAAGCATACCGCCTGGGCGGCGATGAATTCGCT -ATGGTGCTCTATGATGTACAGTCGGAATCTGAAGTGCAGCAGATATGTTCAGCACTGACACAAATCTTTAATCTC -CCGTTTGATCTTCATAATGGCCATCAGACCACCATGACATTAAGCATTGGTTACGCGATGACCATTGAGCACGCC -TCTGCGGAAAAATTACAAGAGCTTGCCGATCACAATATGTATCAGGCCAAACACCAGCGTGCCGAAAAGCTGGTG -AGATAACAAGGATATATCGATATGATAAAGCACCTGGTAGCACCCCTGGTTTTCACCTCACTAATACTGACTGGC -TGCCAGTCCCCTCAGGGAAAGTTTACTCCTGAGCAAGTCGCCGCTATGCAATCTTATGGATTTACTGAATCCGCC -GGCGACTGGTCGCTGGGCTTATCAGATGCCATTCTGTTCGCAAAAAATGACTACAAATTGCTCCCGGAAAGCCAG -CAACAGATCCAAACCATGGCAGCTAAATTGGCCTCGACAGGGCTAACACATGCCCGTATGGATGGACACACCGAT -AACTATGGTGAAGACAGTTACAACGAAGGCTTATCATTGAAACGGGCGAATGTCGTGGCCGATGCATGGGCTATG -GGTGGACAAATTCCACGCAGCAATCTCACCACACAGGGTTTAGGAAAAAAATATCCCATAGCCAGTAACAAGACC -GCCCAGGGCCGCGCCGAGAACCGCCGCGTCGCAGTGGTGATTACTACCCCTTAAAACACCAGCAAACAGATAAAA -AAGGGCCAGCCAATTGGCCAGCCCTTCTTAACAGGATGTCGCTTAAGCGAAATCTTAGTTAAGACGCTCTTTGAT -ACGAGCAGCCTTACCAGTACGCTCACGCAGGTAGTACAGTTTAGCTTTACGAACAGCACCACGACGTTTGACAGA -AATGCTGTCAACTACCGGAGAGTGAGTCTGGAAGACACGCTCAACGCCTTCGCCGTTGGAAATTTTACGAACAGT -GAATGCAGAGTGCAGACCGCGGTTACGAATAGCGATAACCACGCCCTCGAATGCCTGCAGACGTTTTTTGGAACC -TTCAACAACCCATACTTTCACTTCCACGGTATCACCCGGACGGAAGGAAGGTACGTCCTGCTTCATCTGCTCTTG -TTCAAGTTGCTTAATAATGTTGCTCATAATTTAATCTCTTATCCTGGGTAAACTGATATCTCGGGGGCTTACGCC -ATCCCATCATGTTTATGTTGCTGTTGTGCGTGTTCCGTTTTGAACTCCGCCAGCAACCTTGCTTGCTCTTCAGTC -AGAGCCAGGTTTTCCAGAAGTTCAGGTCTTCTAAGCCAGGTACGGCCCAGCGACTGTTTCAAACGCCAGCGACGT -ATCTCGGCATGGTTGCCCGACAGTAACACTGGCGGAACTTCCATCCCTTCTAACACCTCAGGCCGCGTATAGTGC -GGGCAATCCAGCAATCCTTCAGCAAAGGAATCTTCCGTTGCCGAGGCTTCATGTCCCAGTACTCCCGGAATAAAC -CGGGAAACGGAGTCAATCAGCGTCATTGCTGGTAACTCACCACCACTGAGAACGTAATCGCCGATTGACCATTCT -TCGTCAATTTCGGTTTGGATCACGCGCTCATCTATACCTTCGTAGCGACCGCACACCAGAATCAATTTTTGATTC -GTTGCCAGTTCGCTGACGCCCGCTTGATCAAGCTTGCGTCCCTGTGGTGACAGATAAATCACCTTTGCGCCTTCA -CCCGCCGCGGCTTTTGCTGCATGAATGGCGTCCCGCAAGGGTTGCACCATCATTAACATCCCCGGTCCGCCGCCG -TAAGGACGATCGTCCACGGTACGGTGCCGGTCATGCGTGAAGTCGCGAGGACTCCAGCTCTGGATGCTCAGCAGG -CCATTTTTAACTGCCCGGCCAGTTACCCCGTAATCGGTAATTGCGCGGAACATTTCAGGAAACAGGCTAATTATG -CCAATCCACATAGCGCCGTCTTTTACCGTTTATCCGGTGGTTTAAAAACCAGGATCCCAATCTACTTCGATTGAA -CGAGTAGTGAGATCGACTTTCTTGATAACCTGCCCATCGAGGAACGGTACGAGACGTTCCTTGATACCAAACGCA -TCTTTCAGGTTTGCCTTAATGACGAGAACGTCATTAGATCCGGTTTCCATCATATCGACGACTTTACCGAGATCG -TAGCCTTCAGTGGTTACTACCTGGCAGCCCATCAGGTCTTTCCAGTAGTAGTCCCCCTCTTCAAGCTGAGGCAGC -TGCGATGAATCCACGACAATTTCACAATTCGTCAGCAGGTTCGCCGCATCACGATCGTCAACGCCTTTCAGCTTG -ATGATCATGTCCTGATTGTGGTGCTTCCAGCTTTCCAGCTGGACTTGCTGCCACTGACCCGCCTTCTGGATAAAC -CAGGGCTGATAGTCAAAAATGCTTTCGGCGTCTTCGGTGGAAGAAAACACTCTGAGCCACCCACGAATACCGTAA -GACGAACCCATTTTTCCCAAAACGATGGGATCAACAGGTGCTTGCGCGGTGAGTTGTTTGCTCATCATGACCACC -GTGACAGATTAAGCTGCTTTGTTTACTTCTTTGATCAGCGCAGCAACGCGATCAGAAATAGTTGCGCCCTGGCCA -ACCCAGTGAGCGATGCGATCCAGATCCAGGCGAGTGCCTTCTTCTTTTTCGCTAGCGATTGGGTTGAAGAAACCA -ACGCGCTCGATGAAGCGACCGTTGCGTGCATTACGGCTGTCAGCGACAACAACCTGGTAGAACGGACGCTTTTTA -GCGCCGTGACGTGCTAAACGAATAGTTACCATAACATCCTCTTGTGTGAATAAAACAACCGGACCCCATCGAGGA -ACGGAGTCCGGTGTCATATTAAAAGCCCGAAAATTTTACTCATTTTTGCGGGAATTGCAATCAACAGTTGCTAAC -TCTGCTGTAAAAGGCCGTCGGCGGTGCAGCCAGTTTGGTGCCGGAGTGCGCGCAGTCACCGGAGCGTACACGCAG -TACGTGAGGATGACGAGCACATCCCGGTGCCAAAATGGCAAACAAGCCAGGCCGATTAGCGACCAGGGAAGCCTG -GGGGCATCATACCCTTCATGCTTCTCATCATCTTCGCCATTCCGCCCTTCTTCATTTTCTTCATCATGCGCTGCA -TGTCGTCGAACTGTTTCAGAAGACGGTTAACGTCCTGCACCTGCATACCGCAACCGGCAGCAATACGGCGTTTAC -GCGAACCTTTGATGATTTCTGGCTTAGCGCGCTCTTTCATCGTCATCGAGTTGATGATGGCTTCCATACGCACCA -GCACTTTATCGTCCATCTGTGACTTGACGTTATCCGGGATCTGCCCCATGCCCGGCAGCTTGCCCATCAGACTAG -CCATGCCGCCCATATTTTTCATCTGGCGCAGCTGCTCAAGAAAGTCGTTGAGATCGAAGCCGTCACCTTTTTTCA -GCTTGCTGGCTAATTTCTCTGCCTGCGCGCGGTCAACTTTGCTTTCGATATCTTCGATCAGCGACAGTACGTCGC -CCATGCCGAGAATACGCGACGCGATGCGGTCCGGATGGAACGGCTCCAGCGCCTCAGTTTTCTCGCCAACACCGA -GGAACTTGATCGGTTTGCCAGTGATGTGACGAATAGAGAGCGCCGCACCGCCGCGGGCATCGCCGTCCACTTTGG -TCAACACTACGCCGGTAAGCGGTAACGCTTCATTGAATGCTTTTGCCGTATTGGCCGCATCCTGACCGGTCATGG -CGTCAACCACAAACAGGGTTTCAACCGGGTTAATCGACGCATGGACTTGTTTGATCTCGTCCATCATCGCTTCGT -CAACGTGCAGACGACCAGCGGTATCCACCAGCAGCACGTCGTAGAATTTCAGTTTGGCTTCTTTCAGCGCCGCGT -TAACGATATCTACCGGCTTCTGACCAACATCAGAAGGGAAGAAATCAACGCCCACCTGCTCTGCCAGCGTCTCAA -GCTGTTTGATTGCCGCCGGGCGATAAACGTCGGCAGAAACCACCAGCACTTTCTTCTTGTGCTTCTCGCGCAGGA -ACTTACCGAGTTTACCAACGCTGGTTGTTTTACCGGCACCTTGCAGGCCCGCCATCAGTACGACCGCAGGCGGTT -GCGCAGCCAGGTTCAGGGTCTGGTTCTCTTCGCCCATCGCCGCAACCAGTTCGTTACGGACTATTTTGACGAACT -CCTGCCCCGGCGTCAGGCTCTTATTAACTTCATGACCAACCGCTTTCTCTTTTACGCGATTGATAAACTCACGCA -CTACCGGCAGAGCTACGTCCGCCTCCAGCAGCGCCATGCGCACTTCGCGCAGCGTATCTTTTACGTTGTCTTCAG -TGAGGCGTCCACGGCCACTGATATTGCGCAGCGTGCGCGACAAACGATCGGTTAAATTATCAAACATTGTCTCTC -GCCTGGGGTGGAAACGGTTGGCCGCAATCGCGACACATCATCAGTATTTTGCCGCAGTATAACATGAAGGCGTCT -TTGTTGTTATGCAACGGTTGGAGCAGCGTTCACCTGACGCTATACTGCTTCTCTTTCTTATTGCTCAAACTGTCG -ACATCACTATGCCCGTTTTTGCTCTGCTCGCGCTTGTCGCCTACTCCGTCAGTCTTGCGCTGATTGTTCCCGGTC -TGCTGCAAAAAAACGGCGGCTGGCGGCGCATGGCTATTATTTCTGCGGTCATTGCGCTGGTCTGCCACGCAATCG -CTCTGGAAGCCCGCATCCTGCCCGACGGTGATAGCGGACAAAACCTCAGCCTGCTGAACGTTGGTTCATTGGTCA -GTTTGATGATCTGTACGGTAATGACCATTGTGGCTTCTCGCAATCGTGGCTGGCTGCTGCTACCCATTGTCTATG -CCTTTGCGCTTATCAACCTGGCGCTGGCAACCTTCATGCCCAATGAATACATCACCCATCTGGAAGCTACGCCTG -GGATGCTGGTGCACATTGGCTTATCGCTCTTTTCCTATGCCACGCTAATTATCGCCGCCCTGTACGCGCTGCAAC -TGGCGTGGATTGATTACCAACTGAAGAACAAGAAGCTGGCGTTTAACCAGGAAATGCCGCCATTGATGAGTATCG -AGCGTAAAATGTTCCACATCACGCAGATTGGCGTGGTGCTGCTAACGCTCACGCTTTGCACTGGCCTGTTCTACA -TGCACAACTTATTTAGCATGGAAAATATCGACAAGGCTGTGCTCTCTATCGTGGCGTGGTTTGTCTATATTGTGC -TGCTGTGGGGACATTATCATGAAGGATGGCGTGGACGCCGCGTCGTCTGGTTTAACGTTGCGGGCGCGGTAATTC -TGACACTGGCCTACTTCGGCAGCCGAATTGTCCAGCAGTTAATCAGCTAAACCCAGAAAAGGAGTTTCCCCTGGA -ACACATTTCTACTACTACGTTGATCATTATTCTGATCATCATGGTGGTCATTTCAGCCTATTTTTCCGGGTCCGA -AACCGGAATGATGACCCTCAACCGCTATCGTCTGCGACATATGGCGAAACAGGGTAATCGCTCGGCCAAACGCGT -CGAAAAATTGCTGCGTAAGCCAGACCGCCTGATAAGCCTGGTGTTAATCGGCAATAACCTGGTCAATATTCTTGC -CTCCGCGCTCGGCACTATTGTTGGGATGCGTTTGTACGGCGATGCGGGCGTGGCAATTGCGACTGGTGTGCTGAC -TTTTGTCGTACTGGTATTTGCTGAGGTATTGCCGAAAACCATTGCCGCGCTGTACCCGGAAAAAGTCGCTTATCC -GAGTAGTTTTCTGCTGGCTCCGCTGCAAATTTTGATGATGCCGCTGGTCTGGTTGCTGAATGCTATCACCCGTAT -GCTGATGCGCATGATGGGTATCAAAACCGATATCGTGGTTAGCGGCTCTTTGAGCAAAGAAGAGTTGCGCACTAT -CGTGCACGAATCACGCTCACAAATTTCCCGTCGCAATCAGGATATGCTGCTGTCGGTGCTCGATCTGGAAAAAAT -GACCGTTGATGACATCATGGTGCCGCGCAGTGAAATTATCGGTATTGATATCAACGATGACTGGAAATCGATTCT -GCGCCAACTCTCCCACTCACCTCACGGGCGCATCGTGCTCTACCGTGATTCGCTGGACGACGCCATCAGTATGCT -GCGAGTACGTGAAGCCTGGCGGTTGATGTCGGAGAAAAAAGAGTTCACCAAAGAAACCATGCTGCGCGCCGCGGA -CGAGATCTATTTTGTGCCGGAAGGTACGCCGCTCAGCACGCAGTTGGTAAAGTTTCAGCGCAACAAAAAGAAAGT -CGGCCTGGTCGTCAACGAGTATGGAGACATTCAGGGGCTGGTGACGGTTGAAGATATTCTGGAAGAGATTGTCGG -CGATTTCACTACGTCGATGTCGCCAACACTTGCCGAAGAGGTCACGCCGCAAAACGACGGTTCGGTGATTATCGA -TGGCACCGCCAACGTGCGGGAAATCAACAAAGCCTTTAACTGGCATCTACCGGAAGATGATGCCCGCACGGTTAA -TGGCGTCATTCTTGAGGCACTGGAAGAGATCCCTGTCGCAGGCACCCGCGTGCGTATTGGCGAGTACGATATCGA -TATTCTCGACGTACAGGACAATATGATTAAGCAGGTAAAAGTTTTTCCTGTGAAACCGCTGCGCGAGAGTGTGGC -GGAGTAACGAAAACGGCCCGGCATTCGCATGCAGGGCCGTGAATTATTACGAAAGCAGAAATTAAGCTTTTGCTT -TCGCTACAGTAACCATCGCCGCACGAATCGTACGACCATTCAGCGTATAACCCTTCTGCATAATGCCCAGTACGT -TACCTGGCGCAACGTCATCAGATTCCACCATTGCGATGGCCTGATGCACATTCGGGTCCAGTGGGACGTTAGTTT -CGGCGATCACTTCAACGCCAAACTTACGCACAACATCCAGCATCGACTTCAGCGTCAGCTCAATGCCTTCAACCA -TCGCAGACATATCCGGGTTAGCTTTATCAGCCACTTCCAGCGCACGATCCAGGCTATCAATCACCGGCAGCAATT -CGTTGATGAATTTCTCCAGCGCGAATTTGTGGGCTTTTTCAATATCCAGTTCAGTACGACGACGCAGGTTTTCCA -TTTCGGCTTTTACACGCAAAATGCCGTCACGTTCACGGGTCTGGGCTTCAGCCAGCTGAGCTTCGAGATTCGCAA -CTTTTTCATCGCGCGGATCCACCTGCTCAGCAGAAGCTTCTGGCTCAACTGCCTCAATCTCTTCGTGCTGATCCA -TGATAATTTCTTCCGGGGCTTGCCCCTCAGGCGTTTTCTGTTCTTTACTACTCATGAATTTCTCCGCGTTTTTTT -CGCATTCATCTCGCTAACTTCGCTTATTATGGGGATCAGTTTCAGGGTTTCAAGGGAAGCACTCACATTGTCATC -AATCTTCGCAACAAGGACCTCGGAAAAATGAATAATCATTTCAAGTGTATTGGCATTGTGGGACACCCACGGCAC -CCCACTGCACTGACAACACATGAAATGCTCTACCGCTGGCTGTGCACAAAAGGTTACGAGGTCATCGTTGAGCAA -CAAATCGCTCACGAACTGCAACTGAAGAATGTGAAAACTGGCACGCTCGCGGAGATTGGGCAACTAGCTGATCTC -GCGGTAGTCGTTGGTGGCGACGGTAATATGCTGGGCGCGGCACGCACACTCGCCCGTTACGATATTAAAGTTATT -GGAATCAACCGTGGCAACCTGGGTTTCCTGACTGACCTTGACCCCGATAACGCCCAGCAACAGTTAGCCGATGTG -CTGGAAGGCCACTACATCAGCGAGAAACGTTTTTTGCTGGAAGCGCAAGTCTGTCAGCAAGATTGCCAGAAACGC -ATCAGCACCGCGATAAATGAAGTGGTGCTTCATCCAGGCAAAGTGGCGCATATGATTGAGTTCGAAGTGTATATC -GACGAGATCTTTGCGTTTTCTCAGCGATCTGATGGACTAATTATTTCGACGCCAACAGGCTCCACCGCCTATTCC -CTCTCTGCAGGCGGTCCTATTCTGACCCCCTCTCTGGATGCGATTACCCTGGTGCCCATGTTCCCGCATACGTTG -TCAGCACGACCACTGGTCATAAACAGCAGCAGCACGATCCGTCTGCGTTTTTCGCATCGCCGTAACGACCTGGAA -ATCAGTTGCGACAGCCAGATAGCACTGCCGATTCAGGAAGGTGAAGATGTCCTGATTCGTCGCTGTGATTACCAT -CTGAATCTGATTCATCCGAAAGATTACAGTTATTTCAACACATTAAGCACCAAGCTCGGCTGGTCAAAAAAATTA -TTCTAATTTTACGCCAGCCTCTTTACTGTATATAAAACCAGTTTATACTGTACACAATAACAGTAATGGTTTTTC -ATACAGGAAAACGACTATGTTGGCACAACTGACCATCAGCAACTTTGCTATCGTTCGTGAGCTTGAGATTGATTT -TCATAGCGGCATGACCGTAATAACTGGCGAGACCGGCGCGGGTAAATCTATTGCAATAGATGCCCTCGGTCTTTG -TCTCGGTGGTCGCGCTGAAGCCGACATGGTGCGTACCGGCGCTGCTCGCGCTGACCTGTGCGCCCGTTTTTCTCT -GAAAGATACGCCAGCGGCTCTGCGCTGGCTGGAAGAAAACCAGCTTGAAGACGGGCATGAATGTTTGCTTCGTCG -CGTGATCAGCAGCGATGGTCGCTCCCGTGGTTTCATCAACGGTACAGCTGTTCCTCTGTCACAACTGCGCGAACT -GGGTCAGTTGCTGATTCAGATCCATGGTCAGCACGCTCATCAATTACTCACCAAACCTGAGCACCAAAAATTCCT -GCTTGATGGCTATGCCAATGAAACCTCTCTACTGCAGGAAATGACCGCACGTTATCAGTTGTGGCATCAAAGCTG -CCGTGACCTCGCGCATCATCAACAGTTAAGTCAGGAACGCGCCGCCCGTGCGGAACTGCTGCAATACCAATTAAA -AGAACTTAACGAATTTAATCCGCAGCCCGGAGAGTTTGAACAAATCGACGAAGAGTACAAACGTCTGGCGAACAG -CGGTCAATTGCTGACCACCAGCCAGAATGCATTGGCATTAATGGCCGACGGTGAAGACGCAAACCTGCAAAGTCA -GCTTTACACGGCTAAACAACTGGTGAGCGAATTGATTGGCATGGACAGCAAACTGTCCGGCGTACTTGATATGCT -GGAAGAAGCTACCATCCAGATTGCTGAAGCCAGCGATGAACTGCGCCACTACTGCGATCGTCTGGATCTCGATCC -CAACCGACTATTTGAACTTGAACAGCGCATCTCAAAACAGATTTCGCTGGCACGTAAACATCACGTCAGCCCTGA -GGCATTGCCACAGTATTACCAGTCGCTACTGGAAGAACAGCAGCAACTGGACGATCAGGCCGACTCACAAGAAAC -GCTTGCGCTGGCGGTAACGAAACATCATCAGCAGGCACTGGAAATCGCGCGCGCATTACACCAACAACGCCAGCA -ATATGCAGAAGAACTTGCACAGCTGATCACCGACAGTATGCATGCGCTCTCAATGCCGCATGGGCAGTTTACGAT -CGATGTTAAATTTGACGAGCATCACCTGGGCGCTGACGGTGCCGATCGTATTGAGTTTCGGGTAACCACCAACCC -AGGTCAGCCAATGCAGCCTATTGCCAAAGTCGCATCCGGTGGTGAATTGTCCCGCATCGCACTGGCAATCCAGGT -CATCACGGCGCGTAAAATGGAAACCCCGGCACTGATTTTTGATGAAGTGGATGTAGGGATTAGCGGTCCAACAGC -GGCAGTTGTCGGCAAACTGCTGCGTCAACTCGGCGAATCAACTCAGGTGATGTGTGTTACCCACCTGCCACAAGT -CGCGGGATGTGGTCATCAACACTATTTTGTCAGCAAAGAAACCGATGGTGCGATGACAGAAACGCATATGCAATC -CCTGAATAAAAAAGCGCGGTTACAAGAGCTGGCGCGCCTGCTTGGTGGCAGTGAAGTCACACGTAATACACTGGC -GAATGCGAAAGAACTGCTTGCAGCGTAAACTTTTTTCCTGCTTCACGGTCAGAGTAAACAGCAAAACGCCGTAAG -ACCGGAAAGCAAAAGGTTTTAAAGTGATGAAAGGTCTATTATCATCGGCATATTACAGATGAGCCACGTACTGCT -CGGGCCCGAAAAGGAATCAAATCACTATGCGCTGTAAAACGCTGACTGCTGCAGCAGCAGTACTATTGATGTTGA -CCGCAGGCTGTTCCACTCTGGAGCGAGTGGTTTACCGTCCTGACATCAACCAGGGGAACTATCTGACCGCTAACG -ACGTATCCAAAATACGTGTTGGCATGACGCAACAACAAGTTGCGTACGCATTGGGTACACCGCTGATGTCCGATC -CATTTGGTACGAATACCTGGTTCTATGTCTTCCGCCAGCAACCAGGTCATGAAGGTGTAACTCAGCAAACGCTGA -CGCTGACCTTTAACAGTAGCGGTGTGTTGACCAATATTGATAACAAACCTGCGCTGAGTGGTAACTAATAATAAA -GTTGCTCTCAAAGACGTTAAAAAAGGTGCTCAATGAGCACCTTTTTTCTGTCTGTTATTTATTCGCTGATTTTTC -TGCTCGTTGCCTGCGAAGCTCTTTCGGATCGGCAATGAGAGGGCGATAAATCTCCACCCGATCGCCATCATGCAC -ACTATCGCTTAGTTTTGCCGGACGGCTGTAAATGCCGACTTTGTTTTTAGTTAAATCGATATCGGTACGCAATTC -CAGCAAGCCACTGGCGCGAATAGCTTCTTCAACCGTCGCGCCCTCCTGCAGCGTCACTCGCTGCAGGTACTGCTT -CTCAGGTAGCGCATAAGCCACCTCAACGGCAATTTTACCTGGCACTGTAAACCTCTTTCGCACGAACCGTAAAAG -CCTGGACCATATTAGCCGCCAGCTCTTTAAACACGCGACCAAAGGCGAGTTCAATCAACTTATTGGTAAACTCAA -AGTCGAGATGAAACTCGATACGACACGCCTCCTGGCTCAGCGGCGTAAACTTCCATCCACCAATCAATTTCTTGA -ACGGCCCATCCACCAGATTCATAAGAATACTTTGGTTACTGGTCAACTGGTTGCGGGTAGTAAACGTTTTGCTGA -TCCCAGCCTTAGAGACATCTACCGCCGCAGTCATCTGCCCAGGAGTGGACTCCAGAATCCGACTTCCGGTACAAC -CCGGCAAAAACTGAGGATAAGACTGAACGTCATTCACTAACTGATACATTTGCTCCGCGCTGTAGGGTACCAGTG -CGGTCCGGCTAATCTGAGGCATAACAATTTCCATCAACAAAAATCCAACAAATAATATCATTTATCCTGCTGTAA -AAAAAACGCTATCCCGGCGCTGGGTAACATCGGGTTCATGCTAAGATAGAGCCTTGTCCCCCGCAGGATTGATAT -GGGGTGTTTTCGATTTCAGATTACCGATGATTCACGACGCTTATGACGAAGAAAAAAGCACATAAACCTGGTTCA -GCGACCATCGCGCTTAACAAGCGCGCCCGTCACGAATACTTTATCGAAGAAGAGTTCGAAGCGGGACTTGCCCTG -CAAGGCTGGGAAGTTAAATCCCTGCGCGCAGGAAAAGCCAATATCAGCGACAGCTACGTCCTTCTGCGTGACGGA -GAGGCATTTCTGTTTGGCGCTAACATCACGCCAATGGCCGTGGCCTCCACGCATGTGGTGTGCGATCCTACCCGT -ACCCGCAAGTTACTTCTCAACCAGCGCGAACTGGACTCATTGTACGGTCGCGTCAATCGAGAAGGCTATACCGTA -GTGGCGCTCTCCCTGTACTGGAAAAATGCCTGGTGCAAAGTGAAAATCGGCGTCGCCAAAGGTAAGAAACAGCAC -GATAAACGTTCAGATATCAAAGAGCGCGAATGGCAGGTGGATAAAGCACGTATCATGAAAAACGCCCACCGTTAA -ACCTGCACTCCAATTATTGACCAGTTCCTCACCGCGCCTCCCTCTCCGGCGGCGCGAATGAACATCTTATTGGCT -ATCACATCCGACACAAATGTTGCCATCCCATTGCTTAATCGAATAAAAATCAGGCTACATGGGTGCTAAATCTTT -AACGATAACGCCATTGAGGCTGGTCATGGCGCTCATAAATCTGGTATACTTACCTTTACACATTGGGGCTGATTC -TGGATTCGACGGGATTTGCGAAACCCAAGGTGCATGCCGAGGGGCGGTTGGCCTCGTAAAAAGCCGCAAAAAATA -GTCGCAAACGACGAAAACTACGCTTTAGCAGCTTAATAACCTGCTTAGAGCCCTCTCTCCCTAGCCTCCGCTCTT -AGGACGGGGATCAAGAGAGGTCAAACCCAAAAGAGATCGCGTGGAAGCCCTGCCTGGGGTTGAAGCGTTAAAACT -TAATCAGGCTAGTTTGTTAGTGGCGTGTCCGTCCGCAGCTGGCAAGCGAATGTAAAGACTGACTAAGCATGTAGT -ACCGAGGATGTAGGAATTTCGGACGCGGGTTCAACTCCCGCCAGCTCCACCAAAATTCTCCATCGGTGATTACCA -GAGTCATCCGATGAAGTCCTAAGAGCCCGCACGGCGCAAGCCCTGCGGGCTTTTTTGTGCCCTCAATTTGTCCCG -CGAAGTCCGAAGAGAACTAATTAAATCCGAACCTTTTAGGCCCATTGATAGGCCCAACGAAAAGCTCTATTGTTT -ACGTTGGGCCTAAACGCAGGGAGACTCCCCATGGCAAGAAAAACCAAGCCGTTAACTGATACGGAAATCAAAGCC -GCCAAACCTAAAGATGCCGATTACCAGCTTTATGACGGTGACGGGCTTACTCTGTTAATCAAGTCCAGTGGCAGT -AAGCTTTGGCAATTCCGTTACTATCGGCCTTTGACCAAGCAGCGAACCAAACAGAGCTTCGGTGCCTATCCTGCC -GTCTCGCTTTCTGATGCACGTAAACTCAGAGCCGAATCTAAAGTTTTATTGGCGAAAGACATTGATCCTCAGGAA -CATCAGAAAGAACAGGTGAGGAATTCTCAAGAGGCCAAAACCAATACCTTCTTGTTAGTTGCCGAGCGTTGGTGG -AATGTGAAGAAAACCAGCGTAACAGAGGACTATGCCGACGATATCTGGCGCTCGCTTGAGAGAGATATTTTCCCG -GCAATCGGTGATATCAGTATCACTGAGATTAAGGCTCATACTCTGGTTAAAGCAGTTCAGCCGGTTCAGGCCAGA -GGTGCATTAGAGACTGTTCGCCGCCTTTGTCAGCGTATTAACGAAGTCATGATTTATGCGCAGAACACAGGCCTG -ATTGATGCTGTTCCTAGTGTAAATATCGGAAAAGCTTTCGAGAAACCGCAAAAGAAAAACATGCCAAGCATCCGG -CCGGATCAACTTCCGCAGCTAATGCACACCATGCGTACGGCAAGTATCAGCATGTCCACAAGATGCCTGTTCATG -TGGCAACTTCTAACCATCACCCGCCCTGCCGAAGCTGCTGAGGCTCGATGGGATGAGATCGATTTCAATGCTAGC -GAATGGAAAATTCCTGCAGCTCGAATGAAGATGAACCGGGACCATACGGTTCCACTATCTGATGGGGCTCTTGCT -ATTCTGGAAATGATGAAGCCTCTCAGTGGTGGCCGAGAATTTATCTTTCCTAGCCGTATCAAGCCCAACCAACCA -ATGAATAGCCAAACAGTGAATGCAGCACTCAAGCGTGCTGGCTTAGGAGGTGTACTTGTTTCACACGGCTTGCGT -TCTATCGCCAGTACGGCACTCAATGAGGAAGGATTTCCACCTGATGTCATTGAAGCAGCGCTTGCTCATGTAGAC -AAAAATGAGGTGCGTCGCGCTTATAACCGCAGTGATTATCTTGAGCAACGTCGTCCGATGATGCAATGGTGGGCT -GATCTCGTAAAAGCAGCAGATAGTGGTAGCATCGTTTTAACTCATTTGAGCAAAATTCGTCTTGTCGGATAAAAT -ATTTATCAGCCCAGCTCTCTGGGCTGATATTTCTAAAAGATCGCACTAAATAGCTACGCGGAATAGTGCTCTACT -TTCGTTTAGCCCTTTCAGAGGTAAGACATTAGGGCAATTTCACTGTATGACTGCGCAGTCATCGAGTCTGTGGGG -TGTTGCTCCTTTTGCAACGTATCACTTGTCAATAAATAGAAAGTGTAGATGTATTAGGCGCAGCTATTTAGTCTA -TATGGCAAGTAGTAATTATTTACTTCTTTTTTTTCTACGAACAGCGCTATCGAAAGCTTGTTTTACATCTTCATT -TTTTAAAGACCATTGATTTAAAATAGTATCAACCAAAGCATCTTGACTCATTGTTGCTACACGATATTTTTTATT -TTGATTATTTATCTCAAACTCTGACATTTGAATAAAATCCCATAGCGGTTCGATAAGTTCATTAACTGCTACAAC -CTTATTTTTCCACCCATCATTCGGAACAGAGTCATTAATTAGCTCAACCAACTTCAGTTGAATGATATGGTACAC -TTCCGCTTTGCTTTTGCCACCCTTCTTTCCTGCACTCCGCCTGACTTCTGATAATTTTTTTTGATTACAAACAGA -GATGTTAAACCAAGTCATACCTATGCACTTATCAAATAACTCCGCAGCCCGATGAAATGCTTTAAAGGCAACGTT -TTCATTTTCAGACATGATAGATTTTCCCCAGAAAAAAGAGATTGAGGCGAACATAAGGTGTGCCTTGAAAATGTC -ATTAATGGAAAATGGCTCGATAACAAGAGGTAAAAACGTTTCCTTGGTAAGGTTTGAACTTAGATTTTTCCAGCA -TTCTTGAGCTGGATCATATAATTCAGTGTATTCTTCCTTTATCTCCAGTTGCCCATTCACTGTATGGTGCCTTGT -TTCCCATGGTACATCGCAGGAATATAACCTCACACGAGTACCTATTTTCTCAGAGCTCCAGAATTGCTCTCGCAT -TCTGCCTAGCTCAATCCGTATTTCCGGATGATCTTCCTCTAGAACATCAGTATCCACCGCCCATTCGCATTCGGA -CATGTGATAGGCGAGATCACGTCGTTTTCTACAAATTTGTTCATAAAAATCATTCAGAGAAATCATAAAACCACC -ATAAATCAATGTATTAGAGGTTGTAAAAATTGTATTTTTGGTACATGGGTTTTTTGCCTTAAAGATACCCATTAA -TCTCTCTGCAACCAAAGTGAACCAATGAGAGGCAACAAGAATGAACAATCGATCGGCCGTTAGAATACTACGGTT -ACCAGCGGTTATCCAAAAAACAGGTATGGCACGGGCCACCATCTATGACTGGTTGAACCCCAAATCACCACGATA -CGATGCCACCTTTCCCAAAAAGCGAATGCTCGGCGTGAAATCTGTCGGATGGATTGAGGCCGAGATTGATGAGTG -GTTATCACAACGCTGTAAACTTATTTGAGGGTGTTACATGAATTCATACTCAATTGCTGTCATCGGAGTGTAAAC -ATCCTGCTATTTCCGCCATTAATAGCGGAATAGCCATATTTGCTAAACAATTTCTTAATTTAATTAAATAAGAGG -CATTGCATGTTCAATGGTCGTCCTTTCCCTGTAGATGCATTTCCTAAAATTATCAGGAATGCAATTTATGAAGTG -GAACAGCATACGCAGGCCCCTCAAGGTTTGATTGCTGCTTCTGCTCTTGGGGTAATTTCTCTTGCCTGTCAGAAC -CGGATTGATGTTTGCCGATTGAATAATCTACGTGGCCCGGTATCACTTTTCTTAATGACTCTGGCTGAATCAGGT -GAACGTAAGAGTACGGTTGATAAACTGCTGATGAAGCCATTATATCAACTGGAAGAGGATTTATTTGAAAAATAC -ACCCACGATCTTACCGCATGGAGAAATGATGAAGCAATTTTTAATATTGAAAAAAAAGCACTGATGTCAAAACTT -AAATCAGATATTCGACGTAACAAAGATCACTTGGCAACAAATGAAAGACTTAAAGAACTACTTACGACAAACCCG -AAAGCTCCAGTGAGATTCAAATTTTTATTTAACGATGCCACACCTGCAGCTATTAAAGCTCATCTCTGTGGGCAC -TGGCGATCAGTCGGCATCATGTCTGATGAAGCTGGGATCATTTTTAATGGTTACACACTTAACGAGCTGCCGTTT -ATCAATAAGATGTGGGATGGTTCAATATTTACGGTGGAAAGGAAAAACGAGCCCGAGAAATTAATTAGAGATGCA -AGAATAACACTGTCGCTGATGGTCCAGCCTAATGTTTTTAAGGGTTATATCGACAGGAAAGGAGATATGGCAAAG -GGGATTGGATTTTTTGCACGGTGCCTCATGTGCCAGCCTGCTTCAACACAAGGTAACAGAAAAATTTCCAACCCA -ATTTTTTCAAATGAACATTTGCCGGTATTTCACCAACGTCTTATGGAAATTGTTAATGAGAGCATCATTAAAATT -AATGAAAATAATCGCATCTGCCTCCGATTCTCTGCAGAAGCAGAAAGACATTGGATCGAATTCTACAACCAGGTC -GAGTCAGAAATGAGAATGATTGGCCTTCTTTATGATTTTAAGGATTATGCTTCTAAAATGGCGGAGAACATGGCG -AGGCTTGCTGCCTTACTTCATTACTTCAGCGGTGATGGAGGCGATATATCTGTTACCGCAGTAAAAGCAGCAGTG -GAGATAGTGGCTTGGTATATTGAAGAATACATCCGCTTGTTCTCTAAAAAAGAAGAGTTTTCTTTAGATGTTTCA -GAAGCAGATGAGCTTTATTGTTGGATAAAAGATTACTGCACGCAAAAATTTTCTTCCTGCATCAAGAAAAATATT -ATCTTACAATTTGGGCCAAATAAATTTAGAAATCGTGACAAGGCAAATGAATTAATTAGAATCTTAATTTCACAA -AACAAAATATTTATATCTTCATGGGGTAAAACAAAAATAATAAACATAACTCATTGTGTTTTTTGATTTTAATGA -CAATCTAAAAGGACTTAATTTAAGAGTAAAAACAAACTCTAAACCCAGTTCGGATAAAAGCTTGTCATCTTGATA -GGTAATATATAGGTACATAGACACATCAGAACGATCACTTACTCCAATATCATTGGCCAGGATACTATATGACAT -ACGATAGTGAATTCGGATCACATGTATCCCTATATCGGGATAGAATCAAACAGGTTATTGATGACTCCCTAAACG -AACATCTTAACTCAATGATTCTACGTGTTGATCTGCATGACCCAATTGATACAGAAAATATGGATAACCCATTCT -TTCAACCCAGGGTTGACTCTGGTGCTATATCTCGCTTTACCAGTGCGTTAAAAGCAAAGCTTAAACATGATAAGC -ATATTAAAACTCAACGGAAAGACTGGCCTGATAGTCGACATTCCACTTTACGTTACGCATGGGTCAGAGAATATA -CCAAAAATAGAAAGCGGCATTACCATTTGATACTGTGTTTCAATCAGGATGCTTATTATCATTTAGGTGATTACG -ACTTAAACCGTAACACGTTACGTACAATGATAACGACAGCTTGGTACAGTGCACTTGGCATCCCTATAGATAGCT -CGGGGAAGTTAGTTAATTACCCGCCAAATGGCAAATACCTTCTCAATCGTAAAAGGGACAACTTTGAGCAGACTT -ATAGCGATTTGATGAATAGGGTGGATTACATGACCAAAGTAAGGACTAAAATAGTCGGTGACGGAGACCGTAATT -TCGGCTGCAGTCGCGGGTAATTTATTTTTTACAACAATGGCCTTTCTTATGGCTGGAAAGGCCTGATTTGTTTGT -ATTAAGATATCGGTAATCTTTTGATGGTTGGAAGCCCGTCCTGGTAGACGACCTAGCCTACCGAAGATGTGAGTT -ATTCAAAAATGTCGCTTTCCCGCGTTCCGTAGACAAACGTACCTAAATCAATGTCGTCTAATACCGAGCGCGCGC -CTGATAAACATCTGATCAACGTACCCAATCGATCTACTCCAAATGTCCTGAGTATCCCGAAGATACTGGCTCAAC -TCATCCACATCAGCCTCGTCGGAAAATTCCAGCAAGTCTACCAGTCGGTGTAACGTCTGAATGGGAATGCCAATC -TCTTCTAAGGCATTGACACCTGGTGGTAGATGGAAACTTTCGAACGCCAATTTGACATGTGTGTAATCGACTTTG -CTGCGTATACCACGCTTTACAGCGTGGTGTTTAACTACATCCTCCATCAAGCTGAGCACCTTAGGTAGGGTATAG -CCGAAGGTATTGGTTATGAGCTTCAAATCATTGTTGAGGGCAATGGAAAGAGTACGTTTCTCCCCTTCAGAAATC -CACTGTCGTGCATAATCGATCTGATTTTTCAGATATTCCGAATAACTTTCAGCACTTAAATAGCCGGCAAGTTTT -GCGATCATGACATCCGTAGGCTTAACAGGGACCCCATTGCGACTGAACGTATGGGGAACCAGTCTGGCAATGATC -TTTGCAAAGGTCTTGAGGAAGTTTGTCGCGGGAGTCCAGTGAAACACTAACGAGGAAAATTCGTTATCGTCCATC -ATCTCGAACATGCTTTGCAGCATTTCGAACTGCTCGACACGGAAGTACGAATGCTTCTTCACAAGGTCGATGGAA -ACACGGTCGTTTATGAAAACCTCATCAAAGCGATCCTGTGAAAACTCGGACAAGTGGTCTGGTTGAACGCTGGCT -AACAGGTTGATTGGGGTATCAATGCCCTGAATACCGAGCGGAATATCCACCTCTTGATTGAGATTGTCTTCCGGG -ATTTCCTCCAGGCAAAAGATTTTGCCGACGAAGTGAACGCCCATGCGCCCGGCGCGACCTTTGATGTTCCCATGG -GTGAATTTGTCAATGCTGCGAGTTCCATCGCGGTTGTCGTAGATCACAACGTTCTTAGCGATAGTGTTGACTCCT -TCAATGATCGTGGAGGTGCAGAGCAAAAAGCGCAGTTTTCCAGCATTGAATTGGTCGGCAGTGTATTGCTGCAGT -GCCCTCGGTAGCGCGCCAAAATGCAAGCCAATACCGTTTCTAAGGGCGACTGTGTAATCCCAGTCGGCATCGAAC -TCTTCGCTGACCCAGTCGACATGGGGATTCTCAGTCGGAGTGCCATGCCCAAGCCTGATCAGCTCGCGCGCCACC -AGGCCCGCAACAGTTGGTGACTTGCAATAAATGATCGTTGCGTCGACACATGCGTGCGCGATTTCCCCCAGCGCT -TTGAGCTTGGCTTTGTCGTCATTCGCTTTGATGCCGAACGTCTTAACATCTAGCGCGACTGTATTGAAGTCGGTA -GAAACGAAAGTATGCGGATATCCAAGTTTTTCGAGACCGCGAATGCTGTTAACGAACGGTCCCGTCAGGTAAAAC -TGCCTGGAGACCTTAAGCAGTTTGCTTAACGCAATGTTGAGCTCGATGACTCGTTCGTCTTGATGATCAATGTCC -CCGCTTTTCAGTTGTCGGAACGCCAACTTGTAAAACTCGTCAATGACGAAGAGGTCAATGTCGACGATGTCGTCA -CGCTCGTTCACTCGCTCCTGAGTTAACACATAAACAGCCTGATCGGAATGGCACACTTGGGAACTGTGGTGGATG -ATCTGATATCGGTCACCGAATCGCTCTTGCAGTCGGCGACGGGTTTCGTCGGCAAGAGCCACGGTTGGAACAACC -AGAACAAGCCGTTTCAAAGTTCCCATGCCGAGCAATGAATCGACGATTGCACTTTTGCCCATGCTTGTAGGTGCA -CTCAGCACCACGTTTTGACCAGACTTGAGCAGATCGAATATGTGGAACTGCATTGAGTGGAAAACATAACCATCC -GAGAATGGCGTCCGGTATAGCTCAAGCACCCTCAGGTCATCCGGTGTCAGGCTGGTGAACTCCTTTTTGAGATAC -GGGAACAAACCTGATTTTCTCACCATATTTTTCAAAATTGTGGTGTGCTCGGAAAACCGCTCGCGCGAATCGAGA -GCTCGCACGATCAAGTCCCGTCCCAAGTCATACGAAACAGGGTTAGACAACAGCTTGTTAACCGCAAACAGATAA -TTGAACGATGAGAAGTCCTCACCCTGCAGGCTATGTTTCGCCTGTTCATAGATCTCTGTCATACGACCTCTCTCA -CCTTCTCATCAACTAATTGGGTTAACCGCTCAAGACTCGGGGCTGGATAAATGAATACGTGGATGCAAAGATTCG -CAAACGGCGAATCCTCGATGAGGTCAGCCGCGAATTTTTCGAACAGCACCGCTGTTTCTTTCTCCAGGTCATCCT -CGAACCCCGGCGTTTCAGGCTCGGTTAGTAGATTAGAGTCGTAGCCCACGAACAGAACAAACGTGAAACGATCGA -GGTGAGCATCGAAAGGTTGGCTGCCATCAAGAATTTCGTCAATGTCGTGGCGAAGCAGGTAGTTATCGTCTTTAA -TGTCGAGGATTTTTTTGCGCGCGGTATCGATGCAATCCGAAATGTCCTCGTACAACTGATCCCGTATCTCCGGCA -ATCTGACGGCAATGTTAATATCAGTCACCAACTCGCTGAAGCCAATCCAAAGCTGATCACCTTCTGGATCGCGGC -GAACGATATGCACGTTTTCAAGAATTTTTTCGGCCCCTGCTTTTTCCACGTATAGCATGCAAGGAATAGGCTGGC -TTTCGTGGTGCTGCCGGATCGTTGCGTGCAACAGCACTCGACCCAAAAATTCGCTGACGTCATGGAGCGATTTGA -AGACGGAATTCTTTAGTCGTTCTCGCTTTTCAATGAATGTCAGTTTATGAATATCAGACATTTCTTTTGGTCGGA -GAAAAACCTCATCCAACCATTGACAGACGTTATCCGCGATGTGCTTGTAGCGGTATTTCTTAAGTGAGTACTGCT -GATGTAGAACCTGGCCTTTACGCTTAGCGCAGACCGAAGCCATAGGCGCTCTAAATGGCGTAAGGATGTGGGGTA -AGTCCCGTTTGACGTAGATTTTGCGGCCTGACCGAGATTGGTCATCTTCGACACGCTGCTTGAACCACTCAAGTA -GGTCTGGTCGTAAGTAGGACTTGTCATCAGCACTGTGAATGCGTCGAGAATGCTCGCCCTTGCGCGTCACAGTAT -CAAGGATGCGGCACCAAATGTCTTCGGCGACGGTTTCGGAACTGAGAATGACCCCATGTAGATCTTGGGAGGCCA -GCCGTATGTTCTTGATCCCTAGAAGTTCCAGTTCGCGCAGGGATGAAAACACTTCCCATGTAGCCGCATCGATCC -AATCTGAAACGCTTATACCTGAGTCTGTTAAAAAATTGTCTGTGCGTTTGTTGAGGTCATCGATGAGTTCCTGTC -GACCTGGCTTATCTAGTCGGGCGTTTGGGCTGATCGTCAAGTACTCAAGGGTTTTGTTGACCTTTTCCTCTGTGA -CGATGGAGTACCTACGTCCAAGGGACAGGTCAGACTCACACTGCATTGATTTGTGCAAAATTGAACTGCAGGGGA -TCGTCTTTTTATCAGCACCTTTTGAATTCTGAACGATGTCCGAAATGTTCCAACGTGTTTTGCCGGTGCTTTTTA -CCTGAACGAAGTCGATGTATCCATCAGATACAATGTCGATATCGTCTGTGACCTCGCAGCGCACACTGCGGATAG -TCTTGTCACGAAGCATTCGGGTGACATGGTAAGCGGCTACGCAGTCCTGAAATAAGAAACCGTGCTTGGCGGCTA -CTCCGCCTGAATCGTTCGACTCCATTTAGACATCCGTGACAATTTTGCGAAAATTAAGGAGATGTTATGACACAG -TCCAATCGGATCACTGCATCATCACCAGTGATCTAAATACTTCACAGCCATTCTCGGTCGCAGGTATCAAGCTTT -TCAGGATTCCACAAATATTGTAACCCTGACGTCTAATTTGGTTATATAACATACTGCCCCAACTAACGTAAGGTA -GGCACAGCCTTAATCAAGGTTTTGGTTTTCAAATAGTTCAGAGCTGAGACCGCCAACCGCACTATGGCACTATGG -CACTATGGCACTATGGCACTATGGCACTATGGCACCGCCAGCGATTGTAATCACACTTGATATTATAAAACACAG -TTGCACGCATTATTTCCTGGTTGGTAGGGTCATATCTCGATGCTCTTTGAGCAATGTCAACATCGCGTGTTCATG -GCTTTCTATATTGTTGATGCCTTGCCCATCCGGACCCCACTCCTTATAGCTCATCATGATGGCTTGTTTTGGGCT -CTCTGCTCGTTCTGTTTCGACGTAGAATTTTTTCTTGTCTGCTGGCGAATAATTACTAAGTATCGAGTTGCTGCT -TGGTGAGATCAGGAAGAGGTTACCGAAACGATGGACATCATCCCCCATTTTGTGGACTGCCCCCCCGGTAGACGA -TCCTGCCCTATAGTTGGAGTGCCCCCTATTCAGGTGGCTAAATTTAGCAAATCAATACACTTCAGGGGGGTATTA -TTGTAGAGTTTCCCCATATGTTTCTATGGGATCCAGGAAATGACAATCAGGAGTTACAAAAACTTAAATCTGGTC -AGGGCAAATATCGAGACTGAATCCAGACAATTCATTGAAAATAAAAACTATTCAATCCAATCAATTGGTCCTATG -CCAGGGTCAAGGGCTGGGCTTCGGGTCGTATTTACCAGACCAGGGGTTAACTTGGCAACTGTGGACATTTTTTAT -AACGGGGACGGTTCGACTACAATTCAATATCTCACTGGAGCCAATCGTTCTCTGGGCCAAGAGTTAGCGGATCAT -CTTTTTGAAACCATCAATCCTGCTGAATTTGAGCAGGTAAATATGGTACTGCAAGGATTTGTAGAGACAAGCGTT -CTACCTGTACTTGAGCTATCAGCAGATGAATCGCATATAGAGTTCAGAGAACACTCTCGTAACGCTCATACCGTA -GTGTGGAAAATTATTTCCACCAGCTATCAGGACGAATTGACTGTGAGCCTGCATATCACAACAGGTAAGCTCCAG -ATTCAGGGCCGACCGCTGTCATGTTACAGAGTTTTCACGTTTAACTTGGCAGCCCTGCTTGATTTACAGGGTTTG -GAGAAAGTGCTAATCCGCCAGGAGGATGGTAAAGCTAATATTGTTCAACAGGAGGTTGCCCGCACTTACTTGCAG -ACTGTAATGGCCGATGCTTACCCGCATCTCCACGTGACTGCCGAAAAATTGCTCGTTTCAGGGCTATGTGTTAAA -CTCGCCGCCCCTGATTTGCCTGACTACTGTATGTTACTTTATCCTGAACTACGCACCATTGAAGGTGTCTTAAAA -AGTAAGATGAGTGGGTTAGGCATGCCAGTACAGCAGCCGGCAGGTTTTGGAACTTACTTTGATAAACCTGCTGCT -CATTACATTCTGAAACCGCAATTTGCAGCTACTCTTAGACCGGAACAGATTAACATCATCAGCACAGCCTATACT -TTTTTTAATGTGGAACGTCATTCTCTGTTCCACATGGAAACTGTGGTCGATGCCAGCCGTATGATTTCTGATATG -GCCCGGTTGATGGGTAAAGCCACTAGAGCGTGGGGAATAATCAAGGACTTATATATTGTTTGAAATCACCGGAAT -TAACGTCTCAGGGGCTCTAAAAGCTGTCGTTATGGCGACCGGCTTCGAGAACCCTTTGTCCTCAGTTAATGAAAT -TGAGACGAAACTTTCTGCCCTACTGGGTAGTGAGACCACTGGTGAAATCCTTTTTGACCTCTTGTGCGCTAACGG -TCCAGAGTGGAACCGCTTCGTTACGCTGGAAATGAAATATGGCCGGATCATGCTGGATACGGCCAAAATTATTGA -TGAGCAGGACGTTCCGACACATATCCTGAGCAAACTGACTTTTACTTTACGTAATCATCCTGAGTACCTAGAAGC -CTCTGTTTTGTCTCCCGATGATGTACGCCAAGTCCTGTCAATGGATTTTTGAAACTCTTCTTTCTAAACGAACCA -GTATAGAATTCGCCCTTTTGGCATGATATTAACTTGTCCAATATGATCAAATAGCATTAACCCCCCCTCACAACG -TCCTGCATAGGGAACACGTTTTCCCCTGTGCACCCACGACTAAATTTCCCCCCCTTTAAACTTCTCAATAATGTC -ACCAATTTTCTGGAAATCCTATGATGCCTTTCCCGGTAAATGGTGCTGTGAGTTCAGAAAGATTCTGCAATCTAT -GTGCATTGAAAAAATCTTCAGATAGATATCATTCTCCTGAACAATCCGATGAACGGCAGAACCTCGCGGTTCTGC -CGTTTTTGTTTTACTTTTCAGAGGAGTGGTGATGAAAAATTTTGAAGTTCTGCAGCCACTACAGAACTCCCTTTC -CGGTCTACCGCTATGGGTATCTGAACGTATATTGCAGCAGATAAATCAGTTAACCCACTACGAGCCAGTGATCGG -CATCATGGGTAAAACTGGGGCGGGAAAGAGTAGCCTTTGCAATGCCCTGTTTGCCGGTGAAGTATCGCCGGTCAG -CGATGTAGCGGCCTGTACACGTGATCCTTTACGCTTTCGCCTGCAGATTGGAGAACACTTTATGACCATCGTGGA -TCTGCCCGGCGTGGGCGAAAGTGGCGTTCGCGATACCGAGTATGCTGCGCTGTACCGCGAACAACTTCCCCGGCT -CGACCTGATTCTGTGGCTGATTAAGGCTGATGATCGGGCACTGGCGACTGATGAGCATTTTTACCGTCAGGTGAT -TGGCGAAGCATACCGGCATAAGATGCTGTTTGTTATCAGCCAGTCAGACAAAGCTGAACCCACCAGCGGTGGAAA -TATCCTTTCCACAGAGCAGAAACAAAATATCAGCCGCAAAATCTGCCTGCTGCATGAGCTATTCCAGCCCGTGCA -TCCGGTGTGTGCCGTGTCGGTTCGCCTGCAGTGGGGACTAAGGGTGATGGCAGAGCGGATGATTAAGTGTCTGCC -GCGTGAGGCCAGCAGCCCGGTAGTAGCGCTACTGCAACATCCCTTTCGAACAACGGTAGCCCGGGAGCAGGCACG -TGACGATTTCGGTGAAACCGTAGGTGCCATACTCGATACGGTAAGCACCTTTCCCCTTATTCCCGCCCCGGTGCG -GACCATTATTCAGGCCGTGCGTTCCTCGGTGGTGTCAGTGGCCCGCGCTGTCTGGGATTTCTTCTTCTGAGTGTT -TAATTCTGCCCTATTATTCTCCGAGCCCTGTCGCAAGTGCGGCAGGGCTTTCTTTATTTGTTTTACCCATACTGA -GGAGTCTGCTTATGACCCGTCTGGCTTCGCGCTTTGGCGCTGCAAATCTTATTCGCCGTGACCGTCCGTTAACCC -GTGAAGAGTTATTTCGCGTGGTGCCCAGCGTATTCAGTGAGGATAAACACGAATCCCGCAGTGAACGCTACACGT -ATATACCCACAATTTCCCTGCTGGACAGCCTGCAGCGGGAAGGCTTCCAGCCATTCTTTGCCTGTCAGACACGGG -TACGTGACCCCCGTCGTCGTGAGCATACTAAGCATATGCTGCGCCTACGTCGGGAGGGGCAAATTACCGGTAAAC -AGGTTCCGGAAATTATCCTGCTTAACTCTCACGATGGCACCAGTTCGTACCAGATGCTGCCGGGCATGTTCAGGG -CGGTGTGCCAGAACGGTCTGGTCTGCGGCGAGTCGTTTGGCGAGGTGCGGGTGCCACACAAGGGGGATGTGGTGA -GTCAGGTTATTGAGGGGGCGTATGAAGTGCTGGGGATTTTTGAGCGTGTGGAAGAAAAGAGGGATGCCATGCAGT -CGTTGCTTTTACCGCCACCTGTGCAGCAGGCACTGGCAAAAGCAGCGCTTACGTATCGCTTTGGTGAGGACCACC -AGCCGGTTACTGAATCGCAGATACTCTCCCCACGCCGCTGGCAGGATGAGAGCAATGACCTTTGGACCACCTATC -AGCGGATTCAAGAAAACCTGATTAAGGGCGGACTCAGTGGGCGTAATGCTAAAGGCGGACGAACTCATACTCGTG -CCGTGCGTGGCATTGACGGGGATGTGAAGCTTAACCGTGCGCTGTGGGTGATGGCAGAAACACTGCTCACGCAAC -TGCAGTAGACGTTTCATGTTGCCACGTTGTTAATATCGGACACCACCTGTCCGCATCGCTATGTGCTCGTGTGCC -TCAATCCCCCGGTTATAGCTTTTAACCCCCGTTACATCTGGCTTTTGCAGAAATAAAAAATAGTTTCTGCGTTGT -CCATACCCTGTCCGCCCCCCTCTTTAAAGTAATCACATCATTTTCAGTCAGTTAACTTTCCTGGAGAATCTCTCA -TGACACAGGCAGAACGCCGCCATGACCGGCTGGCTGTCAGGCTGTCACTGATAATCAGCCGTCTGGTTGCGGGTG -AAACGTTGAGCGTGCGCAAACTGGCGGCTGAGTTTGGCGTGTCAGTGCGCACGCTGCGGCGTGATTTTCGTGAAC -GACTGATGTATCTGGACCTGGAGTATCAGTCCGGATACTGCCGCTTACGCACTGCTGGCAGTGAGATGCAGATGG -TGCCCGACGTGCTTATCTTTGCCCACCGCAGCGGGCTGGCCGGGCTTTTTCCCGGCCTTGACCGCCGTCTGGTGA -ATGCACTGCTGATGTGCGATGAGTCTCCCTGCGTGATAGCACCAGCCAATCCGGTTCCTTCGCCTTCAGGAGCAT -TGTCTTTCTGGAGACTGATTCAGGCCATTACCGGGCGCAGGCGGGTGACGCTGATTGCAGAGGGGCGACGCTGTG -AGCGCCTAGCTCCCTGCCGGTTACTCATCCACCAGCAGACCTGGTATCTGGTGGCTGAACACGAAGGGCATATCG -CCGTATTCACACTTGATGAAATCCATCTGATTCAGCCTTTGCAGGAGACTTTTCGCCGCAATGACAGTCTGTGTC -GCCTGGTTGAAGACCCGGTCTTCATTCAGGCCTTACCCCATTTTCGCTTTATCCAGCATTCACTGCTTACGTTTG -TTCCGGCCGACAGCCCACCGGAATAGCGCAGGCGTTGTTATCAACCCGGCAACATGGAGGAGCCCAGTGCCCGTT -ATTGCCATTATCGCCATTGTTATCATCGTCATCATTCTGAACAAAACCGGAGTGTCCGACAGCCTCACGGCCCTG -ACACTTGCAACCGTTGCCGCACTACTGACGGGAGGTGGTGCAGCCGGTGCTGCCAGTGTCGCGCTGACGCCGTTC -GTCGGCGTGCCGGTGGGTATTTTTGTGGGAATTTATGTCTTTGCCAAAGTGGTTCGTCTGATTTCAGGGAAAAAA -TAATGAAACGTAAAACACTACCTCTGCTGGCGCTGGTTGCCACCTCTCTGTTTCTGAGCGCCTGCGATGACAGGA -GTGATGACCTCAAAGCTATCAGTAAATTTAAGGACCTCACGCCCCCGCGCTTCAGCGATGTGGTCAGCCGTCAGG -ATGATGTCAGCGAAGAATGGTCACAGGTTGGCTTCTCATCCGGTCTCACCCTGCAGGTCTTACGTACCCGTGAGT -CGCCCGATGGTTGCGAGGGTGGCAGTTACTACTATCTGGTAGATATGGAGGAGAAAACCGTCCAGCCGCTGATGA -ATGCGCTTTGTATTGCCGACAATATCAAACTGGAATACCACGAAGTTACGGACCCGTATACGAAAGAAAAATACT -TCGAATATTCCCATGACGGCAAACTGATGGGACGGCTGCTGATACCGTCAAACCCTGATAACCGGGAATAAAAAC -AACGAGAAAGGAGACATAAATGAAAATACGTTCACTAAGCCGGTTTGTACTGGCAAGTACAATGTTCGCCAGCTT -TACAGCCTCTGCGGTCCCCGGACTCTGGCAACAGGGGTACGGTCAGGGCAATGCGGAATACAGTGTGACGGATGC -CAGCGGAAAGATGTTTACCATCAACTGCACGGGAAATCCGGACCAGAACGGTATTTACCAGCACTCGGTTTTTCT -GATCCTCGCCGGGGATAAAACGGTCAGCTCGCATGATGACAGTACCGGCATCACAGTGGTGATGGACCATAAGCA -ATATGCCATTCCCTCAACCCTTGGCTGGCGTAACGGAGATAATGCCTGGTTCAGCTTCATCATGGATATCCGTAA -GGCCCGGCAGTTCGACGTCTACGTCAATGACCAGAAAGTTGGATCGTTTAACCCTGATGTTCGGAATGCACAAAA -GGTCCTGCCAACATTAGCGGACTGCACTAACGACTGACGGCTGCGCCTTCCCTACCATAACAACCCTGATTGCCT -CCGGCGGTCGGGGGTTTCTTTTTTCTCCTTAATCTCCAGAGGTAGGCCACGTACTTTCGAACGATGAGCGCAGTG -GTCAGTTTTTTTCAGATATATTTATCTTTTTTTGGCTGTAAGCTCCGCTGTGAGCGCAGGCTGTGTTAAAACTCC -TGATCACTTTTTGGTCTAAGCGATGGTTTCATATGATCAACCATTCTTGATAAACCCATGAGACGGACTAACTTT -TTCATTAAAATTAAAAAGATATGAATGAATACTGCGGATATCAACATGGCCAATCACATTCAAGGACAAGGCAGG -CATCAGGTGACATTGCTCCCTGATGCACTCGATGATTTTGTCACTGAAGATATCTGAAATAAGTTTAATCAGTTC -ATCACGGGTCGGTGGCATATCGAGATAATTAATTATTGTCGGTTCGTTGCCGTTGTTATGAAGCATCTCCAGCGT -GTTGCGTGAGGTGCCACAGGCCGGGTTGTGATAGATGGTAATGTTGCTCATATCAGTATCTAATTACAAAGTGAC -AGAGAGCCGCCACGCCAGCGCGGCCAGAGTGACAAACAGCACCGGCACAGTCATGACAATGCCGGTACGGAAGTA -ATATCCCCAAGTGATTGTCATATTTTTCTGGGCAAGCACATGCAGCCACAGCAGAGTTGCCAGACTGCCAATCGG -GGTGATTTTCGGGCCTAAATCACAGCCAATCACATTGGCATAAATCATTGCCTCTTTGACGACGCCAGTCGCCGT -ACTCCCGTCAATCGACAGCGCACCAATCAGCACCGTCGGCATATTGTTCATCACTGATGAGAGAAATGCCGTCAA -GAAGCCGGTGCCGAACGTCGCTGCCCATAACCCCTTGTCTGCCAGCAGATTCAGCACGCCAGACAGGTACTCCGT -GAACCCTGCATTGCGCAGGCCATAGACCACGATGTACATGCCCAGTGAGAAAATAACGATCTGCCATGGCGCACC -GCGCAGGACTTTTCCGGTGTTGATCGAATGACCTCTTTTCGCCACCACAAACAGCACTGCTGCGCCAGCGGCCGC -TATCGCACTGACCAGGATTCCCTGCGGCTCCAGAAAGAAGAAACCGACAAGCAGCAATAACAGGACAATCCAGCC -CGCCCTGAAGGTTGCCAGATCCTTGATCGCACTGGCAGGCGTCTTCAGCAGCGAAACTTAATACGTTGCCGGAAT -AACTCTGCGAAAGAAGAGATACAGCATAATCAGCGTGGCCGCAATCGCTGCCGCATCCACGGAGATCATAACGGA -GGCGTACTGCGCAAAGCTCAGACCGAAGAAGTCCGCCGAGACGATATTCACCAGGTTAGAAACAATGAGCGGCAG -GCTGGCCGTATCTGCAATAAATCCTGCAGCCATGACAAAGGCCAGTGTCGTGCCCTGGCTGAACCCAGTGCGATC -AGCATCGCAATCACAATCGGCGTCAGGATCAGCGCGGCGCCGTCATTGGCAAACAACGCATCAACAGCGGCACCG -AGCAAGACTTTCCAGGTGAACAGCGCTCTAGGTAGGAACTTTGTCGTTGATAGAGTCTTCAGCCATCAACACTGT -ATCGAGTAATGAAATTGGTTGCTAGAAAGTCGATGATTTGTTGCGTATGATTAAAAATCAACCTTAAAGGCTTTA -TACATGGATTTGCTATGGCTTTTGTATCAGAAAGAGAAATTGTAAGAAAGATATTTAGCAAAAAAATTGACTTTA -CGATCTTGGCATTTTTCTATATTTCCTCTATTTTTTTTCTTCTTTGTAGTGGCGTTCTCTTTCAATATTTTACCG -CTGCCTTCACAAAAGGTAATTGTTATGAATGCTCAATGAAACTTGATTACATAAAACAATTTTATTTTTCACTGG -AAACCGCATGGTACCTCATATCTGCTGTTGCAGTATTTATTGCATCTGTTTTTATACAGCATAGAATTAAAGCTT -ATTTAACATTATTAGCTATTACATGGATTGTACTAACAATAACAGATGTGGCGTTAATACACGCCTTAGACAATA -TAGCCATGAATAATATTTTGTTAAATATACTATATAATCTTTTTGGGGCGATTTTATTGTCACTGTTTATGTGTT -TATCAAATTCCCTCCTTTTCCACCTTAATAAGATAAAACATATTCCAATGATTTTATCGGCAATGATTCCATTAG -TTTCCGCAATAATAATAGCCATACTCATAACCGCTGTTATATATTTATTGTTTGCCCGGCAGGCGGTAGAGATTG -AGATGGATATATCTGAAGGTTCAGACATCGCATATGTAGGTGTAAAAGATAATGAGGAATCATTTGGGTTTTTAA -ATGATAAAAAAACAGACACACCAACGTATCTGGATGTAATCAAAAATGGTAGTTTGATATATAATGATACACAGG -GTTTAAGTGGTGCTGATATTTATATTGTCTCCGGTTGTTATGCCCTTCCAGATTTACTTCGCAATGTACCGCTTG -ATGCTAAAAAATCTTTTCTGAATGTAAAAAAGCTAGAAATCACACAGAAACTTCCAATGATGGGGTTCATACAAG -GTGAATCCGCTGATGTGATGCCTAAAGCAGCATCCAGGTTAAGTTTGAGCAAGCAAGATGATAAATTTATGCTAG -CCTCAAGTGTTACTGACTCTCAAATAAAATTTAAATCAAACAATGCACAATTGATGGTTGCTTTCGCATTTATGC -CAATAACAACGAATGGTATTTTACATGATTATACATACGATATAATAATAAATGATAAAAAATATAAAATTGAAA -ATCATGTTGCACCTCTATCTAGGCTTGATAAAAATAAGAAGATGAAGTGTGAATACCAGCAAATATCGGATTTAA -CAAATACGTATAACATTAATGCAAATTACTTAACGGGTTTTTTACTTGTCCTAAAACCAGATGATATTATTAATT -ACAACAATAGCCCTTCCGTACTACTCAAGACTGATTTTGCGTTCTATAAAAAAACATACCAGAAGCTTGATAAAA -TATATGATGACATAAGCAATGGAAAATTATCTTCACTGAGAGCAACAGGTATCTCCCAGTTTAGTATCAACGGGA -AACATTTGTCGTTAAGGCCAGAATCGGAGATTATTATTTCTGAAGGGAGTTTGTATGGACTAGTTAATAAAAGCA -AAAAAATCAAAATATATGGCACAGCAGATCTTGTTTTTGTTGATAACAAGATAATGAACCTTCGTAAAATAACTT -ATTTGCAATCTAAGCTAGAAATTTTTGGTTCTTCTATTATGGATATATTAAAGTATATATTTGGTTTAGGTCTGC -TAGCAATTTCTATAAAATTCATTCATTCTTACTTTAAGAATGATGTGAATGAAAATTTATTCTTGTAACGCATTT -GGCTCCAATTGGAGCCTTTTTATGACTATTTATTAAAATATCCTAAGTTAAGCCTGTTTTTAAAGCAGGCTTGAG -CGTGAAGCGGACACTCATACCTGCTTTAAAGTGGCGTTTTTGTCGTTACCCATACCTATATTTTCTGTTGTTTAA -CTGCCAGAACTGAGCGGTTGAAAAGCCAGAAATATGCCGAGCCAGCGGCATGGAAGCGCCAGCAGCTGTTGAATG -GAGTACTGTAGGCAAATGGTGCCGTAACCGGCTTTCGTACTGAAAGGTTCTGTCTATCCCATCCCTTCTCTTGTA -TCTAACATTTAGTTGTGAATAGCTACTGTAAATGCCCCTACAAAATGAACCATTATTTTTAGAGGGCGTCTGGCA -CTCCAACTTCCGCTTTTGGCACAGAACGGCCTATCAGCAATATAAAAGCATTCAGATATATATCATTTCTACAAA -CATACCCGATTAACGGCAGAATCTCAGGATTCTGCCGCTTTTTTATTATTTTTCAGGGGAGTAGTAATGAGCAAC -TCTGAAGGTTGGTAGTCATTTTAGCAAACGCTTTCTGGTCTGCCGCAGTGGGCATCGGCTGATTGCGTAGCAGGG -CCACTGGTATCTGCCGGTATCACCGACATTAACATTGAAGACGACCAGGGCATTCACGTCCGCCTGATAGTTCGT -GATGCCGAAGGTCGGATGGTTGGCGGGCATGGAACTTTGAACCGGACGCCGGTGAAGGTTTTAACCGCTATATCC -ACAGGTCAGGCATCCGCACCGACACCTTCCCCCGCTGACTCCGAATCATTTACCAGCAACATTTCACCTTCCCAA -ACGCGCTTTATTACCTCATACGCCAGCCATCGCCGCTGGCGTTTTTTATTCACGGAGACATACCCATGACAACAC -AGACACAGTACGACCTCGTACCCGCTAACGGATCCGAATTTGAGTTGAGCGTAACGCAGGTACCCGATGAACAGC -ATATCCGCTTCTGGCCGCAGCACTTTGGCACCATCCCGCAGTGGATAACGCTGGAACCGCGCATTTTCGCCTGGA -TGGACCGCTTCTGTGATGAGTACTGCGGGGGTATCTGGTCCTTTTACACGCTCAGCAATGGCGGAGCGTTTATGG -CTCCTGATGCTGACGGTGACGATAAATGGCATTTGCTCAACGGCATGAATGGCAATGGTGCGGAAATGAGCGCGG -AAGCCGCAGGTATCGCTGTCTGCCTGATTGAATATAGCCATCACGCCTGCCTCACCGAATGCGATGCCATGACGG -AGCACTATTACCGCCTGCGGGATTACGCTCTGCAGCACCCTGAATCCAGCGCCATTATGCGCATTATTGATTAAG -GATACTCATGATGGAACAGTCACTCATCCCACAGACACCGGTACTTCCACTGACCGCACAACGCACGGTAAAACG -CGCCTTAACGCTGCTTGACCGACACCTGCGCGAAACAGGCGTGGCATTCACCTCCACTCAGGCTGCTCGTGACTG -GCTGAAGCTGAAAATGGCGGGGCTGGAGCGTGAAGAATTTATGATGCTGTATCTGAACCAGCAGAACCAGTTGAT -TGCCCACGAAACCCTGTTTGCCGGTTCTATTAGCAGTACCGAGGTACATCCCCGTGAGGTGGTCAAACGCGCCCT -GTATTTCAATGCAGCAGCAGTGATACTGGCGCATAACCACCCCTCCGGCGACACTACTCCCAGCCAGGCAGATAA -GACTATAACGCAGCGTCTGGTGCAGGCGCTTCAGCTCGTTGATATCCGTGTCCCTGACCATCTGATTGTTGGTGG -CAGGCAAATCTATTCGTTCGCAGAACACGGTCTGCTTTGAGGTATTACATGAGAATTATCAGTAAACGCCGGGCA -ATGACGATATACCGCCAGCATCCTGAGTCCCGAATCTTTCGCTACTGCACCGGAAAATATCAGTGGCACGGTAGC -GTCTGTCATTACACCGGCAGGGATGTTCCGGATATCACAGGAGTCCTGGCTGTGTACGCCGAACGCCGCAGGACC -GCAGCGGACCGTATGCTTGACTGATGAGTATCACCCTGAACTGACAATAAAGAGGTTATGAATGAGCAACACCAC -ATGGGGCCTGCAGCGAGATATCACGCCGCGCCTGGGAGCACGTCTGGTGCAGGAGGGCAACCAGCTGCACTATCT -GGCTGACCGGGCCAGTATCACCGGTAAGTTTAGTGACGCCGAATGTCCTAAGCTGGATGTGGTATTTCCACATTT -TATCAGCCAGATAGAGTCGATGCTGACCACTGGTGAACTGAATCCCCGCCATGCCCAATGCGTCACCCTGTACCA -CAACGGTTTTACCTGCGAAGCCGATACTCTTGGTAGTTGCGGCTACGTATACATCGCTGTTTACCCCACTCAACG -CTAACTAATTTCACGAGAGCAAGCATGAACACTCTACCTGCTACAATTTCGCAGGCGGCGAAGCCCTGCCTGTCG -CCAGTGGCTGTCTGGCAAATGCTACTGACACGCCTGCTGGAACAACACTATGGCCTGACACTGAACGACACGCCG -TTCAGTGATGAAACTGTTATTAAGGAACATATCGATGCTGGTATCACTCTGGCCGATGCAGTCAATTTTCTGGTG -GAAAAGTACGAACTGGTACGTATCGATCACAGAGGATTTTCGTGGCAACAACAGTCTCCATATATTTCCGTAGTA -GATATTCTGCGAGCAAGGCGCTCTACCGGCTTGCTAAAAACTAATGTGAAATAAACGCTTAAATACAGAGCAGAC -TGAAGGAAAGCAAAATGCTAATCTCATAGACGAAGAGACTCCCGCTGTAACCTCCCCTCCCCCGAAAAAACCTGA -CATTTTCTTTTAGGACCAACAATGGGACCAAAATGAAAATTGAACTGAAGATTACAATCAATTTAACAACAAGTT -ACACAACCAATTCAGACTCCGCCAGCCCACCAATCATGATTGGACGGTGTAAGGACAACACCAACAAAAACAGGA -AGTTAGAAGTCTCAGCAAAACACCGACCAGACGGTGAGGAGACATAAAAGGATACGCAAAGGAGCCGCGGCTCCT -GGTAACATGAAAGCCCACAGATGTGGGCTTTTTCGTTGATGGTCAGAACGACCAGTTCACACCAGCTACCGCGTT -CCACGGGGATTCCACACCGGCACTATGGCTATACCCCACCCCAAGATGCCCGCTTAACGTACTGCTGAATGAGGC -TTTAATACCTGCCTGGTATATTCCACGTCTGCCCGACAAATAATTGACGAAATTACCGTCACTATTCACTTTCAC -CCGGTTATCATCGACAAATTCTTTGCGCACAGCCGCCTTCAGCCACGGCTCAACTTCCATACCGTTCCCCAGACG -CATGTTGTAACTCAGCGTTGCGCCCAGTTCACGATATATACTGCGGGTATCGACTGATTTCGATTTCATGCCATT -GGATAAATGATATTCGGGGTTATCAGCGGTGAACCCCGTTAACGATGCATACGGCGTCAGGTTCCAGTTACCATC -GGTAAATCGCATCCCGGTTTCAATGTGACCGCCCAGCCCGTTGCTGTGGTAACTGCCATTGGCGGCTCCACCGCT -GCTCATTTTACCTGCTACGTTACTTTTAAAACGGTTCAGCTTCACGACACCGTCCAGATAGAAACCACTTTCATG -TTCCCAACTGGCATAGCCGCCCAGAGAATAACTGCCCACACTGCCATGTCCTCCGCGATCAAAACCGATATGTGA -ATGGGAATAGCCCATAAAAGCGCCTAGCGTGGTAATTCCTTCAGGAATATCATTACGGCTGTCGATCCCCACTGT -CATTCCGGTCAGCGTCTGCTCAAACCCGGCACCCGCATCGGTGGTGACATTATTACGGGTGTTATACGTCGCCCC -CCAGACATTATTGTTGTGTGGACTCGCTTTCATTATGTTCAACCGCTCGCGAATACTGTTTAGCTCAGCATCAAA -TACCAACGGTAATGTTGCTGCCATATTGAGTACGGCTGCCGTAGAAGGCGTAATGCGTTTCTCCGGAACGGGTGT -CGGCGTTGGATCGGGAGTAGGGTCTGGTTTTGGATTTGGGTCTGGCTTTGGATCGGGTTTTGGGTCTGGCTTTGG -ATTTGGGATGGGGTCCGGGTTGGGTTTGACATCATTGGTCAGGTTCCAGTTGCTGTTGCCGTCACTTTTCAGGAC -ATACTCATAGGTCCCAAGATCAACGAAACCGCCGGTATTGCCCAGCGTAAACGAAGCATCCCCTCCCCCTGTTTT -CACCAGCGTCATCGCGTCGTCAGACTGTGGGCTGACGCCGGTATCCTGAACAAAGATTTTAAAATTACCAGTGGC -GTTGTTGTTGACGACCAGTTGATCGCCCCGGGAGCCTGCAACGTTGGTATGCAGGTAGAAATTACCGCTACCGGA -AAGTTCATTGGTTGTCAGCGTATTGTAGATACCGTTAGTTGTGGCAGGCGCTGCTGTTTGTGCTGACAAATAAAC -ATCACCGTCGTTGAGTAGCAAACTGTTTACTCTATATTCGCAGTTGCTGGTACCTGCACAGGAATTATTGCTGTT -AAGCCAGACACTGCCCCGGCTGGCAGCCGTCAGGTCGGCAAGCGTGGTATCGACGCCATTTCCCAGAGTCAATGT -CGCGCTATCGGTAATCCGGACCGCCCCTTCGAGTTTAACTGGCGTAACATTATCCCGTGGCGTCATTAACGACAG -GCTTCCTGTCGCGCCACTGACCGATGCATCCGCCAGCGTACCTGCGTAGACGATTGCCGTACCGCCAGCGACCTG -GAGATCTTCTGCCCGGGCCAGAGCCTGAAACTCATCTTTTGACCGCCCAAGGGTATATTGCCCGCCAGAGTTAAC -CTTTGTGGCGGAGTCCTGACCCAGGTTTTGCATTGCCCCACCCTTGCCAACCGTGGAGTCGCGAGCTTCGGTACC -TGCTAATACCAATAAATTACCGCCATTTTCCAGCAACATATTGGTCGCTAAATTGCCGGAAATGGAAAAAGTACC -GTACTGGTGAGTACCGCTGATTTCAATACCGTTAGCCGTGCTCGTCTGGAGAGCGGCACCGCTGTTCTGGACGAT -ATCTGTCGCTTTGCCATTATCGTTGACTGTCAGCGTACCGCCTTCATTGATCTTTGTTTTTATTGCCTCTCCGTT -AGCTGAAACTGTTTGTATTCCGCCGTCGTTAATTGTTGTCTCATTCGCCACACCCTCGACAATTTGTTCACCGCC -GGTGAGCGTCGTGCCTGTCGCAGTGGCTTTTGTTTTGACGATCTCCCGTCCGCCCATATTGACCTGTGTTTTGTC -AGAAGAGGTGTCTGACTCCACGGTTAACACGCCGCCATTTGCCAGCAGGATATTGTTCGCCGCACCCTGCTCGAT -GCTGAACGCGACGCCATCCGCGCGTGTTCCTGTGACCCGCGTCGCCCTGGTGGTTGCAACCAAAGCGCCCTGGCT -ACTCTGCTGTATCCCCGTTGCGCTGCCTTTCTCCCGCACATCGAGTGTGCCGCCGTCATTAAGCACCGAGTTTTC -AGCCAGGCCGCCCTCATTAACTACCTGTGAACCCCCATTAATAATGGAACCTTCCGCTGTCCCGTTTGCCATAAT -TTGTTGTAGGCCAGAGACGATATCGGTATTGATTGCCTTACCATAATTCTGAACGGTTTGCGTGCCACCATTGAT -GTGTGTTTTCTCTGTTGACCCACCATCAACAATTTGTTCACCACTTTCGATATTTGCTTCAGTGGCTAAACCATA -TACCGTTTGCTTGCCACCTTTGATATTTGCTTTATCAGAAGTGGCACTGGCATATATTGTTTGGGTGCCAGCACT -ATTGAGTACAGTGCCAACATCTTTTCCATAAACATCCATTTTGCCGTTGGCATTAATAATCGTGTCAACTGCGCG -GGAACCAGTGACGACTGTTAATGAGCCAGCGTTTTCCAGCACTACATTTTTAGCTTCTGAATTCCTGATGTAGAA -AGCATCACCATAACTGTTGGTTCCTTCGATAAGTGTTCCGGAGGTCGTGGAAGCAATTAATGCGCCGCCGGATTG -TTGCTCAACATGCTTAGCCTCACCACCGTCCTGAACCTCCAGAACGCCGCCATTATTAAGTCTGGTGCTATCTGT -TTTAGCCTCCTTCTGGACAATCAGCTTACCGCCAGTATCAATGGTAGTATTTTTCGCCGAGGTTTTAGCCACTAC -CGTCAGTTCGCCGGTATTTTCCAGCACAACATAATTAGCCTCCCCTCCGGTAATAGTGAAGTGAGAGAGCTTGTT -GTATCCTTCGATATCAGTCCCTGCACCCGTGTTGGCAACTAAAGCACTGCCCGTCTCCTGGTTAACCCCATGTGC -AATACCGCCGGTATAGACAATCAGCGAGCCTCCGGCGCTAATATTGCTGCCAATTGCCGTACCATCTTTCTCAAC -AACCTGCCGGCTCCCGGAGGATATAATTGTTGTGTCAGCTTTCCCGCCGCTTTTGATATTTTGCGTTCCGCTGTT -GATATTGGTGCCTGTGGCTATGCCATAATTATTAATATTCTGTGTGCCACCATTAATTATGGTATTTGTCGCGTT -TCCTGCAACATCCATAACCCCGCCATTATCTATTCGGGTCGCATCAGCTTTAGCATTGGTTAAAACTGACATTGT -TCCTTTATCTTTAATAATCGTCTTGTTTGCCGAACCATATGCGTTTATGTCTAAATGACCACCGTTTTCCAGCAA -CACATTGTCTGCCACGTGATTGTGGATGGAGAATGCACCTTCACTATTCGTACCGCTCACCGTCGTACCGTTAGT -GTTAGTTTTTAAAATTGCACCATCGTGCTGGGTAACATTTGTTGCCGTACCACCCCTAACATCAAGCACGCCACC -AGAATAAACTTCAATAACATCCGAGGTGCTGGTGTTATCAACAATTTGCGTGCCACCAGAATAGATATGCGTATT -TTTTGCCGTTGACTTACTATTCAGAGACTGAGTTCCGCCTTCAATCGTCGTGTCCAGCGCACGGCTCTCATATAC -TCTTTGCTCACCGCCATTTTTAATGGTTGTTGTTTCTACTGTGCTCTGTTCAACATACTGTCGACCACCATTTAT -GGTTGTGTTCGTTGCCAGACTTCCTTGTACTACGTCCTGAGAGCCAGACTTATTTATCGTTGTACCATCAGCATG -CCCTTGAACTTTTACTATCTGGCTACCACCATCAATGAGTATTCCATTCGCACTCCCTCCCTCTACGCGTGAAGC -ACCGCCCTTAATTGTCGTTCCATTGCTGATACCCCCTTTATAAACGTCCTGATTGCCACTCTCGATTGTCGTACC -TGTGGAAATACCCCCGTCATGAATTGACTGTCTGCCACCGTTAATGGTTGTATTATTAGCCTGCCCCACAAAATT -GTTATGACTTCCTATATCTTGATATCCACCAGATTCAATAAGACTTCCATTAGATACCCCGCCATGAACATTCTG -CTGGCCATGGTTGATAATATGAGTGTTATTTGTTGTACCTCGTTCATCCACTTTTTGGTTGCCATCTACAGTCTC -ATCGTTTACCACACCAATAACATTAGTAGTGAAGGCAGCCATCCCGGGCGGGGCATATATCAAGGCAGATATCAA -TAAGGAAAGTACTGAGCGGCGACAATAATAGGGACTGGTCCTGTTCATAAATTTCATCCTCTGAAAAGTGAATAC -TGAGTAGCGTTTAAGCGACCTTAGCTTTGCTGCAACATCAGCCCACAGGCACCAGACCAGGGGATTCATCCTGAA -GAGACAGCGCAAGTGTATTGTGTTCACCGCTCATCAAAGACATCATGATGAAATGATGATATTCCGCATAAGAAT -GAGGCATTTTTTAAACGCAGTGCGCTGAAGTGTGGTTGGATAAAAAAGTCAATCCATTCAGGAAATACGGGCGTA -TTCTTTTCTTTCGACAATGAGGCCGTTGGCAAAATAAAATGATTTACATAATCGTTTCTGATGAATATCTTCTGC -TCACATAAAAATCACACAATAACTTTGAGATCGCAGATTGTTTTACTTTTACAGCATTCGTCCCCCCATTGTTGG -GCAAATATAGATTGGGCCAGAGCACGAAAGTTAATACCACGTTCGCACAGCTCCTCCAACAGCACGACAAGATGC -CACATACTGCGCCCCAGTCGGTTCAGTTTACAGACTAGCAGTGCGTTCCCTGCCGATGATGTCCTGACCAGTTTT -TTCAGTCCGGACCTCCTGCCACGGTTTTACGTTGAAGTGGTAACCCTGAGCACGCAGTTCTTCAGTCAGGCGTGG -TGCACCGTAACGCTGTTATTGCTGGGTAAGATCAAAAAACTTTCAGGCAGCTAAGGAAAGTTGAACCAGACATTA -GATGAAATATTTCAACCAATTACAGCACCAATTCAGTCACTGCCAGCCCACCAAATAAATCAAGGGGTTACATGA -AAACGTAGCCCCTTTTTCTTTGGTAGTGACACTAAAATGGATGTAGTGTGAAGAATAATCCCGTTTACTCAATCA -ATAATACATATTGTTTCAATCTACGTTATTATCTCTTTGTAAAAATTGCCATTTATTAATCATTGAAAACTGCTT -TTAGAACTTGATACAACGGGACTAGTCACAACAGGACTATTCTCAACGGGATCATCCTCAGAGGAACTATCATCA -AAGTCATCATCCATAAATAAAATATCATCGAATGGTGCCACGCCCGTGATGAGTTTTATTTTATTATTACGATCA -GTCAATACTCCACTTAAACCGTTTTCGCTCACAGGTTTTAATGATTTTTCATTACTCTTGTTGTAAGCAGGCGCA -TTAAAAATACACGGAGTATCAACATCAAACAATGACGTTCCCCAGTTCACATATTGAATATCATAGTTACTGAAG -TTCTGTCCAGAAAAGAAGCACCCCTTAAAATCCAATCCACGTAAATTATATAAACCACCCTCTTCTTTTTGGAGA -GTAATGTTAATTTTGGCTATCTCCCGGACATCATCGCCATTTTTGTATTTGAATACCGTTTCAAGATGTTCTCCA -GACAGCTTGACTTCAGGAAATAATTTGAAATCAAAGCCTATATTATTATGTGTCAACGTAGATGAACAAAAAATG -GAAAAAGCTTGCAGTGCTGAATTATAGCTATCGATTTTATCTTGAGGCTGAGCTCTTGGTAAAAACTTATAGCAA -CACTCATAAAAATTAAACAGAAGCTCTGAAGACCTTGTATTTTTATCAAATAATACCCCCTTGAACTCATTCACA -AACGCATCTTTTTTTTCTTGAATATCTATGGGGTGTTCCTTTGACTCTGACAAAGATGAAATCTCATCTATTTTG -TTTTCATATGAATTACGTGATTCCATACAGACATTTGGCGGCGTTTCTAAAATAACACTACGCGTACTACTTGGC -TTAAGTAAACCAACATGAAAATCACTTTTTCTTATATTATCGAAAAGGTTCTATTCATTTCTTTTAGCGCATTCA -AAAAACTGATCGGCATTATTTTTATTCGATAATTTTTTAGTTTCAGAAAACACATTTTCATTGTTTTCCAGCTTT -AGTTTAATGAGAAGATTTTCCCAGACCTGCTTGCTTAAACATATTACGTCAGGCTCACCAGAACTAACTAACTCG -TGATTATTATTAAAGTGTACGTTGAATACCTTTAAGTTATTTTCACCAACTTCATATTTAATACGTTTTAATTGT -TCTCCAGCTCCCATAATGACAAAGGCGTTGCCTTCTTGATATATACATTCAGACATCATTTTTTGTAAAGTTTCA -AGAGCACCGCGATACGTCTCTGATGCAGCTTCCTTACAAATTAATTTTAAAATACTATGAGCTAGTAGCTCCATG -TGTTTAGAAGATTTATTTTCATTATAACTTCCACTACCCAAAACTGCGCTAGCGTTAAATCCGTTGCTTTTACTA -ACTAACATTGTCTATTCCTCAATTAATGTCTACATGGCTATTTTTAATGTTATTACTGTTTGTCACTATAAAAAA -ACGCTCATTTGAGACAATTACTGACATTAACTGCTTCACTTGCTACGCATGGAACTTTTAATTAAATTAGCACAG -GAATGTTAAATTTAATAAACAAAAGGTTATTTCGCTGTATGATAAAAAAAACCGTTATAATTTATTAGTGAAAAT -CGTTTTTCAAGTGTTAGAAATTTATATCTCAATAGCGTTGGTTAATGAGCATAGCCACGCTCCTGTAACGCTCAC -AAAACTCATCTGCCTGCGGCGGGTGTTCTGGTCAGTAGTAGATGTTTAAGGCGTGGCAGAGACATTTCATCCTTA -CTCTACGGCATTGTTCTACATACATTGGTTGTGGTACTCACTTATCATCAGTGAGCGAACAGAGAATAGTTCAGT -GATTTGAGTAATTAACCTGATTAAATGAAGGGGTATAATAAATGATAATACTCTGGCTTTATCGTTAATTACTTA -ATTCCACATGTAAGCAATTTGCCCGCTTGGCATAGCAGGCATTTTTTCCAGGTACTTTTGAATGAGTACTGATGG -ATAAATACATTGCAGTGGCGTGCCACGTACCAAAACACCAGCCCTCATTCGAAACCACCCACCGCACTTCTTCCT -TGAAATGGCGTTAGTCATGAAATATAGACCGCCATCGAGTACCCCTTGTACCCTTAACTCTTCCTGATACGTAAA -TAATGATTTGGTGGCCCTTGCTGGACTTGAACCAGCGACCAAGCGATTATGAGTCGCCTGCTCTAACCACTGAGC -TAAAGGGCCTTGAGTGTGCAATAACAATACTTATAAACCACGCAATAAACATGATGATCATATGATGTAAATAAC -AGATTTTTATGCGTTCCCATTCACCTTGGGTCGTGATTACACGCGACATAAAACCCGACACCGCCTCCATTCGCA -AAGTCGATACTCGCAGTCAACAAGCAAATGTTAATAATTAGCACTATCTATAGTTATCATCGATTCAATGATACT -TTGTAATGATTTTGTATCTAATAATATAACTTTATTACATTAGCTGAAGAGTTTTCGCATCATTATGATATCTGT -TACTTTTCACTCCATAAAAATAAACTTCGTATAGCAATATATTCTTTCATAGATCTTATTCTGCTAATCATTAGT -TTCGTATGAGCGATTTTTGACAGTTGCCTCTCCAGACCACATCGATAATTAATAAAACAGATTTAAGCATTATCC -TTTTCCATATAAATATTGGATAAAAGTAGGACATCTGTTTGCAATTACTTTCACAACAATTAAACATTTTTATGT -TTCCGTATACATCATATTACTCTACCATTAGAGGAACTTTATTATGTTTTCTATAAAACCAGGACCCAGAAATTT -ACCTATCGACAACCCCACATTGTTATCATGGAACATTACTGACGGGGATCTAAATTCCAAATTAAATACATTAGA -ATATCTAAACTGTATAACAAATATTATTAATTCTTGTGGAGTTTACCCTCAAGGATTAAAAGACAGAGAAATTAT -ATCAACTTTTCACGCAGAAAAAGTTATTAATGATCTGTTAAAAAACGATTATAAAATTTCCCTTTCTCCAGATAC -AACTTACCGAGAGTTGAATAAAGCAGCACAGCGTAGCATTACAGCGCCAGACAGGATAGGAGAAAGAAAAACATA -GGTTTATCAACGAGATACAATGATTGAAAGAGGTGATAACAGCGGTGTTTATCAGTATGGTCGTGCTGAACATTT -CACCCACATTATATCTGACAAACCTTCCCCAAAAGATAAATATGTTGCATATGCTATTAACATTCCTGACTATGA -GCTGGCAGCCGATGTATATAATATTAACGTGACGTCACCTTCCGGACAGCAAGAAACATTTAAAATATTAATCAA -TCTAGAACATCTACGGCAAACACTTGAACGTAAATCTCTTACTGCTGTTCAGAAATCACAATGTGAAATCATCAC -CCCCAAAAAACCTGGCGAAGCGATTCTTCATGCTTTTAATGCCACCTACCAGCAGATCAGAGAAAATATGTCTGA -ATTTGCACGTTGCCATTATGGGTATATACAAATCCCTCCAGTGACAACTTTCCGCGCCGACGGACCAGAAACTCC -CGAAGAAGAAAAGGGTTACTGGTTTCATGCTTATCAACCCGAAGATCTTTGTACCATCCATAATCCAATGGGAGA -TTTGCAGGATTTTATTGCATTGGTTAAAGATGCTAAAAAATTTGGTATCGATATCATTCCTGATTATACCTTTAA -CTTTATGGGAATTGGGGGTAGTGGTAAAAATGACCTGGATTATCCCTCTGCTGATATACGAGCGAAGATCAGTAA -AGATATAGAAGGTGGTATCCCTGGCTATTAGCAAGGTCAGGTTTTGATTCCATTCATTAAAGATCCAGTAACAAA -AGAACGTAAACAAATCCATCCAGAAGATATACATCTCACTGCAAAAGACTTCGAAGCAAGTAAAGATAACATCTC -TAAGGATGAATGGGAAAACCTCCATGCATTAAAAGAAAAGCGTTTAAATGGAATGCCTAAAACAACACCCAAAAG -TGACCAGGTTATTATGTTGCAAAATCAATACGTTCGTGAAATGCGAAAATATGGCGTACGAGGTTTACGTTATGA -TGCGGCAAAACACTCAAAACATGAACAAATAGAAAGATCAATAACCCCACCGCTTAAAAATTATAATGAGCGGTT -ACACAATACTAACTTATTTAACCCAAAATATCATAAAAAAGCCGTTATGAATTACATGGAATATCTGGTAACTTG -TCAGTTGGATGAACAACAAATGTCATCACTGCTTTATGAAAGAGATGATTTAAGCGCCATTGATTTTTCATTGCT -CATGAAAACGATAAAAGCCTTTTCATTTGGTGGAGATCTTCAAACCCTTGCATCAAAACCGGGTTCCACAATCTC -AAGTATCCCATCAGAAAGACGGATATTGATTAACATTAACCACGATTTTCCTAACAATGGTAATCTTTTCAATGA -CTTTCTATTTAACCATCAACAAGATGAACAATTAGCAATGGCATATATAGCCGCTCTGCCGTTCAGCAGGCCTTT -AGTTTACTGGGATGGCCAAGTATTAAAATCAACGACTGAAATTAAAAATTATGATGGGTCCACGCGTGTCGGCGG -TGAGGCGTAGCTTAATAAAGGTTGCTCTACCTATCAGCAGCTCTACAATGAATTCCACGCATTATATATAGATAA -AGCAGGAATATGGAGCGCATTTGAGGGTGTATCTGCAACTAAAAACGTTCTGGCCTTTAGTCGTGGGGATTCTGT -GAACATTAATCACTCTCCTCATGATGGACTAGTTATAATAAATAAAGGAAACGAAGAAGTTGAAGGTACCTGGCC -TAACAAATTGCAACCTGGAATATACAAAAACATGGGGAGTAATAGCGTTAACATTATTATTAATAATACCCGAAA -AATTATCCCCCCTGGTAAAGTATTTACGCTTAGAGGCGGAACTCTAAATATCAATATTCCTGGGCGTAGCGCTCT -TCTTTTAGGGAAAACAGGAGAACCGCCGAACTATCTCTATTTATAATTTAATGTTATATCTGCCCCGATAAAACG -GGGCAGATAATATGTTTAGTTTACTAACGGTCATTTTGCAGTGAAGCCATTTACTGTTTTTTATCGACCAGATAA -TCTGTTCTCTAATGTTAACTCCCCCTAACCTGTTGCTTTAGTTATTCATTTCCTGTCTCACTTTGCCTTAATACC -CTACGTTAAATGTTACTAATTTGTTGCTTTTGATCACAATAAGAAAACAATATGTCGCTTTTGTGCGCATTTTTC -AGAAATGTAGATATTTTTAGATTATGGCTACGAAATGAGCATCGCCATGTCACCCTACATCTCATAAGAGGATCG -CTTCTGATGAATGCACTGACCGCCGTACAAAATAACGCTGTCGATTCAGGCCAGGACTATAGCGGATTCACCCTC -ACCCCGTCGGCGCAATCCCCGCGTCTGCTGGAACTCACCTTCACCGAACAGACGACCAAACAGTTTCTTGAGCAG -GTTGCCGAGTGGCCCGTGCAGGCGCTGGAGTACAAATCGTTTCTGCGTTTTCGGGTAGCCAAAATTCTTGACGAT -CTATGTGCGAACCAGCTGCAACCATTGCTGTTGAAGACGTTGCTAAACCGCGCTGAAGGTGCGTTGTTGATCAAT -GCGGTGGGTGTCGATGATGTGAAGCAAGCGGATGAGATGGTGAAGCTGGCGACGGCGGTGGCGCATCTGATTGGC -CGTTCCAATTTCGATGCGATGAGCGGTCAGTATTACGCGCGTTTTGTAGTGAAAAATGTCGATAACTCAGACAGC -TATCTGCGCCAGCCGCACCGCGTGATGGAGCTACACAACGACGGCACGTATGTCGAAGAGATAACCGATTACGTG -CTGATGATGAAAATCGACGAGCAAAACATGCAGGGCGGAAATTCGCTGCTGCTGCATCTCGATGACTGGGAACAT -CTCGACAACTATTTCCGCCACCCGCTGGCGCGTCGCCCGATGCGCTTTGCCGCGCCGCCGAGTAAAAACGTCAGC -AAAGATGTTTTTCATCCGGTGTTCGACGTCGATCAACAGGGTCGCCCGGTGATGCGCTATATCGACCAGTTCGTC -CAGCCGAAAGACTTCGAAGAAGGCGTGTGGTTGAGCGAGCTTTCCGACGCCATTGAAACCAGCAAAGGCATTCTT -TCTGTGCCCGTTCCCGTTGGCAAATTCCTGTTGATTAACAACCTGTTCTGGCTGCACGGTCGCGACCGCTTTACT -CCGCACCCGGATCTGCGCCGTGAACTGATGCGCCAGCGTGGCTATTTCGCTTACGCCTCTAACCACTACCAGACG -CATCAGTAAGCGCAAAGGAATTGAGCGGATGTATGATTTTGTGATTATTGGCGGCGGCATCATCGGCATGTCGAC -CGCCATGCAACTGATTGATGTCTATCCGGACGCCCGCATTGCGTTGCTGGAAAAAGAGTCCGCCCCGGCCTGTCA -CCAGACGGGCCACAACAGCGGCGTGATCCATGCCGGGGTCTATTACACGCCCGGCAGCCTGAAGGCGCAGTTTTG -CCTGGCGGGAAACCGCGCCACCAAAGCCTTTTGCGATCAAAACGGCATTCGCTACGACAACTGCGGCAAGATGCT -GGTTGCCACGTCCGATCTCGAAATGGAACGGATGCGCGCCTTATGGGAACGCACAGCGGCGAACGGTATCGAGCG -CGAATGGCTTAACGCCGACGAACTGCGCGAGCGCGAACCGAATATCACCGGGCTCGGCGGCATTTTTGTGCCGTC -CAGCGGCATTGTCAGCTACCGCGACGTGACGGCGGCGATGGCAAAAATCTTCCAGTCCAGAGGCGGTGAAATTAT -CTATAACGCCGAAGTCAGCGGGCTTAATGAGCATAAAAACGGCGTGGTGATACGTACCCGTCAGGGCGGCGAATA -TGAAGCATCAACGCTGATTAGCTGTTCCGGGCTGATGGCTGACCGGCTGGTGAAAATGCTCGGACTCGAACCGGG -CTTTATCATCTGCCCGTTCCGTGGCGAGTATTTCCGCCTTGCGCCGGAGCATAACCAGATTGTTAACCACCTGAT -TTACCCCATTCCCGACCCGGCAATGCCGTTTTTGGGCGTTCATCTCACCCGCATGATCGACGGCAGCGTGACCGT -CGGGCCAAACGCGGTGCTGGCTTTCAAACGCGAAGGCTATCGCAAGCGCGACTTCTCATTTAGCGACACGCTGGA -GATTTTGGGCTCGTCGGGGATTCGCCGGGTGCTGCAAAACCATCTACGCTCAGGACTGGGCGAGATGAAAAACTC -GCTGTGCAAAAGCGGCTATCTGCGGCTGGTGCAAAAGTATTGTCCCCGGCTTTCGTTAAGCGATCTCCAGCCCTG -GCCCGCCGGTGTGCGGGCGCAGGCGGTATCGCCGGACGGCAAGCTGATTGACGATTTTCTGTTTGTCACCACCCC -GCGCACGATCCACACCTGCAATGCGCCCTCCCCGGCAGCGACATCAGCAATTCCTATTGGTGCGCATATTGTCAG -CAAGGTACAAACGCTGTTGGCAAGCCAGAGTAACCCCGGACGCACGCTGCGAGCGGCACGTAGTGTGGATGCCTT -ACACGCCGCATTTAATCAATAACCTTTGAAAACAGGATGTAGCGATGAAACTTAACGACAGTAACTTATTCCGCC -AGCAGGCGTTGATTAACGGGGAATGGCTGGACGCCAACAATGGTGAAGCCATCGACGTCACCAATCCGGCGAACG -GCGACAAGCTGGGTAGCGTGCCGAAAATGGGCGCGGATGAAACCCGCGCCGCTATCGACGCCGCCAACCGCGCCC -TGCCCGCCTGGCGCGCGCTCACCGCCAAAGAACGCGCCACCATTCTGCGCAACTGGTTCAATTTGATGATGGAGC -ATCAGGACGATTTAGCGCGCCTGATGACCCTCGAACAGGGTAAACCACTGGCCGAAGCGAAAGGCGAAATCAGCT -ACGCCGCCTCCTTTATTGAGTGGTTTGCCGAAGAAGGCAAACGCATTTATGGCGACACCATTCCTGGTCATCAGG -CCGATAAACGCCTGATTGTTATCAAGCAGCCGATTGGCGTCACCGCGGCTATCACGCCGTGGAACTTCCCGGCGG -CGATGATTACCCGCAAAGCCGGTCCGGCGCTGGCAGCAGGCTGCACCATGGTGCTGAAGCCCGCCAGTCAGACGC -CGTTCTCTGCGCTGGCGCTGGCGGAGCTGGCGATCCGCGCGGGCGTTCCGGCTGGGGTATTTAACGTGGTCACCG -GTTCGGCGGGCGCGGTCGGTAACGAACTGACCAGTAACCCGCTGGTGCGCAAACTGTCGTTTACCGGTTCGACCG -AAATTGGCCGCCAGTTAATGGAACAGTGCGCGAAAGACATCAAGAAAGTGTCGCTGGAGCTGGGCGGTAACGCGC -CGTTTATCGTCTTTGACGATGCCGACCTCGACAAAGCCGTGGAAGGCGCGCTGGCCTCGAAATTCCGCAACGCCG -GGCAAACCTGCGTCTGCGCCAACCGCCTGTATGTGCAGGACGGCGTGTATGACCGTTTTGCCGAAAAATTGCAGC -AGGCAGTGAGCAAACTGCACATCGGCGACGGGCTGGATAACGGCGTCACCATCGGGCCGCTGATCGATGAAAAAG -CGGTAGCAAAAGTGGAAGAGCATATTGCCGATGCGCTGGAGAAAGGCGCGCGCGTGGTTTGCGGCGGTAAAGCGC -ACGAACGCGGCGGCAACTTCTTCCAGCCGACCATTCTGGTGGACGTTCCGGCCAACGCCAAAGTGTCGAAAGAAG -AGACGTTCGGCCCCCTCGCCCCGCTGTTCCGCTTTAAAGATGAAGCTGATGTGATTGCGCAAGCCAATGACACCG -AGTTTGGCCTTGCCGCCTATTTCTACGCCCGTGATTTAAGCCGCGTCTTCCGCGTGGGCGAAGCGCTGGAGTACG -GCATCGTCGGCATCAATACCGGCATTATTTCCAATGAAGTGGCCCCGTTCGGCGGCATCAAAGCCTCGGGTCTGG -GTCGTGAAGGTTCGAAGTATGGCATCGAAGATTACTTAGAAATCAAATATATGTGCATCGGTCTTTAACTGGAGA -ATGCGAATGAACAGCAATAAAGAGTTAATGCAGCGCCGCAGTCAGGCGATTCCCCGTGGCGTTGGGCAAATTCAC -CCGATTTTCGCTGACCGCGCGGAAAACTGCCGGGTGTGGGACGTTGAAGGCCGTGAGTATCTTGATTTCGCGGGC -GGGATTGCGGTGCTCAATACCGGGCACCTGCATCCGAAGGTGGTGGCCGCGGTGGAAGCGCAGTTGAAAAAACTG -TCGCACACCTGCTTCCAGGTGCTGGCTTACGAGCCGTATCTGGAGCTGTGCGAGATTATGAATCAGAAGGTGCCG -GGCGATTTCGCCAAGAAAACGCTGCTGGTTACGACCGGTTCCGAAGCGGTGGAAAACGCGGTAAAAATCGCCCGC -GCCGCCACCAAACGTAGCGGCACCATCGCTTTTAGCGGCGCGTATCACGGGCGCACGCATTACACGCTGGCGCTG -ACCGGCAAGGTGAATCCGTACTCTGCGGGCATGGGGCTGATGCCGGGTCATGTTTATCGCGCGCTTTATCCTTGC -CCGCTGCACGGCATAAGCGAGGATGACGCTATCGCCAGCATCCACCGGATCTTCAAAAATGATGCCGCGCCGGAA -GATATCGCCGCCATCGTGATTGAGCCGGTTCAGGGCGAAGGCGGTTTCTACGCCTCGTCGCCAGCCTTTATGCAG -CGTTTACGCGCTCTGTGTGACGAGCACGGGATCATGCTGATTGCCGATGAAGTGCAGAGCGGCGCGGGGCGTACC -GGCACGCTGTTTGCGATGGAGCAGATGGGCGTTGCGCCGGATCTTACCACCTTTGCGAAATCGATCGCGGGCGGC -TTCCCGCTGGCGGGCGTCACCGGGCGCGCGGAAGTAATGGATGCCGTCGCTCCAGGCGGTCTGGGCGGCACCTAT -GCGGGTAACCCGATTGCCTGCGTGGCTGCGCTGGAAGTGTTGAAGGTGTTTGAGCAGGAAAATCTGCTGCAAAAA -GCCAACGATCTGGGGCAGAAGTTGAAAGACGGATTGCTGGCGATAGCCGAAAAACACCCGGAGATCGGCGACGTA -CGCGGGCTGGGGGCGATGATCGCCATTGAGCTGTTTGAAGACGGCGATCACAACAAGCCGGACGCCAAACTCACC -GCCGAGATCGTGGCTCGCGCCCGCGATAAAGGCCTGATTCTTCTCTCCTGCGGCCCGTATTACAACGTGCTGCGC -ATCCTTGTACCGCTCACCATTGAAGACGCTCAGATCCGTCAGGGTCTGGAGATCATCAGCCAGTGTTTTGATGAG -GCGAAGCAGTAGCGCCGCTCCTATGCCGGAGGCGACGCTGCGCGTCTTGTCCGGCCTACGGGGATCCAGGTCGGA -TAAGGCGTTTACGCCGCATCCGACAATCTGTACGTGAACAGGAAGAAATCTATGTTGGCCGGGTAAGGCGGAGCC -GCTCTCCGGCAAAAAGAATCAATAACAATTATACGCGTGACCCGGCGCGGGAAATGTCGGGGCGCTCTCCCAAGT -GACACACTTTCGAGAGGATTCAGGATGGGGCAATCATCGCAACCACATGAGTTAGGCGGCGGGCTGAAGTCACGC -CACGTCACCATGTTGTCTATTGCCGGTGTTATCGGCGCAAGTCTGTTTGTCGGTTCCAGCGTCGCCATCGCCGAA -GCGGGCCCGGCGGTATTACTGGCCTATCTGTTCGCCGGGCTACTGGTGGTTATGATTATGCGGATGTTGGCGGAA -ATGGCGGTTGCCACGCCCGATACCGGTTCGTTTTCCACCTATGCCGATAAAGCCATTGGTCGCTGGGCGGGCTAT -ACCATCGGCTGGTTGTACTGGTGGTTTTGGGTACTGGTTATCCCGCTGGAAGCCAACATCGCCGCCATGATCCTG -CACTCATGGGTTCCAGGCATTCCCATCTGGTTATTTTCCCTCGTCATTACCCTCGCCTTAACTGGCAGTAACTTA -TTAAGCGTTAAAAACTACGGCGAATTTGAGTTCTGGCTGGCGCTGTGCAAAGTCATCGCTATCCTGGCCTTTATT -TTCCTTGGTGCAGTCGCAATTAGCGGTTTTTACCCGTATGCCGAAGTGAGCGGGATCTCAAGATTGTGGGATAGC -GGCGGCTTTATGCCCAACGGTTTCGGTGCGGTATTAAGCGCGATGTTGATCACCATGTTCTCGTTTATGGGCGCA -GAAATTGTCACCATTGCCGCCGCGGAATCCGACACGCCGGAAAAACATATTGTCCGCGCCACCAACTCGGTTATC -TGGCGTATTTCTATCTTCTATTTATGTTCTATTTTTGTCGTCGTGGCATTAATTCCGTGGAATATGCCCGGACTA -AAAGCCGTCGGTTCTTATCGCTCGGTACTGGAATTGCTCAATATTCCCCATGCGAAATTAATCATGGACTGCGTG -ATATTACTTTCCGTAACCAGTTGCCTGAACTCGGCGCTGTATACCGCGTCAAGGATGCTCTACTCCTTAAGTCGT -CGCGGTGATGCTCCCGCGGTAATGGGTAAAATCAACCGCAGTAAAACCCCGTACGTGGCGGTGTTACTCTCCACC -GGCGCGGCATTCTTAACGGTGGTGGTGAACTATTACGCGCCTGCGAAGGTATTTAAATTTCTGATCGACAGCTCC -GGCGCTATCGCCCTGCTGGTTTATTTAGTCATCGCCGTTTCACAGTTGCGGATGCGCAAAATTCTGCGAGCAGAA -GGAAGCGAAATTCGCTTGCGAATGTGGCTTTATCCGTGGCTCACCTGGCTAGTCATCGGCTTTATTACCTTTGTG -TTGGTAGTGATGCTATTCCGTCCGGCGCAACAGTTAGAAGTGATCTCCACCGGCTTATTAGCGATAGGGATTATC -TGTACCGTGCCAATTATGGCTCGCTGGAAAAAGCTGGTATTGTGGCAAAAAACACCCGTTCATAATACGCGCTGA -TCATGATCAGGAGTCACACCATGACCATTACGTCTCTGGATGGCTATCGCTGGCTGAAGAACGATATTATTCGCG -GTAATTTTCAACCGGATGAAAAATTACGAATGAGTTTGCTGACATCGCGTTATGCACTTGGCGTTGGGCCGTTAC -GGGAAGCTCTTTCGCAACTGGTGGCGGAACGGCTGGTCACGGTGGTGAATCAAAAAGGGTATCGGGTGGCGTCTA -TGTCAGAGCAGGAGCTGCTCGATATTTTCGACGCCCGCGCCAATATGGAAGCGATGTTAGTGAGTCTGGCGATTG -CCCGCGGTGGCGATGAGTGGGAGGCAGACGTTCTCGCAAAAGCGCATCTGCTGAGTAAGCTTGAGGCCTGTGACG -CCAGCGAGAAAATGCTTGATGAGTGGGATCTGCGTCATCAGGCGTTTCATACGGCAATTGTGGCGGGCTGTGGTT -CTCACTATTTGCTGCAAATGCGTGAACGGTTGTTTGATCTGGCGGCGCGTTATCGATTTATCTGGCTGCGGCGAA -CGGTGCTTTCGGTGGAAATGCTGGAGGATAAACACGATCAGCACCAGACCCTGACTGCGGCGGTACTGGCGCGAG -ATACCGCGCGCGCCAGTGAGTTAATGCGCCAGCATTTACTGACGCCAATTCCCATTATCCAGCAGGCGATGGCTG -GCAATTAACTACTCTTCCGGAATACGCAACACTTGCCCCGGATAAATTTTATCCGGGCTTTTTAGCATCGGTTTA -TTCGCTTCGAAGATTTTATTGTACAGATTAGCGTTACCGTAGACCTGTTTGGAAATGGCACTCAGAGTGTCGCCA -GACTTAACGGTATAAAACTGGCTGGCAGTGGCTGGTGTCGCCGTTTTCACCTGATCATCGACACTGGCAATACCG -GAAATATTCCCCACCGCAACAAGGATTTTCTCCTTCGCCTCCTGACTCAGGCCGTCACCAGTGACCGTCGCTTTG -CCGTCGGCAATTTGAATATTCACTTTATCGGCATCCGGTATACCGGTTTTGTTCAGATGCTCCTGCACCTTCTTC -GCCTGATCGTCTTTATCGTGCTGACCTGTAACCGCGTCCCAGAGTTTTTCTCCGGCATCTTTCACAAAATTGAAC -AGACCCATAGCTACCTCATTCGTTAACGGAAACACTCAGAAAGTGTAGCAGAGGAACGCGGCGCGTTAACGCCGC -GGGGATGAGCACAGGTTTAATCGCGGGTTTGCACCCAGAACGCGTGAATCAAACCGGGGATATACCCAAGCAGTG -TCAACAGAATATTAATAATGAACGCCCAACCGAACCCTTTACCGAGCAGCACGCCGAGCGGCGGCAGAATGATGG -TGATGACGATTCTCCAGAAACCCATATGTACTCCCTATAAGAAAATTACTCATTGTTTAAAAAGAGATTTTATCT -CTTAAGCGTAGTAATTTTAGCGGAGCCTGCCAGTTTCAGCTTACGCTTTTACTCTCATTTACGCTGCTGAGGCTG -GTATATGTTGCATTTTTAGTTTAGAGTTTACTTAATTTAGAAAATACTTAAATAAATATGACTGAACTCGCGCAA -TTACAGGCCAGTGCCGAACAGGCAGCGGCCTTATTGAAAGCAATGAGCCACCCTAAACGATTGCTGATTCTGTGC -ATGCTTAGCGGTTCCCCCGGCACCAGCGCGGGAGAGCTGACGCGCATTACCGGACTGAGTGCCTCTGCGACATCA -CAGCATCTCGCTCGTATGCGGGACGAAGGGCTTATCGACAGCCAACGGGATGCCCAACGCATTCTATATTCCATT -AAAAATGAGGCGGTAAATGCCATTATCGCCACCCTGAAAAATGTCTATTGTCCGTAAGGAGTCACTATGGCTTTG -ACAACCATTTCGCCGCATGATGCACAAGAATTAATCGCACGCGGCGCAAAGTTAATCGATATTCGTGATGCTGAT -GAATATCTTCGTGAACATATTCCTGAAGCAGATCTGGCTCCATTATCCGTGCTGGAACAGTCAGGTCTTCCGGCT -AAATTACGTCACGAGCAAATTATATTCCACTGCCAGGCAGGTAAACGCACCAGTAATAATGCCGATAAATTAGCA -GCGATTGCCGCCCCCGCAGAAATCTTTTTACTCGAAGATGGGATTGATGGCTGGAAAAAAGCAGGATTGCCAGTA -GCGGTAAATAAATCTCAACCCTTGCCGTTAATGCGCCAGGTGCAGATCGCTGCGGGTGGTTTAATATTAATCGGC -GTTGTACTGGGTTATACCGTAAATAGCGGTTTCTTCTTATTAAGTGGCTTTGTTGGTGCCGGGTTACTGTTTGCA -GGAATCAGCGGTTTTTGTGGAATGGCAAGGTTGTTAGATAAGATGCCGTGGAACCAACGAGCTTGAGAAGCGACG -CCGGACGCGCCCTAGCAGCGACATCCGGCCTCAGTAATTAGATCAGGAAATCGTCGAGAGATTTACCTTCTGCCA -GCGCCTGAGCAATTGGCTTCGGTGTACGGCCCTGACCGGTCCAGGTTTTAGTTTCACCGTTAACATCGGTGAATT -TATATTTCGCCGGACGCGGCTGGCGTTTTTTACCAGCGCGTGGTGCAGCAGCAGAGCTATTACCCAATAACTCTT -CCGGGTTAATTCCGTCAGCTTTCATCAGCTCCAGCCAGGTGCTAATTTTTTCCTGGCGCTCTGCCAGTTCACGCT -GCTGCTGTTCTTCTTCTTCACGTCTTTCTTTAGTGACAACCCTGAATTTTTCGAGCATTTCTTCAAGAACGTCAA -TGGAGAATTCGCGAGCCATCGCACGGAGGGTGCGAATGTTATTTAAACTTTGTAACATTACGGACATAATAAAGA -AAACCTTTTAACGCCAAAACAAAAAAAGTATTTCGTCGCGTAGTGTAAGCGATCACTTATTATATTTCCACAAAA -TTTAATCTATTTACAGTCCTGCGCGAGATTATTTCAGCTGTTATTTTCTGAAACTCTCAGAATAATTTCAAGATT -ATATATTAGCCATTTTGATGAGTAATTTAGATTATTGGTGAACAGAGCGGCGCTCTCTGCTCGCTAATTCCGCAA -GCCTGACAAAATCAAAGTGAATAAAAATGCAATATAACAGAATAAAAGAAAACATCCATCACTGGTGCTTTCTGC -TGTTAATGTACATTGTCTGGCATAAAAAATGCTGAAAATGACCCAGCTACTACATACACCGAATTCTCTACGCTT -ATAGCGTTACCTCACCCCCAAACTTTCATTAGTGATATTAAAGGTAAGGCCATATCTAATTGATTTAATTAAAAA -TAAATCATATCGGCATGTAAAAATCCACAATGTACAAAAAACGAGCCGTTACGGAATATTTTATCTACAAAAACT -GACTAAATAAAAATTTTTCACTAATTGATTAGTCATAGCCAGCGATATACGCTATGCGAAAATGCAGATGGCAAT -GAGATCCACTGCTTTCATCTCCATTAACATCCCATTACGCTTTTATTAAGGAGCATTAGCATGTTCTCACCGCAG -TCACGCTTGCGTCATGCAGTTGCAGATACGTTCGCGATGGTTGTTTACTGTTCTGTCGTGAACATGTGTATTGAA -GTTTTCCTCTCCGGAATGAGCTTCGAACAGTCTTTTTATTCCAGATTGGTAGCGATTCCGGTGAACATCTTAATT -GCATGGCCATACGGTATGTACCGTGATCTGTTTATGCGCGCGGCACGCAAAGTTAGCCCGTCGGGCTGGATAAAA -AATCTGGCGGATATCCTGGCTTATGTGACGTTCCAGTCACCGGTGTATGTGGCGATCTTGTTAGTGGTGGGCGCA -GACTGGCATCAGATTATGGCGGCGGTCAGTTCAAACATCGTTGTTTCGATGTTGATGGGGGCGGTTTATGGCTAC -TTCCTCGATTATTGCCGCCGACTGTTTAAAGTCAGCCGTTACCAGCAGGTAAAAGCCTGACTCTTCTTTTCGCGA -CTGGCATCGCCAGTCGCGTCTTTAACTGGCTTCGCCAAATAAACCATTCAAATAACGTTCAAGCGCAACACGCGA -ACTAAAGCCATGCGGGATACCGTAATGCTCGTGTCGCTCGCCTGCTAAATAGAGCGGAAATTGCTGGTAATGATC -GCAAGTTTTAATATCGGAAGCGGGTTCAGCCAGTGTCGAACTGCGTTCTTTTAATGTTGGATGAATTACCAGAGC -GGTACGTCCCATTCGCGCTTCGCGATTAACATAGACATAATTTTCCCCACGGCGGTAACCATACGCTTTCTGGGT -TACCACATCGACAGTAAAACCGACTTTTTCAAGTACGCGCGCCACCTCGTCTGGTCGTAAATACATATTTGATCC -TCGTTATTATCAACCGCGGGCCTACCTTACCTGATTGCGCATTCACAACGCTTTCAGAAAAGTCCATAAAGCCGC -GATGAACCTCAGTTAAGAAAATTATGGTCTACACTGAAAATTACATCGAATTCTAATGGGGGATCATATGTTTAA -CCGACCGAACCGCAACGACGTTGATGATGGCGTGCAGGATATCCAGAATGATGTCAATCAATTAGCTGACAGCCT -CGAATCTGTATTGAAGTCCTGGGGCAGCGACGCCAAAGGGGAAGCTGAAGCCGCACGCAGTAAAGCTCAGGCATT -GCTGAAAGAAACCAGGGCGCGAATGCATGGTCGTACTCGCGTCCAGCAAGCCGCGCGCGATGCCGTTGGCTGCGC -GGATTCTTTTGTTCGTGAAAGACCCTGGTGTAGCGTGGGTACAGCAGCTGCGGTAGGTATTTTTATCGGCGCACT -GTTAAGCATGCGCAAATCGTAGTGCAAAAATGATAATAAATACGCGTCTTTGACCCCGAAGCCTGTCTTCGGGGT -TTCTTTTTGCCTGGTGAATCACAAAAATCCCCCTACCCCGTCACGCTCATATCCAGGGTAATTTCGACCACTATT -TGCTATATATTGTGTGGTTGAATCTTTTTTCAACTACATCTAGTATCTCTGTATCAACAGAGAGACAACCCGACG -CGTATCATCGCGCCGTATCTTCATTTTAAACGGAAATACGAATCATGCGCATTACTATTTACACTCGTAACGATT -GCGTTCAGTGCCACGCCACCAAACGGGCGATGGAAAACCGGGGCTTTGATTTTGAAATGATTAATGTCGATCGCG -TTCCTGAAGCGGCAGAAGCGTTGCGTGCTCAGGGCTTTCGTCAGTTGCCGGTAGTGATTGCTGGCGATCTTAGCT -GGTCTGGTTTCCGTCCGGACATGATTAACCGTCTGCATCCAGCGCCACACGCGGCCAGTGCATGAGCCAGCTCGT -CTACTTCTCCAGCAGCTCCGAAAACACGCAGCGTTTTATCGAACGTTTAGGTCTGCCCGCGGTGCGCATCCCGCT -CAATGAGCGGGAACGGATTCAGGTAGACGAGCCTTACATCCTGATCGTGCCCTCTTACGGCGGCGGCGGTACGGC -TGGCGCGGTGCCACGACAGGTAATTCGCTTTTTAAACGACGAGCACAACCGGGCGTTGCTTCGCGGCGTTATTGC -TTCTGGTAATCGCAACTTTGGTGAGGCGTATGGCCGCGCCGGAGATGTGATTGCCCGGAAATGCGGCGTGCCGTG -GCTGTACCGTTTTGAACTCATGGGTACGCAAAGCGATATCGAAAACGTTCGTAAAGGAGTAACCGAATTTTGGCA -ACGACAACCGCAGAATGCCTGACGCAGGAAACGATGGATTACCACGCGCTGAATGCGATGCTTAACCTCTACGAT -AGCGCAGGTCGCATTCAGTTCGATAAAGACCGCCAGGCCGTTGACGCCTTTATTGCGACGCATGTGCGTCCGAAC -AGTGTGACCTTCAGTAGCCAGCAGCAGCGCCTGAACTGGCTGGTCAACGAAGGTTACTATGATGAAAGCGTTCTT -AATCGCTACTCTCGCGACTTTGTCATTACGCTGTTTACCCACGCACACACCAGCGGTTTTCGTTTCCAGACATTC -CTCGGGGCATGGAAGTTTTACACCAGCTATACGTTGAAGACATTCGACGGTAAACGTTATCTGGAAGATTTTGCC -GATCGAGTAACGATGGTGGCGCTGACGCTGGCACAAGGCGATGAGACGCTGGCGTTGCAACTGACCGATGAAATG -CTGTCAGGACGCTTTCAGCCAGCCACGCCAACATTCCTCAACTGCGGTAAGCAGCAGCGCGGCGAACTGGTTTCC -TGTTTTTTGCTGCGTATTGAAGACAATATGGAGTCGATTGGTCGGGCGGTAAATTCCGCACTGCAGCTGTCGAAA -CGCGGCGGCGGCGTAGCATTTTTGCTGTCGAATCTGCGAGAAGCGGGCGCGCCAATTAAACGTATTGAAAATCAA -TCTTCTGGCGTAATTCCGGTGATGAAAATGCTGGAAGACGCATTTTCCTATGCCAACCAACTCGGCGCTCGTCAG -GGGGCTGGTGCAGTCTATTTACATGCTCATCATCCCGATATTCTGCGTTTTCTCGACACGAAACGGGAAAATGCC -GACGAAAAAATCCGCATTAAAACACTGTCGCTTGGCGTGGTGATCCCGGATATCACTTTCCATCTGGCAAAAGAG -AATGCGCAGATGGCGCTGTTTTCGCCTTATGACGTAGAGCGAGTTTATGGCAAGCCGTTTGCCGATGTGGCCATC -AGCCAACACTATGACGAACTGGTTGCCGATGAACGCATTCGCAAAAAATACCTCAACGCCCGTGATTTCTTCCAG -CGACTGGCAGAAATCCAGTTTGAGTCCGGCTATCCCTACATCATGTATGAAGACACGGTAAACCGTGCTAACCCT -ATCGCCGGGCGCATAAATATGAGTAATCTCTGCTCAGAAATTTTGCAGGTTAACAGCGCCTCAGAGTATGACGAG -AATCTCGACTATACCCGCACAGGCCATGATATTTCCTGCAATTTAGGTTCGTTGAATATTGCGCACACCATGGAT -TCCCCCGATTTTGCCCGCACGGTAGAGACTGCCGTGCGCGGTTTAACGGCAGTATCAGATATGAGTCATATCCGC -AGCGTGCCGTCCATCGAAGCCGGAAATGCCGCCTCGCACGCCATCGGACTGGGGCAGATGAATTTACACGGCTAT -CTGGCGCGAGAAGGCATCGCTTATGGTTCGCCGGAAGCACTGGATTTCACCAATCTCTATTTCTATGCCATCACC -TGGCATGCACTGCGTACCTCGATGTTGCTGGCACGCGAACGCGGTGAAACCTTCGCCGGGTTCAAACAGTCACGC -TATGCCAGTGGTGAATATTTTAGCCAATATCTGCAAGGGAACTGGCAGCCGAAAACGGCGAAAGTTGGCGAACTG -TTTACCCGTAGCGGTATTACGTTACCTACCCGTGAGATGTGGGCGCAGCTGCGCGACGACGTGATGCGCTACGGC -ATATACAACCAGAATCTTCAGGCGGTGCCGCCAACCGGTTCTATCTCTTATATCAACCATGCTACGTCGAGTATT -CATCCGATTGTGGCGAAAGTAGAGATACGCAAAGAGGGCAAAACAGGACGCGTTTACTACCCTGCCCCGTTTATG -ACTAACGAGAATCTGGCGCTGTATCAGGACGCTTACGAAATTGGCGCAGAAAAGATCATCGACACCTACGCGGAA -GCGACTCGCCATGTCGATCAGGGGCTGTCGCTGACGCTTTTTTTCCCCGATACCGCCACCACTCGCGATATCAAC -AAAGCGCAGATTTACGCCTGGCGCAAGGGTATCAAAACGCTCTATTACATCCGCCTGCGTCAGATGGCGCTGGAA -GGCACTGAAATTGAAGGCTGCGTCTCCTGTGCACTTTAAGGAATATCTATGAAACTCTCACGTATCAGCGCCATC -AACTGGAACAAGATATCTGACGATAAAGATCTGGAGGTGTGGAATCGCCTGACCAGCAATTTCTGGCTACCAGAA -AAGGTGCCGCTGTCGAACGATATTCCTGCCTGGCAGACATTAACTGTCGTAGAACAACAACTGACGATGCGCGTT -TTTACTGGCCTGACGCTGCTCGACACGCTGCAAAATGTTATCGGCGCGCCTTCTCTGATGCCCGATGCACTCACG -CCTCATGAAGAAGCGGTATTATCGAATATCAGCTTTATGGAAGCGGTTCATGCCCGCTCTTACAGTTCGATTTTC -TCGACGCTATGCCAGACCAAAGATGTCGATGCCGCCTACGCCTGGAGTGAAGAAAACGCACCGTTGCAGCGAAAA -GCTCAGATTATTCAGCAACATTATCGCGGTGATGATCCGCTGAAAAAGAAAATCGCCAGTGTGTTTCTTGAATCT -TTTTTGTTCTATTCCGGTTTCTGGCTGCCGATGTATTTTTCCAGCCGCGGAAAGCTGACCAATACCGCGGACCTG -ATCCGTCTGATTATCCGCGATGAAGCAGTCCACGGTTACTACATAGGCTATAAATATCAGAAAAACATGGAAAAG -ATATCTCTGGGACAACGTGAAGAGTTGAAGAGTTTCGCCTTCGATTTGTTGCTGGAACTCTACGACAACGAGTTG -CAATACACCGATGAGCTGTACGCCGAAACCCCGTGGGCTGACGATGTGAAAGCGTTTCTCTGTTACAACGCCAAT -AAGGCTTTGATGAATCTGGGCTACGAACCGTTATTTCCCGCAGAAATGGCGGAAGTGAATCCGGCAATCCTCGCC -GCGCTTTCGCCGAATGCCGATGAAAATCACGATTTCTTTTCCGGTTCAGGCTCCTCTTATGTGATGGGGAAAGCG -GTTGAAACAGAAGATGAAGACTGGAATTTCTGAGGGTGTTATTTTCAAAAATATCACTACCCGCAGCAGGGAAAT -AATTCCCGCCAAATAGCTTTTTATCACGCAAATAATTTGTGGTGATCTACACTGATACTCTGTTGCATTATTCGC -CTGAAACCACAATATTCAGGCGTTTTTTCGCTATCTTTGACAAAAAATATCAACTTTCTCGATTTGCTCTCAGCC -CTTATATCACGGGAAATTCCGGCGATTTGCTCGCATCAATATTCATGCCACATTTGCCATCAGGGGTTGCCTCAG -ATTCTCAGTATGTTAGGGTAGAAAAAAGTGACTATTTCCATTGGGTAATATATCGACATAGACAAATAAAGGAAT -CTTTCTATTGCATGGCAATTAAATTAGAAATTAAAAATCTTTATAAAATATTTGGCGAGCATCCACAGCGAGCGT -TCAAATATATCGAACAAGGACTTTCAAAAGAACAAATTCTGGAAAAAACTGGGCTATCGCTTGGCGTAAAAGACG -CCAGTCTGGCCATTGAAGAAGGCGAGATATTTGTCATCATGGGATTATCCGGCTCGGGTAAATCCACAATGGTAC -GCCTTCTCAATCGCCTGATTGAACCCACCCGCGGGCAAGTGCTGATTGATGGTGTGGATATTGCCAAAATATCCG -ACGCCGAACTCCGTGAGGTGCGCAGAAAAAAGATTGCGATGGTCTTCCAGTCCTTTGCCTTAATGCCGCATATGA -CCGTGCTGGACAATACTGCGTTCGGTATGGAATTGGCCGGAATTAATGCCGAAGAACGCCGGGAAAAAGCCCTTG -ATGCACTGCGTCAGGTCGGGCTGGAAAATTATGCCCACAGCTACCCGGATGAACTCTCTGGCGGGATGCGTCAAC -GTGTGGGATTAGCCCGCGCGTTAGCGATTAATCCGGATATATTATTAATGGACGAAGCCTTCTCGGCGCTCGATC -CATTAATTCGCACCGAGATGCAGGATGAGCTGGTAAAATTACAGGCGAAACATCAGCGCACCATTGTCTTTATTT -CCCACGATCTTGATGAAGCCATGCGTATTGGCGACCGAATTGCCATTATGCAAAATGGTGAAGTGGTACAGGTCG -GCACACCGGATGAAATTCTCAATAATCCGGCGAATGATTATGTCCGTACCTTCTTCCGTGGCGTTGATATTAGTC -AGGTATTCAGTGCGAAAGATATTGCCCGCCGGACACCGAATGGCTTAATTCGTAAAACCCCTGGCTTCGGCCCAC -GTTCGGCACTGAAATTATTGCAGGATGAAGATCGCGAATATGGCTACGTTATCGAACGCGGTAATAAGTTTGTCG -GCGCAGTCTCCATCGATTCGCTTAAAACCGCGTTAACGCAGCAGCAAGGTCTTGATGCGGCGCTGATTGATGCGC -CGTTAGCAGTCGATGCACAAACGCCTCTTAGCGAGTTGCTCTCTCATGTCGGACAGGCACCCTGTGCGGTGCCCG -TGGTCGACGAGGACCAACAGTATGTCGGCATCATTTCGAAAGGAATGCTGCTGCGCGCTTTAGATCGTGAGGGGG -TAAATAATGGCTGATCAAAATAATCCGTGGGATACCACGCCAGCGGCGGACAGTGCCGCGCAATCCGCAGACGCC -TGGGGTACACCGACGACTGCACCGACTGACGGCGGTGGTGCTGACTGGCTGACCAGTACGCCTGCGCCAAACGTC -GAGCATTTTAATATTCTCGATCCGTTCCATAAAACGCTGATCCCGCTCGACAGTTGGGTCACTGAAGGGATCGAC -TGGGTCGTTACCCATTTCCGTCCCGTCTTCCAGGGCGTGCGCGTTCCGGTTGATTATATCCTCAACGGTTTCCAG -CAATTGCTGCTGGGTATGCCCGCACCGGTGGCGATTATCGTTTTCGCTCTCATCGCCTGGCAGATTTCCGGGGTC -GGAATGGGTGTGGCGACGCTGGTTTCGCTGATTGCCATCGGCGCAATCGGTGCCTGGTCGCAGGCAATGGTGACT -CTGGCGCTGGTGTTAACCGCCCTGCTGTTCTGTATCGTCATCGGTTTGCCGTTGGGGATATGGCTGGCGAGAAGT -CCGCGAGCGGCGAAAATTATTCGTCCACTGCTTGATGCCATGCAGACCACGCCAGCGTTTGTTTATCTGGTGCCA -ATCGTCATGCTATTTGGTATCGGTAACGTGCCGGGCGTGGTGGTGACGATCATCTTTGCTCTGCCGCCGATTATC -CGTCTGACCATTCTGGGGATTAACCAGGTTCCGGCGGATCTGATTGAAGCCTCGCGCTCATTCGGTGCCAGCCCG -CGCCAGATGCTGTTCAAAGTTCAGTTACCGCTGGCGATGCCGACCATTATGGCGGGCGTTAACCAGACGCTGATG -CTGGCCCTTTCTATGGTGGTCATCGCCTCGATGATTGCCGTCGGCGGGTTGGGTCAGATGGTACTTCGCGGTATC -GGTCGTCTGGATATGGGGCTTGCCACCGTTGGCGGCGTCGGGATTGTGATCCTCGCCATTATCCTCGATCGTCTG -ACGCAGGCCGTTGGGCGCGACTCACGCAGTCGCGGCAACCGTCGCTGGTACACCACTGGCCCTGTTGGTCTGCTG -ACCCGCCCATTCATTAAGTAACTCTGCACTTGCCCGGTGACGCCGGGCATTATCACCCTGCCAAAAAAAGGAATA -ACAATGCGACATAGCGTACTTTTTGCGACAGCGTTTGCCACGCTTATCTCTACACAAACTTTTGCTGCCGATCTG -CCGGGCAAAGGCATTACTGTTAATCCAGTTCAGAGCACCATCACTGAAGAAACCTTCCAGACGCTGCTGGTCAGT -CGTGCGCTGGAGAAATTAGGTTATACCGTCAACAAACCCAGCGAAGTAGATTACAACGTTGGCTACACCTCGCTT -GCTTCCGGCGATGCAACCTTCACCGCCGTGAACTGGACGCCACTGCATGACAACATGTACGAAGCTGCCGGTGGC -GATAAGAAATTTTATCGTGAAGGGGTATTTGTTAACGGCGCGGCACAGGGTTACCTGATCGATAAGAAAACCGCC -GACCAGTACAAAATCACCAACATCGCACAACTGAAAGATCCGAAGATCGCCAAACTGTTCGATACCAACGGCGAC -GGAAAAGCGGATTTAACCGGTTGTAACCCTGGCTGGGGCTGCGAAGGTGCGATCAACCACCAGCTTGCCGCGTAT -GAACTGACCAACACCGTGACGCATAATCAGGGGAACTACGCAGCGATGATGGCCGACACCATCAGTCGCTACAAA -GAGGGCAAACCGGTGTTTTATTACACCTGGACGCCGTACTGGGTGAGTAACGAACTGAAGCCGGGCAAAGATGTC -GTCTGGTTGCAGGTGCCGTTCTCCGCACTGCCGGGCGATAAAAACGCCGATACCAAACTGCCGAATGGTGCGAAT -TATGGCTTCCCGGTCAGCACCATGCATATCGTTGCCAACAAAGCCTGGGCCGAGAAAAACCCGGCAGCAGCGAAA -CTGTTTGCCATTATGCAGTTGCCAGTGGCAGATATTAACGCCCAGAACGCCATTATGCATGACGGCAAAGCCTCA -GAAGGCGATATTCAGGGACACGTTGATGGTTGGATCAAAGCCCACCAGCAGCAGTTCGATGGCTGGGTGAATGAG -GCGCTGGCAGCGCAGAAGTAATTTTTATTCGGGCGGATAAGGCGTTTTTGCCGCATCCGCCGTTCTGTGCACAAT -GCCTGATGCGACGCTGGCGCGTCTTATCATGCCTACAAACCACATCGCACATTTCAACAATCTATCTTTCATCCC -ATATTCATCAACATCCGCTATTATTGATTTCCAGCTTAATCATCACCTGATGAACAAAAATAATGACTAAACCTA -ATCATGAGCTTAGCCCGGCGCTGATCGTGCTGATGTCTATCGCCACCGGTCTGGCGGTAGCCAGTAACTATTACG -CCCAGCCATTGCTCGACACCATCGCGCGTAACTTTTCCCTTTCCGCCAGTTCGGCAGGCTTTATTGTTACCGCCG -CGCAGTTGGGCTATGCCGCAGGTCTACTGTTTCTTGTTCCCCTCGGTGATATGTTTGAACGCCGCCGCCTGATTG -TCTCGATGACCTTACTGGCGGCATGTTGATTACCGCCAGCAGTCAGTCGCTGGCGATGATGATCCTCGGTACGGC -ATTAACCGGTTTATTCTCAGTCGTGGCACAAATTCTGGTTCCGCTGGCAGCGACGCTGGCTTCACCGGATAAACG -CGGCAAAGTGGTTGGCACTATTATGAGCGGTCTGCTGTTGGGGATCTTGCTGGCACGGACAGTTGCCGGATTGCT -GGCGAATCTCGGCGGCTGGCGCACCGTCTTTTGGGTTGCTTCGGTGTTAATGGCACTGATGGCGCTGGCATTATG -GCGTGGTCTGCCACAAATGAAATCAGAAACCCACCTCAACTACCCACAGTTGTTGGGTTCCGTTTTCAGTATGTT -TATCAGCGATAAAATTCTGCGTACCCGCGCGTTGCTGGGCTGCCTGACCTTTGCCAATTTCAGCATTCTCTGGAC -CTCAATGGCCTTTTTGCTTGCCGCTCCACCTTTTAACTACAGCGATGGTGTCATTGGTCTGTTTGGACTTGCGGG -AGCTGCCGGAGCGTTGGGCGCTCGTCCGGCGGGCGGTTTTGCCGATAAGGGCAAATCGCACCACACCACAACTTT -CGGTCTGCTGCTGCTATTACTTTCATGGCTGGCGATCTGGTTTGGTCACACTTCCGTACTGGCGTTGATTATCGG -AATCCTGGTGCTGGATCTCACCGTGCAGGGCGTGCATATCACTAACCAGACGGTAATTTATCGGATACATCCTGA -TGCGCGCAATCGCCTGACCGCAGGTTACATGACTAGCTACTTTATTGGCGGTGCCGCCGGTTCGCTAATTTCAGC -CTCAGCCTGGCAACATGGCGGTTGGGCTGGCGTTTGTCTGGCTGGCGCGACGATTGCCCTGGTTAACTTACTGGT -CTGGTGGCGAGGTTTTCATCGTCAGGAAGCCGCAAATTAAGCAATCAGCAACCGTTTTCGTGGCTTTACACTTAT -AAGGGTGTTAAGAAGCCCATCAGTCTGATAAGGTTAAGATATTCATTCAGTCTATTTATAATATTAACAATCGTT -AAGCGTACACTCTATGGAAAGCCCTACTCCACAGCCTGCTCCTGGTTCGGCGACCTTCATGGAAGGATGCAAAGA -CAGTTTACCGATTGTTATTAGTTATATTCCGGTGGCCTTTGCGTTCGGTCTGAATGCGACCCGTCTGGGATTCTC -TCCTCTCGAAAGCGTTTTTTTCTCCTGCATCATTTATGCAGGCGCGAGCCAGTTCGTCATTACCGCGATGCTGGC -AGCCGGGAGTAGTTTGTGGATTGCTGCACTGACCGTCATGGCAATGGATGTTCGCCATGTGTTGTATGGCCCGTC -ACTGCGTAGCCGTATTATTCAGCGTCTGCAAAAATCGAAAACCGCCCTGTGGGCGTTTGGCCTGACGGATGAGGT -TTTTGCCGCCGCAACCGCAAAACTGGTACGCAATAATCGCCGCTGGAGCGAGAACTGGATGATCGGCATTGCCTT -CAGTTCATGGTCATCGTGGGTATTTGGTACGGTAATAGGGGCATTCTCCGGCAGCGGCTTGCTGCAAGGTTATCC -CGCCGTTGAAGCTGCATTAGGTTTTATGCTTCCGGCACTCTTTATGAGTTTCCTGCTCGCCTCTTTCCAGCGCAA -ACAATCTCTTTGCGTTACCGCAGCGTTAGTTGGTGCCCTTGCAGGCGTAACGCTATTTTCTATTCCCGTCGCCAT -TCTGGCAGGCATTGTCTGTGGCTGCCTCACTGCGTTAATCCAGGCATTCTGGCAAGGAGCGCCCGATGAGCTATG -AGGTTCTGCTGCTTGGGTTACTAGTTGGCGTGGCGAATTATTGCTTCCGCTATTTGCCGCTGCGCCTGCGTGTGG -GTAATGCCCGCCCAACCAAACGTGGCGCGGTAGGTATTTTGCTCGACACCATTGGCATCGCCTCGATATGCGCTC -TGCTGGTTGTCTCTACCGCACCAGAAGTGATGCACGATACACGCCGTTTCGTGCCCACGCTGGTCGGCTTCGCGG -TACTGGGTGCCAGTTTCTATAAAACACGCAGCATTATCATCCCAACACTGCTTAGTGCGCTGGCCTATGGGCTCG -CCTGGAAAGTGATGGCGATTATATAACCCACAAGAATCATTTTTCTAAAACAATACATTTACTTTATTTGTCACT -GTCGTTACTATATCGGCTGAAATTAATGAGGTCATACCCAAATGGATAGTTCGTTTACGCCCATTGAACAAATGC -TAAAATTTCGCGCCAGCCGCCACGAAGATTTTCCTTATCAGGAGATCCTTCTGACTCGTCTTTGCATGCACATGC -AAAGCAAGCTGCTGGAGAACCGCAATAAAATGCTGAAGGCTCAGGGGATTAACGAGACGTTGTTTATGGCGTTGA -TTACGCTGGAGTCTCAGGAAAACCACAGTATTCAGCCTTCTGAATTAAGTTGTGCTCTTGGATCATCCCGTACCA -ACGCGACGCGTATTGCCGATGAACTGGAAAAACGCGGTTGGATCGAACGTCGTGAAAGCGATAACGATCGCCGCT -GCCTGCATCTGCAATTAACGGAAAAAGGTCACGAGTTTTTGCGCGAGGTTTTACCACCGCAGCATAACTGCCTGC -ATCAACTCTGGTCCGCGCTCAGCACAACAGAAAAAGATCAGCTCGAGCAAATCACCCGCAAATTGCTCTCCCGTC -TCGACCAGATGGAACAAGACGGTGTGGTTCTCGAAGCGATGAGCTAACGCGTCATCTCGCTCAAAAATCCAGATT -TATAAAAGAAAAAATGACTGGCCAGCATCGCAACATGCTGGCCTTTTTGGCAAGCAGGTCGGCTCAGCCGATGAG -TTAAGAAGATCGTGGAGAACAATATGAGCGCAAATGCGGAGACTCAAACCCCGCAGCAACCGGTAAAGAAGAGCG -GCAAACGTAAGCGTCTGCTCCTCCTTCTCACCTTGCTCTTTATAATTATTGCCGTAGCGATAGGGATTTATTGGT -TTTTGGTACTGCGTCACTTCGAAGAAACCGATGACGCATACGTGGCAGGGAATCAAATTCAAATTATGTCTCAGG -TGTCTGGCAGCGTGACGAAAGTCTGGGCCGATAACACCGATTTTGTAAAAGAAGGCGACGTGCTGGTCACTCTCG -ACCCGACAGATGCTCGCCAGGCGTTTGAAAAAGCCAAAACTGCACTGGCTTCCAGCGTTCGCCAAACCCACCAGC -TGATGATTAACAGCAAGCAGTTGCAGGCGAATATTGAGGTGCAGAAAATCGCCCTCGCGAAAGCACAAAGCGACT -ACAACCGCCGTGTGCCGCTGGGCAATGCCAACCTGATTGGTCGCGAAGAGCTGCAACACGCCCGCGACGCCGTCA -CCAGTGCCCAGGCGCAACTGGACGTCGCGATTCAACAATACAATGCCAATCAGGCGATGATTCTGGGGACTAAAC -TGGAAGATCAGCCAGCCGTGCAACAGGCTGCCACCGAAGTACGTAACGCCTGGCTGGCGCTGGAGCGTACTCGTA -TTATCAGTCCGATGACCGGTTATGTCTCCCGCCGCGCGGTACAGCCTGGGGCGCAAATTAGCCCAACGACGCCGC -TGATGGCGGTCGTTCCAGCCACCAATATGTGGGTGGATGCCAACTTTAAAGAGACGCAGATTGCCAATATGCGTA -TCGGTCAGCCGGTCACTATCACCACGGATATTTACGGCGATGATGTGAAATACACCGGTAAAGTGGTTGGTCTGG -ATATGGGCACAGGTAGCGCGTTCTCACTGCTTCCAGCGCAAAATGCGACCGGTAACTGGATCAAAGTCGTTCAGC -GTCTGCCTGTGCGTATCGAACTGGACCAGAAACAGCTGGAGCAATATCCGCTGCGTATCGGTTTGTCCACGCTGG -TGAGCGTCAATACCACTAACCGTGACGGTCAGGTACTGGCAAATAAAGTACGTTCCACTCCGGTAGCGGTAAGCA -CCGCGCGTGAAATCAGCCTGGCACCTGTCAATAAACTGATCGACGATATCGTAAAAGCTAACGCTGGCTAATCCA -GAGGTGCGTGTGATGCAACAGCAAAAACCGCTGGAAGGCGCGCAACTGGTCATTATGACGATTGCGCTGTCACTG -GCGACATTCATGCAGGTGCTGGACTCCACCATTGCTAACGTGGCGATCCCCACTATCGCCGGGAATCTGGGCTCA -TCGCTCAGCCAGGGAACGTGGGTAATCACTTCTTTCGGGGTGGCGAATGCCATCTCGATCCCGCTTACCGGCTGG -CTGGCAAAGCGCGTCGGGGAAGTGAAACTGTTCCTTTGGTCCACCATCGCCTTTGCTATTGCGTCGTGGGCGTGT -GGTGTCTCCAGCAGCCTGAATATGCTGATCTTCTTCCGCGTGATTCAGGGGATTGTCGCCGGGCCGTTGATCCCG -CTTTCGCAAAGTCTATTGCTGAATAACTACCCGCCAGCCAAACGCTCGATCGCGCTGGCGTTGTGGTCGATGACG -GTGATTGTCGCGCCAATTTGCGGCCCGATCCTCGGCGGTTATATCAGCGATAATTACCACTGGGGCTGGATATTC -TTCATCAACGTGCCGATTGGCGTGGCGGTGGTGTTGATGACACTGCAAACTCTGCGCGGACGTGAAACCCGCACC -GAACGGCGGCGGATTGATGCCGTGGGGCTGGCACTGCTGGTTATTGGTATCGGCAGCCTGCAGATTATGCTCGAC -CGCGGTAAAGAGCTGGACTGGTTTTCATCACAGGAAATTATCATCCTTACCGTGGTGGCGGTGGTGGCTATCTGC -TTCCTGATTGTCTGGGAGCTGACCGACGATAACCCGATAGTCGATCTGTCGTTGTTTAAGTCGCGCAACTTCACC -ATCGGCTGCTTGTGTATCAGCCTCGCGTATATGCTCTACTTCGGCGCTATTGTTCTGCTGCCGCAGTTGTTGCAG -GAGGTCTACGGTTACACGGCGACCTGGGCAGGTTTGGCCTCTGCGCCGGTAGGGATTATTCCGGTGATCCTGTCG -CCGATTATCGGCCGCTTCGCGCATAAACTGGATATGCGGCGGCTGGTAACCTTCAGCTTTATTATGTATGCCGTC -TGCTTCTACTGGCGTGCCTATACCTTTGAACCAGGTATGGATTTTGGCGCGTCGGCCTGGCCGCAGTTTATCCAG -GGGTTTGCGGTGGCCTGCTTCTTTATGCCGCTGACCACCATTACGCTGTCTGGTTTGCCACCGGAACGACTGGCG -GCGGCATCGAGCCTCTCTAACTTTACGCGAACGCTGGCGGGGTCTATCGGCACGTCGATAACCACGACCATGTGG -ACCAACCGCGAGTCGATGCACCATGCGCAGTTGACTGAGTCGGTAAACCCGTTCAACCCGAATGCCCAGGCGATG -TACAGTCAACTGGAAGGGCTTGGGATGACGCAACAGCAGGCATCAGGCTGGATTGCCCAGCAGATCACCAATCAG -GGGCTGATTATTTCCGCCAATGAGATCTTCTGGATGTCAGCCGGGATATTCCTCGTCCTGCTGGGGCTGGTGTGG -TTTGCTAAACCGCCATTTGGCGCAGGTGGCGGCGGAGGCGGTGCGCACTAAGTACAACTAAGCCAGTTCATTTGA -ACTGGCTTTTTTCAATTAATTGTGAAGATAGTTTACTGACTAGATGTGCAGTTCCTGCAACTTCTCTTTCGGCAG -TGCCAGTTCTTCGTTGCTGTTGATGCGTACGTCACGTTCCAGAATGCTACGCGCAATATCCTGCGCTTCCTGCAA -CGAGTGCATCTGGTAAGTGCCACACTGGTAGACGTTCAGTTCCGGGATCTGATTCTGATCCTGCACTTTCAGCAC -GTCTTCCATTGCCGCTTTCCAGGCATCAGCAACACGCTGCTCATCTGGCGTACCAATCAGACTCATATAAAAACC -GGTGCGGCAGCCCATTGGCGAGATATCGATAATCTCTACACCATTACCGTTAAGATGGTTACGCATAAAACCAGC -AAACAGGTGCTCCAGGGTATGGATCCCTCTTTCTGGCATCACTTCTTTGTTCGGCACGCAGAAGCGCAGATCGAA -CACGGTGATTGCGTCGCCATGCGGGGTGTTCATTGTTTTCGCCACCCGAACTGCAGGCGCTTCCATCCGGGTATG -ATCGACTGTGAAGCTATCTAACAACGGCATTTAGCCACCTCCGGTAATTTTTTTAAAAATTTTCTGAACTCTTTC -TTCCCAGGCGAGTCTGAGTATATGAAAGACGCGCATTTGTTATCATCATCCCTGAATTCAGAGATGAAATTTTGG -CCACTCACGAGTGGCCTTTTTCTTTTCTGTCAGGCGTGTTTTTCCAGCCACACCGCAAACGGTTCGGTATCAGCG -GCTTCCATTTCCTGCTGACGGCGTTCAGACGCCTCGCGCTCGGCTACAAAATCCTCTTCGCGCAGAATTTCCAGC -GGCTCTTCACGCAGCAGATTACGGTAGGCTTCTGCAAATGCTTTGCCTGTTCCGCCAATACCAGTATCAATCATA -GACCTTAAGATACGGGCAGAGAAAGTCAGATCGGGATTATCGAAGCAGGCAACCAGTTCATCACACACTTTCTGA -TACGCTTCGCCGCCGTTAATACTATCCAGCGTTTGCGCGACGCGTTTCAGATCGCGGAACAGATCTTTACCCACC -TGCGGTAACGGGAACTGTGCGGTTTCGCAGCCGATACCCAGCGTCAGACCCGGTTTGCGACCTTCGAGGATCACC -CGGTTCCAGTTAACGCGTGTACAGGCAAGTTCGCTACTGCTCATTTCCGGTGCATCAGCCAGCGCACACCAGACC -ATAAACAGGTCGAGGAATCGCACCTGCTGTTCATCTACACCAATCGGCGAGAACGGGTTGATGTCCAGCGAACGC -ACTTCAATATATTCAATGCCGCCACGTAACAGCGCATCAGAAGGCGACTCGCCGCTGCGGGTAACGCGTTTTGGA -CGAATCGGCGCGTACAGTTCGTTTTCAATCTGCAACACGTTGCTGTTGATTTGCAGCCTCTTACCGTCTTTCTCA -ATACCAATCTTCGCGTACTCTTCCGATGGCGTTTTGATTGCCTGTTTAAGGCCCGCTACGTACTCGTAAAGATCG -TTGAAGGTAATACCAAGATTGCTTTGCGATTTATTGGTATAGCCGAGATCGCTCAAACGAAGAGAGGTCGCATAC -GGCAGGTAATACATACCGCACTCGGTTTTCTCAAACGGCAGCGACGTTGGTTTTCCTTGCAGGAAAGAAGAACAA -ATCGCCGGAGATGCACCAAACAGATAAGGAATGACCCAACCGAAACGATAGTAATTGCGGATAACGCGGAAATAG -CCCGCAGAAATTTTCTCTTTGGCATCAGCGCCCGAGATATCACCGCACTTCGCTTGCCAGAATGCCATTGGCAAA -GAGAAATTGTAGTGCACGCCGGAAATGGTTTGCATCAGCGCGCCGTAGCGATTTTTCAGCCCTTCACGATACAGC -GTTTTAAAGCGTCCGGTGTTAGAAGTGCCGTACTGTGCCAGTTCGATGTCCTGACCTTCTGCGATGTAGCATGGC -ATACTTAACGGCCACATCCGCTCATCGCCCATATTGCGCGCCGTATAACGATGCAGATCGCGCATAAAGGTCAGC -ATATGTTCAATATCACCATCCACTGGTGTAATGAATTCCAGCAATGCTTCCGCAAAATCGGTAGTAATCCATTTG -TGCGTCAGTGCGGAACCTAATGCTTCAGGATGACCTGTTGTTGCCAGTGTGCCATCAGCATTAACACGCAAAGTT -TCGCGCTCCAGCCCACGCTGTATCCCCTTTAACGCCTGAGGATGTTTTTCCAGCCAGGCCAGCGCCTGTGATACG -TCCGGGATCAAATTGACCTCCCGCCTGTCAAAATCGTTTTAATTAGCATAACTGTAATGGTGACCATATGTGCAG -GCCTACAATTAGTGCCACCACATCATGCCCTGAACGGTCGCTGCTGCAACTGCAACATAGCGTAACGCTTTACCA -AGGCACAAAAAAAAGATTACCGGTCCCCACGAGATGCGCATCCATCCCGCTAACAGACACAGTAAATCGCCAACC -ACGGGCATCCAGCTTAATAATAGCGTGACTGCACCATAGCGTTTCAGCCAGCCGGTAGCTTTCTCTTGCCAGCGC -GATGTTTTACGCAATGGAAAGAAACGCCCAAGGATAACGTTAGTTAACCCTCCAAGGCTATTACCCATTGTTGCT -GTTAAAACTAAAACCCAGGGATGACTGATCCCGGAAAGCAACATTGCCACCAGCACGACTTCGGAGTTGCCGGGT -AATAGTGTAGCGCTGAGAAAACTACTGGCAAACAACGAGAAAAGCGATAACGCTTCACTCACAGCAAGCGAACAT -CCACGGCGTCCATGCCTGCTGCACGGGCCGCCTGAATACCGAAATCGGCATCTTCAAAGACCACACACTGCGTCG -GTTGCACGCCCATACGCTGCGCGCACAACAAAAATGTGTCTGGCGCGGGTTTATGGTGTTTGACGTGATCGGCAG -CGACGACGGCGTCAAAATAATGGCGTAATCCCAGGTGCGCCAGCAATGCCTCAGCGATGGCGCTTTCACTCCCCG -TTCCTACAGCCATTGGGCGACGACCATGCCAACTTTTCACCACATCAACAAGAGGAAGCGGTTCGACGCTATCCA -GCAGCATACTTCTTACTGCTTCTGTTTTTTCACGCGCTAACGCATGCGGGTCGAGATCGGCCTGATTCAGCTCAA -TAATTGCCTGAGCAATACGCCAGGTGGGCGATCCATTAAGCGCAATCATCGCCTGAATATCGTACTGAAGACCGT -AGTGCCCTAATACTTCGCGCCACGCTTTACGGTGCGTAGGCTCCGTATCCAGGATTGTGCCATCCATATCAAAAA -TTAAACCTGCATAACGCTCGTACATGGTCTTCTCGCAAGTCGAAAAATATGACGCTACTTTAGCGTAATTGCTTG -ATTTTGTCGCTGATGGCGAAGGAGAAGAAAATTCAGGAAATGGATAAAGGAGTTATTTAGAAATGAGATATTTTT -GAAGGAAATTTTTTGGAGAAGATGGTGCATCCGGGAGGATGACTCACTGACGTTCGCCCTTCGGGCCGTTGCTGG -CGCAACGTTATCCTTCCTGGTGCCTGCGGTTAATACCGCTATCTCTTCGATACCTTCATTGCTGAAGGTTACGGA -GAATATGGTGCATCCGGGAGGATTCGAACCTCCGACCGCTCGGTTCGTAGCCGAGTACTCTATCCAGCTGAGCTA -CGGATGCATCGGGAAAACTTATTCTACTGCTGATATTGATACCGCTACTAAAGCCATATCAATTAAGAGATGGTG -CATCCGGGAGGATTACTCGCCTTGCGGCTCGCCCTTCGGGCCGTTGCTAAAGCAACGTTATCATCCCTAGTGCCT -GCGGTTAATTCCGCTACCTCTTCGATACCTTCATTGCTGAAGATTTCGGAGAATATGGTGCATCCGGGAGGATTC -GAACCTCCGACCGCTCGGTTCGTAGCCGAGTACTCTATCCAGCTGAGCTACGGATGCATCGGGAAATTTATTTTA -CTGCTGATATTGATACCGCTACTAAAGCCATATCAAGTAAGAGATGGTGCATCCGGGAGGATTCGAACCTCCGAC -CGCTCGGTTCGTAGCCGAGTACTCTATCCAGCTGAGCTACGGATGCATCGGGAAACTTACTTTACTGCAGATTTT -TTGATACCGCTACTAAAGCCGTATCAAGTAAGAGATGGTGCATCCGGGAGGATTACTCGCCTTGCGGCTCGCCCT -TCGGGCCGTTGCTAAAGCAACGTTATCCTCCCTGGTGCCTGCGGTTATTACCGCCACCTCTTCCATACCTTCATC -GCTGAAAGTACGTAGAATATGGTGCATCCGGGAGGATTCGAACCTCCGACCGCTCGGTTCGTAGCCGAGTACTCT -ATCCAGCTGAGCTACGGATGCAAATGGCGGTGAGGCGGGGATTCGAACCCCGGATGCAGCTTTTGACCGCATACT -CCCTTAGCAGGGGAGCGCCTTCAGCCTCTCGGCCACCTCACCACACGCCTCTTACGAGTGCTTCGAAGAACTTGT -TTATCGCTCATCGTCGCTGCGTGGCGCACATATTACTTTCTGAGACTTATAAGTCAAACAATTTTTCCTACACTT -TTATCGTTTGCACACTTCACGTTCAATTAGTCTGTAAAAACGTCAAAAAGAGTGTTTTATCAACAGAAGAATGGA -GGTCTGACAGATAGTAGTAATGCAAAAAAATGGAGACTTAAGTTGAATGAACGGGAGTAAAGCGAAAAGACTATA -GAGTGAAGGAGAAATTTTGAGGGTGCGTCTCACCGATAAAGATGAGACGCGGAAAGATTAGTAACTGGACTGCTG -GGATTTTTCAGCCTGGATACGCTGGTAGATCTCTTCACGGTGAACAGAAACTTCCTTCGGGGCATTTACGCCAAT -ACGTACCTGGTTGCCCTTTACCCCTAAAACTGTCACGGTGACCTCATCCCCAATCATGAGGGTCTCACCAACTCG -ACGAGTCAGAATCAGCATTCTTTGCTCCTTGAAAGATTAAAAGAGTCGGGTCTCTCTGTATCCCGGCATTATCCA -TCATATAACGCCAAAAAGTAAGCAATGACAAACACATTACATCTAAGCAGTCATGGCATTACATTCTGTTAAACC -TAAGTTTAGCCGATATACACAACTTCAACCTGACTTTATCGTTGTCGATAGCGTTAATGCGAATGCCGTGAAGCG -AGTCCACGGCATTGCCTGACGCTTATATTATTGCAATTTCGCGCTGACCCAGCCTTTCACACTGGCTAACGCTGC -AGGTAAGGCCGCAGCATCCGTACCACCGGCTTGCGCCATGTCAGGACGTCCACCACCCTTGCCGCCCACCTGCTG -AGCGACCATACCAATCAGTTCCCCTGCTTTCACACGATCTGTGACGTCCTTAGATACGCCTGCAATCAGAGAAAC -CTTACCTTCGACTACCGTTGCCAGCACGATAATTGTCGACCCCAGCTGATTTTTTAAATCGTCAACCATGGTACG -CAACATTTTCGGCTCAACACCGCTAAGCTCGCTAACCAACAGCTTAACACCATTAACATCAATTGCCTTACTGGA -AAGATTTGCGCTCTCCTGTGCGGCAGCTTGTTCTTTAAGCTGTTGTAACTCTTTTTCCAGCTGACGCGTACGTTC -CAGTACTGAGCGCACTTTATCAGCCAGATTATTGCTATCGCCTTTCAGCAGATGCGCGACTTCGCTTAAGCGATC -GCTGTCTGCATGAACGGTGGCGATAGCACCTTCTCCGGTTACCGCTTCGATACGACGAACGCCTGCAGCAGTACC -CGATTCAGAGATGATGCGGAACAGACCAATATCACCAGTGCGGCTGGCGTGAGTACCGCCACACAACTCGGTAGA -GAAATCGCCCATGCTCAGCACGCGTACGCGCTCATCATACTTCTCGCCGAACAGCGCCATCGCACCTTTCGCTTT -CGCCGCTTCGAGATCCATGATGTTGGTTTCGATCGGCAAATTGCGACGAATCTGTGTGTTCACCAGGTCTTCGAC -CGCACGAATCTCTTCTGGTTTCATCGCTTCGTTGTGTGAGAAGTCGAAGCGCAGCACCTTGTCGTTAACCAGTGA -ACCTTTCTGCGATACATGAGTACCCAGAACCTGGCGCAGCGCAGCGTGCATCAGGTGCGTTGCGGAGTGATTCAG -ACGAATACGGGCGCGACGAGCCTCATCAACATCAGCCTGCACCGCGTCGCCCACTTTCAGAGAACCCGCAGCAAG -TTTACCGATGTGACCAATCGCCTGGCCGTATTTCTGCGTATCTTCCACCGCAAAGGAGAAGTTAGCGCCTTTCAG -TTCGCCTTTATCGCCAACCTGACCGCCGGATTCCGCATAGAATGGCGTTTGATCCAGCACGACCACAGCTTCCTG -GCCTGCATTGATGGCATCAACCGCTTTACCATCAACAAACAGCGCAGTCACTTTGCCGTTCAGTTCCAGATGGTC -ATAGCCTTTAAATTCAGATGCACTGTCAACACGGATCATTGCGTTGTAATCGGCACCAAAGCCGCTGGCTTCGCG -CGCGCGACGACGCTGCTCTTCCATTGCAGCTTCAAAACCAGCTTCGTCAACTTTGATGTTGCGCTCACGACAAAC -ATCAGCCGTCAGGTCAACCGGGAAGCCATAGGTGTCGTACAGACGGAAAGCAGTTTCACCATCCAGCGTATCACC -AGAAAGTTTTGCCAGCTCTTCATCCAGCAACGCCAGACCGCGCTCCAGAGTACGAGCAAACTGCTCTTCTTCAGT -CTTCAGCACCTGCTCAACCTGCGCCTGCTGGCGTTTCAGGTCTTCACCCGCAGAGCCCATAACGTCGATCAGCGG -ACCAACCAGTTTGTAGAAGAAGGTTTCTTTCGCGCCGAGCATATTACCGTGACGCACTGCGCGACGAATGATACG -ACGCAGTACATAACCACGGTTTTCATTGGACGGCATTACGCCATCCGCGATCAGGAACGCACAAGAACGAATGTG -GTCAGCGATTACGCGCAGCGATTTATTGCTCAGATCGGTTGCGCCAGTGACTTTCGCTACCGCCTGGATCAGCGT -GCGGAACAGGTCGATGTCATAGTTAGAGTTAACGTGTTGCAGCACCGCAGCAATACGCTCCAGACCCATACCGGT -ATCTACAGACGGCTTCGGCAGCGGTTCCATCGTGCCATCGGCCTGGCGGTTGAACTGCATGAAGACGATGTTCCA -GATCTCAATGTAGCGGTCGCCGTCTTCTTCCGGGCTTCCCGGAGGGCCCCCCCAAATGTGGTCGCCGTGATCGTA -GAAGATTTCGGTGCACGGGCCGCACGGACCAGTGTCACCCATCTGCCAGAAGTTGTCAGATGCGTATGGCGCACC -TTTGTTATCGCCGATGCGAATAATACGTTCGCGCGGGATCCCTACTTCTTTTTCCCAGATTTCGTAGGCTTCGTC -GTCGCTTTCATAGACGGTAACCCACAGACGCTCTTTCGGCAGGGCAAACCATTTTTCGCTGGTCAGCAGTTCCCA -TGCAAACTGAATGGCATCGTGTTTGAAATAGTCGCCGAAGCTGAAGTTGCCCAGCATTTCGAAGAAGGTATGGTG -ACGCGCGGTGTAACCGACGTTTTCCAGGTCGTTGTGTTTACCACCCGCACGCACGCAGCGTTGGGAAGTGGTAGC -GCGGGAATAATTACGCTTGTCGAGCCCAAGGAACACATCCTTGAACTGGTTCATCCCGGCGTTGGTAAACAACAA -AGTTGGGTCGTTATGGGGTACCAGGGAGCTGCTGGCAACTACCTGATGTCCCTTACTATGGAAAAAGTCGAGAAA -CGCCTGACGGATCTCAGCGGTGCTCTTGCTCATAATTATCCTGAAATCAAGCTAACGAAATATCGCCACCAGCTC -CAGCGTGTCTTAACCGCCGGGCTGGTAACTGAAAAGTGGGAATAAGATAAGTTTTCTTGACTGGGAAGTAAAATA -CCGTATGCGTTCAGTCGGCAAAATTTCGCCAAATCTCCTGGATATCTTCCATCAGATAGCCACGATAGAGCAGAA -AACGCTGGATCTTAACTTTTTCTGAAAAGACAGTTGGCAAAGGTTCGCCATATTTTCGCGTCGCCTGATCGCGCG -CCAGTGCGCACCAGTCGATGTCACATTCACGCATCGCTTTTTCTGTCGCTTCGCGGGAAATACCTTTCTGATTCA -GTTCCTGGCGAATACGCGCAGGTCCATAACCTTTGCGGCTACGGCTGGCGATAAAGCGCGCAACAAATCGGCTGT -CATCGAGATAGCCATGTTCATGGCACCAGGCAATAACGCGCTCGTAATCTTCTGCCGTAGCATCAATCTCTTCTG -GGCCATTTTTGCCCATAATCGGTGCCGCGAGTTTACGTCGCAGTTCTTGCTCACTGTGATCGCGCACCGCCAGAA -TGCGTACCGCACGATCCAACAGGCGAGCATATGCCGGGCGACGGGATGTTGATTCTGTCATGGCATATCCTTACA -ACTTAAAAAAGCAAAAGGGCCGCAGATGCGACCCTTGTGTATCAAACAAGACGATTAAAAATCTTCGTTAGTTTC -TGCTACGCCTTCGCTATCATCTACAGAGAAATCCGGCGTTGAGTTCGGGTTGCTCAGCAGCAACTCACGTACTTT -CTTCTCGATCTCTTTCGCGGTTTCCGGGTTATCTTTCAGCCAGGCAGTCGCATTCGCTTTACCCTGACCGATCTT -CTCACCTTTGTAGCTGTACCACGCGCCTGCTTTCTCGATCAGCTTCTCTTTTACGCCCAGGTCAACCAGTTCGCC -GTAGAAGTTGATACCTTCGCCGTAGAGGATCTGGAATTCAGCCTGTTTAAACGGCGCAGCGATTTTGTTCTTCAC -CACTTTCACGCGGGTTTCGCTACCCACCACGTTTTCGCCCTCTTTCACCGCGCCGATACGACGGATGTCGAGACG -AACAGAGGCGTAGAATTTCAGCGCGTTACCACCGGTAGTGGTTTCCGGGTTACCGAACATCACACCAATTTTCAT -ACGGATCTGGTTGATGAAGATCAGCAGCGTGTTGGACTGCTTCAGGTTACCCGCCAGCTTACGCATCGCCTGGCT -CATCATACGTGCCGCAAGGCCCATGTGAGAGTCGCCGATTTCGCCTTCGATTTCCGCTTTCGGCGTCAGTGCCGC -CACGGAGTCAACGACGATAACGTCTACTGCGCCAGAACGCGCCAGGGCGTCACAGATTTCCAGTGCCTGCTCGCC -GGTGTCCGGCTGGGAGCACAGCAGGTTGTCGATATCGACGCCCAGTTTACGTGCGTAGATTGGGTCCAGCGCGTG -TTCAGCATCGATAAACGCACAGGTTTTACCTTCACGCTGCGCTGCGGCGATCACCTGCAGCGTCAGCGTGGTTTT -ACCGGAAGATTCCGGTCCGTAGATTTCGACGATACGGCCCATCGGCAGACCACCTGCCCCAAGCGCGATATCCAG -TGAAAGCGAACCGGTAGAGATGGTTTCCACATCCATGGAACGGTCTTCACCCAGGCGCATGATGGAGCCTTTACC -AAATTGTTTCTCAATCTGGCCCAGTGCTGCCGCCAACGCTTTCTGTTTGTTTTCGTCGATAGCCATTTTTACTCC -TGTCATGCCGGGTAATACCGGATAGTCAATATGTTCTGTTGAAGCAATTATACTGTATGCTCATACAGTATCAAG -TGTTTTGTAGAAATTGTTGCCACAAGGTCTGCAATGCATACGCAGTAGCCTGACGACGCACCGCATCACGGTCGC -CGCTGAAGCATTCCCGCCGGGTAATGCCTTCACCGCGGGCAGTGGCAAAAGCAAACCAGACGGTGCCGACAGGCT -TCTCTTCACTGCCGCCATCCGGCCCGGCGATACCACTAATAGACACGGCATAATCAGCACGAGCCGCTTTCAGTG -CGCCTATCGCCATTTCCACCACGACGGGTTCACTCACCGCGCCATGCTGCGCCAGCGTCTCTTCGCGTACGCCGA -TCATCTGCGCTTTGGCTTCGTTACTGTAGGTGACAAATCCGCGTTCAAACCAGGCGGAGCTACCGGCAATATCGG -TAATCACTTTCGCTACCCAACCACCGGTACAAGACTCGGCAGTTGTTACGGTTGCGCCACGGGCTTTCAGCGCCT -GCCCAACCTGTTCACTTAACTGCATCAGTTCACTGTCAGTCATCACAACCTCTGTCAGTCAAAAATTTATGCCGG -ACAAGATAGCACTTTCGTCAGGAAGATGGTGTTGGCGTTGCAATTTTACGAGGAGGATTCAGAAAAAAGCTGATT -AGCCAGAGGGAAGCTCACGCCCCCCTCTTGTAAATAGCTACTGTACTCGCGCCAGCGCCACGGCTTGTCCTAACT -GCCAGACCGCCATTGCGTAATGGGTGCTGTGGTTGTAACGGGTGATGGTGTAGAAGTTCGGCAGACCGTACCAGT -ACTGGTAGCCGGTGCCAACATCCAGACGCAGCAGGCTGGCTTGTTGATGGTTGCCCAGCGGCTGCTGTGGCGTTA -AACCTGCGGCGGCAAGCTGCGAAATGCTGTACTTAGTTTTGAAGCCATTTGGCAAGCCTGGAGCCTGACCGTTTG -CCATTACCGCGACCTGATCGCCTTTCACCCAGCCGTGCGCTTTGAAATAGTTCGCCACGCTACCGATCGCATCAA -CCGGATCCCACAGGTTGATATGCCCGTCGCCGCTGAAATCTACCGCATATTGTTTGTAAGACGACGGCATAAACT -GTCCGTAGCCCATCGCCCCGGCAAAGGAACCTTTCAGATTGAGCGGATCGTCCTGCTCGTCGCGCGCCATCAACA -GGAAGGTTTCCAGCTCGCCAGAGAAATACTCCGCGCGGCGTGGGTAGTTAAATGACAGCGTTGCCAGCGCATCGA -GGATGCGAGTTTTCCCCATCACGCGCCCCCAGCGGGTTTCAACGCCGATAATCCCGACGATAATTTCCGGCGGTA -CTCCATACACCTGCCACGCGCGATTCAACGCATCTTCATACTGATTCCAGAAAACCACACCGTTCTGCACGTTGT -CCGGCGTAATAAATTTTTTGCGATAACGGAGCCATGCGCCGTTCGGACCTGATGGCGGTTTCACCGATGTGGTTG -GTGCCTGGTTATCCATCAGCCGCAGTACCGAATCCAGACGCTTCGCCTGGGAGAGAATTTCCTGCAACTGCTGAC -GATCGAAACCGTGTTTGTTCACCATTTTGTCGATGAACTGCTGGGCATTCGGGTTATTAGCGAAATCGCCGCCCA -TCTGCATCACATTGTGCTGCGGCTCAAGCAGGAAGCCGCCAGACGGCGTTCCGGTGGTCGTATCAGTCTCAGTAG -GTTTTGGCTTGCTGCTACAGGCGGCAAGCAACACAAAAAGGGGAAGCAATGTTACATAACGACGCTTGAACATGA -GGGGTCCATTTAACAGATTCAACCAGGGGCAAGTATGGTAAAGCATCACGCCCCGCACAAGGAAGCGGTAGTCAC -TGCCCGATACGGACTTTACATAACTCAACTCATTCCCCTCGCTATCCTTTTATTCAAACTTTCAAATTAAAATAT -TTATCTTTCATTTTGCGATCAAAATAACACTTTTAAATCTTTCAATCTGATTAGATTAGGTTGCCGTTTGGTAAT -AAAACAATAAATCCTGAAGGAGAGAACAATGATAGAAACCATTACTCATGGTGCAGAGTGGTTTATCGGGCTGTT -CCAAAAGGGCGGAGAGGTGTTTACCGGGATGGTGACCGGCATTCTTCCGCTGTTGATTAGCCTGCTGGTTATCAT -GAACGCACTGATTAATTTTATCGGTCAGCATCGTATTGAACGTTTTGCTCAACGTTGCGCCGGTAACCCTGTTTC -CCGTTACCTACTGTTACCGTGCATTGGCACGTTTGTCTTTTGCAATCCGATGACCCTAAGCCTGGGTCGCTTTAT -GCCGGAAAAGTACAAACCCAGCTACTACGCGGCGGCCTCTTATAGCTGCCACTCAATGAATGGCCTCTTCCCCCA -TATCAACCCTGGCGAACTGTTTGTTTATCTTGGCATTGCCAGCGGTCTGACAACGCTGAACCTGCCACTTGGCCC -ACTGGCGGTGAGTTATCTGCTGGTTGGTCTGGTCACCAATTTCTTCCGCGGCTGGGTGACCGATCTGACCACCGC -CATTTTTGAGAAAAAGATGGGCATTCAACTTGAACAAAAAGTTCACCTGGCAGGAGCAACATCATGACGCATATT -CGGATCGAAAAAGGAACGGGTGGCTGGGGCGGCCCGCTTGAGCTGAAAGCCACGCCGGGAAAAAAAATCGTCTAT -ATCACCGCCGGTACCCGGCCTGCGATTGTTGACAAACTGGCACAGCTTACTGGCTGGCAGGCTATTGACGGATTT -AAAGAAGGTGAACCCGCGGAGGCGGAAATTGGTGTCGCGGTAATCGACTGTGGCGGCACATTACGCTGCGGCATC -TATCCGAAACGACGTATTCCCACCATTAATATCCACTCGACGGGCAAGTCCGGTCCGCTGGCGCAGTACATTGTG -GAAGATATTTATGTCTCTGGCGTAAAAGAAGAAAACATCACTGTAGTAGGTGATGCGACACCACAACCCTCTTCC -GTGGGCCGTGACTATGACACCAGTAAGAAAATCACCGAACAAAGCGATGGTTTACTGGCGAAGGTGGGAATGGGC -ATGGGGTCCACCGTTGCGGTGCTGTTTCAATCTGGTCGTGACACCATCGACACTGTATTAAAAACCATTCTGCCG -TTTATGGCATTCGTCTCGGCGCTCATTGGCATCATTATGGCTTCTGGCCTTGGTGACTGGATTGCCCACGGTCTT -GCTCCGCTGGCGAGCCATCCACTGGGTCTGGTCATGCTGGCGCTCATCTGTTCCTTCCCACTGCTTTCACCTTTC -CTCGGCCCAGGCGCAGTTATCGCACAGGTTATCGGCGTATTGATTGGCGTGCAGATTGGTCTCGGCAATATTCCG -CCGCATCTGGCTTTACCGGCACTGTTTGCCATCAACGCGCAGGCGGCCTGCGACTTCATCCCGGTCGGTTTGTCG -CTGGCGGAAGCCCGTCAGGACACGGTTCGCGTCGGTGTCCCTTCTGTACTGGTGAGCCGCTTTTTAACCGGCGCG -CCGACTGTACTGATCGCCTGGTTTGTCTCCGGTTTTATCTATCAATAGAGGCTGAAACATGACCGTTATTTATCA -GACCACCATCACCCGTATCGGCGCGAGTGCCATTGACGCCCTCAGTGACCAGATGCTCATCACCTTTCGTGAAGG -CGCGCCTGCGGACCTCGAAGAGTATTGCTTCATTCATTGCCACGGCGAGTTGAAAGGTGCACTCCATCCCGGTTT -GCAATTTTCACTCGGGCAGCATCGCTATCCGGTGACCGCTGTTGGCAGCGTGGCGGAAGACAACCTTCGCGAACT -GGGTCATGTCACCCTGCGCTTCGATGGTTTAAACGAAGCGGAATTTCCGGGCACTGTCCATGTGGCAGGCCCTGT -CCCCGACGATATCGCGCCGGGATCGGTTTTGAAGTTTGAATCTGTTAAGGAGTAAAAAATGAATCAGGTTGCCGT -TGTCATCGGTGGTGGGCAAACCTTAGGCGCGTTCCTGTGCCACGGTCTGGCTGCCGAGGGGTATCGCGTCGCGGT -TGTCGATATTCAGAGCGACAAAGCCGCAAATGTGGCACAAGAAATTAACGCCGAATATGGTGAAAGTATGGCGTA -CGGTTTTGGTGCTGACGCCACTAGCGAGCAAAGCGTTCTGGCGCTCTCTCGTGGGGTAGATGAAATCTTTGGTCG -CGTGGATTTGCTGGTCTACAGCGCCGGAATAGCAAAAGCAGCCTTTATCAGCGACTTCCAGCTCGGCGATTTTGA -CCGTTCGCTACAGGTGAATCTGGTGGGTTATTTCCTGTGTGCGCGTGAATTTTCGCGTTTGATGATCCGCGACGG -GATTCAGGGGCGCATTATTCAGATCAACTCGAAATCCGGCAAAGTGGGCAGCAAACACAACTCTGGCTACAGCGC -AGCGAAATTTGGTGGCGTCGGGCTGACTCAATCACTGGCGCTGGATCTGGCGGAGTACGGCATTACGGTGCATTC -ACTGATGCTCGGTAACCTGCTGAAATCGCCGATGTTCCAGTCACTGTTGCCACAATACGCGACCAAGCTGGGTAT -CAAACCGGATCAAGTCGAGCAGTATTACATCGACAAAGTACCGCTCAAACGCGGCTGCGATTATCAAGATGTGCT -GAATATGCTGCTGTTCTACGCCAGTCCTAAGGCGTCGTACTGCACCGGACAGTCGATCAATGTCACCGGCGGTCA -GGTGATGTTCTGATCAACAGCGGAGATCCATTAAGGATCTCCGTGAGACTATAGAATGCCTGATGCGCTACGCTC -ATCAGGCATACAGGACTTCCGCCACTACATTAAGGAAAAGTTATGGTATCCGCACTCATCACCGTCGCCGTTATC -GCCTGGTGTGCGCAACTGGCCTTAGGCGGCTGGCAAATTTCTCGTTTTAACCGTGCCTTCGACACACTATGCCAG -CAAGGGCGGGTTGGCGTGGGCCGTTCCAGCGGGCGCTTTAAACCGCGGGTCGTGGTCGCCATCGCGCTGGACGAT -CAGCAGCGCATCGTCGACACCTTGTTTATGAAAGGACTGACCGTCTTCGCCCGACCGCAAAAAATTCCCGCAATT -ACCGGTATGCATGCGGGTGATTTACAGCCCGATGTGATCTTTCCCCATGATCCACTATCACAGAATGCTCTATCA -TTGGCGCTTAAACTGAAACGTGGATAATTTCGTTGTGAATGTTACTTGCTTGCGAAGTTATCATTTTGAAACCTA -AATCAGGTAATCACGCCCATGAAACCTCGTCAGCGTCAGGCCGCCATTCTGGAGTATCTGCAAAAGCAGGGTAAA -TGCTCGGTTGAAGAATTGGCGCAATACTTTGACACCACAGGCACAACCATTCGCAAAGATCTGGTCATTCTGGAA -CATGCCGGAACCGTCATTCGTACTTATGGCGGAGTGGTGTTGAATAAAGAGGAATCCGATCCGCCTATCGATCAT -AAAACACTCATCAACACCCACAAGAAAGAGCTGATTGCAGAAGCTGCCGTTAGTTTTATCCATGATGGCGATTCG -ATCATTCTTGATGCTGGCAGTACCGTTTTGCAGATGGTTCCCCTGCTCTCGCGCTTTAATAACATCACGGTGATG -ACCAACAGCCTGCATATCGTCAATGCGCTATCCGAACTGGATAACGAACAAACTATCCTGATGCCAGGCGGAACG -TTTCGCAAAAAATCGGCCTCATTTCACGGGCAACTGGCAGAGAATGCCTTCGAGCATTTCACCTTCGATAAATTG -TTTATGGGCACCGACGGCATCGATCTCAATGCGGGCGTAACCACCTTTAACGAGGTTTATACCGTCAGTAAGGCA -ATGTGCAATGCCGCGCGCGAAGTGATTTTGATGGCGGACTCATCAAAGTTTGGCCGTAAAAGCCCCAACGTAGTT -TGCAGTCTTGAAAGCGTCGATAAGCTGATTACCGACGCAGGTATCGATCCGGCGTTTCGTCAGGCGCTGGAAGAG -AAAGGGATCGATGTGATCATAACCGGAGAGAGCAATGAGTGAAGCACTACTGAACGCGGGACGTCAGACGTTAAT -GCTGGAGTTGCAGGAAGCAAGCCGTTTACCGGAACGTCTGGGCGATGATTTTGTTCGCGCCGCCAATATCATCCT -GCACTGTGAAGGCAAAGTGGTGGTTTCGGGAATTGGCAAATCGGGCCACATTGGTAAGAAAATCGCCGCAACGCT -TGCCAGTACCGGCACTCCGGCTTTTTTTGTCCATCCGGCAGAAGCGCTGCACGGCGATCTGGGGATGATCGAAAG -CCGCGATGTGATGCTGTTTATCTCTTACTCCGGTGGCGCGAAGGAACTGGATCTGATTATTCCGCGTCTGGAAGA -TAAATCTATCGCGCTGCTGGCGATGACCGGCAAACCGACGTCACCGCTGGGCCTGGCGGCAAAAGCGGTGCTGGA -TATCTCCGTAGAACGCGAAGCCTGCCCGATGCACCTTGCGCCGACCTCCAGCACCGTCAATACCCTGATGATGGG -TGACGCGCTGGCGATGGCGGTCATGCAGGCGCGCGGATTTAATGAAGAAGATTTTGCCCGCTCCCACCCAGCCGG -GGCACTGGGCGCTCGCTTGCTGAATAAAGTGCATCATCTGATGCGCCGTGACGATGCCATCCCACAGGTGGCGTT -AACCGCCAGCGTGATGGATGCGATGCTGGAACTCAGCCGCACCGGTCTGGGGCTGGTGGCGGTATGTGACGCTCA -ACAACAGGTACAAGGCGTCTTTACCGACGGCGATTTACGTCGCTGGCTGGTTGGCGGCGGCGCACTCACCACGCC -AGTCAATGAAGCGATGACGGTCGGCGGCACCACGTTGCAATCGCAAAGTCGCGCCATCGACGCCAAAGAGATCCT -GATGAAGCGCAAAATCACTGCCGCACCGGTGGTGGATGAAAACGGCAAACTCACCGGCGCAATAAACCTGCAGGA -TTTCTATCAGGCCGGGATTATTTAATCCTTCAATCCCAGACGTTTCGCCAGCCGATGCAGGTTGGCGACGTCGGT -TTCCAGCATCCGCGCGCAGGCAGCCCAGTTGTGATGATTTTGTGCCAGTGCCTGACGAATAGTTTCACGCTGGAA -CGCTTCTGTCGCTTCACGCAGGTTTTGCTTAACAACGGGCACCGCCGCCACTTCTGGCGTCGGCAACGTCACCTC -AGGAAAAGCAAAATGTTGCGCCTCAAGAATCACTTCATCGCCGCTGCGGGTGGCTCTCGCCAGAACTACCGCCCG -ATGAATAGCATGTTCCAGTTCGCGCACGTTTCCCGGAAAACTGTAGTGTTGCAGTAAATTTCGCGCTCCGGCACT -TAATACCACGCGGGAGAGCCCCTGCCGCAAACGACACTGCTCGCAGAAATACCCCGCCAGCAGAATGACATCATC -GCCCCGCTCACGCAGCGGCGGCACCGAAAGTGGAAACACGCTCAGGCGATGAAACAAATCGGCGCGGAATCGCCC -TGCCAGCACCTCTTCGCGTAAATCGCGGTTAGTCGCCGCCAGCACGCGCACATCGACCCGCAAACAACGGTCATC -GCCAACGCGCTGAATATCGCCATACTGCAACACCCTCAGCAGCTTGGCCTGCAATGCCAACGACAACTCGCCGAT -CTCATCCAGAAACAGCGTGCCGTTATCCGCCATTTCAAACTTCCCGCTGCGATTACTGATAGCGCCAGTAAACGC -TCCTTTCACATGCCCGAACAACTCACTTTCCGCCACACTTTCCGGCAGTGCAGCACAGTTGAGATAGACCAGCGG -ATTCACCGCCCGTGGCGAGGCTTCATGAATCGCTTTCGCCACCAGCTCCTTACCGGTTCCAGTCTCACCGCTGAT -CAGGACGTTGAGATCGGACGCCGCCACAATCTCAATCTCTTTTTTCAGTTGCGTCATGCCAGGGGACAAGCCAAT -CATCTGCGTCTGTTTCACCGCTTCAAACGGCGTGGCATCGCCTGGCAGCATATTCTGGCTTTCCAGTTGTTCAAT -CAGCAACGCATTGCTTAACGCTCCCGCCGCCAGCGCAGCAATCAGCCGTAGCTCTTCGTCGCTGAAAACATCGAA -CTGATCGGGCTGCATCCCGTCGAGCGTCAGTGCGCCGATCAGGTTTTGCCCGGCAAACAATGGCAGACCAACGCA -GGCGTGAACCTTCAGACTCTCCTGCCCAGGAATCAAACCGTCATAGGGATCGGGCAATTCGCTGTCTGCGGGAAA -GCGCACCACATCCCCGGCGCGGGCAATCGCTTCCAGCCGTGGATGCCCTTCCAGCGCAAAGCGTCTACCGAGTAC -ATCCTTTGCCAGACCGTCGATGGCAAGCGGAATAAACTGCCGCGAATCGTAACGTAGCAACGCAGACGCATCGCA -CTCCAGCACCTGACGTAGCGTGGTGATCAGGCGCTGAAAACGATCCTGGTGACCAATCCCACGCTGCAATTCGAT -GGCGATATTCGCCAGCACATCAACGGAAAAACTCATCTTTGCCTCACTGTCAATTTGACTATAGATATTGTCATA -TCGACCATTTGATTGATAGTCATTTTGACTACTCATTAATGGGCATAATTTTATTTATAGAGTAAAAACAATCAG -ATAAAAAACTGGCACGCAATCTGCAATTAGCAAGACATCTTTTTAGAACACGCTGAATAAATTGAGGTTGCTATG -TCTATTGTGGTGAAAAATAACATTCATTGGGTTGGTCAACGTGACTGGGAAGTGCGTGATTTTCACGGCACGGAA -TATAAAACGCTGCGCGGCAGCAGCTACAATAGCTACCTCATCCGCGAAGAAAAAAACGTGCTGATCGACACCGTC -GACCATAAATTCAGCCGCGAATTTGTGCAGAACCTGCGTAATGAAATCGATCTGGCGGATATCGATTACATCGTG -ATTAACCATGCAGAAGAGGACCACGCTGGGGCGCTGACCGAACTGATGGCACAAATTCCCGATACGCCGATCTAC -TGTACAGCCAACGCTATCGACTCGATAAATGGTCATCACCATCATCCGGAGTGGAATTTTAATGTGGTGAAAACT -GGCGACACGCTGGATATCGGCAACGGCAAACAGCTCATTTTTGTCGAAACACCAATGCTGCACTGGCCGGACAGC -ATGATGACTTACCTGACAGGCGACGCGGTGCTGTTCAGTAACGATGCTTTCGGTCAACACTACTGCGACGAGCAT -CTGTTCAACGATGAAGTGGATCAGACGGAGCTTTTCGAGCAGTGCCAGCGTTACTACGCCAATATCCTGACGCCG -TTCAGCCGCCTGGTAACACCGAAAATTACCGAGATCCTGGGCTTTAACTTACCAGTCGATATGATAGCCACTTCC -CACGGCGTGGTATGGCGCGATAACCCGACGCAAATTGTCGAGCTGTACCTGAAATGGGCGGCTGATTATCAGGAA -GACAGAATCACCATTTTCTACGACACCATGTCGAATAACACCCGCATGATGGCTGACGCTATCGCCCAGGGGATT -GCGGAAACCGACCCACGCGTGGCGGTGAAAATTTTCAACGTCGCCCGAAGCGATAAAAACGAAATCCTGACTAAT -GTCTTCCGCTCAAAAGGCGTGCTGGTCGGCACTTCGACGATGAATAACGTGATGATGCCGAAAATCGCCGGGCTG -GTGGAGGAGATGACTGGTTTACGCTTCCGTAACAAACGCGCCAGTGCTTTCGGCTCTCACGGCTGGAGCGGCGGT -GCGGTGGATCGTCTTTCCACGCGCCTGCAGGATGCGGGTTTCGAAATGTCGCTTAGCCTGAAAGCGAAATGGCGA -CCAGACCAGGACGCTCTGAAGTTATGCCGTGAACACGGTCGCGAAATCGCCCGTCAGTGGGCGCTCGCGCCGCTG -CCGCAGAGCACGGTGAATACGGTAGTTAAAGAAGAAACCTCTGCCACCACGACGGCTGACCTCGGCCCACGGATG -CAGTGCAGCGTCTGCCAGTGGATTTACGATCCGGCAAAAGGCGAGCCAATGCAGGACGTTGCGCCAGGAACGCCG -TGGAGTGAAGTCCCGGATAACTTCCTCTGCCCGGAATGCTCCCTCGGCAAAGACGTCTTTGAAGAACTGGCATCG -GAGGCAAAATGAGTAACGGCATTGTGATCATCGGTTCGGGCTTCGCCGCCCGCCAACTGGTGAAAAATATTCGCA -AACAGGACGCCACTATTCCATTAACCCTGATTGCCGCCGACAGCATGGATGAGTACAACAAACCTGACCTCAGCC -ATGTTATCAGTCAGGGGCAACGTGCCGATGACCTTACCCGCCAGACGGCGGGTGAATTTGCCGAGCAGTTTAATC -TGCACCTGTTTCCACAAACCTGGGTGACGGATATCGATGCCGAAGCCCGTGTGGTGAAAAGCCAGAATAATCAGT -GGCAATACGACAAGCTAGTACTGGCAACCGGTGCCAGTGCCTTTGTCCCGCCTGTGCCTGGGCGTGAGTTAATGC -TGACGTTAAATAGTCAGCAAGAGTATCGCGCCTGTGAAACGCAACTGCGGGATGCCCGACGCGTGTTGATTGTTG -GCGGTGGTTTGATTGGTAGCGAACTGGCGATGGATTTTTGTCGTGCAGGCAAAGCGGTCACGCTAATCGACAACG -CTGCCAGTATTCTGGCGTCGTTAATGCCACCGGAAGTAAGCAGCCGCTTGCAGCATCGGTTGACGGAGATGGGCG -TTCATCTGCTGTTGAAATCTCAGTTACAGGGGCTGGAAAAAACGGATTCTGGCATTCAGGCAACGCTGGACCGCC -AGCGCAATATCGAAGTGGATGCGGTAATTGCCGCCACCGGACTGCGCCCGGAAACCGCCCTGGCACGACGCGCCG -GGCTGACGATTAATCGCGGCGTTTGCGTCGATAGTTATCTGCAAACCAGTAATACCGATATTTACGCGCTGGGCG -ATTGCGCGGAAATTAACGGTCAGGTATTGCCGTTCCTCCAGCCGATTCAACTTAGCGCGATGGTGCTGGCAAAAA -ATCTTCTCGGCAATAACACGCCGCTGAAACTCCCGGCGATGCTGGTGAAAATCAAAACGCCGGAATTACCGCTGC -ATCTGGCAGGCGAAACCCAGCGTCAGGATTTACGCTGGCAAATTAATACCGAACGCCAGGGAATGGTGGCGCGCG -GCGTTGACGATGCTGACCAGCTTCGCGCCTTTGTGGTCAGTGAGGATCGGATGAAAGAGGCATTTGGATTGTTGA -AAACATTGCCGATGTAGGTGGGCTACTGTGCCTAAAATGTCGGATGCGACGCTGGCGCGTCTTATCCGACCTACG -GGGACGCATGTGTAGGCCGGATAAGGCGTTTACGCCGCATCCGGCAATGGTGTCCAAATGCAACACGTTTTATCC -GTTCTGGACTTCACCCGCTAACCAACGCGCCGCAGCAATAACCCCCTGCCCCAGAGACAAACCGCCATCACCCGC -CGGTAAACTCTGTGGAAAGAGCAATGTGAAATCAGCGAGATAATGCGCCAGACGTGCACGCAGCAAACGGTTATG -AATAACCCCGCCGCTAAATACCAGCGTAGTGATACCACGCATCGTGGCCTGCTCACGCATCAACGCGGCAAAACC -CTGCGCCAGCGCATCATGAAACGCCCACGCGCGTTGATTAACCGGTGCCTGCCAGTTCAGCCACTGCTGCCAGAA -AGTGGCGAGATCCAGTTGATTGTCCACCCGCGGCATTGTCACCGGATGCGTCACTCCGTGGCATGAGGCTGCGAG -CGCCTCCAGAGCACAAGCCGCTTCACCTTCATAACTTAACGTGGCTGGCGCACAGCCCAGTGCCGCCGCCACTGC -ATCGAAAAAACGCCCACACGATGACGCCAGCGGCGCGTTAATTCCACGCTCAATGGCCCGCGCCAGCACGCTCCA -GTTTTGCTGTTGCACACTTGCTGTTTCAGAGTAATTCTGCCACTCCGGCACAAAGCGCAGGCACTGCGCCAGCAG -GTTTCGCCACGGCTGCTTCGCTGCCAAATCGCCACCCGGAAGCGCCACTGCAGGCAAGCCGCCCAGGTGCTCACA -TTCGCGATAGTTCACCCGCAGGCACTCGCCGCCCCACAAAGCGCCGTTCTCCCCCATACCGATACCGTCGAGCGT -CAAAGCAATGACATCACCGCCATCCAGCGGCCACTGATGCTCTGCCAGACACGCCGCTGCATGGGCATGATGATG -CAGTACCGTTTGCGTCGGCAGATTCATTTCACGCGCCCACTGGCTGGAGACATAGCCCGGATGCGCGTCATGCAC -AACGTATTGCGGGGTAAAATCGTAGATGTTTTGCATCAGGCGTAACGCTTCGCGCCACTGCATCTGGATGCCATC -GTCACTTAAATCGCCCAGATGCTGACTCAACACCGCTTGTTCACCGCGCACCAGGCAGAAGGTATTTTTCAGATC -CGCGCCGAGACACAGCACAGGCGGAACATTTTTAAAGCCCGGAGGCAAAGCCAGCGCATCCGGCACATACCCCCG -CGAACGGCGCAGCATTTCGCCGCTTTCGCGCACCACCGAATCATCCATCCGCTGCACGATGTCGCGGTTATGTAT -CAAGAATCCGTCGGCAATGCCCTGCAAATCCGCCAGCGCCTGTTCGTTGCTGATAGCTGGTGGTTTACCGCTCAG -GTTGCCGGAGGTCATCACCAGCGGGCATTGCAGTTCCTGTAACAGCAAATGCTGGAGCGGGTTCGCAGGCAACAT -TACCCCGACTTCGTTAAGGTCAGGGGCGATATCATCACAAAGCTCAGGAACGTATTTTTTATCCACCAGCACAAT -CGGCGCGGCGGGCGTGGTAAGCAACTGGCGCGCAGCGTCTGGTAAACCGTCAGCCACTGGCAACATGACCGCCAG -CGGTTTCGCCGGGCGATGTTTGCGCGCCCGAAGTGTCGCCACCGCGTTACTGTTACGTGCATCGCAGGCAAGATG -AAATCCGCCAATCCCTTTGATGGCGACAATTTTGCCCATTTTTAACTGTGCGATAGCTGCCTGTAATGCCGCCTC -TTGTTCCGCATGTTCACCATGACTTACCCATTCAAGATGCGGGCCACACTCCGGGCAGGCCACCGGCTGGGCGTG -GAAGCGACGATCGAGCGGGTCACGGTACTCTTTGTCACAGGCCGGACATAGCGGAAACGCCGCCATCACGGTAAA -CGGGCGGTCGTAAGGCATGGCGCGAATAATGGTGAAACGCGGGCCGCAGTGGGTACAGTTGATAAACGGATAACG -ATAACGCCGTTCGCCTGGGGTATTCATTTCGGCAAGGCAAGCAGGGCAAGTAGCGGCATCGGGAACAATTTGCGT -ATTCATGGTGCCGCCTGTGCTCTGGCGTATAGTGAACTCGGTGGGCAGTTGTGACCAGATAAACGGCTCACGCTC -GACGCTATCAATACGCGCCAGCGGCGGGCAGTGCTGATACAATTGAACAAGAAACGTTTCCGGGTCTTCCCGCAG -CCGGACTTCTACGCCATCGCCGTCATTACAGACATCGCCGTGAAGATTTAATTGCTGTGCCAGCTGCCAGACAAA -CGGACGAAAACCGACGCCCTGCACTTTGCCACGAATACGCAGTTGGACACCGCAAGATGTGTTTTTTGCCATTGA -GTTATTCCCGCCATCATGAATTGCGTAACCCGCCCTGCCGGACACGACAGCGTCGCATCCGGCAGTCACAGGTCG -GCGATACCGCCCGCTCCGTATTCTACGAATATTTCCGGGAATTCCTTTGATGCCAGAACAGTTCTGTAAGATTTT -TAGAACATCAGCGCCGTACGGCGGCGTTTTTCTGCGCTCAGTTGTTCAAGTTTATTACGATCGACACAAATCAGC -GCATGAGTCGGGCAAGCCGCCATACACGCCGGGCCGTCTTCACGATGGTTGCACAGGTCGCATTTATTGGCTTCG -GCTTTGTCAGCCCGTACATTCAGACCCGCGCCGCTGTTGCGGATCACCGGACGTACCACCACTTCCATCGCACCA -TACGGGCAAGCCACAACGCAGGTTTTGCAACCAATGCAACGTTCCTGCATCACATGAACAAACCCTTTATCACGG -CTGATAGCACCATTCGGGCAGACGTTAGCGCACGGTGCATCTTCACACTGACGGCAAACTGTCGCCGTGGAAATG -TTCACACCTTTAATGACATGGATACGCGGTAAAAAAGTTTCCGGGGTCAGCGATGCACAGTCCTGATTTTCCTGA -TGAGAAACCACGCACGCTACTTCACAGGTACGGCAACCAATACATTTACTCGCGTCAGCAATGATGAAACGGTTC -ATCAAATTCTCCAGCAATGACAGTTAATGCGCCGATACATTCACAAATCATGCCAGTTTTTAATTTACTGTTATT -TAAGGAAATTAATTTCTGTAATGCAGGAAAAACGATGTCATCGACACTAGTGACGATGACATGTGATGACAATGT -TTATCGCGAAGGAGCAATGAGTGAGTCGCGGCGGATCAGTTTTCCGCTGAAGGTTTTCGGCGGTGAGAAATCCCC -GCCATCGAGCATAAAAATCAGCCGTCCAATAATTTCCTGAATCATCTCAGTCACCGGAATTTTTACGCTGGAGAG -CGCCGGAACGGTGTAGGGGGCAATAGCGATATCATCGAATCCGATAACTGACACCTGCTCTGGCACCGCTACGCC -GCGCTCGTGTAACGCTTTCATCGCACCTATCGCCATATCGTCGTTACTGGCAACTAACGCGCTAAATTTAGCCCC -ACGTTCGAGCAACATTTCTACCCCTTCGGCCCCGCTGGCAGGCGTCCATTTACCGTTAGCGATAAGTTTTTCATT -GAGCGCAATACCATGCTGCGCCAGCGCGTCTTTATACCCGGCAAGACGTTCAATGCTGGTGGGGGAATCCATCGA -GCCGGTAAGGAAAGCAATCTCCTGATGCCCGGCGTTTATCAACTCTGCCACGGCGTTAAAACTGGTCTGTTTATG -ATCGCACCAGACGCTATGGCTGCTGTTTTTGCGCAGGCGGCGATTAAGCACCATTATCGGCTGACTGTGCGCGTC -AATGATGTCATCGATCTCATCCACGCTTAAAAAACGCGGGTAAATCATGATCGCGTCGCAGCGCAGATCCAGCAG -ATACTGAATCGCCTGGCGCTCTTCTTCTGCGCTGTGTTTACCATCTGCCAATAGCAACTGCCGCCCTTTCTCTTC -CGCCATTCGCGCGGCATGAAAGAGTAATTCACTAAAATAAATGCCGTGGTAAAGCGTGTTGGTCACTACCAGCCC -CAGCGTCTGAGTACTCTTCGCCGACAGATTGCGCGCCAGCAAGTTTGGACGGTAACCGCTCTCTTCTACCGCCTG -AAACACGCGATCTTTAGTCTCCTGGCTGACGTAGCCATTACCTGAAAGCACGCGGGAAACGGTCGCTTTTGAAAC -CCCGGCGCGCTTCGCCACTTCCAGCATCGTCGTCATCATTTTCATCCCTTTACACGCAATCAACGCAGTGTACTG -CACCGTTTGCCGATTGTCCTTGCACAATCGGCGGGAAAAATATTCAGGTGACCGGTTTCACAAATATAAAAAATG -AACAATTCACTCTCTTGCTTATTTAGTGACAACTATTCATGATTTTGTGAAACCGGTTTCTTAATTCCGTTTCAG -CATCGGCATTTTTCCGTCACGTCGACTGATAACAACTACATCTACCCTACTGATAACAGGATAAAATCCGATGGC -CAAAAATTATGCGGCGCTGGCACGCTCGGTGATAGCGGCACTGGGCGGCGTTGATAACATCTCGGCGGTCACGCA -CTGTATGACGCGGTTGCGCTTTGTTATCAAAGATGATGCACTTATCGACAGCCCGACGTTAAAAACCATCCCCGG -CGTGCTCGGCGTGGTACGTAGTGACAACCAGTGTCAGGTGATTATCGGCAATACCGTTTCACAAGCCTTTCAGGA -AGTCGTCAGCCTGCTGCCGGGAGATATGCAGCCCGCACAGCCCGTGGGTAAACCCAAACTCACGCTACGTCGCAT -TGGTGCGGGGATCCTCGATGCGCTGATCGGCACCATGTCACCGCTGATCCCGGCGATTATCGGCGGATCGATGGT -CAAACTGCTGGCAATGATCCTCGAGATGAGCGGCGTGCTGACAAAAGGATCGCCGACCTTAACCATTCTGAATGT -GATTGGTGACGGTGCTTTCTTCTTCCTGCCGCTGATGGTCGCGGCATCTGCCGCCATCAAATTTAAAACCAATAT -GTCGCTGGCGATTGCCATCGCGGGTGTGCTGGTACATCCGAGTTTTATTGAACTGATGGCGAAAGCGGCCCAGGG -TGAACATGTCGAATTTGCCCTGATTCCGGTCACCGCGGTGAAATACACCTACACGGTGATCCCGGCGCTGGTGAT -GACCTGGTGCCTGTCATATATCGAACGCTGGGTGGACAGCATTACACCGGCGGTGACCAAAAACTTCCTCAAACC -AATGCTGATTGTGTTGATTGCCGCACCGCTGGCAATCCTGCTGATTGGCCCGATTGGTATCTGGATCGGTAGCGC -CATTTCGGCGCTGGTTTACACCATTCATGGTTATCTGGGCTGGCTTTCAGTCGCCATTATGGGCGCGCTGTGGCC -TCTGCTGGTAATGACCGGGATGCACCGCGTCTTTACGCCAACCATCATTCAGACCATTGCCGAAACCGGCAAAGA -AGGGATGGTCATGCCGTCAGAGATCGGCGCTAACCTGTCGCTGGGCGGTTCATCACTGGCAGTGGCGTGGAAAAC -GAAAAACCCGGAACTGCGTCAGACGGCGCTGGCTGCGGCGGCATCAGCCATTATGGCGGGGATTTCCGAACCGGC -GTTATATGGCGTGGCGATCCGCCTGAAACGTCCGCTTATCGCCAGTCTTATCAGCGGTTTTATTTGCGGCGCGGT -TGCCGGTATGGCGGGGCTTGCCAGCCACTCAATGGCAGCGCCGGGGCTATTTACCAGCGTGCAGTTCTTCGATCC -GGCGAATCCAATGAGCATCGTCTGGGTGTTCGCGGTCATGGCGCTGGCGGTGGTGCTGTCGTTTATCCTCACACT -GTTGCTCGGCTTTGAGGATATTCCTGTTGAGGAAGCGGCTGCCCAGGCGCGAAAGTATCAGAGCGTACAACCGAC -CGTCGCCAAAGAAGTAAGTCTTAATTGAGGATGAAAATGTCAGTATTTCCAGAAAGTTTTTTATGGGGCGGCGCG -CTTGCCGCCAACCAGTCTGAAGGTGCGTTCCGTGAAGGTGACAAAGGTCTGACCACTGTCGATATGATCCCACAC -GGCGAGCATCGAATGGCGGTGAAACTGGGGCTGGAAAAACGTTTTCAGTTGCGAGATGACGAGTTTTATCCCAGC -CATGAGGCGACGGATTTTTATCATCGTTATAAAGAAGATATCGCCCTGATGGCAGAGATGGGATTCAAGGTTTTC -CGTACCTCAATTGCCTGGAGCCGTCTCTTTCCGCAGGGCGATGAAATCACGCCCAATCAGCAGGGCATTGCTTTT -TATCGTTCTGTCTTTGAAGAGTGTAAAAAGTACGGTATCGAACCGCTGGTCACGTTGTGCCACTTCGATGTGCCG -ATGCATCTGGTCACCGAATATGGCTCCTGGCGTAACCGCAAGCTGGTGGAGTTTTTCAGCCGCTACGCCAGAACC -TGCTTTGAAGCATTTGATGGTCTGGTGAAATACTGGCTAACCTTCAATGAAATCAACATTATGTTGCATAGCCCG -TTCTCCGGCGCGGGTCTGGTGTTTGAAGAAGGTGAAAATCAGGATCAGGTGAAATATCAGGCCGCGCATCACCAG -CTGGTTGCCAGTGCGCTAGCCACCAAAATCGCCCATGAGGTTAACCCGCAAAATCAGGTGGGCTGTATGCTGGCG -GGCGGTAACTTCTACCCTTACAGTTGCAAGCCGGAAGATGTCTGGGCGGCGCTGGAGAAAGACCGGGAAAACCTG -TTTTTTATCGATGTGCAGGCGCGGGGCACGTATCCGGCTTACTCTGCCCGCGTATTCCGCGAAAAAGGGGTAACC -ATCAACAAAGCACCGGGCGATGATGAAATCCTGAAAAACACCGTCGATTTTGTCTCTTTCAGCTATTACGCCTCG -CGCTGCGCCTCGGCGGAGATGAACGCCAACAACAGCAGTGCGGCGAACGTGGTGAAATCGCTGCGTAATCCGTAT -CTACAGGTGAGCGACTGGGGCTGGGGAATTGATCCACTCGGTCTGCGTATCACCATGAATATGATGTACGATCGT -TATCAGAAGCCGCTGTTTCTGGTGGAAAACGGCCTGGGCGCAAAAGATGAATTTGCTGCCAATGGCGAGATTAAC -GACGACTATCGCATCAGCTACTTACGCGAACATATCCGCGCAATGGGCGAAGCGATTGCAGACGGCATTCCGCTG -ATGGGCTACACCACATGGGGCTGTATTGATTTAGTTTCCGCCTCTACGGGTGAAATGAGCAAACGCTACGGCTTT -GTCTTTGTTGACCGTGACGACGCAGGCAACGGTACGCTGACGCGCACGCGTAAGAAATCATTCTGGTGGTATAAA -AAAGTGATTGCCAGTAATGGGGAAGATTTAGAGTAGGTAACAGTGCCGGATGCGGCGTGAACGCCTTATCCGGCC -TACATGTCGCACGAACCATGAAGGCCCGATAAGCGCAGCGCATCGGGCAATTTAGCATTTGGCATCAGAGCTGGT -TCACCCCATCAAGAACATCCCTGTCCTGATTCCTTAATGAAAAACTACTCTTCTTCCACCGCTAACTGCGCGAAG -CCGCCATTTCCTTCCCAGCCTTCCAGTCGTTGATAAACGGTTTCTACCGCATCTTTAATCGGCTGGGTCATCGGG -TAGTAAAAGCCGACGATATCCGGCTGAATGCCGAGGAAAATCACTTCGCCAATATCTTCTTTCAACTGGTCGATA -AGGTAATTCAACGGCATGTTATGGGTAGTCATCATAAACATCTCGGCGATATCATCCGGGTCGATGATGCGGATC -TCGCCGGGGTTTAGCCCCATATCCGTGGCGTCGACAATCAGCAGTCGTGTCGGGCGCAGTTCACGGATAGCGACG -ATGTCGTTTTCCGGTGCGCTACCGCCGTCAATCACCACCCAGTTACCTTTCGGCGCGGCGGCGCACTTTTCCGCC -AGCAGCGGACCTGCGCCATCATCGCCCATCATGCTATTGCCAACACAGAGTAAAACGTCAGTCACGCAGTCTCCT -CACCATCAAATAGATGGCGTTTTCCTGATGAATATCATGCAGCATACTTAACAGCATTGTACTCCATTCCTGCTG -CTGCGAAGTTTGCGCTGCCCGGGCTTTATCGAATGCGTTGGCCAGCATCGGCACATGGTTAATGTCGATGACGAT -CTCACCATATTTCGGCACGCCTTCCATTTTGCGGCGGGCTTCACTGCCTGCCTCCAGAGTGGCAATCCATGCCAG -ATATTCATCCCACGGGCAGGTGAGCGCCGCTTCCAGGCAATCGATAACCCCAAGGTGGTGACCAATCGCCAGGCT -GTAATAGACCACCTGCTGCGCCTCGGCGGGCGTGGCATCGTTCTCATCAATAAATTTACGGCTCAGTTGACTGAA -CACCACCTTTTCACTCATCGGATACGCGCCTCTTCAACAACATGATTCAGATGGCTGACAATCTCGTTCAGACGC -GGATCGTTTTCCGCTTCCAGCCAGCGTGCAACCTGTTCTTCGCCCTGCCCTAACTGTGTAAGGTAATCATCGGCA -ATCTGACGACCGTAACGATAACCCGCCAGGCGACGTGCTTCGCGATCCACTTTCACGCGCAGCGGCTGCACCATA -TCACCATGCAGGATCTCCGCCGGTTGTTCATCCAGTTCACCCGGCCCACGGGCGTGAATTTTCTGCTCCAGCAGG -CCGAGCGCCATTGCAAAGCCGTACAGCGTGGCGGCAGGCGTTGGCGGGCAGCCAGGGATATAAACATCCACAGGG -ACAATTTTATCCGTACCGCCCCACACGCAGTAGAGATCGTGGAAGATCCCGCCACTGTTACCGCAGGCACCGTAG -GAGATACAAATTTTCGGGTCCGGCGCGGACTGCCACGCACGCAGCGCAGGGGATCGCATTGCACGGGTGACCGCG -CCGGTAAACAGTAAAATATCCGCATGACGCGGTGAAGGAACGACTTTAATGCCGAAGCGTTCTGCATCAAACAGC -GGCGAAAGCGTGGCGAAAATTTCGATTTCGCAACCGTTGCAGCCGCCGCAGTCCACGCGGTAAACATAGGCAGAA -CGTTTGATTTTTTTCAGTAACGACGCCTTCATGCTGGCGATGGATTCATCCACCGTCATGGGGACCGGAATGCCG -TTGGCGTCACGGGGGCCTAATAAATTGCTCATCAGATGGCCTCTTTCATATGGCGAGTCAGTTCAATACGGTCGG -ACGGCACCAGGCATTTCTGGCGCTTACATTCCGGGCAAGTCTCAAAGCTTTCGCGGTGGTTTTCCGCGCGGCTGT -CGCCGTTGTGCTTAAGCAGCGCAATGGCGTAGTCGATCTCTTTCTGGACGGCGAAAGGACGATTGCAGACGCGGC -AGTTGCACAGCGCGAAGCGGGACTGTTGCAGGAAGTCTTCTTTCTTCCACACCGCCAGTTCGTACTCTTGCGACA -GTTTGATCGCCGCCGTCGGGCAGACTTCTTCGCAGCGTCCACAGAAGATGCAGTGCCCAAGATTAAACTCCCAGG -CAAGCTCTCCTGTGGCGAGGTCAGTTTCAACCGTTAAGGCGTTTGACGGGCAGGCATTGACGCAGGCCGCGCAGC -CGATGCACTGCTGCGGGTTCTGCTCTGGCTTACCACGGAAGTTTTTATCAACCGCAATCGGCTCCAGCGGATAAG -ACGAGGTCGCCGTGCCGGTTTTGATGACTTTTTTGATAAAGGTAAACATGGCGATTCCTTATTTCAGCGGCGAGT -TTTTACGCTCAATGCTGTAACGCTCGAGTTCTTTGTACGGCACCACTTTGCTCTTCTTCTTACGCACATCGACCA -CGGTCATGCGGTCGGTACAGGAGTAGCAAGGGTCGAGGCTACCGATAATCAGCGGCGCATCGGAAACGGTGTTGC -CGCGCAGCATGTAGCGCAGGGTCGGCCAGTTCGCGTAGGTCGCGGCACGGCAGCGCCAGCGGTACAGCTTCTGGT -TGTCGCCGGTCATGCTCCAGTGGATATCATCGCCGCGCGGCGCTTCGGCAAAGCCCAGCGCAAAGCGGTGCGGAA -TGTAGGTAAAGCCTTCCACCATCAGTGGGCCACCCGGCAGGTTATCCAGACCGTAGTCGATCATGTTCAGCGCGG -TATAGACTTCGTTGATACGCACTTTCAGACGGGAAATAACGTCGCAGCCCTGCTCGCTGTGGACTTCCATTGGCA -GCAGGCCATAGCCGACAAACGGGTGATCGGCGCGGGTATCACGGGCGTGACCGCTGGCACGGACCATCGGGCCGA -CGTTACTGAAGTCGCGAGCGATTTCCGGGTCCAGACGACCAATGCCGACAGTGCGCTGTTCCATGTTCGGAGTGC -TCAGCAGCACATCCACCAGCTCCTGCACTTCACGACGCATCTGTTGTGCCAGCTGGCGGGTCTGGATCATGTCGT -CTTTCAGCAGATCGCGACGAATCCCGCCGATCAAGTTCAGGCCGTAGGTTTTACGCGCACCGGTAAGGATCTCTG -CCATTTTCATGGAGGTTTCACGCACGCGGAAGAACTGCATAAAGCCGGAGTCGAAGCCGGTAAAGTGACAGGCCA -GGCCAAGGTTGAGCAGATGCGAGTGCAAGCGTTCTACCTCCAGCAGAATGGCGCGGATCATCTGCGCACGTTCTG -GCACCTGAATACCCATCGCGTTTTCCACCGACGTGGTGTAGGCGGTGCTGTGGGCAAAGCCGCAGATCCCGCACA -CACGGTCAGAGAGGAAGGTCACTTCGTTATAACCCATACGGGTTTCCGCCAGTTTTTCCATGCCGCGATGGACGT -AGAACAGACGGTAGTCGGCGTCGATAATGTTTTCGCCATCGACGAACAGACGGAAGTGGCCCGGTTCATCAGAAG -TGACGTGCAGCGGACCAATCGGCACGACGTTGTTTTTCTTGTCGCCCAGTTCGTTGATGAACTCGTAGGTTTCAG -CATCGGTGGTCGGTGCCGGACGCTGACGATAATCCATGCTGTCTTTACGCAGCGGATAAAGTTCATCCGGCCAGT -CATCCGGCAGCACCAGACGACGTTCATCCGGCAGACCAACCGGAATCAAACCGTACATATCGCGCACTTCACGCT -CGCCCCACACCGCCGCCGGAACGCGCGGCGTCACGGACGGATATTCCGGTTTGTTGGCGTCAACTTCGACGCGAA -CCGTAATCCAACACTTAGTGCCCTTCTCCATCGACAGCACGTAGTAAACGGCGTAATGACCATTCAGTTTGCGTT -CGTCGTTACCAAACAGCACCGACAGCCAGCCACCCTGTTTGTAGTAAAGAAACTCCACCACTTCCGGCAGGTAGT -TCACCTTTACGGTGACAGTCAGCTGATCTTTGGTCTGCCAGGCGTGGTCCAGCACGACGCCCGGAAATGCCTCAT -TCAGCGCGGCGAGATAATGTTGACCTAATTTTTCTTCAGACATGCTCAAACTCTCTTTAATCACGCCGCCAGCAA -GGAGACGAACGCTAAAAATGCAAAGCCAAACCCAGCCCAGGTAATGCGCGGAGTAATATCAAGACGCAGACGGGC -CATGCTGTTTTCGAACAGCGCGATAACCAGGACGCCGACCACCAGTTTTACGATGGCAATCACCAGCGCCAGCAG -CAGTCCACCGGCGGTGAAGGTTTCCATTTGTCCCCACGGAATAAACACCCCGACGAACATCTGCAACACCACCAG -CTGTTTCAGGCTGATACCCCATTTCATGACGCCAAAGCCGCTGCCGCTGTATTCAGAGAGCGGGCCTTCCTGCAG -CTCCTGCTCGGCTTCCGCCAGGTCGAACGGCAGTTTGCCCATTTCGATAAAGGTGGCGAACGCACAGGCACAAAG -CGCCAGTACCAGCGGGATGCTCTGGCTCAGCGGCCAGTGATAAACGGTGTCGGTGATGTTGCTGATGTTGGTGGA -ACCGGCAACCTGTGCGGCAACCCACAGACCAAGCAGCAGCATCGGTTCGACCAGCACGCCAAGCATCGCTTCACG -GCTCGCGCCGATAGCGGTAAACGGGCTACCGGTATCCAGACCAGAAATGGCAAAGAAGAAACGCGCGATGGCAAA -GAGATACAGTAAGGTGATCAAATCACCCAGTTGCGGCAGCGGAGAACCGACGGTCACCACCGGCAGCGCAGTAGC -GATAGTCAGCATGACGCCCACCATCACATACGGCGTCAGGCGGAACACCCAGCCGGAGGCATCCGGGCCGACGCT -CTGACGCCCCAGCAGTTTGATAATGTCGCGATACTCCTGCAACACGCCCGGCCCGCGACGGTTATGCAAGCGGGC -GCGCGCCACGCGGGTTATACCGGAGAGCAGCGGCGCAACGGCAAATAACACCAGCGCCTGAATTAACGGATATAA -AACACTCATTCTCAGGCTCCTCGTGAAACAATAATCACCACCAGTACCGCCAGTTCAACCAGCGCCATCCGGCGG -AACAGCAACGCACTCCCCTCGCACTGCCAGCCCGGCACCAGAGACACCGGATTCAGCCATTTGCGTAGTTTCAGC -ACCGGCGCAAACGCCTGTTTCACCGGCATGGCAAAACCGTGAGCGGTAATCACCATTGATTTTTCGTGGTCGTAA -CCGCACACCCAGGCCGCACCGCGGGAACGCGATGGCAAACGATCGCCTTTGCAAATCGCCATAATGATGAATGGC -AGCAGCGGGCAGGCAATCAGCAGCAACGTGATCATCGGTTGAGAAACGGTGGTGTTAGCAGGCTCCAGCGGCAGA -GGTACAGCAGCAGAGAGCATCGGCAGTAGCCACGGCGCAGCAACACCGCCAATTACGCAGCAAATCGCCAGTGCC -ACTACGCTTACGCTCATCAGGAGCGGCGCACAGGTGGCGTTTTCGGCTTCTTTGGTGCGCGGCGCGCCGAGGAAC -GTGACGCCATAGACTTTCGCCATACACATCACCGCCAGCGCACCGGTAATTGCCAGCCCCACAGCGAGCAGCGGC -CCCAGCAGACGGGCAACAAACGCGCCACTATTGCTCAGTTTGAAAAATGATTGATAGATAACCCATTCCCCGGCA -AAACCATTCAGCGGCGGCAGCGCAGCCATTGCCATCAGCCCGACTAACATGGCGATGGAGATAACCGGCATTTTC -TTGCCAATACCACCGAGTTTTTCGATATCGCGATGACCGGTACGGAACCAGACGCTCCCCGCCCCGAGGAACAGT -ACGCTTTTGAACAGGCTATGGTTAAGCAGATGGTACAGACCACCGACCAGGCCAAGAGCAATCAGCGCCGGTTGT -TCGAGCGCGATACCCGTTACGCCAGCGCCCAGCCCCAGCAGGATGATGCCGATATTTTCCAGGGTGTGGTAAGCC -AGCAGGCGCTGGATGTTGTGCTCCACCAGCGCATACAGACCACCGACAAACGCGGTGATCATGCCGAGCACCAGC -AGCGCGATCCCCCACCACAGCGGTGCATTACCGCCCAGCAGTGACAGGGTTAAAATGCCCAGCAGGCCAATTTTC -ATGACTACCGTAGAAAACAACGCGGCAGCTGGCGCAGAGGCGTTCGCATGTGCCTGCGGCACCCAGCCGTGCAGC -GGAATAATCCCGGCCAGCAGGCCAAAGCCAATCACTCCGAGCAGCCAGATATCGGAACCGAGCGGCAGCTGTTGC -ATACGCATATCCAGCAGGCGCAGATCCAGCGTGCCGTAACGCTGCCACAGCAGCCAGCAAGCAATCGCCAGCAGC -AGAGTGCCAAGACGCCCCAGCGCAAACCACAGTTTGCCCTCTTTGCTGTTGCTGGTGAGGAACACCGCGCACAGG -GCCATGATTTCGGCCATTACCACGAACATGCCGAGGTTGCTGGCAATGACGGCGCAGACGGCGGCAGCCATCAAC -ATATTGATCTGCAAGCCGTTGCACTTCACCTGCGCGTGGCGATGCCAGTCAATGTTGTAGAGGCTGACAAACAGA -CCGCACAGACCGAGCGTAATCAGCCAAATCGCGTTAAGCGGAGAGATTTGCACATCGTAGCTTACCAGCGACAGC -GCACCGCTCACGCCAACCGCGCCAGTCAGTACAGTGAAGCCCGCGGCTGCCGTATACAGACTACCAACCGCGCCG -CCAATTCCAGCTATCCAGCCACTTAACGCTTTTTGAAAAGAAAAGAGAAATGCCAGAACAGCGGCGGCGACAAAC -CACGCCACGCCGCTATTGATCAGGGAAATTGCGCTCATTTAGCCTCTCCACTTTGAGCCTGCTGAAACAAGGTGA -GATCGCCAAAGTCCGTGTTAAAGGTCAGCTCACGCTTACGTTTGCTGACGCGGGCGATATCGGTGTTATCCACCA -GATGCAGGGCTTTAGTCGGGCACATCCGCACGCAGGCCGGACCTTGTTCATCAAAGCTACAAAGGTCACATTTGA -CGGCGATCGCGCGAATACCTGGCACCCAGTCAAGCAATGTGCTGACACGCGCCGGAGCAGGCGGTGCCGGTGGCG -CTTTCGGGGTATTGGCGTTTGCCGGAATATCCAGCGGACGGCTGCCGGAAAATTCAATTGCGCCAAACGGGCAGG -CGATGCCGCACAGCTTGCAGCTTACGCACAGGCTTTCATTCAACTGCACGGCCCCATCGACGCGGGTGATGGCGT -TAACCGGGCAGACCACCGCGCAGGGTGCATCTTCACAGTGGTGACAGAGCTGCGGCGCAGATTCTTTTTCATTCA -GCATCACTCTCAGGCGCGGCATTGATTGCAGGCCGTGCTGGCGATGCGTCTCTGAACAGGCGGCCTCACAAGTGT -GGCAGCCGATACAGAGCGTGGAGTCAGCAATTACAAAACGATTCACCAGGCATTCCTCAGGTGATTGTCATTTTT -GACGAAAACATGCCGATGAAATGTCATTTTCGACACTCATCGACACGCCCATCCCCAAACAGGCGTAACGCCTGC -AAAACGGGCAAAGCCTCAGCTCATGCTGCCGGGCTTTGTCCCTTTACCAGTTGGCTTAAATTCACCGGCACATTG -TTTTCAATAGCGGTGTATAAGCTGTCGTAAACGCCAGCGATTTTTTCGAGATAGTGTTCCAGAACCTGTTCGCGA -TCGCGGATGTTGACCTTGCCATCAATCATGCCGTCAATGCTCAGTTGCGCCTGCGCAATCCGCTGTTTGTCTTCG -CCATCTTTTGTTTCGACGTAATACTCGATGGTGTGGCTGTTAAAGCCATCCGCCAGGGTGACGTAAATGCGAAAA -TGTTCAAAAAGGACGAAACAGAGTTCTTTGTCCGGCGCGCAGCTCATGGCGTGATGCAGGCGCGCTTTCGATAAC -GTGATCCCCTGAACCAGCGAATTGCAGTAGATGTGCCACTGGTCCTGTAGGCGACGATGCCGCTGTGCGATGTAA -TCGGCTTTCTCGCTTATTTCCCAAATAGTCATTGTCAGGTTACCCGTTTAACAGAGATGCCAGCTTTAAGCATTT -TTTGTGCCAACTTTTAATTTATTGTTATTAAAGAGATTTTTAAGCTAAAGATGAATTTCGTCGCCGTGTCGACGT -GTCATTTCGACATCATCGACATTATTCACCGCAGGGATAATCAACACTGGCACAATTATTGCTTGTAGCTGGCAA -TAGTTAATGGGAGGCGATATGCACGAAATAACCCTCTGCCAACGGGCACTGGAATTGATCGAACAGCAGGCCGCA -AAACACGGCGCAAAACGCGTAACTGGGGTCTGGCTCAAAATTGGCGCATTTTCTTGTGTCGAAACCAGCTCTCTT -GCCTTTTGTTTTGATCTGGTTTGCCGCGGCAGCGTGGCGGAAGGTTGTAAACTGCACCTCGAAGAACAAGAGGCC -GAATGCTGGTGTGAAACATGCCAACAGTATGTGACGCTACTGACCCAGCGCGTCCGCCGCTGTCCACAGTGTCAT -GGTGACATGCTGCAGATTGTGGCAGACGACGGTTTACAGATTCGGCGGATAGAAATAGACCAGGAGTGAGCGATG -TGTACAACATGCGGTTGCGGTGAAGGCAACCTGTATATCGAGGGTGATGAACATAACCCTCATTCCGCGTTTCGT -AGCGCGCCATTTGCCCCGGCGGCACGCCCGAAGATGAAAATCACCGGCATTAAAGCGCCTGAATTTACCCCCAGC -CAGACTGAAGAAGGCGACCTGCATTACGGTCATGGCGAAGCGGGCACTCACGCACCGGGCATGAGCCAGCGTCGG -ATGCTGGAAGTCGAAATTGACGTGCTGGACAAAAATAACCGTCTGGCTGAACGCAACCGCGCGCGCTTTGCTGCC -CGCAAGCAACTGGTGCTCAACCTGGTTTCCAGCCCTGGTTCCGGTAAAACCACCCTGCTGACGGAAACCCTAATG -CGCCTGAAAGACAGCGTTCCGTGCGCAGTTATTGAAGGCGACCAGCAAACCGTGAACGATGCCGCACGCATTCGC -GCTACCGGCACACCAGCGATTCAGGTGAACACCGGTAAAGGCTGCCATCTTGACGCACAGATGATTGCCGACGCC -GCACCGCGTCTGCCACTGGACGATAACGGTATTCTGTTTATCGAAAACGTTGGCAACCTCGTATGCCCGGCCAGC -TTCGATCTCGGTGAAAAACACAAAGTGGCGGTGCTTTCCGTTACCGAAGGTGAAGACAAACCACTGAAATATCCG -CATATGTTTGCCGCCGCCTCGCTGATGCTGCTCAACAAAGTTGACCTGTTGCCGTATCTCAACTTTGACGTTGAA -AAGTGCATCGCCTGCGCCCGCGAAGTCAATCCAGAAATTGAAATCATCCTTATTTCCGCCACCAGCGGCGAAGGG -ATGGACCAGTGGCTGAACTGGCTGGAGACACAGCGATGTGCATAGGCGTTCCCGGCCAGATCCGCACCATTGACG -GCAACCAGGCGAAAGTCGACGTCTGCGGCATTCAGCGCGATGTCGATTTAACGTTAGTCGGCAGCTGCGATGAAA -ACGGTCAGCCGCGCGTGGGCCAGTGGGTACTGGTACACGTTGGCTTTGCCATGAGCGTAATTAATGAAGCCGAAG -CACGCGACACTCTCGACGCCTTACAAAACATGTTTGACGTTGAGCCGGATGTCGGCGCGCTGTTGTATGGCGAGG -AAAAATAATGCGTTTTGTTGATGAATATCGCGCGCCGGAACAGGTGATGCAGTTAATTGAGCATCTGCGCGAACG -TGCTTCACATCTCTCTTACACCGCCGAACGCCCTCTGCGGATTATGGAAGTGTGTGGCGGTCATACCCACGCTAT -CTTTAAATTCGGCCTCGACCAGTTACTGCCGGAAAACGTTGAGTTTATCCACGGTCCGGGGTGCCCGGTGTGCGT -ACTGCCGATGGGTAGAATCGACACCTGCGTGGAGATTGCCAGCCATCCGGAAGTCATCTTCTGTACCTTTGGCGA -CGCCATGCGCGTGCCGGGGAAACAGGGATCGCTGTTGCAGGCAAAAGCACGCGGTGCCGATGTGCGCATCGTTTA -CTCGCCGATGGATGCGTTGAAACTGGCGCAGGAGAATCCAACCCGCAAAGTGGTGTTCTTCGGCTTAGGTTTTGA -AACCACTATGCCGACCACCGCTATCACTCTGCAACAGGCGAAAGCGCGTGATGTGCAGAATTTTTACTTCTTCTG -CCAGCACATTACGCTTATCCCGACGTTGCGCAGTTTGCTGGAACAGCCGGATAACGGTATCGATGCGTTCCTCGC -GCCGGGTCACGTCAGTATGGTTATCGGCACCGACGCCTATAATTTTATCGCCAGCGATTTTCATCGTCCGCTGGT -GGTTGCTGGATTCGAACCCCTTGATCTACTACAAGGCGTGGTCATGCTGGTGCAGCAGAAAATAGCGGCCCACAG -CAAGGTAGAGAATCAGTATCGTCGAGTGGTACCGGATGCCGGTAACCTGCTGGCGCAACAGGCGATTGCCGATGT -GTTCTGTGTCAACGGCGACAGCGAATGGCGCGGCTTAGGCGTGATTGAATCTTCTGGCGTGCACCTGACGCCGGA -TTATCAACGATTCGATGCCGAAGCACATTTCCGCCCGGCACCGCAGCAGGTCTGCGATGACCCGCGCGCGCGTTG -TGGTGAGGTATTAACGGGCAAATGTAAGCCGCATCAATGCCCGCTGTTTGGTAACACCTGTAATCCTCAAACCGC -GTTTGGTGCGCTGATGGTTTCCTCCGAAGGAGCGTGCGCCGCGTGGTATCAGTATCGTCAGCAGGAGAGTGAAGC -GTGAATAATATCCAACTCGCCCACGGTAGCGGCGGCCAGGCGATGCAGCAATTAATCAACAGCCTGTTTATGGAA -GCCTTTGCCAACCCGTGGCTGGCAGAGCAGGAAGATCAGGCACGTCTTGATCTGGCGCAGCTGGTAGCGGAAGGC -GACCGTCTGGCGTTCTCCACCGACAGTTACGTTATTGACCCGCTGTTCTTCCCTGGCGGTAATATCGGCAAGCTG -GCGATTTGCGGCACAGCCAATGACGTTGCGGTCAGTGGCGCTATTCCGCGCTATCTCTCCTGTGGCTTTATCCTC -GAAGAAGGATTGCCGATGGAGACACTGAAAGCCGTAGTGACCAGCATGGCAGAAACCGCCCGCGCGGCAGGCATT -GCCATCGTTACTGGCGATACTAAAGTGGTGCAGCGCGGCGCGGTAGATAAACTGTTTATCAACACCGCTGGCATG -GGCGCAATTCCGGCGAATATTCACTGGGGCGCACAGACGCTAACCGCAGGCGATGTATTGCTGGTGAGCGGTACA -CTCGGCGACCACGGGGCGACTATCCTTAACCTGCGTGAGCAGCTGGGGCTGGATGGCGAACTGGTCAGCGACTGC -GCGGTGCTGACGCCGCTTATTCAGACGCTGCGTGACATTCCCGGCGTGAAAGCGCTGCGTGATGCCACCCGTGGT -GGTGTAAACGCGGTGGTTCATGAGTTCGCGGCAGCCTGCGGTTGTGGTATTGAACTTTCAGAAGCGGCACTGCCT -GTTAAACCTGCCGTGCGTGGCGTTTGCGAATTGCTGGGACTGGACGCCCTGAACTTTGCCAACGAAGGCAAACTA -GTAATAGCTGTTGAACGCAACGCGGCAGAGCAAGTGCTGGCAGCGTTACATTCCCATCCACTGGGGAAAGACGCG -GCGCTGATTGGTGAAGTGGTGGAACGTAAAGGTGTTCGTCTTGCCGGTCTGTATGGCGTGAAACGAACCCTCGAT -TTACCACACGCCGAACCGCTTCCGCGTATATGCTAATAAAATTCTAAATCTCCTATAGTTAGTCAATGACCTTTT -GCACCGCTTTGCGGTGCTTTCCTGGAAGAACAAAATGTCATATACACCGATGAGTGATCTCGGACAACAAGGGTT -GTTCGACATCACTCGGACACTATTGCAGCAGCCCGATCTGGCCTCGCTGTGTGAGGCTCTTTCGCAACTGGTAAA -GCGTTCTGCGCTCGCCGACAACGCGGCTATTGTGTTGTGGCAAGCGCAGACTCAACGTGCGTCTTATTACGCGTC -GCGTGAAAAAGACACCCCCATTAAATATGAAGACGAAACTGTTCTGGCACACGGTCCGGTACGCAGCATTTTGTC -GCGCCCTGATACGCTGCATTGCAGTTACGAAGAATTTTGTGAAACCTGGCCGCAGCTGGACGCAGGTGGGCTATA -CCCAAAATTTGGTCACTATTGCCTGATGCCACTGGCGGCGGAAGGGCATATTTTTGGTGGCTGTGAATTTATTCG -TTATGACGATCGCCCCTGGAGCGAAAAAGAGTTCAATCGTCTGCAAACATTTACGCAGATCGTTTCTGTCGTCAC -CGAACAAATCCAGAGCCGCGTCGTTAACAATGTCGACTATGAGTTGTTATGCCGGGAACGCGATAACTTCCGCAT -CCTGGTCGCCATCACCAACGCGGTGCTTTCCCGCCTGGATATGGACGAACTGGTCAGCGAAGTCGCCAAAGAAAT -CCATTACTATTTCGACATTGACGATATCAGTATCGTCTTACGCAGCCACCGTAAAAACAAACTCAACATCTACTC -CACTCACTATCTTGATAAACAGCATCCCGCCCACGAACAGAGCGAAGTCGATGAAGCCGGAACCCTCACCGAACG -CGTGTTCAAAAGTAAAGAGATGCTGCTGATCAATCTCCACGAGCGGGACGATTTAGCCCCCTATGAACGCATGTT -GTTCGACACCTGGGGCAACCAGATTCAAACCTTGTGCCTGTTACCGCTGATGTCTGGCGACACCATGCTGGGCGT -GCTGAAACTGGCGCAATGCGAAGAGAAAGTGTTTACCACTACCAATCTGAATTTACTGCGCCAGATTGCCGAACG -TGTGGCAATCGCTGTCGATAACGCCCTCGCCTATCAGGAAATCCATCGTCTGAAAGAACGGCTGGTTGATGAAAA -CCTCGCCCTGACCGAGCAGCTCAACAATGTTGATAGTGAATTTGGCGAGATTATTGGCCGCAGCGAAGCCATGTA -CAGCGTGCTTAAACAAGTTGAAATGGTGGCGCAAAGTGACAGTACCGTGCTGATCCTCGGTGAAACTGGCACGGG -TAAAGAGCTGATTGCCCGTGCGATCCATAATCTCAGTGGGCGTAATAATCGCCGCATGGTCAAAATGAACTGCGC -GGCGATGCCTGCCGGATTGCTGGAAAGCGATCTGTTTGGTCATGAGCGTGGGGCTTTTACCGGTGCCAGCGCCCA -GCGTATCGGTCGTTTTGAACTGGCGGATAAAAGCTCCCTGTTCCTCGACGAAGTGGGCGATATGCCACTGGAGTT -ACAGCCGAAGTTGCTGCGTGTATTGCAGGAACAGGAGTTTGAACGTCTCGGCAGCAACAAAATCATTCAGACGGA -CGTGCGTCTAATCGCCGCGACTAACCGCGATCTGAAAAAAATGGTCGCCGACCGTGAGTTCCGTAGCGATCTCTA -TTACCGCCTGAACGTATTCCCGATTCACCTGCCGCCACTACGCGAGCGTCCGGAAGATATTCCGCTGCTGGCGAA -AGCCTTTACCTTCAAAATTGCCCGTCGTCTGGGGCGCAATATCGACAGCATTCCTGCCGAGACGCTGCGCACCTT -GAGCAACATGGAGTGGCCGGGTAACGTACGCGAACTGGAAAACGTCATTGAGCGCGCGGTATTGCTAACACGCGG -TAACGTGCTGCAGCTGTCATTGCCAGATATTGTTTTACCGGAACCTGAAACGCCGCCTGCCGCAACGGTTGTCGC -CCTGGAGGGCGAAGATGAATATCAGTTGATTGTGCGCGTGCTGAAAGAAACCAACGGCGTGGTTGCCGGGCCTAA -AGGCGCTGCGCAACGTCTGGGGCTGAAACGCACGACCCTGCTGTCACGGATGAAGCGGCTGGGAATTGATAAATC -GGCATTGATTTAACTGCAAATTGCCGGACAGATCTGCCTGTCCGGCATACTATTCATGAGGTTTTTTCGGACGAT -ATTTTTCCGGCAGTTCTGGCACCGGACGCTTGTCATCGATGAGATGACGCACGGTTAAGATCGGATGACGCCACA -GCATTCTCGGCCCGGCCCAACGCATAATCTGTTTCATCTCTTCACGCTTTGCAGGCTGGTAACAGTGCACCGGAC -ACTGCTTACAGGCTGGTTTCTCTTCGCCGAACACACATTTATCCAGCCGCTTTTGCGCGTAAACAAACAACGCCT -CGTAATGCTCCGGCTCCGCTGACGCCTGCGGGCATTTCGCTTGATAAAGATCGATCATTTTTTTAATCGTCAGTT -TTTCACGAGAGATACGCTTGCCGGACATGCTGCCTCCACCTCATTAAGATGTATTTATATTACATCTTAATCTTA -AAGGGCACTATGACTCCAAAGAAGAAGGGTTAGCCAACCGATACAATTTTGCGTACTTGCTTCATAAGCATCACG -CAAAAGCTGCAAAACAGCATCTTTCCCGGAACCAGCATCAAGAACTCGCCGTTCGCTTCTTCCCCTGAAATGATT -AACTCCGGTATCATGTGCGCCTTATGTGATTACAACGAAAATAAAAACCATCACACCCCATTTAATATCAGGGAA -CCGGACATAACCCCATGAGTGCAATAGAAAATTTCGACGCCCATACGCCCATGATGCAGCAGTATCTCAGGCTGA -AAGCCCAGCATCCCGAGATCCTGCTGTTTTACCGGATGGGTGATTTTTATGAACTGTTTTATGACGACGCAAAAC -GCGCGTCGCAACTGCTGGATATTTCACTGACCAAACGCGGTGCTTCGGCGGGAGAGCCGATCCCGATGGCGGGGA -TTCCCTACCATGCGGTGGAAAACTATCTCGCCAAACTGGTGAATCAGGGAGAGTCCGTTGCCATCTGCGAACAAA -TTGGCGATCCGGCGACCAGCAAAGGTCCGGTTGAGCGCAAAGTTGTGCGTATCGTTACGCCAGGCACCATCAGCG -ATGAAGCCCTGTTGCAGGAGCGTCAGGACAACCTGCTGGCGGCTATCTGGCAGGACAGCAAAGGTTTCGGCTACG -CGACGCTGGATATCAGTTCCGGGCGTTTTCGCCTGAGCGAACCGGCTGACCGCGAAACGATGGCGGCAGAACTGC -AACGCACTAATCCTGCGGAACTGCTGTATGCAGAAGATTTTGCTGAAATGTCGTTAATTGAAGGCCGTCGCGGCC -TGCGCCGTCGCCCGCTGTGGGAGTTTGAAATCGACACCGCGCGCCAGCAGTTGAATCTGCAATTTGGGACCCGCG -ATCTGGTCGGTTTTGGCGTCGAGAACGCGCCGCGCGGACTTTGTGCTGCCGGTTGTCTGTTGCAGTATGCGAAAG -ATACCCAACGTACGACTCTGCCGCATATTCGTTCCATCACCATGGAACGTGAGCAGGACAGCATCATTATGGATG -CCGCGACGCGTCGTAATCTGGAAATCACCCAGAACCTGGCGGGTGGTGCGGAAAATACGCTGGCTTCTGTGCTCG -ACTGCACCGTCACGCCGATGGGCAGCCGTATGCTGAAACGCTGGCTGCATATGCCAGTGCGCGATACCCGCGTGT -TGCTTGAGCGCCAGCAAACTATTGGCGCATTGCAGGATTTCACCGCCGGGCTACAGCCGGTACTGCGTCAGGTCG -GCGACCTGGAACGTATTCTGGCACGTCTGGCTTTACGAACTGCTCGCCCACGCGATCTGGCCCGTATGCGCCACG -CTTTCCAGCAACTGCCGGAGCTGCGTGCGCAGTTAGAAACTGTCGATAGTGCACCGGTACAGGCGCTACGTGAGA -AGATGGGCGAGTTTGCCGAGCTGCGCGATCTGCTGGAGCGAGCAATCATCGACACACCGCCGGTGCTGGTACGCG -ACGGTGGTGTTATCGCATCGGGCTATAACGAAGAGCTGGATGAGTGGCGCGCGCTGGCTGACGGCGCGACCGATT -ATCTGGAGCGTCTGGAAGTCCGCGAGCGTGAACGTACCGGCCTGGACACGCTGAAAGTTGGCTTTAATGCGGTGC -ACGGCTACTACATTCAAATCAGCCGTGGGCAAAGCCATCTGGCACCCATCAACTACATGCGTCGCCAGACGCTGA -AAAACGCCGAGCGCTACATCATTCCAGAGCTAAAAGAGTACGAAGATAAAGTTCTCACCTCAAAAGGCAAAGCAC -TGGCACTGGAAAAACAGCTTTATGAAGAGCTGTTCGACCTGCTGTTGCCGCATCTGGAAGCGTTGCAACAGAGCG -CGAGCGCGCTGGCGGAACTCGACGTGCTGGTTAACCTGGCGGAACGGGCCTATACCCTGAACTACACCTGCCCGA -CCTTCATTGATAAACCGGGCATTCGCATTACCGAAGGTCGCCATCCGGTAGTTGAACAAGTACTGAATGAGCCAT -TTATCGCCAACCCGCTGAATCTGTCGCCGCAGCGCCGCATGTTGATCATCACCGGTCCGAACATGGGCGGTAAAA -GTACCTATATGCGCCAGACCGCACTGATTGCGCTGATGGCCTACATCGGCAGCTATGTACCGGCACAAAAAGTCG -AGATTGGACCTATCGATCGCATCTTTACCCGCGTAGGCGCGGCAGATGACCTGGCGTCCGGGCGCTCAACCTTTA -TGGTGGAGATGACTGAAACCGCCAATATTTTACATAACGCCACCGAATACAGTCTGGTGTTAATGGATGAGATCG -GGCGTGGAACGTCCACCTACGATGGTCTGTCGCTGGCGTGGGCGTGCGCGGAAAATCTGGCGAATAAGATTAAGG -CATTGACGTTATTTGCTACCCACTATTTCGAGCTGACCCAGTTACCGGAGAAAATGGAAGGCGTCGCTAACGTGC -ATCTCGATGCACTGGAGCACGGCGACACCATTGCCTTTATGCACAGCGTGCAGGATGGCGCGGCGAGCAAAAGCT -ACGGCCTGGCGGTTGCAGCTCTGGCAGGCGTGCCAAAAGAGGTTATTAAGCGCGCACGGCAAAAGCTGCGTGAGC -TGGAAAGCATTTCGCCGAACGCCGCCGCTACGCAAGTGGATGGTACGCAAATGTCTTTGCTGTCAGTACCAGAAG -AAACTTCGCCTGCGGTCGAAGCTCTGGAAAATCTTGATCCGGATTCACTCACCCCGCGTCAGGCGCTGGAGTGGA -TTTATCGCTTGAAGAGCCTGGTGTAATAACAATTCCCGATAGTCTTTTGCTATCGGGAATATTAACGACAACTGA -CGAATAAAATAAAAACACCCTGTATAATAGGAAAGCTTATTTTACAGGGTAAAACCATGCCATCTACACGCTATC -AAAAAATCAATGCCCATCACTATCGCCATATATGGGTCGTTGGTGATATTCATGGTGAATATCAGTTATTACAAT -CCCGCTTACATCAACTCTCTTTTTTCCCCAAAATCGACTTACTTATTTCTGTCGGCGATAATATTGATCGTGGAC -CGGAGAGTCTTGACGTCCTGCGCCTGCTAAACCAACCCTGGTTTACGTCGGTTAAAGGCAACCACGAAGCGATGG -CGCTTGAGGCATTCGAAACTGGCGATGGCAATATGTGGCTTGCCAGCGGTGGTGACTGGTTTTTCGATTTAAATG -ATTCAGAGCAACAAGAGGCAATAGATCTGTTGCTGAAATTCCATCACCTTCCACATATTATTGAAATCACTAACG -ACAACATAAAATATGCCATCGCACATGCAGATTATCCGGGGAGTGAATATCTCTTTGGTAAAGAAATAGCGGAGA -GCGAATTACTCTGGCCTGTTGATCGTGTGCAGAAATCGCTTAATGGCGAGTTACAACAAATAAACGGCGCTGATT -ATTTTATATTTGGACATATGATGTTTGATAACATTCAGACGTTCGCTAACCAGATTTATATTGATACCGGATCGC -CGAACAGCGGGCGGCTGTCATTTTATAAAATAAAGTAGTCTCATGCTTCTTCTGTGAAGCATGAGTAACCCGGTG -TTATTGCAGGCCATTATTCATTTTTCGCTACCAGCAAAGAGAGATCCTGCTTCACCAGCGCGCGACTGGCACTCT -CCGGCAAACCGTCGTCTGTAATAATCTGATCAAACTCGCTTAATGGTAACGCCAGCCATGTCGCCACCTGACCAT -ATTTCGTCGCATCACAGACCAAAACTCGCTGGCGGCTGGCACTGGCAATCGCCCGTTTCACCGTGACTTTATCTT -CCGCTGGCGTAGAAATCCCCCGCACACTCCATGACGATGCAGAAATAAAAGCCTGATCAATCATCAGGCTGCGCA -GCATGGTCGCAGCGGCTTCCCCGACACAGGAACGGTTTTCCCGACACACTGCACCGCCAGTGTGAATAATTGTGC -AATTACTGTTGTCGAGCAAGTAGTCCGCAATAACGAAATCGTTTGTGACCACAGTCAGTGACTCCATGTGAATCA -GATGCTGTGCTATCGCTAACGTGGTCGTTCCCGCATCCAGATAGATACAACTTCCCGGCTGAACAAGACTTGCCG -CCAGCTTGCCAATAGCCGCTTTTTGCGTCATTGCCAGCGCAGTTTTTACCTGATGAGAAGGTTCATGCGCCACGC -GTCCCGGAGACTGGACGCCTCCGGACACCAGCACAACGGCTCCCTGCTGCTCCAGTTTTTGTAAATCCCGACGAA -TGGTCATATGTGACACATTCATTCTGTCCGTTAGTTCAGCAATACTGACAATGCCTTTTTCAGCTACCATCTCAA -GGATGATTTGGCGACGCTCTACGGGTATCAACTTTTGCTCCTTCCTTTGTCCTGCTGACATTCTACGCTATTTGC -CTGCGAAACGTGCGCGGCGCAACTAACGCTTAGTTCACATAAAATAACACACAATGTTAATTTATGTGAATCAGA -TCACCATACCGTTATCTTCCAGCGCTTATATTCACAATATCAAACAAAATATCACTTAAATTAACAAGGAGAGCA -GATGAAAACGGGATCTGAGTTTCATGTCGGTATCGTTGGCTTAGGGTCAATGGGAATGGGAGCAGCACTGTCATA -TGTCCGCGCAGGTCTTTCTACCTGGGGCGCAGACCTGAACAGCAATGCCTGCGCTACGTTGAAAGAGGCAGGTGC -TTGCGGGGTTTCTGATAACGCCGCGACGTTTGCCGAAAAACTGGACGCACTGCTGGTGCTGGTGGTCAATGCGGC -CCAGGTTAAACAGGTGCTGTTTGGTGAAACAGGCGTTGCACAACATCTGAAACCCGGTACGGCAGTAATGGTTTC -TTCCACTATCGCTAGTGCTGATGCGCAAGAAATTGCTACCGCTCTGGCTGGATTCGATCTGGAAATGCTGGATGC -GCCAGTTTCTGGTGGTGCAGTAAAAGCCGCTAACGGTGAAATGACTGTCATGGCCTCCGGTAGCGATATTGCCTT -TGAACGACTGGCACCCGTGCTGGAAGCCGTTGCCGGAAAAGTTTATCGCATAGGTGCAGAACCGGGACTAGGTTC -GACCGTAAAAATTATTCACCAGTTGTTAGCGGGCGTACATATTGCTGCCGGAGCCGAAGCGATGGCACTTGCAGC -CCGTGCGGGGATCCCGCTGGATGTGATGTATGACGTCGTGACCAATGCCGCCGGAAATTCCTGGATGTTCGAAAA -CCGGATGCGTCATGTGGTGGATGGCGATTACACCCCGCATTCAGCCGTCGATATTTTTGTTAAGGATCTTGGTCT -GGTTGCCGATACAGCCAAAGCCCTGCACTTCCCGCTGCCATTGGCCTCAACAGCATTGAATATGTTCACCAGCGC -CAGTAACGCGGGTTACGGGAAAGAAGACGATAGCGCAGTTATCAAGATTTTCTCTGGCATCACTCTACCGGGAGC -GAAATCATGATCAAGATTGGCGTTATCGCCGATGATTTTACCGGCGCGACGGATATCGCCAGTTTTCTGGTGGAA -AACGGTCTACCAACGGTACAAATTAACGGTGTTCCAACAGGTAAAATGCCGGAAGCAATCGACGCACTGGTGATC -AGCCTGAAAACGCGCTCCTGTCCAGTGGTTGAAGCCACACAGCAATCGCTGGCGGCTCTGAGCTGGTTGCAACAG -CAAGGTTGCAAACAGATCTATTTCAAATACTGCTCTACTTTCGACAGTACGGCGAAAGGTAATATTGGCCCGGTT -ACCGATGCCTTAATGGATGCTCTCGACACGCCGTTTACGGTCTTCTCTCCGGCCCTGCCGGTCAACGGACGTACG -GTTTATCAGGGGTATTTGTTCGTAATGAATCAACTGCTGGCCGAATCCGGGATGCGCCATCACCCGGTAAATCCC -ATGACCGACAGCTATCTTCCCCGTCTGGTTGAAGCGCAATCCACAGGGCGCTGCGGCGTCGTTTCGGCACATGTT -TTCGAACAAGGTGTGGATGCCGTTCGTCAAGAGCTGGCTCGCTTACAGCAAGAGGGCTACCGCTACGCGGTGCTT -GATGCGCTGACCGAACACCATCTGGAAATTCAGGGAGAAGCCTTGCGCGATGCCCCACTGGTAACGGGCGGTTCT -GGTCTGGCGATTGGCCTGGCCCGGCAGTGGGCGCAAGAAAACGGTAACCAGGCTCGCAAAGCAGGGCGTCCGCTC -GCTGGGCGCGGCGTAGTGCTCTCCGGTTCATGCTCTCAAATGACCAACCGCCAGGTAGCACATTACCGTCAAATT -GCACCAGCCCGTGAAGTTGATGTGGCACGCTGCCTCTCAATTGAAACTCTGGCCGCTTATGCACACGAACTGGCA -GAGTGGGTTCTGGGCCAGGAAAGTGTACTTGCTCCACTGGTTTTTGCCACCGCCAGCACTGACGCATTGGCAGCA -ATTCAACAGCAATACGGTGCACAAAAAGCCAGTCAGGCAGTAGAAACACTGTTTTCTCAACTAGCGGCGCGGTTA -GCAGCGGAAGGCGTGACACGCTTTATTGTCGCAGGCGGTGAGACCTCCGGCGTAGTCACACAGAGCCTGGGAATA -AAAGGGTTTCATATTGGCCCAACCATTTCCCCGGCGTGCCGTGGGTAAACGCACTGGATAAGCCTGTCTCACTCG -CCCTTAAATCTGGCAACTTCGGTGATGACGCCTTTTTTTCACGAGCCCAAAGAGAGTTTTTATCATGAGCGATTT -CGCAAAAGTAGAGCAGTCTTTGCGAGAGGAGATGACGCGGATTGCCAGTTCATTCTTTCAGCGCGGCTATGCAAC -CGGTTCGGCTGGCAATCTGTCGCTGCTTTTACCTGACGGGAATTTACTGGCGACACCGACAGGTTCATGCCTGGG -CAATCTCGATCCGCAGCGGCTTTCCAAAGTCGCCGCGGATGGCGAATGGTTAAGTGGTGACAAACCCTCGAAAGA -GGTGCTCTTTCATCTGGCGCTGTATCGCAACAATCCGCGCTGTAAAGCGGTGGTGCATTTGCACAGCACATGGTC -GACGGCGCTTTCCTGCCTGCAAGGGCTGGACAGCAGCAACGTTATTCGTCCGTTCACACCATACGTGGTGATGCG -GATGGGAAATGTCCCGCTGGTGCCTTATTACCGACCGGGCGATAAACGCATCGCACAGGATCTGGCGGAACTGGC -AGCAGACAATCAGGCTTTTTTACTGGCAAATCATGGCCCAGTGGTTTGCGGTGAAAGCCTGCAAGAAGCCGCCAA -CAATATGGAAGAGCTGGAGGAAACGGCAAAGCTGATTTTTATTCTCGGTGACCGCCCGATCCGTTATCTGACCGC -AGGTGAAATTGCGGAATTAAGGAGTTAATGCAATGCCTCGTTTTGCAGCTAATTTATCCATGATGTTCACCGAAG -TGCCTTTTATTGAACGCTTCGCCGCAGCGCGAAAAGCCGGGTTCGATGCTGTGGAATTTCTGTTTCCCTATAACT -ACTCCACCCTGCAAATCCAAAAGCAACTGGAGCAAAACCATCTGACACTGGCGCTGTTCAATACCGCTCCCGGAG -ATATTAATGCGGGGGAATGGGGATTATCCGCCCTTCCCGGACGTGAGCACGAAGCACACGCAGACATCGACCTGG -CACTGGAATATGCATTGGCGCTCAATTGTGAACAAGTCCATGTGATGGCAGGCGTCGTGCCCGCTGGCGAAGATG -CTGAACGGTACCGGGCAGTATTTATCGATAATATCCGCTACGCTGCCGACCGCTTTGCGCCACACGGCAAGCGAA -TATTAGTTGAAGCACTCAGCCCCGGCGTTAAGCCTCATTATCTCTTCTCCAGCCAGTATCAGGCACTGGCTATTG -TTGAAGAGGTTGCGCGAGATAACGTGTTTATTCAACTAGATACTTTTCATGCGCAAAAAGTAGATGGCAACCTGA -CGCATTTAATCCGCGACTACGCCGGGAAATATGCGCACGTACAAATTGCCGGACTACCTGATCGACATGAACCGG -ACGATGGAGAAATCAACTATCCGTGGCTGTTCCGCCTGTTCGATGAGGTGGGATATCAGGGCTGGATCGGTTGTG -AATATAAACCTCGTGGCCTCACCGAAGAAGGGCTTGGCTGGTTTGACGCCTGGCGCTAATTCGTTAAATCCCTAA -TTACAACGTACCCATACATCCCCCCATCTACGGATGGGGTAGGTTAACTATAACTTTCAGACAGGGTTTCCCATG -TCCACAATTACATTGTTATGCATTGCGTTAGCTGGCGTAATCATGCTGTTGCTGCTGGTCATCAAGGCAAAGGTA -CAACCATTCGTTGCTTTGCTCCTCGTCAGCCTGTTAGTCGCACTTGCGGCAGGTATACCGGCGGGCGAAGTGGGT -AAAGTGATGATCGCCGGGATGGGCGGTGTGCTTGGTTCCGTCACTATTATTATTGGTCTGGGCGCTATGCTGGGG -CGTATGATCGAACACTCTGGTGGTGCAGAGTCACTGGCTAATTATTTCAGTCGCAAGTTAGGTGACAAACGAACT -ATCGCTGCGCTGACTCTGGCAGCGTTCTTCCTCGGTATTCCCGTCTTCTTTGATGTCGGCTTTATTATTCTTGCG -CCAATCATTTACGGTTTTGCCAAGGTTGCCAAAATATCGCCACTCAAATTTGGCCTGCCTGTCGCTGGGATCATG -CTCACTGTTCACGTGGCGGTACCGCCGCATCCAGGCCCTGTCGCCGCAGCGGGGTTACTCCACGCAGACATCGGC -TGGCTAACCATCATCGGTATTGCGATTTCTATTCCCGTAGGGGTTGTTGGCTACTTTGCAGCGAAAATAATCAAT -AAGCGCCAATATGCGATGTCAGTAGAAGTACTGGAACAGATGCAACTGGCTCCGGCCAGTGAGGAAGGCGCGACA -AAATTAAGCGATAAAATAAATCCACCGGGCGTCGCGCTGGTCACCTCGCTAATTGTTATTCCTATCGCGATTATC -ATGGCGGGTACGGTTTCCGCAACACTGATGCCGCCTTCGCATCCCCTGCTTGGTACGCTACAGCTGATCGGCTCA -CCAATGGTAGCTCTAATGATTGCGCTGGTGCTGGCATTCTGGTTATTGGCTTTACGTCGCGGCTGGAGCTTACAA -CACACCAGCGACATTATGGGCTCAGCGCTTCCTACTGCGGCGGTAGTGATTTTGGTTACTGGTGCTGGAGGGGTA -TTTGGCAAAGTGCTGGTGGAATCGGGCGTCGGCAAAGCCCTTGCCAACATGCTACAAATGATTGACCTGCCTCTG -TTACCAGCCGCATTTATTATTTCACTGGCGCTGCGTGCATCGCAGGGGTCAGCAACCGTAGCAATACTGACAACC -GGCGGGTTACTCTCAGAAGCGGTGATGGGATTGAATCCGATTCAGTGCGTATTGGTGACGCTGGCAGCCTGCTTT -GGTGGGCTTGGTGCGTCACATATTAATGACTCAGGGTTCTGGATTGTGACCAAATATCTGGGGTTGTCGGTAGCA -GACGGTCTGAAAACCTGGACAGTGTTAACGACCATTCTCGGTTTTACCGGATTCTTAATTACCTGGTGCGTATGG -GCGGTAATTTGACCTTAATAAAAAGGTCCGATGGGCATCGGACCTTTTATTGTGCACAGAAAAGGCCAGCCTCGC -TTGAGACTGGCCTTTCTGACAGATGCTTACTTACTCGCGGAACAGCGCTTCGATATTCAGCCCCTGCGTTTGCAG -GATTTCGCGCAAACGGCGCAGGCCTTCAACCTGAATCTGGCGAACACGTTCACGGGTGAGGCCAATTTCACGACC -TACATCTTCCAGTGTTGCCGCTTCGTACCCCAGCAAACCGAATCGACGTGCCAGCACTTCACGCTGTTTGGCGTT -CAGCTCGAACAGCCATTTGACGATGCTCTGCTTCATATCGTCATCTTGCGTGGTATCTTCCGGACCGTTCTCTTT -TTCATCGGCCAGGATGTCCAGCAACGCTTTTTCGGAATCACCACCCAGCGGGGTGTCTACCGAGGTAATGCGCTC -GTTAAGACGAAGCATACGGCTGACGTCATCAACTGGCTTATCCAGTTGCTCTGCGATCTCTTCCGCACTTGGTTC -ATGGTCCAGCTTATGGGACAACTCACGTGCGGTTCGCAGGTAAACGTTCAGCTCCTTTACGATGTGAATCGGCAA -ACGAATAGTACGGGTTTGGTTCATAATCGCCCGTTCAATCGTCTGGCGAATCCACCAGGTTGCGTATGTTGAGAA -GCGGAAACCACGTTCCGGGTCAAACTTCTCTACCGCGCGGATCAGCCCCAGGTTGCCCTCTTCGATAAGGTCCAG -CAACGCCAGACCACGATTGCCATAACGGCGGGCAATTTTTACCACCAGACGCAAGTTACTCTCGATCATCCGGCG -GCGAGAGGCGACATCTCCACGCAGTGCGCGACGCGCAAAATAAACTTCTTCTTCGGCCGTTAACAGTGGTGAATA -ACCAATCTCACCAAGGTAAAGCTGAGTCGCGTCCAACACACGCTGTGTGGCTCCCTGCGATAACAGTTCCTCTTC -GGCCAAATCGTTATCACTGGGTTCCTGTTCTACTAAGGCCTTTTCGTCAAAAACCTCAACTCCGTTCTCATCAAA -TTCCGCATCTTCATTTAAATCATGAACTTTCAGCGTATTCTGACTCATAAGGTGGCTCCTACCCGTGATCCCTTG -ACGGAACATTCAAGCAAAAGCCTGGTTCCGCCGATTTATCGCTGCGGCAAATAACGCAGCGGGTTTACGGATTTC -CCCTTGTAACGAATTTCAAAATGCAAGCGTGTTGAACTGGTTCCGGTGCTACCCATGGTCGCTATTTTTTGCCCC -GCCTTAACTTCTTGTTGTTCCCGGACCAGCATTGTGTCGTTATGGGCGTAGGCACTCAGGTAATCATCATTATGT -TTGATGATAATCAGATTACCGTAGCCGCGCAGCGCGTTACCAGCATAAACAACGCGGCCATCTGCGGTCGCGATA -ATTGCCTGTCCTTTGCTGCCTGCGATATCAATCCCCTTGTTGCCCCCCTCAGAAGCGCCAAAGGTTTCGATCACT -TTGCCCTCAGTCGGCCAGCGCCAGGTGGAGATAGGCGTACTGGTTGATGTACTGCTGACAGTCGGCTCGGTTGTG -CTTGCTGTTGGTACCGTTACAGGCGCTGTGACCGTGGTCGCAGTTGGCTTGTTGTTCGGCAACATTTTGTTAGCA -CTCTGTTCACCCGAAGACTCAGAATACGTAATTGTCGGTTGCGACGCAACAGCAACGGTGGAATTTTGTGCAGGC -TTGATCACAACTCCTTGCTCTGCTGCGTCGGCCTGGGTAATGGCATTTCCGCCAGTGATTGGCGTACCGGAAGCA -TTACCCACCTGCAAGGTCTGACCAACGTTCAGCGCGTATGGTGCCTGAATATTGTTGCGCTGAGCAAGGTCACGG -AAATCGTTGCCAGTAATCCAGGCGATATAGAAAAGTGTGTCGCCTTTTTTCACGGTATAGGTACTGCCGCTATAA -CTGCCTTTCGGAATGTTCCCATACTGACGGTTATAGACGATGCGTCCGTTTTCCATCTGTACCGGCTGCTGAGCT -ACTGGCTGCACTGGCTGGATTTGCGGTTGTTGAGTAGCCTGAATTTGTGGCTGCTGCACCGGCTGAATTTGCGGT -TGCTGCGCTGTAGACGTCGTCCCCATTTTCGGCGGCGGCGTAATCAACATACCAGAATTAGTATTTGCAGGCGCA -TTGCCATTAACGGAGCTGACCGGTGCCGGTGGATTTGAAGTGTCAGAACAGCCTGCCAGCCATAGCGAAACCAGT -GACAAAGCCGCAATGCGGCGAACGGTGAATTTTGGGCTTCCCGCGCTCATTTATCCCCCAGGAAAAATTGGTTAA -TAACCAGTGACATAATTACCGTGCAAGGCACCCTACTGAACACTGGAAAAGATGTTCACGATACGCTGACCTGCG -GCAAAATAACCAGGAAAAATCCAGGTATTTCCTCACGTTTTAAGCCAGCTCACCCTTCACTAAAGGGACAAAGCG -CACGGCCTCCACGGTATCGATAATAAATTCGCCTCCCCGACGACGCACCCGTTTCAAATACTGGTGCTCCTCCCC -TACGGGTAAGACGAGAATCCCGCCTTCGTCCAGCTGCGTCATTAGCGCAGTTGGAATTTCCGGCGGTGCCGCCGT -AACAATGATAGCGTCAAACGGCGCACGTGCCTGCCAACCTTGCCATCCATCGCCATGACGGGTTGAAACATTATG -TAAATCAAGATTTTTCAGGCGGCGACGTGCCTGCCACTGCAAGCCTTTAATCCGTTCAACCGAGCAAACATGCTG -GACAAGATGCGCCAGGATTGCCGTTTGATATCCCGAACCGGTGCCAATTTCCAGCACCCGCGACTGCGGCGTCAG -CTCGAGTAATTCGGTCATTCGCGCCACCATATATGGCTGCGAAATTGTCTGCCCCTGACCTATCGGCAAAGCGAT -ATTGTCCCAGGCTTTTTGTTCAAACGCTTCATCAACGAATTTTTCACGCGGCACGGCGGCAAGTGCATTCAGCAC -CTGCTCATCCTGAATACCTTGCGCACGTAATTGATCCAGAAGTGCTTGTACGCGTCTGCTTACCATTGCGTGCCA -ACTCCCACGCTGTTTAACCAGTCTGAAACCACATCTTGCGCGCTATGCGCAGTTAAATCCACATGCAGCGGCGTG -ATGGAGACATAGCCCTCATCTACCGCAGCAAAATCGGTCCCCGGACCAGCATCACATTTACCGCCCGGCGGGCCA -ATCCAGTACAGCGTATTGCCGCGCGGATCTTGCTGCGGGATCACCTGATCTGCCGGATGTCGTGTACCGCAGCGC -GTCACGCGAATACCTTTGATTTGATCCAAGGGTAAATCCGGAACGTTAATATTAAGAATACGCCCGGTGCGCAGC -GGCTCTTTACACAGTGCGCGCAAAATTGAACAGGTTACCGCCGCGGCAGTGTCGTAATGTTTATGCCCGTCAAGC -GAGACGGCAAGCGCCGGAAAACCTAAATGACGGCCTTCCATCGCGGCGGCTACCGTACCGGAATAAATAACATCA -TCCCCCAGATTCGGCCCGGCGTTAATTCCGGACACAACAATGTCCGGGCGCGGACGCATCAGAGCATTCACGCCA -AGATAGACGCAATCGGTCGGGGTTCCCATTTGCACAGCAATATCACCATTTTCAAAGGTAAACGTGCGCAGGGAG -GATTCCAGTGTCAGAGAATTTGAAGCGCCGCTGCGGTTACGATCGGGGGCGACCACCTGAACGTCAGCAAACTCA -CGCAAGGCTTTCGCCAGCGTTTGTATACCGGGTGCATGTACCCCGTCATCATTACTCAGCAATATGCGCATAATC -ACCTGTTGTGTTGATAAGTTCCCTGACAACGCTGGTTGCAAAACTACCCGCCGGAAGCCAGAAACGGATCTCTAC -GGTGACGTCATCCCACCAATTCCAGCTTAATTGTTGCGGATACAGCAGCATCGCTCTGCGCGCGGCTTCAACTTT -TTCGCGCACCAGTAAAGCTTGTAATTCAGTTTCTGCGGCGACAGCTGCTTGTTCGAATGCCAGCGCTTCACGCTG -AGTTCCCCATTCGCCACTGCCTGGCAATGCGGCGGTTATCATCAACTCTTTATCGTTGACGCGACGCTGTAATTC -CGCCAGTTCTTCGGTGGTTGCGACAAACCAGCTACCACGTCCGGCTAATTGTAGCGCATCGCCGTCAACAACTTG -ATTAACGTCTGCTTTTTTGAGGCGCTCAGCAACAATCTGATTAAACAACGCACTGCGGGCTGCCGACAACCAAAA -ACTCCGTTTATTGCGATCGCGCACCGGAGTATTGGTTTGCGCCCAGCGCTGCGCCCCCTGCAAGTTGCTACCGCC -AATCCCAAAACGTTGGGCACCGAAGTAGTTCGGTACACCTTTTACGCAAATATCGATCAGACGTTGTTCAACGTC -ATCGCGATTGCTCACTTCGCGCAGAACCAGGGTAAAGGCGTTACCTTTCAGCGCGCCTAAACGCAGCTTGCGCTT -GTGCCGCGCATACTCCAGCACCTGGCAGCCTTCCAGTTGAAAGGCGCTCAGATCGGGCATTTCCTTGCCCGGCAC -GCGAGCGCATAACCACTGTTCCGTAACAGCATGTTTGTCTTTTTGCCCAGCGAAGCTGACTTCACGGGCATGAAT -TTTCAGGAATTTCGCCAGTGCATCCGCCACAAAACGGGTATTGCAGCCGTTTTTGAGGATTCTAACCAGAATATG -CTCACCTTCACCATCAGGCTCAAAGCCCAAATCTTCCACCACCACAAAGTCTTCCGGATTGGCTTTCAGCAGCCC -GGTGCCTTGCGGTTTACCGTGGAGGTAAGTGAGATTATCAAACTCAATCATTTTGTTGCCTTAATGAGTAGCGCC -ACCGCTTCACAGGCAATCCCTTCCCCACGTCCGGTAAATCCCAGTTTTTCCGTAGTAGTGGCTTTCACGTTAACA -TCATCCATATGGCAGCCGAGATCTTCGGCAATAAACACGCGCATTTGTGGAATGTGCGGCAACATCTTCGGTGCC -TGAGCGATGATAGTGACATCGACGTTGCCAAGGGTATAACCCTTCGCCTGAATACGACGCCAGGCTTCGCGTAGC -AGCTCGCGGCTATCGGCACCTTTAAATGCCGGATCGGTATCCGGGAACAGCTTGCCGATATCCCCCAGCGCCGCC -GCGCCAAGCAATGCATCGGTCAACGCATGGAGCGCCACGTCGCCATCAGAATGCGCCAGCAATCCTTTTTCGTAA -GGAATGCGTACGCCACCAATGATAATTGGGCCTTCACCGCCAAAGGCATGTACGTCAAAACCGTGTCCAATTCGC -ATTATGTATTCTCCTGATGGATGGTTCGGGTGAGGTAAAACTCGGCCAGTGCCAAATCTTCCGGGCGCGTGACTT -TAATGTTATCCGCACGGCCTTCGACCAACTGAGGATGGAATCCGCAATATTCCAGCGCCGAGGCTTCGTCGGTAA -TAGTCGCGCCTTCATTTAGAGCGCGCGTCAGACAGTCATGTAACAGCTCACGAGGGAAAAATTGCGGCGTCAGCG -CGTGCCATAAGCCGTTGCGATCAACGGTATGAGCAATGGCATTTTTGCCCGGTTCGGCACGTTTCATAGTATCGC -GCACTGGTGCGGCGAGGATCCCCCCCGTGCGGCTGGTTTCGCTCAACGCCAACAATCGCGCGAGGTCATCCTGAT -GCAAACAAGGACGAGCGGCGTCATGCACCAATACCCACTGCGCGTCGCCAGCGGCTTTCAGACCTGCCAGCACGG -AATCGGCACGCTCATCACCGCCATCTACAACGGTGATTTGCGGATGATTCGCCAGAGGAAGTTGTGCAAAACGGC -TATCGCCAGGACTTATGGCAATGACGACACGTTTCACCCGGGGATGCGCCAGCAGCGCATGCACCGAGTGTTCAA -GAATGGTTTGATTACCGATTGAGAGATATTGCTTAGGACATTCCGTTTGCATTCGACGGCCAAATCCGGCCGCCG -GAACCACGGCGCAAACATCCAAATGAGTGGTTGCCATGTTAATTCCCGGGCTGATTTATCGATTGTTTTGCCCCG -CAGACTGTGCGCGCTTCGACGCGTCAGGCACCAGACGATAAAAAGTTTCGCCCGGCCTGGTCATGCTGAGTTCAT -TACGCGCACGCTCTTCGAGCGCCTCCTGGCCGCCATTGAGATCGTCAATTTCGGCAAAAAGTTGATCGTTTCGCG -CTTTAAGTTTCGCGTTTGTAGCTTGCTGTGCCGCCACATCATCATTGACGCGGGTATAGTCATGTATACCGTTCT -TACCGAACCACAGCGAATACTGTAGCCAGACCAGAATAGCCAGCAACAGCAGCGTTAGTTTACCCATCCTGCCCC -CTGAAAAACGGCATCATCATCCCATGCATCCGAAGACGACTCTACATCCTCTGTTGGGGATACCGCGACAACGCG -GGCAAATGTACCACATTTGTCCATTGTTACGTATACCCAGGGCGTGCAGAACATAATCTCATTATTAGTTACGGT -TTGAATTATGAACAGAGGAGACGGGAAAGTACAAATTAGCCCAGTAGCCACATAAACAGTGCGCCAAACATAATG -CCTACTGTCACCAGGGTGAAAACAATACTGTAGCGTAGCTTTCCGTCCATCAATGAATGCAGCGCAATCCCCACC -ACTACCGCGACGGGCATCAGCGCCAGAAAGAAAGGCCAGGTGTAGATAAAGAAGAACAGCGTGTTAGAGCCATAA -ATCAACATCGGCATCGCCAGCGCAAATAACCAGGAGATAAAACCGACCACGGCACCAGGCAGTGACCATGTGGTT -TCTTCATCCTCAGTAAGGCTGTCGTTATTTGTTAGTGTAATGTTATGGCTATTACGCATATTTGATCCTGTTACT -TTGACGAACCGGGCATGGAAACCCGGTGGTGTCTCAGGATCTGATAATATCGTTCTGTCTCAACAGATCTAATAA -TTGCTGTACCAAATTTGTTACTAATTGTTCACCATTGAGATGAATTTCTGCCGATTCAGGCGCTTCGTAAACGGA -ATCTATTCCCGTAAAGTTGCGCAGTTCACCGGCACGCGCTTTCTTATATAAGCCTTTGGGATCGCGGGCTTCGCA -AATCGCCAGCGGCGTATCGACAAACACTTCGATAAAGCGCCCTTCTCCTACGCGTTCGCGAACCATCTGGCGTTC -GGCGCGGTGTGGCGAGATAAATGCGGTCAGCACCACCAGTCCGGCTTCAACCATCAAATTCGCCACTTCACCGAC -GCGACGGATATTCTCTTTACGATCGGCATCGCTAAAACCGAGATCGCTGCATAATCCGTGGCGAACATTGTCGCC -ATCCAGCAGATACGTACTGACGCCGAGTTTATGTAACGCCTCCTCCAGCGCCCCGGCGACCGTTGATTTACCGGA -CCCGGAGAGGCCGGTAAACCACAGCACTACACCACGATGACCGTGGTGTAGCTCGCGTTGTTGCACAGTGACCGG -ATGGCTATGCCAGACGACGTTTTCGTCATGCAGCGCCATTATTTATCCCCCAGCAAATCGCGCGCGCCCCAGTGC -GGAAAGTGGCGACGAACCAGAGCATTCAATTCCAGTTCGAATGCACTGAATTCAGATGGCGCAGCAGTTGCCTGG -CTAACTGGCTCGTGCACCATACCGGCACCCACGGTCACATTGCTCAGGCGATCGATAAAAATCAGCCCACCCGTC -ACCGGATTTTGTTGATAACGATCTAACACCAGCGGCTCGTCAAAAGTGAGATCCACGAGGCCGATCCCATTCAGT -GGCAGGTTTTCAACTTCACGCTGGGTAAGGTTATTAATATCAACCTGATAGCGAATGCCATCAACACGCGCGCGC -GTCTTCTTACCGGCAATTTTGATGTCGTAACTCTGCCCTGGAGAAAGCGGCTGTTCCGCCATCCATACCACATCC -ACCGACGCGCTCTGCACCGCCGGTAACGCTTCGTCTGCCGCCAGCAGCAGATCGCCACGGCTGATGTCGATCTCA -TCCGTCAGCACCAGGGTGATCGCTTCTCCGGCAAAGGCTTCTTCGCGATCACCATCAAAAGTCACGATCCGCGCG -ACGTTTGATTCCACACCAGAGGGCAGCACTTTGACACGTTGCCCGACTTCCACGCGACCGGATGCCAGCGTTCCG -GCGTAACCACGAAAATCGAGATTCGGGCGATTAACGTACTGCACCGGGAAGCGCATTGGCTGAGCATCCACCACT -CGCTGGATCTCCACGGTTTCCAGCACTTCGAGCAGTGTCGGACCGCTGTACCACGGCATACTTTCACTTTGCGAT -GCCACGTTGTCGCCTTCCAGTGCAGAGAGCGGCACAAAGCGGATATCCAGATTACCCGGCAGCTGCCCGGCAAAG -GTCAAATAATCTTCACGAATACGGGTGAACGTCTCTTCACTGTAATCCACCAGATCCATTTTGTTGATCGCCACG -ACCAGATGTTTGATCCCCAACAGTGTGGAGATAAAACTGTGACGACGGGTTTGATCGAGCACGCCTTTACGGGCA -TCGATCAGTAAGATCGCCAGTTCACATGTCGATGCGCCAGTCGCCATATTGCGGGTGTACTGCTCGTGCCCTGGG -GTGTCGGCGATAATAAATTTACGCTTCTCGGTAGAGAAATAGCGGTAGGCCACGTCAATGGTGATGCCCTGTTCG -CGCTCAGCTTGCAGGCCGTCCACCAGCAGAGCCAGATCCAGCTTTTCGCCCTGGGTGCCGTGACGCTTACTGTCG -TTATGCAGCGATGAGAGCTGATCTTCGTAGATTTGGCGGGTATCGTGCAGCAGACGACCAATCAGAGTACTTTTG -CCGTCATCGACGCTACCACAGGTCAGAAAACGCAGCAGGCTTTTATGTTGTTGCGCAATCATCCAGGCTTCGACG -CCGCCTTCATTGGCGATTTGTTGTGCAAGTGCGGTGTTCATCTTAAAAATACCCCTGACGTTTTTTCAGCTCCAT -AGACCCCGCCTGGTCGCGGTCAATCACGCGGCCCTGACGTTCACTGGTGGTGGAAACCAGCATCTCTTCGATGAT -TTCCGGCAGTGTTTGTGCATTTGACTCCACCGCACCGGTCAGCGGCCAGCAGCCCAGCGTACGGAAACGCACCAT -CCGTTTTTTAATCACTTCGCCCGGTTGCAGGTCGATACGGTTGTCATCAATCATCATCAACATACCGTCGCGTTC -CAGAACCGGACGTTCCGCAGCGAGATATAGCGGAACAATGTCGATATTTTCCAGCCAGATGTATTGCCAGATATC -CTGCTCGGTCCAGTTAGAGAGCGGGAAGACGCGGATGCTTTCGCCTTTGTTAATTTGCCCGTTGTAGTTGTGCCA -CAGCTCCGGGCGCTGATTTTTCGGATCCCAGCGATGGAAGCGGTCACGGAAAGAGTAAATTCGCTCTTTAGCGCG -GGATTTCTCTTCGTCACGGCGCGCACCACCGAAGGCGGCATCAAAACCGTATTTGTTCAGCGCCTGTTTCAGGCC -TTCAGTTTTCATAATATCGGTATGTTTCGCGCTGCCGTGCACGAATGGATTAATCCCCATCGCCACGCCTTCCGG -GTTTTTATGCACCAGCAGTTCGCAGCCGTAGGCTTTAGCAGTACGATCGCGGAACTCATACATCTCGCGGAATTT -CCAGCCGGTATCGACATGCAGCAACGGGAAAGGCAGCGTACCTGGATAAAACGCCTTGCGCGCCAGATGCAGCAT -GACGCTGGAATCTTTACCGATAGAGTAGAGCATCACCGGATTTGAGAATTCTGCCGCCACCTCGCGAATAATGTG -GATGCTTTCCGCCTCCAGTTGCCGCAGGTGAGTAAGTCGTATTTGATCCATAACCGTTCCTTTGCAATACCGCTA -TTTTCTTGCCATCAGATGTTTCGACTATAGGGAGCGTAAGAGAACGAATGAAATTACCAATTAGAATGAGTAGTT -CCTTAACGGAATAACGATTTGGCAAAGCTAATATCAAAAAGTGCTTAAGGCACCGGATTTCGGGCGTTTAGGAAG -ATTTGAAATTGTTTTAGCGCAGCGGCAGTTTCATACTATGGCGGTAAAAAAATTTGCATGGTATTTAAGGACTCA -CTATGTTTTCCGCATTGCGCCACCGTACCGCTGCCCTGGCGCTCGGCGTATGCTTTATTCTCCCCGTACACGCCT -CGTCACCTAAACCTGGCGATTTTGCTAATACTCAGGCACGACATATTGCTACTTTCTTTCCGGGACGCATGACCG -GAACTCCTGCAGAAATGTTATCTGCCGATTATATTCGCCAACAGTTTCAGCAAATGGGTTATCGCAGTGATATTC -GGACATTTAATAGTCGGTATATTTATACCGCCCGCGATAATCGTAAGAGCTGGCATAACGTGACGGGAAGTACGG -TGATTGCCGCTCATGAAGGCAAAGCGCCGCAGCAGATCATCATTATGGCGCATCTGGATACTTACGCCCCGCTGA -GCGATGCTGACGCCGATGCCAATCTCGGCGGGCTGACGTTACAAGGAATGGATGATAACGCCGCAGGTTTAGGTG -TCATGCTGGAATTGGCAGAACGCCTGAAAAATACGCCTACCGAGTATGGTATTCGATTTGTGGCGACCAGCGGCG -AAGAGGAAGGGAAATTAGGCGCTGAGAATTTACTCAAGCGGATGAGTGACACCGAAAAGAAAAATACGCTGCTGG -TGATTAATCTCGATAACTTAATTGTTGGCGATAAATTGTATTTCAACAGCGGTGTAAAAACCCCTGAGGCAGTAA -GGAAATTAACGCGCGACAGGGCGCTGGCAATTGCGCGCAGTCACGGAATAGCCGCAACGACCAATCCGGGTTTGA -ATAAAAATTATCCGAAAGGCACTGGGTGTTGTAATGACGCAGAAATATTCGACAAAGCGGGCATTGCTGTACTTT -CGGTGGAAGCGACTAACTGGAATCTTGGGAATAAGGATGGTTATCAGCAACGCGCAAAAACACCTGCCTTCCCGG -CGGGAAATAGCTGGCATGACGTAAGACTGGATAATCACCAACATATTGATAAGGCTCTTCCTGGAAGAATAGAAC -GTCGCTGCCGTGACGTTATGCGGATAATGCTACCTCTGGTGAAGGAGTTGGCGAAGGCGTCTTGATGGGTTTGAA -AATGGGAGCTGGGAGTTCTACCGCAGAGGCGGGGGAACTCCAAGTGATATCCATCATCGCATCCAGTGCGCCCGG -TTTATCCCCGCTGATGCGGGGAACACCAGCGTCAGGCGTGAAATCTCACCGTCGTTGCCGGTTTATCCCTGCTGG -CGCGGGGAACTCTCGGTTCAGGCGTTGCAAACCTGGCTACCGGGCGGTTTATCCCCGCTAACGCGGGGAACTCGT -AGTCCATCATTCCACCTATGTCTGAACTCCCGGTTTATCCCCGCTGGCGCGGGGAACTCCCGGGGGATAATGTTT -ACGGTCATGCGCCCCCCGGTTTATCCCCGCTGGCGCGGGGAACTCTGGGCGGCTTGCCTTGCAGCCAGCTCCAGC -AGCGGTTTATCCCCGCTGGCGCGGGGAACTCAAGCTGGCTGGCAATCTCTTTCGGGGTGAGTCCGGTTTATCCCC -GCTGGCGCGGGGAACTCTAGTTTCCGTATCTCCGGATTTATAAAGCTGACGGTTTATCCCCGCTGGCGCGGGGAA -CTCGCAGGCGGCGACGCGCAGGGTATGCGCGATTCGCGGTTTATCCCCGCTGGCGCGGGGAACTCGCGACCGCTC -AGAAATTCCAGACCCGATCCAAACGGTTTATCCCCGCTGGCGCGGGGAACTCTCAACATTATCAATTACAACCGA -CAGGGAGCCCGGTTTATCCCCGCTGGCGCGGGGAACTCAGCGTGTTCGGCATCACCTTTGGCTTCGGCTGCGGTT -TATCCCCGCTGGCGCGGGGAACTCTGCGTGAGCGTATCGCCGCGCGTCTGCGAAAGCGGTTTATCCCCGCTGGCG -CGGGGAACTCTCTAAAAGTATACATTTGTTCTTAAAGCATTTTTTCCCATAAAAACAACCCACCAACCTTAATGT -AACATTTCCTTATTATTAAAGATCAGCTAATTCTTTGTTTTCAAACAGGTAAAAAAGACACCAACCTTAAACCAT -CCAAATCTACCGGGGTACGCCTGTTTAACCCAAATGTCTGGAACTCAAATCCCGTTTCCGTATTCGTTGCCCATG -CCATCACTACATTGCCTTCTTCCGCCAGTCCAGCTATTTGTTCCCAGATCATTTCACGAATTTTTGCGGATACAT -CACCTACATATACCCCTGCACGTACCTCCAACAACCAGATGGCTAATCTGCCTCGTAAGCGCGGAGGTACATTTT -CAGTGACCACGACCAACATACTCATTTCAGCTACTCCGATGGCCTGCATCTCCCAGTGAAACAGGAAGCGGAATG -GCAACAGGCTGTGCATCTTCAGGTGGGGCCGGCGGTTGTATTTCTCCAGCGGCAAGCACGTCCTCTATAAGCGGA -ATCAATTTGGCTAATGTTTTACTACTGCGAAAAATATCCCTGCACGCCAAACGGACTTCCCGGTCCGGCTCACCA -GGGTTACGACGCGCTATCTCAAAAGCTTTCGGTACAACAGTGTCAAATTTAATGATGTCTGCAATATCGTAAACA -AAGGAAAGAGGCTTTCCTGTATGCACAAACCCAATAGCTGGTGCATAACCAGCTGCAAGTATCGCCGCTTCAGTT -ACGCCGTATAAACAGGAAGTTGCAGCGCTAATGCATTGGTTGATCGTATCGCCCTTTTCCCAGTCTTTCGGATCG -TAGCGACGTCCATTCCATGTCACGCCGTATTGCTTCGCCAGAAGTGCGTAGGTTGCCCGCACGCGACTGCCTTCT -ATACCTCTGAGTTGCTCTACGGAGCGCCGGGCAGGCGCAGGTTCTCCAAACCGAAGTTCAAACATTTTACGTACG -ACCTTCAGACGCAAATCTTCATCCAGAGCAAGTTTTGCCTGATAGAGCAGCTTATCTGAACGCGCACCTCCAGGC -TGACCAGAAGCATAAACACGAACGCCCGCTTCCCCCACCCATACCAACAATGTTCCAACTTGCGCAGCCAGGCGT -ACAGCTGCATGCGAAACCCGTGTACCAGGTTCCAGCATGATGCAGGCAACCGAGCCAACAGGAATATGAGTGCGG -ATCCCTGTCTTGTCGATAAGTACAAACGCGCCATCTATTACATCGATCTGCCCATATTGCAGAAAGATCATGGAG -ACGCGATCTTTGAGTGGAATGGGATTAAGGGGAAGCCAGGTCATTTTATTACACCTCAATCACAGTGGAGCCAAA -GATAGCAAGCCACATCCCATCGATTTAGCTGGCCCAATACCTTGCTGTACAAGATCTATTAACGCTGGCGCGTCG -TTGATGGTGAGCACACCTTCAAAGCAAACCGTTTGGATCTTTCCACTTTTACCATCACCAGAAAAATACTGTGGC -CGTTCCGATATGGGATGCACATCTTCAACGCGCGCCGCATTGCCCAATTTACGTTGCAACCACGCGATTTGTTCT -GCTTCTTTTATTAACGGAACCCGACAGCGTTTAATATTCCCTTTACTGTCCAGGCGCTTTTGATTGTCGAGAATA -GTTTTGATCGGATTTGCCCGAAGCCGAAAATAGAGTGGAACACCAACCTGAAGTTGAAATTCAACCTGTTTAGTT -TTAATGACTGTCGCAACGGCAGTTGAAACAGGCATTTGCGCTGACTGCAATAAAACATGACAGCCTTCTGGTGTG -TTTCGCTTCTCAACATGAAAAAGAAAATCACGAGCAGCATCCGGTCTGTTTGGAAATAAATGCCATAATCCCTGG -TGAAGTTGGTAAAGATCCCTGCTCCAGGCCCTGGCAATGATGACTTTACTGAGATACATCCATACCTCCTTTAAT -CACATACCATTCTCGGGAAGCAAATTGTCGAGGCAAGGTGATCATCGGTTCGTCGCGCGCCGTAAATTTTAAATG -ATGCCCTGTAACTGATTCCTCACTATATATATCGCCGCCAACGGGCTCATAATTTAATAGCGCCTTCTGAGGATC -CGATGCCTGACATGTCCCCAAAAAAAGCGGGTGTGTTAGTGGGCAACTTCTCCGCCCCAGGTAAGGTGTATACCG -AGGCTTTAATACTGCTTTTTCAAGTTCTGAGATAACCATCGTTGCATGGGGTGTTAACCAGAGAGCGACGGTAAA -GGAGGCATCACATAAATATTCGCGCCATGTTTGAATCGTTTCATGACTTTTCAAACCACGGTAATCTTCTCGCGC -TCCAAGGACTGTATGGTAATCACGCAACCCCGTTACAGACACACGACGATCGTCAAGAATGAGTTCATCGCAGCG -CACTGCAAATTGCACACTCTCTGATAACGCCTGTAATGAAGAAGTATCATCACGTTGGATCCCAAGACAAGCCCC -GAGTAGCCCTAATAACCCGCTTCGGGTCGGAAATCTTCCGGTAGGTCGCGTTCCTTCAAAGGTCGGCTGCCCCCA -GGCTTGCATTGGCCCAGCAAGCCGCAAGATCAAATAAGATCTCATGTTCACGCCTCGCCATTATTACGAACCCAG -GATTTTAACTGTTCTAAAGTAGGCATTTGTTTAACTTGAGCAGTAATTGGGTCTACATCAGATAAGCTGAATTGC -GCAGCAGCTCCGTTCAGACCATATCCATTGGCAACGCGATCCCAATATTGATTAAACGCCTGTATAGACGGTTGC -AAAAAGCCATCTTTCGCTTTAACCGCTTTTTCAAAAGCATTTGCCATAGAAAGTGGCATATCGGAGAAATTAACC -ATTACCATATCCGCAGGGTTAAAAGCGGCATAAGTACGCTGTTTTGCTCCAGGGACCTCTGTTGCCAGCATATGA -ACAACATGGGTTGCAATTTCCAGAGCCTGCTCCCTGGAGGCACCACCTAAATTTTCCTGAAGTTGAGCGAGGTTA -ATGTTGGCATAACGATAAAAAACACCCGATGAAAATTCCTGAGTTCCCAGATGTGCAGAACCTTGTTCCTGTAAA -TCATCTACAGCGGTGAACCAGTCAATATCAGAATCAACCTGATGAGTAGTGATCGCATGCGCAATGGACATTGCA -CCATCAACTTTTCCCAACTCAGTCATCATGCCGCTGGTTGCCATTCTTCCACTAAGCGCAATATCAACACCCTGC -TGTAAATTCACACGTATGGCGGCAATATCTTCCTTAAGAACTTTGAGCAGCTTTTTATCATCCAGATTATCAGCC -TCTGCTTTTGCAACCTGCTCACAGAACCAGGCTATTTCTCCCACAACCCAGGGAGTAACCGCATCGGCAGAAATC -TTTTCGGCTTCATCAACTGATTTACCGGAGAGCAGCGCTAATGTCTTATCGATGATTTTTTGGTCAAAACGTTCA -CCAAGTTTTTGCCGAAGAACATCACGTAATTGTGCAAGATGAATGGTTCTGAGACTGGATTCACCAATATTTTGT -GCGTAATAACCACTTTTACGCATCGCACGTTTAAGGCTTTGACTTGAAATTCTTACTCGTCTTTTGCCGCCGAAA -ATAGCGTCTTTCTGCATGTTCATATCGTCGCGGTTCAGACATGAAGGGCTGTGAGAGATCAGAACATGAATATTG -ATAAAGTTAGACATAGAAAGGTTTCCTTACGCATTTTTGTTTGTGGTCAATACAAAATCTTCCAGAAGTTGCTGG -CGTTCGCGCTTTCCCCACCAGGTCAACATCCTGGCCATTAATGGCCAGTCAAGTACGGGTTCGGCGTGAGTAAGT -AATCGACGTAACTGGACCATATCGGCTGTTCTGTCAGCCCGAATTAATTGAAAGATACGGCGCTCGTTAATTCTT -CCACTATTGGCTAAAGCTCTTCCCAACGAGATACCTGTTGTTTGCTCCGATTTTTTGTCCTGATGTCGGATGACA -TTCTTTCCTGCGCTCAGGCAAAACACCATGCGCAAAAGAGCCTGCTGGTGACGTGGGTTTTCCCAACCAAAAGGT -TGCACCAGCCTATAAAACGCAGGGATATCGCGTAATTCATCAGGTTCTGAAACACGTCTAATTTGCGCACATGAT -CCATTATCCAGTTGTTGCCAGGCTCGATATAAAGCCATTGCATCAATTTCATCAGCCATTTGATGGCCCTCCTTG -CGGTTTTAACTCCCGTAAATGTTTGTATAGCGTGGCGCGGGCAAGCGCTAATGTGCTTATTAATTTAGGATGATG -TGCATAGGGAGCTACAGATTGATTAAATAGCATTTCACACAATTGATGAAGTTTGTCTCGTAAATCAGCTATTAC -CTCATCAGCCTGGGAAAAATTAACATTCGCCAGTACATCGGGAATTAATAATTCACTCTGTCGATAGAAATGCCT -TTCTGCAGTCTCATGAACAGAGACTCCGGCCCCTTTGAAGTCTTTATTTTTAAACCCTTCTGCAAAGGTATATAA -CGCCTTGCGTAAGGCTGTTTTATATCCCAAACCAACAGTCACTATTTCGTTTATCACATTGCCGTATTGTTGCCA -CCCCTGATTAAACATCAACACATCATGACGCCGTTCAAGAATAGATGCTTGATTATTACGATATCCCCCCATAAT -CAATTCAAGAGGACTTTGCGGCGCAATATTTCTGAATTGATTCACAACCGCCGCCACGCGATTTCCATTTTCATT -TTGAATAATCTTATCTACCACAACTCGGCTGATTTGTGTCCATGATGGTGCGGAGGTGGTGAAAGCAAGAAATTT -TTCCTCAACCTCCCCTTTCTTGACTGTTACCAGACAAGGGGAATGCGGATGGGGCCATAGCCCATTAACTGTAAA -GGTAAATTTTTCCTTAAGAAAACCGGTATAACGCAAATTGCTTTCCTGTCCACAGCAAGAACATTTACCAATCCC -AATGGGATCGCATAATTCAATATGCGCTGGTTGCCAGAATAGACCACGGACAAACCCAATTGACGAAGCAGGTAT -AGACTCATTGGACTTGATAGGTTTAATCCAGGTAGGTTGGTTTTCCGTATGTGATTCATTAGGAAATTGTTTTTG -AAGACGAGGTAATGTGAGGACATTGAGTAACACCGTTGAACGAAGATCGATCCCACGTACGAACGTTGTTACAGG -TGTTCCTCCACGTAAACCGCTTTTAAAACCACCACCAAAACCTGGTGCCTGATTCGCCTGGTTGAATAACGCAAT -CGCAGTGCATCCACCACATAATGCTTCACCCTGCCCCGGTTGATTGACAAATGCACAATTCGTCGCGCCGCTTAC -CCCAGCCAACAGTTTTTCCATTGGAGTCACATCATTTGCTTTGACACCTTTGGTCTGCATAAAGGGATGTTCTGC -GTGATTAAGGTAGAACATATCTATCCACGGCGCGATGAGTTGTTGAAACTCATCTTCAGTGAGCGGATTCATTAT -GCGATGTCGAAATTCAACGTCATCTTTTGCCGGGGCGATAATTTGCCCAATGCAAACCAGCAGTGCTAAAGCGGC -CAGTTCCATATCGTCACGGGGCAAACTTAATCGCCACTGATCTCTACTGCAGTATAGCGATTGCAGATTTATGAT -TTGGACTTTCCCCCCGTTTCGCGGGCGTACAGGGATCCAGTTATCAATAAGCAAATTCATTTGTTCTCCTTCATA -TGCTCCGACATTTCTCCTGCATTTCTATACGTCGGCACACTTCCGTTATCGGTAAAAACAAAGAAAAAATACGGC -GTAATTAATTCAATAATCACATTCACTGCAAAAATATATTCATTGGTTTAATACAATTAACCTATACATATATTA -AGATGTGTTGAATTGTTTAAAGACAATAATGCATGCATTTCAAATCTGCAAGTTATTCGTTTTATTATTAAAGAA -ACTTTTAGTTATAATAATTACCATGAATTTTATTACATAAAATATTCATACTGTGAATATAAAATCTCATACCGG -GAAATTAAAAGAAGATGTACATTGTGCACCTTCCCTACTTAAGTAGGGATAAACCGTTATTGGTCTTATTATCGT -CATTGATAACAATCATTCCCGAAGTTATTTGGGATTTGCAGGGATGACTCTGGTCATCCCTTCATCCCCTGTATA -GGTAATAACAATACTGTTACCCTGCCAGACCCATCCATCCAGATTCTGTTTCCCTTCCAGCCAAAGTAACCCATC -TTCATCTACTACTTCAGAAAAACTACGTTTCCAGGTGAAGGGTACATTGACGCGATTAAGTGCAAGCGCCTCATA -CTGCTGTTCATGACTTAGGTCCTCGTAGACCTGGCCATCGAGCAGTTGTTTACCTGAAGACGTTTGTACATAAGG -CAATAATGGCAGGCTCATTTCCCCATCCCTCGTTACCGCAAGAATGGTTTCATCGTTATCCTGCAAGCTATATTC -TTCAGCCCACTGCAGGACCTTGCGAGCCTTGAACCTTTTTTCACACTCGGCGCTTTCAAATTTATCCATGCCATT -GCCGACCCATTCTGGCTCATCCATTTCCGCATCATCGTAAATGCTATCCAGCCATTGCCGGTAAGCATCAGGGAA -AAATAAGGATGCTCCATTAAGCTCCTCAATATGTTGCTGCGTCCGCCACATGACTCTAACGTTGCTATAAATATG -CTCATGTCGTCCGTAACCCTCGCCATCAGGCAGCAAAATGGTGGCAACAGGAATCTCAAAACCAGCGGGACGATA -TTTGCGATGATGGCGATGTAAACGGCCCAATCGTTGGAAAAGCAAATCTGCAGGACAATGCTGAGTAATTAACCA -ATCAAAATCAACGTCGAGTGATTGTTCCACGACCTGGGTTGCGACAAGTATCCGTCCAACATTTCGCTTCCCATT -TTTGCCGAAATTGCTAATAACTCGATTCTCTTTTTCACGACGATCGTTCAGCGTAAAGCGCGCATGAAACAAATC -TATATCTACTTGCGTGTTATTTAGCTCCTTTAGCCGTTGGTAGCATACTTGTGCAACGTCAACCAAATTGCAAAT -AAGACAGACCTGTGCACCCGCGTTTGCCGCTGCGATCATTCGCTCTAACATCGTAAGGTCAGGTAACATGTCAGC -TAAACAAATAGGTTCTGGCTGAATCGAAAAGCGGGGCGGGAGTTGTTCTGGATGAGCTAGCAGATCAAAACGTTG -CGCACCATTCACACCTCGCCAGTTAATGAGTGGATATGCGGAGTTATTTTCCACTGGATCTGTATGCAGACCATA -AGTATCCAGAAGTTTCTGTTTTTGTTTCATTGGTAGGGTTGCGGAAAGAAGAATAACACTCCCTCCCACATCAGC -CTGAGCCTTGAGCACTGCCTCCAGCAAGCCGTTCATATAGGTGTCGTAAGCATGAACTTCATCAACAATTAAAAC -ACTTCGACCAATTCCCAAACCACGGATAAAGCGGTGTTTAACTGGCAATACCGATATCAACACCTGATCAATCGT -GCAAACGCCGATTTGCCCAAGAAACACTTTCTTATTGCTTTGTGACAACCACTGACAACACTGAACCCACGCTTC -TTCTTGCCCCTGTTCAGTAATCGCGCGTGATTTTATTGATTGAAAGAGGTGGTTAAACCGTGAATTGCCATGAGC -AAGAATAAGATTTGGGGATGAAAATAAGTGGCTCGCGCTCGCTTCCATTCTCGTAAGCATAGCATTCGCGGTAGC -TTGTGTTGGGAGGGCAAAAATAACACTATCCGCAATTTGTTGATCAATAAGTTTCCAAGCATAGGCCAGCGCTGT -TTCCGTTTTACCGGAGCCTGTAGGTGCCTCTATTACCGTCAGCCCGGGAGCTACTGGAAGAGCATCAACTAACAC -CTGTAATTGTCTGGGTTGATAGCCATTGTCCAGTAGTGCATGAACACCTTCATAACATCGCTTATTTGATACAAG -TCCACTCAACTCCAATACCCGGCTCGCATCCTGCTGTCGGTCCTGGAAATACGTTCTCAGAGCATTTATGTCGGA -AGGCGCATCCTCATTAAACAGAAAGGTATTCGTTGTAGTCCAGGAGCCTAACCAGTCAGCAAGCGAGCAAAAACC -TGCTAACAGTGATGAACAATCAGGTGGTATATCGTTTATAGATAACCCCGCTGGCGTTAAAAATAATGCTTCCAG -TACAGATATCCACTCCTCACGAGCCTGTTTATCTTGCGCAGCATAAGATGCCAGAGAAGCTGGCATTTCCCAACG -CGACTTATCTTGATCCTGGGAATGTAATATAAAACCATGATGTCCTGTAACGGCCTCTACCCATGGAAACCAGGA -CTCATAAGGATGAGGAGCGGCATCAAAAAAACTGAAAAAATCCCCGAGAGATTGCTCTGAAAGTGAATCCTGGTT -AAACCAATACAGACCGGCTGCACCATGATTAAATTTACGGCACATTTGTGTTGATGGACCATTAAGTGATGGCGT -TGCAGGATTTAATTTCAGCCAACTTTCTGCTGATTTATATTGGAATCGTATATCAAACTTTCCAATATCATGAAG -AGCAATGAAAAATAACAGCCAGGCCTTCACCCTCTGTTTTGATAGCATTTCATTTCGGCAAAAAGTATTTTGCAG -TACGACTGATTGATCCCACCAGCAATCTGCAACAGCAGCAACATCAAGGCAATGATAAATTAACAGATGAATATC -ATTTCCTTTCGTCAAGCTTTTTGAGGATTTTCCCCAGTAATGGCATATATATTTAAAAGGTTCCATTAATAGCCT -CCCTGTTTTTTTAGTATTATCGATGATATCAGCGGGCTATTTTTCGATGCTGCTCATAAATATCGAATTACAGTG -ATATACACATGTCTTGCCTCCCTGCAAAGAAGAGACTAACATTCGAATTGTTTGGGTTCGAACGCTGGCCTCAGG -TTGATAGAAATATCGCCTGGGGCTTTTGTCCATCTGGAACCTCGCGAATGCTTAACGCCAGACAGCCTCAAGCAC -CCGACGCCATTCTATACCTGATAATTCTTCCCGCGGCGTTCACGTTTAAAATCAGGAATGCTGCTCGCAAAATAA -AAACGCCCCCATCATTTCTGACAGAGGCGTTTAATTTGTCCGGCAATATTTACCCTTCGTGTAACCCACATTCCC -TTTTTAAGCCAAAGAAACGCGTTTCTTCTTCCGCCATGCCGGGTTCCCATTTACGGGTTGTATGGGTATCGCCCA -CCGATAAATATCCTTCATCCCATAATGGGTGATATTTCAGGCCATGTTTTTGCAGGTACTGATAAATAGTTCGGT -TATCCCAGTCGATAATCGGCAGCACTTTAAATACGCCACGCTGAATTGCCAGCACCGGTAAATTGGCACGACTGC -CGGATTGTTCACGGCGCAGGCCAGCAAACCAGGTTTGCGCATTCAGTTCTTTCAGAGCCCGGTTCATCGGTTCGA -CTTTGTTGATGTCATTGTACTTTTCAATGCCTTCAACGCCCTGCTCCCACAGTTTTCCGTAGCGTGCTTCCTGCC -AGGCTGCGCTTTCGGTAGCACGGTACACTTTCAGGTTGAGCTTGAGTTTGTCCGTTAACTCGTCAATAAAGCGGT -AGGTTTCCGGGAACAAGTAACCCGTATCGGTGAGGATCACCGGAATATCCGGGCGAATTTGATTCACCAGATGCA -GGCTCACCGCCGCCTGAATGCCAAAGCTGGAAGAAAGTACATATTCACCGGGCAGATTATCCAGCGCCCAGGCTA -CGCGGCCTTCAGCGTCCAGTTTTTCCAGTTCGGCGTTAGTTTCCGCCAGCGCCAGAATGCGATCTACCTTCGGCA -GTTCGTTCAGGGCGTTTAGATCGAGTTTGGACATAGATTCCTCACTGTTTGCCTTGCCTGATGCGACGCTCACGC -GTTCTTATCAGGCCTACAAGACCGGGCTGATGGTTAATCCCACAAATCACGCGCCGGATCGAGCACCGGGCGAAT -GATGCCCGCACGCACCGTAAAGTCGCCGAAGCCTTCACCCGCTTCGCGCTCTTTCGCCCAGCGCCCTATCAGTTC -ATCAAGCGACGCCAGGATTTCCGGCTCGGTGATGTTTTCTTTATACATCCGTGGGATACGTGTCCCAATGCGGTT -GCCGCCAAGATGCAGGTTGTAGCGACCCGGCGCTTTACCCACCAGGCCCACTTCCGCCAGCATCGCGCGACCACA -ACCGTTCGGGCAGCCTGTTACACGCATCACGATATGCTCATCGCTGACACCATGTTTCGCCATTAAATTATCGAT -GTTGTCGATAAAAGACGGCAGGAAACGCTCTGCTTCCGCCATCGCCAGCGGGCAAGTCGGGAATGACACGCAAGC -CATCGAGTTTTCACGCTGCGGCGTGACGGCATTCATTAACCCGCTCTCTTTGGCGATCTTCTCGATCTTCGCTTT -CTCGCTTTCCGGTACACCGGCGATGATCAGATTCTGGTTCGCCGTAATGCGGAAATCGCCTTTGTGGATCTTCGC -GATCTCCAGCAGGCCGGTTTTCAGCGGACGCGCCGGATAATCAAGGATGCGACCATTTTCGATAAACAGCGTCAG -GTGCCAGTTATCATCAATGCCCTTAACCCAGCCAATACGATCGCCTCGTCCGGTGAACTCATATGGACGGATCGG -TTCAAATTTGATCCCCGCGCGACGCTCCACTTCCGCTTTAAACGTCTCAACCCCCACGCGCTCCAGCGTGTATTT -GGTTTTGGCATTTTTACGATCGGTTCGGTTACCCCAGTCACGCTGAGTTGTCACGACGGCTTCGGCCACCGCCAG -CGTATGCTCCAGCGGCAGATAGCCAAACTCACTCGCGGTGCGGGCGTAGGTTTTCTTGTTGCCGTGTTCGATGGA -AAGCCCACCGCCCACCAACAGGTTAAAGCCCACCAGCTTGCCGTTTTCGGCGATCGCCACGAAGTTCATGTCGTT -GGCGTGCAGATCGATATCGTTCTGTGGCGGGATCACTACCGTGGTTTTGAATTTACGCGGCAGGTAGGTCTGGCC -GAGGATCGGTTCTTCATCAGTAGTGGCGACTTTTTCCTGGTCGAGCCAGATCTCCGCATACGCGCGGGTACGAGG -CAACAGATGCTCAGAAATCTTCTTCGCCCACTCGTACGCTTCCGCGTGCAGCTGCGACTCGTAAGGGTTCGAGGT -GCAGAGTACGTTACGGTTCATGTCGTTAGCTGTCGCCAGCGCATCAAGACCGACCGAGTGCAGCATCTGGTGCAC -CGGTTTGACGTTCTTTTTCAGAATGCCGTGGAACTGAAACGTCTGGCGGTTGGTCAGGCGAATGCTGCCATAGAT -GGTGTTTTCACCGGCAAATTTGTCGATCGCCTGCCACTGTTTAGTGGTAATCACCCCACCCGGCAGACGACAGCG -AAGCAGCATCGCGTGGCGCGGCTCCAGCTTCTGTTCAGCACGTTCGGCGCGGATGTCGCGGTCATCCTGCTGATA -CATGCCGTGGAAGCGAATCAGCAGGAAGTTGTCGCCCTTAAAGCCGCCGGTCAGACCGTCGTTTAAATCTTCCGC -AATGGTGCCGCGCAGGTAGTTGCTTTCATGCTTCATGCGCTCGGCGTCTGTCAGTTTTCCTTCGACCACTAAAGG -CCCTGGATGTTTTTCGCTCATTAGTAGACATCTCGCTGATAACGGCGCTCTACGCGCAGCTCACTTAAAAATTCA -TCCGCCGCTTCGGTGTCCATGCCACCAAATTCGGCAATCACTTCCAGAAGTGCCTGCTCAACGTCTTTCGCCATG -CGATTAGCGTCGCCGCAGACATAAATGTGGGCACCATCATTGATCCAGCGCCACAGCTCCGCGCCCTGTTCGCGC -AGTTTGTCTTGTACGTAAACTTTTTCTTTTTGATCGCGCGACCAGGCAAGATCGATACGTGTCAGCACGCCATCT -TTGACGTAGCGCTGCCACTCCACCTGGTACAGGAAGTCTTCCGTAAAGTGCGGATTACCAAAGAACAGCCAGTTT -TTACCTGGCGCTTCGTCGGCGGCGCGTTGCTGCATAAAGGCGCGGAACGGCGCAATACCGGTGCCTGGGCCAATC -ATAATCACCGGGGTTTCTGGATTGGCTGGCAGGCGGAAGTTATCGTTATGTTCGATAAATACGCGGACTTCGCCC -TCTTCTTCCACGCGGTCAGCGAGGAAGCTGGAGGCACCACCGGCACGGGCGCGGCCTTCCACGTCGTAACGCACC -ACACCAACGGTGACGTGTACTTCGTTCTCGACTTCCGCCTGCGAGGAGGCGATGGAATACAGACGCGGCGTCAGC -GGGCGCAGCAGATTAATTAGCGCTTCGGCATCAAGCTGTGCCGGGGAGAAACGCACCATGTCAACAATCGGCGTC -GTCGCGGCGTAATGCTGTAACTTCGCTTTATCGCCCACCAGCGGCAGCAGTGTTTCACTGCGGGTAAGCGTGGCG -TAATTCTCAACAATGTTGGCGGTGTTGACGGTCAGTTCGAAGTGCCACTGTAGCGCTTCGTTCAGAGGCAACGTT -TTGCCCTCGACGGTGACAGGTTCATCGCCTTTCAGCCACAGCAGTTCGACAAGTTCTTTCACCAGTGCCGGATCG -TTCTGATACCAGACGCCCAGCGCGTCACCCGGCTGGTAACGCATGCCCGAGTCACCTAAGTCAATTTCGATATGG -CGAACGTCTTTTTCAGAGTTACGCCCGGTAATTTTCTGGTTAACAGAGAGGCTAGCCACCAGCGGCGCGTCTTTG -CTGTACGGGCTGGTGTGGATTTCATTTACCGCGCCAGTAGCGACGGATTGCGAAGGTGCCGCGACAGGCGCACGC -GATTTAAGCGCATCAACCACGCGGGCGCGCCACTCGCTGGCAGCAGCCTGGTATTCAACATCGGCATCGACACGG -TCGAGCAGGCGTTCACCACCCAGTTCCGCCAGCTTGCTGTCGAAATCTTTCCCGGACTGGCAGAAAAATTCATAA -GAGCTATCGCCGAGGCTAAACACGGCAAACGCGGTGTTTTCCAGCTTTGGCGCTTTTTTGGAGAACAGGAACTTA -TGCAGCGCGACGGCTTCTTCCGGCGGTTCCCCTTCCCCTTGCGTTGACGTCACTACGATGAGCAGTTTTTCGCTG -GCGATTTGTTTGAATTTATAGTCGCCCGCGTTCACCAGCTTAACGTTCAGTTTTGCTGCTAATAAATCATCACGT -AATGCTTCAGCAACCCGGCGCGCATTGCCGGTTTGCGAGGCGGAGATAATAGTTATACCCGGCATTTCTGCGGCT -GGCGCTGGCGTCGCTGCAAGCGCAGCAGGCTGCTGATTGAGTACGCCCCAGAAATAGCCAGAAACCCAGGCAAGC -TGGGTGGGAGTTAAATCGGTCGTGGCCGCCTGAAGGCGTGCCAGTTGCTCCGGGTTCAACGGAAGCAACGCGGAA -GGTGGGACCTGTGTCGTCATGCGTCGTTATGTTCCAGTAAGCAAAGCTGTTTCTGCGCCCTGTCAGCGCCCATAA -AACAGAAGAGAAGGTAAGGTTAACGGGGCAAACGGTGTGGATTAAAGACGGGATAGCGATAACTAATAACCAAAT -CGACTAACCTGTTTTAGCAATAGTCTTTAACAACAAAATAGATTAACCAACCTAATGAAAAACAAATGAATTTAG -CCAATCATTAAGATAAATCAGCGATTTTGCGCAACAAAGTCGTTTTAGATAATGCGAAAAAACAGCCTTTCCGGT -ACTCTACGGCGGTTTTATCGTCCTGTAGAGAAATTATGATGTCCACCACGTTATTTAAAGATTTCACCTTCGAAG -CCGCTCACCGCTTACCACACGTCCCGGAAGGGCATAAATGTGGTCGCCTGCACGGGCATTCCTTTATGGTGCGAC -TGGAAATTACCGGGGAAGTCGATCCGCATACGGGCTGGATTATCGATTTCGCTGAACTAAAAGCGGCGTTTAAAC -CAACCTACGAGCGCCTCGATCACCATTATCTCAATGATATTCCAGGTCTGGAAAACCCAACCAGCGAGGTTTTAG -CAAAATGGATTTGGGATCAGGTTAAACCCGTTGTGCCGCTGTTAAGTGCGGTGATGGTAAAAGAAACCTGCACCG -CAGGTTGTATCTATCGCGGCGAATGATAAGAGTGTGTCGGCGGTCAATTTCCCTTAAGTAACGCTATGTTAGGGT -GTTGTGTTCTGGATATCTGGGGCATGACATGGAAGACGACTGCGACATTATTATTATTGGTGCCGGTATTGCAGG -CACCGCTTGCGCGTTACGCTGCGCGCGAGCGGGTTTATCCGTTTTGTTACTGGAACGCGCTGAAATCCCCGGCAG -CAAAAATCTTTCCGGCGGGCGGTTATATACCCATGCACTCGCGGAACTCCTCCCGCAATTTCATCTGACCGCGCC -TCTTGAACGACGCATCACTCACGAAAGCCTTTCCCTGTTAACGCCCGATGGCGTAACGACGTTTTCCAGCTTACA -GCCCGGCGGTGAATCCTGGAGTGTATTACGTGCACGATTCGATCCGTGGCTGGTTGCCGAAGCCGAAAAAGAAGG -TGTCGAATGCATCCCCGGAGCGACGGTGGATGCACTGTATGAAGAAAACGGCAGAGTCTGTGGCGTTATTTGTGG -TGACGATATTCTCCGCGCCCGTTATGTGGTGCTGGCAGAAGGTGCCAACAGCGTCCTGGCTGAACGTCACGGGTT -AGTGACTCGTCCTGCTGGCGAAGCGATGGCGTTGGGGATCAAAGAAGTGCTGTCGCTGGAAACATCCGCTATTGA -AGAACGTTTTCATCTGGAGAATAACGAAGGCGCAGCGTTGCTGTTCAGCGGCAGGATCTGTGATGACTTACCCGG -CGGCGCATTTCTTTATACTAATCAACAAACGCTCTCGTTAGGGATTGTTTGCCCGCTCTCTTCCCTTACGCAAAG -TCGTGTTCCGGCAAGCGAGCTGCTGACTCGCTTTAAAGCGCATCCGGCAGTGCGCCCGCTTATCAAAAACACGGA -ATCACTGGAGTATGGTGCGCATCTGGTGCCAGAAGGTGGCTTGCACAGTATGCCGGTGCAATACGCCGGTAACGG -CTGGCTGCTGGTGGGCGATGCGTTGCGCAGTTGCGTCAATACCGGAATTTCCGTGCGCGGCATGGATATGGCGCT -GACTGGCGCGCAGGCGGCGGCACAAACGCTGATAAGCGCCTGCCAGCACCGCGAGCCGCAAAATCTGTTTCCGCT -TTATCATCACAACGTAGAGCGCAGCCTGCTGTGGGATGTTCTACAGCGTTATCAGCATGTTCCGGCGCTTTTGCA -ACGCCCGGGATGGTACCGTACGTGGCCTGCGTTAATGCAGGATATTTCCCGCGATTTATGGGATCAGGGTGATAA -ACCTGTTCCACCGCTGCGCCAGTTATTCTGGCATCATTTACGTCGTCACGGCCTGTGGCATCTGGCGGGCGATGT -TATCAGGAGTCTGCGATGTCTGTAGCCCGTAATCTCTGGCGCGTTGCTGATGCGCCGCACATTGTTCCGGCTGAC -TCCGTTGAGCGCCAGACGGCAGAACGGTTGATTAACGCCTGTCCGGCAGGTCTTTTTTCGCTCACACCGGAAGGT -AACTTACGTATTGACTATCGCAGTTGCCTGGAGTGTGGCACCTGCCGTTTGCTGTGCGACGAATCAACACTACAA -CAGTGGCGCTATCCGCCTTCCGGATTCGGCATCACCTACCGCTTTGGATAAATAATAAGGATAATTTATGCCCCT -CTTACACCTGCTCCGCCAGAATCCGGTGATTGCTGCCGTTAAAGATAATGCCAGCCTGCAACTGGCAATCGATTC -TGAATGCCAATTTATTTCCGTGTTGTACGGCAATATCTGCACCATCAGTAATATCGTTAAAAAGATTAAGAACGC -CGGGAAATATGCTTTTATTCATGTTGATTTGCTGGAAGGCGCGTCAAATAAAGAAGTCGTTATTCAGTTTTTGAA -ACTGGTGACCGAGGCGGACGGCATTATCAGTACCAAAGCCTCAATGTTGAAAGCGGCAAGAGCGGAAGGTTTTTT -CTGTATTCATCGCCTGTTTATTGTTGATTCAATTTCGTTTCACAACATTGATAAGCAAGTTGCGCAATCGAATCC -GGATTGTATTGAGATCCTGCCAGGCTGTATGCCCAAAGTGCTGGGCTGGGTGACAGAGAAAATCCGCCAACCGCT -GATTGCCGGTGGGCTGGTGTGCGATGAAGAAGATGCGCGTAATGCGATTAACGCGGGTGTCGTGGCGCTTTCCAC -CACGAATACCGGGGTCTGGACGTTAGCGAAAAAATTACTTTGACGGGATAATCGTAACCAATTGAATTTGGTTTG -ATTTGTAGGCCGCACGCCACATCCGACATTCAGCGCCTGATGCGACGCTTGACGCGTCTTATCAGGCCTACAAGT -CCCCAGGCCAGAACCGTAGGCAGGATCATCCGGCAACACGTTATTGGCAATCTGCGTGAATGTTTGTCACCAGTG -CCTCCAGCACCACTTTCCAGTCATCAACCACGCCAACATCTGCCTGTGAAAATACCGCAGCGCTGGCGTCATGAT -TAATCGCCACCACAAACTTGCTATTGCGTACGCCCGCCATTAACGCTGCTGCGCCAGAAGCGCCAACAACAATAC -ACACCTCAGGTGCCAGCAGATGTCCGGAAATACCAATCACTTTTTCAGCATCAACGCCACCGTTCATCACTCGCG -CCCGACTGTAGCCCACTTCGGCTCCCAGCTTTTCTGCCAGCATAGCGATTTCCTGGTTATCTGCCTCTCCGCCCT -GCCCCACCACCAGCACCCGTCTGGCCTCAGCTAATGGGTCGCGGGTAACATTTTTCAGATCCTCTGTGCTAACCA -GCCAGTCCGGAAGCGCACCCGGGACAATGTTCAGTTGTTGCATTCCAGAGGGCAACGTGGCGTTTTTCGCTGCTC -CCGCCTGACGCGCCAGGGAAAGGCATAGCGGGCGTTTTTCTGTTTGCAGCGTCGCCGTTAGCGCATTTCCCCAGT -GGGATTTGCGCACGCTTACGGTTGGAATATCTAACGAAGTCACCTGGCAGATGCTTGCACCATGTAAACGCCAGG -CCAGCCGGGTCGACAGTTCATCGCCAAACGTTCCCGGCGGAAAGAGAACAACGTCCGCAGGCGTTCGCTGCCACT -GTTCCACCAACGCATCCAGCACCTGTTCCGCCACTACAGGCTGAGGTTCAATCTGCCAGTGCGCCAGGGTACAAC -CGCTGAAATCCTGCGCCGCCAGCCAGCTTGCTATTGCGGCATTCTCCTGATTTATTGTCACAATTGCGATATTCA -TGGCTGCATCCTTTGGCGTAAATAGTCCTGCCATAGCTTTTGAGCTTTTTCTGCTACCGTTTGCCCATCAATCAG -CGTCGCTCCGCGTCGTTGCTCTGCTCTTGCCAGTTGCAGACACTGCATCGCTGGCATTTCGGCAGCAACAGTTTT -ACGGATAATTTCTGCTTTCCCCGCAGCCATTCGCTGGCGCATTCCCGGTACTGGCAAGGCCACTTCACCGCACTG -ACGCACGGCAATCACCGCAGGCAAGCGAACCCGGCAACAACGCAACCCATGTTCAGTACGCTGTTCGAGGGTGAT -AAACAGCGCGTCGAGAGTGAAACGCTCCACCTGGGTGAAGCAGGGCCAGCCCAGCATTTCCGCCAGCAAAAATGG -CGTTTGCCCATTCTGCCCTTCGCTGCTTTGGCAGCCGGTAATTATCAGATCCAGCGGATTCTGATGCTGCCATTC -GGCAATATGGCGAGCGACAAATTCCGGCGCAAAGCGCAGATCTGCCGCCGTCTCCAGCAATACAGCTTCCTCAAA -CCCAAGAGCCATGAGATAGCGCAGCCAGTGCAATGCCCGTTCATCCCCCATGCTCAACGCGGTTAAAGACATCGG -CGTACCGTTTTTTCTCTGCGCCAACAGCAGCGCGGCAGCGGCCTGTTCATCAGCACCGAGTAAACTTCGCAGTAG -CGAAATATCCGGTCCGCTTTTACCCTGAGCCGCCGCCTGCCACTCTTTTTCCGCCAGCATTCCGGCATCCGGTTC -GGCTTTAAACGCTAACAGAATGTTCATTCGCACCTCCTACATTTCCCGCCGCCACCAGCGGGAGGGCTTTAGTTT -CTGGTGCCCATAGCCAGGTCACAACAAAACCAACCAACAACACTGTCGCCAGGAGCAATAAGGTGACTTGCATTC -CCCACTGCGCCAGCACCCACGGCAGCAGGCCAGTACTTACCGCCGCGCCAAGTCGACTCATGGCAGTGGCAAAAC -CGACGCCCAGCGAGCGAATGTCAGTAGGAAAACTTTCCGCAGGCAAAATGCCCACCAGATTACTGACTGCCGAAA -TGGTGGTGCTGAAGAGAACAAAAAGCAGCAGCGTTAATGAACTGCCGGAAGGCAAACAGGCCATGACTACCAGCG -TTGCCGCCAGCAGCAAAAAACTTCCCAGCAAAAATTTGCGATGTGCCAGCAGGTGCGTCAGAACTAATCCCAGCA -GCGCGCCCACAATTAACAACGCATTAAGCATCAGGCTGGCAGTCAGCGCATCTTCCAGACCAATAGTCTGGGCGA -TAGTTGGCAGCCAGGTATAAATCACAAACCATGGGATTACGAGGCAGACAAAGAAGACGCTGTTAAACGCCGTGC -GCCGCCAGTAACGCGAAGAGAACAAGGTTTTGATGTGTTTATGGGTCGCCGTTACCACTTCATCGCCCAGTAAAA -CATGGGGACCAAAATAGCGATGCACGATAGCGTGAGCTTCTGCAAAACGCCCCTGGCGCAGTAGCCAGCGTGGTG -ATTCTGGCGTTCCCCAGCGTAATAACGTAATCAACAACGCGGGCAGAGCTGCCGATGCCAGTAGCCAGCGCCAGG -CCTCCGGGTTTTCGGAAATAAAGTGATGTCCGGCAATACTTGCCAGCACATAGCCTACGGTCCACACCACGCTGA -ATGCGCCCAGCAAAATACCGCGATGGCGGCGCGGGGAAAATTCAGCCAGCAAGGTGTGACCTACTGAATAATCGC -CTCCCAGACCAATGCCAATCAAAATGCGCAGTCCAATAAGATGCTCTGGCGTGGTGGCAAAAAATTGTAAAAACG -AAGCAAGCGTAATCAGCAAAAAGCTGAAGGTGAAGATTTTTTGCCGACCAATATGGTCGGAGATCCACCCAAGAA -CCAGGCTGCCAAGGAACAAACCAAGGAGCGCCGAGCCGCCGATCATTCCCGCCATAAACGGCGTCAGTTGCATGG -CGGGCGTAAGCTGAATAATGGCGTAACCAATGACGCCGAGAACATAACCGTCGGTCAGGTGTGCGCCGAAAGTGA -GCGCAGCAATGCGGCAGTGAAAACGGTTAAGCGGTAAATCATCCATTCGCACCGGTGAAGTGTTCATCTTTACCC -CTTCATTGTCCGGTAATAAGAACGGCTTCTCGCCTGAGAAGCCGAAAAGGCAACGCCCCGTCATCGCGGAACGCT -GCCTGACACATTATTTTTCAATCGGATAGATAGTACCCGTATTCATAATGCCATTAGGATCGAACTGCTTTTTCA -GCCCTTCCAGCAACGCCCACGCGCTGCCGTGTTCCAGTTTGCTCCAGTGAACGCGATGTTTACCGATACCGTGGT -GGTGCACCATCGAACCGCCGAGGCGAATGGTTTCTTCACAGATGATCTTGTTGAGCGGATTGTGGTACTTGTCGA -TTTCCTCTTCCGGCTTACAGTCAACGACGTTGTAATCGTAGACGAAGTACATGTTGGTGCCGTTCTGATAGCTAT -GAGAGGAATGACCGCCCAGCATGGTGATGTCGTCGGCGTGCGGGAACTCAGTACGAATACGGTTAATAACGCTTT -CGTAGATTTCGTGGATGCAGCTCCAGCAGCCGGATACTTCGGTGGTAAAGCCCATGTTGCCGGTTTTGAGGATCT -GCACACGTTCGGCAGCCACTTTATCCGGTCCCCAGTTCAGGTTGTTAAACCAGGTTTCGATCAGCTTGCTGTCCA -CGCGCTGGCATTGCGGGTAGCGGGCAACGATTTCCGCAATCCCTTCGCCCGTCACCTTCGCAATGCGAGGGTTAC -CTTCAGCCATAAAGATCAGCACGCATTTTCCGTCGGCAAAATGGGTGAAGTGTTGGGTGCCATCTTCAGCGTCAT -ACAAACGAGCGATTGACGGACGATACCCTTCCACCATGATTTCACGCAGGATGTTGAAGCCGGTTTTCATGTCTT -CCAGGATATAGCCGTAGAAGAGGTTGTTTTCCGGGGTGAATTTAAAGATTTTCACTGTTACTTCAGTGATATAGC -ACAATGCACCTTCGTTGCCGATGATGATGTGACGAATGTCCGGGCCAGCCGCGCGGCGTGGCACGTTTTTAATGC -GTGTGACGGTGCCATCAGCCAATACTGCTTCCAGACCAACGACCATATCTTCGATTGCGCCGTAGAGTGTGGAGA -ACTGCCCGATACTTCGGGTTGCTACCAGGCCGCCCATCTGCGCCAGCGGCTTTGACTGCGGAGAATGCCCCGTGG -TGTAACCTTTTTCACGCAACGCGTTTTCCAGCACTTCCAGCGGAACACCACATTGCGCCGTCGCCTGCATATTCT -CAATATCAATATTAATGATTTGATTCATGGCGGAGCCGTCGAGCACCACCGAGTTTTCTACAACAGTTTCCAGCC -CACCTTCGGTGGCGGAAGCACCGGTACGCGGCACACCGTTAATTTTGTGCGCATTCATAAAATTCAGCACACGGG -ATACTTGCTCTGTGGAACCGAGTTTTACGACCGCTGCCGGAATCGGCAAAGTATAAATGCCATGAATATCCGGAA -ATTTACGAAAACGGTCAATACTGTTTTTCTTTAATACTGTTTCATCGGTAATTACGCGATCTGCACCAACAATTT -CCTTTAGCTGGTCGACAATCGCTGCGCGAGATAAAGACATAGTAATTCCTTCCTGATAATAAAAATGGAATAATC -ATTAATAAGAGAAAACAGAAACCACCGTTATGGGTTAGCGCACTAAATAACCGCCATCAACCACTAATAAATGCC -CGTTGACATAATTCGATGCCGGACTTGCGAGGAATACGGCTGCGCCCATTAAATCCTGAGTATCGCCCCAACGGT -TTGCCGGAATATGATCAAGAACGCGCTGATTGGTTTCTGGATTACTGCGTGTCGCCAGCGTAATATCTGTTGCAT -AATAGCCAGGGGCGATACCATTTACCTGAATATTATATTGACCTAGTTCATCACAATAAGCTTTGGTGAACCCGG -CAAGAGCATGTTTAGTGGCAGAATATGCAGGTGACCATTGTCCACCTAAGTAAGAGAACAATGAACAGATATTAA -TAATTTTGCCGCTTTTCTGCGGGATCATAATTTTTGCAGCTTCATAGCTTAACTCGAATGCGGCGGTCAGGTTCA -CATCAATCATCGGATCCCAGTCGGCACGACCGAAGTCCAGCACCTTATTCAGCTTACAAATACCGGCATTGTTAA -CCAGAATATCAACTGTACCGAAACGCTCACAGCAAGCAGCGATAATCTTCTGCGGCGCGCCTTCTGCGGTGATAC -CCACCTGCATGAAGTCCACCTCAACACCCTGTTTTTCAATCATTTCCTTTGTTTCGCCGTTATCTTTGACGAAAC -TAGGAATAAAGATATTTGCGCCAGCTTTGGCCAACGCCATGGCAAATGCCTGGCCTAAACCGCTATTCCCACCGG -TAACAATTGCGGTTTTACCTTTCAGGGAGAAAAAATCCATTGAGAACGCATTGAGAGATTCGATTGACATAGTTA -GCTCCAATTTCCGTAAGGCAAAAAAAAAGAAAGGTAACTTCCCCCGCGAGAGGGAAGTTACCTTTCTCATTATCT -CTGGTAACTGGAGATAATTTTTAGCATAAGGGCATAACTGCTAATGTGATCGTAATCACAGTGTGATATTCGTAT -TGTCAAATAATTTTAAAAAGCAGAAGCGTGATTACTCTCACACAACACCTCTGCTTTCCATGTTATTTATTATTT -CAATTACTAGAGACCTGAGAAAAGTAATCCACCTGAAAGGGCGGCTTACTTTTCTCTTTTTTTTGTCTATTACAA -ATGGGAATACGATATGCAACACAACTCATATCGCCGTTGGATAACCCTCGCGATAATTAGTTTTAGCGGCGGCGT -TAGTTTCGACCTGGCTTATTTACGTTATATTTATCAAATTCCCATGGCGAAATTTATGGGATTCAGCAATACCGA -GATAGGTTTAATAATGAGTACCTTTGGTATTGCGGCCATTATTCTTTATGCCCCCAGCGGCGTTATTGCCGATAA -ATTTTCACACCGCAAAATGATTACTTCCGCGATGATCATTACCGGATTACTGGGTCTGTTAATGGCAACGTATCC -ACCGCTGTGGGTAATGCTCTGTATTCAGATCGCCTTTGCGATAACGACGATTTTAATGCTGTGGTCGGTGTCGAT -TAAAGCTGCATCGTTGCTTGGCGATCATAGCGAGCAAGGGAAAATTATGGGCTGGATGGAAGGGCTGCGCGGCGT -CGGTGTAATGTCGCTGGCGGTGTTTACCATGTGGGTCTTTTCTCGCTTTGCACCGGATGACAGCACCAGCCTGAA -AACGGTCATTATCATCTATAGTGTGGTTTACATCTTGTTGGGGATTCTGTGCTGGTTTTTTGTTAGCGATAACAA -CAACCTGCGCAGTGCCAATAACGAAGAAAAACAGTCATTCCAGCTTAGCGACATCCTGGCCGTTTTGCGTATCAG -CACCACCTGGTATTGCAGCATGGTGATTTTTGGCGTCTTCACCATCTACGCCATTCTGAGTTACTCCACCAACTA -TCTGACCGAAATGTATGGCATGTCGCTGGTGGCGGCGAGCTACATGGGGATTGTGATCAACAAAATATTCCGCGC -GCTGTGCGGCCCACTTGGCGGCATAATCACCACCTACAGCAAAGTGAAATCCCCTACCCGCGTGATCCAAATCCT -TTCCGTACTCGGCCTGCTGACGTTAACTGCCCTGCTCGTCACGAACTCTAACCCGCAATCGGTCGCGATGGGGAT -TGGCCTGATTTTACTGCTGGGATTCACCTGTTACGCCTCACGCGGGCTGTACTGGGCCTGCCCTGGCGAAGCGAG -AACACCGTCTTACATTATGGGCACCACGGTAGGTATTTGTTCGGTGATTGGATTCCTGCCGGATGTCTTCGTTTA -CCCAATTATCGGCCACTGGCAAGACACCCTGCCCGCTGCAGAAGCCTACCGCAATATGTGGCTGATGGGCATGGC -GGCGCTTGGCATGGTGATTGTCTTTACCTTTTTGCTGTTCCAAAAAATTCGTACTGCTGATAGCGCCCCCGCAAT -GGCTAGCAGCAAGTAAGCCAGGAAAATTACAGGAGAAAAATCATGTCGAAAAAATACATCATAGGGATTGATGGC -GGAAGTCAGAGCACAAAAGTGGTGATGTACGATCTGGAAGGTAACGTGGTTTGCGAAGGCAAAGGCTTATTACAG -CCGATGCACACGCCAGATGCCGATACTGCAGAACATCCTGACGACGATTTATGGGCATCATTATGTTTTGCCGGT -CACGATTTGATGAGTCAGTTTGCCGGGAATAAAGAAGATATTGTCGGTATTGGTCTGGGATCCATCCGTTGCTGC -CGTGCGTTATTGAAAGCCGATGGCACGCCTGCTGCGCCGTTGATTAGCTGGCAGGATGCACGCGTTACACGCCCT -TACGAACACACTAACCCTGACGTGGCATATGTCACCTCTTTTTCGGGTTATCTGACGCATCGCTTAACCGGCGAG -TTTAAAGACAATATCGCCAACTATTTTGGTCAGTGGCCGGTGGATTATAAGAGCTGGGCATGGAGCGAAGATGCT -GCGGTAATGGATAAGTTTAATATCCCCCGTCATATGCTGTTTGATGTGCAAATGCCTGGCACCGTCCTCGGACAT -ATCACACCACAAGCCGCACTGGCGACACATTTCCCGGCAGGACTGCCGGTTGTTTGTACCACCAGTGATAAACCG -GTAGAAGCTCTGGGGGCCGGATTACTGGATGATGAAACGGCGGTAATTTCTCTTGGCACTTACATCGCATTGATG -ATGAACGGCAAAGCACTGCCGAAAGATCCAGTAGCGTACTGGCCGATTATGTCTTCTATTCCGCAAACATTGCTG -TATGAAGGTTACGGTATTCGCAAAGGCATGTGGACGGTGAGCTGGCTGCGCGACATGCTAGGCGAGTCGTTAATT -CAGGATGCCAGGGCGCAGGATCTTTCACCGGAAGATTTACTCAACAAAAAAGCTTCTTGTGTGCCGCCAGGCTGT -AATGGTCTGATGACGGTGCTGGACTGGCTGACCAATCCGTGGGAACCGTACAAACGCGGGATTATGATCGGCTTT -GATTCCAGCATGGATTACGCATGGATATATCGTTCGATACTGGAAAGCGTGGCGCTGACGCTGAAGAACAATTAC -GACAATATGTGTAATGAAATGAATCACTTTGCGAAGCATGTGATCATTACTGGCGGCGGTTCGAACAGCGATCTG -TTTATGCAGATTTTTGCCGACGTGTTCAACCTTCCGGCACGACGTAACGCCATTAACGGTTGTGCAAGCCTGGGG -GCAGCGATTAATACAGCGGTAGGTCTGGGGCTATACCCGGATTACGCAACGGCTGTCGATAACATGGTTCGCGTG -AAAGATATCTTTATACCGATTGAGAGCAATGCCAAACGCTACGACGCGATGAATAAAGGCATTTTCAAAGACCTA -ACCAAACATACTGATGTGATCCTGAAAAAATCGTATGAAGTGATGCATGGGGAATTGGGGAATGTGGATTCGATC -CAGAGCTGGTCGAATGCGTAAGTGAGGAAGGCCGGGCGGGAAACTGCCCGGCCTGAACATACCTGAATGGTTATC -CCCGCTGACGCGGGGAACATAAGTTCGACAACTTAAAAAATGATAACAAGTCCGGTTTATCCCCGCTGATGCAGG -GAACATAATAAAAACTTTAACTAGTTCGGTTTATCCCTGTTTTTACAAGGAATATTAACTACACTCGATGTCTTT -AGAATAAAAGACAATACGAATCGCACTTTATCAATTTTCACTTAAAGTATGAACTGGATATCTTTATTCATAAGA -ACTATTCATCAACAGCGTATAGAGGCGGTTATGTAAAACCACTCATTAGCCTCAAAACAAAGACAAACTTCCAGA -TTTATTACTTAACCAATGAATAACAAGCTTAAAAAATATACTGTTATTCTAAAGAAAAAATTAACAGGCATTAAT -TCAATATTAAAAAAATAATAGATTAAAATTTCTTAACGATTTAAGAATCATACAAATAACACTTTGATTAAATTT -AATTTTTTGTATCGATAATTGTGAACCTCTCTGGCATGGAGAACTATTTTGAACATGAGGTGTTACGTGGATATG -TTGCTTATTACAAGTACTGCTAATATAAAAACTTGAGAAAGAGATAACGGGTTATATGGTGGTTTATCCCCGCTG -GCGCGGGGAACTCGACAGAACGGCCTCAGTAGTCTCGTCAGGCTCCGGTTTATCCCCGCTGGCGCGGGGAACACC -TGTTTTCGCAAATCTATGGACTATTGCTATTCGGTTTATCCCCGCTGGCGCGGGGAACACGGGCGCACGGAATAC -AAAGCCGTGTATCTGCTCGGTTTATCCCCGCTGGCGCGGGGAACACTGGCTCTGCAACAGCAGCACCCATGACCA -CGTCGGTTTATCCCCGCTGGCGCGGGGAACACGAAATGCTGGTGAGCGTTAATGCCGCAAACACAGGTTTATCCC -CGCTGGCGCGGGGAACACATTACGCCTTTTTGCGATTGCCCGGTTTTTGCCGGTTTATCCCCGCTGGCGCGGGGA -ACACTCTAAACATAACCTATTATTAATTAATGATTTTTTAAGCCAGTCACAATCTACCAACTTTATAGTATCACA -CAAACAACACATCCATTATGTTAAAGAGCACTTAATCCATTGATTAAAAAGGTAAATATTTAAAATAACTCTATA -CAAACTAAAATCTACCAAACTTTACCGCAATAATTTTCACTCCAGCGAAAAATTAATGCCACAGAATTTGTAGAG -AATGCTAATGATTAGCCCTGGATGGGTAAAATGGAGGAGTTTTCAGAGGCGACAAACAATATAAATGAGTAGAAG -TCTTTACAGGTTCCACCCATTTATAACGCTTATAAATGTTTAATCAGGCAATATTTAGATATTTATGTGTTTGCA -TCGACAAACGCCAATTACGCGCAATGCAGGTTTCAATGCACAAACGTGTGGCATCATCCTTTTGGCTAATCGGCT -GCAGTGCAATGACTCGCGGTTTATCATCGGTCAGCGTTGCCAGTAGTTCATCCAGTGCTTCAATATCGCGTACGC -GCCCCACTGGATGCTTGATTTCGTTGGCTCGCTCCAGTGCCTGTGACAACACTTCATAGCCGCCGCGCATGTTCA -GCTTTGGCGATACGGTAACCCAGGTATTCGGTGTGCAGCGTACCTCATGAGTACCACTGGTTTCGATCTGGCAGC -TAAAACCGTTCTTTTCGAGCAGATCAGTCAGTGGCAGCAAATCATGAATGCAAGGCTCACCACCCGTAATCACCA -CATGCCGCGCGGTGTATCCCTGGCGACCAATGACAGCCAGCAAATCTTCACTGCTCGCAGCCCCCCACTTATCAC -TCTCTTTGGTCTTCGCCAGAATGCTGAAAAGGGAGACTTCCCGATCCTCAAGCTTTTCCCAGGTGTGTTTGGTGT -CGCACCAGGCACAGCCAACCGGGCATCCCTGTAAACGAATAAAAATGGCGGGAACGCCGGTAAAGTAACCCTCAC -CTTGCAGGGTCTGGAACATCTCGTTAATCGGGTACTGCATAGCATTCTCTGTGAAGTGGATAATTGTTAATTATT -GCAGATCCTGCCACAACAATCATGTCTTATTAACATTCTGTTACAGGCAGGTTTAAAGAAAAATGCGAAACATAT -CGTTAATAATTAAAGGGAGTAACGTATTATGTCAGAAGAAAATAAAGAAAATGGATTTAATCATGTCAAAACATT -CACCAAAATTATATTTATTTTTTCTGTATTAGTTTTTAATGATAACGAATATAAAATTACCGATGCCGCCGTCAA -TTTATTTATCCAGATTTAATGAGAAATTTATAATGCGCTATTTCATACTAATGTTCACTTTCGTATGTTCCTTTG -TTGCAGCCCAACCAACTATTGTCCCACAATTACAGCAACAAGTTACGGATCTTACGAGTAGCTTAAACTCACAAG -AAAAGAAAGAACTGACGCACAAGTTAGAATCTATTTTCAATAATACCCAAGTGCAAATTGCCGTATTAATTGTTC -CCACAACCAAAGACGAGACAATTGAACAATATGCTACAAGAGTTTTTGACAATTGGCGTTTAGGAGATGCCAAAC -GTAATGATGGGATACTGATCGTTGTTGCCTGGTCGGATCGCACTGTCCGCATCCAGGTAGGTTATGGGCTGGAAG -AAAAGGTAACCGATGCTCTGGCTGGAGATATCATCCGTAGCAACATGATACCCGCATTTAAACAACAAAAATTAG -CTAAGGGATTAGAGCTAGCTATAAACGCTTTGAATAACCAACTCACTTCACAACACCAATATCCGACTAATCCTT -CAGAAAGTGAATCAGCGTCTTCCAGTGATCATTATTACTTTGCTATTTTTTGGGTATTTGCAGTGATGTTCTTCC -CTTTCTGGTTTTTTCATCAAGGCAGTAATTTTTGTCGCGCATGTAAAAGTGGAGTCTGTATTTCAGCAATCTATC -TTTTAGATTTATTCCTGTTCTCCGATAAAATTTTTTCCATTGCTGTATTTTCCTTCTTTTTTACTTTCACCATAT -TTATGGTCTTTACCTGTTTATGTGTACTTCAGAAAAGAGCATCTGGTAGAAGTTATCATTCAGACAACAGCGGTT -CCGCTGGAGGCTCAGATAGCGGCGGATTTAGCGGCGGGGGCGGTTCTTCTGGAGGTGGCGGCGCATCCGGCCGCT -GGTAACTCAACCATAAAAAATGCCAGCCCGGAGGCTGGCATTTTTAAATCAGATAAAGTCAGTCTTATGCCTGGC -CTTTGATCTCTTTACGACCGTTGTACGGTGCTTTTTCGCCCAGAGCTTCTTCGATACGAATCAGCTGGTTGTATT -TAGCAACACGGTCAGAACGGCTCATAGAACCAGTTTTGATCTGGCCTGCAGCAGTACCAACAGCCAGGTCAGCGA -TGGTAGCGTCTTCAGTTTCGCCAGAACGGTGAGAGATAACTGCAGTGTAGCCAGCATCTTTCGCCATCTTGATTG -CAGCCAGAGTTTCGGTCAGAGAACCGATCTGGTTGAATTTGATCAGGATGGAGTTAGCGATACCTTTTTCGATAC -CTTCTTTCAGGATCTTGGTGTTGGTTACGAACAGGTCGTCACCAACCAGCTGGATTTTGTCGCCCAGAACTTTGG -TCTGGTATGCGAAACCGTCCCAGTCAGATTCGTCCAGACCGTCTTCGATAGAAACGATCGGGTACTGTTTGGTCA -GTTCTTCCAGGAAGTGAGTGAATTCTTCAGAGGTGAACGCTTTGTTGCCTTCGCCAGCCAGAACGTATTTACCAT -CTTTGTAGAATTCAGAAGCTGCGCAGTCCATCGCCAAAGTGATGTCTTTGCCCAGTTCATAACCAGCAGCTTTAA -CAGCTTCAGCGATAACAGCCAGAGCTTCAGCGTTGGAACCCAGGTTCGGCGCATAGCCACCTTCGTCACCAACAG -CAGTGTTCATGCCTTTCGCTTTCAGAACTTTTGCCAGGTGATGGAAAACTTCAGAACCCATGCGGATGGCTTCTT -TCACAGTTTTCGCGCCAACCGGCTGAATCATGAATTCCTGGATATCAACGTTGTTGTCAGCGTGCTCACCACCGT -TGATGATGTTCATCATCGGAACCGGCATAGAGTATTTGCCCGGAGTACCGTTCAGTTCAGCGATGTGCTCGTACA -GCGGCATACCTTTAGCAGCTGCAGCAGCTTTGGCGTTAGCCAGAGATACAGCCAGGATTGCGTTCGCGCCGAATT -TGGATTTGTTTTCGGTGCCGTCCAGGTCGATCATGATCTTGTCAATGCCAGCCTGATCTTTAGCATCTTTGCCAA -TCAGCGCCTGAGCGATCGGGCCGTTTACCGCAGCAACAGCTTTGGTTACGCCTTTACCCAGGAAACGGGATTTGT -CGCCATCGCGCAGTTCCAGAGCTTCACGGGAACCAGTAGAAGCACCTGACGGAGCAGCTGCCATACCGACGAAAC -CACCCTCCAGATGTACTTCGGCTTCAACAGTCGGGTTACCACGGGAGTCGATGATTTCACGACCGATGATTTTTA -CGATTTTGGACATTAGGTTTTCCTCAAGTCACTAGTTAAACTGAAACTCCAGACAAACAACGCGTACCCAGGGTA -CGCGTTGCCGCTCTAACTTTTTTACTTACTTCGCCTGACGTTTCTGGAACTCGCTGGCGGCTTTCACAAAGCCTG -CAAACAGCGGGTGACCATCACGTGGAGTAGAAGTAAACTCCGGATGGAACTGGCAAGCCACGAACCACGGGTGAT -TCGGAACTTCGATGATCTCGACCAACTGATCATCCCCGGAACGGCCCGCAACGCGCAGACCTGCATCTTCAATCT -GTTTCAACAGCATGTTGTTGACTTCGTAACGGTGACGATGACGCTCAACAATTGTCGGCGCATTGTACAGCTGGC -GAACCAGGCTATCGTCAACCAACTGGCACTGCTGTGCGCCGAGACGCATGGTACCGCCGAGATCGCTCTTCTCGC -TACGAACTTCAACGTTGCCGTTTTCATCGCGCCACTCGGTAATCAGCGCCACAACCGGGTACTTACAGTCTGGCA -CAAATTCCGTAGAGTTGGCGTTCTCCATGTTGGCAACATGGCGAGCGTAATCAATTAACGCCACCTGCATACCCA -GGCAAATGCCCAGATAAGGAATATTGTTCTCACGCGCAAAACGCGCGGTCGTAATCATGCCTTCTACGCCACGAT -AGCCGAAACCGCCAGGTACGAGGATTGCGTCCAGACCTTTAAGGATTTCAACGCCGCGCGTTTCAACATCTTGTG -AATCGATCAGTTTGATGTTGACGCTGACACGATTCTTCAGCCCACCGTGTTTCAGTGCTTCGATCACTGATTTAT -AAGCATCCGGCAGTTCAATGTACTTGCCGACCATACCGATGGTGACTTCACTTACCGGGTTCGCTTCTTCGAAGA -TAACCTGTTCCCATTCGGACAGATTCGCTTCCGGGCAGTTTAAGCTGAATCGTTTACAAATATAATCGTCCAGCC -CCTGAGATTTCAACAGGCCCGGAATTTTATAGATGGAATCGACGTCTTTCAGAGAAATAACCGCTTTTTCCGGAA -CATTACAGAACAATGCAATCTTCGCACGTTCGTTCGCCGGAACAGCGCGATCTGAACGACAAATCAGGATGTCAG -GCTGGATACCGATGGAGAGCAGCTCTTTTACAGAGTGCTGAGTCGGTTTGGTTTTGACTTCACCAGACGCTGCCA -TGTACGGCACCAGCGTCAGGTGCATAAACAGAGTGTGCTCACGGCCAATTTCAACAGCCATCTGGCGAATCGCTT -CGAGGAACGGCAAGGATTCGATATCACCTACTGTACCGCCGATTTCTACCAGTACTACGTCATGACCTTCGCCAC -CTTCCAGCACGCGCTCTTTGATTGCGTTAGTGATGTGCGGAATAACCTGCACGGTTGCGCCGAGGTAGTCACCGC -GGCGTTCTTTACGCAGAACGTCAGAGTAGATACGACCCGTGGTGAAGTTGTTGCGGCGGCTCATTTTGGTACGAA -TGAAACGCTCGTAGTGCCCCAGGTCCAGGTCGGTTTCAGCGCCGTCTTCAGTAACGAACACTTCCCCGTGTTGGA -TTGGGCTCATAGTACCTGGATCGACGTTGATGTACGGATCCAGTTTCATGATGGTCACATTGAGGCCACGGGCTT -CAAGAATGGCTGCGAGGGAGGCTGCGGCAATGCCTTTACCCAGAGAGGATACGACCCCGCCGGTCACAAAAATAT -AGTTCGTTGTCATGCTGAACCTGAGAAGTTAGGTTGAAAAGACGATGGAATAACCAAGACGGGAAAGCAGTATAC -CCGAACATGACCTGTGCCACAAACTTTCATTATCCCTCCTCTTCGCCAGCGCACTATTGAAATCAGGAGTGAGAA -AATAGCCCCTTTGGGGTAAATGTTTTTGACGCAAATCAAGCGCTTGTCATTTAAAAAATGACACAAATGGCGCTT -GACCGCGTAATTCCCTTAGAGATCAATTTCCTGCCGTTTTACCTGTTGCCAGACTTCTTCCATTGTTTCGAGGTC -AACACCTGTCATTTCCAGTCCACGCGCGGCAACAATACGCTCCACTTCGCGAAAACGACGCTCGAATTTTTCGTT -CGCTTTTTGCAATGCGATTTCTGCTTTCGTCCCTAAATGGCGAGCCAGATTAACCGTGGCAAACAGCAGGTCCCC -CATTTCCTCCTCCAGTTTAGCCTGGTCGACAACAGCCTGCCGCGCTTCGTACATCACCTCGTCGATCTCTTCGTA -GACTTTATCGACTACCGGACCAAGCGTCGTCCAATCGAAGCCAACGTTGGCGCAACGTTTCTGGATTTTTTGCGC -ACGCATTAAAGCCGGTAAACTACGAGGAATATCGTCCAGCGCCGAATGCTGCGCTTTCTGCGCGCGCTCTTCGGT -TTTGATTTGCTCCCAACGGGCAAGCACTTCACTACTGTTTTCGGCAGAACTATCAGCAAAAACATGCGGATGGCG -ACGCTCTAATTTATCGCTAATAGCAGCGCAAATATCATTAAAGTCAAAGCGCCCTTCTTCCTGAGCCATTTGCGC -GTAAAACACCACCTGGAATAGCAGATCGCCCAGTTCACCGCGAAGATCGTCAAAATCTTCACGGGCGATGGCGTC -CAGCACTTCGTAGGTTTCTTCAAGGGTGTAAGGCGCAATGGTGGCAAATGTCTGCTCTTTATCCCACGGGCAGCC -GTTTTCCGGATCGCGCAGGCGCTGCATAATAGTGAGCAAACGGTCGATTTGATTCATTGAATTGTCCTGAAAATT -GCGGGTCTGTCAGGTGGAAACCTGTGACCAGAATAGAAGTGAGTTAGTAACACTACCCAATCAGTACGTTAATTT -TGGCTTTAATGAGTTGTAATTCCTCTGGGGCAACTGTTCCTTTCTTCGTTGCTCCTCTTGCCCGCCAGGCGATAC -TTTTTACCTGATCAGCTAACGCTACGCCATCACGTTCCTGACCGGATAAAACAACTTCGAACGGATATCCTTTTG -ATTGCGTTGTACAAGGAACACACAGACACATACCTGTTTTGTTGTTGTACATGAAAGGACTCAGGACAACAGCTG -GACGATGTCCAGCTTGCTCGCTACCTTTTGTCGGGTCAAAATCAACCCAAATCAGATCGCCCATATCGGGTACGT -ATCGGCTTACCATTACCAGACTTCCTTATCTTTCGGCTCTCCCCAGTCGATATTCTCGTGGAGGTTTTCCGGCGT -GATGTCGTTGACCAGTTCAGCAAGCGTAAATACGGGCTCTTTACGCACTGGCTCAATAATTAATTTGCCATCCAC -CAGGTCAATCTTCACTTCATCATCAATATTCAGATTGAGCGCCTGCATTAACGTAGCCGGGATCCGCACCGCCGG -TGAATTTCCCCAACGCTTTACGCTACTGTGGATCATAACCCTTTCCTCAAACCGCTATCATATGTAGATACAGTA -TATATCAATCTACATTGTAGATACGAGCAAATTTCGGCCTAACTCCCGTGCAACCGACGCGCGTCGATAACATCC -GGCACCTGGTTGAGTTTACCCAGCACGCGCCCCAGCACTTGCAGGTTGTAAATCTCAATGGTCATGTCGATGGTC -GCCAGTTGCTGTTTGGTGTCGCTACGGCTGGCAACGCCAAGCACGTTCACCTTCTCGTTGGCGAGAATGGTCGTG -ATATCACGTAACAACCCACTACGATCATTAGCTACCACGCGGACCACCAGCGAATATCCGGCGGAGTAGCTCTCA -CCCCATACCGCGTCAACAATGCGTTCTGGCGCATGGGAGCGCAGTTCCGCCAGTTGTTCGCAATCGGCGCGGTGT -ACTGAAATACCGCGCCCCTGGGTAATGAAGCCGACAATCTCATCTCCAGGAATCGGCTGGCAGCAGCGCGCGATG -TGGTGCATCAGGTTGCCAACACCTTCGACTACCACGCGACCGTTATCTTTACTGCGGTTTTGCGGCGTGTAGCTT -TTTTGCTGAAGTTGCTTCAGCGCGGCGGCGTCCTGCTCTTCGGCACTCGGCTTATTAAATTGCGATTGCAGGAAG -TTCACCATCTGATTGAGACGGATATCCCCGCCACCAATCGCCGCCAGCAACTCGTCGACATCATTGAAGTTGTAA -CGCGGCAGCAGATGTTTTTCTGCTTCTTTCAGGCTGATCCCCAGATGTTCCAGCTCGTCGTCAAGGATTTGCCGC -CCAGCCAGAATGTTTTTGTCACGGTCCTGTTTACGGAACCAGGCGTGAATTTTCGAACGCCCACGGCTGGTTGTG -ACGTAACCGAGGTTTGGGTTTAACCAGTCACGGCTGGGGTTCGGCTGTTTCTGGGTGATAATTTCAATCTGGTCG -CCCATCTGCAGCTGGTAGGTGAACGGCACAATGCGCCCGCCAATTTTTGCCCCGATGCAGCGGTGTCCGACATCA -CTGTGGATGTGGTAAGCGAAGTCCAGCGGCGTTGATCCCGCAGGCAAATCAACGACATCACCTTTCGGCGTAAAG -ACGTACACCCGGTCGTCAAAGACCTGACTACGTACTTCGTCGAGCATTTCGCCGGAATCAGCCATCTCTTCCTGC -CACGCAATCAGTTTACGCAGCCAGGCAATCCGGTCTTCATGTCCCGAACGTGCGCCGCCAGCAGCCGCGCCCTCT -TTATATTTCCAGTGCGCAGCAACACCCAACTCTGCATCTTCATGCATCTGTTTGGTGCGGATTTGGATCTCAACG -GTTTTTCCACCCGGCCCCAGAACCACGGTATGAATAGACTGATAACCGTTTGGTTTCGGGTTAGCGACGTAATCG -TCAAACTCATCCGGCAGGTGGCGATAGTGAGTGTGCACTATCCCCAGTGCGGCATAGCAATCCTGTAAACGCTCG -GCGACAATACGTACCGCACGCACATCAAACAGCTCATCAAAGGCGAGGTTCTTTTTCTGCATTTTACGCCAGATG -CTGTAGATGTGTTTCGGACGACCATACACTTCCGCTTTAACGCCTTCAGCTTTCATCTCAGCGCGCAGATGACCA -ACGAACTCTTCGATGTAGTGTTCGCGGTCGAGACGCCGTTCATGCAGCAGTTTGGCAATTCGTTTGTATTCGGTT -GGATGGAGGTAACGGAAGCAGTAATCTTCCAGTTCCCATTTCAGTTGTCCGATTCCGAGACGGTTAGCCAGCGGT -GCGTAGATGTTGGTACACTCTTTTGCCGCCAGTACACGTTCATCTTCCGGCGCATCTTTTACTTCGCGCAGATGA -GCAATACGCTCCGCCAGTTTGATGACTACGCAGCGAAAATCATCGACCATCGCCAATAACATCCGGCGAACGTTA -TCGACCTGTTCGGAGGAAACAGAATCAGTGTGCGTCGCTTTCAGCTGGCGGATCGCCGCCATATCACGCACGCCG -TGAATAAGGTTAACGACCGACTTACCGACGCTCTCACGCAGCACATCTTCGCTGACTACGTTGGCATCCGCCAGA -GGGAAAAGCAGCGCCGCCCGCAGCGTGTCAATGTCCATACTTAATGTCGAGAGGATCTCCACCATCTCAACACCA -CGCCACAATAACAGACTGGCATCCGGATGCCCCTGCGTCTGTTGCAGACAATACGCCCAGGTTTCGGCTAAGCAC -TCACACGACTTCTGGCTGGTAATACCCAGACTTGCGATCCATTTTTCCGGATCAAATTCACCAGCCTTATTGATA -TGTGCACTTCTTACCGCAACCATCGTCCTCTCCTTTAGGGACCAGACCTGCCGAAATCGGCAAATCGCAACTATT -TAACGCGCGAGAAAAGTACCATCGATTCCAGATGTCCCGTGTGTGGGAACATATCCAGCATCGCCAGTCGCGCAA -TGGTATATCCTGCTTTTAATAACGCTTCGCTATCCCGAGCCAGCGTTGCAGGGTTACAGGATACATAAACTATAC -GAATAGGTTCCAGTTTTATAATTTGCTGCATAACACCTGCGGCACCTGCTCGCGCCGGGTCCAGCAACACTTTAT -CGAAGCCGTTTTTCGCCCACGGCTGCTTTGTGACATCTTCTTCAAGATTTTCGTGATAAAACGTCACATTCTGTA -AGCCATTAAGACGCGCATTCTGCTGGCCTTTTTCCACCAGCGCCGGAACACCTTCTACACCGACCACACTGGCAG -CTTGTGTCGCCAATGGCAGTGTAAAGTTGCCCATACCGCAGAACAGATCCAGTACGCGATCTTCAGGTTGCACAT -CCAGCCATTCCAACGCACGCGCTACCATTTTTTGGTTCACACCCGCATTGACCTGAATAAAATCGCGCGGGCTAA -AAGTTAAGCGCAACCCGTTTGAGTCATACCAGGGCATCTCACCAGAGACGGTTTCGAGTATCTCACTATCGGGGG -CGAGATACAGATCCAGGCCTTCAGAATGCGAAAAGCGTTCCAGTTTTTCGCGATCTGCCGAACTTAGCGGTGCGG -TATGGCGCAAAATCATCAGCGTGCCGCTGGTTGCCTGTACCAGTTCAACATGACCAAGATGGCGCATAGCTTGTA -AGCTGCCCAGACATGCCCTGACTTTGGGCAGCAATGCTTCAAGTTGGGGCGCTAAAATGGGGCATTGTTTGACGT -CGACAATGTCACTGGAGCCCGCTTTGCGAAACCCCATCTGAAGTTGCTGTGTTTTCGGTAAGTAGTTCAGACTTA -AACGCGCGCGACGGCGATAGCCCCAGGGAACATCGGCGATCACTTCAGAGACATCGTGTTTCATTAATCGGGCGA -GTGCCGCACTTTTGCTTCGCTGCTGTAAATCCACGCTGGCGTGTTGTTGCTGACAGCCACCGCATACGCCAAAAT -GAGGACAGCGTGGCGTTTCGCGTTCCGGGCTATCGCTTAACCGGCGTACGACTTTAGCGCGGGCATACTGTTTTT -TATCTTCAGTAACAGTAACTTCCGCGTTTTCCTGCGGCAATAATCCGGGGATAAATAGCGTTTTGCCGTTATGTC -GCGCCACGCCCTGACCAAAAGAGTCGAGGTCGTTGACTGAAACGGTTATGATCTGACGCGTCGTCGTGCGTCGTT -TTGCAGAGTAGAATTGCGCCATTGGCGAGACTTTCTCAATTTAACAGTGTGACCTTAATTGTCCCATAACGGAAC -TCCATGACCAACTACAGCCTGCGCGCACGCATGATGATTCTGATCCTGGCACCGACCGTCCTTATTGGTTTATTG -CTGAGTATCTTTTTCGTCGTGCATCGCTATAACGACTTGCAGCGTCAACTGGAAGATGCCGGTGCCAGCATTATT -GAGCCGCTTGCAGTTTCTACTGAATATGGCATGAGCCTGCAAAATCGCGAATCTATCGGTCAGTTAATAAGCGTA -CTGCATCGTCGCCATTCCGATATTGTTCGCGCGATTTCGGTTTATGATGAAAATAACCGACTCTTTGTCACCTCC -AATTTTCATCTTGATCCCTCATCAATGCAGCTCGGCAGCAACGTGCCGTTTCCTCGCCAGCTCACTGTCACTCGT -GACGGCGATATTATGATCCTCCGCACGCCGATTATTTCTGAGAGTTACTCCCCCGACGAATCGCCCAGTAGCGAT -GCCAAAAATAGTCAAAATATGTTGGGATATATTGCGCTGGAGCTGGATCTTAAATCGGTTCGCTTGCAGCAATAT -AAAGAGATCTTTATTTCCAGCGTGATGATGCTGTTTTGTATCGGTATTGCGCTTATTTTTGGCTGGCGCTTAATG -CGCGATGTAACCGGTCCGATTCGCAACATGGTGAATACCGTCGACCGCATCCGTCGCGGGCAACTCGACAGCCGG -GTGGAAGGATTTATGCTCGGCGAGCTGGATATGCTGAAAAACGGTATCAACTCGATGGCAATGTCGCTGGCTGCT -TATCACGAAGAGATGCAGCACAATATCGACCAGGCGACGTCCGATCTGCGTGAAACGCTGGAGCAGATGGAAATT -CAGAACGTTGAGTTAGATCTGGCGAAAAAGCGCGCCCAGGAAGCGGCGCGTATTAAATCCGAGTTTCTGGCAAAT -ATGTCACACGAGCTGCGTACACCACTGAATGGTGTTATTGGCTTTACCCGCCTGACGCTGAAAACAGAATTAACA -CCAACGCAGCGCGATCACCTGAATACGATTGAACGTTCGGCAAATAATTTGCTGGCAATTATTAATGATGTTCTC -GACTTCTCGAAACTGGAAGCAGGTAAGCTGATTCTGGAAAGTATTCCATTCCCACTACGCAGCACGCTGGATGAA -GTCGTTACTCTGCTGGCACATTCTTCTCACGATAAAGGGTTAGAACTGACGCTCAATATTAAAAGCGACGTGCCT -GATAACGTGATCGGCGACCCGCTGCGATTACAGCAAATCATCACTAACCTGGTGGGGAATGCAATTAAATTCACC -GAGAATGGCAACATTGATATTCTGGTAGAAAAACGTGCGCTGAGTAATACCAAAGTGCAGATTGAAGTGCAGATT -CGGGATACCGGCATTGGTATTCCTGAACGCGATCAATCGCGCTTATTCCAGGCCTTCCGACAGGCTGATGCCAGT -ATTTCCCGCCGTCATGGTGGCACCGGGCTGGGGCTGGTGATTACACAAAAACTGGTTAATGAAATGGGCGGCGAT -ATTTCGTTCCATAGCCAGCCGAATCGCGGTTCAACTTTCTGGTTCCACATTAATCTCGATCTGAACCCGAACATT -ATTATCGAAGGGCCATCCACCCAGTGCCTCGCAGGTAAGCGCCTGGCCTATGTCGAACCAAACTCCGCAGCAGCG -CAATGCACGCTGGATATTTTAAGTGAAACGCCGCTGGAAGTGGTTTATAGCCCAACGTTCTCCGCGCTGCCTCCC -GCGCATTACGACATGATGTTGTTAGGCATCGCGGTGACCTTCCGCGAGCCGCTAACAATGCAACATGAGCGATTA -GCGAAAGCGGTATCGATGACCGATTTCCTGATGCTGGCACTTCCTTGCCATGCACAAGTCAATGCTGAAAAACTC -AAGCAAGATGGTATCGGCGCGTGTCTGCTGAAACCATTAACACCTACACGCCTGTTGCCTGCCCTGACGGAATTT -TGTCATCACAAACAAAACACGCTTTTGCCTGTAACCGATGAAAGTAAGCTGGCAATGACAGTCATGGCGGTTGAT -GACAACCCCGCTAACCTGAAACTTATCGGCGCATTGCTGGAAGATATGGTGCAACATGTGGAACTTTGCGATAGC -GGGCATCAGGCGGTTGAACGGGCGAAACAGATGCCGTTCGATTTGATCTTAATGGATATTCAAATGCCGGACATG -GATGGCATTCGGGCCTGCGAACTCATCCACCAACTCCCGCATCAGCAACAAACGCCGGTTATCGCGGTAACGGCG -CATGCAATGGCCGGGCAAAAAGAGAAGCTGCTTGGCGCAGGGATGAGCGATTATCTGGCGAAACCGATTGAAGAA -GAGCGATTGCATAATTTGTTGTTGCGCTACAAGCCTGGCAGCGGTATTTCCTCTCGCGTCGTGACGCCCGAAGTC -AACGAAATTGTGGTGAACCCGAATGCGACCCTCGACTGGCAACTGGCACTACGCCAGGCAGCAGGAAAAACCGAT -TTAGCGCGCGATATGCTGCAAATGTTACTCGATTTCCTGCCTGAAGTTCGCAACAAAGTTGAGGAACAGCTGGTT -GGAGAAAACCCGGAAGGCCTGGTTGATTTGATTCATAAACTGCATGGCAGTTGCGGCTATAGCGGTGTGCCACGT -ATGAAGAATCTCTGCCAACTGATCGAACAACAGCTACGTAGCGGTACTAAAGAAGAAGATTTGGAACCGGAGCTG -CTGGAACTGTTGGACGAGATGGATAATGTCGCGCGCGAAGCCAGCAAAATTCTCGGGTAATGGATGTCTTGTCGA -GTAGCAATCGGCTTTTTATGACGCTGGTTTCAGATTGGTGACAAAGTGCCTGTGTTTATGCCGGATGCGGCGTTA -ACGCCTTATCCGGCCTACAAAACCAATTAAATTCAATGAATTAAAAAATGATGTAGACCTGATACATAGCACAAC -AGGCTATTTTGCGTTTAGCATCAGTCTCAAACCGGCTCCAGATAGAGCCGGTTTTGGTTTTCTGTCTTAACGCAC -CATGCACGGGCGCTTGTTATCGAACGTCCAGCCAGGAATCAGATACTGCATTCCCATCGCATCGTCACGCGCGCC -AAGCCCGTGTTTCTGATACAGCTCATGGGCTTTCATCACTTGATCCATATCGATTTCTACACCCAGCCCCGGTTT -TTCTGGCACCTGTACCAGCCCGCCTTTGATCTCAAACGGTTCTTTGGTCAGGCGCTGATTGCCTTCCTGCCAAAT -CCAGTGCGTATCAATAGCAGTAATTTTACCCGGTGCAGCGGCGGCAACATGGGTAAACATCGCCAGGGAAATATC -GAAGTGGTTGTTAGAGTGTGAACCCCAGGTCAGGCCAAATTCATGGCACATTTGCGCCACACGTACCGAACCTTG -CATTGTCCAGAAATGCGGATCCGCCAGCGGGATATCAACGGATTGCAGGGAGAGCGTATGGCCCATTTGCCGCCA -GTCGGTGGCGATCATATTGGTTGCAGTCGGTAGACCTGTCGCGCGACGGAACTCTGCCATCACTTCACGCCCGGA -GAAACCTTGCTCCGCACCACACGGATCTTCTGCATAAGCCAGCGAACCTTTCAGGTATTTACCGATTTTAATCGC -TTCGTTCAGCGACCAGGCACCGTTAGGATCGAGCGTAATACGCGCCTGCGGGAAGCGTTGCGCCAGTGCCACAAT -AGACTCGGCCTCTTCTTCCCCGGCCAGTACACCGCCCTTCAGTTTGAAATCGTTGAAGCCATATTTTTCATATGC -CGCTTCCGCCAGGCGCACCACCGCATCCGGCGTCATCGCTTCTTCATGACGCAGGCGATACCAGTCGCATGAGTC -ATCCGGCTGGCTTTGATACGGCAGCGGCGTGGCTTTGCGATTACCGACGAAGAACAGATAACCGAGCATTTCGAC -TTCGCTACGCTGTTGACCATCGCCCAGCAGCGATGCCACGTTTACCCCCAGATGCTGCCCCAGCAGATCCAGCAT -TGCCGCTTCTATCCCGGTAACTACATGAATAGTGGTACGTAGGTCAAATGTCTGCAAACCGCGCCCACCAGCATC -ACGATCGGCAAAAGTATTACGCACCAGCGTCAGAACGTTTTTGTATTCACCCAGCGTTTTACCTACCACCAGCGG -AATCGCATCTTCCAGCGTTTTACGGATTTTCTCGCCGCCGGGAATTTCCCCTACGCCAGTGTGACCAGAATTATC -TTTGATAATCACAATATTACGCGTAAAGAACGGTGCGTGTGCACCACTCAGATTCATCAGCATACTGTCATGACC -CGCCACCGGGATAACCTGCATTTCAGTAACAACAGGCGTCGTAAATTGAGAACTCATATTTATGTCCTTTTTCAG -AATCAATGACGGCCGAAAACGGGACGTTTACGGTCAAAGGTCCAGCCGGGGATCAGGTACTGCATCGGACCTGCG -TCGTTACGCGCACCGCCAGGCAGACGTTTATAGGCCTCATGTGCCTTTTGTACCTGTTCCCAGTCCAGTTCCACG -CCCAGACCGGGCGCATCAGGAACGGCAATTTTTCCGTTTTTAATCTCCAGCGGATTTTGGGTCAGGCGACAATCG -CCCTCCTGCCAAATCCAGTGGGTATCGATAGCGGTAGGATTACCCGGTGCCGCCGCGCCCACATGGGTAAACATC -GCCAGAGAGATATCGAAATGGTTATTAGAATGGCAGCCCCAGGTCAGCCCCCAGTCGTCGCAAAGCTGCGCCACA -CGGACTGCACCGGAAAGCGTCCAGAAGTGCGGATCGGCAAGTGGAATATCTACCGCATTGAGCATCACCGCATGA -CCCATTTCGCGCCAGTTGGTGGCGATCATGTTAGTCGCGACGGGCAAGCCGGTCGCCCGTCGAAATTCCGCCATC -ACTTCACGTCCGGAGAAGCCCTGTTCTGCGCCGCATGGATCTTCGGCATAGGTAAGAACATCATTCAGCCCTTTG -CATAAAGAAATGGCTTCATCAAGCAGCCATGCACCGTTGGGATCAACGGTAATCCGCGCATCCGGGAAGCGTTTC -TTCAATGCACGAACAGTGTCGATTTCTTGCTCGCCAGGTAACACGCCGCCCTTAAGTTTGAAATCTTTAAAGCCG -TAGCGATCCTGTGAGGCTTCCGCCAGACGCACAACGGCTTCGCTGTTCATTGCTTTCTGATGCCGCAACTGATAC -CACTCATGGTTGCCCGGCGTATTTTCCACATAAGGAAGATCGGTTTTGGTCCGATCACCGATATAAAACAGATAA -CCGAGGACGGTAATAGCCTCGCGTTGCTTGCCTGGCCCTAACAGTTCGCAGACCGGAACATTCAGCGCCTTACCT -AGCAGGTCAAGCAAAGCGGCTTCCAGCGCCGCCACGGCGTTAACGCGTAATTCAAAGGTCCAGGCACCTTTACCG -AAGGTATCAAAATCGGCGGCCTGATTACCTTTATGCACCTGCTGGACCACTTTATTCAGTCGCGCAACTTCCTGG -CCCAGAACCATCGGAATAGCATCGACAAGCGTCTGATAAATCACATCTCCGCCCGGCGCTTCACCAATGCCGGTA -TGCCCGGCGTTATCGGTGAGTACCACAATATTGCGGGTGAAATATGCGTTATGTGCCCCACCAATATTAAGCAAC -ATGCTGTCATGCCCGGCCACCGGAATGACTTTCATATCAGTAATAACAGGACTGGATTGTGTCGCCATCTTATTG -CCCCGCAACAGGTTTCAACTCGATACGCTTGATATCGCCCACCAGCACCAGGTAGCTCAGTACCGCGATTAAGGC -ATGAACACCAACATAAATCAGCGCCCCATTAAACGAGCCAGTCGTGCCAACGATATAACCAATTGCGATTGGCGT -GACGATGCCAGAAATGTTACCGAACATGTTGAACAGGCCACCGGAAAGACCGCTGATCTCTTTTGGCGCGGTATC -TGCCATTACTGCCCAACCCAGCGCCCCGATGCCCTTACCGAAGAAGGCCAGCGCCATAAAGCCGATGATCATCCA -CTCAACGTTGACGTAGTTGCAGAACACCATCACCATCGACAGCAACATGCCCATTACGATCGGTGTTTTACGCGC -AATGTTCAGCGATCCCGTGCGGCGCATCAGCCAGTCGGAAATAATCCCACCCAGCACACCGCCGATAAAACCGCA -AACCGCCGGAACGGAAGCCACAAAGCCCGCTTTCAGAATCGACATCCCGCGTGCCTGCACCAGATAAACCGGGAA -CCAGGTAATAAAGAAGTAAGTCAGGGCGTTGATACAGTACTGACCGATATAAACGCCGATCATCATCCGTGACCC -TAGCAGCTGTTTGATCTGCCCCCACTTCACGCTGAACGGCACTTTAACTTTGGTGTTTTGCTGATCCATATTGAT -CAGCGCACCACCCGCGGCGATGTACTCCAGCTCTTTCTTATTTACCCCCGGATGTTGATTTGGCTCGTGGATGAC -TTTCAACCAGATAAAGCTGATGACAATCCCCAGACCGCCCATAAAGAAGAAGACGTGTGACCAGCCCACTTCATG -CGTCAGCCAGCCCATAATCGGCGCGAAGATCACCGTTGCGAAGTATTGAGCGGAGTTAAAAATCGACACCGCCGT -TCCCCTTTCCTGCGCCGGAAACCAGGCCGCAACAATGCGACTGTTGCCGGGGAAAGATGGCGCTTCAGCAAGCCC -GACCAGGAAGCGCAGCGTAAACAGGGCAACGATAATGCCGAATCCACTAAAGATATCGACGAAGCCTTGCAGCAA -GGTAAACATCGACCAGATAAAGATCGACCAGAAGTAGACGCGTTTTGAACCAAAACGGTCCAGCAACCAGCCACC -AGGGATCTGCCCGATAACATAAGCCCATGAGAAAGCAGAGAACACATAGCCCATTCCCACGGGATCAAGGCCGAT -ATCTTTGGCCATTTCCGAACCGGCGATAGAGAGCGTAGCGCGGTCGCCGTAGTTGAAGGATGTGACGATAAACAA -CATCACCACTATCCAGTAACGAGCATTTGTGCGTTTTTCCACACTGCTCGCAGCCTGACTTAAAGAACTCATTGT -TGCACTCCTGAAAATTCGCGTTAGCCACGCTCACTCTGGACTGCGACATCGCCAGGAAATCAGAGGTGACGTAGG -GTGTTTTTTGCCGTTTTTATAGGTCGTTCGCCGAATACGGCGCGTGTTTATATCTGGCAATAGCAGTATAAAAAG -CGCGCCATAGCGGCTCACCGTGCAACAACACAACATTAATGCGTTCAATGAGGCCCGATTTTGGCATTAGCCCTG -GACGGTGGAATCCACTTCACGGAAATGAAAACAAGAACAAGAAAGGAAGGGTTAAAACGAAGAAATAAAGAAGAG -TATGAAATGGATCGCTTGACTCCAGGCAAACGCCAGTAAAAATCCGCGCTATGAAGCAGTTTTTACTGGCATTTG -CCTGAAAAGATTCGATTCAGCACCGCTAAAACGACATTTACCGCTCGCTGAACATATCAGGACAACAGCGTGCCC -CACTGTTCGACCCACGGATTTGATTCCGTTTCCGGTTCCGGGTTCTCACTGGCGTCAATCAACAGCATTTCGCCA -ACCCGCTGAGCGCTCTGTTCCTGCAACAAGGCATCGAACTGTTTGCCGCCATTGCAGAAATTCACATAACTACTG -TCGCCGAGCGCAATCACGCCATAACGCAGATTCGGCTGGAAGCCCAGACTATCTTTGATTCCCTGAAAGAGTGGC -ACAATGCTATCAGGAAGGTCGCCCTGCCCGGTCGTGGACGTAACCACCAGAACATACTTATCCTGATAGGGCAGC -CAGTCGCTTAATTCAGGATCTTCAAATACCGTTGCTTTGTGGCCCTGCGCGGTCAGAATCGCTTCCGCTTCTTCG -GCCACTAACAGTGAATTCCCGTACATGGTGCCGACAAAAATACCAATTTCCGCCATACCGTTTTCTCCCTGGATT -AGGAACTTATCTCTCCATCCTGACCCGATGGCGCACTGAACTCAACCCTTTCATTTTCAGGAAGCAGACCGCGCC -AGCCAAATTGTGATAACGCCTGCATCCAGGTGTCGTCCAGGCCCGCGTGAATAGTCAGCGGCTCGCCAGTAAAAG -GATGCGTCAATGACAACTGACTGGCATGTAGCATTAACCGCTGGAGGCCAAAATGCTCAGCACCGCTGCGATTCT -GGCGTAAATCGCCATGTTTGCTATCGCCAATAATCGGATGACGCAAATGGGCAAGATGTCGGCGAAGCTGATGTT -TGCGTCCGGTTTTCGGCTCCAGTTCCACCAGGCCGTAGCGCGTGGTCGGGTAACGTCCGGTCGCTACCGGCATTT -CTACGGTCGCCAGACCGCGATAATGCGTCACTGCTGGCTGCGGGCCTTTATCTTCGCGGGCAAATTTATCAGCGA -TTTTGTCCAGTTCTTCCACCAGTGGATAATCCAGCACCGCTTCTTCCATCAACCAGCCGCGCACAATCGCATGGT -AACGTTTCTGGATTTGGTGCTGTTCAAACTGTTGTGCCAGCAGCCGTCCGGCCTCGCTGGATAATCCCATCAACA -ACACACCAGAAGTGGGTCGGTCCAGACGATGAGCAGTAAAAACATGCTGGCCTATCTGGTCACGCACGGTTTGCA -TGACCACTACTTTCTCGTCGCGATCCAGCCAGCTGCGGTGAACCAGCCAGCCGGAGGGTTTATTTACCGCAACCA -GCCATTCATCCTGATAGAGTATTTCCAGCATTAGCTCGCATCATCCGCAAAAAGAGCATCCAGTTTTTCCAGCTC -AGCCAGAATAAGCGCGCGTTGCGGATGGTCCGTCGCCAGCGCCATTTCATAATAGGGTGCAACGGCAAAAGCGCC -CGGTAACGGCTGTTTGTTATCTAACAAATCGTGCATTCGCGGGATCAGCACCCACTGCAACCACTCCAGTGGTTC -CATGGTGTCCATAAAGAACGGTTGGGTACTATTAAATTGATGCGGCTGGGGTTCATCGTTTCGCCAGTGCTGATG -TTCACGCAGTAACGCTTCAAGCGCCTGCAACTGGAGACGAACGCGGTCATGAGTGGTCATAAAGCAACCTCAATA -AGAAAAACTGCCGCGAAGGATAGCAGGAATAAAAAAAGGGAGCACTGTATTCACAGCGCTCCCGGTTCGTTTCGC -AGCATTCCAGCTACTTTTGTTGCTCCCTGCTCATCCTTGACAACTTTTCCTCTGGCCTTGCGGCCAATCGTTCAT -CCTGAACTATTGCTTCCTGCTCACACCACCCCGATGTGATACTTCATCCTGAAGTGTCCCTGGCCTTCCTGACCC -ACCGAATCATCCTGACCGGTTCTCATTCTCCATCCTGGAGGTGTCCTTTAACGCGTCCTGCGTCATCCTCTTCGC -TTCATCCAGAAGCCTTTCCCTGAAACACCATCCTGGTGTGTCCTGCAGAAGTGTCATCATCCTGATGTTCACTTC -GTTGTCTGACTCCCTGTCGACGAAGATAGAATCGTCTTTTTCGCGAAGTCTTACAAGGCGCTTACAGACAATGCC -TTAAGGAAAATTTCATATGAAAGTTAAGAATTAACAATCAACATTTTGATTTTAAATGAAAATAACGATTCTTAT -CTTTTTAAGTATTCGCTTATTTCCTGGCGATCTCCTACAGAGTCTGTAAGAGATCTCTCACAACCAGATGGGGTA -TTTGGATTACAGAAGAGGCTTAAGTTGATTAAGGAATTCCGCAAGATTTGAGGCTAAATGCGTCCGTTTACGTGT -TCCCAGCGTCTCTTTGCACACTTCACCGGAGAGATTACACACCGAGATGACCTCTAACTCTTCTTCCAGCGTCGC -GATAAATAGTGTGGGCGGCAGTTTTAGCCTTTTCTGAGTCACCAGATGACCAATCAGATTTTCCTGCACCCGACG -GAAGTCGTCTTCACTCCAGGTTTGCAGCAATGTCAGTTTGATATCGCCAAACTGCGCGTGCATATCCCCGGCAAA -CTGAGTCGTATAAAAGGTATGAATTGTGGGTTGTATCACAATATCAAAAGCGCGTTCAACCGCGTTTACATTTTG -TTCCCCGGTAAACGGCTGGGGTTGCCAGTATACGGCATCTTCGGTAGTTGAAATAATGCACGGTGAAGGAACACC -GTACAGTTCCTCACTTAACGGCCAGCTTTTATGCTCTTCATGCCACGCATCGCAGTAGCGTGCAGTAAAATCTTT -CAGGGCTTGTGCGGTCAAATCGTCCACTAATTTCTCTCTTCACTTAAACCAGATACACTTGTCGTTTAGTTTATC -TGGTTTATGACGGTGAAACATGTCTTCTTATGCAAACCATCAGGCACTTGCGGGCCTGACTCTTGGAAAATCAAC -CGATTACCGGGATACCTATGACGCCAGCCTACTGCAAGGCGTTCCACGCAGCCTGAATCGCGACCCGCTGGGTCT -GAAAGCGGATAACCTGCCTTTTCACGGTACGGATATCTGGACGCTGTATGAACTTTCCTGGCTGAATGCGAAAGG -TTTGCCGCAGGTCGCTGTCGGTCATGTTGAACTTGATTACACCAGCGTAAATCTGATTGAGTCGAAGAGTTTTAA -GCTCTATCTCAACAGTTTTAACCAGACGCGTTTTAATAACTGGGATGAGGTGCGCCAGACGCTGGAGCGCGACTT -AAGCACTTGCGCTCAGGGTAAGATTAGCGTGGCGTTATATCGTCTTGATGAACTGGAAGGCCAGCCGATAGGTCA -TTTTAATGGCACTTGCATTGATGACCAGGATATCACTATCGATAACTATGAATTCACTACTGACTATCTGGAGAA -TGCCACCTGTGGTGAAAAAGTAGTGGAAGAGACGCTTGTCAGCCACCTGCTGAAATCAAACTGCCTGATCACCCA -TCAACCAGATTGGGGTTCGCTCCAAATTCAGTATCGTGGACGCCAAATTGACAGAGAAAAACTGCTGCGTTACCT -GGTCTCATTCCGTCATCACAACGAGTTCCACGAACAGTGCGTGGAACGCATCTTTAATGACCTGTTACGCTTCTG -CCAGCCAGAAAAATTGAGCGTTTACGCACGTTATACCCGTCGTGGCGGTCTGGACATTAACCCGTGGCGCAGTAA -TAGCGATTTTGTCCCATCGACCACAAGACTGGTTCGGCAATAAATTTTTTCTCAATTTTGCGTGCTGGATTCACG -CAGAAGGTTGTGAAAGGTCATCAGGCAGGGCTATTGTAATCAAAGGGAATGACGATATTCGTCCCATAAGGAGTT -TTTCTTGATTACACATATTAGCCCGCTTGGCTCCATGGATATGTTGTCGCAGCTGGAAGTGGATATGCTTAAACG -CACCGCCAGCAGCGACCTCTATCAACTGTTTCGCAACTGTTCACTTGCCGTACTGAACTCCGGTAGTTTGACCGA -TAACAGCAAAGAATTGCTGTCTCGTTTTGAAAATTTCGATATTAACGTCTTGCGCCGTGAACGCGGCGTAAAGCT -GGAACTGATTAATCCCCCGGAAGAGGCTTTTGTCGATGGGCGAATTATTCGCGCTTTGCAGGCCAACTTGTTCGC -GGTCCTGCGTGACATTCTCTTCGTTTACGGGCAAATCCATAACACCGTTCGTTTTCCCAACCTGAATCTCGACAA -CTCCGTCCACATCACTAACCTGGTCTTTTCCATCTTGCGTAACGCTCGCGCGCTGCATGTGGGTGAAGCGCCAAA -TATGGTGGTCTGCTGGGGCGGTCACTCAATTAACGAAAACGAGTATTTGTATGCCCGTCGCGTCGGAAACCAGCT -GGGCCTGCGTGAGCTGAATATCTGCACCGGCTGTGGTCCGGGAGCGATGGAAGCGCCGATGAAAGGTGCTGCGGT -CGGACACGCGCAGCAGCGTTACAAAGACAGTCGTTTTATTGGTATGACAGAGCCGTCGATTATCGCCGCTGAACC -GCCTAACCCGCTGGTCAACGAATTGATCATCATGCCAGATATCGAAAAACGTCTGGAAGCGTTTGTCCGTATCGC -TCACGGTATCATTATCTTCCCTGGCGGTGTGGGTACGGCAGAAGAGTTGCTCTATTTGCTGGGAATTTTAATGAA -CCCGGCCAACAAAGATCAGGTTTTACCATTGATCCTCACCGGCCCGAAAGAGAGCGCCGACTACTTCCGCGTACT -GGACGAGTTTGTCGTGCATACGCTGGGTGAAAACGCGCGCCGCCATTACCGCATCATCATTGATGACGCCGCTGA -AGTCGCTCGTCAGATGAAAAAATCGATGCCGCTGGTGAAAGAAAATCGCCGTGATACAGGCGATGCCTACAGCTT -TAACTGGTCAATGCGCATTGCGCCAGATTTGCAAATGCCGTTTGAGCCGTCTCACGAGAATATGGCTAATCTGAA -GCTTTACCCGGATCAACCTGTTGAAGTGCTGGCTGCCGACCTGCGCCGTGCGTTCTCCGGTATTGTGGCGGGTAA -CGTAAAAGAAGTCGGTATTCGCGCCATTGAAGAGTTTGGTCCTTACAAAATCAACGGCGATAAAGAGATTATGCG -TCGTATGGACGACCTGCTACAGGGTTTTGTTGCCCAGCATCGTATGAAGTTGCCAGGCTCAGCCTACATCCCTTG -CTACGAAATCTGCACGTAATCTCCGCTCCCCCGGTGACGTTTGTTGCCGGGTTTTCTCGTTTTTGGTCACTTACT -CATCAACTCATTTCATTTGTTATATGAATGTTTCTTACCACCCTCACGCGACAAATATCATCACAGTTAATATGT -CATACAATTTATGTTGCAACGCAAACGTTTCCCTATTTTCATAAACCGTATTTTATCGCTATGAAAAAGAAATTA -TCGCCATGATTAACTAAAAGTATTGATTTTTTCAGTTCAACCTACATATATTGCGCGCCCCGGAAGAAGTCAGAT -GTCGTTTAATGGGCAAATATTGCCCTTAAATTCTCTTTTACTTTTGATTTACAGAGTAAAGCGTTGGGATAATCT -ATCTTCCAAGTAGATTATTGTATTTGAGATCAAGATCACTGATAGATACATAACTTGTGTGTATCTTTCCGCCCT -CAAATTATTACGGCGGTAAATGATTAAGCCATCGCCGATAGACAGATTTCATTTTTACGGTCAGGCACCTTCCCG -GGCTGAACTGGCTAAAAGCTGAATTATTTGCATTCCTCCAGGAGAAATAGATGGAAACGACTCAAACCAGCACGA -TTGCGTCGAAAGACTCTCGTAGTGCCTGGCGCAAGACAGACACCATGTGGATGCTGGGCCTTTACGGCACGGCAA -TCGGCGCGGGCGTGCTGTTCCTGCCAATCAACGCCGGTGTTGGCGGTATGATCCCGCTGATCATCATGGCTATCC -TTGCGTTCCCGATGACGTTTTTTGCTCACCGCGGCCTGACTCGCTTCGTACTGTCTGGTAAAAACCCGGGCGAAG -ACATCACCGAGGTTGTAGAAGAACACTTTGGTATTGGCGCAGGTAAACTGATTACCCTGCTCTACTTCTTCGCTA -TCTACCCGATCCTGCTGGTTTATAGCGTGGCAATCACCAATACCGTTGAAAGCTTCATGTCTCACCAGCTGGGTA -TGACGCCACCGCCGCGTGCGATTCTGTCGCTGATCCTGATCGTGGGTATGATGACCATCGTTCGCTTCGGTGAGC -AGATGATCGTTAAAGCGATGAGTATTCTGGTATTCCCGTTTGTTGGCGTACTGATGCTGCTGGCTCTGTACCTGA -TCCCGCAGTGGAACGGCGCTGCACTGGAAACGCTGTCTCTGGACACTGCATCTGCAACCGGAAACGGTCTGTGGA -TGACCCTGTGGCTGGCAATTCCGGTAATGGTGTTCTCGTTCAACCACTCTCCGATCATCTCTTCTTTCGCCGTTG -CGAAGCGTGAAGAGTACGGCGATATGGCAGAACAGAAATGCTCGAAGATCCTGGCATTCGCACACATCATGATGG -TGCTGACCGTAATGTTCTTCGTCTTCAGCTGTGTACTGAGCCTGACTCCGGCAGACCTGGCTGCGGCTAAAGAGC -AGAACATCTCGATTCTGTCTTACCTGGCTAACCACTTTAACGCACCGGTTATCGCGTGGATGGCTCCGATTATCG -CGATTATCGCTATCACCAAATCCTTCCTCGGTCACTACCTGGGCGCACGTGAAGGCTTCAACGGTATGGTGATTA -AATCTCTGCGTGGTAAAGGTAAGTCTATCGAAATCAACAAGCTGAACCGTATCACTGCGCTGTTCATGCTGGTAA -CGACCTGGATTGTTGCCACCCTGAACCCGAGCATCCTGGGTATGATTGAAACCCTGGGCGGTCCAATCATCGCGA -TGATCCTGTTCCTGATGCCGATGTACGCAATTCAGAAAGTACCGGCAATGCGTAAGTACAGCGGTCACATCAGCA -ACGTATTCGTTGTCGTGATGGGTCTGATTGCAATCTCCGCAATCTTCTACTCTCTGTTCAGCTAAGTCCTTTCGC -GCCGCTTTCGGGCGGCGCTTCCTCCGTTTTAACGCGATGTATTTCCTATGATTAGCGTATTCGATATTTTCAAAA -TCGGCATTGGCCCTTCCAGTTCTCATACCGTTGGACCAATGAAAGCGGGTAAACAATTTACCGACGATCTGATTG -CCCGTAACCTGCTTAAAGACGTGACCCGCGTGGTGGTTGACGTGTACGGCTCGCTCTCTCTGACCGGTAAAGGCC -ACCACACTGATATCGCCATTATTATGGGCCTGGCGGGTAACCTGCCGGATACCGTGGATATCGATTCCATCCCCA -GTTTTATTCAGGATGTGAATACTCATGGTCGCCTGATGCTGGCAAACGGTCAGCATGAAGTGGAGTTCCCGGTTG -ATCAGTGCATGAACTTCCACGCCGACAACCTTTCTCTGCATGAAAACGGTATGCGCATTACCGCGCTGGCGGGCG -ATAAAGTCGTTTACAGCCAGACTTACTACTCTATTGGCGGTGGCTTTATCGTTGATGAAGAGCATTTTGGCCAGC -AGGATAGCGCACCGGTTGAAGTTCCTTATCCGTACAGTTCAGCAGCCGATCTGCAAAAACATTGTCAGGAAACCG -GGCTGTCACTCTCTGGCCTGATGATGAAAAACGAGCTGGCGCTGCACAGCAAAGAAGAGCTGGAACAGCACCTGG -CGAACGTCTGGGAAGTCATGCGCGGCGGTATTGAGCGCGGTATTTCCACCGAAGGCGTGTTGCCTGGCAAACTGC -GCGTTCCACGCCGTGCTGCGGCACTACGCCGGATGCTGGTCAGCCAGGATAAAACCACCACTGACCCGATGGCGG -TTGTTGACTGGATCAACATGTTTGCACTGGCAGTGAACGAAGAGAACGCTGCTGGCGGTCGCGTGGTGACTGCGC -CGACTAACGGTGCGTGCGGGATTATCCCGGCAGTTCTGGCGTACTACGACAAGTTTATCCGCGAAGTGAACGCTA -ACTCACTGGCTCGTTACCTGCTGGTAGCCAGCGCCATTGGTTCTCTTTATAAGATGAACGCGTCGATTTCTGGTG -CTGAAGTGGGTTGCCAGGGTGAAGTTGGCGTGGCGTGCTCAATGGCGGCGGCTGGTCTGGCAGAACTATTAGGCG -CAAGCCCGGCGCAGGTGTGCATCGCGGCGGAAATCGCCATGGAGCACAACCTCGGTCTGACGTGTGACCCGGTCG -CCGGACAGGTACAGGTGCCATGCATCGAGCGTAACGCCATTGCGGCAGTAAAAGCGGTGAACGCCGCACGTATGG -CGCTGCGCCGTACCAGCGAGCCGCGCGTCTGCCTCGATAAAGTTATCGAAACCATGTACGAAACAGGTAAAGATA -TGAACGCCAAGTACCGCGAAACCTCTCGCGGCGGCCTGGCAATGAAGATCGTTGCCTGCGATTAATCGCTCTCCA -AAGGCCTCGTTTTGCGAGGCCTCTTCCCGATTTCTCATCCAGCCGTAGCCTGTTCCGGCATCGAATGTTACCCTT -ATCGCCTGATCTTTAAGGGGGTTATCGTGGCTGTTCATTTGCTTATTGTCGATGCACTGAATCTTATTCGTCGCA -TTCATGCCGTTCAGGGGTCGCCCTGTGTCGAAACCTGCCAGCATGCGCTCGATCAGCTCATTATGCACAGCCAGC -CAACCCACGCGGTCGCCGTTTTTGATGATGAAAACCGCAGTAGCGGCTGGCGTCATCAGCGTTTACCAGATTACA -AAGCGGGTCGACCGCCAATGCCGGAAGAGTTGCACGACGAGATGCCTGCATTACGCGCCGCCTTTGAGCAACGCG -GCGTCCCGTGCTGGTCAACCAGCGGCAACGAAGCCGATGACTTAGCCGCCACGCTGGCGGTCAAAGTGACACAGG -CCGGGCATCAGGCAACGATTGTTTCGACAGATAAAGGCTACTGTCAGTTACTTTCACCGACATTACGTATTCGTG -ATTACTTCCAGAAACGTTGGCTGGATGCGCCATTTATCGATAAAGAATTTGGCGTTCAACCGCAGCAGTTGCCCG -ATTACTGGGGACTTGCGGGGATCAGCAGTTCAAAGGTACCGGGTGTTGCGGGAATCGGACCAAAAAGCGCCACGC -AGCTGCTGGTCGAGTTTCAGAGTCTGGAAGGGATATATGAGAATCTGGATGCGGTTGCCGAAAAGTGGCGCAAAA -AATTAGAAACCCATAAAGAGATGGCGTTTCTGTGCCGCGATATTGCCCGCTTACAAACCGATTTGCATATCGACG -GCAATTTACAGCAATTGCGGTTGGTACGGTAACGGCGAGCCGGATACGCCGCAAACGTCGTATCCGGCATTATCA -CATCAGCGCATTTACCAGGCGGTATGGTAAAGCTCTACAATATCCTCAAGCGTTGCTTCACGCGGGTTGCCACCG -GTACAAACATCATCCAGTGCCGCCTGCGCCAGTGCCGGAATGTCTTCCTTGCGTACACCAACATCACGCAAATGT -GGCGGAATACCGACATCACGGTTGAGAGCAAACACCGCTTCAACAGCGGCATTACGCGCCTCTTCCAGGCTCATA -CCTTCCACTTTCACGCCCATAACGCGCGCGATATCGCGGTACTTCTCACCGGTAAAGTCAGCGTTATAACGCATG -ACATGCGGTAACAGGATGGCGTTCGCAACACCGTGTGGAGTGTTATAAAACGCGCCCAGTGGATGCGCCATACCA -TGCACCAACCCTAACCCAACATTCGAGAAGCCCATACCCGCAACATACTGCCCGAGCGCCATTTCTTCTCCGGCA -TCCTTATCACCAGCAACCGATCCTCGCAGCGCCCCAGCAATGATTTCAATCGCTTTAATGTGCAGTGCATCGGTT -AGCGCCCACGCGCCACGGGTAATATACCCCTCAATAGCATGAGTGAGCGCATCGACACCCGTCGCAGCTTTCAGC -GCTGGAGGCATACCATCCATCATGTCAGCGTCAATAAACGCCACCTGCGGGATATCATGCGGATCAACGCAAACA -AACTTGCGCCGTTTCTCTTCGTCAGTGATCACGTAGTTAATGGTCACTTCTGCCGCAGTACCTGCTGTGGTAGGA -ATTGCCAGAATCGGTACACTGGGTTTATTGGTCGGGGAAAGCCCTTCCAGGCTACGCACATCGGCAAACTCCGGG -TTGTTGCTGATAATGCCAATCGCTTTACAAGTATCCTGTGGAGAACCACCACCAATAGCGATCAGGTAATCCGCG -CCGCTATTCTGGAATACACCGAGCCCTTCTTTGACGACAGTAATTGTTGGGTTGGGCACTACGCCGTCGTAAATC -GCCCATGCCAGCCCTGCAGCATCCATCTTATCGGTCACTTTCGCCACCACGCCGCATTGCACCAGCGTTTTATCG -GTGACGATCAGCGCCTTCTGATAACCACGGCGTTTCACCTCATCGGTTAAAGCCCCAACAGCACCCCGACCAAAC -CATGCCGTTTCGTTCAGAATCATTCTGTTAGCCATCATCCTTCTCCTTGTTGCTTTACGAAATTACTCTTCAATT -CGTAACCCATAGGTTTTGAATTTCTCCAGCACTACGGCAATCTCTTCATCGCTCAGCACTGGCACCGGGTCCGTA -ATCGCCAGGGTCGTCAGGTAAAGTTGCGCCAGCACTTCAACTTCATGCGCCAGCCATAACGCTTTTTCCAGATTC -ACCTCACAAGCGATAAGCCCATGATGTTGTAACAAAGTTGCCTTACGATTTTTGAGAGCCAGCGCAACATGTTCA -GAAAGTTCGCGTGTTCCAAAGGTCGCATAAGGCGCGCAAGGAATAGAATTACCGCCAGCCGCCGCAATCATGTAG -TGAATAGCGGGGATCGATCGGTTAAGAATGGAAACTGCCGTGCAATGAACGGCATGATTGTGAACAACCGCGTTG -GCATCCGGTCTGCTTTGATAGGCTGCCATATGGAAACGCCATTCGCTTGAGGGGAGCTTTCCTTCCTCATGTTTA -CCGTTGCCATCAATAAAGACAATATGCGACTCCGTCAGTTTTTCATATGGAATGCCTGTAGGCGTAATCAGCATC -CCATCCTGATAACGTACACTGACGTTCCCCGCTGTCCCCTGGTTCAGTCCCAGGCGGGTCATTTCCAGGCAAGTG -TCAATAATCTGACGAGCAAGTTTATTTCGTTCCATTAGCTACCTCTCTCTGATTCAAAACAGGGCAATAATGTTG -TTCCTTTCACACTATTGAATTAGCCGTTTAATTACCCACCATCTTCTTCCTGATTAACAAGAAAGAAATTCACAA -GCTTATATTTTGTGACCTGGTTCAACTAATCACAGTAAATAACTGCAAGTTCTCTTTTTATAACCCCATTAAAAA -TGACCGCTCTTAAAAATATTTATCAAAACGGTCATTTTTCTATTCCTCCAAGCCCGGAATGACCGTTTTCGGCAC -AAACAATTAATACGGTCATCTGATTTGTGTTTTTTATGATTTATTTTCTGAAACGGGCATGAAATTTCGATTATT -AAAGTGATGGTAGTCACATAAAGTCACCTTCTAGCTAATAAGTGTGACCGCCGTCATATTACAGAGCGTTTTTTA -TTTGAAAATGAATCCATGAGTTCATTTCAGACAGGCAAATATTCACTGATATGAAGCCCGAACTCGCTGGTTTTG -CACTTTTGAAAACATAACCGATTACGTGCTTAAGCTTCTGAACCTAAGAGGATGCTATGGGAAACACATCAATAC -AAACGCAGAGTTACCGTGCGGTAGATAAAGATGCAGGGCAAAGCAGAAGTTACATTATTCCATTCGCGCTGCTGT -GCTCACTGTTTTTTCTTTGGGCGGTAGCCAATAACCTTAACGACATTTTATTACCTCAATTCCAGCAGGCTTTTA -CGCTGACAAATTTCCAGGCTGGCCTGATCCAATCGGCCTTTTACTTTGGTTATTTCATTATCCCAATCCCTGCTG -GGATATTGATGAAAAAACTCAGTTATAAAGCAGGGATTATTACCGGGTTATTTTTATATGCCTTGGGTGCTGCAT -TATTCTGGCCCGCCGCAGAAATAATGAACTACACCTTGTTTTTAGTTGGCCTATTTATTATTGCAGCCGGATTAG -GTTGTCTGGAAACTGCCGCAAACCCTTTTGTTACGGTATTAGGGCCGGAAAGTAGTGGTCACTTCCGCTTAAATC -TTGCGCAAACATTTAACTCGTTTGGCGCAATTATCGCGGTTGTCTTTGGGCAAAGTCTTATTTTGTCTAACGTGC -CACATCAATCGCAAGACGTTCTCGATAAAATGTCTCCAGAGCAATTGAGTGCGTATAAACACAGCCTGGTATTAT -CGGTACAGACACCTTATATGATCATCGTGGCTATCGTGTTACTGGTCGCCCTGCTGATCATGCTGACGAAATTCC -CGGCATTGCAGAGTGATAATCACAGTGACGCCAAACAAGGATCGTTCTCCGCATCGCTTTCTCGCCTGGCGCGTA -TTCGCCACTGGCGCTGGGCGGTATTAGCGCAATTCTGCTATGTCGGCGCACAAACGGCCTGCTGGAGCTATTTGA -TTCGCTACGCTGTAGAAGAAATTCCAGGTATGACTGCAGGCTTTGCCGCTAACTATTTAACCGGAACCATGGTGT -GCTTCTTTATTGGTCGTTTCACCGGTACCTGGCTCATCAGTCGCTTCGCACCACACAAAGTCCTGGCCGCCTACG -CATTAATCGCTATGGCACTGTGCCTGATCTCAGCCTTCGCTGGCGGTCATGTGGGCTTAATAGCCCTGACTTTAT -GCAGCGCCTTTATGTCGATTCAGTACCCAACAATCTTCTCGCTGGGCATTAAGAATCTCGGCCAGGACACCAAAT -ATGGTTCGTCCTTCATCGTTATGACCATTATTGGCGGCGGTATTGTCACTCCGGTCATGGGTTTTGTCAGTGACG -CGGCGGGCAACATCCCCACTGCTGAACTGATCCCCGCACTCTGCTTCGCGGTCATCTTTATCTTTGCCCGTTTCC -GTTCTCAAACGGCAACTAACTGAACATATTTTCCGAATAAAGTGAGGAATCTGTAATGAAAAAAATCAGCTTACC -GAAAATTGGTATCCGCCCGGTTATTGACGGTCGTCGCATGGGTGTTCGTGAGTCGCTTGAAGAACAAACAATGAA -TATGGCGAAAGCTACGGCCGCACTGCTGACCGAGAAACTGCGCCATGCCTGCGGAGCTGCCGTCGAGTGTGTCAT -TTCCGATACCTGTATCGCGGGTATGGCTGAAGCCGCTGCTTGCGAAGAAAAATTCAGCAGTCAGAATGTAGGCCT -CACCATTACGGTAACGCCTTGCTGGTGCTATGGCAGTGAAACCATCGACATGGATCCAACCCGCCCGAAGGCCAT -TTGGGGCTTTAACGGCACTGAACGCCCCGGCGCTGTTTACCTGGCAGCGGCTCTGGCAGCTCACAGCCAGAAAGG -CATCCCAGCATTCTCCATTTACGGTCATGACGTTCAGGATGCCGATGACACATCGATTCCTGCCGATGTTGAAGA -AAAACTGCTGCGCTTTGCCCGCGCCGGTTTGGCCGTCGCCAGCATGAAAGGTAAAAGCTATCTGTCGCTGGGCGG -CGTTTCGATGGGTATCGCCGGTTCCATTGTTGATCACAACTTCTTTGAATCCTGGCTGGGAATGAAAGTCCAGGC -GGTGGATATGACCGAACTGCGTCGCCGTATCGATCAGAAGATTTACGACGAAGCCGAATTGGAAATGGCACTGGC -CTGGGCTGATAAAAACTTCCGCTATGGCGAAGATGAAAATAACAAACAGTATCAACGTAATGCCGAGCAAAGCCG -CGCAGTTCTGCGCGAAAGTTTACTGATGGCGATGTGTATCCGCGACATGATGCAAGGCAACAGCAAACTGGCCGA -TATTGGTCGCGTGGAAGAATCACTTGGCTACAACGCCATCGCTGCGGGCTTCCAGGGGCAACGTCACTGGACCGA -TCAATATCCCAATGGTGACACCGCCGAAGCGATCCTCAACAGTTCATTTGACTGGAATGGCGTGCGCGAACCCTT -TGTCGTGGCGACCGAAAACGACAGTCTTAACGGCGTGGCAATGCTAATGGGTCACCAGCTCACCGGCACCGCTCA -GGTATTTGCCGATGTGCGTACCTACTGGTCACCAGAAGCAATTGAGCGTGTAACGGGGCATAAACTGGATGGACT -GGCAGAACACGGCATCATCCATTTGATCAACTCCGGTTCTGCTGCGCTGGACGGTTCCTGTAAACAACGCGACAG -CGAAGGTAACCCGACGATGAAGCCACACTGGGAAATCTCTCAGCAAGAGGCTGACGCTTGCCTCGCCGCTACCGA -ATGGTGCCCGGCGATCCACGAATACTTCCGTGGCGGCGGTTACTCTTCCCGCTTCCTTACCGAAGGCGGCGTCCC -GTTCACCATGACTCGTGTCAACATCATCAAAGGCCTGGGACCGGTACTGCAAATCGCGGAAGGCTGGAGCGTGGA -ATTGCCGAAGGATGTGCATGACATCCTCAACAAACGCACCAACTCAACCTGGCCAACCACCTGGTTTGCACCGCG -CCTCACCGGTAAAGGGCCGTTTACGGATGTGTACTCGGTAATGGCGAACTGGGGCGCTAACCATGGGGTTCTGAC -CATCGGCCACGTTGGCGCAGACTTTATCACTCTCGCCTCCATGCTGCGTATCCCGGTATGTATGCACAACGTTGA -AGAGACCAAAGTGTATCGTCCTTCTGCCTGGGCTGCGCACGGCATGGATATTGAAGGCCAGGATTACCGCGCTTG -CCAGAACTACGGTCCGTTGTACAAGCGTTAATACATTACTCCCTGATGTGATGCCCGGTCGCTCCGGCTACCGGG -CCTGAACAAGCAAGAGTGGTTAGCCGGATAAGCAATGTTATCCGGCTATATTGCAGGAGCGATTATGAAACAAGA -AGTTATCCTGGTACTCGACTGTGGCGCGACCAATGTCAGGGCCATCGCGGTTAATCGGCAGGGCAAAATTGTTGC -CCGCGCCTCAACGCCTAATGCCAGCGATATCGCGATGGAAAACAACACCTGGCACCAGTGGTCTTTAGACGCCAT -TTTGCAACGCTTTGCTGATTGCTGTCGGCAAATCAATAGTGAACTGACTGAATGCCACATCCGCGGTATCGCCGT -CACCACCTTTGGTGTGGATGGCGCTCTGGTAGATAAGCAAGGCAATCTGCTCTATCCGATTATTAGCTGGAAATG -TCCGCGAACAGCAGCGGTTATGGACAATATTGAACGGTTAATCTCCGCACAGCGGTTGCAGGCTATTTCTGGCGT -CGGAGCCTTTAGTTTCAATACGTTATATAAGTTGGTGTGGTTGAAAGAAAATCATCCACAACTGCTGGAACGCGC -GCACGCCTGGCTCTTTATTTCGTCGCTGATTAACCACCGTTTAACCGGCGAATTCACTACTGATATCACGATGGC -CGGAACCAGCCAGATGCTGGATATCCAGCAACGCGATTTCAGTCCGCAAATTTTACAAGCCACCGGTATTCCACG -CCGACTCTTCCCTCGTCTGGTGGAAGCGGGTGAACAGATTGGTACGCTACAGAACAGCGCCGCAGCAATGCTCGG -CTTACCCGTTGGCATACCGGTGATTTCCGCAGGTCACGATACCCAGTTCGCCCTTTTTGGCGCTGGTGCTGAACA -AAATGAACCCGTGCTCTCTTCCGGTACATGGGAAATTTTAATGGTTCGCAGCGCCCAGGTTGATACTTCGCTGTT -AAGTCAGTACGCCGGTTCCACCTGCGAACTGGATAGCCAGGCAGGGTTGTATAACCCAGGTATGCAATGGCTGGC -ATCCGGCGTGCTGGAATGGGTGAGAAAACTGTTCTGGACGGCTGAAACACCCTGGCAAATGTTGATTGAAGAAGC -TCGTCTGATCGCGCCTGGCGCGGATGGCGTAAAAATGCAGTGTGATTTATTGTCGTGTCAGAACGCTGGCTGGCA -AGGAGTGACGCTTAATACCACGCGGGGGCATTTCTATCGCGCGGCGCTGGAAGGGTTAACTGCGCAATTACAGCG -CAATCTACAGATGCTGGAAAAAATCGGGCACTTTAAGGCCTCTGAATTATTGTTAGTCGGTGGAGGAAGTCGCAA -CACATTGTGGAATCAGATTAAAGCCAATATGCTTGATATTCCGGTAAAAGTTCTCGACGACGCCGAAACGACCGT -CGCAGGAGCTGCGCTGTTCGGTTGGTATGGCGTAGGGGAATTTAACAGCCCGGAAGAAGCCCGCGCACAGATTCA -TTATCAGTACCGTTATTTCTACCCGCAAACTGAACCTGAATTTATAGAGGAAGTGTGAAATGCTGAAAACAATTT -CGCCGTTAATTTCTCCCGAACTATTGAAAGTGCTGGCAGAGATGGGACATGGAGATGAAATTATTTTTTCCGATG -CTCACTTTCCCGCCCATTCGATGGGACCGCAGGTGATCCGCGCTGATGGCCTGTTGGTGAGCGACTTGCTCCAGG -CGATTATCCCGTTATTTGAACTGGACAGTTATGCACCGCCGCTGGTGATGATGGCGGCGGTAGAAGGTGACACTC -TCGATCCTGAAGTAGAACGACGTTACCGTAATGCGCTTTCACTACAAGCCCCGTGTCCTGACATCATCCGCATCA -ATCGTTTTGCGTTTTATGAACGGGCGCAAAAAGCCTTTGCGATCGTTATCACAGGCGAACGAGCGAAGTACGGGA -ATATTCTTTTAAAAAAAGGGGTAACACCGTAATCTCATACCGGTACGCCCGCATGACGCGGGCGGTTATCGAATG -ATGGGGTGAAAAATATGAAAGCGGCACGCCAGCAAGCGATAGTCGACCTGCTGCTGAACCATACCAGCCTGACCA -CGGAAGCTCTCTCTGAACAGCTAAAGGTCAGTAAAGAAACCATTCGTCGCGATCTCAATGAATTACAGACGCAGG -GTAAAATTCTGCGCAATCATGGACGCGCTAAATATATCCACCGTCAAAATCAAGACAGTGGCGATCCCTTTCACA -TCAGGCTGAAAAGCCATTATGCGCATAAAGCAGATATCGCGCGCGAGGCGCTCGCGTGGATTGAAGAAGGGATGG -TGATAGCCTTAGACGCCAGTTCAACTTGCTGGTATCTGGCACGCCAGTTGCCTGACATCAACATTCAGGTCTTCA -CCAATAGCCATCCGATTTGCCATGAACTCGGTAAACGCGAACGCATTCAACTGATCAGTTCCGGCGGCACACTTG -AGCGCAAATATGGCTGTTACGTCAATCCCTCGCTGATTTCCCAACTTAAATCGCTGGAAATCGATCTGTTTATTT -TTTCTTGTGAAGGGATCGATAGCAGCGGCGCACTGTGGGACTCCAATGCGATCAACGCTGATTACAAATCGATGC -TATTAAAACGTGCCGCGCAATCGTTGTTATTGATTGATAAAAGTAAATTTAATCGTTCAGGGGAAGCCCGCATCG -GGCATCTGGATGAGGTAACGCACATTATTTCTGATGAGCGCCAGGTTGCAACTTCTTTGGTAACAGCCTGACGGA -AAGGGTAGCAGGCCGGAGACGACGCCCCGGCCTTGCCTGTTATCGCTCGTCGCGACGACCACCCACCGCAGCCCA -GATGCGGCGGACGTGCACCGTCACTTCTTCGCGATCGTGATACAACTGCCGCGCCTGAATCTGAGCATTTATGCC -ATGTTCATCAAGCTGTGCCTGAATATACGCCAGATTGTGTGACACTTCTTCGTAGCGTTTTTTCATCGGCAGTTT -GAGGTTGAAAATGGTTTCACGGCACCAGCCATTAACCAGCCACTGCGCCATCAATGCCGCAACTTTCGCCGGTTT -TTCAACCATATCGCATACCATCCAGGAGATATTGCTGCGCGTCGGACGGAATTTGAAACCGTCTTCCCGCAGCCA -CGTCACCTGTCCGGTATCCATCAGACTTTGCGCCATCGGGCCGTTGTCGACGGAATAAACCCACATGTTGCGCTT -CACCAGTTGGTAGGTCCAGCCGCCAGGGCAAGCGCCTAAATCCACCGCCCACATCCCGTTCGCCAGGCGTTCATC -CCACTCATCCGCAGGAATAAACACATGAAATGCCTCTTCCAGTTTGAGCGTGGAACGACTCGGCGCATCTGCCGG -AAATTTCAGGCGCGGAATGCCCATATAGAACGGCGAATTATTGTTGCTGTATGAGTAACCGGTATAGCAGCAGCC -TGGTGCAATAAAGAATACATGCACAACCGGACGCTTCGGCGTTTCATAGTTCGCCAGCACCCCGGCATCGCGCAA -GGCAGCGCGTAGCGGAACAGTAAATTTACGGCAGAATTTCAGTAACTCTTTGCTTTCGTTGGTATCGGCAACTTC -AACACGCAGTTCACCGCCCTTCTCTACTACGCCCTGTAACATGCCGACAATGGGGGTAATACGATCTTCTGGCGG -CAAATGCTGCAGGAGTTCCCCCACCACAAACCACTGGCGGGCAAAAATTAATGAACTGAACGGCAGCTCACGGAT -TAACTTATCGCCATCATCAGGTTGATAACATTCATAAATGACATAACCCGCATTCTCTTTCACGCGGGCAAAACC -GAAAATTTCCCGCTGGCCGGCTTTATCGGTAATTTCTGCGGCGCACTCTTTTTCAAAGCCCGGACGGCACAGCAA -TACAACCTTATTCATGACTTACGCCCTTGCGCTTTAAACGGATAGCACCAACTAACATTAACGCCCAGCCCGCGA -GGAAGCTCACGCCGCCAACCGGAGTGACAAACGCCCACAAACGCAGATGGGACAGCGCCAGGCAATAAAGGCTGC -CGCTGAACAACACCGTGCCTAACGCGAGGAAAACGCTACTCCAGTAAAACCAGATACTGATGCGACGCTGCATTG -CCACCGCCAGACCTAAGATCGCCAGCGTATGAAACGCCTGGTATTCGAGGCCGGTCTGGATCCAGCCCATCTCAA -CGGCCCCCATGGTTTTACTTAACACATGCGCGCCAAAAGCGCCCAGAGCCACAAAAATGAAGCCGCTAATGGCGG -CGAAAATCAGCATAAAACGGCTGGTCATGGTCGTACCCTACGTAAATTATTGTTCATAACGAAAGCGGAATTTTT -CTTGTTCAGCAGCGGCTTTCGCCAGGATCCATTGGCGAAAGGCGGCTATTTTACCCAGTTCTGCCTGACTGTCAT -GACAAACCAGATAAAAAGCATTTTTACTGACCAGAACATCATTAAACGGGCAAACAAGACGTCCGGCCTCGATTT -CAGATTGCGCCATCACGTTATTTGCCAGCGCCACTCCCTGCCCGTGGATAGCCGCTTGCAGCACCATGGCGCTAT -GGCTAAAAATTGGCCCTTGCTGAACGTTGATATGATTTAACCCCAACTGTCGGGTATATGTCTGCCAGTCACGGC -GCGAAGCATCATGTAATAACGTATGTTTAGCCAGATCTTCCGGTGTCTTCAAGGGTTTTTCGCCAGTCAGCAGTA -GCGGCGAACACACCGGCAATAAATATTCGGCGTACAGTTTTTCCACCCGTAGCCCCGGCCAGTTGCCCCGACCAT -AAAATATCGCCACATCAACATCATCCGCCAGCTTATCTTCCTGACGATCAACCGCCTGGATTCGAACGTCAATTC -CCGGATAAGCTGAATTAAAGCTGGAAAGTCGCGGAACCAACCAATGAATGGCGAAACTGGGGAGTAAACTGACCG -TCAACGCCCCCTTGGCGCTACGGGCCTGGAGTTTACGCGTCGCTTCGGTTAATTGCGAAAATATCTCTTTGATAT -CGAGGAAATAGCTTTGCCCTTCCTCGGTCAGCAGGAGTGAACGATTACGGCGGCGGAACAGTTTTAGCCCCAAAA -AATCCTCAAGAGACTTGATTTGATGACTTACTGCGGCTTGGGTCACAAAAAGCTCTTCTGCTGCGCGAGTGAAAC -TTAAATGGCGTGCTGCGGCATCAAAAACTCGTAAGGCATTTAGCGGTGGTAATCGTTTAGACATGGCTATTAAAC -TTTGATGTTAAATGAATTTAACAATTAGATCACACTATGTAACCTATTAGTTTTTTTAATCTGAGCCATTATAAA -TTGTCCGTTGAGCTTCTACCAGCAAATACCTATAGTGGCGGCACTTCCTGAGCCGGAACGAAAAGTTTTATCGGA -ATGCGTGTTCTGGTGAACTTTTGGCTTACGGTTGTGATGTTGTGTTGTTGTGTTTGCAATTGGTCTGCGATTCAG -ACCATGGTAGCAAAGCTACCTTTTTTCACTTCCTGTACATTTACCCTGTCTGTCCATAGTGATTAATGTAGCACC -GCCTAATTGCGGTGCTTTTTTTTACCTTGCGATCGCGAATTACTGATCCAGTTCGACCATCTCTTTCACGTCAGT -ACGGTTGATCTGCTGTTTGTTGCCATTAGCGTCTTTATACGAAATCATACCGGTATCGTTATCAGTCTGTGGTTT -GCCGTCAGAGACGATGGTACGTCCGTCATTGGTGTGCATCACATAGTTCGAACCGGAACAGGCGCTCAGGGCAAA -AGTCAGCATACAGGCAGAAATAATTGCGGCAGTCTTTTTCATCATCTTCTCCTTAAAGCGATTAATAAATCTTAA -TAGTATTGATTAACAGGCTAAAATTAACGCCTAACACTATTCAGCATATGTTACTTACGCGGCTTCGCCAGGATA -TCCAGATAATTCTGATGGTTAGCACTCTCCTTGTATCAAAGTGAATTTTGCGTCACGATCGGTGCATCAAGCCGA -GGAGTACCATGAACGTTTTTAATCCCGCGCAGTTTCGCGCCCAGTTTCCCGCACTACAGGATGCGGGCGTCTATC -TCGACAGCGCCGCGACCGCGCTTAAACCTGAAGCCGTGGTTGAAGCCACCCAACAGTTTTACAGTCTGAGCGCCG -GAAACGTCCATCGCAGCCAGTTTGCCGAAGCCCAACGCCTGACCGCGCGTTATGAAGCTGCACGAGAGAAAGTGG -CGCAATTACTGAATGCACCGGATGATAAAACTATCGTCTGGACGCGCGGCACCACTGAATCCATCAACATGGTGG -CACAATGCTATGCGCGTCCGCGTCTGCAACCGGGCGATGAGATTATTGTCAGCGTGGCAGAACACCACGCCAACC -TCGTCCCCTGGCTGATGGTCGCCCAACAAACTGGAGCCAAAGTGGTGAAATTGCCGCTTAATGCGCAGCGACTGC -CGGATGTCGATTTGTTGCCAGAACTGATTACTCCCCGTAGTCGGATTCTGGCGTTGGGTCAGATGTCGAACGTTA -CTGGCGGTTGCCCGGATCTGGCGCGAGCGATTACCTTTGCTCATTCAGCCGGGATGGTGGTGATGGTTGATGGTG -CTCAGGGGGCAGTGCATTTCCCCGCGGATGTTCAGCAACTGGATATTGATTTCTATGCTTTTTCAGGTCACAAAC -TGTATGGCCCGACAGGTATCGGCGTGCTGTATGGTAAATCAGAACTGCTGGAGGCGATGTCGCCCTGGCTGGGCG -GCGGCAAAATGGTTCACGAAGTGAGTTTTGACGGCTTCACGACTCAATCTGCGCCGTGGAAACTGGAAGCTGGAA -CGCCAAATGTCGCTGGTGTCATAGGATTAAGCGCGGCGCTGGAATGGCTGGCAGATTACGATATCAACCAGGCCG -AAAGCTGGAGCCGTAGCTTAGCAACGCTGGCGGAAGATGCGCTGGCGAAACGTCCCGGCTTTCGTTCATTCCGCT -GCCAGGATTCCAGCCTGCTGGCCTTTGATTTTGCTGGCGTTCATCATAGCGATATGGTGACGCTGCTGGCGGAGT -ACGGTATTGCCCTGCGGGCCGGGCAGCATTGCGCTCAGCCGCTACTGGCAGAATTAGGCGTAACCGGCACACTGC -GCGCCTCTTTTGCGCCATATAATACAAAGAGTGATGTGGATGCGCTGGTGAATGCCGTTGACCGCGCGCTGGAAT -TATTGGTGGATTAATGACAAACCCGCAATTCGCCGGACATCCGTTCGGCACAACCGTAACCGCAGAAACGTTACG -CAATACCTTCGCACCGTTGACGCAATGGGAAGATAAATATCGCCAGTTGATCATGCTGGGGAAACAGCTTCCGGC -ATTGCCAGACGAGTTAAAAGCGCAGGCTAAAGAGATTGCCGGATGCGAAAACCGCGTCTGGCTGGGATATACAGT -GGCTGAAAACGGCAAAATGCATTTCTTTGGCGACAGCGAAGGGCGCATTGTGCGCGGCCTGCTGGCGGTGTTGTT -GACTGCCGTTGAGGGGAAAACCGCCGCCGAGTTGCAGGCACAGTCACCACTGGCATTGTTTGATGAGCTGGGATT -ACGTGCGCAGCTTAGCGCCTCACGCAGCCAGGGGTTAAATGCGTTAAGCGAGGCGATTATCGCTGCGACGAAGCA -GGTTTAAGCACAGAACCGGGTCGGATAAGACGTTCGCGTCTCATCCGACCTGATTGTTTAACCCTGACGCGCCGC -TTTCGCCATCATCTTCTTCAGCGCATGAGAAACCGCAACAAACCCAAAGGTGGCGGTCACCATCGTTGCCGCGCC -AAATCCAGATGCACAATCCATCCGCTTCGGCCCTTCTGCCGTGGCTTTCATCGCACACACCGTACCGTCTGACTG -CGGGTACACCAGCGCTTCAGTAGAAAACACGCAATCCACGCCGAGCTTACCTTTACTGTTTTTCACTACGCCAAA -ATCGCTTTTCAGGCGCTCGCGCAACTTCGCCGCCAGCGGGTCCTGAATCGTTTTCGCCAGATCGGTAACCTGAAT -CTGCGTCGGATCAATCTGCCCACCCGCGCCACCGGTTGTGACCAGTGGGATTTTATTGCGCCGACAATAAGCAAT -CAGCGCCGCTTTGGGCCGTACACTATCAATGGCATCAATCACGTACGAATAACCCACGCTCATATACTGCGCTAC -GTTATCCGGCGTCACGAAATCATCCACCACCGTTACACGGCACTCCGGGTTAATCTGGCGAATACGCTCCGCCAT -AACTTCCGCTTTTGCCAGCCCAACGTTATCGCGCAGGGCATGAATTTGCCGATTGGTATTGGTGACGCACACATC -ATCCATATCGATAAGCGTGATTGCGCCAATCCCCGTGCGCGCCAGCGCTTCCGCCGCCCAGGAACCGACACCACC -GATACCAACCACACAAATATGCGCGTCAGCAAACAGTTGCAACGCTTTTTCACCATACAGACGCGCTGTGCCACC -AAAACGCTGACGCCATGCATCACTAATTACCACAGACATAGCACCTCAGAATTAAAAAGGGCGAGGTTATCCCTC -ACCCTAAACGCATAAATGCCTGATGCGCTACGCTTATCAGGCCTACATAACTCCTGCAATATTTTGGATTTGCAT -GATTTGTAGGCCGGATAAGGCGTTCACGCCGCATCCGGCATGAACAACGCGCACTTAGTCAATAATCAGGATGTG -AGGTTACCCCTCACCCTGTCATATCCGTAAAAACGGCATACAGAATATCACATCAGCCGCTAAAGACGTTACCTG -CGCCCGGGGCGGTTTTCAGCACCCAGACACGTCCATAGTGGTTGTACCAACCTGCGCGGTGTCCGGCTTCCGGCC -CGATCCCTTGATAGATATCGAAGTGTTGGCCTTTGATTGCACCACCGACATCCAGCGCCACCATCAGACGCAGTT -CGTACTGACCATTAAATTTGCCGTTATTATCCAGCAACGGCACTTCTGCCAGCAAGGTAGTACCTGGCGGAATAA -TGGAACGATCAGAGGCAACTGACGCGCGACCAACCAGCGGCACCGCACTTGCCCCTTTCACCGGAGCAAAAGATT -GCGGTTTAAAGAAGACGAAAGACGGGTTCTGTTCCAGCAGCTCGCGAACCTCGGCTTCACTGTGTGTTTCGCCCC -AGTGACGAATCGCCTGCATCGACATATCTTCTTTTTTCACTTCGCCACGGTCGATCAGCACCTTACCAATGCTGC -GATAGGCATGACCGTTTTTCCCTGCATAGCTGAAAAAGTTAAGCGGACTGCCATCACCAAAGTCGATATACCCAC -TACCCTGCACATCCATAATGAAGTTATCCATCAGGGAGTTACTGTAAGCGAGAATATATTTATCACTCAATGCCC -CCGCGTAGATCTCCGCACGAGACGGCAGACGACCACGTTTTGGCGGCATACGGTAAATAGGATACTGGAACTCGC -CCTGGCGGGTATGGCGCGCCTGAATTACCGGCGTGTAATAACCGGTAAACTGCACGTTACCATAGTTGTCGGCAC -CTTCCATCTGCCAGGCATCAATGCCGAACTGGCGCATATTGCGGGTATCACCGCCTGCGCGCAGCCACTCTTGCA -CCGCGTTATAAACATTACTCTGGTTGCCATACAGACGCGGTGACGAATTACGGATATGGTTAATTTGCTCGGCAA -AATCACCGGCGTTAATCGGCGCGCCAACGGCATCTGGCTGGTTCACCAGAGAGAAAGGCTGGGTAAATTTCCCGT -CTTTATATTGCTGTCCGCGATCGGTTGGTTTGGAAGAGCAGGCGGCAAGCATTGCCACAACCGTGCCCATAAGAA -GGTACTTTACCCAACGTCCTTTCATTGTTCTCTTCTTCAGGTTAAAAAATAAGGCGCAACGAAGATAACAAACCG -CCGCGTTTAATGAAATGAGCAGCCTCTCCCTGACGCAAATTTTGCACAAAAAATAGGCTTTAGTGATTTGTTTTT -GTTCAAAATCATGCCAAATCCGTGATCGGGGTAAAAAAAAGGTTGCATGAAAACGCGAGCGGAGTATAGTGCGCA -TCCACGGACGCGGGGTGGAGCAGCCTGGTAGCTCGTCGGGCTCATAACCCGAAGGTCGTCGGTTCAAATCCGGCC -CCCGCAACCAATTAAAATTTGATGAAGTAAAGCAGTACGGTGACGCGGGGTGGAGCAGCCTGGTAGCTCGTCGGG -CTCATAACCCGAAGGTCGTCGGTTCAAATCCGGCCCCCGCAACCAATCAAATTTGATGAAGTAAAAGCAGTACGG -TGACGCGGGGTGGAGCAGCCTGGTAGCTCGTCGGGCTCATAACCCGAAGGTCGTCGGTTCAAATCCGGCCCCCGC -AACCAATTATTGAACACCCTAACGGGTGTTTTTTTGTTTCTGGTCTCCCATAAAAAAGCGCCATTCAGCGCCTTT -TTATCATCCCCTTCTCGCCAGCGTCGCCCCATCGGCAAAATACGCTTTAATCCCCGCAAGAATAGACTCCGCAAC -TTCCTGCTGGAAAGTCGCCGTTTTCAGTTTACGCTCTTCCTCAACGTTACTGATAAACGCCGTTTCGACCAGAAT -GGAGGGAATATCTGGTGCCTTTAGTACGGCAAACCCGGCCTGTTCAACTTGATTTTTATGCAGCTTGTTGATTTT -ACCGAGCTTATTCAGTACCGCTTTACCAAACTTCAGGCTGTCGGCAATGGTCAGCGACTGTACCATATCGAACAT -GGTGTGGTCGACATAGCGGTCACCGCTTTTGCTCACGCCACCAATCAAGTCCGAGGCGTTCTGGGTTTGTGCCAG -ATATTTTGCCGCAGTACTGGTTGCACCTTTGGTTGAGAGCGCAAACACAGAGGAACCGCTCGGCTGACGACTGGT -AAAGGCGTCGGCATGGATAGAGACAAACAGGTCAGCACGCTGTTTCTGGGCTTTTGCTACGCGCACTTGCAATGG -AATGAAGATGTCTTCATTGCGCGTCATGTACACCTTCATATTGCCCTCTTTCTCGATCAGAGAGCGCAAACGGCG -AGCTATTTGCAATACCACATCTTTTTCGCGCGTTTTGTATTTCCCCACCGCACCGGAGTCTTCGCCACCGTGGCC -AGGGTCAAGCATAATGACAATCGGACGATCGCGCCCTGCTTTACCCGGTTGTGGACCACTTTGCGCTGGCGGCAC -CTGCTTTTCGAGGTCGCCTTTGTTGTAATCCTCCAGCAGCGCCAGCAGCGGGTCCTGCATATCCTGTGCATTGGC -CGGATAGAGGTCCATCACCAGACGCTCTTTAAACCCGGCGACCGGCGCAAGGGCAAACAGCTGCGGTTTTACGTT -TTGCTTTAATTCAAAAACCATCCGTACGGTTTGCGGGTCAAATTGCCCGACGCGCGCCGACTTGATGAACGGGTC -GTCTGCACGAATTTGTGCCGCCATCCCCTTGAGTACCGAGTTCAGGTTTACATCTTCGATATCCACCACCACGCG -TTCAGGGTTACTCAACGCGAACTGCTTATATTTCAGCTGACGATTTGATTCCACCGTCACGCGGGTGTAGCTGGA -CGCAGGCCAGACGCGCACCGCCACGACCTGGCTGACCGCAGCCAGACTGACCTGACTTACGCTCAATAGCCACAT -GGCACCCGCGCCTTGCAGTAAACGACGACGGCTGATTGCAGTGTTGGATCCTGACATGCCTCTCCCGAGCAAAAG -AAATCTAAGCTGTGTAACAAGTAAACGACTAATTTGACCGGAAACTTTAGCGAAAGACGCATAATCTGTCATCTA -ATAAACGGTAAACATTCTTTTTATATTCACGGCATTACTGATAAAAAAGTCGCTCTCGCATAAAATTTACACTTG -CACCCTGCGAAAAAACAGAATAAAAATACACTAATTTCGAATAATCATGCAAAGAGGTGTGCCGTGGTAAAGGAA -CGTAAAACCGAGTTGGTCGAGGGATTCCGCCATTCGGTTCCCTATATCAATACCCACCGGGGAAAAACGTTTGTC -ATCATGCTCGGCGGTGAAGCCATTGAGCATGAGAATTTCTCCAGTATCGTTAATGATATCGGGTTGTTGCACAGC -CTCGGCATCCGTCTGGTGGTGGTCTATGGCGCACGTCCGCAGATCGACGCAAATCTGGCTGCGCATCACCACGAA -CCGCTGTATCACAAGAATATACGTGTGACCGACGCCAAAACACTGGAACTGGTGAAGCAGGCTGCGGGAACATTG -CAACTGGATATTACTGCTCGCCTGTCGATGAGTCTCAATAACACGCCGCTGCAGGGCGCGCATATCAACGTCGTC -AGTGGCAATTTTATTATTGCCCAGCCGCTGGGCGTCGATGACGGCGTGGATTACTGCCATAGCGGGCGTATCCGG -CGGATTGATGAAGACGCGATCCATCGTCAACTGGACAGCGGTGCAATAGTGCTAATGGGGCCGGTCGCTGTTTCA -GTCACTGGCGAGAGCTTTAACCTGACCTCGGAAGAGATTGCCACTCAACTGGCCATCAAACTGAAAGCTGAAAAG -ATGATTGGTTTTTGCTCTTCCCAGGGCGTCACTAATGACGACGGTGATATTGTCTCCGAACTTTTCCCTAACGAA -GCGCAAGCGCGGGTAGAAGCCCAGGAAGAGAAAGGCGATTACAACTCCGGTACGGTGCGCTTTTTGCGTGGCGCA -GTGAAAGCCTGCCGCAGCGGCGTGCGTCGCTGTCATTTAATCAGTTATCAGGAAGATGGCGCGCTGTTGCAAGAG -TTGTTCTCACGCGACGGTATCGGTACGCAGATTGTGATGGAAAGCGCCGAGCAGATTCGTCGCGCAACAATCAAC -GATATTGGCGGTATTCTGGAGTTGATTCGCCCACTGGAGCAGCAAGGTATTCTGGTACGCCGTTCTCGCGAGCAG -CTGGAGATGGAAATCGACAAATTCACCATTATTCAGCGCGATAACACGACTATTGCCTGCGCCGCGCTCTATCCG -TTCCCGGAAGAGAAGATTGGGGAAATGGCCTGTGTGGCAGTTCACCCGGATTACCGCAGTTCATCAAGGGGTGAA -GTTCTGCTGGAACGCATTGCCGCTCAGGCGAAGCAGAGCGGCTTAAGCAAATTGTTTGTGCTGACCACGCGCAGT -ATTCACTGGTTCCAGGAACGTGGATTTACCCCAGTGGATATTGATTTACTGCCCGAGAGCAAAAAGCAGTTGTAC -AACTACCAGCGTAAATCCAAAGTGTTGATGGCGGATTTAGGGTAAGCGATGAAAATCGTCGGATGCGACATGCGT -AACACTCGTACGTCGCATCCGGCAATTACGTTTATTCCCGTGAACTAAACAACGCCGCCAGACCACTGCGCCGCT -CAGTACGAGTGGCGATTGCCGCACTTAATATGCGCTCATCGGCATACAGCGACAGACGGCGACGCGCGCGGGTCA -CCGCGGTATAAACCAGCTCTCGCGTTACTACCGGCGTGCGTTGGCTCGGCAAAATCAACGCCGCATGGTCGAACT -CCGATCCCTGCGATTTATGTACCGTCATCGCCCACGTAGTTTCGTGCTCTGGCAAGCGACTCGGTTGCACAGACT -TAATATTGCCGTCCGGCATCGCAAACCAGACGCGCGTCCCCTGCCCGCGATCCAGCGCAATACCGATATCGCCAT -TAAACAACCCAAGCGCGCTGTCATTACGGGCAATCATCACCGGTCGACCTTCGTACCAACGAGAGTGCGGATGAC -GATGAATTTTGCGCTTCTGTTGCATAAACTGCTCAATTCGCTCATTCAGTCCAGCCACGCCAAACGGCCCTTCCC -GCAGGGCGCACAAAAGCTGGTACTCATTGAACGCCTGAATGATTAAATCCGGCTCGGCACGCGCTTGCAGCAGAT -CCAGATAACGTCCGTAACCCGCAAGAGCTTCCTCAAGCATCGCAATATAATCTTCGCCGCTCTGTAAAAGCCGTT -TTTCGATATCAGTAAAATCCTGCTGAAAAACGGTTTTCACTGCCGTTTTATCACCACGGTTGATCGCCGCAGCTA -ACTGACCAATGCCAGAATCGCTGCCGAAACGATAGCTTTTTTGCAGCAGGCAGAGACTGTCGCGCAAAGATGCCG -CTTCTGTGCCGGTTCCTGCCGGAACGTGAGTCCCCGTCAGGCGGCTTAGCTGCCTGGCACGCTCGGCGGTAAAGC -CCGCGTTGGCATAAGCGCAGATATCGCCCAGCACAGCCCCAGCCTCAACCGAGGCCAGTTGATCACGATCGCCGA -GAAAGATCACTCGCGCATGATCGGGCAAGGCGTCGATCAGTCTCGACATCATAGGCAGATCGATCATTGACGCTT -CATCTACCACCAGCACATCAAGATGCAGCGGGTTACCGGCATGATGACGTAAACGCTGGCTACCCGGCTGCGCGC -CCAGCAATCGGTGCAAAGTGCTGGCATCTTCCGGAATGCGTTTCTTTTGTTCATCGGTCAGCGGTAACTGTCGCA -AAGCCTTGCCGAGAGATTCGGTTAAGCGCGCGGCAGCTTTACCCGTTGGTGCAGCCAGACGGATACGGCAGCGTT -CGCCGTCGGCCATTTGAATTAACGCTGCCAGCAACTTCGCTACGGTGGTCGTTTTACCGGTGCCAGGGCCGCCGG -AAATCACCGAGATCCGCCGCGTCAGCGCCACTGCCGCCGCAACTTTTTGCCAGTTAATTTCATCGCTTACTGGAA -AAAGTTTGTCCAGGGTTTGCGCCAGTAGAGCTTCATCAACCTCAATGGCATGATTCACTTCGTTGAAAAAGCGTG -CCACTGTGCGCTCGTTACACCACATGCGATTCAAATAAAGACGATCGCCACAGAGGATCATCGGCGTGGGTTCAT -CTCCCCTGCTGACCGCTTGAGAAGCCAGCAAGCATTCTTCCCAATTTTGTAGCTCACCGATTTCACTGACACAGG -TCGCCAACAGCGGATGCGACGCCTCGTTATTTTCCAGTCGTGAAAGCGGCAAACAAACGTGTCCCTCTCCGGCAT -CATGACTTAACAGTGCCGCCGCGAGGGTGACGGCAGGATGTTCATCTCCCGCCACGGTCAGGGCAAATTGCACAT -CCAGCGGGCGTAGCTGTTTGTGCTCCACAGCTTCCAGTAATTGCTTTTGCAATTTCATTACGCCTCCTCCAGGGT -CATACCGGCAAACATCTCATCCATCAGGGCAATCAACCCGGCGTTGGGTCGGGTTGTGTAAATCCCCTGTTGCGG -ATGTTCTTTATCAACGCCACGCAGGAACAGATAAATAACGCCGCCAAAGTGGTGCTCATAGTCGTAATCAGCAAT -GCGATGGCGCAGATAACGATGCAGCGCCAGGGTATAAAGCTGATATTGCAGATCATAGCGGTGTGCCTGCATTGC -CGCTGCCATAGCCTGTTGGGTGTAAGCCGAACTGTCTTCACCCAACCAGTTGGATTTATAGTCGAGCAGGTAATA -ACGCCCTTCGTGGCGGAACACCAGGTCGATAAAGCCTTTTAACATGCCACGTACCTGCATGAACTCCAGCGGCGG -GCAGCCTGCGGATAGCGGGTCAAACTGGCGGATTAACGTATCAAGCTGACTGGCGATAAGCGGTTCACTAATCGG -CAGATAAAACTCCATCTCCACCTGTTTATTGCGGGCGGAAAGTTGACTCAGGCTTACGCCGGTTTCATTGAGAGG -TGCCTGGAGGACAGCCGTGATCCACTCGGTCAATACCGGTTCCCACTGCGATTCAAAGCCGCCGAGTTCCAGTTT -TTCCCGCACCCAGTTCGGGTCAACCGGCTGGGTAAAATCCAGGTCTTCAAACAAACTGTGCAAGAACGTCCCCGG -TGACGCACCGCGCGGAAACTGATGTGGTGTTAACGTCGGTTCTTCAACGACGCTGGCAACGCCTGCAGCATCGAC -ATCCAGCCGAGGCATCAAATCCTGGGCGATACCGTGACCACGCTGTTGCAAACCAGAGTAGCTGGTGACGCGCCA -GTTATCGCCGGGCAATCGTTGTAACGTCTTCGCATTCAGCTCTGCTGTAGAAACATCATTAACCTGCCAGGGTTG -GTTATCACCAGTTTGTGCCGTTTGCCAGGCAATATCATCATCGCATAACGCTTCAATACAGGTGCGAAGCCCTGC -CGCATCTTGCGGTTCCCCTTTTTGCAGCAAACGCCCGAGCGCACTTTGGTGGACGTCGGTGTCACCTTTTTTATC -GCCACGACGGCGCACCAGCGGTGCAACGCCGAGACTGCAATGCCAAACCGAACGTGTCAGCGCCACGTAAAGCAA -ACGCAGATCTTCCGCCAGACGTTCGGCCTCCGCGAGGTCGACGCTTTCTGGCGCAGCATTAAGATCCAGAACTGC -CTCAAACGAGTGGCGATCGTGATAAAACGCCTGCTCCTGGACGCGGAAATTGGTGATAAACGGCAGCCAGACCAA -TGGATATTCCAGCCCTTTCGATTTGTGGATCGTGACAATCTGCACCAGATGTTTATCACTTTCGAGACGCATTTG -TTGGCTGGAGGCATTACTGTCTGGCTCGAGGATATGTTGCGATAACCAGCGTACCAGCGCATGTTCACTTTCCAG -CTGCGTTCCGGCTTCTTGTAGCAGTTCGCTGATATGCAAGATATCGGTAAGACGCCGCTCACCGCCTGCCGTTGC -CAGCAAGTTTTCAGCAATGTTACGCGCCGACATCAGCGCCCGCAGCATCGGCATAACGCCACGTTTGCGCCAGAT -TTGCCGATAACCATCGAACTCTTCGACTACCACATCCCACGCATGTTCGTCATTGTTCAGCGTTTCGATATCCAG -CGCGTTCAGCCCCATCATTGACGTTGCCAGCGCACTACGCAGGGTGTTCTCACGTTCGGGCGTCATCACCGCCTG -CAACAACCAAAGCATTTCCTGCGCTTCCAGAGTTTCAAAAACACTGTCGCGGTTCGAAAGGTAAACGGAAGGGAT -TTCCAGCAACGTTAAGGCATCGCGCACCTGGGCGGCCTCCTGGCGGCTGCGCACCAGCACACTGATGTCCGAAGC -ACGCACCGGACGCGCGTCGTCGCCGTTCATCAGCAACGCTTCGCCCCGCTGTCCGGCTTGTAGCCAGTCGCGGAT -TTGCGCAGCACATACCTGCGCCATGGTACTTTGATAATCGCCAACGCCGCAGCTTTCGCCTTCCATCAGCCACAT -TTTCATCGCAGGCTGTGTTTCACCTTTAAATACAAAACGTAACGCCTGATTTTTCCCGGCTGATTTCACTGGAAT -AAACGGTATTTCGCGAAACATGAACGCGTCATCAGTCTGGCTGAAAAGCTTATTCACGCTGTTCACCATTCCTGG -TGCGGAACGCCAGTTGGTGTCTAAAGTGTAGTGGGCGTGAACTTCGCTACGCGCCTTCATATAAGTGAAGATATC -CGCACCCCGGAATGCATATATGGCCTGCTTCGGGTCGCCAATTAGCAACAATGCGGTTTCCGGCTGATGGTGCCA -GATACGGCGAAAAATTCGGTACTGCTGGGGGTCGGTATCCTGAAATTCATCGATCATTGCCACCGGGAATCGCGT -ACGGATCGCCGCTGCCAACACCTCACCGCTTTCGCTACGCAGCGCGGAATCGAGCCGACTTAACATGTCATCAAA -ACCCAATTCGCCACGGCGGCGTTTTTCACGCGCTACTGTTTCGCGGATCTCAGCCAATGCGCGGGTGATCACCAG -ATCGCGGATCGACAATGGTTCTGCAAGCAGTTGATCGATCGCCTCAAACAGTGGATGTCGCGGGGTTTCCCCCCC -GGCCTTCGTGCGATCTTCTAAGAAACGCTGGGAGAATTTTTCCAGCGACTCCGGCAACTGATAACTGTTTGTCTC -TTCTTCTGCCCAGGCGCTGATCTTGTCGATCCATTTAGCCTGATTGCTACGGTTAAACTTGCGTCGATCAATACC -AGAAGATTCGATCAGCGCATCCAGTTCACCCACTGCGTCGCGCCACTGCTGTTTTACCGTATCAATACGCGCCAC -AATTTGCGCGTGACGGGAAGCCAGCGTTTCATCATCGGGCGGCGGTGCTTTGATAACCGGCGCTTCGCCTTGCAG -ATAACGATTAATATCGCGCAGCAACGCCTGCGGCCCTTTCCAGGTTTCAAAGACGACCTGGGCTATTTCACGCGG -CAGCGGGTAGCAGTGGCGACGCCAGAAATCGGCGCAGGCCTGGTAGCGTAGCAGAGACTCATCTTCAATCAGCTG -CTGCTCAAACAGCATGCCGGATTCAAAGGCATTCAGGTTGAGCATGCGCTGGCAAAAGCCGTGAATAGTAAAGAC -TGCCGCTTCATCCATCTGCCGTTCGGCTAACAACAACCACTGCGCGGCTTGCGCTTTATCGTCGATCTCTTCCAG -CAGGCGTTCGTACAGTGGATTGTCGGTGGTTTCACGCAGACAGGCGATGCGCAACTCGTGGATATTGCTACGGAT -ACGACCGCGCAATTCTGCCGTGGCAGCCTCGGTAAAGGTGACCACCAGCAGTTCTTCAACGGTCAGCGGGCGGGG -AAAGGCGGCGGAACCGCCTAGTCCAAGTAACAGGCGCAAATAGAGCGCCGCAATCGTAAAGGTTTTGCCTGTGCC -GGCAGAGGCTTCAATCAGGCGCTCACCCTGTAAGGGCAAGCGCAAAGGATCTAGTGTCTCGGCGACATCACTCAT -TCTTTTCACTCATCAGGGGCATTGTTTGCTGCAACGCGCTGACGTTCTCCCACACTTTCCAGCCTTCAGGGTGTA -CATATTCGGCTTTCCCGTTCTGGCTGCCGGAAATCTGCGACAGAATAGCCATGCCTTGCGGCTCGACCACCGCCT -GATGGAAGAAATCAGCAAGTTTTTGCGGCGTCAGCAGTTTTATCTGGGCCACGATTTTATCACGCGAATCGAAGC -GCATATTGCCGCGATCGAAATCTTTACTTAACTTCGATGCTTCTTCGCCGAGCGTTTGCGGTGCCTGCAGCATCT -GGGTAATTACCGCCTGCTGGATTTGCGCAAACTCATCTGGCTTCATCGCTCGCAATTTTGCCTCTGCGGTTGGGA -AAAACGCCTTGTAACGCTCCCACAAGAATGAAGGCTGTTTATCATTGCTTTGCAAAAGGAAGCCCATGCCCCACT -GACGCCCCACGCTCATTGGAAACGCAAACACGGCATAGCCCAATTGTTCTTCGGTACGCAACTGATTGTAGAACC -ACGGCTGTACGATCTGCCCCAACAGAGAGCTATAGGCTGAGCTGGTGTATTCATCGTAGCCAGTCGGTACAAATA -CCGCTGCCAGTGCGGAGTCGGTGCTGTTACCGGCTTTTTCAAAGATGACGGATTGTTTTTTATCGACCACTACAT -CTTTGTTTCGACACCACTCTGAACCATCAGCGCCCAACTGTTTTTGCACATCGCGTGCCAGCGTTGTTGCCTGGG -CCTCGGTCATGTTGCCGATAACCATAAACTCTGGTCGAGCCCCTGATTTTAAGGCGTCGCGATAGGCCAGCACCT -CTTTCAACGTAATGGAGGGCAAAATTTTACGCCGTTCATCTCGCGAGAAGTACGGCACTTGCGAGAGCATCTGCG -CGGGCATAATCGCCTGCTCAAACGCTTTACCCTTTTCTGCGGAATCCATCATCTGGTTATACCAGGACTTCGCCT -GCTCAAGCTGATCTTCCGTAGCGGTATAGCTAAAGTACCCCTCGAGCAATGCCTGGAACAGCTGCGGCAGACGCT -GGGTGTAACCATTAGCATTAACCATAAGGCCGTTGTTAGCGTTGGTGGAAAAACTTATGCCACCAACCGACGCCT -GGTTGCTTAACTGATCAAGCGCCAGCCCTGCGAGATAATCATTGAGCGCAAACATCACCTGATTGCGGGCGCTGT -CCATGGCTTTCGGATTACGCAAAATCAGGCTGACATCAGCTTTGGGCTCGCTGGCAAAATAACGGCTTGGCGCAT -ACACCACGCGCAGATTCGACTCATCAACAATCAGCTCTGGATGGTCGTATTTCTTCTCTGACTTAATCAGCGAGA -AATCATCAGGAATATAAGGGTTAAGCTCTGGCAAAGAGAGCGCAATGTCGGCGGCTTTTTTCTGCCAGTCGGCGA -AAGTTTGTGCGCTGATTTTATCGACCTGATACGGCGCATCGACAAAGTAAGCCGTTTTGTTGTGCGGCTCTTTCG -GGCTGATATACCAGATACGCGCATTCTGCGGCGTCATCATCGCCAGACGTTCCTTTACTGCTTTAGCATCGTACC -GATCGGCAATATTGACTGCATCCAGCGTATGCTCAACAGGAACGCGAATCATGGTATCTGCCAGCCATTCGACGT -AATCCATATCACGGGTGATCGACGGATAACGGAAGTCGATATCCAGCACATTCGCCAGTTCATCGAAGTATTGTT -TATCAATGCCTTTTTCACGTAACAGATTGAGATAGCTAAAAATTGCCGCCACAACCTGATCGCGATTAGCCAGGC -CTTTATCGGTTAAAGACGCAGAGATCGCTAATACGCCGCTGTTGCCGTTGACGATAGGATCGGAGTTGGCGCTAA -TGCCCTCAACTAATCCCTGCTTTTGCAGCCAGTCAGAAAGTGTACCTGGGCTGCGATTGCCAATCAGATAGGTAA -TCAATTCATCGGTTTTACTACGGAACTTCGCTGAGTTGTTATCGATGCGAAACTCAACGCGCAACACTTTACGCG -GCAGCGCAGGGACGTAATGAATGATAATGCCCTTTTGCGCGTCGGTGACTACCGGCACGGTGATTTCCGGTTTTT -TGCTCTCTTTGTTCGGCACGCGACCAAAGGTGTCCGCCGCCATTTTTGCCAACTCCGGCAGCGGTTTATTACTGT -AAATAACCGCCTTCATCAAATTGGCGGAATAGTACTTCTCGTGGAAATCTTTCAGCGCCTGCTGCACCGGATTAC -CAGGTTTGTCGCTTAAAGTTTCGAGGTTACCACCAGAAAACTTTGAACCGGGGTGTGCCGGGTTAATGGTTTCTG -CGCTGACCTGTGCCATGCGCATCCCGTCACGCGTACGCGCCATGGTTAATTCAGCGTTCACCGCATTACGCTCAC -GTTCGGCATATTTCTTGTCGAGCAAAGGTTCAGCAATAGCATCGGCCAGGCGGTCTACCGCACCAGGCAAGGCGT -CGTTCTCAACTTCCAGATAGAAAGCCGTGCGATACGGCGCAGTGCTGGCATTGTGACTACCGCCGTGCATTTTGA -GATATTCGGCCAGACTGTCAGCCTGCGGGTACTTTTTCGACCCCATCAGACTCATATGTTCAAGGTAATGTGCCA -GCCCCTGGTACGCCTCGGGATCTTCCAGCGACCCAACGGGCACCACCAGCGCCGAGAGCGATTTAACTGCCTGCG -GATCAGAAACCAGCAAGACCACCATACCGTTATCCAGACGTATAGCCTGATACTGGCGGTTATCTTTATCACTTT -TACGGATGGTTTCCTGAATCGGCTGCCATCCCGTTTCTGCCTGACTTAAGGGTGCCCAAAGGGCAACTAACAACA -ATAATGCTTTGAACCAGGTGCTGCGGGGCATTCACGGACCTCATAATCAACTTAATTTTCTGTCCAGATTCAACA -CGTTAACGCAAATCATCTGCCAGAATTTAATCTTGTGCTGCACGAGTCAGCCTATGTTTATATAACCATCAGTCC -GTGACTGGTGCGCATCATAAAGTAAGCGGATAGATTGCGCAATTTTTATACAGCACTCATGACTGATTAAAGCGA -AACAGCGGTAACAGGAAACGTTGCGACTGTTCAACGATGGCCTCCATTGTCTCTGGTGTTAATTGCCGCCAGAGC -CTTTGATACCAGATATCATCACCTTCGCCACGCACCATCATGTTGCCTTCGTAAGCCTGAAGGAATTTCGTACGG -GCTTTTTGCAACGTGGAATCGTCATCCAGCATGGCATCGTTTTGCGCGTCATAACAGGTTTTTAGCCACGCGCCG -CCACTTTCAGGTAACACCAGCAATGGCGCGGACATTCCTTCACGATACCCCTCAATCAGTTGTGAGAGGTAATGC -AAAGCCTGTTCGGCTGCAAGCGGCGGAAAACGCCACTCGCCGTCTTTGCGTAGAAAAAGGCGACTTTCACCATTA -CCACCGCTGGCACAGTAGACAAGGTGTTCCAGCCAAAGTTGCATTCCCTGGGCCACACTTAATAAAGAGGGACGC -CAGCGCAACAGGCCATCCGGCTGCACCTGCGGCAACCAGCCAGTTATCTGCACACCGTTGCAGGCGAGATCAATT -TCCATACTCTGCCCCGGCTGGCGACAGGCAATGACTCTGTCGGCAAGCTGCTGCATCTCCTGGCACTGTGTTTCC -CAGAAAATTTCACCAAAAGCGCCATACGGTAAATCCCCTGCCGCTCGGAAGCGGCGGAACAAGCGTTCGGCATCA -TCCTGCTCAACCAGTGCATTCAATAACTGCTGATTGATTTGATAACGGCTAAGTCCTTCCAGAATAAATGGCTCG -GTGTCGGGGATTTCGCTGTCTTCAGTACGGAAGTTCACCTGCAAACGCATCTGGAAAAATGCCCGCACCGGATGT -GCCCAGAATCGTTGTAGCGTTTCCAGCGGCACGGTTTCCGGTAAGGTAAACGGCAGCGGCTGAACAAATTCAGAA -TGTGCTTTACCAGCCTGGCTGGCCGCAGGTAGCCATTCACGAGCATAGCTTTGTCGTTCGCCTGGCTGGTAGTTT -TGTGGATCAAACGGCATCCGGGTATGGAGGCAAGTAAGATGCGCTTTTACCCTTGCCTCGCTTTCATCACAGTTG -AGCGCTTCATCGCCCGGTAGATAATGACTTTGCCCGATGTAGTCGATCAGTTCCTGCACCAGTACCGACGGGAAA -CGCTCACTGTTATCCTGAATGGAACGACCGATATAGCTGATATAGAGTTTTTGCTGCGCGGAAATTAACGCTTCC -AGGAACAGATAGCGGTCGTCATCGCGACGGCTACGGTCGCCACGCTTCGGTTTCTGGCTCATCAGGTCAAAGCCC -AATGGCGCAAGCTGACGTGGATAAACGCCGTCGTTCATTCCCAGCAGGCAAACCACTTTGAACGGAATTGAACGC -ATTGGCATCAGAGTACAAATGTTAACCGGTCCGGCGAGAAAACGCTGGCTGATACGTTCTTGATCCAGACGCTGT -GCCAGTTCATCACGCAATAGTGACAGCGGCACCGCGTCGCCATACTGCGCACCTAAACCTTCGGCGATAATCGCC -TGCCATTGTTGTTCGATCAGCGTCATCGCCGCTTCGGTTTCCGCATCCGGCAGGAAGAAGGCGTTGAGCATATCG -CGACAAACCGGCAACCACTCTTCCAGCGGACGCTCCTGTGCCAGCCCGCGACGCCAGATGTTTAGCTGCATTAGC -AGTGAAGCCAGATGCCCCACCAGTTCTGCAATTAAGCCGCTCGATTCATCATAAGGTAGAACCGATTGCCACTCG -CCCTGCGCGCTCTCCATCGCGTAGCCCAACAACATACGCGTCAGGCCAAATCGCCAGGTGTGTTGTCCGGTGGCG -GGGAGTTCCAGCTCGCGAACGTTGTCGTCATCTATGCCCCAACGAATGCCGGATTCGTTGACCCACTGGCGTAAA -TAACGCAGCCCTTCTTCGGTGATGTCAAACCGCGCCGCCAGCACCGGCACATCCAGCAACGCCAGCACATCCTCT -GACACAAAACGACTGTCAGGCAGTGATAACAGGCTGATAAACGCTTCCAGTACCGGATGTGACTGCCGCGCACGA -CGGTCGGAAATGGCGTAAGGTAGGTAACGATCCGCAGGTGCGCTACCAAACACAGCCTGAATAAACGGACTGTAG -CTGTCGATATCAGCCACCATCACGATGATGTCGCGCGGAGTAAGTGTCGGGTCTTCCTCCAGCATCGCCAGCAGG -CGATCGTGTAAAACTTCAACTTCACGCTGCGGGCTATGGCAAACGTGGAAGGTGATACTGCTATCCAGTGGATCA -AGCGGGCGTTTGTTATCGCTACGGGAAAACTCTTCGATGTTCACACCAGCAACGGCGCGGTTTTCCAGTTCCAGA -ATGTCAGACTGAATGTTATGCAGCAGGTTATCTGGCGTGACATCGACAAAGGCGTCCAGCTCCTGGCTGCTCTCC -AGGTCAGAAAGGAGATAAATGTAGTCGCGCCCAAGCTTACCCCATGAAGCCAGCAGCGGGTTGCCGACATCCTGT -TCACCATCGCTGTTAAAGAGCTGCCCGGCATTTTCGCTATCACGAAATAGCGGCAATTCGCGATCTTCAAAACTG -TGTCGACGCTGACGGGTCAGCAGTTTCGCCAGATAAGCAGGATCTTTAATATCGCCCCAGTAATAACGGCAGGGG -TTGGTAAACAGGAGATGGATTTCAATATGTTTACCCAGCGCCTGTAGCGCCTGGAGATAAACAGGCGGTAACGCG -GAAATACCGCATATAAAGACGCGCGAAGGTAACCCCGGCGGGCAGGTCGTCGCGGACTCCAGCGTTTCGATAAAG -CGCTGATAGAGATTGGCGCGGTGCCAGCGCGGTTGCCCGAGTTGATGGGTATATTCCACCAGCGCCTTCCACAAC -GGGGCTTGCCAGGCCTGTGCTTCTCCCAGCCCTTCAACCAAATGTCCTGTTTCCCACTGTGCCAGCCAGTCCGGA -CGATAGACCAGATACTGGTCAAACAGGTCCGCCGCTTTTGAGGAAAGCTGGAACAGTTTTCGCTTGTCGCTATCG -TCAGTCAGATAATGCCGCAACAGGGTAAAGTCTTCGCGCTCCAGCAATTGCGGCAGCAGAGTCATCAGTTTCCAG -CTCATGCTCTGTTTGTTAAAGGCGCTCTCTTTGGGGATTTCCGGTAACACCCGGACGAACATATCCCAGATAAAG -CTCGCTGGCAGCGGAAAATCAATGTTTGCCGCAATACCAAACTTTTGCGACAGGGTCATTTGCAGCCACTGTGCC -ATACCGGTACTTTGCACCAGAATCATCTCTGGTTCGAAAGGATCGTCCAGCCGTTCGCGTTCGACAATAAACTCC -ATCAACGCTTCCAGCACGTCCAGACGATTGGAATGGTAGACCCTTAACATAGCGGCTCCTGACTACTGACGATTC -GGGCAATGCAGGCGGGTCATCTCGCCTTCTCTGCCCCCGGGTGAAACTAGCGTAACGCTGATGCTGACACATCCC -GCCTGCGATGTCTGCATTCGGTTGACCTGCCAGTTGGCAGGTGGCGAAATCGCGCGCAGTTGCGTTTGCTGCCAG -CCATGCCGCCAGAGCTGTTGGTACTGGTTTCTGCTGGCAAGACTGTTCATTAATGTTCGCTGGAAACCCGATAAC -GCAGTGACAATCATCACCATCAACACCATCGCCAACATTACCTCCGGCAGGCTAAAGCCTTGTTGATTCTTCAGG -GAAGCTGACATAACGCCCTCTCTTTCAGCGGACAAAAATCGCTCCAGCCGCGTGGCGAAAAAACAATGTTTCCAT -CAATGACTTCGCCTGTTCGCCACAACGAAACGCCTTCATAACCGGCAATCAATAAGGCTTCATTATCTGCCAGTA -AACGCAAACAAACCTGGGCATCGGTTTCAGCGTACTGCGAGCACTGAACTGCTGGCTGCGTCTGCCAGCAGTGCA -TTTTTCCCCACGCCAGCGCCGACTGAACGATGGCCTGGCGGCGCAATGACTGACTTTCCATGCTCACGCGAGAGG -CAAAACTGCGATCCTGTTGGCTCATTCCTTGTAATAGCAAACTACCCAAAACCAGCAGCATCAGGACCAGAGCCA -GTGACGAAACACCCTTTTCGCGGTTCACAGGTTGAATCCTGTCACGCTATAGCTGGCATTCACCACGGTTTGCGG -TTCAGACTTACTGGCAGCACGCATATTAACCGTCAACACCGGCGAGAAGCCGCTGACATCCTGACGTACGACCTG -AAAAGTGTCGATAATGATGGCATCCGGATTAGTGACTTTATCCCAGCCCTTACCTTCACAGGATGTCGCACCGCG -TAGCGTTTCCAGCACATGCTCCTTCAGACGAAATCCAATCTGGTCGGACTCTTTTACCGGTTCGCGATCCCAGAT -ACCGTTACTGTTCGCATCCCACTGCACAATGACACAGTCACCCTGTCCGACAATTTCCAGCCCTTCGCCGGTACA -GATGCCATGACAATAACCCGCCCTCTGGAGATGCTTCGCGACGGTAAATACCCGCAGCCAGATTTCATCTTCCAG -CGCCAGCTTACGGGTGCTCGTTAAACTTTCACGCTGTAACGCAGGCAGAAAGCGTGCCGCCCCCAGCAACAATAC -GCTACTGATCGCCATAGCAATCAACACTTCCAGCAGAGAAAAACCTTGCTCTTTTACAGGCATCCTTCTGTTTCT -CCTTGCTGACAAAGCCGGAGTCTTCCCCACGGCGAAACCACCAGCCACCACTCGCCCGTTGAGTTTTTGAAGCGA -ATATGCCCGGCCCATGCGGTATTGCGCAGGCCAAAGAAAGCAAGCGAAGGTGTCAGGTCGCTCATTTCGACTTCG -GGCCAGCGTGGCACAAAGACCAATGGTGAACTGCCATGACAGGTATTGGCCCCAGCAGCGGAACTCACAAGGCAC -CATAACGTCCCCTCCCTGATAACGCTGATACTGTGGTCGCGGTTATGCCAGTTGGCATCTTCACGTAAATAGAGC -AAATAGTCCCGCGCCTGGCTGGCGGTTTGCCATAGCCGTTGCGACTGCTGCCAGTATTGCCAGCCATAGAGTCCA -CTTGCGCTTAGCATGACCAAAATCAGCATCGCGACCAGCGTTTCAATCAGCGTATAACCACGTTGTGTTTTCATG -CCGGCAGTATGGAGCGAGGAGAAAAAAAGACGAGGGCCAGTTTCTATTTCTTCGGCGCATCTTCCGGACTATTTA -CGCCGTTGCAGGACGTTGCAAAATTTCGGGAAGGCGTCTCGAAGAATTTAACGGAGGGTAAAAAAACCGACGCAC -ACTGGCGTCGGCTCTGGCAGGATGTTTCGTAATTAGATAGCCACCGGCGCTTTAATGCCCGGATGCGGATCGTAG -CCTTCAATCTCAAAGTCTTCGAAACGGTAGTCGAAGATGGATTCGGGTTTACGTTTGATAATCAACTTCGGCAGC -GGACGCGGTTCGCGGCTTAATTGCAGATGAGTTTGATCCATATGGTTGCTGTACAGATGCGTGTCGCCACCGGTC -CAGACAAAATCACCCACTTCCAGATCGCACTGCTGCGCCATCATATGCACCAATAACGCGTAGCTGGCAATGTTG -AACGGCAGGCCGAGGAAGACGTCACAGGAGCGCTGATAAAGCTGGCAAGAGAGTTTGCCGTCTGCCACATAGAAC -TGGAAGAATGCATGGCACGGTGCCAGCGCCATTTTATCCAGTTCGCCTACGTTCCACGCTGAAACAATAATGCGG -CGCGAATCCGGGTCGTTTTTCAGCTGGTTCAGTACCGTAGTGATCTGGTCAATATGACGACCATCTGGCGTTGGC -CAGGCGCGCCACTGTTTACCATACACTGGCCCGAGGTCGCCGTTTTCATCGGCCCATTCGTCCCAGATGGTGACA -TTGTTTTCGTGTAGATAAGCAATGTTAGTGTCGCCCTGCAGAAACCACAGCAGTTCATGGATGATGGAACGCAGG -TGGCAACGTTTAGTTGTCACCAGCGGGAATCCATCTTGCAGGTTAAAACGCATCTGATGACCAAAAATGGAAAGC -GTTCCGGTTCCGGTACGGTCGTTTTTCTGTGTGCCTTCGTCGAGCACTTTTTGCATCAGTTCTAAATACTGTTTC -ATGGTTCCTCAGGAAACGTGTTGCTGTGGGCTGCGACGATATGCCCAGACCATCATGATCACACCCGCGACAATC -ATCGGGATGGAAAGAATTTGCCCCATGCTGATGTACTGCACCCAGGCACCGGTAAACTGCGCGTCGGGCTGGCGG -AAAAACTCAACAATGATGCGAAACGCGCCGTAACCAATCAGGAACAAACCTGAGACAGCTCCCATTGGGCGTGGT -TTACGAATATACAGGTTGAGGATAATAAACAGCACCACACCTTCCAGCAGCAGCTCGTAAAGCTGTGATGGGTGG -CGCGGCAGCACACCGTAAGTGTCGAAAATGGATTGCCACTGCGGGTTGGTTTGCAGCAGCAAAATATCTTCTGTA -CGGGAGCCAGGGAACAGCATGGCAAACGGGAAGTTCGGGTCAACGCGGCCCCACAATTCACCGTTAATAAAGTTG -CCCAGACGCCCGGCACCAAGACCAAACGGAATGAGTGGTGCGATAAAATCAGAGACCTGGAAGAAGGAACGTTTA -GTACGGCGGGCGAAGATAATCATCACCACGATAACGCCAATCAGGCCGCCGTGGAAAGACATGCCGCCGTCCCAG -ACACGGAACAGATACAGCGGATCGGCCATAAACTGCGGGAAATTGTAGAACAGAACATAACCAATACGTCCCCCG -AGGAAGACGCCGAGGAAGCCCGCATAGAGTAAGTTTTCAACTTCATTTTTGGTCCAGCCGCTGCCCGGACGATTC -GCCCGTCGTGTTGCCAGCCACATTGCAAAAATGAAACCCACCAGATACATCAGGCCGTACCAGTGAAGCGCCACG -GGTCCTATTGAGAAAATGACCGGATCAAACTCCGGAAAATGCAGATAGCTACTGGTCATCTGTCACCACAAGTTC -TTGTTATTTCGCTGAAAGAGAACAGCGATTGAAATGCGCGCCGCAGGTTTCAGGCGCTCCAAAGGTGCGAATAAT -AGCACAAGGGGACCTGGCTGGTTGCCGGATACCGTTAAAAGATATGTATATGATCCGCGCTATAACCCTCCGCGA -ATCAGCCCGCCCATGCCGCGACGCTCCATAAAGGCTGCAACCTGATGGCGAACTTCGGTCGCCAGTTGCGCTTCC -AGACTACGCTGCGCAAGATTTTCTGCTTCGGCATAATCAATGCGCCGCAGCAGGTATTTTGCCCGCGCTACAGAA -CGTCCGTTCATAGACAGATGGCGATACCCAAGCCCAATGAGGATTGCCACGCACATGGGATCGCCCGCCATTTCA -CCGCACAAACGGAGATCGATTCCATGTATTTCCGCTTCCCGGGCGATCATCGCCAGAGCTCGTAACATTGCAGGA -TGAAGACTGTCATAAATGTTCGCCACCCGGGTATTGTTGCGATCAACGGCCAGAATGTATTGAGTCAGATCGTTG -GTGCCAACAGAGATGAAATCGACCCGCTTTGCCAGATGCGGCAGCATAAATACCATTGACGGCACTTCCAGCATG -ATGCCGATACGTGGTTTGGGAATTTCGTAACCGATCATCTCCTCGACTTCACGTCCGGCACGTTCAATCAGGCGG -CGTGCTTCATCAACTTCATCGAGGCTTGTGACCATCGGCAACAGAATATTCAGGTTGCCCGTAGCGGCATTAGCA -CGCAGCATCGCCCGCACCTGGATCAAGAAGATCTCCGGCTGATCGAGCGTAATGCGAATCCCACGCCAACCCAGG -CATGGATTCTCTTCGCTGATCGGCATGTAAGGCAGCTGCTTATCTGCTCCGACATCCAGCGTACGCAAGGTGACG -GGTTTATCATTGAACATTTGCAGCATCCCCTGATACTGCGCCACCTGTTCTTCTTCCGACGGGAAACCACTTTGC -AGCATGAATGGGATTTCAGTGCGATAAAGACCGATGCCATCAATACGGCTGCCCAGTTTTTCTTCATGTTCCGGG -CTTAAACCAGCATTGAGCATGACTTTTATACGCTCACCGCTTTTTAACTGCGCGGGTAAATTGACGTCATCTTCC -GCCAGACGGCTAAGCTCAATCTCTTCACTAATTAGCCGCTGATATTCTTGCAGCAGTACCGGCTCCGGATCGACC -AGCAATTCACCGCGATAGCCATCAACGATCAGCGTCCTACGATGCAGCACCGAAGGCTGAATATCCGCGCCCATC -ACGGTAGGGATCCCCAGCGCACGTACCATGATCGCAGCATGGGAGTTGGCTGCGCCATCTCGCACGACAACACCG -ACTAAGCGATCCTGGGGCAGCTCAGCAAGCGTTGTCGCTGACAGTTCATCTGCCACCAGAATGAAACGTTCCGGC -CAGGCGTTCGGCCCTTGATTAGCGTCATCAAGATGAAACAGCAATCGCTGACCCAGCGCACGTAAATCGCCAGCC -CGCTCTTTGAGATAGTTATCACTTAGCGCGGCAAACTGTTCGGCAAATTTTTCAATGACCGTTTTTACCGCCCAC -TCTGCCACCGAGCCTTTATCAACCTCGGCAAACAATTCGCGACGCAGCCGGGTGTCCGAAAGCAGGTGCGAGTAA -AGATCGAAAATAGCCGCCGTTTCTTTTTGTGCACCGGCGGCAAAGCGTTTGCTGTAGCGGCGAAACTCGTTTGCC -GCTTCTTCCAGCGCCCCGGTCAGTCGTTCGCGTTCCAGAGCCGGATCCAGCGTTGATGCCTGATACACCTGTTCC -ATTAAAGGTAACGTGGCATCCTGCCAGCCTTCGGCAATCGCCACACCAGGTGCTGCCGGTAATGCGCGGATTCGC -GTCTGGCGATATTGCCCAAACAAGGCAGTCAACTGCGACTGAGAAAGAATAGCTGCCATCTGGGTGGCAAGCGTC -ACCAGGAAGGATTCTTCACTTTCGTCATACTGGCGCAACTCTCGTTGCTGTACCACCAGTACACCAAGCAACTGG -CGACGTTGAATAATTGGTACGCCTAAAAACGCGCGGAAACGTTCTTCTTTTACGGAGGGGATGTATTTGAAGCTG -GGGTGCTTTTGCGCATCTGCAAGGTTTATCGGTTCCGCCAGCCTGCCAACCAGGCCGACGATCCCTTCATCAAAC -GCGAGCGTTACAGTGCGACCGCGTGGTTTTTTCAGCCCCCGGGTCGCCATCAGGTAGTAACAACGTCGATCATGA -TCGGCCAGGTAGACCGAACAGACCTCGGTATCCATCGCAAGACAGATGTCGGTAACCAGAATATTTAACGCCTCA -TTCAGGCGTGGTGCGCTGGCTACCTTTTCGACTATTTCGCGCAGGCGAGTGAGCATAATTGGCGTGACTTAACCT -CTTTTACGTCGATAAGCAGATGCGTTTTGTGGTTTTGGCGTATTTTCCTGCAGTGACATCACCACACTCGCGAAC -TCTTTCATTACCCTACGGTAGACATCACGTTTAAATGACACCACCTGTCTGACCGGATACCAGTAACTTACCCAT -CGCCAGCCGTCAAACTCTGGTGTACTGCTGGTTTGCATATTGATTTCTGCATCGCCGCTCACCAGCTGCAAGAGA -AACCATTTTTGTTTTTGGCCGATACAAACCGGCTTCGTGTCCCAACGCACCAAACGTTTCGGTAATTTGTAGCGC -AACCAGTTACGCGTTGAAGCAAGGATTCGAACGTCTTTGCGGCTTAATCCTACTTCTTCAAACAATTCACGGTAC -ATCGCCTGCTCTGCGGATTCTCCGGGGTTGATTCCGCCTTGCGGAAATTGCCAGGAGTGCTGACCAAATCGCCGG -GCCCACATTACCTGCCCCTGGCGATTACAAATCACGATACCTACGTTTGGGCGGTAGCCATCGTCATCAATCACC -GGACTACCTCAAAATAAAGCTTTATATACGAATGATTGTTTCATACTCCAGGAAGACGGTAAACCACTCTCTGCA -GGGCATTACACACTAATAACAATTGAATAACTCACAGTTATGTGCAGAGTTATAAACAGAGGAAGGGGTGGATAG -CCGTTTTTATTCACCTTTTCTGTGGATAGAGTTGTGAAGAACTACGGAATTACTACGGGAAAACCCGGAGCATTC -TGAATAAGCCCGATATAGACATTTTAAAATATTCATTATCAGTCAATGCATTACATGTAATTTTAGTAATGAAAA -AGAGTAATTCGTGACCCAGGTCACACCTCTCATTTACGGGTTGGCGAAAGATCAACCAATGCCGTATTTATCCAC -AGAATGTGCCACTAAGTTAAGCACTGAACCACTAAAAACTGGAGTTTCGTCGCACGTCAAGGCTGTAAATGGAAA -CAGTAGTGGAGGTTTTTCACAGTTATCCCAGCTTTCTGTGGATAACATGGTGTAAGATCCTGTTTATTTTCAGTG -ACCAGATTTGGAAAACCCGTTGCAGTGTTGCGCAACTCGATTACCGGCAACCTAAAAAGCAATATAAATCAGAGA -ATTGAACAACGCATGTGGAAAAAGTTACACTGCGAATATTCGGCACATAATTGCTGTTTGTTTTTTAATCAAGGT -ATCATGACATGTCCCAACCTCGCCCACTGCTCTCTCCTCCCGAAACTGAAGAACAGTTGTTAGCGCAAGCACAGC -AACTTTCTGGTTATACATTGGGAGAACTGGCGGCACTTGTCGGGCTGGTTACGCCAGAGAATTTAAAACGCGATA -AAGGCTGGATTGGCGTGTTACTGGAGATCTGGCTAGGTGCCAGCGCAGGGAGTAAACCTGAGCAAGATTTTGCTG -CTCTGGGCGTGGAACTTAAAACTATCCCTGTGGATAGTCTTGGTCGTCCGCTGGAAACAACATTCGTTTGTGTTG -CCCCGTTAACGGGCAATAGCGGGGTGACCTGGGAAACCAGCCACGTGCGCCACAAACTCAAACGCGTACTGTGGA -TACCGGTTGAAGGCGAGCGCAGCATCCCGCTGGCGCAGCGTCGCGTTGGATCACCGTTGCTGTGGAGCCCGAATG -AAGAGGAAGACCGGCAGCTACGCGAAGACTGGGAAGAATTAATGGATATGATTGTTCTCGGTCAGGTTGAGCGGA -TTACCGCTCGTCACGGGGAGTATTTACAGATACGACCGAAAGCAGCGAATGCGAAAGCGCTTACCGAAGCCATTG -GTGCCCGGGGCGAACGGATTCTGACGCTGCCACGCGGCTTTTATTTGAAGAAGAATTTCACCAGTGCACTACTGG -CCCGTCATTTTCTGATCCAGTAGCCATCGCTTTGACCTGCCGCTTTCCGGGCATATAATTACCGCTTCATTTTTT -TGGCAGGGCTTTTTAGATGTTATTTGCATGGATAACCGATCCTAACGCCTGGCTTGCGCTCGGTACGCTGACGCT -GCTGGAGATCGTTCTTGGGATCGACAATATTATTTTCCTTTCTCTGGTGGTGGCAAAGCTTCCCACAGCACAACG -TGCTCATGCGCGCCGTCTGGGGTTGGCGGGAGCCATGGTTATGCGTCTGGCGCTGCTGGCATCAATCGCCTGGGT -TACGCGCCTGACAAATCCGCTTTTTACAATATTCAGTCAGGAAATTTCTGCCCGTGATTTGATTCTGCTTCTGGG -TGGCTTGTTCCTTATCTGGAAAGCCAGCAAGGAAATCCACGAATCCATTGAAGGTGAAGAAGAAGGGCTGAAAAC -ACGCGTTTCATCATTCCTCGGCGCTATCGTGCAGATTATGCTGCTGGATATTATCTTTAGCCTCGACTCGGTGAT -TACGGCTGTGGGTCTGTCAGATCACCTGTTTATTATGATGGCAGCCGTGGTGATTGCCGTAGGCGTGATGATGTT -CGCCGCGCGCTCGATTGGTGATTTTGTCGAACGCCATCCTTCGGTAAAAATGCTGGCGCTCTCTTTCCTGATTCT -GGTGGGCTTTACCCTGATTCTGGAAAGTTTCGACATCCACGTACCGAAAGGTTACATCTACTTCGCGATGTTCTT -CTCTATTGCGGTTGAAAGCCTCAACTTGATTCGCAACAAAAAGAATCCGCTCTGATACTCCGTACGCTCTCCTGC -GGGAGGGCGTACTCACTCCTTTTACCCTCACAGTTTAAGATTTTCCTGCTTTCAAGATATATAACGTCGGTTTAT -AAACAGACTATTATCATAGGTAGGCCAAATGAGGATAACCGGATGAAAAAATGGGCAGTAATAATTTCTGCAGTC -GGACTGGCGTTTGCTGTTTCCGGGTGTTCCAGTGATTACGTCATGGCGACCAAAGATGGCCGTATGATTTTGACC -GATGGAAAACCTGAAATTGATGATGATACCGGGCTGGTGAGTTATCACGATCAGCAAGGTAACGCGATGCAAATT -AACCGTGATGATGTTTCGCAAATTATTGAACGTTAACAAATAAGGTCAGCATCCGGCTGGCCTTAAGATTTTTCT -CTTTCCCTTTTCCCTTCCCTCTGCCATTTTTATATTCCTTATGTCGTGATTATAAAAAGGAAACGGCTATGCAAT -ATCACCGTATACCCCACAGTTCGCTGGAAGTCAGCACGCTGGGGCTTGGCACGATGACGTTTGGTGAACAGAACA -GCGAAGCCGACGCCCACGCACAACTCGACTATGCCGTCGCTCAGGGCATTAACCTTATCGACGTTGCCGAAATGT -ACCCAGTACCTCCGCGCCCCGAAACGCAAGGGTTAACCGAAACCTACGTCGGCAACTGGCTGGCGAAACATGGCA -GCCGCGAAAAGTTAATTATCGCCTCCAAAGTGAGCGGACCGTCGCGCAATAATGACAAGGGCATCCGCCCGGATC -AGGCGCTGGATCGGAAGAATATCCGCGAAGCGCTGCATGACAGCCTCAAGCGCCTACAGACTGATTACCTCGATC -TTTATCAGGTGCACTGGCCGCAGCGCCCGACCAACTGCTTCGGCAAACTCGGTTATAGCTGGACGGATTCTGCGC -CTGCGGTTTCGCTGCTGGATACGCTGGACGCACTGGCAGAGTACCAACGCGCGGGAAAAATTCGTTATATCGGCG -TGTCGAACGAAACTGCATTTGGCGTAATGCGCTACCTGCATCTGGCGGACAAACACGATCTGCCGCGTATTGTCA -CCATTCAGAACCCTTACAGTCTGTTAAACCGCAGTTTTGAAGTAGGTCTGGCAGAAGTCAGCCAGTATGAAGGGG -TCGAACTGCTGGCCTATTCGTGCCTGGGTTTCGGCACGCTGACCGGGAAATATCTCAATGGTGCAAAACCCGCTG -GCGCACGTAATACGCTCTTTAGTCGGTTCACCCGCTATAGCGGTGAGCAAACGCAAAAAGCCGTCGCGGCGTATG -TTGATATCGCCAGACGTCATGGCCTGGACCCTGCTCAGATGGCGCTCGCGTTTGTACGCCGTCAACCGTTTGTTG -CCAGCACTCTGCTGGGCGCAACCACGATGGATCAGCTGAAAACTAACATCGAAAGTTTGCATCTGGAGTTAAGCG -AAGACGTATTAGCTGAAATTGAAGCGGTGCATCAGGTTTATACTTATCCGGCACCATAAGATTAACGCCGGTTAA -AACCGGCGTTAAATATTAATGACGGCGCTGCCAGATCCACAGCGCCGTTATTGCCAGCGCAAACAGCGCACCGAA -GCCAATGCCAATGGGCACGACCGGGATGCCTATCATTACCGCCAGCGAGTAAATGCCCAGCATCAACAACATGGC -GCTGTTTTCGCCAAGGTTTTGTACTGCAATCGCATTCCCCGCCCCGACGCTTTTTTTACCCCGCTCCTGTAGCAA -CGCATTGAGCGGAACGACAAAAAAGCCCCCCATCACGCCAATCAGCATCAACAAGGCATAGGCTGGCAGCAGCTC -GTGTTGCAGGGAAAAAATCAGTACCACCACGCCAATCAAAATCCCGGCTGGCATACAGCGTGACACGGTTTCCAG -CGTAACTAACTTCGCTGCCGCACCTGCGCCAACCACGATACCAATCGCTACCATCGCGTTGAGATAGGTGGGCGT -AGCGTTATCGGTAATGCCCAGCGCCACCGGTACCCACAGCACCAACAGGAAACGCAGCGTGACACCCGCTCCCCA -GAATAAACTGGTGCCCACCAGCGAAAAACGCGTTTCACCATTGCGCCATAGCGAGGTGCAGGCATTCAGGAAACT -GCGGGTCATGTTGATGAGATTCCAGGACTGCCCCGGACGCGCCGCCGCCAGTTTGGGAATGTAGATATTGGCAAC -GACCGCACCACCGTAGGCCAGTGCGCATGCGGCCAGGGCGACGAGGACATGCCAGTCAGCCAGCACACCACCGGC -TACGGAACCGAGCAAAATCGCCGCTATGGTAGAAGCTTCCATTAAACCGTTAGCTTTCACTAACTTACTACCCGT -GGTTAATTCGCCGAGAATACCGTATTTCGCCGGTGAATAGGCTGCAGCACCAACACCCACCAGCGTATAGCCGAG -AAACGGATTGATACCAAAGCAGATACTGGCTGCGCCCAGCAGCTTCAGGCCGTTGGCAAACATCATCACCCGGCC -TTTGGCGAAGCTATCCGCCACCTGCCCGACAAACGGCGCAAAAAGAATGTAAGCACCTACAAACACCATTTGCAG -GATGGGCTGGCTCCACTCCGGATAGAACTGCGCTTTCAGTAACGCCAGAGTGGCAAACAGTAGGGCATTATCGCC -AAACGCAGAGAGAAACTGCGCCACGATAACCGCTTTCATCCCCTTCGACCACAACGAAGTGTTAGTGTGCACTGA -CTCACTCATCGTGTTGTTCCGCTTCGTCTACCCAGCTTTTCAACGTGACAAAGTCAGGTTTGCCGCTGCCAAGTA -ATGGCATCTGTTTCAGATAGCGAATATCGCGCGGTACAGCAAGCTCCGGCACGCCGTGCTCGCGGGCATACTGTT -GCAACTTATCGCGCGTCAGTTCGTTATCTGTGGTGAAAAGCACCAGTGCCTCGCCTTTGCTGGCATCGCTCTTAA -TCGCAGTGGCATGGACTTTATCTGGCGAAACACCAAGTGCCAGTTGTTCCACCATTTCCAGCGACACCATTTCGC -CTGCAATTTTGGCAAAGCGTTTTGCGCGGCCCTGAATCTGCACAAAGCCCTGCTCGTCAAAACGCACAATATCGC -CAGTGTCATACCAGCCGCGCTCCATTTCGCCGCGAACATTCTCGGCGGTGGGCACTTCCAGTACACCTGGCTTCT -CCACCCGCAGATAGCCGTTCATTATGTTCGGCCCTTTCAGTTGCAGGCGTCCGCCCTCTTCGATACCAGGGACCG -ACAACAGGCGCGCATCCATTCCTGGTAGAATACGCCCTACCGTACCGGGTTTCGCCGCCATCGGTACGTTGATAG -AAACGACAGGCGCGCATTCGGTCACGCCGTAGCCTTCAAGGATGCGCAGGCCAAATTTATCCTGCCAAAGCTGTT -TGGTACTTTCTTGTAATTTTTCTGCGCCTGCCACCACATAGCGTAGACGATAGAAGTCATACGGGTTGGCGAAAC -GCGCGTAGTGACCGAGGAAAGTCGAGGTGCCGAACAACACGGTGCAACTGCGGTCATACACCAACTCCGGCACAA -TGCGGTAATGCAGCGGGCTTGGATAAAGGAACACTTCTGCACCTGTAAGCAGTGGCGTAAACAGGCCTACCGTCA -GCCCAAAGGAGTGAAACAGCGGTAACGCCGACATAAAGCGATCGTTGGTGGTGAAGTCGGCAATCGTTTTAATCT -GCTCGACATTCGCCAGAATGCTTTTATGGCTATGGACGACGCCTTTCGGATGGCCTTCAGAACCGGAGGTAAAAA -GGATCAGCGCCTCTTCTTCCGGCTGCTGTTTAACCTGTGCCAGACGCGGCATCAGCAAATGAGCGAAGATCCATA -CTTTGTCGGCAGTGGTGACATCTGCTTTTAAATCTTCCAGATAGACCCAGCGCACCTGAGTAAGTTGCTCCGGCA -GATGCCAGAGTTTGCCTTTATCGAGAAACTGGCGGGAAGTGAAGATGGTTTTGATTTCAGCCGCCGTAATAGCAC -TGGTCAGCCCTTTTACCCCGGCAGTGTAGTTCATCATTGCGGGCATGCGGCGACGGGCGATGGCCCCAAAAATCA -CTGCCGCACTGATGCCTGCATTGGGCAGCATTAAGCCGATGCGTTCGCCTTCAACACTGTATTTTTCAAGGATGC -GTCCAACAAACAGCGTTTTCGTAAGCAATTTGCGATAGGAGTCTGGGGTAAAGTTGACGTCTTCGACACATTTCT -TCCCGGCTCCGAAGCGGTACATTGCACTCAGTAAAGATTCGTACAGCGTTTCACGCGGGCGCACCGCCATTCGCG -CTTCCATCATTATTTGATGCAGCATTTCGCCAGCGATTTTGCGACGGTCACGGGCACGCGGCGCATCCGGCATCG -CCACCTGCGTTGGTGGCAAAATATGCAGAGTAATTTGCGGGAACAAGCGACGTTTAACCAGACCTTTCAGGCGGC -TGAAGTGCGTAAGTTCCGCCCCTTCAATACGCACAGGAATAACCGTTGCACCAGACTTCGCCGCGACAAAACCCG -CGCCATCGTAGATTTTCATCAGCGAGCCTGTCGTGGTGATGCGTCCTTCAGGGAAAATCACCACTGGTCGGCCCT -GTTCCACCAGACGTACCAGATGTTTAATAGCCATAGGTTGCGTCGGGTCGAGAGGAACAAAGTCGATAAATGATT -TCAGCCAACGCATATACCACTGTTGGCTTATTGAGGTGTAAACGGCAAACACTGGACGCACAGGTAAAAACAGTC -CAAGCAAAATGCCATCAATAAAAGAGACGTGATTAGGCGTAATTAGAACGCGCTCGCCCTTCAGTGCCTGGGTGT -CACCCGTAACGCGAACGCGATACAAAACACGGCACAAATTTCGAAAAAAGCTAAAAAGCATTCCAACTCCCTTTG -CTCTGATTCAGTAAAAGCGAATGGAGGGAGATTACACGAGATAAAGAACGCGAGCGACAGTAAATTAGGTGCGAA -AAAAAACCTGCGCATCCGCGCAGGTTGGTGCAAGAGACAGGGTACGAAGAGCGTACCGAATAATCTCACCAATCA -ATACCTCTGGGATCTTGATTGTGGTCTGCACGACGACTCTTCGCCAGCGAGAAAACGCAAAGGAATGAAGGGAAA -TGCAACGAGGTGTGTAAATTGTCGGTTACTGTTACAGATTGATGACCGGCAAAAAAAACCTGCGCATCTGCGCAG -GCTGGTGTAATTCATGTGCTCAACCCGAAGTTGACTTCACCTATCAATACCTCTGGGATCACCACTTTAGCAACC -TGAAGCCAAACGCCACCAGCGGTCAATCGCAACAGCGTTTCGCAAAGTGTAACCAAAGGTTTGCAATCTCTTTTT -TTGTCTTACTTATTTGCGTTTGGCTCACATTCCCACGATGAAAACACGCCACCCCTTGAACCAACGGGCGTTTTC -CGTAACACTGAAAGAATGTAAGCGTTTACCCACTAAGGTATTTTCATGGCGACCATAAAGGATGTAGCCCGACTG -GCAGGCGTTTCAGTCGCCACCGTTTCCCGCGTCATTAATAATTCACCCAAAGCCAGCGAAGCTTCCCGGCTGGCT -GTGCATAGTGCAATGGAGTCTCTTAGCTATCACCCGAACGCCAACGCCCGTGCGCTGGCGCAGCAGACCACTGAA -ACGGTCGGTCTGGTCGTTGGTGATGTTTCCGATCCGTTTTTCGGTGCAATGGTGAAAGCGGTCGAACAGGTGGCT -TATCACACCGGTAATTTTTTATTGATTGGCAACGGTTACCACAACGAACAAAAAGAGCGTCAGGCCATTGAGCAA -CTGATCCGCCATCGCTGTGCTGCGTTGGTCGTCCATGCCAAAATGATCCCGGATGCTGATTTAGCCTCATTAATG -AAACAAATGCCCGGTATGGTGCTGATCAACCGTATCCTGCCTGGCTTTGAAAACCGTTGTATTGCTCTGGACGAT -CGTTACGGTGCCTGGCTGGCAACGCGTCATTTAATTCAGCAAGGTCATACCCGCATTGGTTATCTGTGCTCTAAC -CACTCTATTTCTGACGCCGAAGATCGTCTGCAAGGGTATTACGATGCCCTTGCTGAAAGTGGTATTGCGGCCAAT -GACCGGCTGGTGACATTTGGCGAACCAGACGAAAGCGGCGGCGAACAGGCAATGACCGAGCTTTTGGGACGAGGA -AGAAATTTCACTGCGGTAGCCTGTTATAACGATTCAATGGCGGCGGGTGCGATGGGCGTTCTCAATGATAATGGT -ATTGATGTACCGGGTGAGATTTCGTTAATTGGCTTTGATGATGTGCTGGTGTCACGCTATGTGCGTCCGCGCCTG -ACCACCGTGCGTTACCCAATCGTGACGATGGCGACCCAGGCTGCCGAACTGGCTTTGGCGCTGGCGGATAATCGC -CCTCTCCCGGAAATCACTAATGTCTTTAGTCCGACGCTGGTACGTCGTCATTCAGTGTCAACTCCGTCGCTGGAG -GCAAGTCATCATGCAACCAGCGACTAACCGCAGTTAAAGCAATTCCAGCGCCAGTAATTCTTCGATGGTCTGGCG -ACGGCGAATCAACCGCGCCTGACCATTATCAAACAGAACTTCTGGTAACAGCGGACGGCTATTGTAGTTGGATGA -CATTGATGCGCCATATGCCCCTGTATCATGCAGTACCAGATAATCACCTGCCTTCACTTCCGGCAAGGCGCGGGT -TTCAACATTTCCCCCTTCCTGCTGGGTAAAGACATCGCCCGATTCACATAACGGTCCGGCGACGACGGTTTCCAC -CGTTGGCGCGTGTTCCAGAGAACGACCATCAGCTGCCAGGGCACTGATATGGTGGTAACTACCGTACATTGCCGG -GCGCATCAGATCGTTGAACCCGGCATCAACCAGCACAAAGTGGCGGCTCCCCATTTGTTTGACGCTCCGCACCTG -AGTAATTAATACGCCAGACTGCGCTACCAGGAAGCGACCCGGTTCAATTTCCAGTTTCACAGGGTGGCCCAAATG -GCGGGCGATTTGCTCACGCGCGGCATTCCACAGACCATAATAATGTTCGGTATCAACCGCCTCTTCACCCTGTTG -ATAAGGAACAGAAAGCCCACCGCCCGCAGAAATAGCCTGTAAATCCTGACCGAATTCGATGACCTGACGCACCAT -AGCACCACACACCTGTTCCAGATGGGCATAATCAACGCCAGAACCAATGTGCATGTGAATGCCGACCAGCTGCAG -ATGATGACGTTGTATCACGTCCAGTGCGGCGGGCAGATCGGTGTACCAGATACCGTGCTTGCTGTTTTCGCCACC -GGTATTGGTTTTTTGGCTATGTCCGTGACCAAACCCCGGATTAACGCGCAGCCATACCCGATGCCCTGGCGAAAC -CTGGCCCAGTTGGTCGAGCATATCAACAGAACCCGCATTCACCGGAATTTGCAATTCACTGACGCGTTCAAGCGT -CGCCTGATCGATAACATCTGCCGTAAAAACAATATCATCGGGGTGCGTTTGCGGATTGTAACCCGCCGCCAACGC -ACGCTCTATTTCGCCTAACGAGACGGAATCCACTTTCACGCCCTGCTCACGCATTAAGCGCAAAATATGAATATT -GGAACAGGCTTTCTGTGCAAAGCGCACCACATCAAACTGTTTCAGCGCTGCAATCTGCCGACGAATAATTTGCGC -ATCGTAGACCCACACCGGGCAGCCAAATTCAGCGGGCAAACGCAGCAGATTTTCGGCGGTGAGATCGGTATCGGT -GCTGAACAGTGAATGTGGCATAACAAACTCCAGATAAGTGCTTTTTTATGATTACGCCACATCATAAAAAGAATA -AAAAATATCGATTTATGTCGAGTCTATGCAAAAATGATATGGATTACCGGATTGCGAGAGAGCGCTAATGGCCGC -CGTTAACTTACGTCATATTGAAATTTTTCATGCGGTAATGACCGCCGGAAGCCTGACTGAGGCGGCACACCTGCT -ACACACCTCACAGCCAACCGTCAGCCGCGAACTTGCGCGCTTTGAGAAGGTGATCGGGCTGAAATTGTTTGAGCG -CGTACGTGGGCGATTACATCCTACCGTGCAAGGACTGCGTCTGTTTGAAGAAGTGCAACGATCCTGGTACGGACT -GGATCGCATTGTCAGCGCCGCAGAAAGTCTGCGCGAGTTTCGCCAGGGAGAACTGTCTATTGCCTGCCTGCCGGT -CTTTTCGCAATCTTTTTTACCGCAGCTCCTGCAACCCTTTCTGGCACGTTATCCCGATGTCAGCTTAAATATCGT -GCCCCAGGAATCACCGCTACTTGAAGAGTGGCTCTCGGCCCAGCGTCATGATTTAGGACTCACTGAAACGCTCCA -TACGCCTGCGGGAACAGAACGTACCGAATTACTCTCTTTAGATGAAGTGTGTGTGTTACCTCCGGGTCATCCGCT -GGCGGTAAAAAAGGTATTAACGCCGGATGATTTTCAGGGTGAGAACTACATCAGCCTTTCCCGTACTGACAGCTA -TCGCCAGTTGCTGGATCAGCTATTTACTGAACATCAGGTTAAACGACGCATGATCGTAGAAACCCACAGCGCCGC -GTCAGTCTGCGCAATGGTACGGGCGGGGGTAGGTATTTCGGTGGTTAACCCGCTCACCGCACTAGATTATGCGGC -AAGCGGTTTAGTGGTGCGGCGGTTCAGTATTGCGGTTCCGTTCACCGTCAGCCTGATCCGCCCCCTGCACCGCCC -GTCATCAGCGCTGGTTCAGGCGTTTAGTGGGCATTTACAAGCGGGGTTACCGAAACTGGTCACTTCTCTTGACGC -TATTTTGTCGTCAGCTACGACAGCATAAAAGCGACAGCATCCTCGGCATGGATCGCCGCGGTATCAAACACAGGC -AAAACACTGCGCTCTTCTGGCACCAGTAAACCAATTTCTGTGCAGCCAAAAATGACGCCCTGTGCGCCCTGTTCT -GCAAGGCGAGCAATCACTTGCGCACAATAAGCGCGTGACGCTTCGGTAAATTGCCCCAGACACAGTTCTTCAAAA -ATAATCTGATTAATTTTCGCCCGTTCATCCGCTTCAGGAATAAGACAATTGATGGAAAATTGTTCCGTCAGCCGC -CCGCGATAAAAATCCTGTTCCATGGTGTAACGCGTACCCAGCAGCGCCACACGAGTCATTCCGGCCCCGGTAATT -GCACGTCCGGTGGCATCCGCAATGTGTAAGAAAGGCAGAGTGCAACGTGACTCAATGGCATCCGCCACTTTATGC -ATCGTATTGGTACATAGCACAATACCTTCTGCGCCCGCCCGCTGTAAGCCAAGCGCCGCCTCAGCCAGAATGTCC -CCGGTTTTATCCCATTCCCCGCGACGCTGGCACTCTTCTATTTCATGAAAATCGACGCTATGTAGCAGCACTTGC -GCAGAGTGAAGCCCACCAAGCCGCTGTTTAATGCCTTCATTTATCAAACGATAGTAAGGAATGGTGGATTCCCAG -CTCATTCCTCCCAGCAAACCAATTGTTTTCATTCCTCTCTCCTGATGTGTGTTACCGCAACAAGGCTGAATAAGG -AACGAGACAAACGCCTCAACGGCCAAGTGCCCAATCTCTATTAACGAAAAAAGGGCCGGATGTACAGCACATCCG -GCCCGTGAAATCAGACGCCGATATTTCTCAACTTCTCGCCTGCCATCAGTTTGCGTTCGATATGTTCCAGCGTGA -CATTTTTGGTTTCCGGAATGAGCCAGAAAGTAATGCCCACAAACGCAATGTTCAGCGCAGTGTAGAGCCAGAACG -TACCGGCAGCGCCAATGCTATCAAGCAGTGTCAGGAAGGTCGCGCCGATAATCATATTCGACACCCAGTTCGTGG -TGGTCGAACAGGTAATACCGAAATCGCGGCATTTCAGCGGCTGAATTTCAGAGCACAGGATCCACACCACTGGCG -CGGCGCTCATCGCATAACCGGCAATACACATCATCGTCATGCCAACAGAGAGCCAGGACAAGCCACTGGAAGCCG -TACCGTTATCAAACTGCATCAGGCAATAGCCCAGCACCAGAGTGCCTAACGCCATCACGCTGAAACCAATTTTCA -GAGCCGGTTTACGCCCTGCTTTATCTACCGTAAACACCGCAATAAAGGTGGCGAACATAAAGGTCAGCCCTACGA -CCAGAGTCGCAATCATCTGTTGTTCTGTGGTCGTAAAGCCCGCCATTTTGAAGATACGCGGCGCGTAGTACATGA -TGATGTTCATACCGGTAAACTGCTGCATCGCCTGCAACAACATACCGAGAAACACAGCACGACGGACGTTACGGT -TGATCTTAAACAGTGCCCAACCGCCCTGTTTTAACTTCAGGCTTTCACGAATTTCGTTGAGTTCTTCTCGCGCTT -TTTCCGACGTATCGCGCAGCATACGCAATACTTCTTCCGCCTCAATATGACGCCCCTTTTCCGCCAGCCAGCGCG -GGCTATTTGGCAGGAAGACTACCAGAATAATCAGCAGAACTGCTGGTAAAGCAAGAACCCCCAACATTGCGCGCC -AGTTACCGCTATAACTGAACGCTGTATCGGATAAAAACGCCAGCACGATGCCGAGTGTGACCATCAACTGGTACA -TACTGATCATCTTACCGCGAACGTTTTCACTTGCCATTTCAGAAAGATACAGAGGAGCGGTGTAAGACGCGATCC -CGACAGCAATGCCCAGCACCACACGAGCGGCGATTAACATCTCTACGCTGGTCGCAAAAGCGGACCCTATAGAAC -CGAGTACAAACAGGATGGCCCCCGCCATCAGGCTGTATTTACGCCCCAGGCGGAACGACAGCCAACCATTAAACA -GCGCACCAATTGCTGCACCGAGCATCATGCTACTAACCACCCATTCCTGCAAACGACTGGTCAGCACAAAGTGAT -CGGTAATGAACGGCAACGCTCCGGCGATTACGCCGATATCAAGACCAAATAACAATCCTGCGACCGCAGCAGCTA -CCGAAACAAACATATTCATACGCCGCGTATCCCGCAAAGAACGTGGCGTTAAAGCAGATTCCGTATTGATAGTAA -CCATTTTTTCCTGCCAGCAGAGAGTAAGACATAGTGAAAAAATACGTGAACAACTCACGCAGGTGTCAGGTCGGA -AACAGCATAAATATGGATTAAATTGCTGCGACATGTCGTTATGTGATGGATATTCCAATTTTCAAATTAAGTTGA -ATTATTGAGATTATTATTAACCACCTAATTTTACAGCAGATAAAATTCATAAAGTTCATTAATTGATAATTAATA -TGGATTATTTCATAACCATGATATGGATTATGATGATCTACAGGTATAAAAAACCCTGCCATGCGGCAGGGTCAT -AAAAGTAAGAAGAATGAATTAACGCGCCAGCCAACCGCCATCCACGGCAATGGTATAACCATTCACATAATCTGA -AGCGCTGGAGGCAAGGAACACTATCGGCCCCATCAGGTCACTCGGCAGTCCCCAACGACCAGCTGGAATGCGGTC -GAGAATTTCCGCGCTACGTTGTTCATCTGCCCGTAGTTGTTGAGTATTGTTGGTCGCCATGTAACCCGGGGCTAT -CGCATTAACATTAATGTTGTGTTTAGCCCATTCGTTCGCCATCAATCGCGTCACACCCATCACGCCGCTTTTTGA -TGCGGTATAAGAAGGCACACGGATCCCGCCCTGGAAGGAGAGCATTGACGCGATATTGATAATCTTGCCGCCATT -GCCTTGCGCGATAAAGTGTTTCGCCGCTGCCTGAGACATGAAGAATACGCTCTTGATATTCAGGTTCATGACATC -GTCCCAGTCCTTTTCGCTGAACTCGAGAGCATCTTCGCGGCGAATCAATCCGGCGTTATTCACCAGGATATCAAT -ATGACCAAACTCCGCTACCGCGCGATCCAGCAGTGCTGGAATACCATCAATCTTTCGCAGATCGGCGGTCAGGCT -TAAAAAACGACGCCCCAGCGCTGTGACCTGCTCGATGGTTTCAGTCGGTTCAACGATGTTAATGCCAACAATGTC -ACAGCCCGCTTGCGCCAGCCCCAACGCCATCCCCTGACCCAGTCCAGTATCACAACCAGTGACGACCGCAACTTT -ACCTTCGAGAGAAAATGCACTTAAAATCATAACAATACCTTATTCGTTTATGCCCACAACTAGCGCAAATCTTTA -ACGGCCACATGGTCCATATCATCAAAGACCTGGTTTTCACCGACCATGCCCCAGATAAAGGTATAAGCTTTGGTT -CCGACACCGGAATGGATCGACCAGCTCGGGGAGATCACCGCCTGCTCGTTATGCATCACAATATGACGCGTTTCT -TGCGGCTGCCCCATCATGTGGAAAACGCAGGCGTCATCATCCATATTGAAATAGAAATAAACTTCCATCCGGCGC -TCGTGGGTGTGACACGGCATGGTGTTCCACAAGTTACCCGGAGCCAGCTCCGTCAGCCCCATACTCAATTGGCAG -GTTTCCAGTACATCCGGGACAAAATATTTGTTAATCGTGCGACGGTTACTGGTGAGGTTATCGCCTAACGTGACT -GGAGATACTTCGTCCGGTGTGACTTTTTTGGTGGGATACGTCGTATGCGCGGGTGCGCAATTGTAATAAAACTTC -GCCGGAGTGCCGGTATCAATACTGGCAAAGACAACTTCTTTTGCACCTTTACCAACATACAGGGCGTCGCGGTGA -CCGATTTCATAGCATTGGCCATCGACAGTAATCGTACCGGCACCGCCAATATTGATAACACCTAACTCGCGACGT -TCAAGGAAATAGCTTACGCCGAGTTGTTTACCAACTTCCCCGCCAACGGAAACCGTTTTAGTTATCGGCATAATG -CCGCCAACAATAATTCGGTCAATGTGGCTGTAAACCATGGTGTACTCATCGGCGACAAATACCTTTTCAACCAAA -AATTCATTGCGCAGCCCTTGGGTATCCAGCGTTTTTGCGTGCGCACTGTGGATGCTCTGTCTTACGTCCACATCA -ACCTCCGATAATCAGTGAAGCGTGAAAATAGAAAACGATAGTGAAACACTGTTTCGTTTTCTCTATAAAGGGATG -ATATGCCCATGGGCTAGGGTTTTCAATTAAAAATAAAACAATGTTTCATTTTTAAGTTAAGGATTAAAAAAAGTG -CAGTGTCGATCACGAATATGTCATGAGAATGGAAAAATGAGGGAGCCCAGAAAATGTATGTCGACTTGCCAGCCA -TCATTATTCAACAGATTAATGACGGCAGATATTTATCGGTAAGGAGGAAATGCAGAGCTATTCGTCACGTTCAAT -GGTCAATGCCACACCCTGGCCCCCGCCGATACAAAGCGTTGCCAGTCCTTTGCGGGCATTACGTTTCACCATTTC -ATGAACCAGAGAAACCAGGATTCGGCAACCGGAAGCGCCTATCGGGTGACCGAGTGCGATCGCGCCACCATTGAC -ATTGACCCGACGCTCATCCCACTCAAGCATCTTGCCAACCGAAAGCGCCTGTGCAGCAAACGCTTCATTAGCCTC -GATAAGATCGACTTCAGCCAACTGCCAGCCTACACGCTCCAGGCAACGGCGGGTCGCATACACCGGCGCAATTCC -CATCAATGCCGGATCTACACCAACGCTGGCAAATGCGCGAATGCGGGCCAGCACGGGTAAATTCAACGCTCGTGC -TTTGGCTTCGCTCATCATCATTACCGCAGCTGCGCCATCGTTTATGGATGATGCATTACCCGCTGTCACAGAACC -GAGACTATCAAATGAAGGATTTAAACGGGCTAAGCCTTCTGCGCTGGCGTCAGTGCGTGGCTGTTCATCGGTATC -AACAACCAACGTCTGCCCGTTACTTTGGGTCATTACCGGGACGATCTCATCTTTAAATCGTCCGGCGTCAATCGC -CGCTCGCGCTTTTTGTTGCGAGCTAAGTGCGTAAGCATCCTGCAACTGACGGCTGATGCCATATTCGCGAGCCAG -ATTTTCGGCGGTGACACCAATATGATAATCATTGAAGGCATCCCACAACCCATCATGCACAAGACTGTCAACCAA -CTGGCTATTGCCAAGCTGTGCACCGGTGCGGCTATCAGTCAGAACATGTGGTGCGCGGCTCATGTTTTCCTGGCC -ACCGGCGATGACAATATCAGCCTCGCCACACTGTATCGCCTGAGTAGCCAGATGCAGTGCTTTAAGCCCGGAACC -GCAAACGTCATTAATAGTGATTGCAGAAACGCTATTAGGCAGACCACCTTTAATAGCCGATTGCCTTGCCGGATT -CTGCCCTGCCCCTGCAGTCAACACCTGACCAAGAATTACTTCATCCACCGCATATGCAGGAACGCCGGTACGTTC -TATTAACGCTTTCACGACCAGACTACCAAGTTCCACGGCGGAATGACCCGCTAACGCACCACGAAAGCAGCCGAT -AGGTGTCCGTAACGCCCCGACAATCACAACGTCTTTCATCACAACCTCGCACCAATTAACAGTGCAATAGTAAAT -GATTGTTAATTACAGTTATCTTAATTGTTTAAAAAAAGTGATTTTTATCACAAAGGAAATATGCCTGAGCAGCAG -TCAGAGACATAACTGGCACGTAAGGTTTGCAACCACTAACCCACCAATAGAGGGGTAGATAGGGCGTTAATCTCC -CATACTTAACCTGGTTTATGGTAAATTGCCCTCCATTTTGTTTAATTTGTAGATGATACGTTCAGATAATGTCTA -ATATTTGGTCTAAAGAAGAAACTCTGTGGAGTTTCGCGCTCTACGGCACAGCCGTTGGTGCAGGCACGCTCTTCC -TTCCTATTCAGTTAGGTTCGGCAGGGGCTGTGGTCCTGTTTATTACTGCTCTGGTCGCCTGGCCTTTAACATATT -GGCCACATAAAGCCTTGTGCCAGTTCATCCTCTCATCAAAAACATCAGCAGGTGAAGGGATAACGGGCGCGGTAA -CACACTACTATGGCAAGAAGATTGGTAATCTGATTACCACGCTGTACTTCATCGCCTTTTTTGTCGTCGTGTTGA -TATATGCAGTGGCAATTACCAACTCACTTACGGAACAGCTGGCAAAGCATATGGTTATTGATCTTCGCATCCGTA -TGTTGGTGAGTCTGGGTGTTGTATTAATTCTGAATCTCATTTTTCTGATGGGACGTCATGCCACTATTCGGGTAA -TGGGATTTTTGGTATTCCCATTGATTGCCTATTTCTTATTTCTTTCCATTTACCTTGTCGGTAGTTGGCAACCTG -ATCTATTAACAACCCAGGTAGAGTTCAATCAGAATACCCTTCACCAGATATGGATATCGATTCCCGTGATGGTTT -TCGCCTTTAGCCATACGCCCATTATTTCTACGTTTGCCATAGACAGACGTGAAAAATATGGCGAACACGCTATGG -ATAAATGCAAAAAAATTATGAAAGTCGCTTATCTCATCATCTGCATAAGTGTACTGTTCTTTGTCTTTAGCTGCC -TGCTTTCTATTCCACCTTCGTATATTGAAGCTGCTAAAGAAGAAGGGGTCACCATTTTATCGGCGCTTTCTATGC -TGCCGAACGCCCCAGCATGGTTGTCAATTTCCGGGATTATTGTCGCAGTAGTTGCGATGTCGAAATCATTCCTGG -GTACGTACTTTGGCGTTATTGAAGGTGCCACAGAGGTCGTCAAAACAACACTACAGCAGGTTGGTGTAAAGAAAA -GTCGTGCATTTAACCGCGCACTATCAATTATGTTGGTATCGCTGATTACCTTCATTGTTTGTTGCATTAACCCGA -ACGCGATTTCGATGATTTACGCGATCAGCGGCCCGCTCATTGCCATGATACTTTTCATCATGCCTACGCTGTCAA -CGTATCTCATCCCGGCGCTTAAACCCTGGCGTTCCATCGGAAATCTGATTACGCTGATCGTGGGTATCCTGTGCG -TATCGGTAATGTTCTTTAGCTAATATCAGTTGTGGATGGTTCAAAATTGCTACAATTTTGAACCATTCCATTTTT -CATAATATTCATTTGTTATTATTCCACCCTATCACTTCTCTCGTCATATCCTAGTATTATCAGTTAGTTAAACAC -ACAAAGAGATCTGAACATCTTAAATAAGACTATTTAAGATGCATAACTTAGATTCGCAAGATATCTTCTGGTCAT -TCAAAAACAATTTGCGATATAGATATTCTTATACCATGAGATAGTTATCTGGACCGCTCTCAACCATGCAAGATT -AAATCAGTGAAACATAATCATATTTGATAACGAGAAATGCATTTTTAAATGCCTTACTCAGAATTATAGCAAATA -CAGATTAATCGCAATTTTTCCCGGCAAAATTACAAAATCATGGTGTATTGACATCATCAATAACCAATGAAATTA -TGCAATTATATACGGATAGGGAGGTTCTTAACATGGGGCTTTGTAGTCGTTATAAAAGTCTTACATGCAATAGTT -GCTCAATGCATTGCCAAATAATGCCAGAAGAGTCACCGCGTTTGCAGTATTGCGCAAACTCGTGTTTTTGTATGT -GGCCCGAAGAAAGTTCATATTTTAATCGTGGTGTGGTAGAAGGTATCTTAACAAAAAACCACAATGCGAGATTAA -GCGGATATATTTTTGTCGATTTTTCAGTAAGTTTTTTACGTCTATTCCTTGAAAAAGACTGGATTGACTATCTTG -CAAGTACTGACATGGGGATTGTTTTAGTCAGCGACCGCAATATGCAATCGTTAGCTAATTACTGGCGAAAACACA -ACTCAGCAATATCTGCTGTCATATATAATGATGATGGTCTTGATGTTGCCAATGAAAAGATCAGACAACTATTTA -TTGGTCGTTATTTATCATTTACCGGAGGTAACACATTAACTCAGATGGAATTCACCATAATGGGGTATATGGTTT -CTGGTTATAATCCATATCAGATTGCTGAAGTTCTGGATATGGATATCCGTAGCATCTACGCGTACAAGCAACGAA -TCGAAAAGAGAATGGGTGGTAAAATAAACGAATTATTTATTCGTTCACATTCGGTCCAACATTGATACTCAACGA -CCAGCCAGAATCATACTCTGTTTATACGGGCATTTATTGAAATGTCCGTATTTTATAAATAGGCCGTCCCCTCAA -GAGTAAACACCATAGTATTTAAAACCATCACACGAAAAATTCAGAAGCATTACGAAATATGAATTTACAAACAAT -AGTGGCATAAATGTTAACCATGTTAATTTACGTAAAGTTTTACGTTGCAACATTAAAGCCTCATTTCAATCATCA -TGATAAATATAAAATTAATATATATTTATGCCGTAAATACCAATATACTTAGCAAACTATGTGATCTCCATTTCG -ATTGATTTAGTGTTTATTGACGTATGTACTGGATTATTAACGATAATATCGAGTTCTGGCCTGAGCACCGAAAAT -TAATATCGGTACATAACGCCGATCTTAACGTCGTTCTGACAACGCCAGCCAGTCGATGTTTATCACTTCTACTTG -AAGCTTTTCCTGATGTGGTTGCACAACAAGATTTTTTCACCAGAGTCTGGGAAGAAGAAGGTATGCGTGTGCCTA -CTAACACGTTATATCAGAACATATCCATTATCAGACGCGGATTTCGCGCTGTTGGTGATACTACCCACTCGCTAA -TTGCAACCGTGCCGAGAAGAGGATTCAAGATCCATAATGACATTAACATACAAAATCATGTAATAAACTCGTCAA -CAGACGCACATACACACAATGCCCCACCTGCCATAAAAGTTAATGCGGGATACAAAGAGAGCATTGGTGGCGCAA -AGAATTTCAATAACAAAATCCTCAAACATATAAAAAGTCATCTAATTATGTTGAGCGCATTTGTCATAGGCGCAT -ATTCTGCATATTGGCTATGGAATAATAATCAACCGAAGCCATTTTTCAAGGATTACAAGACTGTTGCGGAAATTA -ATGGCTGCCATTTTAATGTAACAGAAGATACAATTGATGGGTTGAAAGAGTTCGATAAATATAAAACACGGATAC -TGGATTCGGGGATTAACTGTAAAAAACATCCGTGGTTATACTTCCCTCTTGCAAAATCCTCACCGGGGATGATTG -TTATGGCATGCAATAAAAACTATAACCAACATGAAGTGGCAAACTGTTTAACCCTGTCTTACCGTGAGGTTAATC -GTGATTGATTATAAAAAAAACTTATTATTTATTTTAGTTTTTATCAGTGGGTTTATTCTCTTCACTGTCTATTCT -TACACTGCAGAAAAAATGATATATAACGAAACATGCACTGCAAATTGGGTAATTTTTAATGACCAGGGACGAGCA -AATCTTACCATCGACTTTATGTATAACAAAAAAAATAAAACAGGAACTGTTGCGTTGAGTGGAACCTGGCAACAA -GGTAACAGAGAAAGTAAATCAATACGGCGAAATATTGAATACACATGGATTGAAAACTATGACACAGCCCATTTA -ACATCAAAGAAAGTTAATAAGTTTGAGATTATGGATCAAGTTGATGATGATAGACTTGCACAACTTATTCCTGAT -TTTTATGTCTTTCCAGAAAAAAGTGTAAGCTATAATATACTAAAGCAAGGTAAGCATGCTTTTATTTTGAGCATT -GGTAACAGAGCAATAATGCATTGTGCAAGGTAAACTAAAATAGATAACAAAAAGATGGAACCTCGTTAATCATAA -AACAATAAAATTAAATATTCTCGCAGTATATGGCAGTCTAAAGCATCAAAGATTTGATCAACATCTTTCATTTTA -GACATCTCCTTGCAATGTAAAATATCATGTATCAACAACATCTGGTGCAAATCCATGAGTCGAACTCGACATTCA -TCTTAGCTCGATTATTATTCCTTCGTACAGTCGATGTAAACAATACAGAAAGAGGATTATTAAGAACCAGTTTAC -TCAGTGAATCAATAGAGGAAAGGACTAACGTTTCTTTAAAAGAATTGATTTCATCATCTGTTAAACTAAACTCAT -CATTGACAGATCGTGAGATATAACTGTTTTTAACTTTACTCTTTACGTTGACTTTATTGACAGAATTAACATTCA -CATATCTTGAATTTAATGTCCATGATGTTGTTTGCGTGAGAACATTCTCAGCATTAAGGAATTTTTTTAACGGAA -TCCTTGGTTTCTTTTTCGAGTCCGAATTTACAATATCATGCATATAGACCATTTCATGAATCTGCGAAAATTCAA -TGTCCATTGTATACCTCACATTTTTACCGTGACTCGATGTTACTGTTCAATAATCACCTTCCATCAATACTAAAA -TTAATACCCCTAATGTGCCGATAACAAATATAGTCATTCTACGTAACGTCTCCATAAGGTGATATTTGACATTAT -CAGAAGCTGCGAATTCGGATTTTGCTCTAATCAAATGAGAGAAATGTAAAATGAAGCCACGAAATATTAATAATA -GCCTACCACTGCAACCATTAGTTCCTGATCAGGAGAACAAAAATAAGAAAAATGAAGAGAAATCCGTTAATCCAG -TTAAAATCACAATGGGGTCTGGTTTAAATTATATTGAACAAGAATCTCTTGGAGGAAAATATCTAACACATGATT -TGTCAATAAAGATAGCGGATATTTCTGAAGAGATAATTCAGCAAGCAATATTATCTGCTATGAGCATATATAAAT -TTTCGATAACAGATGATTTAATGAGTATGGCTGTAAATGAACTCATAAAACTGACCAAAATAGAGAATAATGTAG -ACCTGAATAAATTCACTACTATATGCACAGACGTTCTATCCCCCCGCGTCACCAGACATAATAAAGAAAAAAACA -AACGACATTCTACCCTTCTCAAAAATCCCCTTTTTAATTTTCATTGAAAAAATGGCAATTGATACTATGAATCCA -GGTCATACACATTAAGGCATTTATGTAATGTCGTAATTAAGATAACTAATAAGGTGAATATTAGTAAAACAACTA -ATGATGTTATTAGTTTGTAGTGAACAGTACTTTTACCAATAATGAAAAATATACCATAAGCAATGCAAGCTTAAA -ACTCATAATTTAAAAAAGATAAATATAAAAATATCAATGAGTCAATCAATAATAATTTGGCATCACGAGACACAT -CACAGAGGAATATTATGAGCACAGAAACAATTGAAATATTCAATAATAGTGATGAATGGGCAAATCAACTAAAAC -ACGCATTATCGAAAGGAGAAAATCTGGCATTACTACATGGTTTAACTCCTGATATCCTTGATAGAATATATGCAT -ATGCATTCGACTACCATGAAAAGGGTAATATAACGGACGCAGAAATTTATTATAAATTCTTGTGCATTTATGCGT -TCGAAAATCATGAGTATCTAAAAGATTTTGCATCAGTATGTCAGCCCAAAAAGAAATATCAACAAGCATATGACC -TTTACAAACTAAGTTACAATTACTTCCCGTATGATGACTATTCAGTTATTTATCGTATGGGTCAATGTCAGATTG -GGGCTAAAAATATCGATAACGCAATGCAATGTTTCTATCACATTATTAACAATTGTGAGGATGATAGTGTTAAGA -GTAAAGCGCAGGCATATATTGAACTCTTAAACGATAATTCAGAAGATAATGGCTAAGCATTACAATCATTTGGTT -AAATTTGCTGGTTATAGTGCAGTTAACCACTATAACCAGCACCTCTTATGTTTTCTTAAATCAGCATCTTAAAAC -AGTTAAGAGCATACTATAAATCATTATTTTTCAATGCGTTAGAGAACAATCTACTTTATCAAAATTGAATAAGGC -TATTTCAGATTACATCACTGAATTCCTAAGATAAATTAGTGAACACAACCATAGATATGTCAAATGTAATTTCCT -GTAGCGTTAATGACACATAAATATGAATAGCCATAATTTCTATTGCTTAAGCAGGATGCAAGAAACCAATTTTTT -CATAGAGGTTAACTAATGGACTTAGAAAATAAATTCTCATATCATTTTCTTGAGGGATTAACGCTCACGGAAGAT -GGAATTCTTACTCAAGGAAATGAGCAAGTTTATATTCCACAGAAAGAGTTAGGTGTATTAATAGTATTACTTGAA -TCCGCTGGTCATGTTGTACTGAAAGATATGATCATCGAATCAGTATGGAAAAATATTATTGTTAGTGACGAGTCC -CTGACAAGATGTATCTATTCTTTGCGCTGCATTTTTGAAAAAATTGGCTATGATCGTTGCATAGAAACAATCTAC -CGGAAAGGTTATCGTTTCAGCGGGCAGGTTTTCAAAACTAAAATTAATGAAGATAATACTTCAGACTATTCCATA -GCTATATTCCCTTTCACTACTTCATTGAATACACTGGATCCATTAATACTTAATCAGGAATTAGTGCAAATCATT -TCAAATAAAAAAATCGATGGTCTCTATACCTATCCGATGGCTGCGACAAATTTTTGTAATGATCACATATCTCAA -AATTCATTCTTGAGCAGATTCAAGCCAGATTATTTCGTTACAGGAAGAATAAACCAGAATAATGCAGTGAACACT -TTATACATTGAGTTGATCGACGCTAAAAACCTTTTCCTCATCGCCAGTAATCATCTCCCTGTTGATGAACTACAT -AATACATCACAATTTATTATAGATAATATCCTTCAAACGGTACATAAACCAGAACGATCTGTAAGATTAGCTAAG -CAGGACCAAGGATATAAGAATCATTATTTATCAGATGAAATGTTAGCCGGAAAGAAAGAACTTTACGACTTCACC -CCTGAAAGCATTTACAGGGCCATGACTATATTTGATAGATTACAAAATAAAAGTGATATACAGACGCTAAAAACA -GAATGTTATTGCCTTCTAGCGGAATGCCATATGTCTTTGGCACTTCATGGAAAAAGTGAACTTGAACTTGCTGCT -CAAAAAGCATTAGAGCTTTTAGATTATGTATCAGACATAACCACTGTCGATGGAAAAATTTTAGCTATTATGGGA -CTGATAACTGGTCTGTCTGGACAAGCAAAAGTATCTCATATCTTATTTGAACAGGCTAAGATACACTCAACTGAT -ATAGCCTCTCTCTACTACTATAGGGCACTAGTCCACTTTCATAATGAAAAAATTGAAGAGGCAAGGATTTGTATA -GACAAATCACTACAACTCGAACCCAGAAGACGAAAAGCAGTTGTGATAAAAGAATGTGTAGATATGTATGTGCCT -AACCCGCTCAAAAACAACATTAAACTCTACTATAAAGAAACTGAGAGTGAAAGCCATCGAGTTATAATTGACAAC -ATTTTGAAATTAAAGCAGCTGACGAGAATTTGTATGCGATAAATTTTTATTGACGCAATTTTATTATTTAGATGT -ATGCAACTTGTTATTTAAACAACAGAGATAAAAATATCTAAGATATTCACCTTATTGCAAGATATTTAAAATGCT -CTAGAGTTAAAAGTATGATGTAAAGACCATTGGCCTGGACAATTAAAAAAGGGAGCTTTATGACTAATCCAATCG -GTATCAATAATTTATCTCAAAGTTCAAATATAGCGAATGCAACGGGTGATGAAGTCGTATCATTAGATAAACACA -TCAACACCAGTGCTACTGATACAGATCAAATACAAGCATTTATAGTTTCAACATGGATGGCGCCTTTTCAAAATG -ATATGTATTCAGAAGATAATCCTATCTCACCTTACTATAAAATTGAGTGGTAGACGATTGACCAAATAAATCATA -ACGAGATACTTTTATAATAGTATCTCGTTCCTTTCATTCAATCCTCACACATGAAAAAATATGCGCTCACCAAAA -GTTAAATTCTTAACCATCTTCACGTTTTGTATATTTATTACAAAAATGTCTTTCGCCAGCAACTCTTGCTCTAAT -GAAGCAGGAACAATGTTCAGAATCGAACCAAATTTAATTAAAGCTATCGCTCTTGTTGAAAGCAATCTAAAAAAG -GATAGCATAGGCAAGAACAGAGATAAGAATAACAATATAAAGAGTTTAGATTATTGGTTAATGCAGATAAACCAG -ATGCATATTCCCCTGTTAAAAAAACGTGGAATAATAAAAGATGAACGAGATTTGTTAGATAACCCTTGTCTGAAC -ATTAAAATAGGAACCGAGATTTTATATAACCATTTTTCACGTTGTGGAGTAACGTGGCAATGCCTGGGGACTTAT -AATGCGGGTTTTGCAATGGATAACCAAAAAAAGAGACAGCAATATGCCCCAAAATATATATTGTATATACCAGGC -TTAATGAACTAGACAATCGTAAGGCTTCAGCAAAATGAGCCTAAAGCCTCTTTTTTTTATATAGTGCAAACACCC -ATACGTAAAGCTGTTTTGATCAACTCGATACCACTGTGAACATCTAATTTCTTCATGATATTGAGTCTATGAGTT -TCGACTGTTTTCCTGCTTAACTGCAAGAAATTAGCGATTTCTTTGTTTGTTTTACCATCAGCTATGAGTTGTAAT -ATTTCTGACTCACGATTTGTAAGTTGATTATCAGAGGAATACCTGGAAGATATTTTTTCACAATCCATATGTACA -CTATCAAAATAAGTGTAACCATTACTAATCGAATCAATAGCACGATTTAGTTTCGCCGGGTGACTGGTTTTCCAT -ACGCATCCTTTCGCACCTGCTTCAAGCAATTTTATTGAATCAATATACGGCATCTTTGCTACAAATGTAATAATA -TGAGCATCTATCTTATGCGATTTAACCCATTTTACGAGTTCGGCCCCCATCATTCCACCTGCAAATTCTCCTAAA -ATAAATATTTAGGCTGTAGATTTGTTACACTCCGCTATAGCTTTCTTCAGATCTTTATAGCCCCCAACAACCTCA -TATAAATCAGGATAATGTCCGAGAAATCCAATTATCCCATCAATCATAAACGGCTGCTGATCTGAAACTACAATT -TTAATTTTTCCCATATATTCATCCTGAGTGTAAATGCTTTAACGCATTCATTTATAATCATCCCTTCCATTATTA -TTATAAGCAAAATCCAAAGAATACATTGATGAAATAATAATGAAATATAATTAAAAATAAAATTTTTGCGTAAAA -AAATACCACAGGCATTAAAAAATCATGAGATGATTAAAATATTACAATTAGATTATATTCAAATCATTAAACTTG -AGCCAGGGAGCTATAAGTCCTCAGGGCTTGCCAAAACAGAATTATTCATATCCAAAGAATGTGTTTCAAACATTT -TTTCAACTAAATAATGTCTGGCTTGTTCGCAGATTTCGTTAACCTTGTCAGGGGAGAAACAATGATTATTAATTA -AATATTGCTCACAATTATCCACAAATTCCTGCGGACTAAATTCAGCAATAAATTGATCGGTAAAAAACACAAAAC -GCTTATCATCATGAAATGTAATATGGACATTCCATATTGATTTGTCGACAAAATATGACTCTACTTCAAGAGACT -TATCTTTGAAACTGGTAGGTATATGGAGATTTACAGGACCTGATATTGATGGTAATTTTGTTACCCAACTTTCAA -AAATTTTGATAAAAACATCAACTTCTTCTGAAGGTTTTAACAATATACTCTTCAGATCGTTTATCATGTTTATTC -TTTTTTTTCAAGTTCTGAGCATAGCAAGCTTATCAAGGGTATAAAATTATCCATCTCATCAATAATGCCTTTTGT -ATAGCCATCATAATAACCTTGAATAAATTTTTCTTCTCTCTTTTCCTCAATACTCTGAATTTTTGCGGTGGTTTC -AAGAAGGATTTTTTCTTTAAGAGAAACTATTTCTTTCAATCCATCAGAAATTTTTCTTTTAATCACAACACCATT -TGCAGGAGATTTTATCAAGCTCATCTCTATTTTTTTTCGCATAAAATGTAATTCTCTCTAAAAGTGTTGATGCAA -GTGGTAACGGCGATTGTATGTGGTCAACAAAATCAGGAAATAATAAATTAAATCGTTGCTGCATTGCCAATGGTT -GTTGCCTTATATAGGGTAACAACGTTGAAAAACCACATGTGATGATATTGTGATAGTTAGCGATGCCGGGTTTGT -ATCGTGCCTTTTCATTTATTTCCAGCGGTATAGCTGATAAATAATCCCTTAGTACATCAGGAACCTTATAAAAAA -ACCCGCGTTCTGCAAACCTTTCTCGATAAAAGTGACAACCACTGAGTAAACAGATCAATGGAAGTAAATTCCAAT -TGTTTATTGGATTTGCCCCTATATTTCCAGACATCTGTTATCACTTAACCCATTACAAGCCCGCTGCCGCAGATA -TTCCCGTGGCGAGCGATAACCCAGCGCACTATGCGGATGCCATTCGTTATAATGCTCGAACGCCTCTGCAAGGTT -CTTTGCTGCCGTTAACCCGTCTGGTTTGGGCATGATACTGATGTAGTCACGCTTTATCGTTTTCACGAAGCTCTC -TGCTATTCCGTTACTCTCCGGACTCCGCACCGCCGTGTTCTTCGGTTCAAGTCCCAACATCCGGGCGAACTGGCG -TGTTTCATTAGCCCGGTAGCATGAACCATTATCCGTCAGCCACTCCACTGGAGACGACGGAAGATCGTTGCCGAA -GCGGCGTTCCACCGCTCCCAGCATGACGTCCTGTACTGTTTCACTGTTGAAGCCGCCGGTAGTGACCGCCCAGTG -CAGTGCCTCACGATCACAGCAGTCCAGCGCGAACGTGACACGCAGTCTCTCTCCGTTATCACAGCAGAACTCGAA -CCCGTCAGAGCACCATCGCTGATTGCTTTCTTTCACGGCCACTCTGCCTGTATGTGCCCGTTTCGATGGCGGTAC -AGCAGGTTTTCGCTCAAGCAACAGCGCATTCTGGCGCATGATCCGGTAAACACGTTTGGCATTGATCGCAGGCAT -ACCATCAAGTTCTGCCTGTCTGCGAAGCAGCGCCCATACCCGACGATAACCATACGTTGGCAGCTCTCCGATAAC -ATGGTGTATACGGAGAAGCACATCCGTATCATCAGTGTGACGACTGCGGCGGCCATCCATCCAGTCATCGGTTCG -TCTGAGAATGACGTGCAACTGCGCACGCGACACCCGGAGACAACGGCTGACTAAGCTTACTCCCCATCCCCGGGC -AATAAGGGCGCGTGCGCTATCCACTTTTTTGCCCGTCCATATTCAACGGCTTCTTTGAGGAGTTCATTTTCCATC -GTTTTCTTGCCGAGCAGGCGCTGGAGTTCTTTAATCTGCTTCATGGCGGCAGCAAGTTCAGAGGCAGGAACAACC -TGTTCTCCGGCGGCGACAGCAGTAAGACTTCCTTCCTGGTATTGCTTACGCCAGAGAAATAACTGGCTGGCTGCT -ACACCATGTTGCCGGGCAACGAGGGAGACCGTCATCCCCGGTTCAAAGCTCTGCTGAACAATTGCGATCTTTTCC -TGTGTGGTACGCCGTCTGCGTTTCTCCGGCCCTAAGACATCAATCATCTGTTCTCCAATGACTAGTCTAAAAACT -AGTATTAAGACTATCACTTATTTAAGTGATATTGGTTGTCTGGAGATTCAGGGGGCCAGTCTAAACTTGCTCTTT -TCTTCTGGTGTTTATCTTTGAAAGATTTGTAGGATAAATAACATTAAGTAAAGCCGCATCGGCTTCTCTGTAATG -TTTATCTTTTTCCAGATAACCTGGGGATTCTCCCCCTAAATCAAGCTGTAACGTTATTCTTTCATAACCTTTATC -TATGAGGTGGTTCAACCTCGTTGTTGAAAGAGTTTCATCCAGTTCATTGACTTTAGCTTCGCGTAGTAAATCAGA -GACAAAAACAGAGTCTTTCTTCGAGAGTAGGTTTGACAAACGTTCCAGTCCAGAGGTCACCAGTGCAACGGAAGA -TGTGTTTAATCGGGCATCTTCTTCCCATGCTCAGGAATCTTCCATAACATAGAAATTGGCTTTATCCAGATAAGC -AATCAGCAGCGCAACCGACTTTAATCGGTCACCTTTTTGCCAATCTTCAGCGTTAATAGTACCAGTGTTGATTGC -TTGTATAAGGAGATCAAGGTAAAGACCTAAAGCATCATTTTGTTTATGGTTCCACAGCTGCGGCTTGCCTTCTTC -CTGCACATCTGCCATCACGGGGGAGTTGCTGTCAAATCGGATATGCACAGCATTCATTTGCACGGGAATTCCATC -CAGTCGTTTTGGGTTGCTAATGACGTCCTGCATCCGCTTAATCTGGTCGGGCGTAGACATATAATCCCACAGGGT -GAGCAGAACCTTTTTTGCGGCTACACTATTTCCCTGATCTGATACTAATGCCATATAGCCCCATAAACTATCCCT -CAACCAGACAGCATCATAGTGGGTTTCTGCCGCTGTTTTGTCATCTTCGAAAGTAGAAGCAAGAATAAACGTTCC -CCAGGGTTTCTCCGTCAACGTTAACTTTCGTGTGTTTTCTGTTAATGTTAGCAATCCTTGAATTTCGTCTTTGGT -ATAGTGGCTCTTTATTTCATTTTGTAATTTGGCTGAGTGAATCAGAAGACGATAATTAGGATACTTATCTGGATT -TAACGATAAATAACTTTTATCTGTTGCTGCCCCCGTGGAATTAAGAATGTTAAATACAGATTCACTCGTCACTTC -TGCCCCTGTCGCCTGGCATGTGCCGCACGAAAATATACCAGCGAGCAGAAGAGTTAATGCAGATTTCCCTTTCAT -AAAATATTCCATCAATCGTTTGTTAAAAGCGTAGATAACCACTTATTTAACAACTTGAAAATAAGGTGTTTTACC -TGGGTTGTTACAAAAGGATTGCATTGCGTAAACGCTTTTTATTTACAACAAAATGGGGAAGTATTACGGCGAAGA -TAAATTGGAGCGGGCGAAGGGAATCGAACCCTCGTATAGAGCTTGGGAAGCTCTCGTTCTACCATTGAACTACGC -CCGCTTCGAGATGCGTAAGGCATTATAAACCTTACGCTCTCCTTAGCAAGTGCCACGCTGCTGACTGCTGATTAA -TTCGCCATCAGCATTTTGGCTTGCTGCCCTGAGGCGGCAAGTAACGTAGCGGATCAATTGCCGTTGCACGGTAAC -GAATCTGGAAATGCAGGCGAACAGATGCCGCATCCGTGCTCCCCATAGTGGCGATTTTTTGCCCAGCCTTCACGC -TTTGCCCATTATTTACCAGCATCGTGTCATTATGGGCGTAAGCCGTAATGTAATCTTCACTGTGTTTAATCATGA -TGAGATTACCGTAGCCACGCAGCTGGTTGCCCACATACACCACCTTTCCTGCACCCGCGGCGTAAATAGGTGTAC -CCCGTGGAGCTGAGATATCAATCCCTTTATTGCCGCCATCTGCTGTCGAATACGGCATGATAACTTTCCCTGTCG -TTGGCCATAACCAACAACGTTGCCCTACTGGCGGCCAGGATGATTTCGGTACCGCTGATGACGGTGTAACCGATG -CGGTTTTGGTCGTTGATTTGGCGGTTGATTTACGTGTAATACTGCTACTTTTCGCCCCACCCAGTTTTAGTTTCT -GACCAACTTCAATGGTGTAAGGGGGGGAAATGCCGTTCAGTCGCGCCAGTTCTTTTACGCTGGTTCCCGTGGTGC -GCGAAATACGATATAGCGTATCCCCCCGTTTCACGGTGTAAACGGAGCCGGAATACGTTCCTGTATCGGATGATT -TGCTACCCGAACAGCCCGCCAAAAGCAGTCCAACCGATAACAACATCACGATACCCAGAGATTTTTTATTCAGGC -GTCCCGCACTCAAAATCTTTCCTCGCTTAAAAAACAAGACGCCTTATCATAGCAGCCAGCCTCTTGATACCCAAT -CTCTTGCTTCTGGAAAAACGTGGTAATAGAGAAAGAGGTTAATTTCATTTGGCAAAGGGAAGTATCATCAGCAAA -ATATTCGCTGTAGAGGTATCGAACTTCCTGACTTTTTACCCTATTTCCCATCCTGATGCGTAATAATCCCAATTT -ATCACATTGATTTTATCGCCACTCATATTGATACGTATCACTGCCCCTATTCAGAGTCCTGTTTCGTATCATATC -TGTGTTTTTTTAACGTCATCACACTTCCTACCTCCCCTAACGCTTATCGTCGTTTCTGGCGTAAATCTTGCCTGC -TTAGACTAAATCTTTGCCATAAGAACCAAATGTTCAAATCGAGGGGATTTCTATGGAAGCGCGGGAAGCAACCGC -TACGGGTGAATCATGCATGCGCGTCGATGCCATTGCTAAGGTCACCGGGCGGGCACGATATACTGACGATTATGT -TATGGCGGGCATGTGTTATGCGAAATATGTACGTAGCCCTATCGCACATGGTTATGCCGTAAGTATTAATGATGA -ACAAGCCAGAAGTTTGCCGGGCGTACTGGCGATTTTTACCTGGGAAGATGTGCCTGATATTCCATTCGCTACAGC -TGGGCATGCCTGGACACTTGACGAAAACAAGCGCGATACCGCCGATCGCGCACTGCTAACTCGCCATGTTCGTCA -TCATGGTGACGCCGTTGCCATCGTCGTGGCCCGCGATGAACTCACGGCAGAAAAAGCGGCGCAATTGGTCAGCAT -TGAGTGGCAAGAATTACCCGTTATCACCACGCCAGAAGCGGCGCTGGCAGAAGACGCTGCACCAATCCATAACGG -TGGCAATTTACTGAAACAAAGCACGATGTCGACGGGTAATGTCCAACAAACAATCGATGCCGCCGACTACCAGGT -ACAGGGGCACTATCAGACCCCCGTTATTCAACATTGTCACATGGAAAGCGTAACATCGCTGGCGTGGATGGAGGA -TGACTCGCGAATTACCATCGTTTCCAGCACCCAGATCCCGCACATTGTTCGCCGCGTGGTTGGTCAGGCGCTGGA -TATTCCCTGGTCATGCGTACGAGTCATCAAACCATTTGTCGGTGGCGGTTTTGGTAATAAACAGGATGTACTGGA -AGAGCCAATGGCGGCATTCCTGACCAGCAAGCTTGGCGGCATTCCGGTGAAAGTTTCCCTTAGCCGTGAAGAGTG -TTTCCTCGCAACCCGTACCCGCCACGCTTTTACCATTGACGGGCAAATGGGCGTGAACCGCGACGGAACATTGAA -AGGTTATAGTCTGGATGTTCTGTCTAACACCGGCGCTTATGCATCTCACGGGCACTCCATCGCTTCTGCGGGGGG -GAATAAAGTCGCTTACCTTTATCCTCGTTGTGCCTACGCTTACAGTTCAAAGACCTGCTATACCAACCTCCCCTC -GGCTGGTGCGATGCGTGGTTATGGCGCGCCACAAGTCGTATTTGCCGTTGAGTCTATGCTTGATGACGCCGCGAC -AGCGTTAGGTATTGATCCTGTTGAAATTCGTTTACGCAACGCCGCCCGCGAAGGAGATGCTAATCCGCTCACGGG -CAAACGTATTTACAGCGCAGGGTTGCCGGAGTGTCTTGAAAAAGGCCGGAAAATCTTTGAATGGGAAAAACGCCG -TGCAGAATGCCAGAACCAGCAAGGCAATTTGCGCCGCGGCGTTGGCGTCGCCTGTTTTAGCTACACCTCTAACAC -CTGGCCTGTCGGCGTAGAAATAGCAGGCGCGCGCCTTCTGATGAATCAGGATGGAACCATCAACGTGCAAAGCGG -CGCGACGGAAATCGGTCAGGGTGCCGACACCGTCTTCTCGCAAATGGTGGCAGAAACCGTGGGGGTTCCGGTCAG -CGACGTTCGCGTTATTTCAACTCAAGATACCGACGTTACGCCGTTCGATCCCGGCGCATTTGCCTCACGCCAGAG -CTATGTTGCCGCGCCTGCGCTGCGCAGTGCGGCACTATTATTAAAAGAGAAAATCATCGCTCACGCCGCAGTCAT -GCTACATCAGTCAGCGATGAATCTGACCCTGATAAAAGGCCATATCGTGCTGGTTGAACGACCGGAAGAGCCGTT -AATGTCGTTAAAAGATTTGGCGATGGACGCTTTCTACCACCCTGAACGCGGCGGGCAGCTCTCTGCTGAAAGCTC -CATCAAAACCACCACTAACCCACCGGCGTTTGGCTGTACCTTTGTTGATCTGACGGTCGATATTGCGCTGTGCAA -AGTCACCATCAACCGCATCCTCAACGTTCATGATTCAGGGCATATTCTTAATCCACTGCTGGCAGAAGGTCAGGT -ACACGGCGGAATGGGAATGGGCATTGGCTGGGCGCTATTTGAAGAGATGATCATCGATGCTAAAAGCGGCGTGGT -CCGTAACCCCAATCTGCTGGATTACAAAATGCCGACCATGCCGGATCTGCCACAACTGGAAAGCGCGTTCGTCGA -AATCAATGAGCCGCAATCCGCATACGGACATAAGTCACTGGGTGAGCCACCAATAATTCCTGTTGCCGCTGCTAT -TCGTAACGCGGTGAAGATGGCTACCGGTGTTGCAATCAATACACTGCCGCTGACGCCAAAACGGTTATATGAAGA -GTTCCATCTGGCAGGATTGATTTGAGGATAACATCATGTTTGATTTTGCTTCTTACCATCGCGCAGCAACCCTTG -CCGATGCCATCAACCTGCTGGCTGACAACCCGCAGGCCAAACTGCTCGCCGGTGGCACTGACGTACTGATTCAGC -TCCACCATCACAATGACCGTTATCGCCATATTGTTGATATTCATAATCTGGCGGAGCTGCGGGGAATTACGCTGG -CGGAAGATGGCTCGCTACGTATCGGCTCTGCAACGACATTTACCCAGCTAATAGAAGATCCTATAACTCAACGTC -ATCTCCCGGCGTTATGTGCTGCGGCCACGTCCATTGCTGGACCGCAGATCCGTAACGTCGCTACCTACGGTGGAA -ATATTTGCAACGGTGCCACCAGCGCAGATTCTGCCACGCCAACGCTAATTTATGACGCGAAACTGGAGATCCACT -CCCCGCGCGGTGTTCGTTTCGTCCCGATTAATGGCTTTCACACCGGGCCGGGCAAAGTGTCTCTTGAGCATGACG -AAATCCTCGTCGCCTTTCATTTTCCGCCACAGCCGAAAGAACACGCGGGCAGCGCGCATTTTAAATATGCCATGC -GCGACGCAATGGATATTTCAACGATTGGCTGCGCCGCACATTGCCGACTGGATAACGGCAATTTCAGCGAATTAC -GCCTGGCATTTGGTGTTGCCGCGCCAACGCCGATTCGCTGCCAACATGCCGAACAGACTGCACAAAATGCGCCAT -TAAACCTGCAAACGCTGGAAGCTATCAGCGAATCTGTCCTGCAAGATGTCGCCCCGCGTTCTTCATGGCGGGCCA -GTAAAGAGTTTCGTCTGCATCTCATCCAGACGATGACCAAAAAAGTGATTAGCGAAGCCGTCGCCGCGGCGGGGG -GAAAATTGCAATGAATCACAGCGAAACAATTACCATCGAATGCACCATTAACGGGATGCCTTTTCAGCTTCACGC -CGCACCAGGCACGCCGCTCTCGGAATTACTCCGCGAACAAGGACTGCTAAGTGTCAAACAAGGGTGCTGCGTGGG -TGAATGTGGTGCCTGTACGGTGTTGGTCGACGGCACAGCAATAGACAGTTGCTTATACCTTGCCGCCTGGGCTGA -AGGAAAAGAGATCCGCACGCTGGAAGGTGAAGCGAAAGGCGGAAAACTTTCTCATGTTCAGCAGGCTTATGCGAA -ATCCGGCGCAGTGCAGTGCGGGTTTTGTACGCCTGGCCTGATTATGGCTACCACGGCAATGCTGGCGAAACCACG -CGAGAAGCCATTAACCATTACGGAAATTCGTCGCGGACTGGCGGGAAATCTTTGTCGCTGCACGGGGTATCAGAT -GATTGTAAATACAGTTCTGGATTGCGAGAAAACGAAGTAAAAGGATATCCGGCCTGAATTCAGGCCGGATTCACT -GAGGTTATGTGTTTAACAACTCATATTTCTTAATCTTGCGATAGAGCGTAGCAATGCCGATGCCCAGTTCATCAG -CAACTTGCTTCTTGCTGTTATGACGTGAAAGCGCCTCGCGGATCATTTGCTTTTCCATCTCCTCCAGCGCCGTGC -CGCCCGCATCATCGAGTGACAGGTGCGCCTCACTGACCTCTGTTACATCACTTTGCTCCGTTGTGCCATTATTCA -GCAGATTTGGCGGCAATAGCGTGCTGTCGATAACTTCACCTGAAGGAACCACGTTAACCAGATATTCCATCAAAT -TGCTTAACTCGCGCAGGTTTCCGGGCCAACGATGCTTACGCAATATTTCGACGACATCGGGAGCAATGCCAGGAT -AAACCGATCCCAGACGACGGGTATGCAGATGTAAAAAGTAATGCACCAATAGTTCAATATCTTCCTGACGTTCAC -GCAGCGGTGGCAGAGTTATCGGGATAACATTAAGTCGGTAGAAGAGATCTTCGCGGAATTTACCTTCGGCAATGA -ACTGGGCCAAATTCTGATTAGTTGCAGAAATGATGCGAATGTCGACTTGTATTGGGCTACTGGCACCAATCGGCA -GAATTTCACGTGCCTCAATAGCGCGCAGTAATTTAGCCTGCAACATTAATGGCATATCACCTATTTCATCGAGAA -ACAGCGTGCCCGTATTCGCCGCCTGAATCAACCCTGTTTTACCGTTGGCAGAAGCGCCAGTAAATGCACCTTTAA -CATAACCGAACAGTTCGCTCTCCAGAAGCTGCTCCGGAATCGCGGCACAGTTGATAGCAATAAAGGGTTTATTCC -GTCTTCCGCTCAACTTATGGATTGCACGGGCGACGACTTCTTTACCCGTGCCGCTTTCACCAACCACCATAACGC -TGGATGGGCTGGGTGCAATACGGCTAATGAGTCGTTTTAATTGCCGCATAACACGGCACTCGCCAACCAATTGTT -CAATATGCGGTTCATCAGGTGCATTTGCTACAGAAAAACTGGTATGCGATTGGTGAAACGCCATTAAAAATAATT -GTCGGCCCTGAATGTTATGCAATTGACCAATGATTAATTCACTTTTATCGTCCCATGAAACAATATGCTGCATAT -GTCCATGGGTAAAATTACTCTCAAATGTTAATGGTCTGAAACGGATAGGTTTCCCAATAATATTATTTTGCACAA -CACCAAGTGTTTTTAAGGCAGTCTGATTAACAAACTGAACCCGATTTTCATCATCTACAACTAATACGCCCTGAT -CCATATTATCGATCATGGTCGCAAATATTTTACTGATGTTATCTCCTGGCCCCTGATCCTCCAGAAGTTTCGAAA -CAAAAATGGTGGATATATGGCGAACATAATCAGAAAATTCGCGTAAATTATCACTGATATGCTCTTGTTGCTCGT -GGGTAACGGCAATCAAACTTATCACCCCAACACAACGATCCTGTAAAATGACAGGCGTACCCAGAAATGCTTTTT -CGCGGCAATTTTCTTTACTATCGCAACCTTCGCAAAGGGGATCGAAGCGAGACTGTGTCACAACTTTTTCAGTTT -TCGTTTCCAGGACGTGGCGGAGCAGGCGTGAGTTGCCGCTCAACTGGCGACCAAGAAACTTCCCATACGCGCCCG -TTCCGGCAACGCGACACAAGTTTTCATCAACGATCTCAACCTCAAGCTGCAAAACGCTGGCAAGCATTCTGGCAA -AACGCTGAATTGTCGGTTGAATTTGCATCAATACTGACTGCGTAGTAGCAAGCTCCATAGCTTTACCTTCCAGAC -TTACTTAAAAGTCGATCATTGAAGACGTTGATGGTTCACAGATCATGATGATATTAACTCAGGCGAAATTGGCTT -TGATAAAAACATAAGATTTTTATCATTTTCTAATGAAATTATGGAAGAGATATCACATTTCTATATCAATATGAG -AATTACGGCGGTGAGTTTATCAAACTGAAGAGAGATAGCCTGCCCCTTTATCTTATTTCTGATACTTAGCAGCAA -ATAAATAACGCGATAAAAAAAGCCAAACGTTTTCGTATTTTACAAACAACCAGAAGCTGGCATCAATTTGTGATC -AACCCCACACATTATCCGTCAAATTAGTCTTTTGCAGCCGCGCGGATAATTCTGGCACACTTATTGTTAGTCCCA -GGTATAGCTGTGAAAACACCAATCACTTTGGCAAGTCACAGTGAAATAAACCACTTTGCCTGTCATTCCACTACC -GGGACTTTATGATGAAAACTGTTAATGAGCTGATTAAGGATATCAATTCGCTGACCTCTCACCTTCACGAGAAAG -ATTTTTTGTTAACGTGGGAACAGACGCCAGATGAACTGAAACAAGTACTGGACGTTGCCGCAGCATTAAAAGCAC -TGCGTGCTGAAAACATCTCAACCAAAGTCTTTAATAGTGGATTAGGTATTTCCGTATTCCGCGACAACTCCACCC -GTACCCGCTTCTCTTATGCTTCCGCGCTTAACCTGCTCGGCCTTGCACAACAAGATCTCGACGAAGGCAAATCAC -AAATCGCTCACGGCGAAACCGTGCGTGAAACCGCCAATATGATCTCCTTCTGCGCCGACGCTATTGGTATTCGCG -ACGATATGTATCTGGGCGCAGGCAACGCCTATATGCGTGAAGTTGGCGCTGCACTTGATGACGGTTACAAGCAGG -GTGTACTGCCACAGCGTCCGGCTTTAGTGAACCTGCAATGCGATATTGACCACCCGACTCAGTCAATGGCTGACC -TCGCGTGGTTACGTGAACACTTTGGTTCACTGGAAAACCTGAAAGGTAAAAAAATCGCCATGACCTGGGCCTACT -CTCCAAGCTATGGCAAACCGCTCTCTGTACCACAAGGCATCATCGGTCTGATGACTCGCTTCGGTATGGATGTCA -CCCTGGCCCATCCGGAAGGCTACGACCTGATCCCGGATGTGGTTGAAGTGGCGAAAAACAATGCTAAAGCCTCCG -GTGGTAGCTTCCGTCAGGTCACCAGCATGGAAGAAGCCTTCAAAGACGCAGACATCGTTTATCCGAAGTCATGGG -CACCTTACAAAGTGATGGAAGAGCGTACTGAATTGCTGCGTGCGAACGATCACGAAGGCTTAAAAGCACTGGAAA -AACAGTGTCTGGCACAGAACGCGCAACACAAAGACTGGCATTGTACTGAAGAGATGATGGAACTGACCCGTGATG -GCGAAGCCCTGTACATGCACTGCCTGCCAGCTGATATCAGCGGCGTATCCTGTAAAGAAGGTGAAGTGACTGAAG -GCGTATTCGAAAAATACCGTATCGCTACCTACAAAGAAGCCAGCTGGAAGCCTTATATCATCGCCGCGATGATCC -TGTCCCGTAAATACGCCAAACCAGGTGCACTGCTCGAGCAACTGCTGAAAGAAGCGCAAGAACGCGTGAAATAAC -CCCTCGGGCCGATCAGCTGGTCGGCCCTCTATTTCCAGAGGCCAAAAGGATAGGATATGTCCGTTTTCTCATTGA -AGATTGATATCGCCGATAACAAATTTTTCAACGGCGAAACATCACCGCTCTTTTCGCAAAGCCAGGCCAAACTGG -CGCGCCAGTTCCACCAGAAAATAGCTGGTTATCGCCCAACACCGCTTTGTGCGCTGGACGATCTCGCAAACCTTT -TTGGTGTGAAGAAAATTCTCGTCAAAGACGAATCAAAACGATTCGGTCTGAACGCCTTCAAAATGCTTGGCGGTG -CGTACGCCATCGCTCAATTATTGTGTGAAAAATATCATCTTGATATCGAAACGCTGTCATTTGAGCACCTGAAAA -ATGCCATCGGCGAAAAAATGACTTTCGCGACCACCACCGACGGCAACCACGGGCGCGGTGTGGCGTGGGCAGCAC -AGCAACTCGGACAGAATGCGGTGATTTACATGCCGAAAGGTTCTGCTCAGGAACGCGTTGACGCCATTCTGAACC -TCGGTGCCGAGTGCATCGTCACGGATATGAACTATGACGATACCGTTCGCCTGACCATGCAACACGCGCAGCAGC -ACGGCTGGGAAGTGGTACAGGACACGGCATGGGAAGGTTACACCAAAATCCCAACCTGGATCATGCAAGGCTACG -CAACCCTGGCAGATGAAGCCGTCGAGCAAATGCGTGAAATGGGCGTAACCCCGACGCACGTTCTGCTGCAAGCCG -GTGTCGGAGCAATGGCCGGTGGTGTGCTGGGTTATCTGGTCGACGTCTATAGCCCGCAAAATCTGCACAGCATTA -TTGTTGAACCTGACAAAGCTGACTGTATTTATCGCTCCGGCGTCAAAGGCGACATCGTCAACGTTGGCGGTGATA -TGGCCACCATCATGGCAGGCCTGGCCTGTGGCGAACCTAACCCGCTGGGCTGGGAAATCCTACGTAACTGCGCCA -CCCAATTCATCTCCTGCCAGGACAGCGTTGCCGCATTAGGTATGCGCGTGCTGGGTAATCCGTACGGCAACGACC -CGCGCATCATCTCCGGTGAATCCGGCGCTGTCGGTTTGGGCGTTCTCGCAGCGGTTCATTATCACCCGCAACGTC -AAAGCCTGATGGAAAAACTGGCGCTGAACAAAGATGCCGTGGTGCTGGTTATCAGCACTGAAGGCGACACCGACG -TGAAGCACTACCGCGAAGTTGTCTGGGAAGGCAAACACGCTGTAGCACCTTAATCACCCTATTGGAACTGCTCCC -TGCAAAACGGGGAGTAAAAAATCTGGAGAAAAATAATGGCTAAGAATATTCCATTCAAACTGATTCTTGAAAAAG -CAAAAGATTACCAGGCGGATATGACTCGCTTCCTGCGCGACATGGTTGCTATTCCCAGTGAAAGCTGCGACGAGA -AACGCGTAGTACATCGTATTAAAGAAGAGATGGAAAAAGTCGGCTTCGATAAAGTTGAAATCGACCCGATGGGCA -ACGTTCTCGGTTATATCGGCCACGGCCCGCGTCTGGTGGCAATGGACGCTCATATCGATACCGTCGGCATTGGCA -ACATCAAAAACTGGGACTTCGATCCGTACGAAGGCATGGAAACTGATGAACTGATTGGTGGTCGCGGTACTTCCG -ACCAGGAAGGTGGCATGGCCTCTATGGTTTATGCCGGTAAAATCATTAAAGACCTCGGTCTGGAAGATGAATATA -CCCTGCTGGTTACCGGTACGGTGCAGGAAGAAGACTGCGACGGTCTGTGCTGGCAGTACATTATTGAACAATCCG -GCATTCGCCCGGAATTTGTGGTCAGTACCGAACCAACCGACTGCCAGGTATACCGTGGTCAGCGCGGTCGTATGG -AAATTCGTATTGATGTTCAGGGTGTTAGCTGCCACGGTTCTGCACCAGAACGCGGTGATAACGCCATTTTCAAAA -TGGGTCCGATTCTTGGCGAATTACAAGAACTCTCCCAACGTCTGGGTTATGACGAATTCCTCGGCAAAGGCACCC -TCACCGTTTCTGAAATCTTCTTCACATCCCCAAGCCGTTGCGCTGTAGCAGACAGCTGCGCAGTTTCAATCGACC -GTCGTCTGACCTGGGGCGAAACCTGGGAAGGCGCGCTGGACGAAATCCGCGCCCTGCCTGCAGTACAGAAAGCTA -ACGCGGTTGTTTCTATGTACAACTACGACCGTCCGTCCTGGACTGGCCTGGTTTACCCAACCGAATGCTACTTCC -CGACCTGGAAAGTGGAAGAAGATCACTTCACCGTTAAAGCACTGGTGAATGCCTACGAAGGGCTGTTTGGCAAAG -CGCCGGTTGTTGATAAGTGGACCTTCTCAACTAACGGCGTATCTATCATGGGCCGTCACGGCATTCCGGTGATCG -GCTTTGGCCCGGGTAAAGAACCTGAAGCGCATGCACCTAACGAAAAAACCTGGAAATCTCACCTGGTGACCTGTG -CCGCGATGTACGCTGCAATCCCGTTAAGCTGGCTGGCAACAGAGTAATTACTCTTCACTTATTCCCCTCCGGTTC -GCCGGAGGGTTTTTGGAGTTTGCTATGCGCGTATTGATCAAAAACGGCACTGTCGTTAACGCAGATGGACAAGCC -AAACAGGATTTGCTGATTGAAAGCGGGATTGTTCGCCAGTTGGGCAACAATATTTCGCCGCAGCTCCCGTATGAA -GAAATTGATGCCACTGGCTGTTACGTTTTCCCTGGCGGCGTGGATGTCCATACGCATTTCAATATTGATGTCGGC -ATCGCGCGCAGTTGTGATGATTTTTTTACCGGTACCCGCGCAGCTGCGTGTGGCGGTACAACAACCATTATTGAC -CATATGGGATTTGGCCCAAACGGCTGTCGGTTACGCCATCAACTGGAGGTTTATCGTGGTTATGCCGCCCATAAA -GCGGTCATCGATTACAGCTTTCACGGTGTGATCCAGCACATTAATCACGCAATCCTCGACGAAATCCCGATGATA -GTCGAGGAAGGACTGAGCAGTTTTAAACTCTATTTAACCTATCAATACAAACTCAACGATGACGAGGTTTTGCAG -GCATTACGCCGCTTGCATGAATCCGGCGCGCTGACCACCGTGCACCCGGAAAATGATGCGGCTATCGCCAGCAAG -CGGGCGGAATTTATCGCCGCAGGGTTAACCGCGCCGCGCTATCATGCCTTGAGTCGCCCTCTGGAATGCGAAGCG -GAAGCCATCGCCCGCATGATTAACCTGGCACAAATTGCCGGTAACGCCCCGCTCTATATCGTGCACCTGTCTAAC -GGCTTAGGTCTGGATTATCTGCGTCTTGCCCGTGCGAATCACCAGCCAGTCTGGGTTGAAACCTGCCCACAATAT -CTCCTGTTGGACGAACGCAGTTACGATACAGAAGATGGCATGAAGTTCATTCTTAGCCCACCGCTGCGTAACGTA -CGCGAGCAGGACAAACTGTGGTGTGGCATCAGCGATGGTGCGATTGACGTGGTGGCAACCGATCACTGCACCTTC -TCGATGGCTCAACGCCTGCAAATTTCTAAAGGCGATTTCAGTCGCTGCCCAAATGGCTTACCCGGTGTGGAAAAC -CGCATGCAGTTACTGTTTTCCAGTGGCGTGATGACGGGACGTATAACACCGGAACGCTTTGTTGAATTAACCAGC -GCAATGCCCGCCAGGTTGTTTGGCCTGTGGCCGCAAAAAGGATTATTAGCGCCCGGTTCCGACGGCGACGTGGTG -ATTATCGACCCACGTCAGAGCCAACAAATTCAGCATCGCCATCTCCACGACAACGCCGACTACTCGCCATGGGAG -GGTTTTACCTGTCAGGGCGCGATTGTCAGAACCTTATCCCGTGGTGAAACGATTTTCTGTGACGGCACCTTTACA -GGCAAAGCCGGGCGAGGTCGTTTCCTGCGACGCAAACCGTTTGTCCCTCCCGTGCTCTAACCACTGCCAGGGATC -TATACACAATCAAGAATGATGAGTGAGGAAAAATGAGTAAGAAAATTGTTCTCGCCCTGGGCGGGAATGCGCTGG -GCGATGACCTGGCCGGGCAAATGAAAGCGGTAAAAATTACTTCTCAGGCAATTGTTGATTTAATTGCCCAGGGAC -ATGAAGTTATCGTCACTCATGGTAACGGGCCGCAGGTGGGCATGATTAACCAGGCCTTTGAAGCTGCCGCAAAAA -CTGAAGCGCACTCGCCAATGCTGCCGATGTCTGTCTGTGTTGCATTAAGCCAGGGTTATATTGGTTACGATCTAC -AAAACGCTTTAAGAGAAGAACTGCTTTCTCGGGGCATTAATAAACCTGTAGCAACGCTGGTTACTCAGGTCGAAG -TCGACGCTAACGATCCGGCATTCCTCAACCCGACCAAGCCGATCGGTTCGTTCTTTACCGAGCAAGAAGCAGAGC -AACTGACAAAACAGGGTTACACTCTGAAAGAAGATGCTGGTCGCGGCTATCGCCGTGTTGTTGCCTCGCCAAAAC -CGGTTGATATCATTGAAAAAGAAACGGTTAAAGCTCTGGTAGATGCAGGTCAGGTGGTGATCACCGTTGGCGGTG -GTGGTATCCCTGTTATTCGTGAAGGTAACCATCTGCGTGGTGCCAGCGCGGTTATCGATAAAGACTGGGCCAGCG -CCCGTTTAGCAGAAATGATTGATGCCGATATGCTGATCATTCTGACTGCGGTAGAAAAAGTGGCCATTAACTTCG -GTAAAGAGAATGAACAGTGGCTCGATCGCCTGTCATTAAGTGATGCTGAACGCTTTATCGAAGAAGGTCATTTTG -CGAAAGGTTCTATGCTGCCTAAAGTGGAAGCTGCCGCCTCGTTTGCTCGCTCTCGCGCAGGTCGTGAAGCACTGA -TTACCGTATTGAGCAAAGCGAAAGAAGGGATTGAAGGCAAAACAGGAACGGTGATTTGTCAGTAATTTAAAGGCC -GGGTGGGTAATACCATCCGGCCAAAGATTGTCAAGTAAGTGCGCTTTGTTGATGCCGGATGCGGCGCGAGCGCCT -TATCCGTCCTACAAAACATCGCAAATTCAATAGATTGCAATGCACTTGTAGGCCTGATAAGCGTAGCGCATCAGG -CAATTTGGCGTTTGTCATCAGTCTCAGGCCGGGTGGGTAATACCATCCGGCCATTTTCATTTAAGCCACTTCCAG -CACTTCTTTTGTCGCTTTCACGCCCTGATGCATCAACATCATTAACGCCTCAAGTACGCCGCCGCCAATCGCCCG -GGCTTTATCAGAAACGCTGGTGAAATCAGCGGTTTCACCACGAGGATCGATATCACCAATTTTAAAACCACCAAC -CACTGCCAGGCCGTCGTTCAACAAGCCACGCACCATCCCCGTCAACGGTGCTTTAATTTCATGCTCACCAATCCA -GGCAATCACATCGCCCTCTTTCACCAGATCGCCTAATTTCACGTTGGATCGCATAATGCCTGCAGCAGGAGCACG -GATCACCCGTCGGGTGGTATGCCCCATAATATTGCCAGGAACACCGGTATTCTCCTGCGCACAACCAGAGTAAAT -CACCTGACCGAGCCAGTGCCCGCGATTTGTTTCAATTACCGCATGACAATCCTTCCCAGCAGTAAAGCCCGGCCC -AAGCGCGATTGTTACTGGTGCCATATCTGCCCGCGTTCCCAAATTCTGTTTCGCCAGAATAGCGTCCACCACGCA -AAGCGGTTTCAGTTCATCAAGCAATGAACAGGCGGGATCTACCATCACAGGAATGAATCCGCGTTCGGTAAGTTT -CATCGCTTCCGCAGAGCTGGTTGCCAGGCGAGCAGTGACGCCTTCGACCGTCATTTCGCCATCGAACACGGCCTG -GGCAAACGCCACGGTACAACGAATCACTGTCGGTTTTTCCACTTCCAGCATGATCACTTTAAAACCCGCATGATA -CAGACGTAGCGCCACACCACTGGCGATATCTCCCGCACCGCGAATCACCACCAGCTGGTGTCCGGAAGGATGAGA -AGGTTTCATCATCAGCCCACCCGGCGCGTTATTTTTCACCTGTAATATTTCTGCCAGCACGCTGATGGCGATCTC -CTGCGGCGTTTCCGCACCTATGTTGTAACCAACGGGCGCATGTAAACGGGCAATATGTTCTTCAGCCACGCCTTT -CTCACGCAATTGACGCAGGAAAAGCTGAACCTTGCGACGACTTGCCAGCAACCCCAACCATGCAATGGGCTGTTC -AATGAGTTTGTCGAGGGCTTCACGATCCTGATTATTCGTGGCAATCAGGACAAAATTATCAGGGCGAATATCCAG -TGCTTCCACTGCCGCACCAAACGACTCAGCATGGAGAAGCGTGGTTGATGGTGGGAATAGTTCAGGATTGAGGCT -TTCGCGATAAATATCAGCAACGGCAATATCAAATCCTAATAGCGCCGCACTCTGGGCTATCGCCCGGTTGACATG -CCCCGCGCCAATCAACACCAGACGTGGACGCATACCATGGACGCTGATAAATACTGACATTGCACCTCCACAATC -TGACCCGACAGCATCCGCACCGTTACGAGCCATACGTCCATGGAATAATCGCGGCTTACGTTCCTGCAATGCCTG -AAGCGACTCTTCAATCACCTTCCGCTCAACCATTCCGCCACCAATTGTACCGACGATAGAACCATCGGCGCGCAC -TAACATTTGTGCAGAATGGCGGGGAGTCGAGCCTCGGCTATCAACAATTTGCGCCATAGCAAACGGACAATTTTG -CTCTTCGAGTTTTGCAGCCTCTGTGAAAATATTCATACCAACCTCAATGGATATCCTTTCAGTAACCCGGAATAC -CCGGGCCGCTAATTCACAAATCTGCGCGCGATTGCAGGATGTTCTTGTATATCGCCCAGCCAGATTGCCTCTACG -TCGTGTTGTTGCAGCGGTTGAAGGAGCTCGCTTTGTGCAATCGCATTCTCACATTGAGAAAAACGGTTAATGAAC -CAGACTCGCCGACAACCTTGCGGTACGTTTTTAAACGCCCCCTGAGGGTGGCGAACCAGCGCAACGAGATCGCTC -AGTTGCAAGGTTGCATCAGGTGTTAACCCGGTAATATCAGCAAACTGCGACCAGCGATGGACATTTTCTGTGCTC -ACTTTCGCGCCCAAAGTATGTCCTCCCATCACAGCAATCACGCAGCAACTGCTTTTGGGTATGCAAGGTTCGTGC -TCATCAGGCGCTTTTAACGGCATTCCACGCGAGCCATCTGCTTCAATGAGAATTACGTCACACTCTGGTCGTTGC -ACCAGTGCATCAATCGCTTCTGGCGTAAATCCCTGCACTTTTCCCTGGTTCGCTTTCCAGCTGTGAAAACAAAAT -GAAATGGGGGATGTAAGAGACGCATGAGGAAGCATGGCGGGATCACGACAGAAAACCACGGGCCAGTGAGACGTT -GGCATAAACATATGTGTCGTCGTCGTGATTAACACACGCCTGCCGCTAGCCTGGAGCAGTTCTGCCAGCCAAAAA -AGCAAGCTGGTTTTCCCCCCAGCACCAACAACAGAAATCACAGTGGGACGTTTCTGCGCACCTAAATCAATGACT -AATGCCGATGGGTCAACTATACTTTTCACGAGTCTTTATGACCTCTCTGGGATAAATTATCCCCAACTTAATCCA -TCAGGAAGTAACGCAATTATCAGGCGTTATTAGCCCCTATAAATAATGGAACCACTATGTCAGCCATCGACTGTA -TAATTACCGCTGCCGGATTATCATCAAGAATGGGGCAATGGAAAATGATGTTACCCTGGGAACAGGGAACAATTC -TTGATACAAGTATCAAAAATGCGTTGCAGTTTTGTAGCCGAATTATTTTAGTCACCGGCTATCGTGGTAATGAAC -TGCACGAACGTTATGCGAACCAGAGCAATATCACTATTATTCACAACCCAGATTATGCGCAGGGTTTACTAACAT -CCGTCAAGGCCGCAGTACCCGCAGTGCAAACAGAACATTGTTTTCTCACCCACGGTGACATGCCAACCCTCACCA -TCGATATTTTTAGAAAAATCTGGTCGTTACGAAATGATGGCGCAATACTGCCACTCCATAATGGCATCCCCGGCC -ATCCGATTTTAGTGTCAAAACCATGCCTGATGCAGGCAATCCAACGACCCAATGTCACCAATATGCGTCAGGCAC -TCCTTATGGGAGATCATTATTCCGTCGAAATAGAAAATGCAGAAATAATTTTAGATATTGATACTCCGGACGACT -TTATTACAGCGAAGGAAAGGTATACTGAAATTTAGAAAACGTAGTTAAACGATTGCGTTCAAATATTTAATCCTT -CCGGCACTCATTATCATAATGATAAGGAATCACTGATTTTGAGAAAAGAGAAAAATTGATAAATGGGCTGGCAAT -AATAATTTTCAGGAGTGATTTTAATTCTCATTTAGCACCTGTGAGTTCATTCACAAAAAGCCCTTAAGTTTCGAG -CCGCCTCACATTTTTTTATATTTCCCGCCAAACCTGGCAAGAGTGGTGCGATTGTTGCTCTATCCCCCTAAACCA -CCGGATTTCTCAACACCGGTCACTCAATGATATCTGTATAAGCTAAGGAGAGGGTTATGGGGGATATTATGCGTC -CCATTCCGTTTGAGGAACTTTTGACGCGCATATTTGATGAATACCAACAACAACGCTCAATCTTTGGTATTCCCG -AGCAACAGTTTTACTCACCTGTAAAAGGTAAAACTGTTAGCGTCTTCGGTGAAACCTGTGCCACTCCCGTCGGCC -CTGCCGCTGGCCCGCACACGCAGCTCGCGCAAAATATTGTCACTTCCTGGCTGACTGGCGGACGCTTCATCGAAC -TAAAAACCGTCCAAATTCTTGACCGCCTGGAGCTGGAAAAGCCCTGTATCGATGCCGAAGACGAGTGCTTTAACA -CCGAATGGTCTACCGAGTTTACCCTGCTTAAAGCCTGGGATGAATACCTCAAAGCCTGGTTTGCCCTGCACCTTC -TCGAAGCGATGTTCCAGCCTTCTGATTCCGGTAAATCGTTCATCTTTAATATGAGCGTCGGTTACAACCTCGAAG -GTATTAAGCAACCGCCGATGCAACAGTTCATCGACAATATGATGGACGCATCTGACCATCCGAAATTCGCTCAAT -ATCGCGATACGCTGAATAAATTACTCCAGGATGACGCATTTTTAGCTCGCCACGGATTGCAGGAAAAACGCGAAA -GCTTGCAAGCCTTACCCGCTCGCATCCCCACCAGTATGGTGCATGGCGTCACCCTCTCCACCATGCACGGCTGTC -CTCCGCATGAAATCGAAGCCATTTGCCGCTACATGCTGGAAGAAAAAGGGCTCAACACCTTTGTGAAACTTAACC -CGACCTTACTGGGGTACGCGCGTGTTCGTGAGATCCTCGATGTCTGCGGTTTCGGTTACATAGGCTTAAAAGAAG -AGTCATTTGATCACGACCTCAAGCTGACGCAAGCACTGGAAATGCTGGAACGCCTGATGGCACTGGCAAAAGAAA -AATCACTCGGCTTTGGCGTAAAACTGACTAACACTCTCGGCACCATCAACAATAAAGGCGCACTGCCTGGTGAAG -AGATGTATATGTCAGGCCGTGCGCTGTTCCCGCTCTCCATCAATGTTGCAGCAGTTCTCTCTCGCGCCTTTGACG -GCAAACTGCCCATTTCTTATTCCGGTGGTGCCAGTCAGCTGACTATCCGCGATATTTTTGATACAGGTATTCGCC -CTATTACTATGGCAACCGACCTGCTGAAACCTGGCGGCTATCTGCGCTTAAGTGCCTGCATGCGCGAGCTGGAAG -GCTCCGACGCCTGGGGACTTGACCATGTTGACGTCGAACGACTGAACAGACTGGCAGCAGATGCGTTAACCATGG -AATACACCCAGAAACACTGGAAGCCAGAAGAGCGTATTGAAGTGGCAGAAGACCTGCCGCTGACCGACTGCTACG -TTGCCCCCTGTGTTACTGCCTGCGCTATCAAGCAAGATATTCCGGAATACATCCGTCTGCTTGGCGAACACCGCT -ATGCCGACGCGCTGGAACTCATCTACCAACGCAACGCTCTGCCCGCCATTACCGGTCATATTTGCGATCACCAGT -GCCAATACAACTGTACCCGCCTGGATTACGACAGTGCGCTGAATATCCGCGAACTGAAAAAAGTCGCGCTGGAAA -AAGGTTGGGATGAATATAAGCAACGCTGGCACAAACCAGCCGGTTCTGGTTCACGCCATCCGGTTGCCGTGATTG -GTGCAGGTCCGGCGGGTCTGGCAGCAGGTTACTTCCTTGCCAGAGCGGGCCATCCGGTTACGCTGTTTGAACGCG -AAGCCAATGCGGGCGGCGTGGTGAAAAATATCATTCCTCAGTTCCGTATTCCTGCAGAGTTAATTCAGCACGATA -TCGATTTTGTTGCCGCTCACGGCGTGAAATTTGAGTATGGCTGCTCACCCGATTTAACCATTGAGCAGTTAAAAA -ATCAGGGCTTCCACTATGTTCTGATTGCCACCGGCACTGATAAAAATAGCGGTGTGAAACTGGCGGGCGACAACC -AAAATGTCTGGAAATCACTCCCCTTCCTGCGTGAATACAACAAGGGTACAGCGCTCAAGCTGGGCAAACATGTGG -TCGTTGTCGGGGCGGGTAACACCGCAATGGACTGCGCTCGTGCGGCGTTACGCGTTCCAGGCGTAGAAAAAGCAA -CGATCGTTTACCGTCGTTCACTACAAGAGATGCCCGCATGGCGCGAAGAGTATGAAGAAGCGTTGCACGACGGCG -TAGAGTTCCGTTTCCTGAATAATCCGGAACGTTTCGATGCTGATGGCACCTTAACCTTGCGCGTTATGTCGCTTG -GCGAACCGGATGAGAAAGGTCGTCGTCGTCCGGTTGAAACCAATGAAACAGTAACACTGCTTGTAGACAGCCTGA -TCACCGCCATTGGTGAACAGCAGGATACTGAAGCCCTGAATGCGATGGGCGTGCCGCTGGACAAAAACGGCTGGC -CAGACGTCGACCATAATGGCGAAACTCGTCTGACTGACGTCTTTATGATCGGCGACGTACAGCGCGGACCATCCT -CCATTGTCGCTGCTGTCGGAACCGCGCGTCGGGCGACCGATGCCATCCTTAGTCGGGAAAATATCCGTTCCCACC -AGAACGATAAATACTGGAACAACGTCAATCCAGCGGAAATCTATCAACGTAAAGGCGATATCTCTATCACGCTGG -TGAACAGTGACGATCGTGACGCGTTTGTCGCCCAGGAAGCCGCTCGCTGCCTCGAATGTAACTACGTTTGCAGCA -AGTGTGTGGATGTCTGCCCGAACCGCGCCAACGTCTCCATTGCGGTCCCAGGCTTCCAGAACCGTTTCCAGACGC -TGCACCTCGACGCTTACTGTAACGAATGCGGCAACTGCGCTCAGTTCTGTCCGTGGAACGGTAAACCGTACAAAG -ACAAAATCACCGTCTTCAGCCTGGCGCAAGACTTTGATAACAGCAGCAACCCAGGCTTCCTTGTGGAAGATTGCC -GGGTACGAGTACGTCTGAATAACCAAAGCTGGGTGTTAAACATCGACAGCAAAGGTCAGTTTAACAACGTACCAC -CGGAGCTGAACGATATGTGCCGCATCATCAGCCATGTCCACCAGCATCATCATTATCTGCTGGGCCGCGTGGAGG -TGTAATCATGTTGATTCTGAAGAATGTCACTGCGGTACAGCTACACCCGGCAAAAGTGCAGGAAGGCGTTGATAT -CGCCATCGAAAACGATGTGATTGTCGCTATCGGCGATGCCCTGACGCAACGCTACCCCGACGCCAGCTTCAAAGA -GATGCATGGCCGGATTGTGATGCCAGGGATTGTCTGCTCGCACAACCATTTTTACTCGGGGCTTTCCCGCGGAAT -TATGGCAAACATCGCCCCTTGCCCGGATTTCATCTCAACGCTGAAAAATCTCTGGTGGCGGCTCGATCGCGCCCT -TGATGAAGAGTCGCTCTATTACAGCGGACTGATTTGTTCCCTGGAAGCGATTAAGAGCGGATGTACATCGGTTAT -CGATCACCATGCCTCTCCGGCGTATATCGGCGGGTCGCTCTCCACATTGCGCGACGCATTTTTAAAAGTTGGCCT -GCGCGCGATGACCTGTTTTGAAACTACTGACCGTAACAACGGCATCAAAGAGTTGCAGGAAGGTGTAGAAGAAAA -CATCCGTTTCGCCCGTTTGATTGATGAGGCGAAGAAAGCGACAAGCGAGCCGTATCTGGTGGAAGCACATATCGG -TGCTCACGCGCCGTTTACCGTGCCGGATGCCGGTCTGGAGATGCTGCGTGAAGCCGTGAAAGCCACAGGCCGTGG -TTTGCATATTCACGCTGCGGAAGACCTTTACGACGTTTCCTACAGTCACCACTGGTACGGCAAAGACCTGCTGGC -ACGACTGGCGCAATTCGATCTCATCGACAGCAAAACGCTGGTCGCTCATGGGCTGTACTTGTCGAAAGATGACAT -CACCCTACTCAATCAGCGCGATGCGTTCCTGGTGCATAACGCCCGTTCAAACATGAACAACCATGTCGGCTACAA -CCATCACCTTAGCGACATCCGCAATCTGGCGTTGGGAACGGACGGCATTGGTTCGGACATGTTTGAAGAGATGAA -ATTTGCCTTCTTTAAACATCGCGATGCGGGTGGTCCGCTGTGGCCTGACAGTTTTGCCAAAGCCCTGACTAACGG -TAACGAACTGATGAGCCGCAACTTTGGCGCGAAATTTGGGCTTCTGGAAGCCGGTTACAAAGCTGATTTAACCAT -TTGCGATTACAACTCGCCGACGCCGCTGCTGGCAGACAATATCGCCGGGCATATCGCTTTCGGTATGGGCTCAGG -CAGCGTTCACAGCGTGATGGTCAATGGTGTGATGGTCTATGAAGACCGTCAGTTTAACTTCGATTGCGATTCCAT -TTATGCACAAGCCAGAAAAGCCGCTGCCAGTATGTGGCGTCGGATGGATGCGCTGGCATAAATGACAGATGCCCT -CTTCCCGCAGGGAAGAGGGTTAAATAAGGAAAGAAGATGATTGAACAATTTTTCAGGCCCGACTCTGTCGAACAG -GCGCTGGAACTGAAGCGCCGCTACCAGGATGAAGCCGTCTGGTTCGCCGGGGGCAGCAAACTCAATGCTACACCA -ACCCGTACCGATAAAAAGATTGCCATTTCCTTACAGGATCTGGAACTGGACTGGGTTGACTGGGATAACGGTGCA -CTGCGGATTGGCGCAATGTCTCGCTTGCAGCCACTGCGTGATGCGCGATTTATTCCTGCAGCGCTGCGTGAAGCC -CTCGGTTTTGTTTACTCACGCCATGTTCGTAATCAGTCGACCATTGGTGGTGAAATCGCCGCCCGCCAGGAAGAG -TCGGTGCTGCTTCCCGTCCTGTTGGCACTGGATGCTGAACTGGTTTTTGGCAACGGCGAAACGCTGTCAATCGAG -GACTACCTGGCCTGCCCATGCGATCGCCTGCTAACCGAAATTATCATTAAAGATCCGTATCGCACCTGTGCGACC -CGCAAAATTAGCCGTTCTCAGGCAGGTTTAACCGTCGTGACGGCAGCCGTTGCAATGACAGACCACGACGGTATG -CGAATTGCGCTGGATGGCGTCGCCAGTAAAGCACTGCGTCTGCATGATGTCGAAAAACAAAATCTGGAAGGCAAT -GCACTTGAACAGGCTGTCGCCAACGCCATTTTCCCGCAGGAAGATTTGCGGGGCAGCGTGGCCTATAAACGCTAT -ATCACGGGAGTTCTGGTAGCCGACCTGTATGCCGACTGCCAACAGGCTGGGGAGGAAGCCGTATGATCATCCACT -TTACTTTAAATGGCGCGCCTCAGGAGCTAACCGTTAATCCAGGCGAAAACGTGCAAAAGCTGTTGTTTAACATGG -GAATGCACTCTGTACGCAACAGTGATGATGGTTTCGGGTTTGCCGGTTCTGACGCAATAATCTTTAACGGTAATA -TCGTTAACGCGTCCTTGCTTATTGCCGCACAGTTAGAGAAGGCAGATATTCGTACCGCAGAATCTCTGGGCAAAT -GGAACGAGTTAAGTCTGGTTCAACAGGCAATGGTTGATGTTGGCGTGGTGCAGTCTGGTTATAACGATCCAGCTG -CAGCTCTGATTATCACCGATCTTCTCGATCGCATCGCCGCACCTACCCGCGAAGAGATCGACGACGCGCTTTCTG -GTTTGTTCAGCCGCGATGCTGGCTGGCAGCAATACTATCAGGTCATTGAACTGGCGGTTGCACGTAAAAATAATC -CGCAGGCCACCATTGATATCGCTCCGACTTTCCGTGACGACCTAGAAGTCATTGGTAAGCATTATCCTAAAACTG -ATGCCGCGAAAATGGTGCAGGCGAAACCCTGCTATGTTGAAGACCGCGTAACGGCTGACGCCTGCGTCATTAAAA -TGTTACGTAGCCCACACGCTCACGCACTGATTACTCATCTGGATGTCAGCAAAGCTGAAGCCTTACCGGGCGTCG -TTCACGTTATTACTCACCTGAATTGCCCGGATATCTACTATACCCCGGGTGGTCAGAGCGCACCGGAACCGTCAC -CGCTTGACCGCCGTATGTTCGGCAAGAAAATGCGTCACGTCGGCGATCGTGTTGCTGCGGTCGTCGCAGAAAGTG -AAGAAATTGCGCTCGAAGCACTGAAGCTCATCGACGTTGAATATGAAGTGCTTAAGCCGGTAATGTCGATCGACG -AAGCAATGGCGGAAGATGCGCCTGTCGTGCACGATGAACCGGTGGTGTATGTTGCTGGTGCGCCAGATACTCTGG -AAGACGATAACAGCCATGCAGCCCAGCGCGGCGAGCATATGATCATCAACTTCCCGATCGGTTCTCGCCCTCGCA -AAAATATCGCCGCCAGTATTCATGGTCATATTGGCGATATGGACAAAGGCTTTGCCGATGCCGATGTGATCATTG -AGCGAACCTATAACTCAACGCAAGCGCAGCAGTGCCCGACTGAAACACATATCTGCTTTACTCGTATGGACGGCG -ATCGTCTGGTTATCCACGCCTCCACCCAGGTACCATGGCACTTACGCCGCCAGGTCGCGCGCCTCGTGGGCATGA -AACAGCATAAAGTTCATGTCATTAAAGAGCGAGTTGGCGGCGGTTTTGGTTCCAAACAGGACATCCTGCTGGAAG -AAGTGTGCGCCTGGGCAACCTGCGTGACCGGGCGTCCGGTACTGTTCCGCTACACCCGTGAAGAAGAGTTTATTG -CTAACACCTCTCGTCACGTCGCGAAAGTCACCGTCAAACTGGGAGCGAAAAAAGATGGTCGCCTGACGGCAGTGA -AGATGGATTTCCGCGCCAACACTGGCCCTTACGGCAACCACTCACTCACCGTACCGTGTAACGGACCGGCGCTGT -CGCTGCCGTTATATCCGTGCGATAACGTCGATTTCCAGGTCACCACCTACTACAGCAACATTTGCCCAAATGGTG -CTTATCAGGGTTATGGCGCACCGAAAGGTAACTTCGCTATCACCATGGCATTAGCGGAACTGGCTGAACAGTTAC -AGATCGACCAACTGGAAATTATCGAACGTAACCGGGTACACGAAGGGCAAGAGCTGAAAATTCTCGGTGCAATCG -GTGAAGGTAAAGCGCCGACCTCCGTTCCTTCCGCCGCCAGCTGTGCACTGGAAGAGATCCTGCGTCAGGGTCGCG -AGATGATCCAATGGTCGTCACCGAAACCGCAAAATGGTGACTGGCACATCGGTCGCGGCGTCGCCATTATCATGC -AGAAATCGGGTATCCCGGATATCGATCAGGCTAACTGCATGATCAAACTGGAATCGGACGGCACCTTTATCGTTC -ATTCTGGCGGTGCGGATATTGGTACTGGTCTGGATACTGTAGTGACGAAACTGGCAGCAGAAGTGCTGCACTGCC -CACCGCAGGACGTGCATGTTATCTCCGGTGATACCGATCATGCGTTGTTTGATAAAGGCGCATATGCCTCGTCCG -GTACTTGCTTCTCGGGTAACGCGGCGCGTTTGGCAGCGGAAAATCTACGGGAGAAAATTCTGTTCCACGGCGCGC -AAATGTTGGGTGAGCCAGTGGCAGATGTTCAACTGGCAACGCCGGGCGTCGTGCGCGGCAAGAAAGGCGAAGTTA -GTTTCGGGGATATTGCCCATAAAGGCGAAACCGGCACCGGCTTTGGTTCACTGGTGGGAACTGGCAGTTATATCA -CGCCTGATTTCGCCTTCCCGTATGGCGCAAACTTCGCTGAAGTTGCCGTCAACACGCGTACGGGTGAAATCCGCC -TGGATAAATTCTACGCCTTGCTGGACTGCGGTACACCGGTCAATCCAGAGTTAGCGTTGGGACAAATCTACGGTG -CCACCCTGCGTGCTATCGGCCACAGTATGAGCGAAGAGATCATTTATGACGCCGAAGGTCACCCGTTAACGCGTG -ATTTACGCAGTTACGGCGCACCGAAAATTGGTGACATTCCGCGTGATTTCCGCGCTGTGCTGGTGCCGAGCGACG -ATAAAGTCGGCCCGTTCGGGGCGAAATCGATCTCGGAAATCGGTGTAAATGGCGCAGCTCCGGCGATTGCTACCG -CAATTCACGATGCATGCGGCATCTGGTTACGCGAATGGCATTTCACACCGGAGAAAATACTCACTGCGCTGGAAA -AAATATAAATAATAAATGGCCGCTTCGGCGGCCTGTTTCTCTGTTTGAACGATGACTAAATAGTGACTGCGAAAA -TGAGATAAGCCGTTCTCAAGGCGTCCTGCGCCCCAAATTCGTGGGAATTTATTTTACTAATTCAGATGATCAAAT -TTACTTTAAAAGGAGTGAAGGGATGTCTGATATAAACCATGCAGGTTCTGACCTTATATTTGAACTGGAGGATCG -CCCTCCCTTTCATCAGGCTCTCGTTGGTGCCATTACCCATCTGTTGGCAATTTTCGTTCCGATGGTAACCCCCGC -GTTAATCGTGGGTGCGGCCTTACAGCTTTCCGCTGAAACAACTGCCTATCTTGTTTCTATGGCGATGATCGCCTC -TGGTATTGGTACCTGGTTACAAGTAAACCGCTACGGCATCGTCGGTTCTGGCCTACTCTCAATTCAGTCAGTCAA -TTTTTCATTTGTTACGGTCATGATTGCGCTGGGCAGCAGCATGAAAAGCGACGGTTTTCACGAAGAGTTAATCAT -GTCGTCGCTTCTCGGCGTCTCCTTCGTTGGCGCATTTCTGGTTGTCGGATCTTCATTTATCTTGCCCTATTTACG -TCGGGTTATTACGCCTACCGTCAGCGGTATTGTGGTACTGATGATCGGCTTAAGCCTGATTAAAGTCGGCATTAT -CGATTTTGGTGGAGGATTTGCAGCCAAAAGCAGCGGTACGTTCGGCAATTACGAACATCTCGGCGTTGGTTTATT -GGTTTTAATTGTGGTGATCGGCTTTAACTGCTGTCGCAGTCCGTTGCTACGCATGGGAGGGATCGCCATTGGGCT -ATGTGTCGGCTATATCGCATCGTTATGCCTGGGCATGGTGGATTTCAGCAGTATGCGCAATTTGCCGTTAATCAC -CATCCCGCATCCGTTCAAATACGGCTTTAGTTTTAGCTTCCATCAGTTCCTGGTGGTTGGCACGATTTATCTGCT -TAGCGTGCTGGAAGCAGTCGGCGATATCACCGCCACGGCAATGGTTTCCCGCCGCCCCATTCAGGGGGAAGAGTA -TCAGTCCCGGCTGAAAGGCGGCGTGCTGGCAGATGGTCTGGTTTCTGTTATCGCCTCCGCTGTCGGTTCATTACC -ATTAACCACGTTTGCGCAAAATAATGGGGTTATTCAGATGACTGGCGTCGCTTCACGTTATGTCGGGCGAACCAT -CGCGGTAATGCTGGTTATCCTCGGCTTATTTCCGATGATTGGCGGCTTCTTCACGACCATTCCCTCGGCAGTTCT -GGGAGGCGCAATGACGTTGATGTTTTCCATGATTGCCATCGCAGGGATTCGCATCATCATCACCAACGGTTTAAA -GCGCCGTGAAACACTTATTGTCGCCACTTCTTTAGGTTTAGGGCTTGGCGTCTCCTACGATCCCGAAATTTTTAA -AATATTGCCAGCCTCTATTTATGTATTAGTTGAAAACCCTATTTGTGCTGGCGGGTTAACTGCGATTTTATTAAA -TATTATCCTCCCTGGTGGCTACCGACAGGAAAACGTTCTGCCTGGTATTACCTCAGCGGAAGAGATGGATTAACA -GTAAAGGAGTCAATGATGTCAGGAGAACACACGTTAAAAGCGGTACGAGGCAGTTTTATTGATGTCACCCGTACG -ATCGATAACCCGGAAGAGATTGCCTCTGCGCTGCGGTTTATTGAGGATGGTTTATTACTCATTAAACAGGGAAAA -GTGGAATGGTTTGGCGAATGGGAAAACGGAAAGCATCAAATTCCTGACACCATTCGCGTGCGCGACTATCGCGGC -AAACTGATAGTACCGGGCTTTGTCGATACACATATCCATTATCCGCAAAGTGAAATGGTGGGGGCCTATGGTGAG -CAATTGCTGGAGTGGTTGAATAAACACACCTTCCCTACTGAACGTCGTTATGAGGATTTAGAGTACGCCCGCGAA -ATGTCGGCGTTCTTCATCAAGCAGCTTTTACGTAACGGAACCACCACGGCGCTGGTGTTTGGCACTGTTCATCCG -CAATCTGTTGATGCGCTGTTTGAAGCCGCCAGTCATATCAATATGCGTATGATTGCCGGTAAGGTGATGATGGAC -CGCAACGCACCGGATTATCTGCTCGACACTGCCGAAAGCAGCTATCACCAAAGCAAAGAACTGATCGAACGCTGG -CACAAAAATGGTCGTCTGCTATATGCGATTACGCCACGCTTCGCCCCGACCTCATCTCCTGAACAGATGGCGATG -GCGCAACGCCTGAAAGAAGAATATCCGGATACGTGGGTACATACCCATCTCTGTGAAAACAAAGATGAAATTGCC -TGGGTGAAATCGCTTTATCCTGACCATGATGGTTATCTGGATGTTTACCATCAGTACGGCCTGACCGGTAAAAAC -TGTGTCTTTGCTCACTGCGTCCATCTCGAAGAAAAAGAGTGGGATCGTCTCAGCGAAACCAAATCCAGCATTGCT -TTCTGTCCGACCTCCAACCTTTACCTCGGCAGCGGCTTATTCAACTTGAAAAAAGCATGGCAGAAGAAAGTTAAA -GTGGGCATGGGAACGGATATCGGTGCCGGAACCACTTTCAACATGCTGCAAACGCTGAACGAAGCCTACAAAGTA -TTGCAATTACAAGGCTATCGCCTCTCGGCATATGAAGCGTTTTACCTGGCCACGCTCGGCGGAGCGAAATCTCTG -GGCCTTGACGATTTGATTGGCAACTTTTTACCTGGCAAAGAGGCTGATTTCGTGGTGATGGAACCCACCGCCACT -CCGCTACAGCAGCTGCGCTATGACAACTCTGTTTCTTTAGTCGACAAATTGTTCGTGATGATGACGTTGGGCGAT -GACCGTTCGATCTACCGCACCTACGTTGATGGTCGTCTGGTGTACGAACGCAACTAATAATAAAACTTTAACATC -CTCGTGAGGACATCATTATGTCTGGAGACATCCTACAAACACCGGACGCACCAAAGCCACAGGGCGCGCTGGATA -ATTATTTTAAAATTACCGCTCGTGGCAGTACCGTTCGTCAGGAAGTACTGGCTGGCTTAACGACCTTTCTGGCCA -TGGTTTATTCCGTTATCGTCGTTCCGGGAATGCTGGGCAAAGCAGGTTTTCCTCCCGCAGCTGTGTTTGTTGCCA -CCTGTCTGGTCGCGGGCTTCGGCTCGTTGCTGATGGGATTATGGGCTAATTTGCCAATGGCGATTGGTTGCGCGA -TTTCCTTGACGGCGTTTACCGCATTCAGTCTGGTACTCGGGCAACAAATTAGCGTTCCTGTCGCACTGGGCGCGG -TATTTCTGATGGGCGTCATCTTCACCGCCATTTCCGTAACCGGTGTGCGTACCTGGATCTTACGTAATTTGCCGA -TGGGTATCGCTCACGGTACAGGTATCGGTATCGGGCTGTTTCTGCTGCTGATTGCTGCTAACGGTGTGGGTATGG -TTATCAAAAACCCGATTGAAGGCTTGCCAGTGGCGCTCGGTGCGTTTACCTCCTTCCCGGTGATGATGAGCTTGC -TGGGGCTGGCGGTCATCTTCGGCCTGGAGAAGTGTCGCGTACCCGGCGGGATCTTGTTGGTGATTATTGCAATTT -CGATCATCGGCTTAATCTTTGACCCAGCGGTGAAATACCACGGTCTGGTGGCGATGCCAAGCCTGACTGGCGAAG -ATGGTAAGTCTCTGATTTTCAGCCTCGATATTATGGGTGCACTCCAGCCAACTGTACTTCCGAGTGTACTGGCAT -TGGTGATGACCGCAGTGTTCGACGCTACTGGCACCATCCGTGCCGTCGCCGGTCAGGCGAATTTGTTGGATAAAG -ACAACCAGATCATCAACGGCGGCAAAGCCCTGACCAGTGACTCAGTAAGTTCAATATTCTCCGGCCTGGTGGGCG -CAGCGCCCGCAGCGGTTTATATCGAATCAGCGGCAGGAACCGCCGCCGGGGGTAAAACAGGTTTAACCGCAACCG -TAGTGGGGGCGTTATTCCTGTTAATTCTGTTTTTATCACCGCTGTCATTTTTGATCCCTGGTTACGCCACTGCAC -CCGCTCTGATGTACGTAGGTTTGCTGATGTTAAGTAACGTCTCGAAGCTGGATTTCAATGATTTTATTGACGCTA -TGGCTGGCCTGGTGTGTGCCGTGTTCATCGTTCTGACTTGTAATATCGTTACCGGTATTATGCTGGGCTTTGTGA -CACTGGTCGTAGGCCGCGTCTTTGCACGCGAATGGCAAAAGCTGAATATTGGTACGGTGATCATTACTGCCGCAC -TGGTCGCATTTTACGCGGGTGGTTGGGCAATCTAATAGATTCTCCGCGCCTTTCAGCGCGGAGATTTCTTTCAGA -GAGGATTCTCACCGCTGGCAACAATACGCTGCTGGCGGACTCGCCTGAGTTCTCTTTCAGTAAGCAACTGCAGCG -CCTGTGTTGGGCAAGATTCAACGCAGGCTGGCCCCTCTTCCCGCTGTTCACAGAGATCGCATTTCACAATTTGTT -GTCGGGTATCCCCCGGCAACGACTGAATGGTGATCATTCCAAACGGGCACGCACTGACGCAACTCTGACAGCCAA -TACAACGGGCAGAATTGGTCTGCACCACCTGCTCGCCCATCGTCAGCGCCCCCACGGGGCAAGCGCCAACACAAG -GGGCGTTTTCACACTGATGGCACATCACCGGCGCACTGATGCTGTCCAGTCGCTGTACCTTCAGCCGGGGTAAAA -AGACATCGGCATTCAACTCCTGTTCTGAAGGGTGAGCGACCACACAGGCTACTTCACAAGTACGGCAGCCAATAC -AGTCAGCCGGATTAACGATAATTAACGATTTCATCACGATGCCTTCGTATCAAACAGAGTTAACATATCGCGCGC -CGCCTGCCTTCCTGCGGCCATTGCAGTGACAACCAGATCCGCGCCATGAACTGCATCACCACCAGCAAAGACTTT -TTTCAGATGCGTCTGGGTAGGTAAATACCCGACGTCACCGGTTTGAATCAGGCCCCATTTATCGAGTTTAATTCC -GCTGCCCTGCAACCACGGCATGGCATGCGCCTGGAAACCAAAGGCCATAATCAGAACATCGGCGGGCAATTCAAA -CTCTGAACCCGCTACCGGACGAGGACGACGGCGACCATCCGGCCCCGGCTCACCCATGGCGGTACGAATCAGGCC -CACCGCAGTTAAACGCCCATCTTCGTCACAAGCGATATATTGCGGTTGAACATTGAACTGAAACTCGACACCTTC -CTCGCGCGCATTAACCACCTCTTTGCGCGAGCCCGGCATACTGACTTCATCACGACGATACGCGCAGGTCACGCT -GGCGGCATTGAGGCGGATGGAAGTCCGCAAACAATCCATTGTCGTATCGCCACCGCCCAATACCACGACTCGCTT -ACCTTCCACGTCCGTCAGCGGATACTCTTCAGACTCCGGCAATCCCATGAGCTGGCGGGTATGGGCAGTCAGGAA -CGGTAGAGCCTGAATGACACCGGGCGCATCTTCATGCGGCAGATCTGCTCGCATCATCCCGTAAGTCCCCACGCC -GATGAAAACTGCATCATATTCAGAAGTTAAATCGCTAAAGGTAATATCGCGGCCAATTTCACAGTTAAGATGAAA -GTCGATTCCCATTGCGGTGAATATCTCTCGCCGCTGGCTTAATACCGTTTTATCGAGTTTGAAAGGAGGAATGCC -AAAAGTCAGCATACCGCCAATTTCTGGATGGCGATCAAAGACATCGACCTGAACTCCTGCGCGCGCCAGAATATC -AGCACACCCTAACCCTGCAGGCCCAGCGCCAATCACCGCCACTTTTTCGCTACGGGGAACAACTTTGCTGACATC -GGGACGCCAGCCCATCGCCAGCGCGGTATCGGTGATGTAGCGTTCCAGATTACCGATAGAGACTGCGCCCGAGTG -ATCTTTCAAAGTACATGCGCCTTCACAAAGACGGTCCTGTGGACATACCCTGCCGCAAATTTCTGGTAAGGAACT -GGTCTGGTGGCAAAGTTCTGCCGCTTCAATAATCTTTCCTTCCTGTACCAGACGGATGTAATCCGGAATAGCGTT -ATGCAGCGGGCAATGCCAGTTGCAGTTAGCTTTTTCGGCACAATAAACACAGCGGTCACTCTCATAAGTCGCTTG -TTGTGGATCCAGCCCGCAATATATTTCGCCAAAGTGGGTTTTCCGTTCACTCGCTGAAATTTTATCTGCGCCTTT -ACGCGAGTTAACGGGGAGCAACGCTGCACTGCGAGATGGCTGAGCGTCTGATGACGCTTTTCCTGCTGCCGTTTT -GCGCTGGCGGGCCACCTTTATCTGCTGCAACCCTTTATCGTCCATCAGTCGTAACGCCTGTGTTGGGCAAACTTC -AATACAGGCTTGCGTGCCGGAACTGCGCTGGTTACAAAGGTCGCATTTCTGCGCAATCGTATCGACCATCTCAAC -GACGCCAAAGGGGCAAGCGATTGCGCATCTTTTACAACCAATACATTTTTGCTCGTCCAGTTGTACGCTATCGGA -CTGGAAAGTCAGAGCATTAACCGGACAAGCCGTAACGCAAGGGGCATTGTTGCAGTGATGGCAGGCCACCGGATT -CGCAGCCTGGCCTTTCCCTACAACGTGGATACGCGGTCGAAAGTCACTGTGACTCAGCGGCCAGTTTTCTTGATT -GTGTGCCACCGCACAGGCAATTTCACAAGCATGACAGCCTATACATTCCGCAGCTTCAGCAGCAATAAACTTATT -CATTTGCATCCCTTTCATTTAATGAGTTATGTCTTCTCAAATTTCGCGATGCAATAAACGGGCATATATTAGGTA -GCATGACCGTTTTAATTATAATTTTGCGACTGAGTTCAAATTATTGCCCCTCAATCTATGCCGCTTTCATTATTT -CAACATTGCCGATCAAAAGAGCGCTATCCAGATAAAAACGATTAAATGCGAGAGTGCGACATGCCAGAATGATTA -ATGAAATATCAATATGAGAAAATTACAGATAATTCCATTGTCAGGTTCTCTTCTCATTTTCGTGGTTTAACCACG -ATTATGTGATTGCCTCCGCAATTCCTGTCTCTAACTCCCCTTCCTCGCAAAAACTGGCACTCCACGAGCATGTGT -TTAGACAGTTTCATTAACGTAAACGGTTGCTTTTTACTCTGGCGGGCGAAAGGAGAAACACTGATGAGCGCCATA -GATTCCCAACTTCCCTCATCTTCTGGGCAAGACCGCCCAACTGATGAGGTTGACCGCATATTATCACCAGGAAAG -CTGATCATACTCGGTCTGCAACACGTCCTTGTCATGTACGCAGGTGCAGTCGCTGTTCCTCTTATGATTGGTGAC -CGACTGGGCCTCTCAAAAGAAGCTATTGCGATGCTCATTAGCTCGGATCTCTTTTGCTGCGGGATCGTCACATTA -TTGCAATGTATCGGTATCGGCCGCTTTATGGGGATCCGCCTGCCGGTGATTATGTCGGTGACCTTTGCTGCTGTA -ACACCAATGATAGCCATTGGGATGAACCCGGATATCGGCCTGCTGGGGATATTTGGTGCCACTATCGCCGCGGGT -TTTATCACCACATTATTAGCGCCACTTATCGGTCGCTTGATGCCTTTATTCCCGCCACTGGTTACCGGTGTGGTT -ATTACTTCTATCGGGCTTAGCATCATTCAGGTGGGTATTGACTGGGCCGCCGGAGGTAAAGGGAATCCGCAATAT -GGTAATCCCGTTTATTTAGGTATCTCCTTTGCCGTCTTAATTTTTATCTTGCTCATTACTCGCTATGCGAAAGGA -TTTATGTCCAACGTCGCCGTATTACTGGGGATTGTATTTGGCTTTTTACTTTCGTGGATGATGAATGAAGTCAAT -TTATCCGGGCTACATGATGCTTCATGGTTTGCGATTGTTACGCCGATGTCGTTTGGTATGCCGATTTTCGATCCC -GTTTCCATTCTGACCATGACTGCCGTGTTAATCATCGTGTTTATCGAGTCAATGGGGATGTTCCTGGCACTGGGT -GAAATAGTCGGTCGTAAACTCTCTTCGCACGATATTATTCGCGGGCTGCGTGTCGATGGCGTAGGGACAATGATA -GGCGGCACGTTTAACAGCTTCCCCCACACGTCATTTTCTCAAAACGTTGGCCTGGTTAGCGTGACGCGCGTTCAT -AGCCGCTGGGTGTGTATTTCTTCGGGAATTATATTAATCCTGTTTGGCATGGTGCCAAAAATGGCGGTGCTGGTA -GCCTCCATTCCGCAATTTGTGCTGGGCGGCGCTGGTCTAGTGATGTTCGGCATGGTACTGGCGACAGGGATTCGA -ATTCTGTCGCGCTGTAACTACACCACCAACCGTTACAACCTCTATATTGTGGCGATCAGTCTCGGCGTTGGCATG -ACTCCGACGCTCTCTCACGATTTCTTTTCTAAGTTACCGGCCGTACTGCAACCGCTGCTACATAGCGGCATTATG -CTCGCAACCCTTAGCGCCGTTGTGCTGAACGTCTTCTTTAATGGCTATCAGCATCATGCTGACCTGGTGAAGGAA -TCCGTCTCTGATAAAGATTTAAAAGTCAGGACAGTACGTATGTGGCTTCTGATGCGCAAGCTGAAGAAAAATGAG -CATGGAGAATAATATGAATTTTTTAATGCGCGCTATATTCAGTCTGTTGTTGCTTTTTACTCTCTCTATTCCTGT -CATTTCTGACTGTGTTGCAATGGCCATTGAAAGTCGCTTCAAATATATGATGCTACTTTTTTAAATGGTTTTTAC -CTGTCGGCATCCGCTCAAAACGGGCGGTTGTCGATAAACGCTCACTTGGTTAATCATTTCACTCTTCAATTATCT -ATAATGATGAGTGATCAGAATTACATGTGAGAAATTATGCAAACGGAACACGTCATTTTATTGAATGCACAGGGA -GTTCCCACGGGTACGCTGGAAAAGTATGCCGCACACACGGCAGACACCCGCTTACATCTCGCGTTCTCCAGTTGG -CTGTTTAATGCCAAAGGACAATTATTAGTTACCCGCCGCGCACTGAGCAAAAAAGCATGGCCTGGCGTGTGGACT -AACTCGGTTTGTGGGCACCCACAACTGGGAGAAAGCAACGAAGACGCAGTGATCCGCCGTTGCCGTTATGAGCTT -GGCGTGGAAATTACGCCTCCTGAATCTATCTATCCTGACTTTCGCTACCGCGCCACCGATCCGAGTGGCATTGTG -GAAAATGAAGTGTGTCCGGTATTTGCCGCACGCACCACTAGTGCGTTACAGATCAATGATGATGAAGTGATGGAT -TATCAATGGTGTGATTTAGCAGATGTATTACACGGTATTGATGCCACGCCGTGGGCGTTCAGTCCGTGGATGGTG -ATGCAGGCGACAAATCGCGAAGCCAGAAAACGATTATCTGCATTTACCCAGCTTAAATAAAAAAACCCCGACATT -TGCCGGGGTTGTGAGCATAACGTAATGCTTATTTTACCGGACGCATCGCCGGGAACAGAATAACGTCGCGGATGG -TATGGCTGTTGGTGAACAGCATTACCATACGGTCGATACCAATTCCCAGACCTGCTGTCGGCGGTAAGCCATGTT -CCAGTGCGGTGACGTAATCTTCATCGTAGAACATCGCTTCGTCGTCACCTGCGTCTTTCGCGGCAACCTGATCCA -GGAAGCGTTGCGCCTGATCTTCCGCGTCATTCAGCTCGCTAAAGCCGTTACCGATTTCACGACCACCAATGAAGA -ACTCAAAGCGGTCTGTGATTTCCGGGTTAACGTCGTTACGACGCGCCAGCGGAGAAACTTCTGCCGGATATTCAG -TAATGAAGGTCGGCTGAATCAGATGTGCTTCTGCCACTTCTTCGAAGATCTCGGTAACGATACGGCCCAGACCCC -AGCTCTTCTCAACGTGGATGCCGATAGATTCAGCAATTGCTTTCGCAGAGTCGAAGTTGTCCAGATCCGCCATGT -CGGTTTCCGGGCGATATTTCTTGATCGCTTCACGCATGGTCAGTTTTTCGAACGGTTTACCGAAGTCCAGCGTCA -CGTCGCCGTAGGTCACTTCCGTCTTACCGAGAATATCCTGTGCCAGAGTACGGAACAGCGATTCGGTCAGCTCGA -TCAGATCTTTGTAATCTGCGTAAGCCATGTAGAGTTCCATCATGGTGAACTCTGGGTTATGACGTACGGAAATAC -CTTCGTTACGGAAGTTACGGTTGATTTCGAATACACGCTCGAAGCCACCAACCACCAGACGCTTGAGGTACAGTT -CCGGCGCGATACGCAGGTACATGTCGAGATCCAGCGCGTTATGGTGGGTGATAAACGGACGCGCAGCGGCACCGC -CAGGGATCACCTGCATCATCGGCGTTTCAACTTCCATAAAGCCGCGGTTCACCATGAACTGGCGAATACCAGAGA -GGATCTGCGAGCGCACTTTAAAGGTGTTGCGGGATTCATCGTTGGAGATGAGATCGAGATAACGCTGACGATAGC -GCGCTTCCTGATCCTGCAAGCCGTGGAATTTATCCGGCAGCGGACGCAGTGCTTTGGTCAGCAGACGCAACTCGG -TGCAGTGGATAGACAGTTCGCCGGTTTTGGTTTTGAACAGCTTACCTTTCGCGCCGAGGATGTCGCCGAGGTCCC -ATTTTTTGAACTGCTCGTTATAAACGCCTTCCGGGAGATCGTCACGGGCAACGTACAGCTGAATGCGACCGCCAA -CGTCCTGCAGGGTAACGAAAGACGCTTTACCCATAATACGACGGGTCATCATGCGGCCAGCAACGGCGACTTCGA -TGTTCAGCGCTTCCAGTTCTTCGTTCTCTTTGCCGTCGAATTCTGCGTGCAATTGGTCAGAGGTATGATCGCGAC -GGAAATCGTTCGGGAAGGCAATCCCCTGCTCGCGCAGGTTCGCCAGCTTCTCACGACGCGTTTTCAGTTCATTGT -TAAGATCGACTACCGCGTCAGCGCCCTGTGCGTGTTGTTCAGACATGTTGGTTCCTCATAACCCTGCTTTCAAAC -TTGCTTCGATAAATTGATCCAGGCTGCCGTCCAGCACGGCCTGCGTGTTGCGGGTTTCTACCCCGGTGCGCAGAT -CTTTAATGCGGGAGTCATCAAGGACATAAGAACGAATCTGGCTGCCCCAGCCGATGTCGGATTTGTTATCTTCCA -TCGCCTGTTTCTCGGCATTTTTCTTCTGCATCTCCAGTTCATAAAGCTTCGCTTTCATCTGCTTCATGGCCTGAT -CTTTGTTCTTGTGCTGGGAACGGTCGTTCTGGCACTGGGTCACGATCCCGGTCGGGATGTGGGTAATACGCACCG -CAGATTCGGTACGGTTAACGTGCTGACCGCCCGCGCCGGACGTGCGATAAACGTCAATGCGCAGATCCGCCGGGT -TGATTTCGATATCAATATCATCATCAACTTCCGGATAAACAAACGCGGAGCTGAACGACGTGTGGCGACGACCGC -CGGAGTCAAACGGGCTTTTACGCACCAGGCGGTGAACGCCGGTTTCTGTACGCAGCCAGCCGTAAGCGTAATCGC -CGGAGATTTTGATCGTCACGGATTTAATACCCGCCACTTCACCTTCCGACTCTTCGATGATTTCAGTTTTGAAAC -CACGCGATTCTGCCCAGCGCAGATACATACGCTCAAGCATGCTCGCCCAGTCCTGTGCTTCCGTACCGCCAGACC -CCGCCTGAATATCGAGGTAGCAGTCGGCGCTGTCATATTCGCCAGAGAACATACGGCGGAACTCAAGCTGCGCCA -GTTTTTCTTCCAGGGCGTCGAGTTCAGCAACGGCTTCGTTAAAGGTTTCTTCGTCGTCAGCTTCTACAGCCAGTT -CCAGCAGACCAGAAACATCTTCCAGCCCCTGTTTCATTTGGTCGAGGGTGTCGACAACGGCTTCGAGGGAGGAAC -GCTCTTTACCCAGCGCCTGTGCGCGTTCGGGTTCGTTCCAGACATCCGGCTGTTCCAGCTCGGCGTTTACTTCTT -CCAGACGCTCTTTCTTGGCGTCGTAGTCAAAGATACCCCCTAAGAACGTCGGAGCGTTCCGTGAGGTCCTGAATG -CGATTATTTACCGGATTAATTTCAAACATGGTCTGATTTCTTTTATTGAGCTAGTCAAAATGCGGTGATAAGAGC -GGGATTGTACCCAATCCACGCTCTTTTTTATAGAGAAGATGACGCTAAATTGGCCAGATATTGTCGATGATAATT -TGCAGGCTGCGGTTGCCGCGAAACTCGTTGATATCGAGCTTATAAGCCAGTTGCACTTCGCGCACGCCGTTATCC -GGCCAGAGGGCGGTATCGACATTAAAAGCAATACCATCCAGCAGTGGACCGCCGCCGACCGGTTCGACCATCACC -TTCAAATGACGTTCGCCCACCAGCCGCTGTTGCAGCAGACGGAAATGACCGTCAAACAGCGGCTCCGGGAACATC -TGCCCCCACGGGCCAGCATCGCGCAGCAGCTGCGCCACTTCCATGGTCATTTCGGCCGGGCTTAACGGACCGTCT -GATACCACTTCGCCTTGCAATAGCGAAGGGTCCAGCCACTCAGTAACCAGTTCGCCAAACCGTTGTTGAAAGAGT -TTGAATTTATCCTCTTCCAGCGACAAACCCGCCGCCATCGCATGACCGCCAAACTTCAGCATCATGCCAGGGTAG -AGTGTGTCTAATCGCTCCAGCGCATCACGCATATGCAGCCCCTGAATGGAGCGACCGGAACCTTTCAGCGTACCG -TCACCTGCTGGCGCAAACGCGATAACCGGACGGTGAAAACGCTCTTTGATGCGCGAAGCCAGAATACCGACAACG -CCCTGATGCCATTCGGGGTGATACATTGCCAGCCCGCCGGGTAGCGTGTCACGGCTGCGCTCCAGTTTCTCGCAC -AGGGTCAGGGCTTCAATTTGCATTCCTTGTTCGATCTCTTTTCGCGTCTGGTTTAGCGCATCGAGTTCATTTGCC -AGCACGCGCGCTTCGCCGATGTTGTCGCACAACAACAGCGCCACACCGACGGACATATCGTCCAGTCGTCCGGCA -GCATTGAGACGTGGCCCCAGCGCAAAACCTAAATCGCTGGCGGCGAGTTTTTGTGCATCACGGTTTGCCACTTCA -AGCAGCGCTTTAATCCCCGGACGGCACTTTCCGGCTCGGATGCGACTCATCCCCTGCCAGGTCAGAATGCGATTA -TTAGCGTCCAGCGGCACGACGTCCGCCACTGTCCCCAGCGCGACCAGATCCAGCAGTTCTGCCAGGTTAGGAATT -GCGATGTTACGCTCATCAAACCAGCCCTGATCGCGCAAAAAGGTGCGCAGCGCCAGCATCAGATAAAACGCCACA -CCCACGCCTGCCAGTGATTTCGACGGGAAATTACAGTCGCGCAAGTTAGGGTTAATGATCGCTTCCGCTGCGGGT -AATGTGTCGCCTGGCAAATGGTGATCGGTAACAATAACCGGGATGCCCAACGAGCGAGCGTGCTCAACCCCCGCA -TGGGAGGAAATACCGTTATCCACCGTGACAATTAACTGCGCGCCACGGGCATGGGCCTGATCGACCACTTCCGGG -CTTAAGCCGTAACCGTCTTCGAAACGGTTTGGTACCAGGTAGTCGATATTGCTGCAACCAAGCGAGCGCATCGCC -AGCACGCTTAGAGCCGTGCTGGTCGCGCCGTCGGCGTCGAAATCACCGACCACAATAATCCGCGTTCCTTCGCGA -AAAGCGTTGTAAAGGATCTCAACGGCCTTTTCGACGCCGCTCAGTTGCTGCCAGGGCAGCATACCTTTAACACTG -CGTTCCAGTTCTTGCGCACTGCGTACTCCCCGGCTGGCGTATAAACGGCGCAGCAAGGGAGGCAATTCAGCGGGC -AAGTCTGCCGTTTCATCGACTTCACGGCGACGAAGTTGTATCTGTTGTTTCACGCGAATTATTTACCGCTGGTCA -TTTTTTGGTGTTCGTCGAGGAATTCTTTCATCTCTTTCGGCGGCTGGTAACCCGGAACAAGTGTGCCATTGCTCA -GCACAACTGCCGGAGTACCGCTAACGCCAAGCTGGACGCCAAGTGCGTAATGGTCGGCAATATCCACGTCGCAAC -TGGCTGGTGCGACGCTTTTACCTGCCATCACATCATCAAACGCTTTGTTTTTATCTTTCGCACACCAGATAGCTT -TCATTTCTTTCTCTGCATCGCTGTCCAGCCCCTGGCGCGGGAAAGCAAGATAACGCACGGTGATCCCCAGCGCGT -TGTAGTCTGCCATTTGCTCATGCAGTTTGTGGCAGTAACCACAGGTAATATCAGTAAACACGGTGATGACGTGTT -TTTCCTGCGGCGCTTTATAAACGATCATCTCTTTTTCAAGCGCATTCAACTGCTTTAACAGCATCTTATTGGTGA -CATTGACCGGAGCCGTGCCACTAACGTCATACATTGGCCCCTGAATGATATGTTTACCATCATCGGTGATGTACA -ACACGCCGCTGTTAGTCAGAACTGTCTTCATGCCAGCTACAGGCGCGGGCTGAATATCGCTGCTTTTGATGCCCA -TTTTGGCTAACGTTTGTTGAATTGCCGCGTCATCAGCCTGAGCAAAGCCTGAAAACGCCGCTAACAAAGTAAACA -ACATAAAACCTTTCTTCATAAATCTTCCCGTTCTTTTCAGACATCACGCCCGCGGGTGATGCTGTTGATGAAGTT -GCCGCAGACGCTCGGTAGCGACATGCGTATAAATTTGCGTGGTGGAGAGATCGCTGTGGCCCAGTAGCATCTGCA -CCACGCGTAAATCCGCACCATGATTTAATAAATGAGTGGCAAAAGCGTGACGCAACACATGCGGTGACAGCTTTT -CGCTGTCGATACCCGCCAGCACAGCATAATGTTTAATACGGTGCCAGAAGGTCTGTCGCGTCATCTGCTGCGCAC -GCTGGCTGGGAAACAACACGTCAATTGACACACCATTCAGCAGCCACGGACGCCCATGTTCCAGATAGGTTTCCA -GCCAGTAAACCGCCTCTTCACCTAACGGCACCAGACGCTCTTTGTTGCCTTTACCAATGACCCGTACCACGCCCT -GACGCAGGCTGATATCACTCATTGTCAGTCCGACCAGTTCAGAGACACGCAGCCCGGTAGCATACAACACTTCAA -GCATGGCTTTATCGCGTAGCTCCAGTGGCTGATCGATTAATGGTGCCTGTAATAAACGTTCGACCTGCGCTTCGC -TTAAATCTTTTGGCAAACGCTGGGGCAATTTCGGTGAAGCGAGATGCGCACTGGGATCGTCTTCACGAAACTTTT -CGCGATAAAGATACTGGAACAATCGGCGCACTGCACTCAGCAAACGCGCTGAGCTGGTGGCTTTATACCCGCCCT -CCAGCCGTTCTGCCAGTAATGCCTGCAAATCGTCACTTTGCGCCGTCGCCAGCGTCAACCCGCGGTGATGCAACC -ACTCCACCATCATTGACAGATCGCGACGGTAAGCGTTCAACGTATTTTCAGCCAGATTTTTTTCCAGCCACAGAG -CATCAAGAAACTGCTCGATGCGTGCCAGATCCTGTTTCACTTGCGCCCCTTATGGTCACTCATTTGATCCATTAT -GCCTTATTGTGCCGTGACTAAAGCGATTCTGATACACTAGCCGCAAAAGCCACAGCAGAATCGAGAAGCTTACGT -TATGAATATGGGTCTTTTTTACGGTTCCAGCACCTGTTACACCGAAATGGCGGCAGAAAAAATCCGCGATATTAT -CGGCCCAGAACTGGTGACCTTACATAACCTCAAGGACGACTCCCCGAAATTAATGGAGCAGTACGATGTGCTCAT -TCTGGGTATCCCGACCTGGGATTTTGGTGAAATCCAGGAAGACTGGGAAGCCGTCTGGGATCAGCTCGACGACCT -GAACCTTGAAGGTAAAATTGTTGCGCTGTATGGGCTTGGCGATCAACTGGGATACGGCGAGTGGTTCCTCGATGC -GCTCGGTATGCTGCATGACAAACTCTCGACCAAAGGCGTGAAGTTCGTCGGCTACTGGCCAACGGAAGGATATGA -ATTTACCAGCCCGAAACCGGTGATTGCTGACGGGCAACTGTTCGTGGGTCTGGCGCTGGATGAAACTAACCAGTA -TGACCTTAGCGACGAGCGTATTCAGAGCTGGTGCGAGCAAATCCTCAACGAAATGGCAGAGCATTACGCCTGATC -TCACTGACGGCTTAGCGCATATGCTTTGCCGTCATCTTTATCTTTGCGTCTCTTGTTGCAACAAAATCCGCCGTA -AATCCCGCCATTCAGCTTCGTCCATGCTGTCGGCTGCCAGCCATAAATGTTGCCGTTTACCGCCATCAGAACGTA -AACGCAGCATCATGCCGCTCTTAATCATCCACGGTGCTTTGACGATGCTCCACTCCTGCCCTTGCCAACGCAAAC -GCCCGTCCATCAACAAGCGAATTTCCCCCTGGCGAGCATTAATACGCCGCTGGCTGCGAACGCAATCAAACACCA -CCAGCGAAAGTAACACCATCCATAACGGGGTGTAACTGAGTGGCCAGGGCATGAGTAAAATAACAGCGGCAACCA -GCCCATGAATCAGCAAGGAAAGCCACTGTGCGCGCCAGGAGACGCGCAAATCAGATTGCCACAGGACCACGTTCC -CGGTTCCGTGTCTGGATGAGTCGGACCATCATTTCCAGTTCTGCATCGGCCGGTTTACCGTGATTCATCAGCCAG -TTAAACAGGTCCGGATCGTCACATTCCAGCAGACGAATAAAGATGCGTTTTTCGTCATCGCTTAAGCTGTCGTAC -TCATGTTCGAAAAACGGCATGATTGAAATATCGAGTTCGCGCATACCACGGCGGCATGCCCAATGAATGCGGGCT -TTGTTGTTAATGTCCATCTTCTTCCTGTCTCACGAAAATCCAGTACCCGGCTATTGTAACGTGTTTTTCGCCTTC -TTTTACGGGAATATCAGTAAACACCATCGCGATCGCGAAATTAATTCACAACAATTCAATGGCTTCATTTTTTTG -GAAGTCGCCTCGCAGAAGGCACAGATCGCGTAGTGAAAGCACTTGCATTGCCTCATAGCTCTTTTACCATTAGTC -ATTAATACGCCGTTAAGCAACTCAGGACTCTATTATGGCTTTTACACCTTTTCCTCCCCGTCAGCCTACGGCTTC -TGCCCGTTTACCGCTGACGCTGATGACGCTTGATGACTGGGCGCTTGCCACCATTACTGGCGCGGACAGCGAAAA -ATATATGCAGGGTCAGGTGACAGCAGATGTCAGCCAGATGGCAGAAGATCAGCACCTGCTCGCCGCCCATTGCGA -CGCCAAAGGTAAAATGTGGAGCAATTTACGTCTGTTCCGCGACGGCGATGGCTTTGCATGGATTGAACGGCGCAG -CGTGCGTGAACCGCAGCTGACTGAACTGAAAAAATATGCGGTATTCTCTAAAGTGACCATCGCGCCAGACGACGA -GCGTGTGCTGCTTGGTGTTGCCGGTTTTCAGGCGCGCGCCGCGCTGGCAAATCTCTTTAGCGAACTGCCTTCGAA -AGAAAAACAGGTAGTCAAAGAAGGCGCGACCACTTTGCTATGGTTTGAACACCCGGCAGAACGTTTCCTGATCGT -AACCGATGAAGCTACTGCTAATATGCTGACCGATAAACTGCGCGGTGAAGCGGAACTGAACAATAGCCAACAGTG -GCTGGCATTAAACATTGAAGCGGGTTTCCCGGTGATTGATGCCGCCAACAGCGGGCAGTTTATCCCACAGGCGAC -CAATCTCCAGGCGCTGGGCGGTATCAGCTTTAAGAAAGGCTGTTATACCGGACAAGAGATGGTGGCGCGAGCAAA -ATTCCGTGGTGCCAATAAACGTGCGCTCTGGTTGCTGGCAGGTAGCGCCAGCCGACTGCCGGAAGCTGGTGAAGA -CTTAGAGCTGAAAATGGGCGAGAACTGGCGTCGTACCGGTACGGTACTGGCTGCGGTAAAACTGGAAGATGGTCA -GGTCGTGGTACAGGTCGTCATGAATAACGATATGGAACCGGATAGCATCTTCCGCGTACGCGACGATGCGAATAC -ATTGCATATCGAGCCGCTGCCGTATTCGCTCGAAGAGTAAATCTCTTTATCGCATCAGGCATTTATCGCCTGATG -CGACGCTGGCGCGTCTTATCATGTCTGGGATTTGATGCCTTTATCACAACAGGGACGAGGCCCGTAGATCGGATA -AGGCGTTCACGCCGAATCCGGCAGTTGTGCTCCGATGCCTGATGCGACGCTGGCGCGTCTTATCAGGCCTACAAA -GGCATACCCATTACGCCTGCCCAATATACAAATAGATCGCCAGAAAGTGGCACACACTACCGCCGAGCACGAAGC -CGTGCCAGATGGCATGGTTGTATGGAATGCGTTTGCAGACGTAGAAAATCACCCCGAGCGAATAAACCACGCCGC -CTACCGCCAGTAAGGTAACGCTGCCCGCCGCGAGCTTAACTGCCATTTCATAAATTACCACCAGCGACAGCCAGC -CCATCGCCAGATAGGTCACCAGAGATAAAATTTTGAATCGGTGCGCGATGGTCAGTTTAAACAGAATACCCAGCA -ATGCCAGGCTCCAGATAACAATCATCAACCCGCGCGCTAACGGAGAATCCAGCCCCACCAGCAAAAACGGCGTGT -AGGTTCCGGCAATCAACAGGTAAATAGCGCAATGGTCAAATTTCTTCAGCCACATTTTTGCCCGTTGATGAGGAA -TGGCGTGATAGAGCGTCGAAGCGAGGAACAGCAGGATCATACTGCCGCCATAGAGGCTGTAGCTGGTTATCGCTG -TGGCGCTGGCATTAAGATCCACCGCCTGAACCAGTAGCAACACCAGCCCAACGATACCAAACACCAACCCAATGC -CGTGACTGACGCTGTTGGCTATTTCCTCTGCCAGTGAATATCCCTGCTTAATGAGGGGCTTCTGAACCATAACTT -ACTCCGGAGAAACGTACACGCACATGTATACCTCTCCAGCGTAACTGAGAATAGTTCCAGTGAACACCTGTTAGC -TAAAATAAATTCTGATTTGAGACTAATCTCCTAAAAATCATGAAATTAAATGCGAAATTTCAACTAACAGGCGTG -AGTTCAATTTAAAGACATTTAAATTCAATCACATAAAATTGTGTCTGACCGGGATAGATGTCAGCAATGACTTTT -TTCAGTTCAGTCAGGGTCATATTTTCCTGCTCTGCATGTTTTTCAGTCAGCGTATCCAGCGTTACGGTTGAGGTT -GCGGTGACTTCAATCGTGCAAAAATAACCGTCATCTTCAAAACGTCCGACACGAAGCACATCACCCGTTTTGAAG -TGCGATTCAGACTCGTCGCGGATGGTGATGGTTTTACGCCCAGCCAGAATGTCATCCTGGAAACGTTGAAAAAAA -GTGATGTCGTTTGGCTGCATGGTACTATTTCCTGTAAGAATTGACTCATCTGGAGCCTATGATAGTGAAAAAACT -CACCTTACCGAAAGATTTCTTATGGGGCGGCGCAGTTGCCGCTCATCAGGTCGAAGGCGGCTGGAACAAAGGCGG -AAAAGGGCCGAGCATTTGTGACGTTCTGACCGGTGGCGCACACGGCGTGCCGCGCGAAATCACCAAAGAAGTCTT -GCCAGGAAAATACTATCCAAACCATGAAGCCGTTGATTTTTATGGTCACTATAAGGAAGACATCAAGCTATTTGC -CGAAATGGGCTTCAAATGTTTTCGTACATCCATTGCCTGGACGCGCATTTTTCCAAAAGGCGATGAAGCTCAGCC -AAACGAAGAAGGGCTGAAGTTCTACGATGATATGTTCGATGAACTGCTGAAATACAACATCGAACCGGTGATCAC -CCTCTCCCACTTTGAAATGCCGCTGCATCTGGTGCAGCAATACGGTAGCTGGACCAACCGTAAAGTGGTTGATTT -CTTTGTACGTTTCGCGGAAGTGGTATTTGAACGCTATAAGCACAAAGTCAAATACTGGATGACCTTCAACGAAAT -TAACAACCAGCGTAACTGGCGTGCACCGCTGTTCGGTTACTGCTGCTCCGGCGTGGTGTATACCGAGCATGAAAA -CCCGGAAGAGACGATGTATCAGGTGCTGCATCACCAGTTTGTCGCCAGCGCCCTGGCGGTGAAAGCTGCGCGTCG -CATTAACCCGGAGATGAAAGTCGGCTGTATGCTGGCGATGGTGCCGCTCTATCCTTACTCCTGTAACCCGGACGA -TGTGATGTTCGCTCAGGAGTCGATGCGCGAACGCTACGTCTTTACCGATGTGCAGCTACGCGGCTATTACCCGTC -CTATGTGTTGAACGAGTGGGAGCGTCGCGGATTTAACATCAAAATGGAAGACGGCGATCTGGATGTGCTGCGTGA -AGGCACCTGCGATTATCTTGGTTTCAGCTATTACATGACCAATGCAGTGAAGGCCGAAGGCGGCACCGGCGATGC -GATCTCTGGTTTTGAAGGCAGCGTACCAAACCCGTATGTTAAAGCATCTGACTGGGGCTGGCAGATTGATCCAGT -AGGTCTGCGCTATGCACTTTGCGAACTGTATGAGCGTTATCAGAGGCCGCTGTTTATTGTCGAAAACGGTTTTGG -CGCTTACGACAAAGTGGAAGAAGATGGCAGCATCAACGACGACTACCGCATTGACTACCTGCGCGCCCATATCGA -AGAGATGAAAAAAGCGGTGACTTACGATGGCGTGGATCTGATGGGCTACACACCGTGGGGCTGCATCGACTGCGT -GTCGTTCACCACCGGGCAGTACAGCAAACGCTACGGCTTTATCTATGTGAATAAACATGACGACGGTACTGGCGA -TATGTCGCGTTCACGTAAGAAGAGCTTTAACTGGTACAAAGAGGTGATTGCCAGCAACGGCGAGAAGCTTTAAGT -CGATGAAGTACCGGATGCAATACTTGTTGCATCCGGTCAGACAACTTCCCTGTTTTATTTCCCGCCCGCCAAATC -GATAAAACTTCCCGTGACGTAAGAGGCTTTATCACTTAGTAGCCAGACAATGGCCTGCGCGACCTCTTCTGCCTG -TCCACCACGCTGCATGGGGATGTTCGACTTAACGCGATCGACGCGTCCAGGCTCGCCGCCGCTGGCGTGCATTTC -GGTATAAATAAACCCTGGCCGCACGCAGTTAACGCGGATCCCCTGCGCGGCGACTTCCAGCGATAGTCCGGTGGT -TAACGTATCAATCGCCCCTTTCGATGCCGCGTAATCAACATATTCCCCTGGCGAACCCAACCGTGAGGCCACCGA -AGAGACATTGACGATAGCGCCGCCACTGCCACCATTTTTAAGCGCCATGCGTTTTACCGCCTCGCGGCAGCAGAG -AAAATATCCCGTCACGTTGGTGGAAAGTACTCGGTTGATTCGCTCTGCGGTAAGGTTTTCAACGGTGCACTGGGT -AAACAAGATCCCGGCGTTATTGACCAGCGCTGCTAGCGGTTCATCGTGCTGATCGATTGCTGTAAACATCGCAAC -GACCTGGTTTTCGTCGCTGATATCCGCCTGGAGCACGAATGCTTTGCCACCGGCTTGCGTTATTAAGTTCATCAC -TTCCTGCGCCGCGTGGAGGTTTTGCTGATAATTAACCGCCACCGTATACCCTTCTTGCGCCAACAGTAATGCAGT -TGCCCGCCCGATGCCGCGACTGCCACCAGTCACAAGTGCTATAGCCATTTGTTTTTCCGAGAAAAATTAATTCGT -TGACGTATCTTTGAGATTGCTAACAAACTGGCTCAATCTTCAATGTTGGCACGCTTTTCCCCCTCGCCCTTTCAG -GGAGAGGGCCGGGGTGAGGGTAAATATTCGCGCCAGTGCCGGCCTGTTCCCCTCACCCTAACCCTCTCCCCAAAG -GGGCGAGGGGACTGTCTGAGCACTTTTGTACTTTGTCATCTGACTAAAAAGGCGCCGAAGCGCCTTTAGAAAATA -GTCGAATCAGTGAATTACTGGTATTCGCTAATCGGTACGCAGGAGCAGAACAGGTTACGGTCGCCGTAAACATCA -TCCAGACGTTTCACTGTCGGCCAGTATTTGTCTGCCACACCTGCCGGGAATACCGCAACTTCACGGCTGTACGGA -TGCGCCCACTCGGCGACCAGTTCGCTCTGAATGTGCGGCGCGTTCACCAGCGGGTTATCTTCCAGCGGCCAGACA -CCGGCTTTCACCTGGTCAATTTCTGCGCGGATAGCCAGCATCGCGTCGATAAAGCGATCCAGTTCCACTTTGCTT -TCAGATTCAGTCGGTTCAACCATCAGCGTACCCGCCACCGGGAACGACATCGTCGGCGCGTGGAAACCGTAGTCG -ATCAGGCGCTTGGCAATATCCAGCTCGCTGATGCCGGTTTCTTCTTTCAGCGGGCGAATATCGAGAATACATTCG -TGCGCCACGCGACCGTCGCGACCGGTATACAGCACCGGGAAGGCATCCTGCAGGCGGCTGGCAATATAGTTGGCG -TTGAGGATTGCCACCTGGCTTGCTTTTTTCAGCCCTTCTGCGCCCATCATGCGGATGTACATCCAGCTGATTGGC -AGGATAGAGGCGCTACCGAACGGTGCCGCAGAAACCGCGCCCTGACGGGTTAACATGCCTTCGATTTGCACCACG -CTATGACCCGGTACAAACGGTGCCAAATGCGCTTTCACGCCGATCGGTCCCATACCCGGACCACCACCGCCGTGC -GGAATGCAGAAAGTTTTATGTAGGTTAAGGTGTGAAACGTCCGCACCAATAAAGCCCGGCGAGGTGATGCCAACC -TGGGCGTTCATGTTCGCGCCATCAAGGTAAACCTGACCGCCGAACTGATGCACGACTTCACACACTTCACGGATC -GTTTCTTCATACACGCCGTGGGTAGAAGGATAAGTCACCATGATACAGGAGAGGTTATCGCCCGCCTGTTCCGCT -TTCGCGCGCAGATCAGTCAGATCGATGTTGCCGTTTTTATCACACGCCACAACCACCACCTGCATTCCTGCCATA -TGTGCAGAAGCGGGGTTAGTTCCGTGCGCAGAAGCCGGGATCAGGCAGATATCGCGATGCCCTTCGTTGCGGCTT -TCATGATAATGACGAATCGCCAGCAGGCCCGCGTATTCGCCCTGTGCGCCAGAGTTCGGCTGCATACAAACGGCG -TCGTAACCGGTCAGTTTCACCAGCCAGTCAGCCAGCTGCGCAATCATCTGCTGATAACCTTCGGCCTGCTCCGGC -GGGCAGAACGGGTGCAGTTCGGCAAATTCCGGCCAGGTGATTGGGATCATCTCGGCGGCGGCGTTCAGTTTCATG -GTGCAGGAACCCAGCGGGATCATCGCCTGATTCAGCGCCAGATCTTTACGCTCCAGCGAGTGCATATAGCGCATC -ATTTCGGTTTCGCTGTGGTAGCGATTAAACACCGGATGGGTGAGGATTTCGTCGTCGCGCAGCATCGCAGGCTGG -ATAGAGCGGCTGTCGTGAGCCACGTCTTTGTCCAGCGTGTCGATGTCCAGGCCGTGGTTATCGCCCAGCAGCACG -TTGAAAAGCTGCATTACGTTTTCACGCGTGGTTGTTTCATCAAGGGTGATCCCAACCGCGTTCAGAATATCGCTA -CGCAGGTTGATTTCAGCCGCTTCGGCACGCGTCAGTACGCCCGCTTTGTCGGCCACTTCCACACACAAGGTGTCG -AAATAGTGCGCATGGCGCAGTTTCAGACCTTTTTGTTGCAGGCCCGCCGCCAGGATATCGGTCAGACGGTGAATG -CGGTTAGCGATACGTTTCAGGCCAACCGGGCCGTGATAAACGGCATACAGGCTGGCGATGTTTGCCAGCAGTACC -TGGGAAGTACAAATGTTGGAGTTCGCTTTCTCACGGCGGATATGTTGCTCGCGAGTCTGCATCGCCATGCGCAGC -GCGGTATTGCCAGCTGCATCTTTCGATACACCGATAATACGGCCCGGCATTGAGCGTTTGTATTCATCTTTCGCC -GCAAAGAATGCCGCGTGTGGGCCACCGTAGCCCATCGGCACGCCGAAGCGTTGCGCCGAACCAAAAACAATATCC -GCGCCCTGTTTACCCGGCGCAGTTAACAGCACCAGCGCCATAATATCGGCGGCAACGCTGACCACAATTTTGCGT -GATTTCAGTTCGCTAATAAGCGCAGTGTAGTCGTGAATTTCACCGGTAGTGCCTACCTGCTGTAACAGCACGCCG -AAGACGTCCTGATGGTCGAGCACTTTTTGCGCGTCATCGACAATCACTTCAAAACCAAAGGTTTCGGCACGAGTA -CGGACCACATCCAGCGTTTGCGGATGCACATCGGAAGCCACGAAGAAGCGGTTGGCATTTTTCAGTTTGCTGACG -CGTTTCGCCATCGCCATTGCTTCGGCGGCAGCGGTGGCCTCGTCCAGAAGAGAAGCAGAGGCCATATCCAGTCCA -GTCAAATCCAGCGTTACCTGCTGGAAGTTGAGCAGTGCTTCAAGGCGGCCCTGGGAGACTTCAGGTTGATACGGA -GTGTACGCGGTATACCAGCCCGGATTTTCCAGCATGTTACGCAGGATAACCGGCGGTAGCTGCACGGCGGTGTAA -CCCATGCCGATGTAAGACGTGAAGCGTTTATTGCGACTGGCAATAGCCTTGAGTTCTGCCAGTGCGGCGTATTCG -GTCGCCGGTGCGCCAACCTGCGGTGGTGTCGCAAGTTGAATATCTTTCGGCACAATCTGGCCGGTCAGCGCGTTT -AACGATTGTGCACCAACGGCATTCAGCATTTCTTGCTGTTGCGCGGCGTCCGGTCCGATATGGCGTTCAATAAAA -GCGCCGCTGTTTTCAAGCTGGCTTAACGTCTGTGTCATGAGCGATGGTTCCTGAAACGTGCAGTGAATTGTGAAC -CTCTCTCCTTACGAAGAGAGTGAGGGTGAGGCATAAATTTTCCTCACCCTGATCCTCTCCCGCAGAAGAGGAATA -AAGCCGTTACTCGTCTTCTAACAATGCTTCGTATGCGGTCGCATCCAGCAGTGATTCCAGTTCGCTTTCATCGCT -GGCTTTGATTTTAAAGATCCAGCCGCCTGCATACGGTTCGCTGTTCACCAGTTCCGGGGAATCGCTCAGTGCGTC -GTTTACCGCCACGATTTCACCGCTTACTGGCGCATAAATGTCTGACGCCGCTTTTACCGATTCGGCAACCGCGCA -GTCATCGCCCGCGCTAACCGTTGCGCCCACTTCCGGCAGGTCAACAAACACCATATCGCCTAACAGCTCCTGAGC -ATGTTCGGTAATACCAACGGTGTAAGTGCCGTCGGCTTCTTTACGCAGCCATTCGTGTTCTTTGCTGTATTTCAG -TTCTGCTGGTACGTTGCTCATCAATCAATCTCCAAAAAAGTAAATCACGCGACGGCTTTGCCGTTACGCACAAAA -ACAGGTTTTGTCACTTTAACCGGCATTTCACGGTTGCGAATTTGCACAATCGCCGTTTCGCCAATACCTTCCGGC -ACGCGCGCCAGCGCAATGCTGTAACCCAGCGTCGGGGAGAAAGTACCGCTGGTGATAATGCCTTCATGCTGGTTG -CCCTGCGCATCGGTAAAGCGTACCGGCAGTTCATTACGCAGCACGCCTTTTTCGGTCATCACCAGACCAACCAGT -TTTTCTGTACCATGCTCACGCTGCACTTCCAGGGCTTCACGACCGATAAAGTCACGATCTGCCGGTTCCCAGGCG -ATGGTCCAGCCCATGTTGGCGGCTAAAGGAGAGATGGTTTCGTCCATCTCCTGACCATAAAGATTCATGCCCGCT -TCCAGACGCAGCGTGTCACGCGCGCCCAAGCCACATGGCTTAACACCCGCTTCCACCAGCGCACGCCAGAAATCG -GCCGCTTTTTCATTGGGCAGCGCAATTTCATAGCCCGCTTCACCGGTATAACCAGTGGTGGCAATAAACAGATCG -CCCGCCTGCACGCCAAAGAACGGTTTCATCCCTTCCACCGCCTGACGCTGGGCGTCATTAAACAGTGTGGCAGCT -TTTGCCTGCGCATTCGGCCCTTGCACGGCAATCATGGAAAGGTCATCACGAACGGTAATTTCGATGCCGAAAGGT -TCAGCGTGTTGGGTAATCCAGGAGAGGTCTTTTTCGCGGGTGGCGGAGTTAACAACGAGGCGGAAGAAATCTTCA -GTAAAGTAGTAGACGATGAGGTCATCTATCACACCGCCAGAGGCATTCAACATCCCCGAGTAAAGGGCTTTGCCG -CTTTTGGTGAGCTTCGCCACATCGTTCGCCAGCAGATAACGCAGAAACTCCCGGGTGCGGCTGCCGCGAAGATCG -ACGATGGTCATATGTGACACATCAAACATTCCGGCATCGGTACGTACCGCATGATGTTCGTCGATTTGCGAACCG -TAATGCAGCGGCATCATCCAGCCGTGGAAATCCACCATGCGAGCGCCGCAAAGCGTGTGTTGTTCGTACAAAGGA -GTCTGTTGTGCCATCTTGTCCTCATTGAATAAGCGGGGCTGACAACTTTTTCATGGTGAAATTATCACCACGAAA -CCCAGCATCGGAGCCACTCCCGGTCCCCAACGCAATCGTTCTCTTTTGCCTGAACTTACCACCGAAACAGACTGT -TAACCATAAGGTAAAATTGATCATCACATTAGCTTATGGTTAAAAAATGCAAAAATCGCGACAGAATAAAAAACC -AAAAAATACACCAGTTTCTATACAAAGATGATGTGATGAGAAAGTCAATTTGAATAAGACAATATTAAGAGCTAA -AAAAATGTCAAAAAACACTAAATCAAAAAATAATGGCATTAGAAAATATAATGCGAAAACGGAGGTGAAATTAGT -TTATTTCAAATGAGGAAAATCTCCCGGCGAAAAAACCGGGAGATGAAAGTGTGATGGGTATCAAATAAACAACAG -AGGAGAAATTTTTAACGCAGCCATTCAGGCAAATCGTTTAATCCCATTGCCTGGCGGATAAGTTGCGGCTTAACG -CCAGGAAGCGTGTCGGCCAGTTTCAAACCAATATCACGCAGCAGTTTTTTCGCCGGATTGGTACCGGAAAACAGA -TCGCGGAATCCCTGCATACCAGCCAGCATCAACGCCGCACTGTGCTTGCGGCTACGCTCATAGCGACGCAGATAA -ATGTACTGCCCGATGTCTTTCCCCTGACGATGCAACCGTTTCAGTTCGGCAATCAGCTCTGCAGCATCCATAAAG -CCGAGATTTACCCCCTGCCCCGCCAGCGGGTGAATGGTATGTGCGGCGTCGCCCACCAGCGCCAGACGGTGCGAG -GCAAACTGGCGCGCATAACGCCCCGTCAGTGGGAACACCTGACGCGCGCTCTCAACCTTGCATAAGCCCAGGCGA -TTATCAAAAGCGATATTTAACGCGCGATTAAATTCGTCTTCACTTGCCTGCTGCATCCGCTGCGCTTCCTCTGGC -GACAGTGACCAGACAATCGAGCAAAGATGCGGATCGCTAAGCGGTAAAAAGGCCAGAATGCCTTCGCCATGGAAA -ACCTGCCGCGCCACCGCATCATGCGGTTCTTCCGTGCGAATGGTCGCTACCAGCGCGTGATGCTGATAATCCCAG -AAAGTCAGCGGAATATCGGCTTTGTTGCGCAACCAGGAATTAGCGCCGTCCGCGCCAATCACCAGACGCGCCGTT -AACATGCTGCCATCTTTCAGCGTCAGGAAGGTTTCATTTTCTCCCCAGGCGACCTGCTGTAATTCTGCGGGGGCT -AACAGAGTGATATCTGACGACTGATGCGCTTTGTTCCACAGCGCGTAGTGAATCACTGAATTTTCAACGATATGC -CCAAGATGGCTATAGCCCATGCTTTGATCGTCAAACGAAATGTGACCAAAGCTGTCTTTGTCCCACACTTCCATA -CCGTGATAACAGCTGGCCCTACGAGAGAGAATGTCCTGCCAGACGCCAAGACGGGTGAGTAATTTTTCGCTGGCG -GCATTGATAGCCGAAACGCGCAGTTGTGGTGGTGCATTCGCCGCCAGAGGTTCCTGTACGCGCTGCTCCAGTACG -GCAACGCGTAAGCCGCTCCCCTGTAAGCCACAGGCAACCGCCAGCCCCACCATGCCGCCGCCAACAATGGCTACA -TCAACACTTTGCATTGTTTATTCCTTAAAACCGCCTTCAACGCGCCACCCAACCGAGGGTGCGCTGCGCCAGCAC -ATCGCGTGCCGGGGTGAATAATTCCATCGTCATCAGCCCGATGTTGCGCCCGACAACCAGCGGTGCCCAACGGTT -GGCAAAAAGATGTACAAGGCTGTCCGTGACGCCAATGGTTGCTTCGCGATCGCTCTGTCGACGCTGCTGATAACG -GCACAATACGCCGTAATCCCCCATGTCTTCTCCGCGCTCCTGCGCCTGAGTCAGGGTTTCCGCAAGACTCATCAC -ATCTCGCATACCGAGGTTAAACCCTTGCCCGGCAATCGGGTGCAGAGTTTGCGCCGCATTGCCCACCAGCACGGT -ACGATGGGTAATAGATCTGGCGGCGTGGGTTAACGCCAGCGGATAAGCACTGCGTTTACCAGCGTGGGTAATTTT -CCCAAGTCGCCAGCCAAAGGCCGACTGGAGTTCACGGCAAAACTTCTCGTCACTCCACGACAACACCTCTTCGCG -CCGTTCCAGTGGATGACACCAGACCAGCGAACAGCGTCCGTCAGACATCGGCAACATCGCCAGCGGGCCATGTTG -CGTAAAGCGTTCAAAAGCGCGCCCTTCATGCGCAACGGAAGTAGCAACGTTGGCAATCACGGCCAGTTGTTCGTA -AGGCTCCTGCTGCCAGTCAACGCCGCACGCGGTGGCTAACGCTGAATGGGTGCCATCAGCTGCTACCAGCACGCG -GCCCGTCAGCGTCTCGCCACTCTCCAGCGTCACTTCAACGTGACTCTGAGTACGGGCAACGTTAGCCACGCGATC -AGGGCAATGCAGCGTTACGCCAGGTGCTTTACGCAGCAATGCAAACAGCCGTTGCCCGACATTGTGCAATTCGAC -AACCTGTCCCAGCGCCGCCAGTTGGTAATCTTCTGCGGCGAGGGTGACAAATCCAGCGTGACCACGATCGCTGAC -ATGCACGGTGGTGATGGCAGTTGCGCAATCCGCCAGAGATTGCCAGACGCCGATGCGCGCCAGTTGCTGACAGGT -ACCCGCCGCCAGCGCTATCGCTCGTCCATCAAAGCCCGGATGAGCATGTGACTCTGGCGCAGTCGCTTCAATCAA -ATGTACCGGCAGCGCCCCGTGACTTAACCGGGAAATAGCCAGCGCCAGCGTCGCGCCCGCCATGCCGCCACCGAC -GATGATTACGCTCATTGCTTTCTCGCAGCAACCATCAACGCTTCGATTTCTTCCGGCTTTTTCACCACGCTGGCG -GTGAGGTTTTCGTTACCGGTTTCGGTAATCACAATGTCGTCTTCAATACGAATGCCGATACCGCGATATTGTTCT -GGCACTTCTGCATCCGGCGCAATATACAGCCCTGGCTCTACGGTCAGTACCATGCCCGGTTCCAGAATGCGCGAG -CGATCCTGACCATAAACACCCACGTCATGGACATCCAGTCCTAACCAGTGGCTAAGGCCATGCATAAAGAAAGGA -CGATGGGCGTTCTGAGCGATCAGTTCATCAACATCACCTTTCAGGATGCCGAGTTTTACCAGGCCGCTAACCATG -ATGCGCACCACTTCACCAGTGACTTCCAGAATGGAAGTTCCCGGACGATACAGGCGCAGGCTGGTTTCGAGAGAC -TCCAGCACAATGTCGTAGATTTCACGCTGGGCCTGGGTGAATTTGCCGTTGACCGGGAAGGTGCGGGTAATATCG -CCAGCGTAACCTTTGTATTCACAACCCGCGTCAATCAACACCAGGTCGCCGTCGCGCATTTCACACTCGTTTTCG -GTGTAGTGCAGAATGCAGCCGTTTTCACCGCTGCCGACAATGGTGTTATAGGACGGATAGCGCGCACCGTGGCGG -TTAAATTCGTGGTGAATTTCGCCTTCCAGATGGTACTCGAACATTCCCGGACGGCATTTTTCCATCGCCCGTGTA -TGTGCCATGGCGGTGATTTCTCCCGCGCGGCGGAGTACGGCAATCTCTTCTGGCGATTTGAACAGGCGCATTTCA -TGAACAACAGGACGCCAGTCGATCATCGTTGCCGGTGCGGTGAGATTTTGCCGCGAACCTTTACGCAGTTTTTCC -AGCGCACTGTTCACGATTACATCAGCATATGCATATTCGCCCTGGGCATGGTAAACCACATCCAGGCCGTTAAGT -AGTTGATAAAGTTGCTGATTGATTTCGCTGAATGCCAGTGCGCGGTCAACGCCCAGTTTCTCTGGCGCGGCATCC -TGGCCTAAGCGACGGCCAAACCAGATCTCCGCCGTCAGGTCGCGAACGCGGTTAAACAGAACGCTGTGGTTATGA -GTGTCATCGCTTTTAATCAGCACCAGCACCGCTTCCGGTTCGTTAAAGCCGGTGAAGTACCAGAAGTCACTGTTC -TGACGATAGGGGTATTCGCTGTCGGCGCTACGTGTTACTTCTGGTGCAGCAAAAATCAGCGCGGCGCTGCCGGGT -TGCATTTGCTCCACCAGGGCCTGACGGCGACGCTGAAACTCTTGCCGGGATATCTCACTCATAACACTCTCCTTA -CGTTTTTTGTTTTTAGTGTAGAGTCGGTTTTTGTACTTCTGGCGCGGTCGGTTGCGGATGAGTAAAGGTGTCGTG -GCATAACAGCGCGGCAACACGAACGTATTCGATGATCTCTTCAAGCGACATTTCAAGCTCTTCCTGATCTTCGTC -TTCGTCGTAACCCAGTTGCGCAATGTTACGCAGATCGTCGATAGCTTCACCGGTTTCGCCGGTCACTTTATCCAG -CTTCGGTTGCGTAACGCCAAGACCAAGCAGGAAGTGATTGACCCAACCTGCCAATGCATCAGCCCGATCGAAAAC -GCTGACATCATCGCCATCAGGCAGATAAAGCTGAAAAAGGAAGCCGTCATCCTGCAGGGCATCGCTGGTGGCAGA -GTGCATTTTACGCAGTGCCTGTGCCAGCTCATGACCGAAAGCCATGCCTTCGTTCGTCAGGTCGTGAAGTAGCGG -TAGCCATGAGCTGTCATCGTTACCGCCACATATCATCCCGCTGATTAAACCATGCATCTCAGCTGGGGTCAGACC -CGTCCCTTGTTGGTTCAGATACTGGTTCATTTCGTTGTAACCAGGCATTTCGTTCTGTATAGACATAAGCATTCG -TCGTCAAAGGGAGGAATATTCATGATATGCTACCACTTTGGGCCCTGGTGGACCAGAAAAGGGCTTGTCTCTTCT -CATCAGGGTAGCTATAGTGTCGCCCCTTCGCAGACCATGGGTCTAAAGACGAAGGCAGCGCAGTCAATCAGCAGG -AAGGTGGCATGTCTGCACAACCCGTCGATATCCAAATTTTTGGCCGTTCACTGCGTGTGAACTGCCCGCCTGACC -AAAGGGATGCGTTGAATCAGGCAGCGGACGATCTGAACCAACGGTTGCAAGATCTGAAAGAACGCACTAGAGTCA -CAAATACTGAACAGTTGGTCTTCATTGCCGCATTGAATATCAGCTATGAGTTAGCGCAAGAAAAAGCAAAGACTC -GTGACTACGCGGCAAGTATGGAACAGCGTATTCGGATGCTGCAGCAGACCATAGAACAAGCGTTACTTGAACAAG -GTCGCATCACCGAAAAAACTAACCAAAACTTTGAATGACACTTTTCGGTTTACTGTGGTAGAGTAACCGTGAAGA -CAAAATTTCTCTGAGATGTTCGCAAGCGGGCCAGTCCCCTGAGCCGATATTTCATACCACAAGAATGTGGCGCTC -CGCGGTTGGTGAGCATGCTCGGTCCGTCCGAGAAGCCTTAAAACTGCGACGACACATTCACCTTGAACCAAGGGT -TCAAGGGTTACAGCCTGCGGCGGCATCTCGGAGATTCCCTTCTTATCTGGCACCAGCCATGACGCAACTACCAGA -ACTCCCACTGACATTATCCCGACAAGAAATCCGCAAAATGATTCGGCAACGTCGTCGTGCGTTAACGCCGGAACA -ACAGCAGGAAATGGGTCAACAAGCCGCTACCCGGATGATGACTTATCCCCCGGTGGTGATGGCACATACGGTCGC -TGTATTCCTCTCTTTTGATGGCGAACTCGACACCCAGCCACTCATAGAACAACTCTGGCGCGCCGGTAAGCGCGT -ATATCTTCCAGTTTTGCATCCCTTTAGTGCCGGTAATTTGCTGTTCCTGAATTACCATCCGCAAAGCGAACTGGT -GATGAACAGGTTGAAGATCCATGAGCCAAAATTGGATGTGCGTGACGTGCTACCCCTTTCCCGATTAGACGTGCT -GATCACACCGCTGGTCGCCTTTGATGAGTACGGTCAGCGCCTGGGAATGGGCGGTGGTTTTTATGATCGGACCTT -ACAAAACTGGCAGCACTATAAAACGCAACCGGTGGGTTATGCGCATGATTGTCAGTTGGTGGAAAAACTCCCCGT -TGAAGAGTGGGATATCCCTCTTCCTGCGGTGGTTACACCGTCGAAAGTCTGGGAGTGGTAAGGGCGATACACCCG -CATCGCCCTGATTGACATCGTTGATTCTTTGACCTAATTTAGTGAGTAAGGGTAAGGGAGGATTGCTCCTCCCCT -GAGACTGACTGTTAATAAGCGCTGAAACTTATGAGTAACAGTACAATCAGTATGATGACAAGTCGCATCATAACC -CTTCTCCTTCAAGCCCTCGCTTCGGTGAGGGCTTTACCGTTACAGCCCCATGCTGCCCTGCCATCGTAAATCCCC -ATTAAATAAACACAACGCATTGATCTGACTTTGATTTATTTTCTGGAGCAGACTCGCAAAGTAGAATGCGCAACG -CGGCAACGGTGTGGAGAAGGGATAAAAAAACGGGCAAGTCAGTGACCTGCCCGTTGATTTTCAGAGAAGGGGAAT -TAGTACAGCAGACGGGCGCGAATGGTACCCGGAATAGCTTTCATTGCCTGCAGCGCTTTTTCGGCAACGTCTTCG -TCGGCTTCAATATCAATAACCACATAACCCATCTGGGCGGAAGTTTGCAGATATTGCGCGGCGATGTTGACGCCC -TGCTCGGCGAAGATTTTGTTCAGCGCAGTTAGCACGCCCGGACGGTTTTCGTGGATGTGCATCAGACGACGCCCA -CCGTGCAGTGGCAGCGAGACTTCCGGGAAGTTCACCGCAGAGAGCGTTGAGCCATTGTCAGAATACTTGATCAAT -TTACCCGCAACTTCCAGGCCGATATTCTCCTGCGCTTCCTGAGTCGAACCGCCAATGTGTGGCGTCAGAAGGACG -TTGTCGAATTCACACAGCGGAGAGGTAAATGGATCGCTATTGGTCGCCGGTTCCGTCGGGAATACGTCGATTGCC -GCCCCCGCCAGATGTTTGCTCGCCAGCGCATCACACAGCGCCGGAATATCCACCACAGTACCGCGCGAAGCATTA -ATCAGCAGCGAGCCGGGCTTCATTAGTGAAATTTCTTTCGCGCCCATCATATTTTTGGTGGACGGATTCTCTGGT -ACATGCAGACTCACCACATCGCTCATATTCAGCAGGTCAGAAAGATGCTGTACCTGAGTGGCGTTGCCCAGCGGC -AGTTTATTTTCAATATCATAAAAGTAAACATACATTCCCAGCGATTCAGCCAGAATGCCCAATTGCGTACCAATA -TGACCGTAGCCGATGATACCCAGCTTTTTGCCGCGCGCTTCAAAAGAACCCGCCGCCAGTTTGTTCCACACGCCA -CGGTGCGCTTTAGCATTGGCTTCCGGCACGCCGCGCAATAGCAGCAGCAGTTCGCCAATCACCAGCTCCGCAACA -GAGCGCGTATTTGAGAACGGTGCGTTAAATACCGGGATCCCGCGCTTTGCCGCCGCATCCAGATCAACCTGGTTT -GTTCCGATACAGAAACAGCCAATAGCGACCAGTTTTTCTGCGGCGTTGATCACGTCTTCAGTCAGATGGGTACGG -GATCGCAGGCCGATGAAGTGGGCATCGCGGATGGATTCTTTTAATTGTTCATCATCCAGCGCGCCTTTGTGAAAT -TCGATGTTGGTGTAACCAGCTGCACGAAGGCTTTCCAGCGCCTTTTGGTGCACGCCTTCTACCAGCAGAAACTTA -ATCTTGTCTTTCTCCAGCGATACCTTTGCCATTTACCCAATCCTGTCTTTTGAAATGTTGTGTGCGGATTTGCAT -CCGCCTTTCAACATATCAAAAAATAATATTGCGGCAATATGAACGTTTGCGTCGCGATGTTGAGGAAATATCACG -CAAAGGTAATTCTTGGATGAATATGCTGGTTTAGAGGATTTATTTAGAGCAATCGACAATTGCCTGGTAAAAGCG -TGACACATGTCACCAAATTTAATGAAGAGAATTTTTTTAACGGGGGAGGTTCCCCCGTCAGATCATTTCACAATG -GTTTTGACACCGTCAGGTGTGCCAATCAGCGCAACGTCCGCGCCACGGTTAGCAAACAAGCCAACAGTCACCACG -CCAGGAATCGCATTTATGGCGTTTTCCATCGCTATCGGGTCAAGGATTTCCATGCCGTGGACGTCGAGGATCACG -TTGCCATTATCGGTCACCACGCCCTGACGGTATTCCGGACGACCGCCCAGTTTCACCAGCTGACGCGCCACTGCA -CTACGTGCCATCGGGATAACTTCTACTGGCAGCGGGAATTTACCCAGAATATCAACCTGCTTGGAAGCGTCTGCA -ATACAGATAAATTTTTCTGCAACCGAAGCAATGATTTTTTCACGGGTCAGCGCCGCGCCGCCGCCTTTGATCATT -TGCATGTGGCCGTTGATTTCATCTGCGCCATCAACGTAGATGCCAAGGCTGTCGACTTCGTTGAGATCAAAAACG -TGAATGCCGAGGCTTTTCAGTTTTTCAGTGGAAGCATCTGAACTGGAAACGGCCCCTTCAATCTGGCCTTTCATT -GTACCGAGCGCGTCAATAAAGTGTGCGGCGGTGGAACCTGTACCTACACCAACAATGGTGCCGGGCTGAACATAC -TGAAGTGCCGCCCATCCTACTGCTTTTTTCAATTCATCCTGCGTCATGATCGTTTCGCCTGTGGTATGAAATTTC -ACACGCATTATATACAAAAAAAGCGATTCAGACCCCGTTGGCAAGCCGCGTGGTTAACTCATCCATAAAATATCG -CGCAATGGCAGGCATCCCCTTTCGCCCCGCAAATAAAGCATACAACGGTCTGGGTATGCCGCTCCACGGTGCAAA -CAGGCGCACCAGTTCACCGTTCGCAAGCCCCTGTTTACAGGCAAATTGAGGCAATAACGCCACGCCATTCAACAC -AACCAGGGCGCGAACTCGCTGAGCGAAATGCATTAGCGCAAATCCCTGATCTTTTAAGCTGCGCTTTTAACCACG -GATACAAATGTTACCCGCCGACGGCTTCGGTATATGCAACCTGACACAAAATTGTGTCATAGTGCAGGAAAAAGC -ATTTACCAGGAGCAGACAACAGCAATGAAACGCCCGGACTACAGAACATTACAGGCACTGGATGCGGTGATACGT -GAACGAGGATTTGAGCGCGCGGCACAAAAGCTGTGCATTACACAATCAGCCGTCTCACAGCGCATTAAGCAACTG -GAAAATATGTTCGGGCAGCCGCTGTTGGTGCGTACCGTACCGCCGCGCCCGACGGAACAAGGGCAAAAACTGCTG -GCACTGCTGCGCCAGGTGGAGTTGCTGGAAGAAGAGTGGCTGGGCGATGAACAAACCGGTTCGACTCCGCTGCTG -CTTTCACTGGCGGTCAACGCCGACAGTCTGGCGACGTGGTTGCTTCCTGCACTGGCTCCTGTGTTGGCTGATTCG -CCTATCCGCCTCAACTTGCAGGTAGAAGATGAAACCCGCACTCAGGAACGTCTGCGCCGCGGCGAAGTGGTCGGC -GCGGTGAGTATTCAACATCAGGCGCTGCCGAGTTGTCTTGTCGATAAACTTGGTGCGCTCGACTATCTGTTCGTC -AGCTCAAAACCCTTTGCCGAAAAATATTTCCCTAACGGCGTAACGCGTTCGGCATTACTGAAAGCGCCAGTGGTC -GCGTTTGACCATCTTGACGATATGCACCAGGCCTTTTTGCAGCAAAACTTCGATCTGCCTCCAGGCAGCGTGCCC -TGCCATATCGTTAATTCTTCAGAAGCGTTCGTACAACTTGCTCGCCAGGGCACCACCTGCTGTATGATCCCGCAC -CTGCAAATCGAGAAAGAGCTGGCCAGCGGTGAACTGATTGACTTAACGCCTGGGCTATTTCAACGACGGATGCTC -TACTGGCACCGCTTTGCTCCTGAAAGCCGCATGATGCGTAAAGTCACTGATGCGTTACTCGATTATGGTCACAAA -GTCCTTCGTCAGGATTAATCCATCAAATAATGCCTGATAGCACATATCAGGCGTTGTCCTCACTTCTTTTTGTAT -TCCTTGAATCACATCACAAAATAGACAAATCTCAGGCGGCAAAAAACGACGTCTGAATGCATTTTTTTTGCTGGC -GACAAACCCACGTAAAAAGCTCACCGTAGGCGCAAATACCCTCATTTTGATTGCGTTTTACGGAGCAAATAATGT -CTAACGTGCAGGAGTGGCAACAGCTTGCCAACAAGGAATTGAGCCGTCGGGAGAAAACTGTCGACTCGCTGGTTC -ATCAAACCGCGGAAGGGATCGCCATCAAGCCGCTGTATACCGAAGCCGATCTCGATAATCTGGAGGTGACAGGTA -CCCTTCCTGGTTTGCCGCCCTACGTTCGTGGCCCGCGTGCCACTATGTATACCGCCCAACCGTGGACCATCCGTC -AGTATGCTGGTTTTTCAACAGCAAAAGAGTCCAACGCTTTTTATCGCCGTAACCTGGCCGCCGGGCAAAAAGGTC -TTTCCGTTGCGTTTGACCTTGCCACCCACCGTGGCTACGACTCCGATAACCCGCGCGTGGCGGGCGACGTCGGCA -AAGCGGGCGTCGCTATCGACACCGTGGAAGATATGAAAGTCCTGTTCGACCAGATCCCGCTGGATAAAATGTCGG -TTTCGATGACCATGAATGGCGCAGTGCTACCAGTACTGGCGTTTTATATCGTCGCCGCAGAAGAGCAAGGTGTTA -CACCTGATAAACTGACCGGCACCATTCAAAACGATATTCTCAAAGAGTACCTCTGCCGCAACACCTATATTTACC -CACCAAAACCGTCAATGCGCATTATCGCCGACATCATCGCCTGGTGTTCCGGCAACATGCCGCGATTTAATACCA -TCAGTATCAGCGGTTACCACATGGGTGAAGCGGGTGCCAACTGCGTGCAGCAGGTAGCATTTACGCTCGCTGATG -GGATTGAGTACATCAAAGCAGCAATCTCTGCCGGACTGAAAATTGATGACTTCGCTCCTCGCCTGTCGTTCTTCT -TCGGCATCGGCATGGATCTGTTTATGAACGTCGCCATGTTGCGTGCGGCACGTTATTTATGGAGCGAAGCGGTCA -GTGGATTTGGCGCACAGGACCCGAAATCACTGGCGCTGCGTACCCACTGCCAGACCTCAGGCTGGAGCCTGACTG -AACAGGATCCGTATAACAACGTTATCCGCACCACCATTGAAGCGCTGGCTGCGACGCTGGGCGGTACTCAGTCAC -TGCATACCAACGCCTTTGACGAAGCGCTTGGTTTGCCTACCGATTTCTCAGCACGCATTGCCCGCAACACCCAGA -TCATCATCCAGGAAGAATCAGAACTCTGCCGCACCGTCGATCCACTGGCCGGATCCTATTACATTGAGTCGCTGA -CCGATCAAATCGTCAAACAAGCCAGAGCTATTATCCAACAGATCGACGAAGCCGGTGGCATGGCGAAAGCGATCG -AAGCAGGTCTGCCAAAACGAATGATCGAAGAGGCCTCAGCGCGCGAACAGTCGCTGATCGACCAGGGCAAGCGTG -TCATCGTTGGTGTCAACAAGTACAAACTGGATCACGAAGACGAAACCGATGTACTTGAGATCGACAACGTGATGG -TGCGTAACGAGCAAATTGCTTCGCTGGAACGCATTCGCGCCACCCGTGATGATGCCGCCGTAACCGCCGCGTTGA -ACGCCCTGACTCACGCCGCACAGCATAACGAAAACCTGCTGGCTGCCGCTGTTAATGCCGCTCGCGTTCGCGCCA -CCCTGGGTGAAATTTCCGATGCGCTGGAAGTCGCTTTCGACCGTTATCTGGTGCCAAGCCAGTGTGTTACCGGCG -TGATTGCGCAAAGCTATCATCAGTCTGAGAAATCGGCCTCCGAGTTCGATGCCATTGTTGCGCAAACGGAGCAGT -TCCTTGCCGACAATGGTCGTCGCCCGCGCATTCTGATCGCTAAGATGGGCCAGGATGGACACGATCGCGGCGCGA -AAGTGATCGCCAGCGCCTATTCCGATCTCGGTTTCGACGTAGATTTAAGCCCGATGTTCTCTACACCTGAAGAGA -TCGCCCGCCTGGCCGTAGAAAACGACGTTCACGTAGTGGGCGCATCCTCACTGGCTGCCGGTCATAAAACGCTGA -TCCCGGAACTGGTCGAAGCGCTGAAAAAATGGGGACGCGAAGATATCTGCGTGGTCGCGGGTGGCGTCATTCCGC -CGCAGGATTACGCCTTCCTGCAAGAGCGCGGCGTGGCGGCGATTTATGGTCCAGGTACACCTATGCTCGACAGTG -TGCGCGACGTACTGAATCTGATAAGCCAGCATCATGATTAATGAAGCCACGCTGGCAGAAAGTATTCGCCGCTTA -CGTCAGGGTGAGCGTGCCACACTCGCCCAGGCCATGACGCTGGTGGAAAGCCGTCACCCGCGTCATCAGGCACTA -AGTACGCAGCTGCTTGATGCCATTATGCCGTACTGCGGTAACACCCTGCGACTGGGCGTTACCGGCACCCCCGGC -GCGGGGAAAAGTACCTTTCTTGAGGCCTTTGGCATGTTGTTGATTCGAGAGGGATTAAAGGTCGCGGTTATTGCG -GTCGATCCCAGCAGCCCGGTCACTGGCGGTAGCATTCTCGGGGATAAAACCCGCATGAATGACCTGGCGCGTGCC -GAAGCGGCGTTTATTCGCCCGGTACCATCCTCCGGTCATCTGGGCGGTGCCAGTCAGCGAGCGCGGGAATTAATG -CTGTTATGCGAAGCAGCGGGTTATGACGTAGTGATTGTCGAAACGGTTGGCGTCGGGCAGTCGGAAACAGAAGTC -GCCCGCATGGTGGACTGTTTTATCTCGTTGCAAATTGCCGGTGGCGGCGATGATCTGCAGGGCATTAAAAAAGGG -CTGATGGAAGTGGCTGATCTGATCGTTATCAACAAAGACGATGGCGATAACCATACCAATGTCGCCATTGCCCGG -CATATGTACGAGAGTGCCCTGCATATTCTGCGACGTAAATACGACGAATGGCAGCCACGGGTTCTGACTTGTAGC -GCACTGGAAAAACGTGGAATCGATGAGATCTGGCACGCCATCATCGACTTCAAAACCGCGCTAACTGCCAGTGGT -CGTTTACAACAAGTGCGGCAACAACAATCGGTGGAATGGCTGCGTAAGCAGACCGAAGAAGAAGTACTGAATCAC -CTGTTCGCGAATGAAGATTTCGATCGCTATTACCGCCAGACGCTTTTAGCGGTCAAAAACAATACGCTCTCACCG -CGCACCGGCCTGCGGCAGCTCAGTGAATTTATCCAGACGCAATATTTTGATTAAAGGAATTTTTATGTCTTATCA -GTATGTTAACGTTGTCACTATCAACAAAGTGGCGGTCATTGAGTTTAACTATGGCCGAAAACTTAATGCCTTAAG -TAAAGTCTTTATTGATGATCTTATGCAGGCGTTAAGCGATCTCAACCGGCCGGAAATTCGCTGTATCATTTTGCG -CGCACCGAGTGGATCCAAAGTCTTCTCCGCAGGTCACGATATTCACGAACTGCCGTCTGGCGGTCGCGATCCGCT -CTCCTATGATGATCCATTGCGTCAAATCACCCGCATGATCCAAAAATTCCCGAAACCGATCATTTCGATGGTGGA -AGGTAGTGTTTGGGGTGGCGCATTTGAAATGATCATGAGTTCCGATCTGATCATCGCCGCCAGTACCTCAACCTT -CTCAATGACGCCTGTAAACCTCGGCGTCCCGTATAACCTGGTCGGCATTCACAACCTGACCCGCGACGCGGGCTT -CCACATTGTCAAAGAGCTGATTTTTACCGCTTCGCCAATCACCGCCCAGCGCGCGCTGGCTGTCGGCATCCTCAA -CCATGTTGTGGAAGTGGAAGAACTGGAAGATTTCACCTTACAAATGGCGCACCACATCTCTGAGAAAGCGCCGTT -AGCCATTGCCGTTATCAAAGAAGAGCTGCGTGTACTGGGCGAAGCACACACCATGAACTCCGATGAATTTGAACG -TATTCAGGGGATGCGCCGCGCGGTGTATGACAGCGAAGATTACCAGGAAGGGATGAACGCTTTCCTCGAAAAACG -TAAACCTAATTTCGTTGGTCATTAATCCCTGCGAACGAAGGAGTAAAAATGGAAACTCAGTGGACAAGGATGACC -GCCAATGAAGCGGCAGAAATTATCCAGCATAACGACATGGTGGCATTTAGCGGCTTTACCCCGGCGGGTTCGCCG -AAAGCCCTACCCACCGCGATTGCCCGCAGAGCTAACGAACAGCATGAGGCCAAAAAGCCGTATCAAATTCGCCTT -CTGACGGGTGCGTCAATCAGCGCCGCCGCTGACGATGTACTTTCTGACGCCGATGCTGTTTCCTGGCGTGCGCCA -TATCAAACATCGTCCGGTTTACGTAAAAAGATCAATCAGGGCGCGGTGAGTTTCGTTGACCTGCATTTGAGCGAA -GTGGCGCAAATGGTCAATTACGGTTTCTTCGGCGACATTGATGTTGCCGTCATTGAAGCATCGGCACTGGCACCG -GATGGTCGAGTCTGGTTAACCAGCGGGATCGGTAATGCGCCGACCTGGCTGCTGCGGGCGAAGAAAGTGATCATT -GAACTCAATCACTATCACGATCCGCGCGTTGCAGAACTGGCGGATATTGTGATTCCTGGCGCGCCACCGCGGCGC -AATAGCGTGTCGATCTTCCATGCAATGGATCGCGTCGGTACCCGCTATGTGCAAATCGATCCGAAAAAGATTGTC -GCCGTCGTGGAAACCAACTTGCCCGACGCCGGTAATATGCTGGATAAGCAAAATCCCATGTGCCAGCAGATTGCC -GATAACGTGGTCACGTTCTTATTGCAGGAAATGGCGCATGGGCGTATTCCGCCGGAATTTCTGCCGCTGCAAAGT -GGCGTGGGCAATATCAATAATGCGGTAATGGCGCGTCTGGGGGAAAACCCGGTAATTCCTCCGTTTATGATGTAT -TCGGAAGTGCTACAGGAATCGGTGGTGCATTTACTGGAAACCGGCAAAATCAGCGGGGCCAGCGCCTCCAGCCTG -ACAATCTCGGCCGATTCCCTGCGCAAGATTTACGACAATATGGATTACTTTGCCAGCCGCATTGTGTTGCGTCCG -CAGGAGATTTCCAATAACCCGGAAATCATCCGTCGTCTGGGCGTCATCGCTCTGAACGTCGGCCTGGAGTTTGAT -ATTTACGGGCATGCCAACTCAACACACGTAGCCGGGGTCGATCTGATGAACGGCATCGGCGGCAGCGGTGATTTT -GAACGCAACGCGTATCTGTCGATCTTTATGGCCCCGTCGATTGCTAAAGAAGGCAAGATCTCAACCGTCGTGCCA -ATGTGCAGCCATGTTGATCACAGCGAACACAGCGTCAAAGTGATCATCACCGAACAAGGGATCGCCGATCTGCGC -GGTCTTTCCCCGCTTCAACGCGCCCGCACTATCATTGATAATTGTGCACATCCTATGTATCGGGATTATCTGCAT -CGCTATCTGGAAAATGCGCCTGGCGGACATATTCACCACGATCTTAGCCACGTCTTCGACTTACACCGTAATTTA -ATTGCAACCGGCTCGATGCTGGGTTAATGACTCGTCCCGTCACGATCTTCAGCAATATGCTGAAGCATCGTGGCG -GTATAACGATGATTTCTGATTGAATAAAGATATTCCTGCATATACATCGGCCTGTGCGGTGCATCAAAATATTTC -AGCGTTGCCGGATTCACCAGTCGCCAGGCAAAATGCGGGATCACCGTCAGAAAATGTCCGCGCTCCACGGCGCTG -ATTTTGGCCATAAAACTGTAGGGACGATAAATAATGGTTGGATTGATCCCACAAGGTCGCATATTCGCATCAATC -ATTGCTTCGAAGTTGGCCCGGTTCTGAAAGCGCATTTGTAGCCAGGGCAGCTCCTGAAGCAGCTCTTGCTCTTGT -CGCTCTTCATAACGGCGAGAAACGAGAAAGCCTAATCGCAGCGGTGGTAGTTCACTGATAGTCAGGTTTTCCAGT -TCCTGAACTCGTGCAGATACATGCTGTGGGGAGATAATAAAATCTAACTGGCGGTCAAAAAGATTATCGATAACG -CCATTTTCGCTGAACTCAACTGGCTGGGCGGTCACGCCTTCATACTTATCTCCGAGACTAATCAACTGATCGAAA -ATAATTGTCGGATAAGTATTATCTATGCCAATCACAATTTCTCGTGAACGACGCCCTGAGTTATGGATTTCATTA -TCAATCGCAGAAAGCCGTTGATAAACCGGGAACAGTTTTTGATACAGTTCCTGTCCGGCTTTATTGAGGCTGATA -TTATTATCTTTGCGGGTAAATAGCGTATAGCCAATTTGTTCTTCCAGCGCGGCAATGCTTTTACCAAATGGCGAA -GCCGTCATATGGATTTTTTCTGCCGCCCGGGCAATATTATTGGTTTGCGCTAATAAAATGAAATTGCGCATCTTT -TTCGAAATAAAAATGTCCATCCCCCTCCCCCGCATCCTTGTCCGCTTAACCGTTTCAGTCAGCCTATCCTTGATG -AAACCGCGAGCAAAGATAGGTGATTACGTCATGGTTTTACAGAAAATTACAGAAAAAGGAGGCAATATCGGGTAA -AGGCATTAGCCCGACGAATACGTCGGGCTACAAATATTATTGTGCTGCAGGTGTTTTAGCGGGTTGTTGATCCAC -AGGTTCTAACTGGAAGACCACATCGACCTGATCATCAAACTGAATAGCGGCCTGCTCGTAAGTTTCCTGGGCGGA -CACCGGCGCGGCATCGGCTTTCATCATCCGCACCATTGGGCTGGGCTGATAGTTGGAAACATGGTAGCGCACGCT -ATATACCGGCCCCAGTTTACGATGAAAGCCGTTCGCCAGTTCCTGCGCCTGATGAATCGCGTTATCAATCGCTGC -CTTACGCGCTTTGTCTTTATAGGCATCCGGCTGCGCCACGCCCAGCGACACAGAACGAATTTCGTTAAGACCCGC -CTTCAGCGCGCCATCCAGCAAGGAATTCAGTTTGTCTAACTGACGGAGCGTGACTTCCACCGTTCTCACAGCGCG -GTAGCCTTTAAGGATACTTTTACCATCCTGATAATCATAATCTGGCTGGGTGCGTAAGTTCGCTGAGCTGATATC -TTTTTTCGCGATCTGATTGAGTTCAAGGAAGGAAATGTATTGTGCGACGCGCTCATCTGCCTGTTTCTTGGCAGT -AGCGGCATCCTTCGCGGCCACGTTAACTTCAATCGCAAGAGTGGCAATGTCTGGCACCGCATCCACGCTTGCCGT -ACCGGAGGTGACAATATGCGGTCCATCCGGCAATTCGTTAGCCTGCGCTGCCATCCCGCTAATACCCATTAATGC -CGCCAGGGCGATAACTTTGAACTTCACGTTAGTCTCTCCGTGTTAATTGACTTGCCCAAAATTCAGGACCTCTGG -AGGCAAGCTTAGCGCCTCTGTTTTATTTTTCCATCAGATAGCGCCTAACTGAACAAGGCTTGTGCATGAGCAATA -CCGTCTCTCGCCAGCTGCAAGGCAATAAACCACATAACACATCCCACAACCAGATTGATAATGCGCTGTGCTTTT -GCCGTGCGCAGACGCGGTGCCAGCCAGGCTGCGAGAAGAGCCAGACCAAAGAACCACAGGAAAGAGGCGCTAATT -GTCCCGAGTGCAAACCAGCGTTTTGGTTCCACATCAAGTTGCCCGCCAAGGCTGCCCAGTACAACAAAAGTATCC -AGGTAAACATGCGGATTCAGCCAGGTCACTGCCAACATGGTGGCGATAATTTTCCATCTGCCTTGCTTCATGACT -TCGGCGCTGGCTAACTCAATATTACTGCTCATTGCTGTTTTAAAAGCGCCAAAACCATACCACAGCAAGAAGGCT -ACGCCGCCCCAGGTGACCAGCGCCAGCAACCACGGCGACTGCATCAATAACGCGCTGCCACCAAAAATCCCGGCG -CAAATCAGGACCAAATCGCTGATAGCACAAAGTAAGGCAATCATAATGTGGTACTGACGACGTATGCCCTGATTC -ATCACAAAAGCATTTTGTGGACCGAGCGGTAGGATCATAGCCGCCCCAAGTGCAAGACCTTGAAAGTAATAAGAA -AACACGTTGGATATTCCGAATTAAGTATCTGATGCAGAGACTATATCGCGGGATTGTTATTAGCGGAAATTGATA -ATATTAATTGGCAATCAGAAAAACTAATAAGAGAGAGGCCAGAGAGTATTATCTGGCCTCAGCGTTGATTACGCA -GCTTTGTCTTCTTTCACCCGCTTAAAGTTCACATCCATTTGCGGGTACGGGAAGCTGATACCGGCGGCATCAAAT -TCACGTTTAATACGCTCCAGCACATCCCAGTACACGTTTTGCAGATCGCCGCTGTTGCTCCAGACGCGGACCACG -AAATTAATCGACGATGCACCAAGTTCGTTCAGGCGCACAGTCATTTCGCGATCTTTCAAAATGCGATCTTCAGAC -TGGATAATATTGGTCAGGATCTGCTTAACCTGATCGATATCGGAATCATACGCCACGCCAATAATAAATTCGTTA -CGGCGAACTGGCTCGCGGGAGAAGTTAATAATATTTCCGGCAATAATTTTACCGTTCGGAATAACGATAATTTTA -CCGTCTGCAGTACGCATGGTGGTGGAGAAAATCTGCACACTCAGCACAGTACCGGCTACGCCGCCCAGGTCAACA -TATTCTCCGGCACGGAACGGGCGGAACATGACAAGTAACACGCCAGCGGCCAGGTTAGACAGTGACCCCTGCAAA -GCCAGACCAACAGCTAAGCCTGCGGCACCGAGTACAGCAATGACTGACGCGGTTTGTACACCCACGCGTCCCAGT -GCAGCGATTAGCGTAAAGGCGATAATACCGTAACGGACTAATGCAGAAAGAAAATCAGCAACAGTGGCATCGATT -TTACGGGAGATCATCAGGCGATTCACCGCGTTGGAAATCATCCGCGCGATAATCAAACCAACGATGATGATCGCG -AGTGCCGCCACGATGTTTACTGCATAACTTAGCAGCAGCGCCTGGTTAGCTACCAGCCAGCTTCCCGCGCCGTTT -ATGCTATCGACAACATTCAAATCTTCCATTCAATATTCCTTTTCAACTGACTCAAAATGGAGAAATACACTCCGC -CGCCTTATGACGGGCAGTCTGACAAGGGTAAACAATAAAGCATAATTTTGCCAAATAGATCACAGATTTCTCATC -TGAATCACCTTGCTTTTGGCGAAAAAATCCCCGCAGAGCGGGGCTCAGACAGATATCAATGTGCGCTTTGTCATG -CCGGATGCGGCGTGAACGCCTTATCCGGCCTACAAAAACCTGCAAATTCAATATATTGCAGGATACGTGTAGGCC -TGATAAGCGTAGCGCATCAGGCAATTTTGCTTTTGGCGAAAAAAAGACCCGCAGAGCGGGCCTTGAGATAAGCAG -AAAGGAATATCTTACAGAACGTCGATCGCGTTCAGTTCCTGGAATGCTTTCTCCAGACGAGCGATCATCGAAGTC -TGACCGGCACGCAGCCATACGCGCGGATCGTAGTATTTCTTGTTCGGCTGATCTTCGCCTTTCGGGTTACCCAGC -TGACCCTGCAGATAAGCTTCGTTCGCTTTGTAGTAGTTCAGAACGCCTTCCCAGGTTGCCCATTGGGTATCGGTA -TCGATGTTCATTTTTACTACGCCGTAGCTTACGGAGTCTTTGATTTCCTGAGCAGTAGAACCGGAACCACCGTGG -AATACGAAGTTCAGGCTGTTGTGCGGCAGGTTGTGTTTCTTGGAAACATATTCCTGAGAATCACGCAGGATGGTC -GGAGTCAGAACCACGTTACCCGGCTTGTAAACACCGTGTACGTTACCGAAGGACGCTGCGATGGTGAAACGCGGG -CTGATTTTGCTCAGTTCGGTGTATGCGTAATCAACGTCTTCCGGCTGGGTGTACAGTGCAGAAGCGTCCATGTGG -CTGTTGTCCACGCCGTCTTCTTCACCACCGGTGCAACCCAGTTCGATTTCCAGAGTCATGCCGATTTTGGACATG -CGCTCCAGGTATTTAGAGCAGATTTCGATGTTCTCTTGCAGAGATTCTTCAGACAGGTCGATCATGTGAGAAGAG -AACAGCGGCTTACCGGTAGCTGCGAAGTGTTTTTCACCCGCGTCCAACAGACCGTCGATCCACGGCAGCAGTTTC -TTCGCGCAGTGGTCAGTGTGCAGGATAACCGGAACACCATAATGTTCAGCCATCTGGTGAACGTGATGCGCACCA -GAGATCGCGCCCAGGATAGCAGCACCCTGCGGAACGTCAGATTTCACGCCTTTACCAGCGATAAAGGAAGCACCA -CCGTTGGAGAACTGAACGATAACCGGCGCTTTAACTTTAGCAGCGGTTTCCAGTACGGCGTTGATGGAGTCAGTA -CCGACGCAGTTTACTGCTGGCAGTGCGAAGTTGTTTTCTTTTGCTACCTGGAAAACTTTCTGTACGTCATCACCA -GTGATTACGCCAGGTTTTACGAAATCAAAAATCTTAGACATGTCTCTTGTCCTGTATCGTCGGGCCTTATACTCG -TCATACTTCAAGTTGCATGTGCTGCGTCTGCGTTCGCTCACCCCAGTCACTTACTTATGTAAGCTCCTGGGGATT -CACTCTCTTGTCGCCTTCCTGCAACTCGAATTATTTAGAGTATGAAAAATTGCGTGCTCTAAAAGCGCGCTGAAA -CAAGGGCAGGTTTCCCTGCCCTGTGATTTTTTACTTCTTAGCGCGCTCTTCGAGCATCGCTACTGCAGGCAGTAC -TTTACCTTCCACGAATTCGAGGAATGCGCCGCCGCCAGTGGAGATGTAGGAGATTTTGTCAGCAATGCCGAACAG -GTCGATTGCTGCCAGAGTGTCGCCGCCGCCAGCGATGGAGAACGCTTCGCTGTCTGCGATAGCGTTAGCCACGAT -TTCAGTACCTTTGCGGAAGTTCGGGAATTCGAACACGCCAACCGGACCGTTCCACAGAATGGTTTTCGCATTCTT -CAGGATTTCAGCCAGTTCCTGAGCGGAAGCATCACCGATATCCAGGATCTGCTCGTCAGCTTTCACATCGTTAAC -AGATTTCAGGGTAGCCGGTGCAGTTTCAGAGAACTCGGTTGCTACGCGAACATCAGACGGAACCGGGATGTTGCA -GGTGGTCAGCAGACGTTTAGCTTCGTCAACCAGGTCAGCTTCGTACAGGGATTTACCCACATCGTGGCCTTGTGC -CGCGATAAAGGTGTTAGCGATACCACCACCAACAATCAGCTGGTCAGCGATTTTAGACAGGGAGTCCAGAACGGT -CAGTTTGGTAGATACTTTAGAACCACCAACGATAGCCACCATCGGGCGAGCAGGTTCTTTCAGTGCTTTACCCAG -CGCGTCCAGTTCAGCTGCCAGCAGCGGGCCTGCGCACGCAACGTCAGCGAATTTACCGATACCGTGAGTAGAAGC -CTGCGCGCGGTGAGCAGTACCGAATGCGTCCATTACGAACACGTCACACAGTGCAGCGTATTTTTTGGACAGGGT -TTCGTCGTCTTTCTTCTCGCCTTTGTTGAAGCGAACGTTTTCCAGAACAACCAGTTCACCTTCAGCAACGTCAAC -GCCGTCGAGGTAATCTTTAACCAGACGAACCGGGTTAGACAGTTTGTCTTTCAGGTAGTTAACAACCGGCAGCAG -AGAGAATTCTTCGTTGTACTCGCCTTCGGTAGGACGACCCAGGTGGGAAGTTACCATCACTTTTGCGCCTTGTTT -CAGGGCCAGTTCGATGGTCGGCAGAGAAGCACGGATACGCGCGTCGCTGGTTACTTTCCCGTCTTTTACTGGTAC -GTTCAGATCCGCACGGATAAATACACGTTTCCCAGCAAGATCCAGATCGGTCATCTTAATTACAGACATGGTGAA -TCCTCTCGTTGATTCTAAAAGTTTTGCAGACGCTGCTTGCGTCTTACCTGAAAGCAACAGTAGCCATAGCTAACG -TCGTGTCGAGCATTCGGTTAGCAAAGCCCCATTCGTTATCGCACCAGACCAACGTTTTGATCAGGTGTGCGCCAC -TGACCCGGGTTTGGGTGCCATCGACAATGGCACTGTGCGGATCGTGGTTAAAATCTACAGAGACCAACGGCAATT -CCGTATAGTCAACTATACCATGAAATGCACCTTGTGCTGCTTTTTGCAGCAACAGGTTGACTTCATTGGCTTTTA -CAGGTTTCTTCACCGTCACGCTTAAATCGATTGCCGTCACATTTATGGTTGGCACACGTACCGCAATCGCTTCAA -AGCGATCGTTAAATTGCGGAAAAAATCGTGTGATACCGGCGGCCAGTTTAGTATCGACCGGAATGATCGACTGGC -TGGCTGCCCGGGTGCGACGCAGGTCAGGATGGTATGCATCAATAACCTGTTGATCGTGCATGGCGGAGTGAATTG -TGGTCACAGTGCCGGACTCAATACCGTACGCATCATCTAACAATTTGATGACGGGAATTATGCAATTCGTGGTAC -AGGAAGCGTTAGAAACGATGCGGTGTTCCGCACGAAGTTGATCCTGATTGACGCCGTAAACAACGGTCGCGTCGA -GATCGTTACTGCCAGGATGTGAAAAGAGCACTTTTTTGGCCCCGGCGGCAATATGCGCTTCGCCATGCTCGCGGG -AGCCATATACGCCGGTGCAGTCGAGGACTACATCAACGCCAAGTTCACGCCAGGGGAGCGATTGCAGTGAACGTT -CATGCAATACGCGGATGGCGTCATCACCAACAAAAAGTTGATCGCGTTCCTGTCGTACTTCCCATGCAAAACGGC -CATGGCTGGTGTCATATTTCAACAAATGCGCCATGCCCGCAGCATCCGCCAGTTCGTTGATTGCCACCACGGTAA -TTTCCGCCCGGCGTCCGGATTCATACAAAGCACGAACCACATTACGCCCGATGCGACCGAAGCCATTTATCGCTA -CGCGTACGGTCATAGATCTCCTGCAAGGTTTTCCCTGAGCAAATTTGCCAGACAGAGTAATCCAGCAAATCGTCC -GGGGAAACCTTACCTGTCGCAAACTGCGACTGATTGGTTAATTGTCGAACATTTAATCGACTGAAACGCTTCAGC -TAGGATAAGCGAAACGTGGAATAAAAGGAATGTTTGTCCAGCCGAAGAAGACATTTATCTGACTCACATCACACT -TTTATCCCCTTTTGTGGGAAGCTTTATTCCAGGCTGGCGTAATAATAACCCTACAATAACTGGAATAAATTGTCA -GCTTGTGAAGTGATACCGGCCTTCTTCAGTCATCTCTACTATCAGATTGGCCTGACGGCTATTCATCAGCACACG -CTCGACATTGGGGCCATCGGTGCGGGCATAAAATGCTTCGGCTACTTGCCGCGTTAATCCTCCCGCAATTTTACG -ACTAATCAAGCGCTCCCGCAGAATTTGAGCAGGTGCATGAATAAAAATAGAAAAATCGCAGAAAGATGCCAACTC -CAGCCACTTTTCATCATCCAGTAACAACCAGTTTCCTTCGACGATGACGAGTGGTGCGGTAACGTGCAACGCATC -TTCAACAGGATCATGCTTTTGTCGATCGTACTGCGGCCACGTACAATCCCCTTCCACGACCTGGCGCAGATTTTC -CGTCAGTTTCGCAACGTCAAATGTCTCTGGTGCGCCTTTGAAGGGGCGCAATTGATGCGCATCCAGCCAGCTATT -GTAATGGTGAAAACCATCCATCGGGAGCGTCTGAATAGCGGGCAGTTCCGGGTCTTGTTGCGCGAGATATTCCCA -GAAGGTGGTTAGGGTTGATTTACCCGTCCCCGGCGGAGCGCAAAGAAAAACCACCGTACGCCGCTGCGGATTTAC -CGTCTGTAAGGCCGCCAACATGTGCAGCAACGGTTTATGTACATTTTCAATCTCTTCGTTCTGGTACTGTGCCTG -TATCTTCAGCCCATTCACCGTTAATTCAATTTTCACGGCGTTAATTCCTTTAAGGTGGTCGTTACTGCCAGCGTC -AGCGCCGTTTTGACCATTCCGCTAAAACGCGCCTCTGACCAGACGGAGAAATCAGCGAACTTCATCGCTTTTAAC -GCGTCATAGAGCATCGCATTGCGGGTTATGCTATTGACGTTGCTGATAAAATCCCAGGTCATGTCATCGGCAAAT -CCGGGCGTTTCATCCTGTTCGTTCAGGTAATGCCAGAACTGGGAAAAATGCGTGATATCGGCGTACAACCATTTA -TCCATTTTCCCCAACGCATAAATCAAACGCAGTGCAACATCAATATCGTCAAGCGGGCCGCTTTGGGCGAGTAAC -GGCTTCACTGCATATTCCACGATCTCTTCATCGTTATCGACAAACAGCGACGGCAGAAACTGGCGTATCCCCTGG -AGCAAAATGGTATGCGCAGTTTTCATAAATGAAAATAAATTGTCCTGTGCATCCAGTTGCTCAAGCACATCATCT -TCTGTCAGCGTCGCCATTGGTCTTCCGATAGATCACCATCAATGCAGGGAGTCTATTATATTACACGTTTGGTCC -GCGCCGCCGATCAGTAATGTCTGCGTCCGCACCCCATTCGCCGTCTGTTGGATACCGTTCACCAGCTCACCGCCC -GTCACGCCCGTAGCGCTAAAGAGGATATCGTTCCCCCTCACCAGTTCATCGAGCGAGTACACACGGTTAACGTCA -ACGCCCATTGCCTTGCAACGCTTGCGCTCCTGCTCTGCAATCTGCCGATTTTCCGTGTAATCCCCTTTAGCCTGG -CAAAAGTCAATCAGCTCGGCCTGCATATCCCCGCCTAATGCTTTAACGGCACAGGCAGAAATCACGCCTTCTGGC -GCACCGCCGATGGTGTACATCACATCGTAAGGATTATCCTGCCAGCAGGTCAGCACGCTGGCGGCGACATCGCCA -TCCGGCAGGGCAAAAACCTTCACGCCCAGCTGTGTTGCTTCCTCAATCGCGGCACTCAGGCGCGGTTTATCCAGC -GTAACCATGCGCAGCTTATCCAGCGGTTTGCCTAACGCTTTCGCCACGTTGCGCAGGTTGTCCGTCAGAGGCAAA -GACAGATCAATCGCGCCCGCCGCCAGCCGATTAACAACCAGCTTTTTCATATACATATCGGGCGCATGTAACAGG -CTATCTCGAGGGGCGAAAGCCATGACCGCCAGCGCATTGCTCTGCCCCATCGCCACCATCCGCGTGCCTTCAATG -GGATCAACCGCGATATCGACTTCTGGCCCATCGCCTTTGCCCACCTCTTCGCCAATCCACAGCATCGGCGCATGG -TCAATTTCTCCTTCGCCGATAACCACTCGTCCACGAAAAGCGACGTCGTTTAATGCCTGGCGCATCGCGGTGACC -GCCAGGCCATCAATTTTATTTTTGTCGCCACATCCGGTTTGCGGCCAGGCAGCCAACGCTGCCTGTTCCGTAACG -CGAAATAATGGCCACGCCAGGGACATCATTGCGCGGCCTCCCCGATATCAACGCCAAATTGTGCCAGCAGATATT -TCTCGGCCTGTTCATTCCAGATGCCGTGCGTTTCCTCAACCAGCCGCGCCAACTCTTTAAACAGCGGATCGGTTT -TGCCTTTTTCGGCAAAATCGGCAATGGCAGTGAGCGGCATGGTCACGCCGTTATAAATGAGTTTTTTACCGCCAG -GGATATCCGGCAGATTGAGCACGGTTTCTGGCACCGCATCCAGGCCACCGATATGGGTCACCATAAACGACGGCT -GTAACTGCCCAGTGGCGCTAAGGGCAATCGCCTCTTTCATGTCGTCCGTTGAACCGCCAGATGTACCGACGACGT -GCGTGCTGTTGTAATGGACGTTGTAGAAATTAAACGGCACTTTGAAGTTTTTATCCGTCGGCCCGGCAAAGAAGT -TCAGACAGCCATCTTCCGCCAGTAATTCATCAGCCATCTCAACGACAGCAGGCACCGCCGCATAAACAAAAATGT -CATCGAACCCGGCATCTCCTGTCAGCGCCCGCAGCATCTGGACAGGATCGCTCATCCCTTTGGTATTCACATACA -CCAGCTCAATGCCTTTACTGGCCGCCAGTTCCACCGGCAGCAGCTTCTGTACCTGCGCCAGACGTTTGTCGTCGA -TATCGACCACCACCACCCGCGACGGTTGTATGCCGCCGTTAATGGCGTAATCGATAGCGCCAATGCCCATCGGAC -CTGCACACGCCAGCAGTGCAATATTGCCGCCAGGTTTGACGCCCATGCGATGCTCATAAACATATTGCGTGGTGT -GATAATTGGCATGATAAGCACCAATAATGCAGCACATAGGCTCTGCCAGCGACGCCGCAGCAAAATAAGAGCCGT -GATACGGTAATACGCAGCCCAAATTAATGGCGATTTCGGGAATAATCATATAAGTGGCATTGCCGCCAAAATATT -CGTAGCTGTAGCCCGCTGAATATCCGCTTGGTAACCCCATCGCCGGTTGCAATACAAAACGCTGGCCTTTTTTAT -ATTTGCCAGTGAGATTTTTACCCACTTCGACAATAACCCCGGCACATTCATGCCCGGTAATGACCGGATGATTTT -CTAAATCGTCGGGTACGCGTTTATGTTCACTACCGAGTAACGCCGCTTTCCAGGTCGATAAACAGACGCTGTCAG -AAATTACACTCACCAGTAATTCATTATCGGTAATTTCTGGCAGTTCAAATACGCGCAGACGGACATCCCGCTTGC -CATAAATAGCAGCAACTTTGGTTTTCATTTTTACCTCTGTAATCAGTGTTTATGTTCGGCGGTTAATTGATTAAA -TAAAGTGTCGAGTTTTGGATCGCCAATATAGTTATTAATCAATATCAGTGGTTTATCCGTCACACGTTTCACGCG -CCCTTCCAGACTGGCATGAGTAACGACGATATCCGCATCCGCAGGCACGTTTTCTATGGCGTAATGTTTTACTTC -AATTGCCAGCCCCGCTTTTTCCAGGCGTTTACGGAAGGTGGTCGCGCCCATCGCACTGGAGCCCATCCCCGCATC -GCAAACAAAGGCGATACGCTTAACCCTGCTTAACGAGAATGCACCCTCTTGTTTCATCGCCTTAACCGCATTGGC -TGACTGAGCAAACTCATCTTCGCTCTCCGTTTCCACCGTTTTTTCCATCTTCAGTATCAGCGAAGTAATAGCAAA -GGACACCAGGGTACCTACCGTAACACCGGCAATTGTCGCCAGGAACGAGCCTTTCGGCGTCAGTGCCAGGTAAGC -AAAGATAGACCCCGGACTTGGGCCAGCCACCAGACCACCGTCCAGTAAGTTAAACATCCAGGTGCCAGACATACC -GCCCGCAATCATGGCAATAATGGTCAGCGGCTTCATCAGCACATACGGGAAATACAGTTCGTGGATCCCACCGAG -GAAGTGAATAATCATCGCCCCGGGCGCAGAACGTTTACTCATCCCTTTACCAAACAAGGTAAACGCCAGCAGCAG -CCCCAGGCCCGGACCTGGGTTAGAGGCCACCATAAAGAAGATGGATTTACCGTTAACCGAAGCCTGTTGCATTCC -CAGCGGATAATAGACGCCCTGATCGATCGCATTATTGAGGAAAAGCACTTTCGCCGGTTCATTGATGACTGACAA -CAATGGCAGATAACCCGCATGTACCAGCGCCTCAATACACTCTTTGACGAAAGTATTGGCAATTAACACCGCCGG -GCCGATAACTTCAAAACCCAGCAGACAAAGGAGCATCCCCGCGATACCTAATGAGAAGTTATTGATAACCATCTC -AAAACCGGCAGGTATGCGTTTTTCCAGTGCCTTATCGACATATTTTATGACCAACCCACCGAGCGGCCCCATGAT -CATTGAGCCAAGGAACATCGGGATCTCTGCGCCAACGATCACACCAATAGTACCTATTCCGCCCATGACCGCCCC -GCGTTTACCGCCGACCAGATGACCACCTGTAGAACCAATCATCACGGGCAATAAATAGGTAATCATCGGGCCGAC -AATTTTGGCGAAATGTTCGTTAGGCAGCCAACCGGTGGGAATAAATAACGCAGTAATAAAACCCCAGGCAATAAA -AGCACCAATATTGGGGATGACCATTGCAGTCAAAAAGCCCCCAAAAGCCTGGACCTTTGCACGAGCAGACTTGTT -TTCCATAATATTATCCTGTAGAGGAGAGAGTAATTATCCGCGGCTGATAATGTCCGCTAATTGTTTTTCTGATGA -TGCTGTTAAGAGTTGTTCGAGTATTTCTTCTTCGCACAGTAATTCACTTAACGCCTGAATAGCGCCAATGTGCGA -ATCGGCATCGGCAGCAGAGAGTCCGATGAGTAATTTAATTGGTTCGTCATTCCCCGGAAAATAAACACCTTGTTC -AAGTAATGTCAAAGACATCCCGGTTTTAAGCGCCCCACATTCCGGTCGCGCATGAGGCATTGCCACGCCTGGTGC -GAGAATATAATAAGGGCCATTGTTAATGGTGGAATCTTTAATTGCCTGAATGTAATTCTCGCTGATATAGTTTTT -ATCCAGCAATGATACCATCGAGAAATCGATAGCTTCCTGCCAATCTTTTGCTGAATGTATAACTGAGATTGATGA -TTCTGGAAAATAATCACTAAGCCGCATAAATTATCCTTATTTTATTTTTAGGGTACCGTCCGGCGGTAAAAATAA -AATACTCGTGCGGTTTAATGAAAGCAATTGAGCAGGGAAACCGGTGTTTTGAAAACAGTGAATTATTAATTTCTT -ATATAACATTGAGTTATAGATATAACAACAAATGTCAATACGCATATCGTGATGCATATTACATAATTGATATTT -ATTGCATATAAATATTTGTGATCTACAACACGCCTTATCTATTGCTTGTCCGCAAACGGACATATCAAGGTAATA -AAAAAGGTCGCCGAAGCGACCTTTTTACCCGAAATGCTAATTACAGCAGTTCTTTTGCTTTCGCAACAACGTTAT -CAACAGTGAAGCCGAACTCTTCAAACAGCAGCTCTGCCGGAGCAGATTCACCGAAGGTGGTCATACCGACGATAG -CACCGTTCAGGCCAACATACTTGTACCAGTAGTCAGCAATACCCGCTTCTACAGCAACGCGTGCAGTAACCGCTT -TCGGCAGTACGGATTCACGGTAAGCAGCATCCTGCTTGTCAAATGCGTCGGTAGACGGCATGGACACCACGCGCG -CTTTCACGCCTTCGGCAGTCAGTTTTTCGTAGGCAGCAACAGCCAGTTCAACTTCTGAACCGGTAGCGATGAAAA -TCAGTTCCGGCTGACCGGCGCAGTCTTTCAGCACATAACCACCGCGCGCGATGTTTGCCAGTTGCTCTTCAGTTC -GTTCCTGCTGCGCCAGGTTCTGACGGGAGAGGATCAGTGCGGTCGGGCCGTCCTGACGCTCAACACCGTATTTCC -ACGCGACCGCGGATTCAACCTGGTCACACGGACGCCATGTAGACATGTTCGGGGTTACGCGCAGAGAAGCGACCT -GCTCAACCGGCTGGTGAGTCGGGCCGTCTTCGCCCAGACCGATGGAGTCGTGGGTGTAAACCATCACCTGACGCT -GTTTCATCAGCGCAGCCATACGTACGGCGTTACGTGCGTATTCCACGAACATCAGGAAGGTGGAGGTGTACGGCA -GGAAGCCACCGTGCAGGGAGATACCGTTAGCAATCGCGGTCATACCGAACTCGCGAACACCGTAGTGGATGTAGT -TACCCGCAGCATCTTCGTTGATTGCTTTAGAACCAGACCACAGGGTCAGGTTAGACGGCGCCAGGTCAGCAGAAC -CGCCGAGGAATTCCGGCAACAGCGGACCGAACGCTTCGATAGCATTCTGAGACGCTTTACGGCTGGCGATTTTCG -CCGGATTAGCCTGCAGTTTAGCGATGAACTCTTTCGCTTTAGCGTCGAAGTCAGACGGCATTTCGCCTTTCATAC -GGCGGGTAAATTCAGCGGCTTCCTGCGGATAAGCTTTCGCGTAAGCAGCGAATTTCTCGTTCCATGCGGATTCTT -TCGCCTGGCCTGCTTCTTTCGCATCCCACTGAGCATAGATTTCAGACGGGATTTCGAACGGCGCATATTTCCAGC -CCAGTTGTTCGCGGGTCAGGGCAATTTCAGCGTCGCCCAGCGGCGCACCGTGGGAGTCGTGGGTACCGGCTTTGT -TCGGGGAACCGAAACCGATGATGGTTTTGCACATCAGCAGGGAAGGTTTGTCAGTCACTGCGCGCGCTTCTTCTA -CTGCGCGTTTGATAGATGCCGCGTCATGACCGTCGATGTCGCGAATAACGTGCCAGCCGTAAGCTTCGAAACGCA -TTGCGGTGTCGTCGGTGAACCAGCCTTCAACGTGACCATCGATAGAAATACCGTTGTCATCGTAGAATGCAATCA -GTTTACCCAGCTTCAGCGTACCCGCCAGAGAGCAAACTTCGTGGGAGATGCCTTCCATCATGCAGCCGTCGCCCA -TGAAGGCGTAGGTGTAGTGGTCGACAATGTCGTGGCCCGGACGGTTAAACTGCGCCGCCAGCGTTTTTTCTGCAA -TCGCCATACCGACTGCGTTGGCAATACCCTGACCCAGCGGACCGGTGGTGGTTTCCACACCAGCGGTGTAACCCA -CTTCCGGGTGACCCGGAGTTTTAGAGTGCAGCTGACGGAAGTTTTTCAGTTCTTCCATCGGCAGATCGTAACCGG -TGAGGTGCAGCAGGCTGTAGATCAGCATGGAGCCGTGGCCGTTGGACAGCACGAAGCGGTCACGGTCAGCCCAGG -ACGGATTCTGCGGGTTGTGTTTCAGGAAATCACGCCACAGGACTTCGGCAATGTCAGCCATACCCATAGGGGCAC -CCGGGTGACCGGATTTGGCTTTCTGTACTGCGTCCATGCTCAGCGCACGAATAGCATTGGCAAGCTCTTTACGTG -AGGACATTTTGACTCCAGATCGGATGATGAAGGGCACGCCCTTAACGACTTGACGACAGCGCGTTTTGGGCTACG -CCGGAAAATTTGCCAACAATTTACCGCAAGCCGCGCGTCATGTACATGGAACATCCTTTTGCCGCTTCAGAAATC -TCTGGATCATGCTCGCATGTTGCGCAATCTACTCGCCCGTCCGCTGCGCTTTTCCTTATACTGAGACTGAGCGTC -GATTCACCTGCAAACGGCGCATTTTTAGAATAATCCTGACCTTGTGCGGAAGAGAAAACATGAAAATTCGCGCCT -TATTGGTAGCAATGAGCGTGGCAACGGTACTGACTGGTTGCCAGAATATGGACTCCAACGGACTGCTCTCATCAG -GAGCGGAAGCTTTTCAGGCTTACAGTTTGAGTGATGCGCAGGTGAAAACCCTGAGCGATCAGGCATGTCAGGAGA -TGGACAGCAAGGCGACGATTGCGCCAGCCAATAGCGAATACGCTAAACGTCTGACAACTATTGCCAATGCGCTAG -GCAACAATATCAACGGTCAGCCGGTAAATTACAAAGTGTATATGGCGAAGGATGTGAACGCCTTTGCAATGGCTA -ACGGCTGTATCCGCGTCTATAGCGGGCTGATGGATATGATGACGGATAACGAAGTCGAAGCGGTGATCGGTCACG -AAATGGGGCACGTGGCGTTAGGCCATGTGAAAAAAGGAATGCAGGTGGCACTTGGTACAAATGCCGTGCGAGTAG -CTGCGGCCTCTGCGGGCGGGATTGTCGGAAGTTTATCTCAATCACAACTTGGTAATCTGGGCGAGAAATTAGTCA -ATTCGCAATTCTCCCAGCGCCAGGAAGCAGAAGCCGATGATTATTCTTACGATCTTCTGCGCCAACGCGGCATCA -GCCCGGCAGGTCTTGCCACCAGCTTTGAAAAACTGGCAAAACTGGAAGAAGGTCGCCAAAGCTCAATGTTTGACG -ACCATCCTGCATCCGCCGAACGCGCCCAGCATATTCGCGATCGCATGAGCGCGGATGGGATTAAGTAAAGCCTGG -TGGTGTCGAACGTAGGTCAGATAAGGCGTTCACGCCGCATCTGACATGAATGGCACATTTGTTACCTTGTGCGCA -TTGCCGGATGCGATGCTGGCGCATCTTATCCGGCCTACGGGTGCCGAACGTAGGTCGGATAAGGCGTTCACGCCG -CATCCGACATTAATGGCACGTTTTACCCGTGCGCATCGCATCTGGTGCTTACTCGCCCTTTTTCGCCGCCTGAAT -ATACAGCATTTCCAGCGCCAGCGTTGCCGCTGCCAGAGCAGTGATTTCCGACTGATCGTATGCCGGAGCCACTTC -CACTACGTCCATCCCAACAATGTTGAGATCTTTCAGGCCGCGTACCAGTTTAATAGCGCGATCGGAGGTCAGGCC -GCCAATCACTGGCGTACCGGTGCCTGGTGCAAAAGCAGGATCCAGGCAGTCGATATCAAAAGTCAGGTAAACCGG -CATATCACCCACAATCTGTTTCACTTGGGCGATAACGTCATCCACGCTGCGATCGTTCACCTGGCAGGCGTCCAG -CACGGTAAAGCCGTTGTCTTTATCAAACTCGGTACGAATACCAATCTGCACGGAATGATTCGGGTCGATCAGACC -TTCTTTCGGCGCGGTATAGAACATAGTGCCGTGGTCAAATTCACAACCGTTCGCATAGGTATCGGTGTGGGCGTC -AAAGTGTACCAGCGCCATTTTGCCGAAATGCTTCGCATGAGCACGCAGCAGCGGCAGCGTAACAAAGTGGTCACC -ACCGAAAGAGAGCATACGCTTACCGGCAGCCAGCAGCTTCTCGGCGTGCGCCTGCAGCTTTTCGCTCATCTCACG -GGCATCGCCAAAGGCATATACCAGATCGCCGCAGTCCACGACGTTCAGACGCTCACGCATGTCGAAATTCCACGG -GAAGCGGTTGTGTTCCCAGGCCAGATTCGTCGAAACCTGACGGATCGCTGCCGGACCGTGGCGACCACCCGCACG -ACCAGAAGTGGCCATATCGAACGGCACGCCAGTAATCACCCAGTCTGCATCGCTGTCATACGGCTGGAAGTTCAT -CGGCAGGCGTAAAAAACCAAAGGCATTGGAAACCAGTGAGTTATCGTATTGATGACCTAAGGTGCTCATGGATGG -ACTCCTATTACAAAGTCGATATAAAAAAACCCTTCCGCGTCGTTAGGCCCGACGAGGAAGGGTTGGATTTGTCAC -AATAAATTGTGGCGGATTATCACCGCTAAATTAAGCGGATTCAAGTAACACAGGACTTACTCATCTTCAAGATAA -GTATAACCGTACAAACCTGCCTCGAACTCTTCAAGGAACTGTTGTTGCAGTTCAGCATCAAGATCGGTTTTCTTC -ACTTGATCGCGGAACTGGGTTAACAGCGTTTTCGGATCGAGCTGTACATATTGCAGCATGTCCGCCACGGTATCG -CCTTCGTCAGACAGTTCTACTTCTACGCTACCGTCAGGGAAGACGAACACGTCAACCGCTTCGGTATCACCGAAC -AGGTTGTGCATGTTGCCGAGGATCTCCTGATATGCGCCGACCATAAAGAAACCGAGCATCGGCGGATTCTCTGGA -TCGTACTCCGGCATTGGCATTGTCGTGGCAATACCGTCACCATCAATATAGTGGTCGATAGCACCGTCAGAGTCA -CAGGTAATATCCAGCAGCACAGCGCGACGTTCCGGCACTTGATCCAGCCCTTCCAGCGGCAGAACCGGGAACAAC -TGGTCGATCCCCCATGCGTCCGGCATCGACTGGAACAGCGAGAAGTTGACGTACATTTTGTCCGCCATACGTTCC -TGCAGCTCGTCGATAATCGGACGATGAGCACGGTTTTGCGGATCCAGCTGCTTTTGCACTTCATGGCACATGCTC -AAATAAAGCTGCTCAGCCCATGCACGTTCTTGCAGGCTAAAGATGCCGGAAGAGTAGCCGATATGAATGTCGTGC -AGATCCATCTGACTGTCGTGTAACCATTCACGCAGAGAACGGCGAGTTCCCGGTTCGTGCATCTCCTGCCAGGTT -TCCCACATGCTTTGCAGCGCGCGCGGCGCATCTTCTGCAGGCGCGGTCGGCACCGTGTATTCGTTACGTTCCACG -CCGATGATATTAGACACCAGCACGGTGTGATGCGCAGTCACCGCACGACCCGATTCGGTGATTACCGTCGGATGC -GGCAGACCGTTTTCTTCACACGCATCGCCAATCGCCCAGATAATGTTGTTGGCGTATTCATTGAGGCCGTAGTTC -ACCGAACAGTCGGACTGCGAACGAGTACCTTCATAATCCACGCCCAGACCGCCGCCGACGTCGAAGCACTGAATA -TTGACGCCCAGCTTGTGCAGTTCCACATAGAAACGCGCGGATTCACGAACGCCTGTCGCGATATCGCGAATATTC -GCCATCTGCGAACCGAGGTGGAAGTGCAGTAGTTGCAGGCTGTCGAGACGCCCGGCTTCACGCAGGGTTTCAACC -AGTTGCAGTACCTGAGTCGCAGCCAGGCCGAACTTCGATTTTTCCCCGCCGGAGGACTGCCATTTACCCGAACCC -TGCGAAGCCAGACGTGCACGCACGCCCAGACGAGGAACGACATTCAGACGTTCTGCTTCATCCAGCACAATGGCG -ATTTCTGACATCTTCTCAATGACCAGATAGACCTTGTGCCCCATCTTCTCGCCAATTAATGCCAGGCGGATATAT -TCGCGGTCTTTATAACCGTTGCAGACGATGACGCTACGGGTCATGCCAGCATGTGCCAGTACTGCCATCAACTCG -GCTTTGGAACCGGCTTCCAGACCCAGCGGTTCGCCCGAATGAATCAGGGACTCAATCACGCGGCGGTGCTGGTTA -ACTTTGATCGGATAAACAAGGAAGTAATCGCCGTTATAGCCGTAGGATTCCCTCGCACGTTTGAACGCGGCGTTA -ATGGAACGCAAACGGTGCTGCAGGATCTGTGGGAAACAGAACAGTGCAGGCAGACGCTGGCCCTGTGCTTCACGA -GTTTTCACTAACTGCGCGAGATCGACGCGAGCTTCCGGGACGTCCGGGTCCGGGCACACGCTAATGTGGCCCAGC -TCGTTAACGTCATAGTAGTTATTGCCCCACCAGGCAATATTGTAAGTACGCAGCATCTTGCTGGCTTCCTGGGAG -CTCATTGCAACCTCCTGCATGGAGCGTAGTACACCGTGTTCGCCCGCTGACGAAGGCAAACCCATAGACATGTCG -TCAGACATAGCGAACCTCAAATTATTTTATTAAGTGTAAAACAGTTAACGACTATCGCAGCCTGGAACTGCGATA -ACAACCCATAAGCACATGGATTTTCCAGCAGTGAATGCTGACGCTCCAACTGCGCAACCGGTTTCTTTTTCATAA -CATTATTAAGCACATAACCGAACGTAAGTGTGAAAGTTCGGCGAAACCACGAGAAAACTCTTGTTTTTACAAGAG -CGCCCTTGTTCAGTCCTCAGTAACTGTAACCAGCTCTTGAATCCTGAGAAGCGCCGAGATGGGTATAACATCGGC -AGGTATGCAAAGCAGAGATGCAGAGTGCGGGGAACGAATCTTCACCAGAACGGTGAGACAGGTTAAGCAGCAGAC -AACGGTTCATTATTTCGTATCACCTCCACGGCCGCCTGTTAAGACGAACCCACAAGCCAAAACTCTGATTTCAAC -CCGGCTGGAAGTGGCAACACGAAAGAAACGTCGTGTGCTTTTTATTTAAGCCGCGCGCCGCGTTTTATACCCCAC -AATGGCAGAAAATTGCAAAAGATAAATACGCAGAATGCCGGCATTGTCAGGAAAAATTTCCAGCCACGTTTTTAA -CAGAATGAGACACGATTCAAAAAAAAGTGGAAATAGGGTGAAGAATTGACCTAAAATAGCCATCCAGATGTTAAT -CCATCCATACCGATTAACACTCAGACTGCCAGTGTTTTTAACCTGCAGAGTCGTGGTAGGATCCGCTACCACAGA -AAATCCACACAACAGTTTGAGCTAACCAAATTCTCTTTAGGTGATATTAAATATGGCAAAACACCTTTTTACGTC -CGAGTCCGTCTCTGAAGGGCATCCTGACAAAATTGCTGACCAAATTTCTGATGCCGTTTTAGACGCGATCCTCGA -ACAGGATCCGAAAGCACGCGTTGCTTGCGAAACCTACGTAAAAACCGGCATGGTTTTAGTTGGCGGCGAAATCAC -CACCAGCGCCTGGGTAGACATCGAAGAGATCACCCGTAACACCGTTCGCGAAATTGGCTATGTGCATTCCGACAT -GGGCTTTGACGCTAACTCCTGTGCGGTTCTGAGCGCTATCGGCAAACAGTCTCCTGACATCAACCAGGGCGTTGA -CCGTGCCGATCCGCTGGAACAGGGCGCGGGTGACCAGGGTCTGATGTTTGGCTACGCAACTAATGAAACCGACGT -GCTGATGCCAGCACCTATCACCTATGCACACCGTCTGGTACAGCGTCAGGCTGAAGTGCGTAAAAACGGCACTCT -GCCGTGGCTGCGCCCGGACGCGAAAAGCCAGGTGACTTTTCAGTATGACGACGGCAAAATCGTTGGTATCGATGC -TGTCGTGCTTTCCACTCAGCACTCTGAAGAGATCGACCAGAAATCGCTGCAAGAAGCGGTAATGGAAGAGATCAT -CAAGCCAATTCTGCCCGCTGAATGGCTGACTTCTGCCACCAAATTCTTCATCAACCCGACCGGTCGTTTCGTTAT -CGGTGGCCCAATGGGTGACTGCGGTCTGACTGGTCGTAAAATTATCGTTGATACCTACGGCGGCATGGCGCGTCA -CGGTGGCGGTGCATTCTCTGGTAAAGATCCATCAAAAGTGGACCGTTCCGCAGCCTACGCAGCACGTTATGTCGC -GAAAAACATCGTTGCTGCTGGCCTGGCCGATCGTTGTGAAATTCAGGTTTCCTACGCAATCGGCGTGGCTGAACC -GACCTCCATCATGGTAGAAACTTTCGGTACTGAGAAAGTGCCTTCTGAACAACTGACCCTGCTGGTACGTGAGTT -CTTCGACCTGCGCCCATACGGTCTGATTCAGATGCTGGATCTGCTGCACCCGATCTACAAAGAAACCGCAGCATA -CGGTCACTTTGGTCGTGAACATTTCCCGTGGGAAAAAACCGACAAAGCGCAGCTGCTGCGCGATGCTGCCGGTCT -GAAGTAATCTTTCTTCACCTGCGTTCAAAGGCCAGCCTCGCGCTGGCCTTTTTCTTTTGGATAGGCGTTCACGCC -GCATCCGGCAAAAAAACCGCCCGCACAATAACATCATTCTTCCTGATCACGTTTCACCGCAGATTATCATCACAA -CTGAAACCGATTACACCAACCACAACAGACAAAGATTTGTAATATTTTCATATTATTATTCGGTTTTCACAGTTG -TTACATTTCTTTTCAGTAAAGTCTTAATTGCAGATAACAGCGTTTAATCTATGATGATATAACTCAATTATTTTC -ATGCACTTAAATCATAACTAAGATAAATGTTAGTGTAAGCGATTACACTGATGTGATTTGCTTCACATCTTTTTA -CGTCGTACTCACCTATCTTAATTCACAATAAAAAATAACCATATTGGAGGGCATCATGCCTGACGCTAAAAAACA -GGGGCGGTCAAACAAGGCAATGACGTTTTTCGTCTGCTTCCTTGCCGCTCTGGCGGGATTACTCTTTGGCCTGGA -TATCGGTGTAATTGCTGGCGCACTGCCGTTTATTGCAGATGAATTCCAGATTACTTCGCACACGCAAGAATGGGT -CGTAAGCTCCATGATGTTCGGTGCGGCAGTCGGTGCGGTGGGCAGCGGCTGGCTCTCCTTTAAACTCGGGCGCAA -AAAGAGCCTGATGATCGGCGCAATTTTGTTTGTTGCCGGTTCGCTGTTCTCTGCGGCTGCGCCAAACGTTGAAGT -ACTGATTCTTTCCCGCGTTCTACTGGGGCTGGCGGTGGGTGTGGCCTCTTATACCGCACCGCTGTACCTCTCTGA -AATTGCGCCGGAAAAAATTCGTGGCAGTATGATCTCGATGTATCAGTTGATGATCACTATCGGGATCCTCGGTGC -TTATCTTTCTGATACCGCCTTCAGCTACACCGGTGCATGGCGCTGGATGCTGGGTGTGATTATCATCCCGGCAAT -TTTGCTGCTGATTGGTGTCTTCTTCCTGCCAGACAGCCCACGTTGGTTTGCCGCCAAACGCCGTTTTGTTGATGC -CGAACGCGTGCTGCTACGCCTGCGTGACACCAGCGCGGAAGCGAAACGCGAACTGGATGAAATCCGTGAAAGTTT -GCAGGTTAAACAGAGTGGCTGGGCGCTGTTTAAAGAGAACAGCAACTTCCGCCGCGCGGTGTTCCTTGGCGTACT -GTTGCAGGTAATGCAGCAATTCACCGGGATGAACGTCATCATGTATTACGCGCCGAAAATCTTCGAACTGGCGGG -TTATACCAACACTACCGAGCAAATGTGGGGGACCGTGATTGTCGGCCTGACCAACGTACTTGCCACCTTTATCGC -AATCGGCCTTGTTGACCGCTGGGGACGTAAACCAACGCTAACGCTGGGCTTCCTGGTGATGGCTGCTGGCATGGG -CGTACTCGGTACAATGATGCATATCGGTATTCACTCTCCGTCGGCGCAGTATTTCGCCATCGCCATGCTGCTGAT -GTTTATTGTCGGTTTTGCCATGAGTGCCGGTCCGCTGATTTGGGTACTGTGCTCCGAAATTCAGCCGCTGAAAGG -CCGCGATTTTGGCATCACCTGCTCCACTGCCACCAACTGGATTGCCAACATGATCGTTGGCGCAACGTTCCTGAC -CATGCTCAACACGCTGGGTAACGCCAACACCTTCTGGGTGTATGCGGCTCTGAACGTACTGTTTATCCTGCTGAC -ATTGTGGCTGGTACCGGAAACCAAACACGTTTCGCTGGAACATATTGAACGTAATCTGATGAAAGGTCGTAAACT -GCGCGAAATAGGCGCTCACGATTAATCTCCCCAAGCTTCCTCCCATCGCGGAGGAAGCCACCTCTTGCAGTCATC -TTTTCTTCGCTCTATCCTCTGCCGCTATGAAAACATCCCGTCTCCCTATCGCCATCCAACAGGCCGTTATGCGTC -GCCTGCGGGAAAAACTCGCCCAGGCCAACCTGAAGCTAGGGCGTAACTACCCGGAGCCAAAACTCTCTTACACCC -AGCGCGGAACCTCCGCCGGAACGGCCTGGCTGGAAAGCTATGAAATTCGCCTCAATCCCGTTTTGCTGTTGGAAA -ACAGTGAAGCTTTTATTGAAGAAGTGGTACCGCACGAACTGGCACATTTGCTGGTATGGAAACATTTCGGCCGCG -TAGCGCCACATGGCAAAGAGTGGAAGTGGATGATGGAAAACGTGCTGGGTGTTCCCGCCCGTCGTACGCATCAGT -TCGAACTGCAATCCGTGCGTCGCAACACCTTCCCCTACCGCTGCAAGTGCCAGGAGCATCAGCTTACCGTACGCC -GCCATAATCGCGTAGTTCGTGGCGAGGCCGTCTATCGCTGTGTTCACTGCGGTGAACAGCTGGTTGCGAAATAAC -CATCTGAACTATCAGGAACTTTCCTGATCTGGCTGATTGCATACCAAAACAGCTTTCGCTACGTTGCTGGCTCGT -TTTAACACGGAGTAAGTGATGTACCGTTATTTGTCTATTGCTGCGGTGGTACTGAGCGCAGCATTTTCCGGCCCG -GCGTTGGCCGAAGGTATCAATAGTTTTTCTCAGGCGAAAGCCGCGGCGGTAAAAGTCCACGCTGACGCGCCCGGT -ACGTTTTATTGCGGATGTAAAATTAACTGGCAGGGCAAAAAAGGCGTTGTTGATCTGCAATCGTGCGGCTATCAG -GTGCGCAAAAATGAAAACCGCGCCAGCCGCGTAGAGTGGGAACATGTCGTTCCCGCCTGGCAGTTCGGTCACCAG -CGCCAGTGCTGGCAGGACGGTGGACGTAAAAACTGCGCTAAAGATCCGGTCTATCGCAAGATGGAAAGCGATATG -CATAACCTGCAGCCGTCAGTCGGTGAGGTGAATGGCGATCGCGGCAACTTTATGTACAGCCAGTGGAATGGCGGT -GAAGGCCAGTACGGTCAATGCGCCATGAAGGTCGATTTCAAAGAAAAAGCTGCCGAACCACCAGCGCGTGCACGC -GGTGCCATTGCGCGCACCTACTTCTATATGCGCGACCAATACAACCTGACACTCTCTCGCCAGCAAACGCAGCTG -TTCAACGCATGGAACAAGATGTATCCGGTTACCGACTGGGAGTGCGAGCGCGATGAACGCATCGCGAAGGTGCAG -GGCAATCATAACCCGTATGTGCAACGCGCTTGCCAGGCGCGAAAGAGCTAACCTACACTAGCGGGATTCTTTTTG -TTAACCCCTACCCCACGCGTACAACCGCGTGGGGAGACGACGCGGATTTTTAACTATGCGTATCCCCCGCATTTA -TCATCCTGAACCACTGACCAGCCATTCTCACATCGCGCTTTGCGAAGATGCCGCCAACCATATCGGGCGCGTACT -GCGCATGGGGCCGGGGCAGGCGTTGCAATTGTTTGACGGTAGCAACCAGGTCTTTGACGCCGAAATTACCAGCGC -CAGCAAAAAAAGCGTGGAAGTGAAGGTGCTGGAAGGCCAGATCGACGATCGCGAATCTCCGCTGCATATTCACCT -CGGTCAGGTGATGTCGCGTGGTGAAAAAATGGAATTTACTATCCAGAAATCGATCGAACTCGGTGTAAGCCTCAT -TACGCCACTTTTTTCTGAGCGCTGCGGCGTTAAACTGGATAGTGAACGTCTGAACAAGAAGCTTCAGCAGTGGCA -GAAGATTGCAATTGCTGCCTGTGAGCAGTGTGGTCGTAACCGGGTGCCGGAAATCCGTCCAGCGATGGATCTGGA -AGCCTGGTGTGCAGAGCAGGATGAAGGACTGAAACTGAATCTTCACCCGCGCGCCAGTAACAGCATCAATACGTT -GCCGTTACCGGTTGAACGCGTCCGCCTGCTGATTGGCCCGGAAGGCGGTTTATCGGCAGATGAAATTGCCATGAC -TGCCCGCTATCAATTTACTGATATCCTGTTGGGACCTCGCGTTTTGCGTACAGAGACAACTGCGCTCACCGCCAT -TACCGCGCTACAAGTACGATTTGGCGATTTGGGCTAACGGAGAAGAATAATGATCAAGCTCGGCATCGTGATGGA -CCCCATCGCAAACATCAACATCAAGAAAGATTCCAGTTTTGCTATGTTGCTGGAAGCACAGCGTCGTGGTTACGA -ACTTCACTATATGGAGATGGGCGATCTGTATCTGATCAATGGTGAAGCCCGCGCCCATACCCGCACGCTGAACGT -GAAGCAGAACTACGAAGAGTGGTTTTCGTTCGTCGGTGAACAGGATCTGCCGCTGGCCGATCTCGATGTGATCCT -GATGCGTAAAGACCCGCCGTTTGATACCGAGTTTATCTACGCGACCTATATTCTGGAACGTGCCGAAGAGAAAGG -GACGCTGATCGTTAACAAGCCGCAGAGCCTGCGCGACTGTAACGAGAAACTGTTTACCGCCTGGTTCTCTGACTT -AACGCCAGAAACGCTGGTTACGCGCAATAAAGCGCAGCTAAAAGCGTTCTGGGAGAAACACAGCGACATCATTCT -TAAGCCGCTGGACGGTATGGGCGGCGCGTCGATTTTCCGCGTGAAAGAAGGCGATCCAAACCTCGGCGTGATTGC -CGAAACCCTGACTGAGCATGGCACTCGCTACTGCATGGCGCAAAATTACCTGCCAGCCATTAAAGATGGCGACAA -ACGCGTGCTGGTGGTGGATGGCGAGCCGGTACCGTACTGCCTGGCGCGTATTCCGCAGGGGGGCGAAACCCGTGG -CAATCTGGCTGCCGGTGGTCGCGGTGAACCTCGTCCGCTGACGGAAAGTGACTGGAAAATCGCCCGTCAGATCGG -GCCGACGCTGAAAGAAAAAGGGCTGATTTTTGTTGGTCTGGATATCATCGGCGACCGTCTGACTGAAATTAACGT -CACCAGCCCAACCTGTATTCGTGAGATTGAAGCAGAGTTTCCGGTGTCGATCACCGGAATGTTAATGGATGCCAT -CGAAGCACGTTTACAGCAGCAGTAACCCACCTTAGCGAGAAGGATCTCGTTGAGACTCTGAGTGACAGCGCCCTT -CTTTCCACGCATACTGGGCGCTGTTGCTTTTTTGAACCAGGAAACAGAACCTCTGACAATGAATTTACAGCATCA -CTTTCTTATTGCCATGCCTGCTCTCCAGGATCCGATTTTCCGTCGTTCCGTGGTCTACATTTGCGAACATAATAC -CAATGGTGCAATGGGGATCATCGTCAACAAGCCGCTGGAAAATCTCAAAATTGAAGGGATTCTGGAAAAGCTGAA -GATCACGCCGGAGCCGCGTGATGAATCAATCCGTCTGGATAAACCGGTTATGCTCGGCGGTCCGCTGGCTGAAGA -TCGCGGGTTTATTTTGCATACTCCGCCCTCCAATTTTGCTTCCAGCATTCGCATTTCAGACAACACGGTAATGAC -CACTTCCCGCGATGTGCTGGAAACGCTCGGCACCGATAAACAACCGTCTGACGTATTGGTGGCTCTGGGTTATGC -CTCCTGGGAGAAAGGTCAACTGGAACAAGAAATTCTCGATAACGCGTGGCTAACGGCCCCGGCAGATCTGAATAT -TCTGTTCAAAACGCCGATTGCCGACCGCTGGCGCGAGGCGGCAAAACTGATTGGTGTGGATATTCTCACCATGCC -TGGTGTGGCAGGACACGCCTGATGAGTGGAACCTTACTCGCCTTCGACTTCGGCACCAAAAGCATTGGCGTAGCG -GTCGGCCAACGCATTACCGGCACCGCTCGCCCTTTGCCTGCAATTAAAGCACAGGACGGTACGCCGGACTGGAAC -ATTATCGAGCGTTTACTGAAAGAGTGGCAGCCGGACGAAATCATCGTCGGTTTGCCGCTGAATATGGACGGCACC -GAGCAACCATTGACTGCCAGAGCGCGTAAATTTGCCAACCGTATTCATGGCCGTTTCGGTGTTGAAGTAAAGCTC -CATGACGAGCGTCTTAGCACTGTGGAAGCCCGTTCCGGTCTGTTTGAACAGGGCGGCTATCGGGCGCTCAACAAA -GGCAAAGTTGACTCTGCCTCTGCGGTTATTATTCTCGAAAGCTATTTCGAGCAGGGATATTAAGGCGATTTAAAC -GCCTGGCGGAGTGTAAATAATATCATCGCGTCTTATTGCCGGATGCGGCGTGAACACCTTATCCAGCACACATCT -GGCAGCGGCTATAGGTCTGATAAGACGCGTTAGCGTCGCATCAGACATTTATTGCCTTTGTAGGCCCGATAAGCT -TGCGCATCGGGCATGGCAACGTCACAAACGCCCTTCCCCCACCCGGTGCTGATAACTCTGCTGAAACGTTATCAT -CCCCACCTGCTGCCCGGTTTGAATAACATGCGGTAACTGGTGGGTTTTCCCTTCGCGAATCAAATTCCCCACCGC -GGGTGTGTTAATCAGCAATTCAAATAGCGCCACGCGTCCTTCCTGTTTATCCACTTCCAGCTTTTGTGACAGCAC -TGCCCGTAAACTACCTGCCAGTTGATTACGCACGGGGTCTTTTTCCTGCGCCGGAAATGAATCCACCAGTCGCTC -AACTGCCTGCGCGGCACCACGCGTATGTAATGTTGCCAGCACCAAATGCCCGGTTTCTGCCGCCGTCAGTGCCAG -ACGGATTGTCTCGCTGTCACGCAGCTCTCCGAGCAAAATCACATCAGGATCTTCCCGCAATGCGGCCCGCAATCC -CGATGCGAACGTCATACAGTGCAAACCAATTTCCCGCTGCTGGATCAAACATCGCTGGCTGGCATAGAGATATTC -AACAGGATCTTCCAGCGTCAGAATATGCGCATCGGCATGTTGATTGAGATAGCCAACCATCGCCGCCAGCGTGGT -AGATTTGCCACTCCCCGTCGCCCCCGTCACCAGAATCAGGCCATTCTCGCTCTTGAGTAATTCCGGCAATACCGT -TGGTGCGCCAAGCTGTTCGAGCTGCGGGCAGTGCGAAGGTAACAGCCGTAACGCCAGCGAAATGCCATGCCGTTG -CGCGAATGCGCTGCCACGCAATCGCTGGTTTTCCGCCAGCGACACGGCAAAATCCAGCTGACCATTCTCCAGCAA -TATTGCCCGCTGATCGTCATCCAGCCACTCCCGCAGTAGCTCTTCGACGTCCGGCGTATCAAACGGCGCAGCTTC -CATTCTGCCGCGAATGCGCCATCGTGCGGGCCAGGCGCTGCACAGGTGTAGATCCGAGACGTTATGCTTTACACT -AAGGGCCACAATTTCTTCCATATTCATACTAAGATCCTCGGAAAATGAACGATATTGCGCATAACCTGGCACAGG -TCCGGGACAAAATCTCAGCGGCTGCAACGCGTTGCGGCCGTTCTCCAGAAGAAATTACGCTGCTTGCAGTCAGTA -AAACAAAACCTGCGAGCGCCATCGCAGAAGCCATTGATGCCGGGCAGCGTCAATTTGGTGAAAACTACGTTCAGG -AAGGGGTAGATAAAATTCGCCACTTTCAGGAACTGGGCGTAACAGGATTAGAATGGCATTTTATTGGCCCGTTGC -AGTCTAATAAAAGCCGCCTGGTGGCAGAGCATTTCGACTGGTGTCATACCATCGACCGTTTGCGCATCGCTACCC -GTCTCAACGACCAGCGCCCGGCAGAACTTCCCCCTCTTAACGTTCTGATTCAAATTAACATTAGTGATGAAAACA -GTAAGTCCGGGATTCAACTGGCTGAACTGGACGAGCTGGCAGCTGCGGTCGCTGAACTACCGCGTTTACGTCTGC -GCGGGTTGATGGCAATCCCTGCGCCTGAGTCAGAATATGTAAGGCAGTTTGAAGTTGCACGCCAAATGGCTGTAG -CATTTGCCGGACTGAAAACGCGCTACCCGCATATCGACACGCTCTCTCTGGGAATGTCGGACGATATGGAAGCCG -CCATTGCGGCAGGTAGCACGATGGTTCGTATCGGCACTGCAATTTTTGGTGCGCGTGATTACTCTAAAAAATAAG -GAATTAAAGGAACGCCATGAATACGTTGACTTTCCTGCTTTCAACGGTCATTGAGCTGTATACCATGGTGCTGTT -ATTACGCATCTGGATGCAGTGGGCTCATTGTGATTTTTACAACCCCTTCTCACAGTTTGTAGTGAAGGTAACGCA -GCCAATTATCGGGCCACTGCGCCGCGTTATTCCGGCAATGGGGCCAATTGACAGCGCCTCGCTGCTGGTTGCCTA -TATTCTCAGTTTTATCAAAGCCATCGTGCTGTTTAAAGTGGTGACCTTCCTGCCAATCATCTGGATTGCCGGTTT -ACTGATTCTGCTGAAAACCATCGGCCTGCTGATTTTCTGGGTCCTGCTGGTGATGGCGATTATGAGCTGGGTAAG -CCAGGGGCGTAGCCCGATTGAATACGTGCTGATTCAGCTGGCCGATCCGCTGCTGCGCCCGATTCGCCGCCTGCT -ACCGGCAATGGGTGGGATTGATTTCTCGCCGATGATCCTCGTTCTGCTGCTGTATGTCATCAATATGGGTGTCGC -AGAAGTATTACAGGCAACCGGAAATATGCTGCTGCCAGGGCTGTGGATGGCGTTATGAATGCCGTAACAGTTAAT -GATGACGGTCTGGTTTTACGGCTCTATATTCAGCCGAAAGCCAGCCGTGATTCTATTGTCGGTTTACATGGCGAC -GAAGTTAAAGTCGCCATTACCGCGCCGCCGGTTGACGGCCAGGCCAACAGTCATCTGGTGAAGTTTCTCGGTAAG -CAATTCCGGGTTGCCAAAAGCCAGGTGGTGATTGAAAAAGGCGAACTTGGCCGCCACAAACAAATTAAAATCATT -AATCCGCAACAAATCCCGCCAGAAATCGCGGCGTTAATTAATTAGGTATCCTATGCAAAAAGTTGTCCTCGCAAC -CGGCAATGTCGGTAAAGTGCGTGAGCTGGCGTCGCTGCTTAGCGACTTCGGTCTTGATATCGTGGCCCAAACAGA -CCTCGGCGTTGATTCCGCTGAAGAAACCGGCCTGACCTTTATCGAAAACGCGATTCTGAAAGCGCGCCATGCGGC -AAAAGTGACCGCTTTACCGGCAATTGCCGACGACTCTGGTCTGGCGGTAGATGTGCTTGGCGGCGCGCCGGGCAT -TTACTCCGCGCGTTATTCCGGTGAAGACGCGACCGATCAAAAGAATCTGCAAAAACTGCTGGAAACAATGAAAGA -CGTACCGGACGACCAACGTCAGGCGCGTTTCCACTGCGTGCTGGTATATCTGCGTCACGCGGAAGATCCCACTCC -GCTGGTATGCCACGGTAGCTGGCCGGGCGTGATTACTCGTGAACCAGCGGGCACTGGTGGCTTTGGTTATGATCC -AATCTTCTTCGTACCTTCCGAAGGGAAAACCGCCGCCGAACTGACCCGCGAAGAAAAGAGCGCCATTTCCCACCG -TGGTCAGGCGTTGAAACTGCTGCTGGACGCTTTACGTAATGGTTAAATTACCTCCGCTGAGTCTCTACATTCACA -TCCCGTGGTGCGTGCAGAAATGCCCGTACTGCGATTTCAACTCTCACGCGTTGAAAGGAGAAGTGCCGCACGACG -ATTATGTTCAGCATCTGCTTAACGATCTGGACAACGATGTGGCTTACGCTCAGGGCCGTGAAGTAAAGACAATCT -TTATTGGCGGTGGTACGCCGAGCCTGCTTTCCGGCCCGGCGATGCAAACGCTGCTGGACGGCGTGCGTGCGCGTT -TGCCGCTGGCAGCGGATGCAGAAATTACTATGGAAGCGAACCCTGGCACGGTAGAAGCCGATCGCTTTGTCGATT -ATCAGCGTGCTGGTGTGAACCGCATCTCTATTGGTGTGCAGAGTTTTAGCGAAGAAAAGCTGAAACGACTTGGGC -GTATTCATGGCCCGCAAGAAGCGAAACGCGCGGCGAAGCTGGCGAGCGGTTTAGGGTTACGTAGCTTTAACCTTG -ATTTGATGCATGGGCTGCCGGATCAATCACTGGAAGAGGCGCTTGGCGATCTACGCCAGGCCATTGAACTGAATC -CGCCGCATCTTTCCTGGTATCAACTGACCATCGAACCCAATACGCTGTTTGGTTCGCGACCACCGGTGCTGCCGG -ACGATGACGCGTTGTGGGATATATTCGAACAGGGGCATCAGTTATTAACCGCAGCGGGTTATCAGCAATATGAAA -CTTCCGCTTACGCCAAACCCGGTTATCAGTGCCAGCACAATCTCAACTACTGGCGCTTTGGTGACTACATCGGTA -TTGGCTGCGGCGCACACGGCAAAGTGACCTTCCCGGATGGGCGCATTCTGCGTACCACCAAAACGCGTCATCCGC -GTGGTTTTATGCAAGGAAGGTATCTGGAAAGCCAGCGTGATGTCGAAGCCACAGATAAGCCGTTTGAGTTCTTTA -TGAATCGCTTCCGTCTGCTGGAGGCCGCGCCGCGCGTGGAGTTTATTGCGTATACCGGGCTTTGCGAAGATGTGA -TTCGCCCACAGTTAGACGAGGCGATTGCCCAGGGTTATCTCACCGAATGTGCGGATTACTGGCAGATAACGGAAC -ATGGGAAGCTGTTTTTAAATTCGCTGCTGGAGCTTTTTCTGGCTGAGTAAACTTGTATTGCCGGATGCGGCGTGA -ACGCCTTATCCAGCCGACATGTGGCAGCGGTTGTAGGTCTGATAAGACGCGCAAGCGTCGCATCAGACGTTGATT -GCCGGATGCGGGGTCAACGCCGCATCCTGCTACAAATCGTGCACTATATCAAACTTACTTAATCACCCCATTGCG -CCGCAGTTGTTCGGTATCTTTTTTCCAGCGTTCATTAGCTTGGTTGATATCGTCAATTTTCATCAAAATCGCGAC -TTTTTTACTGTTTATTTCTGAAACTTTCATCGTTAACGGATATTGCCCTTTTTCGAGCGTTACCCAGTCATCCTG -CAATTTACGGCTAAGTTTTTGTGATTGCAGAAAAGTCTGTCGCCGTTGTTCGTTGATATCGAAATCTCGTTTCTG -CTGAATCGGCACTTCATAACACTCTTCACTCTGTTTATGACATGCCGCAATCGCCGGTTGATAAACCTCTTTGTC -ATATTTAACCGCGAACGCCTCGCTATCGTTCTGTTTATTAAACTCATCACGCTGTTGGTGAATTTTTTTAAAGGC -GTCTTCGCGGGTCATTTGCTTACCGTTTGCATCTTTTCCCCAATATGCATCCGCTGCTTTCTGCGCCGCCACCAT -TTGCTTATCAAGCGCTTTCACTTCCTTTTCCAGCGCAGGAATCGAGTTCTTCTGGGTATTCAACGCAGATTCAAG -CTGACTAAAGCGATAATTGAAATCTTCGCTATTCACGATCAGATATTTATTATTCGTTTTGATATCGTCGACCAC -CCGCCCACGATCGCTGGCTGCCGCCTGAAAAGAGTAAAAGTTCACCGACCAGCCAGACGCGGGCGTTCCTTTACT -GGTTAACATCGCCGAGAATTTTACCGGTTTATCTTTCGTCCAGGTCTGTTCGAGCAGTTCGTAATCTGCCAACTG -ACCGACCCAGGTATAGAGATCGTCACTGGAAGAGACATCGCCTTCCGCTGACCAGGTGGCCTGATTACCCTTAGC -ATCAAGATTTTTTAAGGTGATAGCATCAAGCTTGAGAATGCCGTGATACTGCTTTTTGAATTGATCTTTTAAGAT -ATTTTCAGTTGGCGGTTCGCCATCTGCCCAGGCATTACCAGTCATCAACATAAGCAGTGCCGTGCCAACAATCCA -TTGCTTTTTCACCCGAAAAACCTCACGCGGAATAATTTATTCCGGTGATTATCATTAGGGTAATTAAAATTGGCA -ATGGACGTGAGTCTGAAGTGAAAAAGCCCCGGCACGATACCGGGGCGAGGCGATTAGTACTGATTGAAGATCTGC -TGGATCTGCTGCGGATCTTTGGTTTGCGTCAGAGCCAGTTGCAGCAGAACGCGCGCTTTTTGCGGGTTCAGCGTG -CCAGAGGCGACGAAGCCGTATTTCGCATCATCCACTTCGGCATCCTGAGTGGTAGCGCCCGTCGGTACGCGGGAA -GAACGCACGACTGCAGTACCGGTTTTCGCGGCGGTCGCCAGCGTGTCGAACACAGATTTATACAGGTTGCCGTTA -CCCACACCAGCGCTAACGATGCCATCATAGCCCGCATCTACCAGTGCTTTAGCCGGAAGATCGGATGCGTTAGCG -TAGTTATAAACAATGCCGACTTTCGGCAGTTCATTCAGCTTAGAGACATCGAATGGCGTGTCGCTGGTATGCTTA -CGTGCCGGGGTACGCTGGTAGTCAATCTTACCGTTGTGAATGTAACCCAGAGGACCGTAGTTAACAGACTTGAAG -GTCGCTACGTCGGTGGTGTTGGTTTTGGTGACGTCACGGCCATCAAGCACGGTGTCATTCATCACTACCAGCACG -CCACGGTTGGCGGAGGCTTTATCAGCTGCGGTCACTACCGCGTTATACAGGTTGAATGGACCGTCTGCGCTCATA -GACGTGGACGGACGCATTGCGCCGACCATCACCACCGGTTTGTCGCATTTCACCGTCAGGTCGAGGAAGTAAGCA -GTTTCTTCCATCGTGTCGGTACCGTGGGTAATGACGAAGCCGTCGGTCTTATCGCAGTCGGTGTTAATTTTTTTC -GCCAGTGTCAGCCAGACATTATCGTTCATGTCCTGGGAGCCGATATTCACTACCTGCTCGCCTTTAACGTTCGCA -ATGTCTTTTAGTTGCGGCACCGCATTAACCAGATTTTCTACGCCAACTTTACCCACTGTGTAGTTAGATTTGGTT -GCGGAGTCACCACCACCGGCAATGGTCCCGCCGGTTGCTAAAATGGTGATATTGGGTAATGCCAATGCTGCACCA -CTAAAACCCATAACCAGTGCGGCAAGTGCCGTCTTTTTGAAAAACTCCATTTCATTCCTCCAGTTACGTGAACGC -TACGCATTATCCCTTAGCTCTGTATGGGAAATTTGACGTTAAACAATTTACAACGTGAATATATTTTGGAGATCT -ACAAAGTTAGAGGCAGGTAACAAAACGAAGAATTAAACGGCATAAAAAAGTATTATGCCGTCTTAAAATAGAGGA -TTATTTTAAATTCCCGACCAGGGCTTTGCGGCTATCTTCCAGAGTCACAACGCGGCTACAAACATCTTTGCCAAA -CTGCTGGAAATCTTTTTCCTGCTTTTTCCACTCGGTTTGGATTGAGGATTGCAGCCCCCCCAGGCTTCCCAGCAC -ATTCTGTAATGGGTTACCGCCGCTTTTCAGCACCGCTTTCGCGCCCATTTCATTAATGCTGTCCTGTAAAATTCC -ACCCATTGCCTGATTCACTAATTGCTGGCCTTCGGCGCGAACCTGATCAATGGCTTTATAGTGAAACGTCAGGCC -ATCGCTGCGCGTTTCAATAATGCGGTTCATCTGCTCTTTCAGCTGCGCATCAAGTTTGGTCAGACGGCTGCGCAT -TTTGCTGCTTTCGCCCATCTCCTGAACGATAATTTTATCCAGAGCAATACGGGCTTTCTCGACGCGGCTTTTCGC -GCCTTCATCAATCCACGGCAGCGTGCTGCGTAGTTCAGCCTGATAATCCTTCGCCTGCTCGCGCTGGGCGGCATT -CAGGGAATATTGCTTACCGTTATACATCACGTTGCCGTCTGGCGTGATCACCAGATTGCCGTTTTCGCCCTTCAC -CTGCACGGTTTGCGGGCTGACAATCACATCGTCACGCGGCGTGACGCTGCACTGGTAGTCGGCGTGAGCGGTCAT -TGCCGTCACTGAAAGTGCTGCCGCCAGCAGCATTTTGCGCATCATAGTCTTCCCTCAAGAAAAAATCAGGCCAGC -ATTTGCTGGCCCCAGATTGATAACAAAGTACGCGTTTTCCATGCCGGATGCGGCGTAAACACCTTATCCCGCCTA -CTCGATCGTGCATCTTTCCAGGCCTGATAAGCGTAGCGCATCAGGCAGTTTTGCATTTGTCATCGCCCGTATGCT -TTCTTAGTCCCACCAAACGTCGAAAAGTTCGCTGGTGCGTACCTCATCCAGTTTGCGCTCTTCCAGCCACTTACG -CACAATCGCCTGATGTTCTTCGGTGCATTTGCCGATTTCCTGCATGCAGATCAGACCTTCCCAGGCCAGATAACC -GCTGCCGTCAAAGGCCAGTTTGTTCGGTTCGATAACCTCGTTAATAAAATCATCAACGGTTTTATCAATCTGTTC -TTCCGATGTACCTTCCGGGAATCGCCATGCCACCGAAAATCCTAATTCCTGGAATTCGTCGATGTGCATTTTTTT -ACGCAGACGACGGCTACGGTTCTTTGCCATTATTTCACCCTCTCGAACATTAAGTCCCATACTCCGTGACCAAGA -CGATGACCACGTTGTTCAAATTTCGTCACCGGACGTGATGCCGGACGCGGTACGTAATCATTGCTCTCTGACAGG -TTTTTATAACCGTCAATAGAAGACATCACTTCAAGCATATGTTCCGCATAAGGTTCCCAGTCGGTCGCCATATGG -AATACGCCCCCCAGCTGCAGTTTGCTTTTTACCAGTTCGGCAAACGGCACCTGAACGATACGGCGTTTATTATGG -CGCGCTTTGTGCCACGGGTCAGGGAAAAAGAGCTGCACCATGCGCAATGAATTGTCAGGAATCATTTTATGCAGC -ACTTCAACCGCATCGTGACACATCACGCGCAGGTTGCTTAAACCTTCTTCATGCGCAGAAGCCAGGCACGCACCA -ACGCCCGGTGAATGCACTTCAATGCCGAGGAAGTCCTGCTCAGGGCGATCTTTAGCCATTGCCACCAGCGACGCC -CCCATGCCAAAACCAATCTCAAGCGTCACCGGCGCTTCACGGCCAAAAAGCGCGGGGAAATCCAGCATATCTTCG -CTGAACTCAACGCCCATCACCGGCCAGTAGTTTTCCAGCGCATGTTCCTGGCCTTTGGTCAGTCGCCCCTGGCGG -CGCACAAAACTACGGATACGGCGCAGTGGGCGGCCGTTTTCATCAAATTCCGGTGAAATGACGTCGTTTTTCATA -AAGGTTTAGTCGCTTGTGAAAGTGTTCTGAAAACGGGCATTATCCAAAGTTAGTTGCCGGATGCAAGCATGATAA -GGCCGTGGCTGCGGAAAGTTCCGGTTTACACCCTGCCGTCGCTGTGCTGCAATCTTGCCCCCAACAACAGTGAAT -TCGGTGACCATGCAAGCGTCGCAATTTTCAGCCCAGGTTCTGGACTGGTACGATAAATACGGGCGAAAAACTCTG -CCCTGGCAAATTGACAAGACGCCCTACAAAGTATGGCTCTCAGAAGTGATGTTGCAACAAACTCAGGTTGCGACC -GTTATCCCCTATTTTGAACGCTTTATGGCGCGCTTCCCGACGGTGACCGATCTCGCCAATGCGCCGCTCGACGAA -GTTCTCCACTTGTGGACCGGGCTTGGCTATTACGCCCGCGCGCGCAATCTGCATAAAGCGGCACAACAAGTGGCG -ACCTTACACGGCGGTAAATTCCCGGAAACCTTTGAGGAAGTTGCAGCACTGCCGGGCGTCGGGCGTTCCACCGCA -GGCGCGATTCTCTCGCTTTCTCTGGGTAAGCACTTTCCGATTCTCGACGGTAACGTCAAACGCGTGCTGGCGCGC -TGCTATGCTGTAAGCGGCTGGCCTGGGAAAAAAGAGGTCGAGAATAAATTATGGAGTTTGAGCGAGCAGGTGACG -CCCGCGGTTGGCGTGGAACGGTTTAATCAGGCGATGATGGATTTGGGTGCGATGATTTGTACGCGCTCGAAACCG -AAATGTTCGCTCTGTCCGCTACAAAACGGATGTATTGCCGCCGCCAACAATAGCTGGGCGCTTTATCCGGGCAAA -AAACCGAAACAGACGCTGCCGGAGCGCACCGGCTACTTTTTGCTATTACAGCACGAAGATGAAGTATTGCTGGCG -CAGCGTCCGCCGAGCGGATTGTGGGGCGGTTTATACTGTTTCCCGCAGTTTGCCGACGAAGAAAGTTTGCGGCAG -TGGCTGGCGCAACGGCAGATTGCTGCCGATAACCTGACGCAACTGACCGCGTTTCGGCATACCTTCAGCCATTTC -CACTTAGATATTGTGCCTATGTGGCTTCCCGTGTCGTCATTCACCGGCTGCATGGATGAAGGCAATGCGCTCTGG -TATAACTTAGCGCAACCGCCGTCAGTTGGCCTAGCGGCTCCCGTGGAGCGTTTGTTACAGCAGTTACGCACTGGC -GCGCCGGTTTAGCGCGTGAGTCGATAAAGAGGATGATTTATGAGCAGAACGATTTTTTGTACTTTCCTGCAACGT -GAAGCAGAAGGTCAGGATTTTCAGCTGTACCCCGGCGAGCTGGGAAAACGCATCTATAACGAGATCTCCAAAGAA -GCCTGGGCGCAGTGGCAGCACAAGCAAACCATGCTGATTAATGAAAAGAAACTCAACATGATGAATGCCGAGCAC -CGCAAGCTGCTTGAGCAGGAGATGGTCAACTTCCTGTTCGAGGGTAAAGAGGTGCATATCGAGGGCTATACGCCG -GAAGATAAAAAATAAAAACAGTGCCGGAGCACGCCTCCGGCAACTTGCATAAAAACAAACACAACACGCACCCGG -AATGATGAAAAAATATCTCGCGCTGGCTTTGATTGCGCCGTTGCTCATCTCCTGTTCGACGACCAAAAAAGGCGA -TACCTATAACGAAGCCTGGGTCAAAGATACCAACGGTTTTGATATTCTGATGGGGCAATTTGCCCACAATATTGA -GAACATCTGGGGCTTCAAAGAGGTGGTGATCGCTGGTCCTAAGGACTACGTGAAATACACCGATCAATATCAGAC -CCGCAGCCACATCAACTTCGATGACGGTACGATTACTATCGAAACCATCGCCGGGACAGAACCTGCCGCGCATTT -GCGCCGGGCAATTATCAAAACGTTATTGATGGGTGACGATCCGAGTTCGGTCGATCTCTATTCCGACGTTGATGA -TATTACGATTTCGAAAGAACCTTTCCTTTACGGTCAGGTGGTGGACAACACCGGGCAGCCGATTCGCTGGGAAGG -TCGCGCAAGCAACTTCGCGGATTATCTGCTGAAAAACCGTCTGAAGAGCCGCAGCAACGGGCTGCGTATCATCTA -CAGCGTCACCATTAACATGGTGCCGAACCACCTTGATAAACGTGCGCACAAATATCTCGGCATGGTCCGCCAGGC -GTCACGGAAATATGGCGTTGATGAGTCGCTGATTCTGGCAATTATGCAGACCGAATCTTCCTTTAACCCGTATGC -GGTCAGCCGTTCCGATGCGCTGGGATTAATGCAGGTGGTACAACATACTGCCGGGAAAGATGTGTTCCGCTCGCA -GGGGAAATCCGGCACGCCGAGCCGCAGTTTCTTGTTTGATCCTGCCAGCAATATTGATACCGGCACCGCGTATCT -GGCGATGCTGAACAATGTTTATCTCGGCGGAATTGATAACCCAACATCGCGGCGTTATGCCGTCATCACCGCCTA -TAACGGCGGCGCAGGCAGCGTGCTGCGAGTCTTTTCGAATGATAAGATTCAGGCTGCCAATATTATTAACACCAT -GACGCCGGGCGATGTTTATCAGACGCTGACGACCCGCCATCCCTCTGCGGAATCTCGCCGTTATCTTTATAAAGT -GAATACCGCGCAAAAATCCTACCGCCGCCGATAATTCCATTAACCGCCCCTGACGATGCTCAGGGGCAAAAATGT -TATCCACATCACAATTTCGTTTTGCAAATTGGGAATGTTTGCAATTATTTGCCACAGGTAACAAAAAACCAGTCC -GCGAAGTTGATAGAATCCCATCATCTCGCACGGTCAAATGTGCTTTTTCAAACACTCATCCGCATCACGATGTGA -GGAAATTAACATGAATCTTAAGCTGCAGCTGAAAATCCTCTCTTTTCTGCAGTTCTGTCTGTGGGGAAGTTGGCT -GACGACCCTCGGCTCCTATATGTTTGTTACCCTGAAGTTTGACGGTGCTTCTATTGGCGCAGTTTATAGCTCACT -GGGTATCGCAGCGGTCTTTATGCCTGCGCTGCTGGGGATTGTGGCCGACAAATGGTTAAGTGCGAAATGGGTATA -TGCCATTTGCCACACCATTGGCGCTATCACGCTGTTCATGGCGGCACAGGTCACGACACCGGAAGCGATGTTCCT -TGTGATATTGATTAACTCGTTTGCTTATATGCCAACGCTTGGGTTAATCAACACCATCTCTTACTATCGCCTGCA -AAATGCCGGGATGGATATCGTTACTGACTTCCCGCCAATCCGTATCTGGGGCACCATCGGCTTTATCATGGCAAT -GTGGGTGGTGAGCCTGTCTGGCTTCGAATTAAGCCACATGCAGCTGTATATTGGCGCAGCACTTTCCGCCATTCT -GGTTCTGTTTACCCTGACTCTGCCGCATATTCCGGTTGCTAAACAGCAAGCGAATCAGAGCTGGACAACCCTGCT -GGGCCTCGATGCATTCGCGCTGTTTAAAAACAAGCGTATGGCAATCTTCTTTATCTTCTCAATGCTGCTGGGCGC -GGAACTGCAGATTACCAACATGTTCGGTAATACCTTCCTGCACAGCTTCGACAAAGATCCGATGTTTGCCAGCAG -CTTTATTGTGCAGCATGCGTCAATCATCATGTCGATTTCGCAGATCTCTGAAACCCTGTTCATTCTGACCATCCC -GTTCTTCTTAAGCCGCTACGGTATTAAGAACGTAATGATGATCAGTATTGTGGCGTGGATCCTGCGTTTTGCGCT -GTTTGCTTACGGCGACCCGACTCCGTTCGGTACTGTACTGCTGGTACTGTCGATGATCGTTTACGGTTGCGCATT -CGACTTCTTCAACATCTCTGGTTCGGTGTTTGTCGAAAAAGAAGTTAGCCCGGCAATTCGCGCCAGTGCACAAGG -GATGTTCCTGATGATGACTAACGGCTTCGGCTGTATCCTCGGCGGCATCGTGAGCGGTAAAGTTGTTGAGATGTA -CACCCAAAACGGCATTACCGACTGGCAGACCGTATGGTTGATTTTCGCTGGTTACTCCGTGGTTCTGGCCTTCGC -GTTCATGGCGATGTTCAAATATAAACACGTTCGTGTCCCGACAGGCACACAGACGGTTAGCCACTAATTACGCAA -AGAAAAACGGGTCGCCAGAAGGTGACCCGTTTTTTTTATTCTTACTTCAACACATAACCGTACAACCGTTTCACG -CCATCCGCATCGGTTTCGCTATAAACACCTTGCAGCTCCGGCGAAAATCCCGGCAACAAATTCACCCCTTCTTCC -AGTGCAAGGAAATAACGTTGAACCGCCCCACCCCAGACTTCCCCGGGTACCACGCAAAGCACGCCAGGTGGATAA -GGCAACGCCCCTTCTGCCGCAATTCGCCCTTCGGCATCACGAATCCGCACCAACTCCACGTCACCGCGAATATAA -GCGCTATGCGCATCCTGGGGGTTCATCACCACTGACGGGAAACTCTGCTGGCGGAACATCGCTTTTTGTAGGTCT -TTGACGTCGAAACTGACATACAGATCGTGCATCTCCTGACACAACTGGCGCAGGGTGTAGTCGCGATAGCGCACC -GGATACTTGTTATAAACGCTCGGCAACACCTCAACCAGCGGCGAGTCATCCTCAATATGCTGTTCAAATTGCGCC -AGCATCGCCACCAGTTGTGCCAGCTTCTCGTGGCTTTCCGCCGGAGTTAATAAAAACAGAATGGAGTTGAGATCG -CACTTCTCCGGCACAATGCCGTTCTCACGCAGATAGTGCGCCAGAATCGTCGCCGGAACGCCAAAGTCGCTATAT -TCGCCGGTTTCGGCATCGATACCTGGTGTAGTGAGTAACAGCTTGCACGGATCAACAAAATACTGATCCGCGGCA -TATCCTTCAAAGCCGTGCCACTTCGCCCCCGGCTCAAAACTGAAAAAACGGCGGTCGCTGGCTAACACTGATGTC -GGATAATCCTGCCACAATTTGCCATCAACAACGGGCGGGATAAACGGGCGGAACAGCTTACAGCGCGCAAGAATA -GCCTTGCGCGCTTCAATCCCTATCTCAACACACTCAGCCCACAGCCGACGCCCACTCTCCCCTTCATGAATTTTG -GCGTTAACATCCAGTGCAGCAAACAGCGGATAGAAAGGGCTGGTAGAAGCATGGAGCATAAAGGCGTTATTCAAC -CGCTTATGCGGGCAAAAACGCGCCTGTCCGCGGATATGGTTATCTTTTTTATGGATCTGCGACGTCTGTGAGAAT -CCCGCCTGCTGTTTGTGCACCGACTGAGTCACAAAGATCCCCGGATCGTTTTCGTTAAGTTCTAACAGCAGCGGC -GAGCTATCCGCCATCATCGGGATAAATTGTTCATAACCGACCCACGCGGAATCAAACAGAATGTAATCACACAGA -TGCCCAACGGTATCGATCACCTGACGGGCGTTATAGACAGTGCCGTCATAGGTTCCCAGCTGAATAATCGCCAGG -CGATACGGGCGCGGCAGGTCGGCTTTTTCTGGCGCAACGTCGCGAATTTGCTGGCGCAGATACTCTTCATTAAAA -CAGTGCGCATCAATACCGCCAATGAAACCAAACGGGTTGCGTGAAGCTTCCAGATAGACCGGCGTCGCCCCCGCC -TGAATCAGCGCGCCGTGATGATTCGACTTATGGTTGTTACGGTCGAAGAGCACCAGATCGCCACGCGTTAACAGC -GCATTCGTCACCACTTTATTCGCTGCCGATGTGCCGTTCAGCACAAAATAGGTTTTATCGGCATGAAAGACTTTG -GCTGCGAATTTCTGCGCATCTTTCGCCGATCCTTCATGAATAAGCAGATCGCCCAATTTTACGTCAGCGTTACAC -ATATCGGCGCGAAAGACGTTCTCACCAAAGAAATCGTAAAAATGGCGTCCGGCAGGATGCTTTTTAAAAAACGCA -CCATGTTGATGTCCAGGGCAAGCAAAGGTGCTGTTGCCCATCTCAACGTACTGCGTCAGCGTGTCATAAAACGGT -GGCAGCAAATTCTCTTCATACTGACAGGCTGCGGATTCCAGCTCCAGCCACTGCTGCTCGTTGCCGTTGATTACC -GCCGTAACGCCCGCAGGTAATTCAACAGCATGTTCGGAATACAAAAACACCGGTAGATGAAAACCGGTGCGCTTA -AGCAACGCAAGAATGCCACTGCGACTATCCGCAGCGGTAATGACGACTGCCGCGACGTCCGTAAAATCAGTATCT -CCCAACGCCACCACGCGACGATGAGAAGAAAGTCGGGATACCAGTTCACTACTGGCGGCAATATTCATTGATTTC -ATAAGCGCAAACCCGTTTCGGGGAAGTAAGAATACCGGACAAGGTGGAAAACCCTGCCCCATGAGATATGGGTCA -AACTGGTCACCAGCTCCGACCGCCAGACATCAGTAAAAGCAGAAACGCTCTGATTTTACTGTTGTCCTGCAGTGA -GCGTGCGTTAACTTCACCGCATGAGCAGTAACATAGAAAGGGAAACGTTTCGCGCGAAACGGCGATAAGCGAGAG -AATGTAAGGAGATGGCGTGCATCGGGCAAACTCCGTACAGAGAGGAGAAAATTCGCGCAATCATGGCACCTTTCG -CTAAAGCGTGCAAGCCAGGACTTTGCGAACAAACAAGCCATCGACGGCACCAAACGGTCATAATAAGAAAATCAA -ACAATACAGCTAACAGGAACTCTTGTGGTCATCGGCCCTTTTATCAACGCTAGTGCAGTCTTACTGGGTGGCGTT -CTCGGCGCACTGCTCAGCCAACGCTTACCGGAACGTATCCGCGTCTCCATGACATCAATTTTTGGTCTGGCATCG -CTGGGGATTGGTATTTTACTGGTGGTGAAATGTGCCAACCTTCCAGCGATGGTTTTAGCTACGCTACTTGGCGCT -CTAATTGGCGAAATTTGTTTGCTGGAGAAAGGTGTCAATACAGCAGTCGCCAAAGCACAAAATCTGTTTCGTCAC -TCACGTAAGAAGCCAGCGCATGAATCTTTTATTCAGAATTATGTCGCGATTATTGTCCTGTTTTGCGCCAGCGGC -ACCGGGATCTTCGGGGCGATGAACGAAGGGATGACCGGCGATCCGAGTATTTTAATCGCCAAGTCATTTCTTGAT -TTCTTTACGGCGATGATCTTCGCCTGCTCGCTGGGTATTGCGGTATCGGTGATTAGTATCCCATTACTGATCATC -CAGTTAACGCTGGCGTGGGCTGCCGCGCTGATTTTACCGCTGACCACACCGTCGATGATGGCAGACTTCAGCGCC -GTAGGCGGTTTATTGCTGCTGGCAACCGGATTACGCATCTGTGGCATTAAAATGTTCCCGGTGGTCAACATGCTT -CCAGCACTCCTTCTGGCAATGCCGCTTTCCGCCGCCTGGACCGCCTGGTTTGCCTGACAATGCGTGCAATATCGG -CAAAGTGATGATAGATTGTGCAGTCTGCAGTAAATTGAAGAAATTTGATTGACGAGACGAGGCGAATCAGGTTTA -ATGCGCCCCGTTGCCCGGATAGCTCAGTCGGTAGAGCAGGGGATTGAAAATCCCCGTGTCCTTGGTTCGATTCCG -AGTCCGGGCACCACTAATTCTTAAGAACCCGCCCACAAGGCGGGTTTTTGCTTTTGGATCTGACAATAACCTTCA -CGAAAAAAATTAGCTTATAAAGTCTGGGGGAATTACTCTCGCCACGTTAACGAGAGTAATTTTATTGATATTAAT -CTCCTGATACTTTACCCCCGTCCAAACTCCAGCCGCTGCACATTCACCATCCCAGGCTTCTCAGCAGCACTGACA -TCAATTTGTGTCACCCGCAGCGCATATTTTTCATCCAGTGCGTTTAACCATTTCAGCAGGTCATTAAACACCACA -GGTTCTATCCAGACCTGAATATTCTCCCCACGATCGGCTATCCGCCTGATGACCACCGAGTGCGCGGAAGCACTG -TCACTGATGACCCGCGATACCTGCGCAGGCGTTGTTGTGGCAGATTTTCGCGCTGCAATAATATCCGGCGCGGCG -TTCTTCAGTCGGGTGTTCATCGCCACCAGCTGCTGCAATATTGTCTCCTGTTGCTCAATCCGTTCGCTCAACGGC -TGCCAGATGAGGACGTAATATCCGACGCTAAACAGGAACACCACCGCTGCCAGTAACATGCCCTTTTCACGCGGA -GAACGCCCCGCCAGGTGTTGTGCCAGCCAGTGTTCGCCACGGCTTAACTGGCGTTCACGCCATTGCTGAAAATAG -TGAATAAATTTATCGCGTAACATGTTATTTCCTCCGCAACGTTACGCCGCCGGAAACCGCATCACCCTCTTTCTG -TAACGCGTCCTGTTGCACAACATAATCGGTTGCCAGTACACTACGCAGTTTGTCGAAACTGGCAAAGTTCGCGGC -CCGTAGCTGGAGGTGAAGTATCTGGCGTTTTTGATCAAAGGTAAAACCACGCATTTCGATGTCGGAAAGTGACGC -TGATTTCAGGGTGCTGGCTATCGCTGACAACTCGGCGAGCAGCCGGGTATCGTCGGCCTGTGGGCGATATTTTTT -CAGCGCCATCGTCACCTGAGAGCGTAAATTCACAATCCGCTTCTGCTCCGGGAACAACGTTAAGAACTGTTCCTC -CGCCTGGGTGCGGCTTTGCGCCACCTGTTCGCTGACGCTCCATAACGTCACGCCCCGCTCCACTGCCAGCGCAAC -CAGAATCAGCAATATCGGCAGAATCATCACCCGCCAGCGCGCCCACTGTTTTCGGTAGCTGACGCGAGGCTGCCA -CGGCCCTGTCAGCAGGTTCCCTTCCGGTTCGCCATAAGTGGTAATGGCGGGCAGAGCTGTAACGGTCAGGCGTTC -AGCGTCTGCGCCAGCCCATGCTGATAGCTTTTCCGGTGCAATGCCGACTACGGTTAGCGAAAGCGGTAAATCCTG -CTCATTGAGCTGGGCGCGGAACATGACCGGAGCCAGCGCCAGCCCGGCGCTCCATCCCCGGCATTCATCGATGCG -GCAGATAACCCGTTGCGCATCGCAAGCCATAAACCCACAAGGAATGGACATCCAGTCCGGCGCGACGGTAGCGCG -GGTGATGCCGTTTTCCTGCAACCACTGCGCAATGTTGCGCATATGCTGTTGGTGAATCACTGCTACGGTTGCCAG -TTGCTGGTCGATATTCAACGGGGCGAAATGCAGTTCATCGATATCCTGGTTCAGCTCTTCTTCCAGTAAGGCGGG -CAGAATAGTCGGTAGCGCAGCGCGATGGAAATGTCGTGGCGCGCACCCTTGCGTAAAACCGTAAGTTGAATGGAA -TCCATTGAAGGTAACTGCCGCATCAGAGCAATCATTGCTCGTGGATCAGTGAAATCCTGCTGATTTAGCGCAATG -GCGATATCGCCTTCCTTGAAACCGCTGGCATCGAACAGAGAACGATCTGCCCCCGGCTTCGCTGCATAACCGACA -ATCCCCTCCTTACGCACAGGCGTAAGCTGGATATAGTTAAAAATTTTCTGCGGATCTTTCGCCAGTGCCTGACGC -ACGGCAGCCGGGATCTCAACTGGCACACTGACAGCAGGCTCAGCAACAGCTTGCTTTGCTTCGTCACTGACGGCT -TTTTTGTTGGTCACAGCAACAGTGGAACGTTCCTCTTCTGCCAGACTCAGACGCTCTATTTTTCCCTGATAACGC -AGCATCACATGGTCGCGGTTGATTTCCTCAATCACCGCGTTGTGAGAGCCAAGCGTTTCACCCTGCAAATAGACC -TGCTGTTTACCGCCTTCTTCAATAACCGCGCCGGGTCTGGCACCAAAGGCGATCCCACGCAGCACCACATTAAGA -CGCGTTTCTGCCACAGGCACAGGTTCGGGTTGTTTTACCTGCGCGGCGACAGGCTGATATTTGCCAAACCAGTTT -TGCTGGCTGATTAATTGCACGTCATTTTTATCGAACGTTTTTGCATCCACACGGCTCGGTTTATTCACCGGTTGA -GAAACCGCCGTATATTCCGCAGAAAAGGAGATATAGCGCCAGAGTGAATGCGCCATTTTTGCAGAAATAATAAGC -AGCATCAGCCAGAACATCCCGCGTGCAATTTTTCGCAGATGCTCTTTGTCTGTATTAAGAGATTGTCTCTGGTTA -AGAGTGTGACGAATTTTTGTCAGCCATTGAATGAGATAAATTCGTGCGTCACGAAAAACAACCCGCGCCAATTTA -TATCTACCCGACGTTATGCTTTGACTATTCCACAGGTGGTACGATCCAGTTTCCGCTGATACTGGTTACCTGTAC -GTGTATCATTAATCGTTATGCTGTAATTAATTCCCTCAGTGATCATTAATTTCACCGTCGGGTCAGCGCACATTT -GTCGTTGATAGCTGGTTAAAAAGGCGTCAGGCGTCTGCGTGGTTTGTGTACCCGCTTCGCTGATAATGGTCATTT -TTACCGTTGTGCCGCTACTTTGCGCCAGCACTAAGGTATATCCCGCAGATTTAATCGGCAGGTTTTGGCTGATAT -TTTGCGCCTGTTTTTTCGCCAGTAAACTGGCATTTTCATTATGGCTGGCACAGCCACTTAATAATCCTGTAACGC -TCAACAATAGCGATATTAATACCCTCCCTGGCATTTGTTTTATCGACATGGTAAATAATCTCTAAGGTTATTAAT -AAGAGTTAAAATGTCACTTTGATAATGACGTGGTTATCATTAAAACAATGCCTGTAGATAAAGTGTTGCTATACC -GCCCAGACTTAAACACGGTCCAAAAGGCAGTGTGGTTGATCCTCTTTTTGTAATAACGGCATATATCAGGCCGCA -GCATGAGGCGATTAAAGCAACATTGGGCAGCGACAATGCCCCCACCCAGCCACCTAACGCGGCGAAAAGTAATAC -ATCGCCCATGCCTAATGCTTCTTTACGCAGAACTATTCCGGCTATCCAACGCAGAGAGTAAAAAGTGATAAATCC -CACCAGGACGCCGGTGACTGCATCTTGTAGCGTGAGCGGACTCTGCTGCGCCCATGCCGCAATCAGTCCTGTCCA -CAATACGCCCTGAGTAAAAACATCGGGCAGCCATTGGTGATCGAGGTCGATGACACTCGCGGCAATCAGCCAGGC -GGATAATATCATCACCGCCAGCCCCCATCCACTTTCTGGCCAGACCAGACTCGCCAGCAAAAAAGCAAGTGCTGT -CAATAACTCCACCAGCGGATAACGCTTGCTGATTTTCGCCTGACAGTCGCGGCAGCGCCCTTTGAGCATCAGCCA -GGAGAACAGCGGAATATTGTCACGTATCCGGATGGTCTGCTGACAATGTGGGCAGTGCGAACGCGGTAGCGCAAG -GCTTATTTTTGACTGCGCACTCGACATTTCACCGTGAAACTCCGCCATTTGTTGGCGCAGCATGATTGGGTAACG -CCAAATCACCACATTCAAAAAACTGCCGATGATCAATCCTCCGACGGTTGCCAGGACGGGCATCGCCGTGGGGTA -TTGCTGAAAAACATCAAAAAGCATGGTTAAAGGTTGTTTGTTGTAACTTGCTGGATGCGGCGTAAAACGCCTTAT -CCGTCCTACGGGTGTCTGCCAGCGCAAATAATCGCGGCTTTCCCCGTCTGTAGGCCCGATAAGCAGGCGCATCGG -GCAAATGTGTTAACCCGGTGCGCCTTATTTCATGCCGGATGCGGCGCGAGCGCCTTATCCGGCCTACGGGCTTAC -TCGGCAGACATCTTATGCTCGGTAACCTGATTAATGGTTTCCGGTCCCTGTTCCGGTTTCGGCAGATCGAGTGAC -GCGAGCGTGTTGTAAGCCGACTGGCTCACACCGCCCTCGAAGCTCATCTCGCTCGCCCCCGGCAGCTGGTAAGCA -TTCGCGCCCGGATTCCATTTCTTAAAGAACTCCGAAAGATCCGTCTGGGCGACCCAGGAGGCACACAGCATCAGC -GTGTCCGCTGCGTTACCGTTGGATTCAGCACAGTAATTCTTGCCGCCAAACTTGTCATTGCTGACCTCATCGCCG -CGTGCTTTACGATGCATCAACTGGAACAGGTTCCAGCCTTTCATCCCTTCACGCTCGCTGTAAAACTCTGGCAGA -GGAGTGCCATCTGGATACCATTTCTTGATATCAAAGTTTTTCTCTGCCCATTCCTTCAGCTGTGCGTACATCAGC -AGACGGTCACCCGCACCGCCGCGTGCCCATGCCTGGTTGTTGCTCTCCTCCAGATATTCCGGTGCGACGGTAATA -TCGTCAGCGACACGGTTCATCTTGCCGAGATAACGATCCTGCATGTACAGCGCCAGCACGTTGTTAGCGACTTCA -GTTGCACCCGGTACAGTCAACGGCGTTTCTGCGGCGTTATGACCGACTTCATGCCAGATCAGCCAGTCGTTCAGC -GGCGTCGTCGGCAGCGTGGTGCTGTTCGGCGAGAAGCTGCTGTTCATTACCGGATAACCCGAATGCGCATCACCG -ATGGAGATCTGCACATCGTTGGTGAAACGATGTTTGTGGCCCGGCAAGTTTTTATAGGTAAACATCCGGTGCTTA -CCGTCTTCGCTATCACGGCCGTAGAAGTCATTCATCGAGCTGGCAAAGGTATCCAGATCGTTAGCGAATTGCTCC -AGTCCGCCAGTGTAATTGCTGGCATTCAGGTTCTTCTTCGGTGTGGTATAGACGAAAGCGTCTGATTCCAGCTCA -CCCAGCGGAGCCGGTGAGTTCAGATCGTTTTTCCATGCGCCGTCTTTATAGAACGGTGCTTTTACCACGCCAGTA -AAGGTGAAGCTGGCAGATTCATTGGTAGAGCTATTGCCCTTGATATAAATCAGGCCACCGTAAGGCACCTTGAAC -TTCACCGTACCGCTAGCGTCCAGAGAGTACGTTTTAGTCACTCTTGGCGGACGGTTCAGCGCAACTTCATGCTTC -TCACGTCCGGTCAGGTCGTCAGCCAGCGCCACGGTGACGGTCACAGGAACGTTCGCATTGGACTTAATGGTGACC -TCTTTCTGAGCCGGTGCCCACAGGCCAGTTGACTGCATGTTACCTGCAAACCATTTGGTCGGATTCGAGTACAGG -CTGATGGTTTCAGTAACGTTCTGTCCCTCTTCCGATACTGCTCCCGGATACTTCTCGACATCAACTTTGATGTTC -AGATCCCACCAGGAACGGCCCAGCATCAGGCGTGTCAGCGGTTTTTCCATATAGTTGAGCGGGTAGCTCGGGTTC -ATCATGCCCGCTTTGCTGCTACCGTCACCGTAGATCATGTTGTTATCGACCAGCGATTTTTTCAGATCTGCAGAA -CACTTGGTGCCGCCTGCATAGGCATCATTGGCGTAGCAGTTCAGGAACTCGGTGAACGTTTTAAAGCCCAGCTCG -TCATTTTTGCCTTCTTCATAACGATAGCTCGTATCGTTCCACAGCCAGACCGACATGTTCTGGTACAGACGTTCC -AGATCGACGCTGCTCAGACGCTCACCTTTGCGACCATTGGTCCGGAAGTAGAGCTCATGCTGATACAGACGCTGA -ATGTTGGTGCCTAAATCCGCAGCCTGCACCATCGCTTTTGCAGTGTCGGCGTTAAGGCTTAGTTGCGTATACTGT -GGAACATACATGCCACCAGTAACCGGAACCCCCGTGCCAGGACGATATTCCAGGCAGTTGACCTCATAGTGATAT -GCCGGATTAGTACACTCTTTCAGCCCCGGGAACGCGGCGAAAATTTTCTCCTTCGCAGCCTTCAGAGAATCCTCT -GTTTTATGATCGGCCTCATCAATAAAGGCATAACGCGTTTCCTGTTTGCCATCTACATCTTCCAGCCAGCTGGCA -ACTTCCAGCTTCGGTTTGTCATCAGGTTTGTTTTCTACCTGATATTTCCACTTAACTTCCCCTGTCTTACTATCG -ATGGTGTACGGCAGCGCACCATCTACGGCAGGATAACGTTCATAGACCCAAATGCCCGTTGCGCGCTGCTGACGA -ACGCGGTTCGGATACCCTTGCGGATCGTTATTTACTACCGACTTGTTCAGTGCCATCGACAGACCTGCGGCATCC -AACAGACGCACAAAACCAGACGCGCTCTCTTCCTTAAGATTGCTCATCACGTTTTCCATGATCAGCACCGATCCA -CCTTTGTTCAGATAGGCGATCAGATCGGTCACATCCTGCTGAGTCAGCTTCGGTTTGCTGGTATCTGCACGCAGC -GGGATTGCATAAGGATCGTTACCCACCTGAGTCACATATTCAAAGCCGTTAAGGATCAGCAGCGGCATTTCCTGC -GGATCGAGATCGCCATAGCTACTTAAATGCTCAACAGAGATGCCCGCAAAATCCGGATGGAAGTCGAACGCAGCG -CTGTTTCCTGTAACCTGACCATGACGTTTAAAATAGACAGTATCCAGGTTGGTGCCTACGGTCATGCTGGCTTTC -GCGTCCGGCTTCCATTTATCGTCGGACAGATAGCGCAGCACGTTCTCCATGAAGTTCTTCATGTCATCCGGGTCG -CTGTTGAGCGTACACTGCCCATCTTTATTAACGCCCCCGTTCCAGCTGTAACCGTTCGGGCAACGCAAAATGCTG -TTGTAGTGTGGGTTACCGATAACCATCAGTTTGCCCTCACCGACTTGCCCCAGCGAAATAAACGGCAGGTTAAAG -GTGGCGGTATCGCGCGTAACGTTTTCCGGCTCAACAAGAGAAGGCGCTTCCGTAATGTACGCCAGCTCGTTTTTA -TCCCAGGCGCGTTTTTCGCCGAAGGCCAGCCAGTAGTTTTTATCATTACGCGCCATCAGAATCGGGAAGGCCGCG -TTGGAGATATTCACCACCGCCTGACCGCGCGCATTACCCGTGCTGCCATAGAAGTTGGTGGAGTCATGGAATACA -TGGAACTTGCTGACAGATTTGTAGTTCGTATCCACGCCCCACAGCTTGTTGATAACGCCCTGAATCTGGCCGTCA -TTAACATTGCGCGTCGTCAGCGAGAACCAGCGAGCCTCGTTACAACCATCGGTTTTCGCACAAATCGCGGTATCG -ATCTCTTTGGCCTGACCCGTATTAAACTGCTCAATAAATTCGTTAGGCAGATTAACGACTTGCTCACCTTCCCCC -AGCGTCGCACCGTTGGATAACGAGAGATTGATAATCTCGTTGATCACGTTGGGATATTCGGCAAAGACCTTGCGT -ACATCGTCCGGAACAACACGGGTATTATTTTGCCCGGTCGTCGAATAGCGATGAATAAGCTGATCAATATTCGCC -CCGCGAACTTCATCACCCAGTTCAGTCAGCGCAATGGTCGACTTATTGCCGCGCACTGAACCCAGTTCAAAGGTA -TCGATACCAAAGGAGATGGTTTCGCCCCAGCTAAAGGAAAATTCACCATTTTCCCCTGTCACGCCACGGCCTGAA -TTGGTGTAGTAGTTGACGCCAGCAACACCATATCCCTGGCTATCGACCAGTCGACCTTCAGAGAGAATGATTTCA -GTGGGTTGATACTGATAAAACTGTTCCGCGTTAGCCGACACGAAGGAAGCGTTCAGATCCGGTTTTGTTCCCGGC -GTGGTGACGGGCACGACCGGTGAAGTATGAGTGGATGGCGCTTTATCGGTCGCAGCATTGTTTTCCACCTCTTCA -TTGACCAGCTTTTTGAACTCTTCCGGTGCCAGATCGATTTGCTTATACAGCGAGTCGAAGCGTTTACTCTCGATC -ACCGAGGAGAACGTCAGACAAACCTGTTCTGTATTCGCCGGACAGCTGTTACTGGACGTTACCAGCGAAACCGCA -TTGCTTTTCTTGTCATCGGAGCCCGCCAGTTCTTGCGCGTCCTCAAGGCTAAACGACACTTTTTCAACCGCACGC -AAGCTACGCGCAGCTTCTGACTGAGTGTTGAAGGTGGCAATTGTCGTGTTACCCGCCACGCAAGTAACGTCCTCG -CCAGGTTTAAATGTAAAGCCATCGCTGGATTCACCATTACAGGTAGCACCAGTTACCCGCTGGCTTCCGCCCAGG -GTCAGATAACCCGTTTTCGTAGGAACAGGTTCTGGCTCCGGTTCTGGTGTTGGTTCAGGATCAGGTATCGGTTCT -GGCGTAGGCTCTGGGTCCGGCGTTGGCTCAGGCGTCGGCTCCGGGTTTGGTGTTGGATCAGGTTTCACTTCCGGC -AAAGACCCTGTTCCAGAATCTACAGGCGGCGTATCGGAGGAAGATCCGGAACCACCGCCATCACAACCGGCTAAC -AGGGTTGCGCTCAAAATAGCCGCTAAAAGCGATTTCTTATATTTAAATTTCTTATTCATTAATAACGCAAGTGAC -AAAACAATGTTAAAAAATTCGTAACTGGGAGAAATAGTTTTATGCTTTATCTTCTCTAATAACTTCCTCCATTCT -TAAGAAAACGACATCATTGATAGAAAACAGGTGAAATTTATAAGAATAACCCCTATACGATGTCTATCTGGCTAT -TTTTACGAAATTTCAACAAACAAAAAATTAACAACATTTCACAACGTAACTATATAAATTTGTTGGTAGTTTTAA -CGATTAAGATTGCAAAAGCAACAGATAGAACGGTGTTTGCTCATCAAGCGAACATAATTAATACAGACTTGTTTT -GCGTGATAAAAAAATAGATGTTCTCACGCTCTTAATTATTTAGCAGGTTATCTGAACGCAAAACATTATTGCTGC -ATGGATAATAAAGCGAGAAATGATTTTCAATTAATAAGACAGAATAATGTAAATGAAGCCGGATGATATTAACGA -TCATCCGGCTTTATTGATTTACGAGACTAACATCCCGGTAAACACATACGCCTGCAGCAGGGTGATAATGCCGAT -AACGCTGGCAAAAATCAGACTGTGCTTCACGGTGTAGCGGAACAGTTCAGATTCTCGGCCCACCATGCCCGTCGC -GGCGCAGGCCACGGCGATAGATTGCGGGGAGATCATCTTGCCAGTTACGCCGCCGCTGGTGTTTGCTGCCACCAG -CAGGGTGTCAGAGACGTTGATTTGCTGCGCCGTGGTCGATTGCAGTGAACCAAACAGGGCGTTAGAGGAGGTGTC -CGAGCCGGTAAGGAATACGCCCAGCCAGCCGAGAAACGGTGAGAAGAACGGGAACATCACGCCTGTACCTGCCAG -TACCAGCGCCAGCGTGGTGGACATGCCAGAATAGTTGGTGACGAAGGCGAACGCCAGCACCATGCCAATCGACAG -TATCGGCCACTTCAAGCTAATTAGCGTTTCGGCAAAGACGCCAATACCTTTCTTGATCCCCACACCGAGGATGAA -GATAGAGATAATCGCCGCAATAAAAATAGCGGTGCCGCCAGCCGAGAGGGGGTCGAATTTAAACACCGCATCCAT -TGGCGTTGGTTGGGCGACAATGGGTGCCGCTTTCAACACTTGTTGATGCAAATGAGGGATCTGGAAATTAATCAC -CAGTGAATAAAACGCGCCGCCCGGAGCAAATAACGCTTTAAACGGCTTCATGGTCCAGATGGTGACCAGCACCGT -TAAGATTAAAAACGGTGACCACGCTCGAATGATTTGCCCCAGACTATATTCTGAAGGCACGGGACCGCCAGAAGA -TGGCTTATTTACCACCATCGCACCTGCGGATTGTCCCATGCTGATTGCCGTTTCGGTATTTTTCGGCCGCCAGAC -TTTAAGGAATAAAGCGAGTGAGACGATACTCACCAGCGCCGAAGTAATATCCGGCAGTTCCGGACCAATATAGTT -AGAGGTAAAGAACTGAGTGACAGCGAAGCTTCCCCCAGCAACCAGCGCCGCTGGCCACGTCTCTTTCACCCCTTT -CCAGCCGTCCATCATTGCTACCAGCCAGAACGGCACAAGAACCGACAGGAACGGTAACTGACGTCCCGCCATTGC -GCCAATGTGGAACGGATCGATTCCCGTTACCTGACCGGCGACCAGAATCGGCACGCCCAACGCACCAAACGCCAC -CGGCGCAGTATTGGCAATCAGACACAGCCCCGCCGCGTATAACGGTTTGAAGCCCAGGCCCACCAGCAGCGCACC -GGTAATCGCCACCGGCGCACCAAAGCCAGCCGCTCCTTCCAGCAACGCACCAAAGGAGAAACCAATCAGTAACAC -CTGCAAACGCTGATCGTCGGTGATGGAGATAACCGAGCTGCGGATAATATCGAACTGCCCGCTGGCAACGGTTAA -TTTATACAGGAACACCGCCGCGACAATAATCCACGCTATTGGCCATAATCCATAAATAAAGCCATAGCCCGCAGC -AGCAAATGCCATATCAATCGGCATTTTAAAGGCGAATATTGCAATCAGGATAGATAATATAAGGGTTATTGCTCC -AGCGACATGTCCTTTCAGACGTAATACCGCGAGTGCAACGAAGAAGAATATTATCGGGATCAGGGCGACCAGAGC -GGATAGCCCCAGTCCTCCCATCGGCATATACATTTGGGTCCAGGTAACCATATTGTTCAGTCTCTTATTATCTTT -ATATGCTTGATATACTTAAGGTTGTAATAAGCAAAAGAGGACTGAACTGTAAAATATAGGCGTTATACTTTACAG -CAACAGTACGCCGCTAACGCAATTGCTACCTCTGGCATAACAAGTATATCGGGTAAGGGTTTCTGTTCCGCACAC -GCAGACGCAGAGTATCGTTAAGATGTCCATATTGTTGTTTTAGGCCCGCTAGTAATGCGCTACGGGTATTTAATA -TTGTTAAACCCTGATAATCGCTCCGGTTATTTCCGGGATAAATGTACTACCGCAGTTACTATCATAGCCCCGACA -ATAAAACTTGCCGGGGCTTTTTTGACGCTATTAATGACTTTCTTTTTCGCGTAAACGCCAGGCGTGTAATAACGG -TTCGGTATAGCCGTTTGGCTGTTTCACGCCGAGGAAGATTAAATCGCTGGCAGCTTTAAAAGCACACGAGTTAGC -GAAATTCCCCGCCATCGGACGATAAGCCGGATCGCCAGCGTTTTGCTGATCAACCACTTTCGCCATATTCTCCAG -CGACGCCTGCACCTGTTCTTTGGTCAGAATACCGTGACGTAACCAGTTGGCGATATGCTGGCTGGAGATACGCAG -CGTTGCGCGGTCTTCCATCAACGCCACATTGTGAATATCCGGCACTTTTGAACAACCAATCCCCTGCTCCACCCA -GCGCACCACGTACCCCAGAATCCCCTGCACGTTGTTATCCAGCTCTTGTTGGATCTCTTGCGCCGACCAGTTAGC -GTTTTCAGCAACCGGAATAGTCAGCAGATCGTCCAGCAGCGGTTCAAATTCAGCATTGAACTCGGTCTGGGCAAT -GTTGGCTTGTACGCTCTGTACGTTGGTTTGGTGGTAGTGCAGCGCATGGAGCGTAGCAGCGGTTGGTGACGGAAC -CCAGGCTGTGTTTGCCCCGGCACGCAGTTGGTCGCCCTTCTGGCTGTACATGTCTGCCATCAGGTCCGGCATTGC -CCACATGCCTTTACCAATTTGCGCTTTACCGCGCAGCCCACAGAACAGACCGGAAAGCACGTTATTACGCTCGTA -GGCTTTGATCCAAGGCGTCGATTTCATCTGATTTTTACGCAGCATCGGGCCAGCTTCCATCACCGAATGCATTTC -ATCGCCGGTACGGTCGAGGAAACCGGTATTGATGAACGCCACGCGGTTGCGCGCCTGAGCGATACAGCTACGCAA -GTTCAGCGAGGTCCGACGTTCTTCATCCATAATGCCCATTTTCAGGGTATTCGGTGCCATACCGAGCATTGTCTC -AATGCGGGTAAACAGTTTGTTGGCGAACGCCACTTCCTGCGGACCGTGCATTTTCGGTTTCACAATATAGACGCT -GCCAGTGCGCGAGTTTTTCTGCACTTTTAAATCATAGAGGGCAATCGCGCCAGTCATGACGCCATCAAGAATGCC -TTCCGGGATTTCATTGCCTTCGCTGTCCCAAATCACAGGAATGGTCATCAAATGACCCACGTTGCGGATAAACAG -CAGCGAGCGTCCGTGCAGAGAAATTTCAGAGCCATCGGCGGCGGTGTAATGACGATCGTCATTCAGTTTACGCAC -GATTTGCCGACCGTTTTTCTCCATTTTCTCTTGCAGAGTCCCCTGCATCAGGCCCAGCAGGTTGCGGTACAGCAG -GATTTTATCTTCCGCATCAACCGCCGCGACCGAATCTTCGCAGTCGAGAATGGTACTGATAGCAGCTTCGACGAT -AACATCGTTGATGTGCGCCGGATCGTCTTTGCCAATCCGCCCATTGGCATCGATTTGCAGCTCAATATGCAGGCC -GTTATTTTTCAGCAAAATGCAGGTCGGCGCAGCGGCATCGCCACGGTAACCGACAAACTGTGCTGGAGTACGTAA -CGTGGTTTCTTTACCATTTTTCAACTGGATGCGTAATTGTTTATCAACCACCTTAAACGCCACCACATCCTGATA -GCTGCCGTTTTCCAGCGGTAGAGATTCATCGAGGAAACGCCGAACCCAGGCGATAACCTGCTCACCGCGTTGCGG -ATCGTAGCCGCTGACCATCGCCCCTTCCTGCGGGATGATGTCGCTGCCGTATAACGCATCGTACAGTGAGCCCCA -GCGAGCGTTCGCCGCGTTCAGCGCGTAGCGGGCGTTCATTGCCGGAACCACCAGCTGCGGCCCCGCCTGGCTGGT -GATTTCGCTGTCAATGCCCGTGGTTTCCACCGTCACGCGCTCCGGTTGCGGCACCAGGTAGCCCAGTTCACGCAG -GAAAGATTTATAGGCCGCTTTATCTTTTACCGGCCCCGGATTGCTGCGATGCCACTCATCAAGCGCTGCCTGAAT -GCGATCGCGTTCTGCCAGCAACTGACGATTTTCTGGTGCCAGATCATGAACGATCTCATCAAAATTGCGCCAGAA -CGCCGCAGCGTCCAGCCCTGTTCCCGGTAAAACTTCTTCATCCACAAAACGTTTAAAATTGGCGTCAATGCGTAA -ACGGCTCTGGGTTATGGTTTGACTCATTGTTTATCTCCTCGTTTTCGCTTATTTCGCCAACACCGCTGCTGCCGC -TTTCGCGACCTGCGCATCCTGTGCTCCGGTTAAACCAGAAACGCCCACGGCACCAATAATTTGCCCATCCACAAC -AACCGGTACGCCGCCTTCCAGCGACGTTAATAACGGCGCAGTCACGAACGCGGTACGTCCGTTGTTCACCATCTC -TTCATAGCCCTTAGTTTCACGACGCCCCAGCGCGGCGGTACGCGCTTTCTCCTGGGAGATATAAGCCGCAATCGG -CGCGCAATCGTCCATGCGACTTAACGCCAGCAGATGACCGCCGTCATCGGCAACAGCAATGGAAACAGACCAGTT -ATTTTTCTGCGCCTCTTCCTGACCTGCGGCAATAATTGCACTCGCCATTTGCTGGCTAAGAATGACTTTAGTTTT -CATTTTGTTATTCCTTTTCAAGGGCTTGTTCTACAATTTCAATCCAGTGACGCACAGAGGTACGACCGGCGCTCG -CCAGATGCGTCTGGCAACCAATGTTGGCGGTGACGATCATTTCCGGTTTGCCGCTTTCCAGCGCATTCATTTTGT -TATCCCGCAGCTGGCGTGCCAGATCGGGATGCGTTAACGCATATGTTCCCGCTGAACCGCAGCACAGATGGCTGT -CGGGAACGTCCGTTAAGGTAAATCCAAGACGAAGCAACACTTTTTCCACTTCGCCGTTCAGCTTTTGCGCATGTT -GTAGGGTACACGGACAGTGGAAGGCCAGCTTTTTATCGCCGCGAATTGCCAGTTTTTCCAGCGGTTCCTCGCGCA -GAAGTTCGACTAAATCGACCGCCAGTTCACTGACCTGACGTGCTTTATCGGCATATAACGCATCGTTTTTCAGCA -TCTGCCCATACTCTTTGACAAACGCGCCGCAGCCGCTGGCGGTTTGCAAAATTGCCTCGGCACCTGCTTCAATCG -CGGGCCACCAGGCATCAATATTATTGCGCGCCCGTGCCAGCCCTTTCTCCTGCGCATTAAGATGATAGTCCACCG -CGCCACAACAGCCTGCTTCGTTAGCTGGCATGACGCTGATCCCCAGACGATCCAGCACTCGCGCAGTTGCCGCGT -TGGTGTTGGGCGAAAGCGTAGGCTGGGCGCAGCCTTCCAACATTAAAACCCGACGCTTATGGCGCAGCGGCGGAC -GCGGTTTAGCTTTCACCGTTTCAGCAGGCAGTTTTGCTCTGACCTGTTCCGGTAAAAACGGTCGCAGCACCAGCC -CTACCTGCGTCAGCGCACGGAAGACCGCCGGACGCGGCACTACCTGGCGCAATCCTTCGCGCAGTATTCGCTCCG -GCAGTGGGCGTTTCACTTTCTGCTCGACAATATCACGCCCGATATCCAGCAAATTGTGATAGCGCACACCAGAAG -GACAGGTGGTTTCACAATTACGGCAAGTGAGGCAGCGATCGAGATGCTCCTGTGTTTTAAGCGTGACTTCGTTGC -CTTCCAGCACCTGTTTAATCAGATAGATGCGCCCGCGCGGCCCGTCCAGTTCATCGCCCAGAAGCTGATAGGTTG -GGCAGGTTGCGGTACAAAATCCGCAGTGAACACAGGCGCGCAGGATGCTGTCGGCTTCCAGCGCGCGCGCGTTCT -GCCGCATCTCTTCAGTTAATTGGGTTTGCATAGCCTGCTCCTCAAAGTTCCGCGTACATGCGACCGGGGTTAAAC -ACGCCGCAAGGGTCGAGCTGCTGTTTAAGCTGCTGGTGATAGCGGAATAAAGGAGCCGATAGCGGGGCAAAGCCA -CCATCTCCGGCACTAAAGCGGGTCGCATGACCGCCAGCGTTGCGGGCGATGCGATGGATTTGATTGTCCTCGGCT -GTCGATTTCAGCCAGCGTAACGCCCCGCCCCAGTCGATCAGTTGCTCGCCGGGTAAATCCATCATCGGCGCATCA -CTGGGTAATGAAATGCGCCATAAGGTACCTGGTAACGAGAAGAACGGCAGTTGTTGTTCACGCAATTGCTGCCAG -AACTGACCGGCAACCTCTTCGCCACCCAGCAGTTCACGCGCTGCTTTTACCGATCCTTCGCCGCCCTCAAGGCGG -ATCCACAACGCATTGTCGAAGTAACATAAGCCACTAATGGGTAATGGCTGGAGTTGCCACTCGGCGATTTCACTC -ATGGCTTCTTGCAGGCTGATTTCCCGACGCAGGCTCAGGGAGGCGCGCGGTCGCGGTAACACTTTCATTGAGATT -TCAGTGAGCACGCCAAGACAACCGTAGCTTCCGACCATTAACCGTGAGAGATCGTATCCGGCAACGTTTTTCATC -ACTTCGCCACCAAAACGCAGATGTTTTCCAGCGCCGGTAATGATGCGCGTGCCGAGGACAAAATCGCGGACCGAA -CCGCTCCACGGGCGACGCGGCCCCGCCAGCCCGCAGGCGACCATCCCGCCCCAGGTGGCTTCTTCACCATAATGC -GGCGGCTCACAGGGGAGCATTTGCCCCGCGCTTTCCAGCGCCGCTTCAATTGTCACCAGCGGCGTTCCGACACGC -GCGGTTATCACCAGCTCGGTCGGGTCGTAATTAACAATGCCGCGATGACAACGAACATCCAGCGTTTGCCCGGTG -ACAGGGCGACCTAAAAAGGCTTTGCTATTGCTGCCCTGAATCACCAGCGGCGTTTTATCGCTAATCGCCTGATTC -ACCTGCTCCAGCAGCGCCTGGCTGTAATCACACTCGCGTAGCATCAGAAACGCTCCAGTTCAGGGAAAGGTAAAT -GACCGTGATGCACATGCATGGCACCAAATTCAGCACAGCGGTGTAGCGTGGGAATGTTTTTCCCAGGGTTCAGCA -AACCATCGGGGTCAAACGCCGCCTTGACCGCATGGAAGGTCGTGATTTCATCGCTGTTGAACTGGGCGCACATTT -GATTGATTTTTTCTCGCCCGATGCCATGTTCGCCACTGATGCTGCCGCCAACTTCAACGCAGAGTTCGAGGATCT -TCCCGCCCAGCTCTTCCGCGCGGGCAAATTCACCGGGTTCGTTGGCATCGAAAAGGATTAACGGGTGCATGTTGC -CATCTCCGGCATGAAAGACGTTGGCAACACGTAAATCATATTGCTGCGATAAACGGGCAATGCCTTCCAGTACGC -CAGGCAGGGCGCGACGCGGGATGGTGCCATCCATGCAGTAGTAATCCGGGGAGATACGTCCTACCGCCGGGAACG -CATTTTTGCGACCGGCCCAGAAACGTACGCGCTCTGCTTCGTCCTGTGCCAGACGGACGTCAGTCGCGCCCGCTT -TCAACAAGATGTCGTTAACCCGCTCGCAGTCTTCCTGTACGTCAGACTCCACGCCGTCCAGCTCGCATAACAAAA -TCGCTTCGGCGTCGACGGGATAACCGGCATGAATAAAATCTTCCGCCGCGCGGATCGACAGGTTATCCATCATCT -CCAGCCCGCCGGGGATAATGCCATTGGCGATGATGTCACCAACCGCAAGTCCGGCTTTTTCTACCGAGTCAAAGC -TGGCTAACAGAACCCGCGCCACGGGCGGCTTCGGCAGCAGTTTTACCGTCACTTCGGTGGTCACGCCGAGCATAC -CTTCCGATCCGGTGAACAGCGCCAGCAGGTCAAAACCAGGTGAATCCAGCGCGTCCGATCCAAGCGTCAGTGCCT -CGCCGTCCAGCGTTTGCACTTCAATTTTCAGCAGGTTATGTACGGTCAGACCATATTTCAGGCAGTGGACGCCGC -CGGCATTTTCAGCCACATTGCCGCCAATGGAACAGGCGATTTGTGAGGAAGGGTCCGGTGCGTAGTAGAGATTAT -GCGGTGCAACGGCCTGGGAGATCGCCAGGTTACGCACGCCTGGCTGCACGCGCGCGCGGCGACCAACGGGGTTAA -TGTCGAGGATCTCTTTAAAGCGCGCCATCACCAACAACACACCTTTTTCCAGCGGCAGCGCGCCACCAGAAAGCC -CGGTGCCTGCACCACGGGTCACCACCGGTACACGCAGGCGATGGCAGACAGCCAGAATCGCTGTCACCTGTTCCA -TTTGCTTAGGCAGAACAACCAGTAATGGACGCGTGCGATACGCGCTCAACCCGTCACACTCGTAAGGAATGATCT -CCTCATCGGTATGCAGGATCTCAAGTCCAGGGACATGCTCACGCAGTGCCATCAGTACCGATGTGCGGTCGACAT -CGGGTAAAGCGCCATCAAGACGCTCTTCGTACAAGATGCTCATGAGTAGGCTTCGCTTTGTTGTGTTGTGTGGCA -GCTGATTTTTGCGCGCTGCTTCTGTGAACAGTTATTAAGCGGGCTTTTCGTTTTCGTCTATCTCTTTAGCTACCG -GTCAGACCATTTTTTTTCCAGCTCTGTGACCTTGTCTTGGTTAACTCAATGTTAAATTGATGTAACATAATCACT -TACGTGATGTGCGTGTTTTGCGAGTTAAGAACAGAAAAATTGGTCCTACCTGTGCACGAGGTCCGGGAATGAAAG -ATGAACGTCGCCCTATTTGCGAAGTGGTTGCAGAGAGTATCGAACGGTTAATTATCGACGGCGTACTGAAGGTCG -GTCAGCCGCTTCCCTCGGAACGTCGACTGTGTGAAAAGCTCGGCTTCTCACGCTCCGCACTGCGTGAAGGGCTGA -CCGTGCTGCGCGGGCGCGGGATTATTGAAACGGCGCAGGGTCGCGATTCTCGTGTCGCACGGCTTAATCGGGTGC -AGGACACCAGCCCGCTGATCCATCTGTTCAGTACGCAGCCGCGAACGCTGTACGATCTGCTCGACGTTCGCGCAT -TACTGGAGGGCGAATCGGCAAGGCTGGCGGCAACGCTGGGAACGCAGGCTGATTTTGTTGTGATAACCCGCTGTT -ATGAAAAAATGCTCGCCGCCAGTGAGAACAACAAAGAGATTTCGCTGATCGAACATGCGCAGTTGGATCACGCTT -TCCATCTCGCCATTTGTCAGGCTTCTCACAATCAGGTGCTGGTGTTTACGCTGCAATCATTGACCGATCTGATGT -TTAATTCAGTGTTTGCCAGCGTAAATAATCTCTACCATCGACCACAGCAAAAAAAGCAGATCGATCGCCAGCATG -CGCGGATCTACAACGCGGTGTTGCAGCGGCTGCCGCACGTCGCCCAGCGCGCAGCACGCGATCATGTGCGGACCG -TGAAAAAGAATCTCCACGATATCGAGCTGGAAGGCCACCATTTGATTCGCTCGGCGGTGCCGCTGGAGATGAACC -TGAGTTAGCTGGTATTAAATCTGCTTTTCATACAATCGGTAACGCTTGTACGGCTCCGCCCCAATGCGTTCCAGC -ATGTTATTCATGCCTGTATTGGTTTCGAGGATCCATGACATCTCCAGCGCATCGATCTTCCGGCGGGCAAACGGA -TCGCGTAAGGCTTCAATCAATAACAGCGCAATCACCGGGCCGATGCGGCTGAACTGATACTCGTCGCGCACGCCC -ATCAGCGGTACTCGCGCAGTTCGCACACCGCTGACTTTCAAACGCCACAGCAATTTTGCCCAGCCGAAGGGAAAG -AGCGATCCGTTCAGATCGGCAATCGCCTCGTTGATGTTCGGCAAGCCGACAATAAACGCGCAGGGTGCAGAATCA -ATCTCAGCGATATAGATCATATCGTCCGGCACCAGATATTTAAGTTGATCGCCCATGGTCGCGAATTCATGTTCG -GTAAACGGCACAAATCCCCAGTTGTGCTGCCAGCCAGAGTTGAAAATCTCACGCAGGATCTGCATCTCTTCGGCA -AACCGCTGACGATTGATGCAGCGAATGGTCACCTTTTTGCGCACCTGATCCATCAGTTTTTTTAGCGCCGGAGAG -AAAGTGAGATCGGTTCGCTGCATCCACCACGCCAGTAAATCAATGCCTTTGTGATAACCCAGTTGTTCAATATGC -GCGGCATACCACGGTTTGCCGTGTGGCATCATCGCACAGGGTGGTGTGTCAAAACCTTCAATCAGTAATCCGCTT -TCCTGATTGATATTCAGGCTGAAAGGACCGCTGATCTTACTTGCACCTTGTGACTTCAACCACGCTTCCGCTGCG -CCAAACAACGCGGCAAAAACCTGCGGATCATCAATGGCGTCAATCATGCCGAAATGACCGGTATCTTTGCCGTAA -CGCTCGCGGTGCAAGGTATCTATTTGCGCGGTAATACGCCCAACTATCTGCCCCGCTTTTTTTGCCACCCACGCC -TGCCAGATGATATGGTCCGTCCCCGGATTTTTCGCAGACAAATGCTCGTTGCGTTCAATGAATAAAGGGGGTATC -CAGTTTGGATCGTCGGGATAAAGTGATGACGGAAAAGCGATAAATGCCTTAAGGTCATTTTTATTAAGGAAGGTG -CGAACAAGTCCCTGATATGAGATCATGTTTGTCATCTGGAGCCATAGAACAGGGTTCATCATGAGTCATCAACTT -ACCTTCGCCGACAGTGAATTCAGCAGTAAGCGCCGTCAGACCAGAAAAGAGATTTTCTTGTCCCGCATGGAGCAG -ATTCTGCCATGGCAAAACATGGTGGAAGTCATCGAGCCGTTTTACCCCAAGGCTGGTAATGGCCGGCGACCTTAT -CCGCTGGAAACCATGCTACGCATTCACTGCATGCAGCATTGGTACAACCTGAGCGATGGCGCGATGGAAGATGCT -CTGTACGAAATCGCCTCCATGCGTCTGTTTGCCCGGTTATCCCTGGATAGCGCCTTGCCGGACCGCACCACCATC -ATGAATTTCCGCCACCTGCTGGAGCAGCATCAACTGGCCCGCCAATTGTTCAAGACCATCAATCGCTGGCTGGCC -GAAGCAGGCGTCATGATGACTCAAGGCACCTTGGTCGATGCCACCATCATTGAGGCACCCAGCTCGACCAAGAAC -AAAGAGCAGCAACGCGATCCGGAGATGCATCAGACCAAGAAAGGCAATCAGTGGCACTTTGGCATGAAGGCCCAC -ATTGGTGTCGATGCCAAGAGTGGCCTGACCCACAGCCTGGTCACCACCGCGGCCAACGAGCATGACCTCAATCAG -CTGGGTAATCTGCTGCATGGAGAGGAGCAATTTGTCTCAGCCGATGCCGGCTACCAAGGGGCGCCACAGCGCGAG -GAGCTGGCCGAGGTGGATGTGGACTGGCTGATCGCCGAGCGCCCCGGCAAGGTAAGAACCTTGAAACAGCATCCA -CGCAAGAACAAAACGGCCATCAACATCGAATACATGAAAGCCAGCATCCGGGCCAGGGTGGAGCACCCATTTCGC -ATCATCAAGCGACAGTTCGGCTTCGTGAAAGCCAGATACAAGGGGTTGCTGAAAAACGATAACCAACTGGCGATG -TTATTCACGCTGGCCAACCTGTTTCGGGCGGACCAAATGATACGTCAGTGGGAGAGATCTCACTAAAAACTGGGG -ATAACGCCTTAAATGGCGAAGAAACGGTCTAAATAGGCTGATTCAAGGCATTTACGGGAGAAAAAATCGGCTCAA -ACATGAAGAAATGAAATGACTGAGTCAGCCGAGAAGAATTTCCCCGCTTATTCGCACCTTCCCTAAATCAGGTCA -TACGCTTCGAGATACTTAACGCCAAACACCAGCGAAATGAGCGGCTTGCCGACGATCAACACCGCGAGCGCCACC -AGAATACCGATTCCGCCCGCCAGTAAACCGGACTTCACACCTAACAACCACGGTCTGGTGGTGCGCGGATCTAAA -CGCATCACCTCTGGGTAAAAACTTTTACCCAGCAAACCCGCTGGCGTTCCGGCGGCGTCGAAGAATGTCATGGCG -ATTTTAAATAACCCGGCGGCAGCGGGTCCTAACACGATCCCCACCAACACTGTGCTGCACGAGTTACGCGCCGAC -CAGATGGAGTGGGCAATGTTGGTTGACCAGACAAAACTCCACGCGCCTTTAATGTATCGGGCAGACTCAAACAGA -TTCAATTTGAAGGCGTTATGGATATTTCGGCGGCGTAATTCGCGCGCGGCAAACCACCAGTACATGGTGCCGCCA -ACCAGATTCGACACGTACCAGGCAATAACAAAACCCGCAAAACCAAAGTCAAAATACCAGGCTACGACGCTCCCC -GCTGCGCGCAGAAAAGGTTTCGTCGCCTGCTGTACAGCAATTAAATCGAAGCGATCTACCGCACGCAGAATGCCG -GTCGGCGTGGAGGAAGCCATTGAAGGAATGAGCGTGCAATAGAGCGCTGCCAGCCAAAAACTTTGGTCATCCAGA -CCTAATGAATGGGAAAGGAATGGCAGTAAGGCAATGCCACCGACAATCGCCACCGCGCCGCTGACGATATCCAGC -GAGAAGGAAAATGAGACGACATTGCGGAATTGCTGCGGATTATTGTTGGTTAATGCTGGTGTTCCGTACTGAACC -ACCAGTTGCCATGTCTGAAACTTAATAAAATCGCTGATCGACTTGGCGTACGATTGCACAATCACCAGTACGCCA -AACATGGCGGGCGTCATCCCTTTACCGGCACACGAGAGCGCCAACAGACCCAGCAAGGCGCTCACGACATTACTG -GAGCCTAACCAGGCGCTATTGCGAATAATGGTGCGAAACGCGCCATCTGCAAACCAATGTTTGATGTTAAAACCC -GCCAATTCAGCCTGACCTTATCGTTGATAGTAAAAAGTATCCCGCCAGCCTTAAGTTAAACTTCGGCGGTCAGAA -ACGATGGCAACCAGAGAAACCGCCTTCTGTGCCTGTTCCAGCACTTCGCTGTAGGGCGCTCTGGAATCAATCTCA -AGAATTTTTGTGCCGTTATAGCCAATCTTCGACATGACACCGATTTTGTCCTGCAGCTCGGCATAGTCATGGTCA -GGCTTGCGGGAGATGGCAGTCTCAATATCAATGCCCAGGCGAATAATTAATTCCGGGCGATATTGCGCCATTTGT -TGGTATAAACGCCGTTCGCGCTGCGCCAGAAACATGCTGATTTTCCCGGTCGCACGTTCGACGCCAATCCCCGGT -CCATCATAATAAAAGCCCGAAATTTCAGCCTGCGGGAAGCGATCGCTGACCACCAGAACGCCACTTTGCGCCAGT -CGCTGAACCTTGCGTAGATTCGCCATTCTTCGCAGCGAGAAGCAGTACATAATCACCGCCGCCCATAGCGCCGGA -GATTTGGTTTTCATGCTTTGGGTTTTCGAGGATTTGGCCGCCAGTCGCCGTTCCAGCCAGACGCCAACCAACGGC -AATCGTTTGATTTTGTCGCCGTCTTCGCCGGAGAGCAGCCCCAGATAGCGCCGCTCGGTTTGCCAGTGTTGTTGC -AGCGATTTCACCAGGTCGGTGGTCAGTGTGGATTTACCGGTGCCATCACACCCGACCACCGCAATCAGCCCCGGA -ATGTAGTTGGGCTGCGGCGCGGTTGTACTATTAACAGTTTGAGTTTGTAGTGCATCCATTCGTTAAATCATCCCC -TATCCATTTTGGTGATCAGGAAAGCGCGGCGTGAATTGCGCGTAGTGACGCTTGCAGAATTTCATCGGCGGGGTG -TCGCCCATCCAGTTCAAGGATCTTTGCGCCATTGAATGTCAGTTGCGGCGTAACGGCGATTTTTTCCTGTAACGC -TGCCAGTTGGTGGTCAGGTTTACGCGCAAACGCGGTTTGTTCATCAATGCCAAGACGAATCAACAATACGGGCAA -ATAAGATGCCATCCATTGGTACAGCTTCAGCTCGCGCTGCCTTAACATTTTTATCCAACCGTTACCGCCCGTGGT -TTTTGCCAATTGCGGGCCATCAAAGCGAAACCCCGGCACTTCAACCTGCGGGTAGCGGTCGGTGATGAGCAGAAA -GCCTTGCTGGCTTTTACACAACATTTTGCGAAACTTGTACGCCCGCCAGCAGGAAAGCAGATAGATAACCAGTGC -AGTAATATTGCCAGGCGGTGTTGAGGGCTTTTCGTGCACATGTGCCGCTTTACTTCGCAGATAACGCCCAAAAGG -TGCGCCAATAACAGGGAGCTGTGAAATCCATTCGCCAATTCGCCCGGACGATTGCCCGAGATAAATGTGTTCTGT -TGGCATTCTTGCTGCCAGTTCATTTACCAGGCTTGCCGTGAGGGTCGATTTACCTGAACCATCACATCCTACAAT -GGCAATAACACGCACTGGCGTGGAATTAATTATTGACATATTACGTTGATTCACGAAAAACCCGGCAGTAAATAA -TGTATTGAATATTACGTGGTCCGTGCTCAGAATATCCGTTCAACCTTATTGTGACAATGGTTAATTGTGACATTG -ACCTGAATTACGCTTTCATAAAAACATATTAACCAAATAAATATTTTTAATGGATATTTAAATTAAAGGATATAT -TCATGCAGTCAATAACACCTCCATTAATTGCCGTTATTGGTAGCGATGGTTCAGGCAAGTCAACGGTGTGTGAAC -ATCTTATTACCGTTGTCGAAAAATATGGTGCTGCCGAAAGAGTTCATTTAGGAAAACAGGCCGGAAATGTCGGTC -GTGCAGTGACAAAATTACCGTTGATGGGAAAATCCTTACATAAAACAATTGAACGAAATCAGGTGAAAACAGCAA -AAAAATTGCCTGGACCAGTTCCGGCGCTGGTAATTACAGCGTTTGTCGCCCGTCGCTTACTGCGCTTTCGTCATA -TGCTTGCCTGTCGTCGTCGCGGGTTAATTGTTCTAACCGACCGTTATCCTCAGGACCAAATTCCTGGCGCTTACG -ATGGTACGGTGTTCCCACCTAACGTTGAAGGTGGTCGTTTTGTCTCATGGCTGGCAAGCCAGGAACGTAAAGCGT -TTCACTGGATGGCGAGCCATAAGCCTGATCTGGTCATCAAACTCAATGTTGACCTTGAAGTTGCCTGTGCACGTA -AACCCGACCATAAACGGGAATCGCTGGCGAGGAAGATTGCCATAACGCCACAGTTAACCTTTGGTGGTGCACAAC -TGGTTGATATCGATGCCAATCAGCCACTGGAACAGGTGTTGGTTGATGCAGAAAAAGCGATTACGGATTTTATGA -CCGCGCGTGGTTATCACTAGTCAAAAATGGAAATGCCCGATCGCCAGGACCGGGCATTTTCAGGAAGGTTAAATC -AACTGCAATGCTATCCAGTACAGCCCACCAGAAAGAAAAATTGCCGCCGGTAAAGTAAATACCCACGCCATCAGG -ATGCTGGTTACCGTTTTACGCTGTAACCCACCGCCGTCCACCACCATCGTCCCTGCAACTGCAGACGAGAGGACG -TGTGTTGTGGAGACGGGCATCCCAATATAACTGGCAAGACCGATAGACACTGCCGCCGTCATTTGTGCCGCCATG -CCTTGCGCATACGTCATGCCGCGCTTACCAATCTTCTCACCGATGGTCATCGCTACACGACGCCAGCCAATCATG -GTGCCAATGCCGAGCGCCAGTGCTACCGCCATGATGATCCACACCGGAGCGTACTCAATGGTGCTTAACATATCG -CTGCGAAGTTTTTTCAGCAGGTTCTGGTCTTCTTTACTGACGCCTGGCAGTTTCGCTAGCTTCGCGGAGGTATCA -GAGATGCACAGCATAATGCGGCGCAGCTGGCTGCGCTGACTCACGCTTAACGGCTCGTAACTTTCCATATTGCCT -GGCAGCATCGTTTTAACGCGCGCAATAGCATCAAAGGTATTTGCCGGATGACAGTGAAACTCTGTTACTTGCGTG -CCATCAGTCGATGCTGCAGGCAATGGAGGTTCCATCGCAATCAACTTCTGCGGCAGTTCAGGATGCTGTTGCAGG -TAGTGTTCGAAGTTGGTAACGGCATCGCGGGTACGGGTAATTTCATAGCCGGACGCATTCATATTGACGACGAAG -CCAGCAGGGGCAATCCCCACCAGTACCAGCATTACCAGGCCGATCCCTTTTTGTCCGTCGTTCGCGCCGTGCGAA -AACGCCACGCCCGCAGCGGAAACAATCAGCGCAATACGCGTCCAGAATGGCGGTTTACGTTTGCCTTTTTTCTTT -TTGCGATCTTCCGGAATGCGGTGAATACGGTCACGCTTTTTCGTCCCGCTCCAGTAGCGTCGCAGCAGGAATATC -AGGCCTCCCGCAATGACCAGGCCGACGATAGGGGAAACAATCAGCGAGGAGAAAATTTTGGTCACTTCACGCAGG -TTTAACGCATCCATCACCGATGAGCCGGTTAACAGCGCGTTGGTTAAACCGATGCCGATAATCGCACCAATCAAG -GTGTGCGAACTGGAGGCCGGTAAACCGAAGAACCACGTTCCCAGGTTCCAGATAATCGCCGCCAGCAGCATGGAA -AAGACCATCGCCAGGCCGTGGGTTGACCCCATATTCAGCAACAAATCGGTTGGCAACATATGGACAATGGCATAG -GCAACGCTAAGTCCGCCCAATAACACGCCAAAAAAGTTAAAAAATGCCGCCATCACCACAGCAAGTTGTGGTTGC -ATGGCACGAGTATAAATAACGGCTGCCACCGCATTCGCCGTGTCATGAAAACCATTGATTGCTTCGTAGAACAAC -ACAAATGCCAGAGCAAGCAATAACAAAAGCCCTGTGTATATATCAAGGCCAACAAATAAATTTAGCATATATTAG -ATTACGCCATTTTGAATTTACGAACGGACGCATTATCAGTGACTTTAACGGCATGGGCAAAGTGAAATATCATTT -TTTAACGATAAAAAGAGTGTTATTTCTTGTGTATCAGACAATAAGCATTCATTCAAAACCTTTAGAAATAATCAA -AACACAGGTATTCCACTGGTTAATATATTCACATATGAAATGAATAAATATTGGAATATATAAATATTGAATATT -TTGATTAATCCCCGTACTGATTATTCTTCATAATCAGTACGGGGTTGCTACAACATGTATTACTTTTTCACCACA -ATTAACGGTTCAATATCACTCTCTTTTTTGATGACCAGTGATTCATCACCGCGCAAACACGTCCCACCGTAGTTG -CCGCCAACGGTGAAGGTACATACCTGAATGTATTTACCGTCCACTTTCGGCAAACACCACAGTTGCTGATAGATG -TTTTTCTGCTCGGCAAATTTACCGCTGGTTTTGTCCAGCACCTCTTCATGATGGCTGACGAGGTCGATATTGCTG -CCACAGCGACCGGCGATCGGTTTCACTGCGTAACCTGTTTTCACCAGTTCATCATTAACAGTGAAATCGGTATCC -AGCAGGTAACGATGGTGCGGGAACAGCGACCAGAGGATCGGCAGAATCGCTTTGTTGCCGGGGATCACCGTCCAC -AGCGGCTCAAAGACCAGCACTTCCGGGCGCAGCAATACGTCGATAAGACGCACTTCGTTTTGCGGATGACCGGTA -CGGATTGGCACCGCAGCAAACTCACGGTCGCTAACTTCACGAATCTGATCAAACGCGGTTTCCCACGCCCAGGTT -TTCCACACGCAGTTAACCAGTCGCCCTTCCCCATCAATCAGTTGCCCGGCAGCATCCCAGCCCAGTTCATCCAAT -CCACGCAAGATACGCGTTTCAAAGCCCGCCTGGTGCAGCGCCTGCTCCATAAACTGCGCGTGATAGTTTTCCTCG -ATATCTTTGTCCTGCATGATATGGACAAACGGACGTGCACGACTGTGTTTCCAGGCACCAGCCAATTCGTTAATC -AGCCCTTCCGCCGGATTGAAGCCGTTGCCTTTATAGCCCTGCTCCGCCCAACGTTCGAGGATCAAGCCCGCTTCG -GTATGACAGGAGGCGGAGTCGGCGTTGTACTCGTAAACCTTCAGGCCACGCTCATCCATGCAGAAATCCATACGA -CCAGTGATCATATGGTGACGGCGACGCTGCCAGGAGAGACGCAAACGTGGCCAGAGGATTTTCGGGATGTCGAAC -AGCGCCAGCAGGTTGTCATCTTTCAGCACCTTGTCGGTTGCGTGAAGATACATCAGGTGCAGCTCGTTGGTGGCT -TTAATTAGCTCCTGCTCGGCACTCTCGGTAATGGTGTAGTAATGATAAGGATCCTGATTGATCACCTGACCGTTG -GCCTGCACATAGGCGTTTTGCAGCGGATCTTTTTCATCCAGCCATTTACCGTCAAACTGGCCTTTGTTTTCCAGG -CGCGCTCCGCTGATTTTCAGCAGCTCGCCTGCAATTTCCGGCTGCGGTAAGCTGTATTCAGTATCTTCCGTCTGG -ATCATCCAGCCCAGAATGGTGGTGTCATCAAAAGTGTCTTTCAGGGTATAGCAGCCGTTTTCGACCACCATCTCC -AGCTCGCGCGTCCACTGTTGCCCTTGCGGCAACGGGGAATGAATCACGTTCTGTTCCGCAATACGGACTTTGTTG -CCATGCAATTGGGTAATGATGGCGACATGGCCAGTGTCTTTAAATTCACCGCCTTTATCCCAGATAAGAAGCGCA -CCCGCGACCGGCGCACGCGGCGAGCCGTTAGGAAATGCCTGCAATGGCAGGATGTTGTCATTAACCACTTCTCGC -AGGAAGCGCAGCGAGAAAATCTCCCACGCCATACCCACGTCAGTAAAGACCACACCGTAATTCAGAAAGAGAAAA -CGGCGAGCAAATTCAACGCATTGCCACTTGTGGCCCATATATTCGTCGTCGATATAGCTACGGAATACGGCGTCA -TCTTCGTATTCCTGCGGATCGAGAGAACTGTAATCTGAAGAGTAGATTGCTACCCCACCTGGGGCGTAGCCCAAT -AATGTCCCGAACGGGGCATCCTGGCTGGTCGTTCCTTTGCTCATCACTTTACCTTTAACAATACAACCTAAGCAG -TTGGCGTAATTGTTGTGCTCTGATTACCTGCTCAGCGACATTAACCGGACAGAGGTCAGACTAATCATACACCTC -ATCGCAGCGGCTGGCGCAAAGGGTTAAAAAATTCACATTCTGTACAGCAAGTGACCTGCTACACTGCTTCAACAC -TACCACTCAGAAGGCAACTCACTATGACAGACAATACTTATCAGCCCGCGAAAGTCTGGACGTGGGATAAATCCG -CTGGCGGCGCGTTCGCCAATATCAATCGCCCGGTTTCTGGTCCGACGCATGAAAAAACGCTGCCCGTTGGCAAAC -ACCCATTGCAACTTTATTCGCTGGGAACGCCGAACGGTCAGAAAGTAACGATTATGCTTGAGGAGCTGCTGGCGC -TGGGCGTTACTGGTGCAGAGTACGACGCCTGGCTGATTCGTATTGGCGATGGCGATCAATTCTCCAGCGGCTTTG -TCGAAGTGAACCCAAACTCGAAGATCCCGGCGCTGCGCGATCATACGCATAATCCGCCGATCCGCGTGTTTGAAT -CTGGTTCGATCCTGCTTTATCTGGCGGAGAAATTTGGCTACTTCCTGCCGCAGGATTTGGCAAAGCGTACTGAAA -CGATGAACTGGCTGTTCTGGTTACAGGGCGCGGCACCGTTCCTCGGCGGTGGTTTTGGTCACTTTTACCATTACG -CACCGGTAAAGATTGAGTACGCCATCAACCGCTTTACCATGGAAGCCAAACGTCTGCTCGACGTGCTGGATAAGC -AACTGGCGCAGCATAAGTTTGTTGCGGGCGATGAGTACACCATTGCGGATATGGCGATTTGGCCGTGGTTTGGCA -ACGTGGTGTTAGGTGGTGTGTATGATGCCGCTGAGTTTCTTGATGCGGGCAGTTATAAGCATGTACAACGCTGGG -CGAAAGAAGTAGGCGAACGTCCGGCGGTGAAACGTGGGCGTATTGTTAACCGCACCAACGGACCGCTGAATGAGC -AGTTGCATGAGCGCCATGACGCCAGTGATTTCGAGACGAATACGGAAGATAAGCGTCAGGGGTAAGGGTTGGTGT -TCGTCGCAGCAAGCCATCCAGGCCGGATAAGGCGTTCACGCCGCATCCGGCAATCGTGCACAATGCCTGATGCGA -CGCTGCCGCGTCTTATCAGGCCTACGAAAGCTAATCATCACGCGCTGGTAATGTCGTAATCCATTTGGCGCAGTG -CGTCTAATGTGGCTTTGGCTTCATCTTCGTCGATGATGCTCATGGCAAATCCGACGTGTACCAGCACCCACTGGC -CCAGTAGATCGGCAGGGTTACCTTCACAAATCAGGGCGATATTCACATCGCGCTTGATACCACATACTTCAACCT -GCGCAAGCTGGTGAATATCTTCACCGACAGCCAGCACCTGGCCTGGAACGCCAATACACATTATTAACTCCGGTT -ATTCAACTTCAATACTTTTGACGATCAGCGAATCGCCGGTATCGACACGCAACCGCTCGCCGTGACAGAGCGGAC -ACTGCGCATCGTGCTGATGAATCTCCACCACCTGGCTGCAATCCCAGCACCAAGCCTGGGCGGGTTTATAGACGA -TATGTAAATCGCACCCTTGCGCCACCGTTCCGTGGCAGACAATTTCAAAACTAAAACGGACGGCGCTCTCCTCAA -CGCAGGAGAGCGCGCCAATTTCCAGCCACACGGCGGTGACGCGCTTAACATCGTGCTGCTCCGCCTGCCGTTGGA -TAATTTCAACGGCGCTCTGGCAAAGAGACAACTCATGCATTTTCGCCACTCCTGCGACCAAACAGCAGGGCGCGA -CGCCCTGCGTGTGGTACATCCGGATTCGTGACTGGCAGCGAAAGGATCATTCGTGCGCAGTCATCCGTCAGGCGT -TGGCCCTCTTCAATCGACATGCTGTGCGAAAGCGGCGACATCAGCGAACAGGAGAGATATTGCGAAACACCGTCC -AGTTCGCCAACGGTAAAGGTCATAGTGCCATACGGCAGTTGCAGACCAATTTTTTCACTCACTTTGCGCAGCGGC -CAGAGTTGATCCGGGCCGGGGAAGATAACTGCACTCAGCATCCACGGGGTGATCACACACCCCGTCCACTGACCT -TCGAACAGCGTAAAATCAGAAACATACACCGGCATTGAAGGATGCAGAAAAGAGAGATCGTGCATCGAACGCCGG -GCAATTTCTTCAAACGCTGCCTGTACTTGCGCCTTCGGGGAGGTCTGGAAACCTGCTATCTCTTCAGTCATGAAT -CGCCTCCCGTGGGATGGCTTCCACGCCAGATTCACGCAGCGCAGCCAGAACCTGCTCAAGCGCAGGTTCAATCAT -TGCTTCAACCGTCGGCGTTAAGCCGATGTGTGGCTCCAGCGATTCCGGGATCACGCCGACCAGGGTCAGCTTTTT -CGGAAACTCGCCGGTGAAGCGCAGGGCCGACAAGACGTCGGCCAGGCCAAGCTGATGCGGAGAGATTTTGTTGGT -AAACAACGCCGGAACTTCTTCATCCCGCAGGATCATCATCGTTCCCGGCGCGTTCTTTTTCGAGACAATGGCATC -CGCAATAATCAAATGATCGCGATTTGCCATGTCGCCAAGCAGCTCCATTCCCGCCGTGCCGCCATCGAGGATCTC -AACATAATCCGGCAGAATGTATCGTTGCTCTAACGCTTCGACAATCCGCACACCGATGGCTTCATCGGTCAGCAA -AATATTGCCGACCCCTAAGACTAAAATACGCATTACAGAACCTTCACTGAAACCACTTCGTTGCCGTCAGCATCC -ACTACGTGTACCGCACAGGCCATGCACGGGTCAAAGGAGTGAATGGTACGCACCACTTCCAGCGGTTTATTCGGA -TCGGCAACCGGTGTACCCACCAGCGACTGCTCGTAAGGACCGACGTCATCATTGAAGTTACGCGGACCAGAGTTC -CAGGTTGATGGAACAACCGCCTGGTAGTTGCTGATGATACCGTCTTTAATAACCATCCAGTGAGAGAGCATACCG -CGCGGCGCTTCGAGGAAGCCAACACCTTTGAATTCACCCGTTGCCGGAATGTTCGGCTTCACAAAGGTGGTGTGA -TCGCCTTTGCCGATATTGGTGATCAGTGCACTGTATTGGTTTTGCAGGATATCCTGCAATTCACAGCAGTGAACG -GTACGACCAATAATACGGCCCAGCGTGGAGTGCAGCTGTGCCACTTCCAGCGTGTTGCCAGTCAGTTTCTGATAA -ATCGCAACGATTTCATTCAGTTTGTTCTGGGTAGATTCGCGACCTGCCGCCAGTTTCACCAGCATATTAGCCAGT -GGCCCCACTTCTACCGTTTTGCCGTAGAAAGTCGGTGATTTCACCCAGGAATATTTCCCGTCGTCAGACCAACCA -TCATAAGCCGGAATGGTGGTGCCTTCCCACGGTGCCTGCGGCGCTTCGTCTTTATACCAGGAGTGCTTCGCGCTT -TCCTGAATGCCTTTGATCAGGTATTCATCGGAATGAGAAGTGATCGGACGATACGAGGACAGATCCGCATTCTCA -ATGTAGCCGCCCGGGAACAGGAAGCTGCCGTTTTTACTGTCGGTCGGGAATTCCGGCACGCTCAGGTAGTTCACC -GCACCTTTACCGCGTGTCAGCCATTCCGGGTAGAACGCGGCAATAACTGCGGTATCAACCTTATAAACCTGCTCA -ACAAAGTCGCTCAGTTTGTCGATGAAAGACTTGATGTACATCAGGCGCTCAAGGTTCAGCACGCCCAAACCGTCG -AGGTTGATCGGGTTCGCGACACCACCTACCGCCAGGTTCTGAATGTGCGGCGTTTTACCGCCCAGCAGCGCCACG -ACGCGGTTAGCGTCACGCTGGCACTCCAACGCTTGCAGGTAGTGCGCTACCGCAATCAGGTTCACTTCCGGCGGC -AGTTTCATCGCCGGATGACCCCAGTAGCCATTAGCGAAAATACCCAACTGACCGCTGGCAACCAGATCTTTGATC -TTGTTCTGAACTTTGGTGAACTCTTCCGGACTGTTCAGGTGCCAGGTCGAAACGCCTTTCAGCATTTCGGAGGCT -TTGGTTGGGTCAGCTTGCAGTGCAGAAGTGATGTCCACCCAGTCCAGCGCCGAAAGCTGATAGAAATGAACAATA -TGGTCATGCGTGGTGTGCGCAGCCAGAATGATGTTACGGATGTATTGCGCGTTAACCGGAACGTCGATATTCAGC -GCACTTTCTGCCGCACGAACGGAAGACAGCGCGTGAGTGGTAGTACATACGCCACAGATACGTTGCACAATCATC -CATGCATCGCGCGGATCGCGGTTTTTCACGATCTCTTCCATGCCGCGCCACATGGTACCGGAAGCCCATGCTTTC -GAAACGACGCCATTTTCGATTTCGCAATCGATGCGTAAATGCCCCTCAATACGGGTTACCGGATCAATAGTAATT -CTCTGGCTCATGCTTTGCTCGCCTCATGACGATTATGATCGTTTTGTTTTAAAGGAGGAAGTATCGGCAGTAGAC -GAATGAGTACGATGTAAGCGCAAATCTCAATAGCCACAAAACCAATAGAAATCAACAGTTCTTCCCAGGTCGGGA -AGTAGGCGTAACCGCCGCCCGGGTTGAATGCCACCAGCGAATAGGTCAGACGCCAGGTTGCACAACCTAACAGTG -CGCTCAGTGCTGACAGGAACAGCATGCGGGAATCATTACGCAGCTTCGCCACACGCAGAACGACCAGCGGGAAGA -GCATCAGCAGGACTTCAATCCAGAACATCACGGAGTAGAAGTCACCGGCAAACGCTAACGACAGCTTGTCGCGAT -AGATAAGCTCGCCAAAGCGCAGCACGATGAAAATCGCCAGCAACACACTGATGGTGTTGGTCAGCTTAACAAACA -GACTCTTTTCATCCGGACCGTTGCCACGCAGACCCGCCTGCACCAGCGAACCTTCAAAGATGACAATCGAGAAGC -CCATGATGAACGCCGTCAGCAGCGAGAACAGCGGCAACATTTCATAGCTCTGCCACAACGGATGCACCTTGTAGC -CCGCCGAGATCATCAGCGACCCCATTGAAGACTGGTGCATGGTCGGCAGCAGCGCACCGAGCGCGATGATGAAGA -ACATCACCTTGTTTAGTCGCTGTAGCGACACCTTCCACCCCAGACGTTCAAACAGTGCCGGAGCAAACTCCAGTG -CCATCACGCCGATATAGATGGTCATACAGACCGCCGTCTCGAACAGTACCGAGTTCACGTTGAAGTGACCCGGAA -TGTAGAAGTACGGCAGGTTCCAGTAGCGACCCACGTCGATAGTGATCGACAAGCCACCCAGTGAGTAACCAAACA -GACTCGCCAACAGCGCCGGACGCACCAGCGGATGGTATTGCCCACGGTTAAAGACGTATACCGCCCACGCCAGCG -CCCAGCCGCCACAGGCAAAGCCGGTGCCAATCAGCAGGTCAAACGCGATCCACACGCCCCACGGGAAGCCGCCGT -TCAGGTCAGAGACAGAGCCCAGACCGAACACCAGACGCTTCACAATCAGGAGCATACAGATGACGATTAACGGTC -CAAAAATCATGACCGGTTTACTGATGATTTTGCCGCCCAGCGGTTGTGGATCATGACTCATGATCGTCTCCTCCG -TCGTGATGGTCGTTTTTGGTGTTGCGACGAACCAGCACGGTTAAGCCCGCCAGCACAGCCAGTGGTAGCATCATG -CCTTTATACAGGGTGTGTTGAATATTTTCGGAACGCGCACCGGTAGAAAGATCGTCCAGTTTCGGCAGGTCGAGA -TTTTCATAAGGCACACCCGTCAGTACCAGAACCTGAGTACCGCCGCCCTCTTTCTCGCCGTACAGATGCGGATAA -TATTTCGGCACCGTATGCAGGTAAGTGTCGCCAGATTTCAGCGTCTGACGCGGATAGTGGTATTCGCTGCCAGGC -TTCAGCGCCAGACGTTTTTTCGCCTCCGCCATCAGCTCTTCACGCGTACCGAAAATCACCGCGCCCGCCGGGCAC -ACTTCTACGCAGCCAGGTAGACCGCCTTTATCGAGACGTTCCACACCTTTCTGGTTGCACAGCTCGCACTTATGC -AGCGCACCAAACGGGTTGTTGTAGTCGTACTTCGGCACGTTGTACGGACAGGCGACCATGCAGTAACGGCAGCCG -GTGCACACATCTTTGTCGTAATGGACAATGCCGGTTTTCGGATCTTTTTTCAGTGCAGAGACCGGGCACACAGAG -ACACAGTTCGGATCGACGCAGTGCATACACTGTTTCTTAATGTACGCGTAGCCGTTCTCCTCCTGGTCTTTGTTG -ACCCCTGTGCCGCTGGTCCACACCTGAATGATGTTATTGGTATACGGCGACAGTTTGTCGTTGTTCGACCAGGTC -TGTTCCCCTTGCGGGTTACGTTCAGGGAAATTGATATCCTGACACTTGGTGACGCAAGCCTGGCAGCCTACGCAC -AAGGTCGAGTCGTACAACATCCCCAGCGATCCCGGAATTGGCGGGCGGTTTTCAGCAGCCGCATGACTGACAGAC -GGCAGCGCGCCCGTCAGCAATGCCCCGCAGGAGGCTGCTTTAATAAAATTACGTCTGTTCACGGTTATTCTCCCC -GTGAGTCAGCGTTATCTTTCTTTTGCTGACGACCCAGTTCACGCACCGCCATCACGCTGACACCGGCAACCAACC -CAACCACACCGCCGAGCAAACCAATAGCGCCTGCAGAGACGTTGCCGCCCTCTTTAGCGTTAACATCCGGTTTCT -GTGAACGCGGAGTTTGATTTTCGACGTTGGCAAGCTGATGGATGCCTTTATGGAAGCCGATACCTTCTTCGTTAC -AGCCATAGCAAGGGTGACCAATCGCCACCGGCCACACACCGCCAACATCGCAGAATTGCAGCGTTGAGCAGTTGC -CGTAAGTTTCTGGCCCTTTACAGCCGAGGTGGTACAGGCACCAGCCTTCGCGGTGGCCTTCATCACCGAACTCTT -TGGCAAAACGACCAGCATCGAAGTGCGGGCGACGTTCGCAGTGTTCGTGAATCAGACGGCCATAGGCGAAGGTCG -GACGGTTTTTGTCATCCAGTTTCGGCGGTTTGCCGTAAGTGATGATGTGCGCAACGGTCGCGAGGAAGTTGTGCG -GGTTCGGCGGGCAGCCCGGAATATTGATAACGGTTTTGCCTGGCAGAACTTCTTGCAGGCTGACTGCGCCAGTTG -GGTTAACTCCAGCTGCGGCAACACCGCCCCACGCAGAGCAGGAACCGATAGCGATAATGGCTGCTGCGCCTTCCG -CCGCTTTGCGGATGTGATCCACAATCGGCTCACCGGCAACCATGCAATAAATACCGTTATCTTTTAATGGGATGG -AACCATCCACCACTAACACATACTGCCCTTTGTACTTCTCGAGAGCGTTATGTTTGTTCTCTTCGACCTGATGAC -CGAAGGCGGCGGAAAGCACTTCGTGATACTCCAGAGAGATAGTCTCCAGTACGAGGTTTTCTACCGTTGGATGCG -TTGCACGAAGCAGAGATTCCGTACAACCGGTGCACTCCTGCGCGCCAATCCAGATAACTGGCGGACGCTGCGGGT -TAGTAACCGATTCGGCCATCTCTGCAGCGGCTTTGCTACTTAACCCCATGGTGGCGGCTAATGCTGCACAAAGCT -TCATGAAATCACGACGGTTAATGCCGTGAGAATGGATGAGGGTGTTATCTCCAGTCATTTATAGTTATTCCGTTG -CGAAGACCTGGCATATATTTTGCCTCAATCGCAAAATCAATAATGCGATCGATGCGCCATTTACCACACATTTAT -TATGGTTATCGATATCATGATACTGCGGCGGGGCGCTAAAACGAAGGGAAGAAGCATTAGTGTAATTAATTAAAG -CAAGATAATACGTATGTTTGATCAATTTTCGAGGCGATAACCGGCCATAAAAAAGCGCAACGTAGAACAGGAATT -ATTCTCACGAAAGAAATCCATTACCATCTCTTTATCCAGTCCATAGCGGCGCGTCAGAATACCCGCTTCCCAGGC -GCTAAGCTGGCGATCTCCGGTCTTTTCGTACATCCGGTGTGAGTAGCCTAATACAAAACCGCGTTTATAATCGGC -ACAGAATTTTGTCACATTAACCGCACTGTCGGCATGCGTTGCTTTTAATCCCGCCATTAAGCCTTTACCAAAATG -GTTATTCATCGTTCACCTCATTCGCTATATATTGTCATATATAGCGATATTTTAGGCAAAGAACGACTTTTGCGC -ACGCTATTTTTTCATGCTTGTTTAAGACGTAATCCCGTAAGAGATAAACCTATCAGGAGAGATATTTATCGAACC -ATTTCAGTGTCCTTTGCCAGGCAAGATCGGCGGCAGATTTGTCATAACGGGGCGTGGAATCATTATGGAATCCGT -GATTAACCCCCGGATAGATATACGCCTCATAAACCTTATTATTGGCTTTCAACGCCGCCTCGTAAGCAGGCCAGC -CCTCGTTGATTCGGGTGTCCAGTTCCGCGAAGTGGAGTAGTAAAGGCGCTTCAATCTTCGCCACATCGGCAGTGG -GTGCCTGACGACCATAAAACGGCACCGCGCAGGCCAGTTCCGGATACGCGACAGCCGCCGCGTTCGATACGCCAC -CGCCATAGCAAAATCCGGTAATACCCACTTTGCCTGTCGCTTGCGGATAGCGTTGCATAAACTCAATTGCGGCAA -AGAAATCATTCATCAGTTTGTTGGATCAACCTGCTGTTGCAGCTCACGACCTTTATCATCATTTCCCGGATAACC -TCCAACGGAACTTAAGCCGTCAGGTGCCAGGGCGATATACCCCGCCTTCGCCACTCGCCGTGCCACATCTTCGAT -ATACGGATTCAGTCCACGATTCTCATGCACCACCACTACGGCTGGCGTTTTGCCGCTCATCTTTGCGGGCTTCAC -CAGATAACCCCGCACCTCGCCGTGACCATTTGGCGAAGGATACGTGATGTACTCAGCAACAATTTCCGGGTCGGT -AAACTCTACCTGAGTCGCCAGCGCATAATTTGGCTTGAGCAAATCAAACAACGCTAATGCCGTCATCCCGCCTAC -CGCACTTCGCCGCAAGGTTGAGGAACTCACGTTTCGAGATTTTCCCGTGAGCGTAATAGTCATAGTAATCCAGCA -ACTCTTGTGGGAAATCTTTGGCGGTTAAACGCGGCATCGTTGCACTCCTCAGTTGGTGTTTTTTTAAGCAAAGCA -TAAGCACGTATTTTTGCCCAGTTTTTCGTCACTCTGTGAGCCAGACTACGGGATACGCGCTGGCGAATCGCTAAA -CTAGAAACATTGTTTCGAAATTGAACGGTGGAAAGGAGAGGTCATGGTCTGGTTAGCGAATCCCGAACGTTACGG -GCAGATGCAATACCGCTATTGCGGAAAAAGTGGTTTACGCCTGCCCGCGTTATCGCTCGGTTTATGGCACAATTT -CGGTCACGTTAACGCGCTGGAATCACAGCGTGCGATCCTGCGTAAAGCGTTTGATTTGGGCATTACGCACTTTGA -TTTAGCCAACAATTACGGGCCGCCTCCAGGAAGCGCAGAAGAGAACTTTGGTCGCCTGCTGCGGGAGGATTTTGC -CGCTTATCGCGATGAACTGATTATCTCTACCAAGGCTGGCTACGATATGTGGCCCGGCCCTTACGGCTCTGGCGG -TTCACGTAAATACCTGCTCGCCAGCCTCGACCAAAGCCTGAAGCGTATGGGGCTTGAGTATGTCGATATCTTTTA -CTCTCATCGCGTCGATGAAAATACGCCGATGGAAGAAACCGCCTCTGCGCTGGCTCATGCGGTACAAAGCGGTAA -GGCGCTGTATGTCGGGATCTCCTCTTACTCGCCAGAGCGGACGCAAAAAATGGTCGAGTTGCTGCGCGAGTGGAA -AATTCCGCTGTTAATTCATCAACCTTCGTACAATTTACTGAACCGCTGGGTGGATAAAAGCGGCCTGCTGGATAC -CCTGCAAAATAACGGCGTGGGCTGTATTGCCTTTACTCCTCTGGCTCAGGGATTGCTGACCGGAAAATATCTCAA -CGGCATTCCGCAAGATTCACGGATGCATCGTGAAGGGAATAAAGTTCGTGGTCTGACACCGAAAATGCTTACCGA -AGCCAACCTCAACAGCCTGCGCTTATTGAATGAAATGGCACAGCAGCGTGGACAATCAATGGCGCAAATGGCGTT -AAGCTGGTTGCTGAAAGATGATCGCGTGACGTCGGTATTGATTGGTGCCAGCCGCGCGGAGCAACTAGAGGAGAA -CGTGCAGGCGCTGAATAATCTGACATTTAGCACCAAGGAGCTGGCGCAGATTGATCAGCATATCGCCGATGGCGA -GCTGAATCTGTGGCAGGCGTCTTCCGATAAATGACCTGTTAATAACGGGCGCGCGAACCGCGCCCGAATCAGATC -AGTGATTATGACGAGTCAGTCGGTCAAGATAGCCCATCACAAATGCAGAAAGCACAAACGTCAGATGGATAATGA -CGTACCACATCAGTTTGTTATCCGGGACATTTTTCGCATCCATAAAGACGCGCAGTAAGTGAATGGAAGAAATTG -CCACAATCGACGCTGCTACTTTGTTTTTCAGCGACGTTGCGTCCATTTTCCCCAGCCAGTTCAGCTTCTCTTTGT -TCTCGGAGATATCCAGCTGTGAGACGAAATTCTCATAACCGGAAAACATCACCATCACCAGCAAACCGCCAACCA -GCGTCATATCCACCAGCGACAGCAACACGAGGATCAAATCTGATTCCGCCATCGAGAAGATATTCGGCAGTACGT -GAATAATCTCCTGGAAGAACTTCAGCGCCAGGGCAACTAACGCCAGCGAAAGGCCAAAGTACACGGGGGCAAGCA -GCCAGCGAGAAGCATACATTGCATTTTCAAGAAAACGTTCCATACATTCCTGTCGTGTAGTTAAAACGGGCAACA -GTATATCGCAATTGAGTAAACAGCACGCAACAGCAAATCAACATATACGTTAAACCTTTGTCGCATAATTCTGAG -GTTTAGGGATCTTCCTGGTTCCCTTATCAACGCATCGAGAACGTCTACCCTTAAAGGACGTTGAACCTGAAGGGA -GAAAAACGATGTCTCATTTAAAAGACCCGACCACGCAGTATTACACTGGTGAATATCCCAAACAGAAACAACCGA -CGCCAGGCATCCAGGCGAAGATGACACCGGTACCGGATTGCGGCGAGAAAACCTATGTTGGTAGCGGTCGCCTGA -AAGATCGTAAAGCACTGGTGACAGGGGGCGATTCCGGAATAGGTCGCGCTGCCGCCATCGCTTACGCGCGTGAAG -GGGCTGACGTGGCGATCAGTTATCTTCCCGTGGAAGAAGAAGACGCTCAGGATGTGAAAAAGATCATTGAAGAAT -GCGGACGCAAAGCCGTTCTGCTGCCAGGCGATTTAAGCGATGAGAAATTTGCCCGTTCGCTGGTTCACGAAGCGC -ACAAGGCGTTAGGCGGGCTGGATATTATGGCGCTGGTCGCCGGGAAACAGGTTGCCATTCCGGATATTGCAGACC -TCACCAGCGAACAGTTTCAAAAGACCTTTGCCATTAACGTTTTCGCGCTGTTCTGGCTAACCCAGGAAGCGATCC -CCCTGCTACCGAAAGGTGCAAGTATCATCACCACTTCGTCAATCCAGGCATACCAGCCAAGTCCGCATTTACTGG -ACTATGCGGCTACGAAGGCGGCGATTCTGAACTACAGCCGTGGCTTGGCAAAACAGGTCGCGGAGAAAGGTATTC -GGGTGAATATTGTCGCGCCAGGCCCGATCTGGACAGCACTGCAAATTTCCGGCGGACAAACGCAGGATAAGATCC -CGCAGTTTGGTCAGCAAACGCCGATGAAACGTGCGGGGCAACCGGCGGAACTGGCCCCTGTATATGTTTATCTGG -CAAGTCAGGAGTCGAGCTACGTCACCGCAGAAGTGCACGGCGTGTGCGGCGGCGAGCATTTAGGTTAAAAAAATG -CCCGGTTGTGAAAAGCAACCGGGCATCATTGTGAATTCACTCTTACCTGATGTGGCGAAAACGCCTTATCCGCCT -ACAAACGCATGAAGATTCAACATGTTGCAATAGATTTTGTAGGCCTGATAAGCGTAGCGCATCAGGCATTGAGCA -CCTAATGCCGGATGCGTCGTGAACGCCTTATCCGGCCTACAAACGCACGAAGATTCAACATGTTGCAATAGATTT -TGTAGGCCTGATGAGCGTAGCGCATCAGGCAATTCTACTTTACTTCGCTTTGGCGGTTTCTTCGCCGACCAGACC -TATCTTCAGGTAACCCGCCTGATGCAGCGTATCCATTACCTTCATCAACGTCTCGTAATCGACGGTTTTGTCCGC -TCGGAAGAAGATGGTGGTGTCTTTCTTGCCTTCGGTTAACGCATTCAACGCCGTAATCATTGTTTCATCGGTGAC -CGGATCGTTACCGATAAACATCGAGTTGTCTGCCTTCACCGACAGATAAACCGGTTTTTCCGGGCGCGGCTGCGG -CGTGCTGGTAGAAGCAGGCAAGTTCACCTTCACATCTACCGTCGCTAACGGTGCCGCCACCATAAAGATAATCAG -CAGAACCAACATCACGTCGATAAACGGCGTCACGTTGATATCATGCATTTCGCCGTTATCGTCGAGGTTTTCGTT -AAGATGCATTGCCATCGGATATTATCCTGCGCGTAATTTTTGTGCGACACGAACCGGATGCGCAGCGGCGCTGGC -TTCCAGATCCAGGTCACGGCTTTGCAGCAACAATACCTGCGCTGCAACATCACCCAGCATCGCTTTAAAGCCGCC -AATCTGGCGTGCAAATACGTTATAGATAACGACCGCAGGAATCGCTGCCACGAGGCCGATTGCCGTTGCTAACAG -AGCTTCTGCGATACCCGGCGCAACGACTGCCAGGTTAGTGGTCTGCGTTTGCGCGATACCAATAAAGCTGTTCAT -GATGCCCCAGACCGTACCAAACAGACCAACGAACGGAGAAATCGCGCCGATGGTTGCCAGATAGCCGTTACCGCG -GCCCATTTGACGACCCACTGCGGCGACCCGACGCTCCAGACGGAAGCTGGTACGTTCTTTAATACCTTCGTTATC -GTCGCTGCCTTCTGACAGTTCCAGCTCATTCTGCGCTTCATTGAGCAAATGCAGGCTTAAGCTTTTGCTACCAAA -ATCAGCGGCGATATCGTTGGCCTGGTTTAAGGAACGCGCTTCAGCCAGCAGTTGCTGCTCGCGCTTAAGGCGACG -CTTCTGATTGAAGAACTCTACGCTCTTACTGAAGAAGATTGCCCAGGTGACTACGGAGGCCAAAATAAGCCCAAT -CATCACGCACTTAACGACAATATCGGCGTGCTGATACATACCCCAGACGGAAAGGTCCGTCTGCATTAAATTATT -ACCCACTGTGTATCTCCAGGACGCAAGTCACAAAATCTGCGCATAATAATATCAAAACGACGTCGAATTGATAGT -CGTTCTCATTACTATTTGCATACTGCCGTACCTTTGCTTTCTTTTCCTTGCGTTTACGCAGTAAAAAAGTCACCA -GCACGCCATTTGCGAAAATTTTCTGCTTTATGCCAATTCTTCAGGATGCGCCCGCGAATATTCATGCTAGTTTAG -ACATCCAGACGTATAAAAACAGGAATCCCGACATGGCGGACAAAAAGCTTGATACTCAACTGGTGAATGCAGGAC -GCAGCAAAAAATACACTCTCGGCGCGGTAAATAGCGTGATTCAGCGCGCTTCTTCGCTGGTCTTTGACAGTGTAG -AAGCCAAAAAACACGCGACACGTAATCGCGCCAATGGAGAGTTGTTCTATGGACGGCGCGGAACGTTAACCCATT -TCTCCTTACAACAAGCGATGTGTGAACTGGAAGGTGGCGCAGGCTGCGTGCTATTTCCCTGCGGGGCGGCAGCGG -TTGCTAATTCCATTCTTGCTTTTATCGAACAGGGCGATCATGTGTTGATGACCAACACCGCCTATGAACCGAGTC -AGGATTTCTGTAGCAAAATCCTCAGCAAACTGGGCGTAACGACATCATGGTTTGATCCGCTGATTGGTGCCGATA -TCGTTAAGCATCTGCAGCCAAACACTAAAATCGTGTTTCTGGAATCGCCAGGCTCCATCACCATGGAAGTCCACG -ACGTTCCGGCGATTGTTGCCGCCGTACGCAGTGTGGTGCCGGATGCCATCATTATGATCGACAACACCTGGGCAG -CCGGTGTGCTGTTTAAGGCGCTGGATTTTGGCATCGATGTTTCTATTCAAGCCGCCACCAAATATCTGGTTGGGC -ATTCAGATGCGATGATTGGCACTGCCGTGTGCAATGCCCGTTGCTGGGAGCAGCTACGGGAAAATGCCTATCTGA -TGGGCCAGATGGTCGATGCCGATACCGCCTATATAACCAGCCGTGGCCTGCGCACATTAGGTGTGCGTTTGCGTC -AACATCATGAAAGCAGTCTGAAAGTGGCTGAATGGCTGGCAGAACATCCGCAAGTTGCGCGAGTTAACCACCCTG -CTCTGCCTGGCAGTAAAGGTCACGAATTCTGGAAACGAGACTTTACAGGCAGCAGCGGGCTATTTTCCTTTGTGC -TTAAGAAAAAACTCAATAATGAAGAGCTGGCGAACTATCTGGATAACTTCAGTTTATTCAGCATGGCCTACTCGT -GGGGCGGGTATGAATCGTTGATCCTGGCAAATCAACCAGAACATATCGCCGCCATTCGCCCACAAGGCGAGATCG -ATTTTAGCGGGACCTTGATTCGCCTGCATATTGGTCTGGAAGATGTCGACGATCTGATTGCCGATCTGGACGCCG -GTTTTGCGCGAATTGTATAACATTGCCACTTTTGGACAATTTTGCAGACATTTTATTGTGAAAAGTCTTAAATTG -TTGCGTCCGGGATCAAGGCGTCCCGGACGATTCAGGAGTACAATAGGCAGATAAAGGCTTAAACGCTGTTCCACA -GGAAAGTCCATGGCTGTTATTCAAGATATCATCGCTGCGCTCTGGCAACACGACTTTGCCGCGCTGGCGGATCCT -CATATTGTTAGCGTTGTTTACTTTGTCATGTTTGCCACGCTGTTTTTAGAAAACGGCCTGCTGCCCGCCTCATTT -TTGCCAGGCGACAGCTTGTTGATACTGGCAGGCGCATTGATTGCCCAGGGGGTTATGGATTTTCTGCCTACGATT -GCGATTCTGACCGCCGCAGCAAGTCTGGGCTGCTGGCTAAGTTATATTCAGGGGCGCTGGTTAGGGAATACCAAA -ACGGTGAAAGGCTGGCTGGCACAGCTTCCTGCTAAATATCACCAGCGCGCCACCTGCATGTTTGACCGCCACGGT -CTGCTGGCGCTGCTGGCTGGACGTTTTCTTGCATTTGTCCGTACGCTGCTGCCAACCATGGCGGGAATTTCCGGT -CTGCCAAACCGCCGCTTCCAGTTTTTCAACTGGTTAAGTGGATTGCTGTGGGTCAGCGTGGTAACCAGTTTTGGC -TATGCCTTAAGTATGATTCCGTTCGTTAAACGCCATGAAGATCAGGTAATGACGTTCCTGATGATCCTGCCAATT -GCCTTGTTAACCGCTGGCTTGTTAGGCACGCTGTTTGTGGTGATTAAAAAAAAATACTGTAACGCCTGACGATTT -TCCCCGTTCCCGGTTGCTGTACCGGGAACGTATTTAATTCCCCTGCATCGCCCGCATTCTTGCCGCATCTTCCCC -CGGCGTCACACCGAAGTAACGTTTAAACTCACGGCTAAATTGCGATGCGCTTTCATAGCCGACGCGCATCGCTGC -TGCGCTGGCCTTCATGCCGTCATGGATGATCATCATCCGCGCCTTATGCAGACGGTAATTCTTCAAATACTGCAA -CGGCGAGGTACTGGTGACAGACTTAAAATTATGGTGGAACGCCGATACGCTCATGTTGGCTTCTGCCGCCAGTTG -CTCGACGCTCAGGTTTTCGGTGTATTTATTCTCAATCCGTTTCAGCACGCGGCTAATCAGACTGAAGTGAGTCTG -GCGACTGACCAGCGCCAGTAACGCGCCGCCGCAAGGTCCGGTCAGCACGTAGTACAGAATTTCGCGGATGATCTG -TTTGCCGAGAATACGCGCATCCAGTGGTCGCTCCATCACGTCGAGTAACCGCTCCGCCGCGCATAAAATCTCTTC -TGATAACGTGGCGGAGTTAATCCCGCTGGCTGCCATCGACGGCTGGAAATGCTCATCTTCGCCAATGTCCATCAA -CAGTTCCTGTAACTGCAAAATATCGACATTGAGACGCAACCCTGCCAGCGGCACCTCTGACGTGGCATAGGTTTC -GCACTCAAACGGCAACGGCACCGTCAGCAGCAGGTATTCATTGGCATCATAACGAAACACGCGTTCATTGATATA -ACCGATTTTATGCCCGGAAAAGAGAATTATGATGCCAGGCTCGTACATCACCGGTGTACGTGCGAAAGGCGTCTC -GCCATACAACAAACGCACATCGGGCAACAGTCCTGACAAACTATTTTCTTTATTTTTCAGTTTATTAACTTTATC -CGCCAGCAAGCGGCAAATCTCTTCACGTTTCATATCGCGTAATTTCTTAGGAATAATGCGGCAATTTGATTGTGC -GCAATTTTGTAGCATTTCTCCAGCACTCTGGAGAAATAGGCAAGACATTGGCAGAAATGAGCATTGAGAGCCAGG -GCGCTGGCGATCACAATGAAAAACATCAGGCAGATCGTTCTCTGCCCTCATATTGGCCCAGCAAAGGGAGCAAGT -AATGAACAACTTTAATCTGCACACCCCAACCCGCATTCTGTTTGGTAAAGGCGCAATCGCTGGTTTACGCGAACA -AATTCCTCACGATGCTCGCGTATTGATTACCTACGGCGGCGGCAGCGTGAAAAAAACCGGCGTTCTCGATCAAGT -TCTGGATGCCCTGAAAGGCATGGACGTGCTGGAATTTGGCGGTATTGAGCCAAACCCGGCTTATGAAACGCTGAT -GAACGCCGTGAAACTGGTTCGCGAACAGAAAGTGACTTTCCTGCTGGCGGTTGGCGGCGGTTCTGTACTGGACGG -CACCAAATTTATCGCCGCAGCGGCTAACTATCCGGAAAATATCGATCCGTGGCACATTCTGCAAACGGGCGGTAA -AGAGATTAAAAGCGCCATCCCGATGGGCTGTGTGCTGACGCTGCCAGCAACCGGTTCAGAATCCAACGCAGGCGC -GGTGATCTCCCGTAAAACCACAGGCGACAAGCAGGCGTTCCATTCTGCCCATGTTCAGCCGGTATTTGCCGTGCT -CGATCCGGTTTATACCTACACCCTGCCGCCGCGTCAGGTGGCTAACGGCGTAGTGGACGCCTTTGTACACACCGT -GGAACAGTATGTTACCAAACCGGTTGATGCCAAAATTCAGGACCGTTTCGCAGAAGGCATTTTGCTGACGCTAAT -CGAAGATGGTCCGAAAGCCCTGAAAGAGCCAGAAAACTACGATGTGCGCGCCAACGTCATGTGGGCGGCGACTCA -GGCGCTGAACGGTTTGATTGGCGCTGGCGTACCGCAGGACTGGGCAACGCATATGCTGGGCCACGAACTGACTGC -GATGCACGGTCTGGATCACGCGCAAACACTGGCTATCGTCCTGCCTGCACTGTGGAATGAAAAACGCGATACCAA -GCGCGCTAAGCTGCTGCAATATGCTGAACGCGTCTGGAACATCACTGAAGGTTCCGATGATGAGCGTATTGACGC -CGCGATTGCCGCAACCCGCAATTTCTTTGAGCAATTAGGCGTGCCGACCCACCTCTCCGACTACGGTCTGGACGG -CAGCTCCATCCCGGCTTTGCTGAAAAAACTGGAAGAGCACGGCATGACCCAACTGGGCGAAAATCATGACATTAC -GTTGGATGTCAGCCGCCGTATATACGAAGCCGCCCGCTAAGCTTTTTACGCCTCAAACTTTCGTTTTCGGGCATT -TCGTCCAGACTTAAGTTCACAACACCTCACCGGAGCCTGCTCCGGTGAGTTCATATAAAGGAGGAACGTATGGCT -AATCCAACCGTTATTAAGCTACAGGATGGCAATGTCATGCCCCAGCTGGGACTGGGCGTCTGGCAAGCAAGTAAT -GAGGAAGTAATCACCGCCATTCAAAAAGCGTTAGAAGTGGGTTATCGCTCGATTGATACCGCCGCGGCCTACAAG -AACGAAGAAGGTGTCGGCAAAGCCCTGAAAAATGCCTCAGTCAACAGAGAAGAACTGTTCATCACCACTAAGCTG -TGGAACGACGACCACAAGCGCCCCCGCGAAGCCCTGCTCGACAGCCTGAAAAAACTCCAGCTTGATTATATCGAC -CTCTACTTAATGCACTGGCCCGTTCCCGCTATCGACCATTATGTCGAAGCATGGAAAGGCATGATCGAATTGCAA -AAAGAGGGATTAATCAAAAGCATCGGCGTGTGCAACTTCCAGATCCATCACCTGCAACGCCTGATTGATGAAACT -GGCGTGACGCCTGTGATAAACCAGATCGAACTTCATCCGCTGATGCAACAACGCCAGCTACACGCCTGGAACGCG -ACACACAAAATCCAGACCGAATCCTGGAGCCCATTAGCGCAAGGAGGGAAAGGCGTTTTCGATCAGAAAGTCATT -CGCGATCTGGCAGATAAATACGGCAAAACCCCGGCGCAGATTGTTATCCGCTGGCATCTGGATAGCGGCCTGGTG -GTGATCCCGAAATCGGTCACACCTTCACGTATTGCCGAAAACTTTGATGTCTGGGATTTCCGTCTCGACAAAGAC -GAACTCGGCGAAATTGCAAAACTCGATCAGGGCAAGCGTCTCGGTCCCGATCCTGACCAGTTCGGCGGCTAACAT -GCAAATTCTCCCGGTGGCGGTAATGTTCCGCTACCGGACTTTTCAGAAATCATTTATTCCCCTCGCGTCCCGCCC -GTTGTTACTCTTCCTTGTTCAGGAATGCCAAATATAAGGACATCATCATGCAGAGCCGGAAGCTCTTAAAAGAAC -AACTCATCTATATCCGGGATAAACGCAACGGAGAGGTGAAAAACAGATGAAAATAATACTTCTGTTTTTAGCAGC -CCTGGCAAGTTTTACCGTACACGCACAGCCCCCCTCACAGACCGTAGAACAAACAGTCCGGCATATTTATCAGAA -CTATAAATCAGATGCCACTGCCCCTTATTTTGGTGAAACCGGAGAGCGGGCGATAACTTCTGCGCGTATTCAACA -GGCGCTTACCCTGAACGACAATCTTACGCTGCCGGGCAATATTGGCTGGCTGGATTATGATCCGGTTTGTGATTG -TCAGGATTTTGGCGATCTGGTGCTAGAAAGCGTTGCGATAACCCAAACTGACGCCGATCATGCCGATGCCGTTGT -GCGCTTTCGTATCTTTAAAGATGATAAAGAAAAGACCACGCAGACACTGAAAATGGTGGCGGAAAATGGTCGTTG -GGTCATTGACGATATTGTCAGCAATCATGGCAGCGTCTTACAAGCAGTTAATAGCGAGAATGAAAAAACGCTGGC -CGCTTTAGCTTCGTTGCAAAAAGAACAGCCGGAAGCCTTTGTTGCCGAACTCTTTGAACATATTGCTGATTATAG -CTGGCCGTGGACGTGGGTGGTTTCCGACTCTTACCGCCAGGCGGTTAATGCCTTCTATAAAACCACCTTCAAGAC -GGCCAATAATCCCGATGAAGATATGCAAATAGAACGGCAATTTATTTACGACAATCCGATCTGTTTTGGCGAAGA -GTCGCTATTTTCACGCGTTGATGAAATTCGAGTCCTGGAGAAAACCGCCGATTCCGCCCGCATTCATGTTCGTTT -TACGCTGACCAATGGCAACAACGAAGAGCAAGAACTGGTTTTACAGCGGCGCGAAGGCAAGTGGGAAATCGCTGA -TTTTATCCGCCCGAACAGCGGCAGCCTACTTAAGCAGATTGAGGCAAAAACTGCCGCCAGATTAAAGCAATGAGC -TGAATTAAATAACAATTAGCCGGAACAATAAATAAAAGGGAACACTATATGAAAACGATTTTCACCGTGGGAGCT -GTTGTTCTGGCAACCTGCTTGCTCAGTGGCTGCGTCAATGAGCAAAAGGTCAATCAGCTGGCGAGCAATGTGCAA -ACATTAAATGCCAAAATCGCCCGGCTTGAGCAGGATATGAAAGCACTACGCCCACAAATCTATGCTGCCAAATCC -GAAGCTAACAGAGCCAATACGCGTCTTGATGCTCAGGACTATTTTGATTGCCTGCGCTGCTTGCGTATGTACGCA -GAATGATAAAAAAATCCCCGGTAGCGTGTCAGTTGCCGGGGATATTTTTTAACGTCCAACCGCCGCTTTAGGCCG -TTTCTTCGCACCAGCATTCACCGGACGAGATTGCGTAGACGACGCTTTTTTTGCCGTAGCAGGCGTCTGACGCTG -GGTCGCCATCGGCGTATGTTTCGTCAACGCCGGACGGGTATTGCGGTTCTGGCGACGAGCTTCACGCATCTCTTC -AATGGTTGGCGCAGGCACTAAGCAATCGCGACGGCTGCCAATCAGATGCTTTTTGCCCATCGCTTCCAGCGCCTG -GCGGATTAACGGCCAGTTTGCCGGATCGTGGTAACGCAACAACGCTTTATGCAAACGACGCTGTTTGTCGCCCTT -CGGTACGAAGACGTCTTCGCTCTTATAACCAATCTTCGCCAGCGGGTTTTTCCCGGTGTAATACATGGTGGTTGA -GTTCGCCAGCGGCGACGGATAGAAGTTCTGCACCTGGTCGAGGCGGAAGCGGTGCTTTTTCAGCCACAGCGCCAG -ATTCACCATATCTTCATCACGCGTACCGGGGTGCGCGGAGATGAAATAGGGGATCAGATACTGCTCTTTACCTGC -CTGTTTTGAGTAAGTATCGAACAGCTCTTTAAAGCGGTCATAGCTGCCCATGCCCGGCTTCATCATCTTCGATAA -CGGCCCTTCTTCGGTATGTTCCGGGGCAATCTTCAGATAACCGCCGACGTGATGGGTCGCCAGTTCTTTGATATA -GCGCGGATCTTCTACGGCTATGTCATAACGCACACCAGAGGCAATCAGGATCTTTTTAATGCCTTTCAGATCACG -CGCACGGCGATAGAGGTTGATCGTTGGTTCGTGGTTCGTGTCCATGTGCGGACAAATATCCGGATAAACGCACGA -CAAACGGCGACAAGTTTGTTCAGCGCGTGGCGATTTGCAGCGCAACATATACATGTTGGCAGTTGGCCCACCAAG -ATCGGAAATCACGCCCGTAAAACCTGGAACGGTGTCGCGGATCGCTTCGATCTCATTAATGATCGAATCTTCGGA -ACGGCTCTGAATAATGCGCCCTTCGTGCTCGGTGATAGAACAGAAAGAGCAGCCGCCAAAGCAGCCACGCATAAT -GTTGACCGAAAAACGGATCATTTCGTAAGCCGGAATACGGGCATTGCCATAGGCCGGATGTGGCACGCGCTTGTA -TGGCAGCGCAAAAACGCTGTCCATCTCTTCGGTAGAAAGCGGAATAGCAGGCGGGTTGATCCACACATAGCGGTC -GCCGTGTTTTTGCATCAATGCGCGGGCACAGCCTGGGTTGGTTTCGTGGTGCAGAATACGCGAAGCATGGGCGTA -CAGCACTTTATCGCCCTTCACTTTCTCGAAAGAAGGCAGCAACACGTAGGTTTTTTCCCACGGTTTCGGGCGCGG -TGGCTGCACGGTTACGGCTTTGGCTTCCTGCTTTTTCGGTGCCACCGGTTTGTTATCCGCGCACGGCAAATCTTC -ACCATACGGATGCGGGATTGGGTCGATTTTTCCAGGGGTATCAAGACGGGTGGAATCCACGCCGCTCCAGCCAGG -CAGCGCCTCTTTCACGATAATCGCGGTATTACGCACATCGCGGATTTCACTAATTGGCTCGCCCATCGCCAGACG -ATGCGCCACTTCCACCAGCGGACGCTCACCGTTACCAAACATCAGCATGTCGGCTTTCGAATCCACCAGCACGGA -ACGGCGCACGGTATCGGACCAGTAATCATAATGCGCGGTACGGCGCAGACTAGCCTCAATACCGCCGAGGATCAC -CGGTACATCTTTCCACGCCTCTTTACAACGCTGGGTATAAACCAGTGTGGCGCGATCCGGGCGCTTACCCGCGAC -GTTATCCGGCGTGTAGGCATCGTCATGACGTAAACGGCGATCGGCGGTATAACGGTTGATCATCGAATCCATGTT -GCCAGCAGTAACACCGAAAAACAGATTCGGTTTACCCAGACGCATAAAGTCGTCTTTGCTGCTCCAGTCCGGCTG -GGCGATGATCCCGACGCGAAAGCCCTGCGCTTCCAGCATACGACCGCAAATCGCCATCCCGAAGCTTGGGTGATC -GACATACGCGTCGCCAGTAACCAAAATGATGTCGCAGCTATCCCAGCCAAGTTGATCCATCTCTTCACGAGACAT -CGGCAAAAACGGTGCCGGTCCAAAACAGGCGGCCCAGTACTGCGGCCAGGAGAACAGGTCGCGATCCGGTTGGAT -CAGGGAGATAGAGCTCATTTTGCTTCCAGAAATGATAAAAAAATAATCAAAGGCCGGGGATTATAAGCCGGAACG -AAAGAGAAATCGAAAGGTATTCCATACTCGCCCTCCTCGGGCGAGTATGAAGATTACGGTACCGGATTGACCAAC -AGTTGCCCAATCGAGCCACGGTCCGCCATTTCCAGCGTCTGACTGTTGAAGTAGAACGGGAAGTGCGCCCAGGAA -GGCTGACCGAAATAAACAAGCAGCTCCACTTGTCCGTCAACCCAAACGGTATCTTTCCAGCCTCTGTCTTCCGGG -AACGGCATCGCGCCATTCACGTTACGGATCTGGAACATTACGCCTTCAATATGGAACGCTTGCGGCTCGTCCGCG -CGTACCGTCCAGCGTTCCCACGTTCCTTGCTGCGCGGTGACATCAATACGGTTGACGTCCCACAGCTGTCCATTA -ATACCCGGGTCATCACCCAGACTGATATCGCGACTGCGAATTGGCGAACCAGCCATGATTTCAGTTGGCAGCAAG -CGCATCGGAAGACTGTCTGTGACCAGCGGCAGAAGGCCGGTTGGGCGCAGCGTTAGCACCAGGGTAGAAACCAGA -ATACTGGATGGCTCAAAGAAGCCACGAATACGATCAACAATGCTCGCCGCTTCGCCACAGGTGATCGACACTTCA -TCGCCGTTGCTCATATCCACCAGAATCTCGCGGCGCTCGCCCGGTGCCAGCGAAAGTTGCTTCACCGATACAGGA -GCAGGCAGGAATCCCTGATCGCCAGAAATCACATGTAACGGGCGACCATCGTTCATCTGTAGTTGATAGCGACGA -GAGTTCGACGCGTTCAGCAGTCGCAAGCGCACCCAGCCACGCGAGACTTCAACGTACGGGCTTTGTACACCGTTA -ACCAGCAGCGTATCACCAACAAAGCCGCCGCTTCCCGGTTCGTTGTATTCTGGCGTACCAAAGTTATCCAGCCGT -TTATCCTGGATAATGACCGGAAAATCATCCACACCATAATGGTTGGGGATAGGCAGCGACTTGCTGACTTCATCT -TCCACCAGCCACATTCCGGCAAGGCCGTTATAGACCTGCTGAGCCGTGCGGTTGGGAGTATTGGCGTGATACCAC -AGAGTAGCTGCGTTCTGGCGAATGGGCAGTACGGGTGCCCAGTCAGCGTTTGGCGACATCATCCGTGCCGGACCG -CCCATCAGCGGGCCTGGTACCTGTAGCCCGGCCACCGTCATTGAGACATTTTCTGTCAGGCGGTTGCTGTAAATA -AGCTTAACATCGTCGCCCTTCCAGACGCGGATAGTCGGCCCCAGGTAACGACCATTGATTCCCCAGACCGACGCG -CGTGTCCCTGGCGTAAATGACCAGTGCGCACGTTGTACAGTCATAAACAGCGGTTGCCCACGGCGAGATTCAAGT -AGCGGCGGAACGGGTAGCGGTTGCTGTTGCCCGGCTGCGCTGGCCTTCAGGGGAACAGCGCCTGCACAAAGTGCA -ATCCCCGATGCCTGAATGAACTGACGCCGACTGAGTGACATATTTGCTCCATGTAAAACTGGCTAAAGTAATACC -GTGCAGGAAAGTGTTCCCCGCAAAAATACAGATTGCCGACTTAAACTTTTCCGGCGGCTTCGCGTTCTGCGACTT -CTTTATCGAGCTCGGCGATTTTTTGTTCCATTATCGAACGACAATGGGCAGCCAGCTCACGAACCTGATCTTTGC -CATACTGACTGACGTCAATTGGCGGCAGCATTTCGACAATCACCAGACCGTTGTGCAGTCGATTAAGATTAATCT -TATTCGAAGTTGTAGAGACGCACACGGGAATAATCGGGACGCCCGCCGCAATTGCCGCGTGAAATGCTCCAGTCT -TGAACGGTAGCAGGCCGCGACCACGGCTGCGGGTTCCTTCCGGGAACATCCAGATGGAAATACGGCGTTTTTTGA -AGTGATTCACTACTTCCGCAATGGTGCCGTGAGCTTTAGTGCGATTGTTTCTGTCGATCAATAAGTTGCCGGTTA -ACCAGTACAACTGCCCGAAGAAGGGGATCCACAGCAAGCTCTTTTTACCTACCGTCACCGTCGGCGGTTGCACGA -TGTTCGATGCTGTCACCATGTCATAGTTGTTCTGGTGGTTAGCGATATAGATAGCATTGCCGTAGCTTTCAGCGT -CTGTAGGTTTACGGCACTCAACTTTCAGGCCAAACAGCGGCGCAAGACGGCCAAACATATGCCCAAAGGTGGCCA -CATGTTTCGGGTTACGCGGGCTGAAAAGGCAGTAAATGGAGCCGAATACACAGACTAAGATGCTGTAAATCACGG -TAATAATAAGACGAAAGATATATAGCATAACACCCTCTGAAGGTCTGAGAGACTGGCATTGTACGTCACCTGAAA -TCAGGTTAGGGCATTGTTAAAAGCCGCTCTCTGGAAAAGCGTATTGTTAATCGCAACGCATGAATAAACAACGGT -TTCAAGGGAATTTTTATCGTTTCCGGGGGTTGAATACGCTGCCGGATGACGACTTAACGTTTCATCCGGCGTTCC -TTGCAAGCGGGAGGAAACAGCGCCCTCCCCGGCATATTACTCTTCGCTATCACCGCTGCTGGCACGGCGAGGAGA -GTCGATCTCAACACGATCGATACGCTGCAAACCGCGCATCAACGTACCGCGGCGTCCACGTTCGCCAGTGACTTT -CTGTAACTCTTCCGGGCGCAGTTTAATTTTGCGTTTCCCAACATGAATGGTCAGCGTGCTTTGCGGCGGCAGAAC -GTACAATTGCGCCAGACCATCTTCTCCACGCGCGGCTTCTGCCGATGGAATGTTGATAATCTTGTTGCCTTTGCC -CTTCGACAGCTGCGGCAGATCACTTACCGGGAACATCAACATACGGCCTGCCTGAGTGATTGCCAGCAGCATATC -GGAAGCATCTTCAATCACCACCGGCGGCATAACATGGGCATTTTCCGGTAAGGTGATCAAAGCCTTACCTGCACG -GTTACGCGCCACCAGATCGTTAAAGGTGCAGACGAAACCGTAACCCGCATCGGAAGCCATCAGCAGTTTCTGATC -GTCGCTTTCCATCAGCATATGGTCAACGGTCGCCCCAGGCGGCAACGTTAATTTGCCGGTGAGCGGCTCGCCCTG -ACCACGCGCCGACGGCAGCGTAATCGGGTCAATGGCATAGCTACGACCGGTGGAATCAACAAACACTACCGGTTG -GTTGCTCTTACCTTTCACCGCCGCTTTGAAGCTATCACCCGCTTTATAATTCAGGCCCGGCGCGTCGATATCATG -GCCTTTAGCGCTGCGTACCCAGCCCATCTGCGACAGCACAATGGTGACAGGTTCAGACGGCAGCATGTCGTGCTC -GCTCATCGCTTTCGCTTCTTCGCGTTCCTGCAACGGCGAACGACGATCGTCACCGTAGGCTTGCGCGTCTGCCTG -CAGTTCTTTCTTCAGCAGGTTATTCATTTTACGCTCGGAAGCCAAAATGCCCTGCAACTGGTCGCGCTCTTTTTC -CAGTTCACTCTGCTCACCGCGAATCTTCATCTCTTCCAGTTTGGCAAGATGACGCAGTTTCAGTTCGAGGATCGC -TTCCGCCTGGGTTTCCGTAAGGCCAAACCGCGACATCAGCGCCGGTTTCGGTTCATCTTCATTACGAATGATCTC -AATCACTTCGTCGATATTGAGAAACGCCACCAGCAAACCTTCGAGGATATGCAGGCGCTTGAGGACTTTCTCCAG -ACGATAGTTCAGTCGGCGGCGCACGGTATCGCGGCGGAACACCAGCCATTCGGAGAGGATTTCCAGCAGGTTTTT -CACCGCCGGACGACCATCCAGACCGATCATATTAAGGTTAATACGATAGCTCTTTTCCAGATCGGTGGTAGCGAA -GAGGTGGTTCATCACCTGATCCATATCCACGCGGTTGGAACGCGGCACAATCACCAGGCGGGTCGGGTTCTCGTG -GTCAGATTCATCGCGCAGATCGTCAACCATCGGCAGCTTTTTGTTGCGCATTTGCGCAGCAATTTGCTCCAGTAC -GCGCGCACCTGAAACCTGATGCGGCAATGCGCTGATAACCACCGCGCCATCTTCTTTCTTCCACACCGCGCGCAT -ACGCACTGAACCACGTCCGTTCTCGTAGATTTTACGGATCTCGGCGCGCGAAGTGATAATTTCCGCTTCAGTCGG -ATAATCCGGCCCCTGCACGATATCCAGCAGCTGATCGAGCGTGGTTTTCGGCTGGTCGATTAATGCGATTGCCGC -CTGAGCCACTTCACGCAGGTTATGCGGTGGAATATCGGTCGCCATGCCGACGGCAATACCGGTGGTGCCGTTAAG -CAAAATGTTTGGCAGACGGGCAGGTAGCATTTTCGGCTCCTGCAAAGTGCCGTCGAAGTTTGGCACCCAGTCAGC -CGTCCCCTGCCCCAGCTCGCTCAATAGCAGCTCGGAATATTTCGACAACCGGGATTCGGTGTAACGCATTGCCGC -GAACGATTTCGGATCGTCCGGCGCGCCCCAGTTCCCCTGACCATCAACCAGCGGATAACGGTAAGAGAACGGTTG -CGCCATCAGGACCATCGCTTCATAACAGGCGCTATCGCCGTGCGGATGGTATTTACCCAGTACGTCACCGACGGT -ACGGGCCGATTTTTTAAATTTGGCGCTGGCATTCAGGCCCAGTTCAGACATCGCATACACAATGCGGCGCTGAAC -AGGTTTCAGACCATCACCAATAAACGGCAACGCACGGTCCATGATCACGTACATGGAGTAGTTTAAGTAGGCGTT -TTCCGTAAATTCATGTAGCGCAAGGCGCTCTGCCATATCGCTCATTAATTCTGATTCCTCAACTTATTCGCCAGC -CTTCAAAGGGGCAATATTGCCGGAGATACTACATTATCTGCCGCGTCGAGTCACAGGAGATCAACGTGAATAGCG -CCGCCGGACGTGCTCCGACGGCGATAAAGGCATCAATGTGCCTTGATATACAACTCTTTGCTGTAGACATAATCC -TGGGGATTATGCAGCGGAAAACCGCCAACGTAGGGTTTAAGCAGTTTGATTAACGGCTGATAGTAGATAGGAATC -AGCGGTGCCTGTTGGTTGATGATCACTTCTGCCTGCTGATACAACGCATTACGCTTTGTCGCATCAGTGATCTGC -GTGGCCTGGTTTAGTAAGGCGTCATACTGCGCATTTTTCCAGTGACCGACGTTTTCTTCACTATCGCTTTTGAGC -GTGTTCAGGAAGCTGGAAGCATCATTGTACGTCGCATCCCACGACTGCCGAGACAGCATGAAATCACCGGCTCGT -CGGGCATCAAGATAGGTTTTCCACTCCATTGTGCGCAGCGTCACCTGTGCACCCAGCCATTTTTTCCATTCGGAA -GACAACGCTATCGCGGTCTTTTCATGCAGATCGTACTTGTTGTAGAACAGCTCAAAGCGTAGCGGATGAGAGGCG -TCGTATCCCGCCTGTTTCAGCAAGGCTTTTGCCATCGCGACGCGCTCACTCATTGGCTTTTGCAGTTCATCGAAC -GTCGTCGCGCTAAAGCCTTTTACCTCTGGCGGCGTCAGCGTGGTTGCGGGCGTTCTCAACCCCAGTACCTTTTGC -GCAATAAGCTGTCGATCAACCGTAAGATATAGCGCCCGACGCACTCGCACATCGTTAAATGGCGGTTTCTCAAGG -TTGAAGTTGTAATATTCGCTGTTCAGACGCGGAATAATTCGTAGCTCGCCAGGCAGTGATTTTTCAATGGCGGGA -ATTTGCTGCGCCGGAACCCAGGTGAGATCGACCTCTCCCGCGCGATAGCGGTTATAGCCGGTGACCGAATTATCT -AGCGCCAGATACTCAACCTGTTGCAATACTGTATGTTGCGCATCGCGGTACTTTGGATTTTTGCGTGCAGTAATC -TTTTCGTTAACTACCCACTGATCAAGCACAAAGGCACCGTTGTAAACCATGTTCTCTGGCTTACTCCAGCTATCG -CCATGTTTAGCGATGACATGATGAGGAACCGGGAACAGCGTCGGCCAGGCGAGCATCGTCGTGAACCAAGGAACC -GGCTGCTCAAGCGTAACTTCAAGAGTACGATCATCCGTCGCTTTGACACCCAGCGATGTAACATCTGCTTTACCC -GCAACAATAGCTGCGGCATTGTTAATGTGCGCCTGTGCCAGATAGCCAGCAAAAGGGCTTGCCGTTTTCGGGTCA -ACCGCGCGCTGCCAGCCGAGGACAAAATCCTCTGCCGTCAGAGGCTGACCGTCGGACCACTGCAAACCGCTACGC -AGATGGAAAATATAGCGCTTGCCGCCGTCCAGTATCTCCCAGCGTTCAGCCTGAGCGGGCTGCACCTGGCCTTCA -CCGTCCATCCATACCAGACCTTCAAACAGATCCAGCACAATCTGCGCGGCAGTATTCTCCTCCACCTTTTGCGGG -TCGAGCGTACCTGGGTCGCTATGATTGTTGTAACGAAAGACTTGTTGCGGGGCGAGCGGTGTGTTGGCGGGAACG -TCAGCAGCGTAGAGAGGAGCCGCACTTACCAGGCTGACCAGCCATAATAAATTTCGCGTATACATGGTATTCCTT -ACCGGAGAAATTATAAGCCCAACAACAATACGCCTGTGGCATTGTTCGCTCAAACTTATCGCGAGTGATTTGGCT -CACACTCCGGTAAAGAAAAAAGCGAGTTGCCCCCGCTTTTCCATTAATTAACGGATTTCATTCAATAGTTCTGGA -TGCTTATCCAGAACACGTAAAAGTTTGATTGTGGAAGGATGAGGTTGGGCATTGCCTTTTTCGTAACGCGAAAAC -GCATTTACACCTCCCCCAAAAATTTCGCTTGCCTCTTTTTGGGTAAGAGAGAGCTTTTTTCGAACCTTCACTATA -AATTCAGGTGCCACTGTTTCGGCATTCACCGAAGCCCGAAATGCCTTTACTTGCGCCATGAAAGCATCTGACTCT -TCTTTATTCATGATGCTCTCTTCGCAATGGACACAATATAAACCGTGGATACCTTTCAATACTGTTTTTCGTCCA -CGGAAGGTGTATGGAATATCTTTAATGCCAGAAACCATTTCTCCCTGGTGGCAAACCGGACATTTCATATTACTT -CTCCTTAAACGAGACGATCAGTACGTCATGAATTACCGTAATTTTAAGATAAACCTGGCCTGTAACAAGCCTGGG -TCTGTAAACATCCTGCCAGATAGTATGATCAGAGTAGGTGGTCATGCTTTTATAAAAGTCGCTCTCTGATAATCC -AATGATAACATTACACATACCATCAAAATCCAAACCTAACTCATCTGCATTTAACAGGGCACTACGTGTTGTACG -AACTTGCCCGGCATTGACAAGTTTTTTAACCTGACTCAAACGTGTATGTGGTGTGCGTTTTTCCATAACCCCCGC -CTCCCTGTTACTTTAGTTATAACCTAAAAGGTTAATTACAGCAATGAAAAAGCACCTAAAAGGTTAGTTAGATGT -ACGGAGATAGTGACCACACAAAACGTATTCTTTAAGGAAAGTGATTGACCATATAAGAAAGTGGCGCATTAGTAG -CGCCAGTTTGAAGCAGGAATTTATAAGGGAAGCTGGAGTCAGGCATCACGCCAACGGCACATAAACATCCGTTTC -CAGTCGCTGCTCTGTCACCCCTTCGGCAAGATTGGTGTAGTGAAACAGAATCGGTGCTTTACGCATTTTCTCGCC -GCTTGCAGGCAGCCAGTGGCGAATGATGCCCCATACCGTGTGTGAAATATCGTCCAGCTCGCCAACGTGGCGGGC -CACGGCATAACGTCCACCGGTAAGTTCACCATTGCTCACACCATAACGATTATCGGGAATCGGTTCGCTAACGCT -GCCGCAGATATCAAAGCGAAACGCTTCCGGTGCGGTGGTGGCAGGGTCGTCCCAGGCGACGCCAAAAGTCTGGCT -TTGGTTAACAGGAGAAAGCCCCGTCTCTTTACGCCACATGATAAATTTCGCCACGCTGTAGTTGAGCAATTCAGG -GCTACAGCGGTGCGGCAACATCGCCACAGGTATTGATGGGAAATCGATAATGTTTACATCCAGTGTCAGGTTTGT -CATTTTGCCTCCCTGCGAAATTATTCCCGGGAACGCGTCCCGGGAGCGGTAACAATTACGGATTTACTTTGCGGA -TCTGTTTGACGTCAATTTCAACAGAATTCCAGTCTTTATCGACTTCACCCTGAATCTCAACCGTATCTTTCGGCG -TCACCGTCACGCCGTTCCAGCGTTTGTGGTCGATATCAACATTGATAGTACCGCTGGCATCTTTGAACACGTAGA -GATCGTCAGAGATGCGTTCAACGATATTGCCGCGCAGGGTTACCCAGGTGTCGTCACGCAGGGATTTTGCGCTTT -CTACAGTCGTTACGCTGCCGTTCGGCCCCTGGAATCCTCCGGCCTGACTTTGCGTTGCCGATGGGCCAGAAAAAC -CGCCCTGCTCTGCTGCCATCACCGGTGCGCTGCACAGGGCCATTACTGCGATTACTGCTGCGAATTTTTTCATGT -TTATTACTCCCTTTAATGTCTGTTTCCGAGCATTTAACAAGATAGTCCTTAACAACTTCTTAAGGGAAAAAAATA -AAATTTAGTGCTGTACAGAGCGCGTTACAACACGGTTTACTGGCAGCAAATACGGTTATCGCAGGGATGAAAAAA -TGCGAATTTTACTGATAGAAGATGACATGCTGATTGGCGACGGCATCAAAACGGGCCTTAGTAAAATGGGTTTTA -GCGTCGACTGGTTTACACAAGGTCGTCAGGGAAAAGAGGCGCTTTATAGCGCACCTTATGATGCGGTGATCCTGG -ATTTAACCTTACCAGGCATGGATGGTCGCGATATTTTGCGCGAATGGCGAGAAAAAGGTCAGCGTGAGCCGGTAC -TGATCCTGACCGCGCGCGATGCGCTGGCGGAACGTGTAGAAGGGCTGCGTCTGGGAGCTGACGATTATCTGTGTA -AACCTTTTGCGTTGATAGAAGTCGCCGCCAGGCTGGAAGCTCTGATGCGCCGAACCAACGGCCAGGCCAGCAACG -AGCTGCGCCACGGTAACGTCATGCTCGACCCCGGCAAACGTATCGCCACGCTGGCTGGCGAACCCTTAACACTGA -AACCAAAAGAATTTGCCCTGCTGGAATTACTGATGCGTAACGCTGGTCGGGTACTGTCGCGCAAACTGATTGAAG -AGAAACTGTATACCTGGGACGAAGAGGTCACCAGTAATGCCGTTGAAGTGCATGTGCATCATCTGCGACGCAAAC -TCGGTAGTGATTTTATTCGTACCGTGCATGGTATTGGTTACACATTAGGTGAGAAATGAAATTTACCCAACGTCT -TAGTCTGCGCGTCAGGCTGACGCTAATCTTTTTAATTCTGGCCTCGGTGACCTGGCTGCTTTCCAGCTTTGTCGC -CTGGAAACAAACAACGGATAACGTCGATGAATTGTTCGACACCCAACTGATGCTGTTTGCCAAGCGGTTAAGTAC -GCTCGATCTCAACGAAATCAACGCGGCGGATCGCATGGCACAGACGCCAAATAGATTAAAACACGGTCATGTTGA -TGACGATGCGCTGACCTTTGCCATCTTTACCCACGACGGCAGAATGGTCCTTAATGATGGCGATAACGGAGAAGA -TATTCCCTATAGCTATCAACGGGAAGGTTTTGCTGACGGGCAACTGGTCGGTGAAGACGATCCTTGGCGTTTTGT -CTGGATGACCTCACCTGATGGCAAATATCGCATCGTTGTTGGCCAGGAATGGGAATACCGTGAAGACATGGCGCT -GGCGATTGTTGCCGGGCAATTGATCCCGTGGCTGGTCGCACTGCCGATTATGTTAATCATCATGATGGTACTACT -GGGTCGTGAACTCGCGCCGCTGAACAAACTGGCGCTGGCACTACGTATGCGTGACCCTGACTCGGAAAAACCACT -AAACGCGACTGGCGTACCCAGCGAAGTGCGGCCACTGGTTGAGTCGCTAAATCAACTGTTCGCCCGCACACATGC -GATGATGGTTCGTGAACGACGCTTTACCTCCGACGCAGCTCACGAACTTCGTAGCCCGTTAACGGCGCTGAAAGT -GCAAACCGAAGTTGCGCAGCTCTCTGACGATGATCCGCAGGCGCGGAAAAAAGCACTGCTCCAATTACATTCCGG -GATCGATCGCGCTACTCGTCTGGTTGATCAACTGCTCACGCTATCGCGGCTGGACTCACTGGATAACCTTCAGGA -CGTCGCGGAGATCCCGCTTGAAGATCTCCTGCAATCGTCGGTGATGGATATTTACCACACGGCGCAGCAGGCGAA -AATTGACGTGCGACTGACACTCAATGCCCACAGCATCAAACGCACCGGGCAACCGCTATTGCTAAGTTTGTTGGT -GCGAAATTTGCTGGATAACGCCGTGCGCTACAGTCCACAGGGCAGCGTGGTAGACGTCACGCTGAATGCTGATAA -TTTCATCGTGAGGGATAACGGCCCCGGTGTGACACCAGAGGCACTGGCGCGAATTGGCGAACGCTTCTATCGCCC -ACCCGGACAAACCGCTACCGGCAGCGGGCTTGGGCTATCGATTGTCCAGCGAATCGCCAAATTGCATGGCATGAA -TGTTGAATTTGGGAATGCGGAACAAGGTGGATTTGAGGCGAAGGTAAGCTGGTAACTTCTCTGTCTATGAGAGCC -GTTAAAACGACTCTCATAGATTTTACTAATAGCAAAATATAAACCGTCCCCAAAAAAGCCACCAACCACAAACCA -GACAAATACCGAGCGAGAATACATATACCCAAAACTCGAACATTTCCCGCATAAAGAGTTTTCTTAAGATAAGAA -TAATAAGTGGCGTAAGAAGAAAAAATGCTGCAATCATTGCTTGCAATATACGATCTTCGCCTGAAACGGAAGGTA -TACTGCAAATATTTCCTCCCGACTCAAGCATCCAGTCATACTTATTGAAAGCAAAAAAAGAATCTATTAACCAAT -AAGTAAGCATTATATATAGCAATGCTTCAAATATTGTTTTAATTTTCTGCTTTAACATATATCAGTACGCTCATA -AAAATCCATTTATAATTATCAACATGACACGTTGATACTTTCATCTTTTACTTATTCAAAGCCATATTTTCAATC -CCCAAAAAAACCGAACCAAACGTGTAAATTATTCCGGTGCGAGTAAGAATTATGAGGAATGGCTATCAGTATTGT -CATTTTCAGAAAATATTTATCCTGCATCGGTGAGTCAGAGTAAGATCAGACTTTTGCTAAATTCGCAAAAGACTT -TGCACATTTTGCTAATTTCACCGTACCGCTCTGTGACGTACTATAGTCGGCAAACGTCTCACCTTGAGGTTAAAA -AATGAGCAACATCCTGATTATCAACGGCGCGAAAAAATTCGCCCACTCCAATGGTCAACTGAACGACACCCTGAC -CGAAGTCGCGGATGGCACACTGCGCGACCTTGGGCATGATGTCCGCATCGTTCGCGCCGACAGCGACTACGATGT -CAAAGCGGAAGTACAAAACTTTCTCTGGGCTGATGTGGTGATCTGGCAGATGCCAGGCTGGTGGATGGGCGCGCC -GTGGACAGTGAAAAAATACATTGATGATGTATTCACCGAAGGTCACGGGACGCTGTATGCCAGCGATGGTCGTAC -CCGCAAAGATCCGTCGAAAAAATACGGTTCCGGCGGCCTGGTACAGGGCAAAAAATATATGCTTTCTCTGACCTG -GAACGCACCAATGGAAGCCTTCACCGAAAAAGATCAGTTCTTCCACGGCGTTGGCGTTGACGGTGTGTATCTGCC -GTTCCATAAAGCAAACCAATTCCTCGGTATGGAACCGCTGCCGACATTTATCGCTAATGACGTGATAAAAATGCC -TGATGTTCCCCGCTATACTGAAGAATATCGCAAGCATCTTGTGGAAATTTTTGGTTAACTAGAGCTCAGGCTTTA -GAAGGAGTTAACCATGCTTACCGTAATCGCAGAAATCCGTACTCGTCCTGGTCAACATCACCGTCAGGCGGTATT -GGATCAGTTTGCTAAAATCGTTCCAACCGTACTGAAAGAAGAAGGTTGCCACGGCTATGCGCCAATGGTGGATTG -CGCAGCTGGCGTGAGTTTCCAGTCTATGGCACCGGATTCTATCGTGATGATTGAGCAGTGGGAAAGCATCGCGCA -TCTTGAAGCGCATCTGCAAACCCCGCACATGAAGGCGTATAGCGAAGCCGTAAAAGGTGACGTGCTGGAGATGAA -TATCCGTATTCTGCAGCCAGGGATTTAATCCTGCCTTGTTTGCCCGGCCATCCTGACCGGGCAATGTTCTTTCCT -TTAAACCTCAATCTCCGCCATGTCGCCTTTCTCTTGCAACCAGTTGCGGCGATCTTCCGAGCGTTTCTTCGCCAG -CAGCATATCCATCATCGCGTCAGTACGCTGATCGTCTTCATCATCGATAGTCAACTGCACCAGACGGCGAGTGTT -CGGATCAAGCGTGGTTTCGCGCAATTGCATCGGGTTCATTTCCCCCAGACCTTTAAAACGCTGGACGTTCGGCTT -GCCTTTCTTGCGTTTTAATTGCTCAAGTACGCCCTCTTTCTCTTCTTCCGTCAGCGCGTAATAAACCTCTTTCCC -GAGATCAATACGGTAGAGCGGTGGCAGTGCGACGTAAACGTGACCGTGTTTCACCAACGCGCGGAAATGTTTTAC -GAACAAAGCGCAGAGCAGCGTGGCAATGTGCAGACCATCAGAGTCCGCATCCGCGAGGATACAGATTTTGCCATA -ACGAAGCTGGCTCAGATCGTCGCTGTCAGGATCGATACCGATCGCTACCGAAATATCGTGCACTTCCTGCGAAGC -CAGCACTTCGTCGGAAGAGACTTCCCAGGTGTTAAGGATCTTACCTTTCAGTGGCATGATCGCCTGATATTCGCG -ATCGCGCGCCTGCTTGGCAGATCCGCCTGCGGAGTCACCTTCCACAAGGAACAGCTCGGTACGGTTAAGGTCCTG -CGCGGTACAATCAGCCAGTTTGCCAGGCAACGCCGGGCCGCTGGTCAGCTTTTTACGCACCACTTTTTTGGCCGC -ACGCATACGGCGCTGGGCGCTGGAAATCGCCATCTCCGCCAGCAGTTCAGCCGCCTGAACGTTCTGGTTCAGCCA -CAGGATAAAGGCATCTTTCACCACGCCAGAAACGAATGCCGCGCATTGACGCGAAGAGAGACGCTCTTTCGTCTG -CCCGGCAAACTGCGGATCCTGCATTTTTACTGACAGCACATAGGCGCAGCGATCCCAGATATCTTCCGCCGACAG -CTTTACACCGCGCGGCAGAATATTGCGGTATTCACAGAACTCACGCATCGCGTCCAACAGGCCCTGACGCAGACC -ATTAACATGGGTACCGCCCTGCATCGTTGGGATAAGGTTGACGTAGCTTTCGGTCAGCAGTTCACCGCCTTCCGG -CAGCCACAGTAGCGCCCAGTCCACAGCTTCAGTATCACCAGCGAAATTACCGATAAACGGTTTTTCCGGCAGCGT -CGGCAGACCATTTACCGCTTCCGCCAGGTAATCATTCAGACCGTCCTGATAGCACCAGCGTTGTTCGGTATTGTT -GATCTCATCTTTAAAAGTGATCTCAACGCCAGGGCACAATACCGCTTTGGCTTTCAGCACATGCGTCAGGCGTGA -AACAGAAAATCGCGGGCTGTCAAAGAAGGTTTCATCCGGCCAGAAGTGCACACTGGTACCAGTATTGCGTTTACC -GCAAGTGCCGACAACCTGTAAATCCTGCACCTTTTCGCCATTTTCAAAGGCGATGTTATAAACCTGACCATCGCG -GCGCACGTTAACTTCTACGCGCTTCGACAGGGCGTTAACCACCGAAATCCCCACGCCATGCAGGCCGCCAGAGAA -CTGGTAATTTTTGTTAGAGAATTTACCGCCTGCATGCAGACGGCAAAGAATCAGTTCAACCGCCGGTACACCCTC -TTCCGGGTGAATATCCACCGGCATCCCGCGCCCATCGTCAATAACTTCTAACGACTGGTCAGCATGTAAAATAAC -GTCCACGCGTTTTGCGTGACCCGCCAGTGCTTCATCCACACTGTTATCAATGACTTCTTGCCCCAAATGGTTAGG -GCGAGTGGTATCGGTATACATCCCCGGACGGCGGCGAACCGGCTCAAGCCCGGTGAGTACCTCAATGGCATCAGC -GTTATAAGTTTGCGTCATGGTTTAAGTTAGTAATTCGAGTTGATCGTCAGAGATGGTGCAGACCAAGAAAATCGA -CGATCGGGTTGAAATAATCTTCGAAGCCCGTGAATGCGTGGTTGCCGCCTTCTATGACAGTCTGGCGGCAGGAAG -CGTAGTACGCCACCGCCTGGCGGTAATCCAGCACTTCATCTCCCGTCTGTTGCAGCAGCCAGATCAAATCCGGCG -CTTCCAGCGGGTCAATCTGCATGACTTTAAGATCGTAAATATGGCGTGACTCTAGCACATATTGCTGCCCGGTGT -AGGGGTTCTCGTTCTGACCGAGATAGTCCGTCAGCAGTTCAAACGGGCGCACCGCCGGGTTTACCACCACTGCGG -GCAGCATAAAACATTGTGACAACCAGGTGGCGTAATATCCCCCCAGTGACGAACCGACAATACCCAGCGAATCAC -CGCCATGTTCCAGGACAATGGATTCCAGCAGCTCTGCCGCGTCGGAAGGATACGGCGGCAACTGCGGAATGATCA -TCTCAACGTCAGGGTGATGTTCCGCCAGCCAGTTTTTTAACAAGCTCGCTTTTGCAGAGCGCGGCGAGCTGTTGA -AACCGTGTAAATAAAGAAGCGTAGACATCAGTAGCCTTCTGAAGCGGTATCAGGTTGGAAACGTGTGTCCGCCAG -GCGATGCACCTCGGTGGTCAGCGTGCCATCAGCATGTAACTCGAGAGTACGCCAGCCGGGCGCGATGGTATCCAG -CGTAAAGTTGGAACAGTGCGGCTTAAACTGCACACAGGTCGACGGCGTTGCCAGCAGGCGGCGACCATTCCAGTC -GAGATCCAGCTCCTGATGAATATGACCGCACAGCAAGTATTTGACGTGCGGAAACTTCGCCAGCACGGTATCCAG -TTCGCCCGCGTTACGCAGACTGTGTTGATCGAGCCAACTACAACCCGCAGGTAGCGGATGATGATGCAGCAGCAG -CAACGTATGGCGTTCTGGCGCATCGGCCAGTTTACGTTCCAGCCACTCAAGCTGAAACTCGCTCAGCTCACCGTG -CGGCACGCCAAACACCTGGCTATCCAGCAACAGGATTTGCCATTGCTCACCAATAAACACGCGCTTCGCCGGGGA -GATACCCGCATCCTGTAACGCGCTGTACATCGCGGGCTGGAAATCGTGGTTGCCCGGCAGCCAGACGCAGGGCGC -ACGAAAACTTGCGATGCCTTCAGCGAAATGCTGATAGGCCGCAGAGGATTGATCCTGCGCTAAATCACCTGTCGC -GACAATCAGGTCGAATTCGTGCTGGTGTGGCCGAATCGCCTCCAGCACCGCCTGGTAACTCTCCCAGGTGTTTAC -CCCTAACAGGGCTTCGTGCTTTTGTGCAAACAGGTGAGTGTCGGTAATTTGTAAAATCCTGACTCTGGCCTCACC -AGCCAGAGGAAGGGTTAACAGGCTTTCCAAATGGTGTCCTTAGGTTTCACGACGCTAATAAACCGGAATCGCCAT -CGCTCCATGTGCTAAACAGTATCGCAACCAGTCCGCTAAAAACTGATTAATTTGATGCTTTTCGTCGCGTTGATG -CAACTTTTTATTAGGATAATCATACCGCGCTTTGAAGCGAAAAATCTGCTGGCTTGAACACACTTCAGCCACCAT -CGCGTCATGATACAGACGCACCGTCATTGACGGAAGGCTCCAGTAACTGATCGCGGGCGCAGTCTGTTCTATTGT -CACCAGGGTAGTGTATCGGGTCGATTCCACAATCGTCAGCCGATATTGTGCGTTTGCCACCTGATAGCTTACAGT -TTCGCCGGGTGCGTCATTGCGCGGTAACAAACGGCGCAATTGTGAAAAGTTCATCTCGCACAGGCGCATCATTTC -AGGAAAGTCAGGTGTGTAACGCTTCATTTATGCCCACTCATTTTTTAACGCTTGATGATGCAGCTGCAGCCATTG -CAAAGCGATGACCGACGCTGCGTTGTCGATTTTCCCCTCTTCTACCCACTGGTATGCCTGTTCCCGGCTTACCAC -ATGAACGCGAATATCTTCGTTTTCATCAGCCAGACCGTGAATACCGCTTGCGGTCGTGGCGTCCACTTCGCCCAC -CATAATTGACGAACGCTCACTGGTGCCCCCCGGGCTTGCCAGGAAACTTAACACCGGTTTGGTCCGTTTGACTAT -CAGTCCCGCCTCTTCAATCGCTTCGCGACGGGCAACATCTTCCACACTTTCACCCTCTTCAATCATCCCGGCAAC -CATCTCCAGTAGCCAAGGGGTTTCGCTGGTGTCGTACGCGGCAATCCGAATCTGCTCAATCAGCACAACTTCATC -ACGCACTGGGTCAAAGGGTAGCAAGACTGCGGCGTGACCGCGCTCAAAAATTTCCCGCCGCACCTCATGACTCAT -TTGCCCGTTGAATAGACGATGACGAAATCTATAAAGATCTAATGAAAAAAAGCCGCGATAAAGTGTTTCTCGTGC -AATAATTTCTACATCGTTTTTGCCAAATGTAACGGGCAGGTTGTCTGGCTTAAGCATTGTTAATGTCCTGGCACT -AATAGTGAATTAAATGTGAATTTCAGCGACGTTTGACTGCCGTTTGAGCAGTCATGTGTTAAATTGAGGCACATT -AACGCCCTATGGCACGTAACGCCAACCTTTTGCGGTAGCGGCTTCTGCTAGAATCCGCAATAATTTTACAGTTTG -ATCGCGCTAAATACTGCTTCACCACAAGGAATGCAAATGAAGAAATTGCTCCCCATTCTTATCGGCCTGAGCCTT -TCTGGGTTCAGTTCGTTGAGCCAGGCCGAGAACCTGATGCAAGTTTATCAGCAAGCACGCCTTAGTAACCCGGAA -TTGCGTAAGTCTGCCGCCGATCGTGATGCTGCCTTTGAAAAAATTAATGAAGCGCGCAGTCCATTACTGCCACAG -CTAGGTTTAGGTGCAGATTACACCTATAGCAACGGCTACCGCGACGCGAACGGCATCAACTCTAACGCGACCAGT -GCGTCCTTGCAGTTAACTCAATCCATTTTTGATATGTCGAAATGGCGTGCGTTAACGCTGCAGGAAAAAGCAGCA -GGGATTCAGGACGTCACGTATCAGACCGATCAGCAAACCTTGATCCTCAACACCGCGACCGCTTATTTCAACGTG -TTGAATGCTATTGACGTTCTTTCCTATACACAGGCACAAAAAGAAGCGATCTACCGTCAATTAGATCAAACCACC -CAACGTTTTAACGTGGGCCTGGTAGCGATCACCGACGTGCAGAACGCCCGCGCACAGTACGATACCGTGCTGGCG -AACGAAGTGACCGCACGTAATAACCTTGATAACGCGGTAGAGCAGCTGCGCCAGATCACCGGTAACTACTATCCG -GAACTGGCTGCGCTGAATGTCGAAAACTTTAAAACCGACAAACCACAGCCGGTTAACGCGCTGCTGAAAGAAGCC -GAAAAACGCAACCTGTCGCTGTTACAGGCACGCTTGAGCCAGGACCTGGCGCGCGAGCAAATTCGCCAGGCGCAG -GATGGTCACTTACCGACTCTGGATTTAACGGCTTCTACCGGGATTTCTGACACCTCTTATAGCGGTTCGAAAACC -CGTGGTGCCGCTGGTACCCAGTATGACGATAGCAATATGGGCCAGAACAAAGTTGGCCTGAGCTTCTCGCTGCCG -ATTTATCAGGGCGGAATGGTTAACTCGCAGGTGAAACAGGCACAGTACAACTTTGTCGGTGCCAGCGAGCAACTG -GAAAGTGCCCATCGTAGCGTCGTGCAGACCGTGCGTTCCTCCTTCAACAACATTAATGCATCTATCAGTAGCATT -AACGCCTACAAACAAGCCGTAGTTTCCGCTCAAAGCTCATTAGACGCGATGGAAGCGGGCTACTCGGTCGGTACG -CGTACCATTGTTGATGTGTTGGATGCGACCACCACGTTGTACAACGCCAAGCAAGAGCTGGCGAATGCGCGTTAT -AACTACCTGATTAATCAGCTGAATATTAAGTCAGCTCTGGGTACGTTGAACGAGCAGGATCTGCTGGCACTGAAC -AATGCGCTGAGCAAACCGGTTTCCACTAATCCGGAAAACGTTGCACCGCAAACGCCGGAACAGAATGCTATTGCT -GATGGTTATGCGCCTGATAGCCCGGCACCAGTCGTTCAGCAAACATCCGCACGCACTACCACCAGTAACGGTCAT -AACCCTTTCCGTAACTGATGACGACGACGGGGCTTCGGCCCCGTCTGAACGTAAGGCAACGTAAAGATACGGGTT -ATCTGCCGCATTCTTCCCCCTTCTCGCTTCAATTTCGACCAGCCATCCTCTATTCTGATGGGTATTTACCACTGG -TCCCGGAAGACAAAAATGAAACGGACAAAATCCATACGCCACGCATCGTTCCGCAAAAACTGGAGCGCACGCCAT -CTGACACCAGTCGCTCTCGCGGTTGCCACTGTTTTTATGCTGGCTGGCTGTGAAAAGAGTGATGAAACAGTGTCT -CTCTATCAAAATGCTGACGACTGTTCAGCTGCAAACCCAGGCAAAAGCGCCGAATGTACCACCGCGTACAACAAT -GCGCTGAAAGAAGCCGAACGTACTGCGCCGAAATACGCCACCCGTGAAGACTGTGTTGCTGAATTTGGTGAAGGT -CAGTGCCAGCAGGCACCAGCCCAGGCTGGCATGGCACCAGAAAACCAGGCGCAGGCCCAGCAATCCAGCGGGAGT -TTCTGGATGCCGCTGATGGCCGGTTACATGATGGGGCGTCTGATGGGCGGCGGCGCGGGATTTGCACAGCAGCCG -CTGTTCTCCTCGAAAAACCCAGCCAGTCCGGCTTACGGTAAATATACCGACGCGACGGGTAAAAACTATGGCGCA -GCCCAGCCAGGCCGCACCATGACCGTACCGAAGACGGCAATGGCACCAAAACCGGCGACCACCACTACCGTTACC -CGTGGCGGTTTTGGTGAATCTGTTGCCAAACAAAGCACTATGCAGCGTAGTGCAACCGGTACCTCTTCTCGTTCA -ATGGGTGGCTGATACCGATGGAAAGAGTCAGTATTACCGAGCGCCCGGACTGGCGTGAGAAAGCCCACGAATACG -GTTTCAATTTTCACACCATGTACGGCGAGCCGTACTGGTGTGAAGATGCTTACTACAAGTTGACCCTCGCCCAGG -TTGAAAAGCTGGAAGAAGTCACCGCCGAACTGCACCAGATGTGCCTGAAAGTGGTGGAAAAAGTGATCGCCAGCG -ATGAGCTGATGACCAAATTCCGCATTCCAAAACACACCTGGAGTTTTGTGCGCCAGTCATGGCTGACGCACCAGC -CATCGCTTTATTCGCGTCTTGATCTGGCGTGGGATGGCACTGGTGAACCTAAACTTCTGGAAAATAACGCCGATA -CGCCAACGTCACTATACGAGGCGGCGTTCTTTCAGTGGATCTGGCTGGAAGATCAGCTTAACGCCGGTAACTTGC -CGGAGGGCAGCGACCAGTTTAACAGTCTGCAAGAAAAACTGATCGATCGCTTCGTTGAGCTGCGTGAACAGTATG -GCTTCCAGTTGCTGCATCTCACCTGCTGTCGCGACACGGTGGAAGATCGCGGAACCATTCAGTATTTGCAGGACT -GCGCAACGGAAGCTGAAATTGCTACTGAGTTCCTCTACATCGATGATATCGGGTTAGGTGAAAAAGGTCAGTTCA -CGGATTTACAGGATCAGGTAATTTCCAACCTGTTCAAACTGTATCCGTGGGAATTTATGTTGCGTGAGATGTTCT -CAACCAAGCTGGAGGATGCAGGCGTACGCTGGCTGGAACCGGCGTGGAAGAGCATTATCTCCAACAAGGCACTTC -TACCGCTACTGTGGGAGATGTTCCCGAATCACCCGAACCTGCTGCCCGCTTATTTTGCGGAAGATGATCATCCGC -AAATGGAAAAATATGTGGTTAAACCGATCTTCTCCCGTGAAGGCGCAAACGTGTCGATCATTGAGAACGGCAAAA -CCATTGAAGCAGCGGAAGGTCCGTATGGCGAAGAAGGGATGATTGTTCAGCAATTCCACCCGTTACCGAAATTCG -GCGACAGCTATATGCTGATTGGTAGCTGGCTGGTGAACGATCAACCCGCCGGAATTGGCATTCGTGAAGACCGTG -CATTGATCACCCAGGATATGTCTCGGTTTTATCCACATATTTTTGTTGAATAAGCCACGATACCGGATGGCACTC -GCCATCCGGTAATTGTTAGCCTATCTGCACCGACAGCATACTCAGGCTGCCCATTTCTATACCCTCAACCGGAAT -GGTAATTGGCTCCTGCCCATCCCACGCACCTAACACATACAACAACGGCAAATAATGCTCTGGCGTTGGGTTCGA -TAACGTGCCACCTTCATGGTCGAGGTAATTCACCAGAGGATGTTGTTCCACTGGCCCTTGCCACGTCAGATTCGC -TTTCACATACTCATTAAACGACGTCGCCCACGGATACGGTGAACTATCACCGTGCCACTTCACTGTGCGCAGGTT -ATGCACCACGTTACCGCTGGCGACCAACATTATTCCTTCATCTCGCAGCGCTGCCAGTTTGCGCCCCATTTCGAA -ATGCCAGGCGGCAGGTTTGCTACTGTCGATACTCAACTGCACCATCGGGATATCAGCGTCAGGATACATCTTAAT -CAGCACGCCCCACGAGCCGTGGTCAAAGCCCCAGGCTTCTTTATCCAGCGTCACCGGGATCGGCGCTAACAGCTC -AACCAGACGCTGTGCCAGCGCAGGCGAACCCGGAGCAGGATAATGCGTATCGTACAGCGCCTGCGGGAAGCCACC -AAAGTCATGAATCGTGGGCGGCGTCTCCATCGCGGTCACTCCTGTTCCACGGGTAAACCAGTGAGCCGAAACCAC -CACAATCGCTTGCGGGCGTGGCAATGTCATCCCCAACTTCTGCCAGCTGCGGGTATACAAATTATCTTCCAGCAC -GTTCATCGGACTACCGTGACCTAAAAACAATGCTGGCATACGTGTTGAAGACATGATGATATCCTTAACTAAAGG -TGTCATTTTGATATCCTCACAATACGCTTGTTCGGCGGAGTAAGAACCCGGATAACAATGATGATGATCATCAGT -TATTTTGACGATCTGCCTGAAGGTGAAGATTTATAAGGAGTTGTCGATGTCAGTACCTCTCATTCTGACCATACT -GGCGGGGGCAGCCACGTTTATTGGCGCGTTTCTCGGCGTTCTCGGGCAAAAACCCTCGAACCGCTTACTGGCGTT -TTCGCTAGGTTTTGCGGCGGGGATCATGTTGCTCATCTCATTAATGGAAATGCTTCCTGCCGCACTAGCAGCTGA -AGGAATGTCGCCTGTGTTGGGTTATGGAATGTTTATCTTCGGTCTGCTTGGCTATTTTGGCCTGGACCGCATGTT -GCCACATGCTCATCCGCAGGATTTAATGCAAAAATCGGTGCAGCCGTTGCCAAAATCGATCAAGCGCACAGCCAT -TCTGCTCACTCTCGGCATCAGTCTGCATAACTTCCCGGAAGGGATTGCCACCTTTGTCACGGCGAGCAGCAACCT -GGAGCTGGGATTTGGCATCGCACTGGCCGTCGCGTTGCACAATATCCCTGAAGGTCTGGCAGTGGCAGGCCCGGT -TTATGCGGCAACGGGGTCTAAACGCACCGCGATTCTGTGGGCGGGGATTTCTGGACTAGCAGAAATTCTTGGTGG -TGTGCTGGCGTGGTTAATCCTCGGTAGCATGATTTCCCCGGTGGTCATGGCGGCAATCATGGCGGCGGTTGCAGG -AATTATGGTGGCGCTCTCGGTTGATGAATTAATGCCGCTCGCCAAAGAGATTGACCCTAATAATAACCCCAGCTA -TGGCGTACTATGTGGAATGTCAGTGATGGGATTCAGTTTAGTGCTGCTACAAACGGCGGGAATTGGTTAAAAACA -ACATCAGAAGTTGTCCAGCGCATGGACAACTTCTGCCAGCTTCACGAAAGCCTTATTCTACCTTTTCGGCTGTCT -CTTCTCTCGTACTGTTTAAGTATTTGTTCCGCGCTTCAAGCAGTGCGTCTCTGTCCTGGCGAAACGCCCGACAAT -AACGTTTCAAATGCAGGAAATAACCCACCACAACCAGAGCAATCAATACAATCCAGTACCAGGCGATAAACATCC -TTTTACCCTTAATATTTAACAATACTAAACATTTAGCGTATAAATTTCACATATCCTTTTTCGGATATATTCATA -TGGTCGCATAATAACGGAACAATTATATGATTTTGATCATAATGAAAAAGAATGCCTGATATTAATGAAATTTTC -TCATAGAAAGAGAAGCGGAATTAACATCTTGCATAGCAGGGAAAAATAAAAACCGAAGCCTGCTACAACTTCGGT -TTCTTGATTAAGGCAGTAAATTAAGCAGCGGTTTTCAGCTGGCTTTACGCTCATGTGCCTGACGGTATGCCACCA -GGTCTTCAATAGTCACGAGCGCCATATTGTGTTTATTGGCAAACTCAATACACTCTGGTGCACGCGCCATCGTGC -CATCGTCATTAGTCAGCTCACACAGTACACCAGCCGGTTTAAAGCCTGCCAGCGTCATCAGATCAATAGTTGCTT -CAGTATGACCGCCACGCGTCAGTACACCACCTGCCTGAGCGCGAAGTGGGAAAACGTGGCCAGGACGATTCAGAT -CTGACGGTTTTGCGCCATCGGCAATCGCTGCGCGAACGGTCGTAATACGGTCAGCGGCAGAAACACCGGTAGTCA -CACCTTCAGCTGCTTCAATGGTCACGGTAAAACCGGTGCCATAGGCGCTGGTGTTATTTTCTACCATCATTGGCA -GATCGAGTTGTTTACGGCGATCTTCAGTAATGCACAGGCAAACAATACCGCTACCGTGGCGAATGGTCAGCGCCA -TCTGCTCAACAGTCATGGTTTCTGCCGGGAAGATCATATCACCTTCGTTTTCACGGTCTTCATCATCAAGCACCA -TTACACCGCGTCCTTCACGCAGCGCAGCCAGTGCATTTTCAACACGTTCGAAAGGCGTACCAAAAGAGGAAAGTA -GCGTCTGATTCATGGTAAAAAAACCTCACTAAAATTATGGTTACCAGAATCAGGGCAGTCTTAGGAGTGGCGGCA -TATAGCCAAAATAACGTGAGCGGGTCCATGCCCGACAGAATCGTTACTCTCTCCCATCCGGACTCTAACCGTCGG -CCCCGGAATTACACCGGATCTGCTGTCCTTTGAGTTCGCACCCAAAGCGCTCGCGGGCTTTCAACTGAGTTGATT -TACCGCCGGTGGGGAATTTCGCCCCGCCCTGAGAATAAGCGGATTCACTATAACGCTAATGATTAGCGGCAGCAA -CGCATAGCTTCACATAATTCTGGTTTATGACTTACCCTTATCGCACTACAATGGCACTCAACACCTATCAGTACA -GGGAAACTACAATGATTGACCCGAAAAAAATTGAGCAAATCGCTCGCCAGGTTCACGAATCAATGCCTAAAGGAA -TCAGGGAGTTCGGGGAAGATGTGGAGAAAAAAATCCGCCAAACCCTACAAGCGCAGCTGACGCGCCTCGACCTTG -TAAGCCGTGAAGAGTTCGACGTCCAAACGCAAGTCCTGTTACGGACTCGTGAAAAACTGGCGCTGCTTGAACAAA -GAATCAGCGAACTGGAAAATCGCAGTACTGAGATCAAAAAGCAGCCAGATCCAGAGACTCTCCCCCCAACGCTGT -AAACATTCGTCTTTAATGCACTGTAAATTATGAATTAATCCTCTAATTTATAGTGCTTTCTATTACCTTATCGCG -TAATCCCATTCAGAAAACCATCACAAAAATGAATGAGTACAATTGAAAGTATAATTGCAATGTATTTTTTAAGTT -TTACTTAATCGATATTTAGATAAACTAATTTTATAAAAAACACAAAATAAAATATCATATTTCAATGATTAGTAG -TCCTTAAATAACAGTTACTAATCATTCTCTTTTCTACTTATCTTTATATAAAGGAATATTATGTCCGCTTTTAAA -AAGTCACTTCTTGTTGCTGGCGTAGCAATGATTCTTTCCAATAACGTGTTTGCTGATGAAGGTCACGGTATTGTT -AAATTTAAAGGTGAAGTTATCTCTGCTCCATGTTCTATTAAACCAGGTGACGAAGATTTAACTGTAAATCTGGGT -GAAGTAGCAGATACCGTACTGAAAAGCGATCAGAAATCTTTGGCTGAACCTTTCACTATTCACCTGCAGGACTGC -ATGCTGAGTCAGGGTGGAACTACTTATTCAAAAGCGAAGGTTACTTTCACTACAGCAAATACCATGACGGGTCAG -TCTGATCTTCTGAAAAATACCAAAGAAACTGAAATCGGCGGCGCCACTGGCGTTGGCGTACGTATTCTGGACAGC -CAGAGCGGCGAAGTAACTTTAGGTACTCCGGTAGTAATTACGTTCAACAATACCAACAGCTATCAGGAACTGAAT -TTCAAAGCTCGTATGGAATCCCCAAGCAAAGATGCCACCCCGGGCAACGTTTACGCTCAGGCTGACTACAAGATT -GCTTACGAGTAATCGCATTTGGCCGGGTTCGCCCGGCCACATCATTAACGGATTAATGATAAGTGGATCAGATGT -ATAAAAAATTAAAATTAACCACAATAAGCGAATTGATTAAAAATATTTATTGTTCATTATCCGTTATTAGACTGG -CCCCCTGAATCTCCAGACAACCAATATCACTTAAATAAGTGATAGTCTTAATACTAGTTTTTAGACTAGTCATTG -GAGAACAGATGATTGATGTCTTAGGGCCGGAGAAACGCAGACGGCGTACCACACAGGAAAAGATCGCAATTGTTC -AGCAGAGCTTTGAACCGGGGATGACGGTCTCCCTCGTTGCCCGGCAACATGGTGTAGCAGCCAGCCAGTTATTTC -TCTGGCGTAAGCAATACCAGGAAGGAAGTCTTACTGCTGTCGCCGCCGGAGAACAGGTTGTTCCTGCCTCTGAAC -TTGCTGCCGCCATGAAGCAGATTAAAGAACTCCAGCGCCTGCTCGGCAAGAAAACGATGGAAAATGAACTCCTCA -AAGAAGCCGTTGAATATGGACGGGCAAAAAAGTGGATAGCGCACGCGCCCTTATTGCCCGGGGATGGGGAGTAAG -CTTAGTCAGCCGTTGTCTCCGGGTGTCGCGTGCGCAGTTGCACGTCATTCTCAGACGAACCGATGACTGGATGGA -TGGCCGCCGCAGTCGTCACACTGATGATACGGATGTGCTTCTCCGTATACACCATGTTATCGGAGAGCTGCCAAC -GTATGGTTATCGTCGGGTATGGGCGCTGCTTCGCAGACAGGCAGAACTTGATGGTATGCCTGCGATCAATGCCAA -ACGTGTTTACCGGATCATGCGCCAGAATGCGCTGTTGCTTGAGCGAAAACCTGCTGTACCGCCATCGAAACGGGC -ACATACAGGCAGAGTGGCCGTGAAAGAAAGCAATCAGCGATGGTGCTCTGACGGGTTCGAGTTCTGCTGTGATAA -CGGAGAGAGACTGCGTGTCACGTTCGCGCTGGACTGCTGTGATCGTGAGGCACTGCACTGGGCGGTCACTACCGG -CGGCTTCAACAGTGAAACAGTACAGGACGTCATGCTGGGAGCGGTGGAACGCCGCTTCGGCAACGATCTTCCGTC -GTCTCCAGTGGAGTGGCTGACGGATAATGGTTCATGCTACCGGGCTAATGAAACACGCCAGTTCGCCCGGATGTT -GGGACTTGAACCGAAGAACACGGCGGTGCGGAGTCCGGAGAGTAACGGAATAGCAGAGAGCTTCGTGAAAACGAT -AAAGCGTGACTACATCAGTATCATGCCCAAACCAGACGGGTTAACGGCAGCAAAGAACCTTGCAGAGGCGTTCGA -GCATTATAACGAATGGCATCCGCATAGTGCGCTGGGTTATCGCTCGCCACGGGAATATCTGCGGCAGCGGGCTTG -TAATGGGTTAAGTGATAACAGATGTCTGGAAATATAGGGGCAAATCCAGTTATCATCATTGGTTGTGCGTCAGCT -TATGCCGTTGAATTCAACAAAGATTTAATCGAAGCCGAAGATCGTGAAAACGTTAACCTTTCCCAATTTGAAACT -GATGGCCAATTACCCGTCGGCAAATATTCACTAAGCACTCTGATTAATAATAAGAGGACGCCAATCCACCTTGAC -CTCCAATGGGTATTAATTGATAACCAAACTGCAGTTTGCGTGACACCAGAGCAATTAACATTATTAGGATTTACT -GATGAATTTATTGAAAAAACTCAGCAAAACCTGATCGATGGTTGTTACCCTATCGAAAAAGAAAAACAAATTACA -ACTTATCTCGATAAAGGGAAAATGCAATTATCCATATCTGCACCTCAGGCATGGTTAAAATACAAAGATGCAAAC -TGGACGCCTCCTGAACTTTGGAATCATGGTATTGCTGGGGCATTTCTTGACTACAATTTATATGCCTCTCATTAT -GCACCACATCAGGGCGATAATTCGCAAAATATAAGTTCCTATGGGCAGGCTGGGGTTAATCTTGGGGCCTGGCGC -CTGCGTACTGATTACCAGTACGATCAGTCATTTAACAATGGCAAAAGCCAGGCGACCAACCTGGATTTTCCGCGT -ATTTATTTGTTTCGCCCAATCCCAGCAATGAATGCAAAACTAACTATAGGTCAATACGATACTGAATCCTCTATT -TTCGACTCTTTCCATTTTTCTGGCATTTCGTTGAAAAGCGATGAGAATATGTTACCGCCAGACCTACGTGGTTAC -GCACCGCAAATCACGGGTGTCGCACAAACGAATGCAAAGGTCACTGTCTCACAGAACAACCGTATTATTTATCAA -GAAAATGTTCCTCCAGGCCCATTTGCTATTACCAATTTATTCAATACATTACAGGGGCAACTTGACGTCAAGGTT -GAAGAAGAGGACGGACGCGTTACGCAATGGCAAGTTGCATCTAATAGTATTCCTTATCTGACGCGTAAAGGGCAG -ATTCGCTACACCACTGCTATGGGTAAACCGACCAGCGTTGGTGGTGATTCCTTACAACAACCCTTCTTCTGGACT -GGTGAATTCTCATGGGGTTGGCTGAACAATGTATCCCTGTATGGTGGTTCAGTTTTAACAAACCGTGATTATCAA -TCTCTGGCTGCCGGCGTTGGTTTTAATCTTAACTCATTAGGTTCATTATCTTTTGATGTCACACGATCTGATGCT -CAGTTGCATAATCAGGATAAAGAAACGGGTTATAGCTACCGCGCTAACTATTCAAAACGTTTTGAATCTACCGGT -AGCCAGCTCACTTTCGCTGGTTACCGTTTCTCTGATAAAAACTTTGTGACAATGAATGAATATATCAATGACACT -AACCATTACACGAATTATCAGAATGAAAAAGAGAGTTATATTGTCACGTTTAACCAGTATCTTGAATCATTAAGG -TTAAATACATACGTAAGTTTGGCTCGTAATACTTACTGGGACGCCAGCAGTAATGTGAATTATTCATTATCACTT -AGCCGCGATTTTGATATCGGGCCATTAAAAAACGTCTCCACTTCTCTAACATTTAGCCGAATAAACTGGGAAGAA -GACAACCAGGATCAACTGTACCTAAATATTTCGATTCCCTGGGGAACTAGTAGAACATTGAGCTATGGTATGCAA -CGAAATCAGGATAATGAGATTTCGCATACTGCTTCGTGGTATGACTCTTCCGATCGAAATAATTCCTGGAGCGTT -TCTGCTTCAGGCGACAATGATGAATTCAAAGATATGAAAGCGTCACTACGCGCCAGTTATCAGCATAATACCGAG -AACGGTCGACTCTACCTCTCCGGTACATCACAGCGAGACAGTTATTATTCTCTGAATGCCAGTTGGAATGGTTCA -TTCACTGCGACTCGCCACGGTGCCGCTTTCCACGACTATAGCGGTAGTGCTGACTCGCGTTTTATGATCGACGCA -GACGGCACTGAAGATATTCCGTTGAACAATAAACGCGCGGTAACTAATCGGTATGGCATCGGAGTTATTCCATCA -GTCAGCAGTTACATAACAACATCATTAAGTGTTGATACCCGAAATCTGCCAGAAAATGTGGATATCGAAAACTCG -GTTATCACCACCACCTTAACCGAGGGTGCTATTGGCTACGCCAAACTTGATACCCGCAAGGGCTACCAAATCATA -GGGGTTATTCGCCTGGCAGATGGTAGTCATCCACCACTGGGGATTAGCGTAAAAGATGAAACCAGCCACAAAGAA -TTAGGACTGGTTGCTGATGGCGGCTTTGTATACCTCAACGGCATTCAGGATGATAACAAACTTGCTTTACGCTGG -GGTGACAAATCTTGTTTTATTCAACCACCCAATAGCAGCAACTTAACCACCGGAACGGCTATTTTACCGTGTATT -AGCCAAAATTAATTCAGGATGAAACTAATGCGCTACTTAAATACAAAGAATATCATTGCAGCAGGAGTATTACTC -TCCTGTATGAGCAGCATTGCCTGGGGTGCCATCATCCCGGATCGTACCCGTATCATAATGAATGAGTCAGATAAA -GGCGAAGCATTAAAACTTACTAATCAAAGTAAAAACCTGCCCTATCTGGCCCAAACATGGATAGAAGATACGAAA -GGCAATAAATCGCGTGACTTTATTGTCACTGTTCCTCCAATGGTGCGTTTAAATCCCAGTGAGCAAATTCAAATA -AGAATGATAACTCAGGAAAAAATTGCTCAACTTCCTAAAGACAGAGAAACGCTCTTCTATTTTAACGTGCGAGAA -ATACCGCCCAAAACAGATAAAAAAAATGTGATGCAAGTCACTATGCAGCACGCATTGAAACTATTCTGGCGGCCA -AAAGCCATTGAATTAGAAGACGATGGGGTAATGACTTACGAAAAAGTTGAAATCATTCGTAGAAATGACGGTTCG -ATCCGCTTTAACAATAAGATGCCTTATCACGTTACGCTGGGTTATATCGGAACAAATGGGGTAACGATGTTACCA -CAAACGCAAAGCTTAATGGTAACCCCTTTTAGCTATGCAAATACGCAGTTTAAAAATGTTCCGTCAACTTTTCAG -GTGGGTTATATCAATGACTTTGGTGGATTAAGTTTTTATGAAATAAACTGCCCTGTAGTAAATAACATTTGTAAT -ATTTCTGTAGCCAACCGAGATCAATAATATGCGCTACTTGTTAATTGTTATTACTTTTTTTATGGGTTTTAGTTC -ATTACCTGCATGGGCAATGGACTGCTATGCTGAACATGAAGGTGGAAATACCGTTGTCATTGGTTACGTACCAAG -AATCTCTATCCCCAGCGATGGTAAAAAAGGTGATAAAATCTGGCAAAGCAGTGAATATTTTATGAATGTTTTCTG -TAATAATGCACTACCAGGCCCATCTCCAGGAGAAGAATACCCATCTGCATGGGCAAATATAATGATGTTGTTAGC -ATCAGGTCAAGACTTTTATAATCAAAACTCTTATACTTTCGGTGTAACTTATAATGGGGTTGATTATGATTCTAC -ATCTCCACTACCTATTGCAGCACCTGTATGTATTGATATAAAGGGAGCCGGAACCTTCGGGAATGGCTACAAAAA -GCCCGCAGTCTGTAGTGGCGGTCCTGAACCGCAATTATCAGTAACTTTTCCAGTACGAGTGCAGCTATATATTAA -GCTAGCTAAAAATGCCAATAAAGTAAATAAAAAACTTGTATTACCTGACGAATATATAGCACTTGAATTTAAAGG -TATGAGCGGAGCAGGTGCTATAGAAGTAGATAAAAATCTGACCTTCAGGATTCGCGGATTAAATAACATTCATGT -CCTTGACTGCTTTGTTAATGTTGATCTGGAACCAGCTGATGGCGTTGTCGACTTTGGTAAAATAAATTCCCGAAC -AATTAAAAATACCAGCGTGAGTGAGACGTTTAGCGTAGTCATGACCAAAGATCCGGGTGCGGCCTGTACTGAGCA -GTTTAATATTTTAGGGAGTTTTTTCACTACGGATATTTTGAGTGATTATAGCCATCTGGATATAGGTAATGGTCT -GCTATTGAAGATATTTCATAACGATGGAACAGCAACGGAATTTAACCGCTTCTCACAATTTGCTTCTTTTTCATC -GTCTAGTGCGCCTTCGGTCACCGCACCATTCAGGGCAGAACTGAGTGCGAACCCGGCAGAAACGGTTGTTGAGGG -ACCGTTTAGTAAAGACGTAATCCTGAAAATCACCTATAACTAGTATCTAATACAAACACTAAAACGGGCCATCAG -GCCCGTTATATCAGTGCTCTAACTCCAGCTCTCTTGCCTGCATCATCTGTTGACAATACCAGGCATAACGTGCGC -AAAACCAGGTTCTATGTTCTTCATCCATGTTACCAGTAACGGCCAGAATATCGACCGGGCGACCTTCTGCGTGCA -TTCTGGCAAAACTACGCGCCAGGAAATCGAAATTATTTAAAGAATTAAGACTATGATCCATAAGCACATCCTCCG -GTTATCGCATACCTTTTAAGGCCATATGCTTTTTCTGATTTCAGTATTCCCCAATCAGTGTAGTGCCTTTAAACA -TAACGTGCGTAAATATATTGTCCCCGATCACACTTTTTAGTGAAAAATAAAAAACCATATTAAAAGACTTTCTCT -TCCAGAACTTCTCTAACCTGTGTTATTATTAACACAGATAAATGTAAGCAAGGAAACTATTACAAAGTAAATATT -GCGTCACTAAATGGACATTGGAGTGATATATGATTTTATTCGCCGACTATAACACCCCTTATCTTTTCGCTATTT -CCTTTGTACTGTTGATCGGCCTGTTAGAAATTTTTGCGCTTATCTGCGGTCACATGCTCTCCGGTGCTCTTGATG -CACATCTTGACCATTATGATTCTATAACCACAGGTCATATTAGCCAGGCACTTCATTATCTCAATATTGGAAGAT -TGCCAGCTCTCGTCGTTCTCTGCTTACTGGCTGGTTTTTTTGGTCTTATTGGCATCCTGTTGCAGCATGCCTGCA -TCATGGTCTGGCAATCACCACTGTCGAACCTGTTCGTGGTTCCTGTCAGTTTACTGTTTACGATTATTGCGGTGC -ATTATACCGGTAAAATAGTTGCGCCCTGGATTCCACGCGACCATAGTTCAGCTATTACAGAAGAAGAATATATTG -GTAGCATGGCGTTAATTACCGGTCATCAAGCCACTTCAGGTAATCCCTGCGAAGGAAAACTCACCGATCAATTTG -GCCAAATACATTATTTACTACTGGAGCCTGAAGAAGGAAAAATTTTCACTAAAGGAGACAAAGTGTTAATTATTT -GCCGACTTTCTGCAACGCGATATTTGGCGGAAAATAATCCCTGGCCCCAAATATTGTAATTTATTAATCAAAAGG -AAATTTAATAATGGATGATATTGTTAATTCTGTGCCCTCCTGGATGTTTACCGCAATTATTGCCGTATGCATTCT -GTTTATTATTGGAATTATTTTCGCCAGGCTCTATCGTCGCGCTTCGGCAGAGCAAGCTTTTGTTCGTACTGGTTT -AGGTGGGCAAAAAGTGGTAATGAGCGGTGGCGCAATCGTGATGCCGATCTTTCATGAAATAATCCCCATCAATAT -GAATACTCTGAAGCTGGAAGTCAGCCGCTCAACCATTGATAGCCTGATTACGAAAGATCGTATGCGCGTCGATGT -AGTAGTCGCTTTCTTTGTGCGGGTAAAACCTTCAGTAGAAGGGATTGCCACCGCTGCCCAGACGCTGGGGCAACG -CACCCTGTCGCCTGAAGACTTACGTATGTTGGTTGAAGATAAATTTGTCGATGCCCTCCGTGCAACAGCTGCGCA -AATGACCATGCATGAGTTACAGGATACCCGCGAGAACTTTGTGCAGGGGGTGCAAAATACAGTGGCAGAAGACCT -GTCGAAAAACGGTCTGGAACTGGAGAGCGTTTCACTTACCAACTTTAACCAGACCTCGAAAGAACATTTCAATCC -GAACAATGCCTTTGACGCCGAAGGTTTAACCAAACTGACTCAGGAAACAGAGCGCCGTCGCCGCGAACGTAACGA -AGTTGAACAGGATGTAGAAGTTGCGGTGCGTGAAAAAAATCGCGATGCGCTATCGCGCAAGCTGGAGATTGAACA -GCAAGAAGCGTTTATGACGCTTGAGCAGGAGCAGCAGGTTAAAACCCGTACTGCCGAACAGAATGCACGTATTGC -GGCTTTTGAAGCTGAACGTCGTCGTGAAGCAGAGCAGACACGAATTCTGGCTGAACGACAGATTCAGGAAACAGA -AATCGACCGCGAACAGGCCGTCCGCTCAAGAAAGGTTGAAGCTGAACGTGAAGTTCGCATTAAAGAGATCGAACA -GCAGCAGGTCACCGAAATCGCTAACCAGACGAAATCGATCGCTATTGCCGCCAAATCGGAACAACAGTCCCAGGC -AGAAGCGCGTGCTAATCTCGCACTTGCAGAAGCGGTAAGCGCCCAACAAAACGTAGAAACCACTCGCCAGACTGC -CGAAGCCGATCGTGCTAAACAAGTTGCCCTAATCGCTGCCGCGCAGGATGCAGAAACCAAAGCGGTTGAACTGAC -CGTGCGGGCGAAAGCAGAAAAAGAAGCCGCAGAGATGCAGGCGGCGGCTATCGTTGAGTTAGCCGAAGCTACACG -TAAAAAGGGTCTGGCGGAAGCAGAAGCACAACGTGCGCTGAACGATGCTATCAACGTACTTTCTGATGAACAAAC -CAGCCTTAAATTCAAACTGGCCTTGTTGCAGGCGCTGCCTGCGGTAATAGAGAAATCCGTTGAGCCGATGAAGTC -AATCGACGGTATCAAGATTATTCAGGTCGATGGTCTGAATCGTGGCGGCGCTGCGGGTGATGCAAACACGGGTAA -TGTGGGGGGCGGAAACCTGGCGGAACAAGCATTATCAGCCGCTCTCTCTTACCGCACACAGGCACCGCTGATTGA -CTCCTTGCTCAATGAAATTGGCGTTTCAGGCGGCTCACTGGCGGCATTGACTTCACCCTTAACCTCAACAACTCC -CGTCGAAGAAAAAGCAGAGTAAACCCTCTTCCAGGAATAATCCCTGGCCCAAAAAGCCGGGGATTTTTTATATCT -GCGTTCCGCTAAAAAGTGCAAATGATCAGGTTGTTGCAGCATTTTGCGTGACGGCTCGGGGAAGGCAAAACTGCA -TCAGAGAAAGCATTGCGTGGGGTCTGGCGCTCATCAACAATCGGGGAGTCAGCAGGGGGCTGAAACGGGAAAGCC -CCTCCCGAAGAAGGGGGCCTTACAGAAGGAAAGGGTTATGATGAAGCTCGTCATCATACTGATTGTGTTGTTACT -CGTAAGTTTCGCAGCTTATTAACAGCCAATCAGAGGGGGGAGAAATCCTCCCTCACCCTTGTTCCTTTACTTTAG -GTTGAAAAAAAATCAGCGTCAAGAAGGTTTCATTAACACATATCCCTGGCCCAAAAAGCCGGGGATTTTTTATAT -CTGCGTTCCGCTAAAAGGTGCAAATGCTCAGGACGTTGCAGCGTTTTGCGTGACCGCTCGGGGAAGGCAAAATTG -CCTCTGGGAAAGCATTGCGCGGGGTCCGGCGCTCATCAACAATCGGGGGGCAGCAAGGGGCTGAAACGGGAAAGC -CCCTCCCGAAGAAGGGGCCTTGTATAAGGAAAGGGTTATGATGAAGCTCGTCATCATACTGGTTGTGTTGTTACT -GTTAAGTTTCCCGACTTACTAACAACTCATCAGAGGGGGGAGAAATCCTCCCTTACCCTTGTTCCTTTACTCTAG -GTTGAAAAAACAACAGCGTCAATAGGCCTGCCATGTACGAAGCGAGATCTGTGAACCGCTTTCCGGTTAGCCTTT -TTTATCCTGTTGGATCTTCTTGATGATGTTGGTCGTCGAGCAACCGTCTTCAAAGTTGAGCACCAACACTTCGCC -ACCGTTGGCCCAGACTTCTTTACTCCCGGCAATCTCTTCTGGTTTATAGTCGCCGCCTTTCACCAGCAGATCTGG -CAAGATCCCGGCGATCAAGCGCTGCGGCGTGTCCTCTTCAAACGACACTACCCAGTCGACCGCTTCCAGTGCGCC -CAGCACAATCATACGCTGTTCGAGTGGGTTTACCGGGCGGGAATCCCCTTTCAGCCGTTTGGTGGAGGCATCGCT -GTTGACGGCAACAATCAAGCGGTCACCCAGCTTGCGGGCATTTGCCAGATAAGAGACGTGCCCGGCGTGCAGGAT -GTCAAAGACACCGTTGGTCATCACCACTTTTTCACCACGTTTACGCGCTGCCGCTACGGCCAGCTTCAGTTCCTC -TTCGGTCATCACGCCAAAGCCTGTATCTGCACGTCCACGTACAGCATTTTCCAGCTCGATCGGCGAAACCGTGGA -GGTTCCCAGTTTGCCGACCACCACGCCAGCCGCCGCATTGGCAAAGAAGCAGGCTTCTTCCAGCGAATTACCCGC -TGCCAGCGTTGCCGCCAGGACGCCAATCACCGTGTCGCCCGCACCGGTAACGTCATACACTTCCTGCGCTTGGGT -TGGCATATGCAGCGGCGCTTTACCCGGTTGCAGCAGCGACATACCCTGTTCGGAACGGGTCACTAACAGAGCCGA -GAGTTCGTAATCGGCAATCAGTTTCATGCCGCGCTCAACAATCTCTTCTTCGGTCTTACATTTACCGACAACAGC -TTCAAATTCCGAGAGATTCGGCGTTAACAGCGTAGCGCCGCGGTAGCGCTCAAAATCGGTACCTTTTGGATCAAT -CAGCACCGGAACACCCGCTTTACGCGCCAGTTGGATCATCTGCTGTACGCTTGCCAGCGCACCTTTGGCGTAGTC -AGAAAGCACCAGCGCGCCAATCGAACTCAGCGCCTGATTAATCCGCTCGTGCAGCGGCTGCGGATCAACACCTTC -GAAACCTTCTTCAAAATCCAGACGGATCAGCTGTTGGTTGCGGGAAAGTACCCGTAATTTGGTAATGGTCGGATG -CGTCGGTACAGAAACGAAGTCGCATTTGACGTTGACGTCGGCCAGAGATTTACTCAGCGCGCGCGCTGCATCGTC -AATGCCCGTCAACCCGACCAGGCGTGCATTAGCACCGAGAGAAGCGATATTCATCGCCACGTTAGCCGCGCCGCC -CGGACGTTCTTCGATGGTATTCACTTTAACCACGGGCACCGGCGCTTCCGGCGAGATACGACTGGTGGGGCCGTA -CCAGTAACGATCCAGCATCACATCACCAACCACCATCACTCCTGCACGTTCAAACTCTGGCAGCGTTACTTTCAT -TCCTGTCTCCTGAGAGATTCAAAATTTGCGCGCGATAATACCATACTTCATTCTTCCACCAGCCACTTCTGCCAG -CTTGCCCGCACCAGTTCACGCTCTGCGGTGAAGCAATCCTCCGACACATGGCCCGGCAATTCCTGTAATGCCAGA -TGATGAAGTTCATCGCGAAGCGTAGTGTAAGCACGGGTCAGCGCCATCGCTTCCTGCTCTTCCATAATGTCGTTT -TGCGCCAGTAGTTCCAGAATACGCACGTTGTCTGACCAGCGCGTTAACTTCGGTTTTTCATGAGCGTAGCGCAAC -ACCAGATATTGGGTAATAAATTCGATATCGGTAATTCCCCCTTCATCAGCTTTGATATCAAAGCGATCGCGATGT -TTATTGCCGAGATGAGCGCGCATTTTCTCGCGCATTTCCCGCACTTCCGTTTGCAGAGTTTTACCTTCACGCGGC -AGCGTCATAATCTCGCGACGCACTGCGTCAAAGTGCGCGGTGAGCTGCGGATCGCCGTACACTACACGCGCACGC -ACCAGCGCCTGATGTTCCCACGTCCAGGCCTCGTTTTTCTGATAATCGGCAAATGCTTCTGCGGATGTCACCAGC -ATTCCCGCCGCCCCGGACGGACGCAGTCGAGCATCCACTTCATACAAAATGCCGGAAGAGGTACGCGTACTGAAC -AGATGCATAATGCGTTGCGCCAGACGCAGATAAAACTGCCGCCCGTCGATTTCCCGCTCACCGTCAGTCATCGCA -TCCATTGGGCAATCATGGAGGAAGATAAGGTCAAGATCGGAACTGTAGCCTAACTCCCAGCCGCCCAGCTTGCCG -TAGCCGACCACCGCAAAACCACGCCCTTCGCGTTCGTTCAGGTGATTCGGCTTACCGTAGCGGGCAACCATTTGA -ACCCACGCCTGCTGAACGACGGCATCTATCATGGCTTCCGCCAGCCAGGTTAAGTGATCGCTCACTTTCATCACC -GGTAGCGTACCGGCGATATCCGCTGCGGCGATGCGTAACAGCTGCGCCTGTTTGAACTGACGCAGCGCCTCAAGC -TGTTGCTCTTCGTCATCTTCCGGCACGCGCAGCAAATACTGGCGCAACTCATCGCGGTAGGCATCGGTCGCCGTC -GGCTGGTAAAGGGTGTTTGGATCGAGCAATTCATCCAGCAATAATGGATAACGCGCCAGCTGGCTGGCAATCATC -GGCGACGCGGCACACAGAGAAATCAAATGTTTAAGCGCCGCGGGGAATTCACTGAGCAATTCTAAATAGGTGGTG -CGGGTAACAATCCCCACCAGCAAGGCGGTAATGCGCGACAGCGTAACGGCAGCGTCTTCACGCGCACAGACATCA -CTTAGCAGATGCGGCATCAGATGGTCGAGCACCTGACGTCCTCGCGGCCCGATGGTGCGCTTATCCAGCTCTTTG -CGGAAATCGGCAATCAGCGTTAGCACCTGTTTGCGATCATCCTCGCTAAGATGCGCCAGCACTGGCGTAGTGTCA -TCTTCCTGCAACGCATCCTGCCACAGCTCACGCCACTGTTCCGACAGCGACTCTTCCTGAGTTTCACTTTCATCG -TCGCCAATCAATTCATTAAACACCCGGCGCACATTGGTCATATGTGCGGTCAGCGCCCCGGTCAGTTGCGGCCAG -TCAGCAAAGTCCATCGCCCACGCCAGCCGCGCACGATTAAGCTCATCAGAAGGAAGCGTCTGGGTTTGTTCGTCG -TTAATGCTTTGCAGCAGGTTTTCCAGACGCCGCAGGAACAGATACGCCACTCGCAATTGTTCAGCATCGTTTTCA -GAAAGCAGATGCAGCTCGGCAATGGCGCTGAGCGTTGGCAGTAAAGAGCGCGATTGCAGCGACGGTTCGCGTCCG -CCGCGAATGAGCTGGAACACCTGAACGATAAATTCAATTTCGCGAATGCCGCCTGCGCCGAGTTTGATATTGTCG -GTCAAACCACGTCGACGCACTTCACGGGCAATCATCCCTTTCATGTTGCGCAGCGACTGAATCACGCTGAAATCG -ATGTAACGACGGAAAACAAACGGGCGCAGCATCGCACGCAACTCGTTAGCATAGACGCCTTCGCTATCGCCCATA -ATCCGCGCCTTGACCATCGCGTAACGCTCCCAGTCGCGCCCCTGCTCCTGGTAATAATCTTCCAACGCGGCAAAG -CTCAGCACCAGCGGGCCACTTTCGCCAAACGGACGCAGCCGCATATCCACGCGATAGACGAAGCCATCCTGCGTT -GGTTGATCCAGCACTTTAATCAGCCGCTGCCCCATGCGGGTAAAAAACTGCGCGTTATCCAGTTCCCGGCGTCCA -CCCTGCGTACAACCATGTTCCGGCCAGGCAAAAATCAGATCGATATCAGAGGAGAAATTCAGCTCCCCACCGCCC -AGCTTACCCATGCCTAAAATCAGCAGCGGTTGCGCTTCGCCCTGCGCATTGCACGGCGTTCCCCACTCGCGGCAG -CAGGCGTCATACAGCCAGTCACGCGCCGCAACAATCAGCGTCTCCGCCAGATAGCTGAGCTGCTGCAATATGCTC -TCTTCAGTAACCAGTGCCAGCGTTTGCGCCCAGGCGATGCGCACCATAATGCGCCGCCGGAATAGCCGCAGCTCG -CGCATTAACCCGGCTTCGTCACTCACATTACAGAGCGCCTCCTGCAACCATGCCGCGTAATGCTGCCATTCGTCG -GCCTGCGGCGGTTGGCTTTCCAGTTCCGTCAGCCACTCTGGATGCGCAATCACGCTGTCCTGCACAAAATCACTA -AAAGTAAGTACTGACTTCGCCTGTGCGCTAAGTGATTCCTCGGCTAAAGGCTCTGGCAGCCGCTCAACAACGGTC -TGCCAGTACTGCTGTAACGGTGAAGAGAGCGGCTTCATAAGCGATTTTATCCTTGCCTGATTAACGTTTTCCGCT -GTGCAACCAGAACGGTTCCTGATTGTTTGCCTCATTACGGAAATGTTCAATTTCGATGCGTTGCCCGGTCGCAAT -AGCGTGATGCAGCCCCTGCCAGTTCTCCAGCCAGGCTTGCGCGACGACAGGATCATAGTAACCCGCCAGCAACAG -TATTGAGTCAATATCACGCGTCAGGCGTGGCAACTGGTCACGGTAGCGATCGCCTAACGGCTGGCAGAAAACGCT -TTTCAGTTCAGCGGCATGGCGGGAAAGATGGATATCGGCAAAGCGTTTGAAGGAGTCGCTGATTTTGCCCTGCGC -TTTGGCATCTAAAAATGGCTGCCATGCTTTGCTTACCAACCATTCGGTCAACGCCAGCTTCGCCATTGCCGTTTC -GGTAGAGTAGACCGCCGTCACGGCAGACACCGCAGAAGCAATGGTCGCCTCGCATTGAGTCAGCAGATCACGTAA -GTGAGTGCTCGCTTTACGCGGCACAATACCACCGAACAGCATCAGCGTATGACGGACCAGGCTAATGGCTGCCAG -CACCTGTTCTTTCGCCGCATCGTTGCCGCGTACCCACAGTTCTTCATGATACTGCCATTGCGCTAACGCCAGCTC -GAGCGCCGCTTCCAGCCCCTGTTCCACATCGGCTTTTGCCGCAACATGCAAAATGGTGGTCGGTTTGATTTCACG -CGCCGGATTGCCCTGCGCCAGATGATAGCCACGCGCCGCTTTGCTCAGGCTGCCCTGGCGTAATCCGGTTTGCGA -TACCAGTTGGTTCGCCAGTTTCAGCACCGCGCGCGTGTCGCCGCTAAGCAGTTCCAGTTCCAGCTCACAGATAGG -TTCAGCAAATTCACCCGCTTTCACTTCCCCCTGGTCGAGGGCGATTTCAATTTGGCTACCATCGACCGCCACCAG -CCATTTTTCGCGATAAAAATCGGTGCTGAACAGCGGCTGCACGCGGGAGGCGAGATCGGCGGGCAATTCGCCGTT -CGGCCAGACTTCCGTCGGTAACTGCGCCAGGTCGAGCGTCGGTTCGCTCAACGCCACGTTATATTCCGGGCGCTG -ATGTAAGCCGCCTGTCACTCTTCCTGCAACTTTCATGGTCATCTCATAGCGACCGTTTTCGCCACGAATACGTAA -GCCCATATCGTGCCCACGCAGCCAGTTATCCGGCGTTTCGTAGTAAATATTCAGCAACTGCACGGGGTCATGGTG -CTCGCCGCCCAGCGTATTGAGATGGTCACGCAACGCCTCAACGGCACTGTGATTAACAATAAACTTTAATTCGAT -TTCCTGAGCCATGGCCTTTACTTATCGGTTATGTCACATAAGTGACGATGAACGGCGAACTTAATGCGATCTTTT -TTGTCAGTAGATAGTATTTTGCGCCAAATTGCCATGCAACGGGCAATTTGACGGGCGTAAAAGTTTGAAGCAGTG -GCAAGACCTGACACAGAGGATTCCGATTGATGTCGAATGCTTTGCGTAGCGACACTGATGCCACTACTATCGTTC -CACTTTCCATGACAATAACGACAGCCTGATGCCAAAATTACGCCTGATCGGATTAACTTTACTCGCACTTAGCGC -GACTGCCGTCTCACACGCTGAAGAAACGCGCTATGTTTCCGACGAACTGAATACCTGGGTCCGCAGCGGTCCGGG -AGATCATTATCGCCTCGTGGGCACGGTTAACGCCGGCGAGGAAGTGACCTTATTACAAACTGACGCCAACACCAA -TTATGCCCAGGTGAAAGACAGCTCTGGCCGTACCGCCTGGATCCCGTTGAAACAACTTAGCACTGAGCCAAGCCT -GCGCTCCCGTGTGCCAGATCTGGAAAATCAGGTCAAAACCCTGACCGATAAACTCACCAATATCGATAACACCTG -GAATCAGCGCACCGCAGAAATGCAGCAAAAAGTGGCGCAGAGCGACAGCGTGATCAACGGGTTAAAAGAAGAAAA -TCAGAAACTGAAAAACGAGCTGATTGTCGCGCAGAAAAAGGTCGATGCCGCCAGCGTACAGCTGGATGACAAACA -GCGCACCATCATCATGCAATGGTTTATGTATGGCGGTGGCGTGCTGGGGCTTGGCTTGCTGCTCGGTCTGGTACT -GCCGCACCTGATCCCAAGCCGCAAACGCAAAGATCGCTGGATGAACTAAATCGCCTTCTTCGTTGCACTGTCTTA -TTATTAGGAATTGTGTATTTGACGAAGGGATGATGGCGTGAAGATTTATCTGGTCGGTGGTGCTGTTCGGGATGC -ATTGTTAGGGCTACCGGTCAAAGACAGAGATTGGGTGGTGGTCGGCAGTACGCCACAGGAGATGCTCGACGCGGG -CTACCAGCAGGTAGGCCGCGATTTTCCTGTGTTTCTGCATCCGCAAACGCATGAAGAGTATGCGCTGGCACGTAC -CGAACGGAAATCCGGTTCCGGTTACACCGGTTTTACTTGCTATGCCGCACCGGATGTCACGCTGGAAGATGATCT -TAAGCGTCGCGATCTGACCATTAATGCGCTGGCCCAGGACGATAACGGCGAGATTATCGACCCGTACAACGGTCT -GGGCGATCTGCAAAATCGTCTGTTGCGCCATGTTTCCCCCGCTTTTGGCGAAGATCCGTTACGCGTATTGCGCGT -GGCGCGTTTTGCTGCGCGTTATGCCCACCTCGGTTTTCGTATTGCCGATGAAACTCTGGCGTTGATGCGCGAGAT -GACCCATGCGGGTGAACTGGAACACCTGACGCCTGAACGGGTATGGAAAGAGACGGAAAGCGCCCTCACCACCCG -CAATCCACAGGTGTTCTTCCAGGTACTGCGCGATTGCGGCGCACTGCGCGTTTTATTCCCGGAAATTGACGCACT -GTTTGGCGTTCCGGCCCCTGCCAAGTGGCATCCGGAAATCGATACGGGTATTCATACCTTAATGACGCTCTCAAT -GGCGGCGATGCTGAGTCCGCAGGTCGATGTCCGTTTCGCAACTTTATGCCACGATCTCGGTAAAGGGCTGACGCC -GCCAGAACTCTGGCCGCGTCATCATGGTCATGGCCCGGCGGGTGTTAAGTTAGTGGAACAACTATGCCAGCGTCT -GCGCGTGCCAAATGAAATTCGCGATTTAGCCAGACTGGTGGCTGAGTTTCACGATCTCATCCACACCTTCCCAAT -GCTGAACCCAAAAACCATCGTCAAATTATTTGATTCCATCGATGCCTGGCGTAAACCGCAGCGTGTCGAGCAACT -GGCGCTGACCAGCGAGGCTGACGTGCGCGGCAGAACCGGTTTTGAATCAGCGGACTACCCGCAAGGCCGCTGGTT -GCGCGAAGCCTGGGAAGTGGCGCAGTCAGTGCCGACAAAAGCCGTCGTTGAAGCGGGATTTAAAGGTGTGGAGAT -TCGCGAGGAGCTGACCCGACGGCGGATTGCGGCGGTAGCCAGCTGGAAGGAACAACGTTGCCCAAAGCCTGAATG -AGTATTGGGCATTTTGCCGGATGCGGCGTAAACGCCTTATCCGGCTACATGTCAACGACAGTTGTAGGCCTGATA -AGACGCGCAAGCGTCGCATCAGGCGTTGATTGCCGGATGCGGCGTGAACGCCTTATTCGGCCTACGCAATCGTTG -ACAACGCCAAGCATCCGACACTATTCCTCAATTAAAAGAACACGACATACACCGCAGCCGCCACAATAAAGCGAT -AAATGGCGAACGGGATAAACGAAATGCGCTTAATCAATTGCAGGAAGGTTTTAATCGCTATCAGCGCCACCACAA -AAGCGGTGATAAACCCAACGGCAAACATCGGGATATCGCCGCTTGTCAGGAAGCCCCAGCTTTTGTAGAGATCGA -GCGCCGTTGCGCCCATCATCATCGGCACCGCCAGCAGGAACGAAAACTCGGAAGCAGCGTAACGGCTCACCCCCA -TCAGCATCCCACCTGAAATGGTCGCCCCGGAACGGGAGAAACCCGGCCACAGCGCCAGACACTGGAAACAGCCAA -TCATAAATGCCTGACGATAGGTCATATCATCAAGACCCGGCGCACGCGGCTCTTTCGGCTTCAGGCATTCGGCGG -CAATCAGCAACAAACCGCCAACGACCAGCGCATACATCACATTTATCGGGTTAAACAATGACTTAATCGTGTCGT -GGAACAACAGCCCCAATACCACCGCCGGAATCATCCCCAGCAAAATGTGGATCAGCGTTAAACGACCTTTGCTTT -CACCTTCGTGCTGCAACGGGCGGCCAAAGTGGATGCCAATCAGGCCAAACAGACGCCGCCAGAACATCACTACTA -CCGCCAGAATTGATCCTAACTGGATCACAACTTCAAAGGTTTTCGCCGTGTCGCCCTCAAACCCCAACAAGTGAC -CGACAATAATCATATGGCCCGTGCTGGATACCGGCAGAAATTCTGTCAATCCTTCGACCACACCCAATATTGCCG -CTATCAGCAGCGAGTGCATATCGCTCATCAATAAACCCCTAAATTATTAAAATGTACCGCTTGTCCGAACTACTG -CGTATGACCAGGTTATAACCGTTTGGTTTAACAGCTGTAAAATTAATTATTTTCTTTCAGATTATTGCCACGCTC -AATGATTACGCCAACATTCGCCGCCCGCGCCACTGCGCCTGGCTTGCTGAGTTTGATACGCACCCACGGCGAGTT -GAAGCGTGCTAACAGCAGCTCCGCCACCTCTTCAGCCACGCGTTCCACCAGCGCAAAACGCGCCCCCTCGACGTG -GCTGACCACCGTTTCTGCAATGTCAGCGTAACTGAGGCAATCCGCCACATCATCACTTTTCGCCGCTTTACGGTT -ATCCCACGCCATTTCGATATCGAACACTAACTTCTGTTCGATGGTCTGTTCCCAGTCGTAAACACCAATAGTGGT -GATTACCGAAAGTTGCTCTATAAATACAATATCCATCACGTCCTGCCTGCTTTTTGGCTAACCGGATACCACTTC -CGGCGAAATGTGCGTATTATCCACAGATTCATCGTTGAACACGAATTTTCAAAACGGAACAGCTTATGAGTGCAA -TCGCGCCTGGAATGATCCTCATCGCGTACCTCTGCGGCTCCATTTCCAGTGCCATTCTGGTTTGCCGCTTGTGTG -GGCTGCCCGATCCGCGAACCAGCGGCTCCGGCAATCCAGGCGCAACCAATGTGTTACGTATCGGTGGCAAGGGAG -CAGCCGTAGCAGTACTGATTTTCGACGTTCTGAAAGGAATGTTGCCCGTCTGGGGCGCGTATGAATTAGGTGTCA -GCCCCTTCTGGCTAGGCTTAATTGCCATCGCCGCCTGTCTTGGACACATCTGGCCCGTTTTCTTCGGATTTAAAG -GAGGAAAAGGCGTTGCTACCGCTTTTGGTGCCATCGCACCCATTGGCTGGGATCTCACCGGAGTAATGGCGGGAA -CCTGGTTACTGACCGTGCTATTGAGCGGATACTCGTCGCTGGGAGCGATTGTCAGTGCACTGATTGCTCCGTTTT -ATGTCTGGTGGTTTAAGCCACAATTCACCTTCCCGGTTTCGATGCTCTCTTGCCTGATCCTGCTGCGTCATCATG -ACAACATCCAACGTCTGTGGCGTCGTCAGGAGACAAAAATCTGGACGAAATTCAAAAGAAAGCGCGAAAAGGATC -CCGAGTGATTTCTGGTGGATCTACATGACCTGATAGCCTTCATCGGGCTTGCCCAGCCGTTGCTGGCACCATGCC -GCCAGAAATTCCACGCAGACACGTAATTTCATGCTGCGATAGAGCGGCTCCCGGTAAACAGCCCAGATATTGGCG -CTTTGTGCATACTCTGGCAATACTTGCACCAGTTTGCCACTCTCCAGAAACGGCAACACATCCCACTCGGAACGC -AGCATAATCCCTTTGCCCTCCAGCGCCCATTGCAGCACAATCTCGCCGCTATTGGAGGAAAGATGCCCGCTTACC -TTCACCGATTTTTTCTCCTGACCGTTCCCCAACTCCCATATTCCATGGGTCATATCGCGCTCTTTGGTCACCAGA -CAGTCATGACGACTTAATTCCTGTAGGGATTGTGGCTGCGGATATTTTTGCAGATACTCAGGTGCTGCGCATAAT -ATTCTTTTATTTTTTGTCAAAAGATGCGCAATATAATAATCAGGAATTTCGTCATTAATACGAATATCCAGATCA -ATATTATCCTGCACTAAATCAATTTGCCGATCGAACAATTCAAAATGCACCTGTAACTCAGGATAATTGCGCATC -AGTTCGGTAATAGCTGGCGCAATATGGCTGCGCCCAAAACCAAAACTGCAACCAATACGAATCATCCCCTCCGGG -CGCGTTTTGATTTGCGTGACGTCATCGACCAGTCGCTGATATTGGGTGAGGATTTCCAACGCATGTTCGTAACAA -CGTTGGCCACTTTCAGTCAGCGCCACGCCGCGAGCGGAGCGGTTCAGCAGCGTTGTTGCCAGCGTATTTTCAAGG -ATTTGGATCCGCTTGGTGACAAATGCAGGCGTCTGCCCAAGCGTCGCCGCTGCGGCGCTAAAACTCCCGCTGTGA -ACGATTTCTACCAGTACCTGCAAGTCTTTGGCTAAAGGCCAGCTATTCAGCATCGTTAATTATCCGCAGTTGTGA -TAAGCGCAGTGTATTTCGCAAAACATTGCCATTCCCTGCTCTGGCGCAATATTCATTCTTATTTTCGCGTTGATT -CACGAACTGTTAATTACATATTCACGGTGGCAAAAAATATAAAACCACATTTTTAGTGGTAGTTTGTGGCGGTGA -ATTTTTCCAGACAAATACAAAAACTGGAGTTGCCATGATGAGCGAAAGTAATAAGCAACAGGCAGTGAATAAGTT -GACAGAGATTGTCGCTAACTTTACCGCCATGATTTCTACCCGAATGCCTGATGACGTGGTGGATAAACTAAAACA -GCTAAAGGATGCCGAAACGTCGTCGATGGGGAAAATTATCTACCATACGATGTTCGACAACATGCAAAAAGCGAT -TGACCTGAATCGTCCTGCCTGTCAGGACACCGGGGAGATTATGTTCTTCGTTAAAGTCGGTTCCCGCTTCCCACT -GCTTGGCGAGCTGCAAAGCATACTCAAACAAGCCGTGGAAGAGGCAACCGTCAAAGCGCCACTACGTCACAATGC -GGTAGAAATTTTTGACGAAGTAAACACCGGCAAAAATACCGGTAGCGGCGTACCGTGGGTCACCTGGGACATCAT -CCCCGACAATGACGATGCGGAAATCGAAGTTTACATGGCAGGCGGCGGCTGCACGCTACCTGGCCGCTCGAAAGT -GTTAATGCCGTCAGAAGGCTACGAAGGCGTGGTGAAATTCGTCTTCGAAAATATCTCCACCCTCGCCGTAAACGC -CTGTCCACCGGTACTGGTGGGCGTGGGCATCGCCACCTCGGTGGAAACCGCCGCCGTACTCTCGCGTAAAGCCAT -TTTGCGCCCGATTGGCAGCCGCCATCCCAATCCAAAAGCGGCAGAACTGGAGCTACGCCTGGAAGAAGGACTCAA -CCGTCTGGGGATTGGTCCACAAGGGCTGACCGGCAACAGTTCAGTGATGGGCGTACATATCGAATCTGCCGCCCG -CCATCCGTCAACCATCGGCGTTGCTGTCTCTACCGGCTGCTGGGCGCATCGTCGCGGCACGCTGCTGGTTCATGC -CGATCTCACCTTTGAAAATCTGTCTCACACCCGGAGCGCGTTATGAAAAAGATCCTGACAACCCCGATCAAAGCT -GAAGATCTGCAAGATATTCGCGTCGGCGATGTGATCTACCTGACCGGTACGCTGGTGACCTGCCGCGACGTTTGT -CACCGCCGTTTGATCGAACTGAAACGTCCGATCCCTTACGATCTCAACGGCAAAGCGATTTTCCACGCTGGCCCC -ATCGTGCGCAAAAACGGCGACAAATGGGAGATGGTCTCCGTCGGCCCGACAACCAGTATGCGTATGGAAAGTTTT -GAACGTGAATTTATTGAGCAGACCGGCGTGAAACTGGTGGTTGGCAAAGGTGGTATGGGGCCGCTGACCGAAGAA -GGCTGCCAGAAATTCAAGGCGCTACATGTGATTTTCCCGGCAGGCTGCGCGGTGCTGGCGGCAACCCAGGTGGAA -GAGATTGAAGAAGTGCACTGGACAGAGCTCGGAATGCCGGAGTCACTGTGGGTCTGCCGGGTCAAAGAGTTCGGC -CCGCTGATTGTCTCTATTGATACCCACGGCAACAACCTGATAGCCGAAAACAAAAAGCTGTTCGCCGAACGCCGC -GATCCCATCGTGGAAGAGATCTGCGAGCACGTCCATTACATCAAATAACCCTCCCGGAGAGGCTCACCCCTCTCC -TTTTTCGCAGGCATAACACGATGAAACCTTCCACTGAATGGTGGCGATATCTTGCGCCGCTGGCGGTCATCGCCA -TTATTGCTCTACTTCCGGTTCCCGCAGGGCTGGAGAACCATACCTGGCTCTACTTTGCCGTTTTTACTGGCGTGA -TCGTTGGACTGATCCTCGAACCCGTGCCGGGTGCCGTGGTGGCGATGGTGGGTATATCCATCATCGCCATACTCT -CTCCCTGGCTGCTGTTCAGCCCGGAGCAGCTCGCTCAGCCAGGCTTTAAATTCACTGCAAAATCCCTCTCGTGGG -CCGTTTCCGGTTTTTCTAATTCGGTTATCTGGCTGATTTTCGCCGCCTTTATGTTTGGCACAGGCTATGAAAAAA -CCGGGCTTGGACGCCGCATTGCGCTGATTCTGGTGAAAAAGATGGGACATCGCACGCTGTTTCTCGGCTATGCGG -TGATGTTCTCCGAGCTGATCCTCGCACCTGTAACACCGTCCAACTCGGCGCGTGGTGCGGGGATTATCTATCCCA -TCATCCGTAACCTGCCACCGCTCTATCAATCACAACCAAACGACAGCAGTTCGCGCAGCATTGGCTCGTACATCA -TGTGGATGGGGATTGTTGCCGACTGCGTGACCAGCGCCATTTTCTTGACGGCGATGGCACCAAACTTGCTGTTAA -TTGGACTGATGAAAAGCGCATCTCACGCCACGCTGAGTTGGGGCGACTGGTTCCTCGGGATGTTGCCGCTCAGCA -TTTTACTGGTTCTGCTGGTTCCCTGGCTGGCTTACGTGCTGTACCCGCCGGTACTGAAGTCTGGCGATCAGGTGC -CGCGCTGGGCAGAGACGGAACTGCAGGCAATGGGCCCGCTCTGTTCGCGTGAAAAACGGATGCTGGGGCTGATGG -TAGGCGCGCTGGTGCTGTGGATTTTCGGCGGTGATTATATCGATGCCGCGATGGTCGGTTACAGCGTGGTGGCAC -TGATGCTGCTTCTGCGCATTATCAGTTGGGACGACATTGTCAGTAATAAAGCGGCGTGGAACGTTTTCTTCTGGC -TGGCCTCGCTTATCACCCTCGCCACCGGACTCAACAACACCGGTTTTATTAGCTGGTTTGGCAAACTGTTAGCAG -GCAGCTTAAGCGGTTATTCGCCAACGATGGTGATGGTGGCGTTGATTGTGGTGTTTTATCTACTGCGCTACTTTT -TCGCCAGCGCCACGGCGTATACCTCCGCTCTCGCACCGATGATGATTGCTGCTGCGCTGGCGATGCCGGAAATCC -CGCTGCCGGTGTTCTGCCTGATGGTTGGTGCGGCAATTGGTCTGGGGAGCATTCTTACACCATACGCCACCGGCC -CCAGTCCGATTTACTACGGCAGTGGTTATCTGCCAACGGCGGATTACTGGCGACTGGGGGCGATTTTTGGGCTGA -TATTCCTCGTATTGCTGGTGATTACCGGCTTACTGTGGATGCCCGTGGTGTTGCTTTAAGTGAGGACGGTGCCGG -AAATTGCTCTCCGGCACCCAATAGTTTTACGCAGCCGGTAACTCCGCCAGCGGCCAGCGCGGACGCACGCTAACG -CCGAGATCCGCCGTCGCGCCTGCTTTAAACCGCACCATTCCGGCATAGGCGATCATCGCGCCGTTATCAGTACAA -AATTCCGGACGCGCGTAGAACACTTCGCCGCGGCGTTTTTTCATCATTTCAGCCAGCTTCGCCCGTAACGTACGG -TTAGCACTCACGCCGCCCGCCATGACCAGTCGCTTAAAGCCCGTCTGATCCAGCGCCCGCTTGCACTTAATCATC -AGCGTATCGACCACCGCATCTTCAAAGGCGCGGGCGATATCAGCACGCGTCTGGTCGTCGGTGCCGTTGTCACGA -ATGGTATTTGCCGCGAAGGTTTTCAGGCCGGAGAAGCTGAAATCCAGCCCCGGACGGTCGGTCATCGGACGCGGG -AAGACAAAGCGCCCGGCAGTACCCTGAGCCGCCATTTTCGACAGTAACGGCCCGCCAGGATAATCCAGCCCCAGC -AGCTTCGCGGTTTTATCAAACGCTTCCCCGGCGGCATCATCGATAGACTCGCCGAGCAGCTCGTACTGACCAATG -CCAGTCACGCTGATTAACTGCGTATGACCGCCGGAAACAAGCAGCGCAACAAACGGAAATTCCGGCGGGTTATCT -TCCAGCATCGGCGCTAACAGATGCCCTTCCATATGGTGTACAGGGATCGCCGGAACGTCCCAGGCAAACGCCAGA -GAACGCCCCACGGTCGCGCCAACCAGTAGCGCGCCGACTAATCCAGGGCCTGCGGTATAGGCCACAGCATCAATG -TCTTTTGCCGTTAAACCAGACTCCTTTAGCGCCGCCTGGATCAACGGTACGGTTTTACGCACATGATCGCGGGAG -GCCAGTTCAGGCACGACGCCGCCGTAGTCAGCGTGCAATTTCACCTGACTATACAATTGGTTGGCTAACAAACCT -TTTTCATCGTCGTAAATGGCGATGCCGGTTTCATCGCAGGAAGTTTCAATACCCAGTACACGCATGACTTGTTTT -ACCTCGCTTTATTACCGCGCAGTGTAGGACCAATGCGGGTTGATGTAAAACTTTGTTCGCCCCTGGAGAAAGCCT -CGTGTATACTCCTCACCCTTATAAAAGTCCCTTTCAAAAAAGGCCGCGGTGCTTTACAAAGCAGCAGCAATTGCA -GTAAAATTCCGCACCATTTTGAAATAAGCTGGCGTTGATGCCAGCGGCAAACCGAATTAATCAAAGGTGAGAGGC -ACATGCCGGTAATTAAAGTACGTGAAAACGAGCCGTTCGACGTAGCTCTGCGTCGCTTCAAGCGTTCCTGCGAAA -AAGCAGGTGTTCTGGCGGAAGTTCGTCGTCGTGAGTTCTATGAAAAACCGACTACCGAACGTAAGCGCGCTAAAG -CTTCTGCAGTGAAACGTCACGCGAAGAAACTGGCTCGCGAAAACGCACGCCGCACTCGTCTGTACTAATTCCCCG -AGAGCGTTGCTCTCCGATCAGACCGAGTTGTAGTTGTAAGGCCGTGCTTCCGAAAGGAATGCGCGGCTTATTTTC -GTTTATGAATTGCTAAAAATCGGGGCCTATGGCTGGACGAATCCCACGCGTATTCATTAATGATCTGCTGGCACG -CACTGACATCGTCGATCTGATCGATGCCCGTGTGAAGCTGAAAAAGCAGGGCAAGAATTTCCACGCGTGTTGTCC -ATTCCACAACGAGAAAACCCCGTCCTTCACCGTTAACGGTGAGAAACAGTTTTACCACTGCTTTGGATGTGGCGC -GCACGGCAACGCGATCGACTTCCTGATGAACTACGACAAGCTCGAGTTCGTCGAAACGGTCGAAGAGCTGGCAGC -AATGCACAATCTTGAAGTGCCATTTGAAGCAGGCAGCGGCCCCAGCCAGATCGAGCGCCATCAGAGGCAAACGCT -TTATCAGTTGATGGACGGTCTGAATACGTTTTACCAACAATCTTTACAACAACCTGTTGCCACGTCTGCGCGCCA -GTATCTGGAAAAACGCGGATTAAGCCACGAGGTTATCGCTCGCTTTGCGATTGGTTTTGCGCCCCCCGGCTGGGA -CAACGTCCTGAAGCGGTTTGGCGGCAATCCAGAAAATCGCCAGTCATTGATTGATGCGGGGATGTTGGTCACTAA -CGATCAGGGACGCAGTTACGATCGTTTCCGCGAGCGGGTGATGTTCCCCATTCGCGATAAACGCGGTCGGGTGAT -TGGTTTTGGCGGGCGCGTGCTGGGCAACGATACCCCCAAATACCTGAACTCGCCGGAAACAGACATTTTCCATAA -AGGCCGCCAGCTTTACGGTCTTTATGAAGCGCAGCAGGATAACGCTGAACCCAATCGTCTGCTTGTGGTCGAAGG -CTATATGGACGTGGTGGCGCTGGCGCAATACGGCATTAATTACGCCGTTGCGTCGTTAGGTACGTCAACCACCGC -CGATCACATACAACTGTTGTTCCGCGCGACCAACAATGTCATTTGCTGTTATGACGGCGACCGTGCAGGCCGCGA -TGCCGCCTGGCGAGCGCTGGAAACGGCGCTGCCTTACATGACAGACGGCCGTCAGCTACGCTTTATGTTTTTGCC -TGATGGCGAAGACCCTGACACGCTAGTACGAAAAGAAGGTAAAGAAGCGTTTGAAGCGCGGATGGAGCAGGCGAT -GCCACTCTCCGCATTTCTGTTTAACAGTCTGATGCCGCAAGTTGATCTGAGTACCCCTGACGGGCGCGCACGTTT -GAGTACGCTGGCACTACCATTGATATCGCAAGTGCCGGGCGAAACGCTGCGAATATATCTTCGTCAGGAATTAGG -CAACAAATTAGGCATACTTGATGACAGCCAGCTTGAACGATTAATGCCAAAAGCGGCAGAGAGCGGCGTTTCTCG -CCCTGTTCCGCAGCTAAAACGCACGACCATGCGTATACTTATAGGGTTGCTGGTGCAAAATCCAGAATTAGCGAC -GTTGGTCCCGCCGCTTGAGAATCTGGATGAAAATAAGCTCCCTGGACTTGGCTTATTCAGAGAACTGGTCAACAC -TTGTCTCTCCCAGCCAGGTCTGACCACCGGGCAACTTTTAGAGCACTATCGTGGTACAAATAATGCTGCCACCCT -TGAAAAACTGTCGATGTGGGACGATATAGCAGATAAGAATATTGCTGAGCAAACCTTCACCGACTCACTCAACCA -TATGTTTGATTCGCTGCTTGAACTGCGCCAGGAAGAGTTAATCGCTCGTGAGCGCACGCATGGTTTAAGCAACGA -AGAACGCCTGGAGCTCTGGACATTAAACCAGGAGCTGGCGAAAAAGTGATTTAACGGCTTAAGTGCCGAAGAGCG -ATCGGGAAGCCCCCGACAGCCGCACTGAGAGGCAGCGGCAAATATATAAGTACGCCCTCGTAATTATCGTTGGCG -GTAAACAACCGTTGGATTTCAGCGTTAACGGCTGAAGGACATCGGGTCAATCGCCCAACACCAACCTCATGAAAT -AAGTGTGGATACCGTCTTATGGAGCAAAACCCGCAGTCACAGCTGAAACTTCTTGTCACCCGTGGTAAGGAGCAA -GGCTATCTGACCTATGCCGAGGTCAATGACCATCTGCCGGAAGATATCGTCGATTCAGATCAGATCGAAGACATC -ATCCAAATGATCAACGACATGGGCATTCAGGTGATGGAAGAAGCACCGGATGCCGATGATCTGATGCTGGCTGAA -AACACCGCGGACGAAGATGCTGCCGAAGCCGCCGCGCAGGTGCTTTCCAGCGTGGAATCTGAAATCGGGCGCACG -ACTGACCCGGTACGCATGTACATGCGTGAAATGGGCACCGTTGAACTGTTGACCCGCGAAGGCGAAATTGACATC -GCTAAGCGTATTGAAGACGGGATCAACCAGGTTCAATGCTCCGTTGCTGAATATCCGGAAGCGATCACCTATCTG -CTGGAACAGTACGATCGTGTTGAAGCAGAAGAAGCGCGTCTGTCCGATCTGATCACCGGCTTTGTTGACCCGAAC -GCAGAAGAAGATCTGGCACCTACCGCCACTCACGTCGGTTCTGAGCTTTCCCAGGAAGATCTGGACGATGACGAA -GATGAAGACGAAGAAGATGGCGATGACGACAGCGCCGATGATGACAACAGCATCGACCCGGAACTGGCTCGCGAA -AAATTTGCGGAACTACGCGCTCAGTACGTTGTAACGCGTGACACCATCAAAGCGAAAGGTCGCAGTCACGCTACC -GCTCAGGAAGAGATCCTGAAACTGTCTGAAGTATTCAAACAGTTCCGCCTGGTGCCGAAGCAGTTTGACTACCTG -GTCAACAGCATGCGCGTCATGATGGACCGCGTTCGTACGCAAGAACGTCTGATCATGAAGCTCTGCGTTGAGCAG -TGCAAAATGCCGAAGAAAAACTTCATTACCCTGTTTACCGGCAACGAAACCAGCGATACCTGGTTCAACGCGGCA -ATTGCGATGAACAAGCCGTGGTCGGAAAAACTGCACGATGTCTCTGAAGAAGTGCATCGCGCCCTGCAAAAACTG -CAGCAGATTGAAGAAGAAACCGGCCTGACCATCGAGCAGGTTAAAGATATCAACCGTCGTATGTCCATCGGTGAA -GCGAAAGCCCGCCGTGCGAAGAAAGAGATGGTTGAAGCGAACTTACGTCTGGTTATTTCTATCGCTAAGAAATAC -ACCAACCGTGGCTTGCAGTTCCTTGACCTGATTCAGGAAGGCAACATCGGTCTGATGAAAGCGGTTGATAAATTC -GAATACCGCCGTGGTTACAAGTTCTCCACCTACGCAACCTGGTGGATCCGTCAGGCGATCACCCGCTCTATCGCG -GATCAGGCGCGCACCATCCGTATTCCGGTGCATATGATTGAGACCATCAACAAGCTCAACCGTATTTCTCGCCAG -ATGCTGCAAGAGATGGGCCGTGAACCGACGCCGGAAGAACTGGCTGAACGTATGCTGATGCCGGAAGACAAGATC -CGCAAAGTGCTGAAGATCGCCAAAGAGCCAATCTCCATGGAAACGCCGATCGGTGATGATGAAGATTCGCATCTG -GGGGATTTCATCGAGGATACCACCCTCGAGCTGCCGCTGGATTCTGCGACCACCGAAAGCCTGCGTGCGGCAACG -CACGACGTGCTGGCTGGCCTGACCGCGCGTGAAGCAAAAGTTCTGCGTATGCGTTTCGGTATCGATATGAACACC -GACTACACGCTGGAAGAAGTGGGTAAACAGTTCGACGTTACCCGCGAACGTATCCGTCAGATCGAAGCGAAGGCG -CTGCGCAAACTGCGTCACCCGAGCCGTTCTGAAGTGCTGCGTAGCTTCCTGGACGATTAATCGGTAGGCCGGATC -AGGCGTTACGCCGCACCCGGCACTAGGCCCTCTGCACAAACGCCACCTTTTCGGTGGCGTTTTTTATCGCCCACG -CACTACCAGCGCCTGGTCCAGCTCGCGATACGCTTCAACCAGTTTCTCCAGTGAAACGCGACTTAAACCGCTGGG -ATTTGGCAGCACCCAAATCTGCGTCGAACCAATGGTGAGCGTTTGTTTCCCCCACTGTGCACCGCGCTGGCTGAA -TCCCTGTTCATATGCTTGTTTGCCCAGAATCGCCAACGCCTGCGGCTGATAATCTTCAATTTTTTCAATCAGCTT -ACGCCCGCCTGCGTGTAGCTCCTGCTTTGAAACTTCATTGGCTTGCACCGTTGGACGGTCTACCAGTTTGGTGAC -GCCACAACGATAATCCAGCAGATGCTGTGCCTCCTGCGGCTTCAACTGACGGTCGGTAAACCCGGCCTGATATAT -CACCTTCCAGAAGCGATTTGCCGGATGAGCAAAGGGAAAACCAGTCCCGGCGGATGAAAGCCCAGGGTTGATACC -GCAAAACACGACCCGTAACCCTGGAGCCAAAATATCCTCAACCATATTTACTCCTTTCTAACATCACCAGGAAAA -GTATAACGGATTGAAAATACATTGTTTATAAAAACAGCAGGCGCGCGGTAATGGCTGGATTGCGACACGGAGTTA -CTTTATAATCCGCTACCATGGCCCCTTAGCTCAGTGGTTAGAGCAGGCGACTCATAATCGCTTGGTCGCTGGTTC -AAGTCCAGCAGGGGCCACCAGATATAGCAAAGGCTGACGAGAAATCGTCAGCCTTTTTCTTTTTATATATCAGTT -ACTTTGCGTGCCAGTAAGCCGCTGCACGTACCCGCTGTGGGTCATACTGTTCCGCTTCAAAGCGGCGGCTTAAAT -TCTTAACGACTTTACCTTCGCCGGTTATCCAGATGAAGTAATCATCGGCAGGGATTTGCATCTGCGCCAGACGCG -CATCTACCGCCTGCTCATCATGTGCCAGCCATTCGATATTAAAACCATCAAGGTGCGCGAGATAATCCTGACAGG -CGTTATCCCGCACGCTAACCAGCGCACTAACTTGCGGTTTAACGGCAAGTTTGCTCAACGTTTCCAGGCGGCGGC -GCAATGCAGGCATTCCGGATTCATCGCAGACATACAGCTGATACGCGTAATCTTCCGGCACCACCAGCGAACCGC -GCGGACCTGCCACCGTAAGTTTATCGCCCGGTTGCGCCTGCATCGCCCAGCCGCTGGCGACCCCACCGTCGTGAA -TAAAGAAATCAATCGCCAGTTCATGGCGTAGTTCGTCATACAGCGGCGTATAGTCACGCGACGGTGGGCGTGGTC -CTTCCGGCCAGACGATGCCCTCTTCCGTTACCGTTGGCGGCACAAAGTGAGCGTCAGGTTGAGGAAAGAAGAGTT -TGCTGTGATCGTCAAAGCCACGCGATGTAAAACCGTCCAGCGCCTCGCCGCCGAGGACAATGCGCTGAAAACCGG -CGCTGATGCGCTCAACGCGTAACACAGTCAGTTCACGGAAGCGCAGATCATTGCGAACGCGCTGCGGGTAGCGGG -GGGTGTTATTCATTGTTATCGCCTTCGTGATGGTAATCAGATATATCTAAATAAAACTCGCAAATGATAATGATT -GTTAATCATGATAAATGCAAGCGATTTGTAGAACTGATATGTCTATAGTCTGATAAGACGAACCGCCTCTTCTCA -GGCATCATTACTCAACGCCGGATGCGGCGTGAACGCCTTATCCGGCCTACGTGTGAGATGAGTCCACGTTTAAAA -ATCATTTTTACACTTGCAAGAACGCTCATATCAGATATAAATTAGATATATCTAATTAAGCAAAAGGAGGCTGAT -ATGAGCCATCATCACGAAGGGTGTTGTAAACATGAAGGCCAGCCACGCCATGAGGGCTGCTGCAAAGGTGAGAAG -TCAGAACACGAGCACTGCGGACACGGTCACCAGCATGAACACGGTCAATGCTGCGGTGGTCGCCACGGTCGCGGC -GGCGGTCGTCGGCAACGTTTCTTTGGTCACGGTGAATTACGTCTGGTGATTCTGGATATTCTCTCGCGCGATGAC -AGCCACGGTTACGAATTGATTAAAGCGATTGAGAATCTAACCCAGGGGAATTACACCCCAAGCCCGGGCGTCATC -TACCCAACGCTGGATTTTCTGCAGGAGCAGTCGCTGATTACCATCCGCGAAGAGGAAGGAGGTAAGAAGCAGATT -GCGCTGACCGAACAAGGCGCGCAGTGGCTGGAAGAAAACCGCGAACAGGTGGAGATGATTGAAGAACGCATCAAA -GCGCGTTGCGTTGGCGCGGCGCTGCGCCAGAACCCGCAAATGAAGCGGGCGCTGGATAATTTTAAAGCGGTGCTG -GATTTACGCGTCAACCAGAGCGATATCAGTGATGCACAAATAAAAAAGATCATTGCGGTGATCGACCGCGCCGCT -TTTGATATTACGCAACTGGATTAATCGCCGCATCCGCCAGTGGCGCGGTGCAATTGCCGGATGCGACGCTTGACG -CGCCTTATCCGGCCTACACCCGCTACACACCCCGCAGGCCTGATAAGATGCGCCAGCATCGCATCAGGCATTGTG -CTCCAACCGCCGGATCCGGCATACCGATTAATGCAGTACCGTCACCGCGTCTTCCAGTCGGCTGGCGCGGTGTTT -CACCATCGCCGACACCTGCGCACTCTCTTCCACCAGCTCGGCATTTTTCTGGGTGATCAGGTTAAGCTCATCCAC -TGCACGGGTCAGGCTGGAAAGCCCATCGGCCTGTTCCAGCGTTGAATGGCTAATCTGGGCGATCAACTGGGTGAC -GTTTTTCACCTGTGCCACAATATCTTCCATCGTCCGTCCGGCGGCGTGTACCTGCTGCGAACCGGATTGCACCTT -ATCAGCACTGGCATCAATCAGCTTGCGAATATCGTTGGCAGCATTAGCGCTGCGGCTGGCTAAATGACGCACTTC -CCCTGCCACCACTGCAAAACCTTTGCCCTGTTCGCCGGCACGCGCCGCTTCCACCGCCGCATTCAGGGCCAGAAT -ATTGGTCTGAAACGCAATATCGTTAATCAGCGAAGTAATGGTGCCAATGCGCTGGGTACTGTCGGCGATATCGTC -CATTGTCTTGATCACCGTGGTCATCGCCTCCCCACCCTGCACTGCCGCATTACTGGCAGTGATTGACAGTTTATC -GGCAGCCGACGCCGTGGCAGAGTTCTGTTTCACCGACGCCGCCATTTGGTTCATGGTCGCCACCGTTTGCTGAAC -GTTATCAACTGTCTGCTGGGTATGTTCGTTCAGTTCATCGGTGCCTTTCGCCAGCGTCTCACTGCCATTTCTGAC -ACTGGACACCTGGCTTGAGACATCGTTAATTAGCCAACGGCACATCAGGCCAAGTTGCCCTACCGCACGTAATGT -CAGCCCCAGCTCATCGCTGCGATTCAGATGCTCAACACTATTACGTTCTCCGGTCGCCACCTTCAGTGCCTGATG -GGCAACATTTTCTATCGGGCGCACAATCTGCCATTCAAAACAGGCGCTTGCCAACAATACCACTAACGCACAGAG -GATATACGTCACCACCGGGGCAGCAACAAACCAAAGCATGGCCGCCAGCAAGATAAACATCAGGGTCATCACTCC -ACGCGCCCGCCAGCGAAGCGGTAATGAAGGCAGTTTACCCAGCCAGCCTTTACGCACCACCAGGCCTTTATGAAT -ACGCTTACTGGTACGTCCGGCGTTCAACGCTTTGTACAGCGGCTCCACCGCCGCGATCTCTTCATCCGTCGCCCG -GGTACGAATCGACATATAGCCACTGATTTTTCCCTCGCGCACCATCGGTACCGCATTGGCCCGCACCCAATAATG -GTCACCATTTTTGCGGCGATTTTTCACGATGCCGCTCCAGGGCTCCCCTTTTTTCAGGGTGAACCACATATCCGC -AAACGCCGCTTTTGGCATATCCGGGTGACGCACCATGTTGTGCGGCTGCCCTTGTAACTCTTGCAAGGTATAGCC -GCTCACCTGCACAAAAGTGTCATTAGCATGAGTGATATAGCTTTGCAGATCGGTAGTGGACATCAGAGTGGTATC -GTCCGCCAGCGGGGTATTTTGCTGGGTGACATACGGATGAGAAGACATGTTCGCGTCCTGTGCAGGTTATATGGT -TGTTAACTTCTTGTCAGAGTTTATGTCGGCCCCGCTGCGGTTATCTTTAACCGATTAATTTGATTTAGATCGCAA -TTTGCGATTTAAACACAAATCTAATTCCTTGATTTAAAATACTTTCACTCTGTTACTATACGAAAACGTTAATTA -TCTTGCCCAAAAATCAGGCAATTATTGCCCTGAAAACGTGCATTTGCGCAGCAATCATCAAATCCATACCCGACA -AAAACCGTGCAAAATAACAACAAATGTTAACAGATAGCATTAAATATTGCACAAATGATAACCGAATTTGTGTTT -ATCCCGATTTTCGCGATCGCAGCCGGAGTGGCGCAATCCCTGCAATACTTAAATCGGTATCATGTGATACGCGAG -CCTCCGGAGCATATTTTGAACAGGTTACCTTCGAGCGCATCGGCTTTAGCGTGCAGCGCCCACGCCCTGAATCTC -ATTGAGAAGCGAACGCTGGATCATGAGGAGATGAAAGCACTTAACCGAGAGGTGATTGAATACTTCAAAGAGCAT -GTCAATCCGGGGTTTTTAGAGTATCGCAAATCTGTTACCGCCGGCGGGGATTACGGAGCCGTAGAGTGGCAAGCG -GGAAGTTTAAATACGCTTGTCGACACCCAGGGCCAGGAGTTTATCGACTGCCTGGGAGGTTTTGGAATTTTCAAC -GTGGGGCACCGTAATCCAGTTGTGGTTTCCGCCGTACAGAATCAACTTGCGAAACAACCGCTGCACAGCCAGGAG -CTGCTCGATCCGTTACGGGCGATGTTGGCGAAAACCCTTGCTGCGCTAACGCCCGGTAAACTGAAATACAGCTTC -TTCTGTAATAGCGGCACCGAGTCCGTTGAAGCAGCGCTGAAGCTGGCGAAAGCTTACCAGTCACCGCGCGGCAAG -TTTACTTTTATTGCCACCAGCGGCGCGTTCCACGGTAAATCACTTGGCGCGCTGTCGGCCACGGCGAAATCGACC -TTCCGCAAACCGTTTATGCCGTTACTGCCGGGCTTCCGTCATGTGCCGTTTGGCAATATCGAAGCCATGCGCACG -GCTCTTAACGAGTGCAAAAAAACCGGTGATGATGTGGCTGCGGTGATCCTCGAACCGATTCAGGGTGAAGGTGGC -GTAATTCTGCCGCCGCCGGGCTATCTCACCGCCGTACGTAAGCTATGCGATGAGTTCGGCGCACTGATGATCCTC -GATGAAGTACAAACGGGCATGGGGCGCACGGGCAAGATGTTCGCCTGCGAGCATGAGAACGTACAGCCGGATATC -CTCTGCCTTGCCAAAGCGCTCGGCGGCGGCGTGATGCCGATTGGCGCGACCATCGCCACTGAAGAGGTGTTTTCA -GTTCTGTTCGACAACCCATTCCTGCATACCACCACCTTTGGCGGCAACCCGCTGGCCTGTGCGGCGGCGCTGGCG -ACCATCAATGTGTTGCTGGAGCAGAACTTACCGGCTCAGGCTGAGCAAAAAGGCGATATGTTGCTGGACGGTTTC -CGTCAACTGGCGCGGGAATATCCCGATCTGGTACAGGAAGCGCGTGGTAAAGGGATGTTGATGGCGATTGAGTTT -GTTGATAACGAAATCGGCTATAACTTTGCCAGCGAGATGTTCCGCCAGCGCGTACTGGTGGCCGGAACGCTCAAT -AACGCCAAAACGATCCGCATTGAACCGCCACTGACACTGACCATTGAACAGTGTGAACTGGTGATCAAAGCGGCG -CGTAAGGCGCTGGCGGCCATGCGAGTAAGTGTCGAAGAAGCGTAATATCAAATCGGATGGCGATACGACGTCGCC -ATCCGATCTTTTTATACGACGCGTACGCCCGCAGGCATCATCCGCTCCGGCGTTAACAGCACGCTTTCACTGCCG -TCATCGGTTTCCGCACACAACAGCATGCATTCCGACGTTTCACCACGCATTTTCGCTTTTTGCAGATTGCATAAG -ACCACCACCGTTTTCCCCATCAGCTCTTCTTCGCTGTAGTACGGCACCAGGCTGGTCACGGTTTGCAGCGTTTTT -TGCCCCACATCAACCTGTACGATGTACAGCTTGTCGGCGTTTTCATGGCGTTTCACTTCCACAATCTTTCCGACG -CGCATTTCCAGACGTGCAAAATCAGCGTAAGCCACGGTTTCCATTGCTTCCTCCCTTAGGGTAAAATTTTACTAA -ACTATAGCAAAAGTTTTTCTCAATCCTGTAGGCTAAAAATGGAGAATGCAGGCGTGATCACATTCGTGAGCCGCT -GTGTTACCGTTACAGCGTCAAAGAAACGCGCTTTATTTACTGAAAACAGGTGACCCGATAAGCACTTCCTCTACA -ATGGGGGCGCACATCAGGGAAAGTAAAAAAGGTAAACATGGCAACACTAAAAGACATCGCAATCGAAGCTGGCGT -ATCCCTGGCGACAGTATCCAGGGTCTTAAATGACGATCCGACATTGAATGTGAAAGAAGAGACGAAACATCGCAT -TCTCGAGATCGCCGAAAAGCTGGAGTACAAGACCAGTAGTGCCCGTAAACTCCAGACAGGTGCAGTCAACCAACA -CCATATTCTGGCTATCTACAGCTACCAGCAGGAGCTGGAGATCAACGATCCTTACTATCTGGCGATCCGCCACGG -CATTGAAACCCAGTGCGAAAAGCTGGGCATCGAGCTCACCAACTGTTATGAACACAGCGGCTTACCAGACATTAA -AAACGTCACCGGTATTTTAATTGTCGGCAAACCCACGCCCGCCCTGCGCGCCGCTGCCAGCGCGTTGACCGACAA -TATCTGTTTTATCGACTTTCACGAACCCGGCAGCGGTTACGATGCGGTGGATATCGATCTGGCACGCATCAGTAA -AGAAATCATCGACTTCTATATCAACCAGGGCGTTAATCGTATTGGTTTTATTGGCGGTGAAGATGAGCCTGGCAA -GGCGGATATTCGTGAGGTCGCCTTTGCGGAATATGGCCGACTGAAACAAGTGGTACGCGAAGAGGATATCTGGCG -CGGCGGTTTTTCCAGTTCGTCGGGTTATGAACTGGCAAAACAAATGCTGGCGCGGGAAGACTATCCGAAGGCACT -GTTTGTTGCTTCCGATTCCATTGCTATCGGCGTACTGCGGGCAATTCATGAACGAGGCCTGAACATCCCACAGGA -TATTTCGCTTATCAGCGTTAACGATATCCCCACCGCGCGATTTACCTTTCCGCCGCTCTCCACCGTGCGCATCCA -TTCCGAGATGATGGGAAGTCAGGGCGTTAACCTGGTGTATGAAAAAGCCCGCGATGGTCGCGCGCTGCCGCTGTT -AGTCTTCGTTCCCAGCAAATTAAAACTGCGCGGCACGACCCGTTAAATCCCCTTACACACTGTCCGGCAATCGTT -TTTGCCGGACAGTGCTGCCGTTTATTTTCGTGATCCAGTTAAAGTAAATGCATTTACCTGCTACTTTTTAGTAAA -AATTTTACTAAACTCCCCAGCAATTACACAAACTACCATCACCATGAATGGTTCCGATTTCTCTCTACCGGGAGG -CCCTATGAATCGCTGGGAAAACATTCAGCTCACCCACGAAAACCGACTTGCGCCGCGTGCGTACTTTTTTTCATA -TGATTCTGTTGCGCAAGCGCGTACCTTTGCCCGCGAAACCAGCAGCCTGTTTCTGCCCTTAAGCGGTCAGTGGAA -TTTCCACTTTTTTGACCATCCGCTGCAAGTACCAGAAGCCTTCACCTCTGAGTTAATGGCTGACTGGGGGCATAT -TACCGTCCCCGCCATGTGGCAAATGGAAGGTCACGGCAAACTGCAATATACCGACGAAGGTTTTCCGTTCCCCAT -CGATGTGCCGTTTGTCCCCAGCGATAACCCAACCGGTGCCTATCAACGTATTTTCACCCTCAGCGACGGCTGGCA -GGGTAAACAGACGCTGATTAAATTTGACGGCGTCGAAACCTATTTTGAAGTCTATGTTAACGGTCAGTATGTGGG -TTTCAGCAAGGGCAGTCGCCTGACCGCAGAGTTTGACATCAGCGCGATGGTTAAAACCGGCGACAACCTGTTGTG -TGTGCGCGTGATGCAGTGGGCGGACTCTACCTACGTGGAAGACCAGGATATGTGGTGGTCAGCGGGGATCTTCCG -CGATGTTTATCTGGTCGGAAAACACCTAACGCATATTAACGATTTCACTGTGCGTACCGACTTTGACGAAGCCTA -TTGCGATGCCACGCTTTCCTGCGAAGTGGTGCTGGAAAATCTCGCCGCCTCCCCTGTCGTCACGACGCTGGAATA -TACCCTGTTTGATGGCGAACGCGTGGTGCACAGCAGCGCCATTGATCATTTGGCAATTGAAAAACTGACCAGCGC -CAGCTTTGCTTTTACTGTCGAACAGCCGCAGCAATGGTCAGCAGAATCCCCTTATCTTTACCATCTGGTCATGAC -GCTGAAAGACGCCAACGGCAACGTTCTGGAAGTGGTGCCACAACGCGTTGGCTTCCGTGATATCAAAGTGCGCGA -CGGTCTGTTCTGGATCAATAACCGTTATGTGATGCTGCACGGCGTCAACCGTCACGACAACGATCATCGCAAAGG -CCGCGCCGTTGGAATGGATCGCGTCGAGAAAGATCTCCAGTTGATGAAGCAGCACAATATCAACTCCGTGCGTAC -CGCTCACTACCCGAACGATCCGCGTTTTTACGAACTGTGTGATATCTACGGCCTGTTTGTGATGGCGGAAACCGA -CGTCGAATCGCACGGCTTTGCTAATGTCGGCGATATTAGCCGTATTACCGACGATCCGCAGTGGGAAAAAGTCTA -CGTCGAGCGCATTGTTCGCCATATCCACGCGCAGAAAAACCATCCGTCGATCATCATCTGGTCGCTGGGCAATGA -ATCCGGCTATGGCTGTAACATCCGCGCGATGTACCATGCGGCGAAAGCGCTGGATGACACGCGACTGGTGCATTA -CGAAGAAGATCGCGATGCTGAAGTGGTCGATATTATTTCCACCATGTACACCCGCGTGCCGCTGATGAATGAGTT -TGGTGAATACCCGCATCCGAAGCCGCGCATCATCTGTGAATATGCTCATGCGATGGGGAACGGACCGGGCGGGCT -GACGGAGTACCAGAACGTCTTCTATAAGCACGATTGCATTCAGGGTCATTATGTCTGGGAGTGGTGCGACCACGG -GATCCAGGCACAGGACGACCACGGCAATGTCTGGTATAAATTCGGCGGCGACTACGGCGACTATCCCAACAACTA -TAACTTCTGTCTTGATGGTTTGATCTATTCCGATCAGACGCCGGGACCGGGCCTGAAAGAGTACAAACAGGTTAT -CGCGCCGGTAAAAATCCACGCGCGGGATCTGACTCGCGGCGAGTTGAAAGTCGAAAATAAACTGTGGTTTACCAC -GCTTGATGACTACACCCTGCACGCAGAGGTGCGCGCCGAAGGTGAAACGCTCGCGACGCAGCAGATTAAACTGCG -CGACGTTGCGCCGAACAGCGAAGCCCCCTTGCAGATCACGCTGCCGCAGCTGGACGCCCGCGAAGCGTTCCTCAA -CATTACGGTGACCAAAGATTCCCGCACCCGCTACAGCGAAGCCGGACACCCTATCGCCACTTATCAGTTCCCGCT -GAAGGAAAACACCGCGCAGCCAGTGCCTTTCGCACCAAATAATGCGCGTCCGCTGACGCTGGAAGACGATCGTTT -GAGCTGCACCGTTCGCGGCTACAACTTCGCGATCACCTTCTCAAAAATGAGTGGCAAACCGACATCCTGGCAGGT -GAATGGCGAATCGCTGCTGACTCGCGAGCCAAAGATCAACTTCTTCAAGCCGATGATCGACAACCACAAGCAGGA -GTACGAAGGGCTGTGGCAACCGAATCATTTGCAGATCATGCAGGAACATCTGCGCGACTTTGCCGTAGAACAGAG -CGATGGTGAAGTGCTGATCATCAGCCGCACAGTTATTGCCCCGCCGGTGTTTGACTTCGGGATGCGCTGCACCTA -CATCTGGCGCATCGCTGCCGATGGCCAGGTTAACGTGGCGCTTTCCGGCGAGCGTTACGGCGACTATCCGCACAT -CATTCCGTGCATCGGTTTCACCATGGGAATTAACGGCGAATACGATCAGGTGGCGTATTACGGTCGTGGACCGGG -CGAAAACTACGCCGACAGCCAGCAGGCTAACATCATCGATATCTGGCGCAGCACCGTCGATGCCATGTTCGAGAA -CTATCCCTTCCCGCAGAACAACGGTAACCGTCAGCATGTCCGCTGGACGGCACTGACTAACCGCCACGGTAACGG -TCTGCTGGTGGTTCCGCAGCGCCCAATTAACTTCAGCGCCTGGCACTATACCCAGGAAAACATCCACGCTGCCCA -GCACTGTAACGAGCTGCAGCGCAGTGATGACATCACCCTGAACCTCGATCACCAGCTGCTTGGCCTCGGCTCCAA -CTCCTGGGGCAGCGAGGTGCTGGACTCCTGGCGCGTCTGGTTCCGTGACTTCAGCTACGGCTTTACGTTGCTGCC -GGTTTCTGGCGGAGAAGCTACCGCGCAAAGCCTGGCGTCGTATGAGTTCGGCGCAGGGTTCTTTTCCACGAATTT -GCACAGCGAGAATAAGCAATGAGGATCATCGATAACTTAGAACAGTTCCGCCAGATTTACGCCTCTGGCAAGAAG -TGGCAACGCTGCGTTGAAGCGATTGAAAATATCGACAACATTCAGCCTGGCGTCGCCCACTCCATCGGTGACTCA -TTGACTTACCGCGTGGAGACAGACTCCGCGACCGATGCGCTATTTACCGGGCATCGACGCTATTTTGAAGTGCAT -TACTACCTGCAAGGGCAGCAAAAAATTGAATATGCGCCGAAAGAGACATTACAGGTAGTGGAATATTATCGTGAT -GAAACTGACCGTGAATATTTAAAAGGCTGCGGAGAAACCGTTGAGGTCCACGAAGGGCAAATCGTTATTTGCGAT -ATCCATGAAGCGTATCGGTTTATCTGCAATAACGCGGTCAAAAAAGTGGTTCTCAAAGTCACCATCGAAGATGGT -TATTTCCATAACAAATAACAACTACGGCGGCAAAAGGAGTTTGCCGCCACCGCTACCCTACTCATTTTCGGAGAT -GTGTTATGTCTGATACCAAACGTAATACAATCGGCAAATTCGGCTTGCTCTCGCTGACTTTTGCCGCCGTTTACA -GCTTTAACAACGTTATCAATAATAATATTGAGCTTGGACTGGCCTCGGCACCGATGTTTTTCCTCGCGACGATTT -TTTATTTTATTCCCTTCTGTCTGATCATCGCAGAATTTGTTTCGTTAAATAAAAACTCAGAAGCCGGTGTCTACG -CGTGGGTAAAAAGTTCGCTGGGCGGACGTTGGGCATTTATTACTGCCTATACCTACTGGTTCGTAAACCTGTTCT -TTTTCACCTCACTGTTGCCGCGCGTTATTGCTTATGCTTCGTATGCCTTCCTCGGATACGAATATATTATGACGC -CGGTTGCCACCACCATTATCAGTATGGTGCTGTTCGCCTTCTCCACCTGGGTTTCCACCAACGGGGCGAAAATGT -TGGGGCCAATTACCTCCGTCACTTCAACGCTGATGCTGCTGTTAACGCTCTCCTACATTTTACTGGCAGGTACGG -CGCTGGTTGGCGGCGTACAGCCTGCTGACGCCATCACCGTTGACGCGATGATCCCGAACTTCAACTGGGCGTTCC -TCGGCGTTACCACCTGGATCTTTATGGCCGCAGGTGGCGCGGAGTCCGTCGCTGTGTACGTTAACGACGTCAAAG -GCGGTTCGAAATCGTTCGTTAAAGTGATCATCCTCGCCGGGATTTTTATCGGCGTACTGTATTCCGTCTCCTCGG -TGCTGATTAACGTCTTCGTCAGCAGCAAAGAGTTGAAATTTACCGGCGGATCGGTGCAGGTATTCCACGGCATGG -CGGCGTATTTTGGTCTACCGGAAGCGTTGATGAATCGCTTTGTCGGTCTGGTGTCCTTTACCGCGATGTTCGGTT -CCCTGCTGATGTGGACCGCAACGCCGGTGAAAATTTTCTTCTCCGAAATCCCGGAAGGCATCTTTGGTAAGAAAA -CCGTCGAACTGAACGAAAACGGCGTTCCGGCGCGCGCAGCGTGGATCCAGTTCCTGATCGTCATCCCGCTGATGA -TTATCCCGATGCTCGGTTCCAATACCGTGCAGGATCTGATGAATACTATTATTAATATGACCGCCGCAGCGTCCA -TGCTTCCGCCGTTATTCATCATGCTGGCTTACCTGAATTTACGCGCCAAATTAGATCACCTGCCACGCGATTTCC -GTATGGGCTCCCGCCGCACCGGTATTATCGTTGTTTCAATGCTGATTGCGATATTTGCCGTAGGGTTTGTCGCTT -CGACATTCCCGACTGGCGCGAATATTCTGACCATCATTTTTTATAACGTCGGCGGTATTGTTATCTTCCTTGGCT -TTGCGTGGTGGAAATACAGTAAATATATAAAGGGATTAACGGCTGAAGAGCGCCATATTGAAGCGACGCCAGCCA -GCAATGTTGATTAAGCAGAATAATAAAAAATGAGCAGGCATTTTCCCTCTTCCTGGATGAGGAGAGGGAAAATAG -TTTCTGCCTTTATATTTTTATAATTACAACGATAAAAGGCTGTACTTTTTCTTTAGCTCATGGATTAACACAATG -AAATTAATCACTGCACCATGCAGAGCATTACTTGCTCTGCCGTTTTGCTACGCCTTTTCTGCGGCAGGAGAAGAA -GCACGTCCGGCAGAACATGACGACACAAAAACACCCGCAATTACCTCGACATCTTCTCCTTCATTTCGTTTTTAC -GGCGAATTAGGGGTTGGTGGATATATGGATTTAGAGGGTGAGAATAAACATAAATACAGCGACGGTACCTATATT -GAAGGTGGCCTGGAGATGAAGTACGGCTCCTGGTTCGGCCTGATTTACGGCGAAGGCTGGACCGTGCAGGCCGAC -CACGACGGCAATGCCTGGGTGCCAGACCATAGCTGGGGTGGTTTCGAGGGCGGAATTAACCGTTTCTATGGCGGT -TATCGTACCAATGATGGCACCGAAATCATGCTCAGTCTGCGTCAGGATTCCTCGCTGGATGACCTGCAATGGTGG -GGCGATTTCACCCCCGATCTGGGCTACGTCATTCCCAATACCCGCGACATTATGACTGCGCTGAAGGTACAGAAC -TTAAGCGGCAACTTTCGTTATAGCGTCACCGCGACTCCTGCCGGACATCATGATGAAAGCAAAGCCTGGCTACAT -TTTGGCAAATACGATCGCTATGACGACAAATACACCTATCCGGCAATGATGAACGGTTACATCCAGTATGACCTT -GCCGAAGGCATCACCTGGATGAACGGTCTGGAAATCACCGACGGCACAGGACAGCTCTATCTCACGGGCCTGCTA -ACTCCTAACTTTGCCGCTCGCGCCTGGCACCATACCGGACGCGCCGACGGGCTGGACGTACCGGGAAGTGAAAGT -GGGATGATGGTGAGCGCCATGTATGAAGCGTTAAAGGGCGTTTATCTCTCCACCGCTTACACCTACGCCAAACAT -CGCCCTGACCACGCTGACGATGAAACCACCTCTTTCATGCAGTTTGGTATCTGGTACGAATACGGCGGCGGACGT -TTCGCCACGGCTTTTGATAGCCGCTTCTACATGAAAAATGCCTCTCACGATCCCAGCGACCAAATCTTCCTGATG -CAATATTTCTACTGGTAATAAGGACTGTAATTTCATGAAAATAAAAACTATTTTAACGCCAGTAACCTGCGCTCT -GCTGATAAGTTTTTCCGCCCATGCCGCTAACGCCGACAATTATAAAAACGTGATTAACCGTACTGGCGCGCCGCA -GTACATGAAGGATTACGATTACGACGATCACCAGCGTTTTAATCCGTTTTTCGATCTCGGAGCCTGGCATGGTCA -TCTGTTGCCAGACGGCCCTAACACCATGGGCGGCTTTCCGGGCGTTGCGCTGCTGACGGAAGAGTACATCAACTT -TATGGCCAGCAATTTCGACCGCCTGACCGTCTGGCAGGACGGCAAGAAAGTCGACTTTACGCTGGAGGCATACAG -TATTCCCGGTGCGCTGGTGCAAAAACTGACAGCAAAAGATGTGCAAGTCGAAATGACTCTGCGCTTCGCCACGCC -GCGCACGTCACTACTGGAAACCAAAATCACCAGCAATAAACCGCTGGATCTGGTGTGGGACGGCGAACTGCTGGA -AAAACTGGAAGCGAAAGAAGGGAAACCGCTTTCCGATAAAACCATTGCTGGCGAATACCCTGACTATCAGCGCAA -AATCAGCGCCACCCGTGATGGCCTGAAAGTCACCTTTGGCAAAGTGCGCGCCACCTGGGATCTGCTGACCTCCGG -CGAATCGGAATATCAGGTGCATAAATCCCTGCCGGTGCAGACTGAAATCAACGGTAATCGCTTTACCAGTAAGGC -GCATATCAACGGTTCGACCACGCTCTACACCACCTATTCCCATCTGCTGACCGCTCAGGAAGTTAGCAAAGAGCA -AATGCAGATCCGCGATATTCTGGCGCGTCCGGCGTTTTATCTCACCGCCTCGCAGCAACGCTGGGAAGAATACCT -GAAGAAAGGGTTAACCAATCCGGATGCGACGCCGGAACAGACGCGCGTCGCGGTGAAAGCGATCGAAACGCTCAA -CGGTAACTGGCGCTCACCGGGCGGTGCGGTGAAATTTAACACCGTTACACCGTCGGTGACCGGGCGCTGGTTCTC -CGGCAATCAGACCTGGCCGTGGGATACCTGGAAGCAGGCGTTTGCGATGGCGCATTTCAATCCGGACATCGCCAA -AGAGAATATCCGCGCGGTCTTCTCCTGGCAGATCCAGCCTGGCGATAGCGTGCGTCCGCAGGATGTGGGCTTTGT -CCCCGACCTGATAGCGTGGAACCTTAGCCCCGAGCGTGGTGGCGATGGCGGCAACTGGAACGAACGTAATACCAA -ACCCAGCCTTGCCGCCTGGTCGGTGATGGAAGTGTATAACGTCACCCAAGATAAAACCTGGGTGGCAGAGATGTA -CCCGAAACTGGTGGCCTATCACGACTGGTGGTTACGTAACCGCGATCACAACGGCAACGGCGTGCCGGAATATGG -CGCGACCCGCGACAAAGCCCACAACACTGAGAGCGGCGAGATGCTGTTTACGGTGAAAAAAGGCGATAAAGAAGA -GACGCAGTCTGGGCTGAACAACTACGCCCGCGTGGTGGAGAAAGGCCAGTACGACAGTCTGGAAATTCCGGCACA -GGTTGCTGCATCGTGGGAATCGGGGCGTGATGATGCCGCCGTCTTTGGGTTTATCGACAAAGAACAGTTGGATAA -ATATGTCGCTAATGGCGGCAAACGTAGCGACTGGACGGTGAAATTCGCCGAAAACCGCAGTCAGGACGGAACGTT -GCTGGGCTACTCGCTATTGCAGGAGTCGGTGGATCAGGCCAGCTATATGTACAGCGATAACCATTATCTGGCGGA -GATGGCAACCATCCTCGGTAAGCCAGAAGAGGCCAAACGCTATCGCCAGTTGGCACAGCAGCTCGCGGACTACAT -CAACACCTGTATGTTCGACCCGACTACCCAGTTCTACTATGACGTACGTATTGAAGATAAACCACTGGCGAACGG -CTGCGCGGGCAAACCGATTGTTGAGCGCGGTAAAGGGCCGGAAGGCTGGTCGCCGCTGTTTAACGGTGCGGCAAC -GCAGGCCAATGCCGACGCGGTGGTGAAGGTGATGCTCGATCCTAAAGAGTTCAACACCTTTGTCCCGCTGGGAAC -GGCGGCGTTAACCAATCCGGCTTTTGGCGCTGATATCTACTGGCGTGGGCGCGTATGGGTGGATCAGTTCTGGTT -TGGTCTGAAAGGGATGGAGCGTTACGGTTATCGTGATGATGCCCTGAAGCTGGCGGATACGTTCTTCCGGCACGC -CAAAGGGTTAACCGCCGATGGACCAATTCAGGAAAATTACAACCCGCTGACAGGCGCACAGCAAGGCGCACCAAA -TTTCTCCTGGAGTGCCGCGCATTTGTATATGTTGTATAACGATTTTTTCCGTAAGCAATAATTTGCAACTGCTGG -CGGATGCGGCGTAAACGCCTTATCCGCCCTACATGTGCAATCCTCCTGGCCGGATAAAACGCGGCAAGCGTTGCA -TCCGGCAACTGCACCGCGCCACTGGCGGATGCGGCGTGAACGCCTTATCCGCCCTACATGTGTGTTCCCGTAGGT -CGGATAAGACGCGACAAGCGTCGCATCCGGCATCTGCACCGCGCCACTGGCGGATGCGGCGTGGACGCCTTATCC -GCCCTACATGTGCAATTCCGTAACCTGGATAAAACGCGACAAGCGTCGCATCCGGCGTTATCACCGGGCGTATTC -TTTTTGAATCCCATCACAAACCCCGCACTCCCCTTTTCCCTTTTCTCCGGCGACGGCTAAATTAGAACTCATCCG -ACCACATAACAATTATTTTACATACTGGACAATTTTATGAGCTACCCGTCGCTGTTCGCCCCGCTGGATTTAGGT -TTTACCACGTTAAAAAACCGCGTGTTGATGGGCTCAATGCACACCGGGCTGGAGGAATACCCGGACGGTGCCGAG -CGGCTGGCAGCGTTTTATGCCGAACGCGCCCGTCACGGCGTGGCGCTGATTGTCAGCGGCGGCATTGCACCAGAT -TTAACAGGCGTTGGCATGGAAGGTGGCGCAATGCTCAACGACGCCAGCCAGATCCCACACCATCGCACCATTACC -GAAGCGGTACATCAGGAAGGCGGCAAAATAGCCCTGCAAATTTTGCATACCGGGCGCTACAGCTACCAACCGCAT -CTGGTCGCCCCGTCCGCATTGCAGGCCCCCATCAACCGTTTCGTGCCCCATGAGTTAAGCCATGAAGAGATCCTG -CAACTGATCGACAATTTCGCCCGCTGCGCGCAACTGGCGCGGGAGGCAGGATACGACGGTGTAGAGGTGATGGGT -TCCGAAGGGTATTTGATCAACGAATTTCTGACGCTGCGCACCAATCAGCGTAGTGACCAGTGGGGCGGCGATTAC -CGCAACCGGATGCGATTTGCCGTAGAAGTAGTGCGTGCGGTGCGCGAACGCGTCGGCAACGACTTCATTATTATC -TACCGACTGTCGATGCTCGACCTGGTCGAAGACGGCGGGACTTTTGCCGAAACGGTAGAGCTGGCGCAGGCCATT -GAAGCGGCGGGCGCGACCATTATCAACACCGGCATTGGCTGGCATGAAGCACGTATTCCGACCATTGCCACGCCC -GTGCCGCGCGGCGCATTTAGCTGGGTCACGCGCAAACTGAAAGGCCACGTCTCGCTGCCGCTGGTAACCACCAAC -CGGATTAACGATCCGCAGGTTGCCGACGATATTCTCTCGCGCGGCGATGCCGATATGGTATCGATGGCGCGACCG -TTTCTTGCTGATGCGGAGCTGCTGTCAAAAGCGCAATCGGGACGAGCCGATGAGATCAACACTTGTATTGGCTGC -AATCAGGCCTGTCTCGATCAAATCTTCGTTGGCAAAGTCACCTCGTGCCTGGTGAATCCTCGCGCCTGCCACGAA -ACCAAAATGCCAATCCTTCCCGCCGTGCAGAAAAAAAATCTGGCGGTGGTCGGTGCGGGACCTGCTGGGCTGGCG -TTTGCCATTAACGCGGCGGCGCGTGGGCATCAGGTAACATTGTTTGACGCTCATAGCGAGATTGGCGGGCAGTTT -AATATCGCCAAACAGATCCCCGGCAAAGAGGAGTTTTACGAAACGCTGCGCTATTACCGCCGGATGATCGAAGTG -ACGGGCGTGACGCTAAAACTCAATCACACCGTGACGGCGGATCAGTTACAGGCTTTCGATGAAACGATCCTCGCC -AGTGGGATCGTGCCGCGCACTCCGCCCATCGACGGGATCGATCATCCGAAGGTATTGAGTTATCTCGATGTACTG -CGCGACAAAGCGCCGGTTGGCAACAAAGTTGCCATCATCGGTTGTGGCGGGATTGGTTTTGATACGGCGATGTAT -TTAAGTCAGCCGGGCGAATCCACCAGCCAGAATATCGCCGGGTTCTGTAATGAATGGGGGATCGACAGTAGCCTA -CAACAGGCTGGTGGCTTAAGCCCGCAGGGAATGCAGATCCCCCGTAGCCCACGGCAGATTGTGATGCTCCAGCGC -AAAGCCAGCAAACCAGGACAGGGGTTAGGCAAAACCACCGGCTGGATCCATCGCACCACCCTGCTCTCGCGGGGT -GTGAAAATGATCCCAGGCGTAAGTTATCAGAAGATTGACGATGACGGGCTGCATGTGGTGATCAACGGCGAAACG -CAGGTATTAGCAGTGGACAATGTGGTGATCTGCGCAGGGCAAGAGCCAAACCGCGCGCTGGCGCAACCGCTGATT -GATAGCGGGAAAACGGTGCATTTAATTGGCGGCTGCGATGTGGCTATGGAGCTGGACGCACGACGGGCAATTGCC -CAGGGAACACGGCTGGCGCTGGAGATTTAAATCGTTATTTGAAGCGCCGGATGCAACGCATCCGGCACGTCGCGT -TAATCAATAAACAAGGCGGGAGAAATGCCGAATCGCGTTGCCAATTTTTTAGCGTGTTCCAGCGTTAATTTCCTC -TTCCCGCTCAAAACGCGTGACACCATAGATTTACTGCCAATTTCCGGCAGATCGGAAAGGGTTAAACCATATTGA -TCCATAAGGGTACGAATCACGGCTATACCGCCAGGCATGGCTTGAGCCATGGCATTAAATTCCGCAAATTCGGGC -GCTGATTCTTCCCACGCGGTTATTTTGGCACACACCAGATCCAGCAAGGGGTTTTCAGGATCGTTGAGCAGCAGA -TGATCTACCAGTTCCAGCGCCTGGGTGTATTGTTCCTCGTTCTGAATACCCGCCAGAAAAGGTGCCACAGCAGTT -AGCTTTTCTCCTGCTTGCAAGATGTCGGCAATCGCAATCATTTTTTCCCCTTAGTACGATGAACAGCGGTAAAGA -AATCGTATTCTTTATGCGTCATAACTTCACGTATGTAGCACTTTTGCGATTCAAAAAAGACCATTGCTACAACAC -GTAATTCATTGCCCCCAACATTGAAAACATAATGCTTATCCAGATATTTGAAGTTATCCAGAGATGGGAATACTG -CTTTTAATGACTCAGGTTTTTTGAAATATCCCTTAGCAATCGTGTTCCCCAGAGCCACCAACTCCGTTTTATGTT -GCGGGTATTTTTCCGCAGCATCTTTCAATGCTTTTTGAGTTATCAGGTGCATTCTTCATCACGTCCGTTGACAAA -TTGGCAATATGATAACATCCGTTGCCAGATTGGCAACGGATGAATTTATCTGTGTGACGGAAGAATAAACGTAGA -AAAACGCTAAACAAGAGAATGTAGACGATGGTGACAGGGATTTTTTGTTTTATGGAAGCGCGATTCCAGAACTGG -GCAGACATTGCCGGATGCGACGCTTGCCGCGTCTTATCCGGCCTGGAGTAACGTGCTGAACGTAGGCCGGATAAG -GCGTTTACGCCGCATCCGGCAGGTAACTCCCAATCTTACCGACGACGTCCCAGCTTCACCGCTTTCAGTACCACA -AATTTATTATTCGTCGCAATAGTGGTGCAGTTGCCGAAAATCTTCTTCAGTTTATGGAAGTAATCCAGGTGACGG -TTGGCAACGATATACAGCTCGCCGTTGATTTTCAGGCAGCGGCGGGCGTGGTGGAACATCTCCCAGGCGACGTTA -TCGGTCAGCGCATGTTGTTGGTGAAACGGCGGGTTGCAGAGCACAGCATTAAAGCGGAAAGGCTCCACGCCGGAG -AGCGCGTTGTTGATCATAAACTCGCAGCGATCCAACGCCTCTGGCATGTTGGTTTCAACGTTCAAACGGCTGGAA -GCAACCGCCATCGGCGATTCATCGACAAACACCACTTTCGCCTGCGGGTTTTTATCAAGCAGCGTCAGACCAATA -ACGCCATTACCGCAACCGAGATCGACAATCTCCCCTTCGAGATTCTCTGGCAGATGTTGCATAAAGAAGCGCGCG -CCGATATCAAGCCCGGTGCGGGAGAAGACATTCGCATGGTTGTGGATAGTCCAGTCAGTACCTTCCAGCTTCCAG -CTAACGGTCTGCGGCGCATCGGCCAGCTGCGGTTCATTGAAAGTGCAATTAATCAGGCGCGCTTTTTTCCATGCC -AGCGTGGTGGTGGTTGGGCCGAGCACTTTTTCGAACAGTTCCAGCGTGGAAGTGTGAATGTCACGGGCCTTGGCA -CCGGCAATAATACGTGTATCCGACGTGACCACTTTGCGCAGCGCACGCAGTTGCTGTTCCAGCAATGCCAGTGTT -TTCGGCACTTTGATCAGCACCACACCCGGCTGTTGCGGGTAGTCGGCGGTGCTGTCGAGAAACTTCACGCTCGAC -TCATCAATCCCGTTGAGGCGTAAATTCTCGCGCGTCGCCAGTTCACTGATGTATGAGTCGCCAATGCTGTACGGC -TTATGTTCCGCCAGTGCGCAGCTTAACGCACCAAAGGCATCATTCAGGATCAACACCGGGCCGCGGATTTCTGTG -TCGTCCAACTGTTGCAGCAAATATTCATCCGCCGCTTCCCACGCCTGTAGCGGGTTAACGTCATCCGTCGCCGGA -AAACGTTGTAGTGTCAGTGAACGGAAACCGTTGTCTAAGTGGCTCATCGGCCCTCCTGAATGATAAAATTTCGAC -ATTGCCCCTGAAAAGGGTGCGTGAGTATACCCTTTTTCTCTTTTTCGTGGGCGGTTATGAGCAATCTTACTTATC -TTCAGGGTTATCCCGAGCAGCTACTTTCCCAGGTGCGAACACTGATTAACGAACAGCGTCTGGGCGATGTGCTGG -CAAAACGCTATCCGGGAACACACGACTACGCCACCGATAAAGCCCTCTGGCAATATACTCAGGATCTGAAAAATC -AGTTTCTGCGTAATGCCCCGCCGATCAATAAAGTGATGTATGACAATAAGATCCATGTGCTAAAAAACGCGCTCG -GGTTACATACCGCTGTTTCTCGTGTGCAGGGCGGCAAGCTGAAAGCAAAGGTGGAGATCCGCGTCGCTACCGTGT -TTCGCAACGCGCCGGAACCGTTTTTGCGCATGATCGTGGTGCACGAGCTGGCGCACCTGAAGGAGAAAGAGCATA -ACAAAGCGTTTTACCAGTTGTGTTGTCATATGGAACCCCAGTACCACCAGCTTGAGTTCGACACCCGACTGTGGC -TAACGCAGTTGTCGCTTGGGCAGAACAAAATCTGAAAATGATGTCAGGCGTTATCTTTTCTTTCTTTAGCGCCTA -AAATCGACCTCCCCCCTTTCGTTAAGGATAACGACCATGCTGCGCGCATTTGCCCGCCTTCTTCTCCGTATTTGT -TTTTCTCGCCGGACTCTAAAGATTGCCTGCTTACTGTTACTTGTGGCAGGAGCGACCATCCTTATCGCCGATCGC -GTAATGGTCAACGCCAGCAAACAGCTGACCTGGAGCGATGTCAACGCCGTTCCGGCGCGTAACGTGGGTTTATTG -CTGGGGGCGAGGCCGGGTAATCGCTACTTTACCCGACGTATTGATACCGCAGCAGCGTTGTACCACGCCGGAAAA -GTGAAATGGCTGCTGGTAAGTGGCGATAACGGACGTAAAAATTACGATGAAGCATCAGGTATGCAGCAGGCTTTG -ATCGCTAAAGGCGTACCAGCAAAAGTGATCTTCTGCGACTATGCCGGATTCTCAACGCTGGATTCGGTAGTGCGT -GCCAAAAAGGTTTTTGGTGAAAACCATATCACCATTATCTCGCAAGAATTTCATAATCAACGCGCCATCTGGCTG -GCAAAACAGTACGGCATCGACGCTATCGGTTTTAACGCGCCAGACCTCAATATGAAGCACGGTTTTTATACTCAA -CTGCGGGAGAAACTCGCTCGTGTCAGCGCCGTGATTGACGCCAAAATCCTCCATCGCCAGCCGAAATATCTCGGG -CCTTCGGTCATGATTGGGCCGTTTAGTGAGCATGGCTGTCCGGCGCAGAAATAATGCGTATCTGCGCACGTCGAA -GATGAAAAAGGCGTGCTACATTGACGACAGAATCCCTTTATGGAGTATCCACGCGTTATGATACGTTTCGCTGTG -ATTGGTACGAACTGGATCACTCGCCAGTTCGTCGAGGCCGCCCATGAGAGCGGTAAATACAAGTTAACCGCCGTA -TATTCCCGCAGCCTTGAACAGGCCCAGCACTTCGCCAATGATTTTTCTGTCGAGCATCTGTTTACCTCGCTGGAA -GCGATGGCGGAAAGCGATGCCATTGACGCGGTGTATATTGCCAGCCCGAATTCCCTGCATTTTTCCCAGACACAA -CTTTTCCTTAGCCATAAAATTAATGTGATTTGCGAGAAACCGCTGGCGTCGAATCTGGCGGAAGTGGATGCCGCC -ATTGCCTGTGCGCGGGAAAATCAGGTGGTGCTGTTTGAGGCATTTAAAACCGCCTGCCTGCCGAACTTTCATTTG -TTGCGCCAGGCGCTGCCGAAAGTCGGCAAACTGCGGAAAGTCTTTTTCAACTATTGCCAGTATTCCTCGCGGTAT -CAACGTTACCTGGATGGTGAGAATCCCAACACCTTTAATCCGGCATTCTCTAACGGTTCAATTATGGATATCGGT -TTTTACTGTCTGGCGTCGGCGGTGGCGTTATTTGGTGAGCCGAAAAGCGTGCAGGCAACCGCCAGTTTGCTGGCA -AGCGGCGTTGACGCCCAGGGCGTGGTGGTGATGGATTACGGTGATTTCAGCGTCACCTTGCAGCACTCAAAAGTC -AGTGATTCTGTCCTGGCGAGCGAGATTCAGGGCGAAGCAGGATCGCTGGTGATTGAAAAACTGTCTGAATGCCAG -AAAGTGTGCTTCGTGCCGCGTGGCAGCCAAATGCAGGATCTCACCCAGCCGCAGCATATTAATACCATGCTCTAC -GAAGCAGAGCTGTTCGCTACCCTGGTGGATGAGCATCTGGTGGATCATCCAGGGCTGGCGGTCAGTCGCATCACC -GCCAAACTGCTGACCGAGATCCGCCGCCAGACTGGGGTGATTTTTCCGGCAGATAGCGTAAAACTATAATTGCCA -AAGTAAAACAGTGTAAAAGGTATGTAACAGACCATTGACTGGCTGAATGGTCTGTCATACTTTGTTACCTGCAAA -GGGGAGTAACTTCATTGCCGGTCGATCGTCATTACGATGTGTGAAAAAACACATCCGGTCACCGGGCAACCCGAA -AGGAATACGCAGACGTATTCCTTTTTTGTTGTAAGTGAGACCTTGCCGGAAGGCGAGGTCTATGCATAAAAAGCA -GCGGCTGACGTCTTCCGACGTTGGCCGTTTTTTTATGTGTAAGGAACTTCTATGAATACTGTCGGCACGCCGTTG -CTATGGGGCGGATTCGCTGTTGTTGTCGCCATTATGCTGGCTATCGACCTGTTGTTGCAGGGGCGTCGTGGGGCA -CATGCCATGACCATGAAACAGGCTGCGGCCTGGTCGCTGGTCTGGGTGACGCTGTCGTTACTGTTTAACGCCGCT -TTCTGGTGGTATCTGGTGCAAACCGAAGGTCGCGCCGTTGCCGATCCACAGGCACTGGCCTTTCTCACAGGTTAT -CTGATTGAGAAATCGCTGGCGGTCGATAACGTCTTTGTCTGGCTGATGTTGTTCAGCTATTTCTCTGTTCCGGCG -GCATTACAACGCCGCGTGCTGGTGTATGGCGTGCTCGGGGCGATTGTTCTGCGTACCATCATGATCTTCACTGGC -AGCTGGCTAATTTCGCAGTTCGACTGGATCCTGTATATCTTCGGTGCCTTCCTGCTGTTTACCGGCGTGAAGATG -GCGCTCGCCCATGAAGATGAATCAGGCATTGGCGACAAGCCGCTGGTGCGCTGGCTACGCGGTCATTTGCGCATG -ACCGACACCATCGACAACGAGCATTTCTTTGTGCGTAAGAATGGATTGCTGTACGCCACACCGCTGATGCTGGTA -CTGATTCTGGTGGAATTGAGCGACGTGATTTTCGCCGTGGATAGCATTCCGGCTATCTTCGCCGTGACCACTGAC -CCGTTCATTGTGCTGACCTCAAACCTGTTTGCGATCCTCGGCCTGCGTGCGATGTATTTCCTGCTGGCGGGCGTA -GCAGAGCGTTTCTCGATGCTCAAATATGGCCTGGCGGTGATTCTGGTGTTTATCGGTATCAAGATGCTGATTGTC -GACTTCTACCATATTCCAATCGCCGTCTCGCTGGGCGTGGTGTTTGGCATTCTGGTGATGACGTTTATTATCAAC -GCCTGGGTGAATTATCGGCATGATAAGCAGCGGGGTGGATAATTTTTAATCTGCCTAAGCCGTGTACCCTGTCAT -TAACATGAGCACCGTTTTCTCCCTCTCCCTTCCAGGGAGAGGGTCGGGGTGAGGGTAATTTTTCGCACCGATGCT -GGCCTGTTCCCCTCACCCTAACCCTCTCCCCAAACGGGGCGAGGGGACTGACCGAGTCCTTTTTTGATGTTGTCA -TCAGTCTGGAAGCCGCACGTTGGCTTTATTTTTATGTCAAAGAAATGTAACCATTAAGTTTCAAAATATGACCTC -TCTTTAAAATCCAGCATTTTTCGCTTCCCGAAGCTGTAACTTTCCTTATACTCGACCTTGCAAACACTTTGTTAC -ATCCTGAAAGATGCGTCGACAGAACGCACCAGGGATGTGCGACAACACAATGAAAGGATCGAAAAATGACTACGC -AACGTTCACCGGGGCTATTCCGGCGTCTGGCTCATGGCAGCCTGGTAAAACAAATCCTGGTCGGCCTTGTTCTGG -GGATTCTTCTGGCATGGATCTCAAAACCCGCGGCGGAAGCTGTTGGTCTGTTAGGTACTTTGTTCGTCGGCGCAC -TGAAAGCCGTTGCCCCCATCCTGGTGTTGATGCTGGTGATGGCATCTATTGCTAACCACCAGCACGGGCAGAAAA -CCAATATCCGCCCTATTTTGTTCCTCTATCTACTGGGCACCTTCTCTGCTGCTCTGGCCGCAGTAGTCTTCAGCT -TTGCCTTCCCTTCTACCCTGCATTTATCCAGTAGCGCGGGTGATATTTCGCCGCCGTCAGGCATTGTCGAAGTGA -TGCGCGGGCTGGTAATGAGCATGGTTTCCAACCCCATCGACGCGCTGCTGAAAGGTAACTACATCGGGATTCTGG -TGTGGGCGATCGGCCTCGGCTTCGCACTGCGTCACGGTAACGAGACCACCAAAAACCTGGTTAACGATATGTCGA -ATGCCGTTACCTTTATGGTGAAACTGGTCATTCGCTTCGCACCGATTGGTATTTTTGGGCTGGTTTCTTCTACCC -TGGCAACCACCGGTTTCTCCACACTGTGGGGCTACGCGCAACTGCTGGTCGTGCTGGTTGGCTGTATGTTACTGG -TGGCGCTGGTGGTTAACCCATTGCTGGTGTGGTGGAAAATTCGTCGTAACCCGTTCCCGCTGGTGCTGCTGTGCC -TGCGCGAAAGCGGTGTGTATGCCTTCTTCACCCGCAGCTCTGCAGCGAACATTCCGGTGAATATGGCGCTGTGTG -AAAAGCTGAATCTGGATCGCGATACCTATTCCGTTTCTATTCCGCTGGGAGCCACCATCAATATGGCGGGCGCAG -CAATCACTATTACCGTGTTGACGCTGGCTGCGGTTAATACGCTGGGTATTCCGGTCGATCTGCCCACGGCGCTGC -TGTTGAGCGTGGTGGCTTCTCTGTGTGCCTGTGGCGCATCCGGCGTGGCGGGGGGGTCTCTGCTGCTGATCCCAC -TGGCCTGTAATATGTTCGGTATTTCGAACGATATCGCCATGCAGGTGGTTGCCGTCGGCTTTATCATCGGCGTAT -TGCAGGACTCTTGCGAAACCGCGCTGAACTCTTCAACTGACGTGCTGTTCACTGCGGCAGCTTGCCAGGCAGAAG -ACGATCGTCTGGCAAATAGCGCCCTGCGTAATTAATTGTTTAACCCCTTTCGTCTACGGCGGAAGGGGTTTTCTC -AACTTTAAACGGATCAATTCCCCTTTTCTGCATCCGCCAGAAACGAATGATATTCAGGCCATTCATAAGCAGAAA -ACTACCCTCAATCATCGTGCCGCCTATCGACCCCGCCCAGAAGTTGTGAATCACCCAGCAACACGTTGAAAACCA -CATTACGCAGCGCATGGTCAGCCCTTTACAGCAGAATAGCGCCCAGGTACTGACAATCGTGCCGATAACCGGCAA -TAGTTCGACAGGATGATGGAACTTCGCGAGGCCAATTCCGCCAGTCAGCACAATAAAAATCGCCATTACCCATAA -GCTGCGCGTGCGTAAGGTAATCAATGTACGAATGGCATTAAGGATGGCACTGGCACCAGCGGGATAGGTGCCCAG -AAGAAAAAAATGTACGCCAATAACGGCGCTATAGACCGAAAGCTGCTTTTTGAAGCGACGTTCGTCACGATTGAA -AAATGTTGTGATACCAATCAGAAAGGCGATGACACCCACGCCCTGGGCCAGCCAATACGCGGTCATGATAAATCC -TTAGCAGGTATGGAAAAGCAAACGGCGCTTCACATTATGAAACGCCGTTTTTTATTAACAACTCATTTCGACTTT -ATAGCGTTACGCCGCTTTTGAAGATCGCCAGTTCGCGGAAGTCGTTACGCTCGTTACAGGTTTGCTTACCGTTGG -CAAACTCAACGATGGTGTCGATAAATTCTTCCAGCAACTGCGGCATCGCTTTACCGTGGATCAACTGACCCGCGT -CAAAGTCGATCCAGTGTTTTTTCTTCGCCGCCAGTTCACTGTTGGTGGCGATTTTCACCGTCGGCACAAATCCAC -CATACGGCGTGCCACGACCAGTACTGAACAGCACCATATGGCAGCCCGCACCCGCCAGGGCGCTGGTCGCTACGG -CATCGTTACCCGGCGCACTTAACAAGTTCAGCCCTGGCGTTTTCAGACGCTCGCCGTAACGCAGCACGTCAACCA -CGACGCTGGAACCCGCTTTCTGGGTACAGCCAAGTGATTTGTCTTCCAGCGTGGTGATACCGCCCGCTTTGTTCC -CCGGCGATGGGTTTTCATAGATCGGCTGATCATGGGCAATAAAGTACTGTTTGAAGTCGTTGACCATGGTGACCA -GTTTTTCAAACGTTGCTTCGTCGCGGCAATGGTCCATCAGCAACTGCTCTGCGCCAAACATCTCCGGCACTTCGG -TCAGTACGGTAGTACCGCCGTTAGCAATCACGTAGTCAGAGAAACGCCCCAGCATCGGGTTAGCAGTAATACCAG -AAAGACCGTCAGAACCACCGCACTCCAGACCAAACTTCAGTTCGCTGAGTTTGCCTGGCTCGCGTTTATCGTTGC -GCATCACGTTATACAGCTGATGCAAATGCTCGATTCCGGCTTCGATCTCATCATCCTGCTGTTGGCAGATCATGA -AATGAACGCGTTCAGGATCGATATCGCCCAGCGTTTCACGGAATGCGGCAACCTGGTTGTTTTCACAGCCCAGAC -CAATCACCAGCACTGCGCCTGCGTTCGGGTGGCGCACCATGTTTTGCAGCATGGTGCGGGTATTAATGTGATCGT -CGCCCAGCTGTGAGCAGCCGTAGGTGTGGCTGAAGAGGAACACGCCGTCAGTACCTTCGGCGTTGTTGGTCTCTT -TCAGAAAACGGTTCTGGATCTGCCGCGCGATGCCGTTGACACAGCCCACGGTTGGCAGGATCCACAGCTCATTAC -GCACCCCGACATCGCCGTTAGCGCGACGATAGATCTGCACTTCACGATCTGCCGCTTGCGCAGGCAGATCCTGAA -AATCAGGTTGATAGCGATACTGATCCAGATCGCTCAGATTCGTGCGCGTATTGTGGGCGTGAACGTGAACACCTG -CCGCAATATCCGCCAATGCATAACCAATCGGCAGGCCATATTTGATGACATTGGCCCCTTTTGCGATATCCGTTA -ACGCAAATTTATGTCCACGAGCAACATCCTGGCGCAGCGTAACAGTCTGGTTATCGACACTGACTTCTGTGCCTT -CAGCCAAATCTGCTAAAGCGACCGCGACGTTATCCAGCGCATGGATCTTGATGTATTGCATATCAACCCCAGACC -TTAGTTCAGTTCAATGGCGAAGTAGTCACGCGCATTGTTAAAGCAAATATTTTTCACCATCTCGCCCAGCAGGTT -GATGTCCGCCGGTGCTTCGCCCGCTTCCACCCAGCGACCGATCATCTGGCACAGAATGCGGCGGAAGTATTCGTG -ACGGGTGTATGACAGGAAGCTACGGCTGTCAGTCAGCATACCGACAAAGCGGCTCAGCAGACCGAGCTGCGCCAG -TTGGGTCATCTGACGTTCCATACCGTCTTTCTGATCGTTAAACCACCAGCCGGAACCGAACTGCATTTTGCCCGG -CATACCTTCGCCCTGGAAGTTACCGATCATGGTGCCCAGCACTTCGTTATCGCGCGGGTTCAGGCAGTACAGAAT -GGTTTTCGGCAGCAGGTTTTCTTCATTCTGCTTGCTCAGCAACTTAGACAGCTCTTCCGCCATCGGACGGTCGTT -GATGGAGTCAAAGCCTACATCCGGCCCCAGCAGTTTGAACTGACGCAGGTTGTTATTACGCAGCGCGCCAATGTG -GTACTGCTGTACCCAGCCGCGACGTGCATATTCGGCACCAAGGAACACCAGTACCGCAGTTTTGAACTGCGCCAC -TTCGTGCTCGCTCAGGGTTTCGCCAGCCAGACGGCGCGCCAGAATGCTGTCCAGTTCCGCTTCGTTCGCTTCAGC -AAACATCACCACATCCAGCGCGTGGTCAGACACTTTACAGCCGTGAGCGGCGAAGTGATCCAGACGTTTGGTCAG -GGCAGTTTGCAGGTCAGCAAAGCGGCGAATGTCGGTATCGGAAACTTCGCCCAGCTTCGCCATGTAGTCGTTAAA -GGTCGCCTGTTCGATGTTGAAGGCTTTGTCCGGACGCCAGCTCGGCAGCACTTTGATGGTGAAAGAGCCGTCTTT -GGCGATCTCTGCGTGATGCTCCAGAGAATCGATCGGGTCATCGGTGGTGCCGACCATTTTCACGTTCATCTGCTG -CATGATGCCGCGCGCGGAGAAGTTATCCTGCGCCAGCAGTTCGTTACATTCGTTCCAGATTTCATCGGCAGTTGA -CGGAGAAAGCAATTTGCCAGTGATACCAAACGGACGGCGCAGTTCGAGGTGCGTCCAGTGGTATAACGGGTTGCC -GATAGTGTGCGGAACAGTCGCCGCCCAGGCGTCAAATTTTTCACGGTCAGACGCATCACCGGTACACAGACGCTC -GGCCACACCGTTGGTACGCATAGCGCGCCATTTGTAGTGATCGCCTTTCAGCCAGATGTCATACAGGTTTTTAAA -ACGATAGTCTTCCGCAATCTGCTGCGGCGGCAAATGGCAATGGTAATCGAAAATCGGCTGGTCTTTTGCGTAGTC -GTGATACAGACGGCGGGCAAATTCGGTATCTAACAGGAAATCTTCAGTCATAAACGGAGTCATTTTCGTCTTCCT -CTCAACGAGTGAGCTAGCTTGCTTATGGTGCGATGCTGACAAAGTTATCACACCAATTTCCAGAGTCCGAAGATA -TTTTCGTGAGTTAGATCAATAAACGTAGTTAAAAAAATTACTCTCAAAGTGGTAAATCTCGCTGCAGGCCGCGCC -AGTACTGGCCTTGCTGTCGTCAGGTAATGTCCCTACAAATATTCCCACATTTGTGATGGCTCTCACCTTTTAAAG -TTGTATGACAAGTTATCTTTCTGCCGTCGCAAATCATAAGTCGACGGAATGCAAATTGCCGATTCATTCATTTGT -TAGATGAATCGGGTTAACCGGTACGGAAGCCGAATTAGCACGAAACTTTCATGGCAACGTTCGGGGCGTGCCGGT -TTTTTTTCGGTTACCCGGTCGTAACTAACATCTTCAGCCTCTGGCGGGATGATGGCCGCGCTTCCTGCGGATATA -ACAAAACGATGAGGTTTTACATGCGTAAAATTAAAGGGTTACGTTGGTATATGATCGCACTGGTGACGCTCGGCA -CCGTGCTTGGTTACCTGACGCGTAACACTGTGGCGGCAGCTGCGCCAACTCTGATGGAAGAGTTAAACATCTCCA -CCCAACAGTATTCCTATATCATCGCAGCCTATTCTGCTGCTTATACGGTCATGCAACCGGTAGCAGGTTATGTAC -TGGATGTGCTGGGTACGAAAATCGGTTATGCAATGTTTGCTGTGCTGTGGGCCGTGTTCTGTGGTGCAACCGCGC -TGGCAGGTAGCTGGGGTGGCCTGGCTGTTGCTCGTGGTGCGGTCGGTGCCGCGGAAGCAGCGATGATCCCGGCGG -GTCTGAAAGCCAGCTCCGAATGGTTCCCGGCGAAAGAGCGTTCCATCGCAGTAGGCTACTTTAACGTAGGTTCTT -CGATTGGTGCGATGATTGCGCCGCCGCTGGTGGTATGGGCAATCGTAATGCACAGCTGGCAGATGGCATTTATCA -TCTCCGGTGCATTGAGCTTTATCTGGGCGATGGCATGGCTGATTTTCTATAAACATCCGCGCGACCAGAAGCATC -TGACCGATGAAGAACGCGACTATATTATTAATGGTCAGGAAGCCCAGCACCAGGTGAGCACGGCGAAGAAAATGT -CCGTTGGTCAGATCCTGCGTAACCGTCAGTTCTGGGGTATCGCGCTGCCGCGTTTCCTGGCAGAACCGGCCTGGG -GTACTTTTAACGCGTGGATCCCGCTGTTCATGTTTAAAGTTTACGGCTTTAACCTGAAAGAGATCGCGATGTTCG -CCTGGATGCCGATGCTGTTTGCTGACCTCGGTTGTATCCTCGGTGGTTACCTGCCGCCGCTGTTCCAGCGTTGGT -TTGGTGTGAACCTGATCGTTTCCCGTAAGATGGTCGTAACGCTGGGTGCAGTGCTGATGATTGGCCCGGGTATGA -TCGGCCTGTTCACCAACCCGTATGTCGCAATTATGCTGCTGTGTATCGGTGGTTTTGCCCACCAGGCACTGTCTG -GCGCGCTGATTACGCTCTCTTCCGATGTGTTTGGTCGTAACGAAGTGGCAACGGCAAACGGTTTAACCGGGATGT -CCGCATGGCTGGCAAGTACGCTGTTTGCGCTGGTTGTCGGTGCACTGGCTGACACCATCGGCTTCAGCCCGCTGT -TCGCAGTTCTGGCAGTGTTCGACCTGTTAGGTGCGCTGGTTATCTGGACCGTGTTGCAGAACAAACCGGCGATTG -AGGTGGCGCAGGAAACACATAACGATCCCGCACCGCAACATTAACGTTTCGTGTAAGTTTTAGTTTCCCTTCAAA -GCCGCCTTCTCAGGCGGCTTTTTCATCACTGCGAGTAGAGCTAAACTCGCAAAAGTGGTATAACAAATATAGTCT -GCCGTATCATGCCTGGAGCGCATATGGAAATCACTGAACCACGCCGTTTGTATCAACAACTTGCCGCTGACCTGA -AAGAGCGCATCGAACAGGGCGTCTATCTGGTGGGTGATAAACTGCCTGCAGAACGCTTTATTGCCGATGAAAAGA -ACGTCAGCCGTACGGTAGTTCGTGAAGCCATCATCATGCTGGAAGTTGAAGGCTATGTCGAAGTGCGTAAAGGTT -CAGGTATTCATGTGGTTTCCAACCAGCCGCGCCATCAGCAGGCGGCTGACAATAATATGGAATTCGCCAATTACG -GTCCGTTTGAGTTGCTTCAGGCTCGCCAGCTCATCGAAAGTAATATTGCCGAATTCGCGGCAACTCAGGTAACGA -AACAGGACATCATGAAACTGATGGCCATTCAGGAACAGGCGCGCGGCGAACAATGCTTCCGTGATTCCGAGTGGG -ATTTGCAGTTCCACATTCAGGTCGCTCTGGCGACGCAGAACTCCGCCCTGGCGGCTATCGTGGAAAAAATGTGGA -CCCAGCGTAGTCATAACCCGTACTGGAAAAAACTGCACGAACACATTGATTCCCGTACCGTCGATAACTGGTGTG -ATGACCACGATCAAATCCTCAAGGCGCTGATTCGCAAAGATCCTCATGCTGCTAAGCTGGCAATGTGGCAGCATC -TGGAAAACACCAAGATCATGTTATTTAACGAAACCAGCGACGACTTCGAGTTCAATGCCGACCGCTATCTATTCG -CCGAAAACCCGGTGGTGCATCTCGATACAGCCACCAGCGGCAGTAAATGAAATTCCTGTCCGACAGGCGCTGCAA -TGCGCCTGTTTGTCTCGTCGGTAAGCGAAAAGTATAAAGTGTCAGCCTGTGTAAATCCTCTCGCCACCCTCCCCT -GCATTCAGCAAAATCAGACTCCACGGACATGTAATTTTGATAACGAACAACGTTGACCTTTGTTACAATTAGATT -CAATTTGAATTTATGTTTTTGAATGCTTTCTTATCTCACGATTTAACAGGGAATAGTTCAGGCTGTGTTGATGTA -TCAAACCCGCAGAACATACCAAAACAGCAATAACATTGCGGTAGTGCATCTTTTAAAACCAGCGTGGCGTTAACC -GATTCACCAGGAATAATGAATGGAACTTTTGACCCAATTGCTGCAAGCCCTGTGGGCGCAGGATTTTGAAACCCT -GGCCAATCCATCGATGATTGGCATGTTGTATTTTGTCTTGTTTGTAATTTTGTTCCTTGAAAACGGCTTGCTTCC -GGCGGCCTTTTTACCGGGCGACAGTTTACTGGTATTGGTCGGCGTGTTGATTGCGAAAGGCGCGATGGGCTATCC -GCAAACGATTCTGCTGCTGACCGTTGCCGCCAGCCTCGGCTGCTGGGTCAGCTATATTCAGGGGCGATGGCTGGG -CAATACCCGCACCGTACAAAACTGGCTATCTCATTTACCCGCGCATTATCATCAACGCGCACACCATCTTTTTCA -TAAACACGGTTTATCGGCGCTGTTAATTGGTCGCTTTATTGCGTTTGTCAGAACACTGCTGCCGACGATTGCCGG -GTTATCAGGGCTGAATAACGCGCGCTTTCAGTTTTTCAACTGGATGAGCGGTCTGCTGTGGGTATTGATCCTGAC -AACTCTGGGTTACATGCTCGGCAAAACGCCGGTATTTTTAAAGTACGAGGACCAGCTGATGTCATGCCTGATGCT -GCTCCCGGTGGTGCTGCTGGTGTTTGGCCTGGCAGGTTCTCTGGTCGTGTTATGGAAAAAGAAATATGGAAATCG -GGGGTAAGGGATGCAAATACCTCGCATGTCGCTTCGCCAGCTAGCCTGGTCCGGCGCTGTTTTACTTCTGGTCGG -CACGCTGTTGCTGGCCTGGTCCGCGGTTCGCCAGCAAGAGTCTACGCTGGCGATTCGTGCCGTTCATCAAGGCAC -AACGATGCCAGACGGTTTTTCAATCTGGCATCACCTTGACGCTCATGGCATTCCTTTCAAAAGTATCACCCCCAA -AAACGACACTCTGTTAATTACATTTGACTCCAGCGACCAGAGCGCCGCCGCAAAAGCGGTCCTCGACAGAACATT -GCCCCATGGCTACATCATTGCGCAGCAGGACAATAACAGTCAGGCTATGCAGTGGCTGACCCGGTTACGGGATAA -CTCTCATCGCTTCGGATAACTTCCTGTTATCCGAAACATATCACTCACTTTGGTGATTTCACCGTAACTGTCTAT -GATTAATGAGGCGGTGGTTAACACTACCGCTTCGTTGTCTGGACAATCGTTCCTTTGTAATAGGTCCGAATCACA -ATGGAAGGTTCAAGAATGAAATACCGCATCGCTTTAGCTGTTTCTCTCTTTGCTCTTAGTGCCGGTAGTTATGCC -ACTACCCTGTGTCAGGAAAAGGAGCAAAATATCCTTAAGGAGATCAGCTATGCCGAAAAACACCAAAACCAGAAT -CGTATTGACGGTCTGAATAAAGCCCTGAGTGAAGTCCGGGCCAACTGTTCAGATAGCCAGCTGCGTGCCGATCAT -CAGAAGAAAATCGCAAAGCAGAAAGATGAGGTGGCGGAACGCCAGCAAGATTTAGCCGAGGCGAAGCAAAAAGGC -GATGCCGATAAGATTGCCAAACGCGAACGGAAACTGGCAGAAGCGCAGGAAGAGCTGAAAAAGCTGGAAGCGCGC -GACTACTAACTCACAATAGTCACTACTTACTCACCTGGAGAAAACTATGTCGAAAGAACACACTACGGAACATCT -GCGTGCTGAGTTGAAATCCCTTTCCGATACGCTGGAAGAGGTGCTTAGCTCATCTGGCGAGAAGTCGAAAGAAGA -GTTGAGTAAGATTCGTAGCAAAGCGGAGCAGGCACTGAAACAGAGCCGTTATCGCCTGGGTGAAACCGGTGATGC -CATTGCCAAACAAACCCGTGTCGCGGCGGCGCGTGCCGATGAGTATGTGCGCGAAAATCCGTGGACGGGCGTGGG -CATTGGCGCTGCAATCGGTGTAGTGCTCGGCGTTCTGCTGTCGCGTCGTTAATTATGGCGGACACTCATCACGCA -CAAGGGCCCGGTAAAAGCGTTCTGGGCATCGGGCAGCGAATTGTTTCTATCATGGTTGAAATGGTAGAGACACGT -CTGCGGCTGGCGGTGGTGGAGCTGGAAGAGGAAAAAGCGAATCTCTTTCAACTTTTACTGATGCTGGGCCTGACG -ATGCTTTTCGCTGCATTTGGTCTTATGAGCCTGATGGTGCTAATTATTTGGGCGGTTGACCCGCAATATCGCCTG -AATGCGATGATTGCCACCACCGTGGTGTTGCTGCTACTGGCACTGATTGGCGGTATCTGGACGCTACGTAAATCG -CGTAAGTCTACGTTGCTGCGCCATACACGCCATGAGTTAGCAAACGATCGGCAGCTGCTCGAGGAGGAGTCCCGT -GAGCAGTAAAGTCGAACGTGAACGACGTAAGGCGCAACTGCTTAGCCAGATCCAGCAACAACGGCTGGATCTTTC -CGCCAGTCGTCGTGAATGGCTGGAGACAACAGGCGCTTACGATCGTCGCTGGAATATGCTGCTAAGTCTGCGCTC -CTGGGCGCTGGTTGGCAGTAGCGTGATGGCGATCTGGACGATTCGCCATCCTAATATGCTGGTCCGCTGGGCCAG -ACGCGGTTTTGGCGTATGGAGCGCCTGGCGTCTGGTTAAAACGACCCTCAAGCAGCAACAGCTTCGCGGTTAACT -TCCCTCTGGCCGGAGCCATTCCGGCCTTATCCCTCAAATTTTTTGAAGATTTTTGACAGTTTTCCTTGCTAACAA -TCATCATTCACCACGTTTATGATTCTCTCCATCGACAGCAACGACGCTAATACCGCGCCATTGCACAAAAAAACA -ATCAGCAGCCTGAGTGGCGCAGTGGAGAGTATGATGAAAAAATTAGAAGATGTTGGTGTACTGGTAGCGCGCATT -TTAATGCCGATTCTGTTTATTACCGCTGGCTGGGGAAAAATTACTGGCTACGCGGGTACCCAACAATATATGGAA -GCAATGGGCGTCCCGGGTTTTATGCTGCCACTGGTGATTCTGCTTGAGTTTGGTGGTGGTCTGGCAATCCTGTTC -GGTTTCCTGACTCGCACCACAGCCCTGTTTACTGCGGGCTTTACGCTGCTGACGGCATTTTTATTTCACAGCAAC -TTTGCTGAAGGCGTCAACTCGCTGATGTTCATGAAAAACCTGACAATTTCTGGCGGATTCCTGCTGCTGGCAATT -ACCGGTCCGGGCGCGTATAGCATCGACCGCCTGCTGAATAAAAAGTGGTAAGCACGCGCTATACTTAACGATAAA -AAACGAGGAGGAAGCTCCTCGTTTTTGCTATTGGAGGAGAGAAAAATGGGTCAACTGATTGACGGCGTCTGGCAT -GACACCTGGTACGATACCAAATCTACCGGCGGTAAATTTCAACGTTCAGCTTCCGCATTTCGTAACTGGCTCACT -GCCGATGGCGCTCCTGGCCCCACTGGCACAGGCGGTTTTATCGCAGAGAAAGATCGTTATCATCTCTATGTTTCA -CTCGCCTGCCCGTGGGCGCACCGCACGCTGATCATGCGCAAACTCAAAGGACTGGAACCGTTTATTTCCGTTTCC -GTAGTGAACCCGCTGATGCTGGAAAACGGTTGGACCTTTGATGACAGTTTTCCGGGAGCAACCGGAGACACGCTC -TATCAAAATGAATTTCTGTATCAGCTTTATCTCCACGCCGATCCACACTACAGCGGACGAGTTACTGTTCCCGTG -CTGTGGGACAAAAAGAACCACACCATCGTCAGCAACGAATCAGCAGAAATCATCCGCATGTTCAATACCGCGTTT -GATGCGCTGGGCGCGAAAGCGGGTGATTACTACCCTCCAGCCCTGCAAACAAAAATTGACGAACTTAACGGCTGG -ATTTATGACACCGTTAACAACGGCGTGTATAAAGCTGGTTTTGCCACCAGCCAGGAAGCTTACGACGAGGCGGTG -GCGAAAGTGTTTGAATCGCTGGCACGACTGGAGCAGATTTTAGGCCAGCATCGTTACCTGACCGGCAACCAGCTA -ACCGAAGCCGATATTCGCCTGTGGACTACGCTGGTGCGTTTTGATCCGGTGTATGTGACCCACTTCAAGTGTGAT -AAGCACCGCATCAGCGATTACCTGAATCTGTACGGTTTTCTGCGCGATATCTACCAGATGCCGGGGATCGCCGAA -ACAGTCAATTTCGATCATATCCGTAATCATTACTTCCGCAGCCATAAGACCATCAACCCTACGGGGATTATTTCA -ATTGGTCCGTGGCAGGATCTCGATGAACCGCATGGACGAGATGTTCGCTTCGGTTAAAAAAAGGCACCTTACGAG -GTGCCTCTGATAATTAGCTAAGTGCATGTTGTTCATGTCGGATGTGGCATGAACGCCTTATCTGACATACAAAAC -ATTGTACATTCAATAGATTGCATAACCCGCGCAGACCAGATAAGCGTAGCGCATCTGGCGATTTTGCGCTTGTCA -TCAGTCTTAGCGCGCCTTCACGGCACTTTATTAATTCCTTGAACGAATATTTACTGCCATTTCATTCACGTCTAT -TCTTAATTTGCTGCTTTAAAAACAAGTGATTGAGCAAAATTGAGGCAAAAATGGACTGGTATCTGAAAGTACTAA -AAAATTATGTCGGTTTCCGGGGTCGTGCGCGGCGCAAAGAGTACTGGATGTTTATTCTGGTCAACATCATCTTTA -CGTTCGTGCTGGGGCTGCTGGATAAAATGTTAGGCTGGCAACGCGCTGGTGGCGAAGGCATCCTGACGACAATCT -ACGGTATTCTGGTGTTTTTACCGTGGTGGGCGGTTCAGTTCCGCCGCCTGCACGACACCGACCGCTCGGCGTGGT -GGGCACTGCTATTCTTAATCCCGTTTATCGGCTGGCTTATTATCATCGTCTTTAACTGCCAGGCGGGTACGCCAG -GCGAAAACCGCTTTGGACCAGATCCAAAACTGGAACCTTAAAACAAATCTGCTCGCCGGATGTCTGACTCATCCG -GCTTTTATCATTATGTTGATGAATGAATAATTTACTAATGTTTATTTAAAATATTTCAATGTCGTTATATAAATT -ACCTATAAAAAATAACCATGTATTTATCTTAAATATCAAAACCTTTATAACATCCGAAAAAGAAAGATACGAATA -GCATTTACACAATACCCGGAATAGACTTTCGTCACTTTTAATTAAAGGGATGTTTTTATGCAGTGGTATTTGTCC -GTATTAAAAAATTATGTTGGTTTCTCTGGTCGCGCACGTCGTAAAGAGTACTGGATGTTTACTCTGATTAACGCC -ATCGTCGGCGCTATTATCAATGTCATTCAATTGATTTTAGGTCTGGAGCTTCCATATCTGTCTATGCTTTATTTG -CTGGCAACCTTCCTTCCCGTCCTTGCGCTTGCTATCCGTCGCTTACACGATACCGACCGTTCAGGTGCCTGGGCC -TTGCTCTTTTTTGTTCCGTTTATTGGCTGGCTCGTGCTTCTGGTTTTTTTCTGCACAGAAGGTACTTCTGGCAGC -AATCGTTACGGAAACGATCCGAAGTTTGGTTCAAATTAATCTTAGAATTGGGGCGATATTTCGCCCCTTTTTATT -AACAATAATAAATATTATTTTCCGTTAAAAAGTTTGGGAATTTCCCGCAGACACCAGGATTTCGCTTCCCCCATA -CTGTCACGACGCCAGGCCATAATAATATCGATCTCGCTGGTCGATTCCGGGCTGACGACACGCAACCGCCCTTCC -GCAATATCTTTTTCGACCATAGGATACGGCATCGTCGCCACGCCAAGCCCCGCCAGTAATGCCTGACGTTTATCT -TCAATCGTGCTCACCGTTAAGCGCGGCTGTTTGTCCAGCAGCTGTACGGTCAACACCGGGCGCTCACGAGCGGTA -TCCGCCACCGCAATTCCACGATATTTCACACGCGTCACTTCAGATAACGGTTCCGGCTCCTGATGAATCGGGTGA -TCAGGCGCGGCAACGTAGACGTTCATTAACGTATAGAGCTTGCGCGAGTTGATCTCCGACGAGGAACGAAAATGC -ATATCCGGCGCGATAACAATATCCGCCCGCCCCTGCTCCAGCCGTTCCCACGCCCCCGCCAGCACTTCTGTGATG -ATTGCCAGTTGGGTATTGGCTTTTGCCGCCAGTTTGTCGATTAACGGGAAAAAGGCAGGTGTCGGTACCAGCGCT -TCGGTCACAATGGTGAGATGCGTTTCCCAACCGCGCGCGAGAGCTTCCGCATCAGTAGTCAGTTTATCTGCGGCT -TCCAGCAAAACGCGCCCTCGCTCCAACAACATCCTCCCGACATTGGTGAATTTGGTACGATGGCCCGAGCGGTCA -AACAGCACCACATCCAGCTCTTCTTCCAGTTTTTGCATGGTGTAGCTAAGTGCGGAAGGCACGCGTCCCAGCTCA -TCCGCCGCCGCCGCAAAACTGCCCCGGCGATCGATCGCATCCATAACCCGTAGTGCTTCCAGCGTTAATGCCCTT -TCTTTGGCCATTTCGTTCTCATTCAGGAAATTTGAACATACCGGGCAGAATATCTGGCTAACAATGTAGCGTCCA -GCCCCTTACCATAAAAGGAAGTAAAGAGAGGTCAAGAATTATGATTACTACCCGAACTGCCAGGCAGTGTGGACA -AGCAGACTACGGATGGTTGCAGGCCCGGTATACTTTTTCCTTTGGACACTACTTCGACCCGAAATTGTTAGGCTA -TGCCTCCCTGCGTGTGCTTAACCAGGAAGTGCTGGCCCCAGGTGCCGCCTTTCAGCCGCGAACCTATCCCAAAGT -CGATATTTTAAATGTGATTCTGGATGGAGAAGCAGAGTATCGCGATAGCGAAGGCAATCATGTTCAGGCCAGCGC -CGGAGAGGCGTTGCTGCTCTCTACCCAGCCGGGTGTCAGCTATAGCGAACACAATCTCAGCAAAGACAAACCGTT -AACGCGAATGCAGCTTTGGCTGGACGCCTGCCCGCAGCGAGAGAATCCGCTGATTCAAAAGCTGGCGCTTAATAT -GGGCAAGCAGCAATTAATCGCCTCGCCAGAGGGTGCGATGGGAAGCCTGCAATTACGCCAGCAAGTGTGGCTGCA -CCATATCGTGCTCGACAAAGGCGAAAGTGCGAATTTCCAGTTGCATGGGCCACGCGCGTATTTGCAATCGATTCA -CGGGAAATTTCATGCGCTTACGCATCATGAAGAGAAAGCGGCGCTGACCTGCGGTGATGGGGCGTTTATTCGTGA -CGAGGCTAACATTACGCTGGTTGCCGATTCCCCACTGCGCGCTTTGCTGATAGATTTGCCTGTCTAGTTGTTTTT -ACAGGGAGATGATGATGAGTAAAAAATTGGCCAAAAAGCGCCAGCCGGTGAAGCCCGTGGTGGCGAAAGAACCTG -CTCGCACCGCCAAAAATTTTGGCTATGAAGAGATGTTGAGCGAGCTGGAAGCTATCGTCGCGGATGCTGAAACGC -GTTTAGCCGAGGATGAAGCTACCGCGTAAAGACAGGTTGCCGGATGCGGCGAAAACGCCTTATCCGGCCTACAAA -ATCCAACAACATTAACGAATTAAACAACCCGTAGGCCGGACAAGATGCGCCAGCATCGCATCCGGCACGATCCCC -AAAACCTGGCGTTTATCTGGCCTTGCTCGCCATAATCTCGATAATCTGCCGATCCGTTTGCTGCATCGAATGGCT -TGCTAACGCACACAGGTTGGCAATCGACTGCTCAACATCATGCGCCACAATCCCTTCATTGCCGGTCACGGCGGT -ATCATCCAGCGCCATTAACACCGCTTTCCACGCAGCCGAAGCACTGGTCGAAACCTTCATCGCGCAGCTGTTCGA -CGCACCATCGCAAATCATGCCGCTGACATCGCCGATCATACTGCTGATCGCCATCGAGATGGTTTCATAACGCCC -ATCCACCAGCCATGCCATCCCGGCGGCGGCCCCCATTGCTGCGGTCGTTGCGGCACACAGCGCAGACAAACGCGG -TAACTGGTTATGGATGTAAATTGCGCTCAAATGCGAAAGCATCAGCGCACGCGCCAGCCGTTCATCATCCGCTCC -GAAGTGTTCTGCTACCACCACCACAGGCATTGTTGCGGTAATCCCCTGGTTACCCGAGCCGGAGTTACTCATAGC -CGGAAGCGTAGCGCCGCCCATACGCGCATCGGATGCCGCGCTGGTACGAATCACAATGGATGAAGAGAGATCTTT -CGCCAGCAAACCGCGCTCGCACTGTTTTTCCAGCGTCGCGCCAATATGCAGCCCCCACTTACCGCTCAAACCTTC -CTGCGATAACGCACAATTTAGCTTCGCGGAATCGAGAATAAAGCGGATCGCCGCAAACGGGACTTCATTGACGAA -CTTCAGGATCTCAGCCAGCGTCGTTCTGGAAAGCACCGTCAGCGGAGACTCTTGCTCGCCCTCTGCCACACACGC -CTGCTGGGTAAACACCACACCATCGTGCGTCTCGATATGCACAATGTTGGTATGCCCGCCGACGATGGTGACACA -CGCCCACTTCTCACCGTTCCAGACTTTGGCGCGTGAGAAGAGGATTTCATCGCAAGGTTCCTGGATCTTAACGGA -GACTTTCCCCGCCGCCAGCAGTGCTTTGGCATCGGCAATTGCCTGCGCTGTTGCGTCTTTCAGCACTTCCAGCCC -GGCGTTGGCATTTCCACCTAACGCCCCCAGCGCCGCCGCAATCGGCAGCCCCACCATTCCCGTGCCGGGAACGGT -GACGCCCAGACCGTTCTTCATCAGATTTGGCGAAACCCAGGCTTCTACACGTTCAACCGGACCTTCCAGTTCTGC -CGCAGCAACCGCCGCCGCCAGCGCCAGTGAAATCGGTTCAGTACATCCCAGCGCCGGTTTTACTTCCTCCTGAAC -GGCGAGGATGTAACGCTGCCATAACGGATTTAAAGTCGAATCAAACATATTAAAAACCTTAAAATTTCAGGTAAA -TCAAGAAAATGCCAGGAACGGAGAAACACACAGCAACAAACCAGTGACGATAATCAGGTACAGAGACATCCCTTT -GTATTTGTGCAATGCTGGTACTTTGTAAACCAGCCACGCCGGGATCAGGCACCCTACCATGCCGAAAATCGGGCT -ACAGATAGAGGTGAAGCTCAACACCGGTGCGTTCAGTACGATGGCGCTCCAGGCCAGCAAAATGGCGAAAATCAT -GATGCCGCGCTGAACGAGATTTTCGTTAATCTTCTCGGCAGGCATCTTGCGACGCAGGATGTTCATTACGATCCC -TTGCGTTGCTTCGCGAAAGCCTAAATAGACGCCAAAGAATGCAGTCATGACAGCAAAGATATTGAGAATGACGCT -GACCACTTTCACCCACGCTGCGCCGTCACCGCTAATAAACTGTGCGGCAATCGCCAGCGCGGAAATATTCTGCTC -ATAGGCTTTTACCGCTTCGTCATGTCCCATCGCCAGCGTGAACGACACGGCGTAGAAAAAGACGGTGACAAACAA -AATGCCAAACGCGATATTCATTGCCCGCAATGCTTTATGCCGCGCCACTTCAATTGATTTTTCCCGCGAGCGATA -AGAGATCACCATCGGACTTAACGTCTGGATAAACAGAATCGACGTCAGGGTAAACGGCAGCGTAATAATGGCGTT -TTTCACCAGCAGCCCCAGCGGCGGTAGCGAACCGACGTTATACAGATGCCACATTCCCACCATCGACACGCCCAG -CGCCGCGACCACCAGCAGCTTGGTCAGCACCATGCCGGTCGAAATTTTGAATAACAATTTCTCGCCGCGTGAGGA -GATCGCCACCAGAATGCAAATCAGTACCAGACCATAAAAGGGACTGTCTGACAGCAACCCTTCCGTCACGCCGAA -GGTATGCAGGTAGGAAGCACTATCGTTGGTGATGGCGGTGGAATAGACGAACATCCAAATCACCAGCATTACGAA -ATAGAGCGCACCTAACAGGATGCCCCAGTTTTTACCTAAATAACCGCTAATGACGCTCGGGTAATCTTTACATTC -TGGTGATTCTGCCAGCGTATTAATAAACAATCGCTGAAACAGATACATTGCCGGGTAACCAATCACCGATGAGAG -CAAAAATACCCACAATCCCATCAAACCGACCTGCACCGGGAGAAAAACAATCCCCGCGCCAATCGCCATCCCGAT -ACTCATAATCACCCAGCCGGTGTCAGTACTGTCGAATTTGATCGCTTCTCGCCACTCGCTCTCACTCATTCCAGC -ACGACCCGCCGGGGTCGAAGCGTCTGCAATGACGCCTTTATTCGATGCAATTTCCATAATTTCTCGCTCAATATT -TTGTAGGGCTTATTATTTTTTTCCGAGCCGCATCAAGGCGATATGCGGTCTACGTTTTTGCAGGCGAGTTATTAG -AATAAAGAAATGATACGCGCGAGGTCAGAGAAAATCTTCACAATCAAGACTTTGAAATAACGGAGATGGATAAGA -ATTTTCTACTAAATTAATCGCAGGAGAATATTCATTCTCTATTTGCGGCAGATCACAAAAAAAAGGTGCACATTT -GTGCACCCAAGGATGAAAGCTGACAGCAATGTCAGCCGCAGACCACTTTAATGGCCAGTCCTCCGCGTGATGTTT -CGCGGTATTTATCGTTCATATCTTTGCCGGTTTCATACATCGTCTCGATCACTTTATCGAGTGAAACACGCGGTG -CCGAGGTGCGGCGCATCGCCATCCGCGCGGCGTTTACTGCTTTCACGGCATTAATGGCATTACGTTCAATGCACG -GGATTTGTACCTGTCCGGCAACCGGATCGCAGGTCAGCCCAAGGTTATGCTCCATCGCGATTTCCGCCGCATTGC -ATACCTGCGCCGGACTGCCGCCCAGTAGTTCAGTTAACCCTGCCGCCGCCATTGAACAGGCCACGCCAATCTCCC -CCTGACAGCCGACTTCCGCGCCAGAGATGGAGGCGTTCATTTTATACAGCGCGCCAATAGCCCCCGCGGCCAGAA -AATAGCGGGCAATTGACCGCTCGTTTACCGGACGACGGAACTTATCGTAATAAGCCAGTACTGCCGGAATAATGC -CGCACGCACCGTTAGTCGGTGCCGTTACCACGCGCCCGCCAGCTGCGTTTTCTTCACTAACCGCCAGCGCGTACA -TGTTGATCCAGTCGATGACATTCATCGGATCGTTAGAGATGTTATCGCTGGAAACCAGCTGACGACGCAGCGCTA -CGGCACGGCGCGGCACATTGAGCGGACCAGGCAGCACGCCTTCAGTGTTCATCCCACGTTCAATACCGTCATGCA -TCACTTGCCAGATACGGGCAAAACCGGCGTCAATTTCCGCTTTGCTGCGCAGCGCTAGCTCGTTGTGCATCATCA -GACCAGATATAGACAGGCCGTTGTAATCACACATTTTCAGCAGTTCACCTGCTGAGTGGAAATCGTAAGGTACGG -ACGTTTCGACATCGTGCGACAGGCCGAAGTGTTCTTCTTCGACAATAAACCCGCCGCCGACAGAGTAATAGGTTT -TACTTAATAGCTCTTCCTGTCCCTTCCAGGCAGTGATCCGCATTCCGTTCTCATGGCGAGGCAACATTTCGGGAT -GGAAGATAATGTTCTTTGCTACAGGAAAATCAACAATATGCGCACCAGATGCCACTGGCAGCCGCCCGCTGCGCG -TTACTAACTCTATAAATGCAGGGATCTCATCAATGACAACATCCTGCGGACTGTTTCCTGCCAGTCCCATGATGA -TGGCGACATCCGTGGCATGGCCTTTGCCCGTCAGTGACAACGACCCGTACAGATCGACCACAATATGGCTCGTCG -CGGTTAATAAGCCGCTACTTTCCAGCCGATCAATAAAACTTTTTCCGGCATTCATTGGCCCCACGGTATGCGAAC -TGGAGGGACCAATCCCAATTTTGAAAATATCGAATGCACTAATCATATCCACACCCTCGGATTGCCGTTCAGTGA -AGTGGAGCGGAACGACCTTACGACCGTCCCGCTCACGAGGCTTTACGCACTACGTACTGCGATGGCTTCAATTTC -CAGCTTCACATCTTTCGGCAAACGCGCGACCTGCACACAGCTCCGGGTCGGATAGGTCGCCTGATGCTCATCGAA -GAACTGCTTATAGACTTCGTTGATGGTGGCAAAATCATTCAGATCGGTGATAAACACGGTCATCTTGATGATATC -GCCCACGCTCAGCCCGGCAGCAACCACGATCGCTTTGACGTTTTCGAGGCTTAAACGCGCCTGATCTTGCACATC -AGCCGGGATCTCACCGGTCTGTGGGCAAACCGGTATTTGCCCGGAGGTGAAGACCATGCTGCCTAAATCAACGCC -CTGAACATAAGGGCCGATTGCGCCTGGGGCACGTTGCGTTTCGATAATCTTTTTCATACATCCTCCGGCGTCAGA -GCGCCTGGGTAAAGGTACGTGAAATAACATCCTGTTGCTGTTCACGGGTCAGTGCGTTGAAGCGCACGGCGTAGC -CAGAGACACGGATTGTCAGGTTAGGATATTTTTCCGGGTGCTCGATGGCATCCAGCAGCATTTCCCGATTCATTA -CGTTGACGTTGAGGTGTTGACCGCCTTCGACATCCGCTTCGTGGTGGAAATACCCATCCAGCAGGCCGACAAGGT -TGGTTTTACGTACTGGATCTTCTTTGCCCAGCGCCGCAGGAACGATTGAGAAGGTGTACGAGATCCCATCTTTGG -CGTAGGTGAACGGCAGTTTCGCCACCGACGTCAATGAGGCCACGGCACCTTTGCGGTCACGACCATGCATCGGGT -TAGCGCCCGGCGCGAACGGTGTTCCGGCGCGACGACCGTCCGGCGTATTACCGGTTTTCTGGCCGTACACCACGT -TAGAAGTGATAGTCAGAATCGACTGGGTAGGGACGGCGTTGCGATAGGTTGGCAGCGCTTTAATTTTCTTCATAA -AGCGTTCAACCAGGTCGCAGGCAATGCTGTCTACGCGCTCGTCGTTGTTGCCGTACTGCGGATATTCACCGTCGA -TTTCAAAGTCCACCGCCAGGCCGTTTTCGTCACGGATTGGTTTCACGCGGGCATATTTGATGGCAGACAGGGAGT -CCGTCGCCACCGACAGGCCCGCGATGCCGCATGCCATAGTGCGATAGACATCACGATCGTGCAGCGCCATCAGCG -AAGCTTCGTAGCTGTACTTGTCGTGCATGTAGTGAATGATATTCAGCGCGCTGATGTACTGCACCGCCAGCCAGT -CCATGAAGTGATCGAGGCTGTCCATCACTTTGTCGTAATCCAGCACGTCGTCCATCAGCGGTGCTGTTTTCGGCC -CGACCTGAATCTTCAGCTTCTCGTCCACCCCGCCGTTAATTGCGTAGAGCAGCGTTTTCGCCAGGTTAGCGCGTG -CACCAAAGAACTGCATTTGCTTACCAATCACCATTGGGCTGACGCAGCAGGCAATCGCGTAATCGTCGCTGTTGA -AGTCAGTACGCATCAGATCGTCATTTTCATACTGCAAGGAAGAGGTGACGATCGACACCTGCGCGGCATATTTTT -TGAAGGCAATCGGTAATTCTTCCGACCAAAGAATGGTCAGGTTAGGTTCCGGTGCCGGCCCCATAGTGTGCAGGG -TGTGCAAATAGCGGAAGGAGTTTTTGGTCACCAGCGTACGACCGTCCAGCCCCATCCCGCCGATCACTTCCGTCG -CCCAGATTGGGTCGCCGGAGAACAGCGAATCAAATTCCGGTGTACGCAGGAAGCGTACCATACGGATCTTCATGA -TGAAGTGATCGATCAGTTCCTGTGCCTGCTGCTCATTGAGTACGCCAGCTTTAAAGTCGCGCTCAATGTAGATAT -CGAGGAACGATGCCGTGCGGCCCAGCGACATCGCGCCGCCATTTTGCGATTTCACTGCCGCCAGATAAGCGAAGT -AGAGCCACTGCACCGCTTCCTGCGCATTCTGCGCCGGGCGAGAGATATCAAAGCCATATTTCGCCGCCATTTCCT -GAATCTGCAACAGCGCATGACGATGCTCTGCCAGCTCCTCACGCAGACGGATGGTGGCTTCCAGATCCTCGCCTT -TTTCCAGACGAGACTGGAGATCGGCAAATTGCAGTTCGCGTTCACGTACCAGATAACTGATGCCATACAGCGCTA -CGCGGCGATAGTCACCGATAATGCGCCCACGGCCATAGCCATCTGGTAAACCGGTCAGCACGCCAGATTTACGGC -AGCGCAGCATATCCGGTGAGTAAACATCAAATACGCCCTGGTTATGGGTTTTACGCAGATCGGTAAACAGATATT -CAAATTCACTGTCCATTTCTCGGCCATAGGCGTGGAATGAACTTTTAATCATATTAATGCCACCGAACGGGTGTA -GCGCACGTTTCAACGGCGCATCCGTTTGCAGGCCAACAATTTTTTCCAGCGGCTGGTTAATATATCCCGCATCAT -GAGCGGTAATTGTGGTGGCAATATTGGTATCGAAATCAACCGGCGCGTGGGTTGCATTTTCGATACGGATGCCTT -CCATTACTTTTTCCCACAATTCCGTGGTGGCAGGCGTCGCTTCGGCGAGGAAAGATTCATCGCCTTCATACGGTG -TATAGTTATGTTGAATAAAATCGCGGACATTAATTTCGTTTTTCCAGTCCGTACCTTTAAAGCCAAGCCATGCGT -CGGCGTACAGCTTATCGCTGGTATCAATATCTACCTTCATGAAAAATAATCTCTCTACAATACTTCAACTAAATT -ATGCAAATTCTGCGGGCGCGTTAACTTTGCCTAAATGAATGGCATCCAAAGCAATCATTTTTTCTTCGTTAGTCG -GAATAACGGCACAAATGACACGCGCATTTTCACTGGAAACAATTCGCTCACCACAGGAGTTAGAGCGATTATTCA -TTTCTGTATCAATCTCTAAGCCTAATACAGCCAAATGTTCCATGACCAGACGACGAATTAAGCTTGAATTCTCTC -CTATTCCGCCGGTGAATATAATTCCATCCAGGCGACGTAATGAAGCTGCGTGTCCGGCAATATGACGGGCAATTC -GGTGAACAAAGGTTTTAATTGCCAGTTGCGCGCGTTCGTGACCTTCATGCCAGGCTTTTTCCAGAACACGTAAAT -CCGAAGAAAGACCGGAAATACCTAATAATCCCGACTCTTTATTCACTACGCGTTCCAGGTCACCCAGGCTCTGGT -TGGTTTGGCTGGCGACCCAGGACATCGCACCAAAGTCGACATCGCCACTGCGGGTACCCATCATCAAGCCTTCCA -GCGGCGTCATTCCCATTGAGGTATCAACACTCTGACCGTTGCGAACCGCGCAGATTGACGCGCCATTGCCAAGAT -GCGCCACAACCAGGCCGGAGTCATCTTCCGCCAGATTCAGCAGCGAATGTGCGCGCTGGGAAACATAGCGGTGCG -ACGTGCCGTGGAAACCATAACGGCGTACACCTAACTCTTCATAATATTTCCACGGCAGGCCGTATAAATAAGCTT -CCGGAGCCATCGTCTGGTGGAAACTGGTATCAAATACCGCCACCTGAGTTACGCCCGGAAATAATTGCTGCGCCG -ATTCAATACCACTTAAATTGGCGTAATTATGCAGGGGTGCCAGTGGAGAAACGCGACGGATATTATCAATGACTT -CATCGGTAATAATGGCGGACTCGGTAAAAATACTGCCGCCGTGAGCGATGCGGTGGCCAATTAAGGCCACACTGT -CATTTAAATTCCGTTTTTCCAGTTCAAATGCAATTGCCTTCAATGCACCTTCGTAGCTGTGGTGAGCCAGCGGTG -CTGGCTCTCCCCCATTTACGGATAAGAATGCATTTTCCGAGTTAATACCGTCGGCAATACCTGACATTAATACTT -CACAGTCGCTGGCATCGAGCACGGAAAACTTAATCGAAGACGAACCACAGTTAATAACCAAAACAACCGGAAATT -CATTCATCTCTTTTCTCATCCTGAGTTACGGATTAAAACAGTTTGTATACGATGTTCAGGATGGTCAGCAGACCA -ATCACGGTAACAAACACGTTATCCAGACGACCACGGTATTTCGCCAGAGACGGCGCTTTACGGATGGCATACATC -GGCAACAGGCACAGCAGGGATGCGATAATCGGTGCGCCCATGGCTTCAATCAGGTCAAGGATGTTCGGGTTGGCG -TAGGCAACAACCCAGGTGGAGCCCATGATGAAGATCATGCTGATAGTGTTCAGTTTACCCAGCGACACTTTAGTT -TTGTCGCCTTTATAACCAAACTTCAGGACCAGGCCATTCAGACCTTCCAGCGTTCCCAGATAGTGACCGAAGAAA -GATTTGAAGATAGCCACGAGTGCGATGATGGAAGCCGCATATTCCAGTGTAATCGCGAACGTTGTTTTGGTACCG -GTCATGGACGCAAAGTGGTTAGCCAGATAAGAAAGCACTGGAATATTCTGCGCTTTGGCTTCCGCCATGTTGGCC -GGAGACAGAGTAAACAGGCAGCTAAAGGCAAAGAACATCACCACTGCAACCATCAGCATGCTGGCACGAGAAATG -ATTTGGGAACATTTACGTTCGGTGAAGTCGCGACCGAAGTCTTTCTCATACTCTTCACGCTTAGAAACCACGAAG -GAAGAGACGATTGGCGAGAAGTTAAAGGAGAAAACCATGATGGAAATCCCCAGCCAGACAGTGATCAGGATACCG -TCATGACCGGTTAACGACAGCGAACCGAGGTCAACCTGGTCGATAACTGCAGAGTTCCAGTAAGGGATCAGCGAC -AAAGAAATCAGCACCAGGCTGGCGATAAACGGCCATACCAGGTAGCTCATCACTTTAACCATCAGATCCTTACCA -AACCAGATGACGAAAGCCATCAGCAGCAACAGGAACAGCGCCACAAAGCCGCGATTCAGCGGTGCAAAGCCGAGC -TGGTTTTCCCAGAACGTCATAAAGGTATTGGTAATAGTAACGCCATAAATCCACAGCAGTGGGCAAATCGCGAAG -AAGTACAGGAACGTGATAACCACGCCGCCAGTTTTACCAAAATGCTCTTCCACCGTTTCCGTAATGTTGCCGGAA -GGGTTAGAGCCAGAAAGACACAGACGCGCCAGCGCCCGGTGGCAATAAAACGCGATGGGGTATGCCAATACCAAC -ATCAGAAGAATCGGGATCAGTCCGCCAAAACCTGCGCGGATAGGGAAGAACAGCACCCCGGCGCCGATTGCCGTA -CCAAACAAGCCTAACGTCCATGTGGTATCTGATTTACGCCAGGACGATTGTTTTGTCTGGCTGGATACAATGCTA -TCTGAAGTACTCATATCCTATCCTCAACGAATTAATTAAGCGTCAACGAAACCGGTGATTTGAGAGACGCGAGAA -AGATCGATATTGCCGCCGGAAATAATACTGACGGTTTTTCTGTTTTGAATATATTGGTCTAATTTACCGCTTAAT -AATGCAGCACATGCCAGAGCGCCTGCGCCTTCGGTGACGACTTTATTGCGCTGAATTAAGGCAATCATACTGTTT -CTGATTTCGTCTTCGCTGACCAGCACGATGTCATCGACTAATTCACGAACGATTTCGTAAGTTAAATTACCCGGG -CGGGAGACATCACAACCATCCGCCAGGGTGCCGGTAGTTCGGTGCGTGGTTATTTCTCCGGAGTGGAAAGAAGCC -GCCATGCCGTGAACGTTTTCAGACTGTACGCCAATAACACGAATGGTCGGGTTAATAGATTTAATTGCCACCGCA -ATACCAGCAATTAAACCGCCACCACCAATTGGCACAATCACGTTATCGACATCATAGAGATCTTCCATAATTTCC -AGACCAATCGTTCCCTGGCCAGCAATCACTTTCGGATCATCGTAAGGTGGGATAAAAATACGGCCTTCCATTTCG -ACAATTTCGCTCACTTTAGCGATAGTGTCGTTGAAGTTATCACCATGCAGAACGACTTCTGCGGAGTAGTCGCAC -GTTGCCGCTACTTTGGATTTTGGCGCACCTTTTGGCATCACCACTTTACCGTCGATACCCAGCATCGCGCAGGAG -AGGGAAACCCCTTGCGCATGGTTGCCCGCAGAACAGGCCACCACGCCTTTGCGTTTTTCCGCATCGGTCAGTGAA -CTTAATTTATTAAATGCGCCACGAATTTTAAATGAACCCGTACGCTGCATATTTTCAAACTTCAGGAATATTTCA -CCTTTGCAACGTTCACTAAAATAGTTGGAGCGAGGCATGCCTGTTTTATAAATTCGCCCAGCCAGTCGTTGTTTC -GCTTCAATAATGTCATCAATAGCAACCGGCAGATCGTATGTAATATGCATTATAAAACCTCTTCGCCTGAATTAA -ATATGTAGGTAACCGTAACCGACACCTGCAAGACAGACAGGTGGATTATTTATGTTTAAATAAAAACAAATAACT -AACCAACTTCTATTAATTGCCTTCGTCTACACCCATTATAAGATGAATACTCTTTGGCTAATTCCACCAAAACCG -ATGCTGCTTTTTTAATACGATAATTTTTCGACCATACCGCGGCATATTGTGCCACAGGTAATGTTTCTTCAACCG -GAATAGTAATAAATTGATTAGAACCAAAAGGTGACGTCATATCACAAGGAATTACAGTTAAGAAATCAGCATTGA -GAACAAGATTATAAATTGTCACGACTGAGTCGGTTTTAACGATGTTTTCAATACTGATGCCATTTCTTTGTAACG -TAGTAAGCAGTTCGCTGTAGTACCCCATATTAGTTTGTGGCAACACCCACTGTTCGTTCTTCAACGACTCCAGCG -TGGTGGTGCCGGTGCATGTTCGGGACTTACTGGCTACCAGCACAAACTCGGACTCGAACAGCGGCTCAACATGTA -AATCCTGAAGCTTCATTTCTGCACTTAACGTACCAATCGCAAAATCCAGTCGACCGTCGCGGATTGCCGGTAAGA -ACGAAGACAGTTGCGCTTCATACATAGAAACCTGCGCTTTCGGGAACACCTCTTTGAACTTGTTGATCATCCCTG -ACATAAAAGTAAAACCAATCAATGAAGGAAAACCAAATGAGACTTCCACCACCGCCTCAGAAGACATACCGCTTA -TCTCATTAACCATATTTTTCATTTCACGGGTAATGGATTCGGAACGGGAGAGTAACAATTGACCGGCAGGTGTTA -ATGTTACACCGGTATTTTTCCGCACCACTAATTCCACACCAAAATAATCTTCAATATCGTTAATGATTTTACTGA -CGGCCGGTTGAGTTAACCCTAATTCTTTTGCAGCCGAGCCGATAGAACCACTTCTAATGACTTCCTGAAAGACTA -CCAGGTGCTGCGTTTTCGGAAGAAGAATAGTGCTCATAACGACCTACGTTAATTACCTCATTGACGGCATGAAGT -GTATCAAAATGAAATGAACAGGATATGTGCGACCACTCACAAATTAACTTTCAATACTTTCCAGAGTATCGTTAT -TACAATTAAATACCTTTAAATATCAACAAGTTAAAGTATAAAAATCAGCATAAACCCTGATTTTTGTCAAAAAAA -ATGACGGGGATAACCATATTTTATGGCGATAACATCATTCGTTATGTGGTTAATACAAAAAAGGGGCTGAGACCA -TATTTCAAGCAATTACCGGATAATTACCAGGCAAAATTTGAGTTAAATTTAATGAGCAAGTTCTCAAATTTTATT -ATAAATAAACCATTTTCAGTGATAAATAATGCGGCATGTCACATTTTTTCACGCTATTTGTTGGAGAACAAACAT -TTATTTTATCAATATTTTAAAATTTCGAATACATGTATTGATCATCTCGAACAATTGATTAACGTCAACTTTTTC -TCTTCTGACAGGACGTCATTTTGTGAATGCAATCGTTTTCCATAAATTCTTCTCCCCTCATAGGCGACGAATAGC -ATTTTGTGTTGAGGATCACAAAACGAATAATTGCTGATCGCCGCGATAAGGTCAGACAAAGACAACAAGGGAAAT -TTTCACAGAGCTTTTGATCGGCGTAGGCCACAGAATGTTGCTTCGTTTACTGTAACGCCGGGTAAATGAGCGTTT -TTTGATAGTGCGAAAGAACCCTGCGAGGAAAATAAGCATCTATTATTGTTTGTCATGATGACAAGGCAGGCATCA -ATGAAAGGCTTCCCAATTGCGCATATTTTTCACCCTTCAATCCCGCCAATGCACGCAGTGGTTAACAATCACAAT -AGAAATATTGATTATTGGACGGTAAAAAGAAAGTTTGCAGAAATTGTCTCCACCAATGACGTTAATAAAATTTAC -AGTATAAGTAATGAACTGCGGAGAGTATTATCTGCAATAACTGCATTGAATTTCTATCATGGCGATGTTCCTTCT -GTCATGATCCGAATCCAACCGGAAAATATGAGTCCATTCATTATAGATATTTCTACAGGAGAACATGATGATTAT -ATCATACAAACATTAGATGTAGGCACTTTTGCACCTTTTGGTGAACAATGTACTTGCTCAGCCGTCAATAAAAAA -GAGCTGGAATGTATTAAGGAGACGATTTCTAAGTATTGTGCAAAATTCACCCGAAAAGAAGCCATCTTAACCCCC -CTTGTGCACTTTAATAAAACCAGCATTACTTCAGATTGTTGGCAAATTCTCTTTTTTTCACCCGATCATTTTAAT -AATGATTTTTATTGATTATTTATAAAGGATAAAATAATGTTCCCTGTTTCATCAATTGGTAATGATATTAGTAGT -GATTTAGTCCGTCGAAAAATGAATGACCTTCCTGAAAGCCCAACAGGAAATAACCTCGAAGCACTAGCACCAGGT -ATAGAAAAACTAAAACAGACCTCTATTGAAATGGTCACTTTACTTAACACGTTACAACCTGGTGGAAAATGCATT -ATCACTGGTGATTTTCAAAAAGAATTAGCGTACTTACAAAATGTAATTCTTTATAATGTCTCGTCTCTTCGTCTG -GATTTTTTAGGTTATAACGCCCAAATTATTCAACGATCGGACAATACTTGTGAACTTACCATTAATGAACCGTTA -AAAAACCAGGAAATATCCACAGGTAATATCAATATTAATTGCCCATTAAAAGATATTTACAATGAAATCAGGAGG -TTAAACGTAATTTTTAGTTGTGGGACTGGAGATATCGTTGATCTATCCTCTCTGGACTTACGTAATGTCGATTTA -GATTATTATGATTTCACAGATAAACATATGGCTAATACTATTTTAAATCCTTTTAAATTGAATTCAACAAATTTT -ACTAATGCCAACATGTTTCAGGTTAATTTTGTTAGTTCAACACAAAACGCCACAATCTCCTGGGATTATTTACTA -AAAATAACGCCTGTTTTAATAAGCATTAGCGATATGTATTCTGAAGAAAAAATCAAGTTTGTCGAAAGTTGTTTA -AATGAGCCTGGAGACATTACCGAAGAACAATTAAAAATTATGAGATTTGCAATTATAAAATCTATACCAAGGGCA -ACTCTTACAGATAAATTAGAAAATGAATTAACAAAAGAAATATATAAAAGCTCATCGAAAATCATCAATTGCTTG -AACAGAATTAAATTAACAGAGATGAAAGAATTCTCATCAGAAAAAATATATGATTACATCGATATAATCATTGAA -GATTATGAAAATACCAAAGAAAATGCTTATCTGGTCGTCCCCCAAATTAATTATACTATGGATTTAAACATAGAA -GACTCTAGCTCAGAAGAGTTACTTTCAGATAATACCCTCGAGAAAGACGAAAATTCTCCGGACAATGGCTTTGAG -GTCGGGGAATATAACACATATGAAGCATATAACTCAGAGAAGCAATATTTTACCAGAGAGGACTATACGTATGAT -TACGACCTTTTAAATGCAATATAGACTTAATAACTTCTTACAAAGTCTATTATTAATACCGTAGATATTTATTCA -TCTTACCCTGTGCACCAAAAGCAAAAACTCACTGACGCGGGTTTGAAACTGATGGCAACCGCAAAAATGCCTGAT -GCGCTACGCTTATCAGGCCTACGCCATCTCTGCAATATATTGAATTTGCGTGCTTTTGTAGGCAGGATAAGGCGT -TCACGCCGCATCCGGCATGAATAAAGCGCACTCAACAATCTGAAACCCGCCGGAACGGTTTATTACGTACATCAG -GTAAAACTGACCGATAAGCCGCTTTCTTTTGGGTATAGTGTCGTGGACAGTCATTCATCTTTCTGCCCCTCCAAA -AGTAAAAACCCGCCGAAGCGGGTTTTTACGTAAAACAGGTGAAACTGACCGATAAGCCGCTTTCTTTTGGGTATA -GTGTCGTGGACAGTCATTCATCTTTCTGCCCCTCCAAAAGCAAAAACCCGCCGAAGCGGGTTTTTACGTAAACCA -GGTGAAACTGACCGATAAGCCGCTTTCTTTTGGGTATAGCGTCGTGGACAGTCATTCATCTTTCTGCCCCTCCAA -AAGCAAAAACCCGCCGAAGCGGGTTTTTACGTAAATCAGGTGAAACTGACCGATAAGCCGGGTTCTGTCGTGGAC -AGTCATTCATCTAGGCCAGCAATCGCTCACTGGCTCAAGCAGCCTACCCGGGTTCAGTACGGGCCGTACCTTATG -AACCCCTATTTGGCCTTGCTCCGGGTGGAGTTTACCGTGCCACGGACTGTTACCAGCCGCGCGGTGCGCTCTTAC -CGCACCCTTTCACCCTTACCTGATCCCGCTTGCGCGGGCCATCGGCGGTTTGCTCTCTGTTGCACTGGTCGTGGG -TTTCCCCCCCAGGCGTTACCTGGCACCCTGCCCTATGGAGCCCGGACTTTCCTCCCCTCCGCCCGTCTCCCCCGA -AGAGGACGACGACGAAGCGGCGACTGTCTGGTCAGCTTCGGCGCGCAGTATAGAGGGTTTGCGCGCCCTTGTCAC -CCCGCGTTGCGCATTCCAATCGCCAGTGTCGCGGCGATATTACGTGAAGCACGGCAGATATTGTCATAAGCCCCG -CGGAATGCTTCGTCCAACGTACCTATGCTGGTCAATACGCTGAAGACCGCATCAATGCCATGCTGATGTACAACG -CCAACATCATCGGTCAGGCTACCCGCAATGCCAATCACCGGTTTATGGTACTTCTTCGCCACGTTTGCGACACCA -ATCGGTACCTTCCCGTGAATACTCTGGCTGTCAATACGCCCTTCACCGGTGATCACCAGCGTACAATCGTGAATA -TGTTCCTCCAGATTCAGCGCCGTAGTGACGATTTCAATACCACTTTTCAGTTCCGCACCAAGAAACGCCATTAGC -GCCGCGCCCATACCACCCGCAGCTCCTGCACCGGGGACATCTTTCACATCAACATGCAGCGCTTTTTTAATGACC -TCGGCATAGTGAGAGAGGTTATTGTCCAGCTCAACAATCATCGCTTCACTGGCTCCCTTTTGTGGGCCAAAGATG -CGCGATGCGCCGTTATCGCCCACCAGCGGATTGGTGACATCACAAGCGACGCGAATGACGCAATCTTTTAAGCGC -GGATCGAGGCCGGAAATATCAATATCATTCAGAGTATTAAGACTACCGCCGCCAAAACCAATTTCATTGCCGTTG -GCGTCGCATAATTTCGCCCCCAGCGCCTGTACCATGCCTGCGCCGCCATCATTTGTAGCGCTGCCGCCAATGCCG -ATAATAATGTTTGTCGCACCGCTCTCCAGCGCCTGCAGGATTAACTCGCCTGTGCCGCGTGAAGTGGTCACGAGT -GGATCGCGTTTTTCCGCAGGTACCAGCTCCAGCCCACTGGCCGCCGCCATTTCAATAAACGCGGTTTTGCCATCG -CCGGAGATCCCCCAACTGGCATTCACTTTCTCGCCCAGCGGCCCTGTAACCCAGGCGTGACGTTCAGCCCCCTGG -GTGGCTGCAATCATCGCTTCCACCGTTCCTTCGCCACCGTCGGCAACCGGAACAGAAACGTACTGTGCATCAGGA -AAAATTTCCCGAAATCCTTTTTCTATCGCCTGCGCAACCTCGCTGGCAGATAAACTTTCTTTATAAGAGTCTGGG -GCGATTACGATTTTCATACCTATGCCTGTTACCACATGACGCCGGAGGGCGTTTCTCTTATTCGGCCTGGATTCC -AGGCCCGGATTGCAATACGCCATCCGGGCACGACGTCATTAACGAGTAACTTCGACTTTCGCCAGTTTTTCGTAG -TAGCACGCCAGGGCGCTATGATCCGCCGTTCCTAAACCATCTGCTCGCAGTGCCTGCATCATCTCCATAACCGCA -GCTGTGAGCGGCAGTTGTGCGCCGACGCCGTGAGAAGTATCCAGCGCATTCGCCAGATCCTTAATATGCAGATCA -ATACGGAAGCCCGGCTTGAAGTTGCGGTCCATCACCATCGGCGCTTTGGCATCCAGCACGGTACTGCCCGCCAGT -CCACCGCGAATTGCCTGATAAACCAGGTCCGGGTTAACGCCCGCTTTAGTTGCCAGCGTTAACGCTTCTGACATC -GCGGCAATATTCAGCGCCACAATGACCTGATTTGCCAGTTTGGTGACGTTACCTGCACCGATTTCCCCGGTATGC -ACCACGGAACCCGCCATCGCTTTCATCAAATCATAGTATTTGTCGAAAATAGCCTTGTCGCCGCCCACCATCACT -GACAGCGTACCGTCGATGGCTTTCGGTTCACCGCCGCTCACCGGAGCATCCAGCATATCAATGCCTTTCGCTTTC -AGCGCTTCGCTGATTTCACGGCTTGCCAGCGGTGCGATAGAACTCATATCGATCAATACCGTACCTGGCTTCGCG -CCTTCAATAATGCCATTCTCACCCAGCGCCACCTCTTTCACATGAGGGGAGTTTGGCAGCATGGTTATGATGACG -TCGCACTGTTCAGCGATCGCTTTAGCCGTAGACGCTGTTTCTGCACCTGCAGCAATCACGTCAGCAATAGCTTCT -GGGTTACGGTCAGCAACCACCAGCGAGTAACCTGCTTTCAGAAGGTTTTTACTCATTGGTTTACCCATAATCCCC -AGGCCAATAAAACCAACTTTCATAGTCATATCAATCATCTCTCTTGTTGCGGTGGTGGTTATTTTTTAAAGGTAT -CAGCCAGTTTCTGAGTGGCAGAGCGGAAGACGCCGAGATCGCTGCCGACAGCCACAAACGTCGCGCCCCATTCCA -GATAACGACGCGCATCGGCTTCGACCGGCGCGAGGATACCGCTGGGTTTGCCGTGCGCGCTGGCACGGTTAAAAA -TGTGCTGAATTGCTTTTTGTACATCCGGGTGTGATGCATTGCCGAGATGGCCTAATGCCGCGGCCAGATCGCTGG -GGCCGACGAAGATGCCGTCTACGCCTTCGGTAGCGGCAATGGCATCGACGTTATCTACGCCCTGCTGACTTTCTA -TCTGGACCAGAATAGTGATGTTCTTGTTCGACTGAGCGAAATAATCCGCCACGGTGCCAAACATATTGGCGCGGT -GAGAAACGGAGACGCCGCGAATGCCTTCCGGTGGGTAACGGGTTGATGCCACCGCCAGCTCTGCTTCCTCTTTTG -TTTCTACAAAAGGAATCAGGAAGTTATAGAAACCGATATCCAGAAGACGCTTAATAATTACCGGCTCGTTGGTCG -GCACTCGCACTACTGGCGCGCTGGCGCTGCCTTTCAAGGCCATTAACTGCGGAATAAACGTGGAGATATCGTTTG -GCGCATGTTCGCCATCCAGCACCAGCCAGTCAAACCCAGCCAAACCAAGAACTTCAGTGCTAATCGGGTTAGAGA -GTGCTGACCAGCAACCAATTTGTACCTGTTTCGCAGCCAGTGCGGCTTTGAATTTATTCGGGAAAACATCGTTAT -TCATCGCTTATACCTTTGCTTATTTCTGCAATTCCATACGTTTAATGTCGCCAACTACGAAGAGGTAGCAGACCA -TCGCCATCAGCGCTGAACATCCCACGAAAACCAGTGCTGCATTGAAGGAGTGCAGTTCACTTACCAGGTAGCCAA -TCACCAGTGGAGTGACAATGGAGGCAACATTGCCAAAGACGTTAAAGACGCCGCCGCAGAGGCCAACAATCTCTT -TCGGCGCGGTGTCAGAAATCACCGGCCAGCCCAGCGCACCAAATCCTTTGCCAAAGAAAGCCAGCGCCATCAGCA -TGACCACCAGCGTGGTGTTGTTGGTGTAGTTACATAAGATGATGGTGGAAGCCAGCAACATTCCCAGCACAATCG -GTAGCTTACGTGCCAGGGTCAGGGATAAACCGCGTTTGATCAGATAATCCGAGAAGACACCTCCCAGCACGCCGC -CCGCAAAACCACACAGTGCTGGAATCGAGGCGACCAGACCCACTTTCAGAATCGACATGCCTTTTTCCTGCACCA -GATAAATCGGGAACCAGGTGAGGAAGAACCAGGTGATGGTGTTGATAAAATATTGTCCGAAAAATACGCCCAGCA -TCATGCGGTTAGAGAGCAATTGCTTGATGTAATGCAGTTTGGGTCCGCTTGCTGCCGCACTGCCCGGCTTTTTGT -GGTCCATATCGACCACCGCGCCATTTTCAGAGATAAACTTCAGCTCTTCCGCAGACATACGTGGGTGATCTGTCG -GGTTATGAATCAACTTGATCCACAGCGCCGTCAGCACAAAACCAATCACCCCCATAACGGTAAAGACGTGCTCCC -AGCCCCAGGCGAAAGTCAGCCAGCCAAGCAGCGGCGAAAAGAGCGCCAGCGAGAAATATTGCGCCGAGTTAAAGA -TGGCGGAGGCAGTACCACGTTCTTTCGTCGGGAACCAGGCGGCGACAATTCGGGCGTTCGCCGGGAATGATGGCG -CTTCCGAGAAGCCGAGCATAAAGCGCATAAAGAACATGGAGATCCCTGCCCAGGCCAGCGGGAACATATCAACAA -AGCCTTGCAGGAAGGTGAATAGCGACCAGAAAAAGAGGCTGTAGGTGTAAACTTTTTTCGAGCCAAACTTATCAA -GCAGCCAGCCGCCGGGGATTTGCATCAGCAAGTAGGCCCAGCCAAAAGCGGAGAAGATGTAACCCATCGAAACCG -CACTTAACTGCAACTCTTTTGCCACTTCGGTACCAGCAATAGACAGCGTTGCACGATCGGCGTAGTTAACGGCGG -TAACAATAAAAATAATCAGTAATATTAAATAGCGGGTATGCACGCCTTTCTTTTTTTCGTCAACGGTGTCCAGAA -TCATTTTATTTACCTCGGGTACTTATGCTGATTTTTATTATTATGGGGAAGGTGTTATTTATGAGTTTCATTTAT -GCCGTAACGACAATGAACTCGGGAATTAGTATAAGCAGCGCGAGAATAATAATCATTGTGCAAATGCTAATTTAA -TTAATACTATTTAAATATTATTTTGAGCATATGCACATAAGGTTGCGCGCTAAAGCACAGATTTGCGCTTTACCT -TACCGGGCGGCACTGCAATCCCTGAAATGATTGACATTGATCACATTTCTGCGTTTAAACTCCTGACATTCTTAT -TTCACCCAATGAAGTCATTTATTTTTAAATGAGACCAGGTCCTCATTTTAATAACCCCTGGCTGGAGAATATTGC -ACAATGGCCAACATCGAAATCAGACAAGAAACGCCAACTGCGTTTTATATAAAAGTTCACGACACAGATAATGTG -GCAATTATTGTTAATGATAATGGCCTGAAAGCAGGAACGCGTTTTCCGGATGGGCTGGAATTAATTGAACATATT -CCCCAGGGGCATAAAGTCGCATTGCTGGACATTCCGGCTAATGGTGAAATTATTCGTTATGGCGAAGTGATTGGT -TACGCCGTGCGTGCAATCCCACGCGGAAGCTGGATCGACGAATCAATGGTTGTACTACCGGAAGCGCCGCCGTTA -CACACGCTGCCACTGGCAACCAAAGTCCCGGAACCCTTACCGCCGCTGGAAGGATACACCTTTGAGGGCTATCGC -AATGCCGATGGCAGCGTGGGCACCAAAAACCTGCTCGGTATCACCACCAGCGTCCACTGTGTGGCAGGCGTGGTG -GACTATGTAGTAAAAATCATTGAACGCGATCTGCTACCGAAATACCCGAACGTCGATGGCGTGGTGGGGCTGAAT -CATTTGTACGGTTGTGGCGTGGCGATTAACGCACCGGCGGCAGTTGTACCTATCCGTACCATTCACAATATTTCG -CTGAATCCTAACTTTGGCGGCGAAGTAATGGTGATTGGCCTGGGTTGTGAAAAGTTGCAGCCTGAGCGCCTGCTG -ACTGGAACGGATGATGTGCAAGCTATTCCAGTAGAAAGCGCCAGCATTGTCAGTTTGCAGGATGAAAAGCATGTC -GGTTTTCAGTCCATGGTCGAGGATATTTTGCAGATCGCCGAACGCCATCTACAAAAACTGAATCAACGGCAGCGA -GAAACCTGCCCGGCTTCAGAACTGGTCGTTGGTATGCAGTGCGGTGGCAGCGATGCGTTTTCTGGTGTAACGGCA -AACCCGGCGGTTGGCTATGCGTCTGATCTACTGGTGCGCTGCGGCGCAACGGTGATGTTTTCAGAAGTAACGGAA -GTGCGTGACGCGATCCATCTGCTGACACCACGCGCAGTGAACGAAGAGGTCGGCAAACGGCTGCTGGAGGAGATG -GAGTGGTACGATAACTATCTCAATATGGGAAAAACCGACCGCAGCGCCAACCCTTCGCCGGGCAACAAGAAAGGC -GGTCTGGCAAACGTGGTAGAGAAGGCACTCGGCTCCATTGCTAAATCGGGTAAAAGCGCAATTGTTGAAGTGCTG -TCGCCCGGTCAACGCCCGACTAAACGCGGATTAATTTACGCCGCGACGCCAGCCAGCGATTTTGTCTGTGGCACG -CAACAGGTGGCTTCGGGTATCACAGTGCAAGTGTTTACGACCGGTCGTGGTACGCCGTACGGCCTGATGGCGGTA -CCCGTCATTAAAATGGCAACCCGCACCGAGCTGGCGAACCGCTGGTTTGATTTAATGGATATTAATGCGGGCACC -ATCGCTACCGGCGAAGAAACTATTGAAGAGGTGGGCTGGAAGTTGTTCCACTTTATTCTCGACGTCGCCAGCGGG -AAGAAGAAAACCTTCTCGGATCAATGGGGGCTGCATAACCAGCTGGCGGTGTTTAACCCGGCACCGGTGACCTGA -TTTCTTTTGGAACGTCCCTCGCAAAACATGGCCTTAGTGCCATGTTTTTATTGTTTAAAGCCCCCACGTCCATTA -ATAATGCATTTGCATTACCTTAGTTCAAGCTTATAATTTGAGCAGAAAACAGGCTGTAAAAGGACAGTGAATCAT -GCCCGCTAATGCTCGCTCTCACGCTGTACTGACCACTGAATCAAAGGTCACGATACGCGGACAAACAACTATCCC -CGCGCCAGTGCGTGAGGCCTTAAAACTGAAGCCAGGCCAGGACAGCATTCATTACGAAATTCTGCCTGGTGGGCA -AGTATTTATGTGCCGACTGGGAGATGAACAGGAGGATCATACTATGAATGCATTTTTGCGTTTTCTGGATGCAGA -TATCCAGAACAACCCGCAAAAAACTCGTCCATTCAACATTCAACAAGGAAAGAAACTTGTCGCTGGCATGGACGT -CAACATTGATGATGAGATTGGCGACGACGAATAATGGATTTTCCACAAAGGGTTAATGGTTGGGCGCTATATGCT -CATCCCTGTTTTCAGGAAACCTACGACGCTTTAGTTGCCGAAGTCGAGACATTAAAGGGAAAAGATCCTGAAAAT -TATCAGAGAAAAGCCGCCACAAAGTTATTGGCGGTAGTCCATAAAGTGATTGAGGAGCATATCACGGTCAATCCA -TCATCACCGGCATTCCGTCATGGCAAGTCGTTAGGCTCTGGGAAAAATAAAGACTGGTCACGGGTAAAATTTGGT -GCTGGTCGTTATCGTCTCTTCTTTCGTTATAGTGAAAAAGAGAAAGTCATCATTCTGGGATGGATGAACGATGAA -AACACTCTGCGCACCTACGGTAAAAAAACAGATGCCTATACCGTATTCAGCAAAATGTTAAAAAGAGGACATCCT -CCTGCCGACTGGGAAACCCTCACCCGAGAAACAGAAGAAACCCATTGATGGTGTTCACAATGCCCGCCGAACGCA -TTCGTGTTGACCAGCGGGCATCCTTTCTCACTCCCCGACCAGAATCACTTCAACCCCAGCCTTTCGCAGTCCTTC -CAGGCTATCCGCAGGAATGCCTTCATCAACAATGATCATGTCGATACGTTGAGTATCAATGATCTTATGTAAACT -GGAACGATTGAACTTACTGGAATCGGTGACCACGATGATCCGTTCCGCAACTTCGCACATCCGACGGTTTAAACG -AGCTTCATCTTCATTATGTGTGCTGACGCCGCGCTCCAGATCGATCGCATCTACACCAAGAAACAGCATATCGAA -GTGGTAATTTTGCAGCGATTGCTCAGCCTGATCGCCGTAAAAAGATTGCGACTGACGGCGCAAATGCCCGCCGGT -CATCAGCAGCTCAACGCCTTCCGCTTCCAGCAACGCATTAGCCACGTTCATACCGTTGGTCATCGCAATTACGTC -AGTGTGCTTGCGCATCAGACGAGCAATCTCAAAAGTGGTGGTCCCGGAATCGAGGATAACCCGATGACCTGGCTG -AATCAACTCAACGGCAGCTTTCGCAACGCTGCGTTTCATCGCGGTGTTCAGTGCGCTTTTATCTTCCACTGATGG -CTCGACTGACGGCGTCGTGCTATCGCAGATCAACGCGCCACCATAGGCACGCACAGCGATCCCCTGCTTTTCCAG -AAACGCCAGATCGTTGCGGATCGTCACAGTAGATACGCCATACAATGCCGACAGATCGTTAACCTGCACACTCCC -TTGCTGTCGCAGACGCTGAATGATCTGTTCTCGTCGCTCGCTGGTGCCAGTCACTCGCTTCTCACCTGAAGCGTC -GGTATTACTCATAGTAAGTCCTTTCGTAAAACTTTCGTTTCATTTCGTTTTGCCTATTAACGCCTTTCTATTAAG -CAAATGCAAGCCCACCTTGCCCATTGACGCAAGCTACTCTCGTTTCAGTGACTTTCATTATGTTTCTTTTGTGAA -TCAGATCAGAAAACCATTATCTTTCGTTTTATTTTTATCTCACCATGACGCAGTATCAACTGAAACAAAACGAAA -GATTAATATCGCAGTAATCTGAACTGGAGAGGAAAGTGAAACATCTGACAGAAATGGTGAGACAGCACAAAGCGG -GCAAAACAAATGGAATTTATGCCGTTTGTTCCGCACATCCGCTGGTGCTGGAAGCTGCAATCCGCTACGCCAGTG -CAAACCAAACGCCGTTACTGATTGAAGCAACCTCCAATCAGGTAGACCAGTTCGGCGGTTATACCGGAATGACGC -CCGCCGATTTTCGCGGCTTTGTTTGTCAGCTCGCCGACTCGTTGAATTTCCCGCAGGATGCGTTGATTCTGGGTG -GTGACCATCTGGGGCCAAACCGCTGGCAAAACCTGCCGGCCGCTCAGGCAATGGCCAATGCCGATGATTTGATTA -AAAGCTACGTTGCGGCAGGATTCAAAAAAATCCACCTTGATTGCAGCATGTCCTGTCAGGACGATCCGATTCCCT -TAACTGATGACATCGTGGCTGAACGCGCCGCCCGTCTGGCGAAAGTGGCGGAAGAAACCTGTCTTGAACACTTTG -GCGAAGCCGATCTGGAGTATGTCATTGGTACCGAAGTGCCGGTACCTGGCGGCGCGCATGAAACCTTAAGCGAGC -TGGCGGTCACCACGCCGGATGCCGCCCGCGCCACGCTGGAAGCCCATCGTCACGCCTTTGAAAAGCAAGGTTTGA -ATGCCATCTGGCCACGCATCATTGCCCTGGTGGTTCAACCCGGCGTCGAATTCGATCACACCAACGTTATTGATT -ATCAGCCCGCCAAAGCGAGCGCCTTAAGCCAGATGGTCGAAAACTACGAAACGCTGATTTTCGAAGCGCACTCTA -CCGATTATCAAACGCCGCAATCGCTGCGCCAGCTGGTGATTGACCACTTTGCCATTCTGAAAGTTGGCCCAGCGC -TGACCTTCGCCCTGCGTGAAGCTCTGTTCTCTCTGGCGGCGATTGAAGAAGAACTGGTGCCAGCGAAAGCCTGTT -CTGGTCTGCGTCAGGTGCTGGAAGACGTGATGCTCGACCGCCCGGAATACTGGCAAAGCCACTACCACGGTGACG -GCAACGCGCGTCGTCTGGCGCGTGGTTATAGCTACTCGGATCGCGTGCGCTATTACTGGCCGGACAGCCAGATTG -ATGACGCTTTCGCTCATCTGGTACGTAATCTGGCGGATTCACCAATTCCGCTGCCGCTGATCAGCCAGTATCTGC -CGCTGCAGTACGTGAAAGTTCGCTCCGGCGAGCTGCAGCCAACGCCACGGGAACTCATTATCAACCATATTCAGG -ACATCCTGGCGCAGTACCACACAGCCTGTGAAGGCCAATAAGCAAAACAAAGAGGAACACGCTATGCCAAATATT -GTTTTAAGCCGGATTGATGAACGCTTGATTCACGGTCAGGTCGGCGTTCAATGGGTCGGATTTGCGGGGGCAAAT -CTGGTGCTGGTAGCCAACGATGAGGTTGCCGAAGATCCGGTACAACAAAACCTGATGGAAATGGTACTGGCAGAA -GGGATCGCCGTACGTTTCTGGACGCTGCAAAAAGTTATCGACAACATTCATCGCGCCGCCGATCGACAGAAAATC -CTGCTGGTTTGTAAAACACCCGCCGATTTCCTGACGCTGGTGAAAGGTGGCGTTCCGGTGAATCGCATTAACGTT -GGCAATATGCACTACGCCAATGGCAAACAACAAATCGCCAAAACGGTTTCTGTGGATGCGGGCGATATCGCAGCA -TTTAACGACCTGAAAACCGCTGGGGTGGAATGCTTCGTTCAGGGCGTCCCGACAGAGCCTGCTGTGGACCTCTTT -AAATTACTTTGAGGGATTCATCATGGAAATCAGCCTGTTGCAGGCATTTGCGTTGGGCATTATCGCCTTTATCGC -TGGCCTGGATATGTTTAACGGCCTAACCCATATGCACCGCCCGGTGGTCCTCGGCCCGTTGGTCGGGCTGGTACT -TGGCGATCTGCATACCGGAATTTTAACCGGCGGTACGCTGGAACTGGTGTGGATGGGGCTGGCCCCGCTGGCGGG -CGCACAGCCGCCTAACGTGATTATCGGTACTATCGTCGGCACGGCGTTTGCCATTACTACTGGCGTGAAACCCGA -TGTCGCAGTAGGTGTCGCCGTACCTTTCGCTGTCGCAGTACAGATGGGGATTACCTTCCTGTTCTCGGTGATGTC -CGGCGTGATGTCTCGCTGCGACCTGGCAACAAACCCGCGCCGCATTTGATGCTGGTGCCGACGGCCTGGTGCATT -GCTATAACGGGATGACAGGTTTACATCACCGCGAACCGGGAATGGTTGGCGCGGGATTAACGGACAAGCGCGCCT -GGCTGGAACTGATAGCCGATGGTCATCATGTGCATCCGGCGGCAATGTCGCTGTGTTGTTGCTGTGCGAAAGAGA -GAATCGTACTGATCACCGACGCGATGCAGGCAGCTGGGATGCCGGATGGTCGCTATACGTTATGTGGTGAAGAAG -TGCAGATGCACGGTGGCGTTGTCCGTACCGCGTCTGGTGGGCTGGCGGGCAGTACGCTGTCTGTTGATGCGGCAG -TGCGCAATATGGTCGAGTTGACGGGCGTAACGCCTGCGGAAGCCATCCATATGGCGTCGCTGCATCCGGCGCGAA -TGCTGGGTGTTGATGGTGTTCTGGGATCGCTTAAACCGGGCAAACGCGCCAGCGTCGTTGCGCTGGATAGCGGGC -TACATGTGCAACAAATCTGGATTCAGGGTCAATTAGCTTCGTTTTGATAGTTTGCTCCTTTATTGGGCCTTCACT -TCCCCCGTAAGGCCTTTCTTTTTCTTTCGTTTTGATCTGTGCAGCGGTGTCGGATGCGACGCTAACGCGTCTTAT -CCGACCTACAGTTGGTGACCGCAAGGCCGGATAAAGCGTTTGCGCCGCATCCAGCAATCCCTTTTGCTTCCTTTA -TCTTTTCTTTCAACGATCACAAATTTCGTTTTATTTCTTTTTTCTCCATTGAACTTTCAGTTTCTTTTCTATAGA -TTTTAATCAACGAAAGACATCACCAAGTGAAATGAAACGAAAGGCAAGTGAAAGCGACAACGCCCGACGTCAAGT -TCATCAGACTAAGGATTGAGTTATGCCAGAAAATTACACCCCTGCTGCCGCCGCAACCGGTACATGGACTGAAGA -AGAGATCCGCCATCAGCCTCGCGCATGGATCCGTTCACTCACCAACATCGACGCGCTACGTTCCGCGCTCAATAA -CTTCCTTGAACCGTTACTGCGCAAAGAGAATCTGCGGATCATCCTGACCGGAGCCGGAACGTCGGCATTTATCGG -TGACATCATCGCGCCGTGGCTCGCCAGCCATACCGGTAAAAACTTCAGCGCCGTACCGACCACCGATCTGGTCAC -CAATCCGATGGACTACCTGAACCCAGCTCATCCGCTGCTGTTGATCTCCTTCGGTCGATCCGGCAACAGCCCGGA -AAGCGTCGCAGCCGTGGAACTGGCAAATCAATTTGTACCGGAATGCTATCACCTGCCGATCACCTGCAACGAAGC -GGGCGCTCTTTACCAAAACGCGATCAACAGCGATAACGCGTTTGCCCTGCTGATGCCCGCAGAAACGCACGATCG -CGGCTTTGCGATGACCAGCAGCATTACCACCATGATGGCCAGCTGCCTCGCGGTTTTCGCACCTGAGACGATCAA -CAGCCAAACCTTCCGCGACGTGGCGGATCGTTGCCAGGCGATCCTGACCTCACTGGGCGATTTCAGCGAAGGTGT -GTTTGGTTACGCACCGTGGAAACGGATCGTTTATCTCGGTAGCGGTGGCTTACAGGGCGCAGCACGCGAGTCGGC -GCTGAAAGTGCTGGAACTGACGGCGGGTAAACTGGCGGCCTTTTATGATTCTCCAACCGGATTCCGTCATGGACC -AAAATCGCTGGTCGATGACGAAACGCTGGTGGTGGTATTTGTCTCCAGCCACCCTTACACCCGTCAGTATGATCT -TGATCTGCTGGCTGAACTTCGCCGTGACAACCAGGCAATGCGTGTAATCGCCATCGCCGCGGAAAGCAGCGACAT -CGTCGCTGCCGGTCCACATATCATCCTGCCACCGTCACGTCACTTTATCGACGTTGAGCAGGCATTTTGCTTCCT -GATGTACGCCCAGACGTTTGCACTGATGCAGTCGCTGCACATGGGCAATACGCCGGATACCCCATCAGCCAGTGG -CACCGTTAACCGCGTGGTGCAAGGCGTAATCATTCATCCGTGGCAGGCATAAGAGGATCGCATTATGAGCATTAT -CTCCACTAAATATCTGTTACAGGACGCCCAGGCCAATGGCTACGCGGTGCCTGCTTTTAACATTCATAACGCCGA -GACGATCCAAGCGATCCTCGAAGTGTGCAGTGAAATGCGATCGCCGGTGATCCTCGCCGGAACGCCGGGGACCTT -TAAACACATCGCGCTGGAAGAGATCTACGCCCTGTGTAGCGCCTATTCCACAACCTACAACATGCCACTGGCGCT -GCATCTCGACCACCACGAATCGCTGGATGATATTCGCCGTAAAGTCCACGCAGGTGTGCGCAGTGCGATGATCGA -CGGCAGCCACTTCCCGTTTGCCGAGAACGTGAAGCTGGTGAAATCGGTTGTTGACTTCTGCCACTCACAAGATTG -CAGCGTGGAAGCAGAACTGGGCCGCCTGGGCGGTGTTGAAGATGACATGAGCGTTGACGCCGAAAGTGCATTCCT -GACCGATCCACAAGAAGCTAAACGCTTTGTCGAACTGACTGGCGTCGACAGCCTGGCGGTAGCGATTGGTACGGC -GCACGGCTTATACAGCAAAACGCCGAAGATTGATTTCCAGCGGCTGGCGGAAATTCGTGAAGTGGTGGATGTTCC -TCTGGTGCTGCATGGTGCCAGCGATGTTCCGGATGAATTTGTCCGTCGCACTATTGAACTTGGCGTCACAAAAGT -GAACGTTGCCACAGAATTAAAAATAGCCTTCGCTGGCGCGGTTAAAGCCTGGTTTGCGGAAAATCCGCAGGGTAA -TGATCCTCGTTATTATATGCGCGTCGGAATGGATGCGATGAAAGAAGTTGTCAGAAATAAAATTAATGTCTGTGG -TTCAGCGAATCGAATTTCAGCATAATCATTAGTTTTTTATGATTTATCCCAATGTACTTCCCGATTAATATCGGG -GAGTGCCTTAATGGAAAAGGAGATAACTAAACCTTAATAAATACATCACTACAATATCGCAACAATAATATATTT -AAAAAAATTATATTATTCAACTTTATGGTGAGGATTACACAATGACCAGTCCAAATATTCTCTTAACCCGTATTG -ATAACCGTCTGGTTCACGGTCAGGTTGGCGTGACCTGGACATCCACCATCGGTGCAAATCTGCTGGTAGTCGTGG -ATGATGTTGTCGCTAACGATGATATTCAACAGAAATTAATGGGTATTACCGCGGAAACCTACGGCTTTGGCATTC -GTTTCTTTACTATCGAAAAAACCATTAACGTCATCGGCAAAGCTGCACCACATCAGAAGATCTTCCTGATTTGCC -GTACGCCACAAACGGTACGTAAATTGGTAGAAGGTGGTATTGACCTGAAAGATGTCAACGTCGGCAATATGCATT -TCTCGGAAGGGAAAAAGCAAATCAGCAGTAAAGTTTATGTCGATGACCAGGATCTCACGGACTTACGTTTTATTA -AACAACGTGGCGTGAATGTTTTCATTCAGGACGTCCCTGGCGATCAAAAAGAACAAATCCCTGACTAAATCTAAA -ATCGCCTTAATATTGGTTTGAGGTAATAAAAATGCATGAAATAACCCTACTTCAGGGATTATCCCTGGCGGCGTT -AGTTTTTGTTCTGGGGATTGATTTTTGGCTGGAAGCCTTATTTTTATTCCGCCCGATAATCGTTTGTACCCTAAC -TGGCGCTATTCTCGGTGATATTCAGACTGGCTTAATTACCGGTGGTCTGACAGAGTTGGCTTTCGCCGGATTAAC -CCCTGCAGGTGGTGTTCAGCCGCCCAACCCGATTATGGCGGGTCTGATGACCACCGTCATTGCATGGTCTACGGG -CGTTGATGCCAAAACAGCAATTGGTCTTGGCCTGCCGTTTAGTTTGTTAATGCAGTACGTCATTCTGTTCTTCTA -TTCCGCTTTCTCATTATTTATGACCAAAGCCGATAAATGCGCGAAAGAGGCGGATACGGCAGCGTTTTCCCGGCT -TAACTGGACAACGATGCTCATCGTCGCTTCAGCGTATGCGGTGATTGCTTTCCTCTGTACTTACCTGGCACAGGG -GGCGATGCAGGCGCTGGTGAAAGCGATGCCCGCCTGGCTGACCCACGGCTTTGAAGTGGCTGGCGGTATTCTGCC -TGCCGTTGGTTTTGGCTTGCTGCTGCGCGTAATGTTCAAAGCGCAATATATCCCTTACCTGATCGCCGGTTTCCT -GTTTGTTTGCTACATCCAGGTCAGCAACCTGTTGCCGGTTGCCGTACTGGGCGCAGGCTTTGCGGTGTATGAGTT -TTTCAATGCGAAATCCCGGCAGCAAGCGCAACCGCAGCCCGTTGCCAGTAAAAATGAAGAAGAGGACTACAGCAA -TGGGATCTGAAATCAGTAAAAAAGATATCACCCGTCTGGGCTTTCGTTCGTCGCTGCTGCAAGCGAGCTTTAACT -ACGAAAGGATGCAGGCGGGCGGTTTTACCTGGGCGATGTTGCCGATCCTGAAAAAGATTTATAAGGACGACAAAC -CGGGCTTAAGCGCGGCGATGAAAGATAACCTCGAATTTATTAATACCCACCCGAATCTGGTCGGATTCCTGATGG -GGTTATTAATTTCGATGGAAGAAAAAGGAGAAAACCGCGACACCATTAAAGGCCTCAAAGTGGCACTGTTTGGCC -CAATCGCCGGGATTGGCGATGCGATTTTCTGGTTTACTTTGTTGCCGATTATGGCGGGAATTTGCTCATCATTTG -CCAGCCAGGGAAACCTGCTGGGGCCGATTCTATTTTTCGCCGTTTACCTGCTTATCTTTTTCCTGCGCGTCGGCT -GGACCCACGTCGGTTATTCAGTCGGCGTGAAGGCGATCGATAAAGTGCGAGAGAACTCGCAGATGATTGCCCGTT -CGGCAACCATCCTCGGGATCACGGTAATCGGCGGGCTGATCGCTTCGTATGTGCATATTAACGTGGTGACATCGT -TTGCCATCGACAATACCCACAGCGTTGCGCTGCAGCAGGATTTCTTCGATAAAGTCTTCCCGAACATTTTACCGA -TGGCCTACACCCTGCTGATGTATTACTTCCTGCGGGTGAAAAAAGCGCATCCGGTGCTGTTAATCGGCGTGACTT -TTGTGCTCTCTATTGTTTGTTCCGCATTCGGCATTTTGTAAATGGAACGAGGCACTGCGTCTGGTGGTGCCTCTT -TACTTAAGGAATTTCATCCTGTGCAAACCCTTCAGCAAGTTGAAAACTATACGGCGTTAAGTGAACGTGCCAGCG -AATATTTATTGGCCGTGATCCGTAGCAAACCGAATGCCGTGATTTGCCTGGCGACCGGAGCCACGCCATTACTGA -CGTATCATTATCTGGTAGAAAAAATCCACCAGCAGCAGGTTGATGTCAGCCAGCTCACCTTCGTGAAGCTCGACG -AATGGGTGGATCTGCCATTAACGATGCCAGGCACCTGCGAAACTTTCCTGCAACAGCATATCGTGCAGCCGCTGG -GGCTACGTGAAGACCAGCTCATCAGCTTTCGCTCCGAAGAGATAAATGAGACAGAGTGCGAACGGGTAACGAACC -TGATTGCGCGCAAAGGCGGTCTGGATTTATGCGTTCTCGGATTGGGGAAAAACGGTCATCTTGGGCTGAACGAAC -CGGGAGAAAGCCTGCAACCGGCCTGCCATATCAGTCAACTTGATGCCAGAACACAGCAACATGAGATGTTAAAAA -CCGCGGGTCGCCCCGTGACTCGTGGGATCACCTTAGGCCTGAAGGATATTCTCAATGCCCGCGAAGTTTTGTTAC -TGGTGACTGGCGAAGGAAAGCAGGATGCGACAGATCGTTTTCTCACGGCTAAAGTCTCTACCGCTATCCCGGCTT -CATTTTTATGGCTGCACAGTAACTTTATTTGTTTAATTAACACCTAACCAGATGAAAAATTTGCTCAAAATGTTT -AAATTAACTTATGTAACAGTCACGCATTATATTAAATAACATTTGACTGGGTTGAACATAACGCCGATAGCAAAA -GGAGTTATGTTCAACAATTTAATTTTAGATATACATATAACTTGTTCTATTAATAAATCACCTCGTATTCTGACT -CGCCCCCTGGCGCAGCAAAGTCAGGCATTTATACTCTTTTGAATACATAGAAAATTGATATCAATATAATGAAAA -TATCAAATATTTGCATATAAATATAATCTTAAAGTTCAGTCTATTTAATGTTCAATGAAATATTTCTGCCTGTAT -AATCTTTAAAGATGTTGAACATATATTCACATTAAATATGATTATGTACTTGTTACAAGGATAAGGTTATATATG -AATAAAGTTACAAAAACAGCTATTGCGGGCTTACTTGCGCTTTTCGCAGGTAATGCCGCTGCAACCGATGGTGAA -ATAGTTTTTGATGGCGAGATTTTAAAATCCGCTTGTGAAATCAATGACTCTGATAAGAAAATTGAAGTTGCTCTT -GGTCACTATAATGCCGAACAGTTTCGTAATATTGGCGAGCGTAGCCCAAAAATTCCATTCACTATTCCTTTAGTT -AACTGCCCAATGACTGGGTGGGAGCACGATAACGGCAACGTTGAAGCGTCTTTCCGTCTATGGCTGGAAACGCGA -GATAATGGCACCGTCCCTAACTTCCCTAATCTGGCAAAAGTAGGCTCTTTTGCTGGCATAGCGGCAACAGGTGTG -GGTATCCGTATTGACGATGCGGAAAGCGGAAACATTATGCCACTGAATGCTATGGGCAATGATAACACGGTTTAT -CAGATCCCGGCGGAATCCAATGGTATTGTCAATGTTGACCTCATCGCTTACTACGTATCAACCGTAGTTCCATCA -GAAATCACCCCAGGGGAAGCAGACGCTATCGTTAACGTAACGCTGGATTACCGTTAATACGTTAGGGCGTTATCT -GACCTGTCAGATAACGCCCTTTTCCTTCCTCTTTCTCGTTGTATCAGGTTGAAAAATAACTATGTCAAAACGAAC -ATTCGCGGTGATATTAACCTTGTTGTGTAGCTTCTGTATTGGCCAGGCGCTTGCAGGAGGAATCGTTTTACAGCG -AACGCGAGTGATCTATGATGCCAGCCGCAAAGAGGCTGCGTTACCTGTCGCAAACAAAGGCGCAGAAACGCCTTA -TTTACTGCAATCATGGGTAGATAATATAGATGGTAAAAGCCGTGCCCCATTTATTATAACCCCACCGCTATTTCG -TCTTGAGGCTGGCGATGACTCATCACTGCGAATTATTAAAACAGCTGATAACCTGCCTGAAAATAAAGAGTCGCT -GTTCTACATTAATGTTCGTGCCATTCCAGCAAAGAAAAAATCAGATGATGTTAATGCTAACGAGTTGACGCTGGT -ATTTAAAACACGGATCAAAATGTTTTATCGCCCCGCACACCTGAAGGGACGGGTAAACGATGCGTGGAAATCACT -GGAATTTAAACGTAGTGACCATTCACTCAATATATATAACCCAACTGAATATTACGTCGTATTTGCCGGACTGGC -AGTCGATAAAACCGATCTCACAAGCAAAATTGAATATATCGCGCCCGGAGAACATAAACAGTTACCACTTCCTGC -ATCTGGCGGAAAGAACGTGAAATGGGCTGCGATCAATGATTATGGCGGCAGTTCCGGGACAGAAACTCGTCCACT -GCAATAAAAAATATAAAAACACAGGTCATCAGGGAATGCCACAACGACACCACCAGGGACATAAACGCACACCGA -AACAGTTGGCGCTCATCATCAAACGTTGTTTGCCGATGGTGCTCACTGGCAGCGGCATGCTTTGCACTACCGCTA -ACGCCGAAGAGTATTATTTCGACCCCATTATGCTGGAAACCACAAAAAGTGGTATGCAAACAACCGATCTGTCGC -GTTTTTCAAAAAAATATGCACAACTACCAGGAACTTATCAGGTTGATATCTGGCTGAATAAAAAGAAGGTTTCAC -AGAAAAAAATTACATTTACCGCCAATGCAGAGCAACTTCTGCAGCCACAGTTTACGGTAGAACAACTACGTGAGC -TGGGTATTAAGGTGGATGAAATCCCGGCGCTGGCTGAAAAAGATGACGATAGCGTGATCAACTCGCTTGAACAAA -TCATTCCCGGTACAGCTGCTGAATTTGATTTCAATCATCAGCAACTTAATTTGAGCATTCCCCAAATTGCACTGT -ACCGTGATGCAAGAGGTTACGTCTCCCCTTCTCGTTGGGACGATGGTATACCAACGCTGTTTACCAACTACTCGT -TTACAGGTTCTGATAACCGTTACCGCCAGGGCAATCGTAGCCAACGACAGTACCTGAATATGCAAAATGGTGCTA -ATTTTGGCCCCTGGCGATTACGCAACTATTCCACATGGACACGCAACGATCAGACATCAAGCTGGAATACCATCA -GTAGTTATTTACAACGTGATATCAAGGCGTTGAAGTCTCAGTTGCTTCTGGGAGAAAGCGCCACCAGCGGCAGTA -TTTTTTCCAGCTACACCTTTACTGGCGTGCAACTCGCTTCCGACGATAATATGTTGCCAAACAGCCAGCGCGGAT -TTGCCCCAACGGTACGCGGTATCGCAAACAGTAGTGCAATCGTGACTATCAGGCAAAATGGTTATGTGATCTATC -AAAGCAACGTGTCAGCGGGTGCCTTTGAAATTAACGATCTCTACCCCTCTTCCAACAGCGGCGATTTAGAAGTCA -CGATTGAAGAAAGTGACGGTACACAACGTCGCTTTATCCAGCCTTATTCTTCATTACCCATGATGCAGCGACCTG -GGCATCTAAAGTATAGCGCGACCGCTGGACGCTATCGCGCTGATGCAAACAGTGATAGCAAGGAACCCGAATTTG -CTGAAGCCACGGCAATATATGGTTTGAATAATACTTTTACGCTGTATGGCGGCCTGCTCGGTTCTGAAGATTATT -ATGCGCTGGGGATCGGTATCGGCGGCACACTTGGCGCACTGGGCGCGTTGTCGATGGATATCAACAGAGCTGACA -CCCAATTCGATAACCAGCACTCTTTTCATGGCTATCAATGGCGTACGCAGTACATCAAAGATATCCCGGAAACCA -ACACCAATATCGCTGTCAGCTACTATCGCTATACCAACGATGGCTATTTTAGTTTTAATGAAGCCAATACCCGCA -ATTGGGACTATAACAGTCGCCAAAAAAGTGAAATTCAATTCAACATCAGCCAGACAATATTTGATGGGGTAAGTC -TGTATGCCTCCGGTTCGCAGCAAGACTATTGGGGCAATAACGATAAAAACAGGAATATCTCTGTTGGGGTTTCCG -GCCAGCAATGGGGAGTTGGTTACAGCCTGAATTATCAATACAGCCGCTACACTGATCAAAATAATGACCGCGCAC -TCTCTTTGAATCTCAGTATTCCGTTAGAACGCTGGTTACCGCGTAGCCGGGTTTCCTATCAGATGACCAGCCAGA -AAGATCGCCCAACCCAACATGAAATGCGTCTTGATGGCTCACTGCTGGATGATGGTCGCCTGAGCTATAGCCTGG -AACAAAGTCTGGATGACGATAACAACCATAACAGTAGCCTGAACGCCAGTTACCGTTCACCTTATGGCACCTTCA -GTGCCGGATACAGCTACGGTAATGACAGCAGCCAATACAATTACGGCGTTACCGGCGGCGTGGTTATCCATCCTC -ATGGCGTGACGCTCTCGCAATATCTGGGCAACGCTTTTGCGCTTATCGATGCTAACGGAGCATCTGGCGTGAGGA -TACAAAACTATCCGGGGATTGCTACCGATCCTTTTGGCTATGCAGTGGTTCCTTATCTCACAACTTATCAGGAAA -ACCGTCTCTCGGTAGATACTACGCAGCTGCCCGATAACGTCGATCTTGAACAAACAACACAGTTTGTGGTGCCCA -ACAGAGGTGCAATGGTAGCGGCGCGTTTCAACGCCAATATCGGTTATCGCGTACTTGTTACAGTCAGCGATCGCA -ACGGTAAACCGTTGCCCTTTGGCGCTCTTGCCAGCAACGATGATACGGGGCAACAAAGTATCGTCGATGAGGGCG -GCATACTATATCTCTCTGGGATATCGAGTAAATCACAAAGCTGGACTGTACGCTGGGGAAATCAGGCAGATCAAC -AATGTCAGTTTGCTTTCAGTACACCGGATTCAGAACCTACAACCTCTGTATTACAAGGCACAGCGCAGTGCCATT -AAGGATAAAAAAATGAAAAGAGCGCCTCTTATAACAGGTCTTTTGTTGATATCCACATCCTGCGCTTATGCCTCC -TCAGGAGGGTGTGGAGCCGACAGCACTAGCGGTGCGACAAATTACAGCAGTGTGGTTGATGATGTTACGGTGAAC -CAGACAGATAACGTGACAGGACGGGAGTTTACCTCTGCAACGCTAAGTAGCACTAACTGGCAATACGCCTGTTCC -TGCTCTGCGGGTAAGGCAGTTAAACTTGTCTATATGGTCAGCCCCGTACTTACCACCACTGGACATCAGACAGGA -TATTACAAACTCAATGACAGCCTGGATATTAAAACCACATTACAGGCAAACGACATTCCAGGACTCACAACCGAC -CAGGTTGTCTCTGTTAACACCCGATTCACACAGATAAAAAACAACACGGTATATTCTGCTGCAACCCAAACGGGT -GTTTGCCAGGGTGATACGTCTCGTTATGGACCCGTTAATATTGGTGCGAACACCACCTTTACCCTGTATGTCACC -AAGCCATTTCTCGGCTCGATGACCATTCCGAAAACGGATATTGCCGTCATTAAAGGCGCGTGGGTCGATGGAATG -GGAAGCCCGTCTACAGGTGACTTCCATGATTTAGTCAAGTTATCGATTCAGGGAAATCTCACCGCCCCACAGTCG -TGCAAAATTAATCAGGGCGATGTTATTAAGGTTAATTTTGGATTCATCAATGGTCAGAAGTTTACCACCCGCAAT -GCCATGCCAGACGGTTTTACTCCAGTAGACTTTGATATCACTTATGACTGTGGTGATACTTCAAAGATTAAAAAC -TCGTTGCAAATGCGCATCGACGGTACAACTGGGGTAGTAGACCAGTACAACCTGGTCGCCAGGCGAAGAAGTTCA -GACAATGTGCCCGATGTCGGTATTCGTATTGAAAATCTCGGCGGCGGAGTTGCAAATATTCCTTTTCAGAACGGT -ATCCTTCCCGTTGATCCTTCCGGGCATGGCACCGTCAATATGCGCGCCTGGCCAGTTAATCTGGTCGGTGGTGAG -CTGGAAACAGGAAAATTTCAGGGCACAGCCACCATTACCGTCATCGTGCGGTAAAAGAAGACGTTGCGTTTTGAT -TAACGCAACGCTTCGGCACTGTTACCCCTGCTGCTCCAGCGCATACTTATACAGCGCATTTTTCTTCACGCCGTG -AATTTCTGCGGCCAGCGCCGCCGCTTTTTTCAGCGGCAGTTCTGCCTGTAGCAGCGCCAGCGTGCGCAGGGCATC -GGCGGGTAAGTCTTCTTCCTGTGCTTTATGACCTTCGACAATCAGCACCATTTCGCCTTTGCGACGGTTTTCATC -TTCCTTTACCCACGCCAGCAGCTCGCCAACGGGCGCGCCGTGAATGGTTTCCCAGGTTTTGGTCAGCTCACGCGC -CAGAACCACGTAGCGGGATTCGCCTAATACCGCAACGATATCTTCCAGGCTATCTAACAGACGGTGGGTAGATTC -ATAAAAAATCAGCGTGCGCGGCTCCGCTTCAATGGCTTTTAGCGCATCACGGCGGCCTTTTGATTTGGCAGGTAA -AAAGCCTTCGTAACAGAAACGGTCAGAGGGTAAACCCGCTGCGCTTAACGCAGTGATAGCAGCACACGGCCCGGG -TAGCGGCACCACGCGGATCCCCGCTTCACGGCAGGTACGCACCAGATGGTAGCCAGGATCGTTAATTAGCGGCGT -TCCGGCATCGGAAACCAGCGCAATGTTTTGCCCCTCTTGCAGCTTCGCCAGCAGCGTTTCAGCTTTTTGTTGTTC -GTTATGGTCGTGCAGCGCAAACAACCGGGCATTAATCCCAAAATGTTGCAGCAATAAACCGGTGTGACGAGTATC -CTCGGCGGCAATCAGATCAACGGCCTGTAATACCTCTAACGCACGCTGGGTGATATCCGCCAGATTGCCGATTGG -CGTCGGTACAATGTAAAGCTGGCCCTGAGAATTATCCGCCGATTGGTGTTGTTTCATTGTGTCGTCCGTATTGCC -GATTTAATATTGAGCATTGCGTAAAAAAAATATCACTGGATACATTATGGTACCCTCAACATTTTCTCGTTTGAA -AGCCGCGCGTTGTCTGCCTGTTGTTCTGGCAGCCCTGATTTTCGCCGGTTGTGGCACCCATACTCCCGATCAGTC -CACTGCTTATATGCAGGGCACGGCGCAGGCTGATTCTGCCTTTTATCTTCAGCAGATGCAGCAAAGCTCTGATGA -TACCAGGATCAACTGGCAATTACTCGCCATTCGTGCACTGGTGAAAGAAGGTAAAACCGGGCAGGCGGTTGAGTT -GTTTAACCAACTACCGCAAGAACTGAACGATGCTCAGCGTCGCGAGAAAACACTGCTGGCGGTAGAGATTAAACT -GGCGCAGAAAGATTTTGCTGGCGCGCAAAACTTGCTGGCGAAAATCACACCTGCCGATTTAGAACAAAACCAGCA -AGCGCGTTACTGGCAGGCAAAAATCGATGCCAGCCAGGGGCGTCCTTCCATTGATTTACTGCGCGCGTTAATTGC -TCAGGAACCGCTGCTTGGCGCGAAAGAAAAACAGCAGAATATTGATGCCACCTGGCAGGCGCTCTCCTCCATGAC -TCAGGAACAGGCGAATACGCTGGTGATCAACGCCGACGAAAATATTCTGCAAGGCTGGCTGGATCTGCAGCGCGT -CTGGTTTGATAACCGTAACGATCCCGACATGATGAAAGCCGGGATCGCCGACTGGCAGAAACGTTATCCGAACAA -TCCGGGCGCGAAAATGCTGCCAACGCAGTTGGTTAACGTAAAAGCGTTTAAACCAGCCTCGACCAACAAAATCGC -CCTGCTGTTGCCACTGAATGGCCAGGCAGCGGTATTTGGTCGCACTATTCAGCAAGGCTTTGAAGCGGCGAAAAA -TATCGGCACTCAGCCAGTGGCAGCTCAGGTAGCTGCCGCACCTGCCGCAGACGTAGCTGAACAACCTCAGCCGCA -AACCGTGGATGGCGTTGCCAGCCCGGCACAAGCCTCGGTTAGCGATCTGACCGGTGAACAGCCTGCAGCCCAGCC -GGTGCCTGTAAGCGCCCCGGCGACAAGCACCGCAGCGGTAAGCGCACCCGCAAATCCATCCGCAGAGCTGAAAAT -CTACGATACCTCATCACAACCACTTAGCCAGATCTTAAGCCAGGTTCAGCAGGATGGCGCGAGTATTGTGGTCGG -TCCGTTGCTGAAAAATAACGTTGAAGAGTTGCTGAAGAGCAACACTCCGCTGAACGTACTGGCACTGAACCAGCC -GGAGAATATCGAAAATCGCGTCAATATTTGTTACTTCGCGCTTTCACCGGAAGACGAAGCGCGCGATGCAGCGCG -TCATATTCGTGACCAGGGTAAACAAGCGCCGCTGGTGCTGATCCCACGCAGTTCATTGGGCGATCGCGTAGCCAA -TGCGTTTGCGCAAGAGTGGCAGAAACTGGGCGGCGGCACCGTTCTGCAACAAAAATTTGGTTCCACCAGCGAATT -ACGCGCGGGTGTTAACGGCGGTTCTGGTATTGCTTTAACGGGTAGCCCGATTACTCTCAGAGCGACAACCGACTC -CGGCATGACGACCAACAATCCAACGCTGCAAACCACGCCAACCGATGACCAGTTCACCAATAATGGCGGTCGTGT -CGATGCGGTGTACATTGTGGCAACGCCGGGTGAAATCGCTTTTATCAAACCGATGATCGCCATGCGTAACGGTAG -CCAGAGCGGTGCAACGCTGTACGCCAGCTCCCGCAGTGCGCAAGGGACCGCTGGCCCGGATTTCCGACTGGAGAT -GGAAGGCTTGCAGTACAGCGAAATCCCGATGCTGGCAGGCGGTAATCTACCGTTAATGCAGCAGGCACTCAGCGC -GGTGAATAACGATTATTCACTGGCTCGCATGTATGCGATGGGCGTCGATGCCTGGTCGCTGGCAAATCATTTCTC -ACAAATGCGCCAGGTTCAGGGTTTTGAAATCAACGGTAATACCGGAAGCCTGACGGCTAACCCGGATTGCGTGAT -TAACAGGAACTTATCATGGCTACAGTACCAACAAGGTCAGGTAGTCCCCGTCAGTTAACCACCAAACAGACCGGC -GATGCGTGGGAAGCACAAGCGCGTCGCTGGCTGGAAGGCAAAGGACTGCGGTTTATCGCCGCTAACGTGAACGAG -CGTGGCGGCGAGATCGATCTGATAATGCGTGAAGGCCGGACCACCATTTTTGTCGAGGTACGCTATCGCCGCTCT -GCGCTTTATGGCGGCGCGGCAGCCAGTGTGACCCGCAGCAAACAACACAAATTATTACAGACTGCCCGCTTGTGG -CTCGCGCGTCATAATGGGAGTTTTGATACTGTGGATTGCCGGTTCGATGTGGTAGCCTTCACCGGGAATGAGGTT -GAGTGGATTAAGGATGCCTTTAATGACCACTCATAATTAAGGTTTAAGGATTAGCGTGCAAGAAAGAATTAAAGC -TTGCTTCACTGAAAGCATTCAAACTCAAATTGCGGCGGCAGAGGCGCTTCCGGATGCCATCTCCCGTGCAGCCAT -GACGCTGGTTCAGTCTCTGCTCAATGGCAACAAAATCCTCTGTTGTGGTAATGGAACTTCCGCTGCCAATGCACA -GCATTTTGCTGCCAGCATGATCAACCGTTTCGAAACGGAGCGGCCCAGCTTACCTGCCATTGCACTAAATACTGA -TAATGTTGTCTTAACGGCGATTGCCAACGATCGCTTACATGATGAAGTGTATGCAAAACAGGTGCGGGCGCTGGG -TCATGCGGGAGATGTATTGTTAGCCATTTCCACCCGTGGCAACAGCCGCGATATTGTTAAAGCAGTTGAAGCCGC -CGTTACGCGTGATATGACCATTGTGGCATTGACCGGCTATGACGGCGGCGAACTTGCAGGTTTGTTAGGGCCACA -GGATGTGGAGATCCGCATTCCTTCGCATCGTAGTGCTCGCATTCAGGAAATGCATATGCTGACGGTAAATTGCCT -GTGCGATCTGATCGATAACACGCTTTTCCCTCACCAGGATGATTAAGGAGAATACATGAAGGCATTATCGCCAAT -CGCAGTCCTTATTTCCGCGCTGCTGTTGCAAGGTTGTGTTGCCGCTGCCGTAGTGGGTACCGCTGCTGTGGGTAC -CAAAGCCGCAACTGACCCACGCAGTGTCGGCACCCAGGTGGACGATGGTACCCTGGAAGTGCGCGTGAACAGCGC -ATTGTCGAAAGACGAACAGATTAAGAAAGAAGCGCGCATTAATGTAACGGCCTATCAGGGCAAAGTGCTGCTGGT -TGGGCAGTCACCAAATGCTGAACTTTCGGCTCGCGCCAAACAGATTGCTATGGGCGTAGACGGTGCCAACGAAGT -GTATAACGAGATTCGTCAGGGCCAGCCGATTGGTCTGGGCGAAGCATCTAACGATACGTGGATCACCACCAAAGT -GCGTTCGCAGCTCTTAACCAGCGACCTGGTGAAATCGTCCAACGTGAAAGTGACCACCGAAAACGGTGAAGTGTT -CCTGATGGGGCTGGTGACTGAACGTGAAGCGAAAGCGGCGGCAGATATTGCCAGCCGGGTGAGCGGCGTGAAGCG -GGTAACTACGGCGTTTACGTTTATTAAATAGCAGCCCCTTGTAATGCCTGATGCGACGCTTGCCGCGTCTTATCA -GGCCTACAACGATACAAACCGTAGGTCAGATAAGGCGTTTACGCCGCATCCGACATGTTTTCCCTCAAATCAGAA -CAACAGCGCCAGCCCGCCGACAATCACACCAGACACTGCCACCATCGCCCCTGTCAGCCATAAGGCTTTCGCCGG -GAACGCTTTGCGCAGCATAATCAGTGACGGCAAACTCACTGCCGGGAGCGTCATCAACAATGCCAGCGCCGGAGC -GGTTCCCATACCTGCCAGCATCATCGTTTGTACAATCGGAATTTCTGCTGCCGTGGGAATGACAAACAAGCATCC -TGCTACCGCCATCGCCACCACCCACATCAGGCTGTTATCGACAGCACCATCGGCATGGGGGAATAACCAGACGCG -AGCGGCACCCAACACCAGTACTGCAAGGATGTAAACCGGGATCGTACTCCAGAAAAGCGTCCATAGCGCCCTGCC -CCAGCGGCTAAAAAACCCGCCCTGTGCTTCCGGTATGTCAATTTCGACCGGTGCCTGCGTTTGCGGTGTTTCACG -CACCCATTTTTGCACCAGCGTCGCAATCAGCAACACCATCACCAGCCCGGCCACCAGACGAATCGCCGCAAAACC -CCAGCCGAGGACAAAGCCCATAAACACCAGCGTCGCCGGGTTTAACACCGGATTGCCCATCCAGAATGCCAGCGC -ACCGCCCATCGACACCTGTTGGCGACGCATTCCCGCCGCGACCGGAGCCGCACAGCAGGTACACATCATGCCCGG -CAACGAAAACAGCGTTCCCAGCAGCGTGCCGCGAAAGCGCGATTGCCCAAGCGTACGCAACAACCAGTCACGCGG -GATCAGCACCTGAATCAACGAACCGAGGATCACCCCCAGCACCGCCGCTTTCCATACCGCGAGGAAATAGATCAT -CGCGTAATCCAACGCCGCCTGCCATGGGTTAGCATCCGCCTGCGCAAGGATAGATTTACCGATACTGTGGGTTTC -GGCAGCAGTAAACGCTTTGCCGTAGTAAGGTTCCCATTTCACATACCAGAGACCGGCAATGACAACGAGAAAGAA -AAGCGCGGGTTTCCACCACTGAATGGGCGTTGCCGCCTGAGATGAAGACTGACCAGTCATAGCATTCCCCAGGAA -TAAGTTATGATAATTGAGCGCGTGAATATTACGCTCACTATCAATTCTTGGGAATAATTATTCAGCTCTTTTGCG -TAATTCTGAAGAGCTTAAAATCGTCACGCCTTCATGCTCAGGCCGCATCGACTCTGCCAGCATGACCCGCGCCAC -GTCTCTCGCATCAATGGATTTCCAGTTACCTGGTAACAAACGGAACAGCGGCGCAAAAAGCGTTTCGTTCATCCG -CTGTTTGCTACGATCGCCCAGTAACATCGACGGGCGAGCAATGGTCAATTTCGGCCAGTTCTGGGCGATTAATGC -TTCTTCCATCTCCCCTTTGACGCGGTTATAGAAAAACGGCGAGTGGGCATTGGCACCCATCGCACTGACTACCAA -CATATGCTGCGCGCCCAGTCGCCGCCCGGTTAATGCGGTATCCACTACCAGCGTGTAATCGGCATGAATAAACGC -CTCTTTGCTCCCCGCTTCTCGCCGCGTGGTGCCGAGACAACAAAACACAATGTCGATGGGATCGGTGACCTGCGC -CAACGCGTCACTCAGTTGCGGATCATGGGGATTAAACACCCCGGGCATATCGCCCAACGGACGTCGCGTCGGCGC -AGCAATGGCGTTAACTTTCGGTTCGTTAATCAACATCCGCAGCAGGTGACCGCCCACCAGCCCCGTTGCGCCTGT -AATCAGTACCTGACTCATCTTCGCTCCTTTACAGAATTGTCTGCCTTGCGCTCCACGGCTCATGCACCAGGCTTA -ATAGACCATGAGGTAATTATCCCCGATTGTGGGAAATTCGCCTCATCCAATGCAACAACGCGGAGGAAGCATGAG -TAAGAAAATTGCCGTTTTAATCACTGATGAATTTGAGGATTCAGAATTTACTTCACCCGCAGACGAGTTCCGTAA -AGCCGGACACGAAGTGATTACCATTGAAAAACAAGCGGGTAAAACGGTGAAAGGCAAAAAAGGAGAAGCCAGCGT -GACCATCGATAAATCCATCGATGAAGTGACGCCTGCGGAGTTTGATGCCCTGCTGCTACCGGGCGGCCATTCACC -GGATTATCTGCGTGGGGACAACCGTTTTGTCACCTTTACCCGTGATTTTGTGAATAGTGGCAAACCGGTGTTTGC -CATCTGTCACGGCCCGCAGTTGCTGATCAGCGCCGATGTGATTCGGGGGCGCAAACTGACCGCAGTTAAACCGAT -CATTATTGATGTTAAAAATGCGGGCGCGGAATTTTACGATCAGGAAGTCGTGGTTGATAAAGATCAGCTGGTTAC -CAGCCGGACACCGGACGATCTGCCAGCGTTTAACCGCGAGGCGTTACGCCTGCTCGGTGCCTGAGTCGCGTAGCC -AAATCATTTTTTTACCAAAGCCCAGCGTGTTGTCGGTGAATTTGATTTCATCGAGCCGGATTTCCCACACCGGGG -CCGACAGCATTCTGGCAACCGGAAAGCGACGATTGTACGCCTTGCGCGCGAGGTCGCTTTCCTCACCTTCCAGCC -TGCGGATCTCACCTTTAAACTGCACACCGCGAATTAACGCTACCGTTTTCGGCTGACCGTTTACCGTTCCGGCAA -CCGCAGCCTGCGGCCCACTCATCTGCGCGTGGCGCGTTTTTTCTTCCGTCAAAATGTAGAAGGCGACTTTCTGCG -CATCAAAAAGATAAAAGGCATTAGCGCACCAGAGTTCCCCTTCCTGCTGCACACACCAAGTGACAACATGTTGTT -TTGCCAGCCAACGGCTGATGGCGATGAGTGTTTCCATTGCTGTTCTCTTTTATACTGTGGGCCTGACCTTAACAT -GCGACGCAGACGATGACACCCTGGTTTCTTTACTTGATCCGTACCGCCGACAATAAGCTTTATACCGGGATCACC -ACGGATGTCGAACGCCGCTATCAGCAGCACCAAAGCGGCAAAGGGGCGAAAGCACTGCGCGGGAAAGGAGAACTA -ACGCTGGTGTTTTCCGCGCCAGTGGGCGATCGTTCGCTGGCGTTACGGGCGGAATATCGCGTTAAGCAACTGACC -AAACGGCAAAAAGAGCGTCTGGTAGCGGAAGGCGCAGGGTTTGCAGAGCTGTTAAGCAGTCTGCAAACCCCGGAG -ATTAAAAGCGATTGAAATGCTCGTGATACTCAACCAGGCCGGTAACGCCATTCAGCGCGTCATCCGCTAAACGAT -GTACCTGGAAGGCGCTTTCAGTGCCCGGCCAGCGGCAACGCAGATCGTGATGCGCCGCCAGTTCAAAGCCGAAAC -GACTGTACAGCGCCGGATCGCCCAGCGTCACCACTGCGGCATAGCCGAACTCATTAAGCGAATCGAGTCCTTCAT -AGACCAGTTGGCGTGCCAGCCCCTGTCCACGGTATTTTTCATCAACCGCCAACGGTGCCATGCCGACCCATTGCA -GGTCTTCGCCCTGCACATCAACCGGACTAAATGCCACATAGCCAATGACCTGACCTTCGTCATCTGTCGCCACCA -GCCCCAGCGTCAGAAAGCCATCTTCACGCAGATCGTGAACCAGCTTCGCTTCCGCATCACTTTCGAATGAGCGAC -GCAGCAGGGCATCAATACCCGGCGCATCAATGGGAATTTCTACTCGAATTAGCATGGTTCACCTACCGATGTCTG -TTTGGTTTCAGGCGCGGTTTTCATTCCCGCCTCAACAAAATCCGCCAGTTGCAGCAGCATCATGCGTAAGGCTTT -CGGCATTTGCTCCAGTTCAATGGCGTCCATCAGGTTTTTCACATACAGCCCCAGCTCCGTATCGCCTTCAATCAC -CAGCCGACGCTGGAAGAAGAGCGTATCCGGATCTTGTTTACGCGCCGCAATCATCAGCAGATCGCTGGCGTCGGC -ACTAAAACTCACATCAGCTTGCGCGTTCTGGCTAACGACCAGTTTGCCATTCACCACCGAGGTAAACCATTGCAG -GTCAATATCACGCACATGAATACTTAACCAGCGGCCTTCAAGAAACTCCAGCTCGCCATCATCCAGCGCCTGGCG -GAATTGCCAGCTTAAGACCTGCTCAAGAACCTGGCGTTTTAGCGCAAATGGCGTCAGTTTTACCGGTACACTCAA -CAGAGATGGCCCCAAATGCACAATACGGGAACGCAGTTTATCCAACACGAGTTTTACTCCCTGTTTCAACAATCA -TCCTATTTTGCCATATCAGAAAAATAACATAGCGGTATAAATCAACAATTCCATATGAAATTGCTGCTACCACCA -ATACAACTTTAACTGCCTTAAATCAAAAATTGTCGCAGCAAGGTTAACTAAAATCCCAGTTCGTTAACATTTTTG -CGTTTTGATAGCGCAACCTTCAGGAAAAATTATGGAGCTGCTCTGCCCTGCCGGAAATCTCCCGGCGCTTAAGGC -GGCCATCGAAAACGGCGCAGATGCTGTTTATATCGGGCTAAAAGATGATACCAATGCCCGTCACTTCGCCGGCCT -TAACTTTACCGAGAAAAAATTGCAGGAAGCGGTGAGTTTTGTCCATCAACATCGCCGCAAACTTCACATCGCGAT -TAACACTTTTGCGCATCCGGACGGTTACGCCCGTTGGCAGCGCGCCGTGGATATGGCGGCGCAGCTGGGTGCCGA -CGCGCTGATCCTCGCCGACCTCGCCATGCTGGAGTACGCCGCCGAGCGTTATCCGCATATTGAGCGCCACGTATC -GGTGCAGGCTTCGGCGACCAATGAAGAGGCGATTAACTTTTATCATCGCCATTTTGACGTTGCTCGCGTGGTGCT -GCCGCGCGTGTTGTCGATTCATCAGGTGAAACAACTGGCACGGGTCACACCTGTACCACTGGAAGTCTTTGCTTT -CGGCAGCCTGTGCATTATGTCGGAAGGTCGTTGCTATCTGTCGTCGTATCTGACGGGTGAGTCGCCCAACACCAT -AGGCGCGTGTTCTCCGGCCCGTTTCGTGCGCTGGCAACAAACGCCGCAGGGGCTGGAATCCCGCCTGAACGAAGT -GCTGATCGACCGTTATCAGGACGGCGAAAACGCAGGTTATCCGACGCTATGTAAAGGGCGTTATCTGGTGGACGG -CGAGCGCTATCACGCGCTGGAAGAACCAACCAGTCTCAATACCCTGGAACTGCTGCCGGAGTTAATGGCGGCGAA -TATTGCTTCGGTGAAAATTGAAGGCCGCCAGCGTAGCCCGGCGTATGTCAGCCAGGTGGCGAAAGTCTGGCGTCA -GGCTATCGACCGTTGTAAGGCCGATCCGCAAAACTTTGTACCGCAAAGCGCGTGGATGGAGACGCTCGGGTCGAT -GTCCGAAGGCACGCAAACCACTCTTGGCGCATATCACCGTAAATGGCAGTGAGAAAAGCAATGAAATATTCCTTA -GGGCCAGTGCTGTGGTACTGGCCAAAAGAGACGCTGGAAGAATTTTATCAGCAGGCCGCCACCAGCAGCGCCGAC -GTGATTTATCTTGGTGAAGCGGTATGCAGCAAGCGTCGGGCAACCAAAGTTGGCGACTGGCTGGAGATGGCAAAA -TCGCTCGCCGGGAGTGGTAAGCAGATTGTGCTCTCCACGCTGGCGCTGGTGCAGGCATCATCTGAACTGGGCGAA -CTGAAACGCTATGTTGAGAACGGTGAGTTTCTGATTGAAGCCAGCGATCTCGGCGTGGTGAATATGTGCGCTGAA -CGCAAACTGCCGTTCGTCGCCGGGCACGCGCTGAACTGCTACAACGCGGTGACACTGAAAATATTGCTCAAACAG -GGCATGATGCGCTGGTGTATGCCAGTGGAGCTTTCCCGCGACTGGCTGGTGAATCTGCTTAATCAGTGCGATGAG -CTGGGCATTCGTAACCAGTTTGAAGTGGAAGTCCTGAGCTACGGTCATCTGCCGCTGGCCTACTCCGCCCGCTGC -TTTACCGCGCGTTCGGAAGACCGCCCGAAAGATGAGTGTGAAACCTGCTGCATTAAGTATCCGAACGGGCGCAAC -GTGCTGTCGCAGGAAAACCAACAAGTGTTTGTACTCAATGGCATTCAGACCATGAGCGGCTACGTTTACAACCTC -GGTAACGAGCTGGCATCCATGCAGGGCCTGGTTGATGTGGTCCGCCTGTCACCGCAGGGTACTGACACTTTCGCG -ATGCTCGACGCCTTCCGCGCTAATGAAAATGGCGCTGCACCACTGCCGTTGACGGCGAACAGCGACTGTAACGGC -TACTGGCGGCGGCTGGCAGGACTGGAGCTGCAAGCCTAAGTAAATAGCTCACTTTGTTAACAACTTTAACTACTC -TTTAATGCAGTATTAAAGATTAATCGGTAACAAAGTGAGCTGTTATGACTGATAAAACCATTGCGTTTTCGCTAC -TCGATCTGGCCCCCATTCCCGAAGGTTCTTCAGCGCGAGAAGCATTCTCCCACTCTCTCGATCTCGCCCGTCTGG -CTGAAAAGCGCGGCTATCATCGCTACTGGCTGGCAGAACACCACAATATGACTGGCATTGCCAGTGCTGCCACGT -CGGTATTGATCGGCTATCTGGCGGCGAATACCACCACGCTGCATCTGGGGTCTGGCGGCGTGATGTTGCCTAACC -ACTCACCGTTGGTCATTGCAGAACAGTTCGGCACGCTTAATACACTCTATCCGGGGCGAATCGATTTGGGGCTGG -GTCGTGCTCCGGGTAGTGACCAACGGACAATGATGGCGCTACGTCGTCATATGAGCGGCGATATTGATAATTTCC -CCCGCGATGTGGCGGAGCTGGTGGACTGGTTTGACGCCCGCGATCCCAATCCGCATGTGCGCCCGGTACCAGGCT -ATGGCGAGAAAATCCCCGTGTGGTTGTTAGGCTCCAGCCTTTACAGCGCGCAACTGGCGGCGCAGCTTGGTCTGC -CGTTTGCGTTTGCCTCACACTTCGCGCCGGATATGCTGTTCCAGGCGCTGCATCTTTATCGCAGCAACTTCAAAC -CGTCAGCACGGCTGGAAAAACCATACGCGATGGTGTGCATCAATATTATCGCCGCCGACAGCAACCGCGACGCTG -AATTTCTGTTTACCTCAATGCAGCAAGCCTTTGTGAAGCTGCGCCGTGGCGAAACCGGGCAACTGCCGCCGCCGA -TTCAAAATATGGATCAGTTCTGGTCACCGTCTGAGCAGTATGGCGTGCAGCAGGCGCTGAGTATGTCGTTGGTAG -GTGATAAAGCGAAAGTGCGTCATGGCTTGCAGTCGATCCTGCGCGAAACCGACGCCGATGAGATTATGGTCAACG -GGCAGATTTTCGACCACCAGGCGCGGCTGCATTCGTTTGAGCTGGCGATGGATGTTAAGGAAGAGTTGTTGGGAT -AGTGTGTCTTAACGCGGGAAGCCTTATCCGAGCTGGCAACGCTGTCCTACATAGACCTGATAAGCGAAGCGCATC -AGGCATTGTGTAGGCAGCAGAAATGTCGGATAAGGCACCGCTGATTACTGATACACCGGCAGTAAATTAAAGCTC -GATAAAATATGCACCAGTGCGTTGCCGACGCCAAACACCAGAATCAGCGCAATCATCGGCTTGCCACCCCAGACG -CGGAATTTCGGGCTGCCAAAGCGTTTACGCGATGCACGGGCTAACAGCGCCGGAACAATTGCCGCCCAGATGGTA -GCCGCTAAACCAGCATAACCAATGGCGTACAGGAATCCGTTCGGGAACAACAGCCCCCCCACAACTGGCGGGGCA -AAGGTCAGCAATGCCGTTTTCAAGCGGCCCACAGCCGAGTCGTCGAAACCAAACAGATCTGCCAGATAGTCAAAC -AAACCCAGCGTTACGCCGAGGAACGAACTCGCTACCGCAAAGTTTGAGAACACGACCAGCAGCAGATCCAGACTA -CGGCTGTTCAGTACGCCGCTTAACGCCTGTACCAGCACATCAATATTACCGCCCTTCTCTGCAATACCGATAAAC -TCCGGACGCGGGATGTTACCCATCGTCGCCAGCAACCAGATGGTATACAGCGCCAGCGCCATCAGCGTACCGTAC -ACCAGACATTTCACGATGGTTTTCGGATCTTTGCCGTAATACTTCATCAGGCTTGGCACGTTACCGTGATAACCA -AACGATGCCAGACAGAACGGCAGGGTCATCAACAGATACGGTGCATAAGACGCATTGCTTTCGGCGACGTTGAAC -AATGTCGCAGGCTGCACATGCCCCAGCAGGCTACCAAAGGTGAGGAAGAAGGTAATGACTTTCGCCCCCAGCACA -ATCGCTGTCATGCGACTGACGGCTTTAGTGCTCAACCACACCACAAACGCTACCAGCAATGCAAAACCAAAACCC -GCCGCCCGTGCCGGGACGTTTAGTGACATCTCTGCGAAGGTGTGATGCAGAATCGAACCACTGGCAGAAATATAG -GCATAGGTCAGGATATAGAGCACAAAGGCAATGGAAATGCCGTTGACCACGTTCCAGCCTTTGCCCAGCAAATCT -TTGGTGATGGTGTCAAAACTCGAACCGATTCTGTAATTCAGGTTAGCTTCCAGAATCATCAAGCCGGAATGCAGC -ATACAGAACCAGGTAAAGATCAGCGCCGCCATTGACCAGAAAAACCACGCCCCGGACATGACCACTGGCAGAGAA -AACATCCCTGCGCCAATAATGGTGCCGCCGATAATCACCACGCCGCCAAGCAGCGACGGTGACGTTTGGGTGGTG -GTTAGTGTTGCCATGAGGGCTTCTCTCCAGTGAAAAATAGTGCGACTGCGTTGTTATGCATTGCACTGTACCAGT -ACACGAGTACAAAAGACAGAAAAAAAGCCCCGATGGTAAAAATCGGGGCTGTATATATTATTTTACAGATTGTGT -TCGCTGTTCAGCGATGATTACGCATCACCACCGAAACGACGACGACCGGTAGAATCATCACGACGCGGAGCGCGG -CCTTCACGACGTTCGCCGCTAAAACGACGACCATCACCACGGCCACCTTCACGGCGTTCACCGCTGAAGTTACGA -CCGCCTTCACGACGTTCGCCACCGAAACCACGACCACCGCCACGACGCTCACCGCCAGTATGCGGCTGTGCATCG -CCCAGTAACTGCATGTTCATCGGCTTGTTGAGAATGCGAGTGCGCGTAAAGTGTTGCAGCACTTCACCCGGCATA -CCTTTCGGCAGTTCGATGGTGGAGTGAGAAGCAAACAGCTTGATGTTACCAATGTAACGGCTGCTGATGTCGCCT -TCGTTAGCAATCGCACCAACGATATGACGAACTTCAACACCATCATCGCGGCCCACTTCAATGCGGTACAGCTGC -ATATCGCCAACATCACGACGTTCACGACGCGGACGATCTTCACGGTCACCACGCGGGCCACGGTCGTTACGATCG -CGCGGACCACGGTCATCACGGTCACGGAATTCACGTTTCGGACGCATCGGCGCATCTGGCGGTACGATCAGAGTA -CGTTCACCCTGTGCCATTTTCAGCAGTGCCGCAGCCAGAGTTTCGAGATCCAGCTCTTCACCTTCAGCAGTCGGC -TGAATTTTGCTCAGCAGTGCGCGGTATTGATCCAGATCGCTGCTTTCCAGCTGCTGCTGTACTTTAGCGGCGAAT -TTTTCCAGACGGCGTTTGCCTAGCAGTTCTGCGTTCGGCAGTTCTACTTCCGGAATAGTCAGCTTCATAGTACGT -TCAATGTTGCGCAGCAGACGACGCTCGCGGTTCTCAACGAACAGCAGCGCGCGGCCAGCACGACCCGCACGACCG -GTACGACCGATACGGTGAACGTAAGACTCAGAATCCATCGGGATATCGTAGTTAACTACCAGGCTGATACGCTCA -ACGTCCAGGCCACGGGCTGCAACGTCGGTCGCAATCAGGATGTCCAGACGACCATCTTTCAGGCGTTCCAGTGTC -TGTTCACGCAGCGCCTGGTTCATGTCACCGTTCAGCGCGGCGCTGTTGTAGCCGTTACGCTCAAGAGCTTCAGCC -ACTTCCAGAGTCGCGTTTTTGGTACGAACGAAGATAATCGCCGCATCAAAATCTTCCGCTTCCAGGAAACGTACC -AGTGCTTCGTTTTTGCGCATACCCCAGACAGTCCAGTAGCTCTGGCTGATGTCAGGACGGGTAGTCACGCTGGAC -TGAATGCGCACTTCCTGCGGCTCTTTCATAAAGCGGCGGGTAATGCGACGAATCGCTTCCGGCATGGTTGCAGAG -AACAGAGCGGTCTGATGACCTTCCGGGATCTGCGCCATAATGGTTTCAACGTCTTCGATGAAGCCCATGCGCAGC -ATTTCGTCAGCTTCATCCAGAACCAGACCGCTCAGTTTAGAGAGGTCCAGAGTGCCACGTTTCAGGTGGTCCAGC -AGACGGCCCGGAGTACCGACAACGATCTGCGGCCCCTGACGCAGGGCGCGTAATTGCACGTCATAACGCTGGCCG -CCGTACAGAGCAACCACATTTACGCCGCGCATGTGTTTAGAGAAATCCGTCATTGCTTCAGCAACCTGTACCGCC -AGTTCGCGGGTCGGTGCCAGCACCAGAATCTGTGGTGCTTTCAGCTCAGGATCAAGATTCTGCAACAGAGGTAAA -GAGAATGCTGCAGTTTTTCCGCTCCCCGTCTGGGCCATACCCAGAACGTCGCGGCCATTCAGCAGATGTGGAATA -CACTCTGCCTGAATTGGAGATGGTTTTTCGTAACCCAGATCGTTAAGGGCTTCAAGGATAGGAGCCTTCAGGCCC -AGATCTGCAAAAGTGGTTTCGAATTCAGCCATGTAGTACGTGTGCCTCAAAATTAATGGCGGCCAGTCTACATAA -CTCATCATGAAATTGATCAGCAATTTTCATTGAAAAGTGTGAACCGGCTCAAAGTAGGTGTATTAACGAACAACA -ACGCCCTCACCCGTTAAGGTGATGGCAATCAAAAAAGATTACGGGCTGATGTGTACGTCAGCTATTGCTGGTCCG -ATTCTGCCAGGTCATCTTGGTCCTGGCCCAGGAGCGATAATTCCAACAATGCGTATCGGTGCTCAACAAAGTTAT -GAACGTTGTTGGCAACCGCCAGTTTGAACAGTGCCGTGGCGCTGTCCAAATCCCCCAGACTTAGGTAGTACTTAC -CTAAATAGAAGTTGGTTTCACTGAGATGCTCAGCGAGCGAGGTGTTATCCGTTGCGTCCGCCTTGAGCCTTTCCA -TTAACGTTTGTTCGCTAATGTTGCCCAGGTAGAACTCGACAATGTTCCATCCCCACTGTTCCTTATCCGATTTTT -CGAAGTGCTGTTTCAACACTTCTTTAGCCTGCTTCTCATCGAGCTTCTGCTCGGCGAGATAAAGCCACAGACTAC -GGAAAGGATCATTGGGATCGTCTTGATAAAACGCCAGCAGATCATCTTGCGCTAACTTGTCACGACCGCCGTAAT -ATAATGCGATCCCGCGATTCAAGTGCGCGTAGTTGTAAGTTGGATCAAGCTCAAGTACAGAATCAAACGCTTCAT -AGGCAGCATCAAAATTGCCTGCCTGCGTTAAATATATGCCTAAGTAATTGAATACTTCAGGCATATCCGGTCGGA -TTGCCAGCGCTTGCGAAAAATCGTTACGCGCTAATGCCCTCAGACCGAGACTATCATACAACACTCCGCGCTCAT -ATAAAAGCTGTGCGCGTTCGTCATCGGTTAAAGCCCGACTGGCAAGGATTTGTTCCATACGTGCCAGAATCACTT -CCTGCTGTAAAGTCGGTTGCAATGGTACCGCGAGGACTTCACTTTTACGCCAGGAAGTATTACTGCATCCTGCAA -GCGTAAGTGCTGTCGCAACGAAACACCAGCGCAAAAAAGGCTTCATTTCCCACTCCCGAAGACCACGGTTGAATG -AACGTCCTGTTCCCGGTTGCTAACAAGGCGTCCTGCCCGGTTAAAAGCCCCCCGCCGCAGCGGAGGGCAAATGGC -AACCTTACTCGCCCTGTTCAGCAGCCGGAGCTTCCGGTGCTGCAGCAGGTTGAGACTGCTCAGTCGCTTCTTTAA -TGCTCAGACGGATACGGCCCTGGCGATCAACTTCCAGAACTTTCACCGGTACTTCCTGACCCATCTGCAGGTAAT -CGGTCACTTTCTCAACGCGTTTGTCAGCGATTTGAGAGATGTGGACCAGACCTTCTTTACCGCCGCCGATGGCAA -CAAATGCGCCAAAGTCAACGATACGGGTCACTTTACCAGTGTAGACGCGGCCCACTTCGATTTCTGCAGTGATCT -CTTCGATACGACGAATAGCATGTTTCGCTTTCTCGCCGTCGGTCGCTGCAATCTTCACAGTACCGTCATCTTCGA -TTTCGATGGTGGTGCCAGTTTCTTCGGTCAGAGCACGGATTACAGAACCGCCTTTACCGATAACATCTTTGATCT -TGTCCGGGTTGATCTTGATGGTATGGATACGCGGTGCGAACTCAGAGATATCGCCACGCGGCGCGTTGATCGCCT -GTTCCATTACGCCCAGGATATGCAGACGCGCACCTTTAGCCTGGTTCAGCGCAACCTGCATGATCTCTTTGGTGA -TACCTTCAATTTTGATATCCATCTGCAGTGCAGAGATACCGTCGCGGGAACCTGCAACTTTGAAGTCCATATCGC -CCAGGTGATCTTCGTCGCCCAAAATGTCAGACAGTACAACGTAGTTGTCGCCTTCTTTCACCAGACCCATTGCGA -TACCCGCAACGGCAGCTTTGATCGGCACACCTGCGTCCATCAGCGCCAGAGACGCGCCGCACACGGAAGCCATAG -AAGAGGAACCGTTGGATTCAGTGATTTCAGACACAACACGTACGGTGTACGGGAATTTGTCCATATCCGGCATGA -CTGCCAGCACGCCGCGCTTCGCCAGACGACCGTGACCAATTTCACGACGCTTCGGAGAACCGACCATGCCGGTTT -CGCCTACGGAGTACGGAGGGAAGTTGTAGTGGAACAGGAAGGTATCGGTACGTTCGCCCATCAGTTCATCAAGAA -CCTGCGCGTCACGAGCAGTACCCAGCGTTGCGGTAACCAGCGCCTGCGTTTCACCACGGGTGAACAGCGCAGAAC -CGTGAGTACGCGGCAGCACGCCAGTACGCACATCCAGACCACGGATCATATCTTTTTCACGACCGTCGATACGCG -GTTCGCCTGCCAGTACGCGGCTACGAACAACGTTTTTCTCGATCGCGTGCAGAATTTCACCCAGTTCGTTTTCGT -CCAGGGTTTCGTCTTCAGCAAGCAGCGTCGCGATGGTTTCAGATTTGATGACATCAACCTGCGCATAACGCTCTT -GTTTGTCGGTGATGCGGTAAGCATCGCTCAGGCGAGCTTCAGCCAGTGCAGCAACGCGCGCGTTTAGCGCTTCGT -TTACCGGCTCCGGCTGCCAGTCCCAACGCGGTTTACCGGCTTCTTTCACCAGTTCATTGATGTTCTGAATAACAA -CCTGCTGTTGTTCATGACCGAACACTACTGCGCCCAGCATCTGGTCTTCGCTCAGCAGTTGAGCTTCAGATTCAA -CCATCAGTACAGCGGCTTCAGTACCGGCAACAACCAGATCCAGTTTGCTCTCTTTCAGCTCGTCCTGAGTCGGGT -TCAGTACGTACTGGTCATTGATGTAACCTACGCGGGCAGCACCAATCGGGCCATTGAACGGAATACCAGACAGAG -ACAGCGCTGCGGAAGCACCAATCATCGCGACGATATCCGGGTTAACTTGCGGGTTAACAGAAACCACGGTGGCGA -TAACCTGAACTTCGTTGACGAAGCCTTCCGGGAACAGCGGGCGAATCGGGCGGTCAATCAGACGCGCGATCAGGG -TTTCGCCTTCGCTTGGGCGGCCTTCACGACGGAAGAAGCTACCCGGGATACGACCAGCAGCGTAGGTACGCTCCT -GATAGTTAACGGTCAGTGGGAAGAAGTCCTGACCTGGTTTGGCTTTTTTCTGGCCAACAACGGTAACGAATACCG -CGGTGTCATCCATGCTAACCATAACAGCGGCAGTAGCCTGACGAGCCATCATGCCGGTTTCCAGAGTCACGGTGT -GTTGGCCGTACTGGAATTTACGAACGATCGGATTAAGCAATGTAATATCCTTTCTCTTTCTTAGACAGTACCTTA -CGGCACTGGTGTTAATACCCGATCTTCTGCGCATCCTCGCGACTAATGACAACCCTAACCCAGCTCTATGTGGGT -AAAGCCTCTCATTAGCCGCGCGAACCTCTGCAACGGAAGATCATTCATAGCAACAATACATTAGTTTCCAGTGAA -TTGCTGCCGTCAGCTTGAAAAAAGGGGCCACTCAGGCCCCCTTTTCTGAAACTCGCAAGAATTAGCGACGCAGAC -CCAGGCGCTCGATGAGCTGGGTGTAACGTGCTACGTCTTTACGTTTCAGGTAGTCGAGCAGTTTACGACGCTGAG -AAACCATGCGCAGCAGACCACGACGGCTGTGGTGATCTTTTTTGTGCTCTGCAAAGTGGCCCTGCAGGTGGTTGA -TCTGTGCAGTCAGCAGTGCTACCTGAACTTCGGTAGAACCGGTGTCGTTTGCGTCACGACCAAACTCAGAAACGA -TTTTAGCTGTTGCTTCAGTACTTAGAGACATTTTAAAACTCCAAAGTATATAGAATGAAAGGACGCCGATCTCTA -ATTCAGCGATCCCAGTGTACGTTACGCAAAGTGTTAAACAATTTACGCGACGTTAAGCGGCAGTATTCTACTCGT -AGCGACCTGTTATCGCAAGACGGTTAACATTACGCCGGGTATTCAACCACCAGGCGACGAGGCGCAACGCGGCCT -TCATCGTCAATTTCGCCCATACCGATAAATTTGCCGTTCTCACCTTCCGTGACGCGAACCAGTCCTTCCAGTGGC -GCACCAGATGTACGAACCGGGTTACCATTTTTGAAGTAAACAGAAGACGTTAACGGAAGATTCACCACCGGATAG -TCCGAAGCTGGACTGTCCATTGGCATCAGTAATGGATCAAGTAACTCCGCGGCTGGAATATCCTGCTGTTCAGCT -TGCTCAACAAGTTCACGCAGGTGCTCCAGGGTCACCATCCGTTCAACCGGATATTTACTTACCGCCAGACGGCGC -AGGTAAATAACATGCGCGCCACAGCCGAGTTTTTCACCCAGGTCATCAATGATGGTGCGGATATAAGTGCCTTTT -GAGCAGTGAATTTCCAGCTCCAGCTCATTGCCTTCATGGCGAATAAACAGCAATTCATAAACGGTAATCGGACGC -GCTTCACGCGGAACTTCAATGCCCTGACGCGCATATTCGTACAGTTTTTTGCCCTGATATTTCAGTGCTGAATAC -ATCGAAGGGATCTGTTCGATATCGCCACGGAAAGTATCCAGTGCCGCTGCCAGCTGCTCTGCGCTAAAGGTTACC -GGACGTTCTTCAACGATCTGTCCGTCGGCATCAGAAGTATCGGTACGCTGTCCAAGACGCGCAATGACCCGATAG -CGTTTGTCGGAGTCCAGCAGATACTGGGAAAACTTCGTCGCTTCCCCGAGGCAAATCGGCAACATGCCGGTCGCC -AGCGGGTCCAGCGCACCGGTATGCCCGGCACGGTTGGCGTTATATATACGTTTCACTTTTTGCAGCGCATCGTTG -CTGGACATACCCTGAGGTTTATCCAGCAACAAAACGCCGTTAATGTCGCGACCGCGACGACGAGGACGACTCATT -AGTCCTCCTTGCTGTCGTCCGGGTTAACACGACGTTCTTCGTCATGTTTGACCACGCTGGTCACCAGGTTTGACA -TGCGCATCCCTTCAACCAGAGAGTTGTCGTAGAAGAAGGTCAGTTCCGGCACGATACGCAGGCGCATCGCTTTCC -CCAGCAGGCTGCGGATGAAACCAGAAGCTTCTTGCAACGCTTTGATGCCCGCTTTAACCGCGTCTTCATCTTTGT -CGTTGAGGAACGTCACATATACTTTGGCATACGCCAGGTCGCGAGACATTTCGACACCGGAAACGGTGGTCATCA -TGCCCAGGCGAGGATCTTTAATTTCACGCTGCAGGATGAGAGCGATCTCTTTTTGCATTTCCTGCGCTACGCGCT -GCGGGCGACCAAATTCTTTCGCCATAATAAATTCTCCTGACAAAAAAGGGGCTGTTAGCCCCTTTTTAAAATTAA -TTTCAGGTGGAAGGGCTGTTCACGTTGACCTGATAAGACGCGCCAGCGTCACATCAGGCAATCCATGCCGGATGC -AGCGTAAACGCCTTATCCCGCATGGAACCCTAAAAACCTTAAGCAATGGTACGTTGGATCTCGATGATTTCGAAT -ACTTCGATCACATCGCCAGTGCGGACGTCGTTGTAGTTCTTAACGCCGATACCACATTCCATACCGTTACGGACT -TCGTTAACGTCATCTTTGAAGCGGCGCAGGGACTCCAGCTCGCCTTCGTAGATAACCACGTTGTCACGCAGAACG -CGGATCGGGTTGTGACGTTTAACCACACCTTCGGTAACCATACAGCCTGCGATGGCACCAAATTTCGGCGATTTG -AACACGTCACGAACTTCCGCCAGACCGATAATCTGCTGTTTCAGTTCCGGAGACAGCATACCGCTCATCGCCGCT -TTCACTTCGTCAATCAGGTTATAGATGACGGAGTAGTAACGCAGATCCAGGCTTTCCGCTTCAATCACTTTACGT -GCAGAGGCATCAGCACGTACGTTAAAGCCAACCAGGATGGCGTTGGACGCCGCAGCCAGGGTGGCGTCGGTTTCG -GTGATACCACCTACGCCAGAACCGATGATCTTCACTTTAACTTCGTCAGTAGACAGTTTCAGCAAGGAGTCGGAG -ATCGCTTCGACAGAACCCTGTACGTCTGCCTTCAGGACGATATTCACTTCGTGAACTTCGCCTTCGGTCATGTTG -GCGAACATGTTCTCGAGTTTAGATTTCTGCTGACGCGCCAGTTTAACTTCGCGGAATTTACCCTGACGATAGAGT -GCAACTTCACGCGCTTTCTTCTCGTCACGTACAACGGTAACTTCATCACCCGCAGCCGGTACGCCGGACAGGCCG -AGGATTTCCACCGGAATGGACGGACCCGCTTCCAGCACTTCCTGACCCAGTTCGTTACGCATCGCACGAACACGA -CCGTATTCGAAGCCACACAGAACGATATCGCCCTTGTGCAGAGTACCTTCACGTACCAGAACGGTAGCAACCGGA -CCACGACCTTTATCGAGGAAGGATTCGATAACCGCACCGCTCGCCATACCTTTACGTACCGCTTTCAGCTCCAGA -ACTTCCGCCTGCAGCAGGATAGCGTCCAGCAGTTCATCGATACCGGTACCCGCTTTCGCAGATACGTGTACGAAC -TGGCTTTCACCGCCCCACTCTTCCGGCAGGATGCCGTACTGGGAGAGTTCGTTCTTAACGCGATCCGGATCAGCT -TCTGGTTTATCGATCTTGTTCACTGCAACCACCACCGGTACCTGCGCCGCTTTCGCGTGCTGGATTGCTTCGATG -GTCTGCGGCATCACACCGTCGTCGGCAGCAACAACCAGGACTACGATGTCCGTTGCCTGCGCACCACGAGCACGC -ATTGAAGTAAACGCGGCGTGCCCCGGGGTGTCCAGGAAGGTGATCATGCCGTTTTCAGTTTCAACGTGGTATGCA -CCAATGTGCTGGGTAATGCCGCCCGCTTCGCCAGAGGCCACTTTCGTTGAACGAATGTAGTCCAGCAGAGAGGTT -TTACCGTGGTCAACGTGACCCATGATGGTCACAACCGGCGCGCGCGGTTCAGCCGCAGCACCCGTGTCACGGTCG -CTCATTACCGCCTCTTCCAGCTCGTTTTCACGACGCAGGATAACTTTATGGCCCATCTCTTCAGCAACCAGCTGT -GCGGTTTCCTGATCGATAACCTGGTTGATGGTTGCCATTGCGCCCAGTTTCATCATCGCTTTGATGACCTGAGAG -CCTTTAACCGCCATCTTGTTCGCCAGTTCGCCAACGGTGATAGTTTCGCCGATCACAACGTCACGGTTAACGGCC -TGAGCAGGCTTCTGGAAGCCTTGCTGCAGCGAAGAACCTTTACGTTTTCCGCCTTTACCGCCACGTACTGCTGCG -CGTGCTTCTTCACGATCAGCTTTTGATTCAGCGTGTTTGTTGCCTTTCTTCGGACGCGCTGCTTTCGCGTTACGA -CCACGGCCACGGCCGCCTTCGACTTCACGATCGCTTTCGTCTTCTGCCTGGCGAGCATGTTGAGAAGTAGTGACG -TGATAATCGCTGGAATCTTCAGTCGGTTCCGCGTTATCAGTCCATTTGTTTTCTTCCGCCATACGACGTGCTTCT -TCAGCAACGCGACGTGCTTCTTCTTCGAGTTTACGACGCGCTTCTTCTTCAGCTTTACGCTTGAGCTCTGCAGCT -TCCTGCTCACGGCGGGCTTTTTCAGCCTGGGCGTTTTTAGTCATATCGTCTTGTTGATTGCTCACTTTGTCTTTT -TCCGCAGCTTCACGTTTCGCTTGTTCAGCAGCTTCACGCTTAGCTTGTTCTGCGGCCTCACGTTCAGCTTTTTGT -TGCGCCTCGCGTTTAGCCGATTCTTCTGCCTCACGACGGGCTTGCTCTTCCGCTTCACGCTGCGCTTGCTCTTCC -GCTGCAAGGCGTTCAGCCTCTTGCGGATCGCGTTTCACAAAGGTGCGTTTCTTGCGGACTTCGATTTGTACCGAT -TTGCTTTTTCCACCGGTACCAGGAATGTTAAGGGTGCTGCGTGTTTTACGTTGCAGCGTCAATTTGTCCGGGCCT -GAATTTTTCTGATTCAGGTGGTCAATCAAAGTCTGTTTCTCTTGTGCAGACACAGAGTCGTCAGCAGACTTCCGG -ATACCTGCATCAGCAAATTGCTGTACCAGGCGTTCCACGGAGGTCTGTCGCTCTGCGGCCAGCGTTTTAATCGTT -ACATCTGTCATGCTGTTCCTTCCTGCTACAGTTTATTACGCTTCGTCACCGAACCAGCAAATATTACGGGCAGCC -ATAATCAGTGCTCCGGCTTTTTCGTCGGTCAACCCTTCGATATCAGCCAGATCATCAATGCCCTGTTCGGCGAGA -TCTTCCAGCGTACAAACGCCACGGGCGGCCAGTTTGAATGCCAAATCACGATCTACCCCTTCAAGGTTCAGCAGA -TCGTCAGCCGGTTTGTTATCACCGAGGCTTTCTTCCTGGGCCTGTGCAATGGTGGCCAGTGCATTTTTAGCACGC -TCGCGCAGTGCTTCAACGGTCGGCTCATCAAGGCCTTCGATTTCCAACAGCTCTTTCATCGGCACATAGGCCAAT -TCTTCCAGCGTCGAGAAGCCTTCTTCTACCAGAACAGTCGCGAAGTCTTCGTCGATGTCGAGATATTTGGTGAAG -GTGTCGATCGCTGCGTGCGCTTCCGCCTGATGCTTAGCCTGCAGGTCGTCAACGGTCATCACGTTGAGTTCCCAA -CCGCTCAGCTGCGAAGCCAGACGCACGTTCTGACCGTTACGGCCAATCGCCTGCGCCAGGTTACCGGCTTCAACG -GCGATATCCATGGTGTGTTTATCTTCATCCACCACGATAGAAGCAACGTCTGCCGGTGCCATTGCGTTAATCACG -AACTGCGCCGGGTTATCATCCCACAGGACGATATCGATACGCTCGCCACCCAGTTCAGTAGACACCGCCTGAACA -CGCGCGCCACGCATACCTACGCAAGCACCTACCGGATCGATACGTTTATCGTTGGTTTTCACCGCGATTTTCGCA -CGAGAACCCGGATCGCGAGCCGCTGCTTTAATTTCAATCACTTCTTCGCCGATTTCTGGCACTTCAATACGGAAC -AGTTCGATCAGCATTTCCGGCTTGGAACGAGTGACGAACAGTTGCGCGCCACGCGCTTCCGGGCGAACGGAATAG -AGCACGCCACGAACGCGGTCGCCAGGGCGGAAGTTTTCACGCGGCAGCATATCTTCGCGCAGGATCACGGCTTCA -GCGTTGTTGCCCAGATCCAGAGAGATGTTGTCGCGGTTTACTTTTTTCACCACGCCGGTGATGATTTCACCTTCG -TGTTCACGGAACTGATCAACCACCATCGCACGTTCGGCTTCACGCACTTTCTGCACGATAACCTGTTTTGCCGTC -TGGGTAGTGATACGGTCAAAGGTAACAGACTCAATCTGATCTTCAACGTAATCGCCCAGGTTCAGGCTTTCATCT -TCATAACGTGCGGCTTCAAGGGTGATTTCCTTGGTCGGCTGGGTGACTTCATCAACAACTAACCAGCGACGGAAA -GTGTCAAAATCACCGCTTTTGCGATCGATCTGTACGCGGACGTCGATCTCTTGTTCATATTTTTTCTTTGTTGCT -GTCGCCAGCGCGCTTTCCAATGCTTCGAAAATCTTCTCGCGAGGTAGCGCCTTTTCATTGGATACGGCTTCAACT -ACAGCCAAAATTTCTTTGTTCATCGCGGGCTTTTCACCTCATCCAGACTATTAAAAGTGGGGAACCAGGTTCGCC -TTCTGGATATTACTCAGCGCGAACACTTCATCTTTACCTTCGACGGTAACTGTGATCATTTCACCGTCTACCGCT -TTGATAACGCCCTGCCATTTACGACGGTTTTGTACCGCCATACGGAGAACCAGAGTCACCTCTTCTCCGACAAAA -CGGGCGTAGTGTTCAGCCGTGAACAGTGGGCGATCGAGACCCGGTGAGGAGACTTCCAGGTTATAAGCAACGGTG -ATGGGATCTTCAACATCCAGCACAGCACTTACCTGGTGGCTCACATCAGCACAATCATCAACATTGATGCCATCT -TCACTATCAATATAGATGCGCAGTGTGGATGTGCGACCGCGAATAAATTCGATGCCAACCAGTTCAAAACCCAGG -GCCTCAACTGGCGCAGTAATCATCTCTGTTAATTTTTGCTCTAATGTGGACAAGCCCACCCCCAAGACATAAAAA -AAGGGCCTAAAGCCCAGTTATTCTGTAGTCAGATAACAAAAAACCCCGATAAATCGGGGCTTTATATAACTGAAC -CCTATAACCGCAACTGCGGTCTGGAGCACTTTCCAGAAGGATTTTTTCAAATCCCACTACGAAGGCCGAAGTCTT -CACAGTATATTTGAAAAAGGACTCTAAGGGAAAGTGGTTGCGGGGGCCGGATTTGAACCGACGATCTTCGGGTTA -TGAGCCCGACGAGCTACCAGGCTGCTCCACCCCGCGCCTGAAACGTGGCAAATTCTACTCGTTTTGGGTAAAAAA -TGCAAATACTGCTGGGATTTGGTGTACCGAGACGGGACGTAAAATCTGCAGGCATTATAGTGATCCACGCCACAT -TTTGTCAACGTTTATTGCTAATCATGTGAATGAATATCCAGTTCACTTTCATTTGTTGAATACTTTTGCCTTCTC -CTGCTCTCCCTTAAGCGCATTATTTTACAAAAAACACACTAAACTCTTCCTGTCTCCGATAAAAGATGATTAAAT -GAAAACTCATTTATTTTGCATAAAAATTCAGTGAGAGCGGAAATCCAGGCTCATCATCAGTTAATTAAGCAGGGT -GTTATTTTATGACGACGATTCTCAAGCATCTCCCGGTAGGTCAACGTATTGGTATCGCTTTTTCTGGCGGTCTGG -ACACCAGTGCCGCACTGCTGTGGATGCGACAAAAGGGAGCGGTTCCTTATGCATATACTGCAAACCTGGGCCAGC -CAGACGAAGAGGATTATGATGCGATCCCTCGTCGTGCCATGGAATACGGCGCGGAGAACGCACGTCTGATCGACT -GCCGCAAACAACTGGTGGCCGAAGGTATTGCCGCTATTCAGTGTGGCGCATTTCATAACACCACCGGCGGCCTGA -CCTATTTCAACACGACGCCGCTGGGCCGCGCCGTGACTGGTACCATGCTGGTTGCTGCGATGAAAGAAGATGGCG -TGAATATCTGGGGTGACGGTAGCACCTACAAAGGAAACGATATCGAACGTTTCTATCGTTATGGTCTGCTGACCA -ATGCTGAACTGCAGATTTACAAACCGTGGCTTGATACTGACTTTATTGATGAACTGGGCGGCCGTCATGAGATGT -CTGAATTTATGATTGCCTGCGGTTTCGACTACAAAATGTCTGTCGAAAAAGCCTACTCCACAGACTCCAACATGC -TTGGTGCAACGCATGAAGCGAAGGATCTGGAATACCTCAACTCCAGCGTCAAAATCGTCAACCCGATTATGGGCG -TGAAATTCTGGGATGAGAGCGTGAAGATCCCGGCAGAAGAAGTCACAGTACGCTTTGAACAAGGTCATCCGGTGG -CGCTGAACGGTAAAACCTTTAGCGACGACGTAGAAATGATGCTGGAAGCTAACCGCATCGGCGGTCGTCACGGCC -TGGGCATGAGCGACCAGATTGAAAACCGTATCATCGAAGCGAAAAGCCGTGGTATTTACGAAGCTCCGGGGATGG -CACTGCTGCACATTGCGTATGAACGCCTGTTGACCGGTATTCACAACGAAGACACCATTGAGCAGTATCACGCGC -ATGGTCGTCAGTTGGGCCGTCTGCTGTACCAGGGGCGTTGGTTTGACTCCCAGGCGCTGATGCTGCGTGACTCTC -TGCAACGCTGGGTTGCCAGCCAGATCACTGGTGAAGTTACCCTGGAGCTGCGCCGTGGGAACGATTATTCAATCC -TGAATACCGTCTCAGAGAACCTGACCTACAAGCCAGAGCGTCTGACGATGGAAAAAGGCGACTCGGTGTTCTCGC -CAGATGATCGTATTGGTCAATTGACCATGCGTAACCTGGATATCACTGATACCCGCGAGAAACTTTTCGGTTATG -CCAAAACTGGCCTGCTTTCCTCCTCTGCCGCTTCAGGCGTGCCGCAGGTGGAGAATCTGGAAAACAAAGGCCAGT -AATTCGACATCAACCCTGCCCTTCAGGGGTGGGGTTACCTTGCTTATCCTCTGTAAACTCCTTTCTGAGCATCAC -ATAATCGAAAACATCATGGTTTGCATCCACAACCCGTGAGTCTCCTTTATAGTGTGCAATCACTTCCTCAAGCGT -TTGCGGCTGTTCCGGCTTTGTTACCCCCATCCACGCATTAATAAGGTAATTATTGTAAGCTGTCGAAAAGATGTT -GTTTTCCGTTGTGCGATCCACGCCATCCCCAAGAACGGGGCTATACCAGATAAACATCGGGACATGATATGCCTG -CTGGCTAGCCTCCCTGCCTCCATGAAAATAGACGTTCTTCTTCGTAGGGTCACGTTCCAGGCCGTGGTCGGCAAA -ATACATGACCGAGGCGCGGCGATCTTTTAATAATTCAAAAACCTGACCTAGCAAACTATCTGTGTAATGAATGGA -GTTGTCATAGCAGGCATCCTGATCGTCCTGCGGTTGAAACACGGCGCTGGATTGCGGATAGGCGCTACAAGCCGG -TTCATGGCTTCCATTTAAATGAAGAACAATCAGTTTCTTTTGCTGCGTATTTTGCTGTAATGCTTGCGATAAATG -CGGCAACAACAATTCATCAAATCCTCTGACATAAACTGTTTCCATGGCGCGCATGGCGATACTGGTAACTGCTGT -ACCATTCTGCCGAAAAGCGGATTGCGAGCTTAGCCAGAAAGTCTGAAATCCTGCTTGATTAGCCATATTAATAAT -GTTGTCGGGGTAATTATGAATGTCATGACTCAAAACAGAATCAGCAGTTAAAGAAAGGGGAACCGACAGCGCAGT -GTAAGGTGCGCCGCTTATTGCTTGATTAAACAGTTTGATCTGTTTTCTTTGTGCTTCAACTTGCGGTGTCGTAGA -GCGTGTATATCCATACAAAGACATATTGTCGACACGTACAGACTCCCCCACAATCAACACGTAGGTATCAATACC -TGTATCCCTGACTGATAATTGAAAATACGGCACCGTGTTTGCAATTGAGAGTAATCTTTGATGCTCTTTCGCTGC -TAAAGCAAAATAGTTGAGATTGAAAAACGGCGTATAGGTAGCAAATCGCGACGCTAGTATATATGGACTGAACGC -TTTTTTATTTTTTGCATCTTTATAAGCAAATTGACAAGCGGAAAATAAACTGCCCGAAATGACAATCAGCAATAA -TATTCCTGTCACTTTTTTTGTCGGCAAGGAAACATCATATTTTATTATTACTGCCAAAAAAAGAAGGGATAAAAA -AGCAAAGGCACATAGATAAGGGATATACATCCCCAGCATTTTGACAACTTCATCCGGATCACTCTGGAGCACACT -AATCGCAAATCCATCATTGAAAGTTGTACCAAAGGTACACCATGAATAGAGGCTAATACTCATGTCTGCCGCAGT -CAGTAACACAAATGGTGCGGCAACAAGCAGGCGAAGCGGAAGGGATGATATACGTTTTACAACCAGGATGGTCAG -AACGAAGAACAGCAAGCGCTGAACCATATGCGCTCCGGAAGAAGCGACTAAGTTCGTAATACCAAAAACAATAAC -ACAAAGATACAACAACCAATGAGATTTAAAAGTTCTAGCAAATTTGTTGAATACTGTCATCCAGAAATCCAAGTT -CACAACCAATATAAACAATTATCAACAATGTTTAATTTTATATCAGACATGTTTTTCAACTCTGATCCATATCAG -AACGAAACACTGTTAGTTTTTTCTTTTTAAATGATGCGGCCATTGCGTTCTCAGTAATTAAATAACATTATCAAT -GCGTCTCTAAACATTACGCAGAACGTAGCCATCAGTCGTTATACTGACAGGAGCAGGATGGTTTATCGAGAAGTA -AACATATCCGTATTCGTACCGGAACTGGAGTTGACACAATAAAGTGCCAATTATGTCAGTAGAAGGGAAAAATTT -ATAACTAAGGCGTACCGGCACCATCGTTTCAAGGTACCAGCTACGAGTAAAGCAACTGGACGAGATACAGATACC -TGACAACCATTCCTCAGACCAGGACCAAAACGAAAAAAGACGCTTTTCAGCGTCTCTTTTCTGGAATTTGGTACC -GAGGACGGGACTTGAACCCGTAAGCCCTATTGGGCACTACCACCTCAAGGTAGCGTGTCTACCAATTCCACCACC -TCGGCACGGATACTACTTTTTAGTTCGGGATATCGCTGGTCGGCTTAGCCGGAGCAGCTGGCTGAGTTTGTTCGG -TTTTCGCCGGTGCACTCAGATTTTCCCATTCGCTACCTTTATTGGTTTTGTTGCTATTGATGTTACCCAGCACCA -GACTGATGATGAAGAATAACGTTGCCAGCAGCGCCGTCATGCGGGTCATGAAGTTACCAGAACCACTTGAACCAA -ACAGCGTAGCGGAAGCGCCTGCTCCGAAGGAGGCTCCCATATCAGCGCCTTTACCTTGCTGCAGCATGATCAGAC -CAACAAGGCCAATTGCCACAATAAGGAAAACTACTAAAAGAGCTTCATACATAATCAACCTGTTCCTTGCGGAGT -TGCCGCGTACCAATGCTTCAACCAATAAAGCGGGAGTTTTTAATCTTTCCCACTGAAGCGGGTGTGAATACTAAC -CAAAGCGAATGACCTTCGCAAGGGCAATTTTATCGCATTGTATCAACTGCGGAAAAAAACAGCAAAACCGATGTG -TTCGCTGAGAAAAAAGGCGACAATCGCCGCCTTTTTAGCCAGTTATCTAACGCTTTAAACGGCTTTTACTGCATC -GGCGATGCGGTGTGCAAATTCAGTCACCTGCGCTTCGTCTTCGCCTTCCACCATCACGCGAATTAACGGTTCGGT -GCCGGATTTACGCAGCAACACGCGTCCACGGTTGCCCAGCGCAGCTTCAACCTCTGCGGTCACGGCTTTAACTGA -CTCATGCTCAAGTGGATCGCCGCTACCTGCGGTGTAACGTACGTTAACCAGAATCTGCGGGAACATTTTCATGCC -GCTGCAAAGGTCGTGCAGGCTCATATGGTTACGTGCCATCGCCGCCAGCACCTGCAAGCCAGCAACGATGCCGTC -ACCGGTAGTAGTTTTATCCAGCAGGATCACATGACCGGAATTCTCTGCACCGATACGCCAGCCTTTCTCCTGCAT -TTTTTCCAGTACGTAGCGGTCACCCACTTTCGCGCGCGCAAATGGAATTCCTAACTGTTTCAGCGCCAGTTCAAG -CCCCATGTTGCTCATCAATGTACCCACAGCGCCACCACGCAGCTGGCCCTGACGAAGACCTTCACGCGCGATGAT -ATACATGATCTGATCGCCATCGACTTTATTGCCTTCATGGTCAACCATAATCACGCGATCGCCATCGCCGTCGAA -GGCAATACCGAGATCCGCTTTTTCAGCCAGCACACGAGCCTGGAGCGCGCGAACGTCGGTAGCCCCCACTTCGGC -ATTGATGTTTACACCGTTTGGCTCACAACCGATAGCGATAACGTTCGCCCCCAGTTCGCGCAGCACGTTCGGCGC -GATGTGATAAGTCGCACCGTTTGCACAATCCACCACAATCTTCAGTTCACTGAGGCTAAGTTCGTTCGGGAACGT -GGCTTTGCAAAACTCGATATAGCGACCCGCGGCATCAACGATACGGCTGGCTTTACCCAGTTCTGCCGAATCAAC -GCAGCTGATCTCCTTTTCCATTTCCGCTTCGATGGCCTCTTCTACCGCATCCGGCAGTTTGGTGCCGTCGATAGA -GAAGAATTTAATGCCATTATCGTAGAACGGGTTATGCGATGCAGATATCACAATTCCGGCCTCTGCGCGGAAGGT -ACGCGTCAGATAAGCCACGGCCGGTGTTGGCATCGGGCCAGTGAAGAGTGCGGAAAGGCCCGCTGCCGCCAGACC -CGCTTCCAGTGCTGACTCCAGCATATAGCCAGAAATACGCGTGTCTTTACCAATAATAATCTTACGGGAGCCGTG -GCGCGCCAGCACTTTACCCGCGGCCCAACCCAGCTTAAGCACAAAATCAGGTGTGATCGGCGCATCCCCTACACG -ACCACGAATCCCATCGGTACCGAAATATTTACGATTACTCATAGCGTTTGTTTTCCTTTGCAGACAGAGTGGCTT -CCACCACCCGCATCGCTTCTACGGTTTCTTTGACGTCATGAACACGAATGATGTGCGCGCCTTGCATTGCGGCAA -TGACCGCACAGGCCAGACTACCGCTCAGGCGCTCGGACGGCCCCACGTTCAGCAGCTGCCCAATCATCGATTTTC -GTGACATACCCACCAACAGCGGCAGGTTGAAATGGTGAAATTCAGCCAGGCGCGCCAGTAATGAATAGTTATGGG -AGAGATTTTTACCGAAACCGAATCCGGGGTCGAGCAACAATTTCTCTTTTGCGATACCCGCCTGCTCGCAACGTG -CTATTTGCTCAATAAAGTAGCGATTCACTTCTGCAAAGACATCGTCATACTTCGGAGCTTCCTGCATGGTTTTTG -GATTTCCCTGCATATGCATCAGACAAACCGGTAAACCGGTTTCTGCAGCCGCCTCCAGAGCGCCAGGTTCGGAAA -GGGAGCGGATATCATTAATAATGTGAGCGCCAACTTTCGCTGACTCACGGATGACTTCTGGTTTGGATGTATCGA -CTGAGATCCAGACTTCGAAGCGTTGAGCAATTGCCTCAACCACAGGAATAACACGTTGCAACTCTTCTTCAACGC -TAACTTCCGCCGCCCCTGGGCGCGTGGACTCGCCACCAACGTCAATGATCGTCGCGCCAGCGTTGATCATCAGAT -TCGCATGTTTCACCGCATCTATCAGCGAGTTATGCGTGCCACCATCCGAAAAGGAATCAGGCGTGACGTTGAGGA -TCCCCATTACGTGAGGATGGCTAAGGTCCAGTGAAGTACCCTGGGCAAAGAGTTTCATGATGTTATCCCTGGTAT -GAATTGATAAGAAAAAACCCCGGAGCACGCCCCGGGGTTTTCGGTACAAATACAGTCATCTGATGCGGGAACTTA -CTTGTCGCCTAACTGCTCTGACATGGTGTTACCCGGGTTCGGCGTACGCGGTTCATCAACCGGACGAGGAGCCTT -TGGACTACCATTGTCGCCAGAATTGTTAGAAGCGCCTGGTTCTTCCCAGCCCGCTGGCGGACGTACATCGCGACG -TGCCATCAGGTCATCAATCTGCGGTGCGTCGATAGTCTCATATTTCATGAGAGCATCTTTCATCGCATGCAGAAT -ATCCATATTGTCGGTCAGAAGCTGACGCGCACGATTATAGTTACGCTCAATCAGTGCTTTCACTTCCTGGTCGAT -GATACGTGCAGTTTCATCGGACATATGTTTCGCTTTCGCTACGCTACGGCCGAGGAACACTTCACCTTCTTCTTC -CGCGTACAGCAGTGGACCCAATTTCTCAGAGAAGCCCCACTGAGTCACCATGTTACGTGCCAGGTTGGTCGCAAC -TTTAATATCGTTGGACGCACCGGTAGATACATGTTCCGGCCCGTAGATGATCTCTTCTGCCAGACGACCACCGTA -CAGCGTAGAAATCTGGCTTTCCAGTTTCTGACGGCTGGCGCTGATTGCGTCGCCCTCAGGCAAGAAGAAAGTCAC -ACCCAGCGCACGACCGCGTGGGATAATCGTCACTTTGTGCACCGGATCGTGTTCCGGCACCAGGCGACCGATAAT -CGCATGACCCGCTTCGTGGTAAGCCGTCGATTCTTTCTGCGCTTCCGTCATCACCATGGAGCGACGTTCCGCACC -CATCATGATTTTGTCTTTCGCTTTCTCGAACTCAACCATCGACACAACGCGTTTGTTGCCACGAGCAGCGAACAG -TGCCGCTTCGTTCACCAGGTTCGCCAGGTCAGCACCGGAGAAACCAGGAGTACCACGGGCAATGATTGCCGCGTC -GATATCGGGTGCCAATGGTACGCGACGCATGTGAACTTTCAGGATCTGCTCACGACCGCGAACATCTGGCAAGCC -GACCACAACCTGACGGTCGAAACGGCCAGGACGCAGCAGGGCCGGGTCGAGAACGTCCGGACGGTTAGTCGCGGC -GATAACGATGATACCTTCGTTACCTTCGAAGCCATCCATCTCAACCAGCATCTGGTTCAGAGTCTGTTCACGTTC -ATCGTGACCACCGCCCAGACCAGCGCCACGCTGGCGGCCTACGGCGTCGATTTCATCGATAAAGATGATGCACGG -TGCCGCTTTCTTCGCCTGTTCGAACATGTCACGAACACGGGATGCACCCACACCGACGAACATTTCTACGAAGTC -AGAACCGGAGATAGTAAAGAACGGAACTTTCGCTTCGCCTGCAATCGCTTTCGCCAGCAGCGTTTTACCGGTACC -CGGAGGACCGACCATCAAGACGCCTTTCGGGATCTTACCGCCGAGTTTCTGGAAGCGGCTCGGCTCGCGCAGATA -CTCAACCAGTTCAGCAACTTCTTCTTTTGCTTCGTCGCAGCCCGCAACGTCAGCAAAGGTCGTTTTGATCTGATC -TTCCGTCAGCATGCGCGCTTTGCTCTTACCAAACGACATGGCACCTTTGCCACCGCCGCCCTGCATTTGACGCAT -GAAGAAGATCCAGACACCAATCAGCAACAGCATCGGGAACCAGGAGATGAAGATAGAAGCCAGCAGGCTTGGTTC -TTCAGGCGGTTCACCGACAACCTTGACGTTCTTGGTCAACAGGTTATCCAGTAATTTCGGATCCTGAACCGGAAT -GTAAGTGGTATAACGGTTACTATCTTTCTTGGTAACGTTGATTTCACGTCCGTTGATACGCGCTTCACGAACCTG -GTCGTTATTGACCTCTTGTAGGAAGGTAGAGTAATCCACCTTACGGCCATTAGACTCGCTGGGCCCAAAGCTCTG -GAATACTGACATCAGCACAACGGCAATGACCAGCCAGAGTATTAGGTTTTTCGCCATGTCACTCAAGGGATTAAC -CTCTTATTACAACTGTGTTAAAAACAGCGTCAGGATACTCTATATCCAGCATCTTTCAAACTTTCGTCTGAAATC -TCCCGGTTAGGGTTTACGCCCGGTCGCTACAATATACACTTCCCGCGAACGTGCACGAGAAGAGTCCGGCTTACG -AACTTTGACCTTCGTAAACAGGGAGCGAATTTCCCTTAGATACTCATCGAAACCTTCGCCCTGGAACACCTTCAC -TACAAAACTGCCACCTGGCGCTAATACATCACGACACATTTCTAGCGCCAGTTCCACCAGATACATGGCACGGGG -GATATCCACCGCCGGTGTTCCGCTCATGTTTGGTGCCATATCGGACATGACAACCTGGACTTTGCTGTCGCCAAC -GCGCTCCAGCAGTGCTTTCATCACCAGTTCATCACGAAAATCGCCCTGAAGAAAGTCCACACCAACGATAGGATC -CATAGGTAAAAGATCGCAAGCGATGATGCGGCCTTTGCCGCCAATTTGGGTGACCACATATTGTGACCAACCACC -CGGAGCAGCACCAAGGTCGACAACCGTCATTCCCGGTTTAAAGAGTTTGTCACTTTGCTGTATTTCATCAAGTTT -AAACCAGGCACGGGAACGTAACCCCTTTTTCTGTGCCTGTTGAACATATTTATCGCTAAAGTGTTCCTGAAGCCA -GCGGCTGGAGCTGGCAGAACGCTTCTTACCTGTCATTTAACTTTCCCATGGGGATAACTCATCGTAACCAATTGC -GTAAATTTTTACGCGCCTATTTGGTGATATATGGGAGATGGCGGTAGAATGACCCGTTTTCAATCCCAACGTAAG -CAAAAAATACGATGAATCTGAGTACTAAACAAAAACAGCACCTGAAAGGTCTGGCACATCCGCTCAAGCCAGTTG -TTCTGCTTGGCAGTAATGGTTTGACCGAAGGGGTGCTGGCCGAGATTGAACAAGCGTTAGAGCACCATGAACTCA -TCAAGGTGAAAATCGCCACCGAAGATCGCGAAACTAAAACCTTGATCGTGGAAGCTATCGTGCGCGAAACCGGCG -CCTGTAATGTACAGGTCATCGGTAAAACGCTGGTGCTTTATCGCCCAACTAAAGAACGTAAAATCTCGCTGCCAC -GCTAAGATTATCCTAAAGTTACACACATTTGCTGTGTAAAACGAGGGGTTTTCCGCAGGCAGGAGAGCAAAATGC -CACGCTCTGTTCGTTGATAAAAGGCCGCATAGCGGCCTTTTTCCTTTCTTTACAATACATCAACATCTTGAGTAT -TGGGTAATTCTTACAGGTATTCCACCTTAATTACTTCAAATTCTACTTCGCCGCCCGGCGTTTTGATGACCACAA -CATCATCTTCTTCTTTGCCGATCAGGCCACGAGCAATAGGCGAGTTTACAGAAATCAGGTTTTGTTTAAAGTCAG -CTTCGTCATCGCCAACGATGCGATAAGTCTGTTCTTCGTCAGAATCCAGATTCAGCACCGTTACGGTAGCACCAA -AAATAACGCGCCCATTGTTGGGCATTTTGGTGACATCAATCACCTGCGCGTTCGACAGCTTGGCTTCGATGTCTT -TAATACGGCCTTCGCAGAAACCCTGCTGTTCACGAGCTGCGTGGTATTCGGCGTTTTCTTTCAGGTCGCCATGCT -CACGCGCTTCCGCGATAGCAGCAATGATTTCAGGACGGCGCACAGATTTCAGAAAATCCAGCTCTTCGCGTAATT -TTTCAGCGCCGCGTAAGGTCATCGGAATAGCTTGCATTTGTTATACCTCTTGAATATTCCTGATAGGGCAAGTCT -TCACCCACCCCGGCTGTTCGGCCTGCCCGGCATAACTCCTTACCGGGACCAGAAGCAAAAAAATACCGACCCGGG -TACAAGTCCCAGGTCAGCTACAATTCACATTTTGATAGTCATTTTACCCTGAAGTTCCCGAAGGGTCATCGTTTA -CTTTATAGGGCGTTGCGCCGTAGTATGACGGCTCGATTCCAGGTTGTTAGCGCGAGATTATGCGATTTTCCAGAT -TTATCATCGGATTGACCAGCTGTATAGCGTTCAGTGTTCAGGCCGCAAATGTTGATGAGTACATTACTCAACTCC -CCGCTGGTGCCAACCTTGCCCTGATGGTGCAAAAAGTCGGCGCGTCGGCCCCCGCTATTGATTACCACAGTCAGC -AGATGGCGCTGCCTGCCAGTACCCAGAAAGTGATTACTGCGCTGGCGGCGTTGATTCAACTCGGCCCCGATTTTC -GTTTTACCACGACGCTTGAAACCAAAGGCAATGTGGAAAACGGCGTACTTAAGGGTGACTTAGTGGCGCGATTTG -GTGCCGATCCGACGTTAAAACGTCAGGATATTCGCAATATGGTCGCGACTTTGAAAAAATCTGGCGTCAACCAAA -TCGATGGCAATGTGTTGATAGATACCTCCATTTTCGCCAGCCACGATAAAGCCCCCGGCTGGCCATGGAATGACA -TGACACAATGCTTTAGCGCTCCGCCTGCCGCCGCCATAGTTGACCGCAACTGTTTCTCCGTCTCGCTCTACAGTG -CCCCAAAGCCTGGTGATATGGCTTTTATACGCGTGGCATCTTATTACCCCGTTACGATGTTCAGCCAGGTACGCA -CCCTCCCCCGTGGTTCTGCCGAAGCGCAATACTGCGAACTGGATGTGGTGCCAGGCGACCTGAACCGCTTTACGC -TGACGGGATGCCTGCCACAACGTTCTGAGCCGCTCCCGTTGGCTTTTGCCGTGCAGGATGGAGCCAGCTATGCCG -GTGCAATTCTGAAAGATGAGTTAAAACAGGCGGGTATCACCTGGAGCGGAACACTGCTGCGCCAGACTCAGGTTA -ACGAACCTGGAACGGTAGTTGCCAGTAAACAGTCGGCCCCGCTGCACGATCTGCTTAAGATTATGCTGAAAAAGT -CGGACAACATGATCGCCGATACGGTTTTCCGCATGATAGGCCATGCGCGCTTCAATGTGCCTGGAACATGGCGGG -CCGGGTCGGACGCCGTGCGTCAGATCCTGCGCCAGCAAGCCGGTGTCGATATTGGAAACACCATTATTGCCGATG -GTTCAGGGCTTTCGCGGCATAACCTGATTGCCCCCGCCACCATGATGCAGGTGCTGCAATACATTGCCCAACACG -ACAATGAACTTAACTTTATCTCCATGCTGCCGCTGGCGGGCTATGACGGCTCTTTGCAGTACCGTGCAGGTCTGC -ATCAGGCGGGCGTGGATGGAAAAGTCTCAGCGAAAACCGGTTCGTTGCAGGGGGTATATAACCTGGCGGGATTCA -TTACCACAGCGAGCGGGCAACGAATGGCGTTTGTGCAATATCTTTCTGGCTATGCAGTAGAACCTGCGGATCAGC -GTAATCGCCGTATTCCGTTAGTGCGTTTTGAAAGCCGTTTGTATAAAGATATTTATCAGAACAATTAGTCAAAAA -GAAACCCCGGCACATGGCCGGGGCTTCAGATTATTGACAAAGTGCGCTTTGTTTATGCCGGATGCGGCGTAAACG -CCTTATCCGGCCTACAAAATCGTGCAAATTCAACATATTGCAATTCTCTTGTAGGCCTGATAAGCGTAGCGCATC -AGGCTGATTTGGCGTTTATCATCAGTGATTAACGCTTGTAAATGAACTCAACGCCTTCTTCGTCGTCTTCGTCCC -AGTCGTCATCCCAGTCTTCATCATCCTCTTCAGCAATCTCTTCAAGCTGCTGGCGATGATAATCATCCCACATGA -ATTCGACTTTCTCTGGCTGTTTCGCTTCTTCAGCCTGCACGACCGGGTTTTCAATGATAAAGGTCATCACATCCC -AGCAGAGATCTTTCACGCCCAGTCCACTCGCCGCAGAGATCAGATAATATTTATCTTCCCAGCCCAGCGCCTCAG -CGATCGCTTTCGCTTTCTCTTCGGCTTCTACCTTATCCAGCAGATCGATCTTGTTGAACACTAACCAACGCGGTT -TCGTCGCCAGATCCTGGCTGTATTTTTCCAGCTCGCTGATAATAATACGCGCGTTTTCAACCGGATCGGTGCCGT -CAATCGGATCGATATCGATGAGGTGCAACAGGACGCGGCAACGTTCCAGGTGCTTCAGGAAGCGAATGCCCAGAC -CTGCGCCTTCCGCAGCGCCTTCAATCAGTCCTGGAATATCGGCAACAACGAAGCTCTTTTCGTTGTCCATTCGTA -CCACACCCAGACTTGGCACCAGAGTGGTAAACGGATAATCCGCCACTTTCGGTTTAGCCGCCGATACCGCACGAA -TAAAGGTCGATTTACCCGCGTTTGGCATCCCCAACATACCGACGTCAGCCAGCAGCATCAGCTCCAGCAGCAGCT -CGCGCTTATCGCCCGGCGTGCCGTTGGTTTTCTGCCGCGGTGTACGGTTAACGGACGATTTGAAACGGGTATTGC -CCAGACCGTGCCAGCCGCCCTTAGCAACCAGCAGACGCTGACCGTGTTTGGTCATATCGCCCATGGTTTCACCAG -TACCCTGGTCGATTACACGCGTACCTACCGGCACTTTAATCGTCACGTCTTTACCGCGCTTACCGGTACAGTCGC -GGCTTGCGCCATTCTGACCGCGCTCTGCACGGAAAGATTTTTCAAAACGATAATCGATAAGCGTGTTCAGGTTCT -CGTCGGCTTCCATCCATACGTCACCACCATCACCGCCGTCGCCGCCATCCGGGCCGCCTTTCGGAATATACTTTT -CGCGGCGGAAGCTCACGCAACCATTACCGCCATCACCTGCAACGACCAGAATCGATGCTTCATCAACAAACTTCA -TTTTATTCTCCGTAAATCATTCGCCTGCGCGGGGTTGCGATACCACCGTTGTATGCTTACGTAATCCGCCCCAAA -TACGATGACCAATGGCGGAATACATCGCGCCCGCAACCACGACAAACGCACCGAGATAACCTAAAAGGTTTAACA -TCGGTCTGGCGAAGAAATCGGGCCAGGCCAGTGATAAAAGATCTGAAAAAAACAGCGTAAACAGTGGGGTGAGCG -TGATGATCGCGCTCACCTGCGCTGCCTGCCAGCGAGCCATCGCTTCCGCCAGGGCGCCATATCCTACCAAGGTAT -TCAGTCCGCAAAAAATTAAACATGCGAGCTGCCAGTGGCTAAGCTGCGCTATCACTCCAGGCTTTGCCAGAGGGA -AGAGCGCAATTGTACATAAAGTGTACAGTAAAAACAGGATCTGCGGTGAGGCCAGCCGACGCAATAAAACCTTTT -GCGCCACGCCATAACTCACCCAAACCGTCGCCGCACCGACCCCAAAGATAACTCCCCAGGTGTAATCGGTGAGCT -TTGTAAATATCTCGACCAGACTGGTGTTAAAAAACATCACCAGGCCGCTCAGGAGCATCAATGCCCCTACAACCT -GAGTGCTGCGCATTTTCTCTTTGAGGATAAATACGCTGGCAACCATCATGCCAACTGGCGAGAGTTGCCCAATCA -CCTGCGAAGCGGTCGGACTCAGGTATTGCAAGGATGAGCTGAACAGGATGAAGTTCCCAAACAGCCCGGCGGTCG -CCACTGCCAACAAAATCAACCAGCGTGGCTTACGAAACACGCGTAATGGCGGCAACCTCTTCTTCACCGCAAGAA -TGGCACCCAGGCCAATACTCGCCATCAAGAAACGGTAAAACACGATTGTCGGAGGTTCCATCACCTCCAGCACCT -GCTTCATTGCGATTGGCAACGCCCCCCAGCAAATTGCTGTGGTGAGCGCCAAAAGAATGCCAATGCCTGCCTGCT -GCTTCATACCGTATTCCCTGCAAAGCGCATTTGCGGATTAACGTCGCACCATGCGCATTTTTACCGGTTATCGAA -TGTAAAAAGCCCCGCAACGTGTTGCGGGGCTTTCATCCGTTACCGGGACGCGAAAAACTTATTCAGCTTCGATGC -TGATAAATTTACGGTTTTTCGGGCCTTTAACTTCGAATTTCACTTTACCGTCTGCTTTAGCAAACAGAGTGTGGT -CACGACCGCAACCTACGTTAGCGCCAGCGTGGAATTTGGTACCACGTTGACGAACGATGATGCTACCCGCCAGAA -CGGATTCGCCACCGAAACGCTTAACGCCCAGGCGTTTAGCTTCTGAATCGCGACCGTTACGTGTGGAGCCGCCAG -CCTTTTTATGTGCCATTTGAAATCTCTCCTCAGGTCTTAGGCGCTGATGCCAGTAATTTTCACATCAGTGAACCA -CTGACGATGGCCCTGCTGCTTACGATAGTGTTTACGACGACGAAACTTAACGATTTTAACTTTCTCGCCACGACC -GTGAGCAACAACTTCAGCTTTGATTACGCCGCCATCAACGAAAGGAACGCCGATTTTGACTTCTTCACCGTTTGC -GATCATCAGCACTTCAGCGAACTCAACAGTTTCGCCAGTTGCGATGTCCAGCTTTTCCAGGCGAACGGTCTGACC -TTCGCTTACTCGGTGTTGTTTACCACCACTTTGGAAAACCGCGTACATATAAAACTCCGCTTCCGCGCACACCTT -TTCAATGATTCAGAGTGCGCTATAAATATTCACAATAGGGCGCGAATATTACGCAAAACGCACGCCTTTGACAAG -TGCTACAGTCAATACACGAAGAAAAAAAACACAACTTGTACGGTAACGTTTATCTGTGCCATTTTTTCAGTACAA -TCACCCTATATTCCTAACCATAAACCCTAAGTTGCCTTTGTTCACAGTAAGGTAATCGGGGCGAAAAGCCCGGCT -TTTGCGATGAATTTAGAAAAAATCAATGAGTTAACCGCGCAAGATATGGCGGGTGTTAATGCGGCAATCCTTGAG -CAGCTTAATTCCGACGTCCAACTGATCAATCAGTTAGGCTATTACATCGTCAGCGGCGGCGGTAAACGTATTCGT -CCGATGATTGCTGTACTGGCTGCACGAGCTGTTGGCTATGAGGGAAATGCGCATGTCACCATTGCTGCCCTGATC -GAGTTTATCCACACGGCGACTCTGCTACACGACGACGTTGTGGATGAATCAGATATGCGCAGGGGTAAAGCTACC -GCCAACGCCGCATTTGGCAATGCCGCCAGCGTGCTGGTAGGCGATTTTATTTATACCCGCGCTTTCCAGATGATG -ACCAGCCTCGGTTCGCTCAAAGTGCTGGAAGTCATGTCAGAAGCCGTAAACGTCATCGCAGAAGGTGAAGTTCTG -CAACTGATGAACGTTAACGATCCGGACATCACTGAAGAAAACTACATGCGCGTTATCTATAGCAAAACCGCGCGT -CTGTTTGAGGCTGCCGCGCAGTGTTCCGGGATTCTGGCTGGCTGTACGCCGGAGGAGGAGAAAGGCCTGCAGGAT -TATGGGCGCTATCTCGGCACTGCTTTCCAGTTGATCGACGATTTACTCGATTACAATGCCGATGGCGAACAGTTA -GGTAAAAATGTCGGCGACGATCTGAACGAAGGTAAACCGACGCTGCCGCTGCTGCATGCGATGCATCATGGCACA -CCAGAACAGGCACAGATGATCCGTACCGCCATCGAACAGGGTAACGGTCGCCATCTTCTGGAACCGGTTCTGGAA -GCAATGAACGCTTGTGGATCTCTTGAATGGACGCGTCAGCGTGCCGAGGAAGAAGCAGACAAAGCCATCGCAGCG -TTACAGGTGCTCCCGGACACCCCTTGGCGAGAAGCACTCATCGGCCTCGCGCACATCGCTGTTCAACGCGATCGT -TAATCCCCTCCCCTCATCCCGCGCAGCGCGCGGGATGGTTCCAGTAAGTTCCATAAAAACACTTATTCAGCTCTA -TAACACCTGAAAAATAGGGATGTGCATCTTTATATATTCTGAATATTCACACTCTTTACAGGAACTTTTTAGAGC -AATAGGCCATCAGGAGTATAGTGATGCTCGACAGAAGAAGTGTTCTGAATGAAAGCGACTAACTTAAGGAGTGAG -GAAAAATGGAAAGTAATTTCATTGACTGGCATCCCGCTGACATCATTGCGGGTTTGCGCAAGAAGGGAACGTCAA -TGGCGGCGGAATCTCGCAGAAATGGTTTGAGTTCCTCAACGCTGGCGAATGCATTATCGCGCCCATGGCCGAAAG -GAGAGATGATTATTGCGAAAGCCCTGGGAACTGACCCCTGGGTTATCTGGCCATCACGCTACCATGATCCGCAGA -CCCATGAGTTTATCGACAGAACGCAGTTGATGCGTAGCTACACTAAACCGAAAAAATGAGTGGTCTGGCGGTAGC -CCCGCGAACGGGGCTGCCAGCTCTCAGACGATTATTCGCCTTTCACACGCTCAATATTTGCACCTAAAGCGCGCA -GTTTGTCTTCAATGCGTTCGTAGCCACGATCGATGTGATAAATACGATCAACCACCGTCGTCCCTTCCGCAATAC -AGCCAGCCAGCACCAGGCTTGCTGATGCACGCAGATCGGTTGCCATAACCTGTGCGCCAGAAAGTTTTTCAACAC -CGTGACAAATAACGGTATTGCTTTCGATTTCGGCGTGCGCGCCCATACGGCTCAGCTCTGGCACATGCATAAAGC -GGTTTTCAAAGACCGTTTCGGTGATAAACCCGGTCCCTTCTGCCACCAGGTTCAACAGCGTGAACTGGGCCTGCA -TATCGGTCGGGAATGCCGGATGCGGCGCGGTACGTACGTTAACAGCCTTCGGACGTTTGCCATGCATATCCAGGC -TAATCCAGTCTTCGCCGACTTCGATGTCCGCTCCAGCGTCACGCAGTTTCGCCAGCACGGCGTCGAGAGTATCTG -GCTGCGCGTTACGGCAGATAATTTTGCCGCGAGAAATCGCCGCCGCCACCAGGAAAGTACCGGTTTCGATACGAT -CCGGCAGAACGCGATAGACACCGCCGCCTAAACGTTCCACACCTTCGATGACGATACGATCGGTGCCCTGACCGC -TAATTTTCGCACCCAGCGTAATCAGGAAGTTCGCGGTATCGACGATTTCCGGTTCACGCGCTGCGTTTTCAATAA -TCGTGGTGCCTTCCGCCAGGGTTGCAGCACACATGATGGTCACCGTTGCGCCAACGCTGACTTTATCCATCACGA -TATGTGCACCTTTCAAACGACCATCGACGGAAGCTTTAACGTAACCTTCTTCCAGTTTGATGGTCGCGCCTAATT -GTTCGAGGCCAGAAATGTGTAGATCAACCGGACGCGCACCGATCGTACAACCGCCAGGTAGTGAAACTTGCCCCT -GACCAAAGCGCGCTACCAGCGGCCCCAGCGCCCAGATAGAAGCACGCATGGTTTTAACCAGATCGTAAGGTGCGC -AGAATACATTAACGTCGCGGGCATCAATATGCACAGAACCATTACGTTCTACTTTCGCACCCAGCTGGCTTAGCA -GCTTCATTGATGTATCGACGTCTTTCAGTTTCGGGACGTTCTGGATCTCTACCGGTTCTTCCGCCAGTAGTGCGG -CAAAAAGGATAGGCAGAGCAGCATTTTTAGCGCCGGAAATTGTGACTTCGCCCTGGAGCTTCGTTGGCCCCTGAA -CACGAAATTTATCCATTTAGTTTGTTCTCAGTTAACAATTCATATCCGCTACCGGCGAATCGCCCATAGCTCAAA -AGCCGTTCAGTTTGCGATCGCGCGCCCACTCCGCAGGGGTATACGCTTTGATCGACACAGCATGAATGCGGTTAT -CCGCAATATATTCCATCAGCGGACCATAGACCGTCTGCTGTTTTTTAACCCGACTCATGCCGTCAAACAACTCAC -CCACGGCAATAACCTGAAAGTGGCTGCCATCGCCGGAAACGTGGACTTCCTGGAGGGAGAGAGCGTTCATCAACA -CGCTCTGAATTTCATTATTTTCCATGGGATCTTCAATCATCAGTTAATAAACCAGCGAAACATCTTAGAGCAAAG -TTGCGCTGGCATAAATAAGCAAAAAGCCTCGCTGATAAATCAGACAAGGCTCGACTTGCAGGCAGGTTTGCCGGA -CAGGCGGTTAACGCCATATCCGGCCTGAAAAAATTTAACGAGGCAGAACATCAGCAGGCAAATTATACAATTTCG -CCAGGGTATACACTTTGTCGTTTACCCCCTGAAGCGTCACATTGTTGCCCTGCTTTTTCGCCAGATCGATAAGAT -GGAGCAGCAGTGCCAGTCCCCCCGTATCCACGCGGGAGACACGGCTAAGATCGATGCAGGTAATCCCCTTCACCG -CTTCCTCACGCATTTCCCAAAGCGGTAGCAAAACGTCCTGATCCAGCTCTCCGGATAACGCCAGCGTGTCACCCG -TCTGCATCCAGCTCAGTGACTCGCTCATTATTTTTTCTCTTCCAGAGTGATTTTCTGTTGAGAAATCGATTTCAG -TTGCGCAGTCAGGCCGTCGATACCTTTGGTACGCAGCAGCGTTCCCCACTCGTTTTGTTTGGTGGTGATCATACT -GACGCCTTCAGCAATCATGTCGTAAGCCTGCCAATTGCCCGTCTGGGAGTTTTTACGCCACTGGAAGTCCAGACG -CACCGGCGGACGGCCATTCGGGTCAATAATGGTAACGCGAATAGGCACAATGGTTTTATCGCCCAGCGGCTGTTC -TGGCGCAATCTGATAGGTTTGACCGTGATACATCGCCAGCGCCTGACCGTAAGCCTGCTTCAGGTACTCACGGAA -AGCGGCAAAGTAGGCTTCACGTTGAGCAGGGGTCGCACTCTTGTAATACTGGCCCAGCACCAGCGCACCGGCGTA -TTTCACCTGTACGTATGGCAGCAGTTCCTGATCAACAATGGTACGCAGATAATCCGGGTTGGCCCGAATTTGCGG -TTGCTCATTCTTCAGGCGATCGAACGTTTTCTGCGCCGCCTCGTCCATCAGCTTATACGGATTGGTCTGGTCTGC -CGCGGTTGCCGCACTCAGAGGTGCAATCACCAGCAAAGCGACCATCATTAAACGTTTAAACATGCGTCGGTTCTC -CTGAAATTATTTCGTTGTACCCACAGGTTCAGTGGTTTCATTATTACCTGGCGCAGCAGCTGGCGCATCGCCACT -ATTCTTATTGTCATCGCCTTTACTACCGTAAAGGAACTGACCAATGAGATCTTCCAGCACCATCGCAGACTTAGT -GTCCTGAATTGTATCGCCATCCTTCAGGATAGCAGTCCCCAGTTCCGGGTCTTCAAAACCGACGTTTAATGCCAG -ATATTGTTCCCCCAGCAGGCCGGAAGTACGAATGCTCAGCGAACTGGTATCTGGAATGTGGTTATAACGTTGTTC -AATTTCCAGCGTTACGCGCGGCAGATAGGTTTTCGGGTCCAGCGTAATATCCGCCACCCGACCCACAACAACGCC -ACCAATACTGACCGGAGAGCGCGCTTTCAGGCCGCCAATGTTATCGAACGTCGCATAAAGCGTGTAGGTCGGTTC -AGTACGTATGGACGTCACGTTCGCCGCCTTCAGGCAAACAAACAGCGCCGCCAGCAGTGCTGCTAATAAAAAGAT -ACCCACCCAAATTTCATTTTTTTTCGTTTGCATGAACTCAATTCCCAAACATCAATGCGGTCAGCACAAAATCCA -GCCCCAGAACAGCCAGAGACGAGTGGACAACGGTGCGAGTGGTTGCCCGGCTAATCCCGGCAGACGTCGGGATGG -CGTCGTAGCCGTTAAACAACGAAATCCACGTCACCGTGATGGCGAACACCACGCTCTTAATCAGACAGTTGACCA -GATCCATACGCCAGTCGACGGCATTTTGCATTGCCGACCAGAAGAACCCGCTATCAATGCCTTTCCAACTGACGC -CGACCAGAGATCCGCCCCAGATCCCCACGGCGACGAAAATAACCGTCAACAGTGGTAATGAAATAACCCCAGCCC -AGAAACGGGGAGAAATAACCCGACGCAGCGGATCCACCGCCATCATCTCCATACTGGAGAGTTGCTCTGTAGCGC -GCATCAGGCCGATTTCTGCGGTTAGCGCCGAACCAGCACGCCCGGCAAACAACAACGCGGCAACCACCGGCCCCA -GTTCACGCAGTAGCGATAACGCCACCAGCATACCCAGACTGGTTTCCGCACTATAAGTGGTCAGAACCAGATAAC -CTTGCAGCCCCAACACCATTCCGATGAACACGCCAGAAACCACAATAATCAGCATCGACAGGACGCCGACATTAT -AGAGCTGGCGCACCAGCAGCGGCGCATGTTTGCGAAATTCCGGTTTGCCGACCAGCGCATTGAATAACATTAACC -CGGCCCGCCCGAACGTTCTCAGGGTTTTAATCCCTTTATGTCCGAGCGACGCCAGCGCATTTAACAGCATGAGTG -GCTTAACTCCCTGGTAAAAGATCAGCGTGATAATCGCCGGCAGGATAGCGGAACGGAACAGGCCCGTCAGCTATC -CCGTCCAGAAACTGACGTACGCGCGGATCAGGATTCGCCTGCAACGCCTGGGCACTGCCATGAGCGACAATTTTT -TTGTCCGCCAGGATCCAGGCGTGATCCGCAATACTTAACACTTCCGGCACATCGTGAGAAACCACCACACAAGTC -ACGCCCAGCGCGCTGTTCAGCTCAGAAATCAGCTTCACCAGTACGCCCATGGTGATGGGATCTTGCCCAACAAAA -GGTTCATCAAACATGATGAGATCCGGCTCCAGCGCAATCGCACGCGCCAGCGCTGCACGCCGCGCCATCCCACCG -GAAAGTTCAGAAGGCATTAGTTTAGCCGCTCCACGCAGCCCCACGGCCTCCAGCTTCATCATCACCGTACTATGC -AACAATGGCGCGGGAAGTTGGGTATGTTCGCGCAGTGGATAGGCGACGTTGTCAAATACGTTCATATCAGTGAAC -AACGCCCCGGACTGAAATAACATGCTCATCCGTTTGCGCACTGTATACAGGCGCGAACGAGACATCGCCGGAATA -TTCTCACCATCGAAAAGGATCTCACCATGATCTGGTGCGATTTGCCCGCCAATCAGACGGAGTAGCGTCGTTTTA -CCGATGCCCGATGGCCCCATGATCGCCGTGATCTTCCCTCGCGGCACGGTCAGGGAAATATTATCGAAGATGCAG -CGATTGCCACGCGTAAAACTGACATCGCGCATATCGACTAAATTCGCCACAGACTGCTCCATAATTCACCCTTCG -TCTTGCGTTGATTTTCTAAGCATGGCGCTCAATTTAACCTTGAACCCAACATATTTACAGAATATTACCCGCCGT -GGTTAGCGAAAGCTGGCATTTGTTTTACTTTTTAGCCGCATAAAGTCAAAATTAAGCATCCGTTACGGCTTTCTG -AAAATCTTCAGCGGACCGGCGAGTATACCTGAAGAAAGGACGTTAGATGCTTTTAGCTACGGCACTGTTAATTGT -TGGTTTACTTTTGGTCGTTTACAGTGCCGACCGCCTGGTTTTTGCCGCGTCTATTCTTTGCCGAACCTTTGGCAT -CCCGCCGCTGATCATCGGCATGACGGTGGTCAGTATTGGTACATCGTTACCAGAAGTCATCGTCTCGCTTGCCGC -GTCTCTGCACGAACAACGCGATTTAGCCGTTGGTACAGCCCTCGGCTCAAACATTATCAATATATTGCTGATCCT -CGGTCTGGCTGCGCTGGTTCGTCCTTTTACCGTCCATTCTGATGTTCTACGCCGTGAATTACCCTTAATGTTGTT -GGTCAGCGTGGTGGCCGGTTCCGTACTCTATGACGGACAACTTAGTCGCAGCGATGGTATCTTTCTCCTCTTTCT -GGCTGTGCTATGGCTGCTGTTCATTGTTAAACTTGCACGTCAGGCTGAACGTCAGGGGACTGACAGCCTGACCAG -AGAGCAGCTTGCAGAGCTGCCGCGTGACGGCGGATTGCCCGTCGCGTTTTTATGGCTCGGCATTGCGCTTATCAT -CATGCCAGTGGCCACGCGGATGGTGGTTGATAACGCCACGGTGCTGGCGAATTACTTTGCCATCAGCGAGTTGAC -GATGGGTCTGACGGCAATTGCTATCGGAACCAGCCTGCCGGAACTGGCAACCGCAATAGCGGGGGTTCGCAAAGG -TGAAAACGACATTGCTGTCGGAAATATCATTGGCGCAAACATTTTTAATATTGTCATCGTGTTGGGTTTACCCGC -GCTGATAACGCCAGGAGAGATTGATCCACTGGCGTACAGTCGTGACTACAGCGTGATGTTGCTGGTGAGCATTAT -TTTTGCGTTGCTGTGCTGGCGGCGCTCCCCGCAACCGGGCCGTGGTGTAGGGGTATTATTAACTGGCGGATTTAT -CGTATGGCTGGCGATGTTGTACTGGTTATCGCCAATACTCGTTGAATAACTGGAAACGCATTATGTCGCACGTAG -AGTTACAACCGGGTTTTGACTTTCAGCAAGCAGGTAAAGAAGTCCTGGCGATTGAACGTGAATGCCTGGCGGAGC -TTGATCAATACATCAATCAGAATTTCACGCTTGCCTGTGAAAAGATGTTCTGGTGTAAAGGGAAAGTTGTCGTCA -TGGGGATGGGAAAATCGGGGCATATTGGGCGAAAAATGGCGGCAACGTTTGCCAGCACCGGTACACCTTCATTTT -TCGTCCATCCTGGTGAAGCCGCGCATGGTGATTTAGGCATGGTTACCCCACAGGATGTGGTGATTGCTATCTCTA -ACTCTGGTGAATCCAGCGAAATCACGGCCTTAATTCCAGTGCTTAAGCGTCTTCACGTACCGTTAATCTGCATCA -CCGGTCGCCCGGAGAGCAGCATGGCGCGCGCCGCAGATGTGCATCTGTGTGTTAAAGTAGCGAAAGAAGCCTGTC -CGTTAGGGCTGGCACCGACCAGCAGCACCACCGCCACGCTGGTTATGGGCGATGCCCTCGCTGTCGCGCTGTTAA -AAGCACGCGGCTTTACTGCTGAAGATTTTGCGCTCTCACACCCAGGCGGCGCACTGGGTCGTAAACTTCTGCTGC -GCGTAAACGATATTATGCATACGGGCGATGAGATCCCGCATGTTAAGAAAACGGCCAGTCTGCGTGACGCGTTGC -TGGAAGTTACCCGCAAAAATCTTGGTATGACTGTCATTTGCGATGACAATATGATGATTGAAGGCATCTTTACCG -ACGGTGATTTACGCCGTGTCTTCGATATGGGCGTGGATGTTCGTCAGTTAAGTATTGCCGATGTGATGACGCCGG -GGGGAATACGTGTGCGCCCTGGCATTCTGGCCGTTGAGGCACTGAACTTAATGCAGTCCCGCCATATCACCTCCG -TGATGGTTGCCGATGGCGACCATTTACTCGGTGTGTTACATATGCATGATTTACTGCGTGCAGGCGTAGTGTAAA -GATTCAAGGATAAACAACAATGAGCAAAGCAGGTGCGTCGCTTGCGACCTGTTACGGCCCTGTCAGCGCCGACGT -TATAGCAAAAGCAGAGAACATTCGTCTGCTGATCCTCGATGTCGATGGCGTACTGTCAGATGGCCTGATTTATAT -GGGCAATAATGGCGAAGAGCTGAAAGCGTTCAATGTTCGTGACGGTTATGGCATTCGTTGTGCGCTCACCTCTGA -TATTGAAGTCGCTATCATTACCGGGCGAAAGGCTAAACTGGTAGAAGATCGTTGTGCCACATTGGGGATCACTCA -CTTGTATCAGGGGCAGTCAAACAAACTGATCGCCTTTAGCGATCTGCTGGAAAAACTGGCGATTGCCCCGGAAAA -TGTGGCTTATGTCGGCGATGATCTCATCGACTGGCCGGTAATGGAAAAAGTGGGTTTAAGCGTCGCCGTGGCCGA -TGCGCATCCACTGTTGATCCCGCGCGCCGATTACGTGACGCGCATTGCTGGCGGTCGTGGCGCAGTGCGCGAAGT -TTGCGACTTATTACTCCTGGCGCAGGGCAAACTGGATGAAGCCAAAGGGCAATCGATATGAGTAAAGCCAGACGT -TGGGTTATCATTGTGCTATCACTGGCGGTTCTGGTGATGATCGGCATTAATATGGCCGAAAAAGACGATACCGCC -CAGGTGGTCGTCAACAACAATGATCCCACCTATAAAAGCGAGCATACGGACACGCTCGTCTATAACCCAGAAGGG -GCACTAAGCTATCGATTGATTGCTCAACACGTTGAATATTATTCCGATCAGGCCGTTTCGTGGTTTACGCAGCCG -GTACTTACCACGTTTGATAAGGATAAAATCCCGACATGGTCCGTAAAAGCAGATAAAGCCAAGCTGACCAATGAC -CGGATGCTCTATTTATATGGACACGTTGAAGTCAACGCACTTGTGCCAGACTCTCAACTTCGCAGAATCACGACG -GATAACGCGCAGATCAATCTGGTGACGCAGGATGTTACCTCTGAAGACCTCGTCACGTTATACGGAACAACATTT -AACTCCAGCGGTCTGAAAATGCGCGGCAACTTACGCAGCAAGAACGCCGAGCTGATTGAAAAGGTTAGAACATCC -TATGAAATTCAAAACAAACAAACTCAGCCTTAATCTTGTGCTTGCCAGCTCACTTCTGGCCGCCAGCATTCCGGC -ATTTGCCGTAACCGGAGACACTGATCAGCCGATCCACATTGAATCGGACCAGCAATCTCTTGATATGCAAGGCAA -CGTGGTTACCTTTACCGGTAATGTCATCGTCACCCAGGGCACCATCAAAATTAATGCCGACAAAGTGGTCGTTAC -CCGTCCGGGCGGCGAACAAGGTAAAGAAGTGATTGACGGCTACGGTAAACCGGCAACGTTCTACCAGATGCAGGA -CAACGGTAAACCCGTTGAAGGTCACGCTTCCCAGATGCACTACGAACTGGCAAAAGATTTTGTCGTTCTGACGGG -TAATGCTTATCTGCAGCAGGTCGATAGCAACATTAAGGGCGATAAGATCACTTACCTGGTGAAAGAGCAGAAAAT -GCAGGCTTTCAGCGACAAAGGCAAGCGCGTAACAACCGTTCTGGTGCCGTCGCAGCTGCAGGACAAAAACAACAA -AGGCCAGACCCCGGCACAGAAGAAGGGTAATTAATTCGTTATGGCAACATTAACTGCAAAGAACCTTGCAAAAGC -CTATAAAGGCCGTCGCGTGGTAGAAGACGTCAGCCTGACCGTCAACTCCGGGGAAATTGTCGGTCTGCTGGGGCC -AAACGGTGCCGGTAAGACCACCACTTTCTACATGGTTGTAGGCATTGTGCCGCGCGATGCGGGCAACATCATTAT -TGATGATGACGATATCAGTCTGCTGCCTCTGCATGCACGCGCGCGCCGCGGTATCGGCTATCTGCCACAGGAAGC -CTCCATTTTCCGTCGCCTCAGCGTTTACGATAACCTGATGGCGGTACTGCAAATTCGTGACGACTTGTCTGCTGA -ACAACGTGAAGACCGCGCGAACGAGCTGATGGAAGAGTTTCACATTGAGCACCTGCGTGACAGCATGGGGCAGTC -ACTCTCCGGGGGTGAACGTCGCCGTGTAGAAATTGCCCGCGCACTGGCTGCGAATCCGAAATTTATTCTGCTCGA -CGAACCGTTTGCCGGGGTTGACCCGATCTCGGTTATCGACATTAAACGCATCATTGAGCACCTGCGCGACAGCGG -CCTGGGCGTGCTGATCACTGACCACAACGTGCGTGAAACACTGGCGGTTTGTGAACGCGCTTATATCGTCAGTCA -GGGGCATTTGATCGCCCACGGCACGCCTACAGAAATCTTACAAGACGAACACGTTAAGCGTGTATACCTTGGGGA -AGACTTCAGACTCTGATAGGGTAGAAGTTTGCGACGTTTTAGCAGGAGAGTACGATTCTGAACATGAAGCAAGGT -TTGCAACTCAGGCTTAGCCAACAACTGGCGATGACGCCACAGCTCCAACAGGCAATTCGTCTGTTGCAGTTGTCG -ACGCTGGAACTTCAGCAGGAGCTACAGCAGGCGCTGGAGAGTAATCCGCTGCTTGAGCAAATCGACACTCATGAA -GAAATCGACACCCGCGAAACGCAAGACAGTGAAACGCTGGACACCGCCGACGCGCTCGAACAAAAAGAGATGCCG -GAAGAGCTGCCGCTCGATGCCAGTTGGGACACCATTTACACCGCTGGTACACCATCCGGCACCAGCGGTGACTAC -ATTGACGACGAGCTGCCGGTCTACCAGGGCGAAACGACGCAGACCTTGCAGGATTACCTGATGTGGCAGGTTGAG -CTGACACCGTTTTCCGACACTGACCGCGCTATTGCTACCTCTATCGTCGATGCCGTTGATGAAACCGGTTATCTG -ACTGTCCCGCTGGAAGATATTCTCGAAAGTATAGGCGATGAAGAGATCGACATCGACGAAGTTGAAGCCGTCCTT -AAGCGGATCCAACGGTTTGATCCGGTCGGTGTGGCGGCAAAAGATCTGCGTGACTGTCTGCTGATCCAACTCTCC -CAATTCGATAAGACCACGCCGTGGCTGGAAGAGGCCAGACTGATCATTAGCGATCATCTCGATCTGTTAGCCAAT -CACGACTTCCGCACTTTAATGCGCGTCACGCGTCTGAAAGAAGATGTGCTGAAAGAAGCCGTCAATCTGATCCAG -TCGCTCGATCCGCGCCCCGGGCAGTCGATCCAGACTGGCGAACCTGAGTATGTCATTCCAGATGTGCTGGTGCGT -AAGCATAACGGTCACTGGACGGTAGAACTCAACAGTGACAGCATTCCGCGTCTGCAAATCAACCAGCACTACGCC -TCGATGTGCAATAACGCGCGCAACGATGGTGACAGCCAGTTTATCCGCAGCAATCTGCAGGATGCCAAATGGTTG -ATCAAGAGTCTGGAAAGCCGTAACGATACGCTACTGCGCGTGAGTCGCTGTATCGTTGAACAGCAGCAAGCCTTC -TTTGAGCAAGGTGAAGAATATATGAAACCGATGGTACTGGCCGATATCGCCCAGGCTGTCGAAATGCATGAATCG -ACGATATCTCGCGTGACCACGCAAAAATACCTGCATAGTCCACGAGGCATTTTTGAACTGAAGTATTTCTTTTCC -AGTCACGTCAATACCGAGGGCGGCGGCGAAGCTTCCTCCACGGCGATTCGTGCGCTGGTGAAGAAATTAATCGCG -GCGGAAAACCCAGCGAAACCGTTGAGCGACAGCAAGTTAACCTCTTTGCTGTCGGAACAAGGTATCATGGTGGCA -CGCCGCACTGTTGCGAAGTACCGAGAGTCTTTATCCATTCCGCCGTCAAACCAGCGTAAACAACTCGTTTGACCC -AACCGATAAGGAAGACACTATGCAGCTCAACATTACCGGAAATAACGTCGAGATCACCGAGGCACTGCGCGAATT -TGTTACAGCCAAATTTGCCAAACTTGAGCAATATTTTGACCGAATCAACCAGGTCTATGTTGTTCTGAAAGTGGA -GAAAGTCACCCACACCTCAGATGCAACACTGCATGTAAACGGTGGTGAAATTCATGCCAGCGCGGAAGGTCAGGA -CATGTACGCTGCCATTGATGGCTTAATTGATAAGCTGGCACGCCAGTTGACCAAACATAAAGATAAACTGAAACA -ACACTAATTGTCCGGGCAATTAGCATGTGCATGGCGGTCTGTTGTGCGGCACAACGGGCCATTTGTACGGTTAAT -GCTCCGAGCCTGTTCCACTGTTTGAGTGGGCAGGTTCTTAGGTGAAATTATGACAAATAATGATACAACTCTACA -GCTTAGCAGTGTTCTTAACAGGGAATGTACGCGAAGCCGCGTCCACTGTCAGAGCAAAAAACGCGCCCTGGAAAT -CATCAGCGAGCTGGCGGCGAAACAACTTAGCCTGCCGCCTCAGGTGGTTTTTGAAGCTATCCTGACGCGGGAAAA -AATGGGCAGTACCGGTATCGGCAATGGTATTGCCATTCCGCATGGCAAACTGGAAGAAGATACTCTGCGCGCCGT -TGGCGTTTTCGTTCAGCTCGAAACGCCTATAGCTTTCGATGCCATCGACAACCAACCGGTGGACTTACTTTTTGC -CCTGCTGGTGCCGGCAGACCAAACTAAAACGCACCTGCATACTCTGTCGCTGGTGGCGAAACGTCTGGCGGACAA -AACCATCTGCCGCCGTTTACGCGCAGCCCAGAGCGATGAAGAGCTGTATCAAATCATTACGGATACCGAAGGTAC -TCCGGATGAAGCGTAGTTATTCGGTAATGTCTCTTTTAGACGTTGTGAGGAGAAACAGTACATGGTACTGATGAT -CGTCAGCGGACGTTCAGGTTCAGGTAAATCTGTCGCCCTGCGTGCGCTGGAAGATATGGGTTTTTACTGCGTGGA -TAACCTTCCCGTAGTGTTGTTACCCGATCTGGCTCGAACCCTGGCCGATCGCGAGATTTCTGCCGCCGTCAGCAT -TGATGTTCGTAATATGCCGGAGTCACCAGAAATATTCGAACAGGCGATGAGTAACCTGCCTGACGCTTTCTCACC -GCAACTCCTGTTCCTGGATGCCGACCGTAATACCTTAATTCGTCGTTACAGTGACACGCGCCGACTGCATCCGCT -TTCCAGCAAAAACCTGTCGCTGGAAAGTGCTATCGACAAAGAAAGCGATTTGCTGGAGCCTCTGCGTTCGCGAGC -GGATCTGATTGTCGATACCTCAGAAATGTCCGTTCACGAGCTGGCTGAAATGCTGCGTACCCGTCTGCTGGGTAA -ACGTGAACGCGAACTGACCATGGTCTTTGAGTCTTTCGGCTTCAAACACGGTATCCCTATCGATGCAGATTACGT -CTTTGACGTGCGCTTCTTGCCGAACCCGCACTGGGATCCGAAACTGCGTCCAATGACAGGTCTTGATAAACCTGT -CGCCGCGTTCCTCGACCGCCACACAGAAGTACACAATTTTATCTACCAGACGCGAAGCTATCTTGAGCTATGGTT -ACCTATGCTGGAAACCAACAACCGTAGCTACTTGACGGTCGCCATTGGTTGTACCGGCGGGAAGCACCGTTCGGT -GTATATTGCAGAGCAACTGGCAGACTACTTCCGCTCGCGCGGTAAAAACGTCCAGTCACGCCATCGTACGCTGGA -AAAACGTAAACCATGACCGTCAAGCAAACTGTTGAAATCACAAACAAGCTGGGCATGCATGCCCGGCCTGCAATG -AAGCTGTTTGAATTAATGCAGGGTTTTGACGCTGAAGTGCTCTTACGTAATGACGAAGGCACCGAGGCTGAAGCC -AACAGCGTTATTGCGCTGCTGATGTTGGATTCTGCCAAAGGACGGCAGATTGAAGTTGAAGCGACCGGTCCACAG -GAAGAGGAAGCACTGGCCGCCGTTATCGCCCTCTTTAATTCTGGTTTTGATGAAGATTAATCTTCATCACTTTGA -CATACAACTCCCTTCAAACTCCCCCCGACAATAAGAAAATCACGTACTGAAATCGTTCTCAATCAACGTCATTTG -TACATTTTGTGCGCTTTTCACTTTCAGAAGAACCTTAAGAAAACCTTAAGAGGCATTGTTTAGGTTTTGTTTAAG -TTAATCGACCATACTGGAGATCGTCAGAAAATATTTCCAGGAGATGGCATGATTCGCTTATCTGAACAAAGTCCC -CTGGGCACCGGAAGACATCGGAAATGTTATGCGCATCCGGAAGATGCCCAACGCTGTATCAAGATTGTCTACCAT -CGTGGCGATGGTGGCGATAAAGAGATCCGCCGTGAGTTAAAGTACTACGCGCATCTTGGTCGCCGGTTAAAAGAC -TGGAGTGGAATACCGCGCTATCACGGTACCGTTGAGACGGATTGCGGAACCGGTTATGTCTACGATGTGATTGCA -GATTTTGACGGCAAGCCTTCCATTACGCTGACCGAATTTGCTGAACAATGCCGTTACGAAGAAGACATTGCACAA -CTGCGCCAGCTACTGAAACAGCTGAAGCGTTATTTGCAGGATAACCGTATCGTGACGATGTCGCTGAAGCCGCAG -AATATCCTCTGTCACCGCATCAGTGAGTCAGAGGTTATCCCGGTCGTCTGCGACAACATTGGTGAAAGCACATTG -ATTCCACTGGCGACCTGGTCGAAGTGGTGTTGTCTGCGTAAGCAAGAGCGGTTATGGAAACGATTTATCGCCCAA -CCGGCGCTGGCTATTGCCCTGCAGAAAGATCTGCAACCTCGTGAGAGCAAAACGCTGGCCCTCACTTCGCGCGAA -GCTTAATCCAGCTGGTGTTGTTGCATAAACGGCTCACCGCCTAACTGATACATCTGCCGTAAAATCCACGCCTGA -CGGCTACGCACGTAGCCCGATGGCGAGGAGACTTTGAAACGAAGTGGATTAGGTAATACAGCTGCCAGTAATGCA -GCTTCCGACCGGGTAAGTTTGCTCGCGGGTTTGTGGAAATAACGTTGTGCCGCAGCTTCGACGCCAAACACACCG -TCGCCAAATTCGGCGATATTCAGGTAAACCGTCAGGATACGCTTTTTGCTCCAGACCGTTTCTATCCCCAGCGTT -AATCCGGCTTCCAGCCCTTTTCGAACCCAGCTACGCCCATCCCATAAAAAGAGATTTTTGGCTGTCTGTTGAGAA -ATCGTTGAAGCACCGCGAATACGGTTTTCATTGCGCTCGTTGTGCGCCAGGGCTTTCTCAATGGAAGCGACATCA -AAGCCCCAGTGCTCAGGAAATTTCTGATCTTCTGCGGCAATCACCGCCAGTCCCATCCACGGCGAGATTTGATCC -ATACTGACCCAGTCAGAATGTGCCACGTAACGAAAATTGCCATGCAGCCAGGCGCTGACCTGTCGCTCGACCATT -ACCGCTGAGAAGGGAACAGGCGCAACGCTAAACAACGCGATGCCCCCGCCCCAGAAAACGGCGAGGACAACCATT -AACCGCAAAAGAAAACGGCGAACGAAACTAAACACCGTTAAGCGGCTTTTACTCATTCAGCCAGAACCAGCACGC -GGGAAACCAGCTTATCAATGCCGCTCGCCGCTTCTGCAATGTTCTGCGCCAGCATATATGCTGGGGTGGTGACAA -TCTTATTGTCTTCATCAACCACGATATCATCGACAGGACACGGCACATGCTCCGCGCCCATCTCTTCCAGCACTT -CTGCGGTATCGATATCAGTACCGATGGTCAAACGCAGCGGGAAATCGAAAATTTTCGGCAGCATCGCCGGGGCAA -TACACATAAAACCAAGCGGTTTTCCGGCCTGATGCATCGCTTGTGCCAGCGCCTTTAATTCACGGTCAACGGTGC -ATTCGCTACCAAGACTGGCAAAATTGCTTAAATTCTTCGCCGCGCCAAACCCCCCCGGCACAATCAACGCATCCA -GTTCAGCGGCATCGGCCTGGGCCAGAGGACGGATTTCACCGCGCGTTATTCGTGCCGCTTCAATCAGCACATTGC -GCGTTTCCGTCATCGCTTCGCCAGTTAAATGGTTGATAACATCAACCTGCTGCTTATCCGGTGCAAAGCAGACCG -CCTGCGCACCGCTGCGTGAAATAGCTAACAACGTCAACACCGCTTCATGAATTTCAGAACCGTCATAGACGCCGC -ATCCGCTCAGAATTACGCCAATTTTCTTCATTGTGATCATCCTTTCGCAATTGACTGAAACACATTAATTTTTTT -AATAAAAATGGTACGCATCACACATTTAACTGATTCATGTAACAAATCATTTAAGTTTTGCTATCTTAACTGCGT -GCGGCCTGAAAAACAGTGCTGTGCCCTTGTAACTCATCATAATAATTTACGGCGCAGCCAAGATTTCCCTGGTGT -TGGCGCAGTATTCGCGCACCCCGGTCTAGCCGGGGTCATTTTTTAGTGGCTTTTGCCACCCACGCTTTCAGCACT -TCTACGTCGTGACGCCACTCTTCTTTCATCTCTTCAATCCATTCACCGACGTTATCTTCCCAGGCCGGAAGGTCA -GGAGACTGAATTTGCTGACCCAGCTGTTGCAGATGGCGTAACCCCACTGACCCCGCCGCACCTTTAATTTTATGT -CCTTCCTCAACAATGCCTTTTTTATCCTGCGCCGTCAGATTCGACTCCAGCACGCTGACATAGCCCGGCATCATC -TTCTCAAACACCGCTAACCCGTCGGTGATCAGCTTCGGTCCTACAAGTTCGAGATACTGTTCCAGCATGGGAATA -TCGAGCAATGCTTCTGATTTACTGTTCTCTTCTGTCGTCACCGTACTCTCCTCATCATCCTGGGTATCCCAGAAT -TTCTTGATCATCGCGGTTAGCGCCGGAACAGAAAGCGGCTTACTCAGCACATCATCCATTCCAGCATTGAGGTAC -TCTTGTTTGTCTTTCAGCACGTTAGCGGTTAAGGCCACCAGCGGCGGTAAATCCTCGCGCGGATAACGTTTCGTC -AGTTCACGAGAGATATCCAGCCCGGTCATATCTGGCAACTGAATATCCAGCAACACCAGGTCGTATTCGCCCGGT -TTAAACATCTCCAGCGCCGCCTTGCCGGTCATGGCGACATCAACGCTGTTACCTAATTTTTCCAGCACAGAACGC -GCAACAATCACGTTCAGTTCAATGTCTTCCACCAGCAGCACATTCAGCGCCGGTAAAGGCATATCGTCTTCATCA -AACGCATCATCGACCTCTTCTGCTACCGACGGTGCGTGGATCGTCAACGTAAAGGTTGAACCTTTGCCCTGTTCG -CTGGTAACCGTAATATCGCCGCCCATATTTTTCGCCAGACGACGAGAAACGGCCAGACCAATACCGGTGCCGGTG -GCAGGTTTACCGCCATGACTGTCTTTCACCTGGTAATACATGGCGAAAATTTTATCCAGCTCATCCTGCGGAATG -CCGATACCAGAGTCTTCCACTTCAAAATGCAGCATATCGCCTTCATCGTAGCGCACGCGCACGGTAACCTGGCCT -TGCTGGGTGAATTTGACGGCGTTACTGATGAGGTTCCACAGGATCTGCCGTAAACGCGTCCCGTCGGTAATGACC -TGATGCGGTAATGGCAGCGTCGGCTCCAGGTTAAAGCGCAATCCTTTTTGTTGCGCCTGCAATGCGGAGAGATTT -TCCAGATCGGCAAGGAAGCTGGTGAAATCAACCGGTTGATTATCAAGCTGGACCTTGCGCCGTTCCATCTTATCC -ATGTCGATAATATCGTTAAAGATATTCCCCAGCGTGACGGCCGAAACATGGATGGTCTTGAGATATTTTTCCTGC -TCGGCGGTGAGTTCGGTATCCAGCAGAATGCGGCTCAGACCGACGATACCGTTCAGCGGTGTACGCAATTCGTGA -CTGATGGTGGAGATAAACGTCGTTTTGTCGCGGCTGGCCCGTTCAAGCGCATCCTGATACCGCTTACGCTCGGTA -ATGTCGCGACCAAAGCCCATCAAACCGTGACGTTTACCCACGCGGTCGTAGTACGGCACTTTACGGATTTCAAAG -CAGGCTTTGCGCCCGTCCGGGTAATCCAGCCACTGTTCATAGGTCAGTGACACATTATGACGGAACACTTTTTCA -TCGGTTTCAATGACTTTTGCGGCGGCTTCCGGTGAGTAAACATCAGCAGGTTTCAGGTGAACCAGTTGTTTTTCG -CTTTTTCCGGTCAGCAGCTCCATCGCGCGGTTACAGCCGGAAAACTCTTTATCTTCGTTACGATAAAAAACCAGG -TCGGGTGAAGCATCAAGGAAGGAACGTAAGAATGAGGATTGCTGCTCGAGCTGAATTTGTGTCTCTTCGCGCTCT -TTGATTTCAATTTTCAGTTGGCCGAAGGTTTCCTGCAGTTCTGCTTCCGCTTTTTCACGAACGGCAATTTCCTGA -TTTAGCTGGGCAATATTATCTTTTAACTGAACGTTGAGGCTCAAATCGCGCTCGCGCATCTCCTCCAGTTTTTGC -ACCAGCCGTGACAGACGTTGTCGTGACTCCTCCAGTTGCTCGACGACCACCGATAGAAAGTAGACCGCCCACGGC -GTAATCAGCAAACCAAAGAAGATAGAACGAATAACATCAATGCTTTCGACCTGACCATGCAGCACCATGGTTACC -GCCATTTGTACCACAATGGCAAGAACGACGAGGGCCAGCGCCAGCAACATTGAGAAGCGCACCAGACCTAACTTC -ATCATCAGGTCAACATAATACTGCGCCAGCAGACGAATTTGCTTCATTAGGGAATTCCTTCACGACAACCTGCCC -CAATAATACCCAATTCTGACAGTTACGTTATAAATTGTGTGAGAAATGCGGAATTCCCCTCAACGACCTACTCCG -TTGGAGGTAGCCACGGACGTCCCAGCGCCGATCCCTGTACGCCATGTTCATTCAGATAGCGATCCAGCTCGACCA -TTCCCGTCCATCGATTTTCGCACCACAGCGGAGCAAGCAGCGTCGGGCGACGGGCGCTGGCGGAAATGCGGTGGT -AGATCACTTCCGGTGGCGTATGGCGAATCATTTCTCCGGCAGTGAGCGTGTAATCCTCCAGTTCAATACCGTTCA -AACGCCCCGCTTCCCAGGCTTTCGCCATAATGCTGCCTTTCACAATATGCAGCGGATGCAGCTTTATGCCGTCCA -CGCCGGTTTCAACCACTCGCTCCAGCGTTTGCAAACATTCAGCCTGCCCTTCGCCAGGCAGGCCGACAATTAAGT -GGGAACACACCTTCAGCCCGCGCTGACGTGCCAGCTGGGTTGTACGCTGATAACAGGCAAAATCATGGCCGCGGT -TGATGCGATGCAGTGTTTTGTCGTGGGCGGTTTGTAGCCCCAGCTCCAGCCACACTTCGTAACCCTGGTCCTTAT -ATTCGCAAAGCAGATCCAGCACCGCATCCGGCACGCAGTCCGGGCGGGTACCCACACACAAACCGACAATATTGG -CCTGGCTCACCGCCTGCTGATACATAGAACGCAGCACCTGAACTTCCGCAAAGGTGCTGGTATACGCCTGAAAGT -AGGCCAGATAGCGTTTAGCGCGGTTAACTAAATTCGCCTGGTGCGCCAGTTGCTCGGCAATGGAACGATGCTGCT -GCGCTTCATCGGCAAACGAGGCAACATTACAGAATGTGCAGCCACCACGCCCGATGGTACCGTCACGGTTAGGGC -AGCTAAAACCGCCGTGCAGCGTCAGCTTATGCACCTTTTGCCCATAACGACGGGTGAGATCACCACCAAACATAT -TGACTAATTTCTGTAACTGCATAATCTGATAGACCGCGCCTTGAAAAGAGGCCAAAGCCTGCCATTTTTAGCTCA -ATTCGGCGATGACCTGGATCAATCGTCCCGGCCTGCTTTTATCAACTGCATAATCAATCAAAATTACCGAAATTT -CATGCATAATCACATAAATCACTTTTGCTTATCTTGTGTCAGATTTTTTTATCTCCTGATGGATTTTAGGCAAAA -ACAGTAGCATGAAACGTCATTACCAATTAAGGCAGTATAAAATGCTGGTTTTGTCGTCAGTTCAAGGCAGGATAA -GGGTTAACACACCTTTATGACAGTCAGGAATTGACTGTTTCTCTAACGACTTCCCTTTTAGCCTTAAAGATAAAA -TCCATTTTAATTTCAGTCATTTAATAAAGAATTTTGCGCTAAAGCACATTTCTGTACCAATAAGCTTGCCATTTG -ACCTGTATCAGCTTTCCCGATAAGTTGGAAATCCGCTGGAAGCTTTCTGGATGAGCAGCCTGCTCATCATATTTA -TGCAGTAATTGAGATCCCCTCTTCACCGTATTAACCGATGCGAAAAGGACAACAAGGGGGCGAATGCGAGGCGCG -CGTATGACACGCAAACCCCGTCGCCACGCTCTTTCTGTGCCCGTGCGCAGCGGTTCGGAAGTGGGGTTCCCGCAG -AGCCTGGGGGAGGTTCACGATATGTTGTACGATAAATCCCTTGAGAGGGATAACTGTGGTTTCGGCCTGATCGCC -CACATAGAAGGCGAACCTAGCCACAAGGTAGTGCGTACTGCAATACACGCACTGGCCCGCATGCAGCACCGTGGC -GCGATTCTCGCCGATGGTAAAACCGGCGACGGTTGCGGCTTGCTGTTACAAAAACCGGATCGCTTTTTTCGCATC -GTTGCGCAGGAGCGCGGCTGGCGTTTAGCAAAAAACTACGCTGTCGGGATGCTCTTCCTGAATAAAGATCCTGAA -CTCGCCGCTGCCGCACGCCGCATCGTTGAAGAAGAACTGCAACGCGAAACCTTGTCGATTGTGGGCTGGCGTGAT -GTCCCCACTAACGAAGGCGTGCTGGGTGAAATCGCCCTCTCCTCTCTGCCACGCATTGAGCAAATTTTTGTGAAC -GCCCCGGCAGGCTGGCGTCCACGCGATATGGAGCGCCGTCTGTTTATCGCCCGCCGCCGCATTGAAAAGCGTCTC -GAAGCCGACAAAGACTTCTACGTCTGTAGCCTGTCGAATCTGGTGAACATCTATAAAGGTCTGTGTATGCCGACG -GATCTGCCGCGCTTTTATCTGGATCTTGCGGACCTGCGTCTGGAATCGGCCATTTGCCTGTTCCACCAGCGCTTC -TCCACTAACACCGTACCGCGCTGGCCGCTGGCGCAACCGTTCCGCTATCTGGCGCATAACGGTGAAATCAACACC -ATCACCGGTAACCGCCAATGGGCGCGTGCGCGTACTTATAAATTCCAGACACCGCTTATCCCTGACCTGCACGAC -GCCGCACCGTTCGTCAACGAAACCGGCTCTGACTCCAGTTCGATGGATAACATGCTGGAACTGCTGCTGGCAGGC -GGGATGGATATCATCCGCGCCATGCGTCTATTAGTACCACCCGCCTGGCAGAACAACCCGGATATGGACCCGGAA -CTGCGTGCCTTCTTTGACTTTAACTCCATGCATATGGAGCCGTGGGATGGCCCGGCGGGCATCGTGATGTCCGAC -GGTCGTTTTGCCGCCTGTAACCTCGACCGTAACGGTCTGCGTCCGGCGCGCTACGTCATCACCAAAGATAAGCTC -ATCACCTGCGCCTCTGAAGTCGGTATCTGGGATTACCAGCCTGACGAAGTGGTCGAAAAAGGCCGCGTCGGGCCA -GGCGAACTGATGGTTATCGACACCCGCAGTGGGCGTATTCTGCACTCGGCAGAAACCGATGACGATCTGAAAAGC -CGCCATCCATATAAAGAGTGGATGGAGAAAAACGTCCGCCGACTGGTACCGTTTGAAGATCTGCCCGATGAAGAA -GTGGGTAGCCGCGAACTGGACGACGACACGCTTGCCAGCTACCAGAAACAGTTTAACTACAGCGCGGAAGAGCTG -GACTCCGTAATTCGCGTACTGGGCGAAAACGGTCAGGAAGCGGTCGGTTCGATGGGCGATGATACCCCATTCGCC -GTGCTCTCCAGTCAGCCGCGCATTATTTACGACTACTTCCGCCAGCAGTTTGCCCAGGTGACTAACCCGCCAATC -GACCCGCTGCGTGAAGCGCATGTTATGTCGCTCGCCACCAGTATCGGTCGTGAAATGAACGTCTTTTGCGAAGCA -GAGGGCCAGGCGCACCGTTTAAGCTTTAAATCGCCGATTCTGCTCTACTCCGATTTCAAACAGCTCACGACGATG -AAAGAGGAGCACTACCGCGCAGATACGCTGGATATCACCTTTGACGTCACTAAAACCACGCTCGAAGCGACAGTC -AAAGAGCTGTGCGACAAAGCCGAAAAAATGGTACGTAGCGGCACCGTGCTGCTGGTGCTCTCCGACCGGAATATC -GCTAAAGATCGCCTGCCGGTTCCAGCCCCGATGGCGGTTGGCGCGATCCAGACCCGTCTGGTCGATCAAAGCCTG -CGTTGCGATGCCAACATCATCGTCGAAACCGCCAGCGCCCGCGATCCGCACCACTTCGCCGTGTTGCTGGGCTTC -GGCGCGACGGCTATTTATCCATACCTTGCCTATGAAACGCTGGGCCGCCTGGTAGACACCCATGCGATTGCCAAA -GATTATCGTACCGTGATGCTCAACTACCGTAACGGCATCAACAAAGGCTTGTACAAAATCATGTCCAAAATGGGC -ATCTCCACCATCGCCTCTTACCGCTGCTCGAAACTGTTTGAAGCGGTCGGTCTACACGATGATGTAGTGGGCCTG -TGCTTCCAGGGGGCGGTCAGCCGCATTGGTGGAGCAAGCTTTGAAGACTTCCAGCAGGATCTGCTGAATCTGTCG -AAACGTGCCTGGCTGGCGCGTAAGCCCATCAGCCAGGGCGGTCTGCTGAAATACGTCCACGGCGGCGAATACCAC -GCCTACAACCCGGACGTGGTGCGCACGCTGCAACAAGCGGTACAAAGCGGCGAGTACAGCGACTATCAGGAATAC -GCGAAGCTGGTTAATGAGCGTCCGGCAACCACGCTGCGCGATCTGCTGGCAATTACGCCGGGTGAAAACGCGGTC -AACATTGCTGATGTTGAACCGGCAAGCGAACTGTTTAAACGCTTTGATACCGCCGCGATGTCTATCGGCGCGTTA -AGCCCGGAAGCCCACGAGGCGCTGGCGGAAGCGATGAACAGCATCGGCGGTAATTCGAACTCCGGTGAAGGCGGC -GAAGACCCGGCGCGCTACGGCACCAACAAAGTGTCGCGCATCAAGCAGGTGGCTTCCGGTCGCTTTGGGGTTACT -CCGGCGTATCTGGTCAATGCCGACGTCATTCAGATTAAAGTCGCCCAGGGCGCGAAGCCAGGCGAAGGCGGTCAG -TTGCCGGGTGATAAAGTCACGCCTTACATCGCCAAACTGCGCTATTCGGTGCCCGGAGTGACGCTGATCTCCCCG -CCGCCGCACCACGATATCTACTCTATCGAGGACTTAGCGCAGCTCATTTTCGACCTCAAGCAGGTTAACCCGAAA -GCGATGATCTCCGTGAAGCTGGTTTCCGAACCGGGAGTAGGCACCATCGCGACTGGCGTGGCAAAAGCTTATGCG -GACTTGATCACCATCGCAGGCTATGACGGCGGCACCGGCGCAAGTCCGCTTTCATCGGTGAAATACGCAGGCTGT -CCGTGGGAGCTGGGGCTTGTTGAAACCCAGCAGGCGCTGGTTGCTAACGGCTTGCGTCACAAGATCCGTTTGCAG -GTCGATGGCGGCCTGAAAACGGGTGTCGATATCATCAAGGCGGCGATTCTCGGCGCAGAAAGCTTCGGCTTCGGC -ACTGGCCCGATGGTGGCGCTCGGCTGTAAATATCTACGTATTTGCCATCTGAACAACTGCGCAACGGGTGTAGCA -ACTCAGGATGACAAACTGCGTAAGAACCACTATCACGGCCTGCCATTCAAGGTGACGAATTACTTTGAGTTTATC -GCCCGTGAAACCCGCGAGCTGATGGCACAGCTTGGCGTAACACGTCTGGTGGATCTGATTGGTCGCACCGACCTG -CTGAAAGAGCTGGACGGTTTCACCGCCAAACAGCAGAAGCTGGCGCTGTCGAAGCTGCTGGAGACTGCCGAACCG -CATCCAGGTAAGGCACTCTACTGCACCGAAAACAACCCGCCGTTTGATAACGGCCTGCTGAACGCGCAGTTGCTG -CAACAGGCGAAACCGTTTGTCGATGAGCGCCAGAGCAAAACCTTCTGGTTCGATATTCGCAACACCGACCGTTCT -GTCGGCGCGTCGCTTTCAGGCTATATCGCCCAGACGCACGGCGATCAGGGGCTGGCAGCCGATCCTATCAAAGCG -TACTTCAACGGCACCGCAGGCCAGAGCTTCGGCGTGTGGAACGCGGGCGGCGTGGAACTGTACCTGACCGGTGAT -GCCAACGACTATGTCGGTAAAGGCATGGCGGGCGGCTTAATCGCCATTCGTCCTCCGGTTGGTTCCGCCTTCCGC -AGCCATGAAGCAAGCATTATCGGCAACACCTGCCTGTATGGCGCGACCGGTGGTCGTCTGTATGCCGCAGGCCGC -GCGGGTGAACGTTTCGGCGTGCGTAACTCCGGTGCTATCACCGTGGTAGAAGGCATTGGCGACAACGGTTGTGAA -TATATGACGGGTGGTATCGTCTGCATTCTGGGTAAAACCGGCGTTAACTTCGGTGCGGGCATGACCGGCGGTTTC -GCTTACGTTCTCGATGAAAGCGGCGATTTCCGCAAACGCGTTAACCCGGAACTGGTCGAGGTCTTAAGCGTTGAC -GCTCTGGCGATCCATGAAGAGCATCTGCGTGGTCTTATCACCGAGCATGTGCAGCATACCGGCTCTCAGCGCGGT -GAAGAGATTCTGGCGAACTGGTCAACCTTCGCCACTAAATTTGCGCTGGTTAAACCGAAGTCCAGTGATGTAAAA -GCACTGCTGGGTCACCGTAGTCGTAGCGCAGCTGAGTTGCGCGTGCAGGCGCAGTAAGGGGTAGCAACAATGAGT -CAGAATGTTTATCAATTTATCGACCTGCAGCGCGTTGATCCGCCAAAGAAACCGCTGAAGATCCGCAAAATTGAG -TTTGTTGAAATTTACGAGCCGTTTTCCGAAGGCCAGGCCAAAGCGCAGGCTGACCGCTGCCTGTCGTGCGGCAAC -CCATACTGCGAGTGGAAATGCCCGGTACACAACTACATCCCGAACTGGCTGAAGCTCGCCAACGAGGGGCGTATT -TTTGAAGCGGCGGAACTGTCGCACCAGACCAACACCCTGCCGGAAGTTTGCGGACGAGTCTGCCCGCAAGACCGT -CTGTGCGAAGGTTCCTGCACTCTGAACGATGAGTTTGGCGCGGTGACCATCGGCAACATTGAGCGCTATATCAAC -GATAAAGCGTTCGAGATGGGCTGGCGTCCGGATATGTCTGGTGTGAAACAGACCGGTAAAAAAGTGGCGATTATC -GGCGCAGGCCCGGCAGGTCTGGCGTGTGCGGATGTCCTGACGCGTAACGGCGTAAAAGCCGTTGTCTTCGACCGT -CATCCAGAAATTGGCGGGCTGCTGACCTTCGGTATTCCGGCCTTCAAGCTGGAAAAAGAGGTAATGACGCGTCGC -CGTGAAATCTTCACCGGCATGGGTATTGAATTCAAACTCAATACCGAAGTGGGCCGCGACGTACAGCTGGACGAT -CTGCTGAGTGATTACGATGCCGTGTTCCTTGGCGTCGGGACTTATCAGTCAATGCGCGGCGGGCTGGAAAACGAA -GACGCCGATGGCGTGTACGCAGCGCTGCCGTTCCTCATCGCCAACACCAAACAGTTAATGGGCTTTGGTGAAACC -CGCGACGAACCGTTCGTCAGCATGGAAGGCAAACGCGTGGTGGTCCTTGGCGGTGGCGACACTGCGATGGACTGC -GTGCGTACGTCCGTGCGCCAGGGAGCGAAGCACGTTACCTGTGCCTATCGTCGTGATGAAGAGAACATGCCGGGT -TCCCGCCGCGAAGTGAAAAACGCGCGGGAAGAAGGCGTAGAGTTCAAATTCAACGTCCAGCCGCTGGGTATTGAA -GTGAACGGTAACGGCAAAGTCAGCGGCGTAAAAATGGTGCGTACCGAAATGGGCGAACCGGACGCCAAAGGCCGT -CGCCGCGCGGAGATCGTTGCAGGTTCCGAACATATCGTTCCGGCAGATGCGGTGATCATGGCGTTTGGTTTCCGT -CCACACAACATGGAATGGCTGGCAAAACACAGCGTCGAGCTGGATTCACAAGGCCGCATCATCGCCCCGGAAGGC -AGCGACAACGCCTTCCAGACCAGCAACCCGAAAATCTTTGCTGGCGGCGATATCGTCCGTGGTTCCGATCTGGTG -GTGACCGCTATTGCCGAAGGTCGTAAGGCGGCAGACGGTATTATGAACTGGCTGGAAGTTTAAGCGAGGTAACAA -TGAATTCGCCAGACTGTGTCTGGCGAATCAAATTACTGACGAAGTGCGCGTTGTTTTCTGGCAAATGCGGCATGA -GCGTTTGACCTTTCCTATAATAGGGATAATTTTCAATAAATTGTGCTTTGTTCACCAAGTCTGATGAGTGAAGCA -CATCAAGCAATTTCTCATTTACAATCCGTCTCAATTACTTGTTAACACCTCTGACAATACCGATTCTGCAAGCTA -TTCAGTCTTTTCATTCCATGTAAATTGTCTCGATATTAATATACAAAATATGAATATAAAAAACCAATATATTAT -CCTTAATTATCTATATATTTTCCTATTTTTCAGCGCAAACATTCATGTAATGAATAATTATCACCACAAACCACC -TCACCAGCACCTTATTATTCACATGATCGTAACTATAAAATTCATTAAATAAATACATCCCAGCAAGTTGGCTAT -TTCTGAACGAGTTATTTATTTACATTCACAAACAGATATATATACTGCTTCAGCTTTTTATTTTAAAAAATAAAT -TTGTTATTAAGGATATGTTCATATGTTTTTCAAAAAGAACCTCACAACAGCTGCTATTTGTGCAGCACTTTCTGT -TGCAGCATTCAGTGCCATGGCAACAGATTCAACTGATACAGAATTAACTATCATCGGCGAGTATACCCCTGGTGC -ATGTACCCCAGTTGTTACGGGCGGCGGCATTGTTGACTATGGGAAACATCATAACAGTGCGCTGAATCCGACCGG -TAAAAGTAATAAACTGGTTCAACTGGGCCGCAAAAACAGCACATTAAATATAACCTGCACAGCACCAACGCTAAT -TGCTGTAACCTCCAAGGATAACCGTCAGTCGACCATTGTAGCGTTAAACGACACATCCTATATTGAAAAAGCTTA -TGATACTCTCGTAGATATGAAGGGAACGAAAAACGCCTTTGGTTTAGGTTCTGCGCCTAATGGACAAAAAATTGG -CGCTGCATCCATTGGTATTGACAGGTCTAATGGTGGGATTCACGCGGCGGACGATACAGGTGAAATTCCTGTCGA -CCTGATTCAAACTGACCACTGGTCAGCAGCGACCCCCACATGGAAAGCCTCATCTAATGGCGCATTCTGCTCGCT -GACAAGTTGCTCAGCAATCGAGCGCGGTTATTCTGTTGCAAAAACAGGGGAACTGACACCTGTTGCTATTACAGC -GGTCACCTTCCCGTTACTGATTGATGCTGCGGTAAATGACAATACTATTCTTGGTTCTGATGAAACGATCAAACT -GGATGGTAACGTCACTATCAGCGTTCAGTATTTATAAGAACTTGTAATACAGTTTTTATTTTTACGCATTAACCA -GTTAGCTATAACTCGGACAGATTATGCCCTATGACATGGTCTGTCTTAATCAATCTCATCGCAAACAGTGCATAA -CATATATTAACAATATGTTTCTGCGTTATTTATCATTATTACAGGAGTTTTAATTTAAATGCTCAGACACATTAC -ATTCACTGTATTTATAACAACATCAATGAATACCTTAGCCACAGGGATGGTTCCTGAAACATCAGTATTGCTGGT -TGATGAAAAGCGTGGTGAAGCTAGTATTAATATTAAGAATACAGATGATCATCCTTCATTGCTTTACACCACCAT -TGTTGATTTGCCTGAAAGCAATAAATCAATTCGTTTAATCCCGACTCAGCCCGTTATTCGTGTTGAAGCCGGTCA -AGTACAACAGGTTCGATTTTTACTTCAGGCGACTGTTCCTCTGCAATCAGAAGAGCTGAAACGCGTAACGTTCGA -AGGTATTCCACCAAAAGATGACAAGAGCAGCAGAGTTACTGTTTCAATTCGTCAGGATCTACCTGTACTGATCCA -CCCGGCTTCCCTGCCGGAAGAGCGAGAGACCTGGAAATTCCTGGAATGGCGTAAAAATGGCGACCAAATTGAGAT -TAGCAACCCCAGTAATTATGTCGTTCGTATGACCTTACAATTTAAAACGCTCCCTTCAGGAAAAACGGGGGCTAT -AAATAAGACCTATTTTCTACCACACACCAGTACAACTACTGCATTAACAAACGCTACGGATACAAAAGTCGAGTT -TTACCCAGCCAGCCGATATGGTTATCGCGGTAATAAATATGTCACTGACTTAAAATAACTTTGCCTGGAGCGACA -AGGATGTTAAAAAAAACGTTACTGGCCTACACCATTGGTTTTGCCTTTTCTCCCCCAGCCAATGCAGATGGTATA -GAGATTGCCGCTGTTGATTTTGATCGGGAAACATTAAAATCACTAGGTGTAGATCCTAATATATCGCATTATTTT -TCCCGTTCAGCCCGTTTTTTGCCAGGTGAATATTCACTGATAGTATCAGTAAATGGCGAAAAAAAAGGCAACATT -GCTACGCGCTTTGATGAAAATGGCGACATTTGTCTTGATCAGGCATTTCTGCAACAAGCCGGTTTAAAAATTCCT -TCTGAAGAAAAAAATGGCTGTTACGACTATATATTGTCCTACCCGGGTACCACAATCACACCATTACCTAACCAG -GAAGCGTTAGATATTATCGTTTCACCACAGGCGATCATTCCCATAGGGTTGGATCTCACAAACGCAGCAACTGGT -GGAACAGCTGCGCTGCTAAACTACTCTCTGATGAGCAGCCGTGCAGAATTTTCTAATGGGAGTTCGGACTACTCC -CAGGCTGCACTTGAAGGCGGGATTAATATTAATGACTGGATGTTACGCAGCCATCAGTTCCTTACACAAACAAAT -GGCACATTCAGTAACCAGAACTCGTCAACCTACCTTCAACGTACCTTTACAGATCTTAAAACACTCATGCGAGCA -GGTGAAGTTAACCTCAATAATAGCGTGTTGGAAGGAGCCAGTATTTACGGTATCGAAATCGCACCGGACAACGCA -TTGCAAACCAGCGGCAGTGGTGTGCAAGTTACTGGTATAGCCAACACCTCTCAGGCTCGTGTCGAGATTCGTCAA -CAAGGAGTTTTAATTCATTCCATTCTGGTTCCTGCGGGCGCATTCACTATCCCTGATGTACCTGTTCGCAATGGT -AATAGTGATCTTAATGTCACCGTTGTCGAAACAGACGGTAGTTCGCACAACTATATTGTTCCCTCCACCCTGTTT -AATCAGCATGTAGAAAGCTTCCAGGGTTATCGCTTCGCGATAGGGCGGGTAGACGATGACTATGACGAATCACCT -TGGGTAATTAGTGCATCGAGCGGATGGAATCTGACACGCTGGAGTGCAATGAACGGCGGCGTTATCGTAGCAGAA -AATTATCAGGCGGCATCAATCCGGTCGAGTCTGGTTCCCCTGCCCGATTTAACAGTGAGCAGCCAAATTAGTACA -TCGCAGGATACGAAAGACTCACTGCAAGGACAGAAATATCGTCTTGACGCGAACTACAATCTCCCATTTTCACTT -GGGCTAACAACCAGCCTCACTCGATCTGATCGCCATTATCGCGAACTGTCTGAAGCGATTGATGATGATTATACC -GATCCGACTAAAAGCACTTATGCGCTTGGTTTAAACTGGTCTAACTCCATTCTGGGTGGTTTCAACATCAGTGGC -TATAAAACATATAGTTACGACGGTGACAATGACTCAAGCAACCTTAATATTAACTGGAACAAAGCGTTCAAACAC -GCCACGGTTTCCGTCAACTGGCAGCATCAACTTAGTGCTTCAGAAAATAATGAAGACGATGGTGATCTGTTCTAC -GTCAACATCAGTATTCCATTTGGCAGATCAAACACCGCCACACTGTATACTCGCCATGACGATCATAAAACCCAC -TATGGTACTGGTGTCATGGGAGTCGTCTCAGATGAGATGTCCTACTATGTGAATGCTGAACGAGATCACGACGAA -CGTGAAACGAGCTTGAACGGCAGTATCAGTTCCAATCTCCATTACACCCAAGTCAGCCTTGCCGCAGGAGCAAGC -GGCAGTGATAGCCGTACTTACAACGGTACGATGTCAGGTGGTATTGCCGTACATGATCAGGGAGTGACCTTTTCA -CCGTGGACTATCAATGACACTTTCGCCATCGCAAAAATGGATAACAATATTGCAGGTGTCAGAATTACATCTCAG -GCAGGCCCAGTATGGACAGATTTTCGGGGTAATGCCGTCATTCCATCAATCCAGCCGTGGCGAACATCAGGAGTT -GAGATCGATACCGCCAGCTTGCCAAAAAATGTCGATATCGGTAACGGCACAAAAATGATCAAACAAGGCCGTGGT -GCAGTAGGGAAAGTCGGATTCAGTGCGATAACACAACGCCGTGCATTACTCAATATCACACTTTCCGACGGCAAA -AAACTGCCCAGAGGCGTTGCGATTGAAGATAGTGAAGGCAACTATCTGACAACATCAGTGGATGACGGTGTTGTA -TTCCTCAATAACATCAAACCGGACATGGTGCTAGATATAAAAGATGAGCAGCAATCATGCCGTATTCACCTTACA -TTCCCAGAAGATGCACCAAAAGATGTGTTCTATGAGACAGCAACAGGAGAGTGCCAATGAAACGGATAATAACAG -GATGCCTGCTGCTGAACTTCGCCATGGCCGCTCAGGCAGAGTGTAATATCTCCAGTAGCATACAAAATATCGACT -ATGGCAAACGAAGTGCTGCCATGCGCCAAGTTGACCGGGGTAAAACAACACAATTAGCAGACAGAACAATCACGC -TGGTAATGCAATGCGATCAGGACGCTCATATTCGTGTTCAGTTGAATACCGCTAATATTTCCAACAACGGATTTG -GATTTGGCCCGAATGGTTCATTAAATCTGATCGCCAGCGATGCATTTTCAGGTAGTAACAATCTCGACCTGGCGT -TAGCCAGTGGCAAAAATGACAATCCGGGCAGCACAGGAACAGCATCAATTAGGGAAGGTGCGAATAAGCGGGGAA -ATTCTTCTCGGCTGACTCAGTCATTTCATTTCTTCATGTTTGAGCCGATTTTTTCTCCCGTAAATGCCTTGAATC -AGCCTATTTAGACCGTTTCTTCGCCATTTAAGGCGTTATCCCCAGTTTTTAGTGAGATCTCTCCCACTGACGTAT -CATTTGGTCCGCCCGAAACAGGTTGGCCAGCGTGAATAACATCGCCAGTTGGTTATCGTTTTTCAGCAACCCCTT -GTATCTGGCTTTCACGAAGCCGAACTGTCGCTTGATGATGCGAAATGGGTGCTCCACCCTGGCCCGGATGCTGGC -TTTCATGTATTCGATGTTGATGGCCGTTTTGTTCTTGCGTGGATGCTGTTTCAAGGTTCTTACCTTGCCGGGGCG -CTCGGCGATCAGCCAGTCCACATCCACCTCGGCCAGCTCCTCGCGCTGTGGCGCCCCTTGGTAGCCGGCATCGGC -TGAGACAAATTGCTCCTCTCCATGCAGCAGATTACCCAGCTGATTGAGGTCATGCTCGTTGGCCGCGGTGGTGAC -CAGGCTGTGGGTCAGGCCACTCTTGGCATCGACACCAATGTGGGCCTTCATGCCAAAGTGCCACTGATTGCCTTT -CTTGGTCTGATGCATCTCCGGATCGCGTTGCTGCTCTTTGTTCTTGGTCGAGCTGGGTGCCTCAATGATGGTGGC -ATCGACCAAGGTGCCTTGAGTCATCATGACGCCTGCTTCGGCCAGCCAGCGATTGATGGTCTTGAACAATTGGCG -GGCCAGTTGATGCTGCTCCAGCAGGTGGCGGAAATTCATGATGGTGGTGCGGTCCGGCAAGGCGCTATCCAGGGA -TAACCGGGCAAACAGACGCATGGAGGCGATTTCGTACAGAGCATCTTCCATCGCGCCATCGCTCAGGTTGTACCA -ATGCTGCATGCAGTGAATGCGTAGCATGGTTTCCAGCGGATAAGGTCGCCGGCCATTACCAGCCTTGGGGTAAAA -CGGCTCGATGACTTCCACCATGTTTTGCCATGGCAGAATCTGCTCCATGCGGGACAAGAAAATCTCTTTTCTGGT -CTGACGGCGCTTACTGCTGAATTCACTGTCGGCGAAGGTAAGTTGATGACTCATGATGAACCCTGTTCTATGGCT -CCAGATGACAAACATGATCTCATATCAGGGACTTGTTCGCACCTTCCTTAGTACTTCCCCCAATAATTGGCTGGT -GTTTATGCAAAATGGTCAAGAAGTGGTAATTGATAGCGGTAAAAGCGTTAGCCTCACACTGACAATGGCTCCAGC -TTTTAAGGATGAAGGGGAACTAACCGACATGACAGATATTACAGGCAATCTGACGGTCCTGGTGGAGGCAAAATG -AACAATGTAAAATTACTGATTGCCGGAAGTGCCTTTTTTGCCATGTCAGCGCAAGCCGCTGATAGAGTATCAATT -GACGTTAAGGTGACTCTGGAAGCTGCAGCTTGTACTCCAATACTAAGCAACGGCGGAGTTGTTAACTTCGGTAGT -CATTCAGTCAATAGACTTTCAACGCAGCACTACACACAGATTGGAACACGTAATATTAATATGACTATAACTTGC -GAATCCGCTACCGGCATTGCGATTACCGCTCGTGATACACGAATGGATAGTATGACCACCGGAAAAGATAGTGGG -GGTCAGAGTGGTGTAAAATATACCTTAAATGGCGGAGGTTATATTAGCCAGACAACGCGCTTATTCGGCTTAGGG -AAAACAAAAGATAATAAAAATATCGGTAGTTATGCCGTGTTAATTGATAGCAACAACATTAGTGCCAGCAATGGT -AGCCAGACGTTAGCTGTATCAATAGCAGGTGCAGATGCCGTCATAACAGGGCAAAAAAGAGCATGGCAAACGCTC -ACCGCTTATCCGCTTGCAGTCGATCAAAGCTATTATTACACCTTTGTAAAACCAGGTGAAACAACCCCAACTCCT -GTAACGAACGCCATTATACCGCTTCAGGTGAGCGCATCTATCGCGAATGATTTAGGCGGTTCAGAAAAAATCGAA -CTTGATGGGAAAGCTGTGATAAGCGTAGTCTACTTGTGATAACAATGCCGGACAGGAGTACTATCAGGCATTCGT -TTTATACGATCGGTTAATGTTTCAGGAAAGCTCTTCGCATATCTTGGGGAAAGTAAATGTAATACGCTGTTCTTA -ATTGTTCAGTGCTCACCCCCCAGAGTATAGCTCATTCCATTATTCAACTTAGCTCCATATAAAGGGACAGATAAT -GGAATCGCTCTCAGAAGGAACCACAGCAGGCTACCAGCAAATCCACGACGGTATTATTCATCTGGTCGATAGCGC -CCGGACGGAAACGGTACGTAGCGTTAACGCGTTAATGACCGCGACGTACCAGGAAATTGGCCGACGAATTGTCGA -ATTTGAACAAGGTGGCGAGGCCAGGGCTGCGTATGGTGCGCAGCTAATCAAGCGACTATCAAAGGATTTATGTCT -AAGGTATAAGCGTGGGTTCTCTGCAAAAAACTTACGCCAAATGAGGCTTTTTTACCTCTTTTTTCAACATGTTGA -AATTCACCAGACAATGTCTGGCGAATTAACACCATTGGGAATTCCGCAGACACCGTCTGCAGAATTCCCATCGGC -AAAGATTTGGCAGACGCTGTCTGCCAAATCTTTCCCCTTGCCCAGGTCCACCTACGTCCGTTTACTTTCCGTTAA -AAACGCTGACGCCCGCAGCTTTTATGAAAAAGAGACGCTCCGCTGTGGCTGGTCTGTTCGCCAGCTAGAGCGGCA -AATTGCGACCCAGTTTTATGAGCGGACACTACTGTCACATGACAAATCAGCCATGCTGCAACAACACGCTCCTGC -CGAGACGCATATTCTTCCGCAACAGGCGATACGCGATCCCTTTGTGCTCGAATTTCTGGAATTGAAAGATGAATA -TTCAGAATCCGATTTTGAGGAGGCGCTGATCAACCACCTGATGGATTTCATGCTGGAACTTGGGGATGATTTTGC -CTTTGTTGGTCGGCAGCGAAGGTTACGCATTGATGACAACTGGTTTCGTGTCGATCTGCTGTTTTTCCACCGCCG -TTTACGCTGCCTGCTAATCGTCGATCTAAAAGTGGGCAAATTCAGCTATAGCGATGCCGGACAGATGAATATGTA -TCTCAACTACGCCAAAGAGCACTGGACGCTACCGGATGAAAATCCGCCCATCGGTCTGGTTCTCTGTGCAGAGAA -AGGAGCCGGAGAAGCGCATTATGCTCTGGCAGGTTTGCCTAACACCGTTCTGGCAAGCGAATATAAGATGCAACT -ACCTGATGAGAAACGACTCGCAGATGAACTCGTTCGAACACAGGCGGTGCTAGAGGAAGGCTATAGACGCCGTTA -ATTTCAGCGGTTTCGAATTCTGCAGACAGTGTCTGCAGAATCTTTAAAACGAACTAAGTTTTAAGCCATTAAATC -AGCCTTAACCTTCACCACAACCTTTTTAATCTCTCCAGGCTCGCCGACAACGCATCCTGGTTTATGCGGTTCACC -TGGCATAAACACGGCGAACATTCCCGGTTTTAAGATGATGGCTTGCTCGTTATCAATGGTGCTGCAAAGCTGATA -ATCATCCTCATGGTGGAACTCTTCACACTGACGCGCAGTGCCTGCCATGCCAAACAGAATCCGTTCCTCACCGTT -TAATAACAGCTGGATATCAATGTATTGCTCGTGCAATTCCGCTTTTTTCTCGACGGGCGATTGAGTGTTAAACGT -CATGACATTCATAAAGATATTGTCGCCCTGTAATTCGTAACGACCCGGCGCTTTTTCTTGCGGTCTGGCAGCTAA -TGCCAGCGTTAACGCGTCCTGTAACGCAGGATGTAACCCAGCAGACGGTAATGACTGTACTTCACCCATCATCAT -AATTTTTCTCCCTGGGCCAACAGCGCAGCCCCAAGTAAACCTGCATCATGGCGGTAATGCGCCGCCAGTAAATCA -ACATGAAATGCCGCTGGCTCCTGCGCCAGATACGTTTCCACCAGCGCCAGATACCCTTCTGCCAGACCAACGCTG -CCACCGACCACCACGCACTGGCAATCAGTTGTGGCTTTAATATCAGCGATCAGCCTTGCAAGCGTACGTGCGGAG -CGGTGAATCAGCTGCTGCGCCTGCTCGTCACCCTGCCCGGCGCGCGTGAAAATAGTTTTCGCATCCGCGCCAGCC -AACTCCCCCTGCGCTGCCGCTGCAATGCCGCGACCAGAAGCAATCGCTTCCACGCAACCTGTGCGTCCACAGCCG -CAGACTGGGCCGTGTGGATCGGCAAGCGTATGCCCGATATGCCCCGCCAGACCGCCAGGGCCGGTAAGCAGTTTG -CAGCCGCTCACTACACCGCCGCCAACGCCGGTGGAAACGGTGATAAAGACCATATCGGTTATATCGCCATCCAGC -GCCTGAAACTCCGCCCATGCTGCGGCCTGCGCGTCGTTAATGGCAATGGTCGGCAAATTGGTAAGTTGTTCCAGC -GTTTTGACTAACGGAAAGTGTAGCAATCCACCAAGATTATGCGGATTAAGCGCCAGCAAGCTGCCGTCACGGATT -ATCCCGGTCGAAGCGATGGCAACCCGCTGCGCATGAGCTTGCAACGGAGAGACTAATGCGGATAAGGCATCACGC -AAGGCTTCTGGTGTCTGGCTGGCTGGCGTAGGAAGTTCACGACGATCGCGGATCTGCCCGTCAGCGCCAATCAGC -GCGGCGGCAAGTTTAGTACCGCCGATATCAATCGCCAGTGTGGTCATAGCACCGCCTTTTTCATCGCTGTGTTGT -ACCACTGACAAATGTGCTCAAGACGCGTGATTGCAGAACCGACCGTCACCGCCCACGCGCCGTGGCGCATCGCAT -CCGCCGCCTGAGCAGGCGTGTTGTAACGCCCTTCGGCAATCACCCGACATCCGGCGTCGCTCAACGTTTTCACCA -GCGCCAGATCCGGCTCTTCTGGCGTTTCAGGCGTGGTATAGCCAGAAAGCGTAGTGCCAATAATTTCGGCTCCCA -GCTTTTGGCATGCCAGGCCGTCTTCCGGCGTTGAGCAGTCGGTCATCGCCAGTAAACCGTGATGGTGAATACGTG -CCAGCAGCGTTTCAACAGGCACCGGACGCGGGCGGTCGGTGCCGTCAATGGCGATAATGTCCGCGCCCGCCTGCG -CCAGCGCATCAACATCTTCAATATAGGCCGTGATGCGTACCGGAGAATCCTCCAGATCGCGTTTCACAATTCCAA -TAATCGGCACGCTCACCACCGCACGCGTGGCTTGCAGATTTGCCACACCTTCAATGCGAATGGCAACCGCGCCCG -CCTGTTCTGCCGCTAATGCCATGGCGGCGACGATTTCGGGTTTATCGAGCGGGCTGTCCGGAACCGGCTGGCAGG -AGACAATCAGGCCACCGTTAGCAGCGATTTTTTGATCCAGTTGTGCAAGTAACGACATACATCTTCCCTTAGCGA -AAGGCCCGGTACATAGACCGGGCAACAGGATTAACTTTTGGTTTTGACTAAATCGTTTTTGGCGCTGCCAAACGG -CACGGCACCGCTGAATGGTTTACCGTCGATAGCGTCATGAGTACGCAACGCTTCCGGGCGCAACCAACGCTGAAC -GCGAGAAGGCATATCCAGCCCAATCAGCAGGATCACCACGAACGTCAGACTGAACGAGAGCGATGCCAGCGCAGT -ACCCAGATCCAGACGTTGAGCGATCAACGCGCCGATGATTGGGGCCAGTGCACCGCCCAATGCGCCAACGTTGTA -GGTAAAGCCCAGGCCCGCTGCACGCTGGTCGGTATCGAAATAACCGCCAATCAGTTTTGGTAAGATCCCGGCGAT -CCCTTGTCCAAGCATTTGCTGGAAGAACAGTAACAGACCGAGCACCCAGACGTTTGCGCCGCCAATCGCAAATAC -CGGAATAATCAGCAGCTGCGAGGCCAGCAGGCTACAAACGTACGCTTTGCGGGTTCCCAGCCAGTCACCGAGGAA -GCCACCTACGCAGCATCCCACCGCCGCGCCAAAGCCACTAAAGAACAGCACATTGGCTACAGTATGCGGGTTATA -AGCCAGATCGGTTTTCAGATACGTTGGCAGCAGCGCCTGAATCGGCCATGAGTAGAGGAAAGCAAACAACACGAC -CACCATCAGCATTACGCCCGTTGGCCAGCGTTTGCCTGCACTCTGCACCATAAAGCTGATAAAGATTGCGGCGCA -TAACAGCCCAAGAACAGCGACGATCGCGGCATTTTGCAGGTTACCGGCGAAGCAGAACCACAGCGCAGTAGCCGC -CGCCAGTGTCATTACGATATTGGCAATGCGATGTTCACCACGGTAGAGAATATCCACCATTGTGCGTACTGGTGC -TTTACCTGCGTGTTTCTCTTTCCAGTCTTCCGCTTCCGGGATGTTTTTACGCAGCCAGAGAGCAAAGATGATTGG -CAAAATGCCGATAAAGAACAGCGCACGCCAGCCCCAGACCGGAACCACCAGGCTATAGACCTGAGCGGCAACGAC -GGCCCCCACAGAGAAGCCTGAAATCAAAAAACCACTGGCTTTGTTACGCAGATGTTTTGGCCAGCTTTCAATGAC -ATAGGTGGCGCTGGAACCGTATTCACCCGCCATCCCCATGCCGATGACCAGACGAGCGATAAACATGGTGATGTA -GCCTGGCGCAAAGCCGCAGGCCAGCGTCCCGGCCGAGAAGAGAACGATGCTGGTGACCATTGCCAGACGACGCCC -GTAGCGGTCACCCATAGCGCCGAGCATCAGGCCGCCGAACCAGCGAGAGATAAAGGCTGCAGAGATCAGACTTGC -CGCCTGCACCGTCGTCAGCCCGAATTCACCTTGTACTTCGGTGAGTACCAGGGCGATTAAAACGAAATCAAAACC -GTCAAGCAGATATCCCAACCAGGCAGCGGAAAATGCGCGCCATTGTGCACGGTTGAGATGGCGATACCACGGGAT -ATTCTGGGTTGTAGTACTCATTGTGAGTCTCCCGCGGTGGGCGATGCCCACACGCTTTGGTATGAAAATTGTAGG -GTACAGATGCGTTTATTTCCCCTCACCCGGTAGGGGCGAGCGAGGGGAAACAACTCACCCGCGCTCTTGCATCAA -CTGCTGGGCCAGCGCCTTCAGTTCTGGCAGATATTTTTCATCTACCGGTCCAAACGGTTTGCGGCACAGCGGCAC -AGAAACGACATCCATATAATGGAGGACAGTTTTCAGGCCGCGGAATACGCCCGTTTTGATCAGTAAATCAATGAC -TTTATTGCATTCAGTTTGCAGTTTCTGCGCGGTCTGGATATCGCCTTCTTTCAGCGCCTTAACGATCCCCTGATA -GCGCCAGCCCATGATGTTGTAGGTACTGCCGATACCACCATCAGCGCCCGCCAGCAGACCAGAGGCGAAGATTTC -GTCGTAACCGTTATAGAGCACAAGATCAGGATGTTCACGACGGATCTGCTCCATCTGATAGAGATCGCCAGAGGT -CTGTTTCAGCGCACCTACGCCAGGCAATGTAACAAGTGTGTTGATCTGATCCAGGGTCAGTTTTACCCCACTCAG -GGCTGGAATGTTGTACACCACCATCGGCAAACCATCCGCCGAATCAATAATTGCCCGATAGTGATCGCAGTGTTC -TTCAAAGCTGAAAGGATAGTAGAACGGCGTGACGGCGGAGACGGCATCGAAGCCATAACGTTTAGCCGATGCCGC -AAGTTGTTGGCTTTCGGCGGTGCTGACGCAACCGACGTGGGCGATGAGTTTAATCTTACCTTTCGCCTCTTCGGC -GACGATTTCCAGTACCTGTTCACGCTCGGAAAGGCTTTGTACAAAGGCCTCGCCGGTCGAACCACCCACGTATAA -ACCGTCGATGCCCTGCTGAATATTGAACTGAACCAGGCGACGCAGACTCGCTTTATCCAGTGCTTGTTGTTGGTC -AAAAGGAGTCAGGAGTGCAGCCATTACGCCACGTAAATTCGTTGCCATAAATACCTCTGAAGTGATGCTTGTCTG -ATAAACGATATACCTTTATACCTGTTATACCAGATCAATTAAGCAACACCCCATACAGAAAGCTTATAATGCGAT -CTGCTTCACTAAAGTGGCATTATTTCTTTTTGTTGGTGGTCTGACCGAAAGCGTGCCAGGTAGCAGAGACGCTGT -TGAGATGCGATTGCAACGCACGATCGGCTTCGTCAGGATCATGACGGCGGATCGCATCAACGATCGCAATATGCT -GTTGATAACTAACGTTGTTATGTTCGTGCAGTGCCTGATCGGTAACCGTTGGGCGTGCGGCAATAAGCCAGTCGA -GCAGGGCAACGTGGATCGCCATGAAGATTGGGTTACCGGGGATCTCCGCCAGCACGCGGTGGAAATCAACGTCTG -AACGAATGAATGCCGCGTTGTTATCCAGCGACTGACTGTTGATTTCCAGTGCTTTTGCCAGCAAATCGATTTGCT -CATCGGTGGCATGTTCAGCCGCATAGCGCACCAGACTGGATTCAAAGAACAGACGTAATTGTTCGAAATGGGCAA -TCCCACCGGGATGAGAAAGGAAATCTTTCGCCATGCCGGAAAGCTCACCGATGATAGTGTCCGCAGAAGGACGCG -AGACGCGAGCGCGTTCGCCGTTGTTTATTTGCACCAGACCTTTGCGTTTTAACGCTGCCAGCGCTTCACGCACCG -AAGGACGCCCGACGTTAAAGAACGCCATCAGTTCGCGTTCAGACGGTAATTGTTCACCTTCGCCAAATTCACGAC -GGCGGATCATCTGTTCCAGCTCTTCTTCCACCATTTCGGAGAGTTTTTTACGCGCCAGCGGGCGGCTACGCAAGT -TGCGACCAATTGCAGGTGAAGAATCTTCGGTTTGCGAATCAAATGCGTTCATAAGGCCCATTCTGTAAGGTCAGT -GTGATTAACATCATCAGTGACATCCTATCACAGGATTGAAAGTAGGGGAAAATGGCAGGGTTTTCTCTTTGTGCC -TCATCATTACCATAATTAACGGAATAATTAACTATTGCGAAAAATTAATGTAACGCAGATAAAAACATCCCGTTT -GAATTATTTATAAGACTATTCACGAGCATTATGAATATTATGAATGTGTTCTTACAAAATAATCATAAGCGCATA -TTTTTTAATGAAAAATCACCTCACCTACAATTAAAAACACGACATCCGCACCATAAATAGCCTTGCAAAAAATAT -AACATCGTTGTTTTCAATCTGCCGTTTATGGGATTGACCGTTTTCTTTTGACACGGAGTTCAACAATGTTCGGCA -TAATTATATCTGTCATCGTATTAATTACGATGGGCTATTTGATCCTGAAAAACTACAAACCTCAGGTGGTGCTGG -CTGCCGCAGGTATCTTCCTGATGATGTGCGGTGTCTGGTTAGGGTTCGGTGGTGTACTCGATCCCACCAAAAGCA -GCGGCTACTTGATCGTCGATATTTATAATGAAATCCTGCGCATGCTGTCCAACCGCATTGCCGGATTGGGGCTGT -CGATTATGGCGGTGGGCGGTTATGCCCGCTACATGGAGCGCATAGGGGCCAGTCGCGCGATGGTGAGCTTGTTAA -GCCGCCCGTTAAAACTCATTCGCTCGCCGTATATTATTCTGTCGGCAACTTACGTCATCGGCCAAATCATGGCGC -AGTTTATTACCAGCGCCTCCGGTCTGGGTATGTTGCTGATGGTCACCTTATTTCCGACGCTGGTGAGTCTGGGAG -TAAGTCGTCTCTCTGCGGTGGCAGTTATCGCAACCACGATGTCCATTGAGTGGGGGATTCTGGAAACGAACTCCA -TTTTTGCTGCCCAGGTAGCGGGAATGAAAATTGCCACATACTTCTTCCACTACCAGCTTCCGGTCGCCTCTTGCG -TCATTATCTCGGTGGCGATCTCCCACTTTTTCGTGCAACGCGCTTTTGACAAAAAAGATAAAAATATCAATCACG -AACAGGCAGAGCAAAAAGCTCTCGATAATGTCCCGCCGCTCTATTACGCCATTTTACCTGTGATGCCGTTAATCC -TGATGCTCGGCTCGCTGTTCCTCGCCCACGTCGGGCTGATGCAGTCAGAACTGCATCTGGTGGTGGTGATGTTAC -TGAGTTTGACTGTGACGATGTTTGTTGAGTTCTTCCGCAAGCATAACTTGCGCGAAACAATGGACGATGTGCAGG -CGTTTTTTGACGGCATGGGTACGCAGTTTGCCAACGTGGTAACGCTGGTGGTCGCGGGTGAAATATTTGCGAAAG -GCTTAACGACGATTGGCACTGTCGATGCGGTTATCAGGGGGGCGGAGCATTCTGGTCTGGGCGGTATTGGCGTGA -TGATTATTATGGCGCTGGTCATTGCCATTTGTGCCATTGTGATGGGCTCTGGCAATGCGCCGTTTATGTCATTTG -CCAGTCTTATTCCGAATATCGCAGCCGGACTACATGTACCAGCGGTTGTAATGATTATGCCGATGCATTTTGCCA -CGACGCTAGCGCGCGCGGTTTCGCCGATTACTGCGGTGGTGGTCGTTACGTCAGGAATTGCAGGCGTTTCGCCTT -TTGCGGTGGTGAAGCGGACAGCGATCCCCATGGCAGTCGGTTTCGTGGTGAATATGATTGCCACAATCACGCTAT -TTTATTAAGTCATTAAAAAGACAAAACAGGCCGCCTGGGCCTGTTTTGTATTACTTCACAACGCGTAATGCCGGT -CGACCACCGCGTGGTGGCTGCGGAGGTTCATCGTCAGGATGAGTGTCATCATCGTGATCTGGCTTGTCGCCATCA -ATAACCGACATAACGGTTTCGTTGTCTGCCGATGCCTCTTCATCATTCATGATGCTGGTATCTTCATCGTAGGCA -GCTTCAGGCTCAAACATCGTGCCTGCGCCATTTTCACGGGCGTAGATAGCCAGCACGGCAGCCAGCGGCACAGAA -ACCTGACGCGGAATGCCACCAAAGCGCGCGTTAAAGCGCACCTCATCATTCGCCAGTTCCAGATTGCCGACAGCA -CGCGGCGCAATGTTGAGTACGATTTGCCCGTCACGCGCATATTCCATAGGAACCTGCACGCCAGGGAGCGTCACA -TCCACCACCAGGTGCGGCGTGAGCTGGTTATCCAGCAACCACTCATAGAATGCACGCAGCAGATAGGGACGACGT -GGTGTTAGCTGTGACAAATCCATACAGATTAACTCCGGCCCAGACGCATTTCACGTTCTGCTTCAGTTAAAGAAG -CAAGGAAAGAGTCACGCTCAAAGACGCGGGTCATATAGCCTTTCAGCTCTTTCGCACCCGGGCCGCTGAACTCGA -TGCCCAGTTGCGGCAGACGCCACAGCAGCGGAGCAAGATAGCAATCGACCAGGCTGAACTCATCGCTCAGGAAGT -ACGGCTTCTGACCGAAGACCGGCGCAATCGCCAGCAGTTCTTCGCGCAGTTGCTTACGTGCGGCATCTGCTTCAG -AAGCTGAACCGTTGATGATGGTGTTCATCAGCGTGTACCAGTCTTTTTCGATGCGATGCATGTACAGACGGCTTT -CACCGCGAGCTACCGGGTAAACAGGCATCAGTGGCGGATGCGGGAAACGCTCATCCAGATATTCCATAATGATGC -GAGATTCCCACAGGGTCAGCTCACGATCCACCAGGGTCGGAACGCTCTGATTCGGGTTGAGGTCAATCAGATCCT -GAGGCGGATTGTCCTTTTCCACGTGTTCGATCTCGAAACTTACACCTTTCTCAGCCAGCACAATGCGGACCTGAT -GGCTATAGATGTCAGTAGGACCGGAAAACAGCGTCATTACCGAACGTTTGTTGGCAGCGACAGCCATGAAAACCT -CCAGGTATAGTCAGAATTTTTACTGCTACCAGCCACCAGGTGGCCAGTCAGAAGTTGTGTTACCCAATAAGGAAC -GACTCTCTTTGTTCGAAAATCAAACAAAAAATGAGCAATACCCGACATTTGGGCAGAAAATTGGATGATAGTTTA -CCAGATTTTGCGACCATTGTGGTGAGTCGATGCCGGAAATGGGGAAAAAGAGATGCGCTTTAGTCTGAAATAGTT -GACTTAGTCCCTTATTGGCGATGTGGTTTTTGTTTTACCTGTCTGTCAGGTGGCAGCAAAAAGCAACTTTCCAGT -TTTTACGCTGATTCAGATTTTAGCTATAAAAAAACCCGCCGAAGCGGGTTTTTTCGAAAATTGTTTTCTGCCGGA -GCAGAAGCCAATTAACGTTTGGAGAACTGCGGACGACGACGTGCTTTACGCAGACCGACTTTCTTACGTTCAACC -TGACGAGCGTCACGAGTAACGAAGCCAGCTTTACGCAGTTCAGAACGCAGGGACTCGTCGTATTCCATCAGAGCG -CGGGTGATACCGTGACGGATCGCACCAGCCTGACCAGAGATACCACCACCTTTAACGGTGATGTACAGGTCCAGT -TTCTCAACCATGTCGACCAGTTCCAGCGGCTGACGAACTACCATGCGGGCAGTTTCACGACCGAAGTACTGTTCC -AGAGAACGTTGGTTGATTACGATTTTACCGTTGCCCGGTTTGATGAAAACGCGAGCTGCGGAACTTTTGCGGCGA -CCAGTGCCGTAGTATTGATTTTCAGCCATTGCCTATAATCCCGATTAGATGTCAAGAACTTGCGGTTGCTGTGCC -GCGTGGTTGTGCTCGTTACCCGCGTAAACTTTCAGTTTACGGAACATAGCACGACCCAGCGGGCCTTTTGGCAAC -ATGCCTTTAACCGCGATTTCAATCACACGCTCAGGACGGCGAGCAATCATCTCTTCAAAGGTCGCTTGTTTGATA -CCACCGATGTGGCCGGTGTGGTGATAGTACACTTTGTCAGTACGCTTGTTGCCGGTTACAGCAACTTTGTCAGCG -TTCAGAACGATGATGTAATCACCGGTATCTACGTGCGGAGTGTATTCCGCTTTGTGCTTACCGCGCAGGCGACGA -GCCAGTTCAGTAGCCAGACGGCCCAGAGTTTTACCGGTCGCGTCAACAACATACCAGTCGCGTTTTACGGTTTCT -GGTTTAGCTGTAAAAGTTTTCATTAAAAGCTTACCCAATAAATAGTTACACGTTGGTGAACACCCAAACGTCTTC -AATTGTTGAGGTTCACACGACAAAGTCCGGCAAACCTACCCCTTCGAATAGCCTATGCCAGCACACAAAAAGTTT -TGGGAAAAAAACTTTCTTGTAACGTGGGGTCGCAGGATTATAGAGAAGTCGGGGTCAAAGATCGACCCCTTTTTG -TGATTTGTGACAGGTTTTAACCCGCCAAATGCTCGCGCTTCAGATACTCTTCGCTTTGCATCTCTTGCAGACGTG -ACAGGCAACGCTGGAACTCAAACTTCAGCCGATCGCCCTGATAAATTTCATACAGCGGCACTTCTGCACTCACCA -CTAATTTGACATGGCGCTCGTAAAACTCATCCACCAGCGCAATAAAGCGCCGCGCTTCGCTCTCCATCAACCGCG -TCATAACTGGTACATCAAACAACATGACCGTATGAAAGAGACGTGAGAGCGCAATATAGTCATGCTGACTGCGGG -CGTCGACGCACAGCGTAGTAAAAGAGACCGCCAGCGTCTGGTTCTCGACGCCCATTGTTGCTAATGGCCGATGGT -TGATTTCTAACGTCGGTGAATTTTCTCGTTTCCCCCCCGCCAGCGCCAACCATAGTTTATCCATTTGCGCCCGGG -TTTCATCGTGAAGTGGCGAAAGCCACAGATGCGCCTGAGTGAGTGTACGCAGACGATAATCAACACCAGCGTCCA -CGTTCATTACATCACAATGCTGTTTAATGGCATCGATTGCAGGCAGAAAACGCGCACGTTGCAGGCCATTTCGAT -AAAGTTCATCCGGCGGAATATTTGACGTCGCTACCAGGGTAATACCGCGAGCGAACAGGGCTTTCATCAGACCGC -CAAGTAGCATGGCATCGGTAATATCAGAAACAAAAAATTCGTCAAAACAGAGCACGTCAGTTTCGGCTTTAAAGC -GATCGGCAATAATTTCCAGCGGATCGGTCTGCCCCTGTAAGGCAGTTAGCTCTTCATGCACCCGCAGCATAAAAC -GGTGAAAGTGCAGGCGCTGTTTCCGCTCTCCCGGCAGGCTTTGATAGAAAAGGTCCATCAGCCAGGTTTTCCCGC -GTCCTACACCGCCCCACATATATAAGCCACGCACTGGCGTATGCTTTGTGTCTTCGCGTTTACCCCACAGCTTAC -CGACCCGCGCCATTAGCCCACTCGTCCTGGGGGCTGGTGGCGTGCTATTGATGAGTTCCTGATAAATAATTTCCA -GGCGGCTGACGGCCTCTTTTTGAACGTCGTCGGGTTGATGGCTGCCTTCATTAAGCGCCTTCAGGTATTGCGATG -TTGGGGTAACGCTTTGCATGATCTTATTGTTATTCCTTGAATAATCGGTGCGCCGTTGTTCACGGTTGACGAAAA -AAAGGCCGTTCTACACTACGCGATATGCAGTCGGGATTCCACTTCTGTGGAATTAACGGTTATAGTGGCATAATC -AGCCGCAGGCATGGAGCCTGAAGCCAACACCCTACGGAAACAAAAGACAACGGGAGATGTTCATGACCTGGGAAT -ATGCGCTAATTGGGTTAGTCGTCGGCATCATTATTGGTGCTGTGGCCATGCGTTTTGGTAATCGTAAACTACGCC -AGCAACAGGCGTTGCAGTACGAACTGGAAAAGAATAAAGCTGAACTGGACGAGTATCGCGAAGAGCTGGTTAGCC -ACTTTGCCCGCAGCGCGGAATTACTGGATACCATGGCGCACGACTATCGCCAGCTGTATCAGCACATGGCAAAAA -GCTCCAGCAGCCTGCTGCCGGAACTGTCTGCTGAAGCAAACCCGTTCCGTAATCGTCTGGCAGAGTCTGAAGCCA -GCAACGATCAGGCACCGGTGCAGATGCCTCGCGACTATTCTGAAGGCGCATCCGGCCTGCTGCGTACTGGCGCGA -AGCGCGACTAATTTATTTTTCGGGCGCAGCCATTGCGCCCTCCTCTTCTCTCCCTCCCCGACTATCATTTAATCT -GGTGTCTCATTGTTAGCCGTCTGAAAATTCAATAACATCAAACTGTTTTGAATCTCTTTTCTTATCATTCAGGTA -CGAGAGCAGGAATAATGAAAAAACAAACCCAGCTGTTGAGTGCATTAGCGTTAAGTGTCGGGTTAACTCTCTCGG -CGTCATTTCAGGCCGTCGCGTCGATTCCAGGCCAGGTTGCCGATCAGGCCCCTCTCCCCAGTCTGGCTCCAATGC -TGGAAAAAGTGCTTCCGGCAGTGGTGAGCGTACGGGTGGAAGGAACGGCCAGTCAGGGACAGAAAATCCCGGAAG -AATTCAAAAAGTTTTTTGGTGATGATTTACCGGATCAACCTGCACAACCCTTCGAAGGTTTAGGCTCCGGTGTCA -TCATCAACGCCAGTAAAGGCTATGTGCTGACCAACAACCATGTGATTAATCAGGCACAGAAAATCAGTATTCAGC -TCAATGATGGGCGCGAGTTTGATGCAAAACTGATTGGTAGCGATGACCAGAGCGATATCGCCCTGTTACAAATTC -AAAACCCGAGCAAATTAACGCAAATCGCTATTGCCGACTCCGATAAATTGCGCGTCGGTGATTTTGCCGTAGCGG -TCGGTAACCCATTTGGCCTTGGGCAAACCGCCACCTCTGGCATTGTTTCCGCATTAGGCCGCAGCGGGTTGAATC -TTGAAGGTCTGGAAAACTTTATCCAGACAGATGCTTCCATTAACCGCGGTAACTCCGGCGGTGCACTATTAAACC -TTAACGGTGAGTTAATTGGCATCAACACTGCAATCCTTGCGCCTGGCGGCGGGAGCGTCGGGATTGGATTTGCCA -TCCCCAGTAATATGGCGCGAACACTGGCGCAGCAGCTTATCGACTTTGGTGAAATCAAACGCGGTTTGTTAGGCA -TCAAAGGCACCGAGATGAGTGCCGATATCGCCAAAGCCTTCAACCTTGACGTGCAGCGTGGCGCGTTTGTCAGCG -AAGTGTTGCCAGGTTCTGGCTCGGCAAAAGCGGGCGTCAAAGCGGGCGATATTATTACCAGCCTCAACGGCAAAC -CGCTGAATAGCTTTGCTGAGTTGCGCTCTCGTATCGCGACCACCGAGCCGGGCACGAAAGTGAAGCTTGGCCTGC -TGCGTAACGGCAAACCACTGGAAGTAGAAGTGACGCTCGATACCAGCACCTCTTCGTCGGCCAGCGCTGAAATGA -TCACGCCAGCGCTGGAAGGTGCAACGTTGAGCGATGGTCAGCTAAAAGATGGCGGCAAAGGTATTAAAATCGATG -AAGTTGTCAAAGGAAGCCCAGCTGCTCAGGCTGGCTTGCAAAAAGACGATGTGATCATTGGCGTCAACCGCGATC -GGGTGAACTCGATTGCTGAAATGCGTAAAGTGCTGGCGGCAAAACCGGCCATCATCGCCCTGCAAATTGTACGCG -GCAATGAAAGCATCTATCTGCTGATGCGTTAATGTCGTAAACCGGGCATCAGGCTTACGTGTGATGTCCGGTTAA -CTCGTGGTATGCTGCTGCCGTTCCCTTTTTTAATGACGCCTCCATCATGTTTGTGAAGCTCTTACGTTCCGTTGC -GATTGGATTAATTGTCGGCGCTATTCTGCTGGTTGCCATGCCTTCGCTGCGCAGCCTTAACCCGCTTTCCACTCC -GCAATTTGACAGTACCGATGAGACGCCTGCCAGCTATAATCTGGCGGTTCGCCGCGCCGCGCCAGCGGTGGTTAA -CGTTTACAACCGTGGTTTGAACACCAACTCTCACAACCAGCTTGAGATCCGCACCCTGGGATCCGGTGTAATCAT -GGATCAACGCGGTTATATCATCACCAATAAACACGTCATCAACGACGCCGATCAGATCATCGTCGCCTTACAGGA -TGGACGTGTATTTGAAGCATTGCTGGTGGGATCTGACTCTCTAACCGATCTGGCGGTACTTAAAATTAATGCCAC -TGGCGGTTTACCTACCATTCCAATTAATGCACGTCGCGTACCGCACATTGGCGACGTAGTACTGGCGATCGGTAA -CCCGTACAACCTCGGGCAGACCATTACCCAGGGGATTATTAGTGCCACGGGTCGAATCGGTCTGAACCCGACCGG -GCGGCAAAACTTCCTCCAAACCGATGCTTCCATTAACCACGGTAACTCTGGCGGCGCGCTGGTGAACTCGCTGGG -CGAACTGATGGGCATTAATACGCTGTCGTTTGATAAGAGTAACGATGGCGAAACGCCGGAAGGTATCGGCTTTGC -GATTCCTTTCCAGTTAGCAACCAAAATTATGGATAAGCTGATCCGCGATGGTCGCGTGATCCGCGGCTACATTGG -TATCGGCGGACGTGAGATCGCACCACTGCACGCGCAGGGCGGTGGTATAGATCAACTGCAAGGGATCGTGGTTAA -TGAAGTGTCACCTGACGGCCCGGCGGCGAATGCGGGTATTCAGGTCAACGATCTGATTATTTCGGTGGATAACAA -ACCGGCCATCTCTGCTCTGGAGACGATGGATCAGGTGGCGGAAATTCGCCCTGGTTCGGTGATCCCTGTAGTAGT -GATGCGTGATGATAAGCAGTTAACGCTGCAGGTCACCATTCAGGAATATCCGGCAACCAATTAAGTCGTGCGCTC -AAAACAAAAAACCGGAGTCTGTGCTCCGGTTTTTTATTATCCGCTAATCAATTACTTATTAACGAACTCTTCGCC -CAGGGCGATATCTTTCTTCAGCGTATCCAGCATACCTTCCAGCGCGTTCTGTTCAAATGCGCTCAGGGTACCGAT -AGATTTACGCTCTTCCACGCCGTTTTTACCCAGCAGCAGCGGTTGAGAGAAGAAACGGGCGTACTGACCGTCGCC -TTCAACGTAGGCACATTCGACAACGCCTTGTTCGCCCTGCAGTGCACGAACCAGAGACAGACCAAAACGTGCAGC -TGCCTGGCCCATAGACAGGGTTGCAGACCCGCCACCGGCCTTCGCTTCAACCACTTCAGTACCCGCGTTCTGGAT -GCGTTTGGTCAGATCAGCCACTTCCTGCTCGGTAAAACTAACGCCAGGAACCTGTGACAGCAGCGGCAGAATGGT -AACACCAGAGTGACCGCCAATAACCGGCACTTCAACTTCGCCTGGCTGTTTGCCTTTCAGTTCCGCAACAAAGGT -GTTGGAACGAATGATATCCAGCGTGGTAACGCCGAACAGTTTGTTTTTGTCATAAACACCGGCTTTTTTCAGCAC -TTCAGCAGCAATTGCAACTGTGGTGTTAACCGGGTTAGTGATAATACCAATGCACGCTTTCGGGCAGGTTTTCGC -AACTTGCTGTACCAGGTTTTTCACGATGCCGGCGTTAACGTTAAACAGGTCGGAACGATCCATACCCGGTTTACG -CGCTACGCCTGCAGAGATAAGAACGACATCTGCGCCTTCCAGCGCCGGAGTCGCATCTTCACCAGAAAAACCTTT -GATTTTCACAGCAGTAGGGATATGGCTCAGATCGACAGCCACACCGGGAGTCACTGGAGCGATATCATACAGAGA -GAGTTCTGAACCTGAAGGCAGTTGGGTTTTTAACAGTAGTGCAAGCGCCTGGCCAATACCGCCAGCAGCGCCGAG -GACTGCGACTTTCATCCTAAACTCCTTATTATATTGATAAACTAAGATATGTTGCTCCGCTGCCGCGACCTTAAT -CCACAAAATTGCCGTTTACAATGACCACATCTCAAGAATGTGTAGTCACGCAAGTTTAGCGTTTATGCATTTAAT -TGCCGTAATCAGGAACCTAACTTACGTAATTAACAGTCGCTTATGCATTAGCGCAACATTCCAACAGGTGGTGAC -AATATACCCTACCGTTCAGCCAAAACAACATCAATTTGATAACAATTAATTTACTTTTAAGCAGAATTTGCATGC -CGTGACGCAGGCATGTTTCTCAATAACGAAATTTGATAAAATCCCGCTCTTTCATAACATTATTTCAGCCTTCTT -CAGGGCTGACTGTTTGCATAAAAATTCATCTGTATGCACAATAATGTTGTATCAACCACCATATCGGGTGACTTA -TGCGAAGCTCGGCTAAGCAAGAAGAACTAGTTAAAGCATTTAAAGCATTACTTAAAGAAGAGAAATTTAGCTCCC -AGGGCGAAATCGTCGCCGCGTTGCAGGAGCAAGGCTTTGACAATATTAATCAGTCTAAAGTCTCGCGGATGTTGA -CCAAGTTTGGTGCTGTACGTACACGCAATGCCAAAATGGAAATGGTTTACTGCCTGCCAGCTGAACTGGGTGTAC -CAACCACCTCCAGTCCATTGAAGAATCTGGTGCTGGATATCGACTACAACGATGCAGTTGTCGTGATTCATACCA -GCCCTGGCGCGGCGCAGTTAATTGCTCGCCTGCTGGACTCACTGGGCAAAGCAGAAGGTATTCTGGGCACCATCG -CTGGCGATGACACCATCTTTACCACCCCTGCTAACGGTTTCACAGTCAAAGACCTGTACGAAGCGATTTTAGAGC -TGTTCGACCAGGAGCTTTAATCTCTGCCCCGTCGTTTCTGACGGCGGGGAAAATGTTGCTTATCCCTCTCAACCC -CCTGCTTTCCCCTGCGATTAATTTAACGAATAGTGCGTTTTACTGCGACATGTCATTCACACAATGAATACATAA -GGTAAAAAAAGCACATTATGCAAAATTCATTATCTAATTGAAAAAACTAGAATTAACGATAAATAACCGTATTTT -TAATTCTTTTTTGTTATTAAAATTCACATTTTTAACACTTAGTATCAACTGAAACAGTTAGCGCGGTATTAATTA -GCTCAATAATTAGTGTATACTTGATTTTGTGATATGGGTCACGAAACAAAGGCCCAGCTAAAAGATTATGTCGAG -GTAAAAATCATGAAAATCAAAACCACTGTTGCTGCATTAAGCGTACTTTCTGTTCTCTCTTTCGGTGCATTCGCT -GCCGACTCCATTGATGCTGCACAAGCACAAAATCGTGAAGCAATCGGGACCGTATCCGTAAGTGGTGTGGCGTCT -TCGCCAATGGATATGCGTGAAATGCTGAACAAAAAAGCGGAAGAGAAAGGCGCAACGGCCTACCAGATTACTGAA -GCTCGTAGCGGTGACACCTGGCACGCTACGGCTGAACTGTACAAATAAACCCTCATCGTCTTGTCCGACGATATT -GCCCCCGGTTCGGGGGCTTTTTTTTGCGCTAATGACGAACATTAAAACGCAAATGCCCTTCCAGCTCTTCCTCTG -CCTCATCAAACAGCAATATTAACGCGCCAAAACGGCGACGCGTTTTCTCTCCCAGATGAACAAATTCAATCTCAA -GTGGTAGCGGCAGGACATCGTTCATTAACACATCCCATAGTGAGTCGAGATCGCGTACCTTATCTTTCGCCAGAC -CAAAGGTTTGGCTAAAGTCACGATAAAAATCCTCCTGACTCTCAATCTCATCAAAATCAAAGGTATAAATATTCA -TCTGTTGCCACCGTCACGTTTCGCGGCGAGTTCTGCCGTGCATCGCTAAGTATAGCCATGAAAAAACCGACGCTT -TTGGCGTCGGTTTTGACTTAACTATCGGTCAACGCATGTTGATACTTATGGAGCATCCCCGCCAGCCGATTTACC -GGTTCCGTCACCTGCGGTGGCGCTTGCCAGATGCGTAGCTTTTCCTGGTAGATTTCCAGTTCTTCCAGCAACTGG -CCAAAGTACCGACGACGTTTATCATCGCTACGGGCAGATATCACATGGTCTGCTGTGCGGCGCATTTGTCGGTGA -AACGCCGATAAATCCTCGTTAACCGGGATCGGTGCATCACGCAGGCGCTGGTGCGCGATAATCATCGTCAGCGCC -AGGCGAAATTTCGGCAAATCCCCTGGGAACTTATTCATCAGCAAAAACAGCTGCTGATAAAGTGCCGGGAGGTGG -TTCTCTTTACGACGTGCCACATTGGTAGTCATCGCGGAAACAGCGGCAGAAACAAACTGATTAAGCAGTACACGT -CCGGTCCTGTCGCGCGATTTATCCCGCACCAGCAAAATAACGGTGAACGCGAGCACACAGCCGACGATTTGCCCT -AATGCGCTGTCGAGAAACTGACTGAAATGGAAAGTCATCGGGTTATCCAGCACGATAATATTTATGGTGCTGGCC -AGTGCCCCCATCGAGCCCAGTCGCCGTTTCTGTACTTCTATACCGAGGAAGAATCCCAGCACTGCCAGGCTAATG -CACAGCAGCAACATGCTCTGTTGGGTATTAGGGATAATCACCAAAAAGTAGAGCAGCCCTAACGGCAGCGCGGCC -AGCGTCCCGTAGATAAAGTCGATCGCCACCATGCGTGGATTCGGCAAACGCATTGCCAGTGACGTCACTACCGCA -ATCATCACCATTGCACCACTGCCGGAAGTCCAGCCCGTCCACAGCCAGAAAAGCGTGCCCAGAATGCAGGAAAGT -GTGGTTCGCCAGAAGTTAACCATTGCATGATGACGTTCGGCTGACTCTACTTTTACTTCCGGTTCGCCTTGCAGG -ATCTCTTCTTCGGTGGCGTTGATTTTTGTGTTACTGATAACGCCGCGCTTGAGAAGCTGATAACGCGTTGCCGCC -GCGACCCAGCTATAAATGGTGACAGGCGTTTCCCGTTCCCCGGTCCAGGCGATAACTCTCCGCAGGCGTTTGAGC -TGCTTGTGGACGTCCTGCGCGGTTTCTACCGGCGTGTCAAAAAATTCGCGGAAAGTATCAGTGATCAATTCCGGG -CGCGTATTCTGAATAAGATAAGTTTCGCAGGATTGGGTAATCAGCGTCAGCGATAGCGTATTGATCGCTTTTAAA -CGTCGATTGGCCCGCGCCCAGCGGGAAGATTCCATATTCAGGTTGCTGCGCATGCCTTGTAGCGCCGTGGTGCGT -CGCACCAGGTCGCCCCAGGCTTTATCGACAACTTCACCATCGCCATGCTTGATACAGAGTTGCATTAATTGATAT -TGCGCGACCAGCAAACTTTCCAGCTCTCGATCCACTTCTTGTTTGATCGATCGCGGAGAAAAGAGCAAATCCGCC -ATAATCGCACACACAATACCGATAACGATCTCGCTACAACGTTCGACGGCAAACTGCGGCGTAAGCAATGGTTCC -GGCTGAATGGTGATCACAATGATCAGCGCGGTATAACCGGCCAGCCCCCACGCATACGAGTTTTCTATTCGTACC -AGCGAGGATATCCAGGTACAAAAACCGGCCCAGATACAGCACACCAGAATCATCAATAATGGTGCGCGGATCATC -GCAATGATGATCACCAGTCCGGCAATACAGCCAATAAATGTGCCGATGATGCGCAAAAAGCCACGATAGCGAATA -GCGCCAGAATACGGTTCACCTCCCGCAGCAAAGGCCGTACCGGCGGCAACAATCGCCGCTGTCAGTACCGCCCAG -CGTGGCGTTTCCAGCTGGAAGTGAAAGCCAACAAACAGCGCCAGTACAATGGCGGTCGCCAGTTTTACCGCAAAG -CGAATATGTTGGTTAGCAATGGAGAAAATACCCATCGTGATTAACCAAACTCACGCAGGCGATGGGCCATTTTAC -GGAAGAACGAATCCTGGCTTTCGTCGCGATCTTGTTTGCCAGTGACCACCACTGTAGCAGTGGTGCCCGCAGGCC -AGATGTTCTCTTGCTGGTTGTCGAGACGAATACGAACCGGAACACGTTGCGCAAGACGCACCCATTCAAGGTTAG -AGTCTATAGTCGCCATCCCTTTGTCGTCACGCGTGCTGCTGGCGTTGGTGACCCCTGCGGCAACACTATCAACAG -TCCCTTTCAGCACTTTGTTACTGCCAAGCGGCGTGATCTCTGCACGATACCCCGGACGCACCCCTTCCAGCTTAG -TTTCTTCCATATAGGCCAGTACATAGAAGGAGTTCTGTTTCACCAGCGCAACCGCCGTTGATCCTCGAGTAATAA -ACTCACCGGTATAGACGTTGAGGTTGGTCACCCAGCCATCTGCTGGCGCGCGGATCACCGTGCGTTCAAGATCCA -GTTTTGCCAGATCGCGGGTCGCCTGCGCTTTCGCTAACTGATGCAGAACCGTTTGTAGTACGTTGTTGGCCTGGT -CGATCTCTTCGCGAGACATCGCCTGCACACCGAGACGGTTACGACGTCCGGCCTCCTGGCGTTTCTCCTGTGCCA -GTACCTGATAATAAGCAACATCGGCTTGCGCTTCCTCAAGCGCCTTTTGATAGCGCGGCTGGTCGATGGTGAACA -GTATCTGTCCTTTTTTCACCAGCTGGTTATCATGAACATTCACCTGGGTAATGAGTCCAGAAACGTCCGGCGCGA -TCGCAACGACGTCAGCGCTAAAGCGCGCGTCACGCGTCCAGGGGGATTCGGTGTAATAGACCCAGGCATTAAAAA -TTGCGATGAAGGCCAGAATGACTAATACGACCGTGATGGCCGTACGGGAGAATTTTCTTATTAGTGTTTTCACTT -CAACCTCAAACGAACAGTCGCGATATCAAATAAAACAAGCAGCAATAGAGCGCGGTGTTGAACAACGCCGGATGC -CAGACAAAGTCGTAGATACCTGTTGGCACAAGTACCCGGCGCACCAGCCAGAAAATCGCCAGTGATAAAAGCAAT -TCAAAAAATATCGGTGGGAAGGACAGCCCAAACACCACGATAACGGGAAACAGACTCATGTTGACCTTGGTTGTA -AAGAGAGAGCAGGCGTTATTATTTTCAGCATCTGTCGCCGCAGAGAAGGGCATGGAAAGCCGGGCGAGAGCAACA -TTGCTGTAGATTGATATTTAATATATTAGCGTAACTGTTATGCTGTTATCTATATTATGTGATCTAAATCACTTT -TAAGTCAGAGTGAATAATGGAACGACTAAAACGCATGTCGGTGTTTGCCAAAGTAGTTGAATTTGGCTCTTTTAC -CGCCGCCGCCAGACAGCTACAGATGAGCGTTTCGTCCATCAGTCAGACGGTATCAAAACTGGAAGATGAGTTGCA -GGTAAAGCTGTTAAACCGTAGCACACGCAGCATTGGCCTGACCGAAGCCGGTAGAATTTACTACCAGGGCTGCCG -TCGTATGCTTCATGAAGTGCAGGATGTTCATGAGCAACTGTATGCCTTCAATAACACCCCCATCGGGACGCTACG -CATTGGCTGTTCTTCAACTATGGCACAAAATGTTCTCGCCGGGCTGACAGCCAAAATGCTGAAAGAATACCCAGG -TTTGAGCGTCAATCTGGTTACCGGAATTCCAGCCCCCGACCTGATTGCCGACGGTCTGGATGTGGTGATCCGCGT -CGGCGCGTTGCAGGATTCCAGCCTGTTTTCCCGCCGTCTGGGCGCGATGCCAATGGTGGTGTGCGCCGCGAAAAG -CTATCTCACACAATACGGCATACCGGAAAAACCCGCCGATTTGAGTAGTCATTCATGGCTTGAATACAGCGTGCG -GCCCGACAATGAATTTGAACTGATCGCACCGGAAGGGATCTCGACTCGCCTGATCCCACAAGGAAGATTTGTGAC -TAATGATCCGATGACGCTGGTGCGCTGGCTGACGGCGGGTGCCGGGATCGCCTACGTGCCGCTGATGTGGGTGAT -CAACGAGATCAATCGTGGGGAGCTGGAGATCCTGCTGCCGCGTTACCAGTCAGATCCACGCCCGGTTTATGCGTT -ATATACCGAAAAAGATAAGCTGCCGCTGAAGGTACAGGTCGTGATCAACTCGCTGACGGATTATTTTGTTGAGGT -CGGTAAATTGTTTCAGGAGATGCACGGGCGCGGGAAAGAGAAGTAATTCATATTGTACTGTTACGTTGTACAAAC -CTGTGCCAACGGGTTCCCCTCACCCTAACCCTCACCCCAAAGGGGCGAGGGGACCGTTCGTGCACGTAGAAAGAT -TAATTATCCTTCTGAAAATAGTGAAATTATTACGCAGTACCGCCAACAGTCAGGTTATCGACTTTCAACGTTGGC -TGGCCCACGCCAACCGGCAAACTTTGCCCTTCTTTACCGCAGACACCCACGCCGTTATCCAGTTTCAGGTCGTTG -CCAACCATCGAAATCTGCTGCATGGTTTCGATACCGGAACCAATCAACGTTGCGCCTTTCACCGGCTTCGTTACT -TTACCGTTTTCAATCAGATATGCTTCTGAAGTGGAGAAAACGAATTTGCCGGAGGTGATATCCACCTGACCGCCA -CCAAAGTTCGGTGCATAGATACCGTACTCAACGGATTCAATAATTTCCTGCGGGGTCGATTTACCCGGCAGCATA -TAGGTGTTGGTCATACGCGGCATGGGCAGATGGGCGTAGGATTCACGGCGACCGTTGCCAGTCGGCGTCATCCCC -ATCAAACGCGCGTTGAGTTTATCCTGCATGTAGCCTTTCAGAATGCCGTTCTCAATCAGCACGTTGTACTGGCCT -GGCGTACCTTCGTCATCAATCGCCACCGAACCTCGGCGATCGACCATCGTGCCATCATCAACCACGGTACACAGT -TCTGAAGCCACCAGCTCCCCGACCTGTCCACTAAATACTGAAGTGCCACGGCGGTTGAAGTCGCCTTCCAGACCG -TGACCAACCGCTTCATGCAACAGCACGCCCGGCCAACCTGCGCCAAGTACTACCGGCATGGTGCCCGCTGGTGCA -GCAACGGCAGAAAGATTGACCAGCGCCATACGCACTGCTTCTTTTGCCCATGCATCCGCACGGACTTCGCCGTCG -AGATCGGCAAGGAAGAATTCATAACCAAAACGACCGCCGCCGCCACTGGCACCGCGTTCGCGTTTGCCATCTTCT -TCGACGAGAACGCTCACGGAAAGACGCACCAGCGGACGGACATCCGCCGCTAGCGTGCCGTCGGTGGCCGCAACC -AAAATTAATTCATAGACACCACTGAGGCTGGCAGTCACTTCCTGTACGCGCTTGTCCGCTTCGCGGGCAACCTTA -TCGACGCGACGCAGGATATCCAGCTTCTCTTCACGGCTCATGCTTTGCAGCGGATCTACCGAGGTATACAACGGG -CTATGCTCTACCGCGCCCAGCGTCTGTACTTTACCATCACCACTATCACGGACGATGGTGCGCGCCGCTTGCGCA -CTCTGTTCCAGCGCCAGCAGGCTGATTTGGTCAGCGTAAGCAAATCCGGTTTTTTCACCGCTGATTGCACGCACA -CCAACGCCCTGATCGATGTTGTAAGAACCATCTTTAATAATGCGGTCTTCTAAAACCCAGGATTCGTGATAGCTC -GACTGAAAATAGAGATCGCCATAATCAAGGCGACGTTCGGCCAGTTGACCGAGGATCGCGAACAAGTCCTGATGT -TTCAGGCCGTTCGCCGCTAGCAATTGTTCACTTACCAGGTTAAGACTCATCGTTTTTGCTACTCGTTAGTTACTG -CAGTAGAGGATTTTTTACGGCTGCCGGATGCGGCGTGAACGCCCTATCCAGCCTACGGTTATGTTCCGGTTTGTA -GGCCTGATAAGACGCACAGCGTCGCATCAGGCAACGGCTGTCGGATGCGGCGTAAACGCCTTATCCGACCTACGG -TTATGTTCCGTTTGTAGGCCTGATAAGACGCACAGCGTCGCATCAGGCAACGGCTGCCGGATGCGGCGTAAACGC -CTTATCCGACCTACGGTTATGTTCCGTTTGTAGGCCTGATAAGACGCACAGCGTCGCATCAGGCAACGGCTGCCG -GATGCGGCGTGAACGCCCTATCCGACCTACGGTTATGTTCTGGCTCGTTGGCCTTTGGCAACGATTATCCTATGA -GATTGGGGCAATTACGCGCCCTCGTCAAATCATTGCGCTTTTTCTTTACGCGGTTGGCGCAACACTTCGTTGATT -TGCGGATCGTCCAGCGGACCCGAAATGTGATAGCGCAAAATGGAGACTTTGCTCCACAGCGGCCCCAGCACTTTA -CTGGCGGCAAACACTGCCGCGCCAACAATGGGGTTAACCGCAAAAGCCGCAGCCACGCCCACCGTCGCAGAAATC -TCTGGTGCGACAACCGCTTCCATATTCAGGTCGCGACGTACCAGATTTACCGACCCTTTCATGGCGATATCCGCC -TCCAGGCCATCCACCAGCGTGTCGTCGGTGTGCATAACGCCGTCTTTAATCCACGCGGTGCTGCGAATGGAGTCA -AAATAGAACCCTTCGCCAAAAGTGTCTCTGAAATCAAAACGCAGCTTACGCATCAGGGCATCTACGCTCAATAAG -CGCAGCAATTGCCCGGCATGTCCGGTATTGATTTCGGTAATTTCGCCTTTACCCAGTTGAGTATGAATGATGCCA -TTCAACGTCGCTTCATCTGGCTGCCAGGGTGCTTTGCGCCAGTGTAAATCGTAATCCACATTAAATGACGACTGG -CGTATGGGCGTCGTGACACCAAAAAATTCTGCGGCGGCATCAATTTTCTGCCCGCGCAGTTTTCCTTTCAGCGAG -GTACGTTCATTCCCCGGATTATTAACCCATTCACCATCGGCAGTAAGCCGCGAGAAACCAGTATCAATCAGTCCA -TTGGTCAGCGTTAACGTATCGCCAGAAATGGTGATATCACTGTCAATGCGACCGAATTTTTGCCCCCAGAACCAG -CACTCTGTGCATCGTATTTGGGCGTCCGGCCAGCCACGGAAGTTAATGCGCTCCGTTGTCGGGAAAGGTGATGAC -GGCGTTGAATCACCACGAGTTTTCGCCACGCTCGGGTTGTAATAAAGATATTTGATATTCGCCAGCCACGGCGCG -TTATTACGCATCGCTAGCGTGGCGTTGATTTCACGCCCTTGCGCTTCAACCAGGGTGCCATTTGCCGTCGGTTGC -GAAACAATACTCAGGTTATTCCATTGCTGATTTCCCAGTGACAACATAGGCGTACGTAACGTTATGTGTTGTGGG -AAACTCGCTGCACCACCGACACTCTCCGCAGCGCCTTTCTGGAACAGGGCCAGCCACTCGGCACCATTCATCGGC -GGCATATTGAGTTCAACGCCACTTTGTTCCGGCAACGGCGGGAGCGTTTTACTGTCTGCCGCCCAAATAGCACGA -TCGAGCGTCAGCTTTTGACCGAGCAACCAGCGGCTATTGAAATGATTATCCGCACCAGCCTGTCCGGTTAATTCA -AAGCTGTTGAGATTGCCATCAACCTTAACGTTTACCGCTAGTGGTTCACCCGCAGGTTTGGCTAACGGTGAAGGT -AAGTGACTGCTCACATTCTTTAGATCGCCGTTCAGCTCTATGTTATAGGTCGCACCAGCATGATAAGGCAGATCA -ATGCCCACTTTACCATCCCACGCCACGCTGCCACTCAATGCTTCGTTCACCGCTTCAGGCAGAACGCCGGTTTTC -GCCGGTTGCCAGTTACCGTTGAGGTTTACCGCTACCTGGTAGGCTTTTGCCCCTTCTTTGGTGGAAAAATCCACG -TTCAACGGCTGATTAAACCAGCTTGCTGTCAGTGGTTCACTTTGCAGATCGCTATTGATAAAGCTGAATTTACCG -CTCAAATTTTTCAGGGTGCTGTCGAGTGGTTTGATAAACAGACTGTTATTACGCAGCGTCACTTCACCTTTCGCG -GTTACCAGTTCGCCGTTCAGCGGGATATCAAGATGTAAGCGAGCATTCACATCGCCGTCGAGCTGGAGTTCTTGC -AGGGTCGCACCCAGAGAATCTTTCAGCGGTGTCTCATCAAAGTAAGGGCCAACGGCTTTACCCGGACCTTTAATG -TCAGCGTCAATCAGCAGTTTTTCTTTTGAGTAGTCAGGGATCACTGCGGTAAGATTACTCGCGCGCACGCCGCCC -AGATTAACGCCATCGGTTTTCATCCATAAACCGTCGTTAATAAAGTCCAGTTCAATATCAAGGTTAGTTAATGCA -GGCCAGTCCGGCTGGAAGGCAAACTTCGCGTTGCGCAGCGGCACCAGCACTTCAAACTGACCTTCGTTGTGTTTA -TAGGGGAAGAGTTGCGGATTGCCACCATAAACCAGCGTCGCGTTATCCGCTTCACCGCCCTGAATCGCGCCACTT -AAGTAATCAACCAGGTCTTTACCCATCAAGTTTTCCGGGAAATAGCGCCAGGCTTGTGAACCATCATCGGTACTG -ATGCCAGCCAGAATACCCAGCCAGGGTTCATCGTTAGCAGGTTGCAGGTAACGAAAACCGCCGCGCGCATGGACG -GCTTTGGCTTTAACGTCAATATTACGCCCATCCAGCTGGAAACCTTTGTTATTGTTCAGCCAGCTTATAGTTGCC -TGGCCGTCGGCGATTTCTAGTGGCGCACGGAATACCGTTTCGTAAGGCATCTTTGCCTGCTTCATCGACGCGGTA -AGCAAACCATTTTCAACGCTGCCGGAAAGCGTCCCGGAGAAGTGTTCCGCACCCGGTAATAATTTCCATTGCTTC -CAGGCCAGATCGCTCCACGATGCCTGAAAACGGGTCTTGTCTGCCGCCTGAAGCGGGATATCCAGCGCCAGAGTG -TTAATCTTGCCGCTCGGTTGTGTGGAGCGCCAAACATCACCCAGTGCAGGTGAAAGTTTCGCGGCCAGCGGGCGT -ATGCCCTCCAGGCCTGCCAGCTCCAGATTACTGGCGCGAATCCGGAGTTCGTCACTGCGTTTATTGTCTTTGCCG -CCAACGTCCTGTTCCGGTATCCAGGCCAGCGTCAATGCTCCGCTCGGCCAGGGTTTGCCGTCCATCGTGATCCGT -GTATCGGGAATAGAGAACTGCCAGCCCGGATTTTCACGCGTAATATGCGCGGTCAGATTATCCACCGACAGCGTA -TGCGTTTGCTTCTCGCCCAACCAGCTGGCACCGCCCTGTTTCAGCCAGACGTCACCGCCGGTTACATCGCCTTTG -TCGATCGTCATCCAGCCTTCAAGGGAGAACTGTGCCGTTTCCAGCGCAATATTGTCCTGCATCCATTTACCGAGC -CACGGCTTCAGGTCGATGTCATCCGCCTGGAGCCAGACGCGACCATTGCTTAACAACCCCTCATCATCGCGCAAA -TCCATGCGCACCTGCATCACGCCGTGCTGTCCGGTAAGGCTGGAGAGGCTTACCAGGCCTTCCGCACGGTGTCGA -CGTGGATCGTTCAGCCAGGTGAGTTGTGGGATCGCCAGCTCGGCGCGCTGACCGGATGGCGTCAGGAAACTGACT -TCACTGTCGCGAAGATCGAAATGGTCAAATTGACGAAGAAACAGATCGCTGATGTGACTGGCTTCCAGACTGTCA -TCACTACCACCGCTGGTGATAGGAGTGTTGGTGCGAAAGCGCAGCTGCCAGAAAGTGAGGTCGCGAAACTGCCAG -CGCATATGTAACAGGCTCTGCCAGACATCCAGCGCCAGAGTAACGCGTTTAACCGAAAATTCGCCGCCATCTTTT -AGTTCTGCACGGATGTCGTGTGCTTCAAGCGTCGGGCCAAAATTCTGCCAGCTGGCTGAGAGCTGACTGGCTTCT -ACCGGCATGCCAGTCGCGGATTCTATTTTGTTGAGGATTTCCGGACGCCAGGCGTCAAGATGCGGTAAAGCAATA -CGCAGGCCGCTAACCAGCAGGGCAGCGATCACAACGAGCGCGGCTCCAGTAAGCAGTAAAATCCCCGGCAATCGC -CTCACCCGTCACTCCTTGTCTGCTAAAAATGTGACTCAAAAACCCTTTGCCGGATGGCGGCCCAGCATCTGTTTA -CATCATTACGACGTCAAACTGCTCCTGGTTATAGAGCGGTTCAATTTGTACTTTAACCTGTTTGCCAACGAAAAT -TTCCACTTCCGCCAGCGAGTGTGACTCTTCGCCTTTCAAGGCTTCAGCTACTGCCGGAGAAGCATAGACCAGGAA -ACGGTCGGAGTCGTAAGCATGGTGGACACGAACAATCTCGCGCATGATTTCATAGCATACCGTTTCCACGGTTTT -CACCGTTCCGCGACCGTGGCAGGTTGGGCATTCGTTACACAGTACGTGCTCAATGCTTTCGCGGGTGCGTTTACG -CGTCATCTCCACCAGCCCCAGCGCCGAAAAACCATTAACGCTGGTTTTCACCCGGTCTTTGCTCAACGCCTGCTC -CAGCGAGTGCAGCACTCGGCGGCGGTGATCTTCATTATTCATATCGATGAAATCAATAATGATAATCCCGCCCAG -ATTACGCAACCGTAACTGGCGAGCGATAGCCTGCGTCGCTTCAATATTGGTATTGAAAATGGTGTCGTCCAGATT -GCGATGACCGACAAACGCTCCGGTATTGATGTCCACGGTGGTCATCGCTTCGGTCTGGTCGATAATGAGATAACC -ACCGGATTTCAGTTCTACTTTGCGTTCCAGCGCTCGCTGGATTTCGTTTTCGACATCAAAGAGATCGAAAATCGG -CTGGCGTCCTGTGTAATGCTCCAGCTTGCTTGTCATCTCGGGAATGTACTCCGAGGTGAACTCAAGTAACGCTTC -GTAAGTCAGGCGTGAGTCAACGCGAATGCGGTCCAGTTCGGCATCGGCGAAATCACGCAGAACACGCTGCGCCAG -CGCCAGTTCGCCGTACAGCTGATAACGGGTCTGCGGGCGTTTTTTACGCTCCATAACTTTGGTCCAGACGCGTTT -CAGATAAGCGGCATCGGAGGCCAGTTCAGCCTCGCCAACCCCTTCCGCTGCGGTACGGATGATAAACCCGCCCTG -CTCGTCGCAATACTCTGCGACCACTTTTTTCAGGCGTTCACGTTCTGATTCGCTTTCAATACGTTGGGAAACCCC -AACGTGAGAAGCCCCTGGCATAAACACCAGATAGCGAGAAGGGAGCGTGATATCGGTGGTCAGGCGCGCACCTTT -AGTGCCAAGCGGATCTTTCACCACCTGCACCATCAGATCTTGCCCCTGACGAACCAGTTCCGAGATGTCGCGCAC -CGTGAATTGCTTTTGTTCTTCACCCGCCACACATTCGGTGTGCGGCATGATGTCGGATGCATGAAGAAACGCGGC -TTTATCCAGCCCAATATCTACAAAAGCCGCCTGCATACCCGGAAGTACACGACTTACACGACCCTTGTAGATATT -GCCTACTATTCCGCGTCGCGCCTCACGTTCAATATGAATTTCCTGCAGAATACCGCCATCAATATACGCCACTCG -CGTTTCCGAAGGCGTTACGTTTACTAACAATTCAGCCGTCATGTTTATCCCTTTTCTCACGCAGTGCGTTAAAAT -TACTTAATAATTCATACGTTTCAACCAGCGGTAAGCCGACTACGGCGTGATAGCTGCCATTTATCTTCCTGACAA -AACAGCCACCCAGCCCCTGAATACCGTATGCACCTGCTTTATCTAACGGTTCATCGCTGGCGACATAGCCCGCGA -TGTCTTCGTCTGTTAACGTTCTGAAAGTCACATCGGTGACCACCAGGCAATCGAGAATGTGCTGGCTGTCGGCCA -ACGCCACTGCTGTCATCACCTGATGGGTCTGACCCGATAATTTGCGCAACATCTGCGCCGCATGCTCTGCGTCGC -GCGGTTTCTCCAGCACTTCTCCGTTCAGGATAACGATAGTATCCGCACCCAGCACCGGGAGATCCTTCGCCGTTT -GCGCGACACCTGCCCGTGCTTTCTCGCGCGCCAGACGCACAACATACTGCTGCGCGCTCTCCTGCGGCTGACGCT -GCTCCTCAATGCCCGTAACAATACGTTCAAAGGTCACGCCAAGTTGCGCAAGTAACTCCTGACGACGCGGAGAAC -CGGAAGCTAAATACAGAGAAGTCATAGAAACCTTTATTGCACTGCAAACTGCTGACGGACTTTGCGCATCAGCAA -GAAAATCCACGGCCAGAGCACCCCATTGACTACACTACTCCAGAACACTTCCGGTCTGAAAGAGACGTTAATCAC -TAAAAACTCTGCCCAGAAAACAATAATATCCACCACCAGCGAAAGCAACATGACGACCAGCGCCTGCTGCCATAA -TGCGAGGTTGCGGAAAAGCTGGTATTTCAGCGCCACCAGGTAAGCAATGATGCTCATCGCCAATACGCGTACGCC -AAGCGTCGAGCCGCTGATCAGATCCAGTATGGCACCCATCACAAAACCTGTGCCCACATTTACGCGATGAGGCAA -GGCCAGGATCCAATACAACAAGATGAGTAACACCCAGTTTGGCCGGAAAACAATCAGGTTATCCGGCCAGGGCAT -GATTTGCAGCAACAGCGCAATGAGGAAAGAGAGCCAGATTACCCAGCGTCCCTGGCTACGATAGCTCGCCACTAT -TGCCCTCCCGGCGCACGCGCAGGCGGTTGAGCACCACTTTGCGGCGGCGTAGCCCTTTGTGGAGAGCGATTAGCA -GCAGGCTGTGTCGGCGCAGCAGGCGCAGTAGCTGCATTTCCTGTCGCCGGTTGCTGCGGAGTCGGCTGAGCGATC -CCCGTTGCCGGTTCAGGTAACTTTGGCCCCATCGCGTCTGGCGAAGGCAATACCTGCGGCATCATCTGCATCAGA -CGTTCATTAGCAACACGATGCACCTCTTCCGGCGTCATCGGGTTAGCGCCGTTACGATCTGCCCCCCACAGCAGC -AGCAGATAACGCAAACGTTGCAGCCCTGCAGTCGGACGCGCCTGAATCACAGTATAAGCGCGCTGGGTATCGAGT -TTTACGGAAGAGACAACCGCGACCGGATAGCCTTCCGGGAAACGACCGCCCAGACCGGAAGTCACCAGCACATCA -CCAACACGAATATCCGTATTCGCCGGCAGATGCTCAAGCTGCAAATCATCCGTACAACCGTTACCGGCTGCAATT -ACGCGGATATCGTTGCGCAGCACCTGGATTGGCAGCGCGTGGGTCGCATCACAAATCAGCAGCACGCGACTGGTC -AGTTTAGCGACGGCCACCACCTGACCAACAACACCTTTGTCGCTGATGACCGGCTGGCCTTCATAAACGCCATTA -ACGCTACCTTTATCGATAACAACTTGATCGCTATAAGGATCGTTAACCGTGGAGATAACCTGAGTCACCATTTTC -TGCTCATCCTGACGCAGCGGGGAACCCAGCAGCTCGCGCAGACGCGCGTTCTCCTGTTTGTATTGTCCAAGCATC -AGCAGTTCACTGTTTTTCAGCAACAGTTCCTGACGTAACGCCCGGTTTTCAAGTTCTAATTGGTCACGCGAGGCC -AGCGTCTGCGATACGCCATCCAGCAATTCACGAGGAGCATTGGAAACAAAGTAGAAAGGACTGACGGCGGTATCC -ATATAAGTACGGATTTGACTGAACGTCCCCAGGCGGCTGTCGGCAATAATAATGCCGAGCGCCACCAGCACCGCC -AGAATAAGGCGAATCTGTAGCGACGGGCCACGGCTAAAAATTGGCTTCATAAGTTATGCGTATTCTCGTATCAGA -CCAGGCAGGGTAAACAGACACTTCCCCTGCCTGCATCCGATTACTCTTCGCTGAACAGGTCGCCGCCGTGCATGT -CGATCATTTCCAGCGCTTTGCCGCCACCGCGCGCCACACAGGTCAGCGGGTCTTCAGCAACAACGACTGGAATGC -CGGTTTCTTCCATTAACAAACGGTCAAGGTTACGCAGCAGTGCGCCACCACCGGTGAGCACCATGCCGCGCTCGG -AGATGTCGGAAGCCAGTTCCGGCGGGCACTGTTCCAGTGCAACCATTACCGCGCTCACAATACCGGTCAGCGGTT -CCTGCAGTGCTTCGAGGATTTCATTGGAGTTCAGGGTAAAACCGCGTGGAACACCTTCTGCCAGGTTACGGCCAC -GAACTTCGATTTCACGGACTTCATCGCCCGGATAAGCCGAACCGATTTCGTGCTTGATACGTTCTGCGGTGGCTT -CACCGATCAGAGAACCGTAATTACGACGCACATAGTTGATGATAGCTTCGTCGAAACGGTCACCACCAATGCGCA -CAGAAGAGGAGTAAACCACACCGTTCAAGGAGATAACAGCAACTTCAGTGGTACCACCACCGATATCAACCACCA -TAGAACCGGTCGCTTCAGAAACCGGCAGGCCAGCACCAATTGCGGCAGCCATCGGTTCTTCAATCAGGAAGACTT -CACGGGCACCAGCGCCCTGCGCGGATTCACGAATTGCGCGGCGTTCAACCTGGGTCGCGCCAACCGGCACACAAA -CCAGAACGCGCGGGCTTGGACGCATAAAGCTGTTGCTGTGCACTTGTTTGATGAAGTGCTGGAGCATTTTTTCAG -TCACGAAGAAGTCGGCGATAACGCCGTCTTTCATTGGGCGAATGGCAGCAATATTGCCCGGCGTACGGCCCAGCA -TCTGCTTCGCGTCATGACCTACTGCAGCTACGCTTTTCGGTGAACCGGCACGATCCTGACGAATGGCCACCACGG -AAGGCTCATTCAATACGATGCCTTGTCCTTTTACATAAATGAGGGTATTCGCAGTACCCAGGTCAATGGACAAGT -CATTGGAAAACATGCCACGAAATTTTTTCAACATACTAAGGGATAATCCTGAAAGCTGGGGCGGAAAAGAAAATC -CGCTTACTTTACCAACCACACGCAGCAGCGACAAGGCGCAAAAATCATCTGCTACGGTGAAAATTAGTGCAGTTC -GTTTCCTTTGTTACAAATCTCTGCCTGAGTCCAGAAAGGCTTAATGCATCAGCAGCATTCCTCGCCTGTTTGCAA -CCGCGTAAGGTCATTCATCTGCATATGTGCTGCAACAATCTGGCGAGCAGACAAGCACACTCCCATGAGACGCAG -CGCGCATTATTCTACGTGAAAACGGATTAAACGGCAGGTTAAACCGAGTATCTTTGTGAATATTTTTTCACGTTA -GTATCAAGTGGCTGTGAGGACGCGAAAAAATCCCCTTGCCCGCCTGTAACACCGCGCTGAATCAGGGTCTGCCAC -TCGCTTCGCGAACGCACGCCGGTGGCGTAAACCTGGGTGCTGGTCCCGGAGCAGGCTTCCACCAGGCTTTGAACC -AGCAGCTGGTTCTCCGTTCGCTTCTCAATGTTTCTGACCAGCCCCGGATGGAGCTTGAGTAACTCAACATTAAGT -TCTTTGATCCAACTGGTACTTACCAGCGTCAAACCAGCCTGGTTGACGGCTACCCGTACCCCTAAAGCATTCACT -AAACGAATAACAGGTTGTAAACGACTGATATGTTGACCTACATCGGCCTCTGCAAGTTCAATAATTATGCGTTTT -CGTTGTGATTTTTCACATTGCATTAACGTATCGCGCAGCCAACGCTGAAAACGCGGGCGAATCAGCGACTCAACG -GTAACCTGAATCGCCAGATTTTCCTCTGGCCAGTAACGCAATAGTGGAATAAGACGGCTGATTTGCAGACGGTCA -TACTCTTCCGATAAGCCAAACTGCAAGACCATCGGCATATACTCCGCCGAGCTAACCTCTTCATTACCATCGAAG -ATGCGGCACATGAGTTCGCGATGATGAACCTGACCTTCGCGAGTAACCGCCGGTTTTTGATAAAGGCGCGGGCCG -CCGCGACTGAGCATTTGCTCGATAAGCGTACGCCAGCGAACATTACCGCGTCCTTTTTCAGGCAACGAGTCATCG -TAAATAGCCCAGCTATTGCCGCCCTGCAATCCCGCATTACGCGTGGCAGACTCTGCATGTTCCATTACCTGCTCG -GTATCCTGACCACTACGCCAGGCGCAGATACCAATGTGGATCATATCGTCGCGATCGAGCATTTTATTGTTCGGC -AAGGTATCAACGGCTTTGATTAACTGACCGGCGATGCTCTCTGCCTCTTTTAACGTCCGGTGCGGTAACAGCGCA -GCAAAATCACTGCGGTGGTAACGCGCCAGCAGTGCGCCAGGGTAGCGCATCATAAATGTCGACAGCAGATTCGTC -AGAGTGAAGAACTGTTCTTCAACCTGGCTGTGCCCCCAGGTATCGCTCAACATATTGAAATCCGGCAGACGAATC -ATCATCACGATCCCGTGGGTACCTACTTTCTCCTGATCTTCCAGTAACGTTGCTAACTGATTATCGAAAAAGAGT -CGGTTATTGAGGCCGGTTTTCACGTCCTGGGCGGCATAAGAGCGGATCAGCGTATCAAGACGGCTGTGTTGTTCG -CGTGCGTTCTGAATTTCACGAAGCAGCGTATCCAGCGCACTGCTGGTTCTGGGCGGCCATTCATAGATGGTTCCC -AACACATTAGAGCCACGCTCACCGTTTAAGATACGAGTAGCCCGGGTTTCCAGCAATTCTTGCCCGGCAAGTTGC -CGTTGTAACCAGCGTACCGCCAGGAAGAGCATAACAATGATAAAGCCAATCGCCCCCGTGAGCGGCGCGGTGGTC -ATCAACGAATGGAAATAGTTGCCCATCGGATCCTGATAAACCAGACGCAACGACATCCCCGGATGCTTTATCAAC -GGAACGCTCAGTTCGCGAAACAGATCGCTGGAGCCAACTGGACGATAACTACCATTTCTGGCCAGGGTATAAACC -TGTTTATCACCATGGAGCAGGTCTACACGAACGATATCTGCCGACATCATTAATTCGGTAATTTGTGGCCTTAAT -ACGCTGAAGTCATTCGACACAAGGTGGGTATCAATCGCCGTCGCCACCGCCTGAACGCGATGACTAAACTTATAC -TGAATGGCGTTGTAGAAACTTAGCGAACAGCCCAGCAAAGTCACAAAAATTGTTAACCCGGTGAGCAGCGTAACA -AAGGCCGAAAATTTCGTCGTTAATCTCATCCTTGTGTTAACTCCGATAGTGAGGAAGCGGGCATACTAGCAAATC -AGATTTATCTCGCAATTTATTGCGCTTCATCGGCTTTGCTTTTCCATTAGCGAGTATAGTCTTCAGAAATTATTT -TCCAATCCATCATGCACATGAGGACCACTTATGCAGGCGTTACTTTTAGAACAGCAGGACGGCAAAACTCTCGCA -TCAGTACAGACTCTGGACGAAAGTCGCCTGCCGGAGGGCGATGTCACGGTCGATGTTCACTGGTCGAGCCTGAAC -TATAAAGATGCGCTGGCGATTACCGGTAAGGGAAAAATCATCCGTAATTTTCCGATGATTCCTGGGATCGATTTT -GCCGGAACTGTACGCACCAGCGAAGATCCGCGTTTTCATGCCGGTCAGGAGGTGTTACTCACTGGCTGGGGCGTT -GGTGAAAACCACTGGGGTGGGCTGGCGGAGCAGGCGCGAGTGAAAGGTGACTGGCTGGTTGCCATGCCGCAAGGG -CTGGACGCGCGTAAAGCAATGATTATCGGTACTGCCGGTTTTACCGCCATGCTGTGTGTGATGGCGCTGGAAGAT -GCCGGTGTTCGCCCGCAGGACGGGGAGATTGTCGTGACGGGTGCCAGTGGTGGCGTCGGCAGTACCGCCGTGGCG -CTGCTGCATAAGTTGGGTTATCAGGTCGTTGCCGTTTCCGGTCGCGAAAGTACCCATGAATATCTGAAAAGTTTA -GGTGCTAGCCGTGTTCTCCCTCGTGATGAGTTTGCCGAATCCCGTCCTCTGGAAAAACAAGTCTGGGCTGGGGCA -ATTGACACCGTTGGCGACAAAGTGCTGGCAAAAGTGCTGGCGCAAATGAATTACGGCGGCTGCGTGGCGGCCTGT -GGTCTGGCGGGTGGTTTTACTCTGCCAACCACGGTCATGCCATTTATTCTGCGTAATGTCCGTTTGCAAGGGGTG -GATTCAGTAATGACGCCACCAGAACGCCGCGCACAAGCCTGGCAGCGACTGGTCGCCGATTTACCGGAATCATTC -TATACCCAGGCGGCAAAAGAGATATCTCTGTCAGAGGCACCGAACTTTGCCGAGGCCATCATTAATAACCAGATC -CAGGGTCGCACGCTGGTGAAGGTTAACTAACCATTTAGCAGGGAATAATAAGAGAGGGAACTCATTTTGAAATCA -TTATTCAATCGGTTAACGGGAAAAGCGGTTAGCCGGACAGCTTTCGTCGAACACCTTGGTCAGGAAGTTATACAA -CATCATCCAAACTGGAAAGTCATGATTTCGACTGACCACAAATTGATGCGCATTGATACTCCACTAAACAGCTAT -TATTGATACGCCTCCGTCGCCTGTTAGGTTTATGTTGCTTTGCCTGGGCGACGCTACGCTTAGCCCCTTACTTAT -TTCTGGTACCATGGGGTGAATAATCTGATTTTGTTTGACTACAAATTAATCACTCGAACCTATTTAATGCTGAGC -ATTGTCAATCGGTTAATTTTGCGTGCTTTAGCATTCACATCTATCCAGACGATGCAGTGAAAATTGGGTAATCCC -CAGCAACCGCTGCGTAATGTCGTCTATCTTGTCGCGATCCTGGCATCCCTACATTATTTGTGGTCTGTGAAGATT -ATCTCATTGCAGCCCCTCATCTTCGCAGGGCTGGCTTTTCAGCTTTTCACCTTACGTTATAAGAAGTTCCGTCGA -TGATGGCGCTAATTTCGTGAATTGTGCGGCTTGTTGCAAATTACACGGTGTTGAAGGTTATTTACATGTTAGCTG -TTGATTATCTTCCCTGATAAGACCAGTATTTAGCTGCCAATTGCTACGAAATCGTTATAATGTGCGACCTCGTCC -TCCCTGACGCAGTTTTTGCGCTGCGGAAAAGGTGACATTGGCGCAACGAAGGTATATTTTGTTTTTTGCCGGAGG -ATAGCAGCAGATCGCTGCACAATGTCCGTCAAGTCTAACATTGACACTCTGGGGCAAAATAGACCGGCGTCCCGG -CCTGCTGGAATTTATCGCTATGCATACAGCTGTCGGGGCATACGCTTTACAGACGGCGGTGAAACGCCTGTCACA -ATCACACTAAACAAAGAGTACGGAACCCACTCATGGATATTCGTAAGATTAAAAAACTGATCGAGCTGGTTGAAG -AATCAGGCATCTCCGAACTGGAAATTTCTGAAGGCGAAGAGTCAGTACGCATTAGCCGTGCAGCTCCTGCCGCAA -GTTTCCCTGTGATGCAACAAGCTTACGCTGCACCAATGATGCAGCAGCCAGCTCAATCTAACGCAGCCGCTCCGG -CGACCGTTCCTTCCATGGAAGCGCCAGCAGCAGCGGAAATCAGTGGTCACATCGTACGTTCCCCGATGGTTGGTA -CTTTCTACCGCACCCCAAGCCCGGACGCAAAAGCGTTCATCGAAGTGGGTCAGAAAGTCAACGTGGGCGATACCC -TGTGCATCGTTGAAGCCATGAAAATGATGAACCAGATCGAAGCGGACAAATCCGGTACCGTGAAAGCAATTCTGG -TCGAAAGTGGACAACCGGTAGAATTTGACGAGCCGCTGGTCGTCATCGAGTAACGAGGCGAACATGCTGGATAAA -ATTGTTATTGCCAACCGCGGCGAGATTGCATTGCGTATTCTTCGTGCCTGTAAAGAACTGGGCATCAAGACTGTC -GCTGTGCACTCCAGCGCGGATCGCGATCTAAAACACGTATTACTGGCAGATGAAACGGTCTGTATTGGCCCTGCT -CCGTCAGTAAAAAGTTATCTGAACATCCCGGCAATCATCAGCGCCGCTGAAATCACCGGCGCAGTAGCAATCCAT -CCGGGTTACGGCTTCCTCTCCGAGAACGCCAACTTTGCCGAGCAGGTTGAACGCTCCGGCTTTATCTTCATTGGC -CCGAAAGCAGAAACCATTCGCCTGATGGGCGACAAAGTATCCGCAATCGCGGCGATGAAAAAAGCGGGCGTCCCT -TGCGTACCGGGTTCTGACGGCCCGCTGGGCGACGATATGGATAAAAACCGTGCCATTGCTAAACGCATTGGTTAT -CCGGTGATTATCAAAGCCTCCGGCGGCGGCGGCGGTCGCGGTATGCGCGTAGTGCGCGGCGACGCTGAACTGGCA -CAATCCATCTCCATGACCCGTGCGGAAGCGAAAGCTGCTTTCAGCAACGATATGGTTTACATGGAGAAATACCTG -GAAAATCCTCGCCACGTCGAGATTCAGGTACTGGCTGACGGTCAGGGCAACGCTATCTATCTGGCGGAACGTGAC -TGCTCCATGCAACGCCGCCACCAGAAAGTGGTCGAAGAAGCGCCAGCACCGGGCATTACCCCGGAACTGCGTCGC -TACATCGGCGAACGTTGCGCTAAAGCGTGTGTTGATATCGGCTATCGCGGTGCAGGTACTTTCGAGTTCCTGTTC -GAAAACGGCGAGTTCTATTTCATCGAAATGAACACCCGTATTCAGGTAGAACACCCGGTTACAGAAATGATCACC -GGCGTTGACCTGATCAAAGAACAGCTGCGTATCGCTGCCGGTCAACCGCTGTCGATCAAGCAAGAAGAAGTTCAC -GTTCGCGGCCATGCGGTGGAATGTCGTATCAACGCCGAAGATCCGAACACCTTCCTGCCAAGTCCGGGCAAAATC -ACCCGTTTCCACGCACCTGGCGGTTTTGGCGTACGTTGGGAGTCTCATATCTACGCGGGCTACACCGTACCGCCG -TACTATGACTCAATGATCGGTAAGCTGATTTGCTACGGTGAAAACCGTGACGTGGCGATTGCCCGCATGAAGAAT -GCGCTGCAGGAGCTGATCATCGACGGTATCAAAACCAACGTTGATCTGCAGATCCGCATCATGAATGACGAGAAC -TTCCAGCATGGTGGCACTAACATCCACTATCTGGAGAAAAAACTCGGTCTTCAGGAAAAATAAGACTGCTAAAGC -GTCAAAAGGCCGGATTTTCCGGCCTTTTTTATTACTGGGGATCGACAACCCCCATAAGGTACAATCCCCGCTTTC -TTCACCCATCAGGGACAAAAAATGGACACTCGTTTTGTTCAGGCCCATAAAGAGGCGCGCTGGGCGCTGGGGCTG -ACCCTTTTGTATCTGGCAGTTTGGTTAGTAGCCGCTTACTTATCTGGCGTTGCCCCCGGTTTTACCGGCTTTCCG -CGCTGGTTTGAGATGGCCTGCATCCTGACGCCGCTGCTGTTTATTGGACTGTGCTGGGCGATGGTGAAATTTATC -TATCGCGATATCCCACTGGAGGATGACGATGCAGCTTGAAGTAATTCTACCGCTGGTCGCCTATCTGGTGGTGGT -GTTCGGTATCTCGGTTTATGCGATGCGTAAACGGAGCACCGGCACCTTCCTTAATGAGTATTTCCTCGGCAGCCG -CTCTATGGGCGGTATTGTGCTGGCGATGACGCTCACCGCGACCTATATCAGTGCCAGTTCGTTTATCGGCGGGCC -AGGAGCTGCTTATAAATACGGGCTGGGCTGGGTATTGCTGGCGATGATTCAGCTTCCTGCAGTCTGGCTTTCACT -CGGTATTCTCGGCAAGAAGTTTGCGATTCTTGCGCGCCGCTACAATGCAGTGACGCTGAACGATATGCTGTTTGC -CCGCTACCAGAGTCGTCTTCTGGTGTGGCTGGCGAGTTTGAGTTTGCTGGTTGCGTTCGTTGGTGCGATGACCGT -GCAGTTTATCGGCGGTGCGCGCCTGCTGGAAACCGCGGCGGGTATTCCTTATGAAACCGGGCTGCTGATTTTTGG -TATCAGCATTGCGTTATATACCGCCTTTGGTGGCTTTCGCGCCAGCGTGCTGAACGACACCATGCAAGGGCTTGT -GATGCTGATTGGCACCGTTGTGCTGCTTATTGGCGTAGTACATGCCGCTGGCGGCTTAAGTAACGCAGTACAGAC -CTTGCAAACCATCGATCCGCAACTGGTTACGCCACAAGGCGCTGACGATATTCTGTCGCCTGCCTTTATGACGTC -GTTCTGGGTACTGGTGTGTTTTGGCGTGATTGGCCTGCCGCATACTGCGGTGCGCTGTATCTCTTATAAAGACAG -CAAAGCCGTACATCGGGGGATCATCATCGGTACGATTGTGGTCGCAATTCTGATGTTCGGTATGCACCTGGCCGG -AGCGTTAGGTCGGGCGGTGATCCCCGATCTCACCGTACCGGACCTGGTGATCCCAACGTTAATGGTAAAAGTGCT -GCCACCGTTTGCTGCCGGGATCTTCCTGGCTGCACCGATGGCTGCGATCATGTCGACAATTAACGCCCAACTGCT -GCAAAGTTCCGCTACGATCATTAAAGATCTCTATCTGAATATCCGTCCGGATCAAATGCAAAACGAGACGCGTCT -GAAGCGGATGTCGGCGGTAATTACGTTAGTTCTCGGCGCGTTGCTGCTGCTTGCCGCCTGGAAGCCGCCAGAAAT -GATCATCTGGCTGAATTTGTTGGCCTTCGGTGGGCTGGAAGCCGTTTTCCTGTGGCCGCTGGTGCTGGGTCTTTA -CTGGGAACGCGCCAACGCCAAAGGCGCGCTAAGTGCGATGATCGTTGGCGGCGTGCTGTATGCCGTACTCGCGAC -GCTGAATATTCAGTACCTGGGCTTCCACCCTATCGTGCCCTCGTTACTACTAAGTTTGCTGGCTTTCCTGGTCGG -AAACCGTTTCGGTACATCCGTCCCGCAAGCTACCGTTTTGACTACTGATAAATAAAGAGTTTTGCCATGCCTTGG -ATCCAACTGAAACTGAACACCACCGGCGCGAACGCGGAAGATCTTAGCGATGCGCTGATGGAAGCGGGTGCCGTT -TCTATCACTTTTCAGGATACCCACGATACGCCAGTATTTGAACCGCTGCCGGGCGAAACGCGCCTGTGGGGCGAC -ACCGATGTGATTGGTCTGTTCGACGCTGAAACCGATATGAACGACGTGGTGGCGATTCTGGAAAACCATCCGCTG -CTCGGCGCAGGCTTCGCGCATAAAATCGAACAACTAGAAGATAAAGACTGGGAGCGCGAATGGATGGATAATTTC -CACCCGATGCGCTTTGGTGAACGACTGTGGATCTGCCCTAGCTGGCGTGATGTGCCGGACGAAAACGCCGTCAAC -GTGATGTTAGATCCAGGGCTGGCGTTTGGTACGGGTACCCATCCAACCACCTCTCTGTGCCTGCAATGGCTCGAC -AGCCTCGATTTAACCGGTAAAACAGTCATCGACTTTGGCTGTGGTTCCGGCATTCTGGCGATCGCGGCGCTGAAA -CTGGGTGCAGCAAAAGCCATTGGTATTGATATCGATCCGCAGGCGATTCAGGCCAGCCGCGATAACGCCGAACGT -AATGGCGTTTCTGACCGTCTGGAACTCTACTTACCGAAAGATCAGCCAGAAGAAATGAAAGCCGACGTGGTGGTC -GCTAACATCCTTGCAGGCCCATTACGTGAACTGGCACCGTTAATCAGCGTCCTGCCGGTTTCAGGCGGTTTGCTG -GGCCTTTCCGGTATTCTGGCAAGCCAGGCAGAGAGCGTTTGTGAAGCTTATGCCGATAGCTTCGCACTGGACCCG -GTCGTGGAAAAAGAAGAGTGGTGCCGTATTACCGGTCGTAAGAATTAACCTTCGCATCGCCGTAGGGTGACGCGG -GGCGAAGTGCGAGCAAGCTCACAAAAGGCACGTAAATTTGCCGATTATTTACGCAAATTTGCGTGCCAAAATTTT -CATTCATAAAGAAAAATTGAGAACTTACTCAAATTTCTTTGAGTGTAAATTTTAGTCACTATTTTCTAATATGAT -GATTTTTATGAGTAATTATCGCACCACGCTCATTTTAAATGCAATTCTTTGATCCATCTCAGAGGATTGGTCAAA -GTTTGGCCTTTCATCTCGTGCAAAAAATGCGTAATATACGCCGCCTTGCAGTCACAGTATGGTCATTTCTTAACT -CATGCGCATCGGACAATATCAGCTCAGAAATCGCCTGATCGCAGCGCCCATGGCTGGCATTACAGACAGACCTTT -TCGGACGTTGTGCTACGAGATGGGAGCCGGATTGACAGTATCCGAGATGATGTCTTCTAACCCACAGGTTTGGGA -AAGCGACAAATCTCGTTTACGGATGGTGCACATTGATGAACCCGGTATTCGCACCGTGCAAATTGCTGGTAGCGA -TCCGAAAGAAATGGCAGATGCAGCACGTATTAACGTGGAAAGCGGTGCCCAGATTATTGATATCAATATGGGTTG -CCCGGCTAAAAAAGTGAATCGCAAGCTCGCAGGTTCAGCCCTCTTGCAGTACCCGGATGTCGTTAAATCGATCCT -TACCGAGGTCGTCAATGCAGTGGACGTTCCTGTTACCCTGAAGATTCGCACCGGCTGGGCACCGGAACACCGTAA -CTGCGAAGAGATTGCCCAACTGGCTGAAGACTGTGGCATTCAGGCTCTGACCATTCATGGCCGTACACGCGCCTG -TTTGTTCAATGGAGAAGCTGAGTACGACAGTATTCGGGCAGTTAAGCAGAAAGTTTCCATTCCGGTTATCGCGAA -TGGCGACATTACTGACCCGCTTAAAGCCAGAGCTGTGCTCGACTATACAGGGGCGGATGCCCTGATGATAGGCCG -CGCAGCTCAGGGAAGACCCTGGATCTTTCGGGAAATCCAGCATTATCTGGACACTGGGGAGTTGCTGCCCCCGCT -GCCTTTGGCAGAGGTTAAGCGCTTGCTTTGCGCGCACGTTCGGGAACTGCATGACTTTTATGGTCCGGCAAAAGG -GTACCGAATTGCACGTAAACACGTTTCCTGGTATCTCCAGGAACACGCTCCAAATGACCAGTTTCGGCGCACATT -CAACGCCATTGAGGATGCCAGCGAACAGCTGGAGGCGTTGGAGGCATACTTCGAAAATTTTGCGTAAACAGAAAT -AAAGAGCTGACAGAACTATGTTCGAACAACGCGTAAATTCTGACGTACTGACCGTTTCTACCGTTAACTCTCAGG -ATCAGGTAACCCAAAAACCCCTGCGTGACTCGGTTAAACAGGCACTGAAGAACTATTTTGCTCAACTGAATGGTC -AGGATGTGAATGACCTCTATGAGCTGGTACTGGCTGAAGTAGAACAGCCCCTGTTGGACATGGTGATGCAATACA -CCCGTGGTAACCAGACCCGTGCTGCGCTGATGATGGGCATCAACCGTGGTACGCTGCGTAAAAAATTGAAAAAAT -ACGGCATGAACTAATTCAGGTTAGCTAAATGCTTGATTAAAAAGGCGCTACTCGGCATGGGGAAGCGCCTTTTTT -ATAGGTGTCACAAAGGGAGTGACCATGAGAACAGGATGTGAACCGACCCGGTTTGGTAATGAAGCTAAGACCATT -ATTCACGGTGATGCGCTTGCCGAACTTAAAAAGATCCCCGCCGAAAGTGTCGATCTGATCTTTGCCGACCCACCA -TATAACATCGGTAAAAATTTTGATGGTCTGATCGAAGCCTGGAAAGAAGATCTGTTTATCGACTGGCTGTTTGAA -GTGATTGCAGAGTGCCACCGCGTTCTGAAAAAGCAGGGCAGCATGTACATCATGAACAGTACGGAAAACATGCCC -TTTATCGATCTCCAGTGCCGCAAGCTTTTTACCATCAAAAGTCGCATCGTCTGGTCATATGACAGTTCTGGAGTG -CAGGCGAAAAAACACTACGGCTCCATGTACGAACCCATCCTGATGATGGTGAAAGACGCAAAGAACTACACATTC -AACGGTGATGCTATTCTGGTAGAAGCCAAAACCGGATCGCAGCGCGCGTTGATCGATTATCGCAAAAATCCTCCA -CAGCCTTACAATCATCAAAAAGTACCGGGTAACGTTTGGGATTTTCCGCGCGTGCGTTATTTGATGGATGAATAT -GAAAACCACCCGACGCAAAAACCGGAAGCCTTACTGAAACGCATTATTCTCGCCTCTTCCAACCCAGGCGATATC -GTTCTCGACCCGTTTGCTGGTAGCTTTACTACCGGTGCCGTAGCCATCGCCAGCGGACGAAAATTCATTGGTATT -GAGATCAACAGCGAGTACATCAAAATGGGGCTTCGACGGCTGGATGTCGCGTCGCATTACTCTGCGGAAGAACTG -GCGAAAGTGAAAAAAAGAAAGACCGGCAACCTGTCAAAACGAAGCCGGTTAAGCGAAGTTGACCCCGATCTCATT -ACAAAGTAAAGGATGTGTAAGCCTGGTTTTCAGATTATTCATTTCGTGTATATTTCCTGCCAGACTTGGTTAAAC -ATGCACAGGCTCAGGTAATGATTCGCAAGTATTGGTGGCTCGTCGTTTTCGCTGTCTTCGTTTTTCTGTTTGATA -CTTTACTGATGCAGTGGATTGAACTGCTGGCAACAGAAACAGACAAATGCCGCAATATGAACTCAGTTAATCCAC -TAAAACTGGTTAACTGTGACGAACTGAATTTTCAGGACAGAATGTGAATTTACATGACACTTAATTCATTCGTTT -GATGAATTAATTTCGTTATGTTTTCATCTGGCATGAACATTCTTAATACGTTATCGACCAGAGCGGGGGCTTGTT -TATAAAGATCATAACCCGCCATATTCATTAACCAGTTTTGAACAATTCCGCTGAAGGCACCATCAATAATAATCA -TCACAACATCTAAATCGAGGTTATTTGCTACACAACCTTGTTGCTGACACGCCTGCAATACTTCGCGGAGAGTCT -GCGGATTAAAGCCCATCTTTTCGCGTATCACTCCCTCGGCCAGCATCTCATCATTAAATTCACATTTGTGATATA -AGATTTTCAGCAACGCCTGCTGGCGGGGAATTTTGGCAATATATTGCAAGCCGACAATCAATTTTTCACGCAATT -GTTGAAACGGGTCATGCTCTAATCCAGCCGTCAAGTGTTCCTGGATTAACTCCCGCAATGAAGGCTGTTGCAACC -ACATCTCATTAAACAGTTGAGTCTTGTTTTCGAAGTGCCAGTAGATAGCGCCACGCGTAACGTTAGCGGCGTCGG -CAATGTCGTTGAGCGTCGTCTTGCTTACGCCATGCTGCGCAAACTGGGCGATGGCAGTTTCAATCAGTTCTTGCC -GGGTCTTCAGAGCTTCGGCTTTGGTTCTTTTTGCCATGATTAATTATTCAGGAAATAAATATATTCGACACAGAG -TGAGAAAATAGCGAAGGTTAATCTATCACCTAATGTGTATTTATACGAGAGGCTAATATTGAGTTGCTATAAATC -GTTAAATAAATAATATATATTATTTACCTAAGATACATTCACTACATCAATATATATTTCAATTTACGAGGTTTT -AATTCTGCCTCTTTCAACCCGCGTCAAAATAAAACAGTAGAATATTAATCTTTTTTTGTGTTTATGTGCCTTGAG -ATGCCTGTATTCATAACTATTCCTTACATCGACGAATGATAATTTGTAGGATAGCGAACTGTATTTTTCTTTCTG -CGAGTTAACGCGTTGCCTTTTTGGGTAAATAACGCGCTTTTGGTTTTTTGAGGAATAGTAATGACGAAACATGCC -AGGTTTTTCCTCCTGCCCTCCTTTATTCTGATCTCCGCGGCTTTAATCGCCGGTTGTAACGATAAGGGAGAAGAG -AAAGCTCACGTCGGTGAACCGCAGGTTACCGTTCATATTGTAAAAACGGCCCCGTTAGAAGTTAAGACTGAATTA -CCAGGCCGCACCAATGCTTATCGTATAGCCGAAGTTCGCCCACAGGTTAGCGGGATCGTACTGAATCGCAATTTC -ACTGAAGGCAGCGATGTGCAAGCAGGCCAGTCCCTGTACCAGATCGATCCCGCGACCTATCAGGCAAATTATGAC -AGCGCGAAAGGCGAACTGGCGAAAAGTGAAGCCGCCGCCGCCATCGCGCATTTGACGGTAAAACGTTACGTTCCG -CTCGTGGGTACGAAATACATCAGCCAGCAGGAGTACGACCAGGCCATTGCTGATGCTCGTCAGGCCGATGCCGCC -GTGATTGCCGCAAAAGCCACAGTCGAAAGCGCTCGCATCAATCTTGCTTATACCAAAGTCACTGCGCCAATTAGC -GGACGTATCGGCAAATCGACTGTGACCGAAGGCGCTCTTGTCACTAATGGGCAAACGACTGAACTGGCGACTGTC -CAGCAGCTCGATCCTATCTACGTTGATGTGACCCAATCCAGCAACGATTTTATGAGGCTGAAGCAATCCGTAGAG -CAAGGAAATTTGCATAAGGAAAACGCCACCAGCAACGTAGAGTTGGTCATGGAAAACGGTCAAACCTATCCCCTG -AAAGGTACGCTGCAATTCTCCGATGTGACCGTTGATGAAAGCACCGGCTCCATAACCCTACGTGCTGTCTTCCCT -AACCCGCAACATACGCTTTTGCCGGGTATGTTTGTGCGTGCACGGATTGATGAAGGCGTCCAACCTGACGCCATT -CTTATCCCGCAACAAGGCGTTAGCCGCACACCGCGTGGTGATGCAACCGTGCTGATTGTTAACGATAAAAGTCAG -GTTGAAGCGCGCCCTGTCGTTGCCAGTCAGGCGATTGGCGATAAATGGTTGATTAGTGAAGGACTGAAATCTGGC -GATCAAGTCATTGTCAGCGGCCTGCAAAAAGCGCGTCCGGGAGAGCAGGTTAAAGCCACTACCGATACCCCCGCA -GATACTGCATCGAAGTAAGGTAATCTGACATGGCAAACTTTTTTATTCGACGACCGATATTTGCATGGGTGCTGG -CCATTATTCTGATGATGGCGGGCGCACTGGCGATCCTACAATTGCCCGTCGCTCAGTATCCAACAATTGCACCGC -CTGCGGTTTCTGTTTCAGCAAACTATCCGGGCGCTGATGCGCAGACCGTGCAGGATACGGTGACGCAGGTTATCG -AACAGAATATGAACGGTATCGATAACCTGATGTATATGTCCTCCACCAGCGATTCCGCCGGTAGCGTGACAATTA -CCCTTACCTTCCAGTCCGGGACCGATCCTGATATCGCGCAAGTGCAGGTGCAGAACAAACTCCAGCTCGCCACGC -CGTTGCTGCCGCAGGAGGTTCAGCAGCAGGGGATCAGTGTTGAAAAGTCCAGTAGCAGCTATTTGATGGTGGCGG -GCTTTGTCTCTGATAACCCAGGCACCACACAGGACGATATCTCGGACTATGTGGCCTCTAACGTTAAAGATACGC -TTAGCCGTCTGAATGGCGTCGGTGACGTACAGCTTTTCGGCGCACAGTATGCGATGCGTATCTGGCTGGATGCCG -ATCTGCTAAACAAATATAAACTGACACCGGTTGATGTGATTAACCAGTTGAAGGTACAGAACGATCAGATCGCTG -CCGGACAGTTGGGCGGAACGCCAGCGTTACCAGGGCAACAATTGAACGCCTCGATTATTGCTCAGACGCGGTTTA -AAAATCCGGAAGAATTCGGCAAAGTGACCCTGCGCGTAAACAGTGACGGCTCGGTGGTACGCCTGAAAGATGTCG -CACGGGTTGAACTTGGCGGTGAAAACTATAACGTTATCGCTCGTATCAACGGAAAACCGGCGGCGGGCCTGGGGA -TTAAGCTGGCAACCGGCGCGAATGCTCTCGATACCGCGAAAGCCATTAAGGCAAAACTGGCGGAATTACAGCCAT -TCTTCCCGCAGGGAATGAAGGTTCTCTACCCTTATGACACCACGCCATTCGTCCAGCTTTCTATTCACGAAGTGG -TAAAAACGCTGTTCGAAGCCATTATGCTGGTGTTCCTGGTGATGTATCTGTTCTTGCAGAATATGCGAGCAACGC -TGATCCCCACCATTGCGGTACCCGTGGTGTTGTTAGGGACGTTTGCCATCCTCGCCGCTTTTGGTTACTCCATCA -ACACACTAACGATGTTCGGGATGGTGCTTGCCATCGGGCTGCTCGTCGATGATGCGATAGTGGTGGTGGAGAACG -TCGAGCGCGTGATGATGGAGGATAAGCTCCCGCCAAAAGAAGCGACGGAAAAATCGATGTCGCAAATTCAGGGCG -CACTGGTGGGTATCGCGATGGTGCTGTCAGCGGTATTTATTCCGATGGCATTCTTCGGCGGTTCTACTGGGGCAA -TTTATCGCCAGTTCTCTATCACCATCGTTTCGGCAATGGCGCTTTCTGTTCTGGTGGCATTGATTCTTACCCCTG -CGTTATGTGCAACGCTGCTTAAACCCGTCTCTGCTGAGCATCACGAAAATAAGGGCGGTTTCTTCGGTTGGTTTA -ATACCACCTTCGATCATAGCGTTAACCACTACACCAACAGCGTCGGCAAAATCCTCGGATCCACAGGACGATATT -TACTGATCTATGCGCTGATTGTTGCAGGAATGGTGGTGTTGTTTTTACGTCTTCCGTCTTCCTTCTTACCTGAAG -AGGATCAGGGTGTCTTTCTGACCATGATTCAGTTACCCGCTGGCGCGACGCAAGAGCGGACGCAAAAAGTGTTGG -ATCAAGTTACGGATTACTATCTGAAGAACGAGAAAGCGAACGTTGAAAGTGTCTTTACGGTTAACGGCTTTAGCT -TCAGCGGCCAGGCACAAAACGCCGGTATGGCCTTCGTCAGTCTGAAACCGTGGGAAGAGCGTAATGGTGACGAAA -ACAGTGCGGAAGCGGTAATCCATCGTGCCAAAATGGAATTGGGCAAGATCCGCGACGGTTTTGTCATTCCATTCA -ATATGCCAGCCATTGTTGAACTGGGCACGGCAACGGGTTTCGACTTTGAGTTAATTGATCAGGCTGGGCTGGGTC -ACGATGCCCTAACCCAGGCCCGTAACCAGTTGCTTGGTATGGCGGCGCAACATCCTGCCAGCTTAGTCAGCGTGC -GCCCTAATGGCCTGGAAGACACCGCGCAGTTTAAACTGGAAGTTGACCAGGAAAAGGCGCAGGCATTAGGTGTTT -CACTTTCTGACATCAATCAGACCATTTCAACGGCGCTGGGTGGGACTTACGTTAACGACTTCATCGACCGTGGCC -GCGTGAAAAAGTTGTATGTTCAGGCGGATGCCAAATTCCGTATGCTGCCAGAAGATGTCGATAAACTTTATGTCC -GCAGCGCCAACGGCGAAATGGTGCCATTCTCGGCCTTTACCACTTCACATTGGGTGTATGGCTCTCCGCGACTGG -AACGCTACAACGGTCTGCCGTCAATGGAGATTCAGGGGGAAGCCGCGCCAGGAACCAGTTCCGGCGATGCCATGG -CGTTGATGGAAAACCTTGCGTCAAAATTACCTGCGGGCATTGGTTATGACTGGACGGGTATGTCGTATCAGGAAC -GCTTATCGGGAAACCAGGCTCCCGCTCTGGTAGCAATTTCCTTTGTGGTTGTTTTCCTGTGCCTTGCTGCACTCT -ATGAAAGCTGGTCAATTCCTGTCTCGGTTATGTTGGTAGTGCCGTTAGGGATTGTCGGCGTGCTGCTGGCGGCGA -CACTCTTTAATCAAAAAAATGACGTCTACTTTATGGTGGGCTTGCTAACGACAATTGGCTTGTCGGCCAAAAACG -CTATTTTGATCGTTGAGTTCGCTAAAGATCTCATGGAGAAAGAGGGTAAAGGTGTTGTTGAAGCGACACTGATGG -CAGTACGTATGCGTCTGCGTCCTATCCTGATGACCTCTCTCGCCTTTATTCTCGGCGTATTACCGCTAGCTATCA -GTAACGGTGCCGGCAGTGGCGCGCAGAACGCTGTGGGTATCGGGGTAATGGGAGGAATGGTCTCTGCAACGTTGC -TGGCAATCTTCTTCGTACCGGTGTTCTTTGTGGTGATCCGCCGTTGCTTTAAAGGATAAATCAGAAACATAAAGG -CGCTTTCGGGTGCCTTTATTATTTCCAGTGAAACCCATAAAAATTAATAAGATATTCTTCTGCTCACTCTTTAAA -AGCTTTCTATAGTTCCCGCTCCCTTCACTATTTTTACAATTCACATAATTTGTCATTATTCATTCCGCAAGATTT -ATAACCTCCGGTGATAAAATGGCATTCAGCTCGTTAATAAGAGAGTTAACTTATTAAGCGTTAGCGTTTATTACT -GAGGTAACACCATGAAAAGATTAATTCCTGTGGCATTGCTCACCGCATTGCTGGCGGGCTGTGCTCACGATTCGC -CCTGCGTTCCGGTTTATGACGATCAGGGTCGTCTGGTTCACACCAATACCTGTATGAAAGGCACGACTCAGGATA -ACTGGGAAACGGCTGGGGCTATTGCCGGCGGGGCAGCTGCTGTTGCTGGCCTGACGATGGGGATCATCGCTCTAT -CGAAATAACTGAACAGGGCGCGGAGTTCCGCGCTCTTTTTAACGATACAGTATCTCTCCATAAGATAAAATATTG -CTATATTCTGCTGGGTAATTCCCTGCTGATTTAGCATGTTACATCGCGTTATTTCGCTGCTTTCGAAATAACGCA -TCAATTTAATTTTCACACTTCCCACCAGAAATATACTCACGCTAACAATCATTATTCTGCTTAGTAAAACACGCG -TAAATATTTTGCGCCAAAATGTGGCGCATGTTTCATTTTCGCACCATTGCGGGGCGCTGTTTTTATTATTTCCTG -TCTACACTCAGCTTATTGCGACGCGAAATCGTGCGCAAAAGCTGGCACTACTTTTGCTTATAAGAGGATGGCCAC -AGACAGGTAAAAGACGTTTCCCAAACGTCCTATAACGATAATTTTCGCCTCACAGGAAGCATTATGAAAAAGATG -ATGATAGCCACACTGGCTGCCGCCAGCGTGCTGCTTGCCGTTGCAAATCAGGCGCTGCTGGCGCGACGCTTGATG -CCGTTCAGAAAAAAGGTTTTGTGCAATGCGGGATCAGTGATGGATTACCTGGGTTCTCTTATGCCGATGCTGACG -GTAAGTTTTCAGGTATTGATGTTGATATTTGTCGTGGTGTTGCCGCTGCTGTATTTGGTGACGACACGAAAGTGA -AATATACCCCGCTCACTGCAAAAGAACGCTTCACCGCTTTACAGTCAGGGGAGGTGGATTTGCTCTCCCGTAATA -CGACCTGGACTTCATCTCGCGATGCCGGGATGGGAATGGCATTTACCGGCGTCACTTATTACGACGGCATTGGCT -TCCTGACGCACGATAAAGCGGGGCTAAAAAGCGCGAAAGAACTGGATGGCGCTACCGTCTGTATTCAGGCGGGTA -CTGATACCGAACTCAACGTCGCCGACTACTTCAAGGCAAACAATATGAAGTACACACCGGTGACTTTCGATCGCT -CTGACGAATCAGCGAAGGCACTGGAATCTGGTCGCTGCGATACGCTGGCCTCGGATCAATCACAACTGTATGCCC -TGCGCATCAAATTAAGCAACCCAGCTGAATGGATTGTCTTACCGGAAGTTATCTCAAAAGAACCGCTTGGTCCGG -TAGTTCGTCGTGGCGATGATGAATGGTTCTCGATTGTACGCTGGACGCTTTTCGCCATGCTGAATGCTGAAGAGA -TGGGCATCAATTCCCAGAACGTCGATGAAAAAGCGGCTAATCCAGCAACGCCTGATATGGCACATCTGCTGGGTA -AAGAAGGCGATTACGGCAAGGATCTGAAGCTGGATAATAAATGGGCCTATAACATCATCAAACAGGTGGGTAACT -ACTCGGAAATTTTTGAGCGTAACGTAGGTTCAGAAAGCCCGCTGAAAATTAAACGTGGGCAAAATAATCTCTGGA -ATAACGGCGGTATTCAGTACGCACCGCCCGTGCGTTAAGTCGGTGTGAGGTAACGAGCGTCGCTACGGCGGCGCT -CTCTTCAGCGTTATGCTTTCCGAGGTTTCTATGTCTCATCGCCGCTCAACCGTTAAAGGCTCACTCTCTTTTGCC -AACCCTACGGTTCGCGCCTGGTTATTCCAGATCCTTGCCGTTGTTGCTGTTGTCGGCATTGTTGGTTGGTTATTT -CACAACACTGTAACGAATCTCAATAATCGTGGCATTACTTCAGGTTTTGCCTTTCTGGATCGCGGCGCTGGCTTC -GGTATTGTCCAGCATTTGATCGATTACCAGCAGGGCGACACCTACGGACGCGTTTTTATTGTCGGCTTACTCAAT -ACGCTACTGGTTTCTGCATTGTGTATTGTGTTCGCTTCTGTTTTGGGCTTCTTTATCGGTCTGGCGAGACTTTCG -GATAACTGGCTGCTACGAAAGCTTTCCACAATTTATATTGAGATCTTCCGTAATATTCCCCCGCTGCTGCAAATC -TTCTTCTGGTACTTTGCCGTGTTGCGCAATTTGCCCGGACCACGCCAGGCTGTGAGCGCGTTTGATCTGGCCTTT -TTGAGCAATCGTGGGCTTTATATTCCGTCACCGCAGCTGGGAGACGGATTTATTGCGTTTATCCTGGCTGTTGTT -ATGGCTATAGTCCTTTCTGTTGGGCTATTCCGCTTTAATAAAACATACCAGATAAAGACCGGACAACTGCGCCGC -ACCTGGCCGATCGCCGCAGTGTTGATCATTGGTTTGCCTTTACTGGCGCAATGGCTTTTTGGCGCAGCACTACAC -TGGGATGTCCCAGCCCTACGAGGCTTTAACTTCCGCGGCGGGATGGTTTTAATTCCTGAACTGGCAGCCTTAACG -CTGGCACTTTCGGTTTATACATCTGCATTTATCGCCGAGATTATCCGCGCTGGGATCCAGGCAGTGCCTTATGGT -CAACATGAAGCGGCTCGGTCACTGGGATTACCCAACCCGGTTACGCTACGCCAGGTCATTATTCCCCAGGCATTG -CGGGTGATTATTCCACCGTTAACCAGCCAGTATCTCAACATCGTCAAAAACTCCTCTCTTGCCGCCGCTATTGGC -TATCCCGATATGGTTTCGCTGTTTGCCGGCACCGTGCTGAATCAGACGGGGCAAGCCATCGAGACGATAGCCATG -ACCATGTCGGTCTATCTGATTATCAGCCTGACTATCTCGCTGCTGATGAATATCTATAACCGCCGCATCGCGATC -GTTGAACGCTAAGGAGTCATGATGACAAAAGTATTGCTGTCTCATCCCCCGCGCCCGGCGAGCCATAACTCAAGC -CGCGCGATGGTGTGGGTGCGAAAAAATCTGTTCTCCAGCTGGAGCAATAGCCTGCTGACTATTGGCTGCATATGG -TTGATGTGGGAACTGATCCCACCGTTGCTGAACTGGGCATTTTTGCAGGCTAACTGGGTTGGCTCAACGCGTGCC -GACTGCACAAAAGCCGGTGCCTGTTGGGTCTTCATCCACGAACGATTTGGTCAGTTTATGTATGGGCTTTACCCA -CACGACCAACGCTGGCGAATTAACCTCGCATTACTGATTGGGCTTGTGTCGATCGCACCAATGTTCTGGAAAATA -CTCCCGCATCGCGGTCGCTATATTGCGGCCTGGGCGGTGATTTACCCACTGATTGTCTGGTGGCTGATGTATGGC -GGTTTTTTTGCTCTTGAGCGGGTTGAAACCCGGCAATGGGGCGGGCTGACGCTAACTTTAATTATTGCATCAGTT -GGGATTGCGGGGGCGCTACCGTGGGGGATCTTACTGGCGTTAGGTCGCCGCTCCCATATGCCGATTGTGCGTATC -TTATCGGTCATTTTTATCGAATTCTGGCGCGGCGTGCCGCTGATTACCGTTCTGTTTATGTCTTCGGTCATGCTG -CCGTTGTTTATGGCAGAAGGCACCAGTATCGACAAATTGATCCGCGCGCTGGTTGGCGTGATCCTGTTTCAGTCA -GCATATGTTGCGGAAGTCGTGCGAGGTGGATTACAGGCGCTGCCTAAAGGGCAATATGAAGCGGCAGAGTCGCTG -GCGTTGGGTTACTGGAAAACTCAGGGGCTGGTTATTCTGCCACAGGCGTTGAAGCTGGTAATTCCTGGGCTGGTA -AATACCATCATCGCACTCTTCAAAGATACCAGCCTGGTGATCATTATCGGGTTGTTCGATCTTTTCAGTAGCGTT -CAGCAGGCAACCGTTGATCCCGCCTGGTTGGGTATGTCGACGGAAGGGTATGTTTTCGCCGCGCTGATCTACTGG -ATCTTCTGTTTCAGCATGTCGCGCTATAGCCAGTATCTGGAAAAACGTTTTAACACCGGGCGTACACCGCATTGA -GGACACTATGAGCCAAATTTTACTGCAACCTGCTAACGCGATGATTACGCTGGAAAACGTCAATAAATGGTATGG -ACAATTCCATGTTTTGAAAAATATAAATTTAACCGTGCAACCGGGAGAACGGATCGTTCTGTGTGGCCCTTCAGG -TTCCGGTAAATCGACAACCATTCGTTGTATTAATCATCTGGAAGAACATCAACAGGGACGGATCGTGGTAGATGG -CATCGAACTTAATGAAGATATCCGCAATATTGAGCGCGTCAGGCAGGAAGTGGGAATGGTCTTTCAGCATTTCAA -TCTCTTCCCTCATCTGACCGTTTTACAGAACTGTACCCTGGCACCGATTTGGGTACGCAAGATGCCTAAGAAAGA -GGCTGAAGATCTGGCGGTGCATTACCTAGAGCGGGTGAGAATTGCCGAACATGCGCATAAGTTTCCCGGACAGAT -TTCAGGTGGTCAGCAGCAACGCGTTGCCATTGCGCGTTCGCTGTGTATGAAGCCGAAAATTATGTTGTTTGATGA -GCCAACGTCGGCGCTCGATCCTGAGATGGTGAAAGAGGTGCTGGATACGATGATTGGGCTGGCGCAGTCGGGTAT -GACAATGTTGTGTGTAACACATGAGATGGGGTTTGCACGAACCGTCGCTGACCGGGTAATTTTTATGGATCGTGG -GGAAATAGTGGAGCAAGCTGCACCTGATGAATTTTTTGCGCATCCTAAATCAGAGCGTACGAGGGCATTTTTATC -GCAGGTAATCCATTAATTGAATGTTAGTTCGAAAAGCAAAAAGGCCATCCTTTCGGATGGCCTTTCGCTTGATTT -GATGTCTGGCAGTTTATGGCGGGCGTCCTGCCCGCCACCCTCCGGGCCGTTGCTTCGCAACGTTCAAATCCGCTC -CCGGCGGATTTGTCCTACTCGGGAGAGTGTTCACCGACAAACAACAGATAAAACAAAAGGCCCAGTCTTCCGACT -GAGCCTTTTGTTTTATTTGATGTCTGGCAGTTCCCTACTCTCGCATGGGGAGACCCCACACTACCATCGGCGCTA -CGGCGTTTCACTTCTGAGTTCGGCATGGGGTCAGGTGGGACCACCGCGCTACTGCCGCCAGACAAATTCTTTTCT -AATCTGCCGAACTTTAACCTAAAAAGTGGTGCTGATACCCAGAGTCGAACTGGGGACCTCACCCTTACCAAGGGT -GCGCTCTACCAACTGAGCCATATCAGCACGCTAAATTTGATGCCTGGCAGTTCCCTACTCTCGCATGGGGAGACC -CCACACTACCATCGGCGCTACGGCGTTTCACTTCTGAGTTCGGCATGGGGTCAGGTGGGACCACCGCGCTACGGC -CGCCAGGCAAATTCTGTTTTATCAGACCGCTTCTGCGTTCTGATTTAATCTGTATCAGGCTGAAAATCTTCTCTC -ATCCGCCAAAACAGCTTCGGCGTTGTAAGGTTAAGCCTCACGGTTCATTAGTACCGGTTAGCTCAACGCATCGCT -GCGCTTACACACCCGGCCTATCAACGTCGTCGTCTTCAACGTTCCTTCAGGACCCTTAAAGGGTCAGGGAGAACT -CATCTCGGGGCAAGTTTCGTGCTTAGATGCTTTCAGCACTTATCTCTTCCGCATTTAGCTACCGGGCAGTGCCAT -TGGCATGACAACCCGAACACCAGTGATGCGTCCACTCCGGTCCTCTCGTACTAGGAGCAGCCCCCCTCAGTTCTC -CAGCGCCCACGGCAGATAGGGACCGAACTGTCTCACGACGTTCTAAACCCAGCTCGCGTACCACTTTAAATGGCG -AACAGCATCACCCTTGGGACCTACTTCAGCCCCAGGATGTGATGAGCCGACATCGAGGTGCCAAACACCGCCGTC -GATATGAACTCTTGGGCGGTATCAGCCTGTTATCCCCGGAGTACCTTTTATCCGTTGAGCGATGGCCCTTCCATT -CAGAACCACCGGATCACTATGACCTGCTTTCGCACCTGCTCGCGCCGTCACGCTCGCAGTCAAGCTGGCTTATGC -CATTGCACTAACCTCCTGATGTCCGACCAGGATTAGCCAACCTTCGTGCTCCTCCGTTACTCTTTAGGAGGAGAC -CGCCCCAGTCAAACTACCCACCAGACACTGTCCGCAACCCGGATTACGGGTCAACGTTAGAACATCAAACATTAA -AGGGTGGTATTTCAAGGTCGGCTCCATGCAGACTGGCGTCCACACTTCTAAGCCTCCCACCTATCCTACACATCA -AGGCTCAATGTTCAGTGTCAAGCTATAGTAAAGGTTCACGGGGTCTTTCCGTCTTGCCGCGGGTACACTGCATCT -TCACAGCGAGTTCAATTTCACTGAGTCTCGGGTGGAGACAGCCTGGCCATCATTACGCCATTCGTGCAGGTCGGA -ACTTACCCGACAAGGAATTTCGCTACCTTAGGACCGTTATAGTTACGGCCGCCGTTTACCGGGGCTTCGATCAAG -AGCTTCGCTTGCGCTAACCCCATCAATTAACCTTCCGGCACCGGGCAGGCGTCACACCGTATACGTCCACTTTCG -TGTTTGCACAGTGCTGTGTTTTTAATAAACAGTTGCAGCCAGCTGGTATCTTCGACTGATTTCAGCTCCACGAGC -AAGTCGCTTCACCTACATATCAGCGTGCCTTCTCCCGAAGTTACGGCACCATTTTGCCTAGTTCCTTCACCCGAG -TTCTCTCAAGCGCCTTGGTATTCTCTACCTGACCACCTGTGTCGGTTTGGGGTACGATTTGATGTTACCTGATGC -TTAGAGGCTTTTCCTGGAAGCAGGGCATTTGTTGCTTCAGCACCGTAGTGCCTCGTCATCACGCCTCAGCCTTGA -TTTTCCGGATTTGCCTGGAAAACCAGCCTACACGCTTAAACCGGGACAACCGTCGCCCGGCCAACATAGCCTTCT -CCGTCCCCCCTTCGCAGTAACACCAAGTACAGGAATATTAACCTGTTTCCCATCGACTACGCCTTTCGGCCTCGC -CTTAGGGGTCGACTCACCCTGCCCCGATTAACGTTGGACAGGAACCCTTGGTCTTCCGGCGAGCGGGCTTTTCAC -CCGCTTTATCGTTACTTATGTCAGCATTCGCACTTCTGATACCTCCAGCATGCCTCACAGCACACCTTCGCAGGC -TTACAGAACGCTCCCCTACCCAACAACGCATAAGCGTCGCTGCCGCAGCTTCGGTGCATGGTTTAGCCCCGTTAC -ATCTTCCGCGCAGGCCGACTCGACCAGTGAGCTATTACGCTTTCTTTAAATGATGGCTGCTTCTAAGCCAACATC -CTGGCTGTCTGGGCCTTCCCACATCGTTTCCCACTTAACCATGACTTTGGGACCTTAGCTGGCGGTCTGGGTTGT -TTCCCTCTTCACGACGGACGTTAGCACCCGCCGTGTGTCTCCCGTGATAACATTCTCCGGTATTCGCAGTTTGCA -TCGGGTTGGTAAGTCGGGATGACCCCCTTGCCGAAACAGTGCTCTACCCCCGGAGATGAATTCACGAGGCGCTAC -CTAAATAGCTTTCGGGGAGAACCAGCTATCTCCCGGTTTGATTGGCCTTTCACCCCCAGCCACAAGTCATCCGCT -AATTTTTCAACATTAGTCGGTTCGGTCCTCCAGTTAGTGTTACCCAACCTTCAACCTGCCCATGGCTAGATCACC -GGGTTTCGGGTCTATACCCTGCAACTTAACGCCCAGTTAAGACTCGGTTTCCCTTCGGCTCCCCTATTCGGTTAA -CCTTGCTACAGAATATAAGTCGCTGACCCATTATACAAAAGGTACGCAGTCACACGCCTAAGCGTGCTCCCACTG -CTTGTACGTACACGGTTTCAGGTTCTTTTTCACTCCCCTCGCCGGGGTTCTTTTCGCCTTTCCCTCACGGTACTG -GTTCACTATCGGTCAGTCAGGAGTATTTAGCCTTGGAGGATGGTCCCCCCATATTCAGACAGGATACCACGTGTC -CCGCCCTACTCATCGAGCTCACAGCATGTGCATTTTTGTGTACGGGGCTGTCACCCTGTATCGCGCGCCTTTCCA -GACGCTTCCACTAACACACACACTGATTCAGGCTCTGGGCTGCTCCCCGTTCGCTCGCCGCTACTGGGGGAATCT -CGGTTGATTTCTTTTCCTCGGGGTACTTAGATGTTTCAGTTCCCCCGGTTCGCCTCATTAACCTATGGATTCAGT -TAATGATAGTGTGTCGAAACACACTGGGTTTCCCCATTCGGAAATCGCCGGTTATAACGGTTCATATCACCTTAC -CGACGCTTATCGCAGATTAGCACGTCCTTCATCGCCTCTGACTGCCAGGGCATCCACCGTGTACGCTTAGTCGCT -TAACCTCACAACCCGAAGATGTTTCACTTCAGAGTTGCGAAAATTTGAGAGACTCACGAACAACTTTCGTTGTTC -AGTGTTTCAATTTTCAGCTTGATCCAGATTTTTAAAGAGCAAAACTTCGCAGTGAACCTTTGCAGGTACACTCTG -AAGTATTTTTTATTTAATCACTACAGAGATGGTGGAGCTATGCGGGATCGAACCGCAGACCTCCTGCGTGCAAAG -CAGGCGCTCTCCCAGCTGAGCTATAGCCCCATAACATGTAGTTAAAACCTCTTCAAATTTGCCGTGCAAATTTGG -TAGGCCTGAGTGGACTTGAACCACCGACCTCACCCTTATCAGGGGTGCGCTCTAACCACCTGAGCTACAAGCCTG -TAGAGGTTTTACTGCTCATTTTCATCAGACAATCTGTGTGAGCACTGCAAAGTACGCTTCTTTAAGGTAAGGAGG -TGATCCAACCGCAGGTTCCCCTACGGTTACCTTGTTACGACTTCACCCCAGTCATGAATCACAAAGTGGTAAGCG -CCCTCCCGAAGGTTAAGCTACCTACTTCTTTTGCAACCCACTCCCATGGTGTGACGGGCGGTGTGTACAAGGCCC -GGGAACGTATTCACCGTGGCATTCTGATCCACGATTACTAGCGATTCCGACTTCATGGAGTCGAGTTGCAGACTC -CAATCCGGACTACGACGCACTTTATGAGGTCCGCTTGCTCTCGCGAGGTCGCTTCTCTTTGTATGCGCCATTGTA -GCACGTGTGTAGCCCTGGTCGTAAGGGCCATGATGACTTGACGTCATCCCCACCTTCCTCCAGTTTATCACTGGC -AGTCTCCTTTGAGTTCCCGGCCGGACCGCTGGCAACAAAGGATAAGGGTTGCGCTCGTTGCGGGACTTAACCCAA -CATTTCACAACACGAGCTGACGACAGCCATGCAGCACCTGTCTCACGGTTCCCGAAGGCACATTCTCATCTCTGA -AAACTTCCGTGGATGTCAAGACCAGGTAAGGTTCTTCGCGTTGCATCGAATTAAACCACATGCTCCACCGCTTGT -GCGGGCCCCCGTCAATTCATTTGAGTTTTAACCTTGCGGCCGTACTCCCCAGGCGGTCGACTTAACGCGTTAGCT -CCGGAAGCCACGCCTCAAGGGCACAACCTCCAAGTCGACATCGTTTACGGCGTGGACTACCAGGGTATCTAATCC -TGTTTGCTCCCCACGCTTTCGCACCTGAGCGTCAGTCTTCGTCCAGGGGGCCGCCTTCGCCACCGGTATTCCTCC -AGATCTCTACGCATTTCACCGCTACACCTGGAATTCTACCCCCCTCTACGAGACTCAAGCTTGCCAGTATCAGAT -GCAGTTCCCAGGTTGAGCCCGGGGATTTCACATCTGACTTAACAAACCGCCTGCGTGCGCTTTACGCCCAGTAAT -TCCGATTAACGCTTGCACCCTCCGTATTACCGCGGCTGCTGGCACGGAGTTAGCCGGTGCTTCTTCTGCGGGTAA -CGTCAATGAGCAAAGGTATTAACTTTACTCCCTTCCTCCCCGCTGAAAGTACTTTACAACCCGAAGGCCTTCTTC -ATACACGCGGCATGGCTGCATCAGGCTTGCGCCCATTGTGCAATATTCCCCACTGCTGCCTCCCGTAGGAGTCTG -GACCGTGTCTCAGTTCCAGTGTGGCTGGTCATCCTCTCAGACCAGCTAGGGATCGTCGCCTTGGTGAGCCGTTAC -CCCACCAACAAGCTAATCCCATCTGGGCACATCCGATGGCAAGAGGCCCGAGGGTCCCCCTCTTTGGTCTTGCGA -CGTTATGCGGTATTAGCTACCGTTTCCAGTAGTTATCCCCCTCCATCAGGCAGTTTCCCAGACATTACTCACCCG -TCCGCCACTCGTCAGCGAAACAGCAAGCTGTTTCCTGTTACCGTTCGACTTGCATGTGTTAGGCCTGCCGCCAGC -GTTCAATCTGAGCCATGATCAAACTCTTCAATTTAAAAGTTTGATGCTCAAAGAATTAAACTTCGTAATGAATTA -CGTGTTCACTCTTGAGACTTGGTATTCATTTTTCGTCTTGCGACGTTAAGAATCCGTATCTTCGAGTGCCCACAC -AGATTGTCTGATAAATTGTTAAAGAGCAGTTGCGACGCGGCTTTCAGCTCACTGTCGCGAGGTGGCGTATATTAC -GCTTTCCTCTTTCAGAGTCAACCCTGAATTTCAGGATTTTTTTCTCTTCGTTGTTCCGACCATCCTGTGAAGTGT -TTCACGTTGTCGTCTCAACGGAGGCGCATTATAGGGATCCCAATTTTTTGCACAAGTATTTTTTTGATCTTTTTT -TCTGTTTGTTGTTTTTTCACCCTTTTTGCTGCAATCGCACACAAAACGGTGCTTTTTTGCATACTAAAAGACTTG -CACAAGGCCAATAATGCCCCCAAAGTCATTAGTAAATCATTTATTGCTGAGGTAAGTATGTCTGATGTTTTACGC -CCATACCGCGATCTTTTTCCACAAATCGGTCAGCGCGTAATGATCGACGATAGCAGTGTCGTGATTGGTGACGTT -CGTCTGGCTGATGATGTGGGGATCTGGCCGCTCGTTGTGATTCGTGGAGATGTACATTATGTACAGATCGGAGCA -CGCACCAATATCCAGGATGGCAGTATGTTGCATGTCACTCATAAATCCTCGTACAACCCAGATGGCAACCCATTA -ACCATTGGCGAAGATGTCACTGTTGGTCACAAGGTGATGCTCCACGGCTGCACCATTGGCAATCGAGTTTTGGTT -GGGATGGGCTCAATTTTACTTGATGGCGCAATAGTAGAAGATGATGTGATGATTGGTGCGGGTAGTCTGGTCCCA -CAAAATAAACGGCTGGAGAGCGGATATCTGTATCTCGGTAGCCCCGTCAAACAGATCCGCCCGTTAAGTGATGAA -GAGAAGGCTGGGTTACGCTATTCCGCGAATAATTACGTGAAATGGAAGGACGAATATCTGGATCAGGGTAACCAG -ACCCAGCCTTGATCATCTTCACTTTGTTCCTGAATTAAGTTTTCCGCTTCTTCTTCCAGGTCCCAGCGATGCTGA -CGAAAACTCGCTAACCACTGTTCTGGCGTATCTCCAGTAAAGCGATACGCCAGACTCTCGCCAGAGATCGCGCAT -GTCAGTTGCATACCATTCACGAGAGCGGGAAAACATACACATTTTTTATTCTCGTCCCACTCTTCCCTGTCCGGA -AACTGGATGGCCTGATTCACGCGGACAATTCCTCCTGCAATTGCTTTATAACTGGTTCTACGTCAGGCAGAACAC -CGTGCCAGAGAAGAAAGGCATGAGCCGCCTGTGCCACCAGCATTCCTAAACCATCAGCATTACGCTTTGAGCCTC -GCTGCTCACACCATGCCAGAAAAGGAGTTTTTCCTTTCTGATAGAACATGTCATAGCAATAAATGCCTGGATGAA -TGAGCGATGACGGGATCGCCGGAATATCACCACTGATGCCACTGGATGTTGCATTAATAATGAGATCAAACTCAT -GACCTTCCAGTTCGTCCATACTCAACGCCTGAATACTGCCAGTGTGCGCAAACAATTTAGCCAACTCTTCCGCGC -GGGATACCGTCCGATTAGTTATTGTCACCGCACAGTCCAGGGAAAGGAGTGGCAGTAGTACGCCGCGAGATGCTC -CACCAGCGCCGATAAGCAGAATACGTAAACCAGGGCGGATAAAAGACAGACGTTCCAGATCGCTTAACAAGCCTA -CACCATCGGTATTGTCACCCAGCAGGCGTCCATCTTCTAACCGCATGAGGGTATTAACAGCACCAGCCAACGCTG -CCCGTTCAGTAAGCTCATCCGCTCTGGCAAAAGCCTCTTCTTTAAAAGGCACCGTCACATTCGCACCTTTACCAC -CAGCACTAAAGAAAGCGTTCAGTGTGTTGATGAAATCATTGATGGGTGCCAACACGCGCCCATAGGGATGTTCAA -TATTCAGTTGCTGAGCAAATTGCTGATGAATGAATGGCGATTTGCTGTGGGCTATCGGATTACCAAAAACAGCAT -AGGTTTCCATTATGTTACCCCTGTCGAAACAGTTCACCCGTCAGGGCATCGCGGATTTCTGAAGGATTTAAACGC -CCCCCCGTTTCACCAGGCACAACCGGGAACGCCGCGCCAAATTGTGCGCGAACTTCGTCTACTGTTCGACAAGGT -GGCAATCCACTCAAGTTGGCACTGGTAGAAACCAGCGGTTTACCATAAGCCTGGCACAAAGCAACCACCAACGGA -TGGTCGGTGACTCGTACAGCAAGCGAATCAAAGCGGCCCGTCAACCAGCGCGGTGTTGTCGCAGGCGCGGGAAAG -ACAAAGGTGACAGGACCTGGCCAGCGGGAAAAAATGGTTTCACGCTGCACGTCAGTCAACATGGTGTCATCAATA -TAGGGTTTAAGCTGCTCGTAATTTGCTGCGATTAAAATCAGCCCCTTATCAACCGGACGCTGTTTTAACTCCAAC -AGTCGCATCACTGCTGTTTCGCTATCAGGATCGCACCCAACACCGAAAACGGCTTCCGTTGGATAGGCGATGACA -CGTTCTTCATTGAGAACATCTATCGCAGCTGCGATAGCGTCTCTTTGCAGGTTATTATTCACGTTATTATTCCGC -CGAAACCGGCTTTCCACATTGTTTACTGGCACAAAAGTGTTTTACACCCTGCGCGGTTTTCTTTTCGATGAGTAG -CGGATAATGACACTCAGGGCATTCTCCAGCTATGGGTTTGAAGTTAATGGCAAATTGACACTCCGGGTAGCGATC -ACAAGAGTGAAATGTTTTGCCATAACGGGAGCGGCGCTGGACCAGATGGCCCGTCCGACATTGGGGGCATGTAAT -TGCTGTTTCGTCCGGTTTATCGATAAGTTCGGTATGTTCGCATTCAGGGTAGTTAATGCAACCAATAAACATACC -AAAGCGTCCCTGGCGTAATACCAGATTTGCGCCACATGCAGGGCAAACCTGCCCCTCCAGAACTTTGACGATATG -TCCATCCGCTGAAGATTTCAGAGGACGGACGTAGTCACACGCCGGATACTGTGAGCATCCAAGAAACGGACCGTG -TTTCCCGGATCGAATAACCAGTTCAGCCCCGCACTTTGGGCAGGACTCATTATTACGCACCGTGAACAGTGCTGA -TTTCGCCATAACAACTTATGCTGAATTAAAGAAATGATTAATGCAGCATACCTTCATTCACTTCAAAGAGTAATT -CTTCCATTTGCTGGTACGCATTTTCGCAGCCCGGAATATTGAACAACACCATCAGGATCACCCATTTCAGATCAT -CCAGTTCGAACTCTGCGTTATCCAGCGCGAGCACTCGCTCTATCACCATTTCACGAGTTTCAAGGTTGAGCACCT -GAATCTGCTCAAGGAAAAGCAGAAACCCACGGCAGCTGGCATCCAGTCGTTCACACTCTTCCGGTGTATAAATAC -GCATGGAGAGAGGATCCGAGGCCAGTTGCATCGGTTCTGCCAACCCTTCCTGATAATCAGCAAGTTTTTCCAGCC -ATAGCAGGGCATTGTAGATATCTTCTCGCTCAAAACCTGCGTCGGTAAGATCCTGTTCAAGTTTGTCTTGATCCA -CACGCAACTCAGCTTCTGTGTGAATATAGGTTTCAAACAAATACATTAGTACGTCGAACATGGCATGCCCTCCTC -AATCGGACATAGCCGCCGGGTACAGCTGCGATCCATCCTGCTAACTCCAGTTCGAGTAGTTGAGTAACTACCTCT -GGCACAGGTTGGCCGGCACGTTCAGCGACGACGTCAACAGGTGTTACCTCATCTCCTACGTTAGCCAGGAGCTCA -GGAAATGGCAATGCCACGTCTTGCTGATCTGGTGAATAAAATGAATTTTCAGGGGCGTCTGGCAACCAGTGCAAT -CCAAATTGCAAGTTTTCCAGAATTTCTTCCGGTTCCGTCACAAGAATCGCACCTTGTTTTATTAACCAGTGAGGC -CCTTCGCTTCCCGGATTCCCTATTGGACCTGGCAAGGCAAAAACTTCTCGCCCCTGCTCAAGCGCACAACGTGCT -GTCACCAGCGAACCACTACGCAAAGCCGCTTCCACCACCAGTACACCTTTACTTAGACCACTGATAATGCGATTT -CTTCGTGGGAAATTGTAAGCAAGGGGTGGAACATCGAGGGGAAATTCCGAGACGAGAGCGCCCCCCTGTTCAAGC -AGACTGGCAGCCAGTCGGGCATGACGGCGGGGATGAATGGTATTAAGTCCATTCCCCAATACAGCAATGCTGACG -CCATTTACCTGTAAGGCTGCTTTATGCGCTACACCATCGATTCCACGCGCCAGTCCACTCGTAATTGTCACTCCA -CGCGTCGCCAGAGTTTCGCAAAATAATCGTCCCCATCGCTCGCCATACCATGAATGCGCCCGACTCCCCACTACG -GCAAGCTGAAATGAATGCAGCGCGTGCAGTTCTCCTTCAACAAACAGTGCGCCGGGGTAATCTGTCGTCGCCAGA -AGTTGAGGAGGATAAAATTCGCTGTCCGCAGGAATTAAATGATGGTTGGGTTGCTCCAACCAACAAAGTGAGCTT -TCGATACTCTTTCGTGGAAATGAAAGAAAGCGTTGTGCCTGCCGCAATGTAAGCCCTGTTTGCTGCAATACAACC -GCATCAATATGCGACTGTTTTGCCACCCAGTGAGCGATACGGACCATATCATCGCCGTACAAGCTGCTGATACTC -ATTAAACGCAGCCAAATTTCTGTATCGACCATCCTTATCTCCCTGCCATAAGCAGCCTTAGCAATCTTTGCGATT -GGTCAGTGATGCTGTCAATCAGAGGGGGATTTGTCTAGAATAGAAGAAATAATCTTTCTAACTCCTGAACACATC -TCTGGAGATTTATGTCAGTTTTGCAAGTGTTACATATTCCGGACGAGCGGCTTCGCAAAGTTGCTAAACCGGTAG -AAGAAGTGAATGCAGAAATTCAGCGTATCGTCGATGATATGTTCGAGACGATGTACGCAGAAGAAGGTATTGGCC -TGGCGGCAACCCAGGTTGATATCCATCAACGTATCATTGTTATTGATGTTTCGGAAAACCGTGACGAACGGCTAG -TGTTAATCAATCCAGAGCTTTTAGAAAAAAGCGGCGAAACAGGCATTGAAGAAGGTTGCCTGTCGATCCCTGAAC -AACGTGCTTTAGTGCCGCGCGCAGAGAAAGTTAAAATTCGCGCCCTTGACCGCGACGGTAAACCATTTGAACTGG -AAGCAGACGGTCTGTTAGCCATCTGTATTCAGCATGAGATGGATCACCTGGTCGGCAAACTGTTTATGGATTATC -TGTCACCGCTGAAACAACAACGTATTCGTCAGAAAGTTGAAAAACTGGATCGTCTGAAAGCCCGGGCTTAAGGAT -AAGAACTAACGTGTCAGAATCACTACGTATTATTTTTGCGGGTACACCTGACTTTGCAGCGCGTCATCTCGACGC -GCTGTTGTCTTCTGGTCATAACGTCGTTGGCGTGTTCACCCAGCCAGACCGACCGGCAGGACGCGGTAAAAAACT -GATGCCCAGCCCGGTTAAAGTTCTGGCTGAGGAAAAAGGTCTGCCCGTTTTTCAACCTGTTTCCCTGCGTCCACA -AGAAAACCAGCAACTGGTCGCCGAACTGCAGGCTGATGTTATGGTCGTCGTCGCCTATGGTTTAATTCTGCCGAA -AGCAGTGCTGGAGATGCCGCGTCTTGGCTGTATCAACGTTCATGGTTCACTGCTGCCACGCTGGCGCGGTGCTGC -ACCAATCCAACGCTCACTATGGGCGGGTGATGCAGAAACTGGTGTGACCATTATGCAAATGGATGTCGGTTTAGA -CACCGGTGATATGCTCTATAAGCTCTCCTGCCCGATTACTGCAGAAGATACCAGTGGTACGCTGTACGACAAGCT -GGCAGAGCTTGGCCCACAAGGGCTTATCACCACGTTGAAACAACTGGCAGACGGCACGGCGAAACCAGAAGTTCA -GGACGAAACTCTTGTCACTTACGCCGAGAAGTTGAGTAAAGAAGAAGCGCGTATTGACTGGTCACTTTCGGCAGC -ACAGCTTGAACGCTGCATTCGCGCTTTCAATCCATGGCCAATGAGCTGGCTGGAAATTGAAGGACAGCCGGTTAA -AGTCTGGAAAGCATCGGTCATTGATACGGCAACCAACGCTGCACCAGGAACGATCCTTGAAGCCAACAAACAAGG -CATTCAGGTTGCGACTGGTGATGGCATCCTGAACCTGCTCTCGTTACAACCTGCGGGTAAGAAAGCGATGAGCGC -GCAAGACCTCCTGAACTCTCGTCGGGAATGGTTTGTTCCGGGCAACCGTCTGGTCTGATAGTCCACTCTTCTAAG -CCCGGTCTTGCCGGGCGTTTTTATACTTATGAAAAAACAACGTAATTTACGTAGCATGGCGGCCCAGGCCGTTGA -ACAAGTCGTCGAGCAAGGGCAATCATTAAGCAACATTCTGCCACCGCTCCAGCAAAAAGTTTCCGATAAAGACAA -AGCACTTCTTCAAGAGTTGTGCTTTGGCGTACTGCGTACGCTTTCGCAGTTAGACTGGCTGATTAATAAGTTAAT -GGCCCGTCCGATGACCGGCAAACAGCGGACCGTGCATTACCTGATTATGGTTGGTTTGTATCAACTGCTTTATAC -CCGCATTCCACCTCATGCTGCGCTGGCTGAAACGGTTGAAGGCGCTATCGCAATTAAGCGTCCGCAACTTAAAGG -GTTGATAAACGGTGTATTACGCCAGTTCCAGCGTCAGCAAGAAGAGTTATTAGCCGAGTTTAATGCCAGTGATGC -ACGTTATCTGCATCCTTCCTGGTTGCTGAAGCGTCTGCAAAAAGCGTATCCAGAGCAGTGGCAATCCATCGTCGA -AGCCAATAACCAGCGTCCGCCAATGTGGCTGCGTATTAATCGTACGCATCATTCCCGCGACAGCTGGCTTGCATT -GCTGGATGAAGCAGGAATGAAAGGTTTCCCGCATGCGGATTACCCTGATGCTGTACGTCTGGAAACACCTGCACC -TGTTCATGCGCTACCTGGTTTTGAAGACGGATGGGTTACCGTTCAGGATGCATCAGCACAAGGTTGCATGACCTG -GCTTGCGCCACAAAACGGTGAACACATTTTGGATCTTTGTGCCGCCCCCGGCGGTAAAACAACGCATATCCTTGA -GGTGGCACCAGAAGCGCAGGTTGTTGCGGTTGATATCGACGAACAGCGCCTCTCTCGGGTTTACGACAATTTAAA -ACGCCTTGGTATGAAGGCGACCGTGAAACAAGGTGATGGCCGTTACCCTTCTCAATGGTGTGGCGAGCAACAGTT -TGATCGCATTTTATTAGATGCGCCTTGTTCAGCAACCGGTGTGATTCGTCGCCATCCAGATATTAAATGGTTACG -TCGCGATCGCGATATCCCGGAACTCGCGCAATTGCAGTCTGAAATTCTCGACGCCATTTGGCCGCATTTAAAAAC -CGGTGGAACTCTGGTCTATGCCACCTGTTCGGTGTTACCGGAAGAGAATAGCCTGCAGATTAAAGCCTTTTTGCA -ACGTACCGCTGATGCCGAACTTTGCGAAACAGGAACACCAGAGCAACCGGGTAAACAAAATCTACCTGGTGCCGA -AGAGGGCGACGGCTTCTTTTACGCTAAGCTAATCAAAAAGTGATGAGATAACGGGTCGCGACTGATGAAAATTAT -CATTCTGGGTGCCGGCCAGGTTGGCGGCACACTGGCGGAAAACCTGGTTGGCGAGAACAACGATATTACTGTTGT -CGATACCAACGGTGAGCGTCTGCGGACCTTACAGGATAAATTTGACCTGCGGGTCGTGCAGGGGCATGGCTCTCA -TCCACGCGTATTGCGGGAGGCAGGTGCCGACGACGCCGATATGCTGGTTGCTGTAACCAGTTCAGATGAAACCAA -TATGGTTGCCTGCCAGGTAGCCTACTCACTTTTCAACACCCCTAATCGCATCGCTCGTATCCGCTCACCAGACTA -CGTGCGCGATGCCGATAAGCTATTTCATTCAGATGCTGTGCCGATTGATCATCTGATCGCACCAGAGCAGTTGGT -TATCGATAATATTTACCGACTGATTGAGTATCCCGGCGCATTGCAGGTGGTGAACTTCGCTGAGGGTAAAGTCAG -CCTGGCTGTGGTTAAAGCCTATTATGGCGGCCCGCTGATTGGTAATGCACTTTCGACCATGCGCGAACATATGCC -ACATATCGATACTCGTGTGGCAGCAATTTTCCGCCACGATCGCCCCATTCGTCCGCAAGGTTCGACCATTGTTGA -AGCTGGTGATGAAGTGTTCTTTATTGCCGCTTCACAGCATATCCGCGCGGTGATGAGTGAATTACAGCGACTGGA -AAAACCGTATAAGCGGATCATGCTGGTTGGTGGCGGTAATATCGGTGCAGGGCTGGCGCGTCGTCTGGAAAAAGA -TTACAGCGTTAAACTCATCGAACGTAATCAGCAGCGCGCTGCCGAACTGGCGGAAAAGTTACAGAATACGATCGT -CTTTTTTGGTGATGCGTCGGATCAAGAACTACTGGCCGAAGAACATATCGATCAAGTTGATCTGTTTATTGCCGT -CACCAACGATGACGAGGCCAATATCATGTCCGCCATGCTTGCCAAACGTATGGGTGCGAAAAAGGTGATGGTATT -GATCCAGCGTCGCGCTTATGTGGATCTGGTTCAGGGGAGCGTTATCGATATTGCGATTTCACCACAACAAGCAAC -TATTTCTGCGTTGCTTAGCCATGTGCGAAAAGCAGATATTGTTGGTGTTTCCTCATTGCGCCGCGGCGTAGCAGA -AGCTATTGAAGCCGTTGCTCACGGTGATGAAAGCACCTCACGCGTTGTCGGCAGAGTCATTGACGAAATCAAGCT -ACCGCCAGGAACGATTATTGGAGCGGTGGTACGTGGAAACGACGTGATGATTGCCAATGACAATCTGCGCATTGA -GCAAGGCGATCACGTAATTATGTTCCTCACAGATAAAAAGTTTATTACCGACGTCGAAAGACTCTTCCAGCCAAG -CCCTTTCTTCTTGTAATTAATAAGGCGTCTAATGACGCCTTATTATTTCCCTTTGATTATCAAGGATTAATTAAA -TTCATTCCTGGCAGGAAAATGGCTTAACATTTGTTAGACTTATGGTTGTCGGCTTCATAGGGAGAATAACATGAG -CATTATTAAAGAATTTCGCGAATTTGCGATGCGCGGGAACGTGGTGGATTTGGCGGTGGGTGTCATTATCGGTGC -GGCATTCGGGAAGATTGTCTCTTCACTGGTTGCCGATATCATCATGCCTCCTCTGGGCTTATTAATTGGCGGGAT -CGATTTTAAACAGTTTGCTGTCACGCTACGCGATGCGCAGGGGGATATCCCTGCTGTTGTGATGCATTACGGTGT -CTTCATTCAAAACGTCTTTGATTTTCTGATTGTGGCCTTTGCCATCTTTATGGCGATTAAGCTAATCAACAAACT -GAATCGGAAAAAAGAAGAACCAGCAGCCGCACCTGCACCAACTAAAGAAGAAGTATTACTGACAGAAATTCGTGA -TTTGCTGAAAGAGCAGAATAACCGCTCTTAACAAGCGCCTGAAAGCAGAAGACCAGTGGTAAAAAAGTGATTTAC -TTTCTTGCCACTGGCCTCCCAGTTCCCCCGATTGCCATGTTTTCCTTTTCGCATGTAACTGCCTTTCCCCTTCTT -ATTTTTCTCTACGCGCTGTCGGAATAAGGGATCATGTAGTAATGCTTCTATCGCATTATCCTTTATCTGCCCTTT -AGTATGCTGATATCGACTCATAAAAACTCCAGTTGGTTATTTAACGGCGCGAGTGTAATCCTGCCAGTGCAAAAA -ATCAACAACCACTCTTAACGCCACTCGCCCCTTGTTCAAGAGCTTCAAGAATCGAACAATAAACACTGCTATGAG -CAGTCCCACAACAGGCATCGTTAAGGCGTTGCAAGGAACGCTGCATACTCTGCAACTCGGCTATCCGTGCTTCGA -CTTCCTGCAATCTTTCCTGCACAATGCCTTTTGACTCCTGACAGGTATGGTGTTCAGGATCGATGCGGATCGACA -GCAACTCGCGGATCGACTCCAGACTGAAACCTAGTTGTCTGGCATGGCGGATAAATTTCAATCGCTGGAGATCGC -TTTCGGTATATAGGCGAAACCCACCTTCAGTACGCACTTCATGCTCCATCATCTGCTGTTTTTCGTAATAACGAA -TCGTGTCGGGTGTTACTTCCGCCATTTTTGCCAGCTCACCAATGCGATACATACATACTCCACTAGTTATCGTTG -ATTTTGTCCAACAACTTGTCAGCATAATCGCCGCGTAAAAAATCGGTACTCAATCCAGCTTGTCGCAGCTTCAAT -TCCAGTAATGACAATCGACGGCTAACCTCTTGATATTGCGGATCATCGTGACGGATACCTTTGAGAATATCCAGA -AGCTGAATTGCTTCTCTCCGTTGCTCAAGTTCTGGCGGTAAGCAACCGGCATTCTTCAGCAAGCGATACCCCGCA -CGTAATTCCGGTGGCACGTGAGAATCATCATCCAGTATCAATGGTTCGCCGCTACCTGCCAGGTTATCAAACTCA -CCTTTCGCTTGCGCTTCTGCTATATGGCGCTCTGCCCACTGGTCAAGTAACCACATAAATACTCCAGGGGATGAA -CAAAAAGAGTACAGCTATTGTAGATAAGTGGGGATACTACGGGTATAAAAAAACCCGCCGGGGCGGGTTTTTTTA -CGTTGCTTCAGATTACTCTGCAGCAGCTTCTGCTTTCTCTGAACGATCAACCAGCTCGATGTAAGCCATCGGCGC -GTTGTCGCCTGCACGGAAGCCACACTTCAGAATACGAGTGTAACCACCGGCACGGCTCGCGAAACGCGGGCCCAG -TTCGTTAAACAGTTTTGCCACGATCTCGTTATCACGAGTACGGGCGAATGCCAGACGACGATTAGCAACGCTATC -AGTCTTGGCAAGAGTAATCAGCGGCTCAACTACGCGGCGCAGCTCTTTCGCTTTAGGCAGAGTCGTCTTGATGAT -TTCATGACGAACCAGTGAACCTGCCATATTGCGGAACATAGCCTGGCGATGGCTGCTGTTGCGGTTCAGTTGACG -ACCACTCTTACGATGGCGCATGACCTTATCCTTCTCAGTAAAACCTTAACCTGTGATCCGGTTACTCGTCAGCGA -TGCTTGCCGGTGGCCAGTTTTCCAGGCGCATGCCCAGAGACAGTCCACGGGAAGCCAGCACGTCTTTAATCTCAG -TAAGAGATTTTTTACCAAGGTTAGGCGTTTTAAGGAGCTCAACCTCGGTACGCTGTACCAGATCACCGATATAGT -GGATAGCTTCTGCTTTAAGGCAGTTAGCAGAGCGGACAGTCAATTCCAGATCGTCAACAGGGCGCAGCAGGATCG -GATCGAACTCTGGTTTCTCTTCTTTCACTTCAGGCTGACGTACATCACGTAAGTCAACGAAAGCTTCCAGTTGTT -CAGCCAGAATGGTTGCCGCACGACGAATCGCCTCTTCAGGATCGATTGTGCCGTTGGTTTCCATTTCGATGACCA -GCTTGTCCAGGTCGGTACGCTGTTCTACACGCGCTGCTTCAACATTGTAGGCAATACGCTCCACAGGGCTGTAGC -ATGCGTCGACCAGCAGACGGCCGATTGGGCGCTCATCTTCTTCCGAATGAATTCGGGTAGAAGCCGGCACATAAC -CACGACCGCGCTGAACTTTGATACGCATGCTAATAGACGCGTTCTCATCGGTCAGGTGGCAGATCACGTGCTGCG -GCTTGACGATTTCGACATCACCGTCGTGGGTGATATCGGCTGCAGTCACAGGGCCAATGCCAGATTTATTCAAGG -TAAGAATAACTTCATCTTTGCCCTGAACTCTCACCGCCAGCCCTTTCAGGTTGAGCAGGATTTCCAGGATATCTT -CCTGAACGCCTTCTTTGGTGCTGTACTCATGTAGTACACCATCAATCTCAACCTCGGTCACCGCGCAACCCGGCA -TCGATGAGAGCAGAATACGGCGCAGTGCGTTACCCAGAGTATGGCCAAAGCCACGCTCTAAAGGCTCAAGGGTCA -CCTTGGCGTGCGTCGAACTCACTTGCTCGATATCAACCAGGCGCGGTTTTAGAAACTCTGTCACAGAACCCTGCA -TTGTGTCCTCTCTTTGGTACTAAGCTTTACTTGGAGTAAAGCTCGACGATCAGGTGTTCGTTAATGTCCGCAGAC -AGATCAGAACGCTCCGGCTTACGCTTAAACGTACCTTCCATCTTGCCAGCATCAACTTCCAGCCAGGTTGGCTTT -TCACGCTGCTCAGCCAGCTCCAGAGCGGCTTTCACGCGAGACTGCTTCTTCGCTTTCTCACGAATGCTTACAACG -TCATTCGGACTAACCTGATAAGAAGCGATGTTAACAACACGACCGTTTACCATAATTGCTTTATGGCTAACCAGC -TGACGTGCTTCTGCACGAGTGGCACCGAAGCCCATACGGTATACAACGTTGTCCAGACGACCTTCCAGCAGAGCC -AACAGGTTTTCACCGGTGTTGCCTTTCAGACGTGCTGCTTCTTTGTAGTAGTTACGGAACTGACGCTCCAGCACA -CCATAGATACGGCGAACTTTTTGCTTTTCACGCAACTGCACACCATAGTCAGACAGACGCGGTTTACGCGCACCG -TGCTGGCCAGGAGCTTGTTCAATTTTACACTTGGTATCGATCGCGCGAACGCCAGACTTAAGGAATAAGTCGGTG -CCCTCACGACGGCTCAGCTTGAGCTTAGGACCCAAATATCTTGCCATTTTCTTTCTCCAACAAACCTGGAAAACG -AGGCGTTATACGCGACGTTTTTTCGGCGGACGACAACCGTTATGAGGGATCGGAGTCACATCAGTAATGTTAGTG -ATGCGGAAACCTGCGGCGTTCAGAGCACGAATAGTAGATTCGCGGCCTGGACCCGGACCTTTAACCATAACTTCC -AGATTCTTGATGCCGTATTCTTTCACGGCGTCAGCGCAACGCTCTGCTGCAACCTGAGCTGCAAACGGAGTGGAT -TTGCGAGAACCACGGAAACCGGAACCACCGGCTGTTGCCCAACCCAACGCGTTACCCTGACGATCAGTGATAGTC -ACGATGGTGTTGTTGAAAGAAGCATGGATATGAGCCACGCCGTCAGAGACTTGTTTTCTTACACGTTTACGTGCA -CGAATTGGTGCCTTTGCCATTATTCAATCACCCCGATTATTTCTTGATCGGTTTGCGCGGACCCTTACGGGTACG -TGCGTTGGTCTTGGTACGCTGACCGCGAACCGGGAGACCACGACGATGACGCAAACCGCGATAGCAACCAAGATC -CATCAGGCGCTTGATGCTCATGCTGATTTCACGGCGCAGATCACCTTCAACGACAAATTTGGCAACTTCGTCACG -CAGCGTGTCGATTTGTCCTTCAGACAGCTCACTGATCTTAACATCTTCAGCGATACCCGCTGCAGCCAGGATGGC -TTTAGAACGGGTCTTGCCGACGCCATAAATCGAAGTTAATGCGATTACGGCATGCTTATGATCAGGAATGTTAAT -GCCTGCTATACGGGCCACTATGCACTCCTACTATTTAATATGTACGTTCCATGCTGAAAAGCCCGTTTTCAGGAT -ACTCAAATGGAAACGCACAGACATACAAAAGATTGGCTGGCTAATCTAGCCAGCTCAACCCAACTTTGCAAGAAA -AATATGCGAAAAAATCAGCCTTGGCGCTGTTTATGCTTCGGCTCGGCACTGCAAATCACACGGATGACACCATCA -CGCTTAACGATTTTGCAGTTACGGCATAATTTCTTGACGGAAGCACGAACTTTCATTTTTACTCTCCGTAACTTC -TCGGGCGACCAATTATCGGCCGTAGCCTTTCAGGTTCGCCTTCTTCAATGCAGACTCATACTGACTGGACATCAT -CAGAGTTTGCACTTGAGCCATAAAGTCCATAATCACGACAACAACGATAAGCAGTGAGGTCCCACCGAAGTAGAA -CGGTACTTTCATTGCATCACGCATGAACTCCGGGATCAGGCAGATAAAGGTAATATACAGCGCACCAACCAGGGT -CAGGCGGGTCATTACTTTATCGATATACTTCGCCGTTTGCTCTCCCGGACGAATTCCTGGTACAAATGCACCGGA -CTTCTTCAGGTTATCTGCTGTTTCACGCGGGTTGAAAACCAACGCCGTGTAGAAGAAACAGAAGAAGATGATTGC -AGACGCATAGAGTAACACATAAAGCGGTTGCCCAGGCTGCAAATACAGCGAAATTGTTGTCAGCCAGTTCCAACC -AGTACCGCCCCCGAACCATGACGCGATGGTCGCCGGGAACAGAATAATACTGGAAGCGAAGATTGCCGGGATTAC -CCCCGCCATATTCACTTTCAGCGGTAAATGTGTGCTCTGTGCAGCATAGACACGACGACCTTGCTGACGTTTCGC -GTAGTTTACCACAATGCGGCGTTGACCACGCTCAACAAATACAACAAAGAACGTCACTGCAAATACTAATACTGC -AACCAACAGCAACACGAGGAAGTGCAGGTCGCCTTGACGCGCTTGCTCGATAGTATGGGCAATGGCTGGCGGGAG -TCCCGCGACAATACCGGCGAAGATAATGATTGAAATACCGTTGCCGATACCTCGTTCAGTAATCTGTTCGCCCAA -CCACATCAGGAACATGGTTCCTGTGACCAGACTTACAACAGCGGTGAAGTAGAATGCAAAGCCCGGGTTAATCAC -CAGGCCTTGCATACCAGGCATATTCGGCAGACCGGTAGCAATACCGATCGACTGGAATATTGCCAGCACCAGAGT -ACCGTAGCGGGTGTACTGGCTGATCTTACGACGACCAGACTCCCCTTCTTTCTTAATTTCTGCCAACGTTGGGTG -AACCACCGTCAGCAGCTGGATAATGATCGACGCCGAAATATACGGCATGATCCCCAGAGCAAAGATAGAAGCACG -GCTGAGAGCACCACCAGAGAACATGTTAAACATCTCAATGATGGTGCCTCGCTGTTGCTCAAGCAGTTTGGCAAG -TACAGCGGCATCAATACCAGGGATCGGAATAAAAGAGCCAATACGGAACACAATCAGCGCACCGATAACAAACAG -CAGTCTGCGTTTCAGCTCGCCTAAGCCACCTTTGGCACTTTGAAAATCTAATCCCGGTTGTTTAGCCATCTGCTA -CTTATTCCTCGATTTTACCGCCAGCAGCTTCGATAGCAGCACGAGCGCCTTTAGTAACACGCAGGCCACGAACAG -TTACCGGAGTCGTTACTTCGCCAGCCAGGATCACTTTCGCGAACTCGATCTGGATACCGATAATGTTAGCCGCTT -TCAGCGTGTTCAGGTCTACTACACCGCCTTCTACTTTAGCCAGGTCAGACAGACGAATTTCGGCTGTAATCGCTG -CTTTACGAGAAGTGAAGCCGAATTTCGGCAGACGACGGTACAGAGGCATCTGACCACCCTCGAAACCGCGACGTA -CGCCACCGCCAGAACGAGACTTCTGACCTTTGTGACCACGACCACCGGTTTTACCGAGGCCAGAACCGATACCAC -GACCCAGGCGTTTACCCGCCTTTTTGGAGCCTTCGGCCGGAGACAGAGTATTTAAACGCATCTCTTACTCCTCAA -CTTTAACCATGAAGGAAACCGCGTTGATCATACCGCGAATAGCAGGAGTATCCTCGCGCTCTACGGTGTGACCAA -TACGACGCAGACCCAGGCCAAGCAGCGTTGCCTTGTGTTTCGGCAGACGACCGATTGCACTGCGGGTTTGAGTAA -TTTTAATAGTCTTTGCCATGGTTTATTTCCCCAGAATTTCTTCAACGGATTTACCACGCTTGGCAGCGACCATTT -CTGGAGAATTCATATTTTCCAGGCCATCAATAGTTGCACGAACCACGTTGATCGGGTTGGTGGAACCATAGGCTT -TAGCCAGAACGTTATGAACCCCAGCGACTTCCAGAACGGCGCGCATTGCACCACCGGCGATGATACCGGTACCTT -CGGAAGCCGGCTGCATGAATACGCGAGAACCCGTGTGAACACCTTTAACAGGGTGTTGCAGAGTGCCGTTATTCA -GCGCGACGTTAATCATATTGCGACGGGCTTTTTCCATCGCTTTCTGGATCGCTGCTGGAACTTCACGCGCTTTAC -CGTAACCAAAACCAACGCGACCGTTACCATCGCCAACTACAGTCAGAGCTGTGAAGGAGAAAATACGACCACCTT -TAACGGTTTTAGATACGCGGTTTACCGCGATCAGCTTTTCCTGCAGTTCGCCAGCTTGTTTTTCGATGTGAGCCA -TCTTACACCTCTACCTTAGAACTGAAGGCCAGCTTCACGGGCAGCATCTGCCAGTGCCTGGACACGACCATGATA -TTGGAACCCGGAACGGTCAAAGGATACATCTTTGATGCCTTTTTCCAGAGCGCGTTCAGCGACAGCTTTACCCAC -AGCTGCAGCCGCGTCTTTGTTACCGGTGTACTTCAGTTGTTCAGCGATAGCTTTTTCTACAGTAGAAGCAGCTAC -CAGAACTTCAGAACCGTTCGGTGCAATTACCTGTGCGTAAATGTGACGCGGGGTACGATGTACCACCAGGCGAGT -TGCGCCCAGCTCCTGGAGCTTGCGGCGTGCGCGGGTCGCACGACGGATACGAGCAGATTTCTTATCCATAGTGTT -ACCTTACTTCTTCTTAGCCTCTTTGGTACGCACGACTTCGTCGGCGTAACGAACACCCTTGCCTTTATAAGGCTC -AGGACGACGGTAGGCGCGCAGATCCGCTGCAACCTGGCCGATCACCTGCTTATCAGCGCCTTTCAGCACGATTTC -AGTCTGAGTCGGACATTCAGCAGTGATACCCGCAGGCAGCTGATGGTCAACAGGATGAGAGAAACCCAGAGACAG -GTTAATCACATTGCCTTTAACCGCTGCACGGTAACCTACACCAACCAGCTGCAGCTTCTTAGTGAAGCCTTCGGT -AACACCGATAACCATTGAGTTCAGCAGGGCACGCGCGGTACCAGCCTGTGCCCAACCGTCTGCGTAACCATCACG -CGGACCGAAGGTCAGGGTATTATCTGCATGTTTAACTTCAACAGCATCGTTGAGAGTACGAGTCAGCTCGCCGTT -TTTACCTTTGATCGTAATAACCTGACCGTTGATTTTTACGTCAACGCCGGCAGGAACAACGACCGGTGCTTTAGC -AACACGAGACATTTTTTCCTCCGATTAGGCTACGTAGCAGATAATTTCGCCACCAAGACCAGCCTGGCGCGCTGC -ACGATCAGTCATAACACCTTTAGAGGTAGAAACAACTGCGATACCCAGACCCGCCATAACTTTCGGCAGCTCATC -TTTACGTTTATAGATGCGCAGACCTGGGCGGCTGACACGCTGAATGCTTTCTACAACAGCTTTGCCCTGGAAATA -CTTCAGAGTAAGTTCCAGTTCAGGCTTGGTGTCGCCTTCAACTTTAAAATCTTCAATAAAACCTTCTTCCTTCAG -CACGTTGGCGATTGCCACTTTCAGCTTGGAGGAAGGCATGGTGACCGCAGCTTTGTTCGCGGCCTGACCGTTACG -GATACGGGTCAGCATATCCGCGATCGGATCTTGCATGCTCATCTGTCTTTACTCCCGTGATTCAATTGGTGACAA -TTACCAGCTAGCCTTTTTCAGACCCGGGATTTCACCGCGCATAGCGGCTTCACGGACCTTAATACGGCTCAACCC -GAACTTCCGCAGGAAACCATGCGGACGACCTGTTTGACGGCAGCGGTTACGCTGACGAGACGGGCTGGAATCACG -CGGCAGAGTCTGCAGCTTGAGAACAGCGTTCCAACGATCTTCGTCGGAAGCGTTCACATCAGAGATGATCGCTTT -CAGTTCAGCGCGTTTCGCGAAGTATTTATCAGCTAAAGCTACGCGTTTTACTTCGCGTGCTTTCATTGATTGCTT -AGCCATTTAGTAACCCTACCTTACTTGCGGAACGGGAAGTCAAAGGCAGCCAGCAGAGCGCGGCCTTCTTCGTCA -GATTTCGCAGTAGTGGTAATGGTAATATCCAAACCACGAACGCGGTCGACTTTATCGTAGTCGATTTCTGGGAAG -ATGATCTGCTCACGGACACCCATGCTGTAGTTACCACGACCGTCGAAAGACTTAGCGGACAGGCCACGGAAGTCA -CGGATACGAGGTACAGCAATAGTGATCAGGCGCTCAAAGAACTCCCACATGCGTTCGCCACGCAGAGTTACTTTA -CAGCCGATCGGATAGCCCTGACGGATTTTGAAGCCTGCAACAGATTTGCGTGCTTTGGTGATCAGCGGTTTTTGA -CCGGAGATTGCTGCCAGGTCTGCTGCTGCGTTATCCAGCAGTTTTTTGTCAGCGATCGCTTCACCAACACCCATG -TTCAGGGTGATCTTCTCGACCCGAGGGACTTGCATGACAGAATTGTAGTTAAACTCAGTCATGAGTTTTTTAACT -ACTTCGTCTTTGTAGTAATCATGCAGTTTCGCCATCGTACTACTCCAAATTACTTGATAGTTTCGCTGTTAGACT -TGAAGAAACGGACTTTTTTACCGTCTTCGAATCTAAAGCCTACACGGTCAGCCTTGCCGGTTGCCGCATTGAAGA -TTGCTACGTTGGAAACCTGAATAGCGGCTTCTTTTTCAACGATGCCACCCGGTTGGTTCAGGGCCGGAACCGGCT -TCTGATGTTTCTTAACCAGGTTGATACCTTCAACAATGACCTTGCCGGAAGACAGGACATTCTTAACTTTACCGC -GTTTACCTTTATCTTTACCGGTTAACACGATAACTTCGTCATCACGACGGATTTTCGCTGCCATGATTCGCTCCT -TAGAGTACTTCTGGTGCCAGAGAGATAATTTTCATGAACTTCTCACTACGAAGCTCACGAGTTACCGGCCCAAAA -ATACGCGTACCGATAGGCTGCTCGCTGTTGTTGTTCAGAAGAACACAAGCATTACCATCGAAGCGAATGACAGAA -CCGTCCGGGCGACGAACACCCTTCTTGGTGCGCACCACTACCGCCTTCAGCACATCACCTTTTTTGACCTTACCA -CGCGGAATTGCTTCTTTGATGGTGATCTTGATGATGTCGCCTACGCCTGCGTAGCGACGGTGCGAGCCACCCAGA -ACCTTGATACACATTACGCGACGTGCACCGGAGTTGTCGGCGACGTTCAGCATAGTCTGTTCTTGGATCATTTTA -GTGCTCCGCTAATGTCAACTACTACTGAGACCCGAAAATCAGGTCGTTAAAAATCCCCATATCGAGGGCGCGGCA -TTATAACACCGCTTCAAGGATATGGGTAGAAAAAATAAACGGCTCATTTCTGAGCCGTTTATTCGTATTGAGAGA -GTGTACTGTATTACAGAACCGCTTTCTCTACAACGCGAACCAGCGTCCAGGATTTAGTCTTGGACAGCGGACGGC -ATTCGCGGATTTCAACCACGTCACCGATACCGCATTCGTTGTTCTCGTCATGTACGTGCAGTTTGGTCGTACGCT -TGATGAATTTACCGTAGATCGGGTGTTTCACAAAACGTTCGATAGCAACAACAATGGATTTCTCCATTTTGTCGC -TAACAACGCGACCTTGCAGAGTACGGATTTTATCGGTCATTACGCACCCGCCTTCTCGTTCAGTAAAGTCTTAAC -GCGTGCGACATCGCGACGCACTTGCTTCAACAGGTGAGACTGTTGCAGCTGGCCACTTGCAGCCTGCATACGCAG -GTTGAACTGCTCACGCAGCAGGTTCAGCAGCTCGGTGTTCAGCTCTTCAACGCTCTTCTCACGCAGCTCTTTTGC -TTTCATTACATCACCGTCTTAGTTACAAAGGTGGTTTTAATCGGCAGTTTCGCTGCTGCCAGCTTGAATGCTTCA -CGGGCCAGCTCTTCCGGAACACCGTCCATTTCATACAGGACTTTACCCGGCTGAATCAAGGCAACCCAATACTCC -ACGTTACCTTTACCTTTACCCATACGCACTGCCAGCGGCTTTTCAGTGATCGGTTTGTCCGGGAACACACGGATC -CAGATCTTACCTTGACGCTTAACTGCACGGGTCATAGCACGACGTGCTGCTTCGATCTGACGGGCAGTCAGACGA -CCACGGCCAACAGCTTTCAGACCGAAGCTGCCGAAGCTAACATCCGTACCCTGCGCCAGACCGCGGTTACGGCCT -TTGTGCATTTTACGGAATTTTGTACGCTTTGGTTGTAACATCAGCGACGCTCCTTATTTACGGCCTTTACGCTGC -TGCTTTTTAGGCTGAGCAGCCGGTTTTTCCGGTTGTTCAACAGCAGCCATACCACCCAGGATCTCGCCTTTGAAG -ATCCACACTTTAACGCCGATTACACCGTAAGTGGTGTGCGCTTCAGAGGTGTTGTAGTCGATGTCAGCACGCAGA -GTGTGCAGCGGTACGCGACCTTCGCGGTACCATTCGGTACGTGCGATTTCCGCGCCGCCCAGACGGCCGCTAACT -TCAACTTTAATACCTTTAGCGCCCAGACGCATTGCGTTCTGTACAGCACGCTTCATAGCACGACGGAACATAACG -CGACGTTCCAGCTGAGAAGTGATGCTGTCAGCAACCAGTTTTGCGTCCAGTTCAGGCTTACGAACTTCGGCGATG -TTGATCTGTGCAGGAACGCCAGCGATGTCCGCTACGACCTTACGCAGTTTTTCTACGTCTTCACCTTTTTTACCG -ATAACGATACCCGGGCGAGCAGTGTGAATGGTTACACGGATGCTCTTAGCCGGACGCTCGATAACGATACGAGAT -ACGGACGCTTTAGCCAGTTCCTTAGTCAGGTACTGACGTACTTTAAAATCGCTGTCCAGGTTGTCAGCGAATTCT -TTGGTGTTCGCAAACCAGGTAGAGTTCCATGGTTTTACAATACCCAGGCGAATACCATTAGGATGTACTTTCTGA -CCCATTGCTAGTCTCCAGAGTCTCAGCGATCGGACACAACCACAGTGATGTGGCTGGTGCGCTTCAGGATGCGAT -CTGCACGACCTTTTGCACGCGGCATAATGCGCTTCATGCTCGGGCCTTCGTCTACGAAAATTTTCGTAACTTTCA -GATCGTCAATGTCAGCGCCATCGTTGTGTTCAGCGTTAGCAATGGCAGATTCCAGAACTTTCTTGACCAGTACAG -CCGCTTTCTTGTTGGTGTAGGTCAAAATATCCAGAGCCTGCGACACTTTCTTACCGCGAATCAGGTCAGCAACAA -GGCGAACCTTCTGAGCAGAAGAACGAGCATGGCGATGTTTAGCGATAGTTTCCATCTCTTCCTCCTACCTTATTT -CTTCTTCGCTTTTTTATCAGCAGCGTGGCCGCGATAAGTACGAGTCGGTGCGAATTCACCCAGTTTGTGACCAAC -CATTTCGTCGGTTACAAATACCGGAACGTGCTGACGACCATTATGGACAGCGATGGTCAAACCGATCATGTTAGG -AAAGATCGTTGAACGACGGGACCAAGTGCGCAGGGGCTTCTTGTCTCCGCTTTCCACCGCTTTCTCTACCTTCTT -CAGCAAGTGCAGGTCAATAAAAGGACCTTTCTTGAGAGAACGTGGCATGGCTTATCCTCTAAAATTATTTGCTAC -GGCGACGTACGATGAATTTATCAGTACGCTTGTTGCTGCGGGTCTTCTTACCTTTGGTCTGAACGCCCCACGGAG -TTACCGGGTGCTTACCAAAGTTACGACCTTCACCACCACCATGTGGGTGGTCTACCGGGTTCATCGCGGTACCGC -GAACGGTCGGACGAACACCACGCCAGCGTGCAGCACCTGCTTTACCCAGAACGCGCAGCATATGCTCAGCATTGC -CAACTTCGCCCAGAGTTGCACGGCAGTCTGCTTCTACTTTACGCATTTCACCAGAACGCAGACGCAGGGTGACAT -AAGCACCATCACGAGCAACGATCTGAACGTAAGTACCAGCGGAACGTGCCAGCTGACCGCCTTTACCTGGTTTCA -TTTCTACGTTATGAACAGTAGAACCAACCGGGATGTTGCGCATCGGCAGGGTGTTACCTGGTTTGATTGCAGCAT -CAACGCCAGACTGAATCTGGTCGCCAGCTTTCAGGCCTTTAGGGGCCAGGATGTAACGGCGTTCACCGTCTTTGT -ACAGAACCAGCGCGATGTTCGCGGAACGGTTCGGATCGTACTCAAGACGTTCAACAACTGCCGGGATACCGTCTT -TGTTGCGTTTGAAGTCAACAATACGGTAAGCCTGCTTGTGGCCACCACCGATATGACGAGTGGTGATACGGCCAT -TGTTGTTACGACCACCGGATTTGCTGTTTTTTTCCAGCAACGGAGCAAAAGGTTTGCCCTTGTGCAGCTCAGGGT -TAACCACTTTAACTACGTGGCGACGACCCGGAGATGTCGGTTTACATTTAACAACTGCCATTGTATTACTCCTCC -GACTTACTCAGCGCCGCCAACGAAGTCCAGATTCTGGCCTTCTTTCAGGGTGACGTAAGCTTTTTTCCAGTCGCT -ACGACGACCGATACGCTGTCCGTGACGTTTAACTTTCCCTTTAACTACCAGGGTGTTAACGACTTCGACTTCGAC -TTCAAACAGTTTCTGCACAGCAGCTTTGATTTCTGCTTTGGTCGCGTCTTTAGCAACTTTGAGTACGATGGTGTT -GGATTTTTCCATCGCAGTAGACGCTTTTTCAGAAACGTGCGGTGCACGCAGCACCTTCAGCAGACGTTCTTCACG -AATCATGCCAGCATCTCCTCAACTTGCTTAACAGCATCAGCAGTCATTACGACTTTGTCGAAGGCGATCAGGCTA -ACCGGGTCGATACCAGTTGCATCGCGTACGTCAACCTTGTGCAGGTTGCGCGCAGCCAGGAACAGGTTTTCGTCC -AGCTCACCGGTGATGATCAGCACATCTTCCAGAGCCATGTCTTTCAGTTTCTGTGCCAGCAGCTTAGTTTTCGGC -GCTTCTACAGAGAACTTCTCGACAACGATCAGACGATCCTGACGTACCAGTTCGGACAGGATGCTTTTCAGCGCG -CCGCGGTACATCTTCTTGTTAACTTTTTGACTGTGGTCCTGCGGACGAGCAGCAAAGGTCACGCCACCAGAACGC -CAGATCGGGCTCTTGATAGAACCAGAACGCGCACGGCCGGTGCCTTTCTGGCGCCACGGTTTTTTACCGGAACCA -GTTACTTCAGCACGAGTCTTCTGAGCACGAGTACCCTGACGAGCACCAGCTGCATAAGCAACAACAACCTGGTGA -ACCAGCGCTTCGTTGAAATCACGACCGAAGGTAGTTTCGGAAACAGTCAGCGCGCTCTGCGCGTCTTTCAATACT -AATTCCATTGCTATCTCCTTACGCCTTCACAGCTGGTTTAACGATCAGGTCGCTACCGGTTGCACCCGGGACAGC -ACCTTTAACCAGCAGCAGGTTGCGCTCAGCGTCAACGCGTACTACGTCAAGGCTCTGAACGGTTACACGTTCGTT -ACCCATCTGACCTGCCATTTTCTTGCCTTTGAACACTTTGCCCGGAGTCTGGTTCTGACCGATAGAACCCGGAAC -GCGGTGAGACAAGGAGTTACCGTGAGTAGCGTCCTGGGTACGGAAGTTCCAGCGCTTAACGGTACCTGCGAAACC -TTTACCTTTAGAGGTGCCAGTTACGTCAACTTTTTTAACGTCAGCAAACAGTTCAACGCTAATGCTCTGACCTAC -AGTGAACTCTTCGCCTTCAGCCAGGCGGAATTCCCACAGACCACGGCCAGCTTCTACGCCAGCTTTAGCGAAGTG -GCCAGCTTCAGGCTTGGTCACACGGTTAGCTTTTTTAGCACCGGTGGTCACCTGAATAGCACGGTAGCCATCGTT -AGCCAGGTCTTTAACCTGAGTAACGCGGTTTGCTTCAACTTCGATTACGGTTACTGGGATAGAAACGCCGTCTTC -TGTGAAGATACGGGTCATACCCACTTTTTTACCGACTAAACCAATCATTGTTTCAACCTCTCAATCGCTCAATGA -CCTGATTAACCCAGGCTGATCTGCACGTCTACACCGGCAGCCAGATCCAGACGCATCAGAGCATCAACGGTTTTC -TCGGTTGGCTCAACGATGTCAACCAGACGCAAGTGAGTACGGATTTCGTACTGATCGCGCGCGTCTTTGTTGACG -TGCGGGGAGATCAGAACAGTGAAGCGCTCTTTGCGTGTCGGCAGCGGGATCGGACCACGGACCTGCGCACCAGTG -CGCTTGGCAGTCTCGACGATTTCCGCGGTTGCTTGATCGATCAGACGATGATCAAACGCTTTCAGGCGGATACGG -ATTCTTTGGTTCTGCATGAGACCAGAGCTCCAATTATTTTATAAACGAAAATGATTACTCCTCAGACCCATTACG -ATTGATGGGAGAGTGTAACCGTTCTTACGTAGCTCCCCGATTGGGAGCATTGTTAGGTAGCCAAATTCGGCTAAC -TGAGGTTCAGATTGAACCTGCTGTCAACTACGACAAGCCCGCGCATTATACATACTTAACCACCGAACGCAAGCG -TATTGCTAGTAAAGTAAACAGCCTTCGGGTTATCTCTCAAGTTCGTTCAGTGCATTTTTGACACGCTCTCTTAAA -CCGGCTTTCTCTTCGCTTTCTTCCACAGTATTTTCTTCGTCTTCAGAAGAAGAGGGGGCATTCTCAACCGCGACG -CCTGGGTCATCTTCCTCCTCGACGGATTCGACGACGGGGAGTGGCTGTTTTTTGAAGAAATAGTGTTGTGTTGAT -TGTTTAAAAGCGGGCGTTTCAGCCTCTACAGTGACTTCGGCTTTTACTATCCAAAGCACCCATAGCTGCCTGGCA -TACCCACCAACCAGCACCATTCCTGCAAACCACAGGCAAATCAGTAATAAACAAATTACATATATTATGGTGCTG -TGTTTTTGTCGGGAGAAGATACCAGGGTGACCTGTTTCTTTCTGCTCACGCGCGGCGATATAGAATTCAAACATG -TCATTTCCCCTTCACTGTTGTTTCCGGGGAAATATTTGCTTCATCCCGATATAAGTAGGCACTCTCCCCTGCCAC -CTGCCAGAGATGTACTAACGTTGAAAAGCCAACAACACCGTCAGTTTTCAAGTGGTGGCTTTTTTGAAATTGCTT -TATTTTTTCTACCAACAAGGGACGCCACTCCGCCGAAGGTTCTGTCGAAATATGCAATGCGCGGTTTAACATCGT -TTCCAGCCAGAGAATCTCTTCCTCGCTGCTATCACGCGTAATGGTACTCTCCCCTTCCGGCGACATTTTCCACAA -CAGAAGATAATCACCCGTCCATACCGACTCAAACCATTTATGTGTCAGCGTCCACGTTTGCTGACCTACGAGGAC -ATCAACGCTAGCCTCACCGACGCGAACGACCACAACAGGCAATTTTTTGTCCCCGACTTTAAGCGATGCGATCCA -GGGCAAATTCTGATCTACCAATGTTTGTAAAGAAGCATTCCCACTTTTACATGCCAGCCCCGCTCTTACTGCCTG -ATCGCACCAGGCCGAATCAGCTGGGACCTCGTACCCCCATACGCCGTATAACACGCTTAGCGCCTCACTATCGCG -CATCACCACATGAGCAATATCCTTAGTCATATCTTGTTTAACTACTGGCGTTACGGGTATCAGCCACGCAGGAAC -GGGTAACGTAGCTGTAAAAGAGGACAGCAGTAGCCAACCACAGGTAAGAGCGATAATGGTTCCACTCATCACCAC -GGCAAGCTGCATTTTCCGGGGGCGGTTATCACCCAATATGCGGTAAATCATTCGCCATTGTTTTGCTGTGAAAAC -GCTGGTCTGCTCGGCTTGCTGTAATAAGCGAATTGTTTCGCCGGCAAGCGCCAGCTTTCTGCGATCGCCCCGACA -TAATAAAGCTATCCGTTTCAGAACTCTGGCGGTTAAAAGGAGATCGGGTTGGTCAATATTCTGACCTTCAAGGAT -GCTTGCCTTAAGTTCGTGCTCCGTCAGACGTCCTATCGAGACAAGTTCAATGCCCTGTTTTTTAAAATCACGTTC -GACTTTTCGATCGGGTCTGCCGATCAGCAAAAATTGACCGTCAGGAATAAGAGATATTGCGCGTTGGAGATCATC -AAGTATGCGGCGGTGATTCAGGTGAGCATTTTCAATAATAATAAGAGGGCAGCGACTATCAGTTCGATGAAGCGC -ATGCAGTAATTGCCCCGCCATCTCATCTCGCGTCCAGGCGCTGTCACGGCAGCCCTGTTCAGCCGCGTTATCGTC -GGTAACGATCCATGCGGCCTTACCTTGCCAGGAAACAACGAGGCTTAAAGTAATCACACGGCGATGTTTATCTTT -TTGCAGTTGCTGCGCCAGCCAGGTTTTTCCACTTCCAGCCTCACCCAACAAATAGCATAGACGCCAGGTTTGACG -TTTCTCACACAACCAGGAAAGAATAACTTCTCTTCTCGTAGACATAGAACTTCCTGTTTTAATTATTGATTATCC -TTAATCATAAAAATAATGTATGTATTTATTAATTAAATACATATTACTAATATAAATAAATTTTGCTTGATTCAT -GCAAGCGGCATTAATACTATTTATACTAACGTCAATATACAACCCACCCAATCTATTTTATTAGAACATACATCG -TGCCCACACTACGTTTCCCCTTCCATCTGGCGAATCATAATAAAGATGCTGCCATCAATATATTGATTATATTTA -TAAGCATAGGGTCGATTATTTTTAATGTGAATTATTTCCATACAACTATAGTTAAAAATGGACAGATCATTAATC -AACCAACAAACGCATTTCAGTCTGATTTCAGCCTTGCCGCTTTATGGCGTAACGAAAATCATGCTGGGGTAAAAG -ATGCAAATCCCGTGGCAGTTAATCAGGAAACACCTAAGCTCTCTATAGCGCTTAATGGCATTGTACTCACATCGA -ATGATGAGACTTCTTTTGTCTTAATTAATGAGGGGAGCGAACAAAAGCGATACTCCCTCAACGAAGCCCTTGAGT -CAGCGCCGGGAACGTTTATTAGAAAAATAAATAAAACCAGCGTTGTGTTTGAAACTCACGGGCATTACGAAAAAG -TAACTCTCCATCCAGGGCTACCTGACATCATCAAGCAGCCTGATTCAGAAAGTCAAAATGTACTCGCTGATTATA -TTATCGCCACGCCTATACGTGATGGAGAACAGATATACGGGCTTCGATTGAACCCTCGTAAGGGCCTCAATGCAT -TTACCACCAGCTTGCTACAACCAGGGGATATCGCCCTCAGGATCAATAATCTTTCGCTGACCCACCCTGATGAGG -TTTCACAGGCATTAAGTTTACTGCTAACTCAACAAAGTGCTCAGTTTACAATTCGTCGCAACGGCGTACCCCGCT -TGATAAATGTTTCCGTCGGGGAACTTACAGGAATGAATGGACTGCGTCATGAAAGGACTCAATAAAATCACCTGC -TGCTTGCTGGCAGCACTACTCATGCCTTGTGCAGGACACGCTGAGAACGAACAATACGGCGCGAACTTCAATAAC -GCCGATATCCGCCAGTTCGTGGAAATAGTGGGTCAGCATCTTGGCAAAACGATCCTGATCGACCCTTCGGTACAG -GGAACCATTTCCGTACGCAGTAATGATACGTTTAGCCAACAGGAGTACTACCAGTTCTTTTTAAGTATTCTTGAT -CTTTACGGTTATTCCGTGATCACGCTGGACAATGGTTTTCTGAAAGTGGTTCGCTCAGCTAATGTAAAAACATCG -CCAGGGATGATTGCTGACAGTTCTCGTCCAGGCGTAGGTGATGAGTTGGTCACCCGAATTGTACCGCTTGAGAAC -GTTCCTGCTCGTGACCTGGCCCCCCTGCTCCGCCAGATGATGGATGCGGGTAGCGTCGGTAATGTTGTGCATTAT -GAACCCTCCAACGTTCTTATTCTGACCGGTCGTGCCTCCACCATTAATAAACTGATTGAAGTCATAAAGCGCGTT -GATGTCATCGGCACAGAGAAGCAGCAAATTATTCATCTGGAATATGCGTCAGCGGAAGATCTCGCCGAGATTCTT -AATCAATTAATCAGCGAAAGCCACGGTAAAAGCCAGATGCCAGCCCTCCTCTCCGCGAAGATTGTGGCGGATAAG -CGAACCAACTCTCTTATCATCAGTGGACCGGAAAAAGCACGCCAGCGCATCACTTCATTACTGAAAAGCCTTGAT -GTCGAAGAGAGCGAGGAAGGAAATACCCGGGTTTATTACCTGAAATATGCTAAAGCCACGAATCTGGTGGAAGTG -CTAACCGGTGTTTCCGAAAAGCTGAAAGATGAAAAAGGGAATGCGCGTAAGCCCTCCTCTTCTGGCGCGATGGAT -AACGTCGCCATTACCGCCGATGAACAGACTAACTCTCTGGTCATTACCGCTGACCAGTCCGTCCAGGAAAAACTC -GCCACGGTAATTGCGCGTCTGGACATTCGCCGTGCACAGGTGCTGGTTGAGGCAATCATCGTTGAAGTTCAGGAT -GGAAATGGACTAAACCTCGGCGTGCAATGGGCGAATAAAAACGTTGGCGCACAGCAATTTACCAATACCGGATTA -CCGATTTTTAACGCTGCGCAAGGTGTGGCTGATTATAAAAAGAATGGTGGGATCACCAGCGCGAATCCTGCCTGG -GATATGTTTAGCGCCTACAATGGCATGGCCGCAGGCTTCTTCAATGGCGACTGGGGAGTACTGCTTACCGCGCTG -GCCAGTAACAATAAAAATGACATCCTCGCCACCCCAAGCATCGTAACGCTGGATAATAAACTCGCGTCCTTCAAC -GTGGGGCAGGATGTGCCGGTGCTATCCGGGTCACAGACCACTTCAGGGGATAACGTCTTTAATACCGTCGAACGC -AAAACGGTGGGGACAAAACTCAAAGTTACTCCGCAGGTCAATGAAGGCGACGCGGTGTTGCTCGAAATAGAGCAG -GAAGTCTCCAGCGTTGACTCTTCCTCTAACTCGACGCTCGGCCCGACGTTTAATACCCGTACTATTCAAAACGCC -GTGCTGGTCAAAACCGGTGAAACGGTGGTCCTGGGCGGATTGCTGGATGATTTTTCTAAAGAGCAAGTGTCAAAG -GTTCCTCTGCTTGGCGATATTCCTTTAGTGGGGCAACTCTTCCGCTATACCTCCACCGAGCGCGCTAAACGCAAC -CTGATGGTATTTATCCGTCCGACGATTATCCGTGACGATGATGTTTATCGCTCACTGTCAAAAGAGAAATACACC -CGTTACCGTCAGGAGCAACAACAGCGGATCGACGGGAAATCAAAAGCGCTGGTTGGCTCGGAAGATTTGCCGGTG -CTGGATGAAAACACGTTCAACAGTCACGCCCCTGCGCCATCGTCACGGTGAGGCATTCATATGAGAATTCACTCA -CCGTACCCCGCCAGTTGGGCGCTGGCACAACGAATTGGTTATCTCTATTCAGAGGGCGAGATTATTTATCTCGCC -GATACGCCATTCGAGCGGTTACTCGATATTCAACGTCAGGTTGGCCAGTGCCAGACCATGACCAGCTTGTCACAG -GCTGATTTTGAAGCTCGGCTGGAAGCGGTATTCCATCAGAATACCGGTGAGTCGCAACAGATTGCGCAGGATATC -GATCAATCCGTCGATCTTCTCTCGCTTTCGGAAGAGATGCCCGCAAATGAAGATCTCCTGAATGAAGATTCAGCG -GCACCGGTTATCCGCTTGATCAATGCGATTTTGAGTGAGGCCATCAAAGAAACCGCCTCTGATATCCACATTGAA -ACCTATGAAAAAACAATGTCGATCCGTTTTCGCATCGACGGCGTTTTGCGGACAATTTTACAGCCAAACAAAAAA -CTGGCGGCACTGCTTATCTCCCGAATTAAGGTCATGGCTCGTCTTGATATCGCCGAAAAACGTATTCCACAGGAT -GGAAGAATTAGTTTGCGTATCGGGCGACGTAACATAGATGTCCGCGTATCCACACTGCCGTCCATCTATGGTGAA -CGCGCCGTACTCCGCCTGCTGGATAAAAACAGCCTCCAGCTTTCATTGAACAACCTGGGGATGACGGCAGCGGAT -AAGCAGGATTTAGAAAATCTCATTCAGCTTCCGCACGGTATTATCCTGGTGACAGGGCCGACAGGCTCCGGTAAA -AGCACCACGCTCTACGCCATCCTTTCGGCGCTGAATACTCCCGGCCGCAATATTCTGACGGTAGAAGATCCCGTG -GAATATGAGCTGGAAGGCATTGGGCAAACGCAGGTGAATACCCGTGTGGATATGTCTTTCGCTCGCGGCCTGCGC -GCCATACTTCGCCAGGACCCGGATGTCGTCATGGTGGGGGAAATTCGTGATACAGAAACCGCGCAGATTGCGGTT -CAGGCCTCGCTCACCGGCCATCTGGTACTCTCAACACTCCACACTAACAGTGCATCAGGCGCAGTGACCCGGCTC -CGCGACATGGGCGTCGAATCATTCCTGCTTTCGTCTTCCCTGGCAGGGATTATCGCGCAACGTCTGGTTCGTCGC -CTGTGTCCGCAATGCCGACAATTCACGCCCGTATCACCCCAACAAGCGCAGATGTTTAAATATCATCAGCTCGCG -GTGACAACAATTGGCACTCCCGTAGGCTGCCCTCATTGCCATCAATCCGGCTATCAGGGGCGCATGGCGATCCAC -GAAATGATGGTGGTGACGCCGGAATTACGGGCCGCTATTCATGAAAATGTGGATGAACAAGCACTGGAGCGACTA -GTCCGGCAACAACACAAGGCCTTAATCAAAAATGGCCTGCAAAAAGTGATAAGCGGTGACACCTCCTGGGATGAG -GTTATGCGCGTCGCCAGTGCCACGCTGGAGAGCGAAGCATGAATTATCGCTATCGCGCCATGACCCAGGATGGTC -AAAAATTGCAAGGGATCATTGATGCTAACGATGAACGTCAGGCACGACTGCGGCTGCGTGAAGAAGGGCTTTTCC -TGCTGGATATTCGCCCCCAAAAAAGTTCGGGAGTAAAAACACGTCGCCCGAGGATCAGCCATAGTGAACTGACGC -TTTTCACCCGGCAGTTGGCAACCTTAAGCGCAGCGGCATTACCCCTGGAAGAGAGCCTTGCCGTAATCGGTCAAC -AAAGCAGTAATAAACGACTGGGTGACGTGTTAAATCAGGTACGCAGCGCCATCCTTGAAGGGCATCCCCTTTCCG -ATGCATTACAGCATTTTCCCACGCTTTTCGATTCGCTCTATCGTACCCTGGTAAAAGCGGGCGAAAAGAGCGGGC -TGCTGGCCCCGGTGTTGGAAAAGCTGGCTGATTACAATGAAAACCGGCAGAAAATCCGCAGCAAGCTCATTCAGT -CACTGATCTACCCCTGTATGCTCACTACGGTGGCGATTGGGGTCGTGATTATTCTCCTCACTGCTGTCGTGCCCA -AAATTACCGAACAGTTCGTGCATATGAAGCAGCAACTGCCGCTGAGTACACGCATTCTTTTAGGTCTGAGCGACA -CGTTGCAACGTACCGGCCCGACATTATTAGCGACAGTGTTTATTGTCGCTGTAGGTTTCTGGCTCTGGTTAAAAC -GCGGCAATAACCGCCACCGTTTTCATGCCATGTTGCTGCGCGTTGCGCTCATCGGCCCGCTGATTTGCGCCATTA -ACAGCGCACGCTATCTCCGCACTTTAAGTATTTTGCAATCCAGCGGCGTCCCTCTGCTGGATGGGATGAATTTGT -CCACCGAAAGCCTCAACAACCTCGAAATTCGCCAGCGTCTGGCAAATGCGGCAGAGAACGTTCGCCAGGGTAACA -GCATTCATCTTTCGCTGGAACAAACCGCAATTTTCCCGCCGATGATGCTCTACATGGTGGCCTCTGGCGAAAAAA -GCGGGCAGCTCGGCACATTAATGGTCAGAGCCGCAGATAACCAGGAGACACTCCAACAAAATCGGATCGCCTTAA -CGCTCTCCATCTTCGAGCCAGCACTCATTATTACGATGGCACTGATCGTCCTGTTTATTGTCGTGTCGGTACTCC -AACCTCTTCTTCAACTTAACTCAATGATTAATTAAGGAAAGCATATGCGCGCAACGGATAAGCAACGCGGTTTTA -CATTACTGGAAATTATGGTGGTGATCGTCATTATCGGCGTACTTGCCAGCCTGGTGGTTCCTAACCTAATGGGCA -ATAAAGAAAAGGCGGATAAGCAAAAAGCCGTCAGCGATATTGTGGCGCTGGAAAACGCCCTTGATATGTACAAAC -TCGACAATCATCACTATCCAACCACAAATCAGGGGCTTGAATCCTTAGTAGAAGCGCCGACACTGCCACCGCTGG -CCGCAAACTATAACAAGGAAGGTTATATCAAGCGTCTGCCTGCCGATCCCTGGGGCAATGATTATGTCCTCGTTA -ATCCTGGTGAACATGGTGCATACGATCTGCTTTCAGCAGGGCCCGATGGTGAAATGGGAACCGAGGACGACATCA -CCAACTGGGGTTTGAGCAAGAAGAAAAAGTAAGTCAGCGATGAATCAGCAACGCGGGTTTACCCTGCTGGAGATG -ATGCTGGTGCTGGCGCTGGTCGCTATCACGGCAAGCGTGGTGCTCTTCACATATGGCCGGGAGGATGTCGCCAGC -ACTCGTGCGCGCGAAACAGCGGCGCGGTTTACCGCTGCACTTGAATTAGCCATCGACCGCGCCACGCTCAGTGGT -CAGCCTGTCGGTATCCATTTCTCTGATTCAGCATGGCGCATTATGGTACCGGGCAAAACACCATCAGCCTGGCGC -TGGGTTCCATTACAAGAAGATGCCGCAGACGAGAGCCAAAATGACTGGGATGAAGAACTCTCAATTCATCTTCAG -CCATTTAAACCTGATGACAGCAACCAGCCACAGGTTGTGATTCTGGCCGACGGACAAATCACGCCCTTCTCTTTG -TTGATGGCTAACGCCGGGACCGGTGAGCCGCTCCTGACGTTAGTCTGTTCAGGCTCATGGCCCCTGGATCAAACG -CTCGCCAGAGATACCCGCCCATGAACAAACAATCAGGGATGACACTGCTTGAAGTCTTACTGGCGATGAGTATTT -TCACCGCTGTTGCTCTGACTTTAATGAGCAGTATGCAAGGGCAACGAAATGCCATCGAGCGAATGCGTAACGAGA -CGCTGGCATTGTGGATAGCGGATAACCAGCTTCAGTCACAAGATTCATTCGGCGAGGAAAACACGTCCAGTTCTG -GCAAAGAGTTAATAAATGGCGAAGAGTGGAACTGGCGCAGCGATATCCACTCAAGCAAAGACGGCACGCTTCTGG -AACGCACCATAACGGTGACATTACCCAGCGGTCAGACAACCTCGCTTACGCGTTATCAAAGCATCGATAATAAAT -CCGGGCAGGCACAAGATGATTAATCGCCAGCAGGGTTTCACATTGCTGGAGGTCATGGCGGCGCTGGCGATTTTC -TCAATGCTTAGCGTGCTGGCGTTTATGATTTTTTCGCAAGCTTCCGAGTTGCATCAACGCTCACAGAAAGAAATC -CAGCAGTTCAATCAGCTACAGCGCACCATCACCATTCTTGATAACGATCTCCTGCAACTGGTCGCCCGGAGGAAT -CGGAGTACGGACAAAATCATGGTGTTGGGTGAAGAAGCTATTTTTACCACGCAAAGTCGCGATCCGCTGGCTCCT -CTCAGTGAAGCACAAACCTTACTCACTGTTCACTGGTATCTGCGAAATCATACGCTCTACCGTGCTGTTCGTACT -TCTGTGGATGGCAGGAAGGATCAACCCGCCCAGGCGATGCTGGAACATGTCGAGAGCTTTCTTCTGGAAAGTAAC -AGCGGGGAAAGCCAGGAACTTCCTCTCTCAGTCACGTTACATCTGCAGACTCAGCAATATGGGGGGTTACAGCGC -CGTTTTGCATTACCTGAGCAGTTAGCGAGAGAAGAGTCGCCAGCTCAGACGCAGGCCGGGAATAATAACCATGAA -TAATGAACAACGCGGCGTCGCGCTGCTCATTGTACTCATGTTACTGGCGCTCATGGCTGCTCTGGCAGCAGACAT -GACGCTCAGTTTTCACAGCCAGCTTCAGCGAACCCGCCAGGTAAACCATCATCTGCAACGGCAATATGATATTGA -ACTGGCGGAGAAACTTGCGCTTGCCAGCCTCACCCAGGACGTTAAAGATAACGACAGACAGACCACGTTGCAGCA -GTACTGGGCACAGCCACAACAGTTGCAGCTGGAAGATGGCAATACAGTGAAGTGGCAGTTACGCGATGCCCAGCA -CTGTTTTAATCTCAATGCGTTAGCAAAAATCTCTGACGACCCGCTGGCTTCCCCTGATTTCCCCGCCCAGGTATT -CAGTGCGCTGCTGATTAACGCCGGTATCGATCGCGGAAACACCGATGAGATCGTGCAATCAATCGCTGACTATAT -TGATGTCGATGACTCACCACGCTTTCACGGCGCAGAAGATAGCTTTTACCAAAGCCAGACGCCGCCCCGGCATAG -TGCCAATCAGATGCTTTTTCTGACTGGCGAATTACGTCAGATAAAAGGCATAACCGAAAACATCTATCAGCGGCT -TATCCCGTATGTCTGCGTTCTCCCGACCACGGAACTTAGCATCAATCTTAATATGCTAACGGAGAACGATATTCC -GCTCTTCAGAGCGTTATTCCTCAATAACATCACGGATGCTGACGCTCGGGTCTTATTGCAAAAAAGGCCGAGGGA -AGGCTGGCTAACCACGGATGCATTTCTTTACTGGGCGCAGCAGGATTTCTCCGGTGTGAAGCCACTGGTTGCTCA -GGTGAAAAGGCATCTCTTTCCCTATAGCCGCTATTTTACGCTGAGTACGGAAAGTATCAGCGACGAACAATCCCA -GGGATGGCAAAGCCATATTTTTTTCAACCGTAAACAGCAGAGCGCCCAAATCTATCGGCGTACGCTGCAACTCTA -CTAATCATAAGGATCGTGATGCCTGAATCGTTGATGGTCATACGTTCTTCCTCGACGCTGCGTAAGCATTGGGAA -TGGATGACGTTCTCCGCAGATAGCGTATCTTCGGTACATACGCTCACGGACGATCTTCCGCTGGAGTCGCTGGCC -GATCAGCCCGGTGCCGGAAATGTTCATCTTTTGATCCCACCAGAGGGCCTTTTATATCGTTCCCTCACGCTGCCC -AACGCCAAATACAAACTCACCGCACAAACATTACAATGGCTGGCAGAGGAGACGTTACCCGACAACACCCAGGAC -TGGCACTGGACGGTTGTCGATAAACAAAACGAAAGTGTCGAGGTGATAGGCATTCAGTCGGAGAAACTCAGTCGC -TATCTTGAGCGTTTACATACTGCCGGACTCAACGTGACGCGGGTTTTGCCAGATGGCTGCTATCTTCCCTGGGAA -GTAGATAGCTGGACTCTGGTTAACCAGCAAACAAGCTGGCTCATTCGCAGTGCCGCACATGCCTTCAACGAACTG -GATGAACACTGGTTACAGCATCTTGCTGCCCAGTTTCCGCCTGAGAATATGCTTTGTTATGGTGTAGTACCTCAC -GGCGTTGCAGCGGCCAATCCACTTATCCAGCATCCTGAAATACCATCACTGAGTTTGTATTCTGCCGATATTGCA -TTCCAGCGCTATGACATGCTGCATGGTATTTTTCGTAAACAGAAAACTGTAAGCAAATCGGGAAAATGGCTCGCC -CGCCTGGCAGTAAGCTGTCTCGTTCTCGCCATTCTTTCTTTTGTTGGCAGCCGGAGCATCGCGCTCTGGCATACG -CTTAAGATTGAAGATCAACTTCAGCAACAACAGCAAGAAACCTGGCAACGTTATTTCCCGCAGATCAAACGCACC -CACAATTTTCGTTTTTACTTTAAGCAGCAACTCGCTCAGCAATATCCTGAAGCTGTGCCGTTGCTCTATCATTTA -CAAACACTTCTGCTGGAACACCCTGAACTGCAGTTAATGGAGGCGAACTATAGCCAGAAGCAAAAGTCGCTGACC -TTAAAAATGAGTGCTAAGAGTGAAGCTAATATCGATCGTTTCTGTGAGTTAACACAGTCCTGGCTTCCGATGGAA -AAAACAGAAAAAGATCCGGTCAGTGGTGTATGGACAGTAAGGAACTCAGGGAAATGATTAAATCATGGTGGGCAG -AAAAATCCACATCGGAAAAACAGATCGTTGCGGCACTGGCGGTTCTCTCGCTCGGCGTTTTTTGTTGGCTTGGGG -TGATAAAACCGATAGATACCTACATTGCAGAGCATCAGTCCCACGCGCAAAAAATTAAGAAGGACATCAAATGGA -TGCAGGATCAAGCGAGCACCCATGGTTTACTCGGTCATCCTGCGCTTACGCAGCCCATCAAAAATATCCTTCTCG -AGGAAGCAAAACGTGAGAATTTGGCTATCACGCTGGAAAACGGCCCGGACAATACTCTGACAATTCATCCTGTCA -CAGCTCCCCTCGAAAACGTCTCCCGCTGGCTCACTACGGCACAGGTAACATACGGTATTGTTATTGAAGACCTTC -AGTTTACTCTTGCCGGAAACGAAGAGATCACCCTCAGGCATTTGTCCTTCAGGGAGCAACAATAATGACAATGCT -ACTGCCGCTCTTCATTCTGGTTGGTTTTATTGCAGATTATTTTGTTAATGCCATCGCCTATCACCTCTCGCCGTT -GGAGGATAAAACGGCGTTAACGTTTCGCCAGGTATTGGTTCATTTCAGGCAAAAAAAATATGCCTGGCATGATAC -AGTGCCCCTGATACTTTGTGTTGCTGCTGCTATCGCCTGCGCCCTGGCACCTTTCACGCCCATCGTGACTGGCGC -ACTCTTTCTCTATTTCTGTTTCGTACTCACGCTCAGTGTTATTGATTTTCGCACTCAGCTCCTGCCCGACAAACT -CACCTTACCGCTGCTCTGGCTTGGCTTGGTATTTAATGCGCAGTATGGATTAATTGATTTACATGATGCGGTTTA -CGGCGCGGTAGCGGGCTATGGGGTGCTGTGGTGTGTTTACTGGGGCGTCTGGTTAGTTTGTCACAAAGAGGGATT -GGGCTACGGTGATTTCAAGCTACTGGCCGCTGCAGGCGCATGGTGTGGCTGGCAAACGTTGCCAATGATACTGCT -GATTGCCTCGCTGGGTGGCATTGGTTACGCCATCGTTTCACAACTTCTGCAACGCCGGACTATAACCACTATCGC -ATTCGGCCCGTGGCTTGCGCTCGGCAGCATGATAAACCTGGGGTATCTGGCCTGGATCTCTTATTAACCGGGAGG -GTTCTCCCTCCCGACACGGCTCAACCTTCTTCGCGGATCTGTGCTTGCAGATAATTTTGCAGGCCCATCTTCTGA -ATCAGATCAAGTTCCGTTTCCAGCCAGTCGATATGGCCTTCTTCATCACGCAAAATTTCTATCATCATATCGCGG -CTGACGTAATCATGAACGCTATCGGCATAACCAATTGCCTCACGCAAATTCTTCGCGCCATCCAGCTCAAGTGCC -AGATCAGAACGCAGCATTTCCTCAACATCTTCACCAATGTTCAGTTTGCCCAGGTCCTGTAAGTTTGGAAGACCT -TCCAGAAAAAGAATGCGCTCAATATAACGATCGGCGTGTTTCATCTCATCAATGGATTCATGATACTCCACATCA -TTGAGACGTTTGAGACCCCAGTTTTTAAACATTCGGGCATGGAGAAAGTACTGATTGATTGCGACAAGCTCATTT -CCCAACAGTTTGTTGAGATAATTTATAACTTTAGTATCACCTTTCATTTTTTGACTCCTTCGCTTCCACTCTTTG -AAGAGTAGAACGGCTTACGAGTAAGTCAAAAAACACACTCCGTTTATGCGGACTCCTTAAACTCCGGCAGCTGCA -TTAATTCATCCTCCATCACTTCACGCGCGGCCCGGACACATTTACCGCACTGATTGCCGACCGGAATAAATTTTT -TTAATTGCTGGAACGAGTGAGGGGAAAACTGGCGCACAGCCTGACGAATTTTTTTATCGCTGATACCATTACAAA -GACAAACGTACATAGAGACTCCCGTATACTTTCTTCAAAAATAAATGAAAATAGTTCTTATTTCAATTACGGAAA -GACTCTTTTTTAAGCAAAGAATAGAAATATGAATAAAAATAATGGGCTACCAAAAGTAGCCCATTGACAAAAAAT -GCGGCGATACTGGAAGGTATCGCCAACACATTTATTGCTTAGTAAACGGCGCGAAGATTTCGCTAAATGCGTACT -TCGGTGCCTGTTCTTTAGTCAGGCCGTGGAATTCCGGAGACAGGTTAGTGCCGCCCGGCAGGTCGCGCGCGATTG -ACCAGATACCAACCATACCGAGATTACGCTTCTGCGCATCCTGCATGACCAGACGAGCATCAGAGAGATAGAACA -CCTCGCCCTGAACGTCGTTCACGCCAACCATCGGCGTGGTACCCATCATAGCGTCAATTTCTGCATCGCTCTTAT -TGGGATGGAGGCCTTTCAATTGTGAATGCAGGTTGGCAATCGCAGACGTTGCACACTTACCGTGAATGTTCTGGC -CTTCGGTATTTGCAGACTGACAAATCGCGTTACCGTAGTCCATTGTCATCACGTTCACACCCGCCAGCTCAACAC -CTTTCGCTTTGGCATCGCTCAGGACATTCATCCCTTCCGGCGTCAGGCCAGTCGGCAGAATTGGCAAGGTGTACC -AGATAGCAATATCTTTGCCTTCTGACTTCCATTTATCCTGCACTTTCTTCACAGCAAGGTTACGACGTTCAATAG -ATGCCTGATCCGCAACCCAGGTGCCTTCGATATCGAAGTCCAGGACTTTGAGGTTCAGGTTATCAACGATGTCAT -AATAATGCTGCATCAGATCGTCTACGTTCTTACAGGAAGCAGCCAGCGGAGCGTTGTTAGCACCACCGATAGACA -GCATCACATCGCCGCCAGCCTCACGCAGAGCTTTGATTTTGCTGTACTGAGCGTAATTCTGCATACCGTAAGCGG -TACCCCATGTCGGCAGACAGGTGTTCGCATCTTTACTCACCACAAACGCCAGCGTGAAGTGGTTGACGTTATGAT -TCTTAGCCAGCGCAGCCAGATCCGGGATCGTATTCAGCGTAAAGTCGACATACGGTGCATAAACGTGTTTCGGCC -ACGCTTTCTTCGGCGTACCTACGCGCTCTTTGGTTCCGGTCCAGTCAACAAAAACACGCCACGGGTTGCTGTCAG -AAGGAGAAACTTTCTGCACTTTACTCTGAGAAATGTAGTTCACACCGTTAAAGCGAATCAGCGTATCGCTGGCAT -AAAGCGTTTCTGGATTAAACTGCGGCGCATTATTCAGCTCTTCGTTGCTATAGCTCTGAGCCTTACCTAACGGCT -TCCACGGGCGGCTATTGCTACCGGTGGCGTTTTGGTTCGCCACCAGAGCAGGGTTGTCACTTTGCGTCCAGAACA -GCGCTTCATAAGCCTGCCCATCAACAACAACGCGATCACCTTTCACGTACACAGTGGATGCGGACCATGCTTTCG -CCGGTTCGTATTTCTTCCACGGGTTATCGCCGCCCGGGACAAAGCCCCATGCGTCTTGATCGACAGAAGTTTTAT -AATGTGCATCGTTATAATCTACGATGCTGTCCGCGCTGTACGCTTTGCTGGCCTGGAAACCATCCGCAACAATGA -CGCCGCCGTTATCAATTTCACAGGTAGTCGGGTTACCGTACTGACTCAATTCCGCAGCGGTAGCTGTACGCTCGA -GACGCCATGGGTTATTGGAGTTTTCAGCGCTGGTACCCCGTGGGCAATCTTTAGACCCAACCCACCAGGCGTTCT -TGTAAACATTACCATTGAAAATAACATGGTAAATTTCGCTACCTTCCTGGCCGCTCCACGCTTGCAATGAGTAAT -CGTTAACGCTATCCGCTGGTGTTGATGGCTCGCTGTTATCCGGAGTTGGGGTCACCGGTGTTTCCGGAGTTGGAT -CAACCGGAGTCACAGCACCGCCATTATTATCCGGCTTAACGGAACAGGAGCCAGGGTTACCATACTGGCTGATTT -CTGTTGCCGTTGCCGCGCGAACATAACGCCATGGGTTACTGGCATCGTTTTCTTTCGCATCGCCTGGGCAATTTG -CCGCGCCTACCCACCAGGCGTTCTTATAAATGCCGCCGTTATAGATAACGTACCATGTAGAAGAACCTTCCTGAC -CTTTCCAGGCTACTACAGCATAGTTGTCGTTTGACTTATCAGCTGGGGCTGGCTGAACATCAGGAGCCGGTTTAA -CGTCCGGTGCCGGTTTCACATCCGGTGAAGGCTGTGGTGCTGAAGTACAGGACTGTGGATTACTGGTTTCTGAGA -TTTCCGTTGCCGTAGCGGCACGAACATAACGCCATGGGTTGCTGGCATCATTGCTTTTCGCATCACCCGGACAGT -TAGAAGAGGCTACCCACCAGGCATTTTTATATACCGCACCATTAAAGACGACATACCAGGTCTGACCGCCCTGCT -GTTTATTCCAGGCAACTACAGAAGAATTAGACGGAACAGTGCCCTGTGCTGGTGTAGCCGAACCGCCATTAGCCG -GCGTATTGGATGCAGGCGTATTTGAATTTGAAGAAGATGAGCTGCCGCTCTTTTCGCAGGAAAGTGTATTGCCAA -ACTGACTAATTTCAGCAGCTGTTGCGGTACGCTTTAAACGCCACGGGTTAGTTGCATCATTTGCTTTCGCTTTTC -CCGGGCAATTTGTAGAAGAAACCCACCAGGCATTTTCATAAATTTTGCCATCGAAAATAACCTGATATTTATTAC -CACCTTGTTGGTTATTCCATGCTTCCATTGCCAATGCTGGCAGAGCGGAACACACCAGCCCCATACCAATCATAG -ATTTAGTAAATATATTTAATTTCATTATAATCCCTTGTGACGTAAAAACTGCAAAACAAAAGTCCTACGCAGGAA -TTATTTACGTTTTACGAGAACCCTTCAATATGAATTAAATTACGGCATTAAAAATAAGAAAAAAGCCTGACAAAT -GAAGCATTTTAAAAACAGAAACATTCATATTTAAAATGTTAAATTGAATTGATATTTTAAATATGAATAATTTAT -TCGTTCTGACAGTACGAATAAGATATGCCGTCAACAAATGCAAAAAGGGCGCCGAAGCGCCCTTTTCAATTCAAA -ACTAATTAACGTGTAATTAGCCCAGAACTTTAGCAACAACGCCCGCGCCAACGGTACGGCCGCCTTCACGGATTG -CGAAACGCAGACCGTCGTCCATCGCGATCGGGTGGATCAGGGTAACAACCATTTTGATGTTGTCGCCCGGCATTA -CCATCTCTACGCCTTCCGGCAGTTCGATGGTACCAGTCACGTCAGTAGTACGGAAGTAGAACTGCGGACGGTAGC -CTTTGAAGAACGGAGTATGACGGCCGCCTTCATCTTTGGACAGAATGTACACTTCAGATTCGAACTTGGTGTGCG -GCTTGATGGTGCCCGGCTTAGCCAGTACCTGACCACGTTCGATTTCTTCACGTTTGATACCACGCAGCAGAACAC -CTACGTTCTCACCAGCACGGCCTTCGTCCAGCAGTTTGCGGAACATTTCAACGCCAGTACAGGTAGACTTCTGAG -TCTCTTTGATACCAACGATTTCAACTTCTTCACCAACTTTGATGATACCGCGTTCTACACGACCGGTAACAACGG -TACCACGACCGGAGATGGAGAATACGTCTTCGATCGGCAGCAGGAACGGCTTGTCAATCGCACGCTCTGGTTCCG -GAATATAAGAATCCAGGAAGCCAGCCAGTTCCAGGATTTTCGCTTCCCACTCTGCGTCGCCTTCCAGCGCTTTCA -GAGCAGAACCACGAACGATCGGAGTGTCGTCGCCCGGGAAGTCGTACTGAGACAGAAGTTCACGAACTTCCATTT -CAACCAGTTCCAGCAGCTCTTCGTCATCAACCATGTCGCATTTGTTCAGGAACACGATGATGTACGGAACGCCTA -CCTGACGACCCAGCAGGATGTGCTCACGAGTCTGCGGCATCGGGCCGTCAGTCGCAGCAACTACCAGGATCGCGC -CGTCCATCTGAGCAGCACCGGTGATCATGTTTTTAACATAGTCGGCGTGCCCCGGGCAGTCTACGTGTGCGTAGT -GACGGGTCGGGGTGTCGTATTCAACGTGAGAAGTGTTGATGGTGATACCACGAGCTTTTTCTTCCGGCGCGTTAT -CGATCTGGTCGAATGCACGAGCAGCACCGCCGTAGGTTTTAGCCAGTACGGTGGTGATTGCAGCGGTCAGAGTAG -TTTTACCGTGGTCAACGTGGCCGATAGTACCAACGTTAACGTGCGGTTTTGTACGTTCAAATTTTTCTTTAGACA -CGGCTATATTCCTTACTATAGTGCTCTCCCCTTCAGGAGAGAGCACGGGACTTTGGTATTAACCCTTAGGCTTAT -TTACCACGGGCTTCAATTACGGCCTGAGCAACGTTACTCGGCGCTTCATCATACTTCAGGAATTCCATAGTGTAT -GATGCACGACCTTTGGTCAGAGAACGCAGCTGAGTTGCGTATCCGAACATTTCAGACAGCGGTACTTCAGCGTGG -ATCTTAACGCCAGTAACTTCAGATTCCTGACCTTTGAGCATACCACGACGACGGCTCAAGTCACCGATAACGTCA -CCGGTGTTCTCTTCCGGAGTTTCTACTTCAACCTTCATGATCGGCTCAAGCAGAACTGGTTTCGCTTTCTTAAAG -CCTTCTTTAAAGGCGATAGAAGCAGCCAGTTTAAACGCCAGTTCAGAGGAGTCAACGTCATGGTAAGAACCGAAG -TGCAGACGAATACCCATGTCTACTACCGGGTAGCCTGCCAGCGGACCTGCTTTCAGCTGTTCCTGGATACCTTTA -TCAACGGCCGGGATGTATTCGCCAGGGATTACACCACCTTTAATGTCGTTGATGAACTCGTAGCCTTTCGGGTTT -GAACCCGGCTCCAGCGGGTACATGTCGATAACAACATGACCATACTGACCACGACCACCAGACTGTTTCGCGTGT -TTACCTTCAACATCGGTAACTTTCTGGCGGATAGTTTCACGGTAAGCAACCTGCGGTTTACCTACGTTCGCTTCA -ACGTTGAATTCACGCTTCATACGGTCAACGATGATGTCGAGGTGCAGTTCGCCCATACCCGCGATGATGGTCTGG -TTAGATTCTTCGTCAGTCCATACACGGAAAGACGGGTCTTCTTTAGCCAGACGGCCCAGAGCCAGACCCATTTTT -TCCTGGTCAGCTTTGGTTTTCGGTTCAACTGCGATGGAGATTACCGGCTCAGGGAATTCCATACGTTCCAGAATG -ATCGGCGCATCCGGGTCACACAGGGTGTCACCAGTGGTTACGTCTTTCAGACCGATAGCAGCAGCGATGTCGCCC -GCGCGAACTTCTTTGATCTCTTCACGTTTGTTAGCGTGCATCTGAACGATACGACCGAAACGCTCACGTGCAGCT -TTCACGGAGTTCAGTACGGTATCACCAGAGTTAACCACACCGGAGTAAACACGGAAGAAGGTCAGGTTACCAACA -AACGGGTCGGTAGCGATTTTGAACGCCAGTGCAGAGAACGGCTCGTCATCACTTGCGTGACGTTCAGCCGGAGTG -TCTTTACCGTCGTCCAGGATACCGTTGATCGCAGGTACGTCAACCGGGGATGGCAGGTAATCAATTACCGCATCC -AGCATCGCCTGAACACCTTTGTTCTTGAACGCAGAACCACAGGTTACCAGGATGATTTCGTTGTTCAGAACGCGC -TGACGCAGAGCACCTTTGATTTCTGCTTCAGTCAGTTCTTCACCACCCAGGTATTTTTCCATCAGCTCTTCAGAA -GCTTCAGCTGCGGATTCGATCAGGTTCTGGTGCCATTCGTTAGCCAGTTCAACCATGTCTGCCGGGATATCTTCG -TATTCGAAGGTTACGCCCTGGTCAGCGTCGTTCCAGTTGATAGCTTTCATTTTCACCAGGTCAACAACACCGGTG -AAATGTTCTTCAGCACCAATCGCCAGCTGCAGCGGAACCGGGTTCGCGCCCAGACGGGTTTTGATCTGGTTAACA -ACTTTCAGGAAGTTCGCACCCATGCGGTCCATTTTGTTAACGAACGCAATGCGCGGAACTTTATATTTGTTTGCC -TGACGCCATACGGTTTCAGACTGCGGCTGAACACCACCAACTGCGCAGTAAACCATTACCGCACCATCGAGAACA -CGCATGGAACGTTCTACTTCGATTGTGAAGTCAACGTGCCCCGGGGTGTCGATGATGTTGATGCGATGCGGCTCA -TACTGCTTAGCCATACCAGACCAGAATGCAGTAGTCGCAGCGGAAGTGATGGTAATACCACGTTCCTGCTCCTGC -TCCATCCAGTCCATGGTTGCAGCGCCGTCATGAACTTCACCGATTTTATGGTTTACACCGGTGTAGAACAGAATA -CGTTCGGTAGTAGTGGTTTTACCGGCGTCGATGTGCGCACTGATACCGATGTTACGGTAGCGTGCGATGGGTGTT -GTACGAGCCATTTGTTTCCTCGTTTATCTTTTAGGCGTTCAATTTAAGTAGCCCAAAGCGGGCTGCTTACTGGAA -GCGCCCGCCTGGTGACTAAAACTCCGAAGGGATAACCAACGGTAGTGTGCGAACGCCTTGTTGGCTTCGGCCATA -CGGTGAACGTCTTCACGTTTCTTAACTGCAGTACCTTTGTTTTCTGCAGCATCAGAAAGTTCGTTCGCCAGGCGC -AGAGCCATGGATTTATCACCGCGTTTACGAGCAGCTTCAACGATCCAACGCATTGCCAGAGCATTACGACGAACC -GGACGGACTTCAACTGGTACCTGATAAGTAGAACCACCAACGCGGCGAGACTTAACTTCTACAGTCGGGCGCACG -TTTTCGAGAGCTACTTCGAATGCTTCCAGTTCAGATTTACCAGAGCGCTGAGCCAGGGTCTCCAGCGCGCTGTAT -ACGATAGATTCAGCAGTAGATTTTTTACCATCTACCATCAGGATATTTACAAATTTAGCCAGCAGTTCTGATCCG -AACTTCGGATCCGGCAGAATTTTACGCTGACCAATGACGCGACGACGTGGCATGGAAATACTCCGTTGTTAATTC -AGGATTGTCCAAAACTCTACGAGTTTAGTTTGACATTTAAGTTAAAACGTTTGGCCTTACTTAACGGAGAACCAT -TAAGCCTTAGGACGCTTCACGCCATACTTGGAACGAGCCTGCTTACGGTCTTTAACGCCGGAGCAGTCAAGCGCA -CCACGTACGGTGTGGTAACGAACACCCGGGAGGTCTTTAACACGACCGCCACGGATCAGGATCACGGAGTGCTCC -TGCAGGTTGTGACCTTCACCACCGATGTAGGAAGTCACTTCGAAACCGTTAGTCAGACGAACACGGCATACTTTA -CGCAGCGCGGAGTTCGGTTTTTTAGGAGTGGTAGTATATACACGAGTACATACGCCACGTTTTTGCGGGCATGCT -TCCAGCGCAGGCACGTTGCTTTTCGCAACTTTGCGAGCACGTGGTTTGCGTACCAGCTGGTTAACTGTTGCCATT -AAATAGCTCCTGGTTTTAGCTTTTGCTTCGTAAACACGTAATAAAACGTCCTCACACAATATGAGGACGCCGAAT -TTTAGGGCGATGCCGAAAAGGTGTCAAGAAATATACAACGATCCCGCCATCACCAGGCCATCTGGCTGGGGTGCT -TAACCGTAAGTCTGACGAAATCAGTATAGTCAATGAGAATGATGTCGTTCGAAATTTGACCAGTCAAACCGCGGG -CAATAAGGTCTTCGTTCAGGGCATAGACCTTAATGGGGGCATTACGCAGACTTTCAAGGTAGCGGTTACCGTCAA -CTGCGGCAGTTACGCCATCTTGCAATAATAGCAGTTCGTCTCCTTCACTGAGCAGACGCAGCAGCGCAGCAAAAT -CCGTCAGCCAGGGTGAGCGATGTAATGTGTGCAGCATAAACGCCTCAAAACCTCAAAATAACATCGTAGTTGGCG -AGTTCGCGGCGTAAGGCATCTGCTTCGAGCGGCGTGGCTTCGACAACAAAGGGTGTCTGCGGATCTAACCCGCGT -TCGCGCAGTGAAGCCGCACAAACCCAGCACTGTTCAATGTCGTACAGACCCAACAATTTAAAAGTGGCAATGTAA -TCACGCGCCAGCACTGCATCGGGCTTTTGTCCTGGCAGCAGCTGAAAAACGCCATCAGCTATAAAGAAGACAGCC -AGATCGTCAGTTAATGCGGAAGTTGCCAGTAAAGCATCTAAACCTTCCCGGCCTGCGGCTGTACCATGAGGTGCA -GTAGAAAAAACAAACGCAATTCGTTTCATCAGAACTGTACCACCCTGTCACAGGTCAGCGAGGCTTCCGCCAGCG -CCCCAAGTCCGCTTAAGGTAAATCCCTGCTGAAGGTTTGACGAAGCCAGCCCCAGTCTTCCGGCCTCCGTTTCAT -CAACAACGCCACGGCGTAATGCTGCCGCTACGCAGATATTCAGCGCCACACCATGTTGCGCATTCAGTTGTTGCC -AGGCCCGTACGAGGTCAAATTCGTCACTTGCCGGAGAGGTCAATTGGTTAGCGTTATAGACCCCTTCCCGATAGA -AAAAGACGCTGCTTAACTCATGGCCATCTGCTATCAGCGCCTGCGCAAACTGAAAAGCACTACTCGCCTGTTGCG -TACCGTATGCTGGCCCGGTCACCACGATGGCAAAACGCATTACTTATCTTGCCCCTGGAAATCACCGCTCTTGAA -CTGGCGGATGTAGAGATAGACAGTGTGTTTGGAGATGTTCAGGCGGTCAGCAACCTGGTTGATCGCATCTTTAAT -ATCGAAGATCCCTTTCTCGTAGAGATTCAGCACGATCTGACGATTTTTGGCGTTATTAGAAACATTGCGATCGGC -ATTCACTTCTTCGATGGTGAACTCCAGCGTTTGGGTAACCAGATCTTCAACAGAAGAGGCAAAGTTGACGCTTGA -ACCGACATCCGGGGTTTCTGGCGGCACAAAGGTGCTCATAATCTGCGAGAAGGGAACATCAAGATTCATATTGAT -GCACAGCAGACCAATTACACGCTGTTCGCGGTTACGAATCGCGATAGTCAGGGACTTCATTAATACGCCGCTTTT -GGCGCGAGTAAAGTAGCATTTAGAAACGCTGCTATCCGCTCCCGTCATATCGTGCAGCATACGTAGCGCCAGGTC -AGTAATTGGCGAACCAATCTTCCGGCCTGTATGTTCACCGTTAGCAATGCGAATGGCTGAACATTTTAGATCCTG -CAAAGAGTGCAAAACGATTTCACAGTGGGAGCCAATAAGCATCGCTAACCCGTCCACCACCGCTTCGTAGGATTT -CAGAATATCAAAATCGGTCTGGTCGAAAGGACGTTGATCCAGTAAATCCAACTCACTGGTTTCGTTGGTTAAAAG -CGACCTGGACATGAAAAAAAACACTCCTTTTCAGGAGCCTGTCGTTAACTTTTCAGGGCAGGCTCATTAATGATG -CGGGTAACTAAATTAATACAGCGGAGGTTCCGCTTTCCAGCACTAATTATATCCGGCCTGTAATAAAAAAACCGC -CGCCTGGTCAGGCGGCGGTTCTTAATGCTTATTTTTTAGCAGAATCTGCGGCTTTCGCATCAGCTTCCGGCTTTG -CATCAGCCTTCGGCGCTGGTTTCACATCCAGCAGCTCTACGTCAAACACCAGGGTAGAATTCGGTGGGATCCCCG -GAACACCCGCTTTGCCGTAAGCCAGTTCTGGTGGAATAACCAGTTTGATCTTACCGCCTTTCTTGATGTTCTTCA -GACCTTCTGTCCAACCCGGGATAACACCGTCCAGACGGAAAGAAAGCGGTTCACCACGGGTGTAAGAGTTGTCGA -ACTCTTTACCGTCGATCAGCGTACCTTTGTAGTTCACTACAACAGTATCGCTGTCTTTCGGTGCTTCGCCTTTAC -CGGCTTCTACTACCTGATAAACCAGACCAGTTGAAGAGGTTTTCACACCTTTCTCTTTGGCAAATTTCTCGCGGT -ACTCTTTACCTTTTGCTTCGTTATCAGCCGCGTCTTTTTCCATCTTCGCCTGAGCAGAAGACTTCACGCGAGCTT -CGAATGCTTGTAGAGTCTGTTCGATCTCTTGGTCGGAGAGTTTGCTCTTATCAGCAAATGCATCCTGAACACCAG -CGATCAGCTGATCTTTATCCAGTTTGATGCCCAGTTTTTCTTGTTCTTTTAGAGAGTTTTCCATGTAACGACCCA -GCGAGGCACCCAGTGCATAAGCTGATTTCTGATCGTCATTTTTGAACGCTGCTTTGCTGTCAGCAGCTGTAGCAG -GTTTTGCAGCTTCAGCAGCAAAAGTGATTGGTGCATGCAGGGCAACGGCCATTGTGGTCGCCAGCAGCGTTACTT -TAAACAGTGATTTCATCCATATCTCCAGGATCGGGGCATCTCACCCCAGGGTTAACTATTATCAGAAGGGTACTA -TAAAGCGTTGTCGAACAAATCTACATACAGACACGCCCTATTATCATCTATTTTCAGACTCTTTTTGTTTAAATT -AGTTTCGATGACCGCGAAATGAGTGCTGTCTCGGGCAGCAAAGTTAAGTAGAATCCGCGGCGACCATTCGACAAA -AGAGGTGAATCATGCAGGATTTATCATTGGAAGCACGCCTGGCAGAGCTGGAGAGCCGACTGGCTTTTCAGGAAA -TCACCATTGAAGAACTGAACGTCACGGTGACCGCTCATGAAATGGAGATGGCGAAACTGCGCGATCATCTGCGTC -TGCTGACCGAGAAGTTAAAAGCCAGCCAGCCGTCGAACATCGCGTCGCAGGCTGAAGAAACGCCACCGCCACATT -ATTGAGGCGTAAAAAAAGCGGGGATTCCCCGCTTTTTTGTCACTTTTTCGGTATTAGTGGCAACCGCAACCGCCG -TTGCCTTTACCGCCACAGCAGCCTTCGCCACCGTGTTCATGACCGTGATCGTGGCCATGACCGCCGCAGCAACCG -TCGTGGTCGTGATCGTGGTGGTGATCGTGCGCGCCGTGAACGTGACCATGAGCCAGTTCTTCTTCAGTCGCTTCG -CGAATCGCCACAACTTCAACGTTGAATTTCAGGTTCTGACCGGCCAGCATGTGGTTACCATCAACCACGACGTGA -TCGTCTTCAACCGCAGTGATTTCAACCGGTACCGGACCCTGGTCGGTTTCAGCCAGGAAACGCATACCTACCTGC -AGTTCATCAACGCCCATAAATACGTCTTTAGGAACACGTTGCACCAGGTTTTCGTCGTACTGACCGTAAGCGTCG -TTCGCGCCAACAGCGACATCAAATTTGTCGCCAACTTCATGACCTTCCAGCGCCGTTTCCAGGCCAGAGATCAGG -GAACCGTGACCATGCAGGTAGTCCAGCGGCGCACTCACCGGAGACTCATCAACCAACACACCGTCTTCTGTACGT -ACCTGATAGGCCAGGCTGACCACCAGGTCTTTTGCTACTTTCATGATATCTCCTGAGCATGGGAAGAATAGTGGC -GCAGATTGTAGCGGAATTCTGCAGCCGTGTACTCACTAGCTTAAAAAAACTCGGCGCATATCGCTAGTCCGGATG -AAAAATCCCGATCACTTGCTCATCTTTGCGAACGTGATCGCGGGCTTCTTTGTCTGCTTCTCGCATCTGATGTCC -GCACTTAACACATTCAACAATATCAATATTATTTTCGCGCCACATCGCCATTGAATCCTGCGCCTGACAGGCCGG -GCATTTTGCGCCCGCAATAAAACGTTTTCGGATTGCCATCTTTACCCTCTACTCAAATTCATCCCAGCCGTCCAG -CTGGCGTCGTTCTTGTTGCATTTCACGCTGGAAAATCTCTTCCAGTTCGCGTCGGGCTTCCCTGGCGCGAGAAAT -TTGTACGGTATCGGCATGCATTGGGATGAGCTCTCGCAGCATCCGCATATCCAGGCGGCGAAAATGCAGTTGCGC -TCGCTGTGCCTGATGCGGATGCATGCCAAGCGTGACCAGCGTCTTGCGCCCCAGCTCTAACGCACTGGAGAATGT -TTCACGGGAAAACTGCGTCACCCCTGCCTGTAATAACTCATGCGCTTCCACACGTCCGCGCGCTCGCGCAAGAAT -ATGCAAATGCGGAAAGTGCTGTTGGCATATTTCCACCAGCTTCATGGTGTCTTCCGGCTCGTTACAGGTAATGAC -GATAGACTCAGCGGCCTCTGCACCCGCAGAACGTAAAAGATCGACCTGCGTGGCGTCGCCGTAATAAACTTTGTA -GCCGTATTTACGCATCAGGTTAACGGCGCTGATATCCCGCTCCAGCACGGTAATGCGCATTTTATTTGCCATCAG -CAAACGACCAATCACCTGACCAAAACGCCCGAAGCCCACGACAATGACCTGGGGTTTATCATCGTTGACCCACGG -TTTTTCGTCTTCTTCTTCCGGTCCGTTAAACTGGCGGGATAGCCATTTATCCACCAGCTTCATCAGCAACGGCGT -GGTCATCATGGAAAGCGTCACCGTCACCAGCAACAACGCCATCTGGTCGCCCTGGAATAAGCGTTGTGAAGAAGC -GGTAGAAAAGAGGACAAAGGCAAACTCACCACCCTGACTCAACACGCCAGCAAACTGCATCCGCTCTGAGCTACG -CACGCCATACAATCGCGCCAGCAGATACAGCACGAGAATTTTCACCGCCACCAGCACAACCACGCTTATCACTAC -CCACAACAGATGGGTATAAAGCACCCCGAGGTTGAGTGACATGCCGACAGAGATAAAGAACAAACCGAGCAGCAA -GCCTTTGAAGGGATCGATAGCCGTTTCCAGTTCATGGCGATATTCACTTTCCGCCAGCAGCACGCCCGCAATAAA -TGTACCGAGCGCCATCGACAGCCCCAGCGCATCCATAAACAATGCGGAACCCAACACCAGCAGCAGCGTCGCGGC -GGTGAACACTTCCCGCACGCCAGAAGCTGCAATAAAGCGGAATACCGGACGCAGTAAATAGCGCCCACCAATCAG -CATGCCGACAAACGCCAGCACCTTCATGCCGACCTTCATCCAGTCGAAATGTTCGTCTGCCGACCCCGCCAACAA -CGGCACTAACGCCAGTGCTGGGATTACTGCCAGATCCTGAAACAGCAGAACCGAAAACCCGAGCTGGCCGGATTC -GCTGCGATTCATCCCTTTCTCACGCATCAATTGCAACGCCATTGCAGTTGAAGACATCGCAAGGCCAATGCCACC -GACCACCGCCGCCTGCCAGGCGAAATCCGTCAGCATCAATAATCCCGCCAGCAACGCCGCGCTTAACAGCACCTG -TGCCGCGCCTACGCCAAAAATCGAACGCCGCAGTTGCCAAAGTTTGGAGGGATTCAACTCAAGGCCGATGATAAA -CATCAGGAATACCACGCCGAGTTCCGAAAAGTGGAGGATCTCATCGACGTCGCTAATAAACCCCAGCCCCCACGG -GCCAATTGCAATCCCTGCCAGCAAATATCCCAACACAGCGCCAATACCCAGCCGCGATGCCAGCGGCACCGCAGC -CACCGCCGCGAAGAGAAACAGCACTCCTGCGAGTAAAAAATCGGAACCTTCCATCAGCGGCCTCCTGGAGACAGC -GGATTTGCCAGCCAGTCACCGTAGGCTCTGGCGTGGCTCGCCAGCTCCTGTGCGCTTTGCCGTCTCGCCCAGTAA -ATAATGATGGGACTTAACCAATGCATCCGGCACATGCCCGCCGCCAGTTCAAAGGGGCGCAGCACATCGCTCATC -GGGTAGCGATTCAGCGCGTCATAACGGTAAGCACTTTCCGGCTCGCCGGTGGTAATCACGCTACGCCAGTACTTT -CCCGCCAGTTGGTTTCCTCCCGGCCCGCTGGCAAAACCACGACTTAATACCCGGTCCAGCCACTCTTTCAGTAGC -GCCGGGCAGCTATAGGTATAAAGAGGATGCTGAAAGACAATCACCTCGTGCTCGCGCAGTAATGCCTGCTCACGG -GGGATATCAATAAAAAAATCGGGATAGTGCGCGTAAAGGTCGTGCACGGTAACATTGCTGAGCTGCGTGGCCGGT -TTAAGCAGTACCCGGTTTGCCACCGAGTCCTGAGATTCCGGATGGGCATACAGCAGCAAAACTTTCGCTGGCTGA -GACATCATCCCCCTCCCGGTATGGTTTTTGTGTATAGTCGCTGTTTTGGGCTACCATTGCGCCCGGTGCGGCAGC -TCGCCCATACATTACATTATCATAATGATAAGTTAACATAGTCTGAACATACGGCACCTTATGATTGTTTTCTCC -TCGTTACAAATTCGTCGCGGCGTGCGCGTCCTGCTGGATAATGCCACCGCCACCATCAACCCTGGGCAGAAAGTC -GGCCTGGTGGGTAAAAACGGCTGTGGTAAATCTACCCTGCTGGCATTGCTGAAAAATGAAATCAGCGCCGACGGC -GGCAGCTACACCTTTCCGGGAAGCTGGCAACTGGCGTGGGTGAATCAGGAAACGCCGGCGTTACCGCAAGCGGCG -CTGGAATATGTCATTGACGGCGACCGTGAATATCGTCAACTAGAAGCGCAGCTACACGACGCCAACGAACGTAAC -GACGGGCACGCCATTGCGACCATTCATGGCAAGCTGGATGCTATTGACGCATGGAGTATTCGCTCCCGTGCTGCC -AGCCTGCTGCACGGCCTCGGTTTCAGCAATGAACAACTGGAGCGCCCGGTAAGTGATTTTTCCGGGGGCTGGCGT -ATGCGTCTTAACCTTGCCCAGGCGCTGATTTGCCGTTCAGACTTGCTGCTGCTCGACGAACCGACTAACCACCTC -GATCTCGATGCCGTTATCTGGCTGGAAAAATGGCTGAAGAGCTATCAGGGCACGCTGATCCTGATCTCTCACGAC -CGCGACTTCCTCGATCCGATCGTCGATAAAATTATTCATATCGAACAACAAAGCATGTTCGAGTACACCGGCAAC -TACAGTTCGTTTGAAGTACAGCGCGCCACCCGTCTGGCGCAGCAACAAGCGATGTACGAAAGCCAGCAGGAACGC -GTAGCGCATCTGCAAAGTTATATCGACCGTTTCCGTGCCAAAGCCACCAAAGCGAAGCAGGCCCAGAGCCGCATT -AAGATGCTCGAGCGTATGGAGCTAATTGCCCCCGCGCACGTCGACAACCCGTTCCGCTTTAGCTTCCGCGCGCCG -GAAAGCCTGCCAAATCCGTTACTGAAGATGGAAAAAGTCAGCGCGGGCTATGGCGATCGCATTATTCTCGACTCG -ATTAAACTGAACCTGGTGCCCGGCTCGCGTATTGGTCTGTTAGGCCGCAATGGCGCGGGTAAATCGACATTAATC -AAACTGTTAGCCGGTGAACTTGCGCCAGTCAGCGGTGAAATTGGTCTGGCGAAAGGGATCAAACTCGGCTACTTC -GCCCAGCATCAACTTGAATACCTGCGCGCCGACGAATCACCTATTCAACATCTGGCACGTTTAGCGCCGCAGGAG -CTGGAACAAAAACTGCGTGACTACCTCGGCGGCTTTGGTTTCCAGGGCGATAAAGTAACCGAAGAAACGCGCCGC -TTCTCCGGTGGGGAAAAAGCCCGCCTGGTGCTGGCATTAATTGTCTGGCAGCGGCCGAATCTGCTGCTGCTCGAC -GAACCGACTAACCACCTTGACCTCGACATGCGTCAGGCACTCACCGAAGCATTAATCGAGTTTGAAGGCGCGCTG -GTTGTCGTTTCGCACGACCGTCATTTGCTGCGTTCCACCACTGACGATCTCTACCTGGTTCACGATCGTAAAGTC -GAACCGTTCGACGGCGATCTGGAAGATTATCAACAGTGGTTGAGCGACGTACAAAAGCAGGAAAACCAGACCGAC -GAAGCGCCAAAAGAGAATGCGAACAGCGCCCAGGCACGTAAAGATCAGAAGCGTCGGGAAGCTGAGCTGCGTGCG -CAAACCCAGCCACTGCGTAAAGAGATTGCCCGTCTGGAAAAAGAGATGGAGAAGCTGAACGCGCAACTGGCGCAG -GCGGAAGAGAAACTCGGCGACAGCGAACTGTATGACCAGAGCCGTAAAGCGGAGTTGACCGCCTGCCTGCAACAG -CAAGCCAGCGCCAAATCCGGCCTGGAAGAGTGCGAAATGGCATGGCTGGAAGCCCAGGAGCAGCTTGAGCAGATG -CTGCTGGAAGGCCAAAGCAACTGATGGCGCAGATAACGACGACCGATGCCAATGAATTCAGCAGCAGTGCTGAAT -TCATCCCCATGCGCGGCTTTAGCAATTGTCATCTGCAAACCATGCTGCCGCGTCTGTTTCGTCGTCAGGTGAAAT -TCACCCCGTACTGGCAGCGGCTGGAGTTGCCCGACGGCGATTTTGTCGATCTTGCGTGGAGTGAAAACCCTGCAC -AGGCGCAACATAAACCTCGTCTGGTGGTGTTTCACGGGCTGGAAGGCAGTCTCAACAGCCCTTACGCCCACGGTC -TGGTTGAGGCGGCGCAAAAGCGCGGCTGGCTGGGCGTGGTGATGCATTTTCGCGGATGCAGCGGTGAACCAAACC -GTATGCACCGCATTTACCATTCGGGCGAAACCGAAGACGCCAGTTGGTTTTTACGCTGGCTGCAACGCGAATTTG -GTCATGCGCCAACGGCTGCCGTCGGCTATTCGCTCGGCGGTAATATGCTGGCCTGTTTGCTGGCAAAGGAAGGCA -ATGATCTCCCGGTTGATGCGGCGGTGATTGTCTCTGCGCCGTTTATGCTGGAAGCCTGTAGCTATCATATGGAAA -AGGGCTTTTCCCGCGTTTATCAGCGTTACTTGCTGAACCTGTTAAAAGCCAATGCCGCGCGCAAGCTGGCAGCCT -ACCCCGGAACGCTGCCGATTAATCTCGCGCAGTTAAAATCGGTACGTCGCATCCGTGAATTTGACGATCTCATCA -CCGCCAGAATTCACGGCTACGCCGACGCTATCGACTATTATCGTCAGTGTAGCGCCATGCCGATGCTGAACCGGA -TCGCCAAACCGACGCTGATTATTCACGCCAAAGACGATCCGTTTATGGATCATCAGGTGATCCCGAAACCGGAAA -GTCTCCCCCCGCAGGTGGAGTATCAACTGACTGAACATGGCGGTCATGTTGGCTTTATTGGCGGTACATTACTTC -ATCCGCAAATGTGGCTGGAGTCACGCATTCCTGACTGGTTAACAACGTATCTGGAGGCGAAATCATGTTGATTCC -GTGGCAAGACCTCTCCCCCGAAACGCTGGAAAATTTAATTGAAAGCTTTGTGTTACGTGAAGGCACCGATTATGG -TGAACATGAGCGTACACTTGAACAGAAAGTCGCCGACGTCAAACGCCAGCTACAGTGCGGAGAAGCGGTGCTGGT -ATGGTCGGAGCTGCACGAAACGGTCAATATTATGCCGCGCAGTCAGTTTCGCGAATAACCTGCAACCGTCGGCGG -ACGAGATAATAATGATAGCTAAGTCATGGAGTTACTATGTCTGCCAAACATCCGGTCATTGCGGTAACAGGATCC -AGCGGCGCGGGGACCACCACCACCAGCCTCGCGTTTCGTAAAATATTCGCGCAGTTAAATCTGCATGCAGCTGAG -GTGGAAGGCGACAGTTTTCACCGTTACACCCGCCCGGAAATGGACATGGCGATCCGCAAAGCGCGCGACGCCGGG -CGGCATATCAGCTACTTCGGCCCCGAGGCTAACGACTTCGGCCTGCTGGAACAAACCTTCATTGAATACGGTCAG -AGCGGCAAAGGGAAATCTCGCAAATATCTGCATACCTACGACGAAGCCGTACCGTGGAATCAGGTACCGGGGACA -TTCACCCCCTGGCAACCTTTACCGGAACCCACTGATGTACTGTTTTATGAAGGTTTACACGGCGGCGTAGTCACG -CCACAGCATAACGTTGCGCAGCATGTGGACTTACTGGTCGGCGTGGTGCCTATCGTTAACCTTGAGTGGATTCAA -AAACTGATCCGCGACACCAGCGAGCGCGGGCACTCACGAGAAGCAGTGATGGACTCAGTAGTGCGTTCAATGGAA -GACTATATCAACTACATCACACCGCAGTTTTCCCGCACCCATCTTAACTTCCAGCGCGTTCCCACCGTCGACACT -TCAAACCCGTTCGCGGCAAAAGGTATCCCGTCGCTCGATGAAAGCTTTGTGGTGATCCATTTTCGTAATCTGGAA -GGGATCGATTTCCCCTGGCTGCTGGCGATGTTGCAAGGCTCATTCATTTCCCACATCAATACGTTAGTGGTACCG -GGCGGCAAAATGGGTCTGGCAATGGAATTAATTATGCTGCCGCTGGTGCAACGATTGATGGAAGGAAAGAAAATC -GAGTAACTCTGCTATTACGCCGGATAAAATACTATCCGGCTTCACAACGGGATAGTTAAGTCACGCGGCAACCAC -TTCATACGAGTGAGTAATATTCACCGCTTTTTCCAGCATCAACGCCACTGAACAATATTTCTCGGCAGAGAGATC -AACCGCACGCGCAACCGCTGCGTCTTTCAGGTCGCGACCGGTGACGATAAAATGCAGATTAATGTGCGTAAACAG -GCGTGGTGCCTCTTCGCGGCGTTCAGAGGTCAATTTTACTTCACAATCGACCACATCCTGACGCCCTTTTTGCAG -GATCGAAACCACATCGATGGCACTGCAACCACCCGCCGCCATCAACACCATTTCCATCGGACTTGGTGCTTTATC -GCCTGAGTTGCCGTCCATTAAAATCTGATGACCAGAGGCGGATTCGCCCAGAAAAGTTAACCCTTCGACCCACTT -CACTCGCGCTTGCATTTTTGCTACTCCACTGCGTCAATTTTCCTGACAGAGTACGCGTACTAACCAAATCGCGCA -ACGGAAGGCGACCTGGGTCATGCTGAAGCGAGACACCAGGAGACACAAAGCGAAAGCTATGCTAAAACAGTCAGG -ATGCTACAGTAATACATTGATGTACTGCATGTATGCAAAGGACGTCACATTACCGTGCAGTACAGTTGATAGCCC -CTTCCCAGGTAGCGGGAAGCATATTTCGGCAATCCAGAGACAGCGGCGTTATCTGGCTCTGGAGAAAGCTTATAA -CAGAGGATAACCGCGCATGGTGCTTGGCAAACCGCAAACAGACCCGACTCTCGAATGGTTCTTGTCTCATTGCCA -CATTCATAAGTACCCATCCAAGAGCACGCTTATTCACCAGGGTGAAAAAGCGGAAACGCTGTACTACATCGTTAA -AGGCTCTGTGGCAGTGCTGATCAAAGACGAAGAGGGTAAAGAAATGATCCTCTCCTATCTGAATCAGGGTGATTT -TATTGGCGAACTGGGCCTGTTTGAAGAGGGCCAGGAACGTAGCGCATGGGTACGTGCGAAAACCGCCTGTGAAGT -GGCTGAAATTTCGTACAAAAAATTTCGCCAATTGATTCAGGTAAACCCGGACATTCTGATGCGTTTGTCTGCACA -GATGGCGCGTCGTCTGCAAGTCACTTCAGAGAAAGTGGGCAACCTGGCGTTCCTCGACGTGACGGGCCGCATTGC -ACAGACTCTGCTGAATCTGGCAAAACAACCAGACGCTATGACTCACCCGGACGGTATGCAAATCAAAATTACCCG -TCAGGAAATTGGTCAGATTGTCGGCTGTTCTCGTGAAACCGTGGGACGCATTCTGAAGATGCTGGAAGATCAGAA -CCTGATCTCCGCACACGGTAAAACCATCGTCGTTTACGGCACTCGTTAATCCCGTCGGAGTGGCGCGTTACCTGG -TAGCGCGCCATTTTGTTTCCCCCGATGTGGCGCAGACTGATTTATCACCCCGATATCAACTATGCACTTCGACAA -ACGCTGGTGCTATGTTTGCCCGTGGCCGTTGGGTTAATGCTTGGCGAATTACGATTCGGTCTGCTCTTCTCCCTC -GTTCCTGCCTGTTGCAATATTGCGGGCCTTGATACGCCTCATAAACGTTTTTTCAAACGCTTAATCATTGGTGCG -TCGCTGTTTGCCACCTGTAGCTTGCTGACACAGCTACTACTGGCAAAAGATGTTCCCCTGCCCTTTTTGCTGACC -GGATTAACGCTGGTACTTGGCGTCACTGCTGAGCTGGGGCCATTGCACGCAAAATTGCTTCCTGCATCGCTGCTC -GCCGCCATTTTTACCCTCAGTTTGGCGGGATACATGCCGGTCTGGGAACCGTTGCTCATCTATGCGTTGGGCACT -CTCTGGTACGGATTGTTTAACTGGTTTTGGTTCTGGATCTGGCGCGAACAACCGCTGCGCGAGTCACTAAGTCTG -CTGTACCGTGAACTGGCAGATTATTGTGAAGCCAAATACAGCCTGCTTACCCAGCACACCGACCCTGAAAAAGCG -CTGCCGCCGCTGCTGGTGCGCCAGCAAAAAGCGGTCGATCTAATTACCCAGTGCTATCAGCAAATGCATATGCTT -TCCGCGCAAAATAATACTGACTACAAGCGGATGCTGCGTATTTTCCAGGAGGCGCTGGATTTACAGGAACATATT -TCGGTCAGTTTGCATCAGCCGGAAGAGGTGCAAAAGCTGGTCGAGCGTAGCCATGCGGAAGAAGTTATCCGCTGG -AATGCGCAAACCGTCGCCGCTCGCCTGCGCGTGCTGGCTGATGACATTCTTTACCATCGCCTGCCAACGCGTTTT -ACGATGGAAAAGCAAATTGGCGCACTGGAAAAAATCGCCCGCCAGCATCCGGATAATCCGGTTGGGCAATTCTGC -TACTGGCATTTCAGCCGCATCGCCCGCGTGCTGCGCACCCAAAAACCGCTCTATGCCCGTGACTTACTGGCCGAT -AAACAGCGGCGAATGCCATTACTTCCGGCGCTGAAAAGTTATCTGTCACTAAAGTCTCCGGCGCTACGCAATGCC -GGACGACTCAGTGTGATGTTAAGCGTTGCCAGCCTGATGGGCACCGCGCTGCATCTGCCGAAGTCGTACTGGATC -CTGATGACGGTATTGCTGGTGACACAAAATGGCTATGGCGCAACCCGTCTGAGGATTGTGAATCGCTCCGTGGGA -ACCGTGGTCGGGTTAATCATTGCGGGCGTGGCGCTGCACTTTAAAATTCCCGAAGGTTACACCCTGACGTTGATG -CTGATTACCACCCTCGCCAGCTACCTGATATTGCGCAAAAACTACGGCTGGGCGACGGTCGGTTTTACTATTACC -GCAGTGTATACCCTGCAACTATTGTGGTTGAACGGCGAGCAATACATCCTTCCGCGTCTTATCGATACCATTATT -GGTTGTTTAATTGCTTTCGGCGGTACTGTCTGGCTGTGGCCGCAGTGGCAGAGCGGGTTATTGCGTAAAAACGCC -CATGATGCTTTAGAAGCCTATCAGGAAGCGATTCGCTTGATTCTTAGCGAGGATCCGCAACCTACGCCACTGGCC -TGGCAGCGAATGCGGGTAAATCAGGCACATAACACTCTGTATAACTCATTGAATCAGGCGATGCAGGAACCGGCG -TTTAACAGCCATTATCTGGCAGATATGAAACTGTGGGTAACGCACAGCCAGTTTATTGTTGAGCATATTAATGCC -ATGACCACGCTGGCGCGGGAACACCGGGCATTGCCACCTGAACTGGCACAAGAGTATTTACAGTCTTGTGAAATC -GCCATTCAGCGTTGTCAGCAGCGACTGGAGTATGACGAACCGGGTAGTTCTGGCGATGCCAATATCATGGATGCG -CCGGAGATGCAGCCGCACGAAGGCGCGGCAGGTACGCTGGAGCAGCATTTACAGCGGGTTATTGGTCATCTGAAC -ACCATGCACACCATTTCGTCGATGGCATGGCGTCAGCGACCGCATCACGGGATTTGGCTGAGTCGCAAGTTGCGG -GATTCGAAGGCGTAATGCAGGCTAAACCATCGGATAAGGCATTCACGCCGCATCCGACATCTTTTGCCTGATGCT -TCGTATTTACGCCCCAACCACCTTCGCCACCGCGTGGGCGAAACGTTGCATCCCTTCATCGATATCCGCATCTTC -CACCACCAGCGACGGTGCAAAACGCATCACATCCGGTCCGGCATTCAGCACCATTACGCCAGCCTCTGCGCCCGC -ATACAGGAAATCACGCGCCCGACCTTTGTACTGTGGTTTCAGCTCTGCGCCAATCAACAGCCCCATACCGCGAAT -ATCGCTAAATACATCGTACTGCTGATCGATCTTCTGCAGATGGTCAACAAAACGCTGGCGTTTCGCCTGAATGCC -TTCCAGCACTTCAGGGGTATTGATGATATCAAACGCCGCCCCCGCTACTGCACAGGCCAGAGGATTACCGCCGTA -GGTGGAACCGTGAGAACCAGGATGAAACGCAGAAGCAATTTCCGCCGTGGTCAGCATGGCGCTAATCGGGAAGCC -GCCGCCTAACGCTTTCGCAGAGGTCAGAATATCCGGCGTAACGCCGTAGTGCATGTAAGCAAACAAATCGCCGGT -CCGCCCCATCCCGCACTGCACTTCATCAAACACCAATAATGCCTGATGTTGATCGCACAGCTCGCGCAAGCCCTG -CAAAAACTCTGGCGTCGCTGCCGTCACACCGCCCTCGCCCTGGATCGGCTCAACCACCACCGCACAGGTGTGATC -ATCCATCACCGCTTTCACTGCATGGAGATCGTTAAAGGGAACGTGGATGATGTCTGCCGGTTTCGGCCCAAAGCC -GTCGGAATATTTTGGCTGCCCACCCACCGAAACGGTAAACAGCGAGCGACCATGAAAAGCGTTATGGAAGGCAAT -AATTTTGGTTTTGAACGGGCTATGACGCACACAGGCGTAATGGCGTGCCAGTTTAAAGGCGGTTTCGTTAGCTTC -CGTGCCGGAGTTCATAAACACCACGCGTTCGGCAAACGTTGCCTCAATCAGTTTACGCCCAAGACGCAGCGCCGG -TTCATTGGTGAAAACGTTACTGATATGCCACAGAGTTTCGCCCTGGGTTTTTAACGCGTTCACCAGCGCAGGATG -GCAATGGCCCAACGCCGTAACTGCAATGCCACCCGCGAAATCGACATACTCCTTGCCTTGCTGATCCCAGATTCG -GCTGCCCTGACCTTTTACCGGAATAAACTCTGCCGGAGCATAAATCGGCAGGATCACTTCATCGAAAGTCGCGCG -TGTAATTGCTGTTTGTTCAATTGCCATCTCATGATCACCCTGTTACGCATAAACAAATGTGAAATTATAACCACA -AAATATGCATAAAAAATCACTAAATGGCAATCAGAAATCAGCGATGCAGGAAATTAGCCAGCAGTTGATGTCCTT -GTTCGCTAAGAATACTTTCTGGATGGAACTGCACACCTTCCAGATCCCACTGGCGATGGCGAATCCCCATAATCT -CTCGGGTTTCGCTCCAGGCCGTCACGTCAAAGCACGCTGGTAATGAGTCAGGTTCCACCACCAGCGAATGGTAGC -GTGTCACGGTAAGTGGATTTGCCAGCCCCCGAAATACGCCCTCACCGTTATGTGTAATCGGCGAGGTTTTGCCGT -GCATGACCTTTGCGGCGCGCACAACTTTACCGCCAAATGCCTGCGCCATTGCCTGATGACCGAGGCAGACGCCAA -GAATCGGCAAGCGCCCGGCATAGTGGCGAATAACGTCAAGGGAGATCCCGGCTTCATCTGGCGTACAGGGGCCAG -GTGAGATGACAATTTTTTGTGGTTTAAGGGCGTCGATATCCGCCAGCGTCAACGCATCGTTGCGCTTAACCAGCA -CATCCGCCCCCAGTTCACAAAAGTACTGGTAGAGGTTCCAGGTAAAAGAATCGTAGTTATCTATAAGCAGGATCA -TGGCGGCTCCGGTACAAAAGAACCGCGCTATTTTACTCAGATTCCCCGGCTTCGCTTACCACTTTGCTAAATATC -ATCTGCAGTGCGGTGAGATCCCCCATTGCCCCACTCTGATTTGCCTGATTCCAGGCCTCTTTTTCGATACCCTGC -CAGCTCAGTTGATATCCGGCATGAATCGCCAGTTGCTCGAAGAAGATCCGCTGTGCCAGACCACTTCCCACCCGG -AAGGGATGCAGCACGTTGATTTCACAATAGTAATGCGCCAGCCGCTCGACGAACTTCGCTTTCTCCAGGCCAACC -AGATAACCTTCTTCCTCCAGATCCTGCATCAGGGCATTGCCCTCTTTTTCGATATAAGCAAAGTGGCAGAACGGC -GTATCACCCTGATAAATATCAACTTCACGCAGTTGCCCTGCCCAGTCGAAAATATCCTGATACAGCTGGCGATGG -ATAGTTCGCAAATGCGGTAAACCGCGCACCAGCGGACCAAGCTCAATGGTCGCAGCACGCAGCGCCGTCATTTCG -TAAGCGGCCTGTTCCAGCCGCTGCTGCTGGCGGATGTTCAGCCGGTTACGCATGATATCAAGGCCTGGATAAAGA -TACGGATCGCGCCCTTCGCCGAATTTATCGCTCATAGTGACTCCTCAGCTCTTCAAGGCGCGCTAAAGCCTCTGC -GGCAGTAAGAGTGACTAAAGGCATCTCGACGCCTTCAAGACGGCGACTGGCCTGAAAATTACGATTACGCTGAAG -CTCCCAGAGACGGGACTTTTGCTTATCGGTGAGTTTCTTCACTTGATGCCTCCCTGAACGTGTCCATTTGCCACA -AGTATAAGCGGCAAATCCGGGTTACGCCGGGAGAGCAGAAGCGCGGGCAAGATTGCCCGCGCGAGAAATCATTAC -GGCAGGACTTTAGCGGAAAGGATAACTACCGGTTTTGACGGCACATTCTGGTACGGACCAACGTCATGAGTCGGC -ACCTGGGAAATCTTATCGGCAACGTCCATGCCTTTCACCACTTTACCAAATACCGCGTAACCGAAATCACGCTGA -CCATGGTCAAGGAAGGCGTTATCGGCAACGTTGATAAAGAACTGGCTGGTGGCGCTGTCTTTGTCAGCGGTACGT -GCCATCGCGATGGTGCCACGCGTGTTGCGCAGGCCGTTATCGGCTTCATTTTTGATTGGCGGGTTTGGTTTTTTC -TGCTGCATCTGCTCGGTGAAACCGCCGCCCTGAATCATAAAGCCAGGAATGACGCGGTGAAAGGTAGTGTTGTTA -TAAAAACCGCTGTTCACATAATCGACAAAGTTTTGCACAGACACTGGCGCTTTTTGTTTATCCAGCTCCAGTTCG -ATGTTACCAGCTGAGGTTGTCAACAATACGTGCGGGTCCCCTTTCGCTGCCATTGCTGCGGGAGAAAGAGCAGAA -AGAGCGAAAACAGCAGCCATCGCCGCCAGGGTCGATTTGAACATGAGATTTCCTTAACAAACAGAGCAGAAAAAA -AGCAAGTGAAGAGATTCTAAATAGCCTTCAAGAACAAGGCCATCCCTTTACCTAATTTTACGTATCTGAAATATA -TGTAACCTGACGATCACTTTTTATTCCGTGATCAAAATCACCTCTTAAAATGCAATTTAGCAACCGATTGCAATA -AAACATTTAAACAGATCACAAAATCACCTAAAATCGCCCGCTCGCGGCATATCCCGCTATGCCATTTTATTTTTG -AACGCAGGCCAATCATGACTAACAGCAATCGCATCAAGCTCACATGGATTAGCTTTCTCTCCTACGCACTGACTG -GTGCGTTGGTTATTGTCACCGGGATGGTGATGGGAAATATCGCCGATTATTTCAATCTGCCTGTTTCCAGTATGA -GTAATACCTTCACCTTCCTCAACGCCGGCATTTTAATCTCTATCTTCCTCAACGCCTGGCTGATGGAAATCGTCC -CGTTGAAAACGCAGTTACGTTTTGGCTTTCTCCTGATGGTGCTGGCGGTTGCCGGTTTGATGTTCAGCCACAGCC -TGGCGCTGTTCTCGGCGGCGATGTTCATTCTCGGGGTGGTCAGCGGCATCACCATGTCGATTGGTACATTCCTGG -TAACACAAATGTATGAAGGGCGTCAGCGCGGTTCCCGCCTGTTATTTACCGACTCCTTCTTCAGTATGGCTGGGA -TGATTTTCCCAATGATCGCCGCGTTTCTACTGGCGCGCAGCATTGAGTGGTACTGGGTTTATGCCTGCATCGGGC -TGGTGTATGTCGCTATTTTTATTCTGACCTTCGGCTGTGAGTTCCCGGCGCTGGGCAAACATGCGCCAAAAACGG -ATGCTCCGGTAGAGAAAGAAAAGTGGGGGATCGGCGTACTGTTTCTCTCTGTTGCGGCGTTGTGCTACATCCTCG -GTCAGTTAGGTTTTATCTCCTGGGTGCCTGAGTATGCCAAAGGCCTGGGCATGAGCCTGAACGACGCGGGCACGC -TGGTGAGTAACTTCTGGATGTCATACATGGTCGGCATGTGGGCGTTCAGCTTTATTCTTCGCTTCTTTGATTTGC -AACGCATTCTGACCGTACTGGCTGGTCTGGCTGCGATTCTGATGTACGTCTTTAACACCGGAACACCAGCACATA -TGGCGTGGTCAATTCTCGCTCTGGGCTTCTTCTCCAGCGCGATCTATACCACCATCATCACCCTGGGTTCACAGC -AGACCAAAGTACCGTCGCCAAAACTGGTTAACTTTGTCCTGACCTGCGGAACCATCGGTACTATGTTGACCTTTG -TGGTTACCGGCCCGATCGTTGAACATAGCGGTCCGCAGGCGGCACTGCTTACAGCAAACGGTCTGTACGCTGTCG -TCTTTGTGATGTGCTTCCTGTTAGGTTTCGTCAGCCGTCACCGTCAGCATAACACCCTGACCTCTCATTAATTGC -TCATGCCGGACGGCACTATCGTCGTCCGGCCTTTTCCTCTCTTCCCCCGCTACGTGCATCTATTTCTATAAACCC -GCTCATTTTGTCTATTTTTTGCACAAACATGAAATATCAGACAATTCCGTGACTTAAGAAAATTTATACAAATCA -GCAATATACCCATTAAGGAGTATATAAAGGTGAATTTGATTTACATCAATAAGCGGGGTTGCTGAATCGTTAAGG -TAGGCGGTAATAGAAAAGAAATCGAGGCAAAAATGAGCAAAGTCAGACTCGCAATTATCGGTAACGGTATGGTCG -GCCATCGCTTTATCGAAGATCTTCTTGATAAATCTGATGCGGCCAACTTTGATATTACCGTTTTCTGTGAAGAAC -CGCGCATCGCTTATGACCGCGTACACCTCTCGTCTTACTTCTCTCACCACACCGCCGAAGAGCTGTCGCTGGTGC -GCGAAGGCTTCTACGAGAAACACGGCATCAAAGTTCTGGTCGGCGAACGCGCTATCACCATCAACCGTCAGGAGA -AGGTGATTCACTCCAGCGCCGGACGTACCGTTTTTTATGACAAGCTGATCATGGCAACCGGTTCCTACCCGTGGA -TCCCGCCAATCAAAGGTTCTGATACTCAGGACTGCTTTGTCTATCGCACTATTGAAGACCTCAACGCCATTGAAT -CCTGCGCCCGTCGCAGCAAACGCGGTGCCGTTGTTGGTGGCGGCCTGTTAGGTCTGGAAGCCGCAGGCGCGCTGA -AAAACTTAGGTATTGAAACCCACGTTATCGAATTTGCCCCTATGCTGATGGCAGAACAGCTTGATCAGATGGGCG -GCGAGCAGCTGCGTCGCAAAATCGAAAGTATGGGCGTGCGCGTTCACACCAGCAAAAACACCCTTGAGATTGTGC -AGGAAGGTGTTGAAGCGCGTAAAACCATGCGTTTTGCCGACGGCAGCGAACTGGAAGTCGACTTTATCGTCTTCT -CTACCGGTATCCGTCCGCGCGATAAGCTGGCAACCCAGTGTGGTCTGGACGTTGCTCCGCGTGGGGGTATTGTCA -TTAATGATTCCTGCCAGACTTCCGATCCGGATATCTACGCCATCGGTGAATGCGCAAGCTGGAACAACCGTGTAT -TTGGTCTGGTAGCACCTGGCTACAAAATGGCGCAGGTCGCCGTTGACCATATTCTCGGTAGCGAAAACGCCTTTG -AAGGTGCTGACCTTAGCGCCAAGCTGAAACTGCTGGGCGTAGACGTAGGCGGTATTGGTGATGCGCACGGTCGCA -CGCCTGGCGCACGTAGCTACGTTTACCTCGACGAAAGTAAAGAGATCTACAAACGCCTGATTGTCAGCGAAGACA -ACAAAACCCTGCTCGGTGCGGTACTGGTGGGCGATACCAGCGACTACGGTAACCTGCTGCAACTGGTGCTGAACG -CTATCGAACTGCCGGAAAACCCGGATTCCCTGATCCTGCCAGCACACTCGGGTAGCGGCAAGCCGTCTATCGGTG -TTGATAAACTGCCGGACAGCGCGCAAATCTGCTCCTGCTTCGACGTCACCAAAGGTGATCTGATTGCTGCCATCA -ACAAAGGCTGCCACACAGTTGCGGCGCTGAAAGCTGAAACCAAAGCGGGTACTGGCTGCGGTGGCTGTATCCCGC -TGGTCACTCAGGTACTGAACGCGGAACTGGCGAAACAGGGCATCGAAGTTAACAACAACCTGTGCGAACACTTTG -CTTATTCGCGTCAGGAACTGTTCCATTTGATCCGCGTTGAAGGCATTAAAACCTTCGAAGAACTGCTGGCGAAAC -ACGGCAAAGGCTACGGTTGTGAAGTTTGTAAACCAACCGTCGGTTCGCTGCTGGCCTCCTGCTGGAACGAATACA -TTCTGAAGCCGGAACATACTCCGCTGCAGGATTCTAACGACAACTTCCTCGCTAACATCCAGAAAGACGGCACCT -ACTCGGTGATCCCGCGTTCTCCGGGCGGTGAAATCACCCCGGAAGGGCTGATGGCGGTAGGTCGTATCGCGCGTG -AATTTAATCTCTACACCAAGATCACTGGCTCCCAGCGTCTGGCGATGTTTGGCGCACAGAAAGACGATCTGCCGG -AGATCTGGCGTCAGCTGATTGAAGCCGGCTTCGAAACCGGTCATGCCTATGCGAAAGCACTGCGTATGGCGAAAA -CCTGCGTGGGTAGCACCTGGTGCCGCTACGGCGTTGGCGACAGCGTCGGCCTCGGCGTGGAACTGGAAAACCGCT -ACAAAGGCATCCGTACGCCGCACAAAATGAAGTTCGGTGTCTCCGGCTGTACCCGTGAATGTTCAGAAGCTCAGG -GTAAAGACGTGGGTATTATCGCCACTGAAAAAGGCTGGAACCTGTATGTTTGCGGTAACGGCGGCATGAAACCGC -GTCATGCGGATCTGCTGGCGGCGGATATCGATCGCGAAACGCTGATCAAATATCTCGACCGCTTCATGATGTTCT -ACATCCGTACTGCCGACAAACTGACGCGTACCGCACCGTGGTTAGAAAACCTCGAAGGCGGCATCGATTACCTGA -AAGCAGTGATCATTGACGACAAACTGGGGCTGAACGCACATCTGGAAGAAGAGATGGCGCGCCTGCGTGAAGCGG -TACTGTGTGAGTGGACTGAAACGGTCAATACGCCGTCTGCGCAGACTCGCTTCAAACACTTCATCAACAGCGACA -AGCGTGACCCGAACGTGCAGATGGTGCCAGAGCGCGAACAGCACCGTCCGGCAACGCCGTATGAACGTATCCCAG -TAACTCTGGTGGAGGACAACGCATGAGCCAGTGGAAAGACATCTGCAAAATCGATGACATCCTGCCTGAAACCGG -CGTCTGCGCGCTGTTAGGTGACGAGCAGGTCGCGATTTTCCGCCCGTATCACAGCGATCAGGTGTTTGCGATCAG -CAACATCGACCCGTTCTTCGAGTCCAGCGTGCTGTCACGCGGACTGATTGCGGAACACCAGGGCGAGCTGTGGGT -CGCCAGCCCGCTGAAAAAACAGCGTTTTCGCTTAAGCGACGGCTTGTGCATGGAAGACGAACAGTTTTCCGTCAA -ACATTACGAAGCGCGAGTGAAAGACGGCGTGGTGCAGCTGCGCGGTTAATGTTTTAACGGGAGGCGCAATGCCTC -CCCTTTTTGCATGGTCCTGTAATAATCTTCGGTATATTGCAGGACATTTTTTAAACTTTTTGTTTTATTTTTTGT -TTTTATTTTTTAAAGGATAATCAAATGTTTACAGACACTATTAATAAGTGTGCGGCTAACGCTGCGCGCATTGCA -CGCCTGTCGGCAAATAACCCGCTCGGCTTTTGGGTCAGCTCCGCCATGGCGGGCGCGTATGTGGGTCTTGGGATC -ATCCTGATTTTCACGCTCGGTAATTTGCTCGATCCATCCGTACGCCCTTTGGTGATGGGCGCGACCTTTGGTATC -GCCTTAACGCTGGTGATTATCGCCGGTTCTGAACTGTTCACCGGACACACCATGTTCCTCACCTTTGGGGTAAAA -GCGGGCAGCATCAGCCACGGGCAAATGTGGGCAATCCTGCCGCAAACCTGGCTGGGTAACCTGGTCGGTTCCGTC -TTCGTTGCCATGCTCTATAGCTGGGGCGGCGGTAGCCTGCTGCCGGTAGATACCAGCATCGTTCACTCCGTCGCG -CTGGCTAAAACCACTGCACCGGCAATGGTACTCTTCTTCAAAGGTGCATTGTGTAACTGGCTGGTTTGCCTGGCA -ATCTGGATGGCGCTGCGCACTGAAGGGGCGGCGAAATTTATCGCTATCTGGTGGTGTCTGCTGGCATTTATCGCG -TCCGGCTACGAGCACTCTATCGCTAACATGACGCTGTTCGCGCTCTCCTGGTTCGGCAACCACAGCGAAGCCTAC -ACGCTGGCGGGTATTGGTCATAACCTGCTGTGGGTGACGCTGGGTAATACTTTATCAGGTGCCGTATTCATGGGA -TTGGGTTATTGGTATGCTACGCCGAAAGCGAATCGTCCGGTTGCGGACAAATTTAATCAAACTGAAACGGCTGCC -GGTTAATTACTAAGGGGTTTTTACGTGGATCATTTGCCTATATTTTGCCAATTACGCGATCGCGACTGTCTGATT -GTCGGCGGTGGTGATGTCGCGGAACGCAAAGCAAGGTTGCTGTTAGACGCAGGCGCTCGCTTAACGGTGAATGCA -TTAGCGTTTATTCCACAGTTCACCGCATGGGCAGATGCAGGCATGTTAACCCTCGTCGAAGGGCCATTTGATGAA -AGCCTTCTCGACACCTGCTGGCTGGCGATTGCAGCGACGGATGATGACGCGCTTAACCAGCGCGTCAGCGAAGCC -GCTGAAGCTCGTCGCATCTTCTGTAACGTGGTCGATGCGCCGAAAGCCGCCAGCTTTATTATGCCGTCGATTATT -GACCGCTCACCGCTCATGGTAGCGGTCTCCTCTGGCGGCACCTCTCCGGTTCTGGCACGCCTGTTGCGCGAAAAA -CTTGAATCACTGCTGCCGTTACATCTGGGCCAGGTAGCGAAATACGCCGGGCAATTACGCGGGCGAGTGAAACAA -CAGTTCGCCACGATGGGTGAGCGTCGCCGTTTCTGGGAGAAATTGTTCGTTAACGACCGCCTGGCGCAGTCGCTG -GCAAACAACGATCAGAAAGCCATTACTGAAACGACCGAACAGTTAATCAACGAACCGCTCGACCATCGCGGTGAA -GTGGTGCTGGTTGGTGCAGGTCCGGGCGATGCCGGGCTGCTGACACTGAAAGGACTGCAACAAATTCAGCAGGCA -GATGTGGTGGTCTACGACCGTCTGGTTTCTGACGATATTATGAATCTGGTACGCCGCGATGCGGACCGTGTTTTC -GTCGGCAAACGCGCGGGATACCACTGCGTACCCCAGGAAGAGATTAACCAGATCCTGCTGCGGGAAGCGCAAAAA -GGCAAACGCGTGGTGCGGCTGAAAGGTGGCGATCCGTTTATTTTTGGCCGTGGTGGCGAAGAGCTGGAAACACTG -TGCAACGCGGGTATTCCGTTCTCGGTGGTTCCGGGTATTACCGCAGCTTCTGGTTGCTCTGCCTATTCGGGTATT -CCACTCACGCATCGCGATTATGCCCAGAGCGTACGCTTAATTACCGGACACTTAAAAACCGGTGGCGAGCTGGAC -TGGGAAAACCTGGCGGCAGAAAAACAGACGCTGGTGTTCTATATGGGGTTGAATCAGGCCGCGACTATTCAGCAA -AAGCTGATTGAACACGGAATGCCAGGCGAAATGCCGGTGGCAATTGTCGAAAACGGTACGGCAGTCACGCAGCGC -GTGATTGACGGTACGCTCACACAGCTGGGAGAACTGGCGCAGCAAATGAACAGTCCATCGCTAATTATTATTGGT -CGGGTTGTTGGCCTGCGCGATAAACTGAACTGGTTCTCCAACCATTAATTTAACCCGGGCCAGAGAATTCTGGCC -TTCTTAATGACTCTTTTTATATATTCAGCAAATAAAACATAGCCCCTTAATAAATATTATCTGCTAATGGGTTAT -ATTCACCGTTACAGCGACTTACAAAATTAAGTCATTCGCTCACTGACGCCAATTAAATATTCCTGTATCGTTCTT -AACGAGCAGTCTGCTTATATTCATATAATCAATGAATATTAATTAATATATAATACATAGGGAATGTAAATGAAC -AAATTTATTAAAGTTGCACTGGTAGGTGCAGTACTGGCTACGTTAACTGCATGTACTGGTCATATTGAAAACCGT -GATAAGAACTGCTCTTACGACTACCTGCTGCACCCGGCAATTTCTATTTCTAAAATCATTGGCGGTTGCGGTCCT -ACTGCACAGTAAGTCTCTGACAGAAATCGGCTAACACCGGTTTAATTGCCCGACGCCCTCTGGATTTTCCGAGGG -CGTATTTGTTTCTATGTCCTTCTTGCCCCCGCCCGTAAAAATATTTTCACTTTAAATTCAATTTGATAACTACAT -CCATTAGCCACAGCGCGATCCTGTGCGAAATTTTGTGATCTTCCTCCACATTACATAACATCATATGTTGTTATA -TTCATCATGCATTGTCATGTTACCTTTTAAATGACTGCAAACTCTCCCCTACAACGTATTGGACAAGAAAAAGGT -ATCGCTATGGGAAGCCAGGAACTCCAACGCAAGCTCGGATTTTGGGCCGTTCTTGCAATCGCCGTCGGGACAACC -GTCGGCTCCGGTATTTTTGTATCTGTGGGTGAAGTGGCAAAAGCAGCGGGCACGCCGTGGCTTACGGTGCTCGCG -TTTGTCATTGGCGGGTTAATTGTGATCCCGCAAATGTGCGTCTATGCGGAACTATCCACCGCTTATCCGGAAAAT -GGCGCAGATTATGTTTATCTGAAAAATGCCGGAAGCCGACCGCTGGCTTTCCTCTCCGGCTGGGCCAGCTTCTGG -GCCAACGATGCGCCGTCATTGTCGATTATGGCGCTGGCGATTGTCAGCAATCTTGGCTTTTTAACGCCTATCGAT -CCGTTGCTCGGTAAATTTATCGCCGCCGGATTAATTATCGCCTTTATGTTGCTACACCTGCGCTCCGTTGAAGGC -GGCGCAGCGTTTCAGACGCTAATTACCATCGCCAAAATTATCCCGTTCACTATCGTCATTGGCCTTGGGATCTTC -TGGTTTAAAGCGGAGAATTTTGCCGCCCCTACCACCACTGCGATTGGCGCAACGGGCAGCTTTATGGCGCTGCTG -GCGGGGATCTCTGCCACCAGTTGGTCGTATACCGGCATGGCCTCTATCTGTTATATGACCGGCGAAATTAAAAAC -CCCGGAAAAACCATGCCACGAGCGCTGATTGGTTCCTGTCTGCTGGTTCTGGTGCTCTACACCCTGCTGGCGCTG -GTGATTTCCGGCCTGATGCCCTTCGACAAACTCGCCAATTCTGAAACGCCGATTTCCGACGCCCTGACCTGGATC -CCCGCACTCGGCAGCACCGCTGGGATCTTTGTTGCCATCACGGCGATGATCGTCATTCTTGGTTCGCTTTCCAGC -TGCGTGATGTACCAGCCGCGGCTGGAATACGCGATGGCGAAAGACAACCTGTTCTTTAAATGCTTCGGCCATGTG -CATCCGAAATACAACACGCCGGATGTCTCCATCATCCTGCAAGGGGCGCTGGGGATCTTCTTCATCTTCGTTTCC -GATCTCACCAGCCTGCTGGGTTATTTCACCCTGGTGATGTGTTTCAAAAATACCCTCACCTTCGGCTCCATCATC -TGGTGTCGTAAACGCGACGATTACAAACCGCTGTGGCGTACTCCGGCTTTCGGGCTGATGACCACCCTCGCCATT -GCGTCAAGCCTCATTCTGGTCGCCTCAACCTTTGTCTGGGCACCGATTCCCGGCCTTATCTGCGCCGTCATCGTT -ATTGCTACTGGTCTGCCTGCTTACGCCTTCTGGGCGAAGCGTAGCCGCCAGCTCAACGCTTTGTCGTAATGTTAT -CTGGAGAAAATAAAATGTTGGATATTGATAAAAGCACCGTGGACTTTCTGGTCACCGAAAATATGGTTCAGGAAG -TGGAAAAAGTTCTCAGCCATGACGTTCCGCTGGTGCACGCCATCGTGGAAGAGATGGTGAAGCGCGACATTGATC -GTATTTATTTCGTTGCCTGCGGATCGCCACTCAACGCGGCGCAAACGGCGAAACATCTGGCGGATCGCTTTTCCG -ATCTTCAGGTCTACGCCATTTCCGGCTGGGAGTTCTGCGATAACACCCCGTATCGCCTCGACGATCGTTGCGCAG -TAATTGGCGTTTCTGACTACGGTAAAACCGAAGAGGTAATCAAAGCGCTGGAGCTGGGCCGGGCCTGCGGCGCAC -TCACTGCGGCGTTCACCAAACGCGCGGATAGCCCGATTACCTCGGCGGCGGAATTTAGCATTGATTATCAGGCCG -ACTGTATCTGGGAAATTCACCTGCTGCTCTGCTACAGCGTGGTGCTGGAGATGATCACCCGCCTCGCGCCGAACG -CGGAAATCGGCAAGATCAAAAACGATCTCAAGCAGTTGCCGAATGCGCTCGGTCATCTGGTACGCACCTGGGAAG -AAAAAGGCCGCCAGCTTGGTGAACTGGCCAGCCAGTGGCCGATGATTTATACCGTTGCTGCGGGTCCGCTGCGTC -CGCTGGGTTACAAAGAAGGCATTGTAACGCTGATGGAATTTACCTGGACGCACGGCTGCGTGATTGAGAGCGGAG -AGTTCCGCCATGGCCCGCTGGAGATTGTCGAACCGGGCGTTCCGTTCCTGTTCCTGCTCGGCAATGATGAAAGTC -GCCACACCACCGAACGCGCCATTAACTTTGTTAAACAGCGTACTGACAACGTGATCGTCATCGATTACGCCGAAA -TTTCGCAAGGGCTGCACCCGTGGCTGGCACCGTTCCTGATGTTCGTGCCAATGGAGTGGCTCTGCTACTACCTGT -CTATTTACAAAGATCACAACCCGGATGAACGCCGCTATTACGGTGGTCTGGTGGAATATTAATCCCTCTCCCGGC -CCGGCAACGGGCCGGATTTACGCAAGGAGTTACCCGATGAAAACAGGTATGTTTACCTGCGGCCACCAGCGGCTG -CCTATTGAACACGCATTTCGTGATGCAAGCGAGCTGGGTTACGACGGCATCGAAATTTGGGGCGGTCGCCCGCAC -GCGTTCGCGCCGGACTTAAAAGCGGGCGGCATCAAACAAATCAAGGCGCTGGCGCAGACGTATCAGATGCCGATT -ATCGGCTATACGCCAGAAACCAACGGCTATCCGTATAACATGATGCTGGGCGATGAACATATGCGTCGCGAAAGC -CTCGACATGATCAAGCTGGCGATGGATATGGCAAAAGAGATGAACGCGGGTTATACGCTGATTTCCGCGGCCCAC -GCGGGCTATCTCACGCCACCTAATGTTATCTGGGGACGGCTGGCAGAGAACCTAAGCGAACTGTGTGAGTACGCG -GAAAACATCGGCATGGATCTAATCCTCGAACCGTTAACGCCGTATGAATCGAACGTCGTGTGTAATGCTAATGAT -GTGCTTCATGCGCTGGCGCTGGTGCCTTCGCCGCGCCTGTTCAGCATGGTCGACATTTGCGCGCCGTATGTCCAG -GCGGAACCGGTGATGAGTTATTTCGACAAACTGGGCGATAAATTACGTCATCTGCATATTGTCGACAGCGACGGG -GCCAGCGACACGCATTACATTCCTGGAGAAGGCAAAATGCCGCTGCGGGAACTGATGCGCGATATTATTGAGCGG -GGCTATGAGGGTTACTGTACGGTGGAGCTGGTGACGATGTATATGAACGAGCCCAGACTCTATGCCCGCCAGGCG -CTGGAACGCTTTCGCGCGCTGCTGCCGGAGGATGAGAGATGAAAACCCTGGCGACAATCGGCGATAACTGCGTCG -ATATCTACCCGCAACTGAATAAAGCGTTTTCTGGCGGTAATGCGGTCAATGTGGCGGTGTACTGCACTCGCTACG -GCATACAGCCGGGATGCATTACCTGGGTGGGTGACGATGACTACGGCACAAAGCTGAAGCAGGATCTCGCCCGCA -TGGGCGTCGATATCAGCCATGTCCATACGAAACACGGCGTTACCGCACAAACTCAGGTGGAACTGCACGACAATG -ATCGCGTTTTTGGCGACTACACCGAAGGCGTGATGGCCGACTTTGCCCTGAGTGAAGAGGATTACGCCTGGCTGG -CGCAGTATGACATTGTGCACGCGGCAATCTGGGGACATGCGGAAGACGCATTCCCACAGCTGCACGCTGCGGGCA -AACTTACCGCTTTCGACTTCTCCGACAAGTGGGACAGCCCGCTCTGGCAGACACTGGTGCCGCATCTCGATTTTG -CCTTTGCCTCCGCACCGCAAGAAGACGAAACGCTGCGTCTGAAGATGAAAGCGATTGTTGCCCGTGGCGCAGGAA -CAGTGATTGTCACGCTGGGTGAAAACGGCAGCATTGCCTGGGATGGCGCGCAGTTCTGGCGTCAGGCTCCTGAAC -CGGTGACGGTTATCGACACCATGGGTGCCGGAGATTCGTTCATTGCCGGATTCCTTTGCGGCTGGTCTGCGGGGA -TGACATTACCGCAGGCGATAGCGCAGGGAACGGCGTGCGCGGCGAAAACCATTCAGTACCACGGTGCCTGGTAGG -TATAACGTTGGCGTGAGCATCTTCACGCCAACGTGCTGTTACTTGCCGGAAAACGACCCTATAATCCGAGTAATT -CATTCTTTATTTCAGGGTCGATTATGTCAGCTACGGACCGCTACTCTCATCAACTCCTCTACGCTACCGTCCGCC -AGCGACTGCTGGATGATATCGCGCAGGGGGTTTACCAGGCCGGGCAACAGATCCCTACCGAAAACGAGCTTTGTA -CACAATATAACGTCAGCCGCATTACCATTCGCAAAGCCATCAGCGACTTAGTGGCAGACGGCGTACTGATCCGCT -GGCAGGGAAAAGGCACCTTTGTACAAAGCCAGAAAGTTGAAAACGCCCTGCTTACTGTCAGTGGTTTTACCGATT -TTGGCGTCTCACAAGGCAAGGCGACGAAAGAGAAAGTGATCGAACAGGAACGGGTCAGCGCCGCGCCGTTTTGCG -AAAAGCTGAACATCCCCGGAAACAGCGAAGTGTTCCATCTCTGCCGGGTGATGTATCTCGATAAAGAGCCGCTGT -TTATTGATAGTTCATGGATCCCGCTGTCGCGTTATCCTGACTTTGATGAGATTTACGTCGAAGGAAGCTCCACCT -ATCAGTTATTTCAGGAGCGTTTTGACACGCGAGTGGTCAGCGACAAAAAGACCATCGATATCTTTGCCGCCACCC -GCCCGCAGGCAAAATGGCTGAAATGCGAACTGGGCGAACCGTTGTTTCGCATCAGCAAAATCGCCTTTGATCAGA -ATGACAAACCGGTGCACGTCTCCGAACTCTTCTGCCGCGCCAATCGCATCACCTTAACTATTGATAATAAAAGAC -ATTAACCGTAGGCCGGATAAGATGCGCCAGCATCGCATCCGGCGATGCTGGCGCGTTGAATTTTACATCCCGTAC -GTTCCCCTCACCCTAACCCTCTCCCCAAAGGGGCGAGGGGACCGTTCAGTACGGAATTTAGCTTGACGGTGCTAT -CCAGCATTAAATACTGGCAATACTCTCACGCAAAATCCGCAGCACCGTCTCTTCACCGCTGCGATTCGGGTTAAT -GCGAATCGCACAATGTTCTGATTGTGGATTCGCCTGGCGAAACGTTCCGGAAAGGCGATAAAAGAGCGGCGGGAT -TTCATATTTCGACTCTGCACCCACCGGGTAAGGCAAGGCACCGCGCTTTTGCGCCTCTTCCAGCACTCTGGCGGC -AATCGGCTGATGAAACTCGACAATCAACACCTTCGACTGCGCATTAGCAATCACCGCGCTTTTCACTTCCGGCAC -CGCACCACCGTTAAGCAAAGCCAGCAACCGTTCAGATACCCCTGCCTGCACCGCGTGCATCACTGGCGCAAACAC -CAGACCACGCAATACTTCCAGCGCCTGTGCGCCCTGGATCTGGCTACCGCCGGAGTAAAGCGTGGCGCGAATACG -GTTGATAACATCAGCATCGCCGACCACTGCACCAACACCCTCTGGCCCAAATAGCTTGAAGCAGGAAAATGTCGA -GACATTCGCGCCGCATTCACAGCCGATTCGAGCCACCTTCATCACCGCATAGTTGTCATCGGTTAACGCTGGAAC -ACCTGCCGCGCGCAACGTTGCCAGCACATCTGCCAGCACGTAGCTGTCCTGCGGCTGCTGGCGCGTATGCTGCAC -CAGCGCCGCATCCGGTTGTTGCTCGTCGACGACCTGCTTCAGTGCCGACAGGTCATTGAAATCAACAGTAATAAG -CGTCAGCCCCATCTGCTCAATAATAACCCGTGTCGTCGGGTAAACAGGCGCGTCATGCACCAGAAGACGCTGCCC -CGGTTTGAGCAAAGCCGCCAGCCCGGCGCGAATCGCGCCAGTCCCCGCGCCCTGCACCAGCGCCGCAGCCTGTGC -GTGAAATGCATCAGCCAGCACCTGTTCCACACGCTGGGTAACGCGCGGTTGATTCAGTCCTGGCGTTAAGCCTAA -ATCACCGCCAGTAAGAAACTCGCTGCCGGGGAAATGGCGACAAATGCTATCCACCAGCGCAAACTGCTTTTGCTG -CGCCTCAATAATCGTCAGGCTTTGCAGAGGAAACGTCTTCATAGGTGCCTTCCTTAAGCCGGAACGAACAGGCCA -AGCCAGTAAAGAACATTCAGCAGAATACCGGTGATCATTACTGCCACGACCGGTGCCGCCATTTTCTGTACCGGA -CGGCCCAGGGATTCGTTGAGGAAGTAAATGGCAACCGCGATAGAGAATCCGGTATAACCCGCCATCTTAATTGCT -GCGAAAATCGAACCGACCAGCAGCGCCACTTCCATCAGCATATTCATGGCGTTACGGATGTTATCCGACGCATTA -CGCACCGACGGGTAGCGTCCCAGCCATTTGCCGATCGAACGAAGCAGCAAGACTTCCGCCGAAATAACCACTGCG -CCTAATACCGCTGCAACCATCGGATTCGGCGAGAGATAGTCCACCGCATAAACAAAGGTAAAGCCCGCAACTGCA -TACACACCCGTTGCTAACGCGGTGGTGGCAATCAACGGCACAAACCCCAGTCCGCGCATAAATTCTGCCAGAGCC -GCCTGATTAATCAGCGTTTGCGATTGTTCCGGCGTTACGCCTGCGGAATATGCTTTCTCCAGTGTGAAGATCGAC -ACTTCACTGCCAGCAAAAATCTTCATGCTGGCAACGGCGGCAATCAATGCTCCCACGATGGCGATATAGGGTAAG -TTTTTGATAATCCGTGACGTGCGTTCTTCAAACACCGAAAGCCCGCTGGCATCAATGTCATTTTCATCACGATGA -CGCAGGTCGTGAGTTATCGCGATCCCCAGCAGCATCACCATGCCAATAAAGATTTCGATGGATTCAGGGTTAAGA -TGTGGGAAATAGCGCACGACTACCACACGGGTCATCAGTACCACCACGGCGGCGATCAGACTTTGCTTCCAGCCA -AACTGGTAGAAAATCGCCACCAGCGGGAACAGTGCAAAAGCTGAAACCACCGGCGAGCTTAATTCCCCCAGGCTA -CCTAATACATCCACCGGCAGCGCGGTCAGCAGCTGGTTTACTGGCAACAGGCAAGTAAGGATCAACACGCCCCAG -ATAGCGCCAAGACCAAACGCCATCAGGCTGTTTATCGCCAGGACGCCGAGGATATCGGTAGGAAGAAAGAGTAAC -CATGCGTTGAGCAGCCCGGTTTTCAGGGTAAAAGAGATCCCCACCGAGGCCACAAAACCAATGCTCAGACCAAAA -GCGATACTCCCCGCCTCGCGACGGTTCATATAGCCTTCAATCAGTTGCGGCAGGATCGGGCGGATGCCGTCATGA -AAAACAGCCGCCGAGCGATGCGCCAGAAGCGATGTCATACCCGTCAGGCACGCCACCACGATAATCTGAATATAC -AGATCCATAGTCGTGCCTTTTATTTCAGATGGTTAATCAGCATCGGAATCGCGTGTTCGACGTGCTCAACGGAAA -GGCCAAACGCCACTTTTCCTTCAGCGATCATTTTGGCGATATGCTCGTCTTTCGCTTTAATGCCTGGTTTGGCAA -TGGTGCAACTTTTGTTATAGCCTATCACCGCGATGGCAATCGACAATGCCGCGCCCGCACCGGTATTACACGCGC -CGATGTAATAATCCAGTTGCCCGGATTTCACCTTCATTGCCGCTTCCATGTCGTTGTGAATGAAAACTTCAAAAC -AGCCAGGAGCCGTCGCTTCAATAGTTTTTTTAATCTGCTCACGCTGTAAGCCTGCAACGCCAATCTTTTTCATGA -GTCTGTCCTTATTGGAAAAATTGAGAGGGATTTTCACGTAACATCACATCCACATCGGCCTGACTGAATCCTGAC -TGGCGCAATTGCGGAATAAAGGTGGTTAGTAAATAGTCATAGCCATAACCACCGTTGGCTTTTAAATGGGAGCGG -CGCGTAATATCCATCGACAGCATGACGCGGTTCAGCAACCCACGGTCGCGTAGCGCATGAAGCATCGCAATACGC -TTTTCGTCCGGGTAGTAACTGTTCTTGCCGATGGTGTCGAACTGCACGTACGCGCCGAGATCGATCATCTTCAAA -ATGTTGTCGAGGTTGTCTTTCAGATCGCAGTGACCAACGGTGACGCGCGAAAGATCAACCCCGTGGGCTTGTAGC -AACGCCAGTTGCTCCAGCCCCATCGTGCTGAACGACGTATGCGTGGAGATCGGGCGTCCGGTCTGGTTATGCGCC -AGCGCAGCGGCAATAAATACCTTCTCTTCCAGCGGCGTAATCTTTCCTTCGCTGGTGCCGATCTCCGCGATGATC -CCGGCTTTCAGCTCCGTGCCATCGATACCCTGTTCAATTTCATCGACCATCTCCTGCGCCAGTTCCTGCACGCTG -CGGGTCGCCACATGTTCCGGGAAAAACGCGTCCTGGTAATAACCGGTACAGGCCACCACGTTGATCCCCGTCTCG -CGCATTACATCAAGCATAAATTGCGCATTGCGCCCCATGTAACGGTTGGTCATCTCAATCACATTACGCACGCCC -CGGGTCATCAGGTCGTTCATCTCCTGGCAAATGAACGCATACTGATCAAGGCGGCAGTCCACGTTGTTTTTAAAG -CCGGAGAGATCAATATGCAGATGCTCATGGGCGAGGGTGTAACCCGTCGGATCAAAACTCATAGGGTGTCTCCTG -CAAACCGGAGGGAGGAAAGAAAAGAGCGACCATTTTGTGGCGGTGGCGCGCGGAAAAATTCACACACGGTAGCCC -CCACATCAGAAAGCGTGGTGCGCACACCGAGCTGCGTAGCGATCATCCCTTGCTGATAAACCAGCACTGGCACCA -CTTCGCGGGTATGGTGGCTGTGACCAATGGTCGGATCGTTGCCGTGATCCGCCATCACGACCAGGCAATCATCTG -GCTGCATCGCCTCAACAAGCCGGGCAAGGTTACGGTCAACGACCTGCAAACGTTCGGCATAACGTGCGACGTCTT -CTGCATGACCAGCGAGGTCGGTTTCCTGAATGTTGGTGCAAATAAACGCCGTCGGATGGGTGTTAAATTCGTTGA -GGGTGATATCCATAATCCGCTGGCTATCCACCAGATTTTGCCAGCTCACGCCATAAGGATTGTTGACGATATCTG -CCACCTTACCCACCAGCACGGTTGGCACGCCTGCTTCATACAGTTTTTGTGGCACCTGCACTTTTTCATCGACGC -CATAGCCCATATGCACGACCTGGAAACCGTTGTCATAAGCGCCAGAACGCGGCGCATTGATACCAATAAAGCGCC -CTTCTTTGCTTTCTGCGGCATCGAGAATGCGTTGACTGTCGGTTAACAGGCCACCAAATGTAATGACCCGACCGA -CCTGTACCTGCTCACGCACGATACGACCAATTTTGATTGCGTCGTCAAAAGAGATCACAGAGAGATTGGCGGTAA -TGTTATAGACCTGGCCTAAATCCGCCTCGAGATTATCGCCAATCGCAACCGCCTGATTGACCCACAGAAATTGCA -GATCATCGCCACGGCGCTCCACCTGCCAGCCAGCGGAAACTAATGCCTGCTCAACACGGTCAATCACATCGCGAA -AAGGCATCCGCAGCGGCGGTAACGGGCGCGTGCCTAAAATTTCCTGATGCCCCATAAAGGTATCGCCACCTTCAT -GTTGCAGCTCTGCCACGCCCCAGGTTGCGGAATCTGACGGCTGCATATCGCCTGGCGCATAACCCAATGCGTTGA -TTAGCCCCAGCGTCTCCAGCGTTGGTAGCTGCAAATGCGGCAACTGGCTCAGGATGTGACCACATGTATTCGCTC -CCGCATCTTGCGGACGCACCAGCGTGACATCTTTCATTGCCCCTACGCCAAAGCTATCAATCACTAACACCACAA -ATCGCGCCATTACGCCCCCAGAGAGTTTCCAAGACTGTCATAACGACCGACGATTTCCGGTTCGCCACGATGAAT -ACCGGACACCAGCACCACATCGCTACGGGTGACAAAAATCTGCGTGCGAAAACAGAGCACCACTGCACTGCTTAC -CGGAAACTCGCCTGCCAGCGGCAGGGTGTAGTCGATACTGCTGTCATCCACAGTTTTGAGATTGGTTTCAGTAAT -CTTTTGATTTTCTGGCGTAAACACCAACGCATGTTGCGCATGACCACGACGATAGTAACCGCCGCCGTAGCAGTA -GCTGTCGCCACGGAAATGATGGGAGATTTCACTTAACCAGAGCATCGCGATACGTTCAGGCTGATCGCCCTGCTG -GTTTGCCGGAATAGTGCCCGTCAGCGCATGACCGGGTTCGGCATGAGTCACACCGTATTGCGCCAGTAATGGCAG -CGAAGTGCAGCTGGTCGCTGAAGGCGCGTTCAGTTGCTCAAGTGCAATACCAGATTTCGCCAGTTGATCCCGTGC -CTGTATCAGCGTGTGAAGATTCGGTGTCGGCAAAACTTTTCCGACAGCCTCATCCCAAAGCAGGCAAGGGAAATG -GGTAAGTCCGGCTAAATGCAGCCCTGGCAGATTCTGGATTTCGGCGACAATCTCCGGCAACACCTTGAGGGCAAA -ACCGCTCTCCTGGCCCGGATAAAGAAAATCATCGTCGCTATAAACTTTAAGCAGCACAGACTGGATTCGCCCGGC -CTTCACCGCCGCCGCAGAAACTTCCCGCGCTTTGTCGAGAGTAAACACGGTGATGACGTCGGTGCCCTGTTCAAC -GGCGTCAGCAACCTGATGACAAGGGATTTGTACCAGATGCCCCTGATGCGCCACAGGCAAACCAGCGCGGCGCAT -GACTCGCGCCTCTTTGTAATCCACCGCCACAATGCCGCTGTAGCCTAATGCCAGCAATTTTTCCGCCAGCCACGG -ATTACGACCAAACTGCTTGGTCATCAGATACAGTTCAATGCCGTAAAGCCGCGCCGTCTCAATCAGCCGCTTACC -GTTTTCCAGTATCTGATCCACGTCGATCACCCAGCTGTCCGGGGCGATCTTGCCCTGCTGCCACAGGCTTAGTGC -GGCGGAAATCAGCGCCGGGTTCTGGCGTTTCAATGCTTCTACAAACATCTTGTTGCCTCGTTTCTGTTCCTTGAA -TTAAATATTCATTTTTTTGAATATTTAGGTTGTGCGACGTGGATTTGTCGGGAGCTTCAAACCTCTTCGTTAGCA -GCCATCCATAATCCATAAAGGTTGGCCAGCAAATAGCCTTCTTCACACGGGTTAACTTCCAGTGCGAATTCCTTC -AACAACACCTGATGCAATTGCACAACGGCTTGCCAGTGGCTGGATTGCGCCAGTTCTGCCAGCAACTCGTTATCC -AGCGGCTCTATTTCTTCACCACGGCGACTGCGCATCAGTGCACTCGCCATATGTGTCATCGCCATCGTTCCTTGC -TCACTGCGCACCGGCAGATGGCACTCTGTTTCCAGTACGTTGACGACCTGCATCATGCCTTTGCAGATGTCCTTA -TCAATAACGCCTGCCTCGCAAAGCAGGTTGAGTCTGGTTTCCATATCAGATGCCTTTCGTTTAATAACTCGGTTC -CTGTTCCCCACTCACTACCCGTTGTTGATGGGCGAGCAGGGCGTGTTTATCTACAACGGCACGCAGCAGTTGTTG -CATTGGGTAATCATCGACTCGCGTCAGGACCACGGCTTCGGTGGCCTGTAAAAATCGCGGATCGTCTGTGAGCGG -CGTCGCCTCTAATCCCAGCATGGTCAGTTCGTTTTCCGCCACCACGTTCCAGATCACCGCATCGACATCGCCTTT -AACAATGCGTTGTAAACTCTCGTGATAAGAGAGATCGACTCGTTCCACATCACTACCGCCAAAAAAAACATCGGT -CATGATTTTCTGATCCGCCGAACGGTTATCCAGCCCCACGCGCTTCACGTTTGCGGACTCGCCTTTACGGCAAAT -CAACTGGTGCTCGCCAACGTAGGTGTGCGGCCCCAACTCCAGCGCGAGGCATAAGCCTTTTTGCGTGAGATAACT -TTCCGCCGCTAGTCGCGAAACCACCGCCATGTCATACACGCCATTAAGCAGACACTCCACGCGAATATCCGCGCC -ACGCATGTGCGCATAGTAAAAAGGAATGCCATCAAACTGGGCTTTCAATCCGCTCGCCAGGCCTTCGTACAAACG -GGTATAGGGCAAGGGCATTGCACATACCACGTTGTTGATATCCACATGAGTCAGCAATGCTTTGTTATCCATCTC -GACCAGATAACTGCCATTGCGCCCACGGCGTTCAATCCGTATCGCTCCGCTTGATTCCAGCGTTTTCAACGCGGC -CTGCGTCAGGCCAACGGATGAACGGCATTCATTTGCCAGCTCATCTATGGTTTTCAATCGATTACCGCACTTTTC -ACCCAACAAATAACGGGCCAGCGTCGTGATGACGACGCCTTCTTTTTTGATAAACGTTCGACGCATAATAAATTT -TCAGTAAATTGAATATTTATATCTTCAGGAATTTGAAGATAAGGCGCAACAGCGAGATGTGGAAACGGCGAGGCA -CTTCACATTTTTTCGGATTATTGCAAATGAGGATAAAAAAACCGGGTTTCCCCGGTTTCAGAGTGATGATAAAAG -CAAAATTGCCTGATGCGCTACGCTTATCAGGCCTACATTTCCTTGCAATATGTGCATTACTTTGTAGGCCGGATA -AGGCGTTCACGCCGCATCCGGCATGAACAAAGCGCAATTTGCCAGCAATAGTGAATTACGGCTTCGCCACAAAAC -CAATCGCTTCGTACACCGCTTTTAGCGTACGGGAAGCGTGCGCGCTGGCTTTTTCCGCGCCATCTTTCATCACCT -GTTGCAGGAAGGCTTCATCGTTGCGGAAACGGTGATAGCGTTCCTGCAATTCAGTCAGCATACCGGAAACGGCAT -CAGCCACTTCACCTTTCAGATGACCATACATCTTGCCTTCGAACTGTTTTTCCAGTTCTGGGATGCTCTGGCCCG -TTACCGCTGAAAGGATATCCAACAGGTTGGAAACGCCCGCTTTGTTCTGCACATCGTAGCGAACTACCGGCGGCT -CGTCGGAGTCAGTGACCGCACGTTTGATTTTCTTCACTACCGATTTCGGATCTTCCAGCAGGCCGATAACGTTAT -TGCGATTATCGTCAGACTTGGACATCTTCTTGGTCGGCTCCAGCAGCGACATTACGCGCGCGCCAGATTTCGGAA -TAAACGGCTCCGGCACCTTAAAGATCTCGCCATACAGCGCGTTGAAACGCTGGGCAATATCGCGGCTCAGTTCGA -GGTGCTGTTTCTGGTCTTCACCCACCGGTACCAGATTAGTTTGATACAGCAGGATGTCCGCTGCCATCAGCACCG -GATAGTCAAACAGACCAGCGTTGATGTTCTCGGCATAACGCGCAGATTTATCTTTAAACTGCGTCATGCGACTCA -GTTCGCCGAAGTAGGTATAGCAGTTCAGTGCCCAGCCTAACTGTGCATGTTCCGGCACGTGGGACTGAACAAAAA -TGGTGCTTTTCTCAGGATCGATACCACAAGCCAGATACAAGGCCAGCGTATCCAGCGTCGCTTTACGCAGCTTCT -GTGCATCCTGGCGCACGGTGATCGCGTGTTGGTCAACGATACAGTAAATGCAATGGTAGTCATCCTGCATGTTTA -CCCACTGACGCAGCGCACCCATGTAGTTACCAATGGTCAATTCACCTGAGGGCTGTGCGCCACTAAAAACGATGG -GCTTAGTCATTTTTCGATTCCTGATTTTCGCTATGCGGAAGCCCTAATGCGGGCAGAAGGTCATTTATAGACTGA -TAAATTACATCAGGCTGGCTGAGATCGATAGCCTCGCCGTAGTTATATCCGTAGGTTAAGCCAACTGATGGGCAA -CCTGCCGCTTTTGCCGCCTGAATATCATTGCGTGAGTCGCCGACAAACAGCATCTGTTGTGGGGCAATTCCCATC -CGCTCAGCCACCAGTAACAGCGGGTCCGGATGCGGTTTTTTGTTTTGCACATCATCACCACCAATCACCACGCTG -AAGTATTTGGCGATATCTAAGGCTTCGAGCAGCGGCGCGACGAACGGCGTCGGTTTGTTGGTGACCAGGCCTAGC -GGCAGGCCTTTAGCCTGCAACGCGCCCAACGTATCGGCAACGTGCGGGAACAAAAACGTCCCCTCTTCGGCAACC -TCGCCATAGTAGCGATCGAACAGTTTACGCAGAATACGTACCTGTTCTTCTGCCGGAATGTCGTCATCAACGGGC -GGTTTACCCATTGTTTTACGCTGAGTCGCACGTTCCTGACGCGCCCAGGTCAATGCGCGCTCCATCAGAACATCT -GCGCCGTTACCAATCCAGGTAATAACGCGTTCTTCACCTGCGACGGGCAACTCCAGCGCATACAGCGCCATATCT -ACCGCAGCAGCAAGACCAGGAGCACTGTCGACCAGCGTACCATCAAGATCAAAAGCGACGCCGCGAATATCTTCA -AACTTATTCATGACTTACCTTTGCCAGTTCACTGCGCATTTCATCAATGACTTTTTTGTAGTCTGGCTGGTCGAA -GATTGCCGAACCGGCGACGAACATATCCGCGCCCGCCGCAGCGATTTCGCCAATGTTGTTCACCTTCACGCCACC -GTCCACTTCTAGTCGAATGTCAAAGCCAGACTCGTCGATACGGCGACGTACTTCGCGCAGTTTATCCAGTGTTTG -AGGAATGAAAGACTGACCGCCGAAACCAGGGTTGACGGACATCAGCAGGATCACATCCAGCTTATCCATCACGTA -ATCCAGATAGCTCAGAGGTGTCGCCGGGTTAAATACCAGACCCGCTTTACAGCCATTTTCTTTAATCAGTTGCAG -CGTGCGGTCAACATGCTCGGAGGCTTCTGGATGAAAGGTAATGATGCTGGCACCAGCGGCAGCGAAATCAGGCAC -AATGCGATCGACGGGTTTCACCATCAGGTGTACGTCGATAGGGGCGGTAATGCCATAGTTACGCAAGGATTTCAG -CACCATTGGCCCAATCGTCAGATTGGGAACATAGTGGTTATCCATGACGTCAAAATGCACGACATCAGCGCCAGC -TGCCAGGGCTTTTGCGGTATCTTCACCCAGGCGGGCAAAATCAGCCGACAGAATTGAGGGGGCAATCAAATACTG -TTTCATCCGCTTCTCCTTGAGAATTATTTTTTCGCGGGTGAAACGACTCCTGGTTTGTACAAAGCCAGCAGTTCG -TCCACCTTTTTACGTGTGCCGCCGTTGCTGCTTATACTGCGTCGAACTTTGACGACATGCAATTTTGCGCGCTGA -TACCACTCACGCGTTAACATCGTATCGTGATTGGAGATCAGCACTGGAATATGGCGCTCAACCAGACCTTCGGCG -ATCTCCGCCAGATGCGCTTGTTGTTCAAGCGTAAAACTGTTTGTGTGATACGCCGTAAAGTTGGCGGTCGCAGAC -AGCGGTGCATAAGGCGGATCGCAATAGACGACGGATGCATCATCTGCGCGCGCCATGCTATCGGCGTAAGACTCA -CAATAGAAAAAGGCATTCTGCGCTTTTTCAGCGAAGTGATACAACTCTGCTTCCGGGAAATAGGGTTTTTTGTAG -CGGCCGAACGGCACGTTAAACTCACCGCGCAGATTGTAACGACACAGGCCGTTGTAACCGTAGCGGTTCAAATAT -AAAAACAGTACCGCCCGACGGAACGGATCCTGGCTTTTGTTGAACTCTTCGCGGAACTGATAGTAAACCTCGGCG -CAATTTGTTTCGGGAACAAACAGCTCGCGTGCGGCCTGTACGTACTCATCAGTACGCATCTTCACAATGTTATAG -AGACTGATCAGGTCGCTATTGATATCGGCAAGGATATAACGAGAAAAGTCGGTGTTGAGAAACACCGACCCGGCA -CCTACAAAAGGCTCAACCAGACATTCGCCCTTGGGCAAATGCCGTTTAATATCATCAAGCAGGGGATACTTGCCC -CCTGCCCACTTCAAAAAAGCGCGATTTTTCTTCATGCTGACTAACTAATTACACCTTCTCCGGCTGTGGAGAAAG -CTCCGACAGCATCCAGCGCTTCAGGCAACTCCCGCAACGATAAACCATTGCGGGAGATAACCTTGATTACTTCAG -ATCGGCCTGTACCTGACGCAGCGGTTTCGCCCACGGGTTTTTGGCCTGGACATCTGCTGGCAATGTAGATACCGC -TTTTTTCGCCTCTTCTTTCGAAGCGTACACGCCAGAAACCAGGACATACCACGGCTGACCATTACGCGTCGTTTC -ATAGACAACGTAGTTTTTCAGATTCTCTTTCTTCGCCCAACCGTTCAGGTTGTCGTAGTTAGAGGAACTGCTCAG -CTGCAGAGTGTAATGGCTGGACGGTGCCGATTTCAACGAACCAACATTACCTGCGGTCTTCGCCCCAGCAGCGGG -TGTTGCTGTGGTTTGCGCCGGGGATGCCGTCTGTACTGGAGCCGTAGTCGCCGTCTCTTTTGGTGCTGGCGTAGA -AGTCGCAGCCGGTGCCTTCGTGCTCGCCACAGGGGCAGCTGGTTCAGTACGCTTCGGCGTCTGTGCTACCGGCTT -CGGCTCCGTTTTCACGGTTGCTTGCGGTTTTTTCGGTTCAATCACCGCCTGCTGACGAGCTGGGCGCGTAGTGGA -CGGACGTTCAGCGGTTTGCGTTTTCGCCGTGTCACGCGATGCATTGCCATTGCGAACAGGCGCAACCGTTGCGGG -TTCAGTCGGCAACGTGGAATTGACCGCCACATTGTTCAGCTGTTGCTGATTTTGTGGCTGGGTCAGCGCATTGTT -CAGGTCACCCTGCACTTCAACACGTTGTTGACCATCCGTTGCCACCGGGGTTTGCCCTTGAGTCGGCGTAGAAGA -GATCGGTGGCAGAGAAACATCCTGCTGAGTATTTTCCGCAGACGTGGTTCCCGGCGCTGGCTGCACGCCATTCGC -CTGATCGGTCGCATTGCCAGCAAGATCAATACTCTTCTCGCCAGACGCGGTTTGATCGCTGGAAGTGGTCGAGGG -GGCTTTTAGCGCAGAACCGATACCGATGATCAACAGCAGTAGAACCAGAATGCCGACGCCCATCATCATATACTG -ACGAGAAGCGGGTTTACTGGCTGCTTTTTTGCGCTTACGCGGACGACGCTCTACGCGCTCTTCATCCACGGTTTC -ATCTTCGGATTCGTCAATTTCTTCTTCGATTTCCGGTTCCTCATTGCGCTCTTTTTGCGCACGAGTCGGACGGCG -ATCGTCAGTGTCATCAAGTTCAATATCATCAAAATTGATCTGCGGTTCGCCACGTTCAGTACGCTCAGAACGTTC -AGAAGATTGACGAGAACGACCAGTACGACGATCGCTGGGATCGGGTTTCAGCTCGTCTTCTGGTTTGAATTCATC -CATTTAACACCCCACTAAAAGGTTAATGCTTACCACGTTGCAATTAACCTGAAGCTAATAGACCGCTTGATAAGC -GGCCTGACCTTTCTTGTTGTTACGCTGATTGACAATCGGCAATGGCGTTAAGAACAAGCTCGTGCGAAACGCCGC -TGCGAACTTCACTCTTACCAATTGCCAACGGAAGAATTAAGCGCATCTCTCCCGCAAGGACTTTCTTGTCACGCA -GCATATGCGGTAAATACGCCTGCGCGGACATTTCGCGCGGCCCATTGACCGGTAACCCAGCCCGCTTGAGCAGGG -TTATAATACGCTGCGTTTCGGCAGAACTAAACTGCCCGAGACGTTCCGACGTCCGCGCCGCCATCACCATACCCG -CAGCGACCGCTTCACCATGTAACCAATTGCCATACCCCATTTCAGCTTCAATGGCATGACCAAAGGTGTGTCCCA -GATTCAGTAAAGCACGTAACCCGGTTTCGCGCTCGTCGGCGGCGACAACTTCTGCCTTCAGTTCACAACAACGGC -GAATACAGTACGCCATTGCCGGACCGTCCAGACGCAACAACGCATCCAGATTCTCTTCCAGCCAGTTAAAAAACG -CACCGTCAAGAATAATGCCGTATTTGATGACTTCTGCCAGCCCCGACGCTAACTCACGCGGGGGAAGCGTTTTCA -GACAGTCGAGATCCACCACCACTGAAGCAGGTTGGTAGAACGCGCCAATCATGTTTTTACCGAGGGGATGGTTGA -CCGCAGTTTTGCCGCCAACGGAGGAATCGACCTGCGACAGTAACGTCGTCGGGACTTGAATGAAACGGACACCGC -GCTGATAACTCGCCGCCGCGAAGCCGGTCAGATCGCCCACTACGCCGCCGCCAAGCGCCACCAGCGTAGTATCGC -GACCATGCGGTTTTTGTAACAACGCCGTAAAGACGGTATCGAGTACAGCCAGGCTTTTATACTGCTCGCCGTCAG -GGAGGATAACGCTATCGACGTTAACACCCGCCTGTTCAAGTACGCCGCGGACCTTATCGAGATACAGAGGAGCCA -GGGTTTCGTTGGTGACCAACATGACCTGCTCGCCCGATTTCAGCGGTAAGAATGAAGCTGGTTCATTAAACAAAC -CAGATGCGATGGTAATTGGGTAACTACGTTCCCCGAGAGTAACGACAATCCTCTCCATAACGCGACATCCACCTT -AATTACTGTACCCGCAGACGAGTGTATATAAAGCCAGAATTAGTTGCTTTCCAGCATGTGAATAATCTGGTTTGC -AACCACTTTAGCGCTTTGATCATCAGTACGAATGGTCACGTCGGCAATCTCTTCATACAGCGGATTGCGTTCATT -GGCCAACGCTTCCAGAACTTCACGCGGCGGTGTTTCAACGTGCAGCAACGGGCGTTTTTTATCACGCTGCGTGCG -TGCAAGTTGCTTTTCGATGGTCGTTTCAAGATAAACGACAACGCCACGAGCGGAAAGACGGTTACGCGTTTCACG -GGATTTCACAGAGCCGCCGCCAGTAGCCAGCACAATACCCTGTTTCTCGGTCAACTCATTGATGACCTTTTCTTC -GCGATCGCGGAAGCCTTCTTCGCCTTCTAAATCGAAAACCCAGCCCACATCAGCTCCGGTTCGTTTCTCAATCTC -TTGATCGGAATCGTAAAATTCCATATTGAGTTGTTGAGCTAACTGGCGCCCAATAGTGCTTTTTCCGGCACCCAT -AGGCCCAACCAGAAAGATATTGCGTTTCTCTGCCATTTTTTCGGTACTACTAAGACTATTCGTTAATGATAAACC -CGCTTCGCTCAGAGAGCGCCGCAGGACATGAACTGAAACCTCATAAGATATTGCGAGAGTCAGACTGAAAATTAT -CTCAATACTCCAGCGGGTTTGGCAACTGAATAAATCACCCATCCCTCTGCATATCTGGTCGCTGCAAGCGCGCTG -CCTTGCTACCACCGCTCTGGCGATAAATCACCGGGTAAGATTAGCGTAAAAAAGACAGCAAAATGCCGCCTGAAT -GATAAATCATCATCATGGAACGCAGGCAGCGAAGAGCACCAACTCTCAAATCGGTACTCCTTGTATGCTAAATAC -CTGCGCGCGTCAAATAGATGAAACACGTTCAGCGTAAAAACATTACCGCTTTTACGGCTGTTTACTCACTGGAAA -CCAGTCGTGGCGTGATAAACACCACTAACTCGCGTCGTTCATCTTCTTTTCCGTCATGACGAAATAATTGCCCGA -ACCAGGGAATGTCGCCAAGCAACGGTACGCTATCCTGACCCGATTTATTTTTACGGGTAAAAATGCCGCCCAGCG -CCAACGTTTCTCCGCTTTTGACCTCGACCTGCGTTTCGATCTCCTGCTTATCAATCGCCAGCACTTCGCCATCGG -CCTGCTGTAGCACCTGCCCCGGAACGTTCTGGCTGATGTGTAATTTCAGCCGGATGCGACCTTTTTGTAACACCG -TGGGCGTGACCTCCATCCCCAGGACGGCCTCTTTAAATTCCACCGACGTCGCGCCACTTTCCCCGCTGGAAACCT -GATATGGAATTTCGCTCCCCTGTTTAATGCTGGCAGGCTGAAGATGTGAGGCCAGCAGACGCGGACTGGCGATAA -TATCCAGCTGCTGTTTTTGTTCGAGCGCGGAAAGCTCAAGATCCAGCAAGCGTCCGTTGATGCGCCCAATGTTAA -AACCGACATGCGTTGTCGCCGTCGCTACGGAGAGGTCGCTACCAAGCGTGGTGACTTGCCCAACGCCACCAGCGT -GTTGCGCATCGGCCAGCGTCCATTTCACGCCTAACTCACGCAAACTTTTTTCATTAATGGTGACAATATGCGCCG -ACAGCTCAACCTGCCCGACCGGCAGATCCATTTGCGCTACCCACTGTTCAAGCGCGCTTAACGCCGTTTTGTTAT -CTCGTAGCAAAAGGCGATTGGTGCGTTTATCGACGGTCATACTCCCTTTGGCACTCAGTAGCTTCTCCCCCGCTT -TCGCCAGTTCTCCCGCGTCGGCGTATTGCAGGGTTATACTGCGATTTTCCAGCGGCAGATTTGCCTGCGCCCGCG -CCTGCTCCGCCTCCTGGCGGGCGATATTGTTATTCTGCCAGGCAATGGAATGCACTGAGAGAATGTTGCCTTCCT -GCCGCGTTATCAGTCCGGCGCTTTTCACTACAGTTTGTAGTGCCTGCTTCCAGGGAACATCTGTTAGATGTAACG -ACACCGTACCGCTGACGTCTGGCGACACGACCAGGTTCAACTTCTCCTGTTCAGCCAGCGCCTGCAACACCTGAG -CTACCGGAACGTCATCCACCATCAGCGTCACTTTTTGCGGCTTTGCCGCCTGTACGCCGGGTATCAGCATCAACA -GTAGTGCGGCTATCCATTGCTTCATTTGTATCTCCTTGCCGTTGCCACAACCATTGTGGCGGTTCGCAGTTTGTC -CCGGTACCCAGCGTTAGTACGTCTGGCGTCAGCTGTAAAATTGTCCAGCCGTTTTCCAGCACATCGTTTTGCTGC -ACCCGTCGCCATTTCTTTTGCCCGTCTTTTATTACACCGATGATGCGCTCGCCTCGCCCTACCATCCCCTGATAG -CGCCACTGGCTAAGTTCGCTAATCCGGCATAGATCTTCCGGCGGTTTAAAAGGGTCACGCATACCGGTTAAAAGG -CACAATGCAATACCTGCCAACAACCAGCGTTTAACCCTCATGCGGCGTCTCCAGTTGTAGCGTGAACAAAAGATC -ATCACCTTCCACGCTTAACGAAAAACGGCTCACGCTGACGTTGCGCTCTGCCAGCCGTGTAAATGCCGACGGCAC -TGCTTCCCACAGCGTTTTCAACGCCAACTCGCCTCCCTGCGCGGATGGATGCCAGGAAACCAGTTGCGCGCCGGA -TAACTGAAAATCCAGTGGCGAAAAGGGCAGCGTTTTTTCCTCGCTGAAGGGAGCGGTGTCTACCAGGCGATACAG -TGCGGCCCACTGCTGGTGATGACTTGCCCGTAGTCGAATTAATGCGTCGCGCTCTTCATGGTGTGTCGATGACAG -AAAAATGAGCGTAACTAACATCAGCAACCAGAATGCCCAGCAAAGCTGGCGGAGGCGGGGTGATGTGGCGAACCA -CCAGTCAAAGAACATGTTCATCGCTAACCTTCCTTGTTAACTGATACTCAAATTGCCAGCGTCCCTGCGCATCCT -GCTGCGTGGCTCCCCGCTGATTGAGATGAAAAGATGCATCCTGGCGGAGTGACGTTTCTAGTGCGTTTAACGCGG -TAATGCTTGTTGTCAGCCCCTTGATCTCCAGCGTTCCCTGCTGCCAGCTTATCGTTGTCAGCCAGGCGTGCTCGG -GTAAAAGCGCCGCCAGTGCTTCCAGCGCAGATTGCCAGTCGCGGGTAAATTGTCGCTGGCGCTGCCGTTGCGAAC -GCTGTTCGCGTAACTGCTGTTGCTCCAGCAAACGTGGCTTCGTTATCTGTAAGCTGCGGGCGAGTTGTTGTTCCG -CCTGAAGCAAAACTGCGTCTATGCGCGCTTCGGCGCTGCCTGTCAGACGCAGTATTAGCGTTATCCCGACGGCCA -GCAGCAGAGGCGCAACGAACATCAGCAACCAGAAACGCAGAAAAGCGGTCCGGCGTTGCTGTCGCCAGGGCAAAA -AATTAATTGGCGGGTTCATCAGTACGCCTTCCCAAGCGCCAGCCCCAGCGCGATGGCAAAGTCTCCACCTGGCGG -CGGTAGCGGCGGCTGACGAACAGAAACGGCCTCCCAGGGATCAAATCCGCCTTCGCCACATATCGCGACGCTTTC -GGGATCAACGGATAACGCTGCCGCCAGCTCCTTCGCGCTAGTCATCCCCACCGCCAGTTTGCGCCCCCAGCTATA -GCGCGTCGCCCACAGCCACTGTTCGTTATCACGCCAGGCCAGACATTGCTGATGAGAAGGTAAAAAAGGCAGGAA -TCGCTGTAATGCACTGGCATCCGGGGTGATCGCGCTCACATGAACACGCAACCTTTCTGCCAGAGTAAGCAGCGT -TGCCAGCTCTTTGCTTTGCGCGGCAGTCACGTTATAGGCGGGACTGAGTGAGTCTTCGCTGTAATCGAAGCGCAG -GGAGTCCGGATCCATATCCAGCTCGCGGGCCATCGTCCCTGACAGCCAGGCCGTTTGCTCCCGCTCACCAAGGGA -CATCGACGGGCGCGGAAATGACCGCTGTAATGTGCGACTGGCGGGAAACGCCAACATAATGTGATGACGCTGCGG -CAGTTCGCGACTCCACGGTAACAACGTTTTAGCCAGCTGCTGCGCATCAACAATCCGCCCATCTTTGATAATGTC -GTTCTCCAGCGGCAACCGCCACCAGCGTTGCAAAAAGCATTCTTTTGCGCCCCGCACGATCGCAACCGCTACCGC -TTCTTGCTGTTGTAAATGCAAACCAATTTGCCAGATCTTAAATGCCATTGTGATGATCTCCTTATCACCCGTCAC -TCTGACGGGTATATCAATGCGTCTGGCTTGCCTTTATACTACCGCGCGTTTGTTTATAAACTGCCCAAATGAAAC -TAAATGGGAAATTTCCAGTGAAGTTCGTAAAGTATTTTTTGATCCTTGCAGTCTGTTGCATTCTGCTGGGAGCAG -GCTCGATTTATGGCCTATACCGCTACATCGAGCCACAACTGCCGGATGTGGCGACATTAAAAGATGTTCGCCTGC -AAATTCCGATGCAGATTTACAGCGCCGATGGCGAGCTGATTGCTCAATACGGTGAGAAACGTCGTATTCCGGTTA -CGTTGGATCAAATCCCACCGGAGATGGTGAAAGCCTTTATCGCGACAGAAGACAGCCGCTTCTACGAGCATCACG -GCGTTGACCCGGTGGGGATCTTCCGTGCAGCAAGCGTGGCGCTGTTCTCCGGTCACGCGTCACAAGGGGCAAGTA -CCATTACCCAGCAGCTGGCGAGAAACTTCTTCCTCAGTCCAGAACGCACGCTGATGCGTAAGATTAAGGAAGTCT -TCCTCGCGATTCGCATTGAACAGCTGCTGACGAAAGACGAGATCCTCGAGCTTTATCTGAACAAGATTTACCTTG -GTTACCGCGCCTATGGTGTCGGTGCTGCGGCACAAGTCTATTTCGGAAAAACGGTCGACCAACTGACGCTGAACG -AAATGGCGGTGATAGCCGGGCTGCCGAAAGCGCCTTCCACCTTCAACCCGCTCTACTCGATGGATCGTGCCGTCG -CGCGGCGTAACGTCGTGCTGTCGCGGATGCTGGATGAAGGGTATATCACCCAACAACAGTTCGATCAGACACGCA -CTGAGGCGATTAACGCTAACTATCACGCGCCGGAGATTGCTTTCTCTGCGCCGTACCTGAGCGAAATGGTGCGCC -AGGAGATGTATAACCGTTATGGCGAAAGTGCCTATGAAGACGGTTATCGCATTTACACCACCATCACCCGCAAAG -TGCAGCAGGCCGCGCAGCAGGCGGTACGTAATAACGTGCTGGACTACGACATGCGCCACGGCTATCGCGGCCCGG -CAAATGTGCTGTGGAAAGTGGGCGAGTCGGCGTGGGATAACAACAAGATTACCGATACGCTGAAGGCGCTGCCAA -CCTATGGTCCGCTGCTGCCTGCCGCAGTCACCAGCGCCAATCCTCAGCAAGCGACGGCGATGCTGGCGGACGGGT -CGACCGTCGCATTGAGTATGGAAGGCGTTCGCTGGGCGCGTCCTTACCGTTCGGATACTCAGCAAGGACCGACGC -CGCGTAAAGTGACCGATGTTCTGCAAACGGGTCAGCAAATCTGGGTTCGTCAGGTTGGCGATGCATGGTGGCTGG -CACAAGTGCCGGAAGTGAACTCGGCGCTGGTGTCGATCAATCCGCAAAACGGTGCCGTTATGGCGCTGGTCGGTG -GCTTTGATTTCAATCAGAGCAAGTTTAACCGCGCCACCCAGGCACTGCGTCAGGTGGGTTCCAACATCAAACCGT -TCCTCTACACCGCGGCGATGGATAAAGGTCTGACGCTGGCAAGTATGTTGAACGATGTGCCAATTTCTCGCTGGG -ATGCAAGTGCCGGTTCTGACTGGCAGCCGAAGAACTCACCACCGCAGTATGCTGGTCCAATTCGCTTACGTCAGG -GGCTGGGTCAGTCGAAAAACGTGGTGATGGTACGCGCAATGCGGGCGATGGGCGTCGACTACGCTGCAGAATATC -TGCAACGCTTCGGCTTCCCGGCACAAAACATTGTCCACACCGAATCGCTGGCGCTGGGTTCAGCGTCCTTCACCC -CAATGCAGGTGGCGCGCGGCTACGCGGTCATGGCGAACGGCGGCTTCCTGGTGGACCCGTGGTTTATCAGCAAAA -TTGAAAACGATCAGGGCGGCGTGATTTTCGAAGCGAAACCGAAAGTAGCCTGCCCGGAATGCGATATTCCGGTGA -TTTACGGTGATACGCAGAAATCGAACGTGCTGGAAAATAACGATGTTGAAGATGTCGCTATCTCCCGCGAGCAGC -AGAATGTTTCTGTACCAATGCCGCAGCTGGAGCAGGCAAATCAGGCGTTAGTGGCGAAGACTGGCGCGCAGGAGT -ACGCACCGCACGTCATCAACACTCCGCTGGCATTCCTGATTAAGAGTGCTTTGAACACCAATATCTTTGGTGAGC -CAGGCTGGCAGGGTACTGGCTGGCGTGCAGGTCGTGATTTGCAGCGTCGCGATATCGGCGGGAAAACCGGGACCA -CTAACAGTTCGAAAGATGCGTGGTTCTCGGGTTACGGTCCGGGCGTTGTGACCTCGGTCTGGATTGGCTTTGATG -ATCACCGTCGTAATCTCGGTCATACAACGGCTTCCGGAGCGATTAAAGATCAGATCTCAGGTTACGAAGGCGGTG -CCAAGAGTGCCCAGCCTGCATGGGACGCTTATATGAAAGCCGTTCTTGAAGGTGTGCCGGAGCAGCCGCTGACGC -CGCCACCGGGTATTGTGACGGTGAATATCGATCGCAGCACCGGGCAGTTAGCTAATGGTGGCAACAGCCGCGAAG -AGTATTTCATCGAAGGTACGCAGCCGACACAACAGGCAGTGCACGAGGTGGGAACGACCATTATCGATAATGGCG -AGGCACAGGAATTGTTCTGATTAAAAAGGCGCTTCGGCGCCTTTTCAGTTTGCTGACAAAGTGCACTTGTTTATG -CCGGATACGGCGTGAACGCGTTATCCGGCTAACAAAATCGTGAAAACTCAATAAATTGCAGAAACCCCATAAGCC -TGATAAACATTGTGCATCAGGCAAACTTCACGCATTTACACTCGCCCCTGCCCTTTCAACCATTCGCGCACGAGG -AACAGCGCACTGACATTGCGCGCTTCATTGAAGTCAGGGTCTTCCAGCAAATCCATCATATGCGCCAGCGGCCAG -CGCACCTGTGGTAGCGGCTCTGGCTCATCGCCTTCCAGTGATTCCGGGTAGAGATCTTGCGCTACCACGATATTC -ATTTTGCTGGAAAAGTAAGACGGTGCCATGCTGAGCTTCTTCAAAAAAGTCAGATCGTTCGCTCCAAATCCAACC -TCTTCTTTTAGCTCGCGGTTAGCGGCTTCGTAGACGCTTTCACCCGGATCAATTAATCCTTTCGAAAAACCTAAT -TCGTAGGATTCAGTTCCCACTGCGTATTCGCGGATCAGGATCAGGTGATCGTCCACAATCGGCACAATCATCACT -GCTTCCCGGTTGGTTGGACGCATTCGTTCATAAACACGCCGCACGCCATTGCTGAACTCCAGATCCACGCTCTCG -ACGGTAAACAGTCGGGAACGGGCTACAGTTTCAACATTCAGAATGGTGGGTTTTTGTAATGATTTGCTCATCGTG -GGATCTATGCTGTGAAATCAGCGGTTATTGTGCGATATCGGACACGCTTTCGGCAATGTGAATTGCATGTTATTT -ACATTTATGTAACTTAATAAATAATCGTCCTCAAATCAAATTAAAAGTCAATAGGTTGAAATAACTCCAGGAATT -TGCTGATATTCCGCCTTCAGAGGGTTTGCTATGATCAGCGGTTACTGTGATGTGCTTAATGATGCTCAAGTTAAA -CTCCACGCTTGCCGATAGCCAACCGCAGAATCATGTATTGTGTCCGGTGCGACTGACCACGCCTGACAGACTAAG -TAAGATGGGGAAAGCATGAGCACCATTGTGATTTTTTTAGCTGCTTTGCTGGCCTGCTCACTACTTGCGGGATGG -CTGATAAAAGTGCGATCCAGACGGCGTCAGCTGCCCTGGACCAACGCCTTCGCGGATGCGCAAACGCGTAAACTC -ACACCTGAAGAACGTAGCGCCGTTGAAAATTATCTTGAGAGCCTGACGCAGGTATTACAGGTGCCTGGCCCAACG -GGAGCCAGCGCGGCACCGATCTCTCTGGCGCTGAATGCCGAAAGCAACAACGTCATGATGCTGACACACGCTATC -ACGCGTTACGGCATCTCTACCGACGATCCGAATAAATGGCGTTACTACCTCGATTCGGTAGAAGTCCACCTGCCC -CCTTTCTGGGAACAGTACATCAACGATGAGAATACCGTTGAACTGATTCATACCGATTCGCTGCCGCTGGTTATT -TCACTCAACGGTCATACGCTGCAGGAGTACATGCAGGAAACTCGCAGCTATGCCTTGCAACCTGTTCCGTCAACG -CAGGCGTCGATTCGCGGGGAAGAGAGTGAGCAAATCGAGCTACTCAATATTCGCAAAGAAACGCATGAAGAATAT -GCGCTGAGTCGTCCGCGCGGGCTGCGTGAAGCGTTGCTGATCGTCGCCTCCTTCCTGATGTTCTTTTTCTGCCTG -ATTACCCCGGATGTATTTGTTCCGTGGCTGGCAGGCGGCGCGTTACTGCTGCTGGGCGCAGGTCTGTGGGGGCTA -TTCGCGCCCCCGGCAAAATCCTCCCTGCGGGAAATTCATTGTCTGCGCGGTACACCCCGTCGTTGGGGATTGTTT -GGCGAAAACGATCAGGAACAGATCAACAATATTTCACTCGGTATTATCGACCTGGTCTATCCCGCACACTGGCAG -CCATACATTGCTCAGGATCTCGGTCAACAAACCGATATCGATATCTATCTCGACCGCCATGTAGTGCGTCAGGGA -CGATATCTTTCGCTGCATGATGAAGTAAAAAACTTTCCGTTACAGCACTGGCTGCGCAGTACGATTATCGCTGCG -GGCTCGCTGCTGGTGCTGTTTATGCTGTTATTCTGGATCCCGCTGGATATGCCGCTGAAATTCACTCTCTCATGG -ATGAAAGGCGCGCAGACCATTGAAGCCACCAGCGTAAAACAACTGGCTGACGCTGGCGTGCGGGTAGGCGATACA -TTGCGTATTAGCGGTACGGGAATGTGTAATATTCGAACTTCCGGAACCTGGAGCGCGAAAACCAATTCACCTTTT -TTACCGTTTGACTGCTCGCAGATCATCTGGAACGACGCCCGCTCATTGCCATTACCAGAATCTGAACTGGTCAAC -AAAGCGACGGCATTGACTGAAGCAGTTAATCGCCAGCTGCACCCTAAACCGGAAGATGAATCTCGCGTCAGTGCC -TCATTACGTTCAGCAATTCAAAAATCCGGCATGGTATTGCTTGATGATTTTGGCGACATTGTACTGAAGACAGCG -GATTTATGTTCTGCCAAAGATGACTGTGTGCGACTGAAAAATGCGCTGGTCAATCTCGGCAACAGTAAAGACTGG -GACGCGCTGGTAAAACGCGCCAACGCCGGGAAGCTCGATGGCGTGAATGTGTTATTACGCCCGGTGAGTGCGGAA -TCGCTGGATAACCTGGTGGCAACCTCCACCGCGCCGTTTATCACGCATGAAACGGCGCGAGCGGCACAATCACTA -AACAGTCCGGCCCCCGGCGGATTCCTGATTGTCAGCGACGAAGGCAGCGATTTTGTTGATCAGCCCTGGCCTTCG -GCATCACTTTACGACTACCCGCCGCAAGAACAGTGGAACGCTTTCCAGAAACTGGCACAAATGCTGATGCATACG -CCGTTTAACGCCGAGGGTATCGTCACAAAAATCTTCACTGACGCCAATGGTACGCAGCATATTGGCCTTCATCCG -ATCCCGGATCGTTCCGGCCTGTGGCGCTATCTCAGCACCACATTGCTGCTACTGACGATGCTGGGTAGCGCCATT -TACAATGGCGTACAGGCCTGGCGTCGTTACCAGCGTCATCGCACTCGCATGATGGAGATTCAGGCCTATTATGAA -AGCTGCCTGAACCCGCAACTGATCACCCCTTCAGAAAGCCTTATCGAATAACACGTTTGCGCGGCAGGTTATGCT -ACCCTGTCGCGCAAATTGCTTCACTCTGGAGATTTCCCTCATGCATATCAACATTGCCTGGCAGGACGTAGATAC -CGTTCTGCTGGATATGGACGGCACGTTGCTCGACCTCGCCTTCGATAACTATTTCTGGCAAAAGCTGGTGCCTGA -AACATGGGGCGCGAAAAACGGGGTTACGCCACAGGAAGCGATGGAATATATGCGCCAGCAATATCACGACGTACA -GCATACGCTAAACTGGTACTGTCTTGATTACTGGAGTGAGCAACTGGGTCTGGATATCTGTGCGATGACCACCGA -GATGGGACCGCGTGCCGTACTGCGTGAAGATACCATTCCGTTTCTTGAGGCACTGAAAGCCAGCGGTAAGCAGCG -AATTTTGCTCACCAATGCGCATCCGCACAACCTGGCGGTAAAACTTGAGCATACCGGTCTGGACGCACACCTTGA -TTTATTACTTTCCACCCACACATTTGGTTATCCGAAAGAGGATCAGCGGTTATGGCATGCGGTGGCCGAAGCTAC -GGGTCTGAAAGCTGAAAGAACGCTGTTTATTGATGACAGCGAAGCGATTCTCGATGCTGCCGCGCAATTTGGTAT -TCGTTACTGCCTCGGCGTGACTAATCCTGATTCCGGGATTGCCGAGAAACAGTATCAACGCCATCCGTCACTGAA -TGACTACCGCCGCCTGATCCCCTCGCTAATGTGAAGGAGACGCCATGAAAGAGAAACCTGCTGTTGAGGTTCGAC -TGGATAAATGGCTATGGGCTGCCCGTTTTTATAAAACCCGCGCGCTGGCCCGTGAAATGATTGAAGGCGGTAAGG -TGCATTACAACGGGCAGCGCAGCAAGCCGAGCAAAATCGTCGAGCTGAATGCCACGCTCACTCTGCGCCAGGGAA -ATGACGAACGCACGGTGATTGTAAAGGCGATTACTGAACAGCGTCGCCCCGCCAGCGAGGCAGCCTTGCTGTATG -AAGAGACTGCGGAAAGTGTAGAGAAACGCGAAAAAATGGCGCTGGCACGTAAACTTAATGCCTTAACCATGCCGC -ACCCGGACCGACGCCCGGACAAAAAAGAGCGCCGCGACCTGTTACGATTTAAACACGGCGACAGTGAATAACTGT -CACCTGCAAGAGAGATGATTATGCCGCAACATGACCAATTACATCGCTATCTGTTTGAAAACTTTGCCGTGCGCG -GCGAACTGGTAACCGTTTCGGAAACCCTGCAACAGATCCTTGAGAACCACGATTATCCGCAGCCCGTTAAAAACG -TGCTGGCAGAACTGCTGGTTGCGACCAGCCTGTTAACCGCTACGCTGAAGTTTGATGGTGATATCACCGTACAGC -TGCAGGGCGACGGTCCGATGAATCTGGCGGTTATTAACGGTAACAATAACCAGCAGATGCGCGGTGTGGCGCGCG -TGCAGGGCGAAATTCCAGAAAATGCCGACCTGAAAACGCTGGTCGGCAATGGTTACGTGGTGATCACCATTACCC -CGAGCGAAGGCGAACGCTATCAGGGCGTAGTTGGTCTGGAAGGTGATACCCTGGCGGCCTGCCTGGAAGATTACT -TTATGCGTTCTGAACAGCTGCCGACGCGCCTGTTTATTCGCACCGGCGACGTAGACGGCAAACCGGCTGCAGGCG -GTATGTTGTTGCAGGTAATGCCTGCGCAAAATGCCCAGCAGGACGACTTTGACCACCTGGCGACGCTAACCGAAA -CCATCAAAACCGAAGAACTGCTGACCTTACCGGCAAACGAAGTGTTGTGGCGTTTGTATCACGAAGAAGAGGTGA -CGGTTTACGATCCGCAGGATGTGGAGTTCAAATGCACCTGCTCGCGTGAACGTTGCGCCGATGCGCTGAAAACGC -TGCCTGATGAAGAAGTTGATAGCATCCTGGCGGAAGATGGCGAAATTGACATGCATTGTGATTACTGCGGTAACC -ACTATCTGTTCAATGCGATGGATATTGCTGAAATCCGCAACAACGCGTCTCCGGCAGATCCGCAAGTTCATTAAT -GAGTATGTCCGGCAGAGAGGGCTCTGCCGGATTTTACGACTAATACACCTGATGCGCTTTGTCACTCATTCAGAT -TCACATTCAGCCTTTCACCATCCACTACAAGATCGCGCCACGCTTTAGGCTTCGTCCCCAGTTTTCCATCCTTCG -CAGCTGTGAGTAATTTTTCTTTCGTTATTTCGTTCGGAAGTAAACTCATATCAAGCGCGTCCCATTCTTTTCTGT -CTGAGTCAAAGCCATAGACAATGACTCTGTCATCATTAAAAGCAAACAGGATCCGCTCCGCCTGACCATCACTAT -TCAGATCTTGCTCGACCAGGACGCAGGCGTCTTTTTCAATACAGGTCATCACGTTATAGCGATCCTGGATTAAGG -CCGACCAGAATGTCGCATCAGGTTTAACAGAACCAGGGGCAATTAACACATTATCGGCTAATACTTTTTCCGATA -CCTGTTGCTGAAGATGTTGCTCTCCATCTAACGCCATCAGCAGATCCCGCGCGCGTTTCGGGTCTTTCATAAACC -CGGCATCGCTTTTCAGCGACTCAAGCGCAGCACGTCCATAGCGACCGCTCTGCTCGAGCATGTAGATAGTTACCT -GGTCTGACGTGTTTTTGCCGCTCTGATAACGCGCCATATGGCTGTTCACGCTAATGCGCATACTGTCCAGCACCG -GCGAATTAAGAAGCACCAGTATCACCAACACCAATAACGAAACCGCAAGGTTCACTTTGCCCTGAAGAACAACGG -GATTTTGCCCTTTACGCCAGACGATGCTGACAAAATACCCCAGCGACCACACCAGTAACACCAGCACCGCCAGCA -CGCCCTGCAAGCGGTCGACAGTCCAGCCGTACTGAGCGACCCGCAGCCATAACGCCCAGGCGGCGACGAACACAT -ACAGCGGAGCAACCAGCAAAGCGGTTTTAATCAGGCAACGCAACGGCCCTGTCCAGGGAAGTGACGCTTTTTGCG -GATCGCGGACAATAGCCATTAAGATCAATTGCAAAAAGGCCAGCGTCAACAGCAACCCGGCGGCGGAGATGTGGC -GAGAAATCGCGCTCAGGCCCGTAAACGGCAGGGTGATGATAAACATCAGGGTTAGCAATGATACTAACGGCAGCA -ACCCCGTGGCGATTAACGTGAACAACTTTTGAATAGAGTCGATTAAACGTGACTGTGTTCGCGCGAGGATCACCG -CCAGCGCGGTAACCAGACCTAACGTGAGATAAATAAACCAGTCGGTTGCAAAAAAGAGCGTATTGAAAAACGTGA -TGCCAACAAGTTTAAACAACTCACTCCACAGTAAAAGCACCAGCCACGTCAAGCCATTGGCGAGAAAAATCACCA -GTAATATAAGTACGTTATGCCATACTGACTGGTAAAAATAGCGATAGCGGCTACTGTCATTGCGGATGCGAAGGC -TTTGTTGTATCCACGGTAGCAACAACATTGCCATCAACAGCAGATAGCAACCAAAATCCCAAAGCGCCTTTTCAG -CTCTCCAGGGGTTCATGCCATCAGTTTGCCACTTCAGCCAGCCGCTCATCCCCAGCGTGGCAATAAACACTAGCG -CCAGCCATCCCCAAAGGCGCTTCTGTTTAAAAGAGATCACGGAGAAGAGTAAAACGGATGAAAACGCGACGGTCG -CAGGCACGCCATAAACAATCCAACTGTGATTTTTTCCGGAAAGCCAGGCGATCAGCAGGTAGCAAACCAGACCCT -GAAGTAATCCGGTAGCAATCATCCCCCAGCGTGTTGCGGGTGAAAGTTCAACGTTATCCATGTTGGTTATCCAGA -ATCAAAAGGTGGGTTAATTATCGCATCCGGGCAGTAGTATTTTGCTTTTTTCAGAAAATAATCAAAAAAAGTTAG -CGTGGTGAATCGATACTTTACCGGTTGAATTTGCATCAATTTCATTCAGGAATGCGATTCCACTCACAATATTCC -CGCCATATAAACCAAGATTTAACCTTTTGAGAACATTTTCCACACCTAAAATGCTATTTCTGCGATAATAGCAAC -CGTTTCGTGACAGGAATCACGGAGTTTTTTGTCAAATATGAATTTCTCCAGATACGTAAATCTATGAGCCTTGTC -GCGGTTAACACCCCCAAAAAGACTTTACTATTCAGGCAATACATATTGGCTAAGGAGCAGTGAAATGCGCGTTAA -CAATGGTTTGACCCCGCAAGAACTCGAGGCTTATGGTATCAGTGACGTACATGATATCGTTTACAACCCAAGCTA -CGACCTGCTGTATCAGGAAGAGCTCGATCCGAGCCTGACAGGTTATGAGCGCGGGGTGTTAACTAATCTGGGTGC -CGTTGCCGTCGATACCGGGATCTTCACCGGTCGTTCACCAAAAGATAAGTATATCGTCCGTGACGATACCACTCG -CGATACTTTCTGGTGGGCAGACAAAGGCAAAGGTAAGAACGACAACAAACCTCTCTCTCCGGAAACCTGGCAGCA -TCTGAAAGGCCTGGTGACCAGGCAGCTTTCCGGCAAACGTCTGTTCGTTGTCGACGCTTTCTGTGGTGCGAACCC -GGATACTCGTCTTTCCGTCCGTTTCATCACCGAAGTGGCCTGGCAGGCGCATTTTGTCAAAAACATGTTTATTCG -CCCGAGCGATGAAGAACTGGCAGGTTTCAAACCAGACTTTATCGTTATGAACGGCGCGAAGTGCACTAACCCGCA -GTGGAAAGAACAGGGTCTCAACTCCGAAAACTTCGTGGCGTTTAACCTGACCGAGCGCATGCAGCTGATTGGCGG -CACCTGGTACGGCGGCGAAATGAAGAAAGGGATGTTCTCGATGATGAACTACCTGCTGCCGCTGAAAGGTATCGC -TTCTATGCACTGCTCCGCCAACGTTGGTGAGAAAGGCGATGTTGCGGTGTTCTTCGGCCTTTCCGGCACCGGTAA -AACCACCCTTTCCACCGACCCGAAACGTCGCCTGATTGGCGATGACGAACACGGCTGGGACGATGACGGCGTGTT -TAACTTCGAAGGCGGCTGCTACGCAAAAACTATCAAGCTGTCGAAAGAAGCGGAACCTGAAATCTACAACGCTAT -CCGTCGTGATGCGTTGCTGGAAAACGTCACCGTGCGTGAAGATGGCACTATCGACTTTGATGATGGTTCAAAAAC -CGAGAACACCCGCGTTTCTTATCCGATCTATCACATCGATAACATTGTTAAGCCGGTTTCCAAAGCGGGCCACGC -GACTAAGGTTATCTTCCTGACTGCTGATGCTTTCGGCGTGTTGCCGCCGGTTTCTCGCCTGACTGCCGATCAAAC -CCAGTATCACTTCCTCTCTGGCTTCACCGCCAAACTGGCCGGTACTGAGCGTGGCATCACCGAACCGACGCCAAC -CTTCTCCGCTTGCTTCGGCGCGGCATTCCTGTCGCTGCACCCGACTCAGTACGCAGAAGTGCTGGTGAAACGTAT -GCAGGCGGCGGGCGCGCAGGCTTATCTGGTTAACACTGGCTGGAACGGCACTGGCAAACGTATCTCGATTAAAGA -TACCCGCGCCATTATCGACGCCATCCTCAACGGTTCGCTGGATAATGCAGAAACCTTCACTCTGCCGATGTTTAA -CCTGGCGATCCCAACCGAACTGCCGGGCGTAGACACGAAGATTCTCGATCCGCGTAACACCTACGCTTCTCCGGA -ACAGTGGCAGGAAAAAGCCGAAACCCTGGCGAAACTGTTTATCGACAACTTCGATAAATACACCGACACCCCTGC -GGGTGCCGCGCTGGTAGCGGCTGGTCCGAAACTGTAATGATTTGAAGCTGGAGAATATCTATCCAGTATCTTATA -GAAAGCAAAACGGGAGGCACCTTCGCCTCCCGTTTATTTACCCTTCTTTTGTCGTGCCCTGCGCCCGCGTTACCG -GCACTGGCAGCCAGGCGCGAATGGAAAGCCCGCCCCGCTCGCTGGTGCCAAGCTCCAGCATCCCGTTATGGTTAT -CCACGATACGCTGCACAATTGCCAGCCCTAATCCCGTGCCGCTAATGGTGCGCGCACTGTCGCCGCGGACAAACG -GCTGGAACAGGTGCTTACGTTGTTCCGGCGCAATTCCCGGACCGTCATCTTCCACCTGGAACCAGGCGCGATTCG -GCTCCGTTCCGCTGCTGACTTTGATCCAGCCATTGCCATAACGGGCGGCGTTGACCACCATATTCGCCACCGCGC -GTTTGATCGACAGCGGGTGCATTTTCACTTCAATGCTGCCGGGGTAAAGCGCGGTTTCAATTTCCCGCTCATAGC -CACTTTCGGCAGCAATCACCTCACCGAGTACTGCATTAAGATCCGCCATTTCCATCGGCATCTCCTGCCCGGTGC -GCAGGTAGTCGATAAACTGCTCAATGATGGCGTTGCACTCTTCGATATCTTTATTGATCGATTCTGCCAGATAGC -CATCCTGCTCGCTCATCATCTCAGTCGCCAGGCGAATACGCGTCAGCGGCGTGCGCAAGTCGTGACTTACCCCCG -CCATCAGCAGCGTGCGGTCATCCGCCAGTTGCTTAACACCAGCCGCCATATGGTTAAAGGCACGGGTAACGGAAC -GCACCTCCGAAGCGCCATACTCACGCAGCGGCGGCGGAATAATCCCTTTACCAACCTGCAAGGCTGCGTGTTCGA -GATCGACCAACGGTCGGTTCTGGATACGAATAAACAGCCACGCCCCGCCTATCGCCAATAGCATAATCGCCAGCG -TATAGCGGAACAGCGGAGAGAAATCGCCCTGATGAATTTCGGTCAGCGGCACGCGTACCCAGATATTGGGCGACA -GCCAGGTTTTCAGCCAGACGACAGGCGAACTTTTGTTGACCTCAACGCGCACTTCCGTCGGGCCGCCCAGTTGCT -GCGCCATCTGATGGCTTAAGAATTCATAGTGTTGCGCCCAACGCAGACCTGCCTCTTCGGCAGCCTCGTTGGAGT -AGAGAGAGATCCCCAGCTCACGGTAGATCTCCCGACGGAAAGCGGGAGGCACAACCAACTGCGTGCCGTCCTCCA -GTTGCAGTTTGTCGGTCATCAACATACGCACTTCGTACGCGAGGACTTTATTAAACTGCTGGAGGCTCGGCAAAA -TCGCGAAGTTCAGCACCACCAGATAAGTCGTCACCAGGCTGGCGAACAGCAAGGTGACGATGAGCAATAACGTAC -GGGCAAATGAACTTCGTGGCGAGAAGCGCAATCGCCTCATGCTTTAGAGCCGTCCGGTACAAAGACGTAGCCCAG -ACCCCAGACGGTCTGAATGTAACGCGGATGCGCTGGATCTTCTTCCACCATGCGGCGCAGACGCGAAATCTGCAC -GTCGATGGAGCGTTCCATTGCGGAATATTCACGACCACGGGCAAGGTTCATCAGCTTATCGCGGGAGAGCGGCTC -ACGCGGATGGCTGACCAGTGCCTTCAGTACCGCAAACTCACCGCTGGTGAGCGGCATCGGCTCGTCTTCGCGGAA -CATTTCGCGCGTACCGAGGTTAAGTTTGAACTTACCGAAAGCAATTACCGCCTCTTCCTGTGACGGTGCGCCTGG -CAGTTCGTTCGCCTGACGACGCAGCACCGCACGGATACGGGCCAGCAGTTCACGCGGGTTAAACGGTTTTGGAAT -GTAGTCGTCAGCGCCAATCTCCAGGCCTACGATACGGTCCACTTCTTCCCCTTTCGCCGTCACCATAATGATCGG -CATCGGGTTGCTCTGACTACGAAGACGTCGGCAAATCGACAAGCCATCTTCACCAGGTAACATTAAATCCAGTAC -CATAAGATGGAAAGATTCACGAGTCAGCAGGCGATCCATCTGTTCTGCATTAGCGACGCTTCGAACCTGGAAGCC -TTGTTCGGTGAGATAACGTTCCAGCAGCGCACGCAGGCGCATGTCGTCATCGACCACCAGAATCTTGTAGTTCTC -TTGCATTGTTTGTACTCCCAAAGGTTCGCAACAATTTGTAAGCGTGTATTCTTAAAAAAGCTCACGTTCGTCACC -AGCTAAATCTGGTATGAATTTCAGCCTAAATTGTTACAAAGCATATTAAACAGCAGCTTAAGTATACAATTTATT -CGGCGAAACATTATTGATTCTGTTGATATGATCACGTTATACCCAATGTGCGCATTATCAAACAGACAAAGGGAA -TCAACGAGATGAAAACGCCCCTGGTTACCCGGGAAGGGTATGAAAAACTCAAACAAGAGCTTAATTATCTCTGGC -GTGAAGAACGCCCGGAGGTCACAAAAAAGGTGACCTGGGCCGCAAGTCTGGGCGACCGCAGCGAAAATGCTGACT -ATCAGTATAATAAAAAGCGTCTGCGTGAAATCGACCGTCGCGTGCGCTATCTCACTAAATGCCTGGAAAATCTCA -AAATCGTCGATTACTCCCCTCAGCAGGAAGGCAAAGTCTTTTTTGGCGCGTGGGTGGAGATTGAAAACGACGATG -GCGTGACTCACCGTTTCCGTATTGTCGGCTACGATGAAATTTTTGGCCGTAAAGATTACATCTCTATCGATTCCC -CGATGGCCCGCGCATTGCTGAAAAAAGAAGTCGGCGATCTGGCGGTGGTGAATACCCCTGCCGGGGAAGCGAGCT -GGTATGTTAATGCTATCGAGTACGTGAAACCGTAAGGAAGAGTCTTAACCTCCTGCCGATGGCTGGCATTTTTGC -CAGCCAGTCCGTATAACTATCCCCTGATTTTTGATCCGAAAAGATGAACTCAAACCATGATGAATGATTCGTTCT -GCCGCATTATTGCGGGTGAAATTCAGGCGCGCCCGGAACAGGTTGACGCTGCCGTTCGCCTGCTTGACGAAGGGA -ATACCGTGCCGTTTATCGCACGTTATCGTAAGGAAATCACCGGCGGTCTGGATGACACGCAGCTGCGTAATCTGG -AAACGCGTCTGAGCTATCTGCGCGAGCTGGAAGAGAGACGTCAGGCGATCCTCAAGTCCATTTCCGAGCAAGGCA -AACTCACCGATGATCTGGCGAAGGCCATCAACGCCACCCTAAGCAAAACCGAACTCGAAGACCTCTACCTGCCCT -ACAAACCTAAACGCCGCACCCGCGGGCAAATCGCCATTGAAGCAGGGCTTGAGCCGTTGGCTGACCTGCTGTGGA -GCGATCCGTCACACACGCCAGAAGTCGCCGCTGCACAATATGTTTATGCCGATAAAGGCGTGGCAGATACCAAAG -CCGCGCTGGATGGCGCGCGCTATATCCTGATGGAACGGTTTGCCGAAGATGCCGCGCTGCTGGCGAAAGTGCGTG -ATTATCTGTGGAAGAACGCGCATTTGGTTTCTACGGTGGTGAGCGGTAAAGAAGAGGAAGGGGCGAAATTCCGCG -ACTATTTCGATCATCACGAACCGTTGTCCACGGTGCCTTCTCACCGCGCGCTGGCGATGTTCCGTGGGCGTAACG -AAGGCGTACTTCAGCTTTCGCTGAATGCCGATCCACAGTTCGATGAGCCGCCCAAAGAGAGCTATTGCGAGCAAA -TCATCATGGATCACCTTGGCCTGCGCCTGAACAATGCCCCGGCGGATAGCTGGCGCAAAGGCGTGGTGAGCTGGA -CGTGGCGCATCAAGGTGCTGATGCATCTGGAAACCGAACTGATGGGCACCGTGCGCGAACGTGCGGAAGATGAAG -CAATCAACGTCTTTGCCCGTAACCTGCACGATCTGCTGATGGCGGCCCCTGCCGGACTGCGTGCAACGATGGGCC -TCGATCCGGGTCTGCGTACTGGGGTAAAAGTGGCGGTGGTCGATGCCACTGGCAAACTGGTGGCGACCGACACCA -TTTACCCGCACACCGGACAGGCCGCAAAAGCAGCGATGACCGTTGCTGCGCTGTGTGAAAAACATAACGTTGAAC -TGGTAGCGATCGGTAACGGTACAGCTTCCCGCGAAACTGAGCGTTTCTATCTCGATGTGCAGAAGCAGTTCCCGA -AAGTGACCGCGCAGAAAGTAATCGTCAGCGAAGCAGGCGCGTCGGTTTACTCGGCTTCCGAGCTGGCTGCACAGG -AGTTCCCGGATCTCGACGTTTCGCTGCGTGGCGCGGTGTCTATCGCCCGCCGTTTGCAGGATCCGCTGGCGGAGC -TGGTGAAAATCGATCCGAAATCTATCGGCGTAGGTCAGTATCAGCATGACGTCAGCCAGACGCAACTGGCCCGCA -AACTGGACGCAGTAGTAGAAGACTGCGTAAACGCCGTTGGCGTCGATCTCAACACTGCTTCTGTTCCGCTGTTAA -CCCGCGTGGCGGGCCTGACGCGCATGATGGCGCAAAACATCGTTGCCTGGCGCGATGAGAACGGTCAGTTCCAGA -ACCGTCAGCAACTGTTAAAAGTGAGCCGTCTGGGGCCGAAAGCCTTCGAGCAGTGCGCGGGCTTCTTGCGCATTA -ACCACGGTGATAACCCGCTGGACGCGTCTACCGTTCACCCGGAAGCCTATCCGGTGGTGGAACGCATTCTGGCAG -CAACACAGCAGGCACTGAAAGATCTGATGGGTAACAGCAGCGAACTGCGTAACCTGAAAGCGTCTGACTTTACTG -ATGAGAAATTCGGTGTGCCGACGGTAACCGACATCATCAAAGAGCTGGAAAAACCGGGTCGCGATCCGCGTCCGG -AATTTAAAACCGCTCAGTTTGCCGATGGCGTCGAGACAATGAACGACCTGCAACCGGGTATGATCCTCGAAGGCG -CAGTGACCAACGTCACCAACTTTGGCGCGTTTGTCGATATTGGCGTGCATCAGGACGGCCTGGTTCACATCTCTT -CATTGTCGAACAAGTTTGTGGAAGATCCGCATACCGTGGTGAAAGCGGGCGACATTGTGAAGGTGAAAGTGCTGG -AAGTGGATCTTCAGCGTAAACGTATCGCCCTGACTATGCGCCTGGATGAGCAGCCTGGCGAAACCAACGCTCGTC -GCGGCGGCGGTAATGAACGCCCGCAAAACAACCGCCCGGCAGCCAAACCACGCGGTCGTGAAGCGCAGCCTGCCG -GTAATAGCGCGATGATGGATGCGCTGGCGGCGGCAATGGGCAAAAAACGTTAAACGCCCGTACTGGCCTACGGTT -CGAATTTGCACGAAATCGTAGGGCAGATAAGGCGTTCACGCCGCATCTGGCAACGAACGCCTTGCCTGACATAAA -AGTGCCGGAGAATATCTCCGGCATTTTTATTCCACAGCCAAACTCATAATATATTCCGGCAATATTTATCATTTC -ATTAACAACTGAAACCTTAATTAAACATTAGCCAGTCCGGGTAATTCACTATTCGAATTATATTTTCGCTGCGAT -ATAACCTTGAGCCACATCAACATTGAGTCAGATTATTATTCAAACCAACATTCGCACACATTTTAAGTATTGCTG -ATAGAAACCATTCTCATTATCATTGTGTTGTTGATTATTTAATCTCTCCTTTGTTGGCAAATCATCTGGTCTCAT -GTCGCTGTCAAACGCCCCATGAGGTAGTTATCCAGTTAATGAGAAACAAGTAGGCACCTATGCAATACACTCCAG -ATACTGCGTGGAAAATCACTGGCTTTTCCCGTGAAATCAGCCCGGCATATCGCCAAAAACTGCTTTCTCTTGGCA -TGTTACCTGGCTCCTCTTTTAATGTGGTGCGCGTCGCTCCACTCGGCGACCCCATTCATATCGAAACCCGTCGTG -TGAGCCTGGTATTACGCAAAAAAGATCTGGCCTTATTAGAAGTGGAAGCGGTTTCCTGTTAATACGGTGATAACA -ACAATGAAAAAATTAACCATTGGCTTAATTGGTAATCCAAATTCTGGCAAGACAACGTTATTTAACCAGCTCACT -GGCTCACGTCAGCGTGTAGGTAACTGGGCTGGCGTTACCGTCGAACGTAAAGAAGGGCAATTCTCCACCACCGAT -CATCAGGTCACGCTGGTGGACCTGCCCGGCACCTATTCTCTGACCACCATCTCATCGCAGACCTCGCTCGATGAG -CAAATCGCCTGTCACTACATTTTGAGTGGCGACGCCGACCTGCTGATTAACGTGGTGGATGCGTCTAACCTTGAG -CGTAACCTGTACCTGACGCTACAACTGCTGGAACTCGGCATTCCCTGCATTGTGGCACTGAACATGCTCGACATT -GCCGAGAAGCAAAATATTCGTATTGAAATTGATGCTCTGTCGGCGCGTCTGGGCTGTCCGGTGATCCCGCTGGTT -TCAACCCGTGGTCGCGGTATTGAAGCGCTCAAGCTGGCGATTGATCGCTATAAAGCTAACGAGAATGTGGAACTG -GTGCATTACGCACAGCCGCTGCTCAACGAAGCAGATTCACTGGCAAAAGTGATGCCTTCCGACATCCCGCTGAAA -CAACGTCGCTGGCTGGGCCTGCAAATGCTGGAAGGCGATATCTACAGCCGCGCCTACGCCGGTGAAGCGTCGCAG -CATCTGGATGCCGCCCTCGCCCGTCTGCGTAATGAGATGGACGATCCGGCGCTGCACATTGCCGATGCGCGTTAC -CAGTGCATTGCTGCCATCTGTGATGTGGTAAGCAACACCCTGACGGCAGAACCCAGCCGTTTCACCACTGCGGTA -GATAAAATCGTGCTCAACCGTTTCCTCGGTCTGCCGATTTTCCTCTTTGTGATGTACCTGATGTTCCTGCTGGCT -ATCAACATCGGCGGGGCGTTACAGCCGCTGTTTGACGTCGGCTCCGTGGCGCTATTTGTGCATGGTATTCAATGG -ATTGGCTACACGCTCCACTTCCCGGACTGGCTGACTATCTTCCTCGCCCAGGGCCTGGGTGGCGGCATTAACACC -GTGCTGCCACTGGTGCCGCAGATTGGCATGATGTACCTGTTCCTCTCCTTCCTTGAGGACTCCGGGTATATGGCG -CGTGCGGCGTTTGTGATGGACCGTCTGATGCAGGCGCTGGGCTTGCCGGGGAAATCCTTTGTGCCGCTGATCGTC -GGTTTCGGTTGTAACGTACCGTCGGTAATGGGTGCACGTACGCTTGATGCACCGCGTGAACGTCTGATGACCATC -ATGATGGCACCGTTTATGTCCTGCGGCGCGCGTCTGGCTATCTTCGCAGTATTCGCGGCTGCCTTCTTCGGGCAG -AACGGTGCGCTGGCGGTCTTCTCGCTGTATATGCTGGGTATTGTGATGGCGGTGCTGACTGGCCTGATGCTCAAG -TACACCATCATGCGCGGTGAAGCGACGCCGTTTGTCATGGAGTTGCCGGTCTATCATGTACCACACGTTAAAAGC -CTGATTATCCAGACCTGGCAGCGTCTGAAAGGCTTCGTTCTGCGTGCTGGTAAAGTGATCATCATCGTCAGCATT -TTCCTGAGCGCTTTCAACAGCTTCTCGCTGAGCGGGAAAATCGTCGATAACATCAACGACTCGGCGCTGGCGTCC -GTCAGCCGGGTGATCACCCCGGTCTTCAAGCCAATTGGCGTGCATGAAGATAACTGGCAGGCAACGGTTGGCCTG -TTTACAGGTGCCATGGCGAAAGAAGTGGTAGTGGGTACGCTCAACACCCTCTACACCGCAGAAAATATTCAGGAC -GAAGAGTTCAATCCGGCAGAATTTAACCTCGGTGAAGAGCTGTTCAGTGCGATAGATGAAACCTGGCAGAGCCTG -AAAGACACCTTCAGCCTTAGCGTACTGATGAACCCCATTGAAGCCAGCAAAGGCGACGGCGAAATGGGTACCGGG -GCGATGGGCGTGATGGATCAGAAATTCGGTAGCGCAGCAGCAGCTTACAGCTACCTGATTTTCGTCCTGCTGTAT -GTACCATGTATCTCGGTGATGGGGGCTATCGCCCGTGAATCAAGCCGTGGCTGGATGGGCTTCTCCATCCTGTGG -GGGCTGAATATCGCTTACTCACTGGCAACATTGTTCTATCAGGTCGCCAGCTACAGTCAGCATCCAACTTACAGC -CTGGTGTGCATTCTGGCGGTTATCCTGTTTAACATCGTGGTTATCGGTCTGCTGCGCCGCGCGCGTAGCCGGGTG -GATATCGAACTGCTGGCAACCCGCAAGTCGGTAAGCAGTTGCTGCGCAGCCAGCACCACCGGTGATTGCCATTAA -TGGCTTCACTTATTCAGGTGCGCGATTTGCTGGCGTTACGGGGCCGTATGGAAGCGGCCCAGATAAGCCAGACAT -TGAACACTCCACAGCCAATGATTAACGCCATGCTGCAACAACTGGAAAGTATGGGCAAAGCCGTGCGGATTCAGG -AAGAACCTGACGGCTGCCTCTCTGGCAGTTGTAAAAGCTGCCCGGAAGGAAAAGCCTGTCTGCGCGAGTGGTGGG -CGCTGCGTTAACCTTACTCCATCGCCTGTTTTGGAAAGCCCGGTATGCGTCTGCATCCGGGCTTTTTTGCGTGCG -GCTTTCCATAAAAATGCAACTCTTGCAGCACGGCGTAAGTTCCTTTGAAAGCATCTCGCAGGGATGAAAACTCGC -TAATACACAGGTGTGGAGTGGCGCGTAGAGTCGCGGCATTCAAACAACAGGTGAAGGAACGCCATGAGCAAAAAG -CAGAGTTCCACCCCACACGATGCGCTGTTCAAACTCTTTTTACGCCAACCGGACACGGCTCGTGATTTTCTTGCG -TTTCATTTACCGGCACCCATTCACGCGCTTTGTGATATGAAAACCCTCAAGCTGGAGTCGAGCAGCTTTATTGAT -GACGATCTGCGTGAAAGCTATTCCGATGTGCTGTGGTCGGTGAAAACGGAACAAGGACCAGGATACATCTATTGT -CTGATTGAACATCAAAGCACCTCAAACAAACTGATCGCATTTCGCATGATGCGTTACGCTATTGCCGCAATGCAA -AATCACCTTGATGCTGGATACAAAACGTTGCCGATGGTGGTGCCATTGTTGTTTTACCACGGTATTGAAAGCCCC -TATCCCTATTCGCTGTGTTGGCTGGATTGTTTCGCCGATCCCAAACTGGCAAGGCAGCTTTATGCCTCCGCATTT -CCGCTGATTGATGTCACCGTCATGCCTGATGATGAAATCATGCAGCACCGACGTATGGCGCTGCTGGAGTTAATT -CAAAAACATATTCGTCAACGCGACCTGATGGGGCTGGTAGAGCAAATGGCCTGCTTATTAAGTAGTGGATACGCT -AATGACAGACAAATCAAAGGGCTGTTTAATTACATACTGCAAACTGGCGACGCTGTACGTTTTAACGATTTTATC -GACGGCGTTGCCGAACGTTCACCGAAACACAAGGAGAGTTTAATGACTATTGCGGAAAGATTGCGGCAGGAGGGG -GAACAATCCAAAGCCCTGCATATAGCCAAAATAATGCTTGAATCCGGAGTTCCTCTTGCAGACATCATGCGCTTT -ACCGGGCTGTCAGAAGAAGAGTTGGCTGCGGCGAGTCAGTAAAGTTCTGTCTCGCCATTTCAAAAGCCACCTACA -CCCTCTGCTTCAACGCCACCAGCAGGTGACAAAACTCGGCCGGATGCGAAATAAATGGCGCATGGGCCGCTTTGG -CGAAGATATATGATTCGCTGTGAGGCCAAAGTTTATCCAGCATCGGCACCACTTTGCGCGGCACCAGACCGTCGA -GATAGCCATACAATCGCAAAAACGGCATGGACACGTTTTGCAGCGGCTGACGGAGATCGACCGTTTTCAGGATTT -CCAGCCCGCCATTAAGCACGTCAACCTCCGGCATCGGTAACGCCAGAACGGTTTTCTTCAACGCCCGCGCATCCT -GGCGCGCCGTTTCAGTCCCCATGGTTTGTAACGCCAGGAACCGCTCCACTGTACGCTGAAAATCATCACTGAGTT -GCTGCTGAAATCCCGCCAGCACGTCCGGTTTTATCCCCGGCCACTCGTCACGAGCACTAAAACAAGGTGACGACG -CCACGGTGACCAGCGCCTGAACACGCTCGGGATGGGTTAACGCAATCTGGCTTGCCACCAGCCCGCCCAGACTCC -AGCCTAACCAAATGGCTTTATCAGGTGCCTGTTGCAGCACGGCTTCGGCCATATCAGCAAGTGACAGCGCACCAA -ATCCCCGGCTACGCCCGAAGCCGGGCAGGTCAACAAGGTGCAGCGTAAAATGCGAGCTAAGTTCCTCGTCAATGC -AACGCCACACTTCGGCATTCAGTCCCCATCCGTGCAGCAGCACAAGATGAACATTCCCCTGACCTTTGGTCTGCC -ACCAGATGTTATTCATCCGCTATTGTTCTCTTTTGACTTACAAGGATGAACATATGCTAACAGTACCGGGATTAT -GCTGGCTATGCCGAATGCCACTGGCGTTAGGTCATTGGGGGATTTGTTCGGTCTGTTCACGCGCCACCCGCACAG -ATAAAACGTTATGCCCACAATGTGGATTACCCGCCACACACTCCCATCTTCCCTGCGGTCGCTGCCTGCAAAAAC -CGCCGCCCTGGCAAAGACTGGTCACGGTTGCCGACTATGCGCCGCCGTTAAGTCCGCTTATCCACCAGCTTAAAT -TTTCCCGGCGCAGTGAAATCGCCAGCGCCCTGTCACGTCTGTTACTATTGGAAGTCTTACACGCTCGTCGCACCA -CCGGGTTGCAATTGCCGGATCGCATCGTCAGCGTTCCGTTATGGCAGCGGCGTCACTGGCGTCGGGGATTTAATC -AGAGCGATTTGCTGTGTCAGCCGTTATCACGCTGGTTGCACTGCCAATGGGATAGCGAAGCCGTCACACGTACAC -GGGCCACTGCGACCCAGCATTTTCTCAGTGCCCGGCTGCGCAAGCGCAACCTGAAAAATGCCTTTCGTCTTGAAT -TGCCCGTGCAAGGTCGCCATATGGTGATTGTGGATGATGTCGTTACCACCGGAAGTACCGTCGCAGAGATTGCGC -AGTTGCTTTTACGCAATGGTGCGGCGGCTGTCCAGGTCTGGTGCCTTTGTCGAACCTTGTAGAGCCTCGATGATG -GGCGTATTATAACCAACTAAAATAGTCAACTATTAGGCCATTACTATGATCCGTATTTCCGATGCTGCACAAGCG -CACTTTGCCAAACTGCTGGCAAATCAGGAAGAAGGGACACAAATCCGCGTATTTGTGATTAACCCTGGCACGCCT -AACGCTGAATGTGGCGTTTCTTATTGTCCGCCGGACGCTGTGGAAGCCACCGACACAGCCCTGAAATTTGACCTG -CTGACCGCGTATGTTGATGAGTTAAGCGCACCATACCTGGAAGATGCAGAGATCGATTTTGTTACCGACCAGTTG -GGTTCCCAGTTAACGCTGAAAGCCCCGAACGCCAAAATGCGTAAAGTGGCAGACGATGCACCGCTGATGGAGCGC -GTGGAGTATATGCTGCAGTCGCAGATCAACCCACAGCTTGCTGGTCACGGTGGTCGCGTTTCGCTGATGGAAATC -ACCGAAGACGGTTACGCCATTCTGCAATTTGGCGGCGGCTGTAACGGTTGTTCCATGGTCGATGTGACGCTGAAA -GAAGGGATCGAGAAGCAGCTGCTGAACGAATTCCCGGAGCTGAAAGGTGTGCGCGATCTCACCGAACACCAGCGC -GGCGAACACTCCTACTACTAAGTTATCCCCTCTTTTGTAGATTGCCCGATGCGACGCTAAAGCGTCATTTCGGGC -CTACGTTGAACATGTGCCAGACGTTGGCGCAGCATTGCTTTGTCAAATCCTCGGTTCGTTTCCCCGCGATAATAT -GACCAACCTCTCATAATTTAAATTTACCCCGCTCTGGTGATTCTCAAACGCCAGATGTTACCCGTATCATTCACA -TGGGTACCAAACATACTCCTGACATCTGACTACAATAATTAGTTTTAGTGGGTATCAGTCGTGGTGCCGCAATAT -CTCTGTTCCCGATTGGGATAATTAGAGTTTGTCGTCAGAAAATTGACGTTACCCATAACAAATGAAAGGCCAGGT -AAATCATGCCATTAGTCATTGTTGCTATCGGTGTAATCTTGTTGTTGCTCCTGATGATCCGCTTCAAAATGAACG -GCTTCATCGCTCTCGTCCTCGTGGCGCTTGCTGTTGGATTAATGCAAGGAATGCCGCTGGATAAAGTTATTGGCT -CCATCAAAGCCGGTGTCGGCGGGACGCTCGGTAGCCTTGCCCTGATCATGGGTTTTGGCGCAATGCTGGGCAAAA -TGCTGGCAGACTGCGGTGGCGCACAACGTATCGCCACCACGCTGATTGCCAAATTTGGTAAAAAACACATCCAGT -GGGCGGTGGTACTGACCGGTTTTACCGTTGGTTTTGCCCTGTTCTATGAAGTGGGCTTTGTGCTGATGCTGCCGC -TGGTGTTTACCATCGCGGCTTCTGCGAATATTCCACTGCTGTATGTTGGTGTACCAATGGCGGCTGCACTGTCTG -TGACCCACGGCTTCCTGCCACCGCATCCGGGTCCGACTGCGATTGCCACCATTTTCAATGCCGATATGGGTAAAA -CCCTGCTGTACGGTACTATTCTGGCAATCCCGACCGTGATTCTCGCCGGTCCGGTTTACGCTCGCGTGTTGAAAG -GTATCGATAAGCCAATTCCGGAAGGTCTCTACAGCGCGAAAACCTTCAGCGAAGAAGAGATGCCGAGCTTTGGCG -TCAGCGTCTGGACCTCTCTGGTGCCGGTAGTACTGATGGCGATGCGTGCGATTGCCGAAATGATCCTGCCGAAAG -GTCACGCTTTCCTGCCGGTAGCGGAGTTCCTCGGTGACCCGGTAATGGCAACGCTGATTGCCGTGCTGATTGCGA -TGTTCACCTTTGGTCTAAACCGTGGTCGTTCAATGGATCAGATTAACGACACGCTGGTTTCTTCCATCAAAATCA -TTGCGATGATGCTGTTGATCATCGGTGGTGGCGGTGCGTTCAAGCAGGTGCTGGTAGACAGCGGCGTGGACAAAT -ACATTGCTTCCATGATGCACGAAACCAACATTTCTCCGCTGCTGATGGCCTGGTCGATTGCTGCCGTACTGCGTA -TCGCGCTGGGTTCCGCAACCGTTGCGGCAATCACTGCGGGTGGTATCGCGGCACCGCTGATTGCAACGACGGGTG -TTAGCCCGGAGCTGATGGTTATTGCGGTTGGTTCCGGTAGTGTGATTTTCTCTCATGTGAACGATCCGGGCTTCT -GGCTGTTCAAAGAGTACTTTAACCTGACTATCGGCGAGACCATCAAATCCTGGTCGATGCTGGAAACCATTATCT -CGGTGTGCGGTCTGGTAGGCTGTCTGCTGCTGAATATGGTGATTTGATAACACTGACTGCCGGATGCGGCGTGAC -CGCCTTATCCGGCCTACGATTCGGGATGAATTAGTAGGCCGGATAAGACGCGTCAAGCATCGCATCCGGCATCAA -CCGCACTCTACTTCTTCTTCGCTGCAGCTCTGCGCCGTCTGTCCAAATCCTTCAGCAACTTGTTCACGCCATCAT -CGGCAAACATCGACTCAAGCGTTGCGGAAAGCTTGCGTCGCCAGTTTTTATACTGGTAACTGGTGCCAGGAATAT -TCACCGGTTCGGCCATATCCAGCCAGTCTTCCGGCTGTAGTCCTAACAGAGCACTGTTACTGTCGGCAATGTAGC -GCTGCAAACCACGGTTCAGCGTCGGCGTCATCGACATCAACGATGCCTTATGCCCGGCACGTTTCGGCAGACAAC -CATATTTATGCAGTGCATCCAGCAGCCCTTGCTTCGCCAGTTCGCGATCCTGATACAGACCGCGCAGTACCACTT -CATCCGGATACAGCCCCAGGGTTTTGCCCAGCGTTAGATCCCCGCACTCCCAGTAACCGCGCAGCGTTGGCAGGT -CATGTGTCGCCGCAACCGCCATCGACTGCTCCGGATACGCTTTCGGTGCACGGAACGTCTTCTCGTGGTCGTTTT -CGAAATAGAGCACTTTGTAAGAGTACACACCGCTGCTGCGCAGCTTACCGACAATCTCTACCGGTACGGTACCGA -GATCTTCACCAATCACCATACAGCGATGACGTTTACTTTCGAGTGCCAGAATCGAGAGCAGATCATCCACCGGAT -AGTGAACATACGCGCCCTGATCTGCCGTCTCGCCATACGGTATCCACCACAAACGCAGCATCGACATCACATGGT -CAATTCGTAATGCGCCGCAGTTTTGCATATTGGCACGCAACAGCTCGATAAACGGTTCATAGGCACGCGCGGTGA -TGATATGCGGGTCCATTGGCGGTAATCCCCAGTTCTGCCCCAACGGGCCGAGGATATCCGGCGGCGCGCCAACCG -ATGCTTTCAGGCAATATAGTTCACGGTCACACCAGGTTTCCGCCCCACCTTCCGCTACGCCAACCGCCAGATCAC -GATACAAGCCAATCGGCATTTCATAGCCCTGGCTTATCTCCCAGCAGGCGGCAAACTGGCTGTAAGCCAGCCACT -GCAACCAGAGATAAAAATCGACGTCATCACGATGTTCTTCGCAGAACTGACGCACTTCTGGTGAATCCACGTTCT -GATACATCTCTGGCCATGCAGGCCAGCCCCAGCGCATTTCGTCCTCTTTCACTTGCTGGGCATGTAGCGCATCAA -AGGCTGCCTGCCAGAACAGGCTGTCGCCCTGCTCTGCAACAAACTGGCGAAACGCGGCCATCTGCTCATCATCAC -GTTGCGCGAAACCTTTCCACGCCATTCGTAATGCTGTCATTTTTAGGGCGGTAACCGTGGAGTAATCGACCCAGT -CGGCATCGCGCGCCTGTTGCAGCGTCTGTTGCGTGGTCGGCAACTGCCACCAGGCCTGAGCCTCTTCGCTAAGAT -GGAAATCTTCAACGGCGTTAACGTCGATATAAATCACATTCAGCCAACGGCGAGAAGACGGGCTGTATGGGCTGG -CGCTCTCCGGATTTGCCGGATAGAGCGCATGAATCGGGTTCAGGCCAATGAACGACCCGCCACGTTTTGCCACAT -CCACCAGCATCGCTTTGAGATCGCCAAAATCCCCAATACCCCAGTTTTTTTCCGATCGCAGCGTATAAAGCTGAA -CGCAGGCACCCCACAGCTTTTGTTTATTCAGCAACGCCTGCGGTTCGTAACAGCGTTTCGGGGCGACAATCACCC -GGCAATGCGCGCGCTGGTCGTCCTGGGTGAGTGTCAGCGTGTGATAACCTTCCGGCAGCTTCGTCGGTAGATTGA -ACGCTTTGCCCCCCGTTACATGGCCTTTGTACTGCGTTCCTTCTTCGGTGGTCAGCAGCCAGCTATATTCGCCGC -TGCCCTCCACCACCATCGGCATTTTTTTGCCGCTGGTATAAACCATGACATTCGGGACTGGCGTTACCGCCACTT -TCGTGGCGGTACGTTGATGCATCGCGTCAAGCAAACGCCGTTTGGTTTCGGCGCTAATCGACTGCGGTTTACCGT -GGGCATTGATGTAATTGGGGCTAATCCCCGCCGCCAGCGCGGCATTATCCAGACGTTTGCTTTCCATCGAGCTTC -CTTAGCGTTTTGCCTGCCAGATACGAGCCTGATAATCGCGAATAGAGCGATCCGAGCTAAACATACCGCAGCGGG -CGGTATTGAGGATCGCCGCGCGAGTCCAGGCCTCCTGGTCGCGGTACAGCACATCCACCTGCTTTTGTGCCTCTA -CATAGGCTGCGAAATCCGCCATCACCAGATACGGATCGCCGCCCTGTTTGCCGATACTGTGCAGCATCTGGTCGA -AGGCATGCTTATCGCCGTCGCTGTATTTACCGCTTTCCAGCTCTTTCAATACTGCGTCCAGCACCTTATCTTTCT -TCCGCCATTTCACCGGGTCGTAGCCTTTGGCCAGAATTGCCTTCACTTGTTCCACGGTATGACCAAAAATAAAGA -TATTTTCTTCACCGACTTTCTCGGCGATTTCAACGTTCGCCCCATCCAGCGTACCGACAGTAAGCGCACCATTGA -GCGCCAGTTTCATATTGCCGGTACCGGAAGCTTCTTTACCTGCAGTCGAAATTTGTTCGGAGATATCCGCCGCCG -GGATCAGTTTTTCCGCCGCCGAAACGCAATAATCCGGCAGGAACACCACCTTCAACTTATCGCCAACCAGCGGAT -CGTTGTTGATCACGTCAGCCACTTTGTTGATCGCAAAGATAATATTCTTCGCCAGGTAGTAGCCCGGTGCCGCTT -TCGCGCCGAAGAGGAAGACGCGCGGTACGCGATCAGCCTGCGGGTTTTCACGAATTTCTTTGTACAACGCCAGAA -TATGCAGCAGATTCAGGTGCTGGCGTTTGTACTCATGCAAACGTTTGATCTGAATATCGAAAATCGCCTGTGGAT -TGATCTCAATACCGGTACGAACTTTCACAAACTCCGCCAGACGGACTTTATTCGCCTGCTTGATCTCGCGATATT -GCTGACGGAATTTCGCATCATCAGCGAATTTTTCCAGATTGATCAGCTGATCGAGATCGTTAGCCCACTCTTTTT -GCAGTGATTTATCCAACAGAGCCGCCAGTGCCGGGTTGCACTGTTTGATCCAGCGACGTGGGGTAATACCGTTGG -TGACGTTATGGAATTTGTTCGGCCATAGCTGGTGATATTCCGGGAACAGATCTTTCACCACCAGATCCGAGTGCA -GCGCCGCAACACCGTTCACCGCGAAACCGCCAACCACACACAGGTTCGCCATATGCACTTGTTTGTCGTGCACCA -CCGCCAGTTTGGCCCACACTTTTTCATCGCCCGGCCAGGTTTTCTCTACCAGCGTTTTAAAGCGAGTATTAATTT -CGTTAATAATCTGCATGTGGCGCGGCAGTAAGCCTTTCACCAGTTTCACATCCCAGCGTTCCAGCGCTTCTGGCA -TCAGGGTATGGTTGGTGTAAGCGAAAGTTTTGCTGGTAATGGCCCAGGCGTCATCCCAGCTCATCTGGTGCTCAT -CGATCAGCACGCGCAGCAGTTCTGGAATCGCGATAGTTGGGTGGGTATCGTTCAGCTGAATAACTTCGTAATCCG -CCAGTTCGTGCAGTTTACGCCCCGCCAGATGATGGCGACGCAAAATATCCGCTACCGAACAGGCACACTGGAAGT -ATTGCTGCATCAGGCGCAGCTTTTTACCGGCAGTATGGTTGTCGTTTGGATAGAGAACTTTGGTCAGTTTTTCCG -CATTGATGCCCTGCTGTTCGGCACGCAAGAAATCACCGTCGTTAAATTTAGTCAGATCAAACGGATGCGCGTGCG -TCGCCTGCCACAGACGCAGCGGCTGCGCCACGCCATTACGATAGCCGACAACGGGGAGATCCCACGCTTGACCGG -TAATGGTAAACTCCGGCTCCCAGCGTCCGTCTTTCGTCACTTTACCGCCAATCCCTACCTGCACATCCAGTGCTT -CGTTGTGGCGGAACCACGGGTAGTTACTGCGATGCCAGTCATCCGGCGCTTCAACCTGTTTGCCATCGACAAAAG -ACTGGCGGAACAAACCATATTGATAGTTCAGACCGTAACCCGTCGCAGACTGACCGACAGTTGCCATTGAGTCGA -GGAAGCACGCCGCCAGACGTCCCAGACCACCGTTACCCAGCGCCGGGTCGATCTCTTCTTCCAGCAGGTCCGTCA -GATTGATGTCATAAGCCTTCAACGAATCCTGTACATCCTGATACCAGCCGAGATTCAACAGGTTGTTGCCCGTCA -GGCGACCAATCAAAAACTCCATTGAGATGTAGTTAACATGTCGCTGATTCGCCACCGGCTTGGCGAATGGCTGAG -CACGCAGCATTTCGGCCAGTGCTTCACTCACTGCTAGCCACCACTGGCGAGGAGTCATTTCAGCCGCAGAATTTA -AGCCATAACGCTGCCACTGACGTGAAAGCGCTTCCTGAAATTGCTTATCGTTAAAAATAGGTTGTGACATAGGAG -TTCCACTTTTCTTAGATTTTCAACACAACGTTATCGCTAGTTTGCCAGGCTCGATGTTGACCTTCCTCATCCTGC -GGGGGATTAGGCAGGGAGGAGTTGCGGGGATGAGCAAGGAAATGTGATCTCAACCACTTAAAGCTAGTGCAAACC -ACAGGATTAGCATCAAATCAATGCAATACAGCGCAGAAAATCTGTATCTAAGTGCAAAAAATGGCCGTTGCGTAT -TTTCAAAAAGCGGAAGGTAACTCTATAAATTAAGTAAAGGAGTGAAACAGTTTCATAAGTAAAATATCCAGTGTG -CTCCATCTCATTCTTAATAGATTTATTAAGATCATCTTTTTAGATGGCACTTTCATCAGGAATGAAGAAGAAACC -CTTGCTTAAATGAATCTGATGAACATAAGGGAAACCAGTATTCACGCTGGATCAGCGTCGTTTTAGGTGAGTTGT -TAATAAAGATTTGGAATTGTGACACAGTGCAAATTCAGACACATAAAAAAACGTCATCGCTTGCATTAGAAAGGT -TTCTGGCCGACCTTATAACCATTAATTACGAAGCGCAAAAAAAATAATATTTCCTCATTTTCCACAGTGAAGTGA -TTAACTATGCTGATTCCGTCAAAACTAAGTCGTCCGGTTCGACTCGACCATACCGTGGTTCGTGAGCGCCTGCTG -GCTAAACTTTCCGGCGCGAACAACTTCCGGCTGGCGCTGATCACGAGTCCTGCGGGCTACGGAAAGACCACCCTC -ATTTCCCAGTGGGCGGCAGGCAAAAACGATATCGGCTGGTACTCGCTGGATGAAGGTGATAACCAGCAAGAGCGT -TTCGCCAGCTATCTCATTGCCGCCGTGCAGCAGGCAACCAACGGTCACTGTGCGATATGTGAGACGATGGCGCAA -AAACGGCAATATGCCAGCCTGACGTCACTCTTCGCCCAGCTTTTCATTGAGCTGGCGGAATGGCATAGCCCACTT -TATCTGGTCATCGATGACTATCATCTGATCACTAATCCAGTGATCCACGAGTCAATGCGCTTCTTTATTCGCCAT -CAACCAGAAAATCTCACCCTGGTGGTGTTGTCACGCAACCTTCCGCAACTGGGCATTGCCAATCTGCGTGTTCGT -GATCAACTGCTGGAAATTGGCAGTCAGCAACTGGCATTTACCCATCAGGAAGCGAAGCAGTTTTTTGATTGCCGT -CTGTCATCGCCGATTGAAGCCGCAGAAAGCAGTCGGATTTGCGATGACGTTTCCGGTTGGGCGACGGCACTACAG -CTAATCGCCCTCTCCGCCCGGCAGAATACCCACTCAGCCCATAAGTCGGCACGCCGCCTGGCGGGAATCAATGCC -AGCCATCTTTCGGATTATCTGGTCGATGAGGTTTTGGATAACGTCGATCTCGCAACGCGCCATTTTCTGTTGAAA -AGCGCCATTTTGCGCTCAATGAACGATGCCCTCATCACCCGTGTGACCGGCGAAGAAAACGGGCAAATGCGCCTC -GAAGAGATTGAGCGTCAGGGGCTGTTTTTACAGCGGATGGATGATACCGGCGAGTGGTTCTGCTATCACCCGCTG -TTTGGTAACTTCCTGCGCCAGCGCTGCCAGTGGGAACTGGCGGCGGAGCTGCCGGAAATCCACCGTGCCGCCGCA -GAAAGCTGGATGGCCCAGGGATTTCCCAGCGAAGCAATTCATCATGCGCTGGCGGCAGGCGATGCGCTGATGCTG -CGCGATATTCTGCTTAATCACGCCTGGAGTCTGTTCAACCATAGCGAACTGTCGCTGCTGGAAGAGTCGCTTAAG -GCCCTGCCGTGGGACAGCTTGCTGGAAAATCCGCAGTTGGTGTTATTGCAGGCGTGGCTGATGCAAAGCCAACAT -CGCTACGGCGAAGTTAACACCCTGCTAGCCCGTGCTGAACATGAAATCAAGGACATCAGAGAAGACACCATGCAC -GCAGAATTTAACGCTCTGCGCGCCCAGGTGGCGATTAACGATGGTAATCCGGATGAAGCGGAACGGCTGGCAAAA -CTGGCACTGGAAGAGCTGCCGCCGGGCTGGTTCTATAGCCGCATTGTGGCAACCTCGGTGCTGGGTGAAGTGCTG -CACTGCAAAGGCGAATTGACCCGCTCACTGGCGCTAATGCAGCAAACCGAACAGATGGCACGCCAGCACGATGTC -TGGCACTACGCTTTGTGGAGTTTAATCCAGCAAAGTGAAATTCTGTTTGCCCAAGGGTTCCTGCAAACCGCGTGG -GAAACGCAGGAAAAAGCATTCCAGCTGATCAACGAGCAGCATCTGGAACAGCTGCCAATGCATGAGTTTCTGGTG -CGCATTCGTGCGCAGCTGTTATGGGCCTGGGCGCGGCTGGATGAAGCCGAAGCGTCGGCGCGTAGCGGGATTGAA -GTCTTGTCGTCTTATCAGCCACAGCAACAGCTTCAGTGCCTGGCAATGTTGATTCAATGCTCGCTGGCCCGTGGT -GATTTAGATAACGCCCGTAGCCAGCTGAACCGTCTGGAAAACCTGCTGGGGAATGGCAAATATCACAGCGACTGG -ATCTCTAACGCCAACAAAGTCCGGGTGATTTACTGGCAAATGACCGGCGATAAAGCCGCCGCTGCCAACTGGTTG -CGTCATACGGCTAAACCAGAGTTTGCGAACAACCACTTCCTGCAAGGTCAATGGCGCAACATTGCCCGTGCACAA -ATCTTGCTGGGCGAGTTTGAACCGGCAGAAATTGTTCTCGAAGAACTCAATGAAAATGCCCGGAGTCTGCGGTTG -ATGAGCGATCTCAACCGTAACCTGTTGCTGCTTAATCAACTGTACTGGCAGGCCGGACGTAAAAGTGACGCCCAG -CGCGTGTTGCTGGACGCATTAAAACTGGCGAATCGCACCGGATTTATCAGCCATTTTGTCATCGAAGGCGAAGCG -ATGGCGCAACAACTGCGTCAGCTGATTCAGCTTAATACGCTGCCGGAACTGGAACAGCATCGCGCGCAGCGTATT -CTGCGAGAAATCAATCAACATCATCGGCATAAATTCGCCCATTTCGATGAGAATTTCGTTGAACGTCTGCTAAAT -CATCCTGAAGTACCTGAACTGATCCGCACCAGCCCGCTGACGCAACGTGAATGGCAGGTACTGGGGCTGATCTAC -TCTGGTTACAGCAATGAGCAAATTGCCGGAGAACTGGAAGTCGCGGCAACCACCATCAAAACGCATATCCGCAAT -CTGTATCAGAAACTCGGCGTGGCCCATCGCCAGGATGCGGTACAACACGCCCAGCAATTGCTGAAGATGATGGGG -TACGGCGTGTAAGTTTAGCCGGATAACGCGCCAGATCCGGCTTACATCTCTGCATCATTCAATGCTCACCCGCGT -TACGCCATCTGTTTCTATCAAACTAAACCGCACCGGCAAGAAACGCTCCACCACCGCGATATTGGTCAGCAGATG -GCATGAGGGATGGGCGACCGTAAATTCCCCCGCGCCCGCCAGCGCCATCGGTAGCACCAGTTGGTCAGCAAGATA -TTCCCCCACCGCCGCCGTGCTTGCCAGGTAGCGTTTCACCTCTTTCACCAACTGTGCCGCAACCACCTCGGCACT -GACGCGCTTTTCACCGACGACAAAAAAGCGTTCGGTGATATTTTCACTTTCGACTTCAAGCGAGACGGTATTACC -CGGCCCCTGGTCGCGCGGCAGGTTATGAATATTCTGTTCATGCAGGGAAAAACTCCCCGCCAGTGTAGCGATTTC -ACGCTCAGCAACATGGCGCGGCACACCAGCTAATAGAACTTCTCCACGCATCTGCACAATGTTCCCGCGCTCGCC -AAGTTGCAAGGTGTTAAACGATGCCACGGGCGAGACTTCCGTTGCCACCACACCGCCTCCGGCAGGGTAAAAACC -GTGGCGTAACAGCGTGGTTTGCTGATGAATTCCTATTTTCGCCAGCAGCGGCTCCAGCACCCGGCGGATAAAATC -CGCAGGCGGCGCCGACGGGTTATCGGTGCCGCCGCTCACTTCAACACGCGAAGGTCCATCGGCAAACCACAGCGC -GGGCAGCACCGTTTGCAGCACCAGCGTACAACTTCCGGCGCTACCGATAGCAAAGCGGTAATCGCCGCCGCGCAC -GGTGCCGGGCCGGAAGAGCAGACGCTGCGACCCCAGCTCCGCGCCTTCCACGGTTGCTCCGCAAATTTCCGTCGC -CGCCTTTACCGCGGTCAGATGCTGGCGCAACAGCCCCGGTTTCGCCCGCCCGGCACGAATGCTGGTGATGGTAAA -TGGCTGGCCGGTTATCATCGACAGGCTCAGCGCCGAGCGCAGGATCTGCCCGCCACCTTCGCCCTGTGCGCCATC -CAGCGCAATCATCCTTTTCATCATTTATCCTTTTACGCACACCACCTGACGCAGGGTATAGATAACTTCCACCAG -ATCGCTTTGTGCCGCCATCACCGCATCAATATCTTTATACGCCATCGGGATTTCGTCGATCACTTCGGCATCTTT -ACGGCATTCCACATGCGCGGTGGCACGAATTTGATCTTCCACGCTGAACAGTTTTTTCGCTTTAGTTCGGCTCAT -TACCCGCCCGGCACCGTGGCTGCACGAACAGAACGACTCTTCATTTCCCAGCCCACGGACGATAAAGCTTTTTGC -TCCCATCGAACCGGGAATAATTCCATATTGACCAGCACGCGCAGACACCGCGCCTTTACGCGTCACGTAGATCTC -TTCACCAAAGTGCTGTTCTTTTTGCACATAGTTGTGGTGACAGTTGATCTCTTCCATCGCCAGCGTTTGTGGCTG -TCTGACCGTTTTCTGCGTAATGCTCTGCAATGCCGTTACCACGTTTTCCATCATCGCATCGCGGTTAAGGCTGGC -AAAAAGCTGCGCCCAGGCCACGGCTTTCAGGTAATCATCAAAGTATTCCGTACCTTCCATAAAGTACGCCAGATC -ACGCGACGGCAACGTCTCAAGCGTTTCCTGCATCTCTTTTTGTGCCAGATCGATAAAGTAAGTCCCGATGGCGTT -ACCAATTCCGCGTGAACCGGAGTGCAGCATAATCCACACCTGGTCCGACTCATCAAGGCAGATTTCAATAAAGTG -GTTACCGGTTCCCAGCGTTCCCAGGTGTTTATAGTTATTGGTATTCAGGAAACGGGGATATTTTTGCGTTAACCA -CTGATAACCGGCTTCAAGCTCAGCCCATTTAGCATCGACGTTAACAGGTGGATTTTCCCAGGCACCTTTATCACG -TTTACAACGGCCAGTGGTACGCCCGTGCGGCACGGCCGTTTCAATCGCCTGACGCAGCTCTGCCAGGTTTTCAGG -CAGGTCTTCCGCCGTTAACGCGGTACGCAGCGCGTTCATTCCACAGCCAATATCCACGCCCACCGCCGCCGGAAT -AATCGCCCCTTTGGTCGGGATCACGCTACCAATGGTGGAACCTTTACCCAGGTGTACATCAGGCATTACCGCAAT -ATGTTTGAAAATAAACGGCATCTTCGCCGTATTAATAAGTTGCTGACGCGCATCGGCCTCTACCGGCACGCCTTT -GGTCCACATTTTTACCGGGGCATTTTCAGTGGTCAGTAATTCGTAATTCATTTTGTTTTTCTCTTTTCGTTGTTT -GCTGTCCTGATAATTGCAACCGTCGTGCCAGAAAATTAAATAAGCAGCTTAATTTTTTAATTCATTGTTTTAAAA -AAGATTATATCTTTACGTCCGTAACCGGAGATTTCCCGCAAAGCCAATTTACCGATAATGAAATATCGTCTTTTA -TAAGGATATCTAAGATGCGTAAAACAGTGGCTTTTGGCTTTGTCGGTACCGTACTGGATTATGCCGGGCGCGGCA -GTCAGCGCTGGTCAAAATGGCGTCCGACACTCTGTTTATGCCAGCAAGAATCGTTGGTCATCGATCGACTGGAAT -TGTTGCACGACGCCCGCTCGCGCTCGCTATTTGAAACGCTTAAACGCGATATCGCCAGCGTTTCGCCAGAAACAG -AAGTGGTGAGCGTTGAGATTGAACTGCATAACCCGTGGGATTTCGAAGAGGTCTACGCCTGCCTGCATGATTTCG -CCCGTGGTTACGAGTTTCAGCCAGAAAAAGAAGACTATTTAATTCACATCACCACCGGTACCCACGTCGCGCAGA -TTTGCTGGTTTCTGCTGGCAGAAGCGCGTTACCTGCCCGCCCGGCTGATACAATCTTCACCTCCGCGCAAAAAAG -AACAGCCGCGCGGCCCAGGTGAAGTAACGATTATCGATCTCGATTTAAGCCGTTATAACGCCATCGCCAGCCGCT -TTGCCGAGGAACGCCAGCAAACGCTTGATTTTCTTAAGTCCGGCATTGCCACGCGTAACCCCCACTTCAACCGCA -TGATTGAGCAGATCGAAAAAGTGGCGATCAAATCCCGCGCGCCGATTCTGCTTAACGGTCCAACCGGCGCGGGCA -AGTCATTTCTGGCGCGACGCATCTTAGAGTTAAAACAGGCGCGGCATCAGTTTAGCGGCGCGTTTGTGGAAGTGA -ACTGCGCCACCCTGCGCGGCGATACCGCCATGTCGACGCTGTTTGGTCATGTAAAAGGCGCGTTTACCGGGGCGC -GGGAATCTCGTGAAGGTTTATTACGCAGCGCCAACGGCGGAATGTTGTTTCTTGATGAGATTGGCGAACTGGGCG -CAGACGAACAGGCAATGCTGCTGAAAGCCATTGAAGAGAAAACCTTTTACCCGTTTGGCAGCGATCGCCAGGTGA -GCAGTGATTTTCAGCTTATCGCCGGAACGGTGCGCGATTTGCGCCAGCTGGTTGCCGAAGGCAAATTTCGCGAAG -ATCTGTACGCGCGGATCAATCTCTGGACCTTCACCCTGCCGGGTCTACGCCAGCGCCAGGAAGATATTGAACCGA -ACCTGGATTATGAAGTGGAGCGCCACGCCTCACTCACTGGCGACAGCGTGCGTTTTAACACCGAAGCGCGGCGCG -CCTGGTTGGCTTTTGCGACCTCTCCCCAGGCAACATGGCGCGGTAACTTTCGCGAACTTTCTGCCAGCGTCACGC -GGATGGCCACCTTTGCCACTAGCGGACGCATCACTCTGGACGTGGTTGAAGATGAGATAAACCGTCTGCGCTATA -ACTGGCAGGAGAGCCGCCCCTCCGCGCTTACGGCGTTGCTGGGCGCAGAGGCAGAAAACATCGATCTCTTCGACC -GTATGCAACTGGAACACGTTATCGCTATCTGCCGCCAGGCAAAGTCGCTTTCCGCAGCCGGACGCCAGCTTTTTG -ACGTTTCGCGCCAGGGCAAAGCCAGCGTCAATGACGCGGATCGGCTACGCAAATACCTGGCGCGTTTTGGTCTGA -CGTGGGAAGCCGTGCAGGATCAGCACAGCTCCAGTTGAATATGGTGGTCCGTCAGCACCTGCATCACGCTTACTG -GCGGCGGGGCGTCGGTGTAGACGGCATCTACCATGCTGATGCTGCCCATATTGACCATCGCGTTACGGCCAAATT -TCGAGTGATCGACAACCAGCATAACGTGGCGCGAGTTCTCAATAATGGCGCGTTTGGTGCGAACTTCGTGGTAAT -CGAACTCCAGCAGCGAGCCGTCGCTATCGATGCCGCTTATCCCCAGAATGCCGAAATCAAGGCGGAACTGGGAGA -TAAAATCGAGCGTCGCTTCGCCAATGATCCCGCCATCGCGGCTGCGTAATTCGCCACCGGCGAGAATGATGCGAA -AATCTTCTTTTACCATCAACGTGTTAGCAACGTTGAGATTGTTGGTGACAATGCGCAAATTGCTGTGATTGAGCA -GTGCGTGCGCTACCGCTTCCGGCGTGGTGCCGATATCGATAAACAGCGTCGAGCCATTGGGGATTTGCTCCGCCA -CTTTGCGGGCGATGCGCTCTTTTTCTTCGGTCTGGGTGGCCTTGCGATCGTGCCACGGCGTGTTAACCGAACTGG -AAGGCAGCGCCGCACCGCCATGATGGCGCAGGATCAGGTTTTGCTCCGCCAGCTCATTGAGGTCGCGGCGAATAG -TCTGCGGGCTGACGGAGAAATGCTCTACCAGCTCTTCGGTACTGACATAACCCTGCTGTTTAACCAGTTCGATAA -TACCGTTGTGACGTTGTGTTTGTTTCATTTATAAATCCCTGGAATTATTTTCGTTTTCGCGCATTGAGCGAATCA -ACAAAAGCCATCGCTAAACCCACGGCTAACCCGGCGATGTGTGCTCCGTTCGCCATCGACATCCCAAACAAATCA -AACCATCCGGCGACAATCCAGATCAGCGCAAAGATAATTAACCCACGTTGCAGGTAAATGCCACTTTGCGGATCG -CGTTCGCCACGTAGCCAGACGTAGCCCATCAGCGCATACACCACGCCAGAAAGCCCGCCAAACCACGGCCCGCTG -AATTTTTGCTGCACATAGCCGCTTAACAGGGCGCTGATAAGCGTAATGACAATTAGCTTACCGCTACCGAGGCGT -TTTTCCACCGCACCGCCGAGATACCACCACCAGAGCAGGTTAAAGAGGATATGCATCAGCGAGAAGTGCATTAAC -GCGTGGGTGAAGTAACGCCAGAACTCAAATTTCAGTGTTGGATCGAATGGCCAGGCCAGCCATAACATCACTTCC -TGATCGCCGAGAATTTGCATGGCAATAAACACCACCACGCAGGCGATCATCATCACCCAGGTTACCGGACCTGCG -CGTTCACGCAAGGCGGCAAAGAAAGGATAACGGCGATAATGCAGGCCACTGCCGGTATGGCCTGCCTGCCAGCTC -GCCGCCAGATAACGCGGATCTGCCGGGTTTTCGAGAAAACGCGCCAGCTCCGCCCGTACGCGCTCGGCCTGGGAC -TCATCCGCCAGCCAGACATCGCTTTGGTTATGTTGTTGAATCGTGAGGATAACACCCTGCGTCGCCATGTAATCA -ACAAACGCCTGCGCCACGCGGGGGTTAGCAAAAGAGGTAATCATCAACATCGTTGCTGTCGCTTATTCCACACAA -AAGGGGACAGTATAAAGCGTTACGCGCCGTACGCCACCTCTGCGGGAAACTGACGTTGCCAGGCTTCAAAGCCGC -CGTCAATGCTATAGACCACATCGTAGCCCTGTTGCAGCAGATACTGCGCCGCGCCTTTGCTGCTATTGCCGTGAT -AACACATCACCATCACCGGAGTGTCAAAGTCGTTATCACGCATAAAAGCGCCCAGCGTGTCGTTGGTTAAATGGA -AAGCCTGCACCGCATGTCCCATTGCGAAACTCTGTGGATCGCGAATATCGACCAGCACCGCCTCTTTTTCCTGCA -ACTTCTGGTGCGCGTCGGCAACGTTAATACATTCGAACTGATCCATGCGTCTCTCTTTCTTTACAAACAAGTGGG -CAAATTTACCGCACAGTTTACGTCGAAGCGGCAGATAAACGCCATAATGTTATACATATCACTCTAAAATGTTTT -TTCAATGTTACCTAAAGCGCGATTCTTTGCTAATATGTTCGATAACGAACATTTATGAGCTTTAACGAAAGTGAA -TGAGGGCAGCATGGAAACCAAAGATCTGATTGTGATAGGGGGCGGCATCAATGGTGCTGGTATCGCGGCAGACGC -CGCTGGACGCGGTTTATCCGTGCTGATGCTGGAGGCGCAGGATCTCGCTTGCGCGACCTCTTCCGCCAGTTCAAA -ACTCATTCACGGTGGCCTGCGCTACCTTGAGCACTATGAATTCCGCCTGGTCAGCGAGGCGCTGGCTGAACGTGA -AGTGCTGCTGAAAATGGCCCCGCATATCGCCTTCCCGATGCGTTTTCGCCTGCCACATCGTCCGCATCTGCGCCC -GGCGTGGATGATTCGCATTGGTCTGTTTATGTACGATCATCTGGGTAAACGCACCAGCTTGCCGGGATCAACTGG -TTTGCGTTTTGGCGCAAATTCAGTGTTAAAACCGGAAATTAAGCGCGGATTCGAATATTCTGACTGTTGGGTAGA -CGACGCCCGTCTGGTACTCGCCAACGCCCAGATGGTGGTGCGTAAAGGCGGCGAAGTGCTTACTCGGACTCGCGC -CACCTCTGCTCGCCGCGAAAACGGCCTGTGGATTGTGGAAGCGGAAGATATCGATACCGGCAAAAAATATAGCTG -GCAAGCGCGCGGCTTGGTTAACGCCACCGGCCCGTGGGTGAAACAGTTCTTCGACGACGGGATGCATCTGCCTTC -GCCTTATGGCATTCGCCTGATCAAAGGCAGCCATATTGTGGTGCCGCGCGTGCATACCCAGAAGCAAGCCTACAT -TCTGCAAAACGAAGATAAACGTATTGTGTTCGTGATCCCGTGGATGGACGAGTTTTCCATCATCGGCACTACCGA -TGTCGAGTACAAAGGCGATCCGAAAGCGGTGAAGATTGAAGAGAGTGAAATCAATTACCTGCTGAATGTGTATAA -CACGCACTTTAAAAAGCAGTTAAGCCGTGACGATATCGTCTGGACCTACTCCGGTGTGCGTCCGCTGTGTGATGA -TGAGTCCGACTCGCCGCAGGCTATTACCCGTGATTACACCCTTGATATTCATGATGAAAATGGCAAAGCACCGCT -GCTGTCGGTATTCGGCGGTAAGCTGACCACCTACCGAAAACTGGCGGAACATGCGCTGGAAAAACTAACGCCGTA -TTATCAGGGTATTGGCCCGGCATGGACGAAAGAGAGTGTGCTACCGGGTGGCGCCATTGAAGGCGACCGCGACGA -TTATGCCGCTCGCCTGCGCCGCCGCTATCCGTTCCTGACTGAATCGCTGGCGCGTCATTACGCTCGCACTTACGG -CAGCAACAGCGAGCTGCTGCTCGGCAATGCGGGAACGGTAAGCGATCTCGGGGAAGATTTCGGTCATGAGTTCTA -CGAAGCGGAGCTGAAATACCTGGTGGATCACGAATGGGTCCGCCGCGCCGACGACGCCCTGTGGCGTCGCACAAA -ACAAGGCATGTGGCTAAATGCGGATCAACAATCTCGTGTGAGTCAGTGGCTGGTGGAGTATACGCAGCAGAGGTT -ATCGCTGGCGTCGTAAATTAACGTAAGGTGATCAGGTCAGATTTCAATCTGGCCTGAGACTGATGACAAACACAA -AACTGCCTGATGCGCTACGCTTATCAGGCCTACGTGGTTTATGCAATATATTGAATTTGCATGGTCTTGTAGGCC -AGATAAGACGTTCACGTCGCATCCGGCATGAACAAAGCGCACTTTGTCAAAAATCTAACCTACTTTTTAATTCAG -GGAATTACCGCAAAGCCCACGCCATCATACCCAACGTAACAAAACTCAGGCACGTTCCCCACTCGCCCCGAGAAA -AATAGCATTAATGCGCCCAGCGCCAGCATAAAAATTTTGAGCAGAAGGTAAATTGTTGGCGTGATAAGGATATTA -CAAACTTCAATAATACCGGCAAGTCCGACACCCAGCATGGCAATAACCACCGCCAAAAATTGCGCCAGTATGGGG -ATGCCGAAAAAAGTCATTACCAGCGAGGTCAAAATCCATTTTCTGTTTTGCATTATTCTTTCCATTCTTTTTGAA -TGGTGAAATTATACTCCCCGAGTCCCCTTGCCCCTTCTGGACACTTTTCCGAAATGATGGCGGAAAAAAACGGGA -CCCTTTGGCCCCGTTCTATTTATTGGTGAACTTACAATCTCACCGGATCGATATGCCAGATATGATCGGCGTACT -CTTTGATAGTACGGTCAGAAGAGAAGTAGCCCATATTGGCAATGTTCAGCATCGCTTTTGCGGTCCACTCTTCCT -GAAGCTCGTAGAGTTCATCGACTTTATCCTGACAATCGACATAGCTGCGATAATCCGCCAGTACCTGGTAGTGAT -CGCCGAAGTTGATCAGCGAATCAACCAGATCGCGATAGCGACCCGGATCTTCCGGACTGAATACACCGCTGCCGA -TTTGCGTCAGCACCTGATGCAGCTCCTCATCTTTCTCGTAGTATTCACGCGGTTTGTAGCCCTGACGACGCAGTT -CTTCCACTTCTTCCGCTGTGTTACCAAAAATAAAGATATTGTCAGCACCGACATGATCCAGCATCTCGACATTCG -CACCGTCCAACGTACCGATAGTCAGCGCACCGTTAAGCGCAAACTTCATGTTACTGGTGCCGGAAGCTTCCGTCC -CTGCCAGCGAAATCTGTTCAGACAGATCTGCCGCCGGAATGATCAACTGCGCCAGGCTAACGCTGTAGTTCGGGA -TGAACACGACTTTCAGCTTATCGCCAATCTGCGGATCGTTGTTGATCACTTTCGCTACGTCATTGATCAAATGAA -TAATGTGCTTCGCCATGTAATAGGCCGAAGCCGCCTTACCGCCAAAAATATTCACGCGCGGTACCCACTTCGCAT -CCGGGTCGGCCTTGATGCGGTTATAGCGGGTAATCACATGCAACACATTCATCAATTGACGTTTGTATTCGTGAA -TACGTTTGATTTGTACATCGAACAACGCCTTTGGATTCACCACCACATTCAGCTGCTGGGCGATATACTCTGCCA -GACGCTTTTTGTTCTCCAGCTTCGCCTGATGCACAGCGTGATTAACCATTGGGAAATCACAGTGTTGTTGCAGCT -CATTAAGCAGGCTAAGGTCGGTGCGCCAGTTACGGCCCAGGTGTTCGTCCAGCACGGCTGAAAGCGATGGGTTCG -CTACCGCCAGCCAGCGACGCGGCGTCACACCGTTGGTGACGTTGGTGAAACGACCCGGGAAGATTTTCGCAAAGT -CGGCAAACAACGATTGCACCATCAGATTAGAGTGCAGTTCCGATACACCGTTAACTTTGTGGCTCACAACAACCG -CCAGCCAGGCCATACGCACACGACGACCGTTGGATTCATCAATGATCGACGCCCGTCCCAGCAGATCGGTATCGT -TCGGATACTGTTCCTGCAAGGTTTTCAGGAAATAGTCGTTGATTTCAAAGATGATCTGCAGGTGACGCGGCAGAA -TTTTACCCAGCATATCAACCGGCCAGGTTTCCAGCGCCTCGCTCATCAGCGTGTGGTTAGTGTAGGAGAAGACCT -GACAACACACCTCAAACGCGTCGTCCCAGCTAAATTGGTGCTCATCGATCAGCAGACGCATCATCTCAGGAATCG -ACAGTACCGGATGGGTATCATTGAGATGAATCGCGATTTTATCCGCCAGGTTATCGTAGGTTTTATGCAACTGAT -AATGGCGGCTTAAAATGTCCTGAATGGTCGAGGAAACCAGGAAGTATTCCTGACGCAGGCGCAGCTCACGCCCGG -AGTAGGTGGAGTCATCCGGATACAGTACGCGAGATACGTTCTCGGAGTGGTTTTTATCTTCCACTGCCGCGAAGT -AGTCACCCTGGTTGAATTTACCGAGGTTAATTTCGCTACTGGCTTGCGCACTCCACAAACGCAGCGTGTTGGTCG -CGTCGGTGTCGTAACCAGGGATTATCTGATCGTAAGCGACTCCCAGAATCTCTTCGGTTTCAATCCAGCGCGTTT -TTTTACCTTCCTGCTGAATGCGACCGCCAAAACGGACTTTATAGCGCGTGTTGTGGCGTTTGAATTCCCACGGGT -TACCGTATTCCAGCCAGTAGTCTGGCGACTCTTTCTGGCTACCGTTAACGATGTTCTGCTTGAACATACCGTAGT -CATAGCGGATGCCGTAACCGCGCCCCGGCAACCCTAACGTCGCCAGAGAATCAAGGAAGCAAGCCGCCAGACGTC -CCAGGCCACCGTTACCGAGGCCTGGGTCATTTTCTTCATCAATCAGCTCTTCGAGATTTAACCCCATCGCTTCCA -GTGCGCCCTGTACATCTTCGTAAATTCCTAGCGACAACATGGCGTTGGAGAGCGTACGGCCAATCAAAAACTCCA -TCGACAGGTAGTAAACCTGACGAGTTTCTTGCGACAACTGGGCACGGTTTGAACGTAACCAGCGCTCCACGAGAC -GATCGCGCACAGCAAATAACGTTGCGTTCAGCCATTCATGTTTATTGGCGACGACCGGGTCCTTTCCAATCGTAA -ACATCAGCTTGTAAGCGATAGAGTGCTTAAGAGCTTCTACGCTAAGCGTGGGCGATGAATATGTAAACGGAGCAT -TCATATAGGCGTTTCCTGAAAACTATTTCAAGCGATAGTAAAGCTCACGGTACGACTTCGCCGCGACCTGCCAGC -TAAAATCCATTGCCATAGCCTGACGTTGCACAAACCGCCACAGTGAAGGACGGGACCACAGTACAAAAGCACGTC -GAATAGCCCGTAACAGCGACCAGGCATTACTATCTTCAAAGACAAACCCACTGGCGACGCCATCTGCAAGGTTCT -CAAGAGAACAGTCAGAAACCGTATCAGCAAGCCCACCGGTGCGCCGCACTAACGGCAGCGTACCGTACTTCAATC -CATAAAGTTGCGTTAAGCCGCACGGTTCAAAACGGCTGGGCACCAGAATGACGTCCGCGCCGCCCATAATGCGAT -GCGAAAATGCTTCGTGATAGCCAATCTGAACGCCCACCTGACCGGGGTATTCCGCTGCCGCCGCAAGGAAACCTT -CCTGCAGCACCGGATCGCCCGCGCCGAGTAGCGCCAGCTGCCCGCCCTGCTCCAGAAGACCCGGTAAGGCTTCCA -GCACCAGGTCGAGACCTTTCTGGCTGGTCAGACGGCTCACCACTGCAAAAAGCGGCACTTTATCGTCAACCTTAA -GCCCCATTGCGATTTGTAACTGGCGCTTATTTTCCGCTTTATCTTCCAACGTATCGCGGGTGTAACGCGAGGCCA -ACAGTAAGTCCGTCTCTGGACTCCAGATTTTCTCGTCCACGCCGTTCAGTACGCCGGAAAGACGCCCTTCACGGT -GACGCTGTTGCAACAGACCTTCCATACCGTAGGCAAACTGCGGTTCGGTGATCTCGCGAGCGTAGGTTGGACTGA -CCGCCGTAATGTGATCGGCATAGTACAGACCGGCCTTCAGGAAAGAGATTTGTCCGTTGAATTCCAGCCCATGAA -TATTAAAGAATGACCATGGCAATTGGATGTCATTCATGTGATGTGCATAAAACATGCCTTGATAGGCCAGGTTGT -GCACAGTAAACACCGACTTCGCCGGACGCCCGCGCGCCGCCAGATACGCAGGCGCAAGGCCTGCATGCCAGTCGT -GCGCATGCACCACATCAGGACGCCAGAATGGGTCAAGCCCGCTGGCCATTTCTGCCCCAACCCACCCCAGCAGCG -CAAAACGCAATACGTTGTCGGTATAGGCAAATAAGTTGGTATCGTGATACGGGCTTCCCGGACGATCATAGAGAT -GCGGCGCGTCAATCAGGTAAATGCCAACCCCGTTGTAATGACCGAACAACAGCGTGATATGTCCGGCGAAGGTAT -CACGACGGGATACTACCTGCGCATCGGTCACGCCACGGCGAATATCGGGAAATGCAGGCAACAGTACGCGAGCGT -CAACGCCGTCTGCGATTTGTGCTGCGGGTAATGCCCCAATAACATCAGCCAGACCGCCGGTTTTAAGCAGCGGGA -ACATCTCTGAACATACATGTAAAACCTGCATTATCGCTCCTGTTTATGCCCTAACTTCCGTAGCATTTCGCGCGT -TACCAGCACGATGCCTTCTTCTGAACGATAGAAACGACGTGCATCTTCCTCTGCGTTTTCACCAATCACCATGCC -TTCCGGAATAACACAAGCACGATCGATGACGCAGCGGCGCAGACGGCACGAGCGACCTACCCATACTTCCGGTAA -CAATACGGCGGAATCAATGTTGCAGAATGAATTCACGCGAACGCGCGAGAACAGAACGGACTGCACCACCACCGA -ACCGGAGATCACACAACCGCCGGAAACCAGTGAGTTAAGGGTCATCCCGTGGCTACCGGAGCGATCCTGCACGAA -TTTCGCTGGCGGTAATGATTCATTGTAGGTGCGAATTGGCCAATTGCGATCGTACATATCCAGTTCCGGCACCAC -AGAGGCCAGATCGAGGTTCGCTTTCCAGTAAGCTTCCAGCGTACCCACATCGCGCCAGTACGGCTCGGCATCCGG -GTCGGATTGTACGCAAGAGAGCGGGAACGGGTGCGCATAGGCCAGACCGGCTTCGGTGATCTTGGGAATCAAATC -TTTGCCAAAGTCGTGGCTGGAGTTCTCATCGCGATCGTCTTCTTCCAGCAGTTCATACAGATAGTCGGCGTCAAA -GACGTAGATACCCATACTCGCCAGAGATTTGCTCGGATCGTTCGGCATTGACGGCGGGTTAGCAGGTTTTTCAAC -GAATTCGATAATTTTATCGTTCTCATCAACCGCCATAACGCCAAATGCGGAGGCTTCTTCAATCGGTACTGGCAT -ACAAGCAACGGTGCAACGTGCGCCTTTTTCGACGTGATCGATAAGCATACGCGAGTAGTCTTGCTTGTAGATATG -GTCGCCCGCCAGGATCACCACGTATTCCGCTTTATAACGGCGGATAATGTCGAGGTTTTGGGTGACCGCATCTGC -GGTGCCGCGATACCAGTTTTCCCCTTTCATTCTCTGCTGTGCTGGCAGCAGATCGACAAACTCGTTCATTTCTTC -ATTGAAGAATGACCAGCCGCGCTGAATGTGCTGCACCAGAGTGTGGGACTGGTACTGGGTGATCACGCCCATACG -ACGGATCCCGGAGTTGATGCAGTTAGACAGCGCAAAGTCGATAATGCGGAACTTACCGCCGAAGTGTACGGCCGG -TTTTGCTCGCTTATTGGTTAAATCCTTCAGGCGGGTACCACGTCCTCCCGCCAGTATCAGGGCAACAGATTTCAA -TGGCAGCTGGCGCGCCAACATTAAGTGATCGTTCTTCTCTAAACTAACCATGACTAACTCCTTTTTTATCATCTC -TGGAACACACACAATCCGTGTGCAGGTCCCTGCCAGACAGCCGTAATCACTGGGTTATCCTCTCCAGCGAATGGG -GGAATGGCGTGCCACTCCCCAGCAGGTAAAACAATCTCTGTTACCTCAAGCGTGGCGTTAATTGCGATCAAAAAG -CGATCCGAGAGCAGAATTTGCAGCTGTTTCGGCCCGTTTTGCCACTCATCCGTGCTTAAAGGTTGAGCATATCGA -TTTAGCCAACGGACATTGCCGTCGCCTTCTTCCCACCAGCGATTCTCCACCAAAGCGGGAATGCGCTTGCGCAGA -TGGATTAACGCGGCGGTAAATGCGGTTAAACCACTGCTTGCCTGCGACCAGTCCAACCAGGTTAATTGGTTATCC -TGACAGTAGGCATTGTTATTGCCATGCTGGCTGTGACCATGTTCGTCACCGGCCAGTAACATCGGCGTACCCTGG -GAGAGCAACAACGTTGTTAACAGGGCGTGAATGCTGTCGCGCCGCCGTTCAACCAGGTCAAGAGAACCGCCTAAC -CCTTCTTTACCATGATTGTTACTGTAATTGTTGTTGGTCCCGTCGCGATTTTCTTCTCCGTTTGCTTCATTGTGT -TTATGGTTGAAGCAAACGCAGTCGCGAAGCGTAAAACCGTCATGCGCGGTGACGAGATTAATCGCGGCACTCGGC -AGACGACCATTACGTTTAAAAACATCGCTGGAGGCAGCAAAACGCCCGGCAAACGCCCCCAGAGGCAAATCATAA -TGTAGCCAGAAACGACGGGCAGCATCGCGGAAATGATCGTTCCACTCGGCAAACAGCGGCGGGAAATTTCCCACC -TGATAACCACCAGGAGCGATATCCCACGGTTCAGCAATTAACTTCACCTGCGAGAGCACCGGGCAGTTCTGGATA -GCGGTAAACAACGGCGCATCCTGACGGAACTCTGGCGTACGGCCCATGACTGCCGCCAGATCAAAGCGGAAACCA -TCGACGTGGCAGGTTTCTACCCAATAACGCAGGCAGGCGCTGGCATAATCCACCACCGCCGGATGACTCAAATTG -AGCGTGTTGCCGCAACCGGTCCAGTTGTGATAATCGCCGTCTTCTCTTATCCAATAATAGCTACGGTTATCGATC -CCACGCAGCGAGAATAACGGGCCGTCGAGGTCCAGTTCCGCACTATGGTTGAGCACGATATCAAGAATGACTTCG -ATACCCGCTTTATGCAGTGCTTTGATTGCATCGCGAAACTCATCCAGCGCCGTTTCTGGCGAGCAGGCATACGCC -GGATGCAGCGCAAACATCGCCACCGGGTTGTAACCCCAGTAGTTACTTAGCCCCATGCGTTGCAGACGTGGTTCA -CTGGCAAACTGCGCCACTGGCAGCAGTTCCAGCGCGGTAATGCCCAATTGTTTCAAATAGTTGATCATCACCGGA -TGCCCGAGGGCTTTATAAGTGCCACGGATCTCGACCGGGATCTCCGGGTGCAAGTACGTTAATCCTTTGACATGG -GCTTCATAAATGATGGTGCTGCCCCACGGCGTGCGCGGCGGGGCATCATCTTCCCAGTCATAGTGATCAACCACC -ACTACGCATTTCGGCGCAATGGCGGCGTTGTCGCGATAGTCAGGTTCATTATGACCGGCGTGCAGCAGCGGGTTA -TCTTTAAACTCCCCGTCAATTTGCCGCGCGCAAGGATCAATCAACAACTTCGCCGGGTTAAAGCGATGCCCCTCG -GCGGGTTGCCAGGGGCCATGAACGCGATAACCATAACGCAAACCCGGGCGCGCATCCGGCAGATAACCGTGCCAA -ATGTCGCCACTGTGCCCTGGCAAGTCATAGCGATGTTCCTGGCCATTGGCGTCAAAGACACACAGTTCTACCCGC -TCGGCATGAGCGGAGAAAAGTGTGAAGTTGACGCCCTGACCGTCGTAATGCGCGCCGAGGGGAGCGGGTTTGCCA -ATGGCGAGTTGTGTCATTCTGCCTCCCGAACCAGCCAGATAGTGGCCAGCGGTGGTAGCGTCAGGCTTAGTGAAT -GCTGACGACCGTGGCTGGCAATCTCATCGCTGTGTACCGTGCCGCCATTGCCTGCATTACTGCCGTGATAGTGCA -TGGAATCGGTATTGAGGATTTCACGCCATTTGCCCGGCTGGTTTATGCCGAAGCGATAATCATGACGCGGTACCG -GCGTAAAGTTACTGGCAACGATGATTTCGTTACCCTCTTTATCGCGACGCACAAAGATCAGCACCGAGCGTTCTT -TGTCATCCACCACCAGCCATTCAAAGCCGTACGGGTCAAAATCCAGTTCATGCATTGCTTTATGGTGGCGGTAGG -TGAGGTTCAGATCGCGCACCAGACGCTGGACACCGTGGTGCCAGTTATCGCCGCCTTCCAACAGATGCCAGTCGA -GGCTGGCGTCATGGTTCCACTCGCGGCCCTGGGCAAATTCGTTACCCATGAACAGTAGTTTCTTGCCCGGGAATG -CCCACATCCAGCCATAGTAGGCGCGCAGGTTCGCGAATTTCTGCCATGCGTCGCCCGGCATGCGGTCGAGAATCG -ATTTTTTACCGTGGACCACTTCATCATGCGACAACGGCAGGACGAAGTTTTCAGTGTAGTTGTAGAGAATCCCGA -AGGTCAGTTTATCGTGATGATACTGACGATAAACCGGGTCGAGCTTCATGTAGTCCAGGGTGTCATGCATCCAGC -CGAGGTTCCACTTGTACCAGAAGCCCAGACCGCCCATATCCTGCGGACGAGAAACGCCAGGGAAATCGGTAGACT -CCTCAGCCATTGTCACCGCACCGGAAACCTGCTCACCAAGAATACGGTTGGTATTACGCAAGAATTCAATCGCTT -CAAGATTCTCGCGCCCGCCAAATTCGTTCGGGATCCACTCCCCCTCTTTACGGCTGTAGTCGCGATAAATCATTG -ACGCCACCGCATCGACGCGCAGCGCATCAATACCAAAACGTTCAATCCAGTAAAGCGCGTTACCGACGAGGAAGT -TACTGACTTCACGGCGACCATAGTTGTAGATCAGCGTGTTCCAGTCCTGATGATAGCCTTCACGCGGATCGCTGT -GTTCATACAAGTTCGTGCCATCAAATTCGGCAAGCGCAAAGTCATCAGTCGGGAAGTGGCCTGGCACCCAGTCGA -GAATCACGTTCAGACCAGCTGCGTGTGCGGCATCAATGAAATAACGGAAGTCGTCGCGAGTACCAAAACGGCGGG -TTGGCGCATACAGGCCGGTTGGCTGATAACCCCAACTGCCATCGAAGGGATGCTCGTTAATGGGCAGTAGTTCGA -GGTGGGTAAAGCCCATCCATTTAGCATAAGGCACCAGTTGATCGGCCAGCTCGCGGTAGCTCAACCAGAAATTGT -TGTCGGTGTGGCGACGCCAGGAACCCAGGTGAACTTCATAAATAGAGATTGGCGCATCAAACTGATTCGCTTTTT -TGCGCTCTTCAGTCTGTACAACCTTTTCCGGCAGCCCGCAAATAAGAGACGCGGTTTCCGGGCGCATTTGCGCTT -CAAAGGCATAAGGGTCGGACTTCAGACGCAAGTTGCCATTGGCATCAATCATCTCGTATTTATAGAGCTGACCGT -TATGCGCCCCAGGGATAAACAGTTCCCAGATGCCGCTCTCTTTACGCAGGCGCATCGGGTGACGGCGACCGTCCC -AGTAGTTGAATTGCCCAACCACCGAGACCCGACGGGCGTTTGGAGCCCAGACAGAGAAACGCGTACCTGTGACGC -CATCCATAGTATCTGCATGCGCGCCTAAGGTTTCATACGGGCGCAGGTGAGTACCTTCAGATAATAGCCAGGCAT -CCATTTCCTGGATTAGCGGACCAAAACGGTAAGGATCATCAATCAGGTTTTGCTGACCATGCCAGACAACAGCCA -ACTGATAGCGGAAAAAATTCTTACGTCGCGGAATGACGCCGCTAAAGAATCCCCGTGAGTCGAGACACTCCAGTT -TTGCGAGTTTGCGCCCGGTTTTCGGTTCAATCACCCACACATCGGTAGCGTCGGGTAAAAGGGCACGGACTTCCA -GTCCCGCGGTGGTTTTATGCATTCCCAGTACGGAAAAAGGATCCGCAAAATGGCCTGCAATTAGCGCGTTAATCA -CGTCTCTATCGATACGATCGGACATGCTTGTCTTCCTGTTTTATTGTGTCACCCCATCCAATTGGATTTTTGACT -TCTGGTTGTGACATTTTTTTGACCTGAACGGCGCAGCACTCTGTGCATCCTCTCTGCGTCGTCCTCACTTCAGGT -AAGGCTGTGAATACTCATGTATTCAGCCACCCTTAAAGAATAGCCAATGCTCTATTTAACTCCCGGTAAATCATG -AAACATCTGCGCTTACTCCTGTATTACGCACTAACAGGGGCGGCATCGCGCCCCAGATTTAATGAATAAAGATTA -CGCCAGTTGACGAAGCATCCGACGCAGCGGCTCCGCGGCCCCCCACAGCAGCTGGTCGCCCACGGTAAAGGCTGA -CAGGAACTCTGGTCCCATATTCAGCTTACGCAGGCGGCCTACCGGCGTGGTCAGCGTGCCGGTAACGGCAGCTGG -GGTTAGCTCACGCATAGTGATTTCCCGATCGTTCGGAACGACTTTCGCCCACGGATTGTGCGCAGCCAGCAGTTC -TTCCACGGTCGGAATAGACACATCTTTTTTCAATTTAATAGTGAATGCCTGGCTGTGGCAGCGCAATGCCCCGAC -ACGCACACATAAACCATCTACCGGAATTACGGAAGATGTGTTGAGGATCTTGTTGGTTTCCGCCTGCCCTTTCCA -CTCTTCGCGGCTCTGACCGTTATCGAGCTGTTTGTCGATCCACGGAATCAGGCTACCCGCCAGCGGCACGCCAAA -GTTATCCACCGGCAGCTCACCGCTACGGGTTAAGGTTGTGACTTTGCGTTCGATATCGAGAATAGCAGAGGACGG -GGTCGCGAGTTCATCTGCCACATGGCCATACAGATGGCCCATCTGGGTTAATAACTCACGCATATGTCGCGCACC -ACCGCCGGAAGCGGCCTGGTAGGTTGCAACGGACACCCAATCAACAAGATCATTGGCGAATAAACCACCCAACGA -CATCAACATCAGGCTTACGGTACAGTTACCGCCAACAAAAGTCCTGATGCCATTATTTAATCCGTCGGTAATGAC -GTCCTGATTGACGGGGTCAAGAATGATGATGGCGTCATCTTTCATGCGCAGAGACGATGCTGCGTCAATCCAGTA -ACCTTGCCATCCGCTTTCACGAAGCTTTGGATAGATTTCGTTGGTATAATCGCCGCCCTGACAGGTCACAATGAT -ATCGAGGGCCTTTAGCGCCTCCAGATCAAAGGCATCCTGAAGTGTGCCAGTGGTTCCGCCAAAAGACGGCGCAGC -CTGGCCAAGCTGAGAAGTAGAAAAGAAGACAGGGCGAATGGCGTCGAAGTCGCGCTCTTCAACCATGCGTTGCAT -GAGAACGGAGCCGACCATACCGCGCCAGCCGATAAAACCAACATTTTTCATAAGCGTTTTTTTCCTGCAAAGATG -TGTGCTGTATAAATGTGCCGGTCTCCTCTTGGCACATCTTTCACCATACAAAAAGCAGCCAAAGTCGCAAGTGAA -ATTAATCAATGATAGCGAAGCCATCAGTAATGCGACTTATCCTGCTTTGTTAGCACGCAGAAAGTCCGCGGCAAT -TATCAGGGAATTTGAGTTATGAATGAAATCATTTCTGCAGCAGTTTTATTGATCCTGATTATGGATCCGCTCGGA -AACCTACCTATTTTCATGTCCGTACTGAAACATACTGAACCGAAAAGACGGCGGGCAATCATGGTGCGAGAGTTG -CTTATTGCTCTCCTGGTGATGCTGGTGTTCCTGTTTGCGGGTGAGAAAATTCTGGCATTTCTTAGCCTACGAGCA -GAAACCGTCTCCATTTCTGGCGGCATCATTCTGTTTCTGATCGCCATTAAAATGATTTTCCCCAGCGCTTCAGGA -AATAGCAGCGGGCTTCCGGCAGGTGAAGAGCCATTTATCGTGCCGTTGGCAATTCCGTTAGTCGCCGGGCCGACT -ATTCTCGCCACGCTGATGTTGTTGTCTCATCAGTACCCGAATCAGATGGGGCATCTGGTGATTGCTCTGCTGCTG -GCCTGGGGCGGCACCTTTGTCATCCTGCTACAGTCTTCGCTATTTTTACGTCTGCTGGGCGAGAAAGGGGTGAAC -GCACTTGAACGCCTGATGGGATTGATTCTGGTGATGATGGCAACCCAGATGTTCCTCGACGGCATTCGAATGTGG -ATGAAGGGGTAACGAGGAGAGTTTTTCGAAAAGAACCCGGTAGCGTCACAACTACCGGGCGAACAAACTTAACTC -AACAGCTGGAACGCAATCATCCCAACGATGGCACCGACAGTGCCGAGGATGGTTTCCATCATGGTCCAGGTTTTC -AGCGTTTCGGCTTCGGTCGCGCCGGTAAATTTACCGAACAACCAGAAACCGGCGTCGTTAACGTGGCTGACAACA -ATCGAACCACCAGCGATACAAATCGACAGCGCCGCCATTTGCGCACCGGAGTAGTTCAGTTGTTCAATAACCGGC -ATCACCAGTCCTACCGCCGTTAAACAGGCTACGGTGGCAGAACCCTGAATGATGCGCACTGCAGCTGCCAGCACG -AAGCAGGTGATAGCAATCGGCAGGCCCATGCCGGTTAACGCTTCGCCCAGTGCCGGACCTACGCCAGAGTCAACC -AGCACCTGTTTGAACACGCCGCCCGCACCAATCACCAGCAGAATGATCCCCGCCGGTTGCAGCGCGTGACCGCAA -ATCTCCATCACTTTGTCTTTTGGCATGCCCTGACGCATTGCCAGACCGTAAATCGCCACCAGACAAGCAACCAGA -ATCGCGGTAAACGGATGACCGATAAACTCAAACCATTCGTAAGCAGTTGATCCTTCCGGCACAAAACGCGCGGCA -ATGGTTTTCAGCCCTACCAGCACCAGCGGCAGCAGGATCAGCGACAGGCTGAATCCGAAAGATGGCATTTTGCCT -TCGCCGAGATGCGGTTCGCTGATGTCGTCAGGAATATGCAGCTCAACGTAACGGCTGATGAAGTTACCCCACAGC -GGCCCGGCAATAATCATTCCCGGAATTGCCGCACACAGGCCAATCAGGATCATCCAGCCAAAGTCGGCATTCATC -TGCGATGCCAGCAGCATCGGCGCTGGTCCAGGCACCAGAAATGCCGCCGCTGCCGCCACGCCTGCAAATAATGGG -ATTACCAGCTTCACCAGGTTCGTACCGGTGTGGCGCGCCATTGAGAAAGCAACGCTAATCAGCAGAACTATCGCC -ACTTCAAAGAACAGCGGTAGCGCACAGACCAGCCCCGCAAGGCCGATGGCATAATGCGCGCGGCTGTGACCGAAG -GATTTGAGCATTTTGACGGCAATCTGATCGACTGCGCCGGTTTCATGTAAGATCTTGCCAAACATAGCTCCCAGG -GCGACAACCACCGCCAGGAAGCCGAGGGTGCCTCCCATCCCTTTTTCCATCGTCGCTGCGATTTTATCGAGCGGC -ATACCAGAAAAAAGGCCAGCCCCCATGGACACCACCATTAAAGCCAGGAAAGCGTGCATACGCGCCTTCATGACT -AAAAACAGCAGCAGTAAAACAGACCCTACTGCTGTTAAAACAAGCGTTAATGTAGTCACTACTTATTTGCCTTTT -TTAATAACCTCAATGGTGCTTGCCACAACACCTTCCAGCGGTTGATCGATATCCACCACCAGTACATCGGTTTCG -TCCGCACCCGGCTCCTGCAGCGTTTCAAACTGCGTCACCAACATTTGGGTTTTAAAGAAATGGCCTTTGCGCGCT -TTCAGGCGGCTTTCAATCACATCAAAATCGCCTTTCAAATAGATGAAAGAGAGATTCGGATTACCTTCACGCAGC -AAGTCGCGATAGTGTTTTTTCAATGCAGAACAGACGATCAGCGACACTTTATTAGTGCGCTGCATAGCAAACGCG -GCGTCGTTCAGCGCCTGCAACCACGGTTTGCGATCGTCGTCATTCAGTGGTTCGCCAGACGCCATTTTTTCGATA -TTGCGCCGTGGATGGAGGAAATCGCCATCAAGAAACGCGGCATGAAGTTGATGCGCCACTTCACTGGCGACCGCA -GATTTGCCGCTGCCCGATACGCCCATCAAGACGTAAATGTGGTGATCATGGTTAGTCGTGCTCAAAGTGGTGCCC -CCACAATACAAGAATTAAAAATGTTACGGGTAACTGTTATCGGTAACATTGTCCAGCCGGACAATATCAGAAGCA -ATATCCATCCATGCCTTAAGTGTATAAGTGTGAGCTACTTCAAATTTGTGGGCTTAAATAGATCCGCCCGGTGAC -AAGGTGAAACCTAAATCTAACATTTTCGGTGTCACAGATTCGCCACGAATACGCGCCAGCAGGCGTTCAGCGCCA -ATACTGCCCATCCGCTCACGCGGCGTCAGCACGCTCGCAAGTCGTGGCTCCATCACCTGACCAATGTCATGACCG -TGGAAACCGGCAATCGCCATATCGTCAGGAACTTTTAACCCCAGACGCTGACATTCAAACGCCGCGCCGACCGCC -AGGTCATCATTCGTACAGAACACGCCATCCAGCTGCGGATATTCCCGCCGCGCCTGGCGAATCAGTTCAATACCG -GAAGAGTAAGAAGAAGATTGCTCAACCATCACGCTATATGGCACCAGGCCTGCATCCAGCATCGCCTGTTCGTAT -CCCTTCTGTTTGATGATAGTACGTTCGTCGAGACGTGCGCCGAGATAGGCAATGTGGCGATGCCCGCGAGCAATA -ATGGCAGTGGTCATCTGGCGTGCTGCTTCAAAGTTATCAAAACCGACGGCGATATCAAGGCATGGCGACTTGCTG -TCCATCAGTTCCACCACGGGAATACCCGCCACTTCAATCATCTTTAAGGTGCGCGGCGTGTGGGTACGTTCGGTG -AGGATCAGGCCGTCGATATTCCAGGAGAGCATGGATTCGAGGCGTTCTTGCTCCATTTCCGGTTTATAACCGTAG -TGCGCCAGCATGGTCTGATAACCGTGCGCGTCGGTGACGCTTTCGATTCCGCGTAATACTTCCGCGAAAACCTGG -TTGGTGAGAGAAGGTAACAGGACGCCAATCGCCCGGCTGGTGGCGTTAGAGAGGATATCGGGCGCACGATTGGGA -ATATAGCCCAGTTCATCAAGAGCCGCGGCAATCTTGCCGCGTAGAGCGACGGAAACCTGCTCCGGGTTGCGTAAA -AAACGGCTGACCGTCATTTTGGTCACGCCTACACGGTCAGCCACATCCTGAAGTACGGGTCTTTTCTTTTTCATC -GTCCTGAAGGTACAAAAGAGATAGATTCTCTTAGTTTAACACGGACACATCAGAACCTTCCCGGGGAAAACAGTG -CTTGTTTACAATTATTAGATATACACTAAATCAATTGCATCGCATTGTGCTAACGACGCGGCAAAACCCCGGAAG -CGTACATCAGCACGCGACCGGAGCGAGCGAGGAAGCCTGCAAAAAGGCAGGCTTCAAAGATGCCGTTGAGTTTTA -AACCGGCGGCAGATCGAACAGTAACACTTCGCTGTCGCTATCCGCATGGATGGAGATTGCCTGCTCATCCCAGAT -TGCCAGACCATCGCTGGTCGAGGCTTTCACGCCGTTAATGGTGACATTGCCTTTCACCACCTGGATCCAGACGCG -GCGTTCAGCGGCAATCTGATGCACCGACTGCTCATCTTTCAGCAACGCCCAGCGGTACAGTTCCATATCCTGATG -CACTTTCAATGAACCATCTCGCGCATCCGGCGAGAGCACCAGCTGTTTGCCCTGTACGGCATCGAAGCGACGCTG -TTCATAACGCGGCGTAATACCGTTTTCTTCAGGCATGATCCAGATCTGATACAGATGCAGACGCTCGGTGCTGCT -TGGGTTGTACTCTGAGTGACGAATACCCGTACCAGCACTCATAATCTGGAACTCACCCGCCGGAACCTGCTCTTT -ATTGCCCATGCTGTCCTGATGCTCAACAGTACCTTCCAGCACGTAGGTCAAAATTTCCATATCTTTATGCGGGTG -AGTGCCGAAGCCCTGCCCTGCTTCAATCACGTCGTCGTTAATCACGCGCAGCGCGGAGAAGCCCATAAAGTTCGG -ATCGTAATAGTTGGCAAAAGAGAAAGTATGCCAGGAGTCCAGCCAGCCATGATTTGCATGACCACGTTCATTTGC -TTTGCGTAAGTAGATCATTTGTATTCGCCCCCTGAATGATTTCGATGGGCTTAGTGTGGACCCGATCTGCCTGGG -ATGATAGAGGGTGAAAATTGACCCCTCTGTTCAAAAAAATTGAACTATTCGAGGGGCCATCAAACTTACTTAGCG -AGAGTTACTGTGGAGGGAGAGGCTTGCTCAAATCCGCGTTCAAGGATTTCCAGATTGGTAAGAACTTCAGATTCC -TTGACGTAATTTGGCGCACCGTGGGTGATGGTTTGATACAACGCATCATAAACGCGCCCGTAATCGCCCATCTCC -GGCTTCATCTCTTCTCTGACCGTCACGCCCTCGTCATTGACATACTCCAGCACACCGACCGAATCATCCGCTGCG -AATCCCGGTTCGCCCGGCATAATATTAGCCTTCAGGCTGGTTTCCTGCTGGTCGATACCGTATTTAATAAACGAA -CCTTTCTTACCGTGAACGATAAATTTCGGATAATCGATTTTCACCAGATGGCTGGTTTTGACGATGGCTTTCAGG -TCGCCATAAAACAGTTGCGCTTCAAAGGTGTCGTCAGGATTGGCTTTATTACGCAGGCTGCGGATGTCATAAGCG -ACGTGATCCGGGCGACCGAACAGAGAAATAATCTGGTCCATCGTATGCACACCAAGGCCATAAAACGCGCCATCC -TGCGGCAGCCCAGGTTTGGTTTCTGCCACCGGGCGGTAATAGTCAAAATGGCTTTCCACTTCAACAATCTCTCCC -AACTTGCCACTTTCAATCGCTTTTTTCGCTGTCAGGAAGCAGGAGTCAAAGCGACGATTCTGATACGGCGTGACG -GTCAGCCCTTTGCTTTTCGCCAACGCAAACAGCTCTTTCGCCTGCGCAAGTGTCGGAGTGAACGGTTTTTCGACC -AGCACATTTTTCCCGGCTTCCAGCGCGCGTTTCGCGTACTCGAAATGGCTGTCCGCGTGGGTGCAGACAACAACC -AGCTTAACATCGGGATCGTTTAGTACTTCGTCGAGATCGCTGGTGAAATGGATATGGGAATAAATGGGAGCCTGT -TCTTCCGGCTTCGCATGGCGACGAAAAATATGCGCGACATGCCAGCTATCCTTGCGGTTAAGTACATACGGCAGA -TGGTAACGGGTGGTGCTTTTGCCGAAGCCAATAAAGGCGCAGTTGATGACCATGATTTCGTCCTTTTTAAGGTGG -TTATTTACACCTTAGCGCAAAGCGGACGTGGTTCCTACTGGAGTGCGCATAACGAACACAAGCACTCCCGTGGAT -AAATTGAGAACGAAAGATCAAAAAAAAAGCCAGCACCCGGCTGGCTAAGTAATACTGGAAGCAATGTGAGCAATG -TCGTGCTTTCAGGTTCTCCGCGAGGGTCTTCCTGATCGCGAGACAATAATAATCATTCTCATTCGCACTTGTCCA -ACACTTTTTGCAAAAAAATGCATTTGACTCGCATTTGAAAGTCAATGATGTTGAAAGGGACATTTACCCCAAAGA -GGACAAAGGAATGAGTGAGATAGTAATACGCCACGCAGAAACACGGGATTACGAGGCCATCAGGCAGATTCACGC -CCAGCCGGAGGTGTATTGCAACACACTACAGGTGCCTCATCCTTCCGATCATATGTGGCAGGAGCGACTCGCCGA -TCGTCCCGGCATCAAGCAACTCGTCGCCTGTATTGATGGAGACGTCGTGGGCCATCTCACCATTGACGTGCAACA -GCGCCCACGCCGCAGTCATGTTGCCGATTTTGGTATCTGTGTCGACTCTCGTTGGAAGAACCGCGGCGTCGCCAG -CGCCCTGATGCGAGAGATGATTGAAATGTGCGACAACTGGTTGCGGGTAGATCGCATTGAACTAACCGTGTTTGT -CGATAACGCCCCGGCAATTAAGGTCTATAAAAAATACGGCTTTGAAATTGAAGGGACTGGTAAGAAGTACGCATT -GCGTAATGGTGAATATGTCGATGCATATTATATGGCGCGGGTGAAGTAAGATAGTGCCCTTTTTCTGAGATGGAA -AAAGGGTGTCATTCAAAATCGACATACCTTCCTTTAAGGTATTTATTTGCCCAATACATATATTGAGATTTAACT -CATAATTACTTCCTAAAGTGTAATATTTTATTTTTTAATATATACGCCTACAATTTCCTGGAGTAAATAAATAAC -AATTAACAAGCATAATATTGCCATTGATAAAATAGCATGCCATAAAAGGACTTTTCAGGGATGAGTAATATTGTT -TACCTGACAGTAACGGGAGAACAACAAGGAAGCATCTCCGCAGGTTGTGGGACTTCTGAGTCTACAGGTAATCGT -TGGCAGAGCGGGCATGAGGATGAAATATTTACATTCTCACTCTTAAATAATATTAATAATACGGGGCTTGGTTCA -CAGTTCCATGGTATAACATTTTGTAAATTAATTGATAAAAGCACTCCATTATTTATTAATTCCATTAACAATAAT -GAACAATTATTTATGGGATTTGACTTCTATCGAATAAATAGATTTGGTAGATTGGAAAAGTATTATTATATACAA -CTAAGAGGCGCTTTTTTATCGGCTATTCATCACCAGATCATTGAAAACCAACTGGATACAGAAACAATAACTATT -AGTTATGAATTTATCCTCTGTCAACATCTTATCGCAAATACCGAGTTCAGCTATTTGGCACTCCCTGAAAATTAT -AACCGTTTGTTTTTACCAAATTCAAAAAACCAAACAAATAATCGTTTCAAAACGTTAAACAGCAAAGCTATTGGC -AGGCTACTTGCTGCTGGTGGCGTATACAATGGGAACATTGAAGGATTCAGAGATACTGCGGAAAAACTGGGTGGA -GATGCAATAAAAGGCTATGATCAAATACTAAATGAAAAAACAGCGGGCATAGCGATAGCAACAGCATCTATTCTT -TTAACAAAGCGTTCTAATGTTGATACATATACAGAAATAAATAGTTACTTAGGCAAACTTAGAGGTCAACAAAAA -CTTCTTGATGGTATAGACATAATAGAAATAATATACATTAAGAGACCTTCAAAAGACTTAGCTAACTTACGAAAG -GAGTTTAATAAAACTGTAAGAAAAAATTTTCTTATCAAACTTGCAAAAACCTCCGAAGCATCTGGAAGATTCAAC -GCCGAAGACCTTTTAAGAATGAGAAAGGGCAATGTTCCTCTAAATTATAATGTTCACCATAAACTATCTCTAGAT -GATGGTGGTACTAATGATTTCGAAAATTTAGTATTAATCGAAAACGAACCATATCATAAAGTTTTTACTAACATG -CAATCACGAATAGCTAAGGGAATATTAGTAGGTGAAAGCAAAATCACTCCCTGGGCCATTCCATCTGGCTCAATT -TATCCTCCCATGAAAAATATTATGGACCACACAAAATGATGACTAAAACCCAAATAAATAAATTAATAAAAATGA -TGAATGATTTAGACTATCCATTTGAAGCACCGCTCAAGGAATCATTTATTGAAAGTATAATCCAAATAGAATTTA -ATTCTAATTCAACTAATTGCCTGGAGAAGTTATGTAATGAAGTTAGTATTCTTTTTAAGAATCAACCTGATTATC -TTACTTTTTTAAGAGCAATGGATGGATTCGAAGTTAATGGATTACGATTATTTAGCCTCTCGATTCCAGAACCTT -CAGTTAAAAACCTTTTTGCCGTAAATGAATTTTATAGAAATAATGATGATTTCATAAACCCTGATCTACAAGAAC -GGTTAGTGATCGGGGATTATAGCATTTCAATATTTACTTATGACATTAAAGGTGATGCTGCCAACTTACTGATTT -AGTGTATGATGGTGTTTTTGAGGTGCTCCAGTGGCTTCTGTTTCTATCAGCTGTCCCTCCTGTTCAGCTACTGAC -GGGGTGGTGCGTAACGGCAAAAGCACCGCCGGACATCAGCGCTATCTCTGCTCTCACTGCCGTAAAACATGGCAA -CTGCAGTTCACTTACACCGCTTCTCAACCCGGTACGCACCAGAAAATCATTGATATGGCCATGAATGGCGTTGGA -TGCCGGGCAACAGCCCGCATTATGGGCGTTGGCCTCAACACGATTTTACGTCACTTAAAAAACTCAGGCCGCAGT -CGGTAACCTCGCGCATACAGCCGGGCAGTGACGTCATCGTCTGCGCGGAAATGGACGAACAGTGGGGCTATGTCG -GGGCTAAATCGCGCCAGCGCTGGCTGTTTTACGCGTATGACAGTCTCCGGAAGACGGTTGTTGCGCACGTATTCG -GTGAACGCACTATGGCGACGCTGGGGCGTCTTATGAGCCTGCTGTCACCCTTTGACGTGGTGATATGGATGACGG -ATGGCTGGCCGCTGTATGAATCCCGCCTGAAGGGAAAGCTGCACGTAATCAGCAAGCGATATACGCAGCGAATTG -AGCGGCATAACCTGAATCTGAGGCAGCACCTGGCACGGCTGGGACGGAAGTCGCTGTCGTTCTCAAAATCGGTGG -AGCTGCATGACAAAGTCATCGGGCATTATCTGAACATAAAACACTATCAATAAGTTGGAGTCATTACCGACATTA -AAAGTAACTTTTTTGAAATTAGAGATAATATTGGCACAGAAAATATATTCAGTTCGTTTAGTGATTTCTCTTCAT -TCTTAAACGAAATCATGGACAGTTGTTCATAATAATCAAAAGGAAACAAAAATCATTGTAAACCATGCCATCTTT -TTAGAGATTACCAGCAGAAAATTCCTTGTTCGAAATTTAGCAGTGCAAGCTATGGAAAAACTTACAACGGAACTA -CACTCCTTAAGTGAGATGGACCGAAGACATGTAGTCTCTATTTTAGCCGAAATAGCTAATGGCTATGATGATTTT -AATGACATGTTGATTTATTTAGAATTTTACCCGAATCATAAGATTCTGATATCTTAAATAAGAAAATCCCGTTCG -ACGTTCTGAAAAAGAAATCATAAAATATTAGCAGATACTTATTTCGTGACTATATCTTATCCGATGAACTTTTTT -CAAAACCAGCATTTAATAATATCTTTGACGAAGATGAACGCGTCTTTGCTCAATGTATCACACAGGAATAATAAT -ATAACACTCAACAATAATATTTATTATAATTATGATTACTTATCACGACGCATTCGCGAAAGCGAACCATTACCT -TGATGATGCAGATCTCCCGGTCGTCATTACTCTACATGGACGCTTTAGCCAGGGCTGGTATTTCTGTTTCGAAGC -ACGAGAATTTCTCGAAACTGGAGATGAGGCCGCGCGCTTAGCTGGTAACGCACCTTTTATTATTGATAAAGACAG -TGGTGAAATTCATTCTCTGGGAACGGCAAAACCGCTGGAAGAATATCTACAGGATTACGAAATAAAAAAGGCTAC -CTTCGGCTTGCCCTGACAAAATAGCCCTCTTCCCACGAAGAGGGCCGCTAACCTTAGTACCCCGCCGTTAAATCA -TCCACCGAGCGCGGGTCGGATGCGCCGTACAACTCACCGTCCGGCCCAACCATAATGCTTTGTGTACTGCCCATC -GCCTCTTTCAGCGCCACTTTCTGACCTTTTGCTTCCAGCAGCTTGAGCGTATCCGGGCTAAACCCTTTTTCGACA -CGCAGCTCGTCCGGCAACCACTGATGGTGGAAACGCGGCGCATTGGTCGCTTCGGCGACGTTCAAGCCATAATCG -ATGCTATTCACCACCATTTGCAGCACTGTAGTGATGATCCGGCTACCGCCTGGGCTACCGGTAACCAGCCAGGTT -TTACCGTCTTTCACCACAATGGTCGGCGACATCGACGACAGCGGGCGTTTGTTCGGCCCGACGGCGTTGGCATCA -CCGCCCACCAGCCCGTAAACGTTCGGTACGCCCGGTTTGGCGGAGAAATCATCCATCTGGTTATTAAGCAGAATA -CCGCTCTCGCCCGCGACAATGCCCGTACCGAAGGTGGTGTTCAGCGTATAGGTCACCGCCACCGCGTTACCATCT -TTATCCACCACTGAGTAATGGGTAGTTTGATTACTCTCATAAGGCGCAAGCTTGCCGGGGCGAATTTCGCTGGAT -GGCTTCGCTTTATTGATATCAATTTGATCGGCAATAGATTTGGCATAGGCTTTATTGGTCAGCGCCTGCCACGGT -ACTTTGACAAAATCCGGGTCGCCAAGATATTCCGAGCGGTCGGCGTAGGCGTATTTCTCCGCTTCTGCCATGATT -TGCATCGCATCGGCGCTGCCAAAGCCGTATTTCTTCATATCGAAGTTTTCCAGAATATTGAGGATTTGTACGATA -TGGATCCCGCCGGAGGATGGCGGTGGCATGGAGTAAACCTGATACCCGCGATAATCGCCGCTTATCGGAGTGCGT -TCGACCGCTTTATAGGCTGCTAAATCTTCTTTAGTGATCAAGCCACCGTTTTTCTGCATCTCCTGGGCGATCTGT -TCCGCAATCGTGCCTTTATAGAATTCGTCCGGGCCGTTTTCAGCAATCATCTCCAGGCTCTTTGCCAGGTTCGCC -TGCACCAGCGTGTCGCCCTTTTTCAGCGGCTCGCCCTCTTTCCAGAAGATAGCTTTACTGTTTTCGTGATTCGGC -AACACTTCGCTACCGTAGGTTTTGAGATCGTCAGCCAGCGCGTCGTTAACGATAAAACCATCGCGTGCCAGTTTA -AACGCGGGCTGCACGACTTTGTTCAGCGGCATGGTGCCGTATTTATCCAGCGCCAGCGAGAAACCTGCTACCGTA -CCCGGTGTGCCGGAAGCCAGATGCGAAGTGAGTGATTTTTTGCTGTCCGGGTTGCCCTGATCATCGAGGAACATA -TCGCGGGTCGCTTTGGCGGGTGCCATTTCGCGGAAATCGATAGCCGTGGTATTGCCATTTTTCGAGCGGATTAAC -ATAAAACCACCACCGCCCAGATTCCCTGCCTGCGGATGCGTTACCGCCAGCGCGTAGCCCACCGCCACGGCGGCA -TCAACGGCATTCCCGCCCTCCTTGAGAATATCCACCCCCACCTGAGTGGCAGTGGCGTCCACAGACGCTACCATT -CCCTGTTTCGCGCGTACCGGGTGGAAGACATCTTCCTCCACACCATACGAGACGGGCGGCGCAGGAGGCGCGGCG -GCGGCGCTAAAACAACTTCCTGAGAGCAGAGCAGCAATGGCCACCCGGCGTAAAAACGTCGGTTTTATCATCGTT -ATTCTCCAGAGATTAAGGGGCAACCCCAGCTAAGCCTGGTATATAACTCTGAATTAATCATCGTTTTGTCGGGAA -GCGAGTAAACTTAAAGGATATCTTCAGAGGAGGATACGCGATGAAACGACTTCTGATTCTTACGGCACTCCTGCC -GTTTGTCGGCTTTGCACAGCCCATTAATACTCTGAACAACCCTAACCAGCCGGGGTATCAGATACCCAGCCAGCA -GCGGATGCAAACCCAGATGCAGACTCAGCAAATCCAGCAAAAAGGGATGCTGAATCAGCAACTGAAAACGCAAAC -TCAGTTGCAACAGCAGCATTTAGAAAACCAGATAAACAATAATTCTCAGCGGGTGTTGCAGTCACAGCCGGGGGA -GCGAAATCCCGCCCGGCAGCAAATGCTGCCCAACACCAACGGCGGGATGTTAAACAGCAACCGTAATCCGGATAG -TTCGTTGAATCAGCAGCATATGCTGCCGGAGAGGAGAAACGGCGACATGCTGAATCAGCCCAGCACGCCGCAGCC -TGACATTCCGTTGAAAACTATTGGGCCGTAAAGTTCGGACCAATCACGTCAATCGCATCGGTACAGATGCAATCC -ACACCCCAGCGCAGCAACTCTGCTGCGCGCTGGGGTTTATTGACGGTATAAACCAGAATCCGCAGTCCGGCGTCT -TTCAACTGCATCACTCGCGCTTTATTGAGTAACTTATGATTGAGATGAATAGAGACGCAGCCCAGCCGCGCGGTC -AGTTCGCGCCAGTCGTCGCGCCACTCATCCAGCAACAAACCGCGCGGCAGTTCCGGTGCCGCCTGTTGTGCAGCT -TCTAAAGCATCAATCTCAAACGATGACAGCAGCGGCGGCGTCATACCGGCCCACAGCTCGCGTGCCGCCAGCGCC -ACCATTTTGCCCGTTAATGGCCCGGTGCCGGTGGTGGGTTTGATTTCGATATTCGCCATCATCCCGTGTTCGCGG -CAACGTTCCGCCACCTGCGAAAGCAACGGTAGCGGCTCACCTTTAAACATTTTGCTGTACCAACTGCCCGCATCC -ACGCGCAGTAAATCCTGCCAGTTCAGTTCACCCGCGACGCCCCAGCCGTTGCTGGTACGTTCGAGATTGTCGTCA -TGGAGCAGGAAGATCTCGCCATCTTTCGATAACTTCGCGTCAAATTCGATCATCTTATGACCGTATTTTGCCCCG -ACGTCGATTGACGCCAGGGTGTTTTCCGGGGCCAGCTTACCGCCGCCACGATGAGCGACGATGCGGGGATAAGGC -CAGTTACTCATACTCGTTGTCCTGTTTCACCATCAAAAAGATGCAGCTGATTTTCCGCCAGATGCAGCCACAGCG -TGCTGCCTGCCGTCGGGCGCTCCTGATGCGCCAGTCGCACCACCAGCTTCTGCTCGCCCCAGCGTCCGTGCGCCA -GGTTATCTGCGCCGAGGATCTCCAGCGTGTCCATCACCATCGGTACGCCGCCTTCTGCCTGCGAGCTTAGCGCAA -TATGTTCCGGGCGAATGCCGAGAGTCATTTTACGCCCGGCATACTGACGGTAGCCACCGTTTAGCGGCAGCTCAA -TACCGCCGTCCAGTTCGAAATGCGTGCCTTCGTTATTCACGCGGCCTGTCAGCAGGTTCATCGCCGGACTGCCGA -TAAAACTCGCTACAAACAGGCTGGCGGGCTTTTCGTAGACTTCAACTGGTGTGCCAATCTGTTCGGCAACACCGC -CGTTCATCACCATTACTCGCTGGGCGAGCGTCATCGCTTCAACCTGATCGTGAGTAACGTAGAGTGAAGTCGTTT -TCAGGCGACGGTGCAACTGTTGCAGTTCAAGACGCATCTGCACGCGCAGCTTGGCATCGAGGTTAGAGAGCGGCT -CATCAAACAGGAACACCGCCGGATCGCGCACAATCGCGCGGCCCATCGCCACACGCTGGCGCTGACCGCCGGAAA -GCTCGCGCGGGCGACGTTTGAGCAGACCGTCCAGCTCCAGAATGCGCGCCGCTTCTTTAACGCGCTCGGCAATTT -GCTGCTTGCCCATGCCGCGAATTTTCAGCCCCCACGCCATGTTTTCTTCGACACTCATATGCGGATAAAGCGCGT -AGTTCTGGAACACCATCGCAATCCCGCGATCTTTTGGCTCCATTTCAGTCACGCGCTGGTCGTTGATCCAGATAT -CGCCTTCTGTCACCCGCTCCAGCCCGGCAACCATGCGCAGCAGCGTCGATTTCCCGCAGCCAGACGGCCCGACCA -TCACGATAAATTCGCCATCCGCCACATCAAGGGTCAGCGGTTTAATGACCTGGGTTTTACCATCCCAGCTTTTGG -TTACTGCCTGTAATTTCAGTCCTGCCATCTTATTTCTCACTATCGACCAGGCCGCGCACGAAGGCACGCTGCATC -ACTAAAACAATCACCACCGGAGGGATAAGCGTTAACAACATCGCCACCATCACTGAGTTCCATTCCGTGGTGCCT -TCGCCTGTAGCGATCATCCCTTTGATCCCTGCCACGGTGGTGCCGAGATCCACATCGGTAATAATCAACAACGGC -CACAAATACTGATTCCAGCCGTAGATAAAGGTGATCACAAACAGCGCCGCCAGATTAGTTTTGGAGAGCGGAAAA -ACGATGTCGCAAAAGAAGCGCATTGGCGATGCGCCGTCGATCCGCGCGGCTTCCACCAGCTCATCCGGCAGCGTC -ATAAAGAACTGGCGGAACAGGAAAGTAGCGGTCGCCGAGGCCATCAGCGGCAGCGTTAAACCGGCGTAGCTGTCG -AGCATCTGCAGGTTGGCGATGACTTCCACCGTCGGGAAGATACGTACTTCAACCGGCAGCATCAGGGTGATAAAA -ATCATCCAGAAGAAGAGGTTACGTAGCGGAAAACGAAACCAGACAATGGCAAATGCCGAGAGCATCGAGACGGTA -ATTTTGCCGAGCGTAATGCTGAACGCCATCACAAAGCTGTTAAGCAACATCCGCCAGAACGGCGCGCTATTCGTG -CCTACCCCGTTCACCCAGATGTTGTGGATGTTTTCCAGCAGATGTGTGCCGGGGATGAGCGTCATCGGCGCGGCA -TAGACGGCCTGTTTATCCAGCGTCGCCGCGACAAACGCCACGTACAGCGGGAAGAGGATCACCGCGATCCCGAGG -ATCAGCATGGTATGGCTGAATATCGTCAGCCACGGACGGTTCTCAATCATTGGTAACGCACCTTGCTTTCAACAT -AGCGGAACTGCACCACCGTCAGCACGATGACGAGGAACATCAACACCACCGACTGTGCGGCAGACGAAGCCAGAT -CCAGTCCGGTAAAACCTTCGCGGTAGATCTTATAAATCAGCGTCGTGGTGGCCTGAACCGGCCCGCCGGACGTGG -CGGCGTCGATCACCGGGAAGGTGTCGAAGAAGGCATACACCAGGTTCACTACCAGCAGGAAGAAACTCACCGGGG -CGATAAGCGGCAGCGCAATCTTAAAGAAGCGGCGAATCGGCCCTGCACCGTCGATGGCTGCGGCTTCGATCAACG -AACGGGGAATGGATTGCAGCGCGGCATAGAAGAACAGGAAGTTGTAGCTGATTTGCTTCCATACTGAGGCAAACA -CCACCAGAAACATTGCCTGACCGCTGTTTTGCGCGTGGTTCCAGTCGTAGCCGAACTCCGCGAGAAAATGGGTGA -TCAGCCCGCGACCGGGGTTAAACAGGAAGATCCACAATACGGCGGCAACGGCGGGAGCCACGGCGTAAGGCAGCA -ACATTAAGGTTTGATAGAAACGGCTGCCGCGCACGATGTACTCCACCAGCGCCGCAAAGAACAGCGATACCAGCA -AACCGCTGACGGTGACAAAGGTGCTGAATTTTATCGTCGTCCAGAAGGAGTCGAGATAGTAGCTGTCATGGAACA -GCGTGACGAAGTTATCCAGGCCGACAAACTGGCTGGAGAAACCAAACGGATCGACGCTTTGTAGCGAGTACCACA -ACGCTTCGCCCGCAGGCCAGATAAAAAAGATAACGGTGATGATGAGCTGCGGCGCGACCAGCAGATAAGGCAGCC -AGCGCGAGCGGAACACCGGACGGGATGATGACATTACGGTTAATTCCTGAACTGTGCCGGATGCGCTTCGCTTAT -CCGGCCTACACGCGATGCCAGGTCAGATAAGCGAAACGCATCCGACATTACACTGATTAAGACTTCGTCGATTTC -TCAAAGCGGCGCAGCAACTGATTTCCACGCTCAACGGCGGTATCCAGTGCCTGCTGTGGTGTCTTCTTACCGGTC -CACACGCTCTCCAGCTCTTCATCCACAATCACGCGGATCTGCGGCATGTTGCCCAGACGCAGCCCTTTGGTGAAC -GGCAACGGCGGCTTATTCAGCATCTGACGCGTCGCGGTATCCGCCCCTGGGTTTTTCTCATAAAAGCCCTGCTCA -CGGGTCAGGTCATACGCTGCTTTGGTGATTGGCAGATAACCGGTTTTCTGATGCCACTCGGCAGCGTTTTCTGGC -TTCGCGAGGAAATCGAGGAACTTCGCCACACCGGTATACGTTTCTTTATCTTTACCCTGCATCACCCACAGGCTG -GCTCCGCCGATAATGGCGTTTTGTGGCGCATCTTTCGCATCGGCGTCGTAAGGCATCATGCCTACGCCGTAGTTA -AATTTGGCGTACTCGCGAATGTTGGCAAGAGAACCGGAAGAGGCGGTGGTCATCGCGCAATCACCGTTATAGAAC -TTCTCGGTGGATTCATCCTTACGACCGACGTAGCTGAAGTCGCCCTTCTTGTTCATCTCCTCGAGCATGGCGATG -TGTTTCACCTGCTCCGGCTTATTGAACTCCAGCACCGCGTCCGTGCCGTCAAAGCCGTTGTTTTTGCTGGCAAAC -GGCAGACCGTTCCAGGCGCTAAAGTTTTCCAGTTGGATCCAGCCCTGCCAGCCGCTGGCGTAGCCGCACTTCATG -CCGGAGGCTTTCAGTTTCGCGGCATAGTCCGCCAGATCCTGCCAGGTTTTCGGCGGCTGTTCCGGGTCTAATCCT -GCTTTCTTGAAGGCGTCTTTGTTGTAATAGAGAACGGGGGTCGAGCTGTTGAATGGCTGGGAGAGTAAGTGGCCC -GTTTTGCTGTCGGAGTAGTAACCTGAAACCGTCGGCACAAACTGCGACTCATCGAACTGAATCCCTGCCTCTTTA -AACACGTCATACACCGGTTTAATGGCTTTCGACGCCATCATGGTGGCGGTGCCAACTTCATAAACCTGCAAAATA -GCCGGCGCGTTGCCGGTACGAAATGCGGCAATCCCCGCGCTTAAATTCTGTTCGTAGTTGCCTTTATAGGTCGGT -ACAATTTTGTAATCCGGGTTTTCGGCGTTAAAACGTTGGGCCAGAGAATCCACCTCTTTACCCAGTTCCCCTTCC -ATAGAATGCCAGAACGGAATGGTCGTCACTGCCTGTGCATTCCCCATTAACGCCAGTCCGAGCGCCAGTGCTGAA -GCTGTATAATGTAACGGTTTCATCGTTTATCTCTCTTGTTGTACCGAATGCGCGAATTCACGCGTTTTATGCTCG -CGGGGTAACATGACATGCTCGAATTACAGAAAAATAACTTTTTTGTTACATTTGTAAGATAGTAAGGTGTCAGAA -AGATGACAAGGCGGTGACGGCGTGGGTGAGGGAAAATGGGAGATGGGGCACGGATAAGCGGGAAAATATAGAAGG -TCTGAATCAAACTCTACAGATTGCTCATCGTTTCATGCCGGATGCGGCGTAAACGCCTTATCAGGCCTACAAGAT -CGTGCAAATTCAACATATTGCCACTCACCCAGTAGGCCTGATAAGCGCAGCGCATCAGGCAATTTTACATTTGTC -ACCTGTCTCAAAGGAGTCTTTTGACTCCCTATCAATCAACGTGTTATTACCCGCCTAAATACGCACTTCTCACCG -CTTCATTCGCCAGCAGCGCATCACCAGTATCGGAAAGCACTACATGGCCGTTTTCCAGCACGTAGCCGCGATCCG -CCAGCTTTAGCGCCTGGTTGGCGTTCTGCTCGACGAGAAAGATAGTCATCCCCTGCTCGCGCAGCTGCTCGATGG -TGTCGAAAATTTGCTGGATGATAATCGGCGCAAGACCGAGCGATGGCTCATCAAGCAGTAGCAAACGCGGGTTGC -TCATCAGCGCACGACCAATCGCCAGCATCTGCTGTTCACCGCCGGACATGGTGCCCGCCCGCTGAATACGGCGCT -CATGCAGACGTGGAAACAGCTCATACACCCACTTTATGCGCTCCTGGAACTGGTCGCGTTCAGCAAAAAAACCGC -CCATCGCCAGGTTCTCTTCCACCGTCATCCGCGAGAAGACGCGACGCCCTTCCGGGACAATCGCCACCGCTTCGC -GCATGATTTTCGCTGTCTGCCAGTCGGTAATGTCTTTATCATCAAACACAATTCGCCCGCTGGTGGCACGCGGAT -CGCCGCATAACGTGCCGAGCAAGGTGGTTTTCCCCGCCCCGTTCGCGCCAATCAGCGTGACAATCTCGCCCTGAT -TGATATGCAGGCTCACCTCATGCAGCGCCTGGATTTTGCCGTAGTGGGCGCTGACTTTGTCAAAGGACAACATGA -CTTTTTCCATCTTATGCCTCACCTAAATAGGCACGGATCACGTCCGGGTTATTACGGATCTGCTCCGGCGTACCG -TTTGCCAGCGGCGTCCCCTGATTGACCACGTAAATTCGGTCCGAAATTCCCATCACCAGCTTCATATCGTGTTCA -ATCAACAAGATAGTGGTGTTGTGATGATTGCGCAGTTCGGCAATCAGCTCATCCAGCTCTTTCGTCTCTTTCGGG -TTAAGACCTGCCGCAGGTTCGTCGAGCATTAAAATCTCCGGCTGCGTCACCATGCAGCGGGCAATCTCAAGACGG -CGCTGGTCACCATAGGCCAGGTTACTCGCCTGACGGTTGGCGTGTTCCAGCAAACCAATGCGCTCAAGCCAGGTC -GCGGCGCGGTCGAGCGCTTCGCTCTGGGCGCGACGGAAGGATGGCGTTTTCAACAGGCCAGAGAACAGCCCGGTT -TTCAGTTGCTGATGCTGCGCCACCAGCAGGTTTTCAATTACCGTCATTTCACGGAACAGACGCACATGCTGGAAG -GTGCGCACCACGCCCATGCGGGCAATTTGCTGCCCCGGTAAACCTTCCAGGTGCTGATCGCGCAGTAAAATGGTG -CCGCCGGTGGGTTTGTAGAATCCGGTCAGACAGTTAAAAACCGTGGTTTTTCCGGCACCGTTAGGGCCGATTAAC -GAGACGATCTCCTGCGGGTACAGTTCAAGATTGACGTTGTTCACCGCCAGCAGGCCGCCGAAGCGCATCATCAGG -CCGTTAACAGATAATAATGGCTGACTCATGCCTGCTCTCCTTTCGCTGCGCCGTTTTTCAGCTTCAGTTGCGGGC -GCGTCATGGGCAGCAAGCCCTGCGGACGCCAGATCATCATCAGCACCATCAAACCACCGAGCATTAACATGCTGT -ATTCGTTGAAATCACGCATCAACTCGCGCGACACCACCAGCAAAATTGCCGCCAGAATCACCGCAAATTGCGAGC -CCATACCGCCGAGCACCACTATCGCCAGCACAAACGCCGATTCGGCAAAGGTGAAGGATTCCGGGCTGACAAAGC -CCTGACGCGCCGCAAACAGCGTTCCGGCAAAACCGGCAAACGCGGCACTTATGGTAAAGGCAGTCAGCTTGATAC -GACGCGGGCTTAAGCCCAGCGAACGGCAGGCGATTTCATCTTCACGCAACGCTTCCCACGCACGCCCCAGCGGCA -TCCGCAGCAGGCGGTTAATGACAAACAGGCTTAGCACCACCAGCAGCAACGCCACCAGGTAGAGGAAGATGACAC -GATCGGAGGGATCGTATTTCAGGCCAAAGAAATTACTGAACGTGTCCCAGCCGCCTTCACGAGCGGTACGGCTGA -ACTCGAGTCCGAAGAGTGTCGGTTTCGGGATCTGACTGATTCCGTTCGGGCCGCCGGTAATTTCGGTGTTATTGA -GCAGCAATATGCGCACAATTTCGCCGAAACCGAGGGTAACGATCGCCAGATAGTCACCGCGCAAACGCAGCACCG -GAAAACCGAGCAGGAAGCCCGCCGCCGCTGCCATTAATCCAGCAATCGGCAGGCAGGTCCAGAAGCCCAAGCCGT -AATAGTGATTGAGCAGCGCAAAAGTGTAAGCGCCGATGGCGTAAAAACCGCCGTACCCCAGCACCAGCAGACCAG -AAAGACCAACAACCACGTTCAGCCCGAGACCGAGGATAATGTAGATCATGGTCAGGGTGGCAATATCCACCGTCC -CGCGTGAAACCATAAACGGCCACGCCACCGCAAGCACCAACAGCGCCACGAGGAACAGTTTCTGCTTCACCGTGG -AGCCATCAATGGCGGGCAGAATAAACTTCGGTCCGGAAACGCTTTTCAACCCTTTCTGGAAAGCCGGTCGCAAAA -GCTGGAAGAAAAAGACCACCGCCGTGCCGATAAACACCCACTGCCAACGGACATCCGAAGCCGTGTCGACCACCA -GTTTGGTGCCATCCAGCTCCAGTTGCACGCCCATAAAGACGCCCGCCAGCACAAAGAACATCGCGGCAGAGAGCA -GCGCCATTGCAATATGCATCGGTTTCATACTTTCTCTACCTCCGGGCGACCCAGAATACCGGTCGGCATCACCAG -CAGCACCAGAATCAGCAGGGCGAATGAGACCACATCTTTATATTCCGTACTCAGATAGGCAGAAGAGAGCGCCTC -CGCAATCCCCAGAATCAGGCCGCCAATCATCGCTCCCGGAATGCTGCCAATCCCACCGAGCACCGCCGCGGTAAA -GGCTTTCATCCCGGCCATAAAGCCGATGTAGGGGTTAATGACGCCGTAGAACTGACCGAGCAGCACACCCGCCAC -CGCCGCCATCGCCGCGCCAATCACAAAGGTCAGCGCAATCACCCGGTCGGTGTTAATGCCAAGCAGACTCGCCAT -TTTCAGATCTTCCGCGCAGGCACGACACGCGCGACCCATGCGGGAATAGCGAATGAAAATCGTCAGCGCCAGCAT -GGCGAGGAAGGTAACAATCCAGATCACCGCCTGCATGGTGGTAATAGAGGCAGAGAAGTTTTCGCTATGCCCCAC -CACCCACTGACCGTTAAACAGGCTCGGCAGCGCCACGTCGCGCGAACCTTCGGTCAGGCTGACGTAGTTTTGCAG -GAAGATGGACATACCGATTGCAGAGATGAGTGCAATCAGGCGCTTAGAGTTACGCACCGGGCGGTAAGCCACCCG -TTCGATACTCCAGCCGTAGGCGCTGGCAATGACGATTGCGCCGACGAATCCCGCAGCTACCAGCAGCCAGCCGGT -ATCAATGCCCATCATCATCAGCGCGGCGATGATCATAAATGAGACGTAGCTGCCAATCATATAAACCTCGCCGTG -GGCGAAGTTGATCATGCCGATAATGCCGTAAACCATGGTGTAGCCGATGGCTATCAGCGCGTAGGTACTGCCCAG -CGTGACGCCGTTAAACATCTGCTGCAAGAAATACAAAAACTGCTCAGACATAAGGTAACCTTTCTAAACCCGCCC -GCATTTTACGGGCGGTGGGATGATCACTTGGCTGCCGTGGATGAACCGTCGGCGTGCCACTGGAAGACACCAAAA -TCAAATCCCTTAAGATCGCCTTTTTCATCCCAGTTCAGCGGCCCAATCACGGTGTTTGCACCGTTAGCTTTTAAA -TCTTTCACCAGCGCCAGCGGCTCATCGCTGCCGGTACGCTCAAGGGCAGTCGCCAGAGATTGCACCGCCGCGTAG -GTGATCCAGACATAAGGCCCGGACGGATCTTTCTTGTCTGCTTTCAGCGCATCAACGATGCCCTGGTTTGCCGGA -TCCTGGTCATAGCGTTTTGGCATAGTGACCAACATGCCTTCGGCGGCATCACCGGCAATGTTCGACAACGACGCA -TTACCCACACCTTCCGGCCCCATAAACTGGGTTTTCAGGCCAACGGAACGGGCCTGGCGCAGCATCTGCCCCATT -TCCGGGTAGTAACCGCCGTAGTAAACGAAGTCGATGTTTTCTTTTTTCAGGCGGGCGATCAGCGCGGAGAAATCT -TTCTCCCCGGCGGTAATACCGTCGAAGAAGACGACGTTGGCGTTAGCCGCTTTCAGCCCGTCCTGCACCGAACGC -GCCAGCCCTTCGCCATACTGTTGTTTGTCGTGAATGATGGCGATGCGCTGGGGCTTCACCGTCTCAAGAATGTAT -TTTGCCGCCGTTGGCCCCTGGGAAGAGTCCAGCCCGGCAGTACGCATAATGTGTTGATAACCGCGTTGGGTCAGC -TCCGGGTTGGTCGCTCCCGGCGAGATCATCAGAATACCTTCGTCTTCATAGATATCTGACGCAGGCTGGGTAGAA -GAAGAACACAGATGACCAATAACGTATTTAATGCCGTCATTAACGATTTTGTTGGCGACCGCAACGGCTTGTTTC -GGGTCGCATGCGTCGTCATATTCCACGCCAACCAGTTTATCGCCCTTAATTCCCCCTTTGGCATTAATGTCTTTA -ATTGCCTGACGCGCGCCGTTAAATTCCATATCGCCCCACTGGGCAATCGGGCCGGACATCGCGCCGACAACGGCG -ACTTTAATATCGTCAGCCATAGCGGTGTGTGAAATTGCCAGTGCAATCATCCCTGCGATGATAGTTTTCGCATTC -CGTTTCATAGTCAAAAATCCCCATTCGTGATGTTGTGTTGCTTTGTTTTTATGTGTTAACAAATCAGACTGTTCT -TTTTTTATACTGCACTGTTTTTGCCTGTCTGATTAAGGGGTTAGCGCAGTATTTTGTGATAATAGCGATTAAAAT -CCCTATTTTTCAGTCGATTAAGAACAGATAATATTCTGAATTTATTGATAGATAAACAGAAAAAAGTGCCTTTGT -CAGCATAAAATAACGGCACAAAGGGCGGAATAATTCACTATCATTCAGGGGATTATGCTGGACATTTTTCATTCT -CTAATGTTTTAATTTTGTAATTATTGCTGTTAAAAAATTAATCACCTGCCAAAAGAAATAAAAAAGAGAAAGCCT -CCGATTAAATTATTTCGCTACACTGGTTCCACTTTTGTGATTTACACGGGTTACCCATGAAGCTGACCATCATTC -GATTAGAAAAATTTAGCGACCAAGACCGGATTGACCTGCAAAAGATCTGGCCGGAGTATTCCCCTTCCTCGTTAC -AGGTTGACGATAACCACCGTATCTACGCCGCGCGTTTTAACGAGCGCCTGCTCGCTGCCGTGCGGGTAACCTTAA -GCGGCACCGAGGGAGCACTGGATTCCCTGCGCGTGCGGGAAGTCACCCGCCGTCGCGGTGTGGGGCAATATCTGC -TGGAAGAGGTTTTGCGTAACAATCCTGGCGTTTCATGCTGGTGGATGGCGGATGCAGGCGTGGAAGATCGCGGTG -TGATGACGGCGTTTATGCAGGCGCTGGGGTTTACGGCACAACAGGGCGGCTGGGAGAAGTGTTAATCGTCAAGTT -TGATTTCAAAAGTGATATTGCCTGATGCGCTACGCTTATCAGGCCTACAATGTGTGTTGCAATTTACTGATTTCT -TTGGATCTTGTAGGCCGGATAAGGCGTTTACGCCGCATCCGGCATGAAGCAACGTACTCGATATTAGCAATTTGG -CGGCAACCCAAAGTTGCCGATTAATGATTACTTCGCATCGGTCGCCGTGCCGTTGGCGTGCCAGTCAAATACGCC -GAACTCAAAGCCTTTCAGATCGCCTTTCTCATCCCAGGTCAGCGGTCCCATTACGGTATCCACGGAGTTCGCTTT -CAGGTATTTGGCGATTTCAGCCGGATCGTCAGACTGATTCAGGCCCGCCTGCAAAGATTGCAGCGCGGCGTAGGT -GGTCCAAACGAATGCGCCACTTGGGTCCTGTTTTTTCGCTTTGATCGCGTCAACAATGGGTTTGTTCGCCGGAAC -CTGATCGTAGTTCTTCGGCTTGGTCACCAGCAGCCCTTCCGCTGATTCGCCCGCAATGTTAGACAGCGAAACGTT -AGCCACACCTTCCGGCCCCATAAACTGAGTTTTCAGCCCTGCCGCGCGTGCCTGACGCAGGATTTGCCCCATTTC -CGGGTGATAACCGCCGTAGTAAACGAAGTCGATATTCTCTTTTTTCAGACGCGCCACCAGCGTTGAGAAATCTTT -TTCCCCGGCGGTGATGCCATCAAAGAACACCACGTTTGCATTGCCTTTCTTCAGGCCGTCCTGCACCGCTCGCGC -CAGACCTTCGCCGTATTGCTGTTTGTCGTGAACGATAGCAATACGCTGCGGTTTCACTTTCTCAAGAATATATTT -CGCCGCCGTCGGCCCCTGGTCGGAGTCCAGGCCGGTGGTGCGCAGGATCAGCTGATAGCCACGGGCGGTCAGCTC -CGGCGCGGTTGCCGCTGGGGTGATCATTAAAATGCCTTCGTCTTCGTAGATGTCAGACGCAGGCTGCGTTGATGA -AGAACAGAGGTGACCAATCACATATTTAATGCCGTCGTTAACGACTTTGTTCGCCACCGCAACCGCCTGTTTCGG -GTCACAGGCATCGTCATATTTTACGATTTGCAGTTTGTTGCCTTTAATGCCGCCTTTAGCGTTGATATCCGCAAC -CGCCTGCTCTGCGCCGGTAAACTCCTGGTCACCGTACTGCGCAACCGGACCGGACATTGCGCCCACGACCGCGAC -TTTAATATCTTCTGCCAGAGCCATATTGCTGAATGCCAGCGCGATACATCCTGCCAGTAACGCTTTACCCTTTAT -GTTCATCCTGAGAATCCCCATTCTTCTGGTTATTACGTGTGTTGTGATGTTGTTTTTCAGCACTTTATTTCGTTT -TATGCATGACTACCCGTGCTTTAGCAGCATACTCTGCTAAAACATACCCGATTTTTATGATATTGGAATAGCTAT -TTTGACAGTTTATTAACAATCTGCGTGGGGATTGGCGTTTTGCCGGAGGGGAAATTGATTATTACAGAGGCCCAA -AAAACAAAAACCCCGGACTCTCATCCAGGGTTCTCTGCTTAATAGCGGAAATTACGCTTCAATGGCAGCACGCAA -TTTTTTCATCGCGTTCTTTTCCAGCTGGCGTACACGCTCAGCGGAAACGCCGTAACGGTCAGCCAGTTCCTGCAA -CGTGGACTTGTTGTCTTCGTCCAGCCAGCGCGCACGGATGATGTCCTGGCTGCGTTCGTCCAGACCCTGCATCGC -GTCGGTCAGACGGTTTGCCGCCTGCTCTTCCCAGTTATCATCTTCAATGCCGTCGGCAAAGTTAGATGATTTATC -CTGCAGATAGAGCACCGGAGCCATCGGCTGGCTGTCGGAATCGTCGTCGGAAGACAGGTCAAAGGTCATGTCCTG -TGCCGCCATACGTGATTCCATCTCACGTACGTCTTTGCTGGTTACGCCCAGTTCACGGGCCACCATTTCGACTTC -ATCCTGGTTAAACCAGCCCAGACGCTGCTTGGTTTTACGCAGGTTGAAGAACAGTTTGCGCTGCGCTTTGGTGGT -CGCAACTTTGACGATACGCCAGTTACGCAGAACGTATTCGTGGATCTCTGCTTTGATCCAGTGAACGGCGAAGGA -GACCAGGCGCACACCCACTTCCGGGTTGAAACGGCGCACTGCTTTCATCAGGCCGATGTTACCTTCCTGAATCAA -ATCCGCCTGTGGCAGGCCATAGCCCGCATAATTACGAGCAATATGAACAACAAACCGCAGGTGAGACAGGATCAG -CGTTTTAGCTGCTTCCAGATCGCCATGGTAATGCAGCTTTTCAGCCAGCGCCCGCTCCTCGTCAGCCGACAACAT -CGGCCACGCGTTAGCTGCCCGGATGTAGGAATCCAGGTTGCCAACTGGGGCTAAAGCTAAACTTTGCATTTTGTC -AGTCATTCAAATCCTCTCAATCGATATCTTCTGGCGCTTCAGTGGTAGCAACAACTGTGCCAGAGCTTAAGAGCA -ACGAGGTTATCATTCACTGTTTTATCAGACCGTGATTTTATCCACAAGTTCAATGCAAGCTTGTGAATAAATTAC -GCACAAAATGTGACATAGAGATGAAATACCGGGAAGAGACAACGGGGTCTCTTTCCCTGCTACGGAACCCATTGC -AGGGAAAGAGTATAACACGCTTTTATTATTCAGGCGTAAAGTGGCGTAAATGTTGTACCGTGGCAAGCCACGCTG -CCACCCAGCCAATCATCGAGCATACCAGCAGCAATAGCAGGCATTCATCGAATGATAAGCCATTGATATCAAACT -TCGTTCCGAAAACCTGTGCCACTTCCGCAACCGCCGATGACAATCGCAGCACCAGAATTTCTGACAAAATTAATG -ACAACAATGCGCCAGAAAATCCCAGCAGTGCGCCACCATACAGGAACGGGCGCAGGATGAATCCATCTGTCGCAC -CAATCAGTTTCTGTACGTTAATGGAGTCACGGCGAGCAAAGATACTCAGACGCACACTGTTACCGATGACGAGGA -ACACGGCCGCCACCATCAACACGCCGATCATCGCCGAAACGCGCCCGACCAGCCCGGTCAACGCCGCCAGACGGG -CAAACCAGCTGTCATCCATCCGCACTTCGTCAATGCCGTTAATCTGCGTGATACGATCACGCAGCGTATTCAGTG -ATTCCGTCCCCTGGAAATCGAGTTTCGGGATCACCACCGCCACTGCCGGAAGCGGGTTTTCTTCCAGCATATCCA -GCGCACCACCAAAACCAGACCAGTTACGGAACTCACCCAGTGCGTCTTCACGAGAAAGATAGTTCACTTTCTCCA -CGCCTTGCTCGGCCTGCAACTGTGCCACCACGCCCGCAGCAGCGTCATCGTCCAGCGTTTTTTGCAGATAAACAG -TGATTTGCGGTGACGGATAATACTGCGTCGCCGCCTGGTTAACGTTTTTGTACACCATATAACAGACGCTGGGCA -GCGTCAGAGAAATGGCGATAACCATCACCGTTAAAAACGTGGCGAACGGTTTGCTTTTCAGATCCTGCAATGCGC -CGTGGAAGGCATAGCGCACCTGTTCGTTGAAAACGTTGGTTTTGCGATTTACCGGTTTTGGCGAGGATTTCGCGC -GTTTTGGTGCGTTACGACCGCCGTCGCCTGAGCCGCCGACCGATTTACGGAAGCGATCAAGACGCCCGCCAAACT -GCCGAATATGATTGATTGCATCGCGCTTATTCATGGCCCACGCCTCCATGCAAGTGACCATCGCTCAGGGTGAGC -ATGCGATAGGAACGCCGCGAGATCAGGTTGATGTCGTGCGTTGCCATCAATACGGTTACCCCAACGCGGTTAAAC -TCTTCAAACAGACGTAAAATGCCTTCCGACAGCGCGTCGTCCAGGTTACCAGTCGGTTCGTCCGCCAGCAGTACC -GCGGGCTTGTTCACCACCGCGCGGGCAATGCCAACACGCTGTTGTTCACCGCCCGAAAGCTGAATAGGGAAGTTC -TTCGCTTTGTCCAGTAGCCCGACTTTATCCAGCGCCGCCGACACCCGGCGACGAATATCGTCACCGCTGGCACCG -GCGATAATCAGCGGGATCGCCACGTTATCGTAGACAGTACGGTCCATCAGTAGATGGTGATCCTGGAAAATCATG -CCAATCTGGCGGCGCAGAAACGGAACTTCACGGTTTTTCAGACGCGTGATGTCATGGCCGCTAAACCAGATTTTC -CCGGCGCTGGGCCGCTCAATCCCACAGATCAGCTTCAGGAGGGTACTTTTCCCTGCGCCGGAATGACCGGTCAGA -AACGCCATCTCACCCGGCTGCATATGGAACGTAACGCCCTGCAGCGCCTGTCTCCCACCGAGATAAGCCTTGCTG -ACATGTTCAAAGCGAATCATTGTTAATCCTCTCGGGCAAAAAGTGCCTCTATAAAGTCGTCCGCCTTAAACGGAC -GCAAATCCTCAATACGTTCGCCGACACCAATGTAGCGGATAGGGATACCAAACTGGTCAGCCACCGAGAAAATTA -CCCCGCCTTTCGCCGTGCCGTCCAGTTTCGTTAGCGTGATGCCGGTTAAGCCAACGGCTTCATGGAACAGTTTGG -CCTGGCTTACCGCGTTCTGCCCGGTGCTGGCATCAATAGTCAGCATAACTTCATGCGGCGCTTCAACGTCGAGTT -TCTTCATCACGCGGACGATTTTCTTCAACTCTTCCATCAGGTGCGATTTGTTCTGCAGGCGTCCGGCTGTATCGG -CAATCAGGACGTCGATATTACGCGCTTTAGCTGCCTGAATGGCGTCGAAGATAACAGAGGCGGAATCCGCCCCGG -TATGCTGGGCAATCACCGGAATATTGTTGCGCTGACCCCAGACCTGAAGCTGTTCAACCGCAGCTGCACGGAAAG -TATCACCCGCCGCCAGCATCACCGATTTACCCTGCTGCTCAAACTGACGCGCCAGCTTACCAATCGTCGTGGTTT -TACCCACACCGTTGACGCCCACCATCAGGATCACAAACGGCGCTTTGCCTTCAACATTCAGCGGCTCATCGACTT -TCGCCAGAATCTCGCCCATCTCTTCTTTCAGCAGGCCATAGAGCGCCTCGGCGTCACGAAGCTGCTTGCGGGATG -CGCCTTCCGTCAGATTGGTGATAATTTTACGTGTGGTTTCCACACCCACATCGGCGATCAAAAGCTGCTCTTCCA -GCTCCTCAAACAGATCATCGTCGATTTTTTTACCGCGGAACAGGCTGATAAATCCGGAACCGAGATTTTCTTTGG -TTTTTAACAGGCTGCGTTTCAGGCGCGCGAAAAAACCTTCTTTGGTCGGTTTTTCCTGCTCCTGAGCGATTTCTT -CCACCGGCTGCTCTTCTTCTGCCGGAGGAACCACCATCACCGCCTCTTCTGCCGCTTCGGCAGCCAGCGCCGTTT -CCAGCTCTTCGTCGGTAATTTCTTCTTTAGCCGCTTCTTCTTCCGCCGCTTCGACAATCTCTACGGTTTCCGCTT -CAGCCTGCCACTCTTCTGGCGAAACCGCTTCGGCGTTGACGTCTTCCGGCAACGGCAGCTCTTCACGTTCGATAG -CCACTGGCTCCGGCGTTTCTTCTACGACCGGTTCCGGCTGTGCAACGACTTCCGCTTCAGGCTGCGCTTTTTCAC -TTTCAGCAACCTGTTCAGTGACTTCCACAACGTCGGCAGCAAAAGTTTCCGCCTCGGCTTCAGTATGCGCTTGCG -GCTGCTCTTCAACGGCTTGTTCAGAGGCCTTCACAGGCTCTTGCGCCTGAACGATTTCTTCTACAACCGGTTGTT -CATTCTGAACTTCTGTCTCTTTTTCCGGGGTCTGCTCTTTTTGACCAAAGCCCAGCCAGGAAAAAAAGCCACGTT -TTTTTTCTTTCGCCATTTGCGACTACACTCCTCGCTGTTGCTTCATGGCACAGCGTTAACGCTATGTACATAGCA -GCTAAAAAAATGATGAAATAGTCTATCACTTAACTTAATTCACATCACCGCCTGCAAGTATGTGTTATCTGGCGG -ATTGAGCAATTTATCATGAAAAAACCGAATCATTCCGGCAGCGGCCAAATCCGCATTATTGGCGGGCAGTGGCGA -GGCCGTAAACTCCCGGTTCCTGATAGCCCAGGTCTGCGCCCCACCACCGACCGCGTACGCGAAACGTTGTTTAAC -TGGCTGGCTCCGGTCATTGTTGACGCCCAATGTCTGGATTGCTTCGCCGGGAGCGGCGCGCTGGGGCTGGAAGCG -TTATCGCGCTACGCTGCGGGGGCAACGTTGATTGAGATGGATCGCGCGGTTTCTCAGCAGTTAATTAAGAATCTG -GCGACACTAAAAGCAGGCAATGCACGCGTGGTGAACAGCAACGCGATGTCATTCCTGGCGCAAAAAGGTACACCG -CATAATATCGTGTTTGTCGATCCACCGTTCCGCCGTGGCTTGTTAGAAGAGACGATAAATTTACTGGAAGATAAC -GGCTGGCTGGCTGACGAAGCCCTGATTTATGTCGAAAGCGAAGTCGAAAACGGTCTGCCCACTGTTCCAGCAAAC -TGGTCATTACATCGGGAAAAAGTGGCGGGTCAGGTGGCTTATCGGCTGTATCAACGCGAAGCACAAGGAGAAAGT -GATGCTGATTAATATTGGTCGTTTGTTAATGCTCTGCGTTTGGGGATTTTTAATCCTCAACCTGGTGCATCCCTT -CCCACGCCCGCTGAATATCTTCGTTAACGTGGCGCTGATTTTTACCGTGCTGATGCATGGTATGCAGCTGGCGCT -ATTGAAATCCACTTTACCGAAAGATGGCCCGCAGATGACCACCGCCGAAAAGGTACGGATTTTCCTTTTCGGCGT -GTTTGAACTGCTGGCCTGGCAGAAGAAATTTAAAGTTAAAAAATAACCTTATTGTTCGCCTACAAAGCTGACAAA -GCGCGTTCCTTTATAGCTCAGCGTACCTTTATCGCCCACTGTCAGGGCGTGGTACTGCTGGGCGTCGAGGCGAAA -CGTCTGCTCCATTCCTCCGCTTTGCGGTTTGAAGCTTGCCTCATAGCGTATACTGGTGCCTGCCGGAGTCACTTC -CTGCTGGCGCGAACGGCGATCGTTAATCGGTTTTTCCCGCTTGTTGCTCACCACCACCAGCTTTTGCTGGAGCGG -AGCCATATCATTATCAGCTTTTTCCCGTCGCTGTTGCATAAAACGAAACGATGCGGCGACGACAATTAAGCCAAT -GATAACAATAAAGAAAAGAGGTGGTTTGCTCATCTTTATCCCTCATCGGAAAATGCGGAAATAAGCATACCCTGC -CAGTTATGGTGTTGTCATCCGTCCACCCTCGCCACTAAACTGGAAGCAAGACCGTAGGCATTCCGCTTACGAAAA -AATAACGAATTCAAGGAACTAAGATGCTTTGGTCGTTTATCGCTGTCTGTCTTTCCGCATGGCTATCTGTGGATG -CATCGTATCGTGGGCCAACCTGGCAACGCTGGGTGTTTAAACCGTTAACCCTTCTTCTCCTGCTGTTACTGGCCT -GGCAAGCGCCGATGTTCGACGCCATTAGCTATCTGGTGCTGGCAGGGCTGTGCGCCTCACTGCTGGGCGATGCGC -TAACCCTGTTGCCACGTCAACGTCTGATGTACGCCATCGGCGCGTTTTTCCTCTCGCACCTGCTGTACACCATCT -ATTTCGCCAGTCAGATGACGCTCTCTTTCTTCTGGCCTCTACCACTGGTGCTGCTGGTTCTGGGTGCGCTGTTAC -TGGCGATTATCTGGACGCGCCTGGAAGAGTACCGTTGGCCTATCTGCACGTTTATCGGCATGACGCTGGTGATGG -TGTGGCTGGCAGGTGAACTGTGGTTCTTCCGTCCGACCGCTCCGGCGCTCTCTGCGTTTGTTGGCGCTTCGTTGC -TGTTTATCAGTAACTTTGTCTGGCTGGGGAGCCACTATCGCCGACGCTTCCGTGCGGATAACGCGATTGCTGCGG -CCTGCTACTTTGCCGGTCACTTCCTGATCGTCCGCTCGCTGTATCTCTGATAAAACTTGACTCTGGAGTCGACTC -CAGAGTGTATCCTTCGGTTAATGAGAAAAAACTTAACCGGAGGATGCCATGTCGACTCCTGACAATCACGGCAAG -AAAGCCCCTCAATTTGCTGCGTTCAAACCGCTAACCACGGTACAGAACGCCAACGACTGTTGCTGCGACGGCGCA -TGTTCCAGCACGCCAACTCTCTCTGAAAACGTCTCCGGCACCCGCTATAGCTGGAAAGTCAGCGGCATGGACTGC -GCCGCCTGTGCGCGCAAGGTAGAAAATGCCGTGCGCCAGCTTGCAGGCGTGAATCAGGTGCAGGTGTTGTTCGCC -ACCGAAAAACTGGTGGTCGATGCCGACAATGACATTCGTGCACAAGTTGAATCTGCGCTGCAAAAAGCAGGCTAT -TCCCTGCGCGATGAACAGGCCGCCGAAGAACCGCAAGCATCACGCCTGAAAGAGAATCTGCCGCTGATTACGCTA -ATCGTGATGATGGCAATCAGCTGGGGTCTGGAGCAGTTCAATCATCCGTTCGGGCAACTGGCGTTTATCGCGACC -ACGCTGGTTGGGCTGTACCCGATTGCTCGTCAGGCATTACGGTTGATCAAATCCGGCAGCTACTTCGCCATTGAA -ACCTTAATGAGCGTAGCCGCTATTGGTGCACTGTTTATTGGCGCAACGGCTGAAGCTGCGATGGTGTTGCTGCTG -TTTTTGATTGGTGAACGACTGGAAGGCTGGGCCGCCAGCCGCGCGCGTCAGGGCGTTAGCGCGTTAATGGCGCTG -AAACCAGAAACCGCCACGCGCCTGCGTAAGGGTGAGCGGGAAGAGGTGGCGATTAACAGCCTGCGCCCTGGCGAT -GTGATTGAAGTCGCCGCAGGTGGGCGTTTGCCTGCCGACGGTAAACTGCTCTCACCGTTTGCCAGTTTTGATGAA -AGCGCCCTGACCGGCGAATCCATTCCGGTGGAGCGCGCAACGGGCGATAAAGTCCCTGCTGGTGCCACCAGCGTA -GACCGTCTGGTGACGTTGGAAGTGCTGTCAGAACCGGGAGCCAGCGCCATTGACCGGATTCTGAAACTGATCGAA -GAAGCCGAAGAGCGTCGCGCTCCCATTGAGCGGTTTATCGACCGTTTCAGCCGTATCTATACGCCCGCGATTATG -GCCGTCGCTCTGCTGGTGACGCTGGTGCCACCGCTGCTGTTTGCCGCCAGCTGGCAGGAGTGGATTTATAAAGGG -CTGACGCTGCTGCTGATTGGCTGCCCGTGTGCGTTAGTTATCTCAACGCCTGCGGCGATTACCTCCGGGCTGGCG -GCGGCAGCGCGTCGTGGGGCGTTGATTAAAGGCGGAGCGGCGCTGGAACAGCTGGGTCGTGTTACTCAGGTGGCG -TTTGATAAAACCGGTACGCTGACCGTCGGTAAACCGCGCGTTACCGCGATTCATCCGGCAACGGGTATTAGTGAA -TCTGAACTGCTGACACTGGCGGCGGCGGTCGAGCAAGGCGCGACGCATCCACTGGCGCAAGCCATCGTACGCGAA -GCACAGGTTGCTGAACTCGCCATTCCCACCGCCGAATCACAGCGGGCGCTGGTCGGGTCTGGCATTGAAGCGCAG -GTTAACGGTGAGCGCGTATTGATTTGCGCTGCCGGGAAACATCCCGCTGATGCATTTACTGGTTTAATTAACGAA -CTGGAAAGCGCCGGGCAAACGGTAGTGCTGGTAGTACGTAACGATGACGTGCTTGGTGTCATTGCGTTACAGGAT -ACCCTGCGCGCCGATGCTGCAACTGCCATCAGTGAACTGAACGCGCTGGGCGTCAAAGGGGTGATCCTCACCGGC -GATAATCCACGCGCAGCGGCGGCAATTGCCGGGGAGCTGGGGCTGGAGTTTAAAGCGGGCCTGTTGCCGGAAGAT -AAAGTCAAAGCGGTGACCGAGCTGAATCAACATGCGCCGCTGGCGATGGTCGGTGACGGTATTAACGACGCGCCA -GCGATGAAAGCTGCCGCCATCGGGATTGCAATGGGTAGCGGCACAGACGTGGCGCTGGAAACCGCCGACGCAGCA -TTAACCCATAACCACCTGCGCGGCCTGGTGCAAATGATTGAACTGGCACGCGCCACTCACGCCAATATCCGCCAG -AACATCACTATTGCGCTGGGGCTGAAAGGGATCTTCCTCGTCACCACGCTGTTAGGGATGACCGGGTTGTGGCTG -GCAGTGCTGGCAGATACGGGGGCGACGGTGCTGGTGACAGCGAATGCGTTAAGATTGTTGCGCAGGAGATAAGGC -AAACCGATCGCAACATTGAGCGCGATCGGTCCCCTCGCCCCTCTGGGGAGAGGGTTAGGGTGAGGGGAAAAGGCG -GCATCGAAGCCAATCAGCCCCTATCAACCGCCTTTACGAATCAAATAACGATAAGGCAGTCCATCCGTCTCTTTA -GCAACCAGTTCGTGTTCCATAAAGGTACAAAACCCAGGAATATCGCGGGTAGTGGCCGGATCGTCGGCGATAATC -AGCAACGTTTCGCCAGGCTGCATATTGCGCACGGTTTTGCGCACCATCATCACCGGTTCCGGGCAGCGCAGGCCA -AGCGCGTCGAGTGTGTGGTCAGGGCTGGAAAAGAGATCGGTCATTTTCTTCTCATCACTTAAAAAAACGGCGCTA -GTTTACGCCCTGTGAGTCCGTAAGCAAACTAGGTTAACGATTGCGTGAAAATTAACCATTGCATTGTCAACGTAA -AGCAGTATCATGCGGCGGCTCGAAAAAAGGGTAAGCACGTTATTATGTTAAGGTAACAGACGTGTCGTACGTATT -GGGTTCCCTCACCCCAATGGTTAATCAAAAAGGTACAATATGAACGTTTTCTCGCAAACTCAACGCTATAAGGCG -TTGTTCTGGTTATCGTTATTTCATCTGCTGGTGATCACCTCCAGTAACTATCTGGTTCAGCTTCCCGTCTCCATT -TTGGGTTTCCATACCACCTGGGGCGCGTTTAGCTTTCCGTTTATTTTTCTTGCTACCGACCTGACCGTGCGTATT -TTTGGCGCACCGCTGGCCCGACGCATTATCTTCGCGGTAATGATCCCTGCGTTATTAATCTCCTACGTCATCTCG -TCGCTATTCTATATGGGTTCCTGGCAGGGATTCGGCGCACTCGCCCACTTCAACCTGTTTGTCGCCCGTATCGCC -ACCGCCAGTTTCATGGCCTACGCGCTGGGGCAAATCCTCGACGTGCACGTTTTTAACCGCCTGCGTCAGAGTCGC -CGCTGGTGGCTGGCACCGACAGCGTCCACACTGTTCGGTAACGTCAGCGACACGCTGGCCTTTTTCTTCATTGCC -TTCTGGCGTAGCCCGGATGCCTTTATGGCTGAACACTGGATGGAAATCGCGCTGGTCGATTACTGTTTCAAAGTG -TTAATCAGTATCGTTTTCTTCCTGCCAATGTATGGCGTATTACTCAATATGCTGTTGAAAAGACTGGCAGATAAA -TCCGAAATCAACGCTTTGCAGGCGAGTTAAAGGTTCGTTATCAGAGTTGTGATAAGATGGATGAATGAGCCGTTA -TGGCCGTTTATCGAAAGGAAGAAGTCAATGCGCAATCTGGTTAAATATGTCGGAATTGGCCTGCTGGTTATGGGG -CTTGCGGCCTGTGATGATAAAGACACTAACGCTACGGCGCAGGGTTCGGTCGCGGAAAGTAACGCTACCGGGAAT -CCCGTCAACCTGCTTGATGGCAAGTTAAGTTTCTCGCTGCCAGCGGATATGACCGACCAGAGCGGTAAGCTGGGA -ACGCAGGCCAATAACATGCATGTCTGGTCCGACGCCACCGGGCAGAAAGCAGTCATCGTCATCATGGGCGATGAT -CCGAAAGAAGATCTGGCGGTGCTGGCGAAGCGTCTGGAAGATCAGCAACGTAGCCGCGATCCGCAGCTGCAAGTG -GTAACCAATAAAGCCATTGAGCTGAAAGGTCACAAAATGCAGCAGTTAGACAGTATTATCTCCGCGAAAGGCCAG -ACGGCGTACTCTTCCGTTATTCTGGGTAACGTGGGTAATCAACTGCTGACCATGCAAATTACGCTGCCCGCTGAC -GATCAGCAAAAAGCGCAGACCACCGCAGAAAACATCATTAATACGCTGGTTATTCAGTAAGTTTTAAGATGATGA -GGCGGCCTCAGGGACGTGTTCCGGAGGCCGTTTTTTTAATCGCCACGTCAGTAATAACGCGATTGCGACCAGTCC -CGCCGCCGCCAGATAAATCACCGGTACGCCCGCCCAGCTCATCACCAGCCCAGCCAGTGGTCCAGTCACGCCAAG -CGATAAATCCATAAATACGGTGTAAGTTGCCAGCGCCGCCCCCTGATTTTGCTGCGGAACCGCTTTTACCGCCAC -TACACCCAATGCCGGGAACACCAGCGAAAACCCGGCCCCCGCCAGTAAGACGCCGATTTTCGCCATCCACGGCAT -AGTCGCCACGCCAACCAGTAGCAGGCCGATTATCTCAACGCTAAAGCAAATCATCGCTACGTTTAAGCCACCGAT -ACGGTTAATGCCGTTAGGGAATAACAAACGCGTACCGACAAACGCACAGCTAAACAGCGTCAGCGCGAAAGCCGC -ACCGTCCCAACCTTTAGCGTCATAAAACAGCGTGATAAAGGTGGCGATGACGCCAAATCCGGCGGAAGCCAGTGC -CAGCGCCATACCGTACAGCCAGACGCGCCCAAGCACCGCGCGAAACGGCAGCGGTTTGCCTTTACTGGCTTTTAC -CGTCGGACGCGGGATCGCCAACAAAATGGCCACCAGCGCCACGCCCATAATGATTAACGCTAACGCCTGCAAGCC -GCCCCAGTGATAAAACACGACGCCTAACGGCGCACCCATCGCCATCGCCCCGTAAGTGACAATGCCGTTCCACGA -AATCACCCGCCCGATATGCAGCGAGCCAACCACGCCAACGCCCCATAGGGTCGATCCCGTTCCGGCAAAACTTTG -CCCAATCCCAAGGATGACGCGCCCCAGGCAAAGTAATAACAGGCTGATGACAGGCAGACTGGCGGTTAATCCTGC -CGTCAGATACCCCAGACCGCTCAAAAAGCAGCCGCATAAACCGAAGACGACAATCTTTTTGGGTCCCAGCGAATC -GGCGTAACGTCCGGCATGAGGGCGGCTCAGCAAGGTGGCGAAATATTGCAGGCTGATAACCAATCCTGCCCAGAA -GGCGCTAAAGCCCATCACATCATGGACATAGCCCGGTAATACAGCGAGCGGCAACCCGATGGTGAGGTAGCTGGC -GAAGTTAAACATGACTATAGAGACAATGCGCAAATTCAGGCGCAATCCGTTTAGCGCGGGTTCGGCTACGGGTTC -GGGCATGAGGATCACCACATTTTTACAACAGTGTTTCATTTTTACCACGTGCTGACGTGAAAATCAGCAGTAAGA -ATCAGAATATTGCTGGCGTGACTCCCGCTACACTTAATACAAAAAGTCACAAGGAAGCCCCAATGGAAACCCCTC -AACCCGATAAAACGGGCATGCACATTCTGCTCAAGCTGGCCTCGCTGGTAGTGATCCTCGCGGGCATTCACGCAG -CGGCAGATATCATTGTGCAGCTGTTACTGGCGCTGTTTTTTGCCATCGTCCTCAACCCGCTCGTCACCTGGTTTA -TTCGTCGGGGAGTACAACGCCCCGTTGCCATTACGATTGTAGTGGTGGTGATGCTGATCGCACTAACCGCGCTGG -TCGGCGTACTGGCGGCATCGTTTAACGAATTTATCTCTATGCTGCCGAAGTTTAATAAGGAGCTGACGCGCAAAC -TTTTTAAATTGCAGGAGATGTTGCCTTTTCTTAATTTGCATATGTCGCCGGAGCGAATGCTGCAGCGGATGGACT -CGGAAAAAGTGGTTACCTTCACCACAGCGCTAATGACCGGGCTTTCCGGGGCAATGGCGAGCGTGCTTTTGCTGG -TGATGACCGTAGTTTTTATGCTGTTTGAAGTGCGCCACGTCCCTTACAAAATGCGTTTTGCGCTGAATAATCCAC -AGATTCACATCGCGGGATTACACCGCGCACTTAAAGGCGTTTCGCACTATCTTGCATTGAAGACGCTACTCAGTT -TATGGACAGGTGTCATCGTCTGGCTGGGGCTGGAGCTGATGGGGGTGCAGTTTGCGCTGATGTGGGCAGTACTGG -CGTTTTTGCTCAACTACGTGCCCAATATCGGCGCGGTAATTTCCGCCGTACCGCCAATGATTCAGGTGCTGCTGT -TTAATGGTGTTTACGAATGTATTCTGGTCGGCGCATTGTTTTTAGTGGTCCATATGGTCATCGGCAATATTTTAG -AACCACGGATGATGGGCCATCGCCTGGGGATGTCCACCATGGTGGTATTTCTTTCATTGTTAATTTGGGGATGGC -TGCTCGGCCCGGTAGGGATGCTACTTTCGGTGCCATTAACCAGCGTGTGTAAAATCTGGATGGAAACCACCAAAG -GCGGTAGCAAACTGGCGATTTTACTGGGGCCGGGCAGACCGAAAAGTCGGTTACCGGGATGAGGCGACAAGTGAT -ACGATACGCACTTTCATTTTCCATTAAACGTTGGCCCTGATATGTATCGGATAGTTCTGGGGAAAGTTTCGACCT -TAAGCGCAGCTCCACTGCCACCGGGTTTACGCGAGCAAGCACCGCAAGGTCCACGACGCGAACGCTGGCTGGCGG -GGCGTGCATTGCTTTCGCACACGCTTTCCCCGCTACCGGAGATCATCTATGGCGAACAAGGCAAACCTGCATTTG -CGCCGGAAATGCCGCTATGGTTCAACTTAAGCCATAGCGGTGACGATATCGCCCTGCTGTTGAGTGATGAAGGCG -AAGTCGGCTGCGATATCGAAGTGATTCGCCCGCGCGCCAACTGGCGCTGGCTGGCGAACGCCGTATTCAGCCTCG -GGGAACACGCTGAGATGGACGCCGTGCATCCTGATCAGCAACTGGAAATGTTCTGGCGCATCTGGACGCGCAAAG -AAGCCATCGTTAAACAGCGTGGCGGCAGCGCCTGGCAAATCGTCAGCGTAGACAGCACCTATCACTCCTCGCTGT -CAGTCAGCCATTGTCAGCTTGAAAATTTAAGCCTTGCGATCTGCACCCCTACTCCCTTTACGCTCACCGCCGACA -GTGTGCAATGGATCGATTCAGTTAACTGATCCGCCCACCCGACTGCCCATCTATTGATCCAGAACAGGTAATCAG -TATGACGAATACTTAAAATCGTCATACTTATTTCCGCCATCTATTTTAATCCATTGGGGTTACCATGCTCTCCAC -ACTCCGCCGCACTCTATTTGCGCTGCTGGCTTGTGCGTCTTTTATCGTCCATGCCGCTGCACCAGATGAAATCAC -CACCGCCTGGCCGGTGAATGTCGGGCCACTAAACCCGCACCTTTACACGCCTAACCAGATGTTCGCCCAGAGCAT -GGTTTATGAACCATTGGTGAAATATCAGGCAGACGGTTCGGTGATCCCGTGGCTGGCAAAAAGCTGGACTCATTC -AGAAGATGGTAAAACCTGGACCTTCACCCTGCGTGATGACGTGAAATTCTCCAACGGTGAACCGTTCGATGCCGA -GGCGGCGGCAGAAAACTTCCGCGCAGTGCTCGATAACCGTCAACGTCACGCCTGGCTGGAGCTGGCAAACCAGAT -TGTTGATGTTAAAGCACTCAGTAAAACAGAGCTGCAAATTACCCTGAAAAGCGCCTACTATCCTTTCCTGCAAGA -ACTGGCCCTGCCCCGTCCTTTCCGTTTTATCGCTCCCTCGCAGTTTAAAAACCATGAAACCATGAACGGAATTAA -AGCGCCGATTGGCACCGGACCGTGGATTTTGCAGGAATCGAAACTGAATCAGTACGATGTCTTCGTCCGTAACGA -AAACTACTGGGGCGAAAAGCCAGCGATTAAAAAGATCACCTTTAACGTCATCCCGGACCCGACTACCCGCGCGGT -GGCGTTTGAAACTGGCGATATCGACCTGCTGTACGGAAACGAAGGGTTATTACCGCTCGATACCTTCGCCCGCTT -TAGCCAGAATCCGGCTTACCACACCCAACTGTCACAGCCGATCGAAACCGTGATGCTGGCGCTCAATACCGCCAA -AGCCCCCACCAACGAGCTGGCAGTACGTGAAGCTCTTAATTACGCGGTAAACAAAAAATCGCTGATTGATAACGC -GTTGTATGGCACCCAGCAGGTCGCCGACACCCTGTTTGCCCCTTCTGTGCCCTACGCCAACCTCGGCCTGAAACC -GAGCCAGTACGATCCGCAAAAAGCGAAAGCGTTGCTGGAAAAAGCCGGTTGGACGCTGCCTGCGGGCAAAGACAT -CCGCGAGAAAAATGGTCAGCCGCTGCGCATTGAACTTTCGTTCATCGGCACCGATGCGTTAAGCAAATCGATGGC -GGAAATCATTCAGGCTGATATGCGCCAGATTGGCGCAGATGTCTCGCTGATTGGCGAAGAAGAGAGCAGTATCTA -TGCTCGTCAGCGCGACGGTCGTTTTGGCATGATTTTCCACCGCACCTGGGGCGCGCCATATGATCCACACGCCTT -CCTCAGTTCAATGCGCGTACCGTCACACGCTGACTTCCAGGCACAGCAAGGATTAGCCGACAAACCGCTGATTGA -TAAAGAGATCGGCGAAGTGCTGGCGACCCATGACGAAACGCAACGTCAGGCGCTGTATCGCGACATTCTGACCCG -TCTGCATGACGAGGCGGTTTATCTGCCTATCAGTTACATCTCAATGATGGTGGTATCAAAACCGGAGCTGGGTAA -CATCCCCTACGCGCCGATCGCCACCGAAATTCCGTTCGAACAGATTAAACCGGTGAAACCTTAATGTTGCGTTAC -GTATTACGCCGCTTTCTGCTGCTGATCCCGATGGTGCTCGCCGCCTCGGTGATCATTTTTCTGATGCTGCGCCTC -GGTACCGGCGACCCGGCGCTCGATTATTTGCGTCTGTCTAACCTGCCGCCGACGCCGGAGATGCTGGCCTCTACC -CGCACCATGCTGGGACTGGATCAGCCGCTGTACGTCCAGTACGGCACCTGGTTGTGGAAGGCGCTGCATCTTGAC -TTTGGTATCTCATTCGCCAGCCAACGCCCGGTACTGGACGATATGCTGAACTTCCTGCCCGCCACGCTGGAACTT -GCAGGTGCGGCGCTGGTATTAATTCTGCTCACTTCCGTACCGCTCGGTATCTGGGCGGCGCGCCATCGCGACCGT -CTGCCGGATTTCGCCGTACGTTTCATCGCGTTTCTTGGCGTGTCGATGCCTAACTTCTGGCTGGCGTTTTTACTG -GTGATGGCGTTTTCGGTGTATCTGCAATGGCTACCCGCGATGGGTTACGGCGGCTGGCAGCACATCATTTTGCCT -GCGGTTTCCATTGCCTTTATGTCGCTGGCGATTAACGCGCGTTTACTGCGCGCCAGTATGCTGGACGTCGCCGGT -CAGCGTCACGTCACCTGGGCGCGTCTGCGCGGCCTGAACGACAAACAGACCGAACGTCGCCACATCCTGCGCAAT -GCCTCGCTGCCGATGATCACCGCCGTGGGGATGCATATCGGCGAACTGATTGGCGGGACGATGATTATCGAAAAC -ATCTTTGCCTGGCCGGGCGTCGGGCGCTATGCGGTGTCGGCGATTTTTAACCGTGACTATCCGGTGATCCAGTGC -TTTACGCTGATGATGGTGGTGGTTTTTGTGGTCTGTAATTTGATTGTCGATTTGCTCAACGCCGCGCTGGACCCG -CGCATTCGTCGTCATGAAGGAGCGCACGCGTGAACTTTTTCCTCTCTTCCCGCTGGTCGGTACGCCTGGCGCTGA -TCATTATCGCCCTGCTGGCGCTGATTGCGCTCACCAGCCAGTGGTGGCTGCCGTATGACCCACAGGCGATTGATT -TGCCGTCGCGCCTGCTTTCGCCGGATGCGCAGCACTGGCTGGGCACCGATCACTTAGGTCGCGATATTTTCTCGC -GGCTGATGGCAGCGACCCGCGTGTCGCTCGGTTCGGTAATGGCCTGCCTGCTGCTGGTGCTGACATTAGGGCTGG -TTATTGGCGGCAGCGCCGGGTTGATTGGCGGGCGCGTTGATCAGGCCACCATGCGCGTCGCCGATATGTTTATGA -CCTTCCCGACCTCGATTCTGTCGTTCTTTATGGTTGGCGTGCTCGGCACCGGGCTGACCAACGTAATTATCGCCA -TCGCCCTGTCGCACTGGGCGTGGTATGCACGCATGGTGCGCAGCCTGGTGATTTCACTACGCCAACGCGAGTTTG -TGCTGGCGTCACGGCTTTCCGGTGCGGGCCATGTGCGGGTGTTTGTCGATCATCTGGCAGGCGCGGTGATCCCTT -CGCTGCTGGTGCTGGCAACGCTGGATATCGGCCATATGATGCTGCACGTCGCGGGGATGTCTTTCCTTGGCCTCG -GTGTGACCGCGCCGACCGCCGAATGGGGCGTGATGATTAACGACGCGCGCCAGTATATCTGGACCCAGCCGCTGC -AAATGTTCTGGCCGGGGCTGGCGCTGTTTATCAGCGTGATGGCCTTTAACCTGGTGGGTGACGCACTGCGCGATC -ATCTGGACCCTCATCTGGTGACGGAGCACGCACACTAATGCCGCAACAGATTGAACTACGTAATATCGCGCTACA -GGCCGCGCAGCCGCTGGTACACGGTGTATCGTTAACCCTGCAACGCGGGCGCGTGCTGGCGTTAGTCGGCGGTAG -CGGCAGCGGGAAATCATTAACCTGCGCCGCAACGCTGGGCATTTTGCCCGCTGGCGTTCGCCAGACGGCGGGGGA -AATTTTAGCCGATGGCAAACCGGTTTCGCCTTGCGCCCTGCGCGGCATCAAAATTGCCACCATCATGCAGAACCC -GCGCAGCGCCTTTAATCCACTGCACACCATGCACACCCACGCGCGGGAAACCTGCCTGGCGTTAGGGAAACCCGC -CGATGACGCTACGCTTACCGCTGCCATAGAAGCGGTGGGGCTGGAAAACGCCGCGCGCGTGCTGAAGCTGTACCC -GTTCGAGATGAGCGGCGGCATGTTGCAGCGCATGATGATTGCGATGGCGGTGCTGTGTGAATCACCGTTTATCAT -CGCCGATGAACCGACCACCGACCTTGACGTGGTAGCACAGGCGCGCATCCTCGATCTGCTGGAAAGCATTATGCA -AAAACAAGCGCCGGGAATGCTGCTGGTGACCCATGATATGGGCGTTGTGGCGCGTCTGGCGGATGACGTGGCGGT -GATGTCTGACGGTAAGATTGTCGAACAGGGCGATGTAGAAACGCTGTTTAACGCCCCCAAACATACAGTGACGCG -CAGCCTGGTTTCCGCTCATCTCGCCCTCTACGGTATGGAGCTGGCATCATGACTTTACTTAACATCTCCGGCCTT -TCCCATCACTATGCGCACGGTGGATTTAACGGAAAACATCAACATCAGGCGGTGCTGAATAACGTTTCCCTGACC -CTGAAAAGCGGCGAAACCGTCGCCCTGCTGGGGCGCAGCGGCTGCGGGAAAAGTACCCTCGCGCGGTTGCTGGTG -GGTTTAGAATCGCCCGCGCAGGGGAATATTAGCTGGCGTGGCGAACCGCTGGCGAAACTCAATCGCGCCCAGCGT -AAAGCGTTCCGCCGCGATATTCAGATGGTATTTCAGGACTCCATCAGCGCCGTGAATCCGCGCAAAACCGTGCGC -GAGATCCTGCGTGAACCGATGCGCCACCTGCTATCACTGAAAAAATCCGAACAACTGGCGCGCGCCAGCGAAATG -CTGAAGGCGGTCGATCTCGATGACAGCGTTCTCGACAAACGCCCACCGCAGTTAAGCGGCGGCCAGCTCCAGCGC -GTCTGCCTGGCTCGCGCGCTGGCGGTCGAACCGAAACTACTGATTCTGGATGAAGCCGTTTCTAACCTTGATCTC -GTGTTACAGGCGGGTGTCATTCGCCTGCTGAAAAAGCTACAACAACAGTTTGGCACCGCCTGCCTGTTCATCACC -CACGACTTACGCCTGGTAGAACGCTTTTGCCAGCGGGTAATGGTTATGGACAACGGACAAATCGTCGAAACCCAG -GTGGTGGGAGAGAAATTAACCTTTTCCTCTGACGCCGGACGTGTGCTACAAAACGCGGTATTACCCGCATTCCCC -GTGCGCCGTCGCACCACAGAAAAGGTTTAACGCAAATGCAACGAGTCACCATCACGCTTGATGACGATTTACTGG -AGACGCTGGACAGCCTGAGCCAGCGTCGTGGTTATAACAACCGTTCCGAAGCTATCCGCGACATTCTGCGTAGCG -CCCTGGCGCAAGAGGCCACCCAGCAGCACGGCACGCAAGGTTTCGCGGTGCTGTCGTATGTGTATGAACACGAAA -AACGCGACTTAGCCAGCCGCATTGTCTCCACCCAGCATCATCACCACGACCTCTCCGTCGCCACGCTGCATGTGC -ACATCAACCACGACGACTGTCTGGAAATCGCCGTGTTGAAAGGTGACATGGGTGACGTGCAGCATTTTGCCGATG -ACGTTATCGCCCAGCGCGGCGTGCGGCACGGGCATTTGCAGTGCTTGCCGAAGGAAGATTGAGTCTATTATTGGG -TCCTTTGGTGAACGATCAACAAAGGGCCACTAGCACACCTGATTCCTCTCTAAATACCCTATCCGAACCTTCTCT -TTTGTAACGTTCTAAATATATTCCTAAAAATCTTCAATTCATTGTGACCACAAGTTTTTCTTCGCTTTTTCGTAT -GAAGATACTGTCATTAAAATAATAGAAAAGGATTTTACGATGAGCGGAAAACCGGCGGCGCGTCAGGGTGACATG -ACGCAGTATGGCGGTAGCATTGTTCAGGGTTCAGCCGGGGTACGTATTGGTGCCCCCACCGGCGTGGCCTGTTCG -GTGTGCCCCGGCGGAGTGACGTCCGGCCATCCGGTCAATCCCCTGCTCGGTGCAAAGGTCCTTCCCGGTGAAACC -GACATCGCCCTGCCCGGCCCGCTGCCGTTCATCCTCTCCCGCACCTACAGCAGTTACCGGACAAAAACGCCCGCG -CCGGTGGGGAGCCTCGGCCCCGGCTGGAAAATGCCTGCGGATATCCGCTTACAGCTGCGCGATAACACACTGATA -CTCAGTGATAACGGCGGCAGAAGCCTGTATTTTGAGCACCTGTTTCCCGGTGAGGACGGTTACAGCCGCAGCGAG -TCACTGTGGCTGGTGCGCGGCGGCGTGGCGAAACTGGATGAAGGTCACCGGCTGGCCGCACTCTGGCAGGCGCTG -CCGGAAGAACTCCGCTTAAGTCCGCATCGTTATCTGGCGACAAACAGTCCGCAGGGGCCGTGGTGGCTGCTCGGT -TGGTGTGAGCGGGTGCCGGAAGCGGATGAGGTGCTGCCTGCGCCGCTGCCGCCGTACCGGGTACTGACCGGGCTG -GTGGACCGCTTCGGGCGCACACAGACGTTCCACCGCGAAGCCGCCGGTGAATTCAGCGGCGAAATCACCGGCGTG -ACGGATGGTGCCTGGCGTCACTTCCGGCTGGTACTGACCACGCAGGCGCAGCGGGCAGAAGAAGCCCGGCAGCAG -GCCATTTCCGGCGGGACGGAACCGTCCGCTTTTCCTGATACCCTGCCGGGTTACACCGAATATGGCCGGGACAAC -GGCATCCGTCTGTCTGCCGTGTGGCTGACGCACGACCCGGAATACCCGGAGAATTTACCTGCCGCGCCGCTGGTG -CGCTATGGCTGGACGCCACGCGGCGAACTGGCGGTGGTGTATGACCGTAGTGGCAAACAGGTGCGCAGCTTTACT -TACGATGATAAATACCGGGGCCGGATGGTGGCGCACCGTCACACGGGCCGGCCGGAAATCCGTTACCGTTACGAC -AGCGACGGGCGGGTGACAGAACAGCTAAACCCGGCAGGCTTAAGCTACACGTATCAGTATGAGAAAGACCGCATC -ACCATCACCGACAGCCTGGACCGCCGTGAAGTGCTGCACACGCAGGGCGAAGCCGGGCTGAAGCGGGTGGTGAAA -AAGGAACACGCGGACGGCAGCGTCACGCAGAGTCAGTTTGACGCCGTGGGCAGGCTCAGGGCACAGACGGATGCC -GCAGGCAGGACAACAGAGTACAGCCCGGATGTGGTGACGGGCCTCATCACGCGCATAACCACGCCGGATGGCAGG -GCATCGGCGTTTTACTATAACCACCACAACCAGTTAACGTCAGCCACCGGGCCTGACGGGCTGGAATTGCGCCGG -GAATATGATGAATTGGGCCGTCTGATTCAGGAAACTGCCCCTGACGGCGATATCACCCGCTACCGTTATGATAAT -CCACACAGTGACTTACCCTGCGCAACGGAAGATGCCACCGGCAGCCGGAAAACCATGACGTGGAGCCGTTACGGT -CAGTTGCTGAGCTTCACCGACTGTTCCGGTTATGTAACCCGTTATGACCATGACCGCTTCGGGCAGATGACGGCG -GTGCACCGCGAGGAAGGGCTGAGTCAGTACCGCGCATACGACAGCCGTGGACAGTTAATTGCCGTGAAAGACACG -CAGGGCCATGAAACGCGGTATGAATACAACATCGCCGGTGACCTGACCGCCGTCATTGCCCCGGACGGCAGCAGA -AACGGGACACAGTACGATGCGTGGGGAAAGGCCGTCCGTACCACGCAGGGCGGGCTGACGCGCAGTATGGAATAC -GATGCTGCCGGACGGGTCATCCGCCTGACCAGTGAAAACGGCAGCCACACCACCTTCCGTTACGATGTACTTGAC -CGGCTGATACAGGAAACCGGCTTTGACGGCCGCACACAGCGTTATCACCACGACCTGACCGGCAAACTTATCCGC -AGCGAGGATGAGGGTCTGGTCACCCACTGGCACTATGACGAAGCAGACCGCCTCACGCACCGCACCGTGAAGGGT -GAAACCGCAGAGCGGTGGCAGTATGACGAACGTGGCTGGCTGACAGACATCAGCCATATCAGCGAAGGGCACCGG -GTGGCGGTGCATTACAGGTATGATGAGAAAGGCCGGCTGACCGGTGAGCGTCAGACGGTGCATCACCCGCAGACG -GAAGCACTGCTCTGGCAGCATGAGACCAGACATGCGTACAACGCGCAGGGGCTGGCGAACCGCTGTATACCGGAC -AGCCTGCCCGCCGTGGAATGGCTGACCTACGGCAGCGGTTACCTGGCAGGCATGAAACTCGGCGACACACCGCTG -GTGGAGTACACCCGCGACCGCCTGCACCGGGAAACGCTGCGCAGCTTCGGCCGTTATGAACTCACCACCGCTTAT -ACCCCTGCCGGGCAGTTACAGAGCCAGCACCTGAACAGCCTGCTGTCTGACCGCGATTACACCTGGAACGACAAC -GGCGAACTCATCCGCATCAGCAGCCCGCGCCAGACCCGGAGTTACAGCTACAGCACCACCGGCAGGCTGACCGGC -GTTCACACCACCGCAGCGAATCTGGATATCCGCATCCCGTATGCCACAGACCCGGCAGGTAACCGCCTGCCCGAC -CCGGAGCTGCACCCGGACAGCACCCTCAGCATGTGGCCGGATAACCGTATCGCCCGTGACGCGCACTATCTTTAC -CGGTATGACCGTCACGGCAGGCTGACAGAGAAAACCGACCTCATCCCGGAAGGGGTTATCCGCACGGATGATGAG -CGGACTCACCGGTACCATTACGACAGTCAGCACCGGCTGGTGCACTACACGCGGACACAATATGAAGAGCCGCTG -GTCGAAAGTCGCTATCTTTACGACCCGCTGGGCCGCAGGGTGGCAAAACGGGTGTGGCGGCGTGAACGGGACCTG -ACGGGCTGGATGTCGCTGTCACGGAAACCGCAAGTGACCTGGTACGGCTGGGACGGCGACCGGCTGACCACGATA -CAGAACGACAGGAGCCGCATCCAGACGATTTATCAGCCGGGGAGCTTCACGCCACTCATCAGGGTCGAAACTGCC -ACCGGTGAGCTGGCGAAAACGCAGCGCCGCAGCCTGGCGGATGCCCTTCAGCAGTCCGGCGGCGAAGACGGTGGC -AGTGTGGTGTTCCCGCCGGTGCTGGTGCAGATGCTCGACCGGCTGGAAAGTGAAATCCTGGCTGACCGGGTGAGT -GAGGAAAGCCGCCGCTGGCTGGCATCGTGCGGCCTGACCGTGGAGCAGATGCAAAACCAGATGGACCCGGTGTAC -ACGCCGGCGCGAAAAATCCACCTGTACCACTGCGACCATCGCGGCCTGCCGCTGGCGCTCATCAGCACGGAAGGG -GCAACAGCGTGGTGCGCAGAATATGATGAATGGGGCAACCTGCTGAATGAAGAGAACCCGCATCAGCTGCAGCAG -CTTATCCGGCTGCCGGGGCAGCAGTATGATGAGGAGTCCGGCCTGTATTACAACCGCCACCGCTATTATGACCCG -CTGCAGGGGCGATATATCACTCAGGATCCGATTGGACTGAAGGGGGGATGGAACCTGTATGGATATCAATTGAAT -CCGATATCAGACATCGACCCCCTGGGTTTATCTATGTGGGAGGATGCAAAATCGGGGGCATGTACTAATGGTCTT -TGCGGCACACTATCCGCTATGATAGGTCCAGATAAATTTGATTCTATAGATAGCACCGCATATGACGCCTTAAAT -AAAATAAATAGCCAATCTATTTGCGAAGATAAAGAGTTCGCTGGTTTAATATGTAAGGATAATAGTGGCAGATAT -TTCTCAACAGCACCTAACCGAGGAGAAAGAAAAGGATCATATCCATTCAATAGCCCTTGCCCTAATGGTACTGAG -AAAGTATCAGCTTATCATACTCATGGTGCAGATAGTCATGGAGAATATTGGGACGAAATATTTTCAGGTAAAGAT -GAGAAAATAGTTAAAAGTAAAGATAACAATATCAAGTCATTTTATTTAGGTACGCCCAGTGGTAATTTTAAAGCA -ATAGATAACCACGGGAAGGAAATAACAAACAGAAAAGGATTACCTAATGTCTGCAGAGTTCATGGTAATATGTAA -AAAAATATTGTTTAGGAACTGTGTCATTGTATCTTTGTTTGTTTTTACATACAACACATGGGCGCAGTGTAATAA -TAATATTAAAATAATGCGCAAGTATGAAAGTGAAGGTAAATATACCGTTAGAAATTTGGTTAAAAATAAAGCTAT -AGCATTGGAATTAGCTGAGATATATGTTAAGAATCGTTATGGACAGGATGCCGCAGAAGAAGAAAAACCATACGA -AATCACTGAGTTAACAACAAGTTGGGTTGTTGAAGGTACCATTCACTCAGACCAAATTGCTGGTGGGGTTTTTAT -TATAGAAATAGGCAAAAATGATGGGAGAATTCTGAATTTTGGCCACGGAAAATAAGTATGTAAGGATAATCAAAC -ATCGTGTGCGCTGATGGCAGAGTAGGTGGAGGACTCCAGACAGTCAAACGATAGAAAAAGATAGCCTTTATGGAG -GTTCCTGCAATGTCAAATACATACCAGAAAAGAAAGGCAAGTAAAGAGTATGGTTTATATAATAAATGTAAGAAA -CTAAATGATGATGAATTATTTCGCTTACTTGATGATCGCAATTCCTTGAAAAGGATTTCATCTGCCAGAGTATTA -CAGTTAAGAGGGGGGCAAGACGCTGTTAGATTGGCAATTGAATTCTGCACTGACAAAAATTATATCCGTAGAGAT -ATCGGAGCATTTATACTCGGGCAAATATAAATTTGCAAAAAATGCGAAGATAATGTTTTTAATATTTTGAACAAT -ATGGCATTGAATGATAAGAGTGCTTGCGTTCGAGCTACGGCAATCGAGTCAACGGCCAGGGAAAGATCATCAAAA -GTTCACTTTTTGCACTAAATAATTCGCATTTTATGTTTAAAAATTGAGATATTCCTTATTACCTGAAGCTGTTTT -TTATTGCTTATACATGATCAAATACTCCTTACCTAATTAAGGAGAACAAAATGGAACTTAAAAAATTGATGGAAC -ATATTTCTATTATCCCCGATTACAGACAAACCTGGAAAGTGGAACATAAATTATCGGATATTCTACTGTTGACTA -TTTGTGCCGTTATTTCTGGTGCAGAAGGTTGGGAAGATATAGAGGATTTTGGGGAAACACATCTCGATTTTTTGA -AGCAATATGGTGATTTTGAAAATGGTATTCCTGTTCACGATACCATTGCCAGAGTTGTATCCTGTATCAGTCCTG -CAAAATTTCACGAGTGCTTTATTAACTGGATGCGTGACTGCCATTCTTCAGATGATAAAGACGTCATTGCAATTG -ATGGAAAAACGCTCCGGCACTCTTATGACAAGAGTCGCCGCAGGGGAGCGATTCATGTCATTAGTGCGTTCTCAA -CAATGCACAGTCTGGTCATCGGACAGATCAAGACGGATGAGAAATCTAATGAGATTACAGCTATCCCAGAACTTC -TTAACATGCTGGATATTAAAGGAAAAATCATCACAACTGATGCGATGGGTTGCCAGAAAGATATTGCAGAGAAGA -TACAAAAACAGGGAGGTGATTATTTATTCGCGGTAAAAGGAACCCAGGGGCGGCTAAATAAAGCCTTTGAGGAAA -AATTTCCGCTGAAAGAATTAAATAATCCAGAGCATGACAGTTACGCAATCAGTGAAAAGAGTCACGGCAGAGAAG -AAATCCGTCTTCATATTGTTTGCGATGTCCCTGATGAACTTATTGATTTCACGTTTGAATGGAAAGGGCTGAAGA -AATTATGCGTGGCAGTCTCCTTTCGGTCCATAATAGCAGAACAAAAGAAAGAGCCAGAAATGACGGTCAGATATT -ATATCAGTTCTGCTGATTTAACCGCTGAGAAATTCGCCACAGCGATCCGAAATCACTGGCACGTGGAGAATAAGC -TGCACTGGCGTCTGGACGTGGTAATGAATGAAGACGACTGCAAAATAAGAAGAGGAAATGCAGCAGAATTATTTT -CAGGGATACGGCACATTGCTATTAATATTTTGACGAATGATAAGGTATTCAAGGCAGGGTTAAGACGTAAGATGC -GAAAAGCAGCCATGGACAGAAACTATCTGGCGTCAGTCCTTGCGGGGAGCGGGCTTTCGTAATCTTGCCCTGAAT -ACAGGACTGAGTATCAAAAAGCCGGTTAACTGAAACTGTCCAGGTTTTGGGGGTCAGTTCATAAACGCCTTATCC -GGCCTAAAAACAACTAAAATTCAATAAATTGCACCGATGCGTAGTCCCTATAAGCTTACGCATCGGGCAATTGTA -TTTACGCCATTGTCCCAATCGTCTTCCTGAATCGCAGCAGCGCAATGGTGAAAAATGCGCCGCCAATTGCCATCA -GCGTCAGAAACTGCGGCCAGACGATTTCGAATCCGGCACCCCGGTAGAGGATGGCCTGCGCGAGGCTAACAAAGT -GTGTCGTCGGCATGGTCAGCATAATGTCCTGCACCATCTGCGGCATACTTTCGCGCGGCGTGGAACCACCGGAAA -GCATTTGCAGCGGCAGCAGCACCAGAATCACCAGCAGCCCCAGTTGCGGCATTGAACGCGCTATCGTCCCCATAA -AAATGCCGATTGACGTGGTGGCAAACAGACTGAGCGCCACGCCCAGCATAAACAGCGGGATCGAGCCTTCAATCG -GTACGCCCAGTACACCTTTCACCATCAGCACCAGCGATAATCCCGATACCACCAGCACCACCAGCCCCATCGACC -AGATCTTCGCCATCATGATCTCAAACGGCGTTATCGGCATCACCAGTAAGTGTTCCACCGTGCCGTGTTCACGCT -CGCGGATCAGCGCCGATCCGGTCAATACAATCGCCAGCATGGTAATGTTGTTGATGATCGCCATCACCCCGCCAA -ACCACGCGGGATCGAGGTTCGGGTTAAAGCGCATCCGGGTTTCCAGCGATACCAACGGTTCGCTGTTATCACGGT -AGCGCGCGACAAAGCTGTTCACTTCACCGTTGATAATATTCTGGATATACCCATTGCCGGTAAATGCCTGGCTCA -TGCGCGTGGCATCGACGTTCACCTGAATATCCGGCTGGCGTCCGGCGAGGACATCACGCTGAAAATTAGGCGGAA -TATTTATCGCGAAGGTATAGCGTCCGGCGTCCAGTCCGGCATCCATCTCATCGGCGGTGATCATCTCCGGTGGCA -AAAACCACGGACGATAGAAGCTGTTAACGATCCGGTTCGATAACTGCGATTGATCCATATCGGCAATGGCGATCG -GCGCGAGGTTCAACGATCCTGGCGTAACGGTCGCTGACGAATACACCGACACCGTAAACGAGAAGACAATCAGCG -TCAGCATCGCTTTATCACCGAGCAGACTGCGCAACTCTTTGATACCCAGATTAAAAATATTGCGTAAATGGCGCA -TCATCCCTCCTGTTTTTTCAGCAGCAGGATACTTAAGCCCATCACCAGCGGGATGGCTATCAGTAACGGGATAAA -AAGTTGCCACAAATCAGTCAGATCCAGCGCTTTCGAGAACGTCCCGCGGGCGATAGTCAGAAAATGACTGGTCGG -GTAAACCTCGCCGATCCAACGTCCAGGCCCTTCCAGCGAAGCTACCGGATCGATCATCCCGGAAAACTGTGTCGC -CGGGATCAACGTGATAATCGCCGTTCCGAAAATGGCGGCAATCTGGCTTTTCATAAAGGTGGAGATCAGCAGCCC -CATTCCGGTGGCAATGATGATATACAGCAGCGCCGCCAGGGTGAGCGTCAGGAAACTGCCTTTATGCGGTACGCC -AAACACAAACACCGACAGGCCGCAGAGCAGGAAAAAGTTCAGCATCCCCAGCGCGATGTATGGCAACTGTTTACC -AAGCAAAAATTCACTACGCGTGGTGGGGGTCACGTAAAGGTTGATAATCGACCCAAGCTCTTTTTCCCGCACCAC -GCTAAGGGCGCTTAGCATTGACGGGATCATCATCAGCAGAAGCGGGATCACCGCCGGAACAATCGCTGGCAGGCT -TTTTACGTCCGGGTTATAGCGATAGCGCGTCTCAATATTCATCAGCCCGCTTTGGCTGGCGGGTGTCGATTGTCG -GCTCGCCACATCCTGTAACCAGCTCTGGTGCATGGCCTGCACGTAACCTTTTACCGTTTCAGCACGGCTCGGCAT -CGCTCCGTCGATCCAGACGCCGAGTTCCACAGGCGTACCACGCGCGATATCGCGCCCGAAATTGGGCGGGATCTC -AATCGCCACCGTGATATCGCCCGCACGCATCCGACGATCAAGCTCGTCATAACTGGTGAGCGGCGGCTGTTCGAT -AAAGTAACGGGAACCGGAGAGGTTGAGTGTCCACGCCTGGCTACTGACGGTCTGGTCGCGGTCGAGCACCGCAAA -GCGCAGGTTTTCCACATCCATACTGATGCCGTAACCCATTATCAGCATCAGGATCACCGTTCCCATCAGCGCCAG -CGTCGAACGTACTGGATCGCGTCGCAGTTCCAGCGCTTCGCGGCGGCTGTAGCTAAACAGACGGCGCAGGCTAAA -TCCCTGACGCGGCGCGTGGGTGGTGTCGTGTACCACGGGCGGCGCTTCGGCTTCGTTGCTCTGCCCTGCCGCTTC -CTGCAAATAGGCGATAAATGCCTCTTCCAGACTGGCGGCTCCGCGTTTCTCAACCAGTTCCTGCGGTGTACCGCT -GGCAAGCACTTTTCCGGCGTGCATCAGTGAGATGCGGTCGCAACGTTCCGCTTCGTTCATAAAGTGGGTGGAGAT -GAAGATAGTCACTTTGTCCTGGCGCGAGAGATCGACCATCAACTGCCAGAACATATCCCTCGCCACCGGATCGAC -ACCAGAAGTAGGCTCATCGAGGATTAACATCTCCGGGCGATGAATCACCGCCACCGCCAGCGAAAGCCGCTGGCG -AATGCCGAGCGGCAATGACTCCGGCAGAATATCTTCAACGTCGTTGAGCTTAAAACGCTCGCTCATTTCAGCCAC -TCTTGCGGGAATTTCCGCTTCCGGGATGTGAAACAAACGGGCATGTAACTCAAGGTTTTGCCGCACGGTGAGTTC -GTTATAGAGCGAAAACGCCTGCGACATATAGCCCACCCGACGGCGGGTATCGATATCTTTTGGATCAACCGGTTG -CCCGAACAGCCACGCCTCACCTTCGCTGGCGGGCAGCAGTCCGGTGAGCATTTTCATGGTGGTGGATTTACCGCA -GCCGTTCGAACCAAGAAAACCAAAAATCTCCCCGCGTGGAATGCGGAAATTAACGTGATCAACGGCAACGAAGGA -ACCAAAACGCATGGTCAGATCGCGCGCTTCGATGGCAATCTCTGCGTTTTCAGGTTGATACGGTGGGATCACTAC -CGCCTGATGCGCCTGGCGTTGCGCTTGCGGTAACAGATTTATAAATGCTTCTTCCAGCGTAGCGCTTTGCGTTTG -CTGCCGTAGCTCTTCGGCGCTGCCAGTTGCCAGCACTTCTCCGGCATTCATCGCTACCAGCCAGTCGAAGCGTTC -GGCCTCTTCCATATAGGCGGTGGCGACCAGCACGCTCATATTGCTCTGCCGCTGGCGAATACTGTCGATCAGATC -CCAGAACTGGGAGCGGGAGAGCGGGTCAACCCCCGTTGTTGGCTCATCAAGGATCAACAGTTCCGGGTCGTGGAT -TAACGCGCAGCACAGCCCAAGTTTTTGCTTCATCCCGCCGGAGAGTTTCCCTGCCGGACGATCGCGAAACGGTGC -TAACCCGGTGCTGGTCAGCAGCTCATTGATTCGCACTTCCCGCTCCGCTTTGTCGTGACCGAACAGGCGAGCGAA -AAAATCGACGTTTTCATACACCGACAAGGTGTGGTAGAGGTTTTTGCCCAGCCCCTGCGGCATCCAGGCGATGCG -CGGGCAGACGTCGCGGCGATGCTTCGGGTCGCGCATATCGCCGCCCAGCACCATCACATTGCCCTGTTCAATGAC -GCGGGCACCGGAAATCAACGACAACAAGCTCGACTTCCCGACGCCGTCCGGGCCAATCAGCCCGACCATACAGCG -GGCCGGAATATCGAGAGTGATATTGTTCAGCGCAACGGTTTTTCCATAATGCTGGCTCACGCCCGCCAGTTGCGC -GACAGGCGGGACGGGAACCAGTTCCAGATGCGTCATTGCGGCAACCTCACCACGAGGTCGTCAGGCCACGGAAGT -TCTTCATTCACCCGCACCCACGCTACGCCCGGCAAACCGGTTTTGACATATTCCAGATGCTGCTGGAGTAATTCC -GGTGGGATACGCGCTTTGACGCGGAACATCAGTTTCAGCCGTTCATCGCTGGTTTCGACGGTTTTTGGCGTGAAC -TGGGCGACACTGGCGACAAAACTGATGGTTGCAGGAATACGCAGATCTGGCGCGGCATCGAGGATCAGCCGGGCT -TCACCGCCCAGTTTCAGCGTGCCCGCCTGTTCGGTTGGCAGGAAGAAAGTCATATAGACGTCGCTGAGATCGACC -ATATTCAGCACCCGACCGCCTGCCGCCAGCACTTCGCCTGGCTCGGCAACCCGATACTGCACGCGTCCGTCACGC -GGGGCTTTCAGTTCGCTGTCATCGATATCTGCGGCAATGCGCCGTTCAGTGGCTTGTGCCGCTTCGACGCGGGTT -TGCGCCTGAATGATATTGGTGCGTGCCGCTTCTATAGCCGCTTTAGAAGCCGATACCTGAGCTTTCGCCGATTCC -AGCGCAGCTCGGGCGCTCTCAGCGGCGGCGCGATCGTCATCCAGCTGTTGCGCAGAAATAGCCCCTCGTTGGGCC -AGTGAACGGGAACGCGTATGACGTTTTGCTACGGAGTCCAGTTCTGCCTGGCGTTGATTAACCAGCGACTGTGCG -GCACGAGTTTCGCTTTGTCGTTGCTCCAGCAAAGCCTGCGCGGCAGCAACGGCGCTTTGTGCCTCTTTGATTTGC -GCGATGGCTTCCAGTCGCTGTTCCTGCAACACGCGAGTATCCATCTTCGCCAGCACTTCACCTTCGCGAACAAAC -TTGCCTTCTTTCACCAGAATGGTGTCGATACGCCCGGCAATTTTGCTGGCAATATCCACTTCCGTCGCTTCAATG -CGCCCATTACTGACAGCAAAGCCTTCCGGCACACCTGCCGGGCGCAACAGCCACCACGCCACGATAGCCGCCACC -GCCAGTAACCCGACAACCCACCACGCCAGATGGCGCTTACTCTTATCCATAATCGACCCGCCATAATCCCTGTAA -GCAAACGACGCGTGTTACAACTGCCGCCGAACGACGTTCAGCGGATTCTTCCATCCGGGATAAGAAGGAAACGGC -AAATACGACCAGCGCGCAGAGCATTGAGCGCCAACGGGGAAGGCTTAGTGAAAACGGGTAGTAATGTTGTCATCA -TCAGCATTCCTGGCCGTAAATGAAACACGCATACTCATAAGTGTGATCTATAAAACTGGCTGACAAAACGGTATC -CATCCTGTTGGATAGCGTTTCACGCCTGTTCAGTTGCAGGAACAGAGCATTCCTTTTTACGTTTTATCAACAGTC -TCAACCAGATAGTAACATTAATATTCATGTTGTCTATGGTTCAGAGCTGTAACATTGTGCGCCTTCTAATCAAAG -GCATAAGTCCATTTCTGTTTTTTTCATGCTGGTAAGACTTCCAGGGAGTGGTTATCTCAGGCCCTGCACCAGGGT -TAATTTGGCAATTATGCATGCTGAACATTCTTCCAGCATGTTTACTGTCACGGGCGTTAAGACCTAAAACTGTCC -CCGTTTCGCCTATGCGTTCTCTTCCACCATTTCCGTTATGTGCAACAACTTGATTTATACCTAACATTTGTGAAC -ATGCTAATAGTGCTTCAAGTTTAGGTCTGTAATCTGTCGAAACAGAAAAATAACGATTAAAGGATCGACAAGAGA -TAGCCCGGCTAGTTTTAAACTTTTTGCCATTAATTATAGCATGATGCTTTTTATTGATAATTGCCGCTAATTCGA -CCGGATCGAGAGCATTGGTCATTTCATCAATAGAGACTGTTATCGGTCCTATAATGTAACGTTTTCGCTGATCAT -CAAAAGTTATCCCATGATGATTTGCCATTATTTTGTATTTGGGGTCATAGAAACATACAGGATAATCTTTTATCC -CAGAGTAGGTATCCTCATCGAGTGGTTTCATACGCGTGAAGTTCTGCATATAGTTACCATTGCAATTCGTTTCAT -GATTTCCAGCTAATACATGAACATTTTCATTGATACTCATTATGCGTTTTAACAAATCGATGATAAATTGATCAC -CACAGATATTGCTAAATCGATCGCCGGTTTGGTCGCCCAGAAACGTACATGGCGTCACAGCGTCTTTATTAATAA -CTAAATAAGGCTGAAGACTTTCTAAAATAATGTCTCTTCTGTTCAGGATACTGATTATTGTATTAACATTAGTGT -TAAGTTGCTCATTAAAGTTCTCCCTTAGCAATACGTTGAGAACTTCATCTTCTATATTAAGCAACTGGCTAAGGA -AATTTTCTCCTTCAGCCATGATTCCCAAATGTCCCGTTGCGAAAAGCGCGAACAAAACTGCACCGACTGAGCCAT -CGGTATCACCAAAATAGGTTGGTCTGGTACTTGTGGGATCAACGGGTAAACAATTGGAGAAATAGATTCTGTCAG -CGAACTGGGGTTTTATCATTGTTTCGAATTTAATATCAGATACATTATATTGCGATATTTTCCAGTTCCAGATGG -GTTTGTACGACTCAGTAACTGCAACATCATTAGCATTATCATTTACTGTCATATTATTAAGTAAATAAACAATAC -TGCACCAATTAATATCGGTATTATCAAGAGAGCAACCGTAATTTTTGCTATTAATTGTCACAATAAACTGATAAT -TATTATTCCTACGTAGAATATGAGCACGCATGCCCGATAGCATACTATATTTTTCTGAATGATCCGTTTGTATGG -TAAATGAAATTTTGTCATCTTGAATAGATTGTTGGAACCGTTCTATTTGCCAATCATCTATTTTTTCCACAACCT -CACCGAGCATTGTCCTGGCAATACTTGATATATCATCACCTATACCATTTGCAATATACCCAAACAGTTCTTTAG -TGAAGTTGGTAACATGCTCTTGCACCATATCATTTGTTGCGATTGTCGTTGTACTGTCGTTAGTGCCTGCCACAG -TTCCAATTTTCATATTTTACCTCATATTATTTACCGCGAGGAATACATAGTTAACATTTTATCTTATGACATACA -CCTCATGTTCGATGGGAAAATAATTATATTTTGCACAAATCATTCAGCCTCAAAGCATAATATGAAATTTCTTAT -CTCATAGCAGAGAAAGTCCCTAAAGATTGTAGAGGCGTCATCAGAACATGCCTCTACAATCGATTAAGAAAACCT -ATGAAATACTGGCAGGATTAAAAAGACATACCACCGTATTCATGGAGTTTTAATGTAGTTGAAAACAACTAAGCC -CTGAGGAATAAATTATTTTATTATTTTTATCACGTGCTTCCTTCAGGGAATTTAGCCCCATAATACCATTATCAA -ATTGTTGATTATGATCTACCCCGGGCCCATGATGCCCATATTTTTGTCTAATGTATTTGCTGGGGTCTTCACCTT -TGAGTGTCTCCCCACATATGAAGATACGTTCACGTGCTGGTCTGAAATCAGTAGTGTTATCAAAATAATTAGCAT -ATACAGGTGTGGGTTTCAAAGTATTGCTTCGGATTAGATGGAATAGAGGATCATCCATGTGTTCTTTATGTTTTT -TATTAAAAATATTGGCTAATTCCTCAGGATCAGTAGGATTTTTCATCTGATTAAATGGAACCTGCAAAGCACCGA -GACAATAACATTTTTTTCTTCATCTCTTATTATTCCGTGATGACTGGTTAAAACTTGCCTTTCTGAGTCATAATT -ACAAACATCGAGCGTTTTAATTAAGTTATACGTATCACCGGCAGAGAGTTTATGATTTGCTAGTCGTGCAGTATA -GTTACCATTAAAATTGATTTCATGATTTCCAGCCAGAACGACGACATTTTTATTAATACGGCTATCTTTATTACC -CTCCATATTTCGCATAGAATTTAGCAAAGTAAGGATATATTTATCACCAAAAATAGTACTAAATCTATCGCCTGT -ATGATCCCCAAGGAAGATACAAGGGGTTATCGCATCGTCCTTTAAAAAAACATGTTGATGCAACTCATTCAAGAT -CATGTCTCTCGTATTTAATAAATCGTAGAGCACTTTATTATTTTTATGTTTGTATGCAGATGAAGCCATCTCTTC -GTGTTTTAATAATTCACATAATAAACTCCAACCCTTTTCCCTGATGCCTATATGCCCTGAAACGAGCAATGCATA -AAGTACAGCGCCTACTCTTCCATCTGTATCGCCAAAATAAGCCGTGTTGGCATTTTGTGGGTTAATCACACCACA -CTGTTTATAGAAGTCTATTTTTGAAAACACAGATTTAACATAGCTATCAAACTTTTCCTTAGTAAACGTCTCTTT -AGAGACATCCCAACGCCAGTCAGGTTTGAAATTACCACTAAGAAGAGTAAAGAAATTTCTCGCTATGATAGAAAG -CCCATCAACTTTATAAATTATATCTGATTTATCTCCAGAGGAATTAATAAAATAATAACCGCCCTTACACTCAAC -AGTAACGGTAATGGGAGACGATAATTTTAACACATGGTTATTGTCTGGTATAATTGTAAAGATAAACGTATCAGT -AGTATTGTCGGCGAATCTATTATATTCTTGAATATCTATAGAAGGTTCACTATTATAAAACCATACTTTCTCCAT -CTGGTGACTACGATCATTTACCTTCCAGTGACCATGTTGCAGGAAATAGATGATATGCAGGCCAAAATCGTTATC -TATTTGCGAATCATTATCCAGTTTATCAAATTCAACTATCTTTGCACGATGTGTTTTATCAACCTTGCCATGGTG -TTGATGACTGTTAACTTTATCTGAATGCTTATCTTGATGGCTTGAAGAGATGTTTCTAATCTGATTGTCAATTGC -TTTCATAAATAACCTGTGATATTTTTGAATTGTTTGTAACAAAATAAATGATACTTGTCTGAAAAACAGATTTAC -GACGATATAAAATAATAATACTTATATGTTCGCTGATTTTAAGCACCGAGACTATCCGGTCTTTTACCAAATAAT -GAAGAATAATCCCTCCCTGGAAGATAATTGTAAAAAACAACAGCATAAGAATTAATCTTAGGATAAATTTTTATT -TATCATGGCCTTTTGAACGCTGAAAAGTAGCGCTCTGCAAAGTAAACCCCGCTATAGTTATGCTATGCATTTGTC -TTTAATGATATCTCGTCATTATATTAACAGGATGAAATTATCATTAATGCATATTTCAATATTAGCAGGGATACC -TGAGGAGTTTAAAGTGAACATATATATCGGGTGGCTTTTCAAATTAATCCCTTTGATTATGGGCTTAATTTGTAT -CGCGTTAGGTGGCTTTGTGCTGGAAAGTTCAGGGCAAAGCGAGTATTTCGTCGCGGGTCATGTGCTGATTTCTCT -GGCGGCCATATGCCTGGCATTATTCACTACCGCATTTATTATCATTTCGCAGCTCACGCGCGGCGTTAATACGTT -TTACAATACATTGTTCCCCATTATTGGCTATGCGGGGTCAATTATCACCATGATATGGGGTTGGGCACTGTTAGC -AGGCAATGATGTGATGGCAGACGAGTTTGTCGCCGGCCATGTTATTTTCGGCGTTGGTATGATTGCCGCCTGTGT -ATCGACGGTGGCAGCGTCATCCGGTCACTTTCTGCTCATTCCCAAAAATGCAGCGGGGAGCAAGAGCGACGGAAC -ACCGGTACAGGCTTATTCTTCATTAATCGGTAACTGCCTCATTGCCGTTCCCGTTTTACTCACCCTGCTCGGTTT -CATTTGGTCTATTACGCTGTTACGTAGTGCTGACATAACTCCGCATTATGTCGCGGGTCACGTATTGCTTGGGTT -AACCGCAATCTGTGCCTGTCTAATTGGCCTTGTTGCCACAATTGTCCATCAAACACGTAATACGTTTTCAACTAA -AGAACACTGGCTGTGGTGTTATTGGGTTATTTTTCTCGGCTCAATCACGGTACTGCAGGGGATATACGTCTTAGT -CAGTTCCGATGCAAGCGCCCGACTGGCTCCCGGCATTATTCTTATTTGCCTCGGAATGATCTGTTACAGCATATT -CTCAAAAGTCTGGCTACTGGCACTGGTATGGAGACGTACCTGTTCGTTAGCCAACAGAATACCGATGATTCCCGT -CTTCACCTGCCTGTTTTGCCTTTTCCTGGCATCGTTTCTTGCGGAAATGGCGCAGACCGACATGGGATATTTTAT -TCCTTCGCGAGTTCTGGTCGGTTTGGGAGCGGTATGCTTTACGTTGTTCTCAATCGTTTCAATATTAGAAGCGGG -TTCTGCTAAAAAATAATTGCAACGTACCGGATAAAACCAGCGTTGACCATTTGCGTAACGCTGGTTTTTCTTAGG -CATCATGAAATAACGCAGCATTAATGCATAGTGGTTAAGTATAAAAAACAGCAAAGTTACTGTTTTTTTCAACCT -GTTCATATTTCATAAAGATCTGGCCACTGAGTGAGTTTTCAATCACCTTTCCATCCACCTTATATTAAGCATGGA -GGGTTTCAGTTCACGGGCTCATTAGAAAATAATCACAAGATAACCACTATCAAAATTAGCTCATTTTTAATGCGA -CTCTAATAATTTTCATCTTTAGGAAATAGGTCAGGACGACTTTGCTGCAATCAAATCCTGCGCACAAGCCCACGC -ACTCGACCACGCCCACTGGAAGTTATAGCCCCCCAGCCAGCCGGTGACGTCCATCACTTCGCCGATGAAGTACAG -CCCAGGCACTTTGCGCGCTTCCATCGTCCGTGAAGAGAGTTCGTTGGTGTCCACGCCGCCGAGCGTCACTTCGGC -AGTGCGATAGCCTTCAGTGCCGTTGGGTTGTACGCGCCAGTCGGTCAATGTGCTAATCAGTGCCTGTTGGTCACG -CACGTTGAGCTGTTTTAGCGAAACATCCGGGATTTGCCCGAGTTGCTGTAAGCGTTCAACCAACCGCTTCGGTAG -ATGAACCGCCAGTGTGTTTTTCAGGCTTTGATTCGGATGTGCGTTACGCTGCTCATTCAGGAAGGTTTCGAGGTC -CACATCCGGTAGCAGATTGATGCTGACAAATTCCCCCGGTTGCCAGTAGCTTGAAATCTGCAACACCGCCGGTCC -AGACAAGCCGCGGTGGGTGAAGAGTAAGTTCTCACGGAAAACGGTGCCGTTTTCAGCGGTAATCACGGAAGGCAC -CGCCACGCCCGCCAGCACCTGTAACTCTTCGAGCAACGGTTTATGCAGAGTGAATGGCACCAGACCCGCGCGGGT -CGGCAGCACGTTGAGGCCAAATTGTTCGGCAATCTTATAACCAAACGGCGACGCGCCCAGCCCCGGCATTGACAG -CCCACCAGTCGCGATGACCAGCTTTTCGCAACCGACAGTCATGCCGTTCAGATCAAGCGTGAAGCCTGTTTCATC -CTTCGCCACACTCAGCACTTCGCTACGCAATCTGAAGGTCACATTGCCCTTCTCGCACTCATCCACCAGCATGTC -GACAATCTGCTGCGCGGAGTCATCGCAGAAGAGTTGCCCTAACGTTTTCTCGTGCCAGGCGATGCCGTGTTTATT -GACCAGATCAATGAAATCCCACTGGGTAAAACGTGCGAGTGCAGACTTACAAAAATGCGGATTCTGGCTCAGATA -AGCGCCTGGTTCGACATAAAGGTTGGTAAAGTTGCAGCGCCCACCGCCAGACATAAGGATTTTGCGCCCTGGTTT -TTTACCATTATCGATCAGCAGAACCCGGCGTCCTGCCTGACCTGCCAGCGCAGAACAGAACATACCCGCCGCACC -AGCGCCTATAATAATGGCATCAAACCTTTCCACGTTGCGCTCCTCTTAGAAAAAACGGGCGTGAATTGTAAAGAT -TCCTCAGTGGTCGCACCAGCATCAATATTACTAAAAGGAAGTATTTGCCTGAATTATATAAGATAATTATTTTTT -GAGTGAAATCCATACAGGGGGCAAATCAAAAAAAGTCTATATTTCACTTTGCCCGCGCCGCGAAAGTCACTGATA -ATGCGCCGCGTTCATGTCCTCAAAATGGCGTAACGTCCTATGCTACATTTGTTTGCTGGCCTGGATTTGCATACC -GGGCTGTTATTATTGCTTGCACTGGCTTTTGTGCTGTTCTACGAAGCCATCAATGGTTTCCATGACACAGCCAAC -GCCGTGGCAACCGTTATCTATACCCGCGCGATGCGTTCTCAGCTCGCCGTGGTTATGGCGGCGGTATTCAACTTT -TTGGGTGTTTTGCTGGGTGGTCTGAGTGTTGCCTATGCCATTGTGCATATGCTGCCGACGGATCTGCTGCTTAAT -ATGGGATCGTCTCATGGCCTTGCCATGGTGTTCTCTATGTTGCTGGCGGCGATTATCTGGAACCTGGGTACCTGG -TACTTTGGTTTACCTGCATCCAGCTCTCATACGCTGATTGGCGCGATCATCGGGATTGGTTTAACCAATGCGTTG -ATGACCGGGACGTCAGTGGTGGATGCACTCAATATCCCGAAAGTATTAAGTATTTTCGGTTCTCTGATCGTTTCC -CCTATTGTCGGCCTGGTGTTTGCTGGCGGTCTGATTTTCTTGCTGCGTCGCTACTGGAGCGGCACCAAGAAACGC -GCCCGTATCCACCTGACCCCAGCGGAGCGTGAAAAGAAAGACGGCAAGAAAAAGCCGCCGTTCTGGACGCGTATT -GCGCTGATCCTTTCCGCTATCGGCGTGGCGTTTTCGCACGGCGCGAACGATGGTCAGAAAGGCATTGGTCTGGTT -ATGTTGGTATTGATTGGCGTCGCGCCAGCAGGCTTCGTGGTGAACATGAATGCCACTGGCTACGAAATCACCCGT -ACCCGTGATGCCATCAACAACGTCGAAGCTTACTTTGAGCAGCATCCTGCGCTGCTCAAACAGGCTACCGGTGCT -GATCAGTTAGTACCGGCTCCGGAAGCTGGCGCAACGCAACCTGCGGAGTTCCACTGCCATCCGTCGAATACCATT -AACGCGCTCAACCGCCTGAAAGGTATGTTGACCACCGATGTGGAAAGCTACGACAAGCTGTCGCTTGATCAACGT -AGCCAGATGCGCCGCATTATGCTGTGCGTTTCTGACACTATCGACAAAGTGGTGAAGATGCCTGGCGTGAGTGCT -GACGATCAGCGCCTGTTGAAGAAACTGAAGTCCGACATGCTTAGCACCATCGAGTATGCACCGGTGTGGATCATC -ATGGCGGTCGCGCTGGCGTTAGGTATCGGTACGATGATTGGCTGGCGCCGTGTGGCAACGACTATCGGTGAGAAA -ATCGGTAAGAAAGGCATGACCTACGCTCAGGGGATGTCTGCCCAGATGACGGCGGCAGTGTCTATCGGCCTGGCG -AGTTATACCGGGATGCCGGTTTCCACTACTCACGTACTCTCCTCTTCTGTCGCGGGGACGATGGTGGTAGATGGT -GGCGGCTTACAGCGTAAAACCGTGACCAGCATTCTGATGGCCTGGGTGTTTACCCTTCCGGCTGCGGTACTGCTT -TCCGGCGGGCTGTACTGGCTCTCCTTGCAGTTCCTGTAATCGTACGCACCAAAACGAGCGGGTCAGCTGGCCCGC -TTCAGATTGTGACATAGTGCGCTTTGTTCATGCCGGATGCGGCGTGAACGCCTTATCCGGCCTACAAAAACATGC -AAATTCAATAGATTGCAGAGATTATGTAGGCCTGATAAGCGTAGCGCATCAGGCAATTTTGCGTTTGTAATCAGT -CTCGAGCGGGTCAGTTTACTGGCCCGCTTTTTTTATGCGTTATTATTGCTGAAGTGCTTAATGCCAAATCATCAA -TGCAATCAGGCTGACCACCACCAGACCACACAATGCGCTGGTCAGAATAAACTGCCGACGCACCCGCTCACAGCG -GCGAATAAATTCATCATCGTGATGATCGCGATAACGTTGGGCATAGATATACCAAACGAGACGCACCTGTTTGTT -GGGTTGGCCATGTGAGGTAAAAAAGCCCCCTCCATCAACATATTGATAGAGCAATGGATCGCAGTTACGCAGTAC -CACTAACAACGCGCGTAGTGATGAGAAATAGCGCGCCATGTTAACAATGCAAACGACACATAAAGCCCAAAATAA -TGCGACGGTGCTTATCATACCTCCTCCCCGGCGACCTGCCCGCGGAGTTCCACCCCGGGGCTACCGCTCCCGATA -CGCTGCCAATCAGTTAACACCAGGTCCTGGAGAAACCGCTTTTGTGGTGACCAACATACGAGCGGCTCTATAGAT -AGTGTAGGAGATCAGGTTGTTTTTTTTCCAGAAGGTTAACCACTATCAATATATTCATGTCGAAAATTTGTTTAT -CTAACGAGTAAGCAAGGCGGATTGACGGATCATCCGGGTCGCTATAAGGTAAGGATGGTCTTAACACTGAATCTT -TACGGCTGGGTTAGCCCCGCGCACGTAGTTCGCAGGACGCGGGTGACGTAACGGCACAAGAAACGCTAGCTGGCC -AGTCATCGACAACTTTATGGAAGGAGTAACACTATGGCTTATAAACACATTCTCATCGCGGTCGACCTCTCCCCG -GAAAGCAAAGTTCTGGTAGAGAAAGCAGTCTCTATGGCTCGCCCCTACAATGCGAAAGTTTCTCTGATCCACGTA -GATGTAAACTACTCTGACCTATACACCGGGCTTATTGATGTGAATCTGGGTGATATGCAGAAACGCATCTCTGAA -GAGACACATCATGCACTGACCGAGCTTTCCACTAATGCAGGCTACCCAATCACTGAAACCCTGAGCGGCAGCGGC -GACCTGGGCCAGGTTCTGGTCGATGCAATCAAGAAATACGATATGGATTTGGTGGTTTGTGGTCACCACCAGGAC -TTCTGGAGCAAACTGATGTCTTCCGCACGTCAGCTGATCAACACCGTTCACGTTGATATGCTGATTGTTCCGCTG -CGCGACGAAGAAGAATAATCTTCCCTCTACGACGTGTTCCTGAACGCCCGCATATGCGGGCGTTTTGCTTTTTGG -CGCGCCTTGTTACCTGATCAGCGTAAACACCTTATCTGGCCTACGGTCTGCGTACGCAATCAAAATCCCCAGCCA -ATACAACATTTAACACCATCATATTTTCCATCATTAGTGTGATCATCTGGTTATTTTCTGTTGTAATAGTGTATT -AATCTATTCACCGCATCAATATTAAGAATCTCTGACAGATGTAAACTTTTTCGCGCGTTATCCCTTACGCGTTCA -TACTTTTCAGGATGGTATTGGAAGGTTAATAAATATGAATACAACAACACCCATGGGGATGCTGCAGCAACCTCG -CCCATTTTTCATGATCTTTTTTGTCGAGTTATGGGAGCGATTCGGCTACTACGGCGTGCAGGGCGTACTGGCGGT -TTTCTTCGTTAAACAGCTTGGATTCTCGCAAGAGCAGGCTTTTGTCACTTTTGGTGCTTTTGCTGCGCTGGTCTA -TGGCCTCATTTCCATTGGCGGCTATGTCGGCGACCACCTGCTGGGGACCAAACGCACCATTGTTCTTGGAGCACT -TGTGCTGGCGATTGGCTACTTCATGACCGGCATGTCGCTACTTAAGCCTGACCTGATTTTCATCGCCCTGGGGAC -TATCGCTGTCGGTAACGGCCTGTTTAAAGCTAACCCAGCCAGCTTGCTTTCGAAGTGCTATCCGCCGAAAGATCC -GCGGCTTGATGGCGCATTCACCCTGTTCTATATGTCGATCAACATCGGCTCGTTGATAGCGTTATCGCTGGCCCC -TGTGATCGCTGATAGATTCGGTTATTCAGTCACCTACAACCTGTGCGGGGCGGGGTTAATTATCGCATTACTGGT -TTACATCGCCTGTCGTGGAATGGTGAAAGACATTGGTTCTGAACCCGACTTCCGGCCAATGAGCTTCAGCAAACT -GTTGTACGTGTTACTTGGCAGCGTGGTGATGATCTTCGTATGCGCATGGCTGATGCACAACGTAGAAGTCGCCAA -TCTGGTGCTGATTGTTCTCTCCATCGTCGTCACCATCATCTTCTTTCGTCAGGCATTCAAGCTGGATAAAACCGG -GCGCAATAAAATGTTTGTCGCCTTTGTCCTGATGCTCGAAGCGGTGGTGTTTTACATTCTCTACGCCCAGATGCC -AACATCGCTGAACTTCTTTGCCATCAACAACGTGCATCATGAAATTCTCGGTTTTTCCATCAACCCGGTCAGCTT -CCAGGCGCTTAACCCGTTCTGGGTGGTACTCGCCAGCCCAATACTGGCAGGCATTTACACGCATCTGGGTAACAA -AGGCAAAGACCTCTCGATGCCGATGAAATTTACTCTCGGCATGTTTATGTGCTCACTGGGCTTTTTGACGGCGGC -AGCTGCGGGAATGTGGTTTGCGGATGCACAAGGGCTGACATCGCCATGGTTTATCGTGCTGGTGTACTTATTCCA -GAGCTTAGGTGAACTGTTTATTAGCGCCCTTGGCCTGGCGATGATTGCTGCCCTGGTGCCGCAGCATTTGATGGG -CTTTATTCTCGGGATGTGGTTCCTGACGCAGGCTGCCGCGTTCTTGCTGGGCGGCTATGTGGCAACATTTACCGC -GGTGCCGGACAACATTACCGATCCGCTTGAGACGTTGCCCGTCTATACCAACGTGTTTGGTAAGATTGGTCTGGT -CACGCTGGGCGTTGCAGTAGTGATGCTGTTGATGGTGCCGTGGCTGAAACGCATGATTGCGACGCCGGAAAGCCA -TTAATTATTCTTGCAGAAAGCAGGGTAGCGTTATCGCTACCCTGTTTTAGTTTTACACTGGCGTACCTGCATAGA -TATCAAAGCGATGCCCTTTAGTGACTACCGCGTTTGGCGTGGCGACATTCGCCAGCGGTGGCGCGTAGTCCGGGC -GCTTTACCACCACGCGTTTGGTCGCCAGCAAGCGTGCAGGCTCCAGTAATCCATCGGCATCAAGATCCGGTCCCA -CCAGCGACTGAAAGACACGCATCTCTTTTTTCACTAGCGCGCTTTTCTGCTTATGCGGGAACATCGGGTCGAGAT -AAACCACCTGCGGGCGCGGGGTAATATCAGTCAGCGCCGTCAGGCTGGAGGCGTGAATTAACTGCAACCGCTCCT -GCAACCAGCCGCCGATTTCCGCATCCGCATAACCACGCGCCAGGCCGTCGTCGAGTAGCGCGGCAACCACTGGAT -TACGCTCCAGCATCCGCACGCGGCAGCCGACTGAAGCCAGTACAAAGGCATCGCGCCCAAGTCCTGCAGTGGCAT -CCACCACATCCGGCAAATAATCGCCTTTAATGCCCACCGCTTTCGCCACCGCCTCACCGCGACCACCGCCGAATT -TGCGTCGGTGCGCCATCGCTCCGCCAACAAAATCAACAAAGATGCCGCCAAGTTTTGGCTCATCACGCTTGCGCA -ATTCCAGATGTTCCGGCGTTAACACCAGCGCCATCAGGTTGTCTTCATCGTGCTCCAGCCCCCAGCGGGCCGCCA -GAACAGATAAGGCACCGTCTCCGGTGCCTGTTTCATCAATTAAGCAGATTTTCACTGAATGATCAGCCCTTAATG -CCGTAATGCTCCAGCATCGCATCCAGCTGCGGTTCACGACCACGGAAGCGTTTGAACAGATCCATCGGCTCTTCT -GAACCGCCACGGCTCAGAATGTTGTCGAGGAACGACTGCCCGGTTTCACGGTTGAAAATGCCCTCTTCCTCAAAG -CGCGAGAAAGCATCTGCCGCCAGTACGTCAGCCCACAGGTAGCTGTAGTAACCTGCGGCATAACCACCGGCGAAA -ATATGGCTGAAAGCGTGCGGGAAACGGCCCCAGGACGGAGATGGCACCACGGCAACCAGTTTCTTGATTTCTGCC -AGAGTTTCGAGGATTTTTGCCCCCTGATCCGGGCGGAACTCGGCATGAAGGCGGAAATCAAACAGGCCGAACTCC -AGCTGACGCAGAATAAACAGCGCCGCCTGGTAGTTCTTCGCCGCCAGCATTTTATCCAGCAACTCTTTCGGCAGC -GGTTCGCCGGTTTCATAGTGACCAGAGATAAACGCCAGCGCCTCCGGCTCCCAGCACCAGTTTTCCATAAACTGA -CTCGGCAGTTCGACCGCATCCCACGGCACACCGCTGATACCGGAAACACCAGCGGTTTCGATGCGGGTCAGCATA -TGGTGCAGGCCGTGACCGAACTCGTGGAAGAGGGTGATCACTTCGTCGTGAGTGAACAGCGCCGGTTTACCATTT -ACCGGGCGGTTGAAGTTACAAGTCAAATACGCGACCGGTTTTTGCAAAGAACCATCAGCTTTACGCATCTGGCCT -ACGCAGTCATCCATCCACGCCCCGCCGCGCTTGTTTTCACGGGCATACAGATCGAGGTAGAAGCTACCGCGCAGT -TCGTTATTTTCGTCATACAGTTCGAAGAAACGTACATCCGGATGCCAGACATCAACATCTTTACGCTCTTTAGCG -GTGATGCCGTAAATACGCTTAACCACTTCAAACAGGCCGTTAACCGCTTTGTTTTCCGGGAAGTACGGACGCAGC -TGTTCGTCACTGATGCTGTAGAGGTGCTGTTTTTGTTTTTCGCTGTAGTAAGCGATATCCCACGGCTGCAACTCA -TCGACGCCAAATTCGGCTTTGGCAAAGGCACGCAATTGCGCCAGCTCTTTTTCGCCTTGTGGACGCGCGCGTTTT -GCCAGATCGGTTAAGAAATCCAGCACCTGCTGCGGGTTTTCTGCCATTTTAGTGGCAAGGGATTTAAAGGCGTAG -TTTTCAAAGCCCAGCAGTTGCGCCAGTTCGTGACGCAGCGCGAGGATCTCTTCCATCACCTTGCTGTTATCCCAT -TTACCGGCGTTTGGGCCTTGATCGGAGGCGCGGGTGCTGTAAGCGCGATACATCTCTTCACGCAGAGCCTGGTTG -TCGCAGTAGGTCATTACCGGCAAGTAGCTTGGGATATCCAGCGTCAGCAAATAACCTTCCAGCTCTTTCGCTTCG -GCCTGGGCTTTTGCCGCAGCCAGCGCGCTTTCTGGCATCCCCGCCAGCTCCGCTTCGTCGGTAACGAGTTTGGTC -CAGCCCATTGTCGCATCGAGGACGTTGTTGCTGTACTGGTTGCCCAGTTCAGAAAGACGGGTCGCAATTTCGCCG -TAACGCTGCTGTTTCTCTTTCGGCAGACCTATGCCAGAGAGTTCAAAGTCGCGCAGTGCGTTATCAACCGCTTTC -TTCTGCGCCGTGTTCAGCGTGGCGTAATGATCGCCATCGCGCAGGTCGCGATACGCTTTATACAGCCCTTCATGT -TGCCCTACCCAGGTGCTGTATTCCGACAGCAGCGGCAGGGTTTGTTCGTAGGCTTCACGCAGTTCCGGGCTATTT -TTCACCGAGTTCAGGTGGCTGACCGGGGAGAAGATACGCCCCAACACATCGTCCACTTCCGCCAGCGGCTGGCAG -AGATTTTCCCAGGTGTACGGTGCCCCTTGCGCTACTACGCGCTCCACGTTTTCGCGGCAGTCGTTCAATGCCTTA -GTCACGGCTGGAACGACATGTTCCGGGAGAATTTTAGAAAACGGAGGCAATTCAAAGGGAGTCAGTAACGGATTC -GTCATTCGCGCAGTCCTGGTTAAAGAGGTTAAGGAAGCGCTCAACAGGCGCTTTACATAATGTGTGTAGCATGGG -GTTAAGTGTAGTGAATTTCAATGAGAAACGTTACGCTTTCGCGGCGGCGGCCTCTTTTCGGTATACTGTCCTGAT -ACGCTTTTGTGCGCCCCGAATACGGGCCGATTTTTACTTACCGGAACACCTTTACCCATGCTCAGTTATCGCCAC -AGCTTTCACGCTGGCAACCACGCCGACGTCCTTAAACATACCGTTCAGAGCCTGATCATCGAGTCGCTGAAAGAG -AAAGATAAACCGTTTCTCTATCTCGACACCCACGCAGGGGCCGGGCGTTATCAGTTAGGCAGCGAACATGCCGAG -CGTACCGGCGAATATCTCGAAGGCATCGCCCGTATCTGGCAGCAGGACGATTTGCCCGCAGAACTGGAGGCGTAC -ATCAATGTGGTAAAACACTTCAACCGTAGCGGTCAGTTGCGTTACTACCCCGGTTCGCCGTTGATTGCTCGCCTG -CTACTGCGTGAACAGGACAGCCTGCAACTGACCGAACTGCACCCGAGCGATTACCCGTTGTTGCGTTCTGAATTT -CAGAAAGATAGCCGTGCGCGTGTCGAAAAAGCCGACGGTTTCCAGCAGCTTAAGGCCAAACTGCCGCCGGTTTCC -CGCCGTGGTTTAATCCTTATCGACCCGCCGTATGAAATGAAAACTGACTATCAAGCGGTGGTCAGCGGGATAGCA -GAAGGTTACAAACGTTTCGCCACTGGTATTTACGCACTGTGGTATCCGGTGGTGCTGCGTCAGCAAATTAAGCGC -ATGATCCACGATCTGGAAGCGACCGGTATTCGCAAAATTCTGCAAATTGAACTGGCGGTACTGCCAGACAGCGAT -CGCCGTGGCATGACCGCTTCCGGCATGATTGTGATTAACCCGCCGTGGAAACTGGAACAACAGATGAATAACGTG -CTGCCGTGGCTGCACAGCAAACTGGTTCCGGCAGGCACCGGGCACGCCACCGTAAGCTGGATCGTGCCGGAGTAA -TTGCAGCCATTGCTGGCACCTATTACGTCTCGCGCTACAATCGCGGTAATCAACGATAAGGACACTTTGTCATGA -CTAAACACTATGATTACATCGCCATCGGCGGCGGCAGCGGCGGTATCGCCTCCATCAACCGCGCGGCTATGTACG -GCCAGAAATGTGCGCTGATTGAAGCCAAAGAGCTGGGCGGCACCTGCGTAAATGTTGGCTGTGTGCCGAAAAAAG -TGATGTGGCACGCGGCGCAAATCCGTGAAGCGATCCATATGTACGGCCCGGATTATGGTTTTGATACCACTATCA -ATAAATTCAACTGGGAAACGTTGATCGCCAGCCGTACCGCCTATATCGACCGTATTCATACTTCCTATGAAAACG -TGCTCGGTAAAAATAACGTTGATGTAATCAAAGGCTTTGCCCGCTTCGTTGATGCCAAAACGCTGGAGGTAAACG -GCGAAACCATCACGGCCGATCATATTCTGATCGCCACAGGCGGTCGTCCGAGCCACCCGGATATTCCGGGCGTGG -AATACGGTATTGATTCTGATGGCTTCTTCGCCCTTCCTGCTTTGCCAGAGCGCGTGGCGGTTGTTGGCGCGGGTT -ACATCGCCGTTGAGCTGGCGGGCGTGATTAACGGCCTCGGCGCGAAAACGCATCTGTTTGTGCGTAAACATGCGC -CGCTGCGCAGCTTCGACCCGATGATTTCCGAAACGCTGGTCGAAGTGATGAACGCCGAAGGCCCGCAGCTGCACA -CCAACGCCATCCCGAAAGCGGTAGTGAAAAATACCGATGGTAGCCTGACGCTGGAGCTGGAAGATGGTCGCAGTG -AAACGGTGGATTGCCTGATTTGGGCGATTGGTCGCGAGCCTGCCAATGACAACATCAACCTGGAAGCCGCTGGCG -TTAAAACTAACGAAAAAGGCTATATCGTCGTCGATAAATATCAAAACACCAATATTGAAGGTATTTACGCGGTGG -GCGATAACACGGGTGCAGTGGAGCTGACACCGGTGGCAGTTGCAGCGGGTCGCCGTCTCTCTGAACGCCTGTTTA -ATAACAAGCCGGATGAGCATCTGGATTACAGCAACATTCCGACCGTGGTCTTCAGCCATCCGCCGATTGGTACTG -TTGGTTTAACGGAACCGCAGGCGCGCGAGCAGTATGGCGACGATCAGGTGAAAGTGTATAAATCCTCTTTCACCG -CGATGTATACCGCCGTCACCACTCACCGCCAGCCGTGCCGCATGAAGCTGGTGTGCGTTGGATCGGAAGAGAAGA -TTGTCGGTATTCACGGCATTGGCTTTGGTATGGACGAAATGTTGCAGGGCTTCGCGGTGGCGCTGAAGATGGGGG -CAACCAAAAAAGACTTCGACAATACCGTCGCCATTCACCCAACGGCGGCAGAAGAGTTCGTGACAATGCGTTAAA -TGTTAAAGGGCTAAGAGTAGTGTGCTCTTAGCCCTTAATTACGTTTCCGCTATCAGTTCAGAAGCTGAAGCAGAA -AGCGGATCAGTTCCAGCAGCGCAATTAACGCCCCTAGAACGATGATTGCTTTATCAATCACCCGTTTTCTCCATG -CGATGGAGTGAGAATGCATCCGCTTACTCATCCACTGCCTGTCACGGCGCATGTCTCATTGTTAGATAAGAACTC -TCTCACTCCGGCCAGAGCATCAGTTAACGGCACCACCCGTACTTCTGACCAGGACTTTGAAAGCGTTTATGCGCA -TTGCCAGAGTGAAAATGCCTCAGAGCTAACTGGATAATCATACAGTACATGCAGGTTATAAAACCAGCACGTCCT -TGCAATAGTTTCAGTATGGTATTAGCATTGATGCGTTAGATGATGGCTATCTCACTCCAGTCAGAGCCACCAACT -CAGGGCTGGAAAGTAAAAAACCGACGCAAAGTCGGTTTTTTTACATCCGGATTCGGACAAGGCTTAATATGACGA -TGACCCAGTGAAAGTATATAAATCGTCACTGCGATATATACCGAAGTGCTCCCTCCGCCAGCTGAAGAAATCGCT -AATTCTTGCAATGTTAGCCACTGGCTAATAGTATTGAGCTGTTAGATAAGAACTCTCTCACTCCAGCCAGAGCCA -CCAACTCAGGGCTGGAAAGTAAAAAACCGACGCAAAGTCGGTTTTTTTACGTCCTGATTCAGACCTCCTTTCAAA -TGAATAGCCAACTCAAAATTCACACCTATTACCTTCCTCTGCACTTACACATTCGTTAAGTCATATATGTTTTTG -ACTTATCCGCTTCGAAGAGAGACACTACCTGCAACAATCAGGAGCGCAATATGTCATTTCTGTTACCCATCCAAT -TGTTCAAAATTCTTGCTGATGAAACCCGTCTGGGCATCGTTTTACTGCTCAGCGAACTGGGAGAGTTATGCGTCT -GCGATCTCTGCACTGCTCTCGACCAGTCGCAGCCCAAGATCTCCCGCCACCTGGCATTGCTGCGTGAAAGCGGGC -TATTGCTGGACCGCAAGCAAGGTAAGTGGGTTCATTACCGCTTATCACCGCATATTCCAGCATGGGCGGCGAAAA -TTATTGATGAGGCCTGGCGATGTGAACAGGAAAAGGTTCAGGCGATTGTCCGCAACCTGGCTCGACAAAACTGTT -CCGGGGACAGTAAGAACATTTGCAGTTAAAAATTTAGCTAAACACATATGAATTTTCAGATGTGTTTTATCCGGG -AGGCATTATGTTACTGGCAGGCGCTATCTTTGTCCTGACCATCGTATTGGTTATCTGGCAGCCGAAAGGTTTAGG -CATCGGCTGGAGTGCAACGCTCGGCGCAGTACTGGCGTTAGTTACGGGCGTGGTCCATCCGGGTGATATTCCGGT -GGTGTGGAATATCGTCTGGAACGCGACGGCTGCGTTTATCGCCGTCATTATCATCAGCCTGCTGCTGGATGAGTC -CGGCTTTTTTGAATGGGCGGCGCTGCACGTCTCACGCTGGGGTAATGGTCGTGGTCGCTTGCTGTTTACCTGGAT -TGTCCTGCTCGGTGCTGCCGTTGCCGCCCTGTTTGCCAATGATGGCGCGGCGCTTATTTTGACACCGATTGTCAT -CGCCATGCTGCTGGCTTTAGGGTTCAGTAAAGGCACTACGCTGGCGTTCGTGATGGCGGCCGGATTCATTGCCGA -TACCGCCAGCCTGCCGCTTATTGTCTCCAACCTGGTGAATATCGTTTCCGCTGATTTCTTTGGCCTCGGCTTTCG -CGAATACGCCTCGGTGATGGTGCCGGTGGATATCGCCGCGATTGTTGCCACGCTGGTGATGTTACATCTCTATTT -TCGCAAAGATATTCCGCAGAACTACGATATGGCGCTGCTGAAATCTCCCGCAGAAGCGATCAAAGATCCTGCTAC -GTTCAAAACTGGCTGGGTTGTTTTACTGCTTCTGCTGGTGGGATTTTTCGTCCTGGAACCGCTCGGCATTCCGGT -GAGCGCCATTGCAGCTGTGGGCGCGCTGATATTATTTGTCGTCGCTAAACGCGGTCATGCGATTAATACGGGTAA -AGTCCTGCGCGGTGCCCCCTGGCAGATTGTCATCTTCTCGCTCGGCATGTATCTGGTGGTTTATGGCCTGCGCAA -TGCCGGATTAACGGAATATCTTTCTGGCGTACTCAACGTGCTGGCGGATAACGGCCTGTGGGCCGCGACGCTCGG -CACCGGATTCCTCACCGCCTTCCTCTCTTCTATTATGAACAATATGCCGACGGTACTGGTTGGCGCGTTGTCCAT -TGATGGCAGCACGGCATCTGGCGTTATCAAAGAAGCGATGGTTTATGCCAATGTGATTGGCTGCGATTTGGGACC -GAAAATTACCCCAATTGGTAGCCTGGCTACGCTACTCTGGCTGCACGTACTTTCGCAGAAGAATATGACTATCAG -CTGGGGATATTACTTCCGTACAGGGATTATCATGACCCTGCCTGTGCTGTTTGTGACGCTGGCTGCGCTGGCGCT -ACGTCTCTCTTTCACTTTGTAATGAGATACTGATATGAGCAACATTACCATTTATCACAACCCGGCCTGCGGCAC -GTCGCGTAATACGCTGGAGATGATCCGCAACAGCGGCACAGAACCGACTATTATCCATTATCTGGAAACTCCGCC -AACGCGCGATGAACTGGTCAAACTCATTGCCGATATGGGGATTTCCGTACGCGCGCTGCTGCGTAAAAACGTCGA -ACCGTATGAGGAGCTGGGCCTTGCGGAAGATAAATTTACTGACGATCGGTTAATCGACTTTATGCTTCAGCACCC -GATTCTGATTAATCGCCCGATTGTGGTGACGCCGCTGGGAACTCGCCTGTGCCGCCCTTCAGAAGTGGTGCTGGA -AATTCTGCCAGATGCGCAAAAAGGCGCATTCTCCAAGGAAGATGGCGAGAAAGTGGTTGATGAAGCGGGTAAGCG -CCTGAAATAAAGCGGCGATATCCCCCCCACAGGTTGTTAGAAAAGTGCGCTTTATTTATGTCGGATGCGACGCTG -GCGCGTCTTATCCGACCTACAAAGTTATGAAAATTCGATGAATAGTATGTTATTTGTAGGCCTGACAGGCGTAGC -GCATCAGGCGATTTTGCTATTTACACAGTACTCCCTGCGTGAGATTCCAATTATCGCGTCCAGCATGGTGTATCA -GTGAGCTGCTTAGTTATCAGCGATACAGCGCAGTAGTTTAAAGACGTACTGGATTATGATTTATCAGTGGTTTAC -ACAACAAATTATTAAATAATTATAAGATACCTTAACCCATTTTATTATTACACATCTAAAACATCACAAAAAAAA -TCACTTCACACACTATCAGAGAACATAATAACTTTTTAAAATGAGCGCATTTTGATAGTTGTTAACGATTTCCTT -TACGATACTATCACTACCCTTTTTTTACACACAAATATTACCGGGTGGAGATAAAAGGGAAATCAAAGGTAATTA -TATCAGGAAGATATAACGCATTACATTTATTGTGTGTAGAAGAAAATCCATTCCTGTTCTAATTATCCAATTTAA -ACATCTTAGCATAAAACAAATGATGAATAAGGAATTTTATGTCAATTGACTTTACCCCAGGTATAATAAATACAT -ATCACGGCGATATTTATAACTGCACAACAAATACCGATAATGCTAAAACGCCAGACACACCGAAGTGGCCTTGCG -ATAATTGGGAAGAACAACAACCCATTAATTCCACATTCTCTGGAGAAGGATATATCTCTGATCAATATGATTTAG -CGCAACACCAACTTCAACAAATTAATGCGTGCCACACGAACACTACATATACAAATGCAGACTACTCAAAAGTTG -TGGCTCAACTTGTAAGTCTTATTACTAACATTGAAACGATAAGTTCGACACAACTTACGCAACAGACACAATCAA -TACTTAATCAGATTAATAACATTAGATATGAAAAAAACAAAAGTGCTGAATGTCGAATCATTGTTATCGCTAATC -CTAAACCCGACAAGGCAATCATAACTAAAATTAGCGTAGAAGAGGGAATACCCATAACATTCAGTGTCCAAACCA -TGTTTTCAGATACTAATTTTATTGCTGAACAACGAGCTGACTTACCAACTAATATAAAAGATATTCAAAGCCTGT -ATCAAAAAATGACGAAGTTATATATTGAGCACAGTGAAAATAAAAACAGGATGAAAGTCTTTGCCGGAACCAACT -TTATTGATTTCAATATGACAGGACAGAACCTGTCCGGGTTCGTTCTAACCTTGTCAAGGTTTTATTTCGAAGATC -TACTTAATATAAATTTCACTGACGCAAATTTAGGGAAGGTGCGAATAAGCGGGGAAATTCTTCTCGGCTGACTCA -GTCATTTCATTTCTTCATGTTTGAGCCGATTTTTTCTCCCGTAAATGCCTTGAATCAGCCTATTTAGACCGTTTC -TTCGCCATTTAAGGCGTTATCCCCAGTTTTTAGTGAGATCTCTCCCACTGACGTATCATTTGGTCCGCCCGAAAC -AGGTTGGCCAGCGTGAATAACATCGCCAGTTGGTTATCGTTTTTCAGCAACCCCTTGTATCTGGCTTTCACGAAG -CCGAACTGTCGCTTGATGATGCGAAATGGGTGCTCCACCCTGGCCCGGATGCTGGCTTTCATGTATTCGATGTTG -ATGGCCGTTTTGTTCTTGCGTGGATGCTGTTTCAAGGTTCTTACCTTGCCGGGGCGCTCGGCGATCAGCCAGTCC -ACATCCACCTCGGCCAGCTCCTCGCGCTGTGGCGCCCCTTGGTAGCCGGCATCGGCTGAGACAAATTGCTCCTCT -CCATGCAGCAGATTACCCAGCTGATTGAGGTCATGCTCGTTGGCCGCGGTGGTGACCAGGCTGTGGGTCAGGCCA -CTCTTGGCATCGACACCAATGTGGGCCTTCATGCCAAAGTGCCACTGATTGCCTTTCTTGGTCTGATGCATCTCC -GGATCGCGTTGCTGCTCTTTGTTCTTGGTCGAGCTGGGTGCCTCAATGATGGTGGCATCGACCAAGGTGCCTTGA -GTCATCATGACGCCTGCTTCGGCCAGCCAGCGATTGATGGTCTTGAACAATTGGCGGGCCAGTTGATGCTGCTCC -AGCAGGTGGCGGAAATTCATGATGGTGGTGCGGTCCGGCAAGGCGCTATCCAGGGATAACCGGGCAAACAGACGC -ATGGAGGCGATTTCGTACAGAGCATCTTCCATCGCGCCATCGCTCAGGTTGTACCAATGCTGCATGCAGTGAATG -CGTAGCATGGTTTCCAGCGGATAAGGTCGCCGGCCATTACCAGCCTTGGGGTAAAACGGCTCGATGACTTCCACC -ATGTTTTGCCATGGCAGAATCTGCTCCATGCGGGACAAGAAAATCTCTTTTCTGGTCTGACGGCGCTTACTGCTG -AATTCACTGTCGGCGAAGGTAAGTTGATGACTCATGATGAACCCTGTTCTATGGCTCCAGATGACAAACATGATC -TCATATCAGGGACTTGTTCGCACCTTCCTTAGGTGACACTATTTTTTTACATAAAGAACACCCTACCCCCAAATT -ATATAAAGATGGACAATATCTTGACAAACAAATCGAAGGTTTATTTTCAACATTATTAACCATTAATGACAACCT -TTTACGAGCAAAAGCGGAAATTGCTTCGACAATAATTAAATTTTTAGAGGCCAGGATAACCAATCTTTCATACAA -TGACATATTAAAATATCAGCAAGAATTCCAAAGACAATGTTATAAGCAAGTTAAAGCCTTTACGACACTCTCCCG -ATACAATAAAATTCAAACATGGGCAGAAATGTCTGAATATCAATTCGAAGTATTTCAATACGAGACGCTTAACCC -AAAAAAAATGTCACACACGCCTTATTTAAAGAGGCCACTGCCTAATGAAAAAGATATAAATTATGGGGTGGAAAT -AGAAATACCATCTGGTAAAAGAATTCGCTTATCAAATCATTACCAGAATATAATACCATAATATTGATTATTAGC -ACTTTATAATCATTGAATAAAAATAGATTTTATGTACTTTTAAAACAATGCACTATATTATGGGGTGATGGATAT -TCATGTCACGCCCCAAAATTAACTGAGTTCACCTAAACAGAAAGGATATAAACATCAGACAGGTTTACGTTACTA -TCAGGCATATCACCTCAGAATCAGATGAAAACTATAAAGAAATATCTATTATGGTTTTAATATTTGTTGATAAGG -ATAGTAACATGAACATGACAAAAGGTGCACTCATCCTCAGCCTTTCATTTTTGCTTGCCGCATGTAGTTCAATTC -CGCAAAATATCAAAGGCAATAACCAACCTGATATTCAAAAAAGTTTTGTTGCTGTTCATAACCAGCCGGGGTTAT -ATGTTGGTCAACAAGCGCGCTTTGGTGGGAAGGTTATCAACGTTATCAATGGCAAAACGGATACGTTGTTAGAAA -TCTCTGTATTACCGTTGGATAGCTATGCGAAGCCTGATATTGAAGCCAACTATCAGGGCCGACTGCTCGCCAGAC -AAAGCGGCTTCCTTGATCCAGTGAACTATCGTAATCACTTTGTTACCATCCTCGGCACCATTCAGGGTGAACAAC -CTGGCTTTATCAATAAAGTCCCGTATAACTTCCTGGAAGTGAATATGCAGGGCATCCAGGTGTGGCATTTGAGAG -AAGTGGTTAATACCACCTATAACCTGTGGGATTACGGCTATGGTGCATTCTGGCCGGAACCGGGCTGGGGTGCGC -CTTACTACACCAATGCGGTGAGTCAGGTAACACCTGAGCTGGTCAAATAACACCACCGAAAGATGCAGATGCTTT -CTCAGCATCTGCATCATGCATTACATCAAATTAATACACAGTAAGCTAACTATTATTATTATAAGCCCTGTCCTG -TTAATTACCTTTGGCAAACTGATTATAAAGTTAATGTCCGCACCAGGAGTCGGTTATGTTTCTTATAATTACCAG -GGATACGATGTTCTTCACCGCGATGAAAAACATTCTGAGTAAAGGTAATGTCGTTCATATACAGAACGAAGAAGA -GATCGACGTAATGTTGCATCAGAATGCCTTCGTCATTATTGATACATTAATGAATAATGTATTTCATTCTAATTT -TCTCACTCAAATTGAACGATTAAAACCTGTCCATGTCATTATTTTCTCCCCCTTTAATATTAAACGCTGCCTGGG -GAAAGTGCCGGTGACCTTTGTTCCGCGGACTATCACTATCATTGATTTTGTCGCACTCATCAATGGCAGTTACTG -CTCTGTGCCTGAAGCGGCTGTGTCACTTTCGCGCAAGCAACATCAGGTTCTGAGCTGCATTGCGAATCAAATGAC -AACGGAAGATATTCTGGAGAAACTGAAAATATCGCTAAAAACGTTCTACTGCCATAAACACAATATCATGATGAT -CCTCAATCTTAAGCGGATCAATGAGCTGGTACGCCATCAGCATATTGATTATCTGGTGTGAATTTCAGGCTTACG -GTGAGTCTGGCTACGCTGCCACACAGATTAGCTAATTGAAACGCCTTTCACCCCTGCCATACCTTTTAATAATCG -CAACAGGTCTTCTATCGACGTTGTGGCATGAAGCTGGATATCAATGGCGACCACTTCATGATCTTCATTTTCCTG -CAACGAAACTAAATCAGTTTTTATTTTTTGCTGCTTAAACCAGTCGAGCATTGATACCGTATTACCGTTCACTAA -TGTCAGCTGTAAATGGTAATTTTTGTTCATCAGGCGGAAGGTTAATTGATGGAAGACTTCCAGCACCAACAAGGT -CATCACTGAACCATAAATACCCAGTTCGTACATACCGCTGCCAATAACCATACCTATGGCGGCGGTCACCCAGAT -ATCCGCTGCCGTCGTCAGACCTACAATATTTTGGTTACGAACGAGAATGTTACCTGCACCGATAAACCCGACGCC -CGTCACCACCTGAGCAGCAATACGGCTGGGGTCGAGTCCGACGTGATCTAAAGACAGCACGTCAGCAAAACCATA -TTTCGAAACAATCATAAACAGGGCGCTTCCCATGCCAATTAATACATGTGTGCGTAACCCTGCTCCTTTGCCGCG -CATTTGCCTTTCCATGCCAATAGCGCCACAGGCAATTGCCGCGAGTATAAGACGTATAATAAATTCTGCTGTCAT -ATAAAAATGCAAAAAGGAGCAGCAAGATGGCTCAACTTGCTACTCCTTTTTACTTGCACCTCATTAATTCGGCAA -GTCATTAGATGCTTGATTTTTGAAGGTATACAAATTTTTCTGCGGGTTTTTCTTACAGTATTCGATCACTTTAGG -AATTTGAGTGAGATCGGTTTCATTTAAAGTAACGGTATCGCCACCTTTATATACTGTTTCTTCATGCAGCATCCA -CCATGCAACCGGGGTCATTGCTTTTGGATTCAGATCAATAAATTCCTGGCAGGTCATATCTTTAGCGGATTCATT -GGCTGCCAACGCAGATTGTGCGTTCACCAGTGACAAAGCCGCTACAGCGCCCATAAAAATAAACGCTTTACGGAG -AGATGAAATATTCATTTTGTAACCCATTCAATATAGAGATTATATATGAACAGGAGGAATAGCTGCTTTTAAAGA -AGATATTCCGGCCTGTTCAATATGCAAGGAAGTACGATGTAACGCATTCCCGGAATTACATATCTTTCTTAATTT -TGTCCCATTCGCCTTTAACTTTATCTTTAAAGTTGGCTTGTTTATCCTGAGTACAAGCCTGAACGATAGCTGGGG -TTACGGTTGCAATACCCTGAACATCTAAAACCGCATCTTCTGGTTTATCTTTGTTGTTCAGCGCTTCAGCAAAAC -CAACTGCAGTTGGCTGGAAGGATTCGTCCACAGCCAGGAAATCTTCACAGGTCCAGGAGTTGACCGGTTTTTTGT -TATCAGCTGCTTTTTGCGCATCCGCTGCATTGCTCACAACTGGCAGAAGAAGCAGACCACCAAGAATAACGCCTA -ATACTTTTTTCATCGTAATATCCTCAACTATAAAGTGAAAGAGCCGTCACGAATCAATTTCGACACTGAGGTTAT -AACCTGGTTTTCTGTATATGTCATGTTGATGGAAAATATCAAAATCAGATATTTTTATTTCAATACAATGAGTTA -CAGATGCATCAGATACTGCAATTAGGAAATTTTTATTAAATCGACTGCATTCTTAGACGCGTTTTTGGCATAGAT -TGATAGCAGGGGATTTTCTTCTTAATTTTATAGGGTGGTTCTATGTTATATATAGATAAGGCAACAATTTTGAAG -TTTGATCTGGAGATGCTTAAAAAACATCGCAGAGCAATCCAGTTTATTGCCGTGCTGCTGTTTATCGTCGGGTTG -CTGTGTATCAGTTTCCCGTTCGTCTCTGGCGATATTTTAAGCACAGTAGTGGGTGCATTATTAATCTGCTCGGGT -ATTGCGCTTATTGTCGGGTTATTCAGCAACCGCAGTCATAATTTCTGGCCGGTATTATCCGGTTTCCTCGTCGCA -GTCGCCTATTTATTGATCGGCTATTTCTTCATCCGCGCACCGGAGCTGGGCATTTTTGCCATTGCGGCATTTATT -GCCGGTTTGTTCTGTGTTGCAGGGGTTATTCGCCTGATGAGTTGGTATCGTCAGCGTTCAATGAAAGGCAGCTGG -CTACAGCTCGTTATTGGTGTGCTGGATATCGTCATTGCCTGGATATTCCTTGGTGCAACGCCGATGGTGTCTGTA -ACGCTGGTTTCCACACTGGTGGGAATTGAACTGATATTTAGCGCCGCCAGCCTGTTCAGCTTCGCCAGTTTGTTC -GTTAAGCAGCAATAATTACCCCGGTTGTCACCCGGATCATAGTCACTTGATGTGACTATGATCCGATTAATACTC -TCTCCGCTACGCAGTGTTGTAGATCAATTGCGCACTATCATTGAAATAATTACCTGCTAGTGATTATTTCAACCT -ACTGAATTTCATCTAATTTTTTTCACTCTATGGCAAATTAGCCATTTCAAACATTATCATGGCTGATATTTTCCG -TAGTCAGGTTTAATGTTTTAAAAGTGCTGTGGGAAAGTGAACAAAGAGTTCCGTAAGCGTTGATGCTATGGGCGG -TTAAATAAGTAATCCGGGTTCATTTTTTTGCAACTGGCGTTGATTACATTGCATAAATATCCGTGTCTCCAGACG -CTATATAAAAACCTGAAGACATGAATGCGTTATTTACTCAGGTAATTTCAATGCGTTAAAAGAAAGCTGGCAATC -CAATTGCCAGCTTAAGTCGAAACAAGGAGACTCGATATTTAAATCGGATTACATTTTAACTTTAGTAATATTCTT -CAGAGATCACAAACTGGTTATTGATAACTTATTCTTGGGCAGTAATCCGCAAACGTTAACTTTTTGTTTGCTATT -TACAAGCTGATAACAACCAGGAATCTTACTTAGGATCAATATATGGAGTGCGTGATGGATAAATCTGAAGTATTG -ATTAGTGTTAATAGACGTATTAGTTCACGAAGGGTAAAGTTCTTATAGGCGTTTACTATATTGAACAACGATTCG -GACAAGGATGTAAATAATGAAAAGGATGACATATTCGAAACGATAACGGCTAAGGAGCAAGTTATGATTTTTCTC -ATGACGAAAGATTCTTTTCTTTTACAGGGCTTTTGGCAGTTGAAAGATAATCACGAAATGATAAAAATCAATTCC -CTGTCAGAGATCAAAAAAGTAGGCAATAAACCCTTCAAGGTTATCATTGATACCTATCACAATCATATCCTTGAT -GAAGAAGCGATTAAATTTCTGGAGAAATTAGATGCCGAGAGAATTATTGTTTTGGCACCTTATCACATCAGTAAA -CTAAAAGCTAAAGCGCCTATTTATTTTGTTAGCCGCAAAGAAAGTATCAAAAATCTTCTTGAGATTACTTATGGT -AAACACTTGCCCCATAAGAATTCACAATTATGTTTTTCACATAATCAGTTCAAAATTATGCAACTGATTCTGAAA -AATAAAAATGAAAGCAATATCACGTCGACGCTCAATATTTCGCAACAAACATTAAAGATTCAGAAATTCAACATT -ATGTACAAGCTGAAACTAAGACGTATGAGCGACATCGTCACCCTGGGTATCACATCTTATTTTTAGTCAGGACAT -AAGCAACTGAAATTGATGGCTGGCATGACGAGGGATGCAGATGCTGATTTCATTACCCCCGGTGATTACTAAAGG -AGAGGCTAAAACGACTTTATTCCCCTGGTATGTGTATCCACCAGTAGAACCCTTCGTTGCCCGAATGCTGGCAGG -AACTGTTGGCAGAACGGCAACATTTTTTTTGTCGTTGACCTCACCATGTCGATCACTGTGCCTGTATCCCACCTT -ACTGGCTGACAACCCCACTATGCCGCTGGTCTGTAAATCCCTCATATCTCTCCTCGCGCGCAATTTAAAGAACCG -TTATTTCTCAAGAATTTTCAGGGACTAAAATGAACAGAAGAAGAAAGCTGTTAATACCGTTGTTATTCTGCGGCG -CGATGCTCACCGCCTGCGATGACAAATCGGCGGAAAACGCCGCCGCCATGACGCCTGAGGTCGGTGTCGTCACAC -TCTCCCCCGGTTCGGTCAATGTGTTGAGCGAATTGCCCGGTAGAACCGTTCCTTATGAAGTTGCCGAGATACGTC -CCCAGGTGGGCGGTATTATCATTAAACGCAACTTTATCGAAGGCGATAAAGTGAACCAGGGCGATTCGCTGTATC -AGATTGATCCTGCACCTTTACAGGCCGAGCTAAACTCCGCCAAAGGCTCGCTGGCGAAAGCGCTCTCTACCGCCA -GCAATGCCCGCATCACCTTTAACCGCCAGGCATCGTTGCTGAAGACCAACTACGTTAGCCGTCAGGATTACGACA -CCGCGCGCACCCAGTTGAATGAAGCAGAAGCCAATGTCACCGTCGCCAAAGCGGCTGTTGAACAGGCGACGATCA -ATCTGCAATACGCGAATGTCACCTCGCCGATTACGGGCGTCAGCGGGAAATCGTCGGTGACCGTCGGCGCACTCG -TTACCGCTAATCAGGCAGATTCGCTGGTTACCGTACAACGTCTGGACCCGATTTATGTCGATCTCACGCAGTCGG -TGCAAGATTTCTTACGCATGAAAGAAGAGGTCGCCAGTGGGCAAATCAAACAGGTTCAGGGCAGTACGCCAGTAC -AGCTCAATCTGGAAAATGGTAAACGCTACAGCCAGACCGGCACGCTGAAATTCTCCGACCCGACAGTGGATGAAA -CCACGGGCTCCGTGACGTTACGGGCGATTTTCCCCAACCCAAATGGTGACTTGCTGCCTGGCATGTACGTCACGG -CATTAGTGGATGAAGGTAGCCGCCAGAATGTATTACTGGTGCCGCAGGAAGGCGTCACCCACAACGCCCAGGGTA -AAGCAACGGCGCTCATTCTGGATAAAGACGATGTCGTGCAGCTACGCGAAATTGAAGCCAGCAAAGCCATCGGCG -ACCAGTGGGTCGTCACCTCTGGCTTGCAGGCTGGCGATCGGGTGATCGTTTCCGGTTTGCAACGCATTCGTCCGG -GTATCAAAGCACGAGCAATTTCCTCCAGCCAGGAAAACGCCAGCACCGAATCGAAACAATAACGTTGCAGGCTTA -AGGGGACTTTCATGGCTAACTATTTTATTGATCGCCCGGTTTTTGCCTGGGTACTTGCCATTATTATGATGCTTG -CAGGTGGTCTGGCGATCATGAACTTACCGGTTGCGCAGTATCCGCAGATTGCGCCACCGACCATTACCGTCAGCG -CTACCTATCCAGGTGCCGATGCGCAAACGGTAGAAGACTCGGTCACTCAGGTGATTGAGCAAAATATGAATGGGC -TTGATGGCCTGATGTACATGTCTTCAACCAGTGATGCGGCGGGCAATGCCTCTATCACTCTGACCTTCGAGACTG -GGACATCTCCTGATATCGCACAGGTTCAAGTGCAAAATAAACTGCAACTCGCTATGCCTTCATTACCTGAAGCAG -TGCAGCAGCAGGGGATTAGCGTCGATAAGTCGAGCAGTAATATCCTGATGGTAGCGGCGTTTATTTCTGATAACG -GCAGCCTCAACCAGTACGATATCGCGGACTATGTAGCGTCTAATATCAAAGACCCGCTAAGCCGTACCGCGGGCG -TTGGTAGCGTACAACTCTTTGGTTCCGAGTATGCCATGCGTATCTGGCTGGACCCGCAAAAACTCAATAAATATA -ACCTGGTACCTTCCGATGTTATTTCCCAGATTAAGGTGCAAAACAACCAGATTTCCGGTGGTCAACTGGGTGGCA -TGCCACAGGCGGCAGACCAGCAGCTAAACGCCTCGATCATTGTGCAGACGCGTCTGCAAACGCCGGAAGAATTTG -GCAAAATCCTGTTGAAAGTTCAGCAAGATGGTTCGCAAGTGCTGCTGCGTGATGTCGCTCGCGTCGAACTTGGGG -CGGAAGATTATTCCACCGTGGCACGCTATAACGGCAAACCTGCTGCCGGGATCGCCATCAAACTGGCTGCCGGAG -CAAACGCCCTGGATACCTCGCGGGCAGTCAAAGAGGAACTGAACCGCTTATCAGCCTATTTCCCGGCAAGTCTGA -AGACGGTTTATCCTTACGACACCACGCCGTTTATCGAAATTTCTATTCAGGAAGTTTTCAAAACACTGGTTGAGG -CTATCATCCTAGTCTTCCTGGTCATGTATCTGTTTTTGCAGAATTTCCGTGCCACAATCATCCCGACGATTGCCG -TACCGGTGGTTATTCTCGGGACGTTTGCGATCTTGTCGGCGGTCGGTTTCACCATCAACACGTTGACTATGTTCG -GGATGGTGCTGGCGATAGGGTTACTGGTGGATGACGCCATCGTGGTGGTGGAGAACGTCGAGCGTGTCATTGCGG -AAGATAAGCTACCGCCGAAGGAAGCGACGCATAAATCGATGGGGCAGATCCAACGTGCGCTGGTCGGTATTGCCG -TTGTTCTTTCCGCAGTGTTTATGCCGATGGCCTTTATGAGCGGTGCAACCGGGGAGATCTACCGCCAGTTCTCCA -TCACGCTGATCTCCTCCATGCTGCTTTCAGTATTTGTGGCAATGAGCCTGACCCCTGCCCTGTGCGCCACCATTC -TGAAAGCCGCGCCGGAAGGCGGTCACAAACCTAACGCCCTGTTCGCACGCTTCAACACGCTGTTTGAAAAATCAA -CTCAACACTATACCGATAGCACCCGCTCGCTGTTGCGTTGTACCGGTCGCTACATGGTGGTCTACCTGCTGATTT -GCGCCGGGATGGCGGTGCTGTTCCTGCGCACGCCGACCTCTTTCTTACCAGAAGAGGATCAGGGGGTATTTATGA -CCACCGCGCAGTTACCTTCCGGTGCCACCATGGTTAACACCACGAAAGTGCTGCAACAGGTGACGGATTATTATC -TGACTAAAGAGAAAGATAATGTCCAGTCGGTGTTTACCGTTGGCGGCTTTGGCTTCAGCGGTCAGGGGCAAAACA -ACGGCCTGGCGTTTATCAGTCTCAAGCCGTGGTCTGAACGTGTCGGTGAGGAAAACTCGGTTACCGCGATCATTC -AGCGGGCAATGATTGCGTTAAGCAGTATCAATAAAGCCGTCGTCTTCCCGTTCAACTTACCCGCGGTGGCTGAAC -TGGGTACCGCGTCAGGTTTTGATATGGAACTGCTGGACAACGGTAACCTGGGGCACGAAAAACTAACCCAGGCGC -GAAACGAGCTGTTATCACTGGCAGCGCAATCACCGAATCAGGTCACCGGGGTACGCCCGAACGGCCTGGAAGATA -CGCCGATGTTCAAAGTGAACGTCAACGCTGCGAAAGCTGAAGCGATGGGCGTGGCGCTGTCTGATATCAACCAGA -CAATTTCCACCGCCTTCGGCAGCAGCTACGTGAACGACTTCCTCAACCAGGGGCGGGTGAAAAAAGTGTATGTCC -AGGCAGGCACGCCGTTCCGTATGTTGCCGGATAACATCAACCAATGGTATGTACGCAACGCCTCTGGCACGATGG -CACCGCTTTCTGCCTACTCGTCTACCGAATGGACCTATGGTTCACCGCGACTGGAACGCTACAACGGCATCCCGT -CAATGGAGATTTTAGGTGAAGCGGCGGCCGGGAAAAGTACCGGTGACGCCATGAAATTTATGGCAGACCTGGTCG -CTAAACTTCCGGCAGGCGTCGGCTACTCATGGACCGGACTATCGTATCAGGAAGCGTTATCCTCAAATCAGGCTC -CTGCGCTGTATGCGATTTCACTGGTCGTGGTGTTCCTCGCCCTCGCCGCACTCTATGAGAGCTGGTCAATTCCGT -TCTCGGTGATGTTGGTTGTTCCGTTAGGCGTCGTTGGCGCATTACTGGCCACCGATCTGCGCGGCTTAAGTAATG -ACGTCTACTTCCAGGTTGGTTTGCTGACCACCATCGGGCTTTCCGCCAAAAACGCCATCCTGATTGTCGAATTTG -CCGTTGAGATGATGCAGAAAGAAGGGAAAACGCCGATAGAGGCAATCATCGAAGCGGCGCGGATGCGTTTACGCC -CAATCCTGATGACCTCTCTGGCCTTTATTCTCGGCGTGCTGCCGCTGGTTATCAGTCATGGTGCCGGTTCTGGCG -CGCAAAACGCGGTAGGTACCGGCGTGATGGGCGGGATGTTTGCCGCAACAGTGCTGGCAATTTACTTCGTTCCGG -TCTTTTTCGTTGTAGTGGAACATCTCTTTGCCCGCTTTAAAAAAGCGTAACGTGTAAATGAGAGTAAGGTTGAAC -ATGAAGGTTCAGCCTTACTCTTTCCTGCTAACCATTCACCACTCAACAACCAGCTAACCGTCAGGAATACCAGGC -TTAGTACACAGCACTGAAAGTAGAAACCACTCCAGCCATTCGTCATCAATTTGAACAACACAATACTGACCCACA -TTCCCGTAATCGTATGAATTGTCAGCTTAATAATCCCAAACATGCCGAGTCTTTTCCTCCTGAAAATACCGATAC -CGCCTGGCAAACTGCGAAAGAGAACTAGCCGGTAGCCCGGCAGAAATCATCAGGGAAGAGTTTCACATGAAGCAG -GTGTGAGATCCTGACCAATATTCAAATGCGAAATATGTCAGGAAAAGGTACCTGGCGAATGTTGCGCAAACTGAT -GTGGCGTTACACCATAATATTGTCGAAATGTGTTTATAAAGTACGATGTACTGCTATAGCCACATTTTTCCGCAA -TAGTATGCAGAGGAATTTGACGTAACTCGAGTAATCGTCTGGCCATCGACATCCTGGAGGCGAGTAATATTTTAC -TGAAACAGGTATTTTCATCCTGCAACTTTTTTTTGATTAGACTCTCGCTGGTATACATTCTTTCCGCGATATCGC -GCAGATACCAACGTTTGGCGATATCAAAGCTAATAAGGCGTTCAACTTTTCCTGAAACAGTGCTGATGCTATTGA -AAAGTAAGGGGATCAGTTCTTTCTTATGAGAAAACATCGATAAACAGGAAAGGTAGAGCATATTGCTCAGTATCG -GTGAATTTACCCCGGATTCATTGAAGCTATCAAAAATCGCCGTCACCAGCGGCATGGGGGGTGACTGGTTAATTA -ACAAACGGTCTTTGCTGTGTAACCCTAAATTGCGTGGTAGCTGACGAATATTTTGTAAGTAATGGCAAACTGTCA -GCTCATCGATATCCAGTCGTCGCGTATCCGGTGAACAAAACGCAAAATCGTCTGCCAAATTTTTCTCCAGCAGCA -GAATACTCTCGTTATGCAGCGATATTTTTTGCTGTTCATGATAAATATCGAATGAACGACGAATGAGGATCACCG -AGCAGACATGAGTCATGATTATCCCTTATATTTCATACTGCGATTATTTCAATTTCAGTATACTAATGAAATGAT -GCCAGACTGTTTCTTAGCGCAAAAACTGCCAGATTTGGTAGGACCAAAATTTATCCACAAAGTAGTTTTGCATAA -CAGTTAATTGATAATAAGTAAATGCAGCACGAATATATTTTCGCACAGCGTATAGCTTATGTTTATAAAAAAATG -GCTGATCTTATTTCCAGTAAAAGTTATATTTAACTTACTGAGAGCACAAAGTTTCCCGTGCCAACAGGGAGTGTT -ATAACGGTTTATTAGTCTGGAGACGGCAGACTATCCTCTTCCCGGTCCCCTATGCCGGGTTTTTTTTATGTCTGA -GTAAAACTCTATAATCTTATTCCTTCCGCAGAACGGTCAGTGCCGTAAAAATTCCCTTGCGCAACAATACTTGCC -GCCGAGTCACGGTTCGACAATCTCTGCGCCGATCGCTCCTGATACTCTGTGGGCGTCATCCCATAATAATTTCGA -AAGACGTAAATGAAATACGACACGCTGTGATATCCACAGGATACTGCAACTCGCTTAATTGAAAAACCATGTATA -ACAATAAGTTGCAAAGCACGTTGCATTCTACACTCAGTAAGCAACTGTGAATATGATGTCTCTTCTTCGCGCAAT -TTTTTCTTTAACAGACTTGGACTCATCAACAGCTCGCTGGCGATTCGGGCTAGTGTCCACTCATGGGCGATATTA -TTATTGATAACCGTACAAACTCGTGTTCGCATGTTCGGTTGTAAAACGTTCAGAAGCAGCGGTATAAAGTGCTCA -TCCTCAAGAAAAACAGATAACAACGCAAAGATTAATGCTCTTTTACGTAGCATTTCTGCATAGCGAAGATTCTTA -TTCTGCGATAGTTGCGCAACTTCCTGAAAAACAGGAATATCTCTACTACAGTGATGAACGAGTAATGAAGAAACT -TTTTTATGTGCATGAAGATTTAATGCCTCCTCCTTGAGCATCGGGAGAAATAATGAAAGCGTGTCCCTTGACACG -AATACAAAATTTTCAACACACTTATCTACTCGAATTTGGCTTGCATCCGCAAAAACCAGGTCACCGCCATTAAAA -TAGCGATATTCACCATTAACCATGGTGAGAATATATTTATGTCTTGCATACGCAATTAGACAATTCCCATGTAGT -GATTGCATAGTTGACTTAATATTACATAAACATATTACTGTTTATTAATGTAGCACGCCGCCCTCTTAAGTCAAA -TTGATTGATAAATAAATTTAAACGAAGCGGGAGAACAGGATGATAATGTGTGATGTTCTACGGGCAGGATGACTG -GATTTATAATACAAAAACGTGTTTAAGAACACAGGGAAATTAATAGTAAGCAAATAATCCCTTTTCGTGACATTA -AAGGTAATCGCTACATTTAATAAACATTCATATAACATATATCTTATCAACACGATGAATAGACAGCCAATATAT -TATTGCGATTAATAAGCAACCGAATGCCCAGCTGTTTTTTTAAAGGCTGGGCATTCGGTTTTTACAACGTTATGT -TATCAGGTGTGTTTAAAGCTGTTCTGCTGGGCAATACCCTGCAGTTTCGGGTGATCGCTGAGATATTTCAGGGAG -GCTTTGTAGTCTTCCAGCAACAGTTCAGCAAAGTCCATTTCGAAGCCGCGACGACACATAATGCGCATCACCACG -ATGTCGGTGGCTTCACCGCCGAGAGTGAAGGCCGGAACCTGCCAGCCGCGCAGACGCAGACGTTCAGAGAGGTCG -TACAGGGTGTATCCCGGATCTTCACCATCTTTCAGTTTGAAGCAAACCGCCGGGATGCCTTCGTCCGGGCGACCC -GTACAGATGAACTCATACGGCCCCAGTTTGGCGATTTCATCCGCCAGATAAGCGGCAACCTGGTAAGAGGCGTTC -TGTACTTTGGTATAGCCTTCACGACCGAGGCGCAGGAATTCATAGTACTGTGCAATTACCTGACCCGCCGGGCGG -GAGAAGTTGATGGCAAAAGTACCAATTTGACCACCCAGGTAGTCAACGTTGAACACCAGTTCCTGCGGCAGCGCT -TCTTCGTCACGCCAGATAACCCAGCCGCAGCCCAGCGGAGCCAGACCGAATTTATGGCCTGAAGCACTGATCGAT -TTCACACGCGGCAGGCGGAAGTCCCAGACGATATCCGGGGCGACGAACGGTGCCAGGAAGCCACCGCTGGCAGCG -TCGATGTGCATGTCGATGTCGATACCGGTGTCGGCCTGGAATTTATCCAGCGCATCGTGCAGCGGTTGTGGGAAC -TCATAGTTACCGGTGTAGGTCACGCCGAAAGTCGGCACCACGCCGATGGTGTTTTCGTCACAGGCTTCAATCATG -CGTTTCGGGTCCATAAACAACTGACCGGGGCGCATAGGGATCTCACGCAGCTCCACATCCCAGTAGCGGGCGAAT -TTATGCCAGCAGATTTGTACCGGACCGCACACCAGGTTTGGTTTATCCGTTGGTTTGCCTGCAGCTTCCATACGC -TTGCGCCAACGCCATTTCATCGCCATCCCGCCGAGCATACAGGCCTCGGAAGAACCAATGGTGTTGGTGCCAACG -GCCTGACCATTTTTCGGCGCAGGCGCATGCCACAGATCGGCAACCATATTTACGCAACGCAGGTCGATGGCTGCG -GATTGCGGATATTCTTCTTTGTCGATCCAGTTTTTATTGATCGACAAATCCATCAATTTATGGACGTTTTCGTCG -TCCCAGGTCTGGCAGAAAGTGGCCAGGTTCTGACGAGCGTTGCCATCAAGATATAATTCATCATTGATAATCTGA -AATGCGACATCATCGCGCATTTCGTGCAGCGGAAATCGTTTTGACTCCGCGATAGTAGAAATGGCCTTTGCGCCA -AAACGTGAATCGAGTAGTTCTGAGCGGAAATCCGTTAACAGCTTCTGGTCCATTTCGAACTCCTTAAATTTATTT -GAAGGCAATAAAAAAGTAGGATTTATCCGCAATGGAAGCAAGGCATTACAGGCTTAATTTAAATAACAAAATCCT -AAGCAGAAAAACGACTTTTTATAATATAAACATTTAACATGATAATATTAAAAACAGACTTTATTATCGTAATAA -AAATCGCCCAAACATTGCTGTTCGGGCGATCAAATTAATTATTGTTTATCCTGCATATACGGCGTGTACACCCCG -TTCAGACTGTGCAGGAAAGCTACGATATCATCCACATCCTCCTGCGGCAGCTCTTTGCCTACCTGATAGCGCAGC -ATCAGTTTCACCGCCCCGTCCAGCGTCGGCACGTCACCGCGATGGAAGTACGGTGCCGTTAAAGCAACGTTACGT -AAACCGGGTACTTTCTGACGCAATTTATCACGCTCTTCTTTAGTCACATTCATACGACCAATATCCGCCGCCGTA -ATTTCCCCAAAGTTAAAGTCTTTTTTCAGCCCCAACGGTTCAAAGGAACGTCCGCCGAGAATAATACCACCATGA -CAAGTTGCACATTTATTATCTTTAAATAATTGATAGCCTTTTTTCTGTTGCGCCGTCAGCGCATTTTCATCTCCG -CGCAACCATTTATCAAATGGGGAATCCGGCGTAATTAATGTTTTCTCAAATTCAGCAATGGCATCAGTAATATTT -TCGCCACTGAAACCTTGCGGATAGACTTCGAGGAACTGCGTTTTAAGCTGCGGATCTTTTTCCAGCTTAGCAATA -ATTTCGTCCCAGGATTTCGACGCCATTTCAATCGGGTTCAACGGCGGTCCACCAGCCTGATCCTGCAATGTTGCC -GCACGACCATCCCAGAACTGCTCAACGTTAAATACTGAGTTAAATACCGTCGGCGCGTTAATCGGCCCAACTGCG -CCACCAACACCAATCGATGTTTTTCTGCCATCGACGCCCCCCGCATTCAACGCATGGCAATGAGCGCATGAAATG -GTGCTATCAGCCGATAAACGGGGATCGTGATACAGCGCAAAACCCAACGCCACTTTTTGCGCATCGGTAGGCAGT -TTTTGCGGGATGGGCTGCACCGGTTCATTGCGATGTTCCGGAGCAGTATCATTGCTGGCGTAATATTCCGCGCGC -TGTTTTGCAATCCAGGCCAGTATTTCCGCCCGCTCTTCATCACTCACCTTACCCGCCCAGTGTAGCGCGGTATAA -CGCGTTGGTGGCATAGTTTCATACTGCATCACCCATTCAATCTTATTCAAATCGCTTTGCGAAACGGGTTTATCA -GCCAGCAGTGCCGCACGCACGGCCTCAAGGTTAAAAGATTTATATCCAAGCTTAATGTCGTAATCCATCAACTGT -TTCGCGCCAGGAATATAATAATAGGCGGGTAATTCTGCCGAAGGCGTGTGGCAATAGTCGCATCCTTTTTCGCGG -AGAAAGCCTAAAACCTTATTATTTTCACTGACAGCAGATGCCTGAACATCGGCCTGTTTACTGCGTTTATTATCG -TGGTACCACACATAACCAGATAACCCTAAATAGCAAATCGCGACGCCAGCCAGGCCGATCGCGGTAATACGTGAG -ACCATTTTCATTATTCTTCCCTCACGGTGGTGAGTTATTGTGACCCAGAAAATTTTCCAGAATGCTGCAAACGTC -TCTGCGAGACAAAGCCATCATAAAAAACAGGGAGATACGCTTTTTGATAGGAATCAATCAATTACATGAATATAA -ACTATCAATAAGATAGCCTGTGCCTATTACCCAGATCAGGAATGGCATATCATGATTGCGGCGAGAGCAGGATTG -AATGTTCTGAAAATGAAAAACAACACCAAATCGGTATTTTTATAAATTCCATTGATATTAGTGCGTTATATTTTT -TGACAGGTTAATAAACGTGATCCACCGCACGCTTTGTCGCCCACCAGGCGGAGCGAATGACTACCCTTAAAGAAA -AGCCGATAATTAGCGACGAATTTCGGAGGTTGGATCCTTATGCTCAATCAGAAAATTCAAAACCCTAATCCAGAC -GAACTGATGATCGAAGTCGATCTCTGCTATGAGCTGGACCCGTATGAATTAAAACTGGATGAGATGATCGAGGCA -GAACCGGAACCCGAGATGATTGAAGGGCTGCCTGCCTCTGATGCGCTGACGCCTGCCGATCGCTATCTCGAACTG -TTCGAGCATGTTCAGTCGGCGAAAATTTTCCCCGACAGTAAAACCTTTCCCGACTGCGCACCTAAAATGGACCCG -CTGGATATCTTAATCCGCTACCGTAAAGTGCGCCGTCATCGTGATTTTGACTTGCGCAAGTTTGTTGAAAACCAC -TTCTGGCTGCCGGAGGTCTACTCCAGCGAGTATGTATCGGACCCGCAAAATTCCCTGAAAGAGCATATCGACCAG -CTGTGGCCGGTGCTAACCCGCGAACCACAGGATCACATTCCGTGGTCTTCTCTGCTGGCGCTGCCGCAGTCATAT -ATTGTCCCGGGCGGCCGTTTTAGCGAAACCTACTATTGGGATTCCTATTTCACCATGCTGGGGCTGGCGGAAAGT -GGTCGGGAAGATTTGCTGAAATGCATGGCCGATAACTTCGCCTGGATGATCGAAAACTACGGTCACATCCCCAAC -GGCAACCGCACCTATTATTTGAGCCGCTCGCAACCACCGGTTTTTGCGCTGATGGTGGAGTTGTTTGAAGAAGAT -GGTGTACGCGGTGCGCGCCGCTATCTCGACCACCTTAAAATGGAATATGCCTTCTGGATGGACGGTGCAGAATCG -TTAATCCCTAATCAGGCCTATCGCCATGTTGTGCGGATGCCGGACGGATCGCTGCTCAACCGTTACTGGGACGAT -CGCGACACGCCGCGTGACGAATCCTGGCTTGAGGACGTTGAAACCGCGAAACATTCTGGTCGCCCGCCCAACGAG -GTGTACCGCGATTTACGCGCGGGGGCGGCCTCCGGTTGGGATTACTCTTCCCGTTGGCTGCGTGATACTGGTCGT -CTGGCGAGCATTCGTACCACCCAGTTCATCCCCATCGATCTGAATGCCTTCCTGTTTAAACTGGAGAGCGCCATC -GCCAACATCTCGGCGCTGAAAGGCGAGAAAGAGACAGAAGCACTGTTCCGCCAGAAAGCCAGTGCCCGTCGCGAT -GCGGTAAACCGTTACCTCTGGGATGATGAAAACGGCATCTACCGCGATTACGACTGGCGACGCGAACAACTGGCG -CTGTTTTCCGCTGCCGCCATTGTGCCACTCTATGTCGGTATGGCGAACCATGAACAGGCCGATCGTCTGGCAAAC -GCCGTGCGCAGTCGGTTACTGACACCTGGCGGGATTCTGGCAAGCGAGTACGAAACCGGTGAACAGTGGGATAAA -CCCAACGGCTGGGCACCGTTACAATGGATGGCGATTCAGGGATTTAAAATGTACGGCGATGACCTTCTGGGTGAT -GAAATCGCGCGAAGCTGGCTGAAGACGGTGAATCAGTTCTATCTGGAACAGCACAAACTGATCGAAAAATACCAT -ATTGCCGATGGTGTTCCCCGCGAAGGCGGCGGTGGCGAGTATCCGTTGCAGGATGGGTTTGGCTGGACTAACGGT -GTGGTACGCCGTTTAATTGGTTTGTACGGCGAACCATAATATTTTTACAGCCAGCCGCTAACTTCCTGCTGGCTG -TAAAATTATCCTCTTCAGGAGGAGATATTTAACATCATTGCCGCCTGGGTGCGATTTTTCACTTCCAGACGGCGA -TACAGGGATTCCAGATGCGCTTTTACCGTTCCGGTACTGATATTCAGCGCTCTGCCGATCTCCTTATTTGATTCG -CCCGCCGCTAACATGGTTAAAATCTCCCGCTGGCGGGCGCTTAACGATTTGAGATCTTTAATGTCCTTTTCCGGC -GTCGTCCGCCAGTCTCCAGGCAGAAACATCATCCCCATCGCCGCACTATTTACCGCCAACGCAAATGTCTCGACG -GTTGAATCACGAGGCACAATGGCCAGCACATTAAAATGGATAACTTCCTGTAACCACCGTTTATTGCAATCCGTC -GCCGTAATTAACACCTTAACCTCAGGAAATTGCACCACGGTTTTTTGCAGCAACCAGTAGCAAAACTCACCATCC -TGATCGCCATCGAGCATAACTAAGGCTTCAGGGTAACTTTCCAGCTTTTGCCATAACTCGTCTGCCTGACTGGCC -CCCTGAATACTCACTCCTGGAATACGCTGCTGTAAACTGATTTTCATTCCATGAATAAATATTGACTGCCTGTCA -AACATGACTATTTGCATAACTGAATCTCCACCTGAATACGTTAAAAAGACTTAAGTAGTGGAAGGGTATTACCCG -CGAGAAAAAATAAGAATTCGCCATTTGGCGGTGGCCATTCTACAGAGATGACGTGTAGAAAATAGTTACCGATAT -AAATAGTTACAGCTAAACGCCTGAAATTACATGTCGAGGGCACTATTTAAAACAATTTTGAGGATTTCCTTATAT -TGGTGGTTAGTACGCATGCAATTAAAAATGAAATTCCGCGACCACAAGCCAAAATAACAAACGGCAAGGAGACAA -AAATAAGCACAAATAGCCAACACGTCCTCTGTTCACTTTAAAGGGAATCGCTGAAAAATACGCTCTGTTTAAGGG -GATTCACCTTTCTCAGAAAGCTATTCCGCCCTTTTCCTGCTGAGAAATCGCCACATTCGGCATGACAACATTGTG -AAACCCGGCATTAGATGTTAGAAAAAACAATAAACAATGCGATATGCGCGTTACTGTTTCGCTGTGAACAACAAT -CGGTCAAAGAAATGGATAAAATTCACGCAATGCAGTTGTTCATCAAAGTCGCGGAGCTGGAAAGTTTTTCCCGCG -CAGCGGATTTCTTTGCTTTGCCAAAGGGAAGTGTTTCGCGCCAGATACAGGCACTGGAACATCAACTTGGCACCC -AGCTTCTCCAGCGCACCACGCGACGGGTCAAACTCACGCCAGAAGGCATGACCTATTATCAACGAGCAAAAGATG -TGTTGAGTAATCTCAGCGAACTGGACGGTCTGTTTCAACAGGATGCCACCAGTATCAGCGGTAAATTACGCATCG -ACATCCCGCCAGGAATCGCGAAAAGCCTGTTACTGCCGCGCCTGTCGGAATTTCTCTATCTGCATCCGGGAATTG -AGCTGGAACTGAGTAGCCATGACCGTCCGGTAGATATTCTTCATGATGGTTTTGATTGCGTGATACGCACTGGCG -CGTTACCGGAAGATGGCGTTATCGCCCGTCCCCTCGGCAAACTGACCATGGTCAACTGTGCCAGTCCGCACTATC -TGACGCGCTTTGGTTATCCGCAAAGCCCCGATGATCTGACTTCACACGCAATAGTGCGTTATACACCGCACCTGG -GTGTACATCCGTTAGGTTTTGAGGTTGCCAGCGTTAATGGCGTCCAGTGGTTTAAGTCTGGCGGCATGTTGACGG -TAAACAGTAGCGAAAACTATCTCACCGCCGGTCTTGCCGGTCTGGGGATTATTCAGATCCCGCGCATTGCCGTGC -GCGAAGCCCTGCGTGCCGGGCGGCTTATTGAAGTATTACCTGGCTACCGTGCCGAGCCGCTCTCCCTTTCGCTGG -TTTATCCGCAGCGTCGGGAGCTTTCCCGGCGTGTAAACCTGTTTATGCAGTGGCTGGCTGGCGTAATGAAAGAGT -ACCTGGACTGACCGACTATACTTTTTAAGAATGACCACGACAGAAGGACAAAAGAGCGGATGACGCAGGAAAACG -AGATCAAACGTCCCATCCAGGATCTGGAGCACGAGCCGATTAAGCCGTTGGATAATAGCGAGAAAGGCAGCAAAG -TTAGCCAGGCGCTGGAAACCGTCACCACCACTGCCGAAAAAGTCCAACGCCAACCGGTTATTGCGCACCTGATTC -GCGCGACAGAACGCTTTAACGATCGGCTGGGTAACCAGTTTGGTGCGGCTATCACCTATTTCTCATTTTTGTCGA -TGATACCAATTTTGATGGTGTCGTTTGCCGCAGGGGGCTTTGTGCTGGCCTCCCATCCGATGTTGCTACAGGATA -TCTTCGACAAAATTCTGCAAAACATCAGCGATCCGACGCTAGCCGCCACGTTGAAAAACACCATCAACACCGCCG -TTCAGCAGCGTACGACTGTAGGGCTTGTCGGCCTGGCGGTGGCACTTTATTCCGGCATCAACTGGATGGGTAACC -TGCGTGAAGCGATTCGTGCCCAGTCGCGCGATGTCTGGGAACGCTCGCCGCAAGATCAGGAGAAGTTCTGGGTAA -AATATCTGCGAGATTTTATTTCGCTGATTGGTTTGTTGATTGCGCTGATTGTGACGCTTTCGATCACCTCGGTTG -CCGGTTCGGCGCAGCAAATGATTATTAGCGCCCTGCACCTGAACAGCATTGAGTGGCTGAAACCGACGTGGCGAT -TGATTGGCCTGGCGATTTCCATCTTCGCCAACTATCTGCTTTTCTTCTGGATCTTCTGGCGGTTGCCGCGCCACC -GTCCGCGCAAAAAAGCCCTGATTCGCGGAACATTTCTGGCTGCTATTGGTTTTGAAGTGATTAAAATCGTGATGA -CCTACACCCTGCCATCGTTGATGAAATCCCCCTCTGGCGCAGCATTTGGTTCCGTGCTGGGGCTGATGGCATTTT -TCTACTTCTTCGCCCGTTTGACGCTGTTTTGCGCGGCGTGGATTGCCACCGCCGAATATAAAGACGACCCGCGAA -TGCCGGGGAAAACGCAGCCTTAAAATAGGCCGGATGCGGCGTAAACGCCTTATCCGGCATACGATTTTATTCGGC -CTGGCTCCCCGTAGGCCGGATAAGATGCGCCAGCATCGCATCCGGCTATAATGCGCACATAACCTCTTGAAACTC -GTCCCCAGAGCCTCTTCAGCCATCTATTTGGGAGCAAACAATTTCATTCCAACTCATAACCCCAGCATATAAATC -CAGTTGGTAACTTTTATTTAACCTGAAACCAGTTTTATCCACTATTTATAAAATTATGTGAAGCATTTCATAGAA -GAAAAATCACTGGCCTAAACATTATCCCCTTTTTGCCTGATTTTTGACCATTTCCGCGATTTGTTACACATTGAA -ATATCACTTTTGCTGTGCGTAATATGGCTATTCGTTAGCCAAAAAATAAGAAAAGATTATGCAAGCAACAGCCAC -AACACTCGACCACGAGCAAGAATACACGCCGATCAACTCGCGTAATAAAGTCCTTGTCGCCTCTCTCATTGGCAC -AGCCATTGAGTTCTTCGACTTTTACATTTACGCCACTGCGGCCGTTATTGTGTTTCCGCATATCTTCTTCCCGCA -GGGCGATCCTACGGCAGCAACGCTACAGTCGCTCGCCACCTTCGCCATCGCCTTCGTCGCGCGCCCCATTGGCTC -TGCCGTTTTTGGTCATTTTGGCGATCGCGTTGGGCGTAAAGCGACGCTGGTCGCCTCGTTGCTAACGATGGGGAT -TTCGACCGTGGTGATTGGTCTGCTGCCGGGCTATGCCACGATTGGTATTTTCGCCCCGCTGCTGCTGGCGCTGGC -TCGATTTGGTCAGGGTCTGGGCTTAGGCGGTGAATGGGGCGGCGCGGCGCTGCTGGCGACTGAAAACGCCCCACC -GCGCAAACGTGCACTGTATGGCTCCTTTCCGCAGCTGGGCGCACCGATTGGCTTCTTCTTTGCCAATGGCACTTT -CTTGCTGCTTTCCTGGCTACTGACCGACGAGCAGTTTATGAGCTGGGGCTGGCGTGTGCCATTTATCTTCTCGGC -GGTGCTGGTCATTATCGGCCTGTATGTTCGCGTGTCGCTGCATGAGTCGCCGGTGTTTGAGAAAGTCGCTAAAGC -GAAAAAACAGGTGAAGATCCCGCTGGGTACGCTGCTGACCAAACATGTTCGCGTAACCGTACTGGGTACGTTCAT -TATGCTGGCAACCTATACGCTGTTTTACATCATGACGGTCTACTCTATGACCTTTAGTACCGCCGCCGCGCCAGT -TGGGCTTGGCCTGCCGCGTAACGAAGTGTTGTGGATGTTGATGATGGCAGTTATTGGTTTTGGCGTGATGGTGCC -AGTCGCTGGATTACTGGCTGATGCCTTTGGTCGCCGTAAAAGCATGGTAATCATCACCACGCTGATCATCCTGTT -CGCGCTGTTCGCCTTTAACCCACTGCTCGGTTCTGGCAACCCGATTCTGGTTTTTGCCTTCCTGCTGCTGGGGTT -AAGTCTGATGGGTCTGACCTTCGGGCCAATGGGTGCGCTGTTACCAGAGCTGTTTCCGACAGAAGTGCGTTACAC -CGGAGCATCGTTCTCTTACAACGTAGCGTCGATTCTCGGGGCTTCCGTTGCGCCATATATCGCAGCCTGGTTGCA -GACTAACTACGGGCTAGGTGCGGTGGGGTTATATCTGGCGGCGATGGCTGGCTTGACGTTAATCGCCCTGCTGCT -GACCCATGAGACGCGACATCAGTCGTTGTAATAAGAGTGAAAAGCCTGATGCGCTACGCTTATCAGGCCTGAATT -TCCATACAATATATTGAATTCGCAAGGATTTGTAGGCCGGATAAGGCGTTCACGCCGCATCCGGCATGAACAAAG -CACACTTTGCCAACAATCTAAATCTGTTTAATTGCCGGATGTCAGACATCCGGCAATTATCATCACTTCTTCATC -TGCGACAAAATCGTCCGACACTGATTAGCCTCCCCTTCGGAAGGTGAGATCAGTGCCAGTAACGCCGCCGCCGGT -GTTACCAGCGTTGCCAGTGCCGCAGCAACAGCACCACGGGCAATCAGCGGTCCGGCTTTCACCCCAGCCTGCGGA -TTTTTAAACGTCCCCCGCACATACAGCGGCGAACGCAGTGTGATAATCCGAATTCCTTTACTCTCCGGATCAATA -GTCAAATCCAGCTGTTCCGAAGCAAAACTTGCCGTGCCGGTAACATTAATCAACGCGTTCTCAGTATCGAAAGCA -AAAATCTGCGGGCGCGCCACGCCGTTGGCAATATTCAGATTCGCCGCCGCGCAGTTCACCCGCACCTCATCATCA -CCAAATATCGCACCGACAATGTAGTTGCCGACATTCAGCCCAACAATCTCCATCAGGTTGCGGCTCACCAGCCCG -TCATTCATCAACAGTTTCAGGTTGCCGTTACTGTTGCCTAAAAGTGCCGCCACCGAGTTACCGCTACCGCGTAGT -TCCGCGTCACCGTTCATTTCCCCCAGCGTCTTCTGCATCAGTTCCACATCGGGCATCAGTTCTTTCAGTTTCAGT -CGACGAGCCTGAATATCTGCCCGCCCCTGCATCGGCTTTTTATCGCCTTCCAGATGAATATTCGCCGCAATGCTG -CCGCCCGCCATGCCAAATTTCAGCGGTTGCAGGCGCAGGTCAGCATTTTTGAGGATGATATGAGTAGAAAGATCG -CTAATCGGCAGGCTACTGCCATGCTCAATGCGCCGCCCTTTGAAGCGAACATCGGCATCCATAACGTCCCATTTA -TCGGTTTCGAAGCGGTCATAAGGCAGCACTTTGCCCGCAGGCTGAACGCTTTTTTCGCCCTTCTTCTGTTCAGAC -CGTTTCGACTTTTCTGCCCCTTTCCCGGAATCAACGCCAATCAACGGTCCCAGGTCCGCCAGCCGCAATTGCCGC -GACTCGACATCACCTTCCAGTTTTGGTCGTGGCTTTCCGGTGGTGTAGACCAGAGAACCGTGGATATCGCTATCA -CCAATTCGCCCATTAAAACCGCGATAATCAAAGACCGACGATTTTTCAGTGTCGATTTTCGCTACCAGCCGACCA -TCCGTTTCAAACGGCGGGGTATCGGGCAGCAGAACGCCCGTCAGTTCATAGAGATCACCCAGTGAATCGCCAGAA -AATTTAAGCCGTAAATCGACACCGCCCATCTTCATTGGGTCATTCACGACGCCATCAAAAGCAACACGGGTGTTA -CCAGAGCGGAAATCAGCCTGTACCGGAAACGGCGTCCCTTCGCCACGCAGCGCCAGCATACCGCCTATTTTTCCC -GTACCCGTGAGCGGTTCACCGTTATATCGTCCCTGCGCCTTCAGGCCAAAAACGTAATCGCCCACCTTTTCTTTA -TCCGCTTTACCTTTCGATCCAGTAACTTCGCTGAACGGCAGCGGCTTGCCTAAGGGATCAACAAAAATCTCCAGA -TCCGCTTTGCTTACTTTGTCATCAATGGCGATCCGCCCTTGATCGAAAAGAATATTATCCAGCCGAAACGACCAT -GCCGACGGCTTTGCATTCGCGTCTTTGTTATCATCGTTGGCAAGATTAAACGTCCAGTTATTGTTCTTTTCAGAG -AGGCGAATCAGGCGCGCGTCGGGCTTTTCGAGCTTGATCCACGGCAGCCAGACCGTTTTGGTCAGCAGCGCCAGC -GGGGCCAGCGTTGCCTCTACGCGTGGCAAATGCACCATCGTGACTTCGGGAATATCCGGTGGATTGCCAAGAATG -ATGTCTTCCGCGTGTACATGGGGCCACGGCACCCAGCTGCGCCAGCCAGTTTCTTGTTTTTGCCGCTCCCACACC -ACGCCCAGATCGCCACGGATAGCGAACGGACGATTCAACTCCGCAGAGACTTTCTGGTTGATAGTCGGTTTGAGT -CGATTCCAGTCAAAAGTTGCAATCAAAATGATCGCCACGACAATCAACAACAAGAAAGCCCCTGAAATCGCAGCG -GTTATTTTGCCTGCCTTGCTCATCGTTCGCTTCCTCATATTCTTCCTGTGCCAGTCCTAAAGATAGTCCAGCCAG -GCGGAAAATGAGGCAGCTTATAGCGCCAGAACCGCCGTATTCAGCGTTTCTATCGGTGCCGGGCGTGAAAGAAAC -CAGCCTTGTGCGGCGAATGCGGGCGAGTTCTGAACATCACGCCACTCTTCCGGCGTTTCTACGCCCTCGACAATC -ACCCCGCGACAATAGCGATTCATTAGATGTAAAAGCTGAGAAAAGAGTGTGCGTCCTTCCGGCGACTGACGCAGC -ATCACAAACAGTTCTCGCGCGATTTTGATGTAGTCATAACGCACTTCACTTAGCGCAGAGAAATTTGCCATCCCG -GTACCAAAATCATCCAGCCACAGCGGGCCAAATTCACACATCGAGGCAAAGGTTGAATCTTTCGGCAGACGGATA -TGCTCCACCAGTTCGAAACGCAGCCAGGGAAGACGCTCAATCTGGCGCAGGATTTTTGGTTGCTGACGCAGGGCG -ATGAGCGTAGGGCCATCAATATTGACCGATGCCAGCAGGCCGTGCTCTATAAAGAAGTCGGCTTTTTGCGCCAGC -AAATCAATCTGCTCTTTCACAACCTCCATCCGATGGCTGACGGTGATTTCAGTAAAATAGCGATCCGGCGGCAGG -CGTTGCGAAGGGTTCAAGGGATGCGTGACCACCGTTAATAGCTCCACGGCCATTAACCGCCCGCATGTTTGATAG -ATCGGCTGCCAGGTGTAAGCACGCTCACACTGCAACCAAAAACGCCGTTCCTGCAAGCTCTCGATGCTTGCTTCA -GGGTTGCTTATTCGCTGGATAACCTGCCTTATCATCAAAGATGTCCTGTGTTTAAAAGTGATGCTGCCCGGACTC -GACAAAGATTATCGGCGCGTAAGGGCAGAACTTTACCGCCTGGCCGGGGTAAATTTCCTCACTCCACAACGGAAT -CTTTCAGGAATACGTTCTGGCTCAAAAAAATAATGGAACACTGTTTTAATATGGTTGACCAGCAAACCACCACAG -CGCAAACTAACGCTAATTTTTTACAGATCAGGTTCACGACTATGTCCAAAAAGATTGCCGTGATTGGCGAATGCA -TGATTGAGCTTTCCGAGAAAGGCGCGGACGTTAAGCGCGGTTTCGGCGGCGATACCCTGAACACTTCCGTCTATA -TCGCCCGTCAGGTCGATCCTGCGGCATTAACCGTTCATTACGTAACGGCGCTGGGAACGGACAGTTTTAGCCAGC -AGATGCTGGACGCCTGGCACGGCGAGAACGTTGATACTTCCCTGACCCAACGGATGGAAAACCGTCTGCCGGGCC -TTTACTACATTGAAACCGACAGCACCGGCGAGCGTACGTTCTACTACTGGCGGAACGAAGCCGCCGCCAAATTCT -GGCTGGAGAGTGAGCAGTCTGCGGCGATTTGCGAAGAGCTGGCGAATTTCGATTATCTCTACCTGAGCGGGATTA -GCCTGGCGATCTTAAGCCCGACCAGCCGCGAAAAGCTGCTTTCCCTGCTGCGCGAATGCCGCGCCAACGGCGGAA -AAGTGATTTTCGACAATAACTATCGTCCGCGCCTGTGGGCCAGCAAAGAAGAGACACAGCAGGTGTACCAACAAA -TGCTGGAATGCACGGATATCGCCTTCCTGACGCTGGACGACGAAGACGCGCTGTGGGGTCAACAGCCGGTGGAAG -ACGTCATTGCGCGCACCCATAACGCGGGCGTGAAAGAAGTGGTGGTGAAACGCGGGGCGGATTCTTGCCTGGTGT -CCATTGCTGGCGAAGGGTTAGTGGATGTTCCGGCGGTGAAACTGCCGAAAGAAAAAGTGATCGATACCACCGCAG -CTGGCGACTCTTTCAGTGCCGGTTATCTGGCGGTACGTCTGACAGGCGGCAGCGCGGAAGACGCGGCGAAACGTG -GGCACCTGACCGCAAGTACCGTTATTCAGTATCGCGGCGCGATTATCCCGCGTGAGGCGATGCCAGCGTAAACGC -AGCATATGCAAAAGGCTGGATAAAGTGTTACCCCTCTATCCAGCTCATCCATAAATACCTGATGGTTGTGCTAAC -TCATCACCATCAGGCATTACTGTGCAGGTGGAATATCCGTCACTTCAGGATGTACGTCATCCGTGGCGACAGAGG -TGGTCGCAGCGGCGGTAGATGGGGCCATGATTTGATCCCAGACCGCCTGCAACGCTTTCATGTTAAATTCCGGCT -CGCCTTTCGGCTGCAGCAGTATTAACGCCATATCATTCGACAACTGTTGACGCAGATCCTGATTTAACATCTCTA -CCGTCAGGCTATTAAGGAAATCCTGCCGCAGTTTCTGATATTGCTCCGGCGCGATATCGACAACCTGATTTTGCA -ACGAACGCATCCGCTGACCCATCAGAATATCGGTATCAGCTCGTGCATAGGCGGCAAACAGTTTCTGCAGCTCCA -GTTTCTTTTGCGCCACTAACGCATTGAACTCTTCTTCCGGCAGACCTTTATCGCGAACCTTCGCCAGTTCACGCG -CCACCAGATTAAGGTTGCTGTTCAGCTTGTCGTTTGGTGATTCGATGTTGATGGCACACTGCGCACGCAGATACA -GCACACGGCAGTCAAATCCAAGACCGATGTCTTTGCTGTTACTGGCACTTAACGCTTGCTGAACATGCCAGAACA -GCGCCTCGCGGGCCAGGTCCGCACGCCAGTAGCGCAGCAGTGCGGCTGATTCACGAATCGGCTGCCACGGCGTAT -CCCACATGATAGATAACCGGTCCTGACGCACCGCGTCAGTCATAATACTCACCGCTTCCGCACGCAGCGGAGAAA -GCGTCGGCACCGGAGCTGGCGTTTCACGTTTGCCTTTCAGTTCGCCAAACGTTTTGTTTATTTGGTCGACAACCG -AGCGCGCATCCACGTTTCCCACCACCAGTAGCGTCATTGCATCCGGGGTGTACCATTTCTGATAGAAATCTTTAA -TTTTTTCCGCTTCAACGGGTTGTTTCAGCGGATCGGCAGGATCGTGACCTAACAAGGTTGACCCTTTCAGACGAT -AGCGCCACCAGCCCTCTTTAGTATCGGCAGGCCAGGTTGCCACCATGTCCTGACTTTGCAGCGCGTGGTTGATGG -TTTCTGGTGTGATGGTCAATTTGCCAGTGGCATTTGCCAGATAAGAGAGCGCTTCTTTCAGCAAATCGTTACGGT -TATTGGGCAAACTCAGATTAAACAGCGTGGTGTCATAAGAGACAATTACCGGCGGCATCGGGCGTTTAGGGTCGA -TCCCCTGCTGCCACAATGAACGCGCCTGTGCTGCGTCAAGGCCACCGCTTTGCGTTAGCGCAATACGAGGGATGG -CGTGACTGTAACCGCTCTGTTGTGTACTTTCGGCGAGCGAACCGGTATTAACCAGCAGGCGAATTTCAACACGAT -CGCTGGGACGCTGGGGGGTGGTCAGCACTTGCCACTGTAAACCGTTGGAAAGCGTCCCCTGTTGCCATGCTGGAT -CAGGCTGGAGCGCATCTGCCTGCACATAGCCAGCAGTGGCCATCATCAGCAAACCGCCCGCTAAAAGTCGAATTT -TTGTGCCCTGCATGTGAACCCCTGATCAACTATCCTGGTAATAAAAAAACTGCCCGTTGTCGGTCAGTCTAAATG -ACGTTAAAAACACTTCGTGTTAGACCGCAAGAACATGAAAATGTCACGGAAGAAGTGAAATAAACCTGAACTCAC -CCAGGTGGTAAGTTCAGGCACAGGGGTCAATTATGCGCAAACACCCGCACTCGGGGAAGGGAGTGCGGGCATAAG -TGATGAGATTAAGAGGATAATTCGTGCGTTTTGCCATCCGGCGCACGATTATTCAGCACATCGTCCAGTTTTTTG -TGGTCCAGTTCTTTCACCCACTTAGCAACGACAATGGTCGCTACGCCGTTACCGACCAGGTTAGTCAGCGCACGA -GCTTCTGACATAAAGCGGTCGATACCGAGGATCAGCGCCAGACCCGCTACCGGCAAATGGCCCACCGCAGAGAGC -GTCGCCGCCAGCACGATAAAGCCACTACCCGTTACCCCTGCCGCCCCTTTAGAAGAAAGCAGCAACACGATTAAC -AGCGTGATTTGGTGGACGATATCCATCTGACTGTTAGTGGCCTGGGCGATAAACACCGCCGCCATTGTCAGGTAT -ATCGATGTGCCATCAAGGTTAAACGAGTAGCCTGTCGGGATGACCAGCCCCACCACCGATTTACGGCAGCCGAGT -TTCTCCATCTTGTCGAGCATACGCGGCAGCGCCGACTCGGAAGATGAAGTCCCCAGTACAATCAGCAGTTCTTCA -CGGATGTAGCGGATAAATTTGAAGATACTGAAACCAGTCGCTTTAGCGATTGAACCCAATACCAGCACCACAAAC -AGGATACAGGTAATGTAGAAACAGATAATCAGCTGCCCCAGTTGCACCAGTGTGCCGACGCCGTATTTACCGATG -GTAAACGCCATTGCCCCGAACGCACCAATAGGTGCCAGACGCATGATCATATTGATGATGCCGAAGATGACCTGC -GAGAAACTTTCGATGACGTTAAAAATCAGTTGGCCTTTGCTGCCCAGACGGTGGAGCGCAAAACCAAACAGTACG -GCAAACAGCAGCACCTGCAGAATGTTACCGCTGGCAAATGCGCCAATGACGCTCGCCGGGATGACATCCATAATG -AAGGCGACAATGCCCTGGTCTTTCGCCTGATCGGCGTAAACCGCTACCGCTTTCGCATCAAGCGTTGCCGGATCG -ACGTTCATTCCGGCACCAGGCTGCACGACGTTAACGATGATAAGACCAATAATCAGCGCGATGGTACTGACAATT -TCAAAGTAAAGCAGTGCGACTGCGCCGGTACGACCGACCGCCTTCATGCTTTCCATGCCCGCAATGCCCGTTACG -ACGGTACAAAAGATGACAGGAGCGATGATCATCTTAATGAGCTTAACGAAGCCGTCGCCAAGCGGTTTCATTTGC -TCGCCTATTTCAGGATAGAAATGGCCAAGGAGAATACCAATGGCTATCGCTGTCAGGACCTGAAAGTAAAGGCTT -TTAAACAGAGAGGTTTTCATAGGGTGTCCTTTAGTAAAACCACAGGTCTTGTAAGGTTATGGGGTACCTGCGGCC -TTAAAATAACACCCAGACAACATCACAGAAATGTACCTGGATCATAATTGAAACAAAAAGGTTAAAAAGTTTGAG -CTGGCTCGCACAAACCAGCACTTTTTAAAGTTTTGTAATCAGTTTGGGGTAGCTACTTTTCTTCCAGGTAACTCT -CTTCGAAGATTTCAATAGGGAGTGGGCGAGCAAAAAGGAAGCCCTGGGCAATACCAACGCCCGCTTTTGCCAGCC -AGTCGCGTTGTGCTTCAGTCTCCACGCCTTCGGCAATCATTTGTAAGTTCAGGCTCTGCGCCAGCATGATAATTG -CAGCAATCATGCTGCTATCTCCCGGCAAGCCTTCAACAAACATTTTGTCGATTTTCAGTACGTCGATTGGCAACG -ATTTCATATGCTGCAGCTGACGCAGCCCTGCGTAGCCCATGCCGAAATCATCCAGCGCCACCCGAACTCCGGCAT -TGCGCAGCGGACGGAGGATTGCCACCGCAGCATGAGGGTCGTCAATACGTCGGCTTTCTGTCACTTCCAGAATCA -GTGTTCCCGGCTGAATGCGATAGCGGGTTAACAGTTCCAGCATATCCGCCACCATATTCGGGTGCATCAGTTGCA -GCGCAGAGAGGTTTACCGACAAGGGCAGCATAATGCCGCGCTCTTGCCAGGCTGCAAGCAATCGACAGGACTCTT -CCAGCACCCAGTGACCGACGGTAACCATCAGCCCACAGCACTCAATGCGATCGATTAAGCCATCCGGCAGGTCCC -AACTGCCATCCGGTTGCTGGATACGCAGTAACACTTCCGCACTGACCAGTTTACCGCTGGTCATCTCGACCTGTG -GCTGTAACCAAATAGCAAACTGATGATTTTCCAGTGCATTAAGGATATCGCTCTCTTCCGTCAACCGCTTCTGGG -CGGCTTCCATCTGCTGCGGATCAAAGAACTGAATCTGATTCTTGCCTTTATGGCGAGCGGTAAATGCCGCAGAAA -TAGCGCGACTGTAAAGCTGTTCGGCGGTGAGATCGCCGTAGAACATCGCCACGCCAATGCTACAGTGCGGACGGA -GTTGAATACGTTCAATCGGCAGGCGCTCGCTCATGATAGTGAGCACTTGCTGACCTAAGGTGATTGCGTGCCACG -GTTCCTGTACACCGTTGGCAATGACAGCAAAGTCATAACCGCTAATCTGCGCGAGGATCATACGTGGCGACAGTA -CCGATTTGAGTTTTTCCACCAGCGTCAGCAGCAGAATTTCTCGTTGCGCCTCTTTCAGCACGCCCGCAGTATCAC -GCAGGGTTTCACAGGTGATGATCATCAGCGCGGTGGTTTGTTTACGCGCGACAACCTGCTCCAGCATCTCCATCA -GCAAGGCTTTGTTCGGCAAATCCGACACCGGGAAGCGCATCGCATTTTCGTTCTGTTCTTCATAATGGCGCTGCA -GCAATTGCTGGTTGAGGTTGTAACTGCGCACCAACATACCGATTTCATCGTCCTGATGCAGACGCGGTAATGCCA -GTTGGTGACCAACAAGCTCCTTGGCTGGGATGGCGTTAAGTTCGCGAGCAATATTGCGTAACGGATGCAAAATCA -GGCGGTTAATGCACCAGCTGATGGCGACGGTCAGGATAAGCGACAAAAGTAAGTAAATGGTCACTAACGTTGAGA -GGGTGCTCATCACGAACTTATACATACGGAAGGAATCCGCCTGTAGTACCAGATAGGCAATTGGCTGCGGGTTTG -CCGGACGTTCGAGCGAGTAAACGCCCAGCGAGATTTGAACCGGTAGCTCAAACAGGCGAGTAACCATTACCGGCA -CCGGGCGCTCTGGAATAAAACTTTTACGCAGCGCCTGGAACTGGTTAGGCAGCACTACATCGGCACGGCTGACCA -CGCCTGCCGGTTTAATGCTGGCAAGAATAGCTTCCGCTTCGGGAATATCGCCTTTCAAAATAGCTGAAGATAAGG -GTTCGCGGACAGAGCGAGCAATGCTTTCCAGTTGCGTAGCCGTGTTATAGCGATTCTGCTGGACCAGATGGAACA -GCAAAACGGTGCAAAAAATAAAAACGAACACCAGGACAACGGCTGCCACCATTGCCATCTGCTTGATTGTTAACG -AGCGACTTACGCGCAAATTGTCTCCCCCCGGAAATCCCAGATTGCCGCCCGAGTATACCCGATCGCAGCGGCATT -AAGAGAGGCGCTATCTGAAAACTTACCAGTCGGCGTAAGGTATCAGCGGCTGCGGCGGTAAATCCATGTCACCCT -GCCATCCGGCGGCGGAATAACGTACGTAGAGCAGGAAATGGCTGGGTGCGTAATCTTTCGCCTGCTGGATATCAA -TTGCCGTGCCAACAAACCAGTTGGAAGTAACACGTCGTTCAAGTAATGCCCGCGCCGTGTAGCCGAAGCCCTGAC -TGCTGCCGCCATCGTTGGATTGCCGCGCAGCTTCTTCCTGCCAGTCGGTCGGGATCAGATTCATCAGCGGATAAC -GCGGCATGGTTTTGGTGCGTGAATGCGACCACGAGCCAGACGCACCCAGCTCCCACGACCAGTTTTCCGTGCGCT -CCCGCCACATCACCGGTATGGCAAACGACAGGTATTCCTGCGGACTGTAGTAACCGCCCTGACCGAGTGAGTAGC -CACTCAGATCTTTGTCGTAATGCCAGATCATGTTGTTCAGGCCGATTGTGACGCGGCGATTGTTCTGGTTAATGA -CCTTATAGTAATAGCCCGTCATCCAGCGCACGCGCCAGTTATCTTCGACATTTTTACCGGTTAACTGGTCGCCAC -TAAGCGATGCCCAGACGCCGTTTGCTTCACCTTTATCGTAGCTCAGACTTAGCCCCACACCGTCGGCACGTACGC -CACCCCATTTTTTCCCGGTATTGCTCGGGGAGTCTTTTTGCCCACCAAAGGCCAGCAAAGAACTGGAGATGGGCC -GACGGTGGGCGTTAACGGTGTAACCCAGCGGCCCGATATCATCGCTGTAACTGATGCCGCCGACCACATCCACCA -CGTTGAAGCCCATCGGCGTGGTACCGATATCCCAGCTCCAGACGTCATTTCGCCAGCCGACCGCCACGCTGGCAC -CGGAATCCGACTGGCTGCGGTTGCCGCTACAGTCCTGTAATGTACAGGTGCCCCAGTTGTCATCCCATTTGCCAT -CGGCATTAGTGGAGAAACTGCCGACGTTCATATTGACGAAATCACTGCGAAAGAACATCCGCCCGTCAGAATACG -GCGCATCCACCTGCAACATGGTAGTGTGCGCTTTCAGATCGGAGTAACCACCGGTGCCGCTCGAACCCCAGTAAT -CGTGCTCAAGGGTGACGTTAAGATCCTGCTGGCGATAGAGGTCCGCCGCATCGCTGCGCACGCCACGTTTCAGCC -AGTCATCTTTCTCGTCGTTACGGGTCAGTCGGGTAAAGGTGTCGTTATCCTGCGGACGCGTCGTAGTCACACCGG -ATGCGACCATGGCGTCTTTGTAGGTTTCCAGCGCCTGCGTTGGATCGCCCGCCTGCGCTTCAAACTTCGCACCAT -CACGCAGCACCATCGCGCTTTCCATCGACGGTGGCTGAGATTTTGCCTGCGGGATCAACTTATTAAACGTCCGCT -GCGCTGCTGCGGTATCGCCAAGCTGCGCCTGTGCCAGCGCCACGCGCCGCTGTGTGTTCAGCGAGGCGTTATCGG -TAGCGGGCAGTTTCGCCAGCTGGCTACGTGCCGCCGCTTTGTCACCGGCAGCAATATCCACTTCCGTCAGACCAA -GAATGGCGTCGGCGTTAGCTGGCTCCCGCGTCAGGACATTCTGATATGCAGCGCGGGCGGCGGTGTAATCACGTC -GTTGTTGCGCCCAGTCAGCCAGCGTGAGGTCAATACGCGTGGAAGGTGGTTGCTGGCGCAGCATCGCTTCCGCTT -CTGCCTCTTTGCCGCTTTCTCGCAGGCGGTTAGCGGTTTCCAGCACCTGATCGCTTTGCAGTCGATTAACCAGCT -CCTGAATATTGCTGTTCCACTGCGCACGCGGCAGGCTATTGATATGCGCCAGCGCCGCTCTGTCCTGGTCATGAC -CAGAGAGGTACAGCCCGTAAGCGTAAACCTGCTCCGGGTCGTTCGACTTCTGCTGCGCCAGATTGCGCATTAACG -TATCGGCCTGGCTGCGTTGTCCGGCCTGCCAGAGATCCTGCGAAAGTCGGTAAGTAATCCATACGCTGCCGGGGT -CCAGCGCCAGTCGTTGCCGCTGAAGTGCTGCCGCCTGCGCCCATTTGCCCTGGTTTTCCAGTGCCTCTGCCTGCT -GTGCCAGACGGTCGTTTTGCAGGCTGCGTTCGATATCATCAATGCTACGCCGCTGACTGGCAGAGAGCGAGGCGA -TAAACGCTTCAGCTTTTTCTGGCGATTGCTGGCGGTAAATATTTGCCAGCCCGCGCACGGCGTTAGTGTTGCCGC -TGTCCATACGCAAGGTCTGCTGATAATAACGTTCGGCGGCGGGATAATCTTTTCGCGCCATCGCCACATCGCCCA -GCCCCAGCACTGCATAACTGTCGGTGTTATCGACATTACGCGCCTGCTGGAACAGGCGTTCTGCCCGGTCAGGAT -TATTGGCTTTCAGCGCAGCATCGCCCTGCTGGATCGCCAGCCAGTAGCGGTTTACTTTCAGCAGACTGTTCCATT -TGTCGTTGTTGCTGCTGTGCGGGTCCAGTGCGAGGGCTTTTTCCAGATTCGCCACTGCATTGGCGCGATCGCCTT -TCTGAGAATACGCCTGGCCCAGCGCCCCCAGAGCTTCACTGTCTTTCGGGTTCGCCCGCACCGCCTGTTGTAGTT -CGGGAATGGCTTTACCCGCCATACCAGAGTCCACCGCCGCTAAACCTTGCGCACGAGCGCGGAAAGCAGGATCGG -CCAGCTGTTTTTGCTGTTCTGCCAGTTGCGATTGCGCAGCCGCCACGCTATCGCCATCACTAAAGATCGAGAGAT -ATTTTTTCAGCGCCGACACACTGGCATCACTGACGGGCATGTCTTTAATCTGCCCGTACCAGATTTTAGAGGCCC -CTTCGCGCCCGGCGTTCGATTTTGCCATCTGTTCCAGGACGGCAAAACCTTCGTCACGGCGATCGCTACTAAACA -GCAATAGCGCCAGATTGTTTTGCAGGCCCGTATTGCCCGGTGCATCCGCATTGATGCGTTTTAACTGATTAATCG -CTTCGCCACGGCGAGCCGGAATTTTCGCCACCGTACTCCAGTACTCGACAGCAATGTCACCTTCCGGCGGCGCAC -CGTTGAACAGTTTGTTGTAACTCGCCACAGCTTCTTCTGCATGACCGGTCGTCGCCTGCAATCGTGCCTGTTGCA -GTGCCTGACGACCATCCGGCGTGGAAAGTAGCATCGTAGTCCGCGACGATTTATACGCATTTGAACTCGGCGCTA -ACTGCGACAGCCGATCGAGCTGTTTTTGCGCGCCATCAATATCGCCCTGACGTAACAAAGAACGGAAACGGGCGG -CAACGACGTCCGGGTTATTCGGATCAATAAGTTCCAGCCGATATAACGACTGTTGCACCAGATCTTCACGATGGG -TCGCTTCGCCTAACCGAACTTGCTCCAGCAACTGTTGCTGAGCGGTTGGTGCTGCCTCGACCATCGGCATGACGG -CCAGACCGAGGGAAAGCGTGAATATGTTTAGTGTGAATTTGCGCATTCCTGGCCCCAGTCAGGTAATAACTCACC -TTTTGTCGAGAAGCGGAAACGGTGTTGATCCCAGCCTTGTCCAAACAGGGTCAGCACATAGTTGTAATAGGCATC -GCTGCCGGGAAAGTTATCGGCCACGCGCTGGCGCTGAACGGCCTGCGCATCGCGGTTTTGTAAAAAGGGCAGCAT -GGCGGCAGAAAAACCGACTGGTCCTTTACCCTGCGCTTTCCCCGTAGCCACATCCACTTTTTCCGGCGGATAACC -GTTTTTCTCAGTGAATGTCGCCATCGGTTTAAACCGGTTGAGCATCCGCGCTTTTTGCGGATCGCTGTCAGGCAT -CATGCCTACCCACATGTAAACGCGGATAGCGTCGTAGCTGCTGATCAATGTTTTTTCGGCTTTTAGCTGCCAGCC -TTTGTCTTTCTCATAGCGCACCCAGTCTGGCGAAAAACCTTTCGGGGCGGTTTCCAGCAATAAACGTTGATTGGT -TTCGCGCAGCGTGGTCCACGGCGCGCCAAAGCGGGTGAAATACTGCGCCAGCGTCGGCGGCAGGTAGCTGGGGTT -AAAACGCCAGCTGTTATCCTCAGCAAAACCCACTTTGCCCGGTAACAACATGGAACCCAGCCCAGGCACCGTCAC -CACTTCCTCCCGCGCGATACGTTTTAGCAACGCGCTGCCGATGTCGGTATAACGCTGCTCTTTCCACAAACGCCC -CGCCTCCAGCAACGACCAGGCCATCCAGACATCACCATCGGAGGCCGAATTGCTGTCCAGCACTTCCCACTTACT -GTTCTCTTTCTTGCCCCACAGCCAGGCGGGCAAACGTTCTTTTAAAGAACCCTGAGCGAGATTGTTCTGCGTCCA -GTCGAGAATATTATCGAAAGCTGCACGGTCGTTAGCCGCCAGGGCAGAGAACATGCCGTAACTTTGCCCTTCGGA -GGTGGTGATTTTGCGCGCGTCGCTGGGGTCGATGACGCGCCCTTCCTGACTGATGTAATCCTTTTTAAACTGCTC -CCAGGCAGGCCAGGTACAGGCTGCCTGAACACTAAAGGCAGCCAGCAGCAGCATCGTCACGATTCCACTACGCAA -CACATTCATCTTCAATTACTCGTTATCCGGGTTAAGACGACGACGACTAATAATTCGCAGCAGACGCCACAGTAC -CCATGCCAGCAATATCACACTGATAGCCGCCAGCACCGCCAGCAGAATCGGATGGTTTGCCAGCGCATACCACAC -GCGCTCGAACCACGGCAGATGACCTACGTAATAAACGTCGCCAACACGTAGGCTGTTGATACCGGACTCGCGGAT -CACCGCGACCGAACCGAACATGGTGGCGCGTTTGCCGCTATCGTTCACCGCATCGTTAAGCATTTCATAACCGCG -TGGGCTATCTGCCAACAGCGCAATCACGCTGCGCTGGTCGTTATACGGCGACTGGAAGCCAATCACCGCCGCCAT -CGCACCGGAAGAGGTCAGCGTTGACCGGGTTTCTGCCGCGCGATCGCTCTCGTCCGGCACAATGCCGGGGAACGG -GGTCTGGCGCATCGGTGTTTTCACCCAGCTTTCGGTCGCCTGCACCAATAGGTCGATCTGCTTATCGTCTTTCAG -TTTGTCCGGGATACCACCGATGATCATGATGTCGGCATCTTTGCCCTGAATGGTGCTGCCATCATCGGTCACCGT -CAGATTAATCGCCGGGAAGCCCGTCTGTGCGCCGATAAAACCAACAGTATTCAGCAACGTTTCCATCTGTGCTTC -GTTAGGCGCTTTCGGCATCACGGTGATGGTTTGCGACAGATCCGCCATCCGGCTGAATGGGAAGCCCGCGTTAGC -AAAGGCGCGTAGATCCGGCATCGGGATGAAGTGGTAATACTTCGAGAAGTCGATGGTGGAGTCGTCACCAATCAC -CACATGATTCTGCACCGGCTGGAAGGTAATACAGTTATCCACCGAACCGCCCGGCATCGGGTTCATATACTCAAA -GTCGAAGCGCAGCTGGTTGGTCGCGCCCAGTTTCAGCGCCGGAATAGAGACATCTGTTTTGCCATCCAGCAAACC -TTGTAATACCGGAATCCGCAGCAGCAGGCGGTTCGCCTCCTGTTTGCTGCTCAGGTTGAAGGATTGCAGGAACTG -GTTATTCAGGCTGATATCCATCCGCGAACTGTCTTTCACCGGCGGCATGGTGTAGCGGTAATTAATATCCATATC -AATGCCGGTACTGCGCATCAGGTAGAGATCCGGCGGCAGGTTTAGCGAAACGTTAATCGCTGCTGGCTCAAGACC -GCTGGATTGTAACTGTTCTTCATAGGTTTTCAGTTCGCCAAATGTGACCGGACGATCGGTACGTACCCAGTTCGG -CGCATCGTACGGCTTACGCGGTAGCAGCGGTTTCACTTCATTCACTACCACGCTTTCACCACGGAACAGAATGTT -ACCCTGAGCGATACCTTTCGCTGCCTGCAACAGGTCTTTGTCGTCACGACCAAACACCACCAGCAGTTTGACGTA -AGGATTCTGCGGATGGTTAATCATCTCAATCACCGGGGCTTTTACCGCCGGATGATCGCGCAGGAAGTCCGGCCG -TTTGTCGTTGGTTGCAAAGACAATGGCATTGCGATCCGGCAGTTGGTTATAGAGTACCGGGAAGTTCTGCCCACG -CCAGCCAGAACGCGAACCAAACCACGAGGCGACAATGGCAGAGGCTTGTTGCAGCCCAACATCCGGCGCACCCGC -AAAGACCATCGGCAAGGTGTTGGTGCGGTTATCGCTCGGGTCAAAGAATGGCACCGGGAAGTGTGACAGGTCATT -CTTCACATTCAGGGTCTGATAGGTCAGATCCAGTCCACTGCTCCGCCCAACATCCAGCCAAAGCGTGGTGCTGGC -CGGTTTTTCGCACACGTCCTGATAATGGCCGACAAACTCCAGCCGTACACGGTTGAAGTCGCTAATAAACAGTGG -GTTAATGGGCATTTGCGCCAGCGTTTTTTTACCCAACTGTTCTTTGGTCACTGGCAGCACGCCCATCAGTTCATC -ATTGAGATAAACCTTTAACTGCGACTGGACAGGCAGTAACGATGGCGATGGGGTGTATTCGAGGTTGAGCATCGC -CTTCGTCACCACTTCATCGCTGCGCATACCAAACTCAATGCTGCCGTTCGGGTTAATGCCACGTAGCACCATGCT -GCCCGGCGGCGGTGCAATTTGCGCAAAGGTCAGCTTCACATCACGCGAAGGACCGTTCTGCGCCACGACTGGCGC -ATCAGCGCCCTGCACGCCCGGCATCACTTGCCCCACCTGCGGATTTTGTTCCGTCTGGGCGGCTACAGCTGGCTC -AGCATTGATCAGTGGTTGCGTTGCTGGCGTCGCCTGCGTCATGAAAGAGGGGAACGCACTCATCCCCATAGCCAC -TGCACAAATCCAGAATAGTTTTCTTTTCATCGCGTTATCATCATTGTTGAGCCAAAGCCTGATCCGATGGTTGTG -CCGTTTCGCTCCGCTCCGGGCGGCGCGGAATAAACGATACAACCCAGGAAACCAGAGAAGTCAGCACACGGAATA -TGCCCTTCACCGAAGAAGGCGCAAACTCCGCCAGATGGCGGTAGCCACGGAAGCCGAGCTTCAGAATATCCAGCA -GACTTTCCAGCGGCTTATCTTCCGGGTAGCTGTCCTGCCAGAGCGCCCATGTATCCGCACGGGCAAACGTACACT -GCACAAAATCGATATGTTGCTGGGTGGTGAGCGGCATTAATTTCAGCCCAACTTCATTACCCATCACGCGCGCCA -CCTGGGTCGGGAAGACGTATTCCTGCTGACCGCGTTTAAGCAACAGATTCACTTTCTGCCCTTCCAGAATCTGCG -CCTGACCGTTGATCTTGATCCCCAAACCACCGTCGGAGAAATCCTGAACGGTACACGAGAAGAGGTGACCATCTT -CGCGGGCAATTGCCGCGGGCATCGTCATCTCCACGCGGTGCGATCGGCGTACCTGTTTGCTTTCTACCGATACCG -CAACTGCGCCGCCAAGAACAATCAGGTTGTAGAACACCCACACCATACTGACGACCACGGTGAGCATCTCGGTTG -GCGGGCCATAGAAGTAGCGCCAGATGCCTACCGCAACGCCCACCAGGTTGAGCAGGACAAGGAAGATGTAGGGCC -GCGAGATCACCCAGTCGACGTACTCTTCTTCCACCAGTCCACCTTTGGCGGTGACGTTAAATTTGCCTTTGTGCG -GGTTAATCAGCGCCACCAGCGTCGGTGGTGCGATATACCACGCCAGCACCGTTTCGTAGATTTCACTCCAGAAAG -AGTGGCGATATTTGCCCTGGATCTTGGAGTTGGTCAGGCTGGCATGGATCATATGCGGCAGCACGAATAGGGCGA -TCATCAACGCTGGCGCATAGATGATGTAGGCATGAAGCAGCAGGAACGCCAGCGGCGCAGTCAGGAAGATCAGCC -GTGGAATGCCCGACAAGAAGTGGAACATGGCGTTGACGTAACATAGCCGCTGAGCAAACTTCAGCCCTTTACCGG -TGAGCGGGTTATCGAGACGGAAGATTTGTACCATCCCGCGCGCCCAGCGAATACGCTGACCGATATGCGCCGACA -GACTTTCGGTCGCCAGCCCCGCCGCCTGCGGAATACGCATATACGCGGAGGTATAGCCACGACGGTGCAACCGCA -GAGAAGTATGCGCATCTTCAGTCACGGTTTCGACAGCAATGCCGCCAATTTCATCCAGCGGCTTACGACGAATCA -CCGCACAGGAACCGCAGAAGAAAGTGGCGTCCCACATATCGTTGCCATCCTGCACCAGACCATAGAACAGCGTGC -CTTCGTTCGGCGTTTTACGGAAACGCCCCAGGTTGCGTTCAAACGGGTCCGGTGAGAAGAAGTGGTGCGGCGTCT -GCATCATCGCCAGCTGTTTTTCTTTCAGGAACCAGCCCATGGTCATTTGCAAGAACGATCGCGTTGGTACGTGGT -CGCAGTCGAAAATCGACACGAACTCGCCTTTGGCATATTTCAGCGCATTGTTGATGTTGCCTGCTTTCGCATGTT -CATGAGTGGTGCGGGCGATATATTTCACCCCCACGTTTTGCGCAAACTGGCGAAACTCTTCCCTGCCGCCGTCAT -CAAGGATCCAGATATTCAGCTTATCTTTCGGCCAGTCGATACCCAGCGAGGCGTAAATGGTATTTTTCACCACGT -TGAGATCTTCGTTGTAAGTCGGGACAAAGATATCCACCGACGGCCACAGCGACATATCTTTCGGCAATGGCACCG -GCTGACGATTCAGCGGCCATACTACCTGGAAGTAGCCGAGCACCAGCACAATCCACGCGTACGTTTCAGCGAAGA -GCAGAATAAGCCCGCACACCAGGCTGACCGGATCGTCCCAGTTCAGCGTAGAGGTGTAACGCCACCAGATATAAC -GGCAAGAAACGGTCAGCGACAGCACAATCAACATTAGCGCCGAGAAGCGCCCCGGCATCCGCCGTACGATCAGCG -CTACCCCCCACAGCAGCATCAGGAAGATAAACTGCGCCAGCGGGTTAAACGGCTGAGTAACGCAGATTAACGCCA -GAATCAGCGAGAAGGTGACGATGATACCGAGGATCAACCGCCGCGCCCCGGCACTCAAATGACCGAGCTCTTTTT -TCTCATCCAGATGCTGTGTTTTATGGCTAACGCGCTCAGGCAGCTCGTTCATCCATTGATGGTAACGTCCACGAA -TATTTTGCAGACCTGAAAATGCCCGCCTGCGCGGTTTCGGCGTTTCTTTGCGCGATGCACCGATCAATAACCAGC -ATGTTTGAATGAGATAACGGACCGGGTCCAGCGGACGCGGACGCGAGGCGTTGATATGCGGATACAGGTTTTTAT -GTTCTGCGCGAATACGCTGCCAGCGCGGGTGCTCCAGCGGAATAAAAATCCAGGCCAGGATCATCCAGAAACAGC -CGAGCGTCGCGCTGAAAGCCGACGCACCGTGACGACGATAATCGCGATAACGCCCGATAAGCCGCGCGTTGACCG -GCGGGATAAGCAACCACCGGGTCAGGATACTCATGATGCACTCCCGACTGGCGTTTTCAGCCCGGAGTAGTTCAA -CAGGCACCAGTTCGCCAGCGTCAGTATCTCTTCAGCCGCCAGCGCATCACTGCGATATTCACCTACTGGTTGCTT -AGCCGCCAGGCATTCAGCCATCGCTTCATCACGATGAATGAGCATCGGCAGTAATCGGCGCTGGCTTTGCAACCA -AAGCTGGTAAATATCGTCCTGAACCTGACTGCCAATACGGAAGTCATTAATCAAAATATGTGCGCCATCCGGCAG -CGCTTGCTGATGCAGTCGGATATGGCAGTTGGCATCCACATTGACGATTGCCAGCGAGTGATCGCACAAACTCAG -CAGCTGGTGGGTTATCTGCGAGGCATCACGCGGTAAGTCGATTAAAATCCACTGGTAACGCCCGCTGGCTTTTAG -TTGCTGTAAGCCGGAGCAAATATCGCTCAGCCGGGTTTGCCAGTGCTGTGGATTTTCTTGTTCTTCAATGGATAA -CTGACCAAAAGGCAGCAAATCGAGCTGCGAGGTGTAGCGCAACCCAGCGTCACGCCAGTCCTGGCCATCCAGCAT -CGCTCTGGCCCAGCCCTGACGGTGGGTAAAATCAACATTAAATGACAGGCGCAACAAGTTGTCCGGGCAGGCATC -GACCACCAGGACATTTTCTCCCAACATTTGTAATGACCAGGCTAATGCGGCGGTGATGGTTGTTGTCCCCACGCC -TCCCCGCACCCCCTGCTATCCCAGTACGGCCATTCACCAATCCCCTACTTTTGTTGCGCAAACTCTGCCAGCAAC -GGCCAGCGTTTTAATGCCGCGGCCAACTGTTCGCGTTGGGAAATATCGGCATAATCAATATCAGGCAGTGAAAAT -GCCTGCTTTAACGCCACAATATCATTCTGGAAGATATAGCCTATCGCGGGATCAGGCAGAGTATCTGGTTCATTG -TTATTCATTTTGCTTGATCCCTATGAAATAACCGTACCGTTCATGAGACAATTCTAACCGTGAGCATTTCGCCGG -TTTATTGTTTACGGCGAGACGGGAATTTGCTCACTTTTTGACTTTCCGTTACGCAACAGAAAAAGTTAAAAACGA -AAAGACTAAAATCACACGTCTTGTGACCTTCTAAATTGATTCACATGCTAAATCTGATAAGTTTTAATTTCAATG -GTAGGTTTATTTCTTAGCTTTCGCTAGTAAACTGATAATCAGACAAAATGGTGACATGAGGGACATTGTGGACCC -TGTATTCTCTATCGGTATCTCATCATTATGGGATGAGCTGCGACATATGCCAGCAGGCGGCGTCTGGTGGTTTAA -CGTCGATCGCCATGAAGATGCTATCAGTCTGGCGAATCAAACAATTGCATCCCAGGCTGAAACCGCACACGTCGC -GGTCATTAGCATGGACAGCGATCCGGCGAAAATCTTTCAATTAGATGATTCTCAAGGGCCGGAAAAAATAAAATT -ATTTTCAATGCTAAATCATGAAAAAGGTCTATACTATTTGACCCGTGATTTGCAGTGTTCTATTGATCCCCATAA -TTACCTTTTTATTCTTGTTTGCGCAAATAACGCATGGCAAAACATTCCTGCCGAGCGGCTTCGCTCATGGTTGGA -TAAAATGAATAAATGGAGCAGGTTAAACCATTGTTCGCTTTTGGTAATTAATCCCGGAAATAATAACGATAAACA -ATTTTCATTGTTGCTTGAGGAATACCGTTCACTTTTTGGTCTTGCCAGTTTGCGTTTTCAGGGTGACCAACATTT -GCTGGATATTGCCTTCTGGTGCAACGAAAAAGGGGTCAGCGCCCGTCAGCAGCTTAGCGTTCAGCAACAAAATGG -TATCTGGACATTAGTTCAAAGCGAAGAGGCGGAGATCCAACCACGCAGCGACGAAAAACGCATTCTGAGTAATGT -TGCTGTACTGGAAGGTGCGCCGCCGCTATCGGAACACTGGCAACTGTTCAACAATAACGAAGTCCTGTTCAATGA -AGCCCGTACCGCTCAGGCGGCGACGGTGGTCTTTTCTTTACAGCAAAATGCGCAAATCGAGCCACTGGCCCGCAG -CATTCATACCCTGCGTCGCCAGCGCGGTAGTGCGATGAAAATCCTCGTGCGGGAAAATACCGCTAGCCTGCGCGC -CACCGATGAACGTTTGTTATTGGCCTGCGGTGCAAATATGGTTATTCCGTGGAATGCGCCACTCTCCCGTTGTCT -GACGATGATCGAAAGCGTGCAAGGGCAGAAGTTTAGTCGCTATGTGCCGGAAGATATCACTACCTTGCTGTCAAT -GACCCAGCCGCTCAAACTGCGTGGTTTCCAGAAGTGGGATGTGTTCTGTAATGCCGTCAACAACATGATGAATAA -CCCTCTATTACCTGCCCACGGTAAAGGCGTTCTGGTTGCCCTACGTCCGGTACCGGGTATCCGCGTTGAACAAGC -CCTGACGCTGTGTCGCCCTAACCGTACCGGCGATATCATGACCATTGGCGGTAATCGGCTGGTGCTGTTTCTCTC -ATTCTGTCGGATTAACGATCTGGATACCGCGTTGAATCATATTTTCCCATTGCCTACTGGCGACATTTTCTCAAA -CCGTATGGTCTGGTTTGAAGATGATCAAATCAGTGCCGAGCTGGTGCAGATGCGCTTGCTTGCCCCAGAACAATG -GGGCATGCCGCTGCCTTTAACGCAAAGTTCTAAACCGGTCATCAATGCCGAGCACGATGGTCGCCACTGGCGACG -AATACCAGAACCCATGCGACTGTTAGATGATGCTGTGGAGCGCTCATCATGATGACCATCAGCGATATCATTGAA -ATTATTGTCGTTTGCGCACTGATATTTTTCCCGCTGGGCTATCTGGCGCGGCACTCTTTGCGACGCATTCGCGAC -ACCTTACGTTTGTTCTTTGCTAAACCTCGTTATGTTAAACCGGCCGGGACGTTACGCCGCACGGAAAAAGCCAGG -GCAACCAAAAAATGACTCAATTTACGCAAAATACCGCCATGCCTTCTTCCCTCTGGCAATACTGGCGCGGCCTTT -CCGGCTGGAACTTCTATTTTCTGGTTAAGTTCGGCCTGTTGTGGGCGGGATATCTTAACTTCCATCCGCTCCTCA -ATTTGGTGTTTGCCGCGTTTCTGCTGATGCCCCTTCCGCGCTACAGCCTGCATCGCTTGCGCCACTGGATTGCCC -TGCCGATCGGCTTTGCTTTGTTCTGGCATGACACCTGGTTGCCTGGCCCGGAAAGCATAATGAGCCAGGGTTCGC -AGGTGGCGGGGTTCAGTACCGATTATTTAATCGACCTTGTCACACGCTTTATTAACTGGCAGATGATTGGGGCCA -TTTTTGTTTTATTAGTGGCCTGGTTATTCCTGTCACAATGGATTCGCATTACCGTTTTTGTGGTTGCCATACTGC -TATGGCTGAACGTACTTACCCTGGCGGGACCAAGTTTCTCCTTGTGGCCAGCCGGACAACCGACGACCACTGTAA -CAACGACGGGTGGTAACGCAGCGGCAACCGTTGCGGCGACGGGTGGCGCACCGGTAGTGGGTGATATGCCCGCAC -AAACTGCACCGCCAACAACGGCGAACCTTAACGCCTGGCTGAATAATTTCTATAACGCGGAGGCGAAACGTAAAT -CGACCTTCCCGTCTTCGCTGCCCGCTGATGCTCAGCCATTTGAACTACTGGTGATTAACATCTGTTCGCTTTCCT -GGTCGGATATAGAAGCCGCCGGGTTGATGTCGCATCCACTGTGGTCGCATTTCGATATTGAGTTCAAGAACTTTA -ACTCCGCCACCTCCTACAGTGGCCCGGCGGCGATCCGTTTACTGCGCGCCAGCTGCGGGCAGACTTCGCACACTA -ATCTGTATCAACCGGCAAATAACGACTGCTATCTGTTTGATAACCTTTCGAAACTGGGCTTTACCCAGCACCTGA -TGATGGGACATAACGGCCAGTTCGGCGGTTTTTTGAAAGAAGTTCGCGAAAATGGCGGCATGCAGAGCGAATTGA -TGGATCAAACAAATCTGCCGGTTATTTTGCTGGGCTTTGATGGTTCGCCGGTTTATGACGATACCGCTGTGCTTA -ACCGCTGGCTGGACGTTACCGAAAAAGATAAAAACAGCCGTAGTGCCACGTTCTACAACACGCTTCCACTGCATG -ACGGCAACCATTATCCGGGGGTCAGCAAAACAGCGGATTACAAAGCGCGGGCGCAGAAATTCTTTGATGAACTGG -ACGCCTTCTTTACTGAACTTGAGAAATCGGGTCGTAAAGTGATGGTGGTCGTGGTGCCGGAACACGGCGGCGCGC -TGAAGGGCGACAGAATGCAGGTATCTGGCCTACGTGATATCCCTAGCCCGTCTATCACCGACGTCCCCGTTGGGG -TGAAATTCTTCGGCATGAAGGCACCGCATCAGGGGGCACCGATTGTCATCGAACAACCGAGCAGCTTCCTGGCTA -TCTCCGATCTGGTGGTTCGCGTTCTCGATGGCAAGATTTTCACCGAAGACAATGTTGACTGGAAAAAACTCACCA -GTGGGTTGCCACAAACAGCACCGGTCTCCGAGAACTCAAATGCAGTAGTTATTCAATACCAGGATAAACCGTACG -TTCGCCTGAACGGCGGCGACTGGGTGCCTTACCCGCAGTAAGAACGAAAAAGGCCGCAGAGTTTCCCCCCTGCGG -CCTGGTCCGGGCGCAAATTGCCATTACGGCAGCCTGACGCCCGCATGACACGTTACTTCCGCTTGTTCAGCCAGT -TCACGATCATACTGGCAAGAATGCCAGCAATGACCGGAGCCGCTAAATCATGCCAGAAGGCCATGCCCAGCTCTG -CGAACGTCATATAGCCGCCTGTGTTGTAATGACAACGTTTCGCGGCTATTCTTGAGTGGTCTAGAGTCAAGATTA -GCCCCCGTGGTGTTGTCAGGTGCATACCTGCAACGTGCGGGGGTTTTCTCTCTCCAGCAACCAATGCCACCAGGG -ATAAAGCCCCCGCAACATTGCGCCTCACCGGAACCTTTCCGGCTTGCCGCTGATTCTACGATTGCTTTTTACTGT -CAGCACCCGGCAATCTTCCTCATTGCGCGATGCCTTCCAGCTTAATTTCTTTATTTGCAATAGTTGCAGTTCATA -TCCGGGCTGACTCCAGACTGGTAGTGAAATGCGCAATTTTGTAGAATTGCGCCTCCTCGCGACCTCCCCAGTGAA -TCTGTTGCCTCATTTTTTACATACTGCGTATTCGACTTCTCCACCTGTTGCGCAAGAGAAACTGGGTTTATTCAT -TTTTGCGAGGCCGACTTCTTTCTGGACAGGACTTTATGCAGCACAACACACTATCGAAACACAATCAGAAATTGC -CGTTTACACGCTACGACTTCGGCTGGGTTTTATTATGCATAGGCATGGCGATTGGTGCCGGAACCGTGCTGATGC -CAGTACAAATTGGCTTGAAGGGAATTTGGGTATTTATTACCGCAGCGATCATTGCTTATCCTGCCACCTGGGTAG -TGCAGGACATTTATTTAAAAACCCTTTCTGAAAGCGATTCCTGTAATGACTACACCGATATTATCAGTCATTACC -TGGGGAAGAACTGGGGAATTTTCCTCGGGGTTATCTACTTTTTGATGATTATCCACGGGATTTTTATCTACTCTC -TCTCCGTGGTTTTCGACAGCGCCTCGTACCTGAAAACCTTCGGTTTAACCGATGCCGATCTTTCACAATCTCTAC -TTTATAAAGTCGCTATTTTCGCCGTACTGGTGGCGATTGCGTCTGGTGGTGAACGATTACTGTTTAAGATTTCCG -GGCCAATGGTGGTGGTCAAAGTAGGGATTATTGTCGTGTTCGGTTTTGCGATGATCCCGCACTGGAATTTCGCCA -ATATAACCGCCTTCCCGCAAGCCTCCGTCTTTTTCCGCGATGTCTTGCTTACCATTCCATTTTGCTTCTTTTCTG -CAGTATTTATTCAGGTACTTAACCCAATGAATATTGCCTATCGTAAACGGGAAGCGGATAAAGTACTGGCAACCC -GGCTCGCGCTGCGTACCCACCGAATTAGTTATATCACGCTCATCGCGGTGATCCTGTTTTTTGCCTTTTCGTTTA -CCTTCTCAATTAGCCACGAAGAAGCCGTTTCTGCCTTTGAACAAAATATCTCAGCACTGGCGCTGGCCGCGCAGG -TGATCCCTGGGCATATCATTCATATCACCTCTACGGTGCTTAATATCTTTGCCGTACTGACCGCATTCTTTGGCA -TTTATCTCGGTTTCCACGAGGCCATTAAAGGCATTATTCTCAATCTGTTAAGCCGAATTATTGATACCAAGAAAA -TTAACTCACGCGTGCTGACTCTGGCGATCTGCGCTTTTATCGTCATTACGTTGACGATTTGGGTTTCGTTTCGTG -TATCGGTGCTGGTGTTCTTTCAGTTGGGAAGCCCGTTATATGGTATTGTGTCGTGCCTCATTCCGTTTTTCCTGA -TCTATAAAGTCGCACAACTGGAAAAACTTCGCGGATTTAAAGCCTGGCTGATTCTGCTGTACGGCATTTTGCTAT -GCTTGTCGCCACTGTTGAAGCTGATTGAGTAAACCGGAGCGCATGGCCCCGGTTTTGTGAGTTAACGCTGCGGAT -TTTCATCCTGATCAACAGCAAAACAAGCTACCAGTTGACCGCCGTAGTCTTTTAGCTGCGGCTGCAACTGGGTGC -AGGGGCCGAAGCGCCGACGACAGCGGGCGTTGAAGGCGCAACCCGGCGGTGGATTCAGTGGGCTTGGTAGTTCAC -CGCTGAGCTTGATGCGCTCGCGGCGATCGTCCGGGTTCAGGCGCGGCGTCGCGGAAAGTAGCGCCTGAGTGTACG -GATGGCGCGGGTTATTGAAGATTTGGTCTTTCGTTCCCTTCTCCACGCAGCGGCCCAGGTACATCACCATCACTT -CATCAGCAATGTGCTCCACCACCGACAGGTCGTGGGAGATAAAGACATAAGACAGCCCCAACTCCTGCTGCAAAT -CCATCATCAGATTCAGCACCTGCGCGCGCACTGAAACATCCAGCGCGGAAACCGGTTCATCGGCAATCACCACAT -CCGGGTCGAGCATCAGACCACGGGCGATGGCGATACGCTGACGCTGACCGCCGGAGAACATATGCGGATAGCGGT -CATAGTGCTCGGTTTTCAGGCCGACTTTCGCCATCATCGACAGGGCTTTTTCCCGACGCTGTTCTTTGCTTAAGC -TGGTGTTGATCAGCAGCGGCTCTTCAAGAATTTGCCCGACTTTTTTACGCGGATTCAGCGAACCGTAAGGGTTCT -GGAAGACGATCTGGATTTTCTGCCGACGCAGCTTCTGCGCCTGCGGATCGTGCTTAAGCAGATCCTGCCCCTGGT -AATACAGCTCGCCACCGGTGGGCATTTCAATCATCGTCAGCAACCGACCGAGGGTCGATTTACCGCAGCCAGATT -CGCCCACTACTGCCAGCGTTTTGCCACGTTCAAGGTTAAACGAAACGCCATCCAGCGCTTTAACCAGACGTTCCG -GCGCGAACATGCCTTTCTTCACCGGATAATGTTTTTTCAGGTCGATAGCCTGCAACAGCGGTTGTTGCAGGGTGG -CCTCTTGCGTACTCATAGTGTCGGCCTCCCGGCATCATCAAGTGGGTAATGGCATTTGGACTGACGCCCGTCAGC -GAGCATATTCAGCGCCGGTTCTTCAGCGCGACATCTGTCAGTGGCATAGGGGCAGCGCGGGTTAAGCAGGCAGCC -GTTCGGGCGGTCGTACTTGCCGGGAACGACACCTGGCAACGACGCCAGACGTTCTTTGTCCTGAGCAAATTCTGG -CAGCGCACGCAGCAATGCCTGAGTATACGGGTGACGCGGCGCATGGAAGATGGCGTGCGCATCACCGGTTTCCAC -CACCTGGCCTGCATACATCACGATGATTTTATGTGCCGCTTCCGCCACCAGCGCCAGGTCATGGGTAATTAACAC -CAGCGCCATGTTCTCTTTCTGCTGTAGCTCCAGCAGTAGTTCGATGATTTGCGCCTGAATGGTCACGTCCAGCGC -GGTGGTCGGTTCATCGGCAATCAGCAGTTTTGGCCGACAGGCAATCGCCATGGCGATCATCACGCGCTGGCTCAT -GCCGCCGGAAAGCTGATGCGGGTAAACATCCAGACGCGATGCCGGATCGGGAATACCGACCTGATTCAGCAGGTC -AATCGCTCGCTGACGGCGGGTACTTTTGTTGCCGCCCTGATGCACCTTAATCGCTTCCATAATCTGGAAACCCAC -GGTGTAGCACGGGTTAAGGCTGGTCATCGGGTCCTGGAAGATCATCGCCACTTCGGCACCCACCAGGTTGCGGCG -CTCTTTTTCTGAGATACGCTGCAAATCCTGGCCGTTAAACTCCAGTTTTTCTGCCATTACGCGGCCCGGATAATC -AATCAGCCCCATAATCGCCAGTGAACTGACCGACTTACCGGAGCCGGACTCACCCACAATCCCGACCACTTCGCC -CTGTTTTACGCTGTAGCTGATGCGGTCTACGGCGCGGAACGGCGCGCTTTCGTCGCCGAAATGCACCGATAATTT -ATCTACATTTAATAACGCCATCTCGAACCTCTTACTGCTTCAGTTTGGGATCGAGCGCGTCACGCAGACCGTCAC -CCATCAGGTTAAATGCCAGCACCGTCAGCAGGATCGCCAGACCCGGGAAGGTCACGACCCACCAGGCGCTTTGCG -CGAACTGCAACACGTCGGAGAGCATGGTGCCCCACTCAGGCGTTGGCGGCTGTGCCCCCATGCCGAGGAAACCAA -GAGCAGCCATATCGAGAATGGCGTTAGAGAAACCGAGCGACGCCTGAACAATCAGCGGCGCAAGGCAGTTCGGGA -AGATGTTAATAAACATCTGACGCATCGCCCCGGCACCCGCCACGCGAGACGCGGTGACGTAATCGCGGTTAACTT -CCACCAGCACGGCGGCGCGGGTTAAGCGCACATAGTGCGGCAAGGCAACGAAGGTCAGTGCCAGCGCGGCGTTAC -CAATCGACGGGCCGAAAATTGCCACCAGCACCAGCGCCAGCAGCAGACTTGGCAGCGCCAGCATGATATCGACCA -CGCGCATAATGATGTTATCGACCAGGCCGCCAAAGTAACCGGCGATCAGGCCGAGAATAACGCCCATAATCAGCG -ATAACACAACTACCAGACAGCCAACCAGCAGCGACAGGCGCGCACCGTACATCAGGCGCGACAGCACATCACGGC -CTACGTCATCGGTGCCCAGCAAGTGCGCCATGCTGCCGCCTTCCTGCCAGGCTGGCGGGGCGAGCAGTGCATCGC -GGAACTGTTCCGCCGGGTTATAGGGTGCAATCCAGTTGGCAAAGATCGCGATGAACAGCACGATGACGACGTAAA -CCAGCCCGACGACCGCGCCTTTGTTGCGTTTAAAATAGTGCCAGAACTCCTGTAACGGGGTCATCGGCACCGGTG -CGCTAATCACTTTATTTTCAGTAACCTGTGACATGATGTCCCCTTACTTCTTATGACGAATACGCGGGTTCACCA -CGCCGTACAGCAGATCGACCAGCAAGTTGACGAGGATAATCATCGTCGCCACCAGCAATACGCCGCCCTGCACTA -CCGGATAGTCGCGGCGTTGCAGTGCGTCAATCAACCAGCGTCCCAGACCGGGCCACGAGAAGATGGTTTCGGTCA -GAATCGCCCCCGCCAGCAATGTTCCCACCTGCAGGCCGATAACGGTCACCACCGGCAGCATCGCGTTACGCAGCG -CATGGACGATAATCACCCGCATGCGGGTTAGCCCTTTGGCGCGCGCGGTGCGGATGTAATCCTCGCCCAGCACTT -CCAGCATCGAGGAGCGTGTCATACGCACAATGACCGCCAGCGGAATAGTACCCAGCACAATGGCAGGCAAGATCA -TATGGGCGACGGCATCGATAAAGTTGCCGTCTTCACCCCAGATGGCGGTGTCGATTAGCATAAAACCGGTTAACG -GATTGGAGTCATCGAGGAACACCATATCGCTCACGCGACCGGAGACGGGCGTCAGGTTCCAGTGCACCGAAACCA -GCATGATCAGCATCATGCCCCACCAGAAGATAGGCATTGAATAACCTGTCAGCGCCAGGCCAACCGCTGTGTGAT -CGAAAATGGAACCGCGTTTAACCGCAGCCAGCACGCCGACCGGAATACCGACTGCCGTAGCAAAAATCATCGCGC -AGACGCCAAGTTCCAGCGTGGCCTGGAAGCGCGGCACGAACTCTTCCCAAACCGGGATGCGGCTTTTCATTGAAA -TGCCTAGATCGCCATGCATAACGCCCCAAATGTAATGGAGATACTGCTGCCACATCGGTTTATCTAAGCCGAGTT -CAGCCAGCAGCTGCGCGTGACGCTCTGGGGAGATCCCACGTTCGCCCGCCATGATCATCACCGGATCGCCCGGGA -TCATGTGGACAAAGGCAAATGTGAGAAGGGTAATACCGATAAACGTGGGGATGACGAGTCCCAAACGTCGGAGAA -TAAACTGCAACATAACCCGGATTCTCTATAGTGACCCGCAGCCTGGAACTGCGTGTCTGTATTGCTCACAAATCA -ATTCCCGCCCTTATCGGACAGGGAATGAAGTATTGCTGCCGGATGGCGCTGCACGCAGAGGCACAGCGCCACCGG -GTATACAGATTGTTGACAAAGTGCGCTTTGTTTATGCCGGATGCGGCGTTAACGCCTTATCCGGCCTACAAAATC -GTGCAAATTCAATACATTGCAGAATTTTCGTAGGCCTGATAAGCGGAGCGCATCAGGCATTTTTGCCTTTGCCAT -CAGTCTTGTATGGCTTTTAATTATTCGATAGAGACGTTTTCGAAGTGATGTTTGCCTAATGGATCAACCACATAG -CCTTTAACTTCTTTACGTACCGGTTCAAACACGGTGGAGTGAGCGATGATCAGTGCCGGAGCCTGATCGTGCATC -ACCACCTGCGCTTGTTTGTACAGTTCAACGCGTTTATTGTGGTCGTCGGTAGCACGCGCCGGTTGAATCAGATCT -TCAAACGGTTTGTAGCACCATTTTGAGTAGTTGGAGCCTTGTTCAGAGGCGGCGCAGCTGAACAGGGTGGCGAAG -AAGTTATCCGGATCCCCGTTATCGCCAGTCCAGCCCATCATTACCGTCTGGTGCTCGCCATCTTTCGCACGCTTG -AGGTACTCACCCCATTCGTAGGTGACAATTTTGGCCTGCACGCCGACTTTCGCCCAGTCTGCCTGAATCATCTCC -GCCATGCGGCGAGCGTTCGGGTTATACGGACGTTGTACCGGCATCGCCCACAGGTCGATGGAGAAACCTTTTTCC -AGACCCGCTTCTTTCAGCAAGGCTTTCGCTTTTTCAGGATCGTAGGTGTAGTCCTGAACGTCGTCGTTATAGCCC -CACATGGTTGGCGGGATCAGGTTTTTCGCTGATACGCCCGCGCCCTGATAAACCGCTTTGATGATCGCGTCTTTG -TTCACCGCGTAGGTCAGAGCCTGGCGAACTTTCACGTCATCGAGTGGTTTTTTCTGCACGTTATACGAGAGATAA -CCGACGTTCAGCCCCGGCATTTCCATCAGATTGATGGATTTATCCTGCTTCATGCGAGCGATATCTGCCGGGTTC -GGGTACGGCATCACCTGGCATTCATTCTTCTGCAATTTCGCGTAACGCACGGAAGCGTCAGGGGTAATAGAGAAA -ACCAGCGTATCGATCTGCGGTTTGGTGCCCCAGTAGCCATCAAACGCTTTGTAGCGGATACGGGAATCTTTTTGA -TACTGCTGTAACTGGAACGGACCGGTTCCGATTGGGTTGAGGTCCAGTTTTTCCGGTGTACCGGCTTTCATCATC -GCATCAGCATATTCTTTTGACAGAATAGAGGCGAAGTCCATTGCCAGGTCAGCGAGGAACGGCGCTTCCGGGCGA -GTCAGCACAAACTGAACGGTGTTGTCGTCCACCTTTTTCACTTCACTGATCAGCTCTGGCAAGCCCATGCCTTCG -AAGTATTCGTAGCTGCCGCCAGAAACTTTATGGTACGGGTTTTGCGCGTTTTTCTGACGATCGAACGAGAACACC -ACATCATCGGCGTTCAGTTCACGCGTCGGTTTGAATTCTTTATTGTCGTGCCACTTCACACCTTTACGCAGATGG -AAGGTATAGGTTTTACCGTCTTCGCTGACTTCCCACTTTTCAGCGAGGCCCGGGATCACTTCGGTGGTGCCGATT -TTAAATTCAACCAGACGGTTATAAAGCGGGACGGAAGAGGCGTCATAGGTGGTGCCGGAGGTAAACAGCTGCGGG -TTAAACCCTTCCGGAGATCCTTCTGAGCAATAAACCAGAGTTTTAGCCTGAACACTTGCTGCGACGGTCATAGCC -ACCAGGCTGAGACCAAGCTTCAGCATCCCTGACTTTTTCAAGGAAATACGCATTATTCTGCTCCAATTGTGATGT -TTGTTGTTTTAACCCTTTGCAGTGGGTTGTCGCTGCCTGACCTTTTTTGTTTTTTGCCCGGTCGGGTCAACGTTA -TGAGGTGGGGATGCCGTACTAATTAACATCAGTGTAACAGTGCGGATCCTCCATAAAATGCCCCTCGTGACCTAC -AATCTGTCAACAGAATGTGAAAACGTCAATACAGCCAACCGGGATTTACACCAACGGTGAGAATCCACACACAAA -GATTAAAAAAACTTCAAACAGCTATTTGCAGCAGAGAAATTTGTGCTACTCCAACATGACCAGAACAATCAGCTT -AATATTTAGCAACATTTGGTGATTAAGTTTTATGCATTTAATGAAAAAAATCTGAGGAAAAGGTGGATATCTGAG -CGATTAATACCATGAACGCTAAAACGCACAGCGGAAAATGCCAGGGCCAGCCATAAGTAACGCAAAAAAAGATTT -AAGCAAATATAAAAAAAGACAATGGTTTCTGTCACAAATCCGTTAATGGATAGTGAGATATGGGGCGCAAATTTG -GCAGGGAAATGTGTGTCGTGTAGGTCGAATAAGGCGGTCGCGCCGCATCCGACAATGGCCGGCACATTTGCCTGA -TGCGACGCTGACGCGTCTTATCAGGCCTACGTCGAGTCGAACCTCCCTGCCCCCGGAGGTTCTCATCCTCATGAG -CTGCAGATGCAAAAAAGCCTGCTCGTTGAGCAGGCTTTTCGAATTTGGTCGGTGATAGAGGATTACTCGCCACTT -CGTGGCTCGCCCTGCGGGCCGTTGCTGGCGCAACGTTCTCTCGCTTCGCTCGAGTCGAACCTCCCTGCCCCCGGA -GGTTCTCATCCTCATGAGCTGCAGATGCAAAAAAGCCTGCTCGTTGAGCAGGCTTTTCGAATTTGGTCGGTGATA -GAGGATTCGAACCTCCGACCCCTTCGTCCCGAACGAAGTGCGCTACCAGGCTGCGCCAATCACCGAATGCGGGGC -GCATCTTACTGCGCAGATACGCCCTCGTCAATCCCTTAATAGCAAAATGCCTTTTGATCGGCGAGAAAGTCAGCA -GGCCGCTTAGTTAGCCGCTGCCTCTTTTGCCTGCGGGATGTGACACCAGTTGTTGTTTTCGTTAATTCCACCATC -CGGTGAAGTATAGCCAAGACAACCCATGATGGTATCGTACAGCTCTACGTGACGGCGTGGCACTTTCATGTCGGC -TTCTTTTTTCAGCTGCGCAAACGCCTGCGCATTGGCCGGATTTTCCAGATATTTATCTGACATCCAGACCATCAT -CGGTACGCGGAACTGCTCCGGCGGTGCCAGTTCACGCGGCGTGCCGTGCAGGTGCTCGCGTTCATTAATTGACTC -ACCGTGGTCAGCTGCGTAGAACACAATCGCTTTCTTATCGCGAACCTGATCAATCACGCTGGAGATAAAGTGATC -CACATAGGTCACCGAGTTGTCATAGGAGTTGATCATCTGCGCTTTGGTACAGCCGCTATCAACACCAATACATTC -CGGCTTCCACTGCGCGAAGCTACGCGGATAACGCTGGGTGTAGTTAAAATGCGAACCTTTGGTATGCAGAATGAT -CAGATGCTTACCATCCGGGTTGCGCCCTAGCGATTGCTGCATTTCGTCTACCAGCAACATATCATCTACCGGCTT -GCCACGATTACGTGGCTCCGCACCAATCTGCTCACGATAAGCAATGTTGTCCGCCATCGTGTTGCTGTAGAACCA -CATTTCGCTCTGCATAGCGTAGAGGTCAGAACTGAATCCTAACTGCTTCAGAACCGCGAAAATGTTCTGTTCTTT -TAATGTGCGCTGCGGATTATCTTCCGCGCCCCCCTGACGTACAAACATGCAACGCAGTGAGAGTTTGGTTGCGGT -ATCACAGGAGTAACCACGGAACGCCGCCAGATTTTTCTCCTGGGCCAGTTTCGGCGTGGTATTACGCTCATAGCC -GAAAATACCCATATGGTCCCAACGCGTGGTTTCACCGATGATAAACACGACATAAGTGTCATCAACGTTTTGCGG -TGCCTGATAAGTGAATTTCTTCGCCGGATTAAGCAATGAATTATTATCGGAAGATTCATCGACCCGCGCCCAGGC -ATACAGCCCCAACGCAGAAAGCCAGTTTGATGGCAGATAAGAGTTCGCTACGACACCGCCATAACTCGGCAAATC -AACGCCGGTCGCCCTCTCCACTTTCTTCTGCTGGATATCCAGCAAACGAATCGGTGCCCAAACCATAATACCCGC -CAGTACGACGACCGCCAGGCTGCGAATACGCTGCCCTGGGGTTCGCAGTTGTCGGAGCAAGGTGTAGCGACAGCG -GTTATTCCAGATAAGGATAAGAGGCAATGCACTAACGGCGATTAACCAGAGAATAAAGTTCAGACCAACAACTTC -TTTTGACAGGTCGATATCGGTGGTCATGACGGAAGCGATGATGCCATAACCAATGACCACATTAAGGAAGGTCAT -GTAATAGCTGGCACCTGCGGAAAAGAGCACCACCAGCGATGCCAGAATACGCCAGCTGCGGCGGCCAAACAGCGA -AAGAAGACGTAGTAAAAAGAAGGTCACCAGTACGGTGGCGGCCAGTTCAACAACAGCAGAAATGCCTTTCCAGAC -GGTAAAATCGTGCGCATAGCTGCCGAAGCGGCGGTAAAAAACCGCGCCATTCATAAAAAGGCCAATATAGATTGC -AAGCAAAAAGCTCAGCTTCTGCTGTGTAATCGATTTGATGTATCTCATGCAAACAAACCCTGGACAAACAGGTGA -TAACACCCTGCTTAGTGGCTTTTCAGGCCCGGCAGGGAAAAAGTGCGGAGGTAGTCAGATAAGTAAAATCTACAC -GCGCGAATAAGTAGACCACAGCAAAGGGAAAAAGTGTGGGGAAAGAGTGTGCATGAAGCACAAATTTACAAAAAT -GCAAGTTTGAAAAGAGACTTTAGCGTTACAAAAAGCAGTAAAAAGGGCCAGTTAATTGGCCCAAATTTTACGAGT -CATTGTTTATACATTTCGTTGATGCGTTTGATGCACACGGAAGCTGAAGCCCAGTAGCTCGCGGCTGAGCATTAA -AGGGAGCCATGCGCCTCACGCAACATTTTCTGCTCTGGCTGACGAATCGTCGTAGAAAGCGCCAATGACAGAATC -AGCAGGGCGAAAATCACGTAGAAGGTCACATAGAAGCCGCCAAACAGTGAGGCGATAATCGAACCACAAATGCTA -CCGATACCGAAACCGAGATAAATCACACCGTAGTTTTTCGCCAGGTTATTGAGGCCAAAGAACTCACTGACCAGT -GACGGAAAGACGGTAATAGTGCCGCCAAAGTTAAATGCCACGCAGGCAATCGCTGCAAAGAACGTCACTGCATTC -AATGGTGCAAACAGCAGGGCCGCCATACCCACCAGCGATATCACCTGACCAATGGTAATAACACGGATACGGGCG -ATTTTGTCAGACAGAATACCCAGCACCAGACGACCTGAAAGGTTGGCGATGGAAATAACAGTGACTGCATTGGCT -GCGGAAACCACATCAAGGTGTGCCAGACTTTGGGCGATATCTTTCGCTACCCCAATCACGTACAGGCCGCTCATG -CAGGCGGTCAGGAACATTACCGCTAACATCCAGTACTGCGGTTTACGCATCGACTCTGCCAGCGTGTAATCTTTC -TCCACCACACCATTGCTGGTTTTCACTTCCTGTTTTGGTGCGTCTTTCATTAACGTTGCGCCGAAAACAATCATC -AACAGCGCAATCGCTCCCCAAATCACAAAGGTTTTTTCCAGACCGACCGTTTCCAGCAGCTGCGTGTCGATAAAT -TTGAAACCCAGGCTACCCAGACCATAAGAACCGATAGCGAACGCGGAGATCAGACCTTTACGCTCCGGGAACCAC -TTCACACAGTTAGAGAGCGTCAGCAGATAACCCGCGCCATCTGCCAGTCCCACCAGCACACCGGCGCTTAACCAC -AGCATCATCAGGTTGTCAGAATGCGCTGTCAGGAAGAAGCCTAATCCCAGCAAAATGCCGGAAGCCATGGTGACG -CGTTTAACGCCAAAACGTTCCTGTAATTTGCCCGCAACAGAAGACGAAATTGCCAGCCCCAGACTTAACAAGCCG -AAAGAGAAAGCGACCTGGCTTACCGGCGCATCCAGCTTGGCGGAAAGCGCGCCATTAAACAGGCTCCAGGTATAA -ACCGACCCCAGCGCAAACTGGGTAATGATAGTACCGATGAGTGTCAGCCAGCGGGTACGCTGATAATTTGAAGGT -GTCATGGCAGTATTCCTGCAGTAATAAAAAGGAAAAATCTCTGCCGACAACCATAACGAAGTGCACTTTATGCCT -GGGGAAAAACGGCATGAAATGCCATCAGAACGGAATGAAATGCCTTAGTTCAGGAATGAATGACGCGACAATTAT -TCACCAAATTTATTATTTGGTAAGTTAGCACCCACTATCGCCACAACTATTGTTATTTAATGGTTTCAATTGTGA -CTGTTACGTTAAAATCTGGCGCTAACCCCCATCGTATACAGATAGTCGCTATTATTAGTGGTATTTTCTGCCTGA -GTTAGCGCGGCATAGGCGGCAATATTTTGATTGAGCAACATATCAGCGCCTACGGTGACATCCAGCCAGTTGCCG -TTCTGGTTTGTCGCCGTCATCCGGCTCAGGCCTGATTGCGCCTTCCAGATATTCTCGCCAAATTGCTGGTTATAG -CTGATTTGCGCCCAGGGTCGGAGATCGCCAAGCCGGGAGTCAACACGCCAGCCTAAGGTACTCACGCTGGCATGC -CATAACGGATCGGTCAGCGTGGTAGTACTGTCGCCAAACTCGTTATACATCGAGGTGGTTGTGCCATCGTAATGT -AATGCCGCGACCGGGCCGGTTGTAACCTGTTCATATAAAGGAAAATTCCAGCCCATACTCATACTGCTGGTCACA -TCCACAGGGGTTTCTTCCGCCAGATTGACTTCCAGTCCCAGCGCCCTTTGGCTACTTTGAATACGTTGCGACAAA -ATATCGTTGTAATCAGGTTGATGATCACTATCCCAGGTGTAACGCTCTGTGGAAAGTCCGGGTTGCGTATCAACG -ATATATTCTTGTTGCCAGGCGTAAGCTGTGTTGAGAAAAAAGGCACTGATTACCACGCTCGCCAGCAGGCTTAGC -TGCCAGCGACCACCGCTTTTTTTTATGATCATTAACACGACTCCAGGGAAGAGCCGAATTCGGCAATATTATTGT -CATTGTATGAAGGATATCGGGCATAGTAGCCCTGTATTAAATATTGACTTTTTCACCGATGCGTCAAGAAAAGCG -GCTGAAATTTTTACGATCGGGTACATAGCGAGGGAAAGTATGGAACGTTGCGGCTGGGTGAGTCAGGACCCGCTT -TATATTGCCTACCATGATAATGAGTGGGGCGTGCCTGAAACTGACAGTAAAAAACTGTTCGAAATGATCTGCCTT -GAAGGGCAGCAGGCTGGATTATCGTGGATCACCGTCCTCAAAAAACGCGAAAACTATCGCGCCTGCTTTCATCAG -TTCGATCCGGTGAAGGTCGCAGCAATGCAGGAAGAGGATGTCGAAAGACTGGTACAGGACGCCGGGATTATCCGC -CATCGAGGGAAAATTCAGGCAATTATTGGTAATGCGCGGGCGTACCTGCAAATGGAACAGAACGGCGAACCGTTT -GTCGACTTTGTCTGGTCGTTTGTAAATCATCAGCCACAGGTGACACAAGCCACAACGTTGAGCGAAATTCCCACA -TCTACGTCCGCCTCCGACGCCCTATCTAAGGCACTGAAAAAACGTGGTTTTAAGTTTGTCGGCACCACAATCTGT -TACTCCTTTATGCAGGCATGTGGGCTGGTGAATGATCATGTGGTTGGCTGCTGTTGCTATCCGGGAAATAAACCA -TGATTCGGGAAGCGCAACGTTCAGAACTCCCCGCGATCCTCGAACTGTGGCTGGAAAGTACAACCTGGGGGCATC -CCTTTATAAAAGCGAATTACTGGCGTGACTGCATTCCGCTGGTGCGGGATGCCTATCTTGCCAACGCGCAAAACT -GGGTCTGGGAAGAAGACGGTAAGCTTCTCGGTTTTGTCAGCATTATGGAAGGCCGATTTCTGGCAGCGATGTTTG -TCGCACCGAAGGCCGTCAGGCGCGGTATTGGTAAGGCGCTGATGCAGTATGTGCAGCAGCGCCATCCCCACCTGA -TGCTGGAGGTTTATCAAAAAAATCAACCGGCGATAAATTTTTACCAGGCACAGGGTTTTCACATTGTCGATTGCG -CATGGCAGGATGAAACCCAACTACCCACATGGATTATGAGCTGGCCGGTGGTTCAAACGCTGTAAGTGTCAGTTC -CGGACCGTTGTATTTTTCCAGCCATGCCAGCGCCGTATTACCCGCACAGCCATTCCCCAGCCGCGAGCTGGGGAG -ATCTTTGGTCAGCACGTTCACTGCGCCGTTTTTACAAATACCGTCAGCGGTTAAATCCAGATCCGGCCATGCCCC -TTCGTGAATGCAAATCACGCCAGGTTTAATTCCCTCGCTAATGACCGCTCCGGCAAGAATTTGCCCGCGTGCGTT -CCACAACCGAACAGTATCGCCATCTTGTATGCCGCGCTCCTGGGCATCGTCAGGATGAATGGTGACAGGCTCACG -ATTTGCCACCGCGTACAATTCGCGCAGAGAACTGTAATTCAGCTGGCTGTGCAGGCGGTGCGCCGGATGGGCAGA -AAGTACCTGCAACTGTTCTGGTTCGGCATTGCCCTGCCATTCGTCCGGCTCCAGCCACATTGGATGCCCAGGGCA -ATCCGGGTAACCGTAATCGGCAATACGCTGTGAGAAGATTTCAATCTTGCCGCTGGCGGTTTTTAACGGATGCGC -CAGCGGATCGCGGCAAAAATCAGCGAAGCGAATAAACCGCTCGCTGTCCGGGTTTTCCGGCATCTCAATTAACTG -GTTGGCTTGCCAGAACTCAGCAAATGGCGGCAATTCAACCTGCTGGCTTGCCCCGCGCTGTCGGGCAACGTTATA -AAACGTTTCCAGCCATTGCAGCTCACTTTTTCCTTCCGTAAAACGTGCATAACCGCCCTTCTCCCAGCGTTCACT -TAACTCGGCAAAAACATCAAAATCATTACGCGCTTCATAGCGTGGCGGCACCACTTGCTTCATCGGCACCAGATG -CTGATTACTGTAATCACCGGTCATGGTGAGATCATTACGCTCAAAAGAGGTAGTCGCAGGCAGAACGATATCCGC -GTGTTTTGCCGCCGCCGTCCAGAAGCATTCAGAGATCACCACCAGCTCCGGTTTTTGCCAGGCACGGATCAGGCG -ATTGGTATCCTGATGATGAGTAAAGTTGGCACCGCCCGCCCACCAGATAAAACGAATATCCGGGAAATGTCGGTT -CATACCGTTGTGTTGATATGCGCCACCAGGGTTTTCCAGTGCTTCAACAATGCGGGCAACAGGGATTTTATCCAC -CGCATCGCAGCCACCCGGCAAGCTGCCCTGCATGGAAGAGAGCACCGCAGAACGCCGCGTGGGGTTACCACCATT -GGCAAAATGGTAAGAAAGACCAAAACCGCCGCCGGGTGTGCCGATTTGCCCCAACATTGCTGCCAGCGTGACGAT -CATCCAGTGTTTTTGCTCACCAAACTGTTGGCGCTGCATTCCCCAGCCTGCCATCAGCATGGTGGTATTTTGGTG -GAAAATAGCCGCCAGCTCGCGGATTTTCGCTGCGCCAACACCACAAATCTCTGCTGCCCATTCGGCGGTTTTCGC -TATTCCGTCACTCTCGCCCAGCAAATAAGAGGCGAAGACGGCATAACCTGTGGTGCAACGCGCCAGAAACGCTTC -GTCGTGCCAACCATTTTCCACCAGCGTATGGGCGATCCCCAGCATCAGCGCAACATCGGTGCCCATGTGCGGTGC -CACCCACTCCATTTTATCGCCAAAGAAATCGACGGTTTCCGATCGCATTGGATCAATGCAGATCAGCTTTTTCCC -GCTGTCACGCAGTGCAGAAAAGTAAGAAAGCCCCTGCTCATCGGATGCATTCCACGCAATTTTCAGCGTATTGAG -TGGGTTAGCACTCCACAGCACCACGACATCGCTATGTTCCAGCACCAGCGGCCAACTGGTCTGCTGTTGATAAAC -TTCACTACCACCCACGACATACGGCATGATCGCCTGTGCCGCGCCGGTCGAATAATCCCCCAGATGCCCGGTATA -ACCGCCTGCCAGCGCCATATAGCGTTGTAATAATGTCGAGGCCTTATGCAGCACGCCGTTTGAACGCCAGCCGTA -GGAACCAGCAAAAATCGATGCCGGACCATAAGCCTCACGAATGCGTTTATGTTGTTGGTGAATAAGATCCAGCGC -CTCATCCCAACTCACGCGAACAAATTCATCCTGCCCACGAATGCCTTGCGGGTTTTCCGGTGACGCAAGAAAGCC -TTTTCGCACCATTGGAAATCGTACCCGCGTATTGCTGTGAACCTGGTCGCGAACCGCGCTCTGCAAGGAGTTTTC -CATTCCTGTGGCTAACGCGCCACGCGAGCTAAACACGGTTTCGCCGTCGGTTTCAACCAGCATGGGCCCCCAATG -GGCGGCAGTCAGAACGGAATATCGTGAGGATGAGTTGGCCAAACCGAAGACTCCTGAAAGGTTAGATGTATTGAG -CAGTTAAATATTACTTACAAATTTCCGAGTATTCCCAGGAATAATCTTCATGTTCACGCGGCATAATCTCCCGCC -ACGGAACCCGTGGCAAAGAATAAAAAGGTTATTAAGGATTAACAATGAAGAAACGTGTTTATCTTATTGCCGCCG -TAGTGAGTGGCGCTCTGGCGGTATCTGGCTGCACAACTAACCCTTACACCGGCGAACGCGAAGCAGGTAAATCTG -CTATCGGCGCAGGTCTGGGCTCTCTCGTGGGCGCGGGTATTGGTGCGCTCTCTTCTTCGAAGAAAGATCGCGGTA -AAGGCGCGCTGATTGGCGCAGCAGCAGGCGCAGCTCTGGGCGGCGGCGTTGGTTATTACATGGATGTGCAGGAAG -CGAAGCTGCGCGACAAAATGCGCGGCACTGGTGTTAGCGTAACCCGCAGCGGGGATAACATTATCCTCAATATGC -CGAACAATGTGACCTTCGACAGCAGCAGCGCGACCCTGAAACCGGCGGGCGCTAACACCCTGACCGGCGTGGCAA -TGGTACTGAAAGAGTATCCGAAAACGGCGGTTAACGTGATTGGTTATACCGACAGCACGGGTGGTCACGACCTGA -ACATGCGTCTCTCCCAGCAACGTGCGGATTCCGTTGCCAGCGCGTTGATCACCCAGGGCGTGGACGCCAGCCGCA -TCCGTACTCAGGGCCTTGGCCCGGCTAACCCAATCGCCAGCAACAGCACCGCAGAAGGTAAGGCGCAAAACCGCC -GTGTAGAAATTACCTTAAGCCCGCTGTAATCCCTTTCATGCCAGGTGATGCAGAAATCACCTGGCATTCTTCAGT -TTTCCTTCATCATATTTCAGGCTAAGGTGATCGCCTTATCAGTGAATGGAGAGAAGCATGAAGCCGTCCGTTATC -CTCTACAAAGCCTTACCTGATGATTTACTGCAACGCCTGCAAGAGCATTTCACCGTTCACCAGGTGGCAAACCTC -AGCCCACAAACCGTCGAACAAAATGCAGCAATTTTTGCCGAAGCTGAAGGTTTACTGGGTTCAAACGAGAATGTA -AATGCCGCATTGCTGGAAAAAATGCCGAAACTGCGTGCCACATCAACGATCTCCGTCGGCTATGACAATTTTGAT -GTCGATGCGCTTACCGCCCGAAAAATTCTGCTGATGCACACGCCAACCGTATTAACAGAAACCGTCGCCGATACG -CTGATGGCGCTGGTGTTGTCTACCGCTCGTCGGGTTGTGGAGGTAGCAGAACGGGTAAAAGCAGGCGAATGGACC -GCGAGCATAGGCCCGGACTGGTACGGCACTGACGTTCACCATAAAACACTGGGCATTGTCGGGATGGGACGGATC -GGCATGGCGCTGGCACAACGTGCGCACTTTGGCTTCAACATGCCCATCCTCTATAACGCGCGCCGCCACCATAAA -GAAGCAGAAGAACGCTTCAACGCCCGCTACTGCGATTTGGATACTCTGTTACAAGAGTCAGATTTCGTTTGCCTG -ATCCTGCCGTTAACTGATGAGACGCATCATCTGTTTGGCGCAGAACAATTCGCCAAAATGAAATCCTCCGCCATT -TTCATTAATGCCGGACGTGGCCCGGTGGTTGACGAAAATGCACTGATCGCAGCATTGCAGAAAGGCGAAATTCAC -GCTGCCGGGCTGGATGTCTTCGAACAAGAGCCACTGTCCGTAGATTCGCCGTTGCTCTCAATGGCCAACGTCGTC -GCAGTACCGCATATTGGATCTGCCACCCATGAGACGCGTTATGGCATGGCCGCCTGTGCCGTGGATAATTTGATT -GATGCGTTACAAGGAAAGGTTGAGAAGAACTGTGTGAATCCGCACGTCGCGGACTAAGCCGCGACTGCGTAGAGT -AAAGCCCGATAATCGCTCGGGCTTTTACTCTTTATTGGGTTGCAGTAACTGCTGTAGTCCAGGCCTGATTAAACG -CCTGATGCTGTGCCGGTAATGGCGCAATCAGTTTGTTATATTCACTTGCCTGCTGTGAAGTCGGGAACTGGATGC -CATTTGCGACAAAGCTCACCTGAGTACCTTGCTGAGCAATGTAGTCTCCAACCATCACCAGTTGTTGCGTGAAAG -TTTGTGCCGCCGGAATCAACGGTTGCAATGCATCAGCTGGCGTCGTTACCACTTTGGTGAATGCCTGATCAAAGA -CCGGTTTCAAATCATCGCTCTGTTTTAGCGCAGAGTGCGCAGCATCGGCCTGCAACTTCGCATTTTGCAGTTGTT -GCGCCAGCACACCCAGCGAACCGTTCATTTCACGCAGCGGACCGCTTTGCGTAACGTAATCCTGCGGTACGCGAA -TTGCGTTAACGCTGTCTACAACCGGGCGCAGACCGGAATCCATCGCCTGATTCACCTGCTGAGAATAACCATACA -GAATCGCGTAATCAGAGACAAAAGGACCAAACTGTTTTTTCTGATCGGCAGTCAGGGTTGGTAGACGTTCACCGC -TACGCATCACTGTATTCTGCAGGAAGTCGATAAACGCTTTACGCTGATCGCCTTCTTTATCAAAACACCCACTCA -GGCTAACTACCATTAATAACGCCGCAAGAGGCGCAAACCAGCGAGAGCAGGACTTTCCTGTCGCCATTTTCTTAC -TCCTTTCACCCAAAAAAAGCGCACAACGACACACGCGTGTCTGACGTGACAAGGATAGTCCAGGACAGGCTTGCA -GGATACCCTTTCTACGTAATCTTCCTGGTAAAATCATGGAGAAAATGAAACAAGGTTAATTTGTTGTTTCATTGT -TAAAAAATGATAGTGCCGTTGCCTTTTTTGTAGCCAGAGATTTACGCCTTCGCAGAAGGTTAGATTTTCGAAATC -TTTACAAAACAGGAGTGGTAAGAGATATATCGGCATTTATCAGATCGTTAGGTGGCTATAAGTCACGCTAAATGA -CAGGCTGAATCGAATCATAGCCAGAGCATGCCCTGACTTCACCCCGCTGTGTCTGCTTTTCCCGACTATTCTTAA -TGAGCTTCGATGCAATTCACGATCCCGCAGTGTGATTTGAGGAGTTTTCAATGGAATATAAAGATCCAATGCATG -AGCTGTTGAGCAGCCTGGAACAGATTGTTTTTAAAGATGAAACGCAGAAAATTACCCTGACGCACAGAACAACGT -CCTGTACCGAAATTGAGCAGTTACGAAAAGGGACAGGATTAAAAATCGATGATTTCGCCCGGGTTTTGGGCGTAT -CAGTCGCCATGGTAAAGGAATGGGAATCCAGACGCGTGAAGCCTTCAAGTGCCGAACTAAAATTGATGCGTTTGA -TTCAAGCCAACCCGGCATTAAGTAAGCAGTTGATGGAATAGACTTTTATCCACTTTATTGCTGTTTACGGTCCTG -ATGACAGGACCGTTTTCCAACCGATTAATCATAAATATGAAAAATAATTGTTGCATCACCCGCCAATGCGTGGCT -TAATGCACATCAACGGTTTGACGTACAGACCATTAAAGCAGTGTAGTAAGGCAAGTCCCTTCAAGAGTTATCGTT -GATACCCCTCGTAGTGCACATTCCTTTAACGCTTCAAAATCTGTAAAGCACGCCATATCGCCGAAAGGCACACTT -AATTATTAAAGGTAATACACTATGTCCGGTAAAATGACTGGTATCGTAAAATGGTTCAACGCTGACAAAGGCTTC -GGCTTCATCACTCCTGACGATGGCTCTAAAGATGTGTTCGTACACTTCTCTGCTATCCAGAACGATGGTTACAAA -TCTCTGGACGAAGGTCAGAAAGTGTCCTTCACCATCGAAAGCGGCGCTAAAGGCCCGGCAGCTGGTAACGTAACC -AGCCTGTAATCTCTGCTTAAAAGCACAGAATCTAAGATCCCTGCCATTTGGCGGGGATTTTTTTATTTGTTTTCA -GGAAATAAATAATCGATCGCGTAATAAAATCTATTATTATTTTTGTGAAGAATAAATTTGGGTGCAATGAGAATG -CGCAACGCCGTAAGTAAGGCGGGAATAATTTCCCGCCGAAGACTCTTACTCTTTCAATTTGCAGGCTAAAAACGC -CGCCAGCTCATAACTCTCCTGTTTAATATGCAATTCACACAGTGAATCTCTTATCATCCAGGTGAAAAATAAAAG -CGTGAAACAAATCACTATTAAAGAAAGTAATCTATATTTCTGCGGCATTCCCAGCCTCCTGTGTTGATTTCCAAC -GAGTATGTACTGCACCCATTTTGTTGGACGATGAAATGGAATAGCCCCTAATATGTCAAAGCCAAAATACCCTTT -TGAAAAGCGCCTTGAAGTCGTGAATCACTACTTCACAACTGATGATGGTTACAGGATCATCTCGGCACGTTTTGG -TGTCCCCCGAACCCAGGTCAGGACATGGGTTGCCCTCTATGAAAAACATGGAGAAAAAGGTTTAATTCCCAAACC -TAAAGGCGTTAGTGCTGATCCAGAGTTGCGTATTAAGGTCGTGAAAGCTGTGATCGAGCAGCACATGTCCCTTAA -TCAGGCTGCTGCTCACTTTATGCTTGCTGGTAGTGGTTCTGTAGCCAGGTGGCTGAAGGTCTATGAAGAGCGCGG -AGAAGCTGGTTTACGCGCGCTCAAGATTGGCACCAAAAGAAACATTGCAATATCAGTTGATCCAGAAAAAGCGGC -ATCAGCATTGGAGCTGTCAAAAGACCGACGCATTGAGGATCTTGAAAGGCAAGTTCGATTTCTTGAAACGCGGCT -TATGTATCTAAAAAAGCTGAAAGCCTTAGCTCATCCCACGAAAAAGTGAAAGTACTCAACGAGCTAAGGCAGTTT -TATCCTCTTGATGAGCTTCTCAGGGCTGCGGAGATACCGCGCAGTACGTTTTATTATCATCTAAAGGCTCTCAGC -AAGCCTGACAAGTATGCGGACGTTAAAAAGCGTATTAGTGAGATTTATCACGAGAATAGAGGCCGATACGGATAC -CGTAGGGTAACGCTGTCTCTTCATCGAGAAGGGAAACAGATTAACCATAAAGCTGTTCAGCGCCTGATGGGAACC -CTCTCACTTAAAGCAGCGATTAAGGTCAAGCGATACCGCTCTTACAGAGGAGAGGTAGGGCAAACCGCCCCTAAT -GTTCTCCAAAGAGATTTCAAGGCTACGCGGCCAAACGAGAAGTGGGTTACCGATGTTACTGAATTTGCAGTCAAT -GGGCGCAAGCTGTATTTGTCTCCAGTAATAGATCTCTTCAACAACGAAGTTATTTCTTACAGCCTTTCGGAAAGA -CCAGTGATGAACATGGTTGAGAATATGCTCGATCAGGCATTCAAAAAGCTTAATCCTCACGAGCATCCTGTTCTG -CACTCTGACCAGGGATGGCAGTATCGTATGAGAAGATATCAAAATATCCTTAAAGAACATGGTATTAAACAAAGC -ATGTCCAGAAAAGGCAATTGTCTGGATAATGCTGTGGTGGAGTGTTTCTTTGGAACCTTAAAGTCGGAGTGTTTT -TATCTTGATGAGTTCAGTAATATAAGCGAACTGAAGGATGCTGTTACGGAATATATTGAATACTACAACAGCAGA -AGAATTAGCCTGAAATTAAAAGGTCTGACTCCAATTGAATATCGGAATCAGACCTATATGCCTCGTGTTTAACTG -TCCAACTTTTTGGGGTCAGTACAAACTTTGATTTATAGTCAGGTGGGGCTTTTCTCTGTCTGCCTTTCGGTGAAT -ACCTGAGACAAACAGTCTCAAGCACCCGTGGCTATTCTAGCTTAATAAGTTTGTTTCTTCTCCTTGATATAATCC -TAAAAAAATCTCATAAAATTAATATATGAGATAATCTTTATTCAGCAGAAGATTATTAAAGGTTGCTGTATTATT -TAGCGATAAAAAAAGCCTGCCAGATGGCAGGCTATTTAATAACGGCGTTATTATTGCAACAGCGAAATATCCGCA -ACGCGCAGGAACAGTTCGCGCAGTTTCTCCAGCATGGTCAGACGGTTGATACGCAATTCTTTGTCATCAACCATG -ACCATCACTTTATCGAAGAAAGCATCAACCGGTTCACGCAGCTCAGCCAGTTCGACCAGCGCATCCTGGTAACGA -CCTTCCGTAAAGTACGGCTCCAGCTTGTCACGTAGCACCACAACCTGCATCGCCAGTTTAATTTCTTCCGGCTCT -TTCAGGGTAGAGGCATTCACGCGGTCGCTCAGCACTTCGTCAGATTTCGCCAGAATGTTAGATACACGTTTGTTC -GCCGCCGCCAGTGCAGCAGCTGCATCCAGGGTACGGAAATGCGATACCGCTTTCATACGGGCATCGAAATCAGCC -GGACGAGTCGGACGACGCGCCAGTACCGCCTGGATGGTGTCAACGGTATAACCTTCGTCCTGATACCAGGCGCGG -AAGCGACCGAGCATAAAGTCGATAACATCATCAACTACGTTGGCATTAGTCAGCTTATCGCCATACAGACGCACC -GCTTCTTCGGTCAGCGTTTGCAGATCAAGGTTGAGGTTCTTCTCAACGATAATTCGCAGCACGCCAAGCGCGGCA -CGACGCAGCGCAAACGGGTCTTTGTCGCCTTTCGGATGCTGACCGATACCGAAGATACCCGCCAGGGTATCCATC -TTGTCAGCAATCGCCAGCGCACAAGCTACTGGGTTGGACGGCAGGTCATCACCAGCAAAACGCGGCTGATACTGC -TCATTCAGCGCCACCGCGACATCTTCCGCTTCGCCATCGTGACGCGCATAGTGCATCCCCATAACGCCCTGGGTG -TCGGTGAACTCGAAGACCATGTTGGTCATCAGGTCGCACTTAGACAGCAGACCCGCACGGGTAGCGTGGTTAACG -TCAGCGCCAATCTGTTCAGCAATCCAGCCAGCCAGCGCCTGGATGCGGTCAGTTTTGTCGCGCAGCGTCCCCAAC -TGTTGCTGGAACAACACGGTTTGCAGGCGCGGCAGGTTATCTTCAAGACGTTTTTTACGGTCGGTGTTGAAGAAG -AACTCGGCATCCGCCAGACGCGGACGAACGACTTTCTCGTTACCGGAGATAATCTGCTGCGGATCTTTCGATTCG -ATGTTGGCAACGAAGATAAAGTTCGGCAGCAGTTTGCCGTCGTTCGCATACACCGGGAAGTATTTCTGGTCACCT -TTCATGGTGTAAACCAGCGCTTCAGCCGGCACCGCGAGGAATTTCTCTTCGAATTTTGCGGTCAGAACGACCGGC -CACTCCACCAGCGAAGCCACTTCTTCCAGCAGGCTTTCGCTTAAGTCAGCGTTACCGCCAATCTTACGCGCTGCT -TCTTCGGCATCGGCTTTAATCTTCGCCTTACGTTCTTCGTAATCGGCGATGACTTTCCCACGCTCACGCAGAATT -TCCGGATACTGATCGGCGTTATCGATGGTGAATTCCGGCTCGCCCATAAAGCGGTGGCCGCGAATCACGCGATCG -GACTGAATGCCCAGAATGGTTGCCGGAATGACTTTGTCGCCCAGCAGCAGGGTCACGGTGTGCACCGGACGCACG -AAGTGCACGTCGCTTGCGCCCCAACGCATCAGTTTCGGGATCGGCAGTTTCGCCAGAGAAGTCGCAACCATATTC -GGCAGCAGTGCTTCGGTGCTTTCGCCCTTCACATGGGCGCGATACAGCAGCCATTCGCCTTTATCGGTAGTCAGA -CGCTCAGCCTGGTCAACGGTAATACCGCAACCACGCGCCCAACCTTCTGCCGCTTTGCTCGGTTTGCCTTCAGCG -TCGAACGCCTGGGCAATCGCCGGGCCGCGTTTTTCGATTTCACGATCCGGTTGCGCTTCCGCCAGGTTAGCTACT -TTCAGCGCCAGACGACGCGGAGCAGCAAACCATTGAACGGTGCCGTGTGCGAGGCCAGCGTTATCCAGCTCCGCA -GTAAAGTTCGCAGCAAAGGACTCAGCCAGGCTGCGCAGTGCTTTTGGTGGCAGCTCTTCAGTGCCGATTTCCACC -AGAAAAGTTTTCTCAGACATAGCCGCCTCTTACTTATCTTTGTTGCACATCGGGAAGCCGAGGGCTTCACGGGAA -GCGTAGTATGCTTCTGCCACTGCTTTGGTCAGGGTGCGAATGCGCAGAATGTAGCGCTGACGCTCGGTGACGGAG -ATGGCTTTACGCGCATCCAGCAGGTTGAAGCTGTGGGCGGCTTTCAGAATACGCTCGTAGGCTGGCAGCGGCAGC -GGATTTTCCAGCGCCAGCAGCTGCTGCGCTTCTTTCTCGTACTGCTCGAAGCAGGTGAACAGGAAGTCCACATCC -GCGTATTCGAAGTTGTAAGTGGACTGCTCCACTTCGTTCTGATGGAACACGTCGCCGTAGGTGGTTTTACCCAGC -GGGCCGTCGCTCCAGACCAGGTCGTAAACGCTGTCTACGCCCTGAATGTACATGGCCAGACGTTCCAGACCGTAG -GTGATCTCGCCGGTAACCGGTTTACACTCCAGACCACCAACCTGCTGGAAGTAAGTGAACTGCGTCACTTCCATG -CCGTTCAGCCACACTTCCCAGCCCAGTCCCCAGGCACCCAGCGTCGGGTTTTCCCAGTTATCTTCCACGAAACGG -ATGTCGTGAATAGTCGGGTCCATGCCCAGCTCTTTCAGAGAACCGAGGTACAGCTCCTGAATATTGTCCGGCGAT -GGCTTAATGACCACCTGGAACTGATAGTAGTGCTGTAAACGGTTGGGGTTTTCGCCGTAGCGACCATCGGTCGGG -CGACGAGAAGGCTGAACATAAGCAGCCGCCATCGGTTCTGGCCCCAGCTCGCGCAGACAGGTCATTGGGTGAGAG -GTTCCCGCGCCGACTTCCATGTCCAATGGTTGAACAATGGTGCAGCCCTGGCGAGCCCAGTAATCCTGTAAGGTC -AGGATCAAGCCCTGGAAGGTCCTGGTATCAAACTTTTGCATATTATTTCGTGCTGGATACGTGTGGATTTAAAGG -AAGGGATCAGTATACCCGCTGGATGGAAGATATACAGTACGAAACGGGAAAAAGCAGGGCTTAACGCATGGAAAG -ATGCAAAAAATGGCCATCCGCGTCAAAAGAACAGACAAACTGCTCTTTACGGAAGGTATAACCGCGCATTTCATA -GCTTCCCTGGAACTGTTCGAAGGCGGTGACGTCGATTTTTTGCTCGCCGGTGTTATAACGTTTTGCCGCCTGATC -CTTGCATAACGCTTCCATATTCAACGAACGCAGAGGATCAACCTTTACCCGTTGTGCTTTCTGCACGGGTGACGG -TATAGAACAACCCACTAGCACCATAAGCGCCATTGCCGGAAAGAAAGCGTTCATCATCATTAAATTACCGTCTGG -TTTGCAGGTGAGTCTTATTATTTATATCGGTATAGTGGCTGATATCTTACGAATTTCCTTAAGCCTCTATAAGCT -GTAGTGATAAAACTCAGATTATTCCAGTGCGCCAACCAAATGATTTATCGGTCAGACTTTTTTTAACCAGATACA -GAGACACAGATGCAGCCCAAAATTTACTGGATTGATAACCTGCGAGGGATAGCGTGTTTAATGGTGGTGATGATT -CACACCACTACCTGGTATGTGACCAATGCTCATAGTGTTAGCCCCGTCACATGGGATATCGCCAATGTTCTGAAT -TCTGCCTCTCGTGTCAGCGTGCCGCTATTTTTCATGATTTCCGGCTATCTCTTTTTTGGCGAACGCAGCGCCCAG -CCGCGCCATTTCTTGCGTATCGGCTTATGTCTGATTTTTTATAGCGCAATCGCACTGCTCTACATTGCGCTGTTT -ACCTCCATCAATATGGAGTTAGCGCTGAAAAACCTGCTGCAAAAGCCAGTGTTTTACCACTTGTGGTTTTTCTTC -GCGATTGCGGTGATTTATCTGGTTTCACCGCTGATTCAGGTGAAGAACGTCGGCGGAAAAATGTTGCTGGTGCTA -ATGGCGGTGATTGGCATTATCGCTAACCCAAACACAGTGCCGCAGAAAATTGACGGTTTTGAATGGCTGCCAATT -AACTTATATATCAATGGCGATACTTTTTACTACATTCTGTATGGCATGTTGGGCCGCGCTATAGGGATGATGGAC -ACACAGCATAAAGCACTGTCGTGGGTGAGCGCCGCGCTGTTTGCGACGGGGGTTTTTATTATCTCTCGCGGGACA -TTATATGAATTGCAGTGGCGCGGAAATTTTGCCGATACCTGGTATCTTTACTGTGGGCCGATGGTTTTTATCTGC -GCAATCGCGCTATTGACTCTGGTTAAAAACACGCTGGATACGCGTACCATTCGCGGACTTGGCTTAATCTCCCGC -CATTCATTGGGTATATACGGATTCCACGCCTTGATTATCCATGCGCTGCGCACCCGGGGAATTGAGCTTAAAAAT -TGGCCAATACTGGATATTATTTGGATCTTTTGCGCGACGTTGGCAGCGAGTTTGTTACTTTCTATGCTGGTACAA -CGAATCGACAGAAACAGATTAGTGAGTTAAGTAAAAGCCCGGTCACATTGGACTGACCGGGCTTACGTGAGTTAT -TCGCTGTATTCTTCCTGGGTAACCTGTGTTTCTTTTGGTGGGTTTATTCCGGCATCACGAATATTTTTCTGCACC -GCTACTGCACCAAACAAGCTTAAGAAGAAAGCCAGTCCATAAAAACCTTTTTCGCTGAGTAATAATGTCGCATTC -CACAGACCTACCATCAGTAATGCAACAGAGATAATAAAGACAGTCAGGCAGGTCATATAATAAATGGAAGTGGTC -GGTATGCCTTCATACTTGTCCCGAACGGTCTTTTGATAAGACGCCGCAGAAAACAGTCCTAATACCAGTACGGCA -AAATAATATCCTTTTTCATTTAACTGCATCTCTGCATTCCATAGCCCTAACAGATAGGTAACGATACCACCAACG -AGAGCTATCCATGACACAATACTAAAGGCCGGTGAATAGGTTGATATTTTGTTGTCCATCACAGTATTCCTTTCA -TTCCTGAATATGTAAGAGCTTTATGTTGCTCATGCCGAGCGAAACAAACGCATTTGACCAAACAAGCAGACAAAA -AAGGCGATGGGATAGATCACCATTTCATAAGTATTGATAGGTGCGTTTAAAACACCGATAAACAAGAGACCGATA -GTGATTAACGCAACTAACTGGCAGATATGGGTAAAAAAATCATCCAGTTGCCCGAGTTTTTCTGCGCGAAGATAT -GCATAGTTGCCAAAAGTTGCTGTCATTAACACGCCAAGAAAATAGCCTTTTCCACTTAACAATGGGCATGAGATC -CATAGCCCAACCAGATAAACCAGCGCCCCGACAACAAATAATAGTTTTGCCACAGTCTTTGAGGTTTTCATAACG -ATCTCCATATCTACCAGCGATACATTACGAGTAACCAACGAAAGACAAAACTGAAAAATGCCATTAACAAATGAT -TTTCAGAATAAATTCATACTAAATATTAATTAATTACTGAGATATATAGATGTGAATTATCCCCCACCCGGTCAG -GCAGGGGATAACGTTTACGCCATTAATGGCAGAAGTTGCTGATAGAGGCGACGGAACGTTTCTCGTCGTGGCTGA -TAAGCGGCATAACGCTGCGCATCTGGTAGATGCGACTGTTCTAACGGTAGTTGCGGCAACAATTCAATGAGCGAT -TTCTCTGGATTCGCCGCGATCTGCGCCAGCCTTGCTGCGCCCAGTGCTGGCCCCACATCCCCCCCCGTACGGTAA -TCGAGCTGCTGACCGCTGATATCCGCCAGCATCTGACGCCAGTACTCACTACGCGCCCCGCCCCCAATCAACGTA -ACACTTTGCGGTTTAATACCGCAGGCATGCACGACATCCATGCCATCTGCCAGCGCATAACCCACGCCTTCCAGC -ACTGCTCGCGCCAGTTCATTGGGGCCATGTTGATGAGTCAAACCAAAGAAAACCCCCTTCGCCTGGGGATTATTG -TGTGGCGTACGCTCGCCGGAAAGATAAGGCAGAAACCAAACTGGCTCGGCACTTTCATCAGCCTGTTGAGCTGCA -GCGATTAAAGCTGGGACATTGCTCAGGCCGGTTAATTTCGCGGCCCAATCCAGACACGACGCTGCACTCAGCATC -ACAGACATTAAATGCCAACGTTGCGGTAGCGCATGGCAAAAGCTATGTACGGCGCTTTCTGGCTTGCTTAAGAAC -CCTTCGCTGACAGCAAAATAGACCCCCGACGTCCCCAGCGATAACATTGCCTGATTAGCATCAACCATTCCCACA -CCAACTGCACCAGCTGCATTGTCGCCACCGCCTGCGACAACTGGCACCGTCGCCATACCCCACGCTTTCGCAACT -TCAGGTAACAAAGCACCAGTAATTTCGCTGCCTTCGTATAATGCGGGCATCTGGTCACGAGATAAGTCGCAAGCC -TGCAGCATGACGTCACTCCAGTCACGCTTTGCGACATCCAGCCACATGGTGCCAGCTGCGTCAGACATATCGCTG -GCAAACTCCCCCGTCATACGCAGACGCAAGTAATCTTTCGGTAATAATACTTTGTCGATTTGACGGAATATCTCC -GGCTCATGCCGCTGAACCCATAGCAATTTAGGCGCAGTAAATCCGGGCATCATCAGGTTGCCGGTAATCACCCGC -GATTGCGGAACTCGCGCTTCCAGCAAAGTGCACTCTTGCGCACAGCGCCCGTCGTTCCACAAAATGGCAGGGCGT -AACACCCGTTGCTGAGCATCCAGCAAGGTTGCTCCGTGCATCTGGCCGGCAATACCCAATGCTTTAACGTCCTGC -AGAGAATGCTGATCGCCCAGAGCTTTCATTGCGCGATCAGTTGCCTGCCACCACTGTTCCGGGTCTTGTTCCGAC -CAGAGTGGATGCGGGCGCGAAACGGTCAGCTTTTCCGTTTGCGCAGCAACCACCTCACCCTGCTCGTTGAGCAAA -ATAACTTTTACGCCCGAGGTGCCAAGATCTATCCCGATATACATATCGATCGTTCCTTAAAAAAATGCCCGGTAT -CGCTACCGATAACCGGGCCAACGGACTGCACAGTTAGCCGTTATTTGTCGAACAGATAATGGTTTACCAGATTTT -CCAGTTGTTCCTGGCGACCACTCTGATGCACCGGAGACAAATGATGTTCCTGAGCATATTTGGCTAAATCTGCCA -GTGACATTTGGCCTTTCAGGATTTGCTGGCCCAATTCGCTATTCCAGCCGGAATAACGCTGCGCGATGCGTTTAT -CCAGCTCGCCATCTTCAATCATGCGCGCTGCAATTTTCAGCGCCAGTGCCATCGTATCCATCGCGCCGATATGAC -CGTAAAACAGATCATATTTATCAGTACTTTGACGACGTACTTTGGCATCGAAGTTCAGACCACCGGTGGTGAAAC -CGCCTGCTTTGAGAATTTCATACATCACCAGCGCATTCTCTTCCACACTGTTCGGGAACTGGTCGGTGTCCCAGC -CCAGTTGCGCATCGCCACGGTTGGCGTCGACAGAACCGAACAGGCCAAGCGCAATGGCGGTGGCTATTTCATGAT -GGAAAGAGTGACCTGCCAGCGTCGCGTGGTTAGCTTCAATGTTCAGTTTAATCTCTTTTTCCAGACCAAACTGTT -TCAGGAAGCCATAGACCGTCGCGGCATCGTAATCATATTGATGTTTGGTCGGTTCTTGCGGTTTCGGTTCGATAA -GCAACGTGCCCTGGAAACCGATTTTATGTTTATGCTCAACCACCATCTGCATAAAGCGGCCCAGTTGTTCACGCT -CCTGACGCAAGTCGGTATTTAACAGCGTTTCGTAACCTTCACGACCGCCCCACAGGACATAGTTTTCACCGCCCA -ATTTATGGGTTGCTTCCATCGCTGTAACAACTTGCGTTGCCGCCCAGCTGAAGACTTCAGGATCTGGGTTCGTCG -CCGCACCCGCGCCGTAGCGAGGGTTTGTAAAGCAGTTGGCCGTTCCCCACAGCAGCTTCACGCCGCTCTCTTCTT -GCTTGCCTGCCAGGACATCAACCATTTGCGCAAAATTATTGATGTACTCTTTTAACGACGCGCCCTCAGGGGAAA -CATCCACATCGTGGAAGCAATAAAATGGCACATGTAACTTGTGGAAAAACTCAAATGCGACATCTGCTTTACGCT -TCGCCAACGCCAGTGCCTCACCAGGCTGCTGCCACGGACGATTAAACGCCCCCACACCAAACATATCCGCCCCGT -TCCAGCAGAAGGTGTGCCAGTAGCAGGCGGCAAAACGCAAGTGCTCTTCCATACGCTTACCCAACACCAGTTCGT -CGGGATTGTAGTGACGGAATGCTAACGGGTTTGAGGATTTTGAGCCTTCATAACGAACGCGATCGAGCTGGTCAA -AATAGGCTTGCATATTGAACTCCATAATCAGGTAATGCCGCGGGTGATGGATGATGTCGTAATATTGGGCACTCC -CTTTCAGTTGCTCAATTATGTTATTTCACACTGCTATTGAGATAATTCACAAGTGTGCGCTCGCTCGCAAAATAA -AATGGAATGATGAAACTGGGTAATTCCTCGAAGAGAAAAATGCAATAAGTACAATTGCGCAACAAAAGTAAGATC -TCGGTCATAAATCAAGAAATAAACCAAAAATCGTAATCGAAAGATAAAAATCTGTAATTGTTTTCCCCTGTTTAG -TTGCTAAAAATTGGTTACGTTTATCGCGGTGATTGTTACTTATTAAAACTGTCCTCTAACTACAGAAGGCCCTAC -ACCATGAAAATAAAGAACATTCTACTCACCCTTTGCACCTCACTCCTGCTTACCAACGTTGCTGCACACGCCAAA -GAAGTCAAAATAGGTATGGCGATTGATGATCTCCGTCTTGAACGCTGGCAAAAAGATCGAGATATCTTTGTGAAA -AAGGCAGAATCTCTCGGCGCGAAAGTATTTGTACAGTCTGCAAATGGCAATGAAGAAACACAAATGTCGCAGATT -GAAAACATGATAAACCGGGGTGTCGATGTTCTTGTCATTATTCCGTATAACGGTCAGGTATTAAGTAACGTTGTA -AAAGAAGCCAAACAAGAAGGCATTAAAGTATTAGCTTACGACCGTATGATTAACGATGCGGATATCGATTTTTAT -ATTTCTTTCGATAACGAAAAAGTCGGTGAACTGCAGGCAAAAGCCCTGGTCGATATTGTTCCGCAAGGTAATTAC -TTCCTGATGGGCGGCTCGCCGGTAGATAACAACGCCAAGCTGTTCCGCGCCGGACAAATGAAAGTGTTAAAACCT -TACGTTGATTCCGGAAAAATTAAAGTCGTTGGTGACCAATGGGTTGATGGCTGGTTACCGGAAAACGCATTGAAA -ATTATGGAAAACGCGCTAACCGCCAATAATAACAAAATTGATGCTGTAGTTGCCTCAAACGATGCCACCGCAGGT -GGGGCAATTCAGGCATTAAGCGCGCAAGGTTTATCAGGGAAAGTAGCAATCTCCGGCCAGGATGCGGATCTCGCA -GGTATTAAACGTATTGCTGCCGGTACGCAAACTATGACGGTGTATAAACCTATTACGTTGTTGGCAAATACTGCC -GCAGAAATTGCCGTTGAGTTGGGCAATGGTCAGGAACCAAAAGCAGATACCACACTGAATAATGGCCTGAAAGAT -GTCCCCTCCCGCCTCCTGACACCGATCGATGTGAATAAAAACAACATCAAAGATACGGTAATTAAAGACGGATTC -CACAAAGAGAGCGAGCTGTAAGCGTTACGCCCCAGCGCGGAGCGGGGGCGTGATTTCTCTCCATGCCGCGTGAAT -GAATTGGCTTAGGTGGAGTCGTTATGCCTTATCTACTTGAAATGAAGAACATTACCAAAACCTTCGGCAGTGTGA -AGGCGATTGATAACGTCTGCTTGCGGTTGAATGCTGGCGAAATCGTCTCACTTTGTGGGGAAAATGGGTCTGGTA -AATCAACGCTGATGAAAGTGCTGTGTGGTATTTATCCCCATGGCTCCTACGAAGGCGAAATTATTTTTGCGGGAG -AAGAGATTCAGGCGAGTCACATCCGCGATACCGAACGCAAAGGTATCGCCATCATTCATCAGGAATTGGCCCTGG -TGAAAGAATTGACCGTGCTGGAAAATATCTTCCTGGGTAACGAAATAACCCACAATGGCATTATGGATTATGACC -TGATGACGCTACGCTGTCAGAAGCTGCTCGCACAGGTCAGTTTATCCATTTCACCTGATACCCGCGTTGGCGATT -TAGGGCTTGGGCAACAACAACTGGTTGAAATTGCCAAGGCACTTAATAAACAGGTGCGCTTGTTAATTCTCGATG -AACCGACAGCCTCATTAACTGAGCAGGAAACGTCGATTTTACTGGATATTATTCGCGATCTACAACAGCACGGTA -TCGCCTGTATTTATATTTCGCACAAACTCAACGAAGTCAAAGCGATTTCCGATACGATTTGCGTTATTCGCGACG -GACAGCACATTGGTACGCGTGATGCTGCCGGAATGAGTGAAGACGATATTATCACCATGATGGTCGGGCGAGAGT -TAACCGCGCTTTACCCTAATGAACCACATACCACCGGAGATGAAATATTACGTATTGAACATCTGACGGCATGGC -ATCCGGTTAATCGTCATATTAAACGAGTTAATGATGTCTCGTTTTCCCTGAAACGTGGCGAAATATTGGGTATTG -CCGGACTCGTTGGTGCCGGACGTACCGAGACCATTCAGTGCCTGTTTGGTGTGTGGCCCGGACAATGGGAAGGAA -AAATTTATATTGATGGCAAACAGGTAGATATTCGTAACTGTCAGCAAGCCATCGCCCAGGGGATTGCGATGGTCC -CCGAAGACAGAAAGCGCGACGGCATCGTTCCGGTAATGGCGGTTGGTAAAAATATTACCCTCGCCGCACTCAATA -AATTTACCGGTGGCATTAGCCAGCTTGATGACGCGGCAGAGCAAAAATGTATTCTGGAATCAATCCAGCAACTCA -AAGTTAAAACGTCGTCCCCCGACCTTGCTATTGGACGTTTGAGCGGCGGCAATCAGCAAAAAGCGATCCTCGCTC -GCTGTCTGTTACTTAACCCGCGCATTCTCATTCTTGATGAACCCACCAGGGGTATCGATATTGGCGCGAAATACG -AGATCTACAAATTAATTAACCAACTCGTCCAGCAGGGTATTGCCGTTATTGTCATCTCTTCCGAATTACCTGAAG -TGCTCGGCCTTAGCGATCGTGTACTGGTGATGCATGAAGGGAAACTAAAAGCCAACCTGATAAATCATAACCTGA -CTCAGGAGCAGGTGATGGAAGCCGCATTGAGGAGCGAACATCATGTCGAAAAGCAATCCGTCTGAAGTGAAATTG -GCCGTACCGACATCCGGTGGCTTCTCCGGGCTGAAATCACTGAATTTGCAGGTCTTCGTGATGATTGCAGCTATC -ATCGCAATCATGCTGTTCTTTACCTGGACCACCGATGGTGCCTACTTAAGCGCCCGTAACGTCTCCAACCTGTTA -CGCCAGACCGCGATTACCGGCATCCTCGCGGTAGGAATGGTGTTCGTCATAATTTCTGCTGAAATCGACCTTTCC -GTCGGCTCAATGATGGGGCTGTTAGGTGGCGTCGCGGCGATTTGTGACGTCTGGTTAGGCTGGCCTTTGCCACTT -ACCATCATTGTGACGCTGGTTCTGGGACTGCTTCTCGGTGCCTGGAACGGATGGTGGGTCGCGTACCGTAAAGTC -CCTTCATTTATTGTCACCCTCGCGGGCATGTTGGCATTTCGCGGCATACTCATTGGCATCACCAACGGCACGACT -GTATCCCCCACCAGCGCCGCGATGTCACAAATTGGGCAAAGCTATCTCCCCGCCAGTACCGGCTTCATCATTGGC -GCGCTTGGCTTAATGGCTTTTGTTGGTTGGCAATGGCGCGGAAGAATGCGCCGTCAGGCTTTGGGTTTACAGTCT -CCGGCCTCTACCGCAGTAGTCGGTCGCCAGGCTTTAACCGCTATCATCGTATTAGGCGCAATCTGGCTGTTGAAT -GATTACCGTGGCGTTCCCACTCCTGTTCTGCTGCTGACGTTGCTGTTACTCGGCGGAATGTTTATGGCAACGCGG -ACGGCATTTGGACGACGCATTTATGCCATCGGCGGCAATCTGGAAGCAGCACGTCTCTCCGGGATTAACGTTGAA -CGCACCAAACTTGCCGTGTTCGCGATTAACGGATTAATGGTAGCCATCGCCGGATTAATCCTTAGTTCTCGACTT -GGCGCTGGTTCACCTTCTGCGGGAAATATCGCCGAACTGGACGCAATTGCAGCATGCGTGATTGGCGGCACCAGC -CTGGCTGGCGGTGTGGGAAGCGTTGCCGGAGCAGTAATGGGGGCATTTATCATGGCTTCACTGGATAACGGCATG -AGTATGATGGATGTACCGACCTTCTGGCAGTATATCGTTAAAGGTGCGATTCTGTTGCTGGCAGTATGGATGGAC -TCCGCAACCAAACGCCGTTCTTGATTTTGATAAAAATTTTCTCAAAGCCGGTTACGTATTACCGGTTTTGAGTTT -TTGCATGATTCAGCAGGAAAAGAACCATGTTTACTAAACGTCACCGCATCACATTACTGTTCAATGCCAATAAAG -CCTATGACCGGCAGGTAGTAGAAGGCGTAGGGGAATATTTACAGGCGTCACAATCGGAATGGGATATTTTCATTG -AAGAAGATTTCCGCGCCCGCATTGATAAAATCAAGGACTGGTTAGGAGATGGCGTCATTGCCGACTTCGACGACA -AACAGATCGAGCAAGCGCTGGCTGATGTCGACGTCCCCATTGTTGGGGTTGGCGGCTCGTATCACCTTGCAGAAA -GTTACCCACCCGTTCATTACATTGCCACCGATAACTATGCGCTGGTTGAAAGCGCATTTTTGCATTTAAAAGAGA -AAGGCGTTAACCGCTTTGCTTTTTATGGTCTTCCGGAATCAAGCGGCAAACGTTGGGCCACTGAGCGCGAATATG -CATTTCGTCAGCTTGTCGCCGAAGAAAAGTATCGCGGAGTGGTTTATCAGGGGTTAGAAACCGCGCCAGAGAACT -GGCAACACGCGCAAAATCGGCTGGCAGACTGGCTACAAACGCTACCACCGCAAACCGGGATTATTGCCGTTACTG -ACGCCCGAGCGCGGCATATTCTGCAAGTATGTGAACATCTACATATTCCCGTACCGGAAAAATTATGCGTGATTG -GCATCGATAACGAAGAACTGACCCGCTATCTGTCGCGTGTCGCCCTTTCTTCGGTCGCTCAGGGCGCGCGGCAAA -TGGGCTATCAGGCGGCAAAACTGTTGCATCGATTATTAGATAAAGAAGAAATGCCGCTACAGCGAATTTTGGTCC -CACCAGTTCGCGTCATTGAACGGCGCTCAACAGATTATCGCTCGCTGACCGATCCCGCCGTTATTCAGGCCATGC -ATTACATTCGTAATCACGCCTGTAAAGGGATTAAAGTGGATCAGGTACTGGATGCGGTCGGGATCTCGCGCTCCA -ATCTTGAGAAGCGTTTTAAAGAAGAGGTGGGTGAAACCATCCATGCCATGATTCATGCCGAGAAGCTGGAGAAAG -CGCGCAGTCTGCTGATTTCAACCACCTTGTCGATCAATGAGATATCGCAAATGTGCGGTTATCCATCGCTGCAAT -ATTTCTACTCTGTTTTTAAAAAAGCATATGACACGACGCCAAAAGAGTATCGCGATGTAAATAGCGAGGTCATGT -TGTAGCGATGATGAGAATTGTCGGCGTCACATCAGGTAACGCTGCGTGGTTGTCGGATGCGGCGTGAACGCCTTA -TCCGACCTACCCGCCAGGCATGATAAAACGCACCAACAACGCTTCAGGCTCGTAGCTCAACTGCCTGAGACAAAG -TAAAAAGCCTTATCCGACTGACAAGTCGGATAAGGCTCAAGGAAATGCAATTACATATGCGCCGCGATTAACCGT -TGGTTATCCTGGTACATTGCGAACAGGTAGTTGTTATAACTCTTCCCTTTGGTCGAGTAGCCCTTCAGCTTGTGA -ATCATCGCTGTGGCAGTCACTTCCTGATCCGCTTTACGCAGCTGCGCACGCGATTTACGGAACGAAGAGTAAGCC -GGGTGCGTATTCAGGTTAGTGACATAGGCGCTCACCGATTCTTTGACAGAACTAAACTGTGAGTACCCTTTCACT -TTACCTGGCGCATTGGTACAACGTCCTTTCATGCATTTCATGCCGAACAGGTTGTTGTTGTTGCGCGCCAGCTTC -GACGTTCCCCAACCGCTTTCTGCTGCAGCCATCGTCGCCACCATACTGGTGGGGATAATGTCTACGCGTTCAAGC -AAGGTATTCCACGGGATTTTTCGCGTATTACCGGACCACTTCACCTTGTAGCGTTTGGCGATGTCTTTCAGACGC -GCACGCTCAGCAGGTGACCATTGGCCCTGATACTGTTTTGAAATGAGCCAGTTACGTTCCGCAGTAATGGCCGCA -TTTTGGCTGGTAATGTAAGGCATTACGGTCCGGAGAAACGCCTTTTTCCTTGGTGTTCCGGAAGGGTATTTTCGC -AAATCAGGAAGTGAACTACTCTTTGCACTATTGCGAGAATACTCTTGTTTACTGCTTACCTGTTTATTACTAGCT -TTAGTTAAGTGGGACTTTTGACTCGCTGTTGTTGTGTGCGTCTTCGCTAACACCTCACTCGAAAACACCAGAGTG -AGTAACATAAGAATCATCGCCCCATATCGTCGTATGGGAGTCAAAATCATCAGGTCTCCTGGTCGGATTTAATCA -TTCCAACACCTTATATTTTTCACAAATTTGAGAGTTGAATCTCAAATCATATCAAAAATAGCTGTCAAGAGCACC -CCAAGGAATAGTCCAAATCTGAAACTATGTCACGTGTTAACGATTCAGATTGGCGCTAAATCGCAGAAAATGTGG -GGGTTATCGCAAAATTCAGCCGTTTTTTGCGCGAGATCGCTCACCCTTGCTTCTCATCCTGTGGACTTACCGCTC -AGGGATGAGTTTTGTTTGGCTTATCGCTGGCAAACTGTCTGAAATCGCAGCAATAAGGACTCATCCGCCATGAAA -CTCGCCGCCTGTTTTCTGACACTCCTTCCTGGCTTCGCCGTTGCCGCCAGCTGGACTTCTCCGGGGTTTCCCGCC -TTTAGCGAACAGGGGACAGGAACATTTGTCAGCCACGCGCAGTTGCCCAAAGGTACGCGTCCACTAACGCTAAAT -TTTGACCAACAGTGCTGGCAGCCTGCGGATGCGATAAAACTCAATCAGATGCTTTCCCTGCAACCTTGTAGCAAC -ACGCCGCCTCAATGGCGATTGTTCAGGGACGGCGAATATACGCTGCAAATAGACACCCGCTCCGGTACGCCAACA -TTGATGATTTCCATCCAGAACGCCGCCGAACCGGTAGCAAGCCTGGTCCGTGAATGCCCGAAATGGGATGGATTA -CCGCTCACAGTGGATGTCAGCGCCACTTTCCCGGAAGGAGCCGCCGTACGGGATTATTACAGCCAGCAAATTGCG -ATAGTGAAGAACGGTCAAATAATGTTACAACCCGCTGCCACCAGCAACGGTTTACTCCTGCTGGAACGGGCAGAA -ACTGACACATCCGCCCCTTTCGACTGGCATAACGCCACGGTTTACTTTGTGCTGACAGATCGTTTCGAAAACGGC -GATCCCAGTAATGACCAGAGTTACGGACGTCATAAAGACGGTATGGCGGAAATTGGCACTTTTCACGGCGGCGAT -TTACGCGGCCTGACCAACAAACTGGATTACCTCCAGCAGTTGGGCGTTAATGCTTTATGGATAAGCGCCCCATTT -GAGCAAATTCACGGCTGGGTCGGCGGCGGTACAAAAGGCGATTTCCCGCATTATGCCTACCACGGTTATTACACA -CAGGACTGGACGAATCTTGATGCCAATATGGGCAACGAAGCCGATCTACGGACGCTGGTTGATAGCGCACATCAG -CGCGGTATTCGTATTCTCTTTGATGTCGTGATGAACCACACCGGCTATGCCACGCTGGCGGATATGCAGGAGTAT -CAGTTTGGCGCGTTATATCTTTCTGGTGACGAAGTGAAAAAATCGCTGGGTGAACGCTGGAGCGACTGGAAACCT -GCCGCCGGGCAAACCTGGCATAGCTTTAACGATTACATTAATTTCAGCGACAAAACAGGCTGGGATAAATGGTGG -GGAAAAAACTGGATCAGAACGGATATCGGCGATTACGACAATCCTGGATTCGACGATCTCACTATGTCGCTAGCC -TTTTTGCCGGATATCAAAACCGAATCAACTACCGCTTCTGGTCTGCCGGTGTTCTATAAAAACAAAATGGATACC -CACGCCAAAGCCATTGACGGCTATACGCCGCGCGATTACTTAACCCACTGGTTAAGTCAGTGGGTCCGCGACTAT -GGGATTGATGGTTTTCGGGTCGATACCGCCAAACATGTTGAGTTGCCCGCCTGGCAGCAACTGAAAACCGAAGCC -AGCGCCGCGCTTCGCGAATGGAAAAAAGCTAACCCCGACAAAGCATTAGATGACAAACCTTTCTGGATGACCGGT -GAAGCCTGGGGCCACGGCGTGATGCAAAGTGACTACTATCGCCACGGCTTCGATGCGATGATCAATTTCGATTAT -CAGGAGCAGGCGGCGAAAGCAGTCGACTGTCTGGCGCAGATGGATACGACCTGGCAGCAAATGGCGGAGAAATTG -CAGGGTTTCAACGTGTTGAGCTACCTCTCGTCGCATGATACCCGCCTGTTCCGTGAAGGGGGCGACAAAGCAGCA -GAGTTATTACTATTAGCGCCAGGCGCGGTACAAATCTTTTATGGTGATGAATCCTCGCGTCCGTTCGGTCCTACA -GGTTCTGATCCGCTGCAAGGTACACGTTCGGATATGAACTGGCAGGATGTTAGCGGTAAATCTGCCGCCAGCGTC -GCGCACTGGCAGAAAATCAGCCAGTTCCGCGCCCGCCATCCCGCAATTGGCGCGGGCAAACAAACGACACTTTTG -CTGAAGCAGGGCTACGGCTTTGTTCGTGAGCATGGCGACGATAAAGTGCTGGTCGTCTGGGCAGGGCAACAGTAA -CTTTTCCGGCTTCCCGTTCGTCAGTACCTCGGGAAGCCGCCAACCAGGATAAAATGTCAGCCCTAATCAGCGTTG -CAGGATAAAGCACCGCTCACTCTTCAACAGACCGATTTGCACCCCAGCAAATGTAGCGTTATTGTTACCTTCCTT -GCTACAGAGTTCGACAGATATCCCGCTATGACATTCTCCCTTTTTGGTGACAAATTTACCCGCCACTCCGGCATT -ACGCTGTTGATGGAAGATCTGAACGACGGTTTACGCACGCCTGGCGCGATTATGCTCGGCGGCGGTAATCCGGCG -CAGATCCCGGAAATGCAGGACTACTTCCAGACGCTACTGACCGACATGCTGGAAAGTGGCAAAGCGACTGATGCA -CTGTGTAACTACGACGGTCCACAGGGGAAAACGGAGCTACTCACACTGCTTGCCGGAATGCTGCGCGAGAAGTTG -GGTTGGGATATCGAACCACAGAATATTGCACTAACAAACGGCAGCCAGAGCGCGTTTTTCTACTTATTTAACCTG -TTTGCCGGACGCCGTGCCGATGGTCGGGTCAAAAAAGTGCTGTTCCCGCTTGCACCGGAATACATTGGCTATGCT -GACGCCGGACTGGAAGAAGATCTGTTTGTCTCTGCGCGTCCGAATATTGAACTGCTGCCGGAAGGCCAGTTTAAA -TACCACGTCGATTTTGAGCATCTGCATATTGGCGAAGAAACCGGGATGATTTGCGTCTCCCGGCCGACGAATCCA -ACAGGCAATGTGATTACTGACGAAGAGTTGCTGAAGCTTGACGCGCTGGCGAATCAACACGGCATTCCGCTGGTG -ATTGATAACGCTTATGGCGTCCCGTTCCCGGGTATCATCTTCAGTGAAGCGCGCCCGCTATGGAATCCGAATATC -GTGCTGTGCATGAGTCTTTCCAAGCTGGGTCTACCTGGCTCCCGCTGCGGCATTATCATCGCCAATGAAAAAATC -ATCACCGCCATCACCAATATGAACGGCATTATCAGCCTGGCACCTGGCGGTATTGGTCCGGCGATGATGTGTGAA -ATGATTAAGCGTAACGATCTGCTGCGCCTGTCTGAAACAGTCATCAAACCGTTTTACTACCAGCGTGTTCAGGAA -ACTATCGCCATCATTCGCCGCTATTTACCGGAAAATCGCTGCCTGATTCATAAACCGGAAGGAGCCATTTTCCTC -TGGCTATGGTTTAAGGATTTGCCCATTACGACCAAGCAGCTCTATCAGCGCCTGAAAGCACGCGGCGTGCTGATG -GTGCCGGGGCACAACTTCTTCCCAGGGCTGGATAAACCGTGGCCGCATACGCATCAATGTATGCGCATGAACTAC -GTACCAGAGCCGGAGAAAATTGAGGCGGGGGTGAAGATTCTGGCGGAAGAGATAGAAAGAGCCTGGGCTGAAAGT -CACTAAAAATTGCCTGATGCGCTACGCTTATCAGGCCTACATGATTTCTGCAATATATTGAATTTGGAAGAATTT -GTAGGCCGGATAAGGCGTTTACGCCGCATCTGGCATAAACAAAGCGCACTGTTCCGGCGTTGAGAAACGCCGGAA -AACGTTTCAAACAGGCTGCTGCCGTAGCCGATGCCGCTGCACTTTCTCGACATCCATGCACTGCAACGCCTTTGT -CGGGCAGGCTTCAACACAGGCCGGTCCCGTCTCCCGATGCCAGCACAGATCGCACTTAATCGCCCTCGCCTTTTT -GCGCGAAGAAACGACCTCCATCGCACCAAACGGGCAAGCCAGCATACAGCTTTTACAGCCAATGCAACGTGTTTG -TTCAACGAAAATATGCCCATGTTCGCGGCTTATCGCGTCAACAGGGCAGACATTCGCGCACGGTGCATCTTCACA -CTGATGACAGGCTACTGCCGTGGTCCAGCAGTGGTCTTTAATGACACGAATACGGGAAATAAACTCGTCTGGTGA -CAACGCAGCGCAATCCTGATTCTCATGATGCGACACTGCGCAAGCCACTTCACAGGTACGGCAACCGATACATTT -CGTCGCATCCGCAATAATAAACCGGTTCATGATCACTCCTTTGCACTAAAACAGCAGAGTGCCAGAGAGCGCGTC -CCTACTGCTTTGATCCAACGAAGGAAATGTTAAAGTTTTGGCACTTGTCCAAAGCGTTATGTGATCGCGCCCAGG -TCATCCCTGACAGTAAATCCCAGTTCATTAGAAATAGCCTGCGCGGTTTCACGCAGTGGTTTCAGGAGATTTTTC -TCTCCCACCTGTTTCAGACGTGATGTCGAAAGCGAAATCGACACGGCGTACGGCACCCGCCCATGAATATCAAAC -ACCGGAACAGCAATACAGGAGACGCCGAGTTCGTTTTCTTCTCTGTCCATCGCCGCTCCGCTTTCACGAATGTGC -GCCAGTTCGTCGAACATCGCGGGCAGCTCGGTAATGGTATTGCGGGTTAACGGCTGGATCTCATGCTGATGGCTT -TCCCAGTATGACTTCACGTAGTCCGGGTGACCAAACGCCATGTAGATCTTGCCCATTGCGGAACAGTAGAGCGGC -ATATGCTGGCCAATATAGGCACGGGTTCGCAGCATCCCGGTTGTGGGTTCCAGCTTATAAATCAAAATAGCGTGA -TCGTCTTCGCGGCTGGAGAAGTTAATGGTTTCACCAGTGGCGATGTTCAGTGCCTCAAGATGCGGAGCGGCGATA -TGAATGATATTCAGCGAAGACAGCGCCTTCTGCCCGACGGCAATAAATTTGGTGGTCAGGCGATAACTCCCTGCG -GCAGGCGCGGTGGTCACATAGCCGCAGGACTGTAATCCCTGCAATAAGCGATGGACGGTACTCTTATTTAAACCA -GCCAGCTCCGAAAGATGCGCCAACGGACAACCGTTTGGATAGTTGCTCAAAATCTCAATCAGCATCAACCCGCGA -AACAGACTCTGGCTTCCGGCTGGACGCTCTTTTTCCTGCGCCATCTCGTTCTCTTTTTTTCCCATCACTTCTTTC -CCCATTTTGTCGCGTCCTGATGGTAGCGCAAAGTGTGCCGTAGTTCACGATCTCGACAGATAATTTATAACCAAT -TGATTTTTATGTCTTTTGAAATTCATCAATCAGATTGCCTTGTTAAAAAGTGATCGATATATTTGAAATCAAGTT -TCGCATATTGAAATTTTAAGCCAAAAAAGCGATCAAAAAAACAAGGAAGCCTGGGATGAAAGTGACATTTGAGCA -GTTAAAAGCAGCCTTTAATCGGGTCTTAATTTCACGCGGCGTTGACAGCGAAACGGCTGACGCCTGTGCAGAGAT -GTTCGCCCGCACCACCGAATCCGGCGTTTATTCTCACGGCGTTAATCGTTTCCCTCGTTTCATTCAACAACTGGA -AAACGGCGATATCATTCCTGATGCCCAACCCAAACGTATAACCAGCCTCGGCGCAATTGAACAGTGGGACGCCCA -GCGTTCGATCGGTAACCTGACAGCGAAAAAGATGATGGATCGCGCCATTGAACTGGCTGCCGATCACGGTATTGG -TCTGGTGGCACTACGTAATGCCAACCACTGGATGCGCGGCGGCAGCTACGGCTGGCAGGCGGCGGAAAAAGGCTA -TATTGGCATTTGCTGGACCAACTCCATCGCCGTAATGCCGCCGTGGGGCGCAAAAGAGTGTCGCATAGGCACTAA -CCCGCTGATCGTCGCCATTCCTTCCACGCCGATCACCATGGTCGATATGTCGATGTCGATGTTCTCTTACGGCAT -GTTAGAAGTTAACCGTCTGGCAGGTCGTCAGCTCCCGGTCGATGGTGGCTTTGATGATGAGGGCAATTTGACCAA -AGAACCTGGCGTTATCGAGAAGAATCGCCGCATTTTGCCGATGGGCTACTGGAAAGGTTCTGGCATGTCGATTGT -GCTGGATATGATCGCTACTCTCCTTTCCGACGGCGCATCCGTTGCCGAAGTCACCCAGGACAACAGCGACGAATA -CGGCATTTCACAAATTTTTATTGCCATTGAAGTGGACAAGCTTATCGACGGTCCCACCCGCGATGCCAAGCTGCA -ACGCATCATGGATTACGTTACTAGTGCCGAGCGTGCTGACGAAAATCAGGCCATTCGCTTACCCGGCCATGAATT -TACTACCCTGCTGGCCGAAAACCGCCGTAACGGCATCACTGTTGATGACAGCGTGTGGGCCAAAATCCAGGCGTT -ATGAGGAGATAAGTCATGATTTTTGGACATATCGCGCAGCCCAATCCGTGCCGTTTGCCCGCCGCCATTGAAAAG -GCGCTCGATTTTCTGCGCGCTACCGATTTCAACGCCCTGGAGCCGGGCGTTGTCGAAATCGACGGCAAAAATATT -TATACGCAAATTATCGATTTAACCACACGCGAAGCGGTGGTAAACCGTCCGGAAGTGCATCGTCGGTATATCGAT -ATTCAGTTTCTGGCGTGGGGCGAAGAGAAAATCGGCATTGCTATTGATACGGGAAATAATAAAGTCAGCGAATCA -CTATTAGAGCAGCGCAATATTATTTTTTATCACGACAGTGAACATGAATCATTTATAGAAATGATACCGGGCAGC -TACGCAATTTTCTTTCCGCAGGATGTTCACCGACCAGGTTGTATTATGCAAACAGCCTCTGAGATACGAAAAATT -GTGGTTAAAGTCGCATTAACGGCGCTGAATTAATCGAATAATCGTCTACGCCAGAACGCCTGGGTAATGTTATTG -CTCTAACTATATTAATAATTCAGGTTGCTGCACATGCGACTTGAATTATGACAGACATAGCCTCAAGGAATAGCT -ATGAAAAAAATACTCGAAGCAATACTGGCGATTAATCTCGCCGTACTTTCCTGTATTGTATTTATAAACATTATT -TTAAGATATGGTTTTCAGACAAGCATTTTATCTGTTGATGAATTGTCACGTTATTTATTTGTCTGGTTAACGTTT -ATTGGCGCGATTGTAGCTTTTATGGATAACGCCCACGTTCAGGTCACCTTTCTGGTGGAGAAACTCTCCCCCGCA -TGGCAGCGACGAGTCGCTCTGGTTACCCATTCCTTAATCTTATTTATTTGTGGCGCACTGGCCTGGGGCGCAACG -CTAAAAACAATTCAGGACTGGAGCGATTATTCACCGATCCTCGGTTTACCCATCGGCCTGATGTATGCCGCTTGT -CTGCCCACCAGCCTCGTTATCGCATTCTTTGAACTGCGTCATTTATATCAACTCATCACGCGTAGCAATTCTCTA -ACGTCGCCACCGCAAGGAGCTTAATCATGGCTGTGCTGATTTTTCTGGGCTGTCTGTTGGGTGGTATTGCTATCG -GTTTGCCTATTGCCTGGGCACTGTTGTTGTGCGGGGCGGCGTTAATGTTCTGGCTGGACATGTTTGATGTCCAGA -TCATGGCACAAACGCTGGTGAACGGAGCCGATAGCTTCTCCCTGCTGGCGATTCCGTTCTTTGTGCTGGCGGGTG -AAATCATGAATGCGGGCGGCTTGTCAAAACGCATTGTTGACCTGCCGATGAAACTGGTGGGGCATAAACCAGGCG -GGCTGGGCTACGTCGGCGTGCTGGCAGCTATGATTATGGCGAGCCTTTCTGGTTCTGCCGTTGCGGATACCGCCG -CCGTTGCCGCTCTACTGGTGCCGATGATGCGCAGCGCCAACTATCCGGTCAACCGGGCGGCGGGGCTGATTGCCT -CTGGCGGCATTATCGCGCCAATTATTCCCCCTTCCATTCCGTTTATTATCTTCGGCGTTTCCAGCGGATTATCCA -TCAGTAAGCTGTTTATGGCGGGCATTGCCCCTGGCATGATGATGGGCGCAACGCTGATGCTTACCTGGTGGTGGC -AGGCCAGTCGCCTTAATTTACCCCGCCAGCAAAAAGCAACGATGCAGGAAATCTGGCACTCTTTTGTCTCCGGTA -TCTGGGCGCTGTTTCTTCCAGTCATCATTATTGGCGGGTTTCGCTCCGGCCTGTTTACCCCTACCGAAGCCGGGG -CCGTTGCTGCTTTCTATGCGCTGTTTGTCGCCACAGTTATTTACCGTGAAATGACCTTCGCCACACTTTGGCATG -TACTCATTGGCGCGGCGAAAACCACCTCAGTGGTTATGTTTCTGGTGGCCTCGGCACAAGTTTCCGCCTGGCTGA -TTACCATTGCTGAACTGCCGATGATGGTTTCTGATTTACTGCAACCGTTGGTCGATTCACCGCGTCTGCTGTTTA -TCGTCATTATGGTGGCTATCCTGATTGTCGGCATGGTCATGGATTTAACGCCGACGGTATTAATTCTTACCCCGG -TATTAATGCCTTTAGTTAAAGAGGCAGGAATCGATCCGATTTATTTCGGTGTCATGTTTATCATTAACTGCTCAA -TCGGCTTAATTACACCGCCTATCGGTAATGTACTTAACGTTATTTCAGGGGTGGCAAAACTCAAATTCGATGATG -CAGTCAGAGGCGTTTTCCCTTACGTCCTGGTTTTATATTCATTATTAGTCGTATTTGTTTTTATTCCCGATCTCA -TCATCCTCCCTTTGAAATGGATTAATTAAAAGGAAAATATTATGAAATTACGCTCTGTAACCTACGCATTATTCA -TTGCTGGCCTGGCTGCATTCAGCACATCTTCTCTGGCGGCACAATCTTTACGTTTCGGTTATGAAACATCACAAA -CCGACTCGCAACATATTGCGGCGAAAAAATTCAATGATTTATTGCAGGAGAGAACCAAAGGCGAGCTGAAATTAA -AACTGTTCCCGGACAGCACTCTCGGTAACGCGCAGGCGATGATCAGCGGCGTACGTGGCGGCACCATCGATATGG -AAATGTCCGGCTCGAATAACTTTGCCGGGTTATCACCAGTGATGAACTTGCTTGATGTCCCTTTCCTGTTCCGCG -ATACCGCTCACGCGCATAAAACGCTCGACGGCAAAGTCGGTGATGATCTGAAAGCCTCACTTGAAGGTAAAGGAC -TGAAAGTACTGGCCTACTGGGAAAACGGCTGGCGCGATGTCACCAACTCGCGCGCACCGGTTAAAACCCCCGCCG -ACCTGAAAGGGCTGAAAATCCGCACCAACAATAGCCCGATGAATATCGCCGCATTCAAAGTCTTTGGCGCTAACC -CGATCCCGATGCCGTTTGCCGAAGTCTATACCGGGCTGGAAACCCGCACTATCGACGCTCAGGAACACCCGATCA -ACGTCGTCTGGTCAGCAAAATTTTTCGAAGTGCAGAAGTTCCTTTCTCTGACGCACCACGCCTATTCCCCGCTTC -TGGTGGTGATCAACAAAGCGAAGTTTGATGGCTTAAGTCCGGAGTTCCAGCAGGCGCTAGTTTCATCTGCACAAG -AAGCGGGTAACTATCAGCGCAAACTGGTTGCTGAAGATCAGCAAAAAATCATCGACGGCATGAAAGAAGCGGGCG -TGGAAGTCATCACCGATCTCGACCGCAAAGCCTTTAGCGACGCACTGGGGAATCAGGTTCGCGACATGTTTGTTA -AAGATGTGCCGCAGGGAGCTGATCTGCTGAAAGCCGTGGATGAGGTGCAATAAACCATGACGCAATACTGGCTGG -GGTTAGATTGTGGCGGTAGCTGGCTGAAAGCCGGGCTGTATGACCGCGAAGGCCGGGAGGCAGGCGTGCAGCGCC -TGCCGCTGTGCGCATTAAGCCCGCAGCCAGGCTGGGCAGAGCGCGATATGGCAGAACTGTGGCAATGCTGCATGG -CTGTCATTCGCGCCCTGCTTACTCATTCTGGTGTTAGCGGGGAACAAATTGTCGGTATCGGCATCTCCGCACAGG -GAAAGGGCTTGTTTTTGCTGGATAAAAACGACAAACCGCTCGGGAATGCTATTTTGTCCTCGGACCGCCGGGCGA -TGGAAATCGTTCGTCGCTGGCAGGAAGATGGCATCCCGGAAAAACTCTACCCGCTGACCCGACAAACCTTGTGGA -CCGGGCATCCGGTGTCGCTGTTACGCTGGCTGAAAGAGCACGAACCAGAACGCTACGCGCAAATTGGCTGCGTGA -TGATGACGCACGACTACCTGCGCTGGTGTTTAACTGGCGTCAAAGGCTGTGAAGAGAGCAATATTTCCGAGTCCA -ACCTCTACAACATGAGTCTTGGGGAATATGACCCGTGCCTCACCGACTGGCTGGGGATCGCTGAAATCAATCACG -CCCTGCCGCCTGTTGTCGGATCTGCCGAAATCTGCGGGGAGATCACCGCTCAGACAGCCGCCCTGACCGGTCTGA -AAGCGGGTACGCCCGTTGTTGGCGGCCTGTTTGATGTGGTTTCCACCGCACTCTGCGCCGGGATCGAAGACGAAT -TTACCCTCAATGCGGTGATGGGGACCTGGGCGGTGACCAGCGGCATAACCCGCGGTTTACGTGACGGTGAAGCGC -ATCCGTATGTCTATGGTCGCTACGTTAACGATGGTGAATTTATCGTTCACGAAGCCAGCCCTACCTCTTCCGGCA -ACCTCGAATGGTTTACCGCACAGTGGGGAGAAATCTCGTTTGATGAGATCAATCAGGCCGTTGCCAGCTTGCCGA -AGGCTGGGGGCGATCTCTTTTTCCTGCCGTTCCTGTACGGCAGCAACGCCGGACTCGAGATGACCAGTGGTTTCT -ACGGGATGCAGGCCATTCACACCCGCGCGCACCTGTTGCAGGCCATCTATGAAGGGGTGGTGTTCAGCCATATGA -CCCACCTCAACCGAATGCGCGAACGTTTTACTGATGTTCACACCCTACGCGTCACTGGCGGCCCGGCGCACTCCG -ATGTCTGGATGCAAATGCTGGCGGACGTCAGCGGTCTGCGTATCGAGCTGCCGCAGGTGGAAGAAACCGGCTGCT -TTGGTGCGGCCCTTGCCGCCCGCGTCGGCACCGGGGTTTATCACAACTTCAGCGAAGCCCAACGTGACTTGCGAC -ACCCGGTGCGCACCCTGCTGCCAGATATGACCGCCCATCAGCTTTACCAAAAAAAATATCAACGTTATCAGCATC -TCATTGCCGCACTTCAGGGCTTTCACGCCCGCATTAAGGAGCACACATTATGAGCCGACCACTTCTGCAACTGGC -CCTCGACCACTCATCACTTGAAGCCGCGCAGCGCGACGTGACGCTGTTAAAAGACAGCGTCGATATCGTCGAAGC -GGGCACCATTCTCTGTTTAAACGAAGGGCTTGGCGCGGTGAAAGCCTTGCGCGAACAGTGCCCGGACAAAATCAT -CGTTGCTGACTGGAAGGTCGCCGACGCTGGTGAAACGCTCGCGCAACAGGCGTTTGGCGCAGGCGCTAACTGGAT -GACCATCATCTGCGCCGCGCCGCTCGCGACGGTAGAAAAAGGCCACGCAATGGCACAACGCTGCGGGGGTGAAAT -TCAGATAGAGCTGTTCGGTAACTGGACGCTGGACGACGCCCGCGACTGGCATCGTATTGGCGTGCGGCAGGCCAT -TTATCATCGCGGTCGTGATGCACAGGCCAGCGGGCAACAGTGGGGCGAAGCCGATCTGGCACGCATGAAGGCGCT -TTCAGATATCGGCCTTGAGCTTTCCATTACTGGCGGGATTACCCCTGCTGACCTGCCGCTGTTTAAAGATATCCG -CGTGAAAGCGTTTATTGCCGGGCGGGCACTGGCAGGCGCGGCAAATCCGGCGCAAGTGGCTGGCGATTTCCATGC -GCAAATCGACGCTATCTGGGGAGGTGCGCGTGCGTAATCATCAGTTAGGGATTTATGAAAAAGCGCTGGCGAAAG -ATCTCTCCTGGCCGGAGCGGCTGGTGCTGGCAAAAAGCTGCGGTTTTGATTTTGTCGAAATGTCGGTGGATGAAA -CCGACGAACGGCTCTCACGTCTTGACTGGAGCGCCGCACAAAGGACTTCGCTGGTTGCCGCGATGATCGAAACAG -GTGTTGGGATCCCGTCGATGTGCCTGTCCGCACATCGTCGCTTTCCCTTTGGTAGCCGTGACGAGGCAGTGCGCG -AACGGGCGCGGGAAATCATGAGTAAAGCGATTCGCCTGGCGCGCGATCTCGGCATTCGCACCATCCAGCTGGCAG -GTTATGACGTCTATTACGAAGACCACGACGAAGGCACCCGGCAACGTTTTGCTGAAGGGCTGGCGTGGGCAGTCG -AACAGGCGGCGGCATCACAAGTAATGCTGGCGGTGGAGATTATGGATACCGCGTTTATGAACTCCATCAGCAAAT -GGAAAAAATGGGACGAGATGCTCGCCTCACCGTGGTTCACCGTCTACCCGGACGTCGGCAACCTCAGCGCCTGGG -GCAATGATGTTCCCGCCGAACTGAAACTGGGCATTGACCGTATCGCCGCGATCCACCTGAAAGACACCCAGCCAG -TCACCGGGCAAAGTCCCGGACAGTTCCGCGACGTGCCGTTTGGCGAAGGCTGCGTCGATTTCGTTGGCATCTTCA -AAACGCTGCATAAACTGAACTATCGCGGTTCTTTCCTGATTGAGATGTGGACCGAAAAAGCCAAAGAGCCGGTGC -TGGAGATTATTCAGGCGCGGCGTTGGATTGAAGCGCGTATGCAGGAGGCTGGATTTATATGTTAGAGCAACTGAA -AGCCGACGTGCTGGCGGCGAATCTGGCGCTTCCCGCTCACCATCTGGTGACGTTCACCTGGGGCAATGTCAGCGC -GGTAGACGAAACGCGGCAATGGATGGTAATCAAACCTTCCGGCGTCGAGTACGACGTGATGACCGCCGACGATAT -GGTGGTGGTTGAGATAGCCAGCGGTAAGGTGGTGGAAGGCAGCAAAAAACCCTCTTCCGATACACCAACGCATCT -GGCGCTCTACCGTCGCTATGCCGAAATTGGCGGTATTGTGCATACCCACTCGCGCCACGCCACCATCTGGTCACA -GGCCGGGCTGGATCTCCCCGCCTGGGGCACCACCCACGCCGATTATTTTTACGGTGCCATCCCCTGCACGCGACA -GATGACCGCAGAGGAGATTAACGGCGAATATGAATATCAGACCGGCGAAGTGATCATTGAAACCTTCGAAGAACG -TGGCAGGAGTCCGGCACAAATCCCGGCGGTGCTGGTGCATTCTCACGGCCCGTTCGCATGGGGTAAAAACGCCGC -CGATGCCGTGCATAACGCCGTAGTACTCGAAGAATGCGCCTATATGGGTCTATTCTCGCGCCAGCTTGCGCCGCA -GCTCCCTGCGATGCAAAACGAACTGCTGGATAAGCACTACCTGCGTAAGCATGGGGCCAATGCCTATTACGGGCA -GTAATCCCTCACGCCGGGGCTTCATCGCCCCGGCACTACGAATTGATATGTTCCTTGCTGTAACGCCGCTTCCAC -GCTGCTGGCGTTAAACCAGTATGTTTCTGAAAAATCTGCCGGAAATAGCCAACGTCATTAAACCGTATTGCATGG -AGCAGGCCGACAACGTCGAGTCACTGCATAACCTGTTGCTGCCCGCCGATGCGCCATTTACGACATTTGAAGGCA -AGGGATTGTTCAGCCATAAGATCCTGATTCAGACGCCAGGTTCCCGGTATGAACAGAGCAATCCAGAGCAACAAC -CTTTGTGGCATTACGACGGAGCACCAGCCGCACCGACATCCACCGGTGAATTAAAAACGCCAGCTCACCCCGGTG -ACAAAGGTAAAACTCTCATTACGATCAATCATCGGGCTGTCGGTAATCTCTTCCGGCAGCTCGCTGTATCCTGCG -CTCGCCATCAATACGACGTGCTCTCCTATCGGGTATTTTGCCGTCAGGCTGACATAGGGCACCCAGGCATCCTGC -GCGGAATAACTTGCCAGACCGCTACGACGGGACTCACTCTCTGAAATGCCATAGTAATAGTCACTGAAATTCTCG -TCATAATAGAGAACGCCCAGCGCAGGTGTCAGCGACAGACGACCTATCTGCATTTTGTGGAATACCGATAGCTCC -CCCACCCAGCCGTTGCTGTTATCCAGAACGTCCGCAGCTGCAGAGGCTTTCACGGTTCCCCAACGCTCGTGGTGA -TACCAGGCAACCCCCGCCATAGCCGTACTATCACGCTTATCAAGCTGTTGCATGGCATAATCGTCATTATCGGTA -GGGTCAAATTCCAGCGGCATCCAGGATGCGGTCAGGCTAAGTTCATTTTTTTCACTTTGCGACAGAATAAAACCT -AACGTGGTCTGACGAACATAAAAAGTATCACCTTCATAACTAATCAGCGGAATTGCCTTCGTATTTTCATTATAA -CCGCGATAAGGCGATTCATTATAAGCCGCACCAGCACCAATGGATAATTCAGAAGCAGTTGCGCTTGCCATAAAA -GGCAACGCAAATAACGCCACAATATTGCGATTAATTAACATGTCCGGTATTCCATTTTAAAATAAGATAAAAAAG -AGTCGGCATAATAATGCTTACAATTTCTCCGGTGCAAGATTCATATTTATATAGTAATATATAAAATTATATATA -ATTGGGCTGTTGCGATGACAAAATTACAACTTAAGTACCGGGAGTTAAAAATTATCTCGGTAATCGCTGCCAGTG -AAAATATCAGCCATGCCGCGACTGTACTTGGCATCGCACAGGCCAACGTCAGCAAATATCTTGCTGATTTTGAAT -CAAAAGTGGGTTTAAAAGTCTTTGACCGAACCACCCGGCAGCTGATGCTCACACCTTTTGGCACCGCGCTGTTAC -CGTACATCAACGACATGCTGGACAGAAACGAGCAACTTAATAATTTTATTGCAGATTATAAGCATGAGAAACGTG -GTCGGGTCACCATCTACGCCCCAACCGGCATAATTACCTATTTATCCAAACATGTAATCGATAAAATTAAAGATA -TCGGTGATATCACCTTATCGCTAAAAACCTGCAATCTTGAGCGTAATGCCTTTTATGAAGGCGTCGAATTTCCTG -ATGATTGTGATGTTTTAATCAGCTACGCTCCACCAAAAGATGAATCGCTGGTTGCCAGTTTTATTACCCAATATG -CCGTAACCGCTTATGCCAGCCAGCGCTATCTTGAGAAACATCCCATTAGCCGTCCTGACGAACTCGAACATCACT -CCTGTATTTTGATCGACTCGATGATGATCGACGACGCGAATATCTGGCGCTTCAACGTCGCCGGGAGTAAAGAGG -TGCGGGATTATCGCGTGAAGGGAAATTACGTTTGCGACAACACGCAATCTGCGCTGGAGCTGGCACGAAATCACC -TGGGGATTGTGTTTGCGCCAGACAAAAGTGTGCAGAGCGACCTGCAAGACGGCACGCTGGTGCCCTGCTTTCAGC -AACCCTATGAATGGTGGCTGGATCTGGTGGCTATCTTCCGTAAACGGGAATACCAGCCCTGGCGGGTCCAGTATG -TGCTGGATGAAATGCTGCGTGAAATTCGCCACCAGCTTGCTCAGTCGCAGCAACTGCGGCCTGAACAAGCGGCGG -AAAGCGAAGATTAATGATCGAGATAAAGGTAATGCACCCAGCTGGTCATGCGTAATAGCACTTTGCGCATCACCG -AGACATGGCTGAAATGATCAGAGTAAACCGCCACCTGGGCGTAAATACCGTCTGGTAAAGCGCTCAAATCAGTGT -GCTCATCCAGTTCAATGGTCGCGATAACGCCATCTGAACCCGGCGCTGTGTTTAACGTCTGTAAGGTGCCGGTCG -ACTGATAAGCTCCGCCGGGAACGGCTGGACTAATGGCTGCCAGCTTACCGCTGAATACCTTACCTGGCAGAGCAT -TAAACACCACTTCCGCATCGTCGCCAGGAGCCAGTCGCAGCAAGGAGTTCTGACGGAACTGCGCCACGATTTGTC -GTTTCTGATCGGGTATAAACACCATCACCGGACGTAGCGGCAGCGACGCGGCATAGGTACCCGGACGAATCAGTA -CCTGGGTCACATAACCATCGCTCGGCGCACGCACTATCGTCTGCTCAAGGTTATATTTTGCTTCCGCGAGCTGTG -CTTTCAGGCTGGCGATTTGAGAATGTTCACCCAACACCAGGCTATCCAGCTGGCTCTGGATCTGTTTTTGTTCCG -CCGCCGATGACTTCACGGAGGCTTCCTGCGCCAGATAATTTTGCCGCGCCACATCGATATCGCGTTCTGAAAACG -GGTTTACTTTCGCCTGGCTGCCACGTGCGTAACGCTGATACTCTTTAGCGAATTTATCCCGCGTGGCCTTTGCCT -GCTGAGTATTCGCCGCCATCTCATCTAACTCTGCGCCCAACGCCCGCTGTTTATGTTCTGCGGTAACGATATCCG -CCATCAGCCGATCCACCCGCGCCTGATAACGCGTCGGGTCCAGTCGAAATAGCACCTCACCTTTTTTAATCAGCG -TATTTTTCTTATCCGTCACTTCAATCACCACACCAGTCACCTGTGGGACAACAGGAATAGAAATAACCGCTTTTT -GCGCTTTAAAGGTATACGGATGGTTATAGTTCATTAACAGAATTAGACCGCTGACAATAAATATTCCACCCAGGG -CCGCTGTGGGAATGGTCCATTTATTTACGGGAATTTTGAAGATCTTAAACATTGCCCATGCAAAAGCCACATAGG -TCAAAATAATCAGTAAATCCATAAGTATTACTCGGCAGAAGAGGATTTGATGTCGGCGAGCTGTTTCTCCAGCCC -GGCAATGCGCTGTTGCAGTTGCATAACGGATGAATCATGGCTTTGCATTCCCCATCCCCGCTCCGGGCGGTAAAG -CGTGGCCCAAATCCACAAAAACGGCCAGATAACATGTAACGTAAAAAGACTCACCCAACCAGCAACATGAATGGC -GTCGGCATGAGGATGATTACGTTTTTTGGCAATCAGGTAGGGAATATCATGTAAAATAATGATCCCATAGAAGAT -CACCAGAAATACAAAAATAAGCACTCCCAGTGCAAAATAGTCCAGGAACATATTTCCCTCAAAGAATATAAAAAA -GAACAATTAACGCATATTATGAAATGCCATGATGCAGTGCAATTTCCTTATTTATATAACGACATATTGTTTTTT -ATATACTTTCTTAAATGTGCTGTCTGGTTTTTCAACAGGACGAGGTTTATCATATTGAAATAGTGGAACTATTGG -CCAAACTAATGAATAACTCCAGTAAAACATCCACAGTACAGATTAAGCGTATTAAACCTTCAATTATCTACCGTT -TATTGCTGATTGGCCTCGGATCACCAATGGTGATTTACGGCCTGGTTCGCCCGCTCACCATCGAAACGCGAGATT -AAACTCCTGACAAAACACGCCCCAGAAACGTACTTCTGTTGGCGTAGTCTGGGTTATTGCGCACGTAGGTTTAAA -ACGTAAATTGTAACAACGTGCGCTTTGTTTATGCCGGATGCGGCGTGTACGCCTTATCCGGCCTACGGTCAGGTT -CCCGTAGGCATGATAAGACGCGTAAGCGTCGCATCAGGCAATGAATACCCAATGCGACCAGCTTCTTATATCAGA -ACAGCCCCAACGGTTTATCCGAGTAGCTCACCAGCAGGCACTTGGTTTGCTGGTAATGCTCCAGCATCATCTTGT -GGGTTTCGCGACCGATACCTGATTGTTTGTAGCCACCAAACGCCGCATGTGCCGGGTAAGCGTGATAACAGTTGG -TCCACACGCGCCCAGCCTGTATGCCGCGCCCCATCTTATAGGCCAGATTACCGTTGCGGCTCCAGACGCCCGCGC -CCAGGCCATATTGCGTATCGTTCGCCAGCTCCAGCGCTTCTTCCATCGTTTTGAAGGTGGTCACCGCCAGCACCG -GGCCAAAAATCTCCTCCTGGAACACCCGCATATTGTTCTGACCAAACAGAATCGTCGGTTCGAGGTAGTAGCCGT -CTTTCAGTTCACCTTCCAGCAGCTTGCGCCGCCCGCCTGTGAGCACGTCAGCGCCCTCTTTTTTACCGATATCAA -TGTAGTTGAGGATGGTTTCCAGTTGCCCGTGAGAAACCTGCGCGCCCATTTGCGTCACGCTGTCGAGCGGGTTAC -CGCTACGAATGCTTTCGACACGGCGGATGGCGCGTTCCATAAAGCGTTCGTAGATAGATTCCTGCACTAAAGCAC -GACTCGGACAGGTGCAAACTTCGCCCTGGTTAAAGGCAAACAGTGCAAAGCCTTCCAGCGCTTTATCGAAAAAGG -CATCTTCTTCATCCATCACATCAGCAAAGAAGATATTTGGCGACTTACCGCCCAACTCCAGCGTCACCGGAATAA -TGTTTTGCGTTGCGTATTGCATAATTTGTTGGCCCACTTCCGTTGAGCCGGTAAACGCCACTTTGGCGATGCGTT -TCGAGGTCGCCAGATATTCGCCAATTACCCCACCTGCGCCATTGACCACGTTCACCACGCCCGGCGGCAGTAAAT -CACCGACAATTTCCATTAGCAGCAGTACAGAAAGCGGGGTAAGACGTGCGGGTTTCAGCACCACACAGTTGCCCG -CCGCCAGCGCGGGAGCCATTTTCCAGCTCGCCATCAGCAGCGGGAAGTTCCACGGGATAATCTGCCCCACCACGC -CTAACGGTTCATGGAAATGATAGGCCACGGTTTCGCTATCAACTTCACTGATCCCACCTTCCTGCGCCCGAATAC -ACGAGGCGAAATAGCGGAAATGGTCAATCGCCAGCGGTACATCCGCAGCACTGGTTTCGCGAATGGGTTTGCCGT -TATCCCAGGTTTCAGCTGTCGCTAACAGCTCGAGGTTTTGTTCCATTCGATCGGCAATCTTAAACAGAATCGCCG -CACGATCCTGCACCGAGGTGTGCGCCCATTTATCTTTCACTTTGTGCGCAGCATCCAGCGCCAGATCGATGTCTC -GTTTGCCCGAAGACGCCACTTCGCACAGCAGCTGCCCGGTCACCGGCGTCAGATTCTGGTAATACTCGCCGTCGG -CAGGGGCTACCCATTCGCCGCCAATAAAGTTGTCATAGCGGGCTTTTAACTTGAGGGGGAAACCATACTCGCCGG -GCTTAATCTGTGCTGAAGGGGGATTATTGGTCATGATCGTCTCCTTGCGGTGTGAGGTATAACAAGGGTAGACGT -GACTGGCGAAATCTTCGCCAGTCGGTAACAGCTTTACGACAGCTATCACGAATTTACGGGCAAGGGTTACAGAGA -TAGTTGAAAAAGCGGCTAACAATTTGCCAGCCGTTGTGGAAATGATGATTACATCGCTGCGCGATAAATCGCCAC -AATTTCTTCGTGAGTTGCCTGGATCGGGTTAGTAAAGCCACAGGCATCTTTCAGGGCATTAGTCGCCAATACCGC -GAAATCTTCTTCTTTCACGTTCAGGTCGCGTAGGCCTGCCGGGATATCCACTTTCTTCGCCAGTTCACGGATGGC -GTTAATGCAGGCTTCAGCACCTTCCGCGTCGTTTTTACCTGTCACGTTCACGCCCATTGCAGCGGCACAGTCACG -CAGACGTGCAGCGGCGACTTTGCTGTTGAATACCTGAACGTGCGGCAGCAAAACGGCGTTACATACACCGTGTGG -CAGGTTGTAGAAACCGCCCAGCTGGTGCGCCATCGCATGAACATAACCCAGAGAAGCATTATTGAACGCCATACC -GGCGAGGAACTGGGCATAAGCCATTGCTTCACGCGCTTTCGCATTACTGCCATCTTCAACGGCTAACGGCAGGTT -TTCGGCAATCATGGTCACGGCTTTCAGTGCACAAGCGTCAGTGATCGGCGTGGCGGCAATAGAAACATATGCTTC -GATAGCGTGCGTTAAGGCATCCATACCCGTTGCGGCGGTCAGTGACTTCGGCATACCAATCATCAGAGAGGAGTC -ATTGACAGAAAGCAGCGGAGTGACATGTTTATCAACAATCGCCATTTTGATATGACGCGCTTCGTCAGTGATGAT -GCAGAAACGGGTCATTTCAGAGGCCGTACCCGCCGTGGTATTGATGGCGATCATCGGCAGCTGCGGTTTTGCAGA -GCGGTCAACGCCTTCGTAATCGCGAATATCGCCGCCATTGGCTGCCACCAGCGCAATACCTTTTGCGCAGTCGTG -TGGAGAACCACCGCCTAAGGAGATCACGCTATCGCAATTATTCTCTTTAAGTAATTTCAAACCTGCGGCGACGTT -TTCCGTGGTGGGGTTAGGTTGGGTGCCATCATAAATAACGCTAAAAATATTGCGTTCTTCCAGTGCTTTTTGCAC -ATCGCCCGCCATACCTAATTTCGTTAACATATTGTCAGTGACAATTAAGGTACGGGTAAATCCATAATCTGCCAT -CATATTCATTGCATCAGTCAATGAATCAGCGCCGATGACATTCACAGAAGGAATAAAGAACGTTGAAGCTGCCAT -AACACACTCCTGAAAGTGTAAAAAAGGGCGGGCAGCTTACTGAGGATTTTCATTCGAAAATATGATCAGTATTAT -TGATTATCAAAATTAATCTAATAAAAAGCACATTGTATTCATTAAACAATGTGCTTTTTTTAAATTCATAAGAAT -TTTGTATTAATTTATTTTAAAACTTAATTAATCATTTCCTTATTTTTCCGGAAATAATAATGCGTCGCGCAATAA -ATGATCATTTCCACGACGACGCGTAAAGCCAATGCGGTCAAAATATTCCAGAATCTGAATTGCCAGCTTTCGGCC -TACGCCTAAGCGATCGCGGAAATCCGCCGCGCAGGTTGAACCACACTCCTGATCGAGATCGCGGATCATATTGGC -AAACTCGACAATCCGATCGTTACGGTAATAACGATCTTTAACGATCGCGGTAATTATTCCTTGCTGCGCCGCCTG -GCGTAGAGTCAGGCGCATTGCCTGCTCGTCGGTTCCCGTCTCTTTTGCCAGGTCACGCACCCACCACGGTTCGTC -ACCAAACAGTGGCTCTGCTTTTTGCCAGATGGCCTGCTGCTCTTCGCTGAAGCCCGCTTTGTGATCTGGCAGATG -CAGCCAGCCGTGATGGCTGTGGATGTCGCCGCTTTCGCGCATCTTTTCAATCAGCAACAGTACCAGCGCTTCATC -TTCCATTGGCAACGCCATACGTCGCAGACGTTCGCGCCCAGGGCCAGGTTCATCGCGATGTTGCTCATGATAAGT -CGCTAATGTGTCGAGAATTTTCCGCTGCCAGCGGGCGGCAACCGGCGCATTCAACAAGCTATAACCAGCCTGAAT -ATAACCAGGCTGTTGCAGCAATTCGCGCATCCCTTCGCCGTTGAGCTGGCGCGCCCAGGCGAAATCCGCAAGGTT -AACCGCGCCGCGTTCCAGATGAACAGATAACGCATCGGCATCGCTCTGCGCCCGTGCAAGAGACGCCAGCCATTG -CAGATATTCCGGCTTACGTTTACCGCGACGCGGCGGGTTAAGCATCACGACGCGCGCTCCGGCCAGCGTGTTGCG -GGCAGAGATATCGCGCAATACCAGGCGGTCGTTATCTGCCAGCCATAACGGGGTGTCGAAGACCAGTTCAGCAAG -GTTATCTTCCAGCAGTGAAACGCGTCCCGTGACGTGGCTGGCGGCGTGGTGAATATGCAGCGGCTGCCACTGGGT -CAGCGGTGTATGGGTTTGAAGCTCGACAATCACCCGTGTGAACGGCTCTGGCGGCACATCGGCAAGCAGCCAGTC -GCCACGGTTAATCTGCTCTTTTTCCGCATCACCCGCGATGTTAAGCGCGATACGCTGCCCGGCATTGGCGGTTTC -TGTTGGCTGGTTTTGCGCATGCAGCGCACGTACACGCATCGGTTTATTTACACCAGTCAGCCAGAGTGAATCGCC -TACCTTCACTTCCCCGCTTAACGCCGTACCGGTGACGACCAGCCCGGCACCTTTTACGGTAAATGCGCGGTCAAT -CGCGAGGCGGAAACTATGTTGGCTGGCGTGCTCGCGTTCCGGCAACTGAAGCAGATGCTCGCGCAGGGCATCCAT -TCCCCGACCTTCGGTTGCTGCGGTGATAAACAGTTTTGCCTCAGCAAAACCGTATTCCCGCAGAACCTCCTTTAC -CTGGCGTTCAACCTCATCAACACGCGCTTCGTCCACGCGATCGGCTTTGGTCAGCGCCACTGTCAGCATCGGGTT -ACCGGTCAGCTGCAAAATCGCCAGATGCTCACGGGTCTGTGCCATCACGCCGTCATCGCACGCCACCACCAACAG -CGCGTGATCGATACCACCAACGCCCGCCAGCATGTTGGAAAGAAACTTTTCATGACCGGGAACGTCGATAAAACC -AGGCACGCGACCATCCGGCTGCGGCCAGTAGGCATAGCCGAGATCGATGGTCATGCCGCGCTTTTTTTCTTCCGG -CAGACGGTCAGCATTTACGCCAGTAATCGCCTGCAATAAGGTTGTTTTGCCGTGGTCAACGTGTCCGGCAGTCGC -AATAATCATTTCAACAACATCTCCAAAAACCGTTGCTCATCTTCAAGGCAGCGTAAATCCAGCCACAATCGTCCG -TCATAAATACGACCAATCACCGGCACTGGCAATTCACGCCAGCGGGCGGCTAATGACTCAAGGTGGCTACCGCGT -CCATCATGGGGTGTAAACGTTAATGCCGCGCTCGGCAGGCGATCAACCGGCAGCGAACCACTGCCAATCTGCGAA -AGACATGGCATAACCTGTACCGCAAACTCCGCGCCGTAATGTGCGGCAAGGGGGGCCTGTAAACGTTGTGCCTGG -ATTTGAATGACCTCTGCGCTGCGGGTAAGCAGGCGCAGGGTCGGTAATTTTTCACTCAGAGCTTCAGGGTGTAAA -TAAAGACGCAACGTGGCTTCCAGCGCCGCGAGGGTCATTTTATCCGCGCGTAATGCACGCTTCAGCGGGTGGCTT -TGCAGGCGGGCGATCATCTCTTTTTTACCAACAATAATTCCTGCCTGCGGCCCGCCTAACAACTTGTCGCCGGAG -AAACTCACCAGACTGACGCCCGCCGCAATCAACTCCTGCGGCATTGGCTCTTTCGGCAAACCGTACTGGCTAAGA -TCGACCAGCGAGCCACTGCCTAAATCAGTCACTACGGGAACATCCAGCTCTTTGCCGAGCGCCACCAGTTCCGCT -TCATCTATCGCTTTGGTGAACCCCTGAATGCTGTAGTTACTGGTATGTACTTTCATCAACAGTGCGGTATTTTCA -TTCACCGCCTGACGATAATCATTCGCGTGCGTGCGGTTGGTGGTCCCTACTTCGTGTAGGGTGCAGCCTGCCTGA -CGCATAACATCGGGAATACGAAACGCGCCGCCAATCTCCACCAGTTCGCCGCGAGATACCACCACCTCTTTTCCG -CTGGCAGTGGCCGCCAACATCAATAACACCGCCGCCGCATTGTTATTGACGATACAGGCATCTTCCGCCCCCGTA -ATACGGCACAGCAGCTGCGCCAGCGCCCGATCGCGATGTCCGCGTCCGGCGTCGTCCAGATCATACTCGAGGGTC -ACTGGCGAACGCATAGCCTGCGCAACGGCTTCCACCGCGGCTTCCGCCTGTAAAGCTCGCCCAAGGTTGGTATGC -AGCACGGTTCCCGTCAGGTTGATCACCGGACGCAGCGCGCTCTGCGCTTCTTTCGTCAACCGGGCATCGACTTCT -TGCGCCCAGTTTTCACACCACGCAGGCAGCGTCTGGCTGCCACGAATCACTTCTCGCGCTTCGTCGAGCATCTGA -CGCAACAATTCCACCACGCGGGTGTGACCATAAGTATCACGCAAAGAAAGGAAGGAGCTATCGCGCAATAAGCGA -TCAATAGCCGGAAGTTGACTATAGAGGGAACGCGTTTCGGTTGTCATAGGAAACCTGGCTGATCAAGGCCCTCTC -ACACGGAGAAGGGCGTTTAACATAACCACGGATTGTAACGTGAGATGGGTCAGGAGGACATATCGCGCATCAAGC -CTTTGGCGGTTCGGTGCGAGCAAAACTTTCGCGGCTAAACAGGTTTTCGACCAGTTTGACTAAGTGTGGGCGGTC -GACACACCAACCTGGCGCAACGCGGCGGAAATTGAGATATCCGACGGCACAGGCAATGGCGATAGTCGCCAGATT -GACCGTATCGGTTTTGAGTGTGCCATCGACCAGATATCCTTCCAGCACATCCAGACTGCGGTTGATTTTCTCCCG -CTGGCGTAACAATTCATCTTCAGACTGCTGCGCCGCTGGACGCGCCTGTTCACGCACCGATACCAGCCCGGCATC -CATAATGCCATCCGCCAGTGCCTCAATTTTGCGCACCCGCAACGACTCCAGCGGATCGCGCGGCAACATCGCCGG -AGCGACATTCATTAATTCAATATATTCAGCGATGATCGGCGAATCAAACCAGCATTCGCCCTCTTCGGTCACCAG -CACCGGCACTTTTCCTAACGGGTTAAATTGCGCCACGCCGTTGTCCGCGTTATAGGGCAGTTCATTAATAAATTC -GAAAGTTATGCCCTTTTCTAACAACAGAATAGAAAGTTTGCGTACAAACGGGCTGGTGTAGCTACCGACGAGTTT -CATGCCGAGTCCTTTGTGCGAGGAAAAATATCAGTATGGCCTGGTGATGGGAAAAAGGGCAGAAAATGTTGATGG -TTTGTTACTTCCAAATAAATCACATATTTATCATGGTGATATAAATATTTTCCTAATTATTTCACTCTGATGGAT -ATCTCACTTCAGGCTTTCTTATAAATCTGTAGGGTTTCGCCTGTCAGCAGACAAATAACCCGATAAAACAAGGAT -GAGAAATGAGCGGAAAACCGGCAGCGCGTCAGGGCGACATGACGCAGTATGGCGGTAGCATTGTTCAGGGTTCAG -CCGGGGTGCGCATTGGTGCCCCCACCGGCGTGGCCTGTTCGGTGTGCCCCGGCGGAGTGACGTCCGGCCATCCGG -TCAATCCCCTGCTCGGTGCAAAGGTCCTTCCCGGTGAAACCGACATCGCCCTGCCCGGCCCGCTGCCGTTCATCC -TCTCCCGCACCTACAGCAGTTACCGGACAAAAACGCCCGCGCCGGTGGGGAGCCTCGGCCCCGGCTGGAAAATGC -CTGCGGATATCCGCTTACAGCTGCGCGATAACACACTGATACTCAGTGATAACGGCGGCAGAAGCCTGTATTTTG -AGCACCTGTTTCCCGGTGAGGACGGTTACAGCCGCAGCGAGTCACTGTGGCTGGTGCGCGGCGGCGTGGCGAAAC -TGGATGAAGGTCACCGGCTGGCCGCACTCTGGCAGGCGCTGCCGGAAGAACTCCGCTTAAGTCCGCATCGTTATC -TGGCGACAAACAGTCCGCAGGGGCCGTGGTGGCTGCTCGGTTGGTGTGAGCGGGTGCCGGAAGCGGATGAGGTGC -TGCCTGCGCCGCTGCCGCCGTACCGGGTACTGACCGGGCTGGTGGACCGCTTCGGGCGCACACAGACGTTCCACC -GCGAAGCCGCCGGTGAATTCAGCGGCGAAATCACCGGCGTGACGGATGGTGCCTGGCGTCACTTCCGGCTGGTAC -TGACCACGCAGGCGCAGCGGGCAGAAGAAGCCCGGCAGCAGGCCATTTCCGGCGGGACGGAACCGTCCGCTTTTC -CTGATACCCTGCCGGGTTACACCGAATATGGCCGGGACAACGGCATCCGTCTGTCTGCCGTGTGGCTGACGCACG -ACCCGGAATACCCGGAGAATTTACCTGCCGCGCCGCTGGTGCGCTATGGCTGGACGCCACGCGGCGAACTGGCGG -TGGTGTATGACCGTAGTGGCAAACAGGTGCGCAGCTTTACTTACGATGATAAATACCGGGGCCGGATGGTGGCGC -ACCGTCACACGGGCCGGCCGGAAATCCGTTACCGTTACGACAGCGACGGGCGGGTGACAGAACAGCTAAACCCGG -CAGGCTTAAGCTACACGTATCAGTATGAGAAAGACCGCATCACCATCACCGACAGCCTGGACCGCCGTGAAGTGC -TGCACACGCAGGGCGAAGCCGGGCTGAAGCGGGTGGTGAAAAAGGAACACGCGGACGGCAGCGTCACGCAGAGTC -AGTTTGACGCCGTGGGCAGGCTCAGGGCACAGACGGATGCCGCAGGCAGGACAACAGAGTACAGCCCGGATGTGG -TGACGGGCCTCATCACGCGCATAACCACGCCGGATGGCAGGGCATCGGCGTTTTACTATAACCACCACAACCAGT -TAACGTCAGCCACCGGGCCTGACGGGCTGGAATTGCGCCGGGAATATGATGAATTGGGCCGTCTGATTCAGGAAA -CTGCCCCTGACGGCGATATCACCCGCTACCGTTATGATAATCCACACAGTGACTTACCCTGCGCAACGGAAGATG -CCACCGGCAGCCGGAAAACCATGACGTGGAGCCGTTACGGTCAGTTGCTGAGCTTCACCGACTGTTCCGGTTATG -TAACCCGTTATGACCATGACCGCTTCGGGCAGATGACGGCGGTGCACCGCGAGGAAGGGCTGAGTCAGTACCGCG -CATACGACAGCCGTGGACAGTTAATTGCCGTGAAAGACACGCAGGGCCATGAAACGCGGTATGAATACAACATCG -CCGGTGACCTGACCGCCGTCATTGCCCCGGACGGCAGCAGAAACGGGACACAGTACGATGCGTGGGGAAAGGCCG -TCCGTACCACGCAGGGCGGGCTAACGCGCAGTATGGAATACGATGCTGCCGGACGGGTCATCCGCCTGACCAGTG -AAAACGGCAGCCACACCACCTTCCGTTACGATGTACTTGACCGGCTGATACAGGAAACCGGCTTTGACGGCCGCA -CACAGCGTTATCACCACGACCTGACCGGCAAACTTATCCGCAGCGAGGATGAGGGTCTGGTCACCCACTGGCACT -ATGACGAAGCAGACCGCCTCACGCACCGCACCGTGAAGGGTGAAACCGCAGAGCGGTGGCAGTATGACGAACGTG -GCTGGCTGACAGACATCAGCCATATCAGCGAAGGGCACCGGGTGGCGGTGCATTACAGGTATGATGAGAAAGGCC -GGCTGACCGGTGAGCGTCAGACGGTGCATCACCCGCAGACGGAAGCACTGCTCTGGCAGCATGAGACCAGACATG -CGTACAACGCGCAGGGGCTGGCGAACCGCTGTATACCGGACAGCCTGCCCGCCGTGGAATGGCTGACCTACGGCA -GCGGTTACCTGGCAGGCATGAAACTCGGCGACACACCGCTGGTGGAGTACACCCGCGACCGCCTGCACCGGGAAA -CGCTGCGCAGCTTCGGCCGTTATGAACTCACCACCGCTTATACCCCTGCCGGGCAGTTACAGAGCCAGCACCTGA -ACAGCCTGCTGTCTGACCGCGATTACACCTGGAACGACAACGGCGAACTCATCCGCATCAGCAGCCCGCGCCAGA -CCCGGAGTTACAGCTACAGCACCACCGGCAGGCTGACCGGCGTTCACACCACCGCAGCGAATCTGGATATCCGCA -TCCCGTATGCCACAGACCCGGCAGGTAACCGCCTGCCCGACCCGGAGCTGCACCCGGACAGCACCCTCAGCATGT -GGCCGGATAACCGTATCGCCCGTGACGCGCACTATCTTTACCGGTATGACCGTCACGGCAGGCTGACAGAGAAAA -CCGACCTCATCCCGGAAGGGGTTATCCGCACGGATGATGAGCGGACTCACCGGTACCATTACGACAGTCAGCACC -GGCTGGTGCACTACACGCGGACACAATATGAAGAGCCGCTGGTCGAAAGTCGCTATCTTTACGACCCGCTGGGCC -GCAGGGTGGCAAAACGGGTGTGGCGGCGTGAACGGGACCTGACGGGCTGGATGTCGCTGTCACGGAAACCGCAAG -TGACCTGGTACGGCTGGGACGGCGACCGGCTGACCACAATACAGAACGACAGAACCCGCATCCAGACGATTTATC -AGCCGGGGAGCTTCACGCCACTCATCAGAGTTGAAACCGCCACCGGTGAGCTGGCGAAAACGCAGCGCCGCAGCC -TGGCGGATGCGCTTCAGCAGTCCGGCGGCGAAGACGGTGGCAGTGTGGTGTTCCCGCCGGTGCTGGTGCAGATGC -TCGACCGGCTGGAAAGTGAAATCCTGGCTGACCGGGTGAGTGAGGAAAGCCGCCGCTGGCTGGCATCGTGCGGCC -TGACCGTGGAGCAGATGCAAAACCAGATGGACCCGGTGTACACGCCGGCGCGAAAAATCCACCTGTACCACTGCG -ACCATCGCGGCCTGCCGCTGGCCCTTATCAGCAAGGAAGGGACAACAGAATGGTGCGCAGAATACGATGAATGGG -GCAACCTGCTGAATGAAGAGAACCCGCATCAGCTGCAGCAGCTTATCCGCCTGCCGGGGCAGCAGTATGATGAGG -AGTCCGGCCTGTATTACAACCGCCACCGCTATTATGACCCGCTGCAGGGGCGGTATATCACTCAGGATCCGATTG -GGCTGAAGGGGGGATGGAATTTTTATCAGTATCCGTTGAATCCAGTTACGAATACAGATCCTCTGGGGTTAGAAG -TTTTTCCTAGACCATTCCCCTTGCCAATTCCATGGCCCAAAAGCCCTGCACAGCAGCAAGCAGATGATAATGCTG -CAAAAGCATTGACAAAATGGTGGAACGATACAGCATCACAAAGAATATTTGACTCTCTAATATTGAATAATCCGG -GACTAGCATTAGATATAACAATGATAGCTTCTCGTGGAAATGTTGCAGACACAGGGATAACTGATCGTGTCAATG -ACATAATAAATGACAGATTCTGGAGTGATGGGAAAAAACCCGACAGATGTGACGTACTTCAGGAACTAATTGATT -GTGGTGATATTAGTGCTAAAGATGCAAAAAGCACACAGAAAGCCTGGAATTGTCGTCACTCCAGACAGTCAAACG -ATAAAAAAAGATAGCCCTTGTGGAGGTTCCTGCAATGTCAAATACATACCAGAAAAGAAAGGCAAGTAAAGAGTA -TGGTTTATATAATCAATGTAAGAAACTAAATGATGATGAATTATTTCGCTTACTTGATGATCACAATTCCTTGAA -AAGGATTTCATCTGCCAGAGTATTACAGTTAAGAGGTGGGCAAGACGCTGTTAGATTGGCAATTGAGTTCTGCTC -TGATAAAAATTATATCCGTAGAGATATCGGAGCATTTATACTCGGGCAAATAAAAATTTGCAAAAAATGCGAAGA -TAATGTTTTTAATATTTTGAACAATATGGCATTGAATGATAAGAGCGCTTGCGTTCGAGCTACGGCAATCGAGTC -AACGGCTCAGCGATGCAAGAAAAACCCAATTTATTCACCTAAAATAGTAGAACAATCTCAAATTACTGCTTTTGA -TAAATCGACTAATGTCAGACGTGCTACAGCATTTGCTATTTCTGTTATCAATGATAAAGCAACAATTCCACTATT -GATTAATCTGTTAAAAGATCCAAATGGAGATGTCAGAAACTGGGCCGCATTTGCAATAAATATCAATAAATATGA -TAATAGTGATATTAGGGATTGTTTTGTGGAGATGCTTCAGGATAAAAATGAGGAAGTCCGTATTGAAGCAATAAT -CGGACTTTCCTACAGAAAAGATAAAAGGGTTTTATCTGTTTTATGCGATGAGTTAAAAAAAAATACTGTTTATGA -TGATATCATTGAAGCTGCGGGTGAATTAGGTGATAAAACGCTACTTCCTGTTTTAGATACTATGTTGTACAAGTT -TGATGACAATGAAATTATAACTTCCGCTATTGATAAGCTGAAGCGTTCATAGCGTGAGTTGCCTATGCACAGTGG -GGGATTCCCGCCGGCACGGTGCAGATGCTCGACCGGCTGGAAAGTGAAATCCTGGCTGACCGGGTGAGTGAGGAA -AGCCGCCGCTGGCTGGCATCGTGCGGCCTGACCGTGGAGCAGATGAAAAACCAGATGGACCCGGTGTACACGCCG -GCGCGAAAAATCCACCTGTACCACTGCGACCATCGCGGCCTGCCGCTGGCGCTCATCAGCACGGAAGGGGCAACA -GCGTGGTGCGCAGAATATGATGAATGGGGCAACCTGCTGAGTGATGAGAACCCGCATCATCTGCAGCAGCTCATT -CGCCTGCCGGGTCAGCAGTATGATGAGGAGTCCGGCCTGTATTACAACCGCCACCGCTATTATGACCCGCTGCTG -GGGCGGTATATCACTCAGGATCCGATTGGACTGAAGGGGGGATGGAATTTTTATCAGTATCCGTTGAATCCGGTC -ATAAATGTAGATCCGCAAGGTTTGGTTGATATAAATTTATACCCCGAAAGTGATCTTATCCATTCTGTAGCTGAT -GAGATTAATATCCCAGGCGTTTTCACAATCGGGGGGCATGGTACCCCCACATCTATTGAATCCGCAACGCGCAGT -ATCATGACAGCTAAAGATCTAGCATATCTAATTAAATTTGATGGGAATTATAAAGATGGGATGACAGTTTGGTTA -TTTTCTTGTAATACAGGTAAAGGACAAAATTCATTTGCTAGCTAATTAGCTAAAGAGTTACATACAAATGTAATA -GGACCTGACACGCTATGGACGTGGTGGGGGCGAGGAACTAATGGTAAGTTAAAAATGGATACAGTGCTAACAGCA -CCAACGAACCTTAATTCAAATAAGGATCTAATGGCTATAACAACAAAAGACCTTGGTAATTGGATAACATATGGG -CCATCTGGGCACCCCATTTCTAATATGCAAGGTACGCCAGAAAAACCCAGTGATATAAGATAGGTTGTAGATGTA -TGAAAGCATGCTTGTTACTATTTTTTTATTTCTCTTTTATTTGTCAATTGCATGGTGCTGATGTGAAAATAAAAC -AAAACGAAAGTATGATGGGGTCTACAGCAATGACCTATGATTTAAGTGAAGAAAAGTTGATGAAACTGAAGTATA -AATCACAACATGGTGATTCAGAGGCATCATTTCGACTATATCAATATTACTGCTTTACTAAAAATAACATTTACA -AACAATTGCGATTCTTGGAAAGATCAGCATCTCAGGGGAATGTTACAGCGCAGTTTAATTATGGGGTCTTTTTAT -CAGATACAAATCCAACATTATCAGAATATTATAATTTGAATAGAGCTATTTATTGGATGGAATTCGCTGTAAATA -ACGGTAATATTGATGCAAAGAGCAAACTTCAAGAGCTCAAAAAGCTAAAGCGAATGGATAGAAGGAAGAATAAGG -AGAATCCGTAAAAGCAATAGTTCATCAGACTGCCGCAGCAGTAGTATGATGATGAATCAGGGCTGTACTATAACT -ATTATCGGTAACATTAACCGCAGCAGGGGCGGTATAACACTCAGGCTCCGATTGGGCTGGAAGGTAGGTGGAATT -TTTATCAGTATCCGTTGAACCCGATTTCTGGAATCGATCCCCTTGGGATTAGCCACCTGTTTATACAGCATAACT -TTAGGTATGCTTTCGTGTGTTTCAGATATACCATGTGATGATAATTTTTATGATGTGCTTAGTATTCCAGTCGCT -TCTGGTAATAATATGCAATGTAAAAATAATCCCCGTTGTACACATTTATAAATAGATGGCCAATACCTCAAGGCC -TATGGAGTTGGAATGTTAATGACCCGGGAGCAAGCAATAGAAAACCTGACGGCATACGATTAGTACCGTCAGTTA -ATACAGGAACTTATAATCGCAATGGATTTTCAATACATAGTTGTTTAAACGCTTTTGGTCCGTCTTTAGGACCTC -GATTCTGTTCCGAGGGTTGTATAACTGGTTTATCTAATGACATGCAAAAATTAAATGAGTTAATATTTTCAGAGC -CAGATAGCACATTAACAGTTACGGACTAAAAAATATGGCAAGGTTATTAACAATTGTATTTTTTTCTCTATTTCT -GCGAGTGCAGTTACTGCAAGACAATTTCAGAGAGAGTTAGATTTGGCAGACAAAGCAATATTATGGGCACTAATA -TCAGCCAGTACTAAAGAGGGACGAAAAGCGTGTTCACTAAGCTATTTTGCCTGTAAGGCCGCAGAGGCTGAACTC -GGACTGGCATATATGGCTGCGAATGATAACAAGGAATTTCTCACATCCTTATCTAATATAATGAGGTACAAAATA -GATGCTGGACTTTCCGAATCCTATACATGCTATTTATTAAGTAAGGGAAAGATCATAAGACCATATCTGAAAAAT -CTAAATCCACTCCAACTTGCCGCTGATTGCATTGAAACAGTAAATAAAATAAAAGATAAGAATAAAAAAAATCAT -TGATATAAATTCAGTTAATATTTGTAGTGATGATAAAAATATAAAATTGAGAGTTAATAGTACTATTATGGCCAT -TGATGATTCTATAAAGTGCATCGATGAATGATAACTTAATTTTATTTAAAAATATATTAATAACTCACTCTCCAG -GAGTTTTTTTAACTTAGTTTTATAATGAATACGATAATTAAAAGTGAAGAAGAAAATAGTTGTATACATATATTC -CATGACCCTACATTGTGATCTATAGATTAAATATTTTTTAAATGTGACTGTCATCCTTCAGATAATAAAGCCATC -ATCGCAATAGATGGAAAAGCACTCCTGCTCTTTTTTGATTAGAGCCGTCGCAGGAGGAACAACTCATATCATCAT -TGCGATCTCGACGATGTATAGTCTCATCCTGCGGCAGAACAAGACGGATAAAAAATCCAATGAGAGCACACTCAT -CCAGAACTTATTAACATAATGAATATTAAAGAAAAATCATCGAAGCTAATGAAGTAATATGCAAAAATAATTAGT -CCTTACAAGGAGCAAAGTTCCATAATCTCCCCCCTCCCCCTCAATGATCCAAATAAAGATAATGCATCCAGCTGG -TCATTCTTAGCAGCACTTTCCGCATCACCGAAACATGGCTGAAATGGTCGGAGTAAACCGCCACCTGGGCGTAGA -TGCCGTCGGGTAAGGCATCGATATCATCGTTAGGGTCCAGTTCAATGGTTCCCAGCACACCGTCCGTGCCGGGCA -CGACCGTTAATGATTGCAATACCCCCTGCGCCTGATAAGAACCGCCTGGCACGACAGGTAAAATACTAGTCAGTT -TGCCGTGAAACACCTGCCCAGGTAGCGCGTTAAACACCACTTCCGCATCATCGCCAGGTTTCAGACGTAACAGCG -AGTTTTGCCGAAATTGGGCGACAATTTGCCGTTTTTGCTCGGGGATGAAGACCATCACCGGACGCAGCGGCAAGG -CAGCTGCGTATGTACCTGGGCGGATCAGTACCTGAGTAACGTAGCCATTGCTCGGCGCGCGAATGACAGTCTGCT -CAAGGTTATATTTTGCTTCAGTAAGTTGCGCTCTTAAGCTCACAATCTGCGATTGCTCGCCGTTAACCATACTGT -CGAGCTGGCTCTGGATCTGCGCCTGCTCCGCCACCGAGCCTTTCACCAGCGCATCCTGCGCGAGGAAATTTTGCC -GCGCATCGTCGATGTCACGTTCCGAGAACGGATTCACCGCCGCCTGGCTGCCTTTCAAGTAACGTTGATAATTTT -TAAACAGACGGTCGCGCTCCGCTGAAACCTGGGTGGTGTTGGCCTGCGCTTCAGTGAGCTGCGCACGCAGCGTCT -TTATATTATGCGTCGCCGTCATCAGGTCAGCCTGAAGTCTGTCAACTCGCGCCTGGTAACGAACCGGGTCGAGCT -TAAAAAGCACCTCGCCCTTTTGAATAAGCTGATTATTCTTGTCAGTGACTTCAGTAACAATTCCCGTCACCTGTG -GCGTGATAGGGATCGCTATCACTGCCTTTTGCGCGGTAAAAGTGTAAGGGTGGTTGTAGTTCATCAACAAAATCA -AACCACTCACCAGAAACACGCCTCCCAGCGCCGCCGTCGCCAGCGTCCACTGATTTACCGGAATGCGGAAGATTT -TAAAGACCGCCCACGCCAGCGCCACGTAAGTTAAAACAATCAATAGATCCATAATTAGATCTCCGGGAACGTGGA -ATAGTCAGTCTTTTTCTCGGCGGCGAGTTGATGCTCCAGCCGGGAAATTCGGTCAGAAAGTGCGGCGATTTCCGG -GTCAGTCGCTTTCTCCTGCGACGCAACATGTGACTGCATACCCCAGCCACGCTCCGGTTGATAGAGCGTCGCCCA -GATCCACAGAAACGGCCAGATAACATGCAGAGTAAACAGGCTCACCCAGCCCGCCGTATGAATAGCGTCGGCATG -GGGATGGTTGCGCTTTTTGGCAATCAGATAAGGGATGTCATGTATCGCGATGATTCCATAAAAAATCACCAGAAA -GACGAAGATCAGCACTCCCAACGCGAAATAGTTTAGAAACATATCTGCCTCGGATTCACGTTTATCAGTGTTGTT -TTTGGGCTGGCAGCCAGAAGGGAGTCAGGCTGATATTTTGACAATAATCCGGGTTCGCGATTCTCGCCATAACAC -CAAAGAATAATTTTTAGAGGTGATGAGTTGCTTAGTTACATAACGATTGTATGACGAAGGCATAACATGCTGTAG -ATCACATCAGGTGAACGCCGTAAGAAAATATCTTGTGATTCAGATCACAAAGATTCAACAAACCATCAAAACAAA -AATGTGACACTACTCACATTTAAATGCCATTTTTAGCGAAAATCGCCGCCTTGTTGCTTTTTTACACAAGCGTTT -TGTGATGAACGTCACGTCAATTACCTCTCTACCCCCTATATTTATGTGATTGATATCACACAAAAGGCCGTCGAC -TGGACAGTTAACCGATTCAGTGCCAGATTTCGCAGTATCTACAAGGTCCGGCTACCTCTGCCGCCACATTAACAA -AAAACCTCGGGCTTCCAGCCTGCGCGACAGCAAACATAAGAAGGGGTGTTTTTATGTCATCCGATATTAAGATCA -AAGTGCAAAGCTTTGGTCGTTTCCTCAGCAACATGGTGATGCCAAATATCGGCGCGTTTATCGCGTGGGGTATCA -TCACCGCGTTATTTATTCCAACAGGGTGGTTACCGAACGAGACGCTGGCGAAGCTGGTCGGGCCGATGATCACTT -ATCTCCTGCCGCTGCTGATCGGTTATACCGGTGGTAAGCTGGTAGGCGGCGAACGTGGCGGCGTAGTCGGTGCCA -TCACCACCATGGGCGTTATCGTCGGCGCAGACATGCCGATGTTCCTCGGTTCTATGATTGCAGGTCCGCTGGGCG -GCTGGTGCATTAAGCACTTCGACCGCTGGGTAGACGGTAAGATCAAATCCGGTTTTGAGATGCTGGTGAATAACT -TCTCCGCAGGCATCATCGGGATGATCCTCGCTATTCTGGCATTCCTCGGCATTGGCCCGATTGTTGAAGCCCTGT -CCAAAATGCTGGCTGCGGGCGTTAACTTCATGGTTGTCCATGACATGCTGCCGCTGGCGTCTATCTTTGTTGAAC -CGGCGAAAATCCTGTTCCTCAACAACGCCATTAACCACGGTATCTTCTCGCCGCTGGGTATTCAGCAGTCCCATG -AACTGGGTAAATCAATCTTCTTCCTGATTGAAGCTAACCCAGGTCCAGGTATGGGCGTGCTGCTGGCGTACATGT -TCTTTGGTCGTGGTAGCGCTAAACAGTCTGCGGGCGGTGCGGCAATCATCCACTTCCTGGGGGGTATCCACGAAA -TCTACTTCCCGTATGTGCTGATGAATCCGCGTCTGATCCTCGCAGTCATCCTCGGCGGTATGACTGGCGTGTTCA -CGCTGACTATCCTGGGCGGTGGTCTGGTTTCTCCGGCATCTCCGGGTTCTATCCTTGCTGTACTGGCGATGACAC -CAAAAGGTGCTTACTTCGCTAACATCGCGGGTGTGTGTGCGGCGATGGCTGTCTCCTTCGTTGTCTCTGCTATTT -TGCTGAAAACCAGCAAAGTGAAAGAAGAAGATGATATTGAAGCAGCAACTCGTCGTATGCAGGACATGAAAGCTG -AGTCTAAAGGCGCATCTCCGCTGTCTGCTGGCGATGTGACTAACGACCTGAGCCACGTACGTAAAATCATCGTTG -CCTGTGACGCCGGTATGGGTTCCAGTGCGATGGGCGCAGGCGTTCTGCGTAAGAAAATTCAGGATGCAGGTCTGT -CGCAGATTTCTGTTACTAACAGCGCGATCAACAACCTGCCGCCAGATGTGGACCTCGTCATCACTCACCGTGACC -TGACCGAACGCGCTATGCGCCAGGTTCCGCAGGCACAGCATATTTCGCTGACCAACTTCCTCGACAGCGGCCTGT -ACACCAGCCTGACCGAACGTCTGGTTGCTGCCCAACGCCACACGGCAAACGAAGAGAAAGTAAAAGACAGCCTGA -AAGACAGCTTTGACGATTCCAGTGCTAACCTGTTCAAGCTAGGCGCGGAGAACATCTTCCTCGGTCGCAAAGCGG -CAACCAAAGAAGAAGCGATTCGTTTTGCTGGCGAGCAGCTGGTGAAAGGCGGTTACGTTGAGCCGGAATACGTTC -AGGCGATGCTGGATCGTGAAAAACTGACCCCGACTTATCTGGGTGAGTCTATCGCGGTGCCACACGGTACGGTTG -AAGCGAAAGATCGCGTACTGAAAACGGGCGTCGTGTTCTGCCAGTACCCGGAAGGCGTGCGCTTCGGTGAAGAAG -AAGATGACATTGCCCGTCTGGTGATTGGTATTGCTGCCCGTAACAACGAGCACATTCAGGTTATCACCAGCCTGA -CCAATGCACTGGATGATGAGTCCGTCATCGAGCGTCTGGCACACACCACCAGCGTGGATGAAGTGCTGGAACTGC -TGGCAGGTCGTAAGTAATCCAATCCCACCCTCTCCACATGGAGAAGGTGGGGTTAATTGCCTGATGCGCTACGCT -TATCAGGCCTACAGGATGCATCACAATTTGTTGAATTTGCACGTTCTTGTAGGCCGGATAAGGCGCTTACGCCGC -ATCCGGCGCTGCCCCTCTCCTCACGGAGAGGGTTTGGGTGAGGGAAAAGCCTCACCCCAGCCCTCTCGGGTAAAA -ACATTGATGAAGGTTAATACTATGAAAGCATTACATTTTGGCGCAGGTAATATCGGTCGTGGCTTTATCGGTAAA -CTGCTGGCAGACGCGGGTATCCAACTGACGTTTGCCGATGTCAATCAGGTGGTACTTGATGCCCTGAATGCCCGT -CATAGCTATCAGGTACATGTGGTTGGTGAAACCGAGCAGGTAGATACCGTTTCCGGCGTCAATGCTGTCAGCAGC -ATTGGTGATGATGTCGTTGATCTGATTGCTCAGGTTGATTTAGTCACTACCGCCGTTGGCCCGGTTGTGCTGGAA -CGTATTGCTCCGGCAATCGCCAAAGGGCAGGTGAAACGTAAAGAACAAGGTAATGAATCCCCGCTGAACATCATC -GCCTGTGAAAACATGGTACGCGGTACCACGCAGCTGAAAGGCCATGTGATGAACGCCCTGCCGGAAGACGCCAAA -GCGTGGGTAGAAGAACACGTTGGCTTTGTCGATTCCGCCGTTGACCGCATCGTACCGCCTTCGGCTTCGGCAACT -AACGATCCGCTGGAAGTGACGGTAGAAACCTTCAGCGAATGGATTGTCGATAAAACGCAGTTCAAAGGCGCACTG -CCGAACATCCCAGGCATGGAGTTAACCGACAACCTGATGGCATTTGTCGAACGTAAACTCTTCACCCTGAACACG -GGTCATGCTATAACCGCGTACCTCGGAAAACTGGCCGGTCATCAGACCATTCGTGACGCGATTCTCGACGAGAAA -ATCCGCGCGGTGGTAAAAGGTGCGATGGAAGAAAGTGGTGCAGTATTGATCAAGCGCTACGGCTTTGACGCTGAC -AAGCATGCGGCGTACATCCAGAAAATTCTCGGCCGTTTTGAGAACCCGTATCTGAAAGATGATGTAGAGCGCGTA -GGCCGTCAGCCACTGCGTAAACTGAGTGCTGGCGACCGTCTGATCAAGCCACTGCTCGGTACGCTGGAATATGGT -CTGCCACATAAAAACCTGATTGAAGGTATTGCCGCTGCAATGCACTTCCGCAGTGAAGATGATCCGCAGGCTCAG -GAACTGGCAGCACTGATCGCTGACAAAGGTCCGCAGGCGGCGCTGGCACAGATTTCCGGTCTTGATGCCAACAGC -GAGGTTGTATCCGAGGCGGTAACCGCTTATAAAGCAATGCAATAATGGTGGACCAGGCGCAGGACACCCTGCGCC -CGAATAACAGATTGTCAGATATGCAGGCAACAATGGAACAAACCCAGGCCTTTGAAAACCGTGTGCTTGAGCGTC -TGAATGCTGGCAAAACCGTGCGAAGCTTTCTGATCACCGCCGTCGAGCTCCTGACCGAGGCGGTAAATCTTCTGG -TGCTTCAGGTATTCCGCAAAGACGATTACGCGGTGAAGTATGCTGTAGAACCGTTACTCGACGGCGATGGTCCGC -TGGGCGATCTTTCTGTGCGTTTAAAACTCATTTACGGGTTGGGCGTCATTAACCGCCAGGAATACGAAGATGCGG -AACTGCTGATGGCATTGCGTGAAGAGCTAAATCACGACGGCAACGAGTACGCCTTTACCGACGACGAAATCCTTG -GACCCTTTGGTGAACTGCACTGCGTGGCGGCGTTACCACCGCCGCCACAGTTTGAACCAGCAGACTCCAGTTTGT -ATGCAATGCAAATTCAGCGCTATCAACAGGCTGTGCGATCAACAATGGTCCTTTCACTGACTGAGCTGATTTCCA -AAATCAGCTTAAAAAAAGCCTTTCAAAAGTAAGCAACGTCTGCTTACTGCCCCTCTACCTGCTTCGGCCGATAAA -GCCGACGATAATACTCCAGACGTTGTAGATATAACGGCACGCTTTCATCGGGTATTCCGGACGGAATCGCGTTAC -GGGGAGGAAGTTTTTTCAGATACTCCCGGAACGCCTGGCTTGATGCCATGAAATCTACGGCTTTATCGATAAGAA -GCGGAACGTTTTCACCTAATTTGCCCATGATGATATCTCCGTATTACCCCGCGCCGGGAATGCGCGGCCGCCAAT -TTTAGTTTAGGTTCCCGGTAAAGATGACATTAAGGAAAACGTGCTGAATCCTCAATAATCATCCGCTGCTGTTTA -TTATCTTTTTTCTATAGATTTCTTAATTAATCAACGAATTGCGCAGTTTTTGAGCATGTTAATGATTACGTTACA -GAACTATTACAATGTCATTAGTTGTGAACAAAGCACCTGGTCGCGCATACTAGGGGCTATAAATTTATCTTTATC -AGAAGCCATCACATGAAAGAAGTCGAAAAAAACGAAATCAAACGCCTCAGCGATCGCCTGGACGCCATCCGCCAC -CAGCAGGCCGATCTTTCGCTGGTTGAAGCCGCAGACAAATATGCCGAGCTGGAAAAAGAGAAAGCCACGCTGGAA -GCAGAAATTGCTCGCCTGCGTGAAGTTCATAGCCAAAAACTGAGTAAAGAAGCACAGAAGCTGATGAAGATGCCA -TTCCAGCGCGCAATTACCAAAAAAGAGCAGGCTGATATGGGCAAGCTGAAGAAAAGTGTTCGCGGACTGGTCGTT -GTGCACCCAATGACCGCACTGGGCCGCGAAATGGGCCTGCAGGAGATGACTGGGTTTTCAAAGACCGCGTTTTAA -GAACACAGTATCTACAGGGTGATTCTGCACATTCCTATAGGCCGAGTAAGGTGTTCACGCCGCATCCGGCAAGAT -AAGGCGCTCTGGATCAACAACCTAAGGGCAATTCTCTGATGAGGATTGCCCTTTTCTTTACCAGACATCTCCCCC -CACAAGAATTGGCCCTACCAATTCTTCGCTTATCTGACCTCTGGTTCACAATTTCCCAATTAAAACTCACATCAA -TGTTGCCAATACATAACATTTAGTTAACCATTCATTGTCATTATCCCTACACAACACAATTGGCAGTGCCACTTT -TACACAACGTGTGACAAGGAGATGAGCAACAGACTCATTACACGATGTGCGTGGACTCCAGGAGACCTGCAATGA -ATCTCTGGCAACAAAACTACGATCCCGCCGGGAATATCTGGCTTTCCAGTCTGATAGCATCGCTTCCCATCCTGT -TTTTCTTCTTTGCGCTGATTAAGCTCAAACTGAAAGGATACGTCGCCGCCTCGTGGACGGTGGCAATCGCCCTTG -CCGTGGCTTTGCTGTTCTATAAAATGCCGGTCGCTAACGCGCTGGCCTCGGTGGTTTATGGTTTCTTCTACGGGT -TGTGGCCCATCGCGTGGATCATTATTGCAGCGGTGTTCGTCTATAAGATCTCGGTGAAAACCGGGCAGTTTGACA -TCATTCGCTCGTCTATTCTTTCGATAACCCCTGACCAGCGTCTGCAAATGCTGATCGTCGGTTTCTGTTTCGGCG -CGTTCCTTGAAGGAGCCGCAGGCTTTGGCGCACCGGTAGCAATTACCGCCGCATTGCTGGTCGGCCTGGGTTTTA -AACCGCTGTACGCCGCCGGGCTGTGCCTGATTGTTAACACCGCGCCAGTGGCATTTGGTGCGATGGGCATTCCAA -TCCTGGTTGCCGGACAGGTAACAGGTATCGACAGCTTTGAGATTGGTCAGATGGTGGGGCGGCAGCTACCGTTTA -TGACCATTATCGTGCTGTTCTGGATCATGGCGATTATGGACGGCTGGCGCGGTATCAAAGAGACGTGGCCTGCGG -TCGTGGTTGCGGGCGGCTCGTTTGCCATCGCTCAGTACCTTAGCTCTAACTTCATTGGGCCGGAGCTGCCGGACA -TTATCTCTTCGCTGGTATCACTGCTCTGCCTGACGCTGTTCCTCAAACGCTGGCAGCCAGTGCGTGTATTCCGTT -TTGGTGATTTGGGGGCGTCACAGGTTGATATGACGCTGGCCCACACCGGTTACACTGCGGGTCAGGTGTTACGTG -CCTGGACACCGTTCCTGTTCCTGACAGCTACCGTAACACTGTGGAGTATCCCGCCGTTTAAAGCCCTGTTCGCAT -CGGGTGGCGCGCTGTATGAGTGGGTGATCAATATTCCGGTGCCGTACCTCGATAAACTGGTTGCCCGTATGCCGC -CAGTGGTCAGCGAGGCTACAGCCTATGCCGCCGTGTTTAAGTTTGACTGGTTCTCTGCCACCGGCACCGCCATTC -TGTTTGCTGCACTGCTCTCGATTGTCTGGCTGAAGATGAAACCGTCTGACGCTATCAGCACCTTCGGCAGCACGC -TGAAAGAACTGGCTCTGCCCATCTACTCCATCGGTATGGTGCTGGCATTCGCCTTTATTTCGAACTATTCCGGAC -TGTCATCAACACTGGCGCTGGCACTGGCGCACACCGGTCATGCATTCACCTTCTTCTCGCCGTTCCTCGGCTGGC -TGGGGGTATTCCTGACCGGGTCGGATACCTCATCTAACGCCCTGTTCGCCGCGCTGCAAGCCACCGCAGCACAAC -AAATTGGCGTCTCTGATCTGTTGCTGGTTGCCGCCAATACCACCGGTGGCGTCACCGGTAAGATGATCTCCCCGC -AATCTATCGCTATCGCCTGTGCGGCGGTAGGCCTGGTGGGCAAAGAGTCTGATTTGTTCCGCTTTACTGTCAAAC -ACAGCCTGATCTTCACCTGTATAGTGGGCGTGATCACCACGCTTCAGGCTTATGTCTTAACGTGGATGATTCCTT -AATGATTGTTTTACCCAGACGCCTGTCAGACGAGGTTGCCGATCGTGTGCGGGCGCTGATTGATGAAAAAAACCT -GGAAGCGGGCATGAAGTTGCCCGCTGAGCGCCAACTGGCGATGCAACTCGGCGTATCACGTAATTCACTGCGCGA -GGCGCTGGCAAAACTGGTGAGTGAAGGCGTGCTGCTCAGTCGACGCGGCGGCGGGACGTTTATTCGCTGGCGTCA -TGACACATGGTCGGAGCAAAACATCGTCCAGCCGCTAAAAACACTGATGGCCGATGATCCGGATTACAGTTTCGA -TATTCTGGAAGCCCGCTACGCCATTGAAGCCAGCACCGCATGGCATGCGGCAATGCGCGCCACACCTGGCGACAA -AGAAAAGATTCAGCTTTGCTTTGAAGCAACGCTAAGTGAAGACCCGGATATCGCCTCACAAGCGGACGTTCGTTT -TCATCTGGCGATTGCCGAAGCCTCACATAACATCGTGCTGCTGCAAACCATGCGCGGTTTCTTCGATGTCCTGCA -ATCCTCAGTGAAGCATAGCCGTCAGCGGATGTATCTGGTGCCACCGGTTTTTTCACAACTGACCGAACAACATCA -GGCTGTCATTGACGCCATTTTTGCCGGTGATGCTGACGGGGCGCGTAAAGCAATGATGGCGCACCTTAGTTTTGT -TCACACCACCATGAAACGATTCGATGAAGATCAGGCTCGCCACGCACGGATTACCCGCCTGCCCGGTGAGCATAA -TGAGCATTCGAGGGAGAAAAACGCATGATTATTTCCGCAGCCAGCGATTATCGCGCCGCAGCGCAACGCATTCTG -CCGCCGTTCCTGTTCCACTATATGGATGGTGGTGCATATTCTGAATACACGCTGCGCCGCAACGTGGAAGATTTG -TCAGAAGTGGCGCTGCGCCAGCGTATTCTGAAAAACATGTCCGACTTAAGCCTGGAAACGACGCTGTTTAATGAG -AAATTGTCGATGCCGGTGGCACTGGCTCCGGTGGGTTTGTGTGGCATGTATGCGCGTCGTGGCGAAGTTCAGGCA -GCCAAAGCGGCGGACGCGCATGGTATTCCGTTTACTCTCTCGACGGTTTCCGTTTGCCCGATTGAAGAAGTCGCG -CCAGCCATCAAGCGCCCAATGTGGTTCCAGCTTTATGTACTGCGCGATCGCGGCTTTATGCGTAACGCGCTGGAG -CGAGCAAAAGCAGCGGGTTGTTCGACGCTGGTTTTCACCGTGGATATGCCGACACCGGGCGCACGCTACCGTGAT -GCGCATTCAGGTATGAGCGGCCCGAACGCGGCAATGCGCCGCTACTTGCAAGCGGTGACACATCCGCAATGGGCG -TGGGATGTGGGCCTGAACGGTCGTCCACATGATTTAGGTAATATCTCAGCTTATCTCGGCAAACCGACCGGACTG -GAAGATTACATCGGCTGGCTGGGGAATAACTTCGATCCGTCCATCTCATGGAAAGACCTTGAATGGATCCGCGAT -TTCTGGGATGGCCCGATGGTGATCAAAGGGATCCTCGATCCGGAAGATGCGCGCGATGCAGTACGTTTTGGTGCT -GATGGAATTGTGGTTTCTAACCACGGTGGCCGCCAGCTGGACGGTGTACTCTCTTCCGCCCGTGCACTGCCTGCT -ATTGCAGATGCGGTGAAAGGTGATATAGCCATTCTGGCGGATAGCGGAATTCGTAACGGGCTTGATGTCGTGCGT -ATGATTGCGCTCGGTGCCGACACCGTACTGCTGGGTCGTGCTTTCTTGTATGCGCTGGCAACAGCGGGCCAGGCG -GGTGTAGCTAACCTGCTAAATCTGATCGAAAAAGAGATGAAAGTGGCGATGACGCTGACTGGCGCGAAATCGATC -AGCGAAATTACGCAAGATTCGCTGGTGCAGGGGCTGGGTAAAGAGTTGCCTGCGGCACTGGCTCCCATGGCGAAA -GGGAATGCGGCATAGTCGTTTGCGCCCCCTCACCCTAACCCTCTCCCTCAGGGAGAGGGGACCGTTCGGCGCTGT -ATGTACTCCCTCACTCTGAAACGACACCGCACTCTTTTTTTCTCCCTCGCCCCTCCGGGGAGAGGGCCGGGGTGA -GGGGAAAAGGCCGCACTGCTCACCAATTTTCTGCTATCCTGCCCCCGCACTAAGGGGGCAGTATGCTAAACATCG -TACTTTACGAACCAGAAATTCCGCCAAATACTGGCAACATCATCCGTCTTTGCGCTAATACCGGCTTTCGTCTGC -ATATCATCGAACCGATGGGATTTGCCTGGGACGATAAGCGCCTGCGCCGCGCGGGGCTGGACTATCACGAGTTTA -CCGCCGTTACGCGTCATCATGACTATCGCGCGTTCCTCGAAGCAGAAAATCCCCAGCGCCTGTTCGCCCTCACCA -CGAAAGGTACACCTGCTCACAGCGCCGTAAGCTATCAGGATGGCGATTATCTGATGTTCGGCCCGGAAACACGCG -GCCTGCCAGCGAGCATTCTTGATGCCCTGCCCGCTGAACAAAAAATTCGCATTCCGATGGTGCCGGACAGCCGCA -GCATGAATCTGTCCAATGCGGTGTCGGTAGTGGTGTATGAAGCCTGGCGGCAGTTGGGGTATCCGGGAGCGGTAT -TGAGAGATTAGTTACTGTAGGCCGGATAGATGATTACATCGCATCCGGCACGATCACAGGACATTAGATCCCATC -CCCATACTCAAATGTATGGTTAATACCGTTGAAATGCTGGTCCATATCCATTGATGGCTTATCGCTGTCTGGTTT -ACCGACAATACGAGCCGGAACGCCAGCGGCGGTGGTATGCGGCGGCACCGGTTGCAGCACCACGGAACCTGCGCC -AATCTTCGCGCCGCGCCCAACTTCAATATTGCCGAGGATTTTCGCGCCCGCGCCAATCATCACACCTTCACGAAT -TTTCGGGTGACGGTCACCACCAGATTTACCCGTACCGCCAAGCGTCACAGATTGCAGAATCGATACGTCGTTTTC -AATCACCGCCGTTTCACCAACGACGATGCCTGTCGCGTGGTCAAGCATGATACCGCGACCAATTTTTGCTGCCGG -GTGAATATCGACCTGGAACGTCACAGAAACCTGGTTTTGCAGAAAGATTGCCAGTGCGCGACGCCCCTGATTCCA -CAACCAGTGACCGATGCGATAGGCCTGCAAGGCATGAAAACCCTTCAGGTATAACAACGGGGTTGAGTATTTATC -GACTGCCGGGTCGCGGGTACGCACCGCCTGAATATCACAGGCCGCAGAGGCGATCATTTCCGGGTCAGCGGCGTA -GGCTTCTTCCACCACTTCACGGATAGCAATAGCAGGCATAATTGGCGATGACAGCTTGTTCGCCAGCATGTAGCT -CAGTGCACTGCCAAGGTTTTCGTGCTTGAGTAGCGTCGCGTGGTAAAAACTGGCCAGCATTGGCTCACAGTCCGC -CAGCGTTCTGGCTTCGGCTTTAATATTGTTCCAGACAATTTCCAGTTCTTCACACGACATTGCTTACTCCACACG -ATGAGATAATGACCGGCCCGTTCTGCGCGGGCCGGGTCATAGCGGTAACAAAGGTTCCCTGGGGTTAGTGGCTGC -TGCGCTCGTCCTTGCGTGCACGACCTAGTAAAGTCAATGCTGCCTCGCGCGCGTTTTTTCCGCAATATAATACTT -GATAAATTTCCTCGGTTATTGGCATTTCAACGCCGAAGCGATGCGCCAGTTCGCGGACTTCTTTCGTATTGCGGT -AGCCTTCCACCACCTGACCAATCTTCTCCTGCGCGCTTTGTACATCCATGCCCTGACCGAGCATCATGCCAAAAC -GGCGGTTACGCGACTGGTTGTCGGTACAGGTAAGCACCAGATCGCCAAGCCCCGCCATGCCCATAAAGGTGGCAG -GGTCGGCACCCAGCGCCGCACCAAGACGCGACATTTCAGCCAGCCCACGGGTGATCAGCGCCGTACGCGCATTCG -CACCAAAACCGATACCGTCGGACATCCCCGCACCAATGGCAATAACGTTTTTCACCGCGCCGCCAAGCTGCACGC -CAATGAAATCCGGATTGCTGTAAACGCGGAAACTTTTGCCGCAGTGCAGCAGCTGCTGGAGATCATCGGCAAAGG -TCTGATCGGTCGAGGCCAGCGAAATAGCTGTCGGTAAACCTGCCGCCAGTTCTTTCGCAAACGTTGGGCCAGAGA -TAACCGCCAGCGGAATTTGATCGCCTAAGGCCTCACGCGCCACGTCCTGTAACAGACGTCCGGTTTCCGCTTCCA -GCCCTTTGGTCGCCCACACCAGACGCGCATCAGGACGCATCAGTGGTTTAATCTGGCGCAGCACTTCACCAAAGA -CATGGCTGGGTACGACGACGAGAATATTACGGCTGGCTGCCAGCGCAGTGGCGAGATCGCTTTCAAGATGGAGCG -TATCGGGAAAAGGCACATCGGGGAGAAACGCGGCGTTACAGCGGTCGCGTTCAAGCGTTGCGATATGTTCAGGGT -CATGGCCCCAGAGGACAACCTCGTGGCCATTTCTTGCCAGGGTGATGGCAAGAGCGGTGCCGTACGAGCCGGCAC -CGATCACAGTCATTGAAGCATTACGTTGGTTCATCAGGCATCCTGATGTTCTTCAGTACCTTCGCCAGCCTGCTG -CTGCAAATAGTTCATGAACAGCGCATCGAAGTTAACCGGCGCAAGGTTCAGTTGCGGGAATGTACCGCGGGATAC -CATGCTGGTGATGCACTCACGAGCATACGGGAACAGAATGTTCGGGCAGTATGCTCCCAGGCAATGCGCCATCTG -GGTGCCTTCGATACCCGCGATGGAGAAAATACCGCCCTGCTGAACTTCACACAGGAACGCGGTTTCTTCGCCCAA -AGAGGCCGTTACGGTAACACGCAGTACCACTTCGTATACGTCATCTGCCAGTTGGGAAGATGCCGTATCCAGATC -AAGTTTAACTTCTGGTTGCCAATCTTTCTGGAAAACGTGCGGCGCGTTCGGCGCTTCGAAAGAGATATCCTTGGT -ATAAATACGTTGGATCTGGAAAGTCATTTCAGTGTTGTTTTGTTCTGACATGTGTAGAAAACCCTTAAGTGTTGT -CCTTAAATACTGCGCAATGTAATGCCAACGTTCACACGTTATTTCAGCAGGGGATCCAGTCCACCACGTGCATCC -AATGCATACAAGTCATCACAGCCGCCAATGTGCTGTGCGTCAATAAAAATCTGGGGAACCGTGGTGCGACCGCTG -CGTTTGATCATCTCTTCACGCTTGGCGGCGTTGCCATCGATCGGCAGCTCCTGGAAACTCACGCCCTTGCTGCTC -AGCAGTGCTTTTGCACGATGGCAATACGGGCAGGTTTCTTTGGTATAGATTTCAACATTGGCCATAAATTAGCTC -CTGTTTTTTTACCCTGAAATTTCATGTTGCAGGGCGGCAGCAAAATGGAGTGTCCCCAGAAGCTTATAACAATAA -GTCGCTGGGGGCCTAATTGCAGCTAACGGCCTGCATCATGAAAGACGACAGGTAAATTATTTGCCGCGCACCAAA -GGCAAGTTTTCGCCAGCCCAGCCAGCGACGCCTTCTTTCAGCACGAATACTTGCGCAAAACCAGCTTTCGTCAGT -GCGTTTGCAGGCTCCTGGCACTGCATGCCAGAACCGTCTACCACGATAACCGGTTTGTCTTTGTGCTTCTCAAGC -TCACCAACATTGTTGGCTTTGATTTCGCTCGGCAACAGATTAATAGAACCTGCGATATGGCCTTTACGGAAGTCA -TCACGCTGACGTAAATCCACAACCACAGCGTCTTCTTTGTTGATCAGACGCGTAGCTTCACCACGAGTAATCACC -TTCACTTTCGAGGTCAGGCTCTTAAACGTAGTCACAAGAACCGCCACCAGTAACGCGATCCAGGCGATACTCAGT -ATGGGATGACGGCCAACAAATTGCATAATTTCTTGCATGGGGGGTAACAACTCCCGACGTAGTGATTAAAAAAAC -CAGGAAAGGAGTATACCTGCGCGGTGCGGCAAATACAGCCAGCGCGTTAACTGGAATGCAATTTTGCGGGGCGCG -ACGAAAAAAAAGCGTAAATCTGGCATCGGCTTGCCGCGAGCGGTCGTATATTTTGATCTTCAGAGGCTATTTTAT -CGATTCAGCTGTAGTAAAATTACGCAAATTTTGACTCTTGAGTATGAGGTTGTCGCAATGTTGGTTTCTAAAAAA -CCTATGGTACTGGTGATTCTGGATGGCTATGGCTATCGCGAAGAACAGCAGGATAACGCCATTTTTAGTGCTAAA -ACCCCGGTAATGGATGCACTGTGGGCCAATCGTCCGCATACCCTAATCGACGCTTCCGGTCTGGAAGTCGGTCTG -CCTGACCGTCAGATGGGTAACTCCGAAGTAGGCCACGTTAACCTGGGTGCCGGCCGCATCGTGTATCAGGACCTG -ACTCGTCTGGACGTTGAAATCAAAGATCGCGCTTTCTTTGCTAATCCGGTGCTGACTGGCGCGGTAGATAAAGCG -AAAAACGCAGGCAAAGCGGTACACATTATGGGTCTGCTCTCCGCAGGCGGCGTACACAGCCACGAAGATCACATC -ATGGCGATGGTAGAACTGGCAGCTGAACGCGGCGCAGAAAAAATCTACCTGCACGCATTCCTTGACGGTCGCGAC -ACTCCGCCGCGCAGTGCTGAATCCTCGCTGAAAAAATTCGAAGAAAAATTTGCCGCGCTGGGCAAAGGCCGCGTA -GCGTCCATCATTGGTCGTTACTACGCGATGGACCGCGATAACCGTTGGGATCGCGTAGAAAAAGCTTATGACCTG -CTGACTCTGGCGCAGGGCGAGTTCCAGGCCGATACCGCCGTTGCTGGTTTGCAGGCTGCTTATGCTCGCGACGAA -AATGATGAATTCGTGAAAGCGACCGTTATCCGTGCTGAAGGTCAGCCAGACGCGGCAATGGAAGACGGCGATGCA -CTGATTTTCATGAACTTCCGTGCTGACCGCGCGCGTGAAATCACTCGTGCTTTCGTGAACGCTGATTTCGATGGC -TTCGCGCGTAAGAAAGTGGTTAACGTCGATTTCGTGATGCTGACCGAATACGCCGCTGACATCAAAACTGCGGTT -GCTTACCCACCCGCTTCCCTGGTTAACACCTTCGGCGAGTGGATGGCGAAAAACGACAAAACTCAGTTGCGTATT -TCCGAAACCGAAAAATATGCCCACGTTACTTTCTTCTTCAACGGTGGCGTAGAAGAGTCGTTCAAAGGCGAAGAT -CGCATTCTGATCAACTCACCGAAAGTGGCTACCTACGATCTGCAACCGGAAATGAGCTCCGCAGAGCTGACCGAA -AAACTGGTTGCGGCCATCAAGAGCGGCAAATACGACACCATCATCTGTAACTATCCGAACGGCGACATGGTAGGT -CACACCGGGGTGATGGAAGCGGCGGTTAAAGCGGTTGAAGCGCTGGATCACTGCGTGGAAGAAGTCGCGAAAGCG -GTTGAGTCCGTGGGTGGACAACTGCTGATCACCGCTGACCACGGTAACGCTGAGCAGATGCGCGATCCGGCAACG -GGTCAGGCACACACGGCACACACCAACCTGCCAGTTCCGCTGATTTACGTTGGTGATAAGAACGTGAAAGCGGTT -GAAGGCGGCAAACTTTCTGACATCGCGCCGACCATGTTGTCGCTGATGGGTATGGAAATCCCGCAAGAGATGACT -GGTAAGCCGCTGTTCATCGTGGAATAATCCCTCCCCATGAGGGGAAAGGCGATTAATACCATGACACGGGCCGTG -AAACCGCGCAGGTTTGCAATCAGGCCCATCATCTACGCCAGCGTTCTTAGCGCTGGCGTATTGTTGTGCGCCTTT -TCCGCCCACGCGGATGAGCGTGACCAACTCAAATCTATTCAGGCTGACATCGCCGCAAAAGAGCGCGCGGTACGC -CAAAAGCAACAACAACGCGCAAGCCTGCTCGCACAATTGAAAAAGCAGGAAGAAGCGATCTCTGAAGCCACCCGT -AAGCTGCGCGAAACGCAAAACACGCTCAATCAACTCAATAAACAGATTGATGAGATGAACGCGTCGATTGCCAAA -CTGGAGCAGCAAAAAGCCGCCCAGGAGCGCAGCCTCGCCGCACAACTGGATGCCGCATTCCGTCAGGGCGAGCAT -ACCGGTATTCAGCTGATTCTCAGCGGTGAAGAAAGCCAGCGTGGACAGCGTTTACAGGCTTATTTCGGCTATCTC -AACCAGGCGCGACAAGAAACCATTGCCCAGTTGAAGCAAACGCGTGAAGAAGTCGCCATGCAGCGTGCTGAACTG -GAAGAGAAACAGAGCGAGCAACAAACGCTGTTATATGAGCAGCGCGCCCAACAGGCGAAACTGACTCAGGCGCTG -AACGAGCGTAAAAAGACGCTGGCAGGGCTGGAGTCTTCCATCCAGCAAGGTCAGCAACAGTTGAGCGAGCTGCGC -GCCAACGAATCCCGTCTGCGTAACAGCATTGCCCGTGCGGAAGCCGCGGCGAAAGCGCGTGCAGAACGAGAAGCA -CGTGAGGCCCAGGCGGTTCGCGACCGCCAGAAAGAAGCGACGCGCAAAGGCACCACCTACAAACCGACCGAAAGC -GAAAAATCGCTGATGTCCCGTACCGGTGGTCTGGGCGCGCCGCGTGGTCAGGCATTCTGGCCGGTTCGCGGGCCG -ACGCTGCATCGCTATGGCGAACAGCTACAGGGTGAATTACGCTGGAAAGGTATGGTTATCGGTGCTTCTGAAGGT -ACTGAAGTTAAAGCGATTGCCGACGGTCGGGTGATTCTGGCTGACTGGCTGCAAGGCTACGGTCTGGTGGTGGTG -GTTGAGCATGGTAAAGGCGACATGAGTCTTTACGGCTATAATCAGAGCGCACTGGTGAGCGTTGGTTCGCAGGTT -CGCGCGGGCCAGCCGATTGCACTGGTGGGCAGCAGTGGCGGTCAGGGTCGGCCTTCACTCTATTTCGAAATTCGC -CGCCAGGGTCAGGCGGTCAATCCACAGCCGTGGTTGGGAAGATAAGTTTTGTTTCCATTTCGTCGTAACGTTCTT -GCATTTGCCGCTCTGTTGGCGCTCTCCTCCCCCGTACTTGCTGGCAAACTTGCCATCGTCATTGATGATTTTGGG -TATCGCCCGCACAACGAAAACCAGGTGCTGGCGATGCCTTCCGCTATCTCCGTCGCTGTATTACCCGATTCACCG -CACGCCAGAGAGATGGCGACCAAAGCGCATAACAGCGGGCACGAAGTGTTGATTCATCTCCCGATGGCACCGTTG -AGTAAACAGCCGCTGGAGAAAAATACGCTACGCCCGGAGATGAGCAGCGACGAAATTGAGCGCATTATTCGTAGT -GCGGTCAATAACGTGCCCTATGCCGTGGGGATCAACAACCACATGGGCAGCAAGATGACCTCTAACCTGTTTGGT -ATGCAGAAAGTGATGCAGGCGCTGGAGCGTTACAATCTTTACTTCCTCGACAGCGTAACCATCGGTAATACCCAG -GCGATGCGCGCCGCGCAAGGCACTGGCGTGAAGGTGATCAAACGGAAGGTATTCCTCGACGATTCGCAAAATGAA -GCGGACATCCGTGTGCAATTTAATCGCGCAATTGACCTGGCGCGTCGCAACGGTTCGACCATTGCCATTGGGCAT -CCTCACCCTGCAACGGTACGCGTGTTGCAACAGATGGTTTATAACCTGCCGCCAGACATTACGCTGGTGAAAGCC -AGCAGCTTGCTGAATGAACCGCAGGTTGATACTTCTACACCGCCGAAAAACGCTGTGCCTGATGCACCGCGTAAT -CCGTTCCGTGGCGTGAAGCTGTGCAAACCGAAGAAACCGATAGAACCTGTTTATGCTAATCGCTTCTTTGAAGTA -TTAAGCGAAAGCATCAGCCAGAGCACGCTGATCGTTTACTTCCAGCATCAGTGGCAAGGCTGGGGCAAACAGCCC -GAAGCGGCGAAGTTTAACGCTAGCGCAAATTAAAGGCGCTACGCGTAATGCGATGGTGCGACCGCGTTTTGTCGC -GCCATTGCCATAAGCGGAAAGACCACAGTAACGCCTGGTAACCGACCTTCACGCTGCGCACATTGGTAATCAGGC -GCTTATACATACCGGAAGTAAATATCTCGGCAATCATCCGTTGGCGGGTAAGAATATCCGGCTCTTTGCGCACCG -CATGGCAAACACGCAATGCCTCGTAAGTTATTTGCTGATGAAATTCCGGATAAATCATAATTTTGTCGGCATAAT -TTCGATTTAATTTCTCCAGCAGGCGGGTAATCTTAATATAGTGACGTTGATAATTAAGGTTTTTATTCCCTTGTC -TATGCAACCGACTCACTGACGTATTATGCAGATAATATTTATATAATGATTGCTCGGTATATCGCGCACGCAGCG -CGTTAAACATGAATTCTGTTGTCCAGACAATATCCTGATGATGTAATCCGGCAATAAATTTAATGTTATTTTTAA -CAATAACATCACGGCGATAAACCCCCATCCAGACAACGTGAGTCCAACGGCGCGAAGAAAGCCCCATCCGCAGCC -AGTCCGGGCCGGTTAATACGCCGGTTGAGCGAAGGCGATCGGTGGGGATGGATTGCCAGGTTTCTCCCGTTTCAC -GAAAACACCAGTCAGCGTTGCACTGCGCCACGTCGAGGTCGTCCTCTAACGCCATGGTCATCAGCGTTTCGTACA -TGGTGGGATAGACTTCATCGTCAGCATCGACAAAAGCGACATATTTGCCCGTTGCCACTTCAATCCCACGATTAC -GCGCCACCGATGCGCCAGCATTCGCCTGATGCAACAAACGAACGTGCGGATAGTTTTCTGCGTAATACTTTGCTA -TTTCAACAGAATTATCCGTTGAACCATCGTTAATAATAATGATTTCCAGAGCAGTCCAGGTTTGCGTAATTAAAG -ATTCCATACAAGTGCGGAAATCATCGCCCGCATTATATAACGGAATAATAACACTAAGTTTATTGGTGCTGTTCA -TCATAAATTACCGACGACCTCTGAAGTTATCCTGACGTTTTACAGGCTTTGTATTAAGAAACTATTAAGCCTGTG -AGATATTATTTTTACAGGTGAGAGAGTCACTTCAGGGTAGAGAGATAATGAGAGCAGCTATATAAGAGATCAGCA -CAATTACGAACTCTTTATTACACTGACAGGATTTTACATATTTAACAGATTATCCTCAGATAAAAGGGCTGGAAT -ACCAGCCCTTGTTCGTGTTAATCCCAGCTCAGAATAACTTTCCCGGACTGGCCCGAACGCATAGCGTCAAAGCCC -TTCTGGAAATCATCGATAGAGAAACGATGGGTAATGATCGGCGAAAGATCGAGGCCAGACTGAATCAGCGCCGCC -ATCTTGTACCAGGTTTCAAACATCTCACGACCGTAAATACCTTTAATGAACAAGCCTTTAAAGATCACTTTGGTC -CAGTCGATAGACATATCAGACGGCGGAATACCCAGCATCGCAATACGGCCGCCGTGATTCATGGTGTCAAGCATG -GTACGAAACGCTGGCGGCGCACCGGACATTTCCAGACCGACATCAAAACCTTCGGTCATGCCTAACTCCGCCATC -ACGTCATTGAGATTTTCTTTGGCGACGTTAACCGCACGGGTGATACCCATTTTACGCGCCAGCTCAAGGCGGTAT -TCGTTAACATCAGTGATCACCACATTGCGTGCACCAACGTGTTTCGCCACCGCCGCTGCCATAATACCAATCGGG -CCTGCACCAGAAACCAGCACATCTTCGCCCACCAGATCAAACGACAGCGCGGTATGCACGGCGTTACCGAAGGGA -TCAAAAATTGCGGCTAAGTCATCGGAAATATTGTCGGGGATTTTGAAGGCGTTGAATGCCGGGATCACCAGATAT -TCGGCAAAGCAGCCCGGGCGATTAACACCAACGCCTATCGTGTTGCGGCACAAATGGGTACGACCACCACGACAG -TTGCGGCAATGACCACAGGTGATATGGCCTTCGCCAGAAACGCGATCGCCGATCTTGAAGCCTTTCACTTCCTGA -CCAATACCTACCACTTCACCGACATATTCATGGCCCACGACCATCGGCACCGGGATGGTTTTTTGCGACCACTCA -TCCCAGTTATAGATGTGAACGTCAGTCCCGCAGATGGCTGTTTTACGGATTTTAATCAGCAGATCGTTATGCCCG -AGTTCCGGTACAGGAACGTCGGTCATCCAGATGCCCTCTTCCGCTTTCAGTTTGGATAACGCTTTCATCTCACAT -CCTCAGGCGATAACGCCCAGTTGTTTACCAATACGCGTAAATGCTTCTACTGCACGCGTAATTTGCTCAGGGGTA -TGCGCCGCAGACATCTGGGTACGAATACGCGCCTGACCTTTCGGAACGACCGGATAGAAGAAACCGGTAACGTAA -ATGCCCTCTTTTTGCAGCTCACGGGCAAATTTCTGCGCCACTACCGCATCACCAAGCATGACCGGAATAATGGCG -TGATCGGCTCCCGCCAGGGTAAAGCCCGCCGCCGACATTTGCTCACGGAACTGACGCGCGTTCGCCCACAGACGG -TCACGCAGTTCGCTGCCCGCTTCGACCATCTCCAGTACTTTGATGGACGCGGCAACAATGGCCGGTGCCAGCGAG -TTGGAGAACAGGTACGGACGAGAACGCTGGCGCAGCCACTCAACCACTTCTTTGCGCGCCGCGGTATAACCACCA -GAAGCCCCGCCCAGCGCTTTACCAAGCGTACCGGTGATAATATCGACCCGGCCCATCACATCGCAGTATTCATGG -GAACCACGACCATTTTCACCGACAAAACCGACCGCGTGGGAGTCGTCTACCATCACCAGGGCATCATATTTATCT -GCCAGATCGCAAACGCCCTTCAGGTTGGCAATCACGCCGTCCATTGAGAACACACCATCGGTGGCGATCAGCACA -TGACGCGCACCGGCTTCACGCGCTTCTTTCAGACGTGCTTCCAGCTCCTGCATATCGTTGTTGGCATAGCGATAG -CGTTTAGCTTTGCACAGACGCACACCATCAATAATAGACGCGTGGTTCAGTGCGTCGGAGATAATGGCGTCTTCC -GCACCCAGAAGCGTTTCAAACAGGCCACCGTTAGCATCAAAGCAGGAAGAGTAGAGAATCGCATCTTCCATCCCC -AGGAAGGCCGCCAGTTTTTGTTCAAGCTCTTTATGGCTGTCCTGAGTGCCGCAAATAAAACGCACCGAAGCCATG -CCGAAACCGTGAGAATCCATTCCCGCCTTTGCCGCCGCAATCAGATCAGGATGATTCGCCAGCCCGAGATAGTTG -TTGGCACAAAAGTTAATGACGTGGCTTCCATCAGCCACAGTGATATCTGCTTGCTGCGCAGACGTAATAATGCGC -TCTTCTTTAAACAACCCTTCCGCCCGTGCGGTTTCCAGATCGTTGGTTAACTGCTGATAAAATTCTCCACGCATT -GCGATTCTCCAGACAGGGCAAATTCCAGCACATATTACCCAAACTTATAGGTCGCGACGAGATAACGCGTTAACA -CTTCTGCAAAATTCAGGATAAATAACGTGTAACTTGATGTCTCTCAACACCTACAGATAGTAGAAAAACTGTACA -GTTTTGGCTGGGCATAATGATGATTGATTTTACTGCATTGATATAAAAAGAAAAAATGATGCCAAAGCATCATTT -TTCCTATCTCAGTTGGTATCAAAACGCTACCCACTAATGGAGGGAAACCTATTTTCTTGAAAGGAAAATTCTCAG -CGCCTGCATTTTTGCCCCTAAAGTGTTACTCCTGAAGCAGCGAAACAAATCGAACCATTTTCCTCTCCCCAGATA -GTTTAGGTTGAAGAGATCGGGGCGTTTGTAATAGCACATGACAAAAATGCCCTGGTCATCGTCCACAATGTTATT -ATTTAGTGTTATTTTTTGACTTTCCAGAACTAATTTATAGAATTCTTTCCATTTATGCTGTGAACCAACAATTGC -GCCCCCAATAATATATACATGATTGCCAATCATGAAATCAAAAACCTGTTGTTGAGATGTGACAGTAAGCCCTTT -TTTTATAGTGAAAAGATGCATCTTACTTTCATCAAATGGGAAATCCCAAATTTTCAATCCTCGAGTTACATTTGG -CTTATGGCAATAGCCAAAATCTATCCACGCAACAAGAGGCGTTTTCACTAAGCCCATGTTGATAGCTTTATTTAC -AAAATAGGCCTTAAGGTTACATACCAAAACATACTCTGGTGACCAGTACTCTGGGTTTTTTAATTGTCGAGGCTC -AAGTCTATTTGTAAACGACTCATCTTTTTGAATTTTTTCGATACGACTTCTGATATATCTAAATTTCTTTTTTAT -ATCGATAACGATAACCGTTGTTGGTTTTCCGTTGCGAATCGCTTCAACCCTTGGTTTCAAATCGGGAGAAGTGAA -AATAATCATCTCATTTTCAAGTGCGGCCAGACGCTCAAAGTAACTAAAATAAACATCAACTGAACGAGCTAGTTT -TTCACGGAACCCTTTATTAGCAGTCCAATCCCCTCTACCAATGTCAAAATATGCAGTGATAATTGTGGTGGATGA -TTTCATTACTAATAAGACCATTAATATAAAAAAAGAATTATATCATAAATATTAATAGAATGTATACTGTATATT -ATCCATTCAAATGCTTCCGTTATTTATCATACATCGGAATATTGATACTAAAGCACTATTCACATGCAAAACCAA -CATCCGCCATGAAGGACTAGCTAAAACCCAAACTAGTTTGTTGCAATTAGCATCCTTGCACCTCTATGTAAAGGG -CTGAAGGGATTCGGATGTGATGGTATGATTACAGACATTCGTGTCTGAGATTGTCTCTGACTCCATAATTCGAAG -GTTACAGTTATGATCATCGTTACCGGCGGCGCGGGCTTTATCGGCAGCAACATCGTTAAAGCCCTGAATGATAAA -GGCATCACCGATATTCTGGTGGTGGACAACCTGAAAGACGGCACCAAGTTTGTGAACCTGGTGGATCTGAATATC -GCAGACTATATGGATAAGGAAGACTTCCTGATCCAGATTATGGCTGGCGAAGAGTTCGGCGATGTCGAAGCGATT -TTCCACGAAGGCGCGTGCTCTTCCACCACCGAGTGGGACGGCAAGTATATGATGGATAACAACTATCAATACTCC -AAGGAGCTGCTGCACTACTGCCTGGAGCGTGAAATCCCGTTCCTGTACGCTTCTTCCGCAGCCACCTACGGCGGA -CGCACCTCCGACTTTATTGAATCCCGCGAGTACGAAAAACCGTTGAACGTCTACGGTTACTCAAAATTCCTGTTT -GATGAATATGTTCGTCAAATCCTGCCTGAAGCGAACTCGCAGATTGTTGGCTTCCGTTATTTCAACGTTTATGGA -CCGCGTGAAGGCCATAAAGGCAGCATGGCGAGCGTCGCTTTCCATCTCAACACCCAGCTTAACAACGGTGAATCA -CCGAAGCTGTTTGAAGGTAGCGAGAACTTCAAACGCGACTTCGTCTATGTGGGCGACGTGGCTGATGTGAATCTG -TGGTTCCTGGAAAATGGCGTTTCCGGCATCTTCAATCTCGGTACTGGTCGTGCGGAATCCTTCCAGGCGGTAGCT -GATGCTACGCTGGCTTATCACAAGAAAGGCCAGATCGAATACATTCCGTTCCCGGATAAACTGAAAGGCCGCTAT -CAGGCGTTCACTCAGGCAGATCTGACAAATCTGCGCGCGGCGGGTTACGACAAACCGTTCAAAACCGTTGCTGAA -GGTGTAACGGAATACATGGCCTGGCTGAATCGCGACGCATAAGAGCTCTGCATGAAAATACTGGTGATCGGCCCG -TCTTGGGTTGGCGACATGATGATGTCGCAAAGTCTCTATCGCACGCTCCAGGCGCGCTATCCCCAGGCGATAATC -GATGTGATGGCACCGGCATGGTGCCGTCCATTATTATCGCGGATGCCGGAAGTTAACGAAGCTATTCCTATGCCT -CTCGGTCACGGAGCGCTGGAAATCGGCGAACGCCGCAAACTGGGTCATAGCCTGCGTGAAAAGCGCTACGACCGC -GCCTACGTCTTACCCAACTCCTTCAAATCTGCATTAGTGCCTTTCTTCGCGGGTATTCCTCATCGCACCGGCTGG -CGCGGCGAGATGCGCTACGGTTTACTCAACGATGTACGCGTGCTCGATAAAGAAGCCTGGCCGCTAATGGTGGAA -CGCTATATAGCGCTGGCCTATGACAAAGGCATTATGCGCACAGCACAAGATCTGCCGCAGCCATTGTTATGGCCG -CAGTTGCAGGTGAGCGAAGGTGAAAAATCATATACCTGTAATCAATTTTCGCTTTCATCAGAACGTCCGATGATT -GGTTTTTGCCCGGGTGCGGAGTTTGGTCCGGCAAAACGCTGGCCACACTACCACTATGCGGAGCTGGCAAAGCAG -CTGATTGATGAAGGTTATCAGGTGGTTCTGTTTGGCTCGGCGAAAGATCATGAAGCGGGCAATGAGATTCTTGCC -GCTTTGAATACCGAGCAGCAGGCATGGTGTCGGAACCTGGCGGGGGAAACACAGCTTGATCAAGCGGTTATCCTG -ATTGCAGCCTGTAAAGCCATTGTCACTAACGATTCTGGCCTGATGCATGTTGCGGCGGCGCTCAATCGTCCGCTG -GTTGCCCTGTATGGTCCGAGTAGCCCGGACTTCACACCGCCGCTATCCCATAAAGCGCGCGTGATCCGTTTGATT -ACCGGCTATCACAAAGTGCGTAAAGGTGACGCTGCGGAGGGTTATCACCAGAGCTTAATCGACATTACTCCCCAG -CGCGTACTGGAAGAACTCAACGCGCTATTGTTACAAGAGGAAGCCTGACGGATGCGGGTTTTGATCGTTAAAACA -TCGTCGATGGGCGATGTTCTCCATACGTTGCCCGCACTCACTGATGCCCAGCAGGCAATCCCAGGGATTAAGTTT -GACTGGGTGGTGGAAGAAGGGTTCGCACAGATTCCTTCCTGGCACGCTGCCGTTGAGCGAGTTATTCCTGTGGCA -ATACGTCGCTGGCGTAAAGCCTGGTTCTCGGCCCCCATAAAAGCGGAACGCAAAGCGTTTCGTGAAGCGCTACAA -GCAGAGAACTATGACGCAGTTATCGACGCTCAGGGGCTGGTAAAAAGCGCGGCGCTGGTGACGCGTCTGGCGCAT -GGCGTAAAGCATGGCATGGACTGGCAAACCGCTCGCGAACCTTTAGCCAGCCTGTTTTACAATCGTAAGCATCAT -ATTGCAAAACAGCAGCACGCCGTAGAACGCACCCGCGAACTGTTTGCCAAAAGTTTGGGCTATAGCAAACCGCAA -ACCCAGGGCGATTATGCTATCGCACAGCATTTTCTGACGAACCTGCCTACAGATGCTGGCGAATATGCCGTATTT -CTTCATGCGACGACCCGTGATGATAAACACTGGCCGGAAGAACACTGGCGAGAATTGATTGGTTTACTGGCTGAT -TCAGGAATACGGATTAAACTTCCGTGGGGCGCGCCGCATGAGGAAGAACGGGCGAAACGACTGGCGGAAGGATTT -GCTTATGTTGAAGTATTGCCGAAGATGAGTCTGGAAGGCGTTGCCCGCGTGCTGGCCGGGGCTAAATTTGTAGTG -TCGGTGGATACGGGGTTAAGCCATTTAACGGCGGCACTGGATAGACCCAATATCACGGTTTATGGACCAACCGAT -CCGGGATTAATTGGTGGGTATGGGAAGAATCAGATGGTATGTAGGGCTCCAAGAGAAAATTTAATTAACCTCAAC -AGTCAAGCAGTTTTGGAAAAGTTATCATCATTATAAAGGTAAAACATGCTAACATCCTTTAAACTTCATTCATTG -AAACCTTACACTCTGAAATCATCAATGATTTTAGAGATAATAACTTATATATTATGTTTTTTTTCAATGATAATT -GCATTCGTCGATAATACTTTCAGCATAAAAATATATAATATCACTGCTATAGTTTGCTTATTGTCACTAATTTTA -CGTGGCAGACAAGAAAATTATAATATAAAAAACCTTATTCTTCCCCTTTCTATATTTTTAATAGGCTTGCTTGAT -TTAATTTGGTATTCTGCGTTTAAAGTAGATAATTCGCCATTTCGTGCTACTTACCATAGTTATTTAAATACTGCC -AAAATATTTATATTTGGTTCTTTTATTGTTTTCTTGACACTAACTAGCCAGCTAAAATCAAAAAAAGAGAGTGTA -TTATACACTTTGTATTCTCTGTCATTTCTAATTGCTGGATATGCAATGTATATTAATAGCATTCATGAAAATGAC -CGCATTTCTTTTGGTGTAGGAACGGCAACAGGAGCAGCATATTCAACAATGCTAATAGGGATAGTTAGTGGCGTT -GCGATTCTTTATACTAAGAAAAATCATCCTTTTTTATTTTTATTAAATAGTTGCGCGGTACTTTATGTTCTGGCG -CTAACACAAACCAGAGCAACCCTACTCCTGTTCCCTATAATTTGTGTTGCTGCATTAATAGCTTATTATAATAAA -TCACCCAAGAAATTCACTTCCTCTATTGTTCTACTAATTGCTATATTAGCTAGCATTGTTATTATATTTAATAAA -CCAATACAGAATCGCTATAATGAAGCATTAAATGACTTAAACAGTTATACCAATGCTAATAGTGTTACTTCCCTA -GGTGCAAGACTGGCAATGTACGAAATTGGTTTAAATATATTCATAAAGTCACCTTTTTCATTTAGATCAGCAGAG -TCACGCGCTGAAAGTATGAATTTGTTAGTTGCAGAACACAATAGGCTAAGAGGGGCATTGGAGTTTTCTAACGTA -CATCTACATAATGAGATAATTGAAGCAGGGTCACTGAAAGGTCTGATGGGAATTTTTTCCACACTTTTCCTCTAT -TTTTCACTATTTTATATAGCATATAAAAAACGAGCTTTGGGTTTGTTGATATTAACGCTTGGCATTGTGGGGATT -GGACTCAGTGATGTGATCATATGGGCACGCAGCATTCCAATTATCATTATATCCGCTATAGTCCTCTTACTCGTC -ATTAATAATCGTAACAATACAATTAATTAAGAATAAACAAGTTTAAGAAGTGAGTTAAAACTCACTTCTTATCTA -TACAACTTAATCTCTTTACTGAATTAGTTAAAGTTTCAGTATCGATATCTTTTACCGTATATGTTGGGGATACTA -TTTGTATAGATTTATGATGATTCGGGGACCAAATTAAATGCGAGGGATATTCCGGAGTACGTGAATTAGGGTAAA -ATGCAAGCGTTGGTTTATGATAAGCCGCAGCGATATGAACAAGAGCTGTATCAACAGAAATGACAAAATCACTAT -ACTTGGTCAACGCAACGGTATAAATAAACTCATCAAATGGTAGTGTTTCGATTTCAAGTATTGGTATTGTCAATA -AATCTTGCGGTAACCCGGTAAATATAATCCGATAATTTTCAAAGTGTGTTTTCACTTCTTGATATATAACTTTTA -TTTGCTCAAACGTAAGACGGCATATTTTTTTTGCACCTAATGGATTAATAATGACTATTCTTGTATCTCCAATAA -ATTCTTTTATTTTATCTTCAACATCTACTGGTAAATGCAAGTCGTAGTTGGTGGAAAATTTACCCTCACCATAAA -TATGCTTCAGTATTTCTATTGCTCGTGTACTCATATGTTCTTTTAAACATTCATCGTGGGGATGGTAAAATGAAT -AGTAACGCTTATACCAATGATCAAAACCCAGAATGTAAGAATCTTTTAAACTTGATAATATTAAGCTATGCTTAA -ATGAGGGCATAGTTTCAAAGGGGTCTAATACAATATCGAACTGTAAATCCCGCAGATGCTTACATAGAGTAAGCA -TTTCAAGAAAACCGGTTGATTCTTTAATACAGAACTCAAATATATTTTTATTATTAGAGAGAAATTCCCCACCCT -TTCTATTTGTGAGAAGAGTTATTTTAACCCCTTTACTATAAAGTTCACGATAAATCGAACTTAATACAATTAGAT -CACCAAGTTTATTATTATCATGAATAATAAGGCATGATTTAACTTGTGCTGGATCTGTAATTTGATTATTTATTT -TATTACGAAATAAAAAAGAAAGGAAATTAATCTTGATTTTGTTTATATAAAATCTTTTCTTTTTGTGAAAAGTTC -CTAAGCGCATTTTTATACCATATTATTTTAGTTTCAGGATGATTAATTAGCATAAGAATCGGTTGAAGTTCTATA -TTGCATTTTTTTTCTTGTCATATCTTTTGATTCTTCTGCACTGATGTCTTGAAGTTTAATAAATGGAATTACATC -GTAAGAAATAGCTGTATCATCTGATAAATTATAAATATTAATATCTTTTACATTATCATGCATAAAACGAAAAAA -TGGCAATATTTTGAATAAATCCCTACTTAATTCCGAGGGCATGGGATTTTTATTCTCATCATAGAAACGAGAACA -GCTACCCGTTAAATCAAGACCAGAACAAATAATCCGCGCATACTTAAGTGAATATGCGATTTGAATTGCAGCAAA -GGCAATAGTATGGCATGAGCAATAACCAAGACTAATGTCCTTGCAAAATCCAACCAGACGACCTTTTTTAGACAA -CGGTACAGAGATCAGCAGTTCTTTGTGAATCTGTCTCAAAATATTAAATTTAATCTTCTTTATAAAACCACCTTT -TTCCCGACGGTAAAAGGACCGTAATACGAGGCAGTTCTGGAGGATATAAAGTTTATCTTCTTTGGAAGCGTGTTC -ATAAACGTCAACGTTTACTATGGTATAACGACTTCTCTGGCTAAATTTATAAAAATCATCACGACGCTGATGTAA -AAATCGGACATCTGTAAGTACATATATAAAAGGAACGATATTATTACTTAACAGATATTGCGCAGAACCATTGAC -AGCAATAATATCCTTTGTTCGTAATACTGACAAAGGTGTTTTTTGCGATGTAGGGCCCGAAAGAAAAATAATAAC -ATCATCAGATATTTTATTTTCAATCAGGTTTTCAACATCTTTTTTGTCAATGTATCTAATATTCTTCATGATAAA -CCTGTGAAATAAATAACTCCGCTTAAAACTGTCCTGGTGAAGACATGTAATTGTGGGATTTTTTTTAGCGCGCTG -GTTTCCCTTTCAAACGCCGCATAAAATTGCGCATTTTTTTACGATATACTAAAAGATAATAGCCTAGATCTCTAA -TCTCATTTTTAATACCGTAATGACGCTCTAAGTCAATACGATCTTTCGCTTTACGCTGCGCTGAAGCACGCTTTC -CGGAGAGATCGATAATTCGAACCTCACCATTTTTTATAATGAAGTTACCACGATGGGGGTCGCCAGAAACCATGC -CATGTTGATGTAAGGCATTAATTGATTGCTGAATTTTATTTTTTAGCGCATCATCAATATCGGGCATATCACACA -ACTCTATGCCATCAATATACTCGATGATCATGATATAAGTATGGACAAAACGTAAGGTTTTCCGTTCAGCCAATA -AATAAAAGTCATTGAGTGTATTTAACCCTTCATTTCGTACTTTTTGGGTTTGCTCAAAAAGGCGTTCGTAATAAT -CACCTTTTAACAGAGACTTAAAGAAACGTTCGTTACGCTTAACTTTCGGAGAAAAAACCTTAAGAATCAATTTAC -CGTAATCGGTATCAATAAGCATAACTTTTGTATCATCAATAGAACGAAAAACCTTGATGATATTTATATTATAAG -ACAAGAAGTCATTTAATACATTGAGGTACTTTGAATTGTTTTCATCGGTAAAAACAACCAAGTCTTTGATCTTGC -TCTTCTGAATCATAATAAACCAGTTAAATGTTATTTACGGTAATATTTTCGGCAAAGATAACAGACTCCTGCTAT -AATTCCTGAGATATAATGATGTTGCACTAAAAGATGTTTATATCTTTTTTTAAATTCAATAATTGATTTCGCATC -TCGTGGAGAGTCATCTTTCCAGGGGGAATTTTCTAAAGCTATTTTATAGTATTTTACCGATGGATAAATTGCCCA -TTTGTGCCACGGTTTAGTTGCACCTGTATAATGAATAAGAAGAGTACTTTCTGTAATCAGCTTTTTATAGTTTTG -ATGTGTTTTGTCTTTTAATTCACTTTTAATTGTATAAATTGTATTGTACTCACGAGGCAAAAATAATGTCATCCC -TTTCAGTAAGACATTCATAACATCCTGATCAGGGTATTTATAAACATTATCTTTACTCATAAGAATAGACAACGC -TTTTTCTGTTAGTTTTGCGTCAGCCCATTTTTTTAAGTCTAAATAAACGACACCGGAATTAAAGTACTGCCCAAG -TAATTCAGGATCAGACAACCTGGATACCGCCTTTTCTTGCATTGGCTCAACATCTTTAACAACAGCAGCAACCGC -TCCATTTAAACCCAGATGTAATAGTTGGCTAATATCGCCTTTACAAACAACATCTGCATCAAGATAAAGCAAACG -ATCAAGCGTTAAACCCAATAATTGAAATGCAAATAAACGGAAGTACATTGCTCTTGACCAGACCTGTGTACAAGG -CAAGCACTGGAGCTTATCAGTGTTAATTCTATATAACGTGATTCTTAATTGGTTTTGCTCTGCAAGCTTTGCAAT -TTTTTGAAAAAAACCATCATTATAAACATCAGCAATAATATAAAAATCAAGATTAATATGTCGATTATTTAGGAC -AATTGATGTGATGGAAACACCTACACCATCAAGATAATTAGCATCGACACCATAGGCAACATTTAAACATTCAGA -AGTATTTATATTAGCTAGCCGAAAATCCCAGGCTTTAACTTTATCTATCTCTATGGCAGGAAATGAGTCCACAAT -GCTACCCTTATATCATTACTTTATAGTTTCCCAGTTTTAATGCTTTATCTTTTCAATAAAATAAAAAAGATAGTT -GCTAAATCCTTTTAGATATCTATGCTTTTTAAGCATATGTTTTGCGCTATATCTTAATTGATTGCTATTGTTCGG -TTTCAGCAACGCCGTATTCTTCCATGGCGAAGCATTTTTTGCCTCCATAAAGGCTTGTGATACAGGATAATCCCA -GGCCCAATCATGCCAGGGCTTGGTTGGCCCGATATAATGGATAAAAATAGTATCGTTGGTTACTGGGTTTATAAA -GCTTTCTTTGAGTTGATAATTTAAGCTGAACTGGGTGTTATATTTAATATCAGCGAAAATAAGTTTATCCGCCAG -CAACATATTTAACACATCCTGATCAGGATGTGTTATTTTTTTGATTATTTCTGGCTCATTTAGCATTGCAATAGC -TCGTGCAGAAACCTGCTGAGCCGCCCATTGGGCAGTATTAATCAATAAAAAACCGGAGTTAAAGTAACCTTTAGC -AATTCCCGCAACACCTAACGAATGGGCGCGTTTTTCCCACCAGTCAGCTTGCCCTTCTGTAACAACCATTGCGAC -TTTATCGTCAGGAAATGAGAAATTAATTAGTGGCTCAATAGTCCCCTGACAAATGATATCTGCATCCAGATAAAG -GACTTTAGGCGCCTTATTAATAAAGTAATCTGCAATAACAAAACGAAAATATATTGCATGAGTCCAATTCTTAGT -GCTAGGCAATGAGCGCAGTCGATCACCATTAATCAGATATATTTTAATTCTGGTTTTATACTGCAACGCCAGGGC -ATCAAAATACTTACGATCATCATCACCAAAATAATCAGTAAAAATATGGAAACACAATCGACTTCCTTCATTATA -TTTTAATATTGAAGCAATCGAAATTCCGCAACCAAATAGAAAGTTTTTGTCAGTTCCATAAGCGATGTCCAGACA -AAGATTTTCTGTTTCTACTTTATGATCATAATCAATAACTGAATTAAGAAACTCAGTTTCCTGGAAAAACACCTG -CTGCATTATTTCCTCCGGGAAATAGCAGAAATAATTACCTTATGTAATCTATCGTAATACTTCGATTGGTAAAAT -TCATCGATCGACGCAGGAATTTTTTCATGTTCGATATGAATTTCACCTGCTATATATTTATTTAGAAGAGTTACA -AAACCAGCAATATCTCCCGGTTGATACAGATGGCCATTGACATCAGGTTGAATAATGTCAGCAGGCCCGGAGACA -CAATCGGCACTGATACAAGGAATCCCCCACGACAAGGCTTCAAGTAGGGTCATTGGGAAACCTTCAAAAGATGAC -GTGAGCAATAACGCACTCACTTTTTCAATATCTTGCTGGACCAATTCCCAGGGATATTGTTGCCAACCATACCAG -ACAATTCGATCATCAATATTTAATTCTCTACCATAAGCCTGGCATTTTTCGAAATCGGAGCCATCACCCAATACA -TGGAGTTTCCAGTTACCTTTCGCTTGTGATAAGCCATCAAGCAGGTCTTTAACTCTTTTCTGGCCTTCAAATTTC -ATACGCCCAACATAAATAAACGTTGCCGTTTCACCTTCCTCGGGCGCGGGAATGACTGAGTCTTTAGTTTCGACG -GGATTAAAAATAACATTTATCGTCGATTCTGCTACACCTCGATTAATCATTTGCTGTTTAATGCCAGAGCTGATT -GCTAAATGATAGTCGGCACAGGTGATATATTCAGCATGTTTTTTGTGATCTAAAGAAAAATGTGGCCATGAAAAT -ACTGGCATATCAATTCCTGATTTTTTACGTGCTTTTGCGGCAAACAGGCAGGAGATCACATCAATACAAATAACG -ATATCTGGTTGGTACTCCTGAAGCCATTTACTTAGAGCATGAATATGTTTCGCCCGACGCAAAAAACCTAAACGA -ATATTGGAAAATGAACATGAGTATTTAATACCTTCCAGCCATCCCTTATCCATTTTGTCATTACGACAAAAGAAA -AACATTTCACTTTGGATATGTTGTTGCCTGAAGGTAGTAATAACATCACGGATGACAGTTTCCATGCCGCCAAAT -CCAGAAACAGCTTCGCCGATAAACGCTATTTTCATAGAAACTCTCATTAATTGAGTAAAACTCACTGTTTTAACG -GTTTTATTTGTCTATAAAATCAGAAACAATCGTTGACATCATTTTATCTGGACTGAATTTATATAAACTATCATA -ATCCATTGGTTTAACAGATGAGTTAATAAAATACTCTAACTTATCCCAATCATCATGACCTATTATAAAAAAGCG -AGATTCACTATAGATTTCTGAACCAAATACATTTATATTATTAGTAATTAATTTTTTATTGAAAAATAGTGCCTC -AAGTATACGAAGAGTCCAGCCAGATTGGTTTTCTTTGGTTATATCAACAATTATATTAGCATTTAATGTTCTTCT -AATATTCTCTTCATAAGATATTTGTTTTTCAATCAAATACTTTGAAGTCGTAGATGATGTCTTATCTTTGACAAC -ATTAAAATCTAGCTTACATCCTAGTGTTGTTAATCTCTCGGCTAACTCATTAATTATTTGAAGACGCCCTTTATC -ACGACCAAGGAAAAAACATATTGGCTGGCTGTTATTTTTGTCAGATAAACTATAATTTCTAATTTCATCCATTCC -TATAGGAAAAAATTGTTCTATTGCCTTGATCTTTTCATTCCCTATAAATCTATGCTCAAAATCATATATAATATC -GAAATAATTCGCGTTATCAAGAATAAAATCTTCGCCAACAGTATTTCTTAGAAGCAAAACTTTATGACAGTTAAT -ATTTTTTAATATTTGTTTATTGATACCTTTATTAACAACACTGTCATTAATGATAATTATGTCATCTTTTTTAAT -ATCATTGAGGTAATGCTTGATGAATAATCGCCCCAGCCATGCATTATCCATCCCTATTTTTGATATTTTTTTATT -AATCCAGTTATATTTTTTTGGTGTTGTTATATTTTTTATCTTGTACTTTTTTTTCAGGTACTGAATCATTTTTAA -TTCATAATCTGCAACCCAATTTATAAAATAAATAGTCATAATAAAGTTAGTTCCAGTACATACTAATAAATATTT -TTATAATCCTTTGCGTTGTGTTCGCTCTTTAATACGCTCGGCCTTAACGCTTGCCATGTTCAATAAATTCTGTTC -AAGAGACAATATTTTGCGTAAAGGCATCCCAAAATAAACCTTCATAAATCGCCAGATATCTCTTTGCGTCAGGCC -AATATTCATTGATGAGAAATATAAACCAATCAGGTCTTTATCGCGCCAGCGGCGCGGTACTTTTGCACGTATCTG -TGCCCGATGCAGATCGATAACTGAAATTTTTAATTCATCTTCCCGGCCAGTAAATGGCAAATGAAGCAAAAAGTG -GCAAATGTAACAGTCGCGGTGATTTATCCCTGCAGTATGCATTTTACGCACCATAGTTGCTACACGTGCGATCAG -CATACGCTTAACACGTATATCAGGCGGGTTGACTGCCCAATCGGCACAATAATCTTCAAGGCTAATTGTGGGAGT -GAGATCTTCGGTAATAATAAATGATGCGCGAGTTAATGGATTTAACCCTTTTTCGCCAAACCCAATGCCCTTCAT -TGTATCAACGCCAACATCACTCAGGCGATGAATAGCGTGCCACTCTCTGTCTGCGCCCAAAACGGGCATCCGCAA -TGAGAGTAGATTTTTTATAATCTCTTTTAATGTCGTCCCCTTGTGCCATTTAAGAAAATAGCTTTTCCCGGACAG -TTCAAAGCGTAATGTACGACGAGTCTCCAGTTCACGAAAGACCTCGCCGTTCAGTTTTTTGACCTCTGCAAAAGC -ATCTTTACCACGCCAAAGTGTGGCAAGCGGCTCTTTTAATTCAACCATCTAAACCACCTGTAATGATATCCGCGG -CTTTTTCTGGCAAGCTATACAAATCCTGAGTATCGGCATAATGGCGAGCATTCTCCGCCCAGGCCATTCGCAATG -GCGACTGAGTTAACGCTTTACGTAAAACTTCATTTAATTGTTCCTGAGAGAAAGGTTCAGCGATGACCGTTCCAC -AATTGGCATCCGCAATATAATGCGCGTACCCACATACCGCTGTTGTTAAAACAGGTAACCCAGCAGTGATCGCTT -CTAGAAGAACGATACCCGCGGCTTCCTGATAAGCGGGATGCAGTAATAAATCAGCGGCTGCCATTAATTCTGACA -CATCATTGCGACCGGAGAAGAAATGCACATTGCTCCGCACGCCGAGTTTTTCTGCCAGCGCTTCAAATTTTCGCG -GCTTATCCTGACCAACAACAAATAAAAGCGTATTGTGACGTAATGATTCCGGTAACGATGCCAAAGCTTCAATTG -AGCGATCTACACCTTTACGGCCAAAATCTGATCCAACCTGCAGTAATAAGTTTTGTTGCTCTTTTATGCCATTTT -TCTGGCGATAAATTTCACGGCTGTTTGGGATTTGCTCACTGTATTTTCTGTCCGGATAAATACCGGGAGGAAGAA -TTTGAAAACGTTCAGGTTCAGTTTGATAATGCTTCTGGAAATCGGCGATTTGCTTATCGGTCAGCATCATAAGTT -TCGTCGATTTACCCTGCTCGAAAGTCGCTCGCTCAAATGCGGCATAATGGCGATATCGTGATGTTAAACGATATA -AAAAACCTTTTTCTTGCGCAACTTTCTCGGCGTAACAAACATCAGCGGCAAAATAAACATCCAGGCCAGGCATCT -TATTAAACCCAACAACGCGATCTGCGGGATGCTCTTTGAGATGATTTTGTACCCAGGCATAATATTCTGCATTGC -GTCCATGGTTGGTATGGGACTTAACTGGCACCTGAATAAGCTCAAATGCTTTCGGGCAATCGCCTTCCCACGACT -GTGTATATACCCGAACATGGTGGCCCCGTGCGGCAACTGTTGATGCAATGCGCATAAAGTCACGTTGAAGCCCAC -CAAATGGAAAATATTTATATAAACAAAACGCCACGATCATAATTGTGCATTCCTGTCAGCTGAAGGGGCATCTTC -TGGCAACAGCTTTTCCGTAGCGGCGATCACATCCTCCGCTGGGATAACAGAAAGATATTTTTTGTTGCGGTCAAG -TTCATGCCGGGTCGGCATTTTCTGATAATTCCCCGCCCAGAATTGAATAATATTCTCGGTCCAGGGACGCCAGAA -TACGTGATCCGTTGCACCAAATAGACTAATGACTGGCGTTTTCACTGCCGCTGCAATATGTCCCGGCGCAGAATC -CACACCAATAAAAAGCACTGCATGATCAATTAATGCACCCAGTTCAGGAAAACGTGTTTTACCTGCAAGGCCAGT -AATGGGTTTTGTTTCGCAACCTCGTGCAATCTCATCTACACAAGCGAGATCATCTGCCGAGGGCCCACAGGTTAG -CACAACCTGATAGCCTCGCTGTTGCAGCGCATCGATAACCTTAGAAAATTTATCGTTATCCCAACACTTAAATAT -CTGACGCGCTGTCGGTTGGATGACAACATAATGATCTTTTACGCCCAGGGCATCTAATTCCCGGCGCATCTTCTT -CCAGCAATCTTCGGCGTAACTCATTGTTGTGTCGGTGTAGAAATCGGTAATACCTAATGGCTCAAGGACCGATAA -ATTACGCTCAACAATATGTGTACCGTGTATTGGCGCTAAGTGTGTGAAGCTTTTTTTCCAAATACCATGCTGCCG -ATGACCATAAAGTTGCGATATTTTCATCCGTGCAGGTAAACAACGTACCAGCAGCGCCACCATCCACTGATCCGT -AAGATTAATGACCAGGTCATAATTATTCGCACGCAGAGTTTTTATCAACGAAAGCACATTTTTAATTTTATCGAA -AGTTCCCGCACCTTTATTGCTTATCCCATAGAGCGCATTAATTTCCGGGTTTTCAGACAAAATAGGGATGGTGTC -CTGATAAAGCAGCATATCGATTTTTGCATCAGGATAATTCTGCTTGAGCGTACTGATGACAGGAGTAGTTAATAA -CATATCCCCATGATATCGCATCTTTATGACCAGGATTTTTCGAAATGGCTTTTCCACTAGCGACTCTTTTGTGTG -ATTGTCTGGTTAAGTTAAGCAGAAAAAAGCACGCTACCGCCCCAGGCTCAACAGCTACCTGAATACTGATAACGC -ACTTACTTTGACGTGCTAGTGTATCATTTCTTTCGCAGCAATCCGACCCGAATGATTTTTATACACAAAATATAC -TTTAATCATAAAAATCAAATAGATAAAAAATAGCATTTCGATAATGTCAGTACGGCCTATGTAGATTTGAAAATG -GGGCCGAGTTTCAATGAATCGCATAAAAATACAAAAAAAATGAAGATGTAGCGGCAGATCAGACCAAACTGAAGC -TATTTAAGTCAAAAACGGGAAAAGTAATGGTAAAGCCACAGCTAAATACATAGAATCCCCAGCACATCCATAAGT -CAGCTATTTACTATGCTCGAATTGCTTTACACCGCCCTTCTCTACCTTATTCAGCCGCTGATCTGGATACGGCTC -TGGGTGCGCGGACGTAAGGCTCCGGCCTATCGAAAACGCTGGGGTGAACGTTACGGTTTTTACCGCCATCCGCTA -AAACCAGGCGGCATTATGCTGCACTCCGTCTCCGTCGGTGAAACTCTGGCGGCAATCCCGTTGGTGCGCGCGCTG -CGTCATCGTTATCCTGATTTACCGATTACCGTAACAACCATGACGCCAACCGGTTCGGAGCGCGTACAATCGGCT -TTCGGGAAGGATGTTCAGCACGTTTATCTGCCGTATGATCTGCCCGATGCACTCAACCGTTTCCTGAATAAAGTC -GACCCTAAACTGGTGTTGATTATGGAAACCGAACTATGGCCTAACCTGATTGCGGCGCTACATAAACGTAAAATT -CCGCTGGTGATCGCTAACGCGCGACTCTCTGCCCGCTCGGCCGCAGGTTATGCCAAACTGGGTAAATTCGTCCGT -CGCTTGCTGCGTCGTATTACGCTGATTGCTGCGCAAAATGAAGAAGATGGTGCACGTTTTGTGGCGCTGGGCGCA -AAAAATAATCAGGTGACCGTTACCGGTAGCCTGAAATTCGATATTTCTGTAACGCCGCAGTTGGCTGCTAAAGCC -GTGACGCTGCGCCGCCAGTGGGCACCACACCGCCCGGTATGGATTGCCACCAGCACTCACGAAGGCGAAGAGAGT -GTGGTGATCGCCGCACATCAGGCATTGTTACAGCAATTCCCGAATTTATTGCTCATCCTGGTACCCCGTCATCCG -GAACGCTTCCCGGATGCGATTAACCTTGTCCGCCAGGCTGGACTAAGCTATATCACACGCTCTTCAGGGGAAGTC -CCCTCCACCAGCACGCAGGTTGTGGTTGGCGATACGATGGGCGAGTTGATGTTACTGTATGGCATTGCCGATCTC -GCCTTTGTTGGCGGTTCACTGGTTGAACGTGGTGGGCATAATCCGCTGGAAGCTGCCGCACACGCTATTCCGGTA -TTGATGGGGCCGCATACTTTTAACTTTAAAGACATTTGCGCGCGGCTGGAGCAGGCAAGCGGGCTGATTACCGTT -ACCGATGCCACTACGCTTGCAAAAGAGGTTTCCTCTTTACTCACCGACGCCGATTACCGTAGTTTCTATGGCCGT -CATGCCGTTGAAGTACTGTATCAAAACCAGGGCGCGCTACAGCGTCTGCTTCAACTGCTGGAACCTTACCTGCCA -CCGAAAACGCATTGAGGTTGTTATGCAAAAACGGGCGATTTATCCGGGTACTTTCGATCCCATTACCAATGGTCA -TATCGATATCGTGACGCGCGCCACGCAGATGTTCGATCACGTTATTCTGGCGATTGCCGCCAGCCCCAGTAAAAA -ACCGATGTTTACCCTGGAAGAGCGTGTGGCACTGGCACAGCAGGCAACCGCGCATCTGGGGAACGTGGAAGTGGT -CGGGTTTAGTGATTTAATGGCGAACTTCGCCCGTAATCAACACGCTACGGTGCTGATTCGTGGCCTGCGTGCGGT -GGCAGATTTTGAATATGAAATGCAGCTGGCGCATATGAATCGCCACTTAATGCCGGAACTGGAAAGTGTGTTTCT -GATGCCGTCGAAAGAGTGGTCGTTTATCTCTTCATCGTTGGTGAAAGAGGTGGCGCGCCATCAGGGCGATGTCAC -CCATTTCCTGCCGGAGAATGTCCATCAGGCGCTGATGGCGAAGTTAGCGTAGCGTTTATGCCGGATGGTATGCCA -TCCGGCGCGCATGAATTACTTCTGGCACTGCCGACAATAAAACGTTGCCCGCTGCGCATGTTTAGTCGCCACAAT -CGGCGTACCGCACACCCGACACGGCTCACCTTTTCGCCCGTAAACCTGCAATTCCTGAGCGAAATAGCCCGGTTT -ACCATCACTTTGCAGAAAATCTTTCAGCGTTGTACCACCCTGCTCAATCGAACGCAGCAACACCGCTTTAATCAC -CCGAGCTAACAATTCACACTCTGCCAGCGACAGTGATGACGCCAGCCGATCCGGATGGATCCCCGCCGCAAACAG -TGATTCGCTGGCATAGATATTCCCTACCCCTACCACCAGCTTGTTATCCATCAGCCACGGTTTAATCGCCGTTTT -TTTCTTCGCGCACTTCTGATGCAGATACTCACCATTGAAATCGTCGCTAAGCGGCTCCGGTCCAAGATGGGTCAG -CACATTATGCCCTTCCAGCTCTTTGGTCCACAGCCAGGCACCAAAGCGGCGCGGATCGGTGTAGCGCAGCACTTT -GCCGTTGCTCATCACCAAATCCACATGGTCATGCTTTTCAGGGGGAAGTTCTTCTGGAAGGATGCGCAGGCTGCC -AGACATCCCTAAATGAATGATAATCCAGCCCTCAGGCAGCTCCAGCAGCAGATATTTAGCCCGCCGCTGCACGCT -AAGCACTGGTTGGTCGCTTAAACGGTAGATCTCTTCTGAAACCGGCCAGCGCAAGCGTCCGTTGCGCACCACTGC -ATGAAGAATGGTTGCACCAACGAGATGCGGTTCTATGCCGCGGCGGCTGGTTTCAACTTCGGGTAATTCAGGCAT -AGCATCTCCAGGAATGAACAGATGCAGTCAATATGGGGGCAAGCAGATAACAAAAAACCCCGCCGGAGCGAGGTT -TTTTGTTACATCAAAGCGAGAATTATTTGATTTTCGCTTCTTTGTAGATCACGTGCTGGCGAACAACTGGATCGA -ATTTTTTCAGTTCCAGTTTTTCCGGCTTAGTACGTTTGTTCTTCGTAGTGGTATAGAAGTGACCAGTACCAGCAG -AAGAAACCAGCTTGATTTTCTCACGAATACCTTTAGCCATGATTTATTTCCTCTAAGTACTTAGTACTTTTCGCC -ACGGGCACGCAGTTCAGCCAGAACTGTATCGATGCCTTTTTTATCGATTACACGCATACCTTTAGCAGATACGCG -CAGGGTGACAAAACGCTTCTCGCTCTCAACCCAGAAACGGTGAGAGTGCAGGTTCGGCAGGAAACGGCGTTTAGT -CGCGTTCAGTGCGTGGGAACGGTTGTTACCGGTCACCGGACGCTTGCCAGTAACTTGGCAGACTCGGGACATGTC -TATTCTCCAAAAATCAAATTAGCTCGAGCTTCGTATGGGGTATTGGCGCCTCGTCAGGCTTTACAGCCCGGTCAT -CGCAGTTCTATGTGAACTCTCGATTGCCAGGCCCAAATGCCAAACCCGAGATTCTCAAAGGTGGCGTAGTATACG -CTGACTCAGCGATGTGCTCAAGTCCCGAACAGACAAAGATCCCGAAGGATCGCGCATAGCGGGTTAAATCCAGCC -GCGTTCGGCAAAAGAAACATACTCTCCACGCCCAATCACGATATGGTCGAGCACGCGTAAATCCATGAACTGACA -ACTCTTTATTATCCGTTCAGTAATGAGTTTATCCGCTTTACTGGGTTCAGCACAACCCGAAGGGTGATTATGTGC -AAGGATCAGCGCCGAGGCGTTTATTTTTATCGCTTCGCGGATAATTTCCCGAGGATGGACTTCAACATGGTTTAG -CGTGCCGGAAAAAAGACGCCTATGCGTTATAACCCGGTGTTGGGAGTCGAGAAAGATCACCATAAAGATCTCCCG -CTCCTCACCCGTGAGCTGGCTTTGTAAAAATTCCCTCGTCATCTCCGGGCTGAGTAAAGGGCTTTCTTCACGCAT -CCGCACGTTGTAGTAACGCCGCGCCAGTTCAGCAATCCCCTTTAACTGGGCAAATTTCGCCACGCCAATTCCATG -AACGCCACTAAATTGTTCATATTCAGAGGTTAACAAGCCATAAAGAGAGCCGAAATTCTCCAGCATCTCTTTTGC -CAGGGTTAATACATCTTTACCGCGCGTTCCGGTACGCAGAAATAGCGCCAGCAGCTCGACATCCGTTAAGGCGCT -AATACCAAACTTCAGCATTTTTTCGCGCGGCATCAACAGCTGTGAATTGTTTTTCACCTTCACCTCCTTTGTGGT -GCTCGCATCCTGTCATAGCCGTTTCGTTAAATCGACGGCCAGTTTTCAATCCTGGAAAGCGCCTCGCAAAGTGAA -TCTCAGGTGAAGGCACGACAACAAAAGTATTGTGATAAAATCGCCAACTTCTGGTGTCACCCTACAGGAAAAATC -ATCATGAGCCTGGCCGGTAAAAAAATCGTTCTCGGCGTTAGCGGCGGTATTGCTGCCTATAAAACCCCTGAACTG -GTGCGTCGTTTGCGCGATCGCGGGGCCGACGTCCGCGTAGCCATGACCGAAGCGGCAAAAGCCTTTATCACCCCA -CTTAGCTTGCAGGCGGTTTCTGGTTATCCCGTTTCCGACAGTCTGCTGGACCCGGCAGCCGAAGCCGCTATGGGC -CATATTGAGCTGGGTAAATGGGCTGATTTAGTGATTCTCGCCCCTGCCACGGCAGATTTGATTGCCCGTGTTGCT -GCCGGAATGGCGAATGACCTGGTATCGACGATTTGTCTGGCTACACCTGCGCCTGTAGCCGTGCTCCCCGCCATG -AACCAGCAGATGTACCGTGCCGCTGCCACGCAGCATAATTTAGAGGTGCTTGCTTCCCGTGGTTTGCTCATCTGG -GGGCCAGACAGTGGCAGTCAGGCTTGTGGTGATATCGGTCCTGGGCGAATGCTCGATCCGTTAACCATTGTGGAT -ATGGCGGTAGCGCATTTTTCGCCCGTCAACGACCTGAAACATCTGAACATTATGATTACCGCCGGCCCGACGCGT -GAACCGCTCGATCCGGTGCGTTATATCTCTAATCACAGCTCCGGCAAGATGGGTTTTGCTATCGCCGCCGCCGCT -GCCCGTCGTGGCGCGAACGTCACGCTGGTATCAGGTCCGGTTTCACTACCGACGCCACCGTTTGTTAAACGTGTT -GATGTGATGACCGCGCTGGAAATGGAAGCCGCCGTGAATGCTTCTGTACAGCAGCAAAATATTTTTATCGGCTGC -GCCGCCGTGGCGGATTATCGCGCAGCTACCGTGGCCCCAGAGAAAATCAAAAAGCAGGCCACGCAGGGTGATGAA -TTAACAATAAAAATGGTTAAAAACCCCGATATCGTCGCAGGCGTTGCCGCACTAAAAGACCATCGACCCTACGTC -GTTGGATTTGCCGCCGAAACAAATAATGTGGAAGAATACGCCCGGCAAAAACGTATCCGTAAAAACCTTGATCTG -ATCTGCGCGAACGATGTTTCCCAGCCAACTCAAGGATTTAACAGCGACAACAACGCATTACACCTTTTCTGGCAG -GACGGAGATAAAGTCTTACCGCTTGAGCGCAAAGAGCTCCTTGGCCAATTATTACTCGACGAGATCGTGACCCGT -TATGATGAAAAAAATCGACGTTAAGATTCTGGACCCGCGCGTTGGGAAGGAATTTCCGCTCCCGACTTATGCCAC -CTCTGGCTCTGCCGGACTTGACCTGCGTGCCTGTCTCAACGACGCCGTAGAACTGGCTCCGGGTGACACTACGCT -GGTTCCGACCGGGCTGGCGATTCATATTGCCGATCCTTCACTGGCGGCAATGATGCTGCCGCGCTCCGGATTGGG -ACATAAGCACGGTATCGTGCTTGGTAACCTGGTAGGATTGATCGATTCTGACTATCAGGGCCAGTTGATGATTTC -CGTGTGGAACCGTGGTCAGGACAGCTTCACCATTCAACCTGGCGAACGCATCGCCCAGATGATTTTTGTTCCGGT -AGTACAGGCTGAATTTAATCTGGTGGAAGATTTCGACGCCACCGACCGCGGTGAAGGCGGCTTTGGTCACTCTGG -TCGTCAGTAACACATACGCATCCGAATAACGTCATAACATAGCCGCAAACATTTCGTTTGCGGTCATAGCGTGGG -TGCCGCCTGGCAAGTGCTTATTTTCAGGGGTATTTTGTAACATGGCAGAAAAACAAACTGCGAAAAGGAACCGTC -GCGAGGAAATACTTCAGTCTCTGGCGCTGATGCTGGAATCCAGCGATGGAAGCCAACGTATCACGACGGCAAAAC -TGGCCGCCTCTGTCGGCGTTTCCGAAGCGGCACTGTATCGCCACTTCCCCAGTAAGACCCGCATGTTCGATAGCC -TGATTGAGTTTATCGAAGATAGCCTGATTACTCGCATCAACCTGATTCTGAAAGATGAGAAAGACACCACAGCGC -GCCTGCGTCTGATTGTGTTGCTGCTTCTCGGTTTTGGTGAGCGTAATCCTGGCCTGACCCGCATCCTCACTGGTC -ATGCGCTAATGTTTGAACAGGATCGCCTGCAAGGGCGCATCAACCAGCTGTTCGAGCGTATTGAAGCGCAGCTGC -GCCAGGTATTGCGTGAAAAGAGAATGCGTGAGGGTGAAGGTTACACCACCGATGAAACCCTGCTGGCAAGCCAGA -TCCTGGCCTTCTGTGAAGGTATGCTGTCACGTTTTGTCCGCAGCGAATTTAAATACCGCCCGACGGATGATTTTG -ACGCCCGCTGGCCGCTAATTGCGGCACAGTTGCAGTAATATGACGCCGGATGACTTTTCATCCGGCGAGTTTCTT -TAAACGCCAAACTCTTCGCGATAGGCCTTAACCGCCGCCAGATGTTCCGCCATTTCCGGCTTCTCTTCCAGGTAA -GCAATCAGGTCTTTCAGGGTGATGATAGAGATCACTTTGCAGTTGTAATCACGCTCAACTTCCTGAATCGCCGAA -ATCTCGCCGCGCCCGCGTTCCTGACGATCGAGCGAAATCAACACGCCAGCAAGCGTCGCGCCATTGGCCTGAATA -ATCTCCATCGACTCGCGAATCGCCGTTCCGGCGGTGATCACATCATCTACCAGCATTACGCGTCCTTGTAACGCG -CTACCAACCAGATTGCCGCCTTCACCGTGGTCTTTTGCTTCTTTGCGGTTAAAGCAGTACGGCAGGTCCAGGTCG -TGATGCTCCGCCAGTGCCACAGCGGTTGTGGTGGCAATCGGGATCCCTTTGTAAGCAGGGCCAAACAGCAGATCG -AACTCAATGCCGGAATCCACCAACGCTTCAGCGTAAAAACGGCCTAACAGTGCCAGATCGCGCCCGGTATTAAAC -AGCCCGGCGTTGAAGAAATAGGGGCTTTTGCGCCCGGATTTCAGCGTAAACTCGCCAAACTTTAACACCTGCTTG -CTAAGCGCAAATTCAATAAACTGGCGCTGATATGGTTTCATGCCTTCGCTCCTCATCTTACTTTTCTACAGACAA -AAAAAAGGCGACTCATCAGTCGCCTTAAAAATCAGTTTGCCAGCGCCGCCTTCTGCGTCGCTACAATGGATTCGA -TTCCCCTCGGGCCAGAGCCAACAAGATGAGTAGCTCTTCATGGGTGAACGGCTCGCCTTCTGCCGTCCCCTGCAC -TTCAATGATGCGCCCGTCTTCGGTCATCACTACGTTCATGTCGGTCTCTGCGGCAGAGTCTTCAACGTATTCCAG -ATCGCAAACCGCTTCGCCGTTCACAATTCCGACAGAAACTGCGGCTACCATCCCTTTCATCGGATTGGTTTTCAG -CTTGCCGTTTTCCACCAGCTTCTGTAGCGCATCTACCAGCGCCACGCAGGCACCCGTAATCGACGCGGTACGCGT -GCCACCATCAGCCTGAAGCACGTCGCAGTCCAGCGTAATGGTGAACTCACCCAGCGCTTTCAAATCTACTGCCGC -GCGAAGAGCACGGGCGATCAGACGCTGGATTTCCATTGTGCGTCCACCCTGCTTACCTTTCGCCGCTTCACGAGC -GTTACGGGTGTGGGTAGAACGTGGCAGCATGCCGTACTCTGCGGTGATCCAGCCCTGGCCCTGACCTTTCAGGAA -GCGCGGCACGCCTTCTTCAATAGAGGCGGTACACAACACTTTGGTATCGCCAAATTCGACCAGCACCGAGCCTTC -TGCATGTTTTGTATAGTTACGAGTCAGGGTAACGGGACGCACCTGATTATTGCTACGGCCTGCTGGACGCATATT -GAAATCTCCGGCTTGAAACAAATGTGGCTGCGCATTATACGGACTTCCGGCGGTTATTCCTATCCTGACAAGGCA -TCGATGGCTATAATCCTTCCACCTCTCCTTTTATAAACAGGAACGTCTATGATCCGCAGTATGACCGCCTACGCC -CGGCGTGAAATCAAGGGTGAATGGGGGAGCGCAACCTGGGAAATGCGCTCGGTAAACCAGCGTTATCTGGAAACT -TACTTTCGTCTGCCGGAGCAGTTCCGTAGCCTTGAACCTGTCGTTCGCGAGCGTATTCGTTCTCGCCTGACGCGC -GGTAAAGTGGAATGTACCCTGCGCTATGAGCCAGATGTTAGCGCGCAAGGTGAGCTGATCCTCAACGAAAAACTG -GCTAAACAGCTGGTAACTGCCGCGAACTGGGTAAAAATGCAGAGTGACGAAGGGGAAATCAACCCGGTTGATATT -CTACGCTGGCCGGGCGTGATGGCAGCCCAGGAGCAGGATCTTGACGCCATTGCCGCTGAAATTCTCGCGGCGCTG -GATGGTACGCTGGACGACTTTATTGTCGCGCGCGAAACCGAAGGTCAGGCACTGAAAGCATTGATCGAGCAGCGT -CTGGAAGGCGTCACCGCCGAAGTGGTCAAAGTCCGCTCCCATATGCCGGAAATCCTGCAATGGCAGCGTGAGCGT -CTGGTCGCGAAGCTGGAAGATGCTCAGGTGCAACTGGAAAACAACCGTCTGGAGCAGGAACTGGTTCTGCTGGCA -CAACGAATTGACGTTGCCGAAGAACTGGATCGCCTCGAAGCGCATGTCAAAGAGACCTACAACATTCTGAAGAAA -AAAGAAGCGGTTGGTCGTCGTCTGGATTTTATGATGCAGGAGTTCAACCGCGAGTCGAACACTCTTGCGTCGAAG -TCTATCAATGCCGAAGTGACAAACTCCGCCATCGAGCTGAAAGTGTTGATTGAGCAGATGCGCGAGCAGATTCAG -AACATCGAATAACTCGTAACGCCAATTCTTACTTTTCCGCCTTCACAAATGCCGCCACTCAAACAGAGCGGCATT -TTTCTTCCCCGCAACATTCAATTCTGTTTTGCGTGCCTGCTCCAGATTTTGCGATGTTTTTTTGCCCAGCACACT -GAGAACGTGAGATACTCACAACTGTATATAAATACAGTTACAGATTTACTTTCTTTGCAATTGATATCACATGGA -GTGGGCAATGAACGAACATCATCAACCTTTTGAAGAGATAAAACTGATTAATGCAAACGGAGCAGAACAATGGTC -AGCAAGACAACTTGGGAAACTACTGGGTTATTCAGAGTATCGTCACTTTATACCTGTATTAACGCGCGCCAAAGA -AGCCTGTGAGAACAGTGGTCACACAATTGATGACCATTTCGAGGAGATCCTCGATATGGTCAAAATTGGCTCAAA -TGCCAAAAGAGCATTAAAAGACATCGTACTCTCCCGCTATGCCTGTTACCTGGTAGTACAAAACGGCGACCCTGC -GAAACCGGTCATTGCGGCAGGGCAGACTTATTTTGCTATCCAGACCCGACGGCAGGAGCTTGCTGACGATGAAGC -ATTTAAGCAACTTCGTGAAGACGAAAAGCGTCTGTTTCTGAGAAATGAGTTGAAAGAACATAACAAACAATTGGT -TGAGGCAGCACAGCAAGCTGGGGTAGCGACAGCTACTGATTTCGCCATATTTCAGAATCATGGTTACCAGGGGCT -GTATGGTGGATTAGATCAGAAAGCTATTCATCAGCGGAAGGGGCTGAAAAAGAATCAGAAGATCCTGGATCATAT -GGGTTCAACAGAACTGGCGGCTAATCTCTTTCGAGCTACCCAAACAGAAGAAAAACTCAAGCGGGATGGCGTGAA -TTCAAAACAGCAAGCAAACACCACACACTTTGACGTGGGTCGCAAGGTGAGGCAAACCATTCAGGAACTTGGCGG -AACCATGCCTGAGGAGTTGCCGACCCCGCAGGTCAGCATCAAGCAGTTGGAAAACAGTGTAAAAATTACAGAGAA -GAAATAGCAGAAACTAAAAACTCTTTTTGTTGATTGAGACACCCGATGCGTAAGCCAAGGTCCAGGTGCAGTGAA -CACAATGGCTAAATATTGCACCTTTCTTTTCCCCCTCAGTTTTAACCTATTTTTTCTTATGCATTTTCTCAGACA -AGAAGTCAGAAGAATGCATCTCTGCTACAGAAAATAGCGATTTCACATAACTACAAGTTATCAATTTCCCCTCCC -CTTAAAAAATCTCAATCGTGACAATGCGCACAAATCGCTACCCTGCCAGACAGATTTTTAGGGAGAGAACCATGC -TGTTACACATTTTGTATTTGGTTGGCATTACTGCCGAAGCCATGACGGGGGCGCTGGCGGCCGGACGACGGCGCA -TGGATACATTTGGCGTAATTATTATTGCGACCGCCACCGCAATTGGCGGAGGGTCAGTGCGCGATATTCTGCTGG -GCCACTATCCGCTCGGCTGGGTCAAACACCCGGAATATGTGATTATCGTCGCTACCGCCGCAGTACTCACCACTA -TCGTTGCTCCTGTAATGCCTTACCTGCGCAAAGTGTTTCTGGTGCTCGATGCGCTCGGACTGGTGGTCTTTTCTA -TCATCGGGGCACAGGTTGCACTGGATATGGGGCACGGCCCAATTATTGCCGTTGTCGCGGCGGTAACCACCGGCG -TGTTTGGCGGCGTTTTGCGCGATATGTTCTGTAAACGTATCCCACTGGTATTCCAGAAAGAGTTGTATGCCGGTG -TCTCATTTGCCTCCGCCGTGCTGTACATCGCGCTGCAACACTATGTTTCTAACCATGATGTGGTAATTATCTCCA -CCCTGGTATTCGGCTTTTTTGCCCGCTTACTGGCGCTACGCCTTAAGCTGGGATTACCGGTCTTTTACTACAGCC -ACGAAGGACACTAAGGTTCAAAACCTGTGATCTGCTGGGCAGCCAGCCAACTGCCCAGCTTCTTGATTTGCGCAT -TTTCCTTCCATTCAATAACCTGTCTGGCGCGTCCCGATCCAGTCCCCGGCAGCTGCTGCCAGAACTGCTCCGTGC -TAAATAAAAGTTGCGACCAGGACCGTTCATCACTGGCATTAAGCGCCGCCCGGGTTAGCGGTATTCCCATTGCCA -TCACCCAGCGAGTAAAAGGCTGCTTACGAGCCAGATTAAACTGATGCCATAGCTGCGCACTTTTACTTTTCGCGA -TCCCCGGCGTGTTCTGTAATTGCTCTGGCGTTAATAAAAGCCAGGAAAAGATATGTTCAAAGCGATGAGTCTGAT -GCAGCGCGCGCCAACCGGCCTCACCAATGCCATCCAGCCCAAGAACCTGTTTTGCCCCCAGCCAGACTAAGCGTG -AAATGAACTGTTCCTGACAAACATCAGAAGCAAAGTAGCAGGTCAACGAGTTAAAGCGGTTTTCTGGCGGTGTCG -GTTTTGTACGTTCTGCACCGCGCCACACCACATCATCAATGCGAGGAATACCCTGACCGGCAAGGCTGACGAGAA -TCTGATCACCAGGCGCAATATCCCACTCCTGCCAGCGCCTGACGGAACCAATATTCACCCGCTGGACTTTTTTAT -CATCCAGCATGACAGGTGCGAGTGACGCAACCACCGATATTTTACCGCTCTTACCCACCGCAAACTGAATTGCCT -TCACTTCGGCAACCTGAGCTACAGGTTGATATTTCCAGGCCACCAGCCACTCTGCCTGGCCCGGTAGCCAATGGC -GGGATTCTGGCTCTTTCGCCGCTCGTACAACTACGCCATCGGTGACGAAGGGTAATTCCGCTTTCCACCACTCAT -TGCGTACGCGCGCAACTTCATCAGCATTTTTCACCGCACGGGTATACGTCTGCGTTAGAGTAAAACCTGCGGTAG -CCAGCTCTTTTAAACGATCAGACATTAACTGCGGTCCATCCGGCCATGCCCAGACAAAAACGCCCAGAGAATTCA -GCGTGTCGCTATCGTCCTGGCGCATCATCAAGCCAGCAACTTTTGCGCGGGCATTTATTCCCCCCATTTGTTGTT -GGATATGCCCCTCGCGCTGGAGAAATATTTCCCCCTGAAGCGTACTGTTGGCTAAAGGCCCGCTAACGGTTTGCG -GCACAGCGGAAATTAAGCTAACTTTCTGCGTCCAGTCCTCGCCTTTCAGGCCATTACCGCGACTGATTGCTTTGT -TCAGTTTCCCGTCCCGATAAACCAGGGTTACCGCAACGCCATCAACTTTTGGCTGCACCCAAAGATCGCTACGTT -CTCGCATCCACAGACTTAATGCGTTTTTATCCACCATTTTGCGTACACCCGTATGGGCAACCGGATGCATAACCG -CACCATTTAAAGGCGGCATCATCACGTCGCGGGGCTCGCTCCCAAAGCAGCGTTGCCACTGCGTAAGACGGGCGC -TTAACTGATCGTAAACACCGTCTTCCACCTCACTTTTTCCTTCCTTCCAGTAGTCATCGTCCCACTGTTTTATTT -GCTGTTGCAGGCGGGAAATTTCTTCCTGTGCTCTGGCTGGCGACCAGGCCGGACAGACCGCCCACACAGATGATT -GCCAGCACAAGATACCTATTAATATCGCCATCCATACTTTCATCATCACCTCCGCTGTAGATAGTCAGGCAGATA -TACAACGTGATGAAAGCAAAGCCGAGTGGCAAAAACGGAGTCTGCGAGGACGCTTCCTGAAAATCGTCTTTATTG -CAGTGAATGACAGGCAAATGCGGAAGCAGCTACGCAAAACGCAACAACTTTGCGCAAAAAGTGTGAGCAAGGGCT -ACGTCACATGGCCGCGCCGTGTATAATAAGCTCGTATGTAGGCTTTATTTCGCTAATCACATACGAAAGATACTC -ATGGCTCAAGGCACGCTTTATATTGTTTCTGCCCCCAGTGGCGCGGGTAAATCCAGCCTGATTCAGGCTTTATTA -AAAACCCAACCGTTGTATGACACCCAGGTTTCTGTTTCACACACCACACGCCAACCGCGTCCTGGTGAAGTCCAC -GGTGAACATTATTTCTTTGTTAATCATGATGAATTTAAAGAAATGATTAGCAGAGATGCGTTCCTCGAACACGCA -GAAGTTTTTGGTAATTACTATGGCACTTCGCGTGAGGCCATTGAGCAAGTACTGGCGACCGGTGTCGATGTTTTT -CTCGATATCGACTGGCAGGGCGCGCAGCAAATTCGCCAGAAGATGCCGCACGCGCGGAGTATCTTTATTTTACCG -CCGTCCAAAATTGAACTGGACCGCCGTCTACGCGGTCGCGGTCAGGACAGCGAAGAGGTCATTGCAAAGCGTATG -GCGCAAGCTGTTGCAGAAATGAGCCATTACGCCGAATATGATTATCTGATTGTGAATGATGACTTCGATACCGCG -TTGACCGATTTGAAGACCATTATTCGCGCCGAACGTCTGCGCATGAGCCGCCAAAAGCAGCGTCATGACGCTTTA -ATCAGCAAATTGTTGGCAGACTGAACCTGATTTCAGTATCATGCCCAGTCATTTCTTCACCTGTGGAGCTTTTTA -AGTATGGCACGCGTAACTGTTCAGGACGCTGTAGAGAAAATTGGTAACCGTTTTGACCTGGTACTGGTCGCCGCG -CGTCGCGCTCGTCAGATGCAGGTAGGCGGAAAGGATCCGCTGGTACCGGAAGAAAACGATAAAACCACTGTAATC -GCGCTGCGCGAAATCGAAGAAGGTCTGATCAACAACCAGATCCTCGACGTTCGCGAACGCCAGGAACAGCAAGAG -CAGGAAGCCGCTGAATTACAAGCCGTTACCGCTATTGCTGAAGGTCGTCGTTAATCACAAAGCGGGTCGCCCTTG -TATCTGTTTGAAAGCCTGAATCAACTGATTCAAACCTACCTGCCGGAAGACCAAATCAAGCGTCTGCGGCAGGCG -TATCTCGTTGCACGTGATGCTCACGAGGGGCAAACACGTTCAAGCGGTGAACCCTATATCACGCACCCGGTAGCG -GTTGCCTGCATTCTGGCCGAGATGAAACTCGACTATGAAACGCTGATGGCGGCGCTGCTGCATGACGTGATTGAA -GATACTCCCGCCACCTACCAGGATATGGAACAGCTTTTTGGTAAAAGCGTCGCCGAGCTGGTAGAGGGGGTGTCG -AAACTTGATAAACTCAAGTTCCGCGATAAGAAAGAGGCGCAGGCCGAAAACTTTCGCAAGATGATTATGGCGATG -GTGCAGGATATCCGCGTCATCCTCATCAAACTTGCCGACCGTACCCACAACATGCGCACGCTGGGCTCACTTCGC -CCGGACAAACGTCGCCGCATCGCCCGTGAAACTCTCGAAATTTATAGCCCGCTGGCGCACCGTTTAGGTATCCAC -CACATTAAAACCGAACTCGAAGAGCTGGGTTTTGAGGCGCTGTATCCCAACCGTTATCGCGTAATCAAAGAAGTG -GTGAAAGCCGCGCGCGGCAACCGTAAAGAGATGATCCAGAAGATTCTTTCTGAAATCGAAGGGCGTTTGCAGGAA -GCGGGAATACCGTGCCGCGTCAGTGGTCGCGAGAAGCATCTTTATTCGATTTACTGCAAAATGGTGCTCAAAGAG -CAGCGTTTTCACTCGATCATGGACATCTACGCTTTCCGCGTGATCGTCAATGATTCTGACACCTGTTATCGCGTG -CTGGGCCAGATGCACAGCCTGTACAAGCCGCGTCCGGGCCGCGTGAAAGACTATATCGCCATTCCAAAAGCGAAC -GGCTATCAGTCTTTGCACACCTCGATGATCGGCCCGCACGGTGTGCCGGTTGAGGTCCAGATCCGTACCGAAGAT -ATGGACCAGATGGCGGAGATGGGTGTTGCCGCGCACTGGGCTTATAAAGAGCACGGCGAAACCAGTACTACCGCA -CAAATCCGCGCCCAGCGCTGGATGCAAAGCCTGCTGGAGCTGCAACAGAGCGCCGGTAGTTCGTTTGAATTTATC -GAGAGCGTTAAATCCGATCTCTTCCCGGATGAGATTTACGTTTTCACACCGGAAGGGCGCATTGTCGAGCTGCCT -GCCGGTGCAACGCCCGTCGACTTCGCTTATGCAGTGCATACCGATATCGGTCATGCCTGCGTGGGCGCACGCGTT -GACCGCCAGCCTTACCCGCTGTCGCAGCCGCTTACCAGCGGTCAAACCGTTGAAATCATTACCGCTCCGGGCGCT -CGCCCGAATGCCGCTTGGCTGAACTTTGTCGTTAGCTCGAAAGCGCGCGCCAAAATTCGTCAGTTGCTGAAAAAC -CTCAAGCGTGATGATTCTGTAAGCCTGGGCCGTCGTCTGCTCAACCATGCTTTGGGTGGTAGCCGTAAGCTGAAT -GAAATCCCGCAGGAAAATATTCAGCGCGAGCTGGATCGCATGAAGCTGGCAACGCTTGACGATCTGCTGGCAGAA -ATCGGACTTGGTAACGCAATGAGCGTGGTGGTCGCGAAAAATCTGCAACATGGGGACGCCTCCATTCCACCGGCA -ACCCAAAGCCACGGACATCTGCCCATTAAAGGTGCCGATGGCGTGCTGATCACCTTTGCGAAATGCTGCCGCCCT -ATTCCTGGCGACCCGATTATCGCCCACGTCAGCCCCGGTAAAGGTCTGGTGATCCACCATGAATCCTGCCGTAAT -ATCCGTGGCTACCAGAAAGAGCCAGAGAAGTTTATGGCTGTGGAATGGGATAAAGAGACGGCGCAGGAGTTCATC -ACCGAAATCAAGGTGGAGATGTTCAATCATCAGGGTGCGCTGGCAAACCTGACGGCGGCAATTAACACCACGACT -TCGAATATTCAAAGTTTGAATACGGAAGAGAAAGATGGTCGCGTCTACAGCGCCTTTATTCGTCTGACCGCTCGT -GACCGTGTGCATCTGGCGAATATCATGCGCAAAATCCGCGTGATGCCAGACGTGATTAAAGTCACCCGAAACCGA -AATTAATGTTTTATGAACCCAACACGTTATGCACGCATCTGCGAAATGCTCGCCAGGCGGCAGCCTGATCTGACC -GTCTGCATGGAGCAGGTCCACAAACCTCATAACGTTTCTGCGATTATTCGTACCGCAGATGCCGTTGGCGTACAT -GAAGTTCACGCCGTCTGGCCTGGTAGCCGCATGCGCACCATGGCTTCGGCAGCGGCGGGTAGTAACAGCTGGGTA -CAGGTGAAAACACACCGCACCATTGGCGATGCCGTCGCTCATCTCAAAGGCCAGGGCATGCAGATTCTGGCAACC -CATCTTTCTGATAACGCTGTCGATTTCCGCGAAATTGATTACACTCGCCCGACCTGCATTTTGATGGGACAGGAG -AAAACGGGCATCACGCAGGAAGCATTGGCCCTGGCGGATCAGGACATCATCATTCCGATGATCGGCATGGTGCAG -TCGCTGAATGTTTCCGTTGCCTCAGCCCTCATTCTTTACGAAGCCCAGCGTCAGCGGCAAAATGCAGGCATGTAC -CTGCGTGAAAACAGCATGTTGCCGGAAGCAGAGCAACAACGCCTGTTGTTTGAAGGCGGCTATCCGGTGCTGGCG -AAAGTCGCAAAACGCAAAGGCCTGCCTTATCCCCACGTCAATCAGCAAGGCGAGATCGAAGCTGATGCCGACTGG -TGGGCTACTATGCAGGCTGCAGGGTAAGTGCCATGAAAGGTCGCCTGTTAGATGCTGTCCCACTCAGTTCCCTAA -CGGGCGTTGGCGCAGCACTTAGTAACAAACTGGCGAAAATCAACCTGCATACCGTGCAGGATCTACTCTTACACC -TTCCCCTGCGCTACGAAGATCGCACCCATCTCTACCCCATCGGAGAACTACTGCCGGGCGTTTATGCCACGGTGG -AAGGCGAAGTGCTGAACTGCAATATCTCCTTCGGCGGTCGGCGGATGATGACCTGCCAGATCAGCGACGGTTCCG -GCATCCTCACCATGCGCTTTTTCAATTTCAGCGCGGCAATGAAAAATAGCCTGGCGGCGGGCCGCCGTGTACTGG -CTTATGGCGAAGCAAAGCGCGGTAAATATGGTGCGGAGATGATCCACCCGGAATACCGCGTGCAGGGCGATCTCA -GCACGCCAGAATTACAGGAAACGCTCACGCCGGTTTATCCAACAACGGAAGGCGTAAAGCAGGCCACGCTGCGTA -AATTAACCGACCAGGCGCTGGATCTGCTCGACACCTGCGCCATTGAAGAACTCCTGCCGCCGGAACTGTCACAAG -GAATGATGACGCTACCGGAAGCGTTGCGCACTTTGCACCGCCCGCCACCGACGCTACAGCTTAGCGATCTGGAAA -CCGGGCAGCATCCGGCGCAACGTCGTCTGATTCTGGAAGAACTGCTGGCGCACAACCTCAGCATGTTAGCCTTAC -GTGCCGGAGCACAGCGTTTTCATGCCCAGCCGCTGAGCGCCAATGACACGCTGAAAAATAAACTCCTCGCCGCCT -TACCGTTCAAGCCAACGGGCGCACAGGCACGCGTAGTGGCGGAGATCGAGCGCGATATGGCGCTGGATGTGCCGA -TGATGCGTCTGGTGCAGGGCGATGTAGGTTCCGGTAAAACGCTGGTCGCCGCCCTCGCCGCGTTGCGTGCGATTG -CCCACGGCAAACAGGTAGCATTGATGGCACCAACCGAATTACTCGCCGAGCAGCACGCCAATAACTTCCGCAACT -GGTTTGCACCGCTCGGTATCGAAGTGGGCTGGCTCGCCGGTAAGCAGAAAGGTAAAGCACGGCTGGCACAGCAGG -AAGCCATCGCCAGCGGTCAGGTGCAGATGATTGTCGGTACACACGCCATCTTCCAGGAACAGGTGCAGTTTAACG -GCCTGGCGCTGGTGATTATCGACGAACAGCATCGTTTTGGCGTGCATCAGCGTCTGGCATTGTGGGAGAAAGGCC -AGCAGCAGGGCTTCCATCCGCATCAGTTGATCATGACCGCCACGCCGATCCCCCGCACGCTGGCAATGACTGCGT -ATGCCGATCTCGATACCTCGGTGATAGATGAGCTGCCGCCAGGCCGCACGCCAGTGACTACGGTCGCTATTCCTG -ATACCCGCCGTACCGACATCATTGACCGCGTGCACCACGCCTGCATAACTGAAGGTCGTCAGGCATACTGGGTTT -GTACGTTGATTGAAGAGTCGGAATTGCTGGAAGCGCAGGCGGCGGAAGCTACCTGGGAAGAGTTGAAACTGGCGC -TACCAGAGTTGAACGTTGGCCTGGTACACGGGCGGATGAAACCTGCCGAGAAACAGGCGGTGATGGCGTCGTTTA -AACAAGGTGAGCTACACCTGCTGGTTGCCACAACCGTTATTGAAGTCGGCGTTGATGTGCCTAACGCCAGTCTGA -TGATTATCGAAAACCCGGAGCGTCTGGGTCTGGCGCAGTTACACCAGCTGCGCGGGCGCGTAGGTCGTGGCGCGG -TGGCTTCTCACTGCGTGCTGCTCTACAAAACGCCGCTTTCTAAAACGGCGCAAATTCGCCTGCAAGTGCTGCGCG -ACAGTAACGACGGTTTTGTGATTGCGCAAAAAGATCTGGAGATTCGCGGCCCTGGCGAATTGTTAGGCACGCGTC -AGACGGGTAATGCTGAATTTAAAGTGGCGGATTTACTGCGCGATCAGGCGATGATCCCGGAAGTTCAGCGCCTGG -CACGCCATATTCACGAACGTTACCCACAACAGGCAAAAGCCCTGATAGAACGCTGGATGCCGGAGACGGAACGTT -ACTCGAATGCGTAAAAGGCGGCAGTGAGAAGACCGCCATTTCAGGTTACCCTACCTTCCTGCCGGATGCGATTCA -TCACCCTACAAATTCAATAAATTATGAATCAATACGCAGGCTTGATAAGCGAAGCGTATCAGGCATTTGTCTTTG -TTGCGGCGGCACTTCTACCGCCGCTTCATCGGTTAACCGGCAAAAATCGGCAACATCAAATACAACTTAATTACC -AGCGCATTGACGATATCGATAAAGAACGCACCGACCATCGGCACCACCAAAAACGCCATGTGCGACGGGCCAAAG -CGTTCAGTGATCGCCTGCATGTTGGCGATTGCCGTTGGCGTTGCACCGAGGCCAAAACCACAGTGACCCGCAGCC -AGCACTGCCGCATCGTAGTTTTTGCCCATCATGCGCCAGGTAACGAAGATGGCATACAACGCCATGAAGATGGTC -TGTACCACCAGAATCGCCAGCATCGGCAGCGCCAGCGAAGCCAGCTCCCACAGTTTCAGCCCCATCAACGCCATC -GCCAGGAACAACGACAAGCTTACGTTACCCAGCACGGATACCGCACGCTCAAAGACGCGGTAAAAGCCCATTATT -GACAGACCGTTGCTCAGAATCACGCCAACAAACAGTACACAGACGAAGGTCGGCAGTTCAAAAGCAGTGCCAGCC -AAAAGTTGCGCAACAATTTTCCCCACCGTCAGGCAGATAGCAATCAGCGCGATAGTTTCAATCAGCACCAACGAG -GTGATCATGCGTCCCACATCCGGCTTTTCAAACGCCGTCGGGACTTCCTGGTCATCCGGAATACCGTTCGGCGTG -GTGGAGTGTTTCACCAGATAGCGCGCCACCGGACCGCCAATCAAGCCGCCCAGCACCAGACCGAACGTTGCACAG -GCCATCGCCACTTCCGTCGCATTGGTGAAGCCATAACGTTCAATGAACAATTTACTCCACGCAGCGCCCGTACCG -TGACCGCCGGAAAGAGTAATAGAACCGGCCAACAGCCCCATCAGCGGATCAAGCCCTAACAAGCTAGCCATACCA -ATGCCAATGGCATTTTGCATCACCAACAGACCAACAACCACAATCAAGAAGATGCCAACCACACGCCCACCGGCA -CGCAAACTGGCAATGTTGGCGTTCAGGCCAATGGTGGCGAAGAAAGCCAGCATTAACGGATCGCGCAGGGACATA -TCAAAGTTGACTTCCCAGCCCATGCTTTTTTTCAGTACTAGTAGCGCCAGCGCCACCAACAAACCACCCGCAACA -GGTTCCGGTATGGTGTATTTCTTCAAAAAGGAGACGGAATGGACCAACTTACGCCCGAGCAGCAACGTCAGCGTT -GCGGCAACAAGCGTTGCTAAAGTATCGAGATGAAACATAGTTACTCCTTTGTATCCGCATCACTCTTTCATACTC -GTCATACTTCATCGCGCAGTGGCAACTTCATGAACTATGACGGGTATCGAGTTATGCTTTCCTGGGTCAAATTCT -CAGCTGTTAATGAACAAATGGCATGGATTTTAAGCAGAAAAATACCAAAAGTTATATAAAAAAGTGCATTTATCT -CATTTAAATATTTAGATGAGGATGTGGCAAACGTTTGCTTTTCTCTTTCGGTCAGCTAAAATGCCCGCTTTGCTA -CCACGGGATTGTTTTCGATGTCTGTTTCCACCCTCGAGTCAGAAAATGCGCAACCGGTTGCGCAGACTCAAAACA -GCGAACTGATTTACCGTCTTGAAGATCGTCCGCCGCTTCCTCAAACCCTGTTTGCCGCCTGTCAGCATCTGCTGG -CGATGTTCGTTGCGGTGATCACGCCAGCGCTATTAATCTGCCAGGCGCTGGGTTTACCGGCACAAGACACGCAAC -ACATTATTAGTATGTCGCTGTTTGCCTCCGGTGTGGCATCGATTATTCAAATTAAGGCCTGGGGTCCGGTTGGCT -CCGGGCTGTTGTCTATTCAGGGCACCAGCTTCAACTTTGTTGCCCCGCTGATTATGGGCGGTACCGCGCTGAAAA -CCGGTGGTGCTGATGTTCCTACCATGATGGCGGCTTTGTTCGGCACGTTGATGCTGGCAAGTTGCACCGAGATGG -TGATCTCCCGCGTTCTGCATCTGGCGCGCCGCATTATTACGCCGCTGGTTTCTGGCGTTGTGGTGATGATTATCG -GCCTGTCGCTAATTCAGGTTGGGTTAACGTCCATTGGCGGCGGTTACGCAGCCATGAGCGATAACACCTTCGGCG -CACCGAAAAATCTGCTGCTGGCAGGCGTGGTCTTAGCCTTAATTATCCTGCTTAACCGTCAACGTAACCCTTACT -TACGCGTGGCCTCACTGGTAATTGCGATGGCGGCCGGATATGCGCTGGCGTGGTTTATGGGCATGTTGCCAGAAA -GCAACGAACCTATGACGCAAGAACTGATTATGGTGCCAACGCCGCTCTATTACGGTCTTGGCATTGAATGGAGTC -TGCTGCTGCCGCTGATGCTGGTCTTTATGATCACTTCGCTGGAAACCATTGGCGATATCACGGCGACCTCTGACG -TTTCCGAACAGCCAGTGTCCGGTCCGCTGTACATGAAACGCCTGAAAGGCGGCGTGCTGGCAAACGGCCTGAACT -CGTTTGTTTCGGCGGTGTTTAACACCTTCCCGAACTCCTGCTTCGGGCAAAACAACGGAGTGATCCAGTTGACTG -GTGTTGCCAGCCGCTATGTCGGTTTTGTCGTCGCGCTGATGTTGATCGTGCTGGGTCTGTTCCCGGCAGTGAGCG -GTTTTGTACAACACATTCCAGAACCGGTTCTGGGCGGCGCAACGCTTGTAATGTTTGGCACCATCGCCGCCTCCG -GTGTGCGTATCGTTTCTCGTGAGCCGCTGAACCGTCGGGCGATTCTGATTATCGCGCTGTCGCTGGCGGTTGGTC -TGGGCGTGTCTCAGCAGCCGCTGATTTTGCAGTTTGCCCCTGAATGGCTGAAAAACCTGCTCTCCTCCGGGATCG -CCGCGGGCGGTATTACTGCCATCGTGCTGAATCTGATTTTCCCACCAGAAAAACAGTAATTCACTGGCGGCGGTA -AGATAATTACCGCCGCAGTCTCACCTCTTTAACCATTCCCGCCTTGAGGATTGCGCGTAAATCGTGCATAACTCC -CTTATGTGCATTTCACGGGATGGAAGACCATGAAATTTATTGGGAAGCTGCTTCTCTACATTCTCATCGCTCTGT -TAGTGGCGATCGCTGGCCTCTATTTTCTTCTGCAAACCCGCTGGGGAGCAGAACATATCAGCGCATGGGTTTCCG -AGAATAGCGACTATCATCTGGCCTTCGGGGCGATGGATCACCGTTTTTCCGCGCCATCTCATATCGTGCTGGAGA -ACGTCACGTTTGGTCGTGATGGCCAGCCCGCGACCCTGGTGGCCAAAAGTGTCGACATTGCGCTAAGCAGTCGGC -AACTGACCGAACCACGCCATGTCGATACCATCCTGCTGGAAAACGGGACGCTGAATCTCACCGACCAGACCGCGC -CGCTACCGTTCAAAGCCGATCGTCTGCAACTGCGTGATATGGCGTTTAATAGCCCGAATAGCGAATGGAAACTGA -GCGCGCAGCGGGTAAATGGCGGCGTAGTTCCGTGGTCACCAAAAGCCGGTAAAGTGCTGGGTACGAAGGCGCAGA -TTCAGTTTAGTGCCGGATCGCTTTCGCTCAATGATGTTCCTGCCACCAATGTACTGATTGAAGGCAGTATTGATA -ACGATCGCGTTACGCTGACTAACCTGGGTGCCGACATCGCCCGCGGGACATTAACCGGAAACGCGCAGCGTAACG -CCGACGGCAGCTGGCAAGTGGAAAACCTGCGCATGGCGGATATACGTCTACAAAGCGAAAAATCGCTAACCGACT -TCTTTGCGCCATTACGCTCTGTCCCGTCGTTGCAGATTGGTCGCCTGGAAGTGATCGATGCTCGTTTGCAAGGTC -CGGACTGGGCGGTGACCGACCTCGATCTCAGCTTGCGCAACATGACCTTCAGTAAAGATGACTGGCAGACACAGG -AAGGCAAACTGTCGATGAACGCTAGCGAGTTCATTTATGGTTCGCTGCATTTATTTGACCCGATTATAAACACGG -AATTTTCCCCGCAGGGCGTAGCGCTGCGCCAGTTCACCAGCCGCTGGGAAGGGGGTATGGTCAGAACGTCAGGGA -ACTGGCTGCGTGACGGGAAAACGTTGATCCTTGATGATGCGGCAATTGCCGGGCTGGAATATACCTTGCCGAAAA -ACTGGCAACAGTTGTGGATGGAAACGACACCCGGTTGGTTAAACAGCCTGCAACTGAAGAGATTTAGCGCCAGCC -GCAATCTGATCATTGATATCGACCCTGACTTCCCGTGGCAGCTCACCGCGCTCGATGGTTACGGTGCCAACCTGA -CGCTGGTTACCGATCATAAATGGGGCGTCTGGAGTGGCTCGGCGAATCTGAATGCCGCCGCCGCGACATTCAATC -GTGTTGATGTTCGTCGCCCGTCGCTGGCGCTGACCGCCAACAGCAGCACGGTGAATATCAGCGAACTGAGTGCAT -TTACTGAAAAAGGCATTCTGGAAGCCACCGCCAGTGTTTCACAAACGCCACAACGTCAGACACATATCAGCCTGA -ATGGACGCGGTGTGCCGGTGAATATTTTGCAACAGTGGGGATGGCCTGAATTACCGTTGACTGGCGACGGCAATA -TTCAGCTTACCGCCAGTGGCGATATTCAGGCCAATGTCCCGTTGAAACCTACGGTTAGCGGGCAATTGCATGCCG -TGAACGCCGCAAAGCAGCAAGTGACTCAAACCATGAATGCTGGCATCGTTTCCAGCGGTGAAGTTACATCGACGG -AGCCGGTGCGGTAAACATCAATCTCGCCGGGTACGACTCAGACGTACCCGGCATTCCATCAATAGATTACAACGT -AATTGTCAGCGCATTCCCTTGAGGCTTCACCACCAGCCCCTGCTCACTTTCAGCCTGCGAACCGTCTTGCAGACC -ATTTACTTTCACAACATTGCGCAGGCACAGTGTCCAGTTCTTCGCCTCGCCCGCACCAGTCACAGTAATCGTGTT -GCCAGTACGTGCTGCTTTTAAAGTAAAGATCACCGATCCGTCAGCAGCGGGCACTTCACAGACGGCTTCATGCCC -GTCTTGCAGATTGAAGAGGTGGAATGCCGTGCCTTCGTGCCACACGTAATCGGGACGTTGATCGTTGTTGCCCAG -CGCCAGTAGAGTGTTATCACGCACATAAACGGGCAGACTCAGGAAGCCGTGCTGCTGTTTATGCCAGCGACTACC -GTCGAGTTCATCGTTGTGCCACAGGTGTGTCCAGCGACCTTCCGGCAGGTAGAACTGCACATCGCCCGCTTCAGT -GAACACCGGCGCAACCATCACGTTGTCGCCTAACATGTATTGACGGTCAAGGTAATCACAAGCCGGATCGTCCGG -GAACTCCATCATCATGGCCCGCATCATCGGCGTACCCCGCGCGTTCGCACGCGCAGCTTCACGATACAGATACGG -CATCATGCGGCATTTCAGTTGCGTGAAGAAGCGCACCACATCACAGGACTCATCATCGTAGGCCCACGGCACACG -ATAAGATTTGCTACCGTGTAAACGGCTATGGCTGGAGAGCAAACCAAACGCGCACCAGCGTTTGTAAACGTGCGC -CGGAGCGGTATTTTCAAAGCCGCCGATATCGTGGCTCCAGAAGCCAAAACCTGAAAGGCCAATAGACAAACCACC -GCGCAGGCTTTCCGCCATTGATTCGTAGTTAGCGTAACAATCGCCACCCCAGTGTACCGGGAATTTCTGCGCACC -GACGGAGGCCGAGCGGGCAAACAAGACAGCTTCTTCCTCACCAACGGTGTCCTTGAGCACGTTCCACACCAGTTC -GTTGTAGATGTACGCATAATGGTTATGCATTTTCTGCGGATCGGAACCGTCAAACCACTGAACATCAGTTGGGAT -ACGTTCGCCAAAGTCGGTCTTAAAGCAATCAACGCCCATCGCGACCAGACCTTTCAGTTTGTCGGCGTACCATTT -GCAGGCATCCGGATTGGTAAAGTCATAAATCGCCAGACCTGGCTGCCATTTATCCCACTGCCATAGCGAACCGTC -CGGGCGTTTGAGTAAATAGCCTTTCTCTTGTAACTCTTTAAAGACGGGGGATTTTTGACCGATATAGGGGTTAAT -CCAGACGCAGATTTTCAGTCCTTTCGCTTTCAGGCGGCGGATCATCCCTTCCGGGTCAGGGAAAGTCAGCGGGTC -CCACTCAAAATCGCACCACTGGAAGGCTTTCATCCAGAAACAGTCAAAGTGGAAAACATGCAGCGGCAGATTGCG -TTCCGCCATACCATCGATAAAGCTGTTTACCGTCGCTTCGTCGTAGTTGGTGGTAAATGAAGTGGTTAGCCACAG -GCCGAAGGACCACGCGGGCGGCAGCGCCGGACGACCAGTAAAGCGGGTATAACGATCAAGTACCGCTTTCGGCGT -CGGGCCGTCGATAACAAAGTATTCGAGATATTCACTCTCAACGCTGAACTGCACTTTGGAGACTTTCTCCGATCC -CACTTCAAAAGAGACACACTGGGGATGATTGACCAGTACCCCATAACCACGGTTAGTCATGTAGAACGGGATATT -TTTATACGCCTGTTCAGTACTTGTGCCGCCGTCCCGGTTCCAGGTCTCTACCGTCTGGCCATTGCGCACCAGGGC -AGTAAAGCGCTCTCCCAGACCGTAAACTGTTTCGCCAACGCCAAGATCAAGCCGCTCAAACATATAATTGCGTTG -ATTATTCGTGTCCTGCACGTAGCCATTATTTTTCACCTGACTACCGGTAATACGTTCGCCGTTGCGCAGAAAATC -CAGTGACCAGAACTCACCTTTGCTGACACGCGCGCTTAAGTTGCCACTTTTAAACTCAGCATAACGTTCTGTGTT -TTCGATTGTGACCTTCACGTCCTGCAAAATATTGAGCGGATAATGAGGACCGTTATTCAGCGCCCCCTGAAAATG -CTCAATCCGCACACCGACAATACCTTCCTGTGGGGAGAAAAAGCGCAACGTAAATAAAGGCGTATCAAGCTGCCA -GGTACGTTCACGCACATCACGGGGGGCAGCATAGACCACCATTTCATTATCCTGCTGTTCAACCTCGAACACCTG -AAGCGGGTGAATCAAATTGAGGCCAGGTTGAATCAACCAGTTTCCATCGCTAATTTTCATTGCCGTTCCTTAGTT -CTGCACTTCTTGAGAGGTGAATTGTTGCTGGCAACGGCGTTTACCCTGAGCCAGCTGTTCCATAACGGTTTTCAG -ATTGTGCGTCGTGAGTGAGTAGTAGCGTTTAGCGATAATCGCGCTCAGCAAATAACAGATCGCCGGAACAATCGT -GAATAGCGCAATAATGATGCTAATCGTGGCGCTGTTCTGCGCTTTTTCTGCCGCATCATATCCGCCATAAGCCAG -CATCCAGCCGATAAGAGCGCCGCCGAAGGCCAACCCCAGTTTGAGCACAAACAGCGTGCCAGCAAAACTGATCCC -GGTCAGGCGTTTACCATTGCACCACTCGCCGTAGTCGACGGTATCGGACATCATTACCCACTGGATAGGTGTCAC -CAGTTGATGCAACACACCAATCACGAAGATGAAGACAAACATAGTGATGCTGGCCTGCATGGGAACAAAGAACAT -CGCGAGGCTAATCACTGCCAGCAGGGCGTTCGTCCACCAGAAGATAGTGACTTTACATTTCCAGTCGGTCAGAGG -TTTTGCCAGTGCGGAACCAATCAGGTTACCCACGCAATAAGTGGTGAGAAAAGCGACAAACACTTCCGGCGTGCC -CAAAATCCATGTGACGTAATACATCATCGCCCCACCGCGTACGCACACCGCCAGGATATTGAAAATGGTTAGTAA -ACCGACAATCCGCCACTGGTCGTTTTGCCAGATATCACGTAAATCTTCCCGCATAGACGTTGTTGTAGGTGGTGC -TTCAACGCGTTCTTTAGTGGTGAAGAAACAAAATGCCAGCATCATGAATGCCACCACGGAAAGGACCGCGATACC -GCCCTGGAAACCGAGTGGTTTATTATCACCGCCAATTAAATTAACCAGTGGCATCATCAGAACAGTAGAAAGCAT -GCCTCCCGCGGTCGCCAGCACAAAACGCCAGGATTGCAGCGAGATACGCTGAGTCGGGTCATTGGTGATTACACC -ACCCAATGCGCAGTAAGGGATATTGACGACGGTATAAAGTAAGGTAAGTAGGGTGTAAGTAATTGCTGCATAGAT -CATTTTGCCGTTCATACTGAGATCTGGCGTGCTATAGGCCAGTACACAGACGATCCCGAATGGCAGTGCGCCAAA -CAGTACCCACGGACGAAATTTACCCCAGCGAGAGCGCGTTCGATCGGCCAACAACCCCATGCAAGGATCGGAAAT -CGCATCCAGTGCACGAGCGACCAAAAACATGGTTCCGACAAAACCGGCAGGAATGCCAAAAATATCGGTATAAAA -GAACATCATATATAACATTACGTTATCGAAAATAATGTGGCTGGCGGCGTCTCCCATGCCATAACCAATTTTCTC -TTTAACGGACAACACTTCACTCTTCATCTGCTTTTCCTTGATGCTATAGGGGTGCTGAGACCGATAACGCATTTT -GTAAACCATCCCTGTGAGAGCGAATATTCCGATATCTGGTTATTAATTTATGATTCTTGTTTTATGTGATCGTGG -TAGCGTTAATTCCGCTCATATATCATTGTAAAATATGGGTTTTATATGAACTATAATGCTTTCGTGATAATACGC -TGCGTGTATTAGGCGGAAAAAACTGATCTGGGGGATGTAGAAACTCAAGGAAGTAGCTATAATGCGCCCCGCCTC -CATGTAGCAATCGAGGCGCGGAAGATCGTCGTCTCCGGTGAGGCGGCTGGACTTCAAATCCAGTTGGGGCCGCCA -GCGGTCCCGGGCAGGTTCGACTCCTGTGATCTTCCGCCAAAATGCCTCTCCTGACGTTCTCCAACCCCTTGTAAT -ACTGTCAATCCAGATATTTTCTACTGCTCAATATTCAATCGGCTTCAGGAATACCTGGTCTAAGGTTTTGTGATG -GACGATGAGCGGCTGAAGAATCCGCCTGTCGGTTCTTCTGTCCTCGAACGCATCCGCGATATTCACGCCAGTATG -CGCCGTGTTTATTTGCAGGTGATTTGCCCCCCTGCTGACTCTCAGCCAACTGTATCGCCATTAAGGTGAAGATGT -TGTTTTACTCGCCCCAGAACACCCTTTTTTATACGACTATTCTATTTCTTTAACCGCTGGCGAAAAAAACTGACT -ATAAACTTCACCAATAATCAGACTGCCATCAAGATTAATTTGTTCATTTAATATATCAAATCAACTTGTTTTATT -TTTACTATCAAAAATAGCTCATTGCCTTACTATAATTAATATATAAATTCGGTAATTAATTCTTAACATGCTTTT -ACTAATAATCTCAATTGCTGGCCCTATAATATTGCGCTAGCATTGCTTTCTGGTTGTATCAGCGATACTCAAAAA -TTCTTAATACAATACTCATTCGACTGGTACTTATTTGTAACTCAGTTATATTTTTTCGCCCGGTGATTCAGAAGA -ATGCAAAAAACGGCTACCACTCCATCAAAAATACTTGATCTCACTGCCGCGGCATTTTTACTTGTCGCCTTTCTG -ACGGGTATTGCGGGCGCTCTTCAGACTCCTACCCTAAGTATATTCCTCGCAGATGAACTGAAAGCCCGTCCTATA -ATGGTAGGTTTTTTCTTCACCGGTAGCGCTATTATGGGAATTCTGGTCAGTCAATTTCTGGCAAGGCACTCCGAT -AAACAAGGCGACCGTAAATTACTGATTCTGCTATGTTGCTTATTTGGAGTGCTGGCCTGCACGCTTTTTGCGTGG -AATCGCAACTACTTCATTCTCCTCTCAACGGGCGTACTTCTGAGTAGTTTTGCTTCCACCGCAAACCCGCAAATG -TTCGCCCTCGCCCGTGAACACGCCGACAGAACAGGCCGTGAGACGGTCATGTTCAGTACATTTTTACGTGCTCAG -ATCTCGCTTGCCTGGGTTATCGGGCCACCGCTCGCTTATGAACTGGCAATGGGATTTAGTTTTAAAGTGATGTAT -CTCACCGCTGCCATCGCATTTGTTGTTTGCGGACTGATAGTCTGGTTGTTTTTGCCATCAATACAAAGAAATATT -CCTGTCGTTACCCAACCCGTAGAAATTTTACCCTCCACCCACAGGAAGCGGGATACGCGGCTACTTTTTGTGGTC -TGTTCAATGATGTGGGCGGCGAATAATCTCTACATGATAAATATGCCGCTATTTATTATTGATGAACTGCATCTA -ACCGATAAACTGACTGGAGAAATGATTGGTATCGCTGCCGGTCTGGAAATTCCGATGATGTTAATCGCAGGCTAT -TACATGAAACGTATTGGCAAGCGACTATTAATGCTCATTGCTATCGTGAGTGGAATGTGTTTTTACGCCAGCGTA -CTCATGGCGACGACTCCGGCGGTTGAGCTGGAATTGCAAATTCTTAATGCCATCTTCCTTGGTATTCTCTGTGGT -ATCGGCATGCTTTATTTTCAGGACTTGATGCCTGAAAAAATAGGCTCTGCGACAACGTTATATGCAAATACTTCA -CGCGTCGGCTGGATTATCGCCGGCTCTGTTGACGGAATTATGGTTGAAATCTGGAGCTACCATGCGTTGTTCTGG -CTGGCGATAGGGATGTTGGGTATTGCGATGATTTGCCTGCTGTTTATTAAAGATATTTAGCTCACCAGTCTGGGC -TAAGAAAAATCGGCGTGGCGCAAACAGAGCCATCCTCGCCATTTTTGCTATCATGCCTGCATACATAAACGACAA -AACAGTATGCAGAGGGAAAAATGGGTTCCACCAGAAAGGGGATGCTGAACGTTCTGATTGCCGCCGTGTTGTGGG -GAAGTTCAGGGGTCTGCGCGCAATACATCATGGAGCAAAGCCAGATGTCGTCGCAGTTTTTGACTATGACGCGTT -TGATATTCGCCGGTTTGATTCTACTGACGCTGTCATTTGTTCATGGCGATAAAATCTTTTCTATTATTAACAATC -ATAAAGATGCCATTAGCCTGCTGATTTTTTCCGTGGTTGGCGCGCTAACTGTACAGCTCACTTTTTTGCTAACCA -TCGAAAAATCGAACGCAGCCACGGCAACGGTGCTGCAATTCCTCTCACCGACGATTATCGTCGCCTGGTTCTCAC -TGGTGCGTAAATCGCGCCCGGGCATTCTGGTTTTCTGCGCTATTTTGACATCGCTGGTCGGGACTTTTTTATTGG -TGACACACGGTAATCCGACGTCATTATCGATCTCTCCTGCCGCGTTGTTCTGGGGCATTGCCTCGGCATTTGCTG -CTGCATTCTATACCACCTATCCCTCAACGCTAATTGCCCGCTATGGCACGTTACCAGTCGTCGGCTGGAGTATGC -TGATTGGCGGTCTGATTCTGTTGCCTTTTTATGCCAGACAAGGAACAAACTTTGTCGTTAACGGCAGTTTGATTC -TGGCGTTTTTTTATTTGGTGGTCATTGGTACGTCCCTGACATTTAGTCTGTACCTGAAAGGAGCACAATTAATTG -GCGGTCCAAAAGCCAGCATTTTGAGCTGTGCAGAACCATTAAGTAGCGCGCTACTCTCTTTGCTGTTGCTGGGGA -TCACGTTCACATTACCGGACTGGCTGGGAACGCTGCTGATTCTGTCATCGGTGATTTTGATTTCAATGGATTCCC -GTCGCCGCGCCAGAAAAATAAATCGTCCGGCGCGGCATAAGTGAGAATTACCAGCCAGGCACCGCGCCACCGTTA -AAAATGGTTTCTGCCGCTTTAGCGACTTCGGGTGATTGATAAGATTGCAGAAATTCCTTCACGTTTTCTGCATTC -TTATTATCTTCCCGTGCCACCAAAATATTCACATACGGCGAATTCTTATCTTCAATAAATACGCTGTCGTGCACC -GGAGAAAGCCCGGTCTGCTGAATGTAAGTGGTGCTGATAATCGCTACATCAACTTTGGGATCATCCAGTACGCGC -GGGAGCTGCGCCCCCTCGAGTTCCATAATCTGCAAATGACGAGGATTATCGGTTATATCCAGCGCGGTAGGTAAT -AACCCTTTTCCCTCTTTCAGAGTAATTAGCTTCTCTTTTTGCAACAGTAAAAGTGCGCGACCAAGGTTGGTCGGG -TCGTTGGGGATCGCCACTGTCGCGCCTTCTTTTATTTGCGCCACGGTTTTGATTTTTTTGGAATAACCCGCCATA -GGGAAGACAAACGTATTTCCCACCGCTACCAGTTTATAACCATGCGCCTGATTATCTTGTTCAAGAAAGGGTCGA -TGCTGGAAGACATTCGCATCAAGTTCGCCATGATTTGTCGCATCGTTCGGTAGCAACGAACCGCTAAATCCTACC -AGTTCAACATCGAGGCCATATTTCTCTTTTGCCACCTTTTTAGCGACTTCCGCGACATCTTGTTCTGCGCCATTT -ATAACGCCAACTTTAATGTGTTTTGCATCGCTGCTACTCTGGTCGCAACCTGCCAGCAGAATTCCGGCCAGCAAT -AATGCGGCCCCTGTCCGTAGATGATGTGTTGTCAGTTTCATTTTTTTATCCTTTTATTAATGATTACCTGACTAT -AGCGGTAAGGTCGCTGCGGTTTAAAAAACGAAACGCTATCGATAAGAATAAAAAGGAATAAAAGTGGAATATAAA -GTCTGGCACTTCTTACTGACCACGCAAGCGCGTTTCGTACAGCATGATGAGAGCGATGAAAGCAAACTACACTTA -TGCTTCATTCGATACACATTTGTAAAAGGTTGAATCCATGAAACCAACGACACTACTGCTTATTTTCACTTTTTT -CGCTATGCCAGGCATCGTATACGCCGAGTCGCCTTTTAGCTCACTGCAGTCCGCAAAAGAGAAAACCACGGTATT -ACAAGATTTACGTAAAATTTGCACGCCACAGGCGTCATTATCAGATGAAGCGTGGGAAAAGTTAATGTTGTCAGA -TGAAAACAATAAACAACATATACGCGAGGCCATCGTGGCGATGGAACGTAATAATCAGAGCAATTATTGGGAAGC -GTTGGGTAAGGTAGAATGCCCGGATATGTAAGAACAGCAACAACTACTGACCAACGCTTCTTTACCTGATATCAG -GATTTCTTCATTTTCACCTTTGCAGTAACCAACAATGCAGTCAGCAACATCAATGTGCCGGACAACATCAACGGC -GAAGTCAGACCAATATTATCCAGCGCATAACCGCCGATTGCCGCGCCACAGGTATTAGCAAGCTGAATAACCGCC -ACCTGAATAGACCCGGCTTTTTCTGCCTGATCGGCCAGCGAGCGGGTGATCCACGTTGACCAGCCGACGGGAACC -AATGCAAAAGTTAGCCCCCAGATAATCGCCACGCCGGTAGCAACGATTTTATCGCTTCCCCACAACGTCAGTACC -AACGCACTCACAGCCAGTATTAACGGCGCGCCTGCTAAGGCCAGTTTTACCGAACGTTTAAGAATGAACGACGAA -AGCGACGTACCAATAAAGCTGGCGATACCAAAACTCAACAGCACCAGCGTTAAGCCATCCACGCCGAATCCCGCC -AGGTTCATATACACCGGGCGAATATACGTGAAGAAAGCAAACTGCCCGGCGAAAGACATGAAGATGGCGATCATC -CCTGCCATCACACCCGGACGTTGTAATAAGCGGAAAGTATTTTGTTTCTGATGCGAGGGTTCGCCTGGCAGTGAA -GGCAATGATTTGATAATCCAGAAAATACACAGCACGCCCATCACCGCCGCCGCATTAAAGACATTGCGCCAACCG -ATAAGCTCGCCTAAAAAACTGCCCAACGGCGCGGCAATCACCAGCGCAATAGAAACCGCGCCGAAGATCACCGAC -AGCGCCTTCGGCACCGTACGCGGCGGCACCAGACGCATGGTCAGCGACGCCGACATCGCCCAGAACCCGCCCAGC -GCCAGCCCCAGACAGGCACGACCGATTAAAAGCAAACTGAATGAGTTAGCAAAGGAAACCAGCAAGCAGGAGAGC -GTCAGCAAAACGGCAAACAAAATAACAACGTAGCGGCGGTCAGTAGCCTGAATTGTCTGGGTAATAAACAAACTG -GCAAACATTGCCACAAAGGCGGTCACGGTCACCGATTGCCCGGCAACCCCTTCCGAAATGCCTAAATCCTGGGCC -ATTGGCGTCAACAAACTGACGGGCAAAAACTCAACGATAATCAGACAGGCGACACAAAACGCCACCGAGAAAACG -GCTGACCAGTTCGGTCGGGTGATGGCATCCGCGCCGCGGTTTTCGGCAATAAATTCACTCATGGTGTTACCCGTG -GCATGTTTCAGGGGAAAAGCCGACCACTTTAACATTGAAATGTGTGACGCATTTAACGTTTTTGCAACTTTTACG -GTGTTGCTTGAGCTGGAGTTAAGATCGAAACGGAACAGGGCAAAGATTACCGGATGCGGCGTGAACGTCTTATCC -ACCCGACAGGTCAGGCGCGGTCTGTAGGCTGATAAGACGAAACGGTTTCAATGCAACCAGTGAACGCCCTCGGCA -GGCTGAAAGAACGCGTTATAGCGCATCTGAAAAGCATTAATATCCTGCATTTCAGGTTCGGTTTCGCGCAGAAAA -CCTAGCGCCAGCCTGACCTGAGCGTCGGTAATCGGCGCGGCGAGGCGAGCTTTTTGTAAAATCCGATGCCATTGC -AGCAGGTTCTGTTCGCTACCATCGACAATGACAATTTGCCAGATGAGCAACACCTGCGCGGCGTTTTGCAGGTGC -GACTCATCCGGACGATGCAAATAACGTAAAAATTCGTCACCAGCTGACTTTCCCATTTGATCGACCATCGACTCC -ACGGGTACGACATCGATGTTCAGCCGATCGCTGAGACGGCGAATCGCTTTTCTGGCCCCGGATGTCAGCACCCGA -AAACCAACCACAAACACTACCGCCAGCGTGGCGAGCATTATCCAGATCATGAGTTCTCCTGCGTAATCAGAACTC -ATGATATCTGGAAACCCTCGCCAGTTACTAATCCACCAGAATAATCTTCAGTGCAAACAGAGCTGCGACCACCAC -CACACACAGGTTCAGATCGCGCCAGCGCCCGGTGCATACTTTCATGATGCAGTACGACATAAAGCCGAGTGCAAT -CCCTTCGGTGATCGAGAAAGTAAAGGGCATCATCACCGTGGTAATAAACGCAGGCACCGATTCGGTAAAATCATC -CCAGTTAACGCGCGCCAGGCTCGAAGTCATCAGCACGCCAACAAAGATTAACGCTCCGGCGGTTGCGTAAGGAGG -AACTATCGCCACCAGCGGTGAGAAGAACATAACCAACAGGAACATAACGCCAACCACAACCGCAGTCAGCCCCGT -GCGGCCACCGACTGCCACACCAGAAGTACTTTCAATATAGGCAGTAACAGACGAGGTGCCGATAAACGCACCCGC -CACCGAACTGACGCTATCAACATACAGCGCCTTATTCATATTGGGGAATTTACCGTTACCATCTATTAAGCCCGC -TTTATCAGTTACACCAATTAATGTTCCTGATGAATCAAATAGGTTGATCAGCATAAAGGAGAAAATGATACCGGC -GAGTTCAAGTGTTAACGCGCCGCTCAAATCTACTTCACCAATGACGCCGCTAATATCAGGCGGAATGGAATAGAC -GCCGCTAAAATGAACATCACCGAAAAATAATCCACAGCAAGACGTCACCACAATAGAAACCAGCACCGCGGCATG -AAAATGACGTGATGACAACACGGTTATAATAAAAAACCCTAAAATACCTAACAACACGCCGTGAGAACTTAAATC -GCCAATCATCACCAGCGTGTCTTTATTGGCGACAATAACGCCAGTATTTTTTAATCCCATTAAGGCGATAAATAA -TCCAATTCCGCTGGTGATACCAATACGTAAACTTAAGGGAATGTTGGAGATCATCCAGTACCGGATACGAAACAG -CGTGAGCAAAAATAGTCCAACTGCGCCCCAGAATATTGCGCCCATCCCGGTCTGCCAGGAGATGCCCATCGCCCC -CACGACCACGAAGGCAAAGAAGGCGTTCAGCCCCATTGCCGGAGCCAGCGCCACGGGTAAGTTAGCAAATATCCC -CATCGCAATACTGCCGATACCGGCAATCAAACAGGTGGTAACAAACACCACTTTCGGGTCCATTTGTGCCGCGCC -GAGGATTTGCGGGTTCACAAAAACGATGTACACCATGGTTAAAAAAGTGGTCATCCCCGCAATCAATTCTGTGCG -GACGGTGGTCCCATGCTGAGGTAGTTTAAATAATCGCGAAAGCGTCCCTGATTCATTACTCACGTAATCGGTATT -GTCATTATTCATTTTTTTGTCCATTGGAGGAGATTTAATCCCTTGCTTTTGTAAAACAAATGACAACAACGGTTC -AGTGATAATTATCACATTTCAATTGCACATTAATGGATATTCTTTAATAATCTCGCGACGTTTCTTTATGATAAA -TAATAATCAAATTGATAAAATCAAAATGAGAAAAATATGAATAATTCTATTAACCATAAATTTCATCACATTAGC -CGGGCTGAATACCAGGAATTGTTAGCCGTTTCCCGTGGCGACGCTGTTGCCGATTATATTATTGATAATGTCTCT -ATTCTCGACCTGATCAATGGCGGAGAAATTTCCGGCCCAATTGTGATTAAAGGACGTTACATTGCCGGTGTTGGC -GCAGAATACACTGATGCTCCGGCTTTGCAGCGGATTGATGCTCGCGGCGCAACGGCGGTGCCAGGGTTTATTGAT -GCTCACCTGCATATTGAATCCAGCATGATGACGCCGGTCACTTTTGAAACCGCTACCCTGCCGCGCGGCCTGACG -ACCGTTATTTGCGACCCTCATGAAATCGTCAACGTGATGGGCGAAGCCGGATTCGCCTGGTTTGCCCGCTGTGCC -GAACAGGCAAGGCAAAACCAGTACTTACAGGTCAGCTCTTGCGTACCCGCCCTGGAAGGCTGCGATGTTAACGGT -GCCAGTTTTACCCTTGAACAGATGCTCGCCTGGCGGGACCATCCGCAGGTTACCGGCCTTGCAGAAATGATGGAC -TACCCTGGCGTAATTAGCGGGCAGAATGCGCTGCTCGATAAACTGGATGCATTTCGCCACCTGACGCTGGACGGT -CACTGCCCGGGTTTGGGTGGTAAAGAACTTAACGCCTATATTACTGCGGGTATTGAAAACTGCCACGAAAGTTAT -CAGCTGGAAGAAGGACGCCGGAAATTACAACTCGGCATGTCGTTGATGATCCGCGAAGGGTCCGCTGCCCGCAAT -CTCAACGCGCTGGCACCGTTGATCAACGAATTTAACAGCCCGCAATGCATGCTCTGTACCGATGACCGTAACCCG -TGGGAGATCGCCCATGAAGGACACATCGATGCCTTAATTCGCCGCCTGATCGAACAACACAATGTGCCGCTGCAT -GTGGCATATCGCGTCGCCAGCTGGTCGACGGCGCGCCACTTTGGTCTGAATCACCTCGGCTTACTGGCACCCGGC -AAGCAGGCCGATATCGTCCTGTTGAGCGATGCGCGTAAGGTCACGGTGCAGCAGGTACTGGTGAAAGGCGAGCCG -ATTGATGCGCAAACCTTACAGGCGGAAGAGTCGGCGAGACTGGCACAATCCGCTCCGCCATATGGCAACACCATT -GCCCGCCAGCCAGTTTCCGCCAGCGACTTTGCCCTGCAATTTACGCCCGGAAAACGCTATCGGGTCATTGACGTC -ATCCATAACGAATTGATTACGCACTCCCACTCCAGCGTCTACAGCGAAAATGGTTTTGATCGCGATGATGTGAGC -TTTATTGCCGTACTTGAGCGTTACGGGCAACGGCTGGCTCCGGCTTGTGGTTTGCTTGGCGGCTTTGGACTGAAT -GAAGGTGCGCTGGCTGCGACGGTCAGCCATGACAGCCATAATATTGTGGTGATCGGTCGCAGTGCCGAAGAGATG -GCGCTGGCGGTCAATCAGGTGATTCAGGATGGCGGCGGGCTGTGCGTGGTACGTAACGGCCAGGTACAAAGTCAT -CTGCCGTTACCCATTGCCGGGCTGATGAGCACCGACACGGCGCAGTCGCTGGCGGAACAAATTGACGCCTTGAAA -GCCGCCGCCCGTGAATGCGGTCCGTTACCCGATGAGCCGTTTATTCAGATGGCGTTTCTTTCTCTGCCAGTGATC -CCCGCGCTAAAACTAACCAGTCAGGGGCTATTTGATGGCGAGAAGTTTGCCTTCACTACGCTGGAAGTCACGGAA -TAATAAAAAAAGCCCGGCGTCATGCCGGGCAAAAGTCACCAGTTACGTTTATGCCACTGTCAACTGCTGAATTTT -TTTCTCGCGGCGGATTTTGCGTTCTTCCATTACCGCCACTATCGCCATCAGGCAGATACAACCAATCGCGGCGAT -ATCCAGCGCGGCGAAGGTGCCTGCCCAGCCGGTAAGGCCGAATACCGGCGTCCCATCGGCAATCATTCCCAGACC -TAACTTGGCAAAGCTGTCACCAATCAGGTAAGCAAAGGTGCCTTTAATACCATCGGCAGCGCCAATCGCTTTTTT -AGGTACAAAGCCAACAGCAGCCACACCAATCAACAATTGCGGGCCAAAGACCAGGAAACCCAACGCAAAGAGAGA -AGCCAGATAGATATATTCGTTACTGGCATGTTGATACACACCGAGCGTGGCGATAATCAGCGCCAGCGCGATGCA -GGCCACCAGGCCACGGCGACCGTTCGCCAGGTCAGAGAGCCAGCCCCACAGCAGCGTACCGACCAGCGCACCAGC -TTCAAACAGCGTAAAGCCCTGAATCGCCACCGCTTTAGAGAGTTTCAGTTCCTGGAACGCGTATACGGTTGACCA -CTGGTCGATACCAATACGTACCACATAGAGGAAAATGTTGGCGAAGCACAGCAGCCAGATCACTTTGTTTTTCAG -CACATACTCAACAAAGATCTGCCACTTGGTCATATCGGTAGATTCTGTCTCTTTGTCCTCTTCGCTGATCTCCTC -GCCGAACAGTTCTTCAGCTTTGCCGAGGCCATAAGATTCCGGGGAGTCGCTGCCGTAACGCAGGCCGATAAAACC -GACAATCAGCGCGATAATCGACGGGAAGATAAACATGCCGATGACATGGCCATCGAACAGGTAATTTGCCCCGAA -CAGCGCCACACCTGCTGCGCCTGCACCGCCAAGGTTGTGAGAAATATTCCAGAAACCGAGGAATGTCCCGCGTTT -ACGACGCGGCGTCCATTTGGTGATGGTGGAGTAACTGCACGAACCGCCGGTACTCTGGAAAAAGCCGCTTAAGGC -GTAGAAGGCAATCATCAGGAACAGGCTAACCGAGCCGCTGCCCATACTGGCACTGAAGCCCAGCATACAAATAGC -AGAGAGGATCAGCATGAACGGCAGGAATTGTTTGGTGTTTTTGCCGTCGGCGTAGTAGGAAACCAGCGTTTTACC -CACGCCATAAGTGATGGAGAAACCCAGGCCGATCATCCCCAGCTGCGTCATGCTCAACCCGTAGGTCGAAATCAT -ATCGTTCTGCGCGATGTTAAAGTTCTTGCGAATCAGGTACATCGTCAGGTAGCCGATAAAGACCACCAGGTAGGA -TTGCATGAACGGTTTGAACCACATTTTGCGCCGCACTTCGAGCGGAAGGTCCAGGGTCGGCTTGCGAACCTGGTT -TAAGAAAGCCAGCATGGGTTACTCCTGAAATGAATACCTGCGTGAGGCATGCATTGTAAAAATCAGCAGCAAATC -AGGCCTGAGATAGCGTCCAGGCAAAACCTGGAAAATTTCTTAGTTTTGCCGGATATGAAGTGAAAAGGTGAGATG -CATCACGCTTCGCGCGGTGTCTGGGCGTTCAAAAAGGGCAGTAACAGCAGTGCGGAAATCCCGGCGGCGATAGAG -ATAACCACAAAAAATCCGCTCCAGTGCCAGGTATCGAGTACTTTCGCCAGCGGCCAACCAGCAAGCGACGCCCCC -AGATAAGCAAACAAGCCGACAAACCCCGTCGCCGCCCCTGCCGCCTCTTTGTGGGAACACTCTGCCGCCGCCATA -CCGATTAACATCTGTGGGCCAAAGACAAAAAAACCAATGGTGAAGAAGCAGGTTGCCTGCATCACGTAGCTGGCA -AATGGCATCAGCCACAGGGAGCCGACTGAAAGCAAAATTCCGGCGGCGAAAATCAAATTCATCGGCCCTCGGTTG -CCGTTAAACAATTTGTCCGAGCCCCAACCGGCTACCAGCGCACCGATAAATCCGCCCAGTTCAAACATCGTCACT -GCCGTATTCGCCGTGACCAGATCGACGCCCAGTGTCTCGGACATATACAAATTGCCCCAGTCGTTGATCGCCGCC -CGGACCACATAGACCAGCACATAGCAAAACGAAAGCAGCCAGATATACGGATTCAGCAACACATATTTGGTGAGG -ATCTCTTTACGCGTCAACCCTGCCCCTTCTTGTTGTTGAGCAATTTCCAGCGCGTCGTGTCGCCATTCACCGACC -GCCGGTAAACCTAACGCCTGCGGGCGATCGCGTAGCCGCCAGCAGAGAAAAATCCCCACGACTATCGCCATACAA -CCAGCAATCATCATCCCGGCACGCCAGCCGTAATGCAGCGCAGCCGCTGCCATCACAATGGGAATGAGTGCGCCG -CCGACGTTATGCGCCGTGTTCCATAATGCCCACCAACCGCCGCGCTCGGTACGTGAATACCAGGCCGTTAACAGA -CGCGCACACACCGGTGAACCCCAGCCCTGGAAAAAGGCGTTCAGCACCCAGAGCACGGCAAACGCCCATAGCGAC -GTCGAGAAGCCAAACAGAATGTTGATAATGCCCGTGGCGATAAGCCCTATCCCCATAAAATAACGGGCATTTGAG -CGATCGCTGACAATGCCGGAGACAAACTTCGACACGCCATAGGTAATGTAAAACAGGGTCGCTAACAGGCCGATA -TCGCTACGGCTGAGCACGCCGTTAGCAAGGATTTCTGGTACGGCGGCGTTAAAACTTTTCCGCGTGAAGTAAAAC -AGCGCGTAACCCAGCCAGATGGTCAGCAGAATATGCCGACGCCAGTAGCGATAGCGGGCATCAATTTCATATTTA -TCAGTCATTAATGGCGCATCGGCAGGCGCTTTCAGAAACGGCAACATCATCAAACCTTAGACATAGCGTTGAGGT -AGAGAAACGCTGACACGCGTGCCGTGCAGACAGGAAATGTGTAATGTGCCACCCAGCGCCGTTACGCGCTCGCGC -ATTCCGGTGAGGCCAAAACCTTGTTGCCCGGAACCCGGCGGCAAACCGCTGCCATCGTCTTCAATAACCAGCATC -AACCGTTCATCCTGCTGCCAGCCTTGCAGGGTGACCGCGCTGGCATCAGCATGTTTCACAATGTTGTTCAGCCCT -TCCTGGCAGACACGAAACAGCGTCACGCGCTGGTTTTCGCTTAACGCTGATTCATCGATTCGCCATTCGAGATGG -CTGACAATACCGCGCCCTTCCAGCTCCATTTCCCGCATCAGTGAGCGGATGGCCTGCTCCAGGGTGAGATCATCC -AACTGGCGCGGACGTAACCGACCCAACAAACGGCGCACCGCGTCGTAAACGCCCAGCGATAGTTGTTCGATGAGC -TGCCCGCTCTGCTTCACGCTGGCGTTATCTGCCGCCAGCCGCTGAACAATGCCCGCCTGAGTACGAATAGCAGTG -ATGGTCTGACCGATATCATCATGCAGCTCACGCGCCACATCACGGCGCACGCTCTCTTCGGTTTCCAGCAACCGT -TCAGCCAGATGCTGATTGCGCGCCAGTTCCTTTTGCAGCGACTGGTTAAGTTCACGCAACCGCTGGATGCCAGCG -CCAAGCAACAACCCTGTCAGACTTTGCACCAGCAGCGAGAGCAATAAATCCACCGGATGATCGCGCCAGGTTTGA -CTGGCGATCAGCGCGATGGCGTTCATCAACGTCGCAATCAGCGCCCCTTGCCAACCATAGTGCCAGGCCAGCGCG -ATAATCGGCAGCGCCAGACAGAATGGCGTAAAGCGCGACAGTTCGTCCGGCAATCCCAACTGGAGCCAGAGACTG -ATAACAAACAGCAGCAAGTACCAGACCAGATGTCGCCCGCGCCAGTTGATTGGCTGAGAAACCAGTGACGGACCG -AGCGGCAGCCAGGTGTTATTGGCGAGATAGTGCCAGAACACCAGACATATCGGGGCCAGCGTCAGGCCGCCAGTT -AAAGTCAGCAACAGCGCATTCCACGACTCTTTGCCGTGCCAAAGCCAGGGCAGCGACTGCAACAACGCCGCCGCC -GTTAACGCCGCCCCCTGTAACAGCAAGGTGCGCCAGTCACGCTGATGGCGATAGCGCGAGATCAGCGCTACGGGC -AGTAACGTCAGTAAACTACCGATCATCAATAACGGAAAATGGGTTAAACCGACCGCCTGCGTTAGCCAGTAAATC -AGCAGCCACTCCGCGCCCAGCAATACGGGCCAGTATCCGCGCGGGCATTGCAGCATTAGCCCCAGACGCAGACCA -AACGGAAATAACAGCACCGCCATATCAGGGCGCTCAACCAGATGCAGGCTGATACTCCACAGGCAAAACCATGCG -GCAGAGAAGATAAAAAAGCAGGCAATAACGGTAATTAAGCGGGAGAACAACGTCTTCATCACCAGCCATCAAACA -TGCGGCGCGCCAGCTCTACGTCGTTACTGACGCCCAGTTTTTCCATCAGATTGGCGCGATGGACGTGTACCGTTT -TCGGTGACAAGCCCAGTTCGGCGGCAATCTCTTTCACCGCCATTCCTTGCGCCAGTTTTTCCGCCACCTGGCGTT -CACGTTTGGTTAGCGGGTCCTGACGACCGGATGCCAGTTTAATGGCAATATCCGGCGTCAGATAACAGCCGCCCG -TGGCAACCGTATGCACCGCAGCAATGAGTTCATCCGGGCTACAGCGTTTGGAAAGAAAGCCGCGTGCCCCCGCGT -TAAGCGCCTGCTCAACCAGCGCAGGACTGTCGTGAACGGAGAGCATAATCGTCGCCATACCTTTCGGCAGCTGGC -TTAGCAGCTCCAGACCGGAGATATCGGGCATGGAGATATCGCAAATACACACCTGCACACCGCGCCCCGGCAGCC -CCGCCAGCGCCTCGCGCCCCGAACCAAACTCGGCAACTACCTGCAAATCAGGTTCCAGCCCCAGCAGCTGCGCAA -AGCCGGAGCGGACGATGAGGTGATCGTCTATAAGGGCAACGGTGATCATGGTCTTGTCCTGGCGGGTAAAAAAAA -TACGCGCTTACCTTAACGATAAGCGCGATGTTGTTCAAGCCTTGAGCGGTTACTGAAAAAACACCGCGATCTTGT -TAAACATCGTCGGATCGGACTGATTACGCTGCACTTTCACGACATCTTCCAGCTTATCGATTTGGCTTATCATCT -GCTCCAGACGCTGGTCGTCATTGACCAGTAGCCAGATATGGCTTTTGTCGCTGTCCTGAATCGGCAGACAAAGAA -TGCCTTCAACGTTAAAAGCGCGGCGGGCAAAAAGGCCACAAACGTGGGTCATTACGCCCGGATGGTTGCGAACGG -TGAGCTCCAGAATTACGTTGTCATGAGTTGTGTTTTGCATGGCTTATTCCCCCACCATTTCAGTATTCGCCGCAC -CTGGCGGCACCATCGGGTAAACTTTTTCTTCGGCATCAATGCGCACATGGATCAGCGCCGGGCCAGGGCGATTGA -TGATTTCCTGCAATGAAGCCTGCGGATCGGCTTCGTTATTCAAATCACAGGTTTCGAGGCCGAATCCGGCGGCAA -TCTGCATAAAGTTGATTTTGCCCGGATAGGTGGCGGCAAAAACGCCTTGCTCGTAGAACAGACTCTGTTGCTGAT -GCACCAGCCCCAGCGCTTCGTTGTTCATCAGAATGATTTTGACATCCAGCTGATTTTCACTGGCGGTCGCCATCT -CCTGAATATTCATCATCAGGCTGCCGTCGCCGGAGAAACACAACACTTTGCGATCCGGGTTCGCCAGCGCAGCGC -CAATCGCCGCAGGCAGGCCAAAACCCATCGTGCCCAGCCCACCGGAGGTCAGCCACTGGCGTGGGCGATTGAGCG -GATAAGCTTGCGCGGTCCACATCTGATGCTGACCAACGTCGGTGGTGATAATTGCATTGTCATCGACACAGGCGG -CAACGGCGTTGATCAGGCCGTAATGGCTTAACGGATCGCACGCTTTCGGGATTGGACACGGAAACTCACGCTGCA -AATCCGCTACCAACTGGTGCCACTCTGCACGCGGTTGCGCTTCCACCAGCGGGATCAACTGCGCCAGCACGTCAT -CAACATCCGCCTGAATCGCCACGTGCGGCTGCTTGATTTTACCCAGCTCTGCACGGTCGATATCGACATGAATGA -TTTTGGCATTCGGACAGAACTGCTCGGTTTTGCCAATCGCCCGGTCATCAAAACGCGCACCGAGCACTATCAACA -AATCCGCCTCCTGCAAAATATAGTTGGTGCTGCGCACGCCGTGCATCCCCAGCATACCCAGCGACAACGGATGCG -CTTTTGGCAACATGCCCAGCGCCATTAAAGTCATGGTGGTAGGCAGTTGCGCTTTCTCCGCCAGTTCACGCACCC -GTGCGGGCGCATTGATCACACCGCCGCCCAGATAAAGCACCGGGCGTTTGGCAGCGTTAATCATCGCCGCTGCGT -CACGAATGCTTTCTTCGCTAAAGGCGGGGGCGGCGGCTTTTTCTGCCATAGCGGGCTGTGTTTCAATCTCAAAAA -CTGCCGTTTGCACATCCTTAGGAATGTCTATCCACACCGGGCCTGGGCGGCCTGATTGCGCAATGCGGAAGGCAT -CGCTCATGACCTGCGGGAGTTCTTCGATATGTCTGACCAGATAGTTGTGTTTGGTGATGGGGATAGAGATGCCGT -AGGTGTCCACTTCCTGGAAGGCGTCGGTGCCGATCATCGAGGCGGGAACCTGACCAGTGATGCAAATCAGCGGGA -TGGAGTCCAGCCGCGCATCGGCAATGGCGGTCACCAGGTTAGTCGCACCCGGTCCGCTACAGGCCATACAGACCG -CCGGTTTACCGTCGGTGCGCGCCATTCCCTGAGCGATAAAGCCCGCGCCCTGTTCATGACGGGCCAGAATATGGC -GGATTTGCGTGCTTTGGCTTAAGGCATCGTAAACAGGCAGGATAGAACCGCCCGGAATGCCTGTCACAATCTTAA -TGCCCTGCTGTTCCAGGAAATGAACGATAAATTCTGCGCCGGTAAAGCGCTTACGCGTCGATGTTGTGCCCGAAC -TTGCCATGCTCCAGTCCTTTTCTTCTGGGCCGACTTTCCGGGAGGTGCTTAAACGAAAAACCCCGCCCGGTTTGC -GCCGGCGGGGTTTTGGAATCGTGTGTTGTTCCAGTCCCTACGGCGCATTGCCGACGACCACCACCACACGCACGA -CGACCACTGCGGCGGATGGCGCAGTTGGTAGTAGTTTTGCGTTGAGCATGGAAGTAGTCATTGGGGACCTTGTTG -GTTTTGTGTTTAACAATATTTATACAAGCACAGCTTTACAGGGGAGACAATGGAAAATTTTTCAGCAAGGGAAAA -TTGAGGGGTTGATCACGTTTTGTACTGAATTGCAGATAACAAAAAACCCCGCCGGAGCGAGGTTTCGTCAGTCGC -CTGCGGCTGGTAACCGCAAAGCACACTGTATTATGTCAACACTGAAAGTATACGTGTTCCGCGCAGAACGCGCAA -TTTCGGCACGAATTTTGACGTATTTAGTGCATAGTTGAGTATCGATCACAGTTTGCGTTTTGTCCAAATATTACT -GTTTATTTATACAGTAAACTTCTATAATATCACTGTACGCAATGTGTTATGCGGGGGCCGCATCGTTACCCGGCG -CACTAAGTCCTGGCTGAAACGGGTGGTGCCGTCAGCGCCTTAACCCCGCGTGAGCACACTGTGTTATGTCAACAA -GCACAACGTTTCTCCTTGAGATACCGCGTGCACAACAGCTGGCAACAGGCAGCGGAAAGGTACGTCAGCTGGCAG -TGCTCCTGAACCACAGGAGACGCGTATGAACCTGGTGGATATCGCCATTCTTATCCTCAAACTCATTGTTGCAGC -ACTGCAACTGCTTGATGCTGTTCTGAAATACCTGAAGTAATTCAGATTCAAGTCGCACCAAAGGGGAGCGGGAAA -CCGCTCCCCTTTTATATTTAGCGTGCGGGTTGGTGTCGGATGCGATGCTGACGCATCTTATCCGCCCTACCATCT -CTCCCGGCAACATTTATTGCCGCTTTTGTTTACATATTCTGCCGCTAAACAATTCCCCATTCCTGGCGTATATCT -GGCTAACATTCATCAATGTGATAGATTCCTCTCCCGCATTTATGGGAATGCGTAGTGACTTATTCTAATTATTTT -TATAAAAGCATCCGTGATAATGAAAAGGCAAAGAAACGTCAATTTGTTATTGATGTTGGTATTACTCGTGGCCGT -CGGTCAGATGGCGCAAACCATTTATATTCCAGCTATTGCCGATATGGCGCGCGATCTCAACGTCCGTGAAGGGGC -GGTGCAGAGCGTAATGGGCGCTTATCTGCTGACTTACGGTGTCTCACAGCTGTTTTATGGCCCGATTTCCGACCG -CGTGGGCCGCCGACCGGTGATCCTCGTCGGAATGTCCATTTTTATGCTGGCAACGCTGGTCGCGGTCACGACCTC -CAGTTTGACGGTGTTGATTGCCGCCAGCGCGATGCAGGGGATGGGCACCGGCGTTGGCGGCGTAATGGCGCGTAC -TTTACCGCGAGATTTATATGAACGGACACAGTTGCGCCATGCTAACAGCCTGTTAAACATGGGGATTCTCGTCAG -TCCGTTGCTCGCACCGCTAATCGGCGGTCTGCTGGATACGATGTGGAACTGGCGCGCCTGTTATCTCTTTTTGTT -GGTTCTTTGTGCTGGTGTGACCTTCAGTATGGCCCGCTGGATGCCGGAAACGCGTCCGGTCGATGCACCGCGCAC -GCGCCTGCTTACCAGTTATAAAACGCTTTTCGGTAACAGCGGTTTTAACTGTTATTTGCTGATGCTGATTGGCGG -TCTGGCCGGGATTGCCGCCTTTGAAGCCTGCTCCGGCGTGCTGATGGGCGCGGTGTTAGGGCTGAGCAGTATGAC -GGTCAGTATTTTGTTTATTCTGCCGATTCCGGCAGCGTTTTTTGGCGCATGGTTTGCCGGACGTCCCAATAAACG -CTTCTCCACGTTAATGTGGCAGTCGGTTATCTGCTGCCTGCTGGCTGGCTTGCTGATGTGGATCCCCGACTGGTT -TGGCGTGATGAATGTCTGGACGCTGCTCGTTCCCGCCGCGCTGTTCTTTTTCGGTGCCGGGATGCTGTTTCCGCT -GGCGACCAGCGGCGCGATGGAGCCGTTCCCCTTCCTGGCGGGCACGGCTGGCGCGCTGGTCGGCGGTCTGCAAAA -CATTGGTTCCGGCGTGCTGGCGTCGCTCTCTGCGATGTTGCCGCAAACCGGTCAGGGCAGCCTGGGGTTGTTGAT -GACCTTAATGGGATTGTTGATCGTGCTGTGCTGGCTGCCGCTGGCGACGCGGATGTCGCATCAGGGGCAGCCCGT -TTAAGCGCACGTCACCGCAGCATCGTCATCAGCTCCATGGGAGAACGATGCTGCTTTATCAGATCACGCATCACC -CGCATATGCGGTGCGGAGTAAGAATAAAACGCCTGATAGCCCGCACAAAGCACGCTGTCTGGCGTCTCCTGCCGA -GCGTGCGGGCACAGGCGATGCCAGTCGCACGCCTGGCAGTCACAGCGCGGTTGCGGGTTTTCGCTGCCACACCAT -TTTTGTAAGGTGGCGTCAAAAAGCTCAATCGAGATACGACTGATATCTGCCCGCACCCAACACTCGAACAGGGCA -ATTAAAAATTTCCCCCACAGCTCTGCTGTCACCGAAGCGGCCGTCAGATCGCCCCGGTCATCAAATTCAAGATAG -GGAATGAGCTGTACGGAGCGGATGCCCCGCTGTTTGAAATTGTGATAAAAATCGGCAGGTTGCAGAGCATCCTTG -TACTCTACAACCAGTTTATGCCTGTCCTCTTCAGCATCAATGACCTGACTTCCTGTCATGCGACTCTCTCAATAA -ATACGATAAGTTGATGTATATGCGTTACAGCAAACAGTATTGCGAGAGATAACACCGCGAGGGAGATCAAAAATT -TGTCACGGACTACGTGAAATTGGGAAAAATCGCTATTCGTGACATCCATTAAATTGCGATTACGGGTGTAGTGCC -AGAGGATCAGCGCCACGATGGCGAGAATGCCAATCGAAATCCAGAATAACATGCCCGCCTGGTGCCAGTTGTGTT -TGATAGCCAACGCCATCAACGCGCCGTAGCCCAGCATGGTACGAAACCACGCCAGTGATGTGCGCTCCGGCTGCA -GTCCTGGGTCGGCAATGCGTCTGGCTTTGCGGCTATCCGGCATACAACACCAGTCCCATAACGATCACCGCCACG -ACCATCAATATTAAGCTAATGATTAATAAGCTGTTGGTGTAGGGCAGGTCCTCTTTCAGACGCATCGCTTTTTCA -TTGCGTAACCAGCGCAAGTAGCCATACATCGCTAACCCGCCGGAAAACAGACACAACAACAACGCCAGCAGTTCG -CGAATGACGGGCGTGGCGAAATCTGGCGCAAGTTGATCAAGCCCAACCCCCGCCGCCAGAAATCCTAGTGCAGTA -CGGATCCACGCCAGAAAAGTACGCTCATTAGCCAGCGAGAAGCGGTAATCAGGCGCTTCTCCGAGGCGGGAAATT -TTCATTGTTGCTCCTTTGCAATTTCACTAACGCTCTACCTTTAGCGGTTTTTTTAAGAATTTCGTCCGCCCGTTT -CCTGATATGCTTTTGCCATCCGCTACAAGGAGGTCAGATGGGTATCATAGCTCAAAATAAAATCAGTTCATTGGG -CATGCTGTTCGGTGCCATCGCTTTAATGATGGGGATTATCCACTTTTCATTCGGCCCTTTCTCCGCACCACCGCC -AACGTTTGAAAGCATCGTGGCGGACAAAACGGCTGAAATTAAAAGAGGTCTTCTCGCCGGAATAAAAGGCGAAAA -AATTACCACCGTGGAGAAAAAAGAGGACGTAGATGTCGATAAAATCCTCAATCAAAGCGGTATCGCACTGGCCAT -TGCTGCGCTACTTTGCGCATTTATTGGCGGTATGCGTAAGGAAAATCGCTGGGGCATTCGCGGCGCGCTGGTTTT -TGGCGGCGGGACGCTGGCTTTCCATACCTTGCTTTTTGGTATCGGCATCGTGTGCAGCATTTTGCTGATATTCCT -TATCTTTTCCTTCCTGACCGGCGGTTCACTGGTTTAAGCAGCCTGAATAATGCCCGCCGGGTGATCATCAGCGGG -CATTATCGTCAGAACTTCTGTTTTTTCTCCTCCACCTTCACCCCTTGTGTCGGTAGGCCGGTGTCATAGTCGCGT -ACAACTGGCGAATAGCCATCTTGTGGACGTGGACGAAACGCCCCCATCCAGCGCGGCCGTGCATCTTTACGCCAC -GGACGCAGACTCCATTGGTAACTGCGGAACGGATCGCGAATTTTGTCCATGTAATCCAATAAGGCGTCATGCATT -TTGCTGCGAACGTCTGCAAAACGGATATCATCGATCAGGTTATGCATTTCATTTGGGTCATTACGGCGATCGTAA -AGTTCATCACTGGTGAAGAGGTTGAGTACCAGTTTAAAGTCATCCGTCACCCAGCAACGCACCGGAATAAAACCG -CCAAAGCTGTCATGCTCAATCTCGTAGCGGTTAAATTCCACCATCACGCCGCGTGGCTCTTTCACGGCAAGGATA -TTTTCCCCCGGCAGAATCTCTGGTTTTTCAATATCTGCCAGCGCCATCATTGTCGGCAGTAAATCGATATGACTG -ACTGGCGTATCGACCTGTCGCCGCTCCCCTTGCGGCGAACGGATGATCAGCGGAATGCGGGTGATGTCGTCATAC -ATCGCCGCCCCTTTACTGATCAGCTTATGTGCGCCCATCATTTCGCCGTGATCGGAGGTATAAATAACCCACGTA -TTTTCACGTTGCTCTGGCGTTAAGGCATTGATGACCCGTCCGATTTGGTCATCAACAAAGTCATTACAGGCAAAA -TAGAGCGGATGGTGATAAAGCCCGTCATCACCGACTGGCGATGGCATCGCCTGCGCCCATAAGCGGTGATGTTCC -GGTTTGTTAGCCAGGTCATCCTGTGCTTTCTCGCCCAGCTCGTAGTAAAAATCAGCGTATTTCTCTAAATACTCC -ACCGGACAGGTGAACGGGTGATGCGGCTCATCATACGAAACCACCATCAGGAAAGGCTCGTCTGCGCGCGCAGGC -TGTTGCAGAAAATCCACCGCCCGATTGCTGATACGATGCGCCCAGGTGAAGGTTTCGTCGATATGGTTCGCCTGT -AAATCTTCGACGCTGTTTAGGCCATTGCGCCACAGGCTAATCTCTTTTTCCGTCAGTTCGCTAAGATAGTTCGCC -CCATCGAACCAGTAATCAGCGTCCCACTCCGGCGGACACTCGCCAGTGCCGAAATAGTCATGACCGTCGAGATGC -CATTTGCCGATGTAACAGGTGTGATAGCCGGCATCCTTAAAGTAGCGCCCCATAGTGGAGATGTTTTTGCCTGGC -GCGACGTTGTTGGTCCACGGGCCGGACTGGTTAGCGTAGATACCGGTAAATAGTCCGGCCCGTGCAGGCGTACAA -ACCGGTGAACAGGTGTAGGCGGAATTAAAGCGAATACCTTCCGCCGCCAGACTATCAATATTTTGCGTATTCAGC -GGTTTACCGCTATAGCAACCGACCATATTGGTGGCCTGGGTATCGGTCATGACGAACAGAAAATTGGGGCGTTTC -ATAGGCTATCCTTCCCGTCGGGAGTAAAGGTTACGGCTGGGTCGTGACGATGCCGCCAGCTGTCAAAAATCAGGT -AGACAATCACTACGGCGGCAATGAAATAACTGATCATCGCTAACCAGCGCGTACCGTAGCCGCCGAATTCAGCCA -GCCCGGCATAGACGCCAATCATCGCGAACAGGATGCCAATTGACGCGATCTTGACGTTTTTCCACGGTTTCATGT -CCACCGCAAACGCATCTTTGAAGGTGAACGGCGTGGCGCGCGGTTTGATAAAACCGATCACCAGCATCACGACCA -CGTTGATGCAGAACGTACAGGCCAGCACATAGAGGAAATGGAAGTCGAACTTCACCAGATAGTTGATGGTGATGT -AGCTGATTATGCCAATCCCCATCGCTACTTTTGCCGCCAGCGCCGGGATGCGCGGGAAGAAAAAGCCCATAATGA -TGATGGTAACCAGCGGCACGTTGTAAATGCCGTTGAGCTGTTTCATCCAGCTATACAGCCCCTGCGGCGCGTTGG -CGATCCACGGCGCGACCAGCACCGAAACGATAGCGATAAAGAAACCAAATTTGCGCCCGACGGTGACCAGCTGCT -GCGGCTCGGCATTCTGGTTAATGATGCGACGGTAAATACCCATACTGAATAACGTACTGGCGCTATTCAGAAAGC -CGTTGAAGGTACTGATCACCGCACCAAATAACACCGCGCCGAAGAAACCCACCATTGGCACTGGCAGAACGTTAT -TGACCAGCGTCGGGTAGGCCATGTCGGCTTTCGGTAAATCCTGATACAGATGAAACGCAATCAACCCTGGCAGCA -CCAGTACCAGCGGGTCGAGCATTTTCAGCACCGCCGTTAACAGCGCCCCCTTTTGCCCTTCCGCCAGGCTTTTTG -ACGCCAGCGTGCGTTGCACGATGCCCTGATTTGTACACCAGTAAAAGGTGTTCACCAGAATCAAACCGGTAAATG -CCGCGCCAATCGGCAAGGGATCGGTCGGGCCACCGATTGAGTTTAATTTCTCGGCGTGAACGGTGGTGAGTTGCT -CAATGCCCTGCATAAAGCTGCCCTTGCCCATCGCGATTAGGCCAAATACCGGCACCATCAACCCGCCGATAACCA -GCCCAATACCGTTGATGGAGTCCGCCACTGCCATTGCGCGCAGTCCGCCGATCACCGCATACAAAATTCCCGCCA -GACCAAGCAAAATTACCAGTAGCCAGATAGCCGCACCGTGAGAAATCTGTAGCGATTCCCCGACGTGAAACAGGC -TGTTGAGCGCCAACGCGCCGGAGTAGAGAACAATCGGCAGAAAGCAGACGCCGGTGGCAATTAGGAAGCAGAAGT -CGATGATAATACGCGTCGTTTTATCATAACGTTCCTCCAGAAAATCGGGGATGGTGGCAATGCCGCGCTTCAGAT -AGCGCGGTAAAAAGATTAGCGCGAGGAAGATCAGCGTCACCGCTGAAGTCACTTCCCAGCCCATCACCGACATGC -CGCTTTTGTAGGCCTGCCCGGAAAGGCCGACCAGTTGTTCCGTGGAAAGGTTGGTTAGCATTAACGAAGCGGCAA -TAACCGGCGCTTTTAGTGAACGTCCGGCAAGAAAATAGCCTTGTTGCGATCCGGTATCTGTTTTGCGGACCTTCC -ACCAGGTGATCACCGCCACCAGCAGCGTAAAACCGACAAAACTCAAGATTTGTAACGAATTCATCTCATAGCCCT -TATTTATGTTTATGTCCCGGACGCATGAATATAGGGAGAGGTAAAATGCGTCGGGTCAGGCAGTCAGATTCTTAA -AATACAAACGTCGTATCCCTGAACGGATTGTTTTCTGTTAAGTTCAGGTTGTGAGCATAATTCGCCGGAGGGATA -TTAAAATGAATGGAAAATTGCAAAGTTCAGATGTAAAAAACGAAACTCCGTACAATATTCCCTTATTGATTAACG -AAAATGTGATCTCCAGCGGAATTTCTCTGATCTCGCTCTGGCATACCTACGCCGACGAGCATTACCGGGTGATCT -GGCCGCGGGACAAGAAGAAACCGCTTATCGCCAACTCATGGGTTGCGGTGTATACCGTACAAGGATGTGGGAAAA -TTCTTTTAAAGAATGGCGAACAAATAACACTGCATGGCAACTGTATTATATTCTTAAAGCCAATGGATATTCACT -CTTATCACTGTGAAGGTTTAGTCTGGGAACAGTACTGGATGGAATTTACCCCCACCAGTATGATGGATATTCCCG -TTGGTCAGCAAAGCGTTATTTATAATGGCGAAATTTATAATCAGGAACTCACCGAAGTTGCTGAGTTAATAACTT -CACCAGAAGCAATAAAAAATAATCTGGCAGTCGCTTTTCTGACGAAAATTATTTATCAGTGGATTTGTCTTATGT -ACGCAGATGGTAAAAAAGATCCACAACGGCGGCAAATTGAAAAATTAATTGCCACTTTACATGCCAGTCTGCAAC -AACGCTGGAGCGTAGCTGATATGGCTGCCACGATCCCCTGTAGCGAAGCCTGGTTGCGTCGTCTGTTTTTACGCT -ATACCGGCAAGACGCCGAAAGAATATTACCTCGATGCGCGTCTGGATCTGGCGCTATCGCTATTAAAGCAACAAG -GAAACTCGGTTGGCGAAGTCGCTGATACGCTCAACTTCTTCGACTCCTTTCATTTCAGCAAAGCCTTTAAACATA -AATTTGGTTATGCGCCGTCAGCCGTGCTAAAGAATACGGACCAGCACCCAACGGATGCCAGTCCACACAATTAAC -GTAACTCTGGCCAGTACGCTTTGTTGGCCTCCAGCAACTCATCCAGAATAGCTTTGGCGACCGAGGCGCTCGGTA -CCGTTTTCGACAACGTAATCGCCTGCCACAGGTGCTGATATGAACGCTGTTCCCAGGCGTCCACGACCAGTTTTT -CCACCGCCACTTGCTGACTCATTAACCCTTTCTGAAACTGCGGGATATCGCCGACCACCAGTGGTTCAGGCCGTA -GTAGCGCACGCGCATCTGTTTGCGATCTTGCAGCCCAACAATTTGCGCCATCCGGCTTTCAATACCGATTGGCAT -GTCACAGATGTTGAGGATTTTCGCATTCGGGCGCAGACGACGCGTGGCTTCTGCGACAATGGCTGCCGGGTTGGA -GTAGTTGAGCATCCAGGCATTTGGTGAATATTTTTCCATATAATCCACCAGTTCCAGGACGCCGCCAATGGAACG -CATGCCGTACGCTATTCCGCCGGGTCCGCAAGTTTCCTGACCAACAACGCCGTGGCGCAGCGGGATTTTTTCATC -CAGTTCGCGCATCGGGTATTTGCCGACGCGGATGTGCGCCATGACAAAATCAACGTCGCTGAATGCCACTTCAGG -ATCGGTGGTGTAACTAAACGCAATGTCCGGCGCTTTTTCTTTAAGGATGACTTTACAGGCTTCGGCAATCACTTC -CTGCCGCGCACCATCGTTATCATAAAATTTCAGTGCACGAAGCGGGAAACGGTCCTGATTCGCCAGGAGCATCAA -CACGATGCCTGGCGTAAAGGTGCTTCCACCGCCTGCGACAACCACTGAGAATTTGGTCATTATACTGCCTCCGTA -ATGGCAACATTTTCTGCTGATTGATGAGAATTAATTAAGCTATCGAGCTGTTCACGCAGCTGAGATACATGCAGA -CCAATGATCACCTGAATGGCATCGCCACTACGGAAGACGCCGTGCGCTCCCAGCTTTTTAAAGACTTCGTCATCC -AGCGTTTGTGACATGTCATGCAGTGCAATACGTAAACGCGTCGCGCAATTGTTAATGCTGGAGATATTGCCGACC -CCGCCCAGGGCTTGCAGGATACCGGCAGCCTGATCCAGCTCTTTTTTTGGCTCTGCCGCGGTGGTTTGGCCTCGC -GAGGCTTTGTATTCGGCTTTTGAGTAGAGTTTCACTTCCGCATCTTCACGTCCCGGCGTGCACATGTTGAACTGC -AGAATCAGTGTGCGGAAAACCACGAAGTACAGCAGGGTAAAGCACAACCCAATGGCGATTTGGGTCAGCATCATA -TCCGCGTGGTTGCTGAACATCGGGATCCAGTTTTGCGGTAAAACCTAGTCAATCAGACCTCCGCCCATGTTGCCC -ACCACACCAAAGAGATACATTACGGTCGACATTGAGGCCGCCAGCACGGCGTGTACCGCAAACAGCAACGGTGAA -ATGAACAGGAAGGTAAATTCCAGCGGTTCGGTAATTCCCACCAGCATGGCGGTTAAGGTTGCGGGAATCAGCAAG -CCCGCCACTTTTACCCGATTTTCCGGTGCGGCAGTGAAGTACATCGCTAAAGAAATGCCCACGGCACCAAAGATT -TTTGAGTTACCGTGCAGGGCAAAACCGCCTTCCGGGAACAACGATTTCAGCGGCTCGGCGCTCAAACTGAACTCT -TGCAGATGCTGCGCCCAGTACATCTGAATGCCGCCTTCAACAGCTGCCGGACCAAAGATAAACTGTCCGTAGATG -AAGTGGTGTAAACCGGTTGGGATCAGAATACGTTCGAGGAAGGTGTAAACCCAGACCCCAAGTGCACCCGCCGAA -CGCAGGAACGCTTGCAGAGATTCAATCCCCATTTGTACTTTTGGCCAGCCGAGCAACGTCAGCCAGGCACAGGGG -ATCATCACCAGGAAGGCGATAATCACCACATAAGACGTCCCCTGGAAAATGCCGAGAAAAACCGGCAGTTTTTTA -TCGAACAGACGGTTATGCAGCGCCGTCACAATGCCGGAAATGATAATTGCGCCGATAATGCTGGTATCGAGGGTT -TTAATCCCGGCCATCATTGTCAGACCGCTACCTGCCACCGCGTCCTGAGTGAAATCGACGCCGAAGTAGCTTCCC -CAGGTCATTCCCATCGCGTTGATGAAATAGTTCCAGGTCAGGAAACTCACCATCACCGCCAGACAAGCACGCCCC -TGCGCTTGCTTAGCAAGGCCAATGGGTAAACCGACAGCAAAAATCAGCGGCATATTACGGAATACCGTCCAACCG -CCCTCTTCAATAATGTGTACGATTTGCGCGAATAAACTGTTCGGATCGGTCAGTGATTCCCCGACAAACATCGGG -TTTTGCAGCAAGATGGCAAGACCCACCACAATCCCGGCGAAGGGAAACAGCAGCACTGGCGTGAACATCGCGCCG -CCAAAGCGTTGAATTTGACTGAGCATTTCCACATCCTCTTTTCTCAATTCTGTAAGTAGGAAGCCTGATTGGTTA -TGCGGCAGGCCTGGAGCGAGGATAGGAAGATGCGATCGGCAGAACATGACGACCCAATGGGATTCGTGATCGCTT -TCATGCTTTTCGTTGGGCGGTAGAGATCTACGTTTTCGCGAAAAAGTAGACCTCTGTGAGCACAGGTACACAGCA -TCGAACACATCTTTAAAAAAAAGATGTTTTTTCAATCGATTAAGCAGAACTTGTGTGCGCATTACCCGGGCTTGC -AGGCAAAAAAGAGATCTAGAGATGATCTACAAAAGCATTGCGGAGCGGTTAAGAATTCGACTTAACTCCGCAGAT -TTCACGCTAAACAGCCTTCTTCCCGGTGAAAAAAAGCTGGCGGAAGAGTTTGCGGTATCGCGGATGACCATCCGT -AAAGCCATTGACCTGCTGGTAGCGTGGGGGCTGGTGGTCCGCCGCCACGGTAGTGGCACTTACCTGGTGCGCAAA -GATGTACTGCATCAAACCGCCAGTCTGACCGGGCTGGTGGAGGTGTTAAAACGGCAGGGAAAAACGGTCACCAGC -CAGGTGCTGATTTTTGAAATCATGCCTGCGCCTCCGGCCATTGCCAGCCAGTTACGGATTCAAATCAACGAGCAG -ATCTACTTCTCCCGTCGCGTTCGTTTTGTGGAAGGGAAACCGCTGATGCTGGAAGACAGCTATATGCCGGTAAAA -CTGTTCCGTAATCTTTCGCTGCAACATCTGGAAGGGTCGAAGTTTGAATATATTGAACAAGAGTGCGGGATTTTG -ATTGGCGGTAATTATGAAAGCCTGACGCCAGTGCTCGCCGATAGACTGCTGGCGCGGCAAATGAAGGTAGCGGAA -CACACGCCACTGCTGCGGATCACCTCGTTGTCATATAGCGAGAGCGGGGAGTTTTTGAATTATTCAGTGATGTTC -AGAAATGCCAGCGAATACCAGGTGGAGTACCATTTACGGCGACTCCACCCGGAAAAGAGTTAACCGATACTCCAG -AAGAGCACCGCCAGTAATTGGGGGGTGATAATGCGCAGGAACATTACCAACGGATAGACAGTGGCGTAAGAGAGC -GCCGCCGCACCGCTGGTTGGATGAAGATTATTAGCAAACGCCAGCGCCGGAGGATCGGTCATGGAACCTGCCAGC -ATCCCGCACATGGTCAGGTAATTCATTTTGGCTAACATCCGCGCCAGAATGCCAACAGTAATCAGCGGAACGGCG -GTGATCAGGGCACCATAACCAATCCAGCTTAGCCCTTCGCCATTGACCAGGGTATTCACAAAATCCCCACCAGAT -TTCAGACCAACGACCGAGAGGAACAGCACGATCCCCAGCTCCCGCAGCGCGAGGTTGGCGCTTGGCGGCATAAAC -CAGTACAGCTTGCCGATACTGCCGATACGCCCGAGGATCAACGCCATAATCAGCGGTCCGCCCGCCAGCCCCAGT -TTCAACGCGGCCGGGAATCCTGGCACAAAGACGGGAATAGAACCTAACAATACGCCTAGCCCGATGCCAATAAAC -ACTGGCAGCATCTGAACCTGTTGCAGTTTTTGCTGCGCATTCCCCAGCACATTGGCAACGGCATCAATTGCGGAC -GGACGCCCCACCAGATTGAGGATATCGCCGAACTGCAGGCTGATATCGCCACTGGCGACCAGTTCGACCCCGGCA -CGGTTCAGGCGCGAGATAACAACGTCATAGCGTTCTTTAAAGTGCAGGTCGCGAATACGTTTTCCGAGCACGTTT -TCATTGGTGACCACCACACGCTCGACGCGCAAATCAGTGCCTTTCGTGGACAGCGAAGTATCGACCTCCTGACCA -ATCACCAGTTGCGCATTATGTAAATCCGCTGGCTGACCCACCAGATGCAGCAAATCGCCCAGTTGGATAATGGTA -TCTGGCGAAGGAACTTTTAGGGTTTCTTCGCGTTTCAGACGCGAGCAGATAATTTTGTCGCCGTTGAGAATCGGT -ACATCTTTAATGGCTAAATCATGCAGGTTAGGGTTCTCAACGCGAATATTGATAGTCTTGATCAGCGCGCCGCCA -TTGGTGCGTGAAGACTCGTGCTGCTGAGCTTCTGTCTCGACATTGACGCGGAAAATAACCCGCAACATCCACATG -GTGAACAAAATCCCGCAAATGCCGAATGGATACGCCATCGCGTAACTCATCCCCATCTGATCGACCATTTCCATT -GGTGTACCCAGGTCGCGCAAAATCTGCTGCCCTGCCCCCAGCGCTGGCGTATTGGTAACCGCACCGGAGAAAATC -CCCAGCACTACCGGCAGTGGAATATCAAACAGTTTATGCAGGATGGCGGTAACCAGACCACCGATGATGACGATC -AGAACAGCAAACAGGTTGAGGCGTAATCCGGAGACGCGCAATGAGGCAAAGAAGCCCGGCCCTACCTGAATCCCG -ATAGTATAAACGAACAGGATCAGGCCAAATTCCTGAATAACATGCAGCATATCGCTACTTAATGTCATCCCCGCC -TGAGAAACAAAATGGCCGACGATGATCCCACCAAACAGCACGCCGCCAATACCTAATCCTATGCCGCGAAATTTG -ACGTTGCCGATAAACAAACCGACGACTGCCACCAAAGCCAGAATACTGACCGTTAATGCTATATCACTCATCGTC -CATTTCTCTTGAGATAACATTTTAATTGCTACGGATTATGGCTGAATCGGTGAAGCAGATTTGCCTTATAGCGCA -CATTATCACGGGAAAGAACGTGCCGAAATATCTTAAACAGTCGAAATTTAACGCATTGTTGAGTAAGTAAGACAA -AAAAAGCCCCACCAGAATGGCGGGGCAAAGAGAATAGCTAGTTAGCTATTTAACGCGGGACGTTCGCTGATAGCG -ATACGCTGCGCTGCGATGGGTTCAGGCTCATTACGAATTAAATCAATATGCAGTAAACCGTTTACGAAGGTTGCG -CCAGAGACTTCCATATTTTCAGCCAGCGTAAAGCTCAGGCTAAATGGCTGATTCATAAGCCCTTGATGCAGCCAT -TTTTTCTCTTCTTTTGGCTGCTCCGGCGTGCCTTTTACGCTCAGGCGCGTACCTTCCAGTTGAATCTCTAAATCT -TCCTGACGGAAACCTGCCAGCGCAAGGGTAATGCGGTAGTGGTTATCGTCGCTTTTCTCAATGTTGTACGGCGGG -AAGCTCTGGCTTTCACCGGCGTTTTGCAGTGCGTTGGCCAGTTTGTCAAAACCGATCCATTGACGCATCAGTGGG -GATAAATCGAAGTTACGCATAGTCATTTCTCCTTCTAAGAAGCGAGTAAGTACCTGCAAATCCGAAGATTCGCAT -ATGCTCCCTGACGGCGAGCATGGAGATGTCAGGCCGCGCCAGGCGGCCTTAGGGAATTAGTTGATTTCGATACGG -CGCGGTTTTTTCGCTTCCGGAATCACGCGTTCGAGATCGATATACAGCAAACCATTTACCAGGTTAGCACCACGA -ACATGAATGTTCTCAGCTAACTGGAATTTGCGTTCAAAGTTGCGTTCAGCGATGCCCTGGTACAGATAGGTGCGC -TCTTTTTGTTCGTCGGCGTGAGCACCTTTCACCACCAGCAGATTATCCTGGGCGGTAATTTCCAGTTCGCTCTCA -GCAAAACCAGCCACAGCGATAGCAATGCGGTAATGGTTTTCGTCTACCAGTTCAACGTTATACGGAGGGTAGCCG -CCATTACTCTGGCTCTGGTTGTTTTCTAAGTGGTTAAACAAACGGTCAAATCCAATAGCAGAACGGTAAAGCGGG -GATAAATCAAAGTTACGCATAATCAATAGCTCCTGAAATCAGCGAGAATGTAAGACCTTCCACAATGGACAGGTC -AGGTAGCCAGAACACCCATCAGGCGCGTCCTCATCGGCTACGATGTAAAAATGGGTCTGGAAATGAACTTTTCAA -GCCTTATCAGCGGACTTTTTTTTGCAGTTTATGGTCTATTGCATAGACTGAGGGGGCAGCACGAAACGTTAAAGT -GCGATAGCCGCCACAGTGCGACGTAATGATGATGTTATTTTCAGCAAGGGATCGCTATAACTCATCAGGCCAACA -CCCACGATCAACAGATGAATTTATTATGATAAGAAATGTGTTGTTAGCGTTCATGATATGCAGCGGAATGACATT -ACTCGGAGGATGCTCCAGCGTGATGTCCCATACCGGAGGGAAAGAAGGAACGTATCCCGGCACCCGCGCCAGCGC -AACCATGATTGGCGACGATGAAACCAACTGGGGCACTAAGTCGCTGGCGATTCTCGATATGCCGTTTACCGCTGT -GATGGACACGCTTTTACTGCCGTGGGATGTGTTCCGCAAAGACAGCTCGGTGCGCTCGCGCGTTGAAAAAAGCGA -AGCCAACGCGCAAGCCACCAATGCGGTTATTCCACCGGCCAGAATGCCTGATAACTGATTTAGCGATCAGTTTCG -GTGATCCACAGCTGGCCGCCTTCCATCCACGCCAGCCACTGACCATCCGGCGAGAAGACCACGGCGTCCGCAGAA -GGTGAATTGGCGTGGTGTTCGGTTAAATACTCAACCTCGCCGCTTTGCGCATGGGCACAAGCAATTCGATTATCC -AGCACAAAGCCCAACCATTCTCCTGACGGATGCCAGTTAAATGCAGACTGAATATCCGTTTTGTTATGGGTTAAC -TGGCGCGGCTCGCCGCCCTGTGGCGAGATAAGCCACAGTTGCACAATGCCGTTATCATCTCGCATTAAAAACGCG -ATTTGTGTACCCTGCGGATTACAGCGCACCCAGTGGCGCGGGACGTTGACTAACCCCGGATAAGCCCGATGGTGG -GTAAAGGTTAAACGTCGCTGCACGACGCCACGCGGTGGCGCGGGCAGGGTTGTTTCCGTTCCGCTTAACGGCGCA -TCACCTGCCGCTTTCCAGCCAGCTTCATCTTGCGGTAACTCAACGATAAACAGCTCCGGCACTTTCTCGCCCTTT -GGCGAAAGTGTGTCGCCAATAAATGCCAGCGCGTGATTTCCTACCCATCCTTCTTCATAAGCACGATTGATTTCA -TCACTGCCAGGCTGTGGCGTGGGCGTGGTTTTGCTCACCAGCACGCACCAGTGGCTACCGCTGTATTCACGCGGA -TGCTGCTTTTGTACGTTGACCGGGCCAAACGGCGCAGCAACACCGACGTTTCGCAAATCCAGCGCCGGATCGAGT -TCATGCATTACATGGTCGTTATAGGTAAAGCTCACCCTTTCACCGTTCGGGCTAAAGACATGCACATGGCTGCCG -CCGCGCAGCACTCCTGGCGTATACGGCGCGGTAATATCCATCGCATCAAGGTTACTCATCTTGCCGCCTTCAACA -ATCACTCCGCGCCGATGATGGAAGTCGTAATGCCATGTTTCATCAGGATTTTCCGGGCCGTGGATGAAAACATAT -TTCTCTGACTTCGGATGAACGGTCACCACGCCGACGTGTGCGCCCTGTGACGCGCGATAGATAACCTCGACCTCG -CCGGTATGGATATTCACACGCTCAATGGTCTCGCCGGTAAACGACGCGCCAGAAGGACGCACGTCAAATACCAGC -CACTGGCTGTCGGGCGTCCAGGTATTGGTATTGGTGAGCAGGTGATTACGGGGAGCAAAGGTTATCTGTTTCATG -GCGCGGTCCTGATACAAAACGGGTCCCGCCATCATACTTCACAAGGACTTCACTTTCAGACAATAGTCTTTTGCC -ATCGTGATGAATGTGAGTGAAAAGATGGAACATTTCGACGTGGCGATTATTGGCCTCGGCCCGGCAGGATCGGCG -TTGGCACGAAAGTTAGCAGGCAAAATGCAGGTGATCGCGCTGGATAAAAAGCACCAGTGTGGTACTGAAGGTTTC -AGCAAACCCTGCGGCGGTCTGCTGGCACCGGACGCGCAGCGATCTTTTATTCGCGATGGGCTGACGCTTCCTGTC -GATGTGATCGCTAATCCGCAGATTTTCAGCGTCAAAACCGTCGACGTCGCCGCATCGCTCACGCGTAACTACCAG -CGAAGCTATATCAATATTAATCGCCATGCTTTCGACTTGTGGATGAAATCGCTGATCCCCGCCAGCGTTGAGGTT -TATCACGACAGCCTGTGCCGAAAAATCTGGCGTGAGGATGATAAATGGCATGTCATTTTTCGTGCAGACGGCTGG -GAGCAACATATTACCGCCCGCTATCTGGTCGGTGCCGATGGCGCAAACTCGATGGTGCGGCGACATCTCTACCCG -GATCATCAAATCCGTAAATATGTCGCTATCCAGCAGTGGTTCGCGGAGAAACATCCGGTGCCGTTCTACTCCTGC -ATCTTTGATAATTCGATAACTAACTGTTATTCATGGAGTATCAGCAAAGACGGTTATTTTATCTTTGGCGGTGCC -TATCCAATGAAAGACGGTCAGACGCGTTTCACGACGCTGAAAGAGAAAATGAGCGCCTTTCAGTTCCAGTTTGGT -AAGACGGTGAAAAGCGAAAAATGCACGGTGCTGTTTCCCTCGCGCTGGCAGGATTTTGTCTGCGGTAAGGACAAC -GCCTTTCTGATTGGTGAAGCGGCGGGATTTATCAGCGCCAGCTCGCTGGAGGGGATTAGCTATGCGCTGGATAGC -ACAGACATTCTGCGTTCGGTGTTACTGAAGCAGCCAGAGAAGCTCAATACCGCTTACTGGCGCGCCACCCGCAAA -CTGCGTTTAAAACTCTTCGGCAAGATAGTAAAAAGCCGATGCCTGACCGCACCGGCTTTAAGAAAGTGGATTATG -CGCAGTGGTGTGGCACATATTCCACAGTTGAAGGATTAGCCAACGCGCTTCACATCGCCCACCAGCAGGATATAA -GAGAGCGCGCCAATCAACGCGACGGCGGAGATATAAACCAGTGCAGGTGCGAAACCGTAACCCTGCGCCAGGTAC -CCCACCACCAGCGGAACGGTGATGCCGCCCAGACCACCGGCGAAGTTAAACACGCCGCCGGTTAAACCAATCAGG -CGCATCGGTGCCAGAGAAGAAACCAGCGACCAGGTAATCGAAGCAAAACCGTTACCGAAGAATGCCAGCGCCATC -AGGCACATAATCATCATCGGATCGTTAGTGTAGTTAGCGCCCATAATGCAGGTGGAGATCAGCAAGCCGCAGATA -ATCGGCGTTTTACGCGCAAAGCCCAGTGAAAAGCCCTTACGTACCAGCAGATCCGCTACCCAGCCAGAGAGCAGG -ACGCCGACAAACGCCGCGAGGAATGGCACCGTGGTCATAAAGCCTGCTTTCAGCGCCGTGATTCCTTTTTCCTGG -GTTAAATAGTTCGGGAACCAGGTTAAGAAAAACCACAGTGTAGAAGCCACCGCAAATTGCCCAAGATAAACGCCG -ATCAGTTTACGATGGAACACCAGTTTCCAGTCTTTGGCTGTTAACGGCTGACGCGCCTCTTTCTTCACCGGCGCA -TCACCATCCACCAGACCGCCGCCATCACGAATGTAATCCAGTTCAGCTTTGCTGATACCTTTGGTCAGGCGCGGC -GGCTGATAAACCTTAAACCAAATCAGCGACCAGATAATGCCGATACCACCAGTGACAATGAACACCCAGTGCCAG -CTCAACATCTCCTGAATCCAGATCAGCAGCGGCGTCAGAAACGCCAGACCGACAAACTGACCAGACGTATAAAAA -CCAACGGCAGAAGCGCGTTCATGTTCCGGGAACCAGCTGGTCACCATCCGGTTATTGGTCGGGAAAGCAGGCGCT -TCGAAAATACCGGTTATCGCGCGCAGACCAATTAATGACATTAAGCCCGTGGCAAAGCCCTGGAATAAAGTCGCC -ACTGACCAGCCAAATATCGCAATAAAATAAGTCACGCGAGAACCTACGCGATCTAAAAACCAACCGCCGGGGATC -TGACATAGCGTATAAAGCCAGGCGAAGGCCGAAAATACATAGCCCATTTCCGCTTTGGTAATGCCGAACTCTTCC -TGAATATGGGCGGAAGCCACGGCCAGGTTGGCGCGGTCGACATAACAAATGACTACCGTAATAAAGATCATCACC -AGCGTCAGATAACGCCGACGCCCCGGCTTTGCTGCATTAACGGGAATATCCATAGCGAGCTTTCTCCAGATTTTG -GGCATAGCGAAGCCGCTCACCATGCCCTGTAATTTACAGAGGGTTATATTTTTGTATTGCTGTTTTAGTGCCCGA -TGAGGGGCTTACGTGGCAGGAATTACCACTCTGCTACGCTGTTATCTTCATGACGCCAGAGCGGATTACGCCAGT -CCGGGGCATTTTTACTGAACTCAATCACTTTAGCTTCGTCGATTTCCACGCCTAAGCCCGGTTTCGTTAACGGTT -TAAAGAAGCCGCCGACCATGCTGAAGTCTTCTTTGTTTTTCACAAAGTCGAGTAACTCCGCGCCTTTGTTGTAAT -GAATTCCCATACTTTGTTCCTGAAGTACGGCGTTATAGGAAACAAAGTCGATATGCAGGCAAGCCGCCAGTGCAA -TCGGTCCGAGCGGACAGTGCGGCGCAAGGGTCACGTCATAGGCTTCTGCCATTCCGGCGATTTTGTAGCATTCGG -TAATACCGCCCGCGTGGGAGAGATCCGGTTGCAGAATCGAAATACCACCTGCCTCCAGCACGCGTTTAAAATCGA -AGCGTGAGAACATGCGTTCACCCGCCGCCAGTGGAATATGCGTTTGTGCCGCCAGTTTCGGGTAGTATTCGGCTT -GTTCCGCCAGCACCGGCTCCTCAATAAACAGCGGGCGATACGGCTCCAGTTCTTTAATCAGCACTTTCGCCATCG -GCGCGCTGACGCGACCGTGGAAATCAAGACCAAACTCAATCTGATTGCCAAAAGCTTCACGAATTTGTGCCACGG -TGTTAACCGCCGCATCTACCGCGCGGGAGTTATCAATTAGCCCCAGTTCTTCACAACCGTTCAGTTTGAAGGTAT -CGAAGCCGATTTCGCGTAGCGTTTTAATGCCGTCGATAACATCCGCCGGACGATCGCCGCCAACCCAACTGTAGG -CTTTAATTTTGTCGCGAACCAGGCCGCCCATCAGTTGCCAGACCGGCGCATTCAGCACTTTACCTTTGATATCCC -ATAACGCCTGGTCAATCCCGGCGATGGCGCTCATCAGGATCGGACCGCCGCGATAGAATCCGGCGCGATACATCA -CTTGCCATAAGTCATTGATGCGCGATGGATCCTGACCAATCAAATAGTCACCCAGCTCGTGAACTGCCGCTTCCA -CCGTACGGGCGCGGCCTTCGATCACGGGCTCGCCCCAACCGACCACGCCTTCATCGGTTTCAATTTTCAGGAACA -TCCAGCGGGGAGGTAAACGATACGTGGTAATTTTGGTGATTTTCATTGCACTGCCTCTCGATACGCCTTAACAAA -TGCTGCTGCCTGCTGCGCGGTGCGCTCTACGGATTGCCCGGCGCGATAGAGATCGCTGCCTAAGCCCGCCCCTGC -ACAACCTGCGTCTATCCACTGCGCCAGGTTTTCTGGCGTCACGCCGCCAACGGCAAAGACTGCGATGTCCGATGG -CAATACCGCTTTTAACGCTTTGATGTATTGCGGACCAAAAGCCGATGACGGAAATATTTTCAGCGCCTGCGCGCC -CGCTTCGAGCGCGGTAAAGGCTTCGGTCGCCGTCGCGCAGCCGGGGCAGACGGTCATGCCGTAGCCCACCGCACG -GCGGATCACTTCACTATGGATATTGGGCGTAACGATGAGCTGACAGCCCATCCTGGCGAGCGCATCGACCTGTTC -AGGTTTCAGTACCGTACCTGCGCCAATCAACGCCTTGTCGCCGTACGCATCAACGATGGCGGGAATGCTTTGCTC -CCATTGTGGGGAATTCAGCGGGATTTCAACCGCGTCGAACCCGGCGTCAATCACCGCGCCAACATGCGCCAGCGC -CTCGTCGGGCGTAATACCGCGCAAAATGGCGATCAGCGGGAGTTTAGTTTGCCACTGCATGAGCGATGCTCCTTA -TACCAGCCTGAAATGCCGTGTCGCCCGCCACCGCCGTCACGTCGCAACCCATCGCCTGAAAGGCTTGCTGGTAGC -GCGCGGTCAGCGATGTTCCGGCGACAAGGGTGATGGCGTGTTGATGGGCCACATAGTCGCGCATACTGGCGACCT -CTGCGCCAATCAACAAACCAGAGAGAAATTCGCTGACCTGTTCGCGGGGAAGTGTTCCCAGCACATGCGAGGCGC -GAACTTCAAAAAGCTGCGGCAATATGGCGGGCGTATTAAGACCACGCTCAAGGCCAGCTGTGAAGGCATCGGCAG -AGTTTTCCTGCGGCGGCAAACCTGCGCCAATCAATGAGTGATTTAACAGTAAATGATGTAATTCACCGGTCATCA -CGGTGCGAAAATCGTTGATTTGCTGGCTATCGGCCTGCACCCATTTGCAATGGGTTCCGGGCATGACATAAAGAG -AGGAAGGAGCCAGAGCTCGCGCGCCGATCAATTGTGTTTCTTCGCCGCGCATCACATTGTGGTTATCGTCATGAG -AGACACATAATCCGGGAATAATCCAGATATTGTCGCCAACTGACGTTAATTGTTCGCCAATAGACGAAAAACAGG -CAGGAACAGATAAATACGGTGCAACTTTCCAGCCGACGTTGCTGCCAACCATTCCTGCCATTACCACTGGCGTTT -TCTCTTCACGCCAGTCGGTCGTGACTTCTGCTAACACCGCAGCCGGAGATTTTCCGTTCAGGCGCGTGACGCCTG -CTTCTGATTGCCTGCTCTCCAGGCAGTGGTCGCCCTGATAAAGCCAGGCGCGCAGATTGGTCGATCCCCAGTCAA -TTGCGATGTAGCGAGCTGTCATGTGATTTCCTTTAACCTTCGTGTCGAGCTGGCGATCATGGTAAGCGCCGCCTG -CTCTGCCGCATCGCCGTCCTGATGTCGTATCGCATCGAACAGCGCCTTATGTTCCTGGAGCGTTTGCGGCATGTT -GGCCTCATCGCCCATCCAGGTTCGTTCAAAAACCGCCCGCTGCAGCGAACTGATCGCAATGCTAAGTTGCTGTAA -CACCGGGTTATGCACCGACTGCAGCACCGCCTCGTGGTAGCGAATATCCGCTTCGTTAAACGCTTCGCGGTCCTG -ATTGTTGGCAATCATCTCGTTCAGCGCCGATTCAATCTGCGCCAGATCGCTGGAAGTCGCGCGCTCTGCTGCCCA -ACGGGCAATCGCCGGTTCCACCAGATTTCGCACTTCGCTCATGGCACTGATAAGCCGTGGGTCGTAGTCATTTTC -CAGCACCCATTGCAGTACGTCAGTGTCGAGGTAATTCCACTGGTTACGCGGTGCCACAAACGCCCCGCGATAACG -TTTCATTTCAATCAGCCGCTTCGCCATCAGCGAACGGAACACCTCACGGATGATGTTGCGCGAGGTTGCAAACTC -CTCACAGAGTTCCGCCTCAGCCGGAAGCGGCGAGCCTGGCACGTATTTGCCGTGAACGATCTGTTTACCCAGCGT -AATGACAATGCGATCGGTTTTATTGAGAGTCATGGAGAGTCCTTGTGCTCTGTATGTTCTTCTCTACTTTACCCC -GATCGATGCATAACGCGGCAACTTTGTAGTACCAGCGTGATGACGTTCGCGTTTGCCGTGCGTGTAATGTAGTAC -AAACTTATATTGTTGTACTACAATTTAGATCACAAAAAGAACAATGCATAAAAAAATGACATGCGTCGGGCAGAA -ATCTGAAAAGGGATATCAGGCGCTAAACAGGAGGGAAAGAAGAGTATGCTTTCAACGGCTTAGCTACTCGTTTAA -AGGATTAATCATGAAGTTGAATTTTAAGGGATTTTTTAAGGCTGCCGGTTTATTCCCACTGGCGCTGATGCTTTC -AGGCTGTATCTCGTATGCTCTGGTTTCCCATACCGCAAAGGGTAGTTCAGGAAAGTATCAATCGCAGTCAGACAC -CATCACTGGGCTATCGCAGGCAAAAGATAGTAATGGAACAAAAGGCTATGTTTTTGTAGGGGAATCGCTGGATTA -CCTTATCACTGATGGTGCCGATGACATCGTTAAGATGCTCAATGATCCAGCACTTAACCGGCACAATATTCAGGT -TGCCGATGACGCAAGATTTGTTTTAAATGCGGGGAAAAAGAAATTTACCGGCACAATATCGCTTTACTACTACTG -GAATAACGAAGAAGAAAAGGCACTGGCAACGCATTATGGTTTTGCCTGTGGTGTTCAACACTGTACCAGGTCACT -GGAAAACCTAAAAGGCACAATCCATGAGAAAAATAAAAACATGGATTACTCAAAGGTGATGGCGTTCTACCATCC -ATTTAAAGTGCGATTTTATGAATACTATTCACCCAGAGGCATTCCGGATGGTGTTTCCGCAGCATTACTGCCAGT -GACTGTTACGCTGGACATCATTACTGCACCGCTGCAATTTCTGGTTGTATATGCAGTAAACCAATAATCAGTAAG -CGGGCAAACGCGTTTATGCTGTTTGCCCGCCCACAGATTAATTCAGCACATACTTCTCAATAGCAAACGCCACGC -CATCTTCAAGGTTAGATTTGGTGACAAAGTTCGCCACTTCTTTCACTGAAGGAATAGCGTTATCCATCGCCACAC -CGACGCCTGCATATTCAATCATTGCGATATCGTTTTCCTGATCGCCAATCGCCATGATTTCTTCCGGTTTAATAC -CTAACACGTCGGCCAGTGATTTCACCCCCGTACCTTTGTTAACGCGTTTATCGAGGATTTCGAGGAAGTACGGCG -CACTTTTCAGCACGGTATATTTCTCTTTCACTTCCTGCGGAATACGCGCGATAGCCTGGTCGAGGATGGCGGGTT -CATCAATCATCATCACTTTCAGGAACTGGGTATTGGGGTCCATTTTCTCCGCTTCGCAGAACACCAGCGGAATGG -TGGCAACGAAGGATTCATGCACCGTGTAGTAGCTGATATCACGGTTGGCGGTGTACAGCGTGGTGCGGTCCAGGG -CGTGGAAATGAGAACCGACTTCGCGAGAGAGTTTTTCCAGGAAACGATAGTCGTCATAGCTGAGAGCAGTTTGCG -CCACGGTGCTACCATCAGCGGCCTTCTGTACCAGCGCGCCGTTATAAGTAATGCAGTAGTCGCCCGGCTGTTCCA -TATGCAGCTCTTTCAGGTAGTTGTGCACACCTGCATACGGGCGACCCGTCGTTAGCACGACATTCACGCCACGGG -CGCGAGCTGCGGCAATCGCATTTTTAACGGCGGGTGAAATGGTGTGATCGGGCAGCAGAAGGGTGCCATCCATAT -CGATAGCAATGAGTTTAATAGCCATGAGTTCCCCAGGTAGATTGGTTCCTGACCCATGCTAACGCGATTCCGCTC -AAAAATCAGTACAACACCCGAGGGAAAAGGGGGATGCAACGCGCGTTGCGTGCTCCCTTTTTGCTTAGCGGAAGA -GTTTCCCTTTCAGCAGTTCCATGCCTGCGGAAAGCAGATCGTTATTGGCTTGTGGTGACACTTCACCTTGCGGTG -AGAGCGCATCAATAATCTTCGGCAATTGTTCTGCCAGTAAACTGGAAGCTGTACTGGTATCCACGCCAAGTTTTT -GCCCGAGATCGGACACCGCATTTGTGCCGAGCGCCGATTCCAGTTGCTCGCCACTAACCGATTGATTGCCCTGTT -GATTACTCAGCCAGGTTGAGAGAATGGCCCCTAAGCCGCCACTTTGCAGTTTTTCCAGCAGCACCTGAATGCCGC -CCTGCTCCTCAACCCAACTTAAAATAGCCTGATATTTCCCCGCATCGCCTTTCAGAAAGGCACCGACAACTTCAT -CAAAAAGCCCCATGATAATCACCTGTAAAGCGTTACGTGTTGACCCAAAAAGTATAGATTTGCGGGATGATAATT -GCGGATTGCAGAAATAAAAAGGGCGGAGATGATCTCCGCCCTTTTCTTATAGCTTCTTGCCGGATGCGGCGTGAA -CGCCTTATCCGGCCTACAAAATCATGAAAATTCAATACATTGCAAGATTTTCGTAGGCCTGATAAGCGTAGCGCA -TCAGGCACGCTCGCATGGTTAGCGCCATTAAATATCGATATTCGCCGCTTTCAGGGCGTTCTCTTCAATAAACGC -ACGGCGCGGTTCAACGGCGTCGCCCATCAGCGTGGTGAACAACTGGTCGGCAGCAATCGCATCTTTAACGGTAAC -GCGCAGCATACGACGACTTTCCGGGTCCATAGTGGTTTCCCACAGCTGTTCCGGGTTCATCTCGCCCAGACCTTT -ATAACGCTGGATGGAGAGGCCGCGACGGGACTCTTTCACCAGCCAGTCCAGCGCCTGCTCGAAGCTGGCTACCGG -CTGACGACGCTCGCCACGTTCGATAAACGCATCTTCTTCCAGCAAGCCACGCAGTTTCTCACCCAGCGTGCAGAT -ACGACGATATTCGCCACCGGTGATAAACTCGTGATCCAGCGGATAGTCAGTATCCACACCGTGGGTACGCACGCG -AACAATCGGCTCGAACAGGTTTTGCTCAGCATTGGTGTGAACATCAAACTTCCACTGGCTGCCGTGCTGTTCTTT -GTCGTTCAGTTCGCTGACCAGCGCGTTCACCCAGCGGGTAACGGTCTGCTCATCAGAAAGGTCAGCTTCCGTCAA -CGTCGGCTGATAGATAAGCTCTTTCAGCATTGCTTTCGGATAACGACGCTCCATACGATTGATCATTTTCTGCGT -CGCGTTGTACTCAGATACCAGTTTCTCTAACGCTTCGCCAGCCAATGCCGGTGCACTGGCGTTGGTGTGCAGCGT -TGCGCCGTCCAGCGCGATAGAGATCTGGTACTGATCCATCGCTTCGTCGTCTTTAATGTACTGTTCCTGCTTGCC -TTTCTTCACTTTGTACAGCGGCGGCTGAGCGATGTAGACGTGACCGCGTTCAACGATTTCCGGCATCTGACGATA -GAAGAAGGTCAACAGCAGCGTACGAATGTGCGAGCCGTCGACGTCCGCATCGGTCATGATGATGATGCTGTGATA -ACGCAGTTTGTCCGGGTTGTACTCGTCACGACCGATACCACAGCCAAGCGCGGTGATAAGCGTCGCCACTTCCTG -AGAAGAGAGCATCTTATCGAAGCGCGCTTTCTCGACGTTGAGGATTTTACCCTTCAGCGGCAGAATCGCCTGGTT -CTTGCGGTTACGCCCCTGCTTCGCAGAGCCGCCCGCGGAGTCCCCTTCCACCAGGTACAGTTCGGAAAGCGCCGG -ATCGCGTTCCTGGCAGTCTGCCAGTTTGCCCGGCAGGCCCGCTAAGTCGAGCGCACCTTTACGGCGGGTCATTTC -ACGCGCGCGACGCGCCGCTTCACGGGCACGGGCAGCATCGATAATTTTGCCAACCACGATTTTCGCGTCGGTTGG -GTTTTCCAGCAGGTATTCTGCCAGCAGTTCGTTCATCTGCTGTTCAACCGCCGATTTCACCTCAGAAGAAACCAG -TTTGTCTTTGGTCTGGGAGGAGAATTTCGGGTCCGGCACTTTCACGGAAACGACCGCAATCAGGCCTTCACGCGC -ATCGTCACCGGTGGCGCTGACTTTGGCTTTTTTGCTGTAGCCTTCTTTGTCCATGTAGGCGTTCAGGGTACGGGT -CATCGCCGCACGGAAGCCTGCCAGGTGAGTACCGCCGTCACGCTGCGGAATGTTGTTGGTAAAGCAGTAGATGTT -TTCCTGGAAGCCATCGTTCCACTGCAACGCCACTTCGACGCCAATACCGTCTTTTTCAGTGGAGAAGTAGAAGAT -ATTCGGGTGGATCGGCGTTTTGTTCTTGTTCAGATATTCAACGAACGCCTTGATGCCGCCTTCATAGTGGAAGTG -GTCTTCTTTGCCGTCGCGCTTGTCGCGCAGACGAATGGAAACGCCGGAGTTGAGGAACGACAACTCACGCAGACG -TTTCGCCAGAATTTCATATTCGAACTCGGTCACATTGGTGAAGGTTTCGAGGCTGGGCCAGAAACGCACCATGGT -GCCGGTTTTTTCAGTCTCGCCGGTAACCGCCAGCGGGGCCTGCGGTACACCGTGTTCGTAGATCTGACGGTGAAT -TTTACCCTCGCGCTGGATAACCAGCTCCAGTTTTTGCGACAGGGCGTTTACTACCGAAACACCAACGCCGTGCAG -ACCGCCGGACACTTTATAGGAGTTATCGTCAAATTTACCGCCTGCGTGCAGAACGGTCATGATCACTTCCGCCGC -CGATACGCCCTCTTCCGGGTGAATACCGGTCGGAATGCCGCGCCCGTCATCCTGTACAGAGACAGAGTTATCGGC -GTGAATGGTGACGATAATTTCTTTACAGTGACCCGCGAGCGCTTCGTCGATAGCGTTATCTACCACCTCGAATAC -CATGTGGTGCAGACCGGTGCCGTCATCCGTGTCGCCGATATACATACCCGGGCGCTTACGCACCGCATCCAGCCC -TTTCAGGACTTTGATACTGGAGGAGTCATAAGAATTCGACATCAACGTTTCTCGCTCATTTATACTTGGGTTAAT -CCGTTATTTTACCCTTTTCCACGGTAAACATCTTCGAATTTTCGTCCGACATGTCTATAACGTGTTCAGCACTGA -TCGCGCTGACAAAGACCTGTGATTGCGTCGCTTTTAAGCGGCTGGCAAGCAGCCCGCGACGCTCATCATCAAGCT -CAGAGGCAAAATCATCTATCAGGTAGAGACACCGCCGCCCGCTTTCACGGGTGAGGAACTCTCCTTGCGCCAGAC -GTAAGGCGCACATCAACAGCTTAAGCTGCCCACGCGATAAGGTATCTTCCACCGGCGCACCGTCGGCGCGAATGC -GTAAGTCCGCTTTGTGCGGGCCGTGCGCGGTGTAGGTTAGCTGGCGATCGCGTTCAAAATTACGTTCCAGCACCT -CAGCATATTCTGTCTCTTTCTCCCAGCCGCGCTGGAAAGAGAAAGTCAGAGAAAACTCAGGGAGAAATTGCTTAC -AGGTATCAGCCATATCGGCCGCGATACCGGCGCTATACTCCGCGCGCCAGGTGCTGATTTGCTCCGCCAGCGGGA -TCAGCTCTTTATCCCACGGGCGTAGCTGTTCGTAACGTGTCACCTGGCGCAGCGCCGCATTGCGCTGCTTGAGCA -ATCGCTTGAGATTGCTCCAGGCGGTGAAAAATCCGGGTTCGTTGTGAAAGCATCCCCAGTCGAGGAATGCTCTTC -TGTATTTGGGGCCGCCGTTGAGTAAAGTAAACCCTTCTGGCGTTATCAACTGCATTGGCATCAGGTGCGCCAGTT -CCGCGACCTTATGCCCGTCTGTACCGTCGATGCGGACTTTGCTGTCGCCCTGTTTGTCTTTGGTTAAGCCAATCG -CTGTCTCGCGCTCTTCGCCCTGTAATCGCCCGTGGAGAACAAACGCCTCCTGCTCATGGCGAATGACGCGACCAA -TCTGCAAACTGCGAAACGCCCGACCATGGCCGAGCGTATAGATGGCTTCCAGCACGCTGGTTTTGCCACTGCCGT -TGGCACCTACCAGAAAGTTAAAGCCGGGAGATAAGGCGAGATCCGCGGTTTCAATGTTGCGGAAATCGCGGATCA -ACAAGCGGGTGAGGGACATTACAGTCTCATTGGCATGACAACATAAGCCGCGCTCTGGCTGGCCGCATCTTCAAT -CTGCACGCTGGAAACCGAATCGGTCAGCATCATGCGGACGTTTTCGCATTTCAGCGCGTTCAGAACATCCAGCAC -ATAACTGACGTTGAAGCCGATTTCCATCTCCGCACCGCTATAGGTAACGTCGAGGATCTCTTCCGCTTCTTCCTG -TTCCGGGTTGTTGGCGGTGATTTTCAGCTGGTTTTCGCTGACATAAAGACGTACGCCGCGGAATTTCTCGTTAGA -GAGAATCGCCGCGCGAGCAAACGCCTGCTTGAGCAGATCGCAGCCAGCTTCCAGATGTTTGTCCGGGTTCTTCGG -CAGAACGCGGCGATAATCCGGGAAGCGACCATCCACCAGTTTGGAGGTGAAGATAAAGTCGCCAACGTGGGCGCG -AATGTTGTTGCTGCCAATCTGTACGCGCAGCGGATTGTCGCCGCCGTCGAGCATACGCATCAGTTCAATCACGCC -TTTACGCGGTACGATCACCGAATGGCTTGGCAAAGATTGACCAATTGGCATTGAACAGACCGCCAGACGGTGGCC -GTCGGTTGCCACGGTGCGCAGTTCTTCACCTTCGGTTTCAAACAGCATACCATTTAAGTAATAGCGAACGTCCTG -ATGCGCCATAGAAAACTGGGTCGCTTCAATCAGACGCTTCATCGTTGCCTGCGGCAGGGTAAATTCGACTTCACT -CTGCCAGTCATCGAGGTTCGGGAAATCCGCCGCTGGCAGGGTAGACAGCGAAAAACGGCTACGCCCGGAGCGTAC -CAGCATCCGTTCACCTTCCAGCTGCACGGCAATTTCCGCGCCTTCAGGCAGACCACGGCAGATATCAAAGAATTT -GCGCGCCGGAACGGTCGTCGCTCCTGGCTCGTGTGGCTGAACCAGCGCAACACGTGCCACCATTTCCATCTCGAG -ATCAGTACCGGTCAGCGACAACGTACCGTCAGCAACCTGTAACAGCAGATTACCGAGAATCGGTAGCGTAGGACG -ACCACCTAACGGACCGCTCACCTGTTGTAGCGGTTTTAATAAATGCTCACGTTCTACGGTAAATTTCATAGGTTT -ACGATGACAATGTTCTGATTAAATTTGAAAAATCTTCTTTGATATCGTGGCTCTCTTCACGCAACTGCTCGATCT -TACGGCAGGCATGAAGCACCGTCGTGTGGTCACGGCCACCAAACGCATCGCCAATCTCCGGCAGACTGTGGTTAG -TCAGCTCTTTCGCCAGCGCCATCGCCATCTGGCGCGGACGCGCCACCGAGCGGGATCGACGCTTGGAAAGGAGAT -CCGCGACTTTGATCTTGTAGTACTCCGCCACCGTCTTCTGAATATTGTCGATGGTGACCAGTTTTTCCTGCAATG -CCAGCAAGTCGCGCAGCGCCTCACGCACGAAGTCGATGGTGATCGCCCGTCCGGTAAAGTTGGCATTGGCAATGA -CGCGGTTCAGCGCCCCTTCCAGCTCACGTACGTTAGATCGTAGACGCTTGGCGATAAAGAACGCCACTTCGCCCG -GCAAACGAATGTCGTTTTCGTCGGCCTTTTTCATCAGGATCGCCACACGGGTTTCCAGCTCTGGCGGTTCGATCG -CCACAGTCAGTCCCCAACCGAAGCGGGATTTCAAACGATCCTCAACGCCGTTGATCTCTTTCGGATAGCGATCCG -AGGTGAGAATGATCTGTTGATTACCTTCCAGCAGGGCGTTGAAGGTGTGGAAAAACTCTTCCTGAGATCGTTCTT -TATTAGCAAAAAACTGAATATCGTCGATCAGCAGTGCATCTACGGAACGGTAGTAGCGTTTAAACTCTTCGATCG -CGTTGTTTTGCAGGGCTTTAACCATGTCCTGAACAAAGCGCTCGGAGTGCATATAAACCACTTTGGCATTCGGCT -TGCGCGCCATAATGCCGTTACCCACCGCATGCAGCAGGTGAGTTTTACCCAGACCCGTGCCGCCATAAAGGAACA -ACGGGTTATAGGCACCGCCAGGGTTATCCGCCACCTGGCGAGCCGCCGCGCGCGCCAGTTGGTTAGATTTACCTT -CAACGAAGTTATCAAACGTGTGTTTGACGTTTACGTTAGAACGATAGGTCGGTTCTGCCGGGGCCGGGACGTTAT -CCCAACCTGAGCGCGTAGAAGGCGCAGCACGTTGCGGCTGCGTTTGCGCCACCTGTGCAGGGGCCGCGACGTTGC -TCGTCACTGCCGCTTGTGGCGTTTGCGTCACCGGTTTGGTGCCGACTTCAAAACGCAGCTGTGGGGCATCCGCTC -CGCAGAAACTGGTTAGCAGTCCATTGATATTATTAAGGTACTTGTCCCGTACCCAATCGAGGACAAAACGGTTTG -GCGCGTACAGGGCCAGCGTGTTATCGCTCAGTTCCGCCTGCAATGGGCGTATCCACATACTGAATTCTGTGGCTG -GTAACTCATCCTGCAATCGGGCAAGACACTGCTGCCAAAGCGAAAGTGACACGGCGGACTCCACTCGAACAAAAG -TCGATAATGACTAAGGCTGAAACATTCATGATTGTTGACGTACGTCGAAAAGACCCTGCTTGAGGGTGACGCACG -AACCGCTGTCTGCGGTTATATGCCCGATCAAGATCCTGCAAAACGATCGGGACCGCGGATCATAGCCTAAACTGC -GCAAGAGATCTTCTGTTTCTCACAGATTTTCCCGATTTATCCACAGGACTTTCCAGAACTCGCTAAGTGTAAACG -ATCCTGCCGCGAGGCGGGCACGATTTACGCCGCATATTGGAAAATTTAATGACCATAGACAAAAATTGGCTTAAT -CGATCTAATAAAGATCCAGGACGATCCTTGCGCTTTACCCATCAGCCCGTATAATCCTCCACCCGGCGCGCCATG -CTGGTTTCCACTGGTGTGAGGTCGTACATTTTCCCTGCGAAAAGGTGCGGAAAAGCGCGGTAAATAAGGAAAGAG -AATTGACTCCGGAGTGTACAATTATTACAATCCGGCCTCTTTAATCACCCATGGCTTCGGTGTCCATCGTTTCAT -TTTTCGGCGGATATCCAATAAAGCCATTGAATTTATTCAAGTTTAGGTAGAAATCGCCATGAAACGCACTTTTCA -ACCGTCTGTACTGAAGCGCAACCGTTCTCACGGCTTCCGTGCTCGTATGGCTACTAAAAATGGTCGTCAGGTTCT -GGCACGTCGTCGTGCTAAAGGCCGCGCTCGTCTGACCGTTTCTAAGTAATAAAGCTAACCCCTGAGTGGTTAAGC -TCGCATTTCCCAGGGAGTTACGCTTGTTAACTCCCAGTCAATTCACATTCGTCTTCCAGCAGCCACAACGGGCTG -GCACGCCGCAAATTACCATTCTCGGCCGCCTGAATTCGCTGGGGCATCCCCGTATCGGTCTTACAGTCGCCAAGA -AAAACGTTCGACGCGCCCATGAACGCAATCGGATTAAACGTCTGACGCGTGAAAGCTTCCGTCTGCGCCAACATG -AACTCCCGGCTATGGATTTCGTGGTGGTGGCGAAAAAAGGGGTTGCCGACCTCGATAACCGTGCTCTCTCGGAAG -CGTTGGAAAAATTATGGCGCCGCCACTGTCGCCTGGCTCGCGGGTCCTGATAGCCCTCATTCGGGTCTATCAACG -CCTGATTAGTCCGCTACTCGGGCCGCATTGTCGTTTCACTCCAACCTGTTCAAGCTACGGAATTGAGGCATTGCG -CAGGTTTGGAGTGATAAAAGGCAGTTGGTTGACGGTGAAACGCGTATTAAAATGCCACCCTTTACACCCTGGTGG -TGACGATCCCGTCCCGCCCGGACCATTTGATACCAGAGAACACTAACGATGGATTCGCAACGCAATCTTTTAGTC -ATCGCTTTGCTGTTCGTGTCTTTCATGATCTGGCAAGCCTGGGAGCAGGATAAAAACCCGCAACCTCAGGCCCAA -CAGACCACGCAGACAACGACCACCGCAGCGGGTAGCGCCGCCGACCAGGGCGTACCGGCCAGTGGCCAGGGGAAA -CTGATCTCGGTTAAGACCGACGTGCTTGATCTGACCATCAACACCCGTGGTGGTGATGTTGAGCAAGCTCTGCTG -CCTGCTTACCCGAAAGAGCTGAACTCTACCCAGCCGTTCCAGCTGTTGGAAACTTCACCGCAGTTTATTTATCAG -GCACAGAGCGGTCTGACCGGTCGTGATGGCCCGGATAACCCGGCTAACGGCCCGCGTCCGCTGTATAACGTTGAA -AAAGACGCTTATGTGCTGGCTGAAGGTCAAAACGAACTGCAGGTGCCGATGACGTATACCGACGCGGCAGGCAAC -ACGTTTACCAAAACGTTTGTCCTGAAACGTGGTGATTACGCTGTCAACGTCAACTACAACGTGCAGAACGCTGGC -GAGAAACCGCTGGAAATCTCCTCGTTTGGTCAGTTGAAGCAATCCATCACTCTGCCACCGCATCTCGATACCGGA -AGCAGCAACTTCGCACTGCACACCTTCCGTGGCGCGGCGTACTCCACGCCTGACGAGAAGTATGAGAAATACAAG -TTCGATACCATTGCCGATAACGAAAACCTGAACATCTCTTCGAAAGGTGGTTGGGTGGCGATGCTGCAACAGTAT -TTCGCGACGGCGTGGATCCCGCATAACGACGGTACCAACAACTTCTATACCGCTAATCTGGGTAACGGCATCGCC -GCTATCGGCTATAAATCTCAGCCGGTACTGGTTCAGCCTGGTCAGACTGGCGCGATGAACAGCACCCTGTGGGTT -GGCCCGGAAATCCAGGACAAAATGGCAGCTGTTGCTCCGCACCTGGATCTGACCGTTGATTACGGTTGGTTGTGG -TTCATCTCTCAGCCGCTGTTCAAACTGCTGAAATGGATCCATAGCTTTGTGGGTAACTGGGGCTTCTCCATTATC -ATCATCACCTTTATCGTTCGTGGCATCATGTACCCGCTGACCAAAGCGCAGTACACCTCCATGGCGAAGATGCGT -ATGTTGCAGCCGAAGATTCAGGCAATGCGTGAGCGTCTGGGCGATGACAAACAGCGTATCAGCCAGGAAATGATG -GCGCTGTACAAAGCTGAGAAGGTTAACCCGCTGGGCGGCTGCTTCCCGCTGCTGATCCAGATGCCAATCTTCCTG -GCGTTGTACTACATGCTGATGGGTTCCGTTGAACTGCGTCAGGCACCGTTTGCACTGTGGATCCACGACCTGTCG -GCACAGGACCCGTACTACATCCTGCCGATCCTGATGGGCGTAACGATGTTCTTCATTCAGAAGATGTCGCCGACC -ACAGTGACCGACCCGATGCAGCAGAAGATCATGACCTTTATGCCGGTCATCTTCACCGTGTTCTTCCTGTGGTTC -CCGTCAGGTCTGGTGCTGTACTATATCGTCAGCAACCTGGTAACCATTATTCAGCAGCAGCTGATTTACCGTGGT -CTGGAAAAACGTGGCCTGCATAGCCGCGAGAAGAAAAAATCCTGATTCGGTGAGTTTTCGCTAAAATAAGGGCGG -TCAGTTGACCGCCTTTTTTCTTTTCGTAGGGCGGATAAGCACCGCGCATCCGCCACACAAAGCAACAGGAACATC -ATGAGCGATAATGACACTATCGTAGCCCAGGCCACGCCTCCGGGACGTGGCGGCGTTGGCATCCTGCGCATCTCC -GGCTTCAAAGCCCGTGAAGTTGCCGAAACCGTGCTGGGTAAACTGCCTAAGCCGCGCTACGCCGATTATCTTCCG -TTTAAAGACGCCGACGGCAGCGTGCTCGATCAGGGGATTGCGCTATGGTTCCCTGGCCCGAACTCGTTCACCGGC -GAAGATGTGCTGGAACTGCAAGGTCATGGCGGTCCGGTGATCCTCGACCTGCTGTTAAAACGCATTCTGACCATT -CCCGGCCTGCGGATTGCTCGCCCTGGTGAGTTTTCCGAACGCGCGTTTCTTAACGATAAACTTGACTTAGCCCAG -GCCGAGGCGATTGCCGATCTTATCGACGCCAGTTCGGAACAGGCGGCCCGTTCGGCACTTAACTCGCTGCAAGGC -GCATTCTCCGCACGGGTTAATCATCTGGTAGAAGCCCTCACCCACTTGCGCATTTACGTCGAAGCGGCAATTGAT -TTCCCCGATGAAGAGATCGATTTCCTCTCCGACGGAAAAATTGAAGCCCAGCTCAATGACGTTATTGCCGATCTT -GATGCAGTGCGTGCTGAAGCACGTCAGGGTAGTTTGTTGCGCGAAGGGATGAAAGTGGTGATTGCCGGACGTCCT -AACGCCGGTAAATCGAGCCTGTTAAACGCGCTGGCGGGGCGTGAAGCGGCAATCGTAACCGATATCGCCGGAACT -ACGCGTGACGTGCTGCGTGAGCATATCCACATTGACGGAATGCCGCTGCATATCATCGATACCGCCGGGCTACGT -GAAGCCAGTGACGAAGTAGAACGTATTGGTATCGAGCGCGCGTGGCAGGAAATTGAACAGGCCGACCGCGTGCTG -TTTATGGTCGATGGCACCACAACAGACGCCGTGGATCCGGCAGAGATCTGGCCGGAATTTATTGCCCGTCTGCCA -GCGAAACTGCCGATCACCGTGGTGCGCAATAAAGCCGATATCACCGGCGAAACGCTGGGAATGAGTGAAGTGAAC -GGTCACGCGTTAATTCGTCTCTCGGCAAGGACTGGTGAAGGCGTGGACGTGCTGCGTAACCATCTCAAACAGAGC -ATGGGCTTTGACACCAACATGGAAGGCGGCTTCCTGGCGCGTCGTCGCCACCTACAGGCGCTGGAACAGGCAGCG -GAACATCTACAACAGGGCAAAGCGCAACTGTTGGGAGCCTGGGCAGGTGAACTGCTGGCGGAAGAGTTGCGTCTG -GCACAGCAGAACTTAAGCGAAATCACCGGGGAATTTACTTCAGACGACCTGCTGGGGCGGATTTTCTCCAGCTTC -TGTATTGGTAAGTAACCGCGCTTACGAAGCCGCATTCTGACTGTCAGATGCGGCTTCGCTTCATTGTTACCACTC -CTGTTATTCCTCAACCCTTTTTTTAAACATTAAAATTCTTACGTAATTTATAATCTTTAAAAAAAGCATTTAATA -TTGCTCCCCGAACGATTGTGATTCGATTCACATTTAAACAATTTCAGAATAGACAAAAACTCTGAGTGTAATAAT -GTAGCCTCGTGTCTTGCGAGGATAAGTGCATTATGAATATCTTACATATATGTGTGACCTCAAAATGGTTCAATA -TTGACAACAAAATTGTCGATCACCGCCCTTGATTTGCCCTTCTGTAGCCATCACCAGAGCCAAACCGATTAGATT -CAATGTGATCTATTTGTTTGCTATATCTTAATTTTGCCTTTTGCAAAGGTCATCTCTCGTTTATTTACTTGTTTT -AGTAAATGATGGTGCTTGCATATATATCTGGCGAATTAATCGGTATAGCAGATGTAATATTCACAGGGATCACTG -TAATTAAAATAAATGAAGGATTATGTAATGGAAAACTTTAAACATCTCCCTGAACCGTTCCGCATTCGTGTTATT -GAGCCAGTAAAACGTACCACTCGCGCTTATCGTGAAGAGGCAATTATTAAATCCGGTATGAACCCGTTCCTGCTG -GATAGCGAAGATGTTTTTATCGATTTACTGACCGACAGCGGCACCGGGGCGGTGACGCAGAGCATGCAGGCTGCG -ATGATGCGCGGCGACGAAGCCTACAGCGGCAGTCGTAGCTACTATGCGTTAGCCGAGTCAGTGAAAAATATCTTT -GGTTATCAATACACCATTCCGACTCACCAGGGCCGTGGCGCAGAGCAAATCTATATTCCGGTACTGATTAAAAAA -CGCGAGCAGGAAAAAGGCCTGGATCGCAGCAAAATGGTGGCGTTCTCTAACTATTTCTTTGATACCACGCAGGGC -CATAGCCAGATCAACGGCTGTACCGTGCGTAACGTCTATATCAAAGAAGCCTTCGATACGGGCGTGCGTTACGAC -TTTAAAGGCAACTTTGACCTTGAGGGATTAGAACGCGGTATTGAAGAAGTTGGTCCGAATAACGTGCCGTATATC -GTTGCAACCATCACCAGTAACTCTGCAGGTGGTCAGCCGGTTTCACTGGCAAACTTAAAAGCGATGTACAGCATC -GCGAAGAAATACGATATTCCGGTGGTAATGGACTCCGCGCGCTTTGCTGAAAACGCCTATTTCATCAAGCAGCGT -GAAGCAGAATACAAAGACTGGACCATCGAGCAGATCACCCGCGAAACCTACAAATATGCCGATATGCTGGCGATG -TCCGCCAAGAAAGATGCGATGGTGCCGATGGGCGGCCTGCTGTGCATGAAAGACGACAGCTTCTTTGATGTGTAC -ACCGAGTGCAGAACCCTTTGCGTGGTGCAGGAAGGCTTCCCGACATATGGCGGCCTGGAAGGCGGCGCGATGGAG -CGTCTGGCGGTAGGTCTGTATGACGGCATGAATCTCGACTGGCTGGCTTATCGTATCGCGCAGGTACAGTATCTG -GTCGATGGTCTGGAAGAGATTGGCGTTGTCTGCCAGCAGGCGGGCGGTCACGCGGCATTCGTTGATGCCGGTAAA -CTGTTGCCGCATATCCCGGCAGACCAGTTCCCGGCACAGGCGCTGGCCTGCGAGCTGTATAAAGTCGCCGGTATC -CGTGCGGTAGAAATTGGCTCTTTCCTGTTAGGCCGCGATCCGAAAACCGGTAAACAACTGCCATGCCCGGCTGAA -CTGCTGCGTTTAACCATTCCGCGCGCAACATATACTCAAACACATATGGACTTCATTATTGAAGCCTTTAAACAT -GTGAAAGAGAACGCGGCGAATATTAAAGGATTAACCTTTACGTACGAACCGAAAGTATTGCGTCACTTCACCGCA -AAACTTAAAGAAGTTTAATTAATACTACAGAGTGGCTATAAGGATGTTAGCCACTCTCTTACCCTACATCCTCAA -TAACAAAAATAGCCTTCCTCTAAAGGTGGCATCATGACTGATCAAGCTGAAAAAAAGCACTCTGCATTTTGGGGT -GTTATGGTTATAGCAGGTACAGTAATTGGTGGAGGTATGTTTGCTTTACCTGTTGATCTTGCCGGTGCCTGGTTT -TTCTGGGGTGCCTTTATCCTTATCATTGCCTGGTTTTCAATGCTTCATTCCGGGTTATTGTTATTAGAAGCAAAT -TTAAATTATCCCGTCGGCTCCAGTTTTAACACCATCACCAAAGATTTAATCGGTAACACCTGGAACATTATCAGC -GGTATTACCGTTGCCTTCGTTCTCTATATCCTCACTTATGCCTATATCTCTGCTAATGGTGCGATCATTAGTGAA -ACGATATCAATGAATTTGGGTTATCACGCTAATCCACGTATTGTCGGGATCTGCACAGCCATTTTCGTTGCCAGC -GTATTGTGGTTAAGTTCGTTAGCCGCCAGTCGTATTACCTCATTGTTCCTCGGGCTGAAGATTATCTCCTTTGTG -ATCGTGTTTGGTTCTTTTTTCTTCCAGGTCGATTACTCCATTCTGCGCGACGCCACCAGCTCCACTGCGGGAACG -TCTTACTTCCCGTATATCTTTATGGCTTTGCCGGTGTGTCTGGCGTCATTTGGTTTCCACGGCAATATTCCCAGC -CTGATTATTTGCTATGGAAAACGCAAAGATAAGTTAATCAAAAGCGTGGTATTTGGTTCGCTGCTGGCGCTGGTG -ATTTATCTCTTCTGGCTCTATTGCACCATGGGGAATATTCCGCGAGAAAGCTTTAAGGCGATTATCTCCTCAGGC -GGCAACGTTGATTCGCTGGTGAAATCGTTCCTCGGCACCAAACAGCACGGCATTATCGAGTTTTGCCTGCTGGTG -TTCTCTAACTTAGCTGTTGCCAGTTCGTTCTTTGGTGTCACGCTGGGGTTGTTCGATTATCTGGCGGACCTGTTT -AAGATTGATAACTCCCACGGCGGGCGTTTCAAAACCGTGCTGTTAACCTTCCTGCCACCTGCGTTGTTGTATCTG -ATCTTCCCGAACGGCTTTATTTACGGGATCGGCGGTGCCGGGCTGTGCGCCACCATCTGGGCGGTCATTATTCCC -GCAGTGCTTGCAATCAAAGCTCGCAAGAAGTTTCCCAATCAGATGTTCACGGTCTGGGGCGGCAATCTTATTCCG -GCGATTGTCATTCTCTTTGGTATAACCGTGATTTTGTGCTGGTTCGGCAACGTCTTTAACGTGTTACCTAAATTT -GGCTAAATCCTTCAAGAAGCCAGCCATTCGCTGGCTTCTTGCCTCTCAGGAAATCACTTATGTCCAAATGGCAAC -TCGCCTGATCCTCCTTCACCACGTATGCTTTGCGTCACCTTACTATCAGGACGCTTTAGCCCATGTCCCGCTTTT -TGATTTGTAGTTTTGCCCTGGTTTTACTTTATCCCGCCGGGATTGATATGTACCTCGTTGGTTTACCGCGCATCG -CCGCCGATCTCAATGCCAGCGAAGCGCAGTTGCATATTGCGTTCTCCGTATATCTGGCGGGGATGGCAGCTGCGA -TGTTATTTGCCGGTAAAGTGGCCGATCGTTCAGGGAGAAAGCCGGTCGCCATACCCGGCGCGGCGCTATTTATTA -TTGCCTCGGTGTTCTGTTCACTGGCTGAAACCAGCACGTTATTTCTTGCAGGCCGATTTCTACAGGGGTTGGGCG -CAGGCTGTTGTTACGTAGTGGCGTTCGCTATTTTGCGCGACACGCTGGATGATCGACGTCGGGCTAAAGTGCTGT -CATTACTCAACGGTATTACCTGCATCATTCCGGTGTTAGCGCCAGTGCTCGGACATCTGATTATGCTTAAATTCC -CGTGGCAGAGTCTGTTCTGGGCGATGGCAATGATGGGCATCGCGGTACTGATGTTGTCTTTGTTTATTTTAAAAG -AAACGCGCCCAGCGGCCCCCGCAGCTTCGGATAAACCACGAGAAAATAGCGAGTCGCTGCTTAACCGTTTTTTCC -TCAGCCGTGTTGTTATCACCACCCTCAGCGTTTCGGTGATCCTCACTTTCGTCAACACGTCACCGGTATTGCTGA -TGGAAATCATGGGGTTTGAGCGCGGTGAATACGCCACCATTATGGCGCTGACCGCTGGCGTCAGCATGACCGTTT -CATTCTCCACGCCATTTGCGCTGGGAATTTTTAAGCCACGTACGTTGATGATCACCTCGCAGGTGTTATTCCTGG -CGGCGGGGATCACTCTTGCCGTTTCACCTTCCCATGCGGTTTCTCTGTTTGGTATCACGCTGATTTGCGCCGGTT -TCTCGGTAGGTTTTGGTGTGGCGATGAGTCAGGCGTTAGGGCCGTTTTCATTACGCGCGGGCGTAGCCAGCTCGA -CCTTAGGTATTGCGCAGGTTTGCGGTTCGTCACTGTGGATTTGGCTGGCAGCGGTGGTTGGTATCGGCGCATGGA -ATATGCTGATCGGGATTCTGATTGCCTGTAGCATAGTGAGCCTGTTGCTGATTATGTTCGTCGCGCCTGGACGCC -CCGTTGCCGCTCATGAAGAAATCCATCACCACGCTTGATCTCAATCTGCTGCTTTGTCTGCAACTGCTGATGCAG -GAGCGCAGCGTAACCAAAGCGGCGAAGCGGATAAACGTGACACCTTCGGCGGTGAGTAAGTCGCTGGCAAAGTTA -AGAGCGTGGTTTGACGACCCGCTCTTTGTGAACTCACCGCTGGGTCTGTCGCCCACACCGCTGATGGTCAGCATG -GAGCAAAATCTGGCGGAGTGGATGCAAATGAGCAACCTGCTGCTGGATAAACCGCACCACCAGACACCGCGCGGC -CTGAAGTTTGAGCTGGCGGCGGAATCACCGCTGATGATGATCATGCTTAATGCGCTGTCGAAACAGATCTACCAA -CGTTACCCGCAGGCGACCATCAAATTACGTAACTGGGATTACGATTCCTTAGATGCCATTACTCGTGGTGAAGTG -GATATCGGTTTTTCCGGTCGCGAAAGCCATCCTCGCTCGCGGGAGCTGTTAAGCTCGCTACCGTTAGCCATTGAT -TATGAAGTGCTGTTTAGTGATGTGCCCTGCGTCTGGTTACGCAAAGATCATCCGGCACTGCATCAAACGTGGAAT -CTGGACACCTTCTTACGTTATCCGCATATCAGCATTTGCTGGGAACAGAGCGATACCTGGGCGCTGGACAATGTG -TTACAGGAGCTGGGACGCGAACGCACGATTGCTATGAGCCTGCCGGAATTCGAGCAGTCACTGTTTATGGCAGCG -CAACCCGACAATCTGCTACTGGCGACCGCGCCGCGCTACTGTCAGTACTACAATCAACTCCATCAACTGCCGTTG -GTTGCTCTTCCTCTCCCGTTTGACGAAAGCCAGCAAAAAAAGCTGGAAGTTCCTTTTACCCTGCTGTGGCATAAA -CGGAACAGCCATAATCCGAAGATCGTCTGGTTACGGGAAACCATTAAAAACCTTTACGCGTCGATGGCATAACCG -AATCGTATGAAACGCGACCCAATTTCACAATAAAATGTAAAAAAGTTGTAATAAGCTTGTCTGAATCGAACTTTT -AGCCGCTTTAGTCTGTCCATCATTCCAGTAAATGATTACTCTTGTATTCATAATGGACCATTAAGCATGGAGCGA -AAAATGGCGACTCACTTTGCCCGAGGGATTTTAACGGAAGGACATCTGATTTCTGTTCGTCTCCCCTCCCAGTGT -CATCAAGAAGCCCGAAACATTCCCCCTCATCGTCAAAGCCGTTTTCTGGCGTCCAGAGGTTTACTCGCAGAACTG -ATGTTCATGCTGTATGGCATTGGCGAATTGCCGGAAATCGTCACCCTGCCGAAAGGTAAACCGGTTTTCAGTGAT -AAAAATTTGCCTTCGTTTTCCATTTCCTATGCCGGGAATATGGTTGGCGTGGCGTTAACAACCGAAGGTGAATGT -GGCCTCGATATGGAACTACAGCGTGCGACGCGCGGGTTTCATAGCCCACACGCGCCCGATAACCACACCTTTTCC -AGCAATGAATCGCTATGGATCAGTAAACAAAACGATCCTAACGAAGCGCGGGCGCAGCTCATCACGCTGCGCCGA -AGCGTGCTAAAACTAACCGGTGATGTTTTGAATGACGATCCGCGCGATCTGCAGCTGCTGCCCATTGCCGGACGC -CTGAAATGTGCTCATGTAAATCATGTAGAAGCGTTATGCGACGCGGAAGACGTGCTGGTGTGGTCCGTGGCGGTC -ACGCCCACGATTGAAAAGCTCAGTGTCTGGGAGTTAGATGGCAAACACGGCTGGAAAAGCCTGCCGGATATTCAC -AGCCGCGCCAACAATCCTACCAGCCGGATGATGCGTTTTGCCCAACTCTCTACCGTGAAGGCTTTTTCGCCAAAT -TGATAGACAACCACAGGAGTCATCATGTCTGAAAAATTGCAGGTGGTTACGTTACTGGGGAGCCTGCGCAAAGGC -TCATTTAATGGCATGGTTGCACGTACCCTGCCGAAAATTGCTCCGGCGAGCATGGAAGTCAATGCGTTACCATCC -ATTGCCGACATTCCCTTGTATGACGCTGACGTACAGCAGGAAGAAGGTTTTCCAGCAACGGTTGAAGCTCTGGCG -GAACAGATCCGTCAGGCTGACGGTGTGGTGATCGTCACGCCGGAATATAACTACTCGGTACCGGGTGGGCTGAAA -AATGCCATCGACTGGCTTTCCCGCCTGCCGGATCAACCGCTGGCCGGTAAACCGGTATTGATTCAGACCAGCTCA -ATGGGCGTGATTGGCGGCGCGCGCTGTCAGTATCACCTGCGCCAGATTCTGGTTTTCCTCGATGCAATGGTGATG -AACAAGCCGGAATTTATGGGCGGCGTGATTCAGAACAAAGTTGATCCGCAAACCGGAGAAGTGATTGATCAGGGT -ACGCTGGACCACCTGACCGGGCAATTGACCGCATTTGGTGAGTTTATTCAGCGAGTTAAGATCTAAATAAAAAAC -CCGCCAGCAATCATGCATGGCGGGTTTTTAACGCGCTATCGATTTTAGTGAGCGTCGATAAAGACAATCTTCAGG -ATAAACAGCAGCGCAACGATGATTACGCACGGGCTTAGATCACGCAGACGTCCGGTACCGATTTTCATCACGCAG -TAGGAGATAAAGCCCAGCGCGATACCTTCGGTAATCGAGAAGCTGAACGGCATCATCACGGCGGTAATAAACGCC -GGAACAGATTCAGTAAGATCCTGCCAGTTCACGCGTGCCAGACTGGAAGTCATCAGCACGCCAACGTAAATCAGC -GCACCAGCTGCAGCGTAGCCTGGCACCATCCCCGCCAGCGGCGACAGAAAGATAACCAGCAGGAACAGCAGACCA -ACAACCACTGCCGTCAGACCGGTACGACCGCCAACCGATACGCCGGAAGAGGACTCAATATAAGCCGTAACGGAA -GAAGTACCGATAAACGAACCGGTCACGGAAGAGATACTGTCGACATACAGCGCCTGCTTCATGCGCGGGAATTTC -CCCTTCTCATCCGCCAGACCTGCTTTATCGGTCACGCCAATCAGCGTACCGGAGGAGTCAAACAAGTTGACCAAC -ATGAAAGAGAAAATCACCCCTGCCAGCCCGAGGTTAAACGACCCGGCTAAATCTACATGACCCACAACTGTCATT -ACGCTCGGCGGCGCAGAAACGATGCCATTGTAGTGCACATCACCCAGCATCCAGCCCAGCAGCGTCGTCACCACG -ATAGAAACCAGCACCGCTGCGTGAATGTTGCGCGAGGCCAGAATAGCAATGATGAAGAAGCCGAGGATACCCAGA -AGTACGCTGTGAGAAGTCAGATTACCGATGCTCACCAGCGTTTCCGGGTTAGCGACAATCACACCTGCGTTTTTC -AGCCCCATCATGCCAATGAACAGACCGATACCGCTGGTAATACCCACACGCAGACTCACCGGAATGTTGGCTATC -ATCCAGTAGCGAACGCGGAAAATCGTCAGTAACAGCAGACCTATCGCGCCCCAGAAGATTGCGCCCATCCCGACC -TGCCACGGCAAGCCCATCGCCTGTACAACGACAAAAGCGAAGAACGCATTCAGGCCCATAGCGGGTGCCAGTGCA -ACTGGCAGGTTAGCAAACAGTCCCATCATAATACTGCCGAATGCAGCGATCAGACAGGTAGTGACGAAGACGGCG -CTGGTATCCATGCCAGCAACGCCAAGAATTTGCGGGTTAACAAAAACGATGTAAACCATCGTCAGGAAGGTGGTA -AAACCGGCGATCACTTCGGTCCGTGCCGTCGTGCCATGTTCGCGCAGTTTAAACACGCGTTCCAGCATCCCCTGA -CCAGAAGTCTGGGTGGTATGTTGATGACTCATTATCTATTTCCGAACAAGGAGGGAAAATCCGTCGCTATCGTAT -ACCAAAATGCGACAATAGGCGCGTTTGTGAGAGACTTTTTTATTGGATTTACTTATACGGCAACGATTGCGTTGC -GCAAATCGGCTCTACGAAAACGTTAAACTGATTAAAAAGGAAAGGCATGTCCCGGATAGAAGCGGTATTTTTCGA -CTGCGACGGTACGCTGGTCGACAGTGAAGTCATTTGCTCTCGCGCATATGTAACGATGTTTCAGGAATTTGGTAT -TACGCTCGATCCTGAAGAGGTATTCAAACGTTTCAAAGGTGTAAAACTGTACGAAATTATCGATATTGTTTCCCT -TGAACATGGTGTTACGTTAGCGAAAACAGAAGCTGAACACGTTTACCGTGCAGAAGTCGCTCGGCTGTTCGATTC -AGAACTGGAAGCCATCGAAGGGGCTGGAGCGCTCCTGTCAGCGATCACTGCGCCAATGTGTGTGGTATCTAACGG -CCCAAATAACAAAATGCAGCATTCTATGGGCAAGCTGAATATGTTGCACTACTTCCCGGATAAACTGTTCAGCGG -CTACGATATTCAGCGCTGGAAGCCAGACCCGGCGTTAATGTTCCATGCGGCAAAAGCGATGAATGTAAATGTAGA -AAACTGCATTCTGGTTGATGACTCAGTTGCCGGTGCACAATCTGGTATCGACGCAGGTATGGAAGTGTTCTACTT -CTGCGCCGACCCGCACAATAAGCCGATCGTTCACCCGAAAGTCACCACCTTTACCCATCTTTCGCAGTTACCTGA -ACTGTGGAAAGCGCGTGGTTGGGATATTACGGCATAGTTCTTCACACTCCCTTCACTTACCCCGCTTAAATTGGC -GCTCAAAGGTAAGTAAAGGGAGTTTGATATGTCTGTTTCACGTCGGGTAATACATCACGGACTTTATTTTGCAGT -TTTAGGACCGTTAATTGGTGTTCTGTTTCTTGTCCTCTACATATTCTTCGCAAAAGAACCGCTGGTTCTTTGGGT -GATAATACATCCAATTTTTCTCTTATTGTCGATAACTACGGGAGCTATTCCTGCGTTGTTAACCGGTGTAATGGT -TGCCTGTCTGCCGGAAAAGATCGGGTCACAGAAACGTTATCGTTGTCTGGCTGGTGGCATAGGTGGCGTCGTTAT -CACCGAGATCTATTGTGCAGTTATTGTACATATTAAGGGCATGGCTTCCTCGGAGTTGTTTGAAAACATTCTTTC -TGGTGACAGTCTCGTTGTCCGCATCATTCCTGCATTGCTGGCAGGTGTGGTGATGAGCAGAATCATTACCCGTCT -ACCCGGATTGGATATTTCATGTCCTGAAACAGACTCTTTAAGTTAAGCGGGATACTTTATCTTTGGGCTACTCAA -AAGCAGACAGGATGTTTCTATGACTCAAAATATCAGGCCGTTACCCCAATTCAAATATCATCCCAAGCCACTGGA -AACAGGCGCATTTGAACAGGATAAAACCGTAGAGTGCGATTGCTGTGAACAACAGACGTCAGTTTATTACTCGGG -TCCCTTTTATTGCGTTGATGAAGTTGAACATCTCTGTCCGTGGTGTATTGCGGACGGTTCTGCTGCTGAAAAGTT -TGCAGGTAGTTTTCAGGATGATGCCAGCATAGAAGGTGTTGAATTTGAGTATGATGAAGAGGACGAATTTGCCGG -TATTAAGAACACATATCCTGATGAAATGCTGAAAGAGTTGGTTGAACGCACGCCAGGTTATCATGGATGGCAGCA -GGAATTCTGGCTCGCGCATTGTGGCGATTTCTGTGTTTTTATCGGCTATGTGGGCTGGAATGATATAAAAGATCG -CCTCGATGAATTTGCCAACCTTGAAGAAGATTGTGAGAATTTCGGTATTAGAAATTCTGATCTAGCTAAATGCCT -GCAAAAGGGTGGTCATTGTCAGGGTTATCTCTTCCGCTGTCTCCACTGCGGCAAGCTGAGACTGTGGGGTGATTT -TTCGTAGTTATTTAAATAATGAGAACAGGCCGGAGCGTAATTCACACATCCGGCCTTATTTCTTAAGCTTAACCG -AGTGCTAATTCTGCGGCAGCGGCTTTATCAGCGATTACCATCAGCGAAGGATGCAGCTGCAACACGGAAGCTGGA -ACATCTTCGGTAACCGGACCTTGCAGAACATTTTTCAGTGCCTGCGCTTTACCCGCGCCGCTGACAATTATCAGC -AAGTTTTTCGCCGCCATGATGCTTTTCGGCCCCATCGTCACGTAGCTGTCAGGCACTAACGAAAAGTCGCCGCCC -AACTCGCCATGCGCCACAATATCAACCATCTCTCCCTGGATCGGGAACTCCACGGTTTGCTCATGGAAATGGGTC -GTATTCGGCAAATTGCCACAAAAATGACCATCTGCACCTAATCCCAGCACCACCAAATCCAGTCCGCCTTCACGC -GCCAGTTTCTGATCATGCTCGCGGTAGTTATCAATAGTGAGCTTCTGGATATTCTCTTCTTTGATCCCCGCAGGG -GTGAAAAACAGATTACGCAGATTGGTAATCGTTACGCCTTCTCCCTCTTTGCCGCGAAATGGAATTTCATCAAAA -TTATAGAAATAGCAGTTATCGTACCAGGGCTTACCTTTAACCAGGGTGGTGAGGTATTCATACATGCCTTTGGGC -GTGCTACCGGCGGTAATTGCCAGGTTAACACGACGCGTCTTCGACATATAACCAAGCAGATGGTGTGCCGCGACA -CGGCTCATTTCCTGGTAATCTTCGGTAATGATTAATTTCATCTTAATGCCTTATTTTATTTAAATAATTTCTGTA -CAAAGGCTGCATAGGCTGGTCGCCAGACATCCATTTCATGGTTCAGACCCGGATATTCCTGGTAATCAAAGTTAA -TTTTTTTCTGCTCAAGCTCAGTTTTCAGCCCGGCGATATCCTTGCCGGTTACGACATCTTTATCCCCCACAACCA -CAGTAAAATTACGTAGTTGCTGGTTGATAGCTGCCGGATCGTTCAGTCGGGCCGCGACACCTTCATCCGGTACGG -TTGTCGTGGTAACACCACTGAATGTGGCCAGCCAGCCAAAGCTTTCCAGATGATTCATTCCGGAAACCAGCGCCT -GGTACCCGCCTTGTGAAAGCCCTGCCAGCGCGCGGCCATCGGCATCTTTACGGACATTAAAACGCTTGCTAATCA -GCGGGATAATATCGTTCATCAGTTCGCGATCTGCCGCTTTAGCATTCAGCGGATAAAAGACTTTACGTCTTTCCT -GAGGCACGAAATCTTCGGGAATAATGCCCTTCGCATCGGTTTCTGTATCCGGGATCACCACCAGCATCGGTTTAA -TTTTCCCTTCAGCAAGCAGGTTATCCATGATTTGCGGGATACGCCCCTGATCGATAGCGGAACGTCCGGTATCAC -CAAAGCCGTGATAGAAATAGAGCACTGGCAAAGGCTCGCCCATGCCGGTGTATCCTGGCGGGGTCCAGACATACA -TCTGACGTTCAGATTGCAATGCGTTGGAGTGGTAAGTTATGGCGATCAAATCACCATGCGCAACAGAACGCGTAT -CCAGATAACTGCCTGGCACCAGAATCATACTGGAGTTAACCTGGCGCTGAGGATTAGTCATTGCGGTGCCTGTAT -CAATGCTGCGTACACCATCAACATTGAAAAAATACTCGTACAGGTTGCCTTTCAGGATAGGTGTGCGCCACGACC -AGACTCCTGCTTCGTCTTTGGTCATCGGGTGAATATTGTCCGGAACCGGAACACCCACCACTACAGAGACATTTT -TTGCCCCAGGGGCAAAGTAGCGAAAGGTCACGCTGTTATCGGCATTGACCTGAGTCACATACTGTTTCACCGGGA -TAGTGGGTGCCGGGCTGGCTGGCATATCCGCTGCTATGGCCCACTGAGCAGAAATACCGCTGGCAATAGCCAGCG -TTAAAGCAGCAATTTTTATATTCATCGTAATATTCCTTTCATTAAGTTCCATTACCACCAGATTTCAGCCTGGGC -ACCGACAGCAAACTGGTCGTCTTTATTGTCTTCAAAGGTGAAGCCATCCAGTTCGTTTTCCAGGGCTTTGATATA -CGTGGCGTAGAAACGAATTTCCGGACGCGAGGTCAACATACTGGTATTGACTTTAAAGGTATGGAAGAGCGTGGT -TTTATAACCAGACTCATTAAATTTATTACTATTCGCATCTTTGTTTTGCTGGGTGAAATAGCCCAGTTCAACACC -TGTCTGGTTATATTGGTCCCAAATATAGGCCGGGCGAACAACCGCACGAATAGATTCGAAATCAGAGTGGGCGCC -TGTTTCGTAGCTATATATATCGTTACCGAAGGAGTAAACAATCGCGTTAGCTACAATGAAATGATCGCCAATATA -GGCTTCGCCCTGCGAAGTCAGACGTACCGCTGTTCCGCCGGTGTGATCACCATAATAACGACCATTAAAGGTGGT -AAATGGACTTGCGCCAGCATAACGGCCAAAGTTACTGGCGATAGAGTTATTCGCGACCAGGAAGGAGAATTCGTT -GAAGCCACCTTTATCAAATTTCTGCGTTAAAGATGTGCCAAACATCCAGGTATCTTTCCAGTCATAATACCCGTT -ATTATCCTGATTATCTTTTTCCGATGCGCTTTCGTTTGCCGTGACATAACGACCACTTACCATTAAGGTGGCTTT -ATCCCATAACGGGATATCTTTATAGCGTAAATCAATGGTATTGGTATTAATCTGCTGTTTGTTTTGCAGGCTGCG -ATCGTAATCATCGACATCTTCGCGAACCAGCGCGATATCAATTTTACCCGGACCGACTTTCCAGTTTTCCAGACC -TACACCCGCTGCGGCATCAGTACGCTGCGTTTTCCAGTCAAGCATCTGGATTTCAATTTTCGGCGCACCGTGTTT -ACCCACCCAGAAATCAGCCTCTGGCGCAAAGGGCAGGAAACCTTTGGTGGTAACGTACATATCGGAGAACTGCAT -ATAGTTCTCGCCACCGGCGTTATCGCCAAACCAGCCGGTAGAGTACTGCTGACCAACGTTACCATCCATCATCAC -AACGGCATCAACCCGTTTGCCGTTTTCGTTGTAGACACGTTGTTTTAACTGCAAATCAAACCAGCCGGAGTATTC -GTTACCAAAGCGGCCCAGAGAACCAATCGCCCATGATTTAGGTGAACCATGAGAGGCGGTCCCCCAACCAGAACG -GTAATAGCCGTTGTAACTAAAGCCAATTTCATCTTTCACAAATTTACTGAAATCTTTCAGAGTCATGGAAGAATA -AATCGAGCCTGTCTCACTGGCATTTTTCTCTTCATTTTTGACCAGTACAGCATCAGGTTTTGCGGCACTACTGGT -CGGGAACGGATTGGCGGCATACCCTTGATCATTCGTACTTACGCTACGATTCACCGTCGCTGGCGTATACTTTTT -CTTCTCTTCATCTTTATACTTTTTGAGTTCGCTTTGCGTTTCTCTTAACGCCTTTTCTAATAACTCAAGGCGTTG -TTCCACCGTTAATGATTCAGCCAATGATTGTGCAGAAAAGGCTAACGGTGCCATTAATAAGATGGCAGAGGTAAT -AAGATTTCGTCTAAACATAATATCCCTTTATGGTGCAAAGAAAGAATTAACGCATCGCATCCAGACTGTTCTGAA -TGCGACGATAATTAAGGTGCTTTAATGGTTATTTTTTTTAATGACAGCCCCCGCGTCTTGATCACCTCTGCATAC -CATCCGAAGCTTTTCTTGCGTGTTCTTGTGAGGCTTCCTTCGCCATTATCATCACGATCCACATAAATAAAGCCG -TAGCGCTTAGACATTTGTGAATGAGATGCACTGACTAAATCAATTGGCCCCCAACTGGTGTACCCCATAATATCC -ACACCATCGGCAATCGCTTCATTTACCTGTACCAGGTGATCGTTTAAATAGGCAATTCGATAATCGTCCTGTATC -GAACCATCCGCTTCAACGCTGTCTTTTGCGCCTAATCCGTTCTCGACAATAAATAACGGTTTTTGATAACGATCC -CAAAGCGTATTTAACAGAACCCGTAATCCAACCGGATCAATTTGCCACCCCCACTCTGAACTTTTCAGATGCGGA -TTGGGGATCATATTCAGTATGTTGCCCTGCGCATTTTTATTAATGCTTTCGTCGTGGGAAACACAACCAGTCATG -TAATAACTAAAAGAGATGAAATCGACGGTATGTTTTAAATCTTCTGCGTCACTTTCAGTCATCTCAATGGTGATA -TTGTGGTCGCGGAAGAAACGCTGCATATAGCCGGGATACTGGCCACGCGCCTGAACATCACCAAAGAACATCCAG -CGCCGGTTCTCTTCCATGGCCTGCAACATATCCTGTGGCTGGCAGGTGAGGGGGTAAACCAGCCCACCGAGAAGC -ATATTGCCGATTTTCGCTTCGGGGAGCAGGCTATGACAGGCTTTAACTGCCCGCGCACTGGCAACCAGTTGATGG -TGGATAGCCTGATAAACTTCCGCCTCGCCACTCTCTTCTGCCAGCCCCACGCCCGTGAATGGCGCGTGTAACGAC -ATGTTGATTTCATTAAACGTCAGCCATAACGCCACTTTATGTTGGTAGCGAGTAAAGACCGTGCGGGCGTAATGC -TCGAAGTGATCGATGACCGCTCGATTAGCCCAACCGCCGTAGTTTTTCACCAGCCCATATGGCATTTCGTAATGG -GATAACGTTACCAGCGGCTTGATCCCCGCCTGCGCCATTTCATCAAACAGCCGATCGTAAAACGCTAACCCCGCT -TCATTCGGTTCGACTTCGTCGCCCTGAGGGAAAATTCGCGCCCAGGCAATGGAAATACGCAGACAGGTGAAGCCC -ATCTCGGCAAATAACGCGATATCTTCCGGGTAACGGTGATAAAAATCGATGGCGACATCTTTGATATTCTCTTTC -CCCAGGATGCGCGGTTCCATTTTTCCCATTACGCCATGAGGCTGTAAATCTGAGGTCGAGATCCCTTTGCCATCT -TCCTGCCAGGCACCTTCCACCTGATTGGCAGCTGTTGCGCCACCCCAAAGAAATGTTTCTGGAAATGCTTTCATA -ATTAACTCCTTTTATCGTTAGCGAATGATGGATAACAGCGGTTCACCTGCGCTTATCTGCGCCGTGCCGTGGGGT -AATACGTCCGTAAAATCATCGCTATTACTGATTAATACCGGCGTCGTCAGATCAAATCCGGCCTCGCGAATAGCA -GGGATATCAAAAGAAATCAGCCGATCGCCTGTATTGACCTTGTCACCCACGTTGACGTGAGCGGAAAAGAATTTG -CCGTCCAGTTTTACGGTGTCGATACCGACATGAATCAGGATCTCCACACCATCATCTGACTCAATGCCAATGGCG -TGTAATGTGGCGAACAACGAAGCAATTCGACCCGCAACCGGAGAACGCACTTCACCAACCGAGGGCAGAATGGCA -ATACCTTTACCCAACAGGCCACTGGCAAACGTGGTATCAGCGACGTGAATGAGCGGCACAATCTCTCCCGTCATC -GGTGAACAGATACCGCCCTGCTCAGGTGGTGTAATAACCTCTGGTGTTTTCTCTTGCGGGGCACCCTGCGCTGGC -TGACGTTTAGCGGTGATGAAATGAAGCATCACCGTACCGACAAATGCGCAACCGATGGCAATGACACCGCCAATA -ACGCTGGCCCAGACGGTGAAATCAATTCCCGTTGACGGGATGGTTTGCATGAAGGTGAAAATACTTGGCAAACCA -AAGGAGTAGACTTTCGTTTGCGCGTAGCCAATAATGGTGGCCCCCAAAGCCCCACTGATACAGGCGATAACAAAG -GGGTACTTACGCGGCAGGTTGACGCCATATACCGCTGGTTCGGTGATACCAAACAGACTCGTCAACGCCGCTGAT -CCCGCCACCACTTTTTTCTGCGCATCGCGTTCGCAGAGGAAGACGCCGAGCGCCGCCCCGACCTGCGCCATAATG -GCGGGCATTAACAGCGGGATCATGGTGTCGTAGCCCAGCACGGTGAAGTTATTGATACACAGCGGCACCAGGCCC -CAGTGCAGTCCGAACATGACGAAGATTTGCCAGAAGCCGCCCATTACCGCGCCCGCAAATGCAGGAACCGCCTGA -TAAAGCCAGAGATAACCGGCGGCAATCAGTTCGCTTATCCAGGTTGATAGCGGCCCCACCAGCAGAAAGGTGACG -GGTGTGATAACCATCAGACATAGCAATGGTGTGAAGAAATTTTTGATTGCCGACGGTAACCACGCATTAAGTCGG -CGTTCCAGAATGCTGCACAACCAGGCAGAAAAAATAATGGGAATAACCGATGACGAGTAATTCAACAATGTGACC -GGAATACCCAGGAAATCCAGCCCCAGCGCATCCGCTTTTTGCCCGTTCTCGAAAGCAGTCAGAATTAATGGATGC -ACTAACGCTCCACCAATCACCATGGCAGTAAATGGATTACCGCCGAAGCGTTTCCCCGCGGTGTATCCCAGGATT -ATCGGGAAGAACCAAAACAAGGCATCACTGGCGCTGAATAAAATTAAATAAGTACCACTTTGTTCGGTCGTCCAC -TGAAAAGTGAGCGCCAGAGCCAGCATACCTTTCAAGATCCCGGTTGCCGCCATCAAACCGATCAGAGGCGTAAAA -ATACCTGAAATAACATAAACAAAGCGGTTTAGCAGATTACCTTTATCATCATTTTCCGGTGCCTGTTGCGCTTTT -TCGTCAAGGCCTGCCACACTGTTAACCGCCAGGAAGACATCGGCCACATGGTTACCTATGACCACCTGAAACTGG -CCACCGCTTTCCACCACCATAATAATACCGGGGGTCTTTTTCAGTACCTCTGCTTGCGCTTTGCTTTCATCCTTT -AATTTAAAACGTAATCGCGTTGCGCAATGCATCAGACTCACAATGTTATCTGCGCCCCCGACTCCTGCGACTATT -TTTCTGGCTAACTCCGTCATAACTTGCCCTCTACCGCTTTGCGGCAAAACTCCAAAAAAAAACCTGAAAAAAACG -GCCTGACGTGAATCAAGCAATTTTTTTCAGGTTTTGCCCGCTTAGTGCGGTAACAATCCTTTACTCAGTAATAAT -ATTTCAGTGTTCTTTGCGCACGCGCTCTATATTTATGGCTAAAAACATAATCTCTGCGGGTGAAATTTTACGTTG -ATACTGCAAACCAATAAAAATGGCGATCCGTTCCGCACATTGCCATGCTTGCGGGTAATTTTGTTTTACTGCTTG -TTGTAATGATTCATCACTATCGTTAATTGAAGCATGTTCAAGAATACGCCAGGATAAAAACTTCAGATGTGTAAC -CAGTCGCTGATAACTCAAGCTTTCTTCCTGGTAATTAAGGCTGAACTGAAATTTTATTAATTGCAGCATTTCGCG -CATTAACTGCGTGACACCTGCAACATCCTCCATATTTCCGCTCATTTGGGCACTGACCAGATGCATGGCAATAAA -GCCCACTTCATCTTTCGGTAACTGCACGCCCAACCGTTTATCAATAATGGTTAACGCTTCTTCCCCTAGCTGGAA -CTCTTTCGGGTAAAGCCGCTGGATATCCCACAGCAACGGGTTGGGCAGCAACACGTTTTGCTGAAAGCGTTTAAT -CGCAAACTGGCAATGGTCAGTTAGCGAGATATAAATACTGTCCTGTAATTTTCCCAAGCGCTCCTGCGCTAAAGA -GATAATACGATCACAGGTTGCCATCACCTCAAGAGGAATATGACTTAAGAGTTCGCTTAATCGCCCGTTCAGTTC -ATGACTGCTCAAGGCATACTCTTTTTCTATTCCACTTGAGTTAATTCTTTCGCCAGCGCGTTTTTGAAAGCCAAT -TCCGCGCCCCATGACGACTTTTTCCCGCTGTTGATCATCAATAACCACCACAACATTATTGTTGAGAATTTTGGT -GATTTGCATGTTCATAGCAAGGACCTTTTTTATAAACAAAAAAACCCGACTTCACCAGTATTCTCTGGTTATGTC -AGGTTTTGCCTGCGAATGCAGTAACAATCCAGTCATTTATTAATGGTTTTTATAACGAACATCCAGGTTCGGAAA -TTAATTTAATTGCGTGCAGAGAAAATAGCAATGCGCTATTGATAAAAATATGACCATGCTCGCAGTTATTAACTT -TGTGTAATTTTAGGAATTTATAAAGTTATATATAACAAATCCCAATAATTAAGTTATTGGGATTTGTCTGGTGAA -TTATTTGTCGCTATCTTTCCCCGCCAGCAGTTTATCCAGCTCATCGCCACCGACGTGACGGAAATCCTGCCCCTT -CACGTAGTAGAAGATAAACTCACAAATATTCTGGCAGCGGTCGCCAATACGTTCGATAGAACGCGCGCAGAACAG -CGCAGTAAGTACGCTCGGAATGGTACGCGAATCTTCCATCATGTAGGTCATCAGTTGACGAACAATACCTTCGTA -TTCCTGATCGACTTTTTTATCTTCACGATAAATACGTACCGCTTCGTCAATGTCCATCCGCGCGAACGCGTCCAG -CACGTCGTGCAGCATCTGGATGGTATGACGGCCCAGCGACTCCAGACTTACCAGCAACGGCTGATGCTGCTGGGA -GAATTTCTCCAGCGCAGTACGGCAGATTTTGTCCGCCACGTCGCCAATACGCTCCAGCTCGGCAATGGTTTTACT -GATCACCATAACCAGTCGCAGGTCGCTCGCCGTCGGCTGACGTTTGGCGATAATGCGCACGCAGGCTTCATCGAT -CGCCACTTCCATCATGTTGACGTTCTTGTCGCCTTCGATGACGCGCTTCGCCAGATCGCTGTCCTGGTTATGCAT -CGCGGTGATTGCATCAGAAAGCTGCTGCTCCACCATGCCGCCCATGGTCATCACCTGCGTGCGGATACTTTCCAG -TTCGGCGTTGAACTGGCCGGAAATATGTTTATTAAGATTGAGACTGTCCATAACGCACTCCTGAATCAACCGTAA -CGACCGGTGATGTAGTCTTCTGTTTGTTTCTTCGCTGGCTTGGTGAACAGATCGTCCGTGTTGCTGAACTCAATC -AATTCGCCCAGGTACATAAACGCCGTGTGGTCGGAACAACGCGCAGCCTGCTGCATGTTGTGGGTGACGATCACC -ACGGTGTAATCCTGCTTCAGTTCGGTGATCAGCTCTTCAATACGCCCGGTAGAGATAGGGTCGAGCGCCGAACAC -GGTTCGTCGAGCAGCAGCACTTCCGGGCGAATGGCGATACCACGCGCAATACACAGACGCTGTTGCTGACCACCA -GAGAGAGAGTAACCGCTCTGGTGCAATTTATCTTTGGTTTCGTTCCACAATGCGGCTTTGGTCAATGCCCACTGC -ACGCGCTCGTCCATGTCGGCACGGGAGAGCTTCTCAAACAGACGAACGCCAAAAGCGATGTTGTCGTAGATGGAC -ATCGGAAACGGCGTCGGTTTCTGGAACACCATGCCCACTTTCGCACGCAGCAGTGCGATATCCTGAGAGTTGGTC -AGGATGTTGTCGCCATCAAGCAGAATTTCACCTTCCGCACGCTGCTCCGGGTACAGTTCAAACATTTTGTTGAAG -GTACGCAGCAGCGTCGATTTACCGCAGCCGGACGGCCCGATAAACGCCGTTACCTGGTTTTTAGCGATATCCAGG -TTGATGTTTTTCAGGGCATGGAATTTGCCGTAGTAGAAGTTCAAATTACGAACCTGAATTTTACTCGGGGCAGTT -TCAACCATACTCATTGCAATCTTTTCCTCATCGTGCCTGATGCACTTCGCTAATCAGGCTTACCGTAGGCCGGAT -CAGGCGTTCACGCCGCATCCGGCAAAGTGTTAACCGTGTACAGAGTCAAAAAGGCGCTCGGTCGGTCCCCTCGCC -CCTCTGGGGAGAGGGTTAGGGTGAGGGGAAAACCGTGTCAGCAATATCAACCGTGTTTATTCTTCGCAAAAACAA -CGCGCGCCAGAATGTTCAGCAGCAGTACGCACAGGGTAATGATCAATACCCCGGCCCAGGCCAATTGCTGCCATT -CCGCAAACGGGCTCATCGCAAACTTAAAGATCGTCACCGGCAGGTTGGCGATCGGCTGCATCATGTCCGTGCTCC -AGAACTGGTTGGAGAGCGCGGTAAACAGCAGCGGCGCGGTTTCACCAGCAATACGGGCAATCGCCAGCAGGATAC -CGGTCATAATCCCGGACACCGACGCTTTCAGCGTAATCGCAGAGATCATCTTCCACTTCGGTGTACCCAGCGCAT -AAGCCGCTTCACGCAGGCTGTACGGCACCAGTTTCAGCATGTTCTCGGTGGTGCGGATAACAATCGGCACCTGCA -ACAACGCCAGGGCAATCACGCCCGCCCAGCCGGAGAAGTGCTCCATCTGCGCCACCACAATGGTGTAAACAAACA -GACCAACCACAATCGACGGCGCAGAGAGCAGAATGTCGTTAATGAAGCGAATCACTTCTGCCAGCCAGGATTTAC -GACCATATTCCGCCAGATAAATCCCCGCCATAATGCCCAGCGGCGTACCGAATACCGTGGCCCACAAAATTAACA -GCCCGCTACCCGCCAGAGCGTTCGCCAGACCACCACCTTCCGTATTGGGCGGCGGCGTCATTTCAGTGAACAGCG -CCAGCGACATACCGTCGATACCGCGAGTGATGGTGGACATTAAAATCCAGATCAGCCAGAACAGGCCGAAGGCCA -TCGTCGCCATCGAGAGCGTCAGCGCAATACGGTTTTTGAGGCGGCGACGCGCCTGCATTTTGCGGCGAGATTCAG -CCAGCGCCGCAGTGGTTTGCATTTCAACCATAGCCATTAGCGTGCCCCCTCATTCTTAGCCAGGCGCATAATCAT -AAACTTCGATGCGGCGAGGACGATGAAGGTAATCACAAACAGGATCAGGCCCAGTTCCATCAGTGCGGCAACGTG -CAGACCGGATTCCGCTTCCGCAAATTCGTTCGCCAGCGCAGAGGTGATACTGTTGCCCGGCATATACAGCGAGGC -GCTGTCGAGCTGGTAGGTGTTACCGATGATAAAGGTCACCGCCATGGTTTCACCGAGCGCGCGGCCCAGCCCCAG -CATGATGCCGCCGATAACACCATTTTTGGTGAACGGAAGAACGATACGCCAGATAACTTCCCAGGTGGTGCAGCC -AATACCGTAGGCCGACTCTTTCATCATCACCGGGGTTTGTTCGAACACATCACGCATTACCGCCGCAATGTACGG -AATAATCATGATGGCGAGGATCACGCCTGCCGCGAGGATACCGATACCAAATGCGGGGCCAGAGAACAGCGCGCC -AACAATCGGGATATTCGACATGATATTGCCGACCGGCTCCTGAAAGTAAACGGCGAACAGCGGCGCAAAGATAAA -CAGGCCCCACATGCCGTAAACGATACTTGGAATGGCTGCCAGCAGCTCAATGGCGATACCCAGCGGGCGTTTCAG -CCAGCCAGGCGCAAGCTCAGTCAGGAACAGGGCGATACCGAAACTCACCGGGACGGCGATCAGCAGCGCGATAAA -CGAAGTCACCAACGTACCGTAGATCGGCACCAGCGCCCCGTAGATATCGTTCGGTGCATCCCACTCTTTGGTCCA -TAGGAAAGCCAGACCAAATTTCTGAATGCTCGGCCAGGAGGAGATGATCAGAGAGACAATAATGCCACCCAACAT -CAATAGCACAATCAGCGCCGCCAGTTTTACCAGCACGCTGAAAATTATGTCGCCCTTTTTACCCGGTGGGTTAAA -AGCAGGCTTGGTTGCAGCCATAAGTTACTCTTCAGTTAAACGCGTTTACAAAGTCATTTTGTAATGCCGGATGCG -GCGTAAAACACCGTACCCGGCCTGGAGTTTTATTAGTACAGCGGCTTACCGCTACTGTCTTTAATATTGGTCTTC -CACGCAGCGCGAACCTGTTCAACTACACTATCCGGCAGGCTGGCGTAATCCAGGTCGTTCGCCTGTTTAGCCCCG -GTTTTGTACGCCCAGTCGAAGAATTTCAGCACTTCTGTGCCTTGTTCTGGTTTCTTCTGATCTTTGTGGATCAGA -ATGAACGTGGTAGAGGTAATAGGCCATGCATCTTCGCCTTTCTGGTTGGTCAGATCCTGAGCGAAGGTTTTGCTC -CAGTCTGCACCTTTTGCTGCATTAGCGAAGTTTTCTTCGGTCGGACTAACCGGTTTACCATCAGCGGAGATCAGT -TTGGTGTACGCCAGGTTGTTCTGCTTCGCGTAAGCATATTCAACATAACCAATTGCACCCGGCAGACGCTGAACG -AACGCGGCGATACCGTCGTTACCTTTACCGCCCAGACCGATCGGCCATTTTACGGTAGAGCCAGTACCAACGTTG -TTTTTCCACTCTTCGTTCACTTTCGCCAGGTAGCTGGTGAAGACGAAGGAAGTCCCGGAGCCATCTGCGCGGCGT -ACTACAGCAATGTTTTGTGAAGGCAGTTTCAGACCCGGATTCAGTTTGGCGATGGCTTCATCATCCCACTTCTTG -ATTTTGCCCAGGTAGATGTCGCCGAGGGTTTTACCATCCAGCACCAGTTCGCCAGACTTCAGCCCTGGAATGTTA -ACCGCCAGCACCACGCCGCCAATCACGGTCGGGAACTGGAACAGACCTTCCTGAGCCAGTTTTTCGTCAGACAGC -GGCGCGTCAGAGGCACCAAAATCAACGGTATTAGCGATAATCTGTTTTACGCCACCGGAAGAACCGATACCCTGG -TAGTTAACTTTATTACCGGTTTCTTTCTGGTAAGTGTCAGCCCATTTGGCATACACCGGCGCAGGGAAGGTTGCA -CCTGCACCTGTCAGGCTTGCTTCTGCAAACACAGAGAAAGCACTCATCGATAAGGTCGCGGCGACAACAGTTGCG -ACGGTGGTACGCATAACTTTCATAATGTCTCCTGGGAGGATTCATAAAGCATTGTTTGTTGGCTACGAGAAGCAA -AATAGGACAAACAGGTGACAGTTATATGTAAGGAATATGACAGTTTTATGACAGAGAGATAAAGTCTTCAGTCTG -ATTTAAATAAGCGTTGATATTCAGTCAATTACAAACATTAATAACGAAGAGATGACAGAAAAATTTTCATTCTGT -GACAGAGAAAAAGTAGCCGAAGATGACGGTTTGTCACATGGAGTTGGCAGGATGTTTGATTAAAAACATAACAGG -AAGAAAAATGCCCCGCTTACGCAGGGCATCCATTTATTACTCAACCGTAACCGATTTTGCCAGGTTACGCGGCTG -GTCAACGTCGGTGCCTTTGATCAGCGCGACATGGTAAGCCAGCAGCTGCAGCGGAACGGTGTAGAAGATCGGTGC -AATCACCTCTTCCACATGCGGCATCTCGATGATGTGCATGTTATCGCTACTTACAAAACCCGCATCCTGATCGGC -GAAGACATACAACTGACCGCCACGCGCGCGAACTTCTTCAATGTTGGATTTCAGTTTTTCCAGCAATTCGTTGTT -CGGTGCAACAACAATAACCGGCATATCGGCATCAATTAGCGCCAGCGGACCGTGTTTCAGTTCGCCAGCAGCGTA -GGCTTCAGCGTGAATGTAAGAGATCTCTTTCAACTTCAATGCGCCTTCCAGCGCGATTGGGTACTGATCGCCACG -GCCCAGGAACAGCGCGTGATGTTTGTCAGAGAAATCTTCTGCCAGCGCTTCAATGCGTTTGTCCTGAGACAGCAT -CTGCTCAATACGGCTCGGCAGCGCCTGCAGACCATGCACGATGTCATGTTCAATGGAGGCATCCAGACCTTTCAG -GCGAGACAGCTTCGCCACCAGCATCAACAGCACAGTTAACTGAGTGGTGAATGCTTTAGTGGATGCCACGCCGAT -TTCTGTACCCGCGTTGGTCATTAGCGCCAGATCGGATTCGCGCACCAGAGAAGAACCCGGAACGTTACAGATTGC -CAGTGAACCAAGGTAACCCAGCTCTTTCGACAGACGCAGGCCAGCCAGGGTATCCGCGGTTTCGCCAGACTGTGA -CAAGGTGATCATCAGGCTGTTACGACGCACGGCAGATTTGCGATAGCGGAATTCAGAGGCGATTTCGACGTCGCA -CGGAATACCTGCTAGCGATTCAAACCAGTAGCGGGAAACCATACCGGAGTTATAAGAAGTACCACAGGCGAGGAT -CTGAATATGCTCAACCTTCGACAGCAGTTCGTCGGCGTTCGGTCCCAGCTCGCTTAAATCAACCTGACCGTGGCT -GATGCGTCCGGTAAGGGTGTTTTTGATCGCGTTCGGCTGTTCGTAGATCTCTTTCTGCATGTAGTGACGGTAAAT -GCCTTTATCGCCCGCGTCATATTGCAGATTGGATTCGATATCCTGACGTTTTACTTCCGCGCCAGTTTTATCGAA -GATGTTTACCGAACGGCGAGTGATTTCCGCAATATCGCCCTCTTCAAGGAAGATAAAGCGACGGGTCACCGGCAA -CAGCGCCAGCTGGTCAGAAGCGATAAAGTTTTCGCCCATCCCCAGGCCAATCACCAGCGGACTACCAGAACGTGC -CGCCAGCAGGGTATCCGGGTGACGGGAGTCCATGATCACTGTACCGTACGCACCACGCAGCTGCGGGATAGCACG -CAGAACGGCCTCACGCAGAGTCCCGCCTTGTTTCAGCTCCCAGTTCACCAGATGGGCAATCACTTCGGTGTCGGT -TTCAGAAACGAAGGTATAGCCACGCGCTTTTAGCTCTTCACGCAGCGGTTCATGGTTTTCGATGATGCCGTTATG -CACCACCACAATGTGTTCAGAAACATGCGGATGCGCATTCACTTCTGAAGGTTCACCGTGGGTCGCCCAGCGAGT -GTGAGCAATACCAGTGCCGCCATGCAGAGGATGTTCTTCCGCTGCCTGTGCCAGCATCTGGACTTTACCGAGGCG -ACGCAGGCGGGTCATATGACCTTCTGCATCAACAACGGCCAGACCGGCAGAGTCATATCCGCGGTATTCCAGACG -ACGTAAACCTTCAAGAAGGATTTCTGCTACATCACGTTGCGCGATCGCGCCAACAATTCCACACATAGTTTTTGA -TTCCGATTTATATCGTTGTCGGTCAACCTGTATGCCCGTTTTTTCGGGCGCCCCGAGCCTTGTAGAGAGTGGGGT -TATTTTTATAGTTACTGCTTGTGGGAGGGAGATTATGTTATCTCCTCATCCCATGTGACCGGGTTAGCCGGCCAG -AATCACTTTTTCTTTACCGGACGACGCCAGCCTTCTTTCTGAGTCTGCGGCACACGGCTGATAGCTAATGCATTT -TCGCCGACATTACGCGTCACAGTTGTACCCGCAGCAATGGTCGCGCCTTTGCCTACTGTTACCGGGGCCACCAGC -TGAGTGTCGGAACCAACAAACACATCGTCGCCGATAATGGTCTTAAATTTATTCGCACCATCGTAGTTGCAGGTA -ATGGTTCCCGCGCCGATGTTAACGTTATCGCCAATTTCCGCATCGCCCAGGTAAGTCAGATGACCAGCTTTCGAG -CCTTTACCCAGACGCGCTTTTTTCATCTCAACGAAGTTACCGACGTGAGCACCTTCCAGCAACTCAGCACCAGGA -CGCAAACGGGCAAACGGGCCAATGGTACAGGCCGCTGCCAGATTCGCATCTTCCACAACGGTATACGGACTGATT -TCGCAATCATCGCCAATCACGCTGTTTTTAATCACGCAACCGGTGCCAATTTTCACGCGATGACCGAGAGTCACG -TTGCCCTCGATGATAACGTTAGTATCAATTTCAACATCGCGCCCGTGAGTTAGCGTACCACGCAGATCAAAACGC -GCTGGATCGCGCAGCATAACGCCTGCTAACAGCAGTTTTTCAGCCTGTTCGGACTGATAAACACGCTCCAGACGG -GAGAGTTGCAGGCGGTTATTCACGCCTTCTACTTCGCTTAAACGTTGCGGATGAACGGCGACGATTTCACGCCCT -TCCTGATACGCCAGCGCAATAATGTCGGTGATGTAGTATTCGCCCTGAGCATTATTGTTGGTCAGCTTCGCCAGC -CAGCGTTTCATATCTGCGCCGTTGGCAATCAGAATGCCGGTGTTGATCTCCTGAATCTGACGCTGCTCGTCGGTG -GCATCTTTGTGCTCAACAATGCCGGTAACTTTGCCGTTTTCACGGGTGATACGTCCATAACCGGTCGGATCATCC -AGTTTCACCGTCAGCAGACCAATGCCACCCTGCGGTTTAGCATCACGCAGACGCTGGAGTGTTTCGACAGAGATC -AGCGGCACGTCGCCGTAGAGCATTAAAATGTCTTCATCATCGGCAAAGAAAGGTGCGGCCTGCTGCATTGCATGA -CCCGTACCCAGCTGCTCTGCCTGAAGCACCCAGTTAAGGTTGTCGTCTTTCAGCGCCTGTTTTAGCAGATCGCCG -CCGTGACCGTACACCAGGTGAACGTGCGCTGCGCCTAATTCATTCGCAGCATCAATGACATGCTGAACCATCGCT -TTCCCGGCAAGGGTATGCAGCACTTTCGGAAGATCGGAATACATGCGCGTGCCTTTGCCTGCGGCAAGGATCACT -ACGCTCATAGCATTATTCAACATACGCGTCCTGACTGTAATTTGAGAACGAATTTAAACCGCTTCACCTTGAAAA -AACTACATTTTTTTCATCGTGAAATGGACAGAGGATAAATTGTTCAATAACGGATTATCCCCGCTGACGAAAGCG -CCATTTTCGACCATCGTCACGCCTTTTGTCTGCAGAAAATTAAGGCAGTACCTTAATTTAAGCGTCAGGTGGATG -TTTTTGCTCTTATTTCGATCAATGAATAAACAGGAAAACAGGGGGGTTTTATATCAGCAGGATCTATGTGAACGC -TATTCAGGACGGGTCACACGCGCAAAAAAAAGCCAGCCTGTTTCCAGACTGGCTTTTGTGCTTTTCAAGCCGGTG -TTACATCGCTTTTTTGGTCAACTCGATAACGCGCAGCTGCGCGATCGCTTTGGCCAGTTCCGCAGACGCCTGAGC -GTAATCTACGTCGCCGTGAGAGCTGCTAATGTGCTCTTCAGCCTTACGTTTCGCTTCCATGGCTCGCGCTTCGTC -GAGATCCTGGCCGCGAATTGCGGTGTCGGCCAGAACGGTCACGTTGCCAGGCTGCACTTCAAGAATGCCGCCAGA -CAGATAGATAAACTCTTCGTGACCGTGCTGTTTCACGATGCGAATCATACCAGGCTTAATGGCGGTGAGCAGCGG -TGCGTGGCCAGGGTAGATCCCCAGTTCACCTTCGCTACCCGTTACCTGGATTTTCTCGACCAGACCAGAGAACAT -TTGTTGCTCTGCGCTGACGACGTCCAGGTGGTAAGTCATTGCCATATCACCCTCCGATTAAGGCGTTAAAGTTTT -TTGGCTTTTTCCACAGCTTCTTCGATGGAACCGACCATGTAGAACGCCTGCTCCGGCAGGTGATCGTATTCGCCT -TCCATGATGCCTTTAAAGCCACGGATGGTGTCTTTCAGGGAGACGTATTTACCCGGAGAACCGGTGAATACTTCT -GCCACGAAGAACGGCTGGGACAGGAAGCGCTGGATCTTACGAGCACGCGCTACCACCAGTTTGTCTTCTTCAGAC -AGTTCATCCATACCCAGGATGGCGATGATGTCTTTCAGTTCCTGATAACGTTGCAGGATGGACTGAACGCCACGC -GCGGTGTCGTAGTGTTCCTGACCAACCACCAGCGGGTCCAGCTGACGGCTGGTGGAGTCCAGCGGGTCAACGGCC -GGGTAGATACCCAGAGACGCGATCTGACGGCTCAGTACCACGGTTGCGTCAAGGTGCGCAAAGGTGGTTGCCGGA -GACGGGTCAGTCAAGTCATCCGCAGGTACGTATACTGCCTGTACGGAGGTGATAGAACCAGTTTTGGTGGAGGTG -ATACGTTCCTGCAGAACGCCCATCTCTTCCGCCAGGGTCGGCTGATAACCTACCGCTGAAGGCATACGGCCCAGC -AGTGCGGATACTTCCGTACCGGCCAGGGTGTAACGATAGATGTTGTCAACGAACAGCAGAACGTCACGACCTTCG -TCACGGAATTTCTCAGCCATGGTCAGACCGGTCAGAGCAACGCGCAGACGGTTTCCCGGCGGCTCGTTCATCTGG -CCATACACCAGGGATACTTTGTCGATAACGTTGGAGTCGGTCATTTCGTGGTAGAAGTCGTTACCCTCACGAGTA -CGTTCACCTACGCCCGCAAACACAGAGTAACCGGAGTGCTCGATCGCGATGTTACGAATGAGCTCCATCATGTTT -ACGGTTTTACCTACACCCGCACCACCGAACAGACCAACTTTACCGCCCTTAGCGAACGGACACATCAGGTCGATA -ACTTTGATACCGGTTTCCAGCAGTTCCTGAGAGTTTGACAGCTCTTCGTAGGAAGGTGCTGCGCGGTGAATCGCC -CAACGCTCTTCTTCACCGATCTCGCCTTTCATGTCGACCGGTTCACCCAGTACGTTCATGATACGGCCCAGAGTC -GCTTTACCTACCGGGACTTCAATCGGGTGTTCGAGGTCTTTTACATCCAGACCGCGACGCAGACCGTCGGAGGAA -CCCATTGCGATGGTACGTACGATACCGCCGCCGAGCTGCTGCTGAACTTCCAGCACCAGACGCTCATTACCATTT -TGCACCTCAAGAGCATCGTACACGCGCGGTACGGCATCCTGAGGGAATTCGACGTCAACTACGGCGCCGATTACC -TGGACAATCTTTCCAGTAGCCATCTTAAATCCTCTACGAAATAACCTGTTTAAACCGCGGCGGCCCCCGAGACGA -TCTCGGTGAGTTCCTGAGTAATGCTGGCCTGACGAGCTTTGTTGTATACCAACTGCAGCTCTTTAATCAGGCTGC -CGCCATTGTCGGTCGCGGCTTTCATCGCCACCATACGGGCGGCCTGCTCGCTGGCCAGGTTTTCAACCACGCCCT -GATAAACCTGAGATTCGACATAACGACGCAGCAGGGTATCCAGCAACGCCTTCGGATCGGGTTCGTACAGGTAAT -CCCAGGATTTATGTTTCAGATCATCATCATCTGATGCCGGTAACGGCAGCAGCTGGCTGATGGTCGGAACCTGAG -ACATGGTGTTAATAAATTTGTTGCTGACAATGTAAAGCTTGTCCAGACGGCCTTCGTCGTAGGCCTGCAACATCA -CTTTTACCGGACCGATCAGTTCGGACAGGGAAGGGTTATCCCCCATGCCGGTGACCTGGGCAACAACATTGCCGC -CCACGGAGTTGAAGAACGACACGCCTTTCGAGCCGATCATTGCGAGGTCGCATTGAACGCCTTTGTCGGTCCAGG -TCTTCATTTCCGCCAGCAGTTTTTTGAACAGGTTAATGTTCAAACCACCGCACAAACCACGGTCGGTCGACACCA -CCAGGTAGCCCACGCGTTTAACGTCGCGGTCTTCCAGGTAAGGGTGCTTATATTCCAGATTACCGTGTGCAAGGT -GACCAATCACTTTGCGCATGGTTTCTGCATAAGGACGGCTGGCCGCCATGCGATCCTGCGATTTACGCATTTTGG -AAGCGGCGACCATCTCCATCGCTTTAGTGATCTTTTGCGTGTTCTGGACGCTTGCGATCTTACTACGTATCTCTT -TTGCGCCGGCCATGAGCTTCTCCTCAATGCCTTGCGGCCTGCCCTAAGGCAAGCCGCCAGACGTTACCAGGATTG -GGTTGCTTTGAAGGAATCGAGGATGCCTTTCAGCTTGCCTTCGATTTCGTCGTTGTAGCCACCGGTCTGGTTGAT -CTCTTGCATCAACGGAGCGTGATCACGGTCGACGTAAGCCAGCAGAGCGGCTTCGAAGCTGCCAATTTTCGACAG -TTCAACATCCGCCAGGTAACCACGTTCTGCTGCGAACAGAACCAGAGACTGCTGCGCAACGGACATCGGCGCATA -CTGTTTCTGTTTCAGCAGTTCGGTCACTTTCTGACCGTGGTCAAGCTGCTTACGTGTTGCATCGTCAAGGTCGGA -TGCAAACTGAGAGAACGCTGCCAGTTCACGATACTGTGCCAGAGCGGTACGGATACCACCGGACAGTTTTTTCAT -GATCTTGGTCTGTGCTGCACCACCAACACGGGATACGGAAATACCCGGGTTAACCGCAGGACGAATACCGGCGTT -GAACAGGTTGGTTTCCAGGAAGATCTGACCATCGGTAATGGAGATTACGTTGGTCGGAACGAACGCAGAAACGTC -ACCCGCCTGAGTTTCGATAATCGGCAGTGCGGTCAGAGAACCGGTTTTCCCTTTCACTTCACCTTTGGTGAAGGC -TTCAACGTATTCGGCGTTAACACGTGCAGCACGCTCCAGCAGACGAGAGTGGAGGTAGAAAACGTCGCCCGGGAA -TGCTTCACGTCCTGGCGGACGACGGAGCAGCAGGGAGATCTGACGGTAAGCAACAGCCTGTTTAGACAGGTCATC -GTAAATGATCAGCGCATCTTCACCGCGGTCACGGAAGTATTCGCCCATTGCGCAACCGGCATACGGTGCCAGGTA -TTGCAGTGCAGCGGATTCAGACGCGGTTGCTACCACAACGATGGTGTTAGCCAGTGCGCCGTGCTCTTCCAGTTT -ACGTACCACGTTAGAAATGGTGGACGCTTTCTGGCCGATAGCGACATAGATACATTTGATACCGGAATCGCGCTG -GTTGATGATGGCATCGATAGCCAGTGCGGTTTTACCTGTCTGACGGTCACCGATGATCAATTCACGCTGACCACG -ACCGATTGGGATCATGGAGTCAACGGCTTTATAACCGGTCTGTACCGGCTGATCTACGGACTGACGTTCGATAAC -GCCCGGAGCGATTGCTTCTACAGCAGAGAAGCCGTCGTGATCCAGCGGACCTTTACCGTCGATTGGTGCACCCAG -AGTGTTAACCACACGGCCCAGCAGGCCACGGCCAACCGGAACTTCCAGGATACGGCCAGTACACTTAACTTTCAT -GCCTTCGGCAAGGTCAGCGTACGGACCCATAACAACCGCACCTACAGAGTCGCGCTCGAGGTTCAGTGCGATAGC -GTAACGGTTACCCGGCAGGGAGATCATTTCACCCTGCATACAATCGGCCAGGCCGTGAATGCGGATAACACCGTC -ACTTACAGAAACAATAGTACCTTCGTTGTGAGCTTCACTCACAACATTGAACTGAGCAATGCGCTGCTTGATCAG -TTCGCTGATTTCGGTGGAATTCAGTTGCATGCTCCAGTCCCCTTAAGACTGCAAGACGTCTGCAAGGCGCTCAAG -ACGACCGCGTACGCTGCCATCAATGACCATATCACCCGCTCGGATGATAACGCCTGCCATTACAGACTTATCGAT -TTTGCAATTCAGCTTAACTTTGCGTGACAGACGTTTTTCCATCGCAGCAGAAATTTTCGCGAGCTGTTGTTCACT -CAGTGCGGCAGCGGAAATGACGTCTACCTCAGCGGTAGCCTCACTCACGGCACGCAGGTGAATAAACTGCTCCAG -AACATCCGGGAGCGCGTTAAGACGACCATTTTCAGCCATAACCCGAATCAGGTTCTGACCGTTTTCGTCCAGTTG -CTCACCACAAACTGCGATAAACGACTCGGCGAGCGTTTCTGGCGCAAGCGCGCCAGAGAGAAGCTCTGCCATTTG -TTCGTTTTTGGTTACCTCGGCGGCAAACGCCAGCATGTCCTGCCAGCGTTCTACACTTTGGTGTTCGACGGCAAA -GTCAAAAGCTGCTTTGGCGTAGGGGCGAGCTACCGTAATAAATTCAGACATCAGCCCCTCCCTCCTTACAGTTCA -GCGACAAGTTTATCCACGATGTCGCTGTTAGCAGCTTCATCCACGGAACGTTCGATGATCTTCTCGGCGCCAGCA -ACAGCCAGGATAGCAACTTGCTTACGCAGCTCTTCACGGGCACGTTTACGCTCGGCTTCAATTTCCGCCTGCGCC -TGGGCCACGATTTTAGTACGTTCCTGTTCTGCCTCAGCTTTCGCTTCGTCCAGAATCTGCGAGCGGCGTTTGTTC -GCCTGCTCGATGATTACCTGGGCTTCCGCTTTCGCTTTTTTCAGCTGGTCGGTCGCGCTGGCCTTTGCAAGGTCA -AGGTCCTTATGTGCTCGTTCTGCGGAAGCAAGGCCGTCAGCAATTTCTTTTTGACGTTTTTCGATGGCTGCCATT -AATGGCGGCCATACGTACTTCATGCAGAACAGAACGAACAGGACAAACGCGATGGCCTGGCCGAGGATTGTTGCG -TTAAGATTCACAGCACAATGCCTCTATTTAGTTAACGTTCTGATATTGCTCTTTAAATAAAAGCAACGCTTACTA -CGCGACAGCGAACATCACGTACAGACCCAGACCTACAGCGATCATCGGGATAGCATCCACCAGACCCATAACGAT -AAAGAACTGAGTACGCAGCAGAGGAATCAGATCAGGTTGACGCGCTGCGCCTTCCAGGAATTTACCCCCGAGGAT -GCCGATACCGATCGCAGCACCGATTGCCGCCAGACCCATCATCACAGCGGCAGCCATGTACAGCAGATCCATATT -CAGGTTTTCCATGACAGTCTCCAGTTTGTTTCAGTTAAAACGTAGTAGTGTTGGTAAATTAATGTTCTTCAGACG -CCATCGACAGATAGACGATCGTCAGAACCATGAAGATGAAGGCTTGCAGCGTAATGATCAGGATGTGGAAAATGG -CCCACGGCACATTCAGGATCCACTGTGACCACCACGGCAACAGACCAGCAATCAGAATGAAAATCAGCTCACCGG -CATACATGTTACCGAACAGTCGCAAACCGAGTGAAACTGGTTTGGACAGCAGGCTTACCCCTTCAAGGATTAAGT -TGACAGGAATGAACGCCCAGTGATTGAACGGCTGCAGCGTCAACTCTTTCGTGAAGCCGCCGATGCCTTTCATTT -TGATGCTGTAGAACAGAATCAGGATAAATACGCCCAGTGCCATAGACAGCGTTACGTTCACGTCCGCAGACGGAA -CCACACGCAGTGCAGGCAGACCCAGTACATGTTCAGCAATGTACGGCAGCAGGTCGATAGGCAGTAAATCCATCA -GGTTCATCAGGAATACCCAGACGAAGATCGTCAGGGCCAGCGGAGCAATCAGCTTGCTTTTGCCATGGTACATGT -CTTTCACGCTACCATTAACAAAGCCGATCACCAGCTCAATCGCGGTCTGAAACTTACCTGGCACACCGCTGGTCG -CCTTTTTGGCTACGCTACGGAATAAAACCAGGAACAACAGACCCAGCACCACCGAGAAGAACATGGAGTCAATAT -TGATTGTCCAGAAGGTGGCTGGGGGGTTTTGTGGATCCACCAGCGAGAATGTACGCAGGTCCAGCTGAAGGTTAT -TCAGGTGGTGTCCTATGTAATCCTGCGGCGTCATATTTTCTGAAGCCATGATGCCTTTTACCCTTTGTTGTTAAT -TACAGCCGGTGCCAGTATCTGAACCACCAGCACCAAAACCCACGTAACGATCAGCGGCAAGAATACCGCCTTTAA -AACCGCCAACGCCACCACCAGTAACACCAACATCGCCAGAACTTTGAAAGCTTCGCCAAATGCGAATGTCCAGGC -CACCCGGCCTTTCGCTGGTGTATGCGCCTGGTGACGCCAGGCAAATATCATAAACAAAACGTTAGGCAGAAAGAC -TGCCAGGCCCCCGCTTATTGCAGAGACGCCCCAGAAGGGGTCTTTGAGGCTGAACAGCAATCCACTTGCTATCAC -CACCAGTAACTGAACGAGCAGAAGCTTCCGAGCAACGTTTCGACTCACGAGCGACACAGACATCACGTTTTTCAC -TCCTGCTCCCTTCGAGGTATGCCGCGTGTCGTATAAAACTTTCTTTAAGGCTTAGAGTCAAGCATCAAAAAGCGG -TCAAATTATACGGTGCGCCCCCGTGATTTCAAACAATAAGTAGCCAAAAGGTGAATAAATGTTTAAATATTTTTC -CAGTGCATACAATTGCGACTTTTCTGCTAACCCTGTTCGATCATGAAAAACTGTAAATAACGCGTAAACACTGGT -GATAAAGCGTGCTTCAGATCACATATTGCGCATGTTCGCGCACAGCATATTTATTTACTTGGCAAATGATGCCTT -TGCAAGTTTATGATATTTCAGTCTAAAAACAGATACTGTTTTAATAAATGACATTTACACAACAAAAACCACCCA -TTGACATTTTTAATAATGTTTTAACAGCCAATGATGGTTCTTAGCGCCGATTTTTAGCAGACTGATATTTTCACT -AATGACTTATTTTCTGCTTACCAAAAAAAGCCACGTTATCTTGTTGATGCAAAAGAGTGAACGTGGCGTTAAATG -TAACCAGTTATATCAGTAGAAAACCTGGTTGTTGTTAACAGTCTAACCGGTCAATTTTTTATGATTTTTTTGATA -AAAATTAAATTTTATTTGCTTTAATCACCACCAGATGACGTTCGCCATCCAGGGCTGGAACCTGAAGTTTAACCA -CTGATTCGACCTGATATTCTTCGGGCAACAAAGCGATTTCATCTTCCGGCATTTGCCCTTTCAGCGCGTAGAAAC -GGCCTTGCTCACCAGGAAGATGGTGGCACCAGCTCACCATATCGTTCAGAGAGGCAAAAGCGCGGCTAATTACGC -CATCAAATGGCGGCTCTGAAGGAAACTCTTCTACCCTGCTCTGTACTGGTTCAATATTCTCCAGTTTAAGCTCAT -GTTGCACCTGACGAAGGAAACGCACGCGTTTACCAAGGCTATCCAACAGAGTGAAATGGGCTTCAGGACGCACGA -TAGAGAGTGGAATGCCTGGCAGTCCTGGTCCGGTGCCGACATCGATAAACCGTTCACCTTGCAGATACGGTGCCA -CCACAATGCTATCGAGAATATGGCGTACCAGCATCTCATTAGGATCGCGGACCGAAGTCAGGTTGTACGCTTTGT -TCCATTTATGCAGCATATTCACGTAGGCAATAAGCTGGTTTTTCTGGTGATCGGTAAGCGAAATACCTGCGTCTT -TCAGCAGTAAGGAGAGTTTGTTGAGCACGGTGATTACCTGTTCTTGATGCGTTGCCTGGTAAGCGGGTGCTTACC -AGGCATTTTTAATGCGTTATGCGCTACGACGCAGCATACCCTGTTTTTTCAGCCACACCAGCAGAATGGAGATGG -CCGCAGGCGTGACGCCAGAAATACGCGAAGCTTGGCCGATAGAGGCTGGTTTGTGATCGTTAAGTTTGGCGATCA -CTTCGTTAGAAAGACCGGATACCTGGCGGTAATCCAGTGTCGCGGGTAGCAGGGTGTTCTCGTTACGCAGCTGCT -TTTCGATCTCATCTTGCTGGCGCGCGATATAACCTTCGTATTTAACCTGAATCTCAACCTGTTCCGCCGCCTGTT -CGTCTGTCAACGCAGGGGCAAACGGCGTCAGCGTGGTTAATTTTTCATAAGTCATTTCCGGACGACGCAGCAGAT -CTTCACCACTGGCTTCACGGGAAAGCGGCGCAGTCAGGTGAGCATTCACTTCGGCTGCAGCTTCCGCCGACGGGG -TTACCCAGGTCGATTTCAGACGCTGACGCTCACGCTCGATATTCTCAAGTTTCTCGTTAAAGCGCGCCCAACGTT -CGTCATCCACCAGGCCCAGTTCACGACCGATTTCAGTCAAACGCAGATCCGCATTATCTTCGCGTAGCATCAGAC -GATATTCTGCGCGCGAAGTAAACATACGATACGGTTCTTTGGTTCCTAAAGTGCACAGGTCATCAACTAGTACGC -CGAGATACGCCTGAGAACGTGCCGGAGCCCAACCTTCTTTGTCAGCAGACAGACGGGCAGCGTTAAGACCGGCCA -GCAAACCTTGCGCAGCGGCTTCTTCGTAACCGGTAGTGCCGTTAATCTGACCAGCAAAGAACAGCCCCTGGATAA -ACTTGCTCTCCAGCGTCGGTTTCAGGTCGCGAGGATCGAAGAAGTCATACTCAATGGCATAACCCGGACGCACGA -TCTTCGCGTTTTCCATCCCCTGCATAGAGCGGACGATTTGCATCTGCACATCGAACGGCAGGCTGGTGGAGATAC -CGTTCGGATAAATTTCATTAGAGGTCAGTCCTTCCGGTTCAAGGAAGATCTGATGCTGATTTCTGTCGGCGAAGC -GCATGACTTTGTCTTCGATCGACGGGCAGTAGCGTGGGCCGACACCTTCGATCACCCCTGCGTACATTGGGCTAC -GATCGAGGTTACTGCGGATCACATCATGGGTTTTCTCGTTGGTATGAGTGATATAACACGGCACCTGCTGGGGAT -GCTGGGACGCATTGCCCATAAACGAGAATACCGGCATTGGGTTATCGCCATGCTGTTGCGCCAGTACGCTAAAGT -CGATGGTTCGAGCATCAATACGCGGTGGTGTCCCGGTTTTCAGACGACCAACGCGCAGCGGCAGTTCACGCAAAC -GGCGAGAAAGCGGAATGGACGGCGGATCACCAGCACGGCCACCGCTGTAATTATCCAGACCGATATGAATTTTAC -CGTCGAGGAACGTCCCAACGGTGAGCACGACGGCTTTGGCACGGAACTTCAGTCCCATTTGGGTAACAGCACCGA -CCACGCGATCGTTTTCGACAATAAGATCTTCAACCGCCTGCTGGAAGATCATCAGGTTCGGTTGGTTCTCCAGCG -CCGTACGTACCGCCTGACGGTAGAGCACACGATCCGCCTGAGCTCGGGTAGCGCGAACCGCCGGTCCTTTGCTTG -CGTTTAGTATCCTAAACTGGATACCCGCCTGATCGATCGCTTTCGCCATCAGACCGCCGAGTGCATCCACTTCTT -TTACCAGATGTCCCTTCCCAATACCGCCGATCGCCGGGTTGCAGCTCATCTGCCCCAGAGTGTCGATATTGTGTG -TCAAAAGCAGAGTCTGTTGACCCATACGCGCCGCGGCCATCGCGGCCTCGGTGCCTGCATGACCCCCGCCAATGA -TGATGACGTCAAAAGGATCCGGATAAAACATGGTGATTGCCTCGCATAACGCGGTATGAAAATGGATTGAAGCCC -GGGCCGTGGATTCTACTCAACTTTGTCGGCTTGAGAAAGACCTGGGATCCTGGGTATTAAAAAGAAGATCTATTT -ATTTAGAGATCTGTTCTATTGTGATCTCTTATTAGGATCGCACTGCCCTGTGGATAACAAGGATCCGGCTTTTAA -GATCAACAACCTGGAAAGGATCATTAACTGTGAATGATCGGTGATCCTGGACCGTATAAGCTGGGATCAGAATGA -GGGGTTATACACAACTCAAAAACTGAACAACAGTTGTTCTTTGGATAACTACCGGTTGATCCAAGCTTCCTGACA -GAGTTATCCACAGTAGATCGCACGATCTGTATACTTATTTGAGTAAATTAACCCACGATCCCAGCCATTCTTCTG -CCGGATCTTCCGGAATGTCGTGATCAAGAATGTTGATCTTCAGTGTTTCGCCTGTCTGTTTTGCACCGGAATTTT -TGAGTTCTGCCTCGAGTTTATCGATAGCCCCACAAAAGGTGTCATATTCACGACTGCCAATACCGATTGCGCCAA -AGCGGACTGCAGAAAGATCGGGCTTCTGTTCCTGCAATGCTTCATAGAAAGGAGAAAGGTTGTCCGGAATATCTC -CGGCACCGTGGGTGGAGCTGATAACCAGCCAGATCCCTGAGGCAGGTAAATCTTCTAACAGCGGACCGTGCAGCG -TTTCGGTGGTAAAACCCGCCTCTTCCAGCTTTTCAGCCAGGTGTTCTGCTACATATTCGGCACCGCCGAGGGTGC -TGCCGCTGATAAGAGTGATATCTGCCATAAACCGCCACCTTTATTAAGAGTGGCGTATTGTACGCTGTGAACGCG -TTGGGATCTACCTGTGGAAAAGTATGGGATTAAAAAAGCCGATCAGGGCTTGATGGTACGCATGATCGGGTTTTG -CAGGACGATCAATGTCTCGGTGGACTGAATTTCATCAATTGTTTGGATCTTGTTGATAAGTACATGCTGGAGAGC -GTCGATCGAACGGCACATCACTTTTATAAAGATGCTGTAGTGGCCGGTTGTGTAATAGGCTTCAGTGACTTCATC -AAGGCTTTCCAGCTTTGCCAGCGCGGAAGGGTAGTCTTTGGCGCTCTTTAATATAATGCCGATAAAGCAGCCTAC -GTCATAACCGAGCTGCTTCGGGCTGACATCAATACGCGCCCCGGTAATGATCCCCGCCTGCTTCATTTTCTCTAC -TCGAACGTGAATCGTCCCCGGACTGACGCCAAATTGTTTCGCCAGTTCGGCGTAAGCGGTGCGCGCATTGCCCAT -TAATGCTTCCAGGATGCCACGGTCCAGATTGTCGATCAGATAATTTTCCATAGGATTTTCTTATGCGGATTGATG -ATTCATTCTATTTTAGCCTTCTTTTTTAATGAATCAAAAGTGAGTTAGGCTTTTTATTGAATGATTATTGCATGT -GTGTCGGTTTTTGTTGCTTAATCATAAGCAACAGGACGCAGGAGTATAAAAAATGAAAACCGCTTACATTGCCAA -ACAACGTCAAATTAGCTTCGTGAAATCTCACTTTTCTCGTCAACTGGAAGAACGTCTGGGGCTGATCGAAGTCCA -GGCGCCGATTCTTAGCCGTGTGGGGGATGGCACGCAGGATAACTTGTCGGGCTGTGAAAAAGCGGTGCAGGTAAA -AGTGAAAGCTCTGCCTGATGCCCAGTTCGAAGTGGTTCATTCACTGGCGAAGTGGAAACGTCAGACCTTAGGGCA -ACACGACTTCAGCGCGGGCGAAGGGCTGTACACGCACATGAAAGCCCTTCGCCCCGATGAAGACCGTCTTTCTCC -GTTGCACTCGGTCTATGTTGACCAGTGGGACTGGGAACGCGTAATGGGCGACGGTGAGCGTCAATTCTCGACTCT -GAAAAGCACGGTAGAGGCGATCTGGGCGGGAATTAAAGCAACCGAAGCTGCGGTTAGCGAAGAGTTTGGCCTGGC -ACCGTTCCTGCCGGATCAGATCCACTTCGTACACAGCCAGGAGTTACTGTCTCGTTATCCGGATCTTGATGCCAA -AGGGCGTGAGCGGGCGATAGCGAAAGATCTTGGCGCGGTATTCCTTGTCGGGATTGGCGGCAAGCTGAGCGATGG -TCATCGCCACGACGTGCGCGCACCGGATTATGATGACTGGAGCACCCCGTCAGAGCTGGGCCATGCGGGTCTGAA -CGGCGATATTCTGGTGTGGAACCCGGTACTGGAAGATGCGTTTGAGCTTTCCTCCATGGGGATCCGTGTAGATGC -CGACACGCTGAAGCATCAACTGGCGCTGACCGGTGACGAAGATCGCCTGGAGCTGGAGTGGCATCAGGCGCTGCT -GCGCGGTGAAATGCCGCAGACCATCGGCGGCGGTATCGGCCAGTCTCGTTTGACTATGCTGCTGCTGCAACTGCC -GCATATCGGCCAGGTTCAGTGTGGAGTATGGCCAGCTGCTGTTCGCGAGAGCGTCCCTTCTCTGCTGTAATAATT -TATCGCCGCCAGCGTCTGAGCAGGCGGCTTCGCATCCCGGTATCAAAGCGCCAGATATGATCGAAAATGCGCATG -ATGCCGGGTTTGCCGTGTGCCGACATCGCCACGGCATGAAAGCGATGCTGATGTACCCGCTGCAGCTCTTTCACT -TTACTCGTCACGTCGTCAGGCAACCGCTGAGCGATAAAATCAGAAATCACCACCGCATCGGCATCAAACCATTCC -CTGCTTTGCAAGCGTTCCATAATGGCGCGAAAACAACTGGCAAGATCGGTGCCGCCACGAAACTGCTGGCTTAAA -AAACGGATTGCTTGTTCGATGCCTTGTGGGCCTGAAAGCTCATAACGGACGATCTCGGTGGAAAATAGCATAATA -TAGCAGCGCCGGTTTTCTGCGAGAGCAATGCGCATCAAGGCCAGGCAGAACGCTTTCGCACACTGTTCATTAAAG -CCGCCCATTGAGCCGGAAGTATCCACACAGACAATAAACGGCCCGCGCGGCTGTTCATCGTAATCTTTATGTACC -ACCGGACGTTCGATCACTTTTTCACGCCACGACTCACCGTGCAGGCGATAGGTGAGCAACTGTTTTTCCACCAGC -CGACGGTAAAACTCATACTCCAGTTCCGTTATCCCTAGTGTCGCCAGTTCTGGCGGCAGGAGACGTAAAATATCA -TCGCTTTGTTGCAGACCATCAACCTGCTCAGGAACCGTCGCCGGTTCGCGCACCATGGTGCGGAAGGTTTCCATC -TGCGCATCGTTGCGCGGTATTGATTTGGCTTCCCGAGAACGCCCCAGCTGCTCTGCCAGGCGTTTCAGTTCCGGC -TGTTCGTTAAGAAATTCACCGTATTTCACAATCAACTGATAGTCGCCACGTTTAAGCTGACCGGCGCTCATATCC -CACAGACGACCAGCTGCAGTATTGTTATCTGCGAGAATCGGTTCAAGTTGTCCGCTCAGCGTCATGCGTTCCTGA -ACTTCACTCAACAGTTGTTCGCGTTCTTCTTCTAATAGCTGTTGATTTAACGTCGTTGCTTGCACGATCAGACTT -AAACGCCAACGCTGGAGAAAAAGCGTGTGTAACGCTGAAGTGATCGTGCTGTTAGCATCAACCAACTGTCGGGCT -TGTTCTGCCCATGGAGAATTCAGACGATGCAGTAAGTCCAGGATCTGTGGTAGCTGCACAATAAACTGTGGCGTG -GAGAGGAGCTGGCTTTGCTGATAGCACATCACCTCTTCGGTGAGTTCCGGCGGGACTCGGGCATCTTTCAGCCGA -CTGCGCAGCGCTTCACGCCAGCGGGGAACATCATCAGTGATTGCCGCCTTCAGGCGTGGGAATTTTTCAAAGAAG -ACCGCCAGCTGCGGTGAGGCCAGCAGTGCGATGATCATCTCTTCGATCAATCCCTCTTCGCTGACGGCCAGCATC -ACATTAAGCGTATCCAGCGTTAGCATTGTTGTGCCTGGCGAATCTGTGCACCGACATCCTGTAGGCTGGCTTCAA -TGCGACCTAACCAGTCGCCAGGGATAAACAGACATTTTTGCTGTTCGCTGAATAAAGCGTGTTGCTTGCGCCAGT -CGCTTTCAAGCTCTTCCAGTTGTTGTTTTATTTCACCAGGCAGACCTTCAGCCGATGAACCGGGAAGTGCCAGCG -TACTGCCTTGTAAACTTACATCGCGAACGACAAGATGTTGGGCGCTATCAACTTCCAGATTCAGTTTCTGGGCAA -AGCCGATACCGTTCAGTTTACCGCGAATTTCACCACCTTTGCTCAGCCACTGTTCCAGCGCGCTACGCTCAAAGG -AGATATGAACCACTTCCATATCATGCAGTTTTAACGGTTTTTGCAGCAGTAGAGTCAGAGTGGAAGCAGTAACGT -TAACAGGAAGTTGATACTGCTGACGACGGCTGAAAATGCCGCCCAGACGAATTACCGTTAAGGCTGTTTTATCGC -TTTGTTGCTGCTGGAGTTGCAGGTGACGTTGCACAATCGCGCCAAGGCGAGTCAACATCCCTTGCTGTTGCCAGG -CGTGACCGGTCATCAATACATCAATTTGTTGTTGTATCAAATTCAGGCTTTGCGCGTCATACCACAGGCAATCTT -TCAGCAAAATGAGATCTACCGGGGCAACAGCACTGCGACCGCTAAAAAAGGCGCTGGCCTGCAATAATCGGATCG -CTTTTTTCCAGCGACGATCCGAGACATAAGGCGCATCCGGTAATTTATCCAGTTGCTGGCGCAGCATAAAAATCA -GCTCAAATACATGATCGGGCAGCGTAATTTCACCAATCTCTTTCTGCCAGCGTTCATATTCTTCATCTGTGACCT -GCAAGGCATCAGGAACCGGATTGTCGTTTTCATCCTGTTGACTGGTCAGCATGGAGCGGAAATTCGCTTTATCCT -GCACTTTATCTAACCACAGACGAATCAGCATGCGGTCATATAACGCTTCCAGACTGCTGTCTGCTTCCGGCAGCT -CGTTGGAGGCCGCCACCAGCAGACGCATCGGGATTTTTTCTACGTGTGCACCGTTGCGGAACTGGCGCTCGTTAA -TGGCGGTGAGCAAGGTATTAAGAATTGCCGGGCCCGCTTTCCAGATCTCATCCAGAAAGACAATTTCTGCTTCCG -GCAGGTAACCGCTGGTTAAACGTTCATAGCGCCCTTCATCTTTTAGCGCCTGAATAGAAAGGGGACCAAAAACTT -CTTCCGGCGTGGAGAAGCGGGTCATCAGATATTCAAACGCGCGGGCATTCTGAAAGGCGAATTTTAAGCGCCGGG -CGATCAAACTTTTGGCAATACCTGGCGGGCCAAGGAGGAACACACTTTCACCACTTAATGCCGCTAATAAACACA -AGCGGATGGCGTGGCTACGTTCATAAAGCCCCTTTTCCAACGAACTGCTCAGGCGGGAAATTCTTTCCGCTAATA -AATGAGGGTGAGCCATAATGAAGTGGCGTCCTTTCGTCAAAAGTTCTGCGTAAATTGCGAGTATAGACGTTTCTT -GCTGGTGGCTAAAATAGTCTCAAAGGGGGGGTATTTTTCTTTGAGCCAGGTTAATGTGGCCGCATTTAGGAGTAC -GATTTTGCCGTTAATCGTGCATACTGTGCGCTTTTTTGTGGGCCAAGGGACTAAGCACACATTTCATATTTCAAC -GAAAGACTAGTCTATGAGCACTGATAATAAGCAATCATTGCCCGCGATTACCCTCGCGGCGATTGGAGTTGTCTA -CGGCGATATTGGTACCAGCCCGTTATATACACTTCGTGAATGTTTGTCCGGCCAGTTTGGTTTTGGCGTTGAACG -CGATGCCGTGTTTGGCTTTTTATCGCTGATCTTCTGGCTGCTAATCTTTGTGGTTTCCATTAAATATCTCACCTT -CGTGATGCGGGCAGATAACGCCGGTGAGGGGGGGATCCTGACGTTGATGTCGCTTGCCGGGCGTAATACGTCGGC -GCGAACCACATCAATGCTGGTGATTATGGGGCTAATCGGCGGCAGCTTTTTCTATGGTGAAGTCGTCATAACACC -CGCTATTTCGGTGATGTCAGCCATTGAAGGTCTGGAAATCGTCGCCCCGCAGCTGGATACCTGGATAGTTCCCCT -CTCAATTATCGTTCTCACTTTATTATTTATGATTCAAAAACATGGCACGGCTATGGTCGGTAAGCTGTTTGCGCC -GATCATGCTGACCTGGTTTTTGATTCTGGCAGGACTGGGGTTACGTAGCATTATTGCTAACCCGGAAGTGCTGCA -TGCGCTGAATCCAATGTGGGCGGTGCATTTCTTCCTTGAATACAAAACGGTTTCTTTTATTGCATTAGGGGCAGT -GGTGTTGTCGATTACGGGGGTCGAGGCGCTGTATGCTGATATGGGGCACTTTGGTAAGTTCCCTATTCGCCTGGC -GTGGTTCACCGTCGTATTACCTTCCTTGACCCTTAATTACTTCGGTCAGGGAGCGCTGTTGTTAAAGAACCCGGA -AGCGATTAAGAACCCGTTCTTCCTGTTGGCACCGGACTGGGCGCTGATCCCGCTGCTGATCATCGCCGCACTGGC -GACGGTAATTGCCTCGCAGGCGGTTATCTCTGGCGTCTTCTCATTGACGCGTCAGGCGGTACGTCTGGGATATTT -GTCGCCGATGCGCATTATTCACACCTCCGAAATGGAGTCAGGGCAAATCTATATTCCGTTTGTGAACTGGATGCT -CTATGTCGCGGTCGTGATTGTGATTGTCAGCTTTGAGCACTCCAGCAACCTGGCGGCGGCGTACGGGATTGCGGT -GACCGGAACCATGGTGCTGACGTCTATTCTCTCGACTACCGTGGCACGTCAGAACTGGCACTGGAATAAGTATTT -TGTTGCGCTGATCCTGATTGCTTTCCTTTGTGTCGATATTCCATTGTTCACCGCTAACCTCGATAAACTGCTCTC -CGGCGGCTGGTTGCCATTGAGCCTCGGTACTGTGATGTTTATCGTGATGACCACCTGGAAGAGCGAGCGTTTCCG -CTTGCTGCGGCGGATGCATGAACATGGTAACTCTCTGGAAGCGATGATTGCTTCGCTGGAGAAATCACCGCCTGT -TCGCGTGCCCGGGACCGCGGTGTATATGTCGCGTGCAATCAACGTCATTCCCTTTGCGCTGATGCATAACCTTAA -ACATAACAAGGTATTGCATGAGCGGGTGATTCTGTTAACTCTGCGCACCGAAGACGCTCCATATGTCCATAACGT -CCGTCGGGTACAGATTGAACAACTGTCGCCCACTTTCTGGCGCGTGGTGGCAAGTTATGGTTGGCGAGAAACGCC -AAACGTAGAAGAAGTTTTCCACCGCTGCGGTCTGGAAGGATTAAGTTGCCGGATGATGGAAACCTCCTTCTTTAT -GTCGCATGAGTCGTTGATCCTCGGCAAACGCCCGTGGTATTTGCGTCTGCGCGGCAAGCTGTACTTGCTGCTGCA -ACGTAATGCGCTGCGTGCACCAGATCAATTTGAAATCCCGCCAAACAGGGTTATCGAACTGGGTACTCAGGTCGA -AATCTAACGCCAGACGCCTCCTTTCTTCATAAGGGGGCGTTTTTGTTTTCATGGTTAATCACCATGTAAAACGTT -TCGAGGTTGATCACATTTCCGTAACGTCACGATGGTTTTCCCAACTCAGTCAGGATTAAACTGTGGGTCAGCGAA -ACGTTTCGCTGATGGAGAAAAAAATGAAAAAAGGCACCGTTCTTAATTCTGATATTTCATCGGTGATCTCCCGTC -TGGGACATACCGATACGCTGGTGGTGTGTGATGCTGGTTTACCCATCCCCAAAAGTACAACGCGTATCGATATGG -CATTAACCCAGGGTGTACCTTCTTTTATGCAGGTGCTGGGCGTCGTCACAAATGAAATGCAGGTCGAGGCGGCCA -TTATCGCGGAAGAGATCAAACACCATAATCCGCAACTCCACGAAACGTTGCTCACTCACCTTGAGCAGCTGCAAA -AACACCAGGGAAATACCATTGAAATTCGTTACACCACGCATGAACAATTCAAACAACAAACCGCAGAAAGTCAGG -CGGTAATTCGCAGCGGAGAATGTTCTCCGTATGCGAATATCATTCTCTGTGCTGGCGTGACGTTCTGAGGCCGTC -ATGGAAGCATTACTTCAGCTTAAAGGCATCGATAAAGCCTTCCCGGGCGTAAAAGCCCTCTCGGGCGCAGCGTTA -AATGTCTATCCGGGCCGCGTGATGGCGCTGGTGGGCGAAAACGGCGCGGGTAAATCCACCATGATGAAAGTGCTT -ACTGGCATCTATACTCGCGATGCCGGTACGCTTTTATGGCTGGGGAAAGAAACGACATTTACCGGGCCAAAATCT -TCCCAGGAAGCCGGGATTGGGATTATCCATCAGGAACTGAACCTGATCCCGCAGTTGACCATTGCCGAAAACATT -TTCCTCGGTCGTGAGTTTGTTAATCGCTTTGGCAAAATTGACTGGAAAACCATGTATGCCGAAGCGGATAAATTG -CTGGCTAAACTTAACCTGCGCTTTAAAAGCGACAAGCTGGTGGGCGATCTTTCCATCGGTGACCAGCAAATGGTT -GAAATCGCCAAAGTGCTGAGCTTTGAGTCGAAAGTCATCATTATGGATGAACCGACCGATGCGCTGACCGATACC -GAAACCGAATCCCTGTTCCGCGTCATCCGCGAGCTGAAATCGCAAGGCCGCGGTATTGTCTATATCTCCCACCGC -ATGAAAGAAATCTTCGAGATTTGCGATGACGTTACCGTTTTTCGTGATGGGCAATTTATTGCTGAGCGCGAAGTG -GCATCACTGACCGAAGATTCGCTGATTGAGATGATGGTGGGTCGCAAGCTGGAAGATCAATATCCGCACCTGGAC -AAAGCGCCGGGAGATATCCGCCTGAAAGTCGATAATCTCTGCGGACCTGGCGTTAACGATGTCTCTTTTACTTTA -CGCAAAGGCGAAATTCTTGGCGTCTCTGGTTTGATGGGCGCAGGTCGTACCGAACTGATGAAAGTGCTCTACGGC -GCACTACCGCGCACCAGCGGTTACGTCACCCTGGATGGGCATGAAGTCGTTACCCGTTCACCGCAGGATGGCCTG -GCAAACGGCATTGTGTATATCTCCGAAGACCGTAAACGTGACGGTTTAGTGTTGGGCATGTCAGTAAAAGAGAAC -ATGTCGCTGACAGCGCTGCGCTACTTCAGCCGCGCTGGCGGCAGTTTGAAGCATGCCGATGAACAGCAGGCTGTG -AGTGATTTCATTCGTCTGTTTAATGTGAAAACTCCGTCGATGGAACAGGCAATTGGTCTGCTTTCCGGTGGCAAT -CAGCAAAAAGTGGCGATTGCCCGCGGTCTGATGACACGCCCCAAAGTGTTGATCCTTGATGAACCTACCCGTGGC -GTAGATGTCGGCGCGAAAAAAGAGATCTATCAACTGATTAACCAGTTCAAAGCCGATGGCTTGAGCATCATTCTG -GTGTCATCGGAGATGCCAGAAGTATTAGGCATGAGCGATCGCATCATCGTCATGCATGAAGGGCATCTCAGCGGG -GAATTTACTCGTGAGCAGGCCACCCAGGAAGTGTTAATGGCTGCCGCTGTGGGCAAGCTTAATCGCGTGAATCAG -GAGTAAAAAAATGACAACCCAGACTGTCTCTGGTCGCCGTTATTTCACGAAAGCGTGGCTGATGGAGCAGAAATC -GCTTATCGCTCTGCTGGTGCTGATCGCGATTGTCTCGACGTTAAGCCCGAACTTTTTCACCATCAATAACTTATT -CAATATTCTCCAGCAAACCTCAGTGAACGCCATTATGGCGGTCGGGATGACGCTGGTGATCCTGACGTCGGGCAT -CGACTTATCGGTAGGTTCTCTGTTGGCGCTGACCGGCGCAGTTGCTGCATCTATCGTCGGCATTGAAGTCAATGC -GCTGGTGGCTGTCGCTGCTGCTCTCGCGTTAGGTGCCGCAATTGGTGCGGTAACCGGGGTGATTGTAGCGAAAGG -TCGCGTCCAGGCGTTTATCGCTACGCTGGTTATGATGCTTTTACTGCGCGGCGTGACCATGGTTTATACCAACGG -TAGCCCAGTGAATACCGGCTTTACTGAGAACGCCGATCTGTTTGGCTGGTTTGGTATTGGTCGTCCGCTGGGCGT -ACCGACGCCAGTCTGGATCATGGGGATTGTCTTCCTCGCGGCCTGGTACATGCTGCATCACACGCGTCTGGGGCG -TTACATCTACGCGCTGGGCGGCAACGAAGCGGCAACGCGTCTTTCTGGTATCAACGTCAATAAAATCAAAATCAT -CGTCTATTCTCTTTGTGGTCTGCTGGCATCGCTGGCCGGGATCATTGAAGTGGCGCGTCTCTCCTCCGCACAACC -CACGGCGGGGACTGGCTATGAGCTGGATGCTATTGCTGCGGTGGTTCTGGGCGGTACGAGTCTGGCGGGCGGAAA -AGGTCGCATTGTTGGGACGTTGATCGGCGCATTAATTCTTGGCTTCCTTAATAATGGATTGAATTTGTTAGGTGT -TTCCTCCTATTACCAGATGATCGTCAAAGCGGTGGTGATTTTGCTGGCGGTGCTGGTAGACAACAAAAAGCAGTA -ATAACGACTACAGGACATCTTGAATATGAACATGAAAAAACTGGCTACCCTGGTTTCCGCTGTTGCGCTAAGCGC -CACCGTCAGTGCGAATGCGATGGCAAAAGACACCATCGCGCTGGTGGTCTCCACGCTTAACAACCCGTTCTTTGT -ATCGCTGAAAGATGGCGCGCAGAAAGAGGCGGATAAACTTGGCTATAACCTGGTGGTGCTGGACTCCCAGAACAA -CCCGGCGAAAGAGCTGGCGAACGTGCAGGACTTAACCGTTCGCGGCACAAAAATTCTGCTGATTAACCCGACCGA -CTCCGACGCAGTGGGTAATGCTGTGAAGATGGCTAACCAGGCGAACATCCCGGTTATCACTCTTGACCGCCAGGC -AACGAAAGGTGAAGTGGTGAGCCACATTGCTTCTGATAACGTACTGGGCGGCAAAATCGCTGGTGATTACATCGC -GAAGAAAGCGGGTGAAGGTGCCAAAGTTATCGAGCTGCAAGGCATTGCTGGTACATCCGCAGCCCGTGAACGTGG -CGAAGGCTTCCAGCAGGCCGTTGCTGCTCACAAGTTTAATGTTCTTGCCAGCCAGCCAGCAGATTTTGATCGCAT -TAAAGGTTTGAACGTAATGCAGAACCTGTTGACCGCTCATCCGGATGTTCAGGCTGTATTCGCGCAGAATGATGA -AATGGCGCTGGGCGCGCTGCGCGCACTGCAAACTGCCGGTAAATCGGATGTGATGGTCGTCGGATTTGACGGTAC -ACCGGATGGCGAAAAAGCGGTGAATGATGGCAAACTAGCAGCGACTATCGCTCAGCTACCCGATCAGATTGGCGC -GAAAGGCGTCGAAACCGCAGATAAAGTGCTGAAAGGCGAGAAAGTTCAGGCTAAGTATCCGGTTGATCTGAAACT -GGTTGTTAAGCAGTAGTTTTAATCAGGTTGTATGACCTGATGGTGACATAAATACGTCATCGACAGATGAACGTG -TAATATAAAGAAAAGCAGGGCACGCGCCACCCTAACACGGTGGCGCATTTTATGGACATCCCGAATATGCAAAAC -GCAGGCAGCCTCGTTGTTCTTGGCAGCATTAATGCTGACCACATTCTTAATCTTCAATCTTTTCCTACTCCAGGC -GAAACCGTAACCGGTAACCACTATCAGGTTGCATTTGGCGGCAAAGGCGCGAATCAGGCTGTGGCTGCTGGGCGT -AGCGGTGCGAATATCGCGTTTATTGCCTGTACGGGTGATGACAGCATTGGTGAGAGCGTTCGCCAGCAGCTCGCC -ACTGATAACATTGATATTACTCCGGTCAGCGTGATCAAAGGCGAATCAACAGGTGTGGCGCTGATTTTTGTTAAT -GGCGAAGGTGAGAATGTCATCGGTATTCATGCCGGCGCTAATGCTGCCCTTTCCCCGGCGCTGGTGGAAGCGCAA -CGTGAGCGTATTGCCAACGCGTCAGCATTATTAATGCAGCTGGAATCACCACTCGAAAGTGTGATGGCAGCGGCG -AAAATCGCCCATCAAAATAAGACTATCGTTGCGCTTAACCCGGCTCCGGCTCGCGAACTTCCTGACGAACTGCTG -GCGCTGGTGGACATTATTACGCCAAACGAAACGGAAGCAGAAAAGCTCACCGGTATTCGTGTTGAAAATGATGAA -GATGCAGCGAAGGCGGCGCAGGTACTGCATGAAAAAGGTATCCGTACTGTACTGATTACTTTAGGAAGTCGTGGT -GTATGGGCTAGCGTGAATGGTGAAGGTCAGCGCGTTCCTGGATTCCGGGTGCAGGCTGTCGATACCATTGCTGCC -GGAGATACCTTTAACGGTGCGTTAATCACGGCATTGCTGGAAGAAAAACCATTGCCAGAGGCGATTCGTTTTGCC -CATGCTGCCGCTGCGATTGCCGTAACACGTAAAGGCGCACAACCTTCCGTACCGTGGCGTGAAGAGATCGACGCA -TTTTTAGACAGGCAGAGGTGACGCTTGGCTACAATGAAAGATGTTGCCCGCCTGGCGGGCGTTTCTACCTCAACA -GTTTCTCACGTTATCAATAAAGATCGCTTCGTCAGTGAAGCGATTACCGCCAAAGTTGAAGCGGCGATTAAAGAA -CTCAATTACGCGCCATCAGCTCTGGCGCGTAGCCTCAAACTCAATCAAACACATACCATTGGCATGTTGATCACT -GCCAGTACCAATCCTTTCTATTCAGAACTGGTGCGTGGCGTTGAACGCAGCTGCTTCGAACGCGGTTATAGTCTC -GTCCTTTGCAATACCGAAGGCGATGAACAGCGGATGAATCGCAATCTGGAAACGCTGATGCAAAAACGCGTTGAT -GGCTTGCTGTTACTGTGCACCGAAACGCATCAACCTTCGCGTGAAATCATGCAACGTTATCCGACAGTGCCTACT -GTGATGATGGACTGGGCTCCGTTCGATGGCGACAGCGATCTTATTCAGGATAACTCGTTGCTGGGCGGAGACTTA -GCAACGCAATATCTGATCGATAAAGGTCATACCCGTATCGCCTGTATTACCGGCCCGCTGGATAAAACTCCGGCG -CGCCTGCGGTTGGAAGGTTATCGGGCGGCGATGAAACGTGCGGGTCTCAACATTCCTGATGGCTATGAAGTCACT -GGTGATTTTGAATTTAACGGCGGGTTTGACGCTATGCGCCAACTGCTATCACATCCGCTGCGTCCTCAGGCCGTC -TTTACCGGAAATGACGCTATGGCTGTTGGCGTTTACCAGGCGTTATATCAGGCAGAGTTACAGGTTCCGCAGGAT -ATCGCGGTGATTGGCTATGACGATATCGAACTGGCAAGCTTTATGACGCCACCATTAACCACTATCCACCAACCG -AAAGATGAACTGGGGGAGCTGGCGATTGATGTACTCATCCATCGGATAACCCAGCCGACCCTTCAGCAACAACGA -TTACAACTTACTCCGATTCTGATGGAACGCGGTTCGGCTTAGATTTACGCTGTCTTTTGATCAAATTATTACCAT -CGGTTGTTTTCAGAAGCATGAACATTGCTGCTGAAGCAACAGTAATAATGCCCATTGTGATAAACGTATAGTGGA -ATTGTTCGACAGTCGTTGTGCCTTCCATTCCTTCATAAACGCGAAGGACGGCCGCACTTACAGCAACGCCTAAAC -TAATCGACAGTTGCTGCGTGACCGCCAGAACACTGTTACCGCTGCTGGCATTGTCATCGGTCAGATCGGCAAGTG -TGATGGTATTCATCGCGGTAAACTGCGTCGACATAGCCATCCCTAATATAAACAACGGCAAGATCAGCATCCATA -TAGCCATTGCTGGTGATTGCAAAGAGAACTGAGCGATCATTAGCCCAATAATCACCGTGATCCCCACTAACGTAT -GGCGATAGCCCAGACGACGTAAGACTTGGGTAACCATCGATTTTGCAATAATGGAACCTAACGCTGTCGGTGCCA -TCATACAGCCAGCAATAAACGCCTGATAACCAAATCCTACCTGTAACATCAATGGCATAAGGAACGGTACACAGC -CGGTCCCCAGACGGGTTGCAATATTGCCTACGATACCGATCGAGAAAGTGCGGGTTTTAAATAAATCTAATGAAA -TTAATGGGTTTGGCGTGCGTCGTGCATGGAGAATATAGAGAAGCAGTAACCCGATGCTGGTGACAATTACCGTCA -AGGCAATCCAGCTGGCGACAATCTTTTCCCCGAATAGCTCTATTCCGCTTGAGAAGAGAACAAGGCTGAGGCCAA -ACAGCAAAAAGCCAGTGATATCGAATCTGCGTCGTGCGGTGGTGAAATTGGGCATATGTTTGCGCGCGTAAAGAA -GGCCCGCAATACCTATGGGGATATTGATTAAAAATATCCAGTGCCAGGTTGCCCAGGTGACCAGCACGCCGCCAA -GAACGGGGCCTAAAATTGGCCCCACCAGACCCGGCATGGCGACAAAATTCAATACTGGAAGAAGTTCATTACGAG -GATAAGCGCGCAGTAAGGCCAGCCGAGCAACAGGCATCATCATTGCGCCGCCTATCCCCTGAATAACCCGGAAGA -CAACCAGCTGTGGTAGCGAATTAGAAAGTGCGCAGGCCAGAGAACCCAATGTGAACAGACTCACGGCAAGGGTAA -AAATGCGACGCGTACCGAAGCGATCGGCTAGCCATCCGCTTACCGGAATAAGCATCGCCACCGTCAGCGTATAAC -TGATGATGGCTGATTGCATCGCGAGAGGAGAACGATTAAGGCTATGAGCGATTGCGGGTAAGGCGGTATTAAGAA -TAGTGGCATCAAGTGCCTGCATGAAGAAGGCCATCGCCGCGATCCACGGCAAACCCGCCATACTGCGCTTCTTTT -TATCGCTCATTCAATGTCCTGTTATCGGGTTATCACTTATCAGGTGAGCGTAGCAGCGCCTGACAAGCTTTAAAT -GCCGCGTCGCCATCGCTTTGGATAATCGCATCGACAATCGCCTGATGCAGATCCAGCTTTATCACTGTGTCGCTG -GTAATTGACGTGAAGTAAGTGTGATAAACCGAATGGAATAGCGAGGCGAATGAGGTCAAAAACGGATTGGCGCTC -ATTTCATAGATATGCTCATGCCAGGCCATATCGACTTCGATCCAGCGTTCACGGCGAAAGTTCTCTTTTAATGCC -GCCATTTCGGCCATTAACGTATTGAGATGCGCTTTCTGTTCCGCGGTGCCAACCGTTGCTGCCAGTAGGCAGGCT -TGCGGCTCCAGACAGATACGCATAACCAGAAAGTGATCGATGACCTGATGAAAGTTCTCTTCTGTCATCCACCAG -GTAAGCAATTCCTGATCAAGAAAATTCCAGTTCGATTGTGGCATGACCCGAGTACCAATTCGCGGTCGCGGTAAA -ACCATCCCTTTTGCCGTTAACGTTTTGACCGCTTCGCGTACCGCTGTACGACTCACTCCAAATTGCTCGCCCAGC -TCAATCTCACCGGGCAAAATGGTGCCGGGTTCATATTCACCTTTTAAGATCCGTTGCGCCAGCTTCTCAGCCAGA -ACATACGAAAGGTTTTTCTGTGCAGCTAACTGTTGTGCGCTTAAAGGCATTACTTATCTTCCTTTTTCTTTTTAT -TCCTCCTTAGTATGCCACCAGGAAGTGTGATTACGGTTGCAAAAACGGCAAATTGCTTGTTTTATGGCACATTAA -CGGGGCTTTTGCTGAAAAAATGCGCGGTCAGAAAATTATTTTAAATTTCCTCTTGTCAGGCCGGAATAACTCCCT -ATAATGCGCCACCACTGACACGGAACAACGGCAAACACGCCGCCGGGTCAGCGGGGTTCTCCTGAGAACTCCGGC -AGAGAAAGCAAAAATAAATGCTTGACTCTGTAGCGGGAAAGCGTATTATGCACACCCCGCGCCGCTGAGAAAAAG -CAAAGCGGCACTGCTCTTTAACAATTTATCAGACAATCTGTGTGGGCACTCGAAGATACGGATTCTTAACGTCGC -AAGACGAAAAATGAATACCAAGTCTCAAGAGTGAACACGTAATTCATTACGAAGTTTAATTCTTTGAGCATCAAA -CTTTTAAATTGAAGAGTTTGATCATGGCTCAGATTGAACGCTGGCGGCAGGCCTAACACATGCAAGTCGAACGGT -AACAGGAAACAGCTTGCTGTTTCGCTGACGAGTGGCGGACGGGTGAGTAATGTCTGGGAAACTGCCTGATGGAGG -GGGATAACTACTGGAAACGGTAGCTAATACCGCATAACGTCGCAAGACCAAAGAGGGGGACCTTCGGGCCTCTTG -CCATCAGATGTGCCCAGATGGGATTAGCTAGTAGGTGGGGTAACGGCTCACCTAGGCGACGATCCCTAGCTGGTC -TGAGAGGATGACCAGCCACACTGGAACTGAGACACGGTCCAGACTCCTACGGGAGGCAGCAGTGGGGAATATTGC -ACAATGGGCGCAAGCCTGATGCAGCCATGCCGCGTGTATGAAGAAGGCCTTCGGGTTGTAAAGTACTTTCAGCGG -GGAGGAAGGGAGTAAAGTTAATACCTTTGCTCATTGACGTTACCCGCAGAAGAAGCACCGGCTAACTCCGTGCCA -GCAGCCGCGGTAATACGGAGGGTGCAAGCGTTAATCGGAATTACTGGGCGTAAAGCGCACGCAGGCGGTTTGTTA -AGTCAGATGTGAAATCCCCGGGCTCAACCTGGGAACTGCATCTGATACTGGCAAGCTTGAGTCTCGTAGAGGGGG -GTAGAATTCCAGGTGTAGCGGTGAAATGCGTAGAGATCTGGAGGAATACCGGTGGCGAAGGCGGCCCCCTGGACG -AAGACTGACGCTCAGGTGCGAAAGCGTGGGGAGCAAACAGGATTAGATACCCTGGTAGTCCACGCCGTAAACGAT -GTCGACTTGGAGGTTGTGCCCTTGAGGCGTGGCTTCCGGAGCTAACGCGTTAAGTCGACCGCCTGGGGAGTACGG -CCGCAAGGTTAAAACTCAAATGAATTGACGGGGGCCCGCACAAGCGGTGGAGCATGTGGTTTAATTCGATGCAAC -GCGAAGAACCTTACCTGGTCTTGACATCCACGGAAGTTTTCAGAGATGAGAATGTGCCTTCGGGAACCGTGAGAC -AGGTGCTGCATGGCTGTCGTCAGCTCGTGTTGTGAAATGTTGGGTTAAGTCCCGCAACGAGCGCAACCCTTATCC -TTTGTTGCCAGCGGTCCGGCCGGGAACTCAAAGGAGACTGCCAGTGATAAACTGGAGGAAGGTGGGGATGACGTC -AAGTCATCATGGCCCTTACGACCAGGGCTACACACGTGCTACAATGGCGCATACAAAGAGAAGCGACCTCGCGAG -AGCAAGCGGACCTCATAAAGTGCGTCGTAGTCCGGATTGGAGTCTGCAACTCGACTCCATGAAGTCGGAATCGCT -AGTAATCGTGGATCAGAATGCCACGGTGAATACGTTCCCGGGCCTTGTACACACCGCCCGTCACACCATGGGAGT -GGGTTGCAAAAGAAGTAGGTAGCTTAACCTTCGGGAGGGCGCTTACCACTTTGTGATTCATGACTGGGGTGAAGT -CGTAACAAGGTAACCGTAGGGGAACCTGCGGTTGGATCACCTCCTTACCTTAAAGAAGCGTTCTTTGCAGTGCTC -ACACAGATTGTCTGATAGGAAGTGAAAAGCAAGGCGTCTTGCGAAGCAGACTGATACGTCCCCTTCGTCTAGAGG -CCCAGGACACCGCCCTTTCACGGCGGTAACAGGGGTTCGAATCCCCTAGGGGACGCCACTTGCTGGTTTGTGAGT -GAAAGTCACCTGCCTTAATATCTCAAAACTCATCTTCGGGTGATGTTTGAGATATTTGCTCTTTAAAAATCTGGA -TCAAGCTGAAAATTGAAACACTGAACAACGAAAGTTGTTCGTGAGTCTCTCAAATTTTCGCAACACGATGATGAA -TCGAAAGAAACATCTTCGGGTTGTGAGGTTAAGCGACTAAGCGTACACGGTGGATGCCCTGGCAGTCAGAGGCGA -TGAAGGACGTGCTAATCTGCGATAAGCGTCGGTAAGGTGATATGAACCGTTATAACCGGCGATTTCCGAATGGGG -AAACCCAGTGTGTTTCGACACACTATCATTAACTGAATCCATAGGTTAATGAGGCGAACCGGGGGAACTGAAACA -TCTAAGTACCCCGAGGAAAAGAAATCAACCGAGATTCCCCCAGTAGCGGCGAGCGAACGGGGAGCAGCCCAGAGC -CTGAATCAGTATGTGTGTTAGTGGAAGCGTCTGGAAAGGCGCGCGATACAGGGTGACAGCCCCGTACACAAAAAT -GCACATATTGTGAGCTCGATGAGTAGGGCGGGACACGTGGTATCCTGTCTGAATATGGGGGGACCATCCTCCAAG -GCTAAATACTCCTGACTGACCGATAGTGAACCAGTACCGTGAGGGAAAGGCGAAAAGAACCCCGGCGAGGGGAGT -GAAAAAGAACCTGAAACCGTGTACGTACAAGCAGTGGGAGCACGCTTAGGCGTGTGACTGCGTACCTTTTGTATA -ATGGGTCAGCGACTTATATTCTGTAGCAAGGTTAACCGAATAGGGGAGCCGAAGGGAAACCGAGTCTTAACTGGG -CGTTAAGTTGCAGGGTATAGACCCGAAACCCGGTGATCTAGCCATGGGCAGGTTGAAGGTTGGGTAACACTAACT -GGAGGACCGAACCGACTAATGTTGAAAAATTAGCGGATGACTTGTGGCTGGGGGTGAAAGGCCAATCAAACCGGG -AGATAGCTGGTTCTCCCCGAAAGCTATTTAGGTAGCGCCTCGTGAATTCATCTCCGGGGGTAGAGCACTGTTTCG -GCAAGGGGGTCATCCCGACTTACCAACCCGATGCAAACTGCGAATACCGGAGAATGTTATCACGGGAGACACACG -GCGGGTGCTAACGTCCGTCGTGAAGAGGGAAACAACCCAGACCGCCAGCTAAGGTCCCAAAGTCATGGTTAAGTG -GGAAACGATGTGGGAAGGCCCAGACAGCCAGGATGTTGGCTTAGAAGCAGCCATCATTTAAAGAAAGCGTAATAG -CTCACTGGTCGAGTCGGCCTGCGCGGAAGATGTAACGGGGCTAAACCATGCACCGAAGCTGCGGCAGCGACGCTT -ATGCGTTGTTGGGTAGGGGAGCGTTCTGTAAGCCTGCGAAGGTGTGCTGTGAGGCATGCTGGAGGTATCAGAAGT -GCGAATGCTGACATAAGTAACGATAAAGCGGGTGAAAAGCCCGCTCGCCGGAAGACCAAGGGTTCCTGTCCAACG -TTAATCGGGGCAGGGTGAGTCGACCCCTAAGGCGAGGCCGAAAGGCGTAGTCGATGGGAAACAGGTTAATATTCC -TGTACTTGGTGTTACTGCGAAGGGGGGACGGAGAAGGCTATGTTGGCCGGGCGACGGTTGTCCCGGTTTAAGCGT -GTAGGCTGGTTTTCCAGGCAAATCCGGAAAATCAAGGCTGAGGCGTGATGACGAGGCACTACGGTGCTGAAGCAA -CAAATGCCCTGCTTCCAGGAAAAGCCTCTAAGCATCAGGTAACATCAAATCGTACCCCAAACCGACACAGGTGGT -CAGGTAGAGAATACCAAGGCGCTTGAGAGAACTCGGGTGAAGGAACTAGGCAAAATGGTGCCGTAACTTCGGGAG -AAGGCACGCTGATATGTAGGTGAAGCGACTTGCTCGTGGAGCTGAAATCAGTCGAAGATACCAGCTGGCTGCAAC -TGTTTATTAAAAACACAGCACTGTGCAAACACGAAAGTGGACGTATACGGTGTGACGCCTGCCCGGTGCCGGAAG -GTTAATTGATGGGGTCAGCGCAAGCGAAGCTCTTGATCGAAGCCCCGGTAAACGGCGGCCGTAACTATAACGGTC -CTAAGGTAGCGAAATTCCTTGTCGGGTAAGTTCCGACCTGCACGAATGGCGTAATGATGGCCAGGCTGTCTCCAC -CCGAGACTCAGTGAAATTGAACTCGCTGTGAAGATGCAGTGTACCCGCGGCAAGACGGAAAGACCCCGTGAACCT -TTACTATAGCTTGACACTGAACATTGAGCCTTGATGTGTAGGATAGGTGGGAGGCTTTGAAGTGTGGACGCCAGT -CTGCATGGAGCCGACCTTGAAATACCACCCTTTAATGTTTGATGTTCTAACGTGGACCCGTGATCCGGGTTGCGG -ACAGTGTCTGGTGGGTAGTTTGACTGGGGCGGTCTCCTCCTAAAGAGTAACGGAGGAGCACGAAGGTTGGCTAAT -CCTGGTCGGACATCAGGAGGTTAGTGCAATGGCATAAGCCAGCTTGACTGCGAGCGTGACGGCGCGAGCAGGTGC -GAAAGCAGGTCATAGTGATCCGGTGGTTCTGAATGGAAGGGCCATCGCTCAACGGATAAAAGGTACTCCGGGGAT -AACAGGCTGATACCGCCCAAGAGTTCATATCGACGGCGGTGTTTGGCACCTCGATGTCGGCTCATCACATCCTGG -AGCTGAAGTAGGTCCCAAGGGTATGGCTGTTCGCCATTTAAAGTGGTACGCGAGCTGGGTTTAGAACGTCGTGAG -ACAGTTCGGTCCCTATCTGCCGTGGGCGCTGGAGAACTGAGGGGGGCTGCTCCTAGTACGAGAGGACCGGAGTGG -ACGCATCACTGGTGTTCGGGTTGTCATGCCAATGGCACTGCCCGGTAGCTAAATGCGGAAGAGATAAGTGCTGAA -AGCATCTAAGCACGAAACTTGCCCCGAGATGAGTTCTCCCTGACTCCTTGAGAGTCCTGAAGGAACGTTGAAGAC -GACGACGTTGATAGGCCGGGTGTGTAAGCGCAGCGATGCGTTGAGCTAACCGGTACTAATGAACCGTGAGGCTTA -ACCTTACAACGCCGAAGATGTTTTGGCGGATGAGAGAAGATTTTCAGCCTGATACAGATTAAATCAGAACGCAGA -AGCGGTCTGATGAAACAGAATTTGCCTGGCGGCCGTAGCGCGGTGGTCCCACCTGACCCCATGCCGAACTCAGAA -GTGAAACGCCGTAGCGCCGATGGTAGTGTGGGGTCTCCCCATGCGAGAGTAGGGAACTGCCAGGCATCAAATTAA -GCAGTAAGCCGGTCATAAAACCGGTGGTTGTAAAAGAATTCGGTGGAGCGGTAGTTCAGTCGGTTAGAATACCTG -CCTGTCACGCAGGGGGTCGCGGGTTCGAGTCCCGTCCGTTCCGCCACCCTAATTAGGGGCGTAGTTCAATTGGTA -GAGCACCGGTCTCCAAAACCGGGTGTTGGGAGTTCGAGTCTCTCCGCCCCTGCCAGAAATCATCCTTAGCGAAAG -CTAAGGATTTTTTTTATCTGAAATAACCCTCTCCGAAGTAAATCCTTCTACCGGCATCCTTGCCAGCCATTCATA -TTAATACACTTCATCCAGCACGTTAATTTTCAAAAGATCGCGAATCAACGCATTTTTATCGCTATTTTGCAGCCA -TATGGCATAAAGCGGCCGTGAAAGTGTTGTGCTATCGACAACGGTATGCAGGCCGCCTTTTTTACGCGCCCAGCT -GACGGGTAGCCAGGTGCAACCATTAAGCATCGCAATCTGTTGCTGTGCCAGTTCAGCAGAACTGGTTGTCAGAAT -GGGCACTTCGTCAGCACCGATCAAACCTGCCTCATGCTGTTGAAAATCTGGCCCCCACTCAAGTCGCAGATAATT -AAGATCTCCCTTTAGTTTTGAAGGGGCACTGGTATAAAGCGCTAAAGTGAAATATCCCAGCAACTGACTACTAAA -TTCGTCCATTTTGGGCGCTTCAGTGGTAATAAGAAGATCAAGCTGGCGTTCATGCAGCTGTTTTACCAGAGACTG -CCGTTGGGCAATTCGCGCTTCGAACTGTAAGCCTGTATGGGCATCCTGATTTTGATACAAGCGTCCCAGCCACTG -ATTAAGCATACATTCCCACAACGAGGCGCTGGCACCGATAGAAAACTCGTTATGTCGTGAGGTATGCGCCACCTC -CTTACGGGCGGCCTGCCAGGTGCTCATGAGCGTTTCTGCATAAGGCAGTAGTTTTTCACCGGCAGCGGTTAAACG -GATATTGTTTCTGTGGCGGGTGAAAAGGTTCACACCCAGTTGATTTTCCAGTTGTCTGATTCGAAAGCTCACTGC -TGACTGGGTCAGATAGAGCGATTCAGCCGCTCGACCAAAGTGACGCGTTCGGCTAACTTCCAGGAAAGTTTTTAA -CAATTCCGTATCCACAGTGCTCTCCGCAAAATTATTTGTCGTTATGATTTAAATGTTTTGTTTTACACTCTGTCA -AGCGTAACTAATACTCCGCGCCATAACTAGCTCGGTCAAAGAATTAGGAGCGTGCAGGATGGCGGAAAGCTTTAC -GACGACTAATCGATATTTCGACAATAAACATTATCCACGTGGATTCTCTCGTCATGGTGATTTCACCATCAAAGA -GGCACAACTGCTTGAGCGTCATGGTTATGCCTTCAATGAGTTGGATCTTGGCAAACGCGAGCCGGTTACCGAGGA -AGAGAAACTCTTCGTAGCAGTATGCCGTGGCGAACGTGAGCCAGTGACAGAAGCAGAACGCGTGTGGTCCAAGTA -TATGACGCGTATTAAGCGTCCAAAACGTTTTCACACCCTTTCCGGCGGTAAACCGCAGGTTGAAGGTGCTGAAGA -CTACACCGATTCTGACGATTAATAAAAAGGGCGAAATGCCCTTTTTTTATGTCAGTAGTTTCTGCAGATGGATGA -GCAAACGGTCAATCGCTCGATAGCTAACTGCCTCCTGCAAATGCTGACGTGTGATAATGTCAGACTGATCAATAT -CAGCAATGGTTCGTGCAACTTTCAATAACCGCTGCCAGGCACGAATCGATAACCCCAGATGGATCAGTGTTCCTT -CCAACCACATCGCATCTTCGCTCTCAAGTTTGCAGAATTGGCGTATTTCCGGACTATCCAGCCAGGCATTCAGTT -TATTCTGCCGCTTAAATTGGCGCTCTCTGGCGGCCATTACGCGTTGTTTAACGGTGGCGCTGCTTTCTCCCGGCA -CTACCGTTTTACTCAAAATGCCGGGGGGTGGTAATGGGATCTCCAGTGAGAGATCGAAGCGGTCGAGAAAGGGCC -CCGAGAGCCGGTTGAGATAACGTAATGTCTGTTCTGGCGTGCAGCGGTTATGGTTTCCCTGATAATGTCCGGTAG -GGCTGGGATTCATCGCCGCAACAAGCTGGAAACGGGCTGGATAGGTTATTTTTGCTCGTGTGCGTGAAAGATGGA -TCTGCCCGGATTCAATCGGCTCTCGCAAGGCATCCAGTGTACGCCGTTCAAATTCAGGTAGCTCATCAAGAAAAA -GCACGCCGTTATGCGCCAGCGAAATTTCACCGGGCCCTGGAATTGCGCCACCGCCTACCATCGCAGTTAACGATG -CACTGTGATGAGGTGAGCGGAACGGGCGCTGCCGCCATTGTTTTTGTACTGATTCAGCATTTACCAGACTTAATA -TCGCAGCACTCTCCAGTGCCTCTTCATTGCTTAAATCTGGCAACAGGCCATTAATACGGCTGGCGAGCATTGTTT -TACCTGTTCCCGGCGGCCCAATCAGTAAAAGGTTGTGCCCGCCAGCAGCGGTAATTTCCAGTCCTCGCTTTCCTT -GTTCCTGACCGATAACATCACTGAGATCATGTTGTAGCGCCCGGGATACTGCATCAGTTGGTTTCGGGCGTTCGA -GAGCGTGCTTACCTTCCAGAAACGCACAGACAGCTTGCAGATGATCGGCTATCAGGCATCCTTCACCGTTAATTA -GCCCCACTTCATCTTCGTTATCTTTCGCGACGATAATTTTTCTGCCCGACTTAATAGCTTCAGTTGCACTGGAGA -TTGCGCCGGGAACGCCACGCAGAGCGCCTGTAAGCGCCAGTTCTCCGACTAATTCATATTCATCTAACTTATTGG -CTGTAAGCTGTTCTGAGGCCGCCAGCAACGCAATGGCGATAGGTAAATCATATCGTCCCCCTTCTTTTGGCAGAT -CAGCTGGAGCCAGGTTGATGGTGATTTTTTTCGCCGGATATTCATATCCGCTATTGATAATGGCGCTGCGCACGC -GATCGCGAGCTTCTTTTACCGTTGTTTCTGGTAAGCCCACCATCGTTAAGCCGGGTAGACCTTTACTGATATGTA -CCTCAACAGTGATCGGGGGCGCATTTACTCCCAGGGCTGCGCGGGTATGAACAATTGACAGTGACATAAGCCCTC -CTTGAGTCACCATTATGTGCATAAGATATCGCTGCTGTAGCCCGCTAATTCGTGAATTTTAGTGGCTGATTCCTG -TTTATTTGTGCAAGTGAAGTTGAGTTGTTCTGGCGGTGGAATGATGCTCGCAAAAATGCAGCGGACAAAGGATGA -ACTACGAGGAAGGGAACAACATTCATACTGAAATTGAATTTTTTTCACTCACTATTTTATTTTTAAAAAACAACA -ATTTATATTGAAATTATTAAACGCATCATAAAAATCGGCCAAAAAATATCTTGTACTATTTACAAAACCTATGGT -AACTCTTTAGGCATTCCTTCGAACAAGATGCAAGAAAAGACAAAATGACAGCCCTTCTACGAGTGATTAGCCTGG -TCGTGATTAGCGTGGTGGTGATTATTATCCCACCGTGCGGGGCTGCACTTGGACGAGGAAAGGCTTAGAGATCAA -GCCTTAACGAACTAAGACCCCCGCACCGAAAGGTCCGGGGGTTTTTTTTGACCTTAAAAACATAACCGAGGAGCA -GACAATGAATAACAGCACAAAATTCTGTTTCTCAAGATTCAGGACGGGGAACTAACTATGAATGGCGCACAGTGG -GTGGTACATGCGTTGCGGGCACAGGGTGTGAACACCGTTTTCGGTTATCCGGGTGGCGCAATTATGCCGGTTTAC -GATGCATTGTATGACGGCGGCGTGGAGCACTTGCTATGCCGACATGAGCAGGGTGCGGCAATGGCGGCTATCGGT -TATGCTCGTGCTACCGGCAAAACTGGCGTATGTATCGCCACGTCTGGTCCGGGCGCAACCAACCTGATAACCGGG -CTTGCGGACGCACTGTTAGATTCCATCCCTGTTGTTGCCATCACCGGTCAAGTGTCCGCACCGTTTATCGGCACT -GACGCATTTCAGGAAGTGGATGTCCTGGGATTGTCGTTAGCCTGTACCAAGCACAGCTTTCTGGTGCAGTCGCTG -GAAGAGTTGCCGCGCATCATGGCTGAAGCATTCGACGTTGCCTGCTCAGGTCGTCCTGGTCCGGTTCTGGTCGAT -ATCCCAAAAGATATCCAGTTAGCCAGCGGTGACCTGGAACCGTGGTTCACCACCGTTGAAAACGAAGTGACTTTC -CCACATGCCGAAGTTGAGCAAGCGCGCCAGATGCTGGCAAAAGCGCAAAAACCGATGCTGTACGTTGGCGGTGGC -GTGGGTATGGCGCAGGCAGTTCCGGCTTTGCGTGAATTTCTCGCTGCCACAAAAATGCCTGCCACCTGTACGCTG -AAAGGGCTGGGCGCAGTAGAAGCAGATTATCCGTACTATCTGGGCATGCTGGGGATGCACGGCACCAAAGCGGCA -AACTTCGCGGTGCAGGAGTGTGACCTGCTGATCGCCGTGGGCGCACGTTTTGATGACCGGGTGACCGGCAAACTG -AACACCTTCGCGCCACACGCCAGTGTTATCCATATGGATATCGACCCGGCAGAAATGAACAAGCTGCGTCAGGCA -CATGTGGCATTACAAGGTGATTTAAATGCTCTGTTACCAGCATTACAGCAGCCGTTAAATCAATGACTGGCAGCA -ACACTGCGCGCAGCTGCGTGATGAACATTCCTGGCGTTACGACCATCCCGGTGACGCTATCTACGCGCCGTTGTT -GTTAAAACAACTGTCGGATCGTAAACCTGCGGATTGCGTCGTGACCACAGATGTGGGGCAGCACCAGATGTGGGC -TGCGCAGCACATCGCCCACACTCGCCCGGAAAATTTCATCACCTCCAGCGGTTTAGGTACCATGGGTTTTGGTTT -ACCGGCGGCGGTTGGCGCACAAGTCGCGCGACCGAACGATACCGTTGTCTGTATCTCCGGTGACGGCTCTTTCAT -GATGAATGTGCAAGAGCTGGGCACCGTAAAACGCAAGCAGTTACCGTTGAAAATCGTCTTACTCGATAACCAACG -GTTAGGGATGGTTCGACAATGGCAGCAACTGTTTTTTCAGGAACGATACAGCGAAACCACCCTTACTGATAACCC -CGATTTCCTCATGTTAGCCAGCGCCTTCGGCATCCATGGCCAACACATCACCCGGAAAGACCAGGTTGAAGCGGC -ACTCGACACCATGCTGAACAGTGATGGGCCATACCTGCTTCATGTCTCAATCGACGAACTTGAGAACGTCTGGCC -GCTGGTGCCGCCTGGCGCCAGTAATTCAGAAATGTTGGAGAAATTATCATGATGCAACATCAGGTCAATGTATCG -GCTCGCTTCAATCCAGAAACCTTAGAACGTGTTTTACGCGTGGTGCGTCATCGTGGTTTCCACGTCTGCTCAATG -AATATGGCCGCCGCCAGCGATGCACAAAATATAAATATCGAATTGACCGTTGCCAGCCCACGGTCGGTCGACTTA -CTGTTTAGTCAGTTAAATAAACTGGTGGACGTCGCACACGTTGCCATCTGCCAGAGCACAACCACATCACAACAA -ATCCGCGCCTGAGCGCAAAAGGAATATAAAAATGACCACGAAGAAAGCTGATTACATTTGGTTCAATGGGGAGAT -GGTTCGCTGGGAAGACGCGAAGGTGCATGTGATGTCGCACGCGCTGCACTATGGCACTTCGGTTTTTGAAGGCAT -CCGTTGCTACGACTCGCACAAAGGACCGGTTGTATTCCGCCATCGTGAGCATATGCAGCGTCTGCATGACTCCGC -CAAAATCTATCGCTTCCCGGTTTCGCAGAGCATTGATGAGCTGATGGAAGCTTGTCGTGACGTGATCCGCAAAAA -CAATCTCACCAGCGCCTATATCCGTCCGCTGATCTTCGTCGGTGATGTTGGCATGGGAGTAAACCCGCCAGCGGG -ATACTCAACCGACGTGATTATCGCTGCTTTCCCGTGGGGAGCGTATCTGGGCGCAGAAGCGCTGGAGCAGGGGAT -CGATGCGATGGTTTCCTCCTGGAACCGCGCAGCACCAAACACCATCCCGACGGCGGCAAAAGCCGGTGGTAACTA -CCTCTCTTCCCTGCTGGTGGGTAGCGAAGCGCGCCGCCACGGTTATCAGGAAGGTATCGCGCTGGATGTGAACGG -TTATATCTCTGAAGGCGCAGGCGAAAACCTGTTTGAAGTGAAAGATGGTGTGCTGTTCACCCCACCGTTCACCTC -CTCCGCGCTGCCGGGTATTACCCGTGATGCCATCATCAAACTGGCGAAAGAGCTGGGAATTGAAGTACGTGAGCA -GGTGCTGTCGCGCGAATCCCTGTACCTGGCGGATGAAGTGTTTATGTCCGGTACGGCGGCAGAAATCACGCCAGT -GCGCAGCGTAGACGGTATTCAGGTTGGCGAAGGCCGTTGTGGCCCGGTTACCAAACGCATTCAGCAAGCCTTCTT -CGGCCTCTTCACTGGCGAAACCGAAGATAAATGGGGCTGGTTAGATCAAGTTAATCAATAAATACAAAAAATGGG -ACGGCACGCACCGTCCCATTTACGAGACAGACACTGGGAGTAAATAAAGTATGCCTAAGTACCGTTCCGCCACCA -CCACTCATGGTCGTAATATGGCGGGTGCTCGTGCGCTGTGGCGCGCCACCGGAATGACCGACGCCGATTTCGGTA -AGCCGATTATCGCGGTTGTGAACTCGTTCACCCAATTTGTACCGGGTCACGTCCATCTGCGCGATCTCGGTAAAC -TGGTCGCCGAACAAATTGAAGCGGCTGGCGGCGTTGCCAAAGAGTTCAACACCATTGCGGTGGATGATGGGATTG -CCATGGGCCACGGGGGGATGCTTTATTCACTGCCATCTCGCGAACTGATCGCTGATTCCGTTGAGTATATGGTCA -ACGCCCACTGCGCCGACGCCATGGTCTGCATCTCTAACTGCGACAAAATCACCCCGGGGATGCTGATGGCTTCCC -TGCGCCTGAATATTCCGGTGATCTTTGTTTCCGGCGGCCCGATGGAGGCCGGGAAAACCAAACTTTCCGATCAGA -TCATCAAGCTCGATCTGGTTGATGCGATGATCCAGGGCGCAGACCCGAAAGTATCTGACTCCCAGAGCGATCAGG -TTGAACGTTCCGCGTGTCCGACCTGCGGTTCCTGCTCCGGGATGTTTACCGCTAACTCAATGAACTGCCTGACCG -AAGCGCTGGGCCTGTCGCAGCCGGGCAACGGCTCGCTGCTGGCAACCCACGCCGACCGTAAGCAGCTGTTCCTTA -ATGCTGGTAAACGCATTGTTGAATTGACCAAACGTTATTACGAGCAAAACGACGAAAGTGCACTGCCGCGTAATA -TCGCCAGTAAGGCGGCGTTTGAAAACGCCATGACGCTGGATATCGCGATGGGTGGATCGACTAACACCGTACTTC -ACCTGCTGGCGGCGGCGCAGGAAGCGGAAATCGACTTCACCATGAGTGATATCGATAAGCTTTCCCGCAAGGTTC -CACAGCTGTGTAAAGTTGCGCCGAGCACCCAGAAATACCATATGGAAGATGTTCACCGTGCTGGTGGTGTTATCG -GTATTCTCGGCGAACTGGATCGCGCGGGGTTACTGAACCGTGATGTGAAAAACGTACTTGGCCTGACGTTGCCGC -AAACGCTGGAACAATACGACGTTATGCTGACCCAGGATGACGCGGTAAAAAATATGTTCCGCGCAGGTCCTGCAG -GCATTCGTACCACACAGGCATTCTCGCAAGATTGCCGTTGGGATACGCTGGACGACGATCGCGCCAATGGCTGTA -TCCGCTCGCTGGAACACGCCTACAGCAAAGACGGCGGCCTGGCGGTGCTCTACGGTAACTTTGCGGAAAACGGCT -GCATCGTGAAAACGGCAGGCGTCGATGACAGCATCCTCAAATTCACCGGCCCGGCGAAAGTGTACGAAAGCCAGG -ACGATGCGGTAGAAGCGATTCTCGGCGGTAAAGTTGTCGCCGGAGATGTGGTAGTAATTCGCTATGAAGGCCCGA -AAGGCGGTCCGGGGATGCAGGAAATGCTCTACCCAACCAGCTTCCTGAAATCAATGGGTCTCGGCAAAGCCTGTG -CGCTGATCACCGACGGTCGTTTCTCTGGTGGCACCTCTGGTCTTTCCATCGGCCACGTCTCACCGGAAGCGGCAA -GCGGCGGCAGCATTGGCCTGATTGAAGATGGTGACCTGATCGCTATCGACATCCCGAACCGTGGCATTCAGTTAC -AGGTAAGCGATGCCGAACTGGCGGCGCGTCGTGAAGCGCAGGACGCTCGAGGTGACAAAGCCTGGACGCCGAAAA -ATCGTGAACGTCAGGTCTCCTTTGCCCTGCGTGCTTATGCCAGCCTGGCAACCAGCGCCGACAAAGGCGCGGTGC -GCGATAAATCGAAACTGGGGGGTTAATAATGGCTGACTCGCAACCCCTGTCCGGTGCTCCGGAAGGTGCCGAATA -TTTAAGAGCAGTGCTGCGCGCGCCGGTTTACGAGGCGGCGCAGGTTACGCCGCTACAAAAAATGGAAAAACTGTC -GTCGCGTCTTGATAACGTCATTCTGGTGAAGCGCGAAGATCGCCAGCCAGTGCACAGCTTTAAGCTGCGCGGCGC -ATACGCCATGATGGCGGGCCTGACGGAAGAACAGAAAGCGCACGGCGTGATCACTGCTTCTGCGGGTAACCACGC -GCAGGGCGTCGCGTTTTCTTCTGCGCGGTTAGGCGTGAAGGCCCTGATCGTTATGCCAACCGCCACCGCCGACAT -CAAAGTCGACGCGGTGCGCGGCTTCGGCGGCGAAGTGCTGCTCCACGGCGCGAACTTTGATGAAGCGAAAGCCAA -AGCGATCGAACTGTCACAGCAGCAGGGGTTCACCTGGGTGCCGCCGTTCGACCATCCGATGGTGATTGCCGGGCA -AGGCACGCTGGCGCTGGAACTGCTCCAGCAGGACGCCCATCTCGACCGCGTATTTGTGCCAGTCGGCGGCGGCGG -TCTGGCTGCTGGCGTGGCGGTGCTGATCAAACAACTGATGCCGCAAATCAAAGTGATCGCCGTAGAAGCGGAAGA -CTCCGCCTGCCTGAAAGCAGCGCTGGATGCGGGTCATCCGGTTGATCTGCCGCGCGTAGGGCTATTTGCTGAAGG -CGTAGCGGTAAAACGCATCGGTGACGAAACCTTCCGTTTATGCCAGGAGTATCTCGACGACATCATCACCGTCGA -TAGCGATGCGATCTGTGCGGCGATGAAGGATTTATTCGAAGATGTGCGCGCGGTGGCGGAACCCTCTGGCGCGCT -GGCGCTGGCGGGAATGAAAAAATATATCGCCCTGCACAACATTCGCGGCGAACGGCTGGCGCATATTCTTTCCGG -TGCCAACGTGAACTTCCACGGCCTGCGCTACGTCTCAGAACGCTGCGAACTGGGCGAACAGCGTGAAGCGTTGTT -GGCGGTGACCATTCCGGAAGAAAAAGGCAGCTTCCTCAAATTCTGCCAACTGCTTGGCGGGCGTTCGGTCACCGA -GTTCAACTACCGTTTTGCCGATGCCAAAAACGCCTGCATCTTTGTCGGTGTGCGCCTGAGCCGCGGCCTCGAAGA -GCGCAAAGAAATTTTGCAGATGCTCAACGACGGCGGCTACAGCGTGGTTGATCTCTCCGACGACGAAATGGCGAA -GCTACACGTGCGCTATATGGTCGGCGGACGTCCATCGCATCCGTTGCAGGAACGCCTCTACAGCTTCGAATTCCC -GGAATCACCGGGCGCGCTGCTGCGCTTCCTCAACACGCTGGGTACGTACTGGAACATTTCTTTGTTCCACTATCG -CAGCCATGGCACCGACTACGGGCGCGTACTGGCGGCGTTCGAACTTGGCGACCATGAACCGGATTTCGAAACCCG -GCTGAATGAGCTGGGCTACGATTGCCACGACGAAACCAATAACCCGGCGTTCAGGTTCTTTTTGGCGGGTTAGGG -AAAAATGCCTGATAGCGCTTCGCTTATCAGGCCTACCCGCGCGACAACGTCATTTGTGGTTCGGCAAAATCTTCC -AGAATGCCTCAATTAGCGGCTCATGTAGCCGCTTTTTCTGCGCACACACGCCCAGCTCAAACGGCGTTTTCTCAT -CGCTGCGCTCTAAAATCATCACGCGGTTACGCACCGGTTCGGGGCTGTTTTCCAGCACCACTTCCGGCAACAATG -CCACGCCACAGCCGAGTGCCACCATCGATACCATCGCTTCATGCCCGCCAACCGTGGCGTAAATCATCGGGTTAC -TGATTTTATTGCGTCGAAACCACAGTTCAATGCGGCGGCGTACCGGCCCCTGATCGGCCATAATAAACGGCACCG -TTGACCAGTCCGGCTTCTCTACCGACACCTGATTACGCACCGGGCAGGGCAGCGCGGGGGCAATCAGCACTACTG -CCAGATTCTCCAGCATCGAAAACGCCACTGCGCCGGGCAAGGTTTCCGGTTTACCCGCAATCGCCAGATCCGCTT -CACCAGTGACCACCTTTTCCATCGCATCTGCCGCATCACCAGTAGTAAGTTTAATCTCCACCGACGGGTGTTCCG -CGCGGAAGCGATCCAGAATCGGCGGCAGATGGCTGTAGGCAGCGGTCACCGAGCAGAAGATATGTAATTCGCCAG -AGAGCGACGGCCCTTGCTGATCGATGGTGTGGCGCAACTGCTGATACTGCAACAGCGTTTGCTGGGCGAAAACGC -GCAGCTCTTCGCCCGCTTCAGTCAGCGTCACCGTGCGGTTATCGCGCACAAACAGCGGCTGACCGAGATCTTCTT -CCAGGCGCTGAATCTGCCGTGAGAGCGTGGATGGGCTAACGTGCATCGCCCGCGCGCTGCGGCCAAAATGGCGGC -TTTCCGCCAGATGCAGGAAGGTTTTCAGATCGCGTAAATCCACAGGGACAGCCCTCGATGTTGACGTTGCAAAAA -TTGCAATGTGACGTTGTGAATATATCAATTTCCGCAATAAATTTCCTGTCATATAGTGAATTCAATCTCGCAAAC -GCGAACCGAACAATAAGAAGCACAACATCACGAGGAATCACCATGGCTAACTACTTCAATACACTGAATCTGCGC -CAGCAGCTGGCACAGCTGGGCAAATGTCGCTTTATGGGCCGCGATGAATTCGCCGATGGCGCGAGCTACCTTCAG -GGTAAAAAAGTAGTCATCGTCGGCTGTGGCGCACAGGGTCTGAACCAGGGCCTGAACATGCGTGATTCTGGTCTC -GATATCTCCTACGCTCTGCGTAAAGAAGCGATTGCCGAGAAGCGCGCGTCCTGGCGTAAAGCGACCGAAAATGGT -TTTAAAGTGGGTACTTACGAAGAACTGATCCCACAGGCGGATCTGGTGATTAACCTGACGCCGGACAAGCAGCAC -TCTGATGTAGTGCGCACCGTACAGCCACTGATGAAAGACGGCGCGGCGCTGGGCTACTCGCACGGTTTCAACATC -GTCGAAGTGGGCGAGCAGATCCGTAAAGATATCACCGTAGTGATGGTTGCGCCGAAATGCCCAGGCACCGAAGTG -CGTGAAGAGTACAAACGTGGGTTCGGCGTACCGACGCTGATTGCCGTTCACCCGGAAAACGATCCGAAAGGCGAA -GGCATGGCGATTGCCAAAGCCTGGGCGGCTGCAACCGGTGGTCACCGTGCGGGTGTGCTGGAATCGTCCTTCGTT -GCGGAAGTGAAATCTGACCTGATGGGCGAGCAAACCATCCTGTGCGGTATGTTGCAGGCTGGCTCTCTGCTGTGC -TTCGACAAGCTGGTGGAAGAAGGTACCGATCCAGCATACGCAGAAAAACTGATTCAGTTCGGTTGGGAAACCATC -ACCGAAGCACTGAAACAGGGCGGCATCACCCTGATGATGGACCGTCTCTCTAACCCGGCGAAACTGCGTGCTTAT -GCGCTTTCTGAACAGCTGAAAGAGATCATGGCACCCCTGTTCCAGAAACATATGGACGACATCATCTCCGGCGAA -TTCTCTTCCGGTATGATGGCGGACTGGGCCAACGATGATAAGAAACTGCTGACCTGGCGTGAAGAGACCGGCAAA -ACCGCGTTTGAAACCGCGCCGCAGTATGAAGGCAAAATCGGCGAGCAGGAGTACTTCGATAAAGGCGTACTGATG -ATTGCGATGGTGAAAGCGGGCGTTGAACTGGCGTTCGAAACCATGGTCGATTCCGGCATCATTGAAGAGTCTGCA -TATTATGAATCACTGCACGAGCTGCCGCTGATTGCCAACACCATCGCCCGTAAGCGTCTGTACGAAATGAACGTG -GTTATCTCTGATACCGCTGAGTACGGTAACTATCTGTTCTCTTACGCTTGTGTGCCGTTGCTGAAACCGTTTATG -GCAGAGCTGCAACCGGGCGACCTGGGTAAAGCTATTCCGGAAGGCGCGGTAGATAACGGGCAACTGCGTGATGTG -AACGAAGCGATTCGCAGCCATGCGATTGAGCAGGTAGGTAAGAAACTGCGCGGCTATATGACAGATATGAAACGT -ATTGCTGTTGCGGGTTAAGTGCGCGCTGATGCCCTCACCCCGACCCTCTCCCACAGGGAGAGGGAGAAAACACTC -AAGGCCTTCTCCTGGAGAAGGCCTTGCTATTAGTTGCGGTACAGCACCTTAATGATGTGATATCCGAACTGGGTG -TGCAGCGGGCCGGTCGGCTCCAGTACCGGACAAGAGAAAACCACTTTATCGAACGCCGGAACCATCTGACCCTGG -CGGAATTCACCTAAATCACCGCCGCGTTTGCCTGATGGGCAAATGGAGTGTTTCTTCGCCAGCTTGCCGAAATCG -GCCCCGTTCTTAATCTGCTCGAGAAGATCCAGAGCCAGTTTCTCTTCTTTTACAAGGATATGCAGTGCTGCTGCT -GTTTTTGCCATGATCGTGCCTTGAGTGAATAATTGTCAGGCGGCGATTTTAGCATGATCCGCAGATGCTAACGTA -ATTGTCAGTCAGGGAGTGGCTGGTACATATATGGCAAAAGCCCGGAAAATCCGGGCCTCGCAGGTCCCTCAAGGG -GAGAAAACTTAGGGCCTCTATGGGCTACAAAGTCATTATCGGGGATGGTTATTTTATTGTCAATTTATGAGCGAT -ATGGCATTGATTGACTTGATGACCGCCCTCTGTATGTCTGCAACCAACTCATGTGGCAAACATTGATTAAGATAC -CCTCTGTAAGTCCTTGCTCTGTTTAATCTGTTTCGACTGACTTGTTGTACCAGGTCGGCTTTGGCCCAACGAATC -TGCTGATCAAAGAATTGCAGGTCATTGATAACATTACTGGCTATTTCAACATGCATTCCACGTTTTAACTTGTCT -GGTCGCGAGTGGTTGATAATGGAACGACGATGCATGCGTTGCCATTAATTTTTCCGTTGAGCACGACAACTAACC -TGTTTTTTATCATTTCAGGAGGAATGCGGCCATCGTAATACGTCGTGCTGAACGGTCCATTTTGGCTAACAGGAT -AGTTACCAAAGTTGCATTCCAGTATTTCACCAACCTTAGGGCTGAAATTAATCGCCACGAGTAAACCTCTCCTTA -GTAAACTCTGAAAAAGTAATAACACAACGTTACGACCCGATATTTTCTAAGTCTAATGGATTCACGATGAACTCC -GATTTCGGTCTTCTCTCTCTGATTTAAACATCCGCAGCCAACCGGTTAGCGGCTTACACGCGGTCACATTCAAAT -GCGATTCTGCTACAATCCTCCCCCCGTTCGAAGATTGAGCAATACACCTATGCGTCTAAACCCCGGCCAACAACA -AGCTGTCGAATTCGTTACCGGCCCCTGCCTGGTGCTGGCGGGCGCGGGTTCCGGTAAAACTCGTGTTATCACCAA -TAAAATCGCCCATCTGATCCGCGGTTGCGGTTATCAGGCGCGGCACATTGCGGCGGTGACCTTTACTAATAAAGC -AGCGCGCGAGATGAAAGAGCGTGTAGGGCAGACGCTGGGGCGCAAAGAGGCGCGTGGGCTGATGATCTCCACTTT -CCATACGTTGGGGCTGGATATCATCAAACGCGAGTATGCGGCGCTTGGGATGAAAGCGAACTTCTCGTTGTTTGA -CGATACCGATCAGCTTGCTTTGCTTAAAGAGTTGACCGAGGGGCTGATTGAAGATGACAAAGTTCTCCTGCAACA -ACTGATTTCGACCATCTCTAACTGGAAGAATGATCTCAAAACACCGTCCCAGGCGGCAGCAAGTGCGATTGGCGA -GCGGGACCGTATTTTTGCCCATTGTTATGGGCTGTATGATGCACACCTGAAAGCCTGTAACGTTCTCGACTTCGA -TGATCTGATTTTATTGCCGACGTTGCTGCTGCAACGCAATGAAGAAGTCCGCAAGCGCTGGCAGAACAAAATTCG -CTATCTGCTGGTGGATGAGTATCAGGACACCAACACCAGCCAGTATGAGCTGGTGAAACTGCTGGTGGGCAGCCG -CGCGCGCTTTACCGTGGTGGGTGACGATGACCAGTCGATCTACTCCTGGCGCGGTGCACGTCCGCAAAACCTGGT -GCTGCTGAGTCAGGATTTTCCGGCGCTGAAGGTGATTAAGCTTGAGCAGAACTATCGCTCTTCCGGGCGTATTCT -GAAAGCGGCGAACATCCTGATCGCCAATAACCCGCACGTCTTTGAAAAGCGTCTGTTCTCCGAACTGGGTTATGG -CGCGGAGCTAAAAGTATTAAGCGCGAATAACGAAGAACATGAGGCTGAGCGCGTTACTGGCGAGCTGATCGCCCA -TCACTTCGTCAATAAAACGCAGTACAAAGATTACGCCATTCTTTATCGCGGTAACCATCAGTCGCGGGTGTTTGA -AAAATTCCTGATGCAAAACCGCATCCCGTACAAAATATCTGGTGGTACGTCGTTTTTCTCTCGTCCTGAAATCAA -GGACTTGCTGGCTTATCTGCGCGTGCTGACTAACCCGGACGATGACAGCGCATTTCTGCGTATCGTTAACACGCC -GAAGCGAGAGATTGGCCCGGCTACGCTGAAAAAGCTGGGTGAGTGGGCGATGACGCGCAATAAAAGCATGTTTAC -CGCCAGCTTTGATATGGGCCTGAGTCAGACGCTTAGCGGACGTGGTTATGAAGCATTGACCCGCTTCACTCACTG -GTTGGCAGAAATCCAGCGTCTGGCGGAGCGGGAGCCGATTGCCGCGGTGCGTGATCTGATCCATGGCATGGATTA -TGAATCCTGGCTGTACGAAACATCGCCCAGCCCGAAAGCCGCCGAAATGCGCATGAAGAACGTCAACCAACTGTT -TAGCTGGATGACGGAGATGCTGGAAGGCAGTGAACTGGATGAGCCGATGACGCTCACCCAGGTGGTGACGCGCTT -TACTTTGCGCGACATGATGGAGCGTGGTGAGAGTGAAGAAGAGCTGGATCAGGTGCAACTGATGACTCTCCACGC -GTCGAAAGGGCTGGAGTTTCCTTATGTCTACATGGTCGGTATGGAAGAAGGGTTTTTGCCGCACCAGAGCAGCAT -CGATGAAGATAATATCGATGAGGAGCGGCGGCTGGCCTATGTCGGCATTACCCGCGCCCAGAAGGAATTGACCTT -TACGCTGTGTAAAGAACGCCGTCAGTACGGCGAACTGGTGCGCCCGGAGCCGAGCCGCTTTTTGCTGGAGCTGCC -GCAGGATGATCTGATTTGGGAACAGGAGCGCAAAGTGGTCAGCGCCGAAGAACGGATGCAGAAAGGGCAAAGCCA -TCTGGCGAATCTGAAAGCGATGATGGCGGCAAAACGAGGGAAATAATCAAGGCCGGAAAAGATGCGTCAGCATCG -CATCCGGCACTTACTCATTAATGCACTTCCAGCGGCCAGTGGACATAGCTCTGCCACTGGCTTTCCTGAGCAATA -ATCTCTTTACCCAGCGGATGTTGGGTTAGCCAACCTTGCGGAAGCGTCAAGGTCAACAGTTCATGGTTAGCCTGT -AATGTCATCTCTGGCACGAGATCGTCACGGCGACGGCTGGCAAAAATGATGGCCAGGCGTAGTAAACGGCAGAGT -TGTTCTGCGACGCGCGGCGGTACGGCATTTTGCTGATGCAGCGATGAGAGATCGACCGGATTAGTCTGGTTGAGC -AGTAGCGTCGCCAGCAATTTTTTCTGTGCGGGGGTAAAACCGGGAAGATCCAGATTACGCACCAGATAAGCAGCG -TGTTGCGGCGCTTGTTTGAAGTCAACGCTCAGGCCGATTTCATGAAGCTGACAGGCGCTGATGAGCAAATCGCGG -CTTATTGCTTCAAGATGCCATTCGTTTTCCACCTGATCGAAGAAGTTAGCCGCAACTTTGGCTACGCGCTGTGCC -TGATCAATATCGATCATAAAGCGGCGTTGAATATTACGCAGCGTACGGCTGCGAATATCCTGCTCGACGGCCAGA -TGCAACATGCCGTAGACCAGGCCTTCACGCAGCGCACCGCCCGCCAGGGTCATACACTGAATATTCAGTTCGGTA -AAAATGGCGATCAGGATCGCCAGACCACTCGGGAACACTAACGCACGTTCCAGCGTCAGCCCGTCAATCTCCAGT -TCCTCCAGCCGACCGCAATGAATGGCTCGCTGTTTCAATTGCTGCAACTTTTCCAGGGTAATGCGTTCATCCATC -CCCTGTGCCATCATGATTTCCTGTAACGCCTGCACGGTGCCGGAAGCACCAACGCACACTTTCCAGCCGTGATAC -CGTAATTCATCGGCAACCGGACGTAACACTTCGCGTGCCGCTTTTTCTGCAGCATCAAAATTTTCCTGCCCCAGA -TTACGATCGGCAAAATAGCGTTCCAGCCAGGTGACGCAGCCCATCGACAGGCTGAACAACGAGGTGGTTTGTGCA -CCCGTGCCGGTTACCAGTTCAGTACTGGCTCCGCCTATATCCACCACCAGGCGCTGATCGGCACCACCAGTGGTG -TGAGCAACGCCCTGATAAATCAGACGTGCTTCCTCTTCACCGCTGATCACCTGTACCGGACAACCGAGAATTTCC -TGCGCTTTGGCAATAAAATCACCCGCATTGACGGCAAGGCGTAACGTCGCCGTAGCGACAACGCGAATTTGCGAG -GGAGGAATATCTTGCAGACGTTCAGCAAACAGGCGCAAACATTGCCAACCGCGCTCCATTGCTTCATTGGAGAGG -GCATTTTCGCTATTCAGGCCAGCAGCCAGACGCACTTTGCGTTTTATTCGCGTCAGCGTCTGGATGCTTCCAGCC -ACCTCGCGCACAACCAGCATATGAAAACTATTCGAACCGAGATCAATGGCTGCATACAGCGACGAGGTGGAACCC -ATACTCTTCATCCTTCAATCTGTCTCTGTGTTGGCTGCATTCTTTCACCTGAATCACTTACTACAGTAAGCTCAT -CGGGATTCATTCTCTTGCCATCTTGATACAGTTTGAATGATTTTGAGTATGACATTTTTTATTTAACCTGAACGA -CGACGATTACGCGGAGCGCCAGTACGACGCGGACCATTGCCTGTGCGCGGGCGCGTGAGGCGCAGCGGTTTTGGC -AGATCGGTCATCAATGCGTCCGGATTGTATTTGCTTACCGGAATTGAGTGACCAATATAGGTCTCAATAGCAGGC -AAATTCAATGCATACTCTTCACACGCCAGGCTGATAGAGTGACCGCTTGCGCCTGCGCGACCTGTACGACCAATA -CGGTGAACGTAATCTTCACAGTCATCGGGTAAATCGTAGTTAAAGACGTGCGTCACTGCCGGAATATGCAAACCA -CGCGCGGCAACGTCGGTGGCAACCAGAATATCCAGATCGCCACGGGTAAATTCATCAAGAATACGCAGACGTTTT -TTCTGCGCGACATCGCCTGTCAATAAACCGACACGATGACCATCTGCTGCCAGGTGGCCCCAGATCTCTTCACAA -CGGTGTTTGGTGTTGGCGAAAATAATCGCTCTGTCTGGCCACTCTTCTTCGATCAGCGTTTGCAGCAAACGCATT -TTTTCTTCGTTAGAAGGGTAGAAAAGCTCTTCTTTAATACGGTGGCCCGTTTTCTGTTCCGGTTCCACTTCAATA -TATTCGGCATTGTTCATCTGCTCGAACGCCAGTTCACGTACCCGGTACGAAAGCGTGGCGGAGAACAGCATGTTG -AGGCGCTGGTTTGCAGGCGGCATACGGCGGAACAGCCAGCGGATATCTTTAATAAAGCCCAGATCGTACATGCGA -TCGGCTTCGTCCAGTACCACCACCTGAATGGCACCGAGGTTAATGTGGTTCTGCTTGGCGTAGTCAATTAAACGC -CCCGTGGTGCCAATCAGAATGTCAACGCCGCTTTCCAGCACTTTCAGCTGTTTGTCGTAGCCATCACCACCGTAA -GCCAGACCCAGCTTCAGGCCAGTAGCTTCCGCCAGCGGTTCTGCGTCGGCATGGATCTGCACGGCAAGTTCACGC -GTCGGTGCCATAATTAAGGCACGCGGCTGATTCACCTTGCGATCGGCAATCGCAGGATGAGAGAGAAGATAATGA -AACGTTGACGTAAGAAACGCCATCGTTTTCCCGGTACCGGTTTGCGCCTGCCCGGCTACGTCACGACCCGCCAGC -GTCAGCGGAAGGGCCAGTGCCTGAATGGGCGTACAGTTATGAAACCCTTTTTTTTCAAGGGCTTCTACAACCTTC -GGATGCAGGGCGAAGTCGGAAAACTTCTGTTCTGTTAAATGTGTTTTGCTCATAGTGTGGTAGAATATCAGCTTA -CTATTGCTTTACGAAAGCGTATCCGGTGAAATAAAGTCAACCTTTAGTTGGTTAATGTTACACCAACAACGAAAC -CAACACGCCAGGCTTATTCCTGTGGAGTTATATATGAGCGATAAAATTATTCACCTGACTGACGACAGTTTTGAC -ACGGATGTACTCAAAGCGGACGGGGCGATCCTCGTCGATTTCTGGGCAGAGTGGTGCGGTCCGTGCAAAATGATC -GCCCCGATTCTGGATGAAATCGCTGACGAATATCAGGGCAAACTGACCGTTGCAAAACTGAACATCGATCAAAAC -CCTGGCACTGCGCCGAAATATGGCATCCGTGGTATCCCGACTCTGCTGCTGTTCAAAAACGGTGAAGTGGCGGCA -ACCAAAGTGGGTGCACTGTCTAAAGGTCAGTTGAAAGAGTTCCTCGACGCTAACCTGGCGTAAGGGAATTTCATG -TTCGGGTGCCCCGTCGCTAAAAACTGGACGCCCGGCGTGAGTCATGCTAACTTAGTGTTGACTTCGTATTAAACA -TACCTTATTAAGTTTGAATCTTGTAATTTCCAACGCTTCCCGTTTTATCTTAAATGCGAAGTGAACAGATTTCTG -GCTCGTCACTCAATCCGTCTTGTCGTTTCAGTTCTGCGTACTCTCCTGTGACCAGGCAGCGAAAAGACATGAGTC -GATGACCGTAAACAGGCATGGATGATCCTGCCATACCATTCACAACATTAAGTTCGAGATTTACCCCAAGTTTAA -GAACTCACACCACTATGAATCTTACCGAATTAAAGAATACGCCGGTTTCTGAGCTGATCACTCTCGGCGAAAATA -TGGGGCTGGAAAACCTGGCTCGTATGCGTAAGCAGGACATTATTTTTGCCATCCTGAAGCAGCACGCAAAGAGTG -GCGAAGATATCTTTGGTGATGGCGTACTGGAGATATTGCAGGATGGATTTGGTTTCCTCCGTTCCGCAGACAGCT -CCTACCTCGCCGGTCCTGATGACATCTACGTTTCCCCTAGCCAAATCCGCCGTTTCAACCTCCGCACTGGTGATA -CCATCTCTGGTAAGATTCGCCCGCCGAAAGAAGGTGAACGCTATTTTGCGCTGCTGAAAGTTAACGAAGTTAACT -TCGACAAACCTGAAAACGCCCGCAACAAAATCCTCTTTGAGAACTTAACCCCGCTGCACGCAAACTCTCGTCTGC -GTATGGAACGTGGTAACGGTTCTACTGAAGATTTAACTGCTCGCGTACTGGATCTGGCATCACCTATCGGTCGTG -GTCAGCGTGGTCTGATTGTGGCACCGCCGAAAGCCGGTAAAACCATGCTGCTGCAGAACATTGCTCAGAGCATTG -CTTACAACCACCCGGATTGTGTGCTGATGGTTCTGCTGATCGACGAACGTCCGGAAGAAGTAACCGAGATGCAGC -GTCTGGTAAAAGGTGAAGTTGTTGCTTCTACCTTTGACGAACCCGCATCTCGCCACGTTCAGGTTGCGGAAATGG -TGATCGAGAAGGCCAAACGCCTGGTTGAGCACAAGAAAGACGTTATCATTCTGCTCGACTCCATCACTCGTCTGG -CGCGCGCTTACAACACCGTTGTTCCGGCGTCAGGTAAAGTGTTGACCGGTGGTGTGGATGCCAACGCCCTGCATC -GTCCGAAACGCTTCTTTGGTGCGGCGCGTAACGTGGAAGAGGGCGGCAGCCTGACCATTATCGCGACGGCGCTTA -TCGATACCGGTTCTAAAATGGACGAAGTTATCTACGAAGAGTTTAAAGGTACAGGCAACATGGAACTGCACCTCT -CTCGTAAGATCGCTGAAAAACGCGTCTTCCCGGCTATCGACTACAACCGTTCTGGTACCCGTAAAGAAGAGCTGC -TCACGACTCAGGAAGAACTGCAGAAAATGTGGATCCTGCGCAAAATCATTCACCCGATGGGCGAAATCGATGCAA -TGGAATTCCTCATTAATAAACTGGCAATGACCAAGACCAATGACGATTTCTTCGAAATGATGAAACGCTCATAAA -TTTGTCTTATGCCAAAAACGCCACGTGTTTACGTGGCGTTTTGCTTTTATATCTGTAATCTTAATGCCGCGCTGG -CGATGTTAGGAAAATTCCTGGAATTTGCTGGCATGTTATGCAATTTGCATATCAAATGGTTAATTTTTGCACAGG -ACTGGTGGGTTTGGAACGGACTTTCCCTTCTGAATAAAGGTCTTCGTGGTTATACTTCTGCTAATAATTTTCTCT -GAGAGCATGCATTGTGAATTTACTGACAGTGAGTACTGATCTCATCAGTATTTTTTTATTCACGACACTGTTTCT -GTTTTTTGCCCGTAAGGTGGCAAAAAAAGTCGGTTTAGTGGATAAACCAAACTTCCGCAAACGTCACCAGGGATT -GATACCTCTCGTTGGGGGGATTTCGGTTTACGCAGGGATTTGCTTCACGTTCGGAATTGTCGATTACTATATTCC -GCATGCATCTCTCTATCTCGCTTGTGCCGGTGTGCTTGTTTTCATTGGCGCGCTGGATGACCGTTTTGATATCAG -CGTAAAAATCCGTGCCACCATACAGGCCGCTGTTGGCATTGTTATGATGGTGTTCGGCAAGCTTTATCTCAGTAG -CCTGGGTTATATCTTTGGCTCCTGGGAGATGGTGCTCGGACCGTTTGGTTACTTCCTGACGCTATTTGCCGTCTG -GGCGGCCATTAATGCGTTCAACATGGTTGATGGCATTGATGGCTTGCTGGGCGGGTTGTCCTGCGTCTCGTTTGC -AGCAATCGGTATGATTTTGTGGTTCGACGGGCAAACCAGCCTCGCAATCTGGTGCTTTGCGATGATCGCCGCCAT -CCTGCCATACATCATGCTTAACCTTGGTATCCTGGGTCGCCGCTACAAAGTCTTTATGGGTGATGCGGGCAGTAC -GCTGATTGGTTTTACCGTTATCTGGATCCTGCTCGAAACGACCCAGGGCAAAACCCATCCCATCAGCCCGGTTAC -CGCTTTGTGGATAATCGCCATTCCGCTAATGGATATGGTGGCGATTATGTACCGTCGCCTGCGTAAAGGCATGAG -CCCATTCTCTCCTGACCGTCAGCATATTCACCATTTGATCATGCGTGCCGGGTTTACTTCCCGTCAGGCGTTTGT -GCTGATTACCCTTGCCGCAGCACTGCTCGCTTCCATTGGCGTGCTGGCAGAATATTCTCATTTTGTCCCGGAGTG -GGTCATGCTGGTGCTCTTTTTGCTAGCATTCTTCCTCTATGGATATTGCATTAAGCGTGCCTGGAAAGTTGCTCG -CTTTATTAAGCGCGTAAAACGCAGACTGCGTAGAAATCGTGGTGGCAGCCCCAATTTAACCAAATAAATGAGGAT -GTGATGACACAACCAATGCCTGGGAAACCGGCCGAAGACGCTGAAAATGAACTGGATATTCGTGGGTTGTTTCGT -ACCTTGTGGGCTGGGAAGCTATGGATTATTGGCATGGGGCTGGCGTTTGCGTTAATCGCGCTGGCGTATACGTTT -TTTGCTCGTCAGGAGTGGAGCTCGACGGCGATTACCGATCGTCCAACGGTGAATATGCTGGGGGGATATTACTCG -CAGCAGCAATTTTTGCGTAACCTGGATGTCCGTTCAAACATGGCTTCTGCCGACCAACCATCGGTCATGGACGAA -GCCTATAAAGAGTTTGTTATGCAACTGGCCTCGTGGGATACCCGCAGAGAGTTCTGGCTGCAAACCGACTATTAC -AAACAGCGGATGGTGGGCAACAGCAAAGCCGATGCGGCGTTGCTGGATGAAATGATTAACAACATCCAGTTTATC -CCCGGAGACTTTACCCGCGCGGTCAATGACAGCGTGAAGCTTATTGCCGAAACCGCGCCTGACGCTAATAACCTG -TTACGTCAGTATGTTGCTTTTGCCAGCCAGCGTGCAGCCAGCCATCTGAATGATGAGCTGAAAGGCGCATGGGCG -GCGCGTACCATCCAGATGAAAGCTCAGGTGAAGCGTCAGGAAGAGGTGGCGAAAGCCATCTACGACCGCCGGATG -AACAGCATTGAGCAGGCGCTGAAAATTGCTGAGCAGCATAATATTTCGCGCAGTGCGACAGATGTACCTGCCGAG -GAATTACCTGATTCAGAAATGTTCCTGCTTGGGCGTCCAATGCTTCAGGCTCGACTGGAAAATTTACAGGCCGTC -GGTCCGGCCTTTGATCTCGACTATGATCAGAATCGGGCCATGTTAAACACCCTGAATGTTGGTCCAACCCTGGAT -CCGCGTTTTCAGACCTATCGCTATTTGCGTACGCCGGAAGAACCGGTAAAACGCGATAGCCCACGTCGTGCCTTC -CTGATGATTATGTGGGGCATTGTCGGGGGGCTGATCGGGGCTGGTGTCGCATTAACCCGCCGTTGCTCGAAATAG -CAACACTGCTGCGGTGAGCGCAAAGGCGCTCGCCGCTTATTCGAAGAGAATCGATGTGAAAGTACTGACTGTATT -TGGTACGCGCCCGGAAGCCATCAAGATGGCGCCGTTGGTGCATGCGTTGGCAAAAGATCCTTTTTTTGAGGCTAA -AGTTTGCGTCACTGCGCAGCATCGGGAGATGCTCGATCAGGTGCTGAAACTCTTTTCCATTGTACCTGACTACGA -TCTCAACATAATGCAGCCAGGACAGGGCCTGACAGAGATAACCTGTCGGATTCTGGAAGGGCTAAAACCTATTCT -TGCCGAGTTCAAACCAGACGTCGTGCTGGTTCACGGCGATACGACGACGACGCTGGCAACCAGCCTGGCGGCGTT -TTATCAGCGTATTCCTGTTGGTCACGTTGAGGCTGGTCTGCGCACGGGCGATCTCTATTCGCCGTGGCCGGAAGA -GGCTAACCGTACATTGACCGGGCATCTGGCGATGTATCACTTCTCTCCAACCGAAACTTCCCGGCAAAACTTGCT -GCGTGAAAACGTTGCGGATAGCCGAATCTTCATTACCGGTAATACAGTCATTGATGCACTGTTATGGGTGCGTGA -CCAGGTGATGAGCAGCGACAAGCTGCGTTCAGAACTGGCGGCAAATTACCCGTTTATCGACCCCGATAAAAAGAT -GATTCTGGTGACCGGTCACAGGCGTGAGAGTTTCGGTCGTGGCTTTGAAGAAATCTGCCACGCGCTGGCAGACAT -CGCCACCACGCACCAGGACATCCAGATTGTCTATCCGGTGCATCTCAACCCGAACGTCAGAGAACCGGTCAATCG -CATTCTGGGGCATGTGAAAAATGTCATTCTGATCGATCCCCAGGAGTATTTACCGTTTGTCTGGCTGATGAACCA -CGCCTGGCTGATTTTGACCGACTCAGGCGGCATTCAGGAAGAAGCGCCTTCGCTGGGGAAACCTGTGCTGGTGAT -GCGCGATACCACTGAGCGTCCGGAAGCGGTGACGGCGGGTACGGTGCGTCTGGTAGGCACGGATAAGCAGCGAAT -TGTCGAGGAAGTGACGCGTCTTTTAAAAGACGAAAACGAATATCAAGCTATGAGCCGCGCCCATAACCCGTATGG -TGATGGTCAGGCATGCTCTCGCATTCTGGAAGCGTTAAAAAATAATCGGATATCACTATGAGTTTTGCGACCATT -TCTGTTATCGGACTGGGTTATATCGGGCTGCCAACGGCAGCAGCGTTTGCCTCACGGCAAAAACAGGTAATTGGT -GTCGATATCAACCAACATGCGGTTGATACCATCAATCGTGGCGAAATCCATATCGTCGAACCTGATTTGGCGAGT -GTAGTAAAAACTGCCGTAGAAGGCGGTTTTTTACGAGCGAGCACGACGCCAGTTGAAGCGGATGCCTGGCTGATT -GCTGTACCCACGCCGTTTAAGGGCGATCATGAGCCAGATATGACCTACGTTGAATCGGCTGCTCGCTCCATTGCG -CCAGTGCTGAAAAAAGGCGCGCTGGTGATCCTTGAATCCACCTCGCCGGTGGGGTCAACCGAGAAGATGGCAGAA -TGGTTAGCAGAGATGCGTCCGGATCTCACTTTCCCGCAGCAGGTGGGCGAGCAGGCGGACGTCAACATTGCTTAC -TGCCCGGAACGCGTGTTACCAGGACAGGTAATGGTCGAGCTGATTAAAAACGATCGCGTGATTGGTGGTATGACG -CCGGTTTGTTCGGCCCGCGCCAGCGAACTGTACAAAATTTTCCTCGAAGGTGAGTGTGTCGTCACTAACTCGCGG -ACGGCGGAAATGTGTAAGCTCACCGAAAACAGCTTCCGCGATGTGAATATCGCTTTTGCTAATGAATTGTCGCTG -ATTTGTGCCGATCAGGGGATTAACGTCTGGGAACTGATTCGCCTGGCGAATCGTCACCCTCGCGTTAATATTCTT -CAGCCTGGCCCTGGCGTGGGCGGTCACTGCATTGCTGTTGATCCGTGGTTTATCGTGGCACAGAACCCCCAGCAG -GCGCGGCTTATCCGTACCGCGCGCGAAGTGAACGATCACAAACCGTTCTGGGTTATCGATCAGGTGAAAGCGGCG -GTGGCTGATTGCCTGGCGGCTACCGATAAACGCGCCAGTGAACTGAAAATCGCCTGCTTTGGTCTGGCGTTTAAA -CCGAATATTGATGACCTGCGCGAAAGCCCGGCGATGGAAATCGCTGAACTGATCGCCCAGTGGCATAGCGGCGAA -ACTCTGGTTGTTGAGCCTAACATCCACCAGTTGCCGAAAAAACTGACCGGGCTTTGTACTCTGGCGCAGCTTGAC -GAGGCGCTGGCAACGGCAGACGTGCTGGTGATGCTGGTCGATCATAGTCAGTTCAAAGTTATCAATGGCGACAAT -GTCCATCAGCAGTATGTCGTCGATGCCAAAGGAGTCTGGCGCTGATGAGAAAAATTCTGATAACAGGTGGTGCCG -GGTTTATTGGCTCGGCGCTGGTGCGTTATATCATCAACGAAACGAGCGACGCGGTGGTAGTGGTCGATAAGCTGA -CCTACGCCGGAAACCTGATGTCGCTGGCACCGGTCGCGCAAAGCGAGCGCTTTGCCTTTGAGAAAGTTGATATCT -GCGATCGGGCAGAACTGGCACGCGTATTCACTGAGCATCAGCCAGACTGTGTCATGCATCTGGCAGCCGAAAGCC -ATGTTGACCGTTCTATTGACGGCCCGGCAGCGTTTATTGAAACCAACATTGTCGGGACTTATACATTGCTTGAAG -CGGCGCGGGCTTACTGGAATGCGCTGACGGAAGATAAAAAATCAGCGTTCCGTTTTCATCATATCTCCACTGACG -AAGTATATGGTGACCTGCACTCGACGGATGATTTCTTCACCGAAACCACGCCGTATGCGCCGAGCAGCCCTTATT -CCGCGTCAAAAGCCAGCAGCGACCATCTGGTGCGCGCCTGGCTGCGGACCTATGGTCTGCCGACGCTTATCACCA -ACTGCTCGAATAACTACGGCCCTTACCACTTTCCGGAAAAACTGATCCCGCTGATGATCCTCAACGCGCTGGCGG -GTAAATCGCTGCCGGTATATGGCAACGGGCAGCAAATCCGTGACTGGCTGTATGTGGAAGATCACGCCCGCGCGC -TGTATTGCGTGGCGACCACCGGGAAAGTCGGTGAAACCTATAATATTGGTGGTCACAACGAGCGTAAGAATCTCG -ATGTTGTGGAAACCATTTGCGAGCTGCTGGAAGAACTGGCTCCGAACAAGCCGCACGGCGTGGCGCACTATCGTG -ACCTGATCACCTTTGTCGCTGACCGTCCGGGGCATGATCTGCGTTATGCCATTGATGCTTCGAAAATTGCCCGTG -AACTTGGCTGGCTGCCGCAGGAAACCTTTGAAAGTGGAATGCGTAAAACGGTTCAGTGGTATCTGGCTAATGAAA -GCTGGTGGAAGCAGGTGCAGGACGGCAGCTATCAGGGCGAGCGTTTAGGTCTGAAAGGCTAATTTTCAGCGGAGG -CAAACATGAAAGGTATTATCCTGGCGGGCGGTTCCGGCACCCGATTGCATCCGATTACGCGCGGCGTATCGAAGC -AACTGTTGCCGATTTACGATAAGCCAATGATTTACTATCCGCTGTCGGTGCTGATGCTGGCCGGTATCCGCGAAA -TTCTCATCATCACTACGCCGGAAGATAAAGGTTATTTCCAGCGCCTGCTGGGCGATGGTAGTGAGTTCGGTATCC -AGCTGGAATATGCCGAACAGCCCAGCCCGGACGGTCTGGCGCAGGCCTTTATCATCGGTGAAACCTTCCTTAATG -GTGAACCTTCTTGTCTGGTGCTGGGCGATAACATCTTCTTCGGTCAGGGCTTCAGTCCGAAGCTGCGTCATGTTG -CGGCGCGCACCGAAGGGGCGACGGTTTTTGGCTATCAGGTGATGGACCCGGAACGCTTTGGCGTGGTGGAGTTTG -ACGACAATTTCCGCGCTATCTCGCTGGAAGAAAAGCCAAAACAGCCGAAGTCAAACTGGGCGGTGACCGGGCTTT -ATTTCTACGACAGTAAAGTCGTGGAGTACGCAAAGCAGGTGAAGCCGTCGGAGCGTGGTGAACTGGAGATTACCT -CCATCAACCAGATGTACCTCGAGGCGGGCAACCTGACCGTTGAACTGCTCGGGCGCGGATTTGCCTGGCTGGATA -CCGGCACTCACGACAGCCTGATTGAAGCCAGCACCTTTGTACAGACGGTGGAAAAACGCCAGGGCTTTAAGATTG -CCTGCCTGGAAGAGATTGCCTGGCGTAACGGCTGGCTCGATGACGAGGGTGTGAAGCGTGCTGCCAGTTCATTAG -CGAAAACTGGCTACGGCCAATATCTGCTGGAGTTACTTCGTGCCCGTCCGCGCCAGTATTGAGCCACTAACCTGG -GAAAACGCCTTCTTTGGTGTTAACAGCGCCATCGTGCGCATTACGTCTGAAGCACCGCTCCTGACGCCAGACGCG -TTAGCGCCGTGGTCACGGGTGCAGGCCAAAATTGCGGCATCAAATACGGGTGAACTGGATGCCCTGCAACAGCTG -GGATTCTCCCTGGTAGAAGGTGAAGTTGATTTGGCGCTACCCGTGAACAATGCCAGTGATAGCGGTGCTGTAGTG -GCACAAGAGACCGATATTCCCGCATTACGTCAGTTAGCCAGCGCCGCATTTGCGCAAAGCCGTTTTCGTGCGCCG -TGGTATGCGCCTGACGCCAGCAGTCGCTTTTATGCACAGTGGATTGAAAATGCCGTGCGCGGCACCTTTGATCAT -CAATGTCTGATTTTACGTGCGGCGTCCGGCGATATTCGCGGCTATGTCTCTTTACGGGAACTCAATGCGACAGAT -GCGCGAATTGGCCTGCTGGCTGGACGCGGTGCAGGTGCTGAGCTGATGCAAACGGCGCTAAACTGGGCGTATGCT -CGCGGTAAAACAACTTTGCGGGTGGCGACCCAAATGGGCAACACCGCCGCGCTTAAACGATACATACAAAGTGGT -GCGAATGTAGAAAGCACCGCGTACTGGTTATACAGGTGATCACATGATTCCATTTAACGCACCGCCGGTGGTGGG -AACCGAACTCGACTATATGCAGTCGGCAATGGGTAGCGGCAAACTGTGTGGCGATGGCGGTTTTACCCGTCGCTG -CCAGCAGTGGCTGGAGCAACGTTTTGGCAGCGCCAAAGTGTTACTGACGCCGTCCTGCACCGCTTCGCTGGAGAT -GGCGGCGCTGCTGCTCGATATCCAGCCTGGCGATGAAGTGATCATGCCGAGCTACACCTTTGTCTCCACCGCCAA -TGCCTTTGTGCTGCGTGGCGCAAAAATCGTTTTTGTGGATGTTCGCCCGGACACCATGAACATCGACGAAACGCT -GATTGAAGCGGCGATCACCGACAAAACGCGCGTTATCGTGCCGGTCCATTACGCGGGTGTGGCCTGCGAAATGGA -CACCATTATGGCGTTGGCGAAAAAGCATAATTTGTTTGTGGTAGAAGATGCCGCTCAGGGCGTGATGTCCACTTA -CAAAGGGCGTGCACTGGGAACCATTGGTCATATTGGCTGCTTTAGCTTCCATGAAACCAAAAACTACACGGCGGG -CGGTGAAGGCGGCGCGACGCTGATTAACGATAAAGCGTTAATCGAACGAGCCGAGATCATCCGTGAAAAGGGCAC -TAACCGCAGCCAGTTCTTCCGTGGTCAGGTCGATAAATATACCTGGCGCGATATTGGCTCCAGCTATTTGATGTC -CGATCTGCAAGCTGCATACCTGTGGGCGCAACTGGAAGCAGCGGATCGTATCAACCAGCAACGTCTGGCGCTGTG -GCAAAACTACTACGATGCGTTAGCGCCTCTGGCGAAAGCCGGGCGTATCGAGCTGCCGTCGATTCCCGATGGCTG -CGTGCAGAACGCGCATATGTTCTACATTAAACTGCGGGATATTGATGACCGGAGCGCGTTGATTAACTTTCTGAA -AGAAGCGGAAATCATGGCGGTGTTTCATTACATTCCGCTGCACGGTTGCCCTGCGGGGGAACACTTTGGTGAGTT -CCACGGTGAAGATCGCTACACCACCAAAGAGAGCGAGCGCCTGCTGCGCCTGCCGCTGTTCTACAACCTGTCGCC -CGTCAATCAGCGTACGGTAATTGCGACTTTGTTGAACTACTTTTCCTGATATGTCGTTGGCAAAAGCGTCCTTGT -GGACGGCGGCCAGTACACTGGTCAAGATTGGTGCCGGGTTACTGGTCGGTAAGTTGCTGGCGGTGTCATTTGGTC -CGGCGGGGCTTGGGCTGGCGGCAAATTTCCGCCAGTTGATTACCGTGCTCGGCGTGCTTGCCGGGGCTGGCATCT -TTAACGGTGTAACCAAATACGTTGCCCAGTACCATGATAATCCGCAACAGCTGCGCCGCGTGGTCGGCACTTCAT -CAGCGATGGTACTTGGTTTCTCTACGCTGATGGCGCTGGTTTTTGTGCTGGCAGCTGCGCCAATCAGCCAGGGAT -TGTTTGGTAATACCGACTATCAGGGGCTGGTGCGTTTAGTGGCGCTGGTGCAAATGGGGATCGCCTGGGGCAACC -TGTTACTGGCGCTGATGAAAGGCTTTCGCGATGCCGCAGGTAATGCGTTATCGCTGATTGTCGGCAGCTTGATTG -GCGTTCTCGCGTACTACGTCAGTTACCGTTTGGGCGGTTATGAAGGGGCGTTGCTGGGTCTGGCGCTGATTCCCG -CGCTGGTGGTAATTCCTGCCGCCATCATGTTGATCAAACGTGGTGTCATCCCGTTAAGCTATCTGAAACCCAGCT -GGGATAACGGTCTGGCAGGGCAGTTGAGCAAATTTACGCTCATGGCGTTGATTACGTCGGTGACCTTGCCTGTTG -CTTACATCATGATGCGTAAACTGCTGGCGGCGCAGTATAGCTGGGATGAGGTGGGGATCTGGCAAGGGGTGAGCA -GTATTTCCGATGCCTACCTGCAATTTATTACGGCATCGTTCAGCGTATATTTGCTGCCCACGTTGTCGCGGCTAA -CGGAAAAGCGCGATATCACCCGGGAAGTGGTTAAATCGCTGAAATTCGTCTTACCGGCAGTGGCGGCGGCGAGTT -TTACCGTCTGGCTGCTGCGTGATTTTGCTATCTGGCTGCTGTTGTCGAATAAATTTACCGCTATGCGCGATCTCT -TTGCCTGGCAGTTAGTGGGTGATGTGTTAAAAGTGGGCGCTTATGTCTTTGGTTATCTGGTGATCGCCAAAGCGT -CACTGCGGTTTTATATTCTGGCGGAAGTCAGCCAGTTCACTTTATTGATGGTATTTGCCCACTGGCTAATCCCTG -CGCATGGTGCACTGGGCGCGGCGCAGGCATATATGGCAACTTATATCGTCTATTTTTCTCTTTGTTGTGGCGTGT -TTTTACTCTGGCGTAGGCGGGCATGACTGTACTGATTCACGTACTGGGATCGGATATCCCTCACCATAACCGAAC -CGTTTTGCGGTTTTTCAATGACGCGCTGGCCGCGACGAGCGAGCACGCGCGCGAGTTTATGGTTGTTGGCAAGGA -CGACGGCTTAAGTGATAGCTGTCCGGCGCTTTCTGTGCAATTTTTCCCTGGGAAAAAATCGCTGGCGGAAGCGGT -CATCGCGAAAGCAAAAGCTAACCGTCAGCAGCGTTTTTTCTTCCACGGTCAGTTCAATCCCACACTGTGGCTGGC -TCTGCTGAGTGGTGGCATTAAGCCCAGCCAGTTTTTCTGGCATATCTGGGGGGCAGACCTGTATGAGCTTTCCAG -TGGCTTGAGATATAAGCTTTTTTACCCACTACGTCGCCTGGCGCAAAAGCGAGTCGGCTGTGTATTTGCCACCCG -CGGCGATTTGAGCTTTTTTGCCAAAACGCACCCAAAGGTGCGGGGCGAACTGCTGTTCTTCCCGACGCGGATGGA -CCCTTCGCTCAATACGATGGCGAACGATCGGCAACGTGAAGGGAAAATGACCATTCTGGTGGGGAACTCCGGCGA -CCGCAGCAATGAGCATATTGCTGCCTTGCGCGCCGTTCATCAGCAATTTGGCGATACGGTAAAAGTGGTGGTGCC -GATGGGATATCCGCCTAATAACGAAGCGTACATTGAGGAAGTTCGTCAGGCGGGGCTGGAGTTATTCAGCGAAGA -AAATCTACAAATTCTGAGCGAAAAACTGGAATTTGACGCCTATCTGGCGCTACTTCGTCAGTGCGATCTTGGTTA -CTTTATTTTTGCCCGCCAGCAGGGCATTGGTACGCTGTGCTTACTGATTCAGGCGGGCATTCCTTGTGTGCTTAA -CCGGGAAAATCCGTTCTGGCAGGATATGACGGAACAACATTTGCCGGTGCTGTTTACTACCGACGATCTCAACGA -GGATATTGTGCGTGAAGCGCAGCGCCAGTTGGCGTCGGTGGATAAAAACACCATTGCCTTCTTTAGCCCTAACTA -TCTACAAGGCTGGCAGCGGGCGTTGGCGATTGCCGCCAGGGAGGTCGCATGAGTCTGCTGCAATTCAGTGGCCTG -TTTGTTGTCTGGCTGCTCTGCACGCTGTTTATTGCCACGCTGACCTGGTTTGAGTTTCGCCGTGTGCGCTTTAAC -TTCAATGTCTTCTTTTCATTGCTGTTTTTGCTCACCTTTTTCTTCGGCTTCCCGCTGACCAGCGTGCTGGTATTT -CGCTTTGATGTTGGTGTCGCGCCGCCAGAAATCTTGTTGCAGGCGTTGCTTTCTGCGGGCTGCTTCTACGCGGTT -TACTATGTCACCTACAAAACCCGCCTACGCAAACGCGTTGCTGATGTACCGCGCCGTCCGCTGTTTACCATGAAC -CGCGTGGAGACCAATCTTACGTGGGTGATCCTGATGGGTATCGCGCTGGTAAGCGTCGGCATCTTCTTCATGCAC -AACGGCTTTTTGCTGTTCCGGCTTAACTCCTACAGTCAGATCTTTTCCAGTGAAGTCTCCGGCGTGGCGTTAAAA -CGCTTCTTTTACTTTTTCATCCCGGCGATGCTGGTGGTCTACTTTCTGCGCCAGGACAGCAAAGCGTGGCTGTTT -TTCCTCGTCAGCACGGTCGCCTTTGGCTTGCTGACTTATATGATTGTCGGCGGCACTCGCGCCAATATCATCATC -GCATTCGCTATCTTCCTGTTTATTGGCATTATTCGCGGCTGGATTTCGTTGTGGATGCTGGCGGCGGCGGGCGTG -CTGGGGATTGTTGGCATGTTCTGGCTGGCACTAAAACGCTATGGAATGAATGTGAGCGGCGATGAAGCGTTCTAT -ACGTTTCTCTATCTCACTCGCGACACCTTCTCGCCGTGGGAGAATCTGGCGTTGCTGTTGCAGAACTACGACAAC -ATCGACTTCCAGGGCCTGGCTCCAATTGTCCGCGATTTCTATGTCTTTATCCCTTCCTGGCTGTGGCCGGGTCGC -CCGAGTATGGTGCTGAACTCAGCCAACTACTTTACCTGGGAAGTGCTGAATAACCACTCCGGACTGGCGATCTCG -CCTACGCTTATAGGCTCACTGGTGGTGATGGGCGGCGCGTTGTTCATCCCGCTCGGGGCGATCGTGGTTGGTCTG -ATCATCAAATGGTTCGACTGGCTGTATGAGCTGGGCAACCGCGAGCCTAATCGCTATAAAGCTGCGATATTGCAC -AGTTTCTGCTTTGGGGCGATCTTCAATATGATCGTGCTGGCGCGTGAAGGGCTGGATTCGTTTGTCTCACGCGTG -GTCTTTTTTATCGTGGTCTTCGGCGCATGTCTGATGATCGCAAAACTGTTGTACTGGCTTTTTGAAAGCGCCGGA -CTCATTCATAAACGTACAAAATCATCGCTCCGGACGCAGGTTGAAGGATAACAATGAATAACAACACCACGGCAC -CAACCTATACGCTGCGTGGCTTACAGTTGATTGGTTGGCGTGATATGCAGCACGCCCTCGATTATCTGTTTGCTG -ACGGGCAGCTTAAGCAGGGAACGCTGGTTGCCATTAATGCTGAAAAAATGCTGACTATTGAAGATAACGCCGAGG -TCAGGGAGTTAATTAACGCTGCCGAATTTAAATATGCGGATGGCATCAGCGTTGTACGTTCAGTACGTAAAAAGT -ACCCGCAGGCGCAGGTTTCCCGCGTTGCCGGTGCCGATCTCTGGGAAGAGCTGATGGCGCGCGCAGGCAAAGAAG -GGACGCCGGTATTTCTTGTGGGCGGTAAACCTGAAGTGCTGGCGCAAACTGAAGCTAAACTGCGCAACCAGTGGA -ATGTGAATATCGTTGGCAGTCAGGATGGTTATTTTAAACCCGAGCAGCGTCAGGCGCTGTTTGAACGCATTCATG -CCAGCGGTGCGCAAATCGTCACCGTTGCGATGGGATCGCCAAAGCAGGAGATCATCATGCGCGACTGCCGTCTGG -TACATCCAGATGCGCTGTATATGGGCGTTGGCGGGACTTACGATGTTTTCACCGGTCACGTAAAACGCGCACCGA -AAATCTGGCAAACGCTGGGGCTGGAGTGGCTCTACCGCCTGCTTTCGCAGCCGAGCCGCATTAAGCGTCAGCTTC -GTTTGCTGCGTTATTTACGCTGGCACTACACCGGCAACCTATGATTTTCCTCTCTTTGTAAAGCGACGGAGTGGT -CACTCCGTCGCCTGTCTGCTTTTTTATTACACAAAGCATTCAAATTTTTAATGCTTTATTTGCCATTTCTCCTGA -ATTACGAAAACATTTGCAACACTCGATGTACCCATAACGATAACCGGTAACACCGGAAAGCATGCAAACACAACA -CGAGGATTTATGGCAGATAACAAACCAGAGCTACAGCGTGGGCTGGAAGCTCGACATATCGAACTCATCGCCCTG -GGGGGCACCATTGGCGTCGGCCTGTTTATGGGGGCCGCCAGTACCCTGAAATGGGCCGGGCCATCCGTATTGTTG -GCCTATATCATCGCCGGGCTGTTCGTCTTTTTCATCATGCGTTCAATGGGCGAAATGTTGTTCCTCGAACCGGTT -ACCGGTTCGTTCGCCGTTTATGCGCATCGTTATATGAGCCCGTTCTTTGGCTATCTCACCGCCTGGTCTTACTGG -TTTATGTGGATGGCGGTGGGGATCTCTGAAATCACCGCCATTGGCGTTTATGTCCAGTTCTGGTTCCCGGAGATG -GCGCAGTGGATACCCGCATTGATCGCAGTGGCGCTGGTGGCGTTGGCGAATCTGGCGGCGGTGCGGTTGTACGGC -GAAATCGAGTTCTGGTTCGCGATGATCAAAGTCACCACGATTATCGTGATGATTGTCATTGGCCTGGGCGTGATT -TTCTTTGGCTTTGGCAATGGCGGGCAGTCGATTGGTTTTAGCAATCTCACAGAGCATGGCGGTTTCTTTGCGGGT -GGCTGGAAAGGGTTCCTGACCGCTCTGTGTATTGTGGTGGCGTCCTACCAGGGCGTGGAGCTGATTGGCATTACT -GCCGGTGAAGCGAAGAATCCGCAGGTGACGCTGCGCAGTGCCGTAGGCAAGGTGCTGTGGCGGATCCTGATTTTC -TACGTAGGCGCGATTTTCGTTATCGTCACCATCTTCCCGTGGAATGAAATAGGCAGCAACGGCAGCCCGTTCGTA -CTGACTTTTGCCAAAATCGGTATTACCGCAGCGGCGGGCATTATCAACTTTGTGGTGCTGACGGCTGCGCTCTCT -GGCTGTAACAGCGGCATGTACAGTTGCGGACGTATGCTCTACGCACTGGCGAAAAACCGTCAGTTACCGGCGGCA -ATGGCGAAAGTTTCCCGTCACGGCGTACCGGTTGCGGGTGTGGCAGTATCTATTGCTATTCTGCTAATTGGCTCA -TGCCTGAACTACATCATTCCCAATCCGCAGCGTGTGTTTGTCTACGTCTACAGTGCCAGCGTGCTTCCGGGGATG -GTGCCATGGTTTGTGATATTGATAAGCCAGCTGCGTTTTCGGCGTGCACATAAAGCGGCGATTGCCAGCCATCCG -TTCCGCTCAATCCTGTTCCCGTGGGCCAATTACGTAACAATGGCATTCCTGATTTGCGTTTTGATCGGCATGTAC -TTTAATGAAGATACGCGTATGTCGCTGTTTGTTGGCATCATCTTTATGCTGGCGGTGACGGCGATTTATAAAGTT -TTTGGCCTTAATCGCCACGGGAAAGCGCATAAACTGGAGGAATAAGCAGCAAAACGCACAAACCGTAACCAAACG -CGCAATTTATTTAAAAAGGGACTAGACAGAGGGGTGGGAAGTCCGTATTATCCACCCCCGCAACGGCGCTAAGCG -CCCGTAGCTCAGCTGGATAGAGCGCTGCCCTCCGGAGGCAGAGGTCTCAGGTTCGAATCCTGTCGGGCGCGCCAT -TTAGTCCCGGCGCTTGAGCTGCGGTGGTAGTAATACCGCGTAACAAGATTTGTAGTGGTGGCTATAGCTCAGTTG -GTAGAGCCCTGGATTGTGATTCCAGTTGTCGTGGGTTCGAATCCCATTAGCCACCCCATTATTAGAAGTTGTGAC -AATGCGAAGGTGGCGGAATTGGTAGACGCGCTAGCTTCAGGTGTTAGTGTCCTTACGGACGTGGGGGTTCAAGTC -CCCCCCCTCGCACCACGACTTTAAAGAATTGAACTAAAAATTCAAAAAGCAGTATTTCGGCGAGTAGCGCAGCTT -GGTAGCGCAACTGGTTTGGGACCAGTGGGTCGGAGGTTCGAATCCTCTCTCGCCGACCAATTTTGAACCCCGCTT -CGGCGGGGTTTTTTGTTTTCTGTGCATTTCGTCACCCTCCCTTCGCAATAAACGCCCGTAATAACTCATTGCCCC -ACGGTATGATTTCGCCCTTAACGTATTGAAGGATGACTTCAGGCAAGGAGCGACCATGCTGCAACAGGTTCCAAC -GCGTGCTTTTCATGTGATGGCGAAACCGAGCGGTTCCGATTGTAATCTGAACTGTGACTACTGTTTTTATCTCGA -AAAACAATCCCTTTACCGCGAAAAGCCAGTCACGCATATGGACGATGACACGCTGGAAGCGTATGTCCGTCACTA -TATCGCTGCCAGCGAACCGCAAAACGAAGTGGCTTTTACCTGGCAGGGCGGCGAACCAACGCTACTCGGGCTGGC -GTTTTACCGCCGTGCCGTAGCGCTACAGGCGAAATATGGTGCTGGCAGGAAGATAAGTAACAGCTTCCAGACTAA -CGGCGTGCTGCTGGATGACGAATGGTGCGCGTTTCTCGCGGAGCATCATTTTCTTGTTGGTTTATCGCTGGATGG -CCCGCCTGAGATCCACAATCAATATCGCGTGACTAAAGGTGGCAGACCCACGCATAAGCTGGTGATGCGTGCCCT -GACGCTCCTGCAAAAACATCATGTCGACTATAACGTGCTGGTCTGCGTTAATCGCACCAGCGCGCAGCAACCGTT -GCAGGTATATGATTTTTTGTGCGATGCGGGAGTCGAATTCATCCAGTTTATTCCGGTGGTCGAGCGCCTGGCTGA -TGAAACAACTGCCCGCGATGGACTTAAGTTACATGCGCCTGGTGATATTCAGGGTGAGCTAACGGAATGGTCGGT -GCGCCCCGAGGAGTTCGGTGAGTTTCTGGTGGCGATATTCGACCACTGGATCAAACGCGACGTCGGCAAGATTTT -CGTGATGAATATCGAATGGGCGTTTGCCAATTTTGTCGGTGCGCCGGGTGCGGTTTGCCATCATCAGCCAACCTG -TGGGCGCTCGGTGATTGTTGAGCACAACGGCGACGTTTACGCCTGTGATCACTATGTTTATCCGCAATATCGGCT -GGGGAATATGCACCAGCAAACAATTGCAGAAATGATCGATTCCCCGCAACAGCAGGCGTTTGGTGAAGATAAATT -TAAGCAGTTACCGGCGCAGTGTCGCAGTTGTAACGTGTTAAAAGCGTGCTGGGGAGGCTGCCCGAAACACCGCTT -CATGCTCGATGCCAGCGGCAAACCGGGACTGAATTATTTGTGTGCCGGGTATCAGCGTTATTTCCGCCATCTACC -GCCATATCTTAAAGCAATGGCTGATTTGCTGGCGCACGGTCGCCCGGCCAGCGACATTATGCATGCGCATTTGCT -GGTGGTGAGTAAGTAGAAATCGGCGGCCGCCTGCGGTTGATTGCCGGATGCGGCGTAAACGCCTTATCCGGCCTA -CATGATCGTGCAAATTCAATAAATTGCAGCGTTCTGTAGGCTGGATAAGATGCGTCAGCATCGCATCCGGCAAAG -GCAGATCTCAGCGATAGCGCCGGCTTAGTCAGATTTAATCTGCGCGCGTGGTGGATATTTTTTCAGGATCTCCAT -ATACGCGTGCATTTCGGTCTGTAGCGGTACACCCATCGGAATATGGCGCACGCCGATGGAGTCGCTTTCCTGCGG -ATCGGTGTAGAGGTTAAACACCGACGATCCCGCCGTTTGCATTACTGTGCCGGTGAATCCACCCTGATATCCGCT -CTGGGTATAAGCGTAAGGTTGCTGAATCAGGACGTGATACTTGAACTCATCCATACGCACAGCAGCGAGTTTACC -GTTGAGGAAGTAGTGCTCGGCCTTACGGTTAGACTGACCATTTGTTCCCAGGAAGAAGGATGTCTGGTCCACACC -ATCGATAAAGGTGGTTTTCGGCACTAAATTCGCCACTTTCGCTCCAGGATGCCCTGCCAGATCCAGCGCGGTAGG -GAAGAGATCTGCCAGATCGACAATACCGTCAGATTTACGCGGTTGGATCATCCCTTTCCAGTAAACGAAAGTCGG -TACGCGAACGCCGCCTTCCCAGGTCGAACCTTTCGCACCACGGAACGGGGTGCGTCCGTGCGGCGGTACTTCGGC -TTCCGGTCCGTTATCGGAGGTAAAGACGATCAGCGTGTTATCAAGCTGACCGTTTTTCTCCAGTGTTTTATACAG -ATTAGCGAACACATCGTTCATCTCCACCATGCAGTCGCCATACGAGGTGCGTGCCGGAGAGCTACCCGCATATTT -CGCATTTGGGTAGTTATCGAAGTGGCAGCCACGAGTGCCGTAGTAGAGGAAGAATGGTTTATCGCTCTTCGCCAT -CTTGTCGAGGAACTTAACGCCATAGTCCATCCAGCGTTGATCCAGATCTTCCATATATTTCGGCGTAATGTCGGC -AATGGCCTGTTGTTCGCCGCCGCGCACCGCATGAACGTCATCTTTGCTGAACGGTAATTGCTTGATGTATTCAGA -ACGGTCCGGACTCAGGGCCACTTCCGGATTGACGTGAACGTCGCGCCATTCGGTGTACATATCAGACACCGAGTT -AAAGCCACGGAAATCATCAAAGCCAACGTTCTGCGGCTGCGACTCTTTGTTTTCCCCCATATGCCATTTTCCGAT -GGCCTGAGTGACGTAGCCCTGATCGTGCAGCAACTGCGGCAGCGTGGTTAACCCTTGCAGCCCGCCCGGTTGCCC -GTACATTGGCGGCATCAGAATGCCGTGGTGGATGGAGTATTGTCCGGTGAGAATGGTGGCGCGGGTTGGGGAAGA -GCTTGGTTGAGAATACGCCGAAGTTAAAATCAGCCCCTGGCTGGCAACGGCGTCGATATCTGGTGTAGGGTTACC -CACCGCCACGCCGCCACCGTTAAAACCGACGTCCATCCAGCCCACATCGTCCAGCAAGAAAACAACCACATTCGG -TTTCTTACCGGTTTTTTTCTCAAGTTCTGCCAGCTTCTGCTGGGTTTCTTTATCCTGCGCCGGATGCTGCATTAC -TGGCATCATATTGTCGGCAATAGTGGTCGCCGGTTTAACCAGATACTGGTTTGGGTGATCGTATCCGGCAAAGCC -TTTGCGTGCGGTGGCAGTTGACGGGGTATCTGCTGCGCTGGCCATGAGAGGAAGAGCGGCGGCGACAGCAACAAC -AAGACGTTTGGGTGAAAACGAAAATTCCATGCAAAATGCTCCGGTTTCATGTCATCAAAATGATGACGTAATTAA -GCATTGATAATTGAGATCCCTCTCCCTGACAGGATGATTACATAAATAATAGTGACAAAAATAAATTATTTATTT -ATCCAGAAAATGAATTGGAAAATCAGGAGAGCGTTTTCAATCCTACCTCTGGCGCAGTTGATATGTAAGGCAGGT -TTATTATATCGCGTTGATTATTGATGCTGTTTTTAGTTTTAACGGCAATTAATATATGTGTTATTAATTGAATGA -ATTTTATCATTCATAATAAGTATGTGTAGGATCAAGCTCAGGTTAAATATTCACTCAGGAAGTTATTACTCAGGA -AGCAAAGAGGATTACAGAATTATCTCATAACAAGTGTTAAGGGATGTTATTTCCCGATTCTCTGTGGCATAATAA -ACGAGTAGATGCTCATTCCATCTCTTATGTTCGCCTTAGTGCCTCATAAACTCCGGAATGACGCAGAGCCGTTTA -CGGTGCTTATCGTCCACTGACAGATGTCGCTTATGCCTCATCAGACACCATGGACACAACGTTGAGTGAAGCACC -CACTTGTTGTCATACAGACCTGTTTTAACGCCTGCTCCGTAATAAGAGCAGGCGTTTTTTTATGTATCAGGAAGG -CCCCGGAGGTGCTTGCCTCCGGGTGAGAAGGAACTACTGTGGCGGGTTATTCTGCAACGTTAACATCAAACCGTC -GCGACGCATAGCTGCAGCTTCTTCCGGCTTGTGCAGTCTGTCCAGCGCGTCGGCAAGCCATGCGTAATCGTAGGC -GTCCGGACGTTGTTTCAGCGCTGCGCGGAAGGCGAGCGATGCTTCCTGCCATTCTCCGTGCTTCATCAGTGACTG -GCCCAGTGTGCTCCACAACAGCGGGCGATCGCCGACGTTTTTGATTTGCTGGCGCAGCACTTTTTCCAGCTGTTC -CGGATTGTTTGTTTTCAGTCGAGGAATCGGCAGCAGTAGGCGATCGTCGTACTGGCGTTTCAGGCCATCGATGAT -AATTTGCTGGGCAGTATCATGATCGTCACATTCAATAAGATGTTCCGCCATTGCCACCTGCAACGCTACCTGATG -ACGCGTTTTCCGGCTTTGGTTTTTCCACCAGTTACGCAAACCTTCGCTACCGTTATCGGCACGCGCCTGATCCAT -CAGGCCAATCCATGCCTGTTGTTCCAGCATTGCACGATGTTCTTCATCACCAACATGGGCTTTCGCCATTGATGG -GATAATATCCAGCAGCGAACTCCATGCACCTGTGCGGATATACGCCTGTTCCGCCAGACGTAATACTTCCGGATG -GCGTGGCGTAACTTCCAGCAGCTTATCCACGCCGTGGCGTGCAGCATGGTTTTCATTACGGGCCAGTTGCAGACG -TACGCGGGTGATTTCTACCGGAATGGTGTCGTTGCCGGCCAGCTCCGCTGCGCGTTCCAGATGTTGGTTGGCGCG -TGCTTCATCACCACGTTGTTGCGCGGCTTCGGCAGCCAGTAGATAGTTCACCACCGGTTGTTCCGCGTGATCGGC -ATTTTTCGCCATCAGCTTTTCAACTTGCTGATAATCGCCTTCCGCCAGTTTCAGCAGCGCCTGTTCGGTCTGCTT -ACGTGCACGGCGACGCTTACGTCCGACAAACCACCCACGGGTGTGCGCGCCAGTGCGGAAGATCCGCCGCAGTAG -CCACTCAATGGCAAACAGCACTACCATCGCCAGAATCAATATGATCGCCAGGCCCGTGACGCTGGTTTCGATATT -GTAGTTGTCGGTCTGGATCAGCACATAACCCTGATGGCCGGCAATCATCGGGCCAACCACGATCCCCGCAATCAG -CAACACAAAGAGCAATAACACTTTTAGCATGGTTATTCTCCTTGCGGCGCGGCTGCCGGAGTATCAGCTTGCGGT -GCAGGTGCAGGTTTAGCTTCCGTTGTCCCCGCTGCCGGTTGTGCCAGCAGGTTACGCACGCGAGTCTGCATCAGT -TTTTCCAGCATCGCCTGGCTTTGCAGGGTTTCCGGAAGATCCATCGAGATATTTTGCTGGCTTAACTGGTCCACC -TCGTCGAGGAACGCTTTGGTGGTGGCATCATCAGTATCGTAGTAAGCACGTACCCAGGTGGAGACGTTCTCCAGC -GCCTGGCGATAAGTCTCTTCCTGGTGACGCGGTACAGCTTGTGCTGCGACCAGCAGGCGAGAGCGAATATTTTCG -CGCAGATAGATATCCTGATTTGGCGCTAACAGCGGTACGGCGGTGTCATCACGACGGCGAATCGTAATGAAGTTG -TCCATAAAGTTCTGCCAGCTTTTTTGCAGATTGATACGCCATTCGCTGATGGAACTGGAAAGCTCTTCACCGTCT -GAATCCATCGGCGAACCATCGCTGTCATTATCGGCCAGACGCAGGTTATCTACCTGATTTGAAAGCTGATTAAGC -TTAAGGATGATGCCGTCATAATCCACCTGCGATACTGCAGAAAGGCTGGCGATATCATCGGTAATTGCCCGACGA -ACGGTAATCAGACTCGGGTCATTCATATCCGCCAGGCTGGCGTCTGCACTTTTCAGCAACGCTGCAGCGGTCGTG -ACGTCCTGATCGCTCCACAGCTTCCGTCCGGCGAGTTTCACCAGAAAATCGGCCTGAGCCAGCAGCCAGGTTTTA -GCATCGCTGCCGGAAATGGTGGCGACCTTTTGTTGGACTTCATCCAACTGTTTTGCCAGCGTTTCTTGCTGACGA -TTCGCCTGCTTAAGTTGTGCAGCTTGTTGCTTAATAATGCCTTCCAGCTCGGCTTTTTGGCTCTCCTGGGCTTTT -TGCAATGCCGTCAGTTGGTTAGCCAGGGCATCGCTGGTGGCGGTCTGATTGACGGCCTGTTGTTTACCCCAGCCA -TACAAACCGATGCCCGCCGCCAGAGCAATAGCGATAGCCACCGCGCTGAGAATCAATGCGGTATTGTTCTTACTC -TTTTTTTCTGTTGCGACAGGTTGTGACGTGGTGTCCACGGCCTCCCTGGTCTCTTCAACCACGGCGGAGGTTTTT -TCTTGTTCCGTCATTATGGCTTCCTGTTATGAGAGTTATTGTAATGCCCGTAAAAGCGCATCGTTGTCAGCGTTA -TCGGCGACCTTAATGTCTTGCCAGCCCAGTTCCCGGGCGAGTTTCGCCAAACGCTCACTGACGACCAATAGTCGA -CAGTGTAGTAACCAGTGCTCACGATACCATTGTGGGATCAGCGACCAGAGTTGCTGCAACATTTCACCGCTGGTA -ACAACGACCATCGTCACCTCGCGGGCTTGCCAGCGCATCGCTTCTTCTGCACCATCGTAATGGATTGCGCATCGT -TGATAACATTCACAAAAAGTGACCTCAGCACCGCGCGCCGTCAGGGTATCCCCAATTAGCTCACGACCACCATTG -CCACGTAATATCAGCGCACGTTTGCCCGCAATATTTTGTAATTCAGGTAATTGTAGCAAGACTTCGCTGATTTCC -CGATCCTGCGGGTAGAGAATCTTCTGTCCACTTACGGTATGTAGTGCCAGTGCGGTGGTGCGTCCAATGGCGAAA -TAATCAGGTAGTCGGGGCCATTTACGATCTTGCTGATGCAGCTGTGATTGGGCAAAAGCAACCGCGTGTTGCGAG -AGGGCAAACAACAGATCGCTCTCCCCCAGCGCTGCCAGTTGATCAGCAAGTTGCGGTAATTGTTGACCCGGAGAA -AACTCAATCAGCGGAAAATGCCAGGCCACCTGCCCCAGTGTGCGCAGACGGCTCACTAACTCTTCTCCAGCGGGA -GACGGGCGGGTGACAAGGATACTCATGCCGGGGCGTCTCCGTTATAGACTTCAGCGAGGATCTCGCGCGCGCCGT -TATTCAGTAGCTCTTCTGCCAGCGAAATCCCCATTTGTTCGGCATCTTGCGGCGCACCGCGGCGTTCACCGCGAA -TAATCTGCGAACCGTCCGGCGCGCCGACCAGCGCACGCAGCCAGATTTCGCCATCAATAAGCTCGGCGTAGCTAC -CAATTGGCACCTGACATCCGCCTTCGAGACGGGTATTCATGGCGCGTTCTGCGGTAACGCGCAGTGCAGTTTCGT -GGTGATTCAGCGCGGCAAGCAGCTCGCGAGTGCGTGAATCATCAAGGCGGCATTCAATACCCACCGCACCTTGTC -CTACCGCCGGAAGAGAAATCTCGGGTGGCAACGCGGCGCGAATACGTGACTCCAGACCTAAACGTTTTAGTCCGG -CTACGGCAAGAATGATGGCATCGTATTCGCCGTTATCCAGTTTGCTCAGGCGAGTGCCGACGTTGCCGCGCAGGG -AGCGGATAATCAGATCCGGACGGCGTTCAGCCAGTTGGCACTGGCGACGTAAACTGGACGTCCCGACGATACTGC -CTGCCGGTAACGCATCCAGACTGTCATAGTTATTGGACACAAAGGCATCGCGAGGATCTTCACGCTCACAAATAG -TGACCAGTCCCAGACCTTGCGGGAATTCAACCGGCACATCTTTCATTGAGTGTACGGCGATATCGGCGCGATTTT -CGAGGAGCGCGACTTCCAGCTCTTTTACAAATAAGCCTTTTCCGCCTACTTTCGCCAGCGGCGTATCAAGAATCA -CATCGCCGCGCGTCACCATCGGTACCAGTTCAACGACCAGGCCCGGATGGCTCGCCATCAACTTGTCTTTGACAT -AGTGTGCCTGCCAGAGTGCAAGTGGGCTTTGGCGTGTGGCAATTCTTAAAACATTGTCTAACATGCTTGTTACCG -TCATTATCATCCGTGGTCCATCCTAACATCCTTGCCAGAGTGATGTCAGTGTTGTGGTGAAACGTAGACGCCTGC -GCAAACCGTAAAATGAGGTCTGGCAGTGGATCCTGACAGGCGTTTCACGCCGTTGTAATAAGGAATTTACAGAGA -ATAAACGGTGCTACACTTGTATGTAGCGCATCTTTCTTTACGGTCAATCAGCAAGGTGTTAAATTGATCACGTTT -TAGACCATTTTTTCGTCGTGAAACTAAAAAAACCAGGCGCGAAAAGTGGTAACGGTTACCTTTGACATACGAAAT -ATCCCGAATGCCGCGTGTTACCGTTGATGTTGGCGGAATCACAGTCATGACGGGTAGCAAATCAGGCGATACGTC -TTGTACCTCTATATTGAGACTCTGAAACAGAGACTGGATGCCATAAATCAATTGCGTGTGGATCGCGCGCTTGCT -GCTATGGGGCCTGCATTCCAACAGGTCTACAGTCTACTGCCGACATTGTTGCACTATCACCATCCGCTAATGCCG -GGTTACCTTGATGGTAACGTTCCCAAAGGCATTTGCCTTTACACGCCTGATGAAACTCAACGCCACTACCTGAAC -GAGCTTGAACTGTATCGTGGAATGTCAGTACAGGATCCGCCGAAAGGTGAGCTTCCAATTACTGGTGTATACACC -ATGGGCAGCACCTCGTCCGTAGGGCAAAGTTGTTCCTCTGACCTGGATATCTGGGTCTGTCATCAATCCTGGCTC -GATAGCGAAGAGCGCCAATTGCTACAACGTAAATGTAGCCTGCTGGAAAACTGGGCCGCCTCGCTGGGTGTGGAA -GTCAGCTTCTTCCTGATTGATGAAAACCGCTTCCGTCATAATGAAAGCGGCAGCCTGGGGGGCGAAGATTGTGGC -TCCACCCAGCATATACTGCTGCTTGACGAATTTTATCGTACCGCCGTGCGTCTCGCCGGTAAGCGTATTCTGTGG -AATATGGTGCCGTGCGACGAAGAAGAGCATTACGACGACTATGTGATGACGCTTTACGCGCAGGGCGTGCTGACG -CCAAATGAATGGCTGGATCTCGGTGGCTTAAGCTCGCTTTCTGCTGAAGAGTACTTTGGTGCCAGCCTTTGGCAG -CTCTACAAGAGTATCGATTCCCCATACAAAGCGGTACTGAAAACACTGCTGCTGGAAGCCTATTCCTGGGAATAC -CCGAACCCACGTCTGCTGGCGAAAGATATCAAACAGCGTTTGCACGACGGCGAGATTGTATCGTTTGGTCTCGAT -CCATACTGCATGATGCTGGAGCGTGTTACTGAATACCTGACGGCGATTGAAGATTTTACCCGTCTGGATTTAGTA -CGTCGCTGCTTCTATTTAAAAGTGTGCGAAAAGCTCAGCCGTGAACGCGCCTGCGTAGGCTGGCGTCGCGCAGTG -TTGAGCCAGTTAGTGAGCGAGTGGGGTTGGGACGAAGCTCGTCTGGCAATGCTCGATAACCGCGCTAACTGGAAG -ATTGATCAGGTGCGTGAGGCGCACAACGAGTTGCTCGACGCGATGATGCAGAGCTACCGTAATCTGATCCGCTTT -GCGCGTCGCAATAACCTTAGCGTCTCCGCCAGTCCGCAGGATATCGGCGTGCTGACGCGTAAGCTGTATGCCGCG -TTTGAAGCATTACCAGGTAAAGTGACGCTGGTAAACCCGCAGATTTCACCCGATCTCTCGGAACCGAATCTGACC -TTTATTTATGTGCCGCCGGGCCGGGCTAACCGTTCAGGTTGGTATCTGTATAACCGCGCGCCAAATATTGAGTCG -ATCATCAGCCATCAGCCGCTGGAATATAACCGTTACCTGAATAAACTGGTGGCGTGGGCATGGTTTAACGGCCTG -CTGACCTCGCGCACCCGTTTGTATATTAAAGGTAACGGCATTGTCGATTTGCCTAAGTTGCAGGAGATGGTCGCC -GACGTGTCGCACCATTTCCCGCTGCGCTTACCTGCACCGACACCGAAGGCGCTCTACAGCCCGTGTGAGATCCGC -CATCTGGCGATTATCGTTAACCTGGAATATGACCCGACAGCGGCGTTCCGCAATCAGGTGGTGCATTTCGATTTC -CGTAAGCTGGATGTCTTCAGCTTTGGCGAGAATCAAAATTGCCTGGTAGGTAGCGTTGACCTGCTGTACCGCAAC -TCGTGGAACGAAGTGCGTACGCTGCACTTCAACGGCGAGCAATCGATGATCGAAGCCCTGAAAACTATTCTCGGC -AAAATGCATCAGGACGCCGCACCGCCAGATAGCGTGGAAGTCTTCTGTTATAGCCAGCATCTGCGCGGCTTAATT -CGTACTCGCGTGCAGCAACTGGTTTCTGAGTGTATTGAATTGCGTCTTTCCAGCACCCGCCAGGAAACCGGGCGT -TTCAAGGCGCTGCGCGTTTCTGGTCAAACCTGGGGGTTGTTCTTCGAACGCCTGAATGTATCGGTACAGAAACTG -GAAAACGCCATCGAGTTTTATGGCGCGATTTCGCATAACAAACTGCACGGCCTGTCAGTGCAGGTTGAAACCAAT -CACGTCAAATTACCGGCGGTGGTGGACGGCTTTGCCAGCGAAGGGATCATCCAGTTCTTTTTCGAAGAAACGCAA -GACGAGAATGGCTTTAATATCTACATTCTCGACGAAAGCAACCGGGTTGAGGTATATCACCACTGCGAAGGCAGC -AAAGAGGAGCTGGTACGTGACGTCAGTCGCTTCTACTCGTCATCGCATGACCGTTTTACCTACGGCTCAAGCTTC -ATCAACTTCAACCTGCCGCAGTTCTATCAGATTGTGAAGGTTGATGGTCGTGAACAGGTGATTCCGTTCCGCACA -AAATCTATCGGTAACATGCCGCCTGCCAATCAGGATCACGATACGCCGCTATTACAGCAATATTTTTCGTGATGA -ACGTGCCGGAAAGCGAGGCTTATCCGGCATGCAATCTTAGCGGAAACTGACTGTTTCACCCGCCTGCTGCGTCGC -CGCCTGTTCCAGCAAATCCCAGAAGGTTTCGCCGCTGCGATCACAAATCCACTCATCGCCTTTCAGGTCAAAATG -GTAGCCGCCCTGTTTGGTTGCCAGCCATACCTGGTGCAGCGGCTCCTGGCGGTTGATAATGATTTTGCTGCCATT -CTCAAAGGTAATGGTCAGTACGCCGCCGTTGATTTCGCAGTCGATATCGCTGTCGCCATCCCAGTCGTCCAGGCG -TTCTTCAATGGTCAGCCAGAGTTGATCAGCCAGGCGATGAAATTCACTGTCGTTCATTGTTGTATCCTGTTTTTA -AGTGATGGCGGCAGTATAGCGGCATGGGGTCAGGGCTTCAAAGTTTGCACCTCTGCGGCTGCGTTCCGGCACGAT -TCATCCGTCACCGGAATAATGATGTCTCTGTGTAGCGAAAGATTTGTCTCTTCATTAGGGCGCAGTTACACCACG -TCTTTCCCTGTTTCTGGTAAACATTATGATCAGGTTTACCGAGCGAGCATCCTCACGCTGACGGAACTAAAAAAG -ACAACAAACAAACCACATTGCGATAGTGCATAAAGCCATCCTGGCGCGAGGTGCCGATCACGAAACTACCAGCAA -AACATAAATCCCCACGAGTAAGCGTTATACTCGCAGCATTTCCTCACTTTTCAGACTTCATAAAGAGTCGCTAAA -CGCTTGCTTTTACGTCTTCTCCTGCGATGATAGAAAGCAGAAAGCGATGAACTTTACAGGCAATCCATAATGAAA -AACGTGTTTAAGGCACTCACTGTATTACTTACTCTCTTCAGCCTGACGGGCTGCGGTCTGAAAGGTCCGCTCTAT -TTCCCGCCTGCAGATAAAAACGCACCGCCGCCGACCAAACCGGTAGAGACGCAAACGCAATCCACGGTGCCGGAT -AAAAACGATCGCGCCACTGGCGATGGTCCATCCCAGGTGAATTACTAAAAGTCAGTTTCTGTACCCGCGTGATTG -GAGTAAATGATGCAGTTCTCGAAAATGCATGGCCTTGGCAACGATTTTATGGTCGTCGACGCGGTAACGCAGAAT -GTCTTTTTTTCACCGGAGCTGATTCGTCGCCTGGCTGATCGGCACCTGGGGGTAGGGTTTGACCAACTGCTGGTG -GTTGAGCCGCCGTATGATCCTGAACTGGATTTTCACTATCGCATTTTCAATGCTGATGGCAGTGAAGTGGCGCAG -TGCGGCAACGGTGCGCGCTGCTTTGCCCGTTTTGTGCGTCTGAAAGGACTGACCAATAAGCGTGATATCCGCGTC -AGCACCGCCAACGGGCGGATGGTTCTGACCGTCACCGATGATGATCTGGTCCGCGTAAATATGGGCGAACCCAAC -TTCGAACCTTCCGCCGTGCCGTTTCGCGCTAACAAAGCGGAAAAGACCTATATTATGCGCGCCGCCGAGCAGACA -ATCTTATGCGGCGTGGTGTCGATGGGAAATCCGCATTGCGTGATTCAGGTCGATGATGTCGATACCGCGGCGGTA -GAAACGCTTGGTCCTGTTCTGGAAAGCCACGAGCGTTTTCCGGAGCGCGCCAATATCGGTTTTATGCAAGTGGTT -AAGCGCGAGCATATTCGTTTACGCGTTTATGAGCGTGGGGCAGGAGAAACCCAGGCCTGCGGCAGCGGCGCGTGT -GCGGCGGTTGCAGTAGGGATTCAGCAAGGTTTGCTGGCCGAAGAAGTACGCGTGGAACTCCCCGGCGGTCGTCTT -GATATCGCCTGGAAAGGTCCGGGTCACCCGTTATATATGACTGGCCCGGCGGTACATGTCTACGACGGATTTATT -CATCTATGAAGCAACCAGGGGAAGAACTGCAGGAAACACTCACGGAGCTTGATGACCGGGCGGTTGTCGATTATC -TGATTAAAAATCCTGAGTTTTTTATCCGTAATGCGCGCGCAGTAGAAGCGATACGTGTGCCGCATCCGGTACGCG -GCACCGTTTCGTTGGTCGAGTGGCACATGGCCCGCGCACGTAATCATATTCATGTTCTGGAAGAGAACATGGCGC -TGTTGATGGAACAGGCTATCGCCAACGAAGGCCTGTTTTATCGCCTACTCTACCTGCAGCGCAGTCTCACCGCCG -CCAGCAGTCTCGACGATATGCTGATGCGCTTTCACCGCTGGGCGCGCGATCTCGGCCTGGCAGGTGCGAGTCTGC -GCCTGTTTCCGGATCGCTGGCGCTTAGGTGCGCCGTCGAACCACACTCATCTGGCATTAAGCCGTCAGTCTTTCG -AACCGCTGCGTATTCAGCGTTTGGGGCAGGAACAGCACTATCTTGGGCCGCTTAACGGACCAGAGCTGCTGGTGG -TGCTACCGGAAGCGAAAGCGGTGGGATCGGTGGCGATGTCGATGCTGGGAAGCGATGCTGATTTGGGTGTCGTGC -TGTTTACCAGTCGCGATGCCAGTCACTATCAACAAGGGCAAGGAACGCAGTTACTTCATGAAATTGCGCTGATGT -TGCCGGAGCTTCTGGAGCGTTGGATTGAACGCGTATGACCGATTTACACACCGATGTAGAACGCTACCTACGTTA -TCTGAGCGTGGAGCGCCAGCTTAGCCCGATAACCCTGCTTAACTACCAGCGTCAGCTTGAGGCGATCATCAATTT -TGCCAGCGAAAACGGCCTGCAAAGCTGGCAGCAATGTGATGTGACGATGGTGCGCAATTTTGCTGTACGCAGTCG -CCGTAAAGGGCTGGGAGCAGCAAGTCTGGCGTTACGGCTTTCTGCGCTACGTAGCTTTTTTGACTGGCTGGTCAG -CCAGAACGAACTCAAAGCTAACCCGGCGAAAGGTGTTTCGGCACCGAAAGCGCCGCGTCATCTGCCGAAAAACAT -CGACGTCGACGATATGAATCGGCTGCTGGATATTGATATCAATGATCCCCTCGCTGTACGCGACCGTGCAATGCT -GGAAGTGATGTACGGCGCGGGTCTGCGTCTTTCTGAGCTGGTGGGGCTGGATATTAAACACCTCGACCTGGAGTC -TGGTGAAGTGTGGGTTATGGGGAAAGGCAGCAAAGAGCGCCGCCTGCCGATTGGTCGCAACGCTGTGGCGTGGAT -TGAGCACTGGCTTGATTTGCGCGACCTGTTTGGTAGCGAAGACGACGCGCTTTTTCTGTCGAAACTGGGCAAGCG -TATCTCCGCGCGTAATGTGCAGAAACGCTTTGCCGAATGGGGCATAAAACAAGGGCTGAATAATCACGTTCATCC -GCATAAATTACGTCACTCGTTCGCCACGCATATGCTGGAGTCGAGCGGCGATCTTCGTGGTGTGCAGGAGCTGCT -GGGTCATGCCAACCTCTCCACCACGCAAATCTATACTCATCTTGATTTTCAACACCTTGCCTCGGTGTACGATGC -GGCGCATCCACGCGCCAAACGGGGGAAATAATGCGTTTTTACCGGCCTTTGGGGCGCATCTCGGCGCTCACCTTT -GACCTGGATGATACCCTTTACGATAACCGTCCGGTGATTTTGCGCACCGAGCGAGAGGCGCTTACCTTTGTGCAA -AATTATCATCCGGCGCTGCGCAGCTTCCAGAATGAAGATCTGCAACGCCTGCGCCAGGCGGTACGGGAAGCGGAA -CCCGAGATTTATCACGACGTGACGCGCTGGCGTTTTCGTTCGATTGAACAAGCGATGCTCGACGCCGGGCTGAGT -GCCGAAGAAGCCAGTGCAGGCGCACACGCAGCAATGATCAACTTTGCCAAATGGCGCAGCCGAATCGACGTCCCG -CAGCAAACTCACGACACCTTAAAACAGCTGGCGAAGAAATGGCCGCTGGTGGCGATCACCAACGGTAACGCCCAG -CCGGAGCTGTTTGGTTTGGGGGATTATTTTGAGTTTGTGCTGCGCGCTGGCCCGCACGGGCGCTCAAAACCGTTC -AGCGATATGTACTTTTTGGCTGCGGAAAAACTCAACGTGCCGATCGGCGAGATCTTACATGTTGGGGACGATCTC -ACCACTGACGTGGGTGGGGCAATTCGCAGCGGAATGCAGGCTTGTTGGATCAGACCGGAAAATGGCGATCTGATG -CAAACCTGGGACAGCCGTTTACTGCCGCATCTGGAAATTTCCCGGTTGGCATCTCTGACCTCGCTGATATAATCA -GCAAATCTGTATATATACCCAGCTTTTTGGCGGAGGGCGTTGCGCTTCTCCGCCCAACCTATTTTTACGCGGCGG -TGCCAATGGACGTTTCTTACCTGCTCGACAGCCTTAATGACAAACAGCGCGAAGCGGTGGCCGCGCCACGCAGCA -ACCTTCTGGTGCTGGCGGGCGCGGGCAGTGGTAAGACGCGCGTACTGGTGCATCGTATCGCCTGGTTGATGAGCG -TGGAAAACTGCTCGCCATACTCGATTATGGCGGTGACGTTTACCAACAAAGCGGCGGCGGAGATGCGTCATCGTA -TCGGGCAACTGATGGGCACGAGCCAGGGCGGTATGTGGGTCGGCACCTTCCACGGGCTGGCGCACCGTTTGCTGC -GTGCGCACCATATGGACGCCAATCTGCCGCAGGATTTCCAGATCCTCGACAGTGAAGACCAGCTACGCCTGCTTA -AGCGTCTGATCAAAGCCATGAACCTCGACGAGAAGCAGTGGCCGCCGCGGCAGGCAATGTGGTACATCAACAGCC -AGAAAGATGAAGGCCTGCGTCCGCATCATATTCAAAGCTACGGTAATCCGGTGGAGCAGACCTGGCAGAAGGTGT -ATCAGGCGTATCAGGAAGCGTGTGACCGCGCGGGCCTGGTGGACTTCGCCGAGCTGCTGCTGCGCGCTCACGAGT -TGTGGCTTAACAAGCCGCATATCCTGCAACACTACCGCGAACGTTTTACCAATATCCTGGTGGACGAATTCCAGG -ATACCAACAACATTCAGTACGCGTGGATCCGCCTGCTGGCGGGCGACACCGGCAAAGTGATGATCGTCGGTGATG -ACGACCAGTCAATCTACGGCTGGCGCGGGGCGCAGGTGGAGAATATTCAGCGTTTCCTTAATGATTTCCCCGGTG -CCGAAACTATTCGTCTGGAGCAAAACTACCGCTCTACCAGCAATATTCTGAGCGCCGCTAACGCCCTGATTGAAA -ACAATAACGGGCGTCTGGGTAAAAAACTGTGGACCGATGGCGCGGACGGTGAGCCTATTTCCCTCTATTGCGCTT -TTAACGAACTCGATGAAGCGCGTTTTGTGGTTAACCGCATCAAAACCTGGCAGGACAACGGCGGAGCGCTTGCCG -AGTGCGCCATTCTCTACCGCAGCAACGCCCAGTCGCGGGTGCTCGAAGAGGCGTTATTGCAGGCCAGTATGCCGT -ACCGTATTTACGGCGGGATGCGCTTCTTCGAACGCCAGGAAATCAAAGATGCGCTCTCGTATCTGCGCCTGATTG -CCAACCGCAACGACGACGCGGCCTTTGAGCGTGTGGTGAATACGCCAACGCGGGGTATTGGTGACCGGACGCTGG -ACGTGGTACGTCAGACATCGCGCGATCGCCAGTTAACACTCTGGCAGGCATGTCGTGAGCTGTTGCAGGAAAAAG -CCCTCGCCGGGCGAGCTGCCAGCGCCTTGCAGCGATTTATGGAATTAATCGACGCCTTAGCGCAGGAAACTGCCG -ATATGCCGCTGCATGTACAGACTGACCGGGTAATTAAAGACTCCGGCCTGCGTACCATGTATGAGCAGGAGAAGG -GCGAAAAAGGTCAGACGCGTATCGAAAACTTAGAGGAACTGGTGACGGCAACGCGCCAGTTCAGCTACAACGAAG -AAGACGAAGATTTAATGCCGCTGCAGGCGTTCCTCTCCCATGCGGCACTGGAAGCAGGTGAAGGGCAGGCGGATA -CCTGGCAGGATGCGGTGCAGTTGATGACGCTACACTCGGCGAAAGGCCTGGAGTTCCCGCAGGTGTTTATCGTTG -GTATGGAAGAGGGCATGTTCCCAAGCCAGATGTCGCTGGATGAAGGCGGGCGTCTGGAAGAAGAACGCCGTCTGG -CCTACGTTGGCGTAACCCGCGCGATGCAGAAACTGACGCTGACCTACGCGGAAACCCGCCGTCTGTATGGTAAAG -AGGTTTACCATCGCCCGTCGCGCTTTATCGGCGAGCTGCCGGAAGAGTGTGTGGAAGAGGTGCGCCTGCGCGCCA -CGGTAAGCCGCCCGGTCAGCCATCAGCGGATGGGTACGCCGATGGTCGAGAACGACAGCGGCTACAAGCTCGGCC -AGCGCGTACGCCACGCTAAGTTTGGTGAAGGCACCATTGTCAATATGGAAGGCAGCGGTGAGCATAGCCGTTTGC -AGGTGGCATTTCAGGGCCAGGGTATTAAATGGCTGGTGGCGGCATACGCCCGGCTGGAGTCGGTGTAACGTTGCC -GGATGCGGTGCTGCGCACCTTATTTGGCCTAAAAAATCATTCAGATTCAATAAATTGCAACGTCATGTAGGCCGG -ATAGGGCGTTTACGCCGCATCCGGCATCTGCGCCATCTTCAGTATCTGACACAAAACTATCGTTTTAACCTTTCC -GCTCGACGGAAATCATGGTGACAAAAGGATAGCGTTGCCACGGGATTGCCCCGCCTTTCATATACATATGTGAAA -TCGTGCCATCAAGATAAAGCAGCTGCTCAACGTTCAGTTTCGCTTTGGCATAACAGGCAAAATCATAAAAATTTG -TTGCCTGCTGGCTCAACAAAAACACGGCGTTCCCATGTTTATTAATCCCAACACCGTTACGAATTTTGCTTGAGG -CGACGTTGGGATGAATACGCGGATTAATTACACCGTTTTCCATCAACATTGGCCCTGACTGCACCGCAAACTGAA -TCTCTTTACTGGTTTTGAAGGCATCCAGACGAACGATGCCGACTTTATCTCCCGCGACATAAAACACGCCGCCAG -GACGGATAAAGAAATTCCCTTCACCTGAAGCGAGATTTAACGCCACCTTCTGCTGACCGTTTTCGATGTACAAAC -CGAGCGGCGCATAGCTTTCATCATAGATGCCGCCGTTCATCGCCATCTGCACCTGACCCTGACTATTAATATCCG -CCAGCAGAGCATGTAACGTTCCCCACGCTTCGCCATTGGCTTTTTGCCAGTACATTTTCACCCGCTCTGTTTGAG -GATTAACGGTATACGCCTGTACGGTCAGCGTCGGATCTGAGAGTGCGCAATCATCAGCGGCAACAGCAAACAAGG -GAAGTAAGGTGAGGGCGAGAAAAATCCGTTTGAGATTCAAGGTGATCATTCCTTTACCAATGAGTAGCTGATGCG -CCATTATAGGTCCTGGATGTGGGATTTTTTTATCCTGTTAGCGACCTTGACGAGTACCAAAAAGCGCGAAGTTCA -ACTATTGTTCTGTGGTGTTCTGTTGCGTGTTGACGGCAAAATTTTGCTGGCGTAACATGCGCGCACGATCACTCT -AAGAGGACATTCGCCTTGGACACACCCAGTAGATACTGGCTCACTATCCTGTCATCCAGGATCAACTCCTAAGGC -TATCCCTTTTTGCTGATAGCCTTAGCGGTTGTCAGCGACCTCAATTTTTCCCGTCGCGCTGAGTCAGGCTGTTTA -ATGGTCTGAAACCCAATTTGTTTCTGTGTGCCCACCGAACTGTCCGATATTTTAAGCATTGGGAGTCCCGGTCAT -GCTGAGCGCATTTCAACTGGAAAATAACCGACTGACCCGGCTGGAAGTCGAAGAGTCACAACCCCTTGTAAATGC -AGTATGGATTGATCTTGTCGAACCGGACGACGACGAGCGACTGCGCGTACAATCTGAACTTGGCCAGAGCCTGGC -AACCCGCCCGGAACTGGAAGACATCGAAGCATCGGCACGTTTCTTTGAAGACGACGACGGCCTGCATATTCACTC -CTTCTTCTTCTTTGAAGATGCGGAAGATCACGCCGGTAACTCCACTGTGGCATTTACCATCCGTGATGGTCGTCT -GTTTACTCTGCGTGAGCGTGAACTGCCCGCTTTTCGTCTGTATCGTATGCGTGCCCGTAGCCAGTCGATGGTAGA -CGGTAACGCCTACGAGTTGCTGCTGGATCTGTTCGAAACCAAAATCGAACAGTTGGCAGATGAAATTGAAAATAT -CTATAGCGACCTGGAGCAGTTGAGCCGGGTGATTATGGAAGGGCATCAGGGCGATGAGTACGACGAGGCGCTCTC -CACTCTGGCGGAACTGGAAGATATCGGCTGGAAAGTTCGCCTGTGTCTGATGGATACCCAGCGCGCGCTCAACTT -CCTGGTGCGTAAAGCGCGTTTACCGGGTGGGCAACTGGAGCAGGCGCGTGAAATCCTGCGAGATATCGAATCCCT -GCTGCCGCATAACGAATCCCTGTTCCAGAAGGTGAACTTCCTGATGCAGGCGGCAATGGGTTTTATCAACATCGA -GCAGAACCGCATCATCAAAATCTTCTCGGTGGTATCCGTGGTATTCCTGCCGCCGACGCTCGTTGCTTCCAGCTA -TGGCATGAACTTTGAGTTTATGCCAGAACTGAAGTGGAGCTTCGGCTACCCTGGCGCGATTATCTTTATGATCCT -CGCGGGCCTGGCACCGTATCTGTACTTTAAGCGGAAGAACTGGTTGTAAAAAACGAGAGCGGTGGCTTAGTCTGG -CTAAGCCACCTGTTATTCAAAGGCTCCAGGTATTTAACCCTTTTACCTCTTTCTCATAGAACCATTTGTTCGTGT -TAACAGCAACATAGGCTGCTACGGCAATTCCCAGAATGTTAACGCCAATTAGTGCACCAACAAATAGAGATAGAA -TACCAAGTAATAGAACTATAATTGCTTTTTTCCATAACCCCAGGACAAATAAATATATCCAGGAACAGAAGAAAG -CAATGAAATTCATTTGAATAGTTAAGCGTTGTCTTACTTTTAATGCTTTAAATGCTGCTTTATATTCTGGTGTTG -CCCCCCAGAATCCAGGAAAACCATGTTGATCATAAAAATTAAATCGGTATTTCCATTTTTCACTTAATGAACCAT -CGTTCATATATTCCTTACTCATAAATACTCCATAACTATTGTTTTGATGAATCAGTAGGTGCAAGCATTAGCATA -CTGAAAGTGGAAAAATAACAAATCAAAAAAATCATCGAACCATTGCCTGAACAGGCAAAATCTTCGGCTATCATT -GTGATGATAGAGATGATATATACTGCTAATGTACCAAAAACATAAGTTTTTATATAGATGAAACCACTATCACGG -AGTCGCTGGCAATTCATGTTGATGACGAGATAATGGAGTACGATGGTAGAGACTATAACAAGAAAGCCTGCTTCT -CCATCGTTAAAAAAGATAATAAGAAAGGCAAAAATGAAATTTATTAAAATAAATGAAAATATATAACGACGTCTG -GAAATCTTACCGTTAGATGTTGGGATAAATATACGTAACATAAATTTTACATCCTTGTATGAGTCTCCGGTCAGC -ATGGCAATATGCCCACTCTCATGCAAGAGTCGGCATATTTTTTCAGAATATATTTATTTTTTATTTGGACGTTCT -ACGCTGCGTATAAATCGCATCCATCACAAAAATTGCCAGCGCCACCCAAATAAAGGCGAAAGTCACCATCTTATC -GGCACCCGGTTTTTCACCATAAAACGTCACAGCCAGCAGGAACATCAGCGTCGGGCCAATGTACTGGAAAAAGCC -TAACGTTGAGAGACGCAAGCGCGTGGCAGCGGCGGTAAAACACAACAGCGGTACGGTAGTGACAATACCGGCGGC -GATCAGCAGTAAATTCAGCGACATCGGGTTTTGCCCCATATGGCTGGTTGAGCTGTCGGCAATAGCAAACAGGTA -AATTGCCGCCACGGGCAGCAGCCACATGGTTTCGATTAACATGCCGGTTTGCGCTTCAACGGCAATCTTCTTGCG -TACCAGACCGTAGAAGGCAAAACTAAATGCCAGTCCCAGCGCGATAATAGGTAGCGAACCAAAAGTCCACAGCTG -GACTAACACGCCACATATCGCCAGAATCACCGCCAGCCATTGCATCCGGCGGAATCGCTCGCCGAGGAAAATCAT -CCCCAGCACAATGTTCACCAGCGGGTTAATAAAGTAACCAAGGCTCGCTTCCAGCATATGGTGATTGTTCACCGC -CCAGATAAACAGTAGCCAGTTGCCACCAATCAGCACGGCAGAGACTGCCAGCATAAAAATTTTCTGTGGCGTCTG -AATCAGCGTTTTTAAATAGGACCACTGGCGGCAAATGCTCATCAGCACCACCATAAAGAAAAACGACCAGATCAC -GCGATGCGTCAGGATTTCATCGGCGGGCACGTAGTAAATCAACTTGAAGTACGCTGGCGCTATACCCCAAATAAA -ATAAGCGGCAAGAGCGAGTAATACGCCCTGCCGCGTTTGTTTTGCATCCATCGGGAATACTCATTTTTAATTGGT -AACAGCAGTTTACCTGCTTTTATGTCTTCAACCTACCATATAGGTGGCGGTGGCACTGGCAATATAAAGCTGTTC -TTCATTGTGTAATTCAACGCGGGCGACGGCGACTTTATTGCCTGCACGCAACAGGCTACTAGTAGCAGTAAAACG -CTCGCCCCTGCCTGGGCGCAGATAATCAACGCGAAGATCAATGGTCCCCATCCGCGATAGCCGCTGGCGTAGTTC -ATCTTCACTGATGGTTTCGTGGCGGGTTAAGGTACTTCCCACGCACACCAGACCGGCGGCGACATCCAGCGCCGA -CGCAATGACCCCGCCGTGCAAAATGCTTTGCGCCCAGTTGCCCACCATCATTGGCTGATTTTTAAAGGCCAGCTG -TGCGAACTCTTTTTCGTAACGCTCCAGTTCCATCCCCAATGCGCGGTTAAATGGCATGTGATAAACAAACATCTC -ACCCACTAATTTCAGGGCTTGTTCAGCGGTCAGTACGGCAGACATATCATCCTTACACTTCATTGGTTAATGAAA -TGTTGATTTTATGCTTCTTTGTTGTTGGTTTCTACTTTAGGAAGGGATAACTAACGGCTATGGAGTTAAGTATGT -AAAATAGCCCGCAGAAAAATATTCACCTTATCAATAATTCGTTACGGAGAACACGACCGATGCGGACTCTGCAGG -GCTGGTTGTTGCCGGTGTTTATGTTGCCTATGGCAGTATATGCACAAGAGGCAACGGTGAAAGAGGTGCATGACG -CGCCAGCGGTGCGTGGCAGTATTATCGCCAATATGCTGCAGGAGCATGACAATCCGTTCACGCTCTATCCTTATG -ACACCAACTACCTCATTTACACCCAAACCAGCGATCTGAATAAAGAAGCGATTGCCAGTTACGACTGGGCGGAAA -ATGCGCGTAAGGATGAAGTAAAGTTTCAGTTGAGCCTGGCATTTCCGCTGTGGCGTGGGATTTTAGGCCCGAACT -CGGTGTTGGGTGCGTCTTATACGCAAAAATCCTGGTGGCAACTGTCCAATAGCGAAGAGTCTTCACCGTTTCGTG -AAACCAACTACGAACCGCAATTGTTCCTCGGTTTTGCCACCGATTACCGTTTTGCAGGTTGGACGCTGCGCGATG -TGGAGATGGGGTATAACCACGACTCTAACGGGCGTTCCGACCCGACCTCCCGCAGCTGGAACCGCCTTTATACTC -GCCTGATGGCAGAAAACGGTAACTGGCTGGTAGAAGTGAAGCCGTGGTATGTGGTGGGTAATACTGACGATAACC -CGGATATCACCAAATATATGGGTTACTACCAGCTTAAAATCGGCTATCACCTCGGTGATGCGGTGCTCAGTGCGA -AAGGACAGTACAACTGGAACACCGGCTACGGCGGCGCGGAGTTAGGCTTAAGTTACCCGATCACCAAACATGTGC -GCCTTTATACTCAGGTTTACAGCGGCTATGGCGAATCGCTCATCGACTATAACTTCAACCAGACCCGTGTCGGTG -TGGGGGTTATGCTAAACGATTTGTTTTGATGAACGGTTGAGTGGTTGGCAAATCTGGAATCCAGCATCCAGGATT -ACCCTCTCAGAGACTAAAAGCATTGCAGTTTCTCGCGCAGGCGCTGAAAATAGCGCCTGTTTTTATTTCAGGCAA -TCGGGGTGAATGTGGCGCAGGCGGAAGTGTTGAATCTGGAGTCCGGAGCTAAACAGGTTTTACAAGAAACCTTTG -GCTACCAACAGTTTCGCCCCGGCCAGGAAGAAATTATCGACACTGTGCTTTCCGGCCGCGATTGCCTCGTCGTCA -TGCCCACTGGTGGCGGAAAATCCCTTTGCTATCAAATCCCTGCCTTATTGCTAAACGGCCTTACCGTGGTTGTTT -CACCGCTGATTTCGTTGATGAAAGATCAGGTGGATCAACTGCAAGCCAACGGCGTGGCGGCGGCGTGCCTTAACT -CGACGCAAACCCGCGAACAGCAACTTGAAGTGATGACAGGCTGCCGCACCGGGCAAATTCGTCTGCTTTATATCG -CCCCGGAACGCCTGATGCTGGATAACTTTCTTGAGCATCTGGCGCACTGGAATCCGGTGTTATTAGCCGTTGATG -AAGCGCACTGTATCTCCCAATGGGGCCACGATTTCCGCCCGGAATATGCCGCGCTCGGTCAGTTGCGCCAGCGGT -TCCCGACGCTGCCGTTTATGGCGCTGACCGCCACAGCCGACGACACCACGCGCCAGGATATCGTGCGCCTGCTGG -GGCTGAACGATCCGCTGATTCAAATCAGCAGTTTTGACCGTCCGAATATTCGCTACATGCTGATGGAGAAGTTCA -AACCGCTCGATCAGTTGATGCGCTACGTGCAGGAACAGCGCGGTAAGTCAGGCATTATCTACTGCAACAGCCGCG -CGAAAGTAGAAGACACCGCTGCGCGCCTGCAAAGCAAGGGAATTAGCGCGGCGGCCTATCATGCCGGGCTGGAAA -ATAATGTTCGCGCCGATGTGCAGGAAAAATTCCAGCGCGATGACCTGCAAATTGTGGTGGCGACGGTGGCGTTCG -GCATGGGCATCAATAAACCAAACGTTCGCTTCGTGGTCCACTTTGATATTCCGCGCAATATCGAATCCTATTATC -AGGAAACCGGACGCGCCGGGCGTGATGGCCTGCCCGCGGAAGCGATGCTGTTTTACGATCCGGCTGATATGGCGT -GGCTGCGCCGTTGTCTGGAAGAGAAGCCGCAGGGGCAGTTGCAGGATATCGAGCGCCACAAACTCAATGCGATGG -GCGCGTTTGCCGAAGCGCAAACTTGCCGTCGTCTGGTATTGCTGAACTATTTTGGCGAAGGGCGTCAGGAGCCGT -GCGGGAACTGCGATATCTGCCTCGATCCGCCGAAACAGTACGACGGTTCAACCGATGCTCAGATTGCCCTTTCCA -CCATTGGTCGTGTGAATCAGCGGTTTGGGATGGGTTATGTGGTGGAAGTGATTCGTGGTGCTAATAACCAGCGTA -TCCGCGACTATGGTCATGACAAACTGAAAGTCTATGGCATGGGCCGTGATAAAAGCCATGAACATTGGGTGAGCG -TGATCCGCCAGCTGATTCACCTCGGCCTGGTGACGCAAAATATTGCCCAGCATTCTGCCCTACAACTGACAGAGG -CCGCGCGCCCGGTGCTGCGCGGCGAATCCTCTTTGCAACTTGCCGTGCCGCGTATCGTGGCGCTCAAACCGAAAG -CGATGCAGAAATCGTTCGGCGGCAACTATGATCGCAAACTGTTCGCCAAATTACGCAAACTGCGTAAATCGATAG -CCGATGAAAGTAATGTCCCGCCGTACGTGGTGTTTAACGACGCAACCTTGATTGAGATGGCTGAACAGATGCCGA -TCACCGCCAGCGAAATGCTCAGCGTTAACGGCGTTGGGATGCGCAAGCTGGAACGCTTTGGCAAACCGTTTATGG -CGCTGATTCGTGCGCATGTTGATGGCGATGACGAAGAGTAGTCAGCAGCATAAAAAAGTGCCAGTATGAAGACTC -CGTAAACGTTTCCCCCGCGAGTCAAATGTATGTTGATGTTATTTCTCACCGTCGCCATGGTGCACATTGTGGCGC -TTATGAGCCCCGGTCCCGATTTCTTTTTTGTCTCTCAGACCGCTGTCAGTCGTTCCCGTAAAGAAGCGATGATGG -GCGTGCTGGGCATTACCTGCGGCGTAATGGTTTGGGCTGGGATTGCGCTGCTTGGCCTGCATTTGATTATCGAAA -AAATGGCCTGGCTGCATACGCTGATTATGGTGGGCGGTGGCCTGTATCTCTGCTGGATGGGTTACCAGATGCTAC -GTGGTGCACTGAAAAAAGAGGCGGTTTCTGCACCTGCGCCACAGGTCGAGCTGGCGAAAAGTGGGCGCAGTTTCC -TGAAAGGTTTACTGACCAATCTCGCTAATCCGAAAGCGATTATCTACTTTGGCTCGGTGTTCTCATTGTTTGTCG -GTGATAACGTTGGCACTACCGCGCGCTGGGGCATTTTTGCGCTGATCATTGTCGAAACGCTGGCGTGGTTTACCG -TCGTTGCCAGCCTGTTTGCCCTGCCGCAAATGCGCCGTGGTTATCAACGTCTGGCGAAGTGGATTGATGGTTTTG -CCGGGGCGTTATTTGCCGGATTTGGCATTCATTTGATTATTTCGCGGTGATGCCAGACGCGTCTTCAGAGTAAGT -CGGATAAGGCGTTTACGCCGCATCCGACATTATTTTTCACGCATGCCTCGCCGATGCTAACAGCGCTCCCACCAG -CATAAACAACGAGCCGAAAATCTTATTCAGCGCCTTCATCTGCTTTGGTCCTTTAATCCATAGAGCAATCCGTTG -AGCAAGGGTGGCGTAACCGATCATCACAATAATATCGACCACAATAGTGGTGACGCCGAGCACGATATACTGCAT -CAGTTGCGGCTGTTGCGGCATGATGAATTGCGGAAATAGCGCCGCCAGAAACACAATACTTTTGGGATTGGTGAG -ATTCACAAAAACTGCGCGCTGGAACAAATGTCGACGCGATTGAGTAGAGGCCAGCGATTTAAGGTCAATTGCACC -AGCGGCGCGCCACTGCTGGATTCCCAGCCAAATCAAGTAAGCCGCGCCTGCCCACTTCAACACTTCAAACGCAAT -CACTGAGCGGGAAAATAGCGTCCCCAACCCCACGCCAACCAGCACAATATGAATCGCCAGTCCGGTCTGAAGCCC -AGCAATAGACGCCACCGCGCCGCGATAACCGTGGTTGAGCGAGGTGGTCATAGTGTTGATTGCACCAGAGCCTGG -CGACAGGCTTAAAATGATCGATGTCAGCAGGTAGGCAAACCACCATTCTAAGGTCATGATGAACTCCCGGTGTGT -CTATTTTTGTGCCACAATACGCTACTGTCGCAGCGTTGTGTCAGGCACGCTAAAAAAAACGATTTTACGTGGTTT -AAGAGGCAGATTACCCGATGTTTCAGCAGCAAAAAGACTGGGAAACAAGAGAAAACGCGTTTGCTGCTTTTACCA -TGGGACCGCTGACTGATTTCTGGCGTCAGCGTGATGAAGCAGAGTTTACTGGTGTGGATGACATTCCGGTGCGCT -TTGTCCGTTTTCGCGCACAGCACCATGACCGGGTGGTAGTCATCTGCCCGGGGCGTATTGAGAGCTACGTAAAAT -ATGCGGAACTGGCCTATGACCTGTTCCATTTGGGGTTTGATGTCTTAATCATCGACCATCGCGGGCAGGGACGTT -CCGGTCGCCTGTTAGCCGATCCGCATCTCGGGCATGTTAATCGCTTTAATGATTATGTTGATGATCTGGCGGCAT -TCTGGCAGCAGGAGGTTCAGCCCGGTCCGTGGCGTAAACGCTATATACTGGCACATTCGATGGGCGGTGCGATCT -CCACATTATTTCTGCAACGCCATCCAGGTGTATGTGACGCCATTGCGCTAACTGCGCCAATGTTTGGGATCGTGA -TTCGTATGCCGTCATTTATGGCACGGCAGATCCTCAACTGGGCCGAAGCGCATCCACGTTTCCGTGATGGCTATG -CAATAGGCACCGGGCGCTGGCGCGCGTTGCCGTTTGCTATCAACGTACTGACCCACAGCAGACAGCGATATCGAC -GTAACTTACGCTTCTATGCTGATGACCCAACGATTCGCGTCGGTGGGCCGACCTACCATTGGGTACGCGAAAGTA -TTCTGGCTGGCGAACAGGTGTTAGCCGGTGCGGGTGATGACGCCACGCCAACGCTTCTCTTGCAGGCTGAAGAGG -AACGCGTGGTGGATAACCGCATGCATGACCGTTTTTGTGAACTCCGCACCGCCGCGGGCCATCCTGTCGAAGGAG -GACGGCCGTTGGTAATTAAAGGTGCTTACCATGAGATCCTTTTTGAAAAGGACGCAATGCGCTCAGTCGCGCTCC -ACGCCATCGTTGATTTTTTCAACAGGCATAACTCACCCAGCGGAAACCGCTCTACAGAGGTTTAAATTTCTTATG -TACCAGGTTGTTGCGTCTGATTTAGATGGCACGTTACTTTCTCCCGACCATACGTTATCCCCTTACGCCAAAGAA -ACTCTGAAGCTGCTCACCGCGCGCGGCATCAACTTTGTGTTTGCGACCGGTCGTCACCACGTTGATGTGGGGCAA -ATTCGCGATAATCTGGAGATTAAGTCTTACATGATTACCTCCAATGGTGCGCGCGTTCACGATCTGGATGGTAAT -CTGATTTTTGCTCATAACCTGGATCGCGACATTGCCAGCGATCTGTTTGGCGTAGTCAACGACAATCCGGACATC -ATTACTAACGTTTATCGCGACGACGAATGGTTTATGAATCGCCATCGCCCGGAAGAGATGCGCTTTTTTAAAGAA -GCGGTGTTCCAATATGCGCTGTATGAGCCTGGATTACTGGAGCCGGAAGGCGTCAGCAAAGTGTTCTTCACCTGC -GATTCCCATGAACAACTGCTGCCGCTGGAGCAGGCGATTAACGCTCGTTGGGGCGATCGCGTCAACGTCAGTTTC -TCTACCTTAACCTGTCTGGAAGTGATGGCGGGCGGCGTTTCAAAAGGCCATGCGCTGGAAGCGGTGGCGAAGAAA -CTGGGCTACAGCCTGAAGGATTGTATTGCGTTTGGTGACGGGATGAACGACGCCGAAATGCTGTCGATGGCGGGG -AAAGGCTGCATTATGGGCAGTGCGCACCAGCGTCTGAAAGACCTTCATCCCGAGCTGGAAGTGATTGGTACTAAT -GCCGACGACGCGGTGCCGCATTATCTGCGTAAACTCTATTTATCGTAATCGTTCTTTATTTGGTCAGTTGTCAAC -CTGATACTTCGCTACAATGGATACCCGTTAATCAAAGAGTTTTCCATTGTGGCGCTACTTATCATCACCACGATT -CTGTGGGCCTTCTCCTTTAGCTTTTATGGCGAGTACCTTGCGGGGCACGTCGATAGCTATTTTGCGGTGCTGGTG -CGCGTTGGCCTGGCGGCACTCGTTTTTCTGCCGTTTCTGCGTACCCGTGGCAATAGCCTGAAAACGGTCGGCCTG -TATATGCTGGTGGGCGCGATGCAGCTTGGCGTGATGTATATGCTGAGTTTCCGCGCTTATCTCTACCTGACGGTT -TCCGAGCTGCTGCTGTTCACCGTGCTGACGCCGCTCTACATCACGCTGATTTATGACATCATGAGTAAGCGCCGT -CTGCGCTGGGGCTATGCCTTTAGCGCCTTGCTGGCGGTGATTGGTGCCGGGATTATTCGCTATGATCAGGTCACC -GACCATTTCTGGACTGGCTTGCTGCTGGTGCAACTCTCCAATATCACTTTTGCCATTGGCATGGTGGGTTACAAA -CGCCTGATGGAAACTCGCCCGATGCCACAGCATAACGCCTTTGCGTGGTTCTATCTTGGCGCGTTTCTGGTGGCA -GTGATTGCATGGTTCTTGCTGGGAAATGCGCAGAAAATGCCGCAAACCACGCTGCAATGGGGCATTCTGGTGTTT -CTTGGCGTGGTGGCTTCCGGGATTGGCTACTTTATGTGGAACTACGGCGCGACGCAGGTGGACGCCGGAACGCTG -GGCATTATGAATAATATGCACGTTCCGGCAGGGCTGCTGGTAAACCTGGCTATCTGGCACCAACAGCCGCACTGG -CCAACGTTTATTACAGGCGCGCTGGTGATCCTGGCCTCACTGTGGGTGCATCGTAAGTGGGTCGCTCCGCGCTCT -TCACAAACGGCAGATGATCGCAGGCGTGATTGCGCGCTGAGCGAATAAACGCTTCCGTAACTGGCTGACGCTGCT -CGCCATCGCGCACGGCGGCGTACAGTCGGCTCCACAAGCCTTCGCCCAGGGTTTTGGTCACCACCAGACCCTGGC -GCTCAAAACTCTCTACTACCCAATGCGGTAGCGCGGCAATACCCATCCGCGCGGCAACCATCTGAATCAACAATA -AGGTGTTATCGACGCTTTTCAGTGACGGGCTGACGCCTGCCGGCTGAAGAAAATGCCGCCAGACATCCAGTCGAC -TACGCTGCACCGGATAAATTAATAGCGTCTCGCTGGCGAGATCTTCCGGTGTAATTCGCGTTTTCGCCGCCAGTG -GATGGTCAGGTGCTAACACCAGACGCACTTCATAGTCGAACATCGGCGAATAATGCAGGCCACTGCGCGGCAGAA -TATCGGACGTCATTACCAGATCCAGCTCTCCCTGTTGCAAGGCGGGCTGCGGGTCAAATGTCACGCCCGATTTAA -AATCCATCTCTACCTGCGGCCAGTTCTTATGGAAATTTTCTAACGCGGGTGTCAGCCACTGAATACAGCTATGGC -ACTCAATGGCAATGCGCAGACGCGTCTGCTGCGGTTCATTGCAGGCTTGCAGGGCCTGGCTAATTTGCGGCAGTA -CCTGGTTTGCCAGTTGCAACAGGATTTCTCCCTGCGGTGTAAAGCGTAGCGGCTGGCTCTTACGCACAAATAGCC -GGAAGCCAAGGCGTTGTTCCAGATCGCTAAACTGGTGAGACAGGGCGGATTGCGTCTGATGCAACGTCGCCGCAG -CGGCTGCGAGCGAGCCGCAGTTCCGCAACGCTTGTAGCGTTTTCAGGTGTTTTACTTCGATCATGAAAGTCCTTC -ACTTCGGCATGAATAATTTGCGCTTGAGGAATATACAGTAACCGCCAATTATGGATGTGTAAACATCTGGACGGC -TAAAATCCTTCGTCTTTTAAATTTATGGTGCGTTGGCTGCGTTTCTCCACCCCGGTCACTTACTTCAGTAAGCTC -CCGGGGATGAATAAACTTGCCGCCTTCCCTAAATTCAAAATCCATAGGATTTACATATAATTAGAGGAAGAAAAA -ATGACAATATTGAATCACACCCTCGGTTTCCCTCGCGTTGGCCTGCGTCGCGAGCTGAAAAAAGCGCAAGAAAGT -TATTGGGCGGGGAACTCCACGCGTGAAGAACTGCTGGCGGTAGGGCGTGAATTGCGTGCTCGTCACTGGGATCAA -CAAAAGCAAGCGGGTATCGACCTGCTGCCGGTGGGCGATTTTGCCTGGTACGATCATGTACTGACCACCAGTCTG -CTGCTGGGTAACGTTCCGGCGCGTCATCAGAACAAAGATGGTTCGGTAGATATCGACACCCTGTTCCGTATTGGT -CGTGGACGTGCGCCGACTGGCGAACCTGCGGCGGCAGCGGAAATGACCAAATGGTTTAACACCAACTATCACTAC -ATGGTGCCGGAGTTCGTTAAAGGCCAACAGTTCAAACTGACCTGGACGCAGCTGCTGGACGAAGTGGACGAGGCG -CTGGCGCTGGGCCACAAGGTGAAACCTGTGCTGCTGGGGCCGGTTACCTGGCTGTGGCTGGGGAAAGTGAAAGGT -GAACAATTTGACCGCCTGAGCCTGCTGAACGACATTCTGCCGGTTTATCAGCAAGTGCTGGCAGAACTGGCGAAA -CGCGGCATCGAGTGGGTACAGATTGATGAACCCGCGCTGGTACTGGAACTACCACAGGCGTGGCTGGACGCATAC -AAACCCGCTTACGACGCGCTCCAGGGACAGGTGAAACTGCTGCTGACCACCTATTTTGAAGGCGTAACGCCAAAT -CTCGACACGATTACTGCGCTGCCTGTTCAGGGTCTGCATGTTGACCTCGTACATGGTAAAGATGACGTTGCTGAA -CTGCACAAGCGCCTGCCTTCTGACTGGTTGCTGTCTGCGGGTCTGATCAATGGTCGTAACGTCTGGCGCGCCGAT -CTTACCGAGAAATATGCGCAAATTAAGGACATTGTCGGCAAACGTGATTTGTGGGTGGCATCTTCCTGCTCGTTG -CTGCACAGCCCCATCGACCTGAGCGTGGAAACGCGTCTTGATGCAGAAGTGAAAAGCTGGTTTGCCTTCGCCCTA -CAAAAATGCCATGAACTGGCACTGCTGCGCGATGCGCTGAACAGTGGTGACACGGCAGCTCTGGCAGAGTGGAGC -GCCCCGATTCAGGCACGTCGTCACTCTACCCGCGTACATAATCCGGCGGTAGAAAAGCGTCTGGCGGCGATCACC -GCCCAGGACAGCCAGCGTGCGAATGTCTATGAAGTGCGTGCTGAAGCCCAGCGTGCGCGTTTTAAACTGCCAGCG -TGGCCGACCACCACGATTGGTTCCTTCCCGCAAACCACGGAAATTCGTACCCTGCGTCTGGATTTCAAAAAGGGC -AATCTCGACGCCAACAACTACCGCACGGGCATTGCGGAACATATCAAGCAGGCCATTGTTGAGCAGGAACGTTTG -GGACTGGATGTGCTGGTACATGGCGAGGCCGAGCGTAATGACATGGTGGAATACTTTGGCGAGCACCTCGACGGA -TTTGTCTTTACGCAAAACGGTTGGGTACAGAGCTACGGTTCCCGCTGCGTGAAGCCACCGATTGTCATTGGTGAC -ATTAGCCGCCCGGCACCGATTACCGTGGAGTGGGCGAAGTATGCGCAATCGCTGACCGACAAACCGGTGAAAGGG -ATGCTGACGGGGCCGGTGACCATACTCTGCTGGTCGTTCCCGCGTGAAGATGTCAGCCGTGAAACCATCGCCAAA -CAGATTGCGCTGGCGCTGCGTGATGAAGTGGCCGATCTGGAAGCCGCTGGAATTGGCATCATCCAGATTGACGAA -CCGGCGCTGCGCGAAGGTTTACCGCTGCGTCGTAGCGACTGGGATGCGTATCTCCAGTGGGGCGTAGAGGCCTTC -CGTATCAACGCCGCCGTGGCGAAAGATGACACACAAATCCACACTCACATGTGTTATTGCGAGTTCAACGACATC -ATGGATTCGATTGCGGCGCTGGACGCAGACGTCATCACCATCGAAACCTCGCGTTCCGACATGGAGTTGCTGGAG -TCGTTTGAAGAGTTTGATTATCCAAATGAAATCGGTCCTGGCGTCTATGACATTCACTCGCCAAACGTACCGAGC -GTGGAATGGATTGAAGCCTTGCTGAAGAAAGCGGCAAAACGCATTCCGGCAGAGCGCCTGTGGGTCAACCCGGAC -TGTGGCCTGAAAACGCGCGGCTGGCCAGAAACCCGCGCGGCACTGGCGAACATGGTGCAGGCGGCGCAGAACTTG -CGTCGGGGGTAAAATCCAAACCGGGTGGTAATACCACCCGGTCTTTTCTCATTACAGCGACTTCTTCCCACCATA -CTGCTTAAACCATTCCAGCATACGCTGCCAGCCATCTTCTGCAGATGCGGCATGATAGCTCGGGCGATAATCAGC -GTTGAATGCATGCCCGGCGTCCGGGTACACGATAATCTCTGCTTTCGCATTAGCAGCCCGCAGCGCCTGGCGCAT -GGTTTCAACGCTCTCCTGCGGAATGCTGTTATCCTGACCACCATATAAGCCGAGAATCGGCGCGTTAAGATCGGT -TGCGATATCAACAGGTTGTTTCGGTGAATTCAGCGACTTGTCGCCCGTCAGTTTGCCGTACCACGCCACTGCGGC -TTTTAGCTGTGGATTATGCGCGGCATACAGCCAGGTGATACGTCCACCCCAGCAGAATCCGGTGATCATTAAACG -ATGAACATCGCCGCCGTTGCGGGAAGCCCAACTGGCGACATGATCGAGATCGGCCAGCACCTGCGAGTCAGGCAC -TTTTGCTACCAGACCGCTAAGCAACGTGGGGATATCGGCAAAATCATTCGGATCGCCTTCGCGGAAGTAAAGTTC -AGGTGCGATAGCCAGATACCCCTCCAGCGCCAGACGGCGACAAATGTCGCGGATATGTTCATGCACGCCAAAAAT -TTCCTGCACTACAATGACCACTGGCAGTGGGCCATCGCTTTGCTTTGGTCTGGCATGGTAAGCAGGCATGTTATC -CCCTTGTGAAGGGATAGAGGTGAAGCCCGCCACAATCGCGTCGTCCGGGGTCTGAACGATGGTCGAAGCGAGAGG -CGATGCAGCAGGTGCAAATCCAGATTGTTGTGTTGTTGCCATGGTATTCTCCGTACCCTTATAAAAATGTTGCGC -AATGTTAACTATAGTCAGCATGCAACAAATCACATTGCCTGAATCGGCTCATCTTTTATGCAGTCCTGCAGAATG -AAGGGTGATTTATGTGATTTGCATCACTTTTGGTGGGTAAATTTATGCAACGCATTTGCGTCATGGTGATGAGTA -TCACGAAAAAATGTTAAACCCTTCGGTAAAGTGTCTTTTTGCTTCTTCTGACTAAACCGATTCACAGAGGAGTTG -TATATGTCCAAGTCTGATGTTTTTCATCTCGGCCTCACTAAAAACGATTTACAAGGGGCTACGCTTGCCATCGTC -CCTGGCGACCCGGATCGTGTGGAAAAGATCGCCGCGCTGATGGATAAGCCGGTTAAGCTGGCATCTCACCGCGAA -TTCACTACCTGGCGTGCAGAGCTGGATGGTAAACCTGTTATCGTCTGCTCTACCGGTATCGGCGGCCCGTCTACC -TCTATTGCTGTTGAAGAGCTGGCACAGCTGGGCATTCGCACCTTCCTGCGTATCGGTACAACGGGCGCTATTCAG -CCGCATATTAATGTGGGTGATGTCCTGGTTACCACGGCGTCTGTCCGTCTGGATGGCGCGAGCCTGCACTTCGCA -CCGCTGGAATTCCCGGCTGTCGCTGATTTCGAATGTACGACTGCGCTGGTTGAAGCTGCGAAATCCATTGGCGCG -ACAACTCACGTTGGCGTGACAGCTTCTTCTGATACCTTCTACCCAGGTCAGGAACGTTACGATACTTACTCTGGT -CGCGTAGTTCGTCACTTTAAAGGTTCTATGGAAGAGTGGCAGGCGATGGGCGTAATGAACTATGAAATGGAATCT -GCAACCCTGCTGACCATGTGTGCAAGTCAGGGCCTGCGTGCCGGTATGGTAGCGGGTGTTATCGTTAACCGCACC -CAGCAAGAGATCCCGAATGCTGAGACGATGAAACAAACCGAAAGCCATGCGGTGAAAATCGTGGTGGAAGCGGCG -CGTCGTCTGCTGTAATTCTCTTCTCCTGTCTGAAGGCCGACGCGTTCGGCCTTTTGTATTTTTGCGTAGCGCCTC -GCAGGAAATGCCTTTCCAACTGGACGTTTGTACAGCACAATTCTATTTTGTGCGGGTAAGTTGTTGCGTCAGGAG -GCGTTGTGGATTTCTCAATCATGGTTTACGCAGTTATTGCGTTGGTGGGTGTGGCAATTGGCTGGCTGTTTGCCA -GTTATCAACATGCGCAGCAAAAAGCCGAGCAATTAGCTGAACGTGAAGAGATGGTCGCGGAGTTAAGCGCGGCAA -AACAACAAATTACCCAAAGCGAGCACTGGCGTGCAGAGTGCGAGTTACTCAATAACGAAGTGCGCAGCCTGCAAA -GTATTAACACCTCTCTGGAGGCCGATCTGCGTGAAGTAACCACGCGGATGGAAGCCGCACAGCAACATGCTGACG -ATAAAATTCGCCAGATGATTAACAGCGAGCAGCGCCTCAGTGAGCAGTTTGAAAACCTCGCCAACCGTATTTTTG -AGCACAGCAATCGCCGGGTTGATGAGCAAAACCGTCAGAGTCTGAACAGCCTGTTGTCGCCGCTACGTGAACAAC -TGGACGGTTTCCGCCGTCAGGTTCAGGACAGCTTCGGTAAAGAAGCACAAGAACGCCATACCCTGACCCACGAAA -TTCGCAATCTCCAGCAACTCAACGCGCAAATGGCCCAGGAAGCGATCAACCTGACGCGCGCGCTGAAAGGCGACA -ATAAAACCCAGGGCAACTGGGGCGAGGTAGTATTGACGCGGGTGCTGGAGGCTTCCGGTCTGCGTGAAGGGTATG -AATATGAAACCCAGGTCAGCATCGAAAATGACGCCCGCTCGCGGATGCAGCCGGATGTCATCGTGCGCCTGCCGC -AGGGAAAAGATGTGGTGATCGACGCCAAAATGACGCTGGTCGCCTATGAACGCTATTTTAACGCCGAAGACGACT -ACACCCGCGAAAGCGCGCTACAGGAACATATCGCGTCGGTGCGTAACCATATCCGTTTGCTGGGACGCAAAGATT -ATCAACAGCTGCCGGGGCTGCGAACTCTGGATTACGTGCTGATGTTTATTCCCGTTGAACCCGCTTTTTTACTGG -CGCTTGACCGCCAGCCGGAGCTGATCACCGAAGCGTTGAAAAACAACATCATGCTGGTTAGCCCGACTACGCTGC -TGGTGGCGCTGCGCACTATCGCCAACCTGTGGCGTTATGAGCATCAAAGCCGCAACGCCCAGCAAATCGCCGATC -GTGCCAGCAAGCTGTACGACAAGATGCGTTTGTTCATCGATGACATGTCCGCGATTGGTCAAAGTCTCGACAAAG -CGCAGGATAATTATCGGCAGGCAATGAAAAAACTCTCTTCAGGGCGCGGAAATGTGCTGGCGCAGGCAGAAGCGT -TTCGCGGTTTAGGAGTAGAAATTAAACGCGAGATTAATCCGGATTTGGCTGAACAGGCGGTGAGCCAGGATGAAG -AGTATCGACTTCGGTCGGTTCCGGAGCAGCCGAATGATGAAGCTTATCAACGCGATGATGAATATAATCAGCAGT -CGCGCTAGCCCATTGGGAGTAGTTAAGCCGGGTAGAAATCTAGGGCATCGACGCCCAATCTGTTACACTTCTGGA -ACAATTTTTTGATGAGCAGGCATTGAGATGGTGGATAAGTCACAAGAAACGACGCACTTTGGTTTTCAGACCGTC -GCGAAGGAACAAAAAGCGGATATGGTCGCCCACGTTTTCCATTCCGTGGCATCAAAATACGATGTCATGAATGAT -TTGATGTCATTTGGTATTCATCGTTTGTGGAAGCGATTCACGATTGATTGCAGCGGCGTACGCCGTGGGCAGACC -GTGCTGGATCTGGCTGGTGGCACCGGCGACCTGACAGCGAAATTCTCCCGCCTGGTCGGAGAAACTGGCAAAGTG -GTCCTTGCTGATATCAATGAATCCATGCTCAAAATGGGCCGCGAGAAGCTGCGTAATATCGGTGTGATTGGCAAC -GTTGAGTATGTTCAGGCGAACGCTGAGGCGCTGCCGTTCCCGGATAACACCTTTGATTGCATCACCATTTCGTTT -GGTCTGCGTAACGTCACCGACAAAGATAAAGCACTGCGTTCAATGTATCGCGTGCTGAAACCCGGCGGCCGCCTG -CTGGTGCTTGAGTTCTCGAAGCCAATTATCGAGCCGCTGAGCAAAGCCTATGATGCATACTCCTTCCATGTGCTG -CCGCGTATTGGCTCACTGGTCGCGAACGACGCCGACAGCTACCGTTATCTGGCAGAATCCATCCGTATGCATCCC -GATCAGGATACCCTGAAAGCCATGATGCAGGATGCCGGATTCGAAAGTGTCGACTACTACAATCTGACGGCAGGG -GTTGTGGCGCTGCATCGTGGTTATAAGTTCTGACAGGAGACCGGAAATGCCTTTTAAACCTTTAGTGACGGCAGG -AATTGAAAGTCTGCTCAACACCTTCCTGTATCGCTCACCCGCGCTGAAAACGGCCCGCTCGCGTCTGCTGGGTAA -AGTATTGCGCGTGGAGGTAAAAGGCTTTTCGACGTCATTGATTCTGGTGTTCAGCGAACGCCAGGTTGATGTACT -GGGCGAATGGGCAGGCGATGCTGACTGCACCGTTATCGCCTACGCCAGTGTGTTGCCGAAACTTCGCGATCGCCA -GCAGCTTACCGCACTGATTCGCAGTGGTGAGCTGGAAGTGCAGGGCGATATTCAGGTGGTGCAAAACTTCGTTGC -GCTGGCAGATCTGGCAGAGTTCGACCCTGCGGAACTGCTGGCCCCTTATACCGGTGATATCGCCGCTGAAGGAAT -CAGCAAAGCCATGCGCGGAGGCGCAAAGTTCCTGCATCACGGCATTAAGCGCCAGCAACGTTATGTGGCGGAAGC -CATTACTGAAGAGTGGCGTATGGCACCCGGTCCGCTTGAAGTGGCCTGGTTTGCGGAAGAGACGGCTGCCGTCGA -GCGTGCTGTTGATGCCCTGACCAAACGGCTGGAAAAACTGGAGGCTAAATGACGCCAGGTGAAGTACGGCGCCTA -TATTTCATCATTCGCACTTTTTTAAGCTACGGACTTGATGAACTGATCCCCAAAATGCGTATCACCCTGCCGCTA -CGGCTATGGCGATACTCATTATTCTGGATGCCAAATCGGCATAAAGACAAACTTTTAGGTGAGCGACTACGACTG -GCCCTGCAAGAACTGGGGCCGGTTTGGATCAAGTTCGGGCAAATGTTATCAACCCGCCGCGATCTTTTTCCACCG -CATATTGCCGATCAGCTGGCGTTATTGCAGGACAAAGTTGCTCCGTTTGATGGCAAGCTGGCGAAGCAGCAGATT -GAAGCTGCAATGGGCGGCTTGCCGGTAGAAGCGTGGTTTGACGATTTTGAAATCAAGCCGCTGGCTTCTGCTTCT -ATCGCCCAGGTTCATACCGCGCGATTGAAATCGAATGGTAAAGAGGTGGTGATTAAAGTCATCCGCCCGGATATT -TTGCCGGTTATTAAAGCGGATCTGAAACTTATCTACCGTCTGGCTCGCTGGGTGCCGCGTTTGCTGCCGGATGGT -CGCCGTCTGCGCCCAACCGAAGTGGTGCGCGAGTACGAAAAGACATTGATTGATGAACTGAATTTGCTGCGGGAA -TCTGCCAACGCCATTCAGCTTCGGCGCAATTTTGAAGACAGCCCGATGCTCTACATCCCGGAAGTTTACCCTGAC -TATTGTAGTGAAGGGATGATGGTGATGGAGCGCATTTACGGCATTCCGGTGTCTGATGTTGCGGCGCTGGAGAAA -AACGGCACTAACATGAAATTGCTGGCGGAACGCGGCGTGCAGGTGTTCTTCACTCAGGTCTTTCGCGACAGCTTT -TTCCATGCCGATATGCACCCTGGCAACATCTTCGTAAGCTATGAACACCCGGAAAACCCGAAATATATCGGCATT -GATTGCGGGATTGTTGGCTCGCTAAACAAAGAAGATAAACGCTATCTGGCAGAAAACTTTATCGCCTTCTTTAAT -CGCGACTATCGCAAAGTGGCAGAGCTACACGTCGATTCTGGCTGGGTGCCACCAGATACCAACGTTGAAGAGTTC -GAATTTGCCATTCGTACGGTCTGTGAACCTATCTTTGAGAAACCGCTGGCCGAAATTTCGTTTGGACATGTACTG -TTAAATCTGTTTAATACGGCGCGTCGCTTCAATATGGAAGTGCAGCCGCAACTGGTGTTACTCCAGAAAACCCTG -CTCTACGTCGAAGGGGTAGGACGCCAGCTTTATCCGCAACTCGATTTATGGAAAACGGCGAAGCCTTTCCTGGAG -TCGTGGATTAAAGATCAGGTCGGTATTCCTGCGCTGGTGAGAGCATTTAAAGAAAAAGCGCCGTTCTGGGTCGAA -AAAATGCCAGAACTGCCTGAATTGGTTTACGACAGTTTGCGCCAGGGCAAGTATTTACAGCACAGTGTTGATAAG -ATTGCCCGCGAGCTTCAGTCAAATCATGTACGTCAGGGACAATCGCGTTATTTTCTCGGAATTGGCGCTACGTTA -GTATTAAGTGGCACATTCTTGTTGGTCAGCCGACCTGAATGGGGGCTGATGCCCGGCTGGTTAATGGCAGGTGGT -CTGATCGCCTGGTTTGTCGGTTGGCGCAAAACACGCTGATTTTTTCATCGCTCAAGGCGGGCCGTGTAACGTATA -ATGCGGCTTTGTTTAATCATCATCTACCACAGAGGAACATGTATGGGTGGTATCAGTATTTGGCAGTTATTGATT -ATTGCCGTCATCGTTGTACTGCTTTTTGGCACCAAAAAGCTCGGCTCCATCGGTTCCGATCTTGGTGCGTCGATC -AAAGGCTTTAAAAAAGCAATGAGCGATGATGAACCAAAGCAGGATAAAACCAGTCAGGATGCTGATTTTACTGCG -AAAACTATCGCCGATAAGCAGGCGGATACGAATCAGGAACAGGCTAAAACAGAAGACGCGAAGCGCCACGATAAA -GAGCAGGTGTAATCCGTGTTTGATATCGGTTTTAGCGAACTGCTATTGGTGTTCATCATCGGCCTCGTCGTTCTG -GGGCCGCAACGACTGCCTGTGGCGGTAAAAACGGTAGCGGGCTGGATTCGCGCGTTGCGTTCACTGGCGACAACG -GTGCAGAACGAACTGACCCAGGAGTTAAAACTCCAGGAGTTTCAGGACAGTCTGAAAAAGGTTGAAAAGGCGAGC -CTCACTAACCTGACGCCCGAACTGAAAGCGTCGATGGATGAACTACGCCAGGCCGCGGAGTCGATGAAGCGTTCC -TACGTTGCAAACGATCCTGAAAAGGCGAGCGATGAAGCGCACACCATCCATAACCCGGTGGTGAAAGATAATGAA -GCTGCGCATGAGGGCGTAACGCCTGCCGCTGCACAAACGCAGGCCAGTTCGCCGGAACAGAAGCCAGAAACCACG -CCAGAGCCGGTGGTAAAACCTGCTGCGGACGCTGAACCGAAAACCGCTGCACCTTCCCCTTCGTCGAGTGATAAA -CCGTAAACATGTCTGTAGAAGATACTCAACCGCTTATCACGCATCTGATTGAGCTGCGTAAGCGTCTGCTGAACT -GCATTATCGCGGTGATCGTGATATTCCTGTGTCTGGTCTATTTCGCCAATGACATCTATCACCTGGTATCCGCGC -CATTGATCAAGCAGTTGCCGCAAGGTTCAACGATGATCGCCACCGACGTGGCCTCGCCGTTCTTTACGCCGATCA -AGCTGACCTTTATGGTGTCGCTGATTCTGTCAGCGCCGGTGATTCTCTATCAGGTGTGGGCATTTATCGCCCCAG -CGCTGTATAAGCATGAACGTCGCCTGGTGGTGCCGCTGCTGGTTTCCAGCTCTCTGCTGTTTTATATCGGCATGG -CATTCGCCTACTTTGTGGTCTTTCCGCTGGCATTTGGCTTCCTTGCCAATACCGCGCCGGAAGGGGTGCAGGTAT -CCACCGACATCGCCAGCTATTTAAGCTTCGTTATGGCGCTGTTTATGGCGTTTGGTGTCTCCTTTGAAGTGCCGG -TAGCAATTGTGCTGCTGTGCTGGATGGGGATTACCTCGCCAGAAGACTTACGCAAAAAACGCCCGTATGTGCTGG -TTGGTGCATTCGTTGTCGGGATGTTGCTGACGCCGCCGGATGTCTTCTCGCAAACGCTGTTGGCGATCCCGATGT -ACTGTCTGTTTGAAATCGGTGTCTTCTTCTCACGCTTTTACGTTGGTAAAGGGCGAAATCGGGAAGAGGAAAACG -ACGCTGAAGCAGAAAGCGAAAAAACTGAAGAATAAATTCAACCGCCCGTCAGGGCGGTTGTCATATGGAGTACAG -GATGTTTGATATCGGCGTTAATTTGACCAGTTCGCAATTTGCGAAAGACCGTGATGATGTTGTAGCGTGCGCTTT -TGACGCGGGAGTTAATGGGCTACTCATCACCGGCACTAACCTGCGTGAAAGCCAGCAGGCGCAAAAGCTGGCGCG -TCAGTATTCGTCCTGTTGGTCAACGGCGGGCGTACATCCTCACGACAGCAGCCAGTGGCAAGCTGCGACTGAAGA -AGCGATTATTGAGCTGGCCGCGCAGCCAGAAGTGGTGGCGATTGGTGAATGTGGTCTCGACTTTAACCGCAACTT -TTCGACGCCGGAAGAGCAGGAACGCGCTTTTGTTGCCCAGCTACGCATTGCCGCAGATTTAAACATGCCGGTATT -TATGCACTGTCGCGATGCCCACGAGCGGTTTATGACATTGCTGGAGCCGTGGCTGGATAAACTGCCTGGTGCGGT -TCTTCATTGCTTTACCGGCACACGCGAAGAGATGCAGGCGTGCGTGGCGCATGGAATTTATATCGGCATTACCGG -TTGGGTTTGCGATGAACGACGCGGACTGGAGCTGCGGGAACTTTTGCCGTTGATTCCGGCGGAAAAATTACTGAT -CGAAACTGATGCGCCGTATCTGCTCCCTCGCGATCTCACGCCAAAGCCATCATCCCGGCGCAACGAGCCAGCCCA -TCTGCCCCATATTTTGCAACGTATTGCGCACTGGCGTGGAGAAGATGCCGCATGGCTGGCTGCCACCACGGATGC -TAATGTCAAAACACTGTTTGGGATTGCGTTTTAGAGTTTGCGGAACTCGGTATTCTTCACACTGTGCTTAATCTC -TTTATTAATAAGATTAAGCAATAGCATGGAGCGAGCCTCACCATCGGGTTCGGTGAAAATGGCCTGAAAGCCTTC -GAACGCGCCTTCGGTAATAATCACCTTATCACCCGGATAAGGGGTTGCCGGATCGACAATGTCTTTCGGTTTATA -TACCGATAGCTGATGAATAACCGCCGATGGGACTATCGCTGGCGACGCGCCAAAGCGCACGAAGTGGCTGACACC -GCGGGTCGCGTTGATAGTCGTGGTATGAATCACTTCTGGGTCAAATTCCACAAACAGGTAGTTGGGGAACAATGG -CTCACTGACTGCAGTACGTTTTCCACGCACGATTTTTTCCAGGGTGATCATCGGTGCCAGGCAATTCACAGCCTG -TCTTTCGAGGTGTTCCTGGGCACGTTGAAGTTGCCCGCGCTTGCAGTACAGTAAATACCAGGATTGCATAATGAC -TCTTATCCGTTTAATCGGGGCGCAAGGATAGCAAAAGCTTTACGCTAAGTTAATTATATTCCCCGGTTTGCGTTA -TACCGTCAGAGTTCACGCTAATTTAACAAATTTACAGCATCGCAAAGATGAACGCCGTATAATGGGCGCAGATTA -AGAGGCTACAATGGACGCCATGAAATATAACGATTTACGCGACTTCTTGACGCTGCTTGAACAGCAGGGTGAGCT -AAAACGTATCACGCTCCCGGTGGATCCGCATCTGGAAATCACTGAAATTGCTGACCGCACTTTGCGTGCCGGTGG -GCCTGCGCTGTTGTTCGAAAACCCTAAAGGCTACTCAATGCCGGTGCTGTGCAACCTGTTCGGTACGCCAAAGCG -CGTGGCGATGGGCATGGGGCAGGAAGATGTTTCGGCGCTGCGTGAAGTTGGTAAATTATTGGCGTTTCTGAAAGA -GCCGGAGCCGCCAAAAGGTTTCCGCGACCTGTTTGATAAACTGCCGCAGTTTAAGCAAGTATTGAACATGCCGAC -AAAGCGGCTGCGTGGTGCGCCCTGCCAACAAAAAATCGTCTCTGGCGATGACGTCGATCTCAATCGCATTCCCAT -TATGACCTGCTGGCCGGAAGATGCCGCGCCGCTGATTACCTGGGGGCTGACAGTGACGCGCGGCCCACATAAAGA -GCGGCAGAATCTGGGCATTTATCGCCAGCAGCTGATTGGTAAAAACAAACTGATTATGCGCTGGCTGTCGCATCG -CGGCGGCGCGCTGGATTATCAGGAGTGGTGTGCGGCGCATCCGGGCGAACGTTTCCCGGTTTCTGTGGCGCTGGG -TGCCGATCCCGCCACGATTCTCGGTGCAGTCACTCCCGTTCCGGATACGCTTTCAGAGTATGCGTTTGCCGGATT -GCTACGTGGCACCAAGACCGAAGTGGTGAAGTGTATCTCCAATGATCTTGAAGTGCCCGCCAGTGCGGAGATTGT -GCTGGAAGGGTATATCGAACAAGGCGAAACTGCGCCGGAAGGGCCGTATGGCGACCACACCGGTTACTATAATGA -AGTCGATAGTTTCCCGGTATTTACCGTGACGCATATTACCCAGCGTGAAGATGCGATTTACCATTCCACCTATAC -CGGGCGTCCGCCAGATGAGCCCGCGGTGCTGGGTGTCGCACTGAACGAAGTGTTTGTGCCGATTCTGCAAAAACA -GTTCCCGGAAATTGTCGATTTTTACCTGCCGCCGGAAGGCTGCTCTTATCGCCTGGCGGTAGTGACAATCAAAAA -ACAGTACGCCGGACACGCGAAGCGCGTCATGATGGGCGTCTGGTCGTTCTTACGCCAGTTTATGTACACTAAATT -TGTGATCGTTTGCGATGATGACGTTAACGCACGCGACTGGAACGATGTGATTTGGGCGATTACCACCCGTATGGA -CCCGGCGCGGGATACTGTTCTGGTAGAAAATACGCCTATTGATTATCTGGATTTTGCCTCGCCTGTCTCCGGGCT -GGGTTCAAAAATGGGGCTGGATGCCACGAATAAATGGCCGGGGGAAACCCAGCGTGAATGGGGACGTCCCATCAA -AAAAGATCCAGATGTTGTCGCGCATATTGACGCCATCTGGGATGAACTGGCTATTTTTAACAACGGTAAAAGCGC -CTGATGCGCGTTTGTTTTGCCCTATTTATCGATCCGACAGAGAAAGCGCATGACAACCTTAAGCTGTAAAGTGAC -CTCGGTAGAAGCTATCACGGATACCGTATATCGTGTCCGCATCGTGCCAGACGCGGCCTTTTCTTTTCGTGCTGG -TCAGTATTTGATGGTAGTGATGGATGAGCGCGACAAACGTCCGTTCTCAATGGCTTCGACGCCGGATGAAAAAGG -GTTTATCGAGCTGCATATTGGCGCTTCTGAAATCAACCTTTACGCGAAAGCAGTCATGGACCGCATCCTCAAAGA -TCATCAAATCGTGGTCGACATTCCCCACGGAGAAGCGTGGCTGCGCGATGATGAAGAGCGTCCGATGATTTTGAT -TGCGGGCGGCACCGGGTTCTCTTATGCCCGCTCGATTTTGCTGACAGCGTTGGCGCGTAACCCAAACCGTGATAT -CACCATTTACTGGGGCGGGCGTGAAGAGCAGCATCTGTATGATCTCTGCGAGCTTGAGGCGCTTTCGTTGAAGCA -TCCTGGTCTGCAAGTGGTGCCGGTGGTTGAACAACCGGAAGCGGGCTGGCGTGGGCGTACTGGCACCGTGTTAAC -GGCGGTATTGCAGGATCACGGTACGCTGGCAGAGCATGATATCTATATTGCCGGACGTTTTGAGATGGCGAAAAT -TGCCCGCGATCTGTTTTGCAGTGAGCGTAATGCGCGGGAAGATCGCCTGTTTGGCGATGCGTTTGCATTTATCTG -AGATATAAAAAAACCCGCCCCTGACAGGCGGGAAGAACGGCAACTAAACTGTTATTCAGTGGCATTTAGATCTAT -GACGTATCTGGCAAACCATGCCCGATGCGACGCTGTCGCGTCTTATCGTGCCTACAAATAGTCCGAACCGTAGGC -CGGATAAGGCGTTTACGCCGCATCCGGCAATTGGTGCATGATGCCTGATGCGACGCTGTCGCGTCTTATCGTGCC -TACAAATAGTCCGAACCGTAGGCCGGATAAGGCGTTTACGCCGCATCCGGCAATTGGTGCATGATGCCTGATGCG -ACGCTGGCGCGTCTTATCAGGCCTACATTGGTGCCGGATCGGTAGACCGGATAAGGCGTTCACGCCGCATCCGGC -AAGTGGTTAAACCCGCTCAAACACCGTCGCAATACCCTGACCCAGACCGATACACATCGTCGCCAGACCAAACTG -AACGTCTTTGCGTTCCATCAGATTCAGCAGCGTGGTGCTGATACGCGCACCGGAACAACCCAGCGGATGACCCAG -CGCGATCGCGCCACCGTTGAGGTTGATCTTCTCGTCAATCTGCTCAATTAGTCCCAGATCTTTAATACATGGCAG -GATCTGCGCGGCAAAGGCTTCGTTCATTTCAAACACGCCGATATCGCTGGCAGAAAGCCCCGCTTTTTTCAGCGC -CAGTTTCGAGGCCGGAACCGGGCCGTAACCCATAATCGATGGGTCACAACCAACGACCGCCATCGAACGCACACG -AGCGCGCGGCTTAAGACCTAATTCATGGGCGCGGCTTTCACTCATCACCAGCATGGCAGCTGCGCCATCGGAAAG -TGCAGAAGATGTGCCCGCCGTTACCATACCGTTTACTGGATCAAACGCCGGACGCAGCGTGGCGAGGGCTTCCAC -GGTGGTTTCCGGGCGAATCACTTCGTCGTAATTAAACTGCTTCAGGACGCCGTCGGCATCGTGACCACCGGTCGG -GATGATTTCATTTTTAAATGCGGCCGACTGCGTGGCGGCCCAGGCGCGGGCGTGTGACCGCGCGGCAAAGGCATC -CTGCATTTCACGGCTGATACCGTGCATACGCGCCAGCATTTCTGCCGTTAAGCCCATCATGCCCGCCGCTTTGGC -GACATTGCGGCTCAGGCCGGGGTGAAAATCGACGCCGTGACTCATCGGCACATGGCCCATATGCTCCACGCCGCC -AACCAGACATGCCTGCGCATCGCCAGTCATGATCATTCGTGCTGCGTCATGCAGTGCCTGCATGGATGAACCACA -CAAGCGATTAACGGTAACCGCCGGGACAGAGTGTGGTACTTCTGCCAGCAGCGCCGCGTTACGGGCGATATTAAA -ACCCTGCTCCAGCGTCTGCTGCACACAACCCCAGTAAATATCGTCGAGGGCCGCCGCTTCCAGCGCCGGGTTACG -CGCCAGCAGGCTACGCATTAAATGAGCGGAGAGATCTTCTGCACGCACGTTACGAAAAGCACCGCCCTTCGAACG -GCCCATCGGGGTGCGAATTGCATCGACAATGACAACCTGTTCCATTGTGACTCCTTAAGCCGTTTTCAGGTCGCC -AACCGGACGGGCTGGCTCAACCGGAGGATAGTACGGTTCGTTATGACGCGCTTTATTACGCAGACCTTCCGGCAC -TTCATACAGCGGGCCGAGGTGCTGATATTGCTGTGCCATATCGAGGTATTTTGCGCTACCGAGGGTGTCCAGCCA -GCGGAACGCGCCGCCGTGGAACGGAGGGAAGCCCAGGCCGTAGACCAGCGCCATATCCGCTTCCGCCGGAGTGGC -GATAATGCCTTCCTCCAGACAGCGCACCACTTCGTTGACCATCGGGATCATCATGCGGGCGATAATCTCTTCTTC -GCTGAAATCGCGCTTCGGCTGGCTCACTTCTGCCAGCAGGTCTTCAACGGCGGCGTCTTCTTCTTTCTTCGGCTT -ACCTTTGCTGTCTTCTTTATAACGCCAGAAACCGAGGCCGTTCTTCTGACCAAAGCGGTTGGCATCAAACAGCGC -GTCGATGGCATCGCGGTAATCTTTCTGCATCCGCTGCGGGAAGCCTGCTGCCATGACAGCCTGAGCGTGATGCGC -GGTATCAATGCCCACAACGTCCAGCAGATATGCCGGGCCCATCGGCCAGCCAAACTGTTTTTCCATCACTTTGTC -GATCTTGCGGAAATCCGCGCCGTCGCGCAGCAGCTGGCTGAAACCGGCGAAATACGGGAACAGCACGCGGTTAAC -AAAGAAGCCGGGGCAGTCGTTAACCACAATCGGCGTCTTGCCCATCTTGCTCGCCCAGGCGACAACTTTCGCGAT -GGTTTCGTCGGAGCTTTTCTCGCCGCGAATAATTTCTACCAACGGCATTCGGTGGACCGGGTTAAAGAAGTGCAT -CCCGCAGAAGTTTTCCGGGCGTTCCAGCGCGTTGGCCAGTTCGCTGATAGGAATGGTTGAAGTGTTAGACGCCAG -CACGGTATCCTGGCGTACTTTTTGTTCGGTTTCTGCCAGTACGGCTTTTTTCACTTTCGGGTTTTCAACAACCGC -TTCTACCACAATATCCACGCGGTCAAATCCGGCGTAGTCGAGCGTTGGGTGGATTGTGGAGATCACGCCAGCCAG -TTTCAGACCATCGATCTTGCCGCGCTCAAGCTGCTTGTTCAGCAGTTTCGCGGCTTCGGTCATGCCGAGGGTTAA -CGACTTGTCGTTGATATCTTTCATGACAACCGGCACGCCTTTCCACGCAGACTGGTAAGCGATGCCGCCGCCCAT -AATGCCTGCACCCAGCACCGCGGCCTGTTTCGGGGTTTCAACGTCTTTGGTGAGTTTCTTCGCTTTGCCTTTTAC -ATATTGATCGTTAAGGAAAATGCCGACCAGTGCGCGGGCTTCGTTGGTATGCGCCAGCGGGACAAAACTTTTGTT -TTCCAGGTTTAAGGCTTCTTCACGACCAAAACGGGCCGCAGCTTCAATGGTTTTTACTGCGGTGATGGGGGCCGG -ATAATGTTTCCCCGCTGTTTGTGCGACCATCCCTTTAGCGATGGTGAAGCTCATGGTGGCTTCAATCTTGCTCAG -TTTTAGTGGTTCCAGCTTCGGCTGACGTTTTGCTTTCCAGTCGAGGTCGCCGTTAATGGCCTGGCGTAAAACCGC -CTTTGCGCCTTCAACCAGTTTTTCTGCTTTGACTACGCCATCCACCAGACCGATTTTCAGCGCCTGATCCGCGCC -GACATCTTTACCGGCGGCAATGATTTCCAGCGCACTGTCAGCGCCCAGCATACGTGGCATACGTACAGAACCGCC -AAAGCCAGGCATGATGCCCAGTTTGGTTTCCGGCAGACCGATGCGCAGATCCGGCGTCGCCAGACGATAATCGGT -CGCCAGCACGCATTCGCAGCCACCGCCCAGCGCATAGCCATTGACGGCAGCAATGGTCGGCACCGGCAGATCTTC -CAGGCGATTAAACACGCTATTGGCAAAGTGCAGCCACTGACTTAACTGTTCTTCAGGAACGAGGAACAGGGACAA -AAATTCGGTGATATCAGCACCGACGATAAAGGCTGCTTTGTTCGAACGCAGCAGCAGCCCTTTTAGATCTGATTG -CTGTTCCAGCACGCCGATGGCCTCGCCGAGGCTGGCGACGGTCGCAGTGTCGAGTTTATTAACTGAACCTGGGGC -ATCAAATACCAGTTCGGCAATGCCATCTTCCAGCCAGTCAAGGTACAGGGTGTCGCCTTTGTAAAGCATGTCAGT -CTCCTGAATCCGCAAGGTGATCTGGTCGTACCAGATGAGTCGAAGTGTGTATTTTGTGTTAAAAATATGCAAACA -AAAGATTAAAGAAATGCCGATCTGATCACGCTCGGCAGAAATCACGCTCTGGATGAACGATGTGCTAAGATGCGG -AGACTTAAGGTCAAAAAAACAGAAGGGTAAAAAATGGAATCACTGGCCTCGCTCTATAAAAATCATATAGCTACC -TTACAAGAACGGACTCGCGATGCGCTGGCGCGCTTCAAGCTGGATGCGTTACTTATTCACTCCGGCGAGCTGTTC -AATGTTTTTCTCGACGATCATCCCTATCCGTTTAAAGTGAACCCGCAATTCAAAGCGTGGGTGCCGGTAACTCAG -GTGCCAAACTGCTGGTTGCTGGTGGATGGCGTGAACAAGCCGAAACTGTGGTTCTATCTGCCGGTTGATTACTGG -CACAACGTCGAACCGCTGCCGACCTCTTTCTGGACTGAAGATGTGGAAGTGATCGCGCTGCCGAAAGCCGATGGC -ATTGGTAGCCTGCTGCCTGCTGCGCGCGGCAATATCGGTTATATCGGTCCGGTGCCGGAACGTGCGCTGCAACTG -GGTATTGAGGCCAGCAACATCAACCCGAAAGGGGTTATCGACTACCTGCATTACTATCGCTCCTTCAAAACTGAG -TACGAACTGGCCTGTATGCGTGAAGCGCAGAAAATGGCGGTCAACGGTCACCGCGCGGCAGAAGAAGCGTTCCGT -TCTGGCATGAGCGAGTTCGATATCAACATTGCCTATCTGACCGCGACCGGTCATCGTGATACCGACGTACCTTAC -AGCAACATTGTGGCGCTTAACGAACACGCTGCGGTACTGCATTACACCAAACTGGACCATCAGGCACCGGAAGAG -ATGCGCAGCTTCCTGCTGGATGCCGGGGCAGAATATAACGGCTATGCGGCTGACCTGACCCGTACCTGGTCGGCA -AAAAGTGACAACGACTACGCGCAGCTGGTGAAGGACGTTAATGATGAACAACTGGCGCTGATCGCCACCATGAAA -GCAGGCGTCAGCTATGTGGATTACCACATCCAGTTCCATCAGCGCATCGCCAAACTGCTGCGTAAACATCAAATC -ATCACCGATATGAGTGAAGAAGCGATGGTCGAAAACGATCTTACCGGGCCGTTTATGCCGCATGGTATCGGCCAT -CCGCTGGGCCTGCAGGTGCATGACGTCGCTGGTTTTATGCAGGATGATAGCGGTACGCACCTCGCGGCACCGGCA -AAATATCCGTACCTGCGCTGCACCCGTATTCTCCAGCCGGGCATGGTGTTAACCATCGAACCGGGTATCTACTTC -ATCGAATCGCTACTGGCACCGTGGCGTGAAGGGCAGTTCAGCAAGCACTTCAACTGGCAGAAAATTGAAGCACTG -AAACCGTTCGGCGGCATTCGTATCGAAGACAACGTGGTGATCCACGAAAACAACGTGGAAAACATGACCCGGGAT -CTGAAACTGGCGTGATGGAAAGCTGGTTAATTCCTGCGGCACCGGTCACGGTCGTTGAAGAGATCAAAAAGAGCC -GCTTCATAACGATGTTGGCGCATACCGATGGCGTTGAGGCGGCGAAAGCGTTTGTTGAATCGGTGCGGGCAGAAC -ACCCCGATGCCCGGCACCATTGCGTGGCGTGGGTCGCGGGTGCGCCGGATGATTCTCAACAGCTGGGTTTCTCTG -ACGACGGGGAGCCGGCGGGAACGGCAGGTAAACCGATGCTCGCCCAGCTAATGGGCAGCGGCGTCGGGGAAATTA -CCGCTGTGGTAGTGCGCTACTACGGCGGCATATTGCTTGGCACCGGTGGGTTAGTGAAAGCGTATGGCGGCGGCG -TGAATCAGGCGCTGCGCCAGCTAACGACCCAACGCAAGACGCCATTAACCGAATATACTTTGCAATGTGAATATC -ATCAGTTAACCGGCATTGAAGCGTTGCTGGGGCAGTGTGACGGCAAAATTATCAACAGTGATTATCAGGCATTCG -TTCTGCTGCGGGTGGCGCTTCCGGCGGCGAAAGTGGCTGAATTTTCCGCAAAGCTGGCGGATTTTAGCCGTGGTT -CATTGCAATTGTTAGCGATTGAAGAATAATCCCCACTTCGTTTTGCAGAACTAAGGAAGCGGCAGAGATGCATTT -TCGCGCCATTACCCGAATCGTTGGACTACTGGTCATCTTATTTTCAGGGACCATGATTATCCCTGGGCTGGTAGC -ACTCATCTACCGGGATGGAGCGGGCCGCGCTTTTACCCAGACCTTTTTTGTCGCCCTCGCCATTGGCTCTATGCT -GTGGTGGCCGAACCGCAAAGAGAAAGGCGAACTTAAATCCCGTGAGGGGTTTCTGATAGTGGTGCTGTTCTGGAC -CGTGCTGGGTAGCGTCGGTGCGCTCCCTTTTATCTTCTCGGAAAGCCCGAACCTCACGATTACCGATGCGTTTTT -TGAATCTTTCTCTGGCCTGACCACTACGGGAGCCACTACGCTGGTGGGGCTGGATTCGCTCCCTCACGCCATCCT -CTTTTATCGCCAGATGCTGCAATGGTTTGGCGGGATGGGGATCATCGTGTTGGCGGTTGCGATACTGCCTATCCT -CGGCGTGGGTGGGATGCAGCTCTATCGCGCAGAAATGCCCGGCCCGCTGAAAGATAACAAAATGCGCCCGCGAAT -TGCGGAAACGGCGAAAACCCTGTGGTTGATTTATGTCTTGCTGACCGTCGCCTGTGCGCTGGCGTTGTGGTTTGC -CGGAATGGATGCCTTTGATGCCATCGGCCATAGCTTTGCGACTATCGCTATTGGCGGCTTCTCGACACATGATGC -CAGTATCGGTTATTTCGATAGCCCGACTATTAACACTATCATTGCTATCTTCCTGCTGATCTCCGGCTGTAACTA -CGGTCTGCACTTTTCACTGTTAAGTGGGCGTAGTCTGAAGGTTTATTGGCGCGATCCGGAATTTCGCATGTTTAT -CGGCGTACAGTTTACGCTGGTGGTTATTTGTACCCTCGTACTGTGGTTTCATAATGTCTACAGTTCGGCGCTGAT -GACAATTAACCAGGCGTTTTTCCAGGTGGTGTCGATGGCGACAACCGCCGGGTTTACAACTGACAGCATTGCCCG -CTGGCCGCTCTTTTTGCCGGTACTGCTTTTATGTTCAGCCTTTATCGGCGGTTGCGCCGGGTCAACGGGCGGTGG -CCTGAAGGTGATCCGCATCCTGCTGCTGTTTAAGCAGGGGAACCGTGAGCTGAAACGACTGGTGCATCCGAACGC -CGTCTATAGCATTAAGCTGGGGAATCGCGCACTGCCGGAACGTATCCTCGAAGCCGTTTGGGGATTTTTCTCCGC -CTATGCATTGGTGTTTATTGTCAGTATGCTGGCGATTATCGCCACGGGCGTGGATGACTTTTCTGCCTTTGCGTC -GGTTGTTGCGACATTGAATAACCTGGGGCCAGGGCTTGGCGTGGTTGCTGATAACTTTACCAGTATGAACCCGGT -GGCTAAATGGATCCTGATTGCCAACATGCTGTTTGGTCGTCTCGAGGTCTTTACATTGCTGGTGCTCTTTACCCC -GACTTTCTGGCGTGAATGATGGAGTAATACGTGAAAACATTAATTCTTTTCTCAACAAGGGACGGACAAACGCGC -GAGATTGCCTCCTACCTGGCTTCGGAACTGAAAGAACTGGGGATCCAGGCGGATGTCGCCAATGTGCACCGCATT -GAAGAACCACAGTGGGAAAACTATGACCGTGTGGTCATTGGTGCTTCTATTCGCTATGGTCACTACCATTCAGCG -TTCCAGGAATTTGTCAAAAAACATGCGACGCGGCTGAATTCGATGCCGAGCGCCTTTTACTCCGTGAATCTGGTG -GCGCGCAAACCGGAGAAGCGTACTCCACAGACCAACAGCTACGCGCGCAAGTTTCTGATGAACTCGCAATGGCGT -CCCGATCGCTGCGCGGTCATTGCCGGGGCGCTGCGTTACCCACGTTATCGCTGGTACGACCGTTTTATGATCAAG -CTGATTATGAAGATGTCAGGCGGTGAAACGGATACGCGCAAAGAAGTTGTCTATACCGATTGGGAGCAGGTGGCG -AATTTCGCCCGAGAAATCGCCCATTTAACCGACAAACCGACGCTGAAATAAGCATAAAGAATAAAAAATGCGCGG -TCAGAAAATTATTTTAAATTTCCTCTTGTCAGGCCGGAATAACTCCCTATAATGCGCCACCACTGACACGGAACA -ACGGCAAACACGCCGCCGGGTCAGCGGGGTTCTCCTGAGAACTCCGGCAGAGAAAGCAAAAATAAATGCTTGACT -CTGTAGCGGGAAGGCGTATTATGCACACCCCGCGCCGCTGAGAAAAAGCGAAGCGGCACTGCTCTTTAACAATTT -ATCAGACAATCTGTGTGGGCACTCGAAGATACGGATTCTTAACGTCGCAAGACGAAAAATGAATACCAAGTCTCA -AGAGTGAACACGTAATTCATTACGAAGTTTAATTCTTTGAGCGTCAAACTTTTAAATTGAAGAGTTTGATCATGG -CTCAGATTGAACGCTGGCGGCAGGCCTAACACATGCAAGTCGAACGGTAACAGGAAGAAGCTTGCTTCTTTGCTG -ACGAGTGGCGGACGGGTGAGTAATGTCTGGGAAACTGCCTGATGGAGGGGGATAACTACTGGAAACGGTAGCTAA -TACCGCATAACGTCGCAAGACCAAAGAGGGGTACCTTCGGGCCTCTTGCCATCGGATGTGCCCAGATGGGATTAG -CTAGTAGGTGGGGTAACGGCTCACCTAGGCGACGATCCCTAGCTGGTCTGAGAGGATGACCAGCCACACTGGAAC -TGAGACACGGTCCAGACTCCTACGGGAGGCAGCAGTGGGGAATATTGCACAATGGGCGCAAGCCTGATGCAGCCA -TGCCGCGTGTATGAAGAAGGCCTTCGGGTTGTAAAGTACTTTCAGCGGGGAGGAAGGGAGTAAAGTTAATACCTT -TGCTCATTGACGTTACCCGCAGAAGAAGCACCGGCTAACTCCGTGCCAGCAGCCGCGGTAATACGGAGGGTGCAA -GCGTTAATCGGAATTACTGGGCGTAAAGCGCACGCAGGCGGTTTGTTAAGTCAGATGTGAAATCCCCGGGCTCAA -CCTGGGAACTGCATCTGATACTGGCAAGCTTGAGTCTCGTAGAGGGGGGTAGAATTCCAGGTGTAGCGGTGAAAT -GCGTAGAGATCTGGAGGAATACCGGTGGCGAAGGCGGCCCCCTGGACGAAGACTGACGCTCAGGTGCGAAAGCGT -GGGGAGCAAACAGGATTAGATACCCTGGTAGTCCACGCCGTAAACGATGTCGACTTGGAGGTTGTGCCCTTGAGG -CGTGGCTTCCGGAGCTAACGCGTTAAGTCGACCGCCTGGGGAGTACGGCCGCAAGGTTAAAACTCAAATGAATTG -ACGGGGGCCCGCACAAGCGGTGGAGCATGTGGTTTAATTCGATGCAACGCGAAGAACCTTACCTGGTCTTGACAT -CCACGGAAGTTTTCAGAGATGAGAATGTGCCTTCGGGAACCGTGAGACAGGTGCTGCATGGCTGTCGTCAGCTCG -TGTTGTGAAATGTTGGGTTAAGTCCCGCAACGAGCGCAACCCTTATCCTTTGTTGCCAGCGGTCCGGCCGGGAAC -TCAAAGGAGACTGCCAGTGATAAACTGGAGGAAGGTGGGGATGACGTCAAGTCATCATGGCCCTTACGACCAGGG -CTACACACGTGCTACAATGGCGCATACAAAGAGAAGCGACCTCGCGAGAGCAAGCGGACCTCATAAAGTGCGTCG -TAGTCCGGATTGGAGTCTGCAACTCGACTCCATGAAGTCGGAATCGCTAGTAATCGTGGATCAGAATGCCACGGT -GAATACGTTCCCGGGCCTTGTACACACCGCCCGTCACACCATGGGAGTGGGTTGCAAAAGAAGTAGGTAGCTTAA -CCTTCGGGAGGGCGCTTACCACTTTGTGATTCATGACTGGGGTGAAGTCGTAACAAGGTAACCGTAGGGGAACCT -GCGGTTGGATCACCTCCTTACCTTAAAGAAGCGTTCTTTGAAGTGCTCACACAGATTGTCTGATGAAAATGAGCA -GTAAAACCTCTACAGGCTTGTAGCTCAGGTGGTTAGAGCGCACCCCTGATAAGGGTGAGGTCGGTGGTTCAAGTC -CACTCAGGCCTACCAAATTTGCACGGCAAATTTGAAGAGGTTTTAACTACATGTTATGGGGCTATAGCTCAGCTG -GGAGAGCGCCTGCTTTGCACGCAGGAGGTCTGCGGTTCGATCCCGCATAGCTCCACCATCTCTGTAGTGATTAAA -TAAAAAATACTTCAGAGTGTACCTGCAAAGGTTCACTGCGAAGTTTTGCTCTTTAAAAATCTGGATCAAGCTGAA -AATTGAAACACTGAACAACGAAAGTTGTTCGTGAGTCTCTCAAATTTTCGCAACACGATGATGAATCGAAAGAAA -CATCTTCGGGTTGTGAGGTTAAGCGACTAAGCGTACACGGTGGATGCCCTGGCAGTCAGAGGCGATGAAGGACGT -GCTAATCTGCGATAAGCGTCGGTAAGGTGATATGAACCGTTATAACCGGCGATTTCCGAATGGGGAAACCCAGTG -TGTTTCGACACACTATCATTAACTGAATCCATAGGTTAATGAGGCGAACCGGGGGAACTGAAACATCTAAGTACC -CCGAGGAAAAGAAATCAACCGAGATTCCCCCAGTAGCGGCGAGCGAACGGGGAGCAGCCCAGAGCCTGAATCAGT -GTGTGTGTTAGTGGAAGCGTCTGGAAAGGCGTGCGATACAGGGTGACAGCCCCGTACACAAAAATGCACATGCTG -TGAGCTCGATGAGTAGGGCGGGACACGTGGTATCCTGTCTGAATATGGGGGGACCATCCTCCAAGGCTAAATACT -CCTGACTGACCGATAGTGAACCAGTACCGTGAGGGAAAGGCGAAAAGAACCCCGGCGAGGGGAGTGAAAAAGAAC -CTGAAACCGTGTACGTACAAGCAGTGGGAGCACGCTTAGGCGTGTGACTGCGTACCTTTTGTATAATGGGTCAGC -GACTTATATTCTGTAGCAAGGTTAACCGAATAGGGGAGCCGAAGGGAAACCGAGTCTTAACTGGGCGTTAAGTTG -CAGGGTATAGACCCGAAACCCGGTGATCTAGCCATGGGCAGGTTGAAGGTTGGGTAACACTAACTGGAGGACCGA -ACCGACTAATGTTGAAAAATTAGCGGATGACTTGTGGCTGGGGGTGAAAGGCCAATCAAACCGGGAGATAGCTGG -TTCTCCCCGAAAGCTATTTAGGTAGCGCCTCGTGAATTCATCTCCGGGGGTAGAGCACTGTTTCGGCAAGGGGGT -CATCCCGACTTACCAACCCGATGCAAACTGCGAATACCGGAGAATGTTATCACGGGAGACACACGGCGGGTGCTA -ACGTCCGTCGTGAAGAGGGAAACAACCCAGACCGCCAGCTAAGGTCCCAAAGTCATGGTTAAGTGGGAAACGATG -TGGGAAGGCCCAGACAGCCAGGATGTTGGCTTAGAAGCAGCCATCATTTAAAGAAAGCGTAATAGCTCACTGGTC -GAGTCGGCCTGCGCGGAAGATGTAACGGGGCTAAACCATGCACCGAAGCTGCGGCAGCGACACTATGTGTTGTTG -GGTAGGGGAGCGTTCTGTAAGCCTGTGAAGGTGTGCTGTGAGGCATGCTGGAGGTATCAGAAGTGCGAATGCTGA -CATAAGTAACGATAAAGCGGGTGAAAAGCCCGCTCGCCGGAAGACCAAGGGTTCCTGTCCAACGTTAATCGGGGC -AGGGTGAGTCGACCCCTAAGGCGAGGCCGAAAGGCGTAGTCGATGGGAAACAGGTTAATATTCCTGTACTTGGTG -TTACTGCGAAGGGGGGACGGAGAAGGCTATGTTGGCCGGGCGACGGTTGTCCCGGTTTAAGCGTGTAGGCTGGTT -TTCCAGGCAAATCCGGAAAATCAAGGCTGAGGCGTGATGACGAGGCACTACGGTGCTGAAGCAACAAATGCCCTG -CTTCCAGGAAAAGCCTCTAAGCATCAGGTAACATCAAATCGTACCCCAAACCGACACAGGTGGTCAGGTAGAGAA -TACCAAGGCGCTTGAGAGAACTCGGGTGAAGGAACTAGGCAAAATGGTGCCGTAACTTCGGGAGAAGGCACGCTG -ATATGTAGGTGAAGCGACTTGCTCGTGGAGCTGAAATCAGTCGAAGATACCAGCTGGCTGCAACTGTTTATTAAA -AACACAGCACTGTGCAAACACGAAAGTGGACGTATACGGTGTGACGCCTGCCCGGTGCCGGAAGGTTAATTGATG -GGGTTAGCCGCAAGGCGAAGCTCTTGATCGAAGCCCCGGTAAACGGCGGCCGTAACTATAACGGTCCTAAGGTAG -CGAAATTCCTTGTCGGGTAAGTTCCGACCTGCACGAATGGCGTAATGATGGCCAGGCTGTCTCCACCCGAGACTC -AGTGAAATTGAACTCGCTGTGAAGATGCAGTGTACCCGCGGCAAGACGGAAAGACCCCGTGAACCTTTACTATAG -CTTGACACTGAACATTGAGCCTTGATGTGTAGGATAGGTGGGAGGCTTTGAAGTGTGGACGCCAGTCTGCATGGA -GCCGACCTTGAAATACCACCCTTTAATGTTTGATGTTCTAACGTTGACCCGTAATCCGGGTTGCGGACAGTGTCT -GGTGGGTAGTTTGACTGGGGCGGTCTCCTCCTAAAGAGTAACGGAGGAGCACGAAGGTTGGCTAATCCTGGTCGG -ACATCAGGAGGTTAGTGCAATGGCATAAGCCAGCTTGACTGCGAGCGTGACGGCGCGAGCAGGTGCGAAAGCAGG -TCATAGTGATCCGGTGGTTCTGAATGGAAGGGCCATCGCTCAACGGATAAAAGGTACTCCGGGGATAACAGGCTG -ATACCGCCCAAGAGTTCATATCGACGGCGGTGTTTGGCACCTCGATGTCGGCTCATCACATCCTGGGGCTGAAGT -AGGTCCCAAGGGTATGGCTGTTCGCCATTTAAAGTGGTACGCGAGCTGGGTTTAGAACGTCGTGAGACAGTTCGG -TCCCTATCTGCCGTGGGCGCTGGAGAACTGAGGGGGGCTGCTCCTAGTACGAGAGGACCGGAGTGGACGCATCAC -TGGTGTTCGGGTTGTCATGCCAATGGCACTGCCCGGTAGCTAAATGCGGAAGAGATAAGTGCTGAAAGCATCTAA -GCACGAAACTTGCCCCGAGATGAGTTCTCCCTGACTCCTTGAGAGTCCTGAAGGAACGTTGAAGACGACGACGTT -GATAGGCCGGGTGTGTAAGCGCAGCGATGCGTTGAGCTAACCGGTACTAATGAACCGTGAGGCTTAACCTTACAA -CGCCGAAGGTGTTTTGGCGGATTGAGAGAAGATTTTCAGCCTGATACAGATTAAATCAGAACGCAGAAGCGGTCT -GATAAAACAGAATTTGCCTGGCGGCAGTAGCGCGGTGGTCCCACCTGACCCCATGCCGAACTCAGAAGTGAAACG -CCGTAGCGCCGATGGTAGTGTGGGGTCTCCTCATGCGAGAGTAGGGAACTGCCAGGCATCAAATAAAACGAAAGG -CTCAGTCGGAAGACTGGGCCTTTCGTTTTATCTGTTGTTTGTCGGTGAACGCTCTCCTGAGTAGGACAAATCCGC -CGGGAGCGGATTTGAACGTTGCGAAGCAACGGCCCGGAGGGTGGCGGGCAGGACGCCCGCCATAAACTGCCAGGC -ATCAAATTAAGCAGAAGGCCATCCTGACGGATGGCCTTTTTGCATTGGCGCAGAAAAAAATGCCGGATGCGACGC -TGGCGCGTCTTATCCAGCCTACTCTTGCTTATCCGTTCTGCTTTTGCATCCACTCCACCACAAAATCAGCCAGCC -CCTCAACATCATTAATATCCAGTAATGCGACATCAAGATTAAGCGGCACATCACTGGCTACAGCAATAACATGCC -TGTCTATCACTAATTCTTCAGGTCGATGTCCGGCTCCATCGCGAAACAGCACAATCTTTGCGATCTCTTCATGCT -TAAACCCTTCGACCAGAATCAAATCCAGCTTTGAGGTATCCATTCGACTTGCGAGAAACTGTAGATCCAGCTCTT -CTTCGTCTGGTGTTTCCGTCATCAAGGCCCATCGTTGCTGGCTGGCAACGATGGTTTGTGCCGCGCCAGCCTTGC -GCAGCTCATAGCTATCTTTGCCTGGCTTATCAACATCCATATCATGGTGCGTATGCTTAATCAGCCCTGGACGGA -TCCCTCTGGCGCATAATGCCGGGATCAGTTTTTTCAAAAGCGTAGTTTTTCCGGTACCACTCCACGCGGCAAAGG -CGAGTAACGGTATCATCGTTTTTCCTGCCATCGGGCAAGCTCCTCTGGCGTATTCACGTTAACAAATGCATCTTT -ATGATCGCTGAAATCAACCGCATGACCGCCAGCCAGACGCATAAATACCATTACCCGGCGTTCTCCTGCTTGCAG -ATATTCCAGTAATAAAGGCTCAATAGCGCGGTTTACCAGAGCAATAGTCGGGTGATCGCGTTCACCGTCATGGAC -CCACACGACAGGCGCATCTTTGCGCTGATGATTAAGCCTGGCTGCTAAATCAGGGGGAATGTAAGGCGTATCGCA -CGGGCAAAACAAAAACCACTCACCAGCTTCCTGCTGCATTACTGAAAGCATTCCTGCCAGAGGGCCTGGGTAATC -CGCCAGTGAATCTTCAATCACTTTCAGACCGCTTGCCTGATAGATTTCCTGATGACGATTAGCATTAACCACGAC -GTGAGAGAGCTGCGTCATAAGCGCGTCAGCGACATGTTGCCATAATGGTTTGCCGTTTAATTCAAGCAATCCTTT -ATCTACGCCGCCCATTCGTCTGGCTTTACCGCCTGCCAGCACAACGCCTGTTATCGTCGTCATCAGATTCACCGA -TATCGCCTCTTTTATTGTGGGATTGACCCTGCTAACGTGTCTGTCTCAAGAGTAAGGAGCATCACTATGAAATGT -AAACGTCTGAATGAAGTTATTGAACTCCTCCAGCCAGCCTGGCAAAAAGAGCCAGACCTTAACCTGCTGCAATTT -TTGCAGAAACTGGCGAAAGAGTCAGGTTTTGACGGCGAACTGGCGGATTTGACGGATGACATTCTGATCTATCAC -CTGAAAATGCGTGATTCCGCGAAAGATGCGGTGATCCCGGGTTTGCAGAAAGATTATGAAGAAGACTTCAAAACG -GCGCTGTTACGCGCTCGCGGCGTAATTAAAGAGTAAAAGCTTGTAAGCGGCGCCACCAAAATCATCGTGAAATGA -TATCCTTCGTCATTCGTAATGTTTTCCGGATGATGGGATGAATAACAGCGCTTTTACTTTCCAGACACTACACCC -GGATACCATCATGGACGCTCTGTTTGAGCATGGGATCCGGGTGGATTCCGGTCTTACCCCGCTTAACAGCTATGA -AAACCGTGTCTATCAATTTCAGGACGAAGATCGTCGACGTTTTGTCGTCAAATTTTATCGCCCTGAACGTTGGAC -AGCCGATCAAATCCTCGAAGAACATCAATTTGCGTTGCAGCTGGTAAATGATGAAGTTCCGGTCGCAGCACCTGT -GGCCTTTAACGGTCAGACTTTATTGAATCATCAGGGATTTTATTTCGCTGTTTTTCCAAGCGTCGGTGGTCGCCA -GTTCGAAGCTGATAATATCGATCAGATGGAAGCGGTTGGGCGTTATTTAGGGCGTATGCACCAGACGGGGCGCAA -ACAGCTTTTTATCCATCGCCCGACCATCGGTTTGAACGAATATCTCATTGAGCCACGCAAGCTGTTTGAGGACGC -TACACTGATACCTTCCGGGTTGAAAGCGGCATTCCTGAAAGCGACAGATGAGCTGATTGCCGCCGTTACAGCACA -CTGGCGGGAAGATTTCACCGTTCTGCGGCTACATGGAGACTGCCACGCCGGGAATATTCTCTGGCGCGATGGTCC -AATGTTTGTTGATCTGGATGATGCACGTAATGGTCCAGCCGTTCAGGATTTGTGGATGTTGCTCAATGGCGATAA -AGCCGAGCAGCGGATGCAACTGGAAACTATTATTGAAGCTTATGAAGAATTTAGCGAGTTCGACACCGCTGAAAT -CGGACTGATTGAACCTTTACGCGCCATGCGTTTGGTTTATTATCTTGCCTGGCTAATGCGGCGTTGGGCTGATCC -CGCGTTCCCGAAAAATTTCCCGTGGTTAACCGGGGAAGATTACTGGCTGCGACAGACGGCGACTTTTATAGAACA -GGCAAAAGTTCTACAAGAACCCCCTTTGCAATTAACACCTATGTATTAATCGGAGAGAGTAGATCATGAAAAAGA -TTTGGCTGGCGCTGGCTGGTTTAGTTTTAGCGTTTAGCGCATCGGCGGCGCAGTATGAAGATGGTAAACAGTACA -CTACCCTGGAAAAACCGGTAGCTGGCGCGCCGCAAGTGCTGGAGTTTTTCTCTTTCTTCTGCCCGCACTGCTATC -AGTTTGAAGAAGTTCTGCATATTTCTGATAATGTGAAGAAAAAACTGCCGGAAGGCGTGAAGATGACTAAATACC -ACGTCAACTTCATGGGTGGTGACCTGGGCAAAGATCTGACTCAGGCATGGGCTGTGGCGATGGCGCTGGGCGTGG -AAGACAAAGTGACTGTTCCGCTGTTTGAAGGCGTACAGAAAACCCAGACCATTCGTTCTGCTTCTGATATCCGCG -ATGTATTTATCAACGCAGGTATTAAAGGTGAAGAGTACGACGCGGCGTGGAACAGCTTCGTGGTGAAATCTCTGG -TCGCTCAGCAGGAAAAAGCTGCAGCTGACGTGCAATTGCGTGGCGTTCCGGCGATGTTTGTTAACGGTAAATATC -AGCTGAATCCGCAGGGTATGGATACCAGCAATATGGATGTTTTTGTTCAGCAGTATGCTGATACAGTGAAATATC -TGTCCGAGAAAAAATAATTCAATGTAAATTACATAAAGCCCGTGAATATTCACGGGCTTTTTTTATTATTTAATA -AATATAAATACATTCTGATAATGCATCCTGCCGCTGGACATTATTTCAGCATAAGTGGATATTCAAAGTTTTGCT -GTTTTATCAGGGAATATTTATATGATACGTAAGTCAGCTACAGGTGTTATTGTTGCGTTAGCCGTAATCTGGGGT -GGTGGCACATGGTACACAGGTACGCAAATTCAGCCTGGTGTCGAAAAATTTATTAAAGATTTTAACGATGCTAAA -AAGAAAGGTGAACATGCCTACGATATGACGTTAAGTTATCAAAATTTTGACAAAGGCTTTTTTAATTCCCGTTTT -CAAATGCAAATGACATTCGATAACGGTGCACCCGATCTCAATATCAAGCCAGGCCAGAAAGTTGTATTTGATGTG -GATGTTGAGCACGGTCCGTTGCCCATCACAATGTTAATGCATGGTAATGTCATCCCAGCACTGGCAGCGGCAAAA -GTGAACTTAGTGAATAATGAACTGACACAACCGCTATTTATCGCCGCGAAAAATAAATCGCCCGTGGAAGCGACA -TTGCGATTCGCGTTTGGTGGCTCATTCTCTACGACATTAGATGTTGCCCCTGCAGAGTATGGAAAGTTTTCTTTT -GGTGAGGGCCAGTTTACTTTTAATGGTGATGGTAGTTCATTGTCTAACCTGGATATTGAAGGCAAAGTCGAAGAT -ATTGTTCTGCAATTATCACCAATGAACAAAGTAACGGCAAAAAGTTTTACCATTGATTCTCTGGCGCGATTAGAA -GAAAAGAAATTTCCGGTTGGTGAAAGCGAGTCGAAATTTAATCAGATTAACATTATCAATCACGGGGAAGACGTT -GCCCAAATCGATGCTTTCGTTGCAAAAACCAGGCTGGATCGCGTTAAAGACAAAGATTATATCAATGTCAATCTC -ACCTACGAACTTGATAAGTTAACAAAAGGGAATCAGCAACTCGGTAGTGGTGAGTGGTCATTGATTGCTGAATCT -ATTGATCCCTCAGCAGTGCGCCAATTTATCATCCAGTATAACATTGCGATGCAGAAGCAGCTTGCTGCACACCCT -GAGTTAGCAAACGATGAAGTTGCTCTGCAAGAAGTGAATGCTGCATTGTTCAAAGAGTATTTACCGTTATTACAA -AAAAGTGAGCCGACCATTAAACAACCGGTAAGATGGAAGAACGCACTCGGCGAACTAAATGCCAATCTGGATATC -AGTATTGCCGACCCAGCCAAATCTTCATCATCCACAAACAAAGATATCAAATCGCTCAATTTTGATGTGAAGTTA -CCGCTTAATGTCGTCACAGAAACCGCAAAACAGCTTAATTTATCTGAAGGAATGGATGCGGAAAAAGCGCAAAAG -CAGGCTGATAAACAAATCAGCGGGATGATGACATTAGGTCAGATGTTTCAGTTAATCACGATTGACAACAATACC -GCCTCGCTGCAGCTGCGTTATACACCGGGTAAAGTTGTTTTTAACGGACAGGAGATGAGCGAAGAAGAATTTATG -TCTCGTGCCGGACGTTTTGTTCATTAAAATACTCACTCGCCTCTGCTCATTCAGAGGCGAGTAAAACTTACTTAT -TCTGACGCTGTGATGACATGAGAGACGTCAGAAGCCGGTCTTTTTCCTGCCACAATGAGTTCAGCCATTGCTGAA -AATGGCGCTTAAAGCTTTTGTCATTGATGTAGTCGCCATGTAACTCATCGGCAATAGGCTGTAAATCCACATGTA -CGACAATCCGCGTCAGTTTACCGCTTAACATATCGAAGAACGGCTGACGGTTATTGTCCGGATAACACAGCGTAA -CATTAAGCAGTTTATCGAATTGTTTACCCAGTACATTTAGCGCCATCGCAATGCCTGCCGCCTTTGGTGGCAACA -AGTTTTGAAAAGTGGAGTGGGTTTGCTGATGTTTTTCTTGCGTGAAACGGGAGCCTTCAACGAAATTGACAATGG -TGGTGGGATGCAGGCGAAACTTTTCACAAGAACGCCGAGTGGTTTCAACATCTTTACCACGTCGCTCCGGATGAC -GTAATAAATAAGCGCGGGAATAACGCTTCATAAACGGCATATCCAGCGACCAGCACGCCAGGCCAAGAAATGGCA -CCCAGGCCAGCTGTTGCTTGAGGAAATATTTATTCATCGGAATGTGCTTACGAAACAGCACGCACAGTACGACAA -TATCTGCCCAACTACGGTGGTTACAAATAAGCAGATACCAGTTCTTCTTACTTAACCCTTCCAGCCCGTGAACTT -CCCATTGAAGGTGTGGGTTCAGATGCAGTAATACCGCCAGACCTTCACACCAGCAATACATCATAAAATCACAAA -AACGCGAAACCTTTCGCCAAATGACTGGCACAGGTAGCAATAGTTTTACAATCCCGGCAATGATGATCGGGACGG -AACAAAAAATAGTGACCAAAATGGTCAATACGATACTCAGCAAAAGGGTTATCGCAGCGAGTATTCTCGTCATAA -TGAATTTATTCAAAAGGTTAGCCATAGACAGTGCGCTAAAGAAGCGCAAGGCGCAGATTTTAGCAGAAAACGACC -CAAATAACGGATGATCCTTAAGGAGAAAAATAATTCATATCTATCCACATTAGAAAAAATCCCATTATCTCAATT -ATTAGGGATGGATTTATTTTTAACTGCATGAAAAACAAAGACAAACATCATGCTGTAAAAAGCATGATAATAAAT -TAAAAGCGATGTAAATAATTTATGCACAAAGTTATCCACATGACGATTTGCGAGCGATCCAGAAGATCTACAAAA -GATTTTCACGAAAAGCGGTGAAAAACTCATGTTTTCATCCTGTCTGTGGCATCCTTTACCCATAATCTGATAAAC -AGGCACGGACATTATGGTTCAGATCCCCCAAAATCCACTTATCCTTGTAGATGGTTCATCTTATCTTTATCGCGC -ATATCACGCGTTTCCCCCGCTGACTAACAGCGCAGGCGAGCCGACCGGTGCGATGTATGGTGTCCTCAACATGCT -GCGCAGTCTGATCATGCAATATAAACCGACGCATGCAGCGGTGGTCTTTGACGCCAAGGGAAAAACCTTTCGTGA -TGAACTGTTTGAACATTACAAATCACATCGCCCGCCAATGCCGGACGATCTGCGTGCACAAATCGAACCCTTGCA -CGCGATGGTTAAAGCGATGGGACTGCCGCTGCTGGCGGTTTCTGGCGTAGAAGCGGACGACGTTATCGGTACTCT -GGCGCGCGAAGCCGAAAAAGCCGGGCGTCCGGTGCTGATCAGCACTGGCGATAAAGATATGGCGCAGCTGGTGAC -GCCAAATATTACGCTTATCAATACCATGACGAATACCATCCTCGGACCGGAAGAGGTGGTGAATAAGTACGGCGT -GCCGCCAGAACTGATCATCGATTTCCTGGCGCTGATGGGTGACTCCTCTGATAACATTCCTGGCGTACCGGGCGT -CGGTGAAAAAACCGCGCAGGCATTGCTGCAAGGTCTTGGCGGACTGGATACGCTGTATGCCGAGCCAGAAAAAAT -TGCTGGGTTGAGCTTCCGTGGCGCGAAAACAATGGCAGCGAAGCTCGAGCAAAACAAAGAAGTTGCTTATCTCTC -ATACCAGCTGGCGACGATTAAAACCGACGTTGAACTGGAGCTGACCTGTGAACAACTGGAAGTGCAGCAACCGGC -AGCGGAAGAGTTGTTGGGGCTGTTCAAAAAGTATGAGTTCAAACGCTGGACTGCTGATGTCGAAGCGGGCAAATG -GTTACAGGCCAAAGGGGCAAAACCAGCCGCGAAGCCACAGGAAACCAGTGTTGCAGACGAAGCACCAGAAGTGAC -GGCAACGGTGATTTCTTATGACAACTACGTCACCATCCTTGATGAAGAAACACTGAAAGCGTGGATTGCGAAGCT -GGAAAAAGCGCCGGTATTTGCATTTGATACCGAAACCGACAGCCTTGATAACATCTCTGCTAACCTGGTCGGGCT -TTCTTTTGCTATCGAGCCAGGCGTAGCGGCATATATTCCGGTTGCTCATGATTATCTTGATGCGCCCGATCAAAT -CTCTCGCGAGCGTGCACTCGAGTTGCTAAAACCGCTGCTGGAAGATGAAAAGGCGCTGAAGGTCGGGCAAAACCT -GAAATACGATCGCGGTATTCTGGCGAACTACGGCATTGAACTGCGTGGGATTGCGTTTGATACCATGCTGGAGTC -CTACATTCTCAATAGCGTTGCCGGGCGTCACGATATGGACAGCCTCGCGGAACGTTGGTTGAAGCACAAAACCAT -CACTTTTGAAGAGATTGCTGGTAAAGGCAAAAATCAACTGACCTTTAACCAGATTGCCCTCGAAGAAGCCGGACG -TTACGCCGCCGAAGATGCAGATGTCACCTTGCAGTTGCATCTGAAAATGTGGCCGGATCTGCAAAAACACAAAGG -GCCGTTGAACGTCTTCGAGAATATCGAAATGCCGCTGGTGCCGGTGCTTTCACGCATTGAACGTAACGGTGTGAA -GATCGATCCGAAAGTGCTGCACAATCATTCTGAAGAGCTCACCCTTCGTCTGGCTGAGCTGGAAAAGAAAGCGCA -TGAAATTGCAGGTGAGGAATTTAACCTTTCTTCCACCAAGCAGTTACAAACCATTCTCTTTGAAAAACAGGGCAT -TAAACCGCTGAAGAAAACGCCGGGTGGCGCGCCGTCAACGTCGGAAGAGGTACTGGAAGAACTGGCGCTGGACTA -TCCGTTGCCAAAAGTGATTCTGGAGTATCGTGGTCTGGCGAAGCTGAAATCGACCTACACCGACAAGCTGCCGCT -GATGATCAACCCGAAAACCGGGCGTGTGCATACCTCTTATCACCAGGCAGTAACTGCAACGGGACGTTTATCGTC -AACCGATCCTAACCTGCAAAACATTCCGGTGCGTAACGAAGAAGGTCGTCGTATCCGCCAGGCGTTTATTGCGCC -AGAGGATTATGTGATTGTCTCAGCGGACTACTCGCAGATTGAACTGCGCATTATGGCGCATCTTTCGCGTGACAA -AGGCTTGCTGACCGCATTCGCGGAAGGAAAAGATATCCACCGGGCAACGGCGGCAGAAGTGTTTGGTTTGCCACT -GGAAACCGTCACCAGCGAGCAACGCCGTAGCGCGAAAGCGATCAACTTTGGTCTGATTTATGGCATGAGTGCTTT -CGGTCTGGCGCGGCAATTGAACATTCCACGTAAAGAAGCGCAGAAGTACATGGACCTTTACTTCGAACGCTACCC -TGGCGTGCTGGAGTATATGGAACGCACCCGTGCTCAGGCGAAAGAGCAGGGCTACGTTGAAACGCTGGACGGACG -CCGTCTGTATCTGCCGGATATCAAATCCAGCAATGGTGCTCGTCGTGCAGCGGCTGAACGTGCAGCCATTAACGC -GCCAATGCAGGGAACCGCCGCCGACATTATCAAACGGGCGATGATTGCCGTTGATGCGTGGTTACAGGCTGAGCA -ACCGCGTGTACGTATGATCATGCAGGTACACGATGAACTGGTATTTGAAGTTCATAAAGATGATGTTGATGCCGT -CGCGAAGCAGATTCATCAACTGATGGAAAACTGTACCCGTCTGGATGTGCCGTTGCTGGTGGAAGTGGGGAGTGG -CGAAAACTGGGATCAGGCGCACTAAGATTCGCCTGAACATGCCTTTTTTCGTAAGTAAGCAACATAAGCTGTCAC -GTTTTGTGATGGCTATTAGAAATTCCTATGCAACAACTGAAAAAAAATTACAAAAAGTGCTTTCTGAACTGAACA -AAAAAGAGTAAAGTTAGTCGCGTAGGGTACAGAGGTAAGATGTTCTATCTTTCAGACCTTTTACTTCACGTAATC -GGATTTGGCTGAATATTTTAGCCGCCCCAGTCAGTAATGACTGGGGCGTTTTTTATTGGGCGAAAGAAAAGATCC -GTAATGCCTGATGCGCTATGTTTATCAGGCCAACGGTAGAATTGTAATCTATTGAATTTACGGGCCGGATACGCC -ACATCCGGCACAAGCATTAAGGCAAGAAAATTATTCGCCGTCCTGCGTTTCTTCTACAGGCTGCATCTCGCTAAA -CCAGGTATCCAGTTTCTGCCGCAGCTTGTCCACGCCTTGTTTCTTCAACGAAGAAAACGTTTCAACCTGCACATC -ACCGTTAAACGCCAGTACAGCTTCACGCACCATATTCAATTGCGCTTTACGTGCGCCGCTTGCCAGTTTGTCCGC -TTTGGTCAGCAGCACCAGAACGGCGATATTGCTGTCTACCGCCCACTCAATCATCTGCTGATCCAAATCTTTCAG -CGGATGGCGAATATCCATTAGCACCACCAGACCTTGCAGGCTCTGACGTTTTTCGAGGTATTCGCCGAGCGCACG -CTGCCATTTGCGCTTCATCTCTTCCGGGACTTCCGCATAACCGTACCCAGGCAAGTCAACCAGACGCTTGCCGTC -AGCCACTTCAAACAGGTTGATAAGCTGGGTGCGCCCTGGGGTTTTTGAGGTACGAGCCAGGCTTTTCTGGTTAGT -CAGCGTGTTCAGCGCGCTGGATTTACCTGCGTTGGAACGGCCTGCAAAAGCCACTTCAATTCCGGTATCGGAAGG -TAGGTGGCGAATATCAGGCGCACTCATCACAAAATGCGTCTGTTGATAATTCAAATTAGTCAAAGCGGTCGTCTC -CGTCAGTCAAAGCTTTGTGGCGATTATACCTGAACCATAATAAAAGGCGGATTTTTCGGCGTGAGCGTTGTAAGT -AAAAGCCATACGCTTTGTGAGACATTGCCGATAGTCTTTATGCGAAATAGCAGAGAAAATTCTGCGATGCATGTC -AAATAAGCTATATAAATCAGTGAATTGCTTTTATATAAAACTCTGAAAATGTGCAAATACTGATGGCGGTTGATT -GTTTGTTTAAAGCAAAGGCGTAAAGTAGCACCCATAGAGCGAGGACGCTAACAGGAACAATGACTCAGGATGAGG -GTCAGGAGCGCCAGGAGGCGAAGACAGAGGATTGTCAGGAAGACAAACGTCCGGAGACGTAATTAAACGGAAATG -GAATCAACACGGATTGTTCCGGCTAAAGGAAAAACAGGGTGTGTTGGCGGCCTGCAAGGATTGTAAGACCCGTTA -AGGGTTATGAGTCAGGAAAAAAGGCGACAGAGTAATCTGTCGCCTTTTTTCTTTGCTTGCTTTCTGTTAGATTCC -GCCGCAAATCTATACTGAATAAAACGGCTAAAAGACGAACCATTATGAAACCATCATCTTCAAACTCACGCAGCA -AAGGTCATGCAAAAGCGCGTCGAAAAACACGCGAGGAGCTGGATCAGGAAGCTCGTGATCGCAAGCGTCAGAAAA -AACGTCGTGGTCATGCGCCGGGCAGCCGCGCAGCGGGCGGAAACACCACGTCAGGCAGCAAAGGCCAGAACGCAC -CAAAAGATCCACGTATTGGCAGTAAAACCCCTATTCCATTGGGCGTGACTGAAAAAGTCACCAAACAGCACAAAC -CGAAGAGTGAGAAACCTATGCTTTCACCGCAGGCGGAGTTGGAATTACTGGAAACGGATGAGCGTCTGGATGCGC -TGCTGGAACGTCTGGAAGCAGGCGAAACCCTGAGTGCCGAAGAGCAATCCTGGGTGGATGCTAAACTGGATCGTA -TTGATGAGTTGATGCAGAAACTCGGCCTCTCTTATGACGATGACGAAGAAGAGGAAGAAGACGAGAAGCAAGAAG -ACATGATGCGTCTGCTGCGGGGCAACTAACGGATTGCCGCCGTGGGCCTTCCCGTTCTGCTGATAACCCTTCCGG -TTATATGTTATCTGGTGTGGTTATTCGTTAAACTACAGCGGTTGTCGCGGCGACAAAAGTGGCTGCGCAACCGGC -TGATGACCCGAAACGGGCATCCGCCGGTACGCCGTAGCCGCCAGAGACGCCATCGGAAGGAGTGAGCATGTCTGT -ACAGCAAATCGACTGGGATCTGGCCCTGATCCAGAAATATAACTATTCCGGGCCACGATACACCTCGTACCCGAC -CGCGCTGGAGTTTTCAGAAGACTTCGGCGAACAGGCGTTTTTACAAGCCGTGGCGCGCTATCCTGAGCGTCCATT -ATCTCTCTACGTACATATCCCGTTCTGCCATAAGCTTTGTTACTTCTGCGGTTGCAATAAGATTGTTACTCGCCA -GCAGCACAAGGCCGATCAGTATCTGGACGCGCTGGAGCAAGAAATCGTCCATCGTGCACCGCTGTTCGCCGGGCG -TCACGTCAGCCAATTGCACTGGGGCGGCGGAACGCCGACGTATCTGAATAAAGCGCAAATCAGCCGCCTGATGAA -GCTGCTGCGCGAAAACTTCCAGTTCAATGCCGATGCGGAGATTTCGATCGAAGTCGATCCGCGGGAAATCGAACT -GGATGTACTCGATCATTTACGCGCCGAAGGCTTTAATCGCCTGAGCATGGGCGTGCAGGACTTCAACAAAGAAGT -GCAACGTCTGGTTAACCGCGAGCAGGATGAAGAGTTCATCTTTGCACTGCTTAACCATGCGCGTGAGATTGGTTT -TACCTCCACCAACATCGACCTGATTTACGGCCTGCCGAAACAGACGCCGGAGAGTTTCGCCTTTACCCTGAAACG -TGTGGCGGAGCTGAACCCCGATCGTCTGAGTGTCTTTAACTACGCGCATCTGCCGACCATTTTTGCTGCTCAGCG -CAAAATCAAAGATGCTGACCTGCCGAGTCCGCAGCAAAAACTCGATATCCTGCAGGAAACCATCGCCTTCCTGAC -GCAATCGGGCTATCAGTTTATCGGTATGGATCACTTTGCCCGTCCGGATGACGAGCTGGCGGTGGCCCAGCGTGA -AGGCGTGCTGCATCGTAACTTCCAGGGCTACACCACTCAGGGCGATACCGATCTGCTGGGGATGGGCGTTTCCGC -CATCAGCATGATTGGCGACTGCTACGCGCAGAACCAGAAAGAGTTGAAGCAGTACTATCAGCAAGTGGATGAACA -AGGCAATGCGCTGTGGCGTGGTATTGCGCTAACGCGTGATGACTGTATTCGCCGCGATGTGATTAAGTCGCTCAT -CTGCAACTTCCGTCTGGATTACGCCCCTATTGAGAAACAGTGGGATTTGCACTTCGCTGATTACTTTGCGGAAGA -TCTCAAGCTGCTCGCCCCGTTAGCAAAAGATGGGCTGGTGGATGTGGATGAGAAGGGAATACAGGTGACGGCGAA -AGGTCGCTTGCTGATCCGCAACATTTGCATGTGCTTTGATACCTATCTGCGCCAGAAAGCGCGGATGCAGCAGTT -CTCTCGGGTGATTTAAATAGTGAATGGCGCTTCGTTTACAAAGTAGAAAACGAAAGCGCCATCAATGTGCTGAGA -ACAAGATTGCCTGATGCGCTGGGCAACAAAACCTGTTGAAATTATTGCTTTTGTAGGCCGGATAAGGCGTTTACG -CCGCATCAGGCATCTGAGCATGATGCCTGATGCGGCGCTGGTCGCGTCTTATCAGGCCTACGACTTTCTCCGCAT -CCGGCATAAACAACGAGCTTCAGCTAAACAGCCCAATCATTGCGGCACACAGCACGGCAGCAACGGCAGTTTGCG -GTGTGTGGCTGTCAACTGCGCCACTCGATACCAGATTAATTATTGATTCCAGCATAATGACTCTCCCCGTTTTCC -GGGCAAGATCATACTGAACTTATCGGAACAGTAAAGCGTAAAATACCAGCAATTTGCGCTCAATAATCAATCTTT -ACACACAAGCTGTGAATCACTCCATCCCCAGCTCTTTTAACTTACGCGTCAGGGTGTTGCGGCCCCAGCCGAGTA -GCCGCGCCGCTTCCTGTTTATGCCCCTGCGTATGTCGCAACGCGGTCGTCAGTAACGTCCGCTCCAGCTCTGGCT -GCGCTTCGGAAAGCAGATTTTGATGACCGGAACGCAGCGCTCTGTCTGCCCACTGCGCAAGAAGCGTCGCCCAGC -TGTCCGGTTGCATTTGCGAAGTACTCTCCGCAACCGTTGATTCAAACAGTTCGCCGGGCAAATCCTGAATCAACA -CTTCCTGCCCGGCGGCCATCACCGTTAGCCAGCGGCAGGTGTTTTCCAGCTGGCGCACGTTGCCTGGCCACGCCA -GACGCGTCAGAGCAGCTTCGGTTTCCGGATGCAGTAACTTCGCTTCTACGCCCAGTTCGCGCGCGGCAACCTGTA -AAAAATGGCGCGCCAGACGGGGAATATCTTCCCGACGTTCGCGCAGCGGCGGCAGATGAACGCGGATAACGTTCA -GGCGGTGGAACAGATCCTCACGGAACTTACCTTCCTGCACTCGCTGTTCGAGATTCTGGTGAGTGGCAGCGATAA -TCCGCACATCCACTTTCACCGGCGCATAGCCGCCAACGCGGTAAAACTGACCGTCTGCCAGCACGCGCAGCAAAC -GCGTCTGCACATCCAGCGGCATATCACCAATTTCGTCGAGGAATAATGTACCGCCATCGGCCTGTTCAAAACGCC -CCTGACGAATGGTATTCGCGCCAGTAAACGCGCCTTTCTCGTGGCCAAACAGTTCTGATTCGATCAAATCTTTTG -GGATAGCTGCCATATTCAGCGCGATAAACGGCGCTTTGGCGCGCGGACTGTGGCGATGCAGGGCATGAGCGACCA -GTTCTTTACCGGTGCCGGATTCGCCGTTAATCAGCACGCTAATAGAAGAACGCGAAAGCCGACCGATAATACGGA -ACACGTCCTGCATGGCTGGCGCTTCGCCGATGATATCGGTCGTTGGGCCGTTAAGCTGAACATTACGCGGCTGCT -GCTGTTCCTGGTAATGACTGATAGCGCGCTCAACCAGCGCCACTGCTTCGTCGATATCAAACGGTTTGGGCAGAT -AATCAAACGCCCCTTGTTGATAGGCGCTGACGGCAGCATCCAGATCGGAATGTGCGGTCATAATGATGACCGGAA -GCATTGGATGGCGCTGTTTAATCTGCTTGAGCAGCGCCAGCCCGTCCATTCCCGGCATACGGATATCTGAAAGCA -GCACATCCGGCGTTTTGCTCGCCAGCGCCTCCAGCACTTCTGCGCCGTTCTCAAACGTCGTACAGGTTAAACCTG -CCCCAGCGAGCGCACGTTCAAGCACCCAACGGATGGAACTATCGTCATCGACTACCCAGACTATCCCTCGTTGCA -TAAACGTCACCTTTATTTCCTGATAGGCAGGTAAACCGAGAACTCGGTATGCCCTGGCCAACTGGTAAATTCAAT -TTTGCCTGAATGCTGATCAATCAAATTACGAGCGATGGATAAGCCAAGCCCGGTGCCACCTTCGCGGCCGCTGAC -CATCGGGTAAAACAGCGTATCCTGCAAATGAGGCGGAATGCCCGGCCCGTTATCTTCCACATCAATCCGCGCCGC -CAGCCGGTAGCGCTCGCCGTGTAAGGTCAGTTGAAACGCGGTGCGGGTACGCAGAATGATTTCACCGCCTTCCGG -CCCCAGCGCCTGTAGCGCATTGCGCACAATATTCAGCAAGACCTGTTCAATTTGATCCGGGTCGTGCGCCAGTTC -CGGTAGGCTGGGATCGTAATCACGAATCAACCGCACGTTGTCCGGCAGTTCCATCGACACCAGCGTTACCACGCG -TTCAGCCACTTTGTGAATACTTTCGGTAACGCGCGTACCGGGCAGCTGCGGCCCCAACAGACGGTCGACCAGATT -TCGCAGCCGGTCCGCCTGTTCGATAATCACTTTGGTATATTCGAGTAGTGATGGGTCAGGTAACGCTTTGCTGAG -CAGCTGCGCCGCGCCACGTAAACCGCCAAGCGGATTTTTAATCTCATGTGCCAGGCCGCGCACTAAATCACGGGC -AGCAACCTGCTGGGCGTGCTGTAGCTGTTCCTGACTTAAGCGGCGCTGGTTATCCATCGGAGCCATCTCCAGCAG -GATCATGCCGTCCGGCATACGCTGGGCCGTCACAGAAAGGATATGCGAGCGCCCGTCGATGACCAGCGTCACTTC -GTTATCGGTAAAACCTTGCCCCGCCTCCAGACTTTCTTGCATCAGCTCGATATTTAATGAGAAGTAGCTCAACAG -TTCCGGTAACGGTGTACCAAACAATTTGCGGGAGCTTTGGGCGAGCAGTTGTTGCGCGGCAGGGTTGGCGTAATG -GATCGCCAGGTTGTCATCGATTAACAAAATACTGTTAATCAGCGAGTTGAGGATCTGCCCAGCATCGGGCTGCGT -GCCTGTTGCCATAAAGCAGTCTCCTGAACAGGTTGCACCATTTTAGTGCATTATAGCTTTTTACGGATAAAAAGC -GCGAAGCATCAGAGAATTGACGGAGAAAAAAGCCCATGCAGAGATGGGCTACAGATAGCTGACAAACTTCACGTT -GGAGAGCGACTCACCTGCTCCGGCCTACCACATCATCACCGTGTAGGCCGGATAAGACGCATTTGCGTCGCATCC -GGCGTGATGTGCTTGCCACCGATCCCAGGCCTGCCAGAGACAGGCGAAAAGTTTCCACGGCAACTAAAACACTTA -GACGCTGTAGTACAGCTCAAACTCTACCGGATGCGGAGTCATACGCACGCGGTCATCTTCTTCGCGACGCAGAGC -GATGTACGCATCAATTGCTTCGTCAGTGAACACGCCACCGGCTTTCAGGAACTCGCGGTCCAGATCCAGTTCGTT -CAGTGCTTCTTCCAGAGAGCCTGCAACCTGTGGGATCTCTTTCGCTTCTTCTGGCGGCAGGTCATACAGGTTTTT -GTCCATGGCTTCGCCCGGATGGATCTTGTTCTTGATACCATCAAGACCGGCCATCAGCAGGGCAGCAAAGCACAG -GTACGGGTTAGCTGCCGGATCCGGGAAACGTACTTCGATACGACGTGCTTTCGGAGAAGAAACCACCGGAATACG -GATAGACGCAGAACGGTTACGCGCAGAGTAAGCCAGCATTACCGGTGCTTCATAGCCCGGGACCAGACGCTTATA -AGAGTTGGTGGTCGGGTTTGCCAGGGCGTTAATCGCTTTAGCGTGTTTGATTACGCCGCCAATGTAGTACAGCGC -CTGCTCAGACAGACCTGCGTATTTGTCGCCTGCGAACAGGTTAACGCCGTTTTTAGACAGAGACATGTGGCAGTG -CATACCGGAGCCGTTATCACCGAACATCGGTTTTGGCATAAAGGTCGCGGTTTTACCGAAGCGGTGCGCTACGTT -GTGCACAACATATTTGTAGATCTGAATTTCGTCAGCTTTTTTGGTCATGGTATTGAAGCGGGTAGCCACTTCGTT -CTGACCAGCAGTCGCTACTTCGTGGTGATGGGCTTCAACCACCAGACCCATCTGTTCCATCACCAGACACATTTC -AGAACGAATATCCTGAGCCGAGTCTACCGGTGGAACCGGGAAGTAACCGCCTTTCACTGCCGGACGGTGACCTTT -GTTACCACCTTCGTATTGGGTGGAGGAGTTCCATGCGCCTTCGATATCGTCGATAGCAACGTGGGAACCGGAGAT -AGATGATCCGAAACGGATGTCATCGAACAGGAAGAATTCAGGTTCTGGCCCGAACAGTACGGTGTCGGCAATGCC -AGTGGAACGCAGGTAATCTTCGGCGCGCTTCGCAATGGAGCGCGGGTCACGGTCATAGCCTTGCAGGGTGCCAGG -TTCAAGGATGTCGCAACGGATAATCAGGGTGGAGTCGGCGAAGAACGGGTCAATCACTGCGGTGGATGCGTCTGG -CATCAGCACCATGTCGGACTCGTTAATGCCTTTCCAGCCGCCAATCGAGGAGCCGTCAAACATTTTGCCTTCTTC -GAAGAATTCAGCATTCACCTGATGAGCAGGGATAGTGACGTGCTGTTCTTTACCTTTAGTATCGGTGAAGCGCAA -ATCAACAAACTTCACTTCGTGCTCGTTCAGCATCGTCAGTACGTGTTCAGCGGACATACTTTAACTCTCCTGGAT -TGGTCATGGTCGTCGTGGTAACGAAATCTGCAATTATTTTGGCCGTGTCGCCGTAAAAAAGATAAAGCGAAATCT -GTGCCAACTTTTAAATTGCCCCTAAAAGGCGTTATCATGCGCACCATCGTGCAAAAGGGCTGCACCACGATGTGA -ATGTTGCACCAATATAGTGCTTCAATGGAAACATTAAGCACCATGTTGGTGCAATGACCTTTGGATAACCCTTTT -TATGCTCCGTGAAAGCGATCACAAAGGGACTCTGCAATACTTGTTTGCGGAGGATGTTTGTGATCCTGTTTTGTA -GTGCGATTAATCCGTGTACAATAACGCGCTATTTCTAATGCCTGAGGCAAAGTTGTGATCGAAAAATTGCGTAAT -ATCGCCATCATCGCGCACGTAGACCATGGTAAAACCACCCTGGTAGACAAGCTGCTCCAACAATCCGGTACGTTC -GACTCTCGTGCCGAAACCCAAGAGCGCGTGATGGACTCCAACGATTTGGAGAAAGAGCGTGGGATTACCATCCTC -GCGAAAAACACCGCTATCAAATGGAATGATTACCGTATCAACATCGTTGATACCCCGGGGCACGCCGACTTCGGT -GGTGAAGTTGAACGTGTAATGTCCATGGTAGACTCAGTGCTGCTGGTGGTTGACGCATTTGACGGCCCGATGCCG -CAAACGCGCTTCGTAACCAAAAAAGCGTTTGCTTACGGCCTGAAGCCGATTGTTGTTATCAACAAAGTTGACCGC -CCTGGCGCGCGTCCTGATTGGGTTGTGGATCAGGTATTCGATCTGTTCGTTAACCTCGACGCGACCGACGAGCAG -CTGGACTTCCCGATCGTTTACGCTTCTGCGCTGAACGGTATCGCGGGTCTGGACCACGAAGATATGGCGGAAGAC -ATGACCCCGCTGTACCAGGCGATTGTTGACCACGTTCCTGCGCCGGACGTTGACCTTGACGGTCCGTTCCAGATG -CAGATTTCTCAGCTCGATTACAACAGCTATGTTGGCGTTATCGGCATTGGCCGCATCAAGCGCGGTAAAGTGAAG -CCGAACCAGCAGGTCACTATCATCGATAGCGAAGGCAAAACCCGCAACGCGAAAGTCGGTAAAGTGCTGGGCCAC -CTCGGTCTGGAACGTATCGAAACCGATCTGGCGGAAGCTGGCGATATCGTTGCGATCACGGGCCTTGGCGAACTG -AACATTTCTGACACCGTTTGCGACACGCAAAACGTTGAAGCGCTGCCGGCACTCTCCGTTGATGAGCCGACCGTT -TCTATGTTCTTCTGCGTTAACACCTCGCCGTTCTGCGGTAAAGAAGGTAAGTTCGTAACGTCTCGTCAGATCCTG -GATCGTCTGAACAAAGAACTGGTACACAACGTTGCGCTGCGCGTAGAAGAAACCGAAGACGCCGATGCGTTCCGC -GTTTCTGGTCGTGGCGAACTGCACCTGTCTGTTCTGATCGAAAACATGCGTCGTGAAGGTTTCGAACTGGCGGTA -TCCCGTCCGAAAGTTATCTTCCGTGAAATCGACGGTCGTAAACAAGAGCCGTATGAAAACGTGACTCTGGACGTT -GAAGAACAGCATCAGGGTTCTGTAATGCAGGCGCTGGGCGAACGTAAAGGCGACCTGAAAAACATGAATCCAGAC -GGTAAAGGCCGCGTACGTCTCGACTACGTGATCCCAAGCCGTGGTCTGATTGGCTTCCGTTCTGAGTTCATGACC -ATGACTTCCGGTACTGGTCTGCTGTACTCCACCTTCAGCCACTACGACGACGTACGTCCGGGTGAAGTGGGTCAG -CGTCAGAACGGCGTACTGATCTCTAACGGTCAGGGTAAAGCGGTCGCGTTCGCGCTGTTCGGTCTGCAGGATCGC -GGTAAGCTGTTCCTCGGTCACGGTGCAGAAGTTTACGAAGGTCAGATTATCGGTATTCATAGCCGCTCTAACGAC -CTGACTGTAAACTGCCTGACCGGTAAGAAACTGACCAACATGCGTGCTTCCGGTACTGACGAAGCCGTTGTTCTG -GTTCCGCCTATCCGCATGACTCTGGAACAAGCTCTGGAGTTCATCGATGATGACGAACTGGTAGAAGTGACTCCG -ACCTCTATCCGTATTCGTAAACGTCACCTGACGGAAAACGATCGTCGCCGCGCCAACCGCGCACCGAAAGACGAT -TAATTTCGTTTTTTAGTCATAAAAAACCTGCCAGCGATGGCAGGTTTTTTTTTGCCTGTCGTGAGCGCACACCAA -TGCGAGTATCTCCCTTATAAGTCTGTGGTTACGTCAATAGAGAGCTTTGTCACAATTATCTGCAAAGTCATACGC -CGTTAATTGCTTTCTTTTTTGGCGTAAGCGTAAGATGCTTCATCTGGTTTAAACCAAAAGGATTAAACAATGGCG -GAGAATCAATCCACCGTAGAAAATGCAAAAGAGAAACTGGATCGGTGGTTGAAAGATGGCATCACCACGCCGGGT -GGAAAACTCCCTTCAGAAAGAGAGCTGGGAGAACTGCTGGGCATTAAACGTATGACGCTGCGCCAGGCGTTGTTG -AACCTCGAGGCAGAATCCAAAATCTTCCGTAAGGATCGTAAGGGGTGGTTCGTGACCCAGCCGCGATTTAATTAC -AGTCCGGAGCTGTCGGCGAGCTTTCAGCGGGCCGCAATTGAGCAAGGGCGAGAGCCTTCCTGGGGGTTTACCGAG -AAAAACCGTACCAGCGATATTCCCGAGACGCTCGCGCCACTGATTGCAGTGACGCCATCAACTGAACTCTATCGC -ATCACCGGCTGGGGGGCGCTGGAAGGACATAAAGTTTTCTATCACGAAACATATATTAATCCTGAAGTTGCTCCG -GGCTTTATTGAACAACTTGAAAACCACTCATTTTCTGCAGTCTGGGAAAAGTGCTACCAAAAAGAGACGGTAGTA -AAAAAATTGATTTTCAAACCCGTCAGAATGCCGGGCGATATCAGCAAGTATCTTGGCGGTTCTGCGGGTATGCCA -GCGATCTTAATTGAAAAGCATCGCGCCGACCAGCAAGGCAATATTGTCCAAATAGATATTGAATATTGGCGATTT -GAGGCCGTAGACCTCATCATTAATCTGTAGGTGTTTTATGGTGACAATAAATAACGCAAGAAAGATTCTACAACG -TGTCGACACTCTTCCTCTTTATTTACATGCTTATGCCTTTCATTTAAATATGCGGCTGGAAAGAGTGTTGCCTGC -TGATTTACTTGATATCGCAAGTGAAAATAATCTACGTGGCGTCAAAATCCATGTTCTCGATGGCGAGCGTTTTTC -TCTTGGTAATATGGACGATAAAGAACTCTCTGCCTTTGGGGATAAAGCCCGCCGTCTGAACCTTGATATTCATAT -TGAAACCAGCGCCTCAGATAAGGCATCTATTGACGAAGCCGTCGCCATCGCGTTGAAAACTGGGGCATCGTCCGT -ACGTTTTTATCCACGTTATGAAGGTAATTTGCGCGACGTATTATCGATTATCGCTAACGACATTGCCTATGTACG -GGAAACGTATCAGGACAGCGGCCTGACTTTTACGATCGAGCAGCATGAAGATTTAAAAAGTCATGAGCTGGTGTC -GCTGGTCAAAGAAAGTGAGATGGAATCTCTTTCCTTACTGTTTGATTTTGCGAACATGATCAATGCAAATGAGCA -TCCCATCGACGCTTTAAAAACGATGGCACCGCATATTACCCAGGTCCATATCAAAGATGCCTTGATCGTTAAAGA -ACCGGGTGGCCTGGGTCATAAAGCCTGTATTTCAGGTCAGGGTGATATGCCGTTCAAAGCGTTATTAACGCACCT -TATCTGCCTGGGTGATGATGAGCCGCAGGTGACGGCATATGGCCTGGAAGAAGAGGTTGATTACTATGCGCCGGC -GTTCCGCTTTGAAGACGAAGATGATAATCCGTGGATCCCTTATCGCCAGATGAGTGAAACACCATTGCCAGAAAA -TCATTTACTGGATGCGCGGTTACGTAAAGAAAAAGAAGATGCAATTAATCAGATAAATCATGTGCGTAACGTACT -ACAACAAATCAAACAAGAGGCAAACCATCTTCTGAACCACTAATAAGTTTTAACTCATACGCAGTTAATAAAACC -ATTCCATATGAATGGTCGGTATCTTATTGCCTTTAAAACAGTGATTTTAAAAATCGCTTAGGGGATGTTATGCTC -ACGAAAAAGAAATGGGCGTTATTTAGTCTATTAACACTGTGTGGCGGTACAATTTATAAATTACCGTCGCTGAAA -GATGCGTTTTATATCCCGATGCAGGAATATTTCCATTTGACCAATGGTCAAATTGGTAATGCTATGTCGGTAAAC -TCATTTGTCACCACAGTGGGCTTTTTTCTGTCTATTTATTTTGCCGATAAACTACCGCGCAGATACACCATGTCA -TTCTCACTCATTGCGACAGGATTACTGGGTGTTTATTTGACGACAATGCCGGGGTATTGGGGCATCCTCTTTGTC -TGGGCGCTATTTGGCGTTACTTGCGACATGATGAACTGGCCGGTCTTGCTCAAGTCGGTAAGTCGATTGGGCAAT -AGCGAACAACAAGGTCGGTTGTTTGGCTTCTTCGAAACAGGGCGTGGCATTGTCGATACCGTGGTGGCATTTTCT -GCGTTGGCAGTATTTACCTGGTTTGGCAGTGGCTTATTAGGTTTTAAAGCAGGCATCTGGTTCTATTCCCTTATT -GTGATTGCCGTAGGCATTATTATTTTCTTTGTCCTGAATGACAAAGAAGAGGCACCGTCCGTTGAGGTGAAAAAA -GAAGACGGAGCATCGAAAAACACCAGTATGACCTCGGTGCTGAAAGACAAAACTATCTGGCTTATCGCTTTTAAC -GTCTTCTTCGTTTACGCGGTTTACTGTGGCCTGACATTCTTCATTCCATTCCTGAAAAACATCTATCTATTGCCC -GTTGCGCTGGTGGGGGCTTACGGCATCATTAACCAATACTGTCTGAAAATGATTGGTGGACCGATTGGTGGCATG -ATTTCAGATAAGATCCTGAAATCGCCAAGTAAATATCTATGCTACACCTTTATCATTAGTACCGCTGCGCTCGTA -CTGTTGATTATGCTGCCGCACGAAAGTATGCCGGTCTATTTAGGGATGGCATGTACGCTGGGCTTTGGCGCGATA -GTCTTTACACAGCGAGCCGTATTTTTTGCACCTATCGGCGAAGCAAAAATTGCTGAAAATAAAACAGGTGCGGCG -ATGGCGTTGGGTAGCTTTATTGGTTACGCTCCGGCGATGTTCTGCTTCAGTCTGTATGGCTACATTCTGGATTTA -AATCCGGGGATTATTGGCTACAAAATCGTGTTTGGCATTATGGCCTGCTTCGCATTCAGTGGTGCGGTGGTTTCC -GTAATGCTGGTTAAGCGTATTAGCCAACGTAAGAAAGAGATGCTGGCGGCTGAAGCTTAATTAATGGCCGGATGT -GCTTAATCCGGCCAACGAAAACCGTATCAACCGTAGGCCGGATAAGGCGTTTACGCCGCATCCGGCAGTTTCACA -TCAGAAGAAATACTTCGTCCCGATACGGATCTGGTTTTGCTCGCGGTGGTACGGTTCGACGTTGCGGTCTAACCA -GCGCAATTCGAAATAAGGGAGCCAGTGTTCATTAATACGGTAACGGAAGGTGTTAGTGATTTCCCAATGATGATC -TTTCCCGTTGCTACTATTAAAGTCATTCACTCGCATGAAGTAATGTGGCTCAAATGTATAGGAAAATTTATCGGT -GATTTTAAAATTCCAGTAGGTGCCAATTTCATAGGTGTCATTATTATCCAGTTCCCCGCTCAAATCTGTTGAACT -ATAGTTATTATGGTTATAGCGATTTCGTACTGTCAGATTAAACCATGGTACAAATTTATAGTTGACGTCCAGATA -CACTGCACCACCCGAACCGATACTCTTATCATTAATTAAGCCACCGGGCTGGATGGTTAATTTATCGGTTGGTTT -AAATAACGGATACCAGCCTTCAATTTCGTTATATCCATGTTTTAGTTCATCTTCTCGCTGAAAGTTGTAGGTATT -GGTTAACATAATACCCGCGCCCATATCGAAGTTATAACCCACACGTAGCATAACCTCGCCCTGATCGGAGGCAAG -ATTATATGCCTCCCTGTTTTCGACGTATGCGCCAGCAAATACCGAGGCAGAGGTCAGAGAAGATAATAAAATTAT -TGCATTAATCTTTTTCATAATAAGTCCATTTTTTAAACGTAGGGAGGCCGCCACCCACCAGGATGGAAATAGCGG -CTATTGACATTTATAACGTTACGGAAGCCGTTTTTTCTTCTGTCGCCATCTCTTTATTTTTGCGTTGGTTGATTT -CCTCAATAATCAATGCAAACCGTTTTTCATTGAGTGTGTAAAAGAATCCCATCGTCAATGCAGCAATAATTGCCA -GTGCACAAGGCCAGATAAAAATGAGCTGACGCAAACCCTGTAATGTCGCATCGCTTTGCGCGATGTTGGGAACAT -AACCAATTTGCGTCAGCATAATGCCTGGCAAGAAGCCAGCAAGTGCGGCAGAAATTTTACGAAAGAAGGTATAAC -CGGTATAAACAGAACCTTCGGCACGAATACCGGTTTTCCATTCACCGTAATCTACGGTATCTGGTACCAGTGCCC -AGTTCAGGCTGTTTACAAAGGCCGTGCCAAAAAAGGCGACACAAGAGAACATGACGAAAGTGAAAGAGTTACTTC -CCCAGAAATAATTCAGTATATCACCCACCGCCCACAGCACCATGCCAGCCAGATAAACCTGTTTTTTACCAAAAC -ATTTTACAGTTAATGGCACCAGTAATACGCCGATGAGGATGCATCCCATACTGAAGAATCCCATCCACGACAATA -AATTAATATCATTCAGCACATACTGGGTGTAATAGACCTGAATCGCCAGTTTGATATTAAATGCCGCCAGGGTAC -ACAAGTTAGCAATGCATAAAACCAGCAATGGCGGATTCCGAAATATCGCGCAAAATGATTTGAGAATACTGGCTT -TATGTCCGGTTGGCGTTGTGTCCACATAATGCTCTTTGACGCCTCTGTAGCACAGCATCATAAAAATAAAGCCGC -CAATGGAGAACATAAGTGCCGCACAGGCATAACCGACGGTTGAGTCAGAAAAAAGCGACTGCAACGGAATAAACG -CCACGGTACAAATCAATAGCCCTATGGTTGCACCACCCTGGCGGTAAGCCGCGAGCTGCGCGCGCTCATTCGGGT -TTTTGGTAATTGCCGGGATCATCGCACCATACGAGCAGTTCATCAGACTGTATGAAAGTCCAAACATCATAAACA -GCGCGGTGGCAATCGTCGTTTTAACCGGCAAACAAAAGGTGGTGGCGATAAACTGGAGCGTTGCAATTAACGCCG -CCGGAACCGCTGCATATAAAATAAAGGGACGAAATTTGCCTTTAGGCCCAATATTTTTCCGCGAGTCGAGTAAAA -ATCCGGTGAGCATATCGGTAAACGCGGTAAAAAACTTCGCCACCAGAAAGATAATCCCGCCATAGTAAGCAGGCA -TCCCTAATTCATCGGTATAAAATTTGAGGAGATACAGAGTACCGATGCAGAGCATTAAATTCGAACCGACGTCGC -CCATACCATAGGCGATTTTTTCCCGCAGATTCAGTTTTAATGTCAGTGGATTATGGTCAGACATAATCACTCCTT -ATAACGCCCCGCAGGGCGTCGTTTATTATTATTACGCCGTGCGTTTACGGGCTTCTATCTCTTCCACAATGCGGA -CATACATCTTCTCGTTCAGGCTGTAGAAGCAACCCATCGCCACAATGGTGACTACCGCCAGTGCGCTTGGGTAGA -TGAAGATCAACTGGCGTAACCCTTCAATGGTGTGGTCAGCCTGTGCGACGTTCGGCACATAGCCAATTTGCGTCA -GCATCCAGCCGGGGAAGAAACCAGCCAGCGCCTGAGACACTTTGCGAAAGAAGGTAAAACCGGTGTAGACCGTTC -CTTCCGAACGCACGCCGGTGCGCCACTCGCCGTACTCGACGGTGTCGGAAACCAGCGCCCAGTTCAGGCTGTTAA -CAAACGCTGAGCCAAAGAACGCCAGGCAGGAGAACGCCACGAAGCTGACCGAACCGCCGCCGAAGAAATAGTTGA -GCAGATCGCCCAGCACCCAAATCAGCAGGCCGCCGATATAAACTTTCTTCTTGCCAAAACGTCTGACTGAGGCAG -GCATCAGGAATACGCCGATGAAAATACAGCCCATGCTGAAAAATCCCATATACGACAACAGGATGGGATCGTTAA -GCACGTACTGGGTGTAATAGACCTGGATGGCGAGCTTGACGTTAAACGCCCCTAAAGTGCAGAGGTTGGCAATGC -ACAGAATGAACAGCGGGCGGTTACCCGCAATTGCGCGGAAAGATTGCAGCAGGCCCGGCTTTTGCGCCGGATTAG -CAGGCTGGGTTTCGACATAACGCTCTTTCACGCCCGAGTAGCAGATCCACATAAACAGCAGGCCAAACAGTGAAA -ACAGCGTGGCGGCGAAGATATAGCCAAGTTGCTGATTACCTTCGATAAGATTCATAACTGGCACGAATCCCACCG -TGCACAGCAGCAGGCCCAGCGTAGCGCCGCCCTGACGCCATGCCGCCAGTGAGGCGCGTTCGTTGGGGTTTTTGG -TGATAGCGGGAACCATTGCGCCGTAGGAGCAGTTCATCATGCTGAAAAACAGTCCGTAAAGCATAAACAGAATAG -TGGCCATCACCGTTTTACCGGTGACATCAAACGGTGTGCCGACAAAGTTGGCGATCGCCAGTAAGGTGACCGGGA -ATGACGCATACAGAATAAAAGGACGGAACTTACCTTTTGGACCGATCTTGCGTCGGGAATCCAACATAATGCCGG -TACCCATATCGGTAAACGCAGTAAAGAATTTTGAAATCAAAAAGATAATGCCGCCATAGGTGCCTGGCAGCCCCA -GAACGTCGGTATAAAACTTCAAAAGATAAAGCGTACCGATATCCAGCAGGATGTTAGAGGCCAGGTCGCCAATAC -CGTAAGAGAGTTTCTCTTTAAAGGGCAGGCGTAAAGTTGCTGGATCTTCCGTTGTGATGTGACTCATCGATGTTC -TCCCTTTGCCCATGAGTTTCCCCACGGGCGGATGTGATTAGATGCTTTTTAACGACGCGAACAGTGCCGCCCATT -CGCTATCGGCGCGATAAAAGACCGGCGGCTTGCCGATGGGCGCATTAACGGTAACTTCCCCGCCCCGGAACGCTT -CACCCGTCCAGGCGTGGACCCAGTTATCCTCCGGCAGATAGAGCGTCCAGTCGCTACGGCCTTCTTCATGCACCG -GAGCGACCAGAATGTCGCGACCTAACAGGTACTGATATTTCAGGGTGTAAGTGTGCGCATCGTCTTCGTAATGCA -GGAACAGCGGGCGCATAACCGGCAGGCCGGACTTCGCATTCAGCGCGACGGCCTCTTTCAGGTAAGGTTTCAGGG -TGGTGAAGACGGTGGTCATACGGGCGAAATGGGCGATGGTTTCTGCGTCGCCGTCAAACTGCCAGTTGTCGCCAG -GACGGTTACCTTCGTGGGTGCGCATCATCGGCGTGAAGGCGCTGAAATCGCACCAGCGCAGCAGCAGCTCTTTGC -TGCGCTTCATCTCAAACAGGGTGGTGTAACCGCCAATGTCGCTGTGGTGCAGGCCATGTCCGGTCATTGCCAGCG -ACAGCGCCGCCGGGACAACCGACGCCAGGCCATCGTCGAGACTCCAGTCGACGTTCTGGTCGCCCGCCCACATCA -TGGTGGAGTATTTCTGGCTACCGGTAGAACCGGCGCGCATAAAGAAAAGGATCTCGCCGAGCTTGCCCGTTTCTT -CAAGGGCTTCGTAGTTACACTTCGCCCACAGCGCAGGCCAGGCGTTATGCATAATTTCGGCACTGACGCCGTTAT -GCAAGTACGTGTCGGTGGGCAGATACTCGCCGAAGTCAGCCATCCAGCCGCCGCAGCCGAGTTCAATCATGTTCT -TTTTGATCACTTCCTTGAACCAGGCGTAGGCTTCTGGATTAGTGAGATCGACAACGCCGCCGTAAAACTCGCCAA -ACTCCACCAGATAGTCACCGCCAGAGGCATCTTTTGCCAGATAGCCGTGTTGTGCCGCTTCTTCGCAGAGATCTT -TATCGCTGGCAACATACGGGTTGATATAGGCCAGGAACTGCACGCCCTCCTGATTCCACTGCTTAATGCGTGAAT -CCAGTTGCGGGTAGTTTTCGCTGTTCCACTTCCAGTTCCACATCACGCGTTTGCCAAAAGAGGTCATACGAATAC -CGGACCAGTCCTGCGCCCAGATGCCGTTGACCTTCACGCCCGCGTTACGCATGGTGTCCAGTTTCTTCTGGCACA -CTTCCGTCCCGCCCTGAATGCCGAGCGTTACTCCGTCATAAATCCAGTCGGGCAGTTCTGGCTGGCGTCCCAGCA -GGGCGGTTAATTTTTCCAGCAGGGAAATGTATGTGTCAGCACATTCAAAACGCAGCGTTGCTTTGTCTTCCCACA -GCGCCAGTTCATGGTATTCCGGGGCACTAAAGTCGAAGTTCATATAGCAACTGTTATCAACATGGCAGTAATACT -TCTGCGTGCTGACAAACGTAGGCTGTGGGAAGAAAGTCCAGTAATAGTCGCCGCCCGCATTTTCTTTGCAGTCGG -CCTGCCAGGTGACATAGGTTTGTTTGTTGCGACCAACGCCTTGTTCACTGGTCCATAGCGGGAACGGTTTGCCAC -GCAGATCGAAGTAGGAAAACTGTTCGCCGCAGCCGTAGATATGGTCCTCTGGTTGAGCGGCAAGGCGCAGCCAGA -TACGGTTGTGGTTAAGGTTGTCGTTTTGTAGTTCCAGCAATAAACGCCCCTGATCGTCGGCAGAGATATTCAGCG -TGGCGCTAATGTCAGAACCACGGCTGAAATGAATTAACCAACCATCCGGTGACTGGCTGACGATGGCGTCGGTAA -GCGCAATTTTCTCCTGTAGTTTATCTTTAATGCTGAAATTACCGCGGAACATATCGATATCCGCTATACCTGAGC -CAATCCATAAACAAGGATTATCTTTGCTATGGGTTAAAATAAGACGTTGTTGAAAATGTAGGGTAAAACTGTCGT -TATTCTGATGAAATTGAAAATCTAATAACTGTGGACGTGGCGTATCCATAACTAATCTCCATAGAGTTGAGAACG -AGATTGTTGCCTTCCTGTTATTACAGGCTTATGTAAAATGATTCTCATAAAACTGATATATAAAAACTTTACAGA -AGCTGAGCTGTTTTTAACTTAATAAATTGAAGATACATAATGTTGCCTTTAGCGAGTGAAATGTTCTTCAATGAT -TTTGACTGCTAATCAATACAAGTTATTTTCTCTGTCCGTAAATATTAAAAAACAGGCGGTGCGGTTTTCCTGATT -CCAGTAATAATAAGTCGATACCTGAATTAAAGGCGTTAGGCGGGCAACTCATAGGTTCAACTGCCAGTCCCTGAC -GCTGTAATTTTTCACCGCTATAAACCTGCACCCAGAGTTGATCGGAACAAAGGCTTACCGAAAGCGCCTGCTGTG -GATGGGTAATGGTCATTTCCCACAAATCATTAGCGGTTTTAAAGGTGTGGTCGATTTTTGTCGCGGCTATTTTTT -TCGCCTGCGTGAAATTTAAATCCAGCTCATCAACGTGGTGAAGCGTTGTCGGATTCGCGTGCTCATCGACGGCAT -AAACCTGGTTTGCCGGAAGCTGGAACAGATATTCATCAACAGATGTTAAGTTGCAGGTTAAATAAGGATGAATAC -CCACGCCATAAGGCGCTGCGACAGTGCCGATATTCTGGCTTGCGATCTCAACGGAAAGACCCGTGTGTGCGTTGA -GCGAATAAACAACTTGTGAAGCCAGCATAAACGGATAGCCGTAACTGGGCGGCAGAAAAGCTGTCAGGGTAACGC -TGGTGGCGGTTAATTCACTAATTTGCCAGTCTCGCCAGGCAAGCAGCCCGTGAATAGCGGCTTTTGAACTATGTT -CATTAATGGGTAACTGATATTCCTGCCCCTGATAGCGGTAACAGCCGTTGGCGATCCGGTTCGGCCACGGAATAA -GCACTTTACCCAGATGCGCCAGCGGCATCTCTTCGGGTTTGTGCGGGATGACTAAATGACAACCCTGAAAGGTTA -ATTCAGCCAGACCAGCACCGACGGTCACAATGGTCGCGTGATAATCCCCCGCGGCAAGTGAAACGGTCTGTCCAC -TGCAATGCATATTGGTGATTTGCATACAAGGCACCTTAATTAACGACATACAGCCTCCCGTGAGGCTGATGTCAA -ACCCAAAAACTGCACCGGACGGTCCCCTCGCCCCTTTGGGGAGAGGGTTAGGGAGAGGGGAAAACCCGCACCCTA -TTTTCAGATCAGTTATTTCGCATTAATATCCAGCAGACCCGCTGCAACCGCTGGAGCCATGCCGGGCGCTAACGG -GATACGCGGGATCACCAGGCAATGCAGCAGGTGATAAATATCCTGTTTGCCGTCCCAGACTTTGGTGGTGACCTT -ATTGTCCGCATCCAGCTCCTGCCACCAGGAACCATTTTCATAGTCCATCAGGTACTTAATGCAGTACTCCCACCA -TGTTTGATACCAGGTTTCATACTGGCGATCGCCAGTGACGGTGTAGAGCGCGTAGGCCGTACCCATTGCTTCGAC -GATAGGCCAACGTACACGTTCGCGGACCACCGGTTTTCCTTCCCAGTCAACGGTATAAACAATCCCGTCCGCGCC -ATCGGGTGCCCAGGCATCGCGCACGGTGGCGTTAAACAGACCTTTGGCATCTTCTAGCAGCCATGCTGGTGGTTG -TTCGCAACGGGCTTCCAGGGCAGCATGGATGTGCAGCATTAAACGGCCCCATTCGATCCAGTGGCCTGGTGTACC -TCCGAACGCGCGGAAGCGATGCGCCGGGTTATCTTTGTTGTAATCCGGCAGCGGATTCCACTGGGTATCGAAGTG -TTCGTTAACGCGATAATGATTATTTCTGGCGACGTCGTGGATAATCACGGAAGCCACGCGAATCGCGCGATCCAG -CCATTTTTTGTCGTGAGTGACGTCATAAACAATCAAGAAAGCTTCCACCGCGTGCATATTGGCATTGCCGCCGCG -GTACTCTTCGGTTTTGCTGAAGGCTTCGTCCCAGGATTCCAGGCACATCTGCTCTTCTTCGCTCCAGAAATATTT -CTCGATAATTTCAATGGTGTAATCGAGCAGCTTGCGCGCTTCCGGGTGACCCGTTGTGACGGCGCTGGCGGCACC -CAGCAGAGCAAAGAAGTGTTGATAGCCCTGTTTGGAGGCATCCACCACGCCCTCGTCATTCACGCAGGCATACCA -GCCGCCATATTTTTTATCACGCAGTGCGCCGTTCATGGCTTTGATACCGTGATCAACCAACGAGTAAGCGCCAGG -TCGACCCATCGCCGCAGCAACGGAATAAACGTGCAACATACGAGCGGTGATCCACAGATGGGTGCCCATCTCTTC -TTTGATTTGCCCTTTATTGCCTAACCAGCCAAAACCAGTCGGCACTACGGAATTTTTACCAAAATCAAAGATGCG -GTCGGTTTCCTGTTCCAGCCAACGGTTGTGGCTTAGGGTGTTAAACCATTTCATTCCTTTTATCCTCATCTTAGC -GGCGTTTAGCCATCATTTCGTCGACGATATCGCCAAGTTGTTGTAATTTCGGTGCGCAAACGTCACGCAGCATCA -GCTCGTTGTCTGGTAAACCGACGACCGATGCCCAGACTGCACGGCCTGCCAGGAATCCCGATGCGCCCGCCGTCA -TTGCCACGCGTACGGCACGCGGGAACAGTTTTTCGTCGACACCGGAAGAGAGGATCACCCATGGCATATTGATAT -GGTCATTCAGACGTTGTGAAGCACAGAGAAGCTCTTGTTGCGGACCTTTGCCATAAAGCGGCATTTCAACTTTGT -AGAGGTCAGCGCCACTGTCGCCCAGCTCTTTGGCGGCATCGATGATCGCTTGTTCGCGATCGAATTTATCGCCAC -GACGCGGTGGGCGGACGACTGGCTCAATGATGCTTACCAGACCGTGTGAGTGGCACAGTTCGTTGAACTCTTTCA -CCATATCCAGACGTTGCTGCGCATCTTCATCACTACGCCACAGCACCAGCAGTTTTAAGGCTTTGCCACCGTCTT -GTTTGATCTGTAGCGGATTGATTTTGCGGTCAATAACCACGCTATCGACCGGAATACCGTTGCCAGGAATGAACT -CATCGGCGGCGACAATCATGGCGCAACTTTTGGCAATCGCGTTTTGCTCAACCACCTGGCGGTAGCAGAATTGTT -GATCTACCAGAATCGCCGAGGCATAAGGCGAGAGGGCCTTTGCAGCGTTAACTTTGAAATCAGTTAAAACGCTAT -CGGCTACCGGAGCGGGTGCCCCAGCCGCGGCAAACATCATGCGCATGGCTTCGCGCTGATCGACCGCCAGCATGG -CAAAACCGCCCGATGCGCGCGTAATGTCGTTGATGGTGTACTTATTCATTCATTTATTCCTTTATCCAGTCGTTA -CATTTTTACTTTGGCAGTCATCCCGGCACTGACACGGACCTGTTCCAGAATGGCGGACCAGTCCTGGCGACCGCG -ACCCGCTGCGCGCGCCTGGCTATAAACCTCCCGTGAGGCGGCCCCCAGCGGCATTGGCACATGCAGCTGGTTGGC -GACATCAAGGGCGATGCCAAGATCCTTATGGGCAAGATCGATCATGAAGGCGGGAGAAAGATCTCCGCTGAGGAC -TTTGTTTGGCCAGGAAGTGGTGAAGTGACCTTTACCGGCGGCGGTACCGCTCATCACTTTGACGGCAACATCGAA -GGGAAGATTCAGGGCTTCGCACAAAACGGCGGCTTCTGCCGAAAGCGCATTGAGCGCGATGCTCATGTAGTTGTT -GATGAGCTTAACGCGGATCCCCATGCCCGGACCGCCAGCGTTGATCAACTCACTGCCCATCGCCATCAGGATCGG -TGTGGCACGTTCAACTTGTTCAGCGGTGCCGCCAGCCAGCAGTAACAGAGTACCGGTAATGGCATTTGCAGAAGT -ACGGCCTACCGGAACATCCATCATGCTGAAGCCTTTGGCTTGCATATCGGCAATCAATTTATCGGTTTGCAGCGG -ATGGATGGTGGACATATCAATGACCAGCGCATCGGTAGATAAGCCTTCGCAAACGCCGTTTTCACCGAACAACAC -GTTGCGCACCAGATCGCCATTCGGCAACATGGTAATGATAAATTCGGCATCTTTAGCGGCCTGCGCCGGGTTGGC -GGCGGGAGTCGCACCTTTGTCTACCAGATGCCGCACAGCTTCGGCGTTCACATCAAAGACGCGAAGTTGATGCCC -TTGCTGCAATAAATTGCTCGCCATTGGCGAACCCATTTGTCCTAAACCGATAAACGCGATTGCTGCCATAACCCT -CTCCTGAATACAGTTATGTCACTTTTTGTCATTTATGACATGCTTTGCTTGTCTGTTTTTGATCGTATTTGTAAT -TTATCGTCAAAAAATTGACAGCCGTCACTTTTTAAACAATTGGTGAAATTAAAATGAACGCATCCCAAAATGTTT -AAGGAATGACCATGATTCGTGTTGCTTGTGTAGGTATAACCGTGATGGATCGCATCTATTACGTGGAAGGGTTAC -CGACGGAGAGCGGTAAATACGTGGCGAGAAATTATACGGAAGTTGGTGGCGGGCCAGCGGCGACGGCAGCGGTTG -CGGCGGCAAGGCTGGGGGCGCAGGTCGATTTTATTGGTCGCGTAGGTGATGACGACACGGGCAACAGCCTGCTGG -CAGAGCTGGAATCCTGGGGCGTTAACACCCGTTACACCAAACGGTATAACCAGGCGAAATCTTCGCAATCCGCCA -TCATGGTGGATACCAAAGGCGAGCGGATAATCATTAACTACCCCAGCCCGGATCTGCTGCCTGACGCAGAGTGGT -TGGAGGAAATTGATTTCTCTCAGTGGGATGTTGTGCTGGCAGATGTACGCTGGCACGACGGCGCTAAAAAAGCCT -TCACCCTGGCCCGTCAGGCGGGTGTGATGACCGTTCTGGACGGGGACATTACGCCGCAGGATATCAGTGAGCTGG -TGGCATTAAGCGATCACGCGGCCTTTTCAGAACCGGGTCTGGCGCGCTTAACGGGCGTGAAAGAGATGGCCAGTG -CGCTAAAACAGGCACAAACGCTCACAAATGGTCATGTCTATGTGACCCAGGGTAGCGCAGGCTGCGACTGGCTGG -AAAATGGTGGGCGTCAGCATCAACCGGCCTTCAAAGTTGATGTGGTAGATACCACAGGTGCGGGTGATGTTTTTC -ACGGCGCTTTGGCGGTGGCGCTGGCAACAAGTGGGGATTTAGCGGAGTCAGTCCGCTTCGCCAGCGGTGTAGCGG -CGTTAAAATGCACACGTCCCGGTGGACGAGCCGGGATCCCTGACTGTGATCAAACCCGATCTTTTTTGTCACTTT -TTGTATAAAATGCCAGGGTGATGGTTTTTCGAGGAATTTTCATGAGCCTTACCGAACTAACCGGTAACCCGCGGC -ACGACCAACTCCTCATGCTGATCGCCGAGCGTGGGTATATGAATATTGATGAGCTGGCAAATCTGCTGGATGTCT -CCACGCAGACGGTCCGCCGGGATATTCGTAAATTAAGCGAGCAAGGCCTGATTACGCGCCATCACGGTGGCGCGG -GTCGGGCTTCCAGCGTCGTTAATACGGCGTTCGAGCAGCGTGAGGTTTCGCAAACCGAGGAAAAAAAAGCGATTG -CCGAAGCGGTGGCAGACTATATTCCTGATGGTTCAACAATATTTATCACCATTGGTACGACTGTTGAGCATGTTG -CCCGGGCGTTACTTAACCATAATCATTTGCGGATAATCACCAACAGCCTGCGTGTGGCGCATATTCTTTACCACA -ACCCGCGCTTTGAAGTGATGGTGCCCGGCGGTACGTTGCGCTCTCATAATAGCGGGATCATTGGCCCTTCAGCGG -CGTCCTTTGTGGCTGATTTTCGTGCTGATTATCTGGTAACAAGCGTTGGGGCGATTGAGAGCGATGGCGCGTTGA -TGGAGTTTGATGTAAACGAAGCTAACGTGGTGAAAACGATGATGGCGCACGCGAGAAATATTCTGCTGGTCGCCG -ATCACACTAAGTATCATGCTTCGGCGGCGGTTGAAATTGGTAACGTGGCACAGGTCACTGCGCTCTTTACCGACG -AGCTGCCGCCCGCTGCGCTAAAATCACGCTTACAAGACAGCCAAATTGAAATCATTCTTCCCCAGGAAGACGCGT -AGATTTTTGTGACCGTTAACCTGGCTTCATACCTTGCCACATAGCCAAACCCATCCTTTCCCGCTACAGTTAATT -TCTTGTGGCGCGAAAGGAGGCAAAAATGCTCTATATCTTTGATTTAGGTAATGTGATTGTCGATATCGACTTTAA -CCGTGTGCTGGGAGCCTGGAGCGATTTAACGCGTATTCCGCTGGCATCGCTTAAGAAGAGTTTTCATATGGGGGA -GGCGTTTCATCAGCATGAGCGTGGGGAAATTAGCGACGAAGCGTTCGCAGAGGCGCTGTGTCATGAGATGGCTCT -ACCGCTAAGCTACGAGCAGTTCTCTCACGGCTGGCAGGCGGTGTTTGTTGCGCTGCGCCCGGAAGTGATCGCCAT -CATGCATAAACTGCGTGAGCAGGGGCATCGCGTGGTGGTGCTTTCCAATACCAACCGCCTGCATACCACCTTCTG -GCCGGAAGAATACCCGGAAATTCGTGATGCTGCTGACCATATCTATCTGTCGCAAGATCTGGGGATGCGCAAACC -TGAAGCACGAATTTACCAGCATGTTTTGCAGGCGGAAGGTTTTTCACCCAGCGATACGGTCTTTTTCGACGATAA -CGCCGATAATATAGAAGGAGCCAATCAGCTGGGCATTACCAGTATTCTGGTGAAAGATAAAACCACCATCCCGGA -CTATTTCGCGAAGGTGTTATGCTAAAAACCATTCAGGACAAAGCCAGGCACCGTACCCGTCCACTATGGGCCTGG -CTAAAACTACTCTGGCAACGCATTGATGAGGACAACATGACAACCCTGGCAGGTAACCTTGCCTATGTGTCGTTG -CTCTCATTAGTGCCGCTGGTTGCCGTTGTTTTTGCGCTTTTCGCCGCTTTTCCCATGTTTTCCGACGTCAGCATT -CAGTTACGTCACTTTATTTTTGCCAACTTTCTGCCTGCTACTGGCGATGTTATTCAGCGGTATATCGAACAATTT -GTTGCCAATTCCAACAAGATGACCGCCGTTGGGGCGTGCGGGCTGATCGTCACCGCGTTATTGTTGATGTACTCC -ATCGATAGCGCGTTGAATACCATCTGGCGCAGTAAACGAGCGCGACCAAAAATTTACTCGTTCGCCGTGTACTGG -ATGATTTTAACGCTGGGGCCGCTGCTGGCAGGGGCCAGTCTGGCGATCAGTTCCTATTTGCTCTCCCTGCGCTGG -GCGAGCGATCTCAATACTGTCATCGACAACGTGCTGCGTATTTTTCCGTTGCTGTTGTCGTGGATCTCCTTCTGG -TTGCTGTACAGCATTGTTCCTACCATCCGCGTACCTAACCGCGACGCGATTGTCGGCGCGTTTGTCGCCGCACTC -CTGTTCGAAGCAGGAAAGAAAGGTTTCGCGCTTTATATCACCATGTTCCCGTCATATCAGCTCATTTATGGTGTG -CTGGCGGTGATCCCCATTCTCTTTGTTTGGGTCTACTGGACATGGTGTATCGTCTTGCTTGGCGCGGAAATTACT -GTCACTCTCGGGGAATACCGCAAACTAAAACAAGCAGCTGAACAAGAAGAAGACGACGAACCATGATTGCATTAA -TTCAACGCGTAACCCGTGCCAGCGTCACCGTGGAGGGAGAAGTGACGGGCGAAATTGGCGCGGGACTTTTGGTGT -TATTGGGTGTCGAAAAGGATGACGACGAACAGAAAGCAAACCGTCTGTGCGAGCGTGTGCTCGGCTACCGCATCT -TTAGCGATGCCGAAGGCAAGATGAATCTCAACGTGCAACAGGCGGGCGGCAGTGTGCTGGTGGTTTCCCAGTTTA -CCCTCGCCGCAGATACCGAACGGGGGATGCGCCCAAGTTTCTCCAAAGGTGCATCACCGGATCGCGCAGAGGCGT -TATATGACTATTTCGTCGAACGCTGCCGTCAGCAAGAGATGAACACGCAAACAGGACGCTTCGCTGCGGATATGC -AGGTATCGCTGGTCAATGATGGCCCCGTGACATTCTGGTTGCAGGTATGAGCCAGCTTCCAGGGTTGTCACGGGA -AACAAGAGAGAGTATCGCTATGTATCACCTTCGGGTTCCACAAACAGAAGAAGAATTAGAGCGTTACTATCAGTT -TCGCTGGGAAATGTTGCGTAAGCCCCTGCATCAACCAAAAGGTTCGGAACGCGACGCGTGGGATGCGATGGCGCA -TCACCAGATGGTCGTCGACGAGCAGGGTAATCTGGTGGCGGTAGGCCGACTGTATATTAATGCCGACAATGAAGC -GTCCATTCGCTTTATGGCCGTTCATCCCGACGTGCAGGACAAAGGGTTAGGCACGCTGATGGCGATGACCCTGGA -GTCGGTGGCGCGTCAGGAAGGCGTTAAGCGCGTGACCTGTAGCGCCCGTGAAGACGCGGTGGAGTTTTTCGCCAA -GCTGGGGTTTGTTAATCAGGGAGAAATCACCACGCCAACCACCACGCCGATTCGCCATTTTTTGATGATTAAGCC -CGTCGCCACTCTGGATGACATTCTGCATCGCGGCGACTGGTGCGCGCAGCTGCAACAGGCGTGGTACGAACATAT -CCCGCTTAGTGAAAAAATGGGCGTGCGCATTCAGCAATATACCGGGCAAAAATTTATCACTACCATGCCAGAAAC -CGGCAATCAGAATCCGCACCATACGCTGTTTGCCGGGAGTTTATTCTCACTGGCGACGCTCACTGGTTGGGGACT -TATCTGGCTGATGCTGCGTGAACGCCACCTCGGCGGAACGATTATTCTTGCGGATGCGCATATCCGCTACAGCAA -GCCGATTAGCGGTAAACCTCATGCGGTAGCCGACCTCGGTGCCTTAAGCGGCGATCTCGACCGTCTGGCGCGCGG -ACGAAAAGCACGGGTGCAGATGCAGGTCGAAATCTTTGGCGACGAGACGCCGGGTGCAGTGTTTGAAGGCACGTA -TATCGTTCTGCCCGCGAAGCCATTTGGCCCGTATGAAGAGGGCGGGAACGAAGAAGAGTAGCTGATGGAGAGGGG -CGGTGCTGCCTCTCTCATTCAGGTCATTTATATTAGTCCTTGGCTATTTCGGTTATATTAAATAAGAACTCTATA -AATTTTTATTCTTCGTTGGCTCCATACGTGTCTTGCTACATCACTGTTCAGGAGCATTTAAATATTATTTGTAGA -ACTGAGTGGCAATTATCGCAGATAATGCTTAATTCATCATCTTAGTTCATGTTTGAGCGATTTTTGATAGTCAAA -ACCCCCTCTGGTGCCATACTTTTCTCATAAATATTTTTAAAATCTATAGCTAACAAATATTATGCAAAGATAATG -GACTAGCATCATTGTCAGTATCATTCATTTACTGCTCTGTATGTTATGAATAATTATGTTGTATGTTTGCTCTTA -AACCGTGGGAAGGAGGCTATAATGGTTGCCAATATTAATCTCATTAAACAAGAAAGTTATTCTGTTGTTAATTTA -GAAAAACAACTTTCCCGAACTGTTACCAACAAAATTATAACGATGAGCAAGTAAAGACCGGTTGGTGGCAGTACT -GACCGGTCTGTGATGAAAGATTAATTTCACCTTAAATCCTGGTGCTGTTAGGATGCTGACGTTTTTCGGCTACAC -CATTCAGATTATGCAAATAAATATCTCTGAATATAATATATTCATAGCACCCATAATTCATCCTGGGCGATAACT -AAACCATTTTTGAGTAATAAATGAAACAACTGCAACACTCTTATTATTTCTGGAAAACGCCTCGCAAAAACAAAA -CAACATGCAAAAATCCGCTTTTTTTAAATGATTTTCCGGCGTAATTTTCGCACATACATTAATGAGTAATATATG -TAAGGTATTGGTAATGGCGATGAATACGGTTTTTCTTCATTTATCAGAAGAGGCAATTAAACGGCTGAACAAGCT -TCGGGGCTGGCGTAAGGTTTCACGATCTGCAATTTTACGCGAAGCGGTAGAGCAATATCTGGAACGTCAGCAATT -CCCGGTGCGTAAAGCAAAGGGAGGCAGGCAAAAGGGGGAGGTAGTTGGTGTTGATGATCAGTGTAAGGAGCATAA -GGAATGACAAAAATTTTTCATTCTTGAATATAAAAAACAGATGCCCTTATTCTGGTATTAATACAAGGCTGTTTT -ACTTGAACTTATAATAACTGCAACTGTTACATCATATCTGGAAAACGCCTCGCAAAAATAAAAAATGATGCGTAA -ATGAGCTTTCTTTAAAGATTCGGCAAGGGTACTTTTCTCTCCATAGATTCAAAAATGATATTGGCGAGATATTTA -TGAACTCTCTGGCAGGTATAGATATGGGCAGAATTTTACTCGATTTATCGAATGAGGTGATTAAGCAACTTGATG -ATCTCGAGGTGCAGCGTAATCTTCCTCGTGCGGACCTATTAAGGGAAGCGGTAGATCAATACCTGATAAATCAAT -CGCAAACAGCAAGAACCAGTGTTCCTGGCATCTGGCAAGGGTGTGAGGAAGATGGTGTCGAATATCAGCGTAAGC -TGCGCGAGGAATGGTAATGGGAAAAAATGATGTCAATCAGATTGCTGACAACGTGCGCGTTGTTCATGCCGGATG -CGGCGTGAACGCCTTATCCGGCCTACAAAGTCGTATAAATTCAATGTATTGCAGTTTATTGGTAGGCCTGATAAG -CGCAGCGCATCAGGCAATCTTACGCTTGTCATCAGTCTCATGCCCATAACCTTATTGATGTGGTGGTGGGTAAAT -TGAGGCCAAACCGGCACTGGCGGCATAGCTTGAGGTGGTAACGCGGAATACGAGAGATGGTGTCGTCACACCCTA -TGAGCTGTAATCCGGGCGACCTGCGCCACCCGGAAAACGTCAGAGATTACTCTCCTTCACCCGGAAACAGGAACG -GGTTGATGGAACTGCGGGCATAGCCTTCTTGCTCCATTCGTGCGTCCAGTACCAGAGAGGCGAGGTCATCTGCTA -CGGCTTCGATTTTTGGATCTTTTTCCTGATAGAGAATTTTCAGGTAAGTGTCGCAGTCATCGCAGCTTTCGGCTT -TAATCGCGGCCTGTTCGTCATCCAGCGACCAGTAATGCAGTTTGCCGCTCTGCTCGCAGTTGCTGCATTTTACGC -GCACTACGTGCCATTCAGTTTCACACAGGTTGCAGTGCAGGTAACGTAGCCCCTGAGTGGTGCCAATTTGCACCA -TGCTGGACACCGGCATAGAACCACAAACCGGGCAATATTGACGTTGCTCGCCGTATTCAGCGCGGGCTTTGCCGG -GGATCAGATTGGCCATCTGCGCCCAGTAGAGCGACAGTGCAGCCCAGATAAACGGCGCTTTATCGCTGCTGACGG -ACGAGAAATCAGAGGCAAACAGCGCGCTGGCCATATCTTCCAGCTCCTGAGTCGATGCCTTCTCCAGATTCTCAA -TCACTGCCAGCGCCGGGCCGCTCATTTCAGGTTTCAGCTCAGCAATCAGCGCCATCAGCAGCTTTTGCCAGTGCT -TATCACGCGGCAGAACGTGAATATCCAGCGGGGGCTTGCCTTGTGCGCTGGCTTCTTTAATGCGCGCAGTCAGAT -CCATCTCCAGCGGATGGTCGTACAGCACCACTTCCTGGGCGTGGGCGATAAGCGCAGCAAAGCGCAGGTAATCAC -CCAGAGGATTATTTTCTGCCAGCTCGCGCAGACGCTCGGCGCGGCGGTTGTATAAATTCTTGAGCCGAGGGAACA -ATAACGGCGGAATCATATCCGCCGTACGTTTCTCGCTTGAACCCAGCTCATCTTGCGGGATTATGCGAATACTCA -TTCAGCTTTCTTTTCCGTTGTCTTGCGGACCTCACGGTACCAGCGCGGGTGATGTTTCTTCGCCCAGGCGCTGGT -AACCCATCCTTCCACCATGGCGGTAATCGTGCCTTTCACCCAAAGGGCGGCGTAGATATGCACCATGATAACCAC -AATTAACGCCACTGCGGCAAATGAATGCAGCATTAACGCGAATCGGATCACCGGGATTGAGAAAGCAGGCGCAAA -ATAAGGACGCCAGATAATCACGCCGCTCACCAGCAGCAGAACCAGGAAAATAATCGCCGCCCAGAAAACGCATTT -CTGACCGAAGTTATAACGCCCGGTGTCACCTACTTCCTCGTTGACGACGATCTTACGAATATTCTTCGCCCAAAA -GATATCATCCCGATTGATTAGGTTGTGATGCCAGTAACGGAAAAACATGATGATGAACGAGGCAAACATAACCAC -GCCGACAAACGGGTGCAGAATTCGCGCCAGCTGCGGTGTGCCCATGATTTGCATCAACCAGTTGAAGGACGGGAA -CAAAAAGCCCAGCCCGCTCACCGCCGCCAGGATGAAGCAGAAGGCGGTGATCCAGTGGTTGATACGTTCCGGCGC -GGTGTAGCGCACGATGGTGTCACGTCGTTTCATTTGCGCTCCTCGTCTTTCTCTTCGTGCAGATTATTCTCTTCC -TCATCCGCACGGTTCGGACCGACACCCACGTAGTGGAAGATACTGGCCGCAAAGGTAGCCGCAAAGCCAACAGCC -GCGAGCGGTTTCCAGATGCCTTTCCAGAATTTCACGGTTTCGCTGATTTCCGGGTTCTCCGGCAAGCCATGATAC -AGATTTGGCTTGTCAGCATGGTGCAGCACGTACATGACGTGTGTACCACCGACGCCTGCCGGATCGTACAGACCC -GCATTGTCGTAACCGCGGGTTTTCAGCTCAGCAACGCGCTCGCTCGCCAGCGTTTTCATCGACTCTTTCGTACCG -AAGTGAATCGCGCCCGTTGGGCAGGTCTTCACGCAGGCTGGTTCTTGCCCAACCACCACGCGGTCAACGCACAGC -GTACATTTGTAGACGCGGTTGTCTTCCGGGTTGAGGCGCGGAATGTCGAACGGACAGCCCGCAATGCAATAACCG -CAGCCAATGCACTGCTCGGACTGGAAGTCGACGATACCGTTGGCATACTGAATAATTGCACCTTCCGCCGGGCAC -GCTTTCAGGCAGCCTGGATCGGAACAGTGCATACAGCCGTCTTTGCGGATCAGCCATTCCAGTTTGTCGTTCTGC -TCCACTTCCGAGAAGCGCATTACCGTCCACGATTTGGCGCTTAAATCATTGGGGTTGTCGTACACCCCAATGTTA -TTGCCGACGGTATCGCGAATGTCGTTCCACTCTGAACACGCCACCTGACAGGCTTTACAGCCGATACAGGTGGTA -ACGTCGATGAGTTTCGCCACTTCTTCCTGGAAGTCCCGCGCCTGAGGCGCGGGGGTCAGACCGTTAGTCGCGGAA -CGACGAATGATATCTTGAGATTGATAAGCCATATGTCGTCTCCGTTACACCTTTTCCACATTCACAAGGAAGGAC -TTAAACTCCGGCGTCTGCGTGTTCGCATCACCAACGAATGGCGTTAAAGTATTGGCAATAAAGCCTTTTTTAGCT -ACGCCTTCATAGCCCCAGTGAATCGGAATACCGATGGTATCGATATCTTTGCCGTTCGCTTTCAGCGTGCGAATA -CGTTTGGTCACCACCGCTTTGGCTTTGATATAGCCACGGTTGGAGGAGACTTTCACGGTATCGCCCTGGGCAATG -CCAAGTTTATTCGCCAGCGACTCCCCGATTTCCACAAACTGCTCTGGCTGCAAAATCGCGTTCAACAGCGCGTGT -TTGGTCCAGTAGTGGAAGTGCTCGGTCAGACGATAGGTGGTTCCGACATACGGGAACTTATCGGCTTTACCCAAT -GCTTCGGCGTCGTCTTTAAAGATACGTGCAGCCGGGTTCGAGATAACGTTTGGATGCAGCGGGTTAGTTCCCAGC -GGCGTTTCAAACGGCTCGTAGTGTTCCGGGAACGGACCTTCCGCCATCTTATCGAGGGCAAACAGACGCCCCATG -CCTTCCTGCTGCATGATAAACGGCCCGACGCCGCTACCCGGAGGCGCTGCGCTGTAGTCCGGAATATCCCAGCCG -GTCCACTTAGTGCCGTCCCATTTCAGCAACTGACGCTTCGGATCCCACGGGTTACCCTGCGGATCTGCGGAGGCG -CGGTTATACAGAATGCGGCGGTTAAGCGGCCATGCCCATGCCCAGCCCAGCGTGTTACCGAGGCCAGACGGATCG -GCGTTATCACGGCGTGCCATCTGGTTGCCTTCCGGCGTCCAGCTACCGGCGAAAATCCAGCAGCCACAGGAGGTT -GTACCGTCATCGCGCAATTGGGCGAACGAACTAAGTTGTTGGCCTTTCTTGACGATAACCGCACCGGTTGCCGGA -TCGGTAATATCGGCCAGCGCCTTACCGTTGCTCTCCATCGCCACTTCTTCTGAAGATGGCTCATGCGGAATGGCG -TAGTTCCATGTCATGTTCAGCACCTGGTCCGGGTTCGCGCCACCCTGTTCGGCATACATCTTGCGCAAGCGCAGG -AAGATACCGGAGAGGATCTCGCCGTCAGTCAGCGCAATCCCCGGGGCGTCCGCACCTTTCCAGTGCCACTGTAAC -CAGCGACCTGAGTTAACGATAGAACCGTTCTCTTCCGCGAAGCAGGTCGATGGCAGACGGAACACTTCGGTCTGG -ATCTTCGACGAGTCAACTTCGTTCAGCTCACCGTGGTTCTGCCAGAAGTTAGAGGTTTCAGTGTTCAGTGGGTCG -ATGGTGACGAGGAACTTCAGTTTCGACAGACAACCGATCACTTTGTTTTTGTTCGGGAATGAGGCAACAGGGTTA -AAGCCCTGGCAGATATAGCCATTGACCTTGCCCTCTTTCATCATCTCGAAGTATTGCAGGACGTCGTAGCCTTTA -TCCCACTTCGGCAACCAGTCAAAGCCCCAGCTATTTTCCGCCGTCGCTTTATCACCAAAGAAGGCCTTCATCATA -GAGACGAAGAATTTCGGGTAGTTGCCCCAGTAGTTTACCTGGCCTTCCAGCAGCGGTTTTGGCGTGTTGGCGGTA -AGGTAGGTTTGCAGATCGGTCTGCTTCTCGCTTGGCAGCGTCATGTAACCTGGCAGGCTCTGCGACAGCAGCCCC -AGGTCCGTCAGCCCCTGAATATTGGAGTGACCGCGCAGGGCGTTAACGCCGCCGCCTGCCATCCCCATATTGCCG -AGCAGCAGCTGGATCATCGCCATCGTACGAATGTTTTGCGCACCAACGGAGTGTTGCGTCCAGCCGAGGGCATAC -AGGAACGAGGCAGTTTTATCGTGAGCACTGGTTTCTGCGATGTATTCGCAGACTTTCAGGAACGCGTCTTTTGGC -GTACCACAGATGTTTTCAACCACATCTGGCGTGTAGCGGGAAACGTGCTGTTTCAGCAAGTTCCACACGCAGCGC -GGATGTTGCAGCGTGGTATCGCGTTTGGCGAAGCCGTTTTCGTCCAGTTCATAAGTCCAGGAGGATTTATCGTAC -TTGCGTTTTTCCGCGTCGTAGCCGGTGAACAGGCCATCTTCAAAGCCGTAATCCTCACGCACGATCAGGCTGGCG -TTGGTATAGGCTTCGGTGTATTCGCGGTTGAATTTTTCATTGTTCAGCAGGTACAGCAATACGCCTGACAGGAAA -GCAATGTCAGTACCGGAACGAATAGGGGCATAGTAGTCAGCTACCGCCGCCGTACGCGTAAAGCGAGGATCGATC -ACAATCAGCTTCGCGCCGTTGTGAATTTTGGCTTCCATCGCCCAGCGGAACCCGACCGGGTGAGCTTCAGCGGCG -TTACCGCCCATCACCACGACGAGGTTGGCGTTCTTGATGTCGACCCAGTGGTTGGTCATCGCACCGCGACCAAAT -GTTGGAGCAAGACTTGCTACCGTTGGTCCGTGTCAGACACGCGCCTGGTTGTCGACCGCGAGCATACCCAGCGCG -CGGGAGAATTTTTGCGTTAAATAGCCGGTTTCGTTACTCGACGCGGAAGCACACAGCATCCCGGTGGAGAGCCAG -CGGTTAACAGTCACGCCTTCGGCGTTTTGCGCAATGTAGTTAGCATCGCGGTCTTCTTTCATCAGTTTGGCGATG -CGATCAAACGCCTCTTCCCAACTGATTTGCTGCCATTTATCAGAACCTGGCGCACGGTATTCCGGAAACTTCAGA -CGGCTTTCGGAGTGGATGAAATCCACCAGGCCAGCGCCTTTCGGACAAAGTGCACCGCGGTTGACCGGGTGATCC -GGATCGCCTTCGATATGGAAGATAGATGCTTTGGCGTTTTTTGCTCCGTCACCGAGGCTGTACATCAACAGCCCA -CAGCCTACGGAACAATAGGTGCAGGTATTACGGGTTTCGCGGGTGCGCAGCAGTTTATACTGCCGGGTTTCCGCG -AGTGCTACGCTGGGTGCAAAACCCAGTGCCGCTGCCGTGGTGCCTGCCATACCGCCAGCGCAGATCTTAAAGAAC -TGCCTTCTGCTGACCTGCATGGATTGCTCCTTGTTTCGACATTGTCACGTCCCATTTACATTCGCTTGCTGCGTG -TGCAGGGAGTGGGAGTTATTTTTCTTTGCGGAAGGGGCCGCAAAGGTCCAGAATTGGCTCAATTTCCCTCCATCC -AGGAAGGGTTTGTAACAGAATACCATAATGTTGGTGTGTGTGTTCTTATCTGGTTAAGAGAAAGTGAAAAAAACA -CAGCGAAAAGAAATCGAAAATGTGACAAATATCACAGGTGTTCGTCAAATTGAGTTATGGCGGCGTGATGATTTA -CAACACCCACGGTTAGATGAGGTCGCGGAAGAAGTTCCCGTTGCGCTGGTCTACAACGGCATTTCGCATGTGGTG -ATGATGGCGTCGCCCAAAGACCTTGAGTACTTTGCGCTCGGTTTTTCGCTTTCCGAGGGGATTATCGAAAGTCCG -CGCGATATCTTCGGCATGGATGTCGTTCCTTCCTGTAATGGTCTTGAAGTACAAATTGAGCTTTCCAGCCGCCGC -TTTATGGGGTTGAAGGAGCGCCGCCGGGCGCTGGCGGGACGTACGGGCTGTGGCGTATGCGGCGTGGAGCAACTT -AATGACATCGGAAAACCGGTGCAGCCGCTACCGTTCACCCAGACGTTTGATCTCAACAAACTGGATGATGCATTA -CGTCATCTCAACGATTTTCAGCCAGTGGGGCAACTGACTGGTTGTACTCACGCCGCTGCCTGGATGTTGCCATCT -GGCGAACTGGTCGGCGGGCATGAAGACGTGGGTCGCCATGTGGCGCTGGACAAACTGTTAGGCCGCCGGTCACAA -GAAGGGGAAAGCTGGCAGCAAGGTGCGGTACTGGTTTCCAGTCGTGCCAGTTATGAAATGGTGCAAAAGTCGGCG -ATGTGCGGCGTAGAGATTTTGTTTGCGGTGTCTGCCGCGACCACGCTTGCTGTAGAAGTGGCTGAGCGCTGTAAT -CTGACACTGGTAGGTTTTTGTAAACCGGGTCGGGCAACGGTTTATACCCATCCGCAGCGTTTGAGCAATTAATTA -AAATAAGTCCTGCGAAATATATTAAATTGCAGGACTTATTCATTTCGTGAATTTTATTATTTTATTTATAAACAA -AATGCGTGTAGTGGCGTTTTCTTTTTTCATTTATTATGTTCACTCTCTTATCTATATATTTATAAGGCAATTAAA -TGAAAAGGAATTTATTATCTTCCGCTATTATAGTCGCCATCATGTCCCTCGGTCTGACGGGTTGTGATGATAAAA -AAGCCGAAACAGAAACGCTCCCGCCTGCCAATAGTCAACCTGCCGCACCAGCTCCTGAAGCGAAACCTACTGAAG -CTCCCGTTGCAAAAGCAGAAGCTAAACCTGAAACACCTGCGCAACCGGTGGTCGATGAACAAGCGGTTTTCGACG -AAAAAATGGATGTCTATATCAAGTGCTACAACAAGTTACAGATCCCGGTACAGCGCAGTCTGGCGCGTTATGCTG -ACTGGCTGAAAGATTTTAAACAGGGGCCTACCGGTGAAGAGCGTACTGTTTATGGCATCTACGGCATTAGTGAAT -CCAACCTCGCTGAGTGTGAAAAAGGCGTAAAAAGTGCTGTGGCGTTAACGCCTGCGCTGCAACCAATTGATGGCG -TGGCGGTGAGTTATATCGATGCTGCCGTGGCGTTGGGTAATACCATTAACGAAATGGATAAATATTACACCCAGG -AAAATTATAAAGACGATGCGTTTGCGAAAGGGAAAACGCTGCACCAGACATTCTTAAAAAATCTGGAAGCCTTTG -AACCTGTAGCCGAATCTTATCATGCGGCGATTCAGGAAATTAATGATAAGCGTCAGCTTGCGGAACTGAAAAATA -TTGAAGAAAGAGAAGGGAAAACATTCCACTACTACTCTCTGGCAGTCATGATTTCAGCGAAACAAATTAATAACC -TGATATCGCAAGATAAGTTTGATGCAGAAGCGGCAATGAAGAAAGTGTCTGAACTGGAAACGCTAGTGGCGCAGG -CCAAAGAAGCGGATAAAGGCGGCATGAATTTCTCGTTTATTAATTCGGCAGGCCAGTATCAACTCGAGGCTAAAA -AATACGTTCGCCGCATCAGAGATAAAGTCCCGTACTCTGACTGGGATAAAGAGCAACTTCAGGACGCAAACTCAA -GCTGGATGGTCGAAGACTCTTTCCCGAGAGCATTACGCGAGTACAACGAAATGGTTGATGACTATAATAGCCTGC -GTTAAACGTTTTTGATGATAAATGCAGTGTCGGATGCGGCGCATCCGACACAGTTCACCCCTTGTGAAGTAACTC -CATAAATGCCTCATATCCTGTTAACCCGGCAATAATCTCCGCCGGATGCTGACACAATATGCTTGCCAGATAGCT -AAATATTTTTAGCTCATGACGCGCATCGGCGGCGGCGCAGGCGATCAAGACATGGTTAATGACTTCGTTATTCAC -CTCAACTGGTTGGGCGAGGGTAATAAAAAATCCACGAAAACGTCGCTCCTGTTCGCTCCAGCAATGTGGGATGGC -GAGGCGATTAACAATCAGGTTTTCACCTTCGCCTTCGCGGGCGATGATGCGTTGTGCTTCATCGGCGGTAATATG -GTGTTGTGCGACTAATTGCGCACAAATTTGCCGGGTAATATGTTGCCAGCTTTCACCGCGTACATTCGAATAATG -AAAACTTCCGGGGGCAGAGAAAAAACGCTCCGGCTGTTGGCGAATAAATGCCGTCGCCAGAAAATGTTTTATTTG -TTCGATACCGGCAGCCGTAATGATATTTTTTACGGTGATGTAATTATTTACCGCGTCATCCAGTAAATAATGGCT -GTTGTTAATGATCAATAACGGCTCAATCTCTTCGCGAATGGCAACAAGTTCGCTTAAGCTACGGGCAATAATTAC -CCGACAATTTAAAACATCGCGCTCAATGGCGAGCTGATTAATAGTGGCAATCGCGTTCTGGTCCGAGAGCAAAAT -GATCGGCTGGCGTTCGTTTTGATGCCGCTCCAGCGCACAGGCAAAATACAAACCGATCAGATCGCTGTCGAAAAG -GGGAATATCGAGCTGTTCACGCAGTAGCGTAATAAAGTGCAGACTCATATCAAAGGCCGCAGGCCAGGCGGCTTT -CAGGTTATTCATGCTGCTCTGGCGGTGCTCAGCAATCCACACTGGTGCGGCAAGGCAACGTAATAAATGCCCGGT -AATATTCTCAACCAGCTGCGCATCAATAATATTCAATGACGCGATGCCCGGCACCCTTTGCAGCAACCCCTGCAC -ATTATCGGCTGAAATTACCTGCGCTTGCTGATGCTGTTTCTCTATCAAACCCGTCAGGGTTCTTACAGCGTTATC -ACCAAGAAACAGACCGCTATGTTCAACGATTTGTTTTATCTCGTCACCGGGATATTGCGGCCACTCATCGGTCAG -TTGATTACGCAGGGCGTAAATCGCCAGAATCAGGCTGGAGAGATAATCACCCTGCATGAGCGGCCAGCGGTGTTG -GTTGTCGCAGGCCGTGGATAAATGCTGAAGGTTGTCTCGTGTTATGCCCGCCAGCGGAATTAAAAACGGATCTTT -GCGCAGCAAGTTCGCCAGCAAGATAACGCGTTTCTCTTCTGTCTCATCAATGAAATGGCCCAAACCAGGGCGGCT -GGCCAGGCAACAAGTGCGTTCATAACGCTGTTTTAACCGGGGCAGACGCTCTGCTACCCACGTTTCTGGCAAATT -AAGCGCCGAGGCGAGTTGCGCACGGGGAGTGAAAGTATTCAGTAATAACAGCGCCAGCAGCCGATCGTCGTTATC -GTGCTTTTGCAGCAACTGAAAAAAGCTGCGGCGCTCGAAGATTTCCAGCTGATAGCCCGCACTGCCACTGGCGAA -AATGCGGGCTTTGCCGTTAAGGGTGAAGTTGAGATAGTCAATATCACGCAGGATGGTCCTGCCTGAAACGCCAGT -CTGTTGCGCCAGCTCGCCAGGCGTGCGCGGCTGTTGCTCCAGCAGATCGACAATCTTTAACTGGCGTTCGTTTAG -CATTAATCCACCTGACGGAACTGGCTAAACGCGTTGACTTTCTCCGCAGTTAAGGTCGTCAGAAAACCCCGTATC -AGCGTGAGCAGAGCTTCGTAATCGGCTTTTGAAATCATACCGCTGTTGGCGTGCAGATAACGAGTTGGCAGACAC -AGCGCGACAACCGGACGCCCGCCGCCCATCACGTTGTAGCGCCCGCCATCCGTCGCACCGGTTTTCATGGTGGAA -AATTGCAGCGGTAAATCGTTATGTGCGGCACAGCTTTTTAACGCTGCTACCAGTTTCTGGTTGGGGAAGTAGCGC -TTGTCAAACAGCATCAGCCCCGGCCCCTGGCCCAGTTTCAGCGGGTATTTAATGTTATCAATGCCCGGAACATCG -CCCGCTACGGCGGTATCCAACACGATCACGACGTCCGGTTTAATGTGTTCCGCCGAGGTTTGCGCCCCGCGTAGC -CCAACTTCTTCTTCCACACTGCCAACGCCATACAGCGTAATTTCGGGATTATTCACCGTCTGCAATAGTTCAGCC -ATCATTGCGCAGCCGATGCGGTTATCCAACGCCTTGCCGACCACTTTATCTTCGCCCCAGCAGGCAAAATTGGCT -TCCGGGCTAATAAAATTACCAATTTCCACGCCGCGCTTTTCCACCTCTTCGCGACTGTTCGCGCCAATATCAATG -AACATCTCATCAAATGACAGCGGTTGTTGCTTTTGCTTTTCCGTTAACGCATGAGGCGCGACGGAACCAATCACA -CCAGGGATTTTCACTCCCTTGTGTGTGCGTATGGTTACCCGGTGGTTGAGCATCGACTGATTCCACCAGCCGCCA -ATGGTGGTAAAACGCAGAAAACCGCTCTCGTCGATGTGGGTGACCATAAAGCCGACTTCATCCATATGTCCGACA -ACGGCAACTTTTGGACCTTTATTCCCCTTACGGGCAACAAAGCTGCCCAGACCATCGAAGGTGATTTCATTCACG -CAAGGTTCCAGCGTGTTTATCAGAATGTCGCGAACTTCCTGTTCATCGCCGCTGACGGCGCTGGCTTCGCACAAC -TGTTGCAGTAACTCAATGTTCATGGACAAGCTCCTGTTGCGCGGCTTTCGCTTTGCGGCGTAACCACAATCCTTT -CAGGACGATAATGAATGAAATGTTCAGCGCGAGGCCAATCGCCAGCACCAGATAAAACGAACCCACCGGCGACAT -CAGGCCGATCAGCGGGTCAAAGATACCCAAACCAGGTGCCAGACGTTTGATTCCGAAAGCGATCACCAGCACGCC -GGTAATGCCGCCCGCCAGCGTATTGGCGGTAATCATCGGCAACGGAGCTGCCAGAGCGTAAGGAATAGCCGGTTC -GGTTGCGACTGTGGCACCGACCACAATGGCACTACTGGCAGCCTCTTTTTCCTGTCGGGTAAACAGTTTGGGCGC -AATGAACGTCGCAAGACCCGCCGCGACGGGCGGCATCAGCGCGACAACGCCGACGATGGCGTACCAGTCATAAAT -GTGTTTTTCCAGCAGTGAGAAGCAGAAGAACCAGGCGGTTTTATTGATGGGGCCGCCCATATCGAACGCCAGCAT -CGCACCGACCAGAAACGCTGCCGCAAACTTCATTGATGGAGGAATGGTATTCAGGAAGTGGAGCAGCCCGCCCAT -GAGGTCGGACATCACCGGCCCGATAACGTAGTAAGTGAGCACGCCGAAAACCAGCAGAGTAACGAACGGGATCAG -CATTGAACCGAGCAGCGGTTGTAATGCTTTGCCAAGGCGCACTTTGCGGAACCAGAAGACGAAATAGCCAATCGC -CAGCCCCAGCACCACCGCGCCGAGGAATCCCGCACCCGACTGGGTGCCGAGCAGCGCTTTGTCGTTCGCCAGATA -GCAAACCAGAAACGCCGGAGCGAAAGCCGGTTTATCGGCAATCGACGAGGCAATATAAGCGCCCATGATGGGGAT -CATAAAGGTGAAGCCAAGGTAACCGATGGATTCAACTACCCAGGTAAACGACGGCGCGCCTTTCGACATATCGGT -ATACGGCAAACCGAACTGCACCAGCATGTTGGCAAGCGCCACCAGGATACCACCGCCGATGACAAACGGCAGCGC -CGCAGAGACGCCCGCCATCAGGTGGCTCATCACGCTACCGCTTTGCACTTCCTGTTTGCCAAGCTTCACGCCGCT -ATCTGCGGCAAAAAGCTGCGAGTTTGTCGGTAATTCGCTGAAAATCTGGTCGATATTTTTCAACGCCTGGGAGAT -GGCAATCTCATAAACTTTCTTCCCGGCAAACCGCGCGCGATCATCACCGCTCAGGCCACGCCCGGTAGCGAGAAT -GACGTAATCGGCAGCGGCAATCTCTTCGCTGGATAAGCGGTTTTCAACGCCACTGGACCCTTGAGTTTCCACTTT -TATGGTATGACCGAGAGAACGGGCTTTCTGTTCCAGGGCTTCCGCCACCATGTAGGTGTGAGCGATCCCGGCGGG -GCAGTTGGTGATCGCGACAATACGTAAGGATGACTCCATCGCCACTTCCTTATGAGCTGAGGGTTTGATTTAACA -AGGCAAGCACCTGGTCGGTATCGCCCTGTTGCAGTTGATGAATAAATTCCTTGTGAATAATTTTGCGACACAGTG -TGCCGATGATTTTGACCTGATCCTCTTCGCCGCTTTGCGGCACGCCGAGGCAGATCCAGCAATTGACGTCTTCGC -CATCGCTGGCTTTCCAGTCAATAGCCTGCGCTTTGCGGGCGAATAATACGAACGGTTGTTTAACGCAGGCGCTTT -TACCGTGCGGCACGGCGACACCGGAACCAAATCCAGTAGAGTGCATTTTTTCGCGCAGCAGCAGGGTTTGCAGGA -ACTGGTGTGAGTCGGTGATAAAACCGTTTTGTAACGCTATTGTCGCCAACTGCTTCAGAACGGAATAAGCGCCAT -TGCCCTGAATATTCAGGTCAATACAGCTTGCAGTAAGAGCTGCCATTAATCGGACTCCATAAAATATATTTTAAT -CAATTGTAATGGTGGAGCGATTAAGTGATGAGAGGCGATATGTCGGTAAACAATGACAATTTGAGACAGAGTGAA -AGGTCAGATTTGCGGAGTAATGCACATAATGGTTATTTAAATAAACCACATGAATCATTAATGGGTTATTCATTA -TTTTTGTGATTTACTCACAATGTATCAGGGAAATATAACTTACCGGGAGATGTAATATGTTTAATTTTTCAAATC -GAAATTTAAAATATTGTGCCGGAGGCATCTCTGGCACATTGGGCAATTACGGCAGGTAAAACACTTCTTGCAGCT -CGCTACTCACCGGGCTGTTATCCGGGTTAGCGGGCATAACATCGGTCATATATTTCCACCAACGTTGGCAAACAT -CAGTGCTGGCAACCGCATTCCAGCGTTCTTCAGATTCAATCTCTACCATGGCAAACAGCAGATTACGCGCTTTGT -CGAGATAGATGGCGTAGTTATGCGCACCGTGAGATTTCAGCACTGCTTCCAGTTCTGGCCAGATGGGATTATGCC -GACGCTGATACTCTTCGTGGGCGTCGGGGTTTACCTGCATGACAAAGGCTTTGCGGATCATGTTTGCTCCTTACA -GCGCCAGCGCACTGGCGAGTGGCGTAACGCCGAAACGCTTGCCGAGCGCTATCAACTCTTCACGGCTGATGGTCT -GTTTCATGCCGCCCATCGAATAAACCTTCACTAATACTTGTGCTGATTTTTCTGCGGTGTCGATTAAACCGAAGG -TTTCATCCAGCGTCGGTCCGCTGCCGAAGACGCCGTGGAAGGGCCACAACACCAGCGAATGTTTTTGCATCTCTT -GTGCGGTCGCCTGGCCGATTTCGTCCGTGCCGGGCACCATCCACGGCAAAATGCCAACGCCATCCGGGAATACCA -CCAGACACTCGGTGCTGCCTTCCCACAGTTGGCGAGTGAAGACCGCGGTGTCGTTTTCAAGTACATAGGTGAGGG -CGATCAGGTTGGTGGCGTGGCAGTGCATGATCACCCGATCTTTGCCGTTGGTGGCTTTAATGCGCTCGCAGTGGG -AAAGGAAGTGAGCCGGAAGTTCGGAAGTGGGGACGGCTTCGTTGGTTAACCCCCAAAGAATGTGGTAGCCCGCGC -CGTCGCTGTCGACTTTTACGATGCCTAAGTTAGCCGCAGGATCAAGCTGGACGTTACGGAAGAATTTGCCCGAGC -CGGTGACAATAAACGGTGTATTTGCCAGTAAAGGCATGGGCTGGCTGAGCGGGATATAGCGCGGTTGTTGGTGGA -AATTGTCGTGATATGGTGCGATATCGGCGTCATCCAGGCGTAGCGTCAGGTTGCCGCCGTTGCGCTCATCCCAGC -CTTTCAGCCAGGCGTCGGTGGTGGCTTTGATCATTCCCTGGACAAACCAGGACTGAGTAATGTTTTGCATGTTCT -GTGTTCCTGTAAATTCGGTGTTGTCGGATGCACGACCCGTAGGCCGGATAAGGCGCTCGCGCCGCATCCGGCAAT -CAATGCCTGATGCGACGCTGTCGCGTCTTATCAGGCCTACAACTATTGCCGACCTGTAGGCCTGATAAGGCACTT -GTGCCGCATCCGGCAATCAATGCCTGATGCGACGCTGTCGCGTCTTATCAGGCCTACAACTGTTGCCGACCTGTA -GGCCGGATAAGGCACTTGTGCCGCATCCGGCAATCAATGCCTGATGCGACGCTGTCGCGTCTTATCAGGCCTACA -ACTATTGCCGACCTGTAGGCCGGATAAGGCACTTGTGCCGCATCCGGCAATCAATGCCTGATGCGACGCTGTCGC -GTCTTATCAGGCCTACAACTGTTGCCGACCCGTAGGCCGGATAAGGCGCTCGCGCCGCATCCGGCAGTGTTTACC -CGCGGCGACTCAAAATTTCTTTCTCATAAGCCCGCACGCTCTCCAGCCATTCGCTACCTGCTGGCGTATCGTGAC -GTTGGCAATACATTTCCCAGACCGCCTGCCACGGCAACGATTTCTGCTCTTCCAGCAGTGCCAGACGCGCAGTGT -AATCGCCCGCCGCTTCCAGCTTGCGCAGCTCAGCGGTAGGTTCCAGCAACGCACGCAGCAGGGCTTTTTTCATAT -TGCGTGTACCAATGACCCACGCGGCAATGCGGTTGATAGAGGCATCGAAGAAGTCAAGGCCGATATGCACCCGGT -CAAACAGATCGTGACGCACAATCTCACTGGCAATTGCCTGGGTTTCATCATCCAGCAGCACTACGTGATCGCTGT -CCCAGCGAACCGGACGGCTGACGTGCAGCAGCAACTGCGGCACATACAGCATGGCGGCGGAAATCTTGTCGGAAA -TCACTTCAGTCGGGTGGAAGTGCCCGGCGTCCAGGCACAGCGCAGTCTGGCGGCTGGTGGCATACCCCATGTAAA -ACTCATTGGAGCCAACCGTGTAGCTCTCTGCGCCAATGCCAAACAATTTGCTCTCAACGGCGTCGATATGGTGCG -CAGGGTTTAGCTTCTCGCTGATCACCTCATCCAGTGCTGCCAGCAGACGCTGACGCGGGGCGAGACGGTCAACGG -TGATATCTTTCATACCATCCGGGATCCAGATGTTCATCACCGATGGTGTGCCGAGTTGCTCGCCAAAATAGGCCG -AAACGCGACGGCTGGCTTTGCAGTGATCAATCCAGAACTGGCGAATGCTGTCGTCGGCATGGGAAAGCGTAAAGC -CATCGGCGCTTAGCGGATGCGAAAAGCAGGAGGGGTTAAAATCCAGACCGAGCTGATTGGCTTTCGCCCATTCAA -CCCAGTTTTTGAAGTGCTCTGGTTTGATCTGGTCGCGCGAGACTGGCGTATCTGATTCCAGATAGATGGCATGTA -AATTAAGCCGTTTCGGCCCCGGAATCAGCCGCATAGCCTGTTCCAGATCGGCACGTAGCTCACTGGCATTACGCG -CTTTGCCCGGATAATTGCCTGTGGCCTGAATCCCCCCGGTCAGCGAACCTTCCGGGTTTTCAAAACCGGAAACAT -CATCGCCCTGCCAGCAGTGCATTGAAACGGGTAAACGATCAAGTTGGCGCAGCGCCTCCTCGACATCAATCCCCA -CCGCCGCGAAACGCTGTTTCGCTAGCTCCCAGGCCTGTTCCAGTTGAGTGGTCATGCGCAAAGCTCCTTTGTCTG -TCGTGTAGAGTGAATCTGCGCCACATAGTGGGCAATTTCACTGTCAGGATTAGGGGTAAAGGTGGTCAGATTCGC -GGTGGTGCTGACGACCTGACGGAAATCATCCACATTGTTGAGTTCATCCAGCGTCATTAACTGGATGCCGATATT -GCCGAGCGTCGAGGCTTCAACAGGCCCGGCGATCACCCGAATACCGCAGGCATCGGCGCATAGCTGGTTGAGCAG -CGTGTTCTGGCAGCCTCCGCCGACAATATGCAGTTGCGAGAAATCTTCACCGCGCAGCTGCGCCAGCTCATGCAA -CACATCGGCATACAGCAGCGCCAGACTGTCGAAAATGCAGCGCGCCAGTTCAGCATCACTTTCCGGGATCGGTTG -CGCCGTTTCCCGACACGCAGCCTGAATTTCGCTGCACATCGTCTCAGGATTAATAAAGCGATCGTCATTGGGATT -GATAATGAAGCGGCAAGCCGGAAGTGCCTGTGTCGCGGAGATAAGCGCCGGAAGATCGTTGATTTGCTGCTCCTG -AAGCACTCGCTGAAGCAGCCATAAGCCCATAATATTTTTCAGCACCCGATAGCGACCTTCCGCCCCGCCTTCATT -GGTGATGTTGGCTGCCAGTGCCGTGTCATTGGTAAATGGCGTCTGGCTTTCGAAGCCCATCAATGACCAGGTGCC -AGAAGAGAGATAAGCAGCACGTGAGCCGTTTAACGGCGAGGCGATAACCGCGCTGGCGGTATCATGGCTGGCAAC -GGCGACCACTGGAATCTCATTACCCTGCGGGCAAATCCAGTGACCTATGACATTACCCGGATGCGTCGGGCGACC -AAACCAGGCTTTGTTGGCCCCGCTCCACGCCAGTAGCGACTCGTCCCAGTCGTCGCTATTGATATTGACCAGTTG -CGTGGTCGTGGCGTTGGTATATTCCCAGTTCATCTTGCCGGTCAGGCGATAACTGAAGTAATCCGGCATCAGCAG -AGCGTGAGCAATGTGTGGAATAAGTTCAGGTTGTTGCTCCGTCAGCGCACGCAACTGATAAAGCGTATTGAAGGG -CAGAAACTGGATGCCGCTACGTTGATAAATATCGCGTTTGCCGAGTTGTTGTTGTGCCTGCGCCATTAGGCCATT -GGTGCGGCTATCGCGATAAGCAACGGGCAGGCCCACACGCTGACCCTGTTGGTCGAGCAGCACAAAGTCCACGCC -CCAGGTATCAATCCCAATGCTATCGATACGAATCCCTTCCTCGCACACCTTGTTTAATCCAAGGCGAATGGCACT -TTCAAGGCTATCCACATCCCAGGTGACATAGCCGTTCTGACTATGCAGCCCATTGTTAAAACGATGGATTTCGCG -CAGCGTCAGGCTGCGGCATTCACGCTCGTAACGCGCCAGCATCACGCGCCCACTGGATGCGCCGAGATCGACGGC -GACACAATTGCGAAAGGTCATAATGTGATCCTGCTGAATTTCATTACGACCAGTCTAAAAAGCGCCTGAATTCGC -GACCTTCTCGTTACTGACAGGAAAATGGGCCATTGGCAACCAGGGAAAGATGAACGTGATGATGTTCACAATTTG -CTGAATTGTGGTGATGTGATGCTCACCGCATTTCCTGAAAATTCACGCTGTATCTTGAAAAATCGACGTTTTTTA -CGTGGTTTTCCGTCGAAAATTTAAGGTAAGAACCTGACCTCGTGATTACTATTTCGCCGTGTTGACGACATCAGG -AGGCCAGTATGACCGTATTACATAGTGTGGATTTTTTTCCGTCTGGTAACGCGTCCGTGGCGATAGAACCCCGGC -TCCCGCAGGCGGATTTTCCTGAACATCATCATGATTTTCATGAAATTGTGATTGTCGAACATGGCACGGGTATTC -ATGTGTTTAATGGGCAGCCCTATACCATCACCGGTGGCACGGTCTGTTTCGTACGCGATCATGATCGGCATCTGT -ATGAACATACCGATAATCTGTGTCTGACCAATGTGCTGTATCGCTCGCCGGATCGATTTCAGTTTCTCGCCGGGC -TGAATCAGTTGCTGCCACAAGAGCTGGATGGGCAGTATCCGTCTCACTGGCGCGTTAACCACAGCGTATTGCAGC -AGGTGCGACAGCTGGTTGCACAGATGGAACAGCAGGAAGGGGAAAATGATTTACCCTCGACCGCCAGTCGCGAGA -TCTTGTTTATGCAATTACTGCTCTTGCTGCGTAAAAGCAGTTTGCAGGAGAACCTGGAAAACAGCGCATCACGTC -TCAACTTGCTTCTGGCCTGGCTGGAGGACCATTTTGCCGATGAGGTGAATTGGGATGCCGTGGCGGATCAATTTT -CTCTTTCACTGCGTACGCTACATCGGCAGCTTAAGCAGCAAACGGGACTGACGCCTCAGCGATACCTGAACCGCC -TGCGACTGATGAAAGCCCGACATCTGCTACGCCACAGCGAGGCCAGCGTTACTGACATCGCCTATCGCTGTGGAT -TCAGCGACAGTAACCACTTTTCGACGCTTTTTCGCCGAGAGTTTAACTGGTCACCGCGTGATATTCGCCAGGGAC -GGGATGGCTTTCTGCAATAACGCGAATCTTCTCAACGTATTTGTACGCCATATTGCGAATAATCAACTTCGTTCT -CTGGCCGAGGTAGCCACGGTGGCGCATCAGTTAAAACTTCTCAAAGATGATTTTTTTGCCAGCGACCAGCAGGCA -GTCGCTGTGGCTGACCGTTATCCGCAAGATGTCTTTGCTGAACATACACATGATTTTTGTGAGCTGGTGATTGTC -TGGCGCGGTAATGGCCTGCATGTACTCAACGATCGCCCTTATCGCATTACCCGTGGCGATCTCTTTTACATTCAT -GCTGACGATAAACACTCCTACGCTTCCGTTAACGATCTGGTTTTGCAGAATATTATTTATTGCCCGGAGCGTCTG -AAGCTGAATCTTGACTGGCAGGGGGCGATTCCGGGATTTAACGCCAGCGCAGGGCAACCACACTGGCGCTTAGGT -AGCATGGGGATGGCGCAGGCGCGGCAGGTTATCGGTCAGCTTGAGCATGAAAGTAGTCAGCATGTGCCGTTTGCT -AACGAAATGGCTGAGTTGCTGTTCGGGCAGTTGGTGATGTTGCTGAATCGCCATCGTTACACCAGTGATTCGTTG -CCGCCAACATCCAGCGAAACGTTGCTGGATAAGCTGATTACCCGGCTGGCGGCTAGCCTGAAAAGTCCCTTTGCG -CTGGATAAATTTTGTGATGAGGCATCGTGCAGTGAGCGCGTTTTGCGTCAGCAATTTCGCCAGCAGACTGGAATG -ACCATCAATCAATATCTGCGACAGGTCAGAGTGTGTCATGCGCAATATCTTCTCCAGCATAGCCGCCTGTTAATC -AGTGATATTTCGACCGAATGTGGCTTTGAAGATAGTAACTATTTTTCGGTGGTGTTTACCCGGGAAACCGGGATG -ACGCCCAGCCAGTGGCGTCATCTCAATTCGCAGAAAGATTAATTCGCCATGCCGATGCCGACGATGTTAGCGGCG -ACAATAATCACCACACAACCGAGGCTCAACACCGTTACCGGACGGCGTCCTGCATTGTTCCACTCTTTCAGCACC -AGCCCGACGATACCGCCGCACAATACATAGAAACTCATATGCAGCATCCAACTGATGTAGTCATACTGCGCCGGA -ATGCGGGCGTGGCCCCAGGCATAGAAAAAGAATTGCAGATACCACATCAACCCGCCCAGTGTCGAGAGTAACACA -TTGTGAATGATCAGCGATTTTGCCAGCGAGAAGTCGGCTTTTAGCGACAAATCCTTCACTTTTGCCAGACGAATA -AAACAGAAACCGAGGTTAATGATCGCGCCGCCGCCCATGATGACAACATAGCTTGGCAGAGCGACATACAGTGGA -TCGACGCCAAGTGCGGCAGCGGCTTCATGCATCGGTTTTGCGGCGTTCATCGCAAAGGACATCCCGGCAGAGAAA -ATGCCGCACATCACCGCCAGCACCAGCCCTTTTTTCAGATTGAACTCTTCGGCTTTAATGCCCATCTTGCGCTCT -TTCAACTGCCCGGCGCGAGTTACAATCCCTACGCCAATCAGCGCCACCAGAACGCCGAGCAACGTCATGCGTCCG -CCTTCGGTGCTAATCAACACATCGAAATTGCCGTTGATAATTGGCGTCATCAGCGTACCGACAATCAACGTAATG -CCAATGGCGATGCCAATTCCCATCGACATGCCGAGATAACGCATGGTCAGGCCGTAGTTGATATTACCGATCCCC -CACATAGCGCCGAACAGAAAAACAGGCAGTCGCGTAGAGAGACTAAACGAGCTGTAATACGCCCAGAAATTCGGT -AGTAACAGGGCGCTGATGGCCCACGGCAGAATAATCCACGAAACAATCCCACCGACTGACCACATGGTTTCCCAT -GACCATTTTTTTACTTTTTTGAACGGAGCGTAAAAACAGGCTGCACTGGCCGCGCCGATCAAATGCCAAAATATC -CCCATCGTAATCGCGTTACTCATCTTCTTATCCTCATCATTTTTCGTCGCGTCACATCTCCGACGAGATGAGTGT -AAAAATCGTGCTGTCGATTAACCTTTCGCCTGTTGCCGCCGTTGTCGATTTACTGGCAATCACGGCATTAAGTGG -GTGATTTGCTTCACATCTCGGGCATTTTCCTGCAAAACCATACCCTTACGAAAAGTACGGCATTGATAATCATTT -TCAATATCATTTAATTAACTATAATGAACCAACTGCTTACGCGGCATTAACAATCGGCCGCCCGACAATACTGGA -GATGAATATGAGCTATACCCTGCCATCCCTGCCGTATGCTTACGATGCCCTGGAACCGCACTTCGATAAGCAGAC -CATGGAAATCCACCACACCAAACACCATCAGACCTACGTAAACAACGCCAACGCGGCGCTGGAAAGCCTGCCAGA -ATTTGCCAACCTGCCGGTTGAAGAGCTGATCACCAAACTGGACCAGCTGCCAGCAGACAAGAAAACCGTACTGCG -CAACAACGCTGGCGGTCACGCTAACCACAGCCTGTTCTGGAAAGGTCTGAAAAAAGGCACCACCCTGCAGGGTGA -CCTGAAAGCGGCTATCGAACGTGACTTCGGCTCCGTTGATAACTTCAAAGCAGAATTTGAAAAAGCGGCAGCTTC -CCGCTTTGGTTCCGGCTGGGCATGGCTGGTGCTGAAAGGCGATAAACTGGCGGTGGTTTCTACTGCTAACCAGGA -TTCTCCGCTGATGGGTGAAGCTATTTCTGGCGCTTCCGGCTTCCCGATTATGGGCCTGGATGTGTGGGAACATGC -TTACTACCTGAAATTCCAGAACCGCCGTCCGGACTACATTAAAGAGTTCTGGAACGTGGTGAACTGGGACGAAGC -AGCGGCACGTTTTGCGGCGAAAAAATAATCATTTGCCGCCTGCTGCAATGAGGCGTATAGGCCGCATATCAGCTT -AAAAAATGAACCATCGCCAACGGCGGTGGTTTTTTTGTGATCAATTTCAAAATAAAAACAATGATCCGATAAAAA -TAAAACAGCGTTTCAATTGATGTGGTTTTGATCACTTTTATTGATTAAATGAATGTCTATCTTCGTTTCCATCAA -CACTGATGCTCCATTGAGGAATTACGCATCAGCCCTTAAAAATATGCCGACAGGTGATGGAAATGCAGATAAAAC -GCTCGATTGAGAAAATCCCGGGGGGGATGATGCTCGTCCCGCTATTCCTTGGCGCACTGTGCCACACCTTCTCGC -CGGGGGCGGGGAAATATTTTGGATCATTCACCAACGGGATGATTACCGGTACGGTGCCCATTCTGGCGGTGTGGT -TTTTTTGCATGGGGGCGTCAATAAAATTAAGCGCGACGGGAACGGTACTGCGTAAATCCGGTACGCTGGTGGTAA -CTAAAATTGCCGTCGCGTGGGTGGTTGCGGCAATTGCCTCGCGTATTATTCCGGAACATGGTGTTGAAGTTGGAT -TCTTTGCCGGACTTTCAACGCTGGCGCTGGTGGCGGCGATGGATATGACCAATGGCGGACTTTACGCTTCCATCA -TGCAGCAGTACGGCACAAAAGAAGAAGCTGGGGCATTTGTGTTGATGTCGTTGGAGTCCGGGCCGCTCATGACGA -TGATTATTCTGGGCACTGCCGGGATTGCCTCGTTTGAACCGCATGTTTTCGTCGGCGCAGTATTACCGTTCCTGG -TGGGCTTTGCCCTGGGGAACCTTGACCCTGAATTGCGAGAATTTTTCAGCAAAGCGGTGCAAACGCTGATTCCAT -TCTTTGCCTTCGCGCTGGGCAATACCATTGATTTGACTGTGATTGCCCAGACTGGTTTGCTGGGGATCCTGTTGG -GTGTGGCAGTAATTATCGTGACCGGTATTCCGTTGATTATCGCCGATAAATTGATTGGCGGTGGCGATGGCACTG -CCGGAATTGCCGCTTCCAGTTCCGCAGGGGCCGCGGTAGCGACACCTGTGCTGATTGCAGAAATGGTGCCTGCGT -TTAAACCGATGGCTCCGGCAGCAACTTCGCTGGTAGCGACGGCGGTCATTGTGACTTCGATTCTGGTGCCAATTC -TTACCTCTATCTGGTCACGTAAAGTCAAAGCCAGAGCAGCGAAAATCGAAATTTTAGGTACGGTGAAATAAACCT -GCTTCCTTAATCCCCACAGCCGGATGAACTAACGTTCGTCCGGTTTGCTATTGAGTTCCTGCCTGGATACTTACC -GCGAAAACAGCACGCCTGACATAAAATAAATATGGTCTAATGGGGAAATTTCTCGTGGAGAGGGAACAGATGCGA -TATCCGGTTGATGTATACACAGGCAAGATTCAGGCTTATCCCGAAGGCAAACCCAGCGCAATTGCTAAAATCCAG -GTTGATGGTGAGTTGATGCTGACGGAGCTGGGGCTGGAAGGTGACGAGCAGGCGGAGAAAAAGGTTCACGGCGGG -CCAGACAGAGCGCTGTGTCATTATCCTCGTGAGCATTATCTCTACTGGGCGCGGGAATTTCCGGAACAGGCGGAG -TTGTTTGTTGCGCCTGCGTTTGGTGAAAACCTCTCAACCGACGGCCTGACGGAAAGTAATGTTTATATGGGCGAT -ATTTTCCGCTGGGGAGAGGCATTAATTCAGGTCAGCCAGCCGCGCTCGCCTTGCTATAAACTCAATTACCATTTT -GATATCAGCGATATAGCGCAGTTGATGCAAAACACAGGTAAGGTGGGGTGGTTGTATAGCGTGATAGCGCCAGGG -AAAGTGTCTGCGGACGCGCCGCTGGAGTTGGTTTCCCGTGTCAGCGATGTGACCGTGCAGGAGGCTGCCGCCATC -GCATGGCATATGCCGTTTGATGACGATCAATATCACCGTTTACTCTCCGCTGCCGGGTTATCGAAAAGCTGGACG -CGGACGATGCAAAAGCGCCGACTGAGCGGCAAGATCGAAGATTTTTCCCGCCGGTTGTGGGGAAAATAACCCCCG -GAGTGTAGGCCTGATAAGACGCTATCAGCGTCGCATCAGGCATCCTGCTCAAATGCCGGATGCGGCGTAAACGCC -TTATCCTGCCTGCAAATGCGAAGTTTAACTCCGCTTATACAGCGGCAACCAAATCACCAGCCGTAAACCGCCCAG -CGGGCTGTCTTCTGCCTTCACCCAGCCACGATGCTGCTGAATGGCGGTTTCAACAATCGCCAGCCCCAAACCTGT -ACCGCCAGATTCACGATCGCGTGCTTCATCGGTACGATAGAACGGACGGAAAATCTGTTCGCGATCTTCCGGGCT -AACGCCAGGACCATCGTCGTCCACCGTAATGGTGATACCGTCTTTATCTACCGCAAAGCCCACTTCAATCTTCGT -ATGGGAATAACGCAGAGCATTACGAACAATGTTTTCCAGCGCACTTTCCAGGGCGTTCGGATTGCCGTACAGCGG -CCACGGCCCAGGCGGGAAGTTAACTGTCAACGACTTGCCCATTTGCTCGGCTTCGAACGCCGCGTTATCCAGCAC -TTCACTCCACAACTGGTTGGCTTTGATGGTTTCGCTAACCAGCGCGTTTTTTTGCTGATTACGTGACATCACCAA -CAGATCGTTGATCATGCTGTCCAGACGTTGCGCTTCGGTTTCAATACGCTCCAGTTCCTTGCTTTCACCGCTACG -ACGGCGCAGTAACGCCGTACCCAGTTGCAGACGCGTCAGCGGGGTGCGCAGCTCGTGAGAGATATCAGAAAGCAG -ACGCTGCTGAGAGGTCATCATGCGCTCCAGCGCGGTGACCATCTGGTTAAAACTGGCACCTGCGGCAAGGAATTC -CTGTGGCCCCGCTTCCAGTTCCGGGTGCTGGCGTAAGTTTCCCTGGGCAACTTCATCGGCAGCGTTTTTCAGCTT -ACGCGCCGGTTTTGCCAGACTCCAGGCCAACCACAACAGCAGCGGCGTACTGACCAACATGGTGACAATCAGCAG -TAATAGCGGGCGGTCAAACAGTAAGTTAATGAAATCGGATTGAGAACTGCTGGCCGGACGAATCAGATAAAGTTG -GTAATTATCTTCGCCATCACGCACGGAGAACGGACCGACCAGTTCCACGCGGCCATACTTTTTCTTCTGCGGATG -ATCGGCGTTATCGGCCTGACCAATAAAGTTACGAATGATCTGCATTTCGCTGCGTTCAGCGCCGATCACGCGGCC -TTCGGTGGTCACCAATAACAAACGCTGTCCTGGCGGTGCCCACTTATCAATCGCCCGGAACAGACGCCGCCACCA -CATTAAATCGTTGGGCGGATCGTTCGCCAGCTCCGCTTCGACATGCTGCTCAATCATCAGCCCCTGACGCTGTTC -GCTATCCAGAAGCTCGGTCATCTGGCGTGAATCGAGCTTGGGTAACATCAAAACCAACATCAACACCAGCGCCAG -CGTCAGCCAGAAGATGGCGAAGATGCGCGCGGTTAAGCTGCCTATCATGAAGCAGAAACCATCAGATAGCCGCGA -CCACGCAAGGTTTTAAACCACGGGTGACCATCTTTACGATCCGGCAGTTTACGACGCAGGTTGGAAATGTGCATA -TCAATAGCGCGGTCGAAAGGCGTCAGGCGTTTGCCCAACACTTCCTGGCTTAAATGTTCACGGGAAACCACCTGA -CCCAGATGCTGTGCCAGCAAATAGAGCAGGGTAAACTCAGTACCGGTTAACTCCAGCGTTTGCCCGTCGAAGCTG -GCTTCCTGACGGCCTGGATTCAGCACTAAGGCATCAACTTCCAGTGTCGGTGAACCGTTGTCGTTGTTTTGCTGT -TGCTCGCTCCAGTGCGAACGGCGCAGGATCGCGCGAATACGTGCCACCAGCTCACGATCATTAAACGGTTTCGGG -AGATAGTCATCTGCGCCCAGCTCAAGGCCGAGAACGCGATCAAGTTCACTGCCGCGCGCCGTCAACATAATGACA -GGCGTCTGGTGTGTCTGGCGAAGTGCTTTTAATGTGTCGATACCATTTTTCTTCGGCATCATTACGTCAAGCAAA -AGTAAATCAATGCTGTCGTCCAGAAGATCAAGCGCCTGTTCCCCATCGTGGGCAACAATCACGTTGAAGCCTTCC -ATCTCGAGCAGCTCCTTTAATAGGGAAGTCAGCTCTCGGTCATCATCAACTAACAGGATTTTATTCATTGTTTAA -ATACCTCCGAGGCAGAAATTACGTCATCAGACGTCGCTAATCCATGACTTTACGTTGTTTTACACCCCCTGACGC -ATGTTTGCAGCCTGAATCGTAAACTCTCTATCGTTGAATCGCGACAGAAAGATTTTGGGAGCAAATGATGCGCAT -AGTTACCGCTGCCGTCATGGCCTCAACGCTGGCAGTCAGTTCATTAAGCCACGCTGCTGAAGTCGGTTCAGGCGA -TAACTGGCATCCGGGTGAAGAACTTACGCAGCGCAGTACGCAGAGCCATATGTTCGACGGCATAAGTTTAACCGA -ACATCAGCGTCAGCAGATGCGAGATCTTATGCAACAGGCCCGGCACGAACAGCCTCCTGTTAATGTTAGCGAACT -GGAGACAATGCATCGCCTTGTCACCGCAGAAAATTTTGATGAAAACGCTGTGCGCGCACAGGCAGAAAAAATGGC -GAATGAGCAAATTGCTCGTCAGGTTGAGATGGCAAAAGTCCGCAACCAAATGTATCGCCTGTTAACGCCGGAGCA -GCAAGCGGTTTTAAACGAGAAACATCAACAACGAATGGAGCAGTTGCGTGACGTGACGCAATGGCAAAAAAGTTC -ATCGTTGAAGCTATTGAGTAGTAGCAACTCACGTTCCCAGTAGTAAACCCTGTTTTCCTTGCCATAGACACCATC -CCTGTCTTCCCCCACATGCTGTGGGGGTTTTTTTTATCCTCAATTTGCCTGCTGCTTAATGCATTGCAGATGATT -TGCTTCCGTTATACTAGCGTCAGTTGATAGCGGGAGTATTTATGAATCAATCTTATGGACGGCTGGTCAGTCGGG -CGGCGATTGCTGCGACGGCGATGGCTTCGCTGCTATTGCTGATTAAAATTTTTGCATGGTGGTATACCGGGTCGG -TGAGTATTCTCGCCGCGCTGGTGGATTCGCTGGTGGATATCGGCGCGTCGTTGACGAATTTATTGGTGGTGCGAT -ATTCCCTGCAACCTGCCGACGATAATCACTCGTTTGGTCACGGTAAAGCTGAGTCCCTCGCGGCGCTGGCGCAAA -GTATGTTTATCTCCGGTTCGGCACTATTCCTGTTTTTGACGGGTATTCAACATCTGATATCTCCAACACCGATGA -CAGATCCAGGCGTCGGGGTTATCGTGACAATTGTGGCGCTAATTTGTACGATTATCCTTGTCTCGTTTCAGCGTT -GGGTGGTGCGGCGGACGCAAAGCCAGGCGGTGCGGGCTGATATGCTACATTACCAGTCTGATGTTATGATGAACG -GCGCAATTCTGCTGGCGCTGGGGTTGTCCTGGTACGGCTGGCATCGCGCCGATGCTCTGTTTGCATTGGGAATCG -GCATCTATATTTTATATAGCGCGTTACGCATGGGATATGAGGCGGTACAGTCATTACTGGATCGCGCATTGCCTG -ATGAGGAACGGCAAGAAATTATTGATATCGTGACTTCCTGGCCGGGTGTTAGCGGCGCTCACGATCTTCGCACGC -GGCAGTCAGGGCCGACCCGCTTTATTCAGATTCATTTGGAAATGGAAGACTCTCTGCCTTTGGTTCAGGCACATA -TGGTGGCGGATCAGGTAGAGCAGGCTATTTTACGGCGTTTTCCGGGATCGGATGTAATTATCCATCAGGACCCCT -GTTCCGTCGTACCCAGGGAGGGTAAACGGTCTATGCTTTCATAATCAGTATAAAAGAGAGCCAGACCCGCATTTT -GTGTATAAAATACCGCCATTTGGCCTGACCTGAATCAATTCAGCAGGAAGTGATTGTTATACTATTTGCACATTC -GTTGGATCACTTCGATGTGCAAGAAGACTTCCGGCAACAGATTTCATTTTGCATTCCAAAGTTCAGAGGTAGTCA -TGATTAAGAAAATCGGTGTGTTGACAAGCGGCGGTGATGCGCCAGGCATGAACGCCGCAATTCGCGGGGTTGTTC -GTTCTGCGCTGACAGAAGGTCTGGAAGTAATGGGTATTTATGACGGCTATCTGGGTCTGTATGAAGACCGTATGG -TACAGCTAGACCGTTACAGCGTGTCTGACATGATCAACCGTGGCGGTACGTTCCTCGGTTCTGCGCGTTTCCCGG -AATTCCGCGACGAGAACATCCGCGCCGTGGCTATCGAAAACCTGAAAAAACGTGGTATCGACGCGCTGGTGGTTA -TCGGCGGTGACGGTTCCTACATGGGTGCAATGCGTCTGACCGAAATGGGCTTCCCGTGCATCGGTCTGCCGGGCA -CTATCGACAACGACATCAAAGGCACTGACTACACTATCGGTTTCTTCACTGCGCTGAGCACCGTTGTAGAAGCGA -TCGACCGTCTGCGTGACACCTCTTCTTCTCACCAGCGTATTTCCGTGGTGGAAGTGATGGGCCGTTATTGTGGAG -ATCTGACGTTGGCTGCGGCCATTGCCGGTGGCTGTGAATTCGTTGTGGTTCCGGAAGTTGAATTCAGCCGTGAAG -ACCTGGTAAACGAAATCAAAGCGGGTATCGCGAAAGGTAAAAAACACGCGATCGTGGCGATTACCGAACATATGT -GTGATGTTGACGAACTGGCGCATTTCATCGAGAAAGAAACCGGTCGTGAAACCCGCGCAACTGTGCTGGGCCACA -TCCAGCGCGGTGGTTCTCCGGTGCCTTACGACCGTATTCTGGCTTCCCGTATGGGCGCTTACGCTATCGATCTGC -TGCTGGCAGGTTACGGCGGTCGTTGTGTAGGTATCCAGAACGAACAGCTGGTTCACCACGACATCATCGACGCTA -TCGAAAACATGAAGCGTCCGTTCAAAGGTGACTGGCTGGACTGCGCGAAAAAACTGTATTAATGATTTCGGAAAA -AGGCAGATTCCTTTACCCTGAAACCGATGACAGAAGCAAAAATGCCTGATGCGCTTCGCTTATCAGGCCTACATG -AATTCTGCAATTTATTGAATTTGCAAACTTTTGTAGGCCGGATAAGGCGTTCGCGCCGCATCCGGCATGGACAAA -GCGCACTTTGTCAGCAATATGAGGCGGATTTCTTCCGCCTTTTTAATCCCTCAACATATACCCGCAAGTTATAGC -CAATCTTTTTTTATTCTTTAATGTTTGGTTAACCTTCTGGCACGCTTTGCTCATCACAACACAACATAAGAGAGT -CGGGCGATGAACAAGTGGGGCGTAGGGTTAACATTTTTGCTGGCGGCAACCAGCGTTATGGCAAAGGATATTCAG -CTTCTTAACGTTTCATATGATCCAACGCGCGAATTGTACGAACAGTACAACAAGGCATTCAGCGCCCACTGGAAA -CAGCAAACTGGTGATAACGTGGTGATTCGTCAGTCACACGGTGGCTCAGGTAAACAAGCGACGTCGGTAATCAAC -GGTATTGAAGCTGATGTTGTCACGCTGGCTCTGGCCTATGACGTGGACGCAATTGCGGAACGCGGGCGGATTGAT -AAAGAGTGGATCAAACGTCTGCCGGATAACTCCGCACCGTACACTTCCACCATTGTTTTCCTGGTACGTAAGGGA -AATCCGAAGCAGATCCATGACTGGAACGATCTGATTAAACCGGGTGTTTCGGTGATCACGCCTAATCCGAAAAGC -TCTGGTGGCGCGCGCTGGAACTACCTGGCAGCCTGGGGCTACGCGCTGCATCACAACAACAACGATCAGGCAAAA -GCACAGGATTTTGTTCGGGCACTGTATAAAAACGTCGAAGTTCTGGATTCTGGCGCGCGTGGCTCCACTAACACT -TTTGTCGAGCGCGGAATTGGCGATGTACTGATTGCCTGGGAAAACGAAGCTCTGCTGGCAGCGAATGAACTGGGG -AAAGATAAATTCGAAATCGTCACGCCGAGTGAGTCTATCCTCGCAGAGCCAACCGTGTCGGTGGTCGATAAAGTG -GTCGAGAAAAAAGGTACTAAAGAGGTGGCGGAAGCCTACCTGAAATATCTCTACTCGCCAGAAGGTCAGGAAATT -GCCGCGAAAAACTACTACCGTCCGCGCGACGCTGAGGTGGCGAAAAAGTACGAAAATGCGTTTCCAAAGCTGAAG -TTATTCACCATTGATGAAGAGTTCGGCGGCTGGACGAAAGCGCAAAAAGAGCATTTTGCTAACGGCGGTACGTTC -GATCAGATCAGCAAACGCTGATTTCCCCAGGATAATTATCAAACCCGGTGGTTTCTCGCGACCGGGTTTTTTATT -TGTCACGATTTTGCGTTACCCTTGCATCTCTTTGAGGTACAGGGAAAAAAAGATGAAAAAAGCGGGTCTTCTTTT -TTTGGTGATGATAGTTATCGCCGTTGTGGCTGCCGGTATTGGTTACTGGAAATTAACCGGTGAAGAGTCGGATAC -ATTACGTAAGATTGTCCTTGAGGAATGTTTGCCCAATCAGCAGCAAAATCAAAATCCTTCGCCATGTGCGGAAGT -CAAACCCAATGCCGGATACGTGGTTTTAAAAGATCTTAATGGCCCACTGCAATATCTGTTGATGCCAACGTATCG -TATTAACGGTACTGAAAGTCCTTTGTTGACCGATCCTTCAACGCCGAACTTCTTTTGGTTGGCTTGGCAGGCGCG -TGATTTTATGAGCAAAAAATACGGCCAGCCGGTTCCCGATCGCGCGGTTTCTTTGGCGATCAACTCCCGCACCGG -GCGTACGCAAAACCATTTTCATATTCATATCTCTTGTATTCGTCCTGATGTGCGCAAACAGCTGGATAACAATCT -GGCGAACATCAGCAGCCGCTGGTTGCCACTGCCAGGTGGTTTGCGCGGGCATGAATACCTGGCGCGTCGGGTAAC -GGAAAGCGAACTGGTACAACGCAGCCCATTTATGATGCTGGCAGAAGAAGTACCTGAGGCGCGGGAACATATGGG -ACGCTACGGGCTGGCGATGGTACGGCAGAGTGATAACTCATTTGTATTGCTGGCGACACAACGAAATCTACTGAC -GCTTAACCGTGCTTCAGCCGAGGAAATTCAGGATCATCAGTGTGAGATTTTGCGTTAAGGCGAAGAGTTAAGGAA -AGTAAGTGCCGGATATGAAATCCGGCACCTGTCAGACTTAAGCCTGTTTAGCCGCTTCTGCAGCTTTAACGATTA -CTGCGAAGGCGTCAGCTTTCAGAGAAGCACCACCAACCAGCGCGCCGTCGATATCCGGCTGAGCAAACAGTTCTG -CAGCGTTAGACGCGTTTACAGAGCCGCCGTACTGAATGATCACTTGTTCAGCGATGTTAGCGTCAACTTTAGCGA -TGTGGTCACGGATGAATTTGTGAACAGCCTGTGCCTGAGCCGGAGTTGCAGATTTGCCAGTACCGATTGCCCATA -CAGGTTCGTAAGCGATAACCGCACCTTCGAATGCCGCAGCACCCTGAGTTTTCAGTACCGCGTCGATCTGACGTG -CGCAAACTTCTTCAGTTTTGCCCGCTTCATTTTCAGCTTCGGTTTCACCGATGCACAGAACCGGAGTCAGGCCCT -GCTCTTTCAGCACCGCGAATTTTTTCGCGATCAGTTCGTCAGATTCTTTGTGGTAAGTACGACGTTCAGAGTGAC -CGATGATGATGTACTGTGCGCCGATGTCTTTCAGCATAGCAGCAGAGGTTTCACCGGTGAATGCGCCGGACAGGT -TCAGGTCCACGTTTTGCGCACCCAGCATGATGTGGCTGCCTTCAGCTTCGCGCTTCGCCATATCGATATACATTT -CCGGTGGTGCGATTGCAACCGCACAGCCAGCAACACCTGCCAGCTCTTTACGCAGGTTAGAAACCAGCTCGTGAA -CCATGTGGCGGCTGCCGTTCAGTTTCCAGTTACCCATCACTAAAGGATGTCGCATTTTAATTCTCCACGCTTATA -AGCGAATAAAGGAAGATGGCCGCCCCGCAGGGCAGCAGGTCTGTGAAACAGTATAGAGATTCATCGGCACAAAGG -CTTTGCTTTTTGTCATTTATTCAAACCTTCAAGCGATTCAGATAGCGCCAGCTTAATCGGTTCAACAGCGAAGGT -CAGCCCCTTTTCGCCGTTGTCCGCGACAACATAACGCAGTGCACCTTCTGTCTCGGTGTAATAACGTTTGTTTTT -CCCCGCCGTTAGTAGCGACTGCAGTTTTTTCTGGCTTTGTGTTTTGGTCATTAATGGGGTGAGTGTGCGGATCAC -CGCTGCCATGTATTCCTGAGCTTTCGCTTTCGCGGCTTTTTGCTCTGGCCCCTGGATGGGTAGCCAGGTCATTTG -AATGCTTTTGATTTTTAAGGTACCGCGCTCCAGCGCTGTAGAAGCATACAAGTTCTCATTAATTTTACTTGCAGC -ACGAGTGAGATTGGCTTTGTCGGGACTGCTGTCGATGGCACGAAATTCGTTCAGTGGCAGGCTGGGATTCTGGCT -GTTAAAGTCTTCTCGAAACTGGCTGATGGAGAGATCGAAAGTAGGGGCTCCAGCCAGCAGATAAGGCGCGGTCGT -TGCCGTATCTGGTGTTTGTGCATGCGCCTCTGTTGTAACGGTTAATGCAGAACATAAGAGAAAAAACAGCGTACA -CCCTGGCTTCATTGACAGTACCTTTTGTTATGACTGGCTCCGATTAAAACGATATCTGTCGCCCTTGTCAAAAGG -GTAGAATCCTGGAAAAGACAACCATCAAGGAACTTACATGACCATACAGCAATGGTTATTCTCATTTAAAGGGCG -TATTGGACGCCGTGATTTCTGGATTTGGATAGGCCTGTGGTTCGCAGGCATGCTGGTGCTTTTCTCACTGGCGGG -TAAGAATCTACTCGATATTCAGACCGCGGCGTTTTGCCTTGTGTGCTTGCTCTGGCCAACAGCGGCAGTAACTGT -TAAGCGCTTGCATGATCGCGGGCGTTCCGGCGCATGGGCATTTCTGATGATTGTGGCGTGGATGCTGCTGGCGGG -TAACTGGGCGATTTTACCGGGTGTCTGGCAATGGGCGGTGGGGCGTTTTGTCCCGACGTTGATTCTGGTGATGAT -GCTTATCGATCTTGGTGCGTTTGTTGGCACACAAGGCGAAAATAAATATGGTAAAGATACTCAGGATGTGAAGTA -TAAAGCCGACAATAAATCAAGTAATTAACCTTTAATATATCTCTTACTGCTATTTTTTTCCGGGATTGTTATTTC -CACGATGCAAATGACAATACCCGGAAAATCCTTCTGAACTCTTCACCTTAAGCAATATCAAAAAAAATGGTAATC -CATAAGATCATTACTTGTTTGTTCTTCCCTTAACGGCGCATTATTCTTAAGTCGTAATCGACAGAGAGGCGAATA -TACAGAGGTGCCCTATGAAAGATGTCGTAGATAAATGCAGTACTAAAGGATGTGCGATTGATATCGGTACGGTGA -TTGATAACGACAACTGTACCAGTAAGTTTTCGCGCTTTTTTGCCACCCGCGAAGAAGCAGAGTCTTTTATGACCA -AACTGAAAGAGCTTGCCGCCGCTACATCCTCTGCAGATGAAGGGGCCAGCGTGGCCTATAAGATTAAGGATCTGG -AGGGGCAAGTTGAGCTTGATGCGGCCTTCACTTTCTCATGCCAGGCCGAGATGATTATTTTTGAGTTATCACTGC -GTTCGTTAGCTTGATGGAGTTGCTTTAGAAGGAGTTAAACATGGCTTATAAACACATTGGCGTGGCAATTTCCGG -GAATGAAGAAGATGCCTTACTGGTGAATAAAGCCCTGGAGCTCGCCAGACATAATGACGCTCACCTGACGTTAAT -TCATATTGATGATGGCTTAAGCGAGTTGTATCCGGGTATCTACTTCCCTGCAACAGAAGATATTCTTCAATTGTT -GAAGAATAAGTCGGATAACAAGCTGTATAAACTGACGAAAAATATTCAATGGCCGAAGACAAAACTGCGTATTGA -ACGCGGAGAAATGCCGGAAACACTGCTGGAAATTATGCAAAAAGAGCAGTGCGACCTCCTTGTCTGTGGTCATCA -TCACTCATTTATCAACCGTTTGATGCCGGCATATCGCGGGATGATCAATAAGATGAGTGCGGATTTGCTCATCGT -GCCGTTTATCGATAAGTAACCGCTTACCAGTAATGCTCCGCTGTCATATGGCCCGGTCGGCGACGTAAATGTTTC -GTCATCTGCCGGGTCTCTTTCAGCAACTGTTGTGTATCGCGCACCATCTGTGGATTGCCGCACAGCATCACATGG -CTGGTTTCTTTATTCATCGGCAGGCCAATCGTGCTTTCCAGTTCCCCACTTTCAATTAATGCCGGTATCCGTCCG -GTGAGCGACCCCGCTGCCGTTTCCCGACTGACCACCGTCTGAATGCGCAGTTTTCCTTCGTAGCGTTTTTCCAGT -TCCTGCATCAGTGGCAAATAGCTTAAGTCGGCGGCATAACGTGCGGCGTGCACCAGGACCAGATTTTTGAAGCGA -TCTAAATCTTTACCTAGTTGCAGAATCGATAAATAAGGGCCAATCGCTGTACCGGTTGCCAGCATCCATAGCGTT -TCGCAGTGCGGCACTTCATCGAGCACAAAGAATCCTGCCGCTTCGCTAACCACCTGCACTTCATCGCCTGGTTTC -AGTGCCGCCAGTCGTGGGCTTAATTTGCCATCGGGGACGGTGACCAGGTAAAACTCCAGATCGGGATTATCGGGC -GAGTTTACATAGGAGTAGGCGCGCTGGACGCGTTCGCCGTCGATTTCAAGGCCAAGCTTGGTAAATTGCCCGGCG -GTAAACGGAAGCACGGGGGCGTGAACGGTGAGACTAAACAGGGCGTCGGTCCAGTTCTGCACTTTAGTGACTTTG -CCTGTTACCCAATCAGCCATGTTTTTCTCCTGTTTTGATTGACTTGCCTTATCTTCGTTCTCCGAACAAAAAAAT -TCCAGTCCCGAAGGACTGGAAGGCTCAATCGATCAAATCAATCAGAGGATGTGCACCTGCATTTCCGGGTCTTTG -CGATCCAGATAGTGGATGGACTGAATGCGGCGAATGGTGCGTGACTTGCCGCGGATCAGCAGCGTTTCGGTAGTC -GCGATATTGCCTTTGCGGCTAATGCCTTCCAGCAGATCGCCTTTGGTAATACCGGTGGCAGAGAAGATGACGTTA -TCGCTGCGCGCCATATCGCCCAGGCGCAATACTTTACCGGCTTCGATGCCCATCGCTTTGCAGCGTGCCAGCTCC -TGCTCGCCAATGCGACGATTCTCTTCGTTGTCGCCTTTGACGTCATGACGCGCCAGCAGACGACCGTTCATGTCG -CCATCTAATGCGCGGATCACCGCCGCAGAAACTACGCCTTCCGGCGCGCCACCAATACCGTACAGCACGTCAACT -TCGCTGTCTGGCATACAGGTGAGAATTGAGGCCGCAACGTCGCCGTCCGGAATAGCAAATACGCGTACGCCGAGT -TGCTGCATTTCAGCGATAACGGCATCGTGGCGTGGTTTAGCCAGAATCGTTACCGTCAGTTCGCTCAACGGTTTG -CCGAGCGCCGCCGCTACATTGCGCAGGTTATCCGCCAGCGGCAGGTTCAGATCAATGGTGCCTTTGGCTCCCGGC -CCGACAATCAGCTTCTCCATATACATATCCGGCGCATTGAGGAAGCAGCCTTTATCGCCTACTGCCAGCACCGCC -AGCGCGTTAGCCTGGCCCATCGCCGTCATGCGCGTGCCTTCAATCGGATCAACAGCAATATCTACCGCGTCGCCG -CGACCAGTACCGACTTTTTCACCAATGTAGAGCATCGGTGCTTCGTCGATTTCACCTTCACCAATGACGATGGTG -CCGTCAATGTTGACCTGGTTGAGCATAATACGCATGGCGTTTACCGCCGCGCCGTCCGCGGTGTTTTTATCGCCG -CGTCCTAACCATTTGTAGCCAGCCAGCGCCGCTGATTCGGTGACGCGGGAAAATTCGATGGCAAGTTCTCGTCTC -ATAGCAAACTCTAAGCAGTAAGGAATGGCGCGAAGTGTAGCACAGGGGAAGGGAGGGATTATTGATGTGTGCGGG -GTTGCCCCCGCACGTTTCGGGACTACCGGATGCGGCATAAACGCTTCATTCGGCATTTACATTATTCGTCGTGTT -CTTCCCACGCCATCGCGCGTTTAACCGCTTTTTTCCAGCCTGCGTAACGGTAATTACGCTCAGTGGTTTCGATGC -CTGGACGGAACTCGCGCTCAATCACCGCTTTCTCTTGCAGCTCGTCGAGGTTCTGCCAGAAGCCAACCGCCAGGC -CTGCGAGATAGGCCGCACCCAATGCGGTGACTTCGCGCACTTCCGGGCGCTCAACGCGGGTGCCGAGAATATCGG -ACTGGAACTGCATCAGGAAATTGTTTGCTACTGCGCCACCATCCACGCGCAGGGCGTGCAGACGGATACCAGAGT -CGGCCTGCATCGCTTCCAGCACGTCACGCGTCTGATAAGCAATAGACTCCAGCGTCGCGCGTATAATGTGGTTAG -CGTTCACCCCACGAGTCAGACCGAAAATCGCCCCGCGCGCATACGGGTCCCAGTACGGCGCACCCAGCCCGGTAA -ATGCCGGAACCACATACACACCATTGGTGTTTTGCACTTTGGTGGCGAAATATTCGGAATCGTAGGCGTCGTTAA -TCAACTTCATTTCATCGCGCAGCCACTGAATGGATGCGCCTGCCATAAACACCGCACCTTCCAACGCATAGTTCA -CTTCGCCAGTCGGGCCGCAGGCGATGGTGGTCAGCAGGCCGTTTTCTGATTTCACCGCTTTCTCGCCAGTGTTCA -TCAGCATAAAGCAGCCAGTGCCATAGGTGTTCTTCGCCATCCCTTCTTTCACGCACAACTGACCAAACAGCGCGG -CCTGCTGGTCACCGGCGATCCCGGAGATTGGAATACGCGTGCCGCCTTTGCCGCCAATGTTAGTCTGACCGTATA -CTTCGGAAGAACGACGCACTTCTGGCAGCATCTCGCGCGGAATATCCAGCACTTCCAGCATTTTGTCGTCCCAGT -CCAGGGTATGGATGTTGAACAACATGGTACGAGAGGCGTTGGTGTAATCGGTCACATGGACACGGCCCTGAGTCA -TTTTCCAGATAAGCCACGTATCAACCGTACCAAACAGCAATTCACCACGACGTGCACGCTCGCGAGAGCCTTCCA -CATGGTCGAGGATCCACTTCACTTTGGTGCCAGAAAAGTACGGGTCAATCACCAGACCGGTATTGCTGCGGATAT -AATCTTCTAAACCGTCACGTTTTAAATGCTCGCAGATTTCTGCGGTACGACGGCACTGCCAGACAATGGCGTTAT -AGATAGGCTTGCCGGTTTCTTTTTCCCAGACAATAGTGGTTTCACGCTGGTTCGTAATACCGATAGCTGCAATTT -GATCGGAACTGATATCGGCTTTCGCCAGCACTTCTACCAGCGTGGAGCTTTGGGTGGCCCAGATTTCCATTGGGT -CGTGTTCTACCCAACCTGGTTTTGGGTAGATTTGCTCAAATTCGCGCTGCGACACGCTAATGATATTGGCATCGT -GATCCATTACGACCGCGCGGGAGCTGGTGGTGCCCTGGTCGAGCGCAACGATATATTTTTTTTCAGTCATGTTTA -ATTGTCCCGTAGTCATATTACAGCGAAGCTTTTTGTTCTGAAGGAGTTGTGGTTTCCTTTTCTTCCACAACACAG -ATATCGCAAGGCAAATGGCGACCAATCAGTTTGCGGTAGGCAAATGCACCTACAATCGCGCCAACGATAGGGCCG -AAAAGCGGCACCAGGAAGTAAGGAATGTCTCTGCCGCCGGTAAAGGCGACATTGCCCCAGCCCGCCAGCCAGGCA -AAGACTTTCGGACCGAAGTCACGCGCTGGGTTCATGGCAAAACCTGTCAATGGGCCCATAGATGCGCCAATGACC -GCAATCAGTAGACCAATCAGCAAGGGAGCCAAAGGGCCGCGTGGTACACCGTTGCCATCGTCCGTTAACGCCAGG -ATCAGCCCCATCAGAATAGCGGTAATCACCATCTCAACTGCGAAAGCCTGCACAAAATTGATATGAGGATTAGGG -TAAGTAGAGAAAGTGCCAGCCAGATCAACACTTTCAACGCTGCCGCGAACAATGTGATGAGTCTGCTCGAAGTCG -AAAAATAAATTGTAGTAAAGCCCGTAAACTAAAGCCGCAGCACAGAAAGCGCCGGCAACTTGTGAAACGATAAAA -GGAATAACTTTGCGCTTGTCGAAACAGGCAAACAGCCACAATGCAATGGTAACAGCGGGATTAAGATGCGCGCCG -GAAACCCCTGCGGTCAGGTAGATGGCCATTGCCACCCCCAGTCCCCAAATGACACTGATTTCCCACTGACCAAAA -GACGCACCAGCGACTTTTAGTGCTGCAACGCAACCCACACCGAAGAAAATCAACAACCCGGTACCGAGGAATTCA -GCAATGCACTGGCCTTTCAAGGTTGATGTTTGACTCATAATCGGATCCTGAAGAGTTAATGTTTGTTGTATGCGT -GAAAGTCACGGACCTCCACGATGCTTGTAGGCATGCTGTAAACTTATCGTTAACGAGCAAAAACGAGAAATATCG -AACTTAAAATGTGTGTGCCTCGTCATAAAATGAGCGTTATCGCGCCATTTATTCCATCTGATTGTACATGATGCA -TGTTTGTTAGATCATTCGCGCAACAAATTTATTAACATTTTCGATTGATGTGGATTATGTCACCAGGAGAAGGAT -GAAAAGTGTGGCAAACCGTAATCTGCAAGGCGTGCCGCTGGACAGCGATGGCGCGGCTTCATACAATCGGAGCTA -ACTAAAGTGCGCTCGTATTTATTAAGGCGTCACCGGTAATCGGGACGAGGATTTTTATCCATCAACGCCTTGCAA -TTCAGGAGAGGTATGACAATGTCATTAGAAGTGTTTGAGAAACTGGAAGCAAAAGTACAGCAGGCGATTGATACC -ATCACTCTGTTGCAGATGGAAATCGAAGAGCTGAAAGAAAAAAACAACTCACTGTCGCAGGAAGTTCAAAATGCC -CAGCATCAGCGCGAAGAGCTGGAGCGTGAGAACAACCATCTGAAAGAACAGCAGAACGGCTGGCAGGAACGTCTG -CAGGCCCTGCTGGGTCGCATGGAAGAGGTCTGATTACGCTTCATCTTCCGCGTAATTTCTTTACTGTGTAGGCCA -ACAGGTAACGCAGAAAAAAGGCACCTTGCGGTGCCTTTCTTATCATTCAATATCCAGCGGATCTTCTGAAAGAAT -AATCCCGGTATTGTCGGCATAAAGATGGTCGCCGGAGAAGAAGGTGACACCGCCAAAATTGACGCGGACATCGCT -TTCGCCAATGCCTTCGCCAGCGGCACCAACCGGAATTGCCGCCATCGCCTGGATGCCGATATCCAACTCTTCCAG -GTCATCTACCTGACGCACCGCGCCGTAAATGACCAGACCTTCCCATTCATTTTGTACTGCCAGACGCGCCAGTTC -AGCATCGACCAGTGCGCGACGAACAGAACCACCGCCATCGACGACAAGAACACGACCACGGCCATTCTGTTCGAG -CAGATCGTACAGCAACCCGTTGTCCTCGAAACATTTTACCGTGATTATTTGTCCGCCAAACGACGCCCGTCCGCC -AAAGTTGGAGAACAGCGGTTCCACGACGTTAACATCTTCTTGATAGATGTCACAAAGCTCGGAAGTATCGTATTT -CATAGGCTTAACATTCAGTTGCTGCGAGAATTTTCAGTATATCGCGCTATGTGGGCTGTTGGCAAAATCATCAAT -TGTTAATTGATATTTGTCAGTTATGCTGCCCACTGGCTTAGGAATATCCCTAAAACAAACAGCAGGTTAGTCAGT -AACGCTCCCTTGACAGTACGTTCCAGCATTGGTCGCATCGCCACCGGGTCCATTTCCCGCATCACATAACGGGCT -TGCTTCACCAGTAATGGTGCCGCCAGCAGGAACAGCCAGCCCCACAGGCTATGCAGCGAAAAGAGATTAAACAGC -GCCAGACACACCAGCGAGCCCATCAGCAGGCAGGCATGATAACGACGCGCGTTCACTTCACCTAAGCGCACCACC -AGCGTGTTTTTGCCATTTTCGCGGTCGCTATTGATATCACGCAGGTTATTAATATTCAGTACTGCCGTTGCCAGC -AGGCCGCATGCGGTCGCCGGAAGGATCAGTGCCGGAATCAATGTATGAGCCTGTAAATACCAGCTCCCCATGACA -CTCAACCAGCCAAAGAAAACCAGTACGGAAATATCACCCAGACCGATATAACCATAAGGACGATTGCCCACGGTG -TAGGTGATAGCGGCAATGATCGACAACCCGCCAAGAATCAGGAAACCGACAAAATCGGCCAGCGTATGGCATGCC -ACTGCAACCAGTGCCAGCCCGGAGAGACAGATGAGCACGACGGTAATAATGAGCGCCCGTTTCATCTCTTGCTGG -GTAATGACCCCTTTTTGCATGCCGCGTAGCGGCCCAATGCGGTCAGGTTTATCGCTGCCTTTTACCGCATCGCCG -TAATCATTGGCGAGGTTAGAAAGGATCTGTAATAGCCCGGCGGTAATTAGTGCCAGCAGGGCGACCAGCGGATCG -AAGTGACCTTGCCACCATGCCAGCGCTGTCCCGACGATAATTGCAGCAAAGGCGAGGGGGAGGGTTTTAGGTCGT -AAACTTTCCAGCCACGCCTGAGTTCGGCTAATTTGTTGTTCAGTCATAATACGCGCCAATAAAAATGGGGCCTTT -CAGCCCCATCAAACAATGATGAAAATGATTGAACGCGATTATAGGATAAAACGGCTCAGATCTTCATCTGCCACC -AACGCATCCAGATGTTTGCTCACATAATCTGCGTCAATAGTGATATTTTGACCGCTTAAATCGCTGGCGTCGTAG -GAAATCTCTTCCATTAAACGCTCCAGAACAGTGTGTAAACGACGAGCACCGATGTTTTCGGTAGATTCGTTCACC -TGCCATGCCGCTTCCGCGATGCGTTTAATACCGGAGTCGGTAAACTCGATATTTACGCCTTCAGTCGCCATCAGT -GCTTTGTACTGCACGGTGATAGAGGCATTCGGCTCGGTCAGAATACGCTCGAAGTCGCTGGTGGTCAGCGCCTGC -AGTTCAACGCGGATTGGCAGACGACCTTGCAGTTCCGGGATCAGGTCAGACGGTTTCGCAATCTGGAACGCGCCA -GAAGCGATAAACAGAATGTGGTCAGTTTTGACCATCCCGTGTTTGGTGGAAACGGTGCAACCTTCTACCAGCGGC -AGCAGGTCACGCTGAACGCCTTCACGAGAAACATCCGGACCGGAAGACTCGCCGCGCTTACAGATTTTGTCGATT -TCGTCGATAAACACGATCCCGTGCTGCTCAACAGCGTCGATAGCGTCTTGCTTCAGCTCTTCCGGGTTCACCAGT -TTCGCCGCTTCTTCTTCAATCAGCAGCTTCATGGCGTCTTTGATTTTCAGCTTACGCGCTTTTTGCTTCTGGCCG -CCCAGGTTCTGGAACATGGACTGCAGCTGGCTGGTCATCTCTTCCATGCCCGGAGGAGCCATAATTTCAACGCCC -ATCGGTGCTGCGGCAAGATCGATCTCGATTTCTTTGTCATCAAGCTGGCCTTCACGCAGTTTTTTGCGGAATGCC -TGACGAGCAGCGGACGGTTCCTGCTGCTGTTCGGTCTGTCCCCAGTTGTTTTTAGCAGGTGGGATCAGCACGTCG -AGAATACGTTCTTCTGCCAGTTCTTCAGCGCGATAACGGTTTTTCTCGATAGCCTGGACGCGTACCATTTTCACG -GCGGCATCGGTCAGATCGCGAATAATAGAATCCACTTCCTTACCGACGTAGCCCACTTCGGTGAATTTGGTCGCT -TCAACTTTGATGAACGGCGCATTCGCCAGCTTAGCCAGACGACGGGCGATTTCAGTTTTACCGACACCGGTCGGG -CCGATCATCAGGATATTTTTCGGGGTCACTTCATGGCGCAGCTCTTCGTTGAGCTGCATGCGACGCCAGCGGTTA -CGCAGAGCAATCGCCACAGAACGCTTGGCGTTGTCCTGGCCGATGATGTGCTTATCCAGTTCGCTGACGATTTCG -CGTGGGGTCATTTCAGACATGGGAGATCCTTACGCTTTGTAGCTTAATTCTTCGATGGTGTGGAAATGGTTGGTA -TAGATGCAAATGTCGCCTGCAATATCCAACGCCTTTTCAGCAATTTCACGGGCGCTAAGTTCAGTGTTTTCTAAC -AGCGCGCGCGCCGCAGCCTGGGCGTAAGGGCCGCCGGAGCCGATAGCAATAAGATCGTTTTCTGGCTGCACCACG -TCACCGTTACCGGTGATGATAAGCGATGCAGTTTCATCCGCGACTGCCAGCAGTGCTTCAAGTTTGCGCAGCATG -CGATCGGTACGCCAGTCTTTTGCCAGCTCAACGGCGGCTTTGACCAGATGGCCCTGATGCATTTCCAGTTTACGT -TCAAACAGTTCGAACAGCGTAAAAGCATCCGCAGTACCGCCCGCAAAGCCCGCGATGACTTTGTCGTTGTACAGA -CGGCGGACCTTTTTCACGTTGCCTTTCATTACGGTATTGCCCAACGTGGCCTGACCATCACCAGCGATGACCACA -TGGCCGTTACGGCGTACGCTTACTATAGTTGTCACGAGCTGACCCCTTGGTTACGAATACAGAGTACAAACCCCG -TACAAAAGTACGGGGCATAATGCAATTATAGATGGGGGGGATTTTGAGGGTTTCAACCCCCGGCGGCGAGCCGAA -TGCAGTTTGTATGACCCGCCATCTTCAACCGATTGAGGGTGCTGTCTGCGTTCTCTTTGCCTTTCACCGGGCCAA -TGACCACACGATTCCAGCCATTGTTGGTGGTGATTTTCGAGTCAAAGCCTTCGAACGCCAGCTGAGCACGTACCG -TCTCTGCCTGTTCCGCGCCTCTGAACGAACCGCACTGCACCATCCAGCGGCGTTCGTCTTTTTTCTCCGCCGTCG -GTTTTGGCGCGTCAGCGGCACGAGCAACTGGCGCAGCTTGCTGCGGCTTCGACTGCGCAGTCGTGTGCGCAGGAG -TTTGCAGCAGATCCTGGTACGGCTGCTGAGAAGAAGCCGGTTTAGACTGGCGCGGTTGCGCCTGTACCGGTGCGG -CTTGCGACGTACGCGTCTGCTGCTGCCAGCTTTGTTCAGTCGTACGCGACTGCTGAGCCAGGCGTTGCTGTTCCG -CTAATTGCTGCGCCTGACGTTGGCGCTGTAGCGTTTGCTGACGCTGTTCCGGCGTCTGTTCATTCCACGGAACTT -CAACCAGCTGCGTTGGCTGCTGGCGCATATCAGCCTGCATTTGTTCAAGAAGCTGACGTTGTTCTGGTGTCAGTT -GCTCCGGCGTTTTCACTTCACCACCGGCAGAAGGTTCTGTGGGCGCACGCACTCCCGGCTGGCGACTTTCCAGCT -CTTTAATGTAGCGCCAGCGTTCTTCTGGTTTTGGTGGTAGTCCGTTTCCGGTCACTTTCTGGCTTTGCAGCGTCT -CGGACTCTTCTTTCTTGTGATGCGTAATGAAGTACAGACCACCGATAAAGGTCACAAGAACGGCGGCAGCAATAG -CGACCATAGCGGGAGAAACCGCAGGCAGATTTCGTTGCTTTTTCCGTGAGGTGCTCTTTTTTCGCCGCGAAGGTG -CCGGTTGGCTGCGGCGTACATAATCTCGTTGTGCCACTATCGTTTCGCTGTATTTATTCGTTCGTCAGCCCGCCA -TGTTACTTAAGCGGCGGGCCTTTGACCAGTCACGGCAGTCTTAAAGGTTTACTTTAAGGTAACGCGCGTGTTGAT -CCCCGGATGATAAGTTCGCAGTCCATTAAACGAGAGCCACTGCCAACGTGTTGCCCCTGCATTTGATCAAGCAAT -AACAGCATAGCTTCCCGACCGATTTCGTAACGCGGCTGCGCGATGGTTGTCAGCGGCGGATCACAAAATTGCGTC -AGGTCGATGTTATCAAAACCGATTATGGAAAGGTCTTCCGGGACTTTCAGCCCCTGGCGTTTTGCCTGAGAAAGT -GCGCCGAGCGCCATCACATCGCTATGGCAGAAGACAGCAGTAGGCGGTTGTGGAAGATCAAGCAGCTGCTGCATC -GCTTTGCTTCCGGCTTCGAAGGTGAAGTCGCCACGGGCGATGTATTGCGGATCAACCATAATGCCGCAGCGACGC -AGCGCCTGAACATAGCCTTGCAGGCGGTAGTGACACAGCGGCATCTCTTCGGGACCGGCTATACAGCCAATCCGT -TTATGCCCTTGCTCATATAAATAATTTACTGCATCAAATGCGGCGGTCAGATTGTCGATATGAACTGTAGGCAGC -TCCAGCTCCGGTGCAAATTCGTTCGCCATCACCATCGGCGGCAGATTACGCTGTTCCTCAATGCTGGCATCAAAC -GGCAGCCTTGAACCCAGCAACAACATGCCATCAATTTGCTTGGTGATGATCAAATCGATAAAGGTTTTTTCCTGC -TGATTTTGATGCGCACAGTCGCCAATCAGCACCAGATATCCGTGATTTGCCGCCGTAACTTCGATACCGCGAATA -ATTTCGCTAAAGAAGGGATCGCAGATATCCGGGACAATCACCAGAATGGTGCGGGATTCATTACGCTTGACGTTG -CGCCCCATAGGCTGCGGTAAATAACCCACTTCCCGGGCCGCTTTTTCAACCCGATTACGGGTGGCCTGGGAGACT -TTATCGGGATTCATTAATGCTCGGGAGACGGTCGCTGTAGAGACTTTTGCCTTGAGGGCAACGTCTTTCATGGTC -GCGGCAGTTTCCTGCTTCTTCGCTTTCACACTCACTCCTCGCCTGGCACGTCAGGCGTACTACATCCATGTTTAC -TTCACATCGGCAACATTTTTAGCAGATAGCGCGTGAAAACGGTTACAGAATTTTCATGAAAAGTGTGATGAATAT -TGAATTTTTCGATCCGCCTCGCATCGTGAGCGGTTTAACCCTCAATCGGATCAACATCCAGCACCCATTTCACCT -TACGGGAATCCGGTATTGTATTGATGAGCGCCAGCGTACCGTTAATGATGTGTTGCAAGCGCACGCGGGAAGGGT -GCTGCAACAATATCTGCCAGCGCCAGCGACCGCCACGTTTAGGTGCCAGAGCCGGAACCGGACCGAGAACCCACA -GTTTCTCGTCTGCCAGTGGGCTGGAGAGGATCAGATTACGCAGTTGTTGCAGGAACAATGGCGCGTGCTGATTGT -TATGATCTTCCGCACGCACAATCACATGGCTGGTCCACGGCGGTAGCTGCATCATTCGCCGCTCAGCCAGCGCCT -GTTCGGCAAAGGCGTCGTAGCCTTTATAGAGCAACGTTTGCAACAGAGGATGTTCCGGATGGTGCGTTTGCAGCA -CCACTTCGCCCTGTTTACCCGCACGCCCGGCACGACCGGCGACCTGGGTGTAAAGCTGAGCGAAACGCTCTGCCG -AGCGAAAATCGGCAGAAAACAGCGCGCCGTCCACGTCCAGTAATGCAACCAGCGTCACATCCGGGAAATGGTGAC -CTTTCGCCAGCATTTGTGTACCAATCAAAATCCGCGCGCCGCCGCGATGTACTTCTGCCAGTTGCTGTTCCAGCG -CCCCTTTGCGGCTGGTGGTATCGCGGTCGATACGAGAAATGGGCACGCCGGGGAACAACGGCGCGAGCGTCTGTT -CAAGCTGTTCGGTGCCCAGCCCCACGGGGACCAGGTGCGTGGAACCGCAGGAAGGGCACTGGCGCGGCACCGGAC -GCTGACTGTCACAGTGGTGGCAGCGCAGATGGTGCTGCGCCTGATGCAGCGTGTAGTAGTGATCGCAACGTGGGC -ATTCGGCAATCCAGCCACAGTCGTGGCACAGCAGTGCAGGCGCAAAGCCACGGCGGTTAAGAAAGAGAATGACCT -GGTTATCAGCCTGTAAATGCTGGCGCATACGAGTGATTAACGCCGGAGCCAGACCTGCCTGCACCTTCTGACCTT -TTAAATCCAGCACATGTTGAATTGCCGGACGCGCATTCCCTGCCCGACGGGTCAGGCGCAGCAGGCGGTATTTTT -TCTGCTGGACGTTGCATAACGTTTCCAGCGCGGGCGTTGCGGAGCCAAGAATAATCGGGATTTGCTCGCTGTGCG -CACGATACACCGCCAGGTCGCGGGCATGATAGCGCCAGCCTTCCTGCTGCTTGTAGGAGCTGTCGTGCTCTTCAT -CAATGACAATCACGCCGAGATTTTTAAACGGCGTAAACAGCGCGGAGCGGGTGCCGATCACAATCGCCGCCTCAC -CATTTTTCGCTTTCAGCCACGCCGAAAGACGCTCGCTGTCGTTCAGGCCGGAATGCAGAACTTCCACGGGGGCAT -TAAAACGTTCACGAAAACGGGCGATAGTTTGCGGTGTCAGGCCGATTTCCGGCACCATCACCAGCGCCTGTTTGC -CCTGAGCGAGCACGTTTTCCAGTACGCTGAGATAAACCTCCGTTTTACCGGAACCGGTAACGCCCGCCAGCAGCC -AGGCAGAAAAAGTATCTGCCGCGCTATGAATTGCGCCAACGGCGGTGGCCTGTTCGGTATTCAATCGCAACCGCT -CACCAGAAACGGCATAGTTCGTTCGCCAGTCGCTAAACTCTGGTGTTTCACTTGCTAAATCACACAGACCTTTTT -TGCGTAGCGCCTGCAACGCGGCATCATTAAATTCGAGCGTGGCGACCTGGTCGCGCCAGATTTTGCCTTGCCGTA -ACGCCGCCAGCGCCTGTTGTTGCTTGGGGGAGCGTTTCAGGCTGTTCAGATCCACCGCCTGGCCTTGTTCAGTGG -CAAACCAGTACCACATCGGCGCGTTCGCCGCAGGCCGCCCCTGGCGTAGTAAAATCGGCAAGGCATGAAACAGCA -CATCGCCAATCGGATGATGATAGTAATCTGCCGCCCATAGCAGCAATCGCCAGACGGAGTGAGTAAACACCGGCT -CACTATCCAGCACTTCGACTACCGCTTTTAGCTCATTGAGCGGCAGTTCGCTGGCATCGCTAACTGATACCACAA -TCCCGATGCGCTCCTGCTGTTTGCCAAACGGCACGCGCACGCGACACCCAGCTTTAACCGTCATGCCTTCTGGCA -GCAGATAGTCAAAGGTACGAGGAAGCGGAACGGGCAAGGCAACGTGGGCAACGGGCATAGCATCATCCTGACTTG -AAATTCGGTGGGTTAGTATACACATTGCCGTAGAAGAGTGCGGATCAGTTTGCATACGCTGGTTAATTTCTGTAT -GATTTCGCGCCTTCGTACGAAATGATCGTATTGAAGCTATACTTTTAACATCGCGTGGTGTCTGGCGTTAGGGCT -GGAAGAGCGACGCGGCCTTAAACCGAGGTTTTCCCATGAAAAAAGATATTCACCCGAAATACGAAGAAATTACTG -CTAGCTGCTCTTGCGGTAACGTAATGAAAATCCGCTCCACCGTTGGTCATGACCTGAACCTCGACGTGTGCAGCA -AGTGCCACCCGTTCTTCACTGGCAAACAGCGTGATGTTGCTACCGGTGGCCGTGTTGACCGCTTCAACAAGCGTT -TCAACATCCCGGGCAGCAAATAAGACCGGATTTCCGAAAAAAGCGCCGCACGGCGCTTTTTTTGTGCCTGAATTT -TGGTCGTATTACCACGAAAACAGCGGCCATTCTTTGGCGACCGTGGTGAGTTGTGGCGCATCGAAAACGGCTTGT -GGCGAGACCACCGTTTCCTCAAGCGGAATATTCTTGCCGTAACGTTCTTTGAGCTTTGCCTGAACTTGTGGGCTG -CTCAGGTCGAACTCTTTCAACTTCTGCTGCTCGCCCACGCGCATTCCCAGCGCGTTCTGGTAAACCTTCCACACC -ACTTCCGAACAGTACTGGCGATCGTCGCTCCATGAGAAGCTGAAATCATACGGTTTACCGAGATAACGTTTTGCC -GTTTGCGCCAGTTTTTGCTGTTGTTCAACACTCAGTCCGCCTTCAACGCGGCGAACAACGTATTTGCCCTTTTCA -CCATGGGCGATCCACTGCTTGAGCGGGGTGTATTTCACCGGGCCGACTGCTTCAAAAACGTAGGGCTTTTTGTTG -CGTATCACCAGCATACCGGTGTGGCTATAATCGGTATGGGTCGCCAGTTGGATCGCTTTACTTTGCGATGAGCGA -GAGATCTGAAAGATGATGTCGCCGGTTTGTGGCTGCCAGGCAAAGGCAGGTACAGAAACCAGCAGGCTGAGGATC -AGCAGCCTGTTTTTCATAGTTAAACGTCCATGTATAAAAAGCGGTGGGTCGCAGACAACGTGCTCGTTGTTTATG -CCGGATGCGGCGTGAACGCCTTATCCGGCCTACAAGTTCGTGCAAATTCAATAAATTGCAATATGACGTAGGCCT -GATAAGCGTAGCGCATCAGGCGATTCCACTCCGCGCCGCTCTTTTTTGCTTTAGTATTCCCACGTCTCCGGGTTA -ATCCCCATCTCACGCATGATCTCTTTTGCCGCTTCCGGGATTTCGTCGCTGCGCTCTTTACGCAGATCGGCATCA -TCCGGCAAAGGTTGCCCGGTAAAGGCATGCAGAAACGCTTCGCACAGCAGCTCGCTGTTGGTAGCGTGACGCAGG -TTGTTCACCTGACGACGCGTGCGTTCATCGGTGAGGATTTTTAACACCTTAAGAGGAATGGAAACCGTAATCTTT -TTGACTTGTTCACTCTTCTTGCCGTGCTCAGCGTATGGGCTGATATATTCGCCGCTCCATTCAGCCATGAGATAC -TTAATCCTCTTCGTCAATAAATTGAGACCAGACCACACAGTTGATGTGGGTACTGACCGTAAACCCGCATAGTTT -ACCGTACAGGCGTTACCGTGACATCGTGTAATGCACCTGTCGGCGTGATAATGCATATAATTTTAACGGCTATTT -GGGATTTGCTCAATCTATACGCAAAGAAGTTTAGATGTCCAGATGTATTGACGTCCATTAACACAATGTTTACTC -TGGTGCCTGACATTTCACCGACAAAGCCCAGGGAACTTCATCACATGACGCGTAAACAGGCCACCATCGCAGTGC -GTAGCGGGTTAAATGACGACGAACAGTATGGTTGCGTTGTCCCACCGATCCATCTTTCCAGCACCTATAACTTTA -CCGGATTTAATGAACCGCGCGCGCATGATTACTCGCGTCGCGGCAACCCAACGCGCGATGTGGTTCAGCGTGCGC -TGGCAGAACTGGAAGGTGGTGCTGGTGCAGTACTTACTAATACCGGCATGTCCGCGATTCACCTGGTAACGACCG -TCTTTTTGAAACCTGGCGATCTGCTGGTTGCGCCGCACGACTGCTACGGCGGTAGCTATCGCCTGTTCGACAGTC -TGGCGAAACGCGGTTGCTATCGCGTGTTGTTTGTTGATCAAGGCGATGAACAGGCATTACGGGCAGCGCTGGCAG -AAAAACCCAAACTGGTACTGGTAGAAAGCCCAAGTAATCCATTGTTACGCGTCGTGGATATTGCGAAAATCTGCC -ATCTGGCAAGGGAAGTCGGGGCGGTGAGCGTGGTGGATAACACCTTCTTAAGCCCGGCATTACAAAATCCGCTGG -CATTAGGTGCCGATCTGGTGTTGCATTCATGCACGAAATATCTGAACGGTCACTCAGACGTAGTGGCCGGCGTGG -TGATTGCTAAAGACCCGGACGTTGTCACTGAACTGGCCTGGTGGGCAAACAATATTGGCGTGACGGGCGGCGCGT -TTGACAGCTATCTGCTGCTACGTGGGTTGCGAACGCTGGTGCCGCGTATGGAGCTGGCGCAGCGCAACGCGCAGG -CGATTGTGAAATACCTGCAAACCCAGCCGTTGGTGAAAAAACTGTATCACCCGTCGTTGCCGGAAAATCAGGGGC -ATGAAATTGCCGCGCGCCAGCAAAAAGGCTTTGGCGCAATGTTGAGTTTTGAACTGGATGGCGATGAGCAGACGC -TGCGTCGTTTCCTGGGCGGGCTGTCGTTGTTTACGCTGGCGGAATCATTAGGGGGAGTGGAAAGTTTAATCTCTC -ACGCCGCAACCATGACACATGCAGGCATGGCACCAGAAGCGCGTGCTGCCGCCGGGATCTCCGAGACGCTGCTGC -GTATCTCCACCGGTATTGAAGATGGCGAAGATTTAATTGCCGACCTGGAAAATGGCTTCCGGGCTGCAAACAAGG -GGTAAAAATGAGTGTGATTGCGCAGGCAGGGGCGAAAGGTCGTCAGCTGCATAAATTTGGTGGCAGTAGTCTGGC -TGATGTGAAGTGTTATTTGCGTGTCGCGGGCATTATGGCGGAGTACTCTCAGCCTGACGATATGATGGTGGTTTC -CGCCGCCGGTAGCACCACTAACCAGTTGATTAACTGGTTGAAACTAAGCCAGACCGATCGTCTCTCTGCGCATCA -GGTTCAACAAACGCTGCGTCGCTATCAGTGCGATCTGATTAGCGGTCTGCTACCCGCTGAAGAAGCCGATAGCCT -CATTAGCGCTTTTGTCAGCGACCTTGAGCGCCTGGCGGCGCTGCTCGACAGCGGTATTAACGACGCAGTGTATGC -GGAAGTGGTGGGCCACGGGGAAGTATGGTCGGCACGTCTGATGTCTGCGGTACTTAATCAACAAGGGCTGCCAGC -GGCCTGGCTTGATGCCCGCGAGTTTTTACGCGCTGAACGCGCCGCACAACCGCAGGTTGATGAAGGGCTTTCTTA -CCCGTTGCTGCAACAGCTGCTGGTGCAACATCCGGGCAAACGTCTGGTGGTGACCGGATTTATCAGCCGCAACAA -CGCCGGTGAAACGGTGCTGCTGGGGCGTAACGGTTCCGACTATTCCGCGACACAAATCGGTGCGCTGGCGGGTGT -TTCTCGCGTAACCATCTGGAGCGACGTCGCCGGGGTATACAGTGCCGACCCGCGTAAAGTGAAAGATGCCTGCCT -GCTGCCGTTGCTGCGTCTGGATGAGGCCAGCGAACTGGCGCGCCTGGCGGCTCCCGTTCTTCACGCCCGTACTTT -ACAGCCGGTTTCTGGCAGCGAAATCGACCTGCAACTGCGCTGTAGCTACACGCCGGATCAAGGTTCCACGCGCAT -TGAACGCGTGCTGGCCTCCGGTACTGGTGCGCGTATTGTCACCAGCCACGATGATGTCTGTTTGATTGAGTTTCA -GGTGCCCGCCAGTCAGGATTTCAAACTGGCGCATAAAGAGATCGACCAAATCCTGAAACGCGCGCAGGTACGCCC -GCTGGCGGTTGGCGTACATAACGATCGCCAGTTGCTGCAATTTTGCTACACCTCAGAAGTGGCCGACAGTGCGCT -GAAAATCCTCGACGAAGCGGGATTACCTGGCGAACTGCGCCTGCGTCAGGGGCTGGCGCTGGTGGCGATGGTCGG -TGCAGGCGTCACCCGTAACCCGCTGCATTGCCACCGCTTCTGGCAGCAACTGAAAGGCCAGCCGGTCGAATTTAC -CTGGCAGTCCGATGACGGCATCAGCCTGGTGGCAGTACTGCGCACCGGCCCGACCGAAAGCCTGATTCAGGGGCT -GCATCAGTCCGTCTTCCGCGCAGAAAAACGCATCGGCCTGGTATTGTTCGGTAAGGGCAATATCGGTTCCCGTTG -GCTGGAACTGTTCGCCCGTGAGCAGAGCACGCTTTCGGCACGTACCGGCTTTGAGTTTGTGCTGGCAGGTGTGGT -GGACAGCCGCCGCAGCCTGTTGAGCTATGACGGGCTGGACGCCAGCCGCGCGTTAGCCTTCTTCAACGATGAAGC -GGTTGAGCAGGATGAAGAGTCGTTGTTCCTGTGGATGCGCGCCCATCCGTATGATGATTTAGTGGTGCTGGACGT -TACCGCCAGCCAGCAGCTTGCTGATCAGTATCTTGATTTCGCCAGCCACGGTTTCCACGTTATCAGCGCCAACAA -ACTGGCGGGAGCCAGCGACAGCAATAAATATCGCCAGATCCACGACGCCTTCGAAAAAACCGGGCGTCACTGGCT -GTACAATGCCACCGTCGGTGCGGGCTTGCCGATCAACCACACCGTGCGCGATCTGATCGACAGCGGCGATACTAT -TTTGTCGATCAGCGGGATCTTCTCCGGCACGCTCTCCTGGCTGTTCCTGCAATTCGACGGTAGCGTGCCGTTTAC -CGAGCTGGTGGATCAGGCGTGGCAGCAGGGCTTAACCGAACCTGACCCGCGTGACGATCTCTCTGGCAAAGACGT -GATGCGCAAGCTGGTGATTCTGGCGCGTGAAGCAGGTTACAACATCGAACCGGATCAGGTACGTGTGGAATCGCT -GGTGCCTGCTCATTGCGAAGGCGGCAGCATCGACCATTTCTTTGAAAATGGCGATGAACTGAACGAGCAGATGGT -GCAACGGCTGGAAGCGGCCCGCGAAATGGGGCTGGTGCTGCGCTACGTGGCGCGTTTCGATGCCAACGGTAAAGC -GCGTGTAGGCGTGGAAGCGGTGCGTGAAGATCATCCGTTGGCATCACTGCTGCCGTGCGATAACGTCTTTGCCAT -CGAAAGCCGCTGGTATCGCGATAACCCTCTGGTGATCCGCGGACCTGGCGCTGGGCGCGACGTCACCGCCGGGGC -GATTCAGTCGGATATCAACCGGCTGGCACAGTTGTTGTAATTTCAGAAATTTAATAATGCCCGGTACTCATGTTT -TCGGGTTTATGGTTTCTAATGAAATATATTGAATTATCATAGGATTAGGCCGGATTAAGCGTTTACGACGAATCC -GGCAAGAAGCAATAAGTACATGGTTAGTTTATATTTGCAGTCCGGTTTGCTTTGCATACCGGATTTTCTTTTTCT -TACCATCCTGAAGTTTTTTCATCTTCCCTGATTTTTCCTCACCATCATTGGTCATTTTTCGGTTGACGCCCTTCG -GCTTTTCCTTCATCTTTACATCTGGACGTCTAAACGGATAGATGTGCACAACACAACATATAACTACAAGCGATT -GATGAGGTAAGGTATGAGCTTTTTTCACGCCAGCCAGCGGGATGCCCTGAATCAGAGCCTGGCAGAAGTCCAGGG -GCAGATTAACGTTTCGTTCGAGTTTTTCCCGCCGCGTACCAGTGAAATGGAGCAGACCCTGTGGAACTCCATCGA -TCGCCTTAGCAGCCTGAAACCGAAGTTTGTATCGGTGACCTATGGCGCGAACTCCGGCGAGCGCGACCGTACGCA -CAGCATTATTAAAGGCATTAAAGATCGCACTGGTCTGGAAGCGGCACCGCATCTTACTTGCATTGATGCGACGCC -CGACGAGCTGCGCACCATTGCACGCGACTACTGGAATAACGGTATTCGTCATATCGTGGCGCTGCGTGGCGATCT -GCCGCCGGGAAGTGGTAAGCCAGAAATGTATGCTTCTGACCTGGTGACGCTGTTAAAAGAAGTGGCAGATTTCGA -TATCTCCGTGGCGGCGTATCCGGAAGTTCACCCGGAAGCAAAAAGCGCTCAGGCGGATTTGCTTAATCTGAAACG -CAAAGTGGATGCCGGAGCCAACCGCGCGATTACTCAGTTCTTCTTCGATGTCGAAAGCTACCTGCGTTTTCGTGA -CCGCTGTGTATCGGCGGGCATTGATGTGGAAATTATTCCGGGAATTTTGCCGGTATCTAACTTTAAACAGGCGAA -GAAATTTGCCGATATGACCAACGTGCGTATTCCGGCGTGGATGGCGCAAATGTTCGACGGTCTGGATGATGATGC -CGAAACCCGCAAACTGGTTGGCGCGAATATTGCCATGGATATGGTGAAGATTTTAAGCCGTGAAGGAGTGAAAGA -TTTCCACTTCTATACGCTTAACCGTGCTGAAATGAGTTACGCGATTTGCCATACGCTGGGGGTTCGACCTGGTTT -ATAAATAGTGTGGCTTTTGTGAAAATCACACAGTGATCACAAATTTTAAACAGAGCACAAAATGCTGCCTCGAAA -TGAGGGCGGGAAAATAAGGTTATCAGCCTTGTTTTCTCCCTCATTACTTGAAGGATATGAAGCTAAAACCCTTTT -TTATAAAGCATTTGTCCGAATTCGGACATAATCAAAAAAGCTTAATTAAGATCAATTTGATCTACATCTCTTTAA -CCAACAATATGTAAGATCTCAACTATCGCATCCGTGGATTAATTCAATTATAACTTCTCTCTAACGCTGTGTATC -GTAACGGTAACACTGTAGAGGGGAGCACATTGATGAGCACGTCAGACGATATCCATAACACCACAGCCACTGGCA -AATGCCCGTTCCATCAGGGCGGTCACGACCAGAGTGCGGGGGCGGGCACAACCACTCGCGACTGGTGGCCAAATC -AACTTCGTGTTGACCTGTTAAACCAACATTCTAATCGTTCTAACCCACTGGGTGAGGACTTTGACTACCGCAAAG -AATTCAGCAAATTAGATTACTACGGCCTGAAAAAAGATCTGAAAGCCCTGTTGACAGAATCTCAACCGTGGTGGC -CAGCCGACTGGGGCAGTTACGCCGGTCTGTTTATTCGTATGGCCTGGCACGGCGCGGGGACTTACCGTTCAATCG -ATGGACGCGGTGGCGCGGGTCGTGGTCAGCAACGTTTTGCACCGCTGAACTCCTGGCCGGATAACGTAAGCCTCG -ATAAAGCGCGTCGCCTGTTGTGGCCAATCAAACAGAAATATGGTCAGAAAATCTCCTGGGCCGACCTGTTTATCC -TCGCGGGTAACGTGGCGCTAGAAAACTCCGGCTTCCGTACCTTCGGTTTTGGTGCCGGTCGTGAAGACGTCTGGG -AACCGGATCTGGATGTTAACTGGGGTGATGAAAAAGCCTGGCTGACTCACCGTCATCCGGAAGCGCTGGCGAAAG -CACCGCTGGGTGCAACCGAGATGGGTCTGATTTACGTTAACCCGGAAGGCCCGGATCACAGCGGCGAACCGCTTT -CTGCGGCAGCAGCTATCCGCGCGACCTTCGGCAACATGGGCATGAACGACGAAGAAACCGTGGCGCTGATTGCGG -GTGGTCATACGCTGGGTAAAACCCACGGTGCCGGTCCGACATCAAATGTAGGTCCTGATCCAGAAGCTGCACCGA -TTGAAGAACAAGGTTTAGGTTGGGCGAGCACTTACGGCAGCGGCGTTGGCGCAGATGCCATTACCTCTGGTCTGG -AAGTAGTCTGGACCCAGACGCCGACCCAGTGGAGCAACTATTTCTTCGAGAACCTGTTCAAGTATGAGTGGGTAC -AGACCCGCAGCCCGGCTGGCGCAATCCAGTTCGAAGCGGTAGACGCACCGGAAATTATCCCGGATCCGTTTGATC -CGTCGAAGAAACGTAAACCGACAATGCTGGTGACCGACCTGACGCTGCGTTTTGATCCTGAGTTCGAGAAGATCT -CTCGTCGTTTCCTCAACGATCCGCAGGCGTTCAACGAAGCCTTTGCCCGTGCCTGGTTCAAACTGACGCACAGGG -ATATGGGGCCGAAATCTCGCTACATCGGGCCGGAAGTGCCGAAAGAAGATCTGATCTGGCAAGATCCGCTGCCGC -AGCCGATCTACAACCCGACCGAGCAGGACATTATCGATCTGAAATTCGCGATTGCGGATTCTGGTCTGTCTGTTA -GTGAGCTGGTATCGGTGGCCTGGGCATCTGCTTCTACCTTCCGTGGTGGCGACAAACGCGGTGGTGCCAACGGTG -CGCGTCTGGCATTAATGCCGCAGCGCGACTGGGATGTGAACGCCGCAGCCGTTCGTGCTCTGCCTGTTCTGGAGA -AAATCCAGAAAGAGTCTGGTAAAGCCTCGCTGGCGGATATCATAGTGCTGGCTGGTGTGGTTGGTGTTGAGAAAG -CCGCAAGCGCCGCAGGTTTGAGCATTCATGTACCGTTTGCGCCGGGTCGCGTTGATGCGCGTCAGGATCAGACTG -ACATTGAGATGTTTGAGCTGCTGGAGCCAATTGCTGACGGTTTCCGTAACTATCGCGCTCGTCTGGACGTTTCCA -CCACCGAGTCACTGCTGATCGACAAAGCACAGCAACTGACGCTGACCGCGCCGGAAATGACTGCGCTGGTGGGCG -GCATGCGTGTACTGGGTGCCAACTTCGATGGCAGCAAAAACGGCGTCTTCACTGACCGCGTTGGCGTATTGAGCA -ATGACTTCTTCGTGAACTTGCTGGATATGCGTTACGAGTGGAAAGCGACCGACGAATCGAAAGAGCTGTTCGAAG -GCCGTGACCGTGAAACCGGCGAAGTGAAATTTACGGCCAGCCGTGCGGATCTGGTGTTTGGTTCTAACTCCGTCC -TGCGTGCGGTGGCGGAAGTTTACGCCAGTAGCGATGCCCACGAGAAGTTTGTTAAAGACTTCGTGGCGGCATGGG -TGAAAGTGATGAACCTCGACCGTTTCGACCTGCTGTAATCTGACCCCGTTCAGCGGCTGCTTGCTGGCAGTCGCT -GAACGTTCTTTACCAGCGTATAGTGGGCGAACGAAAACTACACACTGGATCTCTCATGTCTGCCGCAGGAAAGAG -CAACCCACTGGCAATCAGTGGCCTGGTTGTGCTCACACTTATCTGGAGTTATAGCTGGATTTTCATGAAGCAAGT -CACCAGTTACATCGGTGCCTTCGACTTTACCGCCTTACGCTGCATTTTCGGCGCTCTCGTTTTATTCATCGTCCT -TTTATTACGTGGTCGCGGAATGCGCCCGACACCGTTTAAATACACCTTAGCCATTGCCCTGTTACAAACCTGCGG -GATGGTTGGTCTGGCGCAGTGGGCGTTGGTCAGCGGAGGTGCGGGGAAGGTGGCGATCCTGAGCTATACCATGCC -GTTCTGGGTGGTGATTTTCGCCGCGTTGTTTCTCGGTGAACGCCTGCGACGTGGGCAATATTTCGCGATTCTGAT -TGCCGCTTTCGGCTTATTTTTGGTGTTGCAGCCGTGGCAACTCGATTTCTCTTCGATGAAAAGTGCCATGCTGGC -AATCCTCTCCGGCGTCAGTTGGGGGGCGAGCGCGATTGTTGCTAAACGTCTGTATGCCCGTCATCCGCGCGTGGA -TTTATTGTCGTTAACATCCTGGCAGATGCTGTATGCGGCGCTGGTGATGAGTGTGGTCGCTTTACTGGTGCCGCA -ACGTGAAATTGACTGGCAGCCCACCGTGTTCTGGGCGCTGGCCTACAGTGCGATTCTGGCGACGGCACTGGCGTG -GAGCTTATGGTTGTTTGTATTGAAAAACTTGCCTGCCAGTATTGCCAGCTTAAGCACACTGGCCGTTCCCGTTTG -CGGCGTACTCTTTTCCTGGTGGCTGCTCGGCGAGAATCCGGGGGCCGTTGAAGGTAGCGGTATTGTGCTGATTGT -GCTGGCACTGGCGCTGGTGAGCCGTAAGAAAAAAGAAGCCGTCAGTGTAAAAAGGATCTGAATTTTTTCTTCATG -TGGGGCGATCTCTTATTTAACAAAATAACGATAATGCCCCACCATCCGCCAGTTAAACAGCACATCTTCTTCCTG -CGCGCCTGCGCCAATGTTATGTATCACCAGCGGCGTACCGTCGCGGGCGAAGCCATCTGAAACCACCCCAATATG -TGCCAGCCCGTTATCCAGTCGCCAGGAGACAATATCGCCCGCTTGATAGTCACTGGGGTTCTTGCTGGTGGGGCG -TGTTTTATCATGGCGGCTAAACCAGGTTTCCAGATTAGGCACCCGACGGTGATCGATGTTGCTGTCCGGGCGCTT -TAACTTCCATTTTTGCGGGTACTCAGCAAAATTCTTCGCCATATCTTCGTGAACCAGTTTCTGCAAATCGACCTT -CTGGCTGCGCAATGCGCGGATCACCACATCGGAACATACACCGCGTTCTTGCGGAACATCACCGCCAGGATAAGT -AAGCTGCACATACGCCGGATCGTAAAATAGCGTGCTGCCAATTTGCTGTCTGGCACCGTCTGCGATGGCAAGGTT -GGTATTGGCCTGGATTTGTACCACGGTTGGTGGAACGGCGGGAGATTTTAAGGAGTGGCTGGTAAATGCCGTTAG -CAGGCTGAGCAGCGCCAGTGAAGCTTTCATCTGGTTCGTCCGTGAAAATAAGAGTCACAGATTCGACCTTCCGGG -CTAACGATTGTTCTGTAGAGAAAATGTCCAGAAGCGGATAAAAAATTCCTGAACAACGTGGGAGTTTCAGATTAC -TGGCACAGAGTGCCGGATGCGGAGTGAACGCCTTATCCGGCCTACAAAAGCACGCAAATTCAATATATTGCAGAG -ATTGCGTAGGCCTGATAAGCGTAGCGCATCAGGCAATTTTGCGTTCAAACTCCCGGACAAGCCGGGAGTTTGGAG -TAGGTTATTCCCACTCTTGCAGGAAACGCTGACCGTACTGGTCGGCTACCAGCAGAGCGGCGTAAACCTGATCTG -GCGTCGCGCCGCCAGGCATGTTGTGAATGGTTTCACCTTCTGCACATGCCGCTTCTGCCACAATTCGCATTTTCG -CCGGGACATCTTCTTTAATATCCAGTTGAGCGAGAGTTATTGGCAAACCTACCGCATGGCTAAGGGCAGCTACGG -TTTCGATTTCCTCCACCGGCGCATTTTCCAGAACCAGCTGCGTCAGCGTACCGAATGCCACTTTTTCACCGTGAT -AATAGTGATGCGCGTCCGGGATAGCGGTCAGGCCGTTATGCACTGCGTGCGCCGCAGCCAGACCACCACTTTCAA -AACCAACACCGCTCAAATAGGTGTTCGCTTCAATCACGCGCTCCAGCGCCGGAGTCACTACATGCTGTTCGGCAG -CAAGCATCGCTTTTTCGCCTTCTTCCAGCAGGGTGTTGTAGCACAGTTCAGCCAGTGCCAGCGCAGCCTGGGTGC -ACTTGCCGCCCGCCATGGTGGTCGCGCCGCTACGAGAGCAGGCACGCGCTTCAAACCAGGTTGCCAGCGCATCGC -CGATACCCGCCGCTAACAGACGTGCAGGTGCGCCAGCGACGATTTTGGTGTCGACAATGACCATATTCGGGTTAT -TTGGCAACAGCAGATAGCGGTCAAACTCACCCTCATCGGTGTAGATAACAGACAATGCGCTGCACGGTGCATCGG -TAGAGGCGATAGTCGGTGCGATCGCTACCGGAACACCCATGAAATGTGCCAGTGCTTTGGCAGTATCGAGGGTTT -TTCCGCCACCGATACCGAGAATTGCGCCACACTGCGCAGTCTCCGCGATGCCACGCAGACGGTCGATCTCATTTT -GCGAACATTCACCGCCAAACGGCGCAATTTCTACTACCAGTCCAGCATCTTTAAAGCTTTTCTCGACAGTGGATT -GAGCAAAACCTAAAACAAATTTGTCACCCACCACTAACCAGCGTTCTGCCAGCGGCTTCAGGTATTCGCCCAGAC -GATTAATCACATCAGCGCCCTGGATGTATTTACCCGGTGATTGAATAATGCGGTCCATAATTGCTCCTTTAGAGA -TGAGTAGTGCCAAATGCGGCATTCCAGTCGTGTTCGAACTTCTCTATAGCTGACTCTACCGCAGGGGTGTTGAGC -ATTTGTTGCGCTACATCTAAGGGCAGGGTGATGGATTCACATCCTGCCAGTAAACAGTCCAGCGCCTGACGCGGC -GTTTTAAAGCTGGCTGCCAGCACCATGCTTTCTGGCGCGTGCATTTCTAACAGCGTTTGCAGCTCCTGAACCGTA -CGAATGCCGTCTCCGCCCTGGGCATCTACGCGGTTAACATACGGAGCAACGTATTTTGCCCCTGCCAGTGCGGCT -AATAACCCTTGTGCGGCGCTATATACAGCAGTGCCAAGTGTAGTAATACCCTCTTTTTTCAGTATTTTAATTGCT -GCCAGACCTTCGGAAGTCACCGGGATTTTCACCACAATACCCGGAATAGCGTCGCGCAGGCGCTTCGCTTCTTCC -ACCATCCCCTGCGCGTCGCGGCTCATGGTCTGAGCAAACAGAATGCCCTCATCACCAATCGCTTTTTGCAGACGC -GGCAGCACTTCCCATATGGACTCCTTGCTGGCAGCGATAATGCTCGGGTTAGTTGTCACCCCGGCAATGGGGAAT -ATGCGTGCCAGACGTTCGACTTCTGCGACGTTAGCGGTGTCCAGATACAGTTCCATGATGTTTCCTTTTACAGTT -CCAGTTCATGTTGCAGCAGGCTGGCGATAGCGTCGGCAGAGGCGGCGTTAACCAGCGCGTTACGGAATTCTTCGT -GCATGATGCGGCGAGCGAGGCGCGAGAAAATGCGCATATGCTGATCGCCCGCAGCGTGTTTGTTCAGGGTTAACA -TAATGATGAATTGCGCTTCATCATCGCCCCAGCGCACCGGCGCTTGCAGACGCGCCACGCTGATGGTGGATTGCT -CAATGTGTTCTGATTTGCTGTGTGGAATGGCAAAACTAAAGCCCAGACCGGTAGAGAAAACGGCCTCGCGCGCCC -ACAAGTCGGCTTCCAGTTTACGCGGATAGCGGCAGCGGCCCGCCAGCAGCAGGTTATCGGTCATGCCTTTGAGCA -CTTCTTCTTTGCTGCGCCAGTCGCTTTCCAGTGTGATGCACTCGGCGGTGACCAGCGGTGCGTCTTGTTGGGTCA -TGCGGAATTGCGCCAGCAGGTGTTCTACTTCCAGCGAAGTACGGCAGGCCATTGCCTGGTTGAGCAACTTGCGGC -ACTCACGGCTATCAAGTTGCGCCATCCGAGCTTTCGCCGCCGGAATTGATGGTGCGCTCATGCTGAGTTCATCCA -GCCCTAAGCCGACCAGCAACGGCAGCACGGAACCTTTCGCTCCCAGCTCACCGCACAGACCAATCCATTTGCCCT -GGCGATGCACCGCTTGCACGGCGTAATCGAGCGCCCGCAAGAATGCCGGATTCAGGCTGTTGTAGTGACGAGTAA -CCTTAGCGTTATCGCGATCCACCGCCAGCAGATACTGCGTCAGGTCATTACTACCAATACTAAAGAAATCAATCT -CTTCGCAGCATTGATCGATGATGAACATCACCGACGGCACTTCCAGCATGATGCCGAGCTGGATTTTCTCATCAA -ACGGAATGTGTTCGTTACGTAGTTGCTGTTTGGCTTCCGCCAGTTTTTCTTTCACCCATAAGATCTCTTCCATTG -AGGAGATCATCGGGATCATGATTTTCAGGCTGCCGTGAGCGGAGGCGCGGAGGATCGACCGTAGCTGCGTGGTAA -ACAACGACGCGTACTCTTCATAAATACGCACGGCGCGATAACCGAGGAACGGGTTTGCCTCTGCGGGAATGTTCA -GATAATCAACGGGTTTGTCGCCGCCAATGTCCATAGTGCGCACAATAATGCTGCGTCCGTTGGCGGATTCCAGCG -CCTGACAAAAAATGTTGTACAACTCGCTTTCGCCCGGTGCGCTGGTGCGATCCATATAGAGCATTTCAGTGCGGA -ACAAACCAACGCCTTCCGCACCATTGCCGAATGCGGCCTGCGCTTCCACGGAGTGAGCGATGTTAGCGGCAATTT -CAATGCGGATACCGTCAGCGGTACGGGCTTGTTGGGTCAGCCAGACACGCTGTTGCTCACGCAGGGCGTCCTGTA -CGCGGGCTTCTTGCTGATAATAACGAGCTACGGCTTCCCCTGGCTCAACCACAATCGCCCCGGCGTTGCCGTCGA -TATAAATCGTTTGTTGCTGCCACGGAGTAAGGGCATCAATATCCACACCAACCAGCGTTGGAATGTTGAACGAAC -GGGCAAGGATCACCGTATGTGAGGTGGTGCCGCCGCTTTTGAGCAACAATCCTTTGAGGTGATTTTTATCCAGTT -CGAGGAACTGGCTGGGGGTCAGTTCATCAGCCATACAAATGGCGGGCTGCGTCAGTTTGCCCGGTGCCGGGAAGC -GTTGCTCACCGTAGATTTGCTGGAGTAACTGGAAGCAGACGTCGCGTACGTCCAGGGCACGTTCTTGCAGGTAGC -TGCTGCTGGAACGGGAAAACTCTTCGCAAAAGTGATTCGCGCTGGCAACAATTGCTTCGGCGCAGCTTAATCCGG -CGCTGACGCCTGCCAGTAAATGTTCGCGCAGGGAAGTATCGCCAGCCAGGGATCGGTGAGCTTCCAGAATCGCGC -TGGTAGCACCGTCGCTATCCAGCAGACGAAACTCAATGTTTTTCAGTACCAGCGTCAGGCCGTTTTCCAGTGCGG -ATTGCTCGGCGTCAACGCCTTTGGCTGCGGGAAGATTACCCAGCGCATTGAGATCTAAAGAAGAGATCGGCGTCA -GAATGCCGCCTGCACTACCGCTGCACACGGTGCGGGCGCGGATAATTTGCGGATTCAGATTGGTCAGTGAAACCG -GCAGTGGTTCCAGTTCGTCAGATTTAACTTCCGCCAGCGGCGCATCGCAGTGGGGGAATTCATCGCGCAGCCATT -GGCTTAAACGCTGGTGCGCTTCCTGTTCGTCGGCCCCGGAAATCAGTAACTGGCAGTTATCGCCCGCCAGCGTAT -CGGTGCCAATCAGCGCAAGGGCGCTTTTGGCGTTGCCCTTGCGGTCAGTGCGCAGGTTATGCCACTCAATTTGTG -ATGAAAAAGTATTACACAGCGTTTCAACGTGGCTTGCCGGACGCGCATGTACGCCGTTAGGTAGCTCACAAATAA -ATTCCACAATCAGGGCCATTGCCTCTCTCCCGGTACGGTTTTCTGTTTACAGGATAAGAGCGCACGGCAACGGCC -TGCCATGTGACAAATCTGCCAAAAGCTGGACAAATGTAATGTAACCGTCAATTTGCGACGCGTCTCACAAGACGC -TGTTTTGCGGCATGCTTCCGGTTTATCGCAAGTTATGAGGCGGATCGCATTTTTGTACTGATATTACAAAAGTCC -AGTAAATGGCCTTTTTATCCACTGTTTGCTCCGCCTGCGATTGCCTATTGTTTCCTCCATCAAAAATATGGACAT -GGGCTTTCGCAAGCCCGGGAGCAGCTTATGAATGAGTTGGTGCAGATCCTGAAAAATACCCGTCAGCATTTAATG -ACGGGCGTTTCACACATGATTCCCTTCGTGGTATCGGGCGGTATTTTGCTGGCGGTTTCCGTCATGTTGTATGGC -AAAGGCGCAGTGCCGGATGCCGTAGCCGATCCAAATCTGAAAAAACTGTTTGATATCGGCGTTGCGGGCTTGACG -CTGATGGTGCCTTTCCTCGCAGCGTACATCGGTTATTCCATTGCAGAGCGTTCTGCGCTGGCTCCGTGCGCTATC -GGTGCCTGGGTTGGTAACAGCTTTGGTGCGGGCTTCTTTGGTGCACTGATCGCCGGGATTATCGGCGGCATCGTG -GTGCATTACCTGAAGAAAATTCCGGTGCATAAAGTTCTGCGCTCGGTGATGCCTATCTTCATTATTCCTATCGTC -GGCACACTGATTACCGCAGGCATCATGATGTGGGGCTTGGGCGAGCCTGTAGGGGCGTTGACCAACAGCCTGACT -CAGTGGCTTCAGGGGATGCAGCAGGGCAGCATTGTTATGCTGGCGGTGATCATGGGTCTGATGCTGGCGTTCGAT -ATGGGCGGTCCGGTTAACAAAGTGGCCTATGCCTTCATGCTGATTTGCGTTGCTCAGGGTGTTTATACCGTGGTG -GCCATCGCTGCCGTGGGTATTTGTATCCCGCCGCTGGGGATGGGGCTGGCGACGCTGATTGGTCGTAAAAATTTC -TCCGCAGAAGAGCGCGAAACCGGCAAAGCGGCACTGGTGATGGGCTGTGTTGGCGTTACTGAAGGGGCGATTCCT -TTCGCCGCTGCCGATCCGCTGCGTGTCATTCCTTCCATCATGGTCGGTTCAGTTTGTGGTGCAGTAACTGCGGCG -CTGGTCGGTGCGCAGTGCTATGCAGGCTGGGGTGGTCTGATTGTGCTGCCGGTGGTTGAAGGCAAGCTGGGTTAT -ATCGCAGCAGTGGCTGTCGGAGCAGTGGTGACGGCTGTTTGTGTGAACGTGCTGAAAAGTCTGGCGCGTAAAAAT -GGGTCTTCGACTGATGAAAAAGAAGACGACCTGGATTTGGATTTTGAAATTAATTAATTGAGGAACGAGCCATGA -CGAAAATTATTGCAGTAACCGCATGTCCTTCAGGTGTTGCCCATACCTATATGGCAGCAGAGGCGCTGGAAAGTG -CCGCGAAAGCGAAAGGCTGGGAAGTGAAAGTAGAAACCCAGGGGTCAATTGGTCTGGAAAATGAACTGACTGCGG -AAGATGTGGCGAGCGCTGATATGGTGATTCTGACCAAAGATATCGGCATCAAGTTTGAAGAGCGTTTTGCTGGCA -AGACCATCGTGCGCGTCAACATCAGCGATGCAGTAAAACGTGCTGACGCCATTATGAGCAAAATTGAAGCTCACC -TGGCGCAAACCGCTTAAGTTCTTCTCCCGCTCGCAAGGGCGGGTTCGCTTTCCCACAGGAGTTCCTCATGACGAA -TCGTATCTCTCGCCTCAAAACTGCACTGTTTGCCAATACCCGTGAAATCTCGCTGGAGCGGGCGCTGCTTTATAC -CGCCAGCCATCGGCAAACCGAAGGCGAACCGGTGATATTGCGCCGGGCGAAAGCAACAGCGTATATCCTTGAACA -TGTTGAAATTTCGATTCGTGATGAAGAACTGATTGCCGGTAACCGCACCGTAAAACCGCGCGCCGGGATTATGTC -GCCGGAAATGGACCCTTACTGGCTGCTGAAAGAGCTGGATCAATTCCCGACGCGTCCGCAGGACCGCTTTGCTAT -CAGCGAAGAAGATAAACGTATCTACCGTGAAGAGTTGTTCCCGTACTGGGAAAAACGTTCGATGAAAGATTTCAT -CAACGGGCAGATGACAGATGAAGTAAAAGCCGCGACCAACACGCAGATTTTCAGCATCAACCAGACGGATAAAGG -CCAGGGGCACATTATTATTGATTACCCACGCCTGTTGAATCACGGGCTGGGTGAGCTGGTGGCACAGATGCAGCA -ACATTGTCAGCAACAGCCGGAGAATCACTTTTATCAGGCCGCGTTGTTACTGCTGGAAGCCTCGCAGAAACACAT -TTTGCGTTACGCCGAACTGGCGGAAACGATGGCGGCAAACTGCACAGATGCCCAGCGTCGCGAAGAGCTGCTGAC -TATTGCAGAGATCTCCCGCCATAACGCGCAACATAAGCCGCAGACGTTCTGGCAGGCGTGCCAGTTATTCTGGTA -CATGAACATCATTCTGCAATACGAATCCAACGCCAGTTCGCTATCGTTGGGGCGCTTCGACCAGTATATGTTGCC -GTTCTATCAGACATCATTAACCCAGGGCGAAGATGCGGCGTTCCTGAAAGAACTGCTCGAATCTTTATGGGTGAA -ATGCAACGACATCGTGCTGTTGCGCTCCACCAGTAGCGCGCGTTATTTCGCCGGTTTCCCGACCGGCTATACCGC -ACTGCTCGGCGGGTTAACCGAGAACGGACGTAGCGCGGTGAACGTGCTTTCGTTCCTTTGCCTTGACGCCTATCA -AAGCGTGCAATTACCGCAACCGAACCTCGGCGTGCGCACTAACGCCTTGATCGACACGCCGTTCCTGATGAAAAC -CGCCGAAACCATTCGCTTCGGTACCGGTATTCCGCAAATCTTTAACGATGAAGTGGTGGTGCCAGCGTTCCTCAA -CCGTGGCGTTTCGCTGGAAGATGCGCGCGACTATTCCGTAGTGGGCTGTGTGGAATTATCTATTCCCGGCAGAAC -CTACGGCTTGCATGACATCGCGATGTTTAATCTGCTGAAAGTGATGGAAATCTGCCTGCATGAAAATGAAGGCAA -TGCTGCGCTGACTTATGAAGGTTTACTGGAGCAGATCCGCGCCAAGATCAGCCACTACATCACCCTGATGGTTGA -GGGCAGCAATATTTGTGATATCGGCCATCGCGACTGGGCACCTGTACCGCTGCTCTCATCGTTTATCAGCGATTG -TCTGGAAAAAGGCCGCGATATTACCGATGGCGGCGCGCGTTATAACTTCTCCGGCGTACAGGGGATCGGTATCGC -CAACCTGAGCGATTCTCTCCATGCGTTGAAAGGGATGGTTTTTGAGCAACAGCGTTTAAGTTTTGACGAATTGCT -GTCGGTATTAAAAGCCAACTTCGCAACGCCAGAAGGCGAAAAAGTCCGCGCTCGCTTAATTAACCGCTTCGAGAA -ATACGGTAACGATATCGACGAGGTGGATAACATCAGCGCCGAACTGTTGCGCCACTACTGCAAAGAAGTGGAAAA -ATACCAGAACCCGCGCGGCGGCTACTTCACGCCGGGATCGTATACCGTTTCTGCTCACGTCCCGTTGGGATCGGT -GGTTGGCGCGACGCCAGACGGTCGTTTTGCCGGAGAACAGCTGGCAGACGGCGGCTTGTCACCCATGCTGGGCCA -GGACGCACAAGGGCCAACAGCGGTACTGAAGTCAGTCAGTAAGCTCGATAACACGCTGCTGTCTAACGGTACGTT -GCTGAACGTGAAATTCACTCCGGCGACCCTGGAAGGTGAAGCAGGATTACGCAAACTGGCCGACTTCTTACGGGC -GTTTACCCAGCTTAAGTTACAACATATTCAGTTTAACGTGGTGAACGCCGACACGTTGCGGGAAGCGCAACAGCG -CCCACAAGATTATGCCGGGCTGGTGGTGCGCGTTGCCGGATACAGCGCCTTCTTTGTCGAACTGTCGAAGGAGAT -CCAGGATGACATCATCCGCCGGACAGCGCATCAGCTGTAACGTTGTGGAAACGCGCCGCGATGATGTGGCGCGCA -TTTTCAACATTCAGCGTTATTCACTGAATGACGGCGAGGGCATTCGTACGGTGGTCTTTTTTAAAGGCTGTCCGC -ATCTTTGCCCGTGGTGTGCTAATCCGGAGTCGATCTCCGGCAAAATCCAGACGGTACGCAGAGAGGCGAAATGTC -TGCACTGTGCGAAATGTTTGCGTGATGCGGATGAATGCCCCTCCGGGGCGTTTGAACGGATTGGTCGCGATATCA -GCCTTGACGCTCTGGAACGGGAAGTGATGAAAGATGACATTTTCTTTCGCACGTCCGGCGGCGGCGTCACGCTTT -CTGGCGGCGAAGTGTTAATGCAGGCGGAGTTTGCTACCCGTTTTTTACAGCGACTGCGGCTGTGGGGTGTGTCAT -GCGCCATTGAAACTGCCGGAGACGCACCAGCCAGCAAGCTATTACCGCTGGCGAAATTGTGCGATGAAGTGTTGT -TCGATTTAAAAATTATGGACGCGACTCAGGCGCGGGATGTGGTGAAGATGAACCTGCCACGCGTGCTGGAGAATC -TGCGTTTGCTGGTGAGTGAGGGCGTCAACGTGATCCCGCGTTTACCGCTGATCCCTGGTTTCACGCTCAGCCGGG -AGAATATGCAGCAGGCGCTGGATGTACTGATCCCGCTGAATATCAGGCAGATCCATCTGTTACCGTTTCATCAGT -ACGGCGAACCGAAATACCGCCTGCTGGGGAAAACATGGTCGATGAAAGAGGTGCCTGCGCCGTCGTCAGCTGATG -TGGCAACGATGCGCGAAATGGCAGAACGGGCCGGACTTCAGGTTACCGTGGGAGGTTAAAATGGCATACCTGGTG -GCAGTAACCGCCTGCGTAAGCGGCGTGGCGCATACTTATATGGCGGCGGAACGGCTGGAAAAGTTGTGCCTGTTA -GAGAAGTGGGGAGTCAGCATTGAAACTCAGGGCGCGCTGGGAACGGAGAATCGTTTAGCGGATGAGGATATCCGC -CGGGCGGATGTTGCTCTGTTGATTACGGATATCGAGCTTGCCGGTGCCGAGCGATTTGAACATTGCCGCTATGTG -CAATGCAGCATCTACGCATTCCTGCGTGAGCCGCAGCGGGTAATGAGCGCGGTGCGCAAAGTGCTTTCTGCGCCG -CAGCAAACCCATCTTATTCTGGAGTAGTCGGTTTTTCTGTCAGTTGGCTGTGGTACTGCCGGCGATATTCCGACG -GCGAGCGTTCGGTGTTTTTACGAAACAGACGGCAGAAGTAGTTGCTGTCGACAAAGCCGCAGGCGTGCGCCACTT -CTTTTACCTTCAGGTCATAGCCTTTCAATAACGTCTTAGCGTGCTCCAGTCGCGTGTGATTCAGGTATTCGTTAA -AACCAATGGCCCCCGTTTTTTGAAACAGGTGCGAGAGGTAATTTGGCGAAATATAAAACGCCTGTGCAACAGATT -CGCGGGTAAGCGCGGAGGCATAGCGTTCGTCGATATAATCGCGAATAGCTTCAAATAGTGCCTGGCTGCGTGAGG -CGGTCTGGATTTGGCTGCCAAGCAAATCGCGGCAGTGGCTAAGCAGGCTGGCGACGATAAGCCTTGCCGTTTGCT -GCTCCTGCGGCTGCATTTGCATTTCATTGAGCGTTTGTAGCAGAAAAGAACCTATGCGTGGGCCGCGTCGGGCGA -CGTGTTGCTTCGCCAGATTTTGATATTGTTTGCCATCCCATTGCACGACGCTGAAGCCGAGTTGCTGTTTGCCAA -ACAGCACGCTAAAGGTAGTAGCGGGGGCTTGCCATTGTGGAAAATTCCAGCCACCAGCAGGAACGTACAGCACAT -CGCCGGGAACTAACGTTGCTCCAGCGCCGGTATCAACAAACTCACCTTCCAGCACAATTTCCAGCCGTGGAAAAT -CGACCTGATACGCAAGATCGGGCACCGGGCCGTTACTGCTGGCAAAGTAAATCTGGCGCAGGGACAGCGGGCCGT -TGATCAGGCGGGAGAGCAGATAGCTGACGTCGTGATACATGTTATTCCCTTAGGTATGTAGACGGGAAAACAGTA -ACTGGCATTATTAAAAAAGGCCACCTGAAAAGTGTGGCCTGAGGGGAGTTCGATGTAAACATTGCGGCAGTTGTA -TTGCCGGATGTGGCGTAAACGCCTTATCCAGCCTACCGCCGCGATCTGTAGGCCGGATAAGACGCGTCAAGCGTC -GCATCCGGCAAATAGCGCCTGGCTGATAATTACTGATTACCCACCTGATCGCCATAGGGCAGTGTGTCGTAATCG -ATCAGTGCGTTTTTCTTATACGGGTTACCAATCCAGCGGGTAGTTTCTTTGAACTGCGGATTCACCACTGAACGG -GTTGGATCGTAACCGTCGTAAGATAAGCCCGCCAAATCTGACCAGGTGTGGATCAGTTCCGCCAGGCTGTATTTA -CGATCAACATCCTGCGAGAAATCACGGGGATGAGTCGCTTGCCATTTTTCTGACGTCCACAGCAGGAACGGAATG -GTGTACATATGACGCGTCGGGTTGTCCTCATTACGCCCCTGAGTTTTGTGCGGCGGCGTGTCGTAAACCTCTTCA -CCGTGGTCAGAGAAATAAACCAGGAAACCGTTCGGGTTTGCTGCTTTAAAGTCTTTAATCAGGCTGGCAACCACA -TGATCGTTATACAGGTTAGCGTTGTCATAATCGTTATATGACTCCAGCTCTTCCGCGTTTAATCCCGGCGGAACA -TGATCGGTATTGCCATCAAACTTGCCCTGATTTTCCGGGTAGCGGTATTTGTATTTGATATGCGTACCCAGCAGA -TGAACAATGATCAGTTTCTTCGGCGCAGGGTCATTCAGCACTTCCTGGAACGGCTTCAGCACGTTGGTGTCGTAT -TCACGCGCACTCTGCGTACGTTGCTGGTTCATGTAGTACTGCTTGTCGGTCTGGCGCGAAAATACCGTCAGCATG -GTATTGCGGGCGGTCATCGTCTGCTGGTTGGTGATCCAGAAGGTTTTATAACCCGCCTGTTTCATCATGTTCATC -AGCGACGGCTGCGTCAGATACAGATCCGGGTTCTTTTCATTGGCAAAGGTCAGCGCCTGTTGCAGGATTTCAATG -GTGTACGGACGAGACGTAACTACGTTATTAAACACGGTCAGATTCGGATCGGTTTTATGCAGCGCATCCAGCTCC -GGCGTGGTTTCACGCGGATAACCGTACAGACTCATGCGTCCGCGCTGGGTCGACTCGCCAATCACCAGCACTAAA -GTGCGCGGTTCGTTACCCGATTCATCTTTGAAATTAGCCAGTGGCGGCAAGGCATTATTTTCATTCAGTAACTTT -GTTAGCGAGTTTAGTTGCTGACGATACTGATAATAGCCGGTCAGGAATTGCCACGGTGCGGCAGGCTCCATACGC -GAGGCCAGGTTATCCAACGTTTTCTCAAACGGCTTGTTTTTGATAAACGTATTCATGGCGATCGGATGCAGAATC -AAGCCATAAAGCAGGGCAAAAGAGACAACATAACGCCACGGCTTTGGAATATAGACCGGGCGCAGGCGTGTCCAC -AGCAGAACTGCCACCGCCGTATAGGCCAGCGCGATAAGCACAATTTTCAGGCTGAAATACTGGCTTAAATACTCG -CTGGCTTCGTTGGTGTTGGTTTCGAACATCACAAACAGAACGCTCTGCGAGAACTCCTGACCGTAGATGACGTAG -TAGCACAGCGCCGCCAGAGAGGCCGCCCATAGCACCACGCCGATTACTGCGGCAATAATTTTAATCCGCTTCGGA -AAGAGGAATACCGGGATCAACCACAGCGAACTGAATAACAGCGAGTCGCGAATGCCGTTAGTGCCACTATAACCA -CTGATGTAAATAATGGCCTGTAGCAGAGTAGAGAAAAACCAAAAGTAGAGCAGTGCCCAACCCAGGGCTTTCCAG -CTAAAAAGAGGTTTAGCCTGGACTTCTGTGGAATGCATAGTAAGAACCTGTCTTGAAAAAATATCGCCGAATGTA -ACGACAATTCCTTAAGGATATCTGAAGGTATATTCAGAATTTGAATAAAATGCAGACAGAAATATATTGAAAACG -AGGGTGTTAGAACAGAAGTATTTCAGAAAACCCTCGCGCAAAAGCACGAGGGTTTGCAGAAGAGGAAGATTAGCC -GGTATTACGCATACCTGCCGCAATCCCGGCAATAGTGACCATTAACGCTTGTTCGACGCGAGGATCCGGTTCCTG -GCCTTCTTTTTCTGCCTGGCGGGAGCGGTGCAGCAACTCGGCCTGCAATACGTTCAGCGGGTCGGTGTAAATATT -CCGTAGCTGAATAGACTCTGCAATCCACGGCAGATCGGCCATCAGATGGGAATCGTTGGCAATCGCCAGCACCAC -TTTGATGTCTTCTTCTTGCAGGTTGCGTAACTCTTTACCTAACGGCCACAGTGCTTTGTCTACCAGGCGTTGGTC -ATAGTATTCCGCCAGCCACAGGTCTGCTTTGGCGAAGACCATCTCCAGCATGCCGAGACGCGTCGAGAAGAATGG -CCAATCGCGGCACATAGCCTCCAGCTCGCTCTGTTTGCCGTCTTCGACCACTTTTTGCAGCGCCGTACCTGCACC -CAGCCAGGCGGGGAGCATCAGACGGTTTTGCGTCCAGGCGAAGATCCACGGAATGGCGCGTAGTGACTCGACGCC -GCCGGTTGGGCGACGTTTCGCCGGACGTGAACCCAACGGCAGTTTGCCCAGTTCTTGTTCCGGCGTAGCGGAGCG -GAAGTAAGGCACAAAATCTTTGTTTTCACGTACGTAGCCGCGGTAGACATCGCAGGAGATGACTGACAGTTCATC -CATAATGCGACGCCAGCTCTCTTTCGGCTCCGGCGGTGGCAGCAGGTTGGCTTCCAGAATCGCCCCGGTATAAAG -CGACAGGCTGCTGACGGTGATTTCTGGCAGACCATATTTAAAGCGGATCATCTCGCCCTGTTCGGTTACGCGCAG -GCCGCCTTTCAGGCTTCCTGGCGGTTGTGACAGCAGCGCCGCATGAGCAGGTGCGCCGCCGCGACCAATGGAACC -GCCGCGACCGTGGAACAACGTCAGCTCAATACCCGCTTTTTCGCAGGTTTTGATTAATGCATCCTGTGCCTGATA -TTGCGCCCAGGAAGCTGCCATCACTCCCGCATCTTTTGCTGAGTCGGAATAGCCAATCATCACCATCTGTTTGCC -CTGAATCAGGCCACGATACCAGTCAATATTGAGCAGCTGGGTCATGACATCGTTGGCGTTGTTCAGATCATCGAG -GGTTTCAAACAGCGGAGCAACCGGCATCGCAAACCCGATACCCGCTTCTTTCAGCAGCAGGTGGACAGCCAGTAC -GTCGGACGGCGTTTTCGCCATCGAGATCACGTAGGCGGCAATGGAGCCTTGCGGTGCTTCGGCAATCACCTGGCA -GGTATCGAGCACTTCGCGCGTTTCGGCGCTTGGTTGCCAGTTGCGCGGCAGAAGCGGACGTTTGGAGTTCAGTTC -GCGGATCAGGAACGCCTGTTTGTCGGCCTCTGACCAGCTTTCGTAGTCGCCGATACCGAGGTAGCGGGTCAGCTC -GCCCAGCGCTTCGGTATGACGCGTGCTCTCCTGACGGATATCAATACGGACCAGCGGTACGCCGAAACATTTCAC -GCGGCGCAGGGTGTCGAGCAGATCGCCGTTGGCGATAATACCCATGCCACACGCCTGAAGTGACTGGTAGCAAGC -GTAGAGCGGTTCCCACAGTTCTTCGTTTTGTGTCAGCAGGCCTTCTGGTTTTGGCAGTTCTTCGCCTTTCAGGCG -CGCTTCCAGCCATGCCTGTGTCGCCATCAGGCGAGAACGCAGGTTTTTCATCAGATAGCGATACGGTTCTGCGGC -ACCTTCTTCGCCAACCAGCGCCAGCAGTTCAGGGGTCGCTTCAACCATCGACAGTTCAGAAACCAGCACCTGAAT -ATCTTTCAGGAACAAATCGGTGGCTTTCCAGCGGCTGAGTAGCAGGACGTGGCGGGTGATATCGGCAGTGACGTT -CGGGTTGCCGTCGCGGTCGCCGCCCATCCACGAAGTAAAACGGACCGGAACAAATTCGACGGGCAGTTTGTAGCC -GAGGTTCTCTTCCAGTTGTTCGTTCAGTTCGCGCAGGTAATTTGGTACGCCTTGCCACAGGCTGTTTTCCACTAC -GGCAAAGCCCCATTTGGCTTCATCTACCGGGCTTGGACGCAGCTTACGGATTTCATCGGTATGCCATGACTGGGC -GATCAACTGGCGCAGGCGACGCATCAGCTGGTTGTGTTCGTAGTCAGCGATATCTTTGTTATCGAGCTGTTTTAA -ACAGGCGTTCACTTCCACCATTTTGTGGATCAGTGTACGACGGGTAATTTCGGTTGGGTGAGCCGTGAGGACCAG -TTCCAGCGACAGCGATTCCACTGCTTTTTTGATGGTGTCTTCGCTCAGTTCCGGCTGGTTTTTCAGTTTACGCAG -GGTGCGGGCGATCACTTCCGGGTTGCTGGCAGCTTCGCCTTTCGGCGAAATGCTGTGGTATTGCTCGGCGGTGTT -GGCCAGGTTCAGGAACTGACTAAACGCACGCGCAACGGGCAGCAGCTCGTCGTTCGACAAATTTTGTAAGGTGGT -GAGCAACTCCTGGCGGTTAGCATCATTGCCAGCGCGTGAAGATTTCGACAACTTACGGATAGTTTCTACGCGTTC -AAGAATGTGTTCTCCCAACGCATCCTTGATGGTTTCTCCCAGCACTTTGCCGAGCATACTGACATTACTACGCAA -TGCGGAATATTGTTCGTTCATATTACCCCAGACACCCCATCTTATCGTTTGATAGCCCTGTATCCTTCACGTCGC -ATTGGCGCGAATATGCTCGGGCTTTGCTTTTCGTCGTCTTTTATAAAGCCACGTAAAAGCGGTGACGTCAAATGC -TGCGAAATCGCTTCAGCAAACGAATAAATAGCAGGAATTTACGTCATTAAATTCACGACGCTTTAAATAAGCGTA -ACTTATGGAAATGTTAAAAAATCGCCCCAAGTAACACCAAAGGTGTAGGTCGGATAAGATGCGCAAGTATCGCAT -CCGACATTATTGCGGCACTGGAGTTTGGCAACAGTGCCGGATGCGGCGCGAGCGCCTTATCCGGCCTACAGTTGG -GCATCGTTTGAGTCACTGTCGGTCGGATAAGATGCGCAAGTATCGCATCCGACATTATTGCGGCACTGGAGTTTG -GCAACAGTGCCGGATGCGGCGCGAGCGCCTTATCCGGCCTACGGTTGGGCATCGTTTGAGTCACTGTAGGTCGGA -TAAGATGCGCAAGCATCGCATCCGACATTATTGCGGCACTGGAGTTTGGCAACAGCGCCGGATGCGGCGCGAGCG -CCTTATCCGGCCTACGTTTTAATGCCAGCAAAAATGGTGAATTACCTGGGTTATCAGTTCGCGGGTGGGCTTGAT -AAACCGTGTTTCCAGATATTCATCAGGTTGATGAGCCTGATTAATTGAGCCAGGCCCCAACACCAGCGTCGGGCA -TAACGTTTGAATAAACGGCGCTTCGGTACAGTAGTTCACCACTTCGGTTTTTGCTCCGAGCAATTTCTCAACCAC -TTCAACCAGTTGATGATTCGGTGGGCATTCATAGCCAGGGATCGGCGGATGCAGCTCGTCGACCGTCAGACGACC -CGGCCAGCGTTCGCTCACCGGAGCCAATGCATCGTTGAGCAAACCATTAAGTTCATTGAGTGTCATGCCAGGCAG -CGGACGAATATCCATATGCAACTCACAGCAAGCGCAAATACGGTTAGAAGCGTCGCCACCGTGAATATGCCCGAG -GTTGAGCGTAGGGTATGGCACGGTAAACGCTTCGTAGTGATAACGTTCTTTCAGGTTATCGCGCAATTGCAAAAT -ATGCCCGATGGCGTCGTGCATTAGTTCGATAGCGTTAACTCCGCGTGCTGGATCGCTGGAGTGCCCCGACTGGCC -CTGAATACGGATGGCGTTAGAGATATGACCTTTATGTGCGCGTACCGGTTGTAGTGACGTCGGTTCGCCAATGAT -GGCGCAATCCGGGCGCAGGGCGGTAGTTTCGGCAAAATAACGCGCTCCGGCCATACTGGTTTCTTCATCAGCAGT -CGCCAGAATGTAGAGCGGTTTTTTCAGTTTCGTGACGTCGACATCGCGTAGCGCATCAAGGATAAACGCAAAAAA -GCCTTTCATGTCGGCGGTGCCTAAGCCGTAAAGCTTGCCGTCATGCTCCGTCAGTGTAAACGGATCGCGCGTCCA -GCGACCGTCATCAAATGGCACCGTATCGGTATGCCCCGCCAGCAACAAGCCGCCAGCCCCCTGTCCGATACTTGC -CAGCATATTGAATTTGTTGCGAGTTCCTGGAACAGGCTGCACTTCCACATTGAAGCCCAAATCTTTAAACCAGTC -CGCCAGCAGAGTGATTAAATCTGCATTGCTTTGATCGAGTGCCTCTTCCGTGGCGCTTATTGAAGGTGTGGCAAT -CAGAGCGCGGTAAATCTCGATAAATGGCGGTAATTTGTTTTTCATTGTTGACACACCTCTGGTCATGATAGTATC -AATATTCATGCAGTATTTATGAATAAAAATACACTAACGTTGAGCGTAATAAAACCCACCAGCCGTAAGGTGAAT -GTTTTACGTTTAACCTGGCAACCAGACATAAGAAGGTGAATAGCCCCGATGTTGAATACGCTGATTGTGGGTGCC -AGCGGCTACGCTGGCGCAGAGCTAGTGACCTATGTAAATCGCCATCCGCATATGAACATAACCGCTTTGACTGTT -TCAGCGCAAAGCAATGATGCGGGAAAGTTAATCTCCGATTTGCATCCGCAGCTAAAAGGCATCGTTGATCTGCCG -TTGCAGCCGATGTCGGATATCAGCGAGTTTAGCCCAGGGGTGGACGTAGTGTTTCTCGCCACCGCCCATGAAGTT -AGCCACGATTTAGCGCCGCAGTTTCTTGAAGCGGGCTGCGTGGTGTTCGACCTTTCCGGCGCGTTTCGTGTTAAC -GACGCCACCTTCTATGAAAAATATTACGGCTTTACCCATCAATACCCGGAACTGTTGGAACAGGCAGCCTACGGT -CTGGCGGAGTGGTGCGGTAATAAATTAAAAGAAGCGAATTTGATTGCGGTGCCGGGCTGTTATCCGACGGCGGCA -CAGCTGGCGCTGAAACCGTTGATTGATGCCGATCTTCTTGACCTCAATCAGTGGCCGGTGATCAACGCCACCAGC -GGCGTGAGCGGTGCAGGGCGTAAAGCGGCCATTTCAAACAGCTTTTGTGAAGTTAGCCTGCAACCGTATGGCGTC -TTTACTCATCGCCATCAACCAGAGATCGCCACACACCTCGGTGCTGACGTTATCTTCACCCCACATCTGGGCAAT -TTCCCGCGCGGCATTCTCGAAACCATTACCTGCCGCCTGAAATCGGGTGTGACCCAGGCGCAAGTCGCGCAAGTG -TTACAGCAGGCGTATGCCCATAAACCGCTGGTGCGGCTGTATGACAAAGGCGTTCCGGCGCTGAAAAATGTCGTT -GGGCTGCCATTTTGCGATATCGGGTTTGCCGTTCAGGGCGAGCATCTGATTATTGTGGCGACCGAAGACAACTTA -CTGAAAGGCGCGGCGGCACAAGCGGTACAGTGCGCCAATATTCGTTTCGGCTATGCGGAAACGCAGTCTCTTATT -TAAGGGTGCAATGATGAATCCATTAATTATCAAACTGGGCGGCGTACTGCTGGATAGTGAAGAGGCGCTGGAACG -TCTGTTTAGCGCACTGGTGAATTATCGTGAGTCACATCAGCGTCCGCTGGTGATTGTGCACGGCGGCGGTTGCGT -GGTGGATGAGCTGATGAAAGGGCTGAATCTGCCGGTGAAAAAGAAAAACGGCCTGCGGGTGACGCCTGCTGATCA -GATAGACATTATCACCGGAGCACTGGCGGGAACGGCAAATAAAACCCTGTTGGCATGGGCGAAGAAACATCAGAT -TGCGGCCGTAGGTTTGTTTCTCGGTGACGGCGACAGCGTCAAAGTGACCCAGCTTGATGAAGAGTTAGGTCATGT -TGGACTGGCGCAGCCAGGTTCGCCTAAGCTTATCAACTCCTTGCTGGAGAACGGTTATCTGCCGGTGGTCAGCTC -CATTGGCGTAACAGACGAAGGGCAACTGATGAACGTCAATGCCGACCAGGCGGCAACGGCGCTGGCGGCAACGCT -GGGCGCGGATCTGATTTTGCTCTCCGACGTCAGCGGCATTCTCGACGGCAAAGGGCAACGCATTGCCGAAATGAC -CGCCGCGAAAGCAGAACAACTGATTGAGCAGGGCATTATTACTGACGGCATGATAGTGAAAGTGAACGCGGCGCT -GGATGCGGCCCGCACGCTGGGCCGTCCGGTAGATATCGCCTCCTGGCGTCATGCGGAGCAGCTTCCGGCACTGTT -TAACGGTATGCCGATGGGTACGCGGATTTTAGCTTAAGTTTTGTTGGCCGGAGGCGCAGCTTTCCGGCATTGAAT -TTCAAAATAAGGAAACAGAGTTATGGCACTTTGGGGCGGGCGTTTTACCCAGGCAGCAGATCAACGGTTCAAACA -ATTCAACGACTCACTGCGCTTTGATTACCGTCTGGCGGAGCAGGATATTGTTGGCTCTGTGGCCTGGTCCAAAGC -CCTGGTCACGGTAGGCGTGTTAACCGCAGAAGAGCAGGCGCAACTGGAAGAGGCGCTGAACGTGTTGCTGGAAGA -TGTTCGCGCCAGGCCACAACAAATCCTTGAAAGCGACGCCGAAGATATCCATAGCTGGGTGGAAGGCAAACTGAT -CGACAAAGTGGGCCAGTTAGGCAAAAAGCTGCATACCGGGCGTAGCCGTAATGATCAGGTAGCGACTGACCTGAA -ACTGTGGTGCAAAGATACCGTTAGCGAGTTACTGACGGCTAACCGGCAGCTGCAATCGGCGCTGGTGGAAACCGC -ACAAAACAATCAGGACGCGGTAATGCCAGGTTACACTCACCTGCAACGCGCCCAGCCGGTGACGTTCGCGCACTG -GTGCCTGGCCTATGTTGAGATGCTGGCGCGTGATGAAAGCCGTTTGCAGGATGCGCTTAAGCGTCTGGATGTCAG -CCCGCTAGGCTGTGGCGCGCTGGCGGGAACGGCCTATGAAATCGACCGTGAACAGTTAGCAGGCTGGCTGGGCTT -TGCTTCGGCGACCCGTAACAGTCTCGACAGCGTTTCTGACCGTGACCATGTGTTGGAACTGCTTTCTGCTGCCGC -TATCGGCATGGTGCATCTGTCGCGTTTTGCTGAAGATCTGATTTTCTTTAACACCGGCGAAGCGGGGTTTGTGGA -GCTTTCTGACCGCGTGACTTCCGGTTCATCATTAATGCCGCAGAAGAAAAACCCGGATGCGCTGGAGCTGATTCG -CGGTAAATGCGGCCGGGTGCAGGGGGCGTTAACCGGCATGATGATGACGCTGAAAGGTTTGCCGCTGGCTTACAA -CAAAGATATGCAGGAAGACAAAGAAGGTCTGTTCGACGCGCTCGATACCTGGCTGGACTGCCTGCATATGGCGGC -GCTGGTGCTGGACGGCATTCAGGTGAAACGTCCACGTTGCCAGGAAGCGGCTCAGCAGGGTTACGCCAACGCCAC -CGAACTGGCGGATTATCTGGTGGCGAAAGGCGTACCGTTCCGCGAGGCGCACCATATTGTTGGTGAAGCGGTGGT -GGAAGCCATTCGTCAGGGCAAACCGCTGGAAGATCTGCCGCTCAGTGAGTTGCAGAAATTCAGTCAGGTGATTGA -CGAAGATGTCTATCCGATTCTGTCGCTGCAATCGTGCCTCGACAAGCGTGCGGCAAAAGGCGGCGTCTCACCGCA -GCAGGTGGCGCAGGCGATTGCTTTTGCGCAGGCTCGGTTAGGGTAAGAACATTTATATGTATAAATTTGAGCCTG -GCTTATCGCCGGGCTTTTTTATGGCAAAAAAAAGCGGATCCTGGAGATCCGCAAAAGTTCACGTTGGCTTTAGTT -ATTCGAGTTGAGAAACTCTCGAAACGGGCAGTGACTTCAAGGGTTAAAAGAGGTGCCGCTCCGTTTCTGTGAGCA -ATTATCAGTCAGAATGCTTGATAGGGATAATCGTTCATTGCTATTCTACCTATCGCCATGAACTATCGTGGCGAT -GGAGGATGGATAATGAATATTCGTGATCTTGAGTACCTGGTGGCATTGGCTGAACACCGCCATTTTCGGCGTGCG -GCAGATTCCTGCCACGTTAGCCAGCCGACGCTTAGCGGGCAAATTCGTAAGCTGGAAGATGAGCTGGGCGTGATG -TTGCTGGAGCGGACCAGCCGTAAAGTGTTGTTCACCCAGGCGGGAATGCTGCTGGTGGATCAGGCGCGTACCGTG -CTGCGTGAGGTGAAAGTCCTTAAAGAGATGGCAAGCCAGCAGGGCGAGACGATGTCCGGACCGCTGCACATTGGT -TTGATTCCCACAGTTGGACCGTACCTGCTACCGCATATTATCCCTATGCTGCACCAGACCTTTCCAAAGCTGGAA -ATGTATCTGCATGAAGCACAGACCCACCAGTTACTGGCGCAACTGGACAGCGGCAAACTCGATTGCGTGATCCTC -GCGCTGGTGAAAGAGAGCGAAGCATTCATTGAAGTGCCGTTGTTTGATGAGCCAATGTTGCTGGCTATCTATGAA -GATCACCCGTGGGCGAACCGCGAATGCGTACCGATGGCCGATCTGGCAGGGGAAAAACTGCTGATGCTGGAAGAT -GGTCACTGTTTGCGCGATCAGGCAATGGGTTTCTGTTTTGAAGCCGGGGCGGATGAAGATACACACTTCCGCGCG -ACCAGCCTGGAAACTCTGCGCAACATGGTGGCGGCAGGTAGCGGGATCACTTTACTGCCAGCGCTGGCTGTGCCG -CCGGAGCGCAAACGCGATGGGGTTGTTTATCTGCCGTGCATTAAGCCGGAACCACGCCGCACTATTGGCCTGGTT -TATCGTCCTGGCTCACCGCTGCGCAGCCGCTATGAGCAGCTGGCAGAGGCCATCCGCGCAAGAATGGATGGCCAT -TTCGATAAAGTTTTAAAACAGGCGGTTTAAACCGTTTAACGCAGCTACCCGATAGGCTTCCGCCATCGTCGGGTA -GTTAAAGGTGGTGTTGACGAAGTACTCAATAGTGTTGCCGCCACCTTTCTGTTCCATAATCGCCTGACCGATATG -AATAATTTCGGCAGCGCGCTCGCCAAAGCAGTGAATACCCAGAATCTCTTTTGTTTCCCGATGGAACAAAATTTT -CAGCGTGCCCACGTTCATGCCGACGATTTGTGCGCGTGCCAGATGTTTAAACTGGGCGCGGCCCACTTCATATGG -CACTTTCATTGCGGTCAGCTGCTGTTCGGTTTTGCCCACAGAGCTGATTTCCGGGATGGTGTAAATACCGGTAGG -GATATCTTCAATCAGATGTGCGGTGGCTTCGCCTTTTACCAGCGCCTGCGCGGCAATGCGCCCCTGGTCATAGGC -CGCCGACGCCAGGCTCGGATAACCAATCACGTCGCCCACCGCGTAAACGTGTGGCTGTGCGGTCTGATACATGCT -GTTGACCTTCAGCTGTCCGCGGCTGTCAGTTTCTAGCCCAATGTTCTGTAACGCCAGCGAATCGGTATTACCGGT -GCGACCGTTGGCATAGAGCAGGCAGTCAGCTTTCAGTTTTTTACCCGACTTCAGATGCATGATCACACCATCGTC -ACAGCCTTCGATCTTCTCGTACTCTTCGTTGTGACGAATCACTACGCCACTGTTCCAGAAGTGATAGGAGAGAGA -ATCTGACATCTCTTGATCGAGAAATGCCAGCAGGCGATCGCGGGTGTTGATCAGATCCACTTTTACATCCATACC -GCGGAAGATCGACGCATATTCACAGCCGATCACTCCAGCACCATAGATAAGTACATGGCGCGGTTCGTGGTGCAT -GCTGAGAATTGAGTCGCTGTCGTAAATGCGTGGATGGGTGAAATCAACATCTGTTGGATGATATGGACGAGAGCC -GCAGGCAATAACAAATTTTTCAGCGGTTAGTGTTTCAACGCTGCCGTCCGGGCAATCCAGCGCCAACGTATGCTC -GTCAACAAAGCGAGCGTTTCCCTGCAATATTTCACAGTGATTACGTTCGTAAAATCCCTGACGCATGCGCGTTTG -TTGATTAATCACGTTATCGGCATGGTTAAGGATATCGGCAAAAGAAGAGCGGAGCAGTCGGGAATGGTCGCTGTA -AAGTGGGTTTTGATTGAATTCTATAATGCGGCTGACGGCGTGACGGAGAGCTTTCGACGGGATGGTGCCCCAGTG -GGTGCAACCGCCGCCAACATTTTGATAACGCTCGATAACTGCGACGCGCGCACCTTGCTTAACCAGGCCCATTGC -AGCGCCTTCGCCGCCGGGGCCGGAACCTATTACTATGGCATCGTAATCGTAGGAATGTGGCATGGTAGGGCTTAC -CTGTTCTTATACATAAAAGCAACAGAATGGTAACATTTTATCGCGGGTAAGCCAATTGATCCCCGTCATTTATCT -GGCTATATCCTGAGCGGCCTTTGCTTTGTCTGTTTCTTACTTTTGCCCTGACGTTTTATTGGATTTTTATCGACG -ATACTCTCCGTTTAAGCGGCAGGTTTCCGCTGTACGTAAAAGAACCGGCCAAAGAATTGCAGTAAATATGTTTTA -TTGCGTTACCGTTCATTCACAATACTGGAGCAATCCAGTATGTTCATTCTCTGGTATAGTGCCAGCAGTACTTTT -GGCAAGGATTCAGACATCGTGATGGGCGTAAGAGCGCAACAAAAAGAAAAAACCCGCCGTTCGCTGGTGGAAGCC -GCATTTAGCCAATTAAGTGCTGAACGCAGCTTCGCCAGCCTGAGTTTGCGTGAAGTGGCGCGTGAAGCGGGCATT -GCTCCCACCTCTTTTTATCGGCATTTCCGCGACGTAGACGAACTGGGTCTGACCATGGTTGATGAGAGCGGTTTA -ATGCTACGCCAACTCATGCGCCAGGCGCGTCAGCGTATCGCCAAAGGCGGGAGTGTGATCCGCACCTCGGTCTCC -ACATTTATGGAGTTCATCGGTAATAATCCTAACGCCTTCCGGTTATTATTGCGGGAACGCTCCGGCACCTCCGCT -GCGTTTCGTGCCGCCGTTGCGCGTGAAATTCAGCACTTCATTGCGGAACTTGCGGACTATCTGGAACTCGAAAAC -CATATGCCGCGTGCGTTTACTGAAGCGCAAGCCGAAGCAATGGTGACAATTGTCTTCAGTGCGGGTGCCGAGGCG -TTGGACGTCGGCGTCGAACAACGTCGGCAATTAGAAGAGCGACTGGTACTGCAACTGCGAATGATTTCGAAAGGG -GCTTATTACTGGTATCGCCGTGAACAAGAGAAAACCGCAATTATTCCGGGAAATGTGAAGGACGAGTAATGAAAC -AAGCAAATCAAGATAGAGGTACGCTGCTGCTGGCGTTAGTTGCTGGCTTATCGATTAATGGTACTTTCGCAGCGC -TGTTTAGCTCCATTGTGCCATTTTCTGTATTCCCGATTATTTCCCTGGTGCTGACGGTTTACTGCCTGCATCAAC -GTTATCTTAATCGCACTATGCCGGTAGGCTTGCCGGGTCTGGCAGCTGCCTGTTTTATTCTCGGCGTACTGCTGT -ACAGCACGGTAGTTCGTGCGGAATATCCGGATATCGGCTCTAACTTCTTCCCGGCAGTACTCTCCGTCATTATGG -TGTTCTGGATTGGCGCGAAGATGCGTAACCGTAAGCAGGAAGTTGCTGAGTAATCGGTATTATGCCGGATGCTGG -CGCATCCGGCATGGGTTTTACTTCGCGGTCAGTAATACGCCGCACTCCATATGGTGCGTGTAGGGGAACTGATCA -AACAGAGCCAGACGTTCGACCTTGTGCGTCTGGCTTAATGTTTCCAGATTCTTGCATAACGTTTCCGGGTTACAG -GAGATGTACAAAATACGCGGATACGCCTGCACCATTTTCTCGGTTTCACTGTCCAGACCGCTGCGCGGAGGGTCG -ACAAAAATGGTTTCGCACTGATAACTCTTTAAGTCGATCCCTTGCAGGCGGTTAAACTCGCGCACACCATTCATC -GCCTGAGTAAATTCTTCTGCCGCCATACGAATAATTTGTACGTTATCAATATGGTTAGCTGCGATGTTGTATTGC -GCAGCAGCAACCGACGGCTTAGCGATTTCGGTGGCTAATACCCGATCAAAATTACGCGCCAGCGCTAATGAAAAG -TTACCGTTGCCGCAGTACAGCTCCAGTAAATCGCCTTTTGAGCCTTTGGTTACGTCCAGCGCCCATTCCAGCATC -TGAATATTCATCGCCGCGTTCGGCTGGGTAAAGCTGTTTTCTACCTGACGGTAGATCATCTCTTTCCCTGCGACC -GGCAGACGTTCATCGATGTAATCCTGATCCAGCTCGATTTTGGTTTTCGTTGCCCGACCAATCAGATGCACATTC -AGATTCTGCGCGCGCAGTGCATCGCGCAGGGCCTCCGCTTCCTGACGCCACTCATCATCCAGCTTCTTATGGTAT -AGCAGGGAAACCACCGCCTGATTACTCAGTGTAGTGAGGTAATCAATCTGGAACAACTTGTGGCGCAGAACGGGA -TTATTACGCACACCCGCAATCATCGCCGTCATCAACTGGTTGATAAGTTCACTGGCGGCGGGGAAGCTATCCACG -CGGATGCGGCTTTTGGTTTGTTGATCGAAAATGATGTGATACAGGTCATCGCCATCGTGCCAGATGCGGAACTCC -GCGCGCATCCGGTAATGACTGACCGGCGAGCGAAACACTTCCGGAACCAGGTCAGAAAACGGTGCCATCATACTT -TGCAAACGTACCACTTTTTCGGCTAACTGCGCTTCATACTGTTCTGTTGGAAGGTGTTCGGGGGTCATGATGTAT -CCTGAAAAATTAAAGTACGCGGCGATTGTAGGGATTGCTCATCAGATGTCCAGATCTTGATGAATTCCTATTTGT -GAGCTACGTCTGGACAGTAACTTGTTACAACCTGTAGCATCCACTTGCCGGTCCTGTGAGTTAATAGGGAATCCA -GTGCGAATCTGGAGCTGACGCGCAGCGGTAAGGAAAGGTGCGATGATTGCGTTATGCGGACACTGCCATTCGGTG -GGAAGTCATCATCTCTTAGTATCTTAGATACCCCTCCAAGCCCGAAGACCTGCCGGCCAACGTCGCATCTGGTTC -TCATCATCGCGTAATATTGATGAAACCTGCGGCATCCTTCTTCTATTGTGGATGCTTTACAATGATTAAAAAAGC -TTCGCTGCTGACGGCGTGTTCCGTCACGGCATTTTCCGCTTGGGCACAGGATACCAGCCCGGATACTCTCGTCGT -TACTGCTAACCGTTTTGAACAGCCGCGCAGCACTGTGCTTGCACCAACCACCGTTGTGACCCGTCAGGATATCGA -CCGCTGGCAGTCGACCTCGGTCAATGATGTGCTGCGCCGTCTTCCGGGCGTCGATATCACCCAAAACGGCGGTTC -AGGTCAGCTCTCATCTATTTTTATTCGCGGTACAAATGCCAGTCATGTGTTGGTGTTAATTGATGGCGTACGCCT -GAATCTGGCGGGGGTGAGTGGTTCTGCCGACCTTAGCCAGTTCCCTATTGCGCTTGTCCAGCGTGTTGAATATAT -CCGTGGGCCGCGCTCCGCTGTTTATGGTTCCGATGCAATAGGCGGGGTGGTGAATATCATCACGACGCGCGATGA -ACCCGGAACGGAAATTTCAGCAGGGTGGGGAAGCAATAGTTATCAGAACTATGATGTCTCTACGCAGCAACAACT -GGGGGATAAGACACGGGTAACGCTGTTGGGCGATTATGCCCATACTCATGGTTATGATGTTGTTGCCTATGGTAA -TACCGGAACGCAAGCGCAGACAGATAACGATGGTTTTTTAAGTAAAACGCTTTATGGCGCGCTGGAGCATAACTT -TACTGATGCCTGGAGCGGCTTTGTGCGCGGCTATGGCTATGATAACCGTACCAATTATGACGCGTATTATTCTCC -CGGTTCACCGTTGCTCGATACCCGTAAACTCTATAGCCAAAGTTGGGACGCCGGGCTGCGCTATAACGGCGAACT -GATTAAATCACAACTCATTACCAGCTATAGCCATAGCAAAGATTACAACTACGATCCCCATTATGGTCGTTATGA -TTCGTCGGCGACGCTCGATGAGATGAAGCAATACACCGTCCAGTGGGCAAACAATGTCATCGTTGGTCACGGTAG -TATTGGTGCGGGTGTCGACTGGCAGAAACAGACTACGACGCCGGGTACAGGTTATGTTGAGGATGGATATGATCA -ACGTAATACCGGCATCTATCTGACCGGGCTGCAACAAGTCGGCGATTTTACCTTTGAAGGCGCAGCACGCAGTGA -CGATAACTCACAGTTTGGTCGTCATGGAACCTGGCAAACCAGCGCCGGTTGGGAATTCATCGAAGGTTATCGCTT -CATTGCTTCCTACGGGACATCTTATAAGGCACCAAATCTGGGGCAACTGTATGGCTTCTACGGAAATCCGAATCT -GGACCCGGAGAAAAGCAAACAGTGGGAAGGCGCGTTTGAAGGCTTAACCGCTGGGGTGAACTGGCGTATTTCCGG -ATATCGTAACGATGTCAGTGACTTGATCGATTATGATGATCACACCCTGAAATATTACAACGAAGGGAAAGCGCG -GATTAAGGGCGTCGAGGCGACCGCCAATTTTGATACCGGACCACTGACGCATACTGTGAGTTATGATTATGTCGA -TGCGCGCAATGCGATTACCGACACGCCGTTGTTACGCCGTGCTAAACAGCAGGTGAAATACCAGCTCGACTGGCA -GTTGTATGACTTCGACTGGGGTATTACTTATCAGTATTTAGGCACTCGCTATGATAAGGATTACTCATCTTATCC -TTATCAAACCGTTAAAATGGGCGGTGTGAGCTTGTGGGATCTTGCGGTTGCGTATCCGGTCACCTCTCACCTGAC -AGTTCGTGGTAAAATAGCCAACCTGTTCGACAAAGATTATGAGACAGTCTATGGCTACCAAACTGCAGGACGGGA -ATACACCTTGTCTGGCAGCTACACCTTCTGAACCACGTCCCACCGTGCTGGTGTTTGACTCCGGCGTCGGTGGGT -TGTCGGTCTATGACGAGATCCGGCATCTCTTACCGGATCTCCATTACATTTATGCTTTCGATAACGTCGCTTTCC -CGTATGGCGAAAAAAGCGAAGCGTTTATTGTTGAGCGAGTGGTGGCAATTGTCACCGCGGTGCAAGAACGTTATC -CCCTTGCGCTGGCTGTGGTCGCTTGCAACACTGCCAGTACCGTTTCACTTCCTGCATTACGCGAAAAGTTCGACT -TCCCGGTTGTTGGTGTCGTGCCGGCGATTAAACCTGCTGCACGTCTGACGGCAAATGGCATTGTCGGATTACTGG -CAACCCGCGGAACAGTTAAACGTTCTTATACTCATGAGCTGATCGCGCGTTTCGCTAATGAATGCCAGATAGAAA -TGCTGGGCTCGGCAGAGATGGTTGAGTTGGCTGAAGCGAAGCTACATGGCGAAGATGTTTCTCTGGATGCACTAA -AACGTATCCTACGCCCGTGGTTAAGAATGAAAGAGCCGCCAGATACCGTTGTATTGGGTTGCACCCATTTCCCTC -TACTACAAGAAGAACTGTTACAAGTGCTGCCAGAGGGAACCCGGCTGGTGGATTCTGGCGCAGCGATTGCTCGCC -GAACGGCCTGGTTGTTAGAACATGAAGCCCCGGATGCAAAATCTGCCGATGCGAATATTGCCTTTTGTATGGCAA -TGACGCCAGGAGCTGAACAATTATTGCCCGTTTTACAGCGTTACGGCTTCGAAACGCTCGAAAAACTGGCAGTTT -TAGGCTGATTTGGTTGAATGTTGCGCGGTCAGAAAATTATTTTAAATTTCCTCTTGTCAGGCCGGAATAACTCCC -TATAATGCGCCACCACTGACACGGAACAACGGCAAACACGCCGCCGGGTCAGCGGGGTTCTCCTGAGAACTCCGG -CAGAGAAAGCAAAAATAAATGCTTGACTCTGTAGCGGGAAGGCGTATTATGCACACCCCGCGCCGCTGAGAAAAA -GCGAAGCGGCACTGCTCTTTAACAATTTATCAGACAATCTGTGTGGGCACTCGAAGATACGGATTCTTAACGTCG -CAAGACGAAAAATGAATACCAAGTCTCAAGAGTGAACACGTAATTCATTACGAAGTTTAATTCTTTGAGCGTCAA -ACTTTTAAATTGAAGAGTTTGATCATGGCTCAGATTGAACGCTGGCGGCAGGCCTAACACATGCAAGTCGAACGG -TAACAGGAAGAAGCTTGCTTCTTTGCTGACGAGTGGCGGACGGGTGAGTAATGTCTGGGAAACTGCCTGATGGAG -GGGGATAACTACTGGAAACGGTAGCTAATACCGCATAACGTCGCAAGACCAAAGAGGGGGACCTTCGGGCCTCTT -GCCATCGGATGTGCCCAGATGGGATTAGCTAGTAGGTGGGGTAACGGCTCACCTAGGCGACGATCCCTAGCTGGT -CTGAGAGGATGACCAGCCACACTGGAACTGAGACACGGTCCAGACTCCTACGGGAGGCAGCAGTGGGGAATATTG -CACAATGGGCGCAAGCCTGATGCAGCCATGCCGCGTGTATGAAGAAGGCCTTCGGGTTGTAAAGTACTTTCAGCG -GGGAGGAAGGGAGTAAAGTTAATACCTTTGCTCATTGACGTTACCCGCAGAAGAAGCACCGGCTAACTCCGTGCC -AGCAGCCGCGGTAATACGGAGGGTGCAAGCGTTAATCGGAATTACTGGGCGTAAAGCGCACGCAGGCGGTTTGTT -AAGTCAGATGTGAAATCCCCGGGCTCAACCTGGGAACTGCATCTGATACTGGCAAGCTTGAGTCTCGTAGAGGGG -GGTAGAATTCCAGGTGTAGCGGTGAAATGCGTAGAGATCTGGAGGAATACCGGTGGCGAAGGCGGCCCCCTGGAC -GAAGACTGACGCTCAGGTGCGAAAGCGTGGGGAGCAAACAGGATTAGATACCCTGGTAGTCCACGCCGTAAACGA -TGTCGACTTGGAGGTTGTGCCCTTGAGGCGTGGCTTCCGGAGCTAACGCGTTAAGTCGACCGCCTGGGGAGTACG -GCCGCAAGGTTAAAACTCAAATGAATTGACGGGGGCCCGCACAAGCGGTGGAGCATGTGGTTTAATTCGATGCAA -CGCGAAGAACCTTACCTGGTCTTGACATCCACGGAAGTTTTCAGAGATGAGAATGTGCCTTCGGGAACCGTGAGA -CAGGTGCTGCATGGCTGTCGTCAGCTCGTGTTGTGAAATGTTGGGTTAAGTCCCGCAACGAGCGCAACCCTTATC -CTTTGTTGCCAGCGGTCCGGCCGGGAACTCAAAGGAGACTGCCAGTGATAAACTGGAGGAAGGTGGGGATGACGT -CAAGTCATCATGGCCCTTACGACCAGGGCTACACACGTGCTACAATGGCGCATACAAAGAGAAGCGACCTCGCGA -GAGCAAGCGGACCTCATAAAGTGCGTCGTAGTCCGGATTGGAGTCTGCAACTCGACTCCATGAAGTCGGAATCGC -TAGTAATCGTGGATCAGAATGCCACGGTGAATACGTTCCCGGGCCTTGTACACACCGCCCGTCACACCATGGGAG -TGGGTTGCAAAAGAAGTAGGTAGCTTAACCTTCGGGAGGGCGCTTACCACTTTGTGATTCATGACTGGGGTGAAG -TCGTAACAAGGTAACCGTAGGGGAACCTGCGGTTGGATCACCTCCTTACCTTAAAGAAGCGTACTTTGTAGTGCT -CACACAGATTGTCTGATAGAAAGTGAAAAGCAAGGCGTTTACGCGTTGGGAGTGAGGCTGAAGAGAATAAGGCCG -TTCGCTTTCTATTAATGAAAGCTCACCCTACACGAAAATATCACGCAACGCGTGATAAGCAATTTTCGTGTCCCC -TTCGTCTAGAGGCCCAGGACACCGCCCTTTCACGGCGGTAACAGGGGTTCGAATCCCCTAGGGGACGCCACTTGC -TGGTTTGTGAGTGAAAGTCGCCGACCTTAATATCTCAAAACTCATCTTCGGGTGATGTTTGAGATATTTGCTCTT -TAAAAATCTGGATCAAGCTGAAAATTGAAACACTGAACAACGAGAGTTGTTCGTGAGTCTCTCAAATTTTCGCAA -CACGATGATGAATCGAAAGAAACATCTTCGGGTTGTGAGGTTAAGCGACTAAGCGTACACGGTGGATGCCCTGGC -AGTCAGAGGCGATGAAGGACGTGCTAATCTGCGATAAGCGTCGGTAAGGTGATATGAACCGTTATAACCGGCGAT -TTCCGAATGGGGAAACCCAGTGTGTTTCGACACACTATCATTAACTGAATCCATAGGTTAATGAGGCGAACCGGG -GGAACTGAAACATCTAAGTACCCCGAGGAAAAGAAATCAACCGAGATTCCCCCAGTAGCGGCGAGCGAACGGGGA -GCAGCCCAGAGCCTGAATCAGTGTGTGTGTTAGTGGAAGCGTCTGGAAAGGCGCGCGATACAGGGTGACAGCCCC -GTACACAAAAATGCACATGCTGTGAGCTCGATGAGTAGGGCGGGACACGTGGTATCCTGTCTGAATATGGGGGGA -CCATCCTCCAAGGCTAAATACTCCTGACTGACCGATAGTGAACCAGTACCGTGAGGGAAAGGCGAAAAGAACCCC -GGCGAGGGGAGTGAAAAAGAACCTGAAACCGTGTACGTACAAGCAGTGGGAGCACGCTTAGGCGTGTGACTGCGT -ACCTTTTGTATAATGGGTCAGCGACTTATATTCTGTAGCAAGGTTAACCGAATAGGGGAGCCGAAGGGAAACCGA -GTCTTAACTGGGCGTTAAGTTGCAGGGTATAGACCCGAAACCCGGTGATCTAGCCATGGGCAGGTTGAAGGTTGG -GTAACACTAACTGGAGGACCGAACCGACTAATGTTGAAAAATTAGCGGATGACTTGTGGCTGGGGGTGAAAGGCC -AATCAAACCGGGAGATAGCTGGTTCTCCCCGAAAGCTATTTAGGTAGCGCCTCGTGAATTCATCTCCGGGGGTAG -AGCACTGTTTCGGCAAGGGGGTCATCCCGACTTACCAACCCGATGCAAACTGCGAATACCGGAGAATGTTATCAC -GGGAGACACACGGCGGGTGCTAACGTCCGTCGTGAAGAGGGAAACAACCCAGACCGCCAGCTAAGGTCCCAAAGT -CATGGTTAAGTGGGAAACGATGTGGGAAGGCCCAGACAGCCAGGATGTTGGCTTAGAAGCAGCCATCATTTAAAG -AAAGCGTAATAGCTCACTGGTCGAGTCGGCCTGCGCGGAAGATGTAACGGGGCTAAACCATGCACCGAAGCTGCG -GCAGCGACGCTTATGCGTTGTTGGGTAGGGGAGCGTTCTGTAAGCCTGCGAAGGTGTGCTGTGAGGCATGCTGGA -GGTATCAGAAGTGCGAATGCTGACATAAGTAACGATAAAGCGGGTGAAAAGCCCGCTCGCCGGAAGACCAAGGGT -TCCTGTCCAACGTTAATCGGGGCAGGGTGAGTCGACCCCTAAGGCGAGGCCGAAAGGCGTAGTCGATGGGAAACA -GGTTAATATTCCTGTACTTGGTGTTACTGCGAAGGGGGGACGGAGAAGGCTATGTTGGCCGGGCGACGGTTGTCC -CGGTTTAAGCGTGTAGGCTGGTTTTCCAGGCAAATCCGGAAAATCAAGGCTGAGGCGTGATGACGAGGCACTACG -GTGCTGAAGCAACAAATGCCCTGCTTCCAGGAAAAGCCTCTAAGCATCAGGTAACATCAAATCGTACCCCAAACC -GACACAGGTGGTCAGGTAGAGAATACCAAGGCGCTTGAGAGAACTCGGGTGAAGGAACTAGGCAAAATGGTGCCG -TAACTTCGGGAGAAGGCACGCTGATATGTAGGTGAGGTCCCTCGCGGATGGAGCTGAAATCAGTCGAAGATACCA -GCTGGCTGCAACTGTTTATTAAAAACACAGCACTGTGCAAACACGAAAGTGGACGTATACGGTGTGACGCCTGCC -CGGTGCCGGAAGGTTAATTGATGGGGTTAGCGCAAGCGAAGCTCTTGATCGAAGCCCCGGTAAACGGCGGCCGTA -ACTATAACGGTCCTAAGGTAGCGAAATTCCTTGTCGGGTAAGTTCCGACCTGCACGAATGGCGTAATGATGGCCA -GGCTGTCTCCACCCGAGACTCAGTGAAATTGAACTCGCTGTGAAGATGCAGTGTACCCGCGGCAAGACGGAAAGA -CCCCGTGAACCTTTACTATAGCTTGACACTGAACATTGAGCCTTGATGTGTAGGATAGGTGGGAGGCTTTGAAGT -GTGGACGCCAGTCTGCATGGAGCCGACCTTGAAATACCACCCTTTAATGTTTGATGTTCTAACGTTGACCCGTAA -TCCGGGTTGCGGACAGTGTCTGGTGGGTAGTTTGACTGGGGCGGTCTCCTCCTAAAGAGTAACGGAGGAGCACGA -AGGTTGGCTAATCCTGGTCGGACATCAGGAGGTTAGTGCAATGGCATAAGCCAGCTTGACTGCGAGCGTGACGGC -GCGAGCAGGTGCGAAAGCAGGTCATAGTGATCCGGTGGTTCTGAATGGAAGGGCCATCGCTCAACGGATAAAAGG -TACTCCGGGGATAACAGGCTGATACCGCCCAAGAGTTCATATCGACGGCGGTGTTTGGCACCTCGATGTCGGCTC -ATCACATCCTGGGGCTGAAGTAGGTCCCAAGGGTATGGCTGTTCGCCATTTAAAGTGGTACGCGAGCTGGGTTTA -GAACGTCGTGAGACAGTTCGGTCCCTATCTGCCGTGGGCGCTGGAGAACTGAGGGGGGCTGCTCCTAGTACGAGA -GGACCGGAGTGGACGCATCACTGGTGTTCGGGTTGTCATGCCAATGGCACTGCCCGGTAGCTAAATGCGGAAGAG -ATAAGTGCTGAAAGCATCTAAGCACGAAACTTGCCCCGAGATGAGTTCTCCCTGACCCTTTAAGGGTCCTGAAGG -AACGTTGAAGACGACGACGTTGATAGGCCGGGTGTGTAAGCGCAGCGATGCGTTGAGCTAACCGGTACTAATGAA -CCGTGAGGCTTAACCTTACAACGCCGAAGCTGTTTTGGCGGATGAGAGAAGATTTTCAGCCTGATACAGATTAAA -TCAGAACGCAGAAGCGGTCTGATAAAACAGAATTTGCCTGGCGGCAGTAGCGCGGTGGTCCCACCTGACCCCATG -CCGAACTCAGAAGTGAAACGCCGTAGCGCCGATGGTAGTGTGGGGTCTCCCCATGCGAGAGTAGGGAACTGCCAG -GCATCAAATAAAACGAAAGGCTCAGTCGAAAGACTGGGCCTTTCGTTTTATCTGTTGTTTGTCGGTGAACGCTCT -CCTGAGTAGGACAAATCCGCCGGGAGCGGATTTGAACGTTGCGAAGCAACGGCCCGGAGGGTGGCGGGCAGGACG -CCCGCCATAAACTGCCAGGCATCAAATTAAGCAGAAGGCCATCCTGACGGATGGCCTTTTTGCGTTTCTACAAAC -TCTTCCTGTCGTCATATCTACAAGCCATCCCCCCACAGATACGGTAAACTAGCCTCGTTTTTGCATCAGGAAAGC -AGCTATGAACCACTCCTTAAAACCCTGGAACACATTTGGCATTGATCATAATGCTCAGCACATTGTATGTGCCGA -AGACGAACAACAATTACTCAATGCCTGGCAGTATGCAACCGCAGAAGGACAACCCGTTCTTATTCTGGGTGAAGG -AAGTAATGTACTTTTTCTGGAGGACTATCGCGGCACGGTGATCATCAACCGGATCAAAGGTATCGAAATTCATGA -TGAACCTGATGCGTGGTATTTACATGTAGGAGCCGGAGAAAACTGGCATCGTCTGGTAAAATACACTTTGCAGGA -AGGTATGCCTGGTCTGGAAAATCTGGCATTAATTCCTGGTTGTGTCGGCTCATCACCTATCCAGAATATTGGTGC -TTATGGCGTAGAATTACAGCGAGTTTGCGCTTATGTTGATTCTGTTGAACTGGCGACAGGCAAGCAAGTGCGCTT -AACTGCCAAAGAGTGCCGTTTTGGCTATCGCGACAGTATTTTTAAACATGAATACCAGGACCGCTTCGCTATTGT -AGCCGTAGGTCTGCGTCTGCCAAAAGAGTGGCAACCTGTACTAACGTATGGTGACTTAACTCGTCTGGATCCTAC -AACAGTAACGCCACAGCAAGTATTTAATGCGGTGTGTCATATGCGCACCACCAAACTCCCTGATCCAAAAGTGAA -TGGCAATGCCGGTAGTTTCTTCAAAAACCCTGTTGTATCTGCCGAAACGGCTAAAGCATTACTGTCACAATTTCC -AACAGCACCAAATTACCCCCAGGCGGATGGTTCAGTAAAACTGGCAGCAGGTTGGCTTATCGATCAGTGCCAGCT -AAAAGGGATGCAAATAGGTGGGGCTGCGGTGCACCGTCAACAGGCGTTAGTTCTCATTAATGAAGACAATGCAAA -AAGCGAAGATGTTGTACAGCTGGCGCATCATGTAAGACAGAAAGTTGGTGAAAAATTTAATGTCTGGCTTGAGCC -TGAAGTCCGCTTTATTGGTGCATCAGGTGAAGTGAGCGCAGTGGAGACAATTTCATGAAGGATAACACCGTGCCA -CTGAAATTGATTGCCCTGTTAGCGAACGGTGAATTTCACTCTGGCGAGCAGTTGGGTGAAACGCTGGGAATGAGC -CGGGCGGCTATTAATAAACACATTCAGACACTGCGTGACTGGGGCGTTGATGTCTTTACCGTTCCGGGTAAAGGA -TACAGCCTGCCTGAGCCTATCCAGTTACTTAATGCTAAACAGATATTGGGTCAGCTGGATGGCGGTAGTGTAGCC -GTGCTGCCAGTGATTGACTCCACGAATCAGTACCTTCTTGATCGTATCGGAGAGCTTAAATCGGGCGATGCTTGC -ATTGCAGAATACCAGCAGGCTGGCCGTGGTCGCCGGGGTCGGAAATGGTTTTCGCCTTTTGGCGCAAACTTATAT -TTGTCGATGTTCTGGCGTCTGGAACAAGGCCCGGCGGCGGCGATTGGTTTAAGTCTGGTTATCGGTATCGTGATG -GCGGAAGTATTACGCAAGCTGGGTGCAGATAAAGTTCGTGTTAAATGGCCTAATGACCTCTATCTGCAGGATCGC -AAGCTGGCAGGCATTCTGGTGGAGCTGACTGGCAAAACTGGCGATGCGGCGCAAATAGTCATTGGAGCCGGGATC -AACATGGCAATGCGCCGTGTTGAAGAGAGTGTCGTTAATCAGGGGTGGATCACGCTGCAGGAAGCGGGGATCAAT -CTCGATCGTAATACGTTGGCGGCCATGCTAATACGTGAATTACGTGCTGCGTTGGAACTCTTCGAACAAGAAGGA -TTGGCACCTTATCTGTCGCGCTGGGAAAAGCTGGATAATTTTATTAATCGCCCAGTGAAACTTATCATTGGTGAT -AAAGAAATATTTGGCATTTCACGCGGAATAGACAAACAGGGGGCTTTATTACTTGAGCAGGATGGAATAATAAAA -CCCTGGATGGGCGGTGAAATATCCCTGCGTAGTGCAGAAAAATAAGAAAGGGGAGTATTCGCTCCCCTGCAAATT -ATTTGCGTAGTCTGACCTCTTCTACCGCATGATTAGCACTTTTCGTCAGGATTAAACTGGCGCGCTCACGAGTAG -GTAGAATATTTTGCTTTAAGTTCAGCCAGTTGATCTCTTTCCACAATGTCATGGCAGTCTTAATCGCTTCTTCTT -TAGTTAATTTCGCGTAGTTATGAAAATAGGAATCCGGGTCGGTAAAAGCCCCTTCGCGGAATTTCAGAAAACGGT -TGATATACCATGTCTGAAGTAAGTCTTCCGGTGCATCAACATATATCGAAAAATCGACAAAATCAGAAACAAATA -CATGATGTGGATCGTGTGGATAATCCATCCCGCTCTGTAAGACATTTAACCCTTCAAGAATTAAAATATCAGGCT -GAACAACCGTTTTATCTCCATCCGGGATCACATCATAAATAAGATGTGAGTAAACAGGTGCTGTAACGTTTGGCA -CGCCGGATTTGAGATCGGAAACAAACTTCACCAGGCGATGCATATCATACGATTCCGGGAAGCCTTTCTTCTTCA -TCAGACCACGTTCTTTCAGAACCTGATTAGGGTGAAGGAAGCCATCTGTAGTGATCAGTTCAACACGACGATGTT -CCGGCCAACGGCTTAATAGCGCCTGCAATACACGGGCGGTTGTACTTTTCCCCACCGCGACACTGCCAGCAATAC -TGATAATGTAAGGAATGCGTTGCCCGTTGGTACCAAGAAACTGTTCCAGAACTGCCTGACGGCGCAGATTCGAGC -TTATATAGAAGTTCAGCAAACGTGACAAAGGTAAATAGATCTCGGCAACTTCTTCTAACGAGAGATCTTCATTAA -TACCTTTGAGACGGGCGATCTCATCTTCCGATAACGTCATAGGTACGGAATCACGCAGAGCTGCCCACTGGTTGC -GGTCAAACTGTAGGTAAGGCGTCATTAACGTTTGCTCTTTTATACTCATAAGCATGTTTCTGGCGGTCATAGCTC -TATCGGCAAAGCGATATTTGCCATGGCGCGTCACAGTTCTGTTGAATGGGTTAATGGGCAGGAGGGTAACACCAG -ATGGGGAGGAATAATAAGAAAAAATCTCTGCCAGGAAGCTATCGTTGAAAAGCAATGTGACAGATATTCCATCTG -ATAAAAAGAATTATGGTTTAGCAGGAGCGCATTGTTGAGCACAATGATGTTGAAAAAGTGTGCTAATCTGCCCTC -CGTTCGGCTGTTTCTTCATCGTGTCGCATAAAATGTGACCAATAAAACAAATTATGCAATTTTTTAGTTGCATGA -ACTCGCATGTCTCCATAGAATGCGCGCTACTTGATGCCGACTTAGCTCAGTAGGTAGAGCAACTGACTTGTAATC -AGTAGGTCACCAGTTCGATTCCGGTAGTCGGCACCATCAAGTCCGGTGGGGTTCCCGAGCGGCCAAAGGGAGCAG -ACTGTAAATCTGCCGTCACAGACTTCGAAGGTTCGAATCCTTCCCCCACCACCAATTTCGGCCACGCGATGGCGT -AGCCCGAGACGATAAGTTCGCTTACCGGCTCGAATAAAGAGAGCTTCTCTCGATATTCAGTGCAGAATGAAAATC -AGGTAGCCGAGTTCCAGGATGCGGGCATCGTATAATGGCTATTACCTCAGCCTTCCAAGCTGATGATGCGGGTTC -GATTCCCGCTGCCCGCTCCAAGATGTGCTGATATAGCTCAGTTGGTAGAGCGCACCCTTGGTAAGGGTGAGGTCG -GCAGTTCGAATCTGCCTATCAGCACCACTTCTTTTCTCCTCCCTGTTTTTTCCTTCTGTTTATTGCATTCAACAA -GTCGGGCATGTTGCCTGGTTGATGTGGTGATATCACCGATTTATCCGTGTCTTAGAGGGACAATCGATGTCTAAA -GAAAAGTTTGAACGTACAAAACCGCACGTTAACGTCGGTACTATCGGCCACGTTGACCATGGTAAAACAACGCTG -ACCGCTGCAATCACTACCGTACTGGCTAAAACCTACGGCGGTGCTGCTCGCGCATTCGACCAGATCGATAACGCG -CCGGAAGAAAAAGCTCGTGGTATCACCATCAACACTTCTCACGTTGAATACGACACCCCGACCCGTCACTACGCA -CACGTAGACTGCCCGGGGCACGCCGACTATGTTAAAAACATGATCACCGGTGCTGCGCAGATGGACGGCGCGATC -CTGGTAGTTGCTGCGACTGACGGCCCGATGCCGCAGACTCGTGAGCACATCCTGCTGGGTCGTCAGGTAGGCGTT -CCGTACATCATCGTGTTCCTGAACAAATGCGACATGGTTGATGACGAAGAGCTGCTGGAACTGGTTGAAATGGAA -GTTCGTGAACTTCTGTCTCAGTACGACTTCCCGGGCGACGACACTCCGATCGTTCGTGGTTCTGCTCTGAAAGCG -CTGGAAGGCGACGCAGAGTGGGAAGCGAAAATCCTGGAACTGGCTGGCTTCCTGGATTCTTACATTCCGGAACCA -GAGCGTGCGATTGACAAGCCGTTCCTGCTGCCGATCGAAGACGTATTCTCCATCTCCGGTCGTGGTACCGTTGTT -ACCGGTCGTGTAGAACGCGGTATCATCAAAGTTGGTGAAGAAGTTGAAATCGTTGGTATCAAAGAGACTCAGAAG -TCTACCTGTACTGGCGTTGAAATGTTCCGCAAACTGCTGGACGAAGGCCGTGCTGGTGAGAACGTAGGTGTTCTG -CTGCGTGGTATCAAACGTGAAGAAATCGAACGTGGTCAGGTACTGGCTAAGCCGGGCACCATCAAGCCGCACACC -AAGTTCGAATCTGAAGTGTACATTCTGTCCAAAGATGAAGGCGGCCGTCATACTCCGTTCTTCAAAGGCTACCGT -CCGCAGTTCTACTTCCGTACTACTGACGTGACTGGTACCATCGAACTGCCGGAAGGCGTAGAGATGGTAATGCCG -GGCGACAACATCAAAATGGTTGTTACCCTGATCCACCCGATCGCGATGGACGACGGTCTGCGTTTCGCAATCCGT -GAAGGCGGCCGTACCGTTGGCGCGGGCGTTGTAGCAAAAGTTCTGAGCTAATTGCCGATAACATTTGACGCAATG -CGCACTAAAAGGGCATCATTTGATGCCCTTTTTGCACGCTTTCGTACCAGAACCTGGCTCATCAGTGATTTTCTT -TGTCATAATCATTGCTGAGACAGGCTCTGTTGAGGGCGTATAATCCGAAAAGCTAATACGCGTTTCGATTTGGTT -TGCCTCGCGATCGCGGGGTGAAAATGTTTGTAGAAAACTTCTGACAGGTTGGTTTATGAGTGCGAATACCGAAGC -TCAAGGAAGCGGGCGCGGCCTGGAAGCGATGAAGTGGGTCGTTGTGGTGGCATTGCTCCTGGTGGCGATTGTCGG -CAACTATCTTTATCGCGACATTATGCTGCCGCTGCGTGCGCTGGCCGTAGTAATTCTGATTGCTGCAGCGGGTGG -TGTCGCGCTGTTAACGACAAAAGGTAAAGCTACCGTTGCTTTTGCCCGTGAAGCGCGTACCGAAGTCCGTAAGGT -CATTTGGCCGACTCGCCAGGAAACATTGCACACCACGCTGATTGTGGCTGCGGTTACCGCAGTAATGTCACTGAT -CCTGTGGGGACTGGATGGTATTCTGGTTCGCCTGGTATCCTTTATCACTGGCCTGAGGTTCTGAGATGTCTGAAG -CTCCTAAAAAGCGCTGGTACGTCGTTCAGGCGTTTTCCGGTTTTGAAGGCCGCGTAGCAACGTCGCTGCGTGAGC -ATATCAAATTACACAACATGGAAGATTTGTTTGGTGAAGTCATGGTACCAACCGAAGAAGTGGTTGAAATCCGTG -GCGGTCAGCGTCGCAAAAGCGAACGTAAATTCTTCCCTGGCTACGTCCTCGTTCAGATGGTGATGAACGACGCGA -GCTGGCACCTGGTGCGCAGCGTACCGCGTGTGATGGGCTTCATCGGCGGTACTTCCGATCGTCCTGCGCCAATCA -GCGATAAAGAAGTCGATGCGATTATGAACCGCCTGCAGCAGGTTGGTGATAAGCCGCGTCCGAAAACGCTGTTTG -AACCGGGTGAAATGGTCCGTGTTAATGATGGTCCGTTCGCTGACTTCAACGGTGTTGTTGAAGAAGTGGATTACG -AGAAATCTCGTCTGAAAGTGTCTGTTTCTATCTTCGGTCGTGCGACCCCGGTAGAGCTGGACTTCAGCCAGGTTG -AAAAAGCCTAACCCAGCGATCAAAAAAGCGGCGATTTAATCGTTGCACAAGGCGTGAGATTGGAATACAATTTCG -CGCCTTTTGTTTTTATGGGCCTTGCCCGTAAAACGATTTTTTATATCACGGGGAGCCTCTCAGAGGCGTTATTAC -CCAACTTGAGGAATTTATAATGGCTAAGAAAGTACAAGCCTATGTCAAGCTGCAGGTTGCAGCTGGTATGGCTAA -CCCGAGTCCGCCAGTAGGTCCGGCTCTGGGTCAGCAGGGCGTAAACATCATGGAATTCTGCAAAGCGTTCAACGC -AAAAACTGATTCCATCGAAAAAGGTCTGCCGATTCCGGTAGTAATCACCGTTTACGCTGACCGTTCTTTCACTTT -CGTTACCAAGACCCCGCCGGCAGCAGTTCTGCTGAAAAAAGCGGCTGGTATCAAGTCTGGTTCCGGTAAGCCGAA -CAAAGACAAAGTGGGTAAAATTTCCCGCGCTCAGCTGCAGGAAATCGCGCAGACCAAAGCTGCCGACATGACTGG -TGCCGACATTGAAGCGATGACTCGCTCCATCGAAGGTACTGCACGTTCCATGGGCCTGGTAGTGGAGGACTAAGA -AATGGCTAAACTGACCAAGCGCATGCGTGTTATCCGCGAGAAAGTTGATGCAACCAAACAGTACGACATCAACGA -AGCTATCGCACTGCTGAAAGAGCTGGCGACTGCTAAATTCGTAGAAAGCGTGGACGTAGCTGTTAACCTCGGCAT -CGACGCTCGTAAATCTGACCAGAACGTACGTGGTGCAACTGTACTGCCGCACGGTACTGGCCGTTCCGTTCGCGT -AGCCGTATTTACCCAAGGTGCAAACGCTGAAGCTGCTAAAGCTGCAGGCGCAGAACTGGTAGGTATGGAAGATCT -GGCTGACCAGATCAAGAAAGGCGAAATGAACTTTGACGTTGTTATTGCTTCTCCGGATGCAATGCGCGTTGTTGG -CCAGCTGGGCCAGGTTCTGGGTCCGCGCGGCCTGATGCCAAACCCGAAAGTGGGTACTGTAACACCGAACGTTGC -TGAAGCGGTTAAAAACGCTAAAGCTGGCCAGGTTCGTTACCGTAACGACAAAAACGGCATCATCCACACCACCAT -CGGTAAAGTGGACTTTGACGCTGACAAACTGAAAGAAAACCTGGAAGCTCTGCTGGTTGCGCTGAAAAAAGCAAA -ACCGACTCAGGCGAAAGGCGTGTACATCAAGAAAGTTAGCATCTCCACCACCATGGGTGCAGGTGTTGCAGTTGA -CCAGGCTGGCCTGAGCGCTTCTGTAAACTAATGCCTTTACGTGGGCGGTGATTTTGTCTACAATCTTACCCCCAC -GTATAATGCTTAATGCAGACGTATATCCGAGATATTCGGGTTGTGGCAAGGCGGCAACTGAGTGAGTCGCCAGGA -GCATAGCTAACTATGTGACTGGTGCGAATGAAGGAAGCCAACGCCGTCACAAGCTGAATAGCGACGGATAGAAAA -GATTTGTTCGTTGGAGCCTGGCCTATCCAGGCCTCCGTCGAAGACCGCAGGAGTTTCGCAAGAAACTTAATCCCC -TGCGTAGACGGTGACAGAACGCTAAGATTATTCTTTTATATTCTGGCTTGTTTCTGCTCACCGTAATTAAGACGC -TCTCTCCGTTTGGAGGAGTGAAGTGAGTTCCAGAGATTTTCTCTGGCAAACATCCAGGAGCAAAGCTAATGGCTT -TAAATCTTCAAGACAAACAAGCGATTGTTGCTGAAGTCAGCGAAGTAGCCAAAGGCGCGCTGTCTGCAGTAGTTG -CGGATTCCCGTGGCGTAACTGTAGATAAAATGACTGAACTGCGTAAAGCAGGTCGCGAAGCTGGCGTATACATGC -GTGTTGTTCGTAACACCCTGCTGCGCCGTGCTGTTGAAGGTACTCCGTTCGAGTGCCTGAAAGACGCGTTTGTTG -GTCCGACCCTGATTGCATACTCTATGGAACACCCGGGCGCTGCTGCTCGTCTGTTCAAAGAGTTCGCGAAAGCGA -ATGCAAAATTTGAGGTCAAAGCCGCTGCCTTTGAAGGTGAGCTGATCCCGGCGTCTCAGATCGACCGCCTGGCAA -CTCTGCCGACCTACGAAGAAGCAATTGCACGCCTGATGGCAACCATGAAAGAAGCTTCGGCTGGCAAACTGGTTC -GTACTCTGGCTGCTGTACGCGATGCGAAAGAAGCTGCTTAATCGCAGTTATCTTTTTAACGCATTCGCTTACGTA -TAAACTTATTCTGATATTCAGGAACAATTTAAATGTCTATCACTAAAGATCAAATCATTGAAGCAGTTGCAGCTA -TGTCTGTAATGGACGTTGTAGAACTGATCTCTGCAATGGAAGAAAAATTCGGTGTTTCCGCTGCTGCTGCTGTAG -CTGTAGCTGCTGGCCCGGTTGAAGCTGCTGAAGAAAAAACTGAATTCGACGTAATTCTGAAAGCTGCTGGCGCTA -ACAAAGTTGCTGTTATCAAAGCAGTACGTGGCGCAACTGGCCTGGGTCTGAAAGAAGCTAAAGACCTGGTAGAAT -CTGCACCGGCTGCTCTGAAAGAAGGCGTGAGCAAAGACGACGCAGAAGCACTGAAAAAAGCTCTGGAAGAAGCTG -GCGCTGAAGTTGAAGTTAAATAAGCCAACCCTTCCGGTTGCAGCCTGAGAAATCAGGCTGATGGCTGGTGACTTT -TTAGTCACCAGCCTTTTTGCGCTGTAAGGCGCCAGTAGCGTTTCACACTGTTTGACTACTGCTGTGCCTTTCAAT -GCTTGTTTCTATCGACGACTTAATATACTGCGACAGGACGTCCGTTCTGTGTAAATCGCAATGAAATGGTTTAAG -CGTGATAGCAACAGGCATTGCGGAAAGTGTTCCATTTTCCGGTCAACAAAATAGTGTTGCACAAACTGTCCGCTC -AATGGACAGATGGGTCGACTTGTCAGCGAGCTGAGGAACCCTATGGTTTACTCCTATACCGAGAAAAAACGTATT -CGTAAGGATTTTGGTAAACGTCCACAAGTTCTGGATGTACCTTATCTCCTTTCTATCCAGCTTGACTCGTTTCAG -AAATTTATCGAGCAAGATCCTGAAGGGCAGTATGGTCTGGAAGCTGCTTTCCGTTCCGTATTCCCGATTCAGAGC -TACAGCGGTAATTCCGAGCTGCAATACGTCAGCTACCGCCTTGGCGAACCGGTGTTTGACGTCCAGGAATGTCAA -ATCCGTGGCGTGACCTATTCCGCACCGCTGCGCGTTAAACTGCGTCTGGTGATCTATGAGCGCGAAGCGCCGGAA -GGCACCGTAAAAGACATTAAAGAACAAGAAGTCTACATGGGCGAAATTCCGCTCATGACAGACAACGGTACCTTT -GTTATCAACGGTACTGAGCGTGTTATCGTTTCCCAGCTGCACCGTAGTCCGGGCGTCTTCTTTGACTCCGACAAA -GGTAAAACCCACTCTTCGGGTAAAGTGCTGTATAACGCGCGTATCATCCCTTACCGTGGTTCCTGGCTGGACTTC -GAATTCGATCCGAAGGACAACCTGTTCGTACGTATCGACCGTCGCCGTAAACTGCCTGCGACCATCATTCTGCGC -GCCCTGAACTACACCACAGAGCAGATCCTCGACCTGTTCTTTGAAAAAGTTATCTTTGAAATCCGTGATAACAAG -CTGCAGATGGAACTGGTGCCGGAACGCCTGCGTGGTGAAACCGCATCTTTTGACATCGAAGCTAACGGTAAAGTG -TACGTAGAAAAAGGCCGCCGTATCACTGCGCGCCACATTCGCCAGCTGGAAAAAGACGACGTCAAACTGATCGAA -GTCCCGGTTGAGTACATCGCAGGTAAAGTGGTTGCTAAAGACTATATTGATGAGTCTACCGGCGAGCTGATCTGC -GCAGCGAACATGGAGCTGAGCCTGGATCTGCTGGCTAAGCTGAGCCAGTCTGGTCACAAGCGTATCGAAACGCTG -TTCACCAACGATCTGGATCACGGCCCATATATCTCTGAAACCTTACGTGTCGACCCAACTAACGACCGTCTGAGC -GCACTGGTAGAAATCTACCGCATGATGCGCCCTGGCGAGCCGCCGACTCGTGAAGCAGCTGAAAGCCTGTTCGAG -AACCTGTTCTTCTCCGAAGACCGTTATGACTTGTCTGCGGTTGGTCGTATGAAGTTCAACCGTTCTCTGCTGCGC -GAAGAAATCGAAGGTTCCGGTATCCTGAGCAAAGACGACATCATTGATGTTATGAAAAAGCTCATCGATATCCGT -AACGGTAAAGGCGAAGTCGATGATATCGACCACCTCGGCAACCGTCGTATCCGTTCCGTTGGCGAAATGGCGGAA -AACCAGTTCCGCGTTGGCCTGGTACGTGTAGAGCGTGCGGTGAAAGAGCGTCTGTCTCTGGGCGATCTGGATACC -CTGATGCCACAGGATATGATCAACGCCAAGCCGATTTCCGCAGCAGTGAAAGAGTTCTTCGGTTCCAGCCAGCTG -TCTCAGTTTATGGACCAGAACAACCCGCTGTCTGAGATTACGCACAAACGTCGTATCTCCGCACTCGGCCCAGGC -GGTCTGACCCGTGAACGTGCAGGCTTCGAAGTTCGAGACGTACACCCGACTCACTACGGTCGCGTATGTCCAATC -GAAACCCCTGAAGGTCCGAACATCGGTCTGATCAACTCTCTGTCCGTGTACGCACAGACTAACGAATACGGCTTC -CTTGAGACTCCGTATCGTAAAGTGACCGACGGTGTTGTAACTGACGAAATTCACTACCTGTCTGCTATCGAAGAA -GGCAACTACGTTATCGCCCAGGCGAACTCCAACTTGGATGAAGAAGGCCACTTCGTAGAAGACCTGGTAACTTGC -CGTAGCAAAGGCGAATCCAGCTTGTTCAGCCGCGACCAGGTTGACTACATGGACGTATCCACCCAGCAGGTGGTA -TCCGTCGGTGCGTCCCTGATCCCGTTCCTGGAACACGATGACGCCAACCGTGCATTGATGGGTGCGAACATGCAA -CGTCAGGCCGTTCCGACTCTGCGCGCTGATAAGCCGCTGGTTGGTACTGGTATGGAACGTGCTGTTGCCGTTGAC -TCCGGTGTAACTGCGGTAGCTAAACGTGGTGGTGTCGTTCAGTACGTGGATGCTTCCCGTATCGTTATCAAAGTT -AACGAAGACGAGATGTATCCGGGTGAAGCAGGTATCGACATCTACAACCTGACCAAATACACCCGTTCTAACCAG -AACACCTGTATCAACCAGATGCCGTGTGTGTCTCTGGGTGAACCGGTTGAACGTGGCGACGTGCTGGCAGACGGT -CCGTCCACCGACCTCGGTGAACTGGCGCTTGGTCAGAACATGCGCGTAGCGTTCATGCCGTGGAATGGTTACAAC -TTCGAAGACTCCATCCTCGTATCCGAGCGTGTTGTTCAGGAAGACCGTTTCACCACCATCCACATTCAGGAACTG -GCGTGTGTGTCCCGTGACACCAAGCTGGGTCCGGAAGAGATCACCGCTGACATCCCGAACGTGGGTGAAGCTGCG -CTCTCCAAACTGGATGAATCCGGTATCGTTTACATTGGTGCGGAAGTGACCGGTGGCGACATTCTGGTTGGTAAG -GTAACGCCGAAAGGTGAAACTCAGCTGACCCCAGAAGAAAAACTGCTGCGTGCGATCTTCGGTGAGAAAGCCTCT -GACGTTAAAGACTCTTCTCTGCGCGTACCAAACGGTGTATCCGGTACGGTTATCGACGTTCAGGTCTTTACTCGC -GATGGCGTAGAAAAAGACAAACGTGCGCTGGAAATCGAAGAAATGCAGCTCAAACAGGCGAAGAAAGACCTGTCT -GAAGAACTGCAGATCCTCGAAGCGGGTCTGTTCAGCCGTATCCGTGCTGTGCTGGTAGCCGGTGGCGTTGAAGCT -GAGAAGCTCGACAAACTGCCGCGCGATCGCTGGCTGGAGCTGGGCCTGACAGACGAAGAGAAACAAAATCAGCTG -GAACAGCTGGCTGAGCAGTATGACGAACTGAAACACGAGTTCGAGAAGAAACTCGAAGCGAAACGCCGCAAAATC -ACCCAGGGCGACGATCTGGCACCGGGCGTGCTGAAGATTGTTAAGGTATATCTGGCGGTTAAACGCCGTATCCAG -CCTGGTGACAAGATGGCAGGTCGTCACGGTAACAAGGGTGTAATTTCTAAGATCAACCCGATCGAAGATATGCCT -TACGATGAAAACGGTACGCCGGTAGACATCGTACTGAACCCGCTGGGCGTACCGTCTCGTATGAACATCGGTCAG -ATCCTCGAAACCCACCTGGGTATGGCTGCGAAAGGTATCGGCGACAAGATCAACGCCATGCTGAAACAGCAGCAA -GAAGTCGCGAAACTGCGCGAATTCATCCAGCGTGCGTACGATCTGGGCGCTGACGTTCGTCAGAAAGTTGACCTG -AGTACCTTCAGCGATGAAGAAGTTATGCGTCTGGCTGAAAACCTGCGCAAAGGTATGCCAATCGCAACGCCGGTG -TTCGACGGTGCGAAAGAAGCAGAAATTAAAGAGCTGCTGAAACTTGGCGACCTGCCGACTTCCGGTCAGATCCGC -CTGTACGATGGTCGCACTGGTGAACAGTTCGAGCGTCCGGTAACCGTTGGTTACATGTACATGCTGAAACTGAAC -CACCTGGTCGACGACAAGATGCACGCGCGTTCCACCGGTTCTTACAGCCTGGTTACTCAGCAGCCGCTGGGTGGT -AAGGCACAGTTCGGTGGTCAGCGTTTCGGGGAGATGGAAGTGTGGGCGCTGGAAGCATACGGCGCAGCATACACC -CTGCAGGAAATGCTCACCGTTAAGTCTGATGACGTGAACGGTCGTACCAAGATGTATAAAAACATCGTGGACGGC -AACCATCAGATGGAGCCGGGCATGCCAGAATCCTTCAACGTATTGTTGAAAGAGATTCGTTCGCTGGGTATCAAC -ATCGAACTGGAAGACGAGTAATTCTCGCTCAAACAGGTCACTGCTGTCGGGTTAAAACCCGGCAGCGGATTGTGC -TAACTCCGACGGGAGCAAATCCGTGAAAGATTTATTAAAGTTTCTGAAAGCGCAGACTAAAACCGAAGAGTTTGA -TGCGATCAAAATTGCTCTGGCTTCGCCAGACATGATCCGTTCATGGTCTTTCGGTGAAGTTAAAAAGCCGGAAAC -CATCAACTACCGTACGTTCAAACCAGAACGTGACGGCCTTTTCTGCGCCCGTATCTTTGGGCCGGTAAAAGATTA -CGAGTGCCTGTGCGGTAAGTACAAGCGCCTGAAACACCGTGGCGTCATCTGTGAGAAGTGCGGCGTTGAAGTGAC -CCAGACTAAAGTACGCCGTGAGCGTATGGGCCACATCGAACTGGCTTCCCCGACTGCGCACATCTGGTTCCTGAA -ATCGCTGCCGTCCCGTATCGGTCTGCTGCTCGATATGCCGCTGCGCGATATCGAACGCGTACTGTACTTTGAATC -CTATGTGGTTATCGAAGGCGGTATGACCAACCTGGAACGTCAGCAGATCCTGACTGAAGAGCAGTATCTGGACGC -GCTGGAAGAGTTCGGTGACGAATTCGACGCGAAGATGGGGGCGGAAGCAATCCAGGCTCTGCTGAAGAGCATGGA -TCTGGAGCAAGAGTGCGAACAGCTGCGTGAAGAGCTGAACGAAACCAACTCCGAAACCAAGCGTAAAAAGCTGAC -CAAGCGTATCAAACTGCTGGAAGCGTTCGTTCAGTCTGGTAACAAACCAGAGTGGATGATCCTGACCGTTCTGCC -GGTACTGCCGCCAGATCTGCGTCCGCTGGTTCCGCTGGATGGTGGTCGTTTCGCGACTTCTGACCTGAACGATCT -GTATCGTCGCGTCATTAACCGTAACAACCGTCTGAAACGTCTGCTGGATCTGGCTGCGCCGGACATCATCGTACG -TAACGAAAAACGTATGCTGCAGGAAGCGGTAGACGCCCTGCTGGATAACGGTCGTCGCGGTCGTGCGATCACCGG -TTCTAACAAGCGTCCTCTGAAATCTTTGGCCGACATGATCAAAGGTAAACAGGGTCGTTTCCGTCAGAACCTGCT -CGGTAAGCGTGTTGACTACTCCGGTCGTTCTGTAATCACCGTAGGTCCATACCTGCGTCTGCATCAGTGCGGTCT -GCCGAAGAAAATGGCACTGGAGCTGTTCAAACCGTTCATCTACGGCAAGCTGGAACTGCGTGGTCTTGCTACCAC -CATTAAAGCTGCGAAGAAAATGGTTGAGCGCGAAGAAGCTGTCGTTTGGGATATCCTGGACGAAGTTATCCGCGA -ACACCCGGTACTGCTGAACCGTGCACCGACTCTGCACCGTCTGGGTATCCAGGCATTTGAACCGGTACTGATCGA -AGGTAAAGCTATCCAGCTGCACCCGCTGGTTTGTGCGGCATATAACGCCGACTTCGATGGTGACCAGATGGCTGT -TCACGTACCGCTGACGCTGGAAGCCCAGCTGGAAGCGCGTGCGCTGATGATGTCTACCAACAACATCCTGTCCCC -GGCGAACGGCGAACCAATCATCGTTCCGTCTCAGGACGTTGTACTGGGTCTGTACTACATGACCCGTGACTGTGT -TAACGCCAAAGGCGAAGGCATGGTGCTGACTGGCCCGAAAGAAGCAGAACGTCTGTATCGCTCTGGTCTGGCTTC -TCTGCATGCGCGCGTTAAAGTGCGTATCACCGAGTATGAAAAAGATGCTAACGGTGAATTAGTAGCGAAAACCAG -CCTGAAAGACACGACTGTTGGCCGTGCCATTCTGTGGATGATTGTACCGAAAGGTCTGCCTTACTCCATCGTCAA -CCAGGCGCTGGGTAAAAAAGCAATCTCCAAAATGCTGAACACCTGCTACCGCATTCTCGGTCTGAAACCGACCGT -TATTTTTGCGGACCAGATCATGTACACCGGCTTCGCCTATGCAGCGCGTTCTGGTGCATCTGTTGGTATCGATGA -CATGGTCATCCCGGAGAAGAAACACGAAATCATCTCCGAGGCAGAAGCAGAAGTTGCTGAAATTCAGGAGCAGTT -CCAGTCTGGTCTGGTAACTGCGGGCGAACGCTACAACAAAGTTATCGATATCTGGGCTGCGGCGAACGATCGTGT -ATCCAAAGCGATGATGGATAACCTGCAAACTGAAACCGTGATTAACCGTGACGGTCAGGAAGAGAAGCAGGTTTC -CTTCAACAGCATCTACATGATGGCCGACTCCGGTGCGCGTGGTTCTGCGGCACAGATTCGTCAGCTTGCTGGTAT -GCGTGGTCTGATGGCGAAGCCGGATGGCTCCATCATCGAAACGCCAATCACCGCGAACTTCCGTGAAGGTCTGAA -CGTACTCCAGTACTTCATCTCCACCCACGGTGCTCGTAAAGGTCTGGCGGATACCGCACTGAAAACTGCGAACTC -CGGTTACCTGACTCGTCGTCTGGTTGACGTGGCGCAGGACCTGGTGGTTACCGAAGACGATTGTGGTACCCATGA -AGGTATCATGATGACTCCGGTTATCGAGGGTGGTGACGTTAAAGAGCCGCTGCGCGATCGCGTACTGGGTCGTGT -AACTGCTGAAGACGTTCTGAAGCCGGGTACTGCTGATATCCTCGTTCCGCGCAACACGCTGCTGCACGAACAGTG -GTGTGACCTGCTGGAAGAGAACTCTGTCGACGCGGTTAAAGTACGTTCTGTTGTATCTTGTGACACCGACTTTGG -TGTATGTGCGCACTGCTACGGTCGTGACCTGGCGCGTGGCCACATCATCAACAAGGGTGAAGCAATCGGTGTTAT -CGCGGCACAGTCCATCGGTGAACCGGGTACACAGCTGACCATGCGTACGTTCCACATCGGTGGTGCGGCATCTCG -TGCGGCTGCTGAATCCAGCATCCAAGTGAAAAACAAAGGTAGCATCAAGCTCAGCAACGTGAAGTCGGTTGTGAA -CTCCAGCGGTAAACTGGTTATCACTTCCCGTAATACTGAACTGAAACTGATCGACGAATTCGGTCGTACTAAAGA -AAGCTACAAAGTACCTTACGGTGCGGTACTGGCGAAAGGCGATGGCGAACAGGTTGCTGGCGGCGAAACCGTTGC -AAACTGGGACCCGCACACCATGCCGGTTATCACCGAAGTAAGCGGTTTTGTACGCTTTACTGACATGATCGACGG -CCAGACCATTACGCGTCAGACCGACGAACTGACCGGTCTGTCTTCGCTGGTGGTTCTGGATTCCGCAGAACGTAC -CGCAGGTGGTAAAGATCTGCGTCCGGCACTGAAAATCGTTGATGCTCAGGGTAACGACGTTCTGATCCCAGGTAC -CGATATGCCAGCGCAGTACTTCCTGCCGGGTAAAGCGATTGTTCAGCTGGAAGATGGCGTACAGATCAGCTCTGG -TGACACCCTGGCGCGTATTCCGCAGGAATCCGGCGGTACCAAGGACATCACCGGTGGTCTGCCGCGCGTTGCGGA -CCTGTTCGAAGCACGTCGTCCGAAAGAGCCGGCAATCCTGGCTGAAATCAGCGGTATCGTTTCCTTCGGTAAAGA -AACCAAAGGTAAACGTCGTCTGGTTATCACCCCGGTAGACGGTAGCGATCCGTACGAAGAGATGATTCCGAAATG -GCGTCAGCTCAACGTGTTCGAAGGTGAACGTGTAGAACGTGGTGACGTAATTTCCGACGGTCCGGAAGCGCCGCA -CGACATTCTGCGTCTGCGTGGTGTTCATGCTGTTACTCGTTACATCGTTAACGAAGTACAGGACGTATACCGTCT -GCAGGGCGTTAAGATTAACGATAAACACATCGAAGTTATCGTTCGTCAGATGCTGCGTAAAGCTACCATCGTTAA -CGCGGGTAGCTCCGACTTCCTGGAAGGCGAACAGGTTGAATACTCTCGCGTCAAGATCGCAAACCGCGAACTGGA -AGCGAACGGCAAAGTGGGTGCAACTTACTCCCGCGATCTGCTGGGTATCACCAAAGCGTCTCTGGCAACCGAGTC -CTTCATCTCCGCGGCATCGTTCCAGGAGACCACTCGCGTGCTGACCGAAGCAGCCGTTGCGGGCAAACGCGACGA -ACTGCGCGGCCTGAAAGAGAACGTTATCGTGGGTCGTCTGATCCCGGCAGGTACCGGTTACGCGTACCACCAGGA -TCGTATGCGTCGCCGTGCTGCGGGTGAAGCTCCGGCTGCACCGCAGGTGACTGCAGAAGACGCATCTGCCAGCCT -GGCAGAACTGCTGAACGCAGGTCTGGGCGGTTCTGATAACGAGTAATCGTTAATCCGCAAATAACGTAAAAACCC -GCTTCGGCGGGTTTTTTTATGGGGGGAGTTTAGGGAAAGAGCATTTGTCAGAATATTTAAGGAATTTCTGAATAC -TCATAATCAATGTAGAGATGACTAATATCCTGAAACTGACTGAACTAATTGAGTCAAACTCGGCAAGGATTCGAT -ACTATTCCTGTGTAACTTTCTTAAGGAACGAGAATGAAACAGGAAGTGGAAAAGTGGCGACCTTTTGGACATCCG -GATGGTGATATTCGTGATTTATCATTTCTTGATGCTCATCAGGCTGTCTACGTTCAGCATCATGAGGGCAAAGAG -CCTTTAGAGTATCGCTTTTGGGTTACCTACTCTCTTCACTGCTTCACAAAAGATTATGAACATCAGACGAACGAA -GAAAAACAATCGTTAATGTACCACGCGCCTAAAGAATCTCGTCCCTTCTGCCAGCACCGTTATAACTTAGCGCGC -ACACACTTAAAAAGAACTATTTTGGCGCTGCCAGAAAGCAACGTTATTCATGCCGGGTATGGTAGCTATGCCGTG -ATTGAGGTGGACTTAGACGGAGGAGATAAGGCATTTTACTTTGTTGCGTTCAGGGCTTTCAGGGAAAAGAAAAAA -CTCCGTTTGCATGTAACTAGCGCTTATCCCATTTCTGAAAAACAGAAAGGTAAATCAGTGAAATTTTTCACCATT -GCCTACAACTTATTGAGAAATAAGCAGCTTCCTCAGCCCTCAAAATAACAAAACCCACCTTAAGGTGGGTTTCGC -CAGAGAATTATCTCTGGTATTCAGAACGCCATTACCGGACTTTGCCTTGACCTTGCGATAATCGCAGGTTGCGGG -ATGTCTGAATTTCTTCAGTCTGCTGCATCCTGGAAGATGAGAACATGTGTTCTTATTTTCGTCTCTATCATAGTT -GAGTATTTACTCTCTTACAATCAGATCTCTTTCATTGCTCAACAGGCGATGGCTTCAGACTTTGCATTACGGAAT -TTTTAAGAAAGGCAGGGCGAAACGAGGAAGAAGCTTTTCGCCCTGGACAACATTCCTGCTGACGGCACTACCATA -AAAAAACACAACGCTTTCAACAACCTTGCGTTTTTCATCTTCCGTAGCGGCTCGGAATAAATTTACGTTCTTACA -TTCCGTCTCATAGTCTTTGCGAGGCGCGTCCCAGATAGCTGTCCCAGTCTTTCCATACCGGCTGCAAACCCTGAG -CGGTTAACGCGGCAGCAACCGCTTCCGGTCTGCGATCGTCGTGCGGTGAGAACTGTTCCAACTCGGGGTGATTAT -CGGCATAGCCACCTGGCTGCGTTTTCGAGAAGGCGCTGACGTTATTGATCGCCAGCGGAATAACGCGATCGCGAA -ACCACGGTGATTCCCGCGTGGAGAGTGACAGTTCAATCTCCGGTGCAAGCAGTCGGAAGGCGCAGATGGTTTGCA -CTAACTGGCGTTCATCCATAATCGACGCAGGCTCAATGCCGCCAGTACACGGGCGCAGGCGCGGAAAGGAGACAG -AGTAACGGCTTTGCCAGTAATGCTGTTGCAGCCATAGCAAATGTTCGGCAACCATATAGCTGTCAACGCGCCAGT -TGTCGGAAAGGCCAATTAGCGCGCCGAGGCCTATCTTATCAATCCCCGCACGCCCCAGCCGATCCGGCGTTTCCA -GCCGCCAGAAGAAGTCCTGTTTTTTGCCTTTCAGATGATGGCGGGCATAAGTCGCCTCGTGATATGTCTCCTGAT -AAACCATCACGCCATCCAGACCAAGTTGCTTTAACTCGGCGTATTCCGTCTCCGCCAGCGGTTGCACTTCCATCT -GTAGTGAAGAGAACTGTTCACGAAGGGCAGGGAGATGACGACGAAAGTAATCCATCCCCACTTTCGCCTGATGTT -CACCAGTGACTAACAGCAGATGTTCAAAGCCCATCTCCCGTATAGCGGCACTTTCCCTGGCAATATCCGCTTCAT -CCAGCGTTTTGCGCTTGATGCGATTACTCATGGAAAATCCACAGTACGTGCAGTCGTTAGCGCAAAGATTGGAAA -GATAAAGCGGGACGTAGAAACTAACTGTGTTGCCAAATCGCTGACGGGTCAGACGCTGCGCCCGTTGGGCCAGTT -GTTCCAGATAGCCACTGGCGGCAGGCGATAACAGCGCCATCATGTCGTCGCGGGTGAGTTGCGAGGCATTTAGCG -CCCGCTCTACGTCAGCAGCCGTTTTGCCGTTGATACGCAGGCGGATGTCGTCCCAGTCCAGTTGTCGCCAGCGAT -CGCTGAAGGTTTTCATGCCGATGCCTCCAGAAATCCGGTCAGCGGGCTGGTGGCATGAGCAAAATAACTGCGGCT -GCCCGGTCCGGACTGACGTGCCAGTAGGCCTGCTTCTACCGCCAGACGAAATGCCTTCGCCATGTTGACGGGATC -GTCCGCGACGGCAATCGCCGTATTCACTAACACCGCGTCGGCCCCCATTTCCAGCGCCTGCGCGGCATGGCTGGG -AACGCCGATGCCAGCATCGACAACCACCGGCACTGTGGCCTGCTGGATAATAATCTCCAGCATGGCGCGGGTTTC -CAGTCCCTGATTCGAGCCAATCGGCGCGCCGAGCGGCATCACCGCTGCACAGCCGACTTCTTCCAGACGTTTACA -CAATACCGGATCGGCCCCGCAGTAAGGCAGCACGACAAATCCCTGTTGTACCAGCGTTTCGGCGGCTTTCAGGGT -TTCGATGGGATCGGGCAACAGCCAGCGGGCGTCAGGGTGAATCTCTAATTTTAACCAGTTTGTGCCTAACGCTTC -ACGAGCCAGATGGGCGGCGAAAATGGCTTCTTCCGCTGTTTTCGCCCCGGATGTATTTGGCAGCAGGGTCACACC -CGCCGCGATAAGCGGTTCGAGGATAGCGTCGTTGTGCTGGCGCAAGTCGACACGTTTCATCGCCAGTGTCACCAG -CTGGCTGCCGGAAGCGCGGATCGCCTCCACCATCAGTTGTGAAGAAGCGAATTTCCCTGTGCCGGTAAACAGATG -TGAATCAAACGTTTTGTCCGCAATACGTAACATTTCAACCCCCTGCAATAACCTGAAAAAGCAGGATCTGGTCGC -CATCCTGCACGATATGTTGCGCCCACTGCTCACGCGGGACGATTTGCTGATTAATCGCCAGAGCCGCGCCCGCTT -GTCGTTGGTCGAGTTGCTCCAGTAGTTCGTGAACAGTTTGCCCGGCGGCGCACTGCATCGCTTGATCGTTAAACA -GGATCTGCATTGCTTCCTCCGCATACCGGGCAACCACTGGCGCGGCGCAACGCCAGGCTGCGCCACTGGCTCGAT -TTACCGTCGAACAGTCGGAGTTCTCCCGCAGGTGTCTCTATACCGCTTAATAACTTAATGGCTTCCAGTGCCTGC -AAAGTGCCCATAACCCCGACCACCGGGCCAACCACGCCCGCCGTGCGGCAGTTGCGTTCTGGCTCCTGGTTATCT -GGCCACAGGCAGCGGTAACACCCCTGCTCCCAGGGCGGCGTCAGTACCATCAACTGACCGCCAAATCCGACCGCG -CTGGCGGTGATAAGCGGCGTGTTGAGTGCCACGCAGGCGGCATTAATCTCCTGGCGAGTCGCCATATTGTCGGTA -CAGTCGAGCACCACATCGGCCCGTGCAACCGCATCTTTTAACGCCTCACCCGTTAACCGTTGTTGTAATGCTGTC -AGTTGAATGTCGGGATTCAACTGTGTCAGTCGCTGTTGGCTGACCTGCGATTTCGGGCGATCGATATCTTCAGTG -GTAAAGAGGATTTGTCGTTGCAGATTGCTTAAATGCACATCGTCGTCATCTGCCAGTACCAGCGTCCCGACGCCA -GCGCCCGCCAGGTACAGCGCAGCAGGTGTACCCAGCCCGCCCAGACCGATAATCAGCACCTGGCTGTCGAGCAGT -TTTTGCTGCCCGTCCAGAGCGATATCGTCGAGCAGGATTTGGCGGCTATAACGCATAAAGTCACGGTCATTCATC -GCCAACTCCTGCAATTTCCAGCAACTGTGCCGTTGCCAAACGCCAGTCTGCGGCTTGAGTAATGGCGCTGACGAC -GGCGATACTGCCGACACCCGTTGCTATCACCGCAGGCGCGCGTGCCAGACTGATACCGCCAATCGCCACGGTGGG -ATAATCCGCCAGTCGCTCAACATGCCGTGCCAGCTGTTCCAGCCCCTGCGGTGCAGAAGGCATCTGTTTGGTTTG -CGTCGGGAACACATGTCCCAGCGCGATATAAGAGGGGCGTGCTGCCAGCGCGACGTCGATTTCCATATCGTCATG -TGTCGAAACGCCCAGCCGCAGGCCTGCCGCGCGGATGGCATTGAGATCGGTGGCTTGCAAATCTTCCTGCCCCAA -ATGGACGCCATACGCCTGATGCTTGATCGCCAGCCGCCAGTAATCGTTGATAAACAATCGCGCGTTATAGCGGCG -GCCCAGCGCAATTGCCGCCACGACATCGGCTTCCACCTCTTCATCGCGCCGATCTTTGATGCGTAGCTGGAGAGT -ACGTACGCCTGCATCCAACAGACGTTCGATCCACTGTACGCTGTCCACCACCGGGTACAGTCCTGAACGAAAAGG -TACAGGAGGAAAATCAGGCTGATACATCACGCTTCCTCCTTACGCAGGTAGATTTCTCCGCCTCTGGCACGGAAG -TTCTCCGACATATCCGCCATTCCCATTTCAATAGTTTGCGTGGCGGCGTAATCACGCACTTCCTGGCTGATTTTC -ATCGAGCAGAATTTCGGCCCACACATGGAGCAAAAATGGGCGACTTTACCTGACTCTTGCGGCAGGGTTTCATCG -TGATAAGCGCGGGCGGTAAACGGGTCGAGGGCCAGATTAAACTGGTCTTCCCAGCGAAATTCGAAGCGGGCTTTC -GACATGGCGTTATCGCGAATTTGCGCGCCCGGATGCCCTTTCGCCAGGTCAGCGGCGTGGGCAGCAATCTTATAG -GTGATAAGCCCCTGCTTAACATCTTCTTTATTGGGCAGACCCAGATGCTCTTTTGGCGTTACGTAACAGAGCATC -GCGCAGCCAAACCAGCCAATCATCGCCGCACCAATCCCCGACGTGAAGTGGTCATAGCCCGGCGCAATATCGGTA -GTTAGCGGCCCCAGAGTGTAAAACGGCGCTTCGTGGCAGTGCTCTAACTCCTCGGTCATATTGCGGCGGATCATC -TGCATCGGCACGTGGCCTGGGCCTTCAATCATCACCTGCACGTCATATTCCCAGGCAATTTTGGTCAGTTCGCCC -AGCGTATGCAGCTCGGCAAACTGCGCTTCATCGTTGGCGTCCTGAATAGAACCGGGGCGCAGACCGTCGCCCAGC -GACAGCGAAACGTCATAAGCGGCACAGATTTCACAAATTTCGCGGAAGTGTTGATAGAGGAAATTTTCCTGATGA -TGGGAGAGGCACCATTTCGCCATAATCGAACCGCCGCGAGAGACGATACCGGTCAGGCGTTTCGCGGTCATCGGC -ACATAGCGCAGCAGTACGCCCGCATGGATAGTGAAGTAATCCACACCTTGCTCGGCCTGTTCCAGCAGCGTGTCG -CGGAACGCTTCCCAGGTAAGATCTTCGGCGATCCCGTTAACCTTCTCCAGCGCCTGGTAGATCGGCACTGTACCG -ATCGGCACCGGGCTGTTACGCAAAATCCACTCGCGGGTTTCGTGAATATAGCGACCGGTGGAGAGATCCATCACC -GTATCCGCTCCCCAGCGCGTGGACCATACCAGCTTTTCCACTTCTTCTTCGATGGAAGAGGTGACCGCCGAGTTG -CCGATATTGGCGTTAACTTTTACCAGGAAATTGCGACCAATAATCATCGGCTCCGATTCCGGATGATTAATGTTG -GCCGGGATAATCGCACGTCCGGCAGCAACTTCATCACGGACAAATTCCGCAGTGATATTTTCCGGCAGATGTGCG -CCAAAGCTCATTCCCGGATGCTGGTGGCGTAAAACCTCGCTACGGATGCGCTCGCGGCCCATATTCTCGCGGATG -GCGATGAATTCCATTTCCGGCGTGATGATGCCCTGGCGGGCGTAGTGCAGTTGGGTGACACGGCGTCCTGCTTTG -GCGCGTTTTGGTGTTAGTACGCCGCTAAAACGCAGTTCGTCGAGGCCATCATCTGCCAGCCGCGCTTTAGTGTAA -TCGGAACTGCGCACGGTAAGTTCTTCGGTATCGCCGCGCGCATCGATCCACGGCTGGCGTAGTTTTGCCAGCCCT -TGCTGCACGTTAATGGCAATCTGCGGATCACCATACGGGCCGGAGGTGTCGTAGACCGGAATCGCTTCGTTTTCT -TCGTACTGCGGCTGTTCTTTGCTACCGCCAATTAGCGTCGGGCTAAGCTGGATCTCACGCATCGGCACGCGCACG -CCGGGGTGTGTGCCAGTGATATAAATGCGTTTTGAGTTGGGAAAGGCGGTGCCTTCCAGGGTGTCGATAAAATGT -TGGGCCCGGGCGCGTTGTTCGCGGCGGGTCAGTTTTGTTGCAGACATAGCTCATTCCAAAAAGTTAAGGACGTGG -CTTGTCAGACGACGGATGAAGCAAGAGACGATCGCCGCAGGGGCGATGCGATAGCAGATTAACTCTTGTTCCCTT -CGCAGGTATTAGCCTGATCAGGTTCCGCGGATCCCGAATAAACGGTCTCAGCCAGTTAAGGCACTCCGACAAGAA -ATTAGCCCCGCAAATGGGGCATTGAATGTAAATTACGCGTTAACAGCGCAGAACTCAAGCAGGATGTTTGACGCG -GGCGGCGTCAAGCACCAGCAGAATCAGCTTATCTTCCAGCACAAAGCGCGCTTCCAGCGCCTCGCCGATGTCAGA -TAAAACCTGTTGAAACTCAAGGTAATTATCATGATCGATGGCGGTTTCCAGACTGGAATCGTAGTAATCCATAAT -CTGTTGAGTATTGGCTTCGAGTTGCGGCCAAATCTTCGCGGCGCGCGCGAGTTGCCCGTTGCCTTCCAGCTTATG -AAGAATGCGCTCATAAATACTGAAATGTCCGGCAGACAAGTAATCGACCAGGCTCTGACAAAAATCATCAAGGGC -TTTTTCGTTTAGCCTCATGTACGATTCTTTGCCAGGCTTAATGCCAACCAGATTGTAGTAAGCCACGAGCAGATG -CTTACGTACATGTAGCCAGCGATCAACCAGTTTGTTACTTCCTCTGACGCGCTCCGTCAGGTTATCGAGCTGGTT -AAGCATGATTGACTCCGCAAGTTTGTATTCAAAAACTGCTCAGTGAGAAATGTAAAAACCATGTTAAACATGCCA -GTGATGCAAAGGTAGTGCAAGAGCTATGGATCGTATAATTGAAAAATTAGATCACGGCTGGTGGGTCGTCAGCCA -TGAACAAAAATTATGGTTGCCGAAGGGAGAATTGCCATATGGCGAAGCGGCAAATTTCGATCTTGTGGGTCAGCG -CGCACTACAAATCGGCGAATGGCAGGGGGAACCTGTTTGGTTAGTACAACAGCAGCGGCGTCACGATATGGGGTC -GGTACGTCAGGTCATTGATCTCGATGTTGGGCTGTTTCAACTGGCCGGACGAGGCGTACAACTGGCGGAGTTTTA -CCGATCGCATAAATACTGTGGTTACTGCGGGCATGAAATGTATCCGAGCAAAACCGAATGGGCGATGCTGTGCAG -CCATTGCCGTGAGCGTTACTACCCGCAAATCGCCCCCTGCATTATTGTTGCCATCCGTCGCGATGATTCGATCCT -CCTCGCCCAGCATACCCGCCATCGTAACGGTGTCCATACAGTACTTGCCGGATTCGTCGAAGTGGGCGAAACCCT -CGAGCAGGCAGTCGCGCGGGAAGTGATGGAAGAGAGCGGAATTAAAGTTAAAAACTTGCGTTACGTGACTTCTCA -GCCGTGGCCGTTTCCTCAGTCTTTAATGACCGCGTTTATGGCGGAATATGACAGCGGCGACATCGTGATCGACCC -GAAAGAATTGCTCGAGGCGAACTGGTATCGCTATGACGATTTGCCGTTACTCCCGCCGCCCGGCACCGTAGCGCG -CCGTCTGATAGAAGATACGGTGGCGATGTGTCGGGCAGAGTATGAGTGATGATACACTGACCGCCTGACGCACTA -AGGAACAGCCAAAATGACCGAACTTAAAAACGATCGTTATCTGCGGGCGCTGCTGCGCCAGCCCGTTGATGTCAC -TCCAGTATGGATGATGCGCCAGGCGGGTCGCTATCTACCGGAATATAAAGCCACGCGCGCCCAGGCAGGCGATTT -TATGTCGCTGTGCAAAAACGCCGAGCTGGCGTGCGAAGTGACTTTGCAACCGCTGCGTCGCTACCCGCTGGATGC -GGCGATCCTCTTTTCCGATATCCTCACCGTGCCGGACGCGATGGGGTTAGGGCTCTATTTTGAAGCCGGAGAAGG -TCCGCGTTTTACCTCGCCAGTCACCTGCAAAGCTGACGTCGATAAACTGCCAATTCCGGACCCGGAAGATGAACT -GGGTTACGTGATGAACGCGGTGCGTACCATTCGTCGCGAACTGAAAGGCGAAGTGCCGCTGATTGGTTTTTCCGG -CAGCCCGTGGACGCTGGCGACCTACATGGTGGAAGGCGGCAGCAGCAAAGCCTTCACCGTGATCAAAAAAATGAT -GTATGCCGATCCGCAGGCGCTGCACGCTCTGCTCGATAAACTGGCGAAAAGCGTCACTTTGTATCTGAATGCGCA -GATTAAAGCCGGTGCTCAGGCAGTGATGATTTTCGACACCTGGGGCGGCGTGCTTACCGGGCGCGATTATCAACA -GTTCTCGCTCTATTACATGCATAAAATTGTTGATGGTTTACTGCGTGAAAACGACGGTCGCCGCGTACCGGTCAC -GCTGTTTACCAAAGGCGGCGGACAGTGGCTGGAAGCCATGGCAGAAACCGGTTGCGATGCGCTGGGCCTCGACTG -GACAACGGACATCGCCGATGCGCGCCGCCGTGTGGGCAATAAAGTCGCGTTGCAGGGTAATATGGATCCGTCGAT -GCTGTACGCGCCGCCTGCCCGCATTGAAGAAGAAGTAGCGACTATACTTGCAGGTTTCGGTCACGGCGAAGGTCA -TGTCTTTAACCTTGGTCACGGCATTCATCAGGATGTGCCGCCAGAACATGCTGGCGTGTTCGTGGAGGCAGTGCA -TCGACTGTCTGAACAGTATCACCGCTAAGGAGTGATTATGGATCTCGCGTCATTACGCGCTCAACAAATCGAACT -GGCTTCTTCTGTGATCCGCGAGGATCGACTCGATAAAGATCCACCGGATCTGATCGCCGGAGCCGATGTCGGGTT -TGAGCAGGGCGGAGAAGTGACGCGAGCGGCGATGGTGCTGCTGAAATATCCCTCGCTTGAGCTGGTCGAGTATAA -AGTTGCCCGCATCGCCACCACCATGCCTTACATTCCAGGTTTTCTTTCCTTCCGCGAATATCCTGCGCTGCTGGC -AGCGTGGGAGATGCTGTCGCAAAAGCCGGATTTAGTGTTTGTCGATGGTCATGGGATCTCGCATCCTCGCCGTCT -TGGCGTCGCCAGCCATTTTGGCTTATTGGTGGATGTGCCGACCATTGGCGTGGCGAAAAAACGGCTCTGCGGTAA -ATTCGAACCGCTCTCCAGCGAACCGGGCGCGCTGGCCCCACTGATGGATAAAGGCGAGCAGCTGGCCTGGGTCTG -GCGCAGCAAAGCGCGCTGTAACCCGTTGTTTATCGCTACCGGCCATCGGGTCAGCGTGGACAGCGCGCTGGCGTG -GGTACAACGCTGCATGAAAGGCTATCGTCTGCCGGAGCCAACGCGCTGGGCGGACGCGGTGGCCTCGGAACGTCC -GGCGTTCGTGCGCTATACAGCAAATCAGCCCTAATTCAGGTAAACTGCGGATAATTTCCGTATTTGAGAACTCAA -CATGTTACAAAACCCAATTCATCTGCGTCTGGAGCGCCTGGAAAGCTGGCAGCATGTCACTTTCATGGCTTGCTT -ATGCGAACGCATGTACCCCAATTACGCCATGTTCTGCCAGCAAACCGGTTTTGGTGATGGGCAAATTTACCGTCG -CATTCTCGATCTCATCTGGGAAACGCTGACCGTTAAAGACGCAAAAGTAAATTTCGACAGCCAACTGGAGAAATT -TGAAGAAGCGATTCCTTCAGCCGACGATTTCGATCTGTACGGCGTTTATCCGGCAATCGATGCCTGCGTGGCGTT -AAGTGAACTGGTCCATTCGCGTTTGAGTGGTGAAACGCTCGAACACGCGGTGGAAGTGAGTAAGACCTCCATCAC -GACCGTTGCGATGCTGGAAATGACTCAGGCTGGTCGCGAAATGAGCGATGAAGAGCTTAAAGAAAACCCAGCTGT -AGAGCAAGAATGGGACATTCAGTGGGAAATATTCCGACTTTTAGCTGAGTGCGAAGAACGCGATATCGAGCTGAT -AAAAGGCCTTAGGGCAGACCTGCGTGAGGCGGGTGAGAGCAATATTGGTATAATTTTTCAGCAATAAGACCAGAA -AACGTGATTTAACGCCTGATTTGTCGTACCTGGAGTCTTCCCTTTCGCCCCCCGTCTGGTCTACATTTGGGGGGC -GAAAAAAAGTGGCTATCGGTGCGTGTATGCAGGAGAGTGCTATTCTGGCATTTCCGTCGCACTCGATGCTTAGCA -AGCGATAAACACATTGTAAGGATAACTTATGAACAAGACTCAACTGATTGATGTAATTGCAGAGAAAGCAGAACT -GTCCAAAACCCAGGCTAAAGCTGCTCTGGAGTCCACTCTGGCTGCAATTACTGAGTCTCTGAAAGAAGGCGATGC -TGTACAACTGGTTGGTTTCGGTACCTTCAAAGTGAACCACCGCGCTGAGCGTACTGGCCGCAACCCGCAGACCGG -TAAAGAAATCAAAATTGCCGCAGCTAACGTACCGGCATTTGTTTCTGGCAAGGCACTGAAAGACGCAGTTAAGTA -AGATTGCGTGGCAGTGAACAGTTTTAACGAAGGGGTGGTTTCACCCCTTTTGTCTTTCTGGCGTCGATCATTGAT -GCTGGCTGGCGCTCTGCTTCTCACTGCCTGTAGTCATAACTCTTCACTTCCTCCCTTTACCGCCAGTGGATTTGC -TGAAGACCAGGGCGCGGTACGCATCTGGCGAAAAGACAGCGGCGATAATGTGCATCTGCTTGCCGTGTTTAGCCC -GTGGCGCAGTGGCGATACCACGACGCGAGAGTATCGCTGGCAGGGCGATAACCTCACGCTCATCAATATCAATGT -TTACAGCAAACCGCCGGTGAATATTCGCGCGCGTTTTGACGATCGCGGTGATCTGAGCTTTATGCAACGTGAATC -CGATGGGGAAAAGCAGCAGCTTTCTAACGACCAAATCGATTTATACCGTTATCGTGCTGATCAGATCCGCCAGAT -TAGCGATGCCTTACGTCAGGGGAGAGTCGTGCTGCGCCAGGGGCGCTGGCATGCGATGGAACAGACCGTGACCAC -CTGCGAAGGGCAAACCATTAAACCTGATTTAGATTCGCAGGCGATAGCGCATATCGAGCGCCGCCAGAGCCGCTC -TTCTGTTGATGTCAGCGTGGCATGGCTGGAAGCGCCCGAAGGTTCGCAATTACTGTTAGTGGCAAACTCTGATTT -CTGTCGCTGGCAACCCAACGAGAAAACGTTCTGATTTACCAGTGGCCCATACCCATATGACCGCCACCACCGCAG -CCGCCGTAGCCCATGCCCATTCCGGCTCCGCGCGGAATACCCGCTTCAGCCATCGCGATATCTCGTTTCACCCGT -AACTCATCTAACGACTGACGCAAATTCTCCATCTCTTTGGCGACCGCGTTAATTTTGCTGCTATCCGGTGGGTTC -GCGGCTAACAGGGCATTGTATTCATAACGCTTCGTCACCAGTTGCTGTTGCAGTGCGCTGCTTTGAGCGTAAAAG -TCATTATGGATTTTCTGCCACGCTGTCTGTTGTTCGCTGGTCAAAGGCGCGGCATTTTGCTGCCACATACCGTGT -CCGCCGTGAGCAAATGCAGATGTCGATCCCATCGCCATTGCTGAAAGCGCCATCATTACCAGGGCAATTTTCGTG -TTCCGTTTCATGGTTAATCCTCCAGTGGTTGTCTTACTTCGGGTATTGCATCTTCCGTGCCAACGATGAAACGCT -GATATGACGGGTAATCTGGCATGATAAACGAGTAAAAATGACTCGCCTGCTGCGGGTAGCGAGTCATTTTTACTC -ATTGAAACTTAAGCCTTTGTGTTACAGCGCAGGGTAAGCGCTGATAAAAGATGGCATGATTTCTGCTGTCAGAAA -GGGATGAGCAGGCAAAGAAGAAGATGCGTTTTATGCAACGTTCTAAAGACTCCTTAGCTAAATGGTTAAGCGCGA -TCCTCCCCGTGGTCATTGTTGGGCTGGTGGGATTGTTTGCGGTAACTGTGATTCGTGATTATGGGCGGGCAAGCG -AGGCAGACCGCCAGGCATTACTGGAAAAAGGTAATGTGCTTATCCGCGCTCTGGAGTCGGGAAGCCGCGTAGGGA -TGGGGATGCGAATGCACCATGTACAGCAACAGGCGCTTCTGGAAGAGATGGCGGGACAGCCGGGAGTGTTGTGGT -TCGCAGTCACCGATGCGCAGGGCATCATTATTCTTCATAGCGACCCCGATAAGGTCGGGCGTGCGCTCTATTCGC -CGGATGAAATGCAGAAATTAAAGCCAGAGGAAAACTCCCGCTGGCGGCTGCTTGGGAAAACGGAAACTACGCCTG -CACTTGAGGTCTATCGTTTGTTCCAGCCAATGTCAGCGCCCTGGCGGCATGGAATGCACAATATGCCGCGCTGTA -ACGGCAAAGCTGTGCCACAAGTAGATGCACAACAGGCTATTTTTATCGCCGTTGATGCCAGTGATCTGGTTGCAA -CCCAGAGTGGGGAAAAGCGCAATACCCTGATTATCCTCTTCGCCCTGGCGACGGTCTTGCTGGCAAGCGTATTGT -CATTCTTCTGGTATCGCCGCTATCTGCGCTCGCGCCAGCTTCTACAAGATGAAATGAAGCGCAAAGAGAAGCTGG -TGGCGCTGGGGCATCTTGCGGCAGGCGTTGCCCACGAAATCCGTAACCCACTTTCCTCGATTAAAGGACTGGCGA -AATACTTTGCCGAGCGCGCGCCTGCAGGGGGAGAAGCGCATCAACTGGCGCAGGTGATGGCGAAAGAGGCCGACC -GTTTAAACCGCGTGGTAAGCGAGTTGCTGGAACTGGTTAAGCCAACGCATCTGGCTTTGCAGGCGGTGGATCTCA -ACACGCTGATTAACCACTCATTACAGCTGGTAAGTCAGGATGCAAACAGCCGGGAGATCCAGTTACGCTTTACCG -CCAACGACACATTACCGGAAATTCAGGCCGACCCGGACAGGCTGACTCAGGTCCTGTTGAATCTCTATCTCAATG -CTATTCAGGCGATTGGTCAGCATGGCGTGATTAGCGTGACGGCCAGCGAAAGCGGCGCGGGCGTGAAAATCAGCG -TTACCGACAGCGGTAAGGGAATTGCGGCAGATCAGCTTGATGCCATCTTCACTCCGTACTTCACCACTAAAGCCG -AAGGCACCGGATTGGGGCTGGCGGTCGTGCATAATATTGTTGAACAACACGGTGGTACAATTCAGGTCGCAAGCC -AGGAGGGAAAAGGCTCAACGTTCACCCTCTGGCTTCCGGTCAATATTACGCGTAAGGACCCACAAGGATGACGCA -CGATAATATCGATATTCTGGTGGTGGATGATGACATTAGCCACTGCACTATTTTGCAGGCTTTACTGCGCGGCTG -GGGCTATAACGTCGCGCTGGCGAACAGCGGGCGACAGGCGTTGGAGCAGGTGCGGGAACAGGTTTTTGATCTTGT -GCTTTGCGATGTGCGAATGGCGGAGATGGACGGCATCGCCACGCTGAAAGAGATCAAAGCGTTAAACCCGGCAAT -TCCGGTGCTGATTATGACTGCGTACTCCAGCGTCGAGACGGCGGTAGAGGCACTGAAAACTGGGGCGCTGGATTA -TCTCATCAAGCCGCTGGATTTCGATAACCTACAGGCGACGCTGGAAAAAGCGCTCGCGCATACGCACAGTATTGA -TGCTGAAACACCTGCGGTGACTGCCAGCCAGTTCGGTATGGTCGGTAAAAGCCCGGCGATGCAACACCTGCTCAG -TGAAATCGCCCTCGTCGCGCCATCGGAAGCCACGGTACTGATCCACGGCGATTCCGGCACCGGTAAAGAGCTGGT -CGCCAGGGCGATTCACGCCAGTAGCGCACGTAGCGAAAAACCGCTGGTAACGCTCAACTGTGCGGCACTCAACGA -ATCCTTGCTGGAATCTGAATTGTTCGGTCACGAAAAAGGGGCGTTTACTGGAGCCGATAAACGCCGGGAAGGGCG -CTTTGTTGAGGCGGACGGCGGCACGCTGTTTCTCGATGAAATTGGCGATATCTCGCCGATGATGCAGGTGCGTCT -GCTGCGTGCGATTCAGGAGCGCGAAGTTCAGCGTGTCGGTAGCAACCAGATTATCTCGGTTGATGTCCGGCTGAT -TGCGGCGACCCATCGCGATCTTGCCGCAGAGGTGAATGCCGGGCGTTTTCGCCAGGATCTCTACTATCGCCTGAA -TGTGGTGGCGATTGAAGTACCATCGCTGCGGCAACGGCGGGAAGATATCCCTCTGCTGGCTGGCCATTTTCTGCA -GCGCTTTGCCGAGCGTAATCGCAAGGCGGTAAAAGGTTTTACGCCCCAGGCGATGGATCTGTTGATTCATTACGA -CTGGCCGGGAAATATTCGTGAGCTGGAAAACGCGGTGGAACGGGCAGTGGTGCTGCTGACCGGGGAATATATTTC -CGAACGCGAGCTGCCGCTGGCGATTGCCAGTACGCCGATCCCGCTGGGACAAAGTCAGGATATTCAGCCGTTGGT -GGAAGTGGAAAAAGAGGTGATTCTGGCGGCGCTGGAGAAAACGGGCGGCAACAAAACCGAAGCCGCCCGTCAGTT -AGGGATCACGCGCAAAACGCTATTGGCAAAACTGTCGCGTTAGTTCTGCTCGCGTTCGATAGCGCGCCAGCCGAT -ATCTTTCCGGCAGAAGCAGTCGTCCCAGTGGATATCGGTCATTAAGGCATAGGCGCGTTTCTGCGCTTCTGCCAC -GGTATGACCCAGCGCGGTGACGCACAGTACGCGCCCGCCGTTGGTCACTACCTGCTCGTCATCCGCCAGTTTTGT -GCCCGCGTGGAACACTTTGCCGCCTGCCACTTCTTCCAGCGGCAGGCCGTGGATCACGTCACCGGTGCGGTAATC -ACCCGGATATCCACCCGCAGCCATCACCACGCCGAGAGAAGCGCGTTCATCCCACTCGGACGTTTTCTCGTCCAG -TTTGCTTTCACAGGCCGCCAGGCAGAGCTCAACCAGATCGGACTTCATGCGCAGCATAATCGGCTGGGTTTCCGG -ATCGCCAAAGCGGCAGTTAAATTCAATAACCTTCGGATTGCCCTGTTTGTCGATCATCAGGCCCGCGTAGAGAAA -ACCGGTGTAGGTGTTGCCTTCCGCCGCCATGCCTTTCACGGTTGGCCAGATAATACGTTCCATGGTGCGCTGATG -AACGTCATCGGTTACTACCGGCGCGGGGGAGTAAGCGCCCATCCCGCCGGTGTTTGGTCCGGTATCTTTATCGCC -TACGCGTTTGTGATCCTGGCTGGTAGCCATCGGCAGCACATGCTCGCCGTCCACCATCACGATAAAGCTCGCTTC -TTCGCCATCGAGGAACTCTTCGATAACGATGCGATGACCCGCGTCGCCAAAAGCGTTGCCCGCCAGCATATCGTG -AACAGCCGCTTCCGCTTCTTCCAGCGTCATCGCCACGATAACGCCTTTCCCGGCAGCCAGACCGTCCGCTTTAAT -GACGATTGGCGCGCCTTTCTCACGCAGATACGCCAGCGCAGGTTCTACCTCGGTGAAGTTCTGGTATTCCGCCGT -AGGGATCTTATGGCGGGCCAGGAAATCTTTGGTAAACGCTTTTGAGCCTTCCAGTTGGGCCGCACCTGCGGTTGG -GCCGAAGATTTTCAGCCCGGCGGCGCGGAAGGTATCGACCACGCCTTTCACCAGCGGCGCTTCCGGGCCGACGAT -GGTCAGATCAATCTTTTCGTTTTGTGCGAAATCCAACAGCGCCGGGATATCGGTCACGCCAATAGCAACGTTTTG -CAGCGCGGGTTCCAGTGCAGTGCCTGCATTACCCGGAGCAACAAAAACAGTCTCAACCAGCGGCGACTGGGCCGC -TTTCCAGGCCAGCGCGTGCTCGCGCCCGCCGTTACCAATCACTAATACTTTCATCTATTGCTCCATTAATGGCGG -AAGTGGCGCATGTCGGTGAAGAGCATCGCAATACCGTGCTCGTCGGCGGCGGCAATCACTTCGTCATCACGGATA -GAACCGCCAGGCTGGATTACGCAGGTCACGCCCGCAGCGGCGGCGGCATCAATACCGTCGCGGAACGGGAAGAAC -GCGTCAGAAGCCATCGAGGAACCTTTCACTTCCAGGCCTTCATCGGCCGCTTTAATACCGGCGATTTTTGCGGAG -TACACGCGGCTCATCTGGCCCGCGCCAATGCCGATAGTCATATTGTTTTTGGCATAGACGATAGCGTTGGATTTC -ACAAACTTCGCCACCTTCCAGCAGAACAGCGCATCACGCAGTTCCTGTTCGCTCGGCTGACGTTTGGTCACCACG -CGCAGTTCTTCCGCACCGACCATCCCCAGGTCACGATCCTGAACCAGCAGACCGCCGTTCACGCGTTTGAAATCG -AGGCCCGGAACACGCTCGCCCCACTGACCGCAGGTCAGAACGCGTACGTTCTGTTTGGCGGCGGTGATTTTCAGG -GCTTCTTCGCTGGCGGACGGCGCAATAATCACTTCGACAAACTGACGAGAAATGATGGCCTGTGCGGTTTCCGCA -TCCAGCTCGCGGTTAAAGGCAATGATGCCGCCGAATGCGGAGGTTGGGTCGGTTTTGTACGCGCGATCGTAAGCA -TCAAGAATGGAATTGCCGATAGCCACGCCGCAAGGGTTGGCGTGCTTCACAATCACACATGCCGGCTCGGCGAAC -TCTTTCACGCACTCCAGCGCCGCATCGGTATCGGCGATGTTGTTATAAGAGAGGGCTTTACCCTGAACCTGGGTT -GCGGTAGCAACGGAGGCTTCTTTCACATTCTCTTCTATATAGAAGGCAGCCTGCTGGTGGCTGTTCTCGCCGTAA -CGCATATCCAGCTTCTTAATGAAGTTCAGGTTCAGCGTGCGTGGGAAGCGACCGGCGGCTTCTTTGCTTTCACCG -TGGTAAGCCGGAACCATGCTGCCGAAGTAGTTGGCAATCATGCTGTCGTAGGCGGCAGTGTGTTCGAAGGCTTTG -ATGGCGAGGTCGAAACGGGTTGCAAGCGTCAGCGATCCTTCGTTGTCATCCATCTCTTTAATAATGGCGTCATAG -TCGCTGCTCTTCACCACGATTGCGACATCTTTATGGTTCTTGGCGGCGGAGCGCACCATCGTTGGGCCGCCGATA -TCGATGTTCTCAACCGCATCTTCCAGCGAGCAACCTTCACGGGCCACGGTCTGGGCGAACGGATACAGGTTAACA -ACCACCATATCGATAGGCTGGATCTGATGTTCTTCCATAATGGCATCGTCCTGGCCGCGACGGCCCAGAATGCCA -CCATGTACTTTCGGATGCAGGGTCTTCACGCGTCCATCCATCATCTCCGGGAAACCGGTGTAATCGGAAACTTCG -GTTACCGGCAGACCTTTTTCTGCTAACAGACGGGCAGTGCCCCCTGTAGACAGCAGCTCCACACCGCGTGCGGAA -AGTGCCTGGGCGAATTCGACGATACCGGCTTTGTCAGAAACACTGAGCAGAGCGCGGCGGACTGGACGACGTTGT -TGCATGGTAAATCCCCTGGATTTGACTATTACAGAGAGCGTTAGCTGAATTTTTCGCGAAAAACTCAGCTAACGC -CCCTAACGGGGCATCCTTATTTTTCGCCCGCATTGTAACGAAAACGTTTGCGCAACGCTCGCGAATTTTTCTCTT -TCAATGGTGATCACAATTTTGACTGTGGTTACCGTGGGCAAAATACAGAAATTACATTGATGATTGTGGATAACT -CTGTGCGTAAAAAGGTATAAAGCGGGCTTTTGCTGGGGAATGCAGCAGTCAGTCATTTTTCTGCAATTTTTCTAT -TGCGGCCTGCGGAGAACTCCCTATAATGCGCCTCCATCGACACGGCGGATGTGAATCACTTCACACAAACAGCCG -GTTCGGTTGAAGAGAAAAATCCTGAAATTCAGGGTTGACTCTGAAAGAGGAAAGCGTAATATACGCCACCTCGCG -ACAGTGCGCTAAAGCGCGTCGCAACTGCTCTTTAACAATTTATCAGACAATCTGTGTGGGCACTCGAAGATACGG -ATTCTTAACGTCGCAAGACGAAAAATGAATACCAAGTCTCAAGAGTGAACACGTAATTCATTACGAAGTTTAATT -CTTTGAGCATCAAACTTTTAAATTGAAGAGTTTGATCATGGCTCAGATTGAACGCTGGCGGCAGGCCTAACACAT -GCAAGTCGAACGGTAACAGGAAGAAGCTTGCTTCTTTGCTGACGAGTGGCGGACGGGTGAGTAATGTCTGGGAAA -CTGCCTGATGGAGGGGGATAACTACTGGAAACGGTAGCTAATACCGCATAACGTCGCAAGACCAAAGAGGGGGAC -CTTCGGGCCTCTTGCCATCGGATGTGCCCAGATGGGATTAGCTAGTAGGTGGGGTAACGGCTCACCTAGGCGACG -ATCCCTAGCTGGTCTGAGAGGATGACCAGCCACACTGGAACTGAGACACGGTCCAGACTCCTACGGGAGGCAGCA -GTGGGGAATATTGCACAATGGGCGCAAGCCTGATGCAGCCATGCCGCGTGTATGAAGAAGGCCTTCGGGTTGTAA -AGTACTTTCAGCGGGGAGGAAGGGAGTAAAGTTAATACCTTTGCTCATTGACGTTACCCGCAGAAGAAGCACCGG -CTAACTCCGTGCCAGCAGCCGCGGTAATACGGAGGGTGCAAGCGTTAATCGGAATTACTGGGCGTAAAGCGCACG -CAGGCGGTTTGTTAAGTCAGATGTGAAATCCCCGGGCTCAACCTGGGAACTGCATCTGATACTGGCAAGCTTGAG -TCTCGTAGAGGGGGGTAGAATTCCAGGTGTAGCGGTGAAATGCGTAGAGATCTGGAGGAATACCGGTGGCGAAGG -CGGCCCCCTGGACGAAGACTGACGCTCAGGTGCGAAAGCGTGGGGAGCAAACAGGATTAGATACCCTGGTAGTCC -ACGCCGTAAACGATGTCGACTTGGAGGTTGTGCCCTTGAGGCGTGGCTTCCGGAGCTAACGCGTTAAGTCGACCG -CCTGGGGAGTACGGCCGCAAGGTTAAAACTCAAATGAATTGACGGGGGCCCGCACAAGCGGTGGAGCATGTGGTT -TAATTCGATGCAACGCGAAGAACCTTACCTGGTCTTGACATCCACGGAAGTTTTCAGAGATGAGAATGTGCCTTC -GGGAACCGTGAGACAGGTGCTGCATGGCTGTCGTCAGCTCGTGTTGTGAAATGTTGGGTTAAGTCCCGCAACGAG -CGCAACCCTTATCCTTTGTTGCCAGCGGTCCGGCCGGGAACTCAAAGGAGACTGCCAGTGATAAACTGGAGGAAG -GTGGGGATGACGTCAAGTCATCATGGCCCTTACGACCAGGGCTACACACGTGCTACAATGGCGCATACAAAGAGA -AGCGACCTCGCGAGAGCAAGCGGACCTCATAAAGTGCGTCGTAGTCCGGATTGGAGTCTGCAACTCGACTCCATG -AAGTCGGAATCGCTAGTAATCGTGGATCAGAATGCCACGGTGAATACGTTCCCGGGCCTTGTACACACCGCCCGT -CACACCATGGGAGTGGGTTGCAAAAGAAGTAGGTAGCTTAACCTTCGGGAGGGCGCTTACCACTTTGTGATTCAT -GACTGGGGTGAAGTCGTAACAAGGTAACCGTAGGGGAACCTGCGGTTGGATCACCTCCTTACCTTAAAGAAGCGT -TCTTTGCAGTGCTCACACAGATTGTCTGATAGAAAGTGAAAAGCAAGGCGTCTTGCGAAGCAGACTGATACGTCC -CCTTCGTCTAGAGGCCCAGGACACCGCCCTTTCACGGCGGTAACAGGGGTTCGAATCCCCTAGGGGACGCCACTT -GCTGGTTTGTGAGTGAAAGTCACCTGCCTTAATATCTCAAAACTCATCTTCGGGTGATGTTTGAGATATTTGCTC -TTTAAAAATCTGGATCAAGCTGAAAATTGAAACACTGAACAACGAAAGTTGTTCGTGAGTCTCTCAAATTTTCGC -AACACGATGATGAATCGTAAGAAACATCTTCGGGTTGTGAGGTTAAGCGACTAAGCGTACACGGTGGATGCCCTG -GCAGTCAGAGGCGATGAAGGACGTGCTAATCTGCGATAAGCGTCGGTAAGGTGATATGAACCGTTATAACCGGCG -ATTTCCGAATGGGGAAACCCAGTGTGTTTCGACACACTATCATTAACTGAATCCATAGGTTAATGAGGCGAACCG -GGGGAACTGAAACATCTAAGTACCCCGAGGAAAAGAAATCAACCGAGATTCCCCCAGTAGCGGCGAGCGAACGGG -GAGCAGCCCAGAGCCTGAATCAGTGTGTGTGTTAGTGGAAGCGTCTGGAAAGGCGCGCGATACAGGGTGACAGCC -CCGTACACAAAAATGCACATGCTGTGAGCTCGATGAGTAGGGCGGGACACGTGGTATCCTGTCTGAATATGGGGG -GACCATCCTCCAAGGCTAAATACTCCTGACTGACCGATAGTGAACCAGTACCGTGAGGGAAAGGCGAAAAGAACC -CCGGCGAGGGGAGTGAAAAAGAACCTGAAACCGTGTACGTACAAGCAGTGGGAGCACGCTTAGGCGTGTGACTGC -GTACCTTTTGTATAATGGGTCAGCGACTTATATTCTGTAGCAAGGTTAACCGAATAGGGGAGCCGAAGGGAAACC -GAGTCTTAACTGGGCGTTAAGTTGCAGGGTATAGACCCGAAACCCGGTGATCTAGCCATGGGCAGGTTGAAGGTT -GGGTAACACTAACTGGAGGACCGAACCGACTAATGTTGAAAAATTAGCGGATGACTTGTGGCTGGGGGTGAAAGG -CCAATCAAACCGGGAGATAGCTGGTTCTCCCCGAAAGCTATTTAGGTAGCGCCTCGTGAATTCATCTCCGGGGGT -AGAGCACTGTTTCGGCAAGGGGGTCATCCCGACTTACCAACCCGATGCAAACTGCGAATACCGGAGAATGTTATC -ACGGGAGACACACGGCGGGTGCTAACGTCCGTCGTGAAGAGGGAAACAACCCAGACCGCCAGCTAAGGTCCCAAA -GTCATGGTTAAGTGGGAAACGATGTGGGAAGGCCCAGACAGCCAGGATGTTGGCTTAGAAGCAGCCATCATTTAA -AGAAAGCGTAATAGCTCACTGGTCGAGTCGGCCTGCGCGGAAGATGTAACGGGGCTAAACCATGCACCGAAGCTG -CGGCAGCGACGCTTATGCGTTGTTGGGTAGGGGAGCGTTCTGTAAGCCTGCGAAGGTGTGCTGTGAGGCATGCTG -GAGGTATCAGAAGTGCGAATGCTGACATAAGTAACGATAAAGCGGGTGAAAAGCCCGCTCGCCGGAAGACCAAGG -GTTCCTGTCCAACGTTAATCGGGGCAGGGTGAGTCGACCCCTAAGGCGAGGCCGAAAGGCGTAGTCGATGGGAAA -CAGGTTAATATTCCTGTACTTGGTGTTACTGCGAAGGGGGGACGGAGAAGGCTATGTTGGCCGGGCGACGGTTGT -CCCGGTTTAAGCGTGTAGGCTGGTTTTCCAGGCAAATCCGGAAAATCAAGGCTGAGGCGTGATGACGAGGCACTA -CGGTGCTGAAGCAACAAATGCCCTGCTTCCAGGAAAAGCCTCTAAGCATCAGGTAACATCAAATCGTACCCCAAA -CCGACACAGGTGGTCAGGTAGAGAATACCAAGGCGCTTGAGAGAACTCGGGTGAAGGAACTAGGCAAAATGGTGC -CGTAACTTCGGGAGAAGGCACGCTGATATGTAGGTGAGGTCCCTCGCGGATGGAGCTGAAATCAGTCGAAGATAC -CAGCTGGCTGCAACTGTTTATTAAAAACACAGCACTGTGCAAACACGAAAGTGGACGTATACGGTGTGACGCCTG -CCCGGTGCCGGAAGGTTAATTGATGGGGTTAGCGCAAGCGAAGCTCTTGATCGAAGCCCCGGTAAACGGCGGCCG -TAACTATAACGGTCCTAAGGTAGCGAAATTCCTTGTCGGGTAAGTTCCGACCTGCACGAATGGCGTAATGATGGC -CAGGCTGTCTCCACCCGAGACTCAGTGAAATTGAACTCGCTGTGAAGATGCAGTGTACCCGCGGCAAGACGGAAA -GACCCCGTGAACCTTTACTATAGCTTGACACTGAACATTGAGCCTTGATGTGTAGGATAGGTGGGAGGCTTTGAA -GTGTGGACGCCAGTCTGCATGGAGCCGACCTTGAAATACCACCCTTTAATGTTTGATGTTCTAACGTTGACCCGT -AATCCGGGTTGCGGACAGTGTCTGGTGGGTAGTTTGACTGGGGCGGTCTCCTCCTAAAGAGTAACGGAGGAGCAC -GAAGGTTGGCTAATCCTGGTCGGACATCAGGAGGTTAGTGCAATGGCATAAGCCAGCTTGACTGCGAGCGTGACG -GCGCGAGCAGGTGCGAAAGCAGGTCATAGTGATCCGGTGGTTCTGAATGGAAGGGCCATCGCTCAACGGATAAAA -GGTACTCCGGGGATAACAGGCTGATACCGCCCAAGAGTTCATATCGACGGCGGTGTTTGGCACCTCGATGTCGGC -TCATCACATCCTGGGGCTGAAGTAGGTCCCAAGGGTATGGCTGTTCGCCATTTAAAGTGGTACGCGAGCTGGGTT -TAGAACGTCGTGAGACAGTTCGGTCCCTATCTGCCGTGGGCGCTGGAGAACTGAGGGGGGCTGCTCCTAGTACGA -GAGGACCGGAGTGGACGCATCACTGGTGTTCGGGTTGTCATGCCAATGGCACTGCCCGGTAGCTAAATGCGGAAG -AGATAAGTGCTGAAAGCATCTAAGCACGAAACTTGCCCCGAGATGAGTTCTCCCTGACTCCTTGAGAGTCCTGAA -GGAACGTTGAAGACGACGACGTTGATAGGCCGGGTGTGTAAGCGCAGCGATGCGTTGAGCTAACCGGTACTAATG -AACCGTGAGGCTTAACCTTACAACGCCGAAGGTGTTTTGGCGGATTGAGAGAAGATTTTCAGCCTGATACAGATT -AAATCAGAACGCAGAAGCGGTCTGATAAAACAGAATTTGCCTGGCGGCAGTAGCGCGGTGGTCCCACCTGACCCC -ATGCCGAACTCAGAAGTGAAACGCCGTAGCGCCGATGGTAGTGTGGGGTCTCCCCATGCGAGAGTAGGGAACTGC -CAGGCATCAAATTAGAAAAACCCCGGTCCATAAGGCCGGGGTTTTTTGCATATCAATTATTTGCATGATGAAGGG -AATCTCATGTCAGTTCTGTATATCCAAATTCGTCGTAATCAAATTACTGTTCGCGATCTTGAAAGCAAACGTGAA -GTGTCAGGAGACGCTGCCTTCAGTAACCAGCGCCTGTTAATCGCCAATTTCTTTGTTGCAGAAAAAGTTCTGCAA -GATCTTGTTCTGCAACTCCACCCACGTTCAACCTGGCATTCTTTTTTGCCAGCAAAACGTATGGATATTGTTGTG -AGCGCACTGGAAATGAATGAGGGCGGTTTGTCACAGGTTGAGGAACGCATTCTCCATGAAGTGGTCGCTGGGGCA -ACGTTAATGAAATATCGCCAGTTCCACATCCATGCGCAATCAGCGGTACTCAGTGATAGTGCGGTCATGGCAATG -CTTAAGCAGAAATAATCGTGTCACCATTGGTGGGTACTAAACCTGAAGTTCAGCCCACCGGGATGAGAAAAAATC -GCCTACGCCCCCACATACGCCAGATTCAGCAACGGATACGGTTTCCCCAAATCGTCCACCTCAGAGCGTCCCGTA -ACCTTAAAACCCACCTTCTTATAGAACCCAACCGCCTGCTCATTTTGCTCATTAACGTTGGTTGTCAGTTCCGGT -GCCATCGAGAGCGCATGCTCCACCAGCACCCGACCTACGCCGCAGCCGCGCACATCAGGATCGATAAACAGCGCA -TCCATATGCTGCCCACTTAGCAACATAAATCCAACCGGCTGATCCCGCTCATTAACCGCGACCCACAACGGCGCT -TCCGGCAGGAAGGAACGAACTAGGTCCTCCAGCTCGGTCCGATACTCTGCTGATAGAAAATCGTGAGTGGCATCG -ACAGAACGACACCAAATCGCAACGAGTTCCTCCCCTTCCTCATGCCGTGAGCGGCGAATACTAATAACCATTTTC -TCTCCTTTTAGTCATTCTTATATTCTAACGTAGTCTTTTCCTTGAAACTTTCTCACCTTCAACATGCAGGCTCGA -CATTGGCAAATTTTCTGGTTATCTTCAGCTATCTGGATGTCTAAACGTATAAGCGTATGTAGTGAGGTAATCAGG -TTATGCCGATTCGTGTGCCGGACGAGCTACCCGCCGTCAATTTCTTGCGTGAAGAAAACGTCTTTGTGATGACAA -CTTCTCGTGCGTCTGGTCAGGAAATTCGTCCACTTAAGGTTCTGATCCTTAACCTGATGCCGAAGAAGATTGAAA -CTGAAAATCAGTTTCTGCGCCTGCTTTCAAACTCACCTTTGCAGGTCGATATTCAGCTGTTGCGCATCGATTCCC -GTGAATCGCGCAACACGCCCGCAGAGCATCTGAACAACTTCTACTGTAACTTTGAAGATATTCAGGATCAGAACT -TTGACGGTTTGATTGTAACTGGTGCGCCGCTGGGCCTGGTGGAGTTTAATGATGTCGCTTACTGGCCGCAGATCA -AACAGGTGCTGGAGTGGTCGAAAGATCACGTCACCTCGACGCTGTTTGTCTGCTGGGCGGTACAGGCCGCGCTCA -ATATCCTCTACGGCATTCCTAAGCAAACTCGCACCGAAAAACTCTCTGGCGTTTACGAGCATCATATTCTCCATC -CTCATGCGCTTCTGACGCGTGGCTTTGATGATTCATTCCTGGCACCGCATTCGCGCTATGCTGACTTTCCGGCAG -CGTTGATTCGTGATTACACCGATCTGGAAATTCTGGCAGAGACGGAAGAAGGGGATGCATATCTGTTTGCCAGTA -AAGATAAGCGCATTGCCTTTGTGACGGGCCATCCCGAATATGATGCGCAAACGCTGGCGCAGGAATTTTTCCGCG -ATGTGGAAGCCGGACTAGACCCGGATGTACCGTATAACTATTTCCCGCACAATGATCCGCAAAATACACCGCGAG -CGAGCTGGCGTAGTCACGGTAATTTACTGTTTACCAACTGGCTCAACTATTACGTCTACCAGATCACGCCATACG -ATCTACGGCACATGAATCCAACGCTGGATTAATCTTCTGTGATAGTCGATCGTTAAGCGATTCAGCACCTTACCT -CAGGCACCTTCGGGTGCCTTTTTTATTTCCGAAACGTACCTCAGCAGGTGAATAAATTTTATTCATATTGTTATC -AACAAGTTATCAAGTATTTTTAATTAAAATGGAAATTGTTTTTGATTTTGCATTTTAAATGAGTAGTCTTAGTTG -TGCTGAACGAAAAGAGCACAACGATCCTTCGTTCACAGTGGGGAAGTTTTCGGATCCATGACGAGGAGCTGCACG -ATGACTGAACAGGCAACAACAACCGATGAACTGGCTTTCACAAGGCCGTATGGCGAGCAGGAGAAGCAAATTCTT -ACTGCCGAAGCGGTAGAATTTCTGACTGAGCTGGTGACGCATTTTACGCCACAACGCAATAAACTTCTGGCAGCG -CGCATTCAGCAGCAGCAAGATATTGATAACGGAACGTTGCCTGATTTTATTTCGGAAACAGCTTCCATTCGCGAT -GCTGATTGGAAAATTCGCGGGATTCCTGCGGACTTAGAAGACCGCCGCGTAGAGATAACTGGCCCGGTAGAGCGC -AAGATGGTGATCAACGCGCTCAACGCCAATGTGAAAGTCTTTATGGCCGATTTCGAAGATTCACTGGCACCAGAC -TGGAACAAAGTGATCGACGGGCAAATTAACCTGCGTGATGCGGTTAACGGCACCATCAGTTACACCAATGAAGCA -GGCAAAATTTACCAGCTCAAGCCCAATCCAGCGGTTTTGATTTGTCGGGTACGCGGTCTGCACTTGCCGGAAAAA -CATGTCACCTGGCGTGGTGAGGCAATCCCCGGCAGCCTGTTTGATTTTGCGCTCTATTTCTTCCACAACTATCAG -GCACTGTTGGCAAAGGGCAGTGGTCCCTATTTCTATCTGCCGAAAACCCAGTCCTGGCAGGAAGCGGCCTGGTGG -AGCGAAGTCTTCAGCTATGCAGAAGATCGCTTTAATCTGCCGCGCGGCACCATCAAGGCGACGTTGCTGATTGAA -ACGCTGCCCGCCGTGTTCCAGATGGATGAAATCCTTCACGCGCTGCGTGACCATATTGTTGGTCTGAACTGCGGT -CGTTGGGATTACATCTTCAGCTATATCAAAACGTTGAAAAACTATCCCGATCGCGTCCTGCCAGACAGACAGGCA -GTGACGATGGATAAACCATTCCTGAATGCTTACTCACGCCTGTTGATTAAAACCTGCCATAAACGCGGTGCTTTT -GCGATGGGCGGCATGGCGGCGTTTATTCCGAGCAAAGATGAAGAGCACAATAACCAGGTGCTCAACAAAGTAAAA -GCGGATAAATCGCTGGAAGCCAATAACGGTCACGATGGCACATGGATCGCTCACCCAGGCCTTGCGGACACGGCA -ATGGCGGTATTCAACGACATTCTCGGCTCCCGTAAAAATCAGCTTGAAGTGATGCGCGAACAAGACGCGCCGATT -ACTGCCGATCAGCTGCTGGCACCTTGTGATGGTGAACGCACCGAAGAAGGTATGCGCGCCAACATTCGCGTGGCT -GTGCAGTACATCGAAGCGTGGATCTCTGGCAACGGCTGTGTGCCGATTTATGGCCTGATGGAAGATGCGGCGACG -GCTGAAATTTCCCGTACCTCGATCTGGCAGTGGATCCATCATCAAAAAACGTTGAGCAATGGCAAACCGGTGACC -AAAGCCTTGTTCCGCCAGATGCTGGGCGAAGAGATGAAAGTCATTGCCAGCGAACTGGGCGAAGAACGTTTCTCC -CAGGGGCGTTTTGACGATGCCGCACGCTTGATGGAACAGATCACCACTTCCGATGAGTTAATTGATTTCCTGACC -CTGCCAGGCTACCGCCTGTTAGCGTAAACCACCACATAACTATGGAGCATCTGCACATGAAAACCCGTACACAAC -AAATTGAAGAATTACAGAAAGAGTGGACTCAACCGCGTTGGGAAGGCATTACTCGCCCATACAGTGCGGAAGATG -TGGTGAAATTACGCGGTTCAGTCAATCCTGAATGCACGCTGGCGCAACTGGGCGCAGCGAAAATGTGGCGTCTGC -TGCACGGTGAGTCGAAAAAAGGCTACATCAACAGCCTCGGCGCACTGACTGGCGGTCAGGCGCTGCAACAGGCGA -AAGCGGGTATTGAAGCAGTCTATCTGTCGGGATGGCAGGTAGCGGCGGACGCTAACCTGGCGGCCAGCATGTATC -CGGATCAGTCGCTCTATCCGGCAAACTCGGTGCCAGCTGTGGTGGAGCGGATCAACAACACCTTCCGTCGTGCCG -ATCAGATCCAATGGTCCGCGGGCATTGAGCCGGGCGATCCGCGCTATGTCGATTACTTCCTGCCGATCGTTGCCG -ATGCGGAAGCCGGTTTTGGCGGTGTCCTGAATGCCTTTGAACTGATGAAAGCGATGATTGAAGCCGGTGCAGCGG -CAGTTCACTTCGAAGATCAGCTGGCGTCAGTGAAGAAATGCGGTCACATGGGCGGCAAAGTTTTAGTGCCAACTC -AGGAAGCTATTCAGAAACTGGTCGCGGCGCGTCTGGCAGCTGACGTGACGGGCGTTCCAACCCTGCTGGTTGCCC -GTACCGATGCTGATGCGGCGGATCTGATCACCTCCGATTGCGACCCGTATGACAGCGAATTTATTACCGGCGAGC -GTACCAGTGAAGGCTTCTTCCGTACTCATGCGGGCATTGAGCAAGCGATCAGCCGTGGCCTGGCGTATGCGCCAT -ATGCTGACCTGGTCTGGTGTGAAACCTCCACGCCGGATCTGGAACTGGCGCGTCGCTTTGCACAAGCTATCCACG -CGAAATATCCGGGCAAACTGCTGGCTTATAACTGCTCGCCGTCGTTCAACTGGCAGAAAAACCTCGACGACAAAA -CTATTGCCAGCTTCCAGCAGCAGCTGTCGGATATGGGCTACAAGTTCCAGTTCATCACCCTGGCAGGTATCCACA -GCATGTGGTTCAACATGTTTGACCTGGCAAACGCCTATGCCCAGGGCGAGGGTATGAAGCACTACGTTGAGAAAG -TGCAGCAGCCGGAATTTGCCGCCGCGAAAGATGGCTATACCTTCGTATCTCACCAGCAGGAAGTGGGTACAGGTT -ACTTCGATAAAGTGACGACTATTATTCAGGGCGGCACGTCTTCAGTCACCGCGCTGACCGGCTCCACTGAAGAAT -CGCAGTTCTAAGCAACAACAACCGTTGCTGACTGTAGGCCGGATAAGGCGTTCACGCCGCATCCGGCAATCGGTG -CACGATGCCTGATGCGACGCTTGCGCGTCTTATCATGCCTACAGCCGTTGCCGAACGTAGGCTGGATAAGGCGTT -TACGCCGCATCCGGCAATTCTCTGCTCCTGATGAGGGCGCTAAATGCCGCGTGGCCTGGAATTATTGATTGCTCA -AACCATTTTGCAAGGCTTCGATGCTCAGTATGGTCGATTCCTCGAAGTGACCTCCGGTGCGCAGCAGCGTTTCGA -ACAGGCCGACTGGCATGCTGTCCAGCAGGCGATGAAAAACCGTATCCATCTTTACGATCATCACGTTGGTCTGGT -CGTGGAGCAACTGCGCTGCATTACTAACGGCCAAAGTACGGACGCGGCATTTTTACTACGTGTTAAAGAGCATTA -CACCCGGCTGTTGCCGGATTACCCGCGCTTCGAGATTGCGGAGAGCTTTTTTAACTCCGTGTACTGTCGGTTATT -TGACCACCGCTCGCTTACTCCCGAGCGGCTTTTTATCTTTAGCTCTCAGCCAGAGCGCCGCTTTCGTACCATTCC -CCGCCCGCTGGCGAAAGACTTTCACCCCGATCACGGCTGGGAATCTCTACTGATGCGCGTTATCAGCGACCTACC -GCTGCGCCTGCGCTGGCAGAATAAAAGCCGTGACATCCATTACATTATTCGCCATCTGACGGAAACGCTGGGGAC -AGACAACCTCGCGGAAAGTCATTTACAGGTGGCGAACGAACTGTTTTACCGCAATAAAGCCGCCTGGCTGGTAGG -CAAACTGATCACACCTTCCGGCACATTGCCATTTTTGCTGCCGATCCACCAGACGGACGACGGCGAGTTATTTAT -TGATACCTGCCTGACGACGACCGCCGAAGCGAGCATTGTTTTTGGCTTTGCGCGTTCTTATTTTATGGTTTATGC -GCCGCTGCCCGCAGCGCTGGTCGAGTGGCTACGGGAAATTCTGCCAGGTAAAACCACCGCTGAATTGTATATGGC -TATCGGCTGCCAGAAGCACGCCAAAACCGAAAGCTACCGCGAATATCTCGTTTATCTACAGGGCTGTAATGAGCA -GTTCATTGAAGCGCCGGGTATTCGTGGAATGGTGATGTTGGTGTTTACGCTGCCGGGCTTTGATCGGGTATTCAA -AGTCATCAAAGACAGGTTCGCGCCGCAGAAAGAGATGTCTGCCGCTCACGTTCGTGCCTGCTATCAACTGGTGAA -AGAGCACGATCGCGTGGGCCGAATGGCGGACACCCAGGAGTTTGAAAACTTTGTGCTGGAGAAGCGGCATATTTC -CCCGGCATTAATGGAATTACTGCTTCAGGAAGCAGCGGAAAAAATCACCGATCTCGGCGAACAAATTGTGATTCG -CCATCTTTATATTGAGCGGCGGATGGTGCCGCTCAATATCTGGCTGGAACAAGTGGAAGGTCAGCAGTTGCGCGA -CGCCATTGAAGAATACGGTAACGCTATTCGCCAGCTTGCCGCTGCTAACATTTTCCCTGGCGACATGCTGTTTAA -AAACTTCGGTGTCACCCGTCACGGGCGTGTGGTTTTTTATGATTACGATGAAATTTGCTACATGACGGAAGTGAA -TTTCCGCGACATCCCGCCGCCGCGCTATCCGGAAGACGAACTTGCCAGCGAACCGTGGTACAGCGTCTCGCCGGG -CGATGTTTTCCCGGAAGAGTTTCGCCACTGGCTATGCGCCGACCCGCGTATTGGTCCGCTGTTTGAAGAGATGCA -CGCCGACCTGTTCCGCGCTGATTACTGGCGCGCACTACAAAACCGCATACGTGAAGGGCATGTGGAAGATGTTTA -TGCGTATCGGCGCAGGCAAAGATTTAGCGTACGGTATGGGGAGATGCTTTTTTGAGTAAAGCTTCCATATAATTT -TTCTCCGCAATGTATCGAGGGTTATCCGTAAAGCCAAAGCTTTCAGCCATCTTATTTAATGTATTAAGGATTAAT -TCAGCAATAACCCGGTGACCAAATTCAAAAGCCAACTCAAAGGCAGAGTATTTTTGTGGGGCTTTGTGTTGCCAA -AAATCCATAATATCTTCAGCGGTAAATCCAAACAGGCGTGCATGGTCAGATAAAGCAAGATAAACCGTCTCTACA -ACATTTTGTTGTTTATGCTGTATCGCTGAAAACAAACCGGGATATTCATTAGAATTATTTGCCAGGAGGAGGGGC -TTCATATTTTTTTTATCGAATTTAAACGTATTAAACAGAGTGGGTAATGCGTTAAAAATAGTATTAATAACGTTC -ATGTGTCCGCGCTGCATGGCCATAAACAAACCCGTGTCGCGCGCAAGACTTTTAGCGGTCAGAAGATCTACAATA -TCGGAAGCTGAAATGTTAATTTCCTGGGCTAGGCTGGGCAATGCTTCAAGAATAACTTTCACGATATCGCTATGT -CCATTTTGCATCGCCAGATATAGTCCTGGGCAACCATAAAAATCCTTTGCCTTCAGGAGATCGAGTACCTGTTCT -TTAGTCAAATGACATGTGCGAATTAACAAAGGTAACGCGTTCAAAACAATTTTCAGCATGTCGGCATCACCATTC -GCCATAACATGGTATAAAACATGGCTGGACGTTCTATTTTTGGCACTCAGGAATTTATACACTTGTTCGTTATCT -AAATGATGTGTTGCGGCCAGTTTAGGTAAGGCGTTCAGAATCGAGGTTACAACATTTTTATCCTTACGTGATATC -GCTAAAAATAATCCAGAAAAACCATTTTTATCTTTTGCCTCCAGAATATGCATGAGATTTTTTTTCGAGAGTAAT -CCTTCATATCCTGTTTCTGACAATGAATTGAAAATAGTCTCAACGATATCCGCATTACCATAATTTATAGCCAAA -TATAAACCTGGCAGGTTAATACTATTATAGGCAGTCAACATTTCTGTTCTATGTAGTTCTGGCATTTTCTGGAGT -TGAATCATCAGTTGCGTAAGTTGGTGATTCTGACCAATTGCCATTAGCAAATTCATCGTTGCAGGTGATAATGGA -GGGGTTATTTCATCCACAGATCCTTTTAACATCAATAGCTGTTCTTTCGGAAGTGCTGGAATTATTGCAACAGAT -TGATTAATAACATGATCATTTGACCATTTCAGGAGGCTATAATCTACATTCATAAAATCCATCAGAGAATAGTGT -TTAATATTCTCTTTGCTTTCGCTCATAATTCTTATTTTATCGTTAGTTACATTAGGATCATAAACCGAAACCACG -TAATGGGTACATCCTTCAGTTGTGTTCTTTATTCTTAGCCGGACCGTCAAAGCATGGTTATCCACCAGTAATATG -GCTGCCATAACACTGATGCCATTTGATTCCATCTTGTCAAAATATGCTTTCATAACTAGCCCGAAATCACCGCAG -GCAGCAACGCAACGCCCCTCAGGACGGCTGGAAACCAACGCCAAAGTCTGGTTTTTGCATTTTTTGTTGAAGTGC -GTGAGAAATTTTTCAGCTGAAGAGTAATCATCTTGATGGGGTTTGTAATCAACATTCTGATAAATATCATTAATA -TATTGTGCAGCAATGTGTCGGCATACTATACGGTTTTGGGGTCGCCCCGGAAAATAACATTGACCATTAAGTTTA -ATTCTTGGGAATTCTTTTTCTTTTCTATCTGATTTTAGGTTTAATTCTTGTTTATCAAGAGTGTCTGAGCGTTGA -GGTAAAATTTCCATTAGGTATTTTTCAAATATTGGGGCAATGGTTTGAGTAAGTGTCGTGTTTTCGTTTTTATTA -ATTATCGTAATTTCTTTCTTATCAGCTTGTAAGACGGACGTGGAAAATTTAATGACAAAATCCTTGTTGCTAAAG -ATATGACGACCATTTTGTCTACAGTTCTCTGAGAAGCTTTTTAATAGAGGCGTCGCCAGCTCCTTGCCAGAAAAT -TTATCCTCGAGTTCTTTATAAAACAATTCACTCAGGGTTTGGTGTTCATTTGTCTGGGCTGTATTATTAATATTT -GCAGAGAAAGAACTACGAGGAATACGAGTAATCATTTAAATATCTCATTGTTTATTGATGTCTTGAATTTTAACT -ATCAGAACAGTGAAAAAATTTAATATGATTACAACTAAAGAAATATCATAAATCGCTCAATCTCATAATGCAGCC -GTAAAAGTTTCGGTGGAATGAGATCTTGCGATTTTGTTAATAATTAAGTGGTTTGATGTTTAAAAATAATGCTGA -GTTAATAAAAGTGTGTGAAGTGTATGACATTAAGTTATTTTGGCGTCAATGCGATTAACAGACACCCTTATTCTA -TTGCCACTCAGGTATGATGGGCAGAATATTGCCTCTGCCCGCCAGAAAAAGTCAGCGCATTCCACCGTACGCCAG -CGTCACTTCCTTCGCCGCTTTAATCACCATCGCGCCAAACTCGGTCACGCGGTCATCGGTAATACGTGAAATCGG -TCCGGAAATAGAAATTGCGGCAAACGGTTCACGGTGCTCATCGAAAATACACGCTGCAAGGCAACGTAGCCCCAG -TGCATGTTCCTCATCGTCAAATGAATAACCCCGTTTGCGCGTTTGGGCGAGATCTTCTTTTAAATGCACAGGAGA -CACCAGCGTTGCGTGGGTATAGGCATGTAACCCTTTGCGGTGCAGCAGCTTCGTCACCTGTTCTTCGCTCAGTTG -GGCTAAAAAGGCTTTACCCGCACCGGAAGCGTGCATCGGCAATTTACCGCCGATAGGCGCGGACATTCGCATCAG -ATGCGTACACTGTACCTGGTCGATAATAATCGCTTCGTGATCGCTTTGATCAAGCACCGCCATATTGACCGTTTC -GCCAGACTCTTCCATTAGATTGCGCAGGATAGGGTGAACAATCGCTAACAAATTACGGCTCTGGAGAAAGCTGCT -GCCGACCATAAAGGCATGTGCGCCGATTGCCCAATGTCCCAGTTCGCCAACCTGACGCACGAAACCCTGCTGTTG -CATCGTGGTTAGCAGGCGGTGGGTCGTGGAATTGGGTAACCCGGCTTGTTGCGCCAGTTCCGTGAGTGCCACACT -GCCATTGGATTCGGCAATCCACTCCAGTAATTTCAGGCCACGCGTTAAAGACTGAACCTGTCCAGTCGCTGGTGC -GGTGGCAACGGCGGGTTTTCTGCCGCGTTTCGCGGGAATGGGTGCGACCATGACAGTCTCTTTTTTCTGTATCGT -GGAAATCATTTTCATTTTTATTGTTAGCTAATGCAATAGTTACTGAACTGATCCGATGAGTTAATGTTGAACAAA -TCTCATGTTGCGTGGTGGTCGCTTTTACCACAGATGCGTTTATGCCAGTATGGTTTGTTGAATTTTTATTAAATC -TGGGTTGAGCGTGTCGGGAGCAAGTGTGAGCAGCAAAGTGGAACAACTGCGTGCGCAGTTAAATGAACGTATTCT -GGTGCTGGACGGCGGTATGGGCACCATGATCCAGAGTTATCGACTGAACGAAGCCGATTTTCGTGGTGAACGCTT -TGCCGACTGGCCATGCGACCTCAAAGGCAACAACGACCTGCTGGTACTCAGTAAACCGGAAGTGATCGCCGCTAT -CCACAACGCCTACTTTGAAGCGGGCGCGGATATCATCGAAACCAACACCTTCAACTCCACGACCATTGCGATGGC -GGATTACCAGATGGAATCCCTGTCGGCGGAAATCAACTTTGCGGCGGCGAAACTGGCGCGAGCTTGTGCTGACGA -GTGGACCGCGCGCACGCCAGAGAAACCGCGCTACGTTGCCGGTGTTCTCGGCCCGACCAACCGCACGGCGTCTAT -TTCTCCGGACGTCAACGATCCGGCATTTCGTAATATCACTTTTGACGGGCTGGTGGCGGCTTATCGAGAGTCCAC -CAAAGCGCTGGTGGAAGGTGGCGCGGATCTGATCCTGATTGAAACCGTTTTCGACACCCTTAACGCCAAAGCGGC -GGTATTTGCGGTGAAAACGGAGTTTGAAGCGCTGGGCGTTGAGCTGCCGATTATGATCTCCGGCACCATCACCGA -CGCCTCCGGGCGCACGCTCTCCGGGCAGACCACCGAAGCATTTTACAACTCATTGCGCCACGCCGAAGCTCTGAC -CTTTGGCCTGAACTGTGCGCTGGGGCCCGATGAACTGCGCCAGTACGTGCAGGAGCTGTCACGGATTGCGGAATG -CTACGTCACCGCGCACCCGAACGCCGGGCTACCCAACGCCTTTGGTGAGTACGATCTCGACGCCGACACGATGGC -AAAACAGATACGTGAATGGGCGCAAGCGGGTTTTCTCAATATCGTCGGCGGCTGCTGTGGCACCACGCCACAACA -TATTGCAGCGATGAGTCGTGCAGTAGAAGGATTAGCGCCGCGCAAACTGCCGGAAATTCCCGTAGCCTGCCGTTT -GTCCGGCCTGGAGCCGCTGAACATTGGCGAAGATAGCCTGTTTGTGAACGTGGGTGAACGCACCAACGTCACCGG -TTCCGCTAAGTTCAAGCGCCTGATCAAAGAAGAGAAATACAGCGAGGCGCTGGATGTCGCGCGTCAACAGGTGGA -AAACGGCGCGCAGATTATCGATATCAACATGGATGAAGGGATGCTCGATGCCGAAGCGGCGATGGTGCGTTTTCT -CAATCTGATTGCCGGTGAACCGGATATCGCTCGCGTGCCGATTATGATCGACTCCTCAAAATGGGACGTCATTGA -AAAAGGTCTGAAGTGTATCCAGGGCAAAGGCATTGTTAACTCTATCTCGATGAAAGAGGGCGTCGATGCCTTTAT -CCATCACGCGAAATTGTTGCGTCGCTACGGTGCGGCAGTGGTGGTAATGGCCTTTGACGAACAGGGACAGGCCGA -TACTCGCGCACGGAAAATCGAGATTTGCCGTCGGGCGTACAAAATCCTCACCGAAGAGGTTGGCTTCCCGCCAGA -AGATATCATCTTCGACCCAAACATCTTCGCGGTCGCAACTGGCATTGAAGAGCACAACAACTACGCGCAGGACTT -TATCGGCGCGTGTGAAGACATCAAACGCGAACTGCCGCACGCGCTGATTTCCGGCGGCGTATCTAACGTTTCTTT -CTCGTTCCGTGGCAACGATCCGGTGCGCGAAGCCATTCACGCAGTGTTCCTCTACTACGCTATTCGCAATGGCAT -GGATATGGGGATCGTCAACGCCGGGCAACTGGCGATTTACGACGACCTACCCGCTGAACTGCGCGACGCGGTGGA -AGATGTGATTCTTAATCGTCGCGACGATGGCACCGAGCGTTTACTGGAGCTTGCCGAGAAATATCGCGGCAGCAA -AACCGACGACACCGCCAACGCCCAGCAGGCGGAGTGGCGCTCGTGGGAAGTGAATAAACGTCTGGAATACTCGCT -GGTCAAAGGCATTACCGAGTTTATCGAGCAGGATACCGAAGAAGCCCGCCAGCAGGCTACGCGCCCGATTGAAGT -GATTGAAGGCCCGTTGATGGACGGCATGAATGTGGTCGGCGACCTGTTTGGCGAAGGGAAAATGTTCCTGCCACA -GGTGGTCAAATCGGCGCGCGTCATGAAACAGGCGGTGGCCTACCTCGAACCGTTTATTGAAGCCAGCAAAGAGCA -GGGCAAAACCAACGGCAAGATGGTGATCGCCACCGTGAAGGGCGACGTCCACGACATCGGTAAAAATATCGTTGG -TGTGGTGCTGCAATGTAACAACTACGAAATTGTCGATCTCGGCGTTATGGTGCCTGCGGAAAAAATTCTCCGTAC -CGCTAAAGAAGTGAATGCTGATCTGATTGGCCTTTCGGGGCTTATCACGCCGTCGCTGGACGAGATGGTTAACGT -GGCGAAAGAGATGGAGCGTCAGGGCTTCACTATTCCGTTACTGATTGGCGGCGCGACGACCTCAAAAGCGCACAC -GGCGGTGAAAATCGAGCAGAACTACAGCGGCCCGACGGTGTATGTGCAGAATGCCTCGCGTACCGTTGGTGTGGT -GGCGGCGCTGCTTTCCGATACCCAGCGTGATGATTTTGTCGCTCGTACCCGCAAGGAGTACGAAACCGTACGTAT -TCAGCACGGGCGCAAGAAACCGCGCACACCACCGGTCACGCTGGAAGCGGCGCGCGATAACGATTTCGCTTTTGA -CTGGCAGGCTTACACGCCGCCGGTGGCGCACCGTCTCGGCGTGCAGGAAGTCGAAGCCAGCATCGAAACGCTGCG -TAATTACATCGACTGGACACCGTTCTTTATGACCTGGTCGCTGGCCGGGAAGTATCCGCGCATTCTGGAAGATGA -AGTGGTGGGCGTTGAGGCGCAGCGGCTGTTTAAAGACGCCAACGACATGCTGGATAAATTAAGCGCCGAGAAAAC -GCTGAATCCGCGTGGCGTGGTGGGCCTGTTCCCGGCAAACCGTGTGGGCGATGACATTGAAATCTACCGTGACGA -AACGCGTACCCATGTGATCAACGTCAGCCACCATCTGCGTCAACAGACCGAAAAAACAGGCTTCGCTAACTACTG -TCTCGCTGACTTCGTTGCGCCGAAGCTTTCTGGTAAAGCAGATTACATCGGCGCATTTGCCGTGACTGGCGGGCT -GGAAGAGGACGCACTGGCTGATGCCTTTGAAGCGCAGCACGATGATTACAACAAAATCATGGTGAAAGCGCTTGC -CGACCGTTTAGCCGAAGCCTTTGCGGAGTATCTCCATGAGCGTGTGCGTAAAGTCTACTGGGGCTATGCGCCGAA -CGAGAACCTCAGCAACGAAGAGCTGATCCGCGAAAACTACCAGGGCATCCGTCCGGCACCGGGCTATCCGGCCTG -CCCGGAACATACGGAAAAAGCCACCATCTGGGAGCTGCTGGAAGTGGAAAAACACACTGGCATGAAACTCACAGA -ATCTTTCGCCATGTGGCCCGGTGCATCGGTTTCGGGTTGGTACTTCAGCCACCCGGACAGCAAGTACTACGCTGT -AGCACAAATTCAGCGCGATCAGGTTGAAGATTATGCCCGCCGTAAAGGTATGAGCGTTACCGAAGTTGAGCGCTG -GCTGGCACCGAATCTGGGGTATGACGCGGACTGATTCACAAATCTGTCACTTTTCCTTACAACAAACAGGGCGCT -CAATGAGTGCCCTGTCTCTTTATTAATATGAAACACTTATACTGGAAACAGGCTGGAATAATCTTAGCCGGAAAA -ACGAATGTCAAAAGGCACAGTAAAGATGCCAGTCAGCGTGTTTCCGGTCCTTTGGTCATTCAATTGCTTCAGGAA -CATATAACGATAAGGAGAACCTGAACTCGTGTTAACGCTGCTTCACCTGCTTTCTGCCGTCGCCCTGCTGGTCTG -GGGGACTCATATTGTTCGAACCGGCGTAATGCGCGTCTTCGGCGCGCGTTTGCGTACTGTCCTTAGCCGGAGCGT -CGAAAAAAAGCCGCTCGCCTTTTGCGCGGGGATCGGCGTTACCGCACTGGTACAGAGCAGTAATGCCACCACCAT -GCTGGTGACCTCGTTTGTCGCTCAGGATCTGGTAGCCCTCGCACCGGCTCTGGTCATTGTGCTGGGTGCAGATGT -CGGGACGGCGCTAATGGCGCGTATTCTCACCTTCGACTTATCCTGGCTGTCACCGTTACTTATTTTTATCGGCGT -GATTTTTTTCCTCGGACGCAAACAGTCACGCGCCGGGCAACTGGGCCGCGTCGGTATTGGTCTTGGGCTGATTTT -GCTAGCGCTGGAGTTGATTGTGCAGGCCGTAACGCCGATCACCCAGGCAAACGGCGTTCAGGTGATCTTTGCCTC -GCTGACCGGCGATATTCTGCTGGATGCGCTGATTGGCGCGATGTTCGCCATTATCAGCTACTCCAGCCTTGCTGC -TGTACTGCTGACCGCGACTCTGACCGCCGCAGGCATTATCTCCTTCCCCGTGGCGCTCTGTCTGGTGATTGGTGC -TAACCTCGGTTCCGGTCTGCTGGCAATGCTCAACAACAGTGCCGCCAATGCCGCAGCCCGCCGTGTCGCGCTGGG -TAGTCTGCTGTTTAAGCTGGTGGGTAGCCTGATTATCCTGCCGTTTGTCCATTTGCTGGCAGAGACAATGGGGAA -GTTGTCATTGCCAAAAGCGGAACTGGTGATCTATTTCCACGTCTTCTACAACCTTGTACGTTGCCTGGTCATGCT -GCCATTTGTTGACCCGATGGCACGGTTTTGCAAAACGATTATTCGCGATGAACCGGAACTGGATACCCAGCTACG -GCCTAAACATCTGGATGTCAGCGCGCTGGATACGCCCACGCTTGCTCTGGCGAACGCCGCGCGCGAAACCCTGCG -CATTGGCGACGCCATGGAACAGATGATGGAAGGGTTGAATAAAGTGATGCACGGTGAGCCACGGCAGGAGAAAGA -GCTGCGTAAGCTGGCAGATGATATCAACGTTCTCTACACCGCCATTAAGCTGTATCTGGCGCGGATGCCAAAAGA -AGAGCTGGCGGAGGAAGAGTCGCGCCGCTGGGCAGAGATCATCGAAATGTCGCTCAACCTTGAACAGGCCTCCGA -TATCGTCGAGCGCATGGGCAGCGAAATTGCTGACAAATCACTGGCAGCACGGCGGGCATTTTCGCTTGATGGGTT -GAAGGAACTGGATGCGCTCTATGAGCAATTGCTCAGTAATTTAAAGCTGGCAATGTCGGTGTTCTTCTCTGGCGA -TGTCACCAGCGCTCGTCGTTTGCGTCGCAGCAAACATCGTTTTCGCATTCTTAATCGCCGCTATTCCCACGCCCA -CGTCGATCGCCTGCATCAGCAAAACGTGCAGAGCATTGAAACCAGTTCGCTACATTTAGGCTTACTGGGAGATAT -GCAGCGCCTGAACTCGCTGTTTTGTTCGGTGGCTTACAGTGTGCTGGAACAGCCGGATGAAGATGAAGGACGGGA -CGAGTATTAATATTGTGAATCCTGTAGGCCTGATAAGACGCGTCAAGCGTCGCATCAGGCACTATGAACAAGATG -CCGGATCATGCATCCGGCAATTCACTTAAAAACGGTGACCAGCTTCCAGCGGAACCGCTTCTTCACCAGCCTTAA -ACACATAAGTGGTGTTCGGGCCACCCAGCGTAGCGTGACCTTTACTCACTGTGATCCAGTTACCTTCCGGTAGAC -CAATAATCGTCAGTTCTGGCGCGACGACCAGCAGTTCGCGAATACGCTGCTCACGGGTTTCACCTTTATGGCCTT -CCGGCAGCGCGTTGGTGAAGTGCGGGTTGATTTGCAGCGGGAACAGATTTAGCGCATCGAAACCTTGCGGATCGA -CAATCGGCATATCGTTGGTGGTACGAATAGTTGGGCAAGCAAGGTTAGCGCCTGCGCTCCAGCCAATATACAGAG -CGCCACGTTTAACCACGTCAGTAATTGGTGCCAGCAGCCCGCGCTCGCGGCACTGTTTCAGCAACTGGAAAGTAT -TCCCGCCGCCGACAATCACGATCTCAGCATTTTCAATCGCGGCAACGGGATCGACAACGCTATGAATACCGGTGA -CAGAAACACCCAGCGGAGCGAGAACCGCAGCCGTTTTCGCTGTGTAATCATCCCAGGTCTGCGTTACGCCAGCGA -AAGGGATAAACACCGCTGAGCGGCGACCCTGCAACTGTTCAGCAATTAGCGGCAGTGCATGTTCCAGCCAGGCTT -TACCCGGCAGCGTCGAGTTACTCAATAAAAGCAGTTCCATTACTTCTCCGGTTAGTAAGAAATCACGGGAGGCAT -GCTACCACTGCGAATTTAACCACTTACTGACATGGCTCACGATGTCGCACATTGCTTCTGGAAAGTGATTTGAGC -AGGTAACGAATTCAAGCCAATGGAAATAACAAATAGTTCGCTCATGACTATTTTTTATCAACCCAAAGGTACGGT -ATATTCCGTTTTTTACAGGAGAATTTATGCTGCCCGACTCATCAGTCCGTTTAAATAAATACATCAGCGAAAGCG -GAATTTGCTCACGCCGCGAAGCGGATCGCTATATCGAGCAAGGCAATGTGTTCCTTAATGGCAAGCGAGCCACCA -TTGGCGATCAGGTGAAACCCGGCGACGTTGTGAAAGTAAACGGTCAGTTGATTGAACCTCGGGAAGCCGAAGATT -TGGTACTTATCGCCCTGAACAAGCCCGTTGGTATTGTAAGCACCACCGAAGATGGCGAGCGCGATAACATTGTCG -ATTTCGTTAACCACAGCAAACGCGTGTTCCCGATTGGCCGCCTGGATAAAGACTCCCAGGGGCTGATTTTCCTCA -CCAATCACGGCGATCTGGTGAATAAGATCCTGCGTGCTGGCAATGATCATGAGAAAGAGTATCTGGTGACGGTCG -ATAAACCGATTACCGAGGAGTTTATTCGCGGCATGAGTGCGGGGGTGCCAATCCTCGGGACAGTGACCAAAAAGT -GCAAAGTTAAAAAAGAAGCGCCGTTTGTCTTCCGCATTACCCTGGTGCAGGGGCTGAACCGTCAGATCCGGCGCA -TGTGCGAGCATTTCGGCTATGAAGTGAAAAAGCTGGAACGCACGCGCATCATGAACGTTAGCTTAAGCGGCATTC -CGCTGGGGGAATGGCGCGATTTAACCGACGATGAGTTAATCGACCTCTTTAAGCTCATTGAAAATTCCTCTTCCG -AGGTAAAACCTAAAGCGAAGGCCAAACCGAAAACAGCGGGCATCAAACGTCCAGTCGTTAAGATGGAAAAAACGG -CGGAAAAAGGCGGTCGCCCGGCGTCCAACGGTAAGCGTTTTACCTCGCCGGGGCGTAAAAAGAAGGGGCGCTGAT -TAACGCCTCAGACTGATGAAAACGGCCCAAAAGTGCCCGGACAGTCCCCTCGCCCCTTCGGGAAAAGGGTTAGGG -TGAGGGGAAAATTGTGTTCACACTGACGAGTGAAAATCTCAGGCGTTGATTGTGGATTAGCGCCTGCCGCGCGTC -GACGTATTTGCTGACCAGCTAAATGACGCTTCAGGATCCGGTTTATAAGCCTGCTTTTTCTTCAACTGGCGGGCT -TTTTTCGCTTCAGCCTCACGCTCAACCATTAATTTATCGATGTAATCTTTCTTAATGCTGTTGGTTTCGGAGTTG -GTCAATACGCGACCATGCGCAATCCGCGCCCGATCCAGCAGTGTTTTAAGTTCACGCTGCTCGCGTTCAGTCATC -TCTTTTTGGGTAATACGGGGGAGTGCCATGATGGTGCCCTCAGTGAGCCAGAGAGTTCAGTGTACGGGAATTCGT -TTGCGAGCAGAACTGATAATATTCATTTTGCCTTCTCTTAACTATTTATCTCTTTCGATAATTAATTAGAGATGC -AGATAAAAAAATTAAAGGCAATTATTCTCCGATAAAGACGCTGGTTAACAGAGTACAGGCTCGTTTATTGATGAG -CATAGTGACAAGAAAATCAATACGGCCCGAAATATAGCTTCCAGGCCATACAGTATTTACTCAAACAAATTACTA -TGCAGTTTTTGCACCACCTGCTCGGCATCTTCGCCGGGCACCAGGAAGCACAGGTTATGGCTGGATGCGCCATAA -CAAATCATGCGAATGTTGAACGGTTCCAGTACGCCGAATACCTCTTTGCCAACGCCGCAGGCTTTTGACAGGTCA -TTGCCAATCAACGCGACCAGCGCCAGACCTTCTTCCACCTCCACCCGACACAGTGCGGAAAGCTCCATCAGCAGA -GATTGCGTCAGCAACGTATCGCCAGTGGAGGTTGAACCGGTGGTATCAAGGGTTAATGCCACGCTCACTTCTGAC -GTGGTGATTAAGTCTACCGAAATATTATGCCGCGCGAGGATGCCGAAAACTTCCGCGAGGAAACCGCGAGAATGC -AGCATATTCAGGCTGTGCAAAGTGAGCAGAGTCTGATTGCGACGAAGCGCCAGAGCGCGGAACAGCGGCGGATTT -TCAGTTTTATTGCACACCAGCGTACCACCTGCGCGTGGGTCTTTGCTGGAGCCGACAAAGACCGGGATATCGCTG -CGTACTGCGGGTAGCAACGTTGCCGGATGCAGTACTTTTGCACCAAAAGTTGCCATCTCTGCCGCTTCGGCAAAC -GCGATTTCATCAATGCGTTTTGCTGCGGAAACTACGCGTGGATCGGTGGTGTAGATGCCCGGGACGTCGGTCCAG -ATATCAACACGAGATGCGTGTAAAGCCTCCGCCAGCAAGGCTGCCGTATAATCGCTGCCTCCACGGCCAAGCGTC -GTTGTACGACCTTTATTTTCGCTACCGATAAATCCCTGGGTGATCACTAAGCCTTCATTGAGACGTGGGAGCAGC -TGCAGCGCGGCCAGTTCCGCCAGCGCGGCTATATCTGGCTCTGCACGACCAAATCGGTCGTTGGTACGCATCACT -TTACGTACATCAAACCACTGTGCCTGAACATCGCGTTCGCGCAGGATCTCAACAAACAGCAGGGTCGACATCAGC -TCGCCGTGGCTGACCAGCTCATCTGTCAGCGCCGGAGACGTTGCCAGCGCCGCCGCTTCTGCCAGAACAGTAATG -TTCTCCAGCAGACGTTCAATCTCTTCACGGATAACGTTCGGGTAACGCAGACGTTCCAGAATGGCAAACTGGATG -TTGCGGATAGCGTCGAGTTTTTCGAATCGCTCGCCAGGTTCCAGTCCTTCAGCTAAAGCGACCAGCAGATTAGTG -ATACCAGCAGAAGCCGAGAGGACAACTAAACGCACGTTGGCATCAGAAAGCACAATATCAGCGCTGCGGTTCATG -GCGTCAAAATCAGCTACGCTGGTACCGCCAAATTTGGAGACAACAATTTCAGACATAACTACCTCGTGTCAGGGG -ATCCATTTTCAGCCTTGGCACAAGGGAAGAGCGGAAGACGGGTGGGCGCAGAGCGATACTTCGCTACTATTTTCA -CCCAGAAGTGCTCCACCACTTGCGAAACGCCCGACTGCGAACGCTTCTGGTGACAACCCAGGGGATTCAGCCCCT -GTAGCCGATGATGAACGTGGCCAGCCGTTCAATCACCTCGGCGATGCACCCCCTCAGGTGTTATCACAGGACTGG -CTCCTCCAACACCGTTACTTGGGCAACGCGCCTCTTCTGGCCTGCGCTAGCGCAGGTAGTACATTTATAAATAAA -GGGTGAGCGGGGCGGTTGTCAACGATGGGGTCATGCGGATTTTTCATCCACTCCTGGCGGTCAGTAGTTCAGCTA -ATAAATGCTTCACTGCGCTAAGGGTTTACACTCAACATTACGCTAACGGCACTAAAACCATCACATTTTTCTGTG -ACTGGCGCTACAATCTTCCAAAGTCACAATTCTCAAAATCAGAAGAGTATTGCTAATGAAAAACATCAATCCAAC -GCAGACCGCTGCCTGGCAGGCACTACAGAAACACTTCGATGAAATGAAAGACGTTACGATCGCCGATCTTTTTGC -TAAAGACGGCGATCGTTTTTCTAAGTTCTCCGCAACCTTCGACGATCAGATGCTGGTGGATTACTCCAAAAACCG -CATCACTGAAGAGACGCTGGCGAAATTACAGGATCTGGCGAAAGAGTGCGATCTGGCGGGCGCGATTAAGTCGAT -GTTCTCTGGCGAGAAGATCAACCGCACTGAAAACCGCGCCGTGCTGCACGTAGCGCTGCGTAACCGTAGCAATAC -CCCGATTTTGGTTGATGGCAAAGACGTAATGCCGGAAGTCAACGCGGTGCTGGAGAAGATGAAAACCTTCTCAGA -AGCGATTATTTCCGGTGAGTGGAAAGGTTATACCGGCAAAGCAATCACTGACGTAGTGAACATCGGGATCGGCGG -TTCTGACCTCGGCCCATACATGGTGACCGAAGCTCTGCGTCCGTACAAAAACCACCTGAACATGCACTTTGTTTC -TAACGTCGATGGGACTCACATCGCGGAAGTGCTGAAAAAAGTAAACCCGGAAACCACGCTGTTCTTGGTAGCATC -TAAAACCTTCACCACTCAGGAAACTATGACCAACGCCCATAGCGCGCGTGACTGGTTCCTGAAAGCGGCAGGTGA -TGAAAAACACGTTGCAAAACACTTTGCGGCGCTTTCCACCAATGCCAAAGCCGTTGGCGAGTTTGGTATTGATAC -TGCCAACATGTTCGAGTTCTGGGACTGGGTTGGCGGCCGTTACTCTTTGTGGTCAGCGATTGGCCTGTCGATTGT -TCTCTCCATCGGCTTTGATAACTTCGTTGAACTGCTTTCCGGCGCACACGCGATGGACAAGCATTTCTCCACCAC -GCCTGCCGAGAAAAACCTGCCTGTACTGCTGGCGCTGATTGGCATCTGGTACAACAATTTCTTTGGTGCGGAAAC -TGAAGCGATTCTGCCGTATGACCAGTATATGCACCGTTTCGCGGCGTACTTCCAGCAGGGCAATATGGAGTCCAA -CGGTAAGTATGTTGACCGTAACGGTAACGTTGTGGATTACCAGACTGGCCCGATTATCTGGGGTGAACCAGGCAC -TAACGGTCAGCACGCGTTCTACCAGCTGATCCACCAGGGAACCAAAATGGTACCGTGCGATTTCATCGCTCCGGC -TATCACCCATAACCCGCTCTCTGATCATCACCAGAAACTGCTGTCTAACTTCTTCGCCCAGACCGAAGCGCTGGC -GTTTGGTAAATCCCGCGAAGTGGTTGAGCAGGAATATCGTGATCAGGGTAAAGATCCGGCAACGCTTGACTACGT -GGTGCCGTTCAAAGTATTCGAAGGTAACCGCCCGACCAACTCCATCCTGCTGCGTGAAATCACTCCGTTCAGCCT -GGGTGCGTTGATTGCGCTGTATGAGCACAAAATCTTTACTCAGGGCGTGATCCTGAACATCTTCACCTTCGACCA -GTGGGGCGTGGAACTGGGTAAACAGCTGGCGAACCGTATTCTGCCAGAGCTGAAAGATGATAAAGAAATCAGCAG -CCACGATAGCTCGACCAATGGTCTGATTAACCGCTATAAAGCGTGGCGCGGTTAATCATCGTCGATATGTAGGCC -GGATAAGGCGTTCACGCCGCATCCGGCAACCGATGCCTGATGCGACGCGGTCGCGTCTTATCAGGCCTACAGGTC -GATGCCGATATGTACATCGTATTCGGCAATTAATACATAGCACGATTGATTAAATAACCTTAATAACAATGCCGA -CGTTATGTCGGCATTTTTTTATCAGATAAATCCCCTTGTCTGTAATTTAACGGAAATCATACCGTGAGGTTAATC -CTAAAATAGATTTTTAATCGTTGTTTATTTCGGAAAATACGCAGATTAATTGCTTTTGTTTTTATTTTAAGTTTA -TGATTTTTATTGTTATTTAAATATAAGTTGAAACTTATATTTGATATTCATTCCAATTATCCTAAAACGCCATCG -CTAATTCCCCGCGCCGTAATTCGCATGCTTTAGTTGTGTATACTCGATCCCGCCCGAAATGTTTTTGGGTAAATC -TCCATTCATTCAATGAAGGGAAATTGTTATGAAAAAAGTTCTGTATGGCATTTTTGCCATATCTGCGCTTGCGGC -GACTTCTGCGTGGGCTGCACCTGTACAGGTGGGCGAAGCGGCAGGGTCGGCAGCAACGTCGGTTTCGGCGGGGAG -TTCCTCCGCGACCAGCGTCAGCACCGTAAGCTCGGCGGTGGGTGTCGCGCTTGCGGCAACCGGTGGCGGTGATGG -TTCTAATACCGGGACCACCACAACCACGACCACCAGTACCCAGTAATAAAGTATGTATCCCCAAAATAATTCGAG -TCATTGCATCTGTGGCTAGAAGTATGAAGGGATTAACCATAACCACACTCCGGTGTGGTTATTCTGCCCCTCTGG -AGAAGAGTCGTGAAGCGACCTGCACTCATTCTTATCTGCCTGTTATTACAGGCCTGTTCAGCCACGACTAAAGAG -CTGGGCAATTCACTGTGGGACAGTCTGTTCGGCACGCCAGGCGTACAGCTGACGGATGATGATATTCAAAATATG -CCCTACGCCAGCCAGTACATGCAGCTTAATGGCGGGCCGCAGTTATTTGTGGTGCTGGCCTTCGCTGAAGACGGA -CAACAAAAATGGGTCACTCAGGATCAGGCTACTCTCGTTACCCAACATGGCCGTCTGGTGAAGACTCTGCTCGGC -GGCGACAACCTGATTGAAGTGAATAACCTTGCTGCCGACCCGCTGATTAAACCCGCACAAATCGTTGATGGCGCA -AGCTGGACGCGCACGATGGGCTGGACCGAGTACCAGCAGGTACGCTACGCCACCGCACGCTCAGTCTTCAAATGG -GATGGCACCGATACCGTCAAAGTCGGCAGCGATGAAACCCCGGTTCGCGTGCTGGACGAAGAAGTCTCCACCGAC -CAGGCGCGCTGGCATAACCGCTATTGGATCGACAGCGAAGGGCAAATTCGCCAGTCGGAACAGTATCTCGGCGCG -GATTATTTTCCGGTGAAAACCACTCTCATCAAGGCGGCAAAACAATGATTAAACAAACTATTGTCGCGTTGCTTT -TGAGTGTGGGAGCGTCATCGGTCTTCGCGGCAGGAACCGTCAAGGTGTTCAGCAATGGCAGCAGTGAGGCCAAAA -CGCTAACGGGCGCAGAGCATTTAATCGATCTGGTAGGCCAACCGCGGCTGGCAAACAGCTGGTGGCCCGGTGCGG -TGATTAGCGAAGAGCTGGCAACGGCGGCAGCATTGCGTCAGCAGCAGGCGTTGCTGACACGGCTGGCAGAACAGG -GCGCAGATTCCAGCGCCGACGATGCCGCTGCGATTAACGCCTTACGCCAGCAAATTCAGGCGTTGAAAGTGACGG -GCAGGCAAAAAATCAATCTTGATCCCGATATCGTCCGCGTTGCCGAACGCGGTAACCCGCCGTTGCAGGGCAACT -ACACGCTGTGGGTCGGACCACCGCCGTCCACGGTCACGTTGTTCGGGCTTATCAGCCGTCCTGGCAAGCAGCCAT -TCACTCCAGGTCGCGACGTGGCGAGCTATCTCTCTGACCAGAGCCTGCTCAGCGGTGCGGATCGCAGCTACGCGT -GGGTGGTTTACCCGGACGGACGCACGCAAAAAGCGCCGGTGGCTTACTGGAACAAGCGTCACGTAGAGCCGATGC -CCGGCAGCATTATTTATGTTGGCCTCGCGGACTCCGTCTGGAGTGAGACGCCTGATGCCCTTAACGCCGACATTC -TTCAGACTCTGACGCAGCGGATACCTCAATAATGAAAAAAAGACATCTGCTTAGCTTACTGGCGCTGGGCATTAG -CACAGCTTGCTACGGCGAAACATATCCTGCGCCCATTGGTCCGTCGCAGTCGGATTTCGGTGGCGTAGGATTATT -ACAAACGCCCACCGCGCGTATGGCACGGGAAGGGGAGTTGAGTCTGAACTATCGCGATAACGATCAGTACCGTTA -TTACTCAGCTTCAGTGCAACTCTTCCCGTGGCTGGAAACAACGCTGCGCTACACCGACGTGCGCACCCGGCAGTA -CAGCAGCGTCGAAGCGTTCTCTGGCGATCAAACGTATAAAGATAAAGCCTTCGATCTCAAACTGCGTTTGTGGGA -AGAGAGTTACTGGCTGCCGCAAGTGGCGGTTGGTGCGCGGGATATCGGCGGTACGGGGCTGTTTGATGCGGAATA -TCTTGTTGCCAGCAAAGCCTGGGGGCCGTTCGATTTTACGCTCGGCCTGGGCTGGGGGTATTTGGGCACCAGCGG -TAATGTGAAAAATCCGCTCTGTTCAGCCAGTGATAAATATTGCTATCGCGATAACAGCTACAAACAGGCGGGATC -TATCGACGGTAGCCAGATGTTCCACGGTCCTGCCTCACTGTTTGGCGGCGTGGAATACCAGACGCCCTGGCAACC -GCTGCGCCTGAAACTGGAGTATGAAGGCAATAATTATCAGCAGGATTTTGCCGGGAAGCTGGAGCAAAAAAGTAA -GTTTAACGTCGGTGCGATTTATCGCGTTACCGATTGGGCCGACGTTAACCTTAGCTATGAACGTGGCAACACCTT -TATGTTTGGCGTTACGTTGCGCACCAACTTTAACGATCTGCGCCCGTCTTACAACGATAACGCCCGCCCGCAATA -TCAACCGCAGCCGCAGGATGCCATTTTGCAGCATTCGGTGGTGGCGAATCAGTTAACGCTGTTGAAATACAATGC -CGGACTTGCCGATCCACAGATCCAGGCGAAAGGCGATACGCTGTATGTTACCGGCGAGCAGGTGAAATATCGTGA -TTCGCGCGAAGGGATCATCCGTGCGAATCGGATCGTGATGAACGATCTGCCGGATGGGATCAAAACGATCCGCAT -TACGGAAAATCGCCTTAACATGCCGCAGGTGACGACGGAAACCGATGTCGCCAGCCTGAAAAATCATCTCGCCGG -AGAGCCGTTGGGCCACGAAACGACGCTGGCGCAAAAACGCGTCGAGCCAGTGGTTCCGCAGTCCACCGAGCAGGG -CTGGTATATCGACAAATCACGCTTTGATTTCCATATCGATCCGGTGCTGAACCAGTCGGTCGGTGGCCCGGAAAA -CTTTTACATGTATCAGCTGGGCGTGATGGGAACGGCAGATTTGTGGCTGACGGACCATCTGCTGACCACCGGCAG -CCTGTTTGCAAATCTTGCCAACAACTACGACAAGTTTAACTACACTAATCCTCCGCAGGACTCGCACTTACCGCG -CGTGCGTACCCATGTGCGCGAGTATGTGCAGAACGATGTCTATGTGAATAACCTGCAAGCCAACTACTTCCAGCA -TCTGGGCAACGGCTTCTACGGTCAGGTCTACGGTGGTTATCTCGAAACCATGTTTGGCGGTGCGGGGGCAGAAGT -GTTGTATCGCCCGCTGGACAGCAACTGGGCGTTTGGTCTGGATGCCAACTACGTTAAACAGCGCGACTGGCGTAG -TGCAAAAGATATGATGAAATTCACCGACTACAGCGTGAAAACCGGACATCTGACCGCCTACTGGACGCCATCTTT -CGCTCAGGATGTGTTAGTTAAAGCCAGCGTCGGGCAGTATCTGGCAGGGGATAAAGGCGGCACGCTGGAGATCGC -CAAACGCTTTGATAGCGGCGTGGTGGTGGGTGGCTATGCCACGATCACTAATGTTTCGAAAGAGGAGTACGGCGA -AGGGGACTTCACCAAAGGCGTGTATGTCTCGGTACCGTTGGATCTCTTCTCGTCTGGCCCGACACGCAGCCGTGC -GGCGATTGGCTGGACGCCGCTGACGCGTGACGGTGGTCAGCAACTTGGGCGTAAGTTCCAGTTGTATGACATGAC -CAGCGACCGTAGCGTCAATTTCCGCTAAGTCATGGGAAAGGTGCCAGTTTTCGCACTCACTGGCACCTTCATTCT -TAATGGCCTGTCGAGCCATCAGGAACGCAGTTCACTCCCGGTTTGCGATCTGGTGTGTAAAGGCGAAAACATTCT -GTCTTCCTGTCCGTCGATATCGGTTGCAGGTCTGGTTGCCTGAGCGACTGGGCCATCATTGGGCTGGAGACATTG -CTTTGCGGTAGGTCGGCTTTATCAGCAGTACCGAGCGGACCAGCATAAGCAGGAAGAACAGAGACTGATAACATC -AAAGCAGCAAAATAAGGCTTCATTTTTACCACCTTTATCAGGTTACGTTTCATTTGTTCCAGAGGAACATTGTCG -ATTTTTCGCGCATTGCTGGTGGCTGGGAATCACCTGAATGGGTGATTTTTGAATTACCGGCTTTGGTGCGGTTTG -TCTTGCCGGATGCGCCGCCAGGCGCGGCTTATCCGGCCTACGGGTAGGTATATCCGGCTTTGGTGGAGGCGCGCT -CCAAATCCAGGTTGAACAAAACATACACAAAAAATATAGATCTCCGTCACATTTTTGCGTTATACAGGAAGCTCG -CCACTGTGAAGGAGGTACTGCTATGACGTCACTCTCTCGTCCGCGCGTGGAGTTTATCTCCACCATTTTGCAGAC -CGTACTCAATCTTGGCCTGCTGTGCCTCGGCCTGATTTTGGTTGTCTTCCTCGGCAAAGAAACGGTGCATCTGGC -TGATGTGCTGTTCGCGCCAGAACAAACCAGCAAATATGAGCTGGTAGAAGGACTGGTGGTTTACTTTCTCTATTT -CGAATTTATCGCGCTGATTGTGAAGTACTTTCAGTCCGGTTTTCACTTCCCGCTACGTTACTTTGTCTATATTGG -GATCACCGCCATTGTGCGCTTGATCATCGTCGATCATAAATCGCCACTGGATGTGTTGATCTACTCGGCTGCGAT -CCTGTTACTGGTGATCACCCTGTGGCTGTGTAATTCGAAACGGCTGAAGCGGGAGTAAAAAGTCAGCACGCCGAA -ATGGCGCGGCGTGCTGGACAGGAAGATTACAGCGTAGCAGTTTGTTGTGTTTTCTTCGTTTCCGGTTCCCAGAGC -GCTTCCAGCTCCTCAAGGGTTTTACCTTTGGTTTCCGGGACAAATTTCCACATAAACAGTGCTGCCAGAACGCCC -ATACAACCGTAAATCCAGTAGGAGAAACCGTTGTGGAAATGGGCCACCAGCCAGGAGTTTTTGTCCATCATCGGG -AAGGTCCAGGAGACGAAGTAGTTCGCCAGCCACTGGGCCGCCACCGCGATTGCCAGCGCTTTACCACGAATAGCA -TTCGGGAAGATTTCCGACAGCAGTACCCAGCATACCGGACCCCAGGACATGGCAAAGGCGGCAACATAGAACAGC -ATCGACAGTAGCGCCACAATACCCGGTGCCTGAGTGTAAAACGCGGTACCGAGGCTAAACATACCGATTGCCATT -CCGAGTGCGCCGATAATTTGCAGTGGCTTACGACCAAATTTATCCACCGTCATAATTGCCAGAACGGTGAAGGTG -AGGTTGATAACTCCGACAATAATGGTCTGCAACAGCGCGATATCCGTGCTGGCCCCCAGCGTTTTGAACACTTCC -GGCGCGTAGTACAGCACCACATTGATGCCGACAAATTGCTGGAAGATGGAGAGCATTACGCCGATTACAATCACG -CCCACGCCAAACATCAGCAGACGACCACCGGTTTTGCGGCCATGATCCAGGGAGTGTTTAATTTCCTGTACTGCC -TGAGTTGCAAGCGTGTTGCCCATAATTTTGCGCAGGATACCTTCCGCCTGTTCTTGCTTGCCGCGCGACATCAGC -CAGCGAGGACTTTCTGGCACGGTATACAGCAGCATTAAGAACAGCAGTGCAGGGATACATTCCGAGGCAAACATA -TAACGCCAGCCGTCAGTATTCAGCCAGCTGGCATCACCGGAACGGGCAATAAAATAGTTTACGCAGTAAACTAAA -AGTTGCCCGAAAATAATCGCAAACTGGTTAAAAGAGACCAGTTTCCCGCGAATATGAGCTGGAGCCAGTTCCGCA -ATATACATTGGCGAGAGCATTGAGGCTAAACCAACGCCAATACCGCCAATAATGCGATAAATAACAAATTCCGGG -ACATAACCTGCCAGATAAACAGGCACAGTGTTGTCCGGGTTTATAGAGGTAAAACCAAGTTCTGGCCAGGCAGAA -CCTACACCAGAAATAAAAAACAGGACAGCAGCAATCTTAAGTGAATCACGACGACCGAAGCGGTTACTGCAATAA -CCACCGAGGGCACCGCCGATGATGCAACCAATCAGAGCGCTGGCCACGCAAAACCCTAACAGGGAGTTGGCAGCG -GATTCACTTAAGTTTTGTGGAGCAACAAAGACGGTATTGAGTGACTCAACAGTACCGGAAATAACGGCGGTGTCG -TAGCCAAATAATAAACCACCTAATGTAGCGACTAAGGTAATCGAAAATATATAACTGGAATTATACTGGGTATTC -ATTCAGACCTGCCTTAGACCATTCTGATCTTTTATCAGTGCATTGATGTTGGAATTGTCAGGCAGTTAAGGCAAT -TATCATTTTTTACAATGCGTTTACGTAATGTCTTTTCTGTGATCTTAATTGTGATAATTATCCAAAATTGATAAA -AACAATACTATTGCCGTGACTCAGAGCACGAAAGAGAATTATCGTAAGTGGGAAAACAAATAACGTAAAAATAAT -AAGCTCTATGATGGAAATATTAACCGGCGAACGATTCAGATTGCAGACGAAAGAAAAAAAGGCGCTCCGTGGAGC -GCCGAATAACAGTCACAAGTTGGGATAACGTAAGTTGAGGGTGCAGCGGCATAACATTGGCAGAACAACATCTTT -AACCTTTCACACCACCTGCCGTCAGGCCGTTGACCAGCCAGCGTTGAGCCAGCAAGAAGACGATGGTGATCGGTA -ATGCAGACATCACGGCAGCGGCGGCAAAGTCACCCCACAGGTAGTTTTGCGGGTTGAGGTATTGCTGCATCCCCA -CGGCCAGGGTGTAGCTGTTTACGTCACGCAGTAACAGCGACGCGACCGGAACTTCAGTAATGGCAGCGATAAACG -ACAGGATGAATACCACCGCCAGAATCGGTACTGACAGCGGCAACAGGACAAGGCGGAAGGCCTGCCACGGTGTCG -CACCATCCAGCGCAGCAGCTTCTTCCAGCGAACTGTCGATGGTTTCGAAATAGCCTTTGATGGTCCAGACATGCA -GCGCAATCCCACCCAGATACGCGAAAATTACGCCGCCGTGAGTATTCAGGCCAATGAATGGAATGTACTCACCCA -GACGATCAAACAACGCATACAACGCGACCAGTGAAAGTACTGCCGGGAACATCTGGAAAATCAGCATTCCTTTCA -GCAGCGTCGCTTTGCCTGGAAAGCGCATACGGGCGAAAGCGTAGGCGCAGGTGGTGGAGAGCGCCACAATGCCAA -TCGCGGAAATCCCGGCGACCTTTACCGAGTTCCACAGCCACAGCAGTACCGGGAATGGCGGTGGCGTAATGCGAC -CATCAGCCTGTTCAACGCTAAAACCTAACGCCAGTTTCCAGTGATCCCAGGAGATTTGCTCCGGGATCAGGCTGC -CGGTCGCAAAGTTTCCCTGACGCAGCGAGATAGCGACGACCATCAGCAGCGGGAACATAATCGCTGCGATAAAAA -GTAGCAGTAGCAGGTGAGTAATAAATAAACGAGCTTTTTGCGATTTCGGTTGGACCATTGCCATTTTTGTTATCT -CCCTTAATCAAACTTCATTCGCGTGGCTTTCAGGTTCACTATCGCCAGCGCACCCACCAGCAGGAAGATCAGCGT -GGCAATTGCTGCCGCCAGACCGAAGTCCTGACCCCCGCCGCCTTCAAAAGCGATGCGGTAGGTGTAGTTAACAAG -CAGGTCGGTATAACCGGCTGGCGTGGTCGTGCCAAGACGATCCGGGCCGCCGTTGGTTAACAGTTGAATCAGCAC -GAAGTTGTTAAAGTTAAAGGCGAAGCTGGCGATCATCAGCGGCGTCAGCGGTTTAATCAGCAGCGGCAGCGTAAT -CTTAAAGAAGTTCTGGAACGGACCTGCGCCATCCATTGCTGAGGCTTCATACAAATCGTCCGGAATCGCTTTCAG -CAAGCCCATGCAGAGGATCATCATGTACGGATAACCCAGCCAGGTATTGACGATAATTAGCATCGTGCGGGCGGT -GGTCGGATCGCTGAACCAGGCGGGCTTCACGCCAAACAGCGCGCTCAACATCATGTTGATTTCACCGAAGCTCTG -GTTAAACAACCCTTTGAAAATCAAGATTGAAATGAACGATGGCACCGCGTAGGGCAGAATCAGCAGGACGCGATA -GACCGCTTTGCCGCGCAACGCTTCCCACTGCACCAGACACGCCAGAACCATGCCGACCGCCACCGTTAAAAAGAC -AGTGATCAGCGAGAACACCACGGTCCAGACGAAAATGGCGAGGAACGGTTTCTGAATGCCTTCGTCGGTAAAGAC -GCGGGTAAAGTTTTTCCAGCCGGTGGTCACGGTGTAACCGGGGCTTAGCTTTTCATCACCCCAGTTGCCGTCGGC -GGTAATGGACTGGTAAAAGCCAATTTGGTTATTCGGACGATATTTCACGCCGCTCTGATTATTCGTCAACGTGCC -GTCACCGTCGAGTGTGTAGAGCGGCTGCGTGCCAGAAAACTGGCGCAGGGAGCTCATCATCACTTTGTTGCCATC -CGGCAGAATGGCGGTAATGTCACTCAGCGCCTGACGATTCTGGGTAATCACGCGCAGATTCGCGCGTTCGCCTTC -GGGCTGGGCGGTCGTTTCTTTCAGTTGCAGTTTTTGCTCGCCGCCAAATTTAAAAGCGTCGGAGAGGTAATTTTT -GCCGGTTTCGCCGTCGCTGAGCGCCAGTTGCCACTCATCGCCCGCCGGGTAAAGACCAAAGTTATAGGTTTTGCC -TGCTTGCCAGGAGCGATCTAACAACACTTCCTGCGCACGTTCAAAAGTCAGCTGGTTAGTGCTGCTGTAGTTGGT -GAAGGCAATGGCGATGGTGCAGACCAGAGGGAAGAGGACGAATAATCCCATTCCAGCCATTCCCGGGTAAACATA -GCGCCAGGCGTAGGCTTTACGATTGGCGAAAATATACAGCCCCGCTGAACTCAATATCAGCGTGGTAATGGCGAA -CAGGTATTCCCCTTGTGCGTACATTAAAACAACAAGGTAACCCACCAGCAGGCCGAGCAGACCTAGCACTGACCA -TTTCAGCGCGTCGCTTTGCCACCAATGTTTCTTTTTAATGACATCCATGGGGTTCTTCCTCATTCCAGGACGGAT -AAGGCTTTCACGCCTTATCCGACAACAACTGCCTGATGCGACGCTGACGCGTCTTATCAGGCCTACATACGTTTC -GGTTTTGTAGGCCGGACAAGGCGTTCACGCCGCATCCGGCATTTCACAGCATTACTTGGTGATACGAGTCTGCGC -GTCTTTCAGGGCTTCATCGACAGTCTGACGACCGCTGGCGGCGTTGATCACCGCAGTACGCACGGCATACCAGAA -AGCGGACATCTGCGGGATGTTCGGCATGATTTCACCTTTCTGGGCGTTTTCCATGGTGGCGGCAATACGTGGATC -TTTCGCCAACTCTTCCTCGTAAGACTTCAGCGCTACGGCACCCAGCGGTTTGTCTTTATTAACCGCTTCCAGACC -TTCATCAGTCAGCAGATAGTTTTCGAGGAACTCTTTCGCCAGCTCTTTGTTCGGACTGGCGGCGTTAATACCTGC -GCTCAGCACGCCAACGAACGGTTTGGATGGTTGACCCTTGAAGGTCGGCAGTACCGTTACACCATAATTCACTTT -GCTGGTGTCGATGTTGGACCATGCCCACGGGCCGTTGATGGTCATCGCTGTTTCGCCTTTATTAAAGGCAGCTTC -TGCGATGGAGTAATCGGTGTCTGCATTCATGTGTTTGTTTTTAATCAGGTCAACCAGGAAGGTCAGACCCGCTTT -CGCGCCAGCGTTATCCACGCCCACGTCTTTAATGTCGTACTTGCCGTTTTCATACTTGAACGCATAACCCCCGTC -AGCAGCAATCAGCGGCCAGGTGAAGTACGGTTCTTGCAGGTTGAACATCAGCGCGCTCTTACCTTTCGCTTTCAG -TTCTTTATCCAGCGCCGGGATCTCTTCCCAGGTTTTTGGCGGGTTCGGCAGCAGATCTTTGTTATAAATCAGCGA -TAACGCTTCAACAGCGATCGGGTAAGCAATCAGCTTGCCGTTGTAACGTACGGCATCCCAGGTAAACGGATACAG -CTTGTCCTGGAACGCTTTGTCCGGGGTGATTTCAGCCAACAGGCCAGATTGAGCGTAGCCACCAAAGCGGTCGTG -TGCCCAGAAGATAATGTCAGGGCCATCGCCAGTTGCCGCAACCTGTGGGAATTTCTCTTCCAGTTTATCCGGATG -CTCAACGGTGACTTTAATTCCGGTATCTTTCTCGAATTTCTTACCGACTTCAGCGAGACCGTTATAGCCTTTATC -GCCGTTAATCCAGATTACCAGTTTACCTTCTTCGATTTTGGCGAGAGCCGAGGCGGAAAACATCATCGTCGTTAA -TGCGGATAATGCGAGGATGCGTGCACCTGTTTTTATTTTCATAATCTATGGTCCTTGTTGGTGAAGTGCTCGTGA -AAACACCTAAACGGACTCTAGTTTCTTTATACGGCAACCTCTTTCCATCCTCCTTGCCCCTACGCCCCACCGTCG -CTTTGTGTGATCTCTGTTACAGAATTGGCGGTAATGTGGAGATGCGCACATAAAATCGCCACGATTTTTGCAAGC -AACATCACGAAATTCCTTACATGACCTCGGTTTAGTTCACAGAAGCCGTGTTCTCATCCTCCCGCCTCCTCCCCC -ATAAAAAAGCCAGGGGGTGGAGGATTTAAGCCATCTCCTGATGACGCATAGTCAGCCCATCATGAATGTTGCTGT -CGATGACAGGTTGTTACAAAGGGAGAAGGGCATGGCGAGCGTACAGCTGCAAAATGTAACGAAAGCCTGGGGCGA -GGTCGTGGTATCGAAAGATATCAATCTCGATATCCATGAAGGTGAATTCGTGGTGTTTGTCGGACCGTCTGGCTG -CGGTAAATCGACTTTACTGCGCATGATTGCCGGGCTTGAGACGATCACCAGCGGCGACCTGTTCATCGGTGAGAA -ACGGATGAATGACACTCCGCCAGCAGAACGCGGCGTTGGTATGGTGTTTCAGTCTTACGCGCTCTATCCCCACCT -GTCAGTAGCAGAAAACATGTCATTTGGCCTGAAACTGGCTGGCGCAAAAAAAGAGGTGATTAACCAACGCGTTAA -CCAGGTGGCGGAAGTGCTACAACTGGCGCATTTGCTGGATCGCAAACCGAAAGCGCTCTCCGGTGGTCAGCGTCA -GCGTGTGGCGATTGGCCGTACGCTGGTGGCCGAGCCAAGCGTATTTTTGCTCGATGAACCGCTCTCCAACCTCGA -TGCTGCACTGCGTGTGCAAATGCGTATCGAAATCTCCCGTCTGCATAAACGCCTGGGCCGCACAATGATTTACGT -CACCCACGATCAGGTCGAAGCGATGACGCTGGCCGACAAAATCGTGGTGCTGGACGCCGGTCGCGTGGCGCAGGT -TGGGAAACCGCTGGAGCTGTACCACTATCCGGCAGACCGTTTTGTCGCCGGATTTATCGGTTCGCCAAAGATGAA -CTTCCTGCCGGTAAAAGTGACCGCCACCGCAATCGATCAAGTGCAGGTGGAGCTGCCGATGCCAAATCGTCAGCA -AGTCTGGCTGCCAGTTGAAAGCCGTGATGTCCAGGTTGGAGCCAATATGTCGCTGGGTATTCGCCCGGAACATCT -ACTGCCGAGTGATATCGCTGACGTCATCCTTGAGGGTGAAGTTCAGGTCGTCGAGCAACTCGGCAACGAAACTCA -AATCCATATCCAGATCCCTTCCATTCGTCAAAACCTGGTGTACCGCCAGAACGACGTGGTGTTGGTAGAAGAAGG -TGCCACATTCGCTATCGGCCTGCCGCCAGAGCGTTGCCATCTGTTCCGTGAGGATGGCACTGCATGTCGTCGACT -GCATAAGGAGCCGGGCGTTTAAGCACCCCACAAAACACACAAAGCCTGTCACAGGTGATGTGAAAAAAGAAAAGC -AATGACTCAGGAGATAGAATGATGATTACTCTGCGCAAACTTCCTCTGGCGGTTGCCGTCGCAGCGGGCGTAATG -TCTGCTCAGGCAATGGCTGTTGATTTCCACGGCTATGCACGTTCCGGTATTGGTTGGACAGGTAGCGGCGGTGAA -CAACAGTGTTTCCAGACTACCGGTGCTCAAAGTAAATACCGTCTTGGCAACGAATGTGAAACTTATGCTGAATTA -AAATTGGGTCAGGAAGTGTGGAAAGAGGGCGATAAGAGCTTCTATTTCGACACTAACGTGGCCTATTCCGTCGCA -CAACAGAATGACTGGGAAGCTACCGATCCGGCCTTCCGTGAAGCAAACGTGCAGGGTAAAAACCTGATCGAATGG -CTGCCAGGCTCCACCATCTGGGCAGGTAAGCGCTTCTACCAACGTCATGACGTTCATATGATCGACTTCTACTAC -TGGGATATTTCTGGTCCTGGTGCCGGTCTGGAAAACATCGATGTTGGCTTCGGTAAACTCTCTCTGGCAGCAACC -CGCTCCTCTGAAGCTGGTGGTTCTTCCTCTTTCGCCAGCAACAATATTTATGACTATACCAACGAAACCGCGAAC -GACGTTTTCGATGTGCGTTTAGCGCAGATGGAAATCAACCCGGGCGGCACATTAGAACTGGGTGTCGACTACGGT -CGTGCCAACTTGCGTGATAACTATCGTCTGGTTGATGGCGCATCGAAAGACGGCTGGTTATTCACTGCTGAACAT -ACTCAGAGTGTCCTGAAGGGCTTTAACAAGTTTGTTGTTCAGTACGCTACTGACTCGATGACCTCGCAGGGTAAA -GGGCTGTCGCAGGGTTCTGGCGTTGCATTTGATAACGAAAAATTTGCCTACAATATCAACAACAACGGTCACATG -CTGCGTATCCTCGACCACGGTGCGATCTCCATGGGCGACAACTGGGACATGATGTACGTGGGTATGTACCAGGAT -ATCAACTGGGATAACGACAACGGCACCAAGTGGTGGACCGTCGGTATTCGCCCGATGTACAAGTGGACGCCAATC -ATGAGCACCGTGATGGAAATCGGCTACGACAACGTCGAATCCCAGCGCACCGGCGACAAGAACAATCAGTACAAA -ATTACCCTCGCACAACAATGGCAGGCTGGCGACAGCATCTGGTCACGCCCGGCTATTCGTGTCTTCGCAACCTAC -GCCAAGTGGGATGAGAAATGGGGTTACGACTACACCGGTAACGCTGATAACAACGCGAACTTCGGCAAAGCCGTT -CCTGCTGATTTCAACGGCGGCAGCTTCGGTCGTGGCGACAGCGACGAGTGGACCTTCGGTGCCCAGATGGAAATC -TGGTGGTAATAGCAAAACCTGGGCCGGATAAGGCGTTTACGCCGCATTCGGCAACCAACGCCTGATGCGACGCTT -GCGCGTCTTATCAGGCCTACAACGGCTGTCAAATGTAGGCCGGATAAGGCGTTTACGCCGCATCCGGCATAAAAA -CAGGTTGTCATTATCTGAAAGGGGCGAAAGCCCCTCTGATTATCGGGTTTAGCGCGCTATTGCCTGGCTACCGCT -GAGCTCCAGATTTTGAGGTGAAAACAATGAAAATGAATAAAAGTCTCATCGTCCTCTGTTTATCAGCAGGGTTAC -TGGCAAGCGCGCCTGGAATTAGCCTTGCCGATGTTAACTACGTACCGCAAAACACCAGCGACGCGCCAGCCATTC -CATCTGCTGCGCTGCAACAACTCACCTGGACACCGGTCGATCAATCTAAAACCCAGACCACCCAACTGGCGACCG -GCGGCCAACAACTGAACGTTCCCGGCATCAGTGGTCCGGTTGCTGCGTACAGCGTCCCGGCAAACATTGGCGAAC -TGACCCTGACGCTGACCAGCGAAGTGAACAAACAAACCAGCGTTTTTGCGCCGAACGTGCTGATTCTTGATCAGA -ACATGACCCCATCAGCCTTCTTCCCCAGCAGTTATTTCACCTACCAGGAACCAGGCGTGATGAGTGCAGATCGGC -TGGAAGGCGTTATGCGCCTGACACCGGCGTTGGGGCAGCAAAAACTTTATGTTCTGGTCTTTACCACGGAAAAAG -ATCTCCAGCAGACGACCCAACTGCTCGACCCGGCTAAAGCCTATGCCAAGGGCGTCGGTAACTCGATCCCGGATA -TCCCCGATCCGGTTGCTCGTCATACCACCGATGGCTTACTGAAACTGAAAGTGAAAACGAACTCCAGCTCCAGCG -TGTTGGTAGGACCTTTATTTGGTTCTTCCGCTCCAGCTCCGGTTACGGTAGGTAACACGGCGGCACCAGCTGTGG -CTGCACCCGCTCCGGCACCGGTGAAGAAAAGCGAGCCGATGCTCAACGACACGGAAAGTTATTTTAATACCGCGA -TCAAAAACGCTGTCGCGAAAGGTGATGTTGATAAGGCGTTAAAACTGCTTGATGAAGCTGAACGCCTGGGATCGA -CATCTGCCCGTTCCACCTTTATCAGCAGTGTAAAAGGCAAGGGGTAATTACGCCCCACAGTGCTGATTTTGCAAC -AACTGGTGCGTCTCCTGGCGCACCTTTTTTTATGCTTCCTTCCTGGGATATGAGCGATTTTTTATAGTAACTCAC -TTCTTCTTCACTAAGAATATCCATTATCTCAATGCCTTATCAGAGATTCTTTTCCTTTCGCCGGTAGTGTCTGGA -CATTCAGGCTACTTTTCCAGGTTATTTTATTTCTGTTATGCAGAGGTTTTATGATAAGTCATATCCTAAATTCTG -GCGGCAATAACTCTTTGATGAAACATGATGTGGTGCAAGGAAATAATATAGTAGATCTTGATTTACTACGTAATT -TAAATGGGGTGCCAGGTTTAAACAGAGATAACTTTATTTATATCAGCAATATTTTTTCAAATATAAAACAACGGA -ACGAAAAAATCATGCAATAAATATGTTTCGTGAAGTCTCAATCAGTAATGATACTATAAGTGTAAAATTCTACAG -AAATGAAAAAAATTGAATGCGCTTGCAATTTTCTGATGGATAAAGATGCGCAGGGGTATATCGACCTGTCTGATT -TGGATTTAACAAGTTGTCATTTTAAAGGTGACGTTATATCGAAGGTGTCTTTTTTATCATCAAATCTACAACATG -TAACATTCGAATGTAAAGAAATTGGGGATTGCAATTTTACTACTGCAATAGTTGATAATGTCATATTTAGATGTC -GACGTTTACACAATGTGATTTTTATCAAAGCGAGTGGTGAATGTGTCGATTTCAGCAAAAATATTCTTGATACAG -TTGACTTCTCGCAGAGTCAACTTGGTCATAGTAATTTTCGCGAATGTCAGATTAGAAATTCAAACTTCGATAATT -GTTATCTTTACGCTTCGCACTTCACCAGAGCAGAGTTTCTGTCTGCCAAAGAAATATCATTTATTAAATCGAATT -TGACAGCTGTTATGTTTGATTATGTGCGAATGTCGACAGGGAATTTTAAAGATTGCATTACAGAACAATTGGAAT -TAACTATTGATTATTCAGATATATTTTGGAATGAAGATCTCGATGGTTATATCAATAACATTATAAAAATGATTG -ATACATTGCCAGATAATGCAATGATATTGAAATCCGTTCTGGCCGTAAAACTGGTGATGCAATTAAAAATACTTA -ATATTGTTAATAAAAACTTTATTGAGAATATGAAGAAAATATTTAGCCATTGTCCTTATATAAAAGATCCCATTA -TACGCAGTTATATCCATTCTGATGAAGATAACAAGTTCGATGATTTTATGCGTCAACATCGATTCAGTGAGGTGA -ATTTCGATACCCAACAGATGATCGATTTTATTAACAGATTTAATACGAATAAATGGCTAATTGATAAAAATAACA -ATTTTTTTATCCAACTTATCGATCAGGCCTTACGATCAACGGATGATATGATCAAAGCAAATGTTTGGCATCTTT -ATAAAGAGTGGATTCGTAGTGATGATGTTTCACCTATATTTATAGAAACTGAAGATAATTTAAGAACCTTTAACA -CGAATGAATTAACACGAAACGATAATATCTTTATCCTGTTCTCCTCAGTCGATGATGGGCCAGTTATGGTGGTAA -GCTCCCAGCGCTTACATGATATGTTGAATCCTACAAAAGATACCAATTGGAATTCCACGTATATCTACAAATCCA -GACATGAGATGTTGCCTGTTAATCTTACTCAGGAAACACTTTTCAGCTCCAAATCTCATGGTAAATATGCGCTTT -TCCCCATTTTTACTGCGAGTTGGCGAGCTCATCGTATAATGAATAAGGGTGTTTAAGTAAAGGAAAACATCACCG -TTCCTGGCATCCTGGACGGTGATGCCCCTACGGTTGCCCTCGCCAGCACGGGCATCGGTAAAGCGTAAGGTTCAA -CATCGTTTTACCACTTCATGCGATTGTTGCGTTTTTGTTGCGTATTAGATCACTTAATTTGCTTTACATCTCCCG -TAAACACTTTTCTGCGATACAATGCCTTTACGTTATGTAACGGAGAGTTCGGCATGTCACACCCCGCGTTAACGC -AACTGCGTGCGCTGCGCTATTGTAAAGAGATCCCTGCCCTGGATCCGCAACTGCTCGACTGGCTGTTGCTGGAGG -ATTCCATGACAAAACGTTTTGAACAGCAGGGAAAAACGGTAAGCGTGACGATGATCCGCGAAGGGTTTGTCGAGC -AGAATGAAATCCCCGAAGAACTGCCGCTGCTGCCGAAAGAGTCTCGTTACTGGTTACGTGAAATTTTGTTATGTG -CCGATGGTGAACCGTGGCTTGCCGGTCGTACCGTCGTTCCTGTGTCAACGTTAAGCGGGCCGGAGCTGGCGTTAC -AAAAATTGGGTAAAACGCCGTTAGGACGCTATCTGTTCACATCATCGACATTAACCCGGGACTTTATTGAGATAG -GCCGTGATGCCGGGCTGTGGGGGCGACGTTCCCGCCTGCGATTAAGCGGTAAACCGCTGTTGCTAACAGAACTGT -TTTTACCGGCGTCACCGTTGTACTAAGAGGAAAAAAATATGGAGTGGAGTCTGACGCAGAATAAGCTGCTGGCGT -TTCATCGCTTAATGCGTACGGATAAGCCAATTGGCGCGTTACTGCTGCTCTGGCCAACATTATGGGCGTTGTGGG -TGGCGACACCGGGCGTTCCCCAGCTCTGGATCCTGGCGGTGTTTGTCGCGGGTGTCTGGCTGATGCGCGCTGCCG -GATGTGTGGTGAATGATTATGCTGACCGCAAGTTTGATGGTCATGTTAAGCGCACGGCGAACCGACCACTTCCCA -GCGGCGCGGTAACAGAGAAAGAGGCGCGCGCGCTGTTTGTCGTGCTGGTACTGATTTCGTTTTTACTGGTGCTGA -CGCTGAATACGATGACCATTCTGTTGTCGATTGCCGCGCTAGCGCTGGCGTGGGTGTACCCGTTTATGAAGCGGT -ATACCCATCTACCGCAAGTGGTGCTGGGCGCGGCGTTTGGCTGGTCGATTCCAATGGCTTTTGCCGCTGTGAGTG -AGTCGGTGCCATTGAGTTGCTGGTTAATGTTCCTCGCCAATATTCTCTGGGCGGTGGCTTACGACACGCAGTATG -CGATGGTTGACCGCGATGATGATGTGAAGATTGGCATTAAATCCACGGCAATCCTGTTCGGCCAATACGATAAAT -TGATTATTGGTATTTTGCAGATTGGCGTACTGGCACTGATGGCGATCATCGGTGAGTTAAATGGCTTAGGCTGGG -GATATTACTGGTCAATTCTGGTGGCTGGCGCGCTGTTTGTTTATCAACAAAAACTGATTGCCAACCGCGAGCGTG -AAGCCTGCTTTAAAGCATTTATGAATAATAACTATGTTGGTCTGGTACTATTTTTAGGGCTGGCAATGAGTTACT -GGCATTTCTGATGATGTAAAAAAGCCGGATGATCATCCGGCTTTCTTCTGGGTTGCCTGATGCGCGGCGCTTCTC -AGGCCTACACAACACATCGCAATTTATTGAATTTGCAGATTATGGAAGGCCGGATAAGGCGTTTTCGCCGCATCC -GGCAATTCTCTCTGATTACCCTTCGCCCTGCGTCGCACTCTCAATCGTCAAACGCACGTCTGATGTAATCAACTC -CGCCAGCAACTGATAAACCTTCATCGTTTCTGCCGGTTCGGCATCGCCGCTATCGCTGATATACCCTTCATCACG -CAGTGTCAGCACCAGAGAACTGAACACCGCCTTGTCGAAGAACTCCGGCGCGTTGATGCCGTGCAGCACGGAGAG -ACGTTGCGCGACGGTGCGGCTCTCTTTCTCCAGCGTACCGCGGTTGATCGACGGGTTGGCACTCAACAACCAGAA -GGTGATGGCATAACGTTGCAGCGTTTCGCGCGCGCCTGCGGCCAGCAGCTGTAGCGTGCGAGAATGCGCCGGGTT -GATATGCAACTCATCATCTTGCAGGGTAATCAGCCCCTGACGTTGCATCTCATTTGCCAGCGCATCAATAACGTC -CGGCAACTCGTCGCGATCCCAGCGCAGGAACAGCTCCGCTTTCAGCATTGGGTAAAGCACATTGACGTGCTCCAT -CAATACGTCGCGGGAGATGTGGCGATGCTGGGTGACGATTGCCGCCATCAGCGAAGGCAGCACCAACATATGCGC -AATGTTGTTGCGATAGTAGGTCATCAGCACCGCTTGCTCGCGCGGCAGAATGATGATGTCGCCGATTGTGTCTTT -CTCGACTTCAAACTTGTTCATTTGCAGCGCGTGATCGATAAGCTCGCTGGCGCTGGCTGAAGGAACGGTAGAGTC -CGTGGAGTAGGGCACGTTGCGCATCAGATCCAGGTAGCAGTTGAGTTGCTCGGTTAACTGCTCGCGGGTGAGTGA -GCGCTGACGTGATGCCAGTAGCGCAGTACAGCACAGGTTCATGGCGTTTGCCGCGCCTGCGTTGTTAATGCGTAC -CATCAGATCGGCAGCAATATTATTGACCGTCGGCGTTAACCATGCCGGACGCACCGCTTCGATGGGATCGATAGA -TTCACGCCAGTCAGGTACATGCTGGTTAAGGTAGGTCATCAACGGCATTGGTTCACCGAAGTTGACGTAACCCTG -ACCGAGATTACGCAGCTTGCTTAAACCGCGCAGCATCTGCGGCAGGCTCTCTTTCTCTTTCGTCGCGCCGCGCAG -TTCTTTGGCGTAAGTACCCACTTCCATGACGTGCTCATAACCGATATAGATCGGAATCAGCGTAATCGGACGCGT -GCCGCCACGCAGCATCGCCTGAATGGTCATCGACAGCGTACCAGTTTTCGGATCCAGCAAACGCCCCGTACGGGA -ACGACCGCCTTCCACGAAGTACTCGACGGAATAACCACGGCTGAACAGTTCGCCGAGATACTCCCGGAAAACGGT -GGAATAAAGTTTATTGCCTTTAAACGTACGGCGAATAAAGAACGCCCCCAGACGGCGGAAAATCGGCCCGGCAGG -CCAGAAATTCAGGTTGATCCCGGCGGCGATATGCGGCGGCACCAGCCCCTGGTGATACAGCACGTAAGAAAGCAG -CAGGTAGTCCATGTGACTGCGGTGGCAAGGCACATATACCAGCTCATGACCGTCGTGGGCCAGCTGGCGAACGCG -CTCAGCGTTATGGACGTTGATGCCCTGGTAAAGTCGGTTCCAGGTGAAGCCCAGAATACGGTCAGTCAGGCGAAT -CATCTCGTAAGAGAAATTCGCCGCAATCTCTTCCATCAGTGCAATCGCGTTCTGCTGCGCTTTTTCATGGGAGAT -TTTTTTGCTGCGCGCTTCATCTTCTACCGCTTTGGCAATGGCGCGGGAGGCGAGCAGCTTATTAAACAGATCCTG -ACGAGCAGGCAAACGTGGGCCTACGGCAGCCAGACGTTGACGGGCAAAGTGCATACGCGCCACGCGCGCCAGTTT -CTGAGCGATAGTTTTATCCGTGCCGTGTTCATCCGCCATACGGCGCAGCGAAACTGACGGCGAGAAACGCACAAA -ACTGTCGCGACCGAGCCACAGTACAGCGAAAAATTTCTGTACGCCGTTAAGCATACGCAGCGGCGGGTTCACTTC -GCCTTTTTCACGCCCCGGCGCGCGACCAAACATCACCGACACTGGCACCATCTGCACATCCAGATTTGGGTTGCT -ACGGTGCAAATCGAGATAGTCGTGGAACAGCTTAATAGACTCTTCTTTCGGCGTGTAATAGGTGAACACACGCGG -CCCGCCGTGAATGAACACATAGCGCGGCAGTAGCGTGCCGTCGATTTCCAGCGGCTCTAACGGGTCAGGCAAGTC -ATGTGCCAGACACTGGGCGCGCAACGTCAGCAAATCTGCTTTCGAGTTGTACGGTAAAACGTACATAATTGGACG -AGAGGTATCCAGCCCCAGTTCCGGGGCAGGATCTGCCGGAATAGACTTGCTTTTTACCAGGATGCTTAATGGTAA -ATTCAGTAATTTGTAGTAAATTCGTGGCCAGCCGGACATAAACGATGTAAAGCCTCTGGTTAATAATGCAAATGC -GCGGCAAGGATAGCAGAAAGTCATGGGAAATTCTGTGGTATCCGCTCATGTTTCGCGCGGCGCTACGCAAACCCG -AATCATCGGATTTAACGGTACACTGATATTGACGCTCATAATGTAAAAAGGTTCTTTCAATGGCCAATAATACCA -CTGGATTCACCCGAATTATCAAAGCTGCTGGCTATTCCTGGAAAGGTTTACGCGCTGCATGGATCAACGAAGCGG -CATTCCGTCAGGAAGGCGTAGCGGTATTGTTGGCGGTGGTCATCGCCTGCTGGCTGGATGTGGACGCGATTACCC -GCGTGCTGCTTATCAGCTCCGTGATGCTGGTGATGATTGTGGAAATCCTCAATAGCGCCATCGAAGCAGTGGTTG -ACCGAATTGGCTCTGAATACCATGAGCTTTCCGGACGCGCAAAAGATATGGGATCCGCTGCGGTGCTGATTGCCA -TTATCGTCGCCGTGATTACCTGGTGCATTCTGTTATGGTCGCATTTTGGATAACCCTTCCAGAATTCGATAAATC -TCTGGTTTATTGTGCAGTTTATGGTTCCAAAATCGCCTTTTGCTGTATATACTCACAGCATAACTGTATATACAC -CCAGGGGGCGGAATGAAAGCGTTAACGGCCAGGCAACAAGAGGTGTTTGATCTCATCCGTGATCACATCAGCCAG -ACAGGTATGCCGCCGACGCGTGCGGAAATCGCGCAGCGTTTGGGGTTCCGTTCCCCAAACGCGGCTGAAGAACAT -CTGAAGGCGCTGGCACGCAAAGGCGTTATTGAAATTGTTTCCGGCGCATCACGCGGGATTCGTCTGTTGCAGGAA -GAGGAAGAAGGGTTGCCGCTGGTAGGTCGTGTGGCTGCCGGTGAACCACTTCTGGCGCAACAGCATATTGAAGGT -CATTATCAGGTCGATCCTTCCTTATTCAAGCCGAATGCTGATTTCCTGCTGCGCGTCAGCGGGATGTCGATGAAA -GATATCGGCATTATGGATGGTGACTTGCTGGCAGTGCATAAAACTCAGGATGTACGTAACGGTCAGGTCGTTGTC -GCACGTATTGATGACGAAGTTACCGTTAAGCGCCTGAAAAAACAGGGCAATAAAGTCGAACTGTTGCCAGAAAAT -AGCGAGTTTAAACCAATTGTCGTTGACCTTCGTCAGCAGAGCTTCACCATTGAAGGGCTGGCGGTTGGGGTTATT -CGCAACGGCGACTGGCTGTAACATATCTCTGAGACCGCGATGCCGCCTGGCGTCGCGGTTTGTTTTTCATCTCTC -TTCATCAGGCTTGTCTGCATGGCATTCCTCACTTCATCTGATAAAGCACTCTGGCATCTCGCCTTACCCATGATT -TTCTCCAATATCACCGTTCCGTTGCTGGGACTGGTCGATACGGCGGTAATTGGTCATCTTGATAGCCCGGTTTAT -TTGGGCGGCGTGGCGGTTGGTGCAACGGCGACCAGCTTTCTCTTTATGCTGTTGCTGTTTTTACGCATGAGCACC -ACCGGGCTGACTGCGCAGGCTTATGGTGCCAAAAATCCTCAGGCATTAGCCCGTACGCTGGTGCAACCGTTGCTG -TTGGCGTTGGGGGCTGGGGCGTTAATTGCGCTGCTGCGTACGCCGATTATCGATCTGGCGCTGCATATTGTTGGC -GGTAGTGAGGCAGTCCTGGAACAGGCGCGGCGCTTTCTTGAAATCCGCTGGTTAAGCGCACCGGCGTCGCTGGCG -AATCTGGTATTACTCGGTTGGTTACTCGGCGTGCAATATGCCCGTGCGCCAGTAATTTTGTTAGTGGTCGGCAAT -ATCCTCAACATTGTGCTGGATGTCTGGCTGGTGATGGGGCTGCATATGAACGTGCAGGGCGCGGCGCTGGCGACG -GTTATTGCGGAATATGCAACATTGCTGATTGGTCTGCTAATGGTGCGTAAAATCCTCAAACTACGCGGAATTTCC -GGCGAAATGCTGAAAACTGCCTGGCGAGGAAACTTCCGTCGCTTGCTGGCGCTTAACCGCGATATCATGCTGCGT -TCGCTGTTGTTGCAACTCTGTTTCGGCGCGATCACCGTACTTGGCGCGCGACTGGGGAGTGACATTATCGCTGTT -AACGCGGTTCTGATGACGCTACTCACCTTTACCGCCTATGCGCTGGATGGTTTTGCCTACGCGGTTGAAGCGCAC -TCCGGTCAGGCATACGGTGCGCGCGACGGTAGCCAGTTGCTGGATGTCTGGCGGGCAGCGTGCCGCCAGTCGGGG -ATCGTAGCGTTACTGTTTTCGGTGGTTTATTTGCTGGCTGGGGAACACATCATTGCGTTACTGACGTCGTTAACC -CAGATTCAGCAGCTGGCTGACCGCTATCTTATCTGGCAGGTGATTTTGCCGGTGGTTGGCGTCTGGTGTTATCTG -CTGGACGGCATGTTTATAGGCGCAACGCGTGCCACCGAAATGCGTAACAGTATGGCGGTGGCCGCCGCAGGTTTT -GCGCTGACGCTCCTTACGCTGCCGTGGCTGGGTAATCATGCTTTGTGGCTGGCATTAACCGTCTTTCTGGCGTTG -CGCGGGCTTTCTCTGGCGGCTATCTGGCGGCGTCACTGGCGCAATGGTACCTGGTTTGCCGCAACGTGACGGTTA -AAAATTCTGAATAAATAATCCTAAGCCAAATTGCTGACTACACTTAATCTCACGTTCAGAAGAAAAGTGAACGTA -CTCTCATTCACAACCTAACGATGAGGTCTTGATTATGAATAAAGATGAAGCCGGCGGTAACTGGAAACAGTTTAA -AGGTAAAGTGAAAGAGCAATGGGGCAAACTGACCGATGATGATATGACGATCATTGAAGGTAAACGTGATCAACT -GGTCGGTAAAATCCAGGAACGTTATGGTTATCAGAAAGATCAGGCAGAAAAAGAGGTCGTGGATTGGGAAACCCG -CAATGAATATCGCTGGTAATTAATCCCTCCTGCCCGACGTGTACAAGGATGTACGCCCTCTTAACGCGGTTTCTT -TTTCACCTGCACAGAGTGATCATGCTGGCACTGTTCAGGATGACGACACGCTTCCACTTCTACACATGCCGCACA -GAGCCCATGTGCTTCAATCACATTATGCCGCAGGGCAAACCCCATTTTTGCCGCCAGCGTATGCATAATGTCTTC -CACGCCTTCTGCACACTCTTCTTTCACTGCGCCGCAGCGATCGCAAATAAACATGGCTGACGTATGGGTGGGCTG -ATCGAACAGATGACAGAGCACATAACTGTTGGTGGATTCCACCTTATGCACAAAACCTTGCTCAAGCAGAAAATC -CAGCGCGCGATAAACCGTTGGCGGCTTGGCTTGCGGTTCAGCTTCGCGCAGTAAATCAAGCAGATCATAAGCGCT -GATAGCGCCATCCTGCAGACTCATCAGGCGCAACACTTCCAGGCGCTGTGGGGTCAGGCGCACATTACGCTGCGC -GCAGATTTTTTCAGCCTGCGCTAATAACTCCTGCGTTGTGGTCTTTTCCATCGGGCACCTCAAAGTGGGGGTTAA -GAATGTCCTTACTTTACCATGTTCCAGGAAAAACACCGAGAACCCTTATTGTTGCCGTAATGTTGATTTTCTGTT -TTGTAGGTAAGGTGTTATGTTGCCTTGTCGTACCATTATCAACACGATAATAATTAATAATTCATTTTTAAATAA -ATTGCTTCAAGTTAACTCGCTATTTATTTAACTGGGTTTAAACGCATACCTGTAGTTCAGAAATTATGAGCGATT -TTTGATAGTGACCAGATGGCAAAAGAATTATAAGGAGGACACGGTACGACAAAAAAGGTAGATGAATCATGTTGA -AGATAATACCCGGTGCAACTGGATACTTTAATAAAACACTCAATTCAAATCAATTCGATAATGAAGATGCAATCA -AAGATAAATTAGATAATAGAGGTTCAATCAAAGGTAAATTAAATAATATATATGGTAAATCTATTGATTATGCAG -CGCTGCGTCATCGGGATATAATTATTGCAAAAATAGATTTGTTTATTCAACGAATCACGCATAATTTATGGCATG -CACGTAAAAAAATGTGTTTTTAATTGTGCAAATAAATGATCTCAAAATGTGGGTCAATAAGTATATTGACGATTG -CACTGATGAGGATTTAAACGATCGTGACTTTATTGCATCAGTTGTTGACCGGGCTATTTTTCATTTCGCGATTAA -TAGTATATGTAATCCTGGGGATAATAAAGATGCAATGCCCATTGAACAATGTACTTTTGATGTAGAAACTAAGAA -TGACCTTCCCTCCACGGTTCAGCTATTTTATGAGGAATCTAAGGATAATGAACCTTTAGCGAATATACATTTTCA -AGCAATAGGTTCTGGTTTTTTAACGTTTGTTAATGCCTGCCAGGAACATGATGACAACAGCTTAAAATTATTTGC -TTCGCTGTTAATTTCACTTTCATATTCTAGTGCCTACGCAGATTTATCAGAAACAGTGTATATTAATGAAAATAA -TGAGAGCTACCTGAAAGCTCAGTTTGAAAAATTATCTCAACGTGATATGAAGAAGTACCTGGGAGAGATGAAGCG -TCTGGCTGATGGGGGAGAAATGAATTTTGATGGCTATCTGGATAAGATGTCACATCTGGTGAATGAAGGAACGCT -CGATCCTGATATTTTAAGCAAAATGCGAGATGCTGCACCACAATTAATTAGCTTCGCGAAGTCGTTTGACCCAAC -CTCAAAGGAAGAGATTAAAATACTTACAGACACTTCTAAATTAATTTATGATTTGTTCGGGGTTAAATCGGAGAA -ATAATATGTGAAGTTCTTCGATAGTATGGAAGGCATTATATAAAAGGACCCAATATTTATTGGGTTCTTTTTTCT -CTATCAATACTATTAGCAGGGAGATATATCACCAGAGTTTAATGTGTGATTTTTTATTTATCGTCGAACCTGGAT -TGTTTATCATTGGCCTTAACAAAGTTAACGGCTAATAAGATTATTTCCATCACTTCGTGAGAGCTTCATGCCTTG -AGAGGATCTCAATTTTCTTTTGCAATGAGACAGGCGCTTCCTGTTGTTATGGTATAGTACCCCGCTATTGAGCCT -CCTGAATAGTGATGCTGAATAACATAACCCCATGATATATCGATAAAATAATCTCTACATTTGAAAATGCACGGT -AATTCTGAAATGCAAAAAATCAACCAAACCAGCGCAATGCCTGAAAAAACTGACGTTCACTGGAGTGGTCGGTTT -AGCGTTGCACCAATGCTCGACTGGACGGACAGACATTGCCGCTATTTCTTGCGTCTGCTTTCCCGCAATACGTTG -CTGTATACCGAAATGGTGACCACAGGGGCGATTATTCACGGTAAAGGTGATTATCTGGCGTACAGTGAAGAAGAA -CATCCGGTAGCGTTGCAACTGGGCGGTAGCGATCCGGCGGCGCTGGCGCAGTGTGCAAAGCTGGCAGAAGCGCGC -GGATATGATGAGATCAACCTGAATGTCGGCTGCCCGTCTGACCGGGTGCAGAACGGCATGTTTGGTGCGTGTCTG -ATGGGTAATGCGCAGCTGGTTGCCGACTGCGTGAAAGCGATGCGCGATGTGGTGTCGATTCCGGTGACGGTGAAA -ACGCGTATTGGCATCGACGACCAGGACAGCTATGAATTTCTCTGCGATTTCATCAATACCGTTTCCGGCAAAGGC -GAGTGTGAGATGTTCATCATCCACGCACGTAAAGCCTGGCTTTCGGGGTTAAGCCCGAAAGAAAACCGTGAAATC -CCGCCGCTCGATTATCCGCGTGTGTATCAACTGAAGCGTGACTTTCCGCATCTGACAATGTCGATTAACGGTGGT -ATCAAGTCGCTGGAAGAGGCCAAAGCACACCTGCAACATATGGATGGCGTGATGGTCGGGCGCGAGGCGTATCAG -AATCCGGGTATTCTGGCGGCGGTAGACCGGGAGATCTTTGGTTCCTCGGATACCGATGCCGATCCGGTGGCGGTA -GTGCGCGCCATGTATCCGTACATTGAGCGTGAACTCAGCCAGGGGACGTATCTCGGCCATATTACCCGGCATATG -TTGGGCTTGTTCCAGGGTATTCCTGGCGCGCGGCAGTGGCGGCGTTATTTAAGTGAAAATGCCCATAAAGCGGGT -GCAGACATTAATGTGCTGGAACACGCGCTCAAACTGGTGGCGGATAAGCGTTAACTTTTCACCAAAAAGTAGTCA -AATTCACCACGCCCTGCGCACCGTCGCGGGGCGTTTTGCTGTTAAATCAATAGATTATTTTTGGCATGATTCTTG -TAATGCCAGCAAGAGATTTCATATTTGGGAGAGCATCATGCTGGAACTACTTTTTGTGATTGGCTTTTTTGTCAT -GCTGATGGTCACCGGCGTTTCGTTGCTGGGCATTATCGCCGCGCTGGTTGTGGCGACGGCCATTATGTTCCTCGG -CGGTATGCTGGCATTGATGATTAAGTTGCTGCCGTGGTTACTACTGGCGATTGCGGTGGTGTGGGTTATTAAGGC -GATTAAAGCACCAAAAGTGCCGAAATATCAGCGTTATGACCGCTGGCGTTACTAAGGGATTGTGCGGATGATCAC -AACCTAAGGTTTTATCCTTAGAACAAAATAGGAATTGATAATCAAATCTGTCACTATTGCGCCTCTAACAGATTC -ATCGTGCTGTACCCTACATACAGCCGAACTATAAAAAGAAAGGGCTTCCCAGGTGGAAGCCCTATTTCTTTTATG -GAATCAGCAGGCTGGAACCTTGCGTCGCCCGGCTTTCCAGAATCTCATGCGCACGCTGCGCATCCTTCAGCGGAT -ATTTCTGCTGCTCGGCGACATCGACCTTAATCACACCGCTGGCAATCAAAGAGAACAGTTCATTACTGGCCTCGG -TTAATTCCTCCCGCGTGGTGATATAGCCTTGCAGGGAAGGGCGTGTCACATACAACGAGCCTTTTTGATTGAGAA -TGCCTAAGTTCACACCGGTAACCGCACCTGATGAGTTGCCAAAACTGACCATTAAGCCGCGGCGTTGCAGGCAAT -CCAGCGACCGTTCCCAGGTGTCTCTGCCCACGGAATCGTACACCACGCGCACTTTCTTACCGCCGGTGATCTCTT -TTAACCGCTCGACCAGATCCTCTTCACGATAGTTAATAACCTGCCACGCGCCCGCTTTTAGCGCGCTCTGCGCTT -TTTGCGCGGTTCCTACGGTGCCGATAAGTTTCGCGCCCAGGGCTTTTGCCCACTGGCAGGCAATTAAGCCAACGC -CGCCAGCCGCTGCGTGGAACAGGAACTGTTCATCGGGTTTAATTTCATAGGTTTTGCGCAGCAGATAATAAACCG -TTAAGCCTTTCAGGAAGGATGCCGCAGCTTGCTCAAAAGAAATTGCCGCAGGCAGAATCGCCGCTTTATCCGCAA -TAATGTTATGCACAGAGCTGTAAGCGCCTAACGCCGACTGCGCATAGACTACACGATCGCCTGCCTTAATATGCT -TTACACCACTGCCGACTTTACTCACGATGCCTGCTGCTTCGGTGCCTAATCCGCTGGGTAGCGATGGCGGCGGGT -AAAGGCCGCTGCGGATATATGTGTCGATAAAATTGATGCCGATGGCTTTATTTTCGACCTGGATTTCATTCTCCG -CCGGATCGGCAGGAGTGAACTCTACGGCTTGAAGTACTTCCGGGCCACCGTGCTTGTGAAATTCAATTCGTGTTG -CCATGTGTCCTCCAGAACGTATCGTCAGGGTCTGCTTCATATGATAAAGTTTCGACCCATTCTTTATCTCGGTAA -CTCCATTCACTATGGCAGGAAATAAACCCTTCAACAAACAGCAGGCTGAACCCCGCGAACGCGATCCACAAGTTG -CCGGGCTGAAAGTGCCTCCGCACTCGATCGAAGCGGAGCAGTCGGTGTTGGGCGGTTTAATGCTAGATAACGAAC -GCTGGGATGATGTAGCCGAGCGTGTGGTAGCAGACGATTTTTACACCCGCCCACACCGTCATATCTTTACTGAAA -TGGCGCGTTTGCAGGAAAGCGGTAGCCCTATCGATCTGATTACTCTTGCGGAATCGCTGGAACGCCAGGGGCAAC -TCGATAGCGTCGGTGGTTTTGCTTATCTGGCAGAGCTGTCAAAAAATACGCCAAGTGCGGCTAACATCAGTGCCT -ATGCGGACATCGTGCGTGAACGTGCCGTTGTCCGTGAGATGATCTCGGTTGCGAATGAGATTGCCGAAGCTGGTT -TTGATCCGCAGGGGCGTACCAGCGAAGATCTGCTGGATCTGGCTGAATCCCGCGTCTTTAAAATTGCCGAAAGTC -GTGCGAACAAAGACGAAGGGCCGAAGAACATCGCCGATGTGCTCGACGCAACCGTGGCGCGTATTGAGCAGTTGT -TTCAGCAGCCACACGATGGCGTTACCGGGGTAAACACCGGTTATGACGATCTCAACAAAAAAACCGCTGGCTTGC -AGCCGTCGGATTTGATCATCGTCGCCGCGCGTCCGTCGATGGGTAAAACAACATTTGCGATGAACCTCGTCGAAA -ACGCGGCGATGTTGCAGGATAAACCGGTACTTATCTTCTCGCTGGAGATGCCATCAGAACAGATCATGATGCGTT -CTCTGGCGTCGCTGTCGCGCGTTGACCAGACTAAAATCCGTACCGGGCAGCTCGATGACGAAGACTGGGCGCGCA -TTTCCGGCACCATGGGTATTTTGCTCGAAAAACGCAATATCTATATCGATGACTCCTCCGGCCTGACGCCAACGG -AAGTGCGTTCCCGCGCACGCCGTATTGCCCGTGAACACGGCGGCATCGGGCTTATCATGATCGACTACCTGCAAC -TGATGCGCGTACCGGCGCTTTCCGATAACCGTACGCTGGAAATTGCAGAAATCTCTCGCTCGCTGAAAGCACTGG -CGAAAGAACTGAACGTGCCGGTGGTGGCGCTGTCCCAGTTGAACCGTTCTCTGGAACAACGTGCCGACAAACGCC -CGGTCAACTCCGACCTGCGTGAATCTGGCTCTATCGAGCAGGATGCGGACTTGATCATGTTTATCTATCGTGATG -AGGTGTATCACGAAAACAGTGATTTAAAAGGCATCGCGGAAATTATTATCGGTAAACAACGTAACGGCCCAATCG -GGACGGTACGCCTGACCTTTAACGGTCAATGGTCGCGCTTCGACAACTATGCGGGGCCGCAGTACGACGACGAAT -AATAATTATTTTATGAATTAGGTAATTAAAGCAAACACTTATCAAGGAACACAAATGCAAGCGGCAACTGTTGTG -ATTAACCGCCGCGCTCTGCGACACAACCTGCAACGTCTTCGTGAACTGGCCCCTGCCAGTAAAATGGTTGCGGTG -GTGAAAGCGAACGCTTATGGTCACGGTCTTCTTGAGACCGCGCGAACGCTCCCCGATGCTGACGCCTTTGGCGTA -GCCCGTCTCGAAGAAGCTCTGCGACTGCGTGCGGGGGGAATCACCAAACCTGTACTGTTACTCGAAGGCTTTTTT -GATGCCAGAGATCTGCCGACGATTTCTGCGCAACATTTTCATACCGCCGTGCATAACGAAGAACAGCTGGCTGCG -CTGGAAGAGGCTAGCCTGGACGAGCCGGTTACCGTCTGGATGAAACTCGATACCGGTATGCACCGTCTGGGCGTA -AGGCCGGAACAGGCTGAGGCGTTTTATCATCGCCTGACCCAGTGCAAAAACGTTCGTCAGCCGGTGAATATCGTC -AGCCATTTTGCGCGCGCGGATGAACCAAAATGTGGCGCAACCGAGAAACAACTCGCTATCTTTAATACCTTTTGC -GAAGGCAAACCTGGTCAACGTTCCATTGCCGCGTCGGGTGGCATTCTGCTGTGGCCACAGTCGCATTTTGACTGG -GTGCGCCCGGGCATCATTCTTTATGGCGTCTCGCCGCTGGAAGATCGCTCCACCGGTGCCGATTTTGGCTGTCAG -CCAGTGATGTCACTAACCTCCAGCCTGATTGCCGTGCGTGAGCATAAAGCCGGAGAGCCTGTTGGTTATGGTGGA -ACCTGGGTAAGCGAACGTGATACCCGTCTTGGCGTAGTCGCGATGGGCTATGGCGATGGTTATCCGCGCGCCGCG -CCGTCCGGTACGCCAGTGCTGGTGAACGGTCGCGAAGTACCGATTGTCGGGCGCGTGGCGATGGATATGATCTGC -GTAGACTTAGGTCCACAGGCGCAGGACAAAGCCGGGGATCCGGTCATTTTATGGGGCGAAGGTTTGCCCGTAGAA -CGTATCGCTGAAATGACGAAAGTAAGCGCTTACGAACTTATTACGCGCCTGACTTCAAGGGTCGCGATGAAATAC -GTGGATTAATCGTTCTGTAATATTTGATTGTCTGTGCCGGATGCGGCGTGAATGCCTTATCCGGCCAATAAAATC -CTAAAAATTCAATAAGTTGATGTTCTTTCATGCTCTTATAAAGGTCGTGCCTCTGGCGGATGTACGTTTGTCATG -AGTCTCACTCTGTTGCTAATTGCCGTTCGCTCCTGAACATCCACTCGATCTTCGCCTTCTTCCGGTTTATTGTGT -TTTAACCACCTGCCCGTAAACCTGGAGAACCATCGCGTGTTTCAAAAAGTTGACGCCTACGCTGGCGACCCGATT -CTTACGCTTATGGAGCGTTTTAAAGAAGACCCTCGCAGCGACAAAGTGAATTTAAGTATCGGTCTGTACTACAAC -GAAGACGGAATTATTCCACAACTGCAAGCCGTGGCGGAGGCGGAAGCGCGCCTGAATGCGCAGCCTCATGGCGCT -TCGCTTTATTTACCGATGGAAGGGCTTAACTGCTATCGCCATGCCATTGCGCCGCTGCTGTTTGGTGCGGACCAT -CCGGTACTGAAACAACAGCGCGTAGCAACCATTCAAACCCTTGGCGGCTCCGGGGCATTGAAAGTGGGCGCGGAT -TTCCTGAAACGCTACTTCCCGGAATCAGGCGTCTGGGTCAGCGATCCTACCTGGGAAAACCACGTAGCAATATTC -GCCGGGGCTGGATTCGAAGTGAGTACTTACCCCTGGTATGACGAAGCGACTAACGGCGTGCGCTTTAATGACCTG -TTGGCGACGCTGAAAACATTACCTGCCCGCAGTATTGTGTTGCTGCATCCATGTTGCCACAACCCAACGGGTGCC -GATCTCACTAATGATCAGTGGGATGCGGTGATTGAAATTCTCAAAGCCCGCGAGCTTATTCCATTCCTCGATATT -GCCTATCAAGGATTTGGTGCCGGTATGGAAGAGGATGCCTACGCTATTCGCGCCATTGCCAGCGCTGGATTACCC -GCTCTGGTGAGCAATTCGTTCTCGAAAATTTTCTCCCTTTACGGCGAGCGCGTCGGCGGACTTTCTGTTATGTGT -GAAGATGCCGAAGCCGCTGGCCGCGTACTGGGGCAATTGAAAGCAACAGTTCGCCGCAACTACTCCAGCCCGCCG -AATTTTGGTGCGCAGGTGGTGGCTGCAGTGCTGAATGACGAGGCATTGAAAGCCAGCTGGCTGGCGGAAGTAGAA -GAGATGCGTACTCGCATTCTGGCAATGCGTCAGGAATTGGTGAAGGTATTAAGCACAGAGATGCCAGAACGCAAT -TTCGATTATCTGCTTAATCAGCGCGGCATGTTCAGTTATACCGGTTTAAGTGCCGCTCAGGTTGACCGACTACGT -GAAGAATTTGGTGTCTATCTCATCGCCAGCGGTCGCATGTGTGTCGCCGGGTTAAATACGGCAAATGTACAACGT -GTGGCAAAGGCGTTTGCTGCGGTGATGTAATGCAGGAAAGCAGGCTGGAGCTACCCAGCCTGCAGTGAAATTAAA -CTGTCGTCGCTTTCACTCTTTCTTTATAGATGATTTTTTTGATGCCATCGTTCTACGTGAGAGATAATAAACGTT -GTTAGTTCTTTTATTGTTAAGCTTATCCCAATTATCTGGAATTCCTTATCCTGTTTTTTTGGGTGGAGTAATAAT -TTCTGCACATCTAACCATTATTAAATTTAATAATAAGTATCGGGTTTGTTACGATAGAATATTTCTATATCCTCA -AGAATATGCTTTGCCTTATTGCCTGTGACTTTCTGAGATTCAATTATAGTATCGTTAAATTCTAATGTTAAAGAG -AACTCTTTTTTCCGCTTTGTGTAAGTTTAACCTTATATTGATTACCAATATCAAATAAAAAGGTCCTGTAATGAG -AATAATCACCTTTAACCTCCTCGGCAAAACAGCAAAGCGTGCAAATATACATAAAGTCTTTCTTACCCCTGATTT -TGTTAACTAAATCAATAAATGCGTGAAAAACTTTACTTGCAATAGAACTTGATACTTCTTCTCCAGGTCTAAAAA -ATCTTTTGCAATTTTTAACTGTGTTTCTATGTATAAAAAGAAATCTTTGGCATAAGAGATATCTTTATTATTTAG -TGCATCTAGCTCAACAGGTAAAGATGTCGTTTTGTTGCTATTCACATATGATATATTCATATCATCATCTCCATC -GCGAGTAATAAAATTAATCACCATTGTAGGGTAGGGGGCTGGTCAATCAGAAATCATCTTTATAAACTTCGATTG -TTTTTGTAATGCTGTATCATTAAGTTCATTAAATCGTACAGCAGATAAATGTTCTATCAAATTTCGCTCATTTGC -CGAGGATTCATCATAATAAACGTAAAATTAATGTATCCTTACATCGAGTAATAAACATTTTTTATACAAAAAAAG -ACAGGAACGTATTTACTGGGTTAAATATAATCATCCTGCTTTTCATCACAAAAACCGCAGATAATCCTTCCTTTC -CCCGGCAGCTGGCGTTATGGTCAGATGGTTTTTGCAACAAATCTCACAATAAAAAGTTTCAACATACTGACTATT -TAGGGAAAAATATGCGCAAGATCACACAGGCAATCAGTGCCGTTTGCTTATTGTTCGCTCTAAACAGTTCCGCTG -TTGCCCTGGCCTCATCTCCTTCACCGCTTAACCCTGGGACTAACGTTGCCAGGCTTGCTGAACAGGCACCCATTC -ATTGGGTTTCGGTCGCACAAATTGAAAATAGCCTCGCAGGGCGTCCGCCAATGGCGGTGGGGTTTGATATCGATG -ACACGGTACTTTTTTCCAGTCCGGGCTTCTGGCGCGGCAAAAAAACCTTCTCGCCAGAAAGCGAAGATTATCTGA -AAAATCCTGTGTTCTGGGAAAAAATGAACAATGGCTGGGATGAATTCAGCATTCCAAAAGAGGTCGCTCGCCAGC -TGATTGATATGCATGTACGCCGCGGTGACGCGATCTTCTTTGTGACTGGTCGTAGCCCGACGAAAACAGAAACGG -TTTCAAAAACGCTGGCGGATAATTTTCATATTCCTGCCACCAACATGAATCCGGTGATCTTTGCGGGCGATAAAC -CAGGGCAAAATACAAAATCGCAATGGCTGCAGGATAAAAATATCCGAATTTTTTATGGCGATTCTGATAATGATA -TTACCGCCGCACGCGATGTCGGCGCTCGTGGTATCCGCATTCTGCGCGCCTCCAACTCTACCTACAAACCCTTGC -CACAAGCGGGTGCGTTTGGTGAAGAGGTGATCGTCAATTCAGAATACTGACAGAGCGGGAGAGCGTGATGCTCTC -CCGAATGCTGTTTTTTTAATCACACCTTTATCCTTTCGCTGTCTTGCTGCAAACTGATTAAGAGAGTTTTATCAA -GGAGCAGCACATGTGGTATCAAAAGACGCTCACGCTTAGCGCCAAATCTCGTGGGTTTCATCTGGTAACGGATGA -AATTCTGAATCAGCTGGCTGATATGCCGCGCGTTAACATCGGCTTACTGCATCTGTTGCTGCAACATACCTCCGC -CTCTCTGACACTTAATGAGAACTGCGATCCCACCGTACGCCACGACATGGAGCGTTTTTTCCTCCGCACCGTTCC -CGACAACGGAAATTATGAGCATGACTATGAGGGAGCAGACGATATGCCTTCTCATATCAAATCCTCAATGCTGGG -AACATCGCTTGTATTGCCGGTGCATAAAGGGCGTATTCAGACCGGCACCTGGCAAGGCATTTGGCTGGGGGAACA -TCGCATCCACGGCGGATCGCGTCGCATCATCGCGACACTACAAGGGGAGTAAAAAATGACCATTTCGGAGTTGCT -ACAATATTGCATGGCAAAACCAGGCGCAGAACAGAGCGTGCATAATGACTGGAAAGCGACGCAGATCAAAGTGGA -AGATGTACTGTTTGCGATGGTGAAAGAAGTAGAAAATCGCCCAGCTGTTTCGCTGAAAACCAGCCCGGAGCTGGC -GGAGCTGCTACGTCAGCAGCACAGCGATGTGCGTCCAAGCCGCCATCTGAATAAAGCGCACTGGAGCACCGTGTA -TCTCGACGGTTCGCTGCCAGATTCGCAAATCTATTATCTGGTGGATGCGTCTTATCAGCAGGCGGTGAATTTACT -GCCGGAAGAAAAACGTAAATTGCTGGTGCAACTCTGAAAGGAAAAGGCCGCTCAGAAAGCGGCCTTAACGATTAC -AGCATCGGCTTAAGGAAGCGTGCCGTGTGTGATGCTTCGCACTCCGCGACGGTTTCTGGCGTACCGGAGACGAGG -ATCTCGCCGCCACCACTGCCGCCTTCTGGTCCCAGGTCGACAATCCAGTCAGCGGTTTTGATCACGTCGAGATTG -TGCTCAATCACCACAATGGTGTTGCCCTGATCGCGCAGTTTATGCAGTACGTCGAGCAGTTGCTGAATATCGGCG -AAGTGCAGACCGGTGGTCGGCTCGTCGAGAATATACAGCGTCTGCCCGGTGCCGCGTTTTGACAGTTCACGCGCC -AGCTTCACGCGCTGGGCTTCACCGCCTGAAAGGGTGGTTGCGGACTGCCCCAGTCGAATGTACGTCAGGCCAACG -TCCATCAACGTTTGCAGCTTACGCGCCAGTGCAGGTACGGCATCAAAGAACTCACGCGCCTCTTCGATGGTCATA -TCCAGCACTTCGTGGATGGTTTTGCCTTTGTACTTAATCTCCAGCGTTTCACGGTTATAGCGTTTACCTTTGCAC -TGGTCGCACGGCACGTAGATATCCGGCAGGAAGTGCATCTCCACTTTGATCACGCCATCGCCCTGACAGGCCTCG -CAGCGTCCGCCACGAACGTTAAAGCTGAAACGTCCCGGCGTATAGCCGCGCGCACGGGATTCCGGTACGCCCGCA -AACAGTTCGCGCACAGGCGTAAACACGCCGGTATAGGTCGCCGGGTTAGAACGTGGAGTACGACCAATTGGGCTT -TGGTCGATATCGATCACTTTATCGAAATGCTCCAGCCCCTGAATATCGCGATACGGTGCTGGTTCGGCGATGGTC -GCCCCATTCAACTGGCGTTGGGCAATCGGGAACAGTGTGTCGTTAATCAGCGTCGATTTACCGGAACCTGAAACC -CCGGTGATGCAGGTAAACAGACCCACCGGCAGCGTCAGCGTCACGTCCTTCAGGTTGTTGCCGCGTGCGCCTGTC -AGCTTCAGCACTTTTTCCGGATTCGCCGGAACGCGTTTCTTCGGCACTTCAATCTTGCGTTTGCCGCTCATGTAC -TGCCCGGTCAACGACTCCGGCACCGCCATAATCGCTTCCAGCGGACCTTCTGCGACCACTTCACCGCCGTGAACA -CCTGCGCCCGGGCCAATGTCGATCACATGGTCAGCGGCGCGAATTGCGTCTTCGTCGTGCTCCACCACAATCACG -GTATTACCGAGATCGCGCAGATGGATAAGCGTACCCAACAGGCGCTCGTTATCACGCTGGTGCAGGCCGATAGAC -GGCTCGTCCAGCACGTACATAACGCCAACCAGGCCCGCACCAATCTGGCTCGCCAGACGGATACGCTGTGCTTCA -CCGCCAGAAAGCGTTTCTGCCGAGCGGGAAAGCGTCAGGTAATTCAGGCCGACGTTAACGAGGAATTTCAGACGA -TCGCCGATCTCTTTAAGGATTTTTTCTGCAATCTTCGCCCGCTGACCTGCGAGTTTGAGATTGTTGAAGAATTCC -ATCGCATGACCAATGCTCATGTCGGAGATAGCAGGCAGCGGCGTATTCTCGACATACACGTGGCGCGCTTCCCGA -CGCAGACGCGTCCCTTCGCAGCTGGCGCACGGACGATTACTGATAAACTTGGCTAATTCTTCGCGTACCGCGCTG -GATTCCGTCTCTTTATAGCGGCGCTCCATATTATGCAGCACGCCTTCGAACGGATGACGACGAATGGAGGTATCG -CCACGATCGTTCATGTATTTGAATTCAATGTTTTCTTTGCCAGAACCGTACAACACCACTTTATGCACGTTCGCG -CTCAGGCTGCCCCACGGCGCTTCGACGTCGAACTTATAGTGATCTGCCAGCGATTTCAGCATCTGGAAATAATAG -AAGTTGCGGCGATCCCAGCCACGGATCGCACCACCAGCCAGCGACAGTTCCGGATTCTGGATCACTCGATCAGGA -TCGAAATATTGCTGTACGCCAAGGCCGTCGCAGGTCGGGCAGGCCCCCGCCGGGTTGTTAAACGAAAACAGTCGC -GGCTCCAGTTCACGCATACTGTAGCCGCAAATTGGGCAGGCGAAGTTGGCGGAGAACAGCAGCTCTTCCGCTTTC -GGGTCGTCCATATCCGCCACTACCGCGGTACCACCGGAAAGCTCCAGCGCGGTTTCAAATGACTCGGCAAGACGT -TGGGTAAGATCGTCACGCACCTTGAAGCGATCAACCACCACTTCAATGGTATGTTTCTTTTGCAGTTCCAGTTTT -GGCGGATCGGAAAGATCGCAGACTTCGCCATCAATACGAGCACGGATGTAGCCCTGGCTTGCCAGGTTCTCCAGC -GTTTTGGTGTGTTCGCCTTTGCGCTCTTTAATGATTGGCGCGAGTAGCATCAGACGCTTGCCTTCCGGCTGCGAC -AGCACGTTATCCACCATCTGGCTGACGGTTTGCGCCGCCAGCGGGACGTCGTGGTCCGGACAGCGCGGCTCGCCA -ACGCGGGCGAATAACAAACGCAAATAGTCGTGGATTTCGGTGATTGTCCCCACCGTAGAACGCGGGTTATGAGAC -GTCGATTTCTGCTCAATTGAGATGGCAGGAGAAAGCCCCTCAATATGATCGACGTCCGGCTTTTCCATCAGTGAC -AGAAACTGCCGCGCGTAGGCGGAAAGGGATTCAACGTAACGGCGCTGCCCTTCGGCATATAAGGTGTCGAAAGCG -AGCGAGGATTTGCCAGAACCCGAAAGCCCGGTCACGACAATGAGCTTGTCGCGGGGGATAACGAGGTTGATGTTT -TTGAGATTATGGGTGCGGGCGCCCCGAACTTCGATCTTATCCATTCACCTTTCCCGGATTAAACGCTTTTTTGCC -CGGTGGCATGGTGCTACCGGCGATCACAAACGGTTAATTATGACACAAATTGACCTGAATGAATATACAGTATTG -GAATGCATTACCCGGAGTGTTGTGTAACAATGTCTGGCCAGGTTTGTTTCCCGGAACCGAGGTCACAACATAGTA -AAAGCGCTATTGGTAATGGTACAATCGCGCGTTTACACTTATTCAGAACGATTTTTTTCAGGAGACACGAACATG -GCCAGCAGAGGCGTAAACAAGGTTATTCTCGTTGGTAATCTGGGTCAGGACCCGGAAGTACGCTACATGCCAAAT -GGTGGCGCAGTTGCCAACATTACGCTGGCTACTTCCGAATCCTGGCGTGATAAAGCGACCGGCGAGATGAAAGAA -CAGACTGAATGGCACCGCGTTGTGCTGTTCGGCAAACTGGCAGAAGTGGCGAGCGAATATCTGCGTAAAGGTTCT -CAGGTTTATATCGAAGGTCAGCTGCGTACCCGTAAATGGACCGATCAATCCGGTCAGGATCGCTACACCACAGAA -GTCGTGGTGAACGTTGGCGGCACCATGCAGATGCTGGGTGGTCGTCAGGGTGGTGGCGCTCCGGCAGGTGGCAAT -ATCGGTGGTGGTCAGCCGCAGGGCGGTTGGGGTCAGCCTCAGCAGCCGCAGGGTGGCAATCAGTTCAGCGGCGGC -GCGCAGTCTCGCCCGCAGCAGTCCGCTCCGGCAGCGCCGTCTAACGAGCCGCCGATGGACTTTGATGATGACATT -CCGTTCTGATTTGTCATTAAAACAATAGGTTATATTGTTTTAAGGTGGATGATTAAAGCATCTGCCAGCCATAAA -AAAGAAGCCTCCGTTATGGAGGCTTCTACGTATCAGGTCAAAATCATTGGCCATTGTGGCGGTGTCTGATTCATC -TCTTCTATCATCACCGACTCGATGTTGTGCCAGATAGCGGTGATGTCCGCCATTGTGATGCCAAGCAACCCCATT -GCGAACCAACAGGCGGAAACAACGCCCAGACCGCTGCTGATCACCGCAAGCCCGACATAATCAGACCGACGAAAA -CGGATGTTGAGTGTGCTGGCCAGAAACATCATTACGGCACTAAGAAGTTGCCAGCGAAGAAGAACCACGCCAGTG -GTGAGGGTAGCCATCAAACAATTCCTCTGAAAAGAGCCGATGCCCTGGACAGCGCGGCGTTGTTCACGGGAGGCG -TGGTACACTCTGGCTATCGCGGGGCTTGCAGAACACAAAAATGAAACACTCTGTTTGTTTCATTAATTTTGTGAA -CTATATCACAATTGATTGTTTGTTAGCCATATTAGGCCGTGACTTTTATTGCTGTACAGATTATGTGGTTTTTCA -GTGGCATTAAGGGCATATCTTCCCGCCGCCTCTGCATTCCTGTAGGAAATTAATTTTGAATATCAATGAATTATT -TTCATCCAGGTGACGATTAGAAAGGTATCAATTTCAAATCAGGCAAAAGTGCTATTTATACCGTAAGATTTATCT -AAAGACGTCGGTACCCAGGGTTTTCACCTTGCAATGGCCGGGTATAAACAGGCAGGAAATTGATAGCAATGAGTC -ATCGTGCACGACACCAATTACTGGCGTTGCCGGGCATTATCTTTTTAGTTCTCTTTCCCATCATTCTTTCGCTAT -GGATTGCCTTCCTTTGGGCAAAATCAGAAGTGAATAATCAGCTCCGAACCTTTGCTCAACTGGCACTGGATAAAT -CCGAGCTGGTCATTCGCCAGGCAGATTTAGTGAGCGATGCAGCTGAACGCTATCAGGGGCAAGTTTGCACTCCAG -CCCATCAAAAGCGAATGTTGAATATTATTCGTGGCTATCTTTATATTAATGAATTGATCTATGCCCGTGATAACC -ATTTTTTATGCTCATCGCTGATAGCGCCTGTAAACGGCTATACGATTGCACCGGCCGATTATAAGCGTGAACCTA -ACGTTTCTATCTATTATTACCGCGATACGCCTTTTTTCTCTGGCTATAAAATGACCTATATGCAGCGGGGAAATT -ATGTGGCGGTTATCAACCCTCTCTTCTGGAGTGAAGTGATGTCTGATGACCCGACATTGCAATGGGGTGTGTATG -ATACGGTGACGAAAACCTTTTTCTCGTTAAGCAAAGAGGCCTCGGCAGCAACGTTTTCTCCGCTGATTCATTTGA -AGGATTTAACCGTACAAAGAAATGGCTATTTATATGCGACAGTTTATTCGACAAAACGCCCAATTGCAGCCATTG -TTGCGACTTCATATCAACGTCTTATAACCCATTTTTATAATCATCTTATTTTTGCGTTGCCCGCCGGTATTTTGG -GGAGTCTTGTTCTGCTATTACTCTGGCTACGTATTCGACAAAACTATTTATCTCCCAAACGTAAATTGCAACGCG -CCCTCGAAAAACATCAACTTTGTCTTTATTACCAGCCAATAATCGATATCAAAACAGAAAAATGTATCGGCGCTG -AAGCGTTGTTACGTTGGCCTGGTGAGCAGGGGCAAATAATGAATCCGGCAGAGTTTATTCCGCTGGCAGAAAAGG -AGGGGATGATAGAACAGATAACTGATTATGTTATTGATAATGTCTTCCGCGATCTGGGCGATTACCTGGCAACAC -ATGCAGATCGCTATGTTTCTATTAACCTGTCGGCCTCCGATTTTCATACGTCACGGTTGATAGCGCGAATCAATC -AGAAAACAGAGCAATACGCGGTGCGTCCGCAGCAAATTAAATTTGAAGTGACTGAGCATGCATTTCTTGATGTTG -ACAAAATGACGCCGATTATTCTGGCTTTCCGCCAGGCAGGTTACGAAGTGGCAATTGATGATTTTGGTATTGGCT -ACTCTAACTTGCATAACCTTAAATCATTGAATGTCGATATTTTGAAAATCGACAAATCGTTTGTTGAAACGCTGA -CCACCCACAAAACCAGTCATTTGATTGCGGAACACATCATCGAGCTGGCGCACAGCCTGGGGTTAAAAACGATCG -CTGAAGGCGTCGAAACTGAGGAGCAGGTTAACTGGCTGCGCAAACGCGGCGTGCGCTATTGCCAGGGATGGTTCT -TTGCGAAGGCGATGCCGCCGCAGGTGTTTATGCAATGGATGGAGCAATTACCCGCGCGGGAGTTAACGCGCGGGC -AATAAAATTACAGGCGGTGGCGATAATCGCTGGGAGTGCGATCAAACTGCCGACGGAAAACGCGGGAGAAGGTCT -GCTGCGAGACATAACCCAGGTCCATTGCGATATCAAAAATCGGACGCTCGGTGGTGCGCAACTCAACGGCGGCCA -GTAACAGGCGGCGTTGGCGAATGTAATCGCCAAGCGTCTGATGCGTCACCGTGCGGAACATTCGTTGCAAGTACC -ACTTTGAATAGCCTGATTTTTTTGCGACTACATCAATGTTAAGCGGCTGGTCAATATGCTCGTCAATCCATGCGA -TAAGATCCTGAATAATTTTCTGATGGGACATAAATCTGCCTCTTTTCAGTGTTCAGTTCGTTAATTCATCTGTTG -GGGAGTATAATTCCTCAAGTTAACTTGAGGTAAAGCGATTTATGGAAAAGAAATTACCCCGCATTAAAGCGCTGC -TAACCCCCGGCGAAGTGGCGAAACGCAGCGGTGTGGCGGTATCGGCGCTGCATTTCTATGAAAGTAAAGGGTTGA -TTACCAGTATCCGTAACAGCGGCAATCAGCGGCGATATAAACGTGATGTGTTGCGATATGTTGCAATTATCAAAA -TTGCTCAGCGTATTGGCATTCCGCTGGCGACCATTGGTGAAGCGTTTGGCGTGTTGCCCGAAGGGCATACGTTAA -GTGCGAAAGAGTGGAAACAGCTTTCGTCCCAATGGCGAGAAGAGTTGGATCGGCGCATTCATACCTTAGTGGCGC -TGCGTGACGAACTGGACGGATGTATTGGTTGTGGCTGCCTTTCGCGCAGTGATTGCCCGTTGCGTAACCCGGGCG -ACCGCTTAGGAGAAGAAGGTACCGGCGCACGCTTGCTGGAAGATGAACAAAACTAAAGCGCCACAAGGGCGCTTT -AGTTTGTTTTCCGGTCTTTGTCTTTCTCTCTATCCCGCTGGTACACAGGAGGGTTTCCCCCGACGTCAACACACC -TCATTCGAGCACGTGGTGGAGGTTCCGGTTGGTGTTGATGCTTTAATTGTATGTCACCGACGTTTCTTCGCCAGT -GTAAAAGTATACTTTTTAACCGCAATATTTTTGTCATCTCAGACGATTTTTTATCGCAATCCTGAACGGTATACG -GCTCGATAACGCTGCAATCTTGCGCACCGACGATAACGTTTGCGCATCAATTGCCTGGTTTTTCATCGTCAAGAC -AATAAAAGAGAAAAAAGCAGCAAACTTCGGTTGAAAAAGCCGCTATGATCGCCGGATAATCGTTTGCTTTTTTTA -CCACCCGTTTTGTATGCGCGGAGCTAAACGTTTGCTTTTTTGCGACGCAGCAAATTGTCGCAAACCTGGAGCAGG -AAGATAACGTTTCGCTGGCAGGGGATTGTCCGCCACGCATCTTGACGAAAATTAAACTCTCAGGGGATGTTTTCT -TATGTCTACGCCATCAGCGCGTACCGGCGGTTCACTCGACGCCTGGTTTAAAATTTCACAACGTGGAAGCACTGT -CCGTCAGGAAGTGGTTGCCGGGTTAACAACGTTTCTGGCGATGGTCTACTCGGTCATCGTCGTTCCAGGTATGTT -GGGTAAAGCAGGCTTCCCGCCTGCGGCAGTTTTCGTTGCAACCTGTCTGGTTGCCGGACTCGGTTCTATCGTGAT -GGGTCTGTGGGCTAATCTGCCGTTGGCGATTGGTTGCGCCATCTCCCTGACAGCGTTTACCGCATTCAGCCTGGT -GCTGGGGCAACATATTAGCGTACCTGTCGCGCTGGGTGCCGTGTTCCTGATGGGTGTGCTGTTTACGGTAATTTC -TGCCACGGGTATCCGTAGCTGGATTTTGCGCAACTTGCCTCACGGTGTGGCGCACGGCACGGGGATTGGTATCGG -TCTGTTCCTGCTGCTCATTGCCGCTAACGGTGTCGGTCTGGTGATTAAAAACCCGCTTGATGGTCTGCCCGTTGC -GCTGGGTGATTTCGCGACCTTCCCGGTGATTATGTCACTGGTAGGTCTGGCGGTGATCATCGGCCTGGAAAAACT -GAAAGTCCCTGGTGGCATTCTGCTGACCATTATCGGTATCTCAATTGTCGGTTTGATCTTCGATCCTAACGTCCA -TTTCTCCGGCGTTTTCGCCATGCCTTCATTGAGCGATGAAAACGGCAATTCACTGATTGGCAGCCTGGACATTAT -GGGCGCGCTGAATCCTGTAGTCCTGCCAAGCGTTCTGGCGCTGGTGATGACGGCAGTATTTGATGCCACCGGAAC -TATCCGTGCCGTCGCCGGCCAGGCGAACCTGCTGGATAAAGATGGGCAGATCATCGACGGTGGGAAAGCACTGAC -CACTGACTCCATGAGCAGCGTTTTCTCTGGCCTGGTGGGTGCGGCTCCGGCAGCGGTATACATCGAGTCTGCGGC -GGGTACGGCGGCGGGCGGTAAAACCGGTTTGACGGCTATCACCGTTGGCGTGCTGTTCCTCCTGATTCTGTTCCT -CTCTCCGCTCTCTTACCTCGTTCCGGGGTATGCAACGGCTCCGGCGCTGATGTACGTTGGCCTGCTGATGCTGAG -CAACGTGGCGAAAATCGACTTTGCTGATTTTGTTGATGCGATGGCGGGTCTGGTTACGGCTGTATTCATCGTGCT -GACCTGTAACATCGTAACAGGCATCATGATCGGCTTCGCGACTCTGGTGATTGGTCGTCTGGTTTCCGGCGAATG -GCGCAAGTTGAACATCGGTACGGTCGTTATCGCCGTGGCGCTGGTGACCTTCTATGCGGGTGGCTGGGCTATCTA -ATCTTTCATCGGATTCTGAAAACGGGTGGCAATGGCTGCCCGTTTTTATTTTCTCCGCACATTGTGTGAGCTTTT -GCGATATTCTGAAAAAAATGAGAATTCAGGCATAACGTCTTTCTCAGATCATAAAAAACATCGCAAACAGGGAAC -GCATGGAAATCTTCTTCACCATACTGATAATGACCCTCGTGGTCTCGCTGTCCGGGGTGGTCACTCGTGTCATGC -CCTTTCAGATCCCGCTTCCGCTTATGCAAATCGCCATCGGTGCGCTACTGGCGTGGCCGACGTTTGGTTTGCATG -TGGAGTTTGATCCTGAACTCTTTTTAGTCTTGTTTATCCCGCCGTTGCTGTTCGCTGATGGCTGGAAAACGCCGA -CCCGTGAATTTCTCGAACATGGTCGAGAGATTTTCGGCCTCGCGCTGGCGCTGGTGGTGGTCACCGTGGTCGGCA -TTGGCTTCCTTATTTACTGGGTGGTGCCGGGCATTCCGCTGATCCCTGCCTTTGCGCTGGCGGCGGTGCTTTCTC -CGACCGATGCTGTGGCGCTCTCCGGGATTGTTGGCGAAGGGCGCATCCCGAAAAAAATCATGGGCATTTTGCAGG -GCGAAGCGTTGATGAATGACGCCTCCGGTCTGGTGTCGTTGAAGTTTGCCGTAGCAGTGGCGATGGGGACGATGA -TCTTCACCGTCGGCGGTGCGACGGTCGAATTTATGAAAGTAGCCATTGGCGGTATTCTCGCCGGTTTTGTGGTGA -GCTGGCTGTACGGTCGCTCGCTGCGATTCCTCAGCCGCTGGGGCGGTGATGAACCCGCGACGCAGATCGTCCTGC -TGTTCCTGCTGCCATTCGCTTCTTATCTGATTGCCGAACATATTGGCGTTTCCGGCATCCTCGCTGCGGTTGCCG -CCGGGATGACCATCACCCGCTCCGGTGTGATGCGCCGTGCGCCGCTGGCAATGCGCCTGCGTGCAAACAGCACCT -GGGCGATGCTGGAATTTGTCTTTAACGGCATGGTGTTCCTGCTGTTAGGTCTGCAGCTGCCGGGTATTCTGGAGA -CGTCGCTGATGGCAGCAGAAATCGACCCTAACGTCGAAATCTGGATGCTGTTTACCAATATTATTCTGATATATG -CGGCGCTGATGCTGGTCCGTTTCGGCTGGCTGTGGACGATGAAAAAGTTCAGCAACCGCTTCCTGAAGAAGAAGC -CGATGGAGTTTGGTTCGTGGACCACACGAGAAATCCTGATCGCGTCTTTCGCCGGGGTGCGTGGGGCGATCACTC -TGGCCGGTGTGCTCTCTATCCCGCTGCTCTTGCCGGATGGTAACGTCTTCCCGGCGCGCTATGAGCTGGTGTTCC -TGGCGGCTGGCGTCATTCTCTTCTCGCTGTTTGTCGGCGTGGTGATGTTGCCTATTCTGCTACAACACATTGAAG -TCGCGGATCATTCGCAACAATTGAAAGAGGAACGTATTGCGCGAGCGGCAACGGCAGAAGTGGCGATTGTGGCGA -TCCAGAAAATGGAGGAGCGTCTGGCGGCGGATACCGAAGAGAATATCGATAACCAGCTGCTTACGGAGGTCAGTT -CTCGCGTCATTGGTAACCTGCGTCGTCGCGCCGATGGACGTAACGACGTTGAAAGTTCCGTGCAGGAAGAGAACC -TTGAGCGTCGCTTCCGTCTGGCGGCATTGCGTTCTGAACGTGCTGAACTTTACCACCTGCGCGCCACACGGGAGA -TCAGCAACGAAACGCTGCAAAAATTACTGCACGATCTCGATTTGCTTGAAGCGTTGCTAATTGAGGAAAATCAGT -AAGCCGAAAGCGACGTAACCAGGCCCGAGGTAATCTGAAAAAGGTGCAATCTTTTGCACCTTTAACAGGTTAGCT -CGGGCTAACATTCATGATTCTAAAACAAATAAATTATCTCTCTTTTAAAGTCAATTCATTGGCTGTTCTTCGACT -TAACCTCAATCTGCATCTTGCATAATATCTGCAGTAATCTTCATAGCGACTGCATGAAGATTATCCTCAGTTTGT -GACATGCCAGTATGAGTGGCACAATCTTCTTCAAAGAATTTCTGTAGTGTTACCAGGATATCACTATTAATGGAG -ATATTTTCCTCACCACGGAGAATGGTAATACCCATTCCCTGGACGCTAGCCTCATCGAAATTAACACGATAGAGA -CGGATATTAAACATCCAGGCTTTTGTTAAAACAGAACAGTTGAAATGGCAATTGCTTAAATTGGCATTATTAAAA -TTAACATTAGCCATATTAGAGTCGGTACATATAACCATTTCGAGGAACGTATTTGTTAACCGCGTAAAAAAGAGT -TTGCTATCAATTAAGTTTATATTCTGGAGGGTTGCTTTATTCAGGTTGACACGAGACAGATCAGCATGTTCAAAG -TTAATTAAATCAAGTTTAGAGAAGCTAAGGTCGGCTCTAAATAAATTAATATATGGCGCTATTACTTTATAAAGA -TTTACCTCAGCCATGTATGCCATATAAAAATTTGAATAATCAAGGAAGGTATTTTTAATATTGGCTCTATTCATT -GTTGCATTGTAGAATTGAACATGCATAGCGGAACATGAATTTAGAGTTCCGTCAGTCATTTTTATCTGAGCGAAA -TTTGAGTCATCGAGAATACAATTATCAAAAAGTATTTTTTCCATTATGGCGAAATTAAAATTCGTTTTATACATA -TTACAGTCCTGAAAAATAGCGTTTTGTAGTCTGCAACCTGCAAAATTCGAATTGGATAAATCTTCATCTTTAATC -ACGATACCTTTCAGGCTAAGGTGTGAAAAATCGTAACCACCATTTACTGTCTGTGGGATTTCGATAGTATTATTA -TGGACGGTGACATTATTTATAAAATATACCACCTTAATTGACACTTCCTTATCTTTATTAAGGTAAACTCTTCTC -GTAATTCTATCGTCACATTTATTATTTGCATGTGAAGCTATATCTATAAAATATTTATGTATTTTCCTGTCCGTT -TCTTTCGTGATTTTTCCTGATGGTAAACTATCATAAATTCTTTTCATTTTCTGAATCAAGCCTATCACTTTTTCA -TGATCATCCATTTTGAAAAGAGAGAGGGCTTTATTGTCAATTAACGTGTTTTTATGATGTTTGCTGTAATTATCT -GATTTTGTTTTCTTTGTATGTGATGGACTTGTGACAGAGTGGTTATCGTTAATCAGGCAAAGAGGGAAAAACATA -TTATTTAAACCATTATAGCGCATAAAATATCCTTATAATTAACAAGAAAGAAAAGGCATATTCTCTGCATTATCA -TTTTCTACGACTGTCAAAAATCGCTCATTTTTTAATGAGTTTATTTGTTTAATATTATGGGAAAAGGTGATGCAT -TTGGGAGAGGAAGAGTATTCCCCGGTCAGACGACCGGGGAAGGGGAGAGATTAATGCGCGCGGCCTTGCTCAACG -CCAAAGCCGGTCTGGGAGCGGATAAACTGCGCGCGGAACAGTTCACGCTCACGCGCGCCTTCCGCTGAGTTATCG -GTTGCCGAGAAGAACCAGATGCCGAGGAATGCCACGGTGATAGAGAACAGCGCCGGGTATTCATACGGGAAGATG -GCTTTTTCGTGACCAAGGATCTGTACCCAAATCGTCGGGCCGAGGATCATCAGTACTACTGCGGTAATCAGCCCC -AGCCAGCCACCCATCATCGCGCCACGCGTGGTCAGTTTCGACCAGTACATAGAAAGCAGAATGATCGGGAAGTTA -CAGCTCGCCGCGATGGCAAACGCCAGCCCCACCATAAAGGCGATGTTCTGATTCTCAAACAGCACGCCGAGGATA -ATCGCAATCACGCCGAGGATCAGTACGGTGATTTTTGATACCCGCAGCTCTTCACGTTCGGTCGCGCCTTTTTTG -AAGACGTTAGCGTACAAGTCATGCGAAACCGCGGATGCGCCCGCCAGCGTCAGACCCGCAACCACCGCGAGGATA -GTGGCGAAAGCAACCGCTGAAATAAAACCGAGGAACAGGTTGCCGCCCACTGCATTCGCCAGGTGAACGGCCGCC -ATGTTGTTACCACCAATCAGATGGCCCGCCGCGTCTTTATATTCCGGATTCGCACCAACCAGCATGATCGCGCCG -AAGCCGATAATAAAGGTCAGAATATAGAAGTAGCCCATAAACCCGGTGGCGTAGAACACGCTCTTACGTGCTTCG -CGGGCATCGCTGACTGTAAAGAAGCGCATCAGAATGTGCGGCAAGCCCGCCGTACCAAACATCAGTCCCAGACCC -AGAGAGAGCGCGGAGATCGGATCTTTCACCAGCCCGCCCGGCTTCATGATGTCGACACCTTTCGGGTGTACCGCC -ATCGCTTCACTGAACAGATTGTTGAAGCTAAAGCCGACGTGTTTCATCACCATAAAGGCCATAAAGCTGGCACCG -AACAGCAACAGCACGGCTTTGATAATTTGCACCCAGGTGGTCGCCAGCATGCCGCCGAACAGGACGTACATCATC -ATCAGCACGCCGACCAGCACCACCGCAATGTGATAGTTAAGGCCAAACAGCAGCTCGATCAGTTTACCTGCGCCC -ACCATCTGGGCGATAAGGTAAAGCGCCACCACCACCAGAGAACCACAGGCCGAAAGAATACGAATCGGCCCTTGT -TTCAGACGGTAAGAGGCCACATCGGCAAAGGTGTAGCGCCCCAGGTTACGCAGACGTTCGGCAATCAGGAACAAA -ATGATCGGCCAGCCCACCAGGAAGCCCAGCGAGTAAATTAAGCCGTCATAGCCGGAGGTAAACACCAGCGCGGAG -ATCCCCAAGAATGAGGCGGCGGACATATAGTCCCCGGCAATCGCCAGCCCGTTCTGGAAGCCAGTGATATTGCCG -CCTGCGGTGTAGTAGTCGCTACGAGAACGTACGCGTTTTGATGCCCAGTAGGTAATGCCGAGCGTAAACACGACG -AAAATCAGGAACATAATAATCGCCTGCCAGTTCGTTGGCTGGCGCTCTACGGCCCCGCTAATAGCATCCGCGGCG -TTAGCTGCGAAAGGGAGTGTGGCGGCAAGCGCCGTCAGAACTCTTTTCATGATGCTTGTACCTCATGCAGGACTT -CATTATTAAGACGGTCGAATTCGCCGTTCGCCCGCCAGATGTAGATACCGGTGAGAACAAAGGAGATCACAATCA -CTCCAACACCAATTGGAATACCGCGTGTGACGCTGGTGTTCGGATTCAGCGGCGTGCCCAGCCAGCCGGGCGCGA -AGGCGATCAGTAAAATAAAGCCGATATAAACTGCCAGCATAATAATCGACAGGATGGTGGCAAACCGTTGCCGTT -TTTCGACTAACTCCCTGAAATGCGCATTGTCTTCTATCCGCTGATAAATAGTGCCATTCATCACAGATTCTCCAG -AGGTAATGTAGGGATTGTTTTAATTCCCGCTCCCTTATGGGAGAAGGTTAACGCTCGGGTAACCCTTGCCGAATG -TAGGCCGGATAAGGCGTTTACGCCGCATCCGGCAATCAATGCCTGATGCGACGCTGTCGCGTCTTATCAGGCCTA -CAAACCGTTACCGACTCGCATCGGGCAATTGTGGGTTACGATGGCATCGCGATAGCCTGCTTCTCTTCAAGCAGC -TTCTCGACTACGCCAGGATCGGCAAGCGTCGAGGTATCGCCCAGGTTGCTGGTATCGCCCGCCGCAATTTTGCGC -AGAATACGGCGCATAATTTTGCCGGAGCGGGTTTTAGGCAGGGAGTCGGTCCAGTGCAGCACGTCTGGCGTCGCC -AGCGGGCCAATCTCTTTACGCACCCAGTTGCGGACTTCTGCGTACAGTTCTGGTGACGGTTCCTCCCCGTGATTA -AGCGTGACGTAGGCGTAGATCGCCTGACCTTTAATATTGTGCGGAATACCTACTACGGCGGCTTCGGCAATCTTC -GGATGCGCCACCAGCGCCGACTCAATCTCTGCCGTCCCCAGACGGTGACCGGAGACGTTCAGCACGTCGTCCACA -CGCCCGGTTATCCAGTAATAGCCATCTTCATCGCGACGCGCGCCGTCGCCGCTGAAATACATATTTTTGAAGGTG -GAGAAGTAGGTCTGTTCAAAACGTTCGTGATCGCCAAACAGCGTACGCGCCTGACCCGGCCAGGAGTCGGTGATT -ACCAGGCTACCTTCGGTGGCCCCCTCCAGCGGGTTACCTTCGTTATCGACCAGCGCCGGTTGCACGCCGAAGAAC -GGACGTGTTGCCGAACCGGCTTTCAGCTCGGTAGCGCCAGGCAGCGGGGTGATCATGAAACCGCCGGTTTCGGTC -TGCCACCAGGTATCGACCACCGGACATTTCTCGTTGCCGATTTTTTTCCAGTACCACTCCCACGCTTCCGGGTTA -ATTGGCTCGCCCACGGAACCGAGAATGCGCAGCGACGAACGGTCGGTGCCTTCGATCGCTTTATCGCCTTCCGCC -ATCAGCGCGCGGATCGCCGTGGGTGCGGTATAGAGAATATTGACCTGATGCTTGTCCACCACCTGCGCCATACGG -GCAGGCGTCGGCCAGTTGGGTACGCCTTCAAACATCAGCGTGGTCGCACCGCAGGCCAGCGGGCCGTACAGCAAG -TAACTGTGTCCGGTCACCCAGCCCACATCGGCGGTGCACCAGTAGATATCACCCGGATGATAATCAAAGACATAT -TTAAAGGTCAGCGCCGCGTACACCAGATAACCGCCGGTAGTATGCAGCACACCTTTTGGCTTACCGGTAGAACCG -GAGGTGTAGAGAATAAACAGCGGATCTTCGGCGTTCATCTCTTCCGCCTGGTGCTGATCGCTCGCTTGCTCAACC -AGGTCGTGCCACCACAGGTCGCGCCCTTCCTGCCAGTCAATTTTCCCGCCAGTACGCTTCAGTACCACCACATGC -TCTACGCTGGTGACGTTCGGGTTTTTCAGCGCGTCATCAACGTTTTTCTTCAGCGGAATACTGCGCCCGGCACGC -ACACCTTCGTCGGAAGTGATCACCAGTCGTGAGTTGGAATCAATAATGCGCCCGGCAACGGCTTCCGGCGAGAAG -CCGCCGAAAATCACCGAATGCACCGCGCCAATGCGGGCGCAGGCCAGCATCGCAACCGCGGCTTCCGGCACCATC -GGCATATAAATCGCCACCACATCACCTTTTTTAATGCCCAGCTCGAGCAGGGTATTGGCGAAGCGGCAGACGTCG -CGGTGCAGCTCTTTATAGCTGATATGTTTGCTCTGGCTGGCGTCGTCGCCTTCCCAGATGATGGCGGTACGATCG -CCGTTTTCTTGCAGATGGCGGTCAAGGCAGTTTGCCGCCAGATTCAGCGTGCCGTCCTCGTACCATTTAATGGAC -ACATTACCGGGGGCAAAGGAGGTGTTTTTCACCTTCTGGTAAGGTTTGATCCAGTCAAGAATTTTTCCCTGTTCG -CCCCAGAAGGTATCAGGTACGTTAATAGATTGTTGATACATCGCCTCGTACTGCTGAGGGTTTATCAGGCAACGG -TCTGCGATGTTGGCAGGAATGGTGTGTTTGTGAATTTGGCTCATGCTTTTGTTCTCCTTGTAGGATGTTAATAAT -ATGTGGCATAAGCGTTAAATGTAGGGGTATTGGCAGTTTTGTTTAGTATTTGGGCGACAGATCACGCAAAAGTAG -AATTGTGCAAATAAACGGCAGGGTAATTTTTGAAGGTCAGCAACAAAAGTTGATTAATTCTTTGAGGAACATGCA -GTTATGCATGCTGTTGAAAAAGAGGAAGATACTGACTAACTCTAAAGTGGTATTTTACATGCACTTACAATTGAT -TAAAGACAACATTCACAGTGTGGTTATTTGTTACACATAGGGGCGAGCAATGTCATGACAGTGTAGGTGCGGTTA -CTGTCGTGAAAAACAATAAAAACCGCCATTGCAACAATGGCGCAATTCGGATGAAGCCCCTATGACAAGGATAAA -AATAAACGCACGCCGTATCTTCAGCTTATTGATTCCTTTTTTCTTTTTCACTTCTGTTCACGCTGAACAAACGGC -TGCTCCCGCAAAACCTGTAACTGTGGAAGCGAAGAATGAAACCTTTGCCCCGCAGCATCCCGATCAATATCTCTC -CTGGAAAGCCACCTCGGAACAGTCAGAGCGTGTTGACGCCCTGGCGGAAGATCCACGGCTGGTGATCCTGTGGGC -GGGGTATCCCTTCTCGCGCGATTACAACAAGCCGCGTGGACATGCTTTTGCTGTGACCGATGTGCGTGAAACCCT -GCGTACCGGTGCGCCGAAAAACGCTGAAGATGGTCCGCTACCGATGGCATGCTGGAGTTGTAAAAGCCCGGATGT -GGCGCGTCTGATCCAGAAAGACGGCGAAGATGGCTACTTCCACGGTAAATGGGCGCGCGGCGGTCCGGAAATCGT -CAACAACTTAGGTTGTGCCGATTGCCATAACACCGCCTCTCCAGAGTTCGCCAAAGGCAAACCGGAGTTAACCCT -TTCCCGTCCGTATGCGGCTCGCGCGATGGAAGCCATTGGTAAACCTTTTGAGAAAGCCGGACGTTTCGACCAGCA -ATCGATGGTTTGCGGTCAGTGCCATGTGGAGTATTACTTCGACGGCAAAAACAAAGCGGTTAAATTCCCGTGGGA -TGACGGCATGAAAGTCGAAAATATGGAGCAGTATTACGACAAAATTGCCTTCTCTGACTGGACTAACTCCCTGTC -GAAAACGCCAATGCTGAAAGCGCAGCACCCGGAATATGAAACCTGGACAGCGGGCATTCACGGTAAAAACAACGT -GACCTGTATCGACTGCCATATGCCAAAAGTGCAGAACGCCGAAGGCAAACTCTACACCGACCATAAAATTGGTAA -TCCGTTTGATAACTTCGCCCAGACTTGTGCGAACTGCCATACCCAGGACAAAGCTGCCTTGCAAAAAGTGGTCGC -GGAACGTAAGCAGTCGATTAACGACCTGAAAATCAAGGTTGAAGATCAACTGGTTCACGCTCACTTCGAAGCGAA -AGCAGCGCTGGATGCAGGCGCGACGGAAGCTGAAATGAAGCCAATTCAGGACGATATCCGTCATGCCCAGTGGCG -CTGGGATCTGGCGATCGCTTCCCACGGCATTCATATGCACGCACCGGAAGAAGGTTTACGGATGCTCGGTACGGC -GATGGATAAAGCGGCGGATGCACGCACCAAACTGGCGCGCCTGCTGGCGACCAAAGGCATCACCCATGAAATCCA -GATCCCGGATATCTCAACCAAAGAGAAAGCCCAGCAGGCCATTGGCCTGAACATGGAACAAATCAAGGCCGAGAA -GCAGGACTTCATCAAAACGGTGATCCCGCAGTGGGAAGAACAGGCACGTAAAAACGGTCTGTTAAGCCAATAACC -CCGTTCCGCCTCGCAAGGGGCGGAAAACACAATGGAGTGAATATGAGCGTATTACGTTCGTTATTAACTGCCGGG -GTGCTGGCGTCGGGCCTGTTGTGGAGCCTGAACGGAATTACCGCTACCCCTGCGGCGCAGGCATCTGATGATCGC -TACGAAGTTACCCAGCAGCGTAACCCGGATGCCGCCTGTCTGGACTGTCATAAACCAGATACCGAAGGTATGCAT -GGAAAACATGCTTCCGTTATCAACCCGAATAACAAACTGCCGGTCACCTGCACCAACTGTCACGGCCAGCCATCA -CCGCAACACCGCGAAGGGGTGAAAGATGTGATGCGCTTTAACGAGCCGATGTACAAGGTTGGAGAGCAGAACAGC -GTCTGTATGTCCTGTCATCTGCCGGAACAGTTGCAAAAAGCGTTCTGGCCGCACGATGTCCACGTAACCAAAGTG -GCGTGCGCCAGCTGCCATTCCCTGCATCCACAGCAAGATACGATGCAGACGTTAAGTGACAAAGGACGGATTAAG -ATTTGCGTCGATTGCCACAGCGATCAGCGCACCAATCCGAACTTTAACCCGGCGTCTGTTCCGTTGCTTAAGGAG -CAGCCATGACCTGGTCTCGTCGCCAGTTTCTCACCGGCGTCGGCGTGCTGGCAGCCGTCAGCGGCACCGCAGGGC -GCGTGGTGGCGAAAACGTTGAATATCAATGGGGTGCGTTACGGCATGGTGCATGACGAGTCGTTATGCATCGGCT -GTACCGCCTGTATGGATGCTTGTCGGGAAGTGAACAAGGTGCCGGAAGGCGTCTCGCGCCTGACGATTATTCGTA -GCGAGCCGCAGGGCGAATTTCCTGATGTGAAATATCGCTTCTTCCGTAAGTCTTGCCAGCACTGCGATCATGCGC -CGTGCGTTGACGTCTGCCCGACCGGTGCGTCTTTTCGCGATGCTGCCAGTGGGATTGTCGATGTTAATCCGGATC -TCTGCGTCGGTTGTCAGTACTGCATCGCCGCCTGTCCGTACCGCGTGCGCTTTATCCATCCGGTCACGAAGACGG -CGGACAAATGCGATTTCTGCCGTAAGACCAATTTGCAGGCCGGTAAGTTGCCCGCGTGCGTTGAAGCTTGCCCGA -CCAAGGCGCTGACGTTTGGCAATCTGGACGATCCCAACAGTGAGATTTCGCAACTGCTGCGCCAGAAGCCCACTT -ACCGCTACAAGCTGGCGCTGGGAACCAAACCGAAGCTGTACCGCGTACCGTTTAAATACGGGGAGGTGAGCCAAT -GACGCAGACTTCCGCATTTCATTTTGAATCGCTGGTGTGGGACTGGCCGATTGCCATCTACCTGTTTTTGATTGG -TATTTCTGCTGGTCTGGTGACGCTGGCCGTGCTGTTACGTCGCTTCTACCCGCAGGCGGGCGGTGCAGACAGTAC -GTTGCTGCGCACCACGCTGATTGTCGGGCCGGGCGCGGTGATCCTCGGTCTGTTGATCCTCGTCTTCCACCTGAC -AAGACCGTGGACCTTCTGGAAGCTGATGTTCCACTACAGTTTTACCTCGGTGATGTCGATGGGGGTGATGCTGTT -TCAGCTCTACATGGTGGTGCTGGTGCTGTGGCTGGCGAAAATCTTTGAACATGATTTGCTTGCCCTGCAACAACG -CTGGTTGCCGAAGCTGGGGATCGTGCAAAAGGTTCTGAGCCTGCTGACGCCCGTTCATCGCGGACTGGAAACATT -GATGCTGGTGCTGGCGGTGTTGTTGGGGGCTTATACCGGCTTTCTGCTGTCGGCGCTGAAATCGTATCCGTTCCT -CAATAACCCGATCCTGCCGGTGCTGTTCCTCTTCTCCGGCATCTCGTCCGGTGCGGCGGTGGCGCTGATCGCCAT -GGCGATACGCCAACGCAGTAACCCGCATTCCACGGAAGCGCAGTTTGTACACCGTATGGAAATCCCTGTGGTATG -GGGTGAAATCTTCCTGCTGGTGGCGTTTTTTGTCGGTCTGGCGCTGGGCGATGACGGTAAAGTTCGTGCGCTGGT -GGCGGCATTAGGTGGCGGTTTCTGGACGTGGTGGTTCTGGCTTGGTGTCGCCGGGCTGGGGCTGATTGTGCCAAT -GCTGCTCAAACCGTGGGTCAATCGCAGTTCCGGCATTCCTGCCGTGCTGGCGGCGTGTGGGGCCAGTCTGGTCGG -CGTGTTGATGCTGCGCTTTTTCATTCTCTACGCCGGACAGTTGACGGTGGCGTAAGCCAGAAAAGAGGTGGTTTC -TGGACGTATTCCTTCCTGAAGTCGGTTTTCTGGCGTTGTTGTTAAGTCTCGGGGTCAACGTGTTGACCCCGTTGA -CGGCCTTCGCGGGAGTGCGGTTGCGCTGGCCTGCCATGATGCGACTCACTTGCATCGGCATTCTGGCGCAGTTCG -CGCTCCTGCTGCTCGCCTTTGGCGTACTGACGTATTGTTTTCTCATCAGCGATTTCTCGGTCATTTATGTCGCGC -AACATAGCTATAGCCTGCTGTCGTGGGAACTCAAGCTGGCAGCGGTGTGGGGCGGCCATGAAGGTTCGCTGCTGC -TTTGGGTGCTGCTGCTTTCCGCCTGGAGCGCGCTGTTTGCCTGGCATTATCGGCAGCAAACCGATCCGCTATTTC -CGCTGACGTTAGCCGTTTTATCTCTCATGCTCGCCGCACTGCTACTGTTTGTGGTGCTGTGGTCCGATCCCTTCG -TGCGGATATTTCCACCAGCAATCGAAGGCCGCGATCTCAATCCGATGCTGCAACATCCCGGTCTTATCTTTCATC -CACCGCTGCTTTACCTTGGCTATGGCGGTTTGATGGTAGCGGCGAGCGTGGCGCTGGCGAGTCTACTGCGCGGCG -AGTTTGATGGTGCCTGCGCCCGAATTTGCTGGCGCTGGGCGTTACCTGGCTGGAGTGCATTAACGGCGGGGATCA -TCCTCGGTTCCTGGTGGGCCTACTGCGAACTCGGCTGGGGCGGCTGGTGGTTCTGGGATCCGGTGGAAAACGCCT -CTTTATTACCCTGGCTTTCTGCCACTGCGCTGCTGCACAGTTTGTCCCTGACACGCCAGCGGGGGATTTTTTGCC -ACTGGTCGCTGTTGCTGGCGATAGTTACTCTGATGCTGTCGCTGCTGGGCACCTTAATTGTCCGTTCTGGCATTC -TGGTTTCGGTTCATGCGTTCGCGCTGGATAACGTCCGCGCCGTGCCGTTGTTCAGCCTGTTTGCACTGATTAGCC -TTGCGTCTCTGGCTCTGTATGGCTGGCGAGCGCGGGACGGTGGCCCGGCGGTGCATTTTTCGGGGTTATCGCGGG -AAATGTTAATCCTCGCTACGCTGTTGCTGTTTTGCGCAGTGCTACTGATCGTGCTGGTGGGAACGCTTTATCCGA -TGATTTACGGCCTGCTGGGCTGGGGACGCCTCTCCGTTGGCGCGCCGTATTTTAACCGCGCGACGTTACCGTTTG -GTCTGTTGATGCTGGTGGTGATTGTGCTGGCGACGTTTGTCTCTGGCAAACGCGTGCAGCTTCCGGCGCTGGTAG -CTCATGCGGGCGTGCTGTTATTTGCCGCTGGGGTCGTGGTCTCCAGCGTCAGCCGTCAGGAGATCAGCCTGAATT -TACAGCCGGGTCAGCAGGTGACGCTGGCAGGATACACCTTCCGTTTTGAGTGCCTCGATCTACAAGCCAAAGGCA -ATTACACCAGCGAAAAAGCGATAGTGGCACTGTTTGACCATCAGCAACGCATTGGTGAACTGACGCCGGAGCGGC -GTTTTTATGAAGCACGCCGTCAACAAATGATGGAACCGTCAATTCGCTGGAACGGCATCCATGACTGGTATGCGG -TCATGGGGGAGAAAACTGGGCCGGATCGTTACGCTTTTCGTTTGTATGTACAAAGCGGTGTGCGCTGGATCTGGG -GGGGAGGATTGTTGATGATTGCGGGCGCATTGTTAAGCGGATGGCGGGGGAAGAAGCGCGATGAATAAAGGGCTT -CTCACGCTACTGCTGTTATTTACCTGTTTTGCGCACGCTCAGGTCGTAGACACCTGGCAATTCGCCAATCCGCAA -CAACAGCAACAGGCGTTAAATATTGCCAGCCAGTTACGTTGTCCGCAGTGCCAGAATCAAAACTTACTGGAATCC -AACGCGCCGGTGGCTGTCAGTATGCGCCATCAGGTTTACAGCATGGTGGCGGAGGGGAAGAACGAAGTCGAAATC -ATTGGCTGGATGACCGAACGCTACGGAGATTTTGTTCGCTATAACCCACCGTTAACGGGTCAGACGCTGGTGTTA -TGGGCGCTGCCAGTGGTGTTGTTACTGCTGATGGCACTGATCCTCTGGCGAGTGAGGGCGAAGCGATGAAACAGC -CCAAAATACCGGTGAAAATGCTGACAACACTCACGATATTGATGGTATTTCTCTGTGTCGGCAGTTATCTGTTAA -GCCCAAAATGGCAGGCGGTACGTGCGGAGTATCAGCGTCAGCGCGATCCGCTACATCAGTTTGCCAGCCAGCAAA -CCCCGGAAGCGCAGCTTCAGGCATTGCAGGATAAAATCCGCGCTAATCCACAAAACAGCGAACAGTGGGCGTTAC -TGGGCGAGTACTATCTGTGGCAAAACGATTACAGCAATTCGTTGCTGGCGTACCGTCAGGCGTTGCAACTACGTG -GTGAGAACGCTGAACTGTATGCGGCGCTGGCGACGGTGCTTTATTACCAGGCCAGCCAGCATATGACCGCCCAGA -CTCGCGCAATGATCGACAAAGCCCTCGCGCTGGACAGTAATGAAATCACCGCCCTGATGCTGCTGGCTTCCGATG -CGTTTATGCAGGCGAACTACGCGCAAGCCATCGAACTATGGCAAAAAGTGATGGATCTCAACTCACCGCGAGTTA -ACCGAACACAGCTGGTTGAGTCGATTAATATGGCGAAATTGTTGCAGCGGAGATTGGATTAATCATCTGGTGATG -AAGATTATGTCATTGAGCTGCATAAAAAATAATCGAATGAACATATGCCAAAAATAATCACTAATCAGTATTATT -GCAGATTAAACAAATAAAAATCTTTCCATAACAAATGGTTATTCATTAATCCTGCCATAAACTCGCGTTATTATG -CATTAATGCAGCGAAAAGCTCTGTTGTTAAAGGGTTGCGCAACATACCGCGCAAATGATACTGATCATAAGCGTT -AAAAAAATCTACAAACCAACGCAACACAATTCATGCCCTGGCAGTATGTCACGTTCTCGCGTTTCTGAACGGGGA -ACGGCGCTCCATTGAGGAAGTCATTCATATGAAAAATATAAAATTCAGCCTGGCCTGGCAGATTCTGTTTGCTAT -GGTGCTGGGCATTCTCCTGGGAAGCTACCTGCACTACCATAGCGACAGCCGCGACTGGCTGGTCGTCAATTTGCT -CTCTCCGGCGGGTGATATCTTCATCCATCTGATTAAAATGATTGTTGTGCCGATTGTGATCTCCACGCTGGTGGT -GGGTATCGCGGGTGTTGGTGATGCCAAACAGCTCGGGCGTATTGGCGCGAAAACCATTATCTACTTCGAGGTGAT -CACCACCGTCGCCATCATTTTGGGGATCACTCTGGCGAACGTCTTCCAGCCCGGTGCCGGGGTGGATATGTCGCA -GTTGGCGACCGTCGATATCTCGAAATATCAGAGCACTACGGAAGCGGTACAAAGCAGTTCCCACGGCATTATGGG -CACGATTTTGTCGCTGGTGCCGACGAACATTGTGGCGTCGATGGCGAAAGGCGAAATGCTGCCGATCATCTTTTT -CTCGGTGCTGTTTGGTCTGGGGCTTTCTTCCCTGCCCGCGACGCATCGTGAACCGCTGGTGACCGTGTTCCGCTC -CATCTCTGAAACCATGTTTAAAGTGACTCACATGGTGATGCGTTATGCACCGGTGGGTGTGTTTGCGCTGATTGC -GGTGACGGTGGCTAACTTTGGTTTCTCGTCTCTGTGGCCACTGGCGAAACTGGTGCTGCTGGTGCATTTCGCCAT -TCTGTTCTTCGCGCTGGTAGTGCTGGGAATTGTGGCGCGCCTGTGCGGGTTAAGCGTCTGGATCCTGATTCGTAT -TCTGAAAGATGAGCTGATTCTGGCGTACTCCACTGCCAGCTCTGAAAGCGTGCTGCCGCGAATTATTGAGAAGAT -GGAAGCCTACGGAGCACCGGTGTCGATCACCAGTTTCGTGGTGCCGACCGGTTACTCTTTTAACCTTGATGGTTC -GACGCTGTATCAAAGTATTGCCGCTATCTTCATCGCGCAGTTGTATGGCATTGACCTGTCCATCTGGCAGGAAAT -CATTCTGGTGCTGACGCTGATGGTGACCTCGAAAGGGATTGCTGGCGTGCCTGGCGTGTCGTTTGTGGTGTTGCT -GGCAACGCTGGGTAGCGTAGGTATTCCGCTGGAAGGTCTGGCGTTTATTGCTGGTGTTGACCGTATCCTCGACAT -GGCGCGTACTGCGCTGAACGTGGTGGGTAATGCGCTGGCGGTGCTGGTGATTGCCAAGTGGGAACACAAATTTGA -CCGTAAGAAAGCGCTGGCTTATGAGCGTGAAGTGCTGGGCAAATTTGATAAAACTGCGGATCAATAATTGAAGAT -TGCCGGGGATATCCACCCGGCAATGTGTGAATGCCTGATGCGACGCTTGCCGCGTCTTATCAGGCCTACGCCAGA -CAGCGCAATAGCCTGATTTAGCGTGATTTTGTAGGTCGGATAAGGCGTTTATGCCGCATCCGACATCAACGCCTG -ATGCGACGCTTAACGCGTCTTATCAGGCCTACGCCAGACAGCGCAATAGCCTGATTTAGCGTGATTTTGTAGGTC -GGATAAGGCGTTTACGCCGCATCCGACATCAACGCCTGATGCGACGCTTGCCGCGTCTTATCAGGCCTACGCCAG -ACAGCGCAATAGCCTGATTTAGCGTGATTTTGTAGGTCGGATAAGGCGTTTATGCCGCATCCGACATCAACGCCT -GATGCGACGCTTAACGCGTCTTATCAGGCCTACGCCAGACAGCGCAATAGCCTGATTTAGCGTGATTTTGTAGGT -CGGATAAGGCGTTTATGCCGCATCCGACATCAACGCCTGATGCGACGCTTAACGCGTCTTATCAGGCCTACGCCA -GACAGCGCAATAGCCTGATTTAGCGTGATTTTGTAGGTCGGATAAGGCGTTTACCGCATCCGACATCAATGCCTG -ATGCGACGCTTGCCGCGTCTTATCAGGCCTATCTTAACCGTTGGTTAATTTTTCAAACTCTTCACACCCGGTATC -AAACCCTTCCATACAGCTCAGGTTCAACCAGTGCAGCGCCTTTTGCTTGTTCTTCTCGATAAAACCTTCTTCACC -GTTTAAGAACATCATTCCCGCCCAGTACTCGGAATAACCGGTTCGGGAAATTGCAGAGCTGCGTTTGAAATACCA -GGTTGCCTTGTCATCGTCGGCCTTAATGCCCACGCCGTTGGCGTAAATCAAACCAAGCAGCATTTGGGCATCGAC -GGCAGAGTCGTTCTCCAGATCTTCCGAGGCGTTTTCTAACAGCGAAATTGCCTTTGGATAATCCGGTTTACCCGC -TTGAGTATTTACCAGAATATGCGCCAGCGTTACTTCACCTTCTTTACTGCCCGCTTGCGCCGCTTTCTCTGCAAG -AACTTTTGCTTGTGGATAGTCCAGACTGACCGGATTGGTGATTTTGATCTGCGCCAGCAGCGCGCAGGCATCAGC -ATCACCGCTGTCGGCGGCTTTCTGTGCCCAATATTCGGCTTTGCTCAAATCGCCGGAGCTAAACCAGCTGTCGGC -AAGAAAATATTGTGCGCGTCGGTCCCCGGCCTCTGCTGCCTTTAAATACTGGCTGCCAGGCTCGGAGTCGTTGGC -GTGGGCAAAGAATGTCAAAAACAACATCAATGCGATAATTTTTTTCATTTTGATAATACGATTGGGTAGGGAGTA -ACCAGTATAAAGAGTTCGAATGGATAAAAAAACAGCCTCCGAAAGGAGGCTGTAGAAAGGACGGTATTACGCCAG -TGCCGCTTCGCGCAGGCGAGTTTTCAACTTGTTGTACTCGTCAATCACGTACTGCTCGGCGGCGCGCTGATCGGC -GATCGGCTCGACGCGAACGGCGCAGTATTTGTACTCCGGCGTTTTCGTAATCGGGCTTAAGTTTTCGGTAACCAG -CTCGTTACAGGCACCAATCCACCACTGGTAGGTCATGTAAATCGCCCCTTTGTTCGGACGATCGCTGACCTGCGC -ACGGGTGATAATTTTGCCTTTACGCGAGTGCACCCAAACCAATGCCTCATCTTCAATACCCAGACGTTTGGCGTC -TTCGGTATTGATTTGTGCGTAGCCAGGTTCATCAGCCAGCGCCGCCAGTGCCGCACAGTTACCGGTCATCGAACG -GCAAGAGTAGTGACCAACTTCACGCACCGTTGACAGTACCATCGGGTACTCGTCGGTGAGTTTGTCGATTGGCGC -TACCCAGTCGCAGGTGAAGAACTGCGCCAGACCGTTCGGGGTATCAAACTTCTCTTTAAACAGATAAGAAGTCCC -CTGATCGGCATCTGAAGTATCGCGGCAAGGCCACTGAATGAAGCCCAGTTCGCCCATTTTCTCGTAAGTCGCACC -GTAGAAATCCGGGCACAGATGACGCAACTCATCCCAGATCTCCTGGGTGTTGTTGTAGTGCATCGGATAACCCAT -ACGGGTGGCGATTTCACTGATGATTTGCCAGTCCGTTTTCAGATCCCATTTCGGTTCAACCGCCTTGAAGAAACG -CTGGAAGCCACGGTCAGCCGCAGTAAACACGCCTTCATGCTCGCCCCACGACGTTGACGGTAAAATAACATCCGC -CGCCGACGCGGTTTTGGTCATAAAGATGTCCTGAACGATAACCAGTTCCAGATCTTCAAAGGCTTTACGTACTGC -CGACAGCTCCGCGTCAGTTTGTAGCGGATCTTCGCCCATAATGTACGCGGCACGCACTTCGCCATGCGCTGCGCG -GTGCGGCAGCTCGCTGATGCGATAGCCGGTATGCGCTGGCAGGCTTTCCACGCCCCAGGCTTTGGCGAATTTCTC -GCGGTTAGCCGGATCTTTCACGTACTGGTATCCCGGATACGTATCCGGCAGCGCGCCCATATCGCAGGCACCCTG -AACGTTGTTCTGACCACGAACCGGGTTAACACCCGCATGCGGCTTACCGAGGTTACCGGTCAGCATCGCGAGGCT -GGTCAGAGAACGCACGGTTTCCACGCCCTGGTAGAACTGGGTTACACCCATGCCCCACAGGATGGCGGCGCTTTT -CGCCTGGGCATACATCCGTGCCGCCTGACGAATCTCACTGGCGCTGACGCCGGTGATATCTTCAACCGACTCCGG -CGTGTAGCCTTCAACGATTTTACGATACTCTTCAAAGCCTTCTGTACGTGAAGCGACGAACGCTTTGTCGTACAG -ATTTTCTTCAATAATGACATGGCCCATCGCATTCAACAGCGCGATGTTCGAGCCGTTTTTCAGTGCAATGTGCAT -GTCAGCAATGCGCGCGGTTTCAATTTTGCGCGGATCGCAGACGATAATTTTCGCCCCGTTACGTTTAGCGTTAAT -TACGTGATTCGCCACGATTGGGTGGGAATCCGCCGGGTTGTACCCGAAAACGAACACTAAATCGGTATTATCAAT -TTCGTTAATAGCATTGCTCATTGCGCCATTACCGACCGATTGGTGCAGACCTGCAACCGATGGGCCGTGTCAGAC -ACGAGCGCAGCAGTCAACGTTATTGGTACCAATAACGGCGCGCGCAAATTTTTGCATTACATAGTTGGTTTCGTT -ACCCGTACCACGCGAGGAGCCGGTCGTCTGGATGGCATCCGGACCGTACTTCTCTTTGATGGCGCTCAGGCGCTC -GGCAACGTAATTCAGTGCCTCATCCCAGGAAACAGGTTCGAGTTTGCCGCCACGCTGGCGACGGATCATGGGGGT -TTTCAGGCGCGGGGTCAGGATCTGGGTATCGTTAATGAAGTCCCAGCCATAATAACCCTTCAGACACAGGGTACC -CTGGTTGGTTTTCCCCTGCGCTGCCTCCGCCCGGACGATTTTGCCGTTATCGACGACCAGGTTGATTTTGCAACC -TGATGCGCAATAGGGGCAAACCGTGACGACTTTTTTCATCGGTCTCGCTCCAGTTAATCAAATCACGCATACGCG -CTCTCGACTACAGTATGCATCTTTTATGCCACATTTTATGTGGGGTCATTCCCTGATATTACGGGCACTATTTAT -TCAAAACTCTGACGAAAAACAGGCTGTCGTCAGTTTTGACGTGACGAAACGAAATACCGCGTGACAGCCATCACG -CGGCAGACATTTTATTTTTTCTCGACGACGGGACCTGCCTGATACCCGCCGCCCAGCGATTTCATCAACTGAATG -CTTTGGATCACCCGGCGGCTGTCCAGCATCAGTAATGACATCTCTTCGGCAAGCACTGGCAACCGGGCTTCGGTG -GCCTGTAAGCGGCTGGTTAAGCCGCGCTGATAGGCGGCCTCGGCAGCGCGCTGGGTAAAGCGCGTGGCTTCCACG -CGTTCAGCCTGCATTTCTCGCTCGTCGTTGAGCGTTTGCAGACGCGTGCCGTTGACGGCAACGTCACGCACCGCG -TTCAGTACTGACTGGTTGTAACGTTCAATCATCATGTTGCTGGCGGCGCGCGTGCCTTCGAGATTGGCATTCAAC -CGTCCACCGTCAAACAGCGGCAATTTCAGACCCGGGATGAAGTTGAACTGGCGACTGGTTTTTTTGAATAAGGTA -TGCAGATGGATGGAGTCCAGACCGAAAAACGCTTTGATATCAAAGCTCGGATAGAACAACGCCCGCGCGGAATCC -ACCTGATCTAATGACGCCTGAACATACCAGCGCATGGCTTGCAGATCCGGGCGTCTGGCGAGCAACTCATAAGAG -AGTGTCGCCGGAATGCCGGTCTGGACTTGCGGTAATGCCACCGGTCTGATCTCCGGCATATCGCTGGCTCCCGCG -CCAATCAATGCACGCAGAGATTCTCGCGTTTCGGTGATTTGCCCTTTGACGGCAACAATTTGTTTATCGACCGCC -AGAATCTGTGCCCGCGCGCCGTGGAAAGGCACTTGCGCTTCCAGACCGTGCGCCACTTTACTCTGGTGCGCTTTC -ACCGCGTAATCAATCACATCGTGAGTTTGTTCTAACAGATCGAGCATCTGATAGCTGGCCTGCATACTGTAATAA -AGCTGCGCTACGCCCGTGGCCAGCGATAGCTCTACTGCTGCGGTTTCTGCCAGCGCGGCATTATGCGCGCCAATG -GCGGCGGCAACCGCTGAGCGATGCACACCCCACAAATCAAGATCCAGTCCGGCAAACAAACCTACTGTGGCTTCC -GTATAGTACGGCCCGTCCATACCCAGTGCTGGCGCATCCATTGAATAAGGGCTTAAAAAGCCGTTCGCCGAGACA -CGTTGGCGGTTGAGCATCCCTAACGCTGCGACCTGTAATTGTGAACCGGCATCTAACAAATCGGCCTGGGACTGC -GCTTTTTCTTCCCGCAGTTTCGCTTCGGCGAGGGTGTGTGAACCACTTAGCGTCCGTTGGATCAGCGCATCCAGC -TGCGGGTCATTGAGTTGTTTCCACCACTGCGCCTGCGGCCAGCCGGAGCTGGCAAGATGAATATCGTCGGCCAGT -TTGATTTGTTCCGGTTTGAGCTGTTGATGAGGTGCAGAATCCTTACGTACCAGGGCACAGCCGGAAATCAGCGTC -GTGCTGCCGAGAATGCTGCACAACAGCAGACGTGAAAGTTGACGATTGATCATTGCGTGGCTCCTTGTGCCTGTT -CCGTGGCGGGCGTTAATGCCGGGGCTGTCCAGTCTGGCAAGCGGGCGAAAAGCTGGCAGACGTGTTGCTCCTGTT -TTAATAAGGTGGGCAGGATGGCCTGAGAGGCGGGTGTCTCTTCAAGCGTTATTTGAGGAGAACGGCTGAGTGCGG -TTGCCAGACCGGCAGCGTATTTCTCCAGGGCGTCGGCAAACTGACCTGCTCTGTCCGGCTGTAGTGCGTTATCCA -GCGCCTGCGCCGAGTTCCAGGTGGCATCCCAGGCGTGAAGAAGATCGCGGCCCTGACGAATAACCGTTTGCGAAC -GTTCAATCAGTAATGCGCGTTCTTCGCTGTCCAGTTGACGCTCCAGCGCCACGCGTTGGCACATCTCTTCACAGG -CATTAAACGCCGCATGCAGACCGATACGAATTTGCAGATAAGTGCGCAGAGCCGTGACTTCCTGCTGGCGTGGGA -TCCGCATTACTTTACTTAACATACCCAGCGTGCCAGCCAGTTTTTGCGGCAGTGTGCGCGCTTCACTTTCAGGCC -AGACAAAGGTGTAAATCACCGCGGACACCACGGTACCAATGATGATACCCAGGGCGCGATCGCGAATTTCCACCA -GGTCGTACACTGGGCCAAAAACGTTTTCGAGCGTGGCGAGCGCGAAGGTGACCACCATCTGTGTGCCGATATAAG -AAGAGCGTTCAGAGCTGGTGGCAATCCATGCGCCCAACAGGAAAATCGGTGCCAGCACAAACAGCAATTCGACAA -TATTGTCCAGCCAGGGCATGACCAGTAGCGTGAATAACAGCGCCAGAATCGCGCCGCAAAAGGCCCCGCCAAAAC -GCAGCACCATCTTCTGGTACGACGAACCGACATTTGGGTTAGCGACGATCACGCATGTCAGCATACAGGTGTGAA -TGCCTTCCCAGTCCACGCCGCTGTAAAAGGTGTAACAGATCAAACAGGCGAGCAGCGTTTTTACCGCGTAGCGCA -TATAGTCTGGATTGGTAAAAGCATCGGCGGCCATTGATGGCGGTTTGGCTGCGGGCGTTGGCGGCGTATTCGGGT -CCATCTGACCCAGTTGTAACAACGTCTGGCAGATATTCTCCAGGTTACATTCCCGTGCCGCCATCGCTTCACTTT -CACTGATCCGCCAGTCGCTTTGCCAGCACTGACCTTCAGCAACGGCATGCTGCAGCTTGTTGATTTCTGAAGCTA -ATTTTTGTCGGAATTCAATAATTGCCTGAGAATCAGCAAAAGAGGTGGGATCGTAGCGATTCAGCGTCGAGTAAA -TGTAGGTTACCGTTGCCACGCAGCTTTGCCACCATGCGTTTTGAGTTCGCCAGTTGGCATCGTCCGCGAGGCAAA -AGACATTGAGTTTTTGTAGCGCCAGCGCCTCTCTTTCAATCCGCGTTTCGGGTAGCGGTGCGAGGCTGTCTGTCA -GGTGACTAATGGCATCATCAAGCCGATCATTAAGCGCCTGATGCATTTGCGAAATGGCACGACTGGGAAACCACA -GCACGCCGATTAACGTCATCAGCAAGGTTGGATAGAGGCCAACAACGATACACCACAGCGTTAAGCGCACGACCA -CTTCCGGATAGTCGAGCATGGCGGGGAAGGTTTGCCCGTAAATAGCGACAATGGCGACGGCGAAAAAGACCAGCC -CCAAGCGATGGGTGCGCATCAAAAACATGCAGCCCATCAGGATCGGTCCGGCGATGATCAATCGGATCAACGGTT -CGCCGTATGACCATTTGTAGATCAAAAACAGGCTGCCGATCTCCAGCACCGTGGCAACCACAAACAAGATCGCGA -CAAATTTGGTGTAAAACGCGTTCGACTGAATACCGTAAAACAGCACTGCCAGCGATAACGCCACAAAAGGGATCT -CAAAGGTCATCGAGATCAGAATCACCAGCAGGCAGCCTACCCAGAGTTGCACGGTCTGCGGCACGCGACCTGGTC -GCCGCTCGCTTAACTCTTCATGAAAGAACGCCAGCAGCCTGACCACCGGTAATGGCAGGGAGTTGAGCGCGCTCA -TTATTGCGGCTCAAGATTAGCGACTGCCGAAGCGCCGATGCGGAACATTTCCGGGTCAGGTTTATCGACCATGAT -TTTGACCGGAAAACGCTGGGCAACGCGGACCCAGTTAATAGAACGAGACACTTTCGGCAGGCCGCCCAGCACCAG -GCCGCCGTCATCCGGTAGCACGCCGTAGCCAATCGAATCCACTTTACCCTCGAAGGTTTTGCCGCTGTCACTCAT -CAGGCGAATCGTTGCGGGTGTACCTGAGCGAATATTTTTCAGATCGGTTTCGCGGAAGTTGGCGATCACATACCA -GTGACGAGTGTCGATTAGGGTAAAAATAGGGCGCATGGCAGAAGCAAATTGCCCGACGGAGGTTTTGAGGGAAAT -GACCCGGCCATCAAACGGCGCGCGAACGGTCGCCATTTCCAGATGCAGTTTGGTCAGGGCAATATCCGCTTCGAC -CGCCGCACGCTGGGCAACTAATGCATCCACGCCGCTGACGGCGCTGGCGGCTGACTGCGCCTGTAACAATACGGC -ATTAAGATCCGCTTCTGCGGCGCGCTGCGCCGTTCTTGCACGGTCAACATCTTCCGCTGAGACAAAACCTTCTTT -CAGTAATGGCTCGGTGCGGCGTAATGTATCTGTGGCCTGTTTCGCGGCGGCACGGGCTTTTTCTACCGTGGCATT -AACCGAGTCGGCACCAAACTGTTGCGCGTCAACGCTACGCTGGGTGAGCATAATTTGCTTATCCAGCGCCGCGAG -GGAGGCTTCAGCTTTCGCCAGATTGGCTTCGTACGGGCGCGGGTCGATGCGGAACAGCAAATCGCCCTGTTTGAC -TGCCTGGTTGTCGGTGACCGCCAGTTCTACAATGCGGCCGCTGACTTCCGGTACCACATCAATGGTATCTGCTGA -CGCGTAAGCGTCATTAGTTGATGGCGCACTGTCTACGCGCCAGATAACGAAAACAAGGGCAACCAGCGCCAACGC -AACCACTAACAGAGCAGGGAATTTACTGCGAGGAGCTTTTTTCGGCGTACTTTCCATGAGCGCGTCTCAAATAGA -TTAGAAAAATGCCAGCCAGAACAGCATGGCGTAGAGAGCAAAAAGGGCGGTATAAATAATTCCGACAAATGCCAG -ATTGATATTTGCCCGCTGAATAACTCGCCTCGTGATGAGCGTCAAAATAAGGCTGGCAATGGCGCAGAAAAACCA -GCTGGGATAATAAGCGCCGATCACCGGGATTGCCGGAGATAATGAGCATCCCGAAACCATGAAGACGGGAATTAT -CCAGGCTGTTTTTTTGAGTTGCATCGCCATGCGAGAGAGAACTGTTGGCATATTAAATACATCCTGTCTGCTGCG -AACAATATCTGTAGTGAATATCAATATCCATTGAAGGCGTCAGTATGGCTATTTTCTTGATGAATAAAAATAGCT -TTATTCAGCCACCGCATTCATAACTTATATATTTTATTTATTAATTGGCTGTATATATTTTTAAAATAAATACTT -TTGGGGGCTTCAGCGCCCCCAAAAGCGAGTGACATTAATTTGGGGTTACGATATTCACCCACAAATCGAAATTAT -CCAGACAGGCGATAATTTCTTCCAGTTTCGCGCCATTGCCAATAATTTTGGCTTTCTTCGCTTTTACCAGATCCG -CCATTTTGGCTTGTCCGGTCAGCACGGCGTGCAGATCTTCACGGCTGATGTAGAAAGAGGCGTCGGCTTGCGGTT -GCAGCGTTTTCCGGTAGTTAAGCACGCTATCGTTCAGCGTCAGGTTGAGGTTATCGCCGTTGCTCATATTGAAGT -TCAGGCTGATATTTTTACCCGCAGCTTTCGCGCTATCGAGGCGAACGGCCATAAAGTCGAACAGCATTTCGACCG -ACATCCCGCGAATGGTGTCCGGGGAACCGGTGGTGCCGTGGCTGAACTTATGCACCCCTTCGCGCAGCTCTTTCG -CGCCGGTCAGGTAGAAACCGCGCCATGTGGCGGACTCGGCCTGATAGCCCAGCTGTTCAAAGTTATTCGCTTGCA -GATTCTTCGCGACCTGGTCACCCGGGTTGGCGGCAATCACCTGTTTCAGCAGTTCTGCCGACCAGCGGTAATCAC -CTTGCTTGTTCGCTTCTTGCGCCAGGTTGATGACACGGGCAGAACCGCCCAGCGCCTGCACGTAACGTTTACCCA -TCTCCACCTGACCATACGGATGCAGGTTAGCCGGGTTACCGTCGTAATAGCCAAGATAGAAGTTATACACCGCGC -GGGCGTTGTGGCTGACAGAACCGTAATAGCCGCGGCTGGCCCAGTTATTGGCAAGTGCAGGCGGCAGCTTAATCA -TGTCGCCGATTTCATTCATGGTGTAGCCCTGGTTCGCCAGGTGCAGGGTCTGGTCGTGAATGTACTTGATGGTAT -CGCGGTATTTACCAATATAATCATTGATATGCTTATTGCCCCAGACCGGCCAGGTGTGCGGCATAAACAGCACTT -CCGCGTCGTTACCCCACATATCCAGCGTTTCGTTCAGATACTCGGTCCACTTGCTGGTGTCGCGGGTTTTCGCGC -CGCGCAGAGTGTAGAAGTTGTGCAGGGTATGCGTGGCGTTCTCGGCGGTACACAGGGCTTTCAGGGCCGGAATAT -AGAAGTGCATTTCGGCTGGCGCTTCGCTACCTGGGGTCATCAGGAAGTCAAACTCCAGGCCGTCGATAATCATCT -TCTCGCCAGTTCTGACGATAGTTTTCGTCGGTGCAATAATGCTCGGGTCGCCCGTTGCCAGCGTCACGCCAAGGC -CATTACCCACATTGCCTTGCGCGTTGTGCGGCAGTAACAGACCGTAAGAGTAGAGCGCACGGCGGCTCATGATGT -TACCCGCCAGCACGTTTTCGCTGATGGCTTCGTCCATAAAGCCTGCAGGGGCAATCACCTGAACTTTGCCGGATT -TAACATCGGCTTCAGAGATAATGCCTTTCACGCCACCATAGTGGTCGGTGTGGCTGTGAGTGTAGATAACGGCAA -CAATCGGTTTTTGCGGACGATGCTGGAAGTAAAGGTCAAGTGCGGCTTTTGCGGCAGGCGGCGTCACCAGCGGGT -CGATAACAATAATGCCTTTCTCGCCCTCAACGAACGTAATGTTAGAGATATCCTGGCCGCGCACCTGATACATTT -TATCGGTGACTTTGAACAGGCCAGAAATACCGTTGATTTGCGACTGACGCCACAGGCTGGGGTTTACGGTTTCCG -GCGCTGCGGCATTAATATCAAATTTGTAATCGTCCGCGCGGTAGTAAACTTTACCGTTCGCATCACGCAGAATAC -CTTCATCCAGCAGCGGGGCGATAAATCCACGCTGGGCATCGTCAAAATCCTGACGATCGCTAAACGGTAATGATT -TGGCGTAATTCTGATTAACCTGTTGGGTATATTGAGTGGCGGCTTTCGCTTCCTCTTTCGCGTTAGCGGTATTTA -CCATCATGCCGCTGGCGGCAGTTAACGCAATAACAATCCTGCTCAAACGGAATAACCGAGAGTTATTCATATAAA -TCTCCATTTATCATTTATGTCGTAAATATGTAATCCATGCAAAATACGTCATTTAAAGCTGGCGTTATCATAATT -GGGAAATTGCGACTTTAATAAGTGGAAGTGTGAGCGGAACGCGCCATTTTATTAGGCATTTGTGCTGAAGAGGGA -AAATTACAGTAAAACTATCATTGCAGAAAATAATATGAGTCGTTTTATGTGTTTATTATATATATTGTACCTGTC -GTTGGCACAGCGGGACATTGCGCTACTGTGCCAACGTTTTACTCATGGGGCTTTAGCACAGAACTGTGGCAAAAA -ACGTTGATGCGCCAATATTGCTGCACCCTGAGCGCCATTAAAGTCAGAAGATGAGGCGGCAATAAAGCGCACGAC -CTGATGCGGCAGTGGACGGCGCAGGTACTTTTGGGTCATGGCAACGAGAGTCTCGCGTGGGAAGGCGGGCATATC -CATCACGCCACCGCCCAGGATCACCGCATCGGGATCGAACAGATTAATGCTGGTGGCAATGGCCCGTGCCGCGTT -TTCAAGCAGACTCTGGACGAAAGGGGCGTTTTCCGCATGGACGAAAAGATCGCGCAATGGGTAATTTCGGGGCTG -TTGTTCGTACCAGCGTCTTAGCGCCATTCCAGAGCAATTGGTTTCCAGGCACCCAGGATTGCCACACGCGCAGTG -TTGGGTCATATCTCCCAGGGGGATATGACCCAGTTCGCCTGCCACACCGTGTGCACCCGTCCACGGCGCACCGTT -CATCCACACTGCGAACCCCATCCCCGTACCGAGATAGGCCGCCAGAACCAGTTGTTGCGTAAGGCGGTTTTCTAC -TACGTCCCAGGAGAGTTGCAGGTTAACGTCGCGGGAAAACTCAACCGGACAATTCAGCGTATTTTCGAGCTTATC -GGCGAGATCATATAAATCCGCCGCTGTTAACGGCAGGTTAGGCGTAGAAATAATGGTGCGTTTATCTTTACTGAC -CAGCGCCGGAAATCCCATCACCAGACCATGACAGCGAGCGTTAAAGCGCCTGAGTTGCTCGTCAATCATTTCGCC -GATACCCGACACCAGGCCGGGAGCAATGACTTCTGCGGTCCGCTTTTTTTCGCAGTGTAGCGTTTCACCTTCTGC -TGTCCGCAGACAAAAGCGGATATGCGTTGCCCCCATATCCACGCCCGCTACGACGTTATGCTGTTTTTGCATGAG -GCTGTACCTCGCTTTTTGCAGCCAGAATCTGCGCGGTCATAATTCTCCATGCTTCGTCGATATTTTCCGCATGAT -TAAACAGGCCGGAAGTGCCGACGATAAAGACATCCGCCCCTGCCGCCATCAGTTTTTCGTAAGTTGCCTGGTTGC -AGGAACCGTCCACCTCAATTTCGTACTCCAGACCTTCTCGTTCACGCCATGCCTTCAGTTCGGCAAGTTTATCCA -GCATTTCAGGAATGAACGGTTGTCCGGCAAAGCCGGGATCGACAGTCATGACCGTAATTTTATCGGCCTTATGGA -TATAGTATTTCATGGCCTCAACTGGCGTCTCCGGGTTAAGGATCAGCCCCACTTTCATGTCATGACGGCGGATTT -CATCAATCAGGCGGAACGCCTGGCCGTTGATGGTTTCCGGATGCAGAGTGATGAAATCTGCTCCCGCACGCGCCA -GTTGAGCAATGTAATCCTGCGGCCGCGTCACCATCAGATGACAGTCGAGCGGTTTAGTTGCCAGTTTTTTAACCT -GACTTACGAAGAACGGTGAGAGTGTCAGATTGGGGACAAAGTGACCGTCCATGATATCGATGTGGAAGTAATCGG -CATGGCTGTCGATAAATTCGATCTGTTCTTTAAATTTCAGCAGATCCATACACATTAACGAGGGGGAGATTTTCA -TGTTCAATTCCTTACTTACTGATAAGACGGTCAAGGGCGACAGCCGCGATAATTAATCCGCCCATCACCACCAGT -TGGTAATAGGTTTGTACCTGCAAAATATTCAGACCGTTGTTGATGGTGCCGATGATCAACCCGCCAATCACCACA -GAGAAAATGCGCCCCTTGCCGCCGAAGAAACTGGTGCCGCCAATGATGGCGCTGGCAATGGCATAGGTTTCAAAA -CCCATACCGGCAAGCGGTTCTGCGGCACCGAGTCGTGCAGTTGAGACGACGCCTGCCAGACCTGCACAAACACCG -GAGATGATAAACACCACCAGGATGTGGAATTTCACGTCAATCCCGGAATAGAACGCCGAATTTTTGTTGCCGCCC -AGTGCGTAGATGTTGCGCCCGAGCCGCATACGCGTTGTCAGAAACCAAAGGATGAGCGCGACAATTAGTGAGAAG -ATAACGGGGACAGGTATCCCAATTACGCTGGCGGCAAAGAAGTTCACGAAGTCAAATGAGAAGCCGTATACCGAG -TTGGCATCGGAGATCACCAGCGTGATCCCACGGAAAATCGCGTTGGTGCCAAGGGTGATGATGAACGGGTGTAGC -CCCGTCCAGTTGACCAGGCAGCCGTTGATCGCCCCCAGTGCGCCGCCAACCAGTACACCGCCAATCATCGCTGCG -AGAAACGGGTCAACACCTGCCAACATCAGTTTGGCGGTCACCATACCGGAAAGCGCCAGAATCGCGCCAACCGAG -AGGTCGATACCAGCGACCAGGATAGCGAAAAACTCGCCCATGCCGATCAATACCGTCACGGAGCTTTGAACAAAA -ATCTGGGTAATATTATTGGTGGTCAGAAAATATTCTGGTGACAGCGAACCAAAGATGGCGACGATGATCGCCAGG -ATAAAAAAGGTGCCGTATTTATCCCAGAACAGCGCAAAGTTGAACGGTTTCTTCTCGCTCGCTTCGCTTTTTACT -CTTGTGGTAAAGCCCATGCCATAATCTCCTCTTCGCTCATGTCATCGCGATTCGTCAGGATTTGCGTCAGTCGTC -CTTCGCAGAACACGGCGATGCGGTCGCAGACGGTGATAATTTCAGGTAGTTCAGATGACACCATCAGGATGACTT -TTCCGTCGTCCGCCAGTTGGCGCATCACTTTGTAAATTTCGGCTTTCGCGCCAACGTCGATGCCGCGGGTAGGTT -CATCGAAAATAATCACTTCCGGGCAACAGCACAGCCATTTGGAGATCAGGACTTTCTGCTGATTTCCCCCGGAGA -GTTCGGTGATATTCTGGTTTACCGAATGACATTTCAGCGCCAGCAGTTCGCGTTGATTTTCAGCGGTACGTTGCT -CGTCAACTTCATGAAACAAGCCCATCGCGCCTTTATAGCCGCCGTCTTTCAGACTGCGGCTGATCGCCATGTTCT -GAGCGATGGAAAAGTTGGGGAAAAAACCGTTATCCCGGCGGCTTTCAGTGATGTAAGCCATCCCTTTTTTCACGG -CATCCAGGGGTGAACGTGGAGAGATATCTTTGCCATTAAGACGGATTTCTCCGCCAGCGCGTTTATCCACGCCAA -ACAGACAATTCATCAGTTCAGTACGTCCGGAACCGACCAGTCCGGCAAAGCCTAATATTTCTCCCCGGCAGACGC -TAAATGAGATATCCCGGACCTTTTTTCTGTCACGACTGGTGACGTTCCGCACCTCAAAAACCGTTTCGTGCGCAA -GGTTGCTGACATTCTCCTTCATCGCGTTAAAACGGTTTTGCAGTTCGCGGCCTACCATCAGACGGACGATATCGT -CATTTGACACATCGCTTACTATGCCGCTGCAAACGCTGCTGCCGTCTTTCATCACCGTATAGCGGTCGCAAATAC -GGCGAATTTCCGCCAACTTATGCGAGATATAGACGATGGCCGTACCCTCTTTACGCAACTGATTCATGATCAGAA -ACAGATAGTCCACCTCTTTATTGGTGAGTGAGGAGGTGGGTTCATCCATGATGATGACTTTGGCATCGAGCATCA -GCGTTTTGGCAATTTCTAGCATCTGCTTGTGGCTGATAGATAAATTCGCCACTTTCTCATCTAGATCAACTTTCA -AGCCCACGCGTAATAACATCATGGCGGCGCGGACACGCATTTCTCGCCAGTCGATAATATTGACGCCACAGATTT -TTTTCGTCAGATGACGACCAATATATAAATTTTCCAGTACGGTTAATTCATCAATAACGCTGAGTTCCTGATAAA -TAATCCCGATACCGAGTTGTGCCGCTAATTTATGATCCAGCTTGTTATAGCTAATGTTATTAATGGTAATGGTGC -CTTTGGTCGGCTCATGTATTCCGGATAAAACTTTCATTAGCGTGGATTTACCCGCGCCATTTTCTCCTAGTAATG -CATGTATTTCACCAGGATAAACCGTTAAATTAACCGACTTTAATGCGTGAACCGGACCAAAGGACTTGCCGATCC -CCGCCATCGATATATATGGCGTGGCCATAAATAACCTCTCTGCACGAAATATCGTATTATTGCCTGATGGCTACA -TTTATCAGGTCTACGTTCAGGTTATTTTGTTGGCCGGATAAGACACTTCATTAGCATCATCATCCGGCATCATTC -AGTTTTATTGAGTGACCAGGATTGAATCGACCAGTTTAAATTCCGGTGCTTTATCCAGCGGGATAACCTTGCCGG -ATTTCTCAGCGTCAACCATCAGCTTCAGACCCGTTGCGCCGATATCCGCCGGGTTCTGGGCAACCGTCGCGGTCA -TTTGTCCGGCTTCCACCATTTTGCGGGCTTCCGGAATGCCATCTGTACCGACGACCAGCACTTTTCCCGTTTTTC -CGGCGTTTGCGACTGCCTGAGCAACACCCATTGCCATCGTGTCATTCGCGCAATAGATCGCTTTAATATTCGGAT -TACGTTGCAACACGTTAGTGGCGACATCCAGTGCTTTAATGCGGTCCCAGTCGGCAGGCTGGCTGGCGACAAGCT -TGATCTGGCTTGCTTTTTTGAAGGCTTCGGTGGCACCATTACGACGCGCTTCACCGGAGGCGTTACCGGCTTTAC -CCTCAATGATTGCGACTTCACCACCTTCAGCGCCCAATTTGTCAATAATGAACGACGCGCCTTTCGCCCCGACAG -CAACGTTATCGGTGGTGACAAAAGCTTCCACATTGCCGCCAGCTTTTTTCAGATTATCCATGTCGATTTTTTCAT -CGAGATTAACCAGATAAATGCCTTTTTTCCATGCGCGGGCGACAGGCATGACCAGATTCACTGAGGATAATGGAG -CGAAGGCGATACCTTTGTAATTTTTATTACTGAGATCTTCAAATAACTGCAATTGAGATTGAAAATCGCCTTCTG -AAGGAGAGGCAAAAATATCAACGCTGACGCCCAGTGTTTTTGCTTCATCTTCAATGCCTTTTTTCATATCTACCC -AAAATGGGTTGGAGAGGGTTTTCAATACGACAGCATATTCGGCGGCAGCAAAAGCGCTGGTTGACAACATTAAGC -CCACGAGTGTGCCGCTGAAATATTTCAGATATTTATTCATAATAATGTTCTCACGGTAAGGGGACAGGTAACTCC -GCGATGGCGGAATTACCTTTTTCTTATTTCAGCGCGCCTGGTGAGAAGAAATCAACAATTGCGCCGGTTTTTTGC -ATATTAATATTAGCTTGTTCAATGTTGAGCTGGGCGACAGAGACAAAAAAAGCGTCCAGCAAAGTTAGTTGTAAT -ATTCTTGCCGAGGCATTACGACCTAATAACGGCGTTTCCGGGGCTGGTGAGCAAATAATATAATCGGCCAGTTTC -GCTATCGGTGAATGGTAGCTATGGGTTATACAAATAATCTTTGCCCCGTTCTTTTTTGCCAGTTCTACGGCCGCT -TTTACATCACTGGTTCGCCCGGAATGGGTCACTACCAGCACAACATCTCCTTCCTGTAACAACGAAGCGGACATC -ATCATGATGTGAGCATCAGGATAGGCCTGACAGCGTACGCCAATGCGCAAGAACTTGTGCTGTACATCAGCACAG -ATAGCATTTGATCCTCCGGCACCGTACAAATCCCGCTGTCTGGCCTGATAGAAAAAGCGGGCGGCACGGTGGATC -TCATCAACGTTGACGATCGACTGACCTTCCATAATGGTGCGTAAAGTGATGTTAAATACCTTATTCACCACATCC -TGCGGCGCTTCATCAAAAGCCAACTCGGAAGGCAATACCTGTTCTGACTGAGAAAAATAATCTTCCAGCGCACTG -CGTAAGTTACGAAAGCCGCTAAACCCCAGCAGCTTTGATACCTTAACTATCATCGCTTCAGATACCGCCAGAGCT -TCTGCGACATCTTTAATTGCGGGTGCACAACTCAGGTTACCGGGTTTGAGTAACCACTCCACGATGCGGCTTTCA -TTTTCTGTCATTCCTTCCTGCTTCATTCGCAGGTAAGGCGCTAACCCTATACCGTTCGGAAGCGCTGAATCAAAC -TCTGACTGGCTCATCACGTTCTCTTGTCCTTGAATTGAAGACGCCACTATATCACCACAGCAAGAACAGAAAAGA -TGCTGGCGACTTCACAAAAAAATAAAATTTATAAAGTTTATTTTATTGTGAACAATGGCGAGTGGCTTAAAATTT -TATTTCATTTAATTAGTTTAAAAACATGATGTTATTTGTTTTTCTGGTTTTTTAGATGATAGATGTTGCTGGATG -GTGAGTGTCTTTAACGCTATTGCGCTGTCAGATGTAACTCTGTAAAACAGATCAGGAAGGCGTAATTCATCGATT -TTGGGTGTTTTTAATTCATTAACATCACAAATGTTTTTTGATTGTGAAGTTTTGCACGGACGGGGAAGATGAATG -AAAAAGATTGCATTTGGCTGTGATCATGTCGGTTTCATTTTAAAACATGAAATAGTGGCACATTTAGTTGAGCGT -GGCGTTGAAGTGATTGATAAAGGAACCTGGTCGTCAGAGCGTACTGATTATCCACATTACGCCAGTCAAGTCGCA -CTGGCTGTTGCTGGCGGAGAGGTTGATGGCGGGATTTTGATTTGTGGTACTGGCGTCGGTATTTCGATAGCGGCG -AACAAGTTTGCCGGAATTCGCGCGGTCGTCTGTAGCGAACCTTATTCCGCGCAACTTTCGCGGCAGCATAACGAC -ACCAACGTGCTGGCTTTTGGTTCACGAGTGGTTGGCCTCGAACTGGCAAAAATGATTGTGGATGCGTGGCTGGGC -GCACAGTACGAAGGCGGTCGTCATCAACAACGCGTGGAGGCGATTACGGCAATAGAGCAGCGGAGAAATTGAGAT -TCATCCACTACTTGCATGGATGAGTAATGATTAATGTGGATAGAGTTTCTTTTTGAGGTTGGCTAATGAAACGCT -TTCCGCTATTTCTTTTATTCACCCTGCTCACGCTGTCCACCGTTCCGGCCCAGGCCGATATTATCGACGACACCA -TTGGCAATATTCAGCAGGCGATTAATGACGCTTATAACCCTGACCGTGGGCGAGACTATGAAGATTCGCGCGACG -ACGGCTGGCAGCGTGAAGTGAGCGACGATCGGCGCAGACAATATGACGACCGCCGCCGCCAGTTTGAAGATCGCC -GCAGGCAGCTGGACGATCGCCAGCGCCAGCTTGATCAGGAGCGTCGGCAACTGGAGGATGAAGAGCGGAGAATGG -AAGATGAGTATGGGCGATGAGGTTGGGTATGGAGCAGGCATCGCCCCTCACCCCAATGGGGAGAGGGAGAAAACG -AGCGCAATATTCAATATCGAGCACAATCGGTCCCCTCGCCCCTCTGGGGAGAGGGTTAGGGTGAGGGGGCCAGCG -CGCACATTCCCTCTCATCACGCCACCCCAATCTCCATCCCATCAAACCCCACCTCAAACCCTGACGGTAGTGCGT -TTTCCATCAGCCACGCATCAAACTGGTGGCTGATATGGGTCAGAATCACCCGTGGCGAGCGGATAACCTGATTCA -GCGCAAGCACGGTATTTAAATCACAGTGATTACGCGGTGCATCCGCGCGCGGCGGGTGACTGCAATCCATCACCA -TTACCTGCGGCTGATTATTGCGTAAAAATTTCAGCGTTTTTTCCGGCAAGCCTGCGGTGTCAGACAGCCACGCCA -CCCGGCTGTGTGCCGTTTCCAGCAGATAACCGAAGGTCAGTTTTGAGTGGTTGAGCGGCAGGGGCGTGACCTGTA -ACCCCTGCAAATCAAACACCACAAACGGTTCCACCGTGTGGCTGAAATCAAGCAGGCCCGGATGTTTAAACAGAT -CGTCGCAGCCCTGTTCATCCGGCGGGCCGTAAACCGGGATCGGATCGCCAACGCCCCAGCGCAGCGGAAACAGCC -CCTGGACGTGATCCATATGATAATGCGTCAGCAAAAACTGCTGGAACGATCCGGGCGACCAGCGATCGGCGAGAT -CGTGCAGCCCGGCGTCGATCAGGGTGATTGCGTCGTTAAACTTCACTACGCCGCTGCACGGTTGGCGGCGATACT -GCGGCGAGCGCCGCGCTCTGGCGCAGGCCGCACACTCGCAGCCCCATGCCGGAACGCCCTGTGCGCCGCCGGTGC -CGGTGAGCGTGAGGGTCAGGCTCATGTTACAGCGCCTTGGTGAAGCGGAAGTGGCTCTGCTCGTAGCCTTCGCGC -AGATAGAAACGGTGCGCGTCGTGGCGCTTCACGTTGGTCGAAAGTTCGGTCATTTCGGCCCCGGCCTGGCGGGCT -TCTTCTTCTGCCCACGCCAGTAACTTACTGCCGACGTTCAGACCGCGCGCCTGCGGCATTACCACCAACTCCTGA -ATTTCGCCGATCCAGTTGACATGATGCAGATGAAACTGCAAATGCAGGCCGATCATGCCGACAACTTCGCCATCA -AGCAGCGCCAGATGGTAGCGCATGTTTGGGTCGCGCAGATTGGCGTTAAAACCCACGCGAAACGCGTGGTGGTCA -AACTCCGCCTGTTTTAGCTCACAAATCAGCGCGTAAACCGCGTCGGTGTCGTACTGCGTGGCCGGGCGAAGCTCA -CAAGCAGGCATGGTGTTTCTCCTTCTGATGGATCAGCGTCAGCAGCGTGTCGACCGACTGGCGCAGGCTGCCGTC -ATTGTTGAGCGTATGGCAATCCTGTGGAGTATAGCGGGCGGCGCGCGCCAGGCGGGCGTTAATTTCACTGGCGTT -TTCACGGCCACGGTTTTCCAGGCGCTGGCGGAGGATCTCCGGCGAAACCTGTAAACAGACGGGCAGCAGCGCCGA -TTGATAGCGCGCCCGCGCCTGCGGCAGATGGGCGCGTGAGCCGTTGACCAGCACGTCGAATCCGGCGTGCAGCCA -GAGATCAATCTCGACGCCGACGCCATAATACAGACCGTTAGCGTGCCAGCTTAAGGCCAACAGATTTTGCCCCGC -GCGGGTAAAAAACTCCTGCTCGCTCAGGGCGATATGGTTTTCACTTCCGGCGCTGGCATCGCGCGTGATGTAGCG -ATGCGCCACCAGTAACTGAGTTTGTTCCCGCAGGCGGAGTTCCGCCAGCAGGCTGTCTTTCCCGGAGCCGGACGG -CCCCATTAACCAAATCAGTTTTCCCATCATCAGAACACCCTTTTACCCTGACGCCAGACGTGGTCGATATGAATA -TGATTGTCCTTGCGATGCGCCAGCACCAGGTCGGCGCGTTTGCCCTCGCCAATCACCCCGCGATCCTGGAGATTA -AGCGCCTGCGCTGGATTTTTAGTCACCAGCTTCACCGCCTGCGGCAGCGTAAAGCGGTTGCTCTGGTCATCGGCG -ACGCGAAATGCCGCATCGAGCAGGCTGGCGGGGTAGTAGTCGGAAGAGAGGATATCCAGCAGGCCAAGCTGCGCC -AGTTCACTGGCCGCCACGTTGCCGGAGTGCGAGCCGCCGCGCACAATATTCGGCGCGCCCATCAGCACGTTCATG -CCATGCTTGCGCGAGGCTTCCGCCGCTTCGAACGTGGTGGGAAATTCGGCGATCACGCTGCCAAGCTGGTGAGAT -TCAGCAACGTGGGCGTGGGTGGCGTCATCGTGGCTGGCAAGCGCAATTTTTCGCGCGCGGCACAGGGCGGCGATG -GATTCGCGATTCGGCTGCGACCAGCGTGCGGCGAGCGCCAGTTGCTCTTCTTCGTACTGCTGCATCTGCGCATCA -GTGAGGGAGTATTTGCCCTGATAATATTCGCGATACTTCTCGCGGTTGGCGAACTGGCGCTGGCCCGGCGAGTGG -TCCATCAGCGACACCAGCGTCACCGGCTCGCGCTGCACCAGTTTTTCAAACAGCGGCAGCGTGGTGTGATGCGGC -AGTTCGCAGCGCAGATGCAGACGGTGCTCGGCGCGGTTGACGCCGCGTTTCTGCGTCTCTTCGATGGCGTTGATC -ATCTTCTCCAGATTCTCCAGCCGATCGCCGCCGTCGCGCACGTCGCCAATTGCCACGGCATCCAGTACGGTGGTG -ATGCCGCTCGCCACCATCAGCGCGTCGTGGCTGCTCATCGCCGAGTGGGCAGGCCAGTCAACTTTCGGGCGCGGG -GTGAAGAATTTATCCAGATTATCGGTATGCAGCTCAATCAGCCCCGGCAGCAGCCAGCCGCCTTCGCCGTCCATC -GCCTCCGGCAGGCGGCTCTGGCTTTCGGCAAAGGCGCGGATTTCGCCGTTCTGCACCTCCAGCGAACCGCTTACC -ACCTCGTTTTCCAGCACCAGCTTAACGTTATTGATAATCATGAAGAGGCTCCCATTGGGTGCAGGCGGTCGGCGA -CGTCATTACGTACAGCTTCGTCATGGAAGATGCCTACGATGGCTGCGCCACGGGTTTTGGCTTCGCGAATCAGTT -CCACCACCGCGGCGCTGTTTTTGGCGTCCAGCGAGGCGGTAGGTTCGTCAAGCAGCAGAATGGGGTAGTCGACGA -TAAAGCCGCGGGCGATGTTGACGCGCTGCTGTTCGCCACCGGAAAATGTCGATGGTGCCAGGTGCCACAGGCGTT -CCGGCACGTTCAGGCGGGTGAGAAGACGCGCGGCTTTAGCGGCGCAGGCTTCACGCGGAACGCCGGTATCGAGCA -GCGGCTGCATCACCACTTCCAGTGCTGAGATACGCGGGATGACGCGCAGAAACTGGCTCACCCAGCCGACGGTGG -TTTTGCGGATTTCCACCACTTTGCGCGCTGGCGCGGTGACCAGGTCTACCCACTCGTCACCGTGTTTGATCTGGA -TTTGACCTTCGTCGGGCAGATAGTTGGCGTACAGCGAGCGTAGCAGAGTTGATTTGCCGCTGCCGGAATGGCCGT -GGAGCACCACGCATTCGCCCGCGTTGACGGTGAGCGAGGCGCGATTGAGGACGGGCAGGCGCACGCCGTTTTGCT -GGTGCAGGATGAAGGTTTTACTGACGTTTTGTACGTTAATCATTTTTCGCCTCGTGGTTCGGGTGTCGGATGCGA -CGCTGACGCGTCTTATCCGACCTACGGGGAGCGCATTTGTAGGCCGGATAAGGCGTTTACGCCGCATCCGGCACC -GGCTCAATTCTGCAAAACCGATGACACCAGCAGCTGTGTATACGGATGATGCGGGTCGTCGAGCACGCGGTCGGT -TAACCCACTCTCCACCACTTGCCCCTGCTTCATCACCAGCAAACGGTCCGCCAGCAGGCGGGCGACGCCTAAATC -ATGGGTGACAATCACCACCGCGAGGTTCAGCTCCACCACCAGGCCGCGCAGCAGGTCGAGCAGGCGGGCCTGCAC -CGACACATCCAGCCCGCCGGTCGGTTCATCCATAAACACCAGCTTCGGATGCGTCACCAGGTTGCGGGCAATCTG -CAAACGCTGCTGCATACCGCCGGAAAAGGTGGTCGGCAGGTCGTCGATCCGGTTGGCGGGAATCTCCACCTCTTC -CAGCCACTTCTGCGCGGTGGCACGAATATCGCCGTAATGACGTGCCCCGGTCGCCATCAGCCGCTCGCCGATATT -GCCGCCTGCCGACACCTGGCGGCGCAGGCCGTCGAGTGGATGCTGATGCACCACGCCCCATTCGGTACGCAGCAG -GCGACGGCGGTCGGCCTCGCTCATTGCATACAGCGAACGGTTCTCGTAGTGAATTTCCCCCTGCTGCGGCGTCAG -GCGCGCGGAGATCGACTTCAGCAGCGTGGTCTTCCCGGAGCCGGATTCCCCGACAATGCCCAGCACTTCCCCCGG -CCATAAATCAAAAGAGACATCGCTAAAGCCTTTGCCCGGCGCGTAAAGGTGGGTCAGGTTATTGACCGAAAGTAA -CGGTTGATTCATTGGTTTTTTGCCTCGCTCTGTTGGCGGCAATAATCGGTATCGGAGCAGACAAACATGCGGTTT -CCGGCGTCATCCAGCACCACTTCATCAAGATAGCTGTGGGTCGATCCGCAGATGGCGCATGGCTCATCCCACTGC -TGAACGGTGAACGGGTGATCGTCGAAATCGAGACTTTCCACGCGGGTAAACGGCGGCACCGCATAGATGCGCTTC -TCGCGCCCCGCGCCGAACAGTTGCAGGGCGGGCATCATGTCCATTTTTGGGTTATCGAATTTCGGGATCGGCGAC -GGGTCCATCACGTAGCGCCCATTTACCTTCACCGGATAGGCGTAGGTGGTGGCGATATGACCGAAGCGGGCGATA -TCTTCATACAGTTTCACCTGCATCACGCCGTACTCTTCCAGCGCGTGCATGGTGCGGGTTTCCGTTTCGCGCGGC -TCGATAAAGCGCAGCGGCTCGGGGATTGGCACCTGGAAGATAATTATCTGATCTTCGGTCAGCGGCGTTTCGGGG -ATGCGGTGACGCGTCTGGATAACCGTCGCATCGTCCGTACGTTCCGTGGTGTTTACCCCGGTCACGCGCTTGAAG -AAGTTGCGAATCGACACGGCGTTGGTGGTGTCATCCGCGCCCTGGTCAATCACCTTCAGCACGTCGCTTTCGCCA -ATCACGCTGGCGGTAAGCTGAATGCCGCCGGTTCCCCAGCCGTACGGCATCGGCATCTCGCGCCCGCCAAACGGC -ACCTGATAACCGGGGATCGCCACCGCTTTTAAGATGGCGCGGCGGATCATGCGTTTGGTCTGCTCGTCGAGGTAG -GCAAAGTTGTAGCCGCTCAGATTAGCCATGGTTCTGCTCCTGTTGCAGACGTTTGAGTAGCTCCAGTTCGGCCTG -GAAATCGACGTAGTGGGGGAGTTTGAGGTGTGAGACAAAGCCTGCGGCTTCGACGTTGTCGGCATGTGCCAGCAC -GAACTCTTCATCCTGCGCCGGGCCTGTCGCGTGCTCGCCGTACTCCGGGGCTTGCAGAGCGCGGTCGACCAGCGC -CATCGCCATCGCTTTGCGCTCGCTCATGCCGAACACCAGCCCGTAGCCGCGCGTGAAGTGCGGCGGCTCACCCGG -CGGGTCGATAAAACCGTTAACCATTTCACACTCAGTCATCAGCAGTTCGCCGACGTTCACCGCAAATCCCAGCTC -TTCCGGCACAATCGACACGTCGATATAGCCGCTGCGGATCTCGCCTGCGAACGGGTGATTGCGCCCGTAACCGCG -TTGGGTGGAGTAGGCCAGCGCCAGCAAATAGCCTTCGTCGCCGCGCATCAACTGCTGCAAACGGGAGGAGCGTGA -GCAGGGGTAAACCGGCGGCGTGCGGGTGATGTCATCCGGCTGTGCGCCGCTATCCTCTTCAAACTTCGCCAGCCC -CTGACGCGCCAGCAGGCTGAAAACGTGCGGCGACGGCTGCTGTTCGCTGTCGGCGGTGGTCAGCGTCGGCGCTTC -GCCGTTTGCCAGCAGGGTAAAATCGAGCAGGCGATGGGTGTAGTCGTAGGTTGGGCCAAGCAGCTGGCCGCCGGG -AATGTCTTTATAAACGGCGGAGATACGGCGTTCGAGACGCATCCCGGTGGTGTCGAGCGGCTCGCTTACCGCCAG -CTTCGCCAACGTGGTGCGGTAGGCGCGCAGCAGGAAAATCGCTTCAACGTTATCGCCGCTGGCCTGTTTCAGCGC -CAGCGCCGCCAGTTCGCGGTCGGCAATGCCGCCTTCGGTCATCACGCGATCTACCGCGAGGTTAAGCTGCTGTTC -AATCTGGGCGACGCTCAGTTCGGGCAAATCGGTATCGCCTCGGCGTCGGCTCTCTTGCAGGGCGTGGGCGGCGTC -GATCGCCTTCTCGCCCCCTTTCACGGCAACGTACATCAGCACACCTCCACATGAGTGGTTCGCGGAATAGCCAGC -AGGCGCTCGCCACAGGTCAGGATCAGGTCGATGCCGAGCGGGAACGGATGCGGGCGCTCGGTGAGTTCGTGCAGA -ATGCACTCCGGCAGCTGCGGAGCGATCATTCGTTCTTCGGCAATACCCGCACCAGTAAGGCGCAACATGCGTCCG -CCGCTCAGGCTGGCGACCTGTAAAATCAGCGTCGCACCCGCTTCCGGCGCAACGGCGGTGCCGGTGGAAAGGGCG -TTGAGCTGTTCGCTGGAAATCGCCTCATCCGTCACCGCGAAGGTCGCCTGTTCCGGCTGGCTGACCAGCGGCGCG -TTGGTATGAAAACGCAGGCTCTGGTTGACGATATCGTTATTTAATGGGGTAGAAAGCCACACCGGCGTGTCGTTA -TCGGCCAGCGTCAGCAGCACGCTGGTGGTGGCGATATTCAGCGGTTGCCAGCCGCGTTTGAGCTGATGCAGGGCG -ACAATCACGCCCGGCTCGCTCATGGCCTTTAACAGGCGACGAAAACTGTGCTGGGCATCCTGCACGGGAAGCATA -AAAGCGGTTTCCAGGGTCATGCGTTGTCTCCGCGAACCATCGTAAAGAAGTCGACCCGGCTGGCGTTCACTTCGG -CCTGGCGTGCGGCAATGCGTGCCATACGGTCAGCGTCCAGCGGGGCAATAAGGGTTTCTGATAAGTTTTGAAAGT -GGCGAGATTGCTGCATCAGCGCGTCAATCAGCGCGCAGCGTTCGGCGTGCTGTTTATCACGCCCCTGCACCCAGC -TGTAGCCGAGCGTGCCGTCAGTCAGGCGCACGGCGGCGCGGGTCAGCGTGGCGTCGCCGGCAAAAAAACGTTCGC -CGGTGCCGCCCATCCGCGCCTGAATCTGTACCAGGCCAGTTTCAGCGGCGCGGATCACCTCATAGTCGGCGGTGA -TGTTTAGCGCGTTCAGGCGTGCTGCCAGTTCAGCCGGTTGGCTGTGCGCCAGCACGGACATCCAGTGCTGGCGGG -TCGCGGTATCTGCGTGCATTCAGTGCTCCATAGTGAATTCAATCATGTCGGCGCGCGTCAGGCTGACGGAGTACT -CCGCCGGGCTGCTTTCACCGTCACGGTGGTTAAGGGTGCGCACGCACAGCAGCGGCGACATATTCGGGATTTCAA -GACGCTGGCACTCTTTGGCCTGGGCGCGGCGGGCGCTGATCCGCGTCTGGCTGCGGCGCAGCGCAATTCCGGTTT -GCTCGCGCAGAAAATCGTGCAGCGAGCCGCTGTCGAAGCGTTGCAGCGTCGGCCAGAGGGTGAGGTCCGCGAAGT -AGTGGTCGATTAAACAGAGCGCGACGCCGTTGACACGACGCAGGGTGCGCAGGTGGATGACGTTCTCCCCCTCGG -TAATCCCCAGTGCGTCAGCGACGTGGCCGGACGCGGGGCGCAATACCGAAAGCAGTTTTTCGCTGGTGGGATGGC -TGCCCTGATCCAGCAGATTCTGGCTAAAACGCGCCTGGGCGTTGAGCGGGTAATCGAACGGGCGCATCAGCACCA -GCACGCCGACGCCCTGACGGCGCTGTACCCAGCCTTTTTCCACCAGTTGGTCGATGGCGCGGCGCAGGGTGTGGC -GATTCACCTCAAAGCGCGCTGCCAGTTGCTGCTCGGCGGGAAGATAGTCGCCGCAGCGGTAGTGTTGACGAAGCT -CCTGCTCAAGTTTTGCGGCTATCTCTTGATAGCGTGTTGGGTAGCTGGTCGGATGTGTAGACAAGTGCATAGATA -TCAATGCCTCGCTTATCAGATAAAGTGCTTACGCAACCGTTGAGAGAGGAAATCCAGCAGGCTGACCGTGACGAT -GATAAGCACCATCAGGGCGCAGGTTTGTTGGAACTGGAAACCGCGAATCGCTTCCCACAGGGTGACGCCGATCCC -GCCTGCGCCGACCATGCCGACGACGGTCGCCGAGCGGACGTTGGATTCGAAGCGATAGAGGGAGTAGGAGATCAG -CAGTGGCATCACCTGTGGCAGCACGCCGTAGAGGATCTCTTCGAGCTTGTTGGCACCGGTGGCGCGAATGCCTTC -CACCGGGCCGGGCTCAATCGCTTCCACCGCTTCGGAAAGCAGCTTGGAGAGCACGCCGGTGGTGTGGATAAACAG -CGCCAGCACGCCAGCACGCCAGCGAACGGGCCGAGGCCGACGGCGACCACGAACAGCATGGCGAAGACCATTTCG -TTAATGGCGCGGCAGGCGTCCATCAGGCGGCGAACGGGCTGGTAAACCCACCACGGCACCAGGTTTTCGGCGCTC -ATCAGGCCAAAGGGGATGGAGAGAACCACCGCCAGCGCGGTGCCCCAGACGGCGATTTGCAGCGTGACGGCCATT -TCGGTGAGGTAATCCTGCCACTGGCTGAAATCGGGCGGGAAGAAGTCGGCGGCGAACGTCGCCATGTTGCCGCCG -TCTTTGATCAGCGTAAGCGGGGCCATTTCCGCGCCCTGCCACGAGACGACCAACACGGCGAGTACAACGGCCCAG -CTCAGAAGCGAGAACCAGCTGCGCTTGGGTGGGGCGATGGTGATGGTTTGCATGTTTGGCTCCGGTCTGTAGGCC -GGATAAGGTGCTTGCACCGCATCCGGCATCAACGCCTGCACATTGTCGGATGCGACGCCGGGGCGTCTTATCCGA -CCTACGATTTACTGCACCGCTTTACTCACCGAACTCATCGCGCTTAGCGCGTTGTTCAGGCGGTCCAGGTCATCC -AGCTGCGCCTGAATCTCGGTGGTTTTTGCCAGCTTGTCCTGCTCATTCAGTCCTTTATTGCTTTTCACGCCCTGC -ATCTCTTTAAACAGCGCGAGCTGGCGAATCGGCACCAGTTGCAGGTCGCTGGAAGCGCGGAATGGCGCCCAGCCC -AGGCGTTCCAGCACCGCTTTTTCTTCCGGCGTTTTGCCGTAGTTCATAAAGAAGTCGTAGATCTTGTCTTTGGTG -GTTTCGGAAAGATTCTTGCGCCAGACGATCGGATCGCCTGGGATCAGCGGCGACTTCCAGATCACCTTCAGTTCT -TTCAGCTTCTCTGGCGCGGAGGTTTTCAGCTTGTCGAGGTTTTCGGTGTTGTTGGTGGCAACATCCACCTGCTTG -TTGGCGACGGCCAGCGCGTTGGTTTCATGCCCGGCGTTGACGGTGCGCTTGAAGTCGCTGGCGGAGATATTGTTT -TTGGCGAAGACGTAGTAGCCGGGGACGAGGAAGCCAGAGGTGGAGTTAGGATCGCCATTGCCAAAGGTGAGATCT -TTCCGCTTCGCCAGCAGATCGTTCAGGTTGTTGATCGGACTGTCTTTGTTGACGATCAACACGCTCCAGTAACCC -GGCGATCCATCCGCCGCGACCGTCTGGGCGAAGACCTGGCCATTGGCGCGATCCACCGCTTCCATCGCCGACAGA -TTGCCGTACCAGGCGATATCCACTTTATTGAAGCGCATCCCCTGGATAATGCCCGCGTAGTCCGGGGCAAAGAAG -GCGTTGACCTTCACGCCCAGCTTCTTCTCCATATCCTGCAAGAACGGCGTCCATTGCGGTTTCAGGTTTTGCTGT -GATTCCGTTGAAATAATGCCGAAATTCAACGCCTTTTCCTGCTCTTCGGCGTGCGCCGGGCTTAACAGGGTGCTG -AGGCTGAACATGCTGGTGAAGGCCAGCGAGGCAATTATCTTAGCGTTCATTCGTTTTCCTCAATGATGGGGATGT -CAGGCAGCTTTCGCGTTCTCTTCGACGCGGTTAATGCTGCGGTAGAGATGGTCAAAACGTTCGTTATCAAACTGT -TGGCTGCTGCCGTCGTAGAAGACGTGCCCCTGGCGCAGGGCGACGATGCGTTCGCAGTAGCGCAGGGCGTAATCC -ACCTGATGCAGCGTGACGACCACGGTGATGCCGTCGTTCTGGTTGATGTCGCGCAGGGTGTCCATCACGATGCGC -GCTGATTCTGGGTCCAGCGAGGCGATGGGTTCATCGGCCAGAATCACTTTCGCCTGCTGCATCAGCGCACGGGCA -ATCGCCACACGTTGCTGCTGGCCGCCGGAGAGGGTGGAAACGCGCTGATGGGCAAAATGCACCATGCCAACGCGG -GTCAGCGCCTGTAACGCGCGCTGTTTCTGCTCGCCGGTGAACCAGCTAAAACAGGTGCGCCAGAACGGCGTGCTG -CCGAGCGCGCCAATCAGCACGTTCTCCAGTACGCTCAGGCGGTTCACCAGGTTGAATTGTTGGAATATGTAGCCG -GTATGGGCGCGGCTTTTGCGGATATCGCGGGCCAGGCGGCCTTCGCGCTGGACTGTGCGGCCCAGCAGCTCGATA -TGGCTACCGACAGATTTATCGCCGGTAATCAAACCGCTTAAGTGACGTAAAAGGGTGGATTTTCCGGAACCCGAC -GGCCCAAGCAGAGCCACCATTTCACCGTGATGAATGTTCAGATCAACCGCATGCAGCGCCTGATGCTGATTGAAG -GTTTTGGCGAGCTTCTCGACACGGATAATCGTTTGCATGATGCAGCCTCCCTAAAAAAGTGGCTCCATCGTGGCG -GATTATTGTGACGATTTGGTTAATTAAAAGTGACTAACAGATGAAGAGTTAACGGGAATTCGATGACAGTGCGGG -AGGGCGGGCCTCCCGGCGGGTTATTGCGTTGGTTGTTGTTTGACGACATTAATCATCCACGGTACGCCAAATTTA -TCGGTGACTTTGCCAAAGCCATGCGCCCAGAAAGTTTCCTGCCAGGCCATTTCGATTTTTCCGTTAGCGGCAAGA -TTGTCAAACCAGCGTTTTCCTTCTTCGACCTGTTGCGAATCGAGCACCAGCGTAAAGCCGGAGTAGCTGGCTTTT -CCTGACGGCATGGCATCGCTCATCATGATGTCGCTTCCGGCAATGCGCACATTGGCGTGGGCGATGGCGGTATCG -GGAAATTGCATTCCGGAAGGGCAGTTCTCGGCGCTGTCCTGCGCTGATTTTGGCATTTCGCCGAAGCTGATTTTA -TAGAGCAGTTCCGCGCCCAACGTACGTTGATAATAGGCAATCGCGTCGGAACAGTTACCGGCAAAAGAGAGGTAG -GGACTTAACGGCATGATGGTGACCTCAGTTAAGAGAAGCCAGTTAAGTGTAGTTCGAAATTTATACAGATGAGAG -GCGGCCTGATAAGACGCGCGAGCGTCGCATCAGGCAGTCGGCACTGTTGCCGGATGCGGCGTAAACGCCTTATCC -GGCCTACGGAGGGTGCGGGAATTTGTAGGCCTGATAAGACGCGCAAGCGTCGCATCAGGCAGTCGGCACCATTGC -CGGATGCGGCGTAAACGCCTTATCCGGCCTACGGAGGGTGCGGGAATTTGTAGGCCTGATAAGACGCGCAAGCGT -CGCATCAGGCAGTCGGCACCGTTGCCGGATGCGGCGTAAACGCCTTATCCGGCCTACGGATGGTGCGGGAATTTG -TAGGCCTGATAAGACGCGCAAGCGTCGCATCAGGCAGTTGGCACTGTTGCCGGATGCGGCGTAAACGCCTTATCC -GGCCTACGGAGGGTGCGGGAATTTGTAGGCCTGATAAGACGCGCAAGCGTCGCATCAGGCAGTCGGCACCGTTGC -CGGATGCGGCGTAAACGCCTTATCCGGCCTACGGAGGGTGCGGGAATTTGTAGGCCTGATAAGACGCGCAAGCGT -CGCATCAGGCATCTGGCACCGTTGCCGGATGCGGCGCGAGCGCCTTATCCGGCTTACCGATCACAATACAATCAG -TTCTTTTTCACAAACTCAGATTTCAGTTTCATCGGACCAAAACCGTCGATTTTGCAATCGATGTTATGGTCGCCT -TCAACCAGGCGGATGTTTTTCACTTTGGTGCCAATTTTCAGCATCGAAGAGCTACCTTTCACCTTCAGATCTTTA -ATGATGGTAACGCTGTCGCCGTCAGCCAGCAGATTGCCGTTAGCATCTTTAACGATCAGCTCGTCGCTTTCCTGT -GCAGGTTCTGCGTCGTTCCATTCGTAGGCACATTCCGGGCAGATGTACATGCCGTTATCTTCGTAGGTGTATTCG -GAGTTGCATTTTGGGCAGTGTGGTAATGACATGTGGATTTCCTCAAAAGTCAGCAGGGCAAAAGCGCCAAAAAAC -GGCAGATTGCCGAAAAAGGCCGCAATTATACACAAAATCCCTGAGTTTGTCGGGGGTACTGCTGATTTTAGACGA -CGATCGTTTTCATTTGAAAGGAAACGCAAAAAGAAAATAATCTTTTTGCCTCTATTTATTATTTAAGATAATGTT -AATGCTCTACTTGTTCTTTTTTTAATTCACATGATATTTTTATCTTTCTGACGTTTTAAACGTATCAGAAGACGT -TATTTATTCTGATAAAAAACAACACACTAAATATAAAATTATTTCTTGCAGTAATTATAAAAGCCGAAAACAGAA -CTCAAAAACAATCTGGCTAAATAAAATAACAAAATTTGCTTTAAGGAAGAATTTTCTATGTACACACAGACCCTG -TATGAGTTAAGTCAGGAGGCTGAACGCCTGTTACAGCTTTCTCGCCAACAGTTGCAGTTACTGGAAAAAATGCCT -CTCTCTGTACCCGGAGACGACGCGCCACAACTGGCTTTACCCTGGAGTCAGCCTAATATCGCCGAACGTCACGCG -ATGCTGAATAATGAGTTGCGTAAAATTTCCCGACTGGAAATGGTGCTTGCAATTGTCGGTACCATGAAAGCAGGG -AAATCAACCACCATTAATGCCATTGTTGGTACGGAGGTTCTGCCTAATCGTAATCGCCCAATGACTGCGCTGCCG -ACGCTTATTCGCCATACGCCCGGGCAAAAGGAACCGGTACTGCATTTTTCACATGTCGCGCCAATCGATTGTTTA -ATTCAACAATTACAACAGCGCCTGCGTGATTGCGATATTAAGCATCTGACCGATGTGCTGGAAATAGATAAAGAT -ATGCGTGCGCTTATGCAGCGGATCGAAAATGGCGTCGCTTTCGAAAAATATTATCTGGGTGCCCAGCCTATTTTT -CATTGTCTGAAAAGTTTGAATGATTTAGTGCGACTGGCGAAGGCGCTGGACGTCGATTTTCCTTTTTCTGCTTAC -GCCGCCATTGAGCATATTCCCGTGATTGAAGTGGAGTTTGTCCATCTAGCGGGGCTGGAGAGTTATCCCGGTCAG -TTGACGTTACTGGATACCCCCGGGCCAAATGAAGCCGGGCAACCGCATCTGCAAAAAATGCTTAACCAGCAGCTG -GCACGCGCCTCGGCGGTACTGGCGGTGCTGGATTATACGCAACTGAAATCGATCTCCGATGAAGAGGTCCGTGAG -GCGATTTTGGCGGTGGGGCAATCGGTGCCGCTGTACGTGCTGGTCAATAAGTTCGATCAACAGGATCGTAACAGT -GACGACGCCGACCAGGTGCGGGCACTGATTTCCGGGACGCTGATGAAAGGCTGTATTACGCCACAGCAGATATTT -CCGGTGTCGTCGATGTGGGGCTACCTGGCGAATCGGGCGCGCTATGAGTTAGCCAACAACGGTAAGTTACCACCG -CCAGAGCAACAACGCTGGGTGGAAGATTTTGCCCATGCCGCGCTTGGCAGGCGCTGGCGTCATGCCGATCTGGCG -GACCTCGAACATATTCGTCATGCTGCCGATCAGTTGTGGGAAGATTCGCTGTTCGCCCAGCCAATTCAGGCGTTG -CTTCATGCCGCTTACGCTAACGCCTCGTTGTATGCTCTGCGATCTGCCGCGCATAAACTGTTGAATTACGCGCAG -CAGGCGCGGGAATACCTGGATTTTCGTGCGCACGGGTTAAACGTCGCTTGTGAACAATTGCGGCAAAATATCCAC -CAGATCGAAGAAAGTTTGCAGCTATTGCAACTCAATCAGGCGCAGGTGAGCGGCGAGATTAAACATGAAATCGAG -CTGGCCCTGACCTCCGCCAACCACTTTCTGCGTCAACAGCAAGATGCGCTGAAGGTGCAGTTAGCCGCCTTGTTT -CAGGATGATTCGGAGCCGTTAAGCGAGATTCGTACCCGCTGTGAGACACTGTTACAGACGGCGCAGAACACCATC -AGTCGCGACTTTACGCTGCGTTTTGCCGAGCTTGAATCCACCCTTTGCCGGGTGTTAACCGATGTTATTCGCCCC -ATTGAGCAACAAGTCAAAATGGAATTGAGCGAGTCAGGGTTTCGTCCTGGGTTTCATTTTCCTGTTTTTCACGGC -GTAGTTCCCCACTTCAACACTCGCCAGCTGTTCAGTGAAGTCATTTCGCGCCAGGAAGCAACGGACGAGCAGAGC -ACGCGTTTAGGCGTTGTGCGTGAGACTTTTTCGCGCTGGTTGAATCAGCCCGACTGGGGACGGGGAAATGAGAAA -TCACCGACAGAAACGGTTGATTACAGTGTGTTGCAACGAGCATTAAGCGCAGAAGTCGATCTCTATTGCCAACAA -ATGGCTAAAGTTCTGGCAGAGCAGGTCGATGAATCTGTTACGGCAGGCATGAATACTTTTTTCGCTGAGTTCGCT -TCATGTTTGACGGAATTACAGACGCGTTTACGCGAAAGTCTGGCTCTGCGTCAACAAAATGAATCGGTGGTCAGG -CTGATGCAGCAGCAATTGCAGCAGACTGTGATGACTCACGGCTGGATTTACACCGACGCCCAGCTGTTACGCGAT -GATATTCAAACACTTTTCACGGCAGAACGATATTGACCAAGACGTTACTTGACGGCCCCGGTCGCGTGCTGGAGT -CGGTTTATCCCCGCTTTTTAGTGGATCTGGCGCAGGGTGATGATGCCCGCCTTCCACAAGCCCATCAGCAGCAGT -TTCGTGAACGACTGATGCAGGAACTTCTTTCGCGTGTGCAGCTTCAGACATGGACGAACGGCGGCATGTTAAATG -CGCCGCTTAGCCTGCGTCTGACATTGGTGGAAAAACTGGCGTCGATGCTGGATCCCGGTCATCTGGCACTGACGC -AGATCGCGCAGCATCTGGCGCTGCTGCAAAAAATGGATCACCGCCAGCACTCTGCTTTCCCGGAGCTCCCCCAGC -AAATTGCCGCCTTGTATGAGTGGTTTTCAGCCCGTTGTCGCTGGAAGGAAAAGGCGTTAACGCAACGAGGCCTAC -TGGTGCAGGCAGGTGATCAGAGCGAGCAAATTTTTACCCGCTGGCGTGCTGGGGCGTATAACGCCTGGTCGTTGC -CTGGGCGCTGTTTTATCGTTCTGGAGGAGTTGCGCTGGGGGGCATTTGGCGATGCCTGCCGTCTGGGAAGCCCGC -AAGCGGTGGCGTTGTTGCTGGGTGATTTGCTCGAGAAAGCGACACAACATCTGGCAGAGAGTATCAATGCGGCAC -CGACCACGCGTCACTATTACCATCAGTGGTTTGCCTCTTCGACCGTTCCGACGGGCGGGGAGCATGCTGATTTTT -TAAGTTGGCTGGGAAAGTGGACCACGGCAGATAAACAACCCGTTTGCTGGTCAGTGACCCAACGCTGGCAAACTG -TCGCGCTGGGGATGCCACGACTCTGTTCAGCGCAGCGTCTGGCGGGGGCAATGCTCGAGGAAATCTTCTCTGTAA -ATTTGGCGTAAATAATCAGTTACATCAATGAGTCCTAAACGAAATCCATGTGTGAAGTTGATCACAAATTTAAAC -ACTGGTAGGGTAAAAAGGTCATTAACTGCCCAATTCAGGCGTCAACTGGTTTGATTGTACATTCCTTAACCGGAG -GGTGTAAGCAAACCCGCTACGCTTGTTACAGAGATTGCATCCTGCAATTCCCGCTCCCCTTTTGCGGCCGTCGCG -CTGATTTTTCTGGCGTTTGCGGAAATGGGCCAACTCTGCGAGGAAAGCTATGCTGAAAAGGAAAAAAGTAAAACC -GATTACCCTTCGTGATGTCACCATTATTGATGACGGTAAACTGCGTAAAGCCATTACCGCAGCATCACTGGGTAA -TGCAATGGAATGGTTCGATTTTGGTGTTTATGGTTTTGTTGCTTACGCATTAGGTAAAGTTTTTTTCCCGGGGGC -TGACCCCAGCGTGCAGATGGTTGCTGCACTTGCCACTTTCTCCGTTCCCTTTCTGATTCGACCGCTTGGCGGACT -CTTCTTTGGTATGTTGGGCGATAAATATGGTCGCCAGAAGATCCTCGCTATCACTATTGTGATTATGTCGATCAG -TACGTTCTGTATTGGCTTAATACCGTCCTACGACACGATTGGTATTTGGGCACCGATTCTGCTGTTGATCTGTAA -GATGGCACAAGGTTTCTCGGTCGGCGGTGAATATACCGGGGCGTCGATATTTGTTGCGGAATACTCCCCTGACCG -TAAACGTGGCTTTATGGGCAGCTGGCTGGACTTCGGTTCTATTGCCGGGTTTGTGCTGGGTGCGGGCGTGGTGGT -GTTAATTTCGACCATTGTCGGCGAAGCGAACTTCCTCGATTGGGGCTGGCGTATTCCGTTCTTTATCGCTCTGCC -GTTAGGGATTATCGGGCTTTACCTGCGCCATGCGCTGGAAGAGACTCCGGCGTTCCAGCAGCATGTCGATAAACT -GGAACAGGGCGACCGTGAAGGTTTGCAGGATGGCCCGAAAGTCTCGTTTAAAGAGATTGCCACTAAATACTGGCG -CAGCCTGTTGACATGTATTGGTCTGGTAATTGCCACCAACGTGACTTACTACATGTTGCTGACCTATATGCCGAG -TTATTTGTCGCATAACCTGCATTACTCCGAAGACCACGGGGTGCTGATTATTATCGCCATTATGATCGGTATGCT -GTTTGTCCAGCCGGTGATGGGCTTGCTGAGTGACCGTTTTGGCCGTCGTCCGTTTGTGCTACTTGGTAGTGTTGC -CCTGTTTGTGTTGGCGATCCCGGCGTTTATTCTGATTAACAGTAACGTCATCGGCCTGATTTTTGCCGGGTTACT -GATGCTGGCGGTGATCCTTAACTGCTTTACGGGCGTTATGGCTTCTACCTTGCCAGCGATGTTCCCGACGCATAT -CCGTTACAGCGCGCTGGCGGCGGCATTTAATATTTCGGTGCTGGTTGCCGGTCTGACGCCAACGCTGGCGGCCTG -GCTGGTCGAAAGCTCGCAGAATCTGATGATGCCTGCCTATTACCTGATGGTAGTGGCGGTGGTTGGTTTAATCAC -CGGCGTAACCATGAAAGAGACGGCAAATCGTCCGTTGAAAGGTGCGACACCGGCGGCGTCAGATATACAGGAAGC -GAAGGAAATTCTCGTCGAGCATTACGATAATATCGAGCAGAAAATCGATGATATTGACCACGAGATTGCCGATTT -GCAGGCGAAACGTACCCGCCTGGTGCAGCAACATCCGCGAATTGATGAATAAGCTGAAACGGATGGCCTGATGTG -ACGCTGTCTTATCAGGCCAATTGAACTCTTAAGGTTCACTTAATCTCTGACGCGCATACTCTCCTCCAGGTTAAC -GGAGGAGAGTGCAATGAAAAACCGTGTTTATGAAAGTTTAACTACCGTGTTCAGCGTGCTGGTGGTCAGCAGCTT -TCTTTATATCTGGTTTGCCACGTACTGATCTTTCTTCAGCCGTACCCAGGCCCGCGTGCCGGAAGTCTCTTGCCG -GTTTTGCAGGAAAAACTGCCCGTGATGCAACTGTGTAATGCGGCTGACAATACTTAACCCCAGACCAATCCCGCC -ATAACGGCTGTCCATACGTACAAACGCTTTACTCAACTCCCCGCATTTACTCTCATCAATACCTGGTCCTTCATC -TTCAACTGCCATGACCGCTCCGTCATCTTCTTGCAGCTTAATCATAATGTTGCTGCCTTGCGGGCTGTAACGATG -GGCGTTTTCTACCAGGTTTCGCAATAACATCCGCAGCAGGGTTGCATCACCCTGAACGGTGATGTCGGCGGCGCT -CTCTGGCAATAGCAGGGTTTGCTGTCGCTGGTCGAGCATGGTACTGAGTTCGTCATACGAGGGGAGAATGACATC -TTCCAGCAGTTTTACATGTTGATAATTACCGGAAGAAAATGACTGTCCGGCACGCGCCAGTTGCAGCAGCTGGGA -GACGCTCTCCATCATCTGATCAAGCCGTGCCACTAACGGTGCTACATCAATGTGATGCGTTTTCGCCAGCAGTTC -CAGATGCAAACGCACCCCCGCCAGTGGCGTTCGCAGTTCGTGCGCGACGTCAGCGGTAAACAACCTTTCGTTATC -CAGCGTGCTGGTCAGGCGACTGACCAGATCGTTTAACGCCGAAACCACCGCTTCGATTTCGAGGGTGGCGCTGTG -AATGGCAATGGGCGTTAAGTTGTCGGCGGTGCGCGCTTCCAGCTCTTTTTGCAGCTCCGCCAGCGGGCGGGTGAT -GCGGCGTACCGCCTGATAGCAGATAAATAGCGTCAGGCTGACCATAAAGACGCCGGGGACAATCAGGCTGGCGAC -CGCCTCGCGGATCTCACGCATGATGTGGCGATCGTTGTTGCGATTGTCGCGTAGCGCCTGCTCAAACAGCTGAAT -CTGCTCGGTACTTTCATGCCATAGCCAGAAGACGCTGATCAGCTCAAACACCAACAAAATGGCCCCGATGGTCAA -TATCAGCCGTTGGCGCAGCGATATTGGTCGGCGCAGAAAATGCATCAGATTCAATTAGTTTTCCTCATTCGCGAC -CAGCATATAGCCAAAGCCGCGCACGGTGCGGATACGGGCTTTGCCCACTTTGTCGCGCAGATTGTGGATATGCAC -TTCCAGGGTGTTGGTCGAGGGTTCATTGTCCCAGTTATAGATGTCGTTGTAGAGAATTTCCCGATGCACCGGACT -GCCTGCTTTGAGCATTAACCGTGACAGCAGAGCATATTCTTTGGGCGTCAGAATCAACTCTTCACCGCCCATCCA -TACCTGACGGCGACCCATGTTCAGCGTCAGATTGCCAACAATCAGCTCACTTTCGCCCTGATTATTATGGCGTCG -TAGCAGGGCGCGGATACGGGCATGTAACTCTTCCAGCGCAAAAGGCTTCACCAGATAGTCGTCGGCACCGACATC -CAGCCCGGCGATTTTGTCGGTCAGCGTATCGCGAGCGGTGAGGATCAGTACCGGCAGGGTATATTTTTTCTGCCG -GATACGGGCGAGAAAATGCAGTCCATCTTCGTCGGGTAACCCTAAATCCAGTACCACCAGGCTGTAATGACCTGC -CTCAAGGCTTTGTTCCGCCATCCGCGCGGTTGTCACGCTATCGCACGCGTAGCCTTCGGTTTGCGCCGCCAGAAT -CAGTCCCTGCAATAACAGCGTATCGTCTTCAACAATCAGAATTTTCATTCACTCACTCTCCTGCAAGTTTGCAGA -ATATCATCCGCAGCCTGGTAATACTTCGTCTCAACGCCAGTTAATCCCAATAGCGTGGAGAATAAATTGTCTTGT -GAATAGTGTTGCGTTTGCGCCTGTTTTTGCAGGCAGTTCTGGTCAACCTGATACCGTTTTTGATAATCCTCCGAC -AGCCACAGCAGCATCGGCACCTGTTTTTGGCTATCCGGGGCGATGGCATAAGGCAGACCGTGCAGATAGATGCCA -TTTTCACCTAACGATTCACCGTGGTCAGAAAGATAAACCAGGCTGGTGGTAAATTTATCCTGATGTTCTTTCAGC -AGATTAATCGCTTTATCAACAATATAGTCGACGTAAACCAGCGTGTTGTCGTAAGTGTTCACCAGTTGCTCTTTG -GTACAGGTCTGGATCTCATTGGTGTCGCAGGTTGGGGTAAATTTCCTGAACTGAGGCGGATAGCGGTTGTAATAG -GTCGGACCGTGGCTGCCGATGGTGTGTAAGACAATCACGCCATCACCTTGCAGGTTATTGATGTACTCTTCAAGC -CCGTGGAACAGCACTTCGTCATAGCATTCGCCGTTGATGCACTGATCAGGTAGATTCAGCGCGGTGACGTTCTGG -TGAGGCACGCGGTCGCAGGCACCTTTACAGCCGCCATCGTTGTCATTCCACAGCACGTTGATGCCCGCTCGCTGA -ATGATATCCAGCACGCCTTCCTGGTGCTGTGCCAGCTCTTCTTTGTAGTGCTCACGCGGCATATCCGAGAACATG -CACGGTACTGAAACTGCCGTTGCCGTGCCGCAAGATGCGGTATTAGGGAAATAGACCACGTTATCTTTCGCCAGC -CGCGGGTTAGTTTCACGCGGGTAGCCGTTGAGGGAGAAGTTCTCCGCCCGCGAGGTTTCGCCGACAATCAGGATG -GTCAAATTTTTACGTTTTTCGTTCTGCATTAACGGGTTGCGGTGCGCGTCTTCACCAATTCGCACCAGCGGCAGA -TTTGCCAGTCGCTGATGGGAGTACCATGACCAGCTGGCAACAATGCTGTTAGAGGGGCTTAAGGATTTCACCAGC -TCTTTGTTATTGCGGAACAACGAGGCGTAGTCTTTATAAAACAGTGCGGCGACCAGCAAAATCAGTAGTACAGAA -ACCAGAATATTGGCTCCACGGAAAAGAACACTGCGCAGACGCGAGGTGGCAGGTTTGATTTTTATCCAGCAGGCA -ATCAGCGCAGCAAGCACGCCGCTGAATCCCAGCGTTAATAACATTTGCGGTGTCATCAGCGCATAACTTTCTGCC -GGAGTGGTATCAATAATATTGGCAATCATCGAGCGGTCGATGACGATGCCGTAAGTCATTATGAAATATTGTGCA -GCCGCGCCAACCAGAATAAACAGGCAGGCCAGTGGTCGATTAAGCCATAAGAAAGAGCTTAGTGTCAGGACAATA -TTAATCACGCTGAAAGCGACGACCGGCATCGACAAGAAAACCAGTACGTTATGCAGCGAATCCAGCGGCAGCGCC -TGCAACACCTGTTTAAAAAAGGCAATATTCAGGCAGATAGAGATATAAAAAGCGGCCAACAATAGCCAGGCGAGT -AAATTCAAAGAGGGTCTTTTTAGTAGGCGCTTCAACATCACGGTGTTTCCATCGAACAAAGTGCGCATATGCTCG -CAAAGCAAAATTAAGCCAACCTTAAGTTCTTAAGGTTGGCTTTTATGTTTGCTGGATTAAGGGGAATTAATCTTT -GCTTATTGGTGCATCTAAGGGATACGGGTTTTTATGTAGCCGGTTGTAATTCAGCGCATACATGGCGGTGATGAC -CATCAGGGTGACAAATGACCACATAACCTCTTTCGCTCCGGACCCCACCACGGCCCAGATGCAGTAGAGGAAGGC -AATGGTAGTAACTGCCAGATATGCCGGGCGTGCTTTACCAAAGTGACCGTGTCCGAGCAGCAGTAACGCCGCACA -GGTGTAAAGATATGGCACCAGTGTAAAGATGACCGAGACGGAAGAAACCAGACCGAACTCTTTGGTCGCGTTTGG -TGAAATGCTGCTGAGCTGGAAGATGGTCATCAAAATACCGACGATAATCAGCCCCGCCACTGGCGTACCCGCTTT -ATTTACACGGGCAAAAATCGGTGGGAACAGTCCGTCATCGGCAGCGGCTTTCGCCGTTTGACCCGCCAGCAACGT -CCAGCCGCCCAGTGAACCTAAGCAACCCGCAGCTGCGCAGAAGGAAACAATGGCCCCGGCGGTGTCACCCAACGC -CATCCGTGCGGCATCACCGAATGGCGAAGCAGAAACGCGCAGTGCGGCATTAGGGATCATCCCCATAATCGCGGT -GGTAGAAAGTACATAGCAAACGGCGGCAATCAATACCCCACCAATGGTGGCGATAGGGACATTGCGTTTCGGGTT -TTTCACCACACCTGCGGCAACGGAGGCACTTTCCACACCGATGAACGACCACAGCGTAACGTTAAGGGTACTTTG -AATTGCACCGAAGGTGCCCAGGCCGCTGACGTTCCATGCCGCCATATAGGTTTCACCACGGAACCAGAACCAGCC -AAATACGGCAATCCCGACGATGGGGATCAGCGCCAGCACGGTGGCAACTGCCTGCACACGGGTGATCATTTTCGG -ACCGACAATGTTCAGCAGGACGAAGATCCACAGCACCACGACGCAGGTGATGGTTAATACCAATGGATCTTTCAG -AATCGGGAAGAAGTAACTTAAATATCCTACGCCAATGACCACCATGGCGATATTGCCGATCCAGCAGGCCAGCCA -GTAGAGGACGTTGGTTTGATAACCGAGAAACGGGCCAAAGCAGCGGCGGGCGTAAGCGTAAGAACCACCAGGACT -TGGGTCGAGGAACGACATTTTGGCGTATACCATCGAGAGCCCCAGTGCACCGATAATCGTCACCAACCATCCATA -AATGGCAATCCCGCCAGTAGAGGCCAGGTTTGCAGGTAACAGAAAAACACCTGACCCCATAATATTCCCCGACAC -CATCAGGGTGACGGGGATTAAGCCCACTTTGTGAGCATCAGCATCCGAAGACATAATTAAACTCCTGCGAAGGCG -AGCTTCGTGACAATAAATTACGTCATATCATACGCCTGCATTCGATAGTTGAATTATTATCGACCGGGTTATCGC -TGATGCCGTTATTAATATAGCTCTTCGTTAAGGTTAAAAATCAGGCGACAGTGCGTTCTCTGTGCTGACTAACAT -AATGCAGCGGCGTCATACCGTAGAAGTCTTTAAAGACAGAAATAAAGTACGACGTACTGTTGTAGCCGCAGGACT -GTGATACCTGAGAGATATTTTTACCGTCCATCATTAATTCATTTACGGCATAACGCATGCGGCAGGTGGTGATTA -TTTGGCTATAACTGGTGTTTTCGCTTTTCAACTTTTTCTTTAACAGACTTGGGCTAAGACATAAACAACTGGCTA -CCATACTAAGATTCCAGTCTTTGTGAATATCGCTTTCAATAATTTGATAAACGCTGTCACTTACACAATTACGTA -ACATATACATCATTAATGAAACGAATTTTTTACTGTCGAGAAAACGGGATAGCACCGTGAATAATAATGCGCGTG -TTCGTTCCTTTTCTGACTCAGTTTCTGCGGGCATCATGCTGTGTTGCGCGGCAACGCGAAAGACGTCTGGCGTCA -GGCATGGCAGGGTGAGTATGGGCGTAGCGCTACGTTGCCATACTGGTATTTGCGAGAGATCTTTATTCAGAAACC -GGAGGTAATCTTTGATGATGTCGTGACTAATATGAGCAACCAAAGTGTTGTTAAGAGAGGAGACGTCGATAATAT -TATTTTCACAATTTAATAACGCCATATGGTTAGCTTTAAGGCTAATAGGTTCTTTCCCATTCACCCTTATCCAGA -CATCTTTTTCAGTCAATAAAACAATACAAGGTTGGTCGCTGCAAATCCTCATACATGTACTCCTGAGTGCGAATA -AAAGACCAGTTCTCGCTAAAGCAAAGCGATACCGGGAAATGGTTATATAATTGTATGATGAATATAAACATGCAT -AAAAATAACGAGTTTTACTAATAGTACAAATTTTTATAGTAATTTCTCATGTACATATTTTTTTACAGGATAAAT -AACAGGCAAAAAAAAGCGCGGGGTGGGGCCGCGCAAAAAGTATGACATTTTTGTTTGCAGCAATTTTTATGAAAA -CGTTGCCATACTCAAAAGGCCTAAGGCCAGGCGGCGTAATGTTATTTAAACAATTACGCCTTCAGCGGAATAGTG -GTTACGCTTTCACGCACATAACGTGGTAAATACCGTCAATAATTTCAGTCCCTTCAGTTTCGTGTTCAAATCCAG -GGAAATGGTGGTCCCAGGATTGCAGCGAGCGTAAATAACTTACTTGCGGACTGTTTTTATCGCCGAAGTTTTCAC -CAGACAGCAGCATCGGGATTCCTGGCGGATACGGGATAACTGAGTTTGCCGCGATGCGTCCTGGCAGATTTTCAA -TGGATACCAGTTCGACATTGTTGTCGACAATCGCGTTGTACGCTTCACGCGGGGTGACTTCCGCCACCGGCAGGC -CGGAATAGGCTTCGTTCAACCGTGCGCCAGGGTTGTTTTCTTTCAGCCAGGCAAACATGGTGTCACCCAGATCGT -GAATCCCCATGTTCGCGTAAGTGTCAGGATATTGTTCAACAAGTTCCGGCATCACCTGCGCCAGCGGTGTGTTGG -CGTCATAGTGGCGTTTGAAGGAGCAAAGGGTGTTAACCAGAGTTCCCCATTTCCCACGGGTTACGCCCATAGAGA -ACAGGAACATAATTTGGAAGTCAGTGGTGCGGGTAGGTACAATGCCGTGGCGACCAAGCCAGGCAGTGACCAGCG -CCGCCGGAACACCGGTTTCTTCCAGTTCACCATCTTCACCCATTCCCGGAGCAAGGATGCTGACTTTAATCGGGT -CGAGCATACTCCAGTTATCCGGAATATCTTTGAAGCCGTGCCAGCTTTCGCCCGGATGCATTACCCAGCAGTCCT -GAACGGTGGTCAGCAGTTTGGTTGGTGCGTCAGCAAAGTCATAGGTTTTGCCGGTTTGTGGGTCGGTGACGACTT -CTTTGTTCCACGGTTTGAAGAACCAGCTACCGTCAGCGGTGAACTCTTTATATAGCCGCGCCATCGCCTGACGGA -AATCAACCGCTTCGTCAATCACTTCCTGTGTCAGTGACAGGCCGCTGTTGCCGTCCATCATCGACACCGCCACGT -CGTTGGATGCGCAGATGGCATACAGCGGGGAGGTGGTGGCATGCATCATGTAGGCCTGGTTGAAGCGGGAGAAGT -TAATCGCCCCACGACCTTCACGTACATGAATATAAGAAGCCTGTGACAGCGCATTCAGCAGTTTGTGGGTGGAGT -GGGTGGCGAAAACGGTAGGACCGTTGTGATCGCCAGGTTCGCCGCGCATGGCATAGTGATCGGCATAGATCGGGT -TGAAACGTGCATAGCCGTACCAGGCTTCGTCAAAGTGCAGACGATCGGAGGTTTTTTCCAGCAGATCCTGCGCTT -CTTTAGCGTTATAACACACGCCGTCATAGGTGCAGTTGGTCACCACGCAGTAAGACGGTTTTTGCCCGGCTTTGT -CTTTGGTCAGCGGGCTTTCACTGATTTTCTTCTGCAAGGTTTCAGGTTGCATTTCCTGCGGATAGATTGGCCCGA -TAATGCCGTAGCGGTTGCGGCTTGGCACCATATAGACCGGTTTCGCGCCTGTCAGCATCAAACCTTGTTCGATGG -ATTTATGGCAGTTACGGTCAACGACCACGACATCGTTATCGGTCATGCAAGCCTGCATGATGGTGCGGTTAGAGC -CGGAAGTACCGACGACTACCGACCAGGAGCGATCGGCACCAAATACGCGTGCGGCATATTTTTCGCTTTCGCCAA -ATGCGCCAGTATGGTCAAGCAAAGAACCGAGGGAAGTTCGTTCGATGCCCATGTCGGTGCGGAACAGATTTTCAC -CATAGTAGTCATGGTAGAAACGTCCGGCGGGTGTTTTGGTAAAACCAACGCCGCCCTGGTGGCCTGGCGCTGCCC -AGGAATATTCATGGATGTCACTATATTTCATCAGCGCGCTGAACAGTGGCGGCAACAGCTGCTGGCGGTAGCGGG -TCATCGCGGCAACGGCGCGTCCGGCGATAAAGTCGGCGGTATCTTCCAGAATCCAGGCGAATTCATCGACAAGCT -CCAGCAGGTCGCGATCCATTGCGGCGAGGGCTTTTTCCCGATCGCCCAACAGGAAGACCGGCACGTTTTGTTGGC -GCTCATGAAGCTTACCGATCAATTGTCTGACGTTTTGATGTTCGTCCGGATGTTCCATTTGATAGCTGAACATCA -GGCAGTCAATGGCTTCGTTTGAAGAGAGAATGGCAAAACCATCATCAAAGGAGGTGGATTTAATCACGGTAACAT -TTTGCTGGCTTAAAGCATCTGCCAGACGCTCAACGGCGTTACCGACCCAGGTGTCTTGATGGAGAAACTCGCTTT -CAACAATTAATACTTTCATCATTGCTTACCCGGTTATGAAGGAATCTTCGTTGCGGGCAAGTATCTTCCGGCCTT -TTCGGGCTGTAAAGCGCGTGAAAAACAAACATTTTTGAAATATTTAGTTTTATAAACAATACGTTATGTGATTAT -TTTAAATTATTTTCACTGCTTATTATCGACGGCTAAACTATTTTTTTGGCTGATACTGATATCGTCTTTAGCCGG -GAAACGTCTGGCGGCGCTGTTGGCTAAGTTTGCGGTATTGTTGCGGCGACATGCCGACATATTTGCCGAACGTGC -TGTAAAAACGACTACTTGAACGAAAGCCTGCCGTCAGGGCAATATCGAGAATACTTTTATCGGTATCGCTCAGTA -ACGCGCGAACGTGGTTGATGCGCATCGCGGTAATGTACTGTTTCATCGTCAATTGCATGACCCGCTGGAATATCC -CCATTGCATAGTTGGCGTTAAGTTTGACGTGCTCAGCCACATCGTTGATGGTCAGCGCCTGATCATAGTTTTCGG -CAATAAAGCCCAGCATCTGGCTAACATAAAATTGCGCATGGCGCGAGACGCTGTTTTTGTGTGTGCGCGAGGTTT -TATTGACCAGAATCGGTTCCCAGCCAGAGAGGCTAAATCGCTTGAGCATCAGGCCAATTTCATCAATGGCGAGCT -GGCGAATTTGCTCGTTCGGACTGTTTAATTCCTGCTGCCAGCGGCGCACTTCAAACGGGCTAAGTTGCTGTGTGG -CCAGTGATTTGATCACCATGCCGTGAGTGACGTGGTTAATCAGGTCTTTATCCAGCGGCCAGGAGAGAAACAGAT -GCATCGGCAGATTAAAAATCGCCATGCTCTGACAGGTTCCGGTATCTGTTAGTTGGTGCGGTGTACAGGCCCAGA -ACAGCGTGATATGACCCTGATTGATATTCACTTTTTCATTGTTGATCAGGTATTCCACATCGCCATCGAAAGGCA -CATTCACTTCGACCTGACCATGCCAGTGGCTGGTGGGCATGATATGCGGTGCGCGAAACTCAATCTCCATCCGCT -GGTATTCCGAATACAGCGACAGCGGGCTGCGGGTCTGTTTTTCGTCGCTGCTGCACATAAACGTATCTGTATTCA -TGGATGGCTCTCTTTCCTGGAATATCAGAATTATGGCAGGAGTGAGGGAGGATGACTGCGAGTGGGAGCACGGTT -TTCACCCTCTTCCCAGAGGGGCGAGGGGACTCTCCGAGTATCATGAGGCCGAAAACTCTGCTTTTCAGGTAATTT -ATTCCCATAAACTCAGATTTACTGCTGCTTCACGCAGGATCTGAGTTTATGGGAATGCTCAACCTGGAAGCCGGA -GGTTTTCTGCAGATTCGCCTGCCATGATGAAGTTATTCAAGCAAGCCAGGAGATCTGCATGATGTCTGCACCCAA -AATTACATTTATCGGCGCTGGTTCGACGATTTTCGTTAAAAATATTCTTGGTGATGTGTTCCATCGCGAGGCGCT -GAAAACGGCGCATATTGCCCTGATGGACATTGACCCCACCCGCCTGGAAGAGTCGCATATTGTGGTGCGTAAGCT -GATGGATTCAGCAGGGGCCAGCGGCAAAATCACCTGCCACACCCAACAGAAAGAAGCCTTAGAGGATGCCGATTT -TGTCGTGGTGGCATTTCAGATTGGCGGTTATGAACCTTGCACGGTGACTGATTTCGAGGTCTGTAAGCGGCATGG -TCTGGAACAAACCATTGCCGATACGTTGGGGCCGGGCGGTATTATGCGCGCGCTACGTACCATTCCGCATCTGTG -GCAAATTTGCGAGGACATGACGGAAGTCTGCCCCGATGCCACCATGCTCAACTATGTTAACCCAATGGCGATGAA -TACCTGGGCGATGTATGCCCGCTATCCGCATATCAAACAGGTCGGGCTGTGCCATTCGGTGCAGGGAACGGCGGA -AGAGTTGGCGCGTGACCTCAATATCGACCCAGCTACGCTGCGTTACCGTTGCGCAGGTATCAACCATATGGCGTT -TTACCTGGAGCTGGAGCGCAAAACCGCCGACGGCAGTTATGTGAATCTCTACCCGGAACTGCTGGCGGCTTATGA -AGCAGGGCAGGCACCGAAGCCGAATATTCATGGCAATACTCGCTGCCAGAATATTGTGCGCTACGAAATGTTCAA -AAAGCTGGGCTATTTCGTCACGGAATCGTCAGAACATTTTGCTGAGTACACACCGTGGTTTATTAAGCCAGGTCG -TGAGGATTTGATTGAGCGTTATAAAGTACCGCTGGATGAGTACCCGAAACGCTGCGTCGAGCAGCTGGCGAACTG -GCATAAAGAGCTGGAGGAGTATAAAAAAGCCTCCCGGATTGATATTAAACCGTCACGGGAATATGCCAGCACAAT -CATGAACGCTATCTGGACTGGCGAGCCGAGTGTGATTTACGGCAACGTCCGTAACGATGGTTTGATTGATAACCT -GCCACAAGGATGTTGCGTGGAAGTAGCCTGTCTGGTTGATGCTAATGGCATTCAGCCGACCAAAGTCGGTACGCT -ACCTTCGCATCTGGCCGCCCTGATGCAAACCAACATCAACGTACAGACGCTGCTGACCGAAGCTATTCTTACGGA -AAATCGCGACCGTGTTTACCACGCCGCGATGATGGACCCGCATACTGCCGCCGTGCTGGGCATTGACGAAATATA -TGCTCTTGTTGACGACCTGATTGCCGCCCACGGCGACTGGCTGCCAGGCTGGTTGCACCGTTAAAACGCGACTAA -ACGCTACTGCGCCGGGGGATTTATTCCGGCGCACACCTCTGACGATACCAATAACAGAAGGCGGGCGTTGGTAAC -AGCGACCCGATACCCTATGAGCATTTCAATGACTACAAAACTCAGTTATGGATTTGGAGCGTTCGGGAAGGATTT -TGCGATCGGCATTGTGTATATGTACCTCATGTATTACTACACCGATGTCGTCGGGCTGTCTGTGGGTTTGGTCGG -TACTTTGTTTCTGGTGGCGAGGATCTGGGATGCTATTAACGATCCGATTATGGGATGGATTGTAAATGCTACGCG -ATCGCGATGGGGTAAGTTCAAACCCTGGATCCTGATCGGTACGTTGGCAAACTCTGTAATCTTATTTCTCCTCTT -TAGTGCGCATCTGTTTGAAGGTACTACTCAGATTGTCTTTGTTTGCGTGACCTACATCCTCTGGGGCATGACTTA -CACCATTATGGATATTCCCTTCTGGTCGCTGGTTCCAACCATCACGCTCGATAAACGTGAGCGCGAACAACTGGT -TCCTTATCCGCGTTTTTTTGCCAGTCTGGCAGGCTTTGTTACGGCAGGTGTGACGCTACCATTTGTTAATTATGT -CGGCGGTGGCGATCGGGGATTTGGCTTTCAGATGTTCACTCTGGTACTGATCGCCTTTTTTATTGTTTCAACCAT -CATCACTCTGCGCAATGTGCATGAAGTCTTTTCGTCAGACAATCAACCGTCTGCTGAAGGAAGCCATCTGACACT -TAAAGCCATCGTTGCGCTAATTTATAAAAACGATCAGCTTTCATGCCTCTTGGGTATGGCTCTTGCTTATAATGT -AGCCAGCAACATTATTACCGGCTTTGCTATCTATTATTTCTCATATGTTATCGGTGATGCGGATTTGTTCCCCTA -TTATCTGTCGTATGCGGGAGCTGCTAACCTGGTGACGTTAGTATTCTTCCCACGCTTAGTTAAATCATTATCCCG -ACGCATTTTATGGGCCGGAGCATCTATTCTTCCGGTGTTAAGCTGTGGTGTTCTCCTGTTAATGGCATTAATGAG -CTATCACAACGTCGTCCTCATTGTGATTGCGGGTATTTTGCTGAATGTGGGAACGGCGCTTTTCTGGGTATTACA -GGTCATCATGGTGGCAGATATCGTTGATTACGGTGAATATAAACTGCACGTACGCTGTGAAAGTATCGCTTACTC -CGTGCAGACTATGGTGGTGAAGGGCGGTTCAGCCTTTGCGGCTTTTTTCATTGCGGTTGTGTTAGGGATGATTGG -CTATGTACCGAATGTTGAACAGTCTACGCAAGCCCTATTAGGTATGCAGTTTATTATGATTGCTCTACCAACTCT -GTTTTTCATGGTAACGCTGATTCTCTACTTCCGTTTCTATCGCCTCAATGGTGACACGCTGCGCAGGATCCAGAT -CCATCTGCTGGATAAATATCGCAAAGTACCGCCCGAGCCTGTTCATGCTGATATTCCGGTCGGTGCAGTGAGTGA -TGTGAAAGCCTGACGTGGACAATAGCTAACGAAAATGGCCTGATGCGATATGTTTATCAGGCCACGTCTTAATGT -AATGCTTTGGATTTGCAAATTTTGTAGACCGGATAAGGAATTCACGCCGCATCCGGCATCAACAAAGCGCAAGTT -GTTATCCGGTTATCAAGCCAAAGCGCCGTAGCTGGCGGCAATGAAAGCGAGCGAGGAATATCACCGTCGTTAATG -CGCCAAGCAGCGCGCAGAACATATCGGATTGCGTGTCCCACTGGTCGCCCTGGGTGCCGAGAAAATCATCCGCTC -CCTGACCCATTGCCAGCGCTGCCCACCACTCGATTAATTCATACATCGCGCTTATCGCCAGCGCCACGCAGCAGA -CCAGGAACGCCACCATTTTACGTCCGCGCACGTACATCCCGCGAACGAGAATTTCTCGTGCCACCAGTGCAGGCA -CCAGCCCCTGGAAAAAGTGCCCCAGCTTGTCATACGGATTACGACTCAACCCCAGCCATTCCTGCACCTCAAAAC -CAACGGGGACTTTCGCGTAGGTGTATTGTCCGCCGACCATCAGGATGATGGCGTGAAGGAAAATGAGCGTATAGA -GCAGCGGCGTTAACGGATAACGTCTGGCGGTGGCAAGCAGTAGCTGCACGACAATAATCACCGGTGTCACTTCCA -TCAGCCAGGTGAGTTTGTCATGGGCCGAAATGCCGGTATAAATCAGGATTAACGTTAGCGTCAGTGCGCTGGTGT -TAAGAATTAACGGCTTGAGTGTGCGGGTCATGGTGAGTTCGCAAATCAGGGAAAATACTGACTATTCACCAGCAA -GCGTGAAATTACAATCGCAAAAGAGGTGGCCAGGGGGATCACCTGGCAGCATGCTGCCAGGCGCTGGGCCGAAGA -GGTTACTTAGTGCAGTTCGCGCACTGTTTGTTGACGATTTGCTGGAAGAAGTCGTTACCTTTGTCATCGACCAGG -ATAAACGCCGGGAAATCTTCTACTTCGATTTTCCAGATAGCTTCCATACCCAGCTCCGGATAAGCGACGCACTCC -AGATGCTTGATGCTCTGCTGCGCCAGTACCGCCGCCGGACCGCCGATGCTACCGAGGTAGAAGCCGCCGTGTTTA -TGACACGCGTCGGTAACCTGCTGACTGCGGTTACCTTTCGCCAGCATGATCATGCTGCCGCCGTGGGATTGCAGC -AGATCCACGTAGGAGTCCATACGGCCTGCGGTGGTTGGGCCAAGTGAACCTGATGGATAACCGGCAGGGGTTTTC -GCCGGACCCGCGTAGTAGATCGGGTGATCTTTGATGTACTGCGGAAGTTCTTTACCGGCGTCAATCAGCTCTTTC -AGCTTGGCGTGTGCAATATCTCGGCCCACGATAATGGTGCCGGTGAGCGACAAACGAGTGGATACCGGGTATTGC -GAAAGCTGGGCGAGGATCTCTTTCATCGGGCGGTTAAGGTCAACTTTCACCGCTTCGCCTTCACCGGCCTGGCGC -AGTTCTTGTGGAATGTACTGGCCTGGGTTGTGTTCCAGTTTTTCGATCCAGATACCTTCGCGGTTGATTTTCGCT -TTAATGTTACGGTCAGCGGAGCAGGAGACGCCCATGCCGACCGGGCAGGATGCGCCGTGACGTGGCAGACGGATA -ACGCGAATGTCGTGCGCGAAGTATTTACCGCCAAACTGCGCGCCAAGACCGAGTTTCTGGGCCTCTTCCAGCAGT -TCCTGTTCCAGCTGGACATCGCGGAACGCCTGACCATGTTCGTTCCCTTCCGTCGGCAGTTCATCGTAATAGTGA -GCGCTTGCTAACTTGACGGTTTTCAGGTTGGTTTCCGCAGACGTACCGCCAATCACAAACGCGATATGGTACGGC -GGGCAGGCTGCAGTACCGAGGGTACGCATTTTCTCGACGAGGAAGTTTTTCAGTTTGCCGGGAGTCAGCAGGGCT -TTGGTTTCCTGGTAGAGATACGTTTTGTTGGCAGAGCCGCCGCCTTTCGCAACGCAAAGGAATTTGTACTCATCG -CCATCTACCGCGTACAGGTCGATTTGCGCAGGCAGGTTAGTGCCGGTGTTGACCTCTTTGTACATGTCCAGCGCC -GCATTCTGTGAATAGCGCAGGTTATCTTCGATATAGGTGTTATAGACGCCTTTCGACAGCGTTTCTTCATCACCG -CCGCCGGTCCACACGCGCTGGCCTTTTTTACCGACGATGATCGCGGTGCCGGTATCCTGGCAGGTCGGCAGCACG -CCTTTGGCGGCGATTTCGGAGTTTCTTAAGAATTGCAGCGCCACGTACTTGTCGTTTTCGCTGGCTTCTGGATCG -TGAAGAATAGCCGCAACCTGTTTCTGGTGTGCCGGGCGGAGCATAAAAGAAGCGTCGTGAAAGGCTTGCTGCGCC -AGCAGGGTCAGGGCTTCTGGTTCCACTTTCAGGATGGTTTCGCCGTCGAAGTCGGCAACGCTAACGTAATCGGAA -GTGAGTAGATAGTATTCGGTATTGTCTTTCCCCATCGGGAAAGGTGCCTGGTAGATAAAGGGTTTGTTTGACATA -GCTTCCAGCCTGTAACTCTGTATTTGTTATTCGAAAATGGCGTGCCGCGTAGTCACGGGCGGCACGCAAAGTGCA -TTTATAAGAACCCGTACATCGCGGCGAAGATCCAGCCGAAGACGCACGATACGCTCACACCAATCAACCCCGGCA -GAATAAAGCTGTGGTTGATGACGAAGCGACCGATGTGGGTGGTGCCGGAACGGTCAAACTGAATCGCTGCCAGAT -CGCTCGGATAAGTCGGCAGGATGTAATAACCGTAGCAAGCCGGTGCTGAAGCCACGATGTATGCCGGATCAACGC -CGATCGCCAGCGCGACCGGAACAATCGCCGCCAGCGCCGCAGCCTGAGAGTTTACAAACTTGGAAACCAGCAGCA -GAACAATGGCATAGGCCCACGGATACTCTTTCACCATTTCACCCAGTACGCCCTGAATTTCAGACATATGCGCAC -CGAACATGGTTTCTGCCATCCATGCGATACCGTACACCGCCACGATGGCGATCATACCGGAACGGAAGACTTCGT -TTTTTGAGATAGACGCGGGATTGGTTTTGGTCAGGATAATAATCAGCGCCCCGGTCAGCAGCATAAACATCTGAA -TAACCAGTACCATCGACAGCGGTTTGCCGCCGAAGGATGGACGCAGGTCCGAATCAGCACCAAGAAGGGCGACTA -CAGCGATTGCCCCGAGGAAAATCCACATTGCCAGCCAGTTGCTTTTCGGCAGTTTTTTATCCAGCAGCGTCGCGG -TATCACCGTAAACATACTCACGGTTTTCCGGTACGGAGATGAATTTCTGGAACTCTTCGTCTTTATCCAGATCTT -TACCGCGGAACCAGCTGAAGATACCGATCGCCAGGATACCGATTAACGTCGATGGAATGGTGATTGCCAGCAGAT -CGAGGAACTCAAGATGGCGACCATCAAAGGTGACATTACCCAGCATCGCAACCAGAGACACGACCGCAACCGACA -CCGGACTGGCGATAATCCCCATCTGTGCACCGATAGAACTTGCCGCCATCGGACGTTCCGGACGGATGTTGTTCT -TAATGGCGACGTCGTAGATGATCGGCAGAATGGTGTAAACCACATGACCCGTACCGCAAAGAATGGTCAGTGTAC -AGGTCACAAACGGCGCGACAATTGAGACATATTTCGGGTTGCGGCGCAGCAGCTTCTCGGCAATTTGCAGCATGA -CATCAAGACCGCCCGAAGCTTGCAAGGTCGCCGATGCCGCCACCACCGCAATGATAACCAGCATGACATCAACTG -GTGGTTTACCTGGCTGAAGGTGGAAGACGAAGACCAGAATGACCAGACCGATACCGCCTAATAAACCCAGCGCGA -TACCACCCTTTCTGGCACCATAAAACAGACATATCAGTATTATGATAAGTTGGATAGTAAATAACATGTGTGAAC -CCTCGCGATAATCCTATTTAAATTTTTGCTGAATAGATCACAGTCACGTTCTGTTTTGTATGAACTGTTTTCAGA -GCCTGACTAAATATCCGTTTGGTCGTTACCGGCTTTAGCAAATACCTCACAGTGAATATTGGCTGATTAAAGCAG -CGGCAAATTTATGCACTGTGATAAGCGGCTTTTTCAGAGAGAAAGACTCTCTGGCGATGGGTTTATAGTTTGTAC -TGCGCAGATGTTAATGTTTTGTTTGCTGTTATCTTATTGATATTTATCGGTCTATTTTTTGTTCTCAGGGCAGAT -GTCATTAGGTTTATAGATTAATCTGATCTACCCATTTGTGGGTAAAAATACACATAATGCGGGTGACATAATAGT -TAATTAACTTTTGTTAGCGTTTTGAAATTAAAAACACCGTTCACCTGAAGAGATATTAATTTTTAGCGATGATGG -AGGGATAATTATATTTGATCTGGCACAAGTTTTACTGATGAAGGATGTAACTTGTGCCAGGGGTATTTTGCATTA -CGGTAATAATTATTACTTACAGATAACCAGCGATCCGTTATTGGCAATATTGTTTCAGTAGTGAGTAGTGTTCTG -CCTGAATACGGTAACGGTAAACTGGACGCCCCGTGACGCCATAATGGATACTGGTGAACAAGATGTGGCAGTTGA -CCAGCCAGATGAGGTATTTACGGCAGGAAACACGCGAAATGTTAACCTCGTTGGCTAGCTCGTCGGTTGAAAATT -CATAGTCCTGATGCGCGTCAATCCACTGGCACAGTGTGCGTAACGTCTGCGGCGTTAAGCCTTTTGGCAAGCGAC -GAGGATCCTGTTCGTTGGAGCTGCTGCCGTGGATTAGCTGATCAAGCTCGGCCTGGTCATAATACTGATGTTTTT -CCAGCGCCATTTTCTTTTGCCGCCAGCCGGTGAGCGCCTCTTCAAAGCGGGAAGCCTGGAAGGGTTTGATCAGGT -AATCCACGACACCGTAATGCAGCGAATCTTTAATGGTTGCCGCATCGGCTGCGGAGGAGATGACAATCACATCAC -TTTTGCAACGCGCGTTATGCAGGACAGGCAGTAAATCGAGCCCGTTCTCTTTTTGCATATAGATATCGAGCAATA -TCAGGTCGATAGGCGTATCGCTATTGAAGATAATCTCTTTGGCTTTCTCCAGCGTCGAGGCTGTTCCACAGCATT -GAAAGCCTGGGATTTGTGCTACGTATCGGCGATTCAGCTCCGCGACCATTGCGTCGTCATCGATAATTAATACAT -TGATCATCTGTTCGACCTCTCCCCGTCCCAGGGTATCTGGACAAAAAATTGTGTGAAAATCCCGGGTTCCGATTC -CACGGCGATGCTGCCGCCGAGATTTTCTACCTGTTGTTTGACAAGTGCTAAACCGACGCCTCGCTCGCTTCCTTT -TGTCGAGACACCTTTGTCAAAAATGTGATCGATTTTATCGGGTGCGATCCCCGGTCCATCATCATTAACTTCACA -GTGCAGCCAGCCGTGACGGTAGTGCAATGTTACGCTAATTTCGCCTCCGGGTTCCGGCCCTAATGCCTCCAGCGC -GTTTTCTATCAGATTTCCCAACGTGGTAATCAGCGTCGCGACCTGGTCCTCACTGCCGCTGTCTGGCAGCTGGCT -TTCACTGTTTAAAATCAGCGTATGGCCTAAATCGGTCGCGCGGTTAATCTTGCTGATTAAAAAACCAGCGATAAC -CGGAGATTTGATCTTACCCAGCAGAGAGCCAATCTCTTCCTGATAGTTATTGGCTGTTTTGAGAATGTAATCTTC -CAACTGCTTATAACTCTTCAGATGCAATAATCCGAGAATCACATGCAATTTATTCATAAATTCGTGGGATCGTTC -ACGAAGTGCGTCAGCATAGTTGACCAGACCGTCGAGTCGCTGCATCAGTTTACGTACTTCAGTTTTGTCCCTGAA -GGTTGAAATGGCACCGATGATAACGCCATTACTGCGCACCGGAACGGTGTTGATCAGTAATAGCCGGTCTTTAAT -CGTAATCTCTTCGTCGCGGCGCGGGGTACCGTCGCGTAACACTTCCGAGACATCTACCACCTGTGACCATGAGTG -GCTTAGCGTCGACAGTTTCTCATCGTCCTGCGACTTACGGTAATTCAGCAATTCTTGTGCGGCATCGTTGATCAG -CGTGACCTCGCCGCGATCGTCCACGGCAACGACGCCTTCTTTGATAGACTGCAACATGGCCTGGCGTTGCTCAAA -CAGCGTGGAGATTTCGTAGGGTTCCAGGCCGAAAAGGATTTTTTTCAGTACCTTAACCAGAATGCAGGTGCCAAT -CAGTCCGACCAGCATGCCAAATAATACCGACCAGATAATGCTCCAGCGACTGTCATTGATCTGTTGGGTCACACG -GCTTAACTCAAGGCCGATCGCCACCACGCCAATTTGTTTATGATTTTCATCGTAGATGGGGGTAAATACGCGTAA -AGCCTGCGCCAGAAAACCGCGATTGATAGCGACATTTTCTTCGCCATTCAGCGCTTTAAGGATGTCATCACCTTT -AAATGGCTGACCAATACGCTGGGCTTCAGGATGCGAGTAGCGAAGACTTTGCATATCGGTAACGACAATAAACAG -CAGATCGTTGCGTTTGCGTACGGCTTCCGCGATGGCCTGGATGCCACTCTCCTGCGGTTTTTTCTGCAAGCCCTG -ACGGATTTCCGGCGAGTCGGCGAGGGTACGCGCCACTGCCAGTGCCTTGTTGGCTAGCCCATCTCGCGTCATATC -ACTGATTTGCGAGAAGTAAATCAGATGCACCACCAATAGCACCGAGAACAGTACCGCACTGACCATTAAGATCAC -TGTGGTACTCAATTTCATCGGACGTTTGCGTAACATGCGGTAGGGCAATGAATGTCTCATCAGCTTCCTTGTGTG -ACAAATTTCTTAAGCATTATCTCTGATGAGGCGGGTAATTCAAAGGGAGTAAGAATGATTGGCTATATAGGGGAA -GAGACTCTGGCAACGGAAACTGCCAGTGCTGTATGAAGATTCCGGGGCTATGCTTATAGCGATAATCATACTGAT -GAGAGAGGGAAGGTCATGGATCAGGCGCTACTGGACGGGGGTTATCGCTGTTATACCGGCGAAAAGATCGATGTC -TATTTCAACACTGCGATATGTCAGCATTCTGGCAATTGCGTACGTGGCAACGGCAAGTTATTTAATCTCAAACGA -AAGCCGTGGATCATGCCGGATGAAGTCGACGTCGCCACTGTGGTTAAAGTGATTGATACGTGCCCGAGCGGCGCG -CTGAAATACCGTCATAAATAAGCGAGGGTAAAATGGAAATACGCGAAGGCCACAATAAATTTTACATTAATGACA -AACAAGGCAAGCAAATCGCTGAAATTGTCTTTGTGCCGACCGGAGAGAATTTAGCGATTATCGAACATACCGATG -TCGATGAAAGCCTGAAAGGGCAAGGGATTGGTAAACAGCTGGTTGCGAAAGTCGTGGAAAAAATGCGTCGGGAAA -AACGAAAAATTATCCCATTATGCCCATTTGCGAAACATGAATTTGATAAAACGCGGGAGTATGATGATATTCGCA -GTTGATGGGAGAGTACAGAGTCACGATATTTTTCATTCTCTCCGCGATGTGATGCAGGAGAGCATCTGAAGGGTA -GGGGGATGCACAAAGAATGGGCAGAGAGCGCGTTTTTTTGTCCCAAGTCATCCCCTTTACTGAGCAAAAAAAAGA -ATATCTCCTATATGAGAATCATCAATCGGGGTTAATAAGTTTTGCGTCCCCAGAGCGTTTAATATTGATAGGAGT -CATATTATGGAAGGTAAAAACAAGTTCAATACTTATGTTGTTTCTTTTGATTATCCATCATCTTATTCCTCAGTG -TTCTTAAGATTAAGATCATTGATGTATGATATGAATTTCTCCTCTATCGTGGCTGATGAATATGGGATACCACGA -CAATTGAATGAAAACTCCTTCGCAATAACGACATCGTTAGCCGCAAGTGAAATCGAAGATTTAATCAGGCTCAAA -TGCTTAGACTTACCGGATATTGATTTTGACCTCAACATTATGACAGTTGATGACTATTTCCGTCAGTTTTACAAG -TAGCCAGGAAGGATAAGAAGAACATAAAAAATGGCACTATTCTCTAAAATATTAATTTTTTATGTGATTGGTGTG -AACATATCCTTTGTCATTATCTGGTTTATCTCACATGAGAAAACACATATTCGTTTACTTAGTGCATTCCTGGTC -GGAATAACCTGGCCAATGAGTCTGCCTGTGGCATTACTTTTTTCTCTCTTTTAGGAGCTGTAGTTGAGTGGACCC -GCTGGTTATCGTGAAACGAAGCGTCTCTCCTCAAAACTGGATTTGCGGAACGATGAACGAAGCAGTCGCCTGACT -GCTTCGTTCATTAAAGTGAAATTTATTTCTGTGGGCGCATCGCCGGGAAGAGAATAACGTCGCGAATAGTATGGC -TGTTAGTAAACAGCATAATCATTCGGTCGATACCAATACCCAGACCAGCGGTTGGCGGCAGACCATATTCCAGCG -CAGTCACGTAATCTTCGTCATAGAACATGGCTTCGTCGTCACCTGCAGCTTTAGCATTAACCTGTTCCTGGAAAC -GTTCAGCCTGATCTTCTGCGTCGTTTAATTCGCTAAAACCATTACCGATTTCACGACCACCGATGAAGAATTCAA -AACGGTCGGTGATTTCCGGGTTAACATCATTACGGCGTGCCAGCGGGGACACTTCTGCCGGATATTCCGTAATAA -AGGTTGGCTGAATCAGATGTGCTTCTGCCACTTCATCAAAGATCTCTGTGACAATACGTCCCAACCCCCAGCTTT -TCTCTACCGTAATACCGATAGATTCAGCTAATGCTTTAGCAGCATCAAAATTATCCAGGTCGGCCATATCGGTTT -CTGGACGATATTTTTTGATTGCTTCGCGCATGGTGAGTTTTTCAAACGGTTTGCCGAAATCAAACACATGCTCGC -CATAAGTGACTTTAGTGGTACCCAGAACCTCTTGTGCCAGGGTGCGGAACAGTGACTCTGTCAGTTCAATCAAAT -CGTGGTAATCCGCATACGCCATGTAGAGTTCCATCATTGTGAACTCAGGATTATGGCGAACAGAAATACCTTCAT -TACGGAAGTTACGGTTGATTTCGAATACCCGTTCAAAACCGCCTACAACCAGACGTTTCAGATACAGCTCCGGCG -CGATACGCAGATACATATCTAAATCCAGAGCATTATGATGGGTAATAAACGGGCGAGCAGATGCCCCACCTGGAA -TTACCTGCATCATCGGGGTTTCTACTTCCATAAAGCCGCGCGCGACCATGAATTGACGGATAGCGGCCAGAATTT -TTGAACGGACAACAAACGTTTGACGGGATTTATCGTTAGCGATGAGGTCCAGATAACGTTGACGATAACGGACTT -CCTGATCCTGCAGACCATGGAATTTATCTGGTAAAGGACGTAGTGCTTTAGTCAGCAGGCGCAGCTCAGTACAGT -GAATGGAAAGCTCACCCGTTTGCGTCTTAAACAGCGTACCGCGGGCACCGATAATGTCACCCAGATCCCATTTTT -TAAACTGATCGTTATAAACACCTTCTGGCAGGCTATCTCTTGCAACGTACAGTTGAATACGGCCACCGACATCCT -GCAACGTTACAAAGGAGGCTTTCCCCATGATACGACGGGTCATCATTCGGCCAGCAACCGAGACTTCAATGTTTA -AGGATTCCAGTTCCTGGTTATCCTTCGCATCAAACTCTTCGTGCAACTGGTCAGAGGTATGGTCGCGGCGAAAAT -CATTGGGAAACGCCACACCTTGCTGACGTAGTGCCGCCAGTTTTTCGCGGCGATTTCTCAGTTCATCGTTAAAAT -CAATAGCCTCATTGGCTCCCCGTGTTTCTTGTTCAGACATTTTGGTTCCTCTAAATCCAGCTTTCAATTTAGCGT -AGATAAAGAGACAGATCGGTACACTGTATTATCTGCCTCGACTATTAGTAACTCAGTTTATCTTATCGAAACTAA -CGCTTACCTCAAGTTGATATCACTAATAAATAACCATCAAAATGGTTTAAATGACTTATTAATCTCGATTTGTTA -GTGTTATAAACTGAAAGTTAATTTATTCATAACCAATTGTTTTTACGACAGTTAATCGTTGCTCTCCTGTATCAT -ATTCGTCGGCGTGCTAAACAGAAAACGGGTAGCAAAGGCCAATACGACGATGATCGCGACACAAGCCAACGTCCA -CTCTCCCATCTGAGAAAAGAATCGCTGGTAAGCTGCAATTGCCATACCGCTAATTTGCGACTCTGTCGTCTGCTG -TGCCACGACGCCTGCCAGCCAGTTGGCGACCGCGCCTGTTGCCAGCATATAAATCCCGGTTAATACGCCAGACAT -TTTCAGACGCGTGATTTGCGCAATCGCCACCGGGTCAATAAAGAGTTCGGCAAAGCCCATTAGCGCCAGCCCGGA -TATCATCACGCCCATTGACGCTTGACCGTCAGCCGCTGCATGTCGGGCATCAAATGCCAACAACATAAAGCCACA -AGCCATCAGCAGTAAGCCAAAGGCAAACTTCAGCCAGACGCGCAATGTTGAGTTGCCGCGGCTTTCTGGCGACGC -CAGCCAGGCCAGTACAACCCCAGCGAGCATCACCGCAATTGCATTCACCGACTGGAATAGTGCTGTAGGTACTTC -AATATTGAATGCCTGACGATTCACAAAGCGATCGATAAACAAGCTGATGGTACTGCCGCCCTGTTGTGCCAGTAC -CCAGAACAATGTCCCGACAAACATCAACAATACAATTTGCCAAAGAGCACGGCGATGTTCGGGGAATTTGATCAT -CATGCGGGCAATGATTTGTGCGGCAATGAGGCAAACGATCGCCAGCAAATATCCGGACCAGTCGTTCTCCAGCAG -CAGAGTAAAAAATACTGGGGCTAAACAGAGCATCACCACTAACCAGCTCCATACTGGTAAGGCAAATTTGACACT -AGTGAGCGCTTTTTTATCCATACTACGTGTGGACTGGAAATGACGATGACCGCTTAAGAAAATCAACAAACCGAT -AAACATGCCGCCACCCGCAAGGGCAAAGCCAACATGCCATCCATACCACTGAGCAGCCAGGCCGCAGGCGATTGG -GGCTGCGATAGAACCGATATTGCCCGCAGCATACAGCAGCGAAAAACCGCCATCACGTCGATGATCGTTCTCGTC -GTAGAGCTCGCCAAGCAAACAGCTGATGTTTGATTTGAATAAACCGTAGCCACAAATAATGATTGCCAGCGCCAG -ATACAGGCTAAAGGTTGAATTTGTATCAATACCCAGCACCACATGGCCAAGGGTCATTAACAGCGCGCCGGCAAT -CACTGCAGTGCGGTTGCCGAGCAGGCGGTCGGCAAGCCAGCCGCCGAGAATAGGGGTAACGTAAACCAGAGAAGC -ATATGCGCTGAACAGGCTGATGGCATGGTTATCATCAAAACCAAGCTGATGGGTGAGATAGAGAATGAGTAAGGC -ACGCATGCCGTAAAAACTGAAGTACTCCCAGATTTGGATCGCCACGATATAGTATATCGCGCGCGGCTGTGAGGG -TGTTTTCATGTGTTCTCCTTATGAGCAAAAAAGGGAAGTGGCAAGCCACTTCCCTTGTACGAGCTAATTATTTTT -TGCTTTCTTCTTTCAATACCTTAACGGTATAGCGGCCATCAGCCTGACGGTATGCACCGTGAATATCGGTTTCAA -AGCCCGGATAGTGAGCGCCGATTTCACACAGCATCTGCAGGAACTCCAGAACCGGACGGCTTTCTTCGGTGATCA -TTTCACCCGGCATTACCAGAGGAACTCCCGGCGGGTACGGAAGGATCATATTGGCGTTAATACGACCTACCATTT -CGTCGAGGTAAACTTCTTCGGTCATACCGTGCAGCTCTTTCTGGAATGCAGCATACGGAGTCATTACCATCGTCG -GCAGCACTTCAAATGCGCGATACATCAGATCCGGCAGATTGTGGTGAACAATCAGTTTGTGGATATTCTGAGCCA -GTTCCTGAATACGCATGTTTTCATAGAATTCAGGATCTTCACGATACAGAGACGGCAGCATGTTTTTCACACGCA -GGTTCAGGTCGAACGCACGTTTAAAGTCAGTCAGAGCACGCAGCAGGCTCAGTGCTTTGGTCTTATCGATACCGA -TGCTGAACAGGAACAGCAGGTTATACGGACCGGTTTTCTCAACAACGATGCCATGTTCGTCGAGGTATTTCGCCA -CGATGCTGGCCGGAATACCAAAGTCGCTCATGGTGCCGTCTTTTTCCATCCCCGGAGTCAGCAGGGTGACTTTGA -TCGGGTCAAGATACATGTGCTCGTTATCGATGTTTTTGAAGCCGTGCCAGGTGCTGTCAGAACGCAGCGGCCAGC -ATTCAGTCGTATCGATATGATCCGGCTGCCATACATCAAAGAACCAGCCATCAGATTCCGTTCTCAGACGTTTGA -TCTCTTTACGGAATTTGATCGCACGTTCAATAGAACCGTTGATCAGACGCTTACCTGCATTGCCTTTCATCATCG -CCGCAGCGGTTTCAGTGGACGCCACGATACCGTAGTGCGGAGAAGTGGTGGTGTGCATCATGTAGGCTTCGTTAA -AGGTTTCTTCGTTTACGTCACCTTTAACGTGGATCATGGAAGCCTGAGAGAACGCCGCCAGCAGTTTGTGAGTGG -ACTGGGTTTCGTAAATCACTTTCCCTTCTACACGGCCACCGCTCATACCGCATTTACCTTCGTAAATCGGTGAGA -AGTTGGTGTAAGGCACCCACGCGGAGTCAAAGTGGATGGATTTCACATCCAGTGTTTTCTTGATGAAGTCGGTGT -TGTACAGCAGACCATCATAGGTAGAGTTGGTAATTACAGCATGTACCGGCCAGGTTGCGTTTGGTGTTTCTTTCA -CGCGCTTAGCAATGGTAGCGTGCTGGAATTCACTCTGTGGGATACCACCAAGAATACCGTAAGCGTTACGGGTCG -GGCGGAAATAGATTGGCGTAACATCGCTCATCATCATCAGGTGGGTCAGCGATTTGTGGCAGTTACGGTCAATCA -GAATGGTGCTGCCTGCTGGAGCAGAGTACATACCAACAATTTTGTTCGCAGTGGAAGTACCGTTGGTCACCATGT -AGCTGCGGTCTGCGTTAAAGACGCGAGCGATATACTGTTCTGCTTCTTTGTGTGGACCACTGTGATCCAGCAGAG -AACCCAGTTCAGATACTGAAATGGAAATATCAGATTTCATGGTATTCGGACCAAAGAAATCATAGAACAGGCTAC -CTACCGGGCTTTTCTGGAATGCAGTACCGCCCATGTGACCAGGAGTACAGAAAGTATATTTACCTTCACGAACAT -ATTTAAACAGTGCTTTAGTCAGCGGAGGCAGAATAGTGTTGATATATTCGTCAGTGGTCTGCTTGATCTTATTAG -CAATATCTTCAGCAGCACCCAGCGCATATTCAAAGAAGCTAATCTGTAAACGCAGGTCATTCAGGCTTACATCGA -GAGTGGAATACGTATTAGCGAACGCGTACAACGGCAGGTTCTCGTTCATTTTGCTAATTTCTTCGCACAGCTCGA -GATTATATTTATCCCAGTCAAAAATAACGCCGCACAGACGCGCATTGTTTTCGATCAGTTTTAATAAGTCGTCAC -GGTCGTTCGGGTAAACAATCTGGAAGTTCAGACGTTCAAGCGCGCGATGAAGTTCACGGATGGGTTCTTCTTTAA -AATAAACCCCCATGTGATTCAATATTGCAATAACGTTCATAGTCATATCTCCAGGTAAAAAAGGCCCCTCCCAAC -ACATGGGACAAAATGAAAGGAGGAGCCTCGGAAAATACTTTTAATTAATGTGCGTTAGACGCGGTGTGGTTATCC -ATTGAGTGGCTCTGGCGCTCGTGCATTTTGCGAGCGTAGAACATCAGGATAATCAGGCTGACGATGAAGGTACCT -GCCAGCTCGAAGGAGCTTGCGCCCATCAGCGCGATGAAGCAGAACACGCAACCCAGTACAGAGCAGATCAGGCTG -ACAAAGTTGCGGATGTTAACGCCTTCAAAACGAATCAGGTCAACGCAAGAGTAGAAATACGGCAGCATAGTCAGC -AGTACTGCGATACCGGTCAGTTCACCGAACAGGTCAGATGCTTTACCACCGGCAGAGTTCATCAGAGTGATAAGG -ATCATCAGGGCAGTCATTTTCACTGCAGCCAGCAGCAGACCTTTTTTCGGAATACCGTTGCTGTCGACTTCACCA -TAAACTTTCGGGAAGTTACCGTCGTTAGCGGCACGTACACCTGCCTGGCCTACCAACATCATCCAGGAGCCCAGA -GAAGTCAGGCACGCAAAGGCGGTGAATGCAGAAACCAGCGGCGCAGCCCAGTTACCGAGGATAGTTGAAGCACTG -ATTGCAAACGGAGCACCGGAAGCCGCCATTACAGAAGACGGATACATACCGGAAAGCACCTGAGTCGCAGCGATG -TAAACAATACCTGCTAAACCAGTACCCAGCATGGTTGCCAGCGGAACGGTACGTTTCGGGTTTTTAACCATACCA -GTACTTACAGCTGCGGATTCAACACCCACGAAGGCCCACAGGCAGAGCAGAATACTTTTAATGATCGCATGACCA -TCAGTGGTATCCGCAGTATTCCAGTTAGCTGCATAAGTTGCCGCATCAAACCAATGCCAGCCAACAATAGCAGTC -ATCACCACAGGAATAAGAACCAGCACCAGACCAATAGTGGTTAAACGGCTTACCCAAGTACCGCCGAGCATATTT -ACAAAGGTAAATACCCAGACGATAGCAATACAGGCGATACCCGCCGGAACAGGATCATTTAATACTGGGAAGAAG -GTGGAAAGATAAGATACAGCGGTAATACCAATCGCCAGGTTACCAATCCAGTTAGCATGGTAATAAAGAACACCT -GTCTGAAAACCAAATGCAGGGGAAATTTCTCCGGCATAAGCAATTGGGCCACCTTGTTGCGGGTTTTTTGTTGCC -AGTCGGGCATATACATACGCCAGCGACATTGCACCAATAATAGAGATAATCCAACCCCAGATAGCAATACCACCG -ATACTTGCTAGGTTCGCAGGTAATAATGCAATACCGCTCCCCATCATATTACCGGCAACAACACCGGTACAGGCA -AATAGCCCGATCTTCTTGGCAGAACTCATGCTCTTCTCCTAATTTCATTTTTGAATTTGGAGTCCGGGTCATGAT -GTATAACTATTTCCTGACCAGACCAAACTGGCGATAAGATTACTCACGAAAAAAGGATTAATCCTAAAGATTAGG -TGAAATAACACAAAAGTTTCTGTAAGTGAGAACTTGAGGTTTTTTATTAACACATCAGGATCGCAAGTTGATATC -ATGAAAAGATAAACATTTAATGTTTACAATGGATTGCGTGACATTCTCTGGTTAAATTTATGTAATAAAAATTAT -GCGGCAAATAAATTGCCGCAACATATTATACCAACAGGAACATACAAAAACTCAACAACAAATATTTCCGAGCAT -AAATCAACCCGGAGTTACTTATTCTGAAGCAAGAAATTTGTCGAGATAAGGTACAACATAAGGAACAGAAGTCTG -GAATATACCATTTTCAATCCAGTAAAGGGTGTTTGCCCCTGGGCGTAAATTAAAGGCGGTGAGATATGCATCAGC -TGCTTCCCGGTTCATCCCCTTCATTTCATAAACCTTGCCAAGCAACACATAATTTAGCCAGGACATTTCAAGATC -AATGCCAGTATTTATCGCCTGGTAAGACTCATCTGTTTTACCTTTTACCAGAGCACTGACCGCTTTTATTTGATA -TATAATGGACAGGTTGTTCAATTCCGGCAGTGTAACAATGTTATCTATTTCTGTGTTCAGTGCTGCTAATTGTTT -TTCATCTAAAGGATGTTGAGAATGGCGCACGATATCAACTAATGCTTTTTCTGCTCTCGCGTAGGTAAATTCTGG -GGATGATTGAACAATCTCACCTAATAATTCACTGGCACGGTTCAATGATTTATCATCGCCATGCAGTAAATAATC -ATGTGCCTGATAAAAATTAGTTAATAACGCACCACGATGCGGCAAAATTTTCTGGAGCGTCTCCTGCATTCGTTG -TGGCCACGGTTGGTTTAACGCTTTTGATAAACTCTCCAGTAAATCATTTTGAATCGCCAGCTGATTACCGTTAGT -GATGACATAACGTTTATCCAGCATGGTTGAACCATCTGCATTGTCTACCAATTTTATCGACATAAAGCATTGTTG -AGCACGGTATTGGCGCTGATTAACAAACGCAATAGATAATGTTTTACCGGAACTGCTCGGTTCATCAATGTTGTA -GTTGATTTTGTCATGCACCATAAAGGTGGAGAAGGTGTTAAGTGATGTCGCCACCAAATCACCCACGCCTATCGC -GTAAGAGAGCTGATACGGGGAACTCCAGCTGTTACAACTTTTATTTACCATATTAATGTCAATATCGCGTGGATT -GAGCAAAATACGCGATTTGCTCATAGGAAGACGTGTATCAAGACTTGAAAACGCTACCAGTGCTACACAGATACC -TAACGACAACAGGAAAAAAAACCATACCCAAAAGGTAGTGAATCGTTTGCTTTTAACTGGGGATTGTTCAGGTGG -CGTTGCGGTGTTTTGAATGTTAAGACTGTGGGAGGGAGAATCTGTGGCAGGAACCGCCTCTGGTATAGGGGGAGG -CGAAGATAGCATTATTTCCTCTCCCTCTTCTTCGCTGTACCAGATAACCGGCACCATTAATTTATAGCCGCGCTT -TGGTACAGTAGCGATATAGACAGGACTATCTTCATCATTATCTTTTAATGACTTACGTAGTTCTGAGATACTCTG -CGTCACAACGTGATTGGTGACAATACTTCTCTTCCAGACATTATCGATAAGTTCATCCCTGCTAAGTACTTCGCC -ACTGTGTTGAGCAAAGAAAACCAGAAGATCGATTAATCTCGGCTCAAGGGTAAGTTGACGCCCATTGCGGCTAAT -TTGGTTTATGGACGGAGTAACAAGCCATTCGCCAACGCGAACTACAGGTTGTTGCATAATAGAAACTCATTCGAA -AAGGGAATGATGCAATGATAATTGCCACAACCTATTTTTACCATCTATAGATGGGTTTATTTACATATTATTGGT -GAATGCAAGACGTTATTTTTACCAGCCATAAACTTCTTGATTACATAGTATTACGAAAGGATTTTACTGAGAACC -AGAAGTAATATTCCTTACCATCAAAATTCATCATCTTTGCCAAAGAAAAATGTTCAGAAAATAATCCATGGAAAA -TTGTCCGGAGCACTTACTATTTTAATGGATTGTTAGTCTTTGCATGAGCAAGCGAACTGATACATTTCTCTTTGT -TCTCATTCAGAAAATCTCATCAGTCGCCGTTCAGACCGGTGTTGTGCTTTATGGATGCGTTACGCTCCTGATGAC -GTCATTTGACGTTCAACAGCATCACGGGGCCGCACGACATTTCACGTCAGTTAGTGCTATAGCTCAGGAACAAAT -TTTCCCGAATTGGGATATGCCCGCAAATTGCTGGTGATGTGGGGAGAATCTGGTTGAGTTCGGTAGAATTGATTT -GGAGGCAGAACGCTTAAATCGTGGCGTCCTGAAACGAAAAACGGACCTCCGTGGAGGTCCGTTTATATGAATTTG -GTGCCCGGACTCGGAATCGAACCAAGGACACGGGGATTTTCAATCCCCTGCTCTACCGACTGAGCTATCCGGGCA -ACGGGGCGCATTAAACCGTAATCTGCACATCTCGTCAACCTAATTTCAGTAAAAGCGATTCAACTGCTTAAGATT -GCGGCAAATCGCTTCTTTTCTGTGTTTCTGTCAGGTCAATGCACCACCCTGGCGGCAGCGGGCGAAGCGCAGGAT -ATCTTCCGCCAGCCGATGTGCAGTGTCGACATCCGCCTGGCTACGATTCACCAGCATTCGGCTTAAACAGCCTTC -CAGCACCAGTTCCATCTGCTTTGCTACCATCGCCGGATCGTCAACTTCCAGTGTGGTTAACAGTTCGTGGGTGAA -ATCGTAGGCCGCGCTTTTTTGCTGATCGGCCAGTTGATGAATAGGGTGGCCAGGATCGGGATAAAACGTACAGGC -AGCGATAAATAGACAGCCCGGATAGCGGTTGTTTTTAACGCACTCCGATAACGCCTGATAACGTGCCAGCAGCTT -TTGTTCGGCGGTTTGCGTTTCGTCCAGCATCAGCTGACGACGCCAGACATCTATCTGTTGGCTAAGATAACGCAG -CGCATCGTAGAGGATTGCCTCTTTGTCTGGCCAGAAGCGGCGTAGCTCGTCCAGTGGATAATCCACACGTTCAGC -AACCATCTCCAGCGTGGTGTTGGCAATCCCTTGTAATTCTAATAATTTCAGGGCTTCTCCCAGTACATCTTCACG -TTGCACGCTATTTTCCTCCGTCTTTCCCACTGCAAGTGTCGTTCACGGTTGGCGATCGCGCAAATGTGCGCTGAA -GGTTTCAGCATCCATAAAGCCCGTGACGCGTGCTTGTGGATGCTCCTGGCCTTGTCCGTCAAAAAAGAGAATTGT -CGGTAGGCCAAGGACATTAAGATGCTTTAACAGCGCCACATCTTGTGCGTCGTTGGCCGTGACGTTGGCCTGAAG -TAAGACCGTGTCTGCTAACGCTTTTTGCACCTGCGGGTCGCTGAAGGTGTATTTCTCAAACTCTTTACAGGCGAC -GCACCAGTCGGCATAAAGATCTAACATCACCGGTTTGCCTTTGGCTTCAACGAGCGCCTGATTTAACTCATCTAC -CGTTTTGATTTGTGTAAAGTTGAGATGCGTCTGAGTTTGCGCGGTATGCGTCGCACCAAATGCCCAATCCTGAAG -TGGGCGCACGCTAACCAATGCCGCTGCCAGCAGAATAATTTGCACAATACGCATCCAGCCGCGTTTAGCCTGTAG -GCTGGTGATAAAGGCCCAGCCAAAGAATGCGACACCCAGCGCCGACCACAAGCGTAATCCCCATACATCACCAAT -CACTCGCTCCAGCAGGAAGACCGGCAGTGCGAGGATCACAAAACCAAACGCGGTTTTGACTTGTTCCATCCACGG -GCCGCTTTTCGGCAGCAAGCGGTTACCAAAGACGGTAATTAGCATCAGCGGCAGGCCCATGCCCAACGCATAGAG -ATAAAGCGTGCCGCCGCCCAGCCACATGTTCCCGCTTTGGGCGATATACAGCAGAATCGCGCTAAGCGGTGCGGT -GGTGCATGGTGAACAGATCAGTCCGGCAATCGCCCCCATAACAAACACACCGCCAGGTGAGCCGCCCTGTTGGCG -ATTGCTCATCAACGTGAGACGTGTTTGCAGCGAAGAGGGGAGTTGCAGGGTAAACAAGCCAAACATTGACATCGC -CAGCAAGGTAAAGACGATGGCGAGGCCAATGAGCACGTATGGGTGCTGTAGCGCCGCCTGGAACTGTAACCCTGC -GGCGGCAACCACCAGACCCAGCGCCGTGTAGGTCAGCGCCATCCCCTGCACATAAATAAAGGTCAGCAACAATGC -TCTGGCAGTGGAGAGCCGCTGTTTACCACCCAGCACGATGCCAGAAATCAGTGGGTACATTGGCAGCACGCATGG -CGTAAAGGCGATACCAATACCGATCAACAACGCCCAGAGCGCGGAAAAGGGCAATTGCGCGGTGGGCTGCTCTTG -CTGCGGAACAGACACAGGCTGTGGCGCTGCGTTGTTGGCGACCACTTCGCTTAACGGAACGGTTTTGGTTTCTGG -CGGATAACAGAAACCGGCATCAGCACAGCCCTGGTAGGTGACAGTTAACGTCGCTCCCGCACTCGCCTGGTTGAT -GGTGACGGGAAGCGTCAGCCGATCGCGGTAAATCTCGCTTTTGCCGTAAAACTCATCTTCATGCCAGACGCCTTG -CGGCAGCTGCACGTCGGCAATTTTCGCGTGTTCCGGCGTAATGCGGATCTGTTTACGGTAGAGGTAGTAACCGTC -TTTGATCTGCCAGGTCAGATTAAGGTCATGTTGGTTTTGCTGAAAATCAAAAGCAAAGGCTTGATCCGCGGGGAC -AAATTGTGAACGTCCCGGCGCGTCGAATAATCCGGCAAAAACGGAAGTGCTGCAAAGTAGCAGGATCAGCGTAAA -GATGCGTTGAGCCATGAGAGGTAATCTGTGTCTCCGTGTGTAACAGGTAAAACCAGAAGTTCCGGGGTTTGATAT -GGATGATGAGACTTCAGGCATTCCAGCAGTGCCTGCTGGTGAGATACGGTAGTTTTTAAAATCATCTGCACTTCG -TATTCTTGCTCCAGCTTACCTTCCCAGTAATAGAGAGAGGTAGCGCCGGGGATCAAGGTCGCGCAGGCCGCCAGT -TTTTCCGCCAGCACTTTGGCGGCTAAATCCTGGGCTGTCGCTTCATCTGGTGCCGTACATAGCACCACGACAGAC -GCGGTATTCGAACTTTTTTCATCAAGCATAAACACCTCGCAAGAACAGATGGAACCGCAAGAGAGAGGTCACTAT -ACAACGGACGGGGGAAGGATGTTAGTCGGCGGGAAAGAAAGCGGGGCGTGAACGCCCCGCGATTGATCATTACAG -CATGAAGCTACCCAGCACGAAGCCGAAGCAAACGGCCAGGGCAACACCCAGAGTACCCGGGATGAAGAACGGATG -GTTGAAGACGAATTTACCGATACGGGTAGTACCCGTGTCATCCATCTGTACCGCAGCAACCAGCGTCGGGTAGGT -CGGCAGAATGAACAGACCAGACACCGCAGCGAAAGAAGCAACAGCGGTCAGCGGTGAAACGTTCAGTGCCAGAGC -CATCGGCATCAGTGCTTTTGCGGTTGCAGCCTGAGAGTACAGCAGAGCAGAAGCAAAGAAGAAGATGACGGCCAG -CAGCCACGGATGACCCTGAATCACTTCACCAGCGGTATCTTTGATCCAGTCGATGTTGTTGGAAACGAAAGTATC -GCCCAGCCACGCAACACCCAGGATACAAATACAGGCGCTCATACCTGCTTTGAAGGTGCTGGAGTTGAGGATGTT -GTCGGTATCGACTTTACAGATAACGGTGGTCAGAGTTGCAACGCTGAGCATGATGATCAGGATTGCGTTGGTGGT -GTTCATCAGCGGTTTTTCAACCAGACCCATGCTTGGGCTGTTGATGATTGCATAGATAACCACGCCAACTACGCC -CAGCAGGAACAGCCAGACGGACGTTTTTGCACCGGATTTGATTTCAATCTGCTTTTCACCGCGCAGTTCAACCAG -GCCCTCTTCCAGACGCTTGCGATAAATCGGATCGTCAGAGAGTTTGGAGTTGAACAGCATAGTGACCAGGAAGGA -CATCACCAGAACCGCCAGCAGGGTGGACGGGATGACCACGGAGAGCAGATGGAGGTAGCTGATGCCATGACCTTC -CATCACGGAAGACATGTAAACCACTGCCGCTGAGATTGGCGATGCGGTGATCGCAATCTGCGCGGATACCACTGC -AGTAGACAGCGGACGGCAAGGTTTAACGCCTTGTTCCTTCGCAACTTCAGCGATAACTGGCAGTGTCGCCAGAGA -GATGTTGCCAGTACCAGCAAAGATAGTCAGGAAATAGGTCACGATCGGTGCGAGGATCGTGATGTATTTCGGGTT -ACGGCGCAGCAGCTTTTCTGTCTGATGAACCAGATAGTCCAGACCGCCAGCAACCTGCATGGCAGAAATAGCGGC -GATAACCGCCATGATAATGGAGATGACATCGAACGGGATGTTACCGGGTTTAACGCCAATAGCGGCAAGAACCAG -CACCCCCAATCCGCCTGCAAAACCAATACCTATTCCCCCCAATCTGGCGCCCAAGAAGATCGCCAGCAAAACTAT -GATGAGTTCTACAACTAGCATATTAGCCTTCCTTGTTTTTTAACAAGTTGATATTAGATTGTTATTTTTAAGTTA -CTGCTCACAAGAAAAAAGGCACGTCATCTGACGTGCCTTTTTTATTTGTACTACCCTGTACGATTACTGTTCGCT -TTCATCAGTATAGCGTTTTGCTTTGTAAGCCGGGTGCATCAGATTCTGTACGGAGAAAATATCGTCAAGTTCCGC -TTCAGTCAACAGACCGCGTTCCAGAACGACTTCACGTACACTCTTACCGGTTTCGGCACAGATTTTACCCACGAT -GTCACCGTTGTGGTGACCGATGAACGGGTTCAGGTAAGTAACGATACCGATAGAGTTGTAAACGTAACCTTCGCA -CACTTCTTTGTTAGCAGTGATGCCGTTAATGCATTTTTCCAGCAGGTTGTAGCAAGCGTTGGTCAGAATGTGAAC -GGATTCGAACATGGCCTGGCCAATGACCGGCTCCATAACGTTCAACTGCAGCTGACCTGCTTCTGCTGCCATGGT -AACAGTGGTGTCGTTACCGATGACTTTGAAGCATACCTGGTTAACCACTTCCGGAACAACCGGGTTTACTTTAGC -TGGCATGATGGAAGAGCCCGCCTGCAGTTCCGGCAGGTTGATCTCGTTCAGGCCGGCACGTGGGCCTGAAGAGAG -CAAGCGCAGGTCGTTACAGATTTTGGACATCTTCACAGCCAGGCGTTTCAGCGCGCCGTGAACCATAACATAAGC -GCCGCAGTCAGAGGTCGCTTCGATCAGGTCTTCAGCCGGTACGCATGGGAAGCCAGTAACTTCAGCCAGTTTTTT -CACTGCCAGCGGAGAGTACTCTTTCGGCGTGTTCAGACCAGTACCGATTGCTGTTGCACCAAGGTTAACTTCCAG -CAGCAGTTCAGCGGTACGTTGGATGTTTTTCACTTCTTCTTTCAGCAGGATGCTGAAAGCGCGGAATTCCTGACC -GAGGGTCATCGGTACTGCGTCCTGCAGCTGGGTACGACCCATTTTCAGGATGTCCTGGAATTCGACAGCTTTACG -TTCAAAGCCTTCACGCAGTTGGTTAATCGCATCTACCAGCTTAATCAGGGAAGAGTAAACTGCGATACGGAAACC -GGTCGGGTAGGCGTCGTTAGTGGACTGACATTTGTTAACATGGTCGTTCGGGTTCAGGTACTGATATTCACCTTT -TTGGTGACCCATCAGTTCCAGACCGATATTGGCCAGCACTTCGTTGGTGTTCATGTTTACGGAAGTACCTGCGCC -GCCCTGGTAGACGTCTACCGGGAACTGATCCATGCATTTTCCGTTGTTCAGGACTTCATCACATGCGGCAATGAT -GGCATTCGCTACACTTTTAGGAATGGTTTGCAGCTCTTTGTTTGCCATAGCTGCGGCTTTTTTAACCATTACCAT -ACCGCGAACAAATTCAGGAATATCACTGATTTTGTTGTTGCTGATATAGAAGTTTTCAATCGCTCTCAGAGTGTG -AACACCATAGTAGGCATCAGCTGGAACTTCCCTGGTACCCAACAGATCTTCTTCGATACGAATGTTGTTTGACAT -GTGAACCTTCTTTTTCAAGCTGCCAATGATTTGCTTTAAACACACAGAATATATGTGGTTTCGAATGTTTTTCGA -CCGACGATTATCCCCTGCATCGACCGAATACCCGAGATCATATGCTGCTTGAGGATTTCTACCGTAATCTGGATC -ACTTTAAGTGTCGGTTTTTACCCCTTAATTATTAATTTGTGAAATAGATCACCGCTTTGGGATTACTACCAAAAA -TAGTTGCGCAAACATCTTGAAATTTTGCTAATGACCACAATATAAGCTAAACGCGATTCGCAACCCATTCAGGTA -GCCGGGGTTAACCGGCTGCTATTACAGGAGAAACCTTTGCGCTGGTTACCTTTTATTGCCATTTTCCTTTATGTC -TATATTGAGATTTCAATCTTTATTCAGGTTGCCCATGTATTGGGGGTATTGCTGACCCTCGTGCTGGTTATATTC -ACGTCAGTTATCGGTATGTCACTGGTACGTAACCAGGGCTTTAAGAATTTCGTGCTGATGCAGCAAAAAATGGCG -GCGGGTGAAAACCCAGCGGCGGAGATGATTAAAAGTGTTTCGCTGATCATTGCTGGTTTGCTGCTTTTATTACCG -GGCTTTTTTACCGACTTCCTCGGTCTTCTACTTTTATTGCCGCCGGTGCAAAAGCATCTGACAGTGAAGTTGATG -CCGCATTTGCGCTTTTCTCGCATGCCTGGCGGCGGTTTTAGCGCCGGGACCGGTGGCGGTAATACTTTTGATGGT -GAGTACCAGCGAAAGGATGATGAGCGCGACCGCCTTGATCATAAAGACGATCGCCAGGATTAATGTCGAAACGCC -GGATTATGTGGTTATGCCATTTTCCGGCGTTTTTCGTTTTGGCAGCAACAGCCATAACCCCGCCAGCATGATCAG -CGCATAGAGACTTTTCCAGCCGACCATTGCCAGTAACAGAACGCATAACAGCCCGCCAACCACCGCCAGTAGTCG -ATAACGTCCTTGCAATAATTTACAGCCTGCCAGCATGCATAACAGATAAATCATAATAAAGATGCCATTGGCATA -AATAATAAGAGCGTCCAGATTGATCTCTAAAGCATGAATCACCAAAGTGCTCACCACACAGCAGCCGAGCACCGC -ATTGAGGGCATTATTCGGGATATGGCGAGAAGAGAGGCGTGCCAGGTAGTGGTCAGGATTATGTTGCGCCTGCGA -CCAGACCAGGCGGGCGAAGCTCTGTATATAAATGTTGAGACTGGCAAAGCAGGCCAGATAGCCAATCACGCAGGC -AATCCATAACGCTCCTACACCGAACAACTGCACTACAATTTTTGGAAGCGATGCTGCCGCCGCCATTTTTTCACC -ATAGGCGTCGAAGTGTAAGACGACTACCGTACAGCCCCAGTAGACTAATCCTGCCAGCAGCAGACCAATCATCAA -AGCACGAGGAAAATCACGCTCTGGATTTTTAAATTCCGAGGCGAGATGGGCAAATGCCTCCAGACCGACAAAACA -CCAGAACATCACTGATAACGCAGCAAATAACCCGGTAAGTTCGATATTACCAGGTGCCGGAAAGGGGATATTCGC -AGGTTTGATATCGCCCGCCCACCAGATAGCGACAATCAGCGCGACGATAAGTCCGGCAATAACGGTTTGTAGATT -AGCACTGGAACTGGCACCGCGAGTACCGATATACCACACCAGCGCCAGCGTACCGAGTTCTGCCAACAACAGTTG -CCAGCTATGCCAGCCAAACATCGCCTGGCCGAACCCGGCGGCAATTTGTAGTGCGGCAGGCAAACCCACGGGAAT -GACCGATAAAAACAGCCAGCCGGTGACTCGCTCAAGCCGCGAACCAAACGCCATACCGACGAAGTGCGCGACGCC -GCCTGCGCTGGGATAGTGGCGACCCAGAATCGCAAACACAATCGCAATCGGGAACACTAAGATAATCAAAACGGG -CCACGCCCACAGGCTGTTATTGCCCGCTACCAGCGCAGCTAACGCAGGAACGGCAAACACGCCAGTGCCTAATAA -TGACGTCGATAGCAGGCCAATGCCCTGGGCCAGCCCCAGTTCTTGTTTGAGTCCACTCATGGGTTGATGTCCGAT -TGCGCCCAAATTTTGGGCAACTGCGTAGATTTTCGATGGTAGCACAATCAGATTCGCTTATGACGGCGATGAAGA -AATTGCGATGAAATGTGAGGTGAATCAGGGTTTTCACCCGATTTTGTGCTGATCAGAATTTTTTTTCTTTTTCCC -CCTTGAAGGGGCGAAGCCTCATCCCCATTTCTCTGGTCACCAGCCGGGAAACCACGTAAGCTCCGGCGTCACCCA -TAACAGATACGGACTTTCTCAAAGGAGAGTTATCAATGAATATTCGTCCATTGCATGATCGCGTGATCGTCAAGC -GTAAAGAAGTTGAAACTAAATCTGCTGGCGGCATCGTTCTGACCGGCTCTGCAGCGGCTAAATCCACCCGCGGCG -AAGTGCTGGCTGTCGGCAATGGCCGTATCCTTGAAAATGGCGAAGTGAAGCCGCTGGATGTGAAAGTTGGCGACA -TCGTTATTTTCAACGATGGCTACGGTGTGAAATCTGAGAAGATCGACAATGAAGAAGTGTTGATCATGTCCGAAA -GCGACATTCTGGCAATTGTTGAAGCGTAATCCGCGCACGACACTGAACATACGAATTTAAGGAATAAAGATAATG -GCAGCTAAAGACGTAAAATTCGGTAACGACGCTCGTGTGAAAATGCTGCGCGGCGTAAACGTACTGGCAGATGCA -GTGAAAGTTACCCTCGGTCCAAAAGGCCGTAACGTAGTTCTGGATAAATCTTTCGGTGCACCGACCATCACCAAA -GATGGTGTTTCCGTTGCTCGTGAAATCGAACTGGAAGACAAGTTCGAAAATATGGGTGCGCAGATGGTGAAAGAA -GTTGCCTCTAAAGCAAACGACGCTGCAGGCGACGGTACCACCACTGCAACCGTACTGGCTCAGGCTATCATCACT -GAAGGTCTGAAAGCTGTTGCTGCGGGCATGAACCCGATGGACCTGAAACGTGGTATCGACAAAGCGGTTACCGCT -GCAGTTGAAGAACTGAAAGCGCTGTCCGTACCATGCTCTGACTCTAAAGCGATTGCTCAGGTTGGTACCATCTCC -GCTAACTCCGACGAAACCGTAGGTAAACTGATCGCTGAAGCGATGGACAAAGTCGGTAAAGAAGGCGTTATCACC -GTTGAAGACGGTACCGGTCTGCAGGACGAACTGGACGTGGTTGAAGGTATGCAGTTCGACCGTGGCTACCTGTCT -CCTTACTTCATCAACAAGCCGGAAACTGGCGCAGTAGAACTGGAAAGCCCGTTCATCCTGCTGGCTGACAAGAAA -ATCTCCAACATCCGCGAAATGCTGCCGGTTCTGGAAGCTGTTGCCAAAGCAGGCAAACCGCTGCTGATCATCGCT -GAAGATGTAGAAGGCGAAGCGCTGGCAACTCTGGTTGTTAACACCATGCGTGGCATCGTGAAAGTCGCTGCGGTT -AAAGCACCGGGCTTCGGCGATCGTCGTAAAGCTATGCTGCAGGATATCGCAACCCTGACTGGCGGTACCGTGATC -TCTGAAGAGATCGGTATGGAGCTGGAAAAAGCAACCCTGGAAGACCTGGGTCAGGCTAAACGTGTTGTGATCAAC -AAAGACACCACCACTATCATCGATGGCGTGGGTGAAGAAGCTGCAATCCAGGGCCGTGTTGCTCAGATCCGTCAG -CAGATTGAAGAAGCAACTTCTGACTACGACCGTGAAAAACTGCAGGAACGCGTAGCGAAACTGGCAGGCGGCGTT -GCAGTTATCAAAGTGGGTGCTGCTACCGAAGTTGAAATGAAAGAGAAAAAAGCACGCGTTGAAGATGCCCTGCAC -GCGACCCGTGCTGCGGTAGAAGAAGGCGTGGTTGCTGGTGGTGGTGTTGCGCTGATCCGCGTAGCGTCTAAACTG -GCTGACCTGCGTGGTCAGAACGAAGACCAGAACGTGGGTATCAAAGTTGCACTGCGTGCAATGGAAGCTCCGCTG -CGTCAGATCGTATTGAACTGCGGCGAAGAACCGTCTGTTGTTGCTAACACCGTTAAAGGCGGCGACGGCAACTAC -GGTTACAACGCAGCAACCGAAGAATACGGCAACATGATCGACATGGGTATCCTGGATCCAACCAAAGTAACTCGT -TCTGCTCTGCAGTACGCAGCTTCTGTGGCTGGCCTGATGATCACCACCGAATGCATGGTTACCGACCTGCCGAAA -AACGATGCAGCTGACTTAGGCGCTGCTGGCGGTATGGGCGGCATGGGTGGCATGGGCGGCATGATGTAATTGCCC -TGCACCTCGCAGAAATAAACAAACCCCCGGGCAGAAATGTCTGGGGGTTTTTCTTTTGGTCATCTTTCTAGTATA -AGATTCAGACACGGACGACGCGAGTGGCGTCCAGCTCATTGATTATGGGGAATAACATGCACGTAAAATACTTAG -CAGGGATTGTCGGTGCCGCGCTACTGATGGCGGGTTGTAGCTCCAGCAACGAATTGAGTGCTGCCGGTCAGAGTG -TACGCATTGTGGACGAGCAGCCAGGCGCAGAGTGCCAGCTGATTGGTACTGCGACAGGTAAGCAAAGCAACTGGC -TTTCCGGGCAACACGGAGAAGAAGGCGGTTCTATGCGCGGCGCAGCAAACGATCTGCGCAACCAGGCGGCTGCAA -TGGGCGGTAACGTGATTTATGGCATCAGTAGCCCGTCGCAGGGAATGTTGTCCAGTTTTGTCCCGACGGATAGCC -AGATTATCGGTCAGGTTTATAAGTGCCCGAACTGATGTGATCCAGAGGCTGGGTGACAAACGTATAATTGCCTGA -TGCGCTTCGCTTATCAGGCCTACATAAGGCATTGCAACTGATTGAATGCTTGAGAATTTGTAGGCCGGATAAGGC -GTTTACGCCGCATCCGGCATGACCAACGATCACGTTATCAGTCATTTCAGGCTGGATGGCTCCAGCCTCGCATTA -GCAAAGATGAGATTATTTCGCCTGTGGTGCAGTTTTGCTGGTGGATTGAACACGTAAGTGATGCAGCGCGCGTAA -GCATTGATCCTGGGTTAGCGGTTGGGCGTTATTCGCCGCTACGGTGCGAACATAGACCTGACATGGCACACCCGC -GAGTTTTTTCAGTCGTGGGCTGAAATCAAGCATTCGGCGAGTGATCGCTTCTATTTCTTTACCCGGCGTTGCTTC -ACGCGTTTTCACCACTGCGCCGCTAAATTGTTCTTTGCCACTTTCATCTTTAAAGCGGTAAAGCACCGCCAGATA -ATGGTCGAACAAGTTATGTTTCCATTCCGGTTGGGAATAGGTGTCATATTCCAGATTGCCATTGTCCTGGCAGTC -AACGTCGTATAACGGCAGGAAATCTAACAGTGAGGTAATACGTAATGCCAGTTCACGCATTTCCGCATTATTAAT -TGCATGAATGATTGCTCGCGCCAGCATTTCAATCTGCAACTCATTGACGACTAACTCACATTTGCTACCGTCATG -TAGCGTTAATACGAAGGTAAGATTTTCGCCTTGATTATCGGTAAGTTCCAGCGTGTTAACCCGACGATTAATATC -GGCATTTTTAAGCTCATCAACCAGAATTTCTGGGATGTTTTCTGCCATTTTCTTAATGACTTTATCGCGAGCTTG -CTCATACTGAAGGTGTGCAGCAGCATCCAGTTTATGCTTTTGATGCAGACGACTTTCCAGCGCAATCAGCAGGTC -GCGCAGTTCCATGACAGACATAAAGAACAACGATTCTTTATTGCGAGGTTCTTTAATTTTCAGCGCCAGTGCAAT -GAAATTATTACTCTTGCGAATAACACCGGTATTAACACCCTTGATGCTTATGGCCATGTAGGTTCTCCCTAACCA -TTTCTCAATTAAATAATTAATTTTAATTTATAAGCCAGATAAATGGGCTTGGTAGTAATAGTTGTTAAAATAACA -TAAATAGCCGTACTCACTCTATATAAACAGAAAAGAAAGGTTAATTATTGGTGTTAGCTATATAAAAAGTAACAA -CAGCAATGCATATGAATAATTAAAGGTTATGCAACGGGCAAAGATTAAACTTCCCAGTTTAATGACAGGTTGCTG -TACTTGCGTTTGTTGCTCTTGCCGGATGCAGCGTAAACGCCTTATCCGGCCTACAGTTCATTGCAAATCCATTCA -ATTTCAATGCACGATGTAGGCCTGATAAGCGTAGCGAATCAGGCAATTTTAATGTTTAACTTCCCTGTTTAATCA -GTTACTGCTGGCGTAGCTGGAGATCCAGCGGCGTTTTGCTGGGTTCGCCGCCAATTTCTCGCGCCAGTTTCGGCA -CCAGATATCCCGACACCAGTGTCAGCAACTCACGCATAATCTGCCGTGCTTCGTCATCACTCACCATAAAATGCG -CCGCGCCCTGTACTTTATCGAGCACATGCAGGTAATACGGCATTACGCCGGCATCGAACAACGCATTACTCAGGT -TTGCCAGCGTTTGTGCGTTATCGTTCACATCACGTAACAGAACGCTCTGGTTCAGCAAAGTAACGCCTACCCGGC -GCAACTTAGCCATCGCCTGACGGAATGTTTCATCTACCTCATTGGCATGGTTGATGTGATTCACCAGCAAGATTT -GCAGCGTAGAACGGGCAAAGCATTCAACCAGCGCCTCGGTGATACGTGCCGGGATCACAATCGGCAGACGGCTGT -GAATCCGCAGACGTTTTATATGCGGGATGGCTTCCAGTTGTGTGAGCAACCAGTCCAGCTCGTGATCTTTCGCCA -TCAGCGGATCGCCGCCGGAGAAAATCATCTCGTCCAGTTCCGGATGCGCAGCAACATACTCAAGTGCAGTTTGCC -AGTTACGCTTGTTGCCCTGATTTTCGGCATAGGGGAAGTGACGACGGAAGCAATAGCGGCAATTTACCGCGCAGC -CGCCTTTGACCAGCAAAAGCGCCCGGTTGTGGTATTTATGCAACAAACCAGGCACTACGCTGTGCTGTTCTTCCA -GTGGGTCGGTGGAGAATCCGGGCGCGATGACAAACTCATCTTGCGAGGTAAGTACCTGACGCAAAAGAGGATCGT -CCGGATTGCCTTTCTCCATGCGATCGATAAATGAGCGGGGCACACGCAGGGCAAAAAGCTTTTTGGCGCTGCGTC -CGGCTAACAGTTTTTCCTCCGCGTCTATATTCAAAAGACGCAGAAGTTCATCAGGATCGGTCACAACATCGGCAA -GTTGCGTTAACCAATCTTCTCTGGATGGGGTATTTAGGGTTACAATATGCGCCATTTTGTGGCTTAGCTACCAAT -TAACAAATTTCAGAGGGCCTTATGGCAACGTACTATAGCAACGATTTTCGTGCTGGTCTTAAAATCATGTTAGAC -GGCGAACCTTACGCGGTTGAAGCGAGTGAATTCGTAAAACCGGGTAAAGGCCAGGCATTTGCTCGCGTTAAACTG -CGTCGTCTGCTGACCGGTACTCGCGTAGAAAAAACCTTCAAATCTACTGATTCCGCTGAAGGCGCTGATGTTGTC -GATATGAACCTGACTTACCTGTACAACGACGGTGAGTTCTGGCACTTCATGAACAACGAAACTTTCGAGCAGCTG -TCTGCTGATGCAAAAGCAATTGGTGACAACGCTAAATGGCTGCTGGATCAGGCAGAGTGTATCGTAACTCTGTGG -AATGGTCAGCCGATCTCCGTTACTCCGCCGAACTTCGTTGAACTGGAAATCGTTGATACCGATCCGGGCCTGAAA -GGTGATACCGCAGGTACTGGTGGCAAACCGGCTACCCTGTCTACTGGCGCTGTGGTTAAAGTTCCGCTGTTTGTA -CAAATCGGCGAAGTCATCAAAGTGGATACCCGCTCTGGTGAATACGTCTCTCGCGTGAAGTAATGCGGTTGTGGT -GCGGCCTGCAGGCTGCACCATCACTTATTCAGGTCAGAGATGATGAAACGCCTTATCGTTCTTGTTTTGCTTGCC -AGCACGCTGCTCACGGGCTGTAACACCGCTCGCGGTTTCGGCGAAGACATCAAACATCTCGGCAACTCCATCTCT -CGCGCTGCCAGCTAATTTTTCTTCTCTTCCGAAAAATCATCAGATTCCCATCATTTTTGGCGATGTTGTCTATTA -TTAATTTGCTATAGGCAAACATAAATAACATTACCTAAAAGGAAGACGTTATGGTGAAGAAGACAATTGCAGCGA -TCTTTTCTGTTCTGGTGCTTTCAACAGTATTAACTGCCTGCAACACCACGCGTGGCGTTGGTGAAGACATTTCTG -ATGGCGGTAACGCGATTTCTGGCGCAGCAACGAAAGCGCAGCAATAAGCAATAACGGTACGACAGCTGTGTCGTG -CCGTTTGTTTTTTCTGCGATAGTCACAAAGGTAATAGTTGAAATTCCCCTGCCACCTGGCAAAATATCCGTTCAA -CCATCAGCTTTGCAGGACGACCTGCAAACGCCTCTTTTCACCGGGGACGGCCCCAATTCTCCGGAGCCTGATATG -TCCTGGATTATCTTAGTTATTGCTGGTCTGCTGGAAGTGGTATGGGCCGTTGGCCTGAAATATACCCACGGCTTT -AGTCGTTTGACGCCGAGTGTTATTACTGTGACGGCGATGATTGTCAGTATGGCGCTACTTGCCTGGGCGATGAAA -TCGTTACCAGTAGGGACGGCTTATGCCGTGTGGACGGGTATTGGCGCAGTCGGCGCGGCCATAACCGGCATTGTG -CTGCTCGGTGAGTCCGCTAACCCGATGCGCCTGGCGAGTCTGGCGTTAATCGTATTGGGGATTATTGGTCTGAAA -CTCAGCACTCACTAACTACCAGGCTGCTGTACCCAAATAAATTTACTGACATCAAACCCTTCCCGGGTCGCGACT -GCCAGCATCTCCTGTTTCACTTCGTCAGAAATGGTTGGCGTGCGGGAGAGTATCCACAGGTAGTCGCGGTCCGGG -CCGCAAACCAGCGCATGGCGGTATTCCCGATCGAGTGCAATAACGTTATAACCGCCATAGAAAGGACCAAAGAAT -GACACTTTCAGCGCAGCGCGAGTTGGTGCGCCGGTAAAGTACGCTTTCCCTTCACTCTGCTGCCACATTCCTCTG -TCAGGGTTATAGCCTTTATTAATGACATTCAGGCCGCCGTCATCACGCAGGCTGTATGTTGCGGTGACTTTTTCC -AGTCCACGTTCAAAGCGGTGATCAAAACGGGCAATCTCATACCAGGTACCGAGATAACGTTTGGCGTCGAAATTA -TTTACTACGGTCACGCCACGCGGCGGCGTAGGAGAACTGCAGGCAACGACCAGAAATGCAGCTGTCGCTGCGGCA -ACGAGAGGGAGCAGGCGCATAAATGTTTCCTTACTGGTTTTTTTCTAAGTGTAGATGACAGCAAGGAAAAGCGGA -GAAAAGGTCCGAAAATTCGGACCCGATGGAATTTTACTGTAGAGCGTTAAGAATCTGCCAGGCGGCGTCGACTCT -CGCTGGATTGGGATAGTTTTTGTTTGCCAGCATCACGATACCCAGCTCTTTTTCTGGAATAAACGCGACATAGCT -ACCAAATCCGCCGGTCGCCCCTGTTTTATGTACCCATGATGCGCGTACTGCAGGAGTTGGGGGCGTAATCGCTTT -TACGGGGCGTGCTGCCAGTGCAATTTTATTGTCACTGCCGTTAATGATGCTGTCAGGATTTACCGGCCAGTCCAG -CATTTCCCAGCCCAGGCCCTGATACATATCGCCGGTTTGCCAGTAGCGAGATTGTGCCAGTTGTATCCCTTGTTG -AAGCGTTTTCTCATTGATATCAAGGGGTTTTAAATTGCTTTGCACCCAGCGGGCCATATCTTCAATGGTCGACTT -CACACCATAAGCTTCAGCATCTAACGCCCCAGGCGAAACATGCACTGCCTTACCTTCGCGATATCCCCAGGCGTA -ATTCTTTTCTTCTGCGGGCGGTACATTAATCCACGTATGGTTGAGTTTGAGTGGCTGGAAGACACGAGTTTGCAT -CGCCTGCTCAAAACTCAAACCAGACGGCTTCACAGCCAGTGCGCCGAACAAACCGATACTGGAGTTGGCATACAG -ACGTTGTGTTCCTGGAGCCCATGCAGGCTGCCAGTTTTGATAGAAGCGCAGCAAGTCGCTTGAGGATTTCACCTC -ATCCGGCACCTGCAATGGCAGGCCGCCAGCAGTGTAGGTTGCGAGATGTAATAGTGTGATCCCATTCCACTGTTT -AGCGGTAAGTTCAGGCCAGTATTTTGTTGTGGGATCGCTTAACTTGATTTCCCCTCGAGCAATAGCGTCGCCACC -AAGCACGCCAGTAAATGTTTTGCTGACCGAACCTAACTCAAACAACGTTTGCTGTGTGACGGGCTGCTTTTTGGC -GATGTCCGCATAGCCCCAGGTAAAGTAATAAGGTTTACCCTGATAAATTACCGCCACCGCCATACCCGGGATCTT -TTGTTGCTCTATAAGCGGGGTAATTGTGCGATGCACAATATCGTTGATTTGTTGAGGGGCAGCAAATGTGGAGCA -AGAGGCGGTAATTAATAAGGCGCAGAGCGTCGTTTTGAACATAGGGTCTGGTTTCCATACAAAACGGCCCGCCAT -AGGCGGGCCGGATTTACATTGGCGATGCGTTAGATTGTAACGACACCAATCAGCGTGACAACTGTCAGGATAGCA -GCCAGACCGTAGAAAACCCATTTGCCCGCAGGTACGTGGATTTTCAGATCGTGCATCGCGTGGTGCATACGGTGT -AAACCACACCACAGCGGCAGAACGATCATCAGGAACAGGAATACGCGACCAATGAAGCTCTGCGCGAACGCCAGA -ACGCGCTCGTAGCTCAGCGCATCACCCGGAAACAACCCCAGTGGCAGCAGAATACCCACCAGCAGGATCATCACC -GGCGCAATGATGGCGCTCCACATACCACCGGCCCCGAAGAGGCCCCAGAATACCGGTTCGTCAGAACGCTTTGGA -TTTGGATTAATCATCTCAGGCTCCTTACCAGTACAGGGCAACAAACAGGATTACGATGGTGGCAACCACAGTTAC -CGCCCAGAGACTTTTGATAATTGGCTCTGGTCCCATTTTTTCGTCTTTTACAATGATATTGGCCGCTTTCGGTGC -CAGTTCAAACCAGGTTTTGGTGTGCAGCAGAGCTGCCGCCAGAGTGATCAGGTTAATGATCACGATAACCGGGTT -TTGTAAAAAGTCGACGAATCCCGCCCAGGCTTCCGGGCCATTTTTCAGGGCAAACAGCCCGAAAATCAGTTCAAT -GCTGAACCACACAGCCGGAACCGCCGTGCCTTCGCGCAGCATGTAAAAGCGATAAAACGGCAATTTTTTCCACCA -GGTGGACGTCATTGGCCGTACATACGGTTTACGTTTAGTCGTCATGTTGCACTCCTTAGCGTGGTTTCAGGGTCG -CGATAAGAAAGTCTTTCGAACTTTCTACTTTGCCCTGCTGAATGGCCGCAGCCGGATCGACGTGTTTCGGGCAGA -CTTCGGAGCAGTAGCCCACGAAAGTACAGCTCCATACGCCGTTCTGGCTGTTCAACTGCGCCATACGCTCCTTCT -TACCGTGGTCGCGGCTATCTTCGTTATAACGATGCGCCAGCGTAATGGCAGCCGGACCGATGAACTCTGGGTTCA -GGCCAAACTGCGGGCACGCGGCGTAGCACAAACCACAGTTGATGCAACCGGAGAACTGGTGATACTTCGCCATCT -GCGCCGGGGTCTGGATGTTAGTACCCTGATCCGCGGTGCGGGAGTTGCCGATGATGTACGGTTTGATCGCTTCCA -GACTTTCGATGAAGTGGGTCATATCGACCACCAGATCGCGTTCAATCGGGAAGTTAGCTAACGCTTCAACCTTCA -TACCGTCGGTGTAATCACGCAGGAAGGTTTTACATGCCAGTTTTGGCACGTTGTTAACCATCATGCCGCAGGAAC -CACAAATCGCCATACGGCAGGACCAGCGGTAGCTCAGGTCCGGTGCCAGGTTGTCTTTGATGTAGCCCAGCGCAT -CCAGTAATGAGGTAGTTGCGTCATAAGGCACTTCATAGAATGCGCTATGCGGTGCGGTATCGACTTCCGGGTTAT -AGCGCACCACCTCAATTTTCAGGTTTTTCATCTCAGCCATTCGCCTTCTCCTTCTTATTGGCTGCTTCCGCCTTA -TCGGCTGCATCCGCTTCGCCACCGTAAACGCGTTTAGCTGGCGGCAGCGTAGTAATCTTCACGTCGCTGTACTCC -AGGCGAGTCGTGCCATCAGCATCGCGGAAGGCGAGGGTGTGTTTGAGGAAGTTGACGTCGTCACGCTCGGTGCAA -CCTTCGTCCAGACGCTGGTGCGCGCCGCGGGACTCTTTACGTGCCATTGCGGAGTGCGCCATACATTCAGCAACG -TTCAGACCGTGGCCCAGTTCAATGGTGTAGAGCAGGTCGGTGTTGAACACGCTGGAAGTGTCGGTGATGCGCACG -CGCTTGAAGCGTTCCTGCAGCTCTGCCAGCTTGTCGATGGTTTTCTGCATCAGTTCCGGCGTACGGTAGATACCG -CAGCCTTCTTCCATAGCCAGGCCCATTTCGTCGCGGATCTTCGCCCAGTTTTCGCCGCCATCCTGGTTAACCAGA -TCTTTCAGACGTTGTTCAACGCCAGCTGCCTGCGCTTCAATTGCCGCTTCGTTGCCATTACCGGCAGTTGCTGCA -CGCTCTGTCGCTTGTTCACCGGCCAGACGGCCGAAGACCACCAGTTCCGCCAGGGAGTTAGAACCCAGACGGTTT -GCACCGTGCAGACCAACAGAGGAACATTCACCCACGGCGAACAGACCTTTAATGCGGGTTTCACAGTTCTGATCG -GTTTCGATACCGCCCATGGTGTAGTGTGCGGTCGGACGTACCGGAATCGGTTCTTTAACCGGATCGACGCCAACG -TACGCTTTCGCCAGTTCGCAGATGAACGGCAGACGTTCATGCAGTTTTTTCTCGCCGAGGTGACGCAAGTCGAGA -TAAACCACATCGCCACGCGGCGTGGAGATGGTGTTGCCTTTACGCCATTCGTGCCAGAAGGCCTGAGAGACTTTG -TCGCGTGGACCCAGTTCCATATATTTGTTTTTCGGCTCGCCCAGCGGAGTTTCCGGGCCCATGCCGTAATCTTGC -AGATAACGGTAGCCATTTTTGTTGACCAGAATACCGCCTTCACCGCGGCAACCTTCGGTCATCAGGATACCGGAA -CCTGGCAGACCGGTTGGGTGATACTGAACGAATTCCATGTCACGCAGCGGAACGCCGTGGCTTAGCGCCATACCC -ATACCGTCACCGGTAACGATGCCGCCGTTGGTGTTGTAACGATAAACGCGACCCGCACCGCCAGTAGCCATAACG -ACCGCGTTAGCACGGATCTGCACCAGCGTGCCTTCCATCATGTTCATTGCTACCAGGCCGCGAACATGACCATCA -TCAACCAGAATATCCAGCACGAAATGTTCGTCAAAACGCTGGATCTGCGGGAATTGCAGAGAGGTCTGGAACAGC -GTGTGCAGCATATGGAAGCCGGTCTTATCGGCGGCGAACCAGGTGCGCTCGATTTTCATGCCGCCGAAGCGACGT -ACGTTGACGCTACCATCCGGGCGACGGCTCCATGGGCATCCCCACAGTTCCAGTTGGGTCATTTCGGTTGGGCAG -TGGTGGACGAAATAATCCACGACATCCTGCTCACACAACCAGTCGCCACCCGCTACTGTATCGTGAAAGTGATAT -TCGAAGCTGTCATGATCCTGCGCGACAGCGGCGGAGCCCCCTTCTGCAGCAACGGTATGGCTACGCATCGGGTAT -ACTTTTGAGATTAGTGCGATTTTTGCATTCGGATTTGCCTGCGCGGCAGCAATTGCAGCACGTAATCCCGCGCCA -CCGGCGCCTACAATGGCAAGATCGGCTTGAAAGGTTTGCACGACATTCCTCCAGATTGTTTTTATCCCACAGCCA -CGTACTTCAGGGTAAGTACCTGAAAGTTACGGTCTGCGAACGCTATTCCACTGCTCCTTTATAGGTACAACAGTA -TAGTCTGATGGATAAGTCTGAAATTTGACGAGATCGATTTTTTTAGTGCGCAAGAGGGCTAAATTATCACTGAAG -ATGATTAATTTAATTACTAAACCATCAGATCGTGCTTTTTTTAGTCACTGCCCACCGCTGTTTGATTCCTGCGTA -AAATTTGTCTCGCCGTCGCGTTGCGAGTAGACTTCGTGCCCTTGTCAAAAACTGGAGATTTAACTATGAGCGAAA -CGGCATCCTGGCAGCCGAGCGCATCCATTCCTAACTTATTAAAACGCGCGGCGATTATGGCGGAGATCCGTCGTT -TCTTTGCCGATCGTGGAGTGCTGGAGGTGGAGACGCCTTGTATGAGCCAGGCGACGGTAACCGATATTCATTTGG -TCCCGTTTGAGACACGTTTCGTTGGCCCCGGGCATTCGCAGGGGATGAATCTCTGGTTAATGACCAGCCCGGAAT -ACCATATGAAACGCCTGCTGGTTGCCGGTTGTGGGCCGGTATTCCAGCTGTGCCGCAGCTTCCGTAATGAAGAGA -TGGGGCGTTATCACAACCCTGAGTTCACTATGCTGGAGTGGTATCGACCGCACTATGATATGTACCGGTTGATGA -ACGAGGTGGACGATCTCTTACAACAGGTGCTGGACTGCCCGGCAGCAGAAAGCCTTTCTTATCAACAAGCTTTCT -TGCGTTATCTGGAAATTGACCCGCTCTCTGCCGACAAAACGCAACTGCGGGAAGTCGCAGCGAAACTGGATTTGA -GCAATGTTGCTGATACCGAAGAAGACCGCGACACGCTGCTACAATTGCTGTTTACCTTTGGCGTAGAGCCAAATA -TTGGCAAAGAAAAACCGACCTTTGTGTACCACTTTCCAGCCAGCCAGGCATCACTGGCGCAAATCAGTACCGAAG -ATCATCGGGTCGCTGAACGCTTTGAGGTTTATTATAAAGGTATTGAGCTGGCGAATGGTTTCCATGAATTGACGG -ATGCCCGTGAGCAGCAACAACGCTTTGAACAAGATAACCGTAAGCGCGCGGCGCGCGGTTTGCCGCAGCACCCCA -TTGACCAGAATCTGATTGAAGCCTTGAAAGTCGGTATGCCTGACTGTTCCGGCGTGGCATTAGGTGTTGATCGTC -TGGTGATGTTGGCGCTGGGCGCGGAGACACTGGCTGAAGTCATCGCCTTTAGCGTTGACCGGGCATAATTCTGAA -AAATTACTGAATTAACAGCGAAGAATGGCGTGATAAGCGCCATTCTGTAGCATATGTTTTCATTTTTCCGTTAAA -GGCCACAATTTAAGACTGGATATTTGATATCATCCAGGTATCAATTCTGTATTGGTTTTTACGCTGCCTGCTCAA -TGTTGCGCAGTGCAGTTCAGTGGGCACGTGTTATACACGCGCTGAAATGAAGGATGGTTTCATGCCTCACACGAT -AAAAAAGATGAGTCTGATAGGACTCATATTGATGATCTTTACTTCCGTATTTGGATTTGCCAATAGCCCATCGGC -TTATTACTTAATGGGTTATAGTGCGATTCCCTTTTATATATTTTCTGCATTGTTATTCTTTATTCCATTCGCCTT -AATGATGGCTGAAATGGGAGCTGCTTATCGCAAAGAAGAAGGCGGTATCTATTCCTGGATGAATAATAGTGTCGG -ACCACGTTTTGCCTTCATTGGTACGTTTATGTGGTTTTCCTCTTATATCATCTGGATGGTGAGTACCTCCGCGAA -AGTTTGGGTACCGTTCTCAACATTCCTCTATGGTAGCGACATGACCCAGCACTGGCGTATTGCCGGACTGGAGCC -TACGCAGGTGGTTGGTCTGCTGGCTGTGGCATGGATGATTCTGGTCACCGTCGTTGCTTCTAAGGGGATTAATAA -AATTGCCCGCATTACTGCGGTGGGCGGTATTGCAGTAATGTGTCTGAATTTAGTATTGCTGTTAGTAAGCATTAC -TATTTTGTTATTAAATGGTGGGCATTTCGCGCAGGATATTAATTTCCTTGCATCACCGAACCCGGGTTATCAGTC -CGGTCTGGCAATGCTATCGTTTGTGGTATTTGCCATTTTTGCCTATGGCGGAATTGAAGCGGTTGGTGGTCTGGT -CGATAAAACGGAAAATCCAGAAAAGAACTTTGCCAAAGGTATTGTTTTTGCCGCTATTGTTATTTCAATCGGTTA -TTCGCTGGCAATATTTTTATGGGGCGTCAGCACAAACTGGCAGCAGGTATTAAGTAATGGTTCCGTTAACCTCGG -CAATATTACCTATGTGCTGATGAAGAGCCTTGGGATGACGCTGGGTAATGCACTGCATTTGTCACCTGAAGCGTC -ATTGTCGCTGGGCGTATGGTTTGCGCGTATTACTGGACTTTCGATGTTCCTCGCCTATACCGGTGCGTTCTTTAC -GCTTTGCTATTCACCGTTGAAAGCCATCATCCAGGGGACGCCGAAAGCATTGTGGCCGGAACCGATGACGCGCCT -GAATGCGATGGGGATGCCGTCTATCGCCATGTGGATGCAGTGCGGGTTGGTTACTGTCTTCATCCTGCTGGTTTC -GTTTGGTGGCGGTACCGCATCGGCGTTCTTTAACAAGCTGACGCTGATGGCGAACGTGTCTATGACGCTTCCTTA -CCTGTTCCTCGCGCTGGCTTTCCCGTTCTTTAAAGCACGTCAGGATCTCGACAGACCGTTTGTGATTTTCAAAAC -GCATTTGTCGGCAATGATTGCGACAGTGGTTGTCGTACTGGTGGTGACATTTGCGAACGTCTTCACCATCATTCA -ACCTGTGGTTGAAGCCGGAGACTGGGACAGCACATTGTGGATGATTGGCGGCCCTGTCTTCTTCTCGCTGTTAGC -GATGGCGATTTACCAGAACTATTGCAGCAGAGTGGCAAAAAATCCGCAGTGGGCGGTGGAATAACCCGATGCCCT -ATCGTCTACCTGACGATAGGGCGTAAAGACAGGAAATGTTATGGATGACACCAGCCGGGACCCGGCAATAACCGA -AGATGAAATCAGGGCGCTGCAATTTTCTGCCGGGGATGTAGCGGAAATAGAGCAGACGATTCTCTCTTTTGTCGA -TGCCTGCCACACCCGTAAAGTGGCGATGGTGGTGGGTAGCACCATTAACACCCTCAAAGATCGCGATGGTAAACG -GTGGGGAAACCTGCCGGATATTTATTGCGCTTATCTTATCCGATGTCTGGTTTTTCGCGGGGAATTAGTGGGATA -CGGCGATTTGTTTCGTATGCGCTATAGCGAAATTAAGCGACCGGTTACCTTATGAGTGCGCGCATGTTTGTCTTA -TGCTGCATCTGGTTTATTGTGGCGTTCCTCTGGATAACCATCACTTCCGCGCTGGACAAAGAGTGGATGATTGAT -GGACGCGGGATTAACAACGTCTGCGATGTGTTGATGTATCTCGAAGAAGACGATACCCGTGATGTTGGTGTGATA -ATGACGTTACCGCTCTTTTTCCCTTTTCTCTGGTTCGCTTTGTGGCGAAAAAAACGCGGCTGGTTTATGTACGCC -ACCGCGCTGGCTATTTTCGGCTACTGGCTGTGGCAGTTTTTTCTGCGCTATCAGTTTTGTTTGTGAGCCGGATTG -GTTCATCCGGCACACAAACTTACAAACTTCCCGCCTGACGACCTTTGCCCGCAGACGTCAGCGTTCTCCCCGTTT -GTTTACCGTTGAGGCTTTCCAGACGCATCTGGAAGGGCGGGAATGGCATATCGATACCGTGGGCATGGAAGCCAG -CCAGAATCAGCTGGTGGATCTCATGGCGTAGCGGCATACGGTGACCCATCTCAGCGGCGTAAATACGCAGCTCGA -AAATCTGAATCCCCTGTTGCAGATCCACCAGGAAGACTTCCGGTGCCGGGTTGTCGATCACCAGCGAGCAGCGAC -GCGCTGCGGTGAGCAGGATTTCCGTCACTTCTTCGCTATTGGCATCGGCAGGGGCCGGTATCGTCAACACCACGC -GCGTGACCGAGTCAGAGAGCGACCAGTTGATAAACTGCTCGGTAATAAACGCCTTGTTCGGCACGATTATCTCTT -TACGGTCCCAGTCGCTGATGGTGGTGGCGCGGGTGTTAATTTTCGTCACGCTACCGGTGAGATCGCGAATTGTCA -CCGTATCGCCAATGCGAATCGGTTTTTCGAACAGGATAATCAGACCAGAGATAAAGTTGGCGAAAATTTCCTGCA -AACCAAAACCGAGACCAACACCGAGCGCGGCAACCAGCCACTGCAATTTCGACCACTCAATACCAATCATTGAGA -AGCCGACCAGCCCGCCAATCAGCATCAGCAGATATTTGGTGATGGTGGTGATGGCGTAACCCGTACCCGGCGTTA -AATCCAGGTGCTGCAAAATCGCCAGTTCCAGCAGCGCGGGCAAGTTGCGCACCAGCTGCGTGGTGATGATAAACA -CCAGAATGGCAATCAGCACCGCACCGAGGGTAATTGGCTCCAGACTTTCTACGCCCTGTACCGTGGAGGTGACAT -CCCACAGCGAAATATTTTCGAGGAAGCCGAAAGCGGAATGGATTTCTGACCACAGCACAATGACAGAAAGCAGGG -CGATCAACATCAAAATTGAGCGCACCAGCCGCAAGGATTGCGCACTGATGGCATCGAGATCGACTTCGCTTTCAT -CGACTTCAATTGCTCCTTCCGGGCTACTGTGATGATGCGCTTCCTCTTCGCCACGCGCACGTTGCGCTAACATCT -CTGCCCGGCGATGCTTCGCCCGATCAAACGCCAGCCTGCGGCGCTGGATCAGCATCCAGCGGCGGATAACGTGAT -AAACCACCAGTAGCAGGAACCAGATGGCAACCGAGGTTTCAAGCCTCGCTAACAGCGCCTGTGCCGTTGCCAGAT -AACCCACCGCCGACGCCAGAATGGCAACCAACGGCGCGCCAATCATCATGTTCCACAGCATATGGTTGGTAATGT -TGTCGCCGCTGCCCTCTTTGTTGAGATACAGCGGAATCCCGGCCTTTTTCAGGCTGAGGGTGACCACCGCCAGCG -CACCGCAAATGAGGATAAAGCAAAGCCGTCCCAGCGAACCGGAGAATTCACGGTCGTCGAGGTTATCGAACATCA -TCAGCGCCATAATCAGCGGCACAATAAGCCCGATGCTCATCAGGTAGTAGCGCATCCCACGGGAAACACGTTCGC -GCGGCCAGCCAAAATGAGCGATAAACAAGCCGTTCGGGCGGGCAAAGGTGGCGCAAATCATCACTACCCACAGCA -GCGGCACGGTGGCCGTTACACCATCGCCAATCGCGACCGCCAGCGGATAAGGCCACGCCTCGCGCAAGCCGTAAC -CCAGCGTCATCCACAGCACCGGTAACGGTGACGCGACGAGAATCGACCAGAAAAGAGTGCGCAACGTCAGCCAGA -AGTGATCCTGAGTCACTTTGCCAACTTTCGCCGCCGAACGTTCAAGAAAACGGGTGAAATAGCGGCGCGAGTAAA -TACTGCAACCGACCAGAATCAACGCGCCAAACAGCGGCAAAATTGTCTCTTTGCTGGTCAGCATCATCACACTGG -CTTTGCCCAACTGACTGAAGGTGTCCAGCGAAATGAGACGACGCAGATCCTGGGCGATTTCCAGCGGCCAGGCGA -TGGTCATCGGGCGCACGTCAGAGGTCCAGAACAGATAGCGGTGCGTTGCTTCGTTCACCTCTTTCAGCGCATCCT -CCAGTTGCCCGTTGGAGACTTTCAGCTTGGTCAGTTCCAATAGTAGCGTGTCGCCACCCTGCAACAATGAGTTCA -GCAACTCACGCTGAGTGCGCAGTTGTGCTTCCAGAATACGGTTTTGCTCGGCAGTCAGCGGCTGACCGTCGGCCT -GATGAATTTGCCGTAGCAGCGGCTGTTTATTAAGCAGATCCTCATAACGTAACCGTTGCACACGCAACTGCGCCA -TTTCGGTATCAAGCTGTTGTGGTTTCGGCATTTCCGGCAGCCGTGCCACCTGCGCCCGCAGCGCTTCGCCGAGCA -GATTGGACGATCCCAGCCATTGCGACTGTTCACGCAGCGTATTCAACGCCTGCCGGACCTGTAACGTCTGGCTGG -CAGCCTGACGCTGTTGCGAGGCAACGAGATCCATCCGCTGCGCCTGTTGATTCAAAGCCGCCGATAGTTCGCGGT -TAATTTTGAATTGCGCGACGATATCTTTCGGCAAATCGGCGCTGTTTTCTGCCAGCAATTCGGTACTTTCCAGCG -CCCGCTCCGCCTCAAGCTGACGTTGGCTGTTTAATTGATTACGCAAGGCCTGCAAATACGCATCCAGTTGCTGGC -TCTCTTTTTCCGCCAGCTCTGAGCGTAAGCGCGCTAATTCCTGGCGGTTATTGGCAGACAGCTGCGCCAGCTCCA -GTTCATCAACGAGCGCCTTAAGACGTGCAGAGTCAGACTGCAACGCGAAATTTTGTGCCTGATTGAGCGGAGTAT -TGCCGGTAAGCGTTCCCAGGCGGCGCTCGATCTCATTTAACTGACGGCGGGCGTCGGTTTGCTGTTGCGGCAGTT -GATTCAGCGAATCGGCAATCTCGCGGGCGCGCTCCTGCTCTTGCTGGGCCTGACGGCTTTTATCCAGCAACTGGC -TGCTGACCTGGAGAATTTCCTGATTCAGCGCGTCGGTAGACATTCCCGGCGACACGCTGCGCGGCTCGTCACGCA -TGTTGTTTAATTGTGCGCGCAGAGTAGCGGAGAGTTTCGGATAATTATCGATAACTTGCTGATATTGTTTGATGC -GCTCAAGGGAACCTTTTCGTTCCTCAAGCGCATTTAAGGCAGACTGGAGCGCCTCTACGACTTCCGGCTGTGCGG -GTTTCGCCGCTTTTGCCTGCTCCAGTTCCTGAGTGATTTGTTTGCTATCGGGGGCCGTCGCGGCGTACGCCCCCC -AACTGAGGCACCAGGCCATCAGAAAAGTGATAATCAGGCGCACGTCAGCGTTTCCTTTGATGGATTAGACCTGGT -CTTTTTTGTCGTCAACCAATGGGCTGGCGTCGTGTTCTGCTTCGATCTCTTCAGCAGGAAGCGGGGCAGGTTCAG -CGTCTGGCGTAACAAAGGTTTCGGTAGATACTGCCAGCGGCTGGCCAATTTTCGTGACAGACAGGCTTTCCAGTT -GCTCAACCAGATTCACTTTACCCGGTGCAAACAGGTTGATAACGGTGGAACCGAGTTTAAAGCGACCCATTTCCT -GGCCTTTCAGCAGTGCCACAGAACCGTCGTTTTCCCCGGCAGGCCAGGTCCAGCGCTTGATGATACCTTCGCGCG -GCGGCGTAATGGTGCCCGCCCAGACCGTCTCAATGCTGCCAACAATCGTCGCTCCGACCAGAATCTGCGCCATTG -GGCCAAATTCGGTATCGAAAAGGCAAATCACGCGTTCGTTACGGGCAAACAGATTCGGCACGTTCTGAGCCGTGA -GATGGTTAACGGAGAAGAGATCGCCCGGCACGTAGATCATCTCACGCAGAATACCGTTGCACGGCATGTGTACGC -GGTGGTAGTCACGCGGGGAGAGGTAAGTGGTCACAAACGTACCGTTGCGGAACAGGTCCGCCATCAGATAGTTGC -CTGCCAGCAGGGCTTCGAGGCTGTAGTTGTGGCCTTTGGCTTGCAGGATTTTATCTTCTTCGATTTTACCCAACT -GGCTGATAACGCCATCGGCAGGCATGACCAGTACATTCGGATCGGTATCGATTGGGCGTACTTCGTCACGCAGCG -GACGGACAAAGAATTCGTTAAAGGTGCGGTAGCTGGCGGTGTCCGGCTTTTGCGCCTCTTTCATGTCGACCTTGT -AGTATTTAACGAACAGATCGATAACCAGTTTTGTCAGCCATCCTGCCCGCTTGCTTGCGCCCCAACCCGCCAGGC -GAGTAAGCCATAGTTTCGGCAGAATGTACTGTAGCGAAAGTTTAAATGAATTTAACAAGGTAGCCTCCAGGCCAT -TGTTTTGTCGTTCCTGATCCGGCCTACATGCCGGATCCTGAAAAAAAGGGGACGATTCTAACGACGGTTAGCTTA -ATTGTCAGTCATCCGTATCAGAAAAGTTTTTACGCGTTTTTACCTGCGCCATGCTTTCCAGAATACGGTGATAGT -TTTCGAAACGGGTTTCCGCGATTTTCCCTTCCTCAACCGCTTCCCGGATAGCGCAGCCCGGATCGGTATCGTGTT -TGCAATCGCGATATTTACACAGACCTAAATAGTCATGGAATTCGACAAAGCCCTGAGTGATTTGTTCCGGCTCCA -GGTGCCAGAGGCCGAACTCACGCACTCCTGGGGAGTCAATCACATCACCGCCGTGCGGGAAGTGATACAGCCGAG -CGGCGGTCGTGGTGTGCTGACCGAGCCCCGAGTTGTCAGAGATATCGTTGGTCAGGATCTCTTTTTGCAGCCCCA -GCAACGCATTCAGCAGGCTGGATTTGCCGACGCCAGACTGCCCGGCAAAAATGCTGATGCGCCCGGTCAACGCCT -CTTCCAGCGGTTTTAGCCCATCCTGAGTATGGCTGGAAACCATCAATACGCGATAACCGATATTGCGGTAGATAT -CCATCTGCTCGTTGACGAACGCCATGCCTTCGTCGTCCAGCAGGTCTATCTTGTTGAGCACAATAATCGGCTCAA -TCTGCAAGGTTTCGCAGGCCACCAGGTAACGGTCGATAATATTGAGCGACAGCTCCGGCAAAATGGCGGAGACAA -TGACAATCTGGTCGATGTTGGCGGCAATAGGTTTTACGCCGTCGTAGAAATCCGGACGCGTCAACACCGAGGTAC -GCTCATGCACCGCTTCCACGATCCCTTTGACATTTACGCCTTCCGCCGCCGGTTTACCCGGACGCCAGACTACGC -GGTCGCCGGTTACCAGCGAACGGATGGTACGGCGAATATTGCAGCGGTGAACGTCGCCATCGGCGGATTCCACAT -CAGCGTGCATACCAAAGCGGCTGATGACGATACCTTCATCAGGCTCGCCAAACAGATTGTCGTCGTAGTCGGGCT -TCTCCTTAGACGTTTTAAGACGACGCTGGTGATTGGCGTTCACGCGGCGCTGCTGGCCTTTGGAGAGTTTATTTT -TACTCAATCGTACAGACTCCTGGTCGCCCCTGATGGGCAAAACATCTATGATACACGCAATTGTGGATCAATATA -GTCACTGTGAATGGGTGGAAAATAGCATGAGTGCCAATGAAAACAACCTGATTTGGATCGATCTTGAGATGACCG -GTCTGGATCCCGAGCGCGATCGCATTATTGAGATTGCCACGCTGGTGACCGATGCCAACCTGAATATTCTGGCAG -AAGGGCCGACCATTGCAGTACACCAGTCTGATGAACAGCTGGCGCTGATGGATGACTGGAACGTGCGCACCCATA -CCGCCAGCGGGCTGGTAGAGCGCGTGAAAGCGAGCACGATGGGCGATCGGGAAGCTGAACTGGCAACGCTCGAAT -TTTTAAAACAGTGGGTGCCTGCGGGAAAATCGCCGATTTGCGGTAACAGCATCGGTCAGGACCGTCGTTTCCTGT -TTAAATACATGCCGGAGCTGGAAGCCTACTTCCACTACCGTTATCTCGATGTCAGCACCCTGAAAGAGCTGGCGC -GCCGCTGGAAGCCGGAAATTCTGGATGGTTTTACCAAGCAGGGGACGCATCAGGCGATGGATGATATCCGTGAAT -CGGTGGCGGAGCTGGCTTACTACCGCGAGCATTTTATCAAGCTGTAAAATTTTTCCTGGTCACGTAAGCGCCGGA -ATCCACTTGCGGCGGCGTGATTTTGACGCTAAATTGAACGTCTTGCTGATAATTTCAGCACTTGAGATAAAAACG -CAAAAAAAACTTTTTTGGGGGGTTGCAGAGGGAAAGATTTCTCGTATAATGCGCCTCCCGTAACGACGCAGAAAT -GCGAAAATTACGAAAGCAAAATTAAGTAGTACGCGGGAATAGCTCAGTTGGTAGAGCACGACCTTGCCAAGGTCG -GGGTCGCGAGTTCGAGTCTCGTTTCCCGCTCCAAAATTTGAAAAGTGCTGCAAAGCACAGACCACCCAAGCGGGA -ATAGCTCAGTTGGTAGAGCACGACCTTGCCAAGGTCGGGGTCGCGAGTTCGAGTCTCGTTTCCCGCTCCAAAATT -TGAAAGTGCTGTAAGGCACAGACCACCCAAGCGGGAATAGCTCAGTTGGTAGAGCACGACCTTGCCAAGGTCGGG -GTCGCGAGTTCGAGTCTCGTTTCCCGCTCCAAATTCTTCTCTCAATAAAATATCCACAGCGACGCGATGCGTTAT -TGCTGGTTTTTGTTGTCTCTGACAAACTCTTGTAAACAGAGTTATCCACAGCCTCAGGCTGTAATCTTAATTTCA -AAGAAACTTCGCACGGTGAATAGTATTTTTTTAACCTATTGATAGATAAGTTAAAAATTAAGATTCCGTTTTGTC -GAGTCGATCACTTGACGATTTTATTCGTCTTGAATTGCAATGCGTTTTTATTTTTATTCACAAGCTGTGGATGAA -TCAGGCGTCACGCGGTAACCCTTTTTCAATCACCCGAACCAGACGCTGTTTTTTCGGCAATTGCACTTCGACTAT -GCACGCATTTCGTCTCTCTATTTGCTGCGCAATCGCCCACGCTATGTGCTCATCGAGAAGTGGGTGCTCACCTTT -ACGACTTTCCAGCGCTGTCAAAATCGTTTCATCCCAAGGGGCATTGCCTAATGCTACGGCGATATTACGCAGCCA -ACGCAGGTGACCAATACGACGAATCGCCGATCCTTCCGTGACTTTTAAAAACTTCTCTTCGCTCCAGGCGAATAA -CTCAATGAGTTCCGGTGCGTGTAGCGGCTTACGCGGGCTGAAATCCTCTTCTGTGGTGAGTTGTGAATAGCGATT -CCACGGGCAGATAAGCTGGCAGTCATCGCAACCGTAAATACGGTTTCCCATTAACGGTCGCAACTCTTCCGGGAT -CGCCCCTTCAAGTTCGATGGTGAGATAAGAGATACAGCGGCGAGCATCGACGGTATATGGCTCGACGATGGCACC -GGTCGGGCAAATCGTCATACAGGCCACGCATTTGCCGCATCCTTCCTCGACTGGTTGATCCACGGGCAGCGGAAT -ATCGACCAGCAATTCGCCTAAAAAGAAGAACGAACCGGCCTCGCGATTGAGGATAAGTGAGTGCTTACCTGTCCA -GCCGAGCCCAGCTTTTTCAGCTAACGGGCGCTCGAGAATAGGCGCAGAATCGACAAACGGTCTAAAATTCAGCGA -AACACAATGTTGCTGAATCATCTCGCCCAGCTTTTTGAGTCGGTTGCGCAGAAGTTTGTGATAGTCACGGCCCAG -CGCATAACGGCTAACATAGCCGAGTTTGGGGTTTTTCAGCGTGCTGGCAAATGCGGCGTTAGCAGGAAGGTAATT -CATCCGCACGCTGATCACGCGCAGCGTACCGGGCAATAACTCATGAGGGCGAGCGCGCAGCATACCGTGACGTGC -CATCCAGTCCATTTCGCCGTGGTATTGTTTGTCCAGCCATGCTTGCAGTTTGGGCTCGGACTCGCTGAGATCGGT -ATCGGTAATACCTACCTGCTGAAAGCCCAGTTCCAGCCCCCACTGTTTAATTTTTTGCGCTAACTGATTGAGATC -GAGGGGCTCTGACATGACGGACCATACAATGAAGAAAAACCCCGTAAGTATACCACACACCGTCTGGTACGCCGA -CGATATCCGCCGCGGAGAACGCGAGGCGGCAGATGTGCTGGGGCTCACACTCTATGAGCTGATGCTTCGCGCTGG -CGAGGCCGCATTCCAGGTGTGTCGTTCGGCGTATCCTGACGCCCGCCACTGGCTGGTGCTGTGCGGTCATGGTAA -TAACGGCGGCGATGGCTACGTGGTCGCGCGACTGGCCAAAGCGGTCGGCATTGAGGTCACGTTGTTGGCCCAGGA -GAGCGACAAACCGTTGCCGGAAGAGGCCGCGCTGGCACGCGAAGCATGGTTAAACGCGGGTGGCGAGATCCATGC -TTCGAATATTGTCTGGCCCGAATCGGTAGATCTGATTGTTGATGCGCTGCTCGGTACCGGTTTGCGGCAAGCGCC -CCGCGAATCCATTAGCCAGTTAATCGACCACGCTAATTCCCATCCTGCGCCGATTGTGGCGGTTGATATCCCTTC -CGGCCTGCTGGCTGAAACTGGCGCTACGCCAGGCGCGGTGATCAACGCCGATCACACCATCACTTTTATTGCGCT -GAAACCAGGCTTGCTCACTGGAAAAGCGCGGGATGTTACCGGACAACTGCATTTTGACTCACTGGGGCTGGATAG -TTGGCTGGCAGGTCAGGAGACGAAAATTCAGCGGTTTTCAGCAGAACAACTTTCTCACTGGCTAAAACCGCGTCG -CCCGACTTCGCATAAAGGCGATCACGGGCGGCTGGTAATTATCGGTGGCGATCACGGCACGGCGGGGGCTATTCG -TATGACGGGGGAAGCGGCGCTGCGTGCTGGTGCTGGTTTAGTCCGAGTACTGACCCGCAGTGAAAACATTGCGCC -GCTGCTGACTGCACGACCGGAATTGATGGTGCATGAACTGACGATGGACTCTCTTACCGAAAGCCTGGAATGGGC -CGATGTGGTGGTGATTGGTCCCGGTCTGGGCCAGCAAGAGTGGGGGAAAAAAGCACTGCAAAAAGTTGAGAATTT -TCGCAAACCGATGTTGTGGGATGCCGATGCATTGAACCTGCTGGCAATCAATCCCGATAAGCGTCACAATCGCGT -GATCACGCCGCATCCTGGCGAGGCCGCACGGTTGTTAGGCTGTTCCGTCGCTGAAATTGAAAGTGACCGCTTACA -TTGCGCCAAACGTCTGGTACAACGTTATGGCGGCGTAGCGGTGCTGAAAGGTGCCGGAACCGTGGTCGCCGCCCA -TCCTGACGCTTTAGGCATTATTGATGCCGGAAATGCAGGCATGGCGAGCGGCGGCATGGGCGATGTGCTCTCTGG -TATTATTGGCGCATTGCTTGGGCAAAAACTGTCGCCGTATGATGCAGCCTGTGCAGGCTGTGTCGCGCACGGTGC -GGCAGCTGACGTACTGGCGGCGCGTTTTGGAACGCGCGGGATGCTGGCAACCGATCTCTTTTCCACGCTACAGCG -TATTGTTAACCCGGAAGTGACTGATAAAAACCATGATGAATCGAGTAATTCCGCTCCCTGATGAGCAGGCAACAT -TAGACCTGGGCGAGCGGGTAGCGAAAGCCTGCGATGGCGCAACCGTAATCTATCTGTATGGCGATTTAGGCGCAG -GTAAAACCACCTTTAGCCGGGGCTTTTTACAGGCTCTGGGTCATCAGGGTAATGTCAAAAGCCCCACTTATACGC -TGGTCGAACCCTATACGCTCGACAACTTAATGGTCTATCACTTTGATTTGTACCGCCTTGCCGATCCCGAGGAGC -TGGAGTTTATGGGGATCCGCGATTATTTTGCCAACGATGCCATCTGCCTGGTGGAGTGGCCACAACAAGGTACAG -GTGTTCTTCCTGACCCGGATGTCGAAATACACATTGATTATCAGGCACAAGGCCGTGAGGCGCGCGTGAGTGCGG -TTTCCTCTGCGGGTGAATTGTTGCTGGCGCGTTTAGCCGGTTAACCTTTGAAAGGTGGCGGGATGATGTATCGCA -TCAGAAATTGGTTGGTAGCGACGCTGCTGCTGCTGTGCACGCCGGTGGGTGCCGCGACGCTCTCTGATATTCAGG -TTTCTAACGGTAATCAACAGGCGCGGATAACGTTGAGTTTTATTGGCGATCCTGATTATGCGTTTAGCCATCAAA -GCAAACGCACCGTGGCGCTCGATATCAAACAAACGGGCGTGATTCAGGGACTGCCGTTGTTGTTCAGCGGCAATA -ATCTGGTGAAGGCGATTCGCTCTGGAACGCCTAAAGATGCACAAACGCTACGGCTGGTGGTCGATCTTACCGAAA -ACGGTAAAACCGAAGCGGTGAAGCGGCAGAATGGCAGCAATTACACTGTCGTCTTTACGATTAACGCCGATGTGC -CGCCACCGCCTCCTCCGCCGCCCGTGGTTGCGAAACGCGTTGAAACGCCTGCGGTTGTCGCACCGCGCGTCAGCG -AACCGGCGCGCAATCCGTTTAAAACGGAAAGTAACCGCACTACGGGTGTTATCAGCAGTAATACGGTAACGCGTC -CGGCAGCGCGCGCGACGGCTAACACTGGCGATAAAATTATCATCGCTATTGATGCCGGACACGGCGGTCAGGACC -CTGGCGCTATCGGCCCCGGTGGTACGCGGGAGAAAAATGTCACCATCGCCATCGCGCGTAAATTGCGTACTTTGC -TCAATGACGATCCGATGTTTAAAGGCGTTTTAACCCGTGACGGGGATTACTTTATCTCGGTGATGGGGCGCAGTG -ATGTGGCACGTAAGCAAAACGCCAATTTCCTCGTGTCGATTCACGCTGATGCCGCACCGAACCGCAGTGCGACTG -GCGCTTCCGTATGGGTGCTCTCTAACCGTCGCGCCAACAGTGAAATGGCCAGCTGGCTGGAGCAGCACGAGAAAC -AGTCGGAGCTGCTGGGTGGGGCGGGTGATGTGCTGGCGAACAGTCAGTCTGACCCCTATTTAAGCCAGGCGGTGC -TGGATTTACAGTTCGGTCATTCCCAGCGGGTAGGGTATGATGTAGCGACCAGTATGATCAGTCAGTTGCAACGCA -TTGGCGAAATACATAAACGTCGACCAGAACACGCCAGCCTTGGCGTTCTGCGCTCGCCGGATATCCCATCAGTAC -TGGTCGAAACCGGTTTTATCAGCAACAACAGCGAAGAACGTTTGCTGGCGAGCGACGATTACCAACAACAGCTGG -CAGAAGCCATTTACAAAGGCCTGCGCAATTACTTCCTTGCGCATCCGATGCAATCTGCGCCGCAGGGTGCAACGG -CACAAACTGCCAGTACGGTGACGACGCCAGATCGCACGCTGCCAAACTAAGGACGATTGATGCCAATTCAGGTCT -TACCGCCACAACTGGCGAACCAGATTGCCGCAGGTGAGGTGGTCGAGCGACCTGCGTCGGTAGTCAAAGAACTAG -TGGAAAACAGCCTCGATGCAGGTGCGACGCGTATCGATATTGATATCGAACGCGGTGGGGCGAAACTTATCCGCA -TTCGTGATAACGGCTGCGGTATCAAAAAAGATGAGCTGGCGCTGGCGCTGGCTCGTCATGCCACCAGTAAAATCG -CCTCTCTGGACGATCTCGAAGCCATTATCAGCCTGGGCTTTCGCGGTGAGGCGCTGGCGAGTATCAGTTCGGTTT -CCCGCCTGACGCTCACTTCACGCACCGCAGAACAGCAGGAAGCCTGGCAGGCCTATGCCGAAGGGCGCGATATGA -ACGTGACGGTAAAACCGGCGGCGCATCCTGTGGGGACGACGCTGGAGGTGCTGGATCTGTTCTACAACACCCCGG -CGCGGCGCAAATTCCTGCGCACCGAGAAAACCGAATTTAACCACATTGATGAGATCATCCGCCGCATTGCGCTGG -CGCGTTTCGACGTCACGATCAACCTGTCGCATAACGGTAAAATTGTGCGTCAGTACCGCGCAGTGCCGGAAGGCG -GGCAAAAAGAACGGCGCTTAGGCGCGATTTGCGGCACCGCTTTTCTTGAACAAGCGCTGGCGATTGAATGGCAAC -ACGGCGATCTCACGCTACGCGGCTGGGTGGCCGATCCAAATCACACCACGCCCGCACTGGCAGAAATTCAGTATT -GCTACGTGAACGGTCGCATGATGCGCGATCGCCTGATCAATCACGCGATCCGCCAGGCCTGCGAAGACAAACTGG -GGGCCGATCAGCAACCGGCATTTGTGTTGTATCTGGAGATCGACCCACATCAGGTGGACGTCAACGTGCACCCCG -CCAAACACGAAGTGCGTTTCCATCAGTCGCGTCTGGTGCATGATTTTATCTATCAGGGCGTGCTGAGCGTGCTAC -AACAGCAACTGGAAACGCCGCTACCGCTGGACGATGAACCCCAACCTGCACCGCGTTCCATTCCGGAAAACCGCG -TGGCGGCGGGGCGCAATCACTTTGCAGAACCGGCAGCTCGTGAGCCGGTAGCTCCGCGCTACACTCCTGCGCCAG -CATCAGGCAGTCGTCCGGCTGCCCCCTGGCCGAATGCGCAGCCAGGCTACCAGAAACAGCAAGGTGAAGTGTATC -GCCAGCTTTTGCAAACGCCCGCGCCGATGCAAAAATTAAAAGCGCCGGAACCGCAGGAACCTGCACTTGCGGCGA -ACAGTCAGAGTTTTGGTCGGGTACTGACTATCGTCCATTCCGACTGTGCGTTGCTGGAGCGCGACGGCAACATTT -CACTTTTATCCTTGCCAGTGGCAGAACGTTGGCTGCGTCAGGCACAATTGACGCCGGGTGAAGCGCCCGTTTGCG -CCCAGCCGCTGCTGATTCCGTTGCGGCTAAAAGTTTCTGCCGAAGAAAAATCGGCATTAGAAAAAGCGCAGTCTG -CCCTGGCGGAATTGGGTATTGATTTCCAGTCAGATGCACAGCATGTGACCATCAGGGCAGTGCCTTTACCCTTAC -GCCAACAAAATTTACAAATCTTGATTCCTGAACTGATAGGCTACCTGGCGAAGCAGTCCGTATTCGAACCTGGCA -ATATTGCGCAGTGGATTGCACGAAATCTGATGAGCGAACATGCGCAGTGGTCAATGGCACAGGCCATAACCCTGC -TGGCGGACGTGGAACGGTTATGTCCGCAACTTGTGAAAACGCCGCCGGGTGGTCTGTTACAATCTGTTGATTTAC -ATCCGGCGATAAAAGCCCTGAAAGATGAGTGATATCAGTAAGGCGAGCCTGCCTAAGGCGATTTTTTTGATGGGG -CCGACGGCCTCCGGTAAAACGGCGTTAGCCATTGAGCTGCGTAAAATTTTACCAGTAGAGTTGATAAGCGTTGAT -TCTGCCCTTATTTACAAAGGGATGGATATCGGGACGGCGAAGCCGAACGCTGAAGAGTTACTCGCCGCGCCGCAC -CGATTGCTGGATATTCGCGATCCGTCGCAGGCTTACTCGGCTGCTGATTTTCGCCGCGATGCGCTGGCGGAAATG -GCCGATATCACCGCGGCGGGGCGGATCCCACTGTTAGTGGGCGGTACGATGTTGTATTTCAAGGCATTGCTGGAA -GGGTTGTCGCCGCTACCGTCGGCAGACCCGGAAGTACGGGCCAGAATTGAGCAACAGGCGGCAGAGCAAGGTTGG -GAGTCATTGCATCGTCAACTTCAGGAGGTAGATCCGGTTGCGGCAGCAAGGATTCATCCAAATGATCCACAAAGG -CTTTCCCGGGCACTGGAAGTTTTTTTCATTTCGGGTAAAACTTTAACGGAACTGACGCAAACGTCAGGAGACGCT -CTACCGTATCAGGTGCATCAGTTCGCCATCGCCCCGGCGAGCCGTGAACTGCTCCATCAACGCATTGAGCAGCGT -TTTCATCAGATGTTGGCTTCAGGTTTTGAAGCAGAAGTCCGGGCGCTTTTTGCCCGAGGAGATTTGCATACGGAC -TTGCCTTCCATTCGTTGCGTGGGTTATCGCCAGATGTGGTCTTACCTTGAAGGCGAAATCTCATACGATGAAATG -GTTTATCGAGGTGTTTGCGCCACGAGACAGTTGGCGAAGCGGCAGATAACCTGGCTGCGTGGTTGGGAAGGGGTT -CACTGGCTTGACAGTGAAAAACCAGAACAGGCGCGTGACGAAGTATTACAGGTTGTTGGTGCTATCGCAGGCTGA -ATGTGTACAATTGAGACGTATCGTGCGCAATTTTTTCAGAATCGAAAGGTTCAAAGTACAAATAAGCATATAAGG -AAAAGAGAGAATGGCTAAGGGGCAATCTTTACAAGATCCGTTCCTGAACGCACTGCGTCGGGAACGTGTTCCAGT -TTCTATTTATTTGGTGAATGGTATTAAGCTGCAAGGGCAAATCGAGTCTTTTGATCAGTTCGTGATCCTGTTGAA -AAACACGGTCAGCCAGATGGTTTACAAGCACGCGATTTCTACTGTTGTCCCGTCTCGCCCGGTTTCTCATCACAG -TAACAACGCCGGTGGCGGTACCAGCAGTAACTACCATCATGGTAGCAGCGCGCAGAATACTTCCGCGCAACAGGA -CAGCGAAGAAACCGAATAAGGTTTCGGGCTGTTTTTTTACACGGGGAGCCAGCGATCCTGCGTTCCCCGCTGATC -TATTTAGAGGGTTATACGCTTGTTTGACCGTTATGATGCTGGTGAGCAGGCGGTACTGGTACACATCTATTTTAC -GCAAGACAAAGATATGGAAGACCTCCAGGAGTTTGAATCTCTGGTCTCTTCCGCCGGTGTCGAAGCATTGCAGGT -GATTACCGGTAGCCGTAAAGCGCCGCACCCAAAGTATTTTGTAGGTGAAGGTAAAGCAGTTGAAATTGCGGAAGC -TGTCAAAGCGACGGGTGCTTCGGTCGTTCTTTTTGACCATGCCCTGAGCCCGGCGCAAGAGCGTAACCTGGAGCG -TTTGTGCGAGTGTCGTGTTATCGACCGCACCGGCCTTATTTTAGATATTTTCGCCCAACGTGCGCGTACCCATGA -GGGTAAGTTGCAGGTTGAGCTGGCGCAGCTGCGCCATCTGGCTACGCGCCTGGTGCGTGGCTGGACCCACCTTGA -AAGACAGAAAGGCGGGATAGGTTTGCGTGGTCCGGGTGAAACCCAGCTCGAAACCGACCGTCGTTTGTTGCGTAA -TCGCATCGTGCAGATACAGTCGCGCCTGGAAAGAGTTGAAAAGCAGCGTGAGCAGGGGCGGCAATCGCGTATCAA -AGCCGACGTTCCTACTGTTTCGCTGGTGGGATATACCAACGCCGGTAAATCTACCCTTTTCAATCGCATCACCGA -AGCGCGGGTCTACGCGGCAGACCAGTTGTTTGCCACCCTCGACCCGACGTTGCGGCGTATTGACGTTGCAGATGT -CGGTGAAACCGTACTTGCAGATACCGTAGGGTTTATTCGCCACCTGCCGCACGATCTGGTGGCGGCATTTAAAGC -CACGTTACAAGAGACGCGGCAAGCCACATTACTGCTGCACGTCATTGATGCGGCGGATGTGCGTGTACAAGAAAA -CATCGAAGCGGTGAATACGGTTCTTGAAGAGATCGACGCTCACGAGATCCCAACCCTGCTGGTGATGAACAAGAT -CGATATGCTGGAAGATTTCGAACCGCGTATTGATCGGGACGAAGAGAACAAACCGAACCGTGTCTGGCTTTCCGC -ACAGACCGGAGCGGGGATACCACAGCTTTTTCAGGCTTTGACGGAGCGGCTTTCCGGCGAGGTGGCGCAGCATAC -ATTGCGTCTGCCACCGCAGGAAGGGCGTCTGAGAAGTCGTTTTTATCAGCTTCAGGCAATAGAAAAAGAGTGGAT -GGAGGAGGACGGCAGCGTAAGTCTGCAAGTTCGTATGCCGATCGTTGACTGGCGTCGCCTCTGTAAACAAGAACC -GGCGTTGATCGATTACCTGATCTAACGGCGTAGCGTCTGAAGCGTGGAGTCATATCCTCTGGCGTCGAAAGACAA -CAGGGATCACCGCATAACAAATATGGAGCACAAACATGGCGTGGAATCAGCCCGGTAATAACGGACAAGACCGCG -ACCCGTGGGGAAGCAGCAAACCTGGCGGCAACTCTGAGGGAAATGGAAACAAAGGCGGTCGCGATCAAGGGCCAC -CTGATTTAGATGATATCTTCCGCAAACTGAGCAAAAAGCTCGGTGGTCTGGGCGGCGGTAAAGGCACCGGATCTG -GCGGTGGCAGTTCATCGCAAGGCCCGCGCCCGCAGCTTGGCGGTCGTGTCGTTACCATCGCAGCGGCAGCGATTG -TCATTATCTGGGCGGCCAGTGGTTTCTATACCATTAAAGAAGCCGAACGCGGCGTGGTAACACGCTTTGGTAAAT -TCAGCCATCTGGTTGAGCCGGGTCTGAACTGGAAACCGACGTTTATCGACGAAGTCAAACCGGTGAACGTGGAAG -CCGTGCGTGAACTGGCCGCTTCTGGTGTGATGCTGACGTCGGACGAGAACGTAGTGCGCGTTGAGATGAACGTGC -AGTACCGCGTCACCAATCCGGAAAAATATCTGTATAGCGTGACCAGCCCGGATGACAGCCTGCGTCAGGCTACCG -ACAGCGCCCTGCGTGGAGTTATCGGTAAATACACCATGGACCGCATTCTGACGGAAGGTCGTACCGTGATTCGTA -GCGATACTCAGCGCGAACTGGAAGAGACGATTCGTCCGTATGACATGGGTATCACGCTGCTGGACGTCAACTTCC -AGGCTGCTCGTCCGCCGGAAGAAGTAAAAGCGGCGTTTGACGATGCGATTGCCGCGCGTGAAAACGAACAGCAAT -ACATTCGTGAAGCAGAAGCGTATACCAACGAAGTTCAGCCGCGTGCGAACGGTCAGGCGCAACGTATCCTCGAAG -AGGCGCGTGCGTACAAGGCCCAGACCATCCTGGAAGCTCAGGGTGAAGTGGCGCGCTTTGCTAAACTTCTGCCGG -AATATAAAGCCGCGCCGGAAATTACTCGCGAGCGTCTGTATATCGAGACGATGGAAAAAGTGTTGGGTAACACCC -GCAAAGTGCTGGTTAACGATAAAGGTGGCAACCTGATGGTTCTGCCGTTAGACCAGATGCTGAAAGGTGGTAACG -CCCCTGCGGCGAAGAGCGATAACGGTGCCAGCAATCTGCTGCGTCTGCCGCCAGCCTCTTCCTCCACAACCAGTG -GAGCAAGCAACACGTCGTCCACCAGTCAGGGCGATATTATGGACCAACGCCGCGCCAACGCGCAGCGTAACGACT -ACCAGCGTCAGGGGGAATAACGATGCGTAAGTCAGTTATCGCGATTATCATCATCGTGCTGGTAGTGCTTTACAT -GTCTGTCTTTGTCGTCAAAGAAGGTGAGCGCGGTATTACGCTGCGTTTTGGTAAGGTACTGCGTGACGATGACAA -CAAACCTCTGGTTTATGAGCCGGGTCTGCATTTCAAGATACCGTTCATTGAAACGGTGAAAATGCTCGACGCACG -TATTCAGACCATGGACAACCAGGCCGACCGCTTTGTGACCAAAGAGAAGAAAGACCTGATCGTCGACTCTTACAT -CAAATGGCGCATCAGCGATTTCAGCCGTTACTACCTGGCAACGGGTGGTGGCGACATTTCGCAAGCGGAAGTGCT -GTTGAAACGTAAGTTCTCTGACCGTCTGCGTTCTGAAATTGGTCGCCTGGACGTGAAAGATATCGTCACCGATTC -CCGTGGTCGTCTGACCCTCGAAGTACGTGACGCGCTGAACTCCGGTTCTGCGGGTACAGAAGATGAAGTTACTAC -CCCGGCGGCAGATAACGCCATTGCCGAAGCGGCAGAGCGCGTAACGGCTGAGACGAAGGGCAAAGTTCCGGTCAT -CAACCCGAACAGTATGGCGGCGCTGGGTATTGAAGTTGTCGATGTGCGTATCAAGCAGATCAACCTGCCGACCGA -AGTGTCTGAAGCGATCTACAACCGTATGCGCGCCGAGCGTGAAGCGGTAGCGCGTCGTCACCGTTCACAAGGTCA -GGAAGAAGCGGAAAAACTGCGCGCGACTGCCGACTATGAAGTGACCAGAACGCTGGCAGAAGCTGAGCGTCAGGG -CCGCATCATGCGTGGTGAAGGCGATGCCGAAGCAGCCAAACTGTTTGCTGATGCATTCAGTAAAGATCCGGACTT -CTACGCATTCATCCGTAGCCTGCGTGCTTATGAGAACAGCTTCTCTGGCAATCAGGACGTGATGGTCATGAGCCC -GGATAGCGATTTCTTCCGCTACATGAAGACGCCGACTTCCGCAACGCGTTAATATAACGACTGCGGTACAGGTCA -ATAAAGCCACCGCATCCTCAGGGATGTCGGTGGTTTTCTTTTTCTATAAGGATAATGAATGAATTCGACAATCTG -GCTGGCGCTTGCCCTGGTTTTGGTACTGGAAGGTTTAGGGCCGATGCTTTACCCGAAGGCATGGAAGAAGATGAT -CTCTGCGATGACCAATTTGCCCGATAATATTTTACGTCGTTTTGGCGGTGGACTTGTGGTTGCGGGCGTTGTGGT -CTACTACATGTTGAGGAAAACGATTGGCTGAACAAAAAACAGACTGATCGAGGTCATTTTTGAGTGCAAAAAGTG -CTGTAACTCTGAAAAAGCGATGGTAGAATCCATTTTTAAGCAAACGGTGATTTTGAAAAATGGGTAACAACGTCG -TCGTACTGGGCACCCAATGGGGTGACGAAGGTAAAGGTAAGATCGTCGATCTTCTGACTGAACGGGCTAAATATG -TTGTACGCTACCAGGGCGGTCACAACGCAGGCCATACTCTCGTAATCAACGGTGAAAAAACCGTTCTCCATCTTA -TTCCATCAGGTATTCTCCGCGAGAATGTAACCAGCATCATCGGTAACGGTGTTGTGCTGTCTCCGGCCGCGCTGA -TGAAAGAGATGAAAGAACTGGAAGACCGTGGCATCCCCGTTCGTGAGCGTCTGCTGCTGTCTGAAGCATGTCCGC -TGATCCTTGATTATCACGTTGCGCTGGATAACGCGCGTGAGAAAGCGCGTGGCGCGAAAGCGATCGGCACCACCG -GTCGTGGTATCGGGCCTGCTTATGAAGATAAAGTAGCACGTCGCGGTCTGCGTGTTGGCGACCTTTTCGACAAAG -AAACCTTCGCTGAAAAACTGAAAGAAGTGATGGAATATCACAACTTCCAGTTGGTTAACTACTACAAAGCTGAAG -CGGTTGATTACCAGAAAGTTCTGGATGATACGATGGCTGTTGCCGACATCCTGACTTCTATGGTGGTTGACGTTT -CTGACCTGCTCGACCAGGCGCGTCAGCGTGGCGATTTCGTCATGTTTGAAGGTGCGCAGGGTACGCTGCTGGATA -TCGACCACGGTACTTATCCGTACGTAACTTCTTCCAACACCACTGCTGGTGGCGTGGCGACCGGTTCCGGCCTGG -GCCCGCGTTATGTTGATTACGTTCTGGGTATCCTCAAAGCTTACTCCACTCGTGTAGGTGCAGGTCCGTTCCCGA -CCGAACTGTTTGATGAAACTGGCGAGTTCCTCTGCAAGCAGGGTAACGAATTCGGCGCAACTACGGGGCGTCGTC -GTCGTACCGGCTGGCTGGACACCGTTGCCGTTCGTCGTGCGGTACAGCTGAACTCCCTGTCTGGCTTCTGCCTGA -CTAAACTGGACGTTCTGGATGGCCTGAAAGAGGTTAAACTCTGCGTGGCTTACCGTATGCCGGATGGTCGCGAAG -TGACTACCACTCCGCTGGCAGCTGACGACTGGAAAGGTGTAGAGCCGATTTACGAAACCATGCCGGGCTGGTCTG -AATCCACCTTCGGCGTGAAAGATCGTAGCGGCCTGCCGCAGGCGGCGCTGAACTATATCAAGCGTATTGAAGAGC -TGACTGGTGTGCCGATCGATATCATCTCTACCGGTCCGGATCGTACTGAAACCATGATTCTGCGCGACCCGTTCG -ACGCGTAATTCTGGTACGCCTGGCAGATATTTTGCCTGCCGGGCGAACAGTGTGATACATTGCTGTGTCGGGTAA -GCCATTACGCTATCCGACACAGTGTTAAATCCTCGCTTTTTTCCTTCCCCGAACTGAAATAAATTAGCGACACAG -CTTGTGGCTGGTTTATCATCAATATAAATGTATTTTTTCCCGATTTCCCTTTTGAGGTTGATGTGCAGTTAACGA -GTTTCACTGATTACGGATTACGTGCGCTGATCTACATGGCGTCATTGCCAGAAGGGCGGATGACCAGTATTTCTG -AAGTGACTGACGTCTACGGCGTCTCCCGTAATCATATGGTCAAAATAATCAATCAACTTAGTCGTGCCGGCTACG -TGACTGCTGTTCGTGGAAAAAATGGCGGCATTCGCCTGGGTAAACCGGCGAGTGCGATACGTATTGGTGATGTGG -TGCGCGAGCTGGAGCCCTTATCGCTGGTGAATTGCAGCAGTGAGTTTTGCCACATTACACCTGCCTGTAGGTTGA -AACAGGCACTTTCTAAGGCCGTGCAAAGTTTTCTTACGGAACTGGATAACTACACGCTTGCCGATTTGGTTGAAG -AGAATCAACCGCTTTATAAATTATTGCTGGTGGAGTGACGAAAATCTTCATCAGAGATGACAACGGAGGAACCGA -GATGTCACAAGATCCTTTCCAGGAACGCGAAGCTGAAAAATACGCGAATCCCATCCCTAGTCGGGAATTTATCCT -CGAACATTTAACCAAACGTGAAAAACCGGCCAGCCGTGATGAGCTGGCGGTAGAACTGCACATTGAAGGCGAAGA -GCAGCTTGAAGGCCTGCGTCGCCGCCTGCGCGCGATGGAGCGCGATGGTCAACTGGTCTTCACTCGTCGTCAGTG -CTATGCGCTGCCGGAACGCCTCGACCTGGTGAAAGGTACCGTTATTGGCCACCGTGATGGCTACGGCTTTCTGCG -GGTTGAAGGGCGTAAAGATGATTTGTATCTCTCCAGCGAGCAGATGAAAACCTGCATTCATGGCGATCAGGTGCT -GGCTCAGCCGCTGGGTGCTGACCGTAAAGGTCGTCGTGAAGCGCGTATTGTCCGCGTACTGGTGCCAAAAACCAG -CCAGATTGTTGGTCGCTACTTTACCGAAGCGGGCGTCGGCTTTGTGGTTCCTGACGACAGCCGTCTGAGCTTCGA -TATCTTAATCCCGCCCGATCAGATCATGGGCGCGCGGATGGGCTTTGTGGTCGTAGTCGAACTGACTCAGCGTCC -GACTCGCCGCACCAAAGCGGTGGGTAAAATCGTCGAAGTGCTGGGCGACAATATGGGCACCGGCATGGCGGTTGA -TATCGCTCTGCGTACCCATGAAATTCCGTACATCTGGCCGCAGGCTGTTGAGCAACAGGTTGCCGGGCTGAAAGA -AGAAGTGCCGGAAGAAGCAAAAGCGGGCCGTGTTGATCTGCGCGATTTACCGCTGGTCACCATTGATGGCGAAGA -CGCCCGTGACTTTGACGATGCAGTTTACTGCGAGAAAAAACGCGGCGGCGGCTGGCGTTTATGGGTCGCGATTGC -CGACGTCAGCTACTATGTGCGTCCGTCAACGCCGCTGGACAGAGAAGCGCGTAACCGTGGCACGTCGGTGTACTT -CCCTTCGCAGGTTATCCCGATGCTGCCGGAAGTGCTCTCTAACGGCCTGTGTTCGCTCAACCCGCAGGTAGACCG -CCTGTGTATGGTGTGCGAGATGACGGTTTCGTCGAAAGGCCGCCTGACGGGCTACAAATTCTACGAAGCGGTGAT -GAGCTCTCACGCGCGTCTGACCTACACCAAAGTCTGGCATATTCTGCAGGGCGATCAGGATCTGCGCGAGCAGTA -CGCCCCGCTGGTTAAGCATCTCGAAGAGTTGCATAACCTCTATAAAGTGCTGGATAAAGCCCGTGAAGAACGCGG -TGGGATCTCATTTGAGAGCGAAGAAGCGAAGTTCATTTTCAACGCTGAACGCCGTATTGAACGTATCGAACAGAC -CCAGCGTAACGACGCGCACAAATTAATTGAAGAGTGCATGATTCTGGCGAATATCTCGGCGGCGCGTTTCGTTGA -GAAAGCGAAAGAACCGGCACTGTTCCGTATTCACGACAAGCCGAGCACCGAAGCGATTACCTCTTTCCGTTCAGT -GCTGGCGGAGCTGGGGCTGGAACTGCCGGGCGGTAACAAGCCGGAACCGCGTGACTACGCGGAGCTGCTGGAGTC -GGTTGCCGATCGTCCTGATGCAGAAATGCTGCAAACCATGCTGCTGCGCTCGATGAAACAGGCGATTTACGATCC -AGAAAACCGTGGTCACTTTGGCCTGGCATTGCAGTCCTATGCGCACTTTACTTCGCCGATTCGTCGTTATCCAGA -CCTGACGCTGCACCGCGCCATTAAATATCTGCTGGCGAAAGAGCAGGGGCATCAGGGCAACACCACTGAAACCGG -CGGCTACCATTATTCGATGGAAGAGATGCTGCAACTGGGTCAGCACTGTTCGATGGCGGAACGTCGTGCCGACGA -AGCAACGCGCGATGTGGCTGACTGGCTGAAGTGTGACTTCATGCTCGACCAGGTAGGTAACGTCTTTAAAGGCGT -AATTTCCAGCGTCACTGGCTTTGGCTTCTTCGTCCGTCTGGACGACTTGTTCATTGATGGTCTGGTCCATGTCTC -TTCGCTGGACAATGACTACTATCGCTTTGACCAGGTAGGGCAACGCCTGATGGGGGAATCCAGCGGCCAGACTTA -TCGCCTGGGCGATCGCGTGGAAGTTCGCGTCGAAGCGGTTAATATGGACGAGCGCAAAATCGACTTTAGCCTGAT -CTCCAGCGAACGCGCACCGCGCAACGTCGGTAAAACGGCGCGCGAGAAAGCGAAAAAAGGCGATGCAGGTAAAAA -AGGCGGCAAGCGTCGTCAGGTCGGTAAAAAGGTAAACTTTGAGCCAGACAGCGCCTTCCGCGGTGAGAAAAAAAC -GAAGCCGAAAGCGGCGAAGAAAGACGCGAGAAAAGCGAAAAAGCCATCGGCGAAAACGCAGAAAATAGCTGCAGC -GACCAAAGCGAAGCGTGCGGCGAAGAAAAAAGTGGCAGAGTGATCAATACCCTCTTTAAAAGAAGAGGGTTAGAT -TGCTGACAAAATGCGCTTTGTTCATGCCGGATGCGGCGTGAACGCCTTATCCGGCCTACATAATCACGCAAATTC -AATATATTGCAGAGATCATGTAGGCCGGATAAACGTAGTGCATCAGGCAAAACGTAAACAACGAGTACATTAATG -AGCGAAATGATTTACGGCATCCACGCAGTGCAGGCCCTGCTGGAGCGCGCCCCTGAACGTTTTCAGGAAGTCTTT -ATTTTAAAAGGCCGTGAAGATAAACGTCTGTTACCGCTGATTCACGCCCTTGAGTCTCAGGGCGTGGTTATCCAG -TTGGCAAACCGCCAATATCTCGACGAGAAAAGCGACGGTGCCGTGCATCAGGGCATTATCGCCCGCGTGAAGCCA -GGACGTCAGTATCAGGAAAACGATCTGCCGGATCTGATCGCTTCGCTCGATCAACCGTTCCTGCTGATCCTCGAC -GGCGTAACCGATCCGCACAACCTCGGCGCGTGCCTGCGTAGTGCGGACGCCGCAGGCGTTCATGCGGTGATTGTG -CCGAAAGATCGCTCCGCACAGCTCAACGCTACGGCGAAAAAAGTAGCCTGCGGCGCGGCAGAAAGCGTTCCGCTG -ATTCGGGTGACTAACCTTGCGCGCACCATGCGTATGTTGCAGGAAGAGAATATCTGGATCGTCGGTACGGCAGGC -GAGGCGGATCATACACTCTATCAGAGCAAAATGACCGGACGCCTGGCGCTGGTGATGGGTGCGGAAGGTGAAGGT -ATGCGTCGCCTGACTCGTGAACATTGCGATGAGTTGATCAGCATCCCGATGGCTGGAAGCGTTTCTTCCCTGAAC -GTTTCGGTTGCGACCGGAATTTGCTTATTTGAAGCGGTGCGCCAGCGCAGCTAATTTCTCAGAATTATGAAAAGC -CATCCAGATTTGGATGGTTTTTTTTTGTCTATAGCTGGTAAGATAATTACGTATTGCAAATATTCATTTTATTAA -TATTTAAACTTAATCTATATGGAATAATATATGACATGGAATCCGTTGGCGCTAGCGACGGCGCTGCAAACTGTA -CCTGAACAAAATATTGATGTAACAAATAGCGAGAACGCATTAATTATTAAAATGAATGATTATGGCGATTTGCAA -ATCAATATTCTTTTTACTTCCCGCCAAATGATTATCGAAACCTTTATTTGTCCGGTGAGTAGTATCAGCAATCCA -GATGAATTTAATACCTTCTTATTAAGAAATCAGAAGATGATGCCGTTGTCATCGGTAGGGATCTCCAGCGTACAA -CAGGAAGAGTATTACATTGTTTTCGGGGCGTTATCGCTTAAATCTTCTCTTGAAGATATCCTGCTTGAGATAACC -TCGCTGGTAGATAACGCATTGGATCTGGCTGAAATTACAGAAGAATATTCACACTAATTACAAGGACGGGTATTT -ATGGGAATTTTAAAAAGTTTATTTACGCTGGGGAAATCGTTTATCTCCCAGGCGGAAGAATCCATTGAAGAAACC -CAGGGCGTGCGCATGCTGGAACAGCATATTCGTGACGCTAAAGCTGAACTCGATAAAGCCGGAAAATCTCGCGTT -GATCTGCTGGCGCGGGTGAAATTAAGTCACGATAAGCTGAAAGATTTACGTGAGCGCAAAGCCAGTCTGGAAGCC -CGTGCGCTGGAAGCGTTAAGCAAGAACGTTAATCCGTCGTTGATTAACGAAGTTGCTGAAGAAATCGCGCGCCTT -GAGAATCTCATTACCGCTGAAGAGCAAGTGTTGTCGAATCTGGAAGTCTCCCGTGATGGCGTGGAAAAAGCAGTT -ACAGCGACAGCGCAGCGTATCGCTCAGTTTGAGCAGCAAATGGAAGTCGTTAAAGCCACTGAAGCCATGCAGCGT -GCACAACAGGCTGTAACAACCTCTACCGTTGGCGCATCTTCCAGCGTTTCGACAGCGGCAGAATCCTTAAAACGC -CTGCAAACGCGTCAGGCCGAACGTCAGGCTCGCCTGGATGCTGCCGCACAGTTGGAGAAAGTCGCAGACGGTCGC -GACCTTGACGAAAAGCTGGCGGAAGCCGGAATTGGCGGTAGCAATAAAAGTAGCGCCCAGGATGTATTAGCAAGA -CTGCAACGCCAACAGGGCGAGTAATTTTTTTGCCAGCCTCGCTAAAAGGCTGGCAACTATTTTAAGGATAAAATA -TGTCTGGTTTTTTCCAGCGTCTGTTTGGCAAGGATAATAAGCCAGCTATCGCTCGTGGTCCGCTGGGACTTCATC -TCAATAGTGGCTTTACGCTCGACACGTTAGCGTTTCGTTTGCTGGAAGATGAATTGCTGATTGCGCTGCCGGGTG -AGGAATTTACGGTAGCCGCCGTCAGCCACATCGATCTGGGCGGCGGTAGTCAGATTTTCCGCTACTACACTTCAG -GCGATGAGTTTCTGCAAATCAATACCACCGGCGGCGAAGATATTGATGACATTGATGATATCAAGCTCTTTGTCT -ATGAAGAGAGCTACGGTATCAGTAAAGAGAGTCACTGGCGCGAGGCGATCAACGCCAAAGCGATGGGAGCAATGA -CCTTAAACTGGCAGGAAAAACGCTGGCAGCGATTTTTTAACAGCGAAGAACCGGGAAATATCGAACCCGTCTACA -TGCTGGAAAAAGTAGAAAATCAAAACCATGCCAAATGGGAGGTCCATAATTTTACCATGGGCTACCAACGGCAAG -TAACCGAAGATACTTACGAATATTTGCTGCTAAATGGTGAGGAATCTTTTAACGATCTCGGCGAGCCAGAGTGGT -TATTTTCGCGCGCGTTGGGTGTCGATATCCCGCTGACATCACTTCATATTATTGGTTAATTACAAGGACGTTTAC -AATGCATATACTGGATTCACTTCTTGCCTTTAGCGCCTATTTTTTTATTGGCGTGGCTATGGTGATTATTTTTCT -GTTTATCTATTCTAAAATTACACCGCACAACGAATGGCAGTTAATCAAAAACAATAATACCGCGGCGTCACTGGC -GTTCAGCGGTACATTGTTGGGTTACGTTATCCCCTTATCCAGTGCGGCAATCAATGCGGTGAGTATTCCAGACTA -TTTCGCCTGGGGCGGGATTGCACTGGTGATTCAGTTACTCGTTTTTGCTGGTGTCAGACTTTATATGCCCGCATT -AAGCGAAAAAATTATTAATCACAATACCGCAGCAGGAATGTTTATGGGAACCGCCGCGCTGGCTGGCGGTATTTT -TAACGCAGCTTGTATGACATGGTAATGGACGATCATGGCCAGAAAACGCAAATCAAGAAATAACAGTAAAATTGG -TCACGGAGCGATTAGTCGCATTGGTAGACCGAATAATCCTTTTGAACCGTGCCGCAATCGCTACGCACAAAAATA -CTTAACGTTGGCGCTAATGGGCGGTGCCGCTTTTTTCGTATTGAAAGGTTGTAGCGATAGTAGCGATGTCGATAA -CGACGGCGACGGAACGTTTTACGCGACAGTGCAGGATTGTATTGATGACGGTAATAATGCCGACATTTGCGCGCG -TGGCTGGAACAACGCCAAAACGGCATTTTATGCCGATGTTCCGAAGAATATGACTCAGCAGAACTGTCAGTCTAA -GTACGAAAATTGCTACTACGACAATGTTGAACAGAGTTGGATCCCGGTCGTTTCTGGATTTTTGTTAAGCCGGGT -TATTCGTAAAGATCGCGATGAGCCGTTTGTTTATAACAGCGGCGGTTCCTCTTTTGCTTCGCGCCCAGTCTGGCG -CAGCACTTCTGGTGATTACTCCTGGCGCTCCGGTTCTGGCAAAAAAGAGTCTTACTCTTCGGGCGGCTTTACCAC -CAAAAAAGCGTCTACCGTTTCTCGCGGCGGCTATGGTCGTTCTTCCAGCGCCCGTGGGCATTGGGGAGGCTAATC -ATGCTGAGACACAACGTTCCTGTGCGACGGGATCTGGACCAGATCGCCGCTGACAACGGTTTCGACTTTCATATC -ATCGACAATGAAATCTATTGGGATGAGAGTCGGGCTTACCGTTTTACTCTGCGCCAGATTGAAGAGCAGATCGAA -AAACCGACTGCGGAACTGCATCAGATGTGCCTTGAGGTGGTGGATCGCGCGGTAAAAGATGAAGAGATCCTGACG -CAACTGGCGATCCCGCCGTTGTACTGGGATGTGATCGCTGAAAGCTGGCGCGCCCGCGATCCTTCGCTGTATGGA -CGGATGGATTTTGCCTGGTGTGGCAATGCGCCGGTGAAGCTGCTGGAGTACAACGCCGATACGCCAACTTCATTG -TACGAGTCGGCTTATTTCCAGTGGCTGTGGCTGGAGGATGCCCGGCGCAGCGGCATTATTCCGCGTGATGCCGAT -CAGTACAATGCTATTCAGGAACGCCTGATTTCACGCTTTAGCGAGCTTTACAGTCGGGAACCGTTTTATTTTTGC -TGCTGTCAGGACACCGATGAAGACAGGAGTACCGTGCTGTACTTGCAGGACTGCGCCCAGCAGGCAGGGCAGGAG -TCGCGGTTTATCTACATTGAAGATCTCGGTTTGGGCGTCGGCGGCGTACTGACCGATCTTGATGATAATGTCATC -CAGCGTGCATTTAAGCTGTATCCGCTGGAGTGGATGATGCGTGACGATAACGGTCCGCTGCTGCGCAAGCGTCGC -GAGCAATGGGTGGAGCCGTTATGGAAAAGTATCTTGAGTAATAAAGGGCTAATGCCGCTGCTTTGGCGCTTCTTC -CCTGGTCATCCTAATCTTCTTGCGTCCTGGTTCGATGGCGAGAAACCGCAGATTGCCGCTGGCGAAAGCTATGTG -CGTAAACCAATCTATTCGCGCGAAGGCGGCAACGTCACCATTTTTGACGGCAAGAATAACGTTGTTGACCACGCT -GATGGTGATTACGCCGATGAACCGATGATCTACCAGGCGTTTCAACCTCTGCCGCGGTTTGGCGATAGCTACACA -CTCATCGGTAGCTGGATTGTCGATGATGAAGCGTGCGGAATGGGGATCCGTGAAGATAACACACTGATCACCAAA -GACACCTCACGTTTCGTTCCGCATTACATTGCTGGATAAGAATGTTTTAGCAATCTCTTTCTGTCATGAATCCAT -GGCAGTGACCATACTAATGGTGACTGCCATTGATGGAGGGAGACACAGTGCACTGGCAAACTCACACCGTTTTTA -ATCAACCTATACCATTAAATAACAGCAACTTATACCTGTCTGATGGCGCGCTCTGCGAAGCGGTAACGCGTGAAG -GTGCTGGCTGGGATAGCGATTTTCTAGCCAGTATTGGTCAGCAGTTAGGAACGGCTGAATCCCTTGAACTGGGGC -GGCTGGCGAATGTGAATCCGCCTGAATTATTGCGCTACGATGCGCAAGGACGCCGTCTGGACGATGTGCGTTTTC -ACCCCGCCTGGCACCTGCTGATGCAGGCGCTATGTACCAATCGGGTGCACAATCTTGCCTGGGAAGAAGACGCTC -GCTCCGGCGCATTTGTGGCGCGCGCGGCGCGTTTTATGTTACATGCGCAGGTTGAGGCAGGGTCGTTATGTCCGA -TAACCATGACCTTTGCCGCCACGCCATTGTTGTTACAGATGTTACCCGCGCCGTTTCAGGACTGGACCACGCCGC -TATTGAGCGATCGCTACGATTCTCACTTATTGCCAGGTGGGCAAAAACGCGGTTTGTTGATTGGCATGGGAATGA -CGGAAAAGCAGGGCGGTTCCGATGTTATGAGCAACACCACCCGTGCAGAGCGTCTGGAAGATGGCTCTTATCGGC -TGGTGGGGCATAAATGGTTTTTCTCGGTTCCGCAAAGCGATGCGCATCTGGTGCTGGCGCAGACCGCGGGTGGTC -TGTCCTGCTTTTTTGTGCCGCGCTTTTTGCCTGACGGGCAACGCAACGCGATTCGCCTCGAGCGGCTGAAAGATA -AGCTGGGTAATCGCTCTAACGCCAGTTGCGAAGTGGAGTTTCAGGATGCCATTGGTTGGTTGTTGGGGCTGGAAG -GGGAAGGAATTCGTCTGATCCTGAAAATGGGTGGGATGACGCGTTTTGATTGCGCCCTGGGTAGCCATGCCATGA -TGCGCCGTGCATTTTCGCTGGCGATTTATCATGCACATCAACGCCATGTTTTTGGTAATCCATTGATCCAACAGC -CCCTTATGCGTCATGTCTTAAGTCGCATGGCACTTCAGCTTGAAGGGCAAACGGCGTTGCTGTTTCGTCTTGCGC -GAGCGTGGGACCGGCGTGCCGATGCCAAAGAAGCCCTGTGGGCGCGTTTATTTACGCCTGCGGCAAAATTTGTGA -TCTGCAAAAGAGGTATGCCGTTTGTGGCCGAAGCGATGGAGGTGCTGGGCGGCATTGGTTATTGCGAGGAGAGTG -AGCTGCCGCGGCTTTACCGGGAGATGCCGGTAAACAGTATTTGGGAAGGTTCCGGCAATATTATGTGCCTGGATG -TGTTGCGCGTTCTCAATAAGCAAGCGGGCGTATACGACTTATTGTCGGAAGCATTTGTGGAAGTGAAAGGGCAGG -ATCGCTATTTTGATCGCGCGGTTCGTCGTTTACAGCAGCAGCTGCGTAAGCCAGCTGAAGAACTGGGGCGAGAGA -TTACTCATCAGCTATTCCTGCTGGGCTGCGGTGCGCAAATGTTGAAATATGCTTCTCCGCCAATGGCGCAGGCGT -GGTGTCAGGTGATGTTAGATACGCGCGGCGGCGTACGGTTGTCAGAGCAGATCCAGAATGATTTATTGCTGCGGG -CGACGGGGGGAGTGTGTGTGTAAGCGTATACGACTGATGCGACGCTGGTTTCGATTAACTAAATGAAATATGTGA -AAATTGTAGGCCGGACAAGGCGCTCGCGCCGCATCCGGCATTGTTCATTTGCTGTAGATGACACTCATGCATACA -GTATCGCCTGTACGCGCCAGTTATCAGGCTGCTGGTCTTCGTACATGGTAATAATGCGGTACCATGACGCACCTT -GTTCATCGGCCTTTAACGCCACGATACGTTCCACGTCCTGCGGATCCCCTGAAATATTGCTAACTGAGATCTGAC -CTATTTCATTCAGGCCCGTCACGCAGTCAGCACTGGCGAATTCTGCAGACTGTGCCGTGGCGCTCGCAGGATAAG -TCACTAATTGCAGCGAGGGTGAGGCAAGTAATTGTTTCATCGTCAGCTCCATTTTTCGTTTCCCCACATGTTGCA -GGGCATTCCATCGCGGTAATAAACGCCCAGGCTTCCAGCCGGTAATTTATTGTGCACAGGTAAACGCATAGGGAC -GCAAAGCAATGTAAAGCTGACTATGTAAGTTGTCTGATTTATTTACGGTACAAAATGGCTTGTGAATACCACTGT -CCTGTCACGATGGTTTCGTCCACCATGACGACAACGTAATAATCAGCTTTTGCAGCGACAGCTTTCGCTTTGATT -TCTGCTAATGCGTCATCCGGAGAACCCCGAACCATCGTGCTTACGCTACCTATTCGCTGTAACCCTTGCGTCTGG -TCGCGGCGAATCTCTTGCGGATGGTCCGTTACTGGCGGTGCTGGCTGTGGCGTACCTTGCAGTGCGCTACAGGCA -CTTAACATCAACACCAATAATAAACTGGCAAACCGGTAAATAACGCTATTACGTTTCCTGCTAACCATAGTGTAG -TGCCTTATTAATTTAACTTTGGGGGAATGTTCCCGAATTGTTACCTGGTACGCGATTTTCGAATGAAAACGTGAC -GAAAGCGTAACCCACATCTCAACATTATGAACTAATACCGCCAGCAGAAACTTGTGCTAAGGATTTCTTCATGTC -ATACCAGACAAAAAGGAGAGACAGATGATTGAAATAGAATCACGCGAGCTGGCAGATATTCCCGTTCTTCATGCT -TATCCTGTCGGGCAAAAAGATACCCCGTTACCGTGCGTAATTTTTTATCACGGCTTTACTTCATCCAGTCTGGTG -TATAGCTATTTTGCCGTTGCGCTGGCGCAGGCTGGTTTGCGGGTGATCATGCCGGATGCGCCCGATCACGGTAGC -CGTTTTAGTGGTGACGCAGCGCGGCGGTTAAATCAATTCTGGCAAATCTTGCTACAAAGTATGCAGGAATTCACT -ACTTTACGTGCGGCAATAGCCGAAGAAAACTGGCTGCTTGATGACCGTCTGGCAGTCGGTGGCGCGTCGATGGGC -GCGATGACGGCACTGGGGATTACCGCTCGCCACCCCACGGTGAGATGTACCGCCAGCATGATGGGATCGGGCTAT -TTTACATCACTCGCCCGTTCACTGTTTCCACCGCTGATACCTGAAACGGCAGCACAGCAGAATGAATTCAATAAC -ATTGTCGCGCCACTGGCAGAGTGGGAAGCGACAAACCACCTGGAACAACTTAGTGACAGACCTCTACTGCTGTGG -CATGGCCTCGACGATGACGTTGTGCCTGCCGACGAATCACTACGTTTGCAGCAGGCCTTAAGCGAGACGGGACGG -GATAAACTGCTAACCTGTTCATGGCAGCCAGGCGTGCGTCACCGCATTACGCCTGAGGCGTTAGATGCTGCCGTG -ACATTTTTCCGCCAGCATCTTTAAACACGCAGAATGCTGACCCCTTGCGCTTCCAGTTGTTGCAGGATTTCCGGG -TTAGCATTTTTGCCGGTGATAAGCATATCGATTTGATCGGCACGGCTAAAAAGCATTCCCGCGCGTTCGCCAATC -TTACTGCTATCAACCAGTACCACCAGTTTCCCTACCACGCTCAGCATCTTCTGCTCTGCCATTGCTGTCAGCATA -TCGGTTTTATACAACCCTTCTGCGGTCAGCCCTTTTCCGCTGGTAAACATCCAGTGCCCGGCATAGAGACTGTTT -TCGCTGCCCTGCGGGCTTAAAGTGATGGACTGACTTTTGTTGTACTGTCCGCCCATAATGATCACGCTGTCATGT -TCTTGATCGATCAGGTAATTTGCCAGCGGTAGATAATTAGTGATGATTTGCACTGGCTTGCCACACATTTCCCGC -CCAAGCAGAAACGCGGTGGAGCCGCAGTTGATGACTACGCTTTCGCCCGGATTAACCAGCTGCGAGGCCGCTTTA -GCGATACGTACTTTTTCATCGTGATTCTGCGCCTGATGCAGATTCATCGGCGTCCAGCGCGGGCGCTGTTGGGTA -ATAGCTTCTGCGCCATTGCGCACTTTTTTCAGTTTGCCGCTTTCGTCAAGTTTATTGATATCGCGTCGCGCAGTG -GCAGGCGAAATTCCCAGACGCTCAACGACTTTCTCAACGGTCACAAAGCCCAATTGTGCGAGCATTTCCAGGAGG -ATTTGATGTCTTTGTGCTTCAGTCATGAGCTATTCCGATAAAATTTGATTTTTTTAGATGATATTTGAAATAGCC -AGGAAATACTACGCCGGATAGCGCGAACTTCTCCACGCTACCCGGTATAAACGACAGATTACAGGAATGACTTGA -ACGGCAGATCCGGTTCAATAGTGAAGCAATCATCGAAACCGCGCGGATAGTGGTACTCGAAGTTGTCTTTATCCA -GCGGCCAGGTAAATTTGCCACCCACCTGCCAGATAAACGGCTTGAAGCCATACTTCAGGCGATCTTTTTTCATCT -CCCACAGCACGCGGATCTCTTGCGGATCGGCCTGGAAGTTTGACCAGATATCGTGGTGGAACGGGATCACTACTT -TCGCATTCAGCGCTTCACCCATACGCAGCATATCGGCGCTGGTCATTTTGTCGGTGATACCGCGCGGGTTTTCGC -CGTACGATCCTAACGCCACGTCGATCTGATGTTCGTTACCGTGCTTCGCATAATAGTTAGAGTAGTGGGAGTCGC -CGCTGTGATACAGGGAGCCGCCAGGCGTTTTGAACAGGTAGTTCACCGCGCGATCGTCCATGCCATCTGGCAGTA -CGCCAGCCGCTTTTTGATCGGCAGGCAGGGTGATCAGTGCAGTACGGTCGAAAGCATCAAGCGCATGAATTTCAA -TGTCTTTCACTTTTACTACATCGCCCGGTTTGACCACGATGCAACGCTCTTTCGGTACGCCCCAGCCAATCCACA -AATCCACACAGGTTTTCGGTCCGATAAACGGTACGTCATCTGCACAATTCTGCATCACGGCAGCAGCGACGTTAA -CGTCGATATGATCGTTGTGATCGTGAGTCGCCAGTACCGCGTCGATCTGGCGAATCGCAAACGGATCAAGAACAA -ACGGGGTGGTACGCAGGTTTGGCTGCAGTTTTTTCACGCCAGCCATGCGCTGCATCTGGTGACCCTGTTTCATTA -ACGGGTTACCGTGACTTTGTTTGCCAGTGCCGCACCAGAAATCAACGCAAACGTTGGTGCCACCTTCCGATTTCA -ACCAGATCCCGGTGCAGCCAAGCCACCACATCGCAAATGTGCCAGGAGCGACCTGTTCTTGTTCAATTTCTTCAT -TCAACCAGCTACCCCACTCCGGGAAAGTGCTCAGGATCCAGGATTCACGGGTGATACTTTTCACTTTACTCATCG -CCATTTACCTTCATGATAGTTCAATTCGAATCAATATGTGATTGGTTTTGATTAATCCTGACACTATTTTTTCAG -GAAGGCAATGACCATTTTTTGACTTTTTGCCAGGGAAGTTGTTGTTGATTTTGAGTATGGAAAGATTTAATGGAA -TGTGTAATTCAATTAACTAAATGAATTTAAATGGATAATTGTTTCGTTGTGTGAATCCCACTCTATCCATGTGGA -ATTATTTGCGGGTCGCGTCACATTTAATCATAAATAATCTTGTTGTGATTACTTTTGAAAATTAGAGTGAGTGCA -CAACATTCCGGGTGTGTGGAATACCCGGTTACCTCTTCTTCAGGAGATCGTTATGGAGATCCTCTACAACATCTT -TACCGTGTTTTTTAACCAGGTCATGACCAATGCCCCGTTGTTGCTGGGTATTGTGACCTGTCTGGGCTACATCCT -ACTGCGCAAAAGTGTCAGCGTTATTATTAAAGGCACGATTAAAACCATAATTGGTTTCATGTTGTTGCAGGCAGG -GTCCGGCATCCTCACCAGCACCTTCAAACCGGTGGTGGCGAAAATGTCCGAAGTCTACGGCATTAACGGCGCAAT -TTCCGATACCTACGCTTCAATGATGGCAACCATCGACCGCATGGGCGATGCCTATAGCTGGGTGGGTTACGCCGT -ATTGTTAGCGCTGGCGCTGAACATCTGTTACGTGCTGTTGCGTCGCATTACCGGCATTCGCACAATCATGTTGAC -CGGCCACATCATGTTCCAGCAGGCCGGGTTGATTGCCGTTACGCTGTTTATCTTCGGCTACTCCATGTGGACCAC -CATTATCTGTACCGCGATTCTGGTTTCGCTCTACTGGGGCATCACTTCCAACATGATGTACAAGCCGACTCAGGA -AGTGACGGATGGCTGTGGTTTCTCCATCGGTCACCAGCAGCAGTTTGCATCATGGATTGCCTATAAAGTCGCGCC -GTTCCTCGGCAAAAAAGAGGAGAGCGTTGAAGACCTCAAATTGCCGGGCTGGCTGAACATTTTCCACGACAACAT -CGTCTCCACGGCGATTGTGATGACCATCTTCTTTGGTGCCATTCTGCTCTCCTTCGGTATCGACACCGTGCAGGC -GATGGCAGGCAAAGTGCACTGGACGGTGTACATCCTGCAAACTGGTTTCTCCTTTGCGGTGGCGATCTTCATCAT -CACGCAGGGTGTGCGCATGTTTGTGGCGGAACTCTCTGAAGCATTTAACGGCATTTCCCAGCGCCTGATCCCAGG -TGCGGTTCTGGCGATTGACTGTGCAGCTATCTATAGCTTCGCGCCGAACGCCGTGGTCTGGGGCTTTATGTGGGG -CACCATCGGTCAGCTGATTGCGGTTGGCATCCTGGTCGCCTGCGGCTCCTCGATCCTGATTATTCCTGGCTTTAT -CCCGATGTTCTTCTCTAACGCCACCATCGGCGTGTTCGCTAACCACTTCGGCGGCTGGCGTGCGGCGCTGAAGAT -TTGTCTGGTGATGGGGATGATCGAAATCTTTGGTTGCGTCTGGGCGGTGAAACTCACCGGTATGAGTGCCTGGAT -GGGCATGGCGGACTGGTCGATTCTGGCACCGCCGATGATGCAAGGCTTCTTCTCCATCGGTATCGCCTTTATGGC -CGTCATCATTGTAATTGCACTGGCTTATATGTTCTTCGCTGGCCGCGCGCTGCGCGCAGAAGAAGATGCAGAAAA -ACAACTGGCAGAACAGTCTGCTTAATAAGGAGTTTTGATTATGACCGTACGTATTCTGGCTGTGTGTGGCAACGG -ACAAGGCAGTTCCATGATCATGAAGATGAAAGTGGACCAGTTTTTAACCCAATCAAACATTGACCATACGGTAAA -CAGCTGCGCGGTTGGCGAGTACAAAAGCGAGTTGAGTGGCGCGGATATCATCATCGCTTCTACGCACATTGCGGG -CGAAATCACCGTGACCGGCAACAAATACGTGGTTGGCGTGCGCAACATGCTCTCTCCTGCCGACTTTGGCCCGAA -ACTGCTGGAAGTGATCAAAGAGCATTTCCCGCAGGATGTGAAGTAAGGACGCGCCATGAAATTACGTGATTCGCT -GGCGGAAAATAAATCCATCCGCCTGCAGGCTGAAGCAGAGACATGGCAGGAAGCGGTGAAAATCGGCGTTGACCT -GCTGGTGGCGGCAGATGTGGTAGAGCCGCGTTACTACCAGGCGATTCTGGATGGCGTTGAACAGTTCGGTCCTTA -TTTCGTTATCGCTCCGGGCCTGGCAATGCCGCACGGGCGTCCGGAAGAGGGCGTTAAGAAAACCGGTTTCTCTCT -GGTAACGCTGAAAAAGCCGCTGGAGTTCAACCACGATGACAACGATCCGGTGGATATCCTCATCACCATGGCGGC -GGTCGATGCCAATACTCACCAGGAAGTGGGCATCATGCAGATCGTCAACCTGTTTGAAGATGAAGAGAATTTTGA -CCGTTTACGCGCCTGCCGTACCGAGCAGGAAGTACTGGATCTCATTGACCGCACCAACGCGGCAGCTTAAGAAGG -AATTGAACATGTCATTACCGATGTTGCAAGTCGCGCTGGACAACCAGACTATGGATAGCGCCTACGAAACCACTC -GCCTGATTGCCGAAGAAGTCGACATTATCGAAGTGGGCACCATTCTGTGCGTGGGCGAAGGCGTGCGTGCGGTTC -GTGACCTGAAAGCGCTCTACCCGCACAAAATCGTACTGGCAGACGCCAAAATTGCCGATGCAGGCAAAATCCTTT -CGCGTATGTGCTTCGAAGCCAACGCTGACTGGGTGACGGTAATTTGCTGTGCGGATATCAACACCGCCAAAGGCG -CGCTGGACGTGGCAAAAGAGTTTAACGGCGACGTGCAGATCGAACTGACCGGTTACTGGACCTGGGAACAGGCGC -AACAGTGGCGCGATGCAGGCATTGGGCAGGTGGTTTATCACCGCAGCCGTGACGCGCAGGCCGCAGGCGTGGCGT -GGGGCGAAGCGGACATCACCGCGATCAAACGTCTTTCCGATATGGGCTTCAAAGTCACCGTCACCGGAGGCCTGG -CGCTGGAAGATCTGCCGCTGTTCAAGGGTATTCCGATTCACGTCTTTATCGCGGGCCGTAGTATCCGTGATGCCG -CTTCTCCGGTGGAAGCCGCACGTCAGTTCAAACGTTCCATCGCTGAACTGTGGGGCTAAGGAGCGGATATGTTGT -CCAAACAAATCCCGCTTGGCATCTATGAAAAAGCGCTCCCCGCCGGGGAGTGCTGGCTGGAACGCCTGCAACTGG -CAAAAACGTTAGGCTTCGATTTTGTCGAAATGTCGGTAGATGAAACTGACGATCGCCTGTCGCGCCTCAACTGGA -GCCGCGAGCAGCGTCTGGCGCTGGTCAATGCGATTGTTGAAACCGGCGTGCGCGTGCCGTCCATGTGCCTTTCTG -CTCATCGTCGTTTCCCGCTGGGCAGTGAAGATGACGCGGTGCGGGCGCAGGGGCTGGAGATTATGCGTAAAGCTA -TCCAGTTCGCCCAGGATGTCGGTATTCGCGTGATCCAGCTGGCGGGCTATGACGTTTACTATCAGGAAGCCAATA -ACGAAACGCGTCGTCGTTTCCGTGACGGCCTGAAAGAGAGCGTTGAGATGGCAAGCCGCGCGCAGGTGACGCTGG -CGATGGAGATCATGGATTATCCGTTGATGAGCTCCATCAGCAAGGCGCTGGGATACGCGCACTATCTCAACAATC -CGTGGTTCCAGCTCTACCCGGATATCGGCAACCTGTCGGCGTGGGACAACGATGTGCAGATGGAGTTGCAGGCCG -GAATCGGGCATATCGTCGCGGTACATGTGAAAGACACCAAACCTGGCGTCTTCAAAAACGTGCCGTTTGGCGAAG -GTGTAGTGGATTTCGAACGTTGTTTCGAAACGCTCAAACAGAGTGGCTATTGCGGGCCGTACCTGATTGAGATGT -GGAGCGAAACGGCGGAAGACCCGGCGGCAGAAGTGGCGAAAGCGCGTGATTGGGTGAAAGCGCGCATGGCGAAAG -CGGGCATGGTGGAGGCGGCATAATGCAAAAGCTAAAACAGCAGGTATTTGAAGCCAACATGGAGCTGCCGCGCTA -CGGGCTGGTGACCTTTACCTGGGGCAACGTCAGCGCTATCGACCGCGAACGCGGGCTGGTGGTGATCAAGCCCAG -CGGCGTTGCCTACGAAACCATGAAAGCGGCCGATATGGTGGTGGTTGATATGAGCGGCAAGGTGGTGGAAGGGGA -GTATCGCCCATCTTCCGACACTGCGACGCATCTCGAACTCTACCGTCGTTACCCGTCGCTTGGTGGCATTGTCCA -TACCCACTCCACTCATGCCACCGCATGGGCGCAGGCGGGGCTGGCGATCCCGGCGTTAGGCACCACGCACGCCGA -CTACTTCTTTGGCGACATTCCGTGTACGCGCGGGTTAAGCGAAGAAGAGGTGCAGGGCGAGTATGAACTGAACAC -CGGCAAAGTGATTATCGAAACGCTGGGCAACGCCGAGCCGCTGCATACGCCGGGAATTGTGGTGTATCAGCACGG -GCCGTTCGCCTGGGGGAAAGATGCTCACGATGCGGTGCATAACGCGGTGGTGATGGAAGAAGTGGCGAAAATGGC -GTGGATTGCCCGCGGCATTAACCCACAACTCAATCACATCGACAGCTTCCTGATGAATAAACACTTCATGCGTAA -ACACGGTCCTAACGCTTATTACGGGCAGAAGTAGAACACGCGCTGCGGAAATTTCCTTCCTCGGGAGATAACTGG -TCTAATTCCGCAGCCGTTTTTCAAAAAAAAGCCCCCTGCGAAGGGGGCAAAGCAAACTATGGCAATGTTTCGTTG -GTTATACCTGGTGCTAGCGATAAATATCCGCGCTGGCGTGCATATTGCCGTTACTCCCCGGTTCCCGCATCAGAA -TTACGTGGTAGTACGTTGCGCCTTGCGCATCTGTTTCTTCATTTAATGCCTGACGTGCTTCGCTTTCAGTGGCGA -AATTATGATTGATATAAATCACGCCTAAGCTTTGCACATCGTCCATATTTCTGGCCTGGTGGTTATTAATTTCAA -TGGCTGCCCATGTATTTGCACTTAGCAAAAGCACAGCCAGAAGGGCTAAAACACGACTGAACATAGATACCTCCT -CGACGGCTGACTTTGTGTGCTCTCCTCTGTGATGATCTTCTGATTTAATTTTAATCAATGATAAAGAAGTTGATG -GTGACCATTTCTGATGCAGTTGTTCAAAAAAACACCATGATGAAGTGTGATGAACTTCAAATCAGCGTGTTAGAG -GTTAATTGCGAAAGGGGAGATTTATTTCGGCTCTGCCCTTGAGTTTAGCGAGGCATACAAGTACTATAACGCGTC -ATTTTTCAGCCGACCTTTAACACGTTCCTTGCCTCCCCGGGATTCGGCTGACCCAGACAGGAGGCTGAATAATCC -GTAAGGAGCAATTCGATGCGTCATTACGAAATCGTTTTTATGGTCCATCCTGACCAGAGCGAACAGGTTCCGGGC -ATGATCGAGCGCTACACTGCTGCCATCACTGGTGCAGAAGGCAAGATCCACCGTCTGGAAGACTGGGGCCGCCGT -CAGCTGGCTTACCCGATCAACAAACTGCACAAAGCACACTACGTTCTGATGAATGTTGAAGCTCCGCAGGAAGTG -ATCGATGAGCTGGAAACTACCTTCCGCTTCAACGATGCCGTTATCCGCAGCATGGTTATGCGTACCAAGCACGCT -GTTACCGAAGCATCTCCGATGGTTAAAGCGAAAGACGAGCGCCGTGAGCGTCGCGATGATTTCGCAAACGAAACC -GCTGATGATGCTGAAGCTGGGGATTCTGAAGAGTAATTTCTGATGACCAACCGTCTGGTGTTGTCCGGCACCGTG -TGCAGGGCTCCCCTTCGAAAGGTCAGTCCATCAGGAATTCCTCACTGCCAGTTCGTGCTTGAGCATCGTTCTGTG -CAGGAGGAAGCCGGCTTTCACCGGCAGGCGTGGTGTCAAATGCCCGTTATTGTTAGCGGACACGAAAACCAGGCC -ATTACTCACAGTATAACGGTCGGCAGTCGCATAACCGTTCAGGGGTTCATTTCATGCCACAAGGCAAAGAACGGA -CTGAGCAAAATGGTTTTGCATGCCGAGCAGATTGAATTGATAGATTCTGGAGACTAGCCATATGGCACGTTATTT -CCGTCGTCGCAAGTTCTGCCGTTTCACCGCGGAAGGCGTTCAAGAGATCGACTATAAAGATATCGCTACGCTGAA -AAACTACATCACCGAAAGCGGTAAGATTGTCCCAAGCCGTATCACCGGTACCCGTGCAAAATACCAGCGTCAGCT -GGCTCGCGCTATCAAACGCGCTCGCTACCTGTCCCTGCTGCCGTACACTGATCGCCATCAGTAATCGGTCACGGT -CCATTAATACGACTTTGAGAGGATAAGGTAATGCAAGTTATTCTGCTTGATAAAGTAGCAAACCTGGGTAGCCTG -GGTGATCAGGTAAACGTTAAAGCGGGCTATGCTCGTAACTTCCTGGTACCGCAGGGTAAAGCTGTTCCAGCTACC -AAGAAAAACATTGAATTCTTCGAAGCTCGTCGCGCTGAACTGGAAGCTAAACTGGCTGAAGTTCTGGCAGCTGCT -AATGCTCGCGCTGAGAAAATCAATGCACTGGAAACTGTTACCATCGCGTCTAAAGCTGGCGACGAAGGTAAACTG -TTCGGTTCCATCGGTACTCGCGACATCGCTGACGCTGTAACTGCAGCTGGCGTTGAAGTGGCTAAGAGCGAAGTT -CGTCTGCCGAACGGCGTTCTGCGTACCACTGGCGAACACGAAGTGAGCTTCCAGGTTCACAGCGAAGTATTCGCG -AAAGTGATCGTAAACGTAGTAGCTGAATAATTCGTTATTCAACGAGACGTAAAAACGCCGACCATTGGTCGGCGT -TTTGCTTTCTATTTTTCGTCAGGTATTAGTTTCGCAAGTAGATCCATTCACCATTCTCTTGTGTCCATAAGTCAG -GATGGTTTGCTGGCGTTAGATACATACGAGCGCAACTGATGTCTCGCTCCTGCGGCACTCGCTCGAAACCCAAAC -CCGAGTAGATTGCGGCTGAACTTGATAAGGAACGCAGACCAATTTTCAAATCATGGGGTAAATCAGAATACGCGT -TTAGCAATGCAGCAATGATGAATCCGAGGGCATTAGAAACGCCTGTAACAGTGCGAAGTTGGTCGATATAAAGAT -CGATTGTTGGTAGTTCAGATGACCAGCAATTAGGCATTTGGGCAGGAAGGGTTACAACGTATCCTATCGTTTGGC -CGGTATAGTCTGGAGTACCATAACCAGGTCCCAAAACCACTTCGTGTATTGTGTATTTACTGTTGGGTTCGAAGG -ATTCGACATCTTGCAATAAATATTTCAGTTCTGCGGTTAACCTCGCACCCGCGTAAGCTTTATTGTATTTCTGGG -CGTGAATATTATCTAATGTAGCTTCATGGTTCCATCCAAAAGAATTATCACCATTCATTGTGATTCCATCGTAAG -CATTACACCTCGTCGCTAACTTATTGAATGCTTGCCAGTCTGAGAGATCTAGTTTGTGGATCTCAACAGTACGTC -TGCCATCGCAATTATGATCTCTTCCACGATTTGAAAGTAATGTAGCGCGTGCGTATTGATGAAATTTTAATTTTA -CTGGTTTGTCGGTGGACGAAAAACGAGATAAATATGCAGGAAATGAATAAATAGTCGTTGGTAATGTCATTGTAA -TGTTACCTGTTTAATGTTTTTATAAATATCGCAGCTGAATGTTCACAGAAAAAAATCGATATTAATAAAAATAAG -TTTGTTTTCTGAAGTGGTGAAAATAGCGGATGGTGAAAGATATTAATATCAAAAATCGCTCATTATGGATATAAC -GATGCACCCGGGGAGAAAATGACTTCCACGCCTTACACCGTACATTCTTGTTGTGCGGTATGTAATTATTCTACG -CTGTCGGTATCGGTGTATTCGTTAATCAGCAGGTTAGCCAGCCACAAAAAGCCATTGAGAAAATTATTGATTTTA -CATGGGATTATTATATTGCTAATCCTTGGTTTTTAAAAATTGTGCATAGTGAAAATCAAAGTAAAGGTGTGCATT -ATGCAAAATCACAGCGTCTCTTAGAAATTAACCATGCGCACTTGCAGTTAATGGAATCCTTATTGGATGAAGGGA -AGAAACACAATATTTTTAAGCCAGATATCGACCCATTGCAGGTGAATATTAATATTGCTGCGCTTGGCGGATATT -ATTTGATCAACCAGCATACGCTTGGCCTGGTTTATCACATCAGTATGGTTTCACCCCAGGCACTGGAAGCCAGAC -GTAAGGTCATCAAAGAGACAATCCTTAGCTGGCTTTTGGTTGACCCTTCATCTACCGCGCACGAATAAAACTGCC -ATCCGGCTGGCGGGTGAACAGGACCTGTTGATTATTCCCCGTATCAATGGTTAAGCCCGTCACCACGCCGCTGGC -GTTCTGGCGGATTTTCACCATCTGCCCGTTTTGCAAATTACTCAGCGGCTTACCCGCGCCTTCTACCTGCGCCAT -TGCATAGACATCGGTAGCGGGCAGTCCGTGGTCGCGGAACAGCTGCGCCATCGTTTTACCGGGTTCGACACGGTA -AGAGCGCCATTGATTATCAATTCCGCTATCTGGCTGGAATGGTTGCGTTTGGGTAGTTTGCGGCTGCTCTTCTGG -CTGGCCTTCCTGTATAGGTTCTGGAGCGACCGGAGCCACCTGATCAGGATCATTTTGTGGGGTAACTAATTGCGC -CCGCAGCTGTTCTTCTGTCGGCGGTTGTGATTGCGACTGAATATCTAACTGCGCTTCACGCGTCACCACCGGCGC -GTTGGGCGTATCATCAGATGGAAGCAGAAATCCGACCACCAATACAATGGCGGCAATAATGATCCCCCGACGATG -CATCGGCGGCAGCGGGTCCATGAAGCGAAAATTGTCCGGCGCGTGCCAGACTTTCTCCAGGGTTGGTTTTAGTTC -AAAGCGCCCGGGCATGGTTTCCTCCTGCTCCGCGTCTTGTTCCTCAATCATAGCCTATGAATAAGCTAACGCTAT -GATGTCCGTGGTAAACCCGCCTTTATTATATTCATACGGGATATTGCTATTGTTTCTTTTTCCCTGGGATTTGTC -ATCATTCCCGCGACAAAGTTTTACCCAAAGAAGTGTGGCTGATATGCTGCCCGCTACTTTATACCCTAAGAAAGG -AAATACGATGACCACCCCAACTTTTGACACCATCGAAGCGCAAGCAAGCTACGGCATTGGTTTGCAGGTAGGGCA -ACAACTGAGTGAATCTGGCCTGGAAGGGCTGCTGCCAGAAGCACTGGTTGCAGGTATTGCCGATGCGCTGGAAGG -CAAACATCCGGCTGTTCCGGTTGATGTGGTGCATCGCGCGCTGCGTGAAATCCACGAGCGCGCCGATGCCGTTCG -TCGTCAGCGTTTCCAGGCGATGGCTGCTGAAGGTGTGAAATACCTGGAAGAAAACGCCAAAAAAGAAGGTGTGAA -TAGCACCGAATCTGGCCTGCAATTCCGCGTGATCAACCAGGGTGAAGGCGCAATTCCGGCACGTACCGACCGCGT -TCGTGTTCATTACACCGGTAAACTGATCGACGGCACCGTGTTTGACAGCTCCGTTGCTCGTGGTGAACCCGCTGA -ATTCCCGGTTAATGGCGTGATCCCTGGCTGGATTGAAGCACTGACTCTGATGCCGGTAGGTTCTAAATGGGAACT -GACTATCCCGCAGGAACTGGCATATGGCGAGCGCGGCGCAGGCGCATCCATCCCTCCGTTCAGCACCCTGGTGTT -TGAAGTCGAACTGCTGGAAATCCTCTAAGCAGCGCATTCTGTTCCCCTCGAACGAGAGGGGAGCAGGCATTCAGC -AATAAACCCTTCAGTTTGCCAAACGGCGCTATTTTGTGTTGCAAAGACCCCGTAAGCGTGTATTTTTGTGAGCTG -TTTCGCGTTATCACCGTGATATGACACTCACTTTAAACATAAAATTAACATTAGATCTAAATCTTAGTATTCATC -CCGCGTATTGTTACCTAATATCGATGAGTCCCGATACAGATTCGTCGTATCATAGACTGACTAAAGGCCGTAGAG -CCTGAACAACACAGACAGGTACAGGAAGAAAAAAACATGGTAGATCAGGTAAAAGTCGTTGCCGATGATCAGGCT -CCGGCTGAACAGTCGCTACGGCGCAATCTCACAAACCGACATATTCAGCTTATTGCCATTGGCGGTGCCATTGGT -ACGGGGTTGTTTATGGGGTCTGGCAAAACGATTAGCCTTGCCGGGCCGTCGATCATTTTCGTTTATATGATCATT -GGTTTTATGCTCTTTTTCGTGATGCGGGCAATGGGGGAATTGCTGCTTTCGAATCTGGAATACAAATCTTTTAGT -GACTTCGCTTCCGATTTACTCGGGCCGTGGGCAGGATATTTCACCGGCTGGACTTACTGGTTCTGCTGGGTTGTA -ACCGGTATGGCAGACGTGGTGGCGATCACGGCTTATGCTCAGTTCTGGTTCCCCGATCTCTCCGACTGGGTCGCC -TCGCTGGCGGTGATAGTGCTGCTGCTGACGCTCAATCTCGCCACCGTGAAAATGTTCGGTGAGATGGAGTTCTGG -TTTGCGATGATCAAAATCGTCGCCATTGTGTCGCTGATTGTCGTCGGCCTGGTCATGGTGGCGATGCACTTTCAG -TCACCGACTGGTGTGGAAGCGTCATTCGCGCATTTGTGGAATGACGGCGGCTGGTTCCCGAAAGGTTTAAGTGGC -TTCTTTGCCGGATTCCAGATAGCGGTTTTCGCTTTCGTGGGGATTGAGCTGGTAGGTACAACAGCTGCGGAAACC -AAAGATCCAGAGAAATCACTGCCACGCGCGATTAACTCCATTCCGATCCGTATCATTATGTTCTACGTCTTCGCG -CTGATTGTGATTATGTCCGTGACGCCGTGGAGTTCGGTAGTCCCGGAGAAAAGCCCGTTTGTTGAACTGTTCGTG -TTGGTAGGGCTGCCTGCTGCCGCAAGCGTGATCAACTTTGTGGTGCTGACCTCTGCGGCGTCTTCCGCTAACAGC -GGCGTCTTCTCTACCAGCCGTATGCTGTTTGGTCTGGCGCAGGAAGGTGTGGCACCGAAAGCGTTCGCTAAACTT -TCTAAGCGCGCAGTACCCGCGAAAGGGCTGACGTTCTCGTGTATCTGTCTGCTCGGCGGCGTGGTGATGTTGTAT -GTGAATCCTAGTGTGATTGGCGCGTTCACGATGATTACAACCGTTTCCGCGATTCTGTTTATGTTCGTCTGGACG -ATTATCCTTTGCTCGTACCTTGTGTATCGCAAACAGCGTCCTCATCTACATGAGAAGTCGATCTACAAGATGCCG -CTCGGCAAGCTGATGTGCTGGGTATGTATGGCGTTCTTTGTGTTCGTGGTCGTGTTGCTGACACTGGAAGATGAC -ACTCGCCAGGCGCTGCTGGTTACCCCGCTGTGGTTTATCGCGCTGGGGTTGGGCTGGCTGTTTATTGGTAAGAAG -CGGGCTGCTGAACTGCGGAAATAACCGCATTATCATGCTGGATGGCGCAATGCCATCCAGCTTTTAGATCACTCA -CCCGCCAGCGCGCGTGGGAACAGTACATTGTTTTCCAGACTGATGTGATCCATCAGGTCATCAATCAGTTCATTA -ATGCCGTTATACATCGCTTTCCAGGTGGTGCAGGCTTCTGGCGGCGGTGTGACGTTATTGGTGGTGTGTTTAATC -ACTTCCAGCAGTTCGCCCGCTTCATCGTGCTCGCTTTCCATTACGCTGATTGGCCCCATTGCCTGGCTGCCCATG -CCTTGTTTGATCATCGGGAAGAGGATCTGCTCTTCTTTCATCATGTGGCTGGAAAGCTCTTCATGCAGCATGGTC -AGGTATTTTGTCAGCCCTTTTGGCACGCTCGGTTTGTCGGCGTGAACGCGCTCGACTTTAGTCGCTTGCAGAATC -AGCTCCGGCAGTTGCTCGCGGTGACGATCGTGGTAGCGCACGATGATATGGTCGATGATTTCTGCCAGCGGGGCG -CTACGCCAGTCTTTCTCAATCGGTTGTTCAGCGAGCTTTGCCAGTTCAGCTTCAATGACCTCAACATCCAGTTCT -TTACGTGCCGCCGCGCGCGCCAGCGTCTGCTTACCGCCACAGCAGTAATCCATATCATATTTACGAAACAGAGCT -GAAGCGCGAGGAATAGAGAGCGCCAGTTCACCTAAAGGTTGGTCGCGATAAGCCATAGCTGATACCTCATTCTTA -ATAAGATAAGATGTATTTTAAATGCATCTTTAAGGCAAAAGCTATAACCCTTACGTAGCAGAGGCTTATTTAACT -CACTGCCAGCGTGTCAACTTTCTGAGACAGATTCAGTTAAAGGTTTTTCTGGTTTTGCTCTGACCGCGATGACCA -CGCCAATCACTAACAGCGCGATACCGCTCAGCGTCATTAGCGGCGGCATTTGCTGGCGGAGTAAAAAGGTGTACA -GCAAACCTGCCAGCGTTTCGAAAACAATCAGCGGCCCGAGAATCACTGTCGGTAATAGCTGGCTGGCGACGTTCC -AGCAGAGTGCGCCAACCCATGAGCAAAGCACGGCTATCGCAACCATCAGACTAATAAACACCAGCGGACGGGGGC -CAAAGGGTAGGGAGAAGTCCGGCGTTTGCGTATTCAGCCAGTAACAAGCGACGAGATAGCCGATAAGTGAAACCG -GCAGTGTGACCAGCGCCTGCGCTGTTGCCCACATCATCGGATGTTTGTCGGGATTTTCCCGCAGCCAGCGGGCGT -TGCGCAGGGCATACCACGCCCAGCAGACCACGGAAACTAACGCCAGCACGATGCCAGAGGTATAACGTGCCCAGT -CAAAATCGGGGAGTCCGTGGTTTAACTCAGCAATATTCACACACGCCAGGCCGATGCCAATACAAATCAGTGCTG -GGGCGAGTTTTCCCCACGCGAGTTTGCCGTCGCGCTGGCTATAAAGCAGATTGGCAAAGACAGGAATGACCACCG -GCAGGGTGCCGATAATCATCGTGGAAACAGGCGCGCCAGTACGTTGAATGGCACTGGCAAGGCAGAAGTAATAGA -TGAGGTTGCCCATCATAGTGAGCATCAAGGCGGTAAGCCAGTCGCGACGCGCCAACTGACGCAGACGCACGCGTC -CCAGCCAGGCAATGGGCAGCGCAATTAACCCTAACGCCAGATAACGCCCCATCGACTGCAACATCGCCGGGTATT -CCGGCACGATCAACGGCCCGACAAAAATAAGCCCCCACATCAACCCTGCTAACAGGGCGTACAGCACGCCGCTAA -TCATTACTGGCATCCATTGATCTGTCAGAAGAAAGTTCAGGAAGCAGACATGATTGCTCCCGGCATCCCGTCATT -ATCAGAGAGGATGCGGGAGGATGCCACTTTAATTAACTAGTTATTAACATTAAAAAGATGGCTTACGCTTTCGGC -TAACGTTGTCGTTGGGTGGCCAATCAATTTGCTAAGTGTTTTGCTGTCATCAAACAGACCGCCTTTCGATGCGCC -AACGTCAGAATCCGCCAGCATATCCGCCAGTCCGTCGGGCAGTCCGACGCTTTTCAGTGCCGCGGCGAAATCGGC -TTCGCTCAGATTTTGATAGGTAACCTGTTTGCCGCTCTGTTTGGTCAGCTCTGCCGCTAACTGTGTCAACGTCCA -GGCACTATCGCCCGCCAGTTCGTAAACCTTGCCTTCGTGACCGGCTTCGCTAATCACGCGTGCCGCAGCTGCCGC -ATAATCTGCCCGCGTTGCTGAGGCGATTTTGCCATCGCCCGCCGCACCGATAAATACGCCGTGTTCCAGTGCTGC -CGGGGCGCTGGCGAGGTAGTTTTCGCTGTACCAGCCGTTGCGCAGCAGGGTGTAAACGATGCCAGAATCAGCCAG -CATTTTCTCCGTCTCGATGTGCTCATCGGCGAGGCCGAGCGGGGAGGTATCTGCATGTAGCAGGCTGGTATAAGC -GATAAATTTCACGCCAGCCGCCTTTGCGGCATTAATAACATTACGATGCTGCGGGGCACGTTGACCCACTTCGCT -GGAAGAGATCAGCAGTAGTTTTTCCACTCCCTGAAGTGCAGATGTCAGTGCGGCTTCATCGCCGTAGTCAGCCTG -ACGCACGGTAATGCCTTGTGCTGCCAGGGCTTGGGCTTTTGCCGGATTACGAACGATAGCCACTATTTGGCTGGC -AGGAACCGTTTTCATCAAGGATTCAATAACATAGTGACCAAGTTGGCCAGTGGCACCAGTAATAGCGATCATGGG -AAGTCTCCATCGTTTTGTCTTGTGTTTAAATACGCTAACACCTAAACTTACTTTTAGTAAGTACGTACAAAAAGG -TAAGTATGAAATGAGTCAGGTTAGCCTGTCGCAACAACTGAAAGAGGGTAATCTCTTTGCGGAACAGTGCCCGTC -GCGCGAGGTGTTGAAACACGTCACCAGCCGTTGGGGGGTGTTGATTCTGGTGGCGCTACGCGAAGGTACTCATCG -CTTTAGCGACCTGCGGCGCAAAATCGGTGGGGTGAGTGAAAAGATGCTTGCGCAGTCGTTACAGGCGTTAGAACA -GGATGGTTTTCTTAACCGTATCGCGTATCCGGTGGTGCCGCCGCATGTGGAATATAGCCTCACGCCGCTGGGCGA -GCAGGTGAGCGAAAAGGTTGCTGCACTGGCGGACTGGATTGAGTTGAATTTGCCCGAGGTGTTGGCGGTGCGGGA -TGAACGTGCGGCATAACTGCCGGATGCGCTGAGCTTATCTGGTCTACGGTGCATGGCTTGTAGGGCGGATAAGAT -GCGCCAGCATCGCATCCGCCAATAAATGCCGGATGCGGTTGATGATTTATAGGCCGAAAAAGAAGTGTTTTACTT -ACTCAAATCCACCTGATAAATCGCAAACCCGATATCATCGGTCGCGACTTTATTCATCGGATACTGCCCTTTCTC -TTTAATAAACGCTGCGGCTTTATCTGACGGAGAGGTTTCGAAACGGATATCCAGTTTCTTATCGCCAGCTATCGG -TGCTAAACGCCAGTTGTTATCTGCCGCCGGGTGAATTTCCCCCGCACGTTTCGACTCATCAGCAATCCACGCTGC -CAGCACCGAGCGGTTCTCATCCGGTGAAGCAAAAGCGATATGGCTGTCGCCCGTACCGGCAAATTTGCCGCCGTA -AGCGCGATAGTTATTGGTGGCAACCAGGAACATGGCGTTCGGATCAATCGGCTTGCCATTAAAGGTCAGGTTCTT -AATCCTTTCCGCATTGGCATTAATCATCTGGCACTCGCCGTCATAACGGGCGGGCTGGGTAACATCAATCTGATA -ATTCACACCATCAATAACATCAAAGTTATAAGTGCGGAAACCATCCCAGTTGATGAGTGACTGTGGTTTCGTGCT -GTTGGGATCAATCTGGTTAAACTGTCCCGCGGAGCACTCCAGCCACTCTTTCACCTCTTTACCGCTGGCTTTCAC -CACAATCAGCGTATTGGGATAGAGATAAAGATCGGCGGCATTACGGAAGGTCAACTGGCCTTTTTCCACCTCCAC -ATAGCTTGCCGGGTCATTTTTGCGACCACCGACTTTAAACGGTGCGGCAGCTGAAAGCACCGGCAGTTTTGCCAG -ATCCGGATCGCCCTGAATGTAATGCTCGACATACGCTTTTTGCGCGTTGTTCACCACCTGCACGGTCGGATCGTC -CTGCACCAGCGCCAGATAGCTATACATATTGTCGGCAGATTTACCGATTGGCTTGCTGACGAACTGGCGTGTGGC -ATCGTGATCGGCTTTGAGTGTTTCTACCAGCTTGCTGTCTTCCGCCGCGAGGGATTTTTTATTAGCGATGTCGTA -AATCGGTCGTGCTTCCGCTTTCGCCTGCGTCACCTGCCATTTACCGCTGTCATTACTGAGTTGTAAGTCGACCAC -ACCAAGATGATCGCCCCACATGCCTGGCATTACCGCCGGAACACCATTCAGCGTGCCTTTGGCGATATCAGCCCC -TTCGATATCAGCAAAATCTTTACCTGGGAAAACGGCGTGAGCATGGCCAAACATAATGGCGTTAACGCCCGGAAT -TTCACTGAGGTAATAAACTGAGTTTTCCGCCATCACTTTATACGGATCGGCAGATAGCCCGGAATGTGCCAGAAC -GACAACAACATCGGCACCTTTCTCGCGCATTTCAGGCACGTATTTGCGCACGGTTTCGGTAATATCATTCACCGT -CACTTTCCCGGATAAATTAGCTTTATCCCAGCCCATGATTTGTGGTGGCACGACGCCAATATAGCCAATCTTCAG -CGTCTGTTTTTTTCCGTCTTTATCGACCACTTCGGTGTCTTTAATTAAATACGGTGTAAACATTGGCTGTTTGGT -TCTGGCGTCAATGACGTTGGCATTTACATAAGGGAATTTCGCTCCTGCCAGCGCATTTTTCAGGTAATCCAGACC -GTAGTTAAACTCGTGGTTGCCAAGCGTTCCGACGGTATAGTCCAGCGTATTTAATGCCTTATAGACCGGGTGAAT -ATCACCTGCTTTTAATCCTTTCGCCGACATGTAATCGGCCAGCGGACTCCCCTGAATCAAATCGCCGTTATCAAC -CAGTACGCTGTTTTTCACTTCATTGCGGGCATCGTTAATCAGGCTTGCCGTACGTACCAGTCCGAATTTTTCCGT -GGCGGTGTCTTTGTAATAATCGAAATCCATCATGTTGCTATGCAGATCAGTGGTTTCCATGATACGCAGATCGAC -CGTCGCTGCATTCACACTGGCGGCAATCAGCGTGGCCAGGAGCGTTGCGCTAAACTTAATCATCAGGGACATCCT -TTTATCATCGGGAATACGAAAGAAAAGGGAGAATAAACGTCTTACTTATAGAACAGTGAAGAATGCCACAATTTT -ACGCTTTGAAAATGATGACACTATCACAGTTGGCGCATTCATTAACGATAGGGTATAAGTAAAACAATAAGTTAA -CACCGCTCACAGAGACGAGGTGGAGAAATGTTAGATCAAGTATGCCAGCTTGCACGGAATGCAGGCGATGCCATT -ATGCAGGTCTACGACGGGACGAAACCGATGGACGTCGTCAGCAAAGCGGACAATTCTCCGGTAACGGCAGCGGAT -ATTGCCGCTCACACCGTTATCATGGACGGTTTACGTACGCTGACACCGGATGTTCCGGTCCTTTCTGAAGAAGAT -CCTCCCGGTTGGGAAGTCCGTCAGCACTGGCAGCGTTACTGGCTGGTAGACCCGCTGGATGGTACTAAAGAGTTT -ATTAAACGTAATGGCGAATTCACCGTTAACATTGCGCTCATTGACCATGGCAAACCGATTTTAGGCGTGGTGTAT -GCGCCGGTAATGAACGTAATGTACAGCGCGGCAGAAGGCAAAGCGTGGAAAGAAGAGTGCGGTGTGCGCAAGCAG -ATTCAGGTCCGCGATGCGCGCCCGCCGCTGGTGGTGATCAGCCGTTCCCATGCGGATGCGGAGCTGAAAGAGTAT -CTGCAACAGCTTGGCGAACATCAGACCACGTCCATCGGCTCTTCGCTGAAATTCTGCCTGGTGGCGGAAGGACAG -GCGCAGCTGTACCCGCGCTTCGGACCAACGAATATTTGGGACACCGCCGCTGGACATGCTGTAGCTGCAGCTGCC -GGAGCGCACGTTCACGACTGGCAGGGTAAACCGCTGGATTACACTCCGCGTGAGTCGTTCCTGAATCCGGGGTTC -AGAGTGTCTATTTACTAAATTCAGATGGCAGAAACAGTGTATTTCCTGATTCTGCCATCCTGATTTCTCCCAACC -TAAAAAGTTATAAATAAAAAGAGATTGTATTTAAAGTGCAAAAATTCAATTGCTAATAAGTTACATTTTAATAAT -GAGCGTTTTTTGATAGTTTACTTCTATAGTGAGATATTTAATGGCGACATAAAGTAACCAAATAAAATAAGGTTG -TCATATGTTACCCAGGATCAGACACAATAATTTTATTGGTGCGGTGGAGTTATTTGTAAAGTCTTCGTATACAAA -AACACATTCAAACAATTTTTTTAACAACATCCATCATGCATTTAAGAAAAAAGATTGGATTTCGAATTATGATAG -CCTGTTAACTTTGAGGGAGTTCTTTCGTTGCGCAACTCAGATTGATAAAAGTGGTTATCAGGTGCTTTCATCAAA -AAATGAAACTGTTCACGCCATGGATAAGTTTCTTATCAGTTTCAGCCTTAAAGATAACGGTGCCGAATATACAAT -GACATTGCGAGGTAGTGGATTTGAATACGAAGAAATACCCATAACAATAAATGAATATAACTCATTCATGGATTT -CAAAAACCGTGAATTTCCGTTAGAACAAAACAGACGATTGTATGCCTGGGATATTCTACAGAAAAAACAGTCTGA -CATACCGAAAAGGATTAAAGGTTATATTCACCAGGCGATTGGTGACGTGTCTTTAGGTTATGCCTTATTGGAGGA -TATAGTAAGCAAATTAAAACGGGGTAAATTTGAACTCCAAATACCAGGAGGTGGAATTAAAGAATGCGATGGATG -GTATATTTACGAAAAAATAATTGATGATAATTTTGCCATAGTCATAGAATCTTTGGGCTTTGCGCTTAAAATCTA -TGGAGGGGATGAACGTTTTCGTAATGGTTCCTCTGTTGTTTTGGAGGATGAAGATTACTCTCTTATTTATAATTT -TCTGGTTAATGCAGGTTGCCAACAAGTCGAATTAGCCGAACAAGTGGATGCGATAGTAAGTGCGAATCTGGCCGC -AGATAGCGATATTACCAAAGAAAAGATTTGCGAGAAATATAAATCGACCATTGAGGCGTTTAAAAAAGAGCAACT -AGCGTTACCAGTATTAGTTCGGCGTAAGAACTCAGAGACTTAATTCCCCTATCCCATAGATAACGATAGGGGAAA -ATTATTTTTGCAGAATTTATGTTATTGCCATTATTTGAGCAACTTTTGCAGCAGGTCCATCACTTGCTGCACCTC -TTCCGGTGTGAGCGCCCCGTCTTTGGCCCATTGCACGCGACCATCCTTATCCAGCACCACTACAGCGGAACTTTC -TTCATCCAGCTGCCAGGCACCGAGCGCGACGCCATTGCTATCGACAATAAACTGCGACCAGGGATAAAGCTTTTT -ATTACTCTCCAGACTGCTGCGCACAAACATCCCTGAACCCGGAATCGCGTCGTCGGTGTTAACAATGGTGGTGGT -CTGGTAACGATCGTGCGGTAACTTCGCTGATTTAATCGCTTCAATCAGCGTCGCGTTTTTCTCTTTTGCAGAGGT -GCGACCAGCAATATGTTGCAGTACTCGCACTTTTCCCACTAACTGCGCGCTGTTCCAGGTTTTGTAGCTAAACTG -ATCTTTATCAAGCACCAACTCGCCCCGATCGGTAATGCCAATCGGCGGCACTCGCTGACCGGTTTCGAACTGATG -TGCGGAAGCCATCATCGGCAACAGCAGGCAGGTGAGTGCCAGAATCTTGCGTAGGGTCATGGTGTTTCCTTCTTA -TGATATGCAGGTGATCCGACCACTTGGGTCTGAGTTTTAATCATATGTGCTATTTATCGAATTTCCCGCAAGTGT -GATGCCAGTTTGCGGTCAAGCGCACAAATCATATGAAAAATGAATGCTTATACTGAAGACCGCGCTTCGGTAAAA -AGATAATTCTGAATAATTGTAACCTTTAGGTAAAAAAAGTTATACGCGGTGGAAACATTGCCCGGATAGTCTATA -GTCACTAAGCATTAAAATTTGCGCCTCATAATAGTTGGGCCGATTGTGGCACCGCACAGGCGTAATACTCAGCAG -GAGATAACAATGAAAATTTTCCAACGGTACAACCCACTTCAGGTGGCGAAGTACGTAAAGATCCTGTTCCGTGGA -CGGTTATACATCAAGGACGTTGGCGCTTTTGAATTCGATAAGGGTAAGATTCTTATCCCAAAAGTGAAGGATAAG -CTGCATTTGTCAGTGATGTCCGAAGTTAACCGTCAGGTTATGCGTCTGCAAACAGAGATGGCTTAACCAAAGTGC -TATGCAGTAAAAAGTGCTATGCAGTAATAAGACGGCTCCTGATTCAGGAGCCGTTGATGTTTCTGGGGGTTACGC -GACGCTTTCTTCTTTATCTTTAGCGTCAGGCAGTTTTGGCGAAAGGGCGGTGGCCTTGCTGTCGATCCGGGTCAC -CAGCAGCTGGTCGATGCGGTAGTTATCGATATCCACCACTTCAAATTTGTAGCCGGCGAATTTCACCGAATCGGT -GCGTTTCGGGATCTTACGCAGCATAAACATCATAAAGCCGCCGATGGTTTCGTAGTTGCCCGACTGCGGGAACTC -GTCAATATCCAGCACGCGCATGACGTCGTCAATTGGGGTGCCGCCGTCAATCAGCCATGAGTTCTCATCACGGGC -GACAATCTGCTCTTCCAGCCCCTGACCGACCAGATCGCCCATCAGCGTGGTCATCACGTCATTGAGGGTGATGAT -CCCCACCACCAGCGCGTACTCGTTCATGATCACCGCGAAGTCTTCACCTGCGGTTTTAAAACTTTCCAACGCCTC -TGAAAGGGTTAACGTATCCGGCACAATCAGCGTGTTGCGAATTTGTACGCCGCTGTTCAGTGCCAGGCTTTGGTT -AGCCAGCACGCGGTTCAGCAGGTCTTTAGAATCGACATAACCGATGATGTGGTCAATATCTTCATTACAGACGAG -GAACTTAGAGTGCGGATGTTCCGCCACCTTATTCTTCAGGCTTTGCTCATCTTCGTGGAGATCAAACCAAATCAC -GTTTTCACGCGGTGTCATTGAAGACGGAACGGTACGGGATTCCAGCTCAAAGACGTTTTCAATCAGCTCGTGTTC -CTGTTTACGTAACACGCCCGCCAGCGCACCGGCTTCCACTACCGCGTAGATGTCATCAGAAGTGATGTCATCTTT -ACGTACCATTGGCAGTTTGAAAATACGGAAGATTATGTTCGCCAGGCCGTTGAAGAACCACACCAGCGGGGTGCA -AACGTACAGGCAGAAGCGCATCGGGTTGATGATACGCAAAGCCACAGCTTCTGGCGCAATCATACCGATGCGTTT -CGGGGTTAAATCCGCAAACAGGATAAACATGCCAGTCACTAACGAGAAAGAGAGAATAAAGCTCAGTTGCTCAGA -GAGCTCTGCCGACATATAGCGGGAGAACAGGCTGTGAAAAGCTGGAGAAAATGCCGCATCACCGACGATACCGCC -GAGAATCGCCACTGCGTTCAGACCGATTTGGACCACGGTAAAGAACATGCCGGGATTTTCCTGCATATTCAGAAC -GCGTTGGGCATTTATATTGCCTTCATCAGCCAGCAGTTTAAGTTTGATTTTGCGTGAGGCGGCAAGCGAGATCTC -GGACATCGAGAAGAACGCACTTACAGCGATCAAGCAGAGTATGACTAAAATACTGTTTAACATATCTTATCCGAC -CTTTCAGGCCAGATCCTCGGAAGGGGAAGTTGATTAATTTGTGTGAAATACACATTGAAAGCCGATTCGAAGAAA -GTGAACCGGCATTTTCAGTGGCTAGTATAGCGTAAGGTACTGTAAAGCCGCCAGAGGGTTAAAATTCAGACAGCT -GAAAAATGCAAAACTGCCTGATACGCTATGCCGATCAGGCCTACGCAGTCCTTGCAATATATTGAATTTGGACGA -TTTTGTAGGCCTGGTAAGTCGTTTACGCCGCATCAGGCATAGACAAAGAGCACTTTATCAACAAACTACATTTGT -ACCCGTAACGCTATGCTTCCGGCGGCAGACAGACGCCAATTCCGCCAATTCCACAGTAACCATACGGGTTTTTAT -GCAGATATTGCTGGTGGTCATCTTCGGCATAATAAAACGGTGTGGCGTTAGCGATTTCCGTGGTGATGTGACGAT -CGTCATCGGCGGCAAGCATCGCCGCCTGAAAACGTTCCAGACTGGCGCGAGCTGCGGCATCCTGTTCTGGGGTCA -GCGGATAAATCGCTGAACGATACTGCGTGCCGTGGTCATTGCCCTGACGCATTCCCTGGGCGGGATCGTGATTCT -CCCAAAATACCTGTAGCAACTGCTCATAGCTGATGACGGAAGGATCGTAAACAATGCGTACCGCTTCGGCATGAC -CCGTATCACCGGAGCACACTTCCCGATAAGTCGGATTTGGCGTATAGCCGCCGGTATAGCCTGCGGCGGTGCTGT -AAACGCCGGGTAACTGCCAGAACAGACGCTCCACACCCCAGAAACAACCCATCGCAAAAATGGCAATCTCCATTC -CGTCAGGTACATTGGTCATTGAGTGACCGTTGACCGCATGCAGCGTGGCTACGGGCATCGGGGTGTTACGTCCAG -GCAGGGCATCGGCGGGGGAAACCAGATGCTTTTTATCAAATAAACTCATGGTGTCGCTCTCCCGAAAATCGGTCA -TTGGGGTTAAGGTTGTAACAAGAGGCGTATTTGCACACAATAACCACCGTGAATAGGTCTAAAGTAAAACATAAG -AAATATTTGGGGTTTAGTCTGCTTTTTAATCCATATTACTGGATTTTTGTTAAGCCGTTTAACGGCGTTCCAGGG -GCAGGAAAAAAGGATATTCAGGAGAAAATGTGCGCTATATCCGACAGTTATGCTGTGTAAGCTTACTCTGCTTAA -GCGGATCTGCCGTCGCCGCGAACGTCCGTCTACAGGTCGAGGGGTTATCGGGACAGCTGGAAAAGAACGTTCGTG -CGCAGCTTTCTACGATTGAAAGTGATGAAGTGACGCCAGACCGTCGCTTTCGCGCACGCGTCGATGATGCCATCC -GCGAAGGTCTGAAAGCGCTGGGTTATTACCAGCCGACCATTGAATTTGATCTCCGTCCACCGCCAAAGAAAGGGC -GGCAGGTATTGATCGCCAAAGTCACGCCAGGCGTGCCGGTGTTAATTGGCGGCACCGATGTGGTATTGCGCGGCG -GCGCGCGGACCGATAAAGACTATTTGAAATTGCTCGATACTCGCCCGGCTATTGGCACGGTACTGAACCAGGGCG -ATTATGAAAATTTCAAAAAGTCCTTAACCAGCATTGCGTTGCGTAAAGGTTATTTCGATAGCGAATTTACCAAAG -CGCAGCTGGGCATTGCGCTCGGCCTGCATAAAGCCTTCTGGGATATTGATTATAACAGTGGCGAACGTTACCGCT -TTGGGCATGTGACCTTTGAAGGATCACAAATCCGCGATGAATACCTGCAAAATCTGGTGCCGTTTAAAGAGGGCG -ATGAGTACGAATCGAAAGATCTGGCAGAACTGAACCGCCGACTTTCTGCTACCGGCTGGTTTAACTCGGTGGTGG -TGGCTCCACAATTTGATAAAGCGCGCGAAACGAAAGTATTACCATTGACGGGCGTGGTTTCGCCGCGAACAGAAA -ACACCATCGAAACCGGGGTCGGTTACTCTACGGACGTGGGACCGCGCGTGAAAGCGACGTGGAAAAAGCCGTGGA -TGAACTCTTATGGTCACAGTCTGACCACCAGTACTAGTATTTCCGCGCCGGAACAGACCCTCGACTTCAGCTATA -AAATGCCGCTGCTGAAGAATCCACTGGAACAATATTATTTGGTGCAGGGCGGTTTTAAGCGCACTGACCTGAACG -ATACCGAATCTGACTCCACTACGCTGGTGGCTTCTCGCTACTGGGATCTCTCCAGCGGCTGGCAGCGTGCCATTA -ACCTGCGCTGGAGTCTCGACCACTTTACTCAGGGTGAAATTACCAATACCACGATGCTGTTTTATCCTGGGGTGA -TGATTAGCCGCACGCGTTCTCGTGGTGGCCTGATGCCAACCTGGGGCGACTCGCAACGCTACTCTATCGACTACT -CCAACACGGCCTGGGGTTCAGATGTCGATTTCTCCGTTTTCCAGGCGCAGAACGTCTGGATCCGCACACTGTACG -ATCGCCATCGTTTTGTTACACGCGGCACGCTGGGCTGGATTGAAACCGGTGATTTCGACAAAGTACCGCCGGATC -TGCGTTTCTTCGCCGGGGGCGACCGCAGTATTCGTGGCTACAAATACAAATCTATCGCTCCGAAATACGCCAACG -GTGACCTGAAAGGGGCCTCGAAGTTGATAACCGGATCGCTGGAATACCAGTACAACGTGACCGGAAAATGGTGGG -GCGCGGTGTTTGTCGATAGTGGCGAAGCGGTAAGCGATATTCGCCGCAGCGACTTTAAAACCGGTACCGGGGTCG -GCGTGCGCTGGGAATCGCCGGTCGGGCCAATCAAACTCGATTTTGCCGTACCGGTCGCGGATAAAGACGAACACG -GGTTACAGTTTTACATCGGTCTGGGGCCAGAATTATGAGTTTATGGAAAAAAATCAGCCTCGGCGTGGTTATCGT -TATCTTACTGTTGCTGGGATCGGTGGCGTTTCTGGTGGGCACCACCAGCGGCCTGCATCTGGTATTTAAAGCGGC -GGATCGCTGGGTGCCAGGACTGGATATTGGCAAGGTCACCGGCGGCTGGCGCGATCTCACCTTGTCTGACGTTCG -TTATGAGCAGCCAGGCGTGGCGGTAAAAGCGGGCAATCTGCATCTGGCTGTCGGGCTTGAGTGCCTGTGGAACAG -CAGTGTTTGTATTAATGATCTGGCGCTGAAAGACATTCAGGTCAACATCGACAGTAAAAAAATGCCTCCTTCTGA -ACAGGTTGAAGAAGAGGAAGATAGCGGTCCGCTGGATCTCTCCACGCCGTATCCCATCACCCTGACACGGGTGGC -ACTGGACAACGTCAACATTAAGATTGATGACACCACGGTATCGGTGATGGACTTCACCTCCGGCCTGAACTGGCA -GGAGAAAACCCTGACCCTGAAACCGACGTCGCTGAAAGGCCTGCTGATTGCTCTGCCGAAAGTGGCGGAAGTGGC -GCAGGAAGAAGTGGTCGAACCGAAAATTGAAAATCCGCAGCCGGATGAAAAGCCGCTCGGCGAAACGCTGAAAGA -TCTCTTTTCTCGCCCGGTATTGCCGGAAATGACCGACGTGCATTTGCCGCTTAACCTGAACATTGAAGAGTTTAA -GGGCGAGCAGCTGCGCGTGACGGGCGACACGGACATCACCGTGAGCACCATGCTGCTGAAAGTGAGCAGCATTGA -CGGCAATACTAAACTGGACGCCCTGGATATCGATTCCAGTCAAGGGATCGTCAACGCCAGCGGCACGGCGCAGCT -GTCAGACAACTGGCCGGTGGACATCACTCTCAACAGTACACTGAACGTGGAGCCGTTGAAAGGTGAAAAAGTGAA -GCTGAAAATGGGCGGCGCGCTGCGCGAACAGCTGGAGATTGGCGTTAATCTTTCCGGTCCGGTGGATATGGATTT -ACGCGCCCAGACGCGACTGGCGGAAGCCGGATTGCCGCTCAACGTGGAAGTGAACAGCAAACAGCTTTACTGGCC -GTTCACTGGTGAGAAGCAGTATCAGGCGGATGATCTGAAACTGAAACTTACCGGCAAAATGACCGATTACACGCT -CTCTATGCGTACGGCAGTGAAGGGACAGGAGATCCCGCCCGCGACTATTACCCTCGACGCCAAAGGTAATGAACA -GCAGGTCAATCTCGACAAACTCACCGTCGCGGCGCTGGAAGGGAAAACTGAACTCAAGGCGTTGCTCGACTGGCA -ACAGGCCATTAGTTGGCGCGGTGAGCTAACGCTTAACGGCATTAACACCGCCAAAGAGTTCCCGGACTGGCCGTC -GAAACTCAATGGCTTGATTAAAACCCGCGGTAGCCTGTACGGCGGCACCTGGCAGATGGACGTGCCGGAGTTGAA -GCTGACCGGTAACGTTAAACAGAACAAAGTGAACGTTGACGGCACGCTGAAAGGCAACAGTTATATGCAGTGGAT -GATCCCAGGGCTTCATCTGGAACTCGGGCCAAACAGTGCCGAAGTGAAAGGCGAGCTGGGGGTAAAAGATCTCAA -TCTTGATGCCACCATCAACGCGCCGGGGCTGGATAACGCGCTGCCGGGGCTTGGCGGTACAGCGAAAGGGCTGGT -GAAAGTACGCGGCACGGTGGAAGCGCCACAACTACTGGCAGATATCACCGCGCGCGGCCTGCGCTGGCAGGAACT -TTCCGTGGCGCAGGTTCGCGTGGAAGGCGATATCAAATCCACCGATCAGATCGCCGGGAAACTCGACGTACGCGT -TGAGCAAATTTCGCAGCCGGATGTAAATATCAACCTCGTCACCCTGAATGCCAAAGGCAGCGAAAAGCAGCACGA -GCTACAGTTGCGGATTCAGGGGGAGCCTGTCTCCGGGCAGCTTAATCTGGCAGGAAGTTTTGATCGCAAAGAAGA -ACGCTGGAAGGGAACTCTTAGCAATACCCGCTTCCAGACGCCGGTTGGCCCGTGGTCGCTGACCCGCGATATTGC -GCTGGATTACCGCAATAAGGAGCAAAAAATCAGCATCGGGCCACACTGCTGGCTTAACCCGAATGCGGAACTGTG -CGTGCCGCAAACTATCGATGCGGGGGCCGAAGGGCGTGCGGTGGTGAATCTCAACCGCTTCGACCTCGCCATGCT -GAAACCGTTTATGCCAGAAACCACTCAGGCCAGCGGTATCTTCACGGGTAAAGCGGACGTTGCCTGGGACACCAC -GAAAGAGGGGCTGCCGCAGGGCAGTATCACCCTTTCGGGGCGTAACGTGCAGGTAACGCAAACCGTCAACGATGC -GGCGCTGCCCGTGGCGTTTCAGACACTGAATCTGACGGCGGAATTGCGTAACAACCGTGCCGAATTGGGCTGGAC -CATCCGCCTGACCAATAACGGCCAGTTTGATGGACAGGTGCAGGTGACCGATCCGCAAGGCCGCCGTAATCTTGG -TGGCAACGTCAATATCCGTAACTTCAACCTTGCGATGATAAACCCCATCTTTACCCGTGGGGAAAAAGCAGCGGG -GATGGTGAGTGCCAACTTGCGTCTGGGTGGTGATGTGCAAAGCCCGCAGTTGTTTGGTCAGCTTCAGGTTACGGG -TGTGGATATCGATGGCAACTTTATGCCGTTTGATATGCAACCGAGCCAGCTTGCGGTCAACTTTAACGGTATGCG -CTCGACGCTTGCCGGTACAGTACGGACCCAGCAGGGTGAAATCTACCTGAACGGTGATGCCGACTGGAGCCAAAT -TGAAAACTGGCGGGCGCGGGTAACGGCGAAAGGCAGTAAAGTGCGGATCACCGTGCCGCCGATGGTACGAATGGA -TGTATCGCCAGATGTTGTATTCGAGGCTACACCAAACCTGTTTACCCTCGATGGTCGCGTGGATGTCCCTTGGGC -GCGCATCGTGGTGCACGATCTGCCGGAAAGCGCAGTAGGCGTCTCCAGCGATGTGGTGATGCTTAACGATAACCT -GCAACCGGAAGAGCCGAAAACGGCGTCGATTCCGATTAACAGTAACCTGATTGTCCACGTTGGCAACAATGTGCG -CATTGACGCCTTTGGCCTGAAAGCGCGGCTGACGGGCGATCTCAATGTCGTTCAGGACAAACAAGGGCTGGGTCT -GAACGGGCAGATCAACATCCCTGAAGGGCGCTTCCATGCCTATGGTCAGGATCTGATTGTGCGTAAAGGTGAGTT -ACTGTTCTCTGGTCCGCCAGATCAACCGTATCTTAATATTGAAGCTATTCGTAACCCGGATGCTACAGAAGACGA -CGTAATCGCCGGAGTTCGCGTCACTGGTCTGGCGGACGAACCGAAAGCGGAGATCTTCTCTGACCCGGCGATGTC -GCAACAAGCTGCCTTGTCTTATTTGCTACGTGGACAAGGGCTGGAGAGCGATCAGAGCGACAGTGCGGCAATGAC -CTCGATGCTGATTGGTTTGGGGGTTGCGCAAAGTGGCCAGATTGTGGGTAAAATCGGCGAGACGTTTGGCGTAAG -CAATTTAGCGCTCGACACCCAGGGAGTAGGCGACTCCTCCCAGGTAGTGGTCAGCGGCTATGTATTGCCAGGTCT -GCAAGTGAAATACGGCGTGGGTATATTTGACTCTATAGCAACACTCACGTTACGTTATCGCCTGATGCCTAAGCT -ATATCTGGAAGCCGTGTCTGGTGTAGACCAGGCACTGGATTTGCTCTATCAGTTCGAGTTTTAGCAATGCGAATA -TTTGTCTACGGCAGTTTACGCCACAAACAAGGCAACAGTCACTGGATGACCAATGCCCAGTTACTGGGCGATTTC -AGTATCGATAACTACCAGTTGTATAGCCTGGGCCACTATCCAGGCGCAGTTCCGGGGAACGGAACGGTACACGGT -GAAGTTTATCGTATTGACAACGCCACGCTGGCCGAACTTGATGCCTTGCGCACCAGGGGCGGTGAATACGCGCGC -CAGTTGATTCAGACGCCGTACGGGAGTGCATGGATGTACGTTTATCAACGACCCGTCGATGGATTAAAGCTAATT -GAAAGCGGCGACTGGTTAGACAGGGATAAGTAACCATATGCATACGCCACCTTCGGGTGGCGTTGTTTTTTGCGA -GACGACTCGCATTCTGTTTTGTAATTCCCTCACCTTTTGCTTTTCTCTCCGAGCCGCTTTCCATATCTATTAACG -CATAAAAAACTCTGCTGGCATTCACAAATGCGCAGGGGTAAAACGTTTCCTGTAGCACCGTGAGTTATACTTTGT -ATAACTTAAGGAGGTGCAGATGCGTATTACCATAAAAAGATGGGGGAACAGTGCAGGTATGGTCATTCCCAATAT -CGTAATGAAAGAACTTAACTTACAGCCGGGGCAGAGCGTGGAGGCGCAAGTGAGCAACAATCAACTGATTCTGAC -ACCCATCTCCAGGCGCTACTCGCTTGATGAACTGCTGGCACAGTGTGACATGAACGCCGCGGAACTTAGCGAGCA -GGATGTCTGGGGTAAATCCACCCCTGCGGGTGACGAAATATGGTAAAGAAAAGTGAATTTGAACGGGGAGACATT -GTGCTGGTTGGCTTTGATCCAGCAAGCGGCCATGAACAGCAAGGTGCTGGTCGACCTGCGCTTGTGCTCTCCGTT -CAAGCCTTTAATCAACTGGGAATGACGCTGGTGGCCCCCATTACGCAGGGCGGAAATTTTGCCCGTTATGCCGGA -TTTAGCGTTCCTTTACATTGCGAAGAAGGCGATGTGCACGGCGTGGTGCTGGTGAATCAGGTGCGGATGATGGAT -CTACACGCCCGGCTGGCAAAGCGTATTGGTCTGGCTGCGGATGAGGTGGTGGAAGAGGCGTTATTACGCTTGCAG -GCGGTGGTGGAATAAGGTGTGTTTATTTATCGCGGGCATAAAAAAACCCTTACTAACCGAAGCCCGGCGTTCAGG -GTTATTACGCCAGAAGAACTTATTTATTCTTTGCGCGCTCGAAGGAGGCAACGATTTCAGCTTTAGCGGCTTCTG -CGTTTTCCCAACCTTCAACTTTCACCCACTTGCCTTTTTCGAGGTCTTTGTAGTGCTCGAAGAAGTGAGCGATTT -GCGCTTTCAGCAGTTCAGGCAGATCGTTAACGTCTTTAATGTGATCGTATTCTTTGCTCAGCTTGCTGTGCGGAA -CCGCAACCAGTTTCGCATCTTCACCGGCTTCGTCGGTCATTTTCAGAACGCCAACCGGACGGCAACGGATCACAG -AACCCGGCTGCAGCGGGTACGGAGTTGGGACCAGTACGTCAACCGGGTCACCGTCCAGAGACAGGGTGTGGTTGA -TGTAACCGTAGTTGCATGGATAGAACATCGCGGTGGACATGAAGCGGTCAACGAACAGTGCGCCGCTCTCTTTGT -CGATTTCGTATTTGATCGGATCTGCGTTAGCCGGGATCTCAATAACAACGTAGATGTCTTCCGGCAGATCTTTAC -CCGCAGGGACGTTGAGTAAGCTCATGTCTGTTTCCTTTAAAAATATGTGGCAAACAAGTGCCGAGTATTATAGCC -AACTCGCGCCGAATGTCTTCGCTTGTTTTCGTCTTCATTTTCCTTTTTCACCAGTTTTAAGACGGTATACAGAGC -AGGAAAATCCATAACCGTAGCCGCATTTTTCATAGTGAGATGAAAGCGATTACAAACTTGTGATTAACGTTTTAT -TTACTTTTTTGAAGTGTGATGTAACGCAATCTGTTACATAACGAATTGTCTATAGTTTTTTCGCGAACATCTTTT -AACCAATAATAACTACCCCGACGAGGACAACCCTATGTGGAAACGCTTACTTATAGTCTCTGCAGTCTCGGCAGC -CATGTCGTCTATGGCGTTGGCCGCTCCATTAACCGTTGGATTTTCGCAGGTCGGATCGGAATCAGGCTGGCGTGC -CGCAGAAACCAATGTGGCGAAAAGTGAAGCCGAAAAGCGCGGAATCACGTTGAAAATTGCCGATGGTCAGCAAAA -GCAGGAAAACCAGATTAAAGCGGTACGTTCCTTCGTTGCACAAGGGGTGGATGCGATCTTTATCGCTCCGGTGGT -CGCGACAGGTTGGGAACCGGTATTAAAAGAGGCGAAAGATGCCGAAATCCCGGTATTCTTGCTCGATCGTTCCAT -TGATGTGAAAGACAAATCTCTCTATATGACCACCGTCACTGCCGACAACATCCTCGAAGGCAAGTTGATTGGTGA -CTGGCTGGTAAAAGAAGTGAATGGCAAACCATGCAACGTGGTGGAGCTGCAGGGCACCGTTGGGGCCAGCGTCGC -CATTGACCGTAAGAAAGGCTTTGCCGAAGCCATTAAGAATGCGCCAAATATCAAAATCATCCGCTCGCAGTCAGG -TGACTTCACCCGCAGTAAAGGCAAAGAAGTCATGGAGAGCTTTATCAAAGCGGAAAACAACGGCAAAAACATCTG -CATGGTTTACGCCCATAACGACGACATGGTGATTGGTGCAATTCAGGCAATTAAAGAAGCGGGCCTGAAACCGGG -CAAAGATATCCTCACGGGTTCCATTGACGGTGTACCGGACATCTACAAAGCGATGATGGATGGCGAAGCGAACGC -CAGTGTTGAACTGACGCCGAATATGGCAGGTCCCGCCTTCGACGCGCTGGAGAAATACAAAAAAGACGGCACCAT -GCCTGAAAAGCTGACGTTAACCAAATCCACCCTTTACCTGCCTGATACCGCAAAAGAAGAATTAGAGAAGAAGAA -AAATATGGGGTATTGAGGGTTGCTATGCCTGATGCCGATTCGTAGGCCGGATAAGGCGCTCGCGCCGCATCCGGC -GATGGTGCACTGAAGCCTGATGCGACGCTTACCGCGTCTTATCATGCCTACTGGGAGCACGCTTTACACCGGGGG -AAACCATGACGACCGACCAACACCAGGAGATCCTCCGCACCGAAGGATTAAGTAAATTTTTCCCCGGCGTCAAAG -CGTTAGACAACGTTGATTTCAGCCTGCGCCGTGGCGAAATCATGGCGCTGCTCGGTGAAAACGGGGCGGGAAAAT -CAACGCTAATCAAAGCATTAACTGGTGTATACCACGCCGATCGCGGCACCATCTGGCTGGAAGGCCAGGCTATCT -CACCGAAAAATACCGCCCACGCGCAACAACTCGGCATTGGCACCGTCTATCAGGAAGTCAACCTGCTACCCAATA -TGTCGGTCGCTGATAATCTATTTATAGGCCGCGAACCCAAACGCTTCGGCCTTCTACGCCGCAAAGAGATGGAAA -AGCGCGCCACCGAACTGATGGCATCTTACGGTTTCTCCCTCGACGTGCGCGAACCGCTCAACCGCTTTTCAGTCG -CGATGCAGCAAATCGTCGCTATTTGTCGGGCTATCGATCTCTCTGCCAAAGTGCTGATCCTCGATGAACCCACCG -CCAGTCTCGACACCCAGGAAGTGGAGTTACTGTTTGACCTGATGCGTCAGTTGCGCGATCGCGGCGTCAGCCTGA -TTTTTGTCACTCACTTTCTCGATCAGGTCTATCAGGTCAGCGATCGGATCACCGTCTTACGCAACGGCAGTTTCG -TAGGCTGTCGGGAAACGTGCGAGCTACCGCAGATCGAACTGGTAAAAATGATGCTGGGGCGCGAGCTGGATACCC -ACGCGCTACAGCGTGCCGGGCGAACATTGTTGAGCGACAAACCCGTTGCCGCGTTCAAAAATTACGGCAAAAAAG -GAACGATCGCACCGTTTGATCTCGAAGTACGCCCCGGCGAGATCGTCGGTCTGGCTGGATTGCTGGGATCAGGAC -GTACCGAAACCGCCGAAGTGATCTTCGGTATCAAACCTGCTGACAGCGGCACGGCGTTGATCAAAGGCAAACCGC -AAAACCTGCGATCGCCACATCAGGCTTCGGTACTGGGCATTGGCTTCTGCCCGGAAGACAGGAAAACCGATGGCA -TCATCGCTGCCGCCTCGGTGCGGGAAAATATCATCCTCGCTCTCCAGGCCCAGCGCGGCTGGCTACGTCCCATTT -CCCGCAAAGAACAGCAAGAGATTGCCGAACGCTTTATCCGCCAGCTTGGCATTCGCACACCTTCAACTGAACAAC -CGATTGAATTTCTCTCCGGCGGCAATCAGCAAAAAGTGTTGCTTTCACGTTGGCTACTGACCCGACCGCAATTTC -TGATCCTCGATGAGCCAACCCGCGGCATTGATGTTGGTGCCCACGCCGAGATCATCCGCCTGATTGAAACGCTAT -GCGCCGATGGTCTGGCGCTGCTGGTGATCTCCTCCGAACTGGAAGAGCTGGTGGGCTATGCCGATCGGGTGATTA -TCATGCGCGATCGCAAACAGGTGGCGGAGATCCCGCTGGCAGAGCTTTCCGTTCCGGCGATCATGAACGCCATTG -CGGCGTAAGGAGAACAGTGTGATGCCTCAATCTCTTCCGGACACCACTACGCCAAAAAGGCGCTTTCGCTGGCCG -ACGGGGATGCCGCAGCTGGTAGCACTATTGCTGGTGCTGCTGGTCGATAGCCTGGTAGCCCCGCATTTCTGGCAG -GTGGTGCTTCAGGATGGGCGTTTGTTCGGTAGCCCCATAGACATTCTTAACCGTGCAGCTCCCGTTGCGTTACTG -GCGATTGGCATGACGCTGGTGATCGCCACCGGTGGGATTGATCTCTCCGTAGGGGCGGTGATGGCTATCGCCGGA -GCCACAACGGCTGCGATGACGGTCGCGGGATTCAGCCTGCCGATTGTTTTGTTAAGCGCCCTGGGCACCGGCATC -CTGGCGGGATTGTGGAACGGCATACTGGTAGCGATCCTCAAAATTCAGCCGTTTGTCGCCACTCTGATCCTGATG -GTCGCCGGGCGCGGCGTGGCGCAACTGATCACCGCCGGGCAGATCGTCACGTTTAACTCGCCGGATCTCTCATGG -TTCGGCAGTGGATCGCTGTTGTTCCTGCCAACGCCGGTCATTATCGCGGTGCTGACGCTTATCCTGTTCTGGCTG -TTGACCCGCAAAACGGCGCTGGGGATGTTTATCGAAGCCGTTGGTATCAACATTCGGGCGGCAAAAAATGCCGGG -GTAAACACGCGAATCATCGTCATGCTCACTTATGTGTTGAGCGGGCTGTGTGCGGCGATTGCGGGCATTATCGTG -GCGGCGGATATTCGCGGTGCCGATGCCAACAACGCTGGGTTATGGCTGGAGCTGGACGCCATTCTCGCGGTGGTG -ATTGGCGGCGGATCGCTGATGGGCGGGCGCTTTAACCTGCTACTTTCGGTGGTGGGGGCGCTGATTATTCAGGGG -ATGAACACCGGAATTTTGCTTTCGGGCTTTCCGCCAGAGATGAACCAGGTGGTGAAAGCGGTGGTGGTGCTTTGC -GTGCTGATTGTTCAGTCGCAACGCTTTATCAGTCTGATTAAAGGAGTACGTAGCCGTGATAAAACGTAATTTGCC -ACTGATGATCACCATCGGCGTCTTTGTGTTGGGTTATCTTTACTGCCTGACCCAGTTTCCCGGTTTTGCTTCCAC -AAGAGTGATCTGCAATATCCTGACCGATAATGCCTTTCTTGGGATCATTGCCGTTGGCATGACCTTTGTGATCCT -CTCAGGTGGGATCGATCTCTCCGTCGGTTCGGTGATCGCCTTTACTGGCGTGTTTCTGGCAAAAGTGATTGGCGA -TTTCGGCCTCTCGCCGCTGCTGGCGTTTCCGCTAGTGCTGGTGATGGGCTGTGCCTTCGGCGCATTTATGGGGCT -TCTGATCGACGCCCTGAAGATCCCGGCATTTATCATTACGCTTGCGGGGATGTTCTTTTTGCGCGGCGTCAGCTA -TCTCGTTTCGGAAGAGTCGATTCCGATAAACCATCCCATTTATGACACGCTCTCAAGCCTTGCGTGGAAAATCCC -TGGCGGCGGTCGCTTAAGTGCGATGGGACTGCTGATGTTGGCGGTGGTGGTTATCGGCATATTCCTCGCGCATCG -TACCCGTTTTGGTAATCAGGTATACGCCATTGGCGGCAACGCAACGTCGGCGAATCTGATGGGGATTTCCACTCG -CAGCACCACTATTCGCATTTATATGCTCTCCACCGGACTGGCAACGCTGGCGGGGATTGTCTTCTCGATTTATAC -CCAGGCCGGATATGCGCTGGCGGGCGTAGGTGTGGAACTGGATGCTATCGCCTCAGTGGTAATTGGCGGTACGCT -TTTGAGCGGTGGCGTTGGAACGGTATTAGGGACGCTTTTTGGCGTGGCGATTCAGGGACTGATTCAGACTTACAT -AAACTTTGATGGCACGCTGAGTTCCTGGTGGACGAAAATCGCCATCGGTATTTTGTTGTTTATTTTTATAGCATT -ACAGCGTGGATTAACGGTGCTGTGGGAGAATCGTCAGAGTTCGCCAGTGACAAGAGTCAACATTGCGCAGCAATA -AAAACGCCTCTCCGTGTGGAGAGGCGCAGGAGATTACGCGTCCGGGAACTCACGGATAAAGCGTTCGACATCTTC -AACCATATGGTCGTTGCCGACAAAGAATGAACGGCGCTGGTGCAGGGTTTCCGGGATGATATCCAGAATACGCTC -TTTGCCATCGCTCGCTTTACCGCCCGCTTGTTCCGCCAGGAATGCCATCGGGTTGCACTCATACAGCAAACGCAG -TTTGCCGTCCGGGTGGCTGGCGGTGCTTGGGTAGAGATAAATACCGCCTTTCAGCAGGTTACGGTGGAAATCCGC -GACCAGTGAACCGATATAACGTGAGGTATAAGGGCGGTTGGTGGATTTATCTTCTTCCTGGCAGAATTTAATGTA -CTTCTTCACCCCGTTCGGAAACTTAATGTAGTTTCCTTCGTTGATGGAGTAGGTTTTGCCTTTCTCCGGGAAGCG -CATCCGTTCCTGGCACAGGCAGAAAACGCCGAGCGAAGGATCGTAAGTAAAGGCGTGAACACCGCATCCGGTGGT -GTAAACCAGCATGGTAGAGGAGCCGTATACCACGTAACCTGCCGCAACCTGTTTGTTACCAGGCTGGAGGAAATC -TTCTTCCGTTACCGGCGTGCCAACAGGCGTAACGCGGCGGTAGATGGAGAAAATGGTACCGACAGAGACGTTAAC -ATCGATGTTGGACGAGCCATCCAGGGGGTCCATCAGCACCACGTATTTTGCGTGTTCACAGCCTTCAAAGACGAC -AATCTCATCTTCTTCTTCAGAGGCAATGCCCGCAACGATATCGCGTGCTTTCAGTGCGGCTTTCAGTTTTTCATT -AGCGAACAAGTCGAGTTTCTGCTGAACCTCGCCCTGCACGTTCTCAGCACCGCTGGCACCCAGGATATCAACCAG -TCCTGCTTTGTTGATATCGCGATGGATAATCTTGGCGCCCAGTTTTATTGCCGACAGCAAAGCAGTGAGCTCACC -GGTAGCATGAGAAAACTCGTGCTGCTTTTCGACAATAAATTCACCTAACGTTTTCATAAAACTTTCCCTGCAATG -TTTATGGAGTAAAGCGACCGCAACAATCTTAACAAATAATCTCAATGTTGCGCTCAGGTGAATCGCGCCAGCAAA -TTACGGATTATCCTGAAATGCGTTTCTCACTTGCCCGACATATGCGTAAAATGAGCGGCAGATTAAAAAAGGATA -GTGACGTATGCGCATTCATATTTTAGGAATTTGTGGCACATTTATGGGCGGTCTGGCGATGCTGGCGCGCCAGTT -AGGCCATGAAGTAACGGGTTCGGACGCCAATGTGTATCCGCCGATGAGCACCTTACTTGAGAAGCAAGGCATTGA -GCTGATTCAGGGGTACGATGCCAGCCAGCTCGAGCCGCAGCCGGATCTGGTGATTATTGGCAACGCCATGACCCG -TGGAAATCCGTGTGTGGAAGCGGTACTGGAAAAAAATATCCCTTATATGTCAGGTCCACAGTGGCTGCACGATTT -TGTGCTGCGCGACCGCTGGGTGCTGGCCGTTGCCGGTACACACGGCAAAACCACCACCGCGGGAATGGCGACCTG -GATTCTGGAACAGTGTGGTTACAAACCGGGCTTTGTAATCGGCGGTGTGCCGGGGAACTTTGAGGTTTCGGCTCA -TCTGGGCGAAAGCGACTTCTTTGTTATCGAAGCGGATGAGTATGACTGCGCCTTCTTCGACAAACGCTCTAAATT -TGTTCATTACTGCCCGCGTACGCTGATCCTCAACAACCTTGAGTTCGATCACGCCGATATCTTTGACGACCTGAA -AGCGATCCAGAAACAGTTCCACCATCTGGTGCGTATCGTTCCGGGGCAGGGCCGTATTATCTGGCCGGAAAATGA -CATCAACCTGAAACAGACCATGGCGATGGGCTGCTGGAGCGAGCAGGAGCTGGTGGGTGAGCAGGGTCACTGGCA -GGCGAAAAAGCTGACCACCGATGCTTCCGAATGGGAAGTTTTGCTGGATGGCGAAAAAGTGGGCGAAGTGAAATG -GTCGCTGGTAGGCGAACATAATATGCACAATGGCCTGATGGCGATTGCAGCGGCTCGCCATGTTGGTGTAGCGCC -GGCAGATGCCGCTAACGCGCTGGGTTCGTTTATTAATGCTCGTCGCCGTCTGGAGTTGCGTGGTGAAGCGAATGG -CGTCACGGTATATGACGATTTTGCCCATCACCCGACGGCGATTCTGGCAACGCTGGCGGCGCTGCGTGGCAAAGT -TGGTGGTACGGCGCGCATTATTGCTGTGCTGGAGCCGCGCTCGAATACCATGAAAATGGGGATCTGCAAAGACGA -TCTGGCACCTTCATTAGGTCGTGCCGATGAAGTCTTCCTGCTGCAACCGGCGCATATTCCGTGGCAGGTGGCAGA -AGTGGCAGAAGCCTGCGTTCAGCCTGCACACTGGAGTGGCGATGTGGATACGCTGGCAGATATGGTGGTGAAAAC -CGCTCAGCCTGGCGACCATATTCTGGTGATGAGCAACGGCGGTTTTGGTGGGATCCATCAGAAACTGCTGGATGG -GCTGGCGAAGAAGGCGGAAGCCGCGCAGTAATTCGGCCTTAGCCAGATATAGTATGCGTAGGCCGGATAAGGCGT -TCACGCCGCATCCGGCATTTGAGCATAGTGCCTGATGCGACGCTTGATGCGTCTTATCAGGCCTACAGGTGCACC -GTATCCGGCAAACCATACTCACATCAACAACGAAAATTACCCTTCGTTCTCCGCTAACTCGCGCAGATACTGGAA -AATCTGGCGTGCGGATTTCGGCGGCTTATTCCCTTCTTTCTCTTTCTTCGCGTTGCGGATCAGAGTACGCAGTTG -CTGACGATCGGCATCGGGCCACAGATTTAATACCTCAGCGATGGCGTCATCACCTTGATCGATCAGACGATCGCG -CAGGTTTTCCAGTTTATGGAACAGCACCACCTGCTGGTTGTGACGGTTTTTCAGCTTATCCAGCGCCTGACGAAT -AGGCTCTACGTCGCGCTGGCGCAGCATCTTACCGATGAGCTGCAACTGGCGGCGGCGACCTTCCATCTTAATACG -CTGGGCGAGCTCAATAGCCGCGCGCAGATCCGCATCTAACGGGATCTTATCCAGCGCGTTTTTCCCCAGATCAAC -AATTTCCGCGCCAAGGCGTTTTAGCTCCTCGGCATCACGTTTAATTTCACTTTTACTGACCCAGATAATTTCATC -GTCTTCGTCTTCGATGTCATCACCGGGAACGTCGTCGAGCCAGTCTTCGGGCTGCTTAGTCATCTCAGGCTCCTT -AAAAAAAGAGGCTAATGTTACCAGTTAAGATGCGCACTGAAAAACGGTTCTCTGTTAGACTTCAGAGAAACTCTC -TACATTATGGCACTTGCAATGAAAGTAATCTCTCAAGTTGAAGCGCAGCGCAAGATTCTGGAAGAAGCAGTTTCC -ACTGCGCTGGAGTTGGCCTCAGGCAAATCGGACGGTGCGGAAGTTGCCGTCAGCAAGACCACCGGCATTAGCGTA -AGCACGCGTTATGGTGAAGTGGAGAATGTTGAATTCAATAGCGATGGCGCGCTGGGGATCACTGTTTATCACCAG -AACCGCAAAGGTAGCGCATCATCCACCGATTTAAGCCCGCAGGCCATTGCCCGTACTGTACAGGCGGCGCTGGAT -ATTGCCCGTTATACCTCGCCAGATCCCTGTGCCGGCGTGGCAGACAAAGAGCTGCTGGCCTTTGACGCACCAGAT -CTCGACTTGTTCCACCCTGCGGAAGTTTCCCCGGATGAAGCCATTGAACTGGCGGCCCGCGCAGAACAGGCGGCA -TTGCAGGCGGACAAACGCATCACCAATACCGAAGGTGGCAGCTTTAACAGCCACTACGGTGTCAAAGTTTTTGGC -AACAGCCACGGCATGTTGCAGGGTTACTGCTCAACGCGTCATTCGCTCTCCAGCTGTGTAATTGCCGAAGAAAAT -GGCGATATGGAGCGTGATTACGCCTACACCATTGGTCGTGCGATGAGCGATCTGCAAACGCCAGAGTGGGTTGGG -GCCGACTGTGCTCGCCGTACTTTATCGCGTCTGTCACCGCGTAAACTCTCCACCATGAAAGCGCCAGTCATTTTT -GCCAATGAAGTGGCAACCGGGCTTTTTGGGCATCTGGTGGGGGCGATAGCGGGTGGATCGGTTTATCGTAAATCT -ACCTTCCTGCTGGATTCGCTGGGTAAACAAATTCTGCCGGACTGGCTGACCATTGAAGAGCATCCGCATCTGCTG -AAAGGGCTGGCGTCGACGCCATTCGACAGCGAAGGTGTGCGCACCGAGCGTCGCGATATTATTAAAGATGGCATC -CTGACTCAGTGGCTGCTGACCAGCTACTCGGCGCGGAAACTGGGGCTGAAAAGCACCGGACATGCGGGCGGTATT -CACAACTGGCGGATTGCCGGACAAGGTCTAAGCTTCGAGCAGATGCTCAAAGAGATGGGCACCGGGCTGGTGGTG -ACGGAATTGATGGGCCAGGGCGTGAGTGCCATTACCGGTGATTATTCCCGTGGTGCAGCGGGCTTCTGGGTAGAG -AATGGCGAAATTCAGTATCCGGTGAGCGAAATCACCATCGCAGGTAATTTAAAAGATATGTGGCGCAATATTGTC -ACCGTCGGTAACGATATTGAAACACGCAGTAATATACAGTGTGGTTCTGTGCTGTTGCCGGAGATGAAAATCGCC -GGACAGTAAAAAAACTGGCGCGACCTGCCGCGCTATAAACTAAAAAATTACACAAAATCATTCGCACTGCATCGA -GACGGAAAGTGAATGAGGGCCGGGGAGCGTACTCGCAGTACGTGACCCGGTCGAATGAGCGTAGTCGTCGATGAG -GCAGTGTGAAGGATGAAGTGTAAATAAAAAAGGAACTATTCTTGCAGTCTCCTCGTTGGTATTCAGTTCGGCGTC -ATTTGCTGCTGATCTCGAAGACAATATGGAAACCCTCAACGACAATTTAAAAGTGGTCGAAAAAGCCGATAACGC -GGCGCAAGTCAAAGACGCGTTAACGAAGATGCGCGCCGCAGCGCTGGATGCGCAAAAAGCAACGCCGCCGAAGCT -CGAAGATAAATCACCGGACAGCCCGGAAATGAAAGATTTCCGCCACGGTTTCGACATTCTGGTCGGTCAGATTGA -CGACGCGCTGAAGCTGGCAAATGAAGGTAAAGTAAAAGAAGCGCAGGCTGCTGCAGAGCAACTGAAAACGACCCG -CAATTCATATCACAAGAAGTATCGTTAATTCCTCATTTCCCTGTTGCCTGCACTCAGGTAACAGGGAACTTATCA -TCGCAAATGATGCACCACCTGATTGCTGCTGCCGCGCCAGATCAGGGAAGGGTCTTTTAAATCCTGCACAAATTT -GCCGTCGACCAGCACGTTAATCAAATCAACAACCTGCATTTGCGCAGCGTTGAGTTCGTCGAGTTTATAGCCTGT -CCACACCCAGATGTCTTTACCCGGACACTCGGCGCGGATGCGTTGTACCAGTTTCAGAATATCCGGCACGTTTTG -CGGATGCAGCGGATCGCCGCCGGAGAGGGAAATACCCTGGCGTTTGATACGAGTGTCATTCAGATCGTTAATGAT -CTGGTCTTCCATTGCTTTGGTAAATGGCTGACCGGAATTTACCCGCCATGTGCTTTTGTTATAGCAACCGGGGCA -TTCATGAACACACCCGGAGACAAACAGGGTGCAACGAGTGCCGGGGCCGTTGACGATGTCGACAGGATAGTACTG -ATGATAATTCATTATTTCGCCTGGCTTATCAGTCCGCGTGTAGGCTGCATCCGGTAATCAATGCCTGATGCGACG -CTGTCGCGTCTTATCAGACCTGGAGCAATTGCCAAATGTAGGCCGGATAAGGCGTTTACGCCGCATCCGGCATTT -GCTTAGCTCAGAGTGAAGATTAACCTATCTGCCCATTCCCCAAATGTTTAACGCGGCGCTTAACTTCTTCCTGCT -TACCAGCGTTAAACGGACGTGCATCCGGGCTACCTAAATATCCGCACACGCGGCGAGTTACCGACACACGGGAGG -CGTCATGGTTACCACATTTCGGGCAAGTGAAGCCTTTGCTGGTGCACTCGAACTCACCGGTAAAGCCACACTCGT -AGCACTCATCAATCGGTGTATTGGTGCCGTAATACGGTACATGCTGATAGCTGTAATCCCAGACATCTTCCAGCG -CCTTCAGGTTGTGCTGAATGTTTGGATACTCGCCGTAGCAAATGAAACCACCGTTCGCCAGCGGCGGGTAAGGCG -CTTCAAAGTCGATCTTGTCGTACGGGTTCACCTTCTTCTCCACATCGAGGTGGAAACTGTTGGTGTAGTAACCTT -TATCGGTCACGCCCGGCACCACGCCAAACTCAGCAGTATCGAGACGGCAGAAGCGATCGCACAGGTTTTCACTCG -GCGTGCTGTAGAGACTGAAACCATAACCCGTTTCTTCTTTCCACTGATCCACTGCCTGACGCAGACGTTCAACAA -TGGCGATACCTTTCGCGCGAAGCTGCTCGTTGTCGTAAACATGCTCGCCGCCGAACAGCGCGTTAATGGTTTCGT -GGATGCCGATGTAACCCAGCGAAATAGACGCACGACCGTTTTTGAAGATTTCAGAAACATCATCGTCAGCATTGA -GACGCACGCCACAAGCACCTTCCATATAGAGGATCGGGGCCACGCGCGCTTTCACGCCTTCGAGACGAGCGATAC -GGGTCATCAGCGCCTTACGTGCCAGCACCAGACGTTCATCCAGCAGCTTCCAGAAGGTGGCTTCATCGCCTTTTG -CTTCCAGAGCAATACGCGGCAGGTTCAGGCTGATCACGCCGAGGTTGTTACGACCATCGTGGATCTGCTCGCCGT -TTTCATTTTCCCACACGCCGAGGAAGCTGCGGCAGCCCATCGGAGTTTTAAACGAACCGGTGACTTTCACTACCT -GATCGTAGTTCAGGATATCCGGATACATGCGCTTGCTTGCGCACTCCAGCGCCAGCTGTTTGATGTCGTAGTTCG -GATCGCCTTTTTTATGGTTCAGGCCATCGCGAATCGCAAACACCAGTTTCGGGAACACCGCAGTTTTACGGTTTT -TACCGAGGCCTGCGATACGGTTACGCAGGATCGATTCCTGAATCAGGCGCGATTCCCAGCTGGTGCCCAGGCCAA -AACCAAAGGTTACAAACGGCGTCTGACCGTTGGCGGTGTGCAGGGTGTTTACTTCGTACTCCAGTGACTGGAAGG -CATCGTAGCACTCTTTGATGGTTCGAGAGTTAGCGTAGCCTTCGGCGTCCGGGATGTTCCACTCTTCTGCGGTCT -TGCGATGTTTGTTGTAGCTGGCAGTGACAAACGGTGCCAGCACTTCATCGATACGGTTAATGGTGGTGCCGCCAT -AAATATGGCTGGCAACCTGAGCAATAATCTGCGCAGTTACCGCGGTTGCCGTAGAGATCGACTTCGGCGGTTCAA -TCTCGGCGTTCCCCATTTTAAAGCCCTGGGTCAGCATGCCTTTCAGGTCGATCAACATGCAGTTGAACATCGGGA -AGAACGGTGAGTAATCGAGATCGTGATAGTGAATATCGCCACGCTCATGTGCCTGCACCACGTCACGCGGCAGCA -GGTGCTGACGTGCATAGTGTTTAGCCACGATCCCGGCCAGCAGGTCGCGCTGGGTTGGAATCACCTTGCTGTCTT -TGTTGGCGTTTTCGTTGAGTAACGAGGCGTTGGTCTGCTCGACCAGACCACGGATCTCCTGGTTCAGGCGACCGC -GTTTTTCACGTTCAATGTCGCGATCGTGACGGTACTCGATGTAAGCACGAGCCAGTTGTTTGTATGGACCTGACA -TCAGCTGATTTTCAACTGCGGTCTGGATCTCATTGATATCCACCTGGTTGCGGCCCTGCATCTGCTCGCTGACAA -CCGCGGCAACAGTGGCGCAATAATCGGCATCATCGACTTCCGCTGCTTTAGCTGCACGCAGAATCGCTTCTTTGA -TGCGCTCTGATTTAAACGGCACTTTGCAGCCGTCTCGTTTCATCACATGCGGTGTCATGATCGCTCCATATTTTT -AAGAACAGGTTATCCACAGAAATTGGGAAAGGCGTTTTCCGGTTTTTTCGTTTCGTTTTCCGGTGCTTTCCGCAA -TCGCCATCCGCTTATCCACAACGCCGCACCTTTTTCGTGGGGAGCTGTAGTAGCAATTATAGTCGATTAATACAA -CATATTGGGTTGGGACGCATTTTAAAGTCTATATATAGTGCTTTGCATCAAGGATGTTTGAGCTTTTTTTGATGT -AGCTCAAAGTAAAAAGCAGAGCGTACGGATGACGGGCGCTACAGCGATATGTAAATTTTTTAATGAATTTGCTGG -TTGAAAAATCAACAAAAACAACATACTGACAGACAAAACCCCGGAATGACCGGCATTACCGGGGCTTAGGGAAGA -TTTACTTCTGTAACCACCAGACAGCCTCAAAAGGCCGTAAATTCATGGCACAGGGTTGTGGTGAGGCTTCTTCGT -AGTTATGCATCACAAGCTGCCAGTTGCCGCGCATTTGCCCTGCCTGCCAGGGTTGGATCTCACGGCTAAGGTTGG -CAATGACCAGCAAGGTTTGCCCCTTCCATTCACGGCGATAGCACCACAATACAGGGCTGTTTGGCAGCAGATCCT -GGTAATTGCCCCATGTCAGGATGGCTTCCTGCTTACGCAGTGCGATTAACTTTTGGTAGGTGTAAAACACCGAGG -AATCATCGGCCAGCGCGGCTTCTACGTTGATTTGTTGATAGTTATCGCCCAGGCCAATCCACGGTTCGCCAGCCG -TAAACCCGGCATTATCGCCGTTGCTCCATTGCATGGGCGTGCGACTGTTGTCACGGGATTTACTGGCGAGGATTG -CCAATAACTCGTCGGCATCACGCCCATCGTTGCGCAGCTCGGCAAACATATTGAGGCTCTCTACGTCGCGATAGT -CAGTAATGCGCGTGAAATGCGGGTTGGTCATGCCAATCTCTTCGCCCTGGTAGATATACGGCGTTCCCTGCATGC -CATGCAGCACCATCGCCAGCATTTTTGCCGCAGGCACGCGGTATTCACCTTCATCACCAAAGCGAGAAACAATGC -GCGGCTGATCGTGGTTACACCAGAACAAGGCATTCCATGCTACGTTGTGCATTCCTTGTTGCCAGTGGCGGAACA -ATGTTTTCAACGCCACAAAGTCAGGTTTAGCCAGCGTCCATTTTTCACCACCGGGATAATCGACCTTCAGGTGAT -GAAAATTAAAGGTCATCGACAATTCACTGCCTGTCAGAGCCGCGTATCGCTGGCAATGCTCAAGGCTGGTGGAGG -ACATTTCACCTACGGTCATTAACCCGCGTGGCGTAAACACATCGCGGTTCATCTCGTGCAAAAACTCGTGTGCTC -GTGGCCCGTCGGTGTAGAAGCGACGCCCGTCGCCGTCCAGGTCTTCAGGGAAACGCGGGTCTTTGGAGATCAGAT -TCACCACATCCAGGCGCAACCCGTCGACCCCACGATCGGCCCAGAACTCACAGACTTTTTTCAGCTCTGCGCGTA -CCGCTGGATTCTCCCAGTTGAGATCCGCCTGTTCTGGTGCAAAGAGATGCAAATAGTACTGTTCGCTTTCCGCAT -GCCAGCGCCACGCACTACCGCCAAATTTTGAACGCCAGTTGTTCGGTGGCGTTTCTGGTTCTCCATCGCGCCAGA -TATAAAACTGGCGGTAAGGGCTTTCTTTGTTCAGCGCCTCGCGAAACCAGGCATGTTGGGTAGAGGTATGGTTAA -ACACCATATCGAGAATGATACGAATCCCGCGCGATTTTGCCTGCGTCACCAGTTCGTCAAAATCGTCCAGCGTGC -CGTAGGTGGGATCAATCGCCGTATAGTTCGCTACGTCGTAACCGTTATCGACCTGGGGAGAGACATAAAAGGGGG -TTAGCCAGATGGCATCAACGCCCAGTTTATGCAGATAGTCCAGGTGTTGGATAACGCCACGTAAATCGCCGGTAC -CGCTACCCGTGGTGTCCTGAAAACTCTTTGGATAAATCTGGTAGATAACGCCGTTTTGCCACCAGTGGGGAAGAT -GAGTCATTACGTTATTCCTGCGAATGCGAGGGGGCGCAATTGCGCCCCGAAGAAAATTAAACAATGTCCAGCGTG -CCCAGGCGGTATTTCCGCTGATAGATAAACGAGGTGAGTACAATCGGGATGATGATGGCGATAGCCATTGCCAGC -GCAAACACCTGCCAGTAGCTCGGTTGAATCGAGAGAATTCCCGGCAGGCCGCCTACGCCGATGCCATTCGCCATA -ACGCCGTTCAGGCCGCATAGCAATCCTGCCAGACCAGAACCAATCATCGCGCACAGCATCGGGAAGCGATATTTC -AGGTTGATGCCGTACATTGCAGGCTCAGTGACCCCAAGCCAGGCGGAGATAGCGGCAGGCACGGAGATCTCGCGT -TCATTGTGCTTGCGGCTGGAAATGATAATGCCTATCACGGCGGAGCCCTGAGCGATATTCGACAGCGCAATCAGC -GGCCACACTGGCGTACCACCCATGCTTTGAATCATCTGCAAATCAATAGCAAGCGTGGTCTGGTGTACACCGGTG -ATCACCAGCGGGGCGTACAGGAAGCCAAACAATGCTGCGCCAATCGGAGCAAAGCTGCCGGTCATCAGGTGACGT -ACCGCAAAGGCAACGCCATCGCCAATCATGCGACCAAACGGACCAATCAGCGCATGGGCGAGGAACACCGCGAGG -ATCAGCGAACAGACGGGTACCACCACCAGATAGAGGTAATCCGGCACGATGCGTTTAAGGCGAGTTTCAATAACG -CCCAGCGCCAGTCCGGCTAACAGTGCCGGGATCACCTGCGCCTGATAGCCTACTTTGGCGATGCTGAACATGCCA -AAGTCCCACACTTCCGGCAGCTGCTGCCCGAGCAGATAAGCGTTCATCAGCTGTGGAGAAACCAGTGTCACGCCA -AGCACGATACCAAGGATCGGCGTGCCGCCCATTTTTTTCACCGCTGACCAGCAAATACCGACCGGCAGGTAGAAG -AAGATCGCTTCACCGATCAACCACAGAAAATCGTAGATCGTTTGCAGGGAAGGGTACATTTGCGCCAGCGTCTGA -CCGTTGCTCATGGGCAAATCGCCGATCACATTGCGAAAACCGAGGATCAAACCGCCGCTAATCAACGCGGGCAGC -AACGGGAAGAAGATCACCGCGAAATGAGAGATCAACTGCTCATGCCATTTCATATTATGCCGGGCGGCTTTTTTT -ACCTGCTCTTTATCAACCTGCGCCTGTCCGGTTGACGCAATCAGTGCTTGATAGTAATCACCCACGTTGGTGCCA -ATCACCACCTGAAATTGCCCGGCATTGGTGAAACAGCCTTTCACCATAGGGAGTTGCTCAATTTCTTTCGGTCTG -GCATTGGCCGGTTGGTTGAGGACAAAGCGTAGGCGAGTAATACAGTGGCTCACCGTCGCAATATTGCCGCGCCCG -CCGACCAGTTCAATCAACCGATCGATATCCGTTTGGTTTATTTTGCTCATCATAAAGCCCCATGGCAGATGACAT -TTTTGGTTGGCTGCAGAATATATTGCGCGGAAAAATTTAAAAACGGGAACGTTCCCGAAACGCAGCGAAGATCAC -AATTTATCGTTCAGGAAACGATCAGGACAGGGTGGCGGGGATGATGATTTGTTGCGGTTCGCTGCGCCCGGTTAC -CTGCGCGATCAACTGGCAAGCCGCCTGGCGTCCAGCTTCGGCGTAACCGGGATCTACGGTTACGATCTCCGGATG -GAGGAATTTCATTAACGGCGTATTACCGACGCTCGCCAGTTGCAAGGTGTCGATGCGTTGCTCTTGCAGGTATTT -ACTTGCGCCAAGTGCCAGCGTGTCGGTTGCGCACAGTAAGGCGGTAGTTTCAGGCGTAATCACTTTTGCAACGTT -CTCATAGCCTTGCTTCATAGCAAGCCCTGGCAGGGCGGCAACGGGATGCAGTTTATGCGCTTTGCAGAACGCCAG -GTAGGCTTCGTGACGTCGCTTACCGGTTGTCACGTCACTGTGCGGCACGCCGAGATAACTGATATTACGATGCCC -CTGGTCATACAGCCGTTGCATCAGGATTTTGATTGCCCCTTCGTCGTCATAACAGACCGAAGCAAAGCCTTTTGC -GTCACGCGCCAGCAGAACCAGCGATGACTGCCAGTGGGCTAACATTTCTTCTGTTATGCCAGTAAAACCGAACAG -CACTACGCCGTCGATATTACGCCGTTTCAGCACTCCCAAATGTTCGGCAACTAATTGCGGGGAAAACTGACTTTC -CATCATGATTGGGTCGTAACCTTGTTCATAGAACGCTGGCAGCATGGTTTGAACGGCGAGATTTTCTGACAACGA -ATCCAGACGGGTAACAATGATGGCGACCACTTTATCGCTTTGCCCACGCATAGCGCGCGCAGAGCGGGAAGGGGA -AAATCCATGCTGATTCATCACTGCTTCAACACGCTCGCGGGTGAGCTGGCTCACGCCGCTTTCGTTATTCAGCAC -CCGGGAAACTGTAGATTTCCCCACGCCGCTTAAGCGCGCGATATCTTTGATGGTCAGCCGATTTTGCATCCTGTT -GTCCTGTAACGTGTTGTTTAATTATTTGAGCCTAACGTTACCCGTGCATTCAGCAATGGGTAAAGTCTGGTTTAT -CGTTGGTTTAGTTGTCAGCAGGTATTATATCGCCATAGATGCTACGAATATTATTGGATTCTCCTTATTATTTGC -GGCGCTTTTTTCACTTACCGGAGGTTATATGGAACCTGATCCCACGCCTCTCCCTCGACGGAGATTAAAACTTTT -CCGGTAAGCCCGTCTTTTCACGGCGTTACCGGATGCGTAAGGCCGTGACGTTTTAACGTCCCTGCTCAGCTTTAT -TACCTTCAGGTAAGGCTTCGCCACGCCTGAAGACATTTCTGTACTGTTTCAGACAGTGCGGAGGGACTCCTTATG -TTTAAAGAAATTTTTACCCGGCTCATTCGCCATTTACCTTCCCGTCTGGTTCATCGTGATCCATTGCCTGGCGCG -CAGCAGACAGTGAATACGGTGGTCCCGCCGTCCTTAAGTGCGCATTGCCTGAAAATGGCGGTGATGCCCGAAGAA -GAATTGTGGAAAACGTTCGACACCCATCCGGAAGGGTTAAATCAGGCGGAAGTGGAATCTGCCCGCGAACAACAT -GGTGAAAATAAATTACCCGCACAACAACCGTCGCCGTGGTGGGTACATTTATGGGTCTGCTATCGCAACCCCTTT -AATATTTTACTCACCATTCTCGGCGCTATTTCTTACGCCACGGAAGATTTATTTGCTGCGGGCGTTATCGCGCTA -ATGGTCGCTATTTCTACGTTGCTGAACTTTATTCAGGAAGCACGTTCCACTAAAGCGGCAGATGCCCTGAAAGCG -ATGGTCAGCAATACTGCGACGGTGCTGCGCGTAATTAACGACAAAGGCGAAAATGGCTGGCTGGAGATCCCGATC -GACCAGCTGGTGCCCGGCGATATTATAAAACTGGCGGCGGGAGATATGATCCCGGCAGATTTACGTATCTTGCAG -GCGCGGGATCTGTTCGTCGCTCAGGCGTCGTTAACCGGTGAGTCTCTGCCCGTAGAAAAAGCCGCTACCACTCGC -CAGCCGGAGCACAGCAATCCGCTGGAGTGCGACACGCTGTGTTTTATGGGCACCACCGTGGTGAGCGGCACGGCA -CAAGCAATGGTGATTGCTACAGGTGCCAATACCTGGTTTGGTCAACTGGCGGGGCGTGTTAGTGAGCAGGAAAGC -GAGCCGAATGCCTTTCAGCAAGGGATCAGCCGCGTCAGTATGCTGCTGATTCGCTTTATGCTGGTGATGGCACCG -GTGGTGCTGTTAATCAATGGTTACACCAAAGGCGACTGGTGGGAAGCGGCGCTGTTTGCGCTTTCGGTCGCGGTA -GGCCTAACGCCGGAAATGTTGCCGATGATTGTTACCTCGACGCTGGCGCGCGGCGCAGTAAAGCTGTCGAAACAG -AAAGTGATCGTCAAACATCTGGATGCTATTCAGAACTTTGGCGCAATGGATATTCTGTGCACTGATAAAACCGGC -ACCCTGACGCAGGATAAAATTGTGCTGGAGAATCATACCGATATCTCCGGTAAAACCAGCGAACGCGTGCTGCAT -AGCGCGTGGTTGAACAGTCATTATCAGACCGGACTTAAAAACCTGCTCGATACAGCGGTGCTCGAAGGTACGGAT -GAAGAGTCAGCGCGCTCGCTGGCCAGTCGTTGGCAAAAAATTGATGAGATTCCGTTTGATTTCGAGCGTCGCCGG -ATGTCGGTGGTAGTGGCAGAAAATACCGAGCACCATCAGCTGGTTTGCAAAGGTGCATTGCAGGAAATCCTCAAT -GTGTGTTCGCAGGTGCGTCACAATGGCGAGATTGTGCCGCTCGATGACATCATGCTGCGTAAGATTAAGCGGGTT -ACTGATACGCTGAATCGTCAGGGGCTGCGCGTGGTTGCGGTGGCGACGAAATACCTGCCAGCGCGTGAAGGAGAT -TACCAGCGGGCGGATGAATCCGACCTGATCCTCGAAGGATATATTGCTTTTCTTGATCCGCCAAAAGAGACAACC -GCTCCGGCACTGAAGGCATTAAAAGCGAGTGGAATTACCGTAAAAATCCTTACTGGCGACAGTGAGTTAGTTGCA -GCGAAAGTGTGCCATGAAGTGGGGCTGGACGCGGGAGAGGTGGTCATTGGTAGTGATATTGAAACGCTATCTGAC -GACGAACTGGCAAATCTTGCACAGCGTACCACGCTGTTTGCCCGCCTGACGCCGATGCATAAAGAACGCATTGTG -ACCTTACTGAAGCGCGAAGGGCATGTGGTTGGCTTTATGGGCGATGGTATTAATGATGCGCCCGCCTTACGCGCT -GCGGATATCGGCATTTCTGTGGACGGCGCGGTAGATATTGCCCGTGAAGCGGCTGATATCATCCTGCTGGAAAAA -AGCCTGATGGTGCTGGAAGAGGGGGTTATTGAGGGACGTCGCACTTTCGCCAACATGCTGAAATACATCAAAATG -ACGGCGAGCTCTAACTTCGGTAATGTGTTCAGCGTGCTGGTAGCGAGTGCTTTCTTGCCCTTCCTGCCGATGTTG -CCGTTACACTTGCTTATTCAGAACCTGCTGTACGATGTGTCACAGGTGGCGATCCCGTTTGATAACGTCGACGAC -GAGCAAATTCAAAAGCCGCAGCGTTGGAATCCGGCGGATCTGGGGCGCTTTATGATCTTCTTCGGACCGATCAGC -TCGATCTTCGATATTTTGACGTTTTGCCTGATGTGGTGGGTATTCCATGCCAACACGCCGGAAACGCAAACGCTG -TTCCAGTCGGGATGGTTTGTGGTGGGCTTACTGTCGCAAACGCTGATTGTGCATATGATCCGCACCCGCCGTGTG -CCGTTTATTCAGAGCTGTGCATCGTGGCCGTTAATGATCATGACCGTGATCGTGATGATTGTCGGGATCGCATTG -CCGTTTTCACCGCTGGCCAGTTATCTGCAATTACAGGCGCTGCCGTTAAGCTATTTCCCGTGGCTGGTTGCGATT -CTGGCAGGGTATATGACATTAACCCAGTTGGTGAAAGGGTTCTATAGCCGTCGTTACGGCTGGCAATAAAGAATA -AACTGGGCACGATAGCCCCGATTCAGATTGTAGACAAAGTGAGTTTTGTTCATGCCGGATGCGGCGTAAATGCCT -TATCCGGCCAACAAATTCAATAAATTGCAGGAATCACGTAGGCCTGATAAGCGTAGCGCATCAGGCGATTTTGCG -TTTGTCATCAGACTTAATCCGGGCATGATAGCCCGGATTTCCATCAAGATTAGCGACGAACAGCGATCGCTTCGA -TCTCAATCTTCACGTCTTTCGGCAGACGGGCAACTTCAACGCAAGAACGTGCCGGGAAGGTGGCGTTGTGTTCGG -TGAAGAAGGCTTCGTAAGTGGCGTTTACGGTTGCGAAGTCGTTCAGATCTTTTACAAACACGGTAGTTTTAACGA -TGTCGCCCACTTTCAGGCCAGCGGCTTCGACGATCGCTTTTACGTTATCCAGCGACTGACGTGCCTGTGCAGCGA -CGTCTGCCGGTACTTCGCCCGTTTTCGGATTTACCGGGATCTGACCGGAGGTGATGATCATATTGCCCAGATCAA -CGCCCTGTACGTAAGGACCGATAGCTGCCGGTGCATTTTCCGTCGCGATAGTTTTGCTCATGATTTCTCCTTTAT -TACAGCGGTAAAAAGTCTGGCTCATTATAGGGAGCCAGACTTTTATTACCAACCGCAATTAATTGGCCAGCACCA -CATTATGGGAAAACTCTTTTTCACAGTATTTGCATTTGAGCGCGATATCATTGGCGCGTTTTCGCACGGCAAAGC -TGGATGAAACCGGTTCGGCATGGCTGATACAGTTGCTGTTCGGGCAGACCAGCACATTGTCGATGCGCTCCGGCA -GACTTGGGCGCGATTTACCCACCACTTCATAGTTGTCGATACGGTTAACCGTGGCTTGCGGCGCATACAATGCCA -GTTGATCTACTTGATCTTCACTCAAAAAGGTATTTTCGATTTTGATCAGATCTTTGCGGCCCATCTCGCCAGAAG -GCAGGTTCAGACCAATGGTGATGCGCTGATCCGTTTCGGTCAGCTTGAACAGACTCAACAGCTTAAAACCGATCT -GGGCGGGGATATGGTCAATTACCGTGCCGCGTTTAATAGCTTCAACCTGCAATTTATTATCGTGTGTCATCTCTA -TTTCCCCTTACAGTACCAGATCGCGATTCAGAACCAGTGCCAGTAACGCCTGGCGAGCGAAAATCCCGTTGCCTG -CCTGCTGGAAGTACCAGGCGTGTGGCGTTTTATCAACATCCGTCGCAATCTCATCAACACGCGGCAGCGGATGCA -GCACTTTCATATTGGCTTTGGCGTTGTGGAGATCGCTGGCGCGAAGAACAAACTGCGCTTTCACGTTGGCGTACT -CGGACGGGTCCAGACGCTCTTTTTGCACGCGGGTCATGTACAGGATGTCTACTTCCGCCATCACTTCTTCAATAG -AGCTGTGCAGACTCCATGCGATCCCTTTTTCATCGAGCATATCCAGAATGTATTGCGGCATTGCCAGCGCGTCCG -GCGCGATGAAGTAAAAACGGTTGCCGTCGAACTTCGCTAACGCCTGAGTCAGGGAGTGAACGGTGCGGCCATATT -TCAGGTCACCAACCATTGCGACGTGGAGATTGTCCAGACGCCCCTGGGTTTCCTGAATAGTGAATAAGTCCAGCA -AGGTTTGCGTCGGATGTTGGTTGGAGCCATCACCGGCATTCAGTACCGGTACATTGCCGGAAAACTCGGTGGCCA -GGCGCGCCGCACCTTCCTGCGGATGACGCATCACTATCGCATCGACGTAAGTGCTGATAACCGAAATGGTATCGG -CCAGCGTTTCGCCCTTTTTACCCAGTGATGTATTGGCGCTGTCGGAGAAGCCCACCACGCTGGCCCCCAGGCGGT -GCATAGATGTTTCGAAAGAGAGGCGGGTACGGGTAGAGGCTTCGAAGAAACAGCTGGCAATGACTTTGTGCTTCA -ACAGCTCTGGTTGCGGGTTTGCTTTCAGTTTCGCCGCTGTCGCCAGCACCAGATTAAGGTCATCGCGACTAAGGT -CGTTTATGGAAATGATATGTTTCTGATATAGCGGATTAGCCATCTTTTATCTCCTGACGCCTGGGCAAAAAAAAG -CCCCTCGATTGAGGGGCTGGGAATGGGTGATCAACGGGAAGAAAAACGGCAGGCCAGCGTCTTTTTTCAGACGCG -GTAAGACAAAATGTCGAACACACTGAACCATACATCCTCCCGGCAAATTGTCCGGCATTATACTCATCGTCAGAA -GCGGCGCAAGCATTTGATGCAATATTTTGTCAGCGCAAACGGTTTATTTGAATTAAAAGTCAAGGTATATGCATT -TTTATTTGATGTGATTCTGCAGGGGAACTGTCCTTCGGTATCAATAATTGCAGACATTCCCTGCTTTTTCCTTTT -TCACTTTCACGCAATCAGATATGCATTTTATTCCATTCATCCGACTTATAGGGCGGAGTGTGAAAGCGAACGGCT -AACACTATTGCTTACTGCTCAGGGATGCGCGCTATCACTTTAATTTCAAAATCAAAGCCTGCCAGCCATGTAACA -CCCACCGCCGTCCAGTTTGGATAAGGTGGGGCGCTAAATATTTCATTTTTCACCGTCATGATGTCTTCAAATTGG -TTTTCTGGATCGGTATGGAAGCTCGTAACATCAATGATATCGTCAAAAGTGCATCCCGCAGCTGCCAGGGTCGCA -TGCAAATTATCAAATGCCAGTCTGACTTGTTGCTGAAAATCGGGTTCTGGTGTTCCGTCCTCTCGACTTCCTACT -TGCCCGGAAACAAACAGCAAATCGCCGGAACGAATAGCCGCAGAATAACGATGCTCAGCATATAGTGAATGTCGG -CCAGCAGGGAAAACAGCGGTTCTTTCTACCATTTGGTTATCCTCAAGATTTACGACATGAACAGAAGATTTCTCT -TTACCGGGAGCCGCTTTTAGCGGACGACGTGAGTAAACAAAACCCAGACATCATGGATAATGGCTGGGCTTAATT -GAGCGTAGTCGGTTATGCGCCAAACGCGCCATCAATGGTATGCATCGCGCCGGTAACAAAACTGGCTTCTGGCCC -TGCTAACCATGCGACCATACCAGCGACCTCTTCCGGTTGCCCATGTCTTTTGATAGCCATCAAACTATGCAACAT -ATCGCGCATTGGCCCGTTGGCGGGATTAGCGTCGGTATCAATTGGCCCTGGCTGGACGACGTTAATGGTGATCCC -ACGCGGTCCAAAATCACGGGCCAGCCCGCGCGCCATGCCTTGCAGGGCAGATTTGCTGGCGGCATAAGCAGCCAT -GCCTGCAACAGGCATACGATCGCCATTCACGGAGCCGATGATTAAGATGCGCCCGCCTTCGGGCATCTGCCGGGC -GGCTTCAACAGAGGCATGATAAGGAGCATGAATATTGATTTTGAAAAGGCGATCAATATCGTCGGCATTTAATTC -CAGGGCCTCGCCAAAGACGCCAATACCTGCATTTACCACCAGGATATCCAATGCGCCGCTCTTACGAACGACATC -AATGACAGCGTCTCTGTCAGCACTATCTGTGAATACTGCTGTCGCTCCAGTCTCTTGTGCCAGGCGTTTAGCGGC -ATCTTTCGACCCCGCATAGGTGAATCGTACATTGGCCCCATCGGTGACGAAACGACGTACGATAGCGGCACCGAT -ACCACGACTGCCACCGAGGATGAGAACTGTCTTACCTGTAAAAGCGCCCATAAGGACTCCTTGATTTATTATGTA -ACATGCATTACAAAACTGTTTTAACTTTCTGTCAACAGGTTTTGTAATGGTCACTAAAAAACAATCTCGCGTTCC -AGGTCGTCCCAGACGTTTCGCTCCTGAGCAGGCAATCTCTGCGGCAAAAGTGCTTTTTCACCAAAAAGGTTTCGA -TGCTGTCAGTGTTGCTGAAGTTACTGATTATCTTGGTATTAACCCCCCGAGCCTCTACGCGGCTTTTGGCAGTAA -AGCTGGGTTATTTAGCCGTGTACTCAATGAATACGTCGGTACGGAAGCTATTCCGCTTGCCGATATTCTTCGTGA -TGATCGTCCGGTAGGCGAGTGCCTGGTTGAGGTATTAAAAGAAGCGGCGCGCAGATATAGCCAAAACGGCGGCTG -CGCTGGCTGTATGGTTCTTGAAGGTATTCATAGTCATGATCCACAAGCGCGTGATATTGCCGTTCAATATTATCA -CGCCGCAGAAACGACCATTTATGACTACATCGCCAGGCGGCATCCACAACGCGCACAATGTGTGACTGATTTTAT -GAGTACCGTGATGTCTGGGCTTTCTGCGAAGGCACGAGAGGGGCACTCTATAGAACAACTCTGTGCAACAGCTGC -AATGGCGGGGGAAGCGATAAAAACTATTCTTGAGGAGTGATGCGGGCCTTGACCCGAAAGGCGGGAAAGCGCCTG -CCGATAAGTTGTGATAAGACAATAATTCACGCGTTAAGGCTAGCGGAATTGATTATCTTTTCGTATAACGATAGA -AATGAAACGTTGTTTTAATTAAGGAGTGGAAAAGATGATCATCGGAAATATTCATAATCTTCAGCCGTGGCTACC -CCAGGAGTTACGCCAGGCGATTGAGCATATCAAAGCACACGTTACGGCAGAAACGCCAAAGGGCAAGCACGATAT -CGAAGGCAATCGACTGTTTTATCTTATCTCGGAAGATATGACCGAGCCGTACGAAGCTCGCCGTGCGGAGTACCA -TGCCCGCTATCTTGACATTCAGATTGTGTTAAAAGGTCAGGAAGGCATGACCTTCAGCACGCAACCTGCAGGCGC -GCCGGATACCGACTGGTTAGCTGATAAAGACATCGCATTTTTGCCGGAAGGCGTTGATGAGAAAACAGTTATTCT -AAATGAAGGTGATTTTGTTGTGTTTTATCCGGGGGAAGTGCATAAACCGCTGTGCGCAGTGGGCGCGCCAGCCCA -GGTTCGCAAAGCAGTAGTGAAGATGCTGATGGCGTGATGACTTTTCGCCGTAAATAACTCAAGGTTTACGGCGAG -TTTGTGAAAAGAGCGTTTTTTGATATTTTTTTGTGAGTAAAATTTGTAATGCTTAGACGTTCTTATTCACTCAAG -GAGTTCGTCATGAGCAAAATATCAGATTTAAATTATTCTCAACACATTACATTAGCCGACAATTTTAAACAAAAA -AGTGAAGTTTTAAATACCTGGCGTGTTGGAATGAATGATTTTGCCCGTATTGCCGGGGGGCAGGATAACAGAAGG -AATATTCTTTCTCCTGGAGCATTTTTAGAGTTTTTGGCAAAGATATTTACCCTGGGTTATGTGGATTTTAGCAAA -CGCTCCAACGAAGCGGGTAGAAATATGATGGCTCATATTAAGTCCTCATCTTATTCTAAAGATACTAATGGCAAT -GAAAAAATGAAGTTTTACATGAATAATCCTGTAGGGGAACGAGCGGATTCACCCAAGGTGATTATAGAAATTTCA -CTTTCCACTATCACTACTATGGGGACTCGTCAAGGACATACAGCCATTATATTTCCACAACCTGATGGTTCGACT -AACCGTTATGAAGGGAAGTCCTTTGAAAGAAAAGATGAGAGTTCATTACACCTGATTACTAACAAGGTTCTGGCG -TGTTACCAAAGTGAAGCTAACAAGAAAATAGCGCGTCTATTAAATAATAATCAGGAGTTAAATAATCTACAGAAA -TTAAATAATCTACAGAAGTTAAATAATCTACTGAAGTTAAATAATATACAGGGGTTAAATAATCCTCAGGAGTTA -AATAATCCGCAGAATTTAAATGATTCTCAGGAGTTAAATAACTCGCAGGAATTAAATAGTCCACAGGAGTTAAAT -GATCCGCAGGAGTTAAATAATTCTCAGGACTTAAATAACTCTAAGGTGAGTTGTACAGTTTCAGTTGATTCTACG -ATTACGGGTTTATTAAAAGAACCATTGAATAATGCATTATTAGCAATAAGGAACGAACATCTGCTATTAATGCCT -CATGTATGTGATGAATCGATTTCATACTTACTGGGCGAAAAAGGTATACTTGAAGAAATAGATAAGCTCTACGCA -TTAAATGATCACGGAATTGATAATGACAAAGTAGGTAACAATGAAATTAATGACATCAAAGTTAACCTGTCTCAT -ATTCTTATTGATTCCTTAGATGATGCAAAGGTTAACCTTACACCGGTCATCGATTCGATTCTGGAGACTTTTTCA -AAATCCCCATATATTAATGATGTAAGAATACTGGATTGGTGTTTTAATAAAAGCATGCAATATTTTGATGATACT -AAAAAGATAAAGCATGCATGCTCCGTAATAAATCATATTAATCTTCGCAGCGATCAGTCTAAAATAGCTGAGACA -TTATTTTTCAATCTCGATAAAGAACCCTATAAAAATAGCCCTGAATTACAGGGGTTGATTTGGAATAAGTTGGTT -GTATATGTCAATGAATTTAACTTAAGTAATCGAGAAAAAACAAATTTAATACAAAGGCTATTTGATAATGTTGAG -TCTATATTTAATGAAGTACCTGTCAGCATTTTAGTGAATGATATTTTTATGAATGATTTCTTTATGAAAAATCCT -GAGATGATTAATTGGTACTTCCCTCAGTTACTTAAGAGTTATGAGGGTGAAAAGATTTATTTTGATAATTTAAAA -TATGATTTAAATGATAATGATAAGGAATCTAATAAAGAAATTTTGAAGAATCAACCAGATAATGTTATCAAAGAA -AAACTGAATAATGAATACAAACTTAGATTTAGAATGATGCAAACTATCTTGCAATCGAGAGTTAATGTATTACCA -TATATTAATGAACAGCGTTTAAATAAACTAAATCCACCGGAAAATTTACGTATAGCAATAGAACACTTTGGGTGG -AAGAATAGACCTATCACTGCATAAAATAATGTGATGCCGGGATGGTTTGTATTTCCCGGCATCTTTATAGCGATA -GCAATTATTTACTGAGCGTCGCGACCATCACCGCTTTGATAGTATGCATACGGTTTTCCGCCTGATCAAAAACAA -TGCTGGCGGCAGATTCGAAGACCTCATCAGTGACTTCCATACCGCCATGTAGGCCAAATTCTTCCGCCATTTTCT -TGCCAAGCGTCGTTTGGTCGTCATGAAACGCGGGCAGGCAGTGGAGGAATTTGACCTCCGGGTTACCGGTCAACT -GCATCATCTTGCTGTTCACCTGATATTCACGCAGCAATGCAATCCGTTCCGCCCATTTCTCTTTTGCTTCCCCCA -TCGACACCCACACATCGGTATAGATAAAGTCAGCACCTTCAACTCCCTTCGCGACATCTTCAGTCAGCGTAATAT -TCCCACCATTTTGCTGTGCCAGGGCGCGGCATTCCGTAACCAGCGCAGCTTCCGGCCAGCACGCTTGTGGCGCGA -CCAGACGCAAATCCAGACCGGTAAGCGCCGCAGCTTCGAGCATCGAATTGCCCATGTTGTTACGCGCGTCACCTG -CATAGACCAGCGTCATTTCGTTGAACGCTTTGCCGGGCAAATGCTCCTGCATGGTGAGAAGATCCGCCAGCAGCT -GCGTGGGATGGAACTCATTGGTCAGGCCATTCCATACCGGCACGCTAGCGTATTCCGCCAGTGTTTCGACAATCT -CCTGACCATAGCCGCGATACTGAATACCGTCATACATGCGACCAAGCACGCGGGCAGTGTCTTTAATCGACTCTT -TATGACCAATCTGGCTGCCGCTTGGGCCGAGATAAGTAACGCGAGCACCCTGGTCATATGCGGCAACTTCGAAAG -AGCATCGGGTACGAGTCGAGTCTTTTTCGAAGATGAGCGCGATGTTTTTACCAGTGAGTTTGGCTTCTTCTTTAC -CGCTTTTCTTATCGGCTTTCAGCTTCGCGGCTAACTGCAGCAGGCTGTTGAGTTCAGCTGGCGTGAAATCGAGTA -ATTTCAGGAAATGCTTATGATAAAACCCGGACATAGATCCCTCCTGTGGCTAACGCCTCAATGAATTAAAATTCA -ATTTATATGGATGATTATTCATTTGCAAGTCTAAAGCATAAATCTTTGTCACAAAGGTGGAGGCAATGTCAGTGG -TGTGTGACAATAAGAGTATCGGCAGGACATTAAGAGGAATGAGCCATGGCAAACCCGGAACAACTGGAAGAACAG -CGTGAAGAAACACGTTTGATTATTGAAGAATTACTGGAAGATGGCAGCGATCCGGACGCGCTGTACACCATCGAA -CACCATCTTTCCGCAGACGATCTGGAAACCCTGGAAAAAGCAGCAGTTGAAGCGTTTAAACTCGGTTACGAAGTG -ACCGATCCAGAAGAGCTGGAAGTTGAAGATGGTGATATCGTGATTTGCTGCGACATCCTCAGCGAGTGCGCGTTG -AATGCCGATCTGATCGATGCCCAGGTTGAACAACTGATGACGCTGGCAGAGAAATTTGACGTTGAGTACGACGGA -TGGGGCACTTACTTTGAAGATCCTAACGGCGAAGATGGCGACGATGAAGATTTTGTCGATGAAGACGATGACGGA -GTTCGCCACTAATTAAGCGTAGCGCATCAGGCCCAGGTAGTTCCTGCAACCTGGTGAATTTGTAGCCCGGATAAG -GCATTCATGTCACATCCGGCATAAACAAAACGTACGTTGTTAATGTTCGAATGCCCGCGAGTTGAACACGCGGGC -ATTTTTTTAGAGTTCGCGCAACATCCGCACTTCACAATCGACATGGCCCGTGCAGCCAAGCGCATAGTCGATATG -CTCAAAGCCCAAATGCTCATAAAGCGCAATGGCTTCCTTTAAAAAAGCGGTCGTTTCCAGATAGCAGCGTTTGAA -ACCCATCTCTCGCGCCTGCTCCATCGCCATTAAGGCCAGTTTTTTTGCCAGCCCTTTGCCGCGGATAGCCGGAAG -AAAATACATCTTTTGCAGTTCGCAAATATCCGACTCACTCCCGGTTAATGGCGCTATCCCACCGCCGCCGACCAC -TTCACCCTCGTACTCAACGACCCAATATGCATGGCCAGGCTGACTATATACTTGATACAGCTCGTCAAGATTCGG -ATCGGCGACGGTGTAGCCTTTATCAGCGGTAAGACCGTATTCGGCGGATACCTGACGAATGACGCGGGCGATAGC -AGGATTATCCTGCAGCGTCAGGCGACGCATTACAGGTGATTGCGGCGCAATGTTATTCATAGTTTAACCCAATAA -AAATAAAGTAATTATACATTTGTTTAATACCACTCTCTTCTTACGTACGCAAGCGACTTATAAAGTAATAAAGTT -TTTGCCAGCCTATTACTGATAAGAGTATTGTAACGTGGCAGAACATTTTACTGTCTGTATATATAAGTTATATCA -ATGGATTTTTTAATTCAGGGAATTTTTATGGCTCAAGTTATTAATGAAATGGATGTTCCGTCCCATTCGTTTGTT -TTTCATGGTACAGGTGAGAGATATTTTCTTATTTGTGTGGTGAATGTGTTGTTAACGATTATAACGCTAGGTATC -TATTTACCATGGGCATTAATGAAATGTAAGCGTTATCTTTATGCTAATATGGAAGTTAACGGACAACGATTTTCT -TATGGAATTACCGGTGGGAATGTTTTTGTTAGTTGTCTTTTTTTTGTTTTTTTCTATTTCGCAATCTTAATGACA -GTGTCAGCAGATATGCCGCTTGTTGGTTGTGTTTTGACTTTGTTACTGTTGGTTTTGCTTATATTTATGGCAGCA -AAAGGACTGCGTCATCAGGCCTTAATGACCAGTCTCAACGGCGTAAGATTTAGTTTTAATTGCTCTATGAAAGGG -TTCTGGTGGGTGACCTTTTTCTTGCCGATTTTAATGGCCATTGGGATGGGGACTGTTTTCTTTATCTCGACAAAG -ATGCTACCTGCCAATAGTTCAAGTAGTGTTATTATATCCATGGTTCTGATGGCAATAGTTGGTATTGTTTCCATT -GGTATTTTTAATGGTACTTTATATAGTCTGGTAATGAGTTTTCTCTGGAGTAATACCAGTTTCGGTATACATCGT -TTCAAGGTGAAATTAGATACTACGTATTGTATAAAATATGCCATTCTCGCATTTTTAGCTTTATTGCCTTTTCTC -GCTGTTGCTGGTTATATTATCTTCGATCAAATATTAAATGCGTATGATAGTTCTGTATATGCAAATGATGACATT -GAGAATTTACAGCAATTTATGGAAATGCAACGTAAAATGATAATCGCGCAGTTAATCTATTATTTTGGGATTGCT -GTTAGCACAAGTTATTTAACGGTGTCTTTGCGAAACCATTTTATGAGCAACCTGTCACTGAATGATGGGCGTATT -CGTTTTCGCTTAACTTTAACGTACCACGGTATGCTTTATCGCATGTGTGCGTTGGTGGTGATATCCGGGATTACG -GGCGGTCTGGCTTATCCACTGCTGAAAATATGGATGATTGACTGGCAGGCAAAAAATACGTATTTGCTGGGCGAT -TTGGATGACCTTCCTTTAATCAATAAAGAAGAACAACCAGATAAAGGCTTCTTAGCCAGTATTTCACGGGGAGTT -ATGCCTTCTTTACCATTTCTGTAAGAGATAAAAAAGGCCGGAGCATGCTCCGGCCTTCGTTTTCATCACTGTGTT -TTGATTACAGCGCGGCGATAACAGCCTGCTGTTCAATCAGTTTCGCTTTCGCTTCCGCATAGCCTTCCAGCTTCT -CACGCTCTTTCGCGATGACCGCTTCCGGTGCGCGGGCGACAAAGCCTTCGTTCGCCAGTTTGTTCTCGATACGGC -TGATTTCACCTTCAATCTTCGCCACTTCTTTCGCCAGACGCGCCAGCTCATCTTCTTTGTTGATGAGGCCAGCCA -TCGGGATCAGCAGCTCTGCACCGTCGATGATCTTCGTAACGGAAACCGGACCTTTGTCATCGGCAGGCAGCACGG -TGATACTTTCCAGACGCGCCAGGGTTTGCAGGAAGCCACGGTTTTCATTTACGCGACGTTCTGCATCCGCGCTGC -AACCACGCAGCAGCAGCTCCAGCGGTTTGCCCGGCGCGATGTTCATTTCTGCACGGATGTTACGTACCGCAACGA -TCGCCTGTTTCAGCCATTCGGTGTCGGCCAGTGCGGCTTCATCAACCTGAGATGCATCGTACTGCGGGAACGGCT -GCAGCATGATGGTGTCGGCAGTGATACCGCAAAGTACTTTCACACGCTGCCAGATGGTTTCGGTGATGAACGGAA -TGATCGGATGCGCGAGGCGCAGCAGACCTTCCAGTACAGTCACCAGCGTATGGCGAGTACCGCGCAGTTCTGCTT -CGGTGCCACCGTTCATTACCGGCTTGGTCAGCTCGAGATACCAGTCACAGAACTGGTTCCAGGTGAACTCATACA -GAATGCCTGCGGCGATATCGAAGCGGAAGCTGTCCAGCGCTTCGCGGTACGCTTTGATGGTCTGGTTGAACTCCG -CCAGAATCCAGCGGTCCGCCAGCGACAGCGTCATTTCGCCGCCGTTGAAGCCGCAATCCTGACCTTCTGTGTTCA -TCAGCACAAAGCGGCTGGCGTTCCACAGCTTGTTACAGAAGTTACGGTAACCTTCCAGACGCTTCATATCCCAGT -TGATGTCACGACCGGTAGACGCCAGCGCCGCCAGGGTGAAGCGCAGCGCGTCAGTACCGTGCGGCTCAATACCGT -TCGGGAACTGCTTCTCGGTGCGCTTACGGATTTTGTCCGCCAGCTGCGGCTGCATCATATTGCCGGTACGTTTTT -CCAGCAGTTCTGGCAGCGAAATACCGTCAACCATATCCAGTGGGTCGATAACGTTACCCTTGGATTTGGACATCT -TCTGGCCTTCGTCATCACGAATCAGGCCGGTCATGTAAACGGTGTGGAACGGCACCTGCGGTTTGCCATTTTCAT -CTTTGATGAAGTGCATGGTCATCATGATCATGCGGGCAATCCAGAAGAAAATGATGTCGAAACCAGATACCATCA -CGCTGGTTGGGTGGAACTGACGCAGGGCGTCGGTATTTTCCGGCCAGCCAAGGGTAGAGAAGGTCCACAGCGCAG -AAGAGAACCAGGTATCGAGAACGTCTTCGTCCTGACGCAGGACAACATCAGCACCGAGGTTATTTTCTTTACGCA -CTTCGTCTTCGTTGCGGCCAACATAAACGTTACCCGCTTCGTCATACCATGCCGGGATACGGTGACCCCACCACA -ACTGACGAGAGATACACCAGTCCTGAATATCGCGCATCCAGGAGAAGTACATGTTTTCGTACTGCTTCGGTACGA -ACTGAATGTCGCCGTTCTCAACCGCTTCAACCGCCGGTTTCGCCAGGACATCGGCACGCACGTACCACTGGTCGG -TCAGCATTGGTTCGATAACTACGCCGCCACGGTCGCCGTAAGGAACGGTCAGGTCGTGCGGTTTAATTTCTTCCA -GCAGGCCAAGCGCGTCAACTGCGGCAACGACTGCTTTACGTGCAGCAAAACGCTCCAGTTTCTGGAACTCTGCAG -GGATTTCGCTGGAATAAACGTCAGATTCGTTACCTTTGGTATCGAACACCTGGGCGCTTTCACGGATATCGCCGT -CAAAGGTCAGGATGTTGATCATCGGCAGGGCGTGACGTTTACCCACTTCATAGTCGTTAAAGTCGTGCGCCGGAG -TGATTTTCACGCAGCCGGTGCCTTTTTCCATGTCGGCGTGTTCGTCGCCAACGATCGGAATACGACGGTTAACCA -GCGGCAGAATGACATATTTGCCAATCAGATCTTTGTAACGCGGATCTTCCGGGTTAACGGCTACGCCAGTATCGC -CCAGCAGGGTTTCTGGACGGGTAGTCGCGACCACCAGATAATCTTTACCGTCTGCGGTTTTCGCACCGTCAGCCA -GCGGATAGCGGATGTGCCACATCGAACCTTTCGATTCGCGGTTTTCGACTTCCAGGTCAGAGATAGCGGTGCGCA -GTTTCGGATCCCAGTTTACCAGGCGTTTGCCACGGTAAATCAGGTCTTCTTTATACAGACGAACGAAAACTTCTT -TCACCGCATTGGACAGGCCTTCGTCCATGGTGAAGCGTTCACGCTCCCAGTCGACGGAGTTGCCGAGACGGCGCA -TCTGACGGGTAATGGTGCCGCCAGATTCCGCTTTCCATTCCCAGATTTTGTCGATGAAAGCTTCGCGGCCGTAGT -CGTGACGGGTTTTACCTTCTTCTGCGGCAATCTTGCGCTCAACGACCATCTGGGTAGCGATCCCGGCGTGGTCAG -TACCGACCTGCCACAGGGTGTTTTTGCCCTGCATGCGCTGATAGCGGATCATGGTATCCATGATGGTTTGCTGGA -AGGCGTGACCCATATGCAAACTGCCGGTGACGTTCGGCGGCGGGATCATGATGCAGAAACTTTCCTGGCTTTCAT -CGCCATTAGGCTTAAAGTAGCCCTGCTTTTCCCAGTGCTCGTAAAGCGGCTGTTCGATATCTTGTGGGTTATATG -TCTTTTCCATTATTTCCAGGTTGCCGTATTCAGGTTGAAACCAGCCACGCGGTAGGCTTTATAGCGTTCGCGCGC -CAGTTGTTTCAGAGAATCTTCATAAGGAACGAAGTCTACCACTTCTGTGAAAGCGGTGGCAAAATCTGCAAAGCT -TGTTCGCAGACTAATCAATATATCGCGCCGGCTGCTGCTACGCTTTTGCGGCCAGGCGATCTCCACCGGTGCACC -GCCGCGCGGTCCTTCTCCCGCTAAATTATGCGGAACAAAGCTTTCTGCCGGACGCGCCCACAGGGCTTCATCCAG -CCGGTAAGCCTGCTTTTCATCTTCACAGGCGATGAGCACGCGCTTACCGCTGCGCCAACGTTCTGCGGCAATTTC -ACACACCAGTTGCTCAACGGCGCTTAAGCCATCGACGGTGGTGTCATTGTCCAGAAGGTAGAACGTCGCGTTTTT -CATAAATGGGGCTTCTTGTGGTGGATTTAAATACGCATCAGGTATACACCGCAGCGCCTGATGCGACGCTGTTGT -GTCTTATCAGGCCTACGAGTTCAGTGCTGTGTAGGTCGGATAAGGCGTTCACGCCGCATCCGGCAATAACAGCCT -TGCCTGACGCAATTACTCTTCGCCGTTAAACCCAGCGCGGTTTAACAGGAACTGTGCCAGCAACGCTACCGGACG -ACCGGTGGCGCCTTTTGCTTTACCAGAACGCCAGGCGGTACCGGCGATATCCAGGTGCGCCCAGTTGTACTTACG -GGTAAAGCGTGACAGGAAGCAACCTGCGGTAATCGCCCCACCAGGACGACCGCCAATGTTCGCCATATCGGCAAA -ATTGGACTCCAGTTGTTCCTGATACTCGTCACCCAGCGGTAAGCGCCATGCGCGGTCACCGGATTGTTCAGACGC -GGCAATCAGTTCATGGGCCAGCGGATTATGGTTCGCCATCAGACCAGTAATATGATGACCCAGCGCGATCACGCA -GGCACCGGTCAGCGTCGCCACGTCAATCACCGCTTCCGGCTCAAAACGCTCAACGTAAGTTAACACGTCGCACAG -TACCAGGCGGCCTTCAGCGTCGGTGTTCAGCACTTCAACGGTTTGACCGGACATGGTGGTTAACACATCGCCCGG -ACGATAGGCTCGTCCGCCAGGCATGTTTTCGCAGCCTGCCAACACGCCGATAACGTTAATCGGCAGTTGTAGCTC -CGCGACCATCCGCATCACGCCGTAAACCGCTGCCGCACCGCACATATCGTACTTCATCTCATCCATGCCTTCTGA -AGGCTTGATCGAGATACCGCCGGAGTCGAAGGTTAAACCTTTACCCACCAGCACGATTGGGCGTGCATCTTCCGA -CGCGTTGCCTTTGTACTCAATCACCGACATCAGCGATTCGTTTTGCGAACCCTGACCGACCGCCAGATAGGAATG -CATCCCCAGCTCTTTCATCTGCTGTTCGCCGATAACGCGGGTGATGACATTCTTGCTGTAGCTGTCAGCCAGCTG -GCGCGCTTGTGAAGCGAGGTAAGCGGCGTTACAGATATTCGGCGGCATATTGCCGAGATCTTTTGCTGCTTTAAT -CCCGGCGGCAATCGCCAGACCGTGCTGGATCGCGCGCTCACCGCTGGTCAGTTCACGGCGGGTCGGCACGTTGAA -CACCATCTTACGCAGCGGACGACGCGGTTCGCTCTTGTTCGTTTTCAGCTGATCGAAACTGTAGAGCGTCTCTTT -TGCCGTCTCGACAGCCTGACGCACTTTCCAGTAGTTGTTACGGCCTTTAACGTGCAGCTCAGTCAGAAAGCAGAC -CGCTTCCATTGAGCCAGTATCATTCAGCGTATTAATGGTTTTCTGAATAACCTGCTTGTACTGACGCTCATCCAG -CTCACGTTCTTTGCCGCAACCAATAAGGAGAATTCGCTCGGAAAGTACATTCGGAACATGGTGCAGCAACAATGT -CTGCCCCGGTTTTCCTTCCAGTTCGCCCCGACGTAGCAGGGCGCTGATGTACCCATCGCTGATTTTATCGAGCTG -TTCTGCAATCGGAGAAAGGCGACGTGGTTCGAAGACGCCCACGACGATGCAGGCACTCCGCTGTTTCTCCGGGCT -ACCGCTTTTTACACTAAACTCCATGCACTACGCTCCTGAATCTTAAAGACAACGGCGGTGGCTACAGATAGAATT -GCAAGCTTTCGTAACTCATGTCCGCTGTTGCGATGACTTCGTGTTAATCTTAACGTTATTACGGCATTGGCACGT -CAGAACAAAATCTGAGAGGTGAATCCGTTGAGTATAATTATCTTAGCGACGATTTCGACGACTCAAGAGAATAAA -TGACGTTTAAGCCATGAAACAAGCTAAAATCCTGCAAAAGACGAGTTTTTACGGGCGTATTTAAAGTGATAATCA -TAAGATATCTGGTGCGGGAGACGCTCAAAAGCCAGCTGGCGATACTCTTCATCTTGCTTTTGATCTTCTTCTGTC -AAAAGTTAGTGAGGATCCTCGGCGCAGCGGTTGACGGCGATATTCCGGCGAATCTGGTGCTCTCCCTTCTCGGGT -TGGGCGTGCCGGAAATGGCGCAGCTTATCCTGCCATTAAGCCTGTTCCTCGGGCTGCTGATGACGCTGGGCAAAC -TGTATACCGAAAGTGAAATTACGGTAATGCATGCCTGCGGCCTGAGCAAAGCGGTTCTGGTGAAAGCGGCAATGA -TCCTTGCGGTATTCACGGCAATCGTAGCGGCGGTTAACGTGATGTGGGCGGGACCGTGGTCATCGCGTCATCAGG -ATGAAGTGTTAGCAGAAGCGAAAGCGAACCCTGGCATGGCGGCGCTGGCGCAAGGGCAATTCCAGCAAGCGACTA -ATGGCAGCTCGGTGCTGTTCATCGAAAGCGTTGACGGCAGCGATTTCAAAGATGTGTTCCTCGCGCAAATTCGAC -CAAAAGGTAATGCACGTCCTTCTGTGGTGGTGGCCGATTCCGGACATTTAACCCAGCTGCGCGACGGCTCCCAGG -TCGTCACTCTCAACCAGGGAACGCGCTTCGAAGGCACTGCATTGTTACGTGATTTCCGCATTACGGACTTCCAGG -ATTATCAGGCGATCATTGGTCACCAGGCGGTGGCGCTCGACCCGAACGATACCGACCAGATGGACATGCGCACAT -TGTGGAACACTGACACCGATCGTGCTCGCGCAGAACTGAACTGGCGTATCACGTTGGTATTCACCGTGTTTATGA -TGGCACTTATGGTCGTACCGCTGAGCGTGGTTAACCCACGTCAGGGACGCGTACTGTCGATGCTGCCAGCCATGC -TGCTGTATCTACTTTTCTTCCTGATCCAGACCTCCCTGAAATCGAACGGCGGTAAAGGTAAGCTGGACCCGACGC -TGTGGATGTGGACCGTTAACCTGATTTATCTGGCTTTAGCGATTGTTCTCAACCTTTGGGACACCGTGCCGGTCC -GCCGCCTGCGCGCCAGTTTTTCGCGTAAAGGAGCGGTGTGATGCAACCTTTTGGCGTACTTGACCGCTATATCGG -TAAAACTATTTTCACCACCATCATGATGACACTGTTCATGCTGGTGTCGCTGTCGGGCATTATCAAGTTTGTCGA -TCAGCTGAAAAAAGCCGGGCAGGGGAGTTACGACGCGTTAGGCGCAGGAATGTATACCTTGCTGAGCGTGCCGAA -AGATGTGCAGATCTTCTTCCCGATGGCGGCTCTGCTTGGGGCGTTGCTTGGTCTTGGGATGCTGGCGCAGCGCAG -CGAACTGGTGGTGATGCAGGCTTCTGGTTTTACCCGTATGCAGGTGGCGCTGTCGGTGATGAAAACCGCCATTCC -GCTGGTCTTGCTGACGATGGCGATTGGCGAATGGGTCGCGCCGCAGGGCGAGCAGATGGCGCGTAACTACCGTGC -GCAGGCGATGTACGGCGGCTCGTTGCTCTCTACCCAGCAAGGCTTATGGGCGAAAGATGGCAACAACTTCGTCTA -CATTGAGCGGGTTAAAGGTGACGAAGAGTTAGGTGGCATCAGCATTTATGCCTTTAACGAGAATCGTCGTCTGCA -ATCCGTACGCTATGCCGCTACTGCGAAGTTTGACCCGGAACATAAAGTCTGGCGTCTGTCGCAGGTTGATGAATC -TGATCTGACCAATCCGAAACAGATTACCGGTTCGCAGACGGTGAGCGGCACCTGGAAAACCAACCTCACGCCGGA -CAAACTGGGCGTGGTGGCGCTGGACCCGGATGCACTCTCTATCAGCGGTTTGCACAACTATGTGAAGTATCTGAA -GTCGAGCGGTCAGGATGCCGGACGTTATCAGCTCAACATGTGGAGCAAAATCTTCCAGCCGCTATCTGTGGCGGT -GATGATGCTGATGGCGCTGTCGTTCATCTTTGGCCCACTGCGTAGCGTACCGATGGGCGTGCGTGTGGTCACCGG -TATCAGTTTCGGTTTTGTCTTCTACGTACTGGACCAGATCTTCGGCCCGCTGACGTTGGTTTATGGCATCCCGCC -GATCATCGGCGCACTGTTGCCAAGCGCCAGCTTCTTCTTAATCAGCCTGTGGCTGTTAATGAGAAAATCGTAACC -GAATGAACGAATAAAGGGAGCGAAAGCTCCCTTTATTATTGTTAGCAAAGTGTGCTTCGTTCATTCCTGAAAAAT -AATTAAAATTCAATATATTGCAGTGGGGTGGGCATGATAAGACGCGCCAGCGTCGCATCAGGCAAAGACAAATCT -CGCCTGACTTACCTTCTTCTCCCCCCCAGCAAACTCCCCAACATCCCGCGTACAATCTGATTCGTCACTTGGCGA -GCGGCGCTTTTGGCCATTGTTTGCACCACACCATCTTTCTTCCCGCCGCGTGGTCCGGTAGTGCCGAACAAAATA -TCCTTCAATCCACCAAGAATGCCGTCATCCACCGCTACCTCTTTCCCTTTCGCGGGAGGATTATTTTGCTGCTCG -GTACTGGCCTGAAAGCCTTTTTGCAACATCTCATAGGCGGATTCCCGGTCCACCTCATCCTCATATTTGCCATAC -ACCGGAGAGTGATTAATCAAGCCATTACGCTCATCTTCCGTCACCGGCCCCATCCGCGAACAAGGCGCGATCACC -ATCGCACGCTCCACCACAGAAGGGCTTCCTTTCGCATCCAGAAAAGAGATCAACGCCTCGCCGGTGCCCAGTTCC -TGAATCGCCTTTTCGGTATCAAACGCCGGATTGGCCCGCATGGTTTGCGCCGCTGCCTTCACTGCTTTCTGATCT -TTTGGCGTAAAAGCCCGCAAAGCATGTTGAACGCGATTACCGAGCTGCCCGAGCACATTATCCGGAATATCAGAC -GGGTTTTGCGAAACGAACCAGACGCCCACGCCTTTTGAGCGAATAAGCCTTATCACCTGCTCAATCTTATCCAGC -AGTACCTGCGGGGCATCGTTAAACAGCAGATGTGCCTCGTCGAAGAAAAACACCAGTTTTGGTTTCTCCAGATCG -CCCGCTTCCGGCAATTGTTCATACAACTCTGAAAGCATCCACAGCAGGCTGGCGGCGTACAGTTTCGGCATCTGA -TAAAGTTTCTCGGCGCTGAGGATATTGATAACGCCTTTACCGTTGGCATCGGTGCGCATCCAGTCTTTGATATCC -AGCATCGGCTCACCAAAGAAGTGTGCTGCGCCTTGCTGTTCCAGCGACAACAGCCCGCGCTGGATGGCACCAACC -GATGCGCTACTGATATTACCGTACTGATTCTGGAAGGATTTGGCGTTATCGCCGATGTACTGGGTAATTGCCCGC -AGATCTTTAAAGTCGAGCAGTAACAGCCCCTGATCGTCAGCAATGCGGAAGATGATATTCAGCACGCCAGATTGC -ACATCGTTGAGATTCAACAGTCGTGCCAGCAACAGCGGCCCCAGATCCGAAACCGTCGCCCGCACCGGATGGCCT -TTCTCGCCAAAGATATCCCACACCACCACCGGATTGGCATGCGGTTGCCAGTCATTGACGCCGATATTTTTAAGC -CTTGCGAGCAGTTTTTCCGACACCGTTCCTGCCTGCGCGACGCCGGTCAGATCGCCTTTCACATCAGCCATAAAC -ACCGGCACGCCGATTTCCGACAATGACTCCGCCAGTTTTTGCAGCGTAACGGTTTTACCCGTCCCCGTTGCGCCG -GTAATCAGCCCATGACGGTTAGCCATTCCCGGCAGTAAAAACAGTTCTGTGTCCGGCGTGCGGGCAATTAACAGG -GGTTCACTCATGAGATATCCTCCAGTTTCCTGCCTGGAGTATAGGCAACGTCCGGCAAAGAGAATACGTGTAATG -AAGAGAAAATAACCTAAAGCGTGTTGCCGTGATAAATCTGATACCCGAGGTCAACAGTGTTGTGGTTGTGATCGT -TATTTTTAATTTTGCTCAGCAACATTTGGGCGGCCATCCGACCAATATCAAAACGGGGAGTAATTACGCTGGCGA -GGCTTGGGATCATTTGCCTGCCAATCTCCAGCCCATGAAAACCCGCAATGGAAATTTGTTCTGGCACGGCGAGGT -TTCGCTCGCGGCACAGCAGAAGCGCACCCATCGCAATATCGTCATTGGTGCAAAATACACCGTCTAAATCCGGGT -TTGCGCTAAGGGCATCACGCATTAACTGCATTCCTAAATGAATGGATGAGATGGCGCGTGGATTCATGCGTAATG -GGGAAAGATTATGCAGCATCATCGCATCGCAATACCCCTGATAACGCTGTTCATCGCGGGTGTCATCTTTGGAAC -CGAGATACAGAATTTTGTGCCTGACTCGCTTCTCCAGCATGGTACACACCATGTCAAAAGCGGCCTGCCGATTAT -CAAAACCGACCTCCATATCCAGCCGTTCTCCCTGTACATCCATCAATTCCACGACCGGAATGGTGGCTGAACGCA -GAAATTTCACCGTCCTGATGGTGTGATATTTTTCCGAAAGTATAATCCCGTCAATGTTATAAGAGAGCAGGTTAA -TCACCGACTCTTCTTCGGAATCGCGATCGTAATTGTAATTAGCAATAAGGGTCTGATAATTATGCTCAGAGGTGA -CGGATTCTATTCCCGCGAGAATGTCAGCGAAGAGTTGATTTTGAAATGACGGAATCAAGATACCGAGGGTATAAC -TTTGTGCATTCAACAACATGCCGGGAGCGCGATTAGGGATATAATTGATCTCTTCCATAATTTTGGCGATGCGCT -CGCCTGTTTCCTTTGCCACCTTTTTCGGCGAGCGGATATAACGACTCACGGTCATTTTTGTTACGCCAGCCAGCG -TAGCGATATCCTGTAAAGAAATTCTGTGATTGCGCATAACTTCTCCCAACGTCGGGGGAATCTTCAATCTTCCCC -CGAAACTACATCACAATATTTTATTCTTTCAGTGCAATACGGCGTTAATGGCTAACACGCCCAGCAAACCCATAA -TAGAAATAAGGGTTTCCATCACCGTCCAGGTACGCAACGTTTCACCAACCGTCAGATTAAAATACCCTTTAAATA -GCCAGAAGCCAGGGTCGTTTACGTGTGACGCGATCACGCTGCCCGCACCGGTTGCCAGTACCATTAAAGCGGGAT -CGGCATGGGTAACGTTGATAATCGGCAACACCACACCCGCGGTGGTAATGGCCGCGACGGTGGCAGAGCCCAGAG -CGATACGCAACAGCGCCGCAACAGTCCAGCACATCAATAACGGCGAAAGTGTAGTTCCGGTCATTAAGTGTGAAA -TATAGTGCCCGACACCGCTATCTACTAATACCTGCTTAAACGCGCCGCCGCCAGCGATAATAAACACAATCATCG -CGATAGCGCCTATAGAATCCCCAATGATATCCATGATTTGCTCGATGGTGCGTCCATTACGTCGGCCCAGTGTGA -AAATCGCAATAACAATGGCAATAAACAGCGCAACGGCAGGGTTACCGACAAATTCAAAGAAGAGGCGCACGGTGT -TAGTTTTCGGTAACGTAATTTCACAAACGGCGGCGATAGCCATCAGGATGACCGGGATCACGGCAGCGAAAATAC -TGTTCCAGAAGGAGGGCATCTCCTCTTCGCTAAACAGATGAGGATTAAATAAGCCTTCCGGTGGTGCTTTCTCAA -AGCGAGTTAGCAGTTTAGAAAACAGCGGTCCTGCGACAATAACTGTCGGAATGGTAATGATAAATCCATACAGTA -AAGTCGTTCCGAGATTAGCCTCAAAGATAGTCGCGATGGCAGTAGGCCCTGGATGTGGCGGCAGAAAACAGTGGG -TTACAGAGAGCGCTGCTACCATTGGTACGCCAACATACAACAGGGGTAATCCTGATGATGCTACGATGGTAAATA -CCAACGGCAACAGCAGGACAAAACCCACTTCAAAAAACATGGCGAGGCCCACAACCAGACCGGTGATCACTAGCG -CCCATTGCACGCGTTTTTTACCAAAAGTAGCAATCAGCGTAGTGGCGATACGTTGTGCCGCACCCGTATCAGAAA -TCAGCTTGCCTAACATGGCCCCGAAACCGAGGATCATTGCCAGCCCGCCGAGCGTGCTGCCGATACCATTTTGTA -TAGAGTGCAGGACGGCCTGTGCATCCATCCCTTCGGCAAATCCGACGACGGCAGCTACCAGAACGAGGGCAATAA -AGCCGTTAACTTTAAAGCCGATCATCAGGATAAGAAGCAGCGCGACGCCTGCCGCAATAATGATTAATGGCATAG -TCTTTATCTCTTATTAGTGCCAGAAAAGCAGCGCTTTCGCGCTGCACGTAGGGGGGCTGTTAAACAGCCACTAAC -ATGCCGCCATCAACAAACAACAGGTGGCCGTTTACGAAATCAGAGGCTTTTGAAGAAAGGAACACCGCAGCACCA -ATCAGTTCCTGCGGATCTCCCCAGCGTGCGGCGGGGGTCCGTTTGCACAACCAGGCGGTGAAGGCTTCGTCCTCA -ACCAGTGCTTTAGTCATTTCTGTTTTGAAATAGCCCGGCGCAATACCGTTGACCTGAATATTGTGGCGCGCCAGC -TCGACGCACATGCCGCGGGTGAGCATTTTTACCGCCCCTTTCGATGCGGCATAAGGGGTGATGGTGTCACGTCCC -AGTTCGCTTTGCATCGAGCAAATATTAATAACTTTACCTGCCTTGCGTTCAACCATGTGACGAGTTACCGCTTGC -GATACCAGGAACACGGCGGTCTGGTTTACTGCGATCACATCATTCCACTCTTGTTCAGGGAACTCAGTAAAAGGA -TGACGGCGCTGGATACCGGCGTTATTCACCAGCACATCAATGGGGCCGATGTCCTTTTCGATATGTTCAACGGCG -GCATCAATTTCATGTTTATGAGTAACATTAAAAGGTGCGGCAACGGCCTGAATACCCTCCTGGTGGAGTTTTTCT -ACAGCAAGTTCTGCGCGTTCGGCAGTAATATCATTAATAATTATTTGTGCGCCATATTTACCCAGGCCGGTTGCC -AGTAAAAAGCCAATGCCCTGTGCTGAACCGGTAATCAAGATATTTTTTCCTGCCAGTGAAAATAGATCGTTCATT -GTATTATTCCTTTATTTATCTCTTAGAAAACAAGCTGGACTTTTGCTGCCTGGGTTTTATCACCGGCGAAACGTA -GCGCCTCTTCCAGGTCAGTGAAGGGATATTCAGCACTCAGTAAAGGCAGTGGATTGATAACGCCATTCGCCAGCC -ATGACACTGCGGTATTAAATTCGCTGGTAAAACGGAAAGAGCCTCTGAGTGAAATCTCCTTACCAATCAACGTCA -TCATTGGGAATTCTGCCATCGCGCCTCCCATACCTACCTGCACCATTACGCCGCGTGCACGAGTGACCTCCAGAC -AGGTATTCACTGATGAAGGATGACCGGACACTTCAAAGCTGACATCGAAATAGCCTTTTTCCGCTTTCCAGTGAT -CCATGTCGTCGTTTTGTGGGTTTACGAGCACATCCGCCCCCATCTCTTTGCCCAGCGAAAGGGAACGGGGACTCA -CATCAGCACAGACAATTTCCGCGGCCCCCAGTGTTTTCACTGCACTGACAATCAGGCAGCCAATGGGTCCAACAC -CGGAAATAAATACTCGCTTGCCCTGTAACTCGCCGGCCTGATGTGCGGCATGAATCGCGACGGCTAAAGGTTCGG -CAAAAGCCATAACCTTTTCGTCAGCTTTGGCCGGATAAGGGACACATTGCGACGTTTCGACCATTTTATAACGGG -TAAAACCACCATCAACATGAGGGAAATACATGGCACTGCCAAAAAAACGCATATCTGTACACTGATTCTCGTTAT -GTTCAATGCAGTATTTGCAGTGACCGCACGGTTTAGACGGATTAATGGCTACCGTTTGCCCTTCATGTAATTCTG -ATGAGTCGCTATGAATAACTTTACCGATAACTTCATGACCTAACACCATCGGTGCCTTTATCATGAAATTACCTA -CTTTTCCTTCCTGATAATAATGTAAATCGGAACCGCAAATTCCACCTCGGGTTATTTGTACTAATGTTCCATTAT -TATTCCAATCTATCGTCTGCTCGGTAACGGCAACAGTTTTCTTGCCCGCAACAACGCAGGACTGTGTTTTCACTT -GCATAAATTCCTCACTGGTCAGGTAGACACCTCGGAAGCATTTAAGCGGTTTTAACTGTCATTATTTGTGATGAA -GATCACGTCAGAAAATTGTTACATTACTATGTTACGCATAACGTGATGTGCCTTGTAATTCTTATCAGTAGAAAT -AAAAAAACGTGAAATTATTATGCCGCCAGGCGTAGTATCGCAGCAGGTAAGATGATTCAGGAGATTTTAAATGGC -GGGTGAAAGCTTTATTTTGATGGGCGTTTCAGGGAGTGGTAAAACATTAATTGGTAGCAAGGTTGCCGCGTTATT -ATCTGCTAAATTTATTGATGGTGACGATCTTCATCCAGCCAAAAATATAGATAAAATGTCGCAGGGTATTCCATT -ATCTGATGAAGATCGACTTCCCTGGCTGGAACGCTTAAATGATGCTTCATACAGTCTTTATAAAAAGAATGAAAC -AGGATTTATTGTCTGTTCATCATTAAAAAAACAGTATCGTGATATTTTACGCAAGGGTAGCCCCCATGTTCATTT -CCTCTGGTTAGATGGCGACTATGAAACTATTCTCGCGCGAATGCAGCGTCGGGCTGGGCATTTTATGCCGGTAGC -GTTACTAAAAAGTCAGTTTGAGGCACTGGAGCGTCCACAAGCAGATGAACAGGATATTGTGCGCATTGATATCAA -CCATGATATTGCCAATGTCACCGAACAATGTCGGCAGGCTGTGCTGGCGATACGACAAAACAGAATATGTGCGAA -AGAGGGCAGCGCCTCAGATCAGCGCTGCGAATGATTTTCAAAAATCGGCTTTCAACACCACGCGGTAACGCGCCT -TACCGTCGCGCACATGCTGGATGGCGTCGTTAATTTTCGACATCGGGAACAGTTCGGTGGTCGGCGCAACCTTGC -TGCGGGCGGCAAAACGCATCAGCTTACGCAGCTCATAAGGCGTGCCGGTAGCAGAACCAGAGACGCTGCGATCGC -CCGCAATTAACGTAAAGGCCGGAACAGACAGCGGCGTGAGAACCGCACCGACCGTATGGAAATTACCGCCATAGG -TCAGCGCCTCAAAATAGGGCTGCCAGTCGAGGCTGACGTTGACGGTGTTGATAATGAGATCAAACTGCCCCGCCA -GTGCTTTCAGTGCCTGCGGATCGCGGCTATTCACCACTTTATCGGCACCCATCGCCAGCACTTCCTGCTCTTTCG -CCGGATTAGAACTAAAGGCTGTCACCTCGCATCCCATTGCGTGCAGAAGTTTTATAGCGATATGCCCCAGCCCGC -CAATACCAATTACCCCAACGCGGCTGGTAGCAGTGATATGGTGCATCAACAGTGGTTTAAAGACCGTGATACCGC -CGCACAACAGCGGCCCGGCGGACTCGATATCAATATTTTCTGGCAGTGGAATCACCCATTGCCAGTCCGCACGCA -ACTTCTCGGCAAAGCCACCGCGATTCATAATCGTCGGCACCGCACCTTGCTCGCAGTTGATCTGATTACCGCTAA -TACAGGCGTCGCAGTGACCACAGCTACGCGCCGTCCAGCCAATCCCGACACGCTGACCGACCTGCAAACCTTTAT -CCTGCGCGGCGCTCCCGAGTGCCACCACGCGCCCAATCACCTCATGCCCGGCAACCAGCGGATATTGTGAAAATC -CCCATTCGTTATCGATCATCGACAGATCGGAATGGCAGATCCCGCAGTAATCCACCTGCACTTCAACATCTTGTG -GCCTCAGCTCACCGGGATCGTACTCATAAACTTCCAGTTCGCCGCCCGCTTCTTTTGCGGCATAGCTTTTTATCA -TCGACATTTTTTGGTCCTTCTCTGGTGTTGTTTGGGAAGTGTAGAGCATGGCAGGGCGGGGTGCCTGGAGTGTGA -CAAAGGTTACACATCGCTGTATGCAATGCTGAAAATTTCAGCACTTAGCGAGGTGCGAGCAAGCTGGCGCTTGCA -TGGTGGCGTGCGACAGGTATAATCCACAACGTTTTCCGCATACCTCTTCAGTGCCGAAGTGGCGAAATCGGTAGA -CGCAGTTGATTCAAAATCAACCGTAGAAATACGTGCCGGTTCGAGTCCGGCCTTCGGCACCAAAAGTATGTAAAT -AGACCTCAACTGAGGTCTTTTTTTATGCCTGAAATCCAGTGTTTATCTATCTTTCCCGCTATATTAACTCTCTCA -AGGTCAACCGATATCAACGTACATCTACCAACATATGTTGGTACAGATGATGGTATTTCCGGTTCGATAATGCTT -GTACCAACAGGGAGGGAATACGATGGCATTAACAGATATCAAAGTCAGAGCAGCCAAGCCAACGGATAAGCAATA -TTAGCTGACTGATGGTGGCGGTATGCATCTGCTTGTCCATCCAAATGGTTCTAAGTACTGGCGTTTGCAGTACCG -TTATGAGGGAAAGCAAAAAATGCTGGCACTTGGGGTTTATCCTGAAATCACACTAGCGGATGCCAGAGTACGTCG -TGACGAGGCGCGTAAGCTGCTTGCGAATGGCGTCGATCCGGGAGACAAAAAGAAAAATGATAAGGTTGAACAGAG -TAAAGCACGAACCTTTAAAGAAGTCGCGATTGAGTGGCATGGCACCAATAAAAAGTGGTCTGAAGATCACGCCCA -TCGTGTGCTAAAAAGTCTTGAAGATAATCTTTTTGCAGCGCTTGGTGAACGTAATATCGCTGAGTTAAAAACTCG -AGATTTATTAGCACCTATTAAGGCCGTAGAAATGTCTGGACGTCTTGAAGTGGCCGCTCGTCTTCAGCAGCGCAC -TACAGCCATCATGCGCTATGCAGTGCAAAGTGGGTTAATTGATTATAACCCGGCACAAGAGATGGCTGGGGCGGT -TGCTTCCTGTAATCGACAACATCGTCCCGCGCTTGAATTAAAGCGCATCCCTGAGTTGCTTACAAAAATAGATAG -CTATACTGGTAGGCCGCTAACCCGATGGGCGATAGAACTCACTTTGCTGATCTTTATTCGGTCCAGTGAGCTGCG -TTTTGCTCGTTGGTCAGAGATCGATTTCGAAGCGTCTATATGGACTATCCCACCGGAGCGGGAGCCTATTCCTGG -AGTGAAACATTCCCATAGAGGCTCAAAAATGCGTACAACGCATCTAGTGCCTCTTTCAACGCAAGCTCTTGCAAT -TTTAAAGCAGATAAAACAGTTTTATGGGGCCCATGACTTGATATTTATTGGTGATCACGATTCGCACAAACCCAT -GAGTGAGAATACGGTAAATAGTGCGTTACGGGTCATGGGGTATGATACAAAAGTAGAGGTTTGTGGTCATGGCTT -TCGAACAATGGCCTGTAGTTCATTGGTCGAATCAGGTCTGTGGTCTCGTGATGCTGTTGAACGTCAGATGAGCCA -CATGGCGCGAAATTCAGTGAGGGCCGCGTATATCCATAAAGCAGAGCATCTGGAAGAACGGCGATTGATGCTACA -GTGGTGGGCCGATTTTCTGGATGTAAACAGAGAAAGGTTTATCAGTCCATTTGAATATGCAAAGATTAATAATCC -ATTAAAACAGTAATCATCCCGGGCAAATGCCCGGGAATTATTCTAGGATTATTTTCTTTGTTAAAAAAGACAAAC -GGTATTAACTGATGTATTTACTATTTACCGCTCCCTGCAGGGGGGATTATCAGAATCCGCGGTTATTCATTATTT -ATATACATTCAATAAAAAAGTAACCTCATAAAAAATCCTGTACTCACAGGGTGATGCGGGATAACTGACGTAAGG -AGTGCTGCAGGGATTTGATGGTCCCTTGTAGACTGGCCCCCTGAATCTCCAGACAACCAATATCACTTAAATAAG -TGATAGTCTTAATACTAGTTTTTAGACTAGTCATTGGAGAACAGATGATTGATGTCTTAGGGCCGGAGAAACGCA -GACGGCGTACCACACAGGAAAAGATCGCAATTGTTCAGCAGAGCTTTGAACCGGGGATGACGGTCTCCCTCGTTG -CCCGGCAACATGGTGTAGCAGCCAGCCAGTTATTTCTCTGGCGTAAGCAATACCAGGAAGGAAGTCTTACTGCTG -TCGCCGCCGGAGAACAGGTTGTTCCTGCCTCTGAACTTGCTGCCGCCATGAAGCAGATTAAAGAACTCCAGCGCC -TGCTCGGCAAGAAAACGATGGAAAATGAACTCCTCAAAGAAGCCGTTGAATATGGACGGGCAAAAAAGTGGATAG -CGCACGCGCCCTTATTGCCCGGGGATGGGGAGTAAGCTTAGTCAGCCGTTGTCTCCGGGTGTCGCGTGCGCAGTT -GCACGTCATTCTCAGACGAACCGATGACTGGATGGATGGCCGCCGCAGTCGTCACACTGATGATACGGATGTGCT -TCTCCGTATACACCATGTTATCGGAGAGCTGCCAACGTATGGTTATCGTCGGGTATGGGCGCTGCTTCGCAGACA -GGCAGAACTTGATGGTATGCCTGCGATCAATGCCAAACGTGTTTACCGGATCATGCGCCAGAATGCGCTGTTGCT -TGAGCGAAAACCTGCTGTACCGCCATCGAAACGGGCACATACAGGCAGAGTGGCCGTGAAAGAAAGCAATCAGCG -ATGGTGCTCTGACGGGTTCGAGTTCTGCTGTGATAACGGAGAGAGACTGCGTGTCACGTTCGCGCTGGACTGCTG -TGATCGTGAGGCACTGCACTGGGCGGTCACTACCGGCGGCTTCAACAGTGAAACAGTACAGGACGTCATGCTGGG -AGCGGTGGAACGCCGCTTCGGCAACGATCTTCCGTCGTCTCCAGTGGAGTGGCTGACGGATAATGGTTCATGCTA -CCGGGCTAATGAAACACGCCAGTTCGCCCGGATGTTGGGACTTGAACCGAAGAACACGGCGGTGCGGAGTCCGGA -GAGTAACGGAATAGCAGAGAGCTTCGTGAAAACGATAAAGCGTGACTACATCAGTATCATGCCCAAACCAGACGG -GTTAACGGCAGCAAAGAACCTTGCAGAGGCGTTCGAGCATTATAACGAATGGCATCCGCATAGTGCGCTGGGTTA -TCGCTCGCCACGGGAATATCTGCGGCAGCGGGCTTGTAATGGGTTAAGTGATAACAGATGTCTGGAAATATAGGG -GCAAATCCACCTTGTGCTGATATGAATACGGATATTTTATACAGAATACTTTTCAGTACAAGCGACTGTATTACA -GTCTGCCATATATGATTACCTGTGATCAGGAAGAATAAGTGGCTGAGGTTTCAAACTGTCTGCCGGTATATTCCT -CTCTCCCTTAAAAACCATAACAGGTTAGTTATCTTCGTCTGTCAGCGGATTGAATGGCGGTATATTTTCAGTACA -AATACCGGTCATCCACTGAAAAATACCTGCGAAATGACGGGCACTGATTTTTCTACTGACGGGCTGATGAGACGT -TATGTCACTGGCGGTAATAATCAGTGGCACACTGTAGCCTCCCTGCACATGACCATAATGATGAACAGGATTGGC -ACTGTCGCTGACCGACAGCCCAAGGCCAGAAAAGTAAAGCATGGCGAAATGACGTGAGTACCGGCGAAGGATACC -ATCAAGCTGGCCAAGAAAGTTATCCAGTTTACTGATGCTGGCGAGGTAACAGGCAATTTTTCGGGGATACTGCTC -CAGGTAATTATTCGGCTAGGAGTTAAGGCTGTCACACGGATTTGGATGAGAACCCATCATGTGCAGGAAAATTAT -CTTCGGAGAGGATGTATCCGCCAGCGCACGTTCTGTTTCCTGTAACAACAGTTTGTCATCTGTTTTACGGGAAGC -GAAGCTGCCTTTCTTGAGGAAAGTGGCATGCTCCGCATCAGAAGCAATAACAGAGATGCGTGTGTCATGCTCCCC -CAGTTTTCCTTGATTGGATATCCACCATGTGCTGTATCCTGCTTTTGCTGCCAGCGCCACCACATTGTTGCCGGA -ATCAGGGTTCTGCTCATAGTCATAAATCAGTGTCCGGCTCAGGGAAGACACTGTACTGGAGGCTGTCGAGGTATA -ATCGTCAATAAATAAACCGGGTGCCGTATTCAGCCACGGTGTGGTTGGTACGGGATAGTCATACACTGACATATA -ATCCCTGCGCACACTCTCACCAGTGACAATAACAATCGTATCATATAACGGTGCTCCCGGCTGGATTTTCCAGTT -GTCAGCCCCGTGCTACTCAGTTGTTCATAACGCTGCATTTCACGTAATGTGTCAGTTGTCCCCACAACTGTTCCT -TTAACCATCCGCAATGGCCAACGGTTTACAGAGCATAATACGAATAGCCGTAGAGCCAGCCAGTTACGGTGGTCG -CGATGGTGTGTCCGCCAGAAAATCACCACGAATACCAGAATCGCGGCACTGACCAGAAAATGATAAACAGGAAAC -ACGGGGCGGTTCACTTTGCTTTCTCCTGTAGTGTTTTCTGTAGGTTCTGAACCGGTTCTAGCGGGGTTGTGAGGC -TGATGGCAATCGCCGGGCTCTTCCTGCATGTTACACTGGTACTGCAAGAGGGGGCCTTCGCTCCTCTGACATTAC -TCAGTATTTTCACTACTACACCCCATCTGCCATCCATAACAACCGATTCACCCCCTCGCGAGGCGTTGTTGCCCG -TCACCCGGACAGACACCGTTATGGACTTCTCTTGTTGCACGATCGATCAATTGTTATGCATGCTGACACCACAAC -CCCGGTGGGTATGACCGATGCCTTTCTCACTCTCTTCCCGGTCATCGTCGGCCTTCCCCGTTATTGTGGCGTGTC -AGCACCCTCGACGGCATTTCGATGGCTGCTCAGTGTTCACTCACGTTACGGCCCGCATAACCCGTTGACTTCCTG -AAGAAGTCGTTTCAGGGAGAGATTCAGCCCTTTTGTTACCTCCTGGACCGCTTCTTGTCCTTCCAGTCGGAGCGA -GAGTTAGCCGGGGCGGACTTTCACCGACGGAAAGATCGTGCATTTCAAGGCACACACAACAATATCTGCGAGCGT -GCTATCCGTCCGGTCGTTATGGGACGAAAGGCCTGGTTGTTCGCTGGTTCACTGGTGGCCGGGAACCGCGCGGCA -CAGATAATGAGCCTTCTGGGAACCGCAGTCTGGAGCCACATGCTTGGCTGACGGACGTCCTGACGCGTCTGCCGG -AGTGGCCGGAGGAGAGGTTGGCTGAGTTACTGCCTCTTGAGGGCTTTACCTTCTTCGGGTAAGTGATACCTGCCG -TCAGGTGTTTGTGCACCGGGCCATAACCTGCAGTTGGGAATTGAACGCCTGACAACAGGAAATGAGCTAGAGCAG -TAAACACGCGGGCTGACAATGGGTCAGAATATGAGTTAGCCCGGCGTTATTCCTGGGGTCAGTACTTCAGATCTA -GCCTCCGGTACCAGACTAGCTAGCCCCTACGCAACCAAATAAATCAACCATCGTCAGAGTGCAATCGTTCATATA -CACTGTCGGTGATGCGCTAAAAAATGCGTTAATGTTGAGTTCCTCGAACCCTTACCAATTAAGGGACATAGCCAG -ATACGCAACTGGCTGATGCAAGCAGTCTAATGTCTTTAGATCCGCTGGCCTGCGGGCATGACAATGTCAAACAGT -CAAAGATTGTGGCGTTGACGGTCAGTCTTGGGGACAAAAAAGCTCAGTATTCTCGTTGGCAACCAGATAATTTAA -CAGTTGATGCTGAAACGAAATAGGCATCTTGGTTCTGTAATGCCAGTCAGTTAAGCAACTGACTGGCTCTTTTTC -GGGGCTGTGGGGTATTTCCAGGGCCTCTCCTTTACCACTCTCGGGAAGGCCCTTTCCCTTCTTGTCGGTAATTTC -ACAAGTTGTCCCATACTTGCAAGATCGCGCATCAGCTCCGGTATACGTCCCGGTGAAGCGCCCTGCAATGTCATC -AGCATTCTCATCACCATTCCGCATGATTCTGAGAAACTCAGTTGATTCGGCCAGTAACCTTTCAGATGTTCCGCC -ATTTTAATCATCTGATATCTCACCAGATTATAAGCCAGTAAGACACCCCACAGCTCTTGCTCCACAAGCTCCGGC -TTTTTACTTCTCAGCGTCAGCCTGCTCCGTTGCATCGTCTGTTTTATCTCCCTGTATCCCAGTTCGATTTCCCAG -CGATGACTGTACAGATCCCCCATTTCTCCTCCGGGGAAGCGCATGGCGTCCGTCATCGACGTCAGCAGATGGCAG -ACTTTTCCTTTGCGCGTCACGGTCAGCAGGCGGGCAGTCACTTCATTTCCCAGTCCCGGCCACTTTTTTCGTGCC -TGCGGGCTGGTTTTCAGCTTCACCAGATGATCGCCTTTACCCAGTTTTCTGATCTCTTCATATTGCGCTCCCTTT -CTGAGAGGTATCATCCAGTGGCGGTGTTCTCCCGCCAGGCTCCAGGCATTTAACAGTCCCAGTGAGTAATAACCT -TTATCCATTAACGTCAGAGTGTTATCGCCGGTTTGTTCTATAAGTTGCTCAGCAAGCTCATTTTCGCTGTTCTTC -ATCGTGCCGAAGGCTGCAGCCGTCAGCAGATGGCTGGTCAGTTCCATCTGGCAGACCATTTTGACCTGCGGGTAG -AGCGCCGGGTTCCCGGCATGTGTCTGGCGGGGGAAGGCTGCATCGTTCTCTGGTGTATCCGGTGTGCGCCAGAAC -ACACCATCGATGGCCAGCAGGGTCAGGCCGCACCAGTGCGGATGCGGCGTGGCGTTATGCCAGAGCTGCGCTGTT -TTCGTGAACACGCGGCGGACAGCCTCACTTCCCAGGCGCTGGCGGGCCTGAATAACGGCACTGGGGGCAACGAAG -GGGCGATTGCCCGGCAGCATGATGTCCAGGCGATTCACAATCTGGTGAAGAGGTTCTTTACGCTCAAGCGCCATG -CCAACAATACACCAGACCATCATTTCGAGGGGAAGACGGCGCTTGCGTAGCGTTACAGTACCTGATTCGGCAAGG -CAACGAGAGATGAGTTCGGGGTCGAGGTAATCCCCCAGAGAAGTCAGTGGGTTACGCAGAGAATCGTAACGGGAT -ACCAGATCAAGAGCCTGTCCAATGTGCATAAAAAAATCCGGAAACAAGTGAGCGTTTCCGGATTCTTACACAGCC -ACTGGATCGGTCAACTGATCCTTAACTGATCGGCATTAATCTTGGTTCTGGTGTTTGTAACAAACTATCAGCTAC -AAAAATATGCTCAATTTGTGACATCAGTAACAAAACGCGTTTTGTTATGTGGATTGCTTGTTTTTTGATCTGGTA -TAACAGGTATAAAGGTATACAGAAAAGCAAAGAAATACTGCAAAGGAAAACAGCTATAACGTAAGCTAAAGTAAT -AACCTCTCAGTCTTTCCTCATTTGACGAAGGGAGTTTTATTCAACCTGAACGGACTACGAAAATGAGCACAATGA -ATAAGTCAATTTTTGAAGCAGGGTTGAACTGTGCCAGTGGTGGAATATCTGGCGAACATTGTTTTTTGTTGGTGA -CCCAAAACTGTAGGTGGGTATCAGTTTTATCTTTCATAGAGTGAAATATGTTAAGAAGAAATGGAGGAAAAGATT -GTACTGATTAGGTATTGATAACAATCAATAGTACTGGCGTATTTGAAGACAATATAATTATTTCTGGATATTGTT -GAGGCTCCCTAATATTTACTTTAAGGGCTATATTAGAATAACACAGGAAACAAATATGGCAACAGCATGGTATAA -ACAAGTTAATCCACCACAACGGAAAGCTCTTTTTTCCGCATGGCTTGGATATGTATTTGATGGCTTTGATTTTAT -GATGATATTTTACATTCTTCATATTATAAAAGCAGATCTTGGCATTACGGATATTCAGGCTACTTTAATAGGGAC -AGTGGCCTTCATAGCCAGACCTATTGGAGGTGGTTTTTTTGGTGCCATGGCTGATAAATATGGTCGTAAGCCAAT -GATGATGTGGGCAATTTTCATTTACTCAGTCGGAACAGGCCTTAGCGGTATTGCTACAAACTTATATATGCTCGC -AGTTTGCCGTTTTATTGTTGGCTTAGGGATGTCTGGTGAATATGCATGTGCTTCAACTTATGCGGTAGAAAGTTG -GCCTAAAAATCTTCAATCTAAAGCTAGTGCTTTTTTGGTAAGTGGTTTTTCTGTTGGAAATATTATTGCGGCACA -AATAATCCCTCAGTTTGCTGAAGTATATGGATGGAGAAACTCTTTTTTTATAGGCCTGTTACCAGTTTTACTAGT -TCTTTGGATCAGAAAAAGTGCTCCAGAAAGTCAGGAGTGGATTGAAGATAAATATAAGGATAAATCAACATTTTT -GTCTGTCTTCAGAAAACCACATCTTTCAATCTCTATGATCGTTTTCCTCGTCTGTTTTTGTCTATTTGGTGCAAA -CTGGCCGATAAACGGACTACTTCCTTCCTACCTGGCAGATAATGGAGTTAATACAGTGGTCATTTCAACTCTGAT -GACAATAGCAGGTTTAGGAACACTGACAGGTACAATATTTTTTGGTTTTGTTGGTGATAAGATTGGTGTAAAAAA -AGCCTTTGTAGTCGGTCTAATAACTTCATTTATTTTCCTTTGTCCTCTTTTTTTTATTTCTGTGAAAAACTCTTC -TCTTATAGGATTATGTCTCTTTGGATTAATGTTTACAAATTTAGGTATTGCAGGGTTGGTTCCAAAATTTATATA -TGATTACTTTCCAACAAAATTAAGAGGATTAGGGACCGGTCTTATTTATAACTTAGGGGCAACTGGAGGAATGGC -CGCACCTGTATTAGCTACATACATTTCAGGATATTATGGCTTAGGTGTTTCATTATTCATTGTTACGGTTGCATT -CTCTGCCTTATTAATTTTGTTAGTTGGTTTTGATATTCCAGGTAAAATTTATAAACTATCCGTGGCTAAATGATT -GGAGGCTTTATGATTAATTATGGCGTTGTTGGTGTTGGATACTTTGGCGCTGAATTAGCTCGTTTTATGAATATG -CATGATAATGCAAAAATTACATGTGTATACGATCCTGAAAATGGAGAAAATATTGCCCGTGAATTGCAGTGTATC -AATATGTCAAGCTTGGATGCTTTAGTCTCAAGTAAATTAGTCGATTGCGTGATCGTAGCCACCCCAAATTATCTG -CATAAAGAACCAGTAATTAAAGCAGCAAAGAATAAGAAGCATGTTTTTTGTGAAAAACCAATTGCATTAAGTTAT -GAAGATTGTGTGGATATGGTCAAAGCGTGTAAAGAAGCTGGTGTGACCTTTATGGCCGGGCATATTATGAATTTT -TTCAATGGGGTTCAATATGCACGGAAGTTAATTAAAGAAGGTGTTATCGGCGAAATATTATCATGTCATACTAAG -AGAAATGGCTGGGAAAACAAACAAGAGAGACTTTCCTGGAAAAAGATGAAAGAACAATCTGGTGGACATCTATAT -CATCATATACATGAGTTAGATTGTGTTCAGCATTTACTTGGAGAAATACCAGAGACGGTTACTATGATTGGTGGA -AATTTGGCCCATTCTGGTCCAGGATTTGGCAATGAAGATGATATGTTATTTATGACCTTGGAATTCCCGTCAGGA -AAACTAGCAACCTTAGAGTGGGGGAGTGCATTTAACTGGCCGGAACATTATGTCATCATCAATGGAACTAAAGGC -TCTATTAAAATTGATATGCAAGAAACAGCAGGGTCACTTAGGATTGGCGGTCAGACAAAGCATTTTTTGGTCCAT -GAAACACAAGAAGAAGATGATGATCGTCGGAAAGGCAATATGACCTCAGAAATGGATGGCGCTATAGCATATGGT -CATCCAGGAAAAAAAACACCATTATGGCTTGCCAGTTTAATAAGAAAGGAGACGTTATTCCTCCATAATATCCTC -TGTGGTGCAAAACCTGAAGAAGATTATATTGACCTTCTCAATGGTGAGGCGGCCATGTCGGCGATTGCTACTGCT -GATGCTGCCACTCTTTCAAGATCGCAGGACAGGAAAGTGAAAATCAGTGAGATCATTAAACATACATCAGTAATG -TAAAAACTATACGCCTCTTGATTTAATTCAGGAGGCCTTTTATGTATGATCAAGAATTTTATCTTCGATAATCTC -ATAATTTTAGCAGTGCCATTTATGATAAAAACATCCCTTAAAACCAATCTAATCTTTTTCTTCCTCTGTGTATTT -GTTCCCCATATGGCGTCATAATTTACGCTACGTAATACGGGATAGTTACGATACGCAGCGATAGCGCTAAGTTTT -AGTTAAAATCCCCCATCAGCGGGATATGGGGATCTCTGGGAGGTTCAGGTTTTAGCATCGCGACTTTAATACGAC -AGACGCTGGTGACGATGATGCCAAGTAGTGACTCTTCCGAATAAGGTTCCCACTGACCAATTGGCGCGCGCTTCG -CAATAAAATCTCCCTTCGCCCAGTATTGGGAAAAGTAGATACATTCAAACTGTGTACGCTGTTTCGTCTCACAGT -TCACGACATTGCTGGCCGATGAGCTGACCATTGGGCCTATCCGGGCTGTCCCGATGGATATTACGCCGAAGTATG -TGGGAATTGCCAGCGGATTGATGAACGCCGGTTCCGCTGTCGCCGACATTATTTCACCTATCGCCTTTGGCATTA -TTATCGACAAAACAGGCAACTGGAGTTTACCATTCTACGGTTCCGTCGCATTGCTTGTTATTGGTATATTCCTGA -CGTTCTTCATGCGTCCAGATAAGTCATTGTAAAAGTCGAATCAGGGCTGAAGTGGCACACTGAATTTGGCCACCT -GAACAGAGGTGATATGCTCACCTCAGAACAACACAGGTGCTCCAATGAAAAAAAGAAATTTCAGCGCAGAGTTTA -AACGCGAATCCGCTCAACTGGTTGTTGACCAGAAATACACGGTGGCAGATGCCGCGAAAGCTATGGATGTTGGCC -TTTCCACAATGACAAGATGGGTCAAACAACTGCGTGATGAGCGTCAGGGCAAAACACCAAAAGCCTCTCCGATAA -CACCAGAACAAATCGAAATACGTAAGCTGAGGAAAAAGCTACAACGGATTGAAATGGAGAATGAAATATTAAAAA -GGCTACTGTAGATTCAATCTGTCAATGCAACACCCCTTTCAATTATCTCTTTCGGTGTTTTGAACTTCAGTGTCT -TTCTCGGTCTGTTGTTTAGCTGAGCAGCAACCAGATCTAGTTCATGTTGAGTATATTGGGCAAGACATGTCTTTT -TAGGAAAGTACTGCCGAATTAGCCCATTTGTGTTCTCATTTGTTCCCCGCTGCCAAGGACTCTGAGGATCGCAGA -AGTAAACTTTAACGCCGGTGCTGACAGTAAATTCTAGATGTCTGGCCAGTTCCATTCCTCTGTCCCATGTCAGTG -ATTTTCTGAGTTCTGACGGTAAACTCAGGAATTTGTCGGTAAGAGCCTGATTTACTGAGACAGAATCTTTGCCCC -TGAGTCTAAGGATGATCGTATAACGTGATTTTCGGTCTACAAGTGTGGCTATATGAGAGTTTTTTGTACCTGAGA -CTAAATCGCCCTCCCAATGCCCTAGAGAGCGTCTGTTATCGATATTTCGGGAACGTTCGTGAATTGGTGTTCCGT -TCACTATGTTAATCGTACCTCTTTCGCCTTTGCGGGTATGACGCCTGCCATGGCGAAGGCTATGCGACCGTCGCA -GATGCTGTATATTCAGGTGGTGTAGCGCTTCACGGCTACGAAAGTACAGCGTTTTATAAATTGTCTCAGGTGATA -TTCGCAGCGTTTTTTGACGTGGTTTTGTTCGCCTTAACCATCCTGATATTTGCTCTGGAGACCATTTCATCTCCA -GCTTTTCCAGAACAAGCTTTCGCAATGGTAAATTTTGATCCAGTAAGCACGGTTTTGGCCTTTTCGCCATTCTGT -TGGCTCGGTTATTAGCATCAACAGCTTTGTAATAGCGTCTGCCCCGATTACGCTGAACTTCACGTGAGATCGTCG -AAGGACTGCGATTCAGCGCAGTAGCTATCGCACGAATGCTCATTTTGGCTGACAAACCAGCTCGTATCTCCTCGC -GCTCAGACAGTGTCAGGTGAGCTACAGCCCGCTTACGCTCATGGGGTTTTATGCCGCCAGTATCCCTTAACATAG -TGAAGATCGTTCCGGGTTTTGAACCCAGGATATTCGCTATTTCACTGAAGCCTGTTCCGTTCTTCCATAGTTCAA -AAACAGAGGCTTTTTCCTCTGCTGTAAATGTTCGTCTCATTCAAAAAACCTCCGCAACCCCATGTTTTCACATAA -CTGTTGCGTTGACCAATTGAATCTACAGTTGCTTTTTTTAATATATCTCGCTCAAGGCGAGCTTCATTTAACGCC -TTACGCAGTTGCAGAATTTCAGATTCCAGTTCAGCCACCGTGCGGGAACCAGGAGTACCGAGCCCTTTTCTGGCG -GCGGTAACCCATTGTCCTAAAGTGCCTTCAGGAAGAGATAATCGGGAAGCGCCTTCACTGATCGAAAGTTGATTT -TCAAGAACCGTTCTGACAGCTTCGGCTTTGAACTTTTTAGAGTAACGTTGGGTTTTTCTGCTCATTATTAGCTCC -TTCTGATGCCATTCTATTTCAGGAAGGAGTGTCCGTTAAACTCAGGCTACCTCAGGAAAAACCGTCCTGAAAAAC -CAGACGGCAGACGGGCTGTATTACGCAGTCAGGTACTTGAGCTACATGGCATCAGCCACGGTTCGGCCGGAGCAA -GAAGCATCGCCACAATGGCAACCCGGAGAGGCTACCAGATGGGACGCTGGCTTGCTGGCAGGCTCATGAAAGAGC -TGGGGCTGGTCAGCTGTCAGCAGCCGACTCACCGGTATAAACGTGGTGGTCATGAACATGTTGCTATCCCTAACT -ACCTTGAAAGGCAGTTCGCCGTGACCGAGCCAAATCAGGTGTGGTGCGGTGATGTGACCTATATCTGGACGGGTA -AGCGCTGGGCGTACCTCGCCGTTGTTCTCGACCTGTTCGCAAGAAAACCAGTGGGCTGGGCCATGTCGTTCTCGC -CGGACAGCAGGCTTACCATGAAAGCACTGGAAATGGCATGGGAAACCCGTGGTAAGCCCGTCGGGGTGATGTTCC -AAGCGATCAAGGCAGTCATTATACGAGCAGGCAGTTCCGGCAGTTACTGTGGCGATACCGGATCAGGCAGAGTAT -GAGTCGGCGTGGAAACTGCTGGGATAACAGCCCAATGGAGCGCTTCTTCAGGAGTCTGAAGAACGAATGGGTGCC -AGCGACGGGCTATGTAAGCTTCAGCGATGCAGCTCACGCAATAACGGACTATATCGTTGGATATTACAGCGCACT -AAGACCGCACGAATATAATGGTGGGTTACCACCAAACGAATCAGAAAACCGATACTGGAAAAACTCTAACGCGGA -GGCCAGTTTTAGTTGACCACAACAGACTACCTGAAGGGAGCCGCGGTCGCCTGGCAGTTGCAGTAGCAGGAGATC -ATCCAGCCGCAGTACAGGTCACGATGACTCTGGTTAATGATACCGGCTTTGACCCCGTATTTTCCGGCTCTATCG -CTGAATCATGGCGTCAGCAGCCGTGCACACCATCCTATTGTTGTGACTGGGAGGCTGCCACCATGCTTCGCGCTT -TCCCTCTGGCGAAAAAGGGAGAAGGACGGGCCCGTCTGCCTTCACTTTATGCCAGCTTCGGTAAGCTGGGTGAGA -CACCGACTCATGAAGATATCATTGATAACAATCGATCCATCAACTGGCCTGTATAACGTGGCTGCCGGTGATTAA -GAAAGCTGCACCTACCTAAGTAGTAGCAAACGCACACTTTTTAGAAAAATCGATGGTCAGAAACTGGATTAGCAA -TTCCGTTCCATGGTTGCTTTTGATTTACGTTGGCGTCTGATCATTGATTTATCCTCAAAAGCCCAACCTCATTGG -TAATGAACCAGCTCCGTGAATGTCCGCTCTGGCACAGAGCGAAATTTTTTGATCTCCCCCCTGAAATCTAAACTT -AGTCATGTCACGTTTTTGGGTTTCTAAAATTTTAACTTCGCGTTTTTCGTTGCCGTAAGGGTTATACAGAAATGT -CCGTTAAGCAGAGTTCAAAATTGATTGCCGTGATCACGACTGGTTTGAAAGCCGCGCCCAAGCCTGTACAGCTCT -GGTTTGCGTTGATTATGAACCTGTCAGCCTAAAGCAAGCGGATGGACGATGAGTATTGGTAATCTTTCAGAGTCC -GGAAAAGTTCAGCCCCAGTCTGAACAGGCTTGCTGGCGCCAGTCCAGTTTCATTCAGTCGTGGTTTGGTTCTTAC -GGCCTGTGCAATCTACCTCATTAGGCACATCGGCCTGCCAGATACCGGCTCGGGGTGTATTTCCGCTTCCACGCT -GAATACTGTTCTCAGCAATCCTGGGGTCATCACCTCTTCTGGTGTGCCTTGCGCCATAACATGTCCGTTTGCCAT -TACCACCAGTTGATCGCAGTACCGGCTAGCCTGATTAAGGTCGTGCAGCACAGCGACCACCGTTTTCCCCTGAGT -CCGGAGTTCGCCCATCAACCGCATCAGGTCCACCTGGTGATTGATATCAAGATAGGTGGTTGGCTCATCAAGTAA -TACAACGGGCGTATTCTGGGCCAGGACCATTGCCAGAAATGCGCGCTGGCGCTGACCGCCGGAAAGCTCGGTTAA -CCGACGAACGGCAAGATGATTGATCCGGGTCTGGTTCATGGCGACATTAACTCGTGCATTGTCTTCAGCGGAGAG -ACGCCCCCAGAGTGACAGCCAGGGATTACGACCATACGAAACCAGCTCCTGGACTGTGATCCCCTCTGGCGTTAA -ATGGTGCTGAGGCAGCAGCGAAAGCCTGCGGGCCAACTGGCGCGATGAGAGCATATTTATGGGATTATCGCCGAG -AAATACGGTGCCAGACTGCGGCATTAAAAGCCGCGAAAAACAGTTTAACAGCGTCGATTTCCCGCAACCGTTAGG -ACCGATCAGGGCGGTGATCTTCCCCGTTGGCAGTGAGAGTGAAACGTCGTTAAGTACCTTGTCTGTCCCGTAACT -GACCGTCAGATTTTCAGTTCGTAAAGTCATTTATCGCATTCTCACAAGCAACCAGACAAACCACGGCGCACCGAT -AATGGCGGTCAGCACGCCAACCGGGAGCTCCAGTGGGGGATGAATAATTCTCGCCAGCAGATCGGCAACCACCAA -CAGCAACGCACCTGTCAGGGCCGAAACAGGCAGCAGTCTGCGGTGACGTCCACCGGTGATGCTACGCATCATATG -CGGCACCACGAGACCAATAAAGCTAATCGGGCCGCAGGCGGCCACGCCGGTAGATGTCATGGCGACAGCTAGTAA -CAAAGCCCAGAATCGGGTATGGGGCACCGACACACCGAGCGTGGTGGCGCGCGCATCGCCGAGTGCAAGGAGGTC -GAGATCGCGGCAAAAACTCAGGCTCAGCGGCAGAAATAAAATCATCAGCGGGATGGCAATCTTCACAAAGCTCCA -GTCACGGCCCCATAAGCTGCCGGTCAGCCACAGCAGGGCGTTGTTCACATCCTGCGGGCGCGAGAGCATCAGATA -ATCCGTCAGGCTGGCCCAGCATGCAGAAAGCGCCACGCCGGTGAGCGCCAGCTTCATCGGCTGGTGGGTCTTTGC -CAGCATCTTCAGCAATATCAACCCCGCCATGCCGCCCGCAAAGGCCAGCAGCGGCAGCACCATCACGGGCAGTGA -CGGCATAAGAAGTAGAGCCCCCACAGAGGCCAGGCTGGCGGCATGGTTAACACCGAGAATATCCGGTGATGCCAG -AGGGTTGCGCACAATCCCCTGTATCAGCACGCCCGCCACGGCGAGGGCTGCACCGACAAACAGTGCCAGCAGCAA -GCGCGGCAGTCGGTACTCCATCAATACATAATAATGCTCGTGTCCGGCCTGCCAGTCGGTCAGCAGCGCGCGCCA -CGGCACGGGGATCACTCCCATATGGAGTGATAACAGCGCACAGCCCGCCAGGGCAAGGGTGATGAAAATAACCAG -CGCAATTTTCATCCTCGCCTCCTCACAAGCCAGACAAAGCAAGGGCTGCCAATCAGCGCCAGCACTGCGCCTGCG -GGCAGATCTCCGGGGAAGGCCAGCGCGCGTGCGAGTACATCTGCCAGCAGCATCAGCGTGGCCCCCAGCAGCATG -CTCACTGGCAGTACGTTGCGCTGATCGAAGCCTGCCCAGAAGCGCGCCAGATGTGGCACCAGCAGACCGATAAAC -GCCACCGGACCTGCTACGCTGACGCACGCACCAACCAGAAGCAGCACTAACATATTGATGACCAAACGTAGCCTC -GTCAGGTTCACTCCCAGCGTATGGGCGGTGCTGTCGCTGAGGTTGAGCAGGTTCAGTTGATTCGCCAGCAGCAAC -ACGACAGGGACTGCAGTGACCACCACCGGCAAGAGCTGCCAGACATCCTGCCAGCGGGCGTGGGACACTCCGCCT -GCCAGCCAGTAAAAGATGCCGTAAGCATGATCTTCGGCCAGCAGCAGGGTGATGCGGGTAAGGCCCATACAAAAG -GCCGACAGCGCGATACCCGCGAGGATCAGTTTGTTTCTGTCATGGGTATGACGAAATCCGCCTCCTGCGGTCATG -ACCAGCAGCCAGCTCACGCCGCCCCCGCATGCCGCGATGAATGACAGAGAATAGCCTGCAATCGGCGTCGGACTC -AGCGCGCTGGTAAGCGCCATAGCCAGCGCCGCGCCGCTGTTAATGCCGAGCAGTGAAGGAGAGGCCATTGGGTTG -TGGGTCAGGGTTTGCAGCAGCGTGCCCGCGAGCGCCAGGCTTGCGCCGATCAGAACGGCGACCAGGCTTCGTGGC -AAACGAAGGTTTTGCACCAGCGCTTCTGGTAGCGTTGGCGTGTGTCCAGGCAGCAGGGCGCGGGTTGCATCTGCT -CCGGAAACAGGAATGGCCGAGTAGCAAAACAGACTCAGCCAGAAAATAATAATAAGTGCTGCAACGGGAAGCCCC -CACAGCAGCACCGGGTGTTTTATCGCGGTCATTTCACAACGGTAAGCGGCTGATGGTGGAAGATTTTTACCGTGT -CAGCGGCAATACGCTCTGCAGCAAAAATACCGCGCATCCGCGCCCAGGTGTTACTGTCGACCGAAGCAACCTGCT -GCTTCTGCGCGGCGGTTAACATCTGCCAGAGCGGATCTTGTTGCCAGCGTTTAACAATGCTCTCTTCGCGATAGT -GGGCAACCAGCAGCCAGGCAGGATTGACCGCCAGCAGTTGCTCCAGGCCGATGGACGGCATGGACGCACCCGCCA -TCGCAGCGGGAACGTTCAGCCCCAGAGAGGCCAGCACGCTGCCGGTCCAGGTCTCCTGAGTATGCAGGTTGAATT -GCTGTTCGCGTGATGTGCCAAAGGCCACGCGTGTCCCTTTGGGAAGCTGGCTGGCCCACTGCGCCATCCTCTCTT -TATGTTGTTCCAGACGTGCCTGCATCTCTCGCTTTTTACCCACCATTTCGCCGATGATAGCCGCAGATTGCAAAT -TTTCAGCGTAGGTTTCGTTGCGGGACTTAAGCAGCAGTACCGGCGCGATTTGCTGCAAGGCGATGTAAACCCCCG -CATGGCGACTGCTGTCGGCAATGATCAGGTCTGGTTTCAGAGCGGCAATGGCTTCCAGGCTCGGCTGCGCGCGCG -TTCCGACGGACTGCCACGGTTTCAGGTGCGCACGCACTTCGGGCAGGATGCGTTTTGCATCGTTATCGTCGGCAA -TACCGATCGGGATGACGTCCACGGCGGCCAGCGCATCGGCGAACGAGAGTTCCAGCACCACAATCCGTTGTGGCG -TTTTTTCGAGTGTAAACGTGCCGTGTTCGTCCTGAACCGTGGCGGCAAAGGCGTGGCTGATCACCAGCAGCAGGC -CTGCAAAAAGAAAACGGATAAATGCCAACATAATCACATTCCAGCTAAAAGCCCGGCAAGCCGGGCGTTAACACA -TCAGAACTTCAACGACCCCTGCATATACAGCGTGCGCGGCTGGCCTGCATAGATGCCTTTGTTGTTGTCGTCATA -AGAGCGGATGAAGTAGTCCTGGTCGAAGATGTTTTTCACACCGAATGCCAGGTTCAGATCTGCCATCTGCGGGCC -AAAGTCATACGCCACGCGTGCGCCCCAGAGCATGAAGCCGGGAATGCGGCCGGTACTGCCGTCGGCGCTCTCTTT -CACCGTATTGGCGTTATCCGCAAACTGGCTGGACTGGAAATCGCTGTTCAGATTGAACGTCCAGTTTCCTGGCTT -GTAGTCCACGCCCAGCGTGCCTTTATGTTTCGGGGAGAATGGTACCAGATTGCCGTAGGTGTCGCCTTTCTCGCG -GATTTCCGCGTTCACATACGCATAGCTGGCGTAGATGGAAACGTTATCAAGCGTTGGCGTTAGCGTACCCAGATC -GTAACGTGCCTGCGTTTCCAGCCCGGTATGGCGCGTTTTGCCACGTGCAGTGACGGTGTCGTTGGTCTGGTTGGA -GTCGTACTGATTGTTAAAGTTAATCAGGAACAGCCCCATTTCCGCCGTCAGCGCGCCGTCGTCGTAGCGGGTACC -GAGTTCCCAGGTTCGCGCTTTTTCCGGTTCAACATTGCCGCTTTGCACAGCCTTGCCAATCTGGCTGTACTGTAC -GGTGCCGAACGAGCCTTCAGTGTTTGCATAAAGATTCCAGCTGTCAGTCAGGTGATAGAGCACGTTCAACGCCGG -AAGCGGTGCGTTATAGCTCACTTCTTCGTGCGTGCCTGTGATGGCGTTGTTCTGGTATGACTCGATATGTTCGAA -ACGCATACCCGGCGTGATGGTCCAGTTGCCGATGTCGATTTTGTCATCCAGATACCAGGCGTGCGCCTCGGTGCC -GGAACGCGTATCGCGGTCGTAAGGGCTTGAGCCGGACGGCAACTGCCCGCTGCTGGTGGCGGTGTAGTAACGCAT -TTCATGCGTTGATTCATTCAAATAGCGATAGCCCACGCCCACTTCGTGCGCGGAAGGGCCGATCATAAAGATCTG -GCTGTAGCGTGGCTCAATACCGCGCACCCAGTAGTTACGCGGCGAGAGGGTGATGCGTTTGCCTTGCTCCAGGTA -GCCGCTGCGCAGGGTTTGGGTGTAGAACCCCTGAATGTTGAATTTATGCTGGCTGTCTGGCTGGAACTGGTAGCC -CAGGCTCGCCAGCTTGCGACGACCCCAGAAGCGGTCATACGGGCGGGTGGATTGCCAGCGATCGGCGTCGTAATC -CGCGCGAGACAGGCCACCGGGCATGTCGGCTTCACCGTCGTAATATTGCAGCAGGCTGTTGAAGGTGTGCACCTC -ATCCGGCGCATATTTGCTTTTCAGCATCAGGTCGTCGATGCGGGTGGCGCTGTGCTCGCGCCAGTCACTGCCGCG -CGTGCCGGAGTAGAGCAGCGCGGTGCCAAAACCGTTGTCCGCTGTGCCGCCCACCATCAGGTTGTGCGTCTCTTT -CGGGTTGTTTTGTGAAGAGGTTGGGCTGAGCTGACCTTCCACGCCCGCCTCGATACCAAAGTCCTGCGGAATGGC -ACGGGTAACAAAGTTCACCACGCCGCCCACGCTCTGCGGTCCGTAACGCACCGCACCACCACCGCGTACCACGTC -AATGGCATCCATGTTGCCGAGCGAAACGGGAGCCAGTGAAAGCTGCGGCTGACCGTAAGGGGCGAAGGGGACGGG -GATGCCGTCCATCAGGACGGTCGAGCGGCTGGCGAGGCGCGGGTTCAGGCCCCGGATGCCAAAGTTCATCGCCAG -GTCGTGGCTGCCGGTGCCGTTGTTTTCCGGCGCGCTGACGCCAGGGATGCGGTTAAGTACCTCACGCATGGTGGT -TGCGCCGGTTTTGGCGAAATCCTCACGGCGGATCACGTCACGCGCGCCAGCATGTTCAAATACGTCGTTTTCACG -CGCATCACCCAGCCAGTCGCCGACCACGGTCAGGGCATCTTCTTTTGGTGCGGGCGCGGGCTCCAGCGTCCAGCT -GTTATTTCCCAGCGGTTTTACCTGCAGTCCGCTGCCGTCCAGCAGTTGTTGCAGGCCGCTCTCGACGTCGTAATC -GCCGTGCAGGCCGTTGCTCTGCTTGCCGCGCGTCAGGCTGGCGTCAACCGAGAGGGTAAATCCGCTGTGTGCGGC -ATACTGATTGAGCGCTTTATCGAGCGATCCCGGTGCGATATTAACCTGTGCAGCAAAAGCGGAAAACGAGAGACC -GGCCAGCGGCAGCAGGCTCAGGCGAATGGTGTTAACCAAAGGTGTTGTTTTACGAAAAACGCGTAACGGCGTCAT -ACCTTCCCCATCATCATTTTTGTTGTGTTCAGCTATGAGTCGAACGAGAAGGGTAAAAAGGACAATCGAAATAAG -AATTATTTTCCTTACAGTGGTGAAATGTTTATCCAGTACCGCGTAATAGACTGAATTTTAACGGGAAGCGTTTGC -GCGATAACGTTCAGGATCGCATCGGTATTTTTCAGCGGGAACGTCCCGCTCAGGCGCAGCCCGGCAACGGCGGGA -TCGCAGCGCAGCACGCCGTTGCGGTAACGGGTTAGCGTGGCTATCACCTCACCCAGCGGTTTATCGCTGAAGCTC -AGGATGTCCTTCGTCCAGCTTGTACTCTCGTCATCCAGCGGTTTCACTGCGCCAAACTCAGAGGCGCTGAACTGC -AGGCTTTCACCAGCGTTCACGATGCGTTTTTGCGCGGGGGCACTGGCGAGAAGCACTTCCACAGCGTGCTGCTGC -ACGTCAAGCTGCGTGAAATTATCCTGCTGGCGGACGGTAAATTCTGTCCCTAAAGCAGTGAGCTGGCCCTGACGG -GTCAGGACACGGAAGGGGCGTTGCAGGGCATCTTTCGCGGTAGTAATGGCGATTTCACCGTACCAGAGCCGGACG -GTGCGCTGATGCGCATCAAAACGCACATCCGCCGCGCTTTGGGTATTCAGCGTGAGCAGGGAGCCATCTTCCAGT -TGCTGACGGCTGACTGTGCCTTTGGCGGTGCGGTAATCTGCCCGCAGACCTTCGCCGGTTTCCGACTGCCAGAGC -TGCCAGCCTCCGCCAGCGCCGAGCAACAGCAGTAATCCTTTCATCACGTGACGGCGGGTGAGGCGGGTATCGTGC -AACGCCCGGCTGGCAACGTCGCCAGGCACACCGCCAAGCTGGTTGCGCAGGTTTTCAACCTGCTGCCAGGCCCAC -TGGTTATCCTGATCCTGTTCATACCACTGTTGCCAGCGCGCTTCCTGTTGTGGGCTGACGCGCTCGCCGCTTAGC -ACGGCATACCAGTGGGAAGCTGAACGCAGCGCCTGACGGCGGGAATCGGTTAACAAAGGATTCATAACCCATACT -CCAGACGGAACAGCAGGCAGTGCTCGACGGCTTTCGCCACGTATTTTTTCACGGAGCTGATGGAAACACCGAGTT -TGTGCGCAATCTCGCTGTATGTCAGACCATCCAGTTGCGAAAGCAGAAACGCTTCACGTGTTTTGCCGTTTAGCC -CGTCCAGCATGCTGTCGAGGAGTTGTAGGGTCTCGAGTTGGCTTTCGCGTTCCTCAGGTGAAGGCGCTCCCCCCT -CCGGCATAAGCGCCAGCATCTCCAGATACGCTTTTTCCAGCGCGTTTCGGCGAAACAGGTCCACCATCACGCGTT -TGGCGATAGTGCAGAGGAAGGAGCGAGGATCGCGGATCGTCGAGAGCGTTTCGCTGACCATTACCCGCAAAAAAG -TGTCCTGGGCAATGTCATCTGCATCAAAAGCAGACTGGAGTTTGCGCGTCAGCCAGCTTTTCAACCAGCCGTGAT -GTGTGCCATAAAGCGACTCGAACGTTAAGGAAGCTGTGGTAGTGGCGCGGTCAGACATGCGGAGTGCATCAAAAG -TTAATTATCACGTAGTCATATTAATATGAGAATGGTTATCATTACAATTGGAAATAAAATTGTTTCCAATAGACA -TTTTTAACATGTTGTTTTTCTAAGTGTTATAAGGTAGGTATAAAATGGGATGGAGCCTCTGCTTCTGGCATGTGT -CGGTCAGAATGACTCATGATGTGGTCTGCTATTATTGACATCCTCACTGCCCTAAAGGATGGGGATTTCGGTAAT -GCTGCCAACTTACTGATTTAGTGTATGATGGTGATTTTAAGGTGCTTGCGTGGCTTCCATTTCCATCAGATGTCC -TTCCTGCTCCGCTACTGAAGGCGTGGTGCGTAACGGCAAAAGCACTGCCGGACATCAGCGCTATCTCTGCTCTCC -TTGCCGTAAAACATGGCAACTACAGTTCACTTACACCGCCTCTCAGCCCGGTAAGCACCAGAAAATCATTGATAT -GGCCATGAATGGCGTCGGATGTCGCGCCAGTGCACGCATTATGGGCGTTGGCCTCAACACGGTTTTACGTCACTT -AAAAAACTCAGGCCGCAGTCGGTAACCTCGCGCATACAACCGGGCAGTGATGTGATTGTCTGCGCTGAAATGGAC -GAACAGTGGGGCTACGTCGGTGCTAAATCACGTCAGCGCTGGCTGTTTTACGCGTATGACAGGATACGGAGGACG -GTTGTGGCGCACGTCTTCGGTGAACGCACTCTGGCCACACTGGAGCGTCTTCTGAGCCTGCTGTCGGCCTTTGAG -GTCGTGGTATAGATGACGGATGGCTGGCCGCTGTATGAATCACGCCTGAAGGGAAAGCTGCACGTTATCAGCAAG -CGTTACACTCAGCGCATTGAGCGACATAATCTGAATCTGAGACAACATCTGGCAAGGCTGGGACGGAAGTTACTG -TCGTTCTCAAAATCGGTGGAGTTGCATGACAAGGTCATCGGGCATTATCTGAACATAAAACACTATCAGTAAGTT -GGAGTCATTACCGACCATGTTTATTTCATACATTGTGGGTATTGTTCTTATTATCGCCGCTAATCAATAAAATCC -TGCCCCATATCTACATGGGGCAGTTGTTCATTCTTTTAGTGTGGTAATTCACACGCCAGCAAAAACTCTGCCGTT -CCTTCATCAACAATCAGGTCCGTGACATATCCTCCCAGCAGGGCACCCAACGTTGCGTCATAGCCTCTTTCCCCA -CCAGCAAGGAAGATCTTCCGTTCAATCTGCCTTAGCTGAGCCAGACTGATTCCCAGAATACGCTGGTCAACATCA -GCCACGACGGGCATCCCTTCCTTGTCATAGAAGCGACCACAAATGACACCTACTGCGCCTAAATCCCGATACGTC -TGCATTTCCTTCTTATTCAGCACGCCCACCCGAATCAGGGGATTTTCATCAAGCGCGTTACCCACGACAAAAAAG -GCTTTCGTACAGCGAGTCAGAACGTCAAAATTCGATCGAATAATAGGCTCTGCCTGTAACTCCATGGCCAGTCTG -GCGCTTGATACCACGGCGGGCACGTGCAGCGAGGCGACACGGCCTGAAAGCTTGTAGGCGATTTGCGATGAGGAT -TCAATGATCGTCAGGTCTGGCTGAGATGGCATGGAACCGAGCATCTGTATAACGGTGACATTTTTACATGACTTC -GGCGTCATGGTTTTGCTCATCTGATGGATTGTTCTTCCCCAGGCAACCCCCAGCACATCACCATTCTCAATCACC -TGATTCAGATACATGCCACCGGCACGTGAAAGGCGAGTCCGCATCAGCTTTGTATCATCACGTTTTCCGGCATGT -TCGCCATCCGGCACGATGATCACTCTCTGGAGATTGAATTTATCGCGAATTTGCAAAGCAGCGTCGATAGAGCCA -AAGACATTCACATCCAGGTTGATATGAACCAGTCCATTTTCCCGGGCTGTTTGCAGGTATTTGACAACCGTGACG -CGGGACACCCCCATGATAGCTGCAACTTCAGTCTGGCTTTTGCCTTCCTGATAGTACAGCCATGTTGCATGAAGT -ACGGGATCATCATTGAACAGGCTGCTGTTTGTTTGATCTCTATCCACTTTTGTATACCTGTATTAAACCGGGGAA -ATGCTCATCTTAACCCTGTTTACCCGGAGAGTTGATGCAGATTGCCAGTGGCATGATTTTATACAGATATTTTAT -TCTTTTACATGAAATAAACCAGCATACCATTTGAGCGATCGCCCGCTGTTCCCCCATACTGTAAAGCCGGAGACA -TGCTCCGGCTTTACAGTATTACTGAGAATACACCCATCAAGCATAATCGAAGGTTCAATATCGCCCCTTTTTGAT -CGCCAGCGATTCGTCACCGTGCAGACGGTTGCCGTCACTCACTAAATTATGGGGGACAGTGAACAACAGGTTGGC -TCACTGGCAAGAACCCGATTATAAAACTAAGCTGGCGAGCAGAATAAAAATCAGCCCACTGATGGATAAGAGTGT -GGACATCAGCGTCCAGGATAACAGCGTTTCTTTGGTGGTCAGGCCAAAAAAGTCTTTAATCATCCAGAAACTGGC -ATCGTTAACGTGAGAACAAATACAGGATCCGGCACCGGTAGCCAGCGTAATCAAGGCCAGGTTGGTATTGGGATG -TACTGCCAACAATGGGATGACCAGACCGGCGGTAGAGATCGCCGCGACGGTGGCTGAACCCAGACAAATACGCAG -GAATGCGGCCACGCCCCAGGCCATCAGGATCGGGTTAATATCCATACCCGAAACCAGGGTGGAAATATACTGACC -AACGCCAGAGTCGATGAGAACTTGCTTGAATGCACCACCACCACCGATAATCAGCAGCAGACCGGCAATACCCGC -GATAGCTTTTCCGCAAGAATCCATCAGGTCAGGGATTGTTTTCCCGCGCCCCAGGCCCATGGTATAGATCGCGAA -TAGCAGTGAAATCAGCATGGCGATCGTTGAATTACCTAAGAACAGTATCACGTTGTAAAATAAGCCTGAATCCGC -GGCACTTTTGGCATGAGTCATCTGGATGATGGTGACAACCGCCATCAGGATCACCGGCAGCATTGCCGTGAGAAA -ACTGATCCCAAAGCCTGGCATTTCGCTTTCGCTGAATCGGCGGGTCGCGCCGAGAGAGGCTATATTCCCCTCTTT -TTTAAAGGCGTCCGGAATAATGCGCTGGCAGAATTTATTCAATACCGGGCCGCAAAGAATAAAGGTTGGAATGCC -GACAATGATACCGTATATCAGTACCAATCCTACATCAGCGCCATATTCCCTGGCGATAACAGTCGGGCCGGGGTG -CGGCGGCAAAAAACCGTGTGCGACCAGCAAACCAGAAAGCATCGGCACACACATAAACATCGGTGATATTTTTGC -TTCACGGGCAATAGCGAATAAAATAGGTACCAGAAGAATTAAACCGACTTCGAAAAAAAGTGCGATACCGACAAT -AAACGCCGAACAGACCACTGCCCAGTCAAGTTTATTTTTCCCGAAATAATTCAGCATGGTCAGCGCTATTCGCTG -CGCACCACCCGCATCGGCCAGCAAGCGACCGAGCATAACACCGAAGCCAAATATCAAACCAATATGGCCCAGCGT -ACCGCCAAGTCCGGATTCGACTGAGGTGACGACTTTACTCAAATCCATACCACTGGCGATGGCGACAGCAATCGA -GACAATAATTAACGAAACAAACGTATTAAGCTTAATTTTTATGGTTAAAAGCAGGAGTAAAGCAATCCCTGCCAC -AACGATAATTAGTGGCATAACGTCCTCTCATAACAGGGTAGCGACCCATCATTATCCGACTGAGCAAATAACGAA -TGATGCAGAGTCGGATAATTCAGGTGTCTGGATGTTTTTATTTATGCTTTCAGTTTTTATTCATAAAATCGCGCA -AAGCCGCGCCAATTTTGTTTACATCATAAATACAACCGGTCCATGTCCCACCACTCACGGCCTGAAGCATTGCCC -ATAGCCGGGTATCATCTGGCAATTCAGGATCGGGAAGTAAATCCTGATGGCTGGGTCTGGCATTTAATATTGCAG -TTGCCTCCTCCTGTGAAGGTAATTGTTCATCGCTACGGGTTCCGAGGAAATTGACTTCGCCGTGAAGCTCGCGAC -AATCAATTTTAATTTCAATTAAATCCCCGGTGCGTAATTTACCGATGGGGCCTCCGGCCAGCGCTTCTGGCCCCA -CATGGCCGATGCACGCGCCAGTAGAAACGCCCGAGAAACGTGCATCGGTGATTAACGAAACATGCTTACCGTATG -ACAGATGCTTCAGGGCACTGGTAACCTGGTAGGTTTCTTCCATCCCTGTACCTGAAGGTCCAACGCCAATAATGA -CCAGAATATCGCCCGCCTTGATCTTGTCATGTTTGATATCGTAAATCGCACTTTTCTCGGACAGATAAACCTTCG -CCACACCTTTATGGTAATAGATACCTTGCTCATCAATCATCGAGGGGTCAATGGCGGTGGATTTGATCACCGAAC -CTTCTGGCGCAATATTGCCCACCGGGAAGGTGATAGTTGAGGTTAATCCGCGCGCTTTTGCTTGCTGCGGAGACA -TGATCACTTCGTCAGCGTTGATTTGTTCCTGATCGAGCAGGAGTTGCTTGAACCGCTGACGCCGTTCGGAGTGCT -CCCACCAGTCGAGGTTTTCTTTCAGCGTGCTGCCGGTAACCGTCATAACGTCTTCATGCAACAATCCGAGGCTGC -GCAGATGCAACATGACTTCCGGCACACCACCTGCCATAAAGGCATTGACCGTTGGATGATAAACCGGGCCATTAG -GCAGTACGCTCACCAGTCGGGGCACGCGCTTGTTGATGCGGATCCAGTCATCAACGGTCGGGATATGGCAACCTG -CCTGGTGAGCAATTGCCGGGATGTGTAACAGCAGGTTTGTTGAACCACCGAACGCGGCATGGACCGTCATCGCAT -TCTCTATCGCTTTATCGGTGAGAATTTCCCGGGTGGTGATGCCTTTTTGACTCAGGTTCAGCGCAGCTCGCGCGG -AAGCTCTGGCGATCTCCCGCCACACAGGCTCACCGGAAGGGGCCAGGGCTGAATGTGGGATTGCCAGTCCCAATC -CTTCGGCCACCACCTGAGATGTCCCGGCAGTGCCCAAAAATTGACAGCCGCCGCCGGAAGAGGCACAGGCTTTAC -AGCCCGCACGGCGTGCGTCCTGTAGAGATAATTCGCCATTGGCGAAGCGTGCGCCAATGGTTTGCACCTTGCCGT -TGTCTTCTCCATCCTTTGCGGGCAGCGTCGCGCCGCCGGGGACCAGCACGGTTGCGATGTTGTGCTGCGCGGCGA -GTGCCATCATGGTGGCCGGAAGCCCCTTATCGCAACTCGCCACACCAATAACTGCTTTCGCGTCGGGCAGAGAGC -GAATAAGGCGGCGCATTACCATCGATGCGTCATTTCGGTATGGTAGCGAATCAAACATCCCCGTTGTACCCTGAG -TACGCCCGTCACAAGGATCGGAGACGTACACGGCATAGGGCAGGGCATGGTTGGCTTTAATAACCTCGGCCGCCG -CTTTCATCTGGATGTCCAGTTCGTAATGCCCCTGGTGCAACGCCAGCGCCACGGGTTTACCGTCTGCGCCGCGTA -AGCCACCGAGTGTACTGAGCAGTAAAATACCGTCCCGATCCAGCTCGTCCGGAGACCAACCCATTCCGGCATTCA -TGGTCATACCGAACAGATCCCCGCTCGGGCGGTTGATAAGCATCTCTGCGGTTAATGGGAGTTCGCCGTCCGGGC -CATCGGCGTGCGTTCTGACGGTGTAAATATCGTGGCTCTCGTCAGCAAAAATATTGCGAACAGACATGAGTTTCT -CCTCAGACTGGTAAAATGCCCTGCGCGGTAAGCAGCACGTGGACTTTATCTTTTGCTTCTTCAGATGCTTCAAGA -ATCGGTGGTAAGCAATATGTCTCTACAGGCAGCCCGACACACTGCATGCTGTATTTGATCAGTGAGACAAACGGT -GTTTCGAGGGCGTAAATAGCGGGCAGTTGTAGTAGTTTTTTATTCAGCGTCGCAGCGGTCGCCAGATCGCCTTCA -CGCCAGGCGCGGTAGATGCCGACGGAGAGTTCCGGAGCAAAGTTAGCGCTGGCGGTTATCGCACCGTCGCCGCCC -AGCAGCATCGTATTCAGCAAATGATCATCGTAACCGCAGAATACCGAAAACGACGGGCGTACCGACTTAACTGTG -TTGATCATCGTACGCAAGTGACCAACGCTGTCGATGGTGTCTTTGATGCCAACGATATTCTCGTTTTGCAGAGCC -AGACGCGTCACGGTTTCCGGGGTTAAGTCCTGACCCGTCAGATCCGGAAAGTTGTACAGGATCACCGGTAGGGTG -ACGCTACGGGCGATCTGCTGGTAATAGTCGTCAAGATTTCGTGGTGCGACTTTCCAGTAGTAGGGGTTGATGGCG -ACGATACCATCAGCGCCGTAGGCTTGCGCATGCTGCGCCAGTTTGACCGCTTCGTCAGTGGAAGGGGAACCGACG -CCAATCAATACCGGCACTCGCCCGTCGACAATGGTTACAGCTTCTTCGGCGAGTGCCATGCGCTGGGCTGTATTC -ATTTGGCTAAATTCACCACCGGTACCCAGATAAAACAGCCCGTCGACCCCTTTATTAATCAGGAAGTCGGCAACT -TCGCGCATTGCCTTTTTATCAAGGGTTCCGTCACGATGAAACGTGCTGGATACCGGTGGAATAATGCCGCTGAAT -TTTTTCATTACCTCAGTTTCCTTTTCGTAAGTGCTCATTTTCGTTTCTGTATCCCAGCCCATATGATATTTGCTC -AGCGCATTTCCGGAGCAATTCCAGATAGCTGTCTATCTTATTTCCTGAATAAACTACCGGATCGCCAGAAAGTGA -GATTGCATAGTTAACTCTGTTATACATATTGAATACCGGCATACTTAAACATACCGCCCCATAGGTTGATTCTTC -GTTGTCTATGGCCCATCCCCGAAGGCGTGTTTTTTGTAATTCTTCCAGAAACAATTTTTTATCGGTAAATGTATT -GCGCGTATGTGGAGTTAACGTGAGTGCTTCTAAAAAATAATCCAGTTCTTCTCGTGTCTTCCAGGCTAATAATGC -CTTACCCAACGCGGTAATATGCAACTCAAGTTTTTTGCCAATCCAGCTTTTGCTCGTCGGTACAGAGTCCGGACT -TTCGATCTTGTCGAGATAGATAGCCGAAATGCTCTCCATCGCCCCAAGATGACAAACCAGTCCACTTTTCAGCGA -CAACTCCTGCATTGGCCGCTTAGTCACCTCAAATATATTTTGACGGTGTAACGCCTGACAACCCAATTCGTAGTT -TTTTATTCCCAGTGAATAGTAGCCGTTTTTGTTTTTAATTAAGAAACCACAATCCACCATTACATTCAATAAATT -AAGCAGGCTGCTTTTGGGGTACTGGAATTTATTTAATAACTCCATATAACTTGCCATACCAACCCATGCAATGTG -GGTTAATATTTTTTCAGCACGGACTAATGAATTACACCCTTTGCGAACCATAATGGCTCCTCCTTGCTCATGGAA -TAAATGGTATCGGCATTACATAGTGGAAAATATGCTTTGTTCAGCATGCTGAACCGTAATGATGTGATTAAATGT -GATCTTGTACACACTTTGAATAATGAATCCAGAACAGCCACATTTAGTGAATGAGAATAAAAAGTAGATGGCGTG -TTGTTGCAACATCGTAGTGTGTGGATTGCGCCTAGAGCTTCTTTATTCGTTCGAGCGCATCGCCAATATTTTCTA -TTGGGTGCCATTGATTATTTTTGCTTGAAATCCCTCTCGAATGAACTTACTTATCACTTTATTGAATGAGGTAAA -AACAACTGACATCCGGCTCGCTGATAACGCTGTGCAATAGTCTCAGGTAACCCGCTGTCACTGATGATCGTTTTA -ATACATGATAGTGTTGCTACAGCATGCGGCTCAACGGCATCAAATTTTGAGTGATCGGCCATGAGAATAACTTCA -CGCGAGCGTTGAATAATCCGTGTTTTCACCCCGACCTCAAACATGGTGGCATTGGTGATCCCCGTCTCCAGCGAC -AGCGCATCGCAGGAGATAAACGCACGTTCTACGGAAAAGGCATTGATCATCTCCAGCGCCAGACTCTCTCCTACC -GAAAAATAACCTGGGCGAATCAGTCCTCCGATAATGTAACTTTCCACATGGGGAAAACAGCCCAGTTCATTGGCG -ATTTTAATGTCGTTGCAGATGACCTTTACCCGCGCATCGGCCAGGCATTTCGCCAGTTCGAGGCAGGTTGAGCCG -GAGTCGAGAAAAAAGCAGTCGCCATCTTTGATCATTGTTCGGGCAAGGGCAGCTATTTCTCTTTTCGCCACAGAT -TGCAATGTACGTTTCACGTCGAAGACGTACTCTTTGTCGTCTGTACTGTCGTCGAAGTCCAGGCAACCGTGACCG -CGGATCATGCCTGGATACTGGTTGACAATATACTGGAAATCACGACGGACAGTCGCTTCCGCATAGCCAAAAAGC -TCCATGGCCTGCTGTGTGGAGAGGTGACGATGTTGCCACAGGTAGTGCAGCATCTGTTTGATACGGTCAGGTCTC -TGTTGGCTCATCAGAAACAATCTCCTCTTACAGGGTGGCGAATTGAGCTAAGGTCGCGCGATAGTCAGATGAAGA -GAACAGGGCGCGCCCAATCACCATATGTTGCGCCCCAGCTGCTGCCAGTTGCTGTGCAGCTGCCAGCGTAATTCC -ACCGTCGGCCCAGCACTCGGTCTGAGGAAAAGCCGTGCGTACTTTTTGGATTTTCTCGCACATGGAGGGAATAAA -CCGCTGTCCCTGCCCATCGGGCTCACTGGTCATCACCATCACTCCGTCCAGCTCAGACGCCAGATATCGCCAGGC -GTCGATCGGGGTTGCCGGATTAAATACCAGTCCGGCTCGTGCGCCGGTATGGCGGATCTCAGTTAACGTTTCCGA -AGGATAGTCCAGCGTTTCTGCATGAACGAAGATCCACGCGGGTCTGATTTCAGCCAGCGCGTTAAACCAGCGCTG -TGGCCGGGCAAGCATGAAATGAAAGGACAAGGGATGAGGCGTCTGTCTGGCGACGGCCTGCACCGTTTTCATCCC -AAACGTAATGTTGTTAATGAAGCTGCTGTCCTCAATATCCAGATGCAGGCTCCCAAAATCCAGATTGTCCAATGC -CGTCAGCTCACGACCATAGTGCAGAGGATTTGCGCTGGCGAGAGAAGGGTGCAGGATCATAAGCGCCTCCGTTAA -CCTGATACCAGCGCAAACAGTGCATCGTCTGTGCTGGCATTTCCCACTGCCGTTAAGCGTTGTGGCGAATCAATA -AACTGGCTGATGCGCTGAATGGTCAAAATATGTGCGTTGGCATCCGTGGCGCTGACGCAGAGAAGCAGCCAGACG -GGGTCGCACTCCTCGTTACCAAAGGCGACCGGGGTGCGTAGCGTGGTGATACTGACCTGATTATAGTTTGCGCCT -TGCTCTGGTCGGGCGTGAGGCAAGGCGATTCCTGGGGCTATCAGATAATAAGGCCCCCAGTTAAGGGTATTTTCG -ATGATCCCATTAACGTAGCATGGCTGCGCGGCACCATAGGCTACCAGCGGGCGGGTGGCGATTTCCACGGCCTGA -CGCCAGTCGGTGGCTTTACGTTGTGCCTGTACCCATTTAATATCGTTAATCATCCGTCGTTGACTCCATGCCGAT -TCGGGTTAATCTGGTAGCGATCCCCGTCGATACTTTTGACGAAGGCGGCAGGGATCGCAGAAGGGTTATTGCTCT -TTGCCGGGGATAAGCGCTCTGCTTATCCCCATCTTATCGGCGTATATGATGCACTTTCTCCATAAACTGACTGAC -TCGCGCCTGGTCAACGAAATTGGCAAAAACGCCGTCCTTTTTAAAGGTGGTTGCGGTCACACAGCCATCGGCGAT -ACTGAGTTGTTCCTCCACGTTTTCCAGGCAGACGCCCGTGTTGGCCAACACGACGGTGTCAGGCACCGTTTCTTT -GACCCGTTTTAACAGCGCGCTGTCGGTACGCGTCCCGGCGGTCAGGCCAGAAACACAGAGCGCATCAGGATGGTT -GTTAAATACTGTCGATTTAGCAATAGAACAGATATCGCGATTGCCCAGATACACGGCGGCCTCTGGGACGATATT -GAACAAGGTTTTCACTTCGCCTGCACCAATCCGGTGTTGATGACGGATGGTCTCACCGACGTTAGTGTCCCAGAC -GCCAAAGTCGCTGGCATAGGCACCGGTAAATATCTCGCGGATAAACTTAGCGCCGGTAGCCATCGCCAGGTCGAA -TGAGGCGACCGGATCCCACAGAACATTCACGCCAAACGGGATGCGGATATCGCTCATTAATTGCCCGATGATTCG -TGCCATTGCCGCAGTGGTTTCCGGACGCACCTTCGTGAGATAGGGAAGACTAAACTCGTTGGAGAACATGACTGC -ATCCACCCCACCATTTTGGAGCGCCATCAGATCGTCCCAGGCTTTGTCGATAACCCAGTTCATCCCCAACTGCGC -ATCAAAACTCGGGTCGCCGGGCAATGCACGTAGATGGCACATGGCGATGACCGCTTTTTCCGTCCCAATAACCTC -TTTCAGCCAACTCATTGAAAGTACTCCTTATTCCGATAATTCACGTTTACGTAAGAACAGCACGACGCTGGCGAC -AATACCGACCGCCACGACAACGCCAATAATCCCAAGCGACATCAATTCAGAAATCGACCAACCGAACATATTGCC -CACGGACAACGCTGAGATTTGCGCACTTTCACCGGCAAAACTGAAACCGCCTTTGAGCGCCATTTCAGTGAAGTA -AGGCGCGAACTGGGTGGCGATCAGCAGGACGGTAATCATCACGATGACCCCGCTTATCAACGTCCTGACCAGGTC -TCCGCGGTGGATAACCGTAGCCATACAGATAAAGAACGGTGCTACCGGCAGGTCTGCGAGGGGTAACACTTTGTT -GCCCGGTAAAATGCTGGCCAGAATTAACATAATGGGTATCAGTAGCAGACCGACAGCAATGGTGGTTGGATGCCC -CAGCGTCACAGCAGTATCCAGACCGATATACACTTCACGTCCTTTGAAATATTTCTGGAAGAACTTTCTTGCACC -GTCGGAGATGGGCAGCAGGCCCTCAACAATCAGGCGGATCATGCGCGGGAACAACACCATGATTGCCGCAACGGT -AATCATCAGACTGGCGCAACCTTTAAAGCCTTCACCAGCCGCCAGGCCAAAAATCAGACCGAGCACTACGCCGAT -AATCACCGGATCGCCGACCATGCCGTAGCGTTTCTGGATCTCCTGAGCATCGATATTGCGTCCCTTCATGAAAGG -GATTTTTTCATAGATAGCATCAAGTAGAACGAAAAGCGGTACTGAACTGGAACCGTAGCCTTGCGGTATCGAAAT -ACCTTCCAGCCCGACGATGTTCTGTACCCGTTTTGCCGTCCAGTCGGCCATTTTTAACGATAGCGCCGCATGGCA -GATTGCCCCCAGCACACCATAAATCAGGCTACCGGTCATAAGCTGGACCACCGTACCCGTAATGGCGTAGTGCCA -GTAATTGTAAATATCGACGTTCATCGTTTTGGTCAGACGGGTGACCAGCATGGCGACATTGAGAAGAAAAATAAC -TGGGATAATCATGGCGCCAATGGCTGTCGCATAACCAACGCCGGAGGCAGGGCCTGCGCCAACGTCAAAGACATG -CAGGGCTAGGCCGAAACGCTCAATCATCACTTTGATAGGGGGACTGAGGCTGTCGATCGCCATGACGATCACCAG -TCCCATACCGACAAAACCAATCCCAACCGTTACCCCTGCCTTAATCGCCTGCAGCCAGGGGATGCGGAAGATAAG -GCCAATCACGATCATGATGATAGGGACGAAAACGGTACCGCCGAGAGACAGGATGTAATCAAACATAATGCCTCC -TTTTATTGAGTTAACAGAGCCTTGATTTGTTGTTTTAACGCGTCGTCGTTGATCCCTGTGAGCAGGGCGGCGCCA -TTAAGCGTAGGGATGCCGTAATCACTGTTGGTTCGCATGGAGGTTACAATAAGGTCCATACCGTTACAGTTAAGA -GGGATCTCATTCAGACAGCATTGGGCGGTAGTGGCTGAAATGCCCTGTTCAGTCAGGAACTCTTGCAGCTTGTGT -GCAATCATGGTTGAAGTCGACATGCCGGTACCGCATGCCACAAGGATCTTTTTCATAATGGATGTGCCTCTTGTG -TAGTGCCTGAATCAGGCTCAACGGGGAAATGTGCTGCTGACATACCTGCCAGAGCGGTCAATAGGCGGATGCAAT -CAGTCAAATCACGCAGGCTGGCAACCTCCGCCGGAGAATGGGTATAGCGACAAGGAATAGAGAGACTGGCGCAGG -GAATACCATCCTGCTCAACCTGGATATAACCGGTTTCTGTTATCACGCCGGGAGCCACTTCTCGCTGCACCGGAA -TGTTGTGTTCAAGAGCCGTCTGTTCCAACATCCGTATCAGGCGAGGAGGCGTGATTAATCCGGCCAGCGTTCCCC -GACCATGGTAGTTCAGGCAGGTGATCCCAACGCCCTGATTAATCCTGACCTCGGAATAATCGTGTAAATCAGGGG -TGTCACACGATGGAGTGATATCAATACCAATCGCCAGGTCAGGTTTTACACGGCGTAATACGGGAACAATGCCGC -GGATATTAAATTCTTCCTGTACCGAAGCCACCAGATAAACGGCGATATCAAGCTCCATAGTACTGATAGCATCCG -CTACACCGAGCAGGGCAGTACAGCCTAGACGATCGTCTAGTGCTTTACTGCACACCAGATCGTTTGCCAGGAGTT -GCGGCGGGTTATACAGAGTGACAGGCGTACCGACCTGAATGCCCATCCGTATAGCGTCGTCTTTGTCTTTGGCAC -CAATATCAATCCACAGTTTGTCGACAGAAGGTGACTGCGTGCGCTCGTCGCCTTTGGCAAAGTGGTAGGACTTAA -TGCCGATACACCCCATGACTGGCCCTTTGTCCCCGGTGAGGGTGACGATGGAACCAGCCATAGTGACCTGCGCAG -GACCGCCTACGCGTTCAAAGCGTAAAAATCCAGACGGCTCTATTTTGCGCACCATAAAACCGACTTCATCCATAT -GCGCAAAAATCATCAGTCGCAGCGCATCGGGTTTATCACTACCGTAGCGCGCGACGACATTCCCAAGCCTGTCTC -GCCAGACCTCTTTTGCCTGACGCCTGAATTCGCACAGCATGACGTCAGCGACAGCGTTTTCGTGTCCTGAAATCG -CATTGTGCTGCAAAAGCGAGAACAGGGTTTCCTGCACAGAAAATGACATAGCTATCTCCGTAGACCGTAAAACAA -TCACTCGTTGAGCGTTTTATAGGCGCAGACTGGTCGAATAATTGTGAGAACGTTCACGTGAAAACGCGCAAAGCT -GAACAAATAAAAAATTATGTGAGCCGAGTGGAATAAAAGCGCTCAACGTTTGTGAAAGTTACGGGCTGGAGAGAC -CAGTGATTATGGTTGAAATAATGAGGATGAATAAAACGCGGTAACTGTTATAGCACCACTTTGTTGCAGGACGCT -CCCTCTTCATTACGTCCTGCACGTGGATACCCCAGCATCTCCATCAGCGGATCTTAGAATGTAATGGCGCGTGGC -AGGTCGTTGGTTCCCAGCATAATGTAAGAAAACATCGGATCTCCTGAATAGATTCAGAGGGAGTATAGATAATCA -GCTCAAATCACTCTCCGCTTTATGAGCCCAGGCTGGCATTGCCGTCAGATAACGTTTTGCACGCTTATGTGCTTC -CTCCGGGCCGACTTTTTGCCAGGAATCAAGGAAGCTGGCTAAACCTGATACCGCTTCTTCCCAGGGTTTGAGATT -GCCGTTGCTGTCGCTGCATTACGCACAATATTGATCACTGGCACTGTGTGCATCTGGTGCCGACATCGGCATTCC -GCAAGCCTGACAGAACTGTTCATGTTGTGACATATGATGCTCCTTATGGTGACATCTTGATTAATAAACATACTG -AATATGTATTGTGCAGGTGATACATCAGATCAAAGCAAAGGTAAAGCCTCGATATTTCCAGCCAGAAATACCGGG -AACCTGTTGTTACCGGGCGATGAGTGCGAACACGCCCCAGCCAAAGCATTCCCGCGCGTAGGTCACGTAGCGTTT -CGGCGCGATGTTTAGTTCGGCCCTGACTTCGGCGGCGAAGTCATCGTCAGGATTCGCTTCCAGCCAGCGGCGCAT -GGTCAGCCATTTTGCGGCTTCATACCGGTCCCAGCCTTCCTGGTCTGCCAGTACCATTTCCACCACGTCATAGCC -GAGATCGTCGAACGCTCCGACAAGTCCTGGCAGCGTCAGGAAATCGCTTGTCGAGCTGACGCCGCAGGCCTGGGC -TATTTCTTCTGTTGCTGGTAGCTGACGCCAGTAGGGTTCGCCGATAAGCATGATCCCGCCCGGTTTCAGGCTTTG -CGCTAGCAGCTCCTCCGCCCCGGCAAACCCACCGGCAATCCATGTCGCGCCGACGCAGGCCGCCACGTCACATTT -TTCATTTGCGACGTAACCGGCCGCATCGTTATGAATAAAATGTACGCGTTCGCTGACGCCGAGTTCTTCCGCGCG -ACGCTTTGCCTGCGCGGTGAAGAGCGAACTCATGTCGATGCCAGTCCCCGTAATGCCATGATCCCTGGCCCAGGT -GCAGAGCATCTCGCCCGAGCCGCTGCCGAGGTCAAGAATGCGGGTGCCCGGCTTCATGCGCAGCACGCGACCCAG -CGTGGCGTACTTCTCTTCGGTGAACGGGTTATGGATGCGGTGTTCACTTTCGCTGATGGTAAAAATACGTGGGAT -ATCCATTATTTAATTCCTGTTATTGGGTTAAGCCTTAAAAAGGACACAACAAGATTGTTATTCACGTCAGTGCTC -CGGTTTCATCAGGGTCTGCGCACCGGATGTGGCCGGTCAGGGTCATGGGCTGAGCGGTGAGTGATTGCATCATCC -AGCAGGCTTTGTGCTCCTCCGGGATGGGATAAGGTGCCGGATAGCCTTTGTCTCCGGCACAGGGTTCGAACCCAT -GTCGGGGGTAATAGGTGGCGTGGCCGAGAACAAAAACCGTCTGGCAGCCCATCAACCTCAGGTGCTCGATGCCAG -TGCGTATCAACCGTCCTCCCACGCCCATCCCTTGGTATTCCGGTATGACCGCCAGGGGAGCGAGGATGTGCATCA -ACGGTGAATCCATTTCTCCTTTGAAGGTTGCCCGGGTAAATAAAATATGCCCGACGGCTTTGCCTTCATACCGGG -CTAGCAGCGATAACGCGGGGCGCGCGCTTTCATCCTCAAGTAAAGAGGCCACTAAATCGGCTTCTTTGCTGAAGC -CAAATGCGCGGGTTTCGACTTCCCGGATATCACTGGCATCACTTTTATCTGTGATATGAAAAGTGAAGTGGTGTA -CTGTCATAGAAACTCTCCTTAGCGATTATCGAGCTGAGCGCGAACTTTATTCAGCTCGGTGGTGTTGATTCGATA -GGGCTGGCCATTGACGGACTTGATAAGTTTTTTGGTTTTGAGTTTTTTGAAGACGGCGAGCGTGCAGTCGGTCAG -CAACAGCCCTTCGCGGCTGTAGCATTCAACGGAAGTGACGCGGCCTGAAGAATCGCGGACGTGCGCAATACGTCT -ACCTTTAGCGAGAACGTGTAAGGTATGTTGTTCCTGACGGGATAAATTCATACTGAAGAACCTATTTAATCATCA -TGTGCAAAACGTGCAAACACACCGCGGTGTCCGCATTCGATTTCGGCGCATTGATAATCAGTCCGGCCTGAAAAG -GTCGGGGAACTGATTATCGGATGATTACATTCTCCAGCATCAAAGCCTCGGGTTGAGTTGAAAGGTATTTACGGA -GCGAATATTAACACGTAGTTATAGGAGGGATATGTTTCAGTAGAAAAAGTGTGATGTACTTTGGAAATTGAATGC -CAACCCATTTACTGGAAAAGGCAGATGACACTGACGAATGCATGTTGAAGTACGCCTGAAATGGCCTCATCGGCT -TTTCCCTTCGGGAGATTATTCTCCTTTTGTTAAATCCAGAACATAAATATGCTCACCCATCTTCGATGCTTGAAA -AATTGAAGCCAATCCTGATAAGTAATTTTTTTGAAAGGGTATTTTCCGGATTCACACCGGCTTTGATGAGTGAAA -AACCGTTCTCTTTTATTCAGTCAATCGTGGCGGTAATTGCTTCAATTGCATATCCCTGGCGAGCATAAGCGGGAC -TGATGGTATAGCCGAGCCAAAACACATCGCATTGCTGACGTAAATAGATATCACCAATCAAAACCTGCGTCATTT -GTTGACAATGGCCAATTGAATATCGCGAGCAAGTGTAAGAACTCCCAGCAAGACCCTGTAAATAATTCTGTGTAA -CTGCCCACGATTAAAGGTGGCCGCTCAGGCGGTCACCGTATTCGATAATAAATGGGTCTGGAAAAAGTGCAGCAT -CTGGCAGCGTAATGCAGGTAGCCCAGTTCAACTCTCACTACCAGTATGATCCCAAGTTCGAGCGCGGAATGTATC -TGTATGAGCATCGTCGCTGTTTCAATAACATCATCGACTACTGTAACTCACTTTGCTATCACGGTAAGTTGCAGC -CTAAAAGAGGGATGGAAAAAGGACGATTTTCCCCGCAATGGGATATTTACATATTGATGGTAGAGGCATGAAGCC -AAATGGAGGGAGCCGTCATAACCCTCTTGAAGCTGAAACAATAGCAGCATGGCTGGTGGCACATAAGGATGATAT -AGAGCGCCATTACGGGGAACCACTGTACAAAGTTGTTGGTGTTGTGACGCCATTTTCGGCGCAGGTTAATGCTAT -CAAAATGTCATTGCGTAAGCTGGAAATTAATGGCAAAGACGAGCAGGGTTTACTGACAGTGGGGACTGTGCACTC -CTTGCAGGGGGCGGAAAGGGCGATTGTTCTCTTTTCTCCTGTCTACTCAAAACATGAAGATGGCAGGTTTCTTGA -TAGCAACAGCACTATCCTCAATGTTGCTGTCTCACGCGCTAAAGATAGTTTTCTGGTATTTGGCGATATGGACCT -TATCGAGATGCAGCCCGCATTTTCGCCGCGAGGGTTATTGGCAAAATATCTCTTTTCTTCAGATAATAATGCGTT -GCAATTTGAGTTTCAGAAACGACAGGATTTAATTTCCGCACATACACAAATTTCAACGCTGCATGGTGTGGAGCA -GCATGATGAATTTTTGAACAAGACTCTTGCCGGAGCTCAAAAGAAAATAACGATTATTTCCCCTTGGTTATCCTG -GCAAAAAGTGGAGCAAACGGGATTTCTGGCATCAATGGCTTTGGCCCGTTCCCGGGGCATTGATATTACCGTGGT -GACGGATAAAAACTGCAATATAGCGCATGTCGATGATGATAAGCGTCAGGAGAAACAACATCTGCTGAATGATGC -TGTTGAAAAGCTCAATAAGATGGGTATCGCTACGAAATTGGTTAATCGTGTTCACAGCAAAATTGTGATTGAGGA -TGAAGAACTGCTGTGTGTCGGATCTTTTAACTGGTTCAGTGCTACACGGGAAGATAAGTATCAACGATACGATAC -GTCTTTGGTGTACCGTGGTGAAGGCGTAAAAAATGAAATAAAGGCAATATATGGTAGTCTGGATCAACGTCAGCT -TTAAATGTGATGAGCCGTTCATGATACAGGAGTAGTAAAGGGCATATTTTACCAATGTTAAGGCGACTTTCCGTT -TTATTGCGAGTCGCCTTTCCTGATTATAAATCTTATTGTTTACCTAATCATTTTCCTTTGCATAATGCGCCTGGG -ATTAATGGCGGGTGCTTTTAGGAATGAAAGAAAATGCAAGCAATAATATAATAATGGCCTAATTTCTTTGAACAT -CATTAAGCATATCATCATCGTCTATTTGCCAGAATCCGTCGACTTATAATCGCCAGAACGGCATATCAGGACGGT -GCTGCGAACGCTGTGGCCCAAAACGTTCCAGTAAACTGTGTAGATGTTCGTAGATTTCCGAGCCATAATCGAAAA -GGCGCGGATGTCTATTAAGGCATCCGGCTAATCTGTAAGCAATAACAACGGTTTATGCGGTGCGCGTTTTTCACC -CTTGTGCCAGATTATTATATTGGCAATTGCCTGCTGTTCGAGCCCGCAAGTGAAGAGATATTACCTTGATCTCAT -TTGTTTTTTGTTGTCTACTCTGAGAACGAACAAGGACATCCCCCATGAATAAACTCCCCGCTCACCTTTCGCGCC -AAAACTGCAAAATTGCTTCTACAAATCTGTCAGAAATAATCCCCCGACGGGCTGCAGTGCTGAAATGACTGCTTC -GCAGTGCCGTCGTCCAGTTCTCCGGTGACCGGTACGCTGAACCGTAATATCCCGTGCTTAAATCGTCCGGGTCTT -CATCAGGCGCGTTCGTCAGTCCTCTTTCACCTTGTTGCTGGAAGTCGACGAAAATAATATTGGCTAAAACATTAT -TTTGATAATTGCCATAAATAGCTTCATACGAATGCGGGAAATTTTCTTTCCAGTACCAGGTGGTATCGCCGCAAA -ACCACGGCGCGTCAGTAATATTATTAAGCTGAGAATGGTATTGTTTTAGATCCCTACGAAAGGCTTCAACCATAT -GATTAAAGTGTTGAGGGTGTGACGCGTAGTCACTGGTCATTAAGTCAAATTCGCCTTGCATCCAGCATGCGCCGA -GGAATTTGTTCTGCGGATTTTTTGCCAGTGCGGCTCGCGTTCTGCTGACTAAATCCTGGTACAGCGGAGTATCCG -TTCCCCAACGACAAGCATCATGGCTGGCTCCGTGCCGTTCTGAATATGTCCCTTCGCTGCCCGCGGTAAAAGCCG -ATCCGCCACGGCAACACGGAACGATAAGAATCCCTGCATTATCAGGAATGAAGGGCAGTAATTTCCGTGCAATAT -GCAGTGCCTGGCCAACGGTGCCGTACTGTGTTTGATGATTCGTTGCCAGAGGATGGTGATAACCCTGCATATCCT -GAACATCGTGTGGGCAGTGAGTCAGTGGAATAATGTCGTTAAAGTGACATGGCGGGCCTCCGGGATGCGTATGCG -CAAATCTCGCTAATTGTTTAATTCTGGGATGAGGCGCATCTTCCCTGTCCGGTAATGGCAGTCCTTCGCCATACG -CCATGGCATTAGACTGACCAGCAACGGTAAGAACATAGTAATAATCGGGCGATATTATTGCGTTCATATAAATTT -CGCGTAATTGAAATGACAAATTGATAGCAGGGCCCCTTTACCGGGGCCCTGAAGCGTTAGTTTTGTACTGTGACT -TTATTATCCTTCACAGTGATCAAAACTGAATCCGTCACCGCTTTGCCGCCTGCAGTTTCACCGCCAATAATCAAT -AGACTATTATTCCAGGGCAATGATACTCCGTAGGCCCGACCTTGCGATAATTCACCCGATTTATCCCATTTCCCG -TTATGCCAAAGATGAATATCAGTGCTATATGATTTTTTCAGGCCTTCATGCGCATAGTTCTTACCGTTCTGGTAA -TTTTCTCGTGAACCTTTGAATCCGGCCCCTCCGGCAAATATAAGAGAATCATTGCTTATCCCCGCAAAACCGCCA -GCTACGCCATCTGGTGATGAGACGGGAGCAAGCTTATTCCATTTTAAATTATTACCGGTGAAATCAAGTTCAAAT -ACGGCATCCGTTCGCAATCCTGGTTTGGCTTCGCCATTAATAAGCCAGGTTTTATCACCTTTATTCACAACCGCC -GCACCAGCCGTTCCGTACCAGGGCGATTCGCCAGCGTAACTCCATTGCTGTGTTGAGGGATCAAAAGACAACAGA -AACTTATTGAAGAAATAATCTTCTGCTTTTTTGTCAAAATAGTGAGCATTGATTTTATCTATAGCGGTTGAATCT -TTTCCAGCCTCGTTGAGATCTTCAAAATAGCCATTGAAGATATTCTGGTTAACACCACCAGTAACATAAGCCTTG -CCGTTGTGTACAAAAGTCACATGGCCCGCCATGCCCATCGGCGCGTGCGACATCAATTTAACCCAACTATTGGTT -TTGGGGTTGTATTTGTGTACGTCATTAAATACCTGAGTCAAGCCCTCGCTGTTTTTGCCAATGCCGCCAAACACA -TACAGATTGCCATCAATAAATGCAGAGGTTGCTTGATCTCTTGGTCCGCCAGGGAATGCAGCTAACGCTGTCCAT -TTTTTATCTTTGGCCTGTGTATCCAGCTTGTACCATGCCGTACCTGCGCTACCTAAACCAATGTAGACAGTGTCG -TTATCAATTGCTCCGGTACCACTTTTAAATGGCACAGGAGTTTCCGGTAATACAGACGCGTTTGCGGCAAATGAA -GCCATCATGATAGCAAGCGCCGTTATTGTTTTATTCATTGTGACTGTCTCCTGTCTACTACAGTTTAAATGACAC -ACCAATGCGATAACTGTTTTCCGATAAATTATCTCTGCCGTTGTAAACACCCTGACGGTCAAGGTAGTCATATTC -TATGTATGGCGTAATATCGGGCGTCATATGGTATTGTAGAACAAATGCATTTTCCGTCGCCCATTTCTTATGGTT -TGCATAGCGATAATCGTTCTGTTTGCTGTATAGCGTCGTTTGCCATGCGAAGGTGAAATCACTATTAATATGGTA -AGTGACATATCCATCCCAACGATGAACGTTATCACGAGACATATCACCGGATAAGTCTTGTTGTCGGTAAGCTTT -CCAGTCGTAACGATAGCGAATGCCAAAATTAAGATCTTTTGTCGCGTCCCAGGACAGTTTTACGTAGGGTCCGTA -GCGTGTGCCGTTGCTGCTAAAATGCGTTAACATTCCCGGGCGCACCGTCCATTGATCATCAAGTTTAATCGCGTA -ATTAACTTCAACCTGAACATCATTGAGTGCGGCATTTTCCTTTTTATTATCATGAATGGTATTCCAGGTATTACT -TTCCATGCTTGCCCACCATCCATTTTGCCATCCCTCACTGACTTTGAGTCGAGTCTCATAGGCGTGGCTTCCACT -ACGATATCCACCACGTACGTCCAGTGTCGCAGCCTGAGAAATTAATGGGGACGAAAAGCACAGTAATAATACGCC -AGAAAGTATTTTAGCCTTTTTCATAAATTTCACTCATTTGTAGGATACAGAAAGCAATACAAAGCCCGCATAAAC -AATTAGCATTTATGTTGTGTAATATTTTTTTGCCAGGCTTATAGTGTCTTTGGCAACCGGTAGCTGTATTTTATA -TTTTTTTGTATAAGGTCTCCTGTGAAAAATCTCTTTTCACATTATTTAAATAAACAGAGATCCAGATTAAATACC -TGAGTATAAAATCTCTTCTGATGTTTAATTGATTTGAATGTTCGTAAGCTATATCACTTACTCAATCCATTTTAC -CCAGAGTCATAAAATAGAATGTCTGTTGATCTCATTTTCATATTCCTTTCAGACTGAAGTGCGTTTTCATCACCC -GATGAGAAAGAACTGAAGTGATGTTTGCCATAGATTGCGAGATGCCCTGTCTCATTGACTATCTTGGTGCACCTT -TATACCTGTTATACCAGATCAAAAATCACGCAATCCATACAACAAAACCAGATTTGCAATTCGTGTCACAAAATA -TGTCGATCTTTTTCTAAGAGGAAGATGCCATGTGAAGCCAGACGAACACTTGCGGTGGTCTTCAAAAACTAAAGA -TCTTAGTTTAACTATTTGTTTTATAAATAATTTATTAAGAGTCTAAACAAGGGGAGCTTTGCAAGCTAACTCAGT -GAGCTTGGTGAAAATCAGTGTTTACCCGCCATCAGGCTGAGCATAATTCTCATCATGAAATATGTTTCCTGGTTT -GTGGCTTGTAACTGGTCACTTCTGAAGTCGATCTGGAGAGGCTTGTTGATGTTGGTGTTTTCAGGATGATGTTTC -ACTTAGTTTGTTTGCCGTATCGCCCGGCGAATGGCTGTGATTGAGGAAGGTTTAAGTCGTAGTGACCAAAGCTAT -ATTTACCAACGAATGTAGATGAAAAAATCATCTCCTGCGTTCCCCCATATCTCTAGGATAAAAAGGAATGTAACA -ATCTCATGGCGTAAGCTGACGAATCAGCAGGAATAATCGCTAGGGACCTAAGAATTAGCATGATAATAGCCACTA -AGAAATTACTGCGCTCCATGAAATAGCCATTTTGTGGCAAATGGAGTTGACTAATAATGTCATATGTGAGACGGC -TAGTTGAACGAATATTAAATTTTGCTGAATTTTTTATGTTGATTTTACTTGTTACAGAACATATCACATGATATA -TAGATAAGATTAGTTGCATTAATGATGAGGGTTATTATTAGATTCGTATCCGATTGATAAATATATAAAGGTACA -TAGCATGCAAGAGCATGGCGTTTGTATGGCAACGTTATTATAATTAACAGTTGCTACTCCATTTAAGTTCACTCA -GAAGAACTGGTCCACTTACGTTAGTTATTAAGCAAACGTTCGCTTTTATAAACATAATCAGGATAAAAATGTTGG -ATTATTGCTAACCCAGCACAGCTAGTGCGCGTCTGTAATTATAAGGGAAAAACGATGAAGAATAAGGCTGATAAC -AAAAAAAGGAACTTCCTGACCCATAGTGAAATCGAATCACTCCTTAAAGCAGCAAATACCGGGCCTCATGCAGCA -CGTAATTATTGTCTGACTTTGCTTTGTTTTATTCATGGTTTCCGGGCGAGTGAAATTTGTCGATTGAGGATTTCG -GATATTGATCTTAAGGCAAAGTGTATATATATCCATCGATTAAAAAAAGGCTTTTCAACAACGCACCCGCTATTG -AATAAAGAAGTTCAGGCTTTAAAAAACTGGTTGAGTATCCGTACTTCGTACCCGCATGCTGAGAGCGAGTGGGTA -TTTTTATCACGTAAGGGGAATCCGCTTTCTCGGCAACAGTTTTACCATATTATCTCGACTTCCGGTGGTAATGCC -GGGTTGTCACTGGAGATTCATCCGCACATGTTACGCCATTCGTGTGGTTTTGCTTTGGCGAATATGGGAATAGAT -ACGCGACTTATCCAGGATTATCTTGGGCATCGCAATATTCGTCATACTGTCTGGTATACCGCCAGCAATGCAGGG -CGTTTTTACGGCATCTGGGATAGAGCCAGAGGACGACAGCGTCACGCTGTTTTATAGAGATAGTTGAGATACCAG -GGATGGTGTTAAAAACTACATTATTCTTACGATATATCAAAAATGATTAACCATTTATTAATTGATGTTATTGTA -AGTGTGATTCTTAATTATCATAATAAACATTAAGTTAACCATATCCATACAAAATACAATGGTTTATGTTCTTCA -AAATAAATAAACAAAATCATTCATAAATTTACACATCACTTAAAATCTCCTGTTTCCGCACTTTTTTCTTTATTT -TTTAAGCAACTGGAAGTTAATCCACTGCAATCTATTGTTATATTGAATCAAATCAATGAAAATAGATGTTGTCAC -ATCAGTGATATTTTATTTTTGTATGATATTTAATGTAATTGACTGATAGCCACATCACTCCGTGTGTGGTTATCT -TTTTATCTATTGGGCTAATTTTGACCGATTGAGGTTTCCTATAGGTATTCATTCAAATATATCTCAGTTAGGAGT -ACTACTATTGTGAGTAAACGTCGTTATCTTACCGGTAAAGAAGTTCAGGCCATGATGCAGGCGGTTTGTTACGGG -GCAACGGGAGCCAGAGATTATTGTCTTATTCTGTTGGCATATCGGCATGGGATGCGTATTAGTGAACTGCTTGAT -CTGCATTATCAGGACCTTGACCTTAATGAAGGTAGAATAAATATTCGCCGACTGAAGAACGGATTTTCTACCGTT -CACCCGTTACGTTTTGATGAGCGTGAAGCCGTGGAACGCTGGACCCAGGAACGTGCTAACTGGAAAGGCGCTGAC -CGGACTGACGCTATATTTATTTCTCGCCGCGGGAGTCGGCTTTCTCGCCAGCAGGCCTATCGCATTATTCGCGAT -GCCGGTATTGAAGCTGGAACCGTAACGCAGACTCATCCTCATATGTTAAGGCATGCTTGCGGTTATGAATTGGCG -GAGCGTGGTGCAGATACTCGTTTAATTCAGGATTATCTCGGGCATCGAAATATTCGCCATACTGTGCGTTATACC -GCCAGTAATGCTGCTCGTTTTGCCGGATTATGGGAAAGAAATAATCTCATAAACGAAAAATTAAAAAGAGAAGAG -GTTTGATTTAACTTATTGATAATAAAGTTAAAAAAACAAATAAATACAAGACAATTGGGGCCAAACTGTCCATAT -CATAAATAAGTTACGTATTTTTTCTCAAGCATAAAAATATTAAAAAACGACAAAAAGCATCTAACTGTTTGATAT -GTAAATTATTTCTATTGTAAATTAATTTCACATCACCTCCGCTATATGTAAAGCTAACGTTTCTGTGGCTCGACG -CATCTTCCTCATTCTTCTCTCCAAAAACCACCTCATGCAATATAAACATCTATAAATAAAGATAACAATAGAATA -TTAAGCCAACAAATAAACTGAAAAAGTTTGTCCGCGATGCTTTCCTCTATGAGTCAAAATGGCCCCAAATGTTTC -ATCTTTTGGGGGAAAACTGTGCAGTGTTGGCAGTCAAACTCGTTTACAAAACAAAGTGTACAGAACGACTGCCCA -TGTCGATTTAGAAATAGTTTTTTGAAAGGAAAGCAGCATGAAAATTAAAACTCTGGCAATCGTTGTTCTGTCGGC -TCTGTCCCTCAGTTCTACAGCGGCTCTGGCCGCTGCCACGACGGTTAATGGTGGGACCGTTCACTTTAAAGGGGA -AGTTGTTAACGCCGCTTGCGCAGTTGATGCAGGCTCTGTTGATCAAACCGTTCAGTTAGGACAGGTTCGTACCGC -ATCGCTGGCACAGGAAGGAGCAACCAGTTCTGCTGTCGGTTTTAACATTCAGCTGAATGATTGCGATACCAATGT -TGCATCTAAAGCCGCTGTTGCCTTTTTAGGTACGGCGATTGATGCGGGTCATACCAACGTTCTGGCTCTGCAGAG -TTCAGCTGCGGGTAGCGCAACAAACGTTGGTGTGCAGATCCTGGACAGAACGGGTGCTGCGCTGACGCTGGATGG -TGCGACATTTAGTTCAGAAACAACCCTGAATAACGGAACCAATACCATTCCGTTCCAGGCGCGTTATTTTGCAAC -CGGGGCCGCAACCCCGGGTGCTGCTAATGCGGATGCGACCTTCAAGGTTCAGTATCAATAACCTACCCAGGTTCA -GGGACGTCATTACGGGCAGGGATGCCCACCCTTGTGCGATAAAAATAACGATGAAAAGGAAGAGATTATTTCTAT -TAGCGTCGTTGCTGCCAATGTTTGCTCTGGCCGGAAATAAATGGAATACCACGTTGCCCGGCGGAAATATGCAAT -TTCAGGGCGTCATTATTGCGGAAACTTGCCGGATTGAAGCCGGTGATAAACAAATGACGGTCAATATGGGGCAAA -TCAGCAGTAACCGGTTTCATGCGGTTGGGGAAGATAGCGCACCGGTGCCTTTTGTTATTCATTTACGGGAATGTA -GCACGGTGGTGAGTGAACGTGTAGGTGTGGCGTTTCACGGTGTCGCGGATGGTAAAAATCCGGATGTGCTTTCCG -TGGGAGAGGGGCCAGGGATAGCCACCAATATTGGCGTAGCGTTGTTTGATGATGAAGGAAACCTCGTACCGATTA -ATCGTCCTCCAGCAAACTGGAAACGGCTTTATTCAGGCTCTACTTCGCTACATTTCATCGCCAAATATCGTGCTA -CCGGGCGTCGGGTTACTGGCGGCATCGCCAATGCCCAGGCCTGGTTCTCTTTAACCTATCAGTAATTGTTCAGCA -GATAATGTGATAACAGGAACAGGACAGTGAGTAATAAAAACGTCAATGTAAGGAAATCGCAGGAAATAACATTCT -GCTTGCTGGCAGGTATCCTGATGTTCATGGCAATGATGGTTGCCGGACGCGCTGAAGCGGGAGTGGCCTTAGGTG -CGACTCGCGTAATTTATCCGGCAGGGCAAAAACAAGAGCAACTTGCCGTGACAAATAATGATGAAAATAGTACCT -ATTTAATTCAATCATGGGTGGAAAATGCCGATGGTGTAAAGGATGGTCGTTTTATCGTGACGCCTCCTCTGTTTG -CGATGAAGGGAAAAAAAGAGAATACCTTACGTATTCTTGATGCAACAAATAACCAATTGCCACAGGACCGGGAAA -GTTTATTCTGGATGAACGTTAAAGCGATTCCGTCAATGGATAAATCAAAATTGACTGAGAATACGCTACAGCTCG -CAATTATCAGCCGCATTAAACTGTACTATCGCCCGGCTAAATTAGCGTTGCCACCCGATCAGGCCGCAGAAAAAT -TAAGATTTCGTCGTAGCGCGAATTCTCTGACGCTGATTAACCCGACACCCTATTACCTGACGGTAACAGAGTTGA -ATGCCGGAACCCGGGTTCTTGAAAATGCATTGGTGCCTCCAATGGGCGAAAGCACGGTTAAATTGCCTTCTGATG -CAGGAAGCAATATTACTTACCGAACAATAAATGATTATGGCGCACTTACCCCCAAAATGACGGGCGTAATGGAAT -AACGCAGGGGGAATTTTTCGCCTGAATAAAAAGAATTGACTGCCGGGTGATTTTAAGCCGGAGGAATAATGTCAT -ATCTGAATTTAAGACTTTACCAGCGAAACACACAATGCTTGCATATTCGTAAGCATCGTTTGGCTGGTTTTTTTG -TCCGACTCGTTGTCGCCTGTGCTTTTGCCGCACAGGCACCTTTGTCATCTGCCGACCTCTATTTTAATCCGCGCT -TTTTAGCGGATGATCCCCAGGCTGTGGCCGATTTATCGCGTTTTGAAAATGGGCAAGAATTACCGCCAGGGACGT -ATCGCGTCGATATCTATTTGAATAATGGTTATATGGCAACGCGTGATGTCACATTTAATACGGGCGACAGTGAAC -AAGGGATTGTTCCCTGCCTGACACGCGCGCAACTCGCCAGTATGGGGCTGAATACGGCTTCTGTCGCCGGTATGA -ATCTGCTGGCGGATGATGCCTGTGTGCCATTAACCACAATGGTCCAGGACGCTACTGCGCATCTGGATGTTGGTC -AGCAGCGACTGAACCTGACGATCCCTCAGGCATTTATGAGTAATCGCGCGCGTGGTTATATTCCTCCTGAGTTAT -GGGATCCCGGTATTAATGCCGGATTGCTCAATTATAATTTCAGCGGAAATAGTGTACAGAATCGGATTGGGGGTA -ACAGCCATTATGCATATTTAAACCTACAGAGTGGGTTAAATATTGGTGCGTGGCGTTTACGCGACAATACCACCT -GGAGTTATAACAGTAGCGACAGATCATCAGGTAGCAAAAATAAATGGCAGCATATCAATACCTGGCTTGAGCGAG -ACATAATACCGTTACGTTCCCGGCTGACGCTGGGTGATGGTTATACTCAGGGCGATATTTTCGATGGTATTAACT -TTCGCGGCGCACAATTGGCCTCAGATGACAATATGTTACCCGATAGTCAAAGAGGATTTGCCCCGGTGATCCACG -GTATTGCTCGTGGTACTGCACAGGTCACTATTAAACAAAATGGGTATGACATTTATAATAGTACGGTGCCACCGG -GGCCTTTTACCATCAACGATATCTATGCCGCAGGTAATAGTGGTGACTTGCAGGTAACGATCAAAGAGGCTGACG -GCAGCACGCAGATTTTTACCGTACCCTATTCGTCAGTCCCGCTTTTGCAACGTGAAGGGCATACTCGTTATTCCA -TTACGGCAGGAGAATACCGTAGTGGAAATGCGCAGCAGGAAAAAACCCGCTTTTTCCAGAGTACATTACTCCACG -GCCTTCCGGCTGGCTGGACAATATATGGTGGAACGCAACTGGCGGATCGTTATCGTGCTTTTAATTTCGGTATCG -GGAAAAACATGGGGGCACTGGGCGCTCTGTCTGTGGATATGACGCAGGCTAATTCCACACTTCCCGATGACAGTC -AGCATGACGGACAATCGGTGCGTTTTCTCTATAACAAATCGCTCAATGAATCAGGCACGAATATTCAGTTAGTGG -GTTACCGTTATTCGACCAGCGGATATTTTAATTTCGCTGATACAACATACAGTCGAATGAATGGCTACAACATCG -AAACACAGGACGGAGTTATTCAGGTTAAGCCGAAATTCACCGACTATTACAACCTCGCTTATAACAAACGCGGGA -AATTACAACTCACCGTTACTCAGCAACTCGGGCGCACATCAACACTGTATTTGAGTGGTAGCCATCAAACTTATT -GGGGAACGAGTAATGTCGATGAGCAATTCCAGGCTGGATTAAATACTGCGTTCGAAGATATCAACTGGACGCTCA -GCTATAGCCTGACGAAAAACGCCTGGCAAAAAGGACGGGATCAGATGTTAGCGCTTAACGTCAATATTCCTTTCA -GCCACTGGCTGCGTTCTGACAGTAAATCTCAGTGGCGACATGCCAGTGCCAGCTACAGCATGTCACACGATCTCA -ACGGTCGGATGACCAATCTGGCTGGTGTATACGGTACGTTGCTGGAAGACAACAACCTCAGCTATAGCGTGCAAA -CCGGCTATGCCGGGGGAGGCGATGGAAATAGCGGAAGTACAGGCTACGCCACGCTGAATTATCGCGGTGGTTACG -GCAATGCCAATATCGGTTACAGCCATAGCGATGATATTAAGCAGCTCTATTACGGAGTCAGCGGTGGGGTACTGG -CTCATGCCAATGGCGTAACGCTGGGGCAGCCGTTAAACGATACGGTGGTGCTTGTTAAAGCGCCTGGCGCAAAAG -ATGCAAAAGTCGAAAACCAGACGGGGGTGCGTACCGACTGGCGTGGTTATGCCGTGCTGCCTTATGCCACTGAAT -ATCGGGAAAATAGAGTGGCGCTGGATACCAATACCCTGGCTGATAACGTCGATTTAGATAACGCGGTTGCTAACG -TTGTTCCCACTCGTGGGGCGATCGTGCGAGCAGAGTTTAAAGCGCGCGTTGGGATAAAACTGCTCATGACGCTGA -CCCACAATAATAAGCCGCTGCCGTTTGGGGCGATGGTGACATCAGAGAGTAGCCAGAGTAGCGGCATTGTTGCGG -ATAATGGTCAGGTTTACCTCAGCGGAATGCCTTTAGCGGGAAAAGTTCAGGTGAAATGGGGAGAAGAGGAAAATG -CTCACTGTGTCGCCAATTATCAACTGCCACCAGAGAGTCAGCAGCAGTTATTAACCCAGCTATCAGCTGAATGTC -GTTAAGGGGGCGTGATGAGAAACAAACCTTTTTATCTTCTGTGCGCTTTTTTGTGGCTGGCGGTGAGTCACGCTT -TGGCTGCGGATAGCACGATTACTATCCGCGGCTATGTCAGGGATAACGGCTGTAGTGTGGCCGCTGAATCAACCA -ATTTTACTGTTGATCTGATGGAAAACGCGGCGAAGCAATTTAACAACATTGGCGCGACGACTCCTGTTGTTCCAT -TTCGTATTTTGCTGTCACCCTGTGGTAATGCCGTTTCTGCCGTAAAGGTTGGGTTTACTGGCGTTGCAGATAGCC -ACAATGCCAACCTGCTTGCACTTGAAAATACGGTGTCAGCGGCTTCGGGACTGGGAATACAGCTTCTGAATGAGC -AGCAAAATCAAATACCCCTTAATGCTCCATCGTCCGCGCTTTCGTGGACGACCCTGACGCCGGGTAAACCAAATA -CGCTGAATTTTTACGCCCGGCTAATGGCGACACAGGTGCCTGTCACTGCGGGGCATATCAATGCCACGGCTACCT -TCACTCTTGAATATCAGTAACTGGAGATGCTCATGAAATGGTGCAAACGTGGGTATGTATTGGCGGCAATATTGG -CGCTCGCAAGTGCGACGATACAGGCAGCCGATGTCACCATCACGGTGAACGGTAAGGTCGTCGCCAAACCGTGTA -CGGTTTCCACCACCAATGCCACGGTTGATCTCGGCGATCTTTATTCTTTCAGTCTTATGTCTGCCGGGGCGGCAT -CGGCCTGGCATGATGTTGCGCTTGAGTTGACTAATTGTCCGGTGGGAACGTCGAGGGTCACTGCCAGCTTCAGCG -GGGCAGCCGACAGTACCGGATATTATAAAAACCAGGGGACCGCGCAAAACATCCAGTTAGAGCTACAGGATGACA -GTGGCAACACATTGAATACTGGCGCAACCAAAACAGTTCAGGTGGATGATTCCTCACAATCAGCGCACTTCCCGT -TACAGGTCAGAGCATTGACAGTAAATGGCGGAGCCACTCAGGGAACCATTCAGGCAGTGATTAGCATCACCTATA -CCTACAGCTGAACCCGAAGAGATGATTGTAATGAAACGAGTTATTACCCTGTTTGCTGTACTGCTGATGGGCTGG -TCGGTAAATGCCTGGTCATTCGCCTGTAAAACCGCCAATGGTACCGCTATCCCTATTGGCGGTGGCAGCGCCAAT -GTTTATGTAAACCTTGCGCCCGTCGTGAATGTGGGGCAAAACCTGGTCGTGGATCTTTCGACGCAAATCTTTTGC -CATAACGATTATCCGGAAACCATTACAGACTATGTCACACTGCAACGAGGCTCGGCTTATGGCGGCGTGTTATCT -AATTTTTCCGGGACCGTAAAATATAGTGGCAGTAGCTATCCATTTCCTACCACCAGCGAAACGCCGCGCGTTGTT -TATAATTCGAGAACGGATAAGCCGTGGCCGGTGGCGCTTTATTTGACGCCTGTGAGCAGTGCGGGCGGGGTGGCG -ATTAAAGCTGGCTCATTAATTGCCGTGCTTATTTTGCGACAGACCAACAACTATAACAGCGATGATTTCCAGTTT -GTGTGGAATATTTACGCCAATAATGATGTGGTGGTGCCTACTGGCGGCTGCGATGTTTCTGCTCGTGATGTCACC -GTTACTCTGCCGGACTACCCTGGTTCAGTGCCAATTCCTCTTACCGTTTATTGTGCGAAAAGCCAAAACCTGGGG -TATTACCTCTCCGGCACAACCGCAGATGCGGGCAACTCGATTTTCACCAATACCGCGTCGTTTTCACCTGCACAG -GGCGTCGGCGTACAGTTGACGCGCAACGGTACGATTATTCCAGCGAATAACACGGTATCGTTAGGAGCAGTAGGG -ACTTCGGCGGTGAGTCTGGGATTAACGGCAAATTATGCACGTACCGGAGGGCAGGTGACTGCAGGGAATGTGCAA -TCGATTATTGGCGTGACTTTTGTTTATCAATAAAGAAATCACAGGACATTGCTAATGCTGGTACGCAATATTACC -TGAAGCTAAAAACCTGCACGTTAGCCCTTTGTAGGCCAGATAAGACGCGTCAGCGTCGCATCTGGCATAAACAAA -GCGCACTTTGCTGGTCTGTTCCCCTCACCCTAACCCTCTCCCCGGAGGGGCGAGGGGACTGTCCGGGCACATTTT -TAGACTTTGTCATCAGTCTGAGCCTGCCATTGGCAGGCTCTGGTGTCCTTTTACGCTACCATGCTAATAATCAGC -ACAATAATCAGCCCAACCACGGAGTTGACCAGCTCCAGCAGACCCCAGGTTTTCAACGTGTCTTTTACTGACAGG -TCAAAGTAACCTTTGAACAACCAGAAAGATGCATCGTTAATGTGGGTGAGGGTGTTGGAACCCGCAGCCGTCGCC -AGTACCAGCAGCGCCGGATTCACGCCAACCAGCTGACCAGTTGCTGGATCTAGGATTGCAGCACTGATAATCCCG -GCGGCGGTCATCGCCGAAACGACACCCTGACCCGTCGCCAGACGAATTAGCACAGTGATCAGCCATGCCATGATG -TAGGGCGAGATATTGCCGTGGGACATCAACATGCCGATGGTGTCGCCAATGCCGGTGTCGATGATGGTCTGCTTC -AGCACGCCACCCGCACCGATGATCAGAATCACCATTGCAATACTCTTCACCGCGCTTTCAAAAGCGTTCATCACC -CACTGCATGTCATGACCACGTGCGGTGCCAAAGAGTACGAATGCAACCACCATCGCAATAAACATTGCAATCGGC -GAGGAACCGATAAAGTTAACCACTTCCCAGGCAGGGGTATCTTTTACCAGCCAGATATTGGCGATGGTGGTAGAG -ATCATAATGATCGCCGGGATCAGCGGCACCAGAATCGAAACGCCGAAAGAGGGCAGATTATTCATATCTACCGGT -TGATCTGCTTTCAGGAATGATGGCGTTGGGCGCTCAAGATTGCCGAGGAACTTCGGCAGGATCAGACCTGCGCAG -ATTACACTTGGGATCGTCACCAGTACGCCATAGATATAAACCATCCCCATATCCGCGCCATAAGCATTCACCAGC -GCCACCGGACCCGGCTGCGGTGGGAACAGTGAATGTGCGGTAGTGGCAGCTGCTACTGCCGGGATCGCCAGTTTC -AGGAACGGAATTTTAGCTTCGGCGGCAATAACAATAACCAGCGGCGCTAACATGATAAAGGCCACTTCATAGAAC -ATCGCCAGACCAAAAATCAGGCCGATGATAATCACCGACAGCTGTACATAGCGCAGACCGAGACGCGCCAGCAGC -GTATGCGCTATCTGGTGAGCCGCGCCGGAGTCGACCATCAATTTACCGATGACCGCACCGAACACCACGATGATA -GCCAGTTCCCCCAGCGTGTTGCCGAAGCCCGCTTTCATAGTGTGCAGCAGCGACATCAAATCCATGCCCGCCAGC -ATCCCGACGGACAGCGCCGCCACCAACAAAGCCACCATTGAATTGATTTTGAACTTCAAATTCAGTACCAGCATC -AGACCAATGCCGAATACCACCCAGAGAATGTTAAGCACATGCATAACGTTTTACCTTACCTGGTTGAACCGTTGT -TATTTTGGGCGATATGTTATGTAAATTGGTCAACCATTGTTGCGATGAATGTCACATCCTCTGATCAATAACCAT -CGATTACCCTTTGCTGCAATTTGCAGCAACAACCATGAGAGTGAAATTCTTGTGATGTGGTTAACCAATTTCAGA -ATTCGGGTTGACATGTCTTACCAAAAGGTAGAACTTATACGCCATCTCATCCGATGCAACGCCACGGCTGCGGTC -TGGTTGTTCATCCGGATACCTAAACAACTCCAGGGTTCCGCGTCTCTTTGCTGTGGAACCCACTATGTGAAAGAG -GAAAAATCATGGAACAGACCTGGCGCTGGTACGGCCCAAACGATCCGGTTTCTTTAGCTGATGTCCGTCAGGCGG -GCGCAACTGGCGTGGTTACCGCGCTGCACCATATCCCGAACGGCGAAGTATGGTCCGTTGAAGAGATCCTCAAAC -GCAAGGCGATCATTGAAGACGCAGGCCTGGTGTGGTCTGTCGTAGAAAGCGTGCCAATTCACGAAGATATCAAAA -CCCACACTGGCAACTATGAGCAGTGGATCGCTAACTATCAGCAGACTCTGCGCAACCTGGCGCAGTGTGGCATTC -GCACCGTGTGCTACAACTTCATGCCGGTGCTCGACTGGACCCGTACTGACCTCGAATACGTGCTGCCAGACGGCT -CCAAAGCTCTGCGCTTCGACCAGATCGAATTCGCTGCATTCGAAATGCATATCCTGAAACGCCCAGGCGCGGAAG -CGGATTACACCGAAGAAGAAATTGCTCAGGCAGCTGAACGCTTCGCCACTATGAGCGATGAAGACAAAGCGCGTC -TGACCCGTAACATCATTGCTGGTCTTCCGGGCGCGGAAGAAGGCTACACCCTCGACCAGTTCCGTAAACACCTGG -AGCTGTACAAAGATATCGACAAAGCGAAGCTGCGCGAAAACTTTGCCGTCTTCCTGAAAGCGATTATTCCAGTTG -CTGAAGAAGTCGGCGTGCGTATGGCTGTTCACCCGGACGATCCGCCGCGCCCGATCCTCGGCCTGCCGCGCATTG -TTTCCACCATTGAAGATATGCAGTGGATGGTTGATACCGTAAACAGCATGGCAAACGGTTTTACCATGTGCACCG -GTTCCTACGGCGTGCGTGCTGACAACGATCTGGTTGATATGATCAAGCAGTTCGGTCCGCGTATTTACTTCACCC -ATCTGCGCTCCACCATGCGTGAAGATAACCCGAAAACCTTCCACGAAGCGGCGCACCTGAACGGTGACGTTGATA -TGTACGAAGTGGTGAAAGCGATTGTTGAAGAAGAACACCGTCGTAAAGCGGAAGGCAAAGAAGACCTGATCCCGA -TGCGTCCGGACCACGGTCATCAGATGCTGGACGACCTGAAGAAGAAAACCAACCCAGGTTACTCCGCAATTGGTC -GTCTGAAAGGCCTGGCCGAAGTTCGCGGTGTCGAACTGGCGATCCAGCGCGCTTTCTTTAGCCGTTAATATCCAC -CGGCATGGCTGCGCGCCGTGCCGGTTCCTTCTTCCTTGCCGTCACTCTTTGAAGACGGATTCTGGAGTTTACGAT -GACTACTATTGTTGACAGCAATCTGCCGGTTGCCCGCCCGTCATGGGATCATTCTCGTCTGGAATCACGCATTGT -GCATCTCGGTTGCGGGGCGTTTCACCGCGCGCACCAGGCGCTGTATACCCATCATCTGCTGGAAAGCACCGACAG -CGACTGGGGCATCTGCGAAGTTAACCTGATGCCAGGCAACGACCGCGTGCTGATCGAAAACCTGAAAAAACAGCA -ACTGCTGTACACCGTAGCGGAAAAAGGCGCAGAGAGCACCGAGCTGAAAATTATCGGTTCGATGAAAGAAGCGCT -GCATCCGGAAATCGATGGCTGCGAAGGTATTCTCAACGCGATGGCGCGTCCGCAAACGGCGATTGTCTCTCTAAC -GGTCACGGAAAAAGGCTACTGCGCTGATGCGGCAAGCGGTCAACTGGATCTCAATAACCCGCTGATCAAGCACGA -TCTGGAAAACCCGACTGCGCCGAAGTCCGCGATTGGTTACATCGTCGAAGCGTTGCGTCTGCGTCGTGAAAAAGG -GTTGAAAGCGTTTACGGTGATGTCCTGCGATAACGTGCGTGAAAACGGTCATGTGGCGAAGGTCGCGGTACTGGG -GCTGGCTCAGGCGCGTGACCCGCAGCTGGCGGCATGGATTGAAGAAAATGTCACCTTCCCGTGCACCATGGTTGA -CCGCATCGTTCCGGCGGCGACGCCAGAAACCTTACAGGAAATTGCTGACCAGCTGGGTGTTTACGACCCGTGCGC -CATTGCCTGCGAACCGTTCCGTCAGTGGGTGATTGAAGATAACTTCGTTAATGGTCGCCCGGATTGGGATAAAGT -GGGCGCACAGTTCGTTGCAGACGTTGTGCCGTTCGAAATGATGAAGCTGCGTATGCTGAACGGCAGCCACTCTTT -TCTGGCGTACCTCGGTTACCTCGGCGGCTATGAAACCATTGCCGACACCGTGACTAACCCGGCTTATCGCAAAGC -GGCCTTTGCCCTGATGATGCAGGAACAAGCGCCAACGCTGTCGATGCCGGAAGGTACAGACCTGAACGCCTATGC -GACGCTGCTGATCGAGCGTTTCAGCAACCCGTCTCTGCGTCACCGTACCTGGCAGATTGCGATGGACGGCAGCCA -GAAGTTACCGCAGCGTCTGCTGGACCCGGTGCGTCTGCACCTGCAAAACGGCGGCAGCTGGCGTCACCTGGCGCT -GGGCGTGGCTGGCTGGATGCGTTACACCCAGGGCGTGGATGAGCAGGGTAATGCCATTGACGTGGTCGACCCGAT -GCTGGCGGAGTTCCAGAAGATCAACGCGCAGTATCAGGGCGCAGACCGCGTGAAAGCGCTGCTGGGCCTGAGCGG -TATTTTTGCCGATGATCTGCCGCAGAATGCCGACTTTGTTGGCGCAGTGACGGCGGCATATCAGCAGCTGTGCGA -ACGCGGTGCGCGCGAGTGTGTGGCTGCGCTGTAACTAACTGATTACCCTACAGACTTACTGGTCAATCAAACTGA -TATTTGGTTGACCAGTTTTCGTTTTTTTGCCCACCTGTACGTGCCAACTTCCAGTGCTAATGGTATAGTTTGAGA -TTAACGGGGGCCGTAAAATTGCCCGTTGTAGGCCGGATAAGGCGTTCACGCCGCATCCGGCAAAAATTTGATTAA -CCGCACCTAACGGACACAACACCATGAAATCTGCCACCTCTGCGCAAAGACCTTACCAGGAAGTCGGGGCGATGA -TCCGCGATCTGATCATAAAGACGCCGTACAATCCTGGCGAACGGCTGCCGCCGGAGCGTGAAATTGCAGAAATGC -TTGATGTCACGCGGACGGTGGTACGTGAAGCGCTGATCATGCTGGAGATCAAAGGGCTGGTGGAAGTACGCCGGG -GTGCCGGTATCTATGTTCTTGATAACTCAGGCAGCCAGAACACAGACAGTCCGGATGCCAACGTCTGCAACGATG -CCGGTCCTTTTGAGCTGTTACAGGCGCGGCAGTTATTGGAGAGCAACATCGCCGAGTTTGCCGCTTTGCAGGCTA -CCCGCGAAGATATCGTCAAAATGCGTCAGGCATTGCAACTGGAAGAGCGTGAACTGGCTTCCAGTGCGCCGGGCA -GCAGCGAAAGCGGTGACATGCAGTTCCATCTCGCTATTGCCGAAGCAACGCATAACAGCATGCTGGTGGAGCTGT -TCCGTCAGTCCTGGCAGTGGCGGGAAAACAATCCAATGTGGATCCAGTTGCACAGCCATCTGGATGACAGCCTGT -ATCGCAAAGAGTGGTTGGGCGATCACAAACAGATCCTCGCCGCGTTAATCAAAAAAGATGCCCGAGCGGCGAAGC -TGGCAATGTGGCAGCATCTGGAAAACGTTAAGCAACGTCTGCTGGAATTCTCGAACGTTGACGATATTTATTTTG -ATGGCTATCTGTTTGATTCATGGCCGCTGGATAAAGTCGACGCCTGACTTATTATAATAAGCGCAAGGGTAAACG -TTCCTTGCGCTTTCTTAAATTAAGAAGTCGCAATGAGTATTACTTTGTAAATTGCAGGGTATTGTTTAGCTATCT -GTATAACCTGAATGTTAGTACTCATTCTTCCTGGTAGTTATTTACCAATATAATTCCATTCACCATTTTTTAATT -CAAACAGTTCTGGAAGAGATGACGGTTGCAGAGTCATACGTTTGAGTGGTGCATTTTCATCACCCGGGATAACTT -TATATCCCATTTTTGCATGGATCTCCGCGGTACCGGGATAGGCTTCTATACCAATTATTGGGTCATTACCCAACT -CAATATTAGCATTAAGTAATGCGGCAAGGGCGAATCCGGAAGAATTTGCTACCCCTGTTACCGTCATTATCTGAT -CAATATAGATATCAATCCTTGGCTGCTCATTGGTCCATCTTTTTGCCTGAGAAGCTGGAAGGGTTGAAATATATC -CTATCGTGGTTCCGGCATAACCAGGAACATTGCAACCAGGGCCTAATGTTATTTCATGAACTGTATAGTCCTCAA -CAGGATCGAAAGGGCTCTTCATAAATAAATTTAGCCGTAAACCTTCTGCTAACTCTGTGGTAGCATGCGCCTTTT -TACATATGCCACCATATATTTCGTCTAAAGCTGAGGTGATTTTCAAGTTCCGATAGAGCATACGTCCTGTTGTTG -TAATACCATCGGATTCTCTGCATGCTCCTGTCACATAATTAAATGGCCAAGGCTCTTTACTAATATCAAGTTTTC -TAATTTCGACAACGCTTTTTCCATCGTAATTATGGTTATTGCCACGAGTAAGAGGCGGAAGATAGATGTTTTCCG -AATCCATGCGTGCATATTTTAATTTACGTGTAAACTCACTGTCGACTATTGGGTGATGAAGGAAGTGAGCATCTG -TAATAATTTGACTCTGAAGGGCATTGCTTAATGGCATAGACATAATAGTTACCTTTTATGAGTATTTCACTGATG -TTTAGAAAAATAGATAAATTTTTCTGTAGTAAAAAGAGAAGTAAACAAATGACATGCATGTTTCTGTTGTAGTGA -TATCAACTCTACACGGTGATATTAAAGGGTAGGAAACACTCTAAAGTATCAAAAAACGCTCATTTAAAATTATTT -GCATGCAATTTAAAAGCATATCTTATTACTAATTGGAATTTGATGTTGCTATATTGAGGTCTATATTAATAATGC -CTGTGAATGGTATTTTTGATGTATTTGATATGTTATCAATTTATATTATTTACAAACTAATTGTTTCAAATAATA -CATGGCTGATTATGCGGAAATAAATAATTTCCCACCGGAATTAAGTAGCAGCGGTGACAAGTATTTTCATCTACG -TAACTATTCGGAATATTCAGAATATACTAGCGGTTTTTTTTTGAGTTTGATGATTTTTATCAAATCATGACTTTT -TTCCTGAAAAGTCAGTAGATATTCATAGGCAAGTAAGGTTTTATACTTTGCTGACAGGATTCAGGCCTGTCTCAG -ACTGACATGGATGTAATGAACAAAAGGGAATGGCTATGGAAAATGAGCATCAATACAGTGGTGCCCGGTGTTCAG -GGCAAGCCGCATATGTTGCTAAACGTCAGGAGTGCGCAAAATGATGCGACAATCACTTCAGGCTGTTTTACCTGA -AATTTCAGGCAATAAAACGTCATCGCTGCGTAAATCGGTATGCAGCGATCTCCTCACTCTTTTTAATTCTCCTCA -TTCGGCATTACCGTCATTACTTGTTTCAGGCATGCCCGAGTGGCAAGTGCATAACCCGAGCGACAAACATCTCCA -GAGCTGGTATTGCCGTCAGCTGCGTTCTGCACTGTTATTTCATGAGCCACGGATTGCGGCGTTGCAGGTTAATTT -GAAAGAAGCGTACTGCCACACTCTGGCGATCAGCCTTGAGATAATGCTGTACCACGACGATGAACCGCTAACGTT -TGATCTGGTCTGGGATAATGGCGGTTGGCGCAGTGCGACGCTGGAGAATGTCAGCTAAGCACAATCTCCAGCTCG -CGCAGTTCACGCCAGAAGCGTTCGGCAACGGGATTCATGCGGGTATTCATCCGGTATGCATAGGCCTGAATCGGG -ATCACCAGTTCGTCCCGATTCAGTACAACGAGCTTCCCGCTGCGAATTTCTTGTTGGATGGCGTACTCCGGCAGC -CAGGCAATCCCACAGCCGTCGAGGGCAACCTGCTTTAAAAGCTCGCTCATCGAAGAGACAAAAAAGGTGCTGAAA -CTTAACTCACTGTGGCGCGTCAGGGTGCGATTAATCAATCGCCCCATGTAGGAGTTGCGGCTGTAATTCAGTAAC -GGAAAGTGTGGCTGCGCGAGGTTAAAAAGTGCTTCTCCGTGTTCGTCACTGGCGCAGACAGGGAACAATTGAGAT -TCAAATAAGCGAATGTGGTCAAACGGCGCTTCCAGCAAATCTTCGTCGTGAAAGGAAAAAATACAGTCACTTTGC -CCTTCACGCAGTTTATCGACCGCTTCATCGACATCAATAGCTTCAATTGCCCAGGTAAAGAGCGGCGGCATCTGG -CTGATAATGGACGGTAACAGCCCGAGGGAAAGAGAGTGTGCAGCGGCTATCTTGATTTTTCGTTGCGCGTAATCG -CTGCCGCCACGCAGCTCTGCCAGATTGCTCTCTAACTGTTGCAACAGATGGCGGATCTGCGAATGGAAGATTTTC -CCTTGTTCTGAGAGTTGCAGCGGCGTTACCTGGCGGTTAAACAATTCAACACCAATCGCCTGTTCCAGCGCACGG -ATGCGGCGGCTGAATGCCGGTTGCGAGACGTTGCGACTGACTGCCGCCTGGGAAAAATTGCGGCATTTTTCCAGG -GTCAGAAAATCATAAAGCCATTTGGTTTCAATATTATGCAAAATCGCACCACAGTCATCCATTACGTTTTACTCT -GTCAGCCGCCCTTGCGGGCATTCTACGTCCATTCGGGCGGCTGACAACCGTTTAAGCCGTTTCAAACGTTCCTTT -CACGCAGGCTTTGCCGTCTTTGACCATCAGTTTGCCGCGAGCGTATACCTGCTCAATGCGCAGTTCTGGCGTCAT -GACCAGCAAGTCAGCATCATTGCCTGGCAGAATTTCGCCTTTCCCGGTCAGGTTAAGGAAACCGGCTACGCTACT -GGTGAGCGGGCGCAGGGCATCGCTGATACTGAAATCATAGTCTTTGACCAGCACCTGCACGGTTTCCAGCAACGT -TTCAAAACCGGCAACACCGATATGGGTTAAATTCCCTTCGTCATCGAAGAACGGCTGGCTACCGTTGCCGTCGGA -GCTGAGGGTGACGCGTGCCAGCGGAATACCCGCCTGAACGGCGCGGGCAATACCTTCGGCAGGGGCGACCGGTTC -GTCAATGCTGCTGGTGATATCGATGGTGCCGCCTTTGCGCGCGAACTCCAGCGCCTGCTCAAACAACGGTACGTT -GCGGTTAACGTGGGTCGGCAGCAGCTTGCTGATCGGCACATCGCAGTTTTCCAGCAGGTCATAAATAGGCTGTAA -CGCCTTTTTACTGTCGCCCATGTGGAACACGGTGACGCCAGGTTTACCGCCGAGCAAACCGCCAACGCGGGATTC -TGCCGCCATATTGGCCAGGTGATAAACGTCCGGTGCGGCAGAACGGTGATCAGAGATGGCGCATTTCACGCCAAT -CACACGATCGATAATCGCCACGTCTTTTTCCACGGAACCCGTAATGGTGCGGGAAGGGACATGATAAGCGCCGGT -CAGCATCCAGGCGCTGATGCCTTCTTCATTGAGCGCACGGGTCTTGGCGAGCAGGGATTCCGGGTGGCGAGAGAT -AGAGTCGGTGCCCAGCAGACCAACCACTGACGTGACGCCCGCTTCCGTCAGGCGACTTAGCGCCACTTCCGGCGT -GCGCGTCGTGGGACCTGCTTCGCCGCCACCGCCAATCAAATGGACGTGTTGATCAATAAAACCTGGGCAGAGGAT -CTGCCCACTGAGATCGACAACCGTGCAGTTCGGTACAATGTCAGAAGGGATATTGCTGGCAACGGCGATAATTTT -GCCGTTAGCGACGAGGACATCGCAAATTCCCCGATCTTCCGGCGCATACAAATGCGCTCCCTGCAGCAGGGTAAA -ACCGGCTGCGGTATAATCAATCATGGTAACTCCTTGTTAAACAATAAGCTGCATAACCCAGATCGACAGCAATGC -GTTAATCACGCAGACCGTAATGATATGCGGGTAATATTTGGCATTCACTTCGGCTGTCCCCAGGCAGCGACCGAC -ATTTTGCACCGGGTTGCCCATTAAATACATCGCGGGCAGTAAAACGGTGACATCGTGACCGGTTAATGCGCCAGC -GGTTGCCAGACTGGCGGCAACACCGACTGCGCCACCCATACTCATTAATGCGGCTAAAAGGACGGTTGCCGCTTC -ACCGGGTAATCCCCACAGCGCCATTACGGGTTCACAGATATGCCCCACCCAGTCGAGCAGGCCGGTAATTTTCAG -CGCCTGAATGATGACAAACGCCATCACCACGTTTGGCAGCAGGTTGGTCGTGGCGATAGTAAAGCCACGGCGCGC -GCCATCGATAAACATATCCATGACGTTTTTGCGGACCTGAGTTGTCATGCTTGCGCTCCTTGCGTTGGGTTGCGA -CGTTCTTCGAAGTTAAGCCAGACGCGCAAAATGTTGGCTCCGACAAATTTAAACACCAGGATGACGGCTAAAGGT -ACGATTACGGACGTGCCCAGAAAGGCAAACACCGCGACGCCGGAAGAGAAGTAGTTGGTGATGATGGCGCTACCG -CTGGTTTGATATGCGGCGAAAATCACTTTATCGCGTTCGGTAATTTCACCTTCCTGCGCCAGCTCTTTGGTCATA -CCGGCGGCGGCATCGGTGTTTTGCAGGTTAGCGATCAGCGCCAGCGAGCAGATCCCTGGAATGCCCAACAACGGT -TTTAGCACAGGTGTCATTAACTGCTGCGCGGCGCGTAATCCACCAAGACCATCGGTAATTGAAATAATCCCCAGA -GAGAGAATGACTGACGGTGCCAGCTCCAGCGCAAAGAGAAAGCCATCTTTAGCCCCCGCGCCACCCGCGCCGCGA -AATGAGGTGGTGGCTCCGTTCGCACCAGGCAGTTGCCCAAACGATCCGTTCAGAACGGAAAAATCAAAAACGCGC -CACCAGCTGTCTGTTCCGGAAAAAACACCGGAAAAAAAGATTATGGTGAGAAAAAAGGCCAGATACCCTTTAATG -CCCACTTTTTCTGTCGCCAGCTCCCCGGCTACAGCATCCCCTTGTTGTGTCATAACAATCCCCATTGTTTTTTTG -TGTTTGTGTGTTGCTTGAGCCAGGAAAATTCCTGGAACTGAAAAACCTTATCAGCCATGTGGGTATGGGGAAAAT -GCAAGTATGTTTCTGGCTATGCGTTTTTTGCATAGCGGAAAAATTACGCTGTGTGGAAAAGGCTCTGCGCAGGAT -TGAGTTGCAGAAAATTCATAAACCAAGTGACAATGACATCAGTAAATAAAAACAGAAAATCCAGGGACGAAAACG -AGATGGCAAAGTACAACGAAAAAGAGCTGGCGGATACGAGCAAGTTTTTAAGTTTTGTCCTCCGACACAAACCGG -AGGCGATTGGTATCGTACTGGACCGTGAAGGATGGGCGGATATCGATAAGCTCATACTTTGTGCCCAAAAAGCGG -GCAAGCGGTTAACCCGTGCATTGCTGGATACTGTGGTTGCCACCAGCGATAAAAAGCGTTTTAGTTATTCCAGTG -ATGGTAGGTGCATCCGCGCGGTTCAGGGGCATTCGACTTCGCAGGTCGCTATTTCCTTTGCCGAAAAAACACCGC -CACAGTTTCTCTACCACGGTACGGCAAGCCGTTTCCTTGACGAGATAAAAAAACAGGGGCTGATTGCAGGTGAGC -GTCACTACGTACATCTCTCTGCTGATGAAGCAACGGCACGCAAAGTGGGAGCAAGACACGGATCGCCGGTTATTT -TAACCGTCAAAGCACAGGAAATGGCGAAACGAGGCCTCCCTTTCTGGCAAGCGGAAAACGGGGTCTGGCTGACAT -CAACGGTTGCGGTTGAGTTTCTTGAGTGGTAAGGGAAACTTCCCTCATGAAGTGACCACTTGTAGCTTAAATAAT -TGCACTGTGCTGATAAGCGCAGCAATAAACAACGCCGCCGCGCCGCAGAGAGTGGCGCTGGCAAGCGCCGATGTT -CCATTGCTGAGCATACTGGTCAGCGCCGGGCCGAGGATTTGCCCAATGCCGTAAATGAGCGTCACAAAGCCTAAA -AGATTGAGATTTCCCGGTACGCTCAGTTGGCGGGCGATAGTCATCACCAGAGATGTCGTGCCCATAAAGGTACCG -CCAAAACCAAGACTGCTGATGATAAGCAAGAGAGGCGAGTCGCTGGCGAGAGTAAGCAGCACACAGATAGCCTGC -ACCAGCAAATTCGCCGTCAGGCAGGGCAAAGCCCCCCAACGTTTTGCTGCCCATAGCCAGCCAAAGCAACCAGGC -ACAATTGATAAGCCGACTAACGTCCAGAGATGGGCGGTTAACAATGGTGAGCCTGCATCTTTCGCCATGAGCGGC -AGGTAAGTCGCGACGATGATATAACCAAATCCCGCCAGGCCGTACAGAATAGCCAGTAACCACCAGCTCATTATC -TGTTGCTCCGTTTTTGCCAATGGCATTGGTGTGATGGCGTGTTTTTTCGAGGGCATTAAAAGCGTAAGTGCAATC -AGCATCATGCCAGAAAGCGCCCCGGCGCCTTGCCATAACGTTTGCGAGGAGAGGTCAAAATGCAGGCCTGCCAGA -ACATATTCATTGCCCAGTGCGATGCCAATGCCAACGCCAGAAAACAAAGCTGCCAGCACAAAAGGATGGCGCGTG -TGCTGCATAATCAGCGTCGAACCAAAAATCAGCATACCGGCGCTGGCGACACCCGCCAGGACGCGAATCAATAAC -ACCAGAATAAATGGCGGCAACCATGCCATTGCGAGGATCAACAACCCGCTCGCCAGGGCAGAAGCCAACAGAAAT -GGGCGCAGGCGCGATGGCTGGTGAAATGCGCCAAAAGAAAATAGCAGACTGCCAGCCAGATACCCCGCATAGTTG -CCGCTGGCAATCCACGAGAGCTGGCTAAATGAAAACGATCCTTCCGCCATCATGACGGGCAACATAGGCGTATAA -AGGAAGCGGCCTAAACCCATACCTAAGGTCAGAACCAGCATCCCGAAAAGCGCGGTGCTGAAAGAAAAGCGTTCT -ACGGGATGCGTGGACGAAGGCATGTTTAACCTTGTTTGTCATTTTTGTTGTTAACAAGTTAATAACAAAAAGGTG -AAGCATGCCAGCCTGTTAATGCGATGATTGAGGGGTAAAGCGATAAAAACGATTTGGTTCGCTAACGATATAAAT -ATTACCAGAGGCATCCATCGCAACCCCTTCGGCCTGTTTGATGTTATGCGACAAACCTCGACTGCCTTTGGTTAG -TGACATTTCACCGATAACCTCGCCAACCAGGGTTACTTCCTGGAGTGCGCGAGATTCATGAGACAGCACCAGAAG -CGTATTTTTTTGCTGGTTAAATTCTGCGCCGGACACATCATCTAAAGTAAATTGCCGTTGTAGTGCCTCGTCTTT -GCTGATGTGTAATTCATTGCTACTTAACAGCCCGTTAACTTTGTAGACCTCAATCGGATTTTTCTCTTTAAAAAA -CCAGAAAGTGTGATCCTGGCGAGAATAAGCCAACCCTTCAAAACCGCAATTGGTTGGGGAGTCTTGCAGCGGGAT -TTTTATTTTTTTGAGGATTTTTACTTCCGAGTTTGGGGTCAGTGAAATCACATAAATGGCGTAATCGCGCTCATC -GCTAATGACAAACTGATTATCGCCAATGTATTCGATCGTCTCGAGATCCTTAACAAAATCCAGAGGAATTGTGCG -GATAAAATCACCATTGGTGGTCATTTCAACAATGGCGGCAGGTTTGTTGATAGTGCTAAAAAGAGTATTGCTTTG -TGCCGACCAGGTCAGCGAAGAGATATTATTCGTTATGCCTGCAATTTCTTTGCCGTCAATGGTGGCGTGGTAATT -CTGAAATGATGCTGCATGATTGCTTTTACGGGCGCAAGATTGCACGAAGAAAGTACACACTGCCACAATGGCAAA -AAGAATCACAATAATGGAGATGCGTTTACTTAACGAAATACTTTTTGTCACGGTAATCCCTTTAAGGCAAATCAA -TAAGATATCGAGAAGTATACGTAGCGACCTTAATGAATCCTTAACGCGGAGAAACCCCGTAATGTGCAATGCAGC -GCCAGACACCATCCTGCTGGCAATAAATTGACTCAGTCAGCCCAGGGATCACCCATTGTATTTCCTCGCCGGGGG -GACAGGTCAGCCAAATGCATAACCCGCAGCCGCCGCGTAAATCACGGGGAATATCGCTGACGCGAAAAGTCATGC -CCGCTGCCTGCAACGCTTTGCGGGTTTGTATGACGCCGACCGTGGAGTGAAATAAAAATAAAAACTCTTTCATCG -GCGTGTCCTCACTCGTTGACCAATTACCGCCGCGCCAATTGCGCCAGCAAATTGCGCATCAGGATGGGTATTTAC -CGGCATTCGCAGGTGAGATTCCAGCATCCGGGCAAACTTCTGGCAATGACTAACGCCACCAGTAAACAGAATCGG -CGCTTCACAGGAGAGACGAGCAATGAAATTGGCACTCCTCCGCGCCATCGCGTTAATCACTCCTGCGAGAATCGC -TTCTGGCGCGACGCCCGCTGAGCGCAGGCTGATCGCTTCTGATTCAGCAAACACTGTGCACATACTCGTGATGGC -GTGCGGCGTGACATTTTCGGTAATGCTGTCGAGTTGCTCGACGCTGGTGCCAAGCGTGCGCGAGATCACCTCCAG -GAAACGCCCGGTGCCCGCCGCGCATTTGTCATTCATCAGGAAATCGCACAGGTTACCGTCATCATCAAGCTGAAT -CACTTTGCTGTCCTGACCACCGATGTCGATTACCGCGCGCGTTGCTGGCGCAAGAAACCGTGCGCCCAGCCCGTG -ACAGGAGATTTCCGTTACCTGTTTATCGGCAAAATCCACCAGTTGCCGCCCGTAGCCGGTGAGCGTCAGAAACGG -CGTTGTCTCTAACCCTTCGCGCAGAGTTTCCCAGGCTTCAGTAATTGCTGTTGCCGGGCGAAAGGGGGTTGGAAC -GAGGAAACGGCGCGTAATCACGCCGTCTGCCAGTAAGATCCCTTTGGTGGCGGTTGAGCCGGAATCAATGCCAAT -CGAATATGCCACTGCCACTCCTTACAGCATCTCAATAAAGGCCGCGACACGGGTACTGAGCTGCCCGACATCCGA -GGTGGAGTAGTCTGTTTCAATAGCGATATAAGGAATGTTGTGCTGCTGGCGCACATGACGTTTAATCGCCAGCGA -TTCCACCGCGTAGGTATGGCACGCCTGCAAAATCACATCAACTACGCCATCGACCTGATATTCCTCCACCATCTG -GCTGAGCATTTTCAGGCGCTGATCGTTCGGCGAAACACAGGAGCAGCCAATCGCCAGATATTTATCCGCCAGCGC -GTCGTAGACATCGCCCGTTTCTGCCACGCATTGCTCGGTCGCTTTCGCCCCGGTGCAGTTTTCATAACCGACAAC -CCAGCCGCCATTCTCTTCAATCGCGCGCACCACTTTTTCTGCTGCGCCGCCAATCGGGCAGCCGGTGATTAAAAT -GCGCGGACGCGGGTCCAGTCGCTGGCCTTCTTCCCACTGCTGACGAACGCGGGCGGTCATTGCATCCAGTTCATT -GATCAACGCCTCTTTATCGAACCGGAAGGTTGCGCCGTAAACCACTTTCAGAATGTCGCTGCCGCTAAGCGCCGG -AGGATTTAACTGCCCAAGATGATAAAAATTAGCCAGTGCGCGACGTTCGCGGTTTTTCAGCGCAATGGCATCGCG -CAGAGCATCTTCGCTAATCTCGTGCCCAAAACGTTCTTCTACCGTTTTTTGCAAGCGCAGCATCTCGGCTTTCCA -TAACGCACGCGAGGCATCGTCCTTAACGCTGTTGGGCAATTGCATCACATGAACAGGCTTAAACTCCGCCATGTA -TTCATACATTTTCTTTTTGCCGTCGCAGGTGGTTTCACCGACCACCAGATCCGAAAAGTAGAAGTAGGGGCATTT -ATCGGTTTTGCCGAAGCCGTAGCTGCTTTTAATCAGCGGGCAGAGGTTGCGCGGCAGATCTTTCTCCGCTTCTTC -AATGGTTTCATCAGAGGTGGAACAGAGCGAAACCACAACCGCACCGGCTGCCATCGGGATCTCTTGCGGCATAAA -GGTGCAGTAAGTGCCAACCAGCGGAATGCCGCGCTCCTTGAGATCCATGACGGTGAGAAAGCCTGTCTGGCGAGC -TTCAGAGAACTGATCGAAAATGGCGGGTAGATCGGTGACAAGTGACATGATTTTCCTTCCCCGTACCACGGGAGA -TAATGAAAAGAGGCCACATTATTACCATTCTTTTAGTATGGTTTATTTGATCTCTCTCGCGGTTAGCCACTTAGT -TTTTCATGGATTTCTAAAAATTGCCGAGGGGGAACAAGGCCGGGAGCTGCGACAGCAAATATAAAATTAGCCCAA -TACAACCGCCAACCAGCGTACCGTTGACACGAATAAACTGCAGATCTTTGCCGATATTTAACTCTATTTGCCGCG -ACATATCCCGCGCATCCCAGCTTTTTACCGTATCGCTGATGTGGCGCGTCAGGAATGCGGAAAACTCAGGCGCGA -CGCGGTGCGCGGCTTGTTCAAGATGACCATTTAACGACGCCCGCAAGGCATCATCGGCAATTAACGTTTCGCCAA -ACCATTGACCCGCTCGTGCGATGCGTTCTTTCACACGAGAATCTTCACTGTTGATATCCACTTTCAGCCATTCCC -GTAAATCCCCCCACAATTCACTGAGATAGCGATTAAAAGCTTCATCTTCTTTCAGATAGCTTTTTACGGCATCGG -CTCGCGCTGCCATTTCCGGATCGTTTTTCAGCTTGTCGATCAGGGCGAAGGTGGCGCGATCAAACGCATGGCGGA -TCTGATGCGCACGATCGCGACTAATATCATCAAGCAAAGAATTCACCGCGTCAGAAACCAACTCCGCGCTATGTT -CGCCCAACCATTCGGTGGGGAGAATTTTGGCTTTCAGTGGATGCTCGCTCTCCAGCCAGCGAACAATTTGCTGGG -CGATAAACTTGCGCGATTTATCGCGCTGGAGAAGGGCGATCAACTGTGCGATCAGCGTATCCAGCAGCACCTGAT -GACGATCGTTTTTGGTCATACTCTCCAGCATCAACGCACTGGTGCCGGAAAGATCGACCTTATCAATCGCCCGAT -GGACCGCGCGCTTAAGCAGGCGCTGAATACGCGCATCATCGGTAAGTTCGAGAAAACCGCTCATGATCTGCAACA -GATGCTGACCAACGCGGCGGGCGTTTTCTGGCTGGCTAAACCAGTTGCCAATCAGCAACGCCGGTTCGTGGCGTC -GAATCAATGCCACCAGGGATTGAGTATCAAGAAATTTTTCCTGCACGAACTGGCCGAGATTTTCGCCAATCCGGT -CTTTATTACGCGGGATAATCGCCGTATGGCGAGAAATGATCGGAATCGGCACGCGGCGAAACAGCGCCACCACCG -CAAACCAGTCCGCCAGCGCGCCGACCATCGCCGCTTCAGCAATCGCCTTCACGCCGCTCACCCAAAAATTGGGCG -GCAAAAACAGCGTAACGACAAAGGTAGCAGCGGCGATAAGCAGTAAAGAGAGCGCCAACCTTTTGGCGCGTCTGA -GTTCGATGAGTTTATTCATAACGTTAAGAATAGAGCCTGACGGCCGGATCGCGCAAAAATCACTGCTCCTCCACT -AGCTCGGCTGCCTGATGCTGGCGCACGCGATTGAGCAATCCCGCCAGGGTGAAAACGACGATAACGCCCGCCACA -ACGGCTAACAGATGAAACGGCAAGCGACCGCCGTTAAACCATAGCCAGCGGCCGATTTCGACCGAGACCGACATC -ACCATCAGGATCACCATATTTAGCGATGCGGAGACGGTCCCTTTCGGTAACTTATTGGAAAACAGCGTAAAGCGG -AATAAGGTCGGGAAAATCAAACCAATCCCGAAAGCATACAGACTGGTGCCCAGCACCGACCACAGCCAGACGTGC -GGCGACAGCAGATTGCCGACAATCAACAGCGAGAGGCCGACCAGTTGAATGGGTACGGCACGCCAGATAAACCGC -GGTTCGGTCGGATCTTTAACAAAACGCGCCACGATGGCATTCGCAACAATCACCGCGCCGAACACCGGAACCTGT -GTCCAGGCGAACTGCGAAGTTGTTAAGCTGCCTGCATCGATAAGGATCACCGGCGAGACAGCCACCCAGCTCATC -ATCGGGATATAGCTTAAAGAGATGGTTGCTGCGCCAAAGAGGAACAGCCGATTGCAAAAGACATTACGAAAATCG -CGCAAGACGCTTTTGGCGCTAAACGGAACCGCGCCGCGCTTCACCGTCTCTGGCATCGCCAACAGTAAGCCAACA -AATGAGATAAAACCCATAACCGCAATGATGGCAAAAAGGACTTTCCAGTGCATAAAGTGCATCAGAGCTGCGCCG -GAAAGCGGGCCGATAATCGGCGCAATCAGTACGATGGAGGTGATAATCGCCATCAACTTGATCCCTTTTGTCTGT -CCGAACGCCTCCTGCACCGTGACATAACCAACGGTGGCAATAAAACAGATACTGGTGCCCTGAATTGCACGCGCG -ATAAGAAACTGTGTCATAGACGTTGTGAACATTGTCGCGGCGCAGGCAAGGGTAAAAATTAGCGCCCCGGTAATC -AGCACCGGCCTGCGGCCAATTCTGTCGGAAAGCGGCCCCAGCAGCCACTGTAACGCCATACCGCCAGCAAGATAG -AGACTGACGGCAGCAGGGGCCAGACTGACATCGGCATTAAAATCACGTACCACATTAATGATCCCAGGCTGGATC -AGATCCGTCGACAGATACGCAGCAAAGTCATACAAAATCAACGCCATCGGGAAAAACAGCGTGGCGGCATGGCGG -GTAAAAAAACGTGGCATAACAAACAACTCCTTGTCCGGAGAACCCCAACGGGGAAAACGAAATTCAATACCGTCG -GTAATGACGAAAGGCAGGTGAGAAGGGCAACGAGACTGCAAATGTACTGAATTTCATGTAATCAACCACACTGCC -TGTGAACACACAGACAGAGAAATACTTTCTGACTTCGGGTCAGAATGTATAACGATTACAAATAGTCATCAGCAC -ATTACACCTCTTGAATTGATGGGTTGCATAGAAAATATACACCTTAAGTGTAATTAAAATTTGCGGTTAATCAAA -AGAGCGCGGTGGAAAGGGGAATATCTGCCGGGTACAGGACATGTAAAACGCGAGCTTGTTTCCGGAAAAATGTAT -CGTTTGCAGAAGAATAAAAATAGCCTGGAAAGCGCCTCGGGGAATGGGAAATTGCCGGGTGAGAATGGTTTTGTT -AGTCGCTAAAGTCAGGCCATCTTTTTCAACAGGTGATGGATCGCCATGACAAACTTCACGACCAGCACGCCGCAT -GATGCATTATTTAAAACCTTTCTCACGCACCCTGACACTGCGCGGGATTTTATGGAGATTCACTTACCTAAAGAT -TTACGTGAACTGTGCGATCTCGATAGCTTAAAACTGGAATCCGCCAGCTTTGTCGATGAAAAATTGCGGGCGCTA -CACTCCGATATTTTATGGTCGGTAAAGACCCGCGAAGGCGATGGCTATATCTATGTGGTGATTGAACATCAGAGC -CGCGAGGACATTCATATGGCCTTTCGCCTGATGCGCTATTCCATGGCGGTGATGTAGCGCCATATAGAGCATGAT -AAACGCCAGCCGCTACCGTTGGTCATCCCGATGCTATTTTATCACGGTAGCCGTAGTCCTTACCCCTGGTCCCTG -TGCTGGCTGGACGAATTTGCCGACCCGACTACCGCACGGAAGCTTTATAACGCCGCGTTCCCGCTGGTGGATGTT -ACTGTCGTGCCAGACGACGAGATTGTGCAGCATCGCAGAGTCGCCCTGTTGGAGTTGATCCAAAAGCATATTCGC -CAGCGCGATCTGATGGGGCTTATCGATCAACTGGTAGTATTACTGGTTACAGAGTGTGCTAATGACAGCCAGATA -ACTGCGCTGTTAAATTACATTTTACTGACTGGCGATGAAGCGCGTTTTAATGAGTTTATCAGTGAACTTACCCGT -CGAATGCCACAACACAGGGAGCGAATAATGACGATTGCAGAGCGAATTCATAATGATGGATATATAAAAGGGGAG -CAGCGCATTCTTCGATTGTTGTTGCAGAATGGGGCGGATCCTGAATGGATACAAAAGATTACCGGACTTTCGGCA -GAGCAAATGCAGGCATTAAGGCAGCCCTTGCCTGAGCGTGAGCGCTATTCATGGCTCAAGAGCTAATCAGAGACG -GATGACAAACGCAAAGCAGCCTGATGCGCTATGCTTATCAGGTCTACATAACCCATTAAATATATTGAACTTTAA -AGATTTTTGTAGACCTGGTCAGGCGTTCACATGGCATCCGGCATGAACAAAGCGTACTTTGCTTAATTCAGGCTG -GAACGTGGCGATGACCCAGCAAAGATAAAACGAGTCACAGGTTATGCATGAGAGGAAATCAGGCGCTTCGCCGCT -ATTTCGAATTTATTCCATTGCCCGATACACGGCCTCGCCAATTTGCTTCAGTGCTTCGCGATAGGTTTCGCTGAG -CGGCAAAGCGCAGTTGATGCGCAGACAATTACGGTATTTGCCGGAAGCTGAGAAAATCGAGCCTGCCGCCACCTG -GATTTTCATGCGGCACAGCTGCCGCGCGACGCAGACCATATCGACCTGTTCAGGCAATTCTATCCACAGTAAAAA -TCCGCCTTTCGGGCGCGTAATACAGATTTCGCAGGGAAAATATTCCCGTATCCAGCAGGTATAAAGCGCCAAATT -GCGCTGATAGATCTGCCGCATCCGCCGGATATGGCGATGATAGTGACCTTCCAGCACAAACGTTGCCGCCGCCAT -TTGCGTGGACGGCACATTAAAGCTGCTGATGGCGTATTTCATATGCATCAGTTTATCGTGATAACGCCCCGGTGC -GACCCAACCCACGCGCAGGCCTGGTGCAATACTTTTACTGAACGAGCTGCACAACAGCACTCGCCCGTCGATATC -CCAGGAATGAATGGTCCGCGGGCGCGGATACTCCGTCGCCAGTTCGCCATAGACATCATCTTCAAAAATCACAAT -ATCATGACGCTGAGCGAGAGAGAGAACGGCCCGTTTGCGCGCGTCCGGCATAATAAATCCCAGCGGATTATTACA -GTTTGGCACCAGAATGATGCCTTTAATCGGCCACTGTTCCAGCGCCAGTTCCAGCGCTTCAACGCTGATGCCAGT -TTCTGGATCGGTTGGGATTTCAATCACTTTCACGCCCATGCCGCGCAGCATCTGCATCGAACCGTAATAACAGGG -GGATTCGACCGCGACAATATCGCCCGGTTTACACACTGCCATTAACGCCAGCGACATCGAGTTATGGCAGCCGCT -GGTGATGATGATGTCATCGGCGGTGACCACCGAGCCGCTGTCGAGCATCAGGCGGGCAATCTGCTCTCGCAATAC -TCGCTGACCGGCTAACAAGTCATAACCGAGAACGGTTTGCAGATTATGCTGCACCACCCGGCTTAGCTCCCGCCA -CAGCGGTTTCAGGCTGGGCGCTTCGACATCCGGTGTGCTTTTGCTTAACGGAACAATGGAACTGTCGCTATGCGC -CTCCAGCATATCCAGCACCTGATCCCACTGGGTAATTTCCACCGGGCGCTGCACCGGACGCGTCATCGGCGGTAC -TGGCGGCTGGGCTTTACGTTGTGCGACAAAATAACCCGAACGCGGCTGCGGAGTGATGAGCTTCATCGTCTCCAG -CGTCTGATACGCCTGCTGCACGGTGCTGATACTGACGCCGTGCTCCTGACTTAAGCTGCGCACCGACGGCAATTT -CTCCCCGTGACGATACAGCCCTTGCTCAATCCGTTCGGCAAGCAGAGTCGCCAGATGTTGATAACGCGTCATGCT -GTATTCCTTATGTGGACCATACAGAGAGAAAAACCGGTACAGATGAGGCTAAAAAACCGGATGCAGATGCTGTTT -TAACCTGTCTGTATGTTAAATAAAAGTAATATTTGAATCTGTATTGTGAACTGCCAGAAGGTGGATGATGAAGCC -TCTGAAAGATGAGGAGGTAGCAGATGGAATTTCACGAAAACAGAGCTAAAGCGCCGTTTATCGGCCTGGTGCAAC -TCTGGCAGGCGGTGAGGCGTTGGCGGCGGCAAATGCAGACCCGACGCGTGTTACAGCAGATGAGTGATGAGCGGT -TGAAGGATATCGGGTTACGCAGGGAGGATGTGGAGTGAGGGGGGATATAGATTTATATATAATAAAACGTTTTTA -TGTTTTTAAATTAAGTTATAAAAATTTTCCCGAGACAATTCATCAATAGGTATGGAGTGTACAGGAATATCTTCT -TCACTAACCTCTTTAAACTCATGTCGATAACGGTCAAAAAACGCACAGTGATTACTTGTGTTTTTTGACTGACTT -TACAACTCTCATTATTCGCTATTGTGCAGTTTCTCTAATTGTTTTATACCCTGGAAAGTTAAATGTCAGCTACTG -AATACTTTTTGATTGTTTGAGATTTATTTTCATTTGAAATTATAAAATCAGGTGATAAATGAGTTGTGATTAATA -GATGGTTGATATCATTTTTATCTAAAATTGATTTATAGTATCGACCTGAAAAAATAGTTGTTGCCGCCTGAGTAA -CTATACAATATTCTGAAAGGTTTTCTTTCAAATTAGAAATGTTGTGGGGTTTTGTTTTTGTATCTTTTATCTCTA -AGGAGCTTGCTTTGGGTCAATCAGAATACATTTCATGGGTAAAATGTACTTCCTGGCTAAGTAACTTTGTGAATC -TTAGAGGGTTGAGACAACCGGATGGCCGTCCTCTTTATGAATATCATGCAACCAATGATGAATATACCCAATTAA -CGCAGCTACTCCGTGCAGTCGGTCAATCACAATCTAATATATGTAATAGGGACTTTGCTGCCTGTTTTGTTCTTT -TTTGCTCTGAGTGGTACCGCAGGGATTATGAACGGCAATGCGGATGGACGTGGGACCCTATATATAAAAAAATAG -GGATTTCATTCACCGCCACAGAGCTTGGTACTATCGTACCGAAAGGGATGGAAGATTACTGGCTGCGCCCAATTC -GATTTTATGAATCTGAACGACGCAATTTTCTCGGAACATTATTCAGTGAAGGTGGTTTACCTTTCCGGCTACTCA -AAGAATCAGACAGTCGCTTTCTGGCTGTTTTCTCCAGGATCCTTGGACAATATGAGCAAGCAAAGCAGTCAGGTT -TTTCTGCCCTTTCGCTGGCAAGAGCTGTCATAGAAAAATCAGCGCTGCCAACTGTTTTTAGCGAAGATACCTCTG -TAGAACTTATCAGTCATATGGCTGATAACCTCAATTCCTTAGTACTTACTCACAACCTAATAAATCACAAAGAAC -CAGTACAACAGCTTGAGAAGGTTCACCCTACCTGGCGAAGCGAGTTTCCAATACCGTTAGATGATGAAACAGGAA -CGCATTTTTTGAATGGACTGCTATGCGCAGCCTCTGTAGAGGCTAAGCCTCGACTACAAAAAAATAAGAGTACGC -GTTGCCAATTCTATTGGTCAGAAAAGCATCCAGATGAGCTTAGGGTGATAGTATCTCTTCCGGACGAAGTTTCCT -TTCCTGTAACAAGCGAGCCGTCAACTACGCGCTTTGAACTTGCCATTTGTGAAGATGGTGAGGAAGTCTCTGGCC -TTGGGCCAGCCTATGCTTCTCTGGAAAACAGACAGGCAACAGTTCGATTACGTAAAAGCGAAGTGAGATTTGGCA -GGCAAAATCCATCGGCAGGTTTGTCGTTAGTGGCTCGTGCTGGAGGGATGATTGTTGGGAGCATTAAACTTGATG -ACAGTGAAATTGCCATTGGTGAGGTGCCGTTAACCTTCATCGTTGATGCAGATCAATGGCTGTTACAGGGACAGG -CTTCTTGCAGTGTGCGAAGCAGCGATGTTCTGATTGTGCTCCCTCGGGATAATAGCAATGTTGCTGGTTTTGATG -GCCAATCGAGGGCAGTAAACGTATTAGGACTAAAAGCACTACCTGTGAAGGGATGTCAGGACGTTACAGTTACAG -CAAATGAAACTTATCGGATTCGCACCGGAAGAGAACAAATCAGCATCGGAAGGTTTGCTCTAAATGGAAAGCGTG -CAAGCTGGGTTTGTCATCCAGATGAAACATTTATTGGTGTACCAAAAGTCATTTCTACACTACCGGATATTCAAA -GCATTGATGTAACGCGTTACACGTGCTGACAAAACAGCATTACAGCCAGCAGGAAGTACTGCGTTGGATCGATGT -CTGTTCAGGGACTCAACCTAATGCAAAGGATCCCGCATTTCTTAAAGTCAGGGCGCATATCTTCCAGCGTAATAC -CTAGGGAATATGGGCTTGTGTTGATAAAGATTGCAGATTAAAGCACGGTACACCGCTCGACAAAGGCTGGCCCTT -TGGCTATGTGTATGTGAACCAGCGACAAAATTGTGACTGTGGAAGCCCTGTATACGAAGTTGCATTCTGTAATGA -TTGTAATGAGCCTCATCTTCTGGCACGGGACAAAAAGGGCAAACTAGTCCAGTGGGAAAATAAAGGTGGCGATGA -ATTCTCTTTGCAGGATGAAGTACCTGTTGAACATGACGCTACAGAAGAAAAAGTCGAAAAAGAGAACAGTTTTCA -GCCTCCGTTGATTATTGCCGCAGGAGAGACCAGCGAGGCAGGTTATACCCTACAACGCCTCGACCGTCAGACGCG -CCGTATTGGCGTTATTAACAATGACAGCATTCCGCTGATTATTAATGATATTGAACAGGTTTGTAGTGCCAGTGG -CTGTGGCTACAGAGGCATGAGTGGGAAACAGCCCTTCCGGCGTGCACTATTAGGTGGGCCATTTTACGTTACTAA -TATCGTGCCCACCGTTCTAGAGTATTGTCAGGACTTTACCAGTGATGAAGGCAAAGAGGGCGTCGGACCAGATTC -GTTGCCAGGACGAGGTCGTCGACTCATCACCTTTACAGACAGTCGACAAGGGACAGCCCGAATGGCGGTGCGTAT -GCAGCAAGAAGCAGAACGCAGTCGCTTACGCGGAAGCGTAGTCGAAATTCTCAGCTGGCATCAAAGGACGCAAAC -GTCTACAGCGCCGAATGCCAATGCCGATCTGGAAAAATTAGCGGCCAGGGCGAAGCAAGCCCGTGAGCAGGCAGA -AGAATATCGAAGCTGGGGAATGCCAGACCAGGCGAAATTGTCACAAGCACAGGCTGAACAGCTTGAACAGGCTTA -TCAGGCTGCAACCGGTGGGAAAGCCGCGACTATCCTGGTATCCCGAACCTGGACGGAGATGGTTAACGAGCTTAA -AGAGAGAGCCGATATCCGCGGGCCGGTTCTGCAATATAACCATTATCTTAAGCCTGAAGTGTTTAATGAAAACGG -CGGCCCCCTTAAGCTTTCTGAAATGTTGTTGTTCCGGGAATTCATGCGTCGCCCTAAACGGACTAACAGCCTGGA -AACACAGGGGCTGGTTCAGGTTGGTTACCAGGGGCTGGAGAAAATACATAAGAGCCCCTTGCACTGGCAGGAAAA -AGGATTAACGCTGGATGACTGGCGCGATTTTCTCAAGGTTACGTTGGATCATTACGTTCGCGAGAGCAACTTCAC -ACAGCTGGATGATGAGCTGAAAAACTGGATTGGTAGCCGTTTTTCATCAAAATTCGTCCGTAACCCGGAATCAAA -AGATCCTGAAGATAATCAGAACAGACGCTGGCCTCAAATTCGTAATGGCAACGTATCCCATCGTTTAGCGAAGTT -GCTGATGCTGGGGGCTGGATTCAAAACCGTCAATGCGGCAACTATTGATATTATCAATACATGGCTGAAAGAAGC -ATGGGCCCAACTTACCGGACCGCTTGCAGTACTGAAACCCGATGGCAACCGTTTTTATTTACCGAAAGAGCATAT -GACTTTTTCTTTAATCACGGATGCCTGGATTTGCCCGGTAACCAATAAAATCCTGGATACGGCTTTTAAAGGCTT -AACCCCTTATCTGCCTACCCATATTTCGTTCGAGCATCTTACCCTGGCGCAATATGACACTTTTGTCGCGCAGAA -AGTCACAATGCCGGAAATCTGGAAGCTGGATCGTTCACAGGAAGACTACGCAGAGGGTCTGGCAAAAGCACGCGA -CTGGGTCAGCCATGATCCGCTGATCGCACAATTGCGGTCGGAAAACGTCTGGACAGACATTAACGATCGTGTCGT -GGAAGGCGGCTTCTACTATCGTACTGCCGAGCACTCTGCCCAGCAGTCGTCAGAACGTCTGCAAAGCTATGAAAA -GATGTTCAAGAATGGGCAACTAAATGTTCTCAACTGTTCCACCACCATGGAAATGGGGGTTGATACCGATCGCGT -GATGACGCTGGCCTCTCGCAGCCAGCAGGCAACGATTCCGGGGCCGGAGTGGCACCTGAATGACGAACTGGTGGT -GCGTAGTCTCGGTTATAAAACGGTAGAACTGAACGAGTTTATTCTGCCGGCTAAAGCCACCAACGCTGTCGAGCG -GGTCAAAGACATTCAGATCCACAAACAGTTGAATGGACCACTGTCGCAGTTTGGGCAACGCTTCTGGGACGTGCT -GTTTAACGACCATGAAGAAGCGCAGTCACTGATGAATAACACGCGAATTACCGGCGTTCACTATACCGATCGCTA -TCTGCAAAACCCGGTTGCGCTGGCGTTGTTGGGATCAATTCTGAGACCGCTAAAAACAAAGCTGACCGATGGCGC -TGAAGTGACGCTGGATACGCTATTTAAAGATAAAGATCGCCCCGGTAACCGGCCTTTCCATGACTGGATGAGCAT -AGCGGATTTTCAGGATTTCGCTGATCAGTGGTTTGCTGCTGCGCTGGGCAGGCCGGTAGAACTGACGGTGTTCGA -CTCGCCGCGCGATATCCCTCACCATCGTAAACTGACGGTGACTTTTGAGGATGGTCAGGTATTGAAGATCCGCTT -CGATCAGGGGATGGGCTACTGGCGCATCAACTTTTCATCGCAATGGCATTACTTTGATTTCCGCGATGACGTTTC -TTTCCAGTTAGTCAAAATGGCTCAGGCCTGCAAGGAAGGGAATGTCGCCAACAGCGAAGAGAGTTGGGCAACGGA -TGTGCTGGTGGAGGTGATCGCCTCCTGATGATGAGCCGCTCCCGATGTGGTGTCGGGAGCGGTATTTTCTATAAA -ACTTACCGCTTATTTGAGATATTCATCGAAAATGTCGAGTAATTCTTGATGTATACACGGCCATTCCTGACCTAA -ATTGACGGTACACAAGCCAATATCGAAGCCATTAATTTTATAACGATGTTTCACTGCGGTATCTACGTGGGGATA -TATTAATAACCCCCCTATGTTTTCGCCATTTTCAGGCTTTAACGACCATAAGTAATTCATCAGTTGATAAAGATT -TTGCGAATGAAATTTTTCTGTTCCCATTCGTCGTGAAAAAATGCTCTTATAGTATTTGGCGTCAACGATAAGTAT -TTTTTCTGATGAGCGAATGGTGATGTCAGTTTCCATTCGAGGTAACAAATTAAGTGACTGATCCGATATACTCGA -TGCATCCCATTTTAAATAAGAGCGGGTTGTGTTTGCAGACGTTAATTCACGACGGCAAAATTCATAAAGAAACTT -TTGATAAAGTAATGACATCTCTTTTTCGTTTCTTTCAAAATCATAGAAACGGTAGTGTCCTTTGTTTTGACCTGG -AATAGAATTATTGACGATGAATTTGCAGACACTGATAACGAATTTATAATAACGCGTATTTTTTCCGCCATTCAG -ATAGCTGAAATGCTGCGGAGTTAAATGAAGAGTGCTAATGCCCGGTAATTTTCTATAAAGTGAACGAGCTTCATC -TCTGATAGTTGAATTTAACTTTTCATGCTTAATTAATATGGCTAATGTGCTTTTTATAATTCGGTTAGCCAGCGT -GTCTTCATTAAGCATATCAAAAGTACTGACGGTTTTCCCATGATTAAGATGGAAGCCGCGTATTGTTTTAGCAAA -CTCTATTCGCCCTTTGATGCCAGGAATGATCTCGGTGTTAGGATTGTAATCAAGCTCAAGCCCTCGGCGTGAAAG -CTGTAAAACCCCTTTATTTAATACATACCCCAGGATATCAAGAAGATTGTTACCGGGTATGGCTTCAAGGTTTGC -CTGCTTAATTTCCTGTAAATAACCCCATGCATAGGTAAGCATGTAATAGATATTACGGACAGGTATCACGGGCTG -TTCCACTATGAGTCCCCTAATAATTTGTTGGTCCATTTCTGTTGTTTATAGGGGTCATCAAAGAAATATTCTTCG -AGTAAAGGGGCGATATCCGTCATCACAATTTCATTAAGCCATTGCGTATCCGGAGAGGTGCCATCTTCCAACCCA -CAGCAGAAGTAACTATGCCCAATGCGGAATCCTTTCCCAAGGATAGTGGCCTCTTTGCTGATTTCCTGGTTCAAC -TCGTTCATTTTTTGGCATAAAGACTCAACAAATGAAGGTTCTGCTTTTTTATTCAGTAAAAAATTCCGGAACTGT -GGTGTATCAAAACCTGGCTCAATATCTATGAAAGAAAATCGTCTGCGTAGGGCATAGTCAACAACGGCCAGAGAG -CGATCGGCAGTATTCATTAAACCGATGATATAAACATTCTCCGGGACATAGAATCGTTCTTCATCGTTTTCGGAG -TAGGTTAGGGGAACAGACCAGTTTTCACCTCGTTTATCATGTTCCATTAACATCATCACTTCGCCAAATACTTTA -CTGAGATTGGCACGATTGATTTCATCTATAATAAAAATATACTTTTTCTCTGGCTGCTCTTTAGCTTGCTGACAA -AAATTGTAAAATATGCCGTCTTTACGTCGGAAGCCGACGCCATTCGGACGATAGCCCTGTATAAAATCCTCATAG -CTATAAGATTGATGGAACTGAACCATATTGACGCGTTGCGGAGCCTTTTCTCCTGTCAGCAAGTAAGCCAGACGG -CGTGCAACAAAGGTTTTTCCAACGCCGGGCGGCCCCTGGAGGATAATATTTTTTTTGATGGTTAATCGTTTGAGT -ATCGTCTCTATTGTGGTTTCAGGGATAAACAAATCATTTAACGCATCTTCCAGACAGTATGATTCAGTTTTTGAC -ATAGGTGGAATAACACTCTTGCCAGAATTAAATATTAATTTATAGTCGTTGATTATGTTGTCCAGCATAGAGGCA -AATCGGGTGTAATCAATACCCTGTGAGACTTTTTGGGAACAGGCGTAATAGGACTGTCCGTATTTTTTAGGATAT -ACACCCGAAGTTGCCTGAAAATACTCTGCGATTGTTTTAGGTATGTCTGAAGAGAACTGCCATTGGGCATGTGGT -TCATTCGTGTCGCTTATACCATAAGCCAAAACCAACTCATCAAAATCTTTATAATAGAGAATAACGGGATATATA -CCGTTAGAAGCTTCCTGACCTTCTCCAAGAAATGCAAACCAGGGAATAGACGTAAAATTACCATAACCGAAACTC -AATTTTACTCGCAGGTTACGGTAAGACGTTGGATAATCTTTAGTGGATTGCGAACGTTGTTGCTGTGCTTGCTTA -ATAAATTTTTCAATCCAGGGTTGAATAGATTCCATAAGATATGCCTTCCTCATTGCTAAGCCTCTATTATCGCTT -TCGCAACGTACTGAAACAATAGATTTTTACTGCAAAATCAGACTGGTAAATATTTACTGAGGGGGAAAGTTTCTA -TTGAGTCAGTGGAAGGCTCCCGGTGGTTAACCGGGAGTAAACGCTGTTACGCGACTTTCTGTTTACCGGCAATCA -CTCCAATAAACGCCTGCACCTGCTTTTGTTTACGCGCCGACAGTTTGCACACCTGGCGTAGCGACTGCATCAGTT -CGCTCTCCTCGGCGGCGGGTGGTTGGGCGGTGAGGACAATACAGCCTTCCATCACTTTGACATCTACCGCCGTGC -CAGTGGCAAAACCGGCGGCTTCCAGCCACTGACCTTTCAGGGTGATGGCGGGAATACGGCTGTAATCCGGGTAGC -GACTCGCATAACCGACGGTGACATGACGGTTATTTGCCGGGGAGACTTCTGCTTCGAACGGTTGTGCAATAGAAT -GCGTGTCAGTCATAACTGCTATTCTCCAGGAATAGTGATTGTGATTAGCGATGCGGGTGTGTTGGCGCACATCCG -CACCGCGCTAAATACCTGTATATATCATCAGTAAATATGGGGAAAGTCCAGCTAAAAATAGAATAAAATGGGCAA -TTTCTGGAATGATTTAAATATATTTATGTGGGTTATGATTGGCGTGAAATAATAAAAAGCGCACCGGAAAGGTGC -GCCAGAAAATAATGTTCAGGATTTTTTACGTGAGGCTTTTTTACCCCCGCTAGCTGCGCGTTCAGCTTTGATTTT -TTCCAGCAACGCGGCGGCGCTGTTTTCTCCGCTGATCAAATCCGGGTTTTCGGCCCGCCACTGGGCGGTAAGTTC -ACCACGGAACGCTTTTGCCAGGATGGATTGCGTCAGGTTGTTGACGCGGGCTAAGGCGTTGTTGACCTGTTTTTC -TATGGTGTCGGCGTAGGCGAAGAGTTGCTCGACGCGGCGAACGATTTCGGCTTGTTCTTTTACTGGAGGTAATAA -AACAACTTGGGATTTGATATCTTTTCCTGAAATACCTTTTTGACCAGAAGTTGTTTTCACGCAGTTCATCATTGC -ATTTCGTGCTGAGGGGGATGAAAAAAATATTTCGATATATTCTGGTAAAGCATCTTTGGTTAATCGAGCTCGAAT -AAGTTTATCAGGATATAGCAAATTTTGATGTTGTAATTTTTTCAATAACCCACAAACACCAACAAATTCTAAACT -TCCGTTATAGCGAGTAAATAAAAGATCTCCATCTTGTAATTTGTGGCGGTTTAGTTCACTTTCTGAACATTCTAG -AAACCGAATATCGTTTTGATCTACATGGCCAGCACGTACAGAACTAATGCGTAGTATTGGATGACCAACACCACT -TTCATTTGGCTTTGATGAAAGACCATTACGTAATTCAGTTAAGATAGATTCAAAATTTAACTTCTTAAATACAGA -ATGTTGCGGCTCAAAATTACGCCATTTTTCTGTCAATTTTCCATTAACTGCGCCCCCCAATACCGCTTGACGAAA -ACGTTTCAGGATTTGTGGGATTTGCTCAAAACGTGCTTTGGTGCTGTCTACCTGCGCCAGCAGCGTATCGAGTTT -TTCAGCGATGATTTTTTGTTCGGCAAGTGGTGGGATTGGTATATTTATCAAATCAAAGCTTGCCGGCTTAATATT -ATTAATATTTGCACCAGCAGAAAGTGATGAAATTTTGTTTCGATAAAGAGAAGATTTTGTGAAATGAGCAATAAA -ACCAGAAAATATAAGTTTTTCAGGACGTAATACACCGCAAAATGCGCCGAAACTACATTCAAATGGTAGATGCTG -ATGTGCGGATTTACCAACTACGGATTTGCTCCCTGATGACATTGCAATAACAATATCTTCAGGAGATATTTTTTG -ACTTTCTTTAACAAGATTTTTAGGAACAAAAACCAAGTCCGTAGTATCAAACTTGCCATTCTGAATATTGTTCGC -ACGGATAAGAGGCAAATAATCATCTTTTAGATAATTTATTGCCTGCTCTTTTTTATACGTTACTCCTCGGATTAG -AGTTGTGACCGTAGATACTGGGGCGATAACCCACCCCTCCGGCAATTTCCCCGCACTCATTCCTTCACCCCACCA -AACGCTTCTTCCAGCAACTGACGCTGCAAATCGGCCTCATCGCTCGCCCCCAGTTCACGCATCAGCGCATCCAGT -TCAGACAGCGCCTGTACCAGTTCGCCCATCGCTTCTGCCGCTAATACATCCGGCTCCGGCAGGCTGTCGGCATCA -ATACTGTCTTTATCTTTCAGCCAGGAGATATCCAGCGAATCGGATTTTGCGGTGCGGATCCACTCACGGCTGAAC -TTGCGCCAGCGGCTGGTAGCAAGATGCTGGTCGGTGTTTTTGTTCTCTTCGCTGTCGGCAACTTCCGTCTCTTCG -GCGTTAAAACTCCATTCACCTTCAGTGCGCGGGCTTAAACCGTGCGGGTCTTCGCCATACACGCGCTCAAACGGC -TGCAAATGCTCGTCGGTAAACGGTGTGCGCTTGCCGAAACTCGGCATATTGGTACGCAGGTCATACACCCACACA -TCATCGGTACAGTTCTTATCCTGATTCGGGTTCGCCACCGTCCCTTTGGTAAAGAACAGCACGTTGGTCTTCACG -CCCTGAGCGTAAAAAATACCGGTCGGCAGACGCAGAATGGTGTGCAGATGACACTTATCCATCAGGTCACGACGA -ATGTCGGTGCCTTTGCCGCCTTCAAACAGCACGTTATCCGGCACCACCACCGCCGCACGACCGCCGGGATGCAGC -GTTTCGATAATATGCTGCATAAAGCACAACTGTTTGTTGCTGGTCGGGTGAACAAAGGTGCGGGTAATGTTGGTG -CCTGCGGCGCTGCCAAACGGCGGGTTAGTGGCGACAATATGCGCCTTCGGCAGGTTTTCACCGTCGCTACCCAGA -GTGTTGCCCAGACGGATTGCGCCGCCGTGGTCGAGGTTGCCTTCAATATCGTGCAGCAGGCAGTTCATCAGTGCC -AGACGACGGGTGCCGGGCACCAGTTCGAGGCCGATAAACGCGCGGTGGATCTGGAAATCCTGCGTGTCGCCATCA -AGGTCGTCCAGATCATTGGTTTGCGACTTAACATAGCGGTCGGCTTCAATCAAAAAGCCCGCCGTACCTGCCGCC -GGGTCCTGCACCACTTCACGCGGCTGCGGTTTCAGCAGATGAATAATGGTTTTAATCAGCGGACGCGGGGTGAAG -TACTGGCCTGCACCAGACTTGGTTTCATTCGCGTTCTTCTGCAACAGCCCTTCGTACATATCGCCGAAGTCATCG -CGCGACTTACCGTGCGCGCCGTTGTACCAGTCCAGCGAATCCATATTGCTGACCAGTGCGGTTATTTGTTTCGGC -TCGGTGATGGTGGTACTAACATTATGAAAAACTGCCTGTACCAGCTTTTTGTCATCTTCGCCTAAATGCACGAGC -ATTTTTCGGTAGAACTGCAACTGCTCCTGGCCGATGCGGGATTTCAGGTCATCCCAGCGGTAACCTTCCGGCAGG -TATTCCGCTTCCTGACCGGTCTCTTTACACATTTTCAAAAACAGCAGCGAGGCGAGTTCATTGACGTAGTTTTGA -TAGGAAACGCCGCCATCGCGCAGGTTGTCGCACAGCTTCCACAGCTTCGCGACCAGATCGTTATTGTTCATTGTG -AGTTCCGTAAATTAAGCAGCGGCCCAAATTCATCGAGCCGCAGAAGAAGAAATTGCCGAGGGTAATATACACAAA -ATCATTCAGGTTGCATCAAGGCGGCAAGTGAGTGAATCCCCGGGAGCGTACAGAAGTACGTGACCGGGGTGAACG -AGCGCAGCCAACGCAGAGGCAGCCTGAAGGATGAAGTGTATACGTGTCAGGCCAGCTCGTCCCAGATATAATCGC -TGAATTTGCCCAGCAGGGTATCGAGATTATCGTCAAAGGTTCTTTGCAGCATCGCCTTCCCGCCGCGACGGTGGA -AGTTGCCGGTTTTGAAGACATCGTCGTCGAGCACCACTTTCTCTTTCAGCGCCTGCGCTAAACGATCGAGCCAGC -TTAATTGCTCGCTGCTCCAGTCGTTTTCGCCCTTAATGCGCGTCAGCGCGTGATCGACACGTTCCTCAAACGGTT -TCAGCGCATCGCCCACCGCAGCGCGGCGAATATGACCAATCAGCCGGGCGGCGATATCTTCATTGCGCGTCTCTT -TCCATGCTTTGCGCAGGGAAGATTCCTCAAAGTGCTGGCGGTCAAACCACTCCTGTAGCTCGACCAGCCCTTTAC -GGGTGAGATCGCGCGGGCGATTAATAACTGCCTGCAATGCCGGTTGCGCGTTCGGGGAACGTTGCACCAGCGAGT -CAAAGGCTTCGAGGAAATCCTGCGGCGTGTCGTAATCACCGTACAGCGATTTTACACTCACCACTTCATCGTCGA -TATCGAGGAAGATCGGCGCATCATTCAGGTTGTTGATGTCCGTTTTCAGCTTTTCCAGACGGGCGATAAAGCCAG -GCAGTTTGTTAAAGACTTCGGCGCTCCAGTGCGGCCCTTTTTCCCGCAGGCGCGAGGCGAAGCCGTTAAAGTTCA -CGCCCGCCGCGTCCTGGCATAGCTCATCCAGACGACGCACCTGTTTATCTATCGTTTCGCTGCGGTCACGGTTAA -ACGTGGCCAGACCGATGATACGCTGGAGCTTCGCCACCAGTTGTTCATGGCTGTGCTCGGCAAAACTGCGGCCAT -CCGCTTCGGTGATTTTATAGGTTTCTGAATCGGTAATTTCATTGACCAGCGTTTGCAGTTCCACCTTCGGGCGCA -CCACCACCGGACGCATGGTGTCGACGCTCTCCAGCGTGCTGTAGATATCGACACAGTCAAAAATCTTAAAGCTGG -TTTTATTCACCTCCGGGCATAAGCGCGTGGCGCGGCCTTTCATCTGTTCGTACAGAATGCGGCTGCGTACTTTAC -GCAGGAACACGATATTACAGATCGACGGAATATCGACGCCGGTCGTCAGCAGGTCGACGGTTACCACGATATTGG -GCAGCCGCTCTTTATTGAAGCGGGTGATCATGGTCTGCACTTTGCGCGCGTCTTTATCGGCATCACCGGTGATCT -TGATGATCGCGTCGTGCTCCAGTTGCGGATACTTTTTCTTGAACGCGGCACGCAGCTCTTCCACCACCATATCGG -CATGGGCATTGGTGACGCAGAAGACCAGCGTTTTTTGCGATCCGGTCGGGTCAAGATAATTGGTGAGTTCGTTAC -AGACGGCGCGGTTAAACGCCGGGATCACCAGGCCACGGTTAAAGTCGGCGACTTCAAAATCCTGATCGTCTTCCA -GGGTGTCATTGATCACTTCTCCCTGCGGGCTGATGCGCTCTACCTGCTCGCCTTTGGAGAGATAAACCCCCTCCT -GCGCGTTGCGGGTGATGATCTGAATAGGCGGATCCTGGTCGATCAGAAAACCGTCGATAACCGCGGTACGGTAGG -TATAACGGTAAACCGGCTCGCCGAAAATCTGCACAGTATGTAGCGCCGGGGTGGCGGTGAGAGCGATTTTTACCG -CATCGAAGTGATCGAGAATGCGACGGTAGGCAGAGACGTAATCCAGCTGGCTGCGGAACTGCAGTTCGCCTTCGG -TCTGCTCTTTATCGAGAATATAGCCGCGATGCGCTTCGTCAACGACGATACAGTCGTAACGGGCCACCGGCATCG -GTTCATCTGATTGCAGGGTGCGTTTCACCAGCGACTGTACGGTGGCAACGTGAATTTTGGTGCTGTCTTCCGGGA -ATTTATCCGTCAGCCCTTTAATGTCGAAAATGCTGTTGAAGGTGTCGCCGTTAATACGCGTATCTTCAAACGCGC -CCAGCGCCTGTTCGCCAAGAGAACGGCGGTCGACAAGGAAGAGAATGCGTTTAAAACGCTGGGACTGGATCAGGC -GGAACATCATGGCGATTGCCGTACGGGTTTTACCGGTACCGGTCGCCATCGCCAGCAGGATCTCTTGTTGCCCCT -TGACGATTGCCTTTTCAACCGCGCGGACGGCATCTTCCTGATAATAACGCAGGCCCAGCTCGCTCATGCCAGGGT -TATCGGCAAACCACTGATTCTGTTTTTGCGGTTCGCTGCCGAGCATTTCCAGCAGCTCTTCCGGGCGGTGCCACT -CGGGTAAGGCTTTCGACATATTGCGGGTATCACGCACGTCGCGATACCAGATGCCGCTTTTGGTCTTCATTGTTG -CGCGGTATTCGCGCCCGTTGGTCGAGTAGCAGAAGGGGATTTTAAACCGTTGTTTGCCGCTGGTGTCCTGCCAGC -TGGTTTCATACTCTGGCACTGCTTCATGCACTTCATCCGGTGAGTAGTGCTCAAGCAAGGTTTCCCGCAGGAAGC -CATTATCGAAACATTTACTGTAGCGATACGACTCATTGAGCCTGGCGGGAACGTCGATATTGTTACGTTTCGCCT -CTACCACCGCGATGGGTTTGAGGCCGACAAACAGCACATAATCCGCAAAGCCCTGATTACCCGTTTCATCTTTTC -CGGTCGGCCATTCGGCAATGGCTTTATTGACGCCGGGTTCCGGACGTGCGCCTTTGGAGAAGCGCAGGGTTTTGC -TGTCGGCCTGCCAGCCTGCTTTACGCAGTTGCGCATCAATCAGGAAGCGACTCTCTTCTTCGCTAAGGTTGAGTG -TGCGCTTGATGGCCTGATCGGTAATTTCTTTGTGGTAAGCCTTACGTTCCTGTTCGGTCTGTTTTGCCAGTTCCG -CGTTCTTCTCGGCGAGCTGTGCTTCCAGTGCCGCAAGGCGAGCCTGGGTTTGCGCTTCGGTTTCCTGCTGTTTGC -CTTCCAGAATGGCGATATAGCCGTTCAGGGCAACCAGCTTCTGCTGTTGCGCTTCGACTTCTGCCTGAGTCTGCG -CTTTTTCTCGCACCTGCTGTTCAAGCTGTTGTTTTAGCGTCAGCACTTCCTGGTGATAGAGGTTTTCACCACGTT -CCGGCAACACAAACACCGGCACCGGGAAGTCATAATCTTTAGTGACCAGACGGTAGTACCAGACAGCCAGGCGGA -ACCCGAGTCGCAGGCACATCTGGGCATCGTTGAGATCGTTATGATATTCGTGCACCGCCTGGTTACCAATGCGGC -GTAATTTGTGAAATACAGAGAGGATGTTGTCATCAACAAAGGCGATTTTGCCGAGTTCACGCAGGAGATCGTGTT -GATTCTCACAAGGGGGGATGTTGAGTAACAGACCAAGATGTTTCGCTGTGGCTTCGCCAAACATACGCATTTTAA -TCAGCGTCGTGTTGGGATCATCCGGGTAGTTATTTTCCGCCGCACAGGCGATGGCATAAGTGAAGTCGTTGACGC -CCTTCAGGAATTCAAAATTGGATTTATTCATCATTGTTATTAATCCATTGCTGTGCGGGCCTGTCCAAATATTTA -AGGCCCATAACATCTCATCTTAGCTTTCTGTACCTTTCCGGGCAATGACCACGGTCACAGCAACTGACTCATTTC -TAACGTGTTCGTCTATTTTTGTAGTGCTATAGTAGCCGAAAAACATCTACCTGATTCTGCAAGGATGTACTATGA -CGGTTCCTACCTATGACAAATTTATTGAACCTGTTCTGCGTTATCTGGCAACAAAACCGGAAGGTGCAGCCGCGC -GTGATGTTCATGAGGCTGCCGCGGATGCATTAGGACTGGATGACAGCCAGCGAGCGAAAGTCATTACCAGCGGAC -AACTTGTTTATAAAAATCGTGCAGGCTGGGCGCATGACCGTTTAAAACGTGCCGGGTTGTCGCAAAGTTTGTCGC -GTGGCAAATGGTGCCTGACTCCTGCGGGTTTTGACTGGGTTGCGTCTCATCCCCAGCCAATGACGGAGCAGGAGA -CGAACCATCTGGCCTTCGCTTTTGTGAATGTCAAACTTAAGTCACGGCCGGATGCCGTCGATTTAGATCCGAAAG -CCGACTCTCCCGATCATGAAGAACTTGCAAAGAGCAGCCCGGACGATCGGTTAGATCAGGCGCTAAAAGAGCTTC -GTGATGCGGTGGCTGATGAGGTTCTGGAAAACTTATTGCAGGTTTCTCCTTCGCGCTTTGAAGTCATTGTTCTGG -ATGTTTTGCATCGCCTGGGGTATGGCGGCCACCGTGATGATTTGCAGCGTGTTGGCGGTACTGGAGATGGTGGCA -TCGATGGTGTGATATCGCTTGATAAACTTGGCCTGGAGAAAGTTTATGTTCAGGCAAAACGTTGGCAGAATACTG -TAGGCAGGCCAGAATTACAGGCATTTTACGGCGCACTGGCTGGGCAAAAAGCGAAACGTGGGGTGTTTATTACCA -CTTCTGGATTTACTTCTCAGGCGCGTGACTTTGCCCAATCCGTCGAGGGTATGGTGTTGGTTGATGGGGAACGCC -TGGTGCACTTAATGATCGAAAACGAAGTAGGGGTTTCTTCACGTTTGTTGAAGGTGCCGAAACTGGATATGGACT -ATTTTGAGTGAAATATCAGGCCGGATGCGGCTGCGCCTTATCCGGCCCATAACCCCTTACTTCCTCAACCCCGCA -AACGCAGCCCGAATCTCTTCCTCCGGCAGCTGGATCCCGATAAACACCATCGTGCTATGCGGTTTTTCATCGCCC -CACGGCCTGTCCCAGTCGGCGCTGTAGAGGCGCTGGACGCCCTGGAACAGCAGGCGGTTAGGTTCGCCGTCAATC -CACAGCATCCCTTTGTAACGTAGCAGTTTATCCGCCGACTCCAGCAGCAGGTTTTCCATCACGCGGGAAACTTCG -CTGATATCTACCGGGTAATCCAGTTCCACCACAATCGACGAAATATCGTTTTGTTTATCTGCGATAAAGTGGAAA -CGCGGTTTGGTGCTGACGACGTTTTCTTCCAGCATAAAACCGTTGGTGTTGAACAGCAGGCCCAGATCGATGTCG -CCGTGGGTGACGGTGTAGACCGGTGCGCGGGCGTTGATGCGCGCCAGGCGTTCATGCAGTTTTTCTGCTTCGCCT -GCGACGTCGGTTTTGGTCAGCAGAATGCGGTCGGCGTAGCCAACCTGTGACTGGGCGATGGTGAACTGGTTCATC -TGCTCATCGGCATGTACCGCATCCACCAGCGCAATCACGCCGTCCAGCAGATAACGCTGGCATAAAACTTCATGG -GAGAAAAAGGTCTGAATAATCGGGCCGGGATCGGCCATGCCGGTGCATTCAATGACCAGACGGTCGAACTGAATA -TTGCCCTTGTCGAGATTGTCCAGCAGGTCGAGTAGCGCGTCCTCCAGCTCGTTGGAGCGCGAACAACAGATGCAG -CCGTTGGTCAGCGTTTTGATCTGCGTGGCGCGGTCGCCAATCAGTTGATCATCAACAGAGACTTCGCCGAATTCG -TTTTCAATCACGGCAATCTTGTAGCCGTGCTGTTCGTTAAGAATATGGCGCAGCAGGGTGGTTTTTCCTGCGCCT -AAAAAACCGGTGAGTAGGGTAACTGCAATCGGGTTCATGCTCTCTCCATTAACAACAGCGCATACCGCCTTTACC -ATCGCCGCCGTAGCGCGCGTTCTGGCGTTCGCGGAAGAATTCTTCATAGCTCATGTACGGCTTGTCGGGATGGTT -GGTCTTCATATGCTCGACGTAGTTGTCGTAGTCTGGAATGCCAATCAACATCTTCGCCGCCTGGCCGAGATATTT -TTTTGCCTGTCCTAAGTTACCAAACATAGTTCACTCTGATAAGAACAAAGCCCCGCCGAAGCGGGGCTAAACACG -GTTAGTGGTGCGAAGAGATCTTCACGCCGCCTTCCGGGATTGGAACGTACGGTGTTTCTTTGTCAGTACGTTTGT -CGCTGTTACGCACCGCAAGCCAGGTTTTGAAACCGTAGAAGATGATGCTGTACACCACAATCAGGAACAGAATAC -TCAGACCTGCGTTGGTGTAGTTGTTCACAACGATGTGGTTCATATTGGCAATCTGCTGCGCCGTCAGGTCAGTAC -CGTTAGCAATCTTCTCTTTGTACTGGCTTGCCATGTAGAAGAAGCCTTCCATCTGCGGGTTGGTGCTGAACAGTT -TCAGGCCCAGCGCCCAGGTGGTGCAGATAAGCAGCCATACAGCCGGAACAACAGTTACCCAGATGTATTGGGTGC -GCTTCATCTTAATCAGCACAACGGTGCCCAGTACCAGCGCTACGGCTGCCAGCATCTGGTTGGAGATACCGAACA -GCGGCCACAGGCTCTTAACGCCGCCCAGCGGATCAACCACGCCCTGATACAGCAGGTAGCCCCACAGACCCACAC -AGCCCGCAGTACCGATGATACCGGCAACCAGAGAATCGGTTTTTTTCAGGAACGGGATGAAGTTACCCAGCAGGT -CTTGCAGCATAAAGCGGCCAGAACGGGTACCCGCATCCAGCGCGGTCAGGATGAACAGGGCTTCGAACAGAATAC -CGAAGTGATACCAGAAGCCCATGTCAGCCATCGGCAGCACTTTGTGGAACACGTGCGCGATACCTACCGCCAGCG -TCGGCGCGCCACCTGCACGGTTCAGGACAGAAGGCTCACCAATGTCTTTCGCGGTTTGCAGGATCTGCTCTGGCG -AAATCACGAAGCCCCAGGAGCTGACGGTCGCTGCCGCGTGTGCGGTAACGTCTTTCAGCTGCGCCATGATGATCG -GCGCGTTCTCGCCACCCATTTCATGCAGGTTAGGCATGGTGATGCCAAGGCCAGCAGGCGGGGTGTTCATCGCGA -AGTAAAGACCCGGTTCGATGATGGACGCAGCAACCAGCGCCATAATCGCCACGAAGGACTCCATCAGCATTGCGC -CGTAGCCGATGAAACGCGCGTCGGTTTCATTAGCCAGCAGTTTTGGCGTCGTACCGGAAGAGATCAGCGCGTGGA -AGCCAGATACCGCACCACAGGCGATGGTGATGAACAGGAACGGGAACAGAGCGCCTTTCCACAGCGGGCCAGTAC -CGTCAATGTACTGGGTCATGGCAGGCATTTTCAGTTCCGGGTTCAGCACCACGATACCCAGCGCCAGGCCGACGA -TAACGCCGATTTTCAGGAAGGTTGCCAGATAGTCGCGCGGTGCGAGGATCAGCCACACTGGCAGCAGTGCGGAAA -CAAACGCATAGCCAATCAGCGCGAAGGTAATGGTGGTGTCTTTAAAGGTCAGTGCCGGACCCCAGTACGGATCGT -GAGCAATCACGCCACCGAAGTAGATAGAGGCAACCAGCAGCACGATACCAATGACAGAGACTTCACCCACACGCC -CCGGACGAATAAAGCGCATGTAGATACCCATAAACAGCGCAATCGGTACGGTTGAGCAAACGGTGAAGACACCCC -ACGGACTTTCGGCCAGGGCTTTAACCACAATCAGCGCCAGGACGGCGAGGATGATGATCATGATTAAGAAACAGC -CAAACAGCGCGATAGTCCCCGGTACTGGTCCCATCTCTTCTTTGATCATCTCACCAAGAGATGCGCCATTACGGC -GAGAGGAGATAAACAGCACCATAAAGTCCTGAACCGCACCGGCCAGCACGACCCCCGCCAGCAGCCACAGCGTGC -CAGGCAGGTAGCCCATCTGCGCGGCGAGAACCGGACCCACCAGCGGACCAGCACCGGCGATAGCGGCGAAGTGGT -GACCAAACAACACGTAACGGTTGGTCGGAACGTAGTTCAGACCGTCGTTGTTAATAACCGCAGGCGTCGCGCGCG -TGGGGTCGAGTTTCATCACCTTCTGGGCGATGTACAGACTGTAGTAGCGATACGCCACCAGATACACCGATACAG -AGGCGACCACGATCCACAGGGCGCTGATGTGCTCCCCCCGACGTAATGCAACTACCGCGAGGCAGAATGCACCGA -TGATTCCGAGAATCACCCAGGGTATGTGCTTGAATATCTTTTTAGTATCCATAGTAAAACCTGGCATGTATTGAT -TAATAGTTGGCCGAAGCCGTTCTAGGTTTGCGTTGCGTTTGAGGAGGTAAATTGACCGCTATCCTGTAGTGATGT -TGCCAGAGTTACGCGCGCGTAAAGTAAGGTAAATAACTGAGTGGTTATTTTAGGGATGTAAGCGGTCAGTTTTGC -GGTTGAGCGGCAAAGGCGTCGTTTAAGTGACGATAAATATGTGATTCATATCACATATTTATATTGTGAATAATT -TATGTAAATAATGGCTTTTTAAATTCAGAGTGTGAATAAAATTCACTCGGCGTAATCTCCGCGGGATATTCATAA -AGTTTTTCCTTTCCAGGCCGAAAATCTTGCATCGGTCCACAGGAAAGAGAAACCATGTTAAAACGTATCAAAATT -GTGACCAGCTTACTGCTGGTTTTGGCCGTTTTTGGCCTTTTACAACTGACATCAGGCGGTCTGTTCTTTAATGCC -TTAAAGAATGACAAAGAAAATTTCACTGTTTTACAAACCATTCGCCAGCAGCAATCCACGCTGAATGGCAGCTGG -GTCGCGTTGTTGCAGACGCGTAACACCCTCAACCGCGCGGGTATCCGCTACATGATGGATCAGAATAATATTGGT -AGCGGTTCAACCGTTGCTGAGCTGATGGAGAGTGCCAGTATTTCGCTGAAACAGGCGGAAAAAAACTGGGCGGAT -TACGAAGCGTTGCCGCGTGACCCGCGTCAGAGCACCGCCGCAGCGGCAGAGATCAAACGTAATTACGATATTTAT -CACAATGCGCTGGCGGAGCTGATCCAACTGTTAGGTGCAGGCAAAATCAACGAGTTCTTTGATCAGCCGACCCAG -GGATATCAGGACGGTTTCGAGAAGCAGTATGTGGCTTACATGGAGCAAAACGATCGGCTCCATGATATCGCCGTC -AGCGATAACAATGCCTCCTACAGCCAGGCGATGTGGATTCTGGTGGGCGTGATGATCGTCGTACTGGCGGTCATC -TTCGCCGTCTGGTTCGGTATTAAAGCCTCGCTGGTAGCGCCAATGAATCGCCTGATTGACAGCATTCGTCATATT -GCAGGCGGCGATCTGGTGAAACCGATTGAGGTGGATGGCTCTAATGAGATGGGGCAACTGGCAGAGAGTTTGCGC -CATATGCAGGGAGAGCTGATGCGTACCGTCGGTGATGTGCGCAACGGGGCCAATGCCATCTATAGCGGTGCCAGC -GAAATCGCCACCGGCAATAACGATCTCTCTTCGCGCACCGAGCAACAGGCCGCTTCGCTGGAAGAGACGGCAGCC -AGCATGGAGCAACTGACCGCAACGGTGAAGCAGAACGCCGAAAATGCGCGCCAGGCCAGCCATCTGGCGTTAAGT -GCTTCTGAAACGGCGCAACGCGGCGGTAAAGTGGTAGATAACGTGGTGCAGACTATGCGCGATATCTCCACCAGT -TCGCAGAAAATCGCCGATATTATCAGCGTAATTGACGGCATTGCCTTCCAGACCAATATTCTGGCTTTGAACGCG -GCGGTTGAGGCTGCGCGTGCGGGTGAGCAAGGGCGCGGTTTTGCGGTGGTCGCGGGAGAAGTGCGTAATCTGGCC -CAGCGCAGCGCCCAGGCGGCTCGTGAAATTAAAAGCCTGATTGAAGACTCGGTGGGGAAAGTGGATGTTGGCTCT -ACGCTGGTCGAAAGCGCCGGGGAAACAATGGCGGAGATTGTCAGCGCCGTGACCCGCGTGACGGACATTATGGGC -GAAATTGCTTCTGCTTCTGATGAGCAGAGCCGTGGTATCGATCAGGTTGGCTTAGCGGTTGCTGAGATGGACCGG -GTAACTCAACAGAACGCCGCGCTGGTGGAAGAGTCTGCCGCTGCCGCCGCCGCGCTGGAAGAGCAGGCCAGTCGC -CTGACCGAAGCAGTGGCAGTGTTCCGGATTCAGCAACAGCAGCGTGAAACATCGGCTGTGGTAAAAACCGTGACG -CCAGCTGCGCCGCGTAAAATGGCCGTGGCAGATAGCGAGGAGAACTGGGAAACATTTTAATCGCCATGAAAATGC -CCGATAAGCAAAATGTTATCGGGCATAAGGAGATTAATCTTTACGTGGGTCGTTGATCGGCTGACGAACCAGGAA -GATGTACGCCAGTGCCCCCGCTGCGGTGACGCAACCGCAGATGATTAGTGCCAGACGGAATGAGTGGGTGGTATC -AACAATAAAACCAGTAATGATCGGCGCAAAAGAGGCGCAGATGAAGCTGGCAAAGTTCTGGATACTGCCCACCGA -CGCAGTCATGCGAGAAGCAACTGCGACGTGGATCAAGCCCCAGCAGGATGTTCCGGCAAAGTGAATACAGAACAG -TGCCATGCCAATCAGCAGAACCGCCGTCATGGATGTTGTCGCTTGTGGTACTATCAGCGTAAAGGCGGCAGAACA -GAACATCCCGGCAATAATGCAGATCTTACGGCTTTTAATCGGAGCCATTCCCCCTTTGACCAGCCAGTCGGTAAC -GTAACCGTTGACCAGCATCCCGGCAGCCCCAAACAGGAAAGGGATAGCCGCCATCAACCCTGTGCTTTTTAAATC -CAGGTTATAGGCTGTTTGCAGGTAACCAGGAAGCCAGGCCAGATACAGCCACGCAGTGTAGTTGATGCCACTGAA -TCCGAGCATCATTCCCCACATTGTACGGTTACGGAACAGGCTGCGCCATTCGGCAAAACTGAGCGGATCTCGGCG -GGCATTGACGCTACCTGCATTGAGATAAGCTTGCTCAACGGCAGTCAGTTCTACGTGCTCGCGGTTGCGATAGAG -CATATACCAGCCGATGGCGAGAAAAATCCCCAGTACACCAATGGTAATAAACATCCCGCGCCAGCCCATCACCAG -CATCATCGCCGCCAGAATCGGTGGGCTTACGGCAACGCCAATGGTAGAAGCTGCGTTGAAGAAGCCCATCGGGCG -TCCGCGCTCTTTGATGTTGAACCAGTCGTTAATGACTTTTACACCGCATGGGTTCATCGGCGCTTCACCAATCCC -CATACCGATACGCACCAACACGAACTGCGTAAAGTTGTGCACCATGCCAGACATTGCCTGGAACAGTGACCAGAA -GAACATCCCCAGTCCCAGCATCAGGCGTGGGCCTTTACGATCCAATAGTGGGCCGCAAGGAAGTTGCGCAATCCC -GTAAGCGAGTGAAAACACGGAGAGCAAAGCGCCGATTTCGGTGGCACTTAATCCCAATTCTTCACGAATCGTTAA -ATTTGCTACCGACAGCGAACTGCGGTCGAGATAATTGATTACCGCCGCAAAAAATAATAACAACATGGCGGTGGT -TTGAATGCGTTTAATTCGGGTACTGCGTTGAACTAATCCATCTGGTGGCACGGGAATATCTGCCGACGAAGATGG -AGTAAATGAAGAACGCGGATCGATGGTGATATTTTCTTTTTCCACGCCGGACTCCTGTATTTATAATTTTAATTG -TTTACGTAATTGTGCATTACGCAAGGTTGACATTAACGGCAGGTTAAAGTTTTAGGACTTTACTACCGCTCACAA -AAACATTTTTAGTCGACTGATTGTGAGCATAGGTAAGCGGGAATTTCCCGGTATTTATCTTTTGATAAAACCGTG -CACCCGCTAATAGTTTGCTGTTTTTAATCCGTACTTAATGAGCATAACGCGTGTTCTCATTAATGGATCGAATCA -TTGATTGTTTAGCTGAATTCAAATGGTTACGGAGCGCAAGGGTGGCATCAAGGTCACTGCGGCAAATCAGAGCGC -TGAGAATGGTCATATGCTCATCGACGGCAATGATATTGCGCTGTTTAAGATCGCTTTCGTCCCATTGATAGTGAA -AATGAAAGATGACTGAGATGATCTCAAGCGATTGATCAAAAAAGATATTGTCGGCAGCTGAAAGCAGTAAGGAGT -GAAAATCTCTGTCAAGTTGCGAGAACATGCGAAAGCTATTGCCGATGTTGTCACGCAGTAGCCGATGACGTTCGA -GCATGGTTTTCGCCTGCAGCCAGCGGGGATCATGATCAGGCAGGTTGAGAAAGTGCTGAAGTGAATGTGTTTCGA -GCATTTCGCGTAGCTCAAACAGCTGCTCGGCGTAGGATTGATCGAATTGCTTCATGCTCCACTGGCCGCGCTTTT -CGCTGTGAATAAGATTATAACGGCCGAATTTTAAAAGATATTCTCTTACTACAACCGGGCTGACACCCGCGGCCC -GAGCCAGTTGCAGTTCAGAAAACGTTTCCCCTGGGCGTAACTGGCGCTGGTTTATCATCGTGAAAAAAGCCTGCT -CAAACACTTTGTTTTGTTCACTCATTGAAGCGGTAGTACAGGCGAAACCGTCATCATGGTCAGGTTTACGCGCAA -TAACATAGTCGTTTCCAACCTGCGTCAAGACGCCGCATTCGCGTAAGTGGCTGAGAATATGACGCACTGTGGTGC -GGCTGATGTTGTACATTTCCGCCAGCGCACTTTGCGATGGAAGTGGGGAAGGGATATGACCCCGCGCCATATCAT -CAATGACCTGGTTAATCACATTGTGGCGTAAATTTTGTGAACGACTCATATTTTCCTCCTTGTGAGTCCATTAAA -ACCCGATTTAAAACATTTTTATGCGTGTGTTTTCACAAAAAAGATTTTCCGTTCCGCTGCCATTTTTCATTTTCA -TTGATATCTAAGGCAACAAAAAGTGGAGAGCCGAATCATGTCTACGATGAATGTTTTAATTTGCCAGCAGCCGAA -AGAATTAGTCTGGAAACAACGCGAGATACCTATTCCGGGTGACAATGAAGCATTAATAAAAATTAAGTCTGTCGG -GATTTGCGGTACCGATATTCATGCCTGGGGTGGAAATCAACCATTTTTTAGTTATCCACGTGTTTTAGGCCATGA -AATATGTGGGGAGATTGTTGGGCTGGGTAAAAATATTGCTGATCTTAAAAATGGTCAGCAAGTTGCTGTGATCCC -TTATGTTGCCTGTCAGCAATGCCCGGCGTGTAAAAGCGGGCGTACCAATTGCTGTGAAAAAATTTCAGTCATTGG -CGTGCATCAGGATGGCGGTTTTAGTGAGTATTTGAGCGTGCCGGTGGCGAACATTTTGCCCGCAGACGGTATTGA -CCCGCAGGCGGCAGCATTGATTGAACCTTTCGCTATTAGCGCTCATGCGGTGCGTCGCGCAGCCATTGCTCCCGG -CGAGCAGGTGCTGGTGGTCGGGGCGGGGCCAATCGGTCTGGGCGCGGCGGCAATCGCTAAAGCCGATGGCGCACA -GGTGGTGGTGGCGGATACCAGTCCGGCGCGCCGTGAACATGTGGCAACGCGTCTGGAATTACCTTTACTGGACCC -GTCAGCCGAAGATTTTGACGCGCAGCTACGGGCGCAGTTTGGTGGTTCGCTGGCGCAGAAAGTGATCGACGCGAC -AGGTAATCAACATGCGATGAATAACACCGTGAATTTGATTCGTCACGGCGGCACGGTGGTATTTGTCGGCCTGTT -TAAAGGTGAGTTGCAGTTCTCCGATCCGGAATTCCATAAAAAAGAAACGACGATGATGGGCAGCCGCAACGCCAC -GCCGGAAGATTTTGCTAAAGTCGGTCGACTGATGGCGGAAGGAAAAATCACTGCTGACATGATGTTAACCCATCG -CTATCCGTTCGCCACGCTGGCAGAAACCTACGAGCGCGATGTGATTAACAATCGTGAGTTAATTAAAGGCGTAAT -TACTTTCTGATAAGGCGAGATTATTAAAGTTGCCATGCAGCGTCCGGGGAAGTGTTGGGCGCTGTTTTTTTTGTT -TCTTAATAATGTGTTGTAAGCCGTAGAAGGCGTGTAGGTCGCACCCTATGCGACCTACACATCAGTCAGGAATTA -CCCTTCACGTTCTACCACTTTAATTTCCACCATGCCGATCCCGAGCTTACGCGGCGAGTGTCCGAGGATATTCCC -TTCGTTGGTTGAGACAGGTTCCGGCGGCACAATTACCAGTGTGTCGGCATCGGTTGGGTTATCGAAATGCAGTGT -GGTGGTGGTCACTTCATTGCCCAGCACAAGAGTTTGTTCTTCATTGCCTACGCGTACCGGAATAGGACGGCTGGC -GTTATTGCCGTATGCTTTGGCGGTAATCACCAGGTCAAATTTCTTCGGCAGCGGATGCTTGTACTCGATTTTTAC -TTCATCGCCCAGCTGCGCGTTGGACCAGCGGCCCCACGACTCCGGACGGGAAATCCCGCTAAACTGTTTCACCTC -TTCTGGCGCACCGGCGACGTTAAAGATGAAACTGTCGGCTTTGTAGCGAATATCGTTATCAACAATCTTCAGCGT -ATCGACATTGCCTTTGTAACGCGCCATGTCGATGACCGTATCTTTAAATGCCGTTTTGCCCTGCCATGTTGTTTT -GTCAACATGCTGAACAATTTGCTGACCGCCAAGCTGCCCTTGCGAGACACACCAGTCGGTGGAAAGTGCCAGTTC -CGGAGCCCAGAGTTGTGCCATCTTGTAGCAACGGTCAACCCAGACGAAATTGTCGCGTGGAGCGAAATCGGCCAG -CTGGAAACGCAGCGGTGCTGAGTATTCGCTTTCCGGCAGCGGTTCCACGCGTTTGTCTGAAACCCGCAACAGCAG -CGGCAAACGGAAATGGCTACCCGAGAAGGCAATCATGTTTTTCTGCTGGTCGATGGTGAACTCTTTCATCTCTTT -AGGGAATTTCCACAGGCGGATGATATCTGGCTTCCACGCCAATGTTTTCTCTTTGATATTGAGGAAGATTTCCGA -CATCGACTGCCCGGATAAACTGCTACGACCAAGTCCGAGATAGTTATCGCCACCGAGAATGTCCAGCACCGTCGC -GCCGTTATCCATCGTGTTACGCTTCACTGCCAGCGTCTCTTGCTGCGGCTTGTCGCCACGAATGACAAAAAACAG -GTTATTGCGATCCTGCTTATTGAGGTATTTCCACGCCGTGTTGTTCATCGCTAAATGGTCAGAAGAGACGACGAT -GACGGTATCTTTAAACCACGGTGACGCTTTGATTTTGTTGATAAACGTCGCGATGTTCTCCTGGCTGCAACTTAC -CGCGCTGAATGACTGATTCGGTTTACCGTCAAAATCATATTTTTTGCGGTTACAGGTACGAGAGATAAAACCATC -CGGGTGATGGGTATCGACTGTCAGGGTAAACAGTGAGAATCGCTGACCTGAGCGGGAAAGCTCTTCAAACTTTTT -CCACGCTTCATCGAGAACGGTATCGTCGTAGAATCCCCAGTCGTTGCGATAGTGCGGGTCGGCTACCACGCTTTT -CAGCTCTTCTGAGCCGTATAAGTGGTCGAAGCCATGCGACTTCAGGAACACATCTTTACCGGCAAAACGCAGATT -CGCGCCCTGCACGAAATAGTTCTGATAACCCGAGTTTTTCAGGATATCTCCCAGACAGATGTTCTGCGGGAAGAA -GCTGGAGACAGAGGCGGAGGCGTTGCCTTCAAAGGGGGCAAACAGCGGTATGCCGCACTGAGAAGCCACCATGCC -CGCAATCGTGTAATCTGTTCCCGGCAGCTGCTGCGTGTGGCTGAAATCCAGGCCTTCATTTTTCAACGCGCCCAG -TTCAGGCGTGAGATCCGGGAAAGCCTCGTTATCAAAATAGGTCCGCTCGAGACTTTCGCCGTAGATATAAACCAG -GTTGAGTTTCGGGTCAGGGATAGTTTTCGACGGCTCTTTATAATAAGCCGCAAAGTCCGGGTCGCCGTCGCGTGA -CTGGGATTTCACCAGTTCCGTTATCTGACGAAATGCCGGGCTGGCGTCCACCGAACCCAGCGCCAGTAAGAGCGC -CAGCAGGCTGTAACCAAAATGGTGCGGATGATGGCGACGACGGCGCAGGATCCAGCCCAGCGCACCGAACACCGC -TGTCAGCCCCAGCACAATGCCGATACCCGGCAAAATGTATTTGCTGACGCCAGCACCGGTCAGGCTGTTGGTTAA -GGTATAGAGAACCGCGTCGTTAATACCATCGCCAGTAAAATAGTCGCTGGCAAACAGGGTGATATTTAAAACGAC -AAATAGCCCCAGCACCGTTAACGTGGCTGCAAACCACCAGGTGTTACGTCCCGCTTTCCATGCGTAAATCAGCAC -AGAGGCGAGAAAAAGGGCGAAAGAGAGTAGTTCTGACAACGGGCGATCCTCACTAAACCGGGCCGTTTAGCCAAC -GTTTAAGCTTTTTGAGAAGCACAATGTAATGGCGTCGCCATATTGCTGCAATTCTAGTGTCAAAAAAATGCGATG -TTGTTAGGAATTAGTTTATAAACAGACTTTTTTGATTACGGTCACTTCCCGTGTAACAGGGGTAAAACCGTCCAG -GAGCAGGGAAAAGGGCAGGAGAGAGCCGCGTCAGCCGGGTAACAGCTAAAACGCGGCGTTTCGCGGTTCAGGAAA -TGAAGTTCAGCCCCTGTTTTAACACCAGATCGCAGGCTTTGGTTTTCACCTTTTCTGCCAGCGGAGTTGTTCCGA -TGTTATCCAGATTGAGTTGCTGACCATCTTTGGTTTTCAGCAAACCCTGAATGCCGTCCAGATAGTTGGTGTCTT -CTTTTTGCTCTTCACTGTTCAGGCCCAGCTTTTCCAGCACCTGGTTCTTGATGTTTTCGGCATCGGTTACCGACG -CCAGCTTTTGCTTCGCGCAGTATTGCAGAATGCCTGCGGCATTGTTCATGTTATCTGCGCTTAAGGCCTGGTTTC -CGCTGCTAAGCAAGTTAGTTAATGACGCGAGCGACCAACCGCCTTCCTGTGTCGTGCTGTTTTGGTTGCCAAGTT -CGCTGGCGGCGCTGGAGAGCGCATCTTTCCAGGACGCAGCATGCACCCCGGTGGAAATTAATGCGCTGGCGGCAA -TGGCACAGCACAGAAGATGTTTAACAGTTTTCATCATCATTACTCAAGGTGGAATTGTGTCGCAGTATACCGCCA -GAAACGGGGATTAATACTCTTTACCTGTTACCCGGCTACGGTAGCTATCCCAGTTGAAGATCACCCACAAACTGT -TACCCAGGCGCATACGGTCCATCACGCGTTCGCCCAGCAACTTGGTCATCTCTTCCATATTACTGTTGGTCAGCA -TCCCGGTTGGGCGTTTGGAAGAAGAGCGGCGATCGACGATCTGGTTGATGATCACTTTTTCGTATTTCGATTCGG -TCTGCACGCCGATCTCATCGATCACCAGCAGATCAACGTTGCTCAGATCGTTAAGCAGTTGTTCTTCGCTGGTAC -CGCTATTCCTGAAGGTATCTTTCATCGCCGACATAATATCGGCCACGGTGATGATCAATACGGATTTACCGCGTA -GCAGCAGCTCGTTGCAGATTGCCGCCGCCAGATGGTTTTTGCCGGTTCCTGGCTTACCAGAAAAGATGAAGCTGG -CGATGTTGCCGTCAAACTCTTCGACATACTGGCGCGCTTTGCTTAACGCATTCATCTGCCCTTCACACTCAACGC -GATAGTTCTCAAAGGAACAGTTCTGATGCAGTGGACGAATACCGGAGCGGTTAAAGGTGCGCTGCATTTTCATCG -CCCGATTTTCACGTTCGAGAGCGGCGGAGCGGATCGCTCCTTGTTCTTTTTGCCAGGCCAGTAGTTCTTCACCCG -TTTTGAATGCGGGTTTGATATGGGCAGGCATCATTTTTTGCAGGCGTTGCATCAGGTCGCCAACGTTTTTCATCG -TTACCCTCTGAATCCTGGTGGAATTTGGCTGTCAGGTTCGCTGACCGTATTCACATCTCGTTTCGGCAGTCCGCC -GTTGCTGGCACGACCGATTTGCAGGCTGCGCGCCAGTTTTTGTTGCCACTGCACATGGTGAAAGACTTTACCTTC -CGCCTGCCAGTAGGCAATGAATGAGGCCAGTTCTTCGGTGGTCACCGGCTCTCTTAGCGCCACGCCCCATAGCGC -CGCCAGGCGGATAAAATCGGCATCGGGTTGCCAGTCCGGATACATGGCGAATTTCCCCATGGGTACAGCAACGGG -AGCGGCTTGCGGTTCCTGATAGAGTTGATCGTCCAGAGCGACATCGCTTCCCGGACGCGCCAGCTTTTCTTCCAG -CGCCAGCAGTTCAGCCAGGCGTGCAGGCGTGACGGCATAAAACGCCGGGGCATTGTTAGCAAATACGGCAACCAC -ACCGCCTTCAGCTTTTGCCAGAACGGTTTGGTGATCGTGTACCAGGGCGTCAATACCAACGACGTCCGGGGTCAA -AACTCTGGAAGACATACTGTTTCTCAAATATGGAACGATGAACGAGAAGGGAGATAACTTTTATAGTAACACACG -GAGGAGAGGAGGCTGTCTCTCATCCGTGTGCTTAAGCGAGGCAATTTTATACGCGAGGGCGCTTGCGGTACAACC -ATAATCCAGGAATGGAAAGACCGATGGATAACGCACCAACAATCGATGAAGCTGTAAGAAAGTTGGTTAACAGGG -TAATCATCAACGGTTCGCTGTAACCTAACTGGCTGATTTTTACCGCCGAAATCATTGCGGTATAAGCCGATATGC -CCGGGAACATAGGGATAACGGCCGCCACGGTAAACACTTTCGGATGCGCCAGATACCAGCGCGACCATTGAATAC -CAATGGTACCGACCAGCATAGAAGCCATAAAGGTTGACCACTCAATATTCAACCCGCTGGTCATCAAGATCATTC -GGGAACCATGACCTATCGAGCCAAGCAGCGCACACCAGCGTAACGCCCGCACGGGAACGTTGAACACCATCGCAA -AGCCGACCGCAGGAATGGCGGCGAGGATCATATCCTGCGCCAACGCTAACAGAAATTCGATCACACCCATCCGCG -TAGCCCCCAAATCGTCAGTGCCATCACTACGCCGACGCAGGTAGCCAGTGTCAGCAGACTGGCGATCGCCCAGCG -TGCCAGTCCGGTATTGATGTGGCCTTTAAACATATCGGCGACGGCATTAATCAACGGAAAGCCCGGCACTAGCAG -CAGAACGCTGGCGGCCATCGCAATGGTGGGGGTATTGCTGAAAGTGGGGAGTTGCAAAAGCAATCCGGAAATGGT -GGTGGCGGCGAAAGCGGTAAGGCAAAAGTTGATCTGTGGATGAAGATGACGTTGTGCCAGCAGCTGGCGGATATA -CATCGCGGTCGTACTGGCAAAGAAGGTGATGACGGCACCATCCCAGCCACCGTTATTGAGTTTACAGAAACAGGC -GCAAGAAAGGCCAACCATTAAGGCTACCAGCCATCTTGGGTAACGTAATGGCTGAATTTGGCTAAATCGTTTCTC -TACGCCTTTGTAATCCAGCAGATGATGCTCCGCAAGAATCACAATGTGCTGGACTTCAGTCACCACATGCATATT -AATGCCGCGATCGTGATTTTTACGTGTCGATGTCAGGCATTGCCCATCTTTAATAGTTGTCAGCACTATGGCGTT -CGAAGAGATAGAACTTTCGACGCTGTCCATTCCCAGTGCCCGACCCAGTCGTGAGGAAAGCTCATCAACCAACGC -GCTTTCCGCACCATGTTGCAAAAGAAATAATCCACACTGGATACAAAGCCGTGTTACGGCTCGCTGTTGCTCAGT -TTGCATAACTCGCCCTTTGTCATAGACGTGCTGCGTATTGTTCAGATAATGAGAATCCATTTGTATCATGAAGCA -CGGTTGTTTTGCGGTAGGTTAAGATCAAAATTGCGCTGATTAATCCTGGTTATCGGGAGAAGCTCGGTGATAAAA -AGCGAATTATCTCTCGCCGCAAACAAACTATCACATGAATATTATCATCATAATGAATTTATTGTTTGGCCTTTA -CGAATCAGGATAATAGATAACCGGGCACGTTTTTTAATGTTAACAAGCTAAAACCATCAGATTTCATTGAATAAA -TATTGGTTGTGTGATTTTGCATTCTGCGGGAAGGGATATCATTTAATTATAAATTAAATGAATGTGATTTCTGTT -TTTCATTAAGTATTCCTAACAACTTAATGTAGATATTTTAAATGTCTCCAGGCTATTTCACCAGGTTATCATTTG -ATGCTAACCTTCTGACACATGCAGTGGAGTTGTTGTGCAGCAGGAGTATGCTGATATGAAAGTGAATGCTAAGGA -TAATTTATTCGCTTAATCTATTAATTTGCTGGAAACATTTAAGGAATGAATATCCTGAATAAACCATCATAATTT -TTAGACAGTGGATGTGGAGGAAATATGTTGCCAGGATGCTGCAAAAATGGAATTGTTATCAGTAAAATACCTGTT -ATGCAAGCAGGGTTAAAAGAGGTCATGAGGACTCACTTCCCTGAATATGAAATAATATCCAGCGCCTCTGCGGAG -GACCTTACCTTATTACAATTACGTCGTTCCGGATTAGTCATTGCTGATTTAGCCGGTGAAAGTGAAGATCCACGT -TCTGTTTGTGAACATTATTATTCTTTAATCTCACAATATCGGGAAATTCACTGGGTTTTCATGGTGTCACGCTCC -TGGTATTCCCAGGCAGTAGAACTGCTCATGTGCCCTACGGCGACGTTATTGTCTGATGTTGAACCCATTGAGAAT -CTGGTCAAGACCGTACGTTCCGGCAATACGCACGCAGAGCGTATCAGCGCCATGCTGACCTCCCCGGCAATGACT -GAAACTCATGATTTTAGCTATCGCTCCGTCATTCTCACTCTTTCAGAGCGCAAGGTACTGCGGCTATTAGGTAAA -GGATGGGGCATCAACCAGATAGCTTCATTGCTTAAGAAAAGTAATAAAACTATCAGCGCCCAAAAAAACAGTGCG -ATGCGTCGACTGGCAATTCACAGCAACGCTGAAATGTATGCATGGATAAATAGCGCGCAGGGTGCAAGAGAACTT -AACTTGCCTTCTGTTTATGGAGATGCCGCAGAATGGAACACAGCCGAATTAAGAAGAGAAATGTCGCACTCATAG -AAAAATGCGTCATGAGTAGTATCGGTATTGAGAGTTTATTCAGAAAGTTTGCGGGTAACCCTTATAAGCTCCATA -CCTATACCAGTCAGGAGTCATTTCAGGATGCCATGTCGCGGATCTCGTTTGCGGCGGTCATTTTTTCTTTTTCTG -CCATGAGAAGTGAGCGCAGAGAGGGATTATCTTGCCTGACTGAACTGGCGATTAAGTTTCCGCGTACCCGGCGTT -TAGTTATTGCGGATGATGATATTGAAGCTCGGCTGATTGGTTCATTGTCGCCATCACCGCTGGACGGTGTATTAA -GTAAAGCGTCAACGCTGGAGATTTTTCATCAGGAACTCTTTTTGTCATTAAATGGTGTACGTCAGGCGACCGACC -GACTGAACAATCAGTGGTACATTAACCAAAGCCGGACGTTAAGCCCGACGGAGAGAGAAATATTGCGCTTTATGT -CGCGTGGCTACTCAATGACACAAATTGCCGAGCAGCTTAAACGCAATATCAAAACGATCCGTGCACATAAATTTA -ATGTGATGTCGAAACTGGGCGTCAGTTCTGACGCAGGGTTGTTGGAGGCCGCAGATATTCTGTTATGTATGCGGC -ATTGCGAAACAAGTAATGTGTTGCATCCCTATTAATCCGCATGATGCCGGGTTTACTTCCCCGGCAGTGCTTTCA -TTTCAGCGTACAATCGCCACATTGCTGCACATCCGGTAAGCGATAACGCTGGCAGCAAGTGCGGCGCACCAGCAG -GCCGTCGCGCAGTACCACGGTACGCCAGAGTGGATTATCTTCACCGTTCGTGAGCGTTTTCTCAAAAAAGAGGGC -ATGGCGCAGCGATTCAACAGTAGCCTCGCCGAGCAGTTGCTTCATCTCAGTGAGATACCAGTTGATCAAATAACC -GGTATTACTCCAGATAAGTTTGCCGTTGATCTCTCCGGTCGCTTCTAGTGCTTGCACAACCGGAACCAGCGCCTG -GCTGATTAACGTTTCCATTCGATGCTGCGGCGAATGTGGTGTTGCGTTTTTATCTTCACACACATCGACCCAGAA -ACAGGCGACGCGTCCGGTTTCGTGAAACTCAGCATGGAAATGTTCCGGCGACACATCTAATGCCTTTTCCTGCGT -CAGTAGCGCCAGCATTAATGGTGGCACCATCAGGCCGATATACCATTGTGCCCATAGTGAGATCAGCGGTTTGTT -CTCGCGGATCATCATCGGTTGGTTGCGATAGATATGATCGGAATAGACCGCCAGCAGAGAACTTAGCACATTCGG -TGATGACCATTGCGCCAGCGTCATGGCGTTAAGTGGGGCAGGTTCATCCAGGCGGATAAACTCCAGCAAATGTTC -ACGATGTTTTGCGATCGTCGCCCGCACGGCTTGCGCAAGCGTGGGATCCTGCGGCTGGAGATGCGTTCGCCAGAT -GACATCTTCATAGAGCGGTGCGGAACGATAGGCCATAATCGGGATAGTAATCTAAATGATAATGATTGCTAATCA -TAGCGATAGGTTTACCCGATAGCAAGGGATTTATCTGGCTTGCAAATGATAAAAATTATCATATGATATTGGTTA -TCATTATCAATGAAAGAGATGAAATCATGTTGCAACGTACGCTGGGCAGTGGCTGGGGAGTGTTGCTGCCGGGAT -TGCTGATTGCAGGGCTGATGTATGCGGATTTATCGTCAGATCAGTGGCGGATTGTCATTCTGATGGGATTAGTAT -TGACGCCGATGATGCTGTATCACAAACAGTTGCGGCATTACATTTTGCTACCATCGTGCCTGGCACTTATTGCTG -GCATCATGCTGATGATAATGAATTTGAATCAGGGATGAAAAATCAAGGAAGAAACAAGAAAGGAAGTAAAGATAA -TTGGTGCGAGGGGGGGGACTTGAACCCCCACGTCCGTAAGGACACTAACACCTGAAGCTAGCGCGTCTACCAATT -CCGCCACCTTCGCACAGTCATCTTACTTTTTTTGATATCGCCTCGTTTGGTGCGAGGGGGGGGACTTGAACCCCC -ACGTCCGTAAGAACACTAACACCTGAAGCTAGCGCGTCTACCAATTCCGCCACCTTCGCCCAGTGCGAGCAATAT -CAACGTGGTTTTTGGTGCGAGGGGGGGGACTTGAACCCCCACGTCCGTAAGGACACTAACACCTGAAGCTAGCGC -GTCTACCAATTCCGCCACCTTCGCATACCATCAATTCTTAAAAAGAATTGCTACCACGGAGGCGCATTCTAGTGG -TTTTCAGCTTTTCGTCAATAGTTAATTATCGACAGAGGTGTAATTGCTGGAAAAATGTCCATCAGGAAACTAGCG -TGCAGGTTTGGTATGCATGCGGGGGCAGATGCCAGATGCGACGCTGGCGCGTCTTATCTGGCCTACGAAGGGCTA -ACGTGCAGGTTTTGTAGGTCGGATAAGGCGTTCACGCCGCATCCGACACGGTATTCGGCGAGATAATTAACCTTT -CTTCGCCTGGCGGGTCATAATGGCGCGATACACCTTGAAGCGCCCTGTTTGCGCGATCACTTCGTGGAAGCCAAA -TGTCTCATCCAGCACGTCCGGATAAGGCAGGAAGGCGTTCGCTACAATTCGCAGCTCGCCGCCGCTATTAAGATG -ACGCACCGCACCGCGAATCAGCGTTTGCGCCGCATCCAGGCTGGTTTGCATCCCATCGTGGAACGGCGGGTTGGA -GATGATCATATCAAAACGACCTTTCACCTCGGAAAAGACGTTGCTGGCAAAGACTTCACCTTCAACACCGTTGGC -CGCAAGTGTTGCGCGGCTGGCTTCTACCGCCGGGGCAGAGACATCGCACAAGGTGAGACGAATTTTCGGCGAATG -GCGCGCAAAGGCAACTGAAAGCACGCCCGCGCCACAGCCGACATCCAGCACTTTACCTTTCGTGTGCGGAGTTAA -CGTCGAGAGCAGCAACTGGCTACCGACATCCAGACCGTCGCGGCTAAACACGCCAGGCAGCGTTTTGACCGTCAG -GCCATCGACGCTGTATTCGCCCCAGAATTTCTCCGCATCAAATACCGGCTGTTTTTCCAGACGACCAAAATAGAG -GCCACAGCGACGAGCGCTGTCGACTTTATTCAACGGCGCATAATCTGCCAGCATCTGCTCGGCGCTGCGCACGCC -GCTGCGGTTCTCGCCAACGACAAAAATATCTGTCCCCACTGGCAGCAGAGAAAGTAAATTCATCAACTGGAACTG -GGCTTCCGGTTTGTTCTTCGGCCAGTAGTAAATCAGCGTATCGCAATCTGCGACGTCATCCGCCGTGGCGACCAG -ACTGAAACGGGCGTTATCCCCCATCTGGCGGCTTAATACCTGCCAGTGGTGGAATTGCTGGGTATGAGCACGGCT -GGCCGCGGTATCTAAACGCGCGGGCAGGTCATCCTGTAAGTCTCCGGCAAACAGAATACGGCTTTGTTCGAAATC -ATCACTGTGACGCAGCAAGACTTCACTTGCCGGGGTAAATGCAGACATGGAATGCTCCTCAATTGATACTGGCGG -CGATTATAGCCATATGTTGGCGCGGTATCGACGAATTTGCTATATTTGCGCCCCTGACAACAGGAGCGATTCGCT -ATGACATCCCGACGAGACTGGCAGTTACAGCAACTGGGCATTACCCAGTGGTCGCTGCGTCGCCCTGGCGCGTTG -CAGGGGGAGATTGCCATTGCGATCCCGGCACACGTCCGTCTGGTGATGGTGGCAAACGATCTTCCCGCCCTGACT -GATCCTTTAGTGAGCGATGTTCTGCGCGCATTAACCGTCAGCCCCGACCAGGTGCTGCAACTGACGCCAGAAAAA -ATCGCGATGCTGCCGCAAGGCAGTCACTGCAACAGTTGGCGGTTGGGTACTGACGAACCGCTATCACTGGAAGGC -GCTCAGGTGGCATCACCGGCGCTCACCGATTTACGGGCAAACCCAACGGCACGCGCCGCGTTATGGCAACAAATT -TGCACATATGAACACGATTTCTTCCCTCGAAACGACTGATTTACCGGCGGCTTACCACATTGAACAACGCGCCCA -CGCCTTTCCGTGGAGTGAAAAAACGTTTGCCAGCAACCAGGGCGAGCGTTATCTCAACTTTCAGTTAACGCAAAA -CGGCAAAATGGCGGCGTTTGCGATTACGCAAGTGGTGCTGGATGAAGCTACATTGTTCAATATTGCGGTCGATCC -TGACTATCAGCGTCAGGGATTGGGAAGGGCGCTGCTGGAACATCTGATCGACGAACTGGAAAAACGCGGCGTGGC -GACACTATGGCTGGAAGTCCGTGCTTCAAACGCTGCCGCCATTGCCCTGTACGAAAGTTTAGGCTTTAACGAGGC -GACGATTCGCCGCAATTACTACCCCACCACGGACGGTCGCGAAGACGCCATCATCATGGCGTTGCCAATCAGTAT -GTAATACAAGGTGGAATAATGAAGTGGGACTGGATTTTCTTTGATGCCGATGAAACGCTGTTTACCTTTGACTCA -TTCACCGGCCTGCAGCGGATGTTTCTTGATTACAGCGTCACCTTTACCGCTGAAGATTTTCAGGACTATCAGGCC -GTTAACAAGCCACTGTGGGTGGATTATCAAAACGGCGCGATCACTTCATTACAGCTTCAGCACGGGCGGTTTGAG -AGCTGGGCCGAACGGCTGAACGTCGAGCCAGGTAAACTCAACGAAGCCTTTATTAATGCGATGGCGGAAATCTGC -ACGCCGCTGCCGGGCGCGGTTTCTCTGCTTAACGCCATTCGTGGCAACGCCAAAATCGGCATCATCACCAACGGC -TTTAGTGCCTTGCAACAGGTGCGTCTGGAACGCACGGGCCTGCGTGATTACTTCGATTTGCTGGTGATTTCCGAA -GAAGTTGGCGTTGCCAAACCGAATAAGAAAATTTTCGATTATGCGCTGGAACAGGCGGGCAATCCTGACCGTTCA -CGCGTGCTGATGGTTGGCGACACTGCCGAGTCCGATATTCTCGGTGGCATCAACGCCGGGCTTGCGACCTGCTGG -CTGAATGCACACCATCGCGAGCAACCAGAAGGCATCGCGCCCACCTGGACCGTTTCTTCGTTGCACGAACTGGAG -CAGCTCCTGTGTAAACACTGATTGCCTCCCCCCCGTTGATGGGTAAAATAGCCGCAATTTTTCGTTTTCAACAAG -CGCGGCGCGATGCCGCTTACTCAAGAAGAAAGAATTATGACGTTGTCTCCTTATTTGCAAGAGGTGGCGAAGCGC -CGCACTTTTGCCATTATTTCTCACCCGGACGCCGGTAAGACTACCATCACCGAGAAGGTGCTGCTGTTCGGACAG -GCCATTCAGACCGCCGGTACAGTAAAAGGCCGTGGTTCCAACCAGCACGCTAAGTCGGACTGGATGGAGATGGAA -AAGCAGCGTGGGATCTCCATTACTACGTCTGTGATGCAGTTTCCGTATCACGATTGCCTGGTTAACCTGCTCGAC -ACCCCGGGGCACGAAGACTTCTCGGAAGATACCTATCGTACCCTGACGGCGGTGGACTGCTGCCTGATGGTTATC -GACGCCGCAAAAGGTGTTGAAGATCGTACCCGTAAGCTGATGGAAGTTACCCGTCTGCGCGACACGCCGATCCTC -ACCTTTATGAACAAACTTGACCGTGATATCCGCGACCCGATGGAGCTGCTCGATGAAGTTGAGAACGAGCTGAAA -ATCGGCTGTGCGCCGATCACCTGGCCGATTGGCTGCGGCAAGCTGTTTAAAGGCGTTTACCACCTTTATAAAGAC -GAAACCTATCTCTATCAGAGCGGTAAAGGCCACACCATTCAGGAAGTCCGCATTGTTAAAGGGCTGAATAACCCG -GATCTCGATGCTGCGGTTGGTGAAGATCTGGCACAGCAGCTGCGTGACGAACTGGAACTGGTGAAAGGCGCGTCT -AACGAGTTCGACAAAGAGCTGTTCCTTGCGGGCGAAATCACTCCGGTATTCTTCGGTACTGCGCTGGGTAACTTC -GGCGTCGATCATATGTTGGATGGCCTGGTGGAGTGGGCACCTGCGCCGATGCCGCGTCAGACTGATACCCGTACC -GTAGAAGCGAGCGAAGATAAATTTACCGGCTTCGTATTTAAAATTCAGGCCAACATGGACCCGAAACACCGCGAC -CGCGTGGCGTTTATGCGTGTGGTGTCCGGTAAATATGAAAAAGGCATGAAACTGCGCCAGGTGCGCACTGCGAAA -GATGTGGTGATCTCCGACGCGCTGACCTTTATGGCGGGTGACCGTTCGCACGTTGAAGAAGCGTATCCGGGCGAT -ATCCTCGGCCTGCACAACCACGGCACCATTCAGATCGGCGACACCTTTACCCAGGGTGAGATGATGAAGTTCACC -GGTATTCCGAACTTCGCACCAGAACTGTTCCGTCGTATCCGCCTGAAAGATCCGCTGAAGCAAAAACAGCTGCTC -AAAGGGCTGGTACAGCTTTCCGAAGAGGGCGCGGTGCAGGTGTTCCGTCCAATCTCCAACAACGATCTGATCGTT -GGTGCAGTTGGTGTGCTGCAGTTTGATGTGGTGGTAGCGCGCCTGAAGAGCGAATACAACGTTGAAGCAGTGTAT -GAGTCAGTCAACGTTGCCACTGCCCGCTGGGTAGAATGTGCAGACGCGAAGAAATTCGAAGAGTTCAAGCGTAAG -AACGAAAGCCAACTGGCGCTTGATGGCGGCGATAACCTCGCTTACATCGCTACCAGCATGGTCAACCTGCGCCTG -GCACAGGAACGTTATCCGGACGTTCAGTTCCACCAGACCCGCGAGCATTAATTCTTGCCTCCAGGGCGCGGTAGC -CGCTGCGCCCTGTCAATTTCCCTTCCTTATTAGCCGCTTACGGAATGTTCTTAAAACATTCACTTTTGCTTATGT -TTTCGCTGATATCCCGAGCGGTTTCAAAATTGTGATCTATATTTAACAAAGTGATGACATTTCTGACGGCGTTAA -ATACCGTTCAATGCGTAGATATCAGTATCTAAAGCCGTCGATTGTCATTCTACCGATATTAATAACTGATTCAGA -GGCTGTAATGGTCGTTATTCATCACTCATCGCTTTTGTGATGGCGACCATTGACTTCTGTAGAGGGTGAAGTCTC -TCCCTATTCAGCAATGCAACCTCGTGTTGCCAGGCTCAAATTACGAGCAAACATACAGGAATAAATCGATGACTA -TGACAAGACTGAAGATTTCGAAAACTCTGCTGGCTGTAATGTTGACCTCTGCCGTCGCGACCGGCTCTGCCTACG -CGGAAAACAACGCGCAGACTACCAATGAAAGCGCAGGGCAAAAAGTCGATAGCTCTATGAATAAAGTCGGTAATT -TCATGGATGACAGCGCCATCACCGCGAAAGTGAAGGCGGCCCTGGTGGATCATGACAACATCAAGAGCACCGATA -TCTCTGTAAAAACCGATCAAAAAGTCGTGACCCTGAGCGGTTTCGTTGAAAGCCAGGCCCAGGCCGAAGAGGCAG -TGAAAGTGGCGAAAGGCGTTGAAGGGGTGACCTCTGTCAGCGACAAACTGCACGTTCGCGACGCTAAAGAAGGCT -CGGTGAAGGGCTACGCGGGTGACACCGCCACCACCAGTGAAATCAAAGCCAAACTGCTGGCGGACGATATCGTCC -CTTCCCGTCATGTGAAAGTTGAAACCACCGACGGCGTGGTTCAGCTCTCCGGTACCGTCGATTCTCAGGCACAAA -GTGACCGTGCTGAAAGTATCGCCAAAGCGGTAGATGGTGTGAAAAGCGTTAAAAATGATCTGAAAACTAAGTAAT -TCGTCGTAATTCGTCCTCCCGAACTTTGTCGGGAGGCGCGATGTGCACCACACTAAAAATATCGCATTGAGTGAT -TTTCACGCTCATATCAAGCGGTGACATTAACTATGGTAAAGGAGACGCTTATGTTTCGTTGGGGCATCATATTTC -TGGTTATCGCGTTAATCGCCGCCGCACTTGGGTTTGGTGGTCTGGCCGGTACCGCTGCAGGCGCAGCTAAAATTG -TCTTTGTCGTCGGGATTATTCTGTTCCTGGTGAGTTTGTTCATGGGCCGAAAACGACCCTAGATTTCAGACCATT -AAGAAAATTTTATCCAAAGCCAGTCCAGCGGACTGGCTTTTGCGGTTTTAGCGAATAATAAATTGCGTTACTTTG -TCATTCTTTCACAACAAAAACAGGAAGGCAGAGGTGGGGCAGCGAATACCTGTAACGCTTGGTAATATTGCGCCG -TTGTCGCTAAGGCCGTTCCAGCCTGGACGAATAGCTCTGGTGTGCGAAGGCGGCGGACAGCGTGGAATTTTCACG -GCTGGCGTGCTGGATGAGTTTATGCGCGCGCAGTTTAATCCTTTCGATCTTTATCTCGGCACATCTGCCGGGGCG -CAGAACCTCTCGGCGTTTATCTGCAATCAGCCCGGTTACGCGCGCAAAGTCATCATGCGCTATACCACAAAACGC -GAATTTTTCGATCCATTGCGCTTTGTCCGTGGAGGAAATCTTATCGATCTCGACTGGCTGGTGGAGGCCACTGCA -AGCCAGATGCCGTTGCAAATGGATACCGCCGCGCGGTTGTTTGACAGCGGCAAATCGTTTTATATGTGCGCCTGT -CGTCAGGATGACTACGCGCCGAATTACTTTTTACCAACCAAACAAAACTGGCTGGATGTGATTCGCGCCTCCAGT -GCGATACCTGGCTTTTATCGTAGCGGAGTGTCGCTGGAAGGCATTAACTACCTGGATGGCGGGATCAGTGATGCG -ATTCCGGTTAAAGAGGCGGCAAGGCAGGGCGCTAAAACGTTGGTCGTCATTCGCACTGTGCCGTCACAAATGTAC -TACACGCCGCAGTGGTTCAAACGCATGGAACGCTGGCTGGGTGACAGTAGCCTGCAGCCGCTGGTCAATCTGGTG -CAGCATCATGAAACCAGCTATCGTGACATTCAGCAATTTATTGAGAAACCACCGGGCAAGCTGCGGATATTCGAA -ATTTATCCGCCGAAGCCATTACATAGTATCGCGCTTGGCAGTCGGATTCCGGCGCTGCGTGAAGACTATAAACTT -GGGCGTTTATGCGGTCGTTATTTCCTCGCCACGGTTGGCAAGCTATTAACTGAAAAAGCGCCGCTTACCCGCCAT -CTGGTGCCAGTGGTGACGCCGGAATCGATTGTCATTCCGCCTGCGCCAGTCGCCAACGATACGCTGGTTGCCGAA -GTGAGCGACGCTCCGCAGGCGAACGACCCGACATTTAACAATGAGGATCTGGCTTGATTTGCCGTTTTATCGACA -CCCACTGCCATTTTGATTTCCCGCCGTTTAGTGGCGATGAAGAGGCCAGCCTGCAACGCGCGGCACAAGCGGGCG -TAGGCAAGATCATTGTTCCGGCAACAGAGGCGGAAAATTTTGCCCGTGTGTTGGCATTAGCGGAAAATTATCAAC -CGCTGTATGCCGCATTGGGCTTGCATCCTGGTATGTTGGAAAAACATAGCGATGTGTCTCTTGAGCAGCTACAGC -AGGCGCTGGAAAGGCGTCCGGCGAAGGTGGTGGCGGTGGGGGAGATCGGTCTGGATCTCTTTGGCGACGATCCGC -AATTTGAGAGGCAGCAGTGGTTACTCGACGAACAACTGAAACTGGCGAAACGCTACGATCTGCCGGTGATCCTGC -ATTCACGGCGCACGCACGACAAACTGGCGATGCATCTTAAACGCCACGATTTACCGCGCACTGGCGTGGTTCACG -GTTTTTCCGGCAGCCTGCAACAGGCCGAACGGTTTGTACAGCTGGGCTACAAAATTGGCGTAGGCGGTACTATCA -CCTATCCACGCGCCAGTAAAACCCGCGATGTCATCGCAAAATTACCGCTGGCATCGTTATTGCTGGAAACCGACG -CGCCGGATATGCCGCTCAACGGTTTTCAGGGGCAGCCTAACCGCCCGGAGCAGGCTGCCCGTGTGTTCGCCGTGC -TTTGCGAGTTGCGCCGGGAACCGGCGGATGAGATTGCGCAAGCGTTGCTTAATAACACGTATACGTTGTTTAACG -TGCCGTAGGCCGGATAAGGCGTTCACGCCGCATCCGGCAGTTGGCGCACAATGCCTGATGCGACGCTTAACGCGT -CTTATCATGCCTACAGGTTTGTGCCGAACCGTAGGCCGGATAAGGCGTTCACGCCGCATCCGGCAGTTGGCGCAC -AATGCCTGATGCGACGCTTGTCGCGTCTTATCATGCCTACAAGTCTGTGCCGAACCGTAGGCCGGATAAGGCGTT -CACGCCGCATCCGGCAGTCGGCGCATAATGCCTGATGCGACGCTTGTCGCGTCTTATCATGCCTACAGGTTTGTG -CCGAACCGTAGGCCGGATAAGGCGTTCGCGCCGCATCCGGCAGTTGGCGCACAATGCCTGATGCGACGCTTGACG -CGTCTTATCAGGCCTACAAGTCTGTGCCGAACCGTAGGCCGTATCCGGCATGTCACAAATAGAGCGCCGGAAATA -TCAACCGGCTCACCCCGCGCACCTTTAACGCATCAGCCAACGGCTCAACGTCTTCCGGCGTGGCGCTCGCCCAGC -TTTGCGCCTCGCCATACACGCCGTGGGCATGAAACGCGTTCAGGCGTACCGGAACATCGCCGAGTCCCTTGATAA -ACGCCGCCAGTTCTTCGATGTGTTGCAAATAATCCACCTGGCCAGGGATCACCAGCAAACGCAGTTCCGCCAGCT -TGCCGCGCTCTGCCAGCAAATAGATGCTGCGCTTAATCTGCTGATTATCGCGTCCGGTGAGTTGTTGATGACATT -CGCTCCCCCACGCTTTGAGATCGAGCATTGCGCCGTCGCACACCGGGAGCAATTTTTCCCAGCCGGTTTCGCTCA -ACATGCCGTTACTGTCCACCAGACAGGTGAGATGGCGCAGTTGCGGATCGTTTTTGATAGCAGTAAACAGCGCCA -CCACAAACGGCAGCTGGGTCGTGGCTTCACCGCCACTCACCGTTATCCCTTCGATAAACAGCACTGCTTTGCGGA -CATGGCTAAGCACTTCGTCCACGCTCATGGATTGCGCCATGGGCGTGGCATGTTGCGGACACCTCTTCAGGCAGG -TATCACACTGCTCGCAAACCACAGCGTTCCACACCACTTTGCCGTCAACAATCTGCAACGCCTGATGCGGACACT -GTGGCACGCACTCCCCACAGTCATTGCAACGTCCCATCGTCCACGGATTGTGACAGTTTTTGCAGCGCAGATTGC -AGCCCTGCAAAAACAGAGCCAGACGACTGCCTGGCCCGTCAACGCAGGAGAAGGGGATAATCTTACTGACTAAAG -CGCATCTGCTGTTCATGGCTTATCACGCGCGGCTGGCGTTCCAGAATACGAGTGTTGCGTGCGGCTTCTTCGCCC -AGCCAGGTGGTGTTGGTGCGTGAACCTTCGGCGCGATATTTTTCTAAATCCGACAAACGCACCATATAACCGGTA -ACGCGAACCAGATCGTTACCGCTGACATTGGCGGTAAATTCACGCATTCCGGCTTTAAAGGCACCGAGGCAAAGC -TGTACCAGTGCCTGCGGGTTACGTTTGATGGTTTCGTCGAGCGTCAGAATGTCGCTGATGCCGGAATAATAATAA -GCATGATGCGGGGCGACAGTTTGCAGATGGGTGATCGGATCTGGCTCATCGCCATACGGCAAACGCGCGCCCGGC -GTGGTGCCGATATCGGAACTGATCCCCGACTGTGCGTGTAACATGGCGCGTTTTTGCCAGCCATATTTCACGGGG -GTATTGGCGACAAACTCCGCCAGTTGCGCGCTGATGCGATAACCTACTTCATTTGCGGCGGCTTCTTTACCGTAG -CGCGCGGCAATCCCTTCTTTTTCACACAGCAAGTTAACCGCTTCCGCCAGCCCATACATGCCAAACATTGGCACA -AAACGTTCAGGGTTAATCAGCCCTTCTTTCACCAGGAAGCTATTCTCAAAGAAGTGTGATTGTTGATAGAGGAAT -TCACACCGCGCATCGATGATGGCGATCTGCTGCTGGCAGTAGTGCGGTAGAGTGCGCGTAAAGAAGTCATCCAGC -GATTCGCTGCGCTCGGCAATGGCTTTCAGGTTAAGGCGTACCAGCGTGCTGCCACCACCCGCCAGCGGCAGTGAG -TTGTAACAGCTCACAATCCCGTAGCCCCCTTTTGTGAAAATTTTATCATGCACCGGACCGTTGGCGATGTGCGGT -TTGCTACATTCACAGATGTTCTTCGCCACTTCCAGCAGCAGGTCATCAGGGGTGATTTCAGGATCGTAGATAAAG -GTCAGGTTCGGTGAAACCTGCTTCAACTCTGCATCTGCACGTAAGATCGCGCGGGTAATGGGCGAATCAGACGGG -CCGATATTGGCGTGCATAAAGGCGTCTGGCAGGGTTCTGTCGAGGTAACGCCAGAAACGTTTTATTCGAACATCG -ATCTCGTCTTGTGTTAGAATTCTAACATACGGTTGCAACAACGCATCCAGTTGCCCCAGGTAGACCGGCATCGAT -GTGACCGACGGTACGTGGTGGTAAAGAATGGTCAGCAGAGAGAGTGCGTCATCAAGATCTTTCGCGCCTTCCAGC -TCCAGCCATTCGGAACCGTTCGCCAGAAAACGGGCGTAATCGGGTAAGACATAGCGCGGTTTGTACGGCGCATGA -CCTTCAAACATATCGCAGATTACACCTTCATCCAGCGCGCGGCGGGCTTCGGCAGGAAGCTGTGGGTAAGGCAGA -TTGTTTTCTGCTTCCAGTGCCAGAAAATGGCGCTTCTGCTCCGGGCTAAGCACTGGGCTGGTGACAATTTGCTGG -CAACGTTGTTGCAGTGCATTTTCATGAGAAGTGGGCATCTTCTTTTCCTTTTATGCCGAAGGTGATGCGCCATTG -TAAGAAGTTTCGTGATGTTCACTTTGATCCTGATGCGTTTGCCACCACTGACGCATTCATTTGAAAGTGAATTAT -TTGAACCAGATCGCATTACAGTGATGCAAACTTGTAAGTAGATTTCCTTAATTGTGATGTGTATCGAAGTGTGTT -GCGGAGTAGATGTTAGAATACTAACAAACTCGCAAGGTGAATTTTATTGGCGACAAGCCAGGAGAATGAAATGAC -TGATCTGAAAGCAAGCAGCCTGCGTGCACTGAAATTGATGGACCTGACCACCCTGAATGACGACGACACCGACGA -GAAAGTGATCGCCCTGTGTCATCAGGCCAAAACTCCGGTCGGCAATACCGCCGCTATCTGTATCTATCCTCGCTT -TATCCCGATTGCTCGCAAAACTCTGAAAGAGCAGGGCACCCCGGAAATCCGTATCGCTACGGTAACCAACTTCCC -ACACGGTAACGACGACATCGACATCGCGCTGGCAGAAACCCGTGCGGCAATCGCCTACGGTGCTGATGAAGTTGA -CGTTGTGTTCCCGTACCGCGCGCTGATGGCGGGTAACGAGCAGGTTGGTTTTGACCTGGTGAAAGCCTGTAAAGA -GGCTTGCGCGGCAGCGAATGTACTGCTGAAAGTGATCATCGAAACCGGCGAACTGAAAGACGAAGCGCTGATCCG -TAAAGCGTCTGAAATCTCCATCAAAGCGGGTGCGGACTTCATCAAAACCTCTACCGGTAAAGTGGCTGTGAACGC -GACGCCGGAAAGCGCGCGCATCATGATGGAAGTGATCCGTGATATGGGCGTAGAAAAAACCGTTGGTTTCAAACC -GGCGGGCGGCGTGCGTACTGCGGAAGATGCGCAGAAATATCTCGCCATTGCAGATGAACTGTTCGGTGCTGACTG -GGCAGATGCGCGTCACTACCGCTTTGGCGCTTCCAGCCTGCTGGCAAGCCTGCTGAAAGCGCTGGGTCACGGCGA -CGGTAAGAGCGCCAGCAGCTACTAAGTAAGATGCTTTACGCCTGATGCGCTGCGCTTATCAGGCCTACGAGACGT -ATCTACCCGTAGGCCGGATAAGGCGTAGACGCATCCGGCAAAAGCCGCCTCATACTCTTTTCCTCGGGAGGTTAC -CTTGTTTCTCGCACAAGAAATTATTCGTAAAAAACGTGATGGTCATGCGCTGAGCGATGAAGAAATTCGTTTCTT -TATCAACGGTATTCGCGACAACACTATCTCCGAAGGGCAGATTGCCGCCCTCGCGATGACCATTTTCTTCCACGA -TATGACAATGCCTGAGCGTGTCTCGCTGACCATGGCGATGCGAGATTCAGGAACCGTTCTCGACTGGAAAAGCCT -GCATCTGAATGGCCCGATTGTTGATAAACACTCCACCGGTGGCGTCGGCGATGTGACTTCGCTGATGTTGGGGCC -GATGGTCGCAGCCTGCGGCGGCTATATTCCGATGATCTCTGGTCGCGGCCTCGGTCATACTGGCGGTACGCTCGA -CAAACTGGAATCCATCCCTGGCTTCGACATTTTCCCGGATGACAACCGTTTCCGCGAAATTATTAAAGACGTCGG -CGTGGCGATTATCGGTCAGACCAGTTCACTGGCTCCGGCTGATAAACGTTTCTACGCGACCCGTGATATTACCGC -AACCGTGGACTCCATCCCGCTGATCACCGCCTCTATTCTGGCGAAGAAACTTGCGGAAGGTCTGGACGCGCTGGT -GATGGACGTGAAAGTGGGTAGCGGCGCGTTTATGCCGACCTACGAACTCTCTGAAGCCCTTGCCGAAGCGATTGT -TGGCGTGGCTAACGGCGCTGGCGTGCGCACCACCGCGCTGCTCACCGACATGAATCAGGTACTGGCCTCCAGTGC -AGGTAACGCGGTTGAAGTTCGTGAAGCGGTGCAGTTCCTGACGGGTGAATATCGTAACCCGCGTCTGTTTGATGT -CACGATGGCGCTGTGCGTGGAGATGCTGATCTCCGGCAAACTGGCGAAAGATGACGCCGAAGCGCGCGCGAAATT -GCAGGCGGTGCTGGACAACGGTAAAGCGGCAGAAGTCTTTGGTCGTATGGTAGCGGCACAAAAAGGCCCGACCGA -CTTCGTTGAGAACTACGCGAAGTATCTGCCGACAGCGATGCTGACGAAAGCAGTCTATGCTGATACCGAAGGTTT -TGTCAGTGAAATGGATACCCGCGCGCTGGGGATGGCAGTGGTTGCAATGGGCGGCGGACGCCGTCAGGCATCTGA -CACCATCGATTACAGCGTCGGCTTTACTGATATGGCGCGTCTGGGCGACCAGGTAGACGGTCAGCGTCCGCTGGC -GGTTATCCACGCGAAAGACGAAAACAACTGGCAGGAAGCGGCGAAAGCGGTGAAAGCGGCAATTAAACTTGCCGA -TAAAGCACCGGAAAGCACACCAACTGTCTATCGCCGTATCAGCGAATAACGGTATACTGATCTGATCATTTAAAT -TTGAAGCACTGAGTACGGAGAACATATGAAACGTGCATTTATTATGGTGCTGGACTCATTCGGCATCGGCGCTAC -AGAAGATGCAGAACGCTTTGGTGACGTCGGGGCTGACACCCTGGGTCATATCGCAGAAGCTTGTGCCAAAGGCGA -AGCTGATAACGGTCGTAAAGGCCCGCTCAATCTGCCAAATCTGACCCGTCTGGGGCTGGCGAAAGCACACGAAGG -TTCTACCGGTTTCATTCCGGCGGGAATGGACGGCAACGCTGAAGTTATCGGCGCGTACGCATGGGCGCACGAAAT -GTCATCCGGTAAAGATACCCCGTCTGGTCACTGGGAAATTGCCGGTGTCCCGGTTCTGTTTGAGTGGGGATATTT -CTCCGATCACGAAAACAGCTTCCCGCAAGAGCTGCTGGATAAACTGGTCGAACGCGCTAATCTGCCGGGTTACCT -CGGTAACTGCCACTCTTCCGGTACGGTCATTCTGGATCAACTGGGCGAAGAGCACATGAAAACCGGCAAGCCGAT -TTTCTATACCTCCGCTGACTCCGTGTTCCAGATTGCCTGCCATGAAGAAACTTTCGGTCTGGATAAACTCTACGA -ACTGTGCGAAATCGCCCGTGAAGAGCTGACCAACGGCGGCTACAATATCGGTCGTGTTATCGCTCGTCCGTTTAT -CGGCGACAAAGCCGGTAACTTCCAGCGTACCGGTAACCGTCACGACCTGGCTGTTGAGCCGCCAGCACCGACCGT -GCTGCAGAAACTGGTTGATGAAAAACACGGCCAGGTGGTTTCTGTCGGTAAAATTGCGGACATCTACGCCAACTG -CGGTATCACCAAAAAAGTGAAAGCGACTGGCCTGGACGCGCTGTTTGACGCCACCATCAAAGAGATGAAAGAAGC -GGGTGATAACACCATCGTCTTCACCAACTTCGTTGACTTCGACTCTTCCTGGGGCCACCGTCGCGACGTCGCCGG -TTATGCCGCGGGTCTGGAACTGTTCGACCGCCGTCTGCCGGAGCTGATGTCTCTGCTGCGCGATGACGACATCCT -GATCCTCACCGCTGACCACGGTTGCGATCCGACCTGGACCGGTACTGACCACACGCGTGAACACATTCCGGTACT -GGTATATGGCCCGAAAGTAAAACCGGGCTCACTGGGTCATCGTGAAACCTTCGCGGATATCGGCCAGACTCTGGC -AAAATATTTTGGTACTTCTGATATGGAATATGGCAAAGCCATGTTCTGATGGATTTGGGCGGAGCGTTGACTCCG -CCTTTGTTATGTCACAAAAAGGATAAAACAATGGCTACCCCACACATTAATGCAGAAATGGGCGATTTCGCTGAC -GTAGTTTTGATGCCAGGCGACCCGCTGCGTGCGAAGTATATTGCTGAAACTTTCCTTGAAGATGCCCGTGAAGTG -AACAACGTTCGCGGTATGCTGGGCTTCACCGGTACTTACAAAGGCCGCAAAATTTCCGTAATGGGTCACGGTATG -GGTATCCCGTCCTGCTCCATCTACACCAAAGAACTGATCACCGATTTCGGCGTGAAGAAAATTATCCGCGTGGGT -TCCTGTGGCGCAGTTCTGCCGCACGTAAAACTGCGCGACGTCGTTATCGGTATGGGTGCCTGCACCGATTCCAAA -GTTAACCGCATCCGTTTTAAAGACCATGACTTTGCCGCTATCGCTGACTTCGACATGGTGCGTAACGCAGTAGAT -GCAGCTAAAGCACTGGGTATTGATGCTCGCGTGGGTAACCTGTTCTCCGCTGACCTGTTCTACTCTCCGGACGGC -GAAATGTTCGACGTGATGGAAAAATACGGCATTCTCGGCGTGGAAATGGAAGCGGCTGGTATCTACGGCGTCGCT -GCAGAATTTGGCGCGAAAGCCCTGACCATCTGCACCGTATCTGACCACATCCGCACTCACGAGCAGACCACTGCC -GCTGAGCGTCAGACTACCTTCAACGACATGATCAAAATCGCACTGGAATCCGTTCTGCTGGGCGATAAAGAGTAA -TTGTGTTTCGCTGCAAGGCGATTGCCTTGTGAAGCCGGAGCGGGAGACTGCTCCGGCTTTTTAGTATCTATTCAT -TTTTCTCTCCAGCTTGAATATTTTCGCTATACTTTTCAGTGAAATGTGTTAATAAATCTATTCAAGTATCTATTC -ACGAATCTATTCATTAATGAGCGAGCTGACTGATCTTTTACTGCAAGGGCCGCGTTCTGCCCCGGAATTGCGCCA -GCGTCTGGCAATCAGTCAGGCGACGTTCTCACGCCTTGTTGCCAGAGAAGATCGGGTGATTCGCTTTGGTAAAGC -ACGGGCAACGCGATATGCACTGCTGCGTCCTTATCGCGGAATTGAGCGTATTCCCGTCTGGCGGGTGGACGATAC -CGGAAAGGCGCATAAATTCGCCGACATCCGGTTGTGCTGGCCGCAGGGAAGTTGTCTGGTAACAGGCGCAGATGG -CGACGAACAGTGGTTTGATGGTTTGCCCTGGTATTTGACCGATCTCCGACCGCAGGGCTTTTTAGGGCGCGCGTG -GGGCAGGAAGTTAGCCGCGCAACTGAATCTGACTGATGATATACGTCTCTGGCAGGAAGAAGATGTGCTCTACGC -CCTGACCGTATTTAACGGTGAATATACTGGCGGTTGGTTGGTCGGGGAGGGGAATTATCAGCGATGGATTACTGC -ACAACACCCTGCGGAAATTCCTCTGGATCAAAAACTCACCCATTACGAACAGCTGGCAAGTGATGCACTGGCAGG -AGAAATTGTGGGTTCTTCTGCGGGCGGCGAGCAGCCAAAATTTACCTACTATGCACAAACGCCGTCAGGCAATAA -ACATGTGTTGGTGAAATTCACCGTACCACAGCAAACCGCGGTCAGCCAACGTTGGGGTGACCTGCTAATTGCTGA -ATCTATTGCCGCGCAAATCCTGCGTGACGGTGGGATCCACGCCATCGAGTCAACGGTGCTTGTAACAAGTAACAG -GCAGGTATTCCTCGAAGCGGAACGCTTTGACTGCAAAGGTAACGATGGTCGCTTGCCTATTGTGTCGCTGGAGGC -GGTGCAGAGTGAGTTTATCTCTTCTCCGGGATCGTGGCCGCAGGCAATGCGCCGTTTGTGTGAGCAACAACTTGT -CACTCACCAGAGCGTGGCGCAAACAGAAGTGATCTGGGCATTTGGGCGACTTATCGCCAACAGCGATATGCACGC -AGGTAATTTATCGTTTTATTTATCTGAACCGCCATTTGCGCTGACGCCCGTCTACGACATGCTGCCGATGGTCTA -TGCACCAAACAGCGCTGGAATGCTGCGTGATGCTGCCATTGAGGTGAAGTTTGATCTTAACGTCAGTAAAAGCGC -TTGGTTAACGGCGATCCCGCTGGCGCAGCAGTTCTGGCAAACGGTCGCCAGAGATCCGCGTATCAGCGAGGCGTT -TCGCCACATTGCGCAAGAAATGCCGGAAAAAATCCGGCAAATCGAAGAGAAAGTTGCCCGCATGGGCGGGTAACT -ACCTTACAGCCCCCGCCATCCATGCCGATAACTCCCGTAGCTCTTTTTCCTGTTCCGGGAAGTCAACCAACAGCG -CTTCGCACTCCTGTTGCAGCATATCTGCGCGGTACAGGCAGCCTTGCAGTCGTCCGGCGAGGGCTTCCAGCGGCG -CGGGGTTGAGGCTGTCGGTAAACACCTGGGCGCGGGTGATATGGCCTTTTTCAACGTCGAAATGCAGTTCCACGC -CGCCCCAGGTAAAGCGTTCATCCAGCAGATGCGAGAATGCCGGAGCCTGACCGAAGTTCCATTCCCAGCTACTCT -GGCGGGCAAAGGTTTCGGCGAAGTTTGGCAAGTCTGGCGTTTTGTTCGGGGAGATGATTTCCGCTTCCACGCGCT -CGCCATAATGGGCGAAAAAGGCCTCGGTTATGGCCTCGCAAACCTGCTCATGGGTGATCCCCGGCAACAGCTCGG -TGAGGTTGGTCACGCGGGAACGTACCGACGTAATGCCTTTCGCCGCCAGTTTCTTTTTATCCGGATTGAGATAGT -TTGCCAGGCGGCTGAGGTCGGCATTGAGTAGCAAGGTGCCGTGGTGGAAGCCGCGATCTTTGGTTTCGCGATAGG -CCGAGCCTGAGACTTTGCGGTCGCCTTCGACGGTTTTCACCACCAGATCGTTACGTCCGGACGCTTCGGCGCTGA -CGCCGAGCGCGTTCAGCGCATTGAGCACAATCGACGTGGAGATAGTTTTATCGTACTCCGGCTTGCCAGCCATAA -AGGTAAAGCAGGTATTGCCGAGATCGTGGAACACCGCGCCGCCACCGCTACTGCGCCGCGCCAGGCGGACGTTAT -CTTCTTCCATCCGCCGGGTATTACACTCTTTCCACGGGTTCTGCGCGCGACCAATTACTACCGTGTCGGCATTGC -GCCAGAGAAACAGAACGCGCTGCGTGGCGGGCATTTGGCGAAAAATACACTCTTCCACCGCCAGGTTAAACCACG -GGTCGTAAGAGTCAGAGATGAGCAGGCGTAATGTGGACATAACGATTTCCTTTCTTGTAGTAATGGGTCACTCTT -TTTTCTCGCTTTCTTCCTCTTCCGGCACCGGTTTGCTGGCGGTTAACAGGAAGGGCGATTGCTGCCAGCGGGTGC -GTTTACCCTGTAGCAGCGTGCGGGTCAGCACTACACCGATTGCCAGTGAGAGCAGCAACATCAGGCGTAAAATGT -TAGTGGTGTTATCCACCTGTTGGGCTTCGGTGGCGAGCGTATGGGTGTCGAGTGTCAGGCGCAGATAGCCGAGCG -GTCCGTTTTTACCCGCAATTGGCTCGACAATCTGCTGGTTAAAATAGCCGCCTGCTTTTTTACCGTCGAGCGCCA -GCCGGTCGCGCACTTCGACGCTTTCGCCAGAACGTGCGATAAGATCGCCTTGTTCGTCATACACACCCGCGTCGA -GGATACGGCTTTCATCCGTTAACTGATCGAGGATCGCCTGAATGCGTTTTTCATCCGGTGAGTCGGTACGCATCA -GCGGTGCAACGTTCAGCGTCACCTGACGCGCCAGGGTGCGGGCCAGTTCTTCCAGCTGTGGATTACGCTGTCGCT -GGTGGTTTTGACTAAACCATGACGCTCCCTGCATCAGCGCCACTAACAAGGCAAGACAGAACAGGACAATCACTG -CCCGATGCAGCCGGAATTTCAGTTTTGTGCGAGCCATCTTCCACCCTTTGAAAATTTGAGACTTAATGTTGCCAG -AAGCAATGGATACAAGGTAGCCTCATGCGTTATTTTCCCTGCTTCGAACGATTTTACAGGAGCCTTAATGCCTAA -CATTACCTGGTGCGACCTGCCTGAAGATGTCTCTTTATGGCCGGGTCTGCCTCTTTCATTAAGTGGTGATGAAGT -GATGCCACTGGATTACCACGCAGGTCGTAGCGGCTGGCTGCTGTATGGTCGTGGGCTGGATAAACAACGTCTGAC -CCAATACCAGAGCAAACTGGGTGCGGCGATGGTGATTGTTGCCGCCTGGTGCGTGGAAGATTATCAGGTGATTCG -TCTGGCAGGTTCACTCACCGCACGGGCTACACGCCTGGCCCACGAAGCGCAGCTGGATGTCGCCCCGCTGGGGAA -AATCCCGCACCTGCGCACGCCGGGTTTGCTGGTGATGGATATGGACTCCACCGCCATCCAGATTGAATGTATTGA -TGAAATTGCCAAACTGGCCGGAACGGGCGAGATGGTGGCGGAAGTAACCGAACGGGCGATGCGCGGCGAACTCGA -TTTTACCGCCAGCCTGCGCAGCCGTGTGGCGACGCTGAAAGGCGCTGACGCCAATATTCTGCAACAGGTGCGTGA -AAATCTGCCGCTGATGCCAGGCTTAACGCAACTGGTGCTCAAGCTGGAAACGCTGGGCTGGAAAGTGGCGATTGC -CTCCGGCGGCTTTACTTTCTTTGCTGAATACCTGCGCGACAAGCTGCGCCTGACCGCCGTGGTAGCCAATGAACT -GGAGATCATGGACGGTAAATTTACCGGCAATGTGATCGGCGACATCGTAGACGCGCAGTACAAAGCGAAAACTCT -GACTCGCCTCGCGCAGGAGTATGAAATCCCGCTGGCGCAGACCGTGGCGATTGGCGATGGAGCCAATGACCTGCC -GATGATCAAAGCGGCAGGGCTGGGGATTGCCTACCATGCCAAGCCAAAAGTGAATGAAAAGGCGGAAGTCACCAT -CCGTCACGCTGACCTGATGGGGGTATTCTGCATCCTCTCAGGCAGCCTGAATCAGAAGTAATTGCTCGCCCGCCA -TCCTGCGGGCGGCACAGCATTAACGAGGTACACCGTGGCAAAAGCTCCAAAACGCGCCTTTGTTTGTAATGAATG -CGGGGCCGATTATCCGCGCTGGCAGGGGCAGTGCAGTGCCTGTCATGCCTGGAACACCATCACCGAGGTGCGTCT -TGCTGCGTCGCCAATGGTGGCGCGTAACGAGCGTCTCAGCGGCTATGCCGGTAGCGCCGGGGTGGCAAAAGTCCA -GAAACTCTCCGATATCAGCCTTGAAGAGCTGCCGCGTTTTTCCACCGGATTTAAAGAGTTCGACCGCGTACTAGG -CGGCGGCGTGGTGCCAGGAAGTGCCATTCTGATTGGCGGTAACCCTGGTGCGGGGAAATCCACGCTGCTACTGCA -AACGCTGTGCAAACTGGCCCAGCAGATGAAAACGCTGTATGTCACCGGCGAAGAGTCGCTGCAACAGGTGGCAAT -GCGCGCTCATCGCCTTGGCCTGCCGACTGACAATCTCAATATGTTGTCGGAAACCAGCATCGAACAGATCTGCCT -GATTGCCGAAGAAGAGCAACCGAAGCTGATGGTAATTGACTCGATCCAGGTGATGCATATGGCGGATGTACAGTC -ATCGCCTGGTAGCGTGGCGCAGGTGCGTGAAACGGCGGCTTATTTGACACGCTTCGCCAAAACGCGCGGTGTGGC -GATTGTCATGGTGGGGCACGTAACCAAAGATGGTTCGCTGGCTGGCCCGAAAGTGCTGGAACACTGTATCGACTG -TTCGGTGCTTTTGGATGGCGATGCCGACTCCCGTTTTCGCACCTTGCGCAGCCATAAAAACCGCTTCGGCGCGGT -GAATGAGCTGGGCGTCTTCGCGATGACCGAACAGGGGCTGCGTGAAGTCAGCAACCCTTCGGCAATTTTCTTAAG -TCGCGGCGATGAAGTGACCTCCGGTAGCTCAGTGATGGTGGTATGGGAAGGAACGCGTCCACTGCTGGTGGAGAT -TCAGGCGCTGGTCGATCACTCGATGATGGCGAACCCACGCCGCGTGGCAGTGGGGCTGGAACAAAACCGTCTGGC -AATCCTGCTGGCTGTGTTGCACCGTCACGGTGGTCTGCAAATGGCCGATCAGGATGTGTTTGTGAACGTGGTCGG -CGGCGTGAAGGTAACCGAAACCAGTGCCGACTTAGCGTTACTGCTGGCGATGGTTTCCAGCCTGCGCGACAGACC -GCTGCCGCAGGATCTGGTGGTGTTTGGTGAAGTCGGGCTGGCAGGGGAGATCCGCCCGGTGCCCAGCGGTCAGGA -ACGAATCTCTGAAGCGGCGAAACACGGTTTTCGCCGGGCGATTGTTCCGGCGGCTAACGTGCCGAAAAAAGCGCC -GGAAGGGATGCAGATTTTTGGCGTTAAAAAACTCTCCGACGCGCTTAGCGTGTTCGACGACTTATAATGAGATAT -ACGGAGGGAGATATGTCGTCATTTGATTACCTGAAAACTGCCATCAAGCAACAGGGCTGCACGCTACAGCAGGTA -GCTGATGCCAGCGGTATGACCAAAGGGTATTTAAGCCAGTTACTGAATGCCAAAATCAAAAGCCCCAGCGCGCAA -AAGCTGGAGGCGTTGCACCGTTTTTTGGGGCTTGAGTTTCCCCGGCAGAAGAAAACGATCGGTGTCGTATTCGGT -AAGTTCTACCCACTGCATACCGGACATATCTACCTTATCCAGCGCGCCTGTAGCCAGGTTGACGAGCTGCATATC -ATTATGGGTTTTGACGATACCCGTGACCGCGCGTTGTTCGAAGACAGTGCCATGTCGCAGCAGCCGACCGTGCCG -GATCGTCTGCGTTGGTTATTGCAAACTTTTAAATATCAGAAAAATATTCGCATTCATGCTTTCAACGAAGAGGGC -ATGGAGCCGTATCCGCACGGCTGGGATGTGTGGAGCAACGGCATCAAAAAGTTTATGGCTGAAAAAGGGATCCAG -CCGGATCTGATCTACACCTCGGAAGAAGCCGATGCGCCACAGTATATGGAACATCTGGGGATCGAGACGGTGCTG -GTCGATCCGAAACGTACCTTTATGAGTATCAGCGGTGCGCAGATCCGCGAAAACCCGTTCCGCTACTGGGAATAT -ATTCCTACCGAAGTGAAGCCGTTTTTTGTGCGTACCGTGGCGATCCTTGGCGGCGAGTCGAGCGGTAAATCCACC -CTGGTAAACAAACTTGCCAATATCTTCAACACCACCAGTGCGTGGGAATATGGCCGCGATTATGTCTTTTCACAC -CTCGGCGGTGATGAGATCGCATTGCAGTATTCTGACTACGATAAAATCGCGCTGGGCCACGCTCAATACATTGAT -TTTGCGGTGAAATATGCCAATAAAGTGGCATTTATCGATACCGATTTTGTCACCACTCAGGCGTTCTGCAAAAAG -TACGAAGGGCGGGAACATCCGTTCGTGCAGGCGCTGATTGATGAATACCGTTTCGATCTGGTGATCCTGCTGGAG -AACAACACGCCGTGGGTGGCGGATGGTTTACGCAGCCTCGGCAGTTCGGTGGATCGCAAAGAGTTCCAGAACTTG -CTGGTGGAGATGCTCGAAGAGAACAATATCGAATTTGTGCGGGTTGAAGAGGAAGATTACGACAGTCGTTTCCTG -CGCTGCGTGGAACTGGTGCGGGAGATGATGGGGGAGCAGAGATAACCGTGATGAAACTGCTCAAAGGCGAGGTAT -AAAATGAGTTTTTTTGATGAGTTGAAAACCTCTCTGGAAGAGGCTGTCGAGATTAAACAAGGTTTGAAAAAACCT -GCACGGGTGACCCGCCACGAAATTGAGGATGCTAAGGCTGTTGTAGACCGGAAACGGTGTTCACGCCGCATCCGG -CATTCGGTGCTCAATGCCTGATGCGACGCTTACCGCGTCTTATCAGGCCTACAGTTTTACAACGTATTGAAATTG -CTGGTTTTGTAGGCCGGATAAGGCGTTCGCGCCGCATCCGGCATTTTACGCATTACTTCGCAATACGCTTGTACT -TGATACGCTTCGGCTCCAGCGCGTCTGCGCCCAGCGTGCGTTTCTTGTACTCTTCGTACTCGGTAAAGTTACCTT -CGAAGAACTCAACTTTACCTTCATCCTGGTAATCCAGAATGTGCGTGGCGATACGGTCGAGGAACCAACGGTCGT -GCGAGATAACCATCGCACAGCCCGGGAACTCCAGCAGGGCGTTTTCCAGCGCGCGCAGGGTTTCGATATCCAGGT -CGTTGGTTGGTTCGTCGAGCAGCAGCATGTTGCCGCCAACCTGCAGCAGCTTCGCCAGATGCAGACGACCGCGCT -CACCACCGGAGAGTTCACCAACGCGTTTACCCTGATCAACCCCTTTAAAGTTAAAGCGGCCAACGTAGGCGCGGC -TTGGCATCTCGGTGTTGCCGATCTTCATGATATCCAGCCCGCCGGAAACTTCTTCCCAAACGGTTTTGCTGTTAT -CCATTGAGTCACGGAACTGATCAACCGACGCCAGTTTCACCGTTTCACCCAAAGTGATGGTGCCGCTGTCCGGCT -GTTCCTGACCAGAGATCATACGGAACAGGGTCGATTTACCCGCACCGTTCGGACCGATGATCCCGACGATCGCTC -CTTTCGGGATCGAGAAGCTCAGGTCATCAATCAGCAGACGATCGCCATAGGATTTACGCAGGTTGCTGACTTCCA -GCACTTTATCGCCCAGACGCGGTCCAGGTGGAATAAACAGTTCGTTGGTTTCGTTACGTTTCTGATATTCGGTGC -TGTTCAGTTCTTCAAAGCGCGCCAGACGTGCTTTACCTTTCGACTGACGGCCTTTAGTACCTTGACGTACCCATT -CCAGCTCTTTCTCAATCGACTTACGACGCGCCGCTTCTTGTGAAGCTTCCTGCGCCAGGCGCTGATCTTTCTGCT -CCAGCCAGGAGGAGTAGTTACCTTCCCACGGAATACCTTCACCGCGGTCAAGTTCGAGGATCCAGCCTGCAACGT -TATCGAGGAAGTAACGGTCGTGGGTAATCGCCACAACGGTGCCTTCGAAGTCGTGCAGGAAGCGTTCCAGCCAGG -CCACGGATTCGGCATCCAGGTGGTTGGTCGGTTCGTCGAGCAGCAGCATGTCTGGTTTTTCCAGCAGCAGGCGGC -ACAACGCTACGCGACGACGTTCACCACCGGAGAGGTTAGCGATTTTCGCGTCCCAGTCCGGCAGACGTAGCGCAT -CCGCCGCACGCTCCAGCTGTACGTTCAGATTATGACCGTCGTGAGCCTGAATGATCTCTTCCAGACGGCCTTGTT -CAGCGGCCAGCTTGTCAAAATCGGCATCCGGATCGGCGTACAGCGCATACACTTCATCCAGGCGTTTCAGGGCGT -TAACCACTTCTGAAACCGCTTCTTCAATGGACTCACGCACGGTGTGTTCCGGGTTCAGCTGCGGTTCCTGCGGCA -GATAACCAATCTTGATGTCTGGCTGCGGACGCGCTTCACCTTCGATGTCTTTATCAATGCCCGCCATAATGCGCA -GCAGGGTGGACTTACCCGCGCCATTCAGACCCAGGACACCAATTTTTGCCCCAGGGAAGAAACTCAGAGAGATGT -TTTTCAAAATATGACGTTTCGGCGGAACAACTTTGCCGACACGATGCATGGTATAAACGAATTGAGCCACGTTGG -ACTTCGCCTCTATGTTTATCGTGATAATGAGTTTTCAAAGGCGAAGTGTAGCCTTTTTCCCCGCCTAATCCCAGC -CGGTCGATCACCCTCGCAGTAAAAGTAAAAAAGTGTCCGTAACGTGGCGTAAACGGCAATGACTGGTTAGCATAA -ATCTATTACGCGGCATGACGCTGCATTGATGTATTTACACTTAGAGGATGCGCTTGTGGAAAAAGCCAAACAAGT -TACCTGGCGGCTGTTGGCTGCCGGTGTCTGTCTGCTGACGGTCAGCAGCGTGGCGCGAGCCGACTCACTGGATGA -GCAGCGTAGTCGTTACGCGCAAATCAAGCAGGCCTGGGATAATCGACAAATGGATGTGGTCGAACAAATGATGCC -TGGACTGAAGGATTATCCGCTTTATCCCTACCTGGAATACCGCCAGATCACCGATGATCTGATGAATCAACCGGC -GGTGACGGTCACTAACTTTGTTCGCGCTAACCCCACGCTTCCTCCCGCTCGCACGCTGCAATCTCGTTTCGTCAA -TGAACTGGCGCGGCGTGAAGACTGGCGTGGCTTGTTAGCCTTTAGCCCGGAAAAGCCCGGAACTACCGAAGCGCA -ATGTAATTACTACTATGCGAAATGGAACACCGGGCAGAGTGAAGAAGCCTGGCAAGGGGCGAAAGAGCTGTGGCT -AACCGGCAAGAGCCAGCCTAACGCCTGTGACAAGTTATTTAGCGTCTGGCGTGCGTCAGGTAAACAAGATCCGCT -GGCGTATTTAGAGCGTATCCGTCTGGCGATGAAAGCGGGTAACACAGGCCTGGTAACAGTGCTGGCAGGGCAGAT -GCCTGCCGATTACCAGACTATCGCCTCGGCAATCATTTCACTGGCGAACAACCCTAATACGGTACTGACCTTCGC -GCGTACAACTGGCGCGACCGATTTTACCCGTCAAATGGCGGCGGTGGCGTTTGCCAGTGTGGCGCGGCAGGATGC -TGAGAATGCACGGCTGATGATCCCATCGCTTGCCCAGGCGCAGCAGCTTAATGAAGATCAGATTCAGGAGCTGCG -CGATATCGTCGCCTGGCGTTTGATGGGCAACGATGTCACCGACGAGCAGGCGAAATGGCGCGATGACGCCATTAT -GCGCTCGCAATCTACTTCGCTTATTGAACGCCGTGTACGAATGGCGCTTGGCACCGGCGATCGTCGCGGCCTGAA -TACCTGGCTGGCGCGTCTGCCTATGGAAGCGAAAGAGAAAGATGAATGGCGTTACTGGCAGGCGGATTTATTGCT -GGAACGCGGACGTGAAGCTGAAGCAAAAGAGATTTTGCATCAACTCATGCAACAGCGTGGTTTCTACCCGATGGT -TGCAGCACAACGCATCGGCGAAGAGTATGAGCTGAAGATTGATAAAGCGCCGCAGAATGTTGACAGCGCCCTGAC -TCAGGGGCCGGAGATGGCGCGCGTGCGCGAGTTGATGTACTGGAATCTCGATAATACCGCGCGTAGCGAGTGGGC -CAATCTGGTGAAGAGCAAGTCAAAAACAGAGCAGGCTCAACTGGCGCGGTATGCTTTCAACAACCAATGGTGGGA -TCTTAGCGTTCAGGCAACGATCGCCGGGAAGCTGTGGGATCATCTGGAAGAGCGATTCCCGCTGGCTTACAACGA -TCTTTTCAAACGCTACACCAGCGGTAAGGAGATCCCGCAAAGCTATGCGATGGCGATTGCTCGTCAGGAGAGCGC -CTGGAATCCGAAAGTGAAATCACCGGTAGGGGCCAGCGGCTTGATGCAGATTATGCCTGGTACAGCGACCCATAC -GGTGAAGATGTTCTCTATTCCCGGTTATAGCAGTCCTGGGCAATTGCTGGATCCGGAAACGAATATCAACATTGG -CACCAGTTACCTGCAATATGTTTATCAGCAGTTTGGCAATAATCGTATTTTCTCCTCAGCAGCTTATAACGCCGG -ACCAGGGCGGGTGCGAACCTGGCTTGGCAACAGCGCCGGGCGTATCGACGCAGTGGCATTTGTCGAGAGTATTCC -ATTCTCCGAGACGCGCGGTTATGTGAAGAACGTGCTGGCTTATGACGCTTACTACCGCTATTTCATGGGGGATAA -ACCGACGTTGATGAGCGCCACGGAATGGGGACGTCGTTACTGATCCGCACGTTTATGATATGCTATCGTACTCTT -TAGCGAGTACAACCGGGGGAGGCATTTTGCTTCCCCCGCTAACAATGGCGACATATTATGGCCCAACAATCACCC -TATTCAGCAGCGATGGCAGAACAGCGTCACCAGGAGTGGTTACGTTTTGTCGACCTGCTTAAGAATGCCTACCAA -AACGATCTCCATTTACCGTTGTTAAACCTGATGCTGACGCCAGATGAGCGCGAAGCGTTGGGGACTCGCGTGCGT -ATTGTCGAAGAGCTGTTGCGCGGCGAAATGAGCCAGCGTGAGTTAAAAAATGAACTCGGCGCAGGCATCGCGACG -ATTACGCGTGGATCTAACAGCCTGAAAGCCGCGCCCGTCGAGCTGCGCCAGTGGCTGGAAGAGGTGTTGCTGAAA -AGCGATTGATTTTGTAGGCCTGATAAGACGTGGCGCATCAGGCATCGTGCACCGAATGCCGGATGCGGCGTGAAC -GCCTTATCCGTCCTACAAATACCCGTAATTTCAATATGTTTGGTAGGCATGATAAGACGCGGCAGCGTCGCATCA -GGCGCTTAATACACGGCATTATGAAACGGACTCAGCGCCAGGATCACCGCCTGGTGATAGACGCTGGCGCGAGTG -AGTTTCCCGGCGGTAAACACGCCGATCGCCCCTTCCTTACGACCAATCTCATCAATACCGGTATAACGCGACATC -ACGGGACCAAGCGCCTCACCTTCACGCACTTTTTCCAGAATCACCGCAGGCAACGGCAAAGTAGCCGAACGCGCC -TCGCCGCGCTGGCTGGCGTTTTCAATCACCACCCAACTGAAAGTGCTGTCACCATCGATGCCAGCTTCAATCGCC -ACCCAAAAATCAGCCTCTGGAAGTAAACGGCGGGCATTGGCTACCCGATTTCGTGCGCCAGCGCGCGTTTCCTCA -CTGCCAAAGGGCTGTTCCGGTACACCGCTCTCGACGGCAACGGATGCAATATGGCAGGATCCTTCGCCGAAGATC -TCGTGAAATGCCTGCAGAATGGCCTGAATTTTAGCGGGATTGGTGGTCGCACAGACAACTTGGTGCATAATCAGC -ATTACTCAGAAAATTAACGTTACAGCAGTATACGGAAAAAAAGCATGTTACAGGTATACCTAGTCCGCCACGGTG -AAACGCAGTGGAACGCCGAGCGACGTATTCAGGGCCAGTCTGACAGCCCGCTGACCGCCAAAGGTGAGCAACAGG -CGATGCAGGTGGCAACCCGTGCCAAAGAGCTTGGCATTACGCATATCATCAGTAGCGATTTAGGACGCACCCGGC -GTACGGCGGAAATCATCGCCCAGGCCTGCGGCTGTGACATCATCTTTGATTCTCGCCTGCGTGAATTAAACATGG -GTGTGCTGGAAAAAAGACATATCGATTCTCTGACCGAAGAAGAAGAGAACTGGCGTCGGCAGCTGGTCAATGGCA -CCGTTGACGGGCGTATTCCTGAAGGCGAGTCAATGCAGGAGCTCAGCGATCGCGTCAATGCGGCACTGGAATCTT -GCCGGGACTTACCGCAGGGAAGCCGACCGCTGCTGGTGAGTCATGGTATTGCACTGGGATGCCTGGTGAGTACGA -TTCTCGGATTACCAGCATGGGCAGAGCGCCGCTTACGTCTGCGTAACTGTTCTATTTCGCGCGTGGATTATCAGG -AAAGCCTGTGGCTGGCGTCTGGCTGGGTCGTTGAAACCGCAGGGGACATCTCGCATCTGGACGCCCCTGCATTAG -ATGAGCTGCAGCGTTAACGACGGATCGGAATCAGCAGTTCACAGCGTAGATTAATTGGGCGATCTCCCGCTTTGG -CATCTTCTGCCGGGTAGTATCGCTCAATATCCTGACCTTTACGGCGCGTCAGGTTGAGCATTGGCATGCACGTTC -CGTATACCGTCAGGATAAACTCCTGCACGCCGGTTCCCAGACCTTCATAGGTAAACATCACATATTCGCCGCCCT -GCAGCATCACCGGATGCCCCGTCAGTACATAGCCATCTGCCTGATCCTGGGCTAACGCGGTGGTATAGAATACCT -CTTGCTCGTCGTCTTTATCCTGACTCGGACGCGTTTCATTCAGGCCGTAGAGCACCGGCGGAATGGTCGGCGCGT -TGCCGAGAAAATCGTGCCAGAACTGATAACGCATTTCATGGCGGAAATCAGAGATTTGCTCCAGCGAACAGGAGT -AGCTCTGGGTAACACCAATCAGCGGCGTATCTTCCAGGGTGACAAATTTGTGCTCTGGCATAGTGAATTCACCCA -GGCGTAGCGGCGGGCGAATACCAAAGGCGCTCCATTCAGGAGAACGGCGGTAAAGTGCAGGAGTCTGGGCAAACT -GCTTCTTGAATGCGCGGGTAAATGTCTGTTGAGAGTCGAAGCGGTATTGCAGCGCGATGTCCAGAATCGGACGCG -CAGTCAGGCGTAGTGCGACCGCCGATTTCGACAAACGACGAGCACGAATATACGCGCCAATAGCATGGCCAGTGA -CATCTTTAAACATTCTCTGTAAGTGCCACTTGGAATAACCTGCTTTCGCCGCTACATTGTCGAGCGACAGGGGCT -GATCCAGATGACCTTCCAGCCAGATTAAAAGGTCGCGAATAATGCCGGCCTGATCCATAAAATATCCTCATCCTT -TCAACAACGAGCACCTGACATCAGGTAATTGGATAATAGCATTTTTTGCTGTTTTAGCATTCAGTGTTTTTTTCT -TAGTAGAGTATGTTTTAGGGCTTGACGGAAATAAAAGTATTGAGATTTTGTTCTTAATCAATATGTTATTTACCG -TGACGAACTAATTGCTCGTGTAATAGATAAAAATGGTAACAATATGAAATACAAGCATTTGATCCTGTCTTTAAG -CCTGATAATGCTGGGGCCATTGGCTCATGCAGAAGAGATTGGTTCGGTCGACACCGTATTTAAAATGATCGGCCC -GGATCACAAAATTGTTGTGGAAGCCTTTGATGATCCCGATGTGAAAAATGTCACCTGTTATGTGAGCCGGGCGAA -AACCGGTGGTATTAAAGGGGGATTGGGTCTGGCGGAAGATACCTCCGATGCGGCCATTTCTTGTCAGCAAGTCGG -GCCGATTGAACTGTCGGATCGTATTAAAAACGGCAAAGCTCAGGGCGAGGTAGTATTCAAAAAACGCACGTCCCT -GGTCTTTAAGTCGTTACAGGTCGTGCGCTTTTATGATGCCAAACGCAACGCGCTCGCTTATCTGGCTTACTCCGA -CAAAGTTGTAGAAGGTTCGCCGAAAAACGCGATTAGCGCGGTTCCTGTCATGCCGTGGCGGCAATAACAGAGGCG -ATTTATGCAACGGGAAACGGTCTGGTTAGTGGAAGATGAGCAAGGGATAGCCGACACGCTGGTCTACATGTTGCA -GCAGGAAGGTTTTGCCGTCGAGGTCTTTGAGCGAGGCTTGCCGGTGCTGGATAAAGCTCGCAAGCAGGTACCCGA -CGTCATGATTCTCGATGTTGGTCTGCCGGATATTAGCGGCTTTGAATTGTGCCGCCAGTTACTGGCGCTCCATCC -GGCGTTACCTGTACTGTTCCTGACGGCCCGAAGTGAAGAGGTCGATCGCCTGCTTGGGCTGGAAATTGGTGCTGA -CGACTACGTGGCTAAACCGTTTTCACCCCGCGAAGTGTGCGCCAGGGTGCGCACCTTACTGCGTCGGGTGAAGAA -GTTCTCGACGCCGTCTCCCGTCATCCGTATTGGACATTTTGAATTGAATGAACCCGCGGCGCAGATCAGCTGGTT -TGACACGCCATTAGCGCTGACTCGGTATGAGTTTTTATTGTTGAAGACGTTACTCAAGTCACCGGGCCGCGTCTG -GTCCCGCCAGCAACTGATGGATAGCGTATGGGAAGATGCGCAGGACACCTACGATCGCACCGTCGATACCCACAT -TAAAACGCTGCGTGCCAAGCTGCGCGCCATCAACCCCGATCTTTCACCGATTAATACTCATCGCGGCATGGGATA -TAGCCTGAGGGGCCTGTAATGCGTATCGGCATGCGGTTGTTGCTGGGCTATTTTTTACTGGTGGCGGTGGCAGCC -TGGTTCGTACTGGCCATTTTTGTCAAAGAAGTTAAACCGGGCGTGCGAAGAGCAACGGAGGGGACGTTGATCGAC -ACCGCAACGTTGCTGGCGGAGCTGGCGCGTCCCGATTTGCTCTCTGGGGACCCAACGCATGGGCAACTGGCGCAG -GCGTTTAATCAGCTACAACATCGCCCGTTTCGCGCCAATATCGGTGGCATTAACAAAGTGCGCAATGAATATCAT -GTCTATATGACCGATGCGCAGGGCAAAGTATTGTTCGATTCGGCAAATAAAGCCGTTGGACAGGATTATTCGCGC -TGGAATGACGTCTGGCTAACGTTGCGTGGTCAGTATGGTGCGCGCAGCACGTTGCAAAATCCTGCCGATCCCGAA -AGTTCTGTGATGTATGTTGCCGCACCGATTATGGACGGCTCGCGGCTTATTGGCGTTTTGAGCGTAGGCAAACCG -AACGCGGCGATGGCTCCGGTCATTAAGCGTAGCGAGCGGCGAATTTTATGGGCCAGCGCCATTTTGTTGGGGATT -GCACTGGTGATTGGCGCAGGCATGGTTTGGTGGATCAACCGCTCTATTGCCCGGCTCACTCGCTATGCTGATTCC -GTCACTGACAATAAGCCCGTTCCTCTCCCCGATCTCGGTAGTAGCGAGTTGCGTAAACTCGCGCAGGCGCTGGAA -AGTATGCGCGTGAAGCTGGAAGGGAAAAACTATATTGAGCAGTATGTTTACGCATTAACTCATGAGCTAAAAAGC -CCACTGGCGGCGATTCGTGGAGCGGCGGAAATTTTACGCGAAGGTCCGCCGCCGGAAGTGGTGGCTCGTTTTACT -GACAACATTCTGACGCAAAATGCGCGTATGCAGGCATTGGTAGAAACGTTACTACGCCAGGCAAGACTGGAGAAT -CGTCAGGAAGTCGTTCTGACTGCTGTTGATGTGGCGGCATTATTCCGCCGCGTCAGCGAAGCGCGCACCGTGCAG -TTGGCAGAAAAAAAAATCACTCTGCATGTTACGCCCACCGAGGTTAACGTTGCTGCTGAACCGGCGTTACTGGAG -CAGGCGCTGGGAAATTTACTGGATAACGCCATCGATTTTACCCCCGAGAGCGGTTGCATCACGCTAAGCGCCGAA -GTGGATCAGGAACACGTCACGCTTAAGGTGCTGGATACCGGTAGTGGTATTCCTGACTACGCGCTTTCACGTATT -TTTGAACGCTTTTACTCTTTGCCTCGTGCAAATGGGCAAAAAAGCAGCGGTCTGGGGTTGGCGTTCGTCAGTGAG -GTCGCCCGTTTGTTTAACGGCGAAGTCACGCTGCGCAACGTGCAGGAAGGTGGCGTGCTGGCCTCGCTTCGACTT -CACCGTCACTTCACATAGCTTCAAATTCTTCCCACATAGTCTTCGTATCCTGCTGCCATTGCAAAGGAGAAGACT -ATGTTGAAATCCCCCCTGTTCTGGAAAATGACTAGCCTGTTTGGTGCAGTATTGCTGTTGTTGATTCCGATAATG -CTGATTCGGCAGGTGATTGTCGAACGTGCTGATTACCGTAGCGATGTGGAAGATGCGATTCGCCAAAGTACCAGC -GGGCCGCAAAAACTCGTTGGGCCGCTCATCGCTATTCCTGTGACCGAGCTTTATACGGTGCAGGAAGAGGATAAA -ACCGTGGAGCGGAAACGAAGTTTTATCCATTTTTGGTTACCTGAGTCATTGATGGTTGATGGCAATCAGAACGTG -GAAGAACGCAAGATAGGGATTTATACCGGTCAGGTCTGGCACAGTGATTTAACGTTAAAAGCCGATTTCGATGTT -TCGCGTCTTAGCGAACTCAACGCGCCAAATATCACCTTAGGCAAGCCATTTATTGTGATTAGCGTCGGGGATGCG -CGTGGTATTGGTGTGGTGAAAGCGCCTGAAGTTAACGGAACGGCGCTGACCATTGAACCCGGCACCGGGTTAGAG -CAAGGCGGGCAGGGCGTGCATATCCCTTTACCTGAAGGGGACTGGCGGAAGCAGAACCTGAAGCTGAATATGGCC -CTGAATTTAAGCGGTACCGGCGATCTTTCTGTGGTGCCTGGCGGGCGTAATAGCGAAATGACCTTAACCAGCAAC -TGGCCGCATCCCAGTTTTTTAGGTGATTTTCTACCAGCCAAACGGGAAGTTAGCGAGTCAGGTTTTCAGGCGCAC -TGGCAAAGCAGCTGGTTTGCTAATAATCTCGGTGAGCGTTTTGCTTCAGGCAATGATACCGGCTGGGAAAACTTC -CCGGCGTTTAGCGTCGCAGTAACGACGCCAGCCGATCAATACCAATTAACTGACCGGGCGACTAAGTACGCCATT -CTGCTGATTGCACTGACTTTTATGGCGTTCTTTGTTTTTGAAACGCTCACCGCGCAACGTTTACACCCAATGCAA -TATTTGCTGGTGGGGCTTTCATTGGTGATGTTTTATTTGCTCTTGCTGGCGCTTTCTGAACATACCGGTTTTACC -GTGGCATGGATAATCGCCAGTCTGATTGGGGCGATAATGAACGGTATTTATTTGCAAGCGGTATTGAAAGGTTGG -TGCAACAGCATGTTGTTTACCCTCGCGCTGTTGTTGCTGGATGGTGTGATGTGGGGACTGCTCAACTCTGCCGAT -AGCGCGCTGTTGTTGGGAACCAGTGTGCTGGTGGTGGCGCTGGCCGGCATGATGTTTGTGACCCGTAATATCGAC -TGGTATGCGTTTTCACTGCCGAAAATGAAAGCCAGTAAAGAAGTTACAACGGACGATGAGTTACGTATCTGGAAA -TAAGGTTGAAAAATAAAAACGGCGCTAAAAAGCGCCGTTTTTTTTGACGGTGGTAAAGCCGATTAATCTTCCAGA -TCACCGCAGAAGCGATAACCTTCACCGTGAATGGTGGCGATGATTTCCGGCGTATCCGGCGTAGATTCGAAATGT -TTACGAATACGGCGGATCGTCACGTCTACAGTACGGTCGTGCGGTTTCAGCTCACGGCCGGTCATTTTCTTCAGC -AGTTCAGCACGGGACTGAATTTTGCCTGGGTTTTCACAGAAGTGAAGCATGGCGCGGAACTCGCTGCGCGGCAGC -TTGTACTGCTCGCCATCAGGGCCGATCAACGAACGGCTGTTGATGTCCAGTTCCCAACCATTGAACTTGTAGCTT -TCAACGCTACGACGTTCTTCGCTGACAGTACCCAGATTCATGGTACGGGACAGTAGGTTGCGTGCACGAATCGTC -AGTTCACGCGGGTTGAACGGTTTGGTGATGTAGTCATCTGCACCGATTTCGAGGCCGAGAATTTTATCGACTTCG -TTGTCACGGCCAGTCAGGAACATCAACGCAACATTCGCCTGCTCGCGCAGTTCACGCGCTAACAGAAGACCGTTC -TTACCCGGCAGATTGATATCCATGATCACCAGGTTGATGTCATATTCAGAGAGGATCTGATGCATTTCCGCGCCA -TCTGTCGCTTCGAAAACATCATAGCCTTCCGCTTCGAAAATACTTTTCAACGTGTTGCGTGTTACCAACTCGTCT -TCAACGATAAGAATGTGCGGGGTCTGCATGTTTGCTACCTAAATTGCCAACTAAATCGAAACAGGAAGTACAAAA -GTCCCTGACCTGCCTGATGCATGCTGCAAATTAACATGATCGGCGTAACATGACTAAAGTACGTAATTGCGTTCT -TGATGCACTTTCCATCAACGTCAACAACATCATTAGCTTGGTCGTGGGTACTTTCCCTCAGGACCCGACAGTGTC -AAAAACGGCTGTCATCCTAACCATTTTAACAGCAACATAACAGGCTAAGAGGGGCCGGACACCCAATAAAACTAC -GCTTCGTTGACATATATCAAGTTCAATTGTAGCACGTTAACAGTTTGATGAAATCATCGTATCTAAATGCTAGCT -TTCGTCACATTATTTTAATAATCCAACTAGTTGCATCATACAACTAATAAACGTGGTGAATCCAATTGTCGAGAT -TTATTTTTTATAAAATTATCCTAAGTAAACAGAAGGATATGTAGCATTTTTTAACAACTCAACCGTTAGTACAGT -CAGGAAATAGTTTAGCCTTTTTTAAGCTAAGTAAAGGGCTTTTTCTGCGACTTACGTTAAGAATTTGTAAATTCG -CACCGCGTAATAAGTTGACAGTGATCACCCGGTTCGCGGTTATTTGATCAAGAAGAGTGGCAATATGCGTATAAC -GATTATTCTGGTCGCACCCGCCAGAGCAGAAAATATTGGGGCAGCGGCGCGGGCAATGAAAACGATGGGGTTTAG -CGATCTGCGGATTGTCGATAGTCAGGCACACCTGGAGCCAGCCACCCGCTGGGTCGCACATGGATCTGGTGATAT -TATTGATAATATTAAAGTTTTCCCGACATTGGCTGAATCGTTACACGATGTCGATTTCACTGTCGCCACCACTGC -GCGCAGTCGGGCGAAATATCATTACTACGCCACGCCAGTTGAACTGGTGCCGCTGTTAGAGGAAAAATCTTCATG -GATGAGCCATGCCGCGCTGGTGTTTGGTCGCGAAGATTCCGGGTTGACTAACGAAGAGTTAGCGTTGGCTGACGT -TCTTACTGGTGTGCCGATGGTGGCGGATTATCCTTCGCTCAATCTGGGGCAGGCGGTGATGGTCTATTGCTATCA -ATTAGCAACATTAATACAACAACCGGCGAAAAGTGATGCAACGGCAGACCAACATCAACTGCAAGCTTTACGCGA -ACGAGCCATGACATTGCTGACGACTCTGGCAGTGGCAGATGACATAAAACTGGTCGACTGGTTACAACAACGCCT -GGGGCTTTTAGAGCAACGAGACACGGCAATGTTGCACCGTTTGCTGCATGATATTGAAAAAAATATCACCAAATA -AAAAACGCCTTAGTAAGTATTTTTC +>U00096.3 Escherichia coli str. K-12 substr. MG1655, complete genome +AGCTTTTCATTCTGACTGCAACGGGCAATATGTCTCTGTGTGGATTAAAAAAAGAGTGTCTGATAGCAGC +TTCTGAACTGGTTACCTGCCGTGAGTAAATTAAAATTTTATTGACTTAGGTCACTAAATACTTTAACCAA +TATAGGCATAGCGCACAGACAGATAAAAATTACAGAGTACACAACATCCATGAAACGCATTAGCACCACC +ATTACCACCACCATCACCATTACCACAGGTAACGGTGCGGGCTGACGCGTACAGGAAACACAGAAAAAAG +CCCGCACCTGACAGTGCGGGCTTTTTTTTTCGACCAAAGGTAACGAGGTAACAACCATGCGAGTGTTGAA +GTTCGGCGGTACATCAGTGGCAAATGCAGAACGTTTTCTGCGTGTTGCCGATATTCTGGAAAGCAATGCC +AGGCAGGGGCAGGTGGCCACCGTCCTCTCTGCCCCCGCCAAAATCACCAACCACCTGGTGGCGATGATTG +AAAAAACCATTAGCGGCCAGGATGCTTTACCCAATATCAGCGATGCCGAACGTATTTTTGCCGAACTTTT +GACGGGACTCGCCGCCGCCCAGCCGGGGTTCCCGCTGGCGCAATTGAAAACTTTCGTCGATCAGGAATTT +GCCCAAATAAAACATGTCCTGCATGGCATTAGTTTGTTGGGGCAGTGCCCGGATAGCATCAACGCTGCGC +TGATTTGCCGTGGCGAGAAAATGTCGATCGCCATTATGGCCGGCGTATTAGAAGCGCGCGGTCACAACGT +TACTGTTATCGATCCGGTCGAAAAACTGCTGGCAGTGGGGCATTACCTCGAATCTACCGTCGATATTGCT +GAGTCCACCCGCCGTATTGCGGCAAGCCGCATTCCGGCTGATCACATGGTGCTGATGGCAGGTTTCACCG +CCGGTAATGAAAAAGGCGAACTGGTGGTGCTTGGACGCAACGGTTCCGACTACTCTGCTGCGGTGCTGGC +TGCCTGTTTACGCGCCGATTGTTGCGAGATTTGGACGGACGTTGACGGGGTCTATACCTGCGACCCGCGT +CAGGTGCCCGATGCGAGGTTGTTGAAGTCGATGTCCTACCAGGAAGCGATGGAGCTTTCCTACTTCGGCG +CTAAAGTTCTTCACCCCCGCACCATTACCCCCATCGCCCAGTTCCAGATCCCTTGCCTGATTAAAAATAC +CGGAAATCCTCAAGCACCAGGTACGCTCATTGGTGCCAGCCGTGATGAAGACGAATTACCGGTCAAGGGC +ATTTCCAATCTGAATAACATGGCAATGTTCAGCGTTTCTGGTCCGGGGATGAAAGGGATGGTCGGCATGG +CGGCGCGCGTCTTTGCAGCGATGTCACGCGCCCGTATTTCCGTGGTGCTGATTACGCAATCATCTTCCGA +ATACAGCATCAGTTTCTGCGTTCCACAAAGCGACTGTGTGCGAGCTGAACGGGCAATGCAGGAAGAGTTC +TACCTGGAACTGAAAGAAGGCTTACTGGAGCCGCTGGCAGTGACGGAACGGCTGGCCATTATCTCGGTGG +TAGGTGATGGTATGCGCACCTTGCGTGGGATCTCGGCGAAATTCTTTGCCGCACTGGCCCGCGCCAATAT +CAACATTGTCGCCATTGCTCAGGGATCTTCTGAACGCTCAATCTCTGTCGTGGTAAATAACGATGATGCG +ACCACTGGCGTGCGCGTTACTCATCAGATGCTGTTCAATACCGATCAGGTTATCGAAGTGTTTGTGATTG +GCGTCGGTGGCGTTGGCGGTGCGCTGCTGGAGCAACTGAAGCGTCAGCAAAGCTGGCTGAAGAATAAACA +TATCGACTTACGTGTCTGCGGTGTTGCCAACTCGAAGGCTCTGCTCACCAATGTACATGGCCTTAATCTG +GAAAACTGGCAGGAAGAACTGGCGCAAGCCAAAGAGCCGTTTAATCTCGGGCGCTTAATTCGCCTCGTGA +AAGAATATCATCTGCTGAACCCGGTCATTGTTGACTGCACTTCCAGCCAGGCAGTGGCGGATCAATATGC +CGACTTCCTGCGCGAAGGTTTCCACGTTGTCACGCCGAACAAAAAGGCCAACACCTCGTCGATGGATTAC +TACCATCAGTTGCGTTATGCGGCGGAAAAATCGCGGCGTAAATTCCTCTATGACACCAACGTTGGGGCTG +GATTACCGGTTATTGAGAACCTGCAAAATCTGCTCAATGCAGGTGATGAATTGATGAAGTTCTCCGGCAT +TCTTTCTGGTTCGCTTTCTTATATCTTCGGCAAGTTAGACGAAGGCATGAGTTTCTCCGAGGCGACCACG +CTGGCGCGGGAAATGGGTTATACCGAACCGGACCCGCGAGATGATCTTTCTGGTATGGATGTGGCGCGTA +AACTATTGATTCTCGCTCGTGAAACGGGACGTGAACTGGAGCTGGCGGATATTGAAATTGAACCTGTGCT +GCCCGCAGAGTTTAACGCCGAGGGTGATGTTGCCGCTTTTATGGCGAATCTGTCACAACTCGACGATCTC +TTTGCCGCGCGCGTGGCGAAGGCCCGTGATGAAGGAAAAGTTTTGCGCTATGTTGGCAATATTGATGAAG +ATGGCGTCTGCCGCGTGAAGATTGCCGAAGTGGATGGTAATGATCCGCTGTTCAAAGTGAAAAATGGCGA +AAACGCCCTGGCCTTCTATAGCCACTATTATCAGCCGCTGCCGTTGGTACTGCGCGGATATGGTGCGGGC +AATGACGTTACAGCTGCCGGTGTCTTTGCTGATCTGCTACGTACCCTCTCATGGAAGTTAGGAGTCTGAC +ATGGTTAAAGTTTATGCCCCGGCTTCCAGTGCCAATATGAGCGTCGGGTTTGATGTGCTCGGGGCGGCGG +TGACACCTGTTGATGGTGCATTGCTCGGAGATGTAGTCACGGTTGAGGCGGCAGAGACATTCAGTCTCAA +CAACCTCGGACGCTTTGCCGATAAGCTGCCGTCAGAACCACGGGAAAATATCGTTTATCAGTGCTGGGAG +CGTTTTTGCCAGGAACTGGGTAAGCAAATTCCAGTGGCGATGACCCTGGAAAAGAATATGCCGATCGGTT +CGGGCTTAGGCTCCAGTGCCTGTTCGGTGGTCGCGGCGCTGATGGCGATGAATGAACACTGCGGCAAGCC +GCTTAATGACACTCGTTTGCTGGCTTTGATGGGCGAGCTGGAAGGCCGTATCTCCGGCAGCATTCATTAC +GACAACGTGGCACCGTGTTTTCTCGGTGGTATGCAGTTGATGATCGAAGAAAACGACATCATCAGCCAGC +AAGTGCCAGGGTTTGATGAGTGGCTGTGGGTGCTGGCGTATCCGGGGATTAAAGTCTCGACGGCAGAAGC +CAGGGCTATTTTACCGGCGCAGTATCGCCGCCAGGATTGCATTGCGCACGGGCGACATCTGGCAGGCTTC +ATTCACGCCTGCTATTCCCGTCAGCCTGAGCTTGCCGCGAAGCTGATGAAAGATGTTATCGCTGAACCCT +ACCGTGAACGGTTACTGCCAGGCTTCCGGCAGGCGCGGCAGGCGGTCGCGGAAATCGGCGCGGTAGCGAG +CGGTATCTCCGGCTCCGGCCCGACCTTGTTCGCTCTGTGTGACAAGCCGGAAACCGCCCAGCGCGTTGCC +GACTGGTTGGGTAAGAACTACCTGCAAAATCAGGAAGGTTTTGTTCATATTTGCCGGCTGGATACGGCGG +GCGCACGAGTACTGGAAAACTAAATGAAACTCTACAATCTGAAAGATCACAACGAGCAGGTCAGCTTTGC +GCAAGCCGTAACCCAGGGGTTGGGCAAAAATCAGGGGCTGTTTTTTCCGCACGACCTGCCGGAATTCAGC +CTGACTGAAATTGATGAGATGCTGAAGCTGGATTTTGTCACCCGCAGTGCGAAGATCCTCTCGGCGTTTA +TTGGTGATGAAATCCCACAGGAAATCCTGGAAGAGCGCGTGCGCGCGGCGTTTGCCTTCCCGGCTCCGGT +CGCCAATGTTGAAAGCGATGTCGGTTGTCTGGAATTGTTCCACGGGCCAACGCTGGCATTTAAAGATTTC +GGCGGTCGCTTTATGGCACAAATGCTGACCCATATTGCGGGTGATAAGCCAGTGACCATTCTGACCGCGA +CCTCCGGTGATACCGGAGCGGCAGTGGCTCATGCTTTCTACGGTTTACCGAATGTGAAAGTGGTTATCCT +CTATCCACGAGGCAAAATCAGTCCACTGCAAGAAAAACTGTTCTGTACATTGGGCGGCAATATCGAAACT +GTTGCCATCGACGGCGATTTCGATGCCTGTCAGGCGCTGGTGAAGCAGGCGTTTGATGATGAAGAACTGA +AAGTGGCGCTAGGGTTAAACTCGGCTAACTCGATTAACATCAGCCGTTTGCTGGCGCAGATTTGCTACTA +CTTTGAAGCTGTTGCGCAGCTGCCGCAGGAGACGCGCAACCAGCTGGTTGTCTCGGTGCCAAGCGGAAAC +TTCGGCGATTTGACGGCGGGTCTGCTGGCGAAGTCACTCGGTCTGCCGGTGAAACGTTTTATTGCTGCGA +CCAACGTGAACGATACCGTGCCACGTTTCCTGCACGACGGTCAGTGGTCACCCAAAGCGACTCAGGCGAC +GTTATCCAACGCGATGGACGTGAGTCAGCCGAACAACTGGCCGCGTGTGGAAGAGTTGTTCCGCCGCAAA +ATCTGGCAACTGAAAGAGCTGGGTTATGCAGCCGTGGATGATGAAACCACGCAACAGACAATGCGTGAGT +TAAAAGAACTGGGCTACACTTCGGAGCCGCACGCTGCCGTAGCTTATCGTGCGCTGCGTGATCAGTTGAA +TCCAGGCGAATATGGCTTGTTCCTCGGCACCGCGCATCCGGCGAAATTTAAAGAGAGCGTGGAAGCGATT +CTCGGTGAAACGTTGGATCTGCCAAAAGAGCTGGCAGAACGTGCTGATTTACCCTTGCTTTCACATAATC +TGCCCGCCGATTTTGCTGCGTTGCGTAAATTGATGATGAATCATCAGTAAAATCTATTCATTATCTCAAT +CAGGCCGGGTTTGCTTTTATGCAGCCCGGCTTTTTTATGAAGAAATTATGGAGAAAAATGACAGGGAAAA +AGGAGAAATTCTCAATAAATGCGGTAACTTAGAGATTAGGATTGCGGAGAATAACAACCGCCGTTCTCAT +CGAGTAATCTCCGGATATCGACCCATAACGGGCAATGATAAAAGGAGTAACCTGTGAAAAAGATGCAATC +TATCGTACTCGCACTTTCCCTGGTTCTGGTCGCTCCCATGGCAGCACAGGCTGCGGAAATTACGTTAGTC +CCGTCAGTAAAATTACAGATAGGCGATCGTGATAATCGTGGCTATTACTGGGATGGAGGTCACTGGCGCG +ACCACGGCTGGTGGAAACAACATTATGAATGGCGAGGCAATCGCTGGCACCTACACGGACCGCCGCCACC +GCCGCGCCACCATAAGAAAGCTCCTCATGATCATCACGGCGGTCATGGTCCAGGCAAACATCACCGCTAA +ATGACAAATGCCGGGTAACAATCCGGCATTCAGCGCCTGATGCGACGCTGGCGCGTCTTATCAGGCCTAC +GTTAATTCTGCAATATATTGAATCTGCATGCTTTTGTAGGCAGGATAAGGCGTTCACGCCGCATCCGGCA +TTGACTGCAAACTTAACGCTGCTCGTAGCGTTTAAACACCAGTTCGCCATTGCTGGAGGAATCTTCATCA +AAGAAGTAACCTTCGCTATTAAAACCAGTCAGTTGCTCTGGTTTGGTCAGCCGATTTTCAATAATGAAAC +GACTCATCAGACCGCGTGCTTTCTTAGCGTAGAAGCTGATGATCTTAAATTTGCCGTTCTTCTCATCGAG +GAACACCGGCTTGATAATCTCGGCATTCAATTTCTTCGGCTTCACCGATTTAAAATACTCATCTGACGCC +AGATTAATCACCACATTATCGCCTTGTGCTGCGAGCGCCTCGTTCAGCTTGTTGGTGATGATATCTCCCC +AGAATTGATACAGATCTTTCCCTCGGGCATTCTCAAGACGGATCCCCATTTCCAGACGATAAGGCTGCAT +TAAATCGAGCGGGCGGAGTACGCCATACAAGCCGGAAAGCATTCGCAAATGCTGTTGGGCAAAATCGAAA +TCGTCTTCGCTGAAGGTTTCGGCCTGCAAGCCGGTGTAGACATCACCTTTAAACGCCAGAATCGCCTGGC +GGGCATTCGCCGGCGTGAAATCTGGCTGCCAGTCATGAAAGCGAGCGGCGTTGATACCCGCCAGTTTGTC +GCTGATGCGCATCAGCGTGCTAATCTGCGGAGGCGTCAGTTTCCGCGCCTCATGGATCAACTGCTGGGAA +TTGTCTAACAGCTCCGGCAGCGTATAGCGCGTGGTGGTCAACGGGCTTTGGTAATCAAGCGTTTTCGCAG +GTGAAATAAGAATCAGCATATCCAGTCCTTGCAGGAAATTTATGCCGACTTTAGCAAAAAATGAGAATGA +GTTGATCGATAGTTGTGATTACTCCTGCGAAACATCATCCCACGCGTCCGGAGAAAGCTGGCGACCGATA +TCCGGATAACGCAATGGATCAAACACCGGGCGCACGCCGAGTTTACGCTGGCGTAGATAATCACTGGCAA +TGGTATGAACCACAGGCGAGAGCAGTAAAATGGCGGTCAAATTGGTAATAGCCATGCAGGCCATTATGAT +ATCTGCCAGTTGCCACATCAGCGGAAGGCTTAGCAAGGTGCCGCCGATGACCGTTGCGAAGGTGCAGATC +CGCAAACACCAGATCGCTTTAGGGTTGTTCAGGCGTAAAAAGAAGAGATTGTTTTCGGCATAAATGTAGT +TGGCAACGATGGAGCTGAAGGCAAACAGAATAACCACAAGGGTAACAAACTCAGCACCCCAGGAACCCAT +TAGCACCCGCATCGCCTTCTGGATAAGCTGAATACCTTCCAGCGGCATGTAGGTTGTGCCGTTACCCGCC +AGTAATATCAGCATGGCGCTTGCCGTACAGATGACCAGGGTGTCGATAAAAATGCCAATCATCTGGACAA +TCCCTTGCGCTGCCGGATGCGGAGGCCAGGACGCCGCTGCCGCTGCCGCGTTTGGCGTCGAACCCATTCC +CGCCTCATTGGAAAACATACTGCGCTGAAAACCGTTAGTAATCGCCTGGCTTAAGGTATATCCCGCCGCG +CCGCCTGCCGCTTCCTGCCAGCCAAAAGCACTCTCAAAAATAGACCAAATGACGTGGGGAAGTTGCCCGA +TATTCATTACGCAAATTACCAGGCTGGTCAGTACCCAGATTATCGCCATCAACGGGACAAAGCCCTGCAT +GAGCCGGGCGACGCCATGAAGACCGCGAGTGATTGCCAGCAGAGTAAAGACAGCGAGAATAATGCCTGTC +ACCAGCGGGGGAAAATCAAAAGAAAAACTCAGGGCGCGGGCAACGGCGTTCGCTTGAACTCCGCTGAAAA +TTATGCCATAGGCGATGAGCAAAAAGACGGCGAACAGAACGCCCATCCAGCGCATCCCCAGCCCGCGCGC +CATATACCATGCCGGTCCGCCACGAAACTGCCCATTGACGTCACGTTCTTTATAAAGTTGTGCCAGAGAA +CATTCGGCAAACGAGGTCGCCATGCCGATAAACGCGGCAACCCACATCCAAAAGACGGCTCCAGGTCCAC +CGGCGGTAATAGCCAGCGCAACGCCGGCCAGGTTGCCGCTACCCACGCGCGCCGCAAGACTGGTACACAA +TGACTGAAATGAGGTTAAACCGCCTGGCTGTGGATGAATGCTATTTTTAAGACTTTTGCCAAACTGGCGG +ATGTAGCGAAACTGCACAAATCCGGTGCGAAAAGTGAACCAACAACCTGCGCCGAAGAGCAGGTAAATCA +TTACCGATCCCCAAAGGACGCTGTTAATGAAGGAGAAAAAATCTGGCATGCATATCCCTCTTATTGCCGG +TCGCGATGACTTTCCTGTGTAAACGTTACCAATTGTTTAAGAAGTATATACGCTACGAGGTACTTGATAA +CTTCTGCGTAGCATACATGAGGTTTTGTATAAAAATGGCGGGCGATATCAACGCAGTGTCAGAAATCCGA +AACAGTCTCGCCTGGCGATAACCGTCTTGTCGGCGGTTGCGCTGACGTTGCGTCGTGATATCATCAGGGC +AGACCGGTTACATCCCCCTAACAAGCTGTTTAAAGAGAAATACTATCATGACGGACAAATTGACCTCCCT +TCGTCAGTACACCACCGTAGTGGCCGACACTGGGGACATCGCGGCAATGAAGCTGTATCAACCGCAGGAT +GCCACAACCAACCCTTCTCTCATTCTTAACGCAGCGCAGATTCCGGAATACCGTAAGTTGATTGATGATG +CTGTCGCCTGGGCGAAACAGCAGAGCAACGATCGCGCGCAGCAGATCGTGGACGCGACCGACAAACTGGC +AGTAAATATTGGTCTGGAAATCCTGAAACTGGTTCCGGGCCGTATCTCAACTGAAGTTGATGCGCGTCTT +TCCTATGACACCGAAGCGTCAATTGCGAAAGCAAAACGCCTGATCAAACTCTACAACGATGCTGGTATTA +GCAACGATCGTATTCTGATCAAACTGGCTTCTACCTGGCAGGGTATCCGTGCTGCAGAACAGCTGGAAAA +AGAAGGCATCAACTGTAACCTGACCCTGCTGTTCTCCTTCGCTCAGGCTCGTGCTTGTGCGGAAGCGGGC +GTGTTCCTGATCTCGCCGTTTGTTGGCCGTATTCTTGACTGGTACAAAGCGAATACCGATAAGAAAGAGT +ACGCTCCGGCAGAAGATCCGGGCGTGGTTTCTGTATCTGAAATCTACCAGTACTACAAAGAGCACGGTTA +TGAAACCGTGGTTATGGGCGCAAGCTTCCGTAACATCGGCGAAATTCTGGAACTGGCAGGCTGCGACCGT +CTGACCATCGCACCGGCACTGCTGAAAGAGCTGGCGGAGAGCGAAGGGGCTATCGAACGTAAACTGTCTT +ACACCGGCGAAGTGAAAGCGCGTCCGGCGCGTATCACTGAGTCCGAGTTCCTGTGGCAGCACAACCAGGA +TCCAATGGCAGTAGATAAACTGGCGGAAGGTATCCGTAAGTTTGCTATTGACCAGGAAAAACTGGAAAAA +ATGATCGGCGATCTGCTGTAATCATTCTTAGCGTGACCGGGAAGTCGGTCACGCTACCTCTTCTGAAGCC +TGTCTGTCACTCCCTTCGCAGTGTATCATTCTGTTTAACGAGACTGTTTAAACGGAAAAATCTTGATGAA +TACTTTACGTATTGGCTTAGTTTCCATCTCTGATCGCGCATCCAGCGGCGTTTATCAGGATAAAGGCATC +CCTGCGCTGGAAGAATGGCTGACATCGGCGCTAACCACGCCGTTTGAACTGGAAACCCGCTTAATCCCCG +ATGAGCAGGCGATCATCGAGCAAACGTTGTGTGAGCTGGTGGATGAAATGAGTTGCCATCTGGTGCTCAC +CACGGGCGGAACTGGCCCGGCGCGTCGTGACGTAACGCCCGATGCGACGCTGGCAGTAGCGGACCGCGAG +ATGCCTGGCTTTGGTGAACAGATGCGCCAGATCAGCCTGCATTTTGTACCAACTGCGATCCTTTCGCGTC +AGGTGGGCGTGATTCGCAAACAGGCGCTGATCCTTAACTTACCCGGTCAGCCGAAGTCTATTAAAGAGAC +GCTGGAAGGTGTGAAGGACGCTGAGGGTAACGTTGTGGTACACGGTATTTTTGCCAGCGTACCGTACTGC +ATTCAGTTGCTGGAAGGGCCATACGTTGAAACGGCACCGGAAGTGGTTGCAGCATTCAGACCGAAGAGTG +CAAGACGCGACGTTAGCGAATAAAAAAATCCCCCCGAGCGGGGGGATCTCAAAACAATTAGTGGGATTCA +CCAATCGGCAGAACGGTGCGACCAAACTGCTCGTTCAGTACTTCACCCATCGCCAGATAGATTGCGCTGG +CACCGCAGATCAGCCCAATCCAGCCGGCAAAGTGGATGATTGCGGCGTTACCGGCAATGTTACCGATCGC +CAGCAGGGCAAACAGCACGGTCAGGCTAAAGAAAACGAATTGCAGAACGCGTGCGCCTTTCAGCGTGCCG +AAGAACATAAACAGCGTAAATACGCCCCACAGACCCAGGTAGACACCAAGGAACTGTGCATTTGGCGCAT +CGGTCAGACCCAGTTTCGGCATCAGCAGAATCGCAACCAGCGTCAGCCAGAAAGAACCGTAAGAGGTGAA +TGCGGTTAAACCGAAAGTGTTGCCTTTTTTGTACTCCAGCAGACCAGCAAAAATTTGCGCGATGCCGCCG +TAGAAAATGCCCATGGCAAGAATAATACCGTCCAGAGCGAAATAACCCACGTTGTGCAGGTTAAGCAGAA +TGGTGGTCATGCCGAAGCCCATCAGGCCCAGCGGTGCCGGATTAGCCAACTTAGTGTTGCCCATAATTCC +TCAAAAATCATCATCGAATGAATGGTGAAATAATTTCCCTGAATAACTGTAGTGTTTTCAGGGCGCGGCA +TAATAATCAGCCAGTGGGGCAGTGTCTACGATCTTTTGAGGGGAAAATGAAAATTTTCCCCGGTTTCCGG +TATCAGACCTGAGTGGCGCTAACCATCCGGCGCAGGCAGGCGATTTGCAGTACGGCTGGAATCGTCACGC +GATAGGCGCTGCCGCTGACCGCTTTAACCCCATTTAGTGCCGCACCTACAGGGCCTCCCAGCCCCGCGCC +GCGCAGCAAACCATGCCCAAGTACGCTCATTGCTGCGTGGGTGCGTAAAATGCGGGTCAGTTGGCTGGAA +AGCAAATGCGACACACCTTTTGCCAATAATTTGTCTTTCATCAGCAGCGGCAGCAGCTCTTCCAGCTCAT +TCACCCTGGCATCGACCGCGTGCAGAAACTCCTGCTTATGTTCCTCGTCCATTTTCTTCCAGGTATTACG +CAGAAATTGTTCCAGTAACTGTTGCTCAATTTCAAACGTAGACATCTCTTTGTCGGCTTTCAGCTTCAAT +CGCTTTGAAACATCGAGCAAAATGGCCCGATACAATTTACCGTGTCCGCGCAGTTTGTTGGCGATACTAT +CGCCACCAAAATGCTGTAATTCTCCGGCAATCAGCTGCCAGTTGCGGCGATGTTGCTCGGGATGCCCTTC +CATCGATTTAAACAGTTCGTTGCGCATCAGTACGCTGGAGAGGCGAGTTTTGCCTTTTTCATTATGGGTG +AGCAATCGGGCGAAATTTGCCAACTGTTCCTCACTACAATGCTGAAGAAAATCCAGATCTGAATCATTCA +GGTAATTAACATTCATTTTTTGTGGCTTCTATATTCTGGCGTTAGTCGTCGCCGATAATTTTCAGCGTGG +CCATATCCGATGAGTTCACCGTATGACCCGAAAAGGTGATTTTTGAGACGCAGCGTTTATTGTCGTTATC +GCTGTTAATGTTGATCCAGTCAGTGGTTTGCCCTTCTTTTATTTCTGAAGGAATATTCAGGCTCTGACTG +GCGCTACGGGCGGCTTTGAAATAAACCGATGCACCGCTTAACTGTAAATCGCCATGGTCGGCAGAGAGTT +GTATGCGTTTCACAATGCGACAAACAGGAAGTTTCAGCGCCAGATCGTTGGTTTCGTTACGCGGCATTGC +AATGGCGCCGAGGAGTTTATGGTCGTTTGCCTGCGCCGTGCAGCACAGCATCAGGCTAATCGCCAGGCTG +GCGGAAATCGTAAAAACGGATTTCATAAGGATTCTCTTAGTGGGAAGAGGTAGGGGGATGAATACCCACT +AGTTTACTGCTGATAAAGAGAAGATTCAGGCACGTAATCTTTTCTTTTTATTACAATTTTTTGATGAATG +CCTTGGCTGCGATTCATTCTTTATATGAATAAAATTGCTGTCAATTTTACGTCTTGTCCTGCCATATCGC +GAAATTTCTGCGCAAAAGCACAAAAAATTTTTGCATCTCCCCCTTGATGACGTGGTTTACGACCCCATTT +AGTAGTCAACCGCAGTGAGTGAGTCTGCAAAAAAATGAAATTGGGCAGTTGAAACCAGACGTTTCGCCCC +TATTACAGACTCACAACCACATGATGACCGAATATATAGTGGAGACGTTTAGATGGGTAAAATAATTGGT +ATCGACCTGGGTACTACCAACTCTTGTGTAGCGATTATGGATGGCACCACTCCTCGCGTGCTGGAGAACG +CCGAAGGCGATCGCACCACGCCTTCTATCATTGCCTATACCCAGGATGGTGAAACTCTAGTTGGTCAGCC +GGCTAAACGTCAGGCAGTGACGAACCCGCAAAACACTCTGTTTGCGATTAAACGCCTGATTGGTCGCCGC +TTCCAGGACGAAGAAGTACAGCGTGATGTTTCCATCATGCCGTTCAAAATTATTGCTGCTGATAACGGCG +ACGCATGGGTCGAAGTTAAAGGCCAGAAAATGGCACCGCCGCAGATTTCTGCTGAAGTGCTGAAAAAAAT +GAAGAAAACCGCTGAAGATTACCTGGGTGAACCGGTAACTGAAGCTGTTATCACCGTACCGGCATACTTT +AACGATGCTCAGCGTCAGGCAACCAAAGACGCAGGCCGTATCGCTGGTCTGGAAGTAAAACGTATCATCA +ACGAACCGACCGCAGCTGCGCTGGCTTACGGTCTGGACAAAGGCACTGGCAACCGTACTATCGCGGTTTA +TGACCTGGGTGGTGGTACTTTCGATATTTCTATTATCGAAATCGACGAAGTTGACGGCGAAAAAACCTTC +GAAGTTCTGGCAACCAACGGTGATACCCACCTGGGGGGTGAAGACTTCGACAGCCGTCTGATCAACTATC +TGGTTGAAGAATTCAAGAAAGATCAGGGCATTGACCTGCGCAACGATCCGCTGGCAATGCAGCGCCTGAA +AGAAGCGGCAGAAAAAGCGAAAATCGAACTGTCTTCCGCTCAGCAGACCGACGTTAACCTGCCATACATC +ACTGCAGACGCGACCGGTCCGAAACACATGAACATCAAAGTGACTCGTGCGAAACTGGAAAGCCTGGTTG +AAGATCTGGTAAACCGTTCCATTGAGCCGCTGAAAGTTGCACTGCAGGACGCTGGCCTGTCCGTATCTGA +TATCGACGACGTTATCCTCGTTGGTGGTCAGACTCGTATGCCAATGGTTCAGAAGAAAGTTGCTGAGTTC +TTTGGTAAAGAGCCGCGTAAAGACGTTAACCCGGACGAAGCTGTAGCAATCGGTGCTGCTGTTCAGGGTG +GTGTTCTGACTGGTGACGTAAAAGACGTACTGCTGCTGGACGTTACCCCGCTGTCTCTGGGTATCGAAAC +CATGGGCGGTGTGATGACGACGCTGATCGCGAAAAACACCACTATCCCGACCAAGCACAGCCAGGTGTTC +TCTACCGCTGAAGACAACCAGTCTGCGGTAACCATCCATGTGCTGCAGGGTGAACGTAAACGTGCGGCTG +ATAACAAATCTCTGGGTCAGTTCAACCTAGATGGTATCAACCCGGCACCGCGCGGCATGCCGCAGATCGA +AGTTACCTTCGATATCGATGCTGACGGTATCCTGCACGTTTCCGCGAAAGATAAAAACAGCGGTAAAGAG +CAGAAGATCACCATCAAGGCTTCTTCTGGTCTGAACGAAGATGAAATCCAGAAAATGGTACGCGACGCAG +AAGCTAACGCCGAAGCTGACCGTAAGTTTGAAGAGCTGGTACAGACTCGCAACCAGGGCGACCATCTGCT +GCACAGCACCCGTAAGCAGGTTGAAGAAGCAGGCGACAAACTGCCGGCTGACGACAAAACTGCTATCGAG +TCTGCGCTGACTGCACTGGAAACTGCTCTGAAAGGTGAAGACAAAGCCGCTATCGAAGCGAAAATGCAGG +AACTGGCACAGGTTTCCCAGAAACTGATGGAAATCGCCCAGCAGCAACATGCCCAGCAGCAGACTGCCGG +TGCTGATGCTTCTGCAAACAACGCGAAAGATGACGATGTTGTCGACGCTGAATTTGAAGAAGTCAAAGAC +AAAAAATAATCGCCCTATAAACGGGTAATTATACTGACACGGGCGAAGGGGAATTTCCTCTCCGCCCGTG +CATTCATCTAGGGGCAATTTAAAAAAGATGGCTAAGCAAGATTATTACGAGATTTTAGGCGTTTCCAAAA +CAGCGGAAGAGCGTGAAATCAGAAAGGCCTACAAACGCCTGGCCATGAAATACCACCCGGACCGTAACCA +GGGTGACAAAGAGGCCGAGGCGAAATTTAAAGAGATCAAGGAAGCTTATGAAGTTCTGACCGACTCGCAA +AAACGTGCGGCATACGATCAGTATGGTCATGCTGCGTTTGAGCAAGGTGGCATGGGCGGCGGCGGTTTTG +GCGGCGGCGCAGACTTCAGCGATATTTTTGGTGACGTTTTCGGCGATATTTTTGGCGGCGGACGTGGTCG +TCAACGTGCGGCGCGCGGTGCTGATTTACGCTATAACATGGAGCTCACCCTCGAAGAAGCTGTACGTGGC +GTGACCAAAGAGATCCGCATTCCGACTCTGGAAGAGTGTGACGTTTGCCACGGTAGCGGTGCAAAACCAG +GTACACAGCCGCAGACTTGTCCGACCTGTCATGGTTCTGGTCAGGTGCAGATGCGCCAGGGATTCTTCGC +TGTACAGCAGACCTGTCCACACTGTCAGGGCCGCGGTACGCTGATCAAAGATCCGTGCAACAAATGTCAT +GGTCATGGTCGTGTTGAGCGCAGCAAAACGCTGTCCGTTAAAATCCCGGCAGGGGTGGACACTGGAGACC +GCATCCGTCTTGCGGGCGAAGGTGAAGCGGGCGAGCATGGCGCACCGGCAGGCGATCTGTACGTTCAGGT +TCAGGTTAAACAGCACCCGATTTTCGAGCGTGAAGGCAACAACCTGTATTGCGAAGTCCCGATCAACTTC +GCTATGGCGGCGCTGGGTGGCGAAATCGAAGTACCGACCCTTGATGGTCGCGTCAAACTGAAAGTGCCTG +GCGAAACCCAGACCGGTAAGCTATTCCGTATGCGCGGTAAAGGCGTCAAGTCTGTCCGCGGTGGCGCACA +GGGTGATTTGCTGTGCCGCGTTGTCGTCGAAACACCGGTAGGCCTGAACGAAAGGCAGAAACAGCTGCTG +CAAGAGCTGCAAGAAAGCTTCGGTGGCCCAACCGGCGAGCACAACAGCCCGCGCTCAAAGAGCTTCTTTG +ATGGTGTGAAGAAGTTTTTTGACGACCTGACCCGCTAACCTCCCCAAAAGCCTGCCCGTGGGCAGGCCTG +GGTAAAAATAGGGTGCGTTGAAGATATGCGAGCACCTGTAAAGTGGCGGGGATCACTCCCATAAGCGCTA +ACTTAAGGGTTGTGGTATTACGCCTGATATGATTTAACGTGCCGATGAATTACTCTCACGATAACTGGTC +AGCAATTCTGGCCCATATTGGTAAGCCCGAAGAACTGGATACTTCGGCACGTAATGCCGGGGCTCTAACC +CGCCGCCGCGAAATTCGTGATGCTGCAACTCTGCTACGTCTGGGGCTGGCTTACGGCCCCGGGGGGATGT +CATTACGTGAAGTCACTGCATGGGCTCAGCTCCATGACGTTGCAACATTATCTGACGTGGCTCTCCTGAA +GCGGCTGCGGAATGCCGCCGACTGGTTTGGCATACTTGCCGCACAAACACTTGCTGTACGCGCCGCAGTT +ACGGGTTGTACAAGCGGAAAGAGATTGCGTCTTGTCGATGGAACAGCAATCAGTGCGCCCGGGGGCGGCA +GCGCTGAATGGCGACTACATATGGGATATGATCCTCATACCTGTCAGTTCACTGATTTTGAGCTAACCGA +CAGCAGAGACGCTGAACGGCTGGACCGATTTGCGCAAACGGCAGACGAGATACGCATTGCTGACCGGGGA +TTCGGTTCGCGTCCCGAATGTATCCGCTCACTTGCTTTTGGAGAAGCTGATTATATCGTCCGGGTTCACT +GGCGAGGATTGCGCTGGTTAACTGCAGAAGGAATGCGCTTTGACATGATGGGTTTTCTGCGCGGGCTGGA +TTGCGGTAAGAACGGTGAAACCACTGTAATGATAGGCAATTCAGGTAATAAAAAAGCCGGAGCTCCCTTT +CCGGCACGTCTCATTGCCGTATCACTTCCTCCCGAAAAAGCATTAATCAGTAAAACCCGACTGCTCAGCG +AGAATCGTCGAAAAGGACGAGTAGTTCAGGCGGAAACGCTGGAAGCAGCGGGCCATGTGCTATTGCTAAC +ATCATTACCGGAAGATGAATATTCAGCAGAGCAAGTGGCTGATTGTTACCGTCTGCGATGGCAAATTGAA +CTGGCTTTTAAGCGGCTCAAAAGTTTGCTGCACCTGGATGCTTTGCGTGCAAAGGAACCTGAACTCGCGA +AAGCGTGGATATTTGCTAATCTACTCGCCGCATTTTTAATTGACGACATAATCCAGCCATCGCTGGATTT +CCCCCCCAGAAGTGCCGGATCCGAAAAGAAGAACTAACTCGTTGTGGAGAATAACAAAAATGGTCATCTG +GAGCTTACAGGTGGCCATTCGTGGGACAGTATCCCTGACAGCCTACAAAACGCAATTGAAGAACGCGAGG +CATCGTCTTAACGAGGCACCGAGGCGTCGCATTCTTCAGATGGTTCAACCCTTAAGTTAGCGCTTATGGG +ATCACTCCCCGCCGTTGCTCTTACTCGGATTCGTAAGCCGTGAAAACAGCAACCTCCGTCTGGCCAGTTC +GGATGTGAACCTCACAGAGGTCTTTTCTCGTTACCAGCGCCGCCACTACGGCGGTGATACAGATGACGAT +CAGGGCGACAATCATCGCCTTATGCTGCTTCATTGCTCTCTTCTCCTTGACCTTACGGTCAGTAAGAGGC +ACTCTACATGTGTTCAGCATATAGGAGGCCTCGGGTTGATGGTAAAATATCACTCGGGGCTTTTCTCTAT +CTGCCGTTCAGCTAATGCCTGAGACAGACAGCCTCAAGCACCCGCCGCTATTATATCGCTCTCTTTAACC +CATTTTGTTTTATCGATTCTAATCCTGAAGACGCCTCGCATTTTTGTGGCGTAATTTTTTAATGATTTAA +TTATTTAACTTTAATTTATCTCTTCATCGCAATTATTGACGACAAGCTGGATTATTTTTGAAATATTGGC +CTAACAAGCATCGCCGACTGACAACAAATTAATTATTACTTTTCCTAATTAATCCCTCAGGAATCCTCAC +CTTAAGCTATGATTATCTAGGCTTAGGGTCACTCGTGAGCGCTTACAGCCGTCAAAAACGCATCTCACCG +CTGATGGCGCAAATTCTTCAATAGCTCGTAAAAAACGAATTATTCCTACACTATAATCTGATTTTAACGA +TGATTCGTGCGGGGTAAAATAGTAAAAACGATCTATTCACCTGAAAGAGAAATAAAAAGTGAAACATCTG +CATCGATTCTTTAGCAGTGATGCCTCGGGAGGCATTATTCTTATCATTGCCGCTATCCTGGCGATGATTA +TGGCCAACAGCGGCGCAACCAGTGGATGGTATCACGACTTTCTGGAGACGCCGGTTCAGCTCCGGGTTGG +TTCACTCGAAATCAACAAAAACATGCTGTTATGGATAAATGACGCGCTGATGGCGGTATTTTTCCTGTTA +GTCGGTCTGGAAGTTAAACGTGAACTGATGCAAGGATCGCTAGCCAGCTTACGCCAGGCCGCATTTCCAG +TTATCGCCGCTATTGGTGGGATGATTGTGCCGGCATTACTCTATCTGGCTTTTAACTATGCCGATCCGAT +TACCCGCGAAGGGTGGGCGATCCCGGCGGCTACTGACATTGCTTTTGCACTTGGTGTACTGGCGCTGTTG +GGAAGTCGTGTTCCGTTAGCGCTGAAGATCTTTTTGATGGCTCTGGCTATTATCGACGATCTTGGGGCCA +TCATTATCATCGCATTGTTCTACACTAATGACTTATCGATGGCCTCTCTTGGCGTCGCGGCTGTAGCAAT +TGCGGTACTCGCGGTATTGAATCTGTGTGGTGCACGCCGCACGGGCGTCTATATTCTTGTTGGCGTGGTG +TTGTGGACTGCGGTGTTGAAATCGGGGGTTCACGCAACTCTGGCGGGGGTAATTGTCGGCTTCTTTATTC +CTTTGAAAGAGAAGCATGGGCGTTCTCCAGCGAAGCGACTGGAGCATGTGTTGCACCCGTGGGTGGCGTA +TCTGATTTTGCCGCTGTTTGCATTTGCTAATGCTGGCGTTTCACTGCAAGGCGTCACGCTGGATGGCTTG +ACCTCCATTCTGCCATTGGGGATCATCGCTGGCTTGCTGATTGGCAAACCGCTGGGGATTAGTCTGTTCT +GCTGGTTGGCGCTGCGTTTGAAACTGGCGCATCTGCCTGAGGGAACGACTTATCAGCAAATTATGGTGGT +GGGGATCCTGTGCGGTATCGGTTTTACTATGTCTATCTTTATTGCCAGCCTGGCCTTTGGTAGCGTAGAT +CCAGAACTGATTAACTGGGCGAAACTCGGTATCCTGGTCGGTTCTATCTCTTCGGCGGTAATTGGATACA +GCTGGTTACGCGTTCGTTTGCGTCCATCAGTTTGACAGGACGGTTTACCGGGGAGCCATAAACGGCTCCC +TTTTCATTGTTATCAGGGAGAGAAATGAGCATGTCTCATATCAATTACAACCACTTGTATTACTTCTGGC +ATGTCTATAAAGAAGGTTCCGTGGTTGGCGCAGCGGAGGCGCTTTATTTAACTCCACAAACCATTACCGG +ACAGATTCGAGCGCTGGAAGAGCGCCTGCAAGGCAAATTATTTAAACGCAAGGGACGTGGTCTCGAACCC +AGCGAGCTGGGAGAACTGGTCTATCGCTATGCCGATAAAATGTTCACCTTAAGCCAGGAAATGCTGGATA +TTGTGAACTATCGCAAAGAATCCAATTTATTGTTTGACGTTGGCGTGGCTGATGCACTTTCCAAACGCCT +GGTCAGTAGCGTACTTAACGCCGCAGTGGTAGAAGGCGAGCCCATTCATCTTCGCTGCTTCGAATCCACC +CACGAAATGCTGCTGGAGCAATTAAGTCAGCATAAACTGGATATGATCATTTCTGACTGTCCGATAGACT +CTACGCAGCAGGAAGGCCTGTTCTCCGTGAGAATTGGCGAATGTGGCGTGAGTTTCTGGTGTACAAATCC +ACCACCAGAAAAACCGTTCCCGGCTTGTCTGGAAGAACGGCGACTTTTGATTCCTGGGCGACGTTCAATG +TTAGGGCGCAAATTGCTTAACTGGTTTAACTCCCAGGGATTAAACGTAGAAATCCTCGGCGAGTTTGATG +ATGCCGCTTTGATGAAAGCTTTTGGTGCGATGCACAATGCAATCTTCGTTGCCCCAACGCTTTATGCATA +TGACTTTTATGCCGATAAAACTGTCGTAGAAATTGGTCGCGTCGAGAATGTGATGGAAGAGTACCATGCT +ATTTTTGCTGAGCGGATGATTCAGCACCCGGCGGTACAGCGAATCTGCAATACGGATTATTCTGCGCTTT +TTAGTCCAGCGGTGCGTTAATCGGCAGCTCCCCCAAAGTTAAGGTGGGGGAGATAGATTAGTTGTACATT +ACCACGATTTTGACTCGGCTCATTATTTGCCCGCTTGAGACATTGTTTCCATATGTACGCGGGCGAATAA +ATAGAGGAATCTGATTACTTCCTTCATGGGGATGCTGAAAAGAGTAGTAATTGCTGGTAATGACTCCAAC +TTATTGATAGTGTTTTATGTTCAGATAATGCCCGATGACTTTGTCATGCAGCTCCACCGATTTTGAGAAC +GACAGCGACTTCCGTCCCAGCCGTGCCAGGTGCTGCCTCAGATTCAGGTTATGCCGCTCAATTCGCTGCG +TATATCGCTTGCTGATTACGTGCAGCTTTCCCTTCAGGCGGGATTCATACAGCGGCCAGCCATCCGTCAT +CCATATCACCACGTCAAAGGGTGACAGCAGGCTCATAAGACGCCCCAGCGTCGCCATAGTGCGTTCACCG +AATACGTGCGCAACAACCGTCTTCCGGAGACTGTCATACGCGTAAAACAGCCAGCGCTGGCGCGATTTAG +CCCCGACATAGCCCCACTGTTCGTCCATTTCCGCGCAGACGATGACGTCACTGCCCGGCTGTATGCGCGA +GGTTACCGACTGCGGCCTGAGTTTTTTAAGTGACGTAAAATCGTGTTGAGGCCAACGCCCATAATGCGGG +CTGTTGCCCGGCATCCAACGCCATTCATGGCCATATCAATGATTTTCTGGTGCGTACCGGGTTGAGAAGC +GGTGTAAGTGAACTGCAGTTGCCATGTTTTACGGCAGTGAGAGCAGAGATAGCGCTGATGTCCGGCGGTG +CTTTTGCCGTTACGCACCACCCCGTCAGTAGCTGAACAGGAGGGACAGCTGATAGAAACAGAAGCCACTG +GAGCACCTCAAAAACACCATCATACACTAAATCAGTAAGTTGGCAGCATCACCTACCTCAATGTGTATCA +CAATATCCATATTCTTTGTGGGGGAGTCTGGAGATTGAGTAGATATTCTTGTTCAGAATGTATCAGCCGA +TGGTTCTACGATTCTTAAGCCACGAAGAGTTCAGATAGTACAACGGCATGTCTCTTTTGACTATCTGGCA +ACCGGCAGTGTGTTCTCTCACGCATCACAAAAGCAGCAGGCATAAAAAAACCCGCTTGCGCGGGCTTTTT +CACAAAGCTTCAGCAAATTGGCGATTAAGCCAGTTTGTTGATCTGTGCAGTCAGGTTAGCCTTATGACGT +GCAGCTTTGTTTTTGTGGATCAGACCTTTAGCAGCCTGACGGTCCACGATCGGTTGCATTTCGTTAAATG +CTTTCTGTGCAGCAGCTTTGTCGCCAGCTTCGATAGCTGCGTATACTTTCTTGATGAAAGTACGCATCAT +AGAGCGACGGCTTGCGTTGTGCTTACGAGCCTTTTCAGACTGAATGGCGCGCTTCTTAGCTGATTTGATA +TTAGCCAAGGTCCAACTCCCAAATGTGTTCTATATGGACAATTCAAAGGCCGAGGAATATGCCCTTTTAG +CCTTCTTTTGTCAATGGATTTGTGCAAATAAGCGCCGTTAATGTGCCGGCACTCGTTACGTAGTGATGGC +GCAGGATTCTACCAGCTTGCGGGGTGTGAATACAGCTTTTCCGCGATAAAAATTGCAGCAGGCGGTCAGT +TTCTTCCCGTGATTTGCGCCATGGCAATGAAAAGCCACTTCTTTCTGATTTCGGTACTCAATCGCCGGTT +AACCTTGACCGCTGTACAAGGTATACTCGGACGATTTTCACTGTTTTGAGCCAGACATGAAGCTGATACG +CGGCATACATAATCTCAGCCAGGCCCCGCAAGAAGGGTGTGTGCTGACTATTGGTAATTTCGACGGCGTG +CATCGCGGTCATCGCGCGCTGTTACAGGGCTTGCAGGAAGAAGGGCGCAAGCGCAACTTACCGGTGATGG +TGATGCTTTTTGAACCTCAACCACTGGAACTGTTTGCTACCGATAAAGCCCCGGCAAGACTGACCCGGCT +GCGGGAAAAACTGCGTTACCTTGCAGAGTGTGGCGTTGATTACGTGCTGTGCGTGCGTTTCGACAGGCGT +TTCGCGGCGTTAACCGCGCAAAATTTCATCAGCGATCTTCTGGTGAAGCATTTGCGCGTAAAATTTCTTG +CCGTAGGTGATGATTTCCGCTTTGGCGCTGGTCGTGAAGGCGATTTCTTGTTATTACAGAAAGCTGGCAT +GGAATACGGCTTCGATATCACCAGTACGCAAACTTTTTGCGAAGGTGGCGTGCGCATCAGCAGCACCGCC +GTGCGTCAGGCCCTTGCGGATGACAATCTGGCTCTGGCAGAGAGTTTACTGGGGCACCCGTTTGCCATCT +CCGGGCGTGTAGTCCACGGTGATGAATTAGGGCGCACTATAGGTTTCCCGACGGCGAATGTACCGCTGCG +CCGTCAGGTTTCCCCGGTGAAAGGGGTTTATGCGGTAGAAGTGCTGGGCCTCGGTGAAAAGCCGTTACCC +GGCGTGGCAAACATCGGAACACGCCCAACGGTTGCCGGTATTCGCCAGCAGCTGGAAGTGCATTTGTTAG +ATGTTGCAATGGACCTTTACGGTCGCCATATACAAGTAGTGCTGCGTAAAAAAATACGCAATGAGCAGCG +ATTTGCGTCGCTGGACGAACTGAAAGCGCAGATTGCGCGTGATGAATTAACCGCCCGCGAATTTTTTGGG +CTAACAAAACCGGCTTAAGCCTGTTATGTAATCAAACCGAAATACGGAACCGAGAATCTGATGAGTGACT +ATAAATCAACCCTGAATTTGCCGGAAACAGGGTTCCCGATGCGTGGCGATCTCGCCAAGCGCGAACCCGG +AATGCTGGCGCGTTGGACTGATGATGATCTGTACGGCATCATCCGTGCGGCTAAAAAAGGCAAAAAAACC +TTCATTCTGCATGATGGCCCTCCTTATGCGAATGGCAGCATTCATATTGGTCACTCGGTTAACAAGATTC +TGAAAGACATTATCGTGAAGTCCAAAGGGCTTTCCGGTTATGACTCGCCGTATGTGCCTGGCTGGGACTG +CCACGGTCTGCCGATCGAGCTGAAAGTCGAGCAAGAATACGGTAAGCCGGGTGAGAAATTCACCGCCGCC +GAGTTCCGCGCCAAGTGCCGCGAATACGCGGCGACCCAGGTTGACGGTCAACGCAAAGACTTTATCCGTC +TGGGCGTGCTGGGCGACTGGTCGCACCCGTACCTGACCATGGACTTCAAAACTGAAGCCAACATCATCCG +CGCGCTGGGCAAAATCATCGGCAACGGTCACCTGCACAAAGGCGCGAAGCCAGTTCACTGGTGCGTTGAC +TGCCGTTCTGCGCTGGCGGAAGCGGAAGTTGAGTATTACGACAAAACTTCTCCGTCCATCGACGTTGCTT +TCCAGGCAGTCGATCAGGATGCACTGAAAGCAAAATTTGCCGTAAGCAACGTTAACGGCCCAATCTCGCT +GGTAATCTGGACCACCACGCCGTGGACTCTGCCTGCCAACCGCGCAATCTCTATTGCACCAGATTTCGAC +TATGCGCTGGTGCAGATCGACGGTCAGGCCGTGATTCTGGCGAAAGATCTGGTTGAAAGCGTAATGCAGC +GTATCGGCGTGACCGATTACACCATTCTCGGCACGGTAAAAGGTGCGGAGCTTGAGCTGCTGCGCTTTAC +CCATCCGTTTATGGGCTTCGACGTTCCGGCAATCCTCGGCGATCACGTTACCCTGGATGCCGGTACCGGT +GCCGTTCACACCGCGCCTGGCCACGGCCCGGACGACTATGTGATCGGTCAGAAATACGGCCTGGAAACCG +CTAACCCGGTTGGCCCGGACGGCACTTATCTGCCGGGCACTTATCCGACGCTGGATGGCGTGAACGTCTT +CAAAGCGAACGACATCGTCGTTGCGCTGCTGCAGGAAAAAGGCGCGCTGCTGCACGTTGAGAAAATGCAG +CACAGCTATCCGTGCTGCTGGCGTCACAAAACGCCGATCATCTTCCGCGCGACGCCGCAGTGGTTCGTCA +GCATGGATCAGAAAGGTCTGCGTGCGCAGTCACTGAAAGAGATCAAAGGCGTGCAGTGGATCCCGGACTG +GGGCCAGGCGCGTATCGAGTCGATGGTTGCTAACCGTCCTGACTGGTGTATCTCCCGTCAGCGCACCTGG +GGTGTACCGATGTCACTGTTCGTGCACAAAGACACGGAAGAGCTGCATCCGCGTACCCTTGAACTGATGG +AAGAAGTGGCAAAACGCGTTGAAGTCGATGGCATCCAGGCGTGGTGGGATCTCGATGCGAAAGAGATCCT +CGGCGACGAAGCTGATCAGTACGTGAAAGTGCCGGACACATTGGATGTATGGTTTGACTCCGGATCTACC +CACTCTTCTGTTGTTGACGTGCGTCCGGAATTTGCCGGTCACGCAGCGGACATGTATCTGGAAGGTTCTG +ACCAACACCGCGGCTGGTTCATGTCTTCCCTAATGATCTCCACCGCGATGAAGGGTAAAGCGCCGTATCG +TCAGGTACTGACCCACGGCTTTACCGTGGATGGTCAGGGCCGCAAGATGTCTAAATCCATCGGCAATACC +GTTTCGCCGCAGGATGTGATGAACAAACTGGGCGCGGATATTCTGCGTCTGTGGGTGGCATCAACCGACT +ACACCGGTGAAATGGCCGTTTCTGACGAGATCCTGAAACGTGCTGCCGATAGCTATCGTCGTATCCGTAA +CACCGCGCGCTTCCTGCTGGCAAACCTGAACGGTTTTGATCCAGCAAAAGATATGGTGAAACCGGAAGAG +ATGGTGGTACTGGATCGCTGGGCCGTAGGTTGTGCGAAAGCGGCACAGGAAGACATCCTCAAGGCGTACG +AAGCATACGATTTCCACGAAGTGGTACAGCGTCTGATGCGCTTCTGCTCCGTTGAGATGGGTTCCTTCTA +CCTCGACATCATCAAAGACCGTCAGTACACCGCCAAAGCGGACAGTGTGGCGCGTCGTAGCTGCCAGACT +GCGCTATATCACATCGCAGAAGCGCTGGTGCGCTGGATGGCACCAATCCTCTCCTTCACCGCTGATGAAG +TGTGGGGCTACCTGCCGGGCGAACGTGAAAAATACGTCTTCACCGGTGAGTGGTACGAAGGCCTGTTTGG +CCTGGCAGACAGTGAAGCGATGAACGATGCGTTCTGGGACGAGCTGTTGAAAGTGCGTGGCGAAGTGAAC +AAAGTCATTGAGCAAGCGCGTGCCGACAAGAAAGTGGGTGGCTCGCTGGAAGCGGCAGTAACCTTGTATG +CAGAACCGGAACTGTCGGCGAAACTGACCGCGCTGGGCGATGAATTACGATTTGTCCTGTTGACCTCCGG +CGCTACCGTTGCAGACTATAACGACGCACCTGCTGATGCTCAGCAGAGCGAAGTACTCAAAGGGCTGAAA +GTCGCGTTGAGTAAAGCCGAAGGTGAGAAGTGCCCACGCTGCTGGCACTACACCCAGGATGTCGGCAAGG +TGGCGGAACACGCAGAAATCTGCGGCCGCTGTGTCAGCAACGTCGCCGGTGACGGTGAAAAACGTAAGTT +TGCCTGATGAGTCAATCGATCTGTTCAACAGGGCTACGCTGGCTGTGGCTGGTGGTAGTCGTGCTGATTA +TCGATCTGGGCAGCAAATACCTGATCCTCCAGAACTTTGCTCTGGGGGATACGGTCCCGCTGTTCCCGTC +GCTTAATCTGCATTATGCGCGTAACTATGGCGCGGCGTTTAGTTTCCTTGCCGATAGCGGCGGCTGGCAG +CGTTGGTTCTTTGCCGGTATTGCGATTGGTATTAGCGTGATCCTGGCAGTGATGATGTATCGCTCGAAGG +CCACGCAGAAGCTAAACAATATCGCTTACGCGCTGATTATTGGCGGCGCGCTGGGCAACCTGTTCGACCG +CCTGTGGCACGGCTTCGTTGTCGATATGATCGACTTCTACGTCGGCGACTGGCACTTCGCCACCTTCAAC +CTTGCCGATACTGCCATCTGTGTCGGTGCGGCACTGATTGTGCTGGAAGGTTTTTTGCCTTCTAGAGCGA +AAAAACAATAATAAACCCTGCCGGATGCGATGCTGACGCATCTTATCCGGCCTACAGATTGCTGCGAAAT +CGTAGGCCGGATAAGGCGTTTACGCCGCATCCGGCAAAAATCCTTAAATATAAGAGCAAACCTGCATGTC +TGAATCTGTACAGAGCAATAGCGCCGTCCTGGTGCACTTCACGCTAAAACTCGACGATGGCACCACCGCC +GAGTCTACCCGCAACAACGGTAAACCGGCGCTGTTCCGCCTGGGTGATGCTTCTCTTTCTGAAGGGCTGG +AGCAACACCTGTTGGGGCTGAAAGTGGGCGATAAAACCACCTTCTCGTTGGAGCCAGATGCGGCGTTTGG +CGTGCCGTCACCGGACCTGATTCAGTACTTCTCCCGCCGTGAATTTATGGATGCAGGCGAGCCAGAAATT +GGCGCAATCATGCTTTTTACCGCAATGGATGGCAGTGAGATGCCTGGCGTGATCCGCGAAATTAACGGCG +ACTCCATTACCGTTGATTTCAACCATCCGCTGGCCGGGCAGACCGTTCATTTTGATATTGAAGTGCTGGA +AATCGATCCGGCACTGGAGGCGTAACATGCAGATCCTGTTGGCCAACCCGCGTGGTTTTTGTGCCGGGGT +AGACCGCGCTATCAGCATTGTTGAAAACGCGCTGGCCATTTACGGCGCACCGATATATGTCCGTCACGAA +GTGGTACATAACCGCTATGTGGTCGATAGCTTGCGTGAGCGTGGGGCTATCTTTATTGAGCAGATTAGCG +AAGTACCGGACGGCGCGATCCTGATTTTCTCCGCACACGGTGTTTCTCAGGCGGTACGTAACGAAGCAAA +AAGTCGCGATTTGACGGTGTTTGATGCCACCTGTCCGCTGGTGACCAAAGTGCATATGGAAGTCGCCCGC +GCCAGTCGCCGTGGCGAAGAATCTATTCTCATCGGTCACGCCGGGCACCCGGAAGTGGAAGGGACAATGG +GCCAGTACAGTAACCCGGAAGGGGGAATGTATCTGGTCGAATCGCCGGACGATGTGTGGAAACTGACGGT +CAAAAACGAAGAGAAGCTCTCCTTTATGACCCAGACCACGCTGTCGGTGGATGACACGTCTGATGTGATC +GACGCGCTGCGTAAACGCTTCCCGAAAATTGTCGGTCCGCGCAAAGATGACATCTGCTACGCCACGACTA +ACCGTCAGGAAGCGGTACGCGCCCTGGCAGAACAGGCGGAAGTTGTGTTGGTGGTCGGTTCGAAAAACTC +CTCCAACTCCAACCGTCTGGCGGAGCTGGCCCAGCGTATGGGCAAACGCGCGTTTTTGATTGACGATGCG +AAAGACATCCAGGAAGAGTGGGTGAAAGAGGTTAAATGCGTCGGCGTGACTGCGGGCGCATCGGCTCCGG +ATATTCTGGTGCAGAATGTGGTGGCACGTTTGCAGCAGCTGGGCGGTGGTGAAGCCATTCCGCTGGAAGG +CCGTGAAGAAAACATTGTTTTCGAAGTGCCGAAAGAGCTGCGTGTCGATATTCGTGAAGTCGATTAAGTC +ATTAGCAGCCTAAGTTATGCGAAAATGCCGGTCTTGTTACCGGCATTTTTTATGGAGAAAACATGCGTTT +ACCTATCTTCCTCGATACTGACCCCGGCATTGACGATGCCGTCGCCATTGCCGCCGCGATTTTTGCACCC +GAACTCGACCTGCAACTGATGACCACCGTCGCGGGTAATGTCTCGGTTGAGAAAACTACCCGCAATGCCC +TGCAACTGCTGCATTTCTGGAATGCGGAGATTCCGCTCGCCCAAGGGGCCGCTGTGCCACTGGTACGCGC +ACCGCGTGATGCGGCATCTGTGCACGGCGAATCGGGAATGGCTGGCTACGACTTTGTTGAGCACAACCGA +AAGCCGCTCGGGATACCGGCGTTTCTGGCGATTCGGGATGCCCTGATGCGTGCACCAGAGCCTGTTACCC +TGGTGGCCATCGGCCCGTTAACCAATATTGCGCTGTTACTTTCACAATGCCCGGAATGCAAGCCGTATAT +TCGCCGTCTGGTGATCATGGGTGGTTCTGCCGGACGCGGCAACTGTACGCCAAACGCCGAGTTTAATATT +GCTGCCGATCCAGAAGCTGCTGCCTGTGTCTTCCGCAGTGGTATTGAAATCGTCATGTGCGGTTTGGATG +TCACCAATCAGGCAATATTAACTCCTGACTATCTCTCTACACTGCCGCAGTTAAACCGTACCGGGAAAAT +GCTTCACGCCCTGTTTAGCCACTACCGTAGCGGCAGTATGCAAAGCGGCTTGCGAATGCACGATCTCTGC +GCCATCGCCTGGCTGGTGCGCCCGGACCTGTTCACTCTCAAACCCTGTTTTGTGGCAGTGGAAACTCAGG +GCGAATTTACCTCAGGCACGACGGTGGTTGATATCGACGGTTGCCTGGGCAAGCCAGCCAATGTACAGGT +GGCATTGGATCTGGATGTGAAAGGCTTCCAGCAGTGGGTGGCTGAGGTGCTGGCTCTGGCGTCGTAACCT +GTCACATGTTATTGGCATGCAGTCATTCATCGACTCATGCCTTTCACTGATATCCCTCCCTGTTTATCAT +TAATTTCTAATTATCAGCGTTTTTGGCTGGCGGCGTAGCGATGCGCTGGTTACTCTGAAAACGGTCTATG +CAAATTAACAAAAGAGAATAGCTATGCATGATGCAAACATCCGCGTTGCCATCGCGGGAGCCGGGGGGCG +TATGGGCCGCCAGTTGATTCAGGCGGCGCTGGCATTAGAGGGCGTGCAGTTGGGCGCTGCGCTGGAGCGT +GAAGGATCTTCTTTACTGGGCAGCGACGCCGGTGAGCTGGCCGGAGCCGGGAAAACAGGCGTTACCGTGC +AAAGCAGCCTCGATGCGGTAAAAGATGATTTTGATGTGTTTATCGATTTTACCCGTCCGGAAGGTACGCT +GAACCATCTCGCTTTTTGTCGCCAGCATGGCAAAGGGATGGTGATCGGCACTACGGGGTTTGACGAAGCC +GGTAAACAAGCAATTCGTGACGCCGCTGCCGATATTGCGATTGTCTTTGCTGCCAATTTTAGCGTTGGCG +TTAACGTCATGCTTAAGCTGCTGGAGAAAGCAGCCAAAGTGATGGGTGACTACACCGATATCGAAATTAT +TGAAGCACATCATAGACATAAAGTTGATGCGCCGTCAGGCACCGCACTGGCAATGGGAGAGGCGATCGCC +CACGCCCTTGATAAAGATCTGAAAGATTGCGCGGTCTACAGTCGTGAAGGCCACACCGGTGAACGTGTGC +CTGGCACCATTGGTTTTGCCACCGTGCGTGCAGGTGACATCGTTGGTGAACATACCGCGATGTTTGCCGA +TATTGGCGAGCGTCTGGAGATCACCCATAAGGCGTCCAGCCGTATGACATTTGCTAACGGCGCGGTAAGA +TCGGCTTTGTGGTTGAGTGGTAAGGAAAGCGGTCTTTTTGATATGCGAGATGTACTTGATCTCAATAATT +TGTAACCACAAAATATTTGTTATGGTGCAAAAATAACACATTTAATTTATTGATTATAAAGGGCTTTAAT +TTTTGGCCCTTTTATTTTTGGTGTTATGTTTTTAAATTGTCTATAAGTGCCAAAAATTACATGTTTTGTC +TTCTGTTTTTGTTGTTTTAATGTAAATTTTGACCATTTGGTCCACTTTTTTCTGCTCGTTTTTATTTCAT +GCAATCTTCTTGCTGCGCAAGCGTTTTCCAGAACAGGTTAGATGATCTTTTTGTCGCTTAATGCCTGTAA +AACATGCATGAGCCACAAAATAATATAAAAAATCCCGCCATTAAGTTGACTTTTAGCGCCCATATCTCCA +GAATGCCGCCGTTTGCCAGAAATTCGTCGGTAAGCAGATTTGCATTGATTTACGTCATCATTGTGAATTA +ATATGCAAATAAAGTGAGTGAATATTCTCTGGAGGGTGTTTTGATTAAGTCAGCGCTATTGGTTCTGGAA +GACGGAACCCAGTTTCACGGTCGGGCCATAGGGGCAACAGGTTCGGCGGTTGGGGAAGTCGTTTTCAATA +CTTCAATGACCGGTTATCAAGAAATCCTCACTGATCCTTCCTATTCTCGTCAAATCGTTACTCTTACTTA +TCCCCATATTGGCAATGTCGGCACCAATGACGCCGATGAAGAATCTTCTCAGGTACATGCACAAGGTCTG +GTGATTCGCGACCTGCCGCTGATTGCCAGCAACTTCCGTAATACCGAAGACCTCTCTTCTTACCTGAAAC +GCCATAACATCGTGGCGATTGCCGATATCGATACCCGTAAGCTGACGCGTTTACTGCGCGAGAAAGGCGC +ACAGAATGGCTGCATTATCGCGGGCGATAACCCGGATGCGGCGCTGGCGTTAGAAAAAGCCCGCGCGTTC +CCAGGTCTGAATGGCATGGATCTGGCAAAAGAAGTGACCACCGCAGAAGCCTATAGCTGGACACAAGGGA +GCTGGACGTTGACCGGTGGCCTGCCAGAAGCGAAAAAAGAAGACGAGCTGCCGTTCCACGTCGTGGCTTA +TGATTTTGGTGCCAAGCGCAACATCCTGCGGATGCTGGTGGATAGAGGCTGTCGCCTGACCATCGTTCCG +GCGCAAACTTCTGCGGAAGATGTGCTGAAAATGAATCCAGACGGCATCTTCCTCTCCAACGGTCCTGGCG +ACCCGGCCCCGTGCGATTACGCCATTACCGCCATCCAGAAATTCCTCGAAACCGATATTCCGGTATTCGG +CATCTGTCTCGGTCATCAGCTGCTGGCGCTGGCGAGCGGTGCGAAGACTGTCAAAATGAAATTTGGTCAC +CACGGCGGCAACCATCCGGTTAAAGATGTGGAGAAAAACGTGGTAATGATCACCGCCCAGAACCACGGTT +TTGCGGTGGACGAAGCAACATTACCTGCAAACCTGCGTGTCACGCATAAATCCCTGTTCGACGGTACGTT +ACAGGGCATTCATCGCACCGATAAACCGGCATTCAGCTTCCAGGGGCACCCTGAAGCCAGCCCTGGTCCA +CACGACGCCGCGCCGTTGTTCGACCACTTTATCGAGTTAATTGAGCAGTACCGTAAAACCGCTAAGTAAT +CAGGAGTAAAAGAGCCATGCCAAAACGTACAGATATAAAAAGTATCCTGATTCTGGGTGCGGGCCCGATT +GTTATCGGTCAGGCGTGTGAGTTTGACTACTCTGGCGCGCAAGCGTGTAAAGCCCTGCGTGAAGAGGGTT +ACCGCGTCATTCTGGTGAACTCCAACCCGGCGACCATCATGACCGACCCGGAAATGGCTGATGCAACCTA +CATCGAGCCGATTCACTGGGAAGTTGTACGCAAGATTATTGAAAAAGAGCGCCCGGACGCGGTGCTGCCA +ACGATGGGCGGTCAGACGGCGCTGAACTGCGCGCTGGAGCTGGAACGTCAGGGCGTGTTGGAAGAGTTCG +GTGTCACCATGATTGGTGCCACTGCCGATGCGATTGATAAAGCAGAAGACCGCCGTCGTTTCGACGTAGC +GATGAAGAAAATTGGTCTGGAAACCGCGCGTTCCGGTATCGCACACACGATGGAAGAAGCGCTGGCGGTT +GCCGCTGACGTGGGCTTCCCGTGCATTATTCGCCCATCCTTTACCATGGGCGGTAGCGGCGGCGGTATCG +CTTATAACCGTGAAGAGTTTGAAGAAATTTGCGCCCGCGGTCTGGATCTCTCTCCGACCAAAGAGTTGCT +GATTGATGAGTCGCTGATCGGCTGGAAAGAGTACGAGATGGAAGTGGTGCGTGATAAAAACGACAACTGC +ATCATCGTCTGCTCTATCGAAAACTTCGATGCGATGGGCATCCACACCGGTGACTCCATCACTGTCGCGC +CAGCCCAAACGCTGACCGACAAAGAATATCAAATCATGCGTAACGCCTCGATGGCGGTGCTGCGTGAAAT +CGGCGTTGAAACCGGTGGTTCCAACGTTCAGTTTGCGGTGAACCCGAAAAACGGTCGTCTGATTGTTATC +GAAATGAACCCACGCGTGTCCCGTTCTTCGGCGCTGGCGTCGAAAGCGACCGGTTTCCCGATTGCTAAAG +TGGCGGCGAAACTGGCGGTGGGTTACACCCTCGACGAACTGATGAACGACATCACTGGCGGACGTACTCC +GGCCTCCTTCGAGCCGTCCATCGACTATGTGGTTACTAAAATTCCTCGCTTCAACTTCGAAAAATTCGCC +GGTGCTAACGACCGTCTGACCACTCAGATGAAATCGGTTGGCGAAGTGATGGCGATTGGTCGCACGCAGC +AGGAATCCCTGCAAAAAGCGCTGCGCGGCCTGGAAGTCGGTGCGACTGGATTCGACCCGAAAGTGAGCCT +GGATGACCCGGAAGCGTTAACCAAAATCCGTCGCGAACTGAAAGACGCAGGCGCAGATCGTATCTGGTAC +ATCGCCGATGCGTTCCGTGCGGGCCTGTCTGTGGACGGCGTCTTCAACCTGACCAACATTGACCGCTGGT +TCCTGGTACAGATTGAAGAGCTGGTGCGTCTGGAAGAGAAAGTGGCGGAAGTGGGCATCACTGGCCTGAA +CGCTGACTTCCTGCGCCAGCTGAAACGCAAAGGCTTTGCCGATGCGCGCTTGGCAAAACTGGCGGGCGTA +CGCGAAGCGGAAATCCGTAAGCTGCGTGACCAGTATGACCTGCACCCGGTTTATAAGCGCGTGGATACCT +GTGCGGCAGAGTTCGCCACCGACACCGCTTACATGTACTCCACTTATGAAGAAGAGTGCGAAGCGAATCC +GTCTACCGACCGTGAAAAAATCATGGTGCTTGGCGGCGGCCCGAACCGTATCGGTCAGGGTATCGAATTC +GACTACTGTTGCGTACACGCCTCGCTGGCGCTGCGCGAAGACGGTTACGAAACCATTATGGTTAACTGTA +ACCCGGAAACCGTCTCCACCGACTACGACACTTCCGACCGCCTCTACTTCGAGCCGGTAACTCTGGAAGA +TGTGCTGGAAATCGTGCGTATCGAGAAGCCGAAAGGCGTTATCGTCCAGTACGGCGGTCAGACCCCGCTG +AAACTGGCGCGCGCGCTGGAAGCTGCTGGCGTACCGGTTATCGGCACCAGCCCGGATGCTATCGACCGTG +CAGAAGACCGTGAACGCTTCCAGCATGCGGTTGAGCGTCTGAAACTGAAACAACCGGCGAACGCCACCGT +TACCGCTATTGAAATGGCGGTAGAGAAGGCGAAAGAGATTGGCTACCCGCTGGTGGTACGTCCGTCTTAC +GTTCTCGGCGGTCGGGCGATGGAAATCGTCTATGACGAAGCTGACCTGCGTCGCTACTTCCAGACGGCGG +TCAGCGTGTCTAACGATGCGCCAGTGTTGCTGGACCACTTCCTCGATGACGCGGTAGAAGTTGACGTGGA +TGCCATCTGCGACGGCGAAATGGTGCTGATTGGCGGCATCATGGAGCATATTGAGCAGGCGGGCGTGCAC +TCCGGTGACTCCGCATGTTCTCTGCCAGCCTACACCTTAAGTCAGGAAATTCAGGATGTGATGCGCCAGC +AGGTGCAGAAACTGGCCTTCGAATTGCAGGTGCGCGGCCTGATGAACGTGCAGTTTGCGGTGAAAAACAA +CGAAGTCTACCTGATTGAAGTTAACCCGCGTGCGGCGCGTACCGTTCCGTTCGTCTCCAAAGCCACCGGC +GTACCGCTGGCAAAAGTGGCGGCGCGCGTGATGGCTGGCAAATCGCTGGCTGAGCAGGGCGTAACCAAAG +AAGTTATCCCGCCGTACTACTCGGTGAAAGAAGTGGTGCTGCCGTTCAATAAATTCCCGGGCGTTGACCC +GCTGTTAGGGCCAGAAATGCGCTCTACCGGGGAAGTCATGGGCGTGGGCCGCACCTTCGCTGAAGCGTTT +GCCAAAGCGCAGCTGGGCAGCAACTCCACCATGAAGAAACACGGTCGTGCGCTGCTTTCCGTGCGCGAAG +GCGATAAAGAACGCGTGGTGGACCTGGCGGCAAAACTGCTGAAACAGGGCTTCGAGCTGGATGCGACCCA +CGGCACGGCGATTGTGCTGGGCGAAGCAGGTATCAACCCGCGTCTGGTAAACAAGGTGCATGAAGGCCGT +CCGCACATTCAGGACCGTATCAAGAATGGCGAATATACCTACATCATCAACACCACCTCAGGCCGTCGTG +CGATTGAAGACTCCCGCGTGATTCGTCGCAGTGCGCTGCAATATAAAGTGCATTACGACACCACCCTGAA +CGGCGGCTTTGCCACCGCGATGGCGCTGAATGCCGATGCGACTGAAAAAGTAATTTCGGTGCAGGAAATG +CACGCACAGATCAAATAATAGCGTGTCATGGCAGATATTTTTCATCCGCTAATTTGATCGAATAACTAAT +ACGGTTCTCTGATGAGGACCGTTTTTTTTTGCCCATTAAGTAAATCTTTTGGGGAATCGATATTTTTGAT +GACATAAGCAGGATTTAGCTCACACTTATCGACGGTGAAGTTGCATACTATCGATATATCCACAATTTTA +ATATGGCCTTGTTTAATTGCTTCAAAACGAGTCATAGCCAGACTTTTAATTTGTGAAACTGGAGTTCGTA +TGTGTGAAGGATATGTTGAAAAACCACTCTACTTGTTAATCGCCGAATGGATGATGGCTGAAAATCGGTG +GGTGATAGCAAGAGAGATCTCTATTCATTTCGATATTGAACACAGCAAGGCGGTTAATACCCTGACTTAT +ATTCTGTCGGAAGTCACAGAAATAAGCTGCGAAGTTAAGATGATCCCTAATAAGCTGGAAGGGCGGGGAT +GCCAGTGTCAGCGACTGGTTAAAGTGGTCGATATCGATGAGCAAATTTACGCGCGCCTGCGCAATAACAG +TCGGGAAAAATTAGTCGGTGTAAGAAAGACGCCGCGTATTCCTGCCGTTCCGCTCACGGAACTTAACCGC +GAGCAGAAGTGGCAGATGATGTTGTCAAAGAGTATGCGTCGTTAATTTTATCTCGTTGATACCGGGCGTC +CTGCTTGCCAGATGCGATGTTGTAGCATCTTATCCAGCAACCAGGTCGCATCCGGCAAGATCACCGTTTA +GGCGTCACATCCGTCGTCCCCTGCAAACGGGGGCGATTTTCCTCCATTTGCCTCAGTGGCTGCGTTTCAT +GTAACGATACATGACAGCGCCCGACAAGATCCTGATACTCTTTGGTATTCAACCGTTTCCAGTGTAACTC +GTCGTCACTAACATTGCGTACAGCGCGGGCTGGCGTACCCATCAACAACTGGCGTTTCTCGCCGCGAAAG +CCCGCTTTGACAAAGCTCATGGCGGCAACAATGCTCTCTTCGCCAATGACCGCGCCATCCATAATCACGC +TGTTCATCCCGACCAATGCATCGCGACCAATCAAACAACCATGCAGGATCGCTCCGTGCCCGATATGGCC +GTTTTCCCCAACGATAGTGTCAGTGTCGCAGTAGCCATGCATAATGCAGCCATCCTGAATATTGGCTCCC +GCTTGCACGATCAACCGCCCGTAGTCACCACGCAGTGAGGCGAGTGGGCCGATGTAGACACCGGCTCCCA +CAATCACATCGCCAATCAAGACGGCACTGGGATGGACAAACGCCGTCGGGTGAACCACCGGAATTAACCC +CTCAAAGGCGTAATAGCTCACGGTTGTTAACGTCCTTTCCACACCGGATCGCGCTTCTCGGCAAACGCCA +GCGGCCCTTCAATGGCATCTTCCGAATGCAGAACCGATGGATAGTGTTTCAACACGCCGCTGCGAATATA +GCGATACGCTTCTTCTACCGGCATTTCGCTGGTGGTGCGGTAGATCTCTTTCAGCGCCGCAATCGCCAGC +GGGGCGCTGTTAACCAGCTGCTGAGCCAGTTCGCGGGCGTTATCCATCAGTTCCGCCTGGCTAACCACGC +GGTTGACTATCCCCCAACGCAGCGCCTCTTCTGCGCCCATTCGTCTGCCGGTCATCACCATTTCATTGAC +GATGGCAGGCGGCAGGATCTTCGGCAGACGCAGCACACCGCCGCTGTCAGGAACGATGCCCAGTTTGGCT +TCCGGCAGGGCGAAGCTGGCGTTATCGGCACAAACAATAAAATCTGCCGCCAGCGCCAGTTCAAAGCCGC +CGCCAAAGGCATAGCCGTTCACAGCTGCGATAACCGGTTTGTCGAGATTGAAAATTTCGGTTAATCCCGC +AAAACCACCCGGACCAAAGTCAGCATCCGGTGCTTCGCCTTCTGCTGCCGCTTTTAAATCCCAGCCCGCG +GAAAAGAACTTCTCTCCGGCACCGGTAATAATGGCGACACGTAATTGCGGATCGTCACGGAAATTTAGAA +ATACTTCGCCCATTTCAAAGCTGGTTTTTGCATCAATAGCATTCGCTTTTGGACGATCAAGGGTAATTTC +CAGAATTGATCCATTGCGGGTCAGATGTAATGATTCACTCATTCCTTTTCTCCATTTTTGCTTTTTCAGG +GACGACAACATCCCTGCAAAAAATGCATATTGTTTTAGAGTGTGATTATTAGCTGGCAGGGTAGTTCCCT +GCTGTTTCATTTATTTCAGATTCTTTCTAATTATTTTCCCCGAGCAATTACGTGGCAGATCTTTTCTGAT +CTCCAGATAAGAGGGCACTTTAAATTTCGCCATATTTTGTTCGCAGAAGCGGAAAAATTCCTCTTCGCTC +AATGTTTCACCTTCATTCAGCACCACAAATGCTTTGATGGCTTCATCGCGAATCGAATCTTTAATACCCA +CAACCACGATGTCCTGAATTTTCGGGTGCGCGGCGATAATATTTTCCAGCTCCACGCAGGAGACATTCTC +GCCGCCACGTTTAATCATATTGCAGCGGCGATCGACGAAATAAAAAAAGTCCTCTTCGTCGCGGTATCCG +GTATCGCCGGTATGCAGCCAGCCATCGGCTTCCAGCACTTTCGCAGTGGCTTGTGGGTTGAGAAAGTACT +CTTTGAAGATGGTTTTCCCAGGTATGCCTTTAATGCAGATTTCACCGATCTCACCAGCCGGGAGCGGGCG +ATTGTGATCGTCGCGGATCTCCGCTTCGTAGCAAAACCCCACCCGACCAATCGACGGCCAGCGTCGTTTA +TCGCCAGGACGATCGCCGATAATGCCCACAATGGTTTCCGTCATCCCATAAGACGTCAGCAAGCGAACGC +CGAAGCGTTCACAAAACGCATCTTTTTCCTGCTCCGACAAGTTGAGATAAAACATCACTTCCCGCAGGCG +GTGTTGCTGATCGTTCGCTGAAGGCGGCTGTACCATCAACGTACGGATCATCATCGGAATACATTCGGTA +ACGGTGGCGCGGTACTTCTGTACCTGTCCCCAGAAGGCGCGGGCGCTGTATTTCTCGACCAGCACAAAGG +TGGCCCCGGCAGAAAACGCCGCCATCGCCGCAGTACACTGGCAATCGATATGAAACGCAGGCATTACCGT +CAGGTAGACGTCATCGTCACGCAGTGCACACTGCCAGGCGGAGTAATATCCAGCGAAGCGCAGGTTGTAA +TGGGTAATCACCACACCTTTCGGTCGGGAGGTGGTGCCGGAGGTGAAGAGAATTTCCGCCGTATCGTCAG +TCGATAGCGGCGGTGCATAGCACAAGGTGGCAGGTTGTTGATTTTTCAGTTGAGTAAACGAACTCACGCC +ATCATCAGCGGGAAGTGCCACATCTGTCAGGCAAATGTGCCGCAATTGAGTGGCATCTTCCTGCTGAATC +TGTTGATACATAGGATAGAATTGCGCACTGGTCACCAGCAGGCACGCCTGGCTATTTTGCAGGATCCACG +CGCTTTCCTCGCACAACAGGCGGGCGTTAATCGGCACCATAATCGCGCCAATTTTTGCCAGCCCGAACCA +GCAAAAGATAAATTCCGGGCAGTTGTCGAGATGTAGTGCAACCTTGTCGCCTTTGCGAATCCCCAGCGTA +TAAAACAGGTTTGCCGTGCGGTTAATCTCCTGATTTAACTCAAGATAACTATACCGGTTAACGACTCCGC +CGCTGGATTCACAAATCAGCGCCGTTTTATGACCGTAAACGTCCGCAAGATCGTCCCACATTTGACGTAG +ATGTTGTCCGCCAATGATATCCATTGCACCTCTATCCATTTTTGTTCGTTTGTTATTGGGCGGGCGCTAG +TCAGGCAAGCCGACTGACGCCACGCGTTTAGTCCTCAACTTTGGCCAGACCTTTGCTGACCAACTCCTGA +ATGTCGTTTTCGCTGTAGCCGATATTTTTCAAAATGGCAGCCGTGTCCATGCCATGTGAGGGCATTCCGC +GCCAGATTTGTCCGGGGTTATTTTTGAATTTCGGCATGATGTTCGGCCCTTTGCAGGTGCGACCATCCAT +CGTTTGCCACTGAGTGATTGATTCGCGAGCCACATACTGTGGATTGCTTTCCAGTTCCGGTACGGTCAGC +ACTTTGGCGCAGGCGATATTCAGTTCAGCAAAGCGTTCTTTTACTTCCGCGATGGTATGTGTCGCCAGCC +AGGCATCGAGTTTCTCTTCAACCAGTGGGCCGTAAGGGCATTCGATACGGTGGATAAGCTGAGTGCCTTC +CGGGATTTCTGGCGTGCCAAGCAGATGTGCGAGGCCAATATCTTTAAAGCACTCTTCAATTTGGGTAATG +CCCACCAGTTCCATCACGATGTAGCCGTCGGCACATTTATACAGACCGCAACCGGCGTAGTAGGGATCTT +TACCTTTGCTCATGCGCGGGCACATTTCGCCGCCGTTGAAGTAATCCATCATGAAGTACTGGCCCATACG +CAGCATCACTTCATACATGGCGATGTCGATACTTTCGCCTTTACCGGTTTCACGCACTTTATGCAGTGCT +GCCAGCGCCGCCGTGGTGGCGGTCAGGCCAGAAAAGTAATCGGCGGTATACGGGAAGGCAGGCATTGGCT +GGTCAACATCACCGTTCTGAATCAGGTAACCACTAAAGGCCTGGGCGATAGTGTTATAGGCCGGAAGATT +GGTGTACTCCTCGGTGCCGTACTGACCAAAACCGGACAGGTGAGCGATAACCAGTTTCGGGTTGTGCTGC +CACAGTACTTCATCGGTAATGCCACGACGGGCAAAGGCCGGACCTTTACTGGCTTCGATGAAGATATCGG +TGGTTTCCATTAATTTCAGAAACGCTTCGCGGCCTTCATCTTTGAAAATATTTAACGACAGCGCGTGCAA +ATTGCGGCGGGAGAGTTGCGGGTAGTTCGGTTGAACGCGAATGGTGTCGGCCCAGGCGACGTTCTCGATC +CAGATAACTTCCGCGCCCCATTCTGCGAACATTTGCCCGGCAAACGGTCCGGCGATTTCGATACCGGAGA +AGACAACGCGCAATCCGGCCAACGGCCCGAATTTCGGCATGGGTAGATGATCCATTATTTGCTCCTGAAA +AATTTATGTAGCGCATGACTGCCGGATGCGGCGTAAACGCTTTATCCGGCCTACATTCGTGCTCCCGTAG +GCCTGATAAGACGCATCAGCGTCGCATCAGGCAGCGCACGGACTTAGCGGTATTGCTTCAGCACCGCACG +ACCCAGCGTCAGGATCTGCATTTCGTCAGATCCCCCGGAGACGCGGTCTACACGCAGATCACGCCAGAAG +CGGCTGATGCGGTGGTTGCCCGCAATCCCGACACCGCCCAGCACCTGCATTGCGCTATCCACAACTTCAA +ATGCCGCATTGGCGCAGAAGTATTTGCACATCGCTGCATCGCCAGAGGTGATGGTGCCGTTGTCTGCTTT +CCACGCTGCTTCATACAGCATGTTTTTCATGGAGTTTAATTTGATCGCCATGTGGGCGAATTTTTCCTGA +ATCAACTGGAAACGACCAATAGCCTCGCCAAACTGCACGCGCTGATTGGCGTAGCGCGCCGCATCTTCAA +AGGCGCACATCGCCGTACCGTAGTTGGTGAGGGCTACCAGGAAACGTTCATGGTCGAACTCTTCTTTGAC +GCGGTTAAAGCCGTTACCTTCCCGACCGAACATGTCTTTCTCGTCCAGTTCCACGTCGTCAAAGGTGATT +TCACAGCAGCTATCCATACGCAGACCGAGCTTTTCAAGTTTGGTCACTTTGATGCCCGGTTTGCTCATAT +CAACAAACCATTCGGTGTAGACAGGTTTGTCCGGAGAAGCCCCGTCGCGCGCCATCACCACGATGTACGG +GGTGTAGGCGCTGCTGGTAATAAAACACTTACTACCATTAAGATAAATCTTACCATTTCTACGGGTATAA +GTCGTTTTCAGGCTACCCACGTCGGAGCCCGCGCCCGGTTCGGTAATCGCTGAGTTCCACATCTGCTTAC +CGGTGCCGCGGAAAGCCATAATTTTGTCGATCTGCTCTTGTGTGCCTTCGCGCAGGAAGGTGTTGAACCC +GCCCGGCAACTGGTACAGCACATAGGTTGGTGCCCCCAGACGTCCCAGCTCCATCCACACGGCGGCGAGA +GTAACAAACCCCGCGTCCAGACCACCGTGCTCTTCAGGGATCAGCAGACTGTCGATACCCATATCCGCCA +GTGCTTTGACAAAACGTTCCGGGTAGACGCTGTCACGGTCGCACTCGGCAAAATAGGCCTCCCAGTTTTC +GCTGGCCATCAGTTCGCGGATACCGGCGACAAACAGTTCCTGCTCATCATTTAAATTAAAATCCATCTTT +CAACCTCTTGATATTTTGGGGGTTAATTAATCTTTCCAGTTCTGTTTCGCGTCTTTAATAAAGGAGAGCG +TCACCATAATGTTGACGAAGAACAGCGGGCATCCTCCGGCGATAATGGCGGTTTGAATCGGTTTCAGGCC +GCCGAGCGCCAGCAGAACAATACCGATAATGCCAACCAGAATTGACCAACCGATACGCACCAGCAGAGGT +GGTTCTTCACCATCGCGTACTTCGCGGCAAGTGGACATCGCCAGGGTATAAGAGCAGGCGTTAACCAGCG +TAACGGTGGCAATAAAGCAGAGGATGAAGAAGCCCCACATGGTGGCGGTGCTGAGTGGCAGAGCGGCCCA +GGTTTCAATGATGGCGCGCGCCACACCGTACTGTTCGATCAGATTTGGAATGTTGATGATGTTTTTATCT +ATCAACAGCAGAGTGTTACTACCGAGTACAGTCCACAGGATCCAGGTTGACGCTGTCAGCCCCAGCACCA +TGCCGAAGCACAGTTCACGCACAGTACGACCACGGGAGATGCGGGCGAGGAAGATACTCATCTGGATAGC +ATAAATCACCCACCATGCCCAGTAGAACACGGTCCAGCCCTGCGGGAAGCCGCCTTTAGCGATGGGATCG +GTATAGAACAACATGCGCGGCAGATACATCAGCAACATCCCCACCGAATCGGTGAAGTAGTTCATGATGA +AGCTGGCACCGCTGACAATGAACACCCAACCCAGCATCAGGAAGCTCAGGTAACTACGCACGTCACTGGC +GATACGTACCCCTTTTTGCAGACCGCAAGCGACGCAAATGGCGTTGAGGATAATCCAGCAGGTAATGATG +ATAGCGTCCAGTTGCAGGGTATGCGGAATGCCAAACAACCATTGCATACACTCGGTCACCAGCGGCGTGG +CAAGGCCCAGACTGGTACCCATCGCGAAGATCAAGGCGACGAGATAGAAGTTGTCGACGATAGTGCCGAA +CAACCCTTTGGCGTGTTTTTCACCTACCAGCGGCACCAGTGTCGAGCTGGGGCGAATCACTTCCATTTTG +CGGACAAAGAAGAAGTAAGCGAAGGCGACTGAAAGGAAGCTGTAAGTGGCCCACGGCAGAGGTCCCCAGT +GGAACAAGCTGTAAGCCAGCCCCAACTCTTTCGCCCCTGTCGAGTTCGGTTCTAAGCCAAACGGCGGGGT +GGAGATGTAGTAGTAGATCTCAATCGATCCCCAGAACAGTACGGCAGCAGACGTACAGGAGGCGAACATC +ATAAAGATCCAACTGGCGGTGCTAAATTCTGGCGGTTCGTTACCTAAACGCTTTTTGGCATACGGGCCAA +ACACCAGCCAGAACCAACCGAAAAGCATCACCACCATATACCATTCAAATGCCCATCCCCATACATTGGT +GACGTAACTGAATACAGCATTAATAACGACATTCGCTGCATCCAGATCTCTGACTGTAAGCCAACAAAGT +ATGCCGACGATTATTAACGGCGGAAAGAAAACCTTCGGTTCTATTCCCGTTTTTCTCTTTTCATTCTTCA +TGAGTTAATTCCACTGTGAAAACGAATATTTATTTTGCGTTCCCGTTTGTTTTATTTTTGTTAACATTTA +ATATAATTATTATTAACCTCGTGGACGCGTTAATGGCTAACTCATAATGGGTATTCAATAAGCTGTATTC +TGTGATTGGTATCACATTTTTGTTTCGGGTGAATAGAGGGCGTTTTTTCGTTAATTTTGATTAATAATCA +GTTTGTTATGCTCTGTTGTGAGTAAAAAATAACATCTGACTTTCAATATTGGTGATCCATAAAACAATAT +TGAAAATTTCTTTTTGCTACGCCGTGTTTTCAATATTGGTGAGGAACTTAACAATATTGAAAGTTGGATT +TATCTGCGTGTGACATTTTCAATATTGGTGATTAAAGTTTTATTTCAAAATTAAAGGGCGTGATATCTGT +AATTAACACCACCGATATGAACGACGTTTCCTTCATGATTTCTGGAGATGCAATGAAGATTATTACTTGC +TATAAGTGCGTGCCTGATGAACAGGATATTGCGGTCAATAATGCTGATGGTTCATTAGACTTCAGCAAAG +CCGATGCCAAAATAAGCCAATACGATCTCAACGCTATTGAAGCGGCTTGCCAGCTAAAGCAACAGGCAGC +AGAGGCGCAGGTGACAGCCTTAAGTGTGGGCGGTAAAGCCCTGACCAACGCCAAAGGGCGTAAAGATGTG +CTATCGCGCGGCCCGGATGAACTGATTGTGGTGATTGATGACCAGTTCGAGCAGGCACTGCCGCAACAAA +CGGCGAGCGCACTGGCTGCAGCCGCCCAGAAAGCAGGCTTTGATCTGATCCTCTGTGGCGATGGTTCTTC +CGACCTTTATGCCCAGCAGGTTGGTCTGCTGGTGGGCGAAATCCTCAATATTCCGGCAGTTAACGGCGTC +AGCAAAATTATCTCCCTGACGGCAGATACCCTCACCGTTGAGCGCGAACTGGAAGATGAAACCGAAACCT +TAAGCATTCCGCTGCCTGCGGTTGTTGCTGTTTCCACTGATATCAACTCCCCACAAATTCCTTCGATGAA +AGCCATTCTCGGCGCGGCGAAAAAGCCCGTCCAGGTATGGTCGGCGGCGGATATTGGTTTTAACGCAGAG +GCAGCCTGGTCAGAACAACAGGTTGCCGCGCCGAAACAGCGCGAACGTCAGCGCATCGTGATTGAAGGCG +ACGGCGAAGAACAGATCGCCGCATTTGCTGAAAATCTTCGCAAAGTCATTTAATTACAGGGGATGCTATG +AACACGTTTTCTCAAGTCTGGGTATTCAGCGATACCCCTTCTCGTCTGCCGGAACTGATGAACGGTGCGC +AGGCTTTAGCTAATCAAATCAACACCTTTGTCCTCAATGATGCCGACGGCGCACAGGCAATCCAGCTCGG +CGCTAATCATGTCTGGAAATTAAACGGCAAACCGGACGATCGGATGATCGAAGATTACGCCGGTGTCATG +GCTGACACTATTCGCCAGCACGGCGCAGACGGCCTGGTGCTGCTGCCAAACACCCGTCGCGGCAAATTAC +TGGCGGCAAAACTGGGTTATCGCCTTAAAGCGGCGGTGTCTAACGATGCCAGCACCGTCAGCGTACAGGA +CGGTAAAGCGACAGTGAAACACATGGTTTACGGTGGTCTGGCGATTGGCGAAGAACGCATTGCCACGCCG +TATGCGGTACTGACCATCAGCAGCGGCACGTTCGATGCGGCTCAGCCAGACGCGTCACGCACTGGCGAAA +CGCACACCGTGGAGTGGCAGGCTCCGGCTGTGGCGATTACCCGCACGGCAACCCAGGCGCGCCAGAGCAA +CAGCGTCGATCTCGACAAAGCCCGTCTGGTGGTCAGCGTCGGTCGCGGTATTGGCAGCAAAGAGAACATT +GCGCTGGCAGAACAGCTTTGCAAGGCGATAGGTGCGGAGTTGGCCTGTTCTCGTCCGGTGGCGGAAAACG +AAAAATGGATGGAGCACGAACGCTATGTCGGTATCTCCAACCTGATGCTGAAACCTGAACTGTACCTGGC +GGTGGGGATCTCCGGGCAGATCCAGCACATGGTTGGCGCTAACGCGTCGCAAACCATTTTCGCCATCAAT +AAAGATAAAAATGCGCCGATCTTCCAGTACGCGGATTACGGCATTGTTGGCGACGCCGTGAAGATCCTTC +CGGCGCTGACCGCAGCTTTAGCGCGTTGATCCACTCTGGCAGGGCTGCATTTTGGCCCTGCCGCTGACAG +GGAGCTCTTATGTCCGAAGATATCTTTGACGCCATCATCGTCGGTGCAGGGCTTGCCGGTTCGGTTGCCG +CACTGGTGCTCGCCCGCGAAGGTGCGCAAGTGTTAGTTATCGAGCGTGGCAATTCCGCAGGTGCCAAGAA +CGTCACCGGCGGGCGTCTCTATGCCCACAGTCTGGAACACATTATTCCTGGTTTCGCCGACTCCGCCCCC +GTAGAACGCCTGATCACCCATGAAAAACTCGCGTTTATGACGGAAAAGTCAGCGATGACTATGGACTACT +GCAATGGTGACGAAACCTCGCCATCCCAGCGTTCTTACTCCGTTTTGCGCAGTAAATTTGATGCCTGGCT +GATGGAGCAGGCCGAAGAAGCGGGCGCGCAGTTAATTACCGGGATCCGCGTCGATAACCTCGTACAGCGC +GATGGCAAAGTCGTCGGTGTAGAAGCCGATGGCGATGTGATTGAAGCGAAAACGGTGATCCTTGCTGATG +GGGTGAACTCCATCCTTGCCGAAAAATTGGGGATGGCAAAACGCGTCAAACCGACGGATGTGGCGGTTGG +CGTGAAGGAACTGATCGAGTTACCGAAGTCGGTTATTGAAGACCGTTTTCAGTTGCAGGGTAATCAGGGG +GCGGCTTGCCTGTTTGCGGGATCACCCACCGATGGCCTGATGGGCGGCGGCTTCCTTTATACCAATGAAA +ACACCCTGTCGCTGGGGCTGGTTTGTGGTTTGCATCATCTGCATGACGCGAAAAAATCGGTGCCGCAAAT +GCTGGAAGATTTCAAACAGCATCCGGCCGTTGCACCGCTGATCGCGGGCGGCAAGCTGGTGGAATATTCC +GCTCACGTAGTGCCGGAAGCAGGCATCAACATGCTGCCGGAGTTGGTTGGTGACGGCGTATTGATTGCCG +GTGATGCCGCCGGAATGTGTATGAACCTCGGTTTTACCATTCGCGGTATGGATCTGGCGATTGCCGCCGG +GGAAGCCGCAGCAAAAACCGTGCTTTCAGCGATGAAAAGCGACGATTTCAGTAAGCAAAAACTGGCGGAA +TATCGTCAGCATCTTGAGAGTGGTCCGCTGCGCGATATGCGTATGTACCAGAAACTACCGGCGTTCCTTG +ATAACCCACGCATGTTTAGCGGCTACCCGGAGCTGGCGGTGGGTGTGGCGCGTGACCTGTTCACCATTGA +TGGCAGCGCGCCGGAACTGATGCGCAAGAAAATCCTCCGCCACGGCAAGAAAGTGGGCTTCATCAATCTA +ATCAAGGATGGCATGAAAGGAGTGACCGTTTTATGACTTCTCCCGTCAATGTGGACGTCAAACTGGGCGT +CAATAAATTCAATGTCGATGAAGAGCATCCGCACATTGTTGTGAAGGCCGATGCTGATAAACAGGCGCTG +GAGCTGCTGGTGAAAGCGTGCCCCGCAGGTCTGTACAAGAAGCAGGATGACGGCAGTGTGCGCTTCGATT +ACGCCGGATGTCTGGAGTGCGGCACCTGTCGCATTCTGGGGCTGGGGTCGGCGCTGGAACAGTGGGAATA +CCCGCGCGGCACCTTTGGTGTGGAGTTCCGTTACGGCTGATGTTGGTTTGATACGTAACGCCGCACTGAC +TCTCATTGCAAAAAACAGGAATAACCATGCAACCGTCCAGAAACTTTGACGATCTCAAATTCTCCTCTAT +TCACCGCCGCATTTTGCTGTGGGGAAGCGGTGGTCCGTTTCTGGATGGTTATGTACTGGTAATGATTGGC +GTGGCGCTGGAGCAACTGACGCCGGCGCTGAAACTGGACGCTGACTGGATTGGCTTGCTGGGCGCGGGAA +CGCTCGCCGGGCTGTTCGTTGGCACATCGCTGTTTGGTTATATTTCCGATAAAGTCGGACGGCGCAAAAT +GTTCCTCATTGATATCATCGCCATCGGCGTGATATCGGTGGCGACGATGTTTGTTTCATCCCCCGTCGAA +CTGTTGGTGATGCGGGTACTTATCGGCATTGTCATCGGTGCAGATTATCCCATCGCCACCTCAATGATCA +CCGAGTTCTCCAGTACCCGTCAGCGGGCGTTTTCCATCAGCTTTATTGCCGCGATGTGGTATGTCGGCGC +GACCTGTGCCGATCTGGTCGGCTACTGGCTTTATGATGTGGAAGGCGGCTGGCGCTGGATGCTGGGTAGC +GCGGCGATCCCCTGTTTGTTGATTTTGATTGGTCGATTCGAACTGCCTGAATCTCCCCGCTGGTTATTAC +GCAAAGGGCGAGTAAAAGAGTGCGAAGAGATGATGATCAAACTGTTTGGCGAACCGGTGGCTTTCGATGA +AGAGCAGCCGCAGCAAACCCGTTTTCGCGATCTGTTTAATCGCCGCCATTTTCCTTTTGTTCTGTTTGTT +GCCGCCATCTGGACCTGCCAGGTGATCCCAATGTTCGCCATTTACACCTTTGGCCCGCAAATCGTTGGTT +TGTTGGGATTGGGGGTTGGCAAAAACGCGGCACTAGGGAATGTGGTGATTAGCCTGTTCTTTATGCTCGG +CTGTATTCCGCCGATGCTGTGGTTAAACACTGCCGGACGGCGTCCATTGTTGATTGGCAGCTTTGCCATG +ATGACGCTGGCGCTGGCGGTTTTGGGGCTAATCCCGGATATGGGGATCTGGCTGGTAGTGATGGCCTTTG +CGGTGTATGCCTTTTTCTCTGGCGGGCCGGGTAATTTGCAGTGGCTCTATCCTAATGAACTCTTCCCGAC +AGATATCCGCGCCTCTGCCGTGGGCGTGATTATGTCCTTAAGTCGTATTGGCACCATTGTTTCGACCTGG +GCACTACCGATCTTTATCAATAATTACGGTATCAGTAACACGATGCTAATGGGGGCGGGTATCTCGCTGT +TTGGCTTGTTGATTTCCGTAGCGTTTGCCCCGGAGACTCGAGGGATGTCACTGGCGCAGACCAGCAATAT +GACGATCCGCGGGCAGAGAATGGGGTAAATTGTTCAGATTTCTCTCTTTTCTGAATCAATATTATTGACT +ATAAGCCGCGTGAATATATGACTACACTTTGTGGGAAAACAAAGGCGTAATCACGCGGGCTACCTATGAT +TCTTATAATTTATGCGCATCCGTATCCGCATCATTCCCATGCGAATAAACGGATGCTTGAACAGGCAAGG +ACGCTGGAAGGCGTCGAAATTCGCTCTCTTTATCAACTCTATCCTGACTTCAATATCGATATTGCCGCCG +AGCAGGAGGCGCTGTCTCGCGCCGATCTGATCGTCTGGCAGCATCCGATGCAGTGGTACAGCATTCCTCC +GCTCCTCAAACTTTGGATCGATAAAGTTTTCTCCCACGGCTGGGCTTACGGTCATGGCGGCACGGCGCTG +CATGGCAAACATTTGCTGTGGGCGGTGACGACCGGCGGCGGGGAAAGCCATTTTGAAATTGGTGCGCATC +CGGGCTTTGATGTGCTGTCGCAGCCGCTACAGGCGACGGCAATCTACTGCGGGCTGAACTGGCTGCCACC +GTTTGCCATGCACTGCACCTTTATTTGTGACGACGAAACCCTCGAAGGGCAGGCGCGTCACTATAAGCAA +CGTCTGCTGGAATGGCAGGAGGCCCATCATGGATAGCCATACGCTGATTCAGGCGCTGATTTATCTCGGT +TCGGCAGCGCTGATTGTACCCATTGCGGTACGTCTTGGTCTGGGATCGGTACTTGGCTACCTGATCGCCG +GCTGCATTATTGGCCCGTGGGGGCTGCGACTGGTGACCGATGCCGAATCTATTCTGCACTTTGCCGAGAT +TGGGGTGGTGCTGATGCTGTTTATTATCGGCCTCGAACTCGATCCACAAAGGCTGTGGAAGCTGCGTGCG +GCAGTGTTCGGCTGTGGCGCATTGCAGATGGTGATTTGCGGCGGCCTGCTGGGGCTGTTCTGCATGTTAC +TTGGGCTGCGCTGGCAGGTCGCGGAATTGATCGGCATGACGCTGGCGCTCTCCTCTACGGCGATTGCCAT +GCAGGCGATGAATGAACGCAATCTGATGGTGACGCAAATGGGTCGCAGTGCCTTTGCGGTGCTGCTGTTC +CAGGATATCGCGGCGATCCCGCTGGTGGCGATGATTCCGCTACTGGCAACGAGCAGTGCCTCGACGACGA +TGGGCGCATTTGCTCTCTCGGCGTTAAAAGTGGCGGGTGCGCTGGTGCTGGTGGTATTGCTGGGGCGCTA +TGTCACGCGTCCGGCGCTGCGTTTTGTAGCCCGCTCTGGCTTGCGGGAAGTGTTTAGTGCCGTGGCGTTA +TTCCTCGTGTTTGGCTTTGGTTTGCTGCTGGAAGAGGTCGGCTTGTCGATGGCGATGGGCGCGTTTCTGG +CGGGCGTACTGCTGGCAAGCTCGGAATACCGTCATGCGCTGGAGAGCGATATCGAACCATTTAAAGGTTT +GCTGTTGGGGCTGTTTTTCATCGGTGTTGGCATGTCGATAGACTTTGGCACGCTGCTTGAAAACCCATTG +CGCATTGTCATTTTGCTGCTCGGTTTCCTCATCATCAAAATCGCCATGCTGTGGCTGATTGCCCGACCGT +TGCAAGTGCCAAATAAACAGCGTCGTTGGTTTGCGGTGTTGTTAGGGCAGGGCAGTGAGTTTGCCTTTGT +GGTATTTGGCGCGGCGCAGATGGCGAATGTGCTGGAGCCGGAGTGGGCGAAATCGCTGACCCTGGCGGTG +GCGCTGTCGATGGCAGCAACGCCGATTCTGCTGGTGATCCTCAATCGCCTTGAGCAATCTTCTACTGAGG +AAGCGCGTGAAGCCGATGAGATCGACGAAGAACAGCCGCGCGTGATTATCGCCGGATTCGGTCGTTTTGG +GCAGATTACCGGACGTTTACTGCTCTCCAGCGGGGTGAAAATGGTGGTACTCGATCACGATCCGGACCAT +ATCGAAACCTTGCGTAAATTTGGTATGAAAGTGTTTTATGGCGATGCCACGCGGATGGATTTACTGGAAT +CTGCCGGAGCGGCGAAAGCGGAAGTGCTGATTAACGCCATCGACGATCCGCAAACCAACCTGCAACTGAC +AGAGATGGTGAAAGAACATTTCCCGCATTTGCAGATTATTGCCCGCGCCCGCGATGTCGACCACTACATT +CGTTTGCGTCAGGCAGGCGTTGAAAAGCCGGAGCGTGAAACCTTCGAAGGTGCGCTGAAAACCGGGCGTC +TGGCACTGGAAAGTTTAGGTCTGGGGCCGTATGAAGCGCGAGAACGTGCCGATGTGTTCCGCCGCTTTAA +TATTCAGATGGTGGAAGAGATGGCAATGGTTGAGAACGACACCAAAGCCCGCGCGGCGGTCTATAAACGC +ACCAGCGCGATGTTAAGTGAGATCATTACCGAGGACCGCGAACATCTGTCATTAATTCAACGACATGGCT +GGCAGGGAACCGAAGAAGGTAAACATACCGGCAACATGGCGGATGAACCGGAAACGAAACCCTCATCCTA +ATAAAGAGTGACGTAAATCACACTTTACAGCTAACTGTTTGTTTTTGTTTCATTGTAATGCGGCGAGTCC +AGGGAGAGAGCGTGGACTCGCCAGCAGAATATAAAATTTTCCTCAACATCATCCTCGCACCAGTCGACGA +CGGTTTACGCTTTACGTATAGTGGCGACAATTTTTTTTATCGGGAAATCTCAATGATCAGTCTGATTGCG +GCGTTAGCGGTAGATCGCGTTATCGGCATGGAAAACGCCATGCCGTGGAACCTGCCTGCCGATCTCGCCT +GGTTTAAACGCAACACCTTAAATAAACCCGTGATTATGGGCCGCCATACCTGGGAATCAATCGGTCGTCC +GTTGCCAGGACGCAAAAATATTATCCTCAGCAGTCAACCGGGTACGGACGATCGCGTAACGTGGGTGAAG +TCGGTGGATGAAGCCATCGCGGCGTGTGGTGACGTACCAGAAATCATGGTGATTGGCGGCGGTCGCGTTT +ATGAACAGTTCTTGCCAAAAGCGCAAAAACTGTATCTGACGCATATCGACGCAGAAGTGGAAGGCGACAC +CCATTTCCCGGATTACGAGCCGGATGACTGGGAATCGGTATTCAGCGAATTCCACGATGCTGATGCGCAG +AACTCTCACAGCTATTGCTTTGAGATTCTGGAGCGGCGGTAATTTTGTATAGAATTTACGGCTAGCGCCG +GATGCGACGCCGGTCGCGTCTTATCCGGCCTTCCTATATCAGGCTGTGTTTAAGACGCCGCCGCTTCGCC +CAAATCCTTATGCCGGTTCGACGGCTGGACAAAATACTGTTTATCTTCCCAGCGCAGGCAGGTTAATGTA +CCACCCCAGCAGCAGCCGGTATCCAGCGCGTATATACCTTCCGGCGTACCTTTGCCCTCCAGCGATGCCC +AGTGACCAAAGGCGATGCTGTATTCTTCAGCGACAGGGCCAGGAATCGCAAACCACGGTTTCAGTGGGGC +AGGGGCCTCTTCCGGCGATTCTTTGCTGTACATATCCAGTTGACCGTTCGGGAAGCAAAAACGCATACGG +GTAAAAGCGTTGGTGATAAAACGCAGTCTTCCCAGCCCCCGCAATTCCGGTGACCAGTTATTTGGCATAT +CGCCGTACATGGCATCAAGAAAGAAGGGATAGGAGTCACTCGATAGCACCGCTTCTACATCGCGTGCGCA +CTCTTTGGCGGTCTGCAGATCCCACTGCGGCGTGATCCCTGCGTGGGCCATCACCAGCTTTTTCTCTTCG +TCGATTTGCAGCAGAGGCTGGCGCCGCAGCCAGTTAAGCAGCTCGTCGGCATCCGGCGCTTCCAGCAGCG +GTGTCAGGCGATCTTTCGGTTTATTGCGGCTGATCCCGGCAAATACCGCCAGCAGATGCAGATCGTGATT +GCCCAGCACCAGACGTACGCTGTCGCCTAAGGATTTCACATAGCGCAGAACATCCAGCGAACCCGGCCCG +CGCGCGACCAGATCGCCCGTCAGCCAGAGGGTATCTTTCCCAGGGGTAAATTCTACTTTATGCAGCAATG +CGATCAGTTCATCGTAACAACCATGAACGTCGCCAATAAGGTATGTCGCCATATTCTTTTAATGAATGAG +TGTGGGAACGGCGAGTCGGAATACGGGAATGTCGATGCTGAAAGGGACGCCATTTTCATCGATCATTTCG +TAGTGACCCTGCATGGTGCCCAGCGGGGTTTCAATGATTGCACCGCTGGTGTACTGGTACTCTTCGCCAG +GCGCGATAAGTGGCTGGACGCCAACCACTCCTTCGCCCTGGACTTCGGTTTCACGGCCATTGCCATTGGT +GATCAGCCAGTAACGCCCCAACAACTGCACTGGCGCTCGCCCCAGATTGCGTATGGTTACGGTATAAGCA +AAAACGTAACGTTCATTATCAGGTGAAGATTGAGCCTCAATGTAGACGCTTTGAACCTGAATACACACTC +GGGGCGAATTGATCATCGTTAACTCTCCTGCAAAGGCGCGTTCTCCGCCAGATAGTTCGCCATCTGGCAA +TATTGCGCGACAGAGATATTTTCCGCTCGCATCGCCGGGTCGATCCCCATTCCCGTTAACACCTCGACGC +TAAACAGGTTGCCGAGGCTGTTACGAATGGTTTTACGACGCTGGTTAAAGGCTTCGGTGGTGATGCGGCT +CAACACACGAACATCTTTAACCGGGTGAGGCATCGTTGCATGAGGAACCAGGCGCACGACGGCGGAATCC +ACTTTGGGTGGTGGTGTAAAGGCTGACGGCGGTACTTCCAGTACCGGGATCACATTGCAATAGTATTGCG +CCATGACGCTTAATCGACCATACGCTTTGCTGTTCGGTCCTGCAACCAGACGATTCACCACCTCTTTTTG +CAACATAAAGTGCATGTCGGCAATGGCATCAGTATAGCTAAACAGATGGAACATCAACGGCGTGGAGATG +TTATAAGGCAGGTTGCCGAAAACACGCAGCGGCTGACCCATTTTCTCGGCCAGTTCACCAAAGTTAAAGG +TCATCGCATCCTGCTGATAAATCGTCAGTTTCGGGCCTAAGAATGGATGCGTTTGCAGACGTGCCGCCAG +ATCGCGGTCAAGTTCGATGACCGTCAGCTGGTCCAGACGTTCGCCGACCGGTTCGGTCAATGCCGCCAGA +CCGGGGCCGATTTCGACCATCGCCTGGCCCTTTTGCGGGTTAATGGCAGACACAATACTGTCGATCACGA +ACTGATCGTTGAGAAAGTTTTGCCCGAAGCGTTTACGGGCTAAGTGGCCCTGGTGGACTCGATTATTCAT +TGGGTGTTAACAATCATTTTGATGGCGAGATTAAGCGCCGTAATAAAACTGCCGACATCGGCTTTGCCAC +GTCCCGCCAGTTCAAGCGCGGTGCCGTGGTCCACTGATGTGCGAATAAAGGGCAGGCCCAGCGTAATGTT +CACACCGCGCCCGAAGCCCTGGTATTTTAGCACGGGAAGACCCTGATCGTGGTACATCGCCAGCACGGCG +TCGGCGTTATCAAGATATTTCGGCTGAAACAGGGTATCGGCAGGCAGCGGCCCGTTGAGTTTCATCCCCT +GCGCCCGCAGCTCATTGAGCACCGGAATAATGGTGTCTATCTCTTCCGTACCCATATGACCGCCTTCGCC +CGCGTGCGGATTCAGCCCGCAGACCAGAATGCGCGGTTCGGCAATACCAAATTTGGTCCGCAAATCGTGA +TGCAAAATAGCAATCACTTCGTGCAAAAGTGCAGGGGTGATAGCGTCTGCGATATCGCGCAGCGGTAAAT +GCGTCGTTGCCAGCGCCACGCGAAGTTCTTCGGTCGCCAGCATCATCACCACCTTTTTCGCCTGCGAACG +CTCTTCGAAAAACTCGGTATGACCGGTAAAAGGAATGCCAGCGTCGTTAATAACGCCTTTATGCACCGGA +CCTGTGATCAGCGCGGCAAATTCGCCGTTCAGACAACCATCGCACGCTCGCGCCAGCGTTTCCACCACAT +AATGCCCATTTTCAACCGCTAACTGCCCCGCAGTGACAGGTGCACGTAGCGCGACAGGAAGTAGCGTTAA +TGTGCCCGCAGTTTGCGGTTGTGCAGGGGAGTTGGGGGAATAAGGGCGGAGGGTGAGCGGCAAACCGAGC +ATCGCTGCCCGGTTGGTAAGGAGAGTGGCATCGGCACAAACAACCAGTTCGACCGGCCACTCACGCTGTG +CAAGCTGGACAACTAAGTCCGGGCCAATCCCGGCGGGCTCGCCGGGAGTGATCACAACACGTTGGGTTTT +AACCATTAGTTGCTCAGGATTTTAACGTAGGCGCTGGCACGTTGTTCCTGCATCCAGCTTGCTGCTTCTT +CCGAGAACTTACGGTTCATCAGCATGCGGTATGCACGATCTTTCTGCGCAGCGTCGGTTTTATCGACATT +ACGGGTATCCAGCAGTTCGATTAAATGCCAGCCGAATGAAGAGTGAACCGGTGCACTCATTTGACCTTTG +TTCAGGCGAGTCAGGGCGTCACGGAAGGCCGGATCGAAAATATCTGGTGTAGCCCAGCCGAGATCGCCGC +CCTGGTTAGCAGAGCCTGGATCCTGAGAGAACTCTTTCGCTGCGGCAGCAAAAGTCGTTTTACCACTCTT +GATATCAGCAGCAATCTGTTCCAGTTTCACACGGGCCTGTTCGTCAGTCATGATCGGCGACGGTTTCAGC +AGAATATGGCGAGCATGAACTTCGGTCACCGAGATATTTTTGCTTTCGCCGCGCAGGTCGTTAACTTTCA +GAATATGGAAGCCAACGCCGGAACGAATCGGGCCAACAATGTCGCCTTTCTTCGCGGTGCTTAATGCCTG +GGCGAAGATCCCGGGCAACTCCTGAATACGGCCCCAGCCCATCTGGCCGCCGTTCAGCGCCTGCTGGTCG +GCAGAATGAGCAATCGCCAGCTTACCGAAATCAGCGCCGTTACGCGCCTGATCGACAATGGCGCGCGCCT +GGCTTTCCGCTTCGTTCACCTGATCAGAGGTCGGGTTTTCCGGCAGCGGGATCAGGATGTGGCTCAGGTT +CAGCTCAGTGCTGGCGTCGTTTTGGTTACCCACCTGCTGCGCCAGGGATTCGACTTCCTGCGGCAGGATG +GTGATGCGACGACGCACCTCGTTGTTACGCACTTCAGAGATAATCATCTCTTTGCGGATCTGGTTACGAT +AGGTGTTGTAGTTCAGTCCATCGTAAGCCAGACGGCTGCGCATCTGATCCAGCGTCATGTTGTTCTGTTT +CGCGATGTTAGCAATCGCCTGATCCAGCTGCTCATCGGAGATTTTCACTCCCATTTTCTGCCCCATCTGC +AGGATGATTTGATCCATGATCAAACGTTCCATGATTTGGTGGCGCAGCGTCGCGTCATCAGGAAGTTGCT +GCCTTGCCTGAGCAGCGTTCAGTTTTACCGACTGCATTAATCCATCAACGTCGCTTTCCAGCACGACGCC +GTTATTGACGACGGCTGCGACTTTATCGACTACCTGGGGGGCAGCGAAACTGGTATTCGCGATCATGGCG +ATACCGAGAAGCAGCGTTTTCCAGTTCTTCATACTTTTTCCATTTCAATTAACCGCACTGCGGATTACGT +GGTAAATCAACAAATCACAAAGTGTTTTGATACGGCAGAATGTTCGAACGCAGCATCTCTTGCGTACCCA +GACCGTAGTTGGAGCTCAGGCCGCGAAGTTCGATGTTAAAGCCGATTGCGTTGTCATATACCGCATGTTG +TTTATCGTTATCCCAACCGTTCAGCTTCCGCTCGTAACCGACGCGAATTGCATAGCAGCAGGAGCTGTAT +TGCACACCTAACATAGAGTCGGCTTGCTTGTTAGCATTGGTGTCGTAGTAGTAGGCCCCAACAATGGACC +AACGATCGGCAATTGGCCAGCTGGCGACAGCACCTACCTGCGAAATACCATTCTTATATTGCTCAGCAGT +GGAATAGTACTTAGGCAGCGTAGCCTGAATATATTCCGGGCTGGCGTAACGGTAATTCAGCTGTACCAGA +CGGTCTTCATCCCGACGGTATTCAATGCTGGAGTTACTGGTCGCTACGTTATCCAGACGTGTATCGTACT +GAATCCCGCCACGCAATCCCCAACGCTCGGAGATACGCCAGTAAGTATCGCCTGCCCACACCAGTGAACC +CGTTTTGTCGTCATTCTCCCATGTTATGTTGTCATCGCCAGTGCGAGACTCCGTGAAATAGTAGATTTGA +CCAACGGAAATATTAAAACGTTCAACGGCAGCATCATCATATATGCGAGATGTGACACCGGTCGTCACCT +GGTTAGCGGAGGCAATACGGTCAAGACCGCCGTAAGTCCGGTCCCGGAACAGGCCAGAGTAGTCAGATTG +CAGCAGAGACGAGTCGTAGTTATAGATGTCGCTCTGATCGCGATACGGCACGTACAAATACTGCGCGCGC +GGTTCCAGCGTTTGGGTATAACCCGGAGCCAGCATTTCCATATCGCGTTCAAAGACCATTTTGCCGTCAA +CTTTGAATTGCGGCATTACGCGGTTAACGGATTCGTCCAGCTTGGTCGTGTTTCTGGAGTTATACCAGTC +AAGATTGGTTTGCTGATAATGGGTTGCCAGCAACTTCGCTTCGGTATTGATGCTGCCCCAGTTATTAGAG +AGCGGCAAATTGATGGTCGGTTCCAGGTGAACACGGGTTGCTTCAGGCATGTCGTCTCTGGTGTTAACAA +AGTGCACTGCCTGGCCGTAAATACGCGTATCAAACGGACCAACATCATTCTGGTAGTAATTAACGTCTAA +CTGCGGCTCTGCCGAGTAGCTACTGGTGTTCTGTTCGCTGAAAACCTGGAACTGCTTGGTTGAAACGGTG +GCATTGAAGTTTTGCACCGCATAGCCAACGCTGAATTTTTGCGTTGCGTAGCCGTCAGTACTGGAACCGT +ACTTGTTATCGAAATCATTGAAGTAGCTAGGATCGCTGACCTTGGTGTAGTCGACGTTGAAACGCCACAC +CTGATCCATGACCCCGGAGTGGTTCCAGTAGAATAACCAACGACGTGAACTGTCATCGTTCGGGTGTTCA +TCTTCATAGACTTTATCTGAAGGCAGATAGTCCAGTTCCATCAAGCCAGCGCCCGCCTGGGAGAGGTAGC +GGAATTCGTTCTCCCACATGATGTTGCCACGACGATGCATATAATGCGGCGTGATGGTGGCATCCATATT +TGGCGCGATGTTCCAGTAATATGGCAGGTAGAACTCAAAGTAGTTGGTGGTGGTGTACTTGGCGTTCGGG +ATCAAGAAACCAGAGCGACGTTTGTCACCCACCGGCAACTGCAAATAGGGGCTATAAAAGATCGGTACCG +GACCCACCTTAAAGCGGGCGTTCCAGATCTCCGCAACTTGTTCTTCGCGGTCATGAATAATTTCGCTACC +TACCACGCTCCAGGTGTCAGAACCCGGCAGACAGGAGGTAAAGCTACCGTTATCCAGAATGGTATAGCGG +TTTTCGCCACGTTGTTTCATCAGGTCCGCTTTACCGCGACCCTGGCGACCCACCATCTGGTAATCACCTT +CCCAGACGTTGGTATCTTTGGTGTTCAGATTCGCCCAGCCTTTCGGCCCTTTGAGGATCACCTGGTTATC +GTCGTAATGGACATTACCGAGCGCATCAACGGTACGTACCGGCTCCGGTTGTCCTGGTGCCTCTTTTTGA +TGGAGCTGCACTTCGTCGGCCTGCAGACGGCTGTTACCCTGCATGATATCCACGCTGCCAGTAAACACGG +CGTCATCCGGGTAGTCCCCTTTCGCGTGGTCAGCATTGATAGTCACGGGTAAGTCATTGGTATCGCCCTG +TACCAGAGGACGGTCATAGCTTGGCACGCCCAACATGCACTGTGAGGCGAGGTCGGCTGCCAGTCCCTGT +TGACTATAAAGGGCGGTGGCAATCATGGTGGCCAGGAGAGTGGGGATACGTTTTTTCATACGTTGATTTT +ATTGTTCCATCATCGGTAACGTTGCGCGTGACAAACGGTCAGAGACTAACGTACTCGTCATCTCTACGCT +AGTGTTAATCCTGTCCGAATAGCGTCAGTGGTGTTAGGCACGGCATTGAATGACAGGTATGATAATGCAA +ATTATAGGCGATGTCCCACAATTGACCGCAGCCGGAAAACGGTAAAAGCACCTTTATATTGTGGGAGATA +GCCCTGATATCCGTGTGTCGATTTGGGGAATATATGCAGTATTGGGGAAAAATCATTGGCGTGGCCGTGG +CCTTACTGATGGGCGGCGGCTTTTGGGGCGTAGTGTTAGGCCTGTTAATTGGCCATATGTTTGATAAAGC +CCGTAGCCGTAAAATGGCGTGGTTCGCCAACCAGCGTGAGCGTCAGGCGCTGTTTTTTGCCACCACTTTT +GAAGTGATGGGGCATTTAACCAAATCCAAAGGTCGCGTCACGGAGGCTGATATTCATATCGCCAGCCAGT +TGATGGACCGAATGAATCTTCATGGCGCTTCCCGTACTGCGGCGCAAAATGCGTTCCGGGTGGGAAAATC +AGACAATTACCCGCTGCGCGAAAAGATGCGCCAGTTTCGCAGTGTCTGCTTTGGTCGTTTTGACTTAATT +CGTATGTTTCTGGAGATCCAGATTCAGGCGGCGTTTGCTGATGGTTCACTGCACCCGAATGAACGGGCGG +TGCTGTATGTCATTGCAGAAGAATTAGGGATCTCCCGCGCTCAGTTTGACCAGTTTTTGCGCATGATGCA +GGGCGGTGCACAGTTTGGCGGCGGTTATCAGCAGCAAACTGGCGGTGGTAACTGGCAGCAAGCGCAGCGT +GGCCCAACGCTGGAAGATGCCTGTAATGTGCTGGGCGTGAAGCCGACGGATGATGCGACCACCATCAAAC +GTGCCTACCGTAAGCTGATGAGTGAACACCATCCCGATAAGCTGGTGGCGAAAGGTTTGCCGCCTGAGAT +GATGGAGATGGCGAAGCAGAAAGCGCAGGAAATTCAGCAGGCATATGAGCTGATAAAGCAGCAGAAAGGG +TTTAAATGACCCTGTAAATGATGCTGAGTAACTGCCCACGATTAAAGGTGGCCGCCCTGGCGGTCACTTC +TTTGAGAAAAGGCGTTTACTCAGAATGGTGGACAGGCTCAATGCACGGTTTACGGGAGGGGTTCTGTAGG +TTTTATCGCGTTGACCCTGCTTAAGGTTGAGAGCTTTACGACGAGCGGAATTATATTTTTACGTCTTAAA +AATAAAAAACACATACCTGAATGAGCGATTTTTGAAAGTATATTTATTCAGAACGCGCATCATGAGTTTT +TAACTCAATGCGAGGCTATTACCATGAAAGTATCAGTTCCAGGCATGCCGGTTACACTTTTAAATATGAG +CAAGAACGATATTTATAAGATGGTGAGCGGGGACAAGATGGACGTGAAGATGAATATCTTTCAACGCTTG +TGGGAGACGTTACGCCATCTGTTCTGGTCAGATAAACAGACTGAGGCTTATAAACTTCTGTTCAATTTCG +TGAATAACCAGACTGGCAACATCAACGCCTCAGAATACTTTACTGGGGCTATCAACGAGAATGAGAGAGA +AAAGTTTATCAATAGCCTGGAATTATTCAATAAACTTAAAACATGCGCAAAAAATCCGGATGAGTTGGTC +GCAAAGGGCAATATGCGCTGGGTCGCCCAGACCTTCGGGGATATCGAGTTAAGTGTCACTTTTTTCATTG +AAAAGAATAAGATATGTACTCAGACGTTGCAGCTGCATAAGGGCCAAGGTAACTTGGGCGTTGATCTTAG +AAAGGCTTACCTTCCCGGCGTTGACATGAGGGATTGTTACCTTGGTAAAAAAACAATGAAAGGTAGCAAT +GATATCCTTTATGAGAGACCTGGGTGGAATGCTAACCTGGGCGTGCTACCCCGGACGGTGCTACCCCGGA +CGGTGCTAACCCGGACGGTGCTAACCTGGACGGTGCTACCGTGAACGGTGCTACCTCCTTATATGATGAG +GTAATTATTATTAATAAAATCCCCCCCAAAAAAATTGATACTAAAGGAGTTGCTACTGAAGAAGTTGCTA +CTAAAAAAGTACTGCTGAACAAATTACTGACAACGCAATTATTGAATGAGCCAGAATAAGCTAAGGTTGA +AGGGGCTGGAACGCCCCTTCAACCTTAGCAGTAGCGTGGGATGATTTCACAATTAGAAAGACCTGCATGA +TGAGCTAGAGAAGAGGCTAGTGACGCAAGGCGTCGTGCAGGACACGGATCACCGAGATGGGCATCGCCAA +CCAGACTGCTAATTAGCCCATGAATAACAATCAGAAAGGACCATAACAGACCCGTTAAAATGAAATATAA +GAGACGGTCAACGGGTGAAGAAAAAGTTCAAAAATTCGCTGTGGAGCAGGAAGGGAATTACCGAATGGAA +AGCGTAGCCACACGCAACAACTGAAAGCAGTTTGGCAGAAACAAAAAATCCCCGGACTCGGGGATTTATG +TACAAGAGGCAGCCCTTAGGATGAGGGTATAAACGTACAGGAAAGGTTAAAAATCCGCTGGCGCTTTAAA +CGTCATACTATTGCCATACGCCGGATGGGTAATCGTCAACATCTCTGCATGTAGCAACAAACGTGGTGCC +ATCGCTCTCGCTTCTGGTGATGCATAAAAACGATCGCCGAGAATCGGATGACCCAGCGCCAGCATATGCA +CACGCAATTGATGCGAACGCCCGGTAATCGGTTTTAACACCACTCTTGCCGTGTTATCCGCCGCATACTC +CACCACTTCATATTCCGTCTGCGCAGGTTTACCCGTTTCGTAACAGACTTTCTGTTTCGGGCGGTTTGGC +CAGTCGCAAATCAGCGGCAGATCCACCAGACCTTCTGCGGGGGATGGATGCCCCCAGACGCGGGCCACAT +ACTGCTTTTTCGGCTCGCGCTCGCGGAACTGGCGTTTTAACTCCCGCTCCGCGGCTTTGGTCAGCGCCAC +TACAATCACGCCGCTGGTAGCCATATCCAGACGATGCACCGATTCTGCCTGCGGATAATCACGCTGAATG +CGCGTCATCACGCTGTCTTTGTGCTCTTCCAGACGACCCGGCACTGACAACAAACCGCTCGGCTTGTTGA +CCACCATAATATGGTCATCCTGATACAGGATAACCAACCAGGGTTCCTGCGGTGGATTGTAGTTTTCCAT +CCCCATTTTCGGCTCCGTTACTGATGCGTTACAACGATCAAACGCAGGGCATCCAGACGCCAACCTGCCT +GATCCAGGCTTTCCATTACCTGCTGACGGTTGCTCTCAATGGCGGTCAGTTCGTCGTCACGAATGTTCGG +GTTCACTGCACGCAGAGCTTCCAGACGAGACAGCTCGGCAGACAGTTTTTCGTCGGCTTCGTTACGCGCT +GCATCAATCAATGCACGGGCAGATTTCTCGATCTGCGCTTCACCCAGTTGAAGGATAGCGTGAACATCCT +GCTGCACGGCGTTAACCAGTTTGCTGCCGGTGTGACGGTTAACCGCGTTAAGCTGGCGGTTAAAGGTTTC +AAACTCTACCTGCGCCGCCAGGTTGTTGCCGTTTTTATCCAGCAGCATACGTACCGGCGTCGGTGGCAGG +AAGCGGTTGAGCTGCAACTGCTTCGGAGCCTGGGCTTCAACCACATAAATCAGTTCCACCAACAGCGTAC +CTACCGGCAACGCTTTGTTTTTTAACAGTGAAATCGTGCTGCTACCGGTATCGCCAGAAAGGATCAGATC +CAGACCGTTGCGGATCAGCGGATGCTCCCAGGTAATAAACTGTGCATCTTCACGCGCCAGCGCCACTTCA +CGATCAAAGGTGATGGTGATGCCATCTTCCGACAGGCCAGGGAAGTCCGGCACCAGCATATGATCGGACG +GCGTCAGCACGATCATGTTGTCGCCGCGATCGTCCTGATTGATACCGATAATATCGAACAGGTTCATGGC +GAAGGCGATCAGGTTGGTATCGTCATCCTGCTCTTCAATGCTTTCTGCCAGTGCCTGGGCTTTTTCGCCA +CCGTTGGAGTGGATTTCCAGCAGGCGGTCACGACCCTGTTCCAGCTGTGCTTTCAGCGCTTCATGTTGCT +CGCGGCAGTTTTTGATCAGATCGTCAAAGCCTTCGGTTTGATCCGGTGAAGCCAGATAGTTAATCAGATC +GTTGTATACGCTATCGTAAATAGTGCGTCCGGTCGGGCAGGTGTGCTCAAATGCATCCAGACCTTCGTGA +TACCAGCGCACCAGCACCGACTGAGCGGTTTTCTCCAGATAAGGCACATGGATCTGAATATCGTGCGCCT +GGCCGATACGATCCAGACGACCAATACGCTGCTCCAGTAGATCCGGGTTGAATGGCAGGTCAAACATCAC +CATGTGGCTGGCGAACTGGAAGTTACGTCCTTCAGAACCGATTTCTGAGCACAGCAGTACCTGTGCGCCG +GTGTCTTCTTCGGCAAACCAGGCGGCAGCGCGGTCACGTTCGATAATCGACATACCTTCGTGGAACACCG +CAGCGCGAATACCTTCACGTTCGCGCAGTACCTGCTCCAGTTGCAGCGCAGTGGCAGCTTTGGCGCAGAT +CACCAGCACTTTCTGAGAGCGATGGCTGGTCAGGTAGCCCATCAGCCACTCAACGCGCGGATCGAAGTTC +CACCAGGTGGCGTTATCACCTTCAAATTCCTGATAAATACGCTCCGGGTAGAGCATATCGCGAGCACGAT +CTTCCGCACTTTTACGTGCGCCCATAATGCCGGAGACTTTAATAGCCGTCTGATACTGCGTCGGTAGCGG +CAGCTTAATGGTGTGCAGCTCGCGTTTCGGGAATCCTTTCACACCGTTACGCGTGTTACGGAACAGCACG +CGGCTGGTGCCGTGGCGATCCATCAGCATCGAAACCAGCTCCTGACGGGCGCTCTGGGCATCTTCGCTGT +CGCTGTTTGCTGCCTGCAACAGCGGCTCGATATCCTGCTCGCCGATCATCTCGCCGAGCATGTTCAGTTC +GTCATTGCTCAGTTTGTTACCTGCCAGCAGCATGGCAACGGCGTCCGCAACCGGACGATAATTTTTCTGC +TCTTCAACGAACTGCGCAAAATCGTGGAAACGGTTCGGGTCCAGCAGACGCAGACGGGCGAAGTGGCTTT +CCATCCCCAGCTGTTCCGGGGTCGCGGTCAGCAGCAGAACGCCCGGCACGTGCTCTGCCAGTTGTTCAAT +GGCCTGATATTCACGGCTTGGCGCATCTTCGCTCCACACCAGGTGATGCGCTTCATCGACCACCAGCAGG +TCCCATTCGGCTTCACAGAGATGTTCCAGGCGCTGTTTGCTACGACGGGCAAAATCCAGCGAGCAAATCA +CCAGCTGTTCGGTGTCAAACGGGTTGTAAGCATCGTGCTGAGCTTCGGCATAACGCTCATCATCAAATAG +CGCAAAGCGCAGGTTGAAACGGCGCAGCATTTCTACCAGCCACTGATGCTGTAAGGTTTCCGGGACGATA +ATTAGCACACGTTCAGCAGCGCCAGAGAGCAGTTGCTGATGCAGGATCATCCCGGCTTCAATGGTTTTCC +CTAAACCCACTTCGTCAGCCAGCAGGACGCGCGGCGCGTGGCGGCGACCAACATCATGAGCGATGTTGAG +CTGATGCGGGATCAGGCTGGTACGCTGACCGCGCAGGCCGCTGTACGGCATACGGAACTGTTCGCTGGAA +TATTTACGCGCGCGATAACGCAGCGCAAAGCGGTCCATACGGTCAATCTGCCCGGCAAACAGACGGTCCT +GCGGTTTGCTGAACACCAGTTTGCTATCAAGGAAAACTTCACGCAGGGCTACGCCGGACTCTTCAGTATC +CAGGCGAGTACCGATATAGGTCAGCAAGCCATTTTCTTCTTTTACTTCTTCGACTTGCATCTGCCAGCCG +TCATGGCTGGTAATGGTATCACCAGGGTTGAACATCACGCGGGTCACGGGGGAATCACTGCGTGCGTACA +GACGGTTTTCACCAGTAGATGGGAAAAGTAAAGTGACAGTTCGCGCATCCACCGCGACAACGGTTCCAAG +TCCCAATTCGCTTTCTGTATCGCTGATCCAGCGTTGACCAAGTGTAAAAGGCATATGTGTTCGGCTCTAT +ATCTTTAATTGCAGGCAATAACCACCCGCTACCGTGCTTATGAGGTAGTGGTGTTATTCAGGTCCAGGAA +TGGAAAGGGCGCTATGGTACTGGATGGCAAAGCATTCGTCACGCATCAAAATGGTATCTGGCGAACTCTT +TTTTTTGCTCAAAATAGCCCAAGTTGCCCGGTCATAAGTGTAGCAAAATTATCCTCAATAAAAGGGAGTA +TTCCCTCCGCCACGGGTTGTAGCTGGCGGGTCAGATAGTGTTCGTAATCCAGTGGTGAACGTTGGTAGTC +CAGCGGCTCCGGGCCGTTGGTGGTCCATACGTACTTAATGGTGCCGCGATTCTGATATTGCAAGGGGCGA +CCACGCTTTTGGTTTTCTTCATCGGCAAGGCGAGCGGCGCGTACATGAGGCGGCACATTACGCTGATACT +CGCTCAGCGGACGGCGAAGGCGTTTACGGTAAACCAGTCGCGCATCCAGTTCACCCGCCATCAGTTTGTC +GATGGTTTCGCGTACATATTCCTGATATGGCTCGTTGCGGAAGATGCGCAGGTATAGCTCCTGCTGAAAC +TGCTGGGCCAGCGGCGTCCAGTCGGTGCGCACGGTTTCCAGCCCTTTAAACACCATCCGCTGCTTGTCGC +CCTCCTGAATCAGTCCGGCATAACGCTTTTTACTGCCGGTATCGGCTCCGCGAATGGTTGGCATCAGAAA +ACGGCAGAAATGGGTTTCATACTCCAGTTCTAATGCGCTGGTCAGCCGTTGTTTTTGCAGCGTTTCCGCC +CACCAGGCGTTAACGTGCTGCACCAGTGCACGACCGATTTTCGCCGCTTCTTCTTCCGAATGTGCGCCTT +TCAGCCAGACAAACGTTGAGTCGGTATCGCCGTAGATAACGTCGTAGCCCTGTGCTTCAATCAACGCTTT +GGTTTGCCGCATGATCTGATGACCACGCATGGTGATCGACGATGCCAGCCGCGGATCGAAGAAGCGGCAG +GCGGTGGTGCCGAGCACGCCATAAAAGGCATTCATGATGATTTTCAGCGCCTGCGACAGCGGTTTGTTAC +CCTGGCGTTTGGCTTCATCGCGCCCGTGCCAGATGTTAGTCACAATCTCCGGCAGGCAATGTTTTTCTCG +CGAGAACCAGGCATCGAGAAAACCTTCGGTACTGTGCTCTGGATCAGGCTGCGCCATGCCTTCCACCAGC +CCGACGGGATCAATCAGAAAGGTGCGGATGATCGACGGGTACAGGCTTTTATAGTCCAGCACCAGCACTG +AATCATAAAGCCCTGGCCGTGAATCCATCACGTAGCCGCCAGGGCTGGCGTGCGGCGGCACTTCGCCGAG +ATTAGGCGCGACATAACCAGCGCGATGCATTCGCGGAAAATAGAGATGACCAAATGCCGCCACCGAACCG +CCGTGTCGGTCCACCGGCAGGCCGTTCACCGTTGCCCGTTCGAGTAAAAATGGCATGATTTCAGTTTTGT +GGAAGATCTGCGTCACCAGCTCGCAATCTTTCAGGTTATAAGTTGCCAGCGCAGGTTTATCTTCGGCGAA +ACGGCGGTCAATTTCGTCCATTCGATCCCACGGGTTATCGATAGATTTTCCTTCGCCTAATAGCTCCTGA +GCGACAGTTTCCAGCGAGAATGAAGAGAAATTCCAGAACGCGGATTTCAGCGCCTCGATACCGTCGATAA +TTAGCCGACCTTTAGCCTGGGCAAAAAAGACGCCGTTTTTAAAGCCGTGCTCGCGCCACTCCAGCTCGCT +ATTATCGCGCCCAAGACGCAGCGGAAGACGGTAACGCTCGGCATGTTTTTGCAGCATTCGCAGATCGAAC +TGCACCACGTTCCAACCGATGATCACATCAGGATCGTAGTTGGCAAACCAGGCGTTGAGTTTTTCCAGCA +ACTGCGGGCGGCTGGCGACGTATTCCAGTTCGAAATCAAGCGAGGAGGCGTCGCCATTCTCCGGCCCCAG +CATATAAACGATGCGCTGCCCGCAGCCTTCCAGGCCGATGCAGTACAGCTCACCGTGGCGGGTGGTTTCA +ATATCTATAGAAACCCACTTGAGCGGCGGACGATAGTCGGGATGCGGTTTCAGACGGGCATTAACGATAG +TGCCATTGTGCATATCACCCTCGACCCACACCGGTGAGGTGATAAACCGCTCCATCAGATAGCGTTCTGG +CGGACGCACATCGGCCTCGTAGACGGTAACGCCACCTTCACGCAGGCGCTTTTCGTAATTCATCAATTGG +CGATGGGCGCGACAGTAAAGGCCATACACCGGCTGGCGGTGAAAATCCTTTAACGCCAGCGGTGTCAGGC +GAAAGCCTTGTTCACCCTGCAAAATATGCTGAGCGCGGGGAACCTGATCGGCGGGAATAAACGCCACGGA +CTCTTGCGGTGCAAGCGTAACCTGCAACGGCCCGTTGTCCGTCGCCAGCCAGAAGGAGACTTCTGTCCCT +TGCGGGGTGTCCCGCCAGTGTCGGGTTAAGATAAAACCTGCCTGCGCCACGCTGAAAATCCATCAAAAAA +CCAGGCTTGAGTATAGCCTGGTTTCGTTTGATTGGCTGTGGTTTTATACAGTCATTACTGCCCGTAATAT +GCCTTCGCGCCATGCTTACGCAGATAGTGTTTATCCAGCAGCGTTTGCTGCATATCCGGTAACTGCGGCG +CTAACTGACGGCAGAATATCCCCATATAAGCGACCTCTTCCAGCACGATGGCGTTATGCACCGCATCTTC +GGCATTTTTGCCCCATGCAAACGGGCCGTGGGAATGGACCAGAACGCCGGGCATTTGCGCTGCATCGATA +CCCTGTTTTTCAAAGGTTTCTACGATGACGTTACCGGTTTCCCACTCATATTCGCCGTTGATTTCTGCGT +CGGTCATTTTGCGGGTGCAGGGAATGGTGCCGTAGAAATAGTCGGCGTGGGTGGTGCCGGTTGCTGGAAT +CGACTGACCCGCCTGCGCCCAGATGGTGGCGTGGCGCGAGTGCGTATGCACAATGCCGCCAATGGAGGGG +AATGCCTGATAGAGCAGCCGGTGAGTTGGCGTGTCGGAGGAGGGCTTTTTCGTACCTTCAACCACTTCAC +CGGTTTCGATGCTAACCACGACCATATCGTCAGCGGTCATGACGCTGTAATCGACGCCGGAAGGTTTGAT +CACAAAGACGCCGCGCTCGCGATCAACGGCGCTGACGTTGCCCCATGTGAGCGTGACCAGGTTGTGTTTT +GGCAGCGCCAGGTTGGCTTCTAATACCTGGCGTTTGAGATCTTCTAACATGTTGACTCCTTCGTGCCGGA +TGCGCTTTGCTTATCCGGCCTACAAAATCGCAGCGTGTAGGCCTGATAAGACGCGCCAGCGTCGCATCAG +GCGTTGAATGCCGGATGCGCTTTGCTTATCCGGCCTACAAAATCGCAGCGCGTAGGCCTGATAAGACGCG +CCAGCGTCGCATCAGGCGTTGAATGCCGGATGCGCTTTGCTTATCCGGCCTACAAAATCGCAGCGTGTAG +GCCAGATAAGACGCGTCAGCGTCGCATCAGGCGTTACATACCGGATGCGGCTACTTAGCGACGAAACCCG +TAATACACTTCGTTCCAGCGCAGCGCGTCTTTAAACGCTGGCAGGCGTGTGTCGTTATCAATCACCGTGA +TTTCAATGTCGTGCATCTCGGCGAATTGGCGCATATCGTTGAGGTTCAGTGCATGGCTGAAGACGGTATG +GTGCGCGCCACCAGCGAGGATCCACGCTTCGGAAGCAGTTGGCAGATCCGGTTGCGCTTTCCACAGCGCA +TTCGCCACCGGCAGTTTCGGCAGGGAGTGCGGTGTTTTCACCGTGTCGATGCAGTTAACCAGTAGACGGT +AACGATCGCCGAGATCAATCAAGCTGGCGACAATCGCTGGGCCGGTTTGGGTATTGAAGATCAGGCGGGC +AGGATCGTCCTTACCACCAATACCGAGATGCTGAACGTCGAGGATCGGTTTCTCTTCTGCGGCGATCGAC +GGGCAGACTTCCAGCATATGGGAGCCGAGCACCAGGTCATTACCTTTCTCGAAGTGATAGGTGTAGTCCT +CCATAAAGGAGGTGCCGCCCTGCAGACCGGTTGACATCACCTTCATGATGCGAAGCAGGGCGGCAGTTTT +CCAGTCGCCTTCGCCCGCAAAGCCGTAACCCTGCTGCATCAGACGCTGTACGGCCAGACCAGGAAGCTGT +TTCAGACCGTGCAAATCTTCAAAGGTGGTGGTGAACGCGTGGAAGCCACCTTGTTCCAGGAAACGCTTCA +TCCCCAGCTCAATACGCGCCGCTTCCAGCACGTTCTGTCGTTTTTTGCCGTGGATTTGTGTGGCAGGCGT +CATGGTGTAGCAGCTTTCGTACTCATCGACCAGCGCGTTAACATCGCCGTCGCTGATGGAGTTCACCACC +TGCACCAGATCGCCAACCGCCCAGGTATTGACGGAGAAACCGAACTTGATCTGTGCGGCAACTTTATCGC +CATCGGTGACCGCCACTTCACGCATGTTATCGCCAAATCGGCAGACTTTCAGATGACGGGTATCCTGTTT +AGAGACCGCCTGACGCATCCAGGAGCCGATACGCTCATGGGCTTGTTTATCCTGCCAGTGACCGGTAACC +ACGGCATGTTGCTGACGCATACGCGCGCCAATGAAGCCGAACTCGCGACCGCCATGTGCAGTCTGGTTCA +GGTTCATAAAGTCCATATCGATACTGTCCCACGGCAGCGCCGCGTTGAACTGGGTGTGGAATTGCAGCAA +CGGTTTGTTGAGCATGGTCAGGCCGTTGATCCACATTTTGGCCGGGGAGAAGGTGTGCAGCCACACCACC +AGACCAGCGCAACGATCGTCGTAATTCGCGTCGCGGCAAATAGCGGTGATTTCATCCGGCGTGGTGCCCA +GCGGTTTCAACACCAGTTTGCAGGGCAGTTTCGCTTCCGTATTCAGCGCATTAACGACGTGCTCGGCATG +TTGGGTGACCTGACGCAGGGTTTCCGGGCCATACAGATGCTGGCTGCCAATGACAAACCACACTTCATAA +TTATCAAAAATCGTCATTATCGTGTCCTTATAGAGTCGCAACGGCCTGGGCAGCCTGTGCCGGGGCGGAA +GTTGGAAGATAGTGTTGTTCGGCGCTCATCGCCCATTGCTGATAGCGGCGATAAAGCTGTTCAAAGCGTT +GTGCCTGCTCGCTGCACGGTTGCAGGGTTTTCTCTACCGCACTGGCCATTTTTTGCTGAGCTGATGGGAT +GTCTGCGTGCACTTTCGCGGCGACGGCAGCAAAAATCGCCGCACCGAGCGCACAGCACTGGTCAGAGGCA +ACAATTTGCAGCGGGCGATTCAGCACGTCGCAGCAGGCCTGCATAATGACCTGGTTTTTCCGCGCGATGC +CGCCCAGTGCCATCACGTTATTAACGGCGATCCCCTGATCGGTAAAGCACTCCATGATTGCGCGTGCGCC +AAAGGCGGTGGCAGCAATCAAACCGCCGAACAGCAGCGGAGCGTCGGTAGCGAGGTTAAGATCGGTAATC +ACCCCTTTCAGGCGTTGGTTAGCGTTCGGTGTGCGGCGGCCGTTAAACCAGTCGAGCACCACCGGCAGGT +GATCCAGAGACGGATTTTTGGCCCATGCTTCGGTCAGCGCCGGAAGCAGTTGTTTCTGGCTGGCGTTGAT +TTGCGTTTTCAGTTCCGGATGCTGGGCGGCAAGCTGTTCCAGCGGCCAGCCGAGTACGCGACCAAACCAG +GCGTAGATATCACCAAACGCCGATTGGCCTGCTTCCAGACCGATAAATCCAGGCACCACGCTGCCATCAA +CCTGACCGCAAATACCTTTAACTGCCCGCTCGCCAACGCTCTGTTTGTCGGCAATCAGAATGTCGCAGGT +GGAAGTACCGATAACTTTTACCAGTGCGTTAGGCTGTGCGCCTGCGCCAACTGCGCCCATATGGCAGTCA +AACGCGCCGCCGGAAATCACCACGCTTTCAGGCAGGCCGAGACGCTGCGCCCATTCCGGGCATAAGGTGC +CCACCGGAATATCGGCAGTCCAAGTGTCAGTGAACAGCGGGGAAGGCAAATGGCGATTGAGGATCGGGTC +CAGCTCATCAAAGAAACTGGCTGGCGGCAGGCCGCCCCAGCTTTCGTGCCACAGAGATTTATGCCCGGCG +CTGCAACGTCCGCGACGAATATCCTGCGGGCGGGTGGTACCGGAAAGCAGAGCTGGCACCCAGTCGCACA +GCTCAATCCACGATGCGGCAGATTGCGCCACGGCGCTGTCCTGGCGAGTCACATGCAGGATTTTTGCCCA +GAACCATTCGCTGGAATAAATACCACCAATGTAGCGGGAGTAGTCAACGTTGCCCGGCGCGTGGCACAAA +CGGGTAATCTCTTCCGCTTCTTCAACCGCAGTGTGGTCTTTCCACAATACGAACATCGCGTTCGGGTTTT +CGGCAAACTCCGGGCGCAGCGCCAGCACGTTTCCGTCGGCATCAATCGGTGCGGGCGTCGAGCCGGTACT +GTCAACGCCAATCCCGACCACAGCTGCGCGCTGTTCGACGCTAAGCTCTGCAAGCACGGTTTTCAGTGCC +GCTTCCATTGACTCAATGTAGTCACGCGGATGATGACGGAACTGGTTATTCGGGGCATCACAAAATTGCC +CTTTCTGCCAACGGGGATACCACTCTACGCTGGTGGCGATCTCTTCACCGGTAGCGCAGTCCACCGCCAA +AGCTCGCACAGAATCACTGCCAAAATCGAGGCCAATTGCAATCGCCATCGTTTCACTCCATCCAAAAAAA +CGGGTATGGAGAAACAGTAGAGAGTTGCGATAAAAAGCGTCAGGTAGGATCCGCTAATCTTATGGATAAA +AATGCTATGGCATAGCAAAGTGTGACGCCGTGCAAATAATCAATGTGGACTTTTCTGCCGTGATTATAGA +CACTTTTGTTACGCGTTTTTGTCATGGCTTTGGTCCCGCTTTGTTACAGAATGCTTTTAATAAGCGGGGT +TACCGGTTGGGTTAGCGAGAAGAGCCAGTAAAAGACGCAGTGACGGCAATGTCTGATGCAATATGGACAA +TTGGTTTCTTCTCTGAATGGTGGGAGTATGAAAAGTATGGCTGAAGCGCAAAATGATCCCCTGCTGCCGG +GATACTCGTTTAACGCCCATCTGGTGGCGGGTTTAACGCCGATTGAGGCCAACGGTTATCTCGATTTTTT +TATCGACCGACCGCTGGGAATGAAAGGTTATATTCTCAATCTCACCATTCGCGGTCAGGGGGTGGTGAAA +AATCAGGGACGAGAATTTGTCTGCCGACCGGGTGATATTTTGCTGTTCCCGCCAGGAGAGATTCATCACT +ACGGTCGTCATCCGGAGGCTCGCGAATGGTATCACCAGTGGGTTTACTTTCGTCCGCGCGCCTACTGGCA +TGAATGGCTTAACTGGCCGTCAATATTTGCCAATACGGGTTTCTTTCGCCCGGATGAAGCGCACCAGCCG +CATTTCAGCGACCTGTTTGGGCAAATCATTAACGCCGGGCAAGGGGAAGGGCGCTATTCGGAGCTGCTGG +CGATAAATCTGCTTGAGCAATTGTTACTGCGGCGCATGGAAGCGATTAACGAGTCGCTCCATCCACCGAT +GGATAATCGGGTACGCGAGGCTTGTCAGTACATCAGCGATCACCTGGCAGACAGCAATTTTGATATCGCC +AGCGTCGCACAGCATGTTTGCTTGTCGCCGTCGCGTCTGTCACATCTTTTCCGCCAGCAGTTAGGGATTA +GCGTCTTAAGCTGGCGCGAGGACCAACGCATTAGTCAGGCGAAGCTGCTTTTGAGCACTACCCGGATGCC +TATCGCCACCGTCGGTCGCAATGTTGGTTTTGACGATCAACTCTATTTCTCGCGAGTATTTAAAAAATGC +ACCGGGGCCAGCCCGAGCGAGTTTCGTGCCGGTTGTGAAGAAAAAGTGAATGATGTAGCCGTCAAGTTGT +CATAATTGGTAACGAATCAGACAATTGACGGCTTGACGGAGTAGCATAGGGTTTGCAGAATCCCTGCTTC +GTCCATTTGACAGGCACATTATGCAAGCATTGCTGGAACACTTTATTACCCAATCCACCGTGTATTCATT +GATGGCGGTGGTGTTGGTGGCCTTTCTGGAGTCGCTGGCGCTGGTCGGTTTGATTCTACCCGGTACGGTG +CTGATGGCGGGGCTGGGAGCGCTGATTGGCAGCGGCGAGTTAAGTTTCTGGCACGCCTGGCTGGCAGGGA +TTATTGGCTGCTTGATGGGCGACTGGATTTCTTTCTGGCTGGGTTGGCGTTTTAAAAAGCCGTTGCATCG +CTGGTCATTTCTGAAGAAAAACAAAGCACTACTTGATAAAACTGAACATGCGTTGCATCAACACAGCATG +TTCACCATTCTGGTCGGTCGTTTTGTTGGCCCGACGCGTCCGCTGGTGCCAATGGTGGCGGGAATGCTGG +ATCTGCCGGTGGCTAAATTTATTACGCCGAATATTATCGGCTGCCTGCTGTGGCCGCCGTTTTACTTCCT +GCCAGGGATTCTGGCGGGCGCGGCGATCGATATTCCTGCCGGAATGCAGAGCGGTGAGTTTAAATGGTTG +CTGCTGGCAACAGCGGTGTTTTTGTGGGTTGGTGGCTGGCTGTGCTGGCGGTTATGGCGCAGCGGTAAAG +CGACTGACCGTTTGAGTCATTATTTGTCCCGCGGTCGTTTGTTGTGGCTGACGCCGTTGATTTCTGCCAT +CGGCGTGGTGGCGCTGGTGGTGTTAATTCGCCACCCGTTGATGCCGGTGTATATCGATATTTTGCGTAAA +GTGGTTGGGGTTTAGGAGATAGTCTTGTGCGGGTTGCCTGATGCGACGCTTGCCGCGTCTTATCAGGCCT +ACAAAACGCACTACCCGTAGGTCGGATAAGGCGTTCACGCCGCATCCGACAGTGCATACTAACCCGTAAT +CCCCAATAGTGCCGAAGCACTCGCCTTACCGCTCAACAACTCATTGGTCATACCCTGCCAGGCGATGCGC +CCGTCGGCGACTACTACCGAGCGCGTGGCGATCCGCGCCGCATCTTCCACGCTGTGCGACACCATCAATA +GCGTCATTTTTTGCTGCTGGCAGCTCGTGCTCACCAGCGTCAACATCTCCTGACGTAACGCCGGATCGAG +CGCAGAGAACGGTTCATCGAGCAATAAAATCGGCTGTTCGCGTACCAGACAACGCGCTAACGCCACTCGC +TGTCGCTGACCGCCGGAAAGCTCGCCCGGTAACCGCGCCATTAAATTATCAATCCCCATCTGGCGGGCGA +TAGCGTGCATTTTCCCCTGCTGTACCGCGTTCAGTTTCAATCCCGGATTTAGCCCCAGCCCGATGTTCTG +TGCGACCGTCAGGTGGCTGAACAGGTTGTTCTCCTGAAACAGCATCGACACCGGACGGCGTGACGGCGGC +ATAGTTGTGTGATCTACGCCATCGATAGTCAGCGAACCGCTGGCTGGCGTCAGAAAACCGGCGATCAAAT +TCAGCAGGGTACTTTTACCCGCGCCGCTTGGCCCGAGGATCGCCACCTGCTCGCCGCGTTCCACCGTTAA +GCTAAAACGCATCGGCAAATGGTGGTAAAGCCAGGTGATATCAGTCAGTTTTAACATTTCGCCCCGGTAG +TTTTTCAATCACGGTAAACAGCAGAAAACAGAGCAGCAGCAGAATTAACGCGGTGACCGCACCGTCCTGG +CTGCGATAGGAGCCAATTTGCTGGTAGAGATAAAACGGCAGGGTGCGGAAATCATCGTTACCGAACAACG +CCACCACGCCAAAATCACCAATCGACAGCACGCATGCAAAGGCCAGCGCCTGCGCCAGTGGACGTTTCAG +GGCGCGCAGCTCCACCACTTTTAAGCGTGACCAGCCTTCAATCCCCAGCGACTGACATAACATGCTGTAG +CGGGCGGTGATATCGCGCATCGGGTTTTCCAGCACTTTCAGCGCATAAGGGATCGCCATTAACGCATTGG +TGAAAATCACAATGCCGTCAGCAGATTGTGGCAGGCCGATAGTGTTGTTGAGCAGTAAAAAGAAGCCGGT +AGCCAGCACAATCCCCGGCATGGCGAGGATCAACATGCCGCTCATCTCCAGCACCTGACCCGCCAGCATT +TTCTGCCGCGCCCGCAGTTCGCGACTGCTCCATAGCAGCATCATGGTCAGCACTACGCACAATACACCTG +CCGCCAGCGCAATACGCAACGAGGTCCACAGCGCCTGCCACAGCACCGGTTGTGCCAGCACTTCCGGCAA +CTGGCGATTTACCCCATCGACGATCACCGCCAGTAACGGTGGCAGCAACAGCAGCAGCGCCAGCACAATT +AACACCGTGTCGCAAATGCGGCTATGCAGACGATCGTCCGGGTCGCGCCAGCCTTGCAGCAGCGTGGTGC +CGGGCGCAATGGCCTTACTCAATCGCTGACTCAACAGCACCAGCCCGAGGCAGCACACCATCTGGAGCAG +CGCCAGCATTGCCGCGCGGGCAGGATCGTAGTCGTAACTCAGCGCCTGATAGATTGCCAGCTCGATAGTG +GTCGCCTGCGGACCGCCCCCCAGCGATAGCACGGTGGCGAAGCTGGCGAAACAGAGCATAAAGATAAGCG +CAGCAACCGGCGGGATTTGTCGCCGTAACCACGGCCATTCGACGAAGCGGAAAAAATGCCAGCTACGCAT +CCCAAGCTGGGCGGCAAGTTGACGCTGTTCGCCGGGGATGTTTTCCAGTGCCTGGAGTAATAAGCGGCTC +GCCATCGGCAGATTAAAAAACACATGGGCCAGCAAAATACCTTGCAGGCCGTAGGGCGAAAAGGTCCACT +CCAGACCGAGCGATTGGCAGAGTGTTGCCAGCCAGCCCTGGCGACCATAGACGCTAAGAATGCCGAAAAC +AGCGACCAACACCGGGAGGATCAAGGTCATTGCACACAGACGCAACAGCGCCAGCCGACCCGGAAAGCGC +CTGCGATAGAGCGCGCGGGCGAGGAATATCGCGGGTATGACAGAGAGCAGTGCCGAGAGAAACGCCTGCC +AGAAGGAGAAGCGCACCACATGCCACAGATAGCTGTCCTGCCAGACTGCCACCCAGTCATCCTGCGGCGC +GTTCCACCACAGGGCGAGAAACGCCGCCAGCGCAACCGCTACCACCAGCGTGGTGGCGCTTACACCTGGA +ATTAACCAGCCGGGAATTAACGGCTGACGGCGCGTTGCCATTCGCTAATCCATGCCTGACGTTGTGCCGC +CACTTCGGCTGGCGTGAACTCCAACGTGGTTGCGGGTTTGGTCAATTTTTCAAAACCGGCAGGCAGCGTG +ACGTTTGCCACCGGATACATCCAGTTGCCGGTTGGGATCGCATTCTGGAAAGCCGGAGAAACCATAAACT +GGAGGAATTTTTGCGCCAGCTCCGGCTGCTTGCTGGCAGCGGTGCGGGCGGCGACTTCCACTTGCAGATA +GTGACCTTCGCTGAAGTTCGCGGCGGCGTAGTTATCTTTCTTCTCTTCGAGAATGTGATAAGCCGGAGAG +GTGGTGTAACTCAGTACCAGATCGCTTTCACCTTTTAAAAACAGGCCGTAGGCTTCGCTCCAGCCTTTGG +TGACCGTGACCGTTTTCTTCGCCAGTTTCTGCCAGGCTTGTGGGGCGTCATCGCCATAGACTTTTTGCAT +CCATAGCAACAGACCCAGCCCCGGTGTACTGGTGCGCGGATCCTGATAAATCACCCGCCAGTTTTGATCG +CTCTCAACCAGTTCTTTCAGGCTTTGTGGCGGGTTTTTCAGTTTGTTCTTGTCATAAACGAAGGCGAAGT +AGCCATAATCAAACGGTACGAAAGTGTCATTATTCCAGCCGCCGGGAACGTTAACGGCATCCGCTGCCAC +ACCGCTTTTGGCAAACAGTCCGGTTTTACTGGCGGCGTCTAACAGGTTGTTATCCAGCCCCAGCACCACA +TCGGCTTTACTGTTTTTGCCTTCCATCCGTAGACGGTTGAGAAGCGAAACGCCATCTTCCAGCGCCACCA +GTTTCAGTTCGCAATTACAGTCGGCTTCAAAGGCTTTTTTAACCACCGGACCAGGCCCCCAGTCGGCGGC +GAAGGAATCGTAGGTATAAACAGTCAGAACGGGTTTAGCGAAAACGGGCGCTGTGCACAGCAACAGCAGG +GGCAGACATTTTTTTAACACTTTGCACCTCAAAAAAGAGTGGCAAAGGACTTGAGAAGGAGCCTCAAATC +CCTTCGCCGGCGTTATCCGGATCAGGTTCGACGGGTATTTTCTCAGCGCACGCGTACGCGTGGCACCCCG +TTGAGAACGGCGTTAGTGTAGTGATTTTGTTATCAACCAGCAATCATGGATCCGGTGGCGCAAACCACGC +TGATTTAAAATCGAACCAGCCGAGGGTATTCATGCGCAGGCCGCGCATACTGCGTTGCCCCTGAATGATC +AGCCAGTGGTGCAATAATGGCACCATCGCTTTGCTGGCGACCAGTTGCTGGCACCAGTTCGCCAGATTCA +TCTCGCCATTGCGCCAGCGAGCAGCGTCGGCTTGCCAGTCAATGGGAATGCAATGTTGTAGCAGTGGCAC +TTCGCATAAATGTGCGAAAACAGAGAAGTCCAGCGGCAGGGTAAAGTTGGCGCTGTTTAGCCAGATATCA +CTTTCGATCTCTCCTGTATGCCACTGATCGTAGTCGATCTCTTTGATTTTCAGCGTGACCTGGTGACTTG +CCAGAATCTGCTGCATGATCCCGGCAATCACCCGATGCTCACTGTGATCCTGATAAAAGGTTAGGGTGAG +GCTTTCCAGGCCAGCCGGTTTTTCGCTCTTTATGGTGCGGGCATGGTGCCAACGGGGGAGCAGTCCATAA +GCCGGGAACCACAGTTGCTGGTACTGTTCCTCAGCGAAATAGACCAGATTAGTTGGAGAAAGCACATAGC +TTACCCAGTCCCTGACTTGCTGATTCGCCCCGCGATGGGTGCGGCTGTCGAACAGTAAATAGTAGCAACC +TTCCTCCAGGCGGCTTTCAATCTCTTTTTCCTCGCCCTGTGGACCTTTTAGCATCAGCCCTCCGGCTGGC +TCGTCGGCAATTTCCGGCAGAACCCAGACGTTAACTTCGTCGATTAATGCCCGGTAACCGAAGAAGTCAT +CGAATGCCTGAATTTTCAGTTGATTGGTGCTGTTGCGAATCACCGCATACGGACCGGTGCCGATGGGATG +GCTGGCAAAGTTACTGAGGGTTTCCCATTCGCGCGGCAGGATCATCGCCGGAACTTGCCCCAGCAGTAAC +GGTAACCAGCGGTCCGGTTGCGTGAGATGGATATCCAGCGTCCAGGGCGTCGGCGACACAATGTCAGCAA +TATGCGAATAGAGCGGCAGCGTATTGATTCGTTTTAAAGAGGCGATCACATCGTCCATTTCCAGTTCACG +ACCATGGTGAAAATGGACTCCTGGACGCAAAAAGAAACGCCAGTGAAGCGGTGAAATTTGCTGCCAGTGG +TGGGCGATGTCTGCTTCCAGTTCCCCATTTTCCTCATTTATGCGCGTTAGCGAACTGAAGATTTGCCGGG +CGATATGGGTTTCGGAACGGCGCAATGCGCTGCCAGGTAGCAGATTACGCAACGGACGATAGTAGAGCAC +GCGCAGGATGTGCCGCCCCTGGCGGAAGCTGCGGCCCAGATGAGAAACCAGCATTTGCCGCACAGTCGCT +TTGTCGCCAACCAACTGCACCAGTTGATCGATACGATCCTGCTCCAGCAGGTCTTCCGCCCGCTGTTGCT +GAAGCGCCAGCCCGGTATAGAGGAATGTCAGACGCGAGCGTTTACCGCGCCCGACTTCCGCTTCCCACGT +CAGCCAGCCGCGATCCTGCATGGTGTTGAGCAGGGTGCGCATATGACGACGCGAGCAGCTCAATAACGCT +GCCAGTTCGTTGAGCGTTGTGTCCTGCGATTTACCCTCGCAGCATTGCCACAGGCGGATGAACTGTTGTT +GCAGACGAGCAGATGGCATAAAAGGGGAACTCCTGTGCAAAAGACAGCAATTTTATTTTCCCTATATTAA +GTCAATAATTCCTAACGATGAAGCAAGGGGGTGCCCCATGCGTCAGTTTTATCAGCACTATTTTACCGCG +ACAGCGAAGTTGTGCTGGTTGCGTTGGTTAAGCGTCCCACAACGATTAACCATGCTTGAAGGACTGATGC +AGTGGGATGACCGCAATTCTGAAAGTTGACTTGCCTGCATCATGTGTGACTGAGTATTGGTGTAAAATCA +CCCGCCAGCAGATTATACCTGCTGGTTTTTTTTATTCTCGCCGCGCTAAAAAGGGAACGTATGATCTGGA +TAATGACGATGGCTCGCCGTATGAACGGTGTTTACGCGGCATTTATGCTGGTCGCTTTTATGATGGGGGT +GGCCGGGGCGCTACAGGCTCCTACATTGAGCTTATTTCTGAGTCGTGAGGTTGGCGCGCAACCTTTCTGG +ATCGGCCTCTTTTATACGGTGAATGCTATTGCTGGGATCGGCGTAAGCCTCTGGTTGGCAAAACGTTCTG +ACAGTCAGGGCGATCGGCGAAAACTGATTATATTTTGCTGTTTGATGGCTATCGGCAATGCGCTATTGTT +TGCATTTAATCGTCATTATCTGACGCTTATCACCTGTGGTGTGCTTCTGGCATCTCTGGCCAATACGGCA +ATGCCACAGTTATTTGCTCTGGCGCGGGAATATGCGGATAACTCGGCGCGAGAAGTGGTGATGTTTAGCT +CGGTGATGCGTGCGCAGCTTTCTCTGGCATGGGTTATCGGTCCACCGTTGGCCTTTATGCTGGCGTTGAA +TTACGGCTTTACGGTGATGTTTTCGATTGCCGCCGGGATATTCACACTCAGTCTGGTATTGATTGCATTT +ATGCTTCCGTCTGTGGCGCGGGTAGAACTGCCGTCGGAAAATGCTTTATCAATGCAAGGTGGCTGGCAGG +ATAGTAACGTACGGATGTTATTTGTCGCCTCGACGTTAATGTGGACCTGCAACACCATGTACATTATTGA +TATGCCGTTGTGGATCAGTAGCGAGTTAGGATTGCCAGACAAACTGGCGGGTTTCCTGATGGGGACGGCA +GCTGGACTGGAAATACCAGCAATGATTCTGGCTGGCTACTATGTCAAACGTTATGGTAAGCGGCGAATGA +TGGTCATAGCAGTGGCGGCAGGAGTACTGTTTTACACCGGATTGATTTTCTTTAATAGCCGTATGGCGTT +GATGACGCTGCAACTTTTTAACGCTGTATTTATCGGCATTGTTGCGGGTATTGGGATGCTATGGTTTCAG +GATTTAATGCCTGGAAGAGCGGGGGCAGCTACCACCTTATTTACTAACAGTATTTCTACCGGGGTAATTC +TGGCTGGCGTTATTCAGGGAGCAATTGCACAAAGTTGGGGGCACTTTGCTGTCTACTGGGTAATTGCGGT +TATTTCTGTTGTCGCATTATTTTTAACCGCAAAGGTTAAAGACGTTTGATGACGTGGACGATAGCGGAAA +GCCCGGTCATTTGACCGGGCAAGGGGATTAATTCATAAACGCAGGTTGTTTTGCTTCATAAGCGGCAATG +GCGTCGTCGTGCTGCAAGGTAAGCCCAATACTGTCCAGACCGTTCATCATGCAGTGGCGGCGGAAGGCAT +CGATGGTAAAGCGATAGGTTTTCTCTCCCGCTTTCACCTCTTGCGCTTCCAGATCCACGTCGAAATGGAT +CCCCGGATTAGCTTTCACCAGCGCAAACAGTTCGTCCACTTCTGCATCGCTTAATTTCACCGGCAGCAGC +TGGTTGTTAAAGCTATTGCCGTAGAAGATGTCAGCAAAACTCGGCGCAATCACCACTTTAAAACCGTAGT +CGGTCAATGCCCAGGGCGCGTGCTCACGCGAAGAGCCACAGCCGAAGTTTTCTCGTGCCAGCAAAATGGA +AGCGCCCTGATACTGCGGGAAGTTCAGCACGAAGTCCGGGTTTGGCTGTTGGCCTTTTTCATCCAGAAAA +CGCCAGTCGTTAAACAGATGCGCGCCAAAACCCGTACGGGTCACTTTCTGCAAAAACTGTTTCGGGATGA +TTGCATCGGTATCGACATTGGCGGCATCCAGCGGAACCACCAGGCCTGTGTGTTTGATAAATTTCTCTGC +CATGGTGTGCTCCTTATTTAATGTTGCGAATGTCGGCGAAATGTCCGGTCACAGCAGCAGCGGCAGCCAT +TGCCGGGCTGACCAGATGCGTGCGCCCGCCGCGCCCCTGGCGGCCTTCAAAGTTACGGTTGCTGGTGGAG +GCACAACGTTCGCCCGGATTCAGACGGTCGTTGTTCATCGCCAGACACATTGAGCAGCCAGGCAAGCGCC +ATTCAAAACCGGCTTCAATAAAGATTTTATCCAGACCTTCCGCTTCCGCCTGGGCTTTTACCGGGCCAGA +GCCGGGAACCACCAGTGCCTGCACGCCTGGCGCGACTTTTCGCCCTTTGGCGATCTCCGCTGCCGCGCGT +AAATCTTCAATGCGCGAGTTGGTACAGGAACCGATAAACACTTTGTCGATAGCCACTTCGGTCAGCGGAA +TACCCGGTTTCAGCCCCATATAGGCCAGCGCTTTTTCTGCCGACGCGCGTTCAACCGGATCGGCAAACGA +AGCCGGATCGGGAATATTGTCGTTCACGGAAATCACCTGGCCGGGATTGGTGCCCCAGGTGACCTGCGGT +GAAATTTCTTCTGCTTGCAGAGTGACAACGGTATCGAAAGTTGCGCCTTCGTCGGTTTGCAGGGTTTTCC +AGTAGGCAACGGCGTCGTCGAAATCTTTGCCTTTCGGCGCATGCAGACGGCCTTTGACATAGTTAAAGGT +GGTTTCGTCCGGTGCAACCAGACCGGCTTTTGCGCCCATTTCGATTGCCATATTGCACAGGGTCATACGA +CCTTCCATGCTTAAATCACGGATTGCTTCGCCGCAAAACTCCACCACATGCCCGGTGCCGCCTGCGCTAC +CGGTTTTACCGATAATTGCCAGCACGATATCTTTTGCGGTAATGCCCGGCGCGGCTTTGCCCTGGACTTC +AATTTTCATGGTTTTTGCGCGGCCCTGTTTCAGGGTTTGCGTTGCCAGTACGTGTTCAACTTCGGAAGTG +CCGATACCAAAGGCCAGTGCGCCAAACGCGCCGTGGGTGGCGGTATGCGAGTCGCCGCAGACAATGGTCA +TCCCCGGCAAGGTGACGCCCTGTTCCGGCCCCATTACGTGGACGATCCCCTGATACGGGTGATTCAGGTC +ATACAGTTCGACGCCAAATTCTTTGCAGTTTTTGATCAGTTCCTGCATCTGGATACGCGCCATTTCACCG +CAGGCATTAATGTCTTTGGTCTGGGTAGAGACGTTGTGATCCATGGTAGCGAAGGTTTTGCCCGGCTGAC +GTACCGGGCGACCGTGGGCGCGCAGACCATCGAACGCCTGCGGTGAGGTCACTTCATGCACCAGGTGGCG +GTCGATATATAACAGTGGGGTTTCGTTTTCGGCTTCGTACACAACGTGAGCGTCGAACAATTTTTCGTAT +AACGTCTTAGCCATGATTACACCCCTTCTGCTACATAGCGGGCAATGATATCGCCCATTTCATCGGTACT +AACGGCGGCAGCGCCACGGGCTAAATCCCCGGTGCGAATGCCTTCTTCTAATGCGCGGTTAATGGCGCGT +TCAATGGCGCAAGCCGCATCATCGGCATCCAGGCTGTAACGCAGCAGCAGTGCCAGCGAAAGGATTTGTG +CAATCGGGTTGGCGATGTTTTTGCCTGCGATATCTGGTGCCGAGCCGCCCGCCGGTTCATACAGTCCAAA +ACCTTGCTCGTTCAGGCTGGCGGAAGGCAACATCCCCATCGAGCCAGTGATCATTGCGCACTCGTCAGAC +AGAATGTCGCCAAACAGGTTGGAGCACAGCAGAACGTCAAACTGTGATGGATCTTTAATCAGCTGCATGG +TGGCGTTGTCGATGTACATATGCGCCAGTTCGACATCCGGGTATTCCGTGGCGATCTCGTTAACGATCTC +CCGCCATAAAATAGAGGATTGCAGCACGTTGGCTTTATCGATCGACGTCACTTTGTGGCGACGCTTGCGA +GCAGATTCAAACGCGATGCGGGCGATACGTTCGATCTCAAAACGGTGATACACCTCGGTATCAAAGGCTT +TTTCATATTGTCCGCTACCTTCGCGGCCTTTTGGCTGACCGAAATAGATGCCGCCGGTCAGTTCGCGCAC +ACACAGGATGTCGAAGCCGTTTGCGGCAATGTCTGCACGCAGCGGACAGAATGCTTCCAGCCCCTGATAC +AGTTTTGCCGGGCGCAGGTTGCTGAATAATTTGAAGTGCTTACGCAGAGGCAGCAGCGCGCCGCGTTCTG +GTTGCTGGTCTGGTGGTAAATGTTCCCACTTCGGGCCGCCTACCGAGCCAAACAGCACGGCATCGGCTTG +CTCACAACCTTCAACCGTCGCAGGCGGCAGTGGTTGCCCGTGGTTATCAATGGCTGCGCCGCCTACATCG +TAATGGCTGGTGGTGATGCGCATCGCAAAGCGGTTGCGCACGGCATCCAGCACTTTCAGCGCCTGGGTCA +TCACTTCCGGACCAATACCGTCCCCCGGCAATACGGCAATATGGTAATTCTTCGACATCACACGGTTTCC +TTGTTGTTTTCGTTGTGTTGAGCTTTGCGTTGCAACTCTTTTTCGACTTCTGCGGCACGCCAGATATTGT +TCAGAACGTGCACCATGGCTTTGGCAGATGACTCGACAATATCGGTAGCCAGGCCGACGCCGTGGAAGCG +GCGACCGTTGTAGTTAGCGACGATATCCACCTGACCCAGCGCATCTTTACCGTGGCCTTTGGCGGTCAGG +CTGTATTTCACCAGTTCGACGTTATATTCAGTGATGCGGTTAATTGCCTGATAGACGGCATCGACCGGAC +CGTTACCGTTGGCGGCTTCTGCTTTGACTTCTTCGCCACAGGCCAGTTTGACGGCGGCGGTGGCGATATC +GTTAGAGCCAGACTGCACGCTGAAGTAATCCAGACGGAAATGCTCCGGCTCTTCTTGCTGCTTACCGATG +AAGGCCAGCGCCTCCAGATCGTAATCAAACACCTGACCTTTTTTGTCCGCCAGCTTCAGGAAAGCATCGT +ACAAATTGTCTAAATTATATTCACTTTCTTTATACCCCATCTCATCCATGCGATGTTTCACCGCCGCACG +CCCCGAACGAGAGGTCAGATTCAGCTGGATTTGGTTCAGACCAATAGATTCTGGTGTCATGATTTCGTAG +TTTTCGCGGTTTTTCAGCACGCCATCCTGGTGTATACCGGAGGAGTGTGCGAATGCGCCGCTGCCAACAA +TGGCTTTGTTTGCCGGGATCGGCATATTACAAATCTGGCTAACTAACTGGCTGGTGCGCCATATCTCCTG +GTGATTAATGGCGGTGTGGACGTTGAGAATATCCTTACGAACTTTGATCGCCATGATGACTTCTTCCAGG +GAACAGTTTCCGGCACGCTCGCCGATCCCGTTCATTGCGCCTTCCACCTGGCGTGCACCGGCATGTACCG +CCGCCAGTGAGTTTCCGACCGCCAGGCCCAAATCGTCGTGGGTATGTACGGAGATAATGGCTTTGTCGAT +GTTAGGCACGCGTTCATACAGGCCGCTGATGATTCCGGCGAACTCAAACGGCATGGTGTAGCCCACGGTG +TCCGGAATGTTGATGGTGGTGGCACCGGCATTAATCGCCGCTTCGACCACTCGCGCCAGATCGGCAATGG +GTGTACGCCCGGCATCTTCGCAAGAAAATTCAACATCATCGGTGTAATTACGGGCGCGTTTCACCATATA +GATAGCGCGTTCGATCACCTCGTCCAGCGTGCTGCGCAGCTTGGTGGCGATGTGCATTGGCGAAGTGGCA +ATAAAGGTATGAATACGGAAGGCTTCGGCGACTTTCAGGGATTCGGCCGCCACGTCGATATCTTTTTCCA +CGCAGCGAGCTAACGCACATACGCGGCTGTTTTTAACCTGGCGGGCGATGGTTTGCACCGATTCAAAATC +GCCCGGCGAAGAGACGGGGAAACCGACTTCCATCACGTCAACACCCATACGCTCAAGGGCCAGCGCAATT +TGCAGTTTTTCTTTCACACTCAAGCTTGCCTGTAACGCCTGTTCACCGTCGCGCAATGTGGTATCGAAAA +TAATGACTTGCTGGCTCATGGTTTGGGTCCTTGTCTCTTTTAGAGCGCCTCGCTTCGGGCATAAAAAAAC +CCGCGCAATGGCGCGGGTTTTTTGTTTGACTGCGTGCTGGCTTAATGCTGGATGCCGCTCACTCGTCTAC +CGCGCAAAGAAGATGCGTTTAGTAGTAGTAGACCGATAAAGCGAACGATGTGAGTCATTAAATCAGCTCC +AGATGAATGCGATATGCTTTTAGAGTTACTGGATACAAAAACGGATGTCAACCCTGACGCAATAAAAACG +TCCCGCCAGCGTGAGTTCTGCATCCGTAAAATTAGCTAATTGTGCTGCGGTGGTTAAAGTAAGCGATATT +AATTTCTGCTTAACTACCGACGCTTTTCATCGGTTGACATATTTCAGCATAAATTTTTGCATCTAATCAA +CGAGGAAAAAGGGGACAAAATGCACGCGTTGCAAAACCTATCCTGATGATTTGTATTGAATTATATGTTT +TGCGATTTTTTTTGATATTGATTTGGTGAATATTATTGATCAATTAATGTTAAGAATTAATGCATTAAAT +ATATAAATTAATTATTAAATAAGCACATTTAATCCATTTTGTAGATGATTGAGTATTCGCGGTAGTTATG +ATTAGATTGTTTTCGCAACAAAAACATTATGGATTATTATGCTGTGGTAAATGACTCATTCCACGGCAAT +GGATTCTGTTTTTATCAGAACCCGTATCTTTATGTTTTCCGAATTTTACTCATTTTGCTTTTTCTTATTT +TATATGCATGATAAATCATATTCTTCAGGATTATTTCTCTGCATTCCAATAAGGGAAAGGGAGTTAAGTG +TGACAGTGGAGTTAAGTATGCCAGAGGTACAAACAGATCATCCAGAGACGGCGGAGTTAAGCAAACCACA +GCTACGCATGGTCGATCTCAACTTATTAACCGTTTTCGATGCCGTGATGCAGGAGCAAAACATTACTCGT +GCCGCTCATGTTCTGGGAATGTCGCAACCTGCGGTCAGTAACGCTGTTGCACGCCTGAAGGTGATGTTTA +ATGACGAGCTTTTTGTTCGTTATGGCCGTGGTATTCAACCGACTGCTCGCGCATTTCAACTTTTTGGTTC +AGTTCGTCAGGCATTGCAACTAGTACAAAATGAATTGCCTGGTTCAGGTTTTGAACCCGCGAGCAGTGAA +CGTGTATTTCATCTTTGTGTTTGCAGCCCGTTAGACAGCATTCTGACCTCGCAGATTTATAATCACATTG +AGCAGATTGCGCCAAATATACATGTTATGTTCAAGTCTTCATTAAATCAGAACACTGAACATCAGCTGCG +TTATCAGGAAACGGAGTTTGTGATTAGTTATGAAGACTTCCATCGTCCTGAATTTACCAGCGTACCATTA +TTTAAAGATGAAATGGTGCTGGTAGCCAGCAAAAATCATCCAACAATTAAGGGCCCGTTACTGAAACATG +ATGTTTATAACGAACAACATGCGGCGGTTTCGCTCGATCGTTTCGCGTCATTTAGTCAACCTTGGTATGA +CACGGTAGATAAGCAAGCCAGTATCGCGTATCAGGGCATGGCAATGATGAGCGTACTTAGCGTGGTGTCG +CAAACGCATTTGGTCGCTATTGCGCCGCGTTGGCTGGCTGAAGAGTTCGCTGAATCCTTAGAATTACAGG +TATTACCGCTGCCGTTAAAACAAAACAGCAGAACCTGTTATCTCTCCTGGCATGAAGCTGCCGGGCGCGA +TAAAGGCCATCAGTGGATGGAAGAGCAATTAGTCTCAATTTGCAAACGCTAACTGATTGCAGAATAGGTC +AGACATGAATGTCTGGTTTATTCTGCATTTTTTATTGAATGTAGAATTTTATTCTGAATGTGTGGGCTCT +CTATTTTAGGATTAATTAAAAAAATAGAGAAATTGCTGTAAGTTGTGGGATTCAGCCGATTTATTATCAA +TTTAATCCTCTGTAATGGAGGATTTTATCGTTTCTTTTCACCTTTCCTCCTGTTTATTCTTATTACCCCG +TGTTTATGTCTCTGGCTGCCAATTGCTTAAGCAAGATCGGACGGTTAATGTGTTTTACACATTTTTTCCG +TCAAACAGTGAGGCAGGCCATGGAGATGTTGTCTGGAGCCGAGATGGTCGTCCGATCGCTTATCGATCAG +GGCGTTAAACAAGTATTCGGTTATCCCGGAGGCGCAGTCCTTGATATTTATGATGCATTGCATACCGTGG +GTGGTATTGATCATGTATTAGTTCGTCATGAGCAGGCGGCGGTGCATATGGCCGATGGCCTGGCGCGCGC +GACCGGGGAAGTCGGCGTCGTGCTGGTAACGTCGGGTCCAGGGGCGACCAATGCGATTACTGGCATCGCC +ACCGCTTATATGGATTCCATTCCATTAGTTGTCCTTTCCGGGCAGGTAGCGACCTCGTTGATAGGTTACG +ATGCCTTTCAGGAGTGCGACATGGTGGGGATTTCGCGACCGGTGGTTAAACACAGTTTTCTGGTTAAGCA +AACGGAAGACATTCCGCAGGTGCTGAAAAAGGCTTTCTGGCTGGCGGCAAGTGGTCGCCCAGGACCAGTA +GTCGTTGATTTACCGAAAGATATTCTTAATCCGGCGAACAAATTACCCTATGTCTGGCCGGAGTCGGTCA +GTATGCGTTCTTACAATCCCACTACTACCGGACATAAAGGGCAAATTAAGCGTGCTCTGCAAACGCTGGT +AGCGGCAAAAAAACCGGTTGTCTACGTAGGCGGTGGGGCAATCACGGCGGGCTGCCATCAGCAGTTGAAA +GAAACGGTGGAGGCGTTGAATCTGCCCGTTGTTTGCTCATTGATGGGGCTGGGGGCGTTTCCGGCAACGC +ATCGTCAGGCACTGGGCATGCTGGGAATGCACGGTACCTACGAAGCCAATATGACGATGCATAACGCGGA +TGTGATTTTCGCCGTCGGGGTACGATTTGATGACCGAACGACGAACAATCTGGCAAAGTACTGCCCAAAT +GCCACTGTTCTGCATATCGATATTGATCCTACTTCCATTTCTAAAACCGTGACTGCGGATATCCCGATTG +TGGGGGATGCTCGCCAGGTCCTCGAACAAATGCTTGAACTCTTGTCGCAAGAATCCGCCCATCAACCACT +GGATGAGATCCGCGACTGGTGGCAGCAAATTGAACAGTGGCGCGCTCGTCAGTGCCTGAAATATGACACT +CACAGTGAAAAGATTAAACCGCAGGCGGTGATCGAGACTCTTTGGCGGTTGACGAAGGGAGACGCTTACG +TGACGTCCGATGTCGGGCAGCACCAGATGTTTGCTGCACTTTATTATCCATTCGACAAACCGCGTCGCTG +GATCAATTCCGGTGGCCTCGGCACGATGGGTTTTGGTTTACCTGCGGCACTGGGCGTCAAAATGGCGTTG +CCAGAAGAAACCGTGGTTTGCGTCACTGGCGACGGCAGTATTCAGATGAACATCCAGGAACTGTCTACCG +CGTTGCAATACGAGTTGCCCGTACTGGTGGTGAATCTCAATAACCGCTATCTGGGGATGGTGAAGCAGTG +GCAGGACATGATCTATTCCGGCCGTCATTCACAATCTTATATGCAATCGCTACCCGATTTCGTCCGTCTG +GCGGAAGCCTATGGGCATGTCGGGATCCAGATTTCTCATCCGCATGAGCTGGAAAGCAAACTTAGCGAGG +CGCTGGAACAGGTGCGCAATAATCGCCTGGTGTTTGTTGATGTTACCGTCGATGGCAGCGAGCACGTCTA +CCCGATGCAGATTCGCGGGGGCGGAATGGATGAAATGTGGTTAAGCAAAACGGAGAGAACCTGATTATGC +GCCGGATATTATCAGTCTTACTCGAAAATGAATCAGGCGCGTTATCCCGCGTGATTGGCCTTTTTTCCCA +GCGTGGCTACAACATTGAAAGCCTGACCGTTGCGCCAACCGACGATCCGACATTATCGCGTATGACCATC +CAGACCGTGGGCGATGAAAAAGTACTTGAGCAGATCGAAAAGCAATTACACAAACTGGTCGATGTCTTGC +GCGTGAGTGAGTTGGGGCAGGGCGCGCATGTTGAGCGGGAAATCATGCTGGTGAAAATTCAGGCCAGCGG +TTACGGGCGTGACGAAGTGAAACGTAATACGGAAATATTCCGTGGGCAAATTATCGATGTCACACCCTCG +CTTTATACCGTTCAATTAGCAGGCACCAGCGGTAAGCTTGATGCATTTTTAGCATCGATTCGCGATGTGG +CGAAAATTGTGGAGGTTGCTCGCTCTGGTGTGGTCGGACTTTCGCGCGGCGATAAAATAATGCGTTGAGA +ATGATCTCAATGCGCAATTTACAGCCCAACATGTCACGTTGGGCTTTTTTTGCGAAATCAGTGGGAACCT +GGAATAAAAGCAGTTGCCGCAGTTAATTTTCTGCGCTTAGATGTTAATGAATTTAACCCATACCAGTACA +ATGGCTATGGTTTTTACATTTTACGCAAGGGGCAATTGTGAAACTGGATGAAATCGCTCGGCTGGCGGGA +GTGTCGCGGACCACTGCAAGCTATGTTATTAACGGCAAAGCGAAGCAATACCGTGTGAGCGACAAAACCG +TTGAAAAAGTCATGGCTGTGGTGCGTGAGCACAATTACCACCCGAACGCCGTGGCAGCTGGGCTTCGTGC +TGGACGCACACGTTCTATTGGTCTTGTGATCCCCGATCTGGAGAACACCAGCTATACCCGCATCGCTAAC +TATCTTGAACGCCAGGCGCGGCAACGGGGTTATCAACTGCTGATTGCCTGCTCAGAAGATCAGCCAGACA +ACGAAATGCGGTGCATTGAGCACCTTTTACAGCGTCAGGTTGATGCCATTATTGTTTCGACGTCGTTGCC +TCCTGAGCATCCTTTTTATCAACGCTGGGCTAACGACCCGTTCCCGATTGTCGCGCTGGACCGCGCCCTC +GATCGTGAACACTTCACCAGCGTGGTTGGTGCCGATCAGGATGATGCCGAAATGCTGGCGGAAGAGTTAC +GTAAGTTTCCCGCCGAGACGGTGCTTTATCTTGGTGCGCTACCGGAGCTTTCTGTCAGCTTCCTGCGTGA +ACAAGGTTTCCGTACTGCCTGGAAAGATGATCCGCGCGAAGTGCATTTCCTGTATGCCAACAGCTATGAG +CGGGAGGCGGCTGCCCAGTTATTCGAAAAATGGCTGGAAACGCATCCGATGCCGCAGGCGCTGTTCACAA +CGTCGTTTGCGTTGTTGCAAGGAGTGATGGATGTCACGCTGCGTCGCGACGGCAAACTGCCTTCTGACCT +GGCAATTGCCACCTTTGGCGATAACGAACTGCTCGACTTCTTACAGTGTCCGGTGCTGGCAGTGGCTCAA +CGTCACCGCGATGTCGCAGAGCGTGTGCTGGAGATTGTCCTGGCAAGCCTGGACGAACCGCGTAAGCCAA +AACCTGGTTTAACGCGCATTAAACGTAATCTCTATCGCCGCGGCGTGCTCAGCCGTAGCTAAGCCGCGAA +CAAAAATACGCGCCAGGTGAATTTCCCTCTGGCGCGTAGAGTACGGGACTGGACATCAATATGCTTAAAG +TAAATAAGACTATTCCTGACTATTATTGATAAATGCTTTTAAACCCGCCCGTTAATTAACTCACCAGCTG +AAATTCACAATAATTAAGTGATATCGACAGCGCGTTTTTGCATTATTTTGTTACATGCGGCGATGAATTG +CCGATTTAACAAACACTTTTCTTTGCTTTTGCGCAAACCCGCTGGCATCAAGCGCCACACAGACGTAACA +AGGACTGTTAACCGGGGAAGATATGTCCTAAAATGCCGCTCGCGTCGCAAACTGACACTTTATATTTGCT +GTGGAAAATAGTGAGTCATTTTAAAACGGTGATGACGATGAGGGATTTTTTCTTACAGCTATTCATAACG +TTAATTTGCTTCGCACGTTGGACGTAAAATAAACAACGCTGATATTAGCCGTAAACATCGGGTTTTTTAC +CTCGGTATGCCTTGTGACTGGCTTGACAAGCTTTTCCTCAGCTCCGTAAACTCCTTTCAGTGGGAAATTG +TGGGGCAAAGTGGGAATAAGGGGTGAGGCTGGCATGTTCCGGGGAGCAACGTTAGTCAATCTCGACAGCA +AAGGGCGCTTATCAGTGCCTACCCGTTATCGGGAACAGCTGCTTGAGAACGCTGCCGGTCAAATGGTTTG +CACCATTGACATTTATCACCCGTGCCTGCTGCTTTACCCCCTGCCTGAATGGGAAATTATCGAGCAAAAA +TTATCGCGTCTGTCGAGCATGAACCCGGTTGAGCGCCGTGTGCAGCGCCTACTGTTAGGTCATGCCAGCG +AATGTCAGATGGATGGCGCAGGTCGATTGTTAATCGCGCCAGTACTGCGGCAACATGCCGGGCTGACAAA +AGAAGTGATGCTGGTTGGACAGTTCAACAAGTTTGAGCTGTGGGATGAAACAACCTGGCATCAACAGGTC +AAGGAAGATATCGACGCAGAGCAGTTGGCTACCGGAGACTTATCGGAGCGACTGCAGGACTTGTCTCTAT +AAAATGATGGAAAACTATAAACATACTACGGTGCTGCTGGATGAAGCCGTTAATGGCCTCAATATCCGTC +CTGATGGCATCTACATTGATGGGACTTTTGGTCGCGGTGGTCACTCACGTCTGATCCTCTCGCAGCTTGG +CGAAGAGGGGCGTTTGCTGGCGATCGATCGCGACCCGCAGGCTATCGCCGTTGCGAAGACTATTGATGAT +CCGCGCTTCTCCATCATCCACGGACCTTTCTCCGCGCTGGGCGAATACGTTGCCGAGCGCGATCTTATCG +GCAAGATCGACGGCATTCTCCTCGATCTTGGCGTCTCTTCACCGCAACTTGATGATGCTGAACGTGGCTT +TTCCTTTATGCGCGATGGTCCGCTGGACATGCGTATGGACCCAACCCGTGGGCAGTCAGCCGCTGAATGG +CTACAAACCGCAGAAGAAGCCGATATCGCCTGGGTATTGAAAACCTATGGTGAAGAGCGTTTTGCCAAAC +GCATTGCCCGCGCCATTGTCGAGCGTAACCGCGAACAGCCGATGACCCGCACCAAAGAACTGGCGGAAGT +CGTGGCTGCTGCAACGCCGGTGAAAGATAAGTTTAAACATCCCGCGACCCGTACCTTCCAGGCGGTGCGC +ATTTGGGTAAACAGTGAACTGGAGGAGATAGAGCAGGCGCTAAAAAGCTCGCTCAACGTGCTGGCCCCGG +GTGGGCGGCTTTCGATCATCAGCTTCCACTCGCTGGAAGACCGTATTGTGAAACGTTTTATGCGTGAAAA +CAGCCGCGGTCCGCAAGTTCCGGCAGGGTTACCGATGACTGAAGAGCAGCTCAAAAAACTGGGTGGCCGT +CAGCTGCGAGCACTAGGCAAGTTAATGCCGGGCGAAGAAGAGGTGGCTGAGAACCCTCGTGCCCGTAGTT +CAGTTCTGCGTATTGCAGAGAGGACGAATGCATGATCAGCAGAGTGACAGAAGCTCTAAGCAAAGTTAAA +GGATCGATGGGAAGCCACGAGCGCCATGCATTGCCTGGTGTTATCGGTGACGATCTTTTGCGATTTGGGA +AGCTGCCACTCTGCCTGTTCATTTGCATTATTTTGACGGCGGTGACTGTGGTAACCACGGCGCACCATAC +CCGTTTACTGACCGCTCAGCGCGAACAACTGGTGCTGGAGCGAGATGCTTTAGACATTGAATGGCGCAAC +CTGATCCTTGAAGAGAATGCGCTCGGCGACCATAGCCGGGTGGAAAGGATCGCCACGGAAAAGCTGCAAA +TGCAGCATGTTGATCCGTCACAAGAAAATATCGTAGTGCAAAAATAAGGATAAACGCGACGCATGAAAGC +AGCGGCGAAAACGCAGAAACCAAAACGTCAGGAAGAACATGCCAACTTTATCAGTTGGCGTTTTGCGTTG +TTATGCGGCTGTATTCTCCTGGCGCTGGCTTTTCTGCTCGGACGCGTAGCGTGGTTACAAGTTATCTCCC +CGGATATGCTGGTGAAAGAGGGCGACATGCGTTCTCTTCGCGTTCAGCAAGTTTCCACCTCCCGCGGCAT +GATTACTGACCGTTCTGGTCGCCCGTTAGCGGTGAGCGTGCCGGTAAAAGCGATTTGGGCTGACCCGAAA +GAAGTGCATGACGCTGGCGGTATCAGCGTCGGTGACCGCTGGAAGGCGCTGGCTAACGCGCTCAATATTC +CGCTGGATCAGCTTTCAGCCCGCATTAACGCCAACCCGAAAGGGCGCTTTATTTATCTGGCGCGTCAGGT +GAACCCTGACATGGCGGACTACATCAAAAAACTGAAACTGCCGGGGATTCATCTGCGTGAAGAGTCTCGC +CGTTACTATCCGTCCGGCGAAGTGACTGCTCACCTCATCGGCTTTACTAACGTCGATAGTCAAGGGATTG +AGGGCGTTGAGAAGAGTTTCGATAAATGGCTTACCGGGCAGCCGGGTGAGCGCATTGTGCGTAAAGACCG +CTATGGTCGCGTAATTGAAGATATTTCTTCTACTGACAGCCAGGCAGCGCACAACCTGGCGCTGAGTATT +GATGAACGCCTGCAGGCGCTGGTTTATCGCGAACTGAACAACGCGGTGGCCTTTAACAAGGCTGAATCTG +GTAGCGCCGTGCTGGTGGATGTCAACACCGGTGAAGTGCTGGCGATGGCTAACAGCCCGTCATACAACCC +TAACAATCTGAGCGGCACGCCGAAAGAGGCGATGCGTAACCGTACCATCACCGACGTGTTTGAACCGGGC +TCAACGGTTAAACCGATGGTGGTAATGACCGCGTTGCAACGTGGCGTGGTGCGGGAAAACTCGGTACTCA +ATACCATTCCTTATCGAATTAACGGCCACGAAATCAAAGACGTGGCACGCTACAGCGAATTAACCCTGAC +CGGGGTATTACAGAAGTCGAGTAACGTCGGTGTTTCCAAGCTGGCGTTAGCGATGCCGTCCTCAGCGTTA +GTAGATACTTACTCACGTTTTGGACTGGGAAAAGCGACCAATTTGGGGTTGGTCGGAGAACGCAGTGGCT +TATATCCTCAAAAACAACGGTGGTCTGACATAGAGAGGGCCACCTTCTCTTTCGGCTACGGGCTAATGGT +AACACCATTACAGTTAGCGCGAGTCTACGCAACTATCGGCAGCTACGGCATTTATCGCCCACTGTCGATT +ACCAAAGTTGACCCCCCGGTTCCCGGTGAACGTGTCTTCCCGGAATCCATTGTCCGCACTGTGGTGCATA +TGATGGAAAGCGTGGCGCTACCAGGCGGCGGCGGCGTGAAGGCGGCGATTAAAGGCTATCGTATCGCCAT +TAAAACCGGTACCGCGAAAAAGGTCGGGCCGGACGGTCGCTACATCAATAAATATATTGCTTATACCGCA +GGCGTTGCGCCTGCGAGTCAGCCGCGCTTCGCGCTGGTTGTTGTTATCAACGATCCGCAGGCGGGTAAAT +ACTACGGCGGCGCCGTTTCCGCGCCGGTCTTTGGTGCCATCATGGGCGGCGTATTGCGTACCATGAACAT +CGAGCCGGATGCGCTGACAACGGGCGATAAAAATGAATTTGTGATTAATCAAGGCGAGGGGACAGGTGGC +AGATCGTAATTTGCGCGACCTTCTTGCTCCGTGGGTGCCAGACGCACCTTCGCGAGCACTGCGAGAGATG +ACACTCGACAGCCGTGTGGCTGCGGCGGGCGATCTCTTTGTAGCTGTAGTAGGTCATCAGGCGGACGGGC +GTCGATATATCCCGCAGGCGATAGCGCAAGGTGTGGCTGCCATTATTGCAGAGGCGAAAGATGAGGCGAC +CGATGGTGAAATCCGTGAAATGCACGGCGTACCGGTCATCTATCTCAGCCAGCTCAACGAGCGTTTATCT +GCACTGGCGGGCCGCTTTTACCATGAACCCTCTGACAATTTACGTCTCGTGGGCGTAACGGGCACCAACG +GCAAAACCACGACTACCCAGCTGTTGGCGCAGTGGAGCCAACTGCTTGGCGAAATCAGCGCGGTAATGGG +CACCGTTGGTAACGGCCTGCTGGGGAAAGTGATCCCGACAGAAAATACAACCGGTTCGGCAGTCGATGTT +CAGCATGAGCTGGCGGGGCTGGTGGATCAGGGCGCGACGTTTTGCGCAATGGAAGTTTCCTCCCACGGGC +TGGTACAGCACCGTGTGGCGGCATTGAAATTTGCGGCGTCGGTCTTTACCAACTTAAGCCGCGATCACCT +TGATTATCATGGTGATATGGAACACTACGAAGCCGCGAAATGGCTGCTTTATTCTGAGCATCATTGCGGT +CAGGCGATTATTAACGCCGACGATGAAGTGGGCCGCCGCTGGCTGGCAAAACTGCCGGACGCGGTTGCGG +TATCAATGGAAGATCATATTAATCCGAACTGTCACGGACGCTGGTTGAAAGCGACCGAAGTGAACTATCA +CGACAGCGGTGCGACGATTCGCTTTAGCTCAAGTTGGGGCGATGGCGAAATTGAAAGCCATCTGATGGGC +GCTTTTAACGTCAGCAACCTGCTGCTCGCGCTGGCGACACTGTTGGCACTCGGCTATCCACTGGCTGATC +TGCTGAAAACCGCCGCGCGTCTGCAACCGGTTTGCGGACGTATGGAAGTGTTCACTGCGCCAGGCAAACC +GACGGTGGTGGTGGATTACGCGCATACGCCGGATGCACTGGAAAAAGCCTTACAGGCGGCGCGTCTGCAC +TGTGCGGGCAAGCTGTGGTGTGTCTTTGGCTGTGGTGGCGATCGCGATAAAGGTAAGCGTCCACTGATGG +GCGCAATTGCCGAAGAGTTTGCTGACGTGGCGGTGGTGACGGACGATAACCCGCGTACCGAAGAACCGCG +TGCCATCATCAACGATATTCTGGCGGGAATGTTAGATGCCGGACATGCCAAAGTGATGGAAGGCCGTGCT +GAAGCGGTGACTTGCGCCGTTATGCAGGCTAAAGAGAATGATGTGGTACTGGTCGCGGGCAAAGGCCATG +AAGATTACCAGATTGTTGGCAATCAGCGTCTGGACTACTCCGATCGCGTCACGGTGGCGCGTCTGCTGGG +GGTGATTGCATGATTAGCGTAACCCTTAGCCAACTTACCGACATTCTCAACGGTGAACTGCAAGGTGCAG +ATATCACCCTTGATGCTGTAACCACTGATACCCGAAAACTGACGCCGGGCTGCCTGTTTGTTGCCCTGAA +AGGCGAACGTTTTGATGCCCACGATTTTGCCGACCAGGCGAAAGCTGGCGGCGCAGGCGCACTACTGGTT +AGCCGTCCGCTGGACATCGACCTGCCGCAGTTAATCGTCAAGGATACGCGTCTGGCGTTTGGTGAACTGG +CTGCATGGGTTCGCCAGCAAGTTCCGGCGCGCGTGGTTGCTCTGACGGGGTCCTCCGGCAAAACCTCCGT +TAAAGAGATGACGGCGGCGATTTTAAGCCAGTGCGGCAACACGCTTTATACGGCAGGCAATCTCAACAAC +GACATCGGTGTACCGATGACGCTGTTGCGCTTAACGCCGGAATACGATTACGCAGTTATTGAACTTGGCG +CGAACCATCAGGGCGAAATAGCCTGGACTGTGAGTCTGACTCGCCCGGAAGCTGCGCTGGTCAACAACCT +GGCAGCGGCGCATCTGGAAGGTTTTGGCTCGCTTGCGGGTGTCGCGAAAGCGAAAGGTGAAATCTTTAGC +GGCCTGCCGGAAAACGGTATCGCCATTATGAACGCCGACAACAACGACTGGCTGAACTGGCAGAGCGTAA +TTGGCTCACGCAAAGTGTGGCGTTTCTCACCCAATGCCGCCAACAGCGATTTCACCGCCACCAATATCCA +TGTGACCTCGCACGGTACGGAATTTACCCTACAAACCCCAACCGGTAGCGTCGATGTTCTGCTGCCGTTG +CCGGGGCGTCACAATATTGCGAATGCGCTGGCAGCCGCTGCGCTCTCCATGTCCGTGGGCGCAACGCTTG +ATGCTATCAAAGCGGGGCTGGCAAATCTGAAAGCTGTTCCAGGCCGTCTGTTCCCCATCCAACTGGCAGA +AAACCAGTTGCTGCTCGACGACTCCTACAACGCCAATGTCGGTTCAATGACTGCAGCAGTCCAGGTACTG +GCTGAAATGCCGGGCTACCGCGTGCTGGTGGTGGGCGATATGGCGGAACTGGGCGCTGAAAGCGAAGCCT +GCCATGTACAGGTGGGCGAGGCGGCAAAAGCTGCTGGTATTGACCGCGTGTTAAGCGTGGGTAAACAAAG +CCATGCTATCAGCACCGCCAGCGGCGTTGGCGAACATTTTGCTGATAAAACTGCGTTAATTACGCGTCTT +AAATTACTGATTGCTGAGCAACAGGTAATTACGATTTTAGTTAAGGGTTCACGTAGTGCCGCCATGGAAG +AGGTAGTACGCGCTTTACAGGAGAATGGGACATGTTAGTTTGGCTGGCCGAACATTTGGTCAAATATTAT +TCCGGCTTTAACGTCTTTTCCTATCTGACGTTTCGCGCCATCGTCAGCCTGCTGACCGCGCTGTTCATCT +CATTGTGGATGGGCCCGCGTATGATTGCTCATTTGCAAAAACTTTCCTTTGGTCAGGTGGTGCGTAACGA +CGGTCCTGAATCACACTTCAGCAAGCGCGGTACGCCGACCATGGGCGGGATTATGATCCTGACGGCGATT +GTGATCTCCGTACTGCTGTGGGCTTACCCGTCCAATCCGTACGTCTGGTGCGTGTTGGTGGTGCTGGTAG +GTTACGGTGTTATTGGCTTTGTTGATGATTATCGCAAAGTGGTGCGTAAAGACACCAAAGGGTTGATCGC +TCGTTGGAAGTATTTCTGGATGTCGGTCATTGCGCTGGGTGTCGCCTTCGCCCTGTACCTTGCCGGCAAA +GACACGCCCGCAACGCAGCTGGTGGTCCCATTCTTTAAAGATGTGATGCCGCAGCTGGGGCTGTTCTACA +TTCTGCTGGCTTACTTCGTCATTGTGGGTACTGGCAACGCGGTAAACCTGACCGATGGTCTCGACGGCCT +GGCAATTATGCCGACCGTATTTGTCGCCGGTGGTTTTGCGCTGGTGGCGTGGGCGACCGGCAATATGAAC +TTTGCCAGCTACTTGCATATACCGTATCTGCGACACGCCGGGGAACTGGTTATTGTCTGTACCGCGATAG +TCGGGGCAGGACTGGGCTTCCTGTGGTTTAACACCTATCCGGCGCAGGTCTTTATGGGCGATGTAGGTTC +GCTGGCGTTAGGTGGTGCGTTAGGCATTATCGCCGTACTGCTACGTCAGGAATTCCTGCTGGTGATTATG +GGGGGCGTGTTCGTGGTAGAAACGCTTTCTGTCATCCTGCAGGTCGGCTCCTTTAAACTGCGCGGACAAC +GTATTTTCCGCATGGCACCGATTCATCACCACTATGAACTGAAAGGCTGGCCGGAACCGCGCGTCATTGT +GCGTTTCTGGATTATTTCGCTGATGCTGGTTCTGATTGGTCTGGCAACGCTGAAGGTACGTTAATCATGG +CTGATTATCAGGGTAAAAATGTCGTCATTATCGGCCTGGGCCTCACCGGGCTTTCCTGCGTGGACTTTTT +CCTCGCTCGCGGTGTGACGCCGCGCGTTATGGATACGCGTATGACACCGCCTGGCCTGGATAAATTACCC +GAAGCCGTAGAACGCCACACGGGCAGTCTGAATGATGAATGGCTGATGGCGGCAGATCTGATTGTCGCCA +GTCCCGGTATTGCACTGGCGCATCCATCCTTAAGCGCTGCCGCTGATGCCGGAATCGAAATCGTTGGCGA +TATCGAGCTGTTCTGTCGCGAAGCACAAGCACCGATTGTGGCGATTACCGGTTCTAACGGCAAAAGCACG +GTCACCACGCTAGTGGGTGAAATGGCGAAAGCGGCGGGGGTTAACGTTGGTGTGGGTGGCAATATTGGCC +TGCCTGCGTTGATGCTACTGGATGATGAGTGTGAACTGTACGTGCTGGAACTGTCGAGCTTCCAGCTGGA +AACCACCTCCAGCTTACAGGCGGTAGCAGCGACCATTCTGAACGTGACTGAAGATCATATGGATCGCTAT +CCGTTTGGTTTACAACAGTATCGTGCAGCAAAACTGCGCATTTACGAAAACGCGAAAGTTTGCGTGGTTA +ATGCTGATGATGCCTTAACAATGCCGATTCGCGGTGCGGATGAACGCTGCGTCAGCTTTGGCGTCAACAT +GGGTGACTATCACCTGAATCATCAGCAGGGCGAAACCTGGCTGCGGGTTAAAGGCGAGAAAGTGCTGAAT +GTGAAAGAGATGAAACTTTCCGGGCAGCATAACTACACCAATGCGCTGGCGGCGCTGGCGCTGGCAGATG +CTGCAGGGTTACCGCGTGCCAGCAGCCTGAAAGCGTTAACCACATTCACTGGTCTGCCGCATCGCTTTGA +AGTTGTGCTGGAGCATAACGGCGTACGTTGGATTAACGATTCGAAAGCGACCAACGTCGGCAGTACGGAA +GCGGCGCTGAATGGCCTGCACGTAGACGGCACACTGCATTTGTTGCTGGGTGGCGATGGTAAATCGGCGG +ACTTTAGCCCACTGGCGCGTTACCTGAATGGCGATAACGTACGTCTGTATTGTTTCGGTCGTGACGGCGC +GCAGCTGGCGGCGCTACGCCCGGAAGTGGCAGAACAAACCGAAACTATGGAACAGGCGATGCGCTTGCTG +GCTCCGCGTGTTCAGCCGGGCGATATGGTTCTGCTCTCCCCAGCCTGTGCCAGCCTTGATCAGTTCAAGA +ACTTTGAACAACGAGGCAATGAGTTTGCCCGTCTGGCGAAGGAGTTAGGTTGATGCGTTTATCTCTCCCT +CGCCTGAAAATGCCGCGCCTGCCAGGATTCAGTATCCTGGTCTGGATCTCCACGGCGCTAAAGGGCTGGG +TGATGGGCTCGCGGGAAAAAGATACCGACAGCCTGATCATGTACGATCGCACCTTACTGTGGCTGACCTT +CGGCCTCGCGGCGATTGGCTTTATCATGGTGACCTCGGCGTCAATGCCCATAGGGCAACGCTTAACCAAC +GATCCGTTCTTCTTCGCGAAGCGTGATGGTGTCTATCTGATTTTGGCGTTTATTCTGGCGATCATTACGC +TGCGTCTGCCGATGGAGTTCTGGCAACGCTACAGTGCCACGATGCTGCTCGGATCTATCATCCTGCTGAT +GATCGTCCTGGTAGTGGGTAGCTCGGTTAAAGGGGCATCGCGTTGGATCGATCTCGGTTTGCTGCGTATC +CAGCCTGCGGAGCTGACAAAACTGTCGCTGTTTTGCTATATCGCCAACTATCTGGTGCGTAAAGGCGACG +AAGTACGTAATAACCTGCGCGGCTTCCTGAAACCGATGGGCGTGATTCTGGTGTTGGCAGTGTTACTGCT +GGCACAGCCAGACCTTGGTACGGTGGTGGTGTTGTTTGTGACTACGCTGGCGATGTTGTTCCTGGCGGGA +GCGAAATTGTGGCAGTTCATTGCCATTATCGGTATGGGCATTTCAGCGGTTGTGTTGCTGATACTCGCCG +AACCGTACCGTATCCGCCGTGTTACCGCATTCTGGAACCCGTGGGAAGATCCCTTTGGCAGCGGCTATCA +GTTAACGCAATCGCTGATGGCGTTTGGTCGCGGCGAACTTTGGGGGCAAGGTTTAGGTAACTCGGTACAA +AAACTGGAGTATCTGCCGGAAGCGCACACTGACTTTATTTTCGCCATTATCGGCGAAGAACTGGGGTATG +TCGGTGTGGTGCTGGCACTTTTAATGGTATTCTTCGTCGCTTTTCGCGCGATGTCGATTGGCCGTAAAGC +ATTAGAAATTGACCACCGTTTTTCCGGTTTTCTCGCCTGTTCTATTGGCATCTGGTTTAGCTTCCAGGCG +CTGGTTAACGTAGGCGCGGCGGCGGGGATGTTACCGACCAAAGGTCTGACATTGCCGCTGATCAGTTACG +GTGGTTCGAGCTTACTGATTATGTCGACAGCCATCATGATGCTGTTGCGTATTGATTATGAAACGCGTCT +GGAGAAAGCGCAGGCGTTTGTACGAGGTTCACGATGAGTGGTCAAGGAAAGCGATTAATGGTGATGGCAG +GCGGAACCGGTGGACATGTATTCCCGGGACTGGCGGTTGCGCACCATCTAATGGCTCAGGGTTGGCAAGT +TCGCTGGCTGGGGACTGCCGACCGTATGGAAGCGGACTTAGTGCCAAAACATGGCATCGAAATTGATTTC +ATTCGTATCTCTGGTCTGCGTGGAAAAGGTATAAAAGCACTGATAGCTGCCCCGCTGCGTATCTTCAACG +CCTGGCGTCAGGCGCGGGCGATTATGAAAGCGTACAAACCTGACGTGGTGCTCGGTATGGGAGGCTACGT +GTCAGGTCCAGGTGGTCTGGCCGCGTGGTCGTTAGGCATTCCGGTTGTACTTCATGAACAAAACGGTATT +GCGGGCTTAACCAATAAATGGCTGGCGAAGATTGCCACCAAAGTGATGCAGGCGTTTCCAGGTGCTTTCC +CTAATGCGGAAGTAGTGGGTAACCCGGTGCGTACCGATGTGTTGGCGCTGCCGTTGCCGCAGCAACGTTT +GGCTGGACGTGAAGGTCCGGTTCGTGTGCTGGTAGTGGGTGGTTCTCAGGGCGCACGCATTCTTAACCAG +ACAATGCCGCAGGTTGCTGCGAAACTGGGTGATTCAGTCACTATCTGGCATCAGAGCGGCAAAGGTTCGC +AACAATCCGTTGAACAGGCGTATGCCGAAGCGGGGCAACCGCAGCATAAAGTGACGGAATTTATTGATGA +TATGGCGGCGGCGTATGCGTGGGCGGATGTCGTCGTTTGCCGCTCCGGTGCGTTAACGGTGAGTGAAATC +GCCGCGGCAGGACTACCGGCGTTGTTTGTGCCGTTTCAACATAAAGACCGCCAGCAATACTGGAATGCGC +TACCGCTGGAAAAAGCGGGCGCAGCCAAAATTATCGAGCAGCCACAGCTTAGCGTGGATGCTGTCGCCAA +CACCCTGGCCGGGTGGTCGCGAGAAACCTTATTAACCATGGCAGAACGCGCCCGCGCTGCATCCATTCCG +GATGCCACCGAGCGAGTGGCAAATGAAGTGAGCCGGGTTGCCCGGGCGTAATTGTAGCGATGCCTTTTGC +ATCGTATGAATTTAAGAAGTTAATGGCGTAAAGAATGAATACACAACAATTGGCAAAACTGCGTTCCATC +GTGCCCGAAATGCGTCGCGTTCGGCACATACATTTTGTCGGCATTGGTGGTGCCGGTATGGGCGGTATTG +CCGAAGTTCTGGCCAATGAAGGTTATCAGATCAGTGGTTCCGATTTAGCGCCAAATCCGGTCACGCAGCA +GTTAATGAATCTGGGTGCGACGATTTATTTCAACCATCGCCCGGAAAACGTACGTGATGCCAGCGTGGTC +GTTGTTTCCAGCGCGATTTCTGCCGATAACCCGGAAATTGTCGCCGCTCATGAAGCGCGTATTCCGGTGA +TCCGTCGTGCCGAAATGCTGGCTGAGTTAATGCGTTTTCGTCATGGCATCGCCATTGCCGGAACGCACGG +CAAAACGACAACCACCGCGATGGTTTCCAGCATCTACGCAGAAGCGGGGCTCGACCCAACCTTCGTTAAC +GGCGGGCTGGTAAAAGCGGCGGGGGTTCATGCGCGTTTGGGGCATGGTCGGTACCTGATTGCCGAAGCAG +ATGAGAGTGATGCATCGTTCCTGCATCTGCAACCGATGGTGGCGATTGTCACCAATATCGAAGCCGACCA +CATGGATACCTACCAGGGCGACTTTGAGAATTTAAAACAGACTTTTATTAATTTTCTGCACAACCTGCCG +TTTTACGGTCGTGCGGTGATGTGTGTTGATGATCCGGTGATCCGCGAATTGTTACCGCGAGTGGGGCGTC +AGACCACGACTTACGGCTTCAGCGAAGATGCCGACGTGCGTGTAGAAGATTATCAGCAGATTGGCCCGCA +GGGGCACTTTACGCTGCTGCGCCAGGACAAAGAGCCGATGCGCGTCACCCTGAATGCGCCAGGTCGTCAT +AACGCGCTGAACGCCGCAGCTGCGGTTGCGGTTGCTACGGAAGAGGGCATTGACGACGAGGCTATTTTGC +GGGCGCTTGAAAGCTTCCAGGGGACTGGTCGCCGTTTTGATTTCCTCGGTGAATTCCCGCTGGAGCCAGT +GAATGGTAAAAGCGGTACGGCAATGCTGGTCGATGACTACGGCCACCACCCGACGGAAGTGGACGCCACC +ATTAAAGCGGCGCGCGCAGGCTGGCCGGATAAAAACCTGGTAATGCTGTTTCAGCCGCACCGTTTTACCC +GTACGCGCGACCTGTATGATGATTTCGCCAATGTGCTGACGCAGGTTGATACCCTGTTGATGCTGGAAGT +GTATCCGGCTGGCGAAGCGCCAATTCCGGGAGCGGACAGCCGTTCGCTGTGTCGCACAATTCGTGGACGT +GGGAAAATTGATCCCATTCTGGTGCCGGATCCGGCGCGGGTAGCCGAGATGCTGGCACCGGTATTAACCG +GTAACGACCTGATTCTCGTTCAGGGGGCTGGTAATATTGGAAAAATTGCCCGTTCTTTAGCTGAAATCAA +ACTGAAGCCGCAAACTCCGGAGGAAGAACAACATGACTGATAAAATCGCGGTCCTGTTGGGTGGGACCTC +CGCTGAGCGGGAAGTTTCTCTGAATTCTGGCGCAGCGGTGTTAGCCGGACTGCGTGAAGGCGGTATTGAC +GCGTATCCTGTCGACCCGAAAGAAGTCGACGTGACGCAACTGAAGTCGATGGGCTTTCAGAAAGTGTTTA +TCGCGCTACACGGTCGCGGCGGTGAAGATGGTACGCTGCAGGGGATGCTCGAGCTGATGGGCTTGCCTTA +TACCGGAAGCGGAGTGATGGCATCTGCGCTTTCAATGGATAAACTACGCAGCAAACTTCTATGGCAAGGT +GCCGGTTTACCGGTCGCGCCGTGGGTAGCGTTAACCCGCGCAGAGTTTGAAAAAGGCCTGAGCGATAAGC +AGTTAGCAGAAATTTCTGCTCTGGGTTTGCCGGTTATCGTTAAGCCGAGCCGCGAAGGTTCCAGTGTGGG +AATGTCAAAAGTAGTAGCAGAAAATGCTCTACAAGATGCATTAAGATTGGCATTTCAGCACGATGAAGAA +GTATTGATTGAAAAATGGCTAAGTGGGCCGGAGTTCACGGTTGCGATACTCGGTGAAGAAATTTTACCGT +CAATACGTATTCAACCGTCCGGAACCTTCTATGATTATGAGGCGAAGTATCTCTCTGATGAGACACAGTA +TTTCTGCCCCGCAGGTCTGGAAGCGTCACAAGAGGCCAATTTGCAGGCATTAGTGCTGAAAGCATGGACG +ACGTTAGGTTGCAAAGGATGGGGACGTATTGACGTTATGCTGGACAGCGATGGACAGTTTTATCTGCTGG +AAGCCAATACCTCACCGGGTATGACCAGCCACAGCCTGGTGCCGATGGCGGCACGTCAGGCAGGTATGAG +CTTCTCGCAGTTGGTAGTACGAATTCTGGAACTGGCGGACTAATATGTCGCAGGCTGCTCTGAACACGCG +AAACAGCGAAGAAGAGGTTTCTTCTCGCCGCAATAATGGAACGCGTCTGGCGGGGATCCTTTTCCTGCTG +ACCGTTTTAACGACAGTGTTGGTGAGCGGCTGGGTCGTGTTGGGCTGGATGGAAGATGCGCAACGCCTGC +CGCTCTCAAAGCTGGTGTTGACCGGTGAACGCCATTACACACGTAATGACGATATCCGGCAGTCGATCCT +GGCATTGGGTGAGCCGGGTACCTTTATGACCCAGGATGTCAACATCATCCAGACGCAAATAGAACAACGC +CTGCCGTGGATTAAGCAGGTGAGCGTCAGAAAGCAGTGGCCTGATGAATTGAAGATTCATCTGGTTGAAT +ATGTGCCGATTGCGCGGTGGAATGATCAACATATGGTAGACGCGGAAGGAAATACCTTCAGCGTGCCGCC +AGAACGCACCAGCAAGCAGGTGCTTCCAATGCTGTATGGCCCGGAAGGCAGCGCCAATGAAGTGTTGCAG +GGCTATCGCGAAATGGGGCAGATGCTGGCAAAGGACAGATTTACTCTGAAGGAAGCGGCGATGACCGCGC +GGCGTTCCTGGCAGTTGACGCTGAATAACGATATTAAGCTCAATCTTGGCCGGGGCGATACGATGAAACG +TTTGGCTCGCTTTGTAGAACTTTATCCGGTTTTACAGCAGCAGGCGCAAACCGATGGCAAACGGATTAGC +TACGTTGATTTGCGTTATGACTCTGGAGCGGCAGTAGGCTGGGCGCCCTTGCCGCCAGAGGAATCTACTC +AGCAACAAAATCAGGCACAGGCAGAACAACAATGATCAAGGCGACGGACAGAAAACTGGTAGTAGGACTG +GAGATTGGTACCGCGAAGGTTGCCGCTTTAGTAGGGGAAGTTCTGCCCGACGGTATGGTCAATATCATTG +GCGTGGGCAGCTGCCCGTCGCGTGGTATGGATAAAGGCGGGGTGAACGACCTCGAATCCGTGGTCAAGTG +CGTACAACGCGCCATTGACCAGGCAGAATTGATGGCAGATTGTCAGATCTCTTCGGTATATCTGGCGCTT +TCTGGTAAGCACATCAGCTGCCAGAATGAAATTGGTATGGTGCCTATTTCTGAAGAAGAAGTGACGCAAG +AAGATGTGGAAAACGTCGTCCATACCGCGAAATCGGTGCGTGTGCGCGATGAGCATCGTGTGCTGCATGT +GATCCCGCAAGAGTATGCGATTGACTATCAGGAAGGGATCAAGAATCCGGTAGGACTTTCGGGCGTGCGG +ATGCAGGCAAAAGTGCACCTGATCACATGTCACAACGATATGGCGAAAAACATCGTCAAAGCGGTTGAAC +GTTGTGGGCTGAAAGTTGACCAACTGATATTTGCCGGACTGGCATCAAGTTATTCGGTATTGACGGAAGA +TGAACGTGAACTGGGTGTCTGCGTCGTCGATATCGGTGGTGGTACAATGGATATCGCCGTTTATACCGGT +GGGGCATTGCGCCACACTAAGGTAATTCCTTATGCTGGCAATGTCGTGACCAGTGATATCGCTTACGCCT +TTGGCACGCCGCCAAGCGACGCCGAAGCGATTAAAGTTCGCCACGGTTGTGCGCTGGGTTCCATCGTTGG +AAAAGATGAGAGCGTGGAAGTGCCGAGCGTAGGTGGTCGTCCGCCACGGAGTCTGCAACGTCAGACACTG +GCAGAGGTGATCGAGCCGCGCTATACCGAGCTGCTCAACCTGGTCAACGAAGAGATATTGCAGTTGCAGG +AAAAGCTTCGCCAACAAGGGGTTAAACATCACCTGGCGGCAGGCATTGTATTAACCGGTGGCGCAGCGCA +GATCGAAGGTCTTGCAGCCTGTGCTCAGCGCGTGTTTCATACGCAAGTGCGTATCGGCGCGCCGCTGAAC +ATTACCGGTTTAACGGATTATGCTCAGGAGCCGTATTATTCGACGGCGGTGGGATTGCTTCACTATGGGA +AAGAGTCACATCTTAACGGTGAAGCTGAAGTAGAAAAACGTGTTACAGCATCAGTTGGCTCGTGGATCAA +GCGACTCAATAGTTGGCTGCGAAAAGAGTTTTAATTTTTATGAGGCCGACGATGATTACGGCCTCAGGCG +ACAGGCACAAATCGGAGAGAAACTATGTTTGAACCAATGGAACTTACCAATGACGCGGTGATTAAAGTCA +TCGGCGTCGGCGGCGGCGGCGGTAATGCTGTTGAACACATGGTGCGCGAGCGCATTGAAGGTGTTGAATT +CTTCGCGGTAAATACCGATGCACAAGCGCTGCGTAAAACAGCGGTTGGACAGACGATTCAAATCGGTAGC +GGTATCACCAAAGGACTGGGCGCTGGCGCTAATCCAGAAGTTGGCCGCAATGCGGCTGATGAGGATCGCG +ATGCATTGCGTGCGGCGCTGGAAGGTGCAGACATGGTCTTTATTGCTGCGGGTATGGGTGGTGGTACCGG +TACAGGTGCAGCACCAGTCGTCGCTGAAGTGGCAAAAGATTTGGGTATCCTGACCGTTGCTGTCGTCACT +AAGCCTTTCAACTTTGAAGGCAAGAAGCGTATGGCATTCGCGGAGCAGGGGATCACTGAACTGTCCAAGC +ATGTGGACTCTCTGATCACTATCCCGAACGACAAACTGCTGAAAGTTCTGGGCCGCGGTATCTCCCTGCT +GGATGCGTTTGGCGCAGCGAACGATGTACTGAAAGGCGCTGTGCAAGGTATCGCTGAACTGATTACTCGT +CCGGGTTTGATGAACGTGGACTTTGCAGACGTACGCACCGTAATGTCTGAGATGGGCTACGCAATGATGG +GTTCTGGCGTGGCGAGCGGTGAAGACCGTGCGGAAGAAGCTGCTGAAATGGCTATCTCTTCTCCGCTGCT +GGAAGATATCGACCTGTCTGGCGCGCGCGGCGTGCTGGTTAACATCACGGCGGGCTTCGACCTGCGTCTG +GATGAGTTCGAAACGGTAGGTAACACCATCCGTGCATTTGCTTCCGACAACGCGACTGTGGTTATCGGTA +CTTCTCTTGACCCGGATATGAATGACGAGCTGCGCGTAACCGTTGTTGCGACAGGTATCGGCATGGACAA +ACGTCCTGAAATCACTCTGGTGACCAATAAGCAGGTTCAGCAGCCAGTGATGGATCGCTACCAGCAGCAT +GGGATGGCTCCGCTGACCCAGGAGCAGAAGCCGGTTGCTAAAGTCGTGAATGACAATGCGCCGCAAACTG +CGAAAGAGCCGGATTATCTGGATATCCCAGCATTCCTGCGTAAGCAAGCTGATTAAGAATTGACTGGAAT +TTGGGTTTCGAGGCTCTTTGTGCTAAACTGGCCCGCCGAATGTATAGTACACTTCGGTTGGATAGGTAAT +TTGGCGAGATAATACGATGATCAAACAAAGGACACTTAAACGTATCGTTCAGGCGACGGGTGTCGGTTTA +CATACCGGCAAGAAAGTCACCCTGACGTTACGCCCTGCGCCGGCCAACACCGGGGTCATCTATCGTCGCA +CCGACTTGAATCCACCGGTAGATTTCCCGGCCGATGCCAAATCTGTGCGTGATACCATGCTCTGTACGTG +TCTGGTCAACGAGCATGATGTACGGATTTCAACCGTAGAGCACCTCAATGCTGCTCTCGCGGGCTTGGGC +ATCGATAACATTGTTATCGAAGTTAACGCGCCGGAAATCCCGATCATGGACGGCAGCGCCGCTCCGTTTG +TATACCTGCTGCTTGACGCCGGTATCGACGAGTTGAACTGCGCCAAAAAATTTGTTCGCATCAAAGAGAC +TGTTCGTGTCGAAGATGGCGATAAGTGGGCTGAATTTAAGCCGTACAATGGTTTTTCGCTGGATTTCACC +ATCGATTTTAACCATCCGGCTATTGATTCCAGCAACCAGCGCTATGCGATGAACTTCTCCGCTGATGCGT +TTATGCGCCAGATCAGCCGTGCGCGTACGTTCGGTTTCATGCGTGATATCGAATATCTGCAGTCCCGTGG +TTTGTGCCTGGGCGGCAGCTTCGATTGTGCCATCGTTGTTGACGATTATCGCGTACTGAACGAAGACGGC +CTGCGTTTTGAAGACGAATTTGTGCGTCACAAAATGCTCGATGCGATCGGTGACTTGTTCATGTGTGGTC +ACAATATTATTGGTGCATTTACCGCTTATAAATCCGGTCATGCACTGAATAACAAACTGCTGCAGGCTGT +CCTGGCGAAACAGGAAGCCTGGGAATATGTGACCTTCCAGGACGACGCAGAACTGCCGTTGGCCTTCAAA +GCGCCTTCAGCTGTACTGGCATAACGACATTTATACTGTCGTATAAAATTCGACTGGCAAATCTGGCACT +CTCTCCGGCCAGGTGAACCAGTCGTTTTTTTTTGAATTTTATAAGAGCTATAAAAAACGGTGCGAACGCT +GTTTTCTTAAGCACTTTTCCGCACAACTTATCTTCATTCGTGCTGTGGACTGCAGGCTTTAATGATAAGA +TTTGTGCGCTAAATACGTTTGAATATGATCGGGATGGCAATAACGTGAGTGGAATACTGACGCGCTGGCG +ACAGTTTGGTAAACGCTACTTCTGGCCGCATCTCTTATTAGGGATGGTTGCGGCGAGTTTAGGTTTGCCT +GCGCTCAGCAACGCCGCCGAACCAAACGCGCCCGCAAAAGCGACAACCCGCAACCACGAGCCTTCAGCCA +AAGTTAACTTTGGTCAATTGGCCTTGCTGGAAGCGAACACACGCCGCCCGAATTCGAACTATTCCGTTGA +TTACTGGCATCAACATGCCATTCGCACGGTAATCCGTCATCTTTCTTTCGCAATGGCACCGCAAACACTG +CCCGTTGCTGAAGAATCTTTGCCTCTTCAGGCGCAACATCTTGCATTACTGGATACGCTCAGCGCGCTGC +TGACCCAGGAAGGCACGCCGTCTGAAAAGGGTTATCGCATTGATTATGCGCATTTTACCCCACAAGCAAA +ATTCAGCACGCCCGTCTGGATAAGCCAGGCGCAAGGCATCCGTGCTGGCCCTCAACGCCTCACCTAACAA +CAATAAACCTTTACTTCATTTTATTAACTCCGCAACGCGGGGCGTTTGAGATTTTATTATGCTAATCAAA +TTGTTAACTAAAGTTTTCGGTAGTCGTAACGATCGCACCCTGCGCCGGATGCGCAAAGTGGTCAACATCA +TCAATGCCATGGAACCGGAGATGGAAAAACTCTCCGACGAAGAACTGAAAGGGAAAACCGCAGAGTTTCG +TGCACGTCTGGAAAAAGGCGAAGTGCTGGAAAATCTGATCCCGGAAGCTTTCGCCGTGGTACGTGAGGCA +AGTAAGCGCGTCTTTGGTATGCGTCACTTCGACGTTCAGTTACTCGGCGGTATGGTTCTTAACGAACGCT +GCATCGCCGAAATGCGTACCGGTGAAGGAAAAACCCTGACCGCAACGCTGCCTGCTTACCTGAACGCACT +AACCGGTAAAGGCGTGCACGTAGTTACCGTCAACGACTACCTGGCGCAACGTGACGCCGAAAACAACCGT +CCGCTGTTTGAATTCCTTGGCCTGACTGTCGGTATCAACCTGCCGGGCATGCCAGCACCGGCAAAGCGCG +AAGCTTACGCAGCTGACATCACTTACGGTACGAACAACGAATACGGCTTTGACTACCTGCGCGACAACAT +GGCGTTCAGCCCTGAAGAACGTGTACAGCGTAAACTGCACTATGCGCTGGTGGACGAAGTGGACTCCATC +CTGATCGATGAAGCGCGTACACCGCTGATCATTTCCGGCCCGGCAGAAGACAGCTCGGAAATGTATAAAC +GCGTGAATAAAATTATTCCGCACCTGATCCGTCAGGAAAAAGAAGACTCCGAAACCTTCCAGGGCGAAGG +CCACTTCTCGGTGGACGAAAAATCTCGCCAGGTGAACCTGACCGAACGTGGTCTGGTGCTGATTGAAGAA +CTGCTGGTGAAAGAGGGCATCATGGATGAAGGGGAGTCTCTGTACTCTCCGGCCAACATCATGCTGATGC +ACCACGTAACGGCGGCGCTGCGCGCTCATGCGCTGTTTACCCGTGACGTCGACTACATCGTTAAAGATGG +TGAAGTTATCATCGTTGACGAACACACCGGTCGTACCATGCAGGGCCGTCGCTGGTCCGATGGTCTGCAC +CAGGCTGTGGAAGCGAAAGAAGGTGTGCAGATCCAGAACGAAAACCAAACGCTGGCTTCGATCACCTTCC +AGAACTACTTCCGTCTGTATGAAAAACTGGCGGGGATGACCGGTACTGCTGATACCGAAGCTTTCGAATT +TAGCTCAATCTACAAGCTGGATACCGTCGTTGTTCCGACCAACCGTCCAATGATTCGTAAAGATCTGCCG +GACCTGGTCTACATGACTGAAGCGGAAAAAATTCAGGCGATCATTGAAGATATCAAAGAACGTACTGCGA +AAGGCCAGCCGGTGCTGGTGGGTACTATCTCCATCGAAAAATCGGAGCTGGTGTCAAACGAACTGACCAA +AGCCGGTATTAAGCACAACGTCCTGAACGCCAAATTCCACGCCAACGAAGCGGCGATTGTTGCTCAGGCA +GGTTATCCGGCTGCGGTGACTATCGCGACCAATATGGCGGGTCGTGGTACAGATATTGTGCTCGGTGGTA +GCTGGCAGGCAGAAGTTGCCGCGCTGGAAAATCCGACCGCAGAGCAAATTGAAAAAATTAAAGCCGACTG +GCAGGTACGTCACGATGCGGTACTGGAAGCAGGTGGCCTGCATATCATCGGTACCGAGCGTCACGAATCC +CGTCGTATCGATAACCAGTTGCGCGGTCGTTCTGGTCGTCAGGGGGATGCTGGTTCTTCCCGTTTCTACC +TGTCGATGGAAGATGCGCTGATGCGTATTTTTGCTTCCGACCGAGTATCCGGCATGATGCGTAAACTGGG +TATGAAGCCAGGCGAAGCCATTGAACACCCGTGGGTGACTAAAGCGATTGCCAACGCCCAGCGTAAAGTT +GAAAGCCGTAACTTCGACATTCGTAAGCAACTGCTGGAATATGATGACGTGGCTAACGATCAGCGTCGCG +CCATTTACTCCCAGCGTAACGAACTGTTGGATGTCAGCGATGTGAGCGAAACCATTAACAGCATTCGTGA +AGATGTGTTCAAAGCGACCATTGATGCCTACATTCCACCACAGTCGCTGGAAGAAATGTGGGATATTCCG +GGGCTGCAGGAACGTCTGAAGAACGATTTCGACCTCGATTTGCCAATTGCCGAGTGGCTGGATAAAGAAC +CAGAACTGCATGAAGAGACGCTGCGTGAGCGCATTCTGGCGCAGTCCATCGAAGTGTATCAGCGTAAAGA +AGAAGTGGTTGGTGCTGAGATGATGCGTCACTTCGAGAAAGGCGTCATGCTGCAAACGCTTGACTCCCTG +TGGAAAGAGCACCTGGCAGCGATGGACTATCTGCGTCAGGGTATCCACCTGCGTGGCTACGCACAGAAAG +ATCCGAAGCAGGAATACAAACGTGAATCGTTCTCCATGTTTGCAGCGATGCTGGAGTCGTTGAAATATGA +AGTTATCAGTACGCTGAGCAAAGTTCAGGTACGTATGCCTGAAGAGGTTGAGGAGCTGGAACAACAGCGT +CGTATGGAAGCCGAGCGTTTAGCGCAAATGCAGCAGCTTAGCCATCAGGATGACGACTCTGCAGCCGCAG +CTGCACTGGCGGCGCAAACCGGAGAGCGCAAAGTAGGACGTAACGATCCTTGCCCGTGCGGTTCTGGTAA +AAAATACAAGCAGTGCCATGGCCGCCTGCAATAAAAGCTAACTGTTGAAGTAAAAGGCGCAGGATTCTGC +GCCTTTTTTATAGGTTTAAGACAATGAAAAAGCTGCAAATTGCGGTAGGTATTATTCGCAACGAGAACAA +TGAAATCTTTATAACGCGTCGCGCAGCAGATGCGCACATGGCGAATAAACTGGAGTTTCCCGGCGGTAAA +ATTGAAATGGGTGAAACGCCGGAACAGGCGGTGGTGCGTGAACTTCAGGAAGAAGTCGGGATTACCCCCC +AACATTTTTCGCTATTTGAAAAACTGGAATATGAATTCCCGGACAGGCATATAACACTGTGGTTTTGGCT +GGTCGAACGCTGGGAAGGGGAGCCGTGGGGTAAAGAAGGGCAACCCGGTGAGTGGATGTCGCTGGTCGGT +CTTAATGCCGATGATTTTCCGCCAGCCAATGAACCGGTAATTGCGAAGCTTAAACGTCTGTAGGTCAGAT +AAGGCGTTTTCGCCGCATCCGACATTCGCACACGATGCCTGATGCGACGCTGGCGCGTCTTATCAGGCCT +AAAGGGATTTCTAACTCATTGATAAATTTGTTTTTGTAGGTCGGATAAGGCGTTCACGCCGCATCCGACA +TTTGCACAAGATGCCTGATGCGACGCTGTCCGCGTCTTATCAGGCCTACGTGCGGCATCAGACAAATGTC +ACTGCTTTGGTTCTTCGCTCCAGTCATCGCTTTCGGAAAGATCGCCACTGCTGGGGATTCGTTTTTCTTC +AGCAGCCCATTCTCCGAGGTCGATCAGCTGACAACGTTTGGAGCAAAATGGCCGAAACGGGCTGATTTCA +CCCCACACCACCGTTTTCCCGCAGGTTGGGCAATTCACCGTAATAGTTTCTGACATTTTTACTCCTTAGC +AACAGGCCAGTTCGAAATCCAGACGTTCCGGTACCTGTCCGTTTTCAGTGTCCAGCGGCATAAAACGAAT +GGCAAAACGGCTCTTATGTCCGGAAATTTGCGGATAAAGCTGTGAATCGAGCGACAGATTCAGGCGCAGC +AAGTCGGCATCGCCACCGTTATCCTGATAAAAACCATTCAGGCTGGTTTGTTTACGGAAGGGGGCCGACT +GGCGAATTAAATCCAGCACCATGGTAAGTGCCTGGGTGAGCGGGTTCAGGCTGGCAATCCAGGTTTCTAC +CTGGCTGTCGCGCTGCGCCTGGGGTAGATGCAGCCAAATGTGCAATGTAGGTAAATCAAAGCTGCAACAG +CCGCCTGGGATGCTCAGTCGCTGACGCACCAGAGCAATCAAACGATCTTCACGCAGAAATTGCCCGATAC +GCGGCGCGGAAATTAATACGCTCCCCGCCGCTTTTAACTGCTGAATTAATGCTTCAATACGGCTCTGGTC +CACGCCAGGCACGCCAATCCAGGTCTGGAGTTTACGTTGCTGCCGGTCAAGTTCTTTCAACAGCTCAGTG +CGGACTTCGCCGCGCTCGAAAACATCCAGTAATTCACTGACATTACGGAAGAAATGCAGCGCGCCAGCGT +GGTCAACGATGGGTAAATTAACGGTGAGTTGCTGAATCAAAAACTCAATGCGCAGCCATGTACGCATTTT +TTCATTTAGTGGATGTTCAAAAAGGACCTGGGTCTGCATTACGGTTTTTCCTGTGAGACAAACTGCGACG +CAAGCTGCAAATAGTGTGCGTGCAGGCGGGCAACATCCGATGCGATAGCATCCGGTGCGCCGTTATTATC +AATGACGTCATCTGCCACGGCAAGGCGGGCTTCGCGCGTTGCCTGAGCAGCAAGGATTTGTTCGACATGC +TCGCGAGTTACATCATCGCGCTGCATGGTGCGCTTAAGTTGCGTTTCTGGGCTGACATCCACCACAAGCA +CTCGATTCGCTTTTTTATACAGTGAGTTTTCTACCAGCAATGGCACAACCCACAGTACATAGGGGGAAGT +AGCTTGCTGGATCTGGTGTTGCGTCTCTTGCTGAATCAGCGGATGCAGCAGGGCGTTAAGCCAGTTTTTC +TCTTCCGGGTTGGCGAAGATCCGCTCGCGCAAGGCCCGGCGCTGCAATGTTCCATCAGCAGCAATCATGT +TAGCGCCAAAGTGATCAGCAATGGCATGTAGCGCAGGTGCACCTGGTTCAACCACCTGACGCGCAATAAT +ATCGGCATCAATGACGTTAATTCCGAGATCAGCAAACGCATTGGCAACGGTACTCTTGCCACTGCCAATG +CCTCCCGTTAAGGCAACTATATACCTCATAATTTATATTCCCGGGAATTCATCATGATTATCAAAACGTT +AAAAATGAGTGCACGAAAGCGAAATTGATGAAACGTTCGCTCACTATTTACCAGGTAAATTTATGGGATT +GTAGCGTAAAAAAAGACAATTTCGCAGTCTTGCGCCGCATTGATTAGTGCGTATGATAGCGTCACTGGAG +TTGCGCTCTTACCCTTATAGCCATTAACCCCAGGAATCCGCACATGCGTATTGAAGAAGATCTGAAGTTA +GGTTTTAAAGACGTTCTCATCCGCCCTAAACGCTCCACTCTTAAAAGCCGTTCCGATGTTGAACTGGAAC +GTCAATTCACCTTCAAACATTCAGGTCAGAGCTGGTCCGGCGTGCCGATTATCGCCGCAAATATGGACAC +CGTAGGCACATTTTCTATGGCCTCTGCGCTGGCTTCTTTTGATATTTTGACTGCTGTGCATAAACACTAT +TCTGTCGAAGAGTGGCAAGCGTTTATCAACAATTCTTCCGCTGATGTGCTGAAACATGTGATGGTTTCTA +CCGGTACGTCTGATGCGGATTTCGAAAAAACTAAACAGATTCTCGACCTGAACCCGGCATTAAACTTCGT +TTGTATTGACGTGGCGAATGGTTATTCCGAACACTTCGTGCAGTTCGTTGCGAAAGCGCGTGAAGCGTGG +CCGACCAAAACCATTTGTGCTGGTAACGTAGTGACTGGTGAAATGTGTGAGGAGCTTATCCTCTCAGGTG +CCGATATCGTTAAAGTTGGCATTGGCCCAGGTTCTGTTTGTACAACTCGCGTCAAAACAGGCGTCGGTTA +TCCGCAACTTTCTGCGGTAATCGAATGTGCCGATGCTGCGCACGGTCTGGGCGGAATGATCGTCAGCGAT +GGTGGCTGCACCACGCCGGGCGATGTGGCGAAAGCCTTTGGCGGCGGTGCCGATTTCGTCATGCTTGGCG +GCATGCTGGCGGGCCACGAAGAGAGCGGCGGTCGCATCGTTGAGGAGAACGGCGAGAAATTTATGCTGTT +CTACGGCATGAGCTCCGAGTCTGCGATGAAACGTCACGTTGGCGGCGTTGCGGAATATCGCGCAGCAGAA +GGTAAAACCGTTAAGCTGCCGCTGCGAGGCCCGGTTGAAAATACCGCGCGAGATATTTTGGGCGGCCTGC +GTTCAGCTTGTACATACGTTGGGGCTTCACGCCTGAAAGAGCTGACCAAGCGCACCACGTTTATTCGTGT +GCAGGAACAAGAAAACCGCATCTTCAACAACCTGTAATCTCCCAACGCTGGCGTGGAGCAACACGCCAGC +GTTATCCCATCCCACTCATCGCATCGCCTAAATGGAAAATTGGCAGATACATTGCCACCACCAGCGTACC +AATAATTCCTCCCGTTATGATCAGCAACGCCGGTTCCAGTAAGGCTGCGAGGTTATCCGCCAGCGCCATT +GTGTTTTCCCGATGATGATGGGCGAGGTTGTCTAACATGAGATCCAGAGAGCCGGATGCCTCTCCTGTTC +TCACTAATTGCAAACAGAGCGGGCTAAACTCACCGGTATTTTTTAGCGCCAGCCAGATGGGTTGACCGTT +ACTGATATCGTGCTGGATTTGTGTCAGAAGTTGCACCCAGTACGGGCAGCGCATTGTTTCTCTGACGCTC +TCTACGCCCTGTAAAAAAGTAATGCCTGCACTTTGTGTCAGCGCCAGAATCGTAAAGATCTGCGTGAGTT +TTTGTCCCCGCATCAGTGAACCCATAATCGGGATGCGTAACAGCAATTTCTGCCGCACTATAAGCCAGGT +CGGTCGGCGCATCAGCAACTTATTGGCTATCGCCAGCAGAAAGCCGAACAACACCAGCAGCCAGCTCCAT +TCGCCACTAAAGTCTGCCAGCGTCATGATCCCCTGCGTTAGTGCCGGTAGTGGGGTGTTGAAGGTCTTAT +AGATAGCGGCAAACTCCGGCAGAACAAAATGCAGCATTGCCACAACCACCATGATTGCCATCGCTAAAAT +GATGATGGGATAACGTAACGCTGATTTCACTTTGTCGGTCAACTGACGCTGGGCTTTTTGCTGACGCGCC +AGTTCAAAGCAGCATTCATCCAGCTTACCGGTCAGTTCACCCGTGCGGATCATCGCCTGATAGAGCGGCG +GAAATACCTCTGACCAGGGTAATAAGGCATTGGAAAAAGCAATGCCCTGTTCGAGATCGTGCGCCAGCGA +TTGCAGCAACGCTTGCCATTGCTTACTGGGATGCTGTTCCGCCAGCAGAGCCAGCCCTTCAGAAAGCGTT +AACCCTGCTTTGAGTAGCGTCGCCAGTTGATGAATGACTTCCGCGCTTTTATCTCCTCGCCACTGCGCAG +AATTGATGGCGATTCGCTTCAGGCTTAGTGGGGTAACCATCTGTTGCTGTAGTGCCATAAGCAGTAAAGT +ACGGCTCTCTGCCCATAGCATCCCATCTTGCGCATTGCCGTCGCCGGTTATGCCATGCCAGCGCCAGAGT +TGCTTACTCGCCATGCGGCATCCCCAGTACGCGGATTAACTCTTCAAAGGTGGTTAAGCCTTGCTCTACG +GCCAGGCAGCCGTTTTCAAAAAGCGTACGCATACCCGCCTGTCGTGCGTGCGTTTCCAGCGATTCAACGT +CGGTATTAGCGGAAATAAGCTGACGAATGACCGGCGTTATGGGCAGAACTTCAAATAAGGCCGTACGACC +ATAAAAACCGTGGTAGCAATGTACACAACCGGGTGCCTGCCAGTGGGGCAGCGGCGATGGCCATACATTG +TCTGGAATGTGGATGGGCTCCCCTTGCTGCCGGCGACAATGTGGGCAAAGTTTGCGTACCAGACGCTGGG +CTATTACCAGCGTAAGCGCCGATGATAGCATCCAGCGGGCGACCCCCATTTGCTGTAAACGTACCAGCGT +TTCGCAGGTGGAATTAGTGTGTAGGGTAGACAACACCAGGTGACCAGTTTGCGCCGCTTTAATAGCGATC +TCTGCTGTTTCGCCATCGCGGATCTCTCCGATCATGATGACGTCAGGATCCTGGCGCAATAACGCACGCA +AAACGCCCTGAAAGGTGAGTCCGGCACGCGGATGGATTTGCGTCTGGTTTAGTCCGGCTATGGGGATCTC +AACTGGATCTTCGACGCTACAAATATTAATGTCAGCGGTATTCAGCTTTTGCAGGGCACTATAAAGCGTG +ACCGTTTTGCCGCTGCCGGTAGGGCCAGTTACCAGCACCAGTCCCTGTGGTTGTTGCAAGGCATGAGCAA +AGTCCGCCAGTTGTAACGGCTGCATTCCAAGCGTGTTGACATCCAGTGCCTGACCCACCTGCTGTAACAA +CCTTAATACCACCTTTTCACCACCCCGACATGGTAAGGTCGCAATACGAAATGAGACGGCGTTTCCTGCC +AGTTCGACAGTGAATTGCCCGTCCTGCGGCAGGCGATGTTCCGCAATATCCAGGTTTCCCAGCACTTTTA +ATCTGGCGGTTAATGCGACTCCGGCATCCGGTGAAACATCCGGTAAAGGATGCAATACGCCGTCGATACG +CAAGCGGATGCGGTAGGCATTGTCCGCTGGTTCGATATGAATATCAGACGCGCGTTGTTCCAGCGCAGAT +TGTAACGTTCGAGTTAGCAACTCTGCTTTGGGCTGATGCTTCTCCTGAACAGCTACGGGCAATGTCTGTT +GTGTGCGACTGGCGTGACCTTCCATTTGTTGGCGCGTCCAGCAGGTGATCTCAATACGTTTGGTGGTAGC +GAAATGCAATGCGTCCAGTAGCTCATGCGAAGGTGCATCGACTACCGCAACATGAACCACCTCTTCGCTG +GCATCCAGCAAGACTCCATGATAACGCAGACACAGGGCAGTGAGCTGTGGAATATTCATTGCCGCTCCTT +AGTTGGCGTCATCAAAGCGGAAGACATCTTCGCAGGCTTGCTGCAATGCGCTGTCACTTTGAATATTGCA +GTTGCGCGTCCAGCCGGTGACGCCGTTTGCGTTATCCCAACCCGGTGTCATGACGACGCTTAGCCCATTG +AGACTTTCTTGCCCGGTCAGCGACACCACGCCCTTTGCCACACTCATGGCTGAAACATAGCGGGTGGTGG +TAGGCGAGGGAATGCCATTGCTGCCACCGTCGCAGGTATCTAATCCACCATGTTCCAGCGCGCACAACTC +TACGGCGGTACGGTAAGGCACAAAGGTTTGTAGCATGTCGGTGAGTGCGGCTTTGCGCAGGTAGTTTTGA +TAAGCGGGAATACCAATGGCGCTTAAAATGGCAATGATGCCAATAACCACCATCAGTTCGATAAGTGTAA +AACCGCGTTGCTTGTCCATCTGTTTCGCTCCTTGATTTGGTTGGCGCTACTTTGGCAAACGCCATCAGCA +CAGGCGAGGGGCAAAAAACGAAACGGGAAAGCAGATTCCGAGGTTTTTTATTTCGTTGCAGCGAAAGACA +AGAAATTTGCGAGGCGTTACGAAGAAAGTTGGGGAAGGGGAGATTATCCGCCCGCGATGGAGCGGATAAA +TCTGTCAACTATTAGCGAAAACGCATTGAAAGGTCGAGTGCTTGTACGTGTTTAGTTAGCGCACCGACGG +AGATAAAGTCCACGCCCGTTTCGGCAAATTCACGCAGTGTTTTGTCAGTGACGTTGCCAGACACTTCCAG +TAGCGCCTTGCCGTTGGTGCGTTTGACGGCTTCGCGCATCTGTTCTGTTTCGAAGTTATCCAGCATGATG +ATATCGGCTCCTGCTTTCAGGGCTTCATCAAGTTCTTCCAGATTCTCTACTTCGACTTCTACTGGCGCAT +CCGGGTGCAGCCAGGACGCTTTTTCGACCGCCTGGCGCACTGAGCCGGAGGCAATAATATGGTTTTCTTT +GATCAGGAAGGCATCAGAAAGCCCCAGACGGTGATTCGCTCCGCCGCCGCAAAGTACCGCGTATTTCAGA +GCTGAACGCAGGCCGGGTAAGGTTTTGCGCGTATCCAACAACTGCGTGTTGGTGCCTTCCAGCAATTCGA +CATAGTGGCGTACCTTACTGGCAACTCCTGAAAGGGTTTGCACAAAATTAAGCGCAGTGCGTTCGCCCGT +TAACAGCACGCGGGATGGGCCTTCAAGTTCGAACAAGGATTGATTGGCATTGATGACATCGCCGTCATCC +ACATGCCAGATTATGGTGACATCGTCGCCTGCCAGTTGAATAAACACCTCTTCAACCCAGCGTTTGCCGC +AAAAGACGCCATTCTCGCGGGTGATCACCGTGGCATGAGAGCGAGAATTTTCCGGTAAAAGTTTTGCCGT +AATATCATTGTTGGCATCGACTGTTCCGCCTAAATCTTCCCGCAGCGCCTGGGCCACCGCGCCGGGGATA +TCGAGATTAATGCGTTCCAGCAGCTCGTCACGTCGGGTGTCAGGGTTATAGCGGCGAGGCGGCATGTTAA +AACTCCAGATAGCTAACGAATCATAAGGTAGAAACATGCTACTCTGAACCGGGTATTAGCACCACATATA +AGGAGATCCTGCATGTTGTTAGAACAGGGGTGGCTGGTTGGCGCGCGCCGCGTTCCCTCACCACATTACG +ATTGCCGCCCGGATGACGAAACACCCACCCTGCTGGTGGTGCACAATATTAGCCTGCCGCCAGGCGAGTT +TGGCGGTCCGTGGATCGACGCATTATTCACTGGAACTATTGATCCGCAGGCACATCCTTTCTTTGCTGAG +ATCGCCCATTTGCGCGTCTCCGCTCACTGTTTGATTCGCCGTGATGGTGAAATAGTCCAGTATGTTCCTT +TCGATAAACGTGCATGGCATGCGGGAGTCTCTCAGTATCAGGGGCGCGAACGCTGCAATGATTTTTCTAT +TGGGATTGAGCTTGAAGGCACCGATACGCTGGCGTATACCGATGCGCAGTATCAACAGCTTGCGGCGGTT +ACGCGGGCACTGATTGATTGCTATCCGGATATCGCTAAAAACATGACGGGCCATTGTGATATTGCGCCGG +ATCGGAAAACCGATCCCGGTCCTGCATTTGATTGGGCACGGTTTCGTGTGCTGGTCAGCAAGGAGACAAC +ATGACGCTATTTACAACCTTACTGGTGTTAATTTTCGAGCGCCTGTTTAAGTTGGGCGAGCACTGGCAGC +TTGATCATCGTCTTGAAGCGTTCTTTCGGCGGGTGAAACATTTTTCTCTCGGGCGCACGTTAGGCATGAC +CATTATTGCGATGGGCGTGACTTTTTTACTGTTACGCGCATTGCAGGGAGTATTGTTCAACGTTCCCACG +CTACTGGTGTGGCTGCTGATTGGTTTGCTGTGTATTGGCGCAGGTAAAGTTCGTCTTCATTATCATGCTT +ATCTGACAGCTGCTTCACGTAATGATAGCCATGCCCGTGCCACGATGGCTGGCGAACTCACCATGATTCA +CGGCGTCCCGGCAGGCTGCGACGAACGTGAGTATTTGCGTGAGCTGCAAAATGCATTGCTGTGGATTAAC +TTTCGTTTTTATCTTGCACCGCTGTTCTGGCTGATTGTGGGGGGAACCTGGGGACCCGTTACGCTGATGG +GGTATGCGTTTTTGCGTGCATGGCAATACTGGCTGGCGCGATATCAGACGCCGCATCATCGTTTACAGTC +CGGCATTGATGCCGTGCTTCATGTACTGGATTGGGTGCCGGTTCGTCTTGCGGGTGTGGTATATGCCTTG +ATCGGTCATGGTGAGAAAGCGTTACCGGCCTGGTTTGCTTCGCTGGGTGATTTCCATACTTCGCAGTATC +AGGTGTTAACGCGTCTGGCGCAGTTCTCTCTGGCGCGTGAACCGCATGTCGATAAGGTGGAGACGCCGAA +GGCAGCGGTTTCAATGGCGAAGAAAACCTCGTTCGTGGTCGTGGTGGTGATTGCACTACTGACGATTTAC +GGGGCGTTGGTGTAAAGATTATTGCCCTCACCCTGTACGGGTGAGGGCGTAGAGAGATTAATGCGCTTTT +ACGGCTTTGGCGGTTTTCTCTTTAAACAGATAGCCGATACCTAACACGATCAGCCATACCGGGATCAGGT +ATACCGAAATCGCCATTCCTGGGGTCATCAGCATAATCACCAGTACCGCCGCCATAAACAGCAGGCAGAT +CCAGTTACCCAGCGGATAAAGCAGAGCAGGGAAGCGAGTTACCACGCCTTGTTCCTGCTTGGCGCGACGG +AATTTCATATGCGCCAGGCTAATCATCGCCCAGTTGATTACCAGTGCAGATACCACCAGCGCCATTAACA +GTCCGAAAGCGGACTCTGGGGCAAGGTAGTTAATCAGTACGCACAACGCCGTTACCAGTGCAGACACCAG +AATGGTATTTACTGGTACACCACGTTTATCGACAGACGCCAGCGCTTTTGGCGCATTACCCTGTTGTGCC +AGACCAAACAGCATACGGCTGTTGCAATATACGCAGCTGTTGTACACGGAGAGCGCCGCAGTCAGTACCA +CGATGTTCAGCGCATTCGCCACAAAGGTATCGCCTAACTCGTGGAAGATCAGCACAAACGGACTGGTATC +GGCGGTAACGCGGGTCCACGGCATCAGTGAGAGCAGAACGGCTAACGAACCAATATAGAAAATCAGGATG +CGGTAGATAACCTGGTTAGTTGCTTTCGGTATACTTTGCTCCGGGTTATCAGCTTCTGCTGCGGTGATCC +CCACCAGTTCCAGACCACCGAACGAGAACATGATAATCGCCATCATCATCACCAGCCCGGTGAAGCCGTG +CGGCAGGAAACCACCCTGATCCCACAGGTTGCTAACGGTCGCCTGCGGGCCGCCGTTGCCACTGAATAGC +AGCCAGCCGCCGAAGATGATCATCGCTACCACCGCGATAACTTTGATAATGGCAAACCAGAACTCCATCT +CGCCAAACACTTTAACGTTGGTCAGGTTGATGGCGTTAATCACCACAAAGAATACGGCGGCAGAAACCCA +GGTGGGGATTTCCGGATACCAGAACTGAATGTATTTACCCACGGCAGTCAGCTCAGCCATGGCAACTAAA +ACGTACAGTACCCAGTAGTTCCAGCCAGAGGCGAAACCGGCAAAACTGCCCCAGTATTTATAAGCAAAGT +GGCTAAAGGAGCCTGCGACAGGTTCTTCGACCACCATTTCACCCAGCTGACGCATGATCAGAAAGGCGAT +AAAACCAGCAATGGCGTAACCCAGGATAATCCCTGGCCCTGCGGACTGTATTACGGAGGCGCTACCCAGG +AATAACCCGGTCCCTATCGCGCCACCCAGCGCGATAAGCTGAATATGGCGGTTTTTAAGGCCGCGCTTTA +GCTGCTCGCCGTGCTGTTGACCTTCCATCATGAAACCTCGTGCGGTGGTTGTTTTTTTGATCTACGCAGT +GATGCGTGTGTAAGTTTGCAATTCCGTTTGTTGTATTAATTTGTTTACATCAAAGAAGTTTGAATTGTTA +CAAAAAGACTTCCGTCAGATCAAGAATAATGGTATGCGGCAGCGAATGCACCCGCTTTATGCATGGTTGA +AGATGAGTTGCTTAAAAAGAAACCGTTTGTAAAGCTCAGCCTCAACCCCTCTCAATATGTAGAATGAATT +TAAATTCGTTTTAATTGAATTAAAAATCACAAAATTGGTAAGTGAATCGGTTCAATTCGGATTTTTATAG +TTTAATAATCGTTAAAAAACTCCTTTCCTACGTAAAGTCTACATTTGTGCATAGTTACAACTTTGAAACG +TTATATATGTCAAGTTGTTAAAATGTGCACAGTTTCATGATTTCAATCAAAACCTGTATGGACATAAGGT +GAATACTTTGTTACTTTAGCGTCACAGACATGAAATTGGTAAGACCAATTGACTTCGGCAAGTGGCTTAA +GACAGGAACTCATGGCCTACAGCAAAATCCGCCAACCAAAACTCTCCGATGTGATTGAGCAGCAACTGGA +GTTTTTGATCCTCGAAGGCACTCTCCGCCCGGGCGAAAAACTCCCACCGGAACGCGAACTGGCAAAACAG +TTTGACGTCTCCCGTCCCTCCTTGCGTGAGGCGATTCAACGTCTCGAAGCGAAGGGCTTGTTGCTTCGTC +GCCAGGGTGGCGGCACTTTTGTCCAGAGCAGCCTATGGCAAAGCTTCAGCGATCCGCTGGTGGAGCTGCT +CTCCGACCATCCTGAGTCACAGTATGACTTGCTCGAAACACGACACGCCCTGGAAGGTATCGCCGCTTAT +TACGCCGCGCTGCGTAGTACCGATGAAGACAAGGAACGCATCCGTGAACTCCACCACGCCATAGAGCTGG +CGCAGCAGTCTGGCGATCTGGACGCGGAATCAAACGCCGTACTCCAGTATCAGATTGCCGTCACCGAAGC +GGCCCACAATGTGGTTCTGCTTCATCTGCTAAGGTGTATGGAGCCGATGTTGGCCCAGAATGTCCGCCAG +AACTTCGAATTGCTCTATTCGCGTCGCGAGATGCTGCCGCTGGTGAGTAGTCACCGCACCCGCATATTTG +AAGCGATTATGGCCGGTAAGCCGGAAGAAGCGCGCGAAGCATCGCATCGCCATCTGGCCTTTATCGAAGA +AATTTTGCTCGACAGAAGTCGTGAAGAGAGCCGCCGTGAGCGTTCTCTGCGTCGTCTGGAGCAACGAAAG +AATTAGTGATTTTTCTGGTAAAAATTATCCAGAAGATGTTGTAAATCAAGCGCATATAAAAGCGCGGCAA +CTAAACGTAGAACCTGTCTTATTGAGCTTTCCGGCGAGAGTTCAATGGGACAGGTTCCAGAAAACTCAAC +GTTATTAGATAGATAAGGAATAACCCATGTCAGAACGTTTCCCAAATGACGTGGATCCGATCGAAACTCG +CGACTGGCTCCAGGCGATCGAATCGGTCATCCGTGAAGAAGGTGTTGAGCGTGCTCAGTATCTGATCGAC +CAACTGCTTGCTGAAGCCCGCAAAGGCGGTGTAAACGTAGCCGCAGGCACAGGTATCAGCAACTACATCA +ACACCATCCCCGTTGAAGAACAACCGGAGTATCCGGGTAATCTGGAACTGGAACGCCGTATTCGTTCAGC +TATCCGCTGGAACGCCATCATGACGGTGCTGCGTGCGTCGAAAAAAGACCTCGAACTGGGCGGCCATATG +GCGTCCTTCCAGTCTTCCGCAACCATTTATGATGTGTGCTTTAACCACTTCTTCCGTGCACGCAACGAGC +AGGATGGCGGCGACCTGGTTTACTTCCAGGGCCACATCTCCCCGGGCGTGTACGCTCGTGCTTTCCTGGA +AGGTCGTCTGACTCAGGAGCAGCTGGATAACTTCCGTCAGGAAGTTCACGGCAATGGCCTCTCTTCCTAT +CCGCACCCGAAACTGATGCCGGAATTCTGGCAGTTCCCGACCGTATCTATGGGTCTGGGTCCGATTGGTG +CTATTTACCAGGCTAAATTCCTGAAATATCTGGAACACCGTGGCCTGAAAGATACCTCTAAACAAACCGT +TTACGCGTTCCTCGGTGACGGTGAAATGGACGAACCGGAATCCAAAGGTGCGATCACCATCGCTACCCGT +GAAAAACTGGATAACCTGGTCTTCGTTATCAACTGTAACCTGCAGCGTCTTGACGGCCCGGTCACCGGTA +ACGGCAAGATCATCAACGAACTGGAAGGCATCTTCGAAGGTGCTGGCTGGAACGTGATCAAAGTGATGTG +GGGTAGCCGTTGGGATGAACTGCTGCGTAAGGATACCAGCGGTAAACTGATCCAGCTGATGAACGAAACC +GTTGACGGCGACTACCAGACCTTCAAATCGAAAGATGGTGCGTACGTTCGTGAACACTTCTTCGGTAAAT +ATCCTGAAACCGCAGCACTGGTTGCAGACTGGACTGACGAGCAGATCTGGGCACTGAACCGTGGTGGTCA +CGATCCGAAGAAAATCTACGCTGCATTCAAGAAAGCGCAGGAAACCAAAGGCAAAGCGACAGTAATCCTT +GCTCATACCATTAAAGGTTACGGCATGGGCGACGCGGCTGAAGGTAAAAACATCGCGCACCAGGTTAAGA +AAATGAACATGGACGGTGTGCGTCATATCCGCGACCGTTTCAATGTGCCGGTGTCTGATGCAGATATCGA +AAAACTGCCGTACATCACCTTCCCGGAAGGTTCTGAAGAGCATACCTATCTGCACGCTCAGCGTCAGAAA +CTGCACGGTTATCTGCCAAGCCGTCAGCCGAACTTCACCGAGAAGCTTGAGCTGCCGAGCCTGCAAGACT +TCGGCGCGCTGTTGGAAGAGCAGAGCAAAGAGATCTCTACCACTATCGCTTTCGTTCGTGCTCTGAACGT +GATGCTGAAGAACAAGTCGATCAAAGATCGTCTGGTACCGATCATCGCCGACGAAGCGCGTACTTTCGGT +ATGGAAGGTCTGTTCCGTCAGATTGGTATTTACAGCCCGAACGGTCAGCAGTACACCCCGCAGGACCGCG +AGCAGGTTGCTTACTATAAAGAAGACGAGAAAGGTCAGATTCTGCAGGAAGGGATCAACGAGCTGGGCGC +AGGTTGTTCCTGGCTGGCAGCGGCGACCTCTTACAGCACCAACAATCTGCCGATGATCCCGTTCTACATC +TATTACTCGATGTTCGGCTTCCAGCGTATTGGCGATCTGTGCTGGGCGGCTGGCGACCAGCAAGCGCGTG +GCTTCCTGATCGGCGGTACTTCCGGTCGTACCACCCTGAACGGCGAAGGTCTGCAGCACGAAGATGGTCA +CAGCCACATTCAGTCGCTGACTATCCCGAACTGTATCTCTTACGACCCGGCTTACGCTTACGAAGTTGCT +GTCATCATGCATGACGGTCTGGAGCGTATGTACGGTGAAAAACAAGAGAACGTTTACTACTACATCACTA +CGCTGAACGAAAACTACCACATGCCGGCAATGCCGGAAGGTGCTGAGGAAGGTATCCGTAAAGGTATCTA +CAAACTCGAAACTATTGAAGGTAGCAAAGGTAAAGTTCAGCTGCTCGGCTCCGGTTCTATCCTGCGTCAC +GTCCGTGAAGCAGCTGAGATCCTGGCGAAAGATTACGGCGTAGGTTCTGACGTTTATAGCGTGACCTCCT +TCACCGAGCTGGCGCGTGATGGTCAGGATTGTGAACGCTGGAACATGCTGCACCCGCTGGAAACTCCGCG +CGTTCCGTATATCGCTCAGGTGATGAACGACGCTCCGGCAGTGGCATCTACCGACTATATGAAACTGTTC +GCTGAGCAGGTCCGTACTTACGTACCGGCTGACGACTACCGCGTACTGGGTACTGATGGCTTCGGTCGTT +CCGACAGCCGTGAGAACCTGCGTCACCACTTCGAAGTTGATGCTTCTTATGTCGTGGTTGCGGCGCTGGG +CGAACTGGCTAAACGTGGCGAAATCGATAAGAAAGTGGTTGCTGACGCAATCGCCAAATTCAACATCGAT +GCAGATAAAGTTAACCCGCGTCTGGCGTAAGAGGTAAAAGAATAATGGCTATCGAAATCAAAGTACCGGA +CATCGGGGCTGATGAAGTTGAAATCACCGAGATCCTGGTCAAAGTGGGCGACAAAGTTGAAGCCGAACAG +TCGCTGATCACCGTAGAAGGCGACAAAGCCTCTATGGAAGTTCCGTCTCCGCAGGCGGGTATCGTTAAAG +AGATCAAAGTCTCTGTTGGCGATAAAACCCAGACCGGCGCACTGATTATGATTTTCGATTCCGCCGACGG +TGCAGCAGACGCTGCACCTGCTCAGGCAGAAGAGAAGAAAGAAGCAGCTCCGGCAGCAGCACCAGCGGCT +GCGGCGGCAAAAGACGTTAACGTTCCGGATATCGGCAGCGACGAAGTTGAAGTGACCGAAATCCTGGTGA +AAGTTGGCGATAAAGTTGAAGCTGAACAGTCGCTGATCACCGTAGAAGGCGACAAGGCTTCTATGGAAGT +TCCGGCTCCGTTTGCTGGCACCGTGAAAGAGATCAAAGTGAACGTGGGTGACAAAGTGTCTACCGGCTCG +CTGATTATGGTCTTCGAAGTCGCGGGTGAAGCAGGCGCGGCAGCTCCGGCCGCTAAACAGGAAGCAGCTC +CGGCAGCGGCCCCTGCACCAGCGGCTGGCGTGAAAGAAGTTAACGTTCCGGATATCGGCGGTGACGAAGT +TGAAGTGACTGAAGTGATGGTGAAAGTGGGCGACAAAGTTGCCGCTGAACAGTCACTGATCACCGTAGAA +GGCGACAAAGCTTCTATGGAAGTTCCGGCGCCGTTTGCAGGCGTCGTGAAGGAACTGAAAGTCAACGTTG +GCGATAAAGTGAAAACTGGCTCGCTGATTATGATCTTCGAAGTTGAAGGCGCAGCGCCTGCGGCAGCTCC +TGCGAAACAGGAAGCGGCAGCGCCGGCACCGGCAGCAAAAGCTGAAGCCCCGGCAGCAGCACCAGCTGCG +AAAGCGGAAGGCAAATCTGAATTTGCTGAAAACGACGCTTATGTTCACGCGACTCCGCTGATCCGCCGTC +TGGCACGCGAGTTTGGTGTTAACCTTGCGAAAGTGAAGGGCACTGGCCGTAAAGGTCGTATCCTGCGCGA +AGACGTTCAGGCTTACGTGAAAGAAGCTATCAAACGTGCAGAAGCAGCTCCGGCAGCGACTGGCGGTGGT +ATCCCTGGCATGCTGCCGTGGCCGAAGGTGGACTTCAGCAAGTTTGGTGAAATCGAAGAAGTGGAACTGG +GCCGCATCCAGAAAATCTCTGGTGCGAACCTGAGCCGTAACTGGGTAATGATCCCGCATGTTACTCACTT +CGACAAAACCGATATCACCGAGTTGGAAGCGTTCCGTAAACAGCAGAACGAAGAAGCGGCGAAACGTAAG +CTGGATGTGAAGATCACCCCGGTTGTCTTCATCATGAAAGCCGTTGCTGCAGCTCTTGAGCAGATGCCTC +GCTTCAATAGTTCGCTGTCGGAAGACGGTCAGCGTCTGACCCTGAAGAAATACATCAACATCGGTGTGGC +GGTGGATACCCCGAACGGTCTGGTTGTTCCGGTATTCAAAGACGTCAACAAGAAAGGCATCATCGAGCTG +TCTCGCGAGCTGATGACTATTTCTAAGAAAGCGCGTGACGGTAAGCTGACTGCGGGCGAAATGCAGGGCG +GTTGCTTCACCATCTCCAGCATCGGCGGCCTGGGTACTACCCACTTCGCGCCGATTGTGAACGCGCCGGA +AGTGGCTATCCTCGGCGTTTCCAAGTCCGCGATGGAGCCGGTGTGGAATGGTAAAGAGTTCGTGCCGCGT +CTGATGCTGCCGATTTCTCTCTCCTTCGACCACCGCGTGATCGACGGTGCTGATGGTGCCCGTTTCATTA +CCATCATTAACAACACGCTGTCTGACATTCGCCGTCTGGTGATGTAAGTAAAAGAGCCGGCCCAACGGCC +GGCTTTTTTCTGGTAATCTCATGAATGTATTGAGGTTATTAGCGAATAGACAAATCGGTTGCCGTTTGTT +GTTTAAAAATTGTTAACAATTTTGTAAAATACCGACGGATAGAACGACCCGGTGGTGGTTAGGGTATTAC +TTCACATACCCTATGGATTTCTGGGTGCAGCAAGGTAGCAAGCGCCAGAATCCCCAGGAGCTTACATAAG +TAAGTGACTGGGGTGAGGGCGTGAAGCTAACGCCGCTGCGGCCTGAAAGACGACGGGTATGACCGCCGGA +GATAAATATATAGAGGTCATGATGAGTACTGAAATCAAAACTCAGGTCGTGGTACTTGGGGCAGGCCCCG +CAGGTTACTCCGCTGCCTTCCGTTGCGCTGATTTAGGTCTGGAAACCGTAATCGTAGAACGTTACAACAC +CCTTGGCGGTGTTTGCCTGAACGTCGGCTGTATCCCTTCTAAAGCACTGCTGCACGTAGCAAAAGTTATC +GAAGAAGCCAAAGCGCTGGCTGAACACGGTATCGTCTTCGGCGAACCGAAAACCGATATCGACAAGATTC +GTACCTGGAAAGAGAAAGTGATCAATCAGCTGACCGGTGGTCTGGCTGGTATGGCGAAAGGCCGCAAAGT +CAAAGTGGTCAACGGTCTGGGTAAATTCACCGGGGCTAACACCCTGGAAGTTGAAGGTGAGAACGGCAAA +ACCGTGATCAACTTCGACAACGCGATCATTGCAGCGGGTTCTCGCCCGATCCAACTGCCGTTTATTCCGC +ATGAAGATCCGCGTATCTGGGACTCCACTGACGCGCTGGAACTGAAAGAAGTACCAGAACGCCTGCTGGT +AATGGGTGGCGGTATCATCGGTCTGGAAATGGGCACCGTTTACCACGCGCTGGGTTCACAGATTGACGTG +GTTGAAATGTTCGACCAGGTTATCCCGGCAGCTGACAAAGACATCGTTAAAGTCTTCACCAAGCGTATCA +GCAAGAAATTCAACCTGATGCTGGAAACCAAAGTTACCGCCGTTGAAGCGAAAGAAGACGGCATTTATGT +GACGATGGAAGGCAAAAAAGCACCCGCTGAACCGCAGCGTTACGACGCCGTGCTGGTAGCGATTGGTCGT +GTGCCGAACGGTAAAAACCTCGACGCAGGCAAAGCAGGCGTGGAAGTTGACGACCGTGGTTTCATCCGCG +TTGACAAACAGCTGCGTACCAACGTACCGCACATCTTTGCTATCGGCGATATCGTCGGTCAACCGATGCT +GGCACACAAAGGTGTTCACGAAGGTCACGTTGCCGCTGAAGTTATCGCCGGTAAGAAACACTACTTCGAT +CCGAAAGTTATCCCGTCCATCGCCTATACCGAACCAGAAGTTGCATGGGTGGGTCTGACTGAGAAAGAAG +CGAAAGAGAAAGGCATCAGCTATGAAACCGCCACCTTCCCGTGGGCTGCTTCTGGTCGTGCTATCGCTTC +CGACTGCGCAGACGGTATGACCAAGCTGATTTTCGACAAAGAATCTCACCGTGTGATCGGTGGTGCGATT +GTCGGTACTAACGGCGGCGAGCTGCTGGGTGAAATCGGCCTGGCAATCGAAATGGGTTGTGATGCTGAAG +ACATCGCACTGACCATCCACGCGCACCCGACTCTGCACGAGTCTGTGGGCCTGGCGGCAGAAGTGTTCGA +AGGTAGCATTACCGACCTGCCGAACCCGAAAGCGAAGAAGAAGTAATTTTTCGTTTGCCGGAACATCCGG +CAATTAAAAAAGCGGCTAACCACGCCGCTTTTTTTACGTCTGCAATTTACCTTTCCAGTCTTCTTGCTCC +ACGTTCAGAGAGACGTTCGCATACTGCTGACCGTTGCTCGTTATTCAGCCTGACAGTATGGTTACTGTCG +TTTAGACGTTGTGGGCGGCTCTCCTGAACTTTCTCCCGAAAAACCTGACGTTGTTCAGGTGATGCCGATT +GAACACGCTGGCGGGCGTTATCACGTTGCTGTTGATTCAGTGGGCGCTGCTGTACTTTTTCCTTAAACAC +CTGGCGCTGCTCTGGTGATGCGGACTGAATACGCTCACGCGCTGCGTCTCTTCGCTGCTGGTTCTGCGGG +TTAGTCTGCATTTTCTCGCGAACCGCCTGGCGCTGCTCAGGCGAGGCGGACTGAATGCGCTCACGCGCTG +CCTCTCTTCGCTGCTGGATCTTCGGGTTAGTCTGCATTCTCTCGCGAACTGCCTGGCGCTGCTCAGGCGA +GGCGGACTGATAACGCTGACGAGCGGCGTCCTTTTGTTGCTGGGTCAGTGGTTGGCGACGGCTGAAGTCG +TGGAAGTCGTCATAGCTCCCATAGTGTTCAGCTTCATTAAACCGCTGTGCCGCTGCCTGACGTTGGGTAT +CTCGTGTAATGACTGGTGCGGCGTGTGTTCGTTGCTGAAACTGATTTGCTGCCGCCTGACGCTGGCTGTC +GCGCGTTGGGGCAGGTAATTGCGTGGCGCTCATTCCGCCGTTGACATCGGTTTGATGAAACCGCTTTGCC +ATATCCTGATCATGATAGGGCACACCATTACGGTAGTTTGGATTGTGCCGCCATGCCATATTCTTATCAG +TAAGATGCTCACCGGTGATACGGTTGAAATTGTTGACGTCGATATTGATGTTGTCGCCGTTGTGTTGCCA +GCCATTACCGTCACGATGACCGCCATCGTGGTGATGATAATCATCATTGTCATGATGATGATGGTCATGA +TCGTCGTCGTCCCAGTCGATGCTGCTGAATAGTGCGTACGTGGTAGCAACGCCCATGCTATAGCCGAATC +CGCGTACAAAGCTGTCAACAAACGGTTCTCCGGCTGGTGGTGGCAGATAAACCGGCGGATACGCAGTATT +GGCCCAGTTCCCGTAAACCACGGTTGGGTTGTAGTTGGGAATATAGACCACATCAGGATTGGCGGGCTCA +ATGGAAATGACGGTTGTTGCCGGCTCTGTAATGACGGGGTTGGCAGTTAAAACTGTATTGGATGGTATGA +CGGGTGCCGTGACTGTCTGTTTTACCGGTACAGCTTTCTTCGTTGTGGTAATAACTTTCTGTTCGGTTGA +TGACTTCAGCGAGCCGGTTTGTTGCGCCAGTTGCCGCAATCGCTGTACCGAGTCCATCACGTCCTGCGGC +TGGGCCAGAAAAGCATCGCCCAGGTTTTGCACCCATTGCGGGTTTTCGCCCATCAATGCCATCAATTGTG +GAAAGGCCACCAGTGATTTAACGCTGGCGTCCCACGGCTGGTCAGATACCGCCTGAATAGCAGCATCGCC +TTGTTTAAGTGGATTATCGTGCGACCATTGCACTGCTTGAGCAACGTTTGTCGGATAGGTTGATGCCATC +AGCACCTGCGAAAGTAGGGCGTCGGGATACAGCGCGACGGGCGCGACCCATTGATCTATTTGTGCAGTGC +TGAATGCGGATTTGACGACGGCGGGTGTTACGGGAGGTGCGGAAACCGTTGCAGGAAACGTAACCGCGGC +AGCGTCAGACACAGCCAGTTGTGTCGATTGCGGTTCCACAGGCGCTTCCACTGTGCGGCTTTTTATATAT +AGCCCGGTAGAGGCGGCACAAAGCCCGGCACTGCAAATTAGCGCCAGCACATGGGGTTTAAACGGCAAAG +TCATTTTCATAATTCGGATCTCAAGGAAATCGCAATGGTCGGCGAACTGCCACCCGCAGGTGCTGTGAAT +CCGAGTATAAAGAGGCGGTAGTTTAAATTTTGACTAATCTTGGGATTCGTTGAGAAAGGTGATTATCACC +ATGCGAATTAACGAAGTTTTTACGGAGGGAAACAATCTCTAGACCATCCTTAACGATTCAGCCACTTTTT +TATGTTGCTTTTTTGTAAACAGATTAACACCTCGTCAAAATCCTGCTATTCTGCCCGTTGCGGTACTGGG +CATTTACCCTACAAACTGCTGTCTCACAGGAGCGTGAAGAGAATCGCCTGCCGCACTATGACAATGAGAG +CGAGGAGAACCGTCGTGCTAGAAGAATACCGTAAGCACGTAGCTGAGCGTGCCGCTGAGGGGATTGCGCC +CAAACCCCTGGATGCAAACCAAATGGCCGCACTTGTAGAGCTGCTGAAAAACCCGCCCGCGGGCGAAGAA +GAATTCCTGTTAGATCTGTTAACCAACCGTGTTCCCCCAGGCGTCGATGAAGCCGCCTATGTCAAAGCAG +GCTTCCTGGCTGCTATCGCGAAAGGCGAAGCCAAATCCCCTCTGCTGACTCCGGAAAAAGCCATCGAACT +GCTGGGCACCATGCAGGGTGGTTACAACATTCATCCGCTGATCGACGCGCTGGATGATGCCAAACTGGCA +CCTATTGCTGCCAAAGCACTTTCTCACACGCTGCTGATGTTCGATAACTTCTATGACGTAGAAGAGAAAG +CGAAAGCAGGCAACGAATATGCGAAGCAGGTTATGCAGTCCTGGGCGGATGCCGAATGGTTCCTGAATCG +CCCGGCGCTGGCTGAAAAACTGACCGTTACTGTCTTCAAAGTCACTGGCGAAACTAACACCGATGACCTT +TCTCCGGCACCGGATGCGTGGTCACGCCCGGATATCCCACTGCACGCGCTGGCGATGCTGAAAAACGCCC +GTGAAGGTATTGAGCCAGACCAGCCTGGTGTTGTTGGTCCGATCAAGCAAATCGAAGCTCTGCAACAGAA +AGGTTTCCCGCTGGCGTACGTCGGTGACGTTGTGGGTACGGGTTCTTCGCGTAAATCCGCCACTAACTCC +GTTCTGTGGTTTATGGGCGATGATATTCCACATGTGCCGAACAAACGCGGCGGTGGTTTGTGCCTCGGCG +GTAAAATTGCACCCATCTTCTTTAACACGATGGAAGACGCGGGTGCACTGCCAATCGAAGTCGACGTCTC +TAACCTGAACATGGGCGACGTGATTGACGTTTACCCGTACAAAGGTGAAGTGCGTAACCACGAAACCGGC +GAACTGCTGGCGACCTTCGAACTGAAAACCGACGTGCTGATTGATGAAGTGCGTGCTGGTGGCCGTATTC +CGCTGATTATCGGGCGTGGCCTGACCACCAAAGCGCGTGAAGCACTTGGTCTGCCGCACAGTGATGTGTT +CCGTCAGGCGAAAGATGTCGCTGAGAGCGATCGCGGCTTCTCGCTGGCGCAAAAAATGGTAGGCCGTGCC +TGTGGCGTGAAAGGCATTCGTCCGGGCGCGTACTGTGAACCGAAAATGACTTCTGTAGGTTCCCAGGACA +CCACCGGCCCGATGACCCGTGATGAACTGAAAGACCTGGCGTGCCTGGGCTTCTCGGCTGACCTGGTGAT +GCAGTCTTTCTGCCACACCGCGGCGTATCCGAAGCCAGTTGACGTGAACACGCACCACACGCTGCCGGAC +TTCATTATGAACCGTGGCGGTGTGTCGCTGCGTCCGGGTGACGGCGTCATTCACTCCTGGCTGAACCGTA +TGCTGCTGCCGGATACCGTCGGTACCGGTGGTGACTCCCATACCCGTTTCCCGATCGGTATCTCTTTCCC +GGCGGGTTCTGGTCTGGTGGCGTTTGCTGCCGCAACTGGCGTAATGCCGCTTGATATGCCGGAATCCGTT +CTGGTGCGCTTCAAAGGCAAAATGCAGCCGGGCATCACCCTGCGCGATCTGGTACACGCTATTCCGCTGT +ATGCGATCAAACAAGGTCTGCTGACCGTTGAGAAGAAAGGCAAGAAAAACATCTTCTCTGGCCGCATCCT +GGAAATTGAAGGTCTGCCGGATCTGAAAGTTGAGCAGGCCTTTGAGCTAACCGATGCGTCCGCCGAGCGT +TCTGCCGCTGGTTGTACCATCAAGCTGAACAAAGAACCGATCATCGAATACCTGAACTCTAACATCGTCC +TGCTGAAGTGGATGATCGCGGAAGGTTACGGCGATCGTCGTACCCTGGAACGTCGTATTCAGGGCATGGA +AAAATGGCTGGCGAATCCTGAGCTGCTGGAAGCCGATGCAGATGCGGAATACGCGGCAGTGATCGACATC +GATCTGGCGGATATTAAAGAGCCAATCCTGTGTGCTCCGAACGACCCGGATGACGCGCGTCCGCTGTCTG +CGGTACAGGGTGAGAAGATCGACGAAGTGTTTATCGGTTCCTGCATGACCAACATCGGTCACTTCCGTGC +TGCGGGTAAACTGCTGGATGCGCATAAAGGTCAGTTGCCGACCCGCCTGTGGGTGGCACCGCCAACCCGT +ATGGACGCCGCACAGTTGACCGAAGAAGGCTACTACAGCGTCTTCGGTAAGAGTGGTGCGCGTATCGAGA +TCCCTGGCTGTTCCCTGTGTATGGGTAACCAGGCGCGTGTGGCGGACGGTGCAACGGTGGTTTCCACCTC +TACCCGTAACTTCCCGAACCGTCTGGGTACTGGCGCGAATGTCTTCCTGGCTTCTGCGGAACTGGCGGCT +GTTGCGGCGCTGATTGGCAAACTGCCGACGCCGGAAGAGTACCAGACCTACGTGGCGCAGGTAGATAAAA +CAGCCGTTGATACTTACCGTTATCTGAACTTCAACCAGCTTTCTCAGTACACCGAGAAAGCCGATGGGGT +GATTTTCCAGACTGCGGTTTAAAAAGTCAGCGCACGCGCTGCGCATAAACGACACAATGCCCGGTGAATG +AGATTCCCGGGCATTTTTTTATTTCTAAACCATCGCCGTTCCGCTGTTTTTCTCCGGTAAGGCTGCGATA +ATTACATCAATGGCGCAATGCGATTTCGGTGCATTGCCGGGAGCAGAGGAACACACTATGGATTACGAAT +TTCTGCGCGATATTACCGGAGTGGTAAAGGTGCGTATGTCCATGGGGCATGAAGTGGTCGGGCACTGGTT +TAATGAAGAGGTGAAAGAAAACCTGGCCTTGCTTGATGAAGTGGAACAAGCAGCGCACGCACTGAAAGGT +AGCGAACGGTCCTGGCAACGGGCAGGGCATGAATACACCCTGTGGATGGACGGTGAAGAGGTGATGGTTC +GCGCCAATCAACTGGAATTCGCTGGCGATGAAATGGAAGAGGGGATGAACTACTACGACGAAGAAAGCCT +GTCGCTATGCGGCGTTGAGGATTTTCTGCAGGTCGTGGCGGCTTACCGCAATTTCGTGCAGCAGAAGTAA +ATAAATCTGGCGGAGCCTGGGAGCTCCGCCAGAGCCGTTAAACAGCTGGCATATTGCGCCCGTAATAAAT +CTCGCGCATTTCTTTCCACAGCGCAGCGGTAATTTCCTGGCGCTCGCTGTCGGTTAAGTCTTCCGGTTTG +GTGTGGAACATGTAGTGCTTAAGGTCGAACTCTTTAAGCAACATCTTGGTATGGAAGATATTTTCCTGAT +AGACGTTCACATCCACCATGTCATACAGCGCCTTCATATCGTCAGACATAAAGTTCTGAATCGAATTAAT +CTCATGGTCGATAAAGTGCTTCATACCGTTAATGTCGCGGGTAAAACCGCGCACGCGATAATCAATGGTT +ACGATATCGGACTCAAGCTGGTGGATCAGGTAATTCAGCGCCTTCAGCGGAGAAATCACGCCGCAGGTAG +AGACTTCAATATCGGCGCGGAAGGTACATAAACCGCCTTCAGGATGACTTTCCGGGTAGGTATGTACGCA +AATATGACTTTTATCAAGATGGGCAACGACCGTTTCTGGCAGTGGGCCGGGGTGTTCTGTTTTGTCGATG +AGTTTCGGGTCAACCGGTTCTTCACTCACCAGAATAGTGACGCTGGCACCCTGTGGTTCGTAATCCTGGC +GGGCGATGTTAAGAATATTAGCCCCGATAATGGAACAGGTTTCTGACAGGATTTCGGTCAGACGGTTGGC +ATTATAGAGTTCATCGATATAAGCAATATAACCGTCGCGCTCTTCGGCAGTTTTGGCGTAGCAGATATCG +TAAATACAAAAACTCAGACTTTTGGTCAGATTATTAAAGCCATGCAGTTTCAGTTTTTTCAATTTCTTAT +CTTCTCCTTAGGACGGCTGTGAAGCCAGTGCGTCTTGCAGATACTGAGGTAAGGCAAAAGCTGCCGTATG +GATTGCCGGATTGTAATAACGGCATTTCAGGCCAGAGGCGAGAAAACGCGCCTGAATAATTTCGGTTGAG +AGATGGCGTAAGGCGTCGTTATCTGTCGCCCATGCAAAAGTCATGATACCGCCGTAATAGGTCGGGATCG +CCGCCTGATAAAAGCCAACGTCGCTGAAGTAATGGCTGAGTTTGCGATGGCTGTCGATGGCTTCTTCCTG +CTGTAAAAAGCAGACGCCGTTTTGTGCGACGAAGATACCGCCAGGATTCAGGCAACGTTTGCAGCCTTCA +TAAAATGCCGAAGTGAAAAGGCTTTCGCCGGGACCGATAGGATCGGTGCAGTCGGAGATAATGACATCAA +AGGTCTGGCTGGTTTGATTAACGAAATTGACGCCATCGTCGATCACCAGCTTAAAGCGCGGATCGTCGTA +GCTACCGGCGTTATGGTTGGGTAGATACTGACGGCAGAACGATACGACACCCGCATCGATTTCCACCATC +GTGATTGACTCAACGTTTTTATGTCGGGTTACTTCACGCAGCATGGCACCGTCGCCGCCGCCGATAATCA +GCACATGTTTCGCGTGACCATGGGCCAGTAGCGGAACATGGGTCATCATCTCATGATAGATAAACTCGTC +GCGCTCGGTGGTTTGTACTACGCCATCCAGCGCCATTACGCGACCAAATGCAGCGTTCTCAAAAATGATC +AGATCCTGGTGATCGGTCTTTTCATGATACAGAACGTTATCTACCGCAAAGTACTGCCCAAACTGGTCGT +GTAGCGTTTCATGCCACTGTTTTTTTTCGGCCATGGGTTGATACCTCCTTTGTTAACACCCGTAAAAAAA +GGGCGCAACATAATAGCTAACATTGACCGCGGATGCACGGTCAATATTTCTACAAAAAGGTATCAGGGAT +TATTTGACGTAGGCAAGCAGGCTTAAGGAATCGCGGGCCAGGGCTTTGCATTTTTTAGCGACGGGAATGC +CAATGCCGCTGAGATCGCGGTAGCTGTCTTCACCGAGGGCTTTCATGTCGAAGGTGTCGTAATTACTGAG +GTCCCACTGGTTTTGCTGAGCGAAAAAGACCAGTGCGCGACGAATTTGCCCGTTAGGTAAGTTCTGGTAA +CCACAATCGTTCTTCAGAAAGACAAAAACTGCCGTTAAATCGGCCATATCTTCGGCTTCAGACTCGCTGA +GCGCGTAACTGTTTGCGCAGACGGCCATCAGGCTGCCGAATAACACTGTTCTGAAAAACGTCTTCATTGC +TTCTACCAGGGGCTTAAAGAAGATAAACGTTAGCACACTGCGAGCGAGGCGACGACCATTATTGTCGATT +AAATTGTGTCTGCGGCTTGACCTTCCCGTAAGGGGAAGGACTATGCTCAACGTTTGATTTTGTTTCGCCT +GCTTAAGAATAAGGAAATAACTATGCAACGTCGTGATTTCTTAAAATATTCCGTCGCGCTGGGTGTGGCT +TCGGCTTTGCCGCTGTGGAGCCGCGCAGTATTTGCGGCAGAACGCCCAACGTTACCGATCCCTGATTTGC +TCACGACCGATGCCCGTAATCGCATTCAGTTAACTATTGGCGCAGGCCAGTCCACCTTTGGCGGGAAAAC +TGCAACTACCTGGGGCTATAACGGCAATCTGCTGGGGCCGGCGGTGAAATTACAGCGCGGCAAAGCGGTA +ACGGTTGATATCTACAACCAACTGACGGAAGAGACAACGTTGCACTGGCACGGGCTGGAAGTACCGGGTG +AAGTCGACGGCGGCCCGCAGGGAATTATTCCGCCAGGTGGCAAGCGCTCGGTGACGTTGAACGTTGATCA +ACCTGCCGCTACCTGCTGGTTCCATCCGCATCAGCACGGCAAAACCGGGCGACAGGTGGCGATGGGGCTG +GCTGGGCTGGTGGTGATTGAAGATGACGAGATCCTGAAATTAATGCTGCCAAAACAGTGGGGTATCGATG +ATGTTCCGGTGATCGTTCAGGATAAGAAATTTAGCGCCGACGGGCAGATTGATTATCAACTGGATGTGAT +GACCGCCGCCGTGGGCTGGTTTGGCGATACGTTGCTGACCAACGGTGCAATCTACCCGCAACACGCTGCC +CCGCGTGGTTGGCTGCGCCTGCGTTTGCTCAATGGCTGTAATGCCCGTTCGCTCAATTTCGCCACCAGCG +ACAATCGCCCGCTGTATGTGATTGCCAGCGACGGTGGTCTGCTACCTGAACCAGTGAAGGTGAGCGAACT +GCCGGTGCTGATGGGCGAGCGTTTTGAAGTGCTGGTGGAGGTTAACGATAACAAACCCTTTGACCTGGTG +ACGCTGCCGGTCAGCCAGATGGGGATGGCGATTGCGCCGTTTGATAAGCCTCATCCGGTAATGCGGATTC +AGCCGATTGCTATTAGTGCCTCCGGTGCTTTGCCAGACACATTAAGTAGCCTGCCTGCGTTACCTTCGCT +GGAAGGGCTGACGGTACGCAAGCTGCAACTCTCTATGGACCCGATGCTCGATATGATGGGGATGCAGATG +CTAATGGAGAAATATGGCGATCAGGCGATGGCCGGGATGGATCACAGCCAGATGATGGGCCATATGGGGC +ACGGCAATATGAATCATATGAACCACGGCGGGAAGTTCGATTTCCACCATGCCAACAAAATCAACGGTCA +GGCGTTTGATATGAACAAGCCGATGTTTGCGGCGGCGAAAGGGCAATACGAACGTTGGGTTATCTCTGGC +GTGGGCGACATGATGCTGCATCCGTTCCATATCCACGGCACGCAGTTCCGTATCTTGTCAGAAAATGGCA +AACCGCCAGCGGCTCATCGCGCGGGCTGGAAAGATACCGTTAAGGTAGAAGGTAATGTCAGCGAAGTGCT +GGTGAAGTTTAATCACGATGCACCGAAAGAACATGCTTATATGGCGCACTGCCATCTGCTGGAGCATGAA +GATACGGGGATGATGTTAGGGTTTACGGTATAAAAAGACCGTATTCGGAAATATGCCCGGATCTCTCCGG +GCATTAAACTGATGACAAACGCAAATCTGCCTGATGCGCTACGCTTATCAGGCCTACGCTAGCTGTGCAA +TCCATTGATTTTGCACAATTTTGTAGGCTGGATAAGGCGTTCACGCCGCATCCGGCATGAACAACGCGCA +CGTTGTCAGCAATCTGAGCAAGTCTTACTTCACATCATCCGGCAGCGCATAAGCCACAATATAGTCGCCC +ATCTTCGTACCAAATGAACCGTGACCGCCTGCGGAGATCACCACATACTGCTTACCATTCACTTCATAGG +TCATTGGCGTAGCCTGACCACCCGCTGGTAAACGACCCTGCCACAGTTTTTCACCGTTGCTCATGTTGTA +AGCGCGCAGGTAGTTATCTGCCGTAGCGGCGATAAACAGCACGTTACCCGCCGTGGAGATTGGCCCGCCC +AGCATCGGCATACCCATATTGAACGGCACCGGAACCGGCATCGGGAACGGCATACTGTCCTGCGGCGTAC +CAATACGTTTCTTCCACACCACTTCATTAGTTTTCAGATCCAGCGCCGAGATATAACCCCATGCTGGCTG +TTTACATGGCAGACCAAATGGTGAGAGGAACGGGTTGAGCGTGACACCATACGGTACACCGTACTGTGGC +TGAATGCCGGATTCCGTACCCGTGCCTTTGGCATCTTTCGGCTGCTCCATCGGGTTGCCAGGACCACGCG +GGATCAGTTTCGAAACAAACGGCAGTGCCATTGGGTTGGCAATCGCCACTTCACGATTTGGATCAACGGA +AATCCCGCCCCATTCGAACATCCCCAGGTTACCCGGGAAGACCAGCGTACCCTGTTCAGATGGCGGGGTG +AAAATGCCTTCATAGCGCATCTGGTGGAACATCACGCGGCACACCAGTTGGTCAAACATGGTGGCTCCCC +ACATATCCGCACCGCTCAAATCTTTCGTCGGACGGAAGCTCAGTTCAGAAAACGGTTGAGTTGGGGTTAC +GTAATCGCCTTTCGCTGCACCTTGGGGAACCGGTTTTTCCGGTGCCGGAACCACCAGTTCGCCATTACGA +CGATCGAGCACAAAAATGTTGCCGGTTTTCGCCGGAGCGTAAATAACTGGCACTTTCTGACCATTAACGG +TGATGTCCGCCAGCGTCGGCTGTGCCGGAAGATCCATGTCCCACAGGTCGTGGTGAACGGTCTGGTAGCT +CCACGCCAGTTTCCCGGTAGTGGCATTCAGCGCCAGAATCGAGCTGGCATAACGTTCCTGTTCCGGTGTG +CGGTTACCGCCCCAGATATCCGGCGTGGTCACGCCCATCGGCAGATAGACCAGATCCAGCTTCGCGTCAT +AGGCCGCTGGTGCCCAGGAGTTTGGCGAGTTAAAGGTAAAGGTGTGTTCGTCAGACGGGATTGCGTTCGG +ATCTTTCGCGCCGGGATCAAAAGCCCACAGCAGCTCCCCGGTGTTGACATCAAAACCACGGATCACGCCA +GACGTTTCGCGGGTTGAGAAGTTATCGGTAACTGAACCGGCCATCACGATGGTTTTATCGGTGATAATCG +GTGGCGAAGTCGGTTCATACAGACCCGGTTTGGTGTCTGGCATATTGCTTTGCAGATTGAGCACGCCTTT +ATTGGCGAAGGTTTCGCACAGTTTGCCGTTTTCAGCGTTAATCGCAATCAGTCGACCATCATTGACCGGA +AGAATGATACGACGCGGGCAATCCGCCATCACTTCCGGCGAAGCGGTTTCTGCTTTGGCTTCATGATAAG +AGACACCACGGCAGGTTACGTGCTGGAAAGACTCGTTGGTTTTCAGCTCAGGATCGTAATGCCATTTCTC +TTTGCCGCTGGCGGCATCAAGCGCAAACAGGCGCTGGTGAGCGGTACACAGGTAAAGGGTGTCGCCCACT +TTAATCGGCGTCACTTCATTGGTGATTTCACCCGGATCGTTCGGCTGCTTCACATCGCCAGTACGGAACA +CCCAGGCTTCTTTCAGATTATGGACGTTATCGGCGTTAATTTGTTTCAGCGGCGAAAAGCGTTGACCTTC +CTGATTACGACCATAGGCAGGCCAGTCCTGATCGGCTACGGGGGAGATAGCTTCAGCAGGTGTGGCATCG +GCGCTTAAGGTGCCGTTGATCTCCTGCGGATCGTTAAATCCGGCCCAGGTCAGGATACCACCGCTAATCA +GCAGTGCGACCACCAGTGCGGCAACTGCGCCGCTGGCAGGAATGACCAGGCGACGCCAGACAAACGGCAG +GATCAGCCAGATGCCGAAGAAGACCAGAATGTCGCTGCGCGGAGTCAGCGCCCAGAAGTCGAAACCAACT +TCCCAGACGCCCCAAATCATGGTGCCGAGCAGCAGGGCTGCGTATAGCCAAAGCGCGGCGCGTTTACTGC +GCCACAGCATCCAGGCGACGCCGAGCATCACAAGGCCAGCGATAGGGTAGTACCAGGAGCCGCCAATCGC +GACCAGCCAGCCTCCGCCAATGAGTAGATACAGCCCGCAAAGCGCTGCAAAAAGGGCTGTTAGCGTGACG +AGTAATCGTCGCGAGCCTGTATTGTTAATTGCCATAAAGAGACACCATTTCAATTCATTAATATTTTAGT +AGCAATTAATTATAGGTTTTAACATGTGTGATCGTCATCACAATTCGAGCTTTATTAACAGATTCCGCGA +ATGAATAGTTTTACTGGTATACTGCGTGTCTTGCGCTTTGTTGCGGTGCCAAAACCTGCCCGTGCGAAGT +GATTTGTTTTTAAATCATATGGTTAGAGATATGAAACATACTGTAGAAGTAATGATCCCCGAAGCGGAGA +TTAAAGCGCGTATCGCCGAACTGGGTCGTCAGATTACTGAGCGTTACAAAGACAGCGGCAGCGATATGGT +GCTGGTGGGTCTGCTGCGTGGCTCATTTATGTTTATGGCGGACCTGTGCCGTGAAGTTCAGGTATCTCAT +GAAGTCGACTTTATGACCGCCTCCAGCTACGGTAGCGGCATGTCCACCACCCGTGATGTGAAAATCCTCA +AAGATCTGGATGAAGATATCCGTGGCAAGGACGTGCTGATTGTTGAAGATATCATCGACTCGGGGAATAC +ACTGTCGAAAGTGCGTGAGATCTTAAGCCTGCGCGAACCGAAGTCGCTGGCGATTTGTACGCTGCTGGAT +AAACCGTCCCGTCGTGAAGTGAACGTCCCGGTAGAATTTATCGGTTTCTCGATCCCGGATGAGTTTGTGG +TGGGTTACGGCATTGATTACGCACAGCGTTACCGTCATCTGCCGTATATCGGCAAAGTGATTCTGCTGGA +CGAGTAAGTGTGAAGTTGCCGGATGTGTTGCATCCGGCATGGCATTTTTATTTGTGGTTGGCGTGTTTCA +GCTTGAGGTTGGAAATCCCGTGACGGTAACGTTGCTCAAGGGTTTCGCGGTTGGTGGCGGTAACATCCAG +ATCACGCAGCAAGCCGTCGTGAATGCCGTAGGCCCAGCCGTGAATGGTAACTTTCTGCCCGCGTTTCCAC +GCTGATTGCATAATGGTGGAGTGGCCCAGGTTATACACCTGTTCCATGACGTTCAGTTCACACAAGGTAT +CCAGACGGCGCTCTTGCGGCATTTCGCCGAGCAATGAGCTATGTTTGAACCAGATATCGCGGATATGCAG +CAGCCAGTTGTTGATAAGCCCCAGTTCCGGGTTTTCAACTGCGGCTTGTACGCCGCCGCAACCGTAGTGG +CCACAGATAATAATGTGTTCAACTTCGAGTACATCCACTGCATACTGAACCACGGAAAGGCAGTTCAGGT +CAGTGTGAATGACCAGGTTAGCAACATTACGGTGAACAAAGAGTTCGCCCGGCTCAAGACCGGTTAAACG +TTCTGCAGGAACGCGACTGTCGGAACATCCAATCCATAGAAAGCGCGGTTTTTGCGCTTGTGCCAGTTTC +TCAAAAAACCCGGGATCCTCTTCCACCAGCATTTTTGACCATAGTGCATTGTTGCTGATGAGTGTATCTA +TGTCTTTCATGGAGGTTAACGACCTGTAACCAAATAATTACGTTTGGCTAATATAGGGCAACTCCGGGAC +GATTTAAACCACAGATAAAGTGTAAGAACGTAAGGTAAGTAAAAATTTATGACCATTGCACTGGAACTTC +AACAGCTTAAAAAAACCTATCCAGGCGGCGTTCAGGCGCTTCGTGGGATAGATTTGCAGGTCGAAGCGGG +TGATTTTTATGCGCTTCTCGGGCCGAACGGGGCCGGGAAATCGACCACTATCGGTATTATCAGCTCTCTG +GTAAATAAAACCTCCGGGCGGGTCAGCGTATTTGGTTACGATCTCGAGAAGGATGTCGTGAACGCTAAAC +GTCAGTTGGGACTGGTGCCGCAGGAATTTAACTTCAACCCGTTTGAAACCGTGCAGCAAATTGTGGTGAA +TCAGGCAGGGTACTACGGCGTGGAGCGCAAAGAAGCGTACATCCGCAGCGAAAAGTATCTTAAACAACTC +GATCTATGGGGAAAACGCAACGAACGTGCGCGTATGTTATCTGGCGGGATGAAGCGCCGTTTAATGATTG +CCCGTGCGTTAATGCATGAACCTAAACTACTGATTCTCGACGAACCGACCGCAGGCGTGGATATTGAACT +TCGCCGCTCAATGTGGGGCTTTTTGAAGGATTTAAACGACAAAGGCACCACCATCATTCTCACCACACAC +TACCTGGAAGAAGCAGAAATGCTGTGCCGCAATATCGGCATTATTCAACACGGTGAGCTGGTGGAAAATA +CCTCGATGAAGGCGCTGCTGGCGAAGCTGAAATCGGAAACCTTTATTCTCGATCTCGCACCGAAAAGCCC +GTTACCGAAGCTCGATGGCTATCAGTATCGACTGGTCGATACCGCGACGCTGGAAGTTGAAGTGCTGCGT +GAGCAGGGGATCAACAGCGTATTTACGCAGTTAAGTGAGCAGGGCATTCAGGTATTAAGTATGCGTAACA +AAGCTAACCGTCTGGAAGAGCTGTTTGTTTCACTGGTTAATGAAAAACAAGGAGATCGCGCATGATGCAT +CTTTACTGGGTGGCGCTAAAAAGCATCTGGGCGAAAGAGATCCATCGCTTTATGCGTATCTGGGTGCAGA +CGCTGGTGCCGCCAGTCATCACCATGACCCTTTACTTTATTATCTTCGGTAACCTGATTGGTTCGCGTAT +TGGCGATATGCATGGCTTCAGCTATATGCAGTTCATCGTACCGGGGCTGATCATGATGTCGGTGATCACC +AATGCCTACGCCAACGTTGCGTCATCATTTTTTGGTGCCAAGTTCCAGCGTAATATTGAAGAGCTGCTGG +TAGCGCCGGTTCCGACTCACGTCATTATTGCCGGATATGTCGGCGGTGGCGTGGCGCGTGGTCTGTTTGT +TGGCATTCTGGTGACGGCAATTTCACTGTTTTTTGTGCCATTTCAGGTGCATTCGTGGGTATTCGTTGCC +TTAACGCTGGTGCTCACGGCGGTGTTGTTCTCCCTTGCGGGTTTGCTGAACGGTGTGTTTGCCAAAACGT +TCGATGACATCAGCCTGGTGCCAACCTTTGTGTTAACGCCACTCACGTATTTGGGCGGGGTCTTTTACTC +ACTGACTTTGTTGCCGCCGTTCTGGCAAGGGCTGTCGCACCTGAACCCAATCGTTTATATGATCAGTGGT +TTCCGCTACGGCTTCCTCGGTATCAATGATGTTCCGCTGGTCACTACCTTTGGCGTACTGGTGGTCTTTA +TTGTGGCGTTTTATTTGATCTGTTGGTCGCTGATCCAACGTGGACGTGGTTTGCGTAGCTAAGGCTATTT +CCTCTCCTCTGGATTTGGGGGAGAGGAGTTTTGACGGCTATCACCCTTTATCAACAATGGTCAGGGTAGA +CTGATTTTCGGCTAAGGAGGAAGGCGATGTTAGGTTGGGTAATTACCTGTCACGATGACCGGGCGCAAGA +GATACTGGATGCGCTGGAGAAAAAACATGGGGCACTTCTTCAGTGCCGGGCCGTGAATTTCTGGCGCGGA +TTAAGCTCTAATATGCTCAGCCGCATGATGTGCGATGCTCTGCATGAAGCGGACTCTGGTGAGGGTGTCA +TCTTCTTAACCGATATAGCCGGAGCGCCACCGTATCGCGTGGCTTCATTATTAAGCCACAAACACTCCCG +TTGCGAAGTGATTTCTGGTGTCACGTTACCGTTAATTGAACAGATGATGGCTTGCCGTGAAACCATGACC +AGTTCAGAGTTTCGCGAGCGTATTGTCGAACTGGGTGCGCCGGAGGTGAGTAGTCTTTGGCACCAACAAC +AAAAAAATCCGCCTTTCGTCCTCAAACATAATTTGTATGAGTATTAACCCGCGATTCTGATGGCGCTTTT +GCTACAATAAAAGCGTTGTTTCACCCTCGGTTATTTTTTCATGTACAAACAAGCTGTTATTCTCCTGCTG +ATGCTGTTTACCGCAAGTGTCAGTGCCGCGTTACCTGCCCGTTATATGCAAACCATCGAAAATGCTGCGG +TCTGGGCGCAAATTGGTGACAAGATGGTGACCGTGGGGAATATTCGGGCCGGACAAATCATTGCCGTGGA +GCCCACTGCCGCAAGTTATTACGCATTTAATTTTGGCTTTGGCAAAGGTTTTATCGATAAAGGTCATCTC +GAGCCGGTTCAGGGGCGACAAAAAGTTGAAGACGGTTTGGGCGACCTCAACAAGCCGCTGAGTAATCAGA +ACTTAGTTACCTGGAAAGATACGCCGGTCTATAACGCGCCGAGTGCGGGAAGTGCGCCATTTGGGGTACT +GGCGGACAATTTGCGCTACCCGATTTTGCATAAACTGAAAGACAGGTTAAATCAAACCTGGTATCAGATC +CGTATTGGCGATCGACTGGCCTATATCAGCGCACTGGATGCCCAACCCGATAATGGCCTGTCGGTGCTAA +CCTATCACCATATTCTGCGCGACGAAGAAAACACCCGTTTTCGCCATACTTCGACGACCACATCGGTACG +CGCTTTCAATAACCAGATGGCCTGGCTGCGTGACAGGGGATACGCGACACTGAGCATGGTGCAGCTGGAA +GGCTACGTGAAGAATAAGATCAATCTCCCTGCGCGAGCGGTGGTGATTACCTTTGATGATGGCCTCAAGT +CGGTGAGCCGCTATGCGTATCCTGTGTTGAAACAATATGGCATGAAGGCGACGGCGTTTATTGTTACCTC +ACGCATCAAACGTCACCCGCAGAAGTGGAACCCAAAATCGCTGCAATTTATGAGCGTTTCTGAGCTTAAC +GAAATTCGCGATGTATTTGATTTCCAGTCACATACCCATTTTTTGCATCGGGTAGATGGTTATCGCCGAC +CCATATTACTGAGCCGTAGTGAGCACAATATTCTGTTTGATTTTGCACGTTCACGCCGCGCTCTGGCGCA +ATTTAATCCGCATGTCTGGTATCTTTCGTATCCGTTTGGCGGATTTAATGACAACGCCGTGAAGGCAGCA +AACGATGCCGGATTTCACCTGGCGGTGACAACCATGAAAGGCAAAGTAAAACCGGGGGATAATCCGTTGT +TACTAAAACGACTTTATATCTTAAGAACGGATTCGCTGGAGACGATGTCGCGGCTGGTGAGTAACCAGCC +GCAGGGATAACAATCAAGCAACCTGTACCGGAATCGCTTTCGCGGTACGTTTCATTTCATTGTCGCCTTC +AAAATAGGCGACGTTGGGTCGCCAGGTGCGAGCTTCTTCATCTGGCATGGTAACGAAGCTGGCGATGATG +ACAATATCGCCGACACTGGCGCAGTGGGCCGCCGCACCGTTAACAGAAATAATTCTCGAACCGCGTTCTG +CCGCGATGGCATAAGTGGAGAAACGCTTGCCGTTGGTGACATTCCAGATATCAATGGCTTCGTTTTCGAG +AATACCGGCTGCGTCAAGAAAATCCTGGTCAATGGCGCAAGAACCTTCATAGTGCAGGTCCGCATGAGTC +ACTTTCACGCGGTGGAGTTTGCCCTGCAGCATCGTGCGAATCATAACTTCTACCTTTCTACCCTGTCGTT +AACGAAGCAGGCGATGCCTGCTTTGAGGAAATTCTCACGCAGTATTGCCCGATTTTTGTTTAGTGTCTAC +TCATCTGACGGCATTTGCGTCAGCAGTTTGCGTACCGCGCCGAAGCGTGCCATGTATCGCCTGTAACGAA +TTGATATTTCTCTGAACGCTGCTCGGTAAACAATAAAGAGGTGGCTGACGATAGCGCGCCTTGACTGGAT +ACTGCCTTCACGCAAAGCCACACGGAAGACAGGGAAGATGGATGCACCGAGTACCACACCGCATGACGCG +GTATTTAAACAATTTTTAATGCATGCGGAGACGGCTCGCGACTTTCTGGAGATACATTTGCCAGTGGAAT +TACGCGAACTTTGTGACCTCAACACGCTTCATTTAGAGTCGGGGAGTTTCATTGAAGAGAGCCTGAAAGG +ACACAGCACGGACGTGCTCTATTCCGTGCAAATGCAGGGCAATCCCGGTTATCTGCATGTTGTGATTGAA +CACCAAAGCAAGCCGGATAAGAAAATGGCCTTTCGCATGATGCGTTATTCTATAGCCGCCATGCACCGGC +ATCTGGAGGCTGACCACGATAAGCTGCCGCTGGTGGTGCCGATACTGTTTTATCAGGGCGAGGCCACACC +TTATCCGCTATCAATGTGCTGGTTTGATATGTTTTACTCGCCGGAGCTGGCGCGACGCGTCTATAACAGT +CCTTTCCCGCTGGTGGATATCACCATCACACCGGATGACGAAATCATGCAACATCGGCGGATTGCGATTC +TCGAACTACTGCAAAAACATATTCGCCAGCGCGACTTAATGTTATTGCTTGAGCAACTGGTCACGCTGAT +CGACGAAGGGTACACTAGCGGAAGTCAGTTAGTTGCCATGCAAAACTATATGCTGCAACGCGGTCATACT +GAACAAGCGGATTTGTTTTACGGTGTGTTGAGAGACAGGGAAACGGGAGGGGAGTCTATGATGACGCTGG +CGCAGTGGTTTGAAGAGAAAGGGATTGAGAAGGGGATTCAGCAGGGAAGACAGGAAGTAAGTCAGGAATT +CGCCCAGCGTCTTCTGAGTAAAGGAATGTCTCGGGAAGACGTTGCAGAGATGGCAAATTTACCTCTTGCT +GAGATTGATAAGGTAATTAACCTTATTTAAGTTACCTGTGTTATGACAGATGACGTGGGGTAAATTAATA +ACTGGCGCCATCAGCCGTAGCGCCAGTTAAGTATTACGCCAGCTCGACCATTTTGTTGTCGATCAGGCGA +GCATCGCCAAGCCAGGCGGCTACCAGAATTACTGCCCGTTTGCTGGTTTCAGAAACTTCCAGCAATGTGT +CGGCATCGCGAATCTGAATATCATCGGCGCGGAAGCCTTTTTCATTCAGTTCTTGCCCCGCAATGGTAAT +AATTTCATCGAGATCCCGTTCCCCAGCCTGCAATTTGTCAGCAATCGAACTTAAAACTTTGTACAGACCA +GGCGCAATTTTGCGTTGTTCCGCCGTCAGATAACCGTTACGGGAACTTAGCGCCAGACCGTCTTTGGCGC +GCATAATTGGCACACCGACAATCTCAATATCGAAGCCCATATCGGCAACCATTTTGCGGATCAGCGCCAG +TTGCTGAAAATCTTTTTCACCGAAGCAGGCGATGTCCGGCTGGACCAGGTTGAACAGCTTGCTGACAATA +GTCGAAACGCCGCGAAAATGTCCCGGACGGCTGGCACCTTCCAGCATGGTCGAAAGGCCAGGAACGTCAA +CGTAAGTGTGGGTTTCAGTACCGTTCGGGTAGATCTCTTTTACCGAAGGGGCGAAAACTAAATCCACTTT +ACGTTTGTTTAGCTTCTCGCAGTCCTCCTGCAAGGTCCGTGGATAACGAGCCAGATCTTCCGGGCGGTCG +AACTGCATCGGGTTAACGAAAATACTGACGACGACCACATCGGCGCGGGCTTTGGCTTCGTCGACCAGCT +TCATATGGCCATCGTGCAGGTTACCCATGGTAGGCACCAGCGCCACGCGCTTGCCTTCCATACGCAGGCG +GCGAATTTGCTGACGCAGCAGCGGCAGGGTTTCGATAATTAACACAACGTGACTCCTTAATGGAAACTGT +GTTCTTCGCCCGGATAAACGCCGGACTCCACTTCAGCCATATACTGCCGCACAGCCGCGCGGATGTCGCC +CGTTTCGGCGAGGAAATTTTTAGCGAATTTAGGAATGTGACCGCCGGTAATACCAAAGGCGTCGTGCATC +ACGAGGATCTGCCCGTCAGTGACGTTGCCTGCGCCAATGCCAATAACCGGGATCGCCAGTGCTTCGGTAA +TACGTTTTGCCAGTTCAACCGGCACGCATTCCAGCACCAGCAGCTGTGCCCCAGCAGCTTCTAAGGCTAA +TGCATCGCTGAGCAGTTGATCGCCCGCTTCATCGCCGCGCCCCTGAACTTTGTAGCCACCGAAAATATTC +ACTGACTGTGGTGTTAAACCTAAGTGACCACATACAGGAACGGCACGTTCGGTCAGCATTTGTACGGTTT +CTACCAGCCACTCACCGCCTTCAATTTTGACCATGTTAGCACCGGCACGCATAACCGTTGCGGCGTTTTC +GAAGGCTTGTTCCGGCGTGGCATACGCCATAAACGGCAGGTCAGCCAGCAGCAGGCAGTTTGGTGCGCCG +CGACGTACGGCGGCAGTGTGGTAGGCGATATCGGCAACGGTAACTGGCAGGGTGGAGTCGTGCCCCTGAA +CCGTCATGCCCAGCGAATCGCCCACCAGCATGACGTTAAGCCCTTCATCAGCAAAGAGTTTGGCGAAGCT +ATAGTCATAAGCGGTGATGGTCGCGAAACGTTTTTTTTCCTGTTTGTACTTCTGCAGTAAGGAGATGGTG +GTCGGTTTCATAACGTATCCTGATAAATTGATGTTGTGCTGTCTGGCATTTTATCAGTCACATTGGTGGG +GGCAATGATTTATCCGTAGCAGCACTGCCAGAAGGTGACAGTGCTGCTACGTTATCAGGGATAGGTTACC +TGGAAAGTACTGGTGGCTTTAAATTCGCCGGGTTCGATAGCAATATTCCCGTCTTGCTTTAATGTTGCCT +GGAAATGAAGAGGCTGTGATGTGCCGTTACCTTGATTAGGGTAAACCCCATCGGAGGTGTCATCTTCGGT +TTCATAATCTATATAAACAGAATTCGTATCATTAGGTTTTAATGTCATTAGCGGATTTTTACTGGTTGCT +AAACCTTCAATGAGTACGCCAACGCCTTTGGCGGCAGTGCTTCCAGTAAGCGTATTACCAAGCAGTTGTG +TGTTTTGAGTACCTACTTTTCCAGTGACGAGTTTTGTTTCAATATTACGCACACGAATACAATTCTGAAG +CGAGATATCAAAGGGAACAGGTGAAGCGCCATTTTTAATTGTCCCAGAGCTATATTCTCCCATTCTAACC +GTTGAACCATTGACTGATGGCCCGGTAAGTATGGAGGTAAAACATGTTGGTAAGGTTAATTTGACATTAT +TCAGTGTGAAATTGACATAAATGTGGTTGCTGTGATCTACAACTTTTGTACCAGGACTGTAGGCCTTAAA +CGAATAAAGGTAATTTGATGAACTGGATAACTGGACTTGCTGATTAAGTGTAGGATCGAAATTAGTATCT +GTATAAAATTCAACAGTTATGTTGTGTACTATACCACCAATAGCCCAAAACTTATCGTAGTCGTCTGCTT +TGTTGCAACCCTTAGTTTGTAGATCGCTGTCTGTGACGGAAAAGAAAAATTCTTGGTTGGAAGGATCTCC +GATATAGATTCCTGGCGATTGAATGTCAGTTATTGTATCGTATGCAGACCAGACCCTTGATATTAACATG +GTGTAATACAGACCAGGAACAGATGTATTAAATAGTTTATGTCCGCCATAATCTTTACCTGAATAGACCA +TGGCATTTTCAATAGTTATTGGACCAGGATTCGCTCTGCCAGATGTATTGCAGTAAAGAATACCACCACC +GGTACCTGTATCCAGGTATGACCAGTACATTTTTACCCCAGTCGGGCCGAGCTGCGTGGGTTTATAAAAA +ACCAAGTTGCTTGCTGTTGATGTGTAATTAAAGGTCATCTGTGCGGCAGTGGAGGGGCCTCGATAGTTAT +CAACTCCTGCATTATTTCCCACAATAAAACTTGTATATGCACTGACTGTATTACAACAAGAATACAGTGC +TAAAAAAAGAATGTACCTGAAGATAGTCTTCATTTTTACTCCAATGTTTCTTTATTGTTATGGTTTGCGC +TGTTTTTGTTTGTTATTCGTAGTAAATATCCACTAACACATGGCTCATAAGTTGACCAGATGTAACACTC +AATGCAGGATCGATTTTTTGCATTCGGGTGCTAAATTTCCAGGATGAACCATTCATGTCATCCGACATTA +CTGGATAAACGGAACGAGATCCGCCTGAAGCATTAAGAACATTGAATGTATTCGCCGAATCCTGAGTAGA +AAATATAACTACTCCTACATTACTTGCTCCTGACGAAATTTCATTAGCAAATATTTGCCTAGAGCCAGCA +GCCATGACACCGCTAAGGGCTCTAAAATCAATATGTAACTGATTTAGCACATCGCCAGTTCCCTGTAATG +CACAGTCGGATACAGTGATAGTGAACTCTTTTCCACCTGGTTGATAACTTTCAGGAGTAACATTACCTGA +AAAATATCCCACCCCAACGACGCCAAGATCAATATTACCCTGGTTACTGATTCCGCTTTTGCAGGTGCTG +TTTTTTACATTGGCAACAAGGTCAATATCCTGTCCAGCAATGGCTGGACAGGCGATGCAAAACAGTAATG +ACAGAAACAGAATTATTCTCTTCATCAGCTTACGTTGAGTGGGATGCATATATAGTTCCTGAATCTGTAA +GTCTGTTAGTTATAGGTTACTGTAAATGTGGCTGGTGCAGAAAACTTACCCGCAGTGACATTGTTTACGG +TTTTATTTTTTTCCACGACCAGGCGTGCACTCATCGGATAATAAACGACCGCATTGGCTGCAGTGGAGAT +TGTTACCTCTTGTGATGCTGGTGTTACACAGCTAAATTGTGTTGCACTCCCTGTTGCCGGAGTTACAGTG +CTCCAGACTTCAACGGCGACAGCACTTGCTTTATCTGCGGCTGTGGAACCATTTGCAAACCCCGCACCGT +CATTAGCAGTTCCCTCGCATGTGGCTCGCTTGGTTAATTTTATTTGCGCTTTTTTATTGGGGATACCCGC +ACAGTCTTTGAATTTGAGTTTGAATGTTTTTACTTTGGTCTTGGCATTGATTTCAGAAATATATACATCA +CCAAAATCAACAACAGAAATGTCCTGATCAGAGTCATTTACTAATGTAGCGGTACAAGTACCCATTTCTA +CAGTAGTAATAACGGTCAGTCCAATACTGTCTGTTGCCGCATAAGAGAGTACGCTGAACAATGAGGCAGC +CAAAACGACACTGCTGGATAATCCATAACGTAAATTTTTAAATGTCATCATAATTATCCTTCTTATTGAT +AGATGAAATTAAACGTCGCCAGTGCACGAAAATTCCCCGGTACGCCTTGCCCTGCATCTGTTTCACGTAG +CGCAACGGTCATTTCAAGACCCTTATCGGGCTGCATCTCGTCTGTGCTCCAGCGTATCTTTTCCGCACTG +TTAGGTTTAAGGAAAGTGGCATCATCAGTAGTCCGTTTTTTGAAACCCATACCGATATTACTTGTCGTCG +AAGATGAATCACCAGACTGCGGTATAATAAGCTTAGGTGAGCTTGATGATGCATTTCCGGTCAGAGTGGT +ATCAATCCAACTGATGCCACTGCTGCACCCACTGGCAACCAGTTTAAAATCAGCCTGAGATTCTGTCGTT +TTATTCGCGATCTTATCCAGACCCATCTTAGGGATTCTCAATGTGTAGTTATTATTGCCATCATTCGTGA +CGTTATTACCAGTAAGTGTGATGTTACAGGTTGTCGCTTTGACAGTGGCTGTAAACTCTACATTAATATC +CGTTGCAAATACTGAGGGTGATAATAATATTCCCATCAGTATCACTATTTTATGTGGCGTTGTTTTTATC +ATTTGACGTCCCTTGTAGTTACTGAATCTGACACCGAATTCCATTCAGAATAATAGATTGTGCTATTTTT +TCTGCTTCTGGGCTTTGTTGATAATGCGCAAGACAACTTACGGGTTTACTTTGTTCGAGCCATTTAATGC +TGATATTTCCCTGCTGCTCAATACCACGAACAAATGCTTGTCCACCCTGTCCAACATTACCAATGACATT +GCCTTGCTCATCATAAATATCTGCAGCAAATGGAATATTTTTACCATCACTTCGTGTGATGTTCATAATG +GCTGATTGCCCTTGCACGGTTTCAAAATCAGCAAAGACGACTGAACCCTGACGCGGTACAGCTACTGCAC +TGGTACTTTTTAATTCAACATCGTTCTCAAGATCGTTGATATCCAGCGCGATACGGTTTTCATGATAAGG +AGAAAGAGCGCTGGTGACACCATAACCCCATCGATCGATAGTACTGTTGCCATAATTTATTCGCGCTCCT +TGAGCACCTGGAGCCTGAACTACCGCCAGTGTATCGGAGTCGCTAAAACTATCATTACTGAAAGTCAGTC +CACCGCTATGCAATACAAAACCACCGTCGGTGCTGAGAGAAACTTGACGGCTGTTATCGCTATTTGCAGA +AATTGAACCTGCCAGCGTTCCCCATGGTGACTCATAGCTGGCATAACCCCCAACATAACTCAAATCTTTG +CTGGCTTTATTCATCGTATAGCCAGTATTCACGCTATAACTGACGCGAGCGTTATCGCTATAGCCACTGC +TGCTAACGTTGAGTTGGTTATTACCCTTAAAGTCACTGCTTATTTGAGTATCAATACTCTGGAAACCTGA +AGTACGTTGTTCAGTGCCAAGTAATTTTTCAATTGGAATGGTGAAACTAAGATAAACGCTATCGTCAGTG +TCGCCGTCTTCATTCCATGAACGCTGGGCACTGACACTGTAGCTGCCCCAGGATGTACTGTTACTGTAGC +CAATAGAGTAATTGCTACGATTTTGTCCGGAAGCCCAGTAATCGGACCAACTTCCGGAAAGATAAAATGA +ACCGTAATCTTTTTTCTCAAATTTCAACGGTTGGTTAATACTGACCGTAACCTGATTTTTCATGCGTGAG +TAATTACGCATGGATTTCGGTTCAAGATCTTGTTCGGGATGTTTCACTTCATCAATTAGAGTTAGTGCAT +CATTAAGACCAAGGTAATTCTGTGTCGAATAGCGATAGGCCGCGATATTCAGTGAAGTACTTGTTTCTTC +GAATAACTTGTTCCAGGAAACACGATAACTTTGCCCCTGGTATGTTTTATCATCCGGGATACGAACATTG +GAATGAGTCACATCGAAAGAAAATGCACCAACTGAAGTATTCAGACCAAGACCTAACAAACCAGCGGTAT +AGTTATTATCGGTTATCTGAATACCGGTATAACCCGTCAGATAGTTATTCAGGCCGTAGTAGTAGCTTGC +TTGAAATAAATTAGGCTCATCCTGAATATCATCTTTTAAGACCTGACCGCCGCTAATATCCCAACGTCCA +ACGCCAGGGCGTAACATTTGAACAACGGATGAGAAAGGTTGCGAGAATGTCCGCTTTGAGCCATCGGATT +CTTCGATGGTAACAATAAGATCGCTGCCGTACCCTGACGGACTCAGATCATCAATGACGAAAGCGCCTGG +CGGCACCGTCGTTTCATAAATCTTATAGCCACCTTGCGTAATAGTGACTTTGGCGTTGGTATTGGCAACG +CCATGAATGATAGGCGCAAAGCTGGCTAAAGTCGGAGGCAACATGCGGCTGTCACTGTATAAACGAATGC +CTCGGATACTGACGGAATCAAAGGTTTCGCCCGTCGTATAAGACTCACCAAGAATGAGTTGAGAACGCAG +CGAGGCGATATCACGCTGAACATACCGATTCTTAAAATCATAATTACTGCCAGAATCGGTCATCCAGTTG +TAGTTGCCCGAGGCACGCAGTCGCCATGCACCTAAATTCATCCCACCGTTAAATGCAGCATAAATGCTTT +CATTTTTTCGACCAGGGGTTTCACTATGATATCCGTTGAGGTTGTATGACAACATGGCCGCATTAATGCC +GTTTTCCCATAACGATGGATCAACATAGTTTTGGTAATTTTTCATTACCCAGGCTTGAGGAACGTCTATA +TCCAGACGTTGATCGTTAACGTCATAACGAACAGAAGCCTGAGGGATAATTTCCGTCAAATTGAGGCAAT +TGCCGAGCGTTTCATCCCTGGCAAGCAGAACGGCTTTTTCGTTATTTATATCGGGAGAATTAATATGAAA +CTGCAATAAATTCTTTAATGTGATACAAGCCTGGGCGTTCTTTTTTCCTTCAATTGCGACAAATGTAATA +CTTTGGTTAATGATTGGTTGGTCGTTTACATAAACACTGACGTCGTAAACACCCGGTATAGCGGGGTTAC +CTTCACTGTACCGGCTGAGATCAATATTAGATGCATTCTGCCCCATCAGGAAGGTATGGTCATATTCAAC +GAGTTCAGCACTGAAAGCAGTATTGCAATACAGCAGCGCGCAAAACGTGGCGATACGGGTCAGATGATGA +TAATTTTTAGTATATTCTATAGTCACGCTATGCTTCCTGCGGAATTATATCCTTGCCTGATTACAGCCTG +GCATTACCTTCAATTGCGCCACCAAAGTCATTAATGGCGTAAAAATGCACTTTTGCAGAATTCGCTTTGC +CATTAAGGCCATTGACTTTCATGACCTCATCACTAAATGGTGCAATCATTTTCACATCAATCGGATAGCG +TTTACCGCTAGCTTCTAAATCACCACTGCTAAAAGAGACGTAGTAAGGGGTTGGATTGGTCACTCGTAAT +GACGCCTTACCTTCTGAACCTGACCAGAACCACTTCAGGGCTAACGGGGCTTCAGAGGGATTTCCCTTCA +ATCCATCCGGGCGATAGAAAAGTTTTATACGTGTGCGAAATGCCAGTTGCAGCAGGCTTTGATTCGCGAC +CTTTTCTGCATCTGGTTTTGGTGGAACTTCCAGTACGTTAAACCAGAACACGCTCTCTCTGTCTTTAGGC +AGTGAGGTGCTGGCTGTGTACATTAATTTGATTGTTTGCCCACGTTTGGCATCAATACGCGATACTGGCG +GCGTAGCAGTAAAAGGGACTGTAATACTGCCAGGCTCAGCGTTGTCATCGCCAGTATCTAACCAACTCTG +GACAAGCAACGGGTTATTCCCTTTATTTTCCAGACGTACGTTGACACTTTTTTGATCGCTTTTATATATT +ACGCGAGTACCCGAAATGACAATGTCCGCAATAGACGATGAACTAAAAGCCATACAGGTTACGAAGCATA +AAGCTGTTGTATGTTTGGTGTTAAAAAACATAAACCATCCCTGATAGAGTTAATTAAAACAGGGAATAAT +ATAAAATAGAAATTATTATTCCCTGTATATTCATTCAATCAATTTAACTGGTGAATACTTACTGATAAGT +AATGGTGTATGCAGTGTTAGTTTTTACATAACCAGCAGTTGCTGTTTGGTCTGCGACGGCACGAACGTAA +GACGCTTTAAAATCATAAACAGCAGATTTTGTCGTTGCATCCAGGGCTTTAGTATACACATCGCCAGGGT +TGTTAATTTGAACCTGTTTGATAGTGGAACCATCAATATTGTGTAGAGCGATATTAACGCCGTCAGATGG +GTTGTTAATAGACATGTCGTTGTTCAAAGTCCCTTTGCTGTTACCAAAGAAAACAGAACCGAAGGTCATT +TTAGCCGTGCTACCTGGATTCGGATTTGCTTTGCTGCAGTCAACGGTGATGCTGAAAGGTTTAGCTTTAG +CGCCAACGGTGTCATTCAGTACGCCAGCATCGATTTCACCAACGGTTGCGGTTTGCAGCAGGATCAGACC +ATCCTTGTTACCGCCGTCAACGCGGGTTTCACAGGTGTTATCAACAACCAGACCACTGATATTTAACTGA +CCGCCGTCCATATCAGCAGAAGCAGTACCTGCAACCATCGCCAGCATAAGACCAGACAGGGCAAAACCTA +ATTTTTTAGACATAAAAATCCTTTAATAAAATTCCATTAGTCAGACTACATGTTTGAAGAATGACTATTC +ATGACACAAATAGGAGAAACAAATGTTAGATATTAATGAGCAATGATATTTGTTACCCAAATTTACAACC +ATTGTTCATTAGGTCGCCTATTGTGCACTTTAGAAGCTTTTGAACAAATTAAATTTACTTAATTCAAAAT +TAAGTAAAAATAAGTTCACAAGTGCAATTGGTTAGGGTATGGAGATGGGATTGATATTTATTTATAGGAA +GTTATATTATTTCCGCAAAGAGATGTTTAAACTAAAATCGTAATTAAGGAAAGAGATGAGATATGATTTT +CAGAAAATATTTATATTCGCAATATAAATAAATTACCATTTGTTTAATTTGTCAAATGCTCTTGTATGTA +AGATTTGACGCAACATCTCCCCATCAGGAAACACCAACTCCGGCGCGATTTCAAACAGCGGCCACAGCAT +AAATCCACGATTCTTCATATCGTAGTGCGGAACGGTCAGGCGTTCAGTATTTATCACTTCATTACCAAAC +AGCATGATGTCGAGATCCAGCGTGCGTGGTCCCCAGCGTTCAGCTTTGCGGACGCGACCTTGCTGCAATT +CAATACGCTGTGTGTGATTGAGTAGCTCTTCAGGTGCAAGAGAGGTTTCCAGCGCCACGGCTGCGTTTAA +GTAATCGGGTTGATCTTGCGGCCCCAGCGGTGGGGTGCGGTAAAACGAAGAAACGGTAAGAATGTGGCTT +TCAGGGATATCGCCTAATGCTTTCAGGGCAGCATTGACCTGCTCCAGCGGAGAGGCCAGATTGCTGCCTA +TGGCAATATACGCCACTGTCATGCGGTACCCTCACGACGTGGTGCGCGTTTGCGTGGACGACGAGTACGA +CGACGCGGTGACGGTTCTTCATCCAGCTCGTTGAGCATCCCTTTTTGGTCTGGTGGCGCGGAAACCTGGA +ACTCACCCCACCATTTCACCAGACGCTGCAGTTCAGCGTTACGCTCAACTTCAGCTCGCAAGGCCAACAG +GTCATAAGCCGCACGGAACTTAGGATGCTCCAGCAGTTTCCATGCGCGTTTACCCTGACGACGGGACATA +CGCAACTGCAACTGCCAGATATCGCGGGTTAATGTCGTCAGACGTTTCGGGATTGCCAGTGAACGGCAGG +CTTCGTCCAGCACGTCGTTCATCGCCAGCGCGAAAGCGTCGTGATAGGTCAGGCCGCTTTCCTGGGCGAT +CTTCTGTGCCGTCTCCAGCAGTGGGTACCAGAACATGGCGGCAAACAGGAACGCCGGGTTCACGCGCATA +TCGTTATGGATACGCGTATCGGTATTCTTCAGCACCTGTTCAATGATCCGCTCCATCGGGCTGTCGCCAT +TTTCCGTGAAGTAGCGGGTAATGGTCGGGAACAGCGGCTGGAACAGATGATATTCACACAACAGCTTATA +GGTTTCGTAACCGTAGCCCGCTTGTAGCAGTTTAAGCGATTCTTCAAACAGGCGTGCCGGTGGGATATCG +TTCAGCAGGGTAGCGAGGCGAGGGATCGGTTCTGCGGTTTCCGGGCTGATGCGCATACCCAATTTGGCGG +CAAAACGTACCGCGCGCAGCATACGTACCGGATCTTCACGGTAGCGCGTTTCCGGGTTACCAATCAGACG +GATAACGCCGTCCTTCAGATCCTTCATGCCGCCAACGTAATCACGGACGGTAAAATCCGCTACGCTGTAA +TACAGGCTGTTGATAGTGAAATCGCGGCGCTGGGCGTCTTCTTCGATGGAGCCGAAAATGTTGTCGCGCA +GCAACATGCCGTTTTGCCCGCGTTGGGAGGTCGTGCGGTCGCTGACGTTACCTTCGTGGTGTCCACGGAA +GGTCGCAACTTCGATAATCTCCGGGCCAAACATTACATGAGCCAGACGGAAACGGCGACCCACCAGGCGG +CAGTTACGGAACAGTTTGCGCACCTGCTCAGGCGTGGCGTTAGTGGTTACGTCAAAATCTTTCGGCTTTT +TGCCAAGTAACAGGTCGCGCACGCCGCCGCCAACCAGCCAGGCTTCGTATCCCGCTTTATTGAGCCTGTA +CATTACCTTCAGGGCATTTTCACTGATATCTTTGCGGGAAATAGCATGCTGCTCACGCGGGATCACCGTC +ACCTGTGGACGGGCGACTGCCTGTTCAGCCTCGCTTTCCTCGCGGCTTAGCACCTTGCGGCAAAAATTAG +CGACTCGGGTAAAAATAGTACACCTCGGTAGTGTCAAACATCATTCAGGACAAAAAAATAGCGGCTAATC +ATAGCTCAGCATGACGCATTTGAGAATGTTGAATTTACAATTGCCGACTCGGGCACGGCGGTAAGCCGCC +AGTTTTTGACGGCTGACTGAAGGATTTGCTCGACGCTGAAATCCTGCCAGTGTGCTTCTGCCTGCTGCCC +CAGAAATTGAAGTGCCGCGATTAGTACCGGGCGTGGATCGCCTTTCGGCAACGCAGGCGCATGATTCTGC +TTGGAAAGTTTAGCGCCTTGTGGATTAAGCGCCAGCGGCAGATGAATGTAATCTGGCACTTTCCAGCCAA +AAAGCTGGTACAGCGAGATTTGCCTTACTGTTGGTTCAATCAGATCAGCCCCACGCACTATTTCTGTAAC +GCCCTGGAAATGATCATCAACCACAACAGCCAGGTTGTAGGCGAACAACCCATCACGGCGATGAATGATA +AAATCTTCCCGTGCCAGTTTTTCGTCGGCGTGAATAATGCCGCGCAGCTGGTCAGTAAATTGCGTGACCG +GATGCTGCTGGCGGATACGCACTGCGGCGTTGTCTGGTCCATGATGCAACACCCGGCAATGACCGTCGTA +AATACCGCCAATGCTTTGAATACGCGCACGCGTACAGGTGCAGTAATAACTTAGTCCTTGTTCATGTAAC +CAGGCGAGTGCTTCACGATAGGCGTCGTGACGTTGCGATTGCCAGAGAACATCGCCGTCCCAGTGCAGAC +CGTAATGTTCCAGCTGGCGCAGGATAGTTTCTGCGGCACCGGGAACTTCACGAGGCGGGTCGATATCTTC +TATGCGTACCAGCCAGCGACCTTGCCGGGCGCGAGCCTGCAAATAGCTGCCGAGCGCGGCGATCAGAGAG +CCAAAATGAAGCTCGCCGGAAGGAGAGGGGGCGAAGCGGCCAATATACTGTGTGTCTGTCATCTCTTTGA +ACAAAAAATAAGGCGGGAGCATTTCCCGCCTGTGGTAAACGTGATGGAACGGCTGTAATTAGCCAGCCAT +CTGTTTTTCGCGAATTTCAGCCAGCGTTTTGCAGTCGATGCACAGATCGGCTGTCGGGCGCGCTTCCAGA +CGGCGAATACCAATTTCAACACCGCAGGATTCGCAGTAGCCGAAATCTTCGTCTTCCACTTTTTTCAGCG +TCTTCTCGATCTTTTTGATCAGCTTACGCTCGCGATCGCGGTTACGCAGTTCGAGGCTGAACTCTTCTTC +CTGGGCTGCACGGTCTACCGGGTCCGGGAAGTTGGCTGCTTCATCCTGCATATGTGTAACGGTGCGATCG +ACTTCATCCCTGAGTTGATTACGCCATGCTTCCAGAATACGACGGAAGTGCGCCAGCTGGGCTTCATTCA +TATACTCTTCGCCCGGCTTCTCCTGATATGGTTCCACCCCAGCGATGGCGAGAATACTCAGGGACGATGT +TTTACGGTTTTGCCCTTCTTGCATGTTGCTTCTCCTTAACACGCACTATCGATCCCCATGTTCGGGGGAA +AAATGAGGCCGCTATAAATAGCAGATGCTTTTCCGGATAGCAATTATCTAAACGTAACACTTGACAACTG +TGTGAGGAAAAGCGTATTTGCGCACGCGACCAGAATGTAAATTAACCAGTTACTTACTTTACTACAATGT +AACCGGCAGTGATTTTTTAAGAGCCATGCCTTCAGCAGAAATTTCCGCTTTGTAAGCCAGAATTTCTACC +CCCCTCTGTTGAGCTTCTGACAATAGTTGCGCGTATTTCTCATCGATGTGGCGCGCGGGTGAAAACCGTG +TAATGGCTGAATGCAGCACGGCGAAAAAGATAACCGCACGCTGGCCTTCAGCCGCTACGCTCATCAACTC +CCGAAGGTGTTTCTGACCTCGTTCAGTGACCGCATCGGGAAAATATCCCTGTTCGTTCTCCGCTAACGTA +ACCGATTTCACTTCAATATAGCAGTCTGGACGCGAATCCGCCTGCAACATAAAGTCAATACGGCTGCGTT +CTGCGCCGTATTTTACTTCGCTTTTCAGCGAGCTATAGCCTGACAGTTCTGAAATTGATTCATTAAGGAT +AGCCTCTTTCGTCAACCTGTTAGCCCAAAGCGTGTTGACGCAAATAAATGCGCCGCTCTGGCTTTGAGTT +AATTCCCAGGTGTGTGGGTATTTCCGTTTGGTGTTGTCTGAAGTCGAATACCAGACGGTATCGCCAGGCG +TTGCACAACCGGTCATCGCACCCGTATTCGGGCAGTGTAGCGTTAATTCGCGACCATCGGGTGTGATCAC +ATCGGCTAAAAAACGTTTGTAACGCTGAATTAGCGTCGCGCGCTGTAGAGGGGGAGAAAATTCCATTGCG +ACAATCCTTGTTATTGCGTTAGCGCCCAGCGTTTTAGCGGCGTGTAGCGTGTGCGTCCACGGGCAAACGA +GGAGGCGTAAAGGGTGAACTCCGTCACCGCATACGACCAGTTAAAACCTGGCGGCGGGATTGTCACCGCC +TCGCTGGCGTCGCGCAATAAGGTAATATGTGGATGAAACGGACGATTGCTTTGAAAACAACCGCTGCGGG +CAGCCTGTGAACGGAGCATATTCGCCAGCTGGATTAAGCCGCGTGGCGGCTGACGCATCCCTAACCACAC +CACACGCGAACGCAGCCATTGTCCGGCGTCATCAAGCGTGAGTGTGAAACCAGGTTGACGAATCCGTCCG +GCTAAAAGAGAAAGCGCCTTCTCTTTCTCGGCGCTCACTTCGCCTAAAAATGCCAGAGTCAGATGCAAAT +TATCGGCGGCGACCGGACGTCCCGCCTCAGGTGGGAAGTGTGTGGCGCGCCAATGGATAATCTGTTCGCG +GATTTCTGCAGGTAAGTCGATAGCAAAGAACAGACGTTGCGGTTCAGACATGTGAGGCACTCGGTTATGA +ATTACCGCGATGCTACAATGTGGCGCGAAGAATGTTAACCCTCTGGAGCGTTTTGTGTCGTCGTTGCCCG +TTGCTGCCGTCTTACCTGAATTACTTACCGCTCTCGATTGTGCGCCGCAGGTATTATTAAGTGCGCCGAC +CGGGGCCGGGAAATCAACCTGGCTGCCGCTGCAACTGCTGGCGCATCCCGGCATTAACGGGAAAATTATC +CTGCTGGAGCCGCGTCGTCTGGCGGCGCGTAACGTCGCGCAACGGCTGGCGGAGCTGCTTAACGAAAAGC +CAGGCGATACCGTTGGCTACCGGATGCGTGCGCAAAACTGCGTCGGGCCGAATACCCGCCTGGAAGTGGT +TACCGAAGGCGTGCTGACGCGCATGATCCAGCGTGACCCGGAACTGAGCGGTGTTGGACTGGTGATCCTT +GATGAATTTCATGAGCGCAGCTTGCAGGCGGATTTGGCGTTGGCGCTGTTACTCGATGTGCAACAAGGTC +TGCGTGATGACCTTAAACTGCTGATTATGTCGGCTACCCTGGACAACGACCGCTTGCAGCAAATGCTGCC +AGAAGCGCCTGTCGTCATCTCAGAAGGGCGCTCGTTTCCGGTTGAACGCCGTTATTTACCGCTGCCCGCG +CATCAGCGTTTTGACGATGCCGTTGCGGTAGCCACCGCTGAAATGCTGCGTCAGGAAAGCGGATCATTAC +TGTTATTTTTACCTGGCGTCGGAGAAATTCAGCGTGTGCAGGAACAACTGGCTTCGCGCATCGGCAGTGA +TGTATTGCTCTGCCCGCTGTATGGCGCGTTGTCGCTGAACGATCAGCGAAAAGCGATCCTCCCGGCACCG +CAAGGGATGCGCAAAGTGGTGCTGGCGACCAATATTGCTGAAACCAGTTTAACCATTGAAGGTATTCGTC +TGGTGGTGGATTGTGCCCAGGAGCGTGTGGCGCGTTTTGATCCGCGCACGGGGCTTACGCGACTGATTAC +TCAACGCGTTAGCCAGGCATCCATGACGCAGCGTGCCGGGCGCGCCGGGCGTCTGGAGCCGGGTATCAGC +CTGCATTTAATCGCCAAAGAACAAGCAGAACGCGCCGCGGCGCAAAGTGAACCGGAGATCTTACAAAGCG +ATCTTTCCGGTTTGCTGATGGAATTACTGCAATGGGGATGCAGCGATCCGGCGCAGATGAGCTGGCTGGA +TCAACCGCCAGTAGTGAATCTACTGGCCGCGAAACGTCTGTTACAAATGCTGGGGGCACTGGAGGGTGAA +CGGCTTAGTGCGCAAGGGCAAAAAATGGCAGCGCTGGGTAACGATCCGCGTTTAGCGGCAATGCTGGTTA +GCGCGAAGAACGACGACGAAGCTGCTACCGCGGCAAAAATTGCCGCCATTCTCGAAGAGCCGCCACGGAT +GGGCAATAGTGACCTGGGCGTGGCGTTTTCGCGCAATCAACCAGCCTGGCAGCAACGTAGTCAGCAACTG +TTAAAACGCTTAAACGTACGTGGCGGTGAGGCAGACAGTTCGCTTATCGCGCCGCTACTTGCCGGGGCGT +TTGCCGATCGCATTGCTCGTCGCCGTGGGCAAGATGGACGCTATCAACTGGCAAACGGCATGGGAGCGAT +GCTCGATGCCAACGACGCGCTAAGCCGCCACGAATGGTTGATCGCACCGTTATTATTGCAGGGCAGCGCC +TCGCCGGATGCGCGGATTTTACTGGCGCTGCTGGTCGATATTGATGAGTTAGTACAACGCTGCCCGCAGC +TGGTACAGCAGTCTGACACTGTGGAGTGGGATGACGCGCAAGGTACGCTGAAAGCCTGGCGTCGGCTACA +AATCGGTCAGTTGACGGTGAAAGTGCAGCCGCTGGCGAAACCGTCAGAAGACGAGTTGCATCAGGCGATG +CTTAATGGCATCCGTGATAAAGGTTTAAGCGTGCTCAACTGGACGGCGGAAGCGGAACAGCTACGCTTGC +GTTTGTTATGCGCCGCAAAGTGGTTGCCGGAATATGACTGGCCAGCGGTTGATGATGAAAGTTTATTGGC +AGCGCTGGAAACGTGGCTGCTGCCACATATGACTGGCGTACATTCACTACGCGGCCTGAAATCACTCGAC +ATTTATCAGGCACTACGCGGATTACTTGATTGGGGAATGCAGCAACGTCTGGATAGTGAATTGCCTGCGC +ATTACACTGTGCCGACGGGAAGCCGGATCGCCATTCGTTATCATGAAGATAACCCGCCCGCGCTGGCGGT +GAGAATGCAAGAGATGTTTGGCGAGGCCACCAATCCGACGATCGCCCAGGGGCGCGTGCCGCTGGTGCTG +GAGTTGCTTTCACCTGCCCAAAGGCCATTACAAATCACACGAGATTTGAGCGACTTCTGGAAAGGAGCGT +ACCGTGAGGTGCAAAAAGAGATGAAAGGGCGTTATCCCAAACATGTCTGGCCGGACGACCCGGCAAATAC +TGCACCGACGCGACGGACGAAAAAGTATTCGTAAGGTTGGTTTTCTCCCTCTCCCTGTGGGAGAGGGCCG +GGGTGAGGGCATCAGCGCGCACGTTCACCCTCACCCTAACCCTCTCCCTCAAGGGAGAGGGGACCGATCG +AGCACAAATTTTGAGAGATATCTTCTTCTGTCTTGTAACAGAAGAACAGAAAATCGGGCTTTTGCGCCTG +AATATTGCGGAGAAAAAGCATGGCCGGGAATGACCGCGAGCCAATTGGACGCAAAGGGAAACCGACGCGT +CCGGTCAAACAAAAGGTAAGCCGTCGTCGTTACGAAGATGACGATGATTACGACGATTATGATGACTATG +AGGATGAAGAACCGATGCCGCGCAAAGGTAAGGGCAAAGGCAAAGGGCGTAAGCCTCGTGGCAAACGCGG +CTGGCTATGGCTACTGCTAAAACTGGCTATCGTTTTTGCCGTGCTGATCGCCATTTACGGCGTTTATCTC +GATCAAAAAATTCGTAGCCGTATTGATGGCAAGGTCTGGCAACTGCCTGCGGCAGTTTATGGCCGAATGG +TCAATCTTGAGCCAGACATGACCATCAGCAAGAACGAGATGGTGAAGCTGCTGGAGGCGACCCAGTATCG +TCAGGTGTCGAAAATGACCCGTCCTGGCGAATTTACCGTGCAGGCCAACAGCATTGAGATGATTCGCCGT +CCGTTTGATTTCCCGGACAGTAAAGAAGGACAGGTGCGCGCGCGTCTGACCTTTGATGGCGATCATCTGG +CGACGATCGTCAATATGGAGAACAACCGTCAGTTCGGTTTCTTCCGTCTTGATCCGCGTCTGATCACCAT +GATCTCTTCGCCAAACGGTGAGCAGCGTCTGTTTGTGCCGCGCAGTGGTTTCCCGGATTTGCTGGTGGAT +ACTTTGCTGGCGACAGAAGACCGTCATTTTTACGAGCATGATGGAATCAGTCTCTACTCAATCGGACGTG +CGGTGCTGGCAAACCTGACCGCCGGACGCACGGTACAGGGTGCGAGTACGCTGACGCAACAGCTGGTGAA +AAACCTGTTCCTCTCCAGCGAGCGTTCTTACTGGCGTAAAGCGAACGAAGCTTACATGGCGCTGATCATG +GACGCGCGTTACAGCAAAGACCGTATTCTTGAGCTGTATATGAACGAGGTGTATCTCGGTCAGAGCGGCG +ACAACGAAATCCGCGGCTTCCCGCTGGCAAGCTTGTATTACTTTGGTCGCCCGGTAGAAGAGCTAAGCCT +CGACCAGCAGGCGCTGTTAGTCGGTATGGTGAAAGGGGCGTCCATCTACAACCCGTGGCGTAACCCAAAA +CTGGCGCTGGAGCGACGTAATCTGGTGCTGCGTCTGCTGCAACAGCAACAGATTATTGATCAAGAACTCT +ATGACATGTTGAGTGCCCGTCCGCTGGGGGTTCAGCCGCGCGGTGGGGTGATCTCTCCTCAGCCAGCCTT +TATGCAACTGGTGCGTCAGGAGCTGCAGGCAAAACTGGGCGATAAGGTAAAAGATCTCTCCGGCGTGAAG +ATCTTCACTACCTTTGACTCGGTGGCCCAGGACGCGGCAGAAAAAGCCGCCGTGGAAGGCATTCCGGCAC +TGAAGAAACAGCGTAAGTTGAGCGATCTTGAAACTGCGATTGTGGTCGTCGACCGCTTTAGTGGTGAAGT +TCGTGCGATGGTCGGAGGTTCTGAGCCGCAGTTTGCGGGCTACAACCGTGCGATGCAGGCGCGTCGTTCG +ATTGGTTCCCTTGCAAAACCAGCGACTTATCTGACGGCCTTAAGCCAGCCGAAAATCTATCGTCTGAATA +CGTGGATTGCGGATGCGCCAATTGCGCTGCGTCAGCCGAATGGCCAGGTCTGGTCACCGCAGAATGATGA +CCGTCGTTATAGCGAAAGCGGCAGAGTGATGCTGGTGGATGCGTTGACCCGTTCGATGAACGTGCCGACG +GTAAATCTGGGGATGGCGCTGGGGCTGCCTGCGGTTACGGAGACCTGGATTAAACTGGGCGTACCGAAAG +ATCAGTTGCATCCGGTTCCGGCAATGCTGCTGGGGGCGTTGAACTTAACGCCAATCGAAGTGGCGCAGGC +ATTCCAGACCATCGCCAGCGGTGGTAACCGTGCACCGCTTTCTGCGCTGCGTTCGGTAATCGCGGAAGAT +GGCAAAGTGCTGTATCAGAGCTTCCCGCAGGCGGAACGCGCTGTTCCGGCGCAGGCGGCGTATCTGACAC +TATGGACCATGCAGCAGGTGGTACAACGCGGTACGGGTCGTCAGCTTGGGGCGAAATACCCGAACCTGCA +TCTGGCAGGGAAAACAGGGACTACCAACAATAACGTAGATACCTGGTTTGCGGGCATTGACGGCAGCACG +GTGACCATCACCTGGGTCGGCCGTGATAACAACCAGCCGACCAAACTGTATGGTGCCAGCGGGGCAATGT +CGATTTATCAGCGTTATCTGGCTAACCAGACGCCAACGCCGCTGAATCTTGTTCCGCCAGAAGATATTGC +AGATATGGGCGTGGACTACGACGGCAACTTTGTTTGCAGCGGTGGCATGCGTATCTTGCCGGTCTGGACC +AGCGATCCGCAATCGCTGTGCCAGCAGAGCGAGATGCAGCAGCAGCCGTCAGGCAATCCGTTTGATCAGT +CTTCTCAGCCGCAGCAACAGCCGCAACAGCAACCTGCTCAGCAAGAGCAGAAAGACAGCGACGGTGTAGC +CGGTTGGATCAAGGATATGTTTGGTAGTAATTAACATCTAAGCGTGAAATACCGGATGGCGAGTTGCCAT +CCGGTAAAATAACATCCCATCTAAGATATTAACCCTTTCTTTTCATCTGGTTGTTTATTAACCCTTCAGG +AACGCTCAGATTGCGTACCGCTTGCGAACCCGCCAGCGTTTCGAATATTATCTTATCTTTATAATAATCA +TTCTCGTTTACGTTATCATTCACTTTACATCAGAGATATACCAATGGCGCGTTCCAAAACTGCTCAGCCA +AAACACTCACTGCGTAAAATCGCAGTTGTAGTAGCCACAGCGGTTAGCGGCATGTCTGTTTATGCACAGG +CAGCGGTTGAACCGAAAGAAGACACTATCACCGTTACCGCTGCACCTGCGCCGCAAGAAAGCGCATGGGG +GCCTGCTGCAACTATTGCGGCGCGACAGTCTGCTACCGGCACTAAAACCGATACGCCGATTCAAAAAGTG +CCACAGTCTATTTCTGTTGTGACCGCCGAAGAGATGGCGCTGCATCAGCCGAAGTCGGTAAAAGAAGCGC +TTAGCTACACGCCGGGTGTCTCTGTTGGTACGCGTGGCGCATCCAACACCTATGACCACCTGATCATTCG +CGGCTTTGCGGCAGAAGGCCAAAGCCAGAATAACTATCTGAATGGCCTGAAGTTGCAGGGCAACTTCTAT +AACGATGCGGTCATTGACCCGTATATGCTGGAACGCGCTGAAATTATGCGTGGCCCGGTTTCCGTGCTTT +ACGGTAAAAGCAGTCCTGGCGGCCTGTTGAATATGGTCAGCAAGCGTCCGACCACCGAACCGCTGAAAGA +AGTTCAGTTTAAAGCCGGTACTGACAGCCTGTTCCAGACTGGTTTTGACTTTAGCGATTCGTTGGATGAT +GACGGTGTTTACTCTTATCGCCTGACCGGTCTTGCGCGTTCTGCCAATGCCCAGCAGAAAGGGTCAGAAG +AGCAGCGTTATGCTATTGCACCGGCGTTCACCTGGCGTCCGGATGATAAAACCAATTTTACCTTCCTTTC +TTACTTCCAGAACGAGCCGGAAACCGGTTATTACGGCTGGTTGCCGAAAGAGGGAACCGTTGAGCCGCTG +CCGAACGGTAAGCGTCTGCCGACAGACTTTAATGAAGGGGCGAAGAACAACACCTATTCTCGTAATGAGA +AGATGGTCGGCTACAGCTTCGATCACGAATTTAACGACACCTTTACTGTGCGTCAGAACCTGCGCTTTGC +TGAAAACAAAACCTCGCAAAACAGCGTTTATGGTTACGGCGTCTGCTCCGATCCGGCGAATGCTTACAGC +AAACAGTGTGCGGCATTAGCGCCAGCGGATAAAGGCCATTATCTGGCACGTAAATACGTCGTTGATGATG +AGAAGCTGCAAAACTTCTCCGTTGATACCCAGTTGCAGAGCAAGTTTGCCACTGGCGATATCGACCACAC +CCTGCTGACCGGTGTCGACTTTATGCGTATGCGTAATGACATCAACGCCTGGTTTGGTTACGACGACTCT +GTGCCACTGCTCAATCTGTACAATCCGGTGAATACCGATTTCGACTTCAATGCCAAAGATCCGGCAAACT +CCGGCCCTTACCGCATTCTGAATAAACAGAAACAAACGGGCGTTTATGTTCAGGATCAGGCGCAGTGGGA +TAAAGTGCTGGTCACCCTAGGCGGTCGTTATGACTGGGCAGATCAAGAATCTCTTAACCGCGTTGCCGGG +ACGACCGATAAACGTGATGACAAACAGTTTACCTGGCGTGGTGGTGTTAACTACCTGTTTGATAATGGTG +TAACACCTTACTTCAGCTATAGCGAATCGTTTGAACCTTCTTCGCAAGTTGGGAAGGATGGTAATATTTT +CGCACCGTCTAAAGGTAAGCAGTATGAAGTCGGCGTGAAATATGTACCGGAAGATCGTCCGATTGTAGTT +ACTGGTGCCGTGTATAATCTCACTAAAACCAACAACCTGATGGCGGACCCTGAGGGTTCCTTCTTCTCGG +TTGAAGGTGGCGAGATCCGCGCACGTGGCGTAGAAATCGAAGCGAAAGCGGCGCTGTCGGCGAGTGTTAA +CGTAGTCGGTTCTTATACTTACACCGATGCGGAATACACCACCGATACTACCTATAAAGGCAATACGCCT +GCACAGGTGCCAAAACACATGGCTTCGTTGTGGGCTGACTACACCTTCTTTGACGGTCCGCTTTCAGGTC +TGACGCTGGGCACCGGTGGTCGTTATACTGGCTCCAGTTATGGTGATCCGGCTAACTCCTTTAAAGTGGG +AAGTTATACGGTCGTGGATGCGTTAGTACGTTATGATCTGGCGCGAGTCGGCATGGCTGGCTCCAACGTG +GCGCTGCATGTTAACAACCTGTTCGATCGTGAATACGTCGCCAGCTGCTTTAACACTTATGGCTGCTTCT +GGGGCGCAGAACGTCAGGTCGTTGCAACCGCAACCTTCCGTTTCTAATTTCTCTTTTGGGGCACGGATTT +CCGTGCCCATTTCACAAGTTGGCTGTTATGCAGGAATACACGAATCATTCCGATACCACTTTTGCACTGC +GTAATATCTCCTTTCGTGTGCCCGGGCGCACGCTTTTGCATCCGCTGTCGTTAACCTTTCCTGCCGGGAA +AGTGACCGGTCTGATTGGTCACAACGGTTCTGGTAAATCCACTCTGCTCAAAATGCTTGGCCGTCATCAG +CCGCCGTCGGAAGGGGAGATTCTTCTTGATGCCCAACCGCTGGAAAGCTGGAGCAGCAAAGCGTTTGCCC +GCAAAGTGGCTTATTTGCCGCAGCAGCTTCCTCCGGCAGAAGGGATGACCGTGCGTGAACTGGTGGCGAT +TGGTCGTTACCCGTGGCATGGCGCGCTGGGGCGCTTTGGGGCGGCAGATCGCGAAAAAGTCGAGGAAGCT +ATCTCGCTGGTTGGCTTAAAACCGCTGGCGCATCGGCTGGTCGATAGTCTCTCTGGCGGCGAACGTCAGC +GGGCGTGGATCGCCATGCTGGTGGCGCAGGATAGCCGTTGTCTGTTGCTCGACGAACCGACCTCGGCGCT +GGATATCGCCCACCAGGTTGATGTGCTGTCGCTGGTGCACCGTTTAAGTCAGGAGCGTGGCCTGACGGTC +ATTGCCGTGTTGCACGATATCAATATGGCGGCACGCTACTGTGATTATCTGGTCGCCCTGCGCGGCGGTG +AAATGATTGCTCAGGGAACGCCTGCGGAAATTATGCGCGGCGAAACCCTCGAAATGATTTATGGCATCCC +GATGGGTATTTTGCCGCATCCGGCGGGTGCTGCACCTGTGAGTTTTGTTTATTGATGAGCGGCTTACCTC +TTATTTCGCGCCGTCGACTGTTAACGGCGATGGCGCTTTCTCCGTTGTTATGGCAGATGAATACCGCCCA +CGCGGCGGCTATTGATCCCAATCGTATTGTGGCGCTGGAGTGGTTGCCGGTGGAATTACTGCTGGCGCTC +GGCATCGTGCCTTACGGCGTGGCGGATACCATCAACTATCGCCTGTGGGTCAGCGAACCACCATTGCCGG +ACTCAGTGATCGACGTCGGTTTGCGCACAGAACCTAACCTTGAACTGCTGACCGAAATGAAACCATCGTT +TATGGTCTGGTCGGCAGGATATGGCCCTTCACCAGAAATGCTGGCTCGTATTGCGCCGGGTCGCGGATTT +AACTTCAGTGACGGCAAACAGCCGTTGGCGATGGCGCGTAAATCGCTGACGGAAATGGCAGATTTACTTA +ACCTGCAAAGCGCAGCGGAAACGCATTTAGCGCAATATGAAGACTTTATCCGCAGCATGAAACCCCGCTT +TGTGAAGCGTGGTGCGCGTCCGTTATTGCTGACGACGCTTATCGATCCGCGCCATATGCTGGTCTTCGGT +CCAAACAGCTTGTTCCAGGAAATTCTTGATGAGTACGGCATCCCAAATGCCTGGCAAGGGGAAACCAACT +TCTGGGGCAGTACCGCCGTCAGTATCGATCGTCTGGCGGCGTATAAAGACGTTGATGTGCTCTGTTTTGA +TCACGACAACAGCAAAGACATGGATGCGCTAATGGCAACGCCGCTGTGGCAGGCCATGCCGTTTGTCCGC +GCCGGACGCTTTCAGCGCGTACCTGCAGTCTGGTTTTATGGTGCGACGCTCTCGGCAATGCACTTTGTGC +GCGTTCTGGATAACGCCATCGGAGGTAAAGCGTGAGTAAACGAATTGCGCTTTTCCCGGCGTTATTGCTG +GCGCTGTTAGTGATTGTCGCTACGGCGCTCACCTGGATGAACTTCTCGCAGGCGCTGCCGCGTAGCCAGT +GGGCGCAGGCTGCCTGGTCGCCGGATATTGACGTCATCGAGCAGATGATTTTTCACTACAGCTTGTTGCC +GCGTCTGGCGATTTCGCTGCTGGTGGGCGCGGGTCTGGGGCTGGTGGGCGTGCTGTTTCAGCAAGTGCTG +CGTAACCCGCTGGCGGAGCCGACGACGCTTGGCGTTGCTACAGGCGCGCAACTGGGGATTACCGTCACTA +CGCTCTGGGCGATCCCTGGTGCGATGGCGAGCCAGTTTGCTGCGCAGGCAGGGGCTTGTGTTGTTGGCTT +AATTGTCTTTGGCGTCGCGTGGGGGAAACGGCTGTCGCCGGTAACGCTGATTCTCGCGGGGTTGGTAGTG +AGCCTTTATTGCGGCGCAATCAATCAGTTACTGGTTATCTTCCATCATGACCAACTGCAAAGCATGTTTC +TGTGGAGCACTGGAACGCTGACGCAAACCGACTGGGGCGGCGTTGAGCGTTTATGGCCGCAGCTGCTGGG +CGGTGTGATGCTGACGTTGCTGCTACTTCGTCCGTTAACCCTGATGGGGCTTGATGATGGCGTGGCGCGC +AATCTCGGGCTGGCCTTGTCGCTTGCGCGTCTGGCAGCGCTGTCGCTGGCGATTGTCATCAGTGCGCTGC +TGGTGAACGCTGTGGGGATTATCGGCTTTATCGGGTTGTTCGCGCCGCTGCTGGCAAAAATGCTGGGGGC +GCGGCGTCTGCTGCCACGACTGATGCTGGCGTCGTTGATTGGTGCGCTGATCCTCTGGCTTTCCGATCAA +ATCATCCTCTGGCTGACTCGCGTGTGGATGGAAGTGTCCACCGGTTCGGTCACTGCGTTGATCGGTGCGC +CGCTGCTACTGTGGCTGTTGCCGCGTTTACGCAGCATTAGCGCGCCGGATATGAAGGTCAACGATCGTGT +CGCGGCTGAACGCCAACATGTGCTGGCGTTTGCCCTCGCGGGCGGCGTGCTGCTGTTGATGGCTGTGGTG +GTGGCGCTGTCGTTTGGTCGTGATGCGCACGGCTGGACGTGGGCGAGCGGGGCGTTGCTCGAGGATTTAA +TGCCCTGGCGCTGGCCGCGAATTATGGCGGCGCTGTTTGCGGGCGTCATGCTGGCGGTGGCGGGCTGTAT +TATTCAGCGACTGACCGGAAACCCGATGGCAAGCCCGGAAGTGCTGGGGATTAGCTCCGGCGCGGCGTTT +GGCGTGGTGTTGATGCTGTTTCTGGTGCCGGGTAATGCCTTTGGCTGGCTGTTACCTGCAGGCAGTCTCG +GCGCGGCGGTGACGCTGTTGATCATTATGATCGCCGCCGGCCGCGGTGGATTTTCCCCACACCGTATGTT +ACTGGCGGGGATGGCGTTAAGCACCGCGTTCACCATGCTTTTGATGATGTTGCAGGCAAGTGGTGACCCG +CGAATGGCGCAAGTGCTGACCTGGATTTCCGGTTCGACCTACAACGCGACCGATGCGCAGGTCTGGCGCA +CCGGAATTGTGATGGTGATTTTGCTGGCGATTACCCCGCTGTGCCGCCGCTGGCTGACCATTTTACCGCT +GGGTGGTGATACCGCCCGAGCCGTAGGAATGGCGCTGACGCCGACGCGAATTGCGCTGCTGCTGTTAGCG +GCTTGCCTGACGGCGACCGCGACGATGACTATTGGACCGTTGAGTTTTGTTGGTTTAATGGCACCGCATA +TTGCGCGGATGATGGGCTTTCGACGGACGATGCCACACATCGTAATTTCGGCGCTGGTGGGTGGTTTACT +GCTGGTGTTCGCTGACTGGTGTGGGCGGATGGTGCTGTTTCCATTCCAGATCCCGGCGGGGCTGCTGTCA +ACCTTTATCGGCGCGCCATATTTTATCTATTTGTTGAGAAAGCAGAGCCGTTAATTTTTCCATATAACGG +CCCTGTACGCCTGGACGGATAAAGCGTTTACGCGACAACGGATGCCCGATGCGACGCTGGCGCGTCTTAT +CGGGCCTACAAACGGCCCCGAATCGTAGGTCGGATAAGGCGTTCACGCCGCATCCGACAAACCATGCTGG +ATCACAACTTCGCAAACACCCGACGTGCAGCATCGATGGTGTTATTGATATCTTCCATGCTGTGCGCCAC +GGACATAAAGCCCGCTTCAAACGCTGACGGTGCCAGGTAAACACCTTCGTCCAGCATCATATGGAAGAAA +CGCTTAAAGCGTTCCACGTCACAGGCCATCACATCCTGATAGCACGTCACGGACTCGGCGTCGGTAAAGA +AAATACCGAACATGCCGCCAACGTGGTTAACGACCAGCGGAATTCCGGCTTCTTCTGCCGCTTCCAGCAG +ACCTTCTGCCAGACGTGTTGTCAGCTCATCCAGCGTTTCGTGAACGCCCGGCTGCGCGACTTCATTCAGA +CAGGCGAAACCCGCTGCCATCGCAATCGGGTTACCGGAAAGCGTACCCGCCTGATAGACCGGACCCGTCG +GGGCCAGCGCATCCATTACATCACGACGACCACCGAATGCGCCTACCGGCATTCCACCGCCGATGATTTT +GCCGAGGCAGGTTAAATCTGGCACTACGCCGTAATAATCCTGTGCGCCAGCTAGCGCTACGCGGAAACCG +GTCATCACTTCATCGATGATCAGCAACGCGCCAAATTCGTCGCACAGCGCGCGCAGACCTGGCAGGAACT +CTGGCAGCGGCGGAACACAGTTCATATTGCCTGCCACCGGCTCGACGATAATACAGGCAATCTCTTGCGG +GTATTGCTCAAATGCGGCGCGTACAGAAGCCAGATCATTATAAGTACAGGTTAAGGTATATTTGGCGAAA +TCTGCCGGAACGCCCGGCGAGTTTGGCTGGCCTAACGTGAGTGCGCCAGAACCGGCTTTCACCAGCAGGC +AGTCAGCGTGACCATGGTAACACCCTTCAAATTTAATAATTTTGTCGCGACCGGTAAAACCACGGGCCAG +GCGGATGGCGCTCATGGTCGCTTCAGTGCCGGAGTTCACCATGCGCACCATATCCATGGTCGGGACCAGT +TCGGTCACCAGTTGCGCCATTTTCACTTCCATTTCGGTTGGTGCACCAAAGCTTAAACCACGCTCGGCGG +CTTCAATCACGGCATTGCGGATTGCCGGATGGTTATGGCCCAGCACCATCGGCCCCCAGGAACCGACATA +ATCGATATAGGCTTTGCCATCAACATCGTACAGATAAGCGCCGTCCGCTTTTTCGATAAACAGTGGAGTG +CCGCCCACGCCAGTAAAGGCGCGAACAGGGGAGTTCACACCGCCAGGGATCAGCTCGCGCGCTGCGCTGT +AAAGATTTTCAGACTTACTCATGGAGGGTTCCTGATTCGTAGAAAAAGTGAATGGCTGCTATTCTATGTT +ATTCATAACAAGTTAAATACTCGTCAAACATCAGGCTGCTTGTACTGGTGCAATCCTGATTTCTTAGAGT +ATAAAAGTTTTGTGCATTTGAAACATTACGCTTTGCAAAGGATTTTCATGGAACGTGCGAGTAAAATGCC +GTCATCTTATTTGTATGACCAATAAGTGATCATTGGATGAAAACTGATACTCCCTCTTTAGAAACACCGC +AGGCCGCGCGCCTGCGACGCAGACAACTGATTCGCCAACTTCTTGAGCGCGATAAAACCCCGTTAGCCAT +TTTGTTTATGGCGGCAGTCGTCGGCACGCTTGTTGGGCTGGCAGCGGTTGCTTTTGACAAAGGTGTCGCC +TGGTTGCAGAACCAACGTATGGGGGCGCTGGTACATACTGCTGATAATTATCCGCTTCTGTTAACCGTCG +CTTTTCTCTGTTCGGCGGTGCTGGCGATGTTTGGCTACTTTTTGGTGCGCAAATACGCGCCGGAAGCAGG +TGGTTCGGGGATCCCGGAAATTGAAGGGGCGCTGGAAGATCAACGTCCCGTTCGCTGGTGGCGTGTATTG +CCGGTGAAGTTCTTTGGCGGGCTGGGGACACTCGGCGGAGGCATGGTGTTGGGGCGCGAAGGGCCAACCG +TGCAGATCGGCGGTAACATTGGCCGTATGGTGCTTGATATTTTCCGCCTGAAAGGTGACGAAGCTCGCCA +TACGCTGCTGGCAACCGGTGCTGCTGCGGGGCTGGCTGCGGCCTTTAACGCGCCGCTGGCGGGTATTTTG +TTTATTATCGAAGAGATGCGTCCGCAGTTTCGCTATACGTTAATTTCGATTAAAGCGGTATTTATTGGTG +TCATTATGTCGACCATTATGTACCGGATTTTTAATCATGAAGTTGCGTTGATTGACGTCGGTAAACTTTC +TGATGCGCCGCTTAATACGCTGTGGCTTTATCTGATCCTCGGTATTATTTTTGGCATTTTCGGCCCTATT +TTTAATAAATGGGTGCTGGGGATGCAGGATTTGCTGCACCGTGTGCACGGCGGCAATATTACCAAATGGG +TGCTAATGGGCGGTGCGATTGGCGGTCTGTGTGGATTGCTGGGGTTTGTGGCACCAGCAACGTCGGGCGG +CGGTTTTAACCTGATTCCTATCGCTACCGCGGGGAATTTCAGCATGGGAATGCTGGTGTTTATCTTCGTC +GCGCGGGTCATTACCACCTTACTCTGCTTCTCTTCCGGCGCGCCGGGCGGTATTTTTGCCCCGATGCTGG +CGCTGGGTACTGTGCTGGGAACCGCTTTCGGAATGGTTGCCGTTGAGCTGTTTCCGCAATATCACCTTGA +GGCGGGGACGTTTGCTATTGCCGGAATGGGGGCATTACTGGCGGCATCTATTCGCGCGCCGTTAACGGGG +ATCATTCTGGTTCTGGAGATGACCGATAACTACCAGCTCATTTTGCCAATGATTATTACCGGTCTTGGCG +CAACACTATTAGCGCAATTTACCGGCGGGAAACCGCTATACTCGGCGATTCTTGCGCGCACGCTGGCAAA +ACAGGAAGCTGAGCAACTGGCGCGAAGCAAGGCCGCATCAGCCAGCGAGAATACTTGAACGAAATACCAG +GGTATTAGATAATGGCGATTATTATTGGGTTAGAATTTGCCCAATTGCCGATGTCGTTTGGAGCAAAATA +TGAGTGATGACGTAGCACTGCCGCTGGAGTTTACCGACGCAGCAGCCAACAAAGTTAAAAGCCTGATCGC +TGACGAAGATAACCCGAATCTGAAATTACGCGTGTATATCACCGGTGGCGGTTGCAGCGGCTTCCAGTAT +GGTTTCACCTTTGATGATCAGGTGAACGAAGGCGATATGACCATCGAAAAACAGGGCGTTGGCCTGGTGG +TTGATCCGATGAGCCTGCAATATCTGGTCGGCGGTTCCGTTGATTATACCGAAGGTCTGGAAGGTTCTCG +TTTCATCGTGACCAACCCGAACGCGAAAAGCACCTGCGGTTGCGGTTCTTCCTTTAGTATCTAATCTGTT +GTTCATGTGCCGGATAAACTATCCGGCACATCTTCTCTCTTCAACGCCCATTCTCATCCAGCGCAAACGT +CGGTAGCTTAAGATGCCAACGAATAGCCGCCAGCCGAATCAATAGCGTCACGACCATGCCCATCATACTG +GCTGTTTCCAGTGGTACGGAAAATGTGTAATAAGCCGTAGCGTGGACAATACCGCCGATAATACAGGCAG +TTGCGTAGATTTCTGTACGTAAAATCATGGGGATTTCGCGGGCCAGAACATCACGAATGATCCCGCCGCC +AACGCCAGTAATGACGCCCATACAAACCGCGATTAACGGACCGGCTTCCGCATTAAAGGCTTTATTCACG +CCAATGCCGACAAACACCGCCAGACCAACGGCGTCCAGCACCGGCAACATCCATTTTGGTAAGCGTCTTG +GCTGGCGCACCAGCACGATGGTCAGCATGCTGGTGACCATTGCAACGACCAGATCGGTGGGATCTTTCAC +CCAAAATACCGGGCCGTGATCCAGCGCCATGTCGCGAATTGTCCCGCCGCCTACTGCGGTTACCACGCCC +AGTACCAGAACACCAAAAGGGTCCATACGCAATTTTCCGGCTAACAAAACGCCGGAGATGGCAAATACCG +CTGTGCCGACTATATCCAGCCAATAGACGAGCATTGTTCAATCCCCACTGAGCACCTGAAAAGGTCAGGC +GCTAATCTACCTGTGAAAGCGCATTACAGAGCTGTTGTGCAGCGAGGATAATACGTGGGCTTGCACGTTC +AAACCAGTCACTCGTGAGAGGAATAACGGGAATTTTGAGCTGTTCACCCCAGTATTGTTTGATTTTAGGA +ATTTGGTCCGGTCCGCCTGTAATGACAATCGCCTGTGGCGAGCGTGCTAACACCTGTTCGCGGCTAACTT +GCGGCCAGGGAACCCGGCTGTCTTTAAAGATGTTTTCTCCGCCACAAACTTCGAGTACCTGGTTCTGAAT +CGACTCTTTTCCACTGGTAAATGGCGGATTAATGCCGAATTGCAGAAAAACACGTTTTTTAGGTTTATCA +GCATATTGCGCTTTCAATTGCGCGTACTGATCCAGCAGGGATTGCGCGGCTTGTTCGGCCTTGTCTGGTT +GCGGACTCCAGGGGGCCAGTTGACGTAACGCATTGGCAATTTGTTCAATGCTTGTCGCATCGACCCACAT +CACTTTTATTCCCAGCGAAGCCAGCTGGTCAACCTGCCGCTCGGCATTACCTCCACGCCAGGCAATCACC +AGATCGGGTTTCAGCGCGACAATGCGTTCCAGATTCATCCCCTGCCAGGTGGAAACCTGCTCAATCTTTT +GCGCTTGTGGAGGATAGTCGGAATAGCTGCTGACCCCAACCGGCGTGATCCCGGCGGCAAAGGCAAGTTC +AGTGTTGGCGGGAGAAAGCGTGATGACGCGCGGCGCGGCGTTGAGCCACAGTGGCGCAAGAAAAGACAGG +GCGACCAGCGCCCTGAACAGTGACTTAGCCATGTGCAAGTTTCTGCACCAGTGACTCAACCATCAGGCTG +GACTGTTTAGCGGCAACAGCCAGGAACTCATCGAAGCTAAGATGAGACTGTTGATCGGCCACGTCGGAGA +TGGCGCGTACGACAACAAACGGGACGTTGAAATTGTGGCAGACATGGGCGATTGCCGTCGCTTCCATCTC +TACAGCAATGGCCTGTGGGAAGTTGTGGCGGATTTTCGCCAGACCAACAGAACCGTTGATGAAAGCGTCG +CCGCTAACAATCAGGCCACGTACAGCGTTAAGATTCAGTTCGGCAATGCAGGCCTCAGCGGCAGCGATCA +GTTTATCGTCAGCTTTAAAGCCTGCCGGACAGCCTGGTAACTGACCGTATTCATAACCAAATGCCGTGAC +ATCCGCGTCGTGATAACGTGCTTCGTCCGAGACAACGATATCGCCCACTTTCAACGTTGGTGCCAGGCCA +CCGGCAGAACCGGTGTTAATAATCACATCTGGCTTGCAGTGTTCCAACAGCAAAGTGGCACCCAGCGCCG +CAGCGACTTTACCGATGCCCGATTTCAGAAGCGCAACCTCGGTTCCATTCAGTTGGCCGGTATAGATTTC +GCAACCGCCGAGACTGATAGTTTGACGGTTTTCGATTTTGTCACGCAGCAGCGTAACTTCTTCTTCCATT +GCACCAATGATGCCGATTTTCATAGATTTACTCGCGATAAGCCCGATTTGAAGGCATAGTTTACCATGCG +CTTACGGGGAAGCGTATTTCTCACGCGGGAGAGGACATGGCACAGATTGATTTCCGAAAAAAAATAAACT +GGCATCGTCGTTACCGTTCACCGCAGGGCGTTAAAACCGAACATGAGATCCTGCGGATCTTCGAGAGCGA +TCGCGGGCGTATCATCAACTCTCCGGCAATTCGTCGTCTGCAACAAAAGACCCAGGTTTTTCCACTGGAG +CGCAATGCCGCCGTGCGCACGCGTCTTACCCACTCGATGGAAGTCCAGCAGGTGGGGCGCTACATCGCCA +AAGAAATTTTAAGCCGTCTGAAAGAGCTTAAATTACTGGAAGCATACGGCCTGGATGAACTGACCGGTCC +CTTTGAAAGCATTGTTGAGATGTCATGCCTGATGCACGATATCGGCAATCCGCCGTTTGGTCATTTTGGC +GAAGCGGCGATAAATGACTGGTTTCGCCAACGTTTGCACCCGGAAGATGCCGAAAGCCAGCCTCTGACTG +ACGATCGCTGCAGCGTGGCGGCACTACGTTTACGGGACGGGGAAGAACCGCTTAACGAGCTGCGGCGCAA +GATTCGTCAGGACTTATGTCATTTTGAGGGGAATGCACAAGGCATTCGCCTGGTGCATACATTGATGCGG +ATGAATCTCACCTGGGCACAGGTTGGCGGTATTTTAAAATATACCCGTCCGGCGTGGTGGCGTGGCGAAA +CGCCTGAGACACATCACTATTTAATGAAAAAGCCGGGTTATTATCTTTCTGAAGAAGCCTATATTGCCCG +GTTGCGTAAAGAACTTAATTTGGCGCTTTACAGTCGTTTTCCATTAACGTGGATTATGGAAGCTGCCGAC +GACATCTCCTATTGTGTGGCAGACCTTGAAGATGCGGTAGAGAAAAGAATATTTACCGTTGAGCAGCTTT +ATCATCATTTGCACGAAGCGTGGGGCCAGCATGAGAAAGGTTCGCTCTTTTCGCTGGTGGTTGAAAATGC +CTGGGAAAAATCACGCTCAAATAGTTTAAGCCGCAGTACGGAAGATCAGTTTTTTATGTATTTACGGGTA +AACACCCTAAATAAACTGGTACCCTACGCGGCACAACGATTTATTGATAATCTGCCTGCGATTTTCGCCG +GAACGTTTAATCATGCATTATTGGAAGATGCCAGCGAATGCAGCGATCTTCTTAAGCTATATAAAAATGT +CGCTGTAAAACATGTGTTTAGCCATCCAGATGTCGAGCGGCTTGAATTGCAGGGCTATCGGGTCATTAGC +GGATTATTAGAGATTTATCGTCCTTTATTAAGCCTGTCGTTATCAGACTTTACTGAACTGGTAGAAAAAG +AACGGGTGAAACGTTTCCCTATTGAATCGCGCTTATTCCACAAACTCTCGACGCGCCATCGGCTGGCCTA +TGTCGAGGCTGTCAGTAAATTACCGTCAGATTCTCCTGAGTTTCCGCTATGGGAATATTATTACCGTTGC +CGCCTGCTGCAGGATTATATCAGCGGTATGACCGACCTCTATGCGTGGGATGAATACCGACGTCTGATGG +CCGTAGAACAATAACCAGGCTTTTGTAAAGACGAACAATAAATTTTTACCTTTTGCAGAAACTTTAGTTC +GGAACTTCAGGCTATAAAACGAATCTGAAGAACACAGCAATTTTGCGTTATCTGTTAATCGAGACTGAAA +TACATGAAAAAAACCACATTAGCACTGAGTGCACTGGCTCTGAGTTTAGGTTTGGCGTTATCTCCGCTCT +CTGCAACGGCGGCTGAGACTTCTTCAGCAACGACAGCCCAGCAGATGCCAAGCCTTGCACCGATGCTCGA +AAAGGTGATGCCTTCAGTGGTCAGCATTAACGTAGAAGGTAGCACAACCGTTAATACGCCGCGTATGCCG +CGTAATTTCCAGCAGTTCTTCGGTGATGATTCTCCGTTCTGCCAGGAAGGTTCTCCGTTCCAGAGCTCTC +CGTTCTGCCAGGGTGGCCAGGGCGGTAATGGTGGCGGCCAGCAACAGAAATTCATGGCGCTGGGTTCCGG +CGTCATCATTGATGCCGATAAAGGCTATGTCGTCACCAACAACCACGTTGTTGATAACGCGACGGTCATT +AAAGTTCAACTGAGCGATGGCCGTAAGTTCGACGCGAAGATGGTTGGCAAAGATCCGCGCTCTGATATCG +CGCTGATCCAAATCCAGAACCCGAAAAACCTGACCGCAATTAAGATGGCGGATTCTGATGCACTGCGCGT +GGGTGATTACACCGTAGCGATTGGTAACCCGTTTGGTCTGGGCGAGACGGTAACTTCCGGGATTGTCTCT +GCGCTGGGGCGTAGCGGCCTGAATGCCGAAAACTACGAAAACTTCATCCAGACCGATGCAGCGATCAACC +GTGGTAACTCCGGTGGTGCGCTGGTTAACCTGAACGGCGAACTGATCGGTATCAACACCGCGATCCTCGC +ACCGGACGGCGGCAACATCGGTATCGGTTTTGCTATCCCGAGTAACATGGTGAAAAACCTGACCTCGCAG +ATGGTGGAATACGGCCAGGTGAAACGCGGTGAGCTGGGTATTATGGGGACTGAGCTGAACTCCGAACTGG +CGAAAGCGATGAAAGTTGACGCCCAGCGCGGTGCTTTCGTAAGCCAGGTTCTGCCTAATTCCTCCGCTGC +AAAAGCGGGCATTAAAGCGGGTGATGTGATCACCTCACTGAACGGTAAGCCGATCAGCAGCTTTGCCGCA +CTGCGTGCTCAGGTGGGTACTATGCCGGTAGGCAGCAAACTGACCCTGGGCTTACTGCGCGACGGTAAGC +AGGTTAACGTGAACCTGGAACTGCAGCAGAGCAGCCAGAATCAGGTTGATTCCAGCTCCATCTTCAACGG +CATTGAAGGCGCTGAGATGAGCAACAAAGGCAAAGATCAGGGCGTGGTAGTGAACAACGTGAAAACGGGC +ACTCCGGCTGCGCAGATCGGCCTGAAGAAAGGTGATGTGATTATTGGCGCGAACCAGCAGGCAGTGAAAA +ACATCGCTGAACTGCGTAAAGTTCTCGACAGCAAACCGTCTGTGCTGGCACTCAACATTCAGCGCGGCGA +CAGCACCATCTACCTGTTAATGCAGTAATCTCCCTCAACCCCTTCCTGAAAACGGGAAGGGGTTCTCCTT +ACAATCTGTGAACTTCACCACAACTCCATACATCTTCATCATCCTTTAGGCATTTGCACAATGCCGTACG +TTACGTACTTCCTTATGCTAAGCCGTGCATAACGGAGGACTTATGGCTGGCTGGCATCTTGATACCAAAA +TGGCGCAGGATATCGTGGCACGTACCATGCGCATCATCGATACCAATATCAACGTAATGGATGCCCGTGG +GCGAATTATCGGCAGCGGCGATCGTGAGCGTATTGGTGAATTGCACGAAGGTGCATTGCTGGTACTTTCA +CAGGGACGAGTCGTCGATATCGATGACGCGGTAGCACGTCATCTGCACGGTGTGCGGCAGGGGATTAATC +TACCGTTACGGCTGGAAGGTGAAATTGTCGGCGTAATTGGCCTGACAGGTGAACCAGAGAATCTGCGTAA +ATATGGCGAACTGGTCTGCATGACGGCTGAAATGATGCTGGAACAGTCGCGGTTGATGCACTTGTTGGCG +CAGGATAGCCGTTTGCGGGAAGAACTGGTGATGAACCTGATTCAGGCAGAGGAGAATACTCCCGCACTTA +CTGAATGGGCGCAACGGCTGGGGATCGATCTCAATCAACCGCGAGTGGTGGCTATTGTTGAGGTCGACAG +CGGTCAGCTTGGCGTGGACAGCGCAATGGCGGAGTTACAACAACTGCAAAACGCGCTGACTACGCCCGAG +CGTAATAATCTGGTGGCGATTGTCTCGCTAACCGAAATGGTGGTGTTGAAACCGGCGTTGAACTCTTTTG +GGCGCTGGGATGCAGAAGATCATCGTAAGCGAGTTGAACAACTGATTACCCGCATGAAAGAGTACGGCCA +GCTGCGTTTTCGCGTTTCACTGGGCAACTATTTTACCGGTCCTGGCAGTATTGCCCGATCCTATCGTACG +GCGAAAACGACGATGGTGGTGGGTAAACAGCGGATGCCAGAAAGTCGCTGCTATTTTTATCAGGATCTGA +TGTTACCTGTGTTACTCGACAGTTTGCGTGGCGACTGGCAGGCCAACGAACTGGCGCGACCGCTGGCGCG +GCTGAAAACGATGGACAATAACGGCTTGCTGCGACGAACGCTGGCGGCGTGGTTTCGCCACAATGTGCAA +CCGCTGGCAACGTCAAAGGCGTTGTTTATTCATCGTAATACCCTGGAGTATCGGCTTAATCGTATATCGG +AACTGACCGGGCTTGATTTGGGCAATTTTGATGACAGGTTGCTGCTGTATGTGGCGTTACAACTGGATGA +AGAGCGGTAGGTTATGCGTTAAGGTTGAGGCGGCGCTGGCTCATTCCCCTCAGCCCGAAGGGTAGAGGGG +AATGCCCGAATTAACCGTCAGTTCGGGATTATTTACGCGTTAGTTTTTCCAGATCGGCTTCAATCTCGCT +GATCTTATTGGTTACGACTGACTCCAGGTGACGTAAGTCGTCGAGGATCTTACGCTTAAGATCAACTTCG +CTGCGGTCACGCTGGCAGATTTGATCAAGCTCATCAATGATATACCGTAGATTCGGGCTGATTTCCTGGA +CTTCTTTATAACCCTGACCCACACCATCAGCGACGACCGTTTTACGCTGACGCGGATATTTAAACTTAAC +GCTCTTGGCGAAAAACTCGCCTTTGTCTTTCTGGAAATAGATTTTCAGAATATCGTTGTTGGCTTCCTGC +CGGAGGCTGTAACGATCAATTTCTTCAGGATTGGTAATACCCAGACTTTTCAGATTGTCGTACATAGCGT +TACCTCAAAATGAGTCAGTAAATTGTGCTTATTTTAGCATTTGGCCTGGCCCGCCCGGCTCGACTGTGAT +CGCAGAAAGCCTTTTTCTTCCAGACTTCTATCATGGCGTAAAAATCAAAAAATTACCTGCTTTATTCTGG +TGATAAAATTCACGATCTACACCAGTTCCAGCATCGTTACTTCCGGGCGGCAGTTCAGACGCAAACCATA +CAAACTGCCCACGCCACGGGTTGTGTAGATGTGTCTTTCGCCAAAGGCATTTAATCCGGCGACGTAACGT +TTATCTTCGACAGGGGCAAAAGGTTCACCAACCAACGGTACGCGCAGTTGCCCGCCGTGAGTATGGCCGC +ACAGCATCAGATCCCAGGGTTCATCACGCATGACTTCTTTGCTGTCGGGATTATGCGCCAGCACCAGTCT +TGGCAGATTGGCTTCGCTGGCGGGAGGCGGTTTGCATTGTCCGGCCCATAAGTCACCAGTGCCTACCAGT +TCGAATTGCCTGTTCGGCGTGGCGATCACCGTAGCCTGGTTAAACAACACCGTGATGCCCGCTGATTTCA +ACGTCTCGCCAATTAAGTGATTTTTTTCTGTACCAACAGGGCGATCGTGGTTGCCGAAGCAGGCAAACGT +CGGCGCACATTCGGCAAGGGGGGAGAGTACGTCACTAAACGCCGAAAAATTCAGCGACATATCAAATAAT +ACGTAATCGCCGCCCAGTAATATCAAATCGGGCTTTTGTTCTATGCCAAGAGCAATCGCGTCAGAAATCA +GGCTTAAAGGAACAAAACGAGAGTAATGGAGATCGGCCAGAAAAAGAATTTTGAATGGTGCTGCGTTGTC +TTTAAAAAAGGCGAGGCGGTGACGGATTAATTCAAACCAGCCTGGCTCACAGTAATGCATATAACCGAAA +CCTGAGCTCGTGGCTATCGTCGCGGCAGTAGCCTGCAAAAATCGGCGGCGTGAAATCATCGCTCATCCCT +GCAAAAAAATCGGGCAGCGTCGTGCTGCCCGTGTGCATACTTTTAGTCGATGGTACGCAGCAGTTCGTTA +ATGCCGACTTTGCCGCGAGTTTTCGCGTCAACTTTCTTAACGATAACCGCACAGTAGAGGCTGTATTTGC +CATCTTTTGACGGCAGATTACCTGAAACAACCACAGACCCCGCCGGAACGCGACCGTAGTGGATTTCGCC +GGTTTCACGGTCGTAAATACGGGTGCTCTGACCAATGTATACGCCCATGGAAATGACGGAACCTTCTTCG +ACAATCACCCCTTCAACCACTTCAGAGCGCGCGCCGATGAAGCAATTATCTTCAATGATGGTTGGGTTAG +CCTGCAGCGGTTCCAGCACGCCGCCGATGCCCACGCCACCGGAAAGGTGGACGTTTTTACCAATCTGCGC +ACAAGAACCGACGGTCGCCCAGGTATCAACCATGGTGCCTTCATCAACATATGCGCCGATGTTGACGTAA +GACGGCATCAGCACGGTGTTACGGGCAATAAACGCACCCTGACGTACCGCCGCTGGTGGCACAACGCGGA +AGCCTTCTTTCTGGAAACGTGCTTCGTCGTAGTCGGCGAATTTCATCGGCACTTTGTCGAAGTAGCGGCT +TTCTGCCCCTTCGATCACCTGATTATCATTAATACGGAAAGAGAGCAGCACCGCTTTTTTCAACCACTGA +TGCGTCACCCACTGACCGTCAATTTTTTCCGCTACACGCAGTGCGCCGGAATCCAGCAGGGCGATCACCT +GATTTACCGCTTCGCGGGTAACGGTGTCTGCATTGGCTGGCGTGATCTCGGCACGGCGTTCAAAAGCGGT +TTCAATAATGTTCTGTAACTGCTGCATTGTTAAACTCTTTTCATATCAGTAAACACATCACCCTTTATCG +TTTGGATTGAGGGCCTCTGTCAACCGCTGATGCACTTCCTGCTGCAACTCGTTATTAAGCGCACGCCGGT +CAGCGGTGGCAATTATGAATAAATCTTCTACTCGCTCGCCAATGGTTGTAATTCGGGCACCATGAAGCGA +AATTCCCAGATCGGCAAAAATTTTCCCGACTCGCGCCAGCAGTCCAGGTTGGTCGAGGGCGATCAGTTCG +AGGAACGATTTGCGGTCGGTATGGGTCGGCAAAAACGTTACTTCGGTTTCAACAGTAAAATGGCGTAATT +TGGCGGGTTGGCGACGGGGCTGCGGTGGCTGCCAGCTACTTTGCGTCAGTACTTGCTCCAGACCAAACCG +AATAACCTCATGACGATCTGCGGACAGCGGGTTGCCATCGGGTTCCAGCACGATAAAGGTATCCATCGCC +ATACCGTCGCGAGTGGTGAAAATTTGTGCGTCGTGAACACTTAAATTGCGGCGGTCTAATTCGGCACAGA +CGGCGGCAAACAGATAAGGGCGGTCCGGGCTCCAGATAAAAATCTCGGTGCCTCCACGCGTAGCCTGCGG +GCTAAGCAATACCAGCGGTTTGCTTAAATCATGCTGTAATAAATGGCGGGCATGCCAGGCCAGTTGATTT +GGGCTATGGCGGACAAAATAGTTAGCACGACAGCGTGACCAAATTTGGTGCAGCGCCTCTTCGTCGATGT +TATCCATGCGCAGTAGTGCCAGTGCCTGGAGTTGGTGATGGCGAACCCGTTCGCGCATATCCGGCGTGTT +TTGCATTCCGCGTCGTAGCTGCTTTTCGGTGGCAAAGTAGAGCTCACGCAACAGACTTTGCTTCCAGCTA +TTCCACAGCGTTTCGTTGGTGGCGCAAATGTCAGCCACAGTCAGGCATACCAGATAGCGCAGACGATTTT +CCGTTTGCACTTCTTCGGCAAACTGCTTGATGACTTCCGGGTCCTGAATATCGCGGCGTTGGGCGGTCAC +CGACATCAACAGGTGCTGGCGAACCAGCCAGGCGACCAGCTGTGTTTCGCGTGAGTTCAGCCCGTGGAGT +TCGGCAAAATGCACTACATCCTGAGCACCGAGAATGGAGTGGTCGCCGCCGCGTCCTTTGGCGATATCGT +GAAACAGCGCGGCGATGAAAATCAGCTCAGTTGACGGCAGGCGCGGCCAGACGTCCACACACAACGGATG +GCGCTGGCGCGTTTCTTCACTGGCAAAACTCTCCAGTTTCAGCATCACGCGGATAGTATGTTCATCCACC +GTGTAGGCGTGGAACAGATCAAACTGCATCTGCCCGACGATATGCGACCATTGCGGCATATACGCGCCGA +GCACGCTATGGCGATGCATTGGCAATAGCCCGCGCCGCACCGCTCCGGGGTGACGCAGAATGCTCAAAAA +CAGTTTTCGTGCTTCCGGAATATTACACAGCGGTTGTTGCAGATGGCGACGGGCATGGCGTAACTGGCGC +AGCGTGGTGGAGTAAATGCCGGTGATCGCACTGTTGTGCACCATGGTGTAGAACATACGCAAGATGGCTT +CCGGCTGGCGCATAAATAGTGTTTCATCACGCAGGTCGATTAGCGTACCGCGTAGCTGAAACTCATCGTC +GATTGGACGTGGTTTTTCGTCGGCGGGAAGGGCGAGGATGGCTTCATCGAACAGTTGCAGCAGCATCTGG +TTGAGTTCACTGACGCGGCGTGTAACGCGGAAGTAATCCTTCATCATCCGCTCGACCGGTTCGTTACCTT +CACCACTGTAATTCAGACGCTGGGCGACGCTAAGCTGGCGATCGAATAACAGGCGATTATCGTAACGGCT +GACGACCAGATGCAGGGCAAAGCGAATACGCCACAATATATGCAGACATTCGTTTAATTCCGCCCGCTCC +GCTGAGGTTAAGAAGCCAAACCCGACCATTTCATCCAGCGATGTTGCGCCAAAATGACGGCGGGCCACCC +ATTGCAGAGTGTGGATATCGCGCAAGCCGCCAGGGCTGCTTTTGATGTCTGGTTCAAGGTTGTAGCTGGT +GCCATGGTAACGCTGATGGCGCTGGTTCTGTTCTTCAACTTTCGCCGCGTAGAACTTGTCGGAAGGCCAG +AATCCTTCGCTGAAAATATGTTTTTGCAGTTCGAGGAACAGCGCAACATCGCCAATTAATAAGCGGGATT +CGATTAAATTGGTGGCGACGGTTAAATCCGATAACCCTTCCAGCATGCACTCTTCAAGCGTGCGCACGCT +ATGACCGACTTCCAGCTTTACATCCCAGAGCAGCGTTAACAGCTCGCCCACTTTTTGCGCCTGATCGTCC +GGGAGCTTTTTACGGCTTAAAATCAGTAAATCGACGTCTGAAAGTGGATGCAGCTCGCCACGACCGTAGC +CACCGACGGCGACCAATGCCAGGTCGGCAATCTGGCTGAATCCCGCTTCAATCCATAATCGTTGCAGGAG +CTGGTCGATAAACTCGGTGCGCGCCTCAATCAACTGTTCTGCAGAGATCCCATTGTCAAAGGCATCACCC +AGCCAACGCTGGAAAGTATCGATATGGGCTTTTATCCCACCGACGGTTAATTCATCACGGGGCCAGACGC +ATGGATTTTGCGGTTGACCGGGCAGGGTGGGGAGAGCGGTGTTTGCGTACTGTTCTGGAAGGGTATTCAT +TGTGCGCCACCCATAAGATTAAATTATCGCATTAAAAAAGCCGGCATTCGCCGGCTTCATCTTATTCGTC +GTGCGAGATTATCGCCGGGATGGTGTCATCCTTGCGTAGCGTCAGAATTTCGCAGCCGTTATCAGTCACC +ACAATAGTATGCTCATATTGTGCAGACAAGCTGCGATCTTTGGTTTTTACCGTCCAGCCATCTTTCATGG +TGCGGATCTCTTTTTTACCCGCGTTGACCATTGGCTCGATGGTGAACGTCATCCCAGGTTTCAGTACGAC +GTTGGTTTCACGGGAGTCATAGTGCAGCACCTGCGGTTCTTCATGGAAGCCGCGACCAATACCGTGTCCG +CAATATTCACGAACGACGGAGAAGCCTTCTGCTTCGACAAATTTCTGAATCGCCGCACCGATTTCGCGCA +GATTAATGCCTGGTTTTACCATGCGTAGCGCCAGGTACAGGCTTTCTTGCGTGATGCGGCACAGACGTTC +GCCCATGATGGTCGGCTTACCGACGATAAACATTTTCGAGGTATCGCCGTGGAAACCATCTTTGATTACG +GTGACATCAATGTTAACGATATCGCCATCTTTCAGCAGCTTAGCATCGTCCGGGATACCGTGGCACACCA +CTTCATTAATAGAGATGCAAACGGATTTCGGATAGCCGTGATAGCCGAGGCAGGCAGAAACCGCGTGTTG +TTCATTAACAATGTAATCATTACAGATGCGATCCAGCTCGCCGGTGCTGACGCCCGGTTTAACATACGGT +TCGATCATCTCCAGCACTTCGGCAGCCAGTCGGCCAGCGACGCGCATTTTTTCGATATCTTCTGGGGTCT +TGATTGAGATAGCCATTAATTCTGTCCATCAGCGTCGGTGATACCGACAATATATATGTAAGTGCCGTCA +ATGGTATCACACCCGGGCAAATTGAGAATCATTCTGAATTTCGCCAAACGTGCCACTGAAGGTTTTCTAT +AATAGAAAATTCGACGTCTGATGCTGTACACAGCGCCAACAATTATTGGTGTCCACGACGTATTTGTGGT +ATAAAGCGCGCCGGACTTCCGATCCATTTCGTATACACAGACTGGACGGAAGCGACAATCTCACTTTGTG +TAACAACACACACGTATCGGCACATATTCCGGGGTGCCCTTTGGGGTCGGTAATATGGGATACGTGGAGG +CATAACCCCAACTTTTATATAGAGGTTTTAATCATGGCAACTGTTTCCATGCGCGACATGCTCAAGGCTG +GTGTTCACTTCGGTCACCAGACCCGTTACTGGAACCCGAAAATGAAGCCGTTCATCTTCGGTGCGCGTAA +CAAAGTTCACATCATCAACCTTGAGAAAACTGTACCGATGTTCAACGAAGCTCTGGCTGAACTGAACAAG +ATTGCTTCTCGCAAAGGTAAAATCCTTTTCGTTGGTACTAAACGCGCTGCAAGCGAAGCGGTGAAAGACG +CTGCTCTGAGCTGCGACCAGTTCTTCGTGAACCATCGCTGGCTGGGCGGTATGCTGACTAACTGGAAAAC +CGTTCGTCAGTCCATCAAACGTCTGAAAGACCTGGAAACTCAGTCTCAGGACGGTACTTTCGACAAGCTG +ACCAAGAAAGAAGCGCTGATGCGCACTCGTGAGCTGGAGAAACTGGAAAACAGCCTGGGCGGTATCAAAG +ACATGGGCGGTCTGCCGGACGCTCTGTTTGTAATCGATGCTGACCACGAACACATTGCTATCAAAGAAGC +AAACAACCTGGGTATTCCGGTATTTGCTATCGTTGATACCAACTCTGATCCGGACGGTGTTGACTTCGTT +ATCCCGGGTAACGACGACGCAATCCGTGCTGTGACCCTGTACCTGGGCGCTGTTGCTGCAACCGTACGTG +AAGGCCGTTCTCAGGATCTGGCTTCCCAGGCGGAAGAAAGCTTCGTAGAAGCTGAGTAATAAGGCTTGAT +AACTCCCCCAAAATAGTTCGAGTTGCAGAAAGGCGGCAAGCTCGAGAATTCCCGGGAGCTTACATCAGTA +AGTGACCGGGATGAGCGAGCGAAGATAACGCATCTGCGGCGCGAAATATGAAGGGGGAGAGCCCTTATAG +ACCAGGTAGTACACGTTTGGTTAGGGGGCCTGCATATGGCCCCCTTTTTCACTTTTATATCTGTGCGGTT +TAATGCCGGGCAGATCACATCTCCGAGGATTTTAGAATGGCTGAAATTACCGCATCCCTGGTAAAAGAGC +TGCGTGAGCGTACTGGCGCAGGCATGATGGATTGCAAAAAAGCACTGACTGAAGCTAACGGCGACATCGA +GCTGGCAATCGAAAACATGCGTAAGTCCGGTGCTATTAAAGCAGCGAAAAAAGCAGGCAACGTTGCTGCT +GACGGCGTGATCAAAACCAAAATCGACGGCAACTACGGCATCATTCTGGAAGTTAACTGCCAGACTGACT +TCGTTGCAAAAGACGCTGGTTTCCAGGCGTTCGCAGACAAAGTTCTGGACGCAGCTGTTGCTGGCAAAAT +CACTGACGTTGAAGTTCTGAAAGCACAGTTCGAAGAAGAACGTGTTGCGCTGGTAGCGAAAATTGGTGAA +AACATCAACATTCGCCGCGTTGCTGCGCTGGAAGGCGACGTTCTGGGTTCTTATCAGCACGGTGCGCGTA +TCGGCGTTCTGGTTGCTGCTAAAGGCGCTGACGAAGAGCTGGTTAAACACATCGCTATGCACGTTGCTGC +AAGCAAGCCAGAATTCATCAAACCGGAAGACGTATCCGCTGAAGTGGTAGAAAAAGAATACCAGGTACAG +CTGGATATCGCGATGCAGTCTGGTAAGCCGAAAGAAATCGCAGAGAAAATGGTTGAAGGCCGCATGAAGA +AATTCACCGGCGAAGTTTCTCTGACCGGTCAGCCGTTCGTTATGGAACCAAGCAAAACTGTTGGTCAGCT +GCTGAAAGAGCATAACGCTGAAGTGACTGGCTTCATCCGCTTCGAAGTGGGTGAAGGCATCGAGAAAGTT +GAGACTGACTTTGCAGCAGAAGTTGCTGCGATGTCCAAGCAGTCTTAATTATCAAAAAGGAGCCGCCTGA +GGGCGGCTTCTTTTTGTGCCCATCTTGTAAATTCAGCTAACCCTTGTGGGGCTGCGCTGAAAAGCGACGT +ACAATGTCGCTAGTATTAATTCATTTCAATCGTTGACAGTCTCAGGAAAGAAACATGGCTACCAATGCAA +AACCCGTCTATAAACGCATTCTGCTTAAGTTGAGTGGCGAAGCTCTGCAGGGCACTGAAGGCTTCGGTAT +TGATGCAAGCATACTGGATCGTATGGCTCAGGAAATCAAAGAACTGGTTGAACTGGGTATTCAGGTTGGT +GTGGTGATTGGTGGGGGTAACCTGTTCCGTGGCGCTGGTCTGGCGAAAGCGGGTATGAACCGCGTTGTGG +GCGACCACATGGGGATGCTGGCGACCGTAATGAACGGCCTGGCAATGCGTGATGCACTGCACCGCGCCTA +TGTGAACGCTCGTCTGATGTCCGCTATTCCATTGAATGGCGTGTGCGACAGCTACAGCTGGGCAGAAGCT +ATCAGCCTGTTGCGCAACAACCGTGTGGTGATCCTCTCCGCCGGTACAGGTAACCCGTTCTTTACCACCG +ACTCAGCAGCTTGCCTGCGTGGTATCGAAATTGAAGCCGATGTGGTGCTGAAAGCAACCAAAGTTGACGG +CGTGTTTACCGCTGATCCGGCGAAAGATCCAACCGCAACCATGTACGAGCAACTGACTTACAGCGAAGTG +CTGGAAAAAGAGCTGAAAGTCATGGACCTGGCGGCCTTCACGCTGGCTCGTGACCATAAATTACCGATTC +GTGTTTTCAATATGAACAAACCGGGTGCGCTGCGCCGTGTGGTAATGGGTGAAAAAGAAGGGACTTTAAT +CACGGAATAATTCCCGTGATGGATAAATAAGGGTAAGATTCCGCGTAAGTATCGCGGGGGCGTAAGTCTG +GTTATAAGGCGTTATTGTTGCAGGCAGTTTGGTCACGGCCAGCGCGCAGCAACCGGAGCGTACAAAAGTA +CGTGAGGATGGCGAGCACTGCCCGGGGCCAAAATGGCAAATAAAATAGCCTAATAATCCAGACGATTACC +CGTAATATGTTTAATCAGGGCTATACTTAGCACACTTCCACTGTGTGTGACTGTCTGGTCTGACTGAGAC +AAGTTTTCAAGGATTCGTAACGTGATTAGCGATATCAGAAAAGATGCTGAAGTACGCATGGACAAATGCG +TAGAAGCGTTCAAAACCCAAATCAGCAAAATACGCACGGGTCGTGCTTCTCCCAGCCTGCTGGATGGCAT +TGTCGTGGAATATTACGGCACGCCGACGCCGCTGCGTCAGCTGGCAAGCGTAACGGTAGAAGATTCCCGT +ACACTGAAAATCAACGTGTTTGATCGTTCAATGTCTCCGGCCGTTGAAAAAGCGATTATGGCGTCCGATC +TTGGCCTGAACCCGAACTCTGCGGGTAGCGACATCCGTGTTCCGCTGCCGCCGCTGACGGAAGAACGTCG +TAAAGATCTGACCAAAATCGTTCGTGGTGAAGCAGAACAAGCGCGTGTTGCAGTACGTAACGTGCGTCGT +GACGCGAACGACAAAGTGAAAGCACTGTTGAAAGATAAAGAGATCAGCGAAGACGACGATCGCCGTTCTC +AGGACGATGTACAGAAACTGACTGATGCTGCAATCAAGAAAATTGAAGCGGCGCTGGCAGACAAAGAAGC +AGAACTGATGCAGTTCTGATTTCTTGAACGACAAAAACGCCGCTCAGTAGATCCTTGCGGATCGGCTGGC +GGCGTTTTGCTTTTTATTCTGTCTCAACTCTGGATGTTTCATGAAGCAACTCACCATTCTGGGCTCGACC +GGCTCGATTGGTTGCAGCACGCTGGACGTGGTGCGCCATAATCCCGAACACTTCCGCGTAGTTGCGCTGG +TGGCAGGCAAAAATGTCACTCGCATGGTAGAACAGTGCCTGGAATTCTCTCCCCGCTATGCCGTAATGGA +CGATGAAGCGAGTGCGAAACTTCTTAAAACGATGCTACAGCAACAGGGTAGCCGCACCGAAGTCTTAAGT +GGGCAACAAGCCGCTTGCGATATGGCAGCGCTTGAGGATGTTGATCAGGTGATGGCAGCCATTGTTGGCG +CTGCTGGGCTGTTACCTACGCTTGCTGCGATCCGCGCGGGTAAAACCATTTTGCTGGCCAATAAAGAATC +ACTGGTTACCTGCGGACGTCTGTTTATGGACGCCGTAAAGCAGAGCAAAGCGCAATTGTTACCGGTCGAT +AGCGAACATAACGCCATTTTTCAGAGTTTACCGCAACCTATCCAGCATAATCTGGGATACGCTGACCTTG +AGCAAAATGGCGTGGTGTCCATTTTACTTACCGGGTCTGGTGGCCCTTTCCGTGAGACGCCATTGCGCGA +TTTGGCAACAATGACGCCGGATCAAGCCTGCCGTCATCCGAACTGGTCGATGGGGCGTAAAATTTCTGTC +GATTCGGCTACCATGATGAACAAAGGTCTGGAATACATTGAAGCGCGTTGGCTGTTTAACGCCAGCGCCA +GCCAGATGGAAGTGCTGATTCACCCGCAGTCAGTGATTCACTCAATGGTGCGCTATCAGGACGGCAGTGT +TCTGGCGCAGCTGGGGGAACCGGATATGCGTACGCCAATTGCCCACACCATGGCATGGCCGAATCGCGTG +AACTCTGGCGTGAAGCCGCTCGATTTTTGCAAACTAAGTGCGTTGACATTTGCCGCACCGGATTATGATC +GTTATCCATGCCTGAAACTGGCGATGGAGGCGTTCGAACAAGGCCAGGCAGCGACGACAGCATTGAATGC +CGCAAACGAAATCACCGTTGCTGCTTTTCTTGCGCAACAAATCCGCTTTACGGATATCGCTGCGTTGAAT +TTATCCGTACTGGAAAAAATGGATATGCGCGAACCACAATGTGTGGACGATGTGTTATCTGTTGATGCGA +ACGCGCGTGAAGTCGCCAGAAAAGAGGTGATGCGTCTCGCAAGCTGAGGATAATCCGGCTACAGAGAGTC +GCGCTATTTGTTAGCGTAGGGCTTCAGTGATATAGTCTGCGCCATCTGATCGTAAGTAGTTGGCTTTATA +AGGTCAGATATGCCGTGGTTTTACACGGCTTTTTTTTGTATAGGCTTCAGTATTCCTGAGTACCGTAAAC +CCTGTCAGGGAATAAAAAACGCGTGATGTTGTCTGCTACTCAACCACTTAGCGAAAAATTGCCAGCGCAT +GGCTGCCGTCATGTTGCGATCATTATGGACGGCAATGGCCGCTGGGCAAAAAAGCAAGGGAAGATTCGTG +CCTTTGGGCATAAAGCCGGGGCAAAATCCGTCCGCCGGGCTGTCTCTTTTGCGGCCAACAACGGTATTGA +GGCGTTAACGCTGTATGCCTTTAGTAGTGAAAACTGGAACCGACCAGCGCAGGAAGTCAGTGCGTTAATG +GAACTGTTTGTGTGGGCGCTCGATAGCGAAGTAAAAAGTCTGCACCGACATAACGTGCGTCTGCGTATTA +TTGGCGATACCAGTCGCTTTAACTCGCGTTTGCAAGAACGTATTCGTAAATCTGAAGCGCTAACAGCCGG +GAATACCGGTCTGACGCTGAATATTGCGGCGAACTACGGTGGACGTTGGGATATAGTCCAGGGAGTCAGG +CAACTGGCTGAAAAGGTGCAGCAAGGAAACCTGCAACCAGATCAGATAGATGAAGAGATGCTAAACCAGC +ATGTCTGTATGCATGAACTGGCCCCTGTAGATTTAGTAATTAGGACTGGGGGGGAGCATCGCATTAGTAA +CTTTTTGCTTTGGCAAATTGCCTATGCCGAACTTTACTTTACAGATGTTCTCTGGCCCGATTTCGATGAA +CAAGACTTTGAAGGGGCGTTAAATGCCTTTGCTAATCGAGAGCGTCGTTTCGGCGGCACCGAGCCCGGTG +ATGAAACAGCCTGATGGGGGTCGCTTTTGCTGAAGTATCGCCTGATATCTGCTTTTGTGTTAATACCCGT +CGTCATCGCGGCGTTGTTTCTGTTGCCGCCGGTGGGGTTCGCCATTGTAACGCTGGTGGTCTGCATGCTG +GCAGCGTGGGAATGGGGACAGCTTAGCGGTTTTACCACTCGTTCGCAGCGAGTATGGTTGGCGGTGTTAT +GCGGGTTATTGTTGGCGCTGATGCTTTTTCTGTTGCCGGAATATCACCGAAATATTCATCAACCGCTGGT +TGAAATCTCACTTTGGGCTTCGCTGGGTTGGTGGATTGTCGCGCTATTGCTGGTGCTGTTTTACCCAGGT +TCCGCAGCAATCTGGCGTAACTCTAAAACATTGCGCCTTATTTTTGGCGTGCTAACCATTGTTCCCTTCT +TCTGGGGCATGCTGGCGTTACGGGCCTGGCACTATGACGAGAATCATTACAGTGGCGCAATATGGCTGCT +CTATGTCATGATCCTGGTATGGGGCGCTGACTCCGGCGCATATATGTTTGGCAAATTGTTTGGTAAACAT +AAGCTGGCACCGAAGGTTTCTCCGGGTAAAACCTGGCAAGGCTTTATCGGTGGACTCGCTACTGCAGCGG +TAATCTCATGGGGTTATGGCATGTGGGCGAATCTCGACGTCGCTCCCGTCACCTTACTCATTTGCTCTAT +TGTCGCAGCGTTAGCCTCAGTGCTCGGCGATCTGACCGAGAGTATGTTTAAGCGTGAAGCAGGAATTAAG +GACAGCGGTCATTTAATTCCAGGACACGGTGGTATTTTAGATCGTATTGATAGCCTGACGGCTGCGGTAC +CGGTCTTTGCTTGCTTGTTGTTACTGGTATTCAGGACGCTTTAACGGAAGGTAATATGCTGAGTTTTCTC +TGGGATTTGGCTTCGTTCATCGTTGCACTGGGTGTACTTATCACCGTGCATGAATTTGGTCATTTCTGGG +TTGCCCGGCGTTGTGGTGTTCGCGTTGAGCGTTTCTCAATAGGGTTTGGTAAGGCGCTCTGGCGGCGAAC +TGATAAGCTCGGCACCGAATATGTTATCGCCCTGATCCCGTTGGGCGGTTATGTCAAAATGCTGGATGAG +CGCGCAGAACCGGTCGTTCCGGAACTCCGCCACCATGCCTTCAATAATAAATCTGTCGGCCAACGAGCGG +CGATTATTGCCGCAGGTCCGGTTGCAAACTTCATTTTTGCTATCTTTGCCTACTGGCTGGTTTTTATTAT +TGGTGTGCCTGGCGTACGTCCGGTGGTTGGCGAAATAGCAGCCAATTCGATAGCTGCGGAAGCACAAATT +GCACCAGGTACGGAACTAAAAGCCGTAGATGGTATCGAAACGCCTGATTGGGATGCCGTGCGTTTGCAGT +TGGTCGATAAAATTGGCGATGAAAGCACCACCATTACAGTAGCGCCATTTGGCAGCGACCAACGGCGGGA +TGTAAAGCTCGATTTACGTCACTGGGCGTTTGAGCCTGATAAAGAAGATCCGGTATCTTCGCTGGGGATT +CGTCCTCGTGGGCCGCAAATTGAACCTGTACTGGAAAATGTGCAGCCAAACTCGGCGGCAAGCAAGGCAG +GTTTGCAAGCAGGCGACAGGATCGTTAAAGTCGATGGTCAGCCCTTAACGCAGTGGGTGACCTTTGTGAT +GCTTGTCCGGGATAACCCGGGTAAATCCTTAGCGTTAGAAATCGAAAGGCAGGGGAGTCCCTTGTCTTTG +ACATTAATCCCGGAGAGTAAACCGGGTAATGGTAAAGCGATTGGTTTTGTCGGTATTGAGCCGAAAGTCA +TTCCTTTGCCAGATGAGTATAAAGTTGTACGCCAGTATGGGCCGTTCAACGCCATCGTCGAAGCCACGGA +CAAAACGTGGCAGCTGATGAAGCTGACGGTCAGTATGCTGGGAAAATTGATCACCGGTGATGTGAAACTG +AACAACCTCAGTGGGCCGATCTCTATCGCCAAGGGGGCTGGGATGACAGCGGAACTCGGGGTTGTTTATT +ACCTGCCGTTTCTTGCGCTTATTAGCGTGAACTTAGGGATAATTAACCTGTTTCCGTTGCCCGTACTTGA +CGGGGGGCATCTGCTGTTCCTTGCGATCGAAAAGATCAAGGGCGGACCGGTATCCGAGCGGGTTCAAGAC +TTTTGTTATCGCATTGGCTCGATTCTGCTGGTGCTGTTAATGGGGCTTGCACTTTTCAATGATTTCTCTC +GGTTATGAGAGTTAGTTAGGAAGAACGCATAATAACGATGGCGATGAAAAAGTTGCTCATAGCGTCGCTG +CTGTTTAGCAGCGCCACCGTATACGGTGCTGAAGGGTTCGTAGTGAAAGATATTCATTTCGAAGGCCTTC +AGCGTGTCGCCGTTGGTGCGGCCCTCCTCAGTATGCCGGTGCGCACAGGCGACACGGTTAATGATGAAGA +TATCAGTAATACCATTCGCGCTCTGTTTGCTACCGGCAACTTTGAGGATGTTCGCGTCCTTCGTGATGGT +GATACCCTTCTGGTTCAGGTAAAAGAACGTCCGACCATTGCCAGCATTACTTTCTCCGGTAACAAATCGG +TGAAAGATGACATGCTGAAGCAAAACCTCGAGGCTTCTGGTGTGCGTGTGGGCGAATCCCTCGATCGCAC +CACCATTGCCGATATCGAGAAAGGTCTGGAAGACTTCTACTACAGCGTCGGTAAATATAGCGCCAGCGTA +AAAGCTGTCGTGACCCCGCTGCCGCGCAACCGTGTTGACCTAAAACTGGTGTTCCAGGAAGGTGTGTCAG +CTGAAATCCAGCAAATTAACATTGTTGGTAACCATGCTTTCACCACCGACGAACTGATCTCTCATTTCCA +ACTGCGTGACGAAGTGCCGTGGTGGAACGTGGTAGGCGATCGTAAATACCAGAAACAGAAACTGGCGGGC +GACCTTGAAACCCTGCGCAGCTACTATCTGGATCGCGGTTATGCCCGTTTCAACATCGACTCTACCCAGG +TCAGTCTGACGCCAGATAAAAAAGGTATTTACGTCACGGTGAACATCACCGAAGGCGATCAGTACAAGCT +TTCTGGCGTTGAAGTGAGCGGCAACCTTGCCGGGCACTCCGCTGAAATTGAGCAGCTGACTAAGATCGAG +CCGGGTGAGCTGTATAACGGCACCAAAGTGACCAAGATGGAAGATGACATCAAAAAGCTTCTCGGTCGCT +ATGGTTATGCCTATCCGCGCGTACAGTCGATGCCCGAAATTAACGATGCCGACAAAACCGTTAAATTACG +TGTGAACGTTGATGCGGGTAACCGTTTCTACGTGCGTAAGATCCGTTTTGAAGGTAACGATACCTCGAAA +GATGCCGTCCTGCGTCGCGAAATGCGTCAGATGGAAGGTGCATGGCTGGGGAGCGATCTGGTCGATCAGG +GTAAGGAGCGTCTGAATCGTCTGGGCTTCTTTGAAACTGTCGATACCGATACCCAACGTGTTCCGGGTAG +CCCGGACCAGGTTGATGTCGTCTACAAGGTAAAAGAGCGCAACACCGGTAGCTTCAACTTTGGTATTGGT +TACGGTACTGAAAGTGGCGTGAGCTTCCAGGCTGGTGTGCAGCAGGATAACTGGTTAGGTACAGGTTATG +CTGTTGGTATCAACGGGACCAAAAACGATTACCAGACCTATGCTGAACTGTCGGTAACCAACCCGTACTT +CACCGTAGATGGCGTAAGCCTCGGTGGTCGTCTCTTCTATAATGACTTCCAGGCAGATGACGCCGACCTG +TCCGACTATACCAACAAGAGTTATGGTACAGACGTGACGTTGGGCTTCCCGATTAACGAATATAACTCGC +TGCGTGCAGGTCTGGGTTATGTACATAACTCCCTGTCCAACATGCAGCCTCAGGTTGCGATGTGGCGTTA +TCTGTACTCTATGGGTGAACATCCGAGCACCTCTGATCAGGATAACAGCTTCAAAACGGACGACTTCACG +TTCAACTATGGTTGGACCTATAACAAGCTTGACCGTGGTTACTTCCCGACAGATGGTTCACGTGTCAACC +TGACCGGTAAAGTGACCATTCCTGGATCGGATAACGAATACTACAAAGTGACGTTAGACACGGCGACTTA +TGTGCCGATCGATGACGATCACAAATGGGTTGTTCTGGGGCGTACCCGCTGGGGTTATGGTGATGGTTTA +GGCGGCAAAGAGATGCCGTTCTACGAGAACTTCTATGCCGGTGGTTCCAGCACCGTGCGTGGCTTCCAGT +CCAATACCATTGGTCCGAAAGCAGTTTACTTCCCGCATCAGGCCAGTAATTATGATCCGGACTATGATTA +CGAATGTGCGACTCAGGACGGCGCGAAAGACCTGTGTAAATCGGATGATGCTGTAGGCGGTAACGCCATG +GCGGTTGCCAGCCTCGAGTTCATCACCCCGACGCCGTTTATTAGCGATAAGTATGCTAACTCGGTTCGTA +CTTCCTTCTTCTGGGATATGGGTACCGTTTGGGATACAAACTGGGATTCCAGCCAATATTCTGGATATCC +GGACTATAGTGATCCAAGCAATATCCGTATGTCTGCGGGTATCGCATTACAATGGATGTCCCCATTGGGG +CCGTTGGTGTTCTCCTACGCCCAGCCGTTCAAAAAGTACGATGGAGACAAGGCAGAACAGTTCCAGTTTA +ACATCGGTAAAACCTGGTAAGTGTTCTCCACAAAGGAATGTAGTGGTAGTGTAGCGATGACTTTAGGCGA +TCAATATAAGATCGCCGGGCCACGCAAAGAACTGCACCCTCCGGTGCAAATGGGATGGTAAGGAGTTTAT +TGTGAAAAAGTGGTTATTAGCTGCAGGTCTCGGTTTAGCACTGGCAACTTCTGCTCAGGCGGCTGACAAA +ATTGCAATCGTCAACATGGGCAGCCTGTTCCAGCAGGTAGCGCAGAAAACCGGTGTTTCTAACACGCTGG +AAAATGAGTTCAAAGGCCGTGCCAGCGAACTGCAGCGTATGGAAACCGATCTGCAGGCTAAAATGAAAAA +GCTGCAGTCCATGAAAGCGGGCAGCGATCGCACTAAGCTGGAAAAAGACGTGATGGCTCAGCGCCAGACT +TTTGCTCAGAAAGCGCAGGCTTTTGAGCAGGATCGCGCACGTCGTTCCAACGAAGAACGCGGCAAACTGG +TTACTCGTATCCAGACTGCTGTGAAATCCGTTGCCAACAGCCAGGATATCGATCTGGTTGTTGATGCAAA +CGCCGTTGCTTACAACAGCAGCGATGTAAAAGACATCACTGCCGACGTACTGAAACAGGTTAAATAAGTA +ATGCCTTCAATTCGACTGGCTGATTTAGCGCAGCAGTTGGATGCAGAACTACACGGTGATGGCGATATCG +TCATCACCGGCGTTGCGTCCATGCAATCTGCACAAACAGGTCACATTACGTTCATGGTTAACCCAAAATA +CCGTGAGCATTTAGGCTTGTGCCAGGCGTCCGCGGTTGTCATGACCCAGGACGATCTTCCTTTCGCGAAA +AGTGCCGCACTGGTAGTGAAGAATCCCTACCTGACTTACGCGCGCATGGCGCAAATTTTAGATACCACGC +CGCAGCCCGCGCAGAACATTGCACCCAGTGCGGTGATCGACGCGACGGCGAAGCTGGGTAACAACGTATC +GATTGGCGCTAACGCGGTGATTGAGTCCGGCGTTGAACTGGGCGATAACGTGATTATCGGTGCCGGTTGC +TTCGTAGGTAAAAACAGCAAAATCGGTGCAGGTTCGCGTCTCTGGGCGAACGTAACCATTTACCATGAGA +TCCAGATCGGTCAGAATTGCCTGATCCAGTCCGGAACAGTGGTAGGCGCAGACGGCTTTGGTTATGCCAA +CGATCGTGGTAACTGGGTGAAGATCCCACAGATTGGTCGCGTAATTATTGGCGATCGCGTGGAGATCGGT +GCCTGCACAACCATCGATCGCGGCGCGCTGGATGACACTATTATTGGCAATGGCGTGATCATTGATAACC +AGTGCCAGATTGCACATAACGTCGTGATTGGCGACAATACGGCGGTTGCCGGTGGCGTCATTATGGCGGG +CAGCCTGAAAATTGGTCGTTACTGCATGATCGGCGGAGCCAGCGTAATCAACGGGCATATGGAAATATGC +GACAAAGTGACGGTTACGGGCATGGGTATGGTGATGCGTCCCATCACTGAACCAGGCGTCTATTCCTCAG +GCATTCCGCTGCAACCCAACAAAGTCTGGCGCAAAACCGCTGCACTGGTGATGAACATTGATGACATGAG +CAAGCGTCTGAAATCGCTTGAGCGCAAGGTTAATCAACAAGACTAACGTTCCATCTTTTGTTCGCCAAAC +TTTACGGCCTGTCTCATTCTTACGATTGCGGCAGGCCGTGTTATTATTGTCGTTTCTTATATTTTGACAG +GAAGAGTATCTTGACTACTAACACTCATACTCTGCAGATTGAAGAGATTTTAGAACTTCTGCCGCACCGT +TTCCCGTTCTTACTGGTGGATCGCGTGCTGGATTTTGAAGAAGGTCGTTTTCTGCGCGCAGTAAAAAATG +TCTCTGTCAATGAGCCATTCTTCCAGGGCCATTTCCCTGGAAAACCGATTTTCCCGGGTGTGCTGATTCT +GGAAGCAATGGCACAGGCAACAGGTATTCTGGCGTTTAAAAGCGTAGGAAAACTGGAACCGGGTGAGCTG +TACTACTTCGCTGGTATTGACGAAGCGCGCTTCAAGCGCCCGGTCGTGCCTGGCGATCAAATGATCATGG +AAGTCACTTTCGAAAAAACGCGCCGCGGCCTGACCCGTTTTAAAGGGGTTGCTCTGGTCGATGGTAAAGT +AGTTTGCGAAGCAACGATGATGTGTGCTCGTAGCCGGGAGGCCTGATACGTGATTGATAAATCCGCCTTT +GTGCATCCAACCGCCATTGTGGAAGAGGGCGCGTCAATTGGCGCGAACGCACACATTGGTCCTTTTTGTA +TCGTTGGACCCCATGTCGAAATTGGTGAGGGTACCGTACTGAAATCTCACGTTGTCGTGAATGGTCATAC +TAAAATTGGCCGCGATAATGAGATTTATCAGTTCGCCTCCATCGGCGAAGTTAACCAGGATCTGAAATAT +GCTGGCGAACCGACCCGTGTGGAAATCGGCGATCGTAACCGCATTCGCGAAAGCGTCACCATTCATCGTG +GCACAGTCCAGGGCGGTGGATTGACGAAGGTGGGCAGCGACAACTTACTGATGATCAACGCGCACATTGC +GCACGATTGTACGGTAGGTAACCGCTGTATTCTCGCCAACAACGCAACGCTGGCGGGTCACGTATCGGTT +GACGACTTCGCGATCATCGGCGGCATGACCGCAGTCCATCAGTTCTGCATCATTGGTGCGCACGTGATGG +TTGGCGGCTGCTCCGGTGTGGCGCAGGACGTCCCTCCTTATGTCATTGCGCAGGGTAACCACGCAACGCC +GTTCGGTGTCAATATCGAAGGGCTGAAGCGCCGCGGATTCAGCCGTGAGGCGATTACCGCTATCCGCAAT +GCGTATAAGCTGATTTATCGTAGCGGTAAAACGCTCGATGAAGTGAAACCGGAAATTGCTGAACTGGCGG +AAACATATCCGGAAGTGAAAGCCTTTACCGATTTCTTTGCACGCTCAACGCGCGGTCTGATTCGTTAATG +ACTGAACAGCGTCCATTAACGATTGCCCTGGTCGCCGGAGAAACCTCCGGCGATATCCTGGGGGCCGGTT +TAATCCGCGCTCTGAAAGAACATGTGCCCAACGCCCGCTTTGTTGGTGTTGCCGGGCCACGAATGCAGGC +TGAAGGCTGCGAAGCCTGGTACGAAATGGAAGAACTGGCGGTGATGGGCATTGTTGAAGTGCTCGGTCGT +CTGCGTCGCTTACTGCATATTCGTGCCGATCTGACAAAGCGTTTTGGCGAACTGAAGCCAGATGTTTTTG +TTGGTATTGATGCGCCTGACTTCAATATTACTCTTGAAGGTAACCTCAAAAAGCAGGGTATCAAAACCAT +TCATTACGTCAGTCCGTCAGTCTGGGCGTGGCGACAGAAACGTGTTTTCAAAATAGGCAGAGCCACCGAT +CTGGTGCTCGCATTTCTGCCTTTCGAAAAAGCGTTTTATGACAAATACAACGTACCGTGCCGCTTTATCG +GTCATACCATGGCTGATGCCATGCCATTAGATCCAGATAAAAATGCCGCCCGTGATGTGCTGGGGATCCC +TCACGATGCCCACTGCCTGGCGTTGCTACCGGGGAGCCGTGGTGCAGAAGTTGAAATGCTTAGTGCCGAT +TTCCTGAAAACGGCCCAGCTTTTGCGCCAGACATATCCGGATCTCGAAATCGTGGTGCCACTGGTGAATG +CCAAACGCCGCGAGCAGTTTGAACGCATCAAAGCTGAAGTCGCGCCAGACCTTTCAGTTCATTTGCTGGA +TGGGATGGGCCGTGAGGCGATGGTCGCCAGCGATGCGGCGCTACTGGCGTCGGGTACGGCAGCCCTGGAG +TGTATGCTGGCGAAATGCCCGATGGTGGTGGGATATCGCATGAAGCCTTTTACCTTCTGGTTGGCGAAGC +GGCTGGTGAAAACTGATTATGTCTCGCTGCCAAATCTGCTGGCGGGCAGAGAGTTAGTCAAAGAATTATT +GCAGGAAGAGTGTGAGCCGCAAAAACTGGCTGCGGCGCTGTTACCGCTGTTGGCGAACGGGAAAACCAGC +CACGCGATGCACGATACCTTCCGTGAACTGCATCAGCAGATCCGCTGCAATGCCGATGAGCAGGCGGCAC +AAGCCGTTCTGGAGTTAGCACAATGATCGAATTTGTTTATCCGCACACGCAGCTGGTTGCGGGTGTGGAT +GAAGTCGGACGCGGGCCGTTAGTTGGCGCGGTCGTCACCGCTGCGGTGATCCTTGACCCGGCGCGCCCGA +TTGCCGGGCTGAATGATTCCAAAAAGCTGAGCGAAAAACGCCGTCTGGCGCTCTATGAAGAGATCAAAGA +GAAAGCGTTGAGCTGGAGTCTGGGCCGCGCGGAACCCCACGAAATCGACGAGCTGAACATTCTTCATGCG +ACCATGCTGGCGATGCAGCGTGCCGTCGCTGGGCTGCATATTGCGCCGGAATATGTGTTGATTGATGGTA +ACCGCTGCCCGAAATTACCGATGCCTGCGATGGCTGTGGTGAAAGGCGATAGCCGCGTACCGGAAATCAG +TGCCGCGTCTATCCTGGCGAAAGTGACGCGTGACGCCGAAATGGCGGCGCTGGATATTGTTTTCCCGCAA +TATGGTTTTGCCCAACACAAAGGGTACCCAACCGCTTTTCATCTGGAAAAACTGGCTGAACACGGCGCGA +CCGAACACCATCGGCGCAGCTTTGGGCCTGTCAAACGCGCACTGGGACTTGCGTCCTGATTCTTGTGTCG +AGATTAAGTAAACCGGAATCTGAAGATGTCTGAACCACGTTTCGTACACCTGCGGGTGCACAGCGACTAC +TCGATGATCGATGGCCTGGCCAAAACCGCACCGTTGGTAAAAAAGGCGGCGGCGTTGGGTATGCCAGCAC +TGGCGATCACCGATTTCACCAACCTTTGTGGTCTGGTGAAGTTCTACGGAGCGGGACATGGCGCAGGGAT +TAAGCCTATCGTCGGGGCAGATTTTAACGTCCAGTGCGACCTGCTGGGTGATGAGTTAACCCACCTGACG +GTACTGGCGGCGAACAATACCGGCTATCAGAATCTGACGTTGCTGATCTCAAAAGCGTATCAGCGCGGGT +ACGGTGCCGCCGGGCCGATCATCGATCGCGACTGGCTTATCGAATTAAACGAAGGGTTGATCCTTCTTTC +CGGCGGACGCATGGGCGACGTCGGACGCAGTCTTTTGCGTGGTAACAGCGCGCTGGTAGATGAGTGTGTC +GCGTTTTATGAAGAACACTTCCCGGATCGCTATTTTCTCGAGCTGATCCGCACCGGCAGGCCGGATGAAG +AAAGCTATCTGCACGCGGCGGTGGAACTGGCGGAAGCGCGCGGTTTGCCCGTCGTGGCGACCAACGACGT +GCGCTTTATCGACAGCAGCGACTTTGACGCACACGAAATCCGCGTCGCGATCCACGACGGCTTTACCCTC +GACGATCCTAAACGCCCGCGTAACTATTCGCCGCAGCAATATATGCGTAGCGAAGAGGAGATGTGTGAGC +TGTTTGCCGACATCCCCGAAGCCCTTGCCAACACCGTTGAGATCGCCAAACGCTGTAACGTAACCGTGCG +TCTTGGTGAATACTTCCTGCCGCAGTTCCCGACCGGGGACATGAGCACCGAAGATTATCTGGTCAAGCGT +GCAAAAGAGGGCCTGGAAGAGCGTCTGGCCTTTTTATTCCCTGATGAGGAAGAACGTCTTAAGCGCCGCC +CGGAATATGACGAACGTCTGGAGACTGAACTTCAGGTTATCAACCAGATGGGCTTCCCGGGCTACTTCCT +CATCGTTATGGAATTTATCCAGTGGTCGAAAGATAACGGCGTACCGGTAGGGCCAGGCCGTGGCTCCGGT +GCGGGTTCACTGGTGGCCTACGCGCTGAAAATCACCGACCTCGATCCGCTGGAATTTGACCTGCTGTTCG +AACGTTTCCTTAACCCGGAACGTGTCTCCATGCCTGACTTCGACGTTGACTTCTGTATGGAGAAACGCGA +TCAGGTTATCGAGCACGTAGCGGACATGTACGGTCGTGATGCGGTATCGCAGATCATCACCTTCGGTACA +ATGGCGGCGAAAGCGGTGATCCGCGACGTAGGCCGCGTGCTGGGGCATCCGTACGGCTTTGTCGATCGTA +TCTCGAAACTGATCCCGCCCGATCCGGGGATGACGCTGGCGAAAGCGTTTGAAGCCGAGCCGCAGCTGCC +GGAAATCTACGAAGCGGATGAAGAAGTTAAGGCGCTGATCGACATGGCGCGCAAACTGGAAGGGGTCACC +CGTAACGCCGGTAAGCACGCCGGTGGGGTGGTTATCGCGCCGACCAAAATTACCGATTTTGCGCCGCTTT +ACTGCGATGAAGAGGGCAAACATCCGGTCACCCAGTTTGATAAAAGCGACGTTGAATACGCCGGACTGGT +GAAGTTCGACTTCCTTGGTTTGCGTACGCTCACCATCATCAACTGGGCGCTGGAGATGATCAACAAGCGG +CGGGCGAAGAATGGCGAGCCGCCGCTGGATATCGCTGCGATCCCGCTGGATGATAAGAAAAGCTTCGACA +TGCTGCAACGCTCGGAAACCACGGCGGTATTCCAGCTTGAATCGCGCGGCATGAAGGACCTGATCAAGCG +TCTACAACCTGACTGCTTCGAAGATATGATCGCCCTAGTGGCACTGTTCCGCCCCGGTCCGTTGCAATCA +GGGATGGTGGATAACTTTATCGACCGTAAACATGGTCGTGAAGAGATCTCCTATCCGGACGTACAGTGGC +AGCATGAAAGCCTGAAACCGGTACTGGAGCCAACCTACGGCATTATCCTGTATCAGGAACAGGTCATGCA +GATTGCGCAGGTGCTTTCTGGTTATACCCTCGGTGGCGCGGATATGCTGCGTCGTGCGATGGGTAAGAAA +AAGCCGGAAGAGATGGCTAAGCAACGTTCTGTATTTGCTGAAGGTGCAGAAAAGAACGGAATCAACGCTG +AACTGGCGATGAAAATCTTCGACCTGGTGGAGAAATTCGCTGGTTACGGATTTAACAAATCGCACTCTGC +GGCCTATGCTTTGGTGTCATATCAAACGTTATGGCTGAAAGCGCACTATCCTGCGGAGTTTATGGCGGCG +GTAATGACCGCCGATATGGACAACACCGAGAAGGTGGTGGGTCTGGTGGATGAGTGCTGGCGGATGGGGC +TGAAAATCCTGCCACCAGATATAAACTCCGGTCTTTACCATTTCCACGTCAACGACGACGGCGAAATCGT +GTATGGTATTGGCGCGATCAAAGGGGTCGGTGAAGGTCCGATTGAGGCCATCATCGAAGCCCGTAATAAA +GGCGGCTACTTCCGCGAACTGTTTGATCTCTGCGCCCGTACCGACACCAAAAAGTTGAACCGTCGCGTGC +TGGAAAAACTGATCATGTCCGGGGCGTTTGACCGTCTTGGGCCACATCGCGCAGCGCTGATGAACTCGCT +GGGCGATGCGTTAAAAGCGGCAGATCAACACGCGAAAGCGGAAGCTATCGGTCAGGCCGATATGTTCGGC +GTGCTGGCCGAAGAGCCGGAACAAATTGAACAATCCTACGCCAGCTGCCAACCGTGGCCGGAGCAGGTGG +TATTAGATGGGGAACGTGAAACGTTAGGCCTGTACCTGACCGGACACCCTATCAACCAGTATTTAAAAGA +GATTGAGCGTTATGTCGGAGGCGTAAGGCTGAAAGACATGCACCCGACAGAACGTGGTAAAGTCATCACG +GCTGCGGGGCTCGTTGTTGCCGCGCGGGTTATGGTCACCAAGCGCGGCAATCGTATCGGTATCTGCACGC +TGGATGACCGTTCCGGGCGGCTGGAAGTGATGTTGTTTACTGACGCCCTGGATAAATACCAGCAATTGCT +GGAAAAAGACCGCATACTTATCGTCAGCGGACAGGTCAGCTTTGATGACTTCAGCGGTGGGCTTAAAATG +ACCGCTCGCGAAGTGATGGATATTGACGAAGCCCGGGAAAAATATGCTCGCGGGCTTGCTATCTCGCTGA +CGGACAGGCAAATTGATGACCAGCTTTTAAACCGACTCCGTCAGTCTCTGGAACCCCACCGCTCTGGGAC +AATTCCAGTACATCTCTACTATCAGAGGGCGGATGCACGCGCGCGGTTGCGTTTTGGCGCGACGTGGCGT +GTCTCTCCGAGCGATCGTTTATTAAACGATCTCCGTGGCCTCATTGGTTCGGAGCAGGTGGAACTGGAGT +TTGACTAATACAGGAATACTATGAGTCTGAATTTCCTTGATTTTGAACAGCCGATTGCAGAGCTGGAAGC +GAAAATCGATTCTCTGACTGCGGTTAGCCGTCAGGATGAGAAACTGGATATTAACATCGATGAAGAAGTG +CATCGTCTGCGTGAAAAAAGCGTAGAACTGACACGTAAAATCTTCGCCGATCTCGGTGCATGGCAGATTG +CGCAACTGGCACGCCATCCACAGCGTCCTTATACCCTGGATTACGTTCGCCTGGCATTTGATGAATTTGA +CGAACTGGCTGGCGACCGCGCGTATGCAGACGATAAAGCTATCGTCGGTGGTATCGCCCGTCTCGATGGT +CGTCCGGTGATGATCATTGGTCATCAAAAAGGTCGTGAAACCAAAGAAAAAATTCGCCGTAACTTTGGTA +TGCCAGCGCCAGAAGGTTACCGCAAAGCACTGCGTCTGATGCAAATGGCTGAACGCTTTAAGATGCCTAT +CATCACCTTTATCGACACCCCGGGGGCTTATCCTGGCGTGGGCGCAGAAGAGCGTGGTCAGTCTGAAGCC +ATTGCACGCAACCTGCGTGAAATGTCTCGCCTCGGCGTACCGGTAGTTTGTACGGTTATCGGTGAAGGTG +GTTCTGGCGGTGCGCTGGCGATTGGCGTGGGCGATAAAGTGAATATGCTGCAATACAGCACCTATTCCGT +TATCTCGCCGGAAGGTTGTGCGTCCATTCTGTGGAAGAGCGCCGACAAAGCGCCGCTGGCGGCTGAAGCG +ATGGGTATCATTGCTCCGCGTCTGAAAGAACTGAAACTGATCGACTCCATCATCCCGGAACCACTGGGTG +GTGCTCACCGTAACCCGGAAGCGATGGCGGCATCGTTGAAAGCGCAACTGCTGGCGGATCTGGCCGATCT +CGACGTGTTAAGCACTGAAGATTTAAAAAATCGTCGTTATCAGCGCCTGATGAGCTACGGTTACGCGTAA +TTCGCAAAAGTTCTGAAAAAGGGTCACTTCGGTGGCCCTTTTTTATCGCCACGGTTTGAGCAGGCTATGA +TTAAGGAAGGATTTTCCAGGAGGAACACATGAACATCATTGCCATTATGGGACCGCATGGCGTCTTTTAT +AAAGATGAGCCCATCAAAGAACTGGAGTCGGCGCTGGTGGCGCAAGGCTTTCAGATTATCTGGCCACAAA +ACAGCGTTGATTTGCTGAAATTTATCGAGCATAACCCTCGAATTTGCGGCGTGATTTTTGACTGGGATGA +GTACAGTCTCGATTTATGTAGCGATATCAATCAGCTTAATGAATATCTCCCGCTTTATGCCTTCATCAAC +ACCCACTCGACGATGGATGTCAGCGTGCAGGATATGCGGATGGCGCTCTGGTTTTTTGAATATGCGCTGG +GGCAGGCGGAAGATATCGCCATTCGTATGCGTCAGTACACCGACGAATATCTTGATAACATTACACCGCC +GTTCACGAAAGCCTTGTTTACCTACGTCAAAGAGCGGAAGTACACCTTTTGTACGCCGGGGCATATGGGC +GGCACCGCATATCAAAAAAGCCCGGTTGGCTGTCTGTTTTATGATTTTTTCGGCGGGAATACTCTTAAGG +CTGATGTCTCTATTTCGGTCACCGAGCTTGGTTCGTTGCTCGACCACACCGGGCCACACCTGGAAGCGGA +AGAGTACATCGCGCGGACTTTTGGCGCGGAACAGAGTTATATCGTTACCAACGGAACATCGACGTCGAAC +AAAATTGTGGGTATGTACGCCGCGCCATCCGGCAGTACGCTGTTGATCGACCGCAATTGTCATAAATCGC +TGGCGCATCTGTTGATGATGAACGATGTAGTGCCAGTCTGGCTGAAACCGACGCGTAATGCGTTGGGGAT +TCTTGGTGGGATCCCGCGCCGTGAATTTACTCGCGACAGCATCGAAGAGAAAGTCGCTGCTACCACGCAA +GCACAATGGCCGGTTCATGCGGTGATCACCAACTCCACCTATGATGGCTTGCTCTACAACACCGACTGGA +TCAAACAGACGCTGGATGTCCCGTCGATTCACTTCGATTCTGCCTGGGTGCCGTACACCCATTTTCATCC +GATCTACCAGGGTAAAAGTGGTATGAGCGGCGAGCGTGTTGCGGGAAAAGTGATCTTCGAAACGCAATCG +ACCCACAAAATGCTGGCGGCGTTATCGCAGGCTTCGCTGATCCACATTAAAGGCGAGTATGACGAAGAGG +CCTTTAACGAAGCCTTTATGATGCATACCACCACCTCGCCCAGTTATCCCATTGTTGCTTCGGTTGAGAC +GGCGGCGGCGATGCTGCGTGGTAATCCGGGCAAACGGCTGATTAACCGTTCAGTAGAACGAGCTCTGCAT +TTTCGCAAAGAGGTCCAGCGGCTGCGGGAAGAGTCTGACGGTTGGTTTTTCGATATCTGGCAACCGCCGC +AGGTGGATGAAGCCGAATGCTGGCCCGTTGCGCCTGGCGAACAGTGGCACGGCTTTAACGATGCGGATGC +CGATCATATGTTTCTCGATCCGGTTAAAGTCACTATTTTGACACCGGGGATGGACGAGCAGGGCAATATG +AGCGAGGAGGGGATCCCGGCGGCGCTGGTAGCAAAATTCCTCGACGAACGTGGGATCGTAGTAGAGAAAA +CCGGCCCTTATAACCTGCTGTTTCTCTTTAGTATTGGCATCGATAAAACCAAAGCAATGGGATTATTGCG +TGGGTTGACGGAATTCAAACGCTCTTACGATCTCAACCTGCGGATCAAAAATATGCTACCCGATCTCTAT +GCAGAAGATCCCGATTTCTACCGCAATATGCGTATTCAGGATCTGGCACAAGGGATCCATAAGCTGATTC +GTAAACACGATCTTCCCGGTTTGATGTTGCGGGCATTCGATACTTTGCCGGAGATGATCATGACGCCACA +TCAGGCATGGCAACGACAAATTAAAGGCGAAGTAGAAACCATTGCGCTGGAACAACTGGTCGGTAGAGTA +TCGGCAAATATGATCCTGCCTTATCCACCGGGCGTACCGCTGTTGATGCCTGGAGAAATGCTGACCAAAG +AGAGCCGCACAGTACTCGATTTTCTACTGATGCTTTGTTCCGTCGGGCAACATTACCCCGGTTTTGAAAC +GGATATTCACGGCGCGAAACAGGACGAAGACGGCGTTTACCGCGTACGAGTCCTAAAAATGGCGGGATAA +CTTGCCAGAGCGGCTTCCGGGCGAGTAACGTGCTGTTAACAAATAAAGGAGACGTTATGCTGGGTTTAAA +ACAGGTTCACCATATTGCGATTATTGCGACGGATTATGCGGTGAGCAAAGCTTTCTACTGCGATATTCTT +GGTTTCACGCTGCAAAGCGAAGTCTATCGCGAAGCGCGCGACTCATGGAAAGGGGATTTGGCGCTTAATG +GGCAATATGTGATTGAGCTTTTCTCATTTCCGTTCCCGCCGGAACGACCCAGCCGACCGGAAGCTTGCGG +TCTGCGTCATCTGGCTTTTAGCGTTGATGACATCGATGCGGCAGTGGCGCACCTTGAAAGCCATAACGTG +AAGTGTGAAACCATCCGTGTCGATCCATACACGCAAAAACGCTTCACCTTCTTTAACGATCCGGACGGGC +TGCCGTTGGAACTGTATGAGCAGTAAGGCTTGTCATCGCCGCATTTGCCCGGTAACGTGCCGGGCATTGC +TACTGTAAAATCGCACCATCATGACACTCACGCTCAATAGACAACTTCTCACCTCACGCCAGATTCTGGT +GGCCTTTAGCGGCGGGCTTGACTCCACCGTTCTGCTGCATCAGTTGGTGCAGTGGCGGACGGAAAATCCG +GGTGTCGCTCTGCGCGCTATTCATGTGCATCACGGTTTAAGTGCCAATGCCGATGCCTGGGTTACGCATT +GCGAAAACGTCTGCCAACAGTGGCAGGTGCCGCTGGTGGTCGAACGCGTACAACTTGCGCAAGAAGGACT +GGGCATTGAGGCCCAGGCGCGGCAGGCACGTTATCAGGCATTTGCCCGCACCTTGTTGCCCGGTGAAGTG +CTGGTCACCGCGCAACATCTCGACGATCAATGTGAAACCTTTCTGCTGGCGCTAAAACGCGGCAGTGGCC +CTGCCGGGCTTTCGGCTATGGCGGAAGTCTCGGAGTTTGCCGGAACGCGGCTTATTCGCCCGTTGCTCGC +CCGCACGCGGGGGGAACTGGTGCAGTGGGCGCGTCAGTATGATTTACGCTGGATTGAAGACGAAAGTAAT +CAGGACGACTCATACGATCGTAACTTTCTGCGCCTGCGCGTAGTGCCGTTATTGCAGCAGCGTTGGCCGC +ATTTTGCCGAAGCAACGGCCCGCAGCGCCGCACTTTGTGCTGAACAAGAGAGCCTGCTGGATGAACTGCT +GGCAGATGATTTAGCACACTGTCAATCGCCGCAGGGGACGCTGCAGATTGTGCCAATGCTGGCGATGAGT +GATGCCCGCCGCGCGGCGATTATCCGCCGCTGGCTGGCAGGGCAGAATGCACCGATGCCTTCCCGCGACG +CGTTGGTGAGGATCTGGCAGGAAGTGGCGCTGGCGCGGGAAGATGCCTCACCCTGTTTACGTTTGGGCGC +GTTTGAAATCCGACGCTATCAGTCGCAACTGTGGTGGATTAAATCCGTCACCGGGCAAAGCGAAAACATT +GTGCCGTGGCAGACGTGGCTTCAACCGCTGGAATTACCGGCGGGGCTGGGAAGTGTACAGCTTAATGCGG +GAGGCGATATTCGCCCTCCGCGTGCAGACGAAGCGGTCAGCGTGCGTTTCAAAGCGCCAGGATTGCTGCA +TATTGTCGGGCGTAACGGCGGACGTAAGCTAAAGAAAATCTGGCAAGAGCTGGGCGTGCCGCCGTGGCTA +CGTGACACCACGCCACTGCTGTTTTATGGCGAAACGCTGATTGCGGCGGCAGGGGTATTTGTGACGCAAG +AAGGTGTGGCTGAAGGTGAGAATGGCGTAAGTTTTGTCTGGCAGAAAACGCTTAGTTAAGTGAAAGCCGG +ATAAGACGCATCAAACGTCGCATCCGGCGAAAGTCAATCAGGATTCGCTTACCACCACCGTACCGATTTC +CGGGTGGCTAAAGCTGGTAATTTTATCCAGACGCAGCTCGCGGGTTTCGCCAGCGGCCTCGACGACCAGG +TACTCCACATTTTTGCGGGAGACTAAATCACTGGCTTTTGCCTGCAATTTTTCGCCATCTTTCAGCTCAA +GTGTCAGCATTAAATGATGCTGGCAGGCGAGCTCAAGATTATCGTAATCATCACAATTGATTGGTTGATA +CGTATCATTCATTGACATAATCGCTCACCAGTAAGTTTGCCGCAGCGTATGCTGCTTTTTCCCTGACAGC +CTCAGAAAGGGCGTCGTCGGCAGCCATTTCATTCAGCACTTTCAAAACGCAGCCCAGCGCGTCCGGAACG +TATCCTAAGTCTCCGCTGGCGATTTCCGCGTACCGCTTGCGTATTAACTCACAATATTTTTCCACATGCC +CTCCTGTCAGCACTCTGACTTAACCGTGGATGCAAGTCTAAGCCTACGAAGATAAACTCTGTTTCGCAAG +GTGACTATACCACACTCATTTCTGCAATATCAGCGCCGCAACTGCACGTATTCCGTTACAATGGCCTCCT +GATTCGAAAGGAGTTTTCTTATGGCGCTTAAAGCGACAATTTATAAAGCGACGGTTAATGTGGCCGATCT +CGACCGCAACCAGTTTCTCGATGCCTCTCTGACGCTGGCGCGCCATCCTTCAGAAACCCAGGAGCGTATG +ATGCTGCGCTTGCTGGCGTGGCTGAAATATGCTGATGAACGTCTGCAATTTACCCGTGGTTTGTGTGCCG +ATGATGAGCCGGAAGCGTGGCTGCGTAACGATCACCTGGGCATTGATTTGTGGATTGAGCTGGGGCTGCC +GGATGAGCGGCGGATTAAGAAAGCCTGCACCCAGGCCGCAGAAGTGGCGCTGTTTACCTATAATAGTCGG +GCGGCGCAAATCTGGTGGCAGCAAAATCAGAGCAAATGTGTGCAGTTTGCCAATCTTTCCGTCTGGTATC +TGGACGATGAACAACTGGCGAAAGTAAGCGCCTTTGCCGATCGTACCATGACGCTGCAGGCAACGATTCA +GGATGGCGTGATCTGGTTATCGGATGATAAGAATAATCTGGAAGTGAACTTAACCGCCTGGCAACAACCT +TCATGATTGTGATTTCCCGACATGTTGCTATTCCCGATGGTGAGCTTGAGATCACCGCCATTCGTGCGCA +GGGCGCGGGCGGGCAGCATGTTAATAAGACCTCAACGGCTATTCATCTGCGTTTTGACATTCGGGCGTCC +AGCCTGCCAGAGTATTACAAAGAGCGTCTGCTCGCCGCCAGCCATCATTTGATCAGCAGTGATGGCGTGA +TTGTCATTAAGGCACAGGAATACCGCAGTCAGGAACTGAACCGCGAAGCAGCTCTGGCCCGGCTGGTGGC +TATGATTAAAGAATTAACAACAGAAAAAAAAGCCCGACGACCCACGCGGCCCACCCGTGCATCGAAAGAG +CGCAGGCTGGCATCGAAAGCACAAAAATCAAGCGTGAAGGCGATGCGCGGCAAAGTGCGCAGCGGTCGGG +AATAAAAAGAAGGAATGGATGGTGAAAAAAGCGATAGTGACAGCGATGGCTGTAATCAGCCTCTTTACTC +TGATGGGATGTAATAATCGGGCCGAAGTCGATACGCTTTCTCCGGCGCAGGCTGCCGAACTGAAACCGAT +GCCGCAAAGTTGGCGCGGCGTGCTGCCGTGTGCCGATTGCGAAGGAATCGAAACCTCTCTGTTCCTCGAA +AAAGACGGAACATGGGTGATGAATGAGCGTTATCTCGGTGCTCGTGAAGAACCTTCCTCCTTCGCTTCCT +ACGGTACATGGGCGCGAACCGCTGACAAGCTGGTATTAACCGACAGCAAAGGTGAAAAGTCATATTATCG +GGCGAAAGGCGATGCGCTGGAGATGCTCGATCGTGAAGGCAATCCGATTGAATCGCAGTTCAACTATACG +CTGGAAGCGGCACAATCCAGTTTACCTATGACGCCGATGACCCTGCGGGGCATGTATTTTTATATGGCTG +ATGCGGCGACCTTCACTGATTGCGCGACCGGAAAACGTTTCATGGTAGCGAATAACGCAGAGCTGGAGCG +TAGCTACCTGGCTGCGCGCGGTCACAGTGAAAAACCGGTGTTACTGTCAGTAGAAGGTCACTTTACGCTT +GAGGGTAATCCGGATACCGGTGCGCCGACTAAAGTATTGGCACCCGATACGGCAGGGAAATTTTACCCCA +ACCAGGATTGCAGTAGTTTGGGGCAGTAACCCGTCTTGAGACAGAAACAAACGCAAAACAGGCCAGAAGG +ATATATTTCAACATTTTGAATTTGCACGTTTTTTGTAGGCCGGATAAGGCGTTTACGCCGCATCCGGCAA +TGGTGCTCAACGCCTGATGCGACGCTGGCGCGTCTTATCATGCCTACAACCCCCCTCATACCTTAAGGCG +GATAAGGCATTTACTTTATCACCGGGTCAAACCAACAAAGCGACCCGCCTTGATATAAATCCCAGGCTTC +AGGTGCCCAACATACTGTAACTGCGTTTCTGGCTTAAACGCAGAGACATCACCAATACGCATATGCATCA +GATCGGCAGGGCTAATCCAGCCCGATTGCGCCAGTGTAAGTGGATGCCCGGCTTTGGCAAAGGCATCCGT +GACAAATTCCGAACAAAACCACGACTTTTTGTCTCCTTCGCCCACACTGCTTAACTGCGCTTTCGCCAGG +CCGCTGACGCACTGTTGGCGAAAATCCTCGGAGAACGGATTCAGTGAGCACATCTGGCGAGTCACCATAA +AGGGAATAAATTCGACAATGCCGCGATAGTTATAACCGCTATCTTTGATTTTATTGGCAAACGCGGTGAT +ATCTGTGGCTTGTTGCGGGGTAAGATCCGGGACTCGTAAGACGAAAAGCTTATCACTATGCTTCATCGCT +TTTTTAAGGGAAACGATCTGGACGCCAGCGCCTGTCGCTTCTGCAACGTTATTATCACCCAGAAAGATTG +CAACGTGACTCACAGAGGAAGTGCTGAAGACGCGGATTCCAAATGAGGTTACCCCAAGGCTTGAGGAGAA +CAGCAAATCGCCGGGTTTGAGATCAGGTGCCGTTATTTCTTTTATTGATTGTTCGGTGAAAGAGCTTTGA +TGCTGGAATTTGACAGCCCATGTTTTTGCCTCGGCATCTACTGCTGTGGCTGATGGGTCTGGCTGGCTGA +TATCAACGGTACAAGCCGAAAGTAAAAGAAAGCTGGGGAGAAACAGGCGGCAGTACGCCTTTGGTTTATC +CATTTTATACAATCCATGTAAAAAAAGGGCCCTGAAATTCAGGACCCTTTCTGGCATCAGCCTTTAATCT +GTTTCACCAGATATTCGACGATGTCACCAGTCTTAATTAACTGTTTCTCGCCGTTGCGACGATATTTATA +TTCGATATCGTCGTTGTCGAGGTTACGGTCGCCCAGCACAATAGTGTGCGGAATACCGATCAGTTCCATA +TCAGCAAACATCACGCCCGGACGCTCTTTGCGGTCATCCAGCAGCACTTCGATACCTTGTGCACGCAGTT +CGCTGTACAGTTTCTCAGCAAGCTCTTGTACGCGGAAGGATTTGTGCATGTTCATCGGCAGAATCGCCAC +CTGGAACGGCGCGATAGCGTCAGGCCATACGATGCCTCGTTCGTCGTAGTTCTGCTCAATCGCCGCAGCT +ACCACACGCGTTACCCCGATACCGTAGCAACCCATCGTCAGGATTTGGTTACGGCCATCTTCACCCTGTA +CGGAGGCTTTCAGTGCTTCGGAGTACTTGGTACCCAGCTGGAAGATGTGACCAACTTCGATACCACGTTT +GATCAGCAGCCTACCCTGGCCATCCGGGCTTGGATCGCCAGCCACCACGTTACGGATATCTGCAACTTCC +GGGGTAGCGACATCGCGATCCCAGTTGATGCCGAAGTAGTGTTTACCATCGATGTTAGCACCAGCAGCGA +AATCACTCATCGCCGCAACGGTACGGTCAATCACCACCGGAATCGGCATGTTTACCGGACCCAGTGAACC +CGGACCGGCTTTAACCACGGCACGAATTTCTTCTTCGGTCGCGAAAGTCAGCGGGCTTGCAACCTGCGGC +AGTTTTTCTGCTTTAACTTCGTTCAGCTCGTGATCACCGCGCACCAGCAGCGCAACCTGCGGGAAGCTGC +TGCCTTCAACCGCTTTAACCAGCAGAGTCTTAACCGTTTTCTCAATCGGCAGATTGAACTGTTCAACCAG +TTCCGCGATGGTTTTCGCGTTCGGCGTATCAACCAGCGTCATTTCCTGGGTAGCAGCAGCGCGCGGTTCT +TTCGGCGCGATAGCTTCTGCCAGTTCAATGTTCGCTGCATAGTCAGAGGTGTCGGAGAAGACCACATCGT +CTTCACCGCTCTGCGCCAGCACCTGGAATTCGTGAGAGGCGCTGCCGCCGATAGAACCGGTGTCGGCTTG +TACGGCGCGGAAATCCAGCCCCATGCGGCTGAAGATTTTGCTGTAGGCCGCATACATTGCATCGTAGGTT +TCCTGCAGGGATTCCTGAGAAGTATGGAAAGAGTAAGCATCTTTCATCAGGAATTCGCGGGAACGCATGA +CGCCGAAACGCGGACGCACTTCGTCGCGGAACTTGGTCTGGATCTGATAGAAGTTCAGCGGCAGCTGTTT +GTAAGAGCTAAGCTCGTTACGAATCAGGTCAGTGATAACTTCTTCATGAGTTGGGCCGAGTACGAACGGA +CGCTCGCCACGGTCAACAAAACGCAGCAGTTCCGGACCGTACTGTTCCCAACGACCACTCTCTTGCCACA +AATCGGCTGGCTGAACCACCGGCATCGACACCTCGATCGCACCGGCGTTGTTCATCTCTTCACGCACGAT +GTTTTCGACTTTTTTCAGAACGCGCACGCCGGTCGGCAGCCAGGTATATAACCCGGAGGCCAGCTTGCGG +ATCATCCCGGCGCGCAGCATCAGCTGATGGCTGATCACCTCGGCGTCGGCAGGTGTCTCCTTGAGAGTGG +AGAGCAGGTATTGGCTAGTACGCATGTTGTTACGGTTCCAGTTGGAAGGTAGAACAGGCTCAAGGCGAGC +CTGGGACAAAAAAAAGTGATTTAGTTTACCAGTGCAAAAGAAATGTCAAAAGAGAAGGGCGTGAATTTAA +CGCGGTTCCAGCGCAAAGACTTCAAAACCTGCGTCGGTGACGCGCCAGCGAACGTTAAAATCATGTAGCC +AGACGGCATAGGTTTTGCCCGTTTCCTCACCTTTACGATAGGCCGGGCGCGGGTCCTGCGCCAGTACTTC +GCGGATAAACAGCGTTAACTGCGGATAACGCTTCTCCAGCGTCAAAAGCTGCTTTTCGACCTCTGCGGTA +AAACTCACCGCCATCTCTGCAGCTGGCGCACTTTGCGCATAGCTGGCACTGGCATCGGGAAGCGATTCGG +CAAAGGGGAGATACGGTTTGATATCCACTACCGGCGTACCATCGACCAGATCCAGACTGCCGAGCTTCAG +AATCACGCTGTCTTTATGGCAAACAACCTCTTTCAGCTCTACCAGCGACATGCCAATTGGGTTAGGGCGG +AAAGTAGAGCGTGTTGCGAAAACCCCCATTCTGGCGTTACCGCCGAGGCGCGGTGGACGCACAGTCGGAC +GCCAGCCGCCTTCCATCGTTTGATGAAAGACGAAAAGGATCCATAAATGGCTGAACGCTTCCAGGCCGCG +AACGGCGTCGGCCTGGTTGTAGGGAGCAATGAGATGCAGTTCGCCGTTGGCGCTTTTTACCAGACCTGGC +TGGCGCGGAACGGCGAACTTTTCTTTATAGGGCGAGCGAATAACGCCTATTTGCTCGAACTGGAAACTGC +TCATTTCGCCGTAATGTTAAGCGCAGAACCGATACATACAGCCTGACGATAGCAGCCTGGCGTACCGCTG +GTGACTTCGCAGCTATGCAGTAATACAGCATTGGCTTTCATTTTAGAGGCGTTGATTTGCATCCGCTTAC +GTGCGGTTGGAATGCTCGGCGGAGAGTCCTGATTAGAGGCCTGGCAAGAGTCGCCACTGACTTCACCGAG +ATCGCGGAACGGTTTGCCGACTAATTCTTCTGCATTGGTATAAATTCGGACCGGCGTGGCGCGCGGCGCT +TTCGGTTTTGCAGGCTCCGCTTTCGGCTGGGGTGCAGTGCTTTGAACGGGTTCGACAGGGGATCTGCTTA +ACATGGAACAGCCGCTTAGCATGAGTGCTACTAAACAGATCGGTAAAGCACGCATAGTATTTCCTCAATG +TATGATCAAAACGTCAATATTGAATCAGGAGCTTGTAAAAATGACAAGACGGGCAAGCGCCCGTCCTGAA +TGATATTACAAATTGTGGAAACAGCCTAAAAATTACCAGCCTTTAACAGCTCCGCCGTTAAACACTTTGT +TTGCTGCTTCGTAAACTTCGTCAGACTGATAAGCCTGGACGAATTTCTTCACGTTCTCGGCGTCTTTGTT +ATCTTCACGCGTCACGATCAGGTTTACGTACGGGGACTCTTTATCTTCAACAAAGATACCGTCTTTCGCC +GGAGTCAGGCCAATCTGGCTGGCATAGGTGGTATTGATAACTGCCAGAGCGATTTGCGCGTCGTCCAGAG +AACGCGGCAGTTGCGGTGCTTCCAGTTCAACAATTTTCAGATTTTTGGGGTTCTCAACAACATCAAGAAC +GGTCGGCAGCAGGCCAACGCCATCTTTCAGTTTGATCAAGCCCACTTTTTGCAGCAGCAGCAGTGAACGA +CCAAGGTTAGTTGGGTCGTTTGGCACGGCAACCTGCGAACCATCCTGCAGTTCATCCAGTGATTTGATTT +TCTTGGAGTAACCAGCAATCGGATAAACAAAAGTGTTGCCTACTGCGACCAGTTTGTAGCCACGATCTTT +CAGTTGCTGATCAAGGTACGGTTTATGCTGGAAGGCGTTGGCGTCGATATCGCCTTTGCTCAATGCTTCG +TTTGGCAGAACATAGTCGTTGAAGGTTACCAGCTCAACGTCCAGGCCATATTTGTCTTTCGCAACTTTCT +GCGCGACTTCTGCAACCTGCTGTTCGGCACCAACAATCACGCCGACTTTAATGTGGTTTGGATCTTTTTC +ATCCTGACCGCAGCCTACCAGTGCCAGTGATCCGATCAGGGCTCCCACTGCCGCAAAGGTTTTGAATTTG +AACGCCATACCTTATTCCTTCTTCAATTATTTATGTTGTGTTGAACGTTACTTGCGAGTGACAGCCCGGA +CGATGCGGTCGCCTGCGAACTGAATTAAATAAACCAGAATGACCAGCAATACCAGTACCGTATTCATCAC +CGTCGCGTTATAGCCGATGTAGCCATACTGATAGCCAATCTGACCTAAACCACCGGCACCGACTGCACCA +CCCATCGCGGAATAACCGACCAGGGTAATCAGGGTGATAGTTGCCGCATTCACCAGACCCGGCAGCGCTT +CCGGTAACAGCACCTTACGGACGATCTGCATCGGCGTGGCACCCATTGCGCGGGAAGCTTCAATTAACCC +GGTTGGGATCTCCAGCAGAGCGTTCTCGACCATACGGGCAATAAACGGTGCTGCACCAACGGTTAACGGA +ACAATCGCTGCCTGCAAACCAATCGATGTACCGACAATAACGCGGGTAAACGGAATCATCCATACAAGCA +AGATAATGAACGGGATGGAACGGAAAATGTTCACAATCGCAGAAACGGTACGATACAGCTTCGCGTTAGC +AATAATTTGCCCCGGACGCGTGACATAAAGCAGAACGCCAACCGGCAGACCAATCACAAAGCCAAAAAAA +CCGGATACGAAGGTCATTGCCAGCGTTTCCCATACGCCACGAACCAGCAGCCACATCATCGGCTCAGACA +TAACCCAGTACCTCTACTTTTACATGGTGTTCCTGCAGCCAGGCAATGGCGGCTTGCGTATCTTGTTGTG +TGCCGTGCATTTCAGTCAGCATGATGCCGAACTTAACGCCACCGGCGTAATCCATCTGCGCGCTAATAAT +GTTGTTGTTGACGTTGAAACGACGCGCGGTTTCAGAAAGCAGTGGGGCATCGACCGATTGACCGGTAAAC +TCCAGACGCAGCATCGGCACGCAGTCAGTAAATGGCTCCGCTTGCAGACGTTCCTGGTAATCTTCCGGGA +TATCCAGATGCAGGGTCGACTGAATAAACTTCTGCGCCAGCGGCGTTTTCGGATGCGAGAACACTTCACT +TACCGTGTCCTGCTCGATCAGTTCTCCATTGCTGATGACCGCCACGCAATCACAAATGCGCTTCACAACG +TCCATTTCGTGGGTGATCAACAGAATCGTCAACCCCAGACGGCGGTTGATGTCTTTCAGCAGTTCGAGAA +TAGAACGTGTCGTTGCCGGGTCCAGCGCGCTGGTGGCTTCATCACACAGCAATACTTTGGGATTGCTGGC +TAACGCACGGGCAATTGCCACACGTTGTTTCTGCCCACCGGAAAGATTCGACGGGTAGCTATCATGCTTA +TCGCCAAGACCAACCAATGACAGCAATTCCGTCACGCGACGTTTGACCTCGTCTTTCGGTGTGTTGTCCA +GCTCCAGCGGCAGAGCCACGTTGCCAAAAACAGTACGCGAAGAGAGCAGGTTAAAATGCTGGAAAATCAT +ACCAATCTGGCGGCGAGCTTTGGTCAACTCGGATTCTGACAGCGTGGTCAGTTCCTGGCCATCGACCAGC +ACGCTACCCTCGGTTGGGCGCTCCAGCAGGTTTACACAACGTATAAGCGTACTCTTACCCGCGCCTGAGG +CACCGATAACGCCATAAATTTGTCCAGCTGGCACATGCAGGCTGACGTTGTTCAACGCCTGGATGGTGCG +GGTGCCCTGGTGGAACACTTTGGTGATATTCGAAAGTTTTATCATTGATTATTTATTATCGTCATTAAGT +TAGTCGTGGCATCTCGAATGCCTGAAACGGGCAACGCCGTCAATGAAATGGATGTTAAGGCATCCAGACG +TCTAAATCAATCAGGTTTATGCGAAGAGCACTTTCTTGCAGGTCGAAACATGCGATACTAGCGTCACATG +CCTTATTAAGGAGCTATAAAAGGTGGCGAAGAGCGTACCCGCAATTTTTCTTGACCGTGATGGCACCATT +AATGTCGATCACGGCTATGTCCATGAGATCGACAACTTTGAATTTATCGACGGTGTTATTGACGCCATGC +GCGAGCTAAAAAAAATGGGCTTTGCGCTGGTGGTAGTAACCAACCAGTCTGGCATTGCTCGCGGTAAATT +TACCGAAGCACAGTTTGAAACGCTGACCGAGTGGATGGACTGGTCGCTGGCGGACCGAGATGTCGATCTG +GATGGTATCTATTATTGCCCGCATCATCCGCAGGGTAGTGTTGAAGAGTTTCGCCAGGTCTGCGATTGCC +GCAAACCACATCCGGGGATGCTTTTGTCAGCACGCGATTATTTGCATATTGATATGGCCGCTTCTTATAT +GGTGGGCGATAAATTAGAAGATATGCAGGCAGCGGTTGCGGCGAACGTGGGAACAAAAGTGCTGGTGCGT +ACGGGTAAACCTATTACGCCTGAAGCAGAAAACGCGGCGGATTGGGTGTTAAATAGCCTGGCAGACCTGC +CGCAAGCGATAAAAAAGCAGCAAAAACCGGCACAATGATTAAAAGATGAGCGGTTGAAATAAAAATGCAT +TTTTCCGCTTGTCTTCCTGAGCCGACTCCCTATAATGCGCCTCCATCGACACGGCGGATGTGAATCACTT +CACACAAACAGCCGGTTCGGTTGAAGAGAAAAATCCTGAAATTCAGGGTTGACTCTGAAAGAGGAAAGCG +TAATATACGCCACCTCGCGACAGTGAGCTGAAAGCCGCGTCGCAACTGCTCTTTAACAATTTATCAGACA +ATCTGTGTGGGCACTCGAAGATACGGATTCTTAACGTCGCAAGACGAAAAATGAATACCAAGTCTCAAGA +GTGAACACGTAATTCATTACAAAGTTTAATTCTTTGAGCATCAAACTTTTAAATTGAAGAGTTTGATCAT +GGCTCAGATTGAACGCTGGCGGCAGGCCTAACACATGCAAGTCGAACGGTAACAGGAAGAAGCTTGCTTC +TTTGCTGACGAGTGGCGGACGGGTGAGTAATGTCTGGGAAACTGCCTGATGGAGGGGGATAACTACTGGA +AACGGTAGCTAATACCGCATAACGTCGCAAGACCAAAGAGGGGGACCTTCGGGCCTCTTGCCATCGGATG +TGCCCAGATGGGATTAGCTAGTAGGTGGGGTAACGGCTCACCTAGGCGACGATCCCTAGCTGGTCTGAGA +GGATGACCAGCCACACTGGAACTGAGACACGGTCCAGACTCCTACGGGAGGCAGCAGTGGGGAATATTGC +ACAATGGGCGCAAGCCTGATGCAGCCATGCCGCGTGTATGAAGAAGGCCTTCGGGTTGTAAAGTACTTTC +AGCGGGGAGGAAGGGAGTAAAGTTAATACCTTTGCTCATTGACGTTACCCGCAGAAGAAGCACCGGCTAA +CTCCGTGCCAGCAGCCGCGGTAATACGGAGGGTGCAAGCGTTAATCGGAATTACTGGGCGTAAAGCGCAC +GCAGGCGGTTTGTTAAGTCAGATGTGAAATCCCCGGGCTCAACCTGGGAACTGCATCTGATACTGGCAAG +CTTGAGTCTCGTAGAGGGGGGTAGAATTCCAGGTGTAGCGGTGAAATGCGTAGAGATCTGGAGGAATACC +GGTGGCGAAGGCGGCCCCCTGGACGAAGACTGACGCTCAGGTGCGAAAGCGTGGGGAGCAAACAGGATTA +GATACCCTGGTAGTCCACGCCGTAAACGATGTCGACTTGGAGGTTGTGCCCTTGAGGCGTGGCTTCCGGA +GCTAACGCGTTAAGTCGACCGCCTGGGGAGTACGGCCGCAAGGTTAAAACTCAAATGAATTGACGGGGGC +CCGCACAAGCGGTGGAGCATGTGGTTTAATTCGATGCAACGCGAAGAACCTTACCTGGTCTTGACATCCA +CAGAACTTTCCAGAGATGGATTGGTGCCTTCGGGAACTGTGAGACAGGTGCTGCATGGCTGTCGTCAGCT +CGTGTTGTGAAATGTTGGGTTAAGTCCCGCAACGAGCGCAACCCTTATCTTTTGTTGCCAGCGGTCCGGC +CGGGAACTCAAAGGAGACTGCCAGTGATAAACTGGAGGAAGGTGGGGATGACGTCAAGTCATCATGGCCC +TTACGACCAGGGCTACACACGTGCTACAATGGCGCATACAAAGAGAAGCGACCTCGCGAGAGCAAGCGGA +CCTCATAAAGTGCGTCGTAGTCCGGATTGGAGTCTGCAACTCGACTCCATGAAGTCGGAATCGCTAGTAA +TCGTGGATCAGAATGCCACGGTGAATACGTTCCCGGGCCTTGTACACACCGCCCGTCACACCATGGGAGT +GGGTTGCAAAAGAAGTAGGTAGCTTAACCTTCGGGAGGGCGCTTACCACTTTGTGATTCATGACTGGGGT +GAAGTCGTAACAAGGTAACCGTAGGGGAACCTGCGGTTGGATCACCTCCTTACCTTAAAGAAGCGTACTT +TGCAGTGCTCACACAGATTGTCTGATGAAAATGAGCAGTAAAACCTCTACAGGCTTGTAGCTCAGGTGGT +TAGAGCGCACCCCTGATAAGGGTGAGGTCGGTGGTTCAAGTCCACTCAGGCCTACCAAATTTGCACGGCA +AATTTGAAGAGGTTTTAACTACATGTTATGGGGCTATAGCTCAGCTGGGAGAGCGCCTGCTTTGCACGCA +GGAGGTCTGCGGTTCGATCCCGCATAGCTCCACCATCTCTGTAGTGGTTAAATAAAAAATACTTCAGAGT +GTACCTGCAAAGGTTCACTGCGAAGTTTTGCTCTTTAAAAATCTGGATCAAGCTGAAAATTGAAACACTG +AACAATGAAAGTTGTTCGTGAGTCTCTCAAATTTTCGCAACACGATGATGGATCGCAAGAAACATCTTCG +GGTTGTGAGGTTAAGCGACTAAGCGTACACGGTGGATGCCCTGGCAGTCAGAGGCGATGAAGGACGTGCT +AATCTGCGATAAGCGTCGGTAAGGTGATATGAACCGTTATAACCGGCGATTTCCGAATGGGGAAACCCAG +TGTGTTTCGACACACTATCATTAACTGAATCCATAGGTTAATGAGGCGAACCGGGGGAACTGAAACATCT +AAGTACCCCGAGGAAAAGAAATCAACCGAGATTCCCCCAGTAGCGGCGAGCGAACGGGGAGGAGCCCAGA +GCCTGAATCAGTGTGTGTGTTAGTGGAAGCGTCTGGAAAGGCGCGCGATACAGGGTGACAGCCCCGTACA +CAAAAATGCACATGCTGTGAGCTCGATGAGTAGGGCGGGACACGTGGTATCCTGTCTGAATATGGGGGGA +CCATCCTCCAAGGCTAAATACTCCTGACTGACCGATAGTGAACCAGTACCGTGAGGGAAAGGCGAAAAGA +ACCCCGGCGAGGGGAGTGAAAAAGAACCTGAAACCGTGTACGTACAAGCAGTGGGAGCATGCTTAGGCGT +GTGACTGCGTACCTTTTGTATAATGGGTCAGCGACTTATATTCTGTAGCAAGGTTAACCGAATAGGGGAG +CCGAAGGGAAACCGAGTCTTAACTGGGCGTTAAGTTGCAGGGTATAGACCCGAAACCCGGTGATCTAGCC +ATGGGCAGGTTGAAGGTTGGGTAACACTAACTGGAGGACCGAACCGACTAATGTTGAAAAATTAGCGGAT +GACTTGTGGCTGGGGGTGAAAGGCCAATCAAACCGGGAGATAGCTGGTTCTCCCCGAAAGCTATTTAGGT +AGCGCCTCGTGAACTCATCTCCGGGGGTAGAGCACTGTTTCGGCAAGGGGGTCATCCCGACTTACCAACC +CGATGCAAACTGCGAATACCGGAGAATGTTATCACGGGAGACACACGGCGGGTGCTAACGTCCGTCGTGA +AGAGGGAAACAACCCAGACCGCCAGCTAAGGTCCCAAAGTCATGGTTAAGTGGGAAACGATGTGGGAAGG +CCCAGACAGCCAGGATGTTGGCTTAGAAGCAGCCATCATTTAAAGAAAGCGTAATAGCTCACTGGTCGAG +TCGGCCTGCGCGGAAGATGTAACGGGGCTAAACCATGCACCGAAGCTGCGGCAGCGACGCTTATGCGTTG +TTGGGTAGGGGAGCGTTCTGTAAGCCTGTGAAGGTGTACTGTGAGGTATGCTGGAGGTATCAGAAGTGCG +AATGCTGACATAAGTAACGATAAAGCGGGTGAAAAGCCCGCTCGCCGGAAGACCAAGGGTTCCTGTCCAA +CGTTAATCGGGGCAGGGTGAGTCGACCCCTAAGGCGAGGCCGAAAGGCGTAGTCGATGGGAAACAGGTTA +ATATTCCTGTACTTGGTGTTACTGCGAAGGGGGGACGGAGAAGGCTATGTTGGCCGGGCGACGGTTGTCC +CGGTTTAAGCGTGTAGGCTGGTTTTCCAGGCAAATCCGGAAAATCAAGGCTGAGGCGTGATGACGAGGCA +CTACGGTGCTGAAGCAACAAATGCCCTGCTTCCAGGAAAAGCCTCTAAGCATCAGGTAACATCAAATCGT +ACCCCAAACCGACACAGGTGGTCAGGTAGAGAATACCAAGGCGCTTGAGAGAACTCGGGTGAAGGAACTA +GGCAAAATGGTGCCGTAACTTCGGGAGAAGGCACGCTGATATGTAGGTGAAGCGACTTGCTCGTGGAGCT +GAAATCAGTCGAAGATACCAGCTGGCTGCAACTGTTTATTAAAAACACAGCACTGTGCAAACACGAAAGT +GGACGTATACGGTGTGACGCCTGCCCGGTGCCGGAAGGTTAATTGATGGGGTTAGCGCAAGCGAAGCTCT +TGATCGAAGCCCCGGTAAACGGCGGCCGTAACTATAACGGTCCTAAGGTAGCGAAATTCCTTGTCGGGTA +AGTTCCGACCTGCACGAATGGCGTAATGATGGCCAGGCTGTCTCCACCCGAGACTCAGTGAAATTGAACT +CGCTGTGAAGATGCAGTGTACCCGCGGCAAGACGGAAAGACCCCGTGAACCTTTACTATAGCTTGACACT +GAACATTGAGCCTTGATGTGTAGGATAGGTGGGAGGCTTTGAAGTGTGGACGCCAGTCTGCATGGAGCCG +ACCTTGAAATACCACCCTTTAATGTTTGATGTTCTAACGTTGACCCGTAATCCGGGTTGCGGACAGTGTC +TGGTGGGTAGTTTGACTGGGGCGGTCTCCTCCTAAAGAGTAACGGAGGAGCACGAAGGTTGGCTAATCCT +GGTCGGACATCAGGAGGTTAGTGCAATGGCATAAGCCAGCTTGACTGCGAGCGTGACGGCGCGAGCAGGT +GCGAAAGCAGGTCATAGTGATCCGGTGGTTCTGAATGGAAGGGCCATCGCTCAACGGATAAAAGGTACTC +CGGGGATAACAGGCTGATACCGCCCAAGAGTTCATATCGACGGCGGTGTTTGGCACCTCGATGTCGGCTC +ATCACATCCTGGGGCTGAAGTAGGTCCCAAGGGTATGGCTGTTCGCCATTTAAAGTGGTACGCGAGCTGG +GTTTAGAACGTCGTGAGACAGTTCGGTCCCTATCTGCCGTGGGCGCTGGAGAACTGAGGGGGGCTGCTCC +TAGTACGAGAGGACCGGAGTGGACGCATCACTGGTGTTCGGGTTGTCATGCCAATGGCACTGCCCGGTAG +CTAAATGCGGAAGAGATAAGTGCTGAAAGCATCTAAGCACGAAACTTGCCCCGAGATGAGTTCTCCCTGA +CTCCTTGAGAGTCCTGAAGGAACGTTGAAGACGACGACGTTGATAGGCCGGGTGTGTAAGCGCAGCGATG +CGTTGAGCTAACCGGTACTAATGAACCGTGAGGCTTAACCTTACAACGCCGAAGCTGTTTTGGCGGATTG +AGAGAAGATTTTCAGCCTGATACAGATTAAATCAGAACGCAGAAGCGGTCTGATAAAACAGAATTTGCCT +GGCGGCCGTAGCGCGGTGGTCCCACCTGACCCCATGCCGAACTCAGAAGTGAAACGCCGTAGCGCCGATG +GTAGTGTGGGGTCTCCCCATGCGAGAGTAGGGAACTGCCAGGCATCAAATTAAGCAGTAAGCCGGTCATA +AAACCGGTGGTTGTAAAAGAATTCGGTGGAGCGGTAGTTCAGTCGGTTAGAATACCTGCCTGTCACGCAG +GGGGTCGCGGGTTCGAGTCCCGTCCGTTCCGCCACTTATTAAGAAGCCTCGAGTTAACGCTCGAGGTTTT +TTTTCGTCTGTATATCTATTATTGCCAGAATCGCAAAAATCCTCTGCATTTTACGCTCTTTTTCCTCAAC +AGTCTGAAGCCCATAATCACCTCAGTTAACGAAAATAGCATTAAAAGAGGCATATTATGGCTATCCCTGC +ATTTGGTTTAGGTACTTTCCGTCTGAAAGACGACGTTGTTATTTCATCTGTGATAACGGCGCTTGAACTT +GGTTATCGCGCAATTGATACCGCACAAATCTATGATAACGAAGCCGCAGTAGGTCAGGCGATTGCAGAAA +GTGGCGTGCCACGTCATGAACTCTACATCACCACTAAAATCTGGATTGAAAATCTCAGCAAAGACAAATT +GATCCCAAGTCTGAAAGAGAGCCTGCAAAAATTGCGTACCGATTATGTTGATCTGACGCTAATCCACTGG +CCGTCACCAAACGATGAAGTCTCTGTTGAAGAGTTTATGCAGGCGCTGCTGGAAGCCAAAAAACAAGGGC +TGACGCGTGAGATCGGTATTTCCAACTTCACGATCCCGTTGATGGAAAAAGCGATTGCTGCTGTTGGTGC +TGAAAACATCGCTACTAACCAGATTGAACTCTCTCCTTATCTGCAAAACCGTAAAGTGGTTGCCTGGGCT +AAACAGCACGGCATCCATATTACTTCCTATATGACGCTGGCGTATGGTAAGGCCCTGAAAGATGAGGTTA +TTGCTCGTATCGCAGCTAAACACAATGCGACTCCGGCACAAGTGATTCTGGCGTGGGCTATGGGGGAAGG +TTACTCAGTAATTCCTTCTTCTACTAAACGTAAAAACCTGGAAAGTAATCTTAAGGCACAAAATTTACAG +CTTGATGCCGAAGATAAAAAAGCGATCGCCGCACTGGATTGCAACGACCGCCTGGTTAGCCCGGAAGGTC +TGGCTCCTGAATGGGATTAAGCCTCTCTGACAGCTCCTCCGGGAGCTGTTTTTACATGCTCGCTAAGGAA +ATCGATAAAAGCCCGGATGCGCGTACTTACCGCACGGTCGCTGTAATAGACGGCACTGAATGGCATTTCC +ACTGGCAACACTTTATCTGCCATTAACTCCACCAATTCTCCGCGAGCGATTTCTTTGTCGATCATGTAGT +CGGACAAACACGCAATCCCGTTGCCACTCAGGCAAAGCTGTTTCAGTGTTTCCCCACTATTGGATGACAA +ACCGTACTTCACCTCATGTAATTGTCCATCGCTACGGGCTATCGGCCAGGTATTGAGGGAAGCGGGTTCA +GTGAATCCCAGGCAAATATGTTGCTTTAAATCGTCGATCGTTTCTGGCTTCCCGTAGCGGGAAATATAAT +CGGGGGAGGCGATAATTTTTCGATAACTGTTAAATAACGGCCTGGCACGTAAGCTGGAATCCGTTAACGT +ACCAGCGCGTATCGCGACATCCACTTTTCTTTCGATCAAATTAATAATCGTTTCGGAGGAGACTAGCGAC +AAAGTGACTTCCGGATAGCGTTCACGGAAAGGCTTAATTAACGGCATCAGAAAGTGCAGCACCACTGGAG +TTGCGGCATCGATCCGTAACAGTCCACGCGGTGTATTACGCGTCTCCATAATTTCTGATTCTGCCGCTGC +CATCTCCTGCAAAATTGACTGTACGCGACGAAAATAACGCTCGCCTTCTTCCGTCAGGCTAAGTTGTCGC +GTGGTCCGATTAAGCAGGCTAACGCCAAGTTTCATCTCCAGCTTTTTCACCGCCCGGCTTACCGCTGAGT +TTGCTTGCCCTAATTGTTCCGCTGCCCGGCTAAAGCTGCCGCTTTCGACGACCGAAACAAAAATGGCGAG +TTCTTCCGACGTGGCTTTCATTTTTGCTCCTGTTGCAAAATAGAAGAGATATTTTGAATTTATTTGTCAT +TAAACCATCAGGATGCGTGATATGTCATGCGATTTAATGTTCTCCATAATGAGCAAAATTCTGACCGGTG +TAAGCACTTGCTTACATAACAATATACAATTGCTCGTTGAAAGAGTGAGCTAAAATCCCTATAACAGTAG +AACCCTCCCGAGTGCGGAAGGGTTGACGTAATAGAGGTTTCAAAGTCAAAAGTGCGAAAAAACACCTATG +CCATGCGCTATGTTGCCGGACAACCTGCGGAAAGGATCTTACCGCCGGGGTCTTTTGCGAGCATCGGCCA +GGCATTACCACCTGGGGAACCGTTAAGTACCGAAGAGCGTATTCGGATCCTGGTGTGGAACATATACAAA +CAGCAACGCGCTGAATGGTTGTCGGTATTAAAGAACTACGGCAAAGATGCACATCTGGTGTTATTGCAGG +AAGCGCAGACAACGCCAGAGTTAGTACAGTTTGCGACCGCTAACTATCTTGCCGCCGATCAGGTACCCGC +TTTCGTGCTGCCACAACATCCTTCTGGCGTAATGACCCTTTCGGCGGCACATCCAGTGTATTGCTGCCCG +TTACGTGAACGAGAACCCATTTTGCGTCTGGCGAAGTCGGCACTGGTGACGGTCTATCCATTACCTGACA +CCCGCCTGTTGATGGTGGTTAATATACACGCCGTCAACTTCAGTCTGGGCGTGGATGTCTATAGTAAGCA +GTTACTTCCTATTGGCGATCAGATAGCTCACCACAGCGGCCCGGTCATTATGGCGGGAGATTTCAATGCC +TGGAGCCGTAGAAGGATGAACGCGTTATATCGCTTTGCGCGGGAAATGTCGCTGCGCCAGGTGCGTTTTA +CCGATGATCAGCGCCGTCGGGCGTTTGGTCGCCCGCTCGATTTTGTTTTCTACCGTGGTCTGAACGTCAG +TGAAGCTTCTGTACTGGTTACGCGCGCTTCCGATCACAATCCGCTACTCGTTGAATTCAGTCCCGGCAAG +CCTGATAAATAAGGTATGTCAGGTCTGCCACAGGGCAGACCAACGTTTGGCGCTGCGCAAAACGTGAGCG +CGGTGGTGGCGTATGACTTATCTGCCCACATGCTGGATGTCGTGGCACAAGCTGCCGAAGCCCGGCAACT +GAAAAATATCACCACCCGCCAGGGATATGCCGAAAGTCTGCCATTTGCCGATAACGCATTTGATATTGTT +ATCAGCCGTTATTCTGCCCATCACTGGCATGATGTTGGTGCAGCACTGCGAGAAGTGAATAGGATATTGA +AACCTGGCGGTAGGCTGATTGTGATGGACGTAATGTCTCCGGGTCACCCAGTGCGCGACATCTGGTTACA +GACGGTAGAAGCATTACGCGATACCTCTCACGTACGAAACTACGCCAGCGGTGAGTGGTTGACGTTAATC +AATGAAGCCAATCTGATAGTTGATAATTTAATTACAGATAAGTTACCGCTGGAATTTTCTTCATGGGTCG +CGAGAATGCGTACGCCAGAAGCGTTAGTAGACGCTATTCGCATTTACCAACAGAGCGCATCGACAGAGGT +GAGAACGTATTTTGCCTTGCAGAATGATGGCTTTTTCACCAGTGATATCATCATGGTAGATGCACATAAA +GCGGCATAAATAAAAAAGGCACCGGGGGAATCGGTGCCTTTTTATTATCTGGTTTGTCAGGAATCTGGCA +TGTTGTTGTTTTTCACAAACAACGTCAGCTTATCGCCTGGTTGCAGATTCGCAGTGTCGCTGTTCCAGCG +CATCACATCTTTGATGTTCACGCCGTGGCGTTTAGCAATGCTTGAAAGCGAATCGCCTTTGCGCACACGA +TACGTAATGCTATCGCTGTTGTTTGCCAGTCGCTGTGCGCTACTGCCTGCACCAATCGTCAAACTTTGGC +CTGGCTTCAGCTTAGATCCGCGCAGTTTGTTCCACTGCTGCAAATCTTTGGTGCTTACGCCGAGACGTGA +AGCGATACTTGAAAGCGTGTCGCCAGAGCGTACGGTGTAAACACGGCTGTTAAGCGGCGTATTGTCGGCA +ACCAGCGTCGACTGTACAGCAGCAATTTCGCCTGAAGCCAGAGATTCACGCAGTTGATCTGCATGCTTCT +TTGGCACCATCACGTACTGCGGGCCACTTGCGCCCAGCGTGGAGCCTTTTACGCCAGCGTTGAATGTCTT +CAGCTTGCTGACGGAAATCCCCGCCATATCTGCTACCTTCGCCATTTCAACCGGGCTGCTCAGGTGCACA +CGCGCCAGAGCACGGCTTTCATCGGTCGTTGGCAGACGTACGCCATAACGCTTGCTGTTTTTGAGAATAT +CACTCAATGCCAGCATTTTAGGCACGTACTGCTTCGTTTCCTGCGGCAACGGTAACGACCAGAAGTCCGT +GGATTTCCCACGCGCTTTGTTCGTTTTAATTGCCTTCATGACCCGACCTTCGCCGCTGTTATAAGCCGCT +ACGGTCAGAAGCCAGTCGCCGTCAAACATTTTGTTCAGACGCTGCATCATATTCAGCGCGGCAGTTGTTG +AAGCAACAACATCGCGACGCGCGTCATAATTGCGGGTCTGTTTCAAACCATAATTGCGCCCCGTGCTCGG +AATGATCTGCCAGATGCCTGCGGCATTGGCGCCAGACGTTGCGTGAGGATCAAAAGCGCTCTCCACTATG +GGTAGTAGTACCAGTTCCATAGGCATGTTACGTTTTTTAACTTGCCCTGCTATCCAGTACATATACGGCT +CTGCCCGTAAAGTTACATCGTGGAGATAGCTCTTATTGCGTAAATATTTCTGTTTCTGTTCGCGAATCCG +GTCATTTTCCGGAATTCCCATCTTTAGCTCGTCGCCAATGAAAGCCCACAAGTCACCATCTGGCGCGATA +GACGTCCCATCGTCCATCCATCGTGCCTGACTTGTAAACTTTGCTGCTTCCCCTTGACCAGCTGCAGAAA +GGCTCTGTGCGTGCTGTTGAACGTTGCCGGTACTCTGGCAACCCACGAGCAGGACAGAGGCGAGTAATAT +CGCTTTTGCCTTCATGTGTGTGTCAATAGTTGCTTAAAAGACGACCGATCATAACGGCGAACGGAGCCGA +TGACAAGAAAGTTTTATCAGAACCTATCTTTCTTTGACCTTAACCATGCAAAACGCTCTTCAGGTTGTTG +CAATAATGTTTCTTCATTAATTACATTAATTAAATCAATATCTTCCGTTCTTAAAAAAACATTAATTTGC +CGCTCATTTTTCAGAATTACGGGTAGTGTTATTTGATTTTTTGCCCGTAACTCCTTAACTTTACGATAAT +AATCATTTATGGACAAATCGTGCGGAAGAATACTCAAAGCAAACTTCATATTTGATAAGGTATATTCATG +AGCACAACATACCAATGTATCGTCAGGTAACGCACTTAACTTTTTAAGTGATTGATACATTTGTGATGCT +GTCCCTTCAAACAACCGACCACACCCACCAGAAAACAGTGTGTCGCCGCAAAATAGATAAGGTTTACTGA +AGTAACAGATATGTCCTAAAGTGTGACCCGGCGTAGCAATTACACTAAATTCATGCCCCAAAACGAAGGC +AGTTTCGCCATCTTTGACTACCTGTGTTGTTCCCTTATCTTGTGTCTCTTGTGGACCATACACCACAATT +TGTGGAAACTTTTCCACCAGTTCTTTTACGCCGCCAACGTGATCGTGGTGATGGTGGGTGAGAAATATGG +CCTCCGGTTGCCAGTTATTGGCGGCAATGGCGTTTAATACTGGCTCTGCGTCTCCGGGATCGACAATCAG +GCAGCGACCTGCTTCATCATTCAAAACCCAGATGTAATTGTCATCAAAGGCGGGAATACTGTTAAGATTC +ATAGATTACCTCTCAGTGTGAAACGGAAGGTTGTGATGAAACCGGCAAGAGTCCCTCAAACTGTCGTGGC +TCCTGATTGCTGGGGCGATTTGCCCTGGGGAAAGCTTTATCGCAAGGCGCTGGAGCGCCAGCTCAACCCG +TGGTTCACTAAAATGTATGGTTTTCATCTGCTTAAGATTGGCAATTTAAGCGCAGAAATCAATTGCGAAG +CGTGCGCGGTTTCTCATCAAGTGAATGTTTCTGCGCAAGGAATGCCCGTCCAGGTACAGGCGGACCCACT +TCATCTTCCTTTTGCCGATAAATCCGTTGATGTTTGTCTACTGGCACATACATTGCCGTGGTGCACCGAT +CCGCATCGTTTATTGCGTGAAGCCGATCGGGTATTGATTGATGATGGCTGGCTGGTCATTAGTGGCTTCA +ATCCCATCAGTTTTATGGGATTACGCAAACTTGTGCCGGTATTGCGCAAAACCTCGCCCTATAACAGCCG +GATGTTTACTCTGATGCGGCAGCTGGACTGGCTCTCTTTGTTGAATTTTGAAGTGCTACACGCCAGCCGT +TTCCACGTTCTCCCGTGGAACAAACACGGAGGAAAACTATTGAATGCGCATATTCCTGCGCTTGGTTGCT +TACAACTTATTGTTGCCCGGAAACGGACTATTCCTTTAACGCTAAATCCGATGAAACAGAGTAAAAACAA +GCCACGAATTCGCCAGGCGGTTGGAGCCACCCGGCAATGTCGTAAACCACAGGCTTAAACTTCAACTTGG +TAGCCTGTATCTTCCAGTGTGGGATTCATCGCCGCGGCACGAGCCAGTTCATCACAGCGTTCGTTTTCCG +GGTGTCCGGCATGGCCTTTAACCCATTCCCATTTGATTTGATGCTGCCCCAATGCAGCATCAAGACGTTG +CCAGAGATCGACATTTTTTACTGGTTTTTTGTCTGCGGTTTTCCAGCCACGTTTTTTCCAGTTATGGATC +CACTGGGTGATACCCTGGCGGACATACTGGCTGTCGGTACTCAAAATGACTTCGCAATGTTCTTTTAACG +CCTCCAGCGCGACAATAGCGGCCATCAACTCCATACGGTTGTTGGTGGTGCGGGTGTAGCCAGCGCTAAA +GGTTTTCTCGCGTCCGCGATAGCGTAAAATAGCGCCGTAACCCCCAGGTCCTGGATTGCCCAGACACGAA +CCATCGGTGAAAATTTCTACCTGTTTAAGCATCTCTGGTAGACTTCCTGTAATTGAATCGAACTGTAAAA +CGACAAGTCTGACATAAATGACCGCTATGAGCACTGCAATTACACGCCAGATCGTTCTCGATACCGAAAC +CACCGGTATGAACCAGATTGGTGCGCACTATGAAGGCCACAAGATCATTGAGATTGGTGCCGTTGAAGTG +GTGAACCGTCGCCTGACGGGCAATAACTTCCATGTTTATCTCAAACCCGATCGGCTGGTGGATCCGGAAG +CCTTTGGCGTACATGGTATTGCCGATGAATTTTTGCTCGATAAGCCCACGTTTGCCGAAGTAGCCGATGA +GTTCATGGACTATATTCGCGGCGCGGAGTTGGTGATCCATAACGCAGCGTTCGATATCGGCTTTATGGAC +TACGAGTTTTCGTTGCTTAAGCGCGATATTCCGAAGACCAATACTTTCTGTAAGGTCACCGATAGCCTTG +CGGTGGCGAGGAAAATGTTTCCCGGTAAGCGCAACAGCCTCGATGCGTTATGTGCTCGCTACGAAATAGA +TAACAGTAAACGAACGCTGCACGGGGCATTACTCGATGCCCAGATCCTTGCGGAAGTTTATCTGGCGATG +ACCGGTGGTCAAACGTCGATGGCTTTTGCGATGGAAGGAGAGACACAACAGCAACAAGGTGAAGCAACAA +TTCAGCGCATTGTACGTCAGGCAAGTAAGTTACGCGTTGTTTTTGCGACAGATGAAGAGATTGCAGCTCA +TGAAGCCCGTCTCGATCTGGTGCAGAAGAAAGGCGGAAGTTGCCTCTGGCGAGCATAAATACCTGTGAAA +GGCGCTAAAAATAGCGACTTGGGCGATTTTTGCAGCAAACGATTCAAAAGATGAGAAAAACCGTTGACGA +AGGTCGAGGCAATCCGTAATATTCGCCTCGTTCCCAACGGAACACAACGCGGAGCGGTAGTTCAGTCGGT +TAGAATACCTGCCTGTCACGCAGGGGGTCGCGGGTTCGAGTCCCGTCCGTTCCGCCACTATTCACTCATG +AAAATGAGTTCAGAGAGCCGCAAGATTTTTAATTTTGCGGTTTTTTTGTATTTGAATTCCACCATTTCTC +TGTTCAATGATTTTACTCTGGCGTAGGTGCGTGATTCTCGCTTGTTGTCTCATTCATTAAAATTCAATAA +TGATATCGAACCATTCAGCTTAAATATATTTCTAGAGAATAAATTTATATTGATTAAATGAATGTATATT +TCAAATTGATTTTGTTTGTTATTATTTAAGTGAGGTATATAATTAGAGTCCGTTATCAATGCTAAATATT +CTAATCATTATGACAGGCGAGGGAGTGTCCAATTATGAATTCAAAAAAGCTTTGTTGCATATGTGTGTTA +TTCTCGCTGCTTGCAGGATGTGCCTCTGAATCTTCTATTGATGAAAAGAAGAAAAAAGCTCAAGTCACAC +AAAGTAATATTAATAAAAACACTCCCCAGCAACTGACAGACAAAGATTTATTCGGTAATGAAACCACTCT +GGCCGTATCCGAAGAGGATATTCAAGCTGCGCTTGATGGAGATGAGTTCCGCGTTCCCCTTAATTCTCCT +GTAATACTTGTTCAATCCGGCAACCGCGCACCGGAAACCATTATGCAGGAGGAGATGCGAAAATATTATA +CTGTTTCCACATTCTCTGGTATCCCGGACAGGCAAAAGCCTCTGACTTGTAACAAAAACAAAGATAAAAA +TGAGAACGAGGATGTTGCCAGTGCTGAGAATATGAACTGGATGCAGGCACTGCGTTTTGTGGCTGCAAAA +GGACATCAGAAAGCGATTATTGTTTACCAGGATATGTTGCAGACAGGAAAATATGACTCTGCGCTGAAAT +CAACAGTATGGTCCGACTATAAAAATGACAAACTCACTGACGCTATCTCCCTGCGCTACCTGGTACGTTT +CACGCTGGTGGATGTGGCAACAGGTGAGTGGGCTACCTGGTCGCCGGTGAATTATGAATATAAAGTGCTT +CCACCATTGCCCGACAAGAATGAAGCCAGTACGACTGATATGACAGAGCAGCAAATCATGCAACTTAAGC +AAAAGACCTATAAAGCGATGGTAAAAGATTTGGTTAACCGCTATCAATAATAAATTATATCTGCCGCCAG +GAATTTCTGGCGGCAATAATACAAAATTCTTTGCATAAGAAATTTTTCTTGACAAAGACAGTGCAAGAAA +GGACATGGAATCCGGAGTTAAAAACTGTTTGTTTTAGAATATTTAATTATTTAACTGCTGAATCTTCCTT +GCGAGAAATATATCCATTATTACATTTCATGCCATTTTTAATATAGATTGCTCCTGGGAAAATTCCCGTA +TTATTACCGCAGGGGTGATAATTAGTATTGACATATCCTGTGACAAAAGGAGCTATTAAAGGTGCTATTA +CGATAGCTATTAGTAAAAATATAAGAGTTAGCTGTATTGTTATGTCTGTGGCGAAATTGACTACCTTCGT +TTTTTTGATTAAGAATGATTTTATTATCGTAAGTAAAATTACATGAATATTTAAAAAGGAAAACGACATG +AAACCGAAGCACAGAATCAACATTCTCCAATCATAAAATATTTCCGTGGAGCATTTTATTATTGAATATA +GAGGTTTAACTCCGGTAAAAAACAAAGAAGCATTGAATGCAGGGAAAAATAATATGGCCATAAAAAACAT +CGAAAGAAACTCTTTTAATTTAACATGTAAACGCATGGTTAATCCTCATATCACGGGTGGAGTGTTAAGA +ACATACATAAATGGAGTCATGTTTTCCCTTTTCCATTTATCAAGTTCCTGTTGCCGTTTTAGTCCATCTC +TAATTGCATATTTTAATTTTTCTGATAAATGGCATTGAGCATCGATTTCATTTAAAACAACTGTACACAC +TATCCCTGTCAGTAAAATTGCTCCTCCGACAAGAATTACTGGAAAGCCAAAGCTAACACAGGCAAAAGAA +GCCAGACTTCCAATAGCGGTTGCAACACCACCGGCTATAACTGCTTTGGCCACATCCATTGAAAAATCGC +CAAGAAAATTAACCAGATCTCGCTCTGAACTCATAATAAATTCTATGGTTCTGCTGATTTAACCGCAGAG +AAGTTCGCCACAGCAATCCGAAACCACTGGCACGTGGAGAATAAGCTGCACAGGCGTCTGGACGTGGTAA +TGAATGAAGACGACTACAAAATAAGAAGAGGAAACGCAGCAGAATTATTTTCAGGGATACGGCACATTGC +TATTAATATTTTGACGAATGAGAAGGTATTCAAGGCAGGGTTAAGACGTAAGATGCGAAAAGCAGCCATG +GACAGAAACTACCTGGCGTCAGTCCTTGCGGGGAGCGGGCTTTCGTAGTAATACCCCGACTCTCCCCGTC +CTTAAACACAACCCCCACTCACCACAACCTAAACTCATCCGCATCCTGCCATGCCGGAAACTTTTCTCTA +TATTCCCGCAATGCTGCCATCGACAGCTCCGCATCAATGCGCGTTGCCTGATGCGCGTCGGCAGTAGCGA +TAATCTCTCCTTGCGGATTAATCACCCGGCTGTCACCGCGATAATGGCAGCCGTTGCCATCGCTGCCGAC +GCGATTGCATCCCGCCACATACGCCTGATTCTCAATCGCGCGGGCCGTCAGCAATGCCTGCCAGTGCAGA +GAGCGCGGAGCAGGCCAGTTGGCGACGTACAGGGCGAGGTCATAATCGTTGAGATTGCGCGACCACACAG +GAAAACGTAAGTCGTAGCACACCAGCGGCAAAATACGCCAGCCGCGCCATTCCACAATCACTCGCGCATT +GCCCGCTTTATAATGTAGATGCTCATCTGCCATGCGGAACAGATGACGCTTATCATAAAAATGTACCGTG +CCGCCCGGCTCAACCAGCAAAAAGCGGTTAACCGAACCAGACTCCGTTTGTAATGCAACACTGCCTGCAA +TCAGCGCATTGCACTGCTGCGCCTTAGCTGTCATCCAGTTCACTACGTCATCTTGTGCTAGCGACGAAGC +TGCCGCTTCCATGGCAAAGCCGCTGGTAAACATCTCCGGTAGAACGATCACATCGCGCCCGGTAATACCT +TCCAGTTGACGATCAAAATGACGCAGGTTGGCAGGACCATCCATCCACACCAGTGGTTGCTGCAAAAGCG +TAATCTTCAAACCAGGCACGGTGTACAACTCCTTTATGCGAAGGGTTTTATAACTTTAACACCTTATCAG +GCAGTTGCCTTAGCGCAGAATAAATTGATAACAAATGCTGATATTGGAAATATCTGATTTGCAAATTATC +GTGTTATCGCCAGGCTTTAGGAGGTTAATAACATGGGCAGGATAAGCTCGGGAGGAATGATGTTTAAGGC +AATAACGACAGTCGCCGCTCTGGTCATCGCCACCAGTGCAATGGCGCAGGATGATTTAACCATTAGCAGC +CTTGCAAAGGGCGAAACCACCAAAGCTGCATTTAATCAGATGGTACAAGGGCATAAGCTGCCTGCCTGGG +TGATGAAAGGCGGTACTTATACTCCCGCACAAACCGTAACGTTGGGAGATGAGACGTATCAGGTGATGAG +CGCGTGCAAACCGCATGACTGTGGCTCGCAACGTATCGCTGTGATGTGGTCCGAGAAATCTAATCAGATG +ACGGGGCTGTTCTCGACTATTGATGAGAAAACGTCGCAAGAGAAACTCACCTGGCTGAATGTGAACGATG +CGCTTTCGATTGATGGTAAAACGGTGTTGTTCGCGGCGTTGACCGGCAGCCTGGAAAACCATCCGGATGG +CTTTAATTTTAAATAATTAGCGGATAAAGAAACGGAGCCTTTCGGCTCCGTTATTCATTTACGCGGCTTC +AACTTTCCGCACTTTCTCCGGCAACTTTACCGGCTTCGTCGCCAGCTCTTCCGGATCAAAGTCATCAACG +TTAATACTGCGCAGACGGCTTTCTTCAGCTTTCACCAGAATAGCGGCTTCATCTTTATCAATCAGCCCCT +TCACCAGCGCGTTGTGCGCCAGTTCATCCAGACGGGTAAACGGCAGGTTTTTACCCAGCTCTTTACAGAT +CCGCTGATGAATTGGGTCGGCGGCAATCACATCCACCAGCGCCTCTTCCAGCAAGCCAACCGGATTATGC +TCGCTCGGCGTCAGGTACTGACCGCGACCAATGCGGGAACGGGTGGCGTTCGGCACTTGTAAAATCTTCG +CCACTTTATGATCCAGCTTGTCAGAAGGTGCCAGATAATGACGTCCGGTCGGGAAGATCACCACATTCAG +CAGCCCGGCAACCACGCGGTTCGGGAAGTTTTGCAGTAAATCATCCATCGCCTGTTCAGCCTGATACAGC +GCATCTTGTACGCCCCAGTGCACCAGCGGCAGGTCGGCTTCATTACGGCCTTCGTCGTCATAACGCTTCA +GCACGGCAGAGGCGAGGTAGAGCTGGCTTAAAATATCCCCCAGACGGGCCGAGATGCGCTCGCGACGTTT +CAGGCTGCCGCCCAGCACTGCCATCGAGACATCAGAAAGCAGGGCGAGGTTGGCGCTCAGGCGGTTCAGG +TGCTGATAGTAGCGTTTAGTGGCATCGCCGGTTGGCGTGCTGCTGGTTAAACCGCGCGTCAGGCCCAGCC +AGAAGCTGCGAACTTTGTTGCTACCGACGTGACCGATATGTTTGAACAACAGTTTATCGAACGCGTTGAC +GTCATTGTTCTTCGCCGCTTCCATCTCTTCCAGCACGTACGGATGGCAACGAATCGCTCCTTGTCCGAAG +ATCATCATGCTGCGGGTCAGAATGTTAGCCCCTTCAACGGTGATGGCAATCGGTGCGCCCTGGTAAGCAC +GCGCCAGGAAGTTGCTTTGCCCGAGCATAATGCCTTTACCGCCGGTAATATCCATCGCATCAATAATCGA +CTGCTGCCCGCGGTGGGTACAGTGATACTTAACGATAGCCGACAGCACGGCAGGTTTTTCGCCGAGCATA +ATGCCGTAGGTAATCAGCGATGCCGCAGCATCCATCACGTAGGCATTACCGGCAATACGCGCCAGCGGCT +CTTCAATCCCTTCCATCTTACCAATAGAGATTTTGAACTGACGGCGAATGTGAGCATACGCGCCGGTTGC +CAGCGCTACCGATTTCACGCCGCCGGTTGAGTTGGAAGGCAGGGTGATGCCGCGGCCTACCGAGAGGCAC +TCCACCAGCATCCGCCAGCCTTGCCCGGCCATTTTCGGCCCGCCGATGATGTAATCGATCGGCACGAAGA +CATCTTTACCGCGCGTCGGTCCGTTCTGGAACGGTACGTTCAGCGGGAAGTGGCGACGACCAATTTCCAC +GCCCGGCGTGGTGGTTGGGATCAGCGCACAGGTAATGCCTAAATCTTCTGCACCGCCGAGTAATTTTTCC +GGGTCGGAGAGTTTAAACGCCAGCCCAAGCACGGTCGCAATCGGTGCCAGCGTAATGTAGCGTTTGTTCC +AGGTCAGACGCATCCCCAGCACCTGCTGGCCCTGCCATTCGCCCATGCAGACAATCCCGGTGTCCGGAAT +CGCGCCCGCATCGGAACCCGCTTCCGGGCTGGTCAGTGCAAAGCAGGGGATCTCCTGACCACGCGCCAGA +CGCGGCAGATAGTGATCTTTCTGCTCGTCAGTGCCGTAATGTTGCAACAGTTCGCCCGGGCCTAATGAGT +TTGGCACGCCGACGGTAATCGCCAGGATCCCGCTCACGCCGGAGAGTTTTTGCAGCACGCGAGACTGGGC +ATAAGCCGAGAACTCCAGCCCGCCGTACTCTTTTTTGATGATCATCGCGAAGAAACGATGCTCTTTAAGG +TACGCCCACAACTCCGGCGGCAGATCCGCCAGCTCATGGGTGATCTGGAAATCATTCGCCATCCGGCAGG +CTTCTTCTACCGGGCCGTCGAGAAACGCTTGCTCTTCGGCGGTCAGGCGCGGCTGCGGATAGTTATGCAG +CTTTTTCCAGTCCGGCTTGCCCTGGAACAAGTCGCCCTCCCACCAGGTGGTGCCCGCATCAATCGCTTCT +TTCTCAGTGCGCGACATCGGCGGCATCACCTTACGGAAACCGCGAAATACCGGCGCGGAAATCATCGACT +TACGCATAGGCGCAAAGTTAAATGGCACGAGGATAATGGCCAGAGGCACCAGTACCCACGCCGACCACAG +ACCAGCAACGCCGAGGGCGGCTGTCCAGGCGAGCAAAATCAGACTGCTGATAAATAAGCTCACGCGGTGA +TAGAACAACGCGCCGAGCAGGACAACCGTAGCGAGAATACTCAAAATCATCATAACGAAAAGCCCCTTAC +TTGTAGGAGGTCTGACCACTTGTGATGATATGGTTGTAGTGGATGTAAAAACATTTAGCAATATGTTTAC +AATATAATTACAACAAAGCTCACATTGTTGCTGTTTTTATCCGCACTTCAGGTCAAAAAGTCCTGGTCAT +AGCACCTGCCCGTACTTCTCGCTTTTGGCGGTATCCGGTACACTGCATTTTGTCTATTACATTTATGCTG +AAGGATATCCTCATGTACCAGGATCTTATTCGTAACGAACTGAACGAAGCGGCGGAAACGCTGGCTAACT +TTTTAAAAGATGACGCCAATATTCACGCCATTCAGCGCGCGGCGGTCCTGTTAGCAGACAGCTTTAAAGC +CGGTGGCAAAGTGCTTTCCTGCGGCAACGGCGGTTCCCATTGCGACGCTATGCACTTTGCCGAAGAGTTG +ACCGGTCGCTACCGTGAAAACCGTCCGGGCTACCCGGCGATTGCTATTTCTGACGTTAGTCATATTTCCT +GCGTCGGTAATGATTTCGGTTTCAATGATATTTTCTCCCGCTACGTTGAAGCGGTAGGTCGCGAAGGCGA +TGTACTGCTGGGGATCTCCACCTCCGGTAACTCTGCAAACGTGATCAAAGCGATCGCAGCGGCGCGTGAG +AAGGGAATGAAAGTGATCACCCTGACCGGTAAAGACGGCGGCAAAATGGCTGGCACGGCGGATATCGAAA +TTCGCGTACCGCACTTTGGTTATGCCGACCGCATTCAGGAGATTCACATTAAAGTGATCCATATCCTGAT +CCAGTTGATTGAAAAAGAGATGGTTAAGTAAGTCTGGCGTAGGCCGGATAAGACGTTTACGCCGCATCCG +GCATTTGTGCGCTGATGCCTGATGCGACGCTGACGCGTCTTATCATGCCTACAAATCTGTACGCGAACCG +TAGGCCGAATAATGCGTTCACGCCGCATCCGACCTGAAAATTCTTAAATCAATCTTCGCCGGGGGCCATG +CGCTCCCGCTGTTGTGGAGGTTACCCATGTGCGAATTGCTCGGGATGAGCGCCAACGTCCCTACCGATAT +CTGCTTTAGTTTCACCGGGCTTGTACAGCGTGGTGGTGGAACCGGGCCACATAAAGATGGCTGGGGCATT +ACCTTTTACGAAGGTAAAGGCTGTCGCACATTTAAAGATCCACAACCCAGCTTTAATTCCCCCATCGCCA +AACTTGTCCAGGACTACCCGATAAAATCCTGTTCGGTGGTGGCTCATATTCGCCAGGCTAATCGGGGCGA +GGTGGCGCTGGAAAATACTCACCCATTTACCCGCGAGTTATGGGGGCGTAACTGGACTTATGCCCATAAC +GGACAACTGACGGGCTACAAATCACTGGAAACCGGCAACTTCCGCCCGGTAGGCGAAACCGACAGCGAAA +AAGCCTTCTGCTGGCTCCTGCATAAATTAACGCAGCGTTACCCGCGCACACCGGGCAACATGGCGGCGGT +ATTTAAATATATCGCCTCACTGGCGGATGAACTGCGGCAGAAGGGCGTTTTCAACATGCTGCTTTCGGAC +GGGCGCTATGTAATGGCGTATTGCTCGACTAATTTACACTGGATCACCCGCCGCGCGCCGTTTGGCGTGG +CAACGTTGCTGGATCAGGATGTGGAAATCGACTTCAGCTCGCAGACCACACCGAATGATGTGGTCACGGT +GATTGCAACACAGCCGCTGACGGGCAATGAAACCTGGCAAAAGATTATGCCAGGCGAATGGCGCTTATTT +TGCCTCGGGGAGCGTGTAGTTTGATGCCAGTTGTGGCTGCACAACTTCGTGGCTTAACGGCTTGCTGACC +ACGTAACGACCATTGACCACAGAAACGGTTGGTGGCTTACGGGTTTGCTCAAAGTAGTCGTAACCCGGCT +TCAGTTGCTCCCAGAAGTCCTTAAAGTTGGAATATTTATGGCGCTTCATATTGGCGTCGGTCATGCGGAA +CGGGTAAATACTCACTTGCACGCTCGGCTGACCAAACACCAGCGCACCAGTAACGAACTGGAATATCTCA +TCAATACCCTGATTGGTCATTGCGTAGCAGCCGATGGAAACACAATCGCCGTGGATCATCAGGTATTTCC +CTTCATAACCATGCGCACGGTCATAGGCATTGGGGAAACCAATATTAATCGCTTTGTAGTAACGGCTGTC +TGGTTTTAACTGATTACGCTGGACGCTATAAAACCCTTCCGGGCTTTTGAAATCGCCCTGACGCTGTTTT +GGCCCTAAGCCGCCGGAATATTTACAGATTTTATAGCTGTCGAGCAGTTGATATTGCTCGCCCATTTTGA +CGTAGAGATCGAGCGTACGTTCTTCCTTGAAGATCTGGATGTAGACAGGGGATCCCATCAACTGCTGCTT +ATACTCTTTGCTCACAGGCGTGGTAGAGCTACTGCTGCCCAGCAAACCGGCAAATGAAACGCACGGGATC +AACAACATCGCAAGAATTAATGCGATTTTACGCATACTGCTTATTCCTTGATAAAACGGTTACACACGCC +AGGACGGCAAAATGGATCCCAAATCGGAATAGTCTGGATTTGGAAGGCTCACATTATCACCAAAAGAGTT +TTACGCAAGCCTGTCGGCGCAGGGTTTACAAATTTCATCGGAAGCGGGCTTTACCCAAAGAGCGCCGCGT +GAGTTCCAGTTCTCTCAAATCGTAAAAGTTTATCGGTAAGTTTGTAAATCAGGATCCAGTCCGGTTCGAC +ATGAGCATCGCGATAACCTTTCCATGAACCTTGCAGCGGGTGGTCTTTATAAACAGCTGGAAGCGGTAAA +GTATTATTGATAAGAAGCGTCATAAGATATTTCAATTTATTCATATCCTTATGACGCTTTTGTGCAAGTT +TTACATCCTTTGAATATTGTCCCGAGTATTCAATATCCCTTTGAATCATATTTAAATTCCTAATTTATCA +AATAAATCATCGGCGTCTTTGGCCTTATGAACATCAATGCCAGCTTCGCTGTTTTTGATTGATTGAATGG +TTAATTGATTAGGCTCGCGTAAATCAAACGGCAATGCCTTTTCACGCGCGACCTTTGTGAGGGTTATGCG +AACCAGGTCAGAGATGGTCAGCCCCATCCCGGCCAGTACGTCCGCTGCCTGATTCTTCAGATCTTCATCG +ATTCGGGCGCGAACAAACGCGTTAGCAGCCATTGGGGTATCTCCTGTGCTGTATATTTATTCAGCTTGAA +TTGTAGCTCAAATGAGCAACAGCGACAATCCATGAGTAATTTAATAAACGGATGTTTTTACATAATTAAC +TGAAATATATATGTTAATTTTATAATAATGGTTTATTAAGTTTGTTCAGAAACGATCCGGGATACACTGC +AACATTAAAGCATGACCAGCCATTATTGAGTATGTCCTTGCCGTCGATTCCATCCTTTGTATTGTCGGGA +TTACTGTTGATTTGTTTGCCGTTTTCTTCATTTGCCAGCGCCACCACATCACATATCTCTTTCAGCTACG +CCGCCCGCCAGCGGATGCAAAACCGTGCGCGTTTATTAAAACAGTACCAAACTCATCTGAAAAAGCAGGC +CAGCTATATTGTGGAAGGCAATGCCGAAAGCAAAAGGGCGCTACGCCAGCACAACCGGGAGCAGATAAAA +CAGCATCCAGAATGGTTTCCTGCTCCGCTCAAGGCGAGTGACAGACGCTGGCAGGCGCTGGCGGAAAACA +ACCACTTTTTAAGCAGCGACCATCTGCATAACATTACCGAAGTGGCGATTCACCGCCTGGAGCAGCAGCT +TGGCAAGCCTTACGTCTGGGGCGGTACGCGGCCTGATAAAGGCTTTGACTGTAGCGGGTTGGTTTTTTAT +GCCTACAACAAGATCCTTGAGGCTAAGCTCCCGCGCACGGCCAATGAGATGTACCACTATCGCCGGGCAA +CGATTGTGGCGAACAACGACCTGCGCCGGGGAGATTTGCTGTTTTTCCATATCCACAGCCGCGAGATAGC +CGATCATATGGGCGTGTATTTGGGCGATGGGCAATTTATCGAGTCGCCACGTACCGGCGAAACCATTCGG +ATAAGCCGATTAGCCGAACCTTTCTGGCAGGACCATTTTTTGGGCGCGCGCAGGATTTTGACGGAAGAGA +CGATTTTGTAGGACGGATAAGGCGTTTACGCCGCATCCGGCAGTTGTACGCAGGTGCCTGATGCGACGCT +GGCGCGTCTTATCATGCCTACGAGCCCGCGAATATTTGCGAGCCGCTTTCCCGATATAAAACAACCTCAT +TGCCAACCTTTCCTTTTCTTCTTACCGTTGAGAAAAAGGAGTCGCCATGTCTGAATATCGTCGTTATTAC +ATCAAGGGGGGAACATGGTTTTTCACGGTGAATTTACGAAATCGTCGAAGCCAACTTTTGACCACCCAGT +ACCAGATGCTCCGTCACGCCATTATTAAAGTTAAGCGAGACAGGCCTTTTGAAATCAACGCCTGGGTCGT +TTTGCCAGAGCATATGCACTGTATCTGGACATTACCTGAAGGCGATGATGATTTTTCCTCGCGCTGGCGG +GAAATTAAAAAGCAATTTACCCATGCTTGTGGATTGAAAAATATCTGGCAACCACGTTTTTGGGAGCACG +CCATCCGCAATACCAAAGATTATAGGCATCATGTTGATTATATTTATATAAATCCAGTAAAGCATGGTTG +GGTAAAGCAAGTGAGTGATTGGCCATTCTCAACGTTCCATCGCGATGTCGCGCGAGGGTTATATCCCATC +GATTGGGCGGGGGACGTAACGGATTTTAGTGCCGGGGAGCGTATCATTTCATAATTGTGCGCAGATGCCT +GATGCGACGCTAGCGCGTCTTATCATGCCTACAAACTTGTGCCGGATCGGTAGGCCGGATAAGGCGTTTA +TGCCGCATCCGGCAGTTATGCGCAGATGCCTGATGCGACGCTGGCGCGTCTTATCATGCCTACAAACTTG +TGCCTGAACGGTAGGACGGATAAGGCGTTCACGCCGCATCCGGCAGTTGTGCACCAATGCTGGATACTTA +CATCAACGCCCCCATAATCTTCAACTCCAGCTCATCCGGCACTTCGTTATACGACAGCACATGCAGCCCC +GGCGCAAACAACCTTGCATAACGCGCCAGCAAAGGGCGCAGCTGCGGTGGCACCAGCAGCACCGGGTCTT +TCCCCGCCGCTTTCATCTGCTCTTTCACCTGTGGCATCGTACTCTGGAACTGGTTGAGCATATTCGGATC +GACCGGCACGCTGTCGAGCATCACTTTCCCGCCCTGTTGCGCCTGATTCACCACGTTGGTCAGCAGATTT +TCCAGCTCATTATTCAGCGTATACACCGTCAGCTCCTGCTTGCGAACGAACGGATGGGTAATGCTGCGCC +GCAATGCCAGGCGCACATCGGCCGCCAGCAGAATATGATCTTTCGTCACCGTGCTACTGGCGACCAGCAC +GGTGGCGATGGTGACGATATCGCGCAGGGAAACGCCTTCGGTCAGCAGCGCCCGGTACACTTTCAGCAAC +TGGCTGTAATTGAGCGCCGCGCTCAAATCTTCCGCCAGACGCGGTGCCGTCGACGATAAACGGTTATGCA +ACTGCGTAATATCATCATAGTTAAACAAATCAGGAATATAGCTGCGCACAATCTTATTTACATGGGTAGC +GATCACGCTGGCGCTGTCGATCACCTGATACCCCATATTCAGCGCCTTCGCTTTCTGCGCCGCCTGGATC +CAGGTGACCGGCATCCCGTACGCCGGGTCGTTCCCCTGCACGCCGTCAATCTCGCCGTAGGTTTCGCTGG +AGGGCAGGGCCATCAGTTTATCCGCCGGAATATCCGCTTCATCAGCCTTTATGCCGTTGATGAAAATGGC +GTACTGACTGGGCTTAAGGCGGAAGTTTTCCCGAATGCGGATCTCCGGCAGCAGCACGCCGTTGCCGTCA +GAAATCACCTGCCGCACGCCGCGAATCCGCTGGGTGAGCGGGTTACCCTGTGCTTTGTCCACCAGCGCCA +CCAGTTTGTAACCGAGGCTTAAACTGATAGGCTCGATCAGCGGAATGGTTTCCCAACTGACCTGCTGCTC +GCTGGTTTCGGTGATGGTGCGGGTCAGCGTTTCGAGGCTTTTCTCTTCCGCCTCCGCCGCCAGCGGCTGT +TTGCTCATCCGCCAGCCGGTAAAACCAAGCAGGGCGCTGAACAGCAAAAACGGCAGGTGCGGCATTCCCG +GTACCACCGCCAGCACGAACATAATCCCGGTGGCGGTGTAGAGCACCGACGGGCTTGCCAGCAGCTGGTT +ACGCACGTCATGGGCGATATCGCCGTTGTCGCTGACGCGGGTGACGATAATCGCCGCCGCGGTGGAGAGC +AGCAGGGAAGGGATCTGCGCCACCAGGCCGTCGCCGATGGTCATCAGCACATACTGCTGGAAGGCAGCAT +CGGCGCTCAGGTTGTATTTGAAGATCCCGATACAGACGCCGCCGATCAGGTTGATCGCCAGAATCATCAT +CCCGGCGATGGCGTCCCCGCGCACAAACTTCGATGCCCCGTCCATCGCGCCGTAGAAATCGGCCTCGCTG +GCAACATCTTTACGCCGGGTTTGCGCCTGCGCCTGGTTGATCAATCCGGCGTTAAGATCGGCGTCAATCG +CCATCTGTTTGCCGGGCATCGCGTCTAAGGTAAAGCGGGCAGAAACCTCGGAAATACGCTCGGCCCCTTT +GGTGACGACAATAAAGTTGATTGTCAACAGCGTCAGTAAATCCGAGCGTGAAAGCATTATCGCCGCGCTG +CACGGGCAGTCGATTTTTAACGGTGGTGGGCTGTCGCCGTTAAATAAAATCAGCCCGTCTCATCCGCCAA +AACCTGCCACCGTGGCGGTGCCGGAAGAGACGGAGAAAAAAGCGCGTGATGTGAATGAGAAAACGGCGCT +GCTGAAGAAGAAATCCGCCACCGAGCTTGGTGAGCTGGCAACCAGTATCAACACCATTGCCCGTGATGCG +CATATGGAAGCGAATCTGGAGATGGAGATTGTTCCCCAGGGATTACGCGTGCTGATTAAAGACGACCAGA +ACCGCAATATGTTTGAACGCGGCAGCGCGAAGATTATGCCGTTCTTTAAAACGCTGCTGGTGGAGCTCGC +GCCAGTGTTCGACTCGCTCGATAATAAAATTATTATTACCGGGCATACCGATGCGATGGCCTACAAAAAC +AATATCTACAACAACTGGAACCTTTCGGGTGACCGCGCGCTTTCGGCTCGTCGGGTGCTGGAAGAGGCCG +GAATGCCGGAAGATAAAGTGATGCAGGTAAGCGCAATGGCGGACCAGATGCTGCTGGATTCCAAAAATCC +GCAAAGCGCGGGCAACCGGCGCATTGAGATTATGGTGCTGACCAAAAGTGCGTCCGATACGCTGTATCAA +TACTTTGGTCAGCATGGGGATAAAGTGGTGCAGCCGCTGGTGCAAAAGCTGGATAAGCAGCAGGTGCTTT +CGCAGCGAACGCGTTAAATGCTGAATCTTTACGCATTTCTCAAACCCTGAAATCACTGTATACTTTACCA +GTGTTGAGAGGTGAGCAATGCGTAAAATCATTCATGTGGATATGGACTGCTTTTTCGCCGCAGTGGAGAT +GCGCGACAATCCCGCCCTGCGCGATATCCCTATTGCTATTGGCGGCAGCCGCGAACGTCGGGGGGTGATC +AGCACCGCCAATTATCCCGCGCGTAAATTTGGCGTACGTAGCGCTATGCCGACAGGGATGGCGCTCAAAT +TATGCCCACATCTCACCTTGCTTCCGGGGCGCTTTGACGCCTACAAAGAAGCCTCAAATCATATCCGTGA +AATCTTCTCGCGCTACACCTCGCGCATTGAACCGTTGTCACTGGATGAGGCTTATCTCGATGTCACCGAT +AGCGTCCATTGCCACGGTTCTGCGACCCTCATCGCCCAGGAAATCCGCCAGACAATCTTCAACGAGCTGC +AACTGACGGCGTCTGCGGGCGTGGCACCAGTAAAGTTTCTCGCCAAAATCGCCTCCGACATGAATAAACC +CAACGGCCAGTTTGTGATTACGCCGGCAGAAGTTCCGGCATTTTTACAAACCTTACCGCTGGCAAAAATC +CCCGGCGTCGGCAAAGTCTCAGCGGCAAAACTGGAAGCGATGGGGCTGCGGACCTGCGGTGATGTACAAA +AGTGTGATCTGGTGATGCTGCTTAAACGCTTTGGCAAATTTGGCCGCATTTTGTGGGAGCGTAGTCAGGG +GATTGACGAACGCGATGTTAACAGCGAACGGTTGCGAAAATCCGTCGGCGTGGAACGCACGATGGCGGAA +GATATTCATCACTGGTCTGAATGTGAAGCGATTATCGAGCGGCTGTATCCGGAACTTGAACGCCGTCTGG +CAAAGGTAAAACCTGATTTACTGATTGCTCGCCAGGGGGTGAAATTAAAGTTCGACGATTTTCAGCAAAC +CACCCAGGAGCACGTCTGGCCGCGGCTGAATAAAGCTGATCTAATCGCCACCGCGCGTAAAACCTGGGAT +GAACGCCGCGGCGGGCGCGGTGTGCGTCTGGTGGGGCTGCATGTGACGTTGCTTGACCCGCAAATGGAAA +GACAACTGGTGCTGGGATTATGATGTATACTATTATGTATATTCTGGTGTGCATTATTATGAGGGTATCA +CTGTATGCATCGAATTCTCGCTGAAAAATCGGTCAATATCACTGAGTTACGTAAAAACCCAGCTAAATAC +TTTATTGATCAACCGGTTGCGGTTCTTTCTAATAATCGCCCCGCAGGATATCTCTTAAGTGCCAGCGCAT +TCGAAGCGTTAATGGACATGCTTGCTGAACAAGAGGAGAAAAAGCCCATAAAGGCGCGCTTCCGTCCAAG +TGCTGCAAGATTAGAGGAAATTACACGCCGCGCTGAACAATATCTTAATGATATGACGGATGATGATTTC +AATGACTTTAAGGAATAAGGATGCGGGTATTCAAAACAAAACTTATTCGCCTGCAACTTACAGCAGAGGA +ACTTGATGCGTTAACGGCGGATTTTATTTCCTATAAGCGTGACGGTGTTTTGCCAGATATATTTGGTCGC +GATGCACTCTACGACGACTCCTTTACCTGGCCATTAATCAAATTTGAGCGAGTTGCTCATATTCATCTGG +CAAATGAGAATAATCCATTTCCGCCACAGTTGCGCCAATTCAGCAGAACGAATGACGAAGCGCATTTGGT +ATATTGTCAGGGGGCGTTTGATGAGCAAGCATGGTTGCTCATTGCCATTCTGAAACCTGAACCTCATAAA +CTGGCTCGAGATAACAACCAAATGCATAAAATTGGGAAAATGGCAGAAGCGTTTCGCATGCGTTTTTGAA +TTTATATTATGAATAACATACAAATAAGAAACTATCAGCCTGGCGATTTTCAGCAACTATGCGCTATTTT +CATTAGAGCGGTTACGATGACCGCCAGTCAGCATTATTCACCACAACAAATTTCCGCCTGGGCGCAGATT +GACGAATCTCGCTGGAAGGAGAAACTCGCGAAATCACAAGTGTGGGTTGCGATCATTAATGCACAACCGG +TTGGTTTTATTTCCCGCATTGAACATTATATCGATATGTTATTTGTTGACCCTGAATACACCCGCCGTGG +GGTTGCCAGCGCTTTGTTAAAACCTTTGATTAAGTCTGAATCCGAACTTACGGTGGACGCAAGCATAACC +GCAAAACCCTTTTTTGAACGTTATGGTTTTCAGACAGTTAAGCAGCAGCGCGTTGAATGCCGGGGAGCGT +GGTTTACTAATTTTTATATGCGATATAAACCGCAACATTAAATCCAGCTTGCAATGAAAATAACGCCCGC +CTGGTATGTGCGCGTTTTCTGATTCCACAAACTGCAAGGAGGTAAATCATGACAAATCCTTTATCAATGA +CTCTTTGCAGACCTTTCCAGGATTAATTCTTTTTTTCTTGCCCTGGATTCGTCTGCCATTTCCTGATTTT +TATATTTATATACTCTAAATAATTCGAGTTGCAGGAAGGCGACAAGCGAGTGAATCGCCAGGAGCTTACA +TAAGTAAGTGACTGGGGTGAACGAACGCAGTCGCAGTACATGCAACTTGAAGTATGACGAGTATAAATGG +AATGGTACATGGGCAAATATATTCGTCCCTTATCCGATGCGGTATTTACCATCGCATCTGATGACCTGTG +GATCGAGAGTTTAGCGATCCAACAATTACACACCACGGCAAATTTACCCAACATGCAGCGCGTAGTGGGG +ATGCCAGATTTACACCCCGGACGCGGCTACCCGATTGGCGCAGCGTTCTTCTCTGTTGGTCGTTTTTACC +CGGCAAGACGTCGCGGTAACGGTGCTGGAAACAGAAACGGGCCGCTACTCTGACACACTGCGTTCGGCGC +TGGTTTCTCTCGATGGCGATAACGCATGGGCATTAAGCGAAAGCTGGTGTGGCACTATTCAGTGGATTTG +TCCGAGTCCGTATCGGCCTCATCATGGGCGCAAAAACTGGTTTCTGGGCATTGGGCGTTTTACCGCTGAT +GAGCAGGAACAATCGGATGCAATCCGTTATGAGACGCTGCGTTCGTCGGGGCCGGGCGGTCAACATGTCA +ATAAAACCGACTCGGCGGTACGCGCCACGCATTTGGCATCCGGTATTAGCGTGAAGGTTCAGTCAGAGCG +TAGTCAGCATGCTAACAAGCGGCTGGCACGATTGCTGATTGCCTGGAAGCTGGAGCAACAGCAACAGGAA +AATAGCGCGGCGCTGAAATCGCAGCGGCGAATGTTCCATCACCAGATTGAACGTGGCAACCCGCGACGGA +CATTTACAGGGATGGCTTTTATCGAAGGATAATGAAGGATGAAACTGCCGGAAGGCGATTAAACGCCATC +CGGCAGCAAATCAAATAATTACTTCGCCGGAATTTCTTTCAGCAGTTCAGTCAGCAGTGTCCAGTAATGA +CCTACGCTTTCGATGTGAACTTGCTCATCCGGAGAGTGTGGACCGGTGATAGTTGGCCCGATAGAAACCA +TGTCCATTTCCGGATACGGTTTTTTGAACAGACCACATTCCAGGCCCGCGTGGATAATCTGGATGTTCGG +CGTCTTGTTGAACAGGCGCTGATAGGTTTCACGTACCAGATGCATCACCGGAGAATTAGCGTCCGGCTGC +CAGCCAGGATATGCGCCTTTCGCTTCGGTTTTCGCGCCAGCCAGTTTACCCAGCGAATCCAGCATGCTCA +CCACGTAGTCTTTACCGCTGTCGATCAGTGAACGGATCAGGCAGTGAATTTCTACGTTATTGTCAGTCAT +GGTCACCACACCGACGTTCAGGGAGGTTTCAACCACACCTTTGGCTACATCGGAGTTACGAATCACACCG +TTCGGGGTGGCGTTCAGCAGACGAATAAAGGTATCGCGAGATTTCGCAATCAGGGCAGCTTTATCGTTCG +CTACAGAGTCCAGCAACAAGGCCAGATTTTTCTCTTTTTCTGCCAGCTCGTTTTTCAGGATCTCCTGATA +GGTATTCACCAGAGATTTCAGGACGTCGACTTTATCAGCTGCGACAGCAATGGTCGCAAAGGCTTCACGC +GGGATGGCGTTACGCAGTGTGCCGCCGTTGAAATCGATAAGGCGCAGATCCAGTTCTTCCGCATGACCCG +CCAGGAAGCGCACCAGCAGTTTGTTGGCATTACCCAGCCCAACGTGGATTTCCCCGCCGGAGTGACCGCC +TTTCAGACCTTTTAAGGTTAACTTGAAGGTTTCAAAACCAGCTGGAACCGCTTCACGATCTAAATGCAGG +TTGGAGGTGAAGTCGATACCCCCCGCACAACCCATGTAGATTTCACCTTCTTCTTCGGAGTCGGTGTTAA +TCAGAATATCAGCCTGCAACCAGTTGCCCTGTAAGCCGAACGCACCGTCCATACCGGCTTCTTCGGTCAT +GGTCAGCAGCACTTCCAGCGGGCCGTGAACCACGTTTTCGTCAGCCAGAACCGCCAGCGCAGAGGCCATA +CCAATGCCGTTATCCGCACCCAGCGTGGTGCCGCGCGCTTTAACCCATTCGCCATCAATATAAGGCTGGA +TAGGATCTTTCGTGAAGTCATGCACGGTGTCGTTATTTTTCTGCGGCACCATATCGAGGTGGGCCTGTAA +GACGACCGGTTTACGATTTTCCATACCTGCGGTAGCAGGTTTACGAATCAGGATATTACCTACCTGATCG +CGTTCGACATGGAAACCTTTCTCTTTTGCCCAACCAACAATGTATTCAGCGAGTTGCTCTTCATGATAGG +ACGGGTGAGGAATAGAACAGATTTTGGCAAAAATATCCCACAGCGGCTGTGGAGATAATTGAGACAGTTC +AGACACGTTAAGTCTCCTTGTCGATCACCCGCAAAACAGTATTGCAGGTCACAGGGTTAGCAGAAAATGT +TGTCAACACAAGACAGGCTTGCGAGATATGTTTGAGAATACCACTTTATCCCGCGTCAGGGAGAGGCAGT +GCGTAAAAAGACGCGGACTCATGTGAAATACTGGTTTTTAGTGCGCCAGATCTCTATAATCTCGCGCAAC +CTATTTTCCCCTCGAACACTTTTTAAGCCGTAGATAAACAGGCTGGGACACTTCACATGAGCGAAAAATA +CATCGTCACCTGGGACATGTTGCAGATCCATGCACGTAAACTCGCAAGCCGACTGATGCCTTCTGAACAA +TGGAAAGGCATTATTGCCGTAAGCCGTGGCGGTCTGGTACCGGGTGCGTTACTGGCGCGTGAACTGGGTA +TTCGTCATGTCGATACCGTTTGTATTTCCAGCTACGATCACGACAACCAGCGCGAGCTTAAAGTGCTGAA +ACGCGCAGAAGGCGATGGCGAAGGCTTCATCGTTATTGATGACCTGGTGGATACCGGTGGTACTGCGGTT +GCGATTCGTGAAATGTATCCAAAAGCGCACTTTGTCACCATCTTCGCAAAACCGGCTGGTCGTCCGCTGG +TTGATGACTATGTTGTTGATATCCCGCAAGATACCTGGATTGAACAGCCGTGGGATATGGGCGTCGTATT +CGTCCCGCCAATCTCCGGTCGCTAATCTTTTCAACGCCTGGCACTGCCGGGCGTTGTTCTTTTTAACTTC +AGGCGGGTTACAATAGTTTCCAGTAAGTATTCTGGAGGCTGCATCCATGACACAGGCAAACCTGAGCGAA +ACCCTGTTCAAACCCCGCTTTAAACATCCTGAAACCTCGACGCTAGTCCGCCGCTTTAATCACGGCGCAC +AACCGCCTGTGCAGTCGGCCCTTGATGGTAAAACCATCCCTCACTGGTATCGCATGATTAACCGTCTGAT +GTGGATCTGGCGCGGCATTGACCCACGCGAAATCCTCGACGTCCAGGCACGTATTGTGATGAGCGATGCC +GAACGTACCGACGATGATTTATACGATACGGTGATTGGCTACCGTGGCGGCAACTGGATTTATGAGTGGG +CCACCCAGGCGATGGTGTGGCAACAAAAAGCCTGTGCGGAAGACGATCCGCAACTCAGTGGTCGTCACTG +GCTGCATGCGGCTACGTTGTACAACATTGCCGCCTATCCTCATCTGAAAGGAGATGACCTGGCCGAGCAA +GCGCAGGCTTTGTCAAACCGCGCCTATGAAGAGGCCGCTCAGCGTCTACCGGGCACGATGCGGCAGATGG +AGTTTACCGTACCCGGCGGTGCGCCCATCACCGGCTTTTTGCATATGCCGAAAGGCGATGGCCCGTTCCC +GACGGTATTAATGTGTGGTGGTCTGGATGCGATGCAGACGGACTATTACAGCCTGTATGAACGTTATTTT +GCGCCGCGCGGCATTGCGATGCTGACTATTGATATGCCGTCGGTGGGCTTTTCTTCAAAATGGAAGCTCA +CCCAGGACTCCAGCCTGTTGCATCAGCACGTCTTAAAGGCGCTGCCTAACGTACCGTGGGTGGATCACAC +TCGCGTCGCGGCCTTTGGTTTCCGTTTCGGCGCTAACGTTGCCGTGCGTCTGGCATACCTTGAATCGCCG +CGTCTGAAAGCGGTTGCCTGTCTTGGTCCGGTAGTTCATACCCTGTTGAGTGATTTTAAGTGCCAGCAAC +AGGTGCCGGAAATGTATCTTGACGTTCTGGCCAGTCGTTTGGGGATGCATGATGCTTCCGATGAAGCGTT +GCGCGTGGAGCTGAATCGCTATTCATTAAAAGTGCAAGGATTGCTGGGACGTCGCTGCCCAACGCCAATG +TTATCAGGCTACTGGAAGAACGATCCGTTCAGCCCGGAAGAGGACTCACGCTTAATCACCTCATCATCTG +CTGACGGTAAATTATTAGAGATCCCATTTAACCCGGTGTATCGGAATTTTGACAAAGGTCTTCAGGAAAT +CACCGACTGGATCGAAAAACGCTTGTGTTAAAAATTTGCTAAATTTTGCCAATTTGGTAAAACAGTTGCA +TCACAACAGGAGATAGCAATGACGTTACCGAGTGGACACCCGAAGAGCAGATTGATCAAAAAATTTACCG +CACTAGGCCCGTATATTCGTGAAGGTAGGTAATGACTCCAACTTATTGATAGTGTTTTATGTTCAGATAA +TGCCCGATGACTTTGTCATGCAGCTCCACCGATTTTGAGAACGACAGCGACTTCCGTCCCAGCCGTGCCA +GGTGCTGCCTCAGATTCAGGTTATGCCGCTCAATTCGCTGCGTATATCGCTTGCTGATTACGTGCAGCTT +TCCCTTCAGGCGGGATTCATACAGCGGCCAGCCATCCGTCATCCATATCACCACGTCAAAGGGTGACAGC +AGGCTCATAAGACGCCCCAGCGTCGCCATAGTGCGTTCACCGAATACGTGCGCAACAACCGTCTTCCGGA +GACTGTCATACGCGTAAAACAGCCAGCGCTGGCGCGATTTAGCCCCGACATAGCCCCACTGTTCGTCCAT +TTCCGCGCAGACGATGACGTCACTGCCCGGCTGTATGCGCGAGGTTACCGACTGCGGCCTGAGTTTTTTA +AGTGACGTAAAATCGTGTTGAGGCCAACGCCCATAATGCGGGCTGTTGCCCGGCATCCAACGCCATTCAT +GGCCATATCAATGATTTTCTGGTGCGTACCGGGTTGAGAAGCGGTGTAAGTGAACTGCAGTTGCCATGTT +TTACGGCAGTGAGAGCAGAGATAGCGCTGATGTCCGGCGGTGCTTTTGCCGTTACGCACCACCCCGTCAG +TAGCTGAACAGGAGGGACAGCTGATAGAAACAGAAGCCACTGGAGCACCTCAAAAACACCATCATACACT +AAATCAGTAAGTTGGCAGCATCACCTGAAGGTAAGTGCAAAGATAATCGATTCTTTTTCGATTGTCTGGC +TGTATGCGTCAACGTGAAACCGGCACCGGAAGTGCGTGAATTCTGGGGCTGGTGGATGGAGCTGGAAGCG +CAGGAATCCCGTTTTACCTACAGTTACCAGTTTGGTCTGTTCGATAAAGCAGGCGACTGGAAGAGTGTTC +CGGTAAAAGACACTGAAGTGGTTGAACGACTGGAGCACACCCTGCGTGAGTTTCACGAGAAGCTGCGTGA +ACTGCTGACGACGCTGAATCTGAAGCTGGAACCGGCGGATGATTTTCGTGACGAGCCGGTGAAGTTAACG +GCGTGAGTGAAATGTGCCGGATGCATCACATCCGGCAATATTCATTAAAACTGATACGTCATGCCAACCG +CGACAATATCATCATTATTAATATTCAATTTGTTATCGCTATCCAGTTGGTTGATTTTATAATCAACAAA +CGCTGACATATTTTTGTTGAAATAATACGTAGCACCGACGTCGATATAATTGACCAGATCTTCATCACCG +ATACCTTCAATATCTTTCCCTTTCGATAAGACATAACCCAGCGATGGACGCAGACCAAAGTCAAACTGGT +ATTGAGCGACCGCTTCAAAGTTCTGTGTCTTATTGGCAAAGCCGCCAGTTATTGGCGTCATTTTGCGTGT +TTCAGAATAGAAAGTTGCCAGATAAATATTATTGGCATCGTATTTCAGACCTGTTGCCCATGCTTCTGCA +CGCTTGCCTGTGCCACGGCTTTGCAGGTTCTGCTCGTTGGTGCGATCTGAGTTGGTATAGGCCCCACTAA +TGGCGAAATCGCTGCCGCCAAAGTCATATGTCAATGACGTGCCGAAGCCATCGCCGTTTTGCTTTTTAAC +GTCGCGGTTTTCGTTTTTCCCTTGATATTGCAGGGTTAAGTTCAGGCCATCGATAACGCCGAAGAAGTCG +GTGTTCCGATACGTCGCCAGACCGCTGGCGCGTTTGGTCATAAAGTTGTCGGTCTGCGCCGAGGAATCGC +CACCAAATTCCGGGAACATATCGGTCCAGGCTTCCACGTCATACAACGCCCCCAGGTTACGACCATAATC +GAAAGAACCCAAATCTTTATATTTCAACCCGGCAAAAGCGAGACGCGTTTTTTGCTGTGCAGTATCACTC +TCTGCTTTATTACCGGCAAACTCTGCTTCCCAACGACCATAACCAGTCAGTTGATCGTTAATTTGTGTTT +CGCCTTTGAAACCAAAACGGATATAACTCTGGTCGCCATCTTTACTGGCGTTATCACTCATATAATGCAT +GGCTTTAACTTTGCCATAGACATCCAGTTTATTACCGTCTTTATTATATATTTCTGCAGCCTGTACAGAT +GCAGATGCCACAATGCCCATCACCACTAATGCCAGAGTGCTCTTTTTCATTTTCATTCCTGATTTTAATT +AACGCGCGAATATTCAGCGGGAGAGTCCCGTTGAAAACAGGAAAGTTTTTAACCTGAGATTGTTAAAGAT +ATATTACAGATTAATAATATTCTTAAAATGTGGTAATTTATTAAATCTGTAATAAAAGCGTAAACAACTG +CCGCTAGGCTTGCTGATCCCGCGCAACAAAACGCCATGCTTTGCTCGCAGATGGTTGGCAACCGACGACA +GTCCTGCTAAAACGTTCGTTTGATATCATTTTTCCTAAAATTGAATGGCAGAGAATCATGAGTGACAGCC +AGACGCTGGTGGTAAAACTCGGCACCAGTGTGCTAACAGGCGGATCGCGCCGTCTGAACCGTGCCCATAT +CGTTGAACTTGTTCGCCAGTGCGCGCAGTTACATGCCGCCGGGCATCGGATTGTTATTGTGACGTCGGGC +GCGATCGCCGCCGGACGTGAGCACCTGGGTTACCCGGAACTGCCAGCGACCATCGCCTCGAAACAACTGC +TGGCGGCGGTAGGGCAGAGTCGACTGATTCAACTGTGGGAACAGCTGTTTTCGATTTATGGCATTCACGT +CGGGCAAATGCTGCTGACCCGTGCTGATATGGAAGACCGTGAACGCTTCCTGAACGCCCGCGACACCCTG +CGAGCGTTGCTCGATAACAATATCGTTCCGGTAATCAATGAGAACGATGCTGTCGCTACGGCAGAGATTA +AGGTCGGCGATAACGATAACCTTTCTGCGCTGGCGGCGATTCTTGCGGGTGCCGATAAACTGTTGCTGCT +GACCGATCAAAAAGGTTTGTATACCGCTGACCCGCGCAGCAATCCGCAGGCAGAACTGATTAAAGATGTT +TACGGCATTGATGACGCACTGCGCGCGATTGCCGGTGACAGCGTTTCAGGCCTCGGAACTGGCGGCATGA +GTACCAAATTGCAGGCCGCTGACGTGGCTTGCCGTGCGGGTATCGACACCATTATTGCCGCGGGCAGCAA +GCCGGGCGTTATTGGTGATGTGATGGAAGGCATTTCCGTCGGTACGCTGTTCCATGCCCAGGCGACTCCG +CTTGAAAACCGTAAACGCTGGATTTTCGGTGCGCCGCCGGCGGGTGAAATCACGGTAGATGAAGGGGCAA +CTGCCGCCATTCTGGAACGCGGCAGCTCCCTGTTGCCGAAAGGCATTAAAAGCGTGACTGGCAATTTCTC +GCGTGGTGAAGTCATCCGCATTTGCAACCTCGAAGGCCGCGATATCGCCCACGGCGTCAGTCGTTACAAC +AGCGATGCATTACGCCGTATTGCCGGACACCACTCGCAAGAAATTGATGCAATACTGGGATATGAATACG +GCCCGGTTGCCGTTCACCGTGATGACATGATTACCCGTTAAGGAGCAGGCTGATGCTGGAACAAATGGGC +ATTGCCGCGAAGCAAGCCTCGTATAAATTAGCGCAACTCTCCAGCCGCGAAAAAAATCGCGTGCTGGAAA +AAATCGCCGATGAACTGGAAGCACAAAGCGAAATCATCCTCAACGCTAACGCCCAGGATGTTGCTGACGC +GCGAGCCAATGGCCTTAGCGAAGCGATGCTTGACCGTCTGGCACTGACGCCCGCACGGCTGAAAGGCATT +GCCGACGATGTACGTCAGGTGTGCAACCTCGCCGATCCGGTGGGGCAGGTAATCGATGGCGGCGTACTGG +ACAGCGGCCTGCGTCTTGAGCGTCGTCGCGTACCGCTGGGGGTTATTGGCGTGATTTATGAAGCGCGCCC +GAACGTGACGGTTGATGTCGCTTCGCTGTGCCTGAAAACCGGTAATGCGGTGATCCTGCGCGGTGGCAAA +GAAACGTGTCGCACTAACGCTGCAACGGTGGCGGTGATTCAGGACGCCCTGAAATCCTGCGGCTTACCGG +CGGGTGCCGTGCAGGCGATTGATAATCCTGACCGTGCGCTGGTCAGTGAAATGCTGCGTATGGATAAATA +CATCGACATGCTGATCCCGCGTGGTGGCGCTGGTTTGCATAAACTGTGCCGTGAACAGTCGACAATCCCG +GTGATCACAGGTGGTATAGGCGTATGCCATATTTACGTTGATGAAAGTGTAGAGATCGCTGAAGCATTAA +AAGTGATCGTCAACGCGAAAACTCAGCGTCCGAGCACATGTAATACGGTTGAAACGTTGCTGGTGAATAA +AAACATCGCCGATAGCTTCCTGCCCGCATTAAGCAAACAAATGGCGGAAAGCGGCGTGACATTACACGCA +GATGCAGCTGCACTGGCGCAGTTGCAGGCAGGCCCTGCGAAGGTGGTTGCTGTTAAAGCCGAAGAGTATG +ACGATGAGTTTCTGTCATTAGATTTGAACGTCAAAATCGTCAGCGATCTTGACGATGCCATCGCCCATAT +TCGTGAACACGGCACACAACACTCCGATGCGATCCTGACCCGCGATATGCGCAACGCCCAGCGTTTTGTT +AACGAAGTGGATTCGTCCGCTGTTTACGTTAACGCCTCTACGCGTTTTACCGACGGCGGCCAGTTTGGTC +TGGGTGCGGAAGTGGCGGTAAGCACACAAAAACTCCACGCGCGTGGCCCAATGGGGCTGGAAGCACTGAC +CACTTACAAGTGGATCGGCATTGGTGATTACACCATTCGTGCGTAAATAAAACCGGGTGATGCAAAAGTA +GCCATTTGATTCACAAGGCCATTGACGCATCGCCCGGTTAGTTTTAACCTTGTCCACCGTGATTCACGTT +CGTGAACATGTCCTTTCAGGGCCGATATAGCTCAGTTGGTAGAGCAGCGCATTCGTAATGCGAAGGTCGT +AGGTTCGACTCCTATTATCGGCACCATTAAAATCAAATTGTTACGTAAGATCTTATCATTCTCCCACCAA +AAAATTATCTTAATGTAACAGCTGGTGTAAGTAAATTCTATCAACGAAGATCAATCTTATCTACTGACCA +AAAAGGCCTGATAGGGCTTCGCTCACTATACATCCTTGGCTGCAGGTTTAGTTGTACACCACTCCTAAAT +TTAATGTGTTGGCAATGTGTTCAATAAAGCTCGAACAAATTAGCTCATTATGATCGGTTAATACTTCAAC +TTCTGGTTGCATGATTGTTTGTCCGTAAAAAGATAACGCGCCTGCCGGGTAGTAGCAGGCGCATTACGCA +ATAGGTAAACAAGGGAGGAAGTTCAGAAATGTAAATCGGGAAGGTTGTACGCAATGTTCATCGTACTACG +TTGTTACGGCTTTGCCGCAACAAGCCAGTTGCCTGCCGCGCTCGCAGAATGTCTGCAGCCCGGAGATAAG +GAGATTGTTCCTGCCAGCTAAATCCCTTCCTGTCGATACGAACCAGCTCGTATTTTTCTACCAGAAAATT +CACGGCATCGGCTAGGGTGATACCGGCATCGATGTGTTCCTTAATCACAGCCTCATTGCAGAATGGCGTG +TCGTTTATTGTCAGACCATAGTGCTGTTCCAGCAGACGTGTCAGTAACATTTGCCAGACAGCCACGGGTG +ACAGGCAGGGCTTCACCGCCCGCTGAGTTATTGCAGGTAAAGTTTTCATGTTTGCTCTCGTGTAGGTAAT +TAACGCTGAGTGGGGTAAATGGCGATGTATACGTAGCCGCAACTGCCAAGGGTGTCGGCTTCGCAGGTTA +AATCGTTGTGGTACAGGGTAACGCAGTGGGCATGGTGGGGGCTGAGTTCACCGGTGGTCAGCATCGATTC +CATCTGGAGGATAAAGTGCGGGAATGTTTCATCCAGCTTCCGGCATTCGATGTCACTGAACTTGCCGGTG +ATGCTGGCCCGGTCAGCCAGATAATGCAGTCGGTTGCCTTCCTGCACCAGACGGGCTCCCAGGCGCAGTG +TAATCTCCCGCTGCAGGCCCCTGGTAGGGTTGCTCATTACAGTTCTCCACTATTGTCAGTTCAGGGTGAT +GCTCATCAGGCAGGTATAGGGCCCATTGCGGTCCTGGCGGCGTTCGGCGTATACCGCGAGGACTCCGGCG +ATATCCGGAACGTCCCTGCCGGTGTAATGACAGACGCTACCGTGCCACTGGTATTTGCCGGTGCAGTAGC +GAAAGATTCGGGACTCAGGATGCTGGCGGTATATCGTCATTGCCCTGCGTTTACTGATAATTTTCATGTA +ATACCTCAAAGCAGACCGTGTTCTGCGAACGAATAGATTTGCCTGCCACCGACAATCAGATGGTCAGGGA +CACGGATATCCACCAGCTGAAGCACCTGAACCAGTCGCTGCGTGAGGGTTTTGTCGGCCTGGCTAGGTGT +CGTCTCGCCGGAAGGATGGTTATGCGCGAGTATCACCGCCGCCGCGTTGAAGTGCAGAGCACGTTTGACC +ACCTCCCGGGGATGCACCTCGGTGCGGTTAATCGTGCCGGTGAAGAGCGTTTCATGGGCAATCAACTGAT +TCTGGTTGTCCAGATACAACACCCGGAACTCTTCCCGCTCAAGCGCGGCCATATGCAGTCGCAGCCATTC +ACGTACGGCGTGGGTAGAGGTGAAGGCTACGCCGGGCTCATGCAGGTGGCGGTCCAGAGCCCTGAGCGCC +CGCTGAATGAGACGCCGGTCCTGTGGCGTCATCTCGCCGGGTAAAAAGGAAAGCTGTTTCATCTGTTGCT +CCTTCGGTCAGTCGATAATACGCAGAATGGCGTGAGCCTCTGGATGTTGCATGGCATACTCCCGCAGGCG +GTAATAGTGTGCGGTCATCGCGTCACATTCTGTACGGCAGGCATGGTGGCTATACGCAATCAGGCAGACA +GCAATACCTGCTGCTTCTGCACTCATTTGGGCATCGTTACCGTTCAGGCAGTTAAACAGACGCCATGTCT +CATCGTTGTCAGGCTCGGGGGACATAAATGCGCCGCCATTGCTGAGGGTGTAGAACGACCAGATACCACC +GCTGTAGCCCTCACAGAAGCGGTCCATCCAGGCGAAGATATGCGGCTCCAGGAGTAGCCACTGCGGGATA +GCGCCAAAGTACTGTGGCCAGAAATCGATACGCTGTTCATCGGGGACCGGCGTGACGGTCAGTTCAAATT +CGGGTTGGTTAGCGGGTGCGAGGTCGTGCTGCGTCTGTGTTGTCATGGGTATGTCTCCGTCAATAAAAAC +GCCAGCGGCGATGGCTGGCGTATGGGGATATAAAGTGTGTTCGGGGAGGTGAATGCGGGTAAATGCTTCG +CGATCAGCGGGTGGCCGTGTCTGTACGGATGCCTGAGGTGCGGATATAGCGGTTAAGACCTTCACCGGCA +TCCGGCTCAAAGTTCCATGCCCGCCAGACCATCCGGCCTTCAGTATCACGAACCACCAGACGGAAGTGAC +TGCCCTGGTCGTCTTCGAGTGTGATATTGCTGTACGTGGTAGTGACCGCTTGCGCTTGTCTCCGGGTGAA +AGGCCCCGGTGGCAGCAACACGGATTGGGTCATTTTCGGGCTCCTGATAAAAGAAAACCCCGGCAGCCTG +CTAGCTGTCGGGGTGAATTTGCTGGGGAAGATACTACTATCAGTCGTTGCTGCAGTCTCCGAGAGTGGAC +AGAACTTTCTCAGCGTTCTTCCGGTCCGCAGTGAAGGTCCCTGCTTTGTGGTCATTGACGTAGACGTCGA +ACTGCCCGGCCTCAGAGATATTGCTGATGAAGTCAAACCAGGCGTTATCGCCGTTACGCCAGCCCAGGCT +GGACGGAATAATGTACTGCTGGTGATCCATCACTACGGTGATAGTAGTGTCGTCATCGTGCGAACTGACC +ATCTTGTCATCGGCAAGGGTAAGAAAGACTGAATGCTGATAGAAACCATTCTGGTCCGGGTTCCCTGTGC +AGTTGATGGTAAACGTCTTTCCGCTGGCTTCGGTCACGCTGTATTCCGTATTGCCCTGACCGTAACCCTG +CTGCCAGAACCCCGGGATAGCAGAGGCATTAAAGCTCGCGAGCAGTACACCCGCCAGCATAAACCGACTT +AGTGAAAGTATTGTCATTCTTGTCTCCTTTGTCGTTGTTTTATTCCTGATTGTCAGGGTTCGAGGGTATC +AGTAGCTGCCCCATCAGTTTGCCGTCATGGGCGTACTCAAAGTATTTTTCTTTGGTATACGGGTCCGTCA +CCTCCTGGTATTCCAGTTTGATGTTATCGGCAATACACAGCGCATTCATCAGTGGCTGGACGGTTTTTTC +CTGCATATCCACGAGGTAGTAGTAACTGCCATCCTCGCAGCCATCGGGCGACTGGCGGGTACGTAAAACC +TGCAAGGTGGGACCGGATAAGTAGTCAACCTGTGACCATTCTTCGCTGACATCATCCTGGTGGCTGACCA +CATCACTGAAACGCGGTGGGGTGAGGTCCTTAAATTTACTGATGGCCTTCAGGTCATCACTTCTGTCATC +GCATGCGATGAGAAACAGAGTGGTGGCAACCAGCGCCAGCAGAGGCAGTGTTTTACGTTTCATTATTTTT +TTCCTGAAATCAGACGAACCACTTTGGCAAAGACATAAATGCCCACGAAAATACCCACCGGCACGCCGAC +GAACGGTGTCAGCGCGACACTGGCAGCACCGGCTGCGCCACCTCCCGTCAGCAGTGCGGCAACAGTGGCA +AGGGTCAGGGCCGCGAGACTGTCGGACACCCCGGTTTTGTTCAGAATGATGACGATGACAACAATGGCGA +TAATGGCAATATCCGGACTGATACTCCAGGTCCAGATACATCAGCCGCTCACGAAAATCACGCCGCAGCG +TGCGCACCGACACACCAAACTCAGCGGCAAGCTTACGCACACTCAGCGTTTCCCCTGCCACCAGACGGCT +GATTATCAGTGACAGCCTGACAGCCAGCCGGTCATGGCGGCGTTCTGCCTGTGTCATGAGACGTTCTCCG +TGAAAGTTAACTGACTGAAAATGATGTGATTACTTTAAAGAGGGGGTCGGACAGGGTATGGACACCACAG +AAACTATTTTTCATTTCTGCAAAAGCCAGAGGCAGCGGGGGTTACAGGCCTTCCCTCGGTGAGTGAGGAC +CGTCAGCACGGTGCGATGCGGACAGGTGGTGTCCGATATTAACAAAGCAGCAACATTAAACGGTCACTGC +AGTTGCGTGAGCAGGGCTTCCGCCATCACCCACAGTGCCCGGTTAAGTTTCACGTCCCCGTCGATACCGC +GAACGGCACGGGTATGTGACCGTCCTCCTTTGGCATTACGGCCACTGAGCCCGCCCTTAATCAGGTTCTC +CTGAATACGCTGGTACGTGGTCCACAGGTCATTGCTCTCATCCTGCCAGCGGCGAGGGGAGAGGATCTGC +GATTCAGTCACCGGCTGGTGGTCTTCACCAAAGCGGTATGTGAGGGCGGCTTTTGCCAGTGCCTGCTGTG +CCGGGGGTGGCAACAGCAACGACTGCATGGCATCCCGTTTCTCCTCCACCCGGTCAAAAATCCCCAGCAC +CTCATACGCGCCTTCAATCACCTGACTCACCACGTCCCCCTTGTGTGGCACCCGCACCTCGCCAAACGAC +TCACCGCAGACGAGCCCGTTCTGACAAACCGCACGAAATAGTCCCGGCAACATCTGATACGAACTGGTTC +CATCGTGAGAGTTGAGTAGAATAATTTCCGGCACCTGTTTACCGGTGATCTGCCCTTCCCGCCGCAGACG +CAGCATATGCTTTGTATGTTCACGACGACCCGGGTCACGCACGCGGGTCTGACAGGCAAAGAATGGCTGG +AAGCCTTCTCGCTGTAGGCTGTCGAGCAGGGAGATGGTGGGTATATAGGTATAACGCTCACTACGGGACT +CGTGTTTGTCCTCACTGAATACACTGGGCACTACGCGAAACAGCTCTTCACGGGTTAACGGACGGTCGCG +ACGGATAAGGTTTGCTGCGCCAAAGCGCGAAGCCAGACGGGTCATAAGCAGACTCCTCATAACGGGAAAA +CAAATAAAAGGGATCCCCGTCGCATCGGCGACAGGGGCAGGGAAGTAACAGGGATGGGTTAAATACTCAG +AAGAAGAAATCCCAGACGGCGCGGGCCACTGACACCACCGTGGTGCGCACGGCCTGAATGACGGCCCGCA +CCGGGGCGGGTATCAGGGGAAAGGCACTGATGCTATCGAGTACGGCCCCGACGGTTTCACCAAAATCGCT +ACGAGCCTGTTCCCGGACTACCGTCGTGCGAAAGGAAGGATGGAGTTGCGACACCACCGGGCTGGTGGCC +TCACGTGGCAGGCACTTAATCATCCGCTCGGCCATCACCTTAAGCCCCCATTGTAGACGGACCGACACAG +CACACACCGGATGGACGGGCTGGAACAGCTCATGCAGCAGGCAGATTTTGCGGCTGATATTCTGCTTCTG +CGCCGTGGACAACTGTCCCCCACCGCTGGTAGGTTCGGCCTTATCCGACTGGCTGATAACAAACAGCACC +TTATGCCGGTATACCTCTCCAATCACCTGATGATAAAAATGTTCATCCACCGTCAGCGCCCGGTCATCGG +CCTTAATCAGCCACAGTACCAGGTCGAGGCGAGGAAGCTGTTCGCGGTACAGCGCAGCATACTCGGTATC +GCGAGCGCCACTTTCGCCCACGCCGGGCAGATCCATCAGCGTTATATAGCGGTCGCCGACTTGCAGGCGA +AAGCGCAGTGGCTCACGTGTACAGGCCGCCACATCGCTGACCGGTGATATATCTCCGGCAAACAGGGCAT +TGCACAGACTGCTCTTCCCAACACCGGTTTTACCCATAATGCCGATCACTGGCTCGTAGTTAGTTAACTG +GTTAATTTGCTGCAGAAGCCGCTCTGATACCCATTGCGGCAGATCAGCAAGCGATTGCTGAAACGACTTC +AAACCTTCAGAATTATTCATCACTACTCCTCTGAAAAATAATAAAAAACGGTAGAATCGTGAGATTCCGC +CGTTAATTGCGTATGTTCAGAGTGATGATATATATCTGAAGATTTTTTCAATCCTCTGCGCTTGAGGCAG +CTGCGCGACTGCTGGCTCAGGCAATGAATGAGTTATAATAGCAGCATTTACTAACAGGGATTTATTGAGA +GTATGAGCCGCCGTGATACACCTTAAAATCTCAACCCAGCAAAGTTTCGGAGCCGCGAGCAAAAGTGAGA +GCCTTCACAAAATAATGCTTAGTAATAAAGTTACTTTGAATTCAGAGCCCCGATTAATGTGAACATGATC +AACGAATTTTACCCAGATTGAGTTCATTCAGTAGCCAGGTTTTGAACACATCAAGCGCAGAATGCATGTG +TTGGTGCTGGGGGAAAACCAAATAATGACCGATGTAATGTATTTCGCTGGTACTGTTTACAAGTGGGCAT +ACCAGTTTACCGCTAGCGATTTCACGTTCAGCCAGTAGTTTTGATTCAAGCACAACTCCCAAGCCGTCAA +CTGCGGCAGCAATCGCCATAAAGCTACGGTCAAATCGAAGGCCATAATTATTGGGTGGCGTCATCTTATT +CGCCTCAAACCATCCTTTCCACTGGTACAACTGCACATCGCACTGAATCAATGTCAACGCATAGAGATCC +TCTGGTTTCTTTAGCCGCTCAGCCAGTTGGGGAGAACACAGTGGCGTAAGTTCTTCAACAGCAAGCGGGA +TCTTCTCATAGGGTGATGGGCGGGGTTCACCGTAGACTATATCGAGATCAAAATCATCCTGTTCAAAACG +TGCATATTCTGTGCTGGCTGAAAGTCGCAGATCGATGCTTGGGTTCTCACGTATGAACTTACCAAGACGT +GGTAAAAGCCATTGATGGGCAAAACTCGGTGCAGTATGAAGGCGCAAAGGCCTGGATTCATCAGCCGTCA +CTAATGCCAACCCCTGCTGTAATTCGTTAAATCCCCGCTGTATGTGCTCAAGCAGTATTTCACCTTCTTT +CGTCAGCGTAATTTCTCGCGTACTGCGCTGAAAAAGGCGTACATCAAGCAAGTTTTCCAGTTTGCGGATG +GCATGGCTGATCGCACTGGGTGACAGTTCCAACTCAGAGGCGGCCAACGCAAAAGCTCCGGTACGACCAG +CCGCTTCAAAGGCGCGTAACAGATTTAGAGGTGCTTTTGCTAAGAGCTTCATTCATGAATCCTTTTCACT +AGGGATGAAGTGGTTTACTGAATTTGGCCACCTGAACAGAGGTGATATGCTCACCTCAGAACAACACAGG +TGTCATAATGAAAAAAAGAAATTTCAGCGCAGAGTTTAAACGCGAATCCGCTCAACTGGTCGTTGACCAG +AACTACACCGTGGCAGATGCAGCCAGCGCTATGGATGTCGGCCTTTCCACAATGACGCGATGGGTGAAAC +AATTACGTGATGAACGGCAGGGCAAAACACCAAAAGCCTCCCCCATTACCCCGGAACAAATTGAAATCCG +TGAGCTCAGGAAAAAGCTACAACGTATTGAAATGGAAAATGAAATATTAAAAAAGGCTACTGTAGATTCA +ATTGGTCAACGCAACAGTTATGTGAAAACATGGGGTTGCGGAGGTTTTTTGAATGAGACGAACATTTACA +GCAGAGGAAAAAGCCTCTGTTTTTGAACTATGGAAGAACGGAACAGGCTTCAGTGAAATAGCGAATATCC +TGGGTTCAAAACCCGGAACGATCTTCACTATGTTAAGGGATACTGGCGGCATAAAACCCCATGAGCGTAA +GCGGGCTGTAGCTCACCTGACACTGTCTGAGCGCGAGGAGATACGAGCTGGTTTGTCAGCCAAAATGAGC +ATTCGTGCGATAGCTACTGCGCTGAATCGCAGTCCTTCGACGATCTCACGTGAAGTTCAGCGTAATCGGG +GCAGACGCTATTACAAAGCTGTTGATGCTAATAACCGAGCCAACAGAATGGCGAAAAGGCCAAAACCGTG +CTTACTGGATCAAAATTTACCATTGCGAAAGCTTGTTCTGGAAAAGCTGGAGATGAAATGGTCTCCAGAG +CAAATATCAGGATGGTTAAGGCGAACAAAACCACGTCAAAAAACGCTGCGAATATCACCTGAGACAATTT +ATAAAACGCTGTACTTTCGTAGCCGTGAAGCGCTACACCACCTGAATATACAGCATCTGCGACGGTCGCA +TAGCCTTCGCCATGGCAGGCGTCATACCCGCAAAGGCGAAAGAGGTACGATTAACATAGTGAACGGAACA +CCAATTCACGAACGTTCCCGAAATATCGATAACAGACGCTCTCTGGGGCATTGGGAGGGCGATTTAGTCT +CAGGTACAAAAAACTCTCATATAGCCACACTTGTAGACCGAAAATCACGTTATACGATCATCGTTAGACT +CAGGGGCAAAGATTCTGTCTCAGTAAATCAGGCTCTTACCGACAAATTCCTGAGTTTACCGTCAGAACTC +AGAAAATCACTGACATGGGACAGAGGAATGGAACTGGCCAGACATCTAGAATTTACTGTCAGCACCGGCG +TTAAAGTTTACTTCTGCGATCCTCAGAGTCCTTGGCAGCGGGGAACAAATGAGAATACAAATGGGCTAAT +TCGGCAGTACTTTCCTAAAAAGACATGTCTTGCCCAATATACTCAACATGAACTAGATCTGGTTGCTGCT +CAGCTAAACAACAGACCGAGAAAGACACTGAAGTTCAAAACACCGAAAGAGATAATTGAAAGGGGTGTTG +CATTGACAGATTGAATCTACAACCGCGCTCTTGATGTCAGACTCCCTGAACAGTTCTCGATAATCGGGAA +ACTCAGGGCGCGTTATCCTGTGGCCACTCTCTGCCATGTGTTCGGGGTTCATCGCAGCAGCTACAAATAC +TGGAAAAACCGTCCTGAAAAGCCAGACGGCAGACGGGCTGTATTACGCAGTCAGGTACTTGAACTGCATG +GCATCAGCCACGGCTCTGCCGGAGCAAGAAGCATCGCCACAATGGCAACCCAGAGAGGATACCAGATGGG +GCGCTGGCTTGCTGGCAGACTCATGAAAGAGCTGGGGCTGGTCAGTTGCCAGCAGCCGACTCACCGGTAT +AAGCGTGGCGGTCATGAGCACGTTGCTATCCCGAATCATCTTGAGCGACAGTTCGCCGTAACGGAACCAA +ATCAGGTGTGGTGCGGTGATGTGACCTATAGTGTGCCCGGAGTTCAGGGCGGGCATGGATGCTTAAATGA +ACCGCGAGTCTGTCTGGAATATTGAACCGGTAACTCACGATGAGAAACCCAACAATCCCACCGGGTGTGA +CGGTGGAGAACCTGAGCGGCAGTGACCTGCGGCATGCCCGCAGGGTGATGTAACCCGCTGACAACGGGGA +TTGAGGCGAGATCACTAAGCCGAGATGATCCTCAAGGTTAAGTACTGAAAGGTTGAAGAACATGAACCCG +TTAATCCGCCTCTGTGGGTTGAAAACGTCACCACGGCCTACGTGATCTGACAGGCCGTGCAGGAGGAACT +GGCAGTGATACGTAAGCACTGCCGGTCGAAGGTGTTTTGACATGTATGCGAAACACCGGGGCAGCAGCGT +CTATCACGCTTGCGTTGCTGACTTCTGCCAACTTGCGGCAAGCAAGGATAAAGAGTGCGACGGGCAGCCT +CCTCAGTATGCCTGAGTCCAGGCAGGTAAACCGGGGAAGGTCAGCGACGGATGTTAAGGGGGCATGGCTC +CGATGACGCGCTGGCTGGCGGAGCTTCCGTAGTAGTCCGCGATGGGGAAAGCCCATTACATGGCGAAGGG +AAGCAGTTTGAATGTGTTTGCGACGTGAATTAACTGACCTAACGAGGTGAAGACCTTTGATAATCAGCGA +AATGCAACGCAAGCTTGCCACATGGGCAGCCACCGATCCGTCCCTACGGATTCAACGGCTGCTGCGTCTG +ATAACACAACCAGAATGGCTGGCTGAAGCGGCGCGGATCACGCTTTCATCAAAGGGGGCCCATACCCCCG +GCGTTGATGGCGTGAACAAAACAATGCTACAGGCCAGACTGGCTGTTGAGCTGCAAATCCTCAGGGATGA +ATTACTCTCAGGCCACTACCAGCCCTTGCCCGCCAGACGGGTTTACATCCCTAAAAGCAACGGCAAACTG +CGACCACTGGGTATCCCCGCGTTGCGGGATCGTATTGTTCAGCGGGCCATGCTGATGGCGATGGAGCCGA +TATGGGAGAGTGATTTTCATACGCTCTCATATGGCTTCCGGCCTGAGCGCAGTGTCCACCACGCGATCCG +CACGGTGAAATTACAGCTCACAGACTGTGGTGAAACCCGGGGACGCTGGGTGATTGAAGGCGACCTGTCC +AGTTACTTCGACACCGTACATCATCGACTGCTGATGAAGGCTGTACGCCGCAGGATCAGTGACGCACGTT +TCATGACTCTGCTGTGGAAAACCATCAAGGCGGGACATATCGATGTCGGTCTCTTTCGGGCGGCCAGTGA +AGGTGTGCCACAGGGCGGTGTTATATCGCCGCTATTATCGAACATCATGCTGAATGAGTTCGATCAATAC +CTGCATGAGCGCTACCTGAGCGGGAAAGCCAGAAAAGATCGGTGGTACTGGAATAACAGTATCCAACGGG +GCCGAAGTACGGCGGTCAGAGAAAACTGGCAGTGGAAACCCGCGGTGGCGTACTGCCGCTATGCCGATGA +TTTTGTCCTCATCGTCAAAGGCACCAAAGCACAGGTGGAAGCCATCAGGGAGGAGTGTCGGGGTGTGCTC +GAAGGCAGTCTGAAACTCAGGCTGAACATGGATAAGACTAAAATCCCCCATGTTAATGACGGCTTTATCT +TTCTGGGGCACAGGCTCATTCGCAAACGCAGTCGTTATGGCGAGATGCGAGTGGTCTCAACGATCCCGCA +GGAGAAAGCCAGAAACTTCGCCGCATCGCTGACAGCACTGTTATGGAAGGTGCGAATAAGCGGGGAAATT +CTTCTCGGCTGACTCAGTCATTTCATTTCTTCATGTTTGAGCCGATTTTTTCTCCCGTAAATGCCTTGAA +TCAGCCTATTTAGACCGTTTCTTCGCCATTTAAGGCGTTATCCCCAGTTTTTAGTGAGATCTCTCCCACT +GACGTATCATTTGGTCCGCCCGAAACAGGTTGGCCAGCGTGAATAACATCGCCAGTTGGTTATCGTTTTT +CAGCAACCCCTTGTATCTGGCTTTCACGAAGCCGAACTGTCGCTTGATGATGCGAAATGGGTGCTCCACC +CTGGCCCGGATGCTGGCTTTCATGTATTCGATGTTGATGGCCGTTTTGTTCTTGCGTGGATGCTGTTTCA +AGGTTCTTACCTTGCCGGGGCGCTCGGCGATCAGCCAGTCCACATCCACCTCGGCCAGCTCCTCGCGCTG +TGGCGCCCCTTGGTAGCCGGCATCGGCTGAGACAAATTGCTCCTCTCCATGCAGCAGATTACCCAGCTGA +TTGAGGTCATGCTCGTTGGCCGCGGTGGTGACCAGGCTGTGGGTCAGGCCACTCTTGGCATCGACACCAA +TGTGGGCCTTCATGCCAAAGTGCCACTGATTGCCTTTCTTGGTCTGATGCATCTCCGGATCGCGTTGCTG +CTCTTTGTTCTTGGTCGAGCTGGGTGCCTCAATGATGGTGGCATCGACCAAGGTGCCTTGAGTCATCATG +ACGCCTGCTTCGGCCAGCCAGCGATTGATGGTCTTGAACAATTGGCGGGCCAGTTGATGCTGCTCCAGCA +GGTGGCGGAAATTCATGATGGTGGTGCGGTCCGGCAAGGCGCTATCCAGGGATAACCGGGCAAACAGACG +CATGGAGGCGATTTCGTACAGAGCATCTTCCATCGCGCCATCGCTCAGGTTGTACCAATGCTGCATGCAG +TGAATGCGTAGCATGGTTTCCAGCGGATAAGGTCGCCGGCCATTACCAGCCTTGGGGTAAAACGGCTCGA +TGACTTCCACCATGTTTTGCCATGGCAGAATCTGCTCCATGCGGGACAAGAAAATCTCTTTTCTGGTCTG +ACGGCGCTTACTGCTGAATTCACTGTCGGCGAAGGTAAGTTGATGACTCATGATGAACCCTGTTCTATGG +CTCCAGATGACAAACATGATCTCATATCAGGGACTTGTTCGCACCTTCCGGAGGCGTTATGAGCTGGCGG +CCCTTTTTGTATCTGATTATTAATCCCCACCCGCTATTAAGCGCCCGGCGCGGGCATCTGCGTCTGGTGC +AGGGTTGACTTTGCATTCTGTTAACAAACGCGGTATAACAAACCTTCTTTGGATGTTTAGATGTCCATAC +GTTTAGAAGGTTATATGCAAACAACACAACAAAATGCGCCACTGAAGCGCACAATGAAAACGCGTCACCT +GATTATGCTTTCCTTGGGCGGCGTGATTGGCACAGGATTATTCTTCAATACCGGGTACATCATTTCCACC +ACTGGAGCGGCGGGAACGCTGCTGGCCTATCTGATTGGTGCGCTGGTGGTCTGGCTGGTTATGCAGTGTC +TGGGCGAGCTGTCGGTCGCGATGCCGGAGACCGGAGCGTTTCACGTTTATGCCGCGCGCTATCTTGGTCC +GGCTACCGGGTATACCGTGGCCTGGCTTTACTGGCTGACCTGGACCGTGGCGCTGGGTTCGAGCTTTACC +GCCGCTGGATTCTGTATGCAGTACTGGTTTCCACAGGTGCCGGTATGGGTCTGGTGCGTGGTGTTCTGCG +CGATTATTTTTGGTCTGAATGTTATCTCCACGCGCTTTTTTGCCGAAGGGGAGTTCTGGTTCTCGCTGGT +CAAAGTGGTCACTATCATCGCCTTTATCATCCTCGGTGGGGCGGCGATTTTCGGCTTTATTCCGATGCAG +GATGGCTCGCCCGCGCCGGGGCTGAGTAATATCACGGCAGAAGGCTGGTTCCCGCACGGTGGCTTACCGA +TTTTGATGACTATGGTGGCAGTGAACTTTGCTTTTTCGGGTACCGAGCTTATCGGCATTGCCGCCGGTGA +AACGGAAAACCCGCGCAAAGTTATCCCGGTAGCGATTCGTACTACCATCGCGCGACTGATTATTTTCTTT +ATCGGCACCGTGTTTGTGCTGGCAGCGCTGATCCCGATGCAGCAGGTGGGCGTGGAGAAAAGCCCGTTTG +TGCTGGTATTTGAGAAAGTAGGGATCCCGTACGCCGCTGATATTTTTAACTTCGTGATCCTGACGGCTAT +TCTTTCTGCAGCGAACTCCGGGTTATATGCCTCCGGGCGCATGCTGTGGTCGTTGTCGAATGAACGTACG +CTACCGGCCTGTTTTGCGCGAGTAACGAAAAACGGCGTGCCACTGACGGCGCTGTCGGTCAGTATGCTCG +GTGGTGTGCTGGCGCTGTTTTCCAGCGTGGTGGCCCCGGACACGGTATTTGTTGCGCTGTCGGCAATCTC +CGGGTTTGCGGTGGTAGCGGTGTGGCTGAGTATCTGCGCCTCGCATTTTGTTTTTCGTCGCCGTCATCTG +CAACAAGGTAAGGCATTGAGTGAATTACATTATCGCGCGCCGTGGTATCCGCTGGTGCCAGTATTAGGTT +TTGTGCTGTGCCTGGTGGCCTGTGTTGGGCTGGCATTCGATCCAGCGCAGAGAATTGCGTTGTGGTGCGG +GTTACCGTTTGTTGCGTTGTGCTATGGTGCTTATTTCCTTACTCAACCCCGAAACGCAAAACAGGAGCCA +GAACATGTCGCAGAATAATCCGTTACGCGCTCTTCTTGATAAACAGGATATCCTGCTGCTGGATGGCGCG +ATGGCGACGGAGCTGGAAGCGCGAGGGTGTAACTTAGCCGACAGCCTGTGGTCAGCCAAAGTGCTGGTAG +AAAACCCGGAGCTTATCCGCGAAGTGCATCTTGATTACTACCGGGCGGGGGCGCAATGCGCGATCACTGC +CAGCTATCAGGCGACGCCGGCGGGCTTCGCCGCGCGAGGTCTGGATGAAGCGCAGTCGAAAGCGCTGATT +GGCAAAAGCGTGGAGCTGGCGCGTAAAGCCCGTGAAGCGTATCTGGCAGAGAACCCGCAGGCGGGAACGC +TTCTGGTGGCGGGATCCGTCGGGCCTTACGGCGCGTATCTGGCGGATGGCTCTGAATACCGTGGCGATTA +TCATTGTAGCGTTGAGGCATTTCAGGCGTTTCATCGCCCGCGCGTGGAAGCCTTGCTGGATGCCGGGGCC +GATCTGCTGGCCTGCGAAACCCTGCCGAATTTTTCCGAGATTGAGGCGTTGGCCGAGCTGTTGACCGCAT +ATCCGCGTGCGCGGGCGTGGTTCTCATTTACCCTGCGCGACAGCGAACACCTGAGCGACGGTACGCCGCT +GCGTGACGTGGTTGCGTTGCTGGCGGGTTATCCGCAGGTGGTGGCGCTAGGCATTAACTGTATTGCGCTG +GAAAACACCACCGCTGCGTTGCAGCATTTACACGGTTTAACGGTGCTGCCGCTGGTGGTGTATCCGAACT +CGGGCGAGCATTACGATGCCGTGAGCAAAACCTGGCATCATCACGGTGAACATTGCGCGCAGCTGGCGGA +TTATCTGCCGCAGTGGCAGGCCGCTGGCGCACGGTTGATTGGCGGGTGCTGTCGCACCACGCCTGCGGAT +ATCGCCGCGTTAAAAGCGCGAAGCTGAGGGTTTATCGGGTCTACATCGTTCATTGTAGGCCTGATAAGCG +CAGCGCATCAGGCATTGCCGGATGGCGGCACAAGCGCCTTATCCGGCCTACAAAACCACAAAACGTTATG +CCGCATCCGCCAGAACAAACATGCCGTACGGATGGATTTCAAGATAATACTGCTCGCCGACGTCCGGTTG +CAGACGCGTAGCGTTGACCTGCAATAATATCTCCTGCCCGTGCCATTCCACCGTCACTTCATACTGCGGC +CCCATATAGGCGACATGGCGGATCACGCAGCGCTGGCTCTCTTCGCCGCGATCGCTGAGCGTGATCGCTT +CCGGGCGCACACCGACCATCCCTTCACCCTGTGTACCAAAGTGCAGCGGGCGCGGCAGATGATAGCCGTA +GATATCAACGTATCCGTCGCTGAAGGTTGCCGGGAACAGGTTGGCATCGCCCATAAAGCTCGCCATAAAG +CGGGAGGCGGGCTGGCGGTAAAGATCCTGCGGTGAGCCGATCTGCATGATGTGTCCCTTGTTCATCACCA +GCACAGTATCAGAAACCGCAAAGGCTTCGCTCTGATCGTGGGTGACGTACAGCGAGGTGATATCAAACTG +CTTTTGCAACTCGCGGATCTTGTCGCGCATGCTGCGACGCAGGTTGGCGTCGAGGTTACTCAACGGCTCA +TCAAACAGCAGCACTTTCGGCTTGAGGATCAGCGCGCGGGCCAGCGCCACGCGCTGCTGCTGCCCGCCGG +AGATCTGATCGACAAAGCGGTCTTCGAATCCTTCCAGATCCACCATCGCCAACGCCTCTTTGACGCGGGC +TTTCAGCTCTGCGCGCGGTACGCCGAGCATTTTCAGGCCATAACCGACATTCTCTCCCAGCGACATATGC +GGGAACAGGGCATAGGACTGAAACACCATACAGATATCGCGCTGCTGAATAGAGCGATGGGTGACGTCTT +CGCCATCAATGAAAATTTGCCCTTCGCTCGGTTTTTCCAGCCCGGCAACCAGGCGCAAAATAGTGGTTTT +GCCGCAGCCGGACGGGCCGAGCAGCGTCACCATTTGCCCCTGCGGGATGGTGAGGTTGATATTGTCGATT +ACCGTATTACTGCCAAATCGTTTAGTGACGTTGCGCAGTTCAACGAAATTTTTCTGAGTCATAGTGCGCT +CCATTACGCCTGGTTTTTGGCTTTTGAACGGGAGGTACGTGATTCACCGATCAGCCAGTCAAAGATGAAA +ATAATCGCCAGCATCACCACGATCAGAATGGAACCGTAGGCAATCGCTACACCGTATTCGCCATCTTCCA +CGCGGTTGAGGATGTAAGCCGTCGCTACGCGGGTATCCGGCGTGACGAGGAACACAATGGCGCTGACGGT +GGTAATGGCGCGCACAAAGCTGTAAATCAGCGCCGAGAGGATCGCCGGGCGCAGCAGCGGCAGCAGGATG +TGCGTAATGGTACGCAGGGAACCGGCGCGCAGGCTGAGTGAGGCTTCATCGAGCGATTTATCGATTTGGC +CCGGTAATGACTCCAACTTATTGATAGTGTTTTATGTTCAGATAATGCCCGATGACTTTGTCATGCTGCT +CCACCGATTTTGAGAACGACAGCGACTTCCGTCCCAGCCGTGCCAGGTGCTGCCTCAGATTCAGGTTATG +CCGCTCAATTCGCTGCGTATATCGCTTGCTGATTACGTGCAGCTTTCCCTTCAGGCGGGATTCATACAGC +GGCCAGCCATCCGTCATCCATATCACCACGTCAAAGGGTGACAGCAGGCTCATAAGACGCCCCAGCGTCG +CCATAGTGCGTTCACCGAATACGTGCGCAACAACCGTCTTCCGGAGCCTGTCATACGCGTAAAACAGCCA +GCGCTGGCGCGATTTAGCCCCGACGTATCCCCACTGTTCGTCCATTTCCGCGCAGACGATGACGTCACTG +CCCGGCTGTATGCGCGAGGTTACCGACTGCGGCCTGAGTTTTTTAAATGGCGGAAAATCGTGTTGAGGCC +AACGCCCATAATGCGGGCGGTTGCCCGGCATCCAACGCCATTCATGGCCATATCAATGATTTTCTGGTGC +GTACCGGGTTGAGAAGCGGTGTAAGTGAACTGCAGTTGCCATGTTTTACGGCAGTGAGAGCAGAGATAGC +GCTGATGTCCGGCAGTGCTTTTGCCGTTACGCACCACCCCGTCAGTAGCTGAACAGGAGGGACAGCTGAT +AGAAACAGAAGCCACTGGAGCACCTCAAAAACACCATCATACACTAAATCAGTAAGTTGGCAGCATCACC +GAGAACACAAATGGGCTAATTCGGCAGTACTTTCCTAAAAAGACATGTCTTGCCCAATATACTCAACATG +AACTAGATCTGGTTGCTGCTCAGCTAAACAACAGACCGAGAAAGACACTGAAGTTCAAAACACCGAAAGA +GATAATTGAAAGGGGTGTTGCATTGACAGATTGAATCTACAGCAGCTTTTTTTAATATGTCCCGTTCGTC +GGTAACCCGTTTCAGCTCTTTCTGGAGACGGCGGATCTCGGCCTGAGCATCTGACTGTTCTTTATTAGTG +GAAGAATCCGGACCGTACTTCTTTATCCAGGCATAAAGGCTGTGGGTGGTGATATCGAGACGTGTTGCAA +CGCTGGCAACAGAATAACCGAGATCAACAACCTGTTTGACTGCTTCAGTTTTAAACTCTTCGGGATAACG +CTTACCGCTCATGGGCACCTCTCTTTAAGCCATTTTAAATGACTCGGAGGTGTCTGTTAAACCCGTGGCG +ATTCAAAATTGCGATATATACATACCCATGACTGCCCAGCGTATCGGCTTCACCAGTCAGCCCGTTACGG +TACAGTGTGACACAGTGCGCGTACCTGGGATTCAGCTCACAGGAGAGCAGCATCAGCTCCAGATGTGCGA +CAAAATGCGGGAAGGCTTCATCCAGTTGTAGAGTCTGCACCTCACTGAATGAGCCGGTGAATCCAGCCCG +GTCAGCCAGAAAATGCAGACGATGACCTTCCTGCACCAGTCGTGCTCCGAAACACGGTGTGATATCTCGT +TTAAGCCCCCAAGTTTGAGTAGAGTCTTTATTCATAATTTTATTCCTGTTAAAGAAGACCATGTTCGGCG +AATGAGAATATTTGCCTGCCGCCGACAATCAGGTGGTCGGGGACATGGTGAACACTTTTTAACATCCTTT +ACCCATGGTGATCGACTTTTTCTTCAGGTCGATCACCCCCACTTTCGTGCTGTACCACCACACCTCGTAG +CTGCCGTCTTCCTGCATCTCCTTCAGCCCGACCCGTTCTCCCCTGAACGCCTTGCCTGCGCTCAGACTTA +CCCCTTTCACGCTCAGCTTTCCGCTGATATCCACTTTCCTGACCATCACCCCTTCATCGTATTCCGGGGG +CGTTGTGTTGCCGCTGTACTGCCGCGCTGACGGCTGATACCGCGAGCCCGGTACCGCCATATCCAGCGCC +TCGTGCGGGCGTTCAAGGTTATAGACCGTCCGCCAGTGGTCGAAGGCGCGCTGCAGTTCACCGCTGTCTG +CGAACCATTTTCCCTGCAGCACTTCCGCCTTCAGGCTGCGGTGAAAACGCTCCAGCTTCCCCTGCGTCTG +CGGATGATAAGGCCGGGAGTGCCCCACCCGGATACCCAGGCGCATCAGCCACAGCTCCAGCGCCGTCCAG +GTGCCGGTGGTGTCGCCCCACGGTGAGCCGTTATCCATGGTCATCCGGTCCGGCAGGCCGTAACGCTCAA +ACACGCTGACCAGCTGCTGCTGCACGGTCTCGCGCCGTTCATCGGTACAGTGCGCCAGGCACAGGGAAAA +ACGGGAGTGGTCGTCCAGCAGGGTGAGCGGATGGCAGCGTCCACCGCCAAAAGGAAAGTGGCCCTTAAAA +TCCATCTGCCAGAGGCGGTTCGGCGCGTCGTGTTCGAACCGGCCCGTGGCGGGAATGCCCGGTGAAGCGC +CCGGCAGCAGGCCATGGCGGGCCATCAGGTTATGGACGGTGCTGAAGGCGGGCATGGTGTGCCCCTGGTC +CTCGAGCCAGCGCTTAATCTTGCGGGCTCCCCAGCGTTCATGACGGTCATGGGCCATACGCAGCAGGGCC +GTGATGTCGTCAGATGAGCGGTTCGGGGAATGGTGCGGAATGCGCGGGCGGTCCTGAAGACCGGCGGCAC +CTTCCTGAGCCCAGCGCTGGAGCCACTTGTAGCCGGTGGCAGGTGAAATGCCGAAGCGACGGCAGAGGGA +ACGGATGTTCGCCCCGTCCTGCGAGGCGAACAAAACAAACTCAGTACGTAATGACATGGTATCTCTCGCA +TCCCAGGGCATAAGCGACTCCATAAACGGGTTCTTATGCCTTAGTTGTAAGTGTCTACCATGTCCCCGAA +CAAGTGTTCACTATGTCCCCGGACCGTACACCCCAAAGGGGAGAGGGGACTGCACCGAGCCATCTTTTCC +CCCTCGCCCCTTTGGGGAGAGGGCCGGGGTGAGGGGCAATATGTGATCCAGCTTAAATTTCCCGCACTCC +CTCTTCCCTTCCGATTTACCTCTCCTTGTTCTGCGTCATAGTATGATCGTTAAATAAACGAACGCTGTTC +TATAATGTAGAACAAAATGATTCAGCAAGGAGATCTCATGCCGCAGTCCGCGTTGTTCACGGGAATCATT +CCCCCTGTCTCCACCATTTTTACCGCCGACGGCCAGCTCGATAAGCCGGGCACCGCCGCGCTGATCGACG +ATCTGATCAAAGCAGGCGTTGACGGCCTGTTCTTCCTGGGCAGCGGTGGCGAGTTCTCCCAGCTCGGCGC +CGAAGAGCGTAAAGCCATTGCCCGCTTTGCTATCGATCATGTCGATCGTCGCGTGCCGGTGCTGATCGGC +ACCGGCGGCACCAACGCCCGGGAAACCATCGAACTCAGCCAGCACGCGCAGCAGGCGGGCGCGGACGGCA +TCGTGGTGATCAACCCCTACTACTGGAAAGTGTCGGAAGCGAACCTGATCCGCTATTTCGAGCAGGTGGC +CGACAGCGTCACGCTGCCGGTGATGCTCTATAACTTCCCGGCGCTGACCGGGCAGGATCTGACTCCGGCG +CTGGTGAAAACCCTCGCCGACTCGCGCAGCAATATTATCGGCATCAAAGACACCATCGACTCCGTCGCCC +ACCTGCGCAGCATGATCCATACCGTCAAAGGTGCCCATCCGCACTTCACCGTGCTCTGCGGCTACGACGA +TCATCTGTTCAATACCCTGCTGCTCGGCGGCGACGGGGCGATATCGGCGAGCGGCAACTTTGCCCCGCAG +GTGTCGGTGAATCTTCTGAAAGCCTGGCGCGACGGGGACGTGGCGAAAGCGGCCGGGTATCATCAGACCT +TGCTGCAAATTCCGCAGATGTATCAGCTGGATACGCCGTTTGTGAACGTGATTAAAGAGGCGATCGTGCT +CTGCGGTCGTCCTGTCTCCACGCACGTGCTGCCGCCCGCCTCGCCGCTGGACGAGCCGCGCAAGGCGCAG +CTGAAAACCCTGCTGCAACAGCTCAAGCTTTGCTGAGCCGGACGATAACGATGACCATTGAGAAAATTTT +CACCCCGCAGGACGACGCGTTTTATGCGGTGATCACCCACGCGGCGGGGCCGCAGGGCGCTCTGCCGCTG +ACCCCGCAGATGCTGATGGAATCTCCCAGCGGCAACCTGTTCGGCATGACGCAGAACGCCGGGATGGGCT +GGGACGCCAACAAGCTCACCGGCAAAGAGGTGCTGATTATCGGCACTCAGGGCGGCATCCGCGCCGGAGA +CGGACGCCCAATCGCGCTGGGCTACCACACCGGGCATTGGGAGATCGGCATGCAGATGCAGGCGGCGGCG +AAGGAGATCACCCGCAATGGCGGGATCCCGTTCGCGGCCTTCGTCAGCGATCCGTGCGACGGGCGCTCGC +AGGGCACGCACGGTATGTTCGATTCCCTGCCGTACCGCAACGACGCGGCGATCGTGTTTCGCCGCCTGAT +CCGCTCCCTGCCGACGCGGCGGGCGGTGATCGGCGTAGCGACCTGCGATAAAGGGCTGCCCGCCACCATG +ATTGCGCTGGCCGCGATGCACGACCTGCCGACTATTCTGGTGCCGGGCGGGGCGACGCTGCCGCCGACCG +TCGGGGAAGACGCGGGCAAGGTGCAGACCATCGGCGCGCGTTTCGCCAACCACGAACTCTCCCTGCAGGA +GGCCGCCGAACTGGGCTGTCGCGCCTGCGCCTCGCCGGGCGGCGGGTGTCAGTTCCTCGGCACGGCGGGC +ACCTCGCAGGTGGTCGCGGAGGCGCTGGGTCTGGCGCTGCCGCACTCCGCGCTGGCGCCGTCCGGGCAGG +CGGTGTGGCTGGAGATCGCCCGCCAGTCGGCGCGCGCGGTCAGCGAGCTGGATAGCCGCGGCATCACCAC +GCGGGATATCCTCTCCGATAAAGCCATCGAAAACGCGATGGTGATCCACGCGGCGTTCGGCGGCTCCACC +AATTTACTGCTGCACATTCCGGCCATCGCCCACGCGGCGGGCTGCACGATCCCGGACGTTGAGCACTGGA +CGCGCATCAACCGTAAAGTGCCGCGTCTGGTGAGCGTGCTGCCCAACGGCCCGGACTATCACCCGACCGT +GCGCGCCTTCCTCGCGGGCGGCGTGCCGGAGGTGATGCTCCACCTGCGCGACCTCGGCCTGCTGCATCTG +GACGCCATGACCGTGACCGGCCAGACGGTGGGCGAGAACCTTGAATGGTGGCAGGCGTCCGAGCGCCGGG +CGCGCTTCCGCCAGTGCCTGCGCGAGCAGGACGGCGTAGAGCCGGATGACGTGATCCTGCCGCCGGAGAA +GGCAAAAGCGAAAGGGCTGACCTCGACGGTCTGCTTCCCGACGGGCAACATCGCTCCGGAAGGTTCGGTG +ATCAAGGCCACGGCGATCGACCCGTCGGTGGTGGGCGAAGATGGCGTATACCACCACACCGGCCGGGTGC +GGGTGTTTGTCTCGGAAGCGCAGGCGATCAAGGCGATCAAGCGGGAAGAGATTGTGCAGGGCGATATCAT +GGTGGTGATCGGCGGCGGGCCGTCCGGCACCGGCATGGAAGAGACCTACCAGCTCACCTCCGCGCTAAAG +CATATCTCGTGGGGCAAGACGGTGTCGCTCATCACCGATGCGCGCTTCTCGGGCGTGTCGACGGGCGCCT +GCTTCGGCCACGTGTCGCCGGAGGCGCTGGCGGGCGGGCCGATTGGCAAGCTGCGCGATAACGACATCAT +CGAGATTGCCGTGGATCGTCTGACGTTAACTGGCAGCGTGAACTTCATCGGCACCGCGGACAACCCGCTG +ACGCCGGAAGAGGGCGCGCGCGAGCTGGCGCGGCGGCAGACGCACCCGGACCTGCACGCCCACGACTTTT +TGCCGGACGACACCCGGCTGTGGGCGGCACTGCAGTCGGTGAGCGGCGGCACCTGGAAAGGCTGTATTTA +TGACACCGATAAAATTATCGAGGTAATTAACGCCGGTAAAAAAGCGCTCGGAATTTAATTATTTTAAGAG +ATAAAACCGTCTGCGGAATATTTCCCGCAGACGGCTTTGTTGTTTTTGAAATTTATTAATTTAAACAATT +AGTTGAGATATATCGTTGGCGTCACAAAAGCAAAATAACGTAATTCGGAAATAAGATATGACCATTGCTG +GTTAATTGAATAGCTCATTACACTCCATTAACACGATGTTGTAATTCGGCACACTACATAAGGGTGTAAT +TCTGATGACGCAATTAACCATGAAAGACAAAATTGGCTACGGGCTGGGAGACACCGCCTGCGGCTTCGTC +TGGCAGGCCACGATGTTCCTGCTGGCCTATTTCTACACCGACGTCTTCGGCCTGTCGGCGGGGATTATGG +GCACGCTGTTTTTGGTCTCCCGCGTGCTCGACGCCGTCACCGACCCGCTGATGGGGCTGCTGGTAGACCG +CACCCGCACGCGGCACGGCCAGTTCCGCCCGTTCCTGCTGTGGGGGGCCATCCCGTTCGGCATCGTCTGC +GTGCTGACCTTCTACACGCCGGACTTCTCCGCACAGGGCAAGATCATCTACGCCTGCGTGACCTACATTC +TCCTGACCCTGGTCTACACCTTCGTTAACGTGCCGTACTGCGCCATGCCGGGCGTCATCACCGCCGACCC +GAAAGAGCGTCACGCCCTGCAGTCCTGGCGCTTCTTCCTGGCGGCGGCGGGCTCGCTCGCTATCAGCGGC +ATCGCGCTGCCGCTGGTGAGCATCATCGGCAAAGGGGACGAGCAGGTGGGCTACTTCGGCGCCATGTGCG +TGCTGGGGCTGAGCGGCGTGGTGCTGCTCTACGTCTGCTTCTTCACGACCAAAGAGCGCTACACCTTTGA +GGTGCAGCCGGGCTCGTCGGTGGCGAAAGACCTTAAGCTGCTGCTGGGCAACAGCCAGTGGCGCATCATG +TGCGCGTTCAAGATGATGGCGACCTGCTCCAACGTGGTGCGCGGCGGGGCGACGCTCTACTTCGTGAAAT +ACGTGATGGATCACCCGGAGTTGGCGACCCAGTTTTTACTTTACGGCAGCCTCGCCACCATGTTCGGCTC +GCTTTGCTCCTCACGCCTGCTGGGCCGCTTCGACCGCGTCACCGCCTTCAAGTGGATCATCGTCGCCTAC +TCGCTGATCAGCCTGCTGATTTTCGTCACCCCGGCGGAGCACATCGCGCTCATTTTTGCCCTCAACATCC +TGTTCCTGTTCGTCTTTAATACCACCACGCCGCTGCAGTGGCTGATGGCTTCTGACGTGGTGGACTACGA +GGAGAGCCGCAGCGGTCGCCGCCTCGACGGGCTGGTGTTCTCCACCTACCTGTTCAGCCTGAAGATTGGC +CTGGCGATTGGCGGGGCGGTGGTGGGCTGGATCCTGGCGTACGTCAACTATTCCGCCAGCAGCAGCGTGC +AGCCGGTTGAGGTGCTCACCACCATCAAAATTCTGTTCTGCGTGGTGCCGGTGGTGCTCTACGCGGGCAT +GTTCATCATGCTGTCGCTCTACAAGCTCACCGATGCCCGCGTGGAGGCCATCAGCCGGCAGCTGATTAAG +CACCGCGCGGCGCAGGGCGAGGCCGTTCCCGACGCCGCGACAGCCGCATCCCATTAACCGGAGGCAATAT +GGAAATCACTAACCCGATACTCACCGGCTTCAACCCGGACCCGTCCCTGTGCCGCCAGGGCGAGGACTAC +TACATCGCCACCTCGACCTTCGAGTGGTTCCCGGGCGTGCGCATCTACCACTCCCGTGACCTGAAAAACT +GGTCGCTGGTCAGCACCCCGTTGGACCGCGTGTCGATGCTGGACATGAAGGGCAACCCGGACTCCGGCGG +CATCTGGGCGCCGTGCCTGAGCTACGCCGACGGTAAATTCTGGCTGCTCTACACCGACGTGAAGATTGTC +GACTCGCCGTGGAAAAACGGCCGCAACTTCCTCGTCACCGCGCCCTCCATCGAGGGGCCATGGAGCGAGC +CAATCCCGATGGGCAACGGCGGGTTTGACCCGTCCCTGTTCCACGACGACGATGGCCGCAAATACTATAT +CTACCGCCCGTGGGGGCCGCGCCACCACAGCAACCCGCACAACACCATCGTGTTACAGGCGTTTGACCCG +CAGACCGGCACGCTCTCGCCCGAGCGCAAAACGCTGTTTACCGGCACGCCGCTCTGCTACACCGAAGGCG +CGCACCTGTATCGCCACGCGGGATGGTACTACCTGATGGCCGCCGAGGGCGGCACCAGCTACGAGCACGC +CGTCGTGGTGCTGCGTTCCAAAAATATCGACGGGCCGTACGAGCTGCACCCGGACGTAACGATGATGACC +AGCTGGCACCTGCCGGAGAACCCGCTGCAGAAGAGCGGCCACGGCTCGCTGCTGCAGACGCATACGGGTG +AATGGTACATGGCCTACCTCACCAGCCGCCCGCTGCGCCTGCCCGGCGTGCCGCTGCTGGCCTCCGGCGG +ACGCGGCTACTGCCCGCTGGGGCGCGAGACCGGCATCGCCCGCATTGAATGGCGCGACGGCTGGCCGTAC +GTGGAAGGCGGCAAGCACGCGCAGCTGACCGTGAAAGGCCCGCAAGTAGCCGAGCAGCCTGCAGCCGTTC +CGGGCAACTGGCGGGACGATTTCGACGCCAGTTCGCTTGACCCGGAGCTGCAGACCCTGCGCATTCCGTT +CGACGACACCCTCGGCTCGCTCACCGCGCGCCCGGGCTTCTTACGGCTCTATGGCAACGACTCGCTCAAT +TCGACCTTCACCCAATCGACCGTGGCGCGCCGCTGGCAGCACTTCGCCTTCCGGGCAGAAACGCGGATGG +AGTTCTCGCCGGTGCACTTCCAGCAGAGCGCGGGGCTGACCTGCTACTACAACAGCAAAAACTGGAGCTA +CTGCTTTGTGGACTACGAGGAGGGACAGGGTAGAACCATCAAAGTTATCCAGCTCGACCACAACGTGCCG +TCGTGGCCGCTGCACGAGCAGCCCATTCCGGTGCCGGAACATGCGGAGAGCGTCTGGCTGCGGGTGGACG +TGGATACGCTGGTCTACCGCTACAGCTACTCGTTTGATGGCGAGACGTGGCACACCGTGCCGGTGACGTA +TGAGGCGTGGAAGCTGTCGGACGACTACATCGGCGGGCGCGGCTTCTTCACCGGCGCGTTTGTGGGCCTG +CACTGCGAGGACATCAGCGGCGACGGCTGCTACGCGGACTTCGACTACTTCACCTACGAGCCGGTCTAAC +GGCTCAGGCCGGGTAGCCCAGCGCGCGCGAGAGCGCGAGCCCGGCCTGCTGAAGCTGCTCGCGGAAATTA +GCCAGCTCCGCGTCGTCCACGCGGGAGGTCAGCGTCGACAGGCTCAGGGCGGCGATGACGCGGGACTCGT +GGTTCCACACCGGCACCGCCACGCAGCGCACGCCCTGCTCGTTCTCTTCGCTGTCCAGGGCGTAGCCTTG +CTCGCGGGTCTGCGCCAGGGCGCTCATTAAGGCTTCGCGAGACGCGAGGGTGGCGGGCGTAAAGGTAGTG +TACTGATAGCCCTCCAGCAGGGCGTTCAGCTCGGCCTCGCCCAGCCAGGCAATCAACACCTTGCCGATGG +CGGTGGCGTGCACCGGCAGGCGGCGGCCGATGCGTGAATAGGCGATGGCGGCCAGCTTGCCTTCAATCTT +CTCGATATAGACCCCTTCACGCCCGTCCAGGATCCCCAGATGGGTGGTCTGCCCGGTCCGCCGGGACAGC +TCCGTCAGCCAGCCTTTTGCCTTCTGCCGAATATCGATGGAGCCCACGACAAAATGGCCGCGCTCGACCA +GCTTCATGCCGAGGCGATACTTGCCGTTCTCCGGGTTCTGATCGATATAGCCGTGAAGCTGCAGGGTTTT +TAGCAGCGAGTGGAGGGTACTCTTGCTCAGCCCCATCAGTTTGCTGATGTCGGTGATCTTAAGCTCGGTG +GCCTGCTCGTTGAACAGGTCGAGGATCTGCAACGCACGTTCAACAGACTGAATAATCGGCATAATGCTGG +CATGTCCACGCTGGAATTAAGGCGAAAACGTACCTTTTTCGGGATGAAAAATCAATGAAATGGAGCCGGT +GTTCTCCCTCTCCCTGTGGGAGAGGGCCGGGGTGAGGGCACCAACGCGCAGCGGACCCAATCACTCCCCA +AGCGTTGCCATCATCACCGCCTTAATCGTATGCATCCGGTTTTCCGCCTGGTCGAACACGATGCTCGCCG +CCGACTCAAACACCTCGTCCGTCACCTCCATCCCGCCGTGCAGATCGAACTCCTTCGCCATCTGCTTGCC +GAGCGTAGTCTGGTCGTCATGGAACGCCGGCAGACAGTGCAGGAACTTCACGTTCGGGTTGTCGGTCAGC +GCCATCATCTGCGCGTTCACCTGATACCCGCGCAGCAGCGCAATCCGCTCTGCCCACTTCTCTTTGGCCT +CGCCCATCGACACCCACACGTCGGTATAGATAAAGTCCGCGCCCTTAACGCCTGCCGCCACGTCTTCCGT +CAGAGTAATTTTCCCGCCGTGCTTCTCCGCCAGCGCGCTGCACTCCGCCACCAGGCTCTCTTCCGGCCAG +CAGGCTTTCGGGGCCAACAGGCGCAGATCCAGCCCGGTCAGCGCCGCCGCTTCCAGCATCGAGTTGCCCA +TGTTGTTGCGCGCATCGCCCGCGTAGACCAGCGTCATCTCGTTAAACGCCTTGCCCGGCAGGTGCTCCTG +CATGGTCATCAGGTCCGCCAGCAGCTGGGTCGGGTGGAACTCGTTGGTCAGCCCGTTCCACACCGGCACG +CCCGCATACTGCGCCAGCGTTTCGACCACTTCCTGGCCGTGACCGCGATACTGAATGCCGTCATACATCC +GCCCGAGAACCCGCGCGGTGTCCTTAATTGACTCTTTATGCCCAATCTGGCTGCCGCTCGGCCCTAAATA +GGTAACGCGCGCGCCCTGGTCAAATGCGGCAACTTCGAAAGAGCAACGGGTACGAGTCGAGTCTTTTTCG +AAGATGAGCGCGATGTTTTTACCGGTAAGCTTCTGTACTTCCTTGCCATTTTTTTTATCGGCTTTGAGCT +GTGCGGCAAGGGTCAGCAGAGAAGTGAACTGTGCAGGGGTAAAGTCGAGCAGTTTCAGAAAGTGTTTTTT +GTATAAATCGGACATTTTATCCTCGCATGGCGAACGCCACTTATTGAATTAAAATTCACTTTATATGTGT +AATTATTCATTTGCAACCCCATTTCACAATTCTTTCTTACAAAGGTGGAGGCAAACCCGTCCGTGTGTGA +AAATAATCGTATCTGCCTCCGATTCTCTGCAGAAGCAGAAAGACATTGGATCGAATTCTACAACCAGGTC +GAGTCAGAAATGAGAATGATTGGCCTTCTTTATGATTTTAAGGATTATGCTTCTAAAATGGCGGAGAACA +TGGCGAGGCTTGCTGCCTTACTTCATTACTTCAGCGGTGATGGAGGCGATATATCTGTTACCGGGTAATG +ACTCCAACTTATTGATAGTGTTTTATGTTCAGATAATGCCCGATGACTTTGTCATGCTGCTCCACCGATT +TTGAGAACGACAGCGACTTCCGTCCCAGCCGTGCCAGGTGCTGCCTCAGATTCAGGTTATGCCGCTCAAT +TCGCTGCGTATATCGCTTGCTGATTACGTGCAGCTTTCCCTTCAGGCGGGATTCATACAGCGGCCAGCCA +TCCGTCATCCATATCACCACGTCAAAGGGTGACAGCAGGCTCATAAGACGCCCCAGCGTCGCCATAGTGC +GTTCACCGAATACGTGCGCAACAACCGTCTTCCGGAGCCTGTCATACGCGTAAAACAGCCAGCGCTGGCG +CGATTTAGCCCCGACGTATCCCCACTGTTCGTCCATTTCCGCGCAGACGATGACGTCACTGCCCGGCTGT +ATGCGCGAGGTTACCGACTGCGGCCTGAGTTTTTTAAATGGCGGAAAATCGTGTTGAGGCCAACGCCCAT +AATGCGGGCGGTTGCCCGGCATCCAACGCCATTCATGGCCATATCAATGATTTTCTGGTGCGTACCGGGT +TGAGAAGCGGTGTAAGTGAACTGCAGTTGCCATGTTTTACGGCAGTGAGAGCAGAGATAGCGCTGATGTC +CGGCAGTGCTTTTGCCGTTACGCACCACCCCGTCAGTAGCTGAACAGGAGGGACAGCTGATAGAAACAGA +AGCCACTGGAGCACCTCAAAAACACCATCATACACTAAATCAGTAAGTTGGCAGCATCACCGAATTTTCA +GCCCGGATGTTTCACGTACCTATGTCGAATATCTGGCCGATAAGGTTGCGGATCGAGAAGAGGATGCAGA +GGAATATCTGGAAGCAATCATGGAGGCTCGTGTTACCGTTGCTGGCATGGGGCTGGTGATGGAGGTGCAG +GATTACTTCGATGGCGAGGCCGATAGACTGGCGAAGGCGTGGCTGGCCGAGTACACACCGCAAATCAAGT +CGTTGAAAGATGAGCGTAAAGAGGCCTATCGTCAAATCGTCGAAATGAGTACCGAACCGCAGGATGTGGA +TCTGGTCAGGCCGGCGAACAAGTTTGAAATGACCAGGGTGCGTGAAGGTGAAAAGGAAGCTGACCTTCCA +GTCTGGAAACACCATTTGTTGTGTGACGAAAGCGGGAACTATCCGGCTCTGTTGAACCATTGGGAAACCA +AGGTTTTTGAGATCGAAACCAAACGTGAAGGATTTGCTTTCTGGTATCGTAATCCACAGTACACAGGGCA +GTCGTCACTGGGAATCGCTTATGTTGAAGCTGAACAGTACAAGATTGTTCGTCCCGATTTCCTGTTCTTT +GCCGAACAGGATGGCAAAATGGTTGTGGACCTGGTAGATCCACATAGCCTACATCTGGCTGATGCTTTGC +CCAAACTGGAAGGACTTGCGCTATATGCCGAACATCATTCTGATGCTTACAGGCGAATCGAATCTGTCGC +CGAAGTAAAGGGTAAATTACGAGTGTTAGATTTGAAACGGCAGGATGTGCAGGATGCTGTTGCTACCGCT +GAAAATGCAGAAACGTTATTTAGTAGCGGACTTGCTGATGACTATCAGTAATCTATAGAAAATTGCGTAA +CGAAACTGCATTTTAGTAATTTTTTGAAACAATACAAATAAGGCCTTCTCACTGAGAAGGCCATTACCGA +CTTACAGTTCGATTTGGCTACAGCCGAAGTTACGGTCTCCTTCACCAAACACTTTGCTTTCAACTTTGGT +CAGGTAGTCCAGTCGGGTTAACAGCGCCTGGTAGTTCTGCTGGAAGTCAGTACTATTGGTGTCTAGCACA +TACTTACAGTTTTCAGGAAAATGGACCAGACCAGGGTGATCGTCTCTCTCCAGTCTCAGGGCGCTGTACC +AGGCTCCTGTGATCATCCCTCTAAGGTTATCGTCCTGATCGTAATCCCCGAGGTGGTAGTAAGCGTCTTT +GTTGAACAACAGGCAAATGTGATAGTGGCATTTACCTGATTCAGAATACTCTTTCGCCCATATAATAAAT +AAAGGGCAACGGTAAATGCGTTTATCCTCACGCACCTTACGGGTACGGTCAGCCTCCAGCTTAGCTCTGA +GGGATTCACGCATCCGGGATATCACCCCAGGTTCCAGGTTAGGGAAGCAACAGATATTGTCACCGTTATC +AACTATTTTGGGATAGTGGAGATCGACACGTACAGCAATTAACCTAGGATACCGGTTAGTCAAATAACAT +AATAATTTATTAATCTTACTCTGATATTCGAGGATATGTACTCCATGAGTACCTTGATATGTTTTCATAA +TATATACCTGTATTTGGTCCTACGGTCTATAGCAGACCGTACAGGGATGCCATACAGGCAGGGCTATTCC +TGGTCACTGTTGTCGGTATATACTGGTATCAGATTTTAGTACGGACATACTGATCTGATTACTACTCTTA +CTGGTGAATACAGGTAGTAAGAGTACACAATGCCATTATATAATACCTATCCAACATCTAAATTTGAGAC +GAAGGTAGCCCCAGCCTGTGATGGCTGTTAAAAAGTTACTCTGCAATTAGCTTCTGGAATTAACCGATGA +TTCCGTTATTCCAGTGCCGCTTCACAGTCGATAAACTGATACTCAATTTCTTTGCAATCTCAGCCTGAGT +AAATCCACCTTTCTTAAGTATTGTGATATCACGTCGGTATTTGCTTCCCTCCTTTCGTCCTAATTTTTTC +TTAACATGTCGATATCGGCTTTTAGTTGATTTCAGATTGTGAATGTCAATCGTATCCTGACGAGCAATCA +AAAAAGACAAGCAACTTTCAGCAGAAGGCTCTATCCTTGAAGCTGGATGGTAGCTGTAGATAAACATTTC +TTTTTGAAGGCAAAAAAATAAAATATTCTGTAAGTCCTCCACAGTTCTGCCAAGACAGCTTAGATCTGGA +ATGACAAGCGTGTCCTGCCGGTTCATTTCATGATGAATCAATTGTCTGAGTAAACGTTGCTCTGAAACAA +CCTCTTTAATATCTACCTGCTCGATCACAACATGTTCAGGTAGAATATTAAATTTTTGGCATATCTCAGC +AAGTGAGTGATGATCTGTAATGCTTTCTTGCTGTTCGCTACTGCATATGGTGTAAAAAAATGAACGCATC +TGATGCACTCCGGTGTCATAAATTATTTTTTGATACCTGAATAATGTCATTTTGCATAAAAAACAACCAA +AAATAGAGAGTGATTGCCAGCGATACTTTAACTGGTAAAGTAGTATTTTACCTCTCATAATTGTTTGTCC +TTCTTTGTTACCTCTTAGGTTCTGCTCTCTTGTGAGTATGGGTTTATAATGATGTCATCCGGTACATTAA +CACGGTTGGAAACATCTGTTTTGCGGAGCACTGGCAGCATAACCACCATTTCATTGACATGGTAAATATC +AATCCAACAAACAACCGGATAAGGCATAACAATCCCCTTTCTTCTAAGAACTTCATTTATCCCGAATATA +ATCAATTGGGATGTTGACAAGAGTAGAGCCTGCCCGGCATCAAAGTAATAACCCTCAAAGGTTGTTCTAT +GAATAAGAATAATGTTTGAATATCCTGAGACACTTTGATGCTTTACATCAAAATGTCTTTGATTGTAAAT +GTAAATGGCTTTTTCCATATCGTAATTTTCCCTTAGCGAGGATAGCCTTTCACGTATAACTGTTTTTTCA +TCTTTCCCCATGAATTCATCATTAGCGTTCAGTTGAAAGTAATCTGCAATGGGGATTTTTAATGGACTCA +TGATGTTCGTTTTCCAGATTAACGAACAGTACTCTTCCAGAGTTACTTCTGTTTTACCTCGGCTTCGATT +GATGCTTTCTTTTATAGAGAACTTTAACAGGTCATTTTTTATTTCATTTATTGACCAGTTATGACGATTG +CATTTTTCTAATATAGGGATAGCCAAATCCACAACTTCCGCTATTACGGAAGAGTGAGATTTATTTGTTA +GTCTGGCATAATGATCAATTACTCCTAATGAAGATTGATTTTTGAACGTGACTGAGTGTTTTTTTATGGG +AGTAGTCTGTACTACCTGTGACTCATTGTTTTTGCCTTGACAAGGTTTTTTTCCTGGTAGAACGCTGCTC +ATCTCAAAATTAGTAACACTATTAGACATTTTTAAGGAAACCTCTTTGTTATCTCAATATAAAACTACTA +TCTGAAATTTCTCAGTGTTGCCCCATTTTTCTCGGGGCAACATCGCTATAAATCAATAAAATTAAATCTG +TAATTTATTACAGACTTTCTCGTACAGAAAATGTATCTATAAAATCGAGGACATCTTTACGTAACCAGTA +ATGGCGGCCATTGATTTGTTTTGGGCGAGGTAGCCCCTCAGGCAATTTGTCCTGACAAAGCCATTTACGA +ATGGTTTGAGATTTGTAGCTAATGATTTTAGCTAACTCAGCTGTTGAAATGAGCTGTGATTGAGATGTAT +CCGGGAGTTTGAATGCGCTCATTTTGCCACCTCAGTGATTGAGATATTGGCAAAGAAAGCTTTAAGCATT +ATTGAATTAGTAGGGGTAGTAATGAAGGCAGAAGGAAACGTTTCGGGCTCGGGGTCGGGGTCACTACCAT +CACCTGAATCTGATGATAAGGCACTTTTAGCTGATTTAGCCGTACTGTGATGCGATCTGGATGCCTGATT +TTTACATGACATCAGACGCGCGAGAAAGTTAGTAGCATTTTGCATTCTTTGTTTAAGATGTAAAATTTTC +AGTTTGGCGCATGCGACAGACTTGCGAAGAGCTGAGTATGTTCCTTTGAGATACTCGACAACCTCTTCCA +TGGACGCAGGATCGTTAAAGGATTGAGTTGTTTTACTTGAATTAATACACCAGCGAGCTCTGATAGCTGC +CAGAGTGGGTTCTATGGATACAGTTGCTGGGGTTGCCATTGGCTTATCTCCTGTGTAGTTGCTGTATCAT +TGACTAAACTGTGTATTACGATACATGAAAATCTATCTTGATCAATAGTTGATGATATTTTGTAATATGT +TGATTTTTAATGGAATCAACGCATATCAACGTTGTTTTTTATGGTAATACCTGCTTCATTTAAGATCCAT +GTCTCAATTTTCTCGTGCCATTTTCGTAACAGATCTAACGGACGACGGCGATAGTGTTTTTCGGCAAGAG +CGCTGGGTTTGTGTCCCATAATTTGAGCAACAATACCAGTGGGAACTTCAACCCACTCGGCCAAAGTACC +AAAACTACGACGTAAACCGTGAAGGCTGATATGTGGTAACTCAGCCAGCACTAATGCTCTGTTGTGCGCT +GAACGCGGCTCAATAATTTTGCCACTTTTACTGTTACTTCTGAAAACCCAACCCTCCTTATTTACGTCAG +AATTTGGGGATTGCGCTAGTACATTTAACAATTCAGAAACATAAGGAGTGAGAGGGATGATACGTTCACC +TTCGATCTTGTCTTTAATTCGCATGCTTGACCATTTGAAATCTACGTCTGACCAGCGAAGCGACGCAATT +TCTTCACGCCGAGCACCAGTGAGCAAAAGTACTTGGAGATAGGCCGATGCAATAGGATTATTGAGGCTAC +GCACGGCACTAAACCAGCTTTTTAGTTGTTCCTTTTGCAGGCAATCATCAGCTTTACTCGCTGACACGGG +AACCATTTTTCTTACGTTGTAATCTTGTGCCAGATCGCCAGGAATGATCCCTTGATATTTTTTCTGATAA +TTACTCCATTTGATGAAAGCACGTAGTAGGCGATAAGCGTGAGCAGTGACGGTAGGTCTATTTTGCCTTT +CTGTACTCAGCCACGCTGCTATGTAATCTGGGGTTAGCTCCGATAACGGCAGGTTGAGCAAACTAGCCAA +TGGTCCAGCCGAAGTCGGGCCTTGGCCTCTTTTTTTACTTTCGCCTCCACGACTGGACAAGTTAATGTGA +TCGGCAATGTATCGAGTAGAATATGGGCGTTTAGTTTTTGCACTGATACCGGTTCTCAATTCTTGAAGAT +AGTCTTCCCAGGCGACGGAGAAAGTCACTTTTGTTTTACGTGATTCTGCCTGCAGGGATTCTGCTTCTGC +GATTTTTACAGCCTTAGCAATTCGTGGATCTATCCCTGTATCGATCAATGTTTGTAACCGTCTTGCCTCG +GCTCTCGCATCATCAATCTTCCAGTCGTTAATGTTGCCAATAGTCATGCGAAGGGTTTTCCCCGCATATA +CGCTTTGGAATACAAAGGCTTTTGCTCCGCTAGTTGCTCGGCATGCCAGGGTTGTTACATCTGCATCCCA +AAGAAAAGTTTGTTTTTTCCCTTCCGGTAAGGTGAATCTGCGAAGTCTTTCGAAGGTAAATTTTTGTCTT +GAAAGCGCCATTTTTCGGCTCCAGTTGAGAATTGCTGTCTTACAATAATGTAACTGCTGGTGTAAGTAAA +TGGAGGGAATAAACATCAACTTTTGTTAATTTCAATCAACGGGTTTATTGCTATAACTTGGTGTTTTATA +ATATAAAGTATGTTGTTTTGATTGATTGCTCAAGTAGTTAAAAATGCATTAACATCGCATTCGTAATGCG +AAGGTCGTAGGTTCGACTCCTATTATCGGCACCATTAAAATCAAAGAGTTACCCCATATTTAAATACACC +ACGTTTCCTCCTGTGCCGTATTTGTGCCATTGTAACCTTGGCAATTCATCAAAATACTGTTCTGACATCA +GGCAGTGCAGGTGCAGACATTTAAGCCAATTGCTGCCGCCATTCTTTGACGTAGTCAATCAGGGCGCGGA +GCTTTGGTGCAATATTGCGACGCTGTGGGAAATACAGATAGAAGCCCGGAAATTGTGGAAGAAAGTCATC +AAGCAGCGATACAAGCTTACCGCTTTCAATATATGGCCTGAAAGTTTCCTGAGTGGCAATTGTTATTCCT +CCGCCGGCAAGAGCCAGCCTCAACATCAGACGCAGATCATTAGTCGTAATCTGCGGTTCAATCGCAAGGT +CGAAAGTTCTCCCGTTTTCTTCAAATGGCCAGCGATAAGGCGCAACCTCCGGGGACTGACGCCAGCCGAT +ACACTTATGGGTATTTCCCCCGGAGGCGAGAAAGCACTCTCCACGCCCGGCCGCAAGGATCAGGACGACG +GGGGCAGGCATGAATCCTCCTCCTGATGGAGACGTACAGAGGCGACTTCTGCCAGCACGGAGAGTGCCAG +AGTATGCGCATCCCGGGCTTTGGGGAATATCCCGACGGGTGCCCGGATTTGCGTTGTTTCCTCCCTGGAC +CATCCCAGCTCGTGGAGCTTTTGCAGACGTAACGTGTGGGTTCGATAGCTGCCCAATGCGCCGAGATAAA +AGGGTTTTGCTTCTCGCGCGGCCTGCAACACTGGCAGCTCCCGGTTGAGATCATGGCACAGCAAAATGAC +CGCCGTATCGGTATCGATCTGAGCGCTGGCTGAGGCCGGAAAAAGATCGAAGATATGGCTGTCATAGCCT +GTGGCTGCTGCAAGACTCGCGGTTGCCTGCGCCTCAAGAGAACGTCCGTAAATCATCAGCCTGACGCATG +GCCTGAACCCCACCTCAAAGCCATTGAGATTCCAGCCCGTCCGGGTTTGCGTGGGCAGGCACACCAGCGA +TTGTGCTTGCGGATCGTAGCGCAGCCCCACCGGTTTTCTCTGTTCCAGGCGGTTCAGCACGGCGAGCAGA +GGCTGTGCCGAGCGTAGTTTATGGAGCGTCAGCGTGATCCCACCGCCGCAGGGCAGAACGATGTCAAACC +ACGGCGAACCTTCGCCATAGCGAATTTCGCGATCGCGGCCTGAGCCCATCATCTCCAGCGCTTCAAAAGC +GGCAGCGGCCTCCACGCAGCCGCCAGAGACAAAACCGCAGTAACGACCATCTTCGCGCACCACCATCTGC +GCCCCGAGCGGGCGCGCCGCGCCGCCGCGTATCTCCACCAGCGTCACCAGCACCGCTCCTTTACCGGACA +TTAGCGCCTCTACGGCGAAGCGCAGAATGGTCCGGTGGTCATCGGTGAGAAACGCCTGCTCTGGCTTATG +CCAGTGTTCGTCTTTGTCAAAAAGCGGGTATGACATTGTTCCTCCTTAAACCACATCCGGCAGCTTATCG +AGCAGCTTATCCAGAGTGATGGGATAATCCCGTACCCGAATACCGGTGGCGTTATACACCGCGTTGGCGA +TAGCCGCGCTCACGCCGCACAGGCCCAGCTCACCGACACCTTTGGCCTTCATCGGGGAGGATATGGGGTC +GGTATCATCCAGGAAAATCACCTCCTGTTTTGGGATATCCGCATGAACCGGCACCTCATACCCCGCCATA +TCGTGATTAACGAAGTAGCCCAAACGGTCATCCACCGCCAGCTCCTCCATCAGTGCCGCGCCCATGCCCA +TAGTCATTGCGCCAATGACCTGGCTGCGCGCAGTTTTCGGATTCAGGATGCGTCCTGCAGCACACACAGC +GAGCATACGCCGGACCCGAACTTCTCCCGTCGCGCTATGCACGCCGACCTCCACAAAATGCCCGGCAAAG +GTCGACTGCTGGTACTCTTTGCTCAGTGTTCCGAATTCAATGCTCTCTTCCGCTGTCAGTCTGCCGCCTG +CGGTGGCTTCATGTAGCGTGGCGCTTCGGGTACCGTTGGTAATCTTGCCGTCGGCAAACTGCGACTGCTC +AGGATCAAACCCGACTGCCGAGGCAATCATTTCGCGAAGCTTCATACAGGCGGCGTAAACGCCGGAGGTG +GAGGTATTCGCGCCCCATTGTCCACCAGAACCCGCAGAAACCGGGAAACTGGAATCGCCGAGGTGAACCG +CAACCTGCTCCAGCGGTACGCCAAGCATTTCCGCTGCCGTCTGGGCCAGAATGGTGTAGCTGCCGGTGCC +AATGTCGGTCATGTCCGTTTCTACGGTAACGGTGCCGTTTTGTTCGAGGTGAACCCGAGCACCCGATTTT +TCCAGCAGATTATTGCGAAAGCCCGCCGCAACACCGTGGCCGACTAGCCACTCCCCGTCGCGCACCTGTC +CGGGTGTGGCGTTGCGCTGCTTCCAGCCAAATTTATCCGCTCCGGTGCGCAAGCACTCGATAAGCTGACG +GCGAGAGAAGCAGCGCGTCGGGTCGGCGGGGTCAACCTGAGTGTCATTCAGGATGCGAAACTCGACGGGA +TCGATGCCCGCTTTTTCCGCCAGTTCGTCGATCGCGATTTCGAGCGCCATCAGACCGGGGGCTTCGCCGG +GCGCACGCATGGCGTTCCCTTCCGGCAAATCAAGCGTGGCGAGCCGCAGGCCGGTATGACGATTCGCCCC +GGCGTAGAGTAATTCGCTTTGCTGTACCGCCGTTTCCGGCGTGCCGCCGGGCAGGTTTCCAGACCAGCTT +TCATGTGAGATAGCGGTGATTTTCCCGCTCTGGTCGGCACCGATACGCAAGTGCTGAAGGGTGGCGGGGC +GGTGCGTGGTGTTATTGGGAATAGAGGGGCGGGGGAGCATCACTTTAACCGGACGTTTCACCGCTCGGGC +GGCGAGGGCCGCCAGCAGCGCATCGCTTCTCAGGAACAGCTTGCCGCCAAACCCTCCGCCGATATACGGG +GAGATAATACGCACATTCTCCACGGGAACTTTCAGCGTTTTTGCCAGATCGGTGCGGCACCAGTCAATCA +TCTGATTTGAGGTCCAGAGGGTAAGCTTATTTCCATCCCAGACGGCCATCGAGGCATGCGGCTCCATCGC +CATATGGCTCTGGTCCGGGGTCGTGTAGGTAGCATCAATCTTCACCGCAGCGGAGGTGAAAGCCCCGTCA +AAGTCACCGACGTTTTTGTCGGGCGTGTCTTCCGGCGGCTGATTGACGGCCTGTTTTTCGTCCGCCAGGG +AGTAAGCTCCTTTATTACGGCGATAGTGTGCCTGCACCAGCGAGGCCGCCGCTCGCGCCTGTTCGAAGGT +CTCGGCCACTACCAGCGCAATGGCCTGATGATAGTGCTCAATAGTGGGGCCGCCTAACAGCCTGGCGGTG +TTTTTGTCGCCTTTGCCGAGTGCCCCGGCGTTACTGGCGGTAATGACAGCCAGTACGCCCGGCGCTTTTT +GCGCGGCGTCCGTATCAAGGGCGGTGAGGCGTCCTTTGGCAATGGCGGAACCGACGATATAGCCATAGGC +GGCGTTGGGGGCTTCTTCATGCCATTCGTAGGCGTAGCGTGCCGTGCCGGTAGTTTTCAGCGGTCCGTCG +ATGCGGTCATGGGGACGACCGACAACCTTCAGCTGATCGATCGGGTTTTCCCCTGCGGGTTTATCAAATT +TCATGCCTGTGCCCTCGCTTCAGCCAGTACGGAGGCAAGCGTTCGCTTCGCCAACAGGAGTTTAAAGGTG +TTTTCAGCGGTGGGATGGGCGCTGGCGAACAGCGTGTCATATACGGCCTGCGCCCCCTGGGATAGCTGAG +CATCCGCAGCCTCAATGCGCCAGGGCTTATGTGCTACTCCGCCCAGCGCGACGCGCCCGCTGCCGTCAGG +CTGAATAATCGCCGCGACCGATACCAGGGCAAAGGCGTAGGAGGCGCGATCGCGCACCTTACGGTAGATA +TGTTTTCCGCCGAGCGGTGGAGGTAACGTCACCGCAACGATAAGCTCACCGGGAAGCAGGGCGGTTTCAA +TGTGCGGCGTTTTTCCCGGAGGGTGATAAAAATCAGCCAGTGTGATACTGCGAGTCTTTCCCTCCGGCGT +GATGGTTTCCACCACCGCATCCAGCAACCGCATTGCGACCGCCATATCGCTCGGATGGGTGGCAATGCAG +GCTTCGCTTACGCCTACCACCGCGTGCTGACGGCTAAAGCCTTCAAGCGCCGCGCAGCCGCTCCCGGGCA +GGCGCTTATTGCAGGGCTGATTGGTGTCGTAAAAATAGGGGCAGCGCGTGCGCTGGAGCAGATTACCTGC +GGTGGTTGCCTGATTACGTAACTGACCAGACGCGCCAGCGAGCAGGGCGCGGGAGAGTACCGCGTAATCA +CGACGCACGCGCTCGTGAGCCGCCAGGTCGGTGTTCCGTACCAGTGCGCCGATGCGCAGCCCACCCGCGT +CGGTCACTTCAATCTTATCGAGCCCGAGGCCGTTCACATCGATAAGGTGGGTGGGCGTTTCAATTTCCAG +CTTCATCAGGTCCAGCAGATTGGTCCCGCCCGCGATAAATTTTGCGCCGGGTACGCGCTGAGCGCTAAGT +GCCGCCTCGGCTGGGGTATTCACTCGTTCATAGGTAAACGCCTTCATGATTTTATCTCCCCCGCAGCATC +TTCAATGGCGGCAAGGATGTTAGCGTATGCACCACAGCGACAGATGTTGCCGCTCATACGTTCACGGATC +TCATCGGCAGTTGTTTCTGGAGCGGAAACCAAATCGACCGTGACGTGACTGGGAATGCCGTCCTGAATCT +CTTTTAGCACCGCTACTGATGAGCAAATTTGCCCGGAGGTGCAGTAGCCGCACTGGAAGCCATCATGCTT +GATAAAGGCCGCCTGCATGGGGTGAAGATTATCTGGCGAACCCAGGCCTTCAATGGTGGTGATCTCGGCC +CCCTGATGCATGACTGCAAGCGTCAGGCAGGCATTAAGCCTGCGACCATTGACCAGCACGGTACAGGCTC +CGCACTGTCCGTGATCGCAACCTTTCTTGGTACCGATCAAATGCAGATTTTCACGCAAAGTGTCCAGTAG +CGTGGTTCGGGTATCCACCTCAAGCTGCTCGGTTTTGCCGTTCACCTTCAGTGTCAGGGGCATTATCTCT +GGCGCGGGTGTAGCTGCCGGAACGCTTGCCGCCAGCGTAGAATGAGGATAAACCACGGCGGTCGCCGCTG +TTGCGGCGCTCACTTTAATCAGATCGCGACGGGTCAAACTTAAATCGTGCGGCTCGTGCTTCCCAACCCG +ATTATCTTCGGGGTATTCGCCTTGGTTGCTCATACCAGGCCTCCGGTATTCTAAAGGGGAAAATAAGAGT +GCGTTGCGAGAGTGCTGATGCTTTTTTAAACGTTAAGCATAGTCGGCGACAGCAGGAGGATTATTCTTAA +AACGCGAATGCAGCTATGAGCCCGGCTAATAAATTCATGTTCGCCGGGATGTTGATGATGATGGGAGCTG +GTTTATTGCTTTAGTTGTACGATGCAAAAACCAATAAGGAAACCTGTGATTTTCAGCTCTACATCACCCT +GCAAATCTCTGTCACTTCTAATATAAAAATAGGGAGAAATGATGGAGCTTATATTCATTGGCGATTAGGA +AACTATCTTGTTATACAAAACAATACAGTTCTTTACATTTGCCTTGTTTTATGAATACTCCTGAAGAGGT +GTATAACATAATGGTACAAGCAGGGTAGATATGAATATATTTGAACAAACTCCACCGAACCGCAGACGTT +ATGGTCTTGCTGCATTCATTGGGCTGATTGCTGGCGTTGTTTCCGCATTCGTGAAGTGGGGGGCTGAAGT +TCCATTGCCGCCACGTAGCCCGGTGGATATGTTTAATGCAGCGTGTGGCCCGGAATCATTAATCAGGGCT +GCAGGCCAAATTGATTGCTCGCGTAATTTTCTCAATCCACCGTATATTTTTCTTCGAGACTGGTTGGGGC +TGACAGATCCCAATGCGGCTGTTTATACCTTTGCCGGGCATGTCTTTAACTGGGTTGGTGTTACGCACAT +TATCTTTTCGATAGTGTTTGCTGTCGGTTATTGTGTGGTCGCTGAAGTATTTCCAAAAATTAAACTCTGG +CAGGGCTTACTGGCAGGTGCTTTAGCCCAACTTTTTGTTCATATGATTTCATTCCCTCTCATGGGACTGA +CGCCACCTCTGTTTGATCTCCCGTGGTATGAGAATGTTTCTGAAATTTTTGGACATTTAGTCTGGTTCTG +GTCTATTGAAATTATTCGCAGAGATTTACGAAACAGAATTACTCATGAGCCAGACCCTGAGATCCCTTTA +GGCTCAAACAGATAATGCATTGAATGATAAAAATGGCGCAAATACAGCGCCATTTTTATAGGTTAAAAAC +ATTGCTTTTTATATTCTGATGCAGATAGTCAGTGAGTATATCGCGCTACTTCAGGATGATGTAGATCCGA +AGAACGCTACAGAAGAGAGGCATTGTTGCTGGCAAATAGAAGAAGTATCGGGTTTTGTTACCCCTGAAAA +ACGAAGCCCCGCTATTATCGCTGGCGGGGCAGTGCAATTAATTATTGTATGTTTATAACGGTGTCAGCCC +GTATTTAGCCCTTGCACGATTGCAAGCCTCATTGACGACTCCGTTCTCACCAGACATGGCGAATTCTCTG +CATGTGGACGATCGATTTTTATATATCGTGCAGCAGGCATTTTTGCCCGGGGTTCCTGCAAGGGCAATAC +ATCGGGGGTTTTTCTGATTGGTACCGCTCATGCATCGGTGAAAAGGGGATATTTGTTCAGTGAGCCTGGC +GGGAATAGTACCGCCAGCATCGTCGGCTTCGGCCCAGTAAAAAGAGACGCGGAAAAATGCACAACAGGCA +CCACACGTCATGCATGGATTCAGATTGCTCATAATTCACCAGTACAGCTAAAAATCGTAAAGAGAACAGC +GGTACATCGTATGTAAGAACGTACCGCGGTTGGCTGGGGAACTTTCGATAGTGTGAGTATTGAATGATTT +CCAGCCGTTACCGATTTTACGTACTAATTCGTGATTAAACCACTCGTTAGCAGGCTGCCTGATACCTTTC +CGTGTCTCCTGAACACTATGGTGTGCATATGAGAAAGCCCATCGTTACAGGTGATATTGACGATCGCTTC +CACATCATTTAAACGATTTTTGGGGCTCTGAGGTGGAATTCTTCCCTCGACCGATGGATAAGTCTTAGTC +CGCCGAAGGGGGCTTAGCCGGACAGGAATCGCTAATCTTAATGAATTTGTCGTTATAGACCAGATAGTGA +TTCCCCGGCTGACGTAACTCAGGCTGATGAACCACGTCTCCCGGACGTAGATACCAGGCATCGCCTTCCT +CTTCGGTCGAATCACATCCTGGCTTAATCAGTAGCTTAAACCATGTGTTGCCAGTGTTACTTACCGTTCC +TGTCACCTTGTCGAAGGACCATTTAAACTGAACCTGACGTGGTCGTACTACCAGAATGGTATCCATCACC +ACCACCGGCTCCGTGCTGACCACGCCGCCGGTTGGGCTGCGTCTTGTATGGTTACGAGTGGGGACCTCGC +GAAATGAGACCCGGTAGTAGCGCTCGCGGTTATCCCGTGGACCATGATAGTAAAATTTAAAATACTCGCT +CTCACCAGCCTGCAACGCCAGCTGGCGGGGGGCGAAAAGCAGTTCACCATCCACCGGTCGGGTGCGCAAT +TCACTGCTGCCCGGGCTATCAATAGCACTGATGGCAATACGGTATATCCGTGCGCTTTTGTTGTTATTCA +CTACACGTTTGCTGACAAAGTCAGTCTCGGACGGCAGCGAAAATGTCAGATTGCCGACCGAAATCGCCTG +TGTCAAAGGTGCCGCCAGCATACAGACCGCTGTCAGCAGGGCCTTAGTTAATGTTACGCCACGTCGCCTG +AACATGAATCTCTCCTGAAGCGCTGACTTCGCCAAACCAGCCGTTATCATCTACCGTACGCAGCGAAATG +GCGTTATCCATTGGAATCGAAAATTTGACTGTGGTCTTATCCATCTGCCCCACTTCGCCAGAGATATCAG +TCCACGGTGTGGTCAACCACAGCGCATCGGTCATATCCCGCCAGCTATCATCGCACCCGGCATCGTAGGT +TTTTGTAGCTCCGTTGCGGGTAATAAAGGAAAGTGTCGCCGGGAACGGTACTTTCGCCTTACCGTCATCG +GAGCTGAAGACACAATAGGAGCGCCCGCCAATCACCTGCGCGGGTCCGGTCACCTTGATCAGCACTTCGT +CGGCAGCTGTTTTACCGCTGGTGGTTACGATATAGCCGAAATCGAGTGCCGACTCGCCGCTGCCAACATA +TCCCTCCCGCGACGGTGTCTGAGTATATTCATCGGAGATAATACTGATGCTGAAATCACGGGGTTTGATA +ATCAGCGTGTTGGAGGTAGAAAATTCATACCAGCCAGACTCCGGTGATGTGGTGTTCTGAAAGCGAAAGT +TGAATAGATCTTTGGTGTTGATATCGCTGATCCCGAGGTTCACCATCTGCTTAAAGAAGTTGCTCGAGAA +GAAAACATAGATCGAGTCTGCGCTCTTCATCTCGTTGAAGGTGTAGTAATAGGCGGTATTGCTCACCGGT +TTCCATGAACTGCCATTCAGACTGAACTGCATATCGTACGCCCCGACGGCCGAGGCTAACGACGAGTTGG +CGATCGCCGGGAATATATGGATTGAGGTGTTGCTGAGTCCGTTTGTTTGCAGGGTATAGTTAACCATCTT +ACAACTTAATCCTGAACGGCTGCCGATGGTTTGCGTCCGGCAGTCGGCGTTCCCTTCGCCCAGAGTCGGT +ACTCCGTCGCTGTTGATAAATACTTCCGCCAGCGAGTGGGTATTTATCAACCGTAGATTTGCTGCTTTCG +TATGGGTGACGTTGCGAACATACCAGTTGCCGGAGGCCTGATCCTTACAGCGTGCGCCGCTGCTGGCGTC +ATAGTTCACAGAGGTCTGGCAGGCATTGATGGTCATTGTAAAGCTGCTGCCGACGGGCATTTGTTGCATA +TACTGGTAAAACGCGTCTGACAACATGCCGTGCATCCACTTCGCGCCGCCGCTGGTCACCGTCGCGCCAT +AAAATCCACTGGCGTCGGTGGTTTGCGGCAGGATAAGACTGGTGGTCATATTACACCCAGCGTACCAGTT +GATGCAGCGCAAGCCAGTTAAAGGAGATGAAACTGGTGAATTTTCCAGCCACATATCAAACTTCCAGTTG +GTATAAAGGCCGGTGTTGTAACCGTTATCAATGTAGCCGAGGCTTTGCTGATAGATGGTTCCTGAACCAG +TGTATTTTAAACCGGTCCAGCGGTTGGCACCGGTCAGGCGCGGATCCAGCGCCCCGCCAGGAGTGACGAA +AAAGTTGTCGTCTGAGTTGTTTTCGACAAACACAAACTCGCGTGCCGGTGCATCCGCCCAGGTTGTTTTG +CTCACTGCCGCTCTGAGCGCAGTTACTGGCCAGATTAGCGCGAAAATTATCATCGTTATTAGTAGGTTAA +CTCTCATTCTCTTCTCCTGTCTGCGTCACCGCCGCCCACGATGAGAGGCCGCTGCAGACCACATCACCGA +CCCAGACGGCACCGCGCGCCTGGTTGAGTTCCAGAGCCACTTCGCAGGTTTTATTGCCACTGTAGCGAAA +ATCGATAGTGGGGTATTTCTTATCCACGTCCATGACAAACTCGCCGTTTTCATCGGTTCGGGTTCGGCCG +ATATGGTTGTTAATCCGTGCGTTAGCCAGCAGTGTGCCGTCTTCCGCACGGATACGACCGGAGACGGTAA +CCATCTGCTTCACCTCTGGCTCAATGACAGCGACATTGCCTGGATAGAGAGTCAGACGACTTTTGCGGCC +GCTGACGATATCGTAACTGTCGAGTGAGTTTTTGCTGTTCTGTAACTCCACCTCATATCTTCCATAGGGA +GAGAGCGGGAGATAGTTACGCTTGCCGTTAAGCGGGAAAATCCGCCCGTTGATTTTGGCGCTGATCTGAC +CGTCGTCCTCCAGCCCGGTGTTGAATATCACCCCAGCGTTGCCATCAGTCCGCCCGCTGGCAGCAATGTT +TTTACCCTGCCAGCCGACGCTGCCATTGGCGGTCAAGTTGGTATTGACGTAGCCGTCCGCCGCGCTATTG +ACGTTCAGCGTTCCGCTGGCGTAACGAGCGTCGAATTGTGCATACGCCCCGCCGCTGAGGGTTTTGTCAT +CACCGGTATCGCCGGAGATGGCACGTGACAGATTGGCACCAACAGTGCGAATGGTTCCTTCATCAAACTG +TTTGCGTGCTGACAGGTTTGCCATGGTGTAGCCGTTTTGATGAGTCATCCCTGCGCTAAACCAGTTGCCC +AGTGGTAGCGAGAGATCGAGAGCGATATATTTTCCTGTATTGGCGTTGCTGTCGCCGTTGTTATAGCGCT +GAATACCGGCCCGCAGGCCAAGCGAACCAAAGGTACCGCTGTAGACATTTTGATAGTAATCTGCCGTGTA +ATAATGGCTGTTGTAACGGCGGTCATCATTGTAGCTGATGCTGAATGTGCCCAGCTTCGACCACAGTGAG +TTCAGGTTGAGTGTGCCGCCGATTGCACGGTTGTCGGCATCGCTACGTCGCAATTGATTGCCAATGCGGG +TTTTTTCCTGATTAACCCACAGCGAACTAAAGCCTCCCGGTAGAGTGGCGCTGATGCTGCCGATGCTGCT +CCATGAGCTGTCACTGGCCAGCATATTTTGCAGGTTAACGTTGATCGCCCCCCCAAGCGGCAGCGTCAGA +CGGGTTTCACCCACCGCCTGATTATCGTATCCATATCCCGTTGCCGCCCAGCTAAGCGTACTCAATGAGC +CGGAGGTCGAGGCACCTGCTAGCCAACTCTCTTTAGCTGGTCGCGTCTTTTTCCCGTTTTCCGACCAGCG +ATCCATATGAAAGCTACCGCCCCATACCTGCCACGCCAGTGGTGCACCGACGCCGCGCCCCCGGCTAAAC +AGCTTATTGACCCGCTGGGTGCGTTTGCTGATCACGCGACCGTTAACGATCACCTCAACTTCCACATCGT +AAATCCCGTACGGTAGACCCCGGGTATCCACTTCATGATTGCCCATAGTGAAGTTCTGAACGCTTAGTAG +CCGCCCATCACGGGTGAGATGTACTTCGCCCGCCGCCGGTAAAAAGGCGATCACTGGCGTGGCTGACTGG +CTGCTGTCGAAGATGGTGGAGCTGGCCTGGTTTCCCCAGGAAAGGCCGTAAATCTTCCCTGCTGAAATGG +CGGTCATCGGCCCTAAGGACTGCAAGTTCCAGGTGTCGAGCATTCCACCGGCAAATCGGTGACCGGCAAA +ATCGCGTTCATACATCGCTTTATATAATTCACTGTCCTGTTGACCGCTACCGATCCCGTACAGCGAGCCG +TCGAGCACCACATGATGTTCGCGCAGTGCAGTAACGTTATTCAGCGACAGATAGCTGGATGTGTTGCTCC +CGCCGTTACGCAACTGGTTGTTATAGACGCCCAAGTTATAGCTCAGATTACTGCTGAGGGTGTTAACACT +GGACTGCCCGATGTCTTCGCTACGTGAGCGTAGTACGGTGCCCAGCGCTTCGCGCTTGACCACTAGCTGC +AGCAGCAGTTGGCGCAAGCTGAGATCCAGCTGCGCGTTGTCAGTCAGGGGGATGGTAAGGGCCTCATTGA +ACGGGGCGTTGGCCAGAGCCATCAGCTGCTGTCGAGTTTGTTCGCTGACACTGGCGTTATCTTCACTCTC +TTCCAGCTGTATTTTCCGGATGCGTAGCTGTCCATCGTCCAGCCAGATAAAAGCGCTGCCGATTCGCTGA +TCGTCCTGGCGACCCTGGCTACCGGCGAGATGAATATAGAGCGGGACGCTCATGCCGTCCTGAAGCGCCT +GACTGAAGGCCTGCGGAATAATCACCCCACCTATTTGCTGCGCACTTATGTCAGCAGCGCTGGCATCGGG +CTGAACGAACAAAAAGACCATGCCGAAGGCAAACTGGGCTTTCAGTCCTGGGGAGAACCGTCGTAAAGGC +ATTGTCGTTATCCATCTGCACAGCTATCTATTTCACGGGAATGAACTTATCACCCTGCCAAAGTGCAACC +CGTCCTTTGTTATCCGCAGTGTCCACGCGGGTAAAACGACGCGACTTGCCCGGCATCAGGTAGTAATTCT +CTTTACACTCCTTACCGTTGGCGGCTTTCAGGCAAGGTCCGTAGGCGAGGATCCGCAGCGTCGCATTTCC +TGTATTTGTCAGGGAGCCGTTGGCGTACTGAAAGTGGTAGTTCGCCTGACGAGGGGCGACGACCAGAATG +GTGCCGATGCGGGCGGAAGCAGTGGCCACAGCGCTGCGGTTGGCATTATCGCGCTGCGCATCACTGAGGG +CCTGATCAAACCAGACAATGCGGTAGTAGCGCTCTTTTTCATCTGCGGGTCCCTTATAGAAGAAGCGGAT +CACTTCGCTGGCTTGGGCGGGTAGCAGCAAGCTGGCGGGAGTGAGTAGCAACTCATCCGGCTTGTCCATT +GAGATAACCTGCCCGTCGTCAAGCGGTGAAGAGAGCCGTTCGAGACGGATATTGATAAGGCGACCACTGT +CGGTACTGTTTTTGATCGTTTTGCTCAGCGTGCTGCTGTCACTGTTCATAAACGATGATATATCGCCGAC +ATCCAGCGCCTGGGCCGGAGATATTCCGGAAAACAGCAGAGCGAGAGGCAGAAGGTGCTTTTTCATAACA +ATTCCGTCCAGGAATAAAGCAGGGGGGCTACCCCTGCTGGTACATCAGAGAGATTAACTGGTCCAGGTCG +CGTCGAACTGTACGCTAACGTCGCCGCTCCAGATGCCTTCCGGTAGAGTGCTGTAATCTGTTACTGCGGT +GGTACCATTGGTGGTACCGCTGATGATGGAGAAGGTGAAACCATCCTGTGCGGTGGTACGATTGCTGGCA +TTGTAACCGTTAGCCAGCGGGCTAAGGTTGCCGCCCAGTACGCCGTTGGCGGTATCGATCATCACGGTAT +CGCCAGTTTTTTCGACTGCCGCGCCGTTATAATCCACGCCCACATTCAGTGTGGAACCTGAGGTATCCAA +CTGGGTTAATGTGTTGGTGATAAGACGTGAGGTCAGTTTAAAGGCGGTAGCCGTTGAGTCACCCTCGATA +GCCACGTCAAATAGACCTTTCTGTGAGTTAAAACCTTTAATGCCTTCGGCATACTGGAACGCCAGGCTAC +CGAGTGGCGTCACAACCAGCTTACTGGTGGTGTCTTTTTTGGCTGTTGCCGACCAGGTCGCTACAGCCTG +AGCTGTTACGTCAGCAGCCTGCGCCACACCCATGCCGGTAAACACCGTTACCAGAGCTATTGCCAGAACC +TTTTTTTTCATTGCATTTCTTCCCGAGTTGAATTGAGGACGTGATGTCCCAGTGAGTCATTTTTTAAAAC +TAACTTGCCTGGAGTTTACTGAACCAACTTATATATTTTTGAGTACAGCTTGGCCTCAGCATTACGCCGA +TGGGTATACACTGTCTTCACACTACAATTTTCAATTCTGGCAATCGATTTAGGTTGCATTCCCTGGGCCG +TCATGCGGATAATTTCCATTTCCCGGTCCGTGATTTTATCTTTCTTAATATCTTTTCTCAGGAACCTGCC +ATTAATCACATAGACCAGTTCTTTTCTAATATCACGACTCAGTCCAGCGTATACCACGCCCCTAATATTG +CTATTGTAATACCAATAATTTGCTAAGGCCTCTGACTTTCTGGCCGCAATCAATACGACCTGTTTCCCCT +TTACCGCGGATAACCATTCATTATCACGGTTTATAAATTCAGATAAAGAATCCGTACTGAGATTGATAAA +CACGAAATCTTTTCTAATTTTCTCCAACGATAGATAAATTAATCTGTCGATATCCACAATCAGTTCAGAT +AGTCCTTTATAGAAGTAGGCGTCATGGGGAGACCAGATGTATTTATCAGAACGGTTTTGACATTCCATAT +GGTTTTTAACCTCATAGTCCCTACTGTAATCACTTTGCCATGTCACTACTTTCCAAACCTGTAATTTTTA +CAGGTGCATTCAGTTTCCTTAGTAAACCGGAAGTAAATAAGATACGTAGTACATATCAATAAAGGTTAAA +CGAGATTAAGTTTAATTATTTTCGATTGGGCTTAAATTTATGTTTTTTTTCCCGATGAGTGTCAATATGT +GAACGGAAAAGGAATTCAATGGTTAAGTCAATATTTAGAAAAACTGAAAATATTGCTTTTTTGATAAGAA +GAAAAAGACATTTGGTTTCATAAGGTTATTGGCAATATAACGTTCAATTCTTACTTGCATTTTATATTGG +TCAGGAACTTTGCCCTGAAGTGTTAGGAATAGTCTTAATGCGCTGTGTGATGGACTAGTAAAAAAACAAG +TTTTAAGGGTAAGGGATAGAATATAAAACTATGATGAGCTGTCATTGAAGATGATTTGCCAATCAGTAAG +ATATTTTAATGGATTAACATGCCGCACAAAATGGTTACAGGTGTTCATTCCAATAAGTAATGGAAAATTG +AACGGGCGTATGTACGTCATCTGTTCGGTAAGCCCCCAAGAGCCAGATTAAGTGAAGTTAAACGAAGGCT +GCCAGCTGTCACAGGAACGATGGCCTTTTTGTCAGGGCACTGCATTCAGTTATCTGTGCGCGTTACTCTA +ACTGGCACTCGAACGTCGGCGACGGGGTTACCGGTGGATCAGACTGTTCCTGTGGCGTAAACGTTTTTAT +GTTAGTACCAACAGATTTACCACATTTATCATCTTAACAGTTTGAGTGAAAATGCAGGCTGCGCCGCAAA +GGGAGGAGACTGAGTGGCGTGTTCAGTCTAAAAGAGGGTTGATGCCAGCATACAGGGGCGAAGCTGGTCA +ACAAGTCAACATTAAGATAATGGAATATTCGGAGAGAAACGTCAGGCAGTTGGCCTCAAATGAACAGGAA +GAATATATCCCCAGGAAAATTAATGTTGGTGTTATAAACACACCAACATTAATCCGATCTGATTATTAAT +CAGACAAATATCGTTAATCCGTCGAATTTTGAATCAACGTTTTTTCTTACGACCCTGAACGGCCTTAAAA +CGTGGATTAGATTTACAAATCACATATAGCCGTCCTTTTCGCTTCACAATCTGACAGTCTGGATGGCGTT +CTTTTGCGGTACGCAGAGAGTTAAGAACTTTCATCACGCCCCCTTTTTCGTGCTAACAAAACGACCAAAA +CGTTGGGTGAATCGTGCAACATTTCCTTCTGATGCCACTGTTCTCAGCTTCCCTGTATAGAACGGGTGCG +ATTTAGAAGAGACATCAATTGTCACGTATGGATACGTTACGCCATCCAGCTCAATCTCACGGTCTGTTTT +GATAGTCGAGCCGATTTTAAAGTACTCATCAACACTGGTGTCGTGGAACACCACAGTACGATACTCAGGA +TGGATATTGGGCTTCATCATTTTTACCTGTTATGTTATAACATAACCATAAAGATACATGCTCATCCGGA +TCATTTCAACACTCAATCCCTGTGACTCTTTGTGGATGTGGAATTTTCGCAACGGGGAACTCTGGCATTG +TTAGCAGCCATTGGTGACGCTCCCATAAACGCCTGGATGAGTGATTGATGATGGTTTTGCTGAGAGTATG +GATTTTTCGAGAATGGAGGTTATCTCCACTTTACTGGCCGATAATTTATCGCAGTATGATTGATTACCTG +ACAGCGTGTATTCCTCTCCCACGGATATAATAATTACTTACAAAAAAGGGAGAGGATGCATATTTTAAAT +ATCACTGAAGTGAACAGTTTATTTCCGTTATTAATAGAAATGGAGAAATAAATAGGCGTATTCTACAATT +GCGACAAAAACAACGATATTAATCAGTTTATGACTGATTTGCTGTACTTTATTCTCTTTCATTGGTACTT +CCTCGCTTTAAAAAAGAGTGCACTTCGTAAGTGCCCTTATATAAATAACGAGTTTGGTCAACCAATTTTT +TGACATGTATCACAAATTTGAATAGATGTATTACATCAACTATCTTTTATTGCACCAACGTCATTGATAT +ATGTCGCCTGAAGTCAGTTCCGGGAATGAGTCTGATCTCAAGACTGGCCCAGTCCGGGCGTTGATTGGTG +CTGAGGAGCATATCGCATCTCATCATAATGTCGTATCTCCTGGGGTGTTATACAAGATATCGTTGTTGGT +GACCTGGGAGAGGAATTGAGTTCTATTAAACCGTCAACTATGCCGGATACATACTGGATTACACTGCAGG +CACGCCTTATGAGAGAACGTGCCGCAGTGACGGGTTAATTATCTGAAAGAATTTGTGAGGCTGTATCGGT +TACTCATTGATTTGATAGTTTTACTCTCGGGAGAATAATAGATATTTAATCCATTAACGGAAACCAGCCA +GTTCCTTTCGATGCCTGAATTTGATCCCATAGTTTATCCGGAATGGTTAATTCATGAACAAGTTGTGTTA +TCGTTCATGAGAAGCATAACGTAAAGGGAAAAGCTCGATTAGACGGCAGAATTTGTCAGGGGTTATGAAC +GAAATTCATAAATCTGTTTGAGTGTTGCGATGGGTAGTGCAAGTTCGATATCTCCGCAATTTACAGTCCG +ATGAAGGAAAATGAATATCCATAAAAAATATATTGGTTTATCCTGGCATATATACCTATTTCGACGTATT +TCCAATAGTTTTAATTAAAGGCAGGTCATTGTTATTCACTCTGAATAGTGAATTATTCACTGTCCGCAGA +GTAAGAAATATAACTTAGGTATCTATTTAATGACTTGCACAAAAAGCTAAATTTTCCCCCATAAATAAAA +ATATAATCCCGCGCCCAACCACCTGATGAGTGGCTATAGGCACTGGATATATTAGGTGGCGGTGCACTTT +CTTACATAAAGGTATTTCCTTTTCTGCGGAAAAGGAAATCGGGAAATCCCCGGTTTTTCTGACAAGCAGA +CGCCATTATTTGTGTCTGCCTATGTTCGTTAATTCGTTCATCAGGAAATTATCTCAATGTCACATTATAA +AACAGGTCATAAACAACCACGATTTCGTTATTCAGTTCTGGCCCGCTGCGTGGCGTGGGCAAATATCTCT +GTTCAGGTTCTTTTTCCACTCGCTGTCACCTTTACCCCAGTAATGGCGGCACGTGCGCAGCATGCGGTTC +AGCCACGGTTGAGCATGGGAAATACTACGGTAACTGCTGATAATAACGTGGAGAAAAATGTCGCGTCGTT +TGCCGCAAATGCCGGGACATTTTTAAGCAGTCAGCCAGATAGCGATGCGACACGTAACTTTATTACCGGA +ATGGCCACAGCTAAAGCTAACCAGGAAATACAGGAGTGGCTCGGGAAATATGGTACTGCGCGCGTCAAAC +TGAATGTCGATAAAGATTTCTCGCTGAAGGATTCTTCGCTGGAAATGCTTTATCCGATTTATGATACGCC +GACAAATATGTTGTTCACTCAGGGGGCAATACATCGTACAGACGATCGTACTCAGTCAAATATTGGTTTT +GGCTGGCGTCATTTTTCAGGAAATGACTGGATGGCGGGGGTGAATACTTTTATCGATCATGATTTATCCC +GTAGTCATACCCGCATTGGTGTTGGTGCGGAATACTGGCGCGATTATCTGAAACTGAGCGCCAATGGTTA +TATTCGGGCTTCTGGCTGGAAAAAATCGCCGGATATTGAGGATTATCAGGAACGCCCGGCGAATGGCTGG +GATATTCGTGCTGAGGGCTATTTACCCGCCTGGCCGCAGCTTGGCGCAAGCCTGATGTATGAACAGTATT +ATGGCGATGAAGTCGGGCTGTTTGGTAAAGATAAGCGCCAGAAAGACCCGCATGCTATTTCTGCCGAGGT +GACCTATACGCCAGTGCCTCTTACCCAGCAATAGTGGACACGCGGCTAAGTGAGTAAACTCTCAGTCAGA +GGTGACTCACATGACAAAAACAGTATCAACCAGTAAAAAACCCCGTAAACAGCATTCGCCTGAATTTCGC +AGTGAAGCCCTGAAGCTTGCTGAACGCATCGGTGTTACTGCCGCAGCCCGTGAACTCAGCCTGTATGAAT +CACAACTCTACAACTGGCGCAGTAAACAGCAAAATCAGCAGACGTCTTCTGAACGTGAACTGGAGATGTC +TACCGAGATTGCACGTCTCAAACGCCAGCTGGCAGAACGGGATGAAGAGCTGGCTATCCTCCAAAAGGCC +GCGACATACTTCGCGAAGCGCCTGAAATGAAGTATGTCTTTATTGAAAAACATCAGGCTGAGTTCAGCAT +CAAAGCAATGTGCCGCGTGCTCCGGGTGGCCCGCAGCGGCTGGTATACGTGGTGTCAGCGGCGGACAAGG +ATAAGCACGCGTCAGCAGTTCCGCCAACACTGCGACAGCGTTGTCCTCGCGGCTTTTACCCGGTCAAAAC +AGCGTTACGGTGCCCCACGCCTGACGGATGAACTGCGTGCTCAGGGTTACCCCTTTAACGTAAAAACCGT +GGCGGCAAGCCTGCGCCGTCAGGGACTGAGGGCAAAGGCCTCCCGGAAGTTCAGCCCGGTCAGCTACCGC +GCACACGGCCTGCCTGTGTCAGAAAATCTGTTGGAGCAGGATTTTTACGCCAGTGGCCCGAACCAGAAGT +GGGCAGGAGACATCACGTACTTACGTACAGATGAAGGCTGGCTGTATCTGGCAGTGGTCATTGACCTGTG +GTCACGTGCCGTTATTGGCTGGTCAATGTCGCCACGCATGACGGCGCAACTGGCCTGCGATGCCCTGCAG +ATGGCGCTGTGGCGGCGTAAGAGGCCCCGGAACGTTATCGTTCACACGGACCGTGGAGGCCAGTACTGTT +CAGCAGATTATCAGGCGCAACTGAAGCGGCATAATCTGCGTGGAAGTATGAGCGCAAAAGGTTGCTGCTA +CGATAATGCCTGCGTGGAAAGCTTCTTTCATTCGCTGAAAGTGGAATGTATCCATGGAGAACACTTTATC +AGCCGGGAAATAATGCGGGCAACGGTGTTTAATTATATCGAATGTGATTACAATCGGTGGCGGCGGCACA +GTTGGTGTGGCGGCCTCAGTCCGGAACAATTTGAAAACAAGAACCTCGCTTAGGCCTGTGTCCATATTAC +GTGGGTAGGATCATAAAGTCCTCGGGTCGTTGTCCACTCTTTTGGCATGTCAGCATATTCACATACCGTA +CCAGCAAAAGTTTCAACCGTGAGCAAATCGACCGATTTTGTTGACGGTTCAAACGTGGAAACGAAATAGA +TATCCGTCTTAAAATTCTTCATACATCTGGCTAAATGATGACGTCGTAGTTTGACTTCTTCATCCGGTGA +TTTATTCGACACTTCAATGTCATATTTAAATGAGTTGCCAAAAATAGGTGTCTCAGGAAAGTTGATTAAT +CTACACTCCGTCTTTTGCTGTTGACGTATTAAAAAAGAAGGGAAGATATTTGCGAGATCCCAATAATCAC +GGTGGCGGTATTCACGGGGAGAGCAGCCGAATAACTTTTTAAATTCGCGGCTGAATGACTGCTGTGAATC +AAAATGCAAAGAGAGTGCAATATCAAGCATAGATTTCGCGGTGAGCCGGACAAGAATGGCGGCACGACAA +AGCCTTCGTTTGCGAATGTATTCTCCCAAAGGCACATGCATGAAATTTCGGAACAGAAGCTGGATGTTGC +GTCTGCTGTAGCCAGATTTCTGTGCGATATCTTCGATTGAAATAGGGTGCTCAAGATTGCACTCAATCCA +CTCCAGGAGCTGCTGTAGAATCTTCTGCCTGATCATCTCATTCTCCGTTAATTCTTTGTCATATCGCACA +TTTTCGTTATACCCTGGGCCCTAAGTGTATCAAAAATAGCAAGGGCGAAGGCAAAAGCACTGGTAGCGTC +TGCTTCGTTGTCCCCGAAAATAGAGAGGTTTCAGTCCTACATTATTAATGAATTTTTTGCATAAGTGATA +TCAAAATCCACATACTACTTTGAGGTTACGTTTTAACGTAGACTCATTGTTCATGCCTAATGGAGGGACT +GACAGTGGAATTTTCCGTATAGTCTGCTTCAGAGTATTGCAGATGCCCATCAAAAATCGATTTCTCACTG +ACAGATAAAGAAATGGCACAAATTAGTTCGCTTGATTTGGGTTATGTTGGGGAGTCGGTAAAACATTTTA +ATCCTGAATTTGTTCGTGGTTGTCTTGCTGTAAAAATACATGATTGATATTAATCATGTATTTTACCTAA +GACGACAAAAACCTTTTAACAGGGAGTGATATTGATCTTCACTCTGTCATATCTCCGGTAATATGGCGTC +AGGCTTCATCATCAGAAAGGGGGCCTGACGCCTGAAAAAGTGAACAACAGACAGTGTTCGGATTATCAAT +ATTCAGTTTTTAACGTTGAACTGGATTCATTACTGCGTTGTTTAAGAATTTCCCGCGCCGAATCTGCCAT +TATCATGACTGCACCTGCCAGCATCAGAGTATCTTTCAATACCAGGCGACCAGCACCGGATAAATAAGGG +AAACCATGATGAGCGTCACCCAATGCGGGTACCCATGCCTCCGGGGTGGTGATTAAAAATGAGAGTGTTA +CCAGCGGCGTGGTAAATGCCATCAGTCCTCCCAATAAACCTAACCAGCGATTGACAGGATTAGCCAAAAC +CAGCAGAGCAATAATCACCTCCACGACGCCAAGACCGTTGGAAAAACCATAGGTATTATTGGCCGTTTGC +CATGCCCTTGCTTCTGGTTTGTATTCGCCTTCGTGAGTCAGATACTGTTTATAGTCTTCCGGGTGTTCAT +AAAAGAACGACATTAGTGGACTGTTTGCGACGAATGGTGTAATGCTGTCTGCCTCGTAAGGGACAAACTT +TAATAACCCAATCCACATAAAAACAATTGCAATACTCAGACGAATCAATGTCAGGCCAATTTTATCTCCC +CGACTTAACAGGTGCAGGTATTTTTCCATTGTGAACATCCTTATTTATACAATACTGCTGTTGCGGTTGA +ATTATTATCAATTCGCATCGATGTGACTTTCCAGGATGAAGCATTATATTTTCTGGCTATATCAGCAATG +GTATCCTCCAGAACTGTCGGTGATGCTGATACTGACGAGACGCTGATATGTTTCAGAATTATTTTATCAT +CTGCATTGGTGGAAAATGCCATAACGCCAGATAATAGTGTTGCAAATAAAACAGATTTTTTAAACATATA +AAATACCATCAATGAAGTGATTAAGAAGTTATAGAGTAACAGAGAATTAATAAGATTCTTTTCTCTGAGA +CGCCAGAATATTTGTTCTGGCGTCTGATTTTGAGTTTATTTGACTAATGAAAATAGATCATTGAGTGATT +CGCTCATCGACGGATGAGTAAATATCTGATCGCGTAATATGCTATAAGGCAGCCCGGCATCCATCACCAT +TTTCACTATATTGATCATCTCGTGGGAGTCAACACACAGCAGTGATGCCCCTAACATACGTTGGGTTTTA +TTATCAACAATCGCTTTTAATACCCCACGAGTATCATTCATCACTCTGGCACGCGGAATTGCAGCTACAG +GCAATGTCACCACCTGAATATCAGCACCACTCTCTCTGGCTTGTTCTTCTGTCATACCAACCCTGGACAG +GGGCGGTGTCATAAATACGGAATAAGGCACATTTTTCCGATCATCAGTACTACGTTTGCCTTCACCCAGT +AACTCATCACGTACAATGCGGTAATCATCCAGTGATATGTAAGTAAATTGCAGCCCGCCGGTAACATCTC +CCATCGCCCAAATATTGTCTGCGGTGGTATGTAATCGCTTGTCAACGACAATTGCCCCGCGCTCGTTTAC +TGCGATACCGGCATTTTCTGGATGTAACGAAGCGGTAGCCGGTTGACGACCGGAAGCTATTAACAGTGCA +TCCACCGCCAGTTGGGCGTGCTCGCTATGCACTTGCACTTGATTTTCATGGTGACTGATTCGCTCCACAT +GGGCATTGAGGATAATATCGACGCCCTGATCGCGTAAAATCGTCGCGATATTATCAGCAATATCCCGATC +TTCCCGAGGCAAAAACAGCGAAGCTGCTTCTAAAATGGTTACCTTGCTGCCAAAATTAGCGAACATAGAG +GCGAACTCAACGCCAATATATCCGCCGCCCAAAATACCTAAATGCCCAGGCAATTCTTTTAGATTAAGTA +ATCCGGTGCTGTCATATACTCCTGGCGTGGTGGTAATTCCAGGAATTGGCGGAACCACGGTTTGTGCACC +GGTATTAATAAAAATTTTCTCGCCATGAATTTCCAGATTTCCCTCAGGCCGATGAACACGCAGGCTATGA +TTATTGATAAACTCCGCCTGGCCGTCGATCACGTCGATATTGGGCATATCCGCAAGATTATGAAAATTCT +TATTACGTAAAAAATTAACCACTTCATTTTTACGCTGTATGGCACGGACAAAATCTGTGTGCTGCTGTGC +GTCATGAACCAATGTTTTGGTTGGGATGCAGCCGATATTAATACAGGTCCCGCCATACATTGCATTTGAT +TGTTCGATGAGAGCCACTCGCCAACCTGCTTTTGCCAGCGTGACGGCTAATGTTTTTCCAGCCTTGCCAA +AACCAATAATCACTGCCTGATATTTATTCATGATGATTTCCTGTCGAAACGCGTTCATTTGACATCATGA +CTATAGACGCAAAAGAGCAAATAACATTTCTTCACAACGCTTGATATTTTGTCTTATCGTCTGATATTTT +CTTTTTCTTAATCAGAATCACAAAACAAAAATCATGATTAACTATTTGATGGTATTAGATTAGTTATTTA +CTAAGATTGTTGGTGTTTGTAATCAAAAACCACTCAGGAGTCTGATATGGATGCCCTTAGCCGTTTGTTG +ATGCTTAACGCTCCACAAGGAACGATCGATAAGAATTGCGTGTTAGGAAGTGACTGGCAGCTTCCACATG +GTGCCGGGGAATTATCGGTTATTCGTTGGCATGCGTTAACGCAAGGAGCGGCGAAGCTGGAAATGCCGAC +GGGGGAGATTTTTACATTACGCCCGGGAAATGTGGTCCTGCTACCACAAAATTCAGCTCATCGCCTGAGT +CATGTCGATAATGAATCGACCTGTATTGTCTGCGGCACTCTTCGGTTGCAACATTCGGCGCGTTATTTTT +TAACGTCTTTGCCGGAAACGCTGTTTTTAGCACCGGTTAACCACAGCGTGGAATATAACTGGCTGAGGGA +GGCGATCCCGTTTTTACAACAGGAATCCAGATCGGCAATGCCGGGAGTGGATGCACTGTGTAGCCAGATC +TGCGCTACATTCTTTACCCTCGCGGTGCGTGAGTGGATTGCACAGGTTAATACTGAGAAAAACATTCTCA +GTTTGCTTCTGCATCCACGTCTTGGTGCGGTAATACAGCAAATGCTGGAAATGCCAGGACACGCCTGGAC +CGTCGAATCGCTGGCCAGCATCGCTCACATGTCCCGGGCAAGTTTTGCCCAGCTTTTCCGTGATGTTTCC +GGAACCACGCCGCTGGCTGTATTAACAAAGTTGCGTCTACAAATAGCGGCCCAGATGTTTTCCCGGGAAA +CGCTCCCTGTTGTGGTGATCGCTGAGTCAGTAGGCTATGCCAGTGAATCATCTTTTCACAAGGCGTTTGT +CCGCGAGTTTGGTTGTACCCCGGGAGAATATCGGGAAAGGGTCAGACAGCTTGCACCCTGAATAAAACCG +CCAGAAATCAGGGCAAAGATAATCCGCATTCCGGGAGTTGTGAGCCTTTCAACTATTTCTATTTCCAACG +GTGGTTTGGGCTTTATATATTTTTTCTGATGGACTCTAGCTCAGTTTTTAAATAAAAATGCAAACTAAAT +TGCTTCAATTAAATAAAATCCCGACTATTACTTGATACGTGATTATTGTCGGTGATTTTTTTGTACACCA +TCAGTGTATATCTCAATAACCCCTGAATAAGTAGCTCTGAATAGGTATAAGGGATGTAGCCATTTTTAAA +TGGATTTCTTATGCCAAAAATGATCGTCGATTTCCCCATAAAATGTGAGCGATGCCGAAAGAAATAAAAT +TAGTTATTGCATTTGACGTTTGGATGAAAGATTATCATTTGTCATACAAATGAGGGGTGGTATGTTGCTA +GCCAATTAAAAAAGAACGCCATATTTATTGATGATTGATCCCCCGGTGGGGGGGAAACATCGGGCATAAA +TGGGCATGAAGTAATGGAGTATTAGTTGTGAATGTCAATTTCTTTGTCACCTGTATTGGTGACGCCCTGA +AATCAAGAATGGCACGAGACTCCGTGCTGCTACTGGAAAAACTCGGCTGTCGCGTAAATTTCCCGGAGAA +ACAGGGATGCTGCGGTCAGCCTGCGATCAATAGCGGTTATATCAAAGAAGCGATTCCAGGGATGAAAAAT +CTGATCGCCGCACTGGAGGATAACGACGATCCCATTATTTCACCGGCTGGCTCTTGCACCTATGCCGTAA +AAAGTTACCCGACGTATCTGGCGGATGAACCTGAATGGGCATCACGTGCCGCAAAGGTTGCCGCGCGTAT +GCAGGATCTCACCTCTTTTATTGTTAATAAATTAGGGGTAGTCGATGTAGGTGCCAGTTTGCAAGGGAGA +GCGGTGTATCACCCATCTTGTAGCCTGGCCCGTAAGCTGGGAGTGAAGGACGAGCCACTTACGCTGCTGA +AAAATGTGCGTGGACTGGAGCTGTTGACCTTTGCTGAACAGGATACCTGCTGCGGATTTGGCGGCACGTT +CTCGGTCAAAATGGCCGAAATATCCGGCGAGATGGTGAAAGAAAAGGTTGCGCACCTGATGGAAGTCCGC +CCTGAGTATTTAATTGGTGCTGACGTGAGTTGCCTGCTAAACATCAGTGGGCGATTACAACGGGAAGGGC +AGAAAGTCAAAGTGATGCATATTGCTGAAGTGTTGATGAGCCGCTGAGGATATAAAGATGTCGATCAAAA +CCAGTAATACAGATTTTAAGACACGCATCCGTCAGCAAATTGAAGATCCGATCATGCGCAAAGCGGTGGC +AAACGCGCAGCAGCGTATTGGGGCAAATCGGCAAAAAATGGTCGATGAATTGGGGCACTGGGAGGAGTGG +CGCGATCGGGCCGCCCAGATACGTGATCATGTTCTGAGTAATCTCGACGCTTATCTGTACCAGCTCTCAG +AAAAAGTGACGCAAAACGGCGGTCACGTCTATTTTGCAAGAACCAAAGAAGACGCTACCCGCTACATTTT +ACAGGTTGCCCAACGCAAAAATGCCCGGAAGGTGGTGAAATCTAAATCGATGGTGACCGAAGAGATTGGT +GTCAATCATGTGTTGCAGGATGCTGGCATTCAGGTGATTGAAACCGATCTGGGTGAATATATTCTCCAGC +TGGATCAAGATCCGCCATCTCATGTTGTGGTCCCGGCAATTCATAAAGATCGCCATCAGATCCGTCGAGT +GCTACACGAACGTCTGGGCTATGAGGGGCCGGAAACGCCTGAAGCGATGACCTTATTCATCCGGCAAAAA +ATCCGCGAAGATTTCCTCAGTGCTGAAATAGGTATTACCGGCTGTAATTTCGCGGTGGCAGAGACCGGTT +CGGTATGCCTGGTGACCAATGAAGGTAATGCGCGAATGTGTACCACGCTGCCTAAAACGCATATTGCAGT +GATGGGAATGGAGCGTATTGCCCCCACGTTTGCCGAGGTAGATGTATTGATCACCATGCTGGCGCGCAGT +GCCGTTGGTGCACGTTTGACGGGATACAACACCTGGCTGACAGGACCGCGCGAAGCTGGGCACGTTGATG +GTCCTGAAGAGTTTCATCTGGTTATTGTCGATAACGGGCGTTCTGAGGTGCTGGCCTCTGAATTTCGGGA +TGTGCTGCGCTGTATTCGCTGCGGGGCTTGTATGAATACTTGTCCGGCATATCGCCATATTGGCGGTCAT +GGATATGGCTCTATTTATCCAGGGCCAATTGGTGCGGTGATTTCTCCGCTACTTGGCGGCTATAAAGATT +TTAAAGATTTACCCTACGCCTGCTCTTTATGCACAGCTTGTGACAACGTGTGTCCGGTGCGTATTCCGCT +GTCAAAACTGATTTTGCGTCATCGTCGGGTGATGGCTGAAAAAGGGATCACCGCAAAAGCAGAGCAACGG +GCGATAAAAATGTTCGCTTATGCCAATAGTCATCCAGGATTGTGGAAAGTCGGGATGATGGCCGGTGCTC +ATGCGGCAAGCTGGTTTATCAATGGCGGCAAAACACCACTCAAATTTGGCGCGATTAGCGACTGGATGGA +AGCACGCGATCTTCCTGAAGCTGACGGAGAGAGTTTCCGTAGTTGGTTTAAGAAACATCAGGCGCAGGAG +AAAAAGAATGGATAATCGAGGCGAATTTTTGAATAACGTTGCTCAGGCACTGGGTCGCCCGCTGCGACTT +GAACCGCAAGCAGAAGATGCGCCGCTTAACAACTATGCTAACGAGCGGCTTACCCAACTTAACCAACAGC +AGCGCTGTGACGCGTTTATTCAGTTTGCCAGCGATGTTATGTTGACGCGCTGTGAGCTGACCAGCGAGGC +GAAGGCGGCAGAAGCTGCAATACGTCTGTGTAAAGAGCTGGGAGATCAGTCGGTCGTGATTAGCGGTGAC +ACGAGGCTGGAGGAATTGGGGATTAGCGAACGTTTGCAGCAGGAATGCAATGCCGTTGTTTGGGATCCGG +CGAAAGGTGCCGAGAATATCTCGCAGGCAGAGCAGGCTAAAGTGGGTGTTGTGTATGCTGAATATGGTTT +AACCGAATCGGGAGGCGTGGTTCTTTTTTCCGCCGCCGAGCGCGGGCGTTCATTGAGCCTGCTCCCGGAA +TATTCTCTTTTTATCCTGCGTAAAAGCACTATCCTGCCGCGTGTAGCGCAACTCGCAGAAAAATTGCATC +AGAAAGCGCAGGCCGGTGAACGAATGCCTTCCTGCATTAACATCATTAGCGGCCCCAGTTCAACGGCGGA +TATTGAGCTTATCAAAGTCGTCGGAGTTCATGGCCCGGTGAAAGCGGTGTATCTGATTATTGAGGATTGT +TGAGAGAGATATGAAGTCTGGACATAAACCTGAAGAAGGCATACGAGGTTGAAAATAGCGTTTAGGACAA +CCTGACTTAACCCCGTTCCGTCATGGTTATGCTGCTCTTCTGTAAATATCCTGGTATTACCAATGCCAGG +ATATTTACAGTGAAAAAGACAGGCATCCATTCCTGAAAACGGGTTCCCTTCCCGGTCATTGTCACTTCAG +CTTTATACAGGCACTCTCTATCAGAATGTTGTTTATTACTGCCCAGAGTTTTGTTGGTATTCATCTACCA +TTTTTTTGACAAGGCAAAACATTACAGAAATTACAATGCTTAGAAAAAATCCCAGAGCCAGGCAAATGGC +AGCAGGGTATTTATTTTTTATTTCTGGTGAGCTTATAGTTACACAGCCATCACCGTTCGGATACAATGAC +CAGTTCCTGGTCAGGTATATCATTTTTGTATAAAGCTCACTGTTAATTGCTGAAGGCGTTTGTATCTCAT +CGAGAACTTGCCTGCCATTATGATATTCTGACGCATACCATTTGATAATAGAGGCCTGCACGCGAGATAT +TTCCTCTTCAGCAGTTGGTAAAGCTCTCTTATCTCCTGACCATTCCAGCCTTATTTCTCTGTTCTTGACA +TCTGGGCTGGTGTGAAAAAATGTAGTAATTCGCTGAATAACATCTTCAGTCATTGTAGTCTGACAGGCAA +AATTATTATTGCTATCACAGCTAACAAGTATACCTGGCGTTGTCTGGTTTATTTTTAGGCTGTAAATCAC +TTTTATATTGTCTTTATTGATATACAGAAACAACAGCACCATAGCCATACATATAGCCATAATAAAAAGG +ATAACACGAATCTTTTTCTTCAGATAAAATAAAATCTCAATCAGATCGATATCCTGTTTGATTTGTTCAC +GCATAATATATCCAGAGAATAAAATCTGTCGCAGATAAGGTTGTATTAATAGTCTGTATCAGGAATGTTC +GGGTTAAATATCAGCAAAAAGCCCGCATCATGAATACTGGATATGAAGCATGAGAGTTACCTCAGTGTTT +ATATAAGGATTCGGTCCCCCTCTCTGGAACGGTAACTCTCAATCTGATCGGTTCCTGCGTTAGTTCACAT +CACGACTCATTTTTTCGCTCTCACCGGCATCCCATTTGCCACAAAATATCCCGCCGTGCTCCTCGGCAGC +GCTTCCTGTCCACGAATCATATCCGCTATTTTCTCGCCAATCATAATTGTCGTGGCGTTCAAATTCCCGG +TGATAATCTGCGGCATAATCGACGCATCCACCACACGCAGGCCTTCTAACCCGTGTACGCGGCCTTCGCC +GTCAACCACGGACATCTCGTCGTAACCCATTTTGCAGGTACCGCACGGATGGAAGGCGGTTTCGGCGTGG +TTACGCACGAACTCATCGAGCTGTTCATCCGTCTGGCATTCGACACCGGGGCTGATTTCGCGGCCACGAT +ACTGATCCAGCGCGGGTTGATGCATGATCTCGCGGGTGATGCGAATTGCGTCGCGGAACTCCTGCCAGTC +CTGCTCGTGCGACATGTAGTTAAACAGAATCGCCGGATGCTGGTGCGGGTCGCGGGATTTAATCCGCACA +TGCCCACGGCTTGGCGAGCGCATTGAGCCGACGTGGCACTGGAAACCGTGCTCTTTCACTGCATTCGAGC +CGTTATAGTTAATCGCTACTGGCAGGAAATGGTACTGAATATTCGGCCACGCAAATTCCTCACGGCTGCG +AATAAATCCACCTGCTTCAAAGTGGTTGCTGGCACCAACGCCAGTGCCGCCAAACAGCCACTCCGCACCG +ATTTTCGGCTGGTTCCACCACTGCAGGGCAGGGTAGAGGGAAACCGGTTCTTTGCACTCATATTGCAGAT +ACATCTCCAGATGATCCTGAAGATTTTCGCCGACGCCGGGTAATTCATGCACCAGCGGAATATCAAACTC +CGCCAGCAGTTCAGCGTTGCCGACGCCGGAGCGTTGCAGGATCTGCGGTGAGGCAATCGCGCCTGCACAT +AACAGCACTTCTTTGTTGGCCGTTGCGCGGGTTGGGATGGTGCTGTCGCCTTCCAGCCATTCGACGCCCA +CCGCGCGTTTGCCGTCAAAAATGATGTGATCGGTCATAGCGTGAGTACGAATGGTCAGGTTAGGACGCGA +TTTGGCCTGATCGAGATAGCCACGCGCGGTGCTGGCGCGACGGCCCTGCGGCGTGACGGTGCGATCCATC +GGACCAAAACCTTCCTGCTGATAACCGTTGAGATCGTCCGTGCGCGGGTAGCCCGCCTGCACGCCCGCTT +CAATCATCGCTTCAAACAGCGGATTGACGCCGGGTTTGGAGGTAGTGACGCTCACCGGGCCATCACCGCC +GTGATAGTCGTTTTCACCCATATCGCGAGTCTCGGCCTTGCGGTAGTAGGGCAGGCAGTCGAGGTAGCTC +CAGTTCTCCAGACCGGGTTCTTGCGCCCAGTTATCGAGATCCAGCGCATTGCCACGGATGTAGCACATGC +CGTTGATCAGCGACGATCCACCCAGACCTTTACCGCGTCCGCACTCCATGCGGCGGTTATTCATAAACGG +TTCAGGTTCCGTTTCATAGGCCCAGTTGTAGCGTTTACCCTGTAGCGGGAATGCCAGGGCAGCGGGCATC +TGGGTGCGGAAGTCAAAGCGATAGTCCGGGCCGCCCGCTTCAAGCAGCAGCACGGAGGTATTCGGATCTT +CAGTCAGACGGGTAGCGAGAACGTTGCCGGCTGAGCCGGCACCAATAATGATGTAGTCAAATTGCAAATA +AACCTCCTGGTTAGAATATGGACTGGAATTTAGCCATCTCAACCTGGATGGACTTCACCTGGGTGTAACT +CTGGAGCGTCATCACGCCGTTCTCGCGACCAATGCCGGAGTGTTTGTAGCCGCCAACGGGCATCTCTGCC +GGGGATTCGCCCCAGGTGTTGATCCAGCAAATACCCGCTTCCAGCTGATGAATGACGCGATGCGCGCGGT +TCAGGTCCGCTGTCACGATGCCCGCCGCCAGGCCGTAGTCGGTATCGTTAGCGCGGCGAATGACTTCGTC +TTCCGACTCGTAGGTCAGAATGGACATCACTGGCCCGAAGATCTCTTCACGCACGATGGTCATATCGTCG +CTGCAATCGGTGAACACTGTCGGTGCAACCCATGCGCCGTTATCGAAGCCATCGCCTTTCAGTACATCGC +CGCCGCACAGTACGCGCGCGCCTTCCTCTTTGCCTTTGGCGATATAGCGCAGCACGTTATCGCGATGCGG +GAAGCTGACCAGCGGGCCGAAGTTAGTTTGCGGATCGAAAACGTCGCCCGCGCGAATGCGCTCAACGCGC +GCCAGAATTTTCTGCTCAAATGCGGCTTTGCATTTCGCCGGAACGAAGACGCGGGTGCCATTGGTACACA +CCTGACCGGAGCTGAAGAAGTTTGCCATCATGGCGATATCGGCGGCGAGATCGAGATCCGCATCATCGAA +AACGATCAGCGGTGATTTACCGCCCAGTTCCATGGTCACTTCTTTCAGGGAAGAGGCCGCCGAGTTAGCC +ATCACTTTTTTGCCGCTGGCGACACCGCCGGTAAATGACACTTTGGCAATGCCCGGATGCTCGGTCAGAT +ATTGCCCGGTCTCCGCGCCCACGCCCGGCAACACGTTAAATACGCCGTCCGGCAGGCCCGCTTCGCTGTA +AATTTCAGCCAGCTTTAACGCGGTAAGCGGGGTAACTTCGCTCGGTTTGAAAATCATTGCGTTGCCTGCC +GCCAGCGCCGGGGCGGATTTCCACAGGGCAATCTGGATCGGGTAGTTCCATGCGCCAATCCCTGCCACTA +CGCCCAGCGGTTCGCGGCGGGTATACACAAAGGACGTTTCACGCAACGGGATCTGGCTGCCTTCCAGCGC +CGGGATCAGCCCGGCGTAGTACTCCAGCACGTCCGCACCGGTAACGATATCGACGGTTGAGGTTTCCGAA +TATGCTTTTCCGGTGTCGAGGGTTTCCAGTTTTGCGAGTTCGTCATTGCGTTCACGCAGAATATCAACGG +CCCGACGCAGAATACGCGAGCGCTCCATGGCGGTCATCGACGCCCAGATTTTTTGCCCCTGCTGGGCGCT +TTTCACGGCGCGATCGACATCCTCGCGCCCGGCGGCCTGCACGGTCGCCAGCACGTTACCGTTGGCCGGG +TTAATGGTCTCGAAGGTGCGACCGCTGGTGGCGGAGGTATAACCACCATGTATATAAAGCTGCTGTTCTG +CCATTCGGGACATCACGTCTCCTCGGTTAATCGGTGGGTAGATGCTGAGTGATAAAGTGGCGGGTCAGGG +AATTAGCGCGGGTTTTATCCAGCGGTTTGCCGCTCAGAGCCGCGCGCAGCCATAATCCATCAATCAGCGC +GGCCAGGCCGTAGCCCGCTTCCTGTGCCTGTTCGCGCGGCAATTCGCGACGAAACTCGCTCACCAGATTC +GACAGCAAGCGGCGGCTGCTGACCTGCTGTAAACGATAGAGCATCGGCTGATGCATACTGCTGGCCCAGA +ACGCCAGCCAGGCTTTCATCGCCGCACTGCTCACCTGCGTTTCATCGAAGTTTCCGCCAACAATCGCCTG +TAATCGCTGCTCTGCACTGCCCTGCGGAAGTGCATGTAATCGATTCAAAACCGCGTCACGCAGCTGACTG +GTGATATCGCGCATGGTTGCTTCCAGCAGACCATTTTTGTCCCTGAAATAGTGGCTGATGATCCCCGTAG +AAACGCCTGCACGGCGGGCGATCTGCGCGATCGTTGCATCGTGCATGCCCACTTCATTTATTGCTTCCAG +TGTGGCGTCGATCAGTTGTCTGCGCCGGATCGACTGCATCCCCAATTTGGGCATTTTCGCCACTCCATTC +ATCAGCGGTGTTTATCTATTAAAGCGGTTATTGATTGGACGTTCAATATAAAATGTGTCTTAATTGTTAC +GAATTTGATTTTAAATAGTAACAATAACAGTGGGGATACTGGATGACAGACCTTTCACACAGCAGGGAAA +AGGACAAAATCAATCCGGTGGTGTTTTACACCTCCGCCGGACTGATTTTGTTGTTTTCCCTGACAACGAT +CCTGTTTCGCGACTTCTCGGCCCTGTGGATTGGCCGCACGCTGGACTGGGTTTCTAAAACCTTCGGTTGG +TACTATCTGCTGGCGGCAACGCTCTATATTGTCTTTGTGGTCTGTATCGCTTGTTCGCGTTTTGGTTCGG +TGAAGCTCGGGCCAGAACAATCCAAACCGGAATTCAGCCTGCTGAGTTGGGCGGCGATGCTGTTTGCTGC +CGGGATCGGTATCGACCTGATGTTCTTCTCCGTAGCCGAACCGGTAACGCAGTATATGCAGCCGCCGGAA +GGCGCGGGACAGACGATTGAGGCCGCGCGTCAGGCGATGGTCTGGACGCTGTTTCACTACGGCTTAACCG +GCTGGTCGATGTATGCGCTGATGGGCATGGCGCTCGGATACTTTAGCTATCGTTATAATTTGCCGCTCAC +CATCCGCTCGGCGCTGTACCCGATCTTCGGTAAACGGATTAACGGGCCGATAGGTCACTCAGTGGATATT +GCAGCGGTGATCGGCACTATCTTCGGTATTGCCACTACGCTCGGTATCGGTGTGGTGCAGCTTAACTATG +GCTTGAGCGTACTGTTTGATATTCCCGATTCGATGGCGGCGAAAGCGGCACTGATCGCCTTGTCGGTGAT +AATCGCCACGATCTCTGTCACCTCCGGTGTCGATAAGGGCATTCGCGTGTTATCGGAGCTTAATGTCGCG +CTGGCGCTGGGATTGATCCTGTTCGTATTGTTTATGGGCGACACTTCGTTCCTGCTTAATGCACTGGTGC +TGAATGTTGGCGACTATGTGAATCGCTTTATGGGCATGACGCTCAACAGTTTTGCCTTCGACCGTCCGGT +TGAGTGGATGAATAACTGGACGCTCTTCTTCTGGGCATGGTGGGTGGCATGGTCGCCGTTTGTCGGCTTG +TTCCTGGCGCGTATCTCGCGTGGGCGTACCATTCGCCAGTTCGTGCTGGGCACGTTGATTATTCCGTTTA +CCTTCACGCTGTTATGGCTCTCGGTGTTCGGCAATAGCGCGCTGTATGAAATCATCCACGGCGGCGCGGC +ATTTGCCGAGGAAGCGATGGTCCATCCGGAGCGCGGCTTCTACAGCCTGCTGGCGCAGTATCCGGCGTTT +ACCTTTAGCGCCTCCGTCGCCACCATTACTGGCCTGCTGTTTTATGTGACCTCGGCGGACTCCGGGGCGC +TGGTGCTGGGGAATTTCACCTCGCAGCTTAAAGATATCAACAGCGACGCCCCCGGCTGGCTGCGCGTCTT +CTGGTCGGTGGCGATTGGCCTGCTGACGCTCGGCATGCTGATGACTAACGGGATATCCGCGCTGCAAAAC +ACCACGGTGATTATGGGGCTGCCGTTCAGCTTTGTGATCTTCTTCGTGATGGCGGGGTTGTATAAATCTC +TGAAGGTAGAAGATTACCGCCGTGAAAGTGCCAACCGCGATACCGCACCGCGACCGCTGGGGCTTCAGGA +TCGCCTGAGCTGGAAAAAACGTCTCTCGCGCCTGATGAATTATCCGGGCACGCGTTACACTAAACAGATG +ATGGAGACGGTCTGTTACCCGGCAATGGAAGAAGTGGCGCAGGAGTTGCGGTTGCGCGGCGCGTACGTGG +AGCTAAAAAGCCTGCCACCGGAAGAGGGACAGCAGTTGGGTCATCTGGATTTGTTGGTGCATATGGGCGA +AGAGCAAAACTTTGTCTATCAGATTTGGCCGCAGCAATATTCGGTGCCGGGCTTTACCTACCGCGCACGC +AGCGGTAAATCGACCTACTACCGGCTGGAAACCTTCCTGTTAGAAGGCAGCCAGGGCAACGACCTGATGG +ACTACAGCAAAGAGCAGGTGATCACCGATATTCTTGACCAGTACGAGCGGCACCTTAACTTTATTCATCT +CCATCGTGAAGCGCCGGGCCATAGCGTGATGTTCCCGGACGCGTGATTGTTATTGCATAAAACCGCGCCA +TGTCTGCATATGGCGCTGTTTCTCCTACCTCTTGATACGTTATATCTATACGGTTAAGCCCTTAGTATCT +ATTGATGATTACCAGACAACAGATAATAAAAAAGAAAAGAACTATTGCAGCCCAAAACCTACATTTGGGC +TGTTGCGAATGTTCAATAAGTTTAGTCTTATTTAATGTAAATATTGCTGATCATTTGAAATGACGCATTA +TTCATGAGAAATGTGTATCGTAAATCAACTGAAATTAACGCAACCATTTGTTATTTAAGGTTTAATTATC +TGTGTGTGATATTTTATTGAATGTTTTAAATATTGTTTTTATTGGCATTGCTATAATATTGGTTATCATT +TGCTGAATGGATTCAGTCTTAATGAGTGGGTTTTTAAGGGACAGGCATAGAGTAATGATACGTATGCATA +ACCAACATCTTTACTCATTATGTCATTGAATGTTGACGCTATGTGTTTATGAGGGAGAGGTATTTTCAGT +TGATCTGGATTGTTAAATTCATATAATGCGCCTTTGCTCATGAATGGATGCCAGTATGTAGTGGGAAATT +ATAAATATTGAAATAGTCCAACTACTTCTTTATTACCAAAAATGAGTATCTGAATTTTAATATTGCATTC +TTGCGTGATTATCTCCTGAGTTTGACTTGTGATTACCTTTTTAAGGTATTTAGCGTAACTGTTTTTGAGC +GAGCATCAGAGGTAAAGATAATCTTCTTGATAGTGATGTGGGATGTTATACGTATGGCATCGCTGATGTT +TATGGTTACCCCTTATGTGTGCTCAGGAATCGACAGGTAATCACTCATACTGAACAGCGATAAAAGATAA +AGGTGTGTTCATGAATTCATGTGATTTTCGTGTTTTTCTGCAAGAGTTCGGTACAACGGTTCATTTGTCA +TTGCCTGGTAGCGTATCCGAGAAAGAACGACTGCTACTCAAGCTGCTGATGCAGGGAATGTCTGTAACAG +AAATATCACAGTACAGAAATCGCAGTGCAAAGACAATTTCACATCAAAAGAAACAGCTCTTTGAGAAACT +GGGGATTCAGAGCGATATTACTTTCTGGCGCGATATTTTCTTTCAGTACAATCCGGAGATCATATCCGCC +ACGGGGAGTAATAGTCACAGATATATTAATGATAATCACTATCACCATATCGTCACGCCTGAAGCCATCA +GTCTGGCGTTGGAAAACCACGAATTCAAACCGTGGATCCAACCGGTTTTCTGCGCGCAGACTGGCGTACT +GACGGGCTGTGAGGTGCTTGTCCGCTGGGAACATCCACAAACGGGAATTATCCCACCGGATCAGTTTATT +CCTCTGGCGGAGTCATCCGGTCTTATTGTCATAATGACCCGCCAACTGATGAAACAGACTGCGGATATTC +TGATGCCGGTAAAACATTTGCTGCCGGACAATTTCCATATTGGCATCAACGTCTCGGCGGGTTGTTTTTT +GGCAGCGGGATTTGAAAAAGAGTGTCTGAACCTGGTTAATAAATTAGGTAACGATAAAATCAAGCTGGTT +CTCGAGCTAACGGAACGTAACCCTATTCCGGTAACGCCAGAAGCCAGAGCGATATTTGACAGCCTTCATC +AGCACAACATTACCTTTGCGCTGGATGACTTTGGTACGGGTTATGCGACCTATCGTTACTTGCAGGCGTT +CCCGGTCGATTTTATTAAGATCGATAAGTCATTTGTGCAAATGGCGAGTGTCGACGAAATCTCCGGTCAT +ATTGTGGACAATATTGTCGAACTAGCGCGTAAGCCTGGTCTGAGTATCGTGGCGGAAGGGGTAGAAACCC +AGGAGCAGGCGGATTTAATGATCGGTAAAGGCGTTCACTTTTTGCAGGGCTATTTGTACTCTCCGCCAGT +ACCGGGTAATAAATTTATCTCTGAATGGGTAATGAAAGCAGGTGGTTGATGTAAACCGCTATTCACAGCG +CATCGGGAGGTTGGCAGCGATTAATTCTCCCGATGCAGTAAATCCTGATAGATCCCCGTTAATATGCCAT +TTGGCGCAAATTGTTTTTTAATCCACTGCGTCACCTGACCCGTAGCAGAATGCTGAGTCGCCAGTAACAT +GCGCGAATCCTGGCGCGGATTATGGATTTGTCGGGTAACCAGCAGGGATTGCGTCATCGCCTCACGGACC +ATGTAATCCGGCAAAAAACCAATTCCTTCACCTAAAATCTGGCACTGACATTTGGTGTTGAAATCTGGCA +CCAGAATTGACTCCTGCCCGTGCAGCAACCAGCCCACTTTTTTATTAATCGTATGCGCGGTGTCCTCCAC +CATAATATTAGGGTAGAGACGCAGTTGGCTTTCGGCGATGGGTTCCGGCACAAAGGCTAACGGGTGATCC +GGGGCGATAGCAAAAGCCCAGCGAATCGCGCCAATTTCAGTGTAATCAATACCGCCGCCGTCCAGTAGTG +TATCGGGTGCGCCGATGGCGATATTGGCCTGATTATTAATAATCGCATCCCAGACGCCGTTATACACTTC +GGTGGTGACGGTAATCTGGCAGGTAGGAAACTGCTTTTTCAGCACCTGTAACAAGCGTGCGGTGTGTTTG +GGCGTATAAAGCAGCTGATTAATACAAATGCGCACACGCGCTTCTATGCCCTGCGAAATAGTATCGATTC +TGCGTTTGATGGCATAAAAATCATTCAGCAGGTCGGTAGCTTTGCGGAAAAAATAACGCCCGGACTCCGT +TAACTCAATGCTGCGGGTACTGCGAGTGAACAGCACCACATCCAGCCCCGTCTCCATACGCTTAATGGTG +TAGCTAATGGCGGAAGTGGTTAAACCCAACTCTTCTGCGGCTTTACTGAAGCTGCCAAAACGCGCAGCGG +TAGTAAATGCCAACAGATTCTCTTCGGTAAAAATTGAGTTCATTAAACCATTCTCGCCATTATCTACTAT +GAATTTCTCCAGCTATGACTGTAGAGGTATCGGTTAAAGATAGATAATCATTTTTGAATAACTTTTAATA +CCCGTCGCGTTTAGTCGTCGCTTCGCTTAATTTTTGTCCACCATATTCTGAAATTACCCCCACGCAGTTA +CCCGCCAGAAAACCCAGTAACGTCACCGTCCAGTTCATCCCGCTGGCAAAAAACAGCGTCATGCCGAGAA +AGCCACCGGGAATAAAGGACAGTAACCAGAAACGCCCTTGCCAGACCACTACCGCCGAGAAGGGTACGGT +AGTAATTACGCTCGCCCAGAACGCGGACAGTCCACTTACAGAGGCCAGCCAACCAGCAGTCAGCGCGGCG +AAAAACGCCCACACCATCCCGGAATAATTAACCGCCAGACTTCTGATAAACCCCGATTTACCGCCGCCTG +CGGCATAAAAACTGCAAAAGGCGACGAAGCCAATGGTTCCTAATAATTCCCATCCTTGAGAGAGCCCGAC +ATGTGAAGACACTAACTGCCAAAGCCCTGCACAAATACCGACGGTGACACCCGTTGCCGTGAGTCCGTTC +ATCTTGTTCCCCTCTGGTTAGACATGGACGAAAGCTACTCTTACATGTGCAGACTATAGAGAAATAAAAC +CTGATTGAGTGAAAGGGTATCGGGTCAAAGAAACAAATATTGCACTACCGCACACTGCGAAAAGATTGTT +GAATATTATTCAACAAAAAGGCGAGATACGGCGAATTAAATTTAAGCGGGTTCTTTTATCAGATTATCGT +TGCTATTCTCAATTCATCGAAAACAGCCACAAAAACCAGGGGAATGTGAATGAGTATAAAAAATCTACCT +GCCGACTATTTATTGGCTGCACAACAGGGTGATATCGATAAAGTAAAAACCTGCCTTGCGCTGGGTGTCG +ATATTAATACCTGCGATCGTCAGGGGAAAACGGCAATTACGCTGGCAAGTTTATATCAGCAATATGCTTG +CGTTCAGGCATTAATTGATGCCGGAGCGGATATTAATAAGCAAGATCATACCTGTTTAAATCCTTTTTTA +ATTAGCTGTCTGAACGATGATTTAACGCTACTACGAATTATTTTACCGGCTAAACCCGATCTTAATTGCG +TAACCCGTTTTGGCGGTGTCGGCCTGACGCCTGCCTGTGAAAAAGGCCATTTAAGTATTGTAAAAGAGCT +TTTGGCGCATACGGAGATTAACGTTAACCAGACCAACCATGTAGGCTGGACGCCGCTACTGGAAGCGATT +GTGCTTAATGATGGTGGTATTAAACAGCAGGCGATTGTGCAGTTATTGCTGGAACACGGTGCCAGCCCGC +ATCTGACCGATAAATATGGCAAAACGCCACTGGAACTGGCGCGGGAACGGGGCTTTGAAGAGATTGCGCA +GTTACTGATTGCCGCAGGTGCATAAACCGGGAGGCTTGCTATCAACACACCAGAAAGACGGTGTGTGTGG +GCGCTAACTGCGGATGCGGATTTTCTGGCGCAGCGGGGGCAAGGACAGGTTGAACAGGTCTTTGCCAGAG +CGGTAAATATCGCACTCCCGGCTCGCCAGCAGTTGCTGACGCTGCTTTGTGAAGAGTACGACAATGCGCC +AAACAGTTGTCGGTTGGCACTCACTCACTTTGATGATCTGTTCCGGCATGGTGATAAGGTTCAGTTTGAC +GATCAAGGTATTACGGTTGGTCAACATCTTCATATAGAGATGAGTCGTTGTCGGCGTTGGCTGTCCCCAA +CCTTGCAAATGACCGCTGTGAATTTTCACCTTATCGCCTGGCTACAGTGGCACGACATTATTCATCAGCA +CCTGGGGGAAAATGAAACCCTGTTTAATTATCGCGGCGATAATCCGTTTTATCAGGCGTTAAATAAAGAA +TTACATATTAAACGACGGGCAGTTATTCAGGCCGTAAACGATAAACAAAATATCGCCTCAGCGGTCGCCA +GTATGATGGGGTTAGGGATTGGCCTTACGCCATCAGCCGACGATTATTTAACAGGTCTGGCGCTTATTTT +ATTTATTCCCGGGCATCCGGCGGAAAAATACAAAGAGGAATTTTATCTCGGTCTGCAACGCGGCAAAAAT +AATACCACATTATTAAGTGCCATAACGCTGGAAGCCGCATTACAACAACGCTGCCGGGAAAATATTCATC +GTTTTATTCACAACATTATTTATGACATCCCTGGGAACGCAACTCAGGCAATAGAAAAAATTAAACATAT +TGGCTCCAGTTCCGGCTGCGACATGCTGTATGGCATGGCCGATGGTTGTGCGCTGAGCCAAACCTACGGA +GGGAATTATGTCAGTTAAAATAGTCATTAAACCGAATACCTATTTTGATTCTGTCTCGCTGATGTCTATC +TCCACGCGTGCAAATAAACTCGACGGCGTCGAGCAGGCATTTGTGGCGATGGCGACCGAAATGAATAAAG +GCGTGCTGAAGAATTTAGGACTGCTGACGCCGGAGCTGGAGCAGGCGAAAAACGGCGACCTGATGATTGT +CATCAATGGTAAATCGGGTGCGGACAACGAGCAGTTACTGGTGGAGATTGAAGAACTGTTCAACACCAAA +GCGCAAAGCGGCTCGCACGAGGCGCGTTACGCCACTATTGGCAGCGCCAAAAAGCATATCCCGGAAAGTA +ACCTGGCGGTGATTTCGGTCAACGGTCTGTTTGCCGCTCGCGAAGCGCGTCAGGCGCTGCAAAACGATCT +CAACGTGATGCTGTTTTCCGATAACGTCTCAGTTGAAGATGAACTGGCGCTCAAGCAACTGGCCCACGAA +AAAGGGCTGCTGATGATGGGGCCAGACTGTGGCACGGCGATTATCAACGGCGCGGCGCTCTGTTTTGGTA +ACGCCGTGCGTCGCGGCAACATCGGTATTGTTGGCGCATCCGGCACCGGCAGTCAGGAGTTGAGCGTCCG +CATTCATGAATTTGGCGGCGGCGTTTCGCAACTGATTGGCACCGGCGGGCGCGACCTGAGCGAGAAAATC +GGCGGCCTGATGATGCTCGACGCCATCGGGATGCTGGAAAACGATCCGCAAACTGAAATCATTGCGCTTA +TCTCCAAACCGCCTGCGCCTGCGGTGGCCCGCAAAGTGCTGGAACGTGCGCGCGCCTGCCGCAAGCCGGT +GGTCGTCTGCTTCCTCGATCGTGGCGAAACGCCAGTGGATGAGCAGGGGCTACAGTTTGCCCGCGGCACC +AAAGAGGCAGCGCTAAAAGCGGTGATGCTCTCCGGCGTGAAACAGGAAAATCTCGACCTGCATACGCTTA +ACCAGCCGTTGATTGCGGATGTGCGTGCGCGTCTGCAACCGCAGCAGAAATACATTCGTGGCCTGTTCTG +CGGCGGCACGCTGTGCGACGAAACCATGTTCGCGGTGATGGAAAAACATGGCGATGTCTACAGCAACATT +CAGCCCGATCCGGAATTCCGCCTGAAAGATATCAACCGCAGCATCAAACACACCTTCCTCGACTTTGGCG +ATGACGACTTCACCAATGGCAAGCCGCACCCGATGATTGACCCCACCAACCGCATCAGTCGCTTGATCGA +AGAGGCGCGCGATCCAGAAGTGGCGGTGATCGTGATGGATTTTGTGCTCGGATTTGGATCGCATGAAGAT +CCGGTCGGCTCCACCATCGAGACGATCAAAGAAGCGAAAGCGATCGCCGCTGCCGAAGGACGCGAGTTGA +TCATTCTCGCCTATGTGCTGGGTACCGATCTTGATACGCCATCGTTAGAACAACAAAGCCAGATGCTGCT +TGATGCCGGAGTGATTCTGGCGAGCAGCAGCACCAATACCGGATTGCTGGCGCGTGAATTTATCTGCAAA +GGGGAGGAAGCCTGATGAGCCAGTCACTGTTTAGCCAACCATTGAACGTTATTAACGTCGGCATCGCCAT +GTTTAGCGATGACCTGAAAAAGCAGCATGTAGAAGTGACTCAACTCGACTGGACGCCGCCGGGGCAGGGC +AATATGCAGGTGGTGCAGGCGCTGGATAACATTGCCGATTCGCCGCTGGCGGACAAAATCGCCGCCGCTA +ACCAGCAGGCGCTGGAGCGTATTATCCAGTCGCATCCGGTGCTGATTGGTTTTGATCAGGCGATTAACGT +GGTGCCGGGCATGACGGCGAAAACCATTCTTCACGCCGGGCCGCCGATCACCTGGGAAAAAATGTGCGGC +GCGATGAAAGGCGCGGTCACCGGAGCGCTGGTGTTCGAAGGACTGGCGAAAGATCTCGACGAGGCGGCTG +AACTGGCGGCTTCCGGGGAGATCACCTTCTCGCCGTGTCACGAGCACGACTGCGTGGGATCGATGGCGGG +TGTTACCTCGGCCTCGATGTTTATGCACATCGTAAAAAACAAAACCTACGGCAACATCGCTTATACCAAC +ATGAGCGAGCAGATGGCGAAGATTTTGCGTATGGGCGCTAACGACCAGAGCGTGATTGACCGCCTGAACT +GGATGCGTGATGTGCAGGGACCAATACTGCGCGACGCGATGAAAATTATCGGCGAAATCGATCTGCGCTT +AATGCTGGCGCAGGCGCTGCATATGGGCGATGAGTGCCATAACCGCAATAACGCCGGGACGACACTGCTG +ATTCAGGCGCTGACGCCGGGGATTATTCAGGCGGGTTATTCCGTCGAGCAACAGCGCGAAGTGTTTGAGT +TTGTCGCCAGCAGCGACTACTTCTCCGGCCCGACGTGGATGGCGATGTGTAAAGCGGCGATGGATGCGGC +GCATGGCATCGAATACAGCACCGTGGTCACCACCATGGCGCGTAACGGCGTCGAGTTCGGCCTGCGGGTC +AGCGGCCTGCCGGGGCAATGGTTTACCGGCCCGGCGCAGCAGGTGATCGGCCCGATGTTTGCCGGTTATA +AGCCGGAAGATTCGGGGCTGGATATCGGCGACAGCGCCATCACCGAAACCTACGGTATTGGCGGATTTGC +TATGGCGACCGCGCCCGCTATCGTCGCGCTGGTGGGCGGCACGGTGGAAGAAGCTATTGATTTCTCCCGT +CAGATGCGCGAAATCACCCTCGGTGAAAACCCCAACGTCACCATTCCGCTGCTCGGTTTTATGGGCGTGC +CGTCGGCAATCGACATCACCCGCGTGGGTAGCAGCGGCATTCTGCCGGTGATCAACACCGCCATCGCCCA +TAAAGATGCGGGCGTCGGCATGATTGGCGCGGGCATTGTGCATCCACCTTTTGCCTGCTTCGAGAAAGCC +ATTCTTGGCTGGTGCGAACGTTACGGCGTCTGACCTACATGTTCATGCCGGATGCGGCGTGAACGCCTTA +TCCGGCCTACGAATGGCGCAAGAATCTGTAGGCCTGATAAGCGTAGCGCATCAGGCATTTGTCACCATTG +CCGGATGCGGCGTGAACGCCTTATCCGGCCTACGAATGGCGCAAGAATCTGTAGGCCTGATAAGCGTAGC +GCATCAGGCATTTGCCACCACTGCCGGATGCGGCGTGGACGCCTTATCCGGCCTACGAGTGGCGCGAGAA +TCTGTAGGCCTGATAAGCGTAGCGCATCAGGCATTTGTCACCATTGCCGGATGCGGCGTGAACGCCTTAT +CCGGCCTACGAGTGGCGCGAGAATTGTAGGCCTGATAAGCGTAGCGCATCAGGCAGTCTGGCGTTGGTCA +TAACCCCATCACCCTCTGTAGCGGACATAACAACATGAAAGAGCTTGTGGTCGTTGCCATTGGTGGCAAC +AGCATTATCAAAGATAACGCCAGCCAGTCGATTGAGCATCAGGCGGAGGCGGTGAAAGCCGTCGCCGATA +CGGTGCTGGAAATGCTGGCTTCCGATTACGACATTGTGCTGACCCACGGCAACGGGCCGCAGGTCGGGCT +GGATTTACGCCGTGCGGAGATTGCCCACAAGCGCGAAGGGCTGCCCTTAACGCCGCTGGCGAACTGTGTG +GCAGATACGCAGGGCGGCATCGGCTATCTGATCCAACAGGCGCTGAATAACCGGCTGGCGCGTCACGGCG +AGAAGAAAGCCGTCACCGTGGTGACTCAGGTGGAAGTGGATAAAAACGATCCAGGTTTTGCCCATCCCAC +CAAGCCCATCGGCGCATTCTTTAGTGACAGCCAGCGTGACGAATTACAAAAGGCAAACCCTGACTGGTGT +TTTGTTGAAGATGCCGGGCGGGGCTATCGCCGCGTGGTCGCCTCGCCGGAACCGAAACGTATTGTCGAAG +CACCTGCCATTAAAGCGCTGATCCAACAAGGTTTTGTCGTAATTGGCGCGGGCGGCGGTGGAATTCCGGT +AGTGCGTACTGACGCGGGAGATTACCAAAGCGTGGACGCGGTTATCGACAAAGATCTCTCTACCGCGCTG +CTGGCCCGTGAAATTCACGCCGACATTCTTGTGATCACCACTGGCGTCGAAAAAGTGTGTATTCACTTTG +GCAAACCGCAGCAGCAGGCGCTCGATCGGGTGGATATTGCCACCATGACCCGCTATATGCAGGAAGGGCA +TTTCCCGCCCGGCAGCATGTTGCCAAAAATCATCGCCAGCCTGACATTTTTAGAACAAGGCGGCAAAGAA +GTGATTATCACCACGCCGGAATGCCTGCCTGCGGCGCTGCGCGGCGAAACGGGCACTCATATTATTAAAA +CGTAAGGACGTAAGATGAAAGAAAGCAATAGCCGCCGTGAATTTCTGAGCCAGAGCGGTAAGATGGTCAC +CGCCGCCGCGCTGTTTGGTACCTCTGTGCCGCTCGCCCATGCGGCGGTAGCTGGCACCCTAAACTGCGAA +GCGAACAACACCATGAAAATCACTGACCCGCATTACTATCTCGATAACGTGCTGCTGGAAACCGGTTTTG +ACTACGAAAATGGCGTGGCGGTGCAGACCCGCACGGCGCGCCAGACCGTGGAGATTCAGGACGGCAAAAT +TGTCGCCCTGCGCGAGAACAAGCTGCATCCGGACGCCACGCTGCCGCACTATGACGCTGGCGGTAAGCTG +ATGCTGCCCACCACCCGCGACATGCATATTCATCTCGACAAAACCTTTTACGGCGGGCCGTGGCGCTCGC +TCAATCGTCCGGCAGGCACCACCATCCAGGACATGATCAAACTCGAGCAGAAAATGCTGCCGGAACTGCA +ACCGTACACTCAGGAGCGGGCAGAAAAACTGATTGATTTATTGCAGTCGAAAGGCACCACCATTGCCCGC +AGCCACTGCAATATCGAACCGGTTTCCGGCCTGAAAAATCTGCAAAATTTGCAGGCGGTGCTGGCGCGAC +GTCAGGCGGGCTTTGAGTGTGAAATCGTCGCCTTCCCGCAGCACGGTTTGCTGCTGTCGAAATCTGAACC +TTTAATGCGTGAAGCGATGCAGGCGGGGGCGCATTACGTCGGCGGCCTGGACCCGACCAGTGTTGATGGC +GCGATGGAAAAATCCCTCGACACCATGTTCCAGATTGCGCTGGACTACGACAAAGGCGTCGATATTCACC +TGCACGAAACCACTCCGGCAGGCGTGGCAGCCATCAATTATATGGTTGAAACGGTAGAGAAAACGCCACA +GCTGAAGGGCAAGCTGACCATCAGTCACGCCTTTGCGCTGGCAACGCTCAACGAGCAACAGGTAGATGAA +CTGGCGAACCGGATGGTGGTGCAACAAATTTCTATCGCCTCGACGGTGCCGATTGGCACGCTGCATATGC +CGCTCAAACAGTTGCACGACAAAGGCGTAAAAGTGATGACTGGCACTGACAGCGTTATCGACCACTGGTC +GCCTTATGGTCTGGGCGACATGCTGGAAAAAGCCAATCTGTACGCGCAGCTCTATATTCGTCCTAACGAA +CAGAACCTCTCCCGCTCGCTGTTTTTAGCCACTGGCGATGTATTGCCGCTGAATGAAAAAGGCGAGCGTG +TATGGCCAAAAGCGCAGGATGACGCCAGCTTTGTGCTGGTGGACGCCTCCTGTTCCGCCGAGGCGGTGGC +GCGTATCTCGCCGAGAACCGCAACGTTCCATAAAGGGCAACTGGTGTGGGGGAGTGTGGCAGGTTGATGC +GCATTTGAAACGCCTGCAACGGTGAATAGTAAGAGATTTAAGCCCCAGGGAGTGGGGCAATCTGAATATG +AGTGTGTCGGCAGAAATGGACATTATCTTTGAGGAATATGCCCTTATTGACGTTGTGTAGATAACTATTT +GTCTACGTGAAAAGATCATCAGTTTTGCCGATTTTAGTCTTTTACAGATAGCAAATATCACACTTACAGG +CGCTCGCCTTATGGGGAACGTTGCTGCTCTGTTTCATTCAGGCTCGCGGCATGTTGGGGCTGGATCGGGT +GGTTTAAATATTGGCTATATTCAATGGACGCGTTTTGCCGCGATGACATATCAGGCGTTGCCAAATACAC +ATAGCTAATCAGGAGTAAACACAATGAAGATCAAAGCTGTTGGTGCATATTCCGCTAAACAACCACTTGA +ACCGATGGATATCACCCGGCGTGAACCGGGACCGAATGATGTCAAAATCGAAATCGCTTACTGTGGCGTT +TGCCATTCCGATCTCCACCAGGTCCGTTCCGAGTGGGCGGGGACGGTTTACCCCTGCGTGCCGGGTCATG +AAATTGTGGGGCGTGTGGTAGCCGTTGGTGATCAGGTAGAAAAATATGCGCCGGGCGATCTGGTCGGTGT +CGGCTGCATTGTCGACAGTTGTAAACATTGCGAAGAGTGTGAAGACGGGTTGGAAAACTACTGTGATCAC +ATGACCGGCACCTATAACTCGCCGACGCCGGACGAACCGGGCCATACTCTGGGCGGCTACTCACAACAGA +TCGTCGTTCATGAGCGATATGTTCTGCGTATTCGTCACCCGCAAGAGCAGCTGGCGGCGGTGGCTCCTTT +GTTGTGTGCAGGGATCACCACGTATTCGCCGCTACGTCACTGGCAGGCCGGGCCGGGTAAAAAAGTGGGC +GTGGTCGGCATCGGCGGTCTGGGACATATGGGGATTAAGCTGGCCCACGCGATGGGGGCACATGTGGTGG +CATTTACCACTTCTGAGGCAAAACGCGAAGCGGCAAAAGCCCTGGGGGCCGATGAAGTTGTTAACTCACG +CAATGCCGATGAGATGGCGGCTCATCTGAAGAGTTTCGATTTCATTTTGAATACAGTAGCTGCGCCACAT +AATCTCGACGATTTTACCACCTTGCTGAAGCGTGATGGCACCATGACGCTGGTTGGTGCGCCTGCGACAC +CGCATAAATCGCCGGAAGTTTTCAACCTGATCATGAAACGCCGTGCGATAGCCGGTTCTATGATTGGCGG +CATTCCAGAAACTCAGGAGATGCTCGATTTTTGCGCCGAACATGGCATCGTGGCTGATATAGAGATGATT +CGGGCCGATCAAATTAATGAAGCCTATGAGCGAATGCTGCGCGGTGATGTGAAATATCGTTTTGTTATCG +ATAATCGCACACTAACAGACTGAAAAAATTAATAAATACCCTGTGGTTTAACATATTAACTTCGCTCTCC +ACTTAACTTTTTAGTTAAGGAGAGCGAAATAATATCAAAGTAGCAGTAAAACCTATAACGTAAATTTAAA +TTGTTAAATTAACGCCCTCCAGTACACAATACTTCACACGTTAGTTATGAGCGATTTCTGATAGTGCCTG +GTTTAATCAGAGCTTTATTATCTGCGACGTTTATTTTTATTTAAGAGAGATCGCGATGATATCATTAAAA +GCTCCGCACAATAATTTGATGCCATATACGCAACAAAGCATACTTAATACGGTTAAAAACAATCAGTTAC +CAGAGGATATCAAAAGCTCCCTGGTTTCCTGTGTCGATATATTCAAGGTTTTGATTAAACAATATTATGA +TTATCCTTATGATTGTCGTGATGATTTAGTCGATGACGACAAACTCATTCATCTCATGGCTGCCGTACGA +GACTGTGAGTGGTCAGACGATAACGCACTCACCATAAATGTGCAGTTTAATGATTTCCCTGGATTTTATG +ACTGGATGGATTACCCTGATCACCCGGTTAAGTTTGTTTTTCACATACTTGAAAATCAAAAAGGGACAGT +TTGGGTATATGACCAGGATGATGCGTTTCTTGATATTAAAGCAAACGTGCAGGCTGGACGCTTTACCGGG +CTTAAGAAATTAGTGCAGTTTATCGATTCAGTGCGAACAGATTGCAAATGTATTCTTCTTGAATACCATA +TGCCTTTGCTGAGAATTTTCCCTAAAGGGAAAGAGTGTATGCATGTGGAAAAATGGCTTCGCGAAATGTC +GTCTATTCCGGAGACAGACGCGCCCATTAAGCAGGCGCTTGCGCATGGATTATTATTACACTTAAAAAAT +ATCTACCCTGTTTTTCCTGAATCACTGGTGATGTTATTGCTCTCTGTTCTGGACGTAAAAACATACAGAG +ATGATGCGCGATTAAATGAATGGATATCTAATAGAGTGCAGGAATTAGGTGACAGATATTATCCTGTAAA +TAAGCACGTTAAAATCCGCTACACTCTTTAGTTCAGAAAGGGTTCCACCTGCAAGTTGTTATTCCACCTG +AGAGTGAATCGCAATGCAGGTAATCATTTCATCTGTATATCTGTATGCCAACTGGCATTCCATCTCTTTT +TTCGCCGATATTTTGTTGTGATCGGCGACACTTCGCTTAAAAAAGCACCAGTAGTGGTTTCGCAGCCATG +CGGTGTATAAAAAATGATCTCATGCAGATGTTTTGTGAATGTGTTGGTTGACATTCATATGAAAAAAATC +ATAATTCCATCATGTTTGTGTGGGGTCTTTTCTGTATCTTACGCATCGCACTCAAGCCTGACAGAAAATA +TGCTGTAAGGCTCATATCAAAAACCGCCATTAGCTCATCAGGAAGAGCAGACGACAACCAGGATTGTTGT +ATGGTACGGGGTTCGAGGCCTCGATGGCGGTCCAACTTTTCAAAACTCTTCTGAATCAGATCCCCTTATT +ATCATCCCTGCAAAGTGGAACATTGCCATTGTTTGGCTATTCAGGATGGGGCAGACCAATGAAAAAAGCC +CACACAGGGGAGAGTGGGCTGAAATGGGAAGCTAAAGACTCAAGTAAACTTATCGGAAATAAGGACCACG +CATTACGGGGGCTATCATCGCCGATGGCCGTGATTCGGCAAATCAGGTTGATTACGTAGAGAGTAAATTA +TCTGCTCACCGCTGCGTCACCCCTTCGTAAATCAGGCGTAGCGCGAATACACCAATAATTGCACCAATAA +CCCGACTGGCAACGCGTTGCATACGCCCATAAGCACGACGCACAGCGGGCAAAGAAAACGCCTGACTAAG +AAAAACTCGCCAGATAATTGATGCGAGCACAATCCCCGCCCAGGCCATTAAACGTGCCCATGTTGGTGTT +TCGGCATTTAATGTTACTGAGAAAATACTGATAAAAAATAAAACGGTTTGCGGGTTAGAGAGATCGGTAA +TTAATCCGCGGCGAAAAAAGACATACCAGGGGGCGCTAATCGGTTGTTGTAGTGTGCTCATTTGCGGTGT +TGACTGGCGGCGCATGCTGCACCACGCAAACCATAAGAGATAAGCGCCGCCGACGATTCTGATAAGCGAA +AAAATCTCCTCACACTGCGTAATTAGCGTTGCAAGACCAAACAAACCCAACCCGGAATAAAATGCATCGC +CCAGCGCCACGCCCAGCCCGGTCAGCACCCCTGCGCGTCGACCGGAAGCCAGGCTGGTTTGTACTACCAC +AAAGAGATTGGCTCCCGGATTAAAAAAAGTAATCACGAACAGTCCTACGGTCAGGTAAACGGCATGCAAA +GGATCCATAGTGATTTCATCCATAAATAAGTGAACTAACTGCATCATATTTCTACCAAAAATAATCGGGT +GCGAGAGAGATCACAAAGTGTCTTATTTCCGGTTACTGGCGTTTATGCCCTGACTGAACTAATTATTAAT +CAACCCAATAATGTGGGTGGGTGATAGTGTGATAACAACTCTGGAGCCGTAATATGAAAATAATCTCTAA +AATGTTAGTCGGTGCGTTAGCGTTAGCCGTTACCAATGTCTATGCCGCTGAATTGATGACCAAAGCGGAA +TTTGAAAAAGTTGAATCGCAGTATGAAAAAATAGGTGATATTTCAACCAGCAATGAAATGTCGACTGCAG +ATGCAAAAGAAGATTTGATCAAAAAAGCGGATGAAAAAGGGGCTGATGTGTTGGTACTGACCTCCGGTCA +AACTGACAATAAGATCCACGGCACGGCAAATATTTATAAGAAGAAGTAATTCTGAATCCTATGTAAACAT +CTCCGATGCGTAAGTTTATCGGTGATCATCTATTGAAATTTATGCCGGATAAAGCGTTCGCGCTGCATTC +GGCAGTTCAGCTTTTCAGCCGCCGCCAGAACGTCGTCCGGCTGATGCCTAAATAATTCGCCGCTGCTGTT +TTATCGCCATTAAATTTCTCCAGTGCCTGTTGTGGTGTCAGTAAGCGTGGAGCGGGAGTTTTCGCCGACT +CGCGCGCCAGTTCCGGCAGTAGCAGTTGCATAAACTGCGGCGTTAAATCCGGCGTCGGTTCCACACTTAA +AAACAGCGCCAGTCGTTCCATCATATTGCGCAGTTCACGAATATTGCCTGGCCAGTCGTAGTGCAGCAGC +ACAGTTTCACTTGCCTGTAACCCCTGGCGTAATGCAGCAGAAAATGGGGCGGAGAGCGCCGCCAGAGACA +CTTTCAAAAAGCTTTCCGCCAGCGGAAGAATATCCGCCACCCGCTCGCGCAGTGGTGGCAATTGCAGACG +CAAAATACTCAGCCGATAAAACAGATCACGGCGAAAACGTCCTTGCTGCATATCTTCTTCCAGATTGCAG +TGAGTGGCGCTAATGACCCGTACATCTACCGGAACAGGCTGATGCCCGCCGACGCGGGTGACCTCTTTTT +CTTCCAGCACCCGCAGCAGCCGGGTCTGCAAAGGTAGCGGCATTTCGCCAATCTCATCCAGAAACAGCGT +ACCGCCGTGGGCAATTTCGAACAGCCCGGCGCGACCTCCGCGTCGCGAGCCGGTAAACGCCCCTTCCTCA +TAGCCAAACAGTTCTGCTTCCAGCAGCGATTCGGCAATCGCCCCGCAGTTGACGGCAACAAACGGATGCG +ACTTTTTGCCCTGTCGCGCATCGTGGCGGGCAAAATATTCCCGATGAATCGCCTGGGCCGCCAGCTCTTT +GCCCGTCCCCGTTTCCCCCTCAATCAACACCGCCGCACTGGAGCGGGCATACAGCAAAATAGTCTGCCGT +ACTTGTTCCATCTGTGGTGATTGACCGAGCATATCGCCCAGCACGTAACGAGTACGCAGGGCGTTGCGGG +TGGCATCGTGAGTGTTATGGCGTAACGACATGCGCGTCATATCCAGCGCATCGCTGAACGCCTGGCGCAC +GGTGGCGGCGGAATAGATAAAAATTCCGGTCATTCCGGCTTCTTCTGCCAAATCGGTAATCAGCCCTGCG +CCGACCACCGCTTCGGTGCCGTTAGCTTTTAGCTCGTTAATCTGCCCGCGTGCGTCTTCCTCGGTAATGT +AGCTACGTTGGTCGAGGCGCAAATTAAAGGTTTTTTGAAACGCCACCAGCGCTGGAATGGTTTCCTGATA +GGTGACAACGCCGATAGAAGAGGTGAGTTTTCCGGCTTTTGCCAGTGCCTGTAACACATCGTAGCCGCTC +GGTTTAATCAAAATAACTGGCACTGACAGGCGGCTTTTCAGGTACGCGCCGTTAGAGCCAGCCGCGATGA +TGGCGTCACAGCGTTCGTTTGCCAGTTTCTTGCGGATGTAGGTCACTGCTTTTTCAAAGCCAAGCTGAAT +AGGGGTAATGTTCGCCAGGTGATCAAACTCGAGGCTGATATCGCGAAACAGCTCGAACAGGCGCGTTACA +GATACCGTCCAGATAACCGGTTTGTCGTCATTAAGCCGTGGTGGATGTGCCATAGCGCACCGCAAAGTTA +AGAAACCGAATATTGGGTTTAGTCTTGTTTCATAATTGTTGCAATGAAACGCGGTGAAACATTGCCTGAA +ACGTTAACTGAAACGCATATTTGCGGATTAGTTCATGACTTTATCTCTAACAAATTGAAATTAAACATTT +AATTTTATTAAGGCAATTGTGGCACACCCCTTGCTTTGTCTTTATCAACGCAAATAACAAGTTGATAACA +AAGGATGGGCTATGTCTCTACACTCTCCAGGTAAAGCGTTTCGCGCTGCACTGACTAAAGAAAATCCATT +GCAGATTGTTGGCACCATCAACGCTAATCATGCGCTGTTGGCGCAGCGTGCCGGATATCAGGCAATTTAT +CTTTCTGGCGGTGGCGTGGCGGCAGGTTCGCTGGGGCTGCCCGATCTCGGTATTTCTACCCTTGATGATG +TGCTGACCGACATTCGCCGTATCACCGACGTTTGTTCGCTGCCGCTGCTGGTGGATGCGGATATCGGTTT +TGGTTCTTCGGCCTTTAACGTGGCGCGCACCGTGAAATCGATGATTAAAGCCGGTGCGGCAGGATTGCAT +ATTGAAGATCAGGTTGGTGCGAAACGCTGCGGTCATCGTCCGAATAAAGCGATCGTCTCGAAAGAAGAGA +TGGTGGATCGGATCCGCGCGGCGGTGGATGCGAAAACCGATCCTGATTTTGTGATCATGGCGCGCACCGA +TGCTCTGGCGGTAGAGGGGCTGGATGCGGCGATCGAGCGTGCGCAGGCCTATGTTGAAGCGGGTGCCGAG +ATGTTGTTCCCGGAGGCGATTACCGAACTCGCCATGTACCGCCAGTTTGCCGATGCGGTGCAGGTGCCGA +TCCTCGCCAACATCACCGAATTTGGTGCCACGCCGCTGTTTACCACCGACGAATTACGCAGCGCCCATGT +CGCAATGGCGCTGTACCCACTTTCAGCGTTCCGCGCCATGAACCGCGCCGCTGAACATGTCTACAACGTC +CTGCGCCAGGAAGGCACGCAGAAAAGCGTCATCGACACCATGCAGACCCGCAACGAGCTGTACGAAAGCA +TCAACTACTACCAGTACGAAGAGAAGCTCGACAACCTGTTTGCCCGTAGCCAGGTGAAATAAAAAACGCC +CGTTGATTGTATTCGACAGCCGATGCCTGATGCGTCGCTGACGCGACTTATCAGGCCTACGAGGTGCACT +GAACTGTAGGTCGGATAAGACGGATGGCGTCGCATCCGACAACCGATGCCTGATGCGCCGCTGACGTGAC +TTATCAGGCCTACGGGGTGCACTGAACTGTAGGTCGGATAAGACGCATAGCGTCGCATCCGACAACCGAT +GCCTGATGCGCCGCTGACGCGACTTATCAGGCCTACGGGGTGCACTGAACTGTAGGTCGGATAAGACGCA +TAGCGTCGCATCCGACAACCGATGCCTGATGCGCCGCTGACGCGACTTATCAGGCCTACGGGGTGAACTG +AACTGTAGGTCGGATAAGACGCATAGCGTCGCATCCGACAACAATCTCGACCCTACAAATGATAACAATG +ACGAGGACAACATGAGCGACACAACGATCCTGCAAAACAGTACCCATGTCATTAAACCGAAAAAATCTGT +GGCACTTTCTGGCGTTCCGGCGGGCAATACGGCGCTCTGCACCGTGGGTAAAAGTGGCAATGACCTGCAT +TACCGCGGCTACGATATTCTTGATCTGGCGAAACATTGCGAATTTGAAGAAGTGGCGCATCTGCTGATCC +ACGGCAAACTGCCGACCCGTGACGAACTCGCCGCTTACAAAACGAAACTGAAAGCCCTGCGCGGTTTACC +GGCTAACGTGCGTACCGTGCTGGAAGCCTTACCGGCGGCGTCGCACCCGATGGATGTTATGCGCACCGGT +GTTTCCGCGCTCGGCTGCACGCTGCCAGAAAAAGAGGGGCATACCGTCTCTGGCGCGCGGGATATTGCCG +ACAAACTGCTGGCGTCGCTTAGCTCGATTCTCCTTTATTGGTATCACTACAGCCACAACGGCGAACGCAT +CCAACCGGAAACCGATGACGACTCCATCGGCGGTCACTTCCTGCATCTGCTGCACGGCGAAAAGCCATCG +CAAAGCTGGGAAAAGGCGATGCATATCTCGCTGGTGCTGTACGCCGAACACGAGTTTAACGCCTCCACCT +TTACCAGTCGGGTGATTGCGGGCACCGGCTCTGATATGTATTCCGCGATTATTGGCGCGATTGGCGCACT +GCGCGGGCCAAAACACGGCGGGGCGAATGAAGTGTCGCTGGAGATCCAGCAACGCTACGAAACGCCGGAC +GAAGCCGAAGCAGATATCCGCAAGCGCGTGGAAAACAAAGAAGTGGTCATTGGTTTTGGTCATCCGGTTT +ACACCATCGCTGACCCGCGCCACCAGGTGATTAAACGTGTGGCGAAGCAGCTCTCGCAGGAAGGCGGCTC +GCTGAAGATGTACAACATCGCCGATCGCCTGGAAACGGTGATGTGGGAGAGCAAAAAGATGTTCCCCAAT +CTCGACTGGTTCTCTGCTGTTTCCTACAACATGATGGGCGTTCCCACCGAGATGTTCACACCACTGTTTG +TTATCGCCCGCGTCACCGGCTGGGCGGCGCACATTATCGAACAACGTCAGGACAACAAAATTATCCGTCC +TTCCGCCAATTATGTTGGACCGGAAGACCGCCCGTTTGTCGCGCTGGATAAGCGCCAGTAAACCTCTACG +AATAACAATAAGGAAACGTACCCAATGTCAGCTCAAATCAACAACATCCGCCCGGAATTTGATCGTGAAA +TCGTTGATATCGTCGATTACGTCATGAACTACGAAATCAGCTCTAAAGTGGCCTACGACACCGCACATTA +CTGCCTGCTCGACACGCTCGGCTGCGGTCTGGAAGCTCTCGAATACCCGGCCTGTAAAAAACTGCTGGGG +CCAATTGTTCCCGGCACCGTCGTACCCAACGGCGTGCGCGTCCCCGGAACTCAGTTCCAGCTCGACCCCG +TCCAGGCGGCATTTAACATCGGCGCGATGATCCGCTGGCTCGATTTCAACGATACCTGGCTGGCGGCGGA +GTGGGGCCATCCTTCCGACAACCTCGGCGGCATTCTGGCAACGGCGGACTGGCTTTCGCGCAACGCGGTC +GCCAGCGGCAAAGCGCCGTTGACCATGAAACAGGTGCTGACCGCAATGATCAAAGCCCATGAAATTCAGG +GCTGCATCGCGCTGGAAAACTCCTTTAACCGCGTCGGCCTCGACCACGTTCTGTTAGTGAAAGTGGCTTC +CACCGCCGTGGTCGCCGAAATGCTCGGCCTGACCCGCGAGGAAATTCTCAACGCCGTTTCGCTGGCGTGG +GTGGACGGTCAGTCGCTGCGCACCTATCGCCATGCGCCGAACACCGGCACGCGTAAATCCTGGGCGGCGG +GCGATGCCACTTCCCGCGCGGTACGTCTGGCACTGATGGCGAAAACGGGCGAAATGGGTTACCCGTCAGC +CCTGACTGCGCCGGTGTGGGGCTTCTACGACGTCTCCTTTAAAGGTGAATCGTTCCGCTTCCAGCGCCCG +TACGGTTCCTACGTTATGGAAAATGTGCTGTTCAAAATCTCCTTCCCGGCGGAGTTCCACTCCCAGACGG +CAGTTGAAGCAGCGATGACGCTCTATGAACAGATGCAGGCAGCAGGCAAAACGGCGGCGGATATCGAAAA +AGTGACCATTCGCACCCACGAAGCCTGTATTCGCATCATCGACAAAAAAGGGCCGCTCAATAACCCGGCA +GACCGCGATCACTGCATTCAGTACATGGTGGCGATCCCGCTGCTATTCGGGCGCTTAACGGCGGCAGATT +ACGAGGACAACGTTGCGCAAGATAAACGCATTGACGCCCTGCGCGAGAAGATCAATTGCTTTGAAGATCC +GGCATTTACCGCTGACTACCACGACCCGGAAAAACGCGCCATCGCCAATGCCATTACCCTTGAGTTCACC +GACGGCACACGATTTGAAGAAGTGGTGGTGGAGTACCCCATTGGTCATGCTCGCCGCCGTCAGGATGGTA +TTCCGAAACTGGTCGATAAATTCAAAATCAATCTCGCGCGCCAGTTCCCGACTCGCCAACAGCAGCGCAT +TCTGGAGGTTTCTCTCGACAGAGCTCGCCTGGAACAGATGCCGGTCAATGAGTATCTCGACCTGTACGTC +ATTTAAGTAAACGGCGGTAAGGCGTAAGTTCAACAGGAGAGCATTATGTCTTTTAGCGAATTTTATCAGC +GTTCGATTAACGAACCGGAGCAGTTCTGGGCCGAGCAGGCCCGGCGTATTGACTGGCAGACGCCCTTTAC +GCAAACGCTCGATCACAGCAATCCGCCGTTTGCCCGTTGGTTTTGTGAAGGCCGAACCAACTTGTGCCAC +AACGCCATCGACCGCTGGCTGGAGAAACAGCCAGAGGCGCTGGCGCTGATTGCCGTCTCTTCGGAAACAG +AAGAAGAGCGCACCTTTACCTTTCGTCAGCTGCATGACGAAGTGAACGCGGTGGCCTCAATGTTGCGTTC +ATTGGGTGTGCAGCGCGGCGATCGGGTGCTGGTGTATATGCCGATGATTGCCGAAGCGCATATTACTCTG +CTGGCCTGCGCGCGCATTGGCGCTATTCACTCGGTGGTGTTTGGTGGATTTGCCTCGCACAGCGTGGCGG +CGCGAATTGATGACGCTAAACCGGTGCTGATTGTCTCGGCTGATGCCGGAGCGCGCGGTGGCAAAATCAT +TCCCTATAAAAAATTGCTCGACGATGCGATAAGTCAGGCGCAGCACCAGCCACGCCATGTTTTGCTGGTG +GATCGCGGGCTGGCGAAAATGGCGCGCGTCAGCGGGCGGGATGTCGATTTCGCGTCGTTGCGCCATCAAC +ACATCGGCGCGCGGGTACCGGTGGCGTGGCTGGAATCCAACGAAACCTCCTGCATTCTCTACACTTCCGG +CACGACCGGCAAACCTAAAGGCGTGCAGCGTGACGTCGGCGGATATGCGGTGGCGCTGGCGACCTCGATG +GACACCATTTTTGGCGGCAAAGCGGGCAGCGTGTTCTTTTGCGCATCGGATATCGGCTGGGTGGTGGGGC +ATTCGTATATCGTTTACGCGCCGCTGCTGGCGGGGATGGCGACTATCGTTTACGAAGGATTGCCGACCTG +GCCGGACTGCGGCGTGTGGTGGACAATCGTCGAGAAATATCAGGTTAGCCGGATGTTCTCAGCGCCGACC +GCCATTCGCGTGCTGAAAAAATTCCCTACCGCTGAAATTCGCAAACACGATCTCTCGTCGCTGGAAGTGC +TCTATCTGGCTGGAGAACCGCTGGACGAGCCGACCGCCAGTTGGGTGAGCAATACGCTGGATGTGCCGGT +CATCGACAACTACTGGCAGACCGAATCCGGCTGGCCGATTATGGCGATTGCTCGCGGTCTGGACGACAGG +CCGACGCGTCTGGGAAGCCCCGGTGTGCCGATGTATGGCTATAACGTGCAGTTGCTTAATGAAGTCACCG +GCGAACCGTGTGGCGTCAACGAGAAAGGGATGCTGGTGGTGGAAGGGCCGCTGCCGCCGGGGTGTATTCA +GACCATCTGGGGCGACGACGGCCGCTTTGTGAAGACTTACTGGTCGCTGTTTTCCCGCCCGGTGTACGCC +ACCTTTGACTGGGGCATCCGTGACGCTGACGGTTATCACTTTATTCTCGGGCGCACTGACGATGTAATTA +ACGTTGCCGGGCATCGGCTGGGGACGCGCGAGATTGAAGAGAGTATCTCCAGCCATCCGGGCGTTGCCGA +AGTGGCGGTGGTTGGGGTGAAAGATGCGCTGAAAGGGCAGGTGGCGGTGGCGTTTGTCATTCCGAAAGAG +AGCGACAGTCTGGAAGATCGTGATGTGGCGCACTCGCAAGAGAAGGCGATTATGGCGCTGGTGGACAGCC +AGATTGGCAACTTTGGCCGCCCGGCGCACGTCTGGTTTGTCTCGCAATTGCCAAAAACGCGATCCGGAAA +AATGCTGCGCCGCACGATCCAGGCGATTTGCGAAGGACGCGATCCTGGAGATCTGACGACCATTGATGAT +CCTGCGTCGTTGGATCAGATCCGCCAGGCGATGGAAGAGTAGGTTATTGTCGGATGCGTCGCGCGGTGCA +TCCGGCACTGTGTGCCGATGCCTGATGCGACGCTGACGCGTTTTATCATGCCTACGGACCTGAACCGTAG +GTCGGATAAGGCGCTCGCGTCGCATCCGACACCATGCTCAGATGCCTGATGCGACGCTGACGCGTCTTAT +CAGGCCTACCCACTGTTTTTACACCGATAATTTTTCCCCCACCTTTTTGCACTCATTCATATAAAAAATA +TATTTCCCCACGAAAACGATTGCTTTTTATCTTCAGATGAATAGAATGCGGCGGATTTTTTGGGTTTCAA +ACAGCAAAAAGGGGGAATTTCGTGTCGCAAGATAACAACTTTAGCCAGGGGCCAGTCCCGCAGTCGGCGC +GGAAAGGGGTATTGGCATTGACGTTCGTCATGCTGGGATTAACCTTCTTTTCCGCCAGTATGTGGACCGG +CGGCACTCTCGGAACCGGTCTTAGCTATCATGATTTCTTCCTCGCAGTTCTCATCGGTAATCTTCTCCTC +GGTATTTACACTTCATTTCTCGGTTACATTGGCGCAAAAACCGGCCTGACCACTCATCTTCTTGCTCGCT +TCTCGTTTGGTGTTAAAGGCTCATGGCTGCCTTCACTGCTACTGGGCGGAACTCAGGTTGGCTGGTTTGG +CGTCGGTGTGGCGATGTTTGCCATTCCGGTGGGTAAGGCAACCGGGCTGGATATTAATTTGCTGATTGCC +GTTTCCGGTTTACTGATGACCGTCACCGTCTTTTTTGGCATTTCGGCGCTGACGGTTCTTTCGGTGATTG +CGGTTCCGGCTATCGCCTGCCTGGGCGGTTATTCCGTGTGGCTGGCTGTTAACGGCATGGGCGGCCTGGA +CGCATTAAAAGCGGTCGTTCCCGCACAACCGTTAGATTTCAATGTCGCGCTGGCGCTGGTTGTGGGGTCA +TTTATCAGTGCGGGTACGCTCACCGCTGACTTTGTCCGGTTTGGTCGCAATGCCAAACTGGCGGTGCTGG +TGGCGATGGTGGCCTTTTTCCTCGGCAACTCGTTGATGTTTATTTTCGGTGCAGCGGGCGCTGCGGCACT +GGGCATGGCGGATATCTCTGATGTGATGATTGCTCAGGGCCTGCTGCTGCCTGCGATTGTGGTGCTGGGG +CTGAATATCTGGACCACCAACGATAACGCACTCTATGCGTCGGGTTTAGGTTTCGCCAACATTACCGGGA +TGTCGAGCAAAACCCTTTCGGTAATCAACGGTATTATCGGTACGGTCTGCGCATTATGGCTGTATAACAA +TTTTGTCGGCTGGTTGACCTTCCTTTCGGCAGCTATTCCTCCAGTGGGTGGCGTGATCATCGCCGACTAT +CTGATGAACCGTCGCCGCTATGAGCACTTTGCGACCACGCGTATGATGAGTGTCAATTGGGTGGCGATTC +TGGCGGTCGCCTTGGGGATTGCTGCAGGCCACTGGTTACCGGGAATTGTTCCGGTCAACGCGGTATTAGG +TGGCGCGCTGAGCTATCTGATCCTTAACCCGATTTTGAATCGTAAAACGACAGCAGCAATGACGCATGTG +GAGGCTAACAGTGTCGAATAACGCTTTACAAACAATTATTAACGCCCGGTTACCAGGCGAAGAGGGGCTG +TGGCAGATTCATCTGCAGGACGGAAAAATCAGCGCCATTGATGCGCAATCCGGCGTGATGCCCATAACTG +AAAACAGCCTGGATGCCGAACAAGGTTTAGTTATACCGCCGTTTGTGGAGCCACATATTCACCTGGACAC +CACGCAAACCGCCGGACAACCGAACTGGAATCAGTCCGGCACGCTGTTTGAAGGCATTGAACGCTGGGCC +GAGCGCAAAGCGTTATTAACCCATGACGATGTGAAACAACGCGCATGGCAAACGCTGAAATGGCAGATTG +CCAACGGCATTCAGCATGTGCGTACCCATGTCGATGTTTCGGATGCAACGCTAACTGCGCTGAAAGCAAT +GCTGGAAGTGAAGCAGGAAGTCGCGCCGTGGATTGATCTGCAAATCGTCGCCTTCCCTCAGGAAGGGATT +TTGTCGTATCCCAACGGTGAAGCGTTGCTGGAAGAGGCGTTACGCTTAGGGGCAGATGTAGTGGGGGCGA +TTCCGCATTTTGAATTTACCCGTGAATACGGCGTGGAGTCGCTGCATAAAACCTTCGCCCTGGCGCAAAA +ATACGACCGTCTCATCGACGTTCACTGTGATGAGATCGATGACGAGCAGTCGCGCTTTGTCGAAACCGTT +GCTGCCCTGGCGCACCATGAAGGCATGGGCGCGCGAGTCACCGCCAGCCACACCACGGCAATGCACTCCT +ATAACGGGGCGTATACCTCACGCCTGTTCCGCTTGCTGAAAATGTCCGGTATTAACTTTGTCGCCAACCC +GCTGGTCAATATTCATCTGCAAGGACGTTTCGATACGTATCCAAAACGTCGCGGCATCACGCGCGTTAAA +GAGATGCTGGAGTCCGGCATTAACGTCTGCTTTGGTCACGATGATGTCTTCGATCCGTGGTATCCGCTGG +GAACGGCGAATATGCTGCAAGTGCTGCATATGGGGCTGCATGTTTGCCAGTTGATGGGCTACGGGCAGAT +TAACGATGGCCTGAATTTAATCACCCACCACAGCGCAAGGACGTTGAATTTGCAGGATTACGGCATTGCC +GCCGGAAACAGCGCCAACCTGATTATCCTGCCGGCTGAAAATGGGTTTGATGCGCTGCGCCGTCAGGTTC +CGGTACGTTATTCGGTACGTGGCGGCAAGGTGATTGCCAGCACACAACCGGCACAAACCACCGTATATCT +GGAGCAGCCAGAAGCCATCGATTACAAACGTTGAACGACTGGGTTACAGCGAGCTTAGTTTATGCCGGAT +GCGGCGTGAACGCCTTATCCGGCCTACGTAGAGCACTGAACTCGTAGGCCTGATAAGCGTAGCGCATCAG +GCAATTCCAGCCGCTGATCTGTGTCAGCGGCTACCGTGATTCATTCCCGCCAACAACCGCGCATTCCTCC +AACGCCATGTGCAAAAATGCCTTCGCAGCGGCTGTCTGCCAGCTGTAGTTTATGCCGGATGCGGCGTGAA +CGCCTTATCCGGCCTACGTAGAGCACTGAACTCGTAGGCCTGATAAGCGTAGCGCATCAGGCAATTCCAG +CCGCAGACCTGTGTCAGCGGCTACCGTGATTCATTTCCGCCAACAACCGCGCATTTATCCAACGCCATGT +GCAAAAATGCCTTCGCGGCGGCTGTCTGCCAGCTATTTTTCCGCCGCAACAAAACCGCCGTTCTCTCCAG +TAGTGGCGGGGCAAGAGAAATAGCTTTAAGCCCGTCATGTTGTGTGGCAATCGCTGCTGGTAACAATGTG +GAAAGGGAAGTGCGGCGAATCAGCTCCAGAACCGCGCTAATTGAGTTCGCCTCAATGACCACCTGTGGAT +GTAGCCCCGCTTTCTCGCAGTAGTGGTCAATTTGCTCTCTGGTGGCAAATTCCGCGCTGAGCAGGACCAG +TTTTTCATCATGCAAGCGACTCAACGCCACCTGTTCATGGACGGCCAGCGGATGATGTTGCGCCACGACT +AACGCTAAACTTTCTGTCAGTAAAGGAATTGCCTCCAGCTCCGGCGAATGCACAGGCGCGAAGGCAATCC +CAACGTCCAACTCGTCGCGGCAAAGCATATCCTCGATTTTCTCCTGCGACATTTCCTGTAGCTGGAGCGT +GATGCTGGGATAGCGCGCATAGAAATCCGCCATTAAGGGGCCGATAAAGTAGCTCGTAAAGGTGGGGGTG +ACGGCGATACGCAGCGATCCTCGCGTCAGATCGGCAACATCATGAATCGCCCGTTTACCCGCCCCCAGTT +CCTGTAACGCCCGGCTGGCGTACTGTCGCCAGACTTCTCCTGCATCAGTGAGACGAATCGTTCGCCCGCT +ACGGTCAAACAGCGGCACGCCTAAACTCTCCTCTAACTGGCGAATCTGCTGGGAAAGCGCAGGTTGGGAG +ACGTGCAACGCACTGGCGGCACGGGTGAAGCTGCCATGTTCAGCCACGGCAAGAAAATAATTGATATGTC +GAGAGAGCATTCGCAACCTATAAGTAAATCCAATGGAACTCATCATAAATGAGACTTTTACCTTATGACA +ATCGGCGAGTAGTCTGCCTCTCATTCCAGAGACAGACAGAGGTTAACGGTGAAAGAGATTATTGATGGAT +TCCTTAAATTCCAGCGCGAGGCATTTCCGAAGCGGGAAGCCTTGTTTAAACAGCTGGCGACACAGCAAAG +CCCGCGCACACTTTTTATCTCCTGCTCCGACAGCCGTCTGGTCCCTGAGCTGGTGACGCAACGTGAGCCT +GGCGATCTGTTCGTTATTCGCAACGCGGGCAATATCGTCCCTTCCTACGGGCCGGAACCCGGTGGCGTTT +CTGCTTCGGTGGAGTATGCCGTCGCTGCGCTTCGGGTATCTGACATTGTGATTTGTGGTCATTCCAACTG +TGGCGCGATGACCGCCATTGCCAGCTGTCAGTGCATGGACCATATGCCTGCCGTCTCCCACTGGCTGCGT +TATGCCGATTCAGCCCGCGTCGTTAATGAGGCGCGCCCGCATTCCGATTTACCGTCAAAAGCTGCGGCGA +TGGTACGTGAAAACGTCATTGCTCAGTTGGCTAATTTGCAAACTCATCCATCGGTGCGCCTGGCGCTCGA +AGAGGGGCGGATCGCCCTGCACGGCTGGGTCTACGACATTGAAAGCGGCAGCATCGCAGCTTTTGACGGC +GCAACCCGCCAGTTTGTGCCACTGGCCGCTAATCCTCGCGTTTGTGCCATACCGCTACGCCAACCGACCG +CAGCGTAACCTTATTTTTAAACCATCAGGAGTTCCACCATGATTCAGTCACAAATTAACCGCAATATTCG +TCTTGATCTTGCCGATGCCATTTTGCTCAGCAAAGCTAAAAAAGATCTCTCATTTGCCGAGATTGCCGAC +GGCACCGGTCTGGCAGAAGCCTTTGTAACCGCGGCTTTGCTGGGTCAGCAGGCGCTTCCTGCCGACGCCG +CCCGCCTGGTCGGGGCGAAGCTGGATCTCGACGAAGACTCCATTCTACTGTTGCAGATGATTCCACTGCG +TGGCTGCATTGATGACCGTATTCCAACTGACCCAACGATGTATCGTTTCTATGAAATGTTGCAGGTGTAC +GGTACAACCCTGAAAGCGTTGGTTCATGAGAAATTTGGCGATGGCATTATTAGCGCGATTAACTTCAAAC +TCGACGTTAAGAAAGTGGCGGACCCGGAAGGTGGCGAACGTGCGGTCATCACCTTAGATGGTAAATATCT +GCCGACCAAACCGTTCTGACAGCCATGCGCAACCATCAAAAGACGTTCACGATGCTGCTGGTACTGGTGC +TGATTGGTCTTAATATGCGACCACTGCTCACCTCCGTCGGGCCACTGCTACCGCAATTGCGCCAGGCGAG +CGGAATGAGCTTTAGCGTGGCTGCCCTGTTGACCGCTCTGCCGGTGGTTACCATGGGCGGGCTGGCGCTG +GCCGGAAGCTGGCTTCATCAGCATGTCAGCGAACGTCGCAGTGTCGCCATCAGTCTGTTGCTGATTGCCG +TCGGTGCATTGATGCGTGAGCTTTACCCGCAAAGTGCGCTGCTGCTTAGCAGCGCACTGCTTGGTGGGGT +GGGGATCGGCATCATTCAGGCGGTGATGCCTTCGGTGATTAAACGGCGGTTTCAGCAGCGCACGCCACTG +GTGATGGGGCTGTGGTCCGCGGCTCTGATGGGCGGCGGTGGGCTTGGTGCCGCCATAACGCCCTGGTTAG +TTCAACATAGCGAAACCTGGTATCAAACACTCGCCTGGTGGGCGCTGCCTGCCGTTGTTGCGCTCTTTGC +CTGGTGGTGGCAAAGCGCCCGCGAGGTCGCCTCTTCCCACAAGACAACAACCACTCCGGTTCGCGTGGTA +TTCACTCCCCGCGCGTGGACGCTGGGTGTTTACTTCGGTCTGATTAACGGCGGTTACGCCAGCCTGATTG +CCTGGTTACCCGCTTTCTATATTGAGATTGGTGCCAGCGCGCAGTACAGCGGTTCCTTACTGGCATTGAT +GACGCTTGGGCAAGCCGCAGGAGCTTTGCTGATGCCTGCTATGGCTCGCCATCAGGATCGGCGCAAACTG +TTAATGCTGGCGCTGGTGTTACAACTGGTGGGGTTCTGCGGCTTTATCTGGCTGCCGATGCAATTGCCGG +TATTGTGGGCGATGGTGTGTGGGTTAGGTCTGGGCGGCGCGTTTCCGCTCTGTTTGCTGCTGGCGCTCGA +TCACTCTGTGCAACCGGCTATTGCTGGCAAGCTGGTGGCGTTTATGCAGGGAATCGGTTTTATCATCGCC +GGGCTTGCCCCGTGGTTTTCTGGCGTGCTGCGTAGTATCAGCGGCAATTACCTGATGGACTGGGCATTTC +ATGCGCTGTGCGTCGTTGGGCTGATGATCATAACCCTGCGTTTTGCACCAGTACGTTTTCCGCAGCTGTG +GGTCAAAGAGGCATGATGCGACGCTTGTTCCTGCGCTTTGTTCATGCCGGATGCGGCTAATGTAGATCGC +TGAACTTGTAGGCCTGATAAGCGCAGCGTATCAGGCAATTTTTATAATTTAAACTGACGATTCAACTTTA +TAATCTTTGAAATAATAGTGCTTATCCCGGTCGTTTATTTCGCGAATAACCCGACAAGGAACGCCAGCCG +CCACGACGTTTGGTGGAATGTCTTTTGTGACGATACTACCCGCGCCAATAACAGAATTATCCCCGATGGT +GACGCCTGGATTAATAACCACATGACTTCCGATCCAGACGTTATTGCCAATCGTTATCGGAAAAGAGTAC +ATCTCGCCGTTTTTTCTCAATTCATGGTGTACAGGGTGTCCCGTAACGGAAAGAGTAACGTTGGGTGCAA +TCAGTACGTTATCACCGATTGTTACCGTGTAGTCATCGACAATGGTTAAATTGAAATTTGCATAAAAATT +GCGGCCTATATGGATGTTGGAACCGTAAGAGAAATAGACAGGCGGTTCTACCCAGGCGTTTTCCCCTACC +GTGGCAAACATTTCTTTAATCAGGCTTTCTCTTTTTTCAACTTCTGATGGATGCGAGTGATTAAACTCAT +ACATTAACGTTTTCCCACGAAGTCTTTTTTCCGGTAAGCCTTCGCACATATCGGTAAATAGCTTGCCTGC +TCTTATTCTTTCGGTCATTGGCATGTTCAATGCGATCACTCCGTTATGATATGTTGGTCGGATAAGGCGC +TCGCGCCGCATCCGACATTGATTGCTTAAGCGACTTCATTCACCTGACGACGCAGCAGGGAAAGCGGGCC +GGGGCCGCTAAGCGTGAACACGGAAATTAAGGTGAAGCCCAGCGCCACCAGACCCAGCACCAGATAAGCG +CCCTGGAAACCGATGCTTTCATACATATTGCCCGCCAGTACAGACATAAAAATCATCGCCAGTTGCTTAA +AGAAGCAGAAACAGACCAGATAAATCGTCGCTGAAAAACGCACTTCAAACTGGCTGGTAATATATTTAAA +GCAGCCCACCAGCAGGAACGGTACTTCAAACATATGCAGCGTTTTCAGAATAACCACTTCCAGCGCTGAG +GTGGCGAACGATGAGCCAATAATACGTACAGACATAATAGTGCCAGCCAGCAGCAGGGCGTTTTTCCCAC +CGATGCGATTAATGATCAGTGGCGCAAAGAACATAATCGAGGCGTTAAGTAATTCGCCCATTGTCGTTAC +GTAGCCAAATACCCGCGTACCCTGTTCACCGGTAGCAAAGAACGAAGTAAAGAAATTAGCAAACTGTTGG +TCAAAAACATCGTAGGTGCAGGAAACGCCAATAACATACAGTGACAAAAACCACAGTTTTGGCTGTCTGA +ACAGTTCCAGTGCCAGCTTAAGGCTAAATGCCGAATGGTTGGCACCTACCGCATTGGCAACCGTGGCAGA +AGAGGGCGCATCCGTTTTGGCGAAAAAGAGTAAAACGGCGAGGATGAGTGCACAGCCAGAGCCCAGCCAG +AAAACAAACTGATTATTGATGGTGAACATGATGCCGACAATCGAGGCACACAGCGCCCAGCCAACACAGC +CAAACATCCGCGCGCGACCAAATTCGAAATTACTGCGACGGCTGACTTTCTCAATAAATGCCTCTACTGC +TGGCGCACCGGCGTTAAAACAAAAGCCTAGATAAATACCACCAACAATCGATCCTACTAAAATGTTGTAT +TGTAACAGTGGCCCGAAGATAAAAATAAAGAACGGCGCAAACATCACTAACATGCCGGTAATAATCCACA +GCAGGTATTTGCGCAGCCCGAGTTTGTCAGAAAGCAGACCAAACAGCGGTTGGAATAATAGCGAGAACAG +AGAAATAGCGGCAAAAATAATACCCGTATCACTTTTGCTGATATGGTTGATGTCATGTAGCCAAATCGGG +AAAAACGGGAAGTAGGCTCCCATGATAAAAAAGTAAAAGAAAAAGAATAAACCGAACATCCAAAAGTTTG +TGTTTTTTAAATAGTACATAATGGATTTCCTTACGCGAAATACGGGCAGACATGGCCTGCCCGGTTATTA +TTATTTTTGACACCAGACCAACTGGTAATGGTAGCGACCGGCGCTCAGCTGGAATTCCGCCGATACTGAC +GGGCTCCAGGAGTCGTCGCCACCAATCCCCATATGGAAACCGTCGATATTCAGCCATGTGCCTTCTTCCG +CGTGCAGCAGATGGCGATGGCTGGTTTCCATCAGTTGCTGTTGACTGTAGCGGCTGATGTTGAACTGGAA +GTCGCCGCGCCACTGGTGTGGGCCATAATTCAATTCGCGCGTCCCGCAGCGCAGACCGTTTTCGCTCGGG +AAGACGTACGGGGTATACATGTCTGACAATGGCAGATCCCAGCGGTCAAAACAGGCGGCAGTAAGGCGGT +CGGGATAGTTTTCTTGCGGCCCTAATCCGAGCCAGTTTACCCGCTCTGCTACCTGCGCCAGCTGGCAGTT +CAGGCCAATCCGCGCCGGATGCGGTGTATCGCTCGCCACTTCAACATCAACGGTAATCGCCATTTGACCA +CTACCATCAATCCGGTAGGTTTTCCGGCTGATAAATAAGGTTTTCCCCTGATGCTGCCACGCGTGAGCGG +TCGTAATCAGCACCGCATCAGCAAGTGTATCTGCCGTGCACTGCAACAACGCTGCTTCGGCCTGGTAATG +GCCCGCCGCCTTCCAGCGTTCGACCCAGGCGTTAGGGTCAATGCGGGTCGCTTCACTTACGCCAATGTCG +TTATCCAGCGGTGCACGGGTGAACTGATCGCGCAGCGGCGTCAGCAGTTGTTTTTTATCGCCAATCCACA +TCTGTGAAAGAAAGCCTGACTGGCGGTTAAATTGCCAACGCTTATTACCCAGCTCGATGCAAAAATCCAT +TTCGCTGGTGGTCAGATGCGGGATGGCGTGGGACGCGGCGGGGAGCGTCACACTGAGGTTTTCCGCCAGA +CGCCACTGCTGCCAGGCGCTGATGTGCCCGGCTTCTGACCATGCGGTCGCGTTCGGTTGCACTACGCGTA +CTGTGAGCCAGAGTTGCCCGGCGCTCTCCGGCTGCGGTAGTTCAGGCAGTTCAATCAACTGTTTACCTTG +TGGAGCGACATCCAGAGGCACTTCACCGCTTGCCAGCGGCTTACCATCCAGCGCCACCATCCAGTGCAGG +AGCTCGTTATCGCTATGACGGAACAGGTATTCGCTGGTCACTTCGATGGTTTGCCCGGATAAACGGAACT +GGAAAAACTGCTGCTGGTGTTTTGCTTCCGTCAGCGCTGGATGCGGCGTGCGGTCGGCAAAGACCAGACC +GTTCATACAGAACTGGCGATCGTTCGGCGTATCGCCAAAATCACCGCCGTAAGCCGACCACGGGTTGCCG +TTTTCATCATATTTAATCAGCGACTGATCCACCCAGTCCCAGACGAAGCCGCCCTGTAAACGGGGATACT +GACGAAACGCCTGCCAGTATTTAGCGAAACCGCCAAGACTGTTACCCATCGCGTGGGCGTATTCGCAAAG +GATCAGCGGGCGCGTCTCTCCAGGTAGCGAAAGCCATTTTTTGATGGACCATTTCGGCACAGCCGGGAAG +GGCTGGTCTTCATCCACGCGCGCGTACATCGGGCAAATAATATCGGTGGCCGTGGTGTCGGCTCCGCCGC +CTTCATACTGCACCGGGCGGGAAGGATCGACAGATTTGATCCAGCGATACAGCGCGTCGTGATTAGCGCC +GTGGCCTGATTCATTCCCCAGCGACCAGATGATCACACTCGGGTGATTACGATCGCGCTGCACCATTCGC +GTTACGCGTTCGCTCATCGCCGGTAGCCAGCGCGGATCATCGGTCAGACGATTCATTGGCACCATGCCGT +GGGTTTCAATATTGGCTTCATCCACCACATACAGGCCGTAGCGGTCGCACAGCGTGTACCACAGCGGATG +GTTCGGATAATGCGAACAGCGCACGGCGTTAAAGTTGTTCTGCTTCATCAGCAGGATATCCTGCACCATC +GTCTGCTCATCCATGACCTGACCATGCAGAGGATGATGCTCGTGACGGTTAACGCCTCGAATCAGCAACG +GCTTGCCGTTCAGCAGCAGCAGACCATTTTCAATCCGCACCTCGCGGAAACCGACATCGCAGGCTTCTGC +TTCAATCAGCGTGCCGTCGGCGGTGTGCAGTTCAACCACCGCACGATAGAGATTCGGGATTTCGGCGCTC +CACAGTTTCGGGTTTTCGACGTTCAGACGTAGTGTGACGCGATCGGCATAACCACCACGCTCATCGATAA +TTTCACCGCCGAAAGGCGCGGTGCCGCTGGCGACCTGCGTTTCACCCTGCCATAAAGAAACTGTTACCCG +TAGGTAGTCACGCAACTCGCCGCACATCTGAACTTCAGCCTCCAGTACAGCGCGGCTGAAATCATCATTA +AAGCGAGTGGCAACATGGAAATCGCTGATTTGTGTAGTCGGTTTATGCAGCAACGAGACGTCACGGAAAA +TGCCGCTCATCCGCCACATATCCTGATCTTCCAGATAACTGCCGTCACTCCAGCGCAGCACCATCACCGC +GAGGCGGTTTTCTCCGGCGCGTAAAAATGCGCTCAGGTCAAATTCAGACGGCAAACGACTGTCCTGGCCG +TAACCGACCCAGCGCCCGTTGCACCACAGATGAAACGCCGAGTTAACGCCATCAAAAATAATTCGCGTCT +GGCCTTCCTGTAGCCAGCTTTCATCAACATTAAATGTGAGCGAGTAACAACCCGTCGGATTCTCCGTGGG +AACAAACGGCGGATTGACCGTAATGGGATAGGTCACGTTGGTGTAGATGGGCGCATCGTAACCGTGCATC +TGCCAGTTTGAGGGGACGACGACAGTATCGGCCTCAGGAAGATCGCACTCCAGCCAGCTTTCCGGCACCG +CTTCTGGTGCCGGAAACCAGGCAAAGCGCCATTCGCCATTCAGGCTGCGCAACTGTTGGGAAGGGCGATC +GGTGCGGGCCTCTTCGCTATTACGCCAGCTGGCGAAAGGGGGATGTGCTGCAAGGCGATTAAGTTGGGTA +ACGCCAGGGTTTTCCCAGTCACGACGTTGTAAAACGACGGCCAGTGAATCCGTAATCATGGTCATAGCTG +TTTCCTGTGTGAAATTGTTATCCGCTCACAATTCCACACAACATACGAGCCGGAAGCATAAAGTGTAAAG +CCTGGGGTGCCTAATGAGTGAGCTAACTCACATTAATTGCGTTGCGCTCACTGCCCGCTTTCCAGTCGGG +AAACCTGTCGTGCCAGCTGCATTAATGAATCGGCCAACGCGCGGGGAGAGGCGGTTTGCGTATTGGGCGC +CAGGGTGGTTTTTCTTTTCACCAGTGAGACGGGCAACAGCTGATTGCCCTTCACCGCCTGGCCCTGAGAG +AGTTGCAGCAAGCGGTCCACGCTGGTTTGCCCCAGCAGGCGAAAATCCTGTTTGATGGTGGTTAACGGCG +GGATATAACATGAGCTGTCTTCGGTATCGTCGTATCCCACTACCGAGATATCCGCACCAACGCGCAGCCC +GGACTCGGTAATGGCGCGCATTGCGCCCAGCGCCATCTGATCGTTGGCAACCAGCATCGCAGTGGGAACG +ATGCCCTCATTCAGCATTTGCATGGTTTGTTGAAAACCGGACATGGCACTCCAGTCGCCTTCCCGTTCCG +CTATCGGCTGAATTTGATTGCGAGTGAGATATTTATGCCAGCCAGCCAGACGCAGACGCGCCGAGACAGA +ACTTAATGGGCCCGCTAACAGCGCGATTTGCTGGTGACCCAATGCGACCAGATGCTCCACGCCCAGTCGC +GTACCGTCTTCATGGGAGAAAATAATACTGTTGATGGGTGTCTGGTCAGAGACATCAAGAAATAACGCCG +GAACATTAGTGCAGGCAGCTTCCACAGCAATGGCATCCTGGTCATCCAGCGGATAGTTAATGATCAGCCC +ACTGACGCGTTGCGCGAGAAGATTGTGCACCGCCGCTTTACAGGCTTCGACGCCGCTTCGTTCTACCATC +GACACCACCACGCTGGCACCCAGTTGATCGGCGCGAGATTTAATCGCCGCGACAATTTGCGACGGCGCGT +GCAGGGCCAGACTGGAGGTGGCAACGCCAATCAGCAACGACTGTTTGCCCGCCAGTTGTTGTGCCACGCG +GTTGGGAATGTAATTCAGCTCCGCCATCGCCGCTTCCACTTTTTCCCGCGTTTTCGCAGAAACGTGGCTG +GCCTGGTTCACCACGCGGGAAACGGTCTGATAAGAGACACCGGCATACTCTGCGACATCGTATAACGTTA +CTGGTTTCACATTCACCACCCTGAATTGACTCTCTTCCGGGCGCTATCATGCCATACCGCGAAAGGTTTT +GCGCCATTCGATGGTGTCAACGTAAATGCATGCCGCTTCGCCTTCCGGCCACCAGAATAGCCTGCGATTC +AACCCCTTCTTCGATCTGTTTTGCTACCCGTTGTAGCGCCGGAAGATGCTTTTCCGCTGCCTGTTCAATG +GTCATTGCGCTCGCCATATACACCAGATTCAGACAGCCAATCACCCGTTGTTCACTGCGCAGCGGTACGG +CGATAGAGGCGATCTTCTCCTCCTGATCCCAGCCGCGGTAGTTCTGTCCGTAACCCTCTTTGCGCGCGCG +CGCCAGAATGGCTTCCAGCTTTAACGGTTCCCGTGCCAGTTGATAGTCATCACCGGGGCGGGAGGCTAAC +ATTTCGATTAATTCCTTGCGGTCTTGTTCCGGGCAAAAGGCCAGCCAGGTCAGGCCCGAGGCGGTTTTCA +GAAGCGGCAAACGTCGCCCGACCATTGCCCGGTGAAAGGATAAGCGGCTGAAACGGTGAGTGGTTTCGCG +TACCACCATTGCATCAACATCCAGCGTGGACACATCTGTCGGCCATACCACTTCGCGCAACAGATCGCCC +AGCAGTGGGGCCGCCAGTGCAGAAATCCACTGTTCGTCACGAAATCCTTCGCTTAATTGCCGCACTTTGA +TGGTCAGTCGAAAACTATCATCGGAGGGGCTACGGCGGACATATCCCTCTTCCTGCAGCGTCTCCAGCAG +TCGCCGCACAGTGGTGCGATGCAGGCCGCTGAGTTCCGCCAGCAGCCCGACGCTGGCACCGCCATCAAGT +TTATTTAACATATTTAATAACATTAGACCGCGGGTTAAGCCGCGCACGGTTTTGTATTCCGTCTGCTCAT +TGTTCTGCATATTAATTGACATTTCTATAGTTAAAACAACGTGGTGCACCTGGTGCACATTCGGGCATGT +TTTGATTGTAGCCGAAAACACCCTTCCTATACTGAGCGCACAATAAAAAATCATTTACATGTTTTTAACA +AAATAAGTTGCGCTGTACTGTGCGCGCAACGACATTTTGTCCGAGTCGTGAGGTACTGAAATGGCAATAC +AACACCCTGACATCCAGCCTGCTGTTAACCATAGCGTTCAGGTGGCGATCGCTGGTGCCGGCCCGGTTGG +GCTGATGATGGCGAACTATCTCGGCCAGATGGGCATTGACGTGCTGGTGGTGGAGAAACTCGATAAGTTG +ATCGACTACCCGCGTGCGATTGGTATTGATGACGAGGCGCTGCGCACCATGCAGTCGGTCGGCCTGGTCG +ATGATGTTCTGCCGCACACTACGCCGTGGCACGCGATGCGTTTTCTCACCCCGAAAGGCCGCTGTTTTGC +TGATATTCAGCCAATGACCGATGAATTTGGCTGGCCGCGCCGTAACGCCTTTATTCAGCCGCAGGTCGAT +GCGGTGATGCTGGAAGGGGTGTCGCGTTTTCCGAATGTGCGCTGCTTGTTTTCCCGCGAGCTGGAGGCCT +TCAGTCAGCAAGATGACGAAGTGACCTTGCACCTGAAAACGGCAGAAGGGCAGCGGGAAATAGTCAAAGC +CCAGTGGCTGGTAGCCTGTGACGGTGGAGCAAGTTTTGTCCGTCGCACTCTGAATGTGCCGTTTGAAGGT +AAAACTGCGCCAAATCAGTGGATTGTGGTAGATATCGCCAACGATCCGTTAAGTACGCCGCATATCTATT +TGTGTTGCGATCCGGTGCGCCCGTATGTTTCTGCCGCGCTGCCTCATGCGGTACGTCGCTTTGAATTTAT +GGTGATGCCGGGAGAAACCGAAGAGCAGCTGCGTGAGCCGCAAAATATGCGCAAGCTGTTAAGCAAAGTG +CTGCCTAATCCGGACAATGTTGAATTGATTCGCCAGCGTGTCTACACCCACAACGCGCGACTGGCGCAAC +GTTTCCGTATTGATCGCGTACTGCTGGCGGGCGATGCCGCGCACATCATGCCGGTATGGCAGGGGCAGGG +CTATAACAGTGGTATGCGCGACGCCTTTAACCTCGCATGGAAACTGGCGTTGGTTATCCAGGGGAAAGCC +CGCGATGCGCTGCTCGATACCTATCAACAAGAACGTCGCGATCACGCCAAAGCGATGATTGACCTGTCCG +TGACGGCGGGCAACGTGCTGGCTCCGCCGAAACGCTGGCAGGGTACGTTACGTGACGGCGTTTCCTGGCT +GTTGAATTATCTGCCGCCAGTAAAACGCTACTTCCTCGAAATGCGCTTCAAGCCGATGCCGCAATATTAC +GGCGGTGCGCTGATGCGTGAGGGCGAAGCGAAGCACTCTCCGGTCGGCAAGATGTTTATTCAGCCGAAAG +TCACGCTGGAAAACGGCGACGTGACGCTGCTCGATAACGCGATCGGCGCGAACTTCGCGGTAATTGGCTG +GGGATGCAATCCACTGTGGGGGATGAGCGACGAGCAAATCCAGCAGTGGCGCGCGTTGGGCACACGCTTC +ATTCAGGTGGTGCCGGAAGTGCAAATTCATACCGCACAGGATAACCACGACGGCGTACTACGCGTGGGCG +ATACGCAAGGTCGCCTGCGTAGCTGGTTCGCGCAACACAATGCTTCGCTGGTGGTGATGCGCCCGGATCG +CTTTGTTGCCGCCACCGCCATTCCGCAAACCCTGGGCAAGACCCTGAATAAACTGGCGTCGGTGATGACG +CTGACCCGCCCTGATGCCGACGTTTCTGTCGAAAAGGTAGCCTGATATGCACGCTTATCTTCACTGTCTT +TCCCACTCGCCGCTGGTGGGGTATGTCGACCCGGCGCAAGAGGTGCTCGATGAGGTCAATGGCGTGATTG +CCAGCGCCCGCGAGCGTATTGCGGCATTCTCCCCTGAACTGGTGGTGCTGTTTGCGCCAGATCACTACAA +CGGCTTTTTCTATGACGTGATGCCACCGTTCTGTTTAGGCGTTGGAGCGACGGCAATTGGTGATTTCGGC +AGTGCGGCAGGAGAGCTGCCCGTGCCTGTGGAGCTGGCGGAGGCCTGTGCGCATGCCGTCATGAAGAGCG +GGATCGATCTTGCCGTTTCTTACTGTATGCAGGTGGACCACGGGTTCGCCCAGCCGCTGGAGTTCCTGCT +CGGTGGGCTGGATAAGGTGCCAGTTCTGCCTGTGTTCATCAACGGTGTCGCCACGCCGCTGCCCGGTTTC +CAGCGTACCCGCATGTTGGGTGAAGCCATTGGACGTTTCACCAGCACTCTCAATAAACGCGTGCTGTTCC +TGGGTTCCGGTGGGCTTTCCCATCAGCCGCCGGTGCCCGAACTGGCGAAAGCCGATGCCCATATGCGCGA +CCGTCTGTTGGGGAGCGGGAAAGATTTACCCGCCAGTGAGCGCGAATTGCGTCAGCAACGGGTGATTAGC +GCCGCTGAGAAGTTTGTTGAGGATCAGAGAACGCTGCATCCGCTCAACCCGATTTGGGATAACCAGTTCA +TGACTTTGCTGGAGCAGGGACGCATACAGGAACTGGATGCCGTCAGTAACGAAGAGCTTTCCGCCATTGC +CGGAAAGTCGACACATGAAATCAAAACCTGGGTCGCCGCTTTTGCCGCTATTTCTGCGTTTGGCAACTGG +CGTAGCGAAGGGCGTTATTACCGCCCAATCCCGGAGTGGATTGCCGGATTTGGCTCGTTAAGCGCCAGAA +CAGAGAACTGAATATGCAGGAGAAGATGATGAGTTATCAGCCACAAACCGAAGCCGCCACCAGCCGTTTT +CTGAATGTAGAAGAAGCGGGTAAAACGCTGCGCATCCATTTTAATGACTGCGGACAAGGCGACGAAACCG +TTGTCCTGCTGCATGGTTCCGGCCCGGGTGCTACTGGCTGGGCGAACTTCAGCCGCAATATCGATCCGCT +GGTAGAGGCGGGCTATCGGGTGATCCTGCTGGATTGTCCGGGTTGGGGCAAGAGCGATTCGGTCGTTAAT +AGTGGTTCGCGATCGGATCTTAATGCACGAATCCTGAAAAGCGTGGTGGATCAACTGGATATCGCCAAAA +TCCACCTGCTGGGCAACTCGATGGGGGGCCATAGTTCTGTGGCGTTCACCCTTAAATGGCCGGAGCGCGT +CGGCAAACTGGTGCTGATGGGCGGCGGTACGGGCGGCATGAGTTTGTTTACGCCGATGCCAACCGAAGGT +ATTAAGCGACTGAATCAGCTTTATCGTCAGCCGACTATCGAAAACCTGAAGCTGATGATGGATATCTTCG +TTTTTGATACCAGCGATTTGACCGACGCCCTGTTTGAAGCGCGCCTGAATAATATGCTGTCGCGCCGCGA +TCACCTGGAAAACTTCGTTAAGAGCCTGGAAGCTAATCCGAAACAGTTCCCGGATTTTGGCCCACGTCTG +GCGGAAATCAAAGCGCAAACCCTGATTGTCTGGGGGCGCAACGACCGCTTTGTGCCGATGGATGCGGGTC +TGCGTCTGCTGTCCGGCATTGCCGGTTCTGAACTGCATATCTTCCGCGACTGTGGTCACTGGGCGCAGTG +GGAACATGCCGACGCTTTCAATCAACTGGTGCTGAATTTCCTCGCACGCCCTTAAGGAATGGTCATGACG +AAGCATACTCTTGAGCAACTGGCGGCGGATTTACGCCGCGCCGCAGAGCAGGGCGAAGCGATTGCACCGC +TGCGCGATCTGATTGGTATCGATAACGCTGAAGCGGCTTACGCCATTCAGCACATAAATGTGCAACATGA +CGTTGCGCAGGGGCGTCGCGTGGTAGGGCGTAAAGTGGGCCTGACACATCCGAAAGTGCAACAACAACTG +GGCGTTGATCAACCGGATTTTGGGACGTTATTTGCCGACATGTGTTATGGCGATAACGAAATCATTCCTT +TTTCCCGTGTTCTGCAACCCCGCATTGAAGCGGAGATCGCACTGGTGTTGAACCGCGATTTGCCCGCAAC +CGATATCACCTTCGACGAATTGTATAACGCCATTGAATGGGTACTTCCGGCGCTGGAAGTGGTGGGGAGC +CGCATTCGCGACTGGTCGATTCAGTTTGTCGATACCGTGGCAGATAACGCCTCCTGTGGGGTGTATGTCA +TCGGCGGTCCGGCGCAACGTCCGGCGGGGTTAGACCTGAAAAACTGCGCCATGAAGATGACGCGTAATAA +CGAAGAGGTTTCTAGCGGGCGCGGCAGCGAATGCCTGGGACATCCGCTTAATGCGGCCGTCTGGCTGGCA +CGCAAAATGGCCAGTCTGGGTGAACCGCTGCGCACCGGAGATATCATTCTTACCGGGGCATTAGGTCCGA +TGGTGGCGGTGAATGCGGGCGATCGTTTTGAAGCCCATATTGAAGGCATAGGTTCAGTTGCTGCGACATT +TTCAAGCGCAGCCCCAAAAGGAAGTCTGTCATGAGTAAGCGTAAAGTCGCCATTATCGGTTCTGGCAACA +TTGGTACCGATCTGATGATTAAAATTTTGCGTCACGGTCAGCATCTGGAGATGGCGGTGATGGTTGGCAT +TGATCCTCAGTCCGACGGTCTGGCGCGCGCCAGACGTATGGGCGTCGCCACCACCCATGAAGGGGTGATC +GGACTGATGAACATGCCTGAATTTGCTGATATCGACATTGTATTTGATGCGACCAGCGCCGGTGCTCATG +TGAAAAACGATGCCGCTTTACGCGAAGCGAAACCGGATATTCGCTTAATTGACCTGACGCCTGCTGCCAT +CGGCCCTTACTGCGTGCCGGTGGTTAACCTCGAGGCGAACGTCGATCAACTGAACGTCAACATGGTCACC +TGCGGCGGCCAGGCCACCATTCCAATGGTGGCGGCAGTTTCACGCGTGGCGCGTGTTCATTACGCCGAAA +TTATCGCTTCTATCGCCAGTAAATCTGCCGGACCTGGCACGCGTGCCAATATCGATGAATTTACGGAAAC +CACTTCCCGAGCCATTGAAGTGGTGGGCGGCGCGGCAAAAGGGAAGGCGATTATTGTGCTTAACCCAGCA +GAGCCACCGTTGATGATGCGTGACACGGTGTATGTATTGAGCGACGAAGCTTCACAAGATGATATCGAAG +CCTCAATCAATGAAATGGCTGAGGCGGTGCAGGCTTACGTACCGGGTTATCGCCTGAAACAGCGCGTGCA +GTTTGAAGTTATCCCGCAGGATAAACCGGTCAATTTACCGGGCGTGGGGCAATTCTCCGGACTGAAAACA +GCGGTCTGGCTGGAAGTCGAAGGCGCAGCGCATTATCTGCCTGCCTATGCGGGCAACCTCGACATTATGA +CTTCCAGTGCGCTGGCGACAGCGGAAAAAATGGCCCAGTCACTGGCGCGCAAGGCAGGAGAAGCGGCATG +AACGGTAAAAAACTTTATATCTCGGACGTCACATTGCGTGACGGTATGCACGCCATTCGTCATCAGTATT +CGCTGGAAAACGTTCGCCAGATTGCCAAAGCACTGGACGATGCCCGCGTGGATTCGATTGAAGTGGCCCA +CGGCGACGGTTTGCAAGGTTCCAGCTTTAACTATGGTTTCGGCGCACATAGCGACCTTGAATGGATTGAA +GCGGCGGCGGATGTGGTGAAGCACGCCAAAATCGCGACGTTGTTGCTGCCAGGAATCGGCACTATTCACG +ATCTGAAAAATGCCTGGCAGGCTGGCGCGCGGGTGGTTCGTGTGGCAACGCACTGTACCGAAGCTGATGT +TTCCGCCCAGCATATTCAGTATGCCCGCGAGCTCGGAATGGACACCGTTGGTTTTCTGATGATGAGCCAT +ATGACCACGCCGGAGAATCTCGCCAAGCAGGCAAAGCTGATGGAAGGCTACGGTGCGACCTGTATTTATG +TGGTGGATTCTGGCGGTGCGATGAACATGAGCGATATCCGTGACCGTTTCCGCGCCCTGAAAGCAGAGCT +GAAACCAGAAACGCAAACTGGCATGCACGCTCACCATAACCTGAGTCTTGGCGTGGCGAACTCTATCGCG +GCGGTGGAAGAGGGCTGCGACCGAATCGACGCCAGCCTCGCGGGAATGGGCGCGGGCGCAGGTAACGCAC +CGCTGGAAGTGTTTATTGCCGCCGCGGATAAACTGGGCTGGCAGCATGGGACCGATCTCTATGCGTTAAT +GGATGCCGCCGACGACCTGGTGCGTCCGTTGCAGGATCGACCGGTACGAGTCGATCGCGAAACGCTGGCG +CTGGGATACGCTGGTGTTTACTCGAGCTTCCTGCGTCACTGTGAAACGGCGGCGGCGCGTTATGGCTTAA +GTGCGGTGGATATTCTCGTTGAGCTGGGCAAACGCCGGATGGTTGGCGGCCAGGAGGATATGATCGTTGA +CGTGGCGCTGGATCTGCGCAACAACAAATAATGATGACTGCCGAGAACGTGCATTTTGTATGCCCATCCC +AGCACGACTGCCGGATGCGGCGTGAACGCCTTATCCGGCCTACGGATGGCGTGAGAATTTGTAGGTCTGA +TAAGACGCGTTAGCGTCGCATCAGGCATCTGCGCACGACTGCCGGATGCGGCGTGAACGCCTTATCCGGC +CTACGGATGGCGCGGGAATTTGTAGGCCTGATAAGACGCGTTAGCGTCGCATCAGGCATCTGCGCACGAC +TGCCGGATGCGGCGTGAACGCCTTATCCGGCCTACGGGTGGCGCGAGAATTTGTAGGCCTGATAAGACGC +GTTAGCGTCGCATCAGGCATCTGCGCACGACTGCCGGATGCGGCGTAAACGCCTTATCCGGCCTACGGAT +GGCGCGGGAATTTGTAGGCCTGATAAGACGCGTTAGCGTCGCATCAGGCATCTGCACACGACTGCCGGAT +GCGATAAACGTCTTGTCCGGCCTACATTTCGCCCGTAGGCAGTCATTAAATAGTTCTGATTACGCGGCTG +GCAATGTATCAGTCGCGATTCACCTGCACTCGCAACGAGGTTCATCTTATGTCGACTCGTACCCCTTCAT +CATCTTCATCCCGCCTGATGCTGACCATCGGGCTTTGTTTTTTGGTCGCTCTGATGGAAGGGCTGGATCT +TCAGGCGGCTGGCATTGCGGCGGGTGGCATCGCCCAGGCTTTCGCACTCGATAAAATGCAAATGGGCTGG +ATATTTAGCGCCGGAATACTCGGTTTGCTACCCGGCGCGTTGGTTGGCGGAATGCTGGCGGACCGTTATG +GTCGCAAGCGCATTTTGATTGGCTCAGTTGCGCTGTTTGGTTTGTTCTCACTGGCAACGGCGATTGCCTG +GGATTTCCCCTCACTGGTCTTTGCGCGGCTGATGACCGGTGTCGGGCTGGGGGCGGCGTTGCCGAATCTT +ATCGCCCTGACGTCTGAAGCCGCGGGTCCACGTTTTCGTGGGACGGCAGTGAGCCTGATGTATTGCGGTG +TTCCCATTGGCGCGGCGCTGGCGGCGACACTGGGTTTCGCGGGGGCAAACTTAGCATGGCAAACGGTGTT +TTGGGTAGGTGGTGTGGTGCCGTTGATTCTGGTGCCGCTATTAATGCGCTGGCTGCCGGAGTCGGCGGTT +TTCGCTGGCGAAAAACAGTCTGCGCCACCACTGCGTGCCTTATTTGCGCCAGAAACGGCAACCGCGACGC +TGCTGCTGTGGTTGTGTTATTTCTTCACTCTGCTGGTGGTCTACATGTTGATCAACTGGCTACCGCTACT +TTTGGTGGAGCAAGGATTCCAGCCATCGCAGGCGGCAGGGGTGATGTTTGCCCTGCAAATGGGGGCGGCA +AGCGGGACGTTAATGTTGGGCGCATTGATGGATAAGCTGCGTCCAGTAACCATGTCGCTACTGATTTATA +GCGGCATGTTAGCTTCGCTGCTGGCGCTTGGAACGGTGTCGTCATTTAACGGTATGTTGCTGGCGGGATT +TGTCGCGGGGTTGTTTGCGACAGGTGGGCAAAGCGTTTTGTATGCCCTGGCACCGTTGTTTTACAGTTCG +CAGATCCGCGCAACAGGTGTGGGAACAGCCGTGGCGGTAGGGCGTCTGGGGGCTATGAGCGGTCCGTTAC +TGGCCGGGAAAATGCTGGCATTAGGCACTGGCACGGTCGGCGTAATGGCCGCTTCTGCACCGGGTATTCT +TGTTGCTGGGTTGGCGGTGTTTATTTTGATGAGCCGGAGATCACGAATACAGCCGTGCGCCGATGCCTGA +CGTGCCTTATTAGGCAGGGGCGAAAGGGACTTCACCCCAATACACCTACGGCGTTTACAGGTATACTCGC +TAAAAATTATTCAGCGGGTTTGGAAACAAAGATGGCAAAACTTACCTTACAAGAGCAGTTGCTCAAAGCA +GGATTAGTCACCAGCAAAAAAGCGGCGAAGGTGGAGAGAACGGCGAAAAAATCGCGCGTTCAGGCGCGTG +AAGCTCGGGCGGCGGTAGAAGAAAATAAAAAGGCACAGCTTGAGCGTGATAAACAGCTTAGCGAACAGCA +AAAACAAGCGGCGTTGGCGAAAGAATATAAAGCTCAGGTGAAGCAGCTTATTGAAATGAACCGAATCACC +ATTGCCAATGGCGATATTGGTTTTAACTTCACTGACGGCAATCTGATTAAGAAGATTTTTGTCGATAAGC +TCACACAGGCGCAGTTGATTAATGGTCGTCTGGCGATTGCCCGCTTGTTGGTCGATAACAATAGCGAAGG +TGAATACGCCATTATTCCCGCCAGCGTTGCCGATAAAATTGCTCAGCGCGATGCCAGCAGTATAGTGTTG +CACAGCGCGCTCAGCGCCGAAGAGCAGGATGAAGACGACCCGTATGCCGACTTCAAAGTGCCTGATGATT +TGATGTGGTAAACATAGATAAGTCGTGCGCAGATGCCTGATGCGACGCTATGCGCGTCTTATCAGGCCTA +CGGTTTATGGGCGAAGTGTAGACCGGATAAGGCGTTCACGCCGCATCCGGCAGTCGTGCGCCATGCCTGA +TGCGACGCTTTGCGCGTCTTATCAGGCCTACGGCTTACGGGCGAAGTGTAGGCCGGATAAGGCGTTCACG +CCGCATCCGGCAGTCGTGCTATTATCAACGCATATTCAGTTTATTGGCGTGGTAGGCAATATGCTCGCCA +ATAAAACTGGAGACAAAATAATAGCTGTGATCATAACCCTCGTGATAACGGATTAACGTCTTGATATTCA +TCTCCTGGCAGATCTTTTCAAGATTTGGAGTCCGCAGCTGTTCTGCGTAAAAATCATCACTCAACCCCTG +ATCAACCATGATTTCCGCAACGCGTTGACCTTGTGAAATAAGACTCACCGGGTCGTAATCCAACCAGGCA +TCTTTATTTTCAGCAAGATATGCAGCAAAGGCTTGCTGTCCCCACGGCACTTGCGATGGGGAGACAATGG +GCGAAAACGCCGAGACGCTGACATATTCATCTGGGTTACGTAACGCCAGCACCAGCGCGCCCAGCCCGCC +CATAGAATGACCAGAGATAGACTTTTTGGCCGTTGCCGGAAAATGATGCATCACTAAATCCGGCAGCTCG +TTGCGGATATAGTCATACATTTTGTAATGTTCATTCCACGGCGCTTGCGTCGCGTTCAGGTAAAACCCGG +CACCTTGCCCGAGATCGTAACGGTCAGCATCTGCGACATGACTGCCTCGCGGACTGGTGTCCGGCGCAAC +AACAATAATGTTGTGCTCAGCCGCGTAACGCTGCATCCCCGATTTAGTAATGAAATTCTGCTCGTTGCAG +GTCAGGCCTGAAAGCCAGTACAGCACCGGCAATTTTTCATTCGCGGCTTTTGGTGGGAGATAGACGCCGA +CATTCATTTCACATTTCAGTGATTGGGAATAATGCCGATACATATTTTGCCAGCCGCCAAAGCTGACATG +TTTTTCAATGAGTTCCATCAGTCATTATCTCAGGGTTAATCCCCCGGACGGCTGCCCGGGGAGAGTATTA +AGAACCCCCGCCTGAAGTGGACGGGGTAAACCTGCGGGAAATCAGTAACGAATTACGGTTCGAATGGATT +TGCCTTCATGCATCAGGTCGAAGGCGTCATTAATTTCATCCAGGCTCATGGTATGCGTGACAAACGGTTC +CAGATCGATATCACCTTTCATCGCATCTTCAACCATGCCCGGTAACTGGGAACGACCTTTCACGCCGCCA +AACGCGGAACCTTTCCATACGCGACCAGTGACCAACTGGAATGGACGGGTGGAGATTTCCTGACCGGCAA +CCGCGACCCCGATGATCACCGACTGACCCCAGCCGCGGTGCGCACTTTCCAGCGCCGCACGCATCACGTT +GACGTTACCGATGCATTCAAAGGTATGGTCGATACCCCATTTGTTGATATCCAACAGGACATCTTTTATC +GGTTTGTCGTAGTCATTCGGGTTAATGCAGTCGGTAGCACCGAAGCGACGCGCCAGATCGAATTTCTTCG +GGTTGGTATCGATAGCGATAATCCGACCCGCTTTCGCCTGACGCGCGCCCTGAACCACTGCCAGACCAAT +CGCGCCAAGACCAAACACGGCAACAGAATCACCTGGCTGGACTTTAGCTGTGTTGTGTACCGCGCCAATA +CCGGTGGTCACGCCACAGCCCAGCAGGCAGACGTGTTCATGGTTTGCTTCTGGATTAATTTTTGCCAGAG +ACACTTCCGCGACTACGGTGTATTCACTGAATGTAGAGCACCCCATGTAGTGATAAAGCGGCTGCCCGTT +GTAAGAAAAACGGGTGGTGCCGTCTGGCATCAGGCCTTTACCCTGGGTTTCGCGAACCGCAACACAGAGG +TTAGTTTTGCCAGAACGACAGAACTCACACTCGCCGCACTCCGCGGTGTAAAGCGGGATCACATGGTCGC +CAGGTTTGACGCTGGTTACGCCTTCACCGACTTCAACCACAACGCCGGCCCCTTCGTGACCGAGAACCAC +CGGGAATACACCTTCCGGGTCATCGCCGGAGAGGGTAAATGCGTCGGTATGGCAAACGCCGGTATGGGTG +ACTTTAATTAGCACTTCACCTTTTTTCGGTGGTGCAACGTCAATTTCAACGATTTCCAGCGGTTTACCGG +GAGCAAATGCAACGGCAGCACGTGATTTCATCTCTCGCTCTTCCTCAATATGGTAATAGATTCAGCTATT +TAAGATAGGCACGAACCAGTTCAATAGTGTCGTCAACGGATTGGCTGACTTCGCGGCTGTAGCAGTCATT +TCGGTCAAACGTTTCCCGGATATGGCTTTCAAGCACTTCTGCCATCAGCCCATTAGCCGCGCCCCGAACG +GCAGCGATCTGTTGGAGTATGGCACGGCATTCGGCATCACCCTCCAGCGACCGTTCCAGAGCATCAATCT +GCCCCCGAATACGACGAACTCGAGTAAGGACCTTTTTCTTCTCTTCCGGAGTACTGGGCATTTCGCACCT +CATCATCTGCATGCAATATACTATAGGGGGGTATTCTATATGTCAATGCATACCCCCCTATAGTATATAA +CACTGGAGAATAAAATTTATCCGGTGAATGTGGTCGGAAAACAAAGAGGAAAGGGGGGGGGGCTAATCGG +CAGGGAAGGCCGCCCCGGATAGCGGGCGGCAGAAGGAATCAGAATTTCCAGGTCAGACGGGCTGCAAGTT +GCAGACCGTTAAAATCATCGGTTGGGGTGTCGTACCACACTTTACCTGCCGTCAGCCCGAGATTAAGTTG +CTCAGTCAGCGGTTGAATACGTTGCAGACTGACGCTCTTCATGCTGCCGTAGCGTGTTTCTGGCGTCCAG +TCATAGGTGTAAGCACCTGTTCCGCGGCTTAGCCATAGTTGCGTATAACCAGTGCCGCGCGGGTCATTCA +GACGCACGGAAATCATATTGCTATAACTACCACCTGCATCGCTGGAGTCATAATGGGTATAGCGGTAGCT +GGTGATCACCGGGCCAGTATAGAGTGATACGCCGCCTTGCCAGGCATCGACTTCGACATCATCGTAATAT +TTAGTGTAGCGATAACCGGTCGTGAAAAGCGTTTTTGGTAACAGGGCCAGGTTAATATCCTGACGAAAAT +CCTGGCGGGCAAAGACCGGCGTATTATCCGCAAAGGCAATACCCGTTCGGGTTGTCAGCCAGTTATTCCA +TTTATACCAGACCGCACCCTGACCGCGAGTGGCATTGAAATGTTCAGTTTCATAATCACGACGCCCCTGG +GAAAGATTAAAAAGCAGCGTTGCGTTTTCAACTTTCGCCACCAGTTCAGCATACGCTAAATTACGGTTGC +CATGATCGCCAGAATAATCGGTAAAATCGTAGCCCGCGGTAATGGAAGTTAACCCGGCATAAGCGGGCAA +TGCGCTAAAAATGGCCGCCGCTAATAACGTCCGTTTTATCATTTTAATCTCCTGTACGGATAAGTTCTTG +TCGGAGTGAATAAGTTCCGGTAGGTAAATTACGTTCTACAATCACGCGCGGGCCAAGTTGCGTGTTCGGG +GAAATAATTCGCCCAGGCAAAATAATAACTTGTACGCCAAGGCGTGAACGCTGCCCGATATAACAACCTA +ATTTATCGCATCCGGTAGCGATAATTCCCTCTGGAGTTCGAACAGACACGGGCTGTTCATCCAGACGATG +ATTACTGGTACGTACTTGTGCGCCTAAATATGCCTGGTTTGCAACTACCGAGTCGGCAATAAAACATTGC +GGACCAATCGTTGCTTCCGCTTCAATAACCGCATTTTTAATCTCGGTGGCAAAACCAATTTTTACGCCAT +TGCTGATTATTGTGCCAGGACGAATAAACGCATAATTACTAGACTGGCCCCCTGAATCTCCAGACAACCA +ATATCACTTAAATAAGTGATAGTCTTAATACTAGTTTTTAGACTAGTCATTGGAGAACAGATGATTGATG +TCTTAGGGCCGGAGAAACGCAGACGGCGTACCACACAGGAAAAGATCGCAATTGTTCAGCAGAGCTTTGA +ACCGGGGATGACGGTCTCCCTCGTTGCCCGGCAACATGGTGTAGCAGCCAGCCAGTTATTTCTCTGGCGT +AAGCAATACCAGGAAGGAAGTCTTACTGCTGTCGCCGCCGGAGAACAGGTTGTTCCTGCCTCTGAACTTG +CTGCCGCCATGAAGCAGATTAAAGAACTCCAGCGCCTGCTCGGCAAGAAAACGATGGAAAATGAACTCCT +CAAAGAAGCCGTTGAATATGGACGGGCAAAAAAGTGGATAGCGCACGCGCCCTTATTGCCCGGGGATGGG +GAGTAAGCTTAGTCAGCCGTTGTCTCCGGGTGTCGCGTGCGCAGTTGCACGTCATTCTCAGACGAACCGA +TGACTGGATGGATGGCCGCCGCAGTCGTCACACTGATGATACGGATGTGCTTCTCCGTATACACCATGTT +ATCGGAGAGCTGCCAACGTATGGTTATCGTCGGGTATGGGCGCTGCTTCGCAGACAGGCAGAACTTGATG +GTATGCCTGCGATCAATGCCAAACGTGTTTACCGGATCATGCGCCAGAATGCGCTGTTGCTTGAGCGAAA +ACCTGCTGTACCGCCATCGAAACGGGCACATACAGGCAGAGTGGCCGTGAAAGAAAGCAATCAGCGATGG +TGCTCTGACGGGTTCGAGTTCTGCTGTGATAACGGAGAGAGACTGCGTGTCACGTTCGCGCTGGACTGCT +GTGATCGTGAGGCACTGCACTGGGCGGTCACTACCGGCGGCTTCAACAGTGAAACAGTACAGGACGTCAT +GCTGGGAGCGGTGGAACGCCGCTTCGGCAACGATCTTCCGTCGTCTCCAGTGGAGTGGCTGACGGATAAT +GGTTCATGCTACCGGGCTAATGAAACACGCCAGTTCGCCCGGATGTTGGGACTTGAACCGAAGAACACGG +CGGTGCGGAGTCCGGAGAGTAACGGAATAGCAGAGAGCTTCGTGAAAACGATAAAGCGTGACTACATCAG +TATCATGCCCAAACCAGACGGGTTAACGGCAGCAAAGAACCTTGCAGAGGCGTTCGAGCATTATAACGAA +TGGCATCCGCATAGTGCGCTGGGTTATCGCTCGCCACGGGAATATCTGCGGCAGCGGGCTTGTAATGGGT +TAAGTGATAACAGATGTCTGGAAATATAGGGGCAAATCCAATTACCTATCAGGCAGTTTGCGCCAATCAC +TACCGGACCCTGAATAACGGCACCATGACAAATACGGGTATTCGCGCCGATAACAACTTCACCTGCAGTT +TCATCAATAATTACCTGGTCTGCAATCTGAATATTTTTCTCTTTAACATTAAGCTTCAGATAGTTTTTCA +GTTCCTGTGACAGAAGGTTGGGAATAAGCGGTTGACGCTTCCACCAGTGCGGAATAGCGGGTGGGTTTGT +CGCGCTGAGGTTCGCGTCCAGTAAAAAAGGCAATAAGTCCATAAATAATCCAGATGGCATAAGCTAATAA +TACATACACAACGGAAAGCGGCGCTAAAGGCACCAACAACCAGCAACGATGAAACCAGGCGCTAAAAGCA +CCAATAACACAAACTACGCCGACCCAGATAAGCGGAAACATTGCCAACACCACTCCATGCGGCCCGGTGG +TGATGAATTCATTAAACCAGGTAGTGAGATAAATCCCAACGCCATAAAGCACAACCAACAGCATAGGAAA +TATACTGAAGATACCGAAGCGGCTAAATAAAAGTCTTTTATGCAGGCGCATACAGACCGCGTATCCCACA +ATCCAACGCCGCCAGCGACGCCACTCCTCACGCGGGCTGTTGCATTCCTGTGGGTATACGATGCAGCGAT +TCGCCTGCCGAATACGGTAGCCGTTTGCCACCAATGTCCAGGTGAGATCAAGGTCTTCGACTTTAGTACG +ATCCGAGAAACCGAACTTACGCAATACATCAGTACGGAACATCCCGCAGGCACCGCTGATAATAAACGGT +GCGCCACCCAGGAGCTGCTGTAGCGTGCGCTTCATAACAATCATCGGCAACTTTACGGTCGCGCGGATGT +GCGGTAACAGACCCGCGCCTTTCAACGCAGTAGAGGGAATGCCGCCTACGGCATCGGCACCGCGCTCAAT +TTCTGCCAGCATATAGCCCATTCCGTCTTGATCGGGCGGAACATAGGTGTCGGCATCACTTAAAAAAACC +TGGTCGCAGGTGGCGTAATTGAGGCCATTCATCAGCGCACCACCTTTACCGGTATTTTTTTGCGTGACGG +CAACAAAGCGGTCGCCCCATTTGCGTTTGACTTCCGCCATGACCGCTTCGGTATTGTCCGTGGAGCCGTC +GTTAACGCAAATTACCCGGCAAAAATAAGGGTTACGCAGTAGATTATCCAGTGACTGCGCCAGACACGGG +CCTTCGTTATACGCAGGTATAATGGCGTCAATACAGCCTTTCTTTTGACTGGGTTTACGTCTTAGCGTAC +TTAAAAACCATAGCAACATTGCTATGGACATACAGATAAATATCCAGGTTTTCATGCAATTTGCTCAAAG +AATCATTTTATGAATTACAAAGCCTTCACCCAGATCGCTATTGACCTGTTGTCCGCGAAATTGTGCAACT +GCACGCAGGCGATCATGACGCATATAATCGCGTCGTTCCTAGCTTTTATGTTTTTTTAATGCAGCAAGTT +TGACTGTGAAATATTCTTCTTTAACGGATTCAAAAACCTGAGGCATAAATGAAAGCCAGGTACTTGGGGT +TTCGTAGCCGAGAATTTGCGGAATAGTTCGGCAGGCAACCATTGAAGCTTGATAAACAGCAAGATGATCC +TGATGGCGGTCGGCATCATGCATGGTATATACCCGCATGATTTCAACATCAGAAGGAATTTGATTTTTAA +TGATGTCTTCCAGGGCGGAAATCATATCATTGAGCTGTAAATGAGCGCGGGTGTCAGCAAAATTAAGATG +AATAGTTTGGTGGCACCCTAATATCTTTAGGGCGTTGCGCGATTCTTCATGGCGATCGATTATTCCATCT +GTGCCAGAGTTGCCGGTAGTCATCACCACGGCTGCGATATAAATTCCTTTTTGCGCAAGACGAGCAAGCG +ATGCGCCACAGCCTAATTCTATATCGTCAGGATGTGCGCCAATAGCAAGGATACCCTTTCTTTTATTTGC +CGAAGAAAGGAGGGCTGAATCTAAAACCTTATCCACTTAATGACACTCCATTTTATTTATTATACTACAA +GCACAACGATGCACTCAGAGACGTAATCTCTGGCGCAGCCAGATGTTAATTTATAAATGTTAAATGTTGC +TAATAACTGAAAAGCAAGGGCTTTCAGACCCGTGGGTTCGACTGGGTAATGTTTCTATGCAATTCATATG +TTAAGTGTTTGTATGTTTGGTATGTATAGTTATTTTGTTTTATACATTGTATTTAGATGTGATTTAGTTT +GTCAATTAATTGCATTTAAAAAATATGTTCTGTGAACAAGCATTGTTTATATACATTATGTGAATGTAAT +ATGCGAGTGATTGAGAATGATACAGTGATATATACAATGCGAATATAATAGTTTTATTATATGTATTGAT +ATTGATAGAAATAATGAAGTAATAAATCTCGTAATGTGGTTGTTTATGCATCACTAAAATGAAGTGTAGT +AATTTTCCCAATTGTTAGAACGGAGTAATTGCATATTTAATCTTTCCTTAGCCGTTTTTTTGCTAAGAAT +AAAATCATCTGTGCGATAACGACTAATTCTTTTAATGAATGTTTTTATTCCTGAATACTGCTCCCATAAC +AAGACAGGGGAGCAGACAATCATGGCAATTTCATCGCGTAACACACTTCTTGCCGCACTGGCATTCATCG +CTTTTCAGGCACAGGCGGTGAACGTCACCGTGGCGTATCAAACCTCAGCCGAACCGGCGAAAGTGGCTCA +GGCCGACAACACCTTTGCTAAAGAAAGCGGAGCAACCGTGGACTGGCGTAAGTTTGACAGCGGAGCCAGC +ATCGTGCGGGCGCTGGCTTCAGGCGACGTGCAAATCGGCAACCTCGGTTCCAGCCCGTTAGCGGTTGCAG +CCAGCCAACAGGTGCCGATTGAAGTCTTCTTGCTGGCGTCAAAACTGGGTAACTCCGAAGCGCTGGTGGT +AAAGAAAACTATCAGCAAACCGGAAGATCTGATTGGCAAACGCATCGCCGTACCGTTTATCTCCACCACC +CACTACAGCCTGCTGGCGGCACTGAAACACTGGGGCATTAAACCCGGGCAAGTGGAGATTGTGAACCTGC +AGCCGCCCGCGATTATCGCTGCCTGGCAGCGGGGAGATATTGATGGTGCTTATGTCTGGGCACCGGCGGT +TAACGCCCTGGAAAAAGACGGCAAGGTGTTGACCGATTCTGAACAGGTCGGGCAGTGGGGCGCGCCAACG +CTGGACGTCTGGGTGGTGCGCAAAGATTTTGCCGAGAAACATCCTGAGGTCGTGAAAGCGTTCGCTAAAA +GCGCCATCGATGCTCAGCAACCGTACATTGCTAACCCAGACGTGTGGCTGAAACAGCCGGAAAACATCAG +CAAACTGGCGCGTTTAAGCGGCGTGCCTGAAGGTGACGTTCCGGGGCTGGTGAAGGGGAATACCTATCTG +ACGCCGCAGCAACAAACGGCAGAACTGACCGGACCGGTGAACAAAGCGATCATCGACACCGCGCAGTTTT +TGAAAGAGCAGGGCAAGGTCCCGGCTGTAGCGAATGATTACAGCCAGTACGTTACCTCGCGCTTCGTGCA +ATAAAAGGAGGCGCAGATGCTGCAAATCTCTCATCTTTACGCCGATTATGGCGGCAAACCGGCACTGGAA +GATATCAACCTGACGCTGGAAAGCGGCGAGCTACTGGTGGTGCTGGGGCCGTCCGGCTGCGGTAAAACCA +CCCTGCTGAATCTGATTGCCGGTTTTGTGCCTTATCAGCATGGCAGCATTCAACTGGCGGGTAAGCGTAT +TGAGGGACCGGGAGCAGAGCGTGGCGTAGTTTTTCAGAATGAAGGGCTACTACCGTGGCGCAATGTACAG +GACAACGTGGCGTTCGGCCTGCAATTGGCAGGTATAGAGAAAATGCAGCGACTGGAAATCGCGCACCAGA +TGCTGAAAAAAGTGGGGCTGGAAGGCGCAGAAAAACGCTACATCTGGCAGCTTTCCGGTGGTCAACGTCA +GCGGGTGGGGATTGCTCGTGCGCTGGCGGCGAATCCCCAGCTGTTATTACTCGACGAACCGTTTGGTGCG +CTGGACGCCTTCACCCGCGACCAGATGCAAACCCTGCTGCTGAAACTCTGGCAGGAGACGGGCAAGCAGG +TGCTGTTGATTACCCACGATATAGAAGAAGCGGTGTTTATGGCGACTGAACTGGTTCTGCTTTCATCCGG +CCCTGGCCGTGTGCTGGAGCGGCTGCCGCTCAACTTTGCTCGCCGCTTTGTTGCGGGAGAGTCGAGCCGC +AGCATCAAGTCCGATCCACAATTCATCGCCATGCGCGAATATGTTTTAAGCCGCGTATTTGAGCAACGGG +AGGCGTTCTCATGAGTGTGCTCATTAATGAAAAACTGCATTCGCGGCGGCTGAAATGGCGCTGGCCGCTC +TCGCGTCAGGTGACCTTAAGCATTGGCACGTTAGCGGTTTTACTCACCGTATGGTGGACGGTGGCGACGC +TGCAACTGATTAGCCCGCTATTTTTGCCGCCGCCGCAACAGGTACTGGAAAAACTACTCACCATTGCCGG +ACCGCAAGGCTTTATGGACGCCACGCTGTGGCAGCATCTGGCAGCCAGTCTGACGCGCATTATGCTGGCG +CTATTTGCAGCGGTGTTGTTCGGTATTCCGGTCGGGATCGCGATGGGACTTAGCCCTACGGTACGCGGCA +TTCTGGATCCGATAATCGAGCTTTATCGTCCGGTGCCGCCGCTGGCTTATTTGCCGCTGATGGTGATCTG +GTTTGGTATTGGTGAAACCTCGAAGATCTTACTGATCTATTTAGCGATTTTTGCACCGGTGGCGATGTCG +GCGCTGGCGGGGGTGAAAAGCGTGCAGCAGGTTCGCATTCGTGCCGCCCAGTCGCTGGGTGCCAGCCGTG +CGCAGGTGCTGTGGTTTGTCATTTTGCCCGGTGCGCTGCCGGAAATCCTCACCGGATTACGTATTGGTCT +GGGGGTGGGCTGGTCTACGCTGGTGGCGGCGGAGCTGATTGCCGCGACGCGCGGTTTAGGATTTATGGTT +CAGTCAGCGGGTGAATTTCTCGCAACTGACGTGGTGCTGGCGGGGATCGCGGTGATTGCGATTATCGCCT +TTCTTTTAGAACTGGGTCTGCGCGCGTTACAGCGCCGCCTGACGCCCTGGCATGGAGAAGTACAATGAGT +GAACGTCTGAGCATTACCCCGCTGGGGCCGTATATCGGCGCACAAATTTCGGGTGCCGACCTGACGCGCC +CGTTAAGCGATAATCAGTTTGAACAGCTTTACCATGCGGTGCTGCGCCATCAGGTGGTGTTTCTACGCGA +TCAAGCTATTACGCCGCAGCAGCAACGCGCGCTGGCCCAGCGTTTTGGCGAATTGCATATTCACCCTGTT +TACCCGCATGCCGAAGGGGTTGACGAGATCATCGTGCTGGATACCCATAACGATAATCCGCCAGATAACG +ACAACTGGCATACCGATGTGACATTTATTGAAACGCCACCCGCAGGGGCGATTCTGGCAGCTAAAGAGTT +ACCTTCGACCGGCGGTGATACGCTCTGGACCAGCGGTATTGCGGCCTATGAGGCGCTCTCTGTTCCCTTC +CGCCAGCTGCTGAGTGGGCTGCGTGCGGAGCATGATTTCCGTAAATCGTTCCCGGAATACAAATACCGCA +AAACCGAGGAGGAACATCAACGCTGGCGCGAGGCGGTCGCGAAAAACCCGCCGTTGCTACATCCGGTGGT +GCGAACGCATCCGGTGAGCGGTAAACAGGCGCTGTTTGTGAATGAAGGCTTTACTACGCGAATTGTTGAT +GTGAGCGAGAAAGAGAGCGAAGCCTTGTTAAGTTTTTTGTTTGCCCATATCACCAAACCGGAGTTTCAGG +TGCGCTGGCGCTGGCAACCAAATGATATTGCGATTTGGGATAACCGCGTGACCCAGCACTATGCCAATGC +CGATTACCTGCCACAGCGACGGATAATGCATCGGGCGACGATCCTTGGGGATAAACCGTTTTATCGGGCG +GGGTAATACGAGAGTGGACGGTCCCCTCGCCCCCTTGGGGAGAGGGTTAGGGTGAGGGGGCGTTCACCGT +ACTTTCAACAGGTTAACTCCCCCTTTCTGAGAGGAAACAAAATTAACGCAGAATCTTCTTCTCAGCCAAA +TCCAGCGCAAAGTAGCTGAAAATCAGATCCGCACCCGCACGCTTAATCGAACCTAAGCTTTCGAGCACGA +CTTTCTCTTCATCTATAGCACCCGCCAGCGCGGCGAACTTAATCATCGCATACTCACCGCTCACCTGATA +CGCGCCAATCGGCAATTCAGTACGTTCACGCAGCTCACGCACGATGTCGAGGTACGCTCCAGCAGGTTTA +ACCATCAGGCAGTCTGCGCCCTGGGCTTCATCCAGCAGTGATTCACGAATCGCCTCACGACGGTTCATTG +GGTTCATCTGATAGCTTTTGCGGTCGCCTTTTAATGCGCTTCCGGCAGCTTCACGGAACGGGCCATAAAA +GGAGGAGGCGAACTTGGTCGAATACGACATAATCGCCGTATCTTTAAATCCCGCAGCGTCCAGCGCCTGA +CGAATCGCCTGTACCTGGCCGTCCATCGCGGCGGAAGGGGCGATGAAGTCTGCACCTGCAGCAGCTGCAA +CCACGGCTTGCTTGCCTAAATTTTCCAGAGTCGCGTCGTTGTCGACGCCATGCTCGCACAGCACACCGCA +GTGACCGTGAGAAGTGTATTCACAGAAGCAGGTGTCTGACATAACGATCATTTCTGGCACGGTCTGCTTG +CAGATGCGCGACATACGCGCCACCAGTCCATCTTCCCGCCAGGCATCGCTGCCGGTTTCATCGGTATGGT +GAGAGATGCCAAAAGTCATCACGGAACGAATACCGGCGTTGGCGATGCGTTCAATTTCGCGTGCCAGATG +TTTCTCTGGAATGCGCATCACGCCTGGCATGGCTTCAACGGCTTTGTAGTCGTCAATTTCTTCTTCAACA +AAGATCGGCAACACCAGGTCGTTAAGGCTAAGTGTTGTCTCTTCAAACATAGCGCGCAGCGCAGGAGATT +TGCGCAGGCGACGAGGGCGTTGGATTAAGTCTGTCATGGTCTGCCTGATGTTTGTGGAATCGAGGGGCAT +AGTATACCTGAAGCAGGGTAGGGATGTTTTACGAAAGTTGTCGCGATGTTGACAAGAAGAGAATGGAAGA +GAGGCCAGGACATCTTTTTAATAGAAACAGCAATAATTTTATATTCACTGAAAATATTTTTAATCTTTAT +TTATAGCTGTTGGTTATTATTTTTTGGAGTTTGGTTGCGCTGCTATAAATTGAATAATTAAAACTTTGTT +GCATATTCATAGGATATTTATCTGGTTTGTGTTTGTGATATTTATTATGCGTATGCTTCAAAAACAAAAT +TATCTGCAACATGTTGAAATACTGTGCTTTTATGAATTTGATGCGTGTTTTTCTCCATAAATTATATATG +TCCACATTCGGACTTAGGGGAAAGAATAATTGAACCATTCGTCTGTAACGCAGCATAATCGTTAGCGCGA +AACATAATATGTTTTCTATGCATTGATAATTGATGGATCAACTTATTACGTCCCTGAGGAGGGATGACAA +ATGCACTCCTGGAAAAAGAAACTTGTAGTATCACAATTAGCATTGGCTTGCACTCTGGCTATCACCTCTC +AGGCTAATGCAGCAAACTATGATACCTGGACTTATATCGATAATCCCGTTACAGCACTTGATTGGGATCA +TATGGATAAGGCAGGCACTGTAGATGGCAACTATGTAAACTATAGTGGTTTTGTCTATTACAACAACACC +AATGGTGATTTCGATCAGTCCTTTAACGGCGATACCGTTAACGGCACGATCTCAACCTATTATTTGAACC +ATGATTATGCAGACAGTACTGCTAATCAGCTTGATATCAGTAATTCAGTGATTCACGGTTCGATTACTTC +TATGCTGCCTGGCGGTTATTATGATCGTTTTGATGCAGATGGTAATAATCTGGGTGGATATGATTTTTAC +ACTGATGCGGTTGTTGATACACACTGGCGTGATGGTGATGTTTTCACTTTGAACATTGCTAACACTACTA +TTGATGATGATTATGAAGCTCTTTACTTCACTGATTCTTATAAAGATGGTGATGTAACCAAGCACACAAA +TGAGACATTTGATACAAGTGAAGGCGTTGCTGTTAATCTTGATGTAGAAAGTAACATCAATATTTCCAAT +AACTCCCGCGTTGCAGGTATTGCATTATCTCAAGGTAATACTTACAACGAAACCTACACTACCGAATCTC +ATACTTGGGATAACAATATCTCTGTAAAAGATTCCACAGTGACTTCGGGTTCAAATTATATCCTGGATAG +CAATACTTATGGCAAAACTGGTCACTTTGGCAATTCTGATGAACCGAGTGATTATGCTGGCCCGGGTGAT +GTTGCAATGTCCTTTACTGCTTCAGGTTCCGACTATGCGATGAAGAACAATGTATTCCTCAGCAATTCAA +CGCTGATGGGTGATGTTGCCTTTACCAGCACCTGGAATAGTAATTTTGATCCGAATGGTCATGATTCCAA +CGGTGACGGGGTGAAAGATACCAACGGGGGTTGGACTGATGATAGCCTCAACGTTGATGAACTAAATCTC +ACTCTCGATAACGGAAGCAAGTGGGTTGGTCAGGCAATTTATAACGTTGCTGAAACGTCAGCAATGTATG +ATGTTGCTACAAACAGCCTTACTCCTGATGCAACATATGAAAACAATGACTGGAAACGTGTTGTTGATGA +CAAGGTCTTCCAGAGCGGTGTATTTAACGTAGCGTTGAATAACGGTTCTGAATGGGATACTACAGGTCGT +TCCATCGTTGATACCTTGACAGTTAATAATGGTTCTCAGGTTAATGTTTCGGAATCTAAATTAACTTCAG +ATACTATCGATTTAACTAACGGTTCTTCGCTGAACATTGGTGAAGATGGCTACGTTGATACCGATCATCT +GACTATTAACTCCTACAGTACTGTTGCGTTGACCGAATCTACTGGGTGGGGGGCTGATTGATCCTACCCA +CGTAATATGGACACAGGCCTAAGCGAGGTTCTTGTTTTCAAATTGTTCCGGACTGAGGCCGCCACACCAA +CTGTGCCGCCGCCACCGATTGTAATCACATTCGATATAATTAAACACCGTTGCCCGCATTATTTCCCGGC +TGATAAAGTGTTCTCCATGGATACATTCCACTTTCAGCGAATGAAAGAAGCTTTCCACGCAGGCATTATC +GTAGCAGCAACCTTTTGCGCTCATACTTCCACGCAGATTATGCCGCTTCAGTTGCGCCTGATAATCTGCT +GAACAGTACTGGCCTCCACGGTCCGTGTGAACGATAACGTTCCGGGGCCTCTTACGCCGCCACAGCGCCA +TCTGCAGGGCATCGCAGGCCAGTTGCGCCGTCATGCGTGGCGACATTGACCAGCCAATAACGGCACGTGA +CCACAGGTCAATGACCACTGCCAGATACAGCCAGCCTTCATCTGTACGTAAGTACGTGATGTCTCCTGCC +CACTTCTGGTTCGGGCCACTGGCGTAAAAATCCTGCTCCAACAGATTTTCTGACACAGGCAGGCCGTGTG +CGCGGTAGCTGACCGGGCTGAACTTCCGGGAGGCCTTTGCCCTCAGTCCCTGACGGCGCAGGCTTGCCGC +CACGGTTTTTACGTTAAAGGGGTAACCCTGAGCACGCAGTTCATCCGTCAGGCGTGGGGCACCGTAACGC +TGTTTTGACCGGGTAAAAGCCGCGAGGACAACGCTGTCGCAGTGTTGGCGGAACTGCTGACGCGTGCTTA +TCCTTGTCCGCCGCTGACACCACGTATACCAGCCGCTGCGGGCCACCCGGAGCACGCGGCACATTGCTTT +GATGCTGAACTCAGCCTGATGTTTTTCAATAAAGACATACTTCATTTCAGGCGCTTCGCGAAGTATGTCG +CGGCCTTTTGGAGGATAGCCAGCTCTTCATCCCGTTCTGCCAGCTGGCGTTTGAGACGTGCAATCTCGGT +AGACATCTCCAGTTCACGTTCAGAAGACGTCTGCTGATTTTGCTGTTTACTGCGCCAGTTGTAGAGTTGT +GATTCATACAGGCTGAGTTCACGGGCTGCGGCAGTAACACCGATGCGTTCAGCAAGCTTCAGGGCTTCAC +TGCGAAATTCAGGCGAATGCTGTTTACGGGGTTTTTTACTGGTTGATACTGTTTTTGTCATGTGAGTCAC +CTCTGACTGAGAGTTTACTCACTTAGCCGCGTGTCCACTATTGCTGGGTAAGATCAGATTACAACCTGTA +CGCCAATACTATCACCGTAACTAACGGCGGTGTATTGGATGTGAACGTTGATCAGTTCGATACTGAAGCT +TTCCGTACTGACAAACTGGAACTGACCAGCGGCAACATCGCTGACCATAACGGTAACGTAGTATCTGGTG +TGTTCGATATCCATAGCAGCGATTACGTTCTGAACGCTGATCTGGTGAACGACCGTACCTGGGATACTTC +CAAGTCTAACTACGGTTACGGTATTGTTGCTATGAACTCTGATGGTCACCTGACTATCAACGGTAACGGC +GACGTAGACAACGGTACTGAACTGGATAACAGCTCTGTAGACAATGTTGTTGCTGCAACCGGTAACTACA +AAGTTCGTATCGACAACGCAACTGGCGCTGGCGCTATCGCTGATTACAAAGATAAAGAAATTATCTACGT +AAACGACGTCAACAGCAACGCGACCTTCTCTGCTGCTAACAAAGCTGACCTGGGTGCATACACCTATCAG +GCTGAACAGCGCGGTAACACCGTTGTTCTGCAACAGATGGAGCTGACCGACTACGCTAACATGGCGCTGA +GCATCCCGTCTGCGAACACCAATATCTGGAACCTGGAACAAGACACCGTTGGTACTCGTCTGACCAACTC +TCGTCATGGCCTGGCTGATAACGGCGGCGCATGGGTAAGCTACTTCGGTGGTAACTTCAACGGCGACAAC +GGCACCATCAACTATGATCAGGATGTTAACGGCATCATGGTCGGTGTTGATACCAAAATTGACGGTAACA +ACGCTAAGTGGATCGTCGGTGCGGCTGCAGGCTTCGCTAAAGGTGACATGAATGACCGTTCTGGTCAGGT +GGATCAAGACAGCCAGACTGCCTACATCTACTCTTCTGCTCACTTCGCGAACAACGTCTTTGTTGATGGT +AGCTTGAGCTACTCTCACTTCAACAACGACCTGTCTGCAACCATGAGCAACGGTACTTACGTTGACGGTA +GCACCAACTCCGACGCTTGGGGCTTCGGTTTGAAAGCCGGTTACGACTTCAAACTGGGTGATGCTGGTTA +CGTGACTCCTTACGGCAGCGTTTCTGGTCTGTTCCAGTCTGGTGATGACTACCAGCTGAGCAACGACATG +AAAGTTGACGGTCAGTCTTACGACAGCATGCGTTATGAACTGGGTGTAGATGCAGGTTATACCTTCACCT +ACAGCGAAGATCAGGCTCTGACTCCGTACTTCAAACTGGCTTACGTCTACGACGACTCTAACAACGATAA +CGATGTGAACGGCGATTCCATCGATAACGGTACTGAAGGGTCTGCGGTACGTGTTGGTCTGGGTACTCAG +TTTAGCTTCACCAAGAACTTCAGCGCCTATACCGATGCTAACTACCTCGGTGGTGGTGACGTAGATCAAG +ACTGGTCCGCGAACGTGGGTGTTAAATATACCTGGTAATATTCTTCACTCCGAAGAAATACTGGTAATTT +AATCTAAATAATGCCCGTCAAGGATTTGACGGGCATTACTGCAAAGGACGCGCAAATGTTATCTGTAGTT +AAACCTCTTCAGGAATTTGGTAAGCTCGATAAATGTTTGTCCAGATACGGTACGCGCTTCGAGTTTAATA +ATGAAAAGCAAGTTATATTTTCCAGTGATGTCAATAACGAAGATACTTTCGTTATTTTAGAGGGAGTTAT +CTCTCTGCGTAGAGAAGAAAACGTACTTATCGGTATTACCCAGGCTCCTTATATTATGGGGCTGGCTGAT +GGTTTAATGAAAAACGATATACCATACAAATTAATATCAGAAGGAAATTGTACGGGATATCATCTACCAG +CCAAACAAACCATTACGCTTATTGAACAAAATCAACTCTGGCGAGACGCTTTTTACTGGTTAGCCTGGCA +AAATAGAATTCTGGAATTACGCGACGTGCAGCTCATTGGGCATAATTCCTACGAACAAATCCGCGCAACA +TTATTATCAATGATTGACTGGAATGAAGAATTGCGATCACGTATTGGTGTGATGAATTATATCCATCAAC +GTACACGCATATCGCGTTCTGTCGTCGCAGAAGTTCTCGCTGCTTTGCGTAAAGGCGGCTATATCGAAAT +GAATAAAGGCAAACTGGTCGCTATCAACCGTTTGCCTTCAGAGTATTAATCAGGACGCGGGGATAACCAA +CGGTTTATTCCCGCTTAGCTCGGTCACCAGGTCATTGATGCCATCGCTCATATTTTTAAAGCGCGTCAAC +GGCGAACGAGTGACCACCACAAACGCGCCAATATTCTTCTGCGGGATCATCGCCATATAGGTAATGAAAC +CGCCACCACCGCCTGTCTTCTGAATAATCCCCGGACGACCCTCTTTCGGGGCCATATATACCCAACCTAA +ACCAAGCGCATCCGCTTTGCCGGGGACATCCATGCCAATCACTTTCGTAAACTGCGCGCGCTGATAAATC +AACGTCTGCATGCGATCTGCCTGGTTACTGCGCTGATAAAAATCAGATGACAAATACTGCTGCATCCAGC +GCATCATATCGCCAGGCGTGGAATAGACGCCGCCGCTGCCAATTGCCGCCAGCGTGTTATTGCACGGACT +GGCACCGCGCTCAGCAACCATTAAACGGCGGCACTGATCCGGTGAGGGGGTGTAGGTGGTGTCTTTCATC +CCCAATGGACGGGTAATCTGCTCTTCAAACAACTGGGTATAAGGCTTGCCGGACGCATTCGCCAGTGCAT +CTGCCAGCAGGTCGAACGCAAGGTTAGAGTACGCCGCCTGACTGCCTGGCGCGGCTTTCAGCTTCGCCGT +AGAAAGGTATTTCCAGCGTTGCTCGCGCGTTGGCCAGACAAACACCGGACGATGTGCCGCGCCACCGGGC +TGTTCACGGGGCAGGGCGCTGGTATGGGTTGCCAGATTGACCAGCGTAATGGGCGTCCCATTGTAGGTTG +GCACGCGTGCGCCTGGCGGAGCATATTTACTTAGCGGATCGTTTAACTTCACGGTCCCCTGGTCGAGCAA +TTTCACCAGCATCTCACTGGTCATTAGCTTGGTGAGGGAAGCAATACGCACGACCGAATCCAGCTGCGGG +CGAACGTTATTACCAGGTCGCGTTTCGCCATAACTGCGAAAGACGCGCTGGTTACCGTCGATAACAACCA +GAGCCATCCCCGTGGCACCGCTGCCGTAAAAAATATGATCGGCATAACGATCGACAATATCAGAGGCAAA +CTCCGGTTCAGTGATCGGCTGCGCCGCATGGACGGAGGTCAATGACGCCGCACACAGCACGGCAGAAAAA +AGCAGACTACGTTTCAACGGTGGTGTCCATAGATTGAATGAAGGTAACTGAGCGTATTTATACTACTCAT +TGATAGATTGCAAAGGGCGAATTAGTGCAATAATAGTGTTAAAAACGTAACGGCGCGTAAACACGATCTT +TTTCCTGCTCACCAATGCCTGCATTTGTGATCCTGCGCGTGTTAATCCGCTTATGTAAACAATCTTTGGT +TTGTGAAATCCGTCGAAACAATTCTTATGGTCAGGCTGGCGAACTAAGCGCCTTGCTATGGGTCACAATG +GGCGGTTTCATTTGGCTGACGCTTTGTAGCGGTCATGCGGTTAATACACAGCAGTTGTTAAAACGATAAG +AAGTTAGCAGGAGTGCATATGTTTAAGTCTTTTTTCCCAAAGCCGGGAACGTTTTTTCTCTCGGCCTTCG +TTTGGGCATTGATTGCCGTTATCTTCTGGCAAGCCGGTGGGGGTGACTGGGTGGCGCGTATCACCGGCGC +TTCCGGGCAGATCCCGATTAGCGCCGCGCGTTTCTGGTCGTTGGATTTCCTGATTTTTTACGCTTACTAC +ATTGTTTGCGTAGGACTTTTTGCATTGTTCTGGTTTATCTACAGCCCGCATCGTTGGCAATACTGGTCAA +TACTCGGTACTGCACTGATCATCTTCGTCACCTGGTTTTTGGTGGAAGTCGGGGTCGCCGTCAACGCCTG +GTATGCGCCGTTCTATGATCTGATTCAAACCGCGCTAAGTTCGCCGCATAAAGTCACCATCGAACAATTT +TACCGCGAAGTGGGCGTCTTTCTGGGGATTGCGCTGATCGCTGTGGTGATCAGTGTGCTGAACAACTTCT +TTGTCAGTCACTACGTGTTCCGCTGGCGTACAGCGATGAACGAATATTACATGGCGAACTGGCAACAACT +GCGTCATATCGAAGGGGCCGCACAGCGTGTGCAGGAAGACACCATGCGTTTTGCTTCAACGCTGGAGAAT +ATGGGCGTCAGTTTTATCAACGCCATCATGACGTTGATCGCCTTCCTGCCGGTGCTGGTAACGCTCTCCG +CGCATGTGCCGGAGCTGCCGATTATCGGGCACATTCCGTATGGTCTGGTGATTGCCGCAATCGTCTGGTC +GCTGATGGGGACCGGATTGCTGGCAGTGGTAGGGATCAAACTGCCGGGGCTGGAGTTTAAAAACCAGCGT +GTAGAGGCTGCCTACCGTAAAGAGCTGGTTTATGGTGAAGACGATGCCACGCGCGCGACGCCGCCTACGG +TACGCGAGCTGTTTAGCGCCGTACGGAAAAACTATTTCCGCCTCTATTTTCACTATATGTATTTCAACAT +CGCCCGCATTCTCTATTTGCAGGTCGATAACGTTTTCGGTTTGTTCTTGCTGTTTCCGTCAATTGTTGCC +GGTACGATTACGCTCGGCCTGATGACGCAGATTACCAACGTTTTTGGTCAGGTTCGCGGTGCTTTCCAGT +ACCTGATTAACTCATGGACCACACTGGTTGAGTTGATGTCTATCTACAAACGTCTGCGCAGCTTTGAACA +TGAGCTGGATGGTGACAAAATTCAGGAAGTAACCCATACCTTGAGCTAAAAAGGAGAAGTAATGTCGCGC +GTCAATCCTCTATCTTCGCTGTCATTGTTGGCGGTTCTGGTTTTAGCGGGGTGTAGTAGTCAGGCTCCGC +AACCGTTGAAAAAGGGCGAAAAAGCGATAGATGTAGCGAGCGTCGTGCGGCAGAAGATGCCTGCGAGCGT +GAAAGACCGCGATGCCTGGGCGAAAGATCTCGCCACCACCTTTGAAAGTCAGGGGCTGGCACCGACGCTG +GAAAACGTCTGCTCGGTGCTGGCGGTGGCGCAGCAGGAGTCAAATTATCAGGCAGATCCGGCCGTTCCGG +GCTTAAGCAAGATCGCCTGGCAAGAGATTGACCGTCGTGCTGAACGGATGCACATTCCTGCTTTTCTGGT +TCATACCGCGCTAAAAATCAAATCGCCAAACGGCAAAAGTTATAGCGAACGGTTAGATTCGGTGCGTACA +GAAAAGCAATTGAGCGCGATTTTTGACGATCTGATCAACATGGTGCCAATGGGGCAGACGCTGTTTGGTT +CGCTCAATCCGGTGCGCACCGGTGGGCCGATGCAGGTCAGCATTGCTTTTGCCGAACAGCATACCAAAGG +GTATCCGTGGAAAATGGACGGTACAGTCCGTCAGGAAGTCTTCAGTCGCCGCGGCGGGTTGTGGTTTGGT +ACTTACCATTTACTGAATTATCCCGCCAGTTATAGCGCACCGATATACCGTTTTGCTGATTTTAACGCTG +GCTGGTACGCCAGCCGTAATGCCGCGTTTCAGAACGCGGTCAGTAAGGCCAGCGGCGTGAAGCTGGCACT +GGACGGTGATTTAATTCGTTACGACAGTAAAGAACCCGGGAAAACCGAACTGGCAACGCGCAAACTGGCT +GCAAAACTGGGGATGAGCGACAGCGAAATTCGCCGTCAGTTAGAGAAAGGTGACAGCTTCTCTTTTGAGG +AGACGGCGCTGTACAAGAAAGTTTATCAACTTGCCGAAACGAAAACGGGTAAATCACTCCCCCGCGAAAT +GTTGCCTGGCATTCAACTGGAAAGCCCGAAAATCACCCGCAACCTGACTACGGCCTGGTTTGCGAAGCGC +GTAGACGAACGGCGGGCGCGTTGTATGAAACAGTGATCAAACAGGAATGTCAGGCCAGATAAGGCGTTTC +AGGCCGCATCTGACAATGTAAAACTTACTGGCGGCGATGTCGCCAGTGCAGCCATAGCGCCACCACTGCA +AAAATGAGGCAGCCTACTAAAAACGGGATCAGCCCGAAAATGGTGCCGACACCTAAACCAATTTCCACCC +GTGGGCGACCTGTTTCCTGGACCTGCATTAAACGCTCATAGACGCCGGGCGCATGCACTAACAGGTTCAG +CAATTGCGCCCCAGCCCAAAAGCAAAACAGCACAAACAACGCATAGGCAATGTTGCCAGGCGTTGAAGAG +GCATTGCGATATTTTCCGCTAAACAGCGATTTTGACAGGGTGAAATCAGCCATAAAAACCTCCGGAAGTC +ATCTGCTTCTCTTCTGGTGTGATACCAGCGGCTTATGGCAAGTCTGACAGGTCATTTAGATTGTCAATAT +CAGAATCATGGTAAATTGATGTTGGGAATATTCCCGAAGCGTGAATCTTCGTTGTGAGTCACAAAATGGC +AACCTTAAGTTAAATTTATTAACAATTACGAAAATGTTGTCTACACCACAGACGGTTGTTGCAGAATATG +CAAGGATGTTGTTTTTCGTTAACGGAGCTGCCATGAATCTGCCTGTAAAAATCCGCCGTGACTGGCACTA +CTATGCGTTCGCCATTGGCCTTATATTCATTCTTAATGGCGTGGTGGGGTTACTGGGATTTGAAGCAAAA +GGTTGGCAGACCTATGCCGTCGGTCTGGTGACGTGGGTGATTAGTTTCTGGCTGGCGGGGTTGATTATTC +GTCGTCGCGATGAAGAAACTGAAAACGCCCAATAAGAATATTATCGGGCGTTAAAATATTACATTGTGGT +TTTCAATGCGTTATCCGCAGCGTGACGCTCCAGCGCCAGTTCAATCAAACGTGTGATCAGATCGGTGTAA +CCCAGACCGCTGGCTTGCCACAGCTTCGGATACATACTGATATTAGTGAAGCCAGGCAGGGTGTTGATCT +CGTTGATCACCACTTCGTTCTCTGGGGTTAAAAACACGTCTACACGCGCCATGCCTGCGCATCCCAACGT +TTGATAAGCCTGAACGGCAATCGCCCGGATCTTATCGTTGATTTCTGGCGCAATGGCTGCCGGAACTACC +ACTTTCGCGCCATCTTCGTCAATGTACTTGGTGTCGTAGGCATAGAAATCGCTGGTGAGTACGATCTCTC +CACAGGTGCTGGCTTGCGGATTGTCGTTGCCCAGAACTGCGCATTCGATCTCACGACCTTTGATCCCTTG +CTCAACGATCACTTTATGATCGAACTCGAACGCCAGATCGACGGCAATTGCGTACTGTTCTTCACTGGTT +ACTTTGCTGACACCAACAGAAGAGCCCTGATTAGCCGGTTTTACAAACAGTGGTAACCCCAGTTTAGACT +CCACTTCGGCAAAACTAATGTTGTGACGATTGGCGCGCGTCAGGGTAATAAATGGCGCAATGTTCAGCCC +GGCATCGCGTAGCAGACGTTTGGTGACATCTTTGTCCATACAGGCTGCTGAAGCCAGAACATCAGAACCT +ACAAACGGTAAATTGGCGACCCGCAGCATTCCCTGCAAGGAACCATCTTCGCCCAGCGTACCGTGGACAA +TCGGGAAAATGACATCCACCGTCGGCAACGGCTGACCGTTTTGCGCGTCGATAAGCTGATGCTCATGTTT +ACCTGGCACCTGCGCAAGGCTGGTCGCCGAAGGGCGCAACGCAATATGGGCAGGATCGTCTGCATTTAGC +AGATAATTGCTGGCATCGCTGACGTGCCATTGCCCTTGTTTATCAATGCCCAGCAGCACAACGTCGAAGC +GACTTTTATCAATGGCATCGACAATGTTTTTTGCCGATTGCAGAGACACTTCATGTTCCGCTGATTTACC +ACCAAAAACGATTCCTACCCGCAGTTTTTCCATCTTAAAAACCTATCCCGTCTAACACAAAGTGCATACA +TTACCACGACAAAACGGGGGATTCGCGGCCTTCTGAAAGATTGTTGCAATCTTCTGCTGACAAAGCGTGC +AACGTACTGGTGAAGAAAGTGCGTTATCTCAAAGATGTGCGCAAGATCACAAAAATGATGAACGGGAAGC +TAATTTATTCCTGGCTTAAATGGCCATGCGGTGAGTTTTTTTCTCTTAATTATAAGTTAACGAAGAGAAT +ATATTTCATAACTTTTATTTATAATAAAGGTTGATAATTAAAAGCCTATATTTTGTGTGGGTAATTATTT +AAATAAGAGAAACGTTTCGCTGGTAATCAAACAAAAAATATTTGCGCAAAGTATTTCCTTTGTCATAAAA +ATAATACTTCCAGACACTATGAAGTTGTGAAACATAATGTTAACTTCTCCATACTTTGGATAAGGAAATA +CAGACATGAAAAATCTCATTGCTGAGTTGTTATTTAAGCTTGCCCAAAAAGAAGAAGAGTCGAAAGAACT +GTGTGCGCAGGTAGAAGCTTTGGAGATTATCGTCACTGCAATGCTTCGCAATATGGCGCAAAATGACCAA +CAGCGGTTGATTGATCAGGTAGAGGGGGCGCTGTACGAGGTAAAGCCCGATGCCAGCATTCCTGACGACG +ATACGGAGCTGCTGCGCGATTACGTAAAGAAGTTATTGAAGCATCCTCGTCAGTAAAAAGTTAATCTTTT +CAACAGCTGTCATAAAGTTGTCACGGCCGAGACTTATAGTCGCTTTGTTTTTATTTTTTAATGTATTTGT +ACATGGAGAAAATAAAGTGAAACAAAGCACTATTGCACTGGCACTCTTACCGTTACTGTTTACCCCTGTG +ACAAAAGCCCGGACACCAGAAATGCCTGTTCTGGAAAACCGGGCTGCTCAGGGCGATATTACTGCACCCG +GCGGTGCTCGCCGTTTAACGGGTGATCAGACTGCCGCTCTGCGTGATTCTCTTAGCGATAAACCTGCAAA +AAATATTATTTTGCTGATTGGCGATGGGATGGGGGACTCGGAAATTACTGCCGCACGTAATTATGCCGAA +GGTGCGGGCGGCTTTTTTAAAGGTATAGATGCCTTACCGCTTACCGGGCAATACACTCACTATGCGCTGA +ATAAAAAAACCGGCAAACCGGACTACGTCACCGACTCGGCTGCATCAGCAACCGCCTGGTCAACCGGTGT +CAAAACCTATAACGGCGCGCTGGGCGTCGATATTCACGAAAAAGATCACCCAACGATTCTGGAAATGGCA +AAAGCCGCAGGTCTGGCGACCGGTAACGTTTCTACCGCAGAGTTGCAGGATGCCACGCCCGCTGCGCTGG +TGGCACATGTGACCTCGCGCAAATGCTACGGTCCGAGCGCGACCAGTGAAAAATGTCCGGGTAACGCTCT +GGAAAAAGGCGGAAAAGGATCGATTACCGAACAGCTGCTTAACGCTCGTGCCGACGTTACGCTTGGCGGC +GGCGCAAAAACCTTTGCTGAAACGGCAACCGCTGGTGAATGGCAGGGAAAAACGCTGCGTGAACAGGCAC +AGGCGCGTGGTTATCAGTTGGTGAGCGATGCTGCCTCACTGAATTCGGTGACGGAAGCGAATCAGCAAAA +ACCCCTGCTTGGCCTGTTTGCTGACGGCAATATGCCAGTGCGCTGGCTAGGACCGAAAGCAACGTACCAT +GGCAATATCGATAAGCCCGCAGTCACCTGTACGCCAAATCCGCAACGTAATGACAGTGTACCAACCCTGG +CGCAGATGACCGACAAAGCCATTGAATTGTTGAGTAAAAATGAGAAAGGCTTTTTCCTGCAAGTTGAAGG +TGCGTCAATCGATAAACAGGATCATGCTGCGAATCCTTGTGGGCAAATTGGCGAGACGGTCGATCTCGAT +GAAGCCGTACAACGGGCGCTGGAATTCGCTAAAAAGGAGGGTAACACGCTGGTCATAGTCACCGCTGATC +ACGCCCACGCCAGCCAGATTGTTGCGCCGGATACCAAAGCTCCGGGCCTCACCCAGGCGCTAAATACCAA +AGATGGCGCAGTGATGGTGATGAGTTACGGGAACTCCGAAGAGGATTCACAAGAACATACCGGCAGTCAG +TTGCGTATTGCGGCGTATGGCCCGCATGCCGCCAATGTTGTTGGACTGACCGACCAGACCGATCTCTTCT +ACACCATGAAAGCCGCTCTGGGGCTGAAATAAAACCGCGCCCGGCAGTGAATTTTCGCTGCCGGGTGGTT +TTTTTGCTGTTAGCAACCAGACTTAATGGCAGATCACGGGCGCATACGCTCATGGTTAAAACATGAAGAG +GGATGGTGCTATGAAAATAACATTACTGGTTACCTTGCTTTTCGGTCTGGTTTTTTTAACCACCGTCGGC +GCTGCCGAGAGAACTTTAACCCCACAACAACAGCGTATGACCTCCTGTAATCAGCAGGCGACGGCGCAGG +CGTTGAAAGGGGATGCTCGTAAGACCTACATGAGTGATTGCCTGAAGAACAGCAAGTCTGCGCCTGGCGA +AAAAAGTTTGACGCCACAGCAGCAAAAGATGCGCGAATGCAATAATCAAGCAACACAACAATCTCTGAAA +GGTGATGATCGTAATAAGTTTATGAGTGCCTGCCTCAAGAAAGCCGCCTGATACCTGATAGTGCTAACGG +GTGAGCTACGAAAATGGCTCACCCGAAATATCATACTTCTGCCTTTAGCTCCGTCTCTATAATTTGGGAA +AATTGTTTCTGAATGTTCCCAAAAATAATGAATGATGAAAACTTTTTCAAAAAAGCGGCGGCGCACGGGG +AGGAACCTCCTTTAACTCCTCAAAACGAACATCAGCGGTCCGGGCTGCGCTTCGCCCGTCGCGTCAGACT +ACCCCGTGCGGTTGGCCTGGCTGGCATGTTCTTACCGATTGCTTCAACGCTGGTTTCACACCCGCCGCCG +GGCTGGTGGTGGCTGGTGTTGGTCGGCTGGGCGTTCGTCTGGCCGCATTTAGCCTGGCAGATAGCGAGCA +GGGCCGTCGATCCGCTTAGCCGGGAAATTTACAACTTAAAAACCGATGCAGTATTAGCGGGAATGTGGGT +AGGCGTAATGGGCGTAAACGTGCTGCCTTCCACCGCGATGTTGATGATTATGTGTCTGAATTTGATGGGG +GCAGGCGGCCCCCGTCTGTTTGTCGCGGGTCTGGTGTTGATGGTGGTTTCCTGCCTTGTCACCCTCGAGC +TGACGGGCATTACCGTGTCGTTCAATAGTGCGCCGCTGGAATGGTGGCTCTCCCTTCCCATTATTGTCAT +TTATCCTCTGCTGTTTGGCTGGGTCAGCTACCAGACGGCAACCAAACTGGCGGAACATAAACGCAGGTTG +CAGGTCATGAGTACCCGCGACGGCATGACGGGCGTGTATAACCGACGTCATTGGGAAACTATGTTACGCA +ATGAATTTGATAACTGTCGGCGGCATAATCGCGATGCAACGTTACTGATTATCGATATCGACCATTTCAA +GAGCATCAACGATACCTGGGGCCATGATGTGGGCGATGAAGCGATTGTGGCGCTTACCCGACAGTTACAA +ATTACCCTGCGCGGTAGCGATGTGATTGGTCGGTTTGGCGGCGATGAGTTTGCAGTAATCATGTCCGGTA +CGCCAGCTGAGAGCGCCATTACCGCCATGTTACGGGTGCATGAAGGGCTAAATACATTACGTTTGCCGAA +TACGCCACAGGTAACTTTACGGATTAGTGTGGGGGTTGCGCCGCTGAACCCACAAATGAGTCACTATCGT +GAGTGGTTGAAATCGGCAGATTTGGCGCTTTACAAAGCAAAGAAAGCCGGACGTAACCGCACCGAAGTGG +CGGCCTGACGTCCGGCGAAAGTCATCAGGATTTGCTGAGTTTTTCTGATTTTTCCATACACTTCGTCATC +GCTTCGATCACTGCAGCACGGAAGCCTTTCTCTTCCAGTACGCGTACCGCTTCAATGGTGGTGCCTCCCG +GTGAGCAGACCATATCTTTCAGTGCCCCCGGATGTTCTCCCGTTTCCAGCACCATTTTTGCGGAACCCAT +TACCGCCTGAGCGGCAAATTTATACGCCTGGGCGCGTGGCATCCCGCCCAGCACGGCGGCGTCGGCCATC +GCTTCGATAAACATAAATACGTAGGCTGGCGAAGAACCGCTCACACCGACCACCGGGTGGATCATCGGCT +CAGCAATTACTTCCGCTTCGCCAAAGCAGCGGAAAATATTCAGCACATCAGCGGTATCTTCTGGGGTTAC +CAGCGCGTTTGGCGTTACGGAGGTCATCCCGGCATTAACCAGTGCGGGAGTGTTCGGCATGGCGCGGATA +ATTTTCCGGTCATGGCCCAGCGCGCGGGCAAGCTGGTCGAGCGTGACACCTGCAGCAATAGAAACGACCA +GAGAGTCTTTATTCAGGCTGGAGGTGATTTCGCTAAGCACTTTAATCATGATGCCAGGTTTAACGGCAGC +AAAAATGATGTCGGCGATTTGCGCCACTTCTTGCGCCGATTCTGCGGCGTTGATGCCGAACTGGTCATGC +AGGGCGGCGACTTTATCCGGGGAGGGGGTGTATACCCAGATTTGCCCTGGAAGCACCTGACCGCTGGCAA +TCAGACCGCCGAGAATGGCTTTTCCCATATTGCCGCAGCCAATAAAACCGATTTTCTTTTCCATTGCCTC +ACTCCTGCCGTGAAATTCATTGTTTTGATAATCGCTGGCAGAAGCATAAACAGAACTATGCCGGAAGGCA +AAAGCGCGACACAATAGAGGATTACCCAACAAAGGATGACTTTATGACAATTTGGGTGGATGCCGACGCG +TGTCCCAATGTAATTAAAGAGATTTTGTATCGCGCGGCGGAACGTATGCAGATGCCGCTGGTACTGGTAG +CAAACCAGAGTTTACGCGTGCCGCCATCGCGATTTATTCGTACGCTGCGCGTCGCGGCAGGTTTCGACGT +TGCCGATAACGAAATTGTCCGGCAGTGTGAAGCGGGCGATTTGGTGATCACCGCAGATATACCTTTGGCT +GCTGAAGCCATCGAGAAAGGCGCTGCGGCGCTTAATCCGCGCGGCGAACGTTACACGCCAGCGACCATTC +GTGAGCGCCTGACGATGCGCGATTTTATGGATACCTTACGTGCCAGTGGGATCCAGACCGGCGGACCAGA +TAGCCTTTCACAACGTGACCGCCAGGCCTTTGCCGCGGAGCTGGAGAAGTGGTGGCTGGAAGTGCAACGT +AGTCGTGGCTAAATGTAATTTATTATTTACACTTCATTCTTGAATATTTATTGGTATAGTAAGGGGTGTA +TTGAGATTTTCACTTTAAGTGGAATTTTTTCTTTACAATCGAAATTGTACTAGTTTGATGGTATGATCGC +TATTCTCATGACACCGGCTTTCGCCGCATTGCGACCTATTGGGGAAAACCCACGATGACACAACCTCTTT +TTCTGATCGGGCCTCGGGGCTGTGGTAAAACAACGGTCGGAATGGCCCTTGCCGATTCGCTTAACCGTCG +GTTTGTCGATACCGATCAGTGGTTGCAATCACAGCTCAATATGACGGTCGCGGAGATCGTCGAAAGGGAA +GAGTGGGCGGGATTTCGCGCCAGAGAAACGGCGGCGCTGGAAGCGGTAACTGCGCCATCCACCGTTATCG +CTACAGGCGGCGGCATTATTCTGACGGAATTTAATCGTCACTTCATGCAAAATAACGGGATCGTGGTTTA +TTTGTGTGCGCCAGTATCAGTCCTGGTTAACCGACTGCAAGCTGCACCGGAAGAAGATTTACGGCCAACC +TTAACGGGAAAACCGCTGAGCGAAGAAGTTCAGGAAGTGCTGGAAGAACGCGATGCGCTATATCGCGAAG +TTGCGCATATTATCATCGACGCAACAAACGAACCCAGCCAGGTGATTTCTGAAATTCGCAGCGCCCTGGC +ACAGACGATCAATTGTTGATTTTCGAGCGCCTATACTTAACGTTCATCCCGTGAAATAAGGAAGAACGAT +GCCAACGAAACCGCCTTATCCTCGTGAAGCATATATAGTGACGATTGAAAAAGGAAAGCCAGGACAGACG +GTAACCTGGTACCAACTCAGAGCCGATCATCCTAAACCAGACTCGTTGATCAGTGAACATCCGACCGCTC +AGGAAGCGATGGATGCGAAAAAACGCTATGAGGACCCTGACAAAGAGTGACCGCATCAGACTGCTCGGAA +GGGATTCTGAGTGCCACTACAAGGGATCTGCGTCACATTTTTCATAATTCATGTTTTTCTAATAATTAGA +ATATTAAACAATAACAATCCATTACTGGAATCATTTGGAATCTTTACATTATGCCGTGCACGTCTGCTGC +TACGCTTTTTGTCATTTGTAGCACAAGTAAGTGTCAGCAGTGGTGCTTCACACTTGCCCGGTAATTAACG +ACGAAAGAAAAGTAAGGTGGATGAACAATGAGTGCGTCGTTGGCGATCCTGACCATCGGCATTGTACCTA +TGCAGGAAGTTTTGCCGCTCCTGACGGAATACATTGACGAAGATAATATTTCCCATCATAGCCTGCTGGG +GAAGTTAAGTCGTGAAGAAGTGATGGCGGAGTACGCGCCAGAAGCAGGCGAAGACACCATTCTCACATTA +TTAAATGACAACCAGCTGGCCCATGTTTCGCGTCGCAAAGTGGAGCGTGACCTGCAAGGTGTGGTTGAAG +TGCTCGATAATCAGGGTTATGACGTCATTTTATTAATGAGTACAGCAAACATTAGTAGTATGACTGCGCG +TAATACGATCTTTCTTGAGCCGTCGCGAATATTGCCTCCACTGGTTTCCTCTATTGTTGAAGATCATCAG +GTGGGGGTTATCGTTCCGGTTGAGGAGATGCTGCCCGTTCAGGCGCAAAAATGGCAAATTTTGCAGAAAT +CGCCGGTATTTTCATTGGGTAACCCCATTCATGATTCAGAACAAAAAATCATTGATGCCGGGAAAGAATT +ACTGGCAAAAGGGGCTGATGTCATCATGCTGGATTGTTTAGGATTTCACCAACGTCATCGCGATTTACTG +CAAAAACAGCTCGATGTTCCTGTCTTGCTGTCTAACGTATTGATTGCACGGCTGGCTGCGGAATTACTGG +TGTAATTTTGCGTGACAGCCAGCGCCTCTGGCCCCTATAGTGAAGTAGATGTTCAACTACCAAACAGGGC +CAGTTTATGCTTCAAAGTAATGAGTACTTTTCCGGCAAAGTGAAATCAATCGGCTTTTCCAGCAGCAGCA +CTGGTCGCGCCAGCGTGGGTGTTATGGTTGAAGGCGAATACACCTTCAGCACCGCTGAGCCGGAAGAGAT +GACGGTAATCAGTGGCGCGCTGAATGTGTTACTGCCTGACGCGACCGACTGGCAGGTGTATGAAGCCGGT +TCGGTGTTTAATGTTCCCGGTCACAGTGAGTTTCATCTGCAAGTTGCCGAACCCACCTCTTATCTGTGCC +GCTATCTGTAATTCCTCGCCTTCCCCTTGAACGGGAGGGCATTTTTCTGAAATATCCTTTCTTTAGCCCA +TAATAATATTTCCTTTGCTGCGATTTTTTCAATTTCCGATATATTCATAATTTATCAAGGTTGATATAAA +TATCAGTGAAGATCTCCAGATATTGTTGCGGAACTGGCTACGATAAAAGATAAATCAGATGATGAATGGT +GGCGTGCATTGCTGCAAAGTCGCAATGATCATTTACGCCAAACGGCATTGCGCAACGCACATACCCCGGC +GTTGTTGTTAACGACATTGACTGAGCCTCAGGATCGGTCGCTGGCTATTAATAATCCACAGCTGGCTGCC +GATGTGAAAACGGCGTGGTTAAAAGAGGATCCATCATTACTCTTATTTGTCGAACAACCCGATCTTTCGC +TGTTACGTGATTTAGTGAAAACCGGGGCAACGCGGAAAATTCGCAGTGAAGCGCGTCACCGGCTTGAGGA +AAAACAATGACACAACGTCCATGGAGCAAGTTACAGCGTAAAACGCATAATATTGCTGCGCTAAAAATTA +TTGCTCGCCGTAGCGAATAATTATATGCCTGGTGTGGCTTCGTACGCCGGATAAGACGCGGCAGGCGTCG +CATCCGGCATTAAAGGAAAATCAGCAATTAACGTTGTGCTTCGCCACCTAATCCTTCAATCAGGTTTTGA +ATTAACGCTGCCAGTTCACCAGTCATCAGGATGAAATCGGCATCAAAACGCTGGGCGAAATCTTCACGGT +CGATATCTTCGTTTTGATCGCGCAGCTCGTCGCAGAACTTCAGACGCTTGAGCGAACCATCGTCGCACAT +CACAAACTGAATGCGCTGCTGCCAGTCGAGCGCCAGTTTAGTCACCACTTTTCCGGCTTCAATGTGATTG +GTGATCTCTTCGCTGGTCAGATCTTGTTTCTTCGCGCGGATCACGCCGCCATCTTCCAGCAACGATTTCA +GCTCGGCTTCATCAAGCAGCTGGAAGCCCTGTGCCGCACTACCGGAGCGAACCCATTCGGTCAGCGTCAG +TTCAATCGGGTTTTCCATGCTCAATGGTACAACCGGTAACGACCCCAGGCTTTTACGCAGTAATGCCAGC +GTATCTTCCGCTTTTTTGGCACTGGCGCAGTCCACCATAATCAAACCGTTAACCGTGTCGATCCACATCA +TTGTCTGGCTAAAACGGCTGAAAGCACGCGGCAGCAGAGAGTGCAGCACTTCGTCTTTCAGCGAATCTTT +TTCGGTTTTCTTCAGCTTACGCGCCTGTTCCGCTTCCAGTTTGGCGATTTTCGCTTCCAGCGCCTGTTTA +ATCACCGGAGACGGGAGGATTTTTTCTTCTTTGCGCGCGCAGATAACAATTTGACCATTGGCAACGTGCG +TTAACGCATCGCTGTGCGATCCCATCGGAGGAACCCAGCCCATCTTCGCCATGTCCTGGCTGCCGCATGG +GGTAAATGCCATCGAGGCTAGCTGTTTTTCCATCTCTTCTGCACGCAGCGAAATCTCGCGGCTAAGACGG +TAAACCATTAAATTTTTGAACCACAGCATGATAATTTCCACGGCCTTGTCGTTAAATTTAGCGGGCATGA +TAACGAATTGTCGGCGGCCTTGCATTGCCAATCCGGTTGTCCGTCTCTACGCTATTGATATTGAAAAAAA +TAAGGAGAGTACCGTGCGTATAGGTATCGATTTAGGCGGCACCAAAACTGAAGTGATTGCACTGGGCGAT +GCAGGGGAGCAGTTGTACCGCCATCGTCTGCCCACGCCGCGTGATGATTACCGGCAGACTATTGAAACGA +TCGCCACGTTGGTTGATATGGCGGAGCAGGCGACGGGGCAGCGCGGAACGGTAGGTATGGGCATTCCTGG +CTCAATTTCGCCTTACACCGGTGTGGTGAAGAATGCCAATTCAACCTGGCTCAACGGTCAGCCATTCGAT +AAAGACTTAAGCGCGAGGTTGCAGCGGGAAGTGCGGCTGGCAAATGACGCTAACTGTCTGGCGGTTTCAG +AAGCAGTAGATGGCGCGGCAGCGGGAGCGCAGACGGTATTTGCCGTGATTATCGGCACGGGATGCGGCGC +GGGCGTGGCATTCAATGGGCGGGCGCATATCGGCGGCAATGGCACGGCAGGTGAGTGGGGACACAATCCG +CTACCGTGGATGGACGAAGACGAACTGCGTTATCGCGAGGAAGTCCCTTGTTATTGCGGTAAACAAGGTT +GTATTGAAACCTTTATTTCGGGCACGGGATTCGCGATGGATTATCGTCGTTTGAGCGGACATGCGCTGAA +AGGCAGTGAAATTATCCGCCTGGTTGAAGAAAGCGATCCGGTAGCGGAACTGGCATTGCGTCGCTACGAG +CTGCGGCTGGCAAAATCGCTGGCACATGTCGTGAATATTCTCGATCCGGATGTGATTGTCCTGGGGGGCG +GGATGAGCAATGTAGACCGTTTATATCAAACGGTTGGGCAGTTGATTAAACAATTTGTCTTCGGCGGCGA +ATGTGAAACGCCGGTGCGTAAGGCGAAGCACGGTGATTCCAGCGGCGTACGCGGCGCTGCGTGGTTATGG +CCACAAGAGTAAAAAACGTAGGCAATTGGCGCATCATGCCTGATGCGACGCTTGCCGCGTCTTATCAGGC +CTACAAAAGGTGCCAGAACCGTAGGCCGGATAAGGCGTTCACGCCGCATCCGGCAATAAGTGCTCCGATG +CCTGATGCGACGCTTGCCGCGTCTTATCAGGCCTGCAAAATGTGCCAGAACCGCGTAGGGCGGATAAGGC +GTTCACGCCGCATCCGGCAATAAGTAATGAGCACCGAGACTATAACCTACCCCAGTGGTTTCGCCAGCAC +CGGAGTATCCGCCGCTTGCTGGCGCTTATAGCGACCATACAGCAGCAACGACGACATCGCAGCAAACGAA +AGCAGGGCGGCAGGCAGCGCCACGTAATTATATGCCAGCCCCAGCGTCAGCATCATACCTCCGCAATATG +CGCCGACGGCGCTACCGAGGTTAAACGCTATTTGCCCACCTGCGGCACCTAATAACTCTCCGCCTTTGGC +GTTTTGTAGTAACAATATTTGTAGCGGTGCTGAAAGGGCAAATAATCCCGCGCAACAAATAAAAGCAAAA +ATAAGCGACGTTGTTTTCATGCCGCCGCAGAAAAAGAGCATCAGCAGTGCCAGTACAATTATAAAGTCAG +TCACTGCTGCAATGCGCAGTGGTGAATAACGTCCTGAAATCCTGCCACTTAGCATATTTCCCAGCACCAT +CCCTAGCCCAACTAACATCATAATAAAGGTCATCGCCGTTTCCGAAAAACCGGAAATAAACATCATGTAT +GGCTTTACGTAGCTGAACCAGGCAAACACACCTGCGTTGCCAAACATCGTGGCGGCGAAAATTAACCACG +GGGCCGGGCTGCGCAAAAAGTGAAATTGTTCGCGCAGATTTCCTTTCGCCTCGTCGCGAATATCTGGCAC +CCAAAAATAGACCGATGCCATCACCGCAATATTAAAAACAGCGATCAATAAAAAGGTGTAACGCCAGCTA +AATTCCTGACTTAAATACGTTCCCAGCGGAATGCCCAGCAAATTGGCGACTGTCATCCCGGAAACCATCC +CCGCCACGGCGGCGGTGACTTTTCCGGGTTTGATAATTTTTGATAACACGATCGCTCCGACGCCAAAAAA +TGCGCCATGCGGAAAGCCGGATACCAGCCGACCAATGGCGAGCATCAGGTAAGACGAAGAGAGCGTGAAC +ATGGCGTTGCCAATGACGCACAACGCCACCAGAAACAACAAGATATGTTTGAGTGAGTAGCGGCTGGAAA +AGAGTGCGATGATTGGCGCACCGACCACCACCCCCAGTGCATAATACGAGATCATATGCCCGGCGGCAGG +AATCGAAATTCCTACGTTATGCGCCAGCTCCGTGAGCACGCCCATAATGCCAAATTCGGCCATCCCCAAA +CCAAACGTGCCCAGAGCCAAAGATAAAATGACTTTTTTCATACCACCATCACAACCACCAGAACGGCTAC +CAATCACCGTAGCCAATAAAGTGATAGCTTGCAGGATAACGACCAGCAAGGCCAAGAGATAATTCGCCCC +TCTGTATTCATTATCCTGCTGAATAGTTATTTCACTGCAAACGTACTTTCCAGTTTGCTGTAGCCCAGGC +CGTTGATCTTTTTCACTTTGATCTGCACCGGAATACGCTCTTTCATCGCTTCTACGTGGCTAATCACACC +GATGGTTTTGCCACTGGCGTTCAGGGCATCCAGCGCATCAAGGGCGGTATCCAGCGTTTCGCTATCCAGC +GTGCCAAAACCTTCATCAAGGAACAGCGAGTCAATACGTGTTTTATGGCTGACCAGATCCGAAAGCGCCA +GCGCCAGCGCCAGACTAACGAGGAAACTTTCGCCGCCGGAAAGGGTACGGGTATCGCGTACCGCATCTGC +CTGCCAGGTATCAACAACCTCGACTTCCAGCGCCTCGCTGGCTTTGCGCTGTAACAGATAGCGCCCGTGC +AGCCGGGTAAGTTGCTGATTAGCGAGATGGACTAAATTATCCAGCGTCAGCCCCTGGGCAAACTTGCGGA +ATTTATCGCCCTCTTTGGAACCTATTAGCGAATTCAGATATCCCCAGTCCTCAACCTGCTGCGTCATTTG +AGCAATTTGCTGCATTAAGGTTTGTTGTTGCTGACGGTTATCTGCATCCTGCTTCAGCTGCTGGCGAATC +TCGCCTTGACTCGTGGTGTTTTCACGCAACTTTTGGTGAGTTTGCGCTAACTCTTGCTGAATCTGCTCCA +CCGTCACAGTGAGAGCCAACCCGTCGTCAGGTCGGTGTTGTTGATGCTGTGCCAGCGTTTCTGCTGTCTG +AGTGACCAGAGTTTGCGCCTGACGGCGCTGGTTTTCCAGATTCTGCTTGAGCTGTTCCAGCTGCGTTAGT +GTTTGTTCATCCATTAGCGCCGCAAGGAACGCCTGCTGATCGTCAAAGACGCTGGCCTGTAGCGCGGTGT +CAAACTGCGCCTGGGCTTTTTGCAGACTTTGCGCCGCCAGAACATCCTGTTGCTGTAACGTCTGCTGCTG +GCTGTGTAATGCGAGACATTGTTCATGTACCTGCCGCCAGTTTTCCAATACCACAGTTTCTTCGCAGTGC +GGGAGTTCATCACTTTGCGGCAACGTTTCCAGAATCGGCGTCAGCTGCTGAATACGGTTTTGCAGCGCGG +TTAATTCGTTCTGGCGTTGCTGCCAGCTCTGCGCTTCTTGCTGACGTGTCGCCAACCAGCTCTCTTCTTC +ATCTTCCTGTGGCAATGTCAGTGCATAACCCGTCAATGTCGTTAAAAGTAGTTGCTGGCGTTGTTCAATT +TGCTGTTGATACTGGATAATTTGCTGATTATGCGCGGCAATCTGCCCTTGTAATTCATGCCGTTGGCTGA +GTAACCGCAGCTGGCGTTCGTGCTCATCTTGTGCATCCAGCCACGGTTGAATATCGTCCAGTGGCTGCAA +GGTGATATTGAGGCTGGCCGTGACGGCTTGCCATTGTTGAGTAAGTGCTTGCTCATCTTGTCGGAGGCTT +TGCGCTTCGTTTTCATCACGCTGAAGCTGCTTTGTTATGGCGTCCAGTTGCCCACGTAGCGTCGCACCTT +CTTCACCGAGCTTTTTAACTTCGTTTTCCAGCGCCAGTAATCGAGACTGATTAACGCCAGGCTCCAGCGC +CTGATACGCCTCGACCGCCGGGTGGCTGGTGGAACCACAAAGTGGGCAAGGCTGACCCGCCTGTAACTGT +GCACGTTGAGCTTCCAGCGTTTTGATGCGCGCTTCCTGCTCGCAAATGGTTTTCACATCGGCAAGTTGCT +GCGTCTTTTCTTTATAACGCTGGCGCATTTCGTTAAGTGCGGCGTTACGTTGCGTCTGTTCTTGCGTGAC +ATTCTGGATAGCGACCTGTAACTGCGCCAGACGTTTTTGTTGGGGAACAATCTGTCCATGCAGCGCGACC +AGGTGCTGACGCAGTGGGCGTTGCTCAGCATGTTGCGCCAGGGCGGTAGCAACTTCATCGGCGGTTAACG +TCAACGTGATCGCCGCAAGCGCATTAAGTTTTTGCTCAGCATGGGTTAACTGTTGCTGCCATTGCCGCAG +ATGCTCGCGATCGCTGGTTTGTTGGGAGAACTGCGCACGCCAACCCGCCGGTTCGTTGTTCCACTGACGG +AAGCGGTCGTGTTCCTGTAACCAGGTATTCAGGCTTTGTTGCTGCTGCTGTAATTCTGCTGACTGCTTCG +CCGCGTGGTGGCGAATGCTCGCGCGAAGCGCCATTGTGCTCTGTAAGCGAGTATTTACTTCTTCAATCTG +CTGGCGAATATGCGCCAGCGCCGCGCTGTGTTCTGCGATGCGTTCCCAGTGTGGACGAAGATTTCGTGCC +GGTTGTGCCAGACTAAGCGCCGCCAGTTGAGGTTGCGCTTTTTCTTCTTCGGCTAACGCCTGTTGCAAGG +CCTGCTGACGGCGGCTGGCTTCTTGCTGCAATTCGTCCTGACGCGTTAACCAGTTTAGCGATTGTTGTTC +TTGCTGCTGCGCGGTAATTAACTGTTTTTCTTCGTCAGTAAGTACCTGCAAACTCGCTGTCAGCGATTGC +ACTTGTTCCGGCGTGAGCAACGTGACGCCGCTGGCCTGCGCTTGCAGCTTCTCCAGCTCTGTGCGGGCCG +ATTTGTGCTGCTCAAAAACCATCGCCGAGATTTGCCCGTAGATTTCAGTGCCGGTTAACTCCTCGAGCAA +TTCCGCGCGTTCTTTGGGTTTGGCATTCAGGAAGGCAGCAAATTGCCCCTGCGAAAGCAGCATCGAACGG +GTGAAGCGCCCGTAATCCAGCCCGGTTAACGTCGCTGTCAGTTCCAGCTTATCTTTCACTTTGTCGGCGA +GAATTTTGCCGTCGGCGCAGCGCGCCAGCTCTACGCGTGGCACCTGCAAATTACCGTCGGGTTGGTTACG +CGCCCGATTCTGGCTCCAGAATGCACGGTACGCTTCACCTTTCACTTCAAACTCCACCTCCGCCAGACAT +TCGGCGGTATCGCGGGTCATGAGATCATTTTGCGATTGTGAAACGTTAGAGAGACGCGGAGTTTCGTGAT +ACAGCGCCAGACAAATGGCGTCCAGCAGGGTGGTTTTCCCCGCACCTGTTGGGCCGGTAATAGCAAACAG +CCCGTTGCTGGCGAACGGCTCGCGGGTGAAATCAATCTTCCATTCGCCTTTTAATGAGTTCAGGTTTTTC +AGGCGCAGGCTGAGAATTTTCATGCTTCGTGTTCTCCGGCGAGGGTATGCAACGTCGTGGTGAAAAGATG +CTGCAGACGTTGCTGCTGCGATTCATCCAGTTCTTCCAGTGCCAGACGGCGATTGAACACCTCTTCGACG +CTGAGTTCGCTGAGGGTTTCACGCTGTTGGCTGGCTAACACACGCTCGCGCTGTTCACGACTCCGACGTA +CCAGCAATACTTCGACAGGCAATGATTCGGTTAATGCCTGGATTTTGCGCTGAATATCATGCAGATACTC +ATCAGTAGTGATTTCGATATCCAGCCAGACAGGTGGCTCCTGCGATACATCGCGCCACTGTTCCAGCTGT +GCGGTAATCGACGCCAGATCGCCTTTCAGCACTGCCATGGGTTGCGTTACCGGTACGTTCAGGTTTTCCA +CGCTCTCTAATTTGCCGTTTGAAAATGTCACCAGATGGACATATTTACTCTTACCGCATTCATCAAAACT +CAGTGGAATGGGGGAGCCGCAATAGCGAACATGTTCCATGCCGCCAATAATCTGTGCGCGGTGAATATGC +CCGAGCGCGATGTAGTCGGCTGGTGGAAAGTTTTGTGCCGGAAACGCGTCCAGCGTGCCAATATAAATGT +CACGCACGGCGTCACTTTTACTGGCCCCCACGGTCGTTAAATGTCCCGTGGCGATGATGGGCAGAGGCTG +ATCGCCGCGCAGTTTGCAGGCATCGGCATAGTGTTGTTGGTAATAATCGGTAATCGCTGCCAGTAAATGC +TGCTGTTTTTCAATACCGTTAAGCCCCGCCTGGCTGGTAATAATGTCACGCGGACGTAAAAACGGAATGG +GGCACAGCACTGCGCCTGGCGTCCCGTCGCGACGAGGCAAGATTTGCGGCGCATGTCCGGCGCTGGCGAC +CACGGTAGTATTGAGGAACGCCATGATATCGCGCGATTCATTCAGCGTGGCGACCGAGTCATGGTTTCCT +GCCAGTACCACCAGATGACAGCCAGTTTGCTGTAAATTGACAACAAAACGGTTGTATAACGTGCGGGCGT +AACTGGGCGGCGAGCCGGTATCGAAAACATCACCGGCAACAATAATCGCATCCACCTGATGGGTTTGTGC +TGTCTCCAGCAGCCAGTCAAGAAAAGCCTGATGTTCAGCTTCGCGGCTTTTACTGTAGAAGTTCTGGCCG +AGATGCCAGTCTGAGGTGTGAAGGATGCGCATAACGGTTCCCTGGCGAAAAAGCATGGGCGCGATTATAC +CCAAACAGATGTGCCATTTGCTTTTTTCTGCGCCACGGAAATCAATAACCTGAAGATATGTGCGACGAGC +TTTTCATAAATCTGTCATAAATCTGACGCATAATGACGTCGCATTAATGATCGCAACCTATTTATTACAA +CAGGGCAAATCATGGCGAGACGTATTCTGGTCGTAGAAGATGAAGCTCCAATTCGCGAAATGGTCTGCTT +CGTGCTCGAACAAAATGGCTTTCAGCCGGTCGAAGCGGAAGATTATGACAGTGCTGTGAATCAACTGAAT +GAACCCTGGCCGGATTTAATTCTCCTCGACTGGATGTTACCTGGCGGCTCCGGTATCCAGTTCATCAAAC +ACCTCAAGCGCGAGTCGATGACCCGGGATATTCCAGTGGTGATGTTGACCGCCAGAGGGGAAGAAGAAGA +TCGCGTGCGCGGCCTTGAAACCGGCGCGGATGACTATATCACCAAGCCGTTTTCGCCGAAGGAGCTGGTG +GCGCGAATCAAAGCGGTAATGCGCCGTATTTCGCCAATGGCGGTGGAAGAGGTGATTGAGATGCAGGGAT +TAAGTCTCGACCCGACATCTCACCGAGTGATGGCGGGCGAAGAGCCGCTGGAGATGGGGCCGACAGAATT +TAAACTGCTGCACTTTTTTATGACGCATCCTGAGCGCGTGTACAGCCGCGAGCAGCTGTTAAACCACGTC +TGGGGAACTAACGTGTATGTGGAAGACCGCACGGTCGATGTCCACATTCGTCGCCTGCGTAAAGCACTGG +AGCCCGGCGGGCATGACCGCATGGTGCAGACCGTGCGCGGTACAGGATATCGTTTTTCAACCCGCTTTTA +ACGCCTTGCTCATCGGACGCAGAGCAGGGCTTATGATTTCTTAACTGGAGTATCTTACGTGCTGGAACGG +CTGTCGTGGAAAAGGCTGGTGCTGGAGCTGCTACTTTGCTGCCTCCCGGCTTTCATCCTGGGTGCATTTT +TTGGTTACCTGCCCTGGTTTTTGCTGGCATCGGTAACAGGACTGCTTATCTGGCATTTCTGGAATTTATT +GCGCCTTTCATGGTGGCTGTGGGTGGATCGCAGTATGACCCCGCCACCGGGGCGTGGTAGCTGGGAACCG +CTACTATACGGCTTACACCAGATGCAGCTGCGAAATAAAAAACGCCGCCGTGAACTGGGCAATCTGATTA +AACGCTTTCGTAGCGGCGCGGAGTCGCTGCCCGACGCGGTGGTGCTGACCACGGAAGAGGGCGGTATTTT +CTGGTGTAACGGTCTGGCGCAACAAATTCTTGGTTTGCGCTGGCCGGAAGATAACGGGCAGAACATCCTT +AACCTACTGCGTTACCCGGAGTTTACGCAATATCTGAAAACGCGTGATTTTTCTCGCCCGCTCAATCTGG +TGCTCAACACCGGGCGGCATCTGGAAATTCGCGTCATGCCTTATACCCACAAACAGTTGCTGATGGTGGC +GCGTGATGTCACGCAAATGCATCAACTGGAAGGGGCGCGGCGTAACTTTTTTGCCAACGTGAGCCATGAG +TTACGTACGCCATTGACCGTGTTACAGGGTTACCTGGAGATGATGAATGAGCAGCCGCTGGAAGGCGCGG +TACGCGAAAAAGCGTTGCACACCATGCGCGAGCAGACCCAGCGGATGGAAGGACTGGTGAAGCAATTGCT +GACGCTGTCGAAAATAGAAGCCGCACCGACGCATTTGCTCAATGAAAAGGTTGATGTGCCGATGATGCTG +CGCGTTGTTGAGCGCGAGGCTCAGACTCTGAGTCAGAAAAAACAGACATTTACCTTTGAGATAGATAACG +GCCTCAAGGTGTCTGGCAACGAAGATCAGCTACGCAGTGCGATTTCGAACCTGGTCTATAACGCCGTGAA +TCATACGCCGGAAGGCACGCATATCACCGTACGCTGGCAGCGAGTGCCGCACGGTGCCGAATTTAGCGTT +GAAGATAACGGACCGGGCATTGCACCGGAGCATATTCCGCGCCTGACCGAGCGTTTTTATCGCGTTGATA +AAGCGCGTTCCCGGCAAACCGGCGGTAGCGGATTAGGGTTAGCGATCGTGAAACATGCTGTGAATCATCA +CGAAAGTCGCCTGAATATTGAGAGTACAGTAGGAAAAGGAACACGTTTCAGTTTTGTTATCCCGGAACGT +TTAATTGCCAAAAACAGCGATTAATCCGCCTTTGTCATCTTTTATTGCCATAAGCCAGTCGATGCTGGCT +TATTTTCTTTGCAGTCAAAATACGGGCGTTAGATTTTACAACGATTGGTGATTTTTTGTTCGCATGATTA +GCCATGTCTTTTTCACGGAAATAGTGTTTTATACTGGTTGGTGATTTCTTATCGCTATATACCTCTGGTT +TTTAGATCCCTCCTTGCTTTAAAACGTTATAAGCGTTTAAATTGCGCTTCAGGTGCTGTCATACTGACTG +CATTAACGCGGTAAATCGAAAAACTATTCTTCGCCGCGCCTGGTTGGGAGTATTTCCCGCTAAAATTGTT +TAAATATACCGCTGTATCATCCCCAGGGATTGGCACAAAAATTTAACGTTACAACACCACATCCACAGGC +AGTATGATTTATGACCCATCAATTAAGATCGCGCGATATCATCGCTCTGGGCTTTATGACATTTGCGTTG +TTCGTCGGCGCAGGTAACATTATTTTCCCTCCAATGGTCGGCTTACAGGCAGGCGAACACGTCTGGACTG +CGGCATTCGGCTTCCTCATTACTGCCGTTGGCCTGCCGGTATTAACGGTAGTGGCGCTGGCAAAAGTTGG +CGGCGGTGTTGACAGCCTCAGCACGCCAATCGGTAAAGTCGCTGGCGTACTGCTGGCAACGGTTTGTTAC +CTGGCGGTGGGGCCGCTTTTCGCTACGCCGCGTACAGCTACCGTTTCCTTTGAAGTGGGGATTGCGCCGC +TGACGGGTGATTCCGCGCTGCCGCTGTTTATCTACAGCCTGGTCTATTTCGCTATCGTTATTCTGGTTTC +GCTCTATCCGGGCAAGCTGCTGGATACCGTGGGCAACTTCCTTGCGCCGCTGAAAATTATCGCGCTGGTC +ATCCTGTCTGTTGCCGCTATTGTCTGGCCGGCGGGTTCTATCAGCACGGCGACTGAGGCTTATCAAAACG +CTGCGTTTTCTAACGGCTTCGTTAACGGCTATCTGACCATGGATACGCTGGGCGCAATGGTGTTTGGTAT +CGTTATTGTTAACGCGGCGCGTTCTCGTGGCGTTACCGAAGCGCGTCTGCTGACCCGTTATACCGTCTGG +GCTGGCCTGATGGCGGGTGTTGGTCTGACTCTGCTGTACCTGGCGCTGTTCCGTCTGGGGTCAGACAGCG +CGTCGCTGGTCGATCAGTCTGCAAACGGCGCTGCTATTCTGCATGCTTACGTTCAGCACACCTTTGGCGG +CGGCGGTAGCTTCCTGCTGGCGGCGTTAATCTTCATCGCCTGCCTGGTAACGGCAGTTGGCCTGACCTGT +GCTTGTGCAGAATTCTTTGCCCAGTACGTACCGCTCTCTTATCGTACGCTGGTGTTTATCCTCGGCGGCT +TCTCGATGGTGGTTTCTAACCTCGGCTTAAGCCAGCTGATCCAGATCTCCGTACCGGTGCTGACCGCTAT +TTATCCGCCGTGTATCGCACTGGTTGTATTAAGTTTTACACGCTCATGGTGGCATAATTCGTCCCGCGTG +ATTGCTCCGCCGATGTTTATCAGCCTGCTTTTTGGTATTCTCGACGGGATCAAAGCATCTGCATTCAGCG +ATATCTTACCGTCCTGGGCGCAGCGTTTACCGCTGGCCGAACAAGGTCTGGCGTGGTTAATGCCAACAGT +GGTGATGGTGGTTCTGGCCATTATCTGGGATCGCGCGGCAGGTCGTCAGGTGACCTCCAGCGCTCACTAA +ATCACTGAACATTTGTTTTAACCACGGGGCTGCGATGCCCCGTGGTTTTTTATTGTGTTGATGGGTTAGG +AATTGATGGAAAGTAAGAACAAGCTAAAGCGTGGGCTAAGTACCCGCCACATACGCTTTATGGCACTGGG +TTCAGCAATTGGCACCGGGCTGTTTTACGGTTCGGCAGACGCCATCAAAATGGCCGGTCCGAGCGTGTTG +TTGGCCTATATTATCGGTGGTATCGCGGCGTATATCATTATGCGTGCGCTGGGGGAAATGTCGGTACATA +ACCCGGCCGCCAGCTCTTTCTCGCGTTATGCGCAGGAAAACCTCGGCCCGCTGGCAGGTTACATTACCGG +CTGGACCTACTGCTTTGAAATCCTTATTGTCGCCATCGCCGATGTGACCGCTTTTGGTATCTATATGGGT +GTCTGGTTCCCGACGGTGCCGCACTGGATTTGGGTACTGAGCGTGGTGCTGATCATTTGCGCCGTAAACC +TGATGAGCGTGAAGGTATTCGGTGAGCTGGAATTCTGGTTCTCGTTCTTTAAAGTCGCCACCATCATCAT +CATGATTGTCGCCGGTTTCGGCATCATCATCTGGGGGATTGGCAACGGCGGGCAACCGACCGGTATTCAT +AACCTGTGGAGCAACGGCGGCTTCTTCAGTAACGGCTGGCTTGGCATGGTAATGTCGTTGCAAATGGTGA +TGTTTGCTTACGGTGGGATCGAAATTATCGGGATTACCGCCGGTGAAGCGAAAGATCCTGAGAAATCGAT +ACCGCGTGCGATTAACTCCGTGCCGATGCGTATTCTGGTGTTCTACGTCGGTACGCTGTTCGTCATTATG +TCTATCTACCCGTGGAATCAGGTTGGCACTGCCGGTAGCCCGTTCGTGCTGACGTTCCAGCATATGGGCA +TTACCTTTGCCGCCAGCATTCTTAACTTTGTTGTGCTGACTGCTTCGCTGTCGGCAATTAACAGTGATGT +ATTTGGCGTAGGCCGTATGCTCCACGGTATGGCAGAGCAGGGCAGCGCGCCGAAAATTTTCAGCAAAACG +TCGCGTCGCGGTATTCCGTGGGTTACGGTGCTGGTGATGACTACCGCGCTGCTGTTTGCGGTGTATCTGA +ACTACATCATGCCGGAAAACGTCTTCCTGGTGATCGCTTCGCTGGCAACCTTCGCCACGGTGTGGGTGTG +GATTATGATCCTGCTGTCGCAAATTGCCTTCCGTCGCCGTTTGCCGCCAGAAGAAGTTAAGGCGCTGAAA +TTTAAAGTGCCGGGTGGGGTAGCAACGACCATCGGCGGGCTGATTTTCCTGCTCTTTATTATCGGGTTGA +TTGGTTATCACCCGGATACGCGTATCTCGCTGTATGTCGGTTTCGCGTGGATTGTTGTGCTGTTGATTGG +CTGGATGTTTAAACGCCGCCACGATCGTCAGCTGGCTGAAAACCAGTAATCCTTGCGTTCTGTAAGCCGG +TTCAGGAGGAAATCCTGATCCGGCTATTCCGAAAGTTATCCGCCCCCGTCCTCCTCCCCCAAATATCCTT +CAGATGATGAGTGATCCTGCATTAGGCTATGGCAAGGTGATCAGATTTTCATCACAGGGGAATTATGATG +TTAAATGCATGGCACCTGCCGGTGCCCCCATTTGTTAAACAAAGCAAAGATCAACTGCTCATTACACTGT +GGCTGACGGGCGAAGACCCACCGCAGCGCATTATGCTGCGTACAGAACACGATAACGAAGAAATGTCAGT +ACCGATGCATAAGCAGCGCAGTCAGCCGCAGCCTGGCGTCACCGCATGGCGTGCGGCGATTGATCTCTCC +AGCGGACAACCCCGGCGGCGTTACAGTTTCAAACTGCTGTGGCACGATCGCCAGCGTTGGTTTACACCGC +AGGGCTTCAGCCGAATGCCGCCGGCACGACTGGAGCAGTTTGCCGTCGATGTACCGGATATCGGCCCACA +ATGGGCTGCGGATCAGATTTTTTATCAGATCTTCCCTGATCGTTTTGCGCGTAGTCTTCCTCGTGAAGCT +GAACAGGATCATGTCTATTACCATCATGCAGCCGGACAAGAGATCATCTTGCGTGACTGGGATGAACCGG +TCACGGCGCAGGCGGGCGGATCAACGTTCTATGGCGGCGATCTGGACGGGATAAGCGAAAAACTGCCGTA +TCTGAAAAAGCTTGGCGTGACAGCGCTGTATCTCAATCCGGTGTTTAAAGCTCCCAGCGTACATAAATAC +GATACCGAGGATTATCGCCATGTCGATCCGCAGTTTGGCGGTGATGGGGCGTTGCTGCGTTTGCGACACA +ATACGCAGCAGCTGGGAATGCGGCTGGTGCTGGACGGCGTGTTTAACCACAGTGGCGATTCCCATGCCTG +GTTTGACAGGCATAATCGTGGCACGGGTGGTGCTTGTCACAACCCCGAATCGCCCTGGCGCGACTGGTAC +TCGTTTAGTGATGATGGCACGGCGCTCGACTGGCTTGGCTATGCCAGCTTGCCGAAGCTGGATTATCAGT +CGGAAAGTCTGGTGAATGAAATTTATCGCGGGGAAGACAGTATTGTCCGCCACTGGCTGAAAGCGCCGTG +GAATATGGACGGCTGGCGGCTGGATGTGGTGCATATGCTGGGGGAGGCGGGTGGGGCGCGCAATAATATG +CAGCACGTTGCCGGGATCACCGAAGCGGCGAAAGAAACCCAGCCGGAAGCGTATATTGTCGGCGAACATT +TTGGCGATGCACGGCAATGGTTACAGGCCGATGTGGAAGATGCCGCCATGAACTATCGTGGCTTCACATT +CCCGTTGTGGGGATTTCTTGCCAATACCGATATCTCTTACGATCCGCAGCAAATTGATGCCCAAACCTGT +ATGGCCTGGATGGATAATTACCGCGCAGGGCTTTCTCATCAACAACAATTACGTATGTTTAATCAGCTCG +ACAGCCACGATACTGCGCGATTTAAAACGCTGCTCGGTCGGGATATTGCGCGCCTGCCGCTGGCGGTGGT +CTGGCTGTTCACCTGGCCTGGTGTACCGTGCATTTATTACGGTGATGAAGTAGGACTGGATGGCAAAAAC +GATCCGTTTTGCCGTAAACCGTTCCCCTGGCAGGTGGAAAAGCAGGATACGGCGTTATTCGCGCTGTACC +AGCGAATGATTGCGCTGCGTAAGAAAAGTCAGGCGCTACGTCATGGCGGCTGTCAGGTGCTGTATGCGGA +AGATAACGTGGTGGTATTTGTCCGCGTGCTGAATCAGCAACGTGTACTGGTGGCAATCAACCGTGGCGAG +GCCTGTGAAGTGGTGCTACCCGCGTCACCGTTTCTCAATGCCGTGCAATGGCAATGCAAAGAAGGGCATG +GGCAACTGACTGACGGGATTCTGGCTTTGCCTGCCATTTCGGCTACGGTATGGATGAACTAACGTTTTAT +AACGCCTTGCGTGACGCCTGCGCCATCATCCGCGGATAAAACTGCCAGAAGCGGGTTTCGAGGGCGTCAT +AATGAGCGTCTAAATCGTACCAGGAGTCACGCAGGGCATCCAGACGTGGGCGGCGGCTTGCCATGCCGTT +TAACACGTTCTGGATGAAATCCATATCGCGATAGCGCACCAGCCACTGCTCTGACCACAAGTAATTGTTC +AGATTGATAAAACGTGGCGGTGAGTCCGGCAAAATCGTCATCACTTGCTCGCGGGCATAACAGACAAATT +CCTGTAGCGGAAAGTCCGGCGACAGCTGCGACCAGTGGCGGGAAAGAAAGTGATCCCACATGACATCCAG +CGTAATAGGCGCAACGCGGCGCGTTTCACTACGAAACCACTCCCGTGCTTCGCGGACTTCCGGCAGATTG +TCAGTCAATACGTCGATACGTCGATGCATATGAATGCCAGCCACGACGTCGGGCGGAAAACTTTCTTCAG +GATTTCCGCGTACGAAATCAGCCAGTAAATTGCCGGAAAGCGAGCTTTCCGCGAGATGGGCTAAATGCAG +GTGAGCTAAAAAATTCATCGATTATATTCTATCCAAAAGGGGGTAAAGGTTGCAGGGAGAGCGCCCCGGC +ACTAGACTACCCGCCTCTTATTTTAGTCTGAGTCAGTGTCATGCGCGTTACCGATTTCTCCTTTGAATTG +CCCGAATCCCTGATTGCCCACTATCCCATGCCTGAACGCAGTAGCTGTCGTTTACTGTCGCTGGACGGGC +CGACGGGCGCGCTGACGCACGGTACTTTCACCGATTTACTTGATAAGCTCAACCCCGGCGATCTTCTGGT +TTTTAATAATACCCGCGTGATCCCGGCGCGCCTGTTTGGGCGTAAAGCCAGCGGCGGCAAGATTGAAGTG +CTGGTTGAACGGATGCTCGACGACAAACGCATTCTTGCGCATATTCGCGCCTCGAAAGCGCCAAAACCTG +GCGCAGAACTGCTGCTGGGCGATGACGAAAGTATTAACGCAACAATGACCGCGCGCCACGGCGCACTGTT +TGAAGTCGAATTTAATGATGAACGCTCGGTGCTGGATATTCTCAACAGCATCGGCCATATGCCGCTGCCG +CCGTATATCGACCGTCCGGACGAAGACGCTGACCGCGAACTTTATCAAACCGTTTATAGCGAAAAACCGG +GCGCGGTTGCAGCCCCGACCGCAGGTCTGCATTTTGACGAGCCTTTGCTGGAAAAATTGCGCGCCAAAGG +CGTGGAGATGGCGTTTGTGACGTTGCACGTTGGTGCGGGCACCTTCCAGCCGGTGCGCGTCGACACCATT +GAAGATCACATCATGCACTCGGAATACGCTGAAGTACCGCAGGATGTGGTAGACGCGGTACTGGCGGCGA +AAGCGCGCGGTAACCGGGTGATTGCGGTTGGCACCACTTCAGTACGTTCGCTGGAAAGCGCGGCTCAGGC +AGCGAAAAACGATCTCATTGAACCGTTCTTCGACGATACCCAAATCTTTATCTATCCGGGCTTCCAGTAC +AAAGTGGTCGATGCGCTGGTGACGAACTTCCACTTGCCAGAGTCGACGCTGATTATGCTGGTTTCGGCCT +TTGCCGGTTATCAACACACCATGAACGCCTATAAAGCAGCGGTAGAAGAGAAATATCGCTTTTTTAGTTA +CGGTGATGCGATGTTTATCACGTACAATCCGCAGGCAATTAATGAGCGCGTCGGGGAGTAATTCCGCGGC +GCTGGTTTAAAACGTTGGACTGTTTTTCTGACGTAGTGGAGAAAAAATGAAATTTGAACTGGACACCACC +GACGGTCGCGCACGCCGTGGCCGCCTGGTCTTTGATCGTGGCGTAGTGGAAACGCCTTGTTTTATGCCTG +TTGGCACCTACGGCACCGTAAAAGGGATGACGCCGGAAGAAGTTGAAGCCACTGGCGCGCAAATTATCCT +CGGCAACACCTTCCACCTGTGGCTGCGCCCGGGCCAGGAAATCATGAAACTGCACGGCGATCTGCACGAT +TTTATGCAGTGGAAGGGGCCGATCCTCACCGACTCCGGCGGCTTCCAGGTCTTCAGCCTTGGCGATATTC +GTAAAATCACCGAACAGGGCGTGCACTTCCGTAACCCGATCAACGGCGATCCGATTTTCCTCGATCCTGA +AAAATCAATGGAGATTCAGTACGATCTTGGTTCGGATATCGTCATGATCTTTGATGAGTGTACGCCGTAT +CCTGCTGACTGGGATTACGCAAAACGCTCCATGGAGATGTCTCTGCGTTGGGCGAAGCGTAGCCGTGAGC +GTTTTGACAGTCTCGGAAACAAAAATGCGCTGTTTGGTATCATCCAGGGCAGCGTTTACGAAGATTTACG +TGATATTTCTGTTAAAGGTCTGGTAGATATCGGTTTTGATGGCTACGCTGTCGGCGGTCTGGCTGTGGGT +GAGCCGAAAGCAGATATGCACCGCATTCTGGAGCATGTATGCCCGCAAATTCCGGCAGACAAACCGCGTT +ACCTGATGGGCGTTGGTAAACCAGAAGACCTGGTTGAAGGCGTACGTCGTGGTATCGATATGTTTGACTG +CGTAATGCCAACCCGCAACGCCCGAAATGGTCATTTGTTCGTGACCGATGGCGTGGTGAAAATCCGCAAT +GCGAAGTATAAGAGCGATACTGGCCCACTCGATCCTGAGTGTGATTGCTACACCTGTCGCAATTATTCAC +GCGCTTACTTGCATCATCTTGACCGTTGCAACGAAATATTAGGCGCGCGACTCAACACCATTCATAACCT +TCGTTACTACCAGCGTTTGATGGCGGGTTTACGCAAGGCTATTGAAGAGGGTAAATTAGAGAGCTTCGTA +ACTGATTTTTACCAGCGTCAGGGGCGAGAAGTACCACCTTTGAACGTTGATTAATATTAATAATGAGGGA +AATTTAATGAGCTTTTTTATTTCTGATGCGGTAGCGGCAACGGGTGCACCGGCGCAAGGTAGCCCGATGT +CTTTGATTTTGATGCTGGTGGTATTCGGTCTGATTTTCTATTTCATGATCCTGCGTCCACAGCAGAAGCG +CACCAAAGAACACAAAAAGCTGATGGACTCCATTGCCAAAGGTGATGAAGTTCTGACGAACGGTGGCCTG +GTTGGTCGCGTAACCAAAGTAGCGGAAAACGGCTACATTGCTATCGCGCTGAATGACACCACTGAAGTAG +TTATTAAACGTGACTTCGTAGCTGCCGTCCTGCCGAAAGGCACCATGAAGGCGCTGTAATTAAAATTTTT +CCCTAAGGGAATTGCCGTGTTAAACCGTTATCCTTTGTGGAAGTACGTCATGCTGATCGTGGTGATTGTC +ATCGGTCTGCTGTATGCGCTTCCCAACCTGTTTGGTGAGGATCCGGCTGTTCAGATCACTGGTGCGCGCG +GAGTCGCCGCCAGTGAGCAAACGCTGATCCAGGTCCAGAAAACGTTACAAGAAGAAAAAATAACTGCTAA +GTCTGTGGCACTGGAAGAGGGCGCTATTCTTGCGCGCTTCGACTCCACTGACACCCAGTTGCGCGCTCGT +GAAGCATTAATGGGCGTTATGGGTGACAAATACGTCGTGGCGCTTAACCTTGCCCCGGCAACGCCGCGCT +GGCTGGCAGCTATTCACGCTGAGCCGATGAAGCTCGGCCTTGACCTGCGTGGCGGCGTTCACTTCCTGAT +GGAAGTGGATATGGACACCGCGCTTGGCAAACTCCAGGAACAAAATATCGATAGCCTACGCAGTGACCTG +CGCGAAAAGGGCATCCCGTATACCACTGTTCGTAAAGAAAACAACTACGGCCTGAGCATCACTTTCCGCG +ATGCTAAAGCTCGTGATGAAGCCATTGCGTATCTGAGCAAGCGCCATCCGGACCTGGTGATTAGCAGCCA +GGGCAGCAACCAGCTGCGTGCGGTAATGAGCGATGCTCGTCTGAGTGAAGCGCGTGAATATGCGGTGCAG +CAGAACATTAATATCCTGCGTAACCGTGTAAACCAACTTGGCGTGGCGGAGCCGGTGGTTCAGCGTCAGG +GTGCTGACCGTATCGTTGTTGAACTGCCAGGTATTCAGGACACTGCGCGTGCGAAAGAGATTCTGGGTGC +GACGGCAACGCTGGAATTCCGTCTGGTAAACACCAACGTTGACCAGGCCGCTGCGGCATCCGGTCGCGTA +CCGGGCGACTCTGAAGTGAAACAGACCCGCGAAGGTCAGCCAGTTGTGCTGTACAAACGCGTAATTCTGA +CCGGTGACCATATCACCGACTCCACTTCCAGCCAGGACGAATACAACCAACCGCAGGTTAACATCTCGCT +CGATAGCGCTGGTGGTAACATCATGTCTAACTTCACTAAGGACAACATCGGCAAACCGATGGCAACCCTG +TTTGTGGAGTACAAAGACAGCGGTAAGAAAGATGCAAATGGTCGTGCGGTTCTGGTGAAACAGGAAGAGG +TGATTAACATCGCCAACATCCAGTCTCGTCTGGGTAACAGCTTCCGTATCACCGGCATCAACAACCCGAA +CGAAGCCCGTCAGCTGTCACTGCTGCTGCGTGCCGGTGCGTTGATCGCGCCGATTCAGATTGTTGAAGAA +CGTACCATTGGCCCAACCCTGGGTATGCAGAACATTGAACAGGGGCTGGAGGCTTGCCTTGCCGGTCTGC +TGGTTTCTATTCTGTTCATGATCATCTTCTATAAGAAGTTTGGTCTGATTGCGACCAGTGCTCTGATTGC +CAACTTGATCTTAATCGTCGGCATTATGTCGCTGTTGCCAGGCGCAACGCTGAGTATGCCAGGTATCGCG +GGTATCGTCTTAACCCTTGCGGTGGCGGTCGATGCGAACGTACTGATCAACGAACGTATTAAAGAAGAGT +TGAGCAACGGACGTACTGTTCAACAGGCAATTGATGAAGGTTATCGTGGCGCATTCAGTTCTATCTTCGA +TGCGAACATCACCACGCTGATTAAAGTCATCATCCTGTACGCAGTGGGTACCGGGGCAATTAAAGGGTTC +GCGATTACTACCGGTATCGGTGTGGCGACGTCGATGTTTACCGCGATTGTCGGTACGCGTGCCATCGTAA +ACCTGCTATATGGCGGCAAGCGCGTCAAGAAGCTGTCAATCTGAGGAGTGCGATGTGGCACAGGAATATA +CTGTTGAACAACTAAACCACGGCCGTAAAGTCTATGACTTTATGCGCTGGGACTACTGGGCTTTCGGCAT +CTCTGGTCTGCTGTTAATCGCTGCTATCGTTATTATGGGCGTGCGCGGCTTTAACTGGGGGCTGGATTTC +ACCGGTGGTACGGTTATTGAAATTACGCTCGAAAAACCGGCTGAAATTGACGTAATGCGTGATGCATTGC +AAAAAGCCGGTTTTGAAGAGCCGATGCTGCAAAACTTTGGTAGCAGCCATGACATCATGGTCCGTATGCC +GCCTGCTGAAGGCGAAACCGGCGGTCAGGTGTTGGGCAGCCAGGTTCTGAAGGTGATTAACGAATCCACC +AATCAGAATGCAGCAGTGAAGCGTATTGAGTTCGTCGGTCCGAGCGTGGGGGCAGACCTTGCGCAAACCG +GTGCGATGGCGTTGATGGCAGCGCTGCTGTCTATCCTCGTGTACGTAGGTTTCCGCTTTGAGTGGCGACT +GGCGGCAGGGGTGGTTATTGCGCTGGCGCACGACGTTATCATTACGCTGGGTATTTTGTCGTTATTCCAT +ATCGAGATTGACCTGACCATTGTGGCATCGTTGATGTCGGTTATCGGTTACTCGCTTAACGACAGTATCG +TGGTATCGGACCGTATTCGTGAAAACTTCCGCAAGATCCGTCGCGGTACGCCTTACGAAATCTTTAACGT +GTCCTTGACCCAGACGCTGCACCGTACCTTGATCACATCCGGTACTACCTTGATGGTTATCCTGATGCTG +TACCTCTTCGGTGGTCCGGTACTGGAAGGCTTCTCGCTGACCATGCTTATCGGTGTTTCCATCGGTACTG +CATCTTCCATCTATGTGGCATCTGCGTTGGCTCTGAAACTGGGTATGAAGCGCGAACACATGTTGCAGCA +GAAAGTGGAAAAAGAAGGGGCGGATCAGCCGTCAATTCTGCCGTAATCAAGTTCCCGTTGATGTTGAAAA +TCCCGGTCAGAAGATCGGGATTTTTTTTGATGTATGGAGATTGCGAAAATCCCCGCATCTTGGGAAACTG +CGCGTAACCCTACATTTCATCCAGGTAACTTTTCATGGCTATCATCCCAAAAAACTATGCGCGGTTAGAA +AGCGGCTATCGCGAAAAAGCATTAAAAATCTATCCGTGGGTCTGCGGTCGCTGTTCCCGCGAGTTTGTTT +ATTCCAACCTGCGTGAACTTACCGTTCACCACATTGATCACGACCATACCAATAACCCGGAAGATGGCAG +TAACTGGGAATTGTTGTGTCTCTATTGCCACGATCATGAGCATTCGAAATATACCGAAGCGGATCAGTAT +GGTACGACCGTTATCGCAGGGGAAGATGCGCAGAAAGATGTCGGTGAAGCGAAGTACAACCCATTCGCTG +ACCTGAAAGCGATGATGAACAAGAAGAAGTGATTAAAACGTAAAATTGCCTGATGCGCTACGCTTATCAG +GCCTACGTTATTTCAGCAATATATTGAATTTACGTGCTTTTGTTGGCCGGACAAAGCGTTTACGCCGCAT +CCGGCATGAACAAAGCACACGTTGTTAACAATCAGAAATGCCGGGAATAAATCCCGGCATTTTCATAATC +AGAAGTTGTAACCTACTACCAGGTAACCACCCCAGCCGGTAGAGCGAACGTTGAAGTTGCCGTTGCCGAA +GTTCAGTTCTGCATCGTCGTTCCACTGACCACCGTCGTGCCAGTAACGAGCTACGACAGAGTAGTGCCAG +TGATCGTAGTTCAGAGCCAGAATATGGCTGGAAGCGATAGAGTTATTAGTACGGGTCTTAATACCGTTGA +TTGCGTTACCGCTGTCATCCCCTAAATCGGAACCCCAGTCGAAGTTGGTGAAGCCGATGTAGCTCAGCTG +ACCGCCCCACAGATCGGTAATCGGCACAAAGTATTTAATTTTGAAACGGTAACCGTCCCACTCGTTTTCG +TTCGCTGCGCCATAGTTCTGCCACTGGTATTTCGCATAGACGTTCATGGACAGGCTCATCGGCAGGCCAG +TGTCGATATCGGTACCCAGACCCATGTACCAGGTGCTCTGGCGACCATCTTTATTACGACCCATGTCGTA +AATGTAGTTGTTCGCGAAGTACCACTCTTTGAACGGACCGAAGCTAAGGTCAGTATTGGTCAGCTTGTCG +ATGGAGAAACGTGGTTCGATTTCCATAAACAGCGGAGAACCGTGGTTCCAGATACCTTTAGCATCGGAGT +TACCGCCGAAGAATACCGGCGCATCCGCATAACCATAGAAGTCGAACCAGTCTTTTTTAGCGAATGCTTC +GTACTCAAGGTAGGTATCGTTGCGGATCTGCGGTCCGAAACGGGTGTGATAGCTTCCGACAACGTTAACG +CTCTGGTGCCACCAGTCGGAAAGATACTGCGGTTTGTCGTTTTCAGCTGCGTTGACAGTAAAAGACGAAG +AGAGCGCCAGTACCGCACCGGCTGCCAGTAATGTTTTTTTCATATGTATGCCACTGTTTGAAAATCCCTT +GCGGGAGTGAAAAAGGCGCAAATTGCGTTTCTAAATATTTCGTATACAGAGGAGCCTATTATAAAAATCA +TTGCTCACAAAAATATGTTTCGTTTCACAGTTCTATCATTTACGTAATCGATTGCGTTCACGTTTACACA +CATTCGGGCGGGGATTGTACTGACTTTCGCCCTTGTTGCAAACTTTTACTATCAATCCAGGTGATGTAAG +CAGAGTAACAAAATGACGGGGAAAGATGTTGCGGGACGCACAAAATCGTCCCGAAATACGTTTACTGCAT +AACAGGTTGAATGTCGTGGATACGTACAAAGCCTAACTGATCCACAGAAATCCCCTTTAACTGTAACGGA +ATATCAACATCGCTGGGGGCGAGGACGCTGGCAGGGGCATTAATCAATTGATTCTGCACATTGATTTCCT +GAAAGTTGTCTATTGTTCCCTGAATTTGCCCATATTCAACAGTTCCGCTGAATGCGGGCAAGGGATCATT +CGACTCACCCTGAATACGTAGTGTAAGGGTGGTGCCATCTGCATCAGGCGTAATATTCACCAGCGACATA +CGTAAAGTACCGATCTGGCTTTCCAGTCTTGCCGGTGTTTTCGCTCCAGGCAGAAGGTAAACCCCACTGC +TGGATTTTGCATTCAGCCTGTTTTGCTGAGTGATTTTGACTGTTTCTTGATTGAGTTGCGTCATCTCCTG +GTTCAGCGTGCTGACGCTGTGTTTCATCTGTCGCACTTCACTTTGCTGCACACAGGCGCTAAGGCTGAAC +AGGCTTCCCAGCAGGAGCAGTCGAAAAACGTTAGTATTCATAGGTCGTCCCTTTCTCGTCGCAATTAGCC +TAATGGTAGAGGGTAAAAGCAGCGAAAGCATCGATCCTTTATCTCAAAAGCGTTGCGCCTTTGTTGTATC +GTCAGTTCAGGGTAAAATAGATTTCCGTTAACCACCTGGTCAGGACGCCGTATGCATTGCCCATTCTGTT +TCGCCGTGGACACTAAGGTAATTGACTCTCGTCTCGTGGGCGAGGGTTCATCCGTACGCCGCCGTCGGCA +GTGTCTGGTGTGTAATGAACGTTTCACCACCTTTGAAGTGGCGGAGCTGGTTATGCCGCGTGTTGTAAAA +AGCAACGACGTGCGTGAACCGTTTAATGAAGAGAAATTGCGTAGCGGAATGCTGCGGGCGCTGGAAAAAC +GTCCGGTGAGTTCCGATGACGTCGAAATGGCAATCAATCATATTAAATCGCAGCTGCGCGCCACCGGTGA +GCGCGAAGTGCCGAGCAAGATGATTGGCAATCTGGTGATGGAGCAATTGAAAAAGCTCGATAAAGTCGCC +TATATCCGTTTTGCCTCTGTCTACCGCAGTTTCGAAGATATCAAAGAATTTGGCGAAGAGATCGCGCGCC +TGGAGGACTAAGCCGTGCAGGACGAGTATTACATGGCGCGGGCGCTAAAGCTGGCGCAACGAGGACGTTT +TACCACGCATCCCAACCCGAATGTCGGGTGCGTCATTGTCAAAGATGGCGAAATTGTCGGTGAAGGTTAC +CACCAACGTGCGGGTGAACCACATGCCGAAGTACACGCGTTGCGTATGGCGGGTGAAAAAGCCAAAGGTG +CGACCGCCTATGTCACACTCGAACCCTGTAGCCATCATGGTCGTACGCCACCGTGCTGTGACGCACTCAT +CGCCGCTGGCGTAGCGCGCGTGGTTGCCTCGATGCAAGATCCTAACCCGCAGGTCGCTGGGCGTGGACTT +TACCGTCTGCAACAGGCTGGCATTGACGTCAGCCACGGCCTGATGATGAGTGAAGCCGAGCAATTGAATA +AAGGCTTTCTCAAGCGGATGCGCACCGGCTTTCCTTATATTCAGTTAAAACTTGGCGCATCGCTTGATGG +TCGCACGGCGATGGCGAGCGGCGAAAGCCAGTGGATCACTTCGCCCCAGGCGCGGCGTGATGTACAACTA +CTGCGCGCGCAAAGTCATGCCATTTTAACCAGCAGCGCCACGGTGCTGGCGGATGATCCTGCCTTAACGG +TGCGTTGGTCTGAACTGGATGAACAAACTCAGGCGCTCTATCCGCAACAAAATCTCCGTCAGCCGATACG +TATTGTGATTGATAGCCAAAATCGCGTGACGCCGGTACATCGCATTGTGCAGCAGCCCGGCGAAACCTGG +TTCGCGCGTACGCAGGAAGATTCTCGTGAGTGGCCGGAAACGGTGCGTACCTTGCTGATTCCAGAGCATA +AAGGTCATCTGGATCTGGTTGTACTGATGATGCAACTGGGTAAACAGCAAATTAACAGCATCTGGGTGGA +AGCGGGGCCAACGCTCGCTGGCGCATTGCTGCAGGCGGGTTTAGTCGATGAGCTGATTGTCTATATCGCA +CCTAAACTATTAGGCAGCGACGCCCGCGGATTATGCACGCTGCCAGGGCTTGAGAAATTAGCCGACGCCC +CCCAATTTAAATTCAAAGAGATACGTCATGTAGGCCCGGATGTTTGCCTGCATTTAGTGGGTGCATGATC +TCCCGGCTCGAAAGGGAAGCAGCGCACGAAATATTATGCTAAAATCCGCCCCCCTGCGGGGCCATACTCG +AACCCGAAGGAAGAAAATGAACATTATTGAAGCTAACGTTGCTACCCCGGACGCTCGCGTCGCCATCACC +ATCGCGCGTTTCAACAACTTTATCAATGACAGCCTGCTGGAAGGTGCAATTGACGCACTGAAACGTATCG +GTCAGGTAAAAGATGAAAACATTACCGTTGTTTGGGTGCCTGGTGCCTATGAGCTGCCGCTGGCGGCGGG +TGCACTGGCTAAAACCGGTAAATACGACGCGGTGATTGCGCTGGGTACGGTTATTCGTGGTGGCACTGCC +CACTTTGAATATGTCGCTGGTGGTGCAAGCAACGGCCTGGCGCATGTTGCCCAGGACAGCGAAATTCCGG +TTGCTTTTGGGGTTCTGACCACTGAAAGCATTGAACAAGCGATCGAACGTGCTGGCACCAAAGCTGGCAA +CAAAGGTGCAGAAGCTGCACTGACCGCGCTTGAAATGATTAATGTATTGAAAGCCATCAAGGCCTGAAAT +TAGTAAGGGGAAATCCGTGAAACCTGCTGCTCGTCGCCGCGCTCGTGAGTGTGCCGTCCAGGCGCTCTAC +TCCTGGCAGTTGTCCCAGAACGACATCGCTGATGTTGAATACCAGTTCCTGGCTGAACAGGATGTAAAAG +ACGTTGACGTCCTGTACTTCCGTGAGCTGCTGGCCGGGGTGGCGACTAATACCGCATACCTCGACGGACT +GATGAAGCCATACCTGTCCCGCCTGCTGGAAGAACTGGGACAGGTAGAAAAAGCAGTACTGCGCATTGCG +CTGTACGAACTGTCTAAACGTAGCGATGTGCCATACAAAGTGGCCATTAACGAAGCGATCGAACTGGCGA +AATCGTTCGGCGCAGAAGACAGCCATAAGTTCGTCAACGGCGTACTCGATAAAGCAGCACCTGTGATTCG +CCCTAACAAAAAGTGATATCCAGGCCGGTAGATTCACGGAAGACCGTTCCATGATCGCCGGCCTTTTCTT +TTTTACCTGCTGAGGCATAACGTATGGCATGTGGCGAGTTCTCCCTGATTGCCCGTTATTTTGACCGTGT +AAGAAGTTCTCGTCTTGATGTCGAACTGGGCATCGGCGACGATTGCGCACTTCTCAATATCCCCGAGAAA +CAGACCCTGGCGATCAGCACTGATACGCTGGTGGCGGGTAACCATTTCCTCCCTGATATCGATCCTGCTG +ATCTGGCTTATAAAGCACTGGCGGTGAACCTAAGCGATCTGGCAGCGATGGGGGCCGATCCGGCCTGGCT +GACGCTGGCATTAACCTTACCGGACGTAGACGAAGCGTGGCTTGAGTCCTTCAGCGACAGTTTGTTTGAT +CTTCTCAATTATTACGATATGCAACTCATTGGCGGCGATACCACGCGTGGGCCATTATCAATGACGTTGG +GTATCCACGGCTTTGTTCCGATGGGACGAGCCTTAACGCGCTCTGGGGCGAAACCGGGTGACTGGATCTA +TGTGACCGGTACACCGGGCGATAGCGCCGCCGGGCTGGCGATTTTGCAAAACCGTTTGCAGGTTGCCGAT +GCTAAAGATGCGGACTACTTGATCAAACGTCATCTCCGTCCATCGCCGCGTATTTTACAGGGGCAGGCAC +TGCGCGATCTGGCAAATTCAGCCATCGATCTCTCTGACGGTTTGATTTCCGATCTCGGGCATATCGTGAA +AGCCAGCGACTGCGGCGCACGTATTGACCTGGCATTGCTGCCGTTTTCTGATGCGCTTTCTCGCCATGTT +GAACCGGAACAGGCGCTGCGCTGGGCGCTCTCTGGCGGTGAAGATTACGAGTTGTGTTTCACTGTGCCGG +AACTGAACCGTGGCGCGCTGGATGTGGCTCTCGGACACCTGGGCGTACCGTTTACCTGTATCGGGCAAAT +GACCGCCGATATCGAAGGGCTTTGTTTTATTCGTGACGGCGAACCTGTTACATTAGACTGGAAAGGATAT +GACCATTTTGCCACGCCATAAAGATGTCGCGAAAAGTCGCCTGAAGATGAGTAATCCGTGGCATCTACTT +GCTGTCGGATTCGGAAGTGGATTAAGCCCGATCGTTCCTGGGACGATGGGCTCGCTGGCAGCGATTCCGT +TCTGGTATCTGATGACCTTTTTGCCCTGGCAGCTCTACTCGCTGGTGGTGATGCTGGGGATCTGTATCGG +CGTCTATCTTTGTCATCAAACGGCGAAAGACATGGGTGTGCACGATCATGGCAGCATTGTCTGGGACGAA +TTTATTGGTATGTGGATCACGCTCATGGCGCTGCCGACCAATGACTGGCAGTGGGTTGCCGCCGGGTTTG +TGATTTTCCGTATTCTGGATATGTGGAAGCCGTGGCCGATCCGCTGGTTTGATCGCAATGTGCATGGCGG +CATGGGGATCATGATCGACGATATTGTCGCCGGGGTGATTTCCGCAGGCATCCTGTATTTTATCGGTCAT +CACTGGCCGCTGGGTATTCTGTCGTAGTTGTGCACCGATGCCTGATGTGACGCTTGTCACGTCTCATCAG +GCCTGGACTCTTATTTAAATCCTACGACAGGATGCGGTTTATACGGCGTTTCCAGTTCGGCAATCTGTTC +CGGCTTCAAAGTGATATCCACCGCGTTCAATAGCTCATCAAGCTGTTCTTCGCGCGAAGTTCCGATAATC +GGTGCGGCAATGCCCGGTTTACTCAACAACCAGGCCAGCGCAACTTGTGCTCGTGTCGCCCCCAGTTCTT +CACTGACGCCTGTTAACCGCTCTGCGATCTGCGCGTCATTTTCATCGCTTTCTTTATAGAGATTTTTCCC +CACCTCATCAGACACCAGTCGTGCGGTAGTTTCTCCCCACGGACGCGTCAGACGGCCCCTTGCCAGCGGG +CTCCATGGAATTACCGCCACGCCCTCCTGATAACACAGTGGTAGCATCTCGCGCTCTTCTTCACGATAAA +TCAGATTGTAGTGATCCTGCATACTGACAAACTGCGCCCAGCCGTGCTGTTTTTGGAGTTCCAGTGCCTG +AGCAAACTGCGAAGCGTGCATTGATGACGCGCCGATATAACGCGCTTTCCCGGCTTTTACCACGTCGTTG +AGGGCTTCCAGCGTCTCTTCGATCGGCGTGTTGTAATCCCAGCGATGAATTTGCAGGATATCGACATAAT +CCATGCCGAGACGTCGCAGGCTGTCGTCGATAGAGCGCAAAATTTGCGCACGGGATAATCCTTCCGGTAA +ATCACCAACGCGATGGAACACTTTGGTCGCAACGACCACGTCTTCACGACGGGCGAAATCCCGCAGTGCG +CGACCGACGATCTCTTCGCTGCTGCCGTCAGAATAACTGTTGGCGGTATCAAAGAAATTTATGCCGCCTT +CCAGTGCACGTTTAATTATGGGACGGCTGCTTTCTTCCGGCAGTGTCCATGCGTGATTACCGCGATCTGG +CTCGCCAAAGGTCATACAGCCGAGGCAAAGTCGGGAAACGCGAAGGTCGGTTTTTCCTAAGGGGTTGTAT +TGCATGCTGCCACTCCTGCTATACTCGTCATACTTCAAGTTGCATGTGCTGCGGCTGCATTCGTTCACCC +CAGTCACTTACTTATGTAAGCTCCTGGGGCTTCACTCGTTTGCCGCCTTCCTGCAACTCGAATTATTTAG +AGTCTATGAATAATTTCTTAAGCATAGCAGGAGTGGAGTAGGGATTATGCCAGCCAGGCCTTGATTTTGG +CTTCCATACCAGCGGCATCGAGGCCGAGTTCGGCGCGCATTTCTTCCTGAGTTCCTTGCGGAATAAAGAA +GTCCGGCAGGCCAATGTTCAGCACGGGTACTGGTTTACGATGGGCCATCAGCACTTCGTTCACGCCGCTG +CCTGCGCCGCCCATAATGGCGTTTTCTTCTACGGTGACCAGCGCTTCATGGCTGGCGGCCATTTCCAGAA +TTAACGCTTCATCAAGCGGTTTCACAAAACGCATATCGACCAGCGTGGCGTTCAGCGATTCGGCGACTTT +CGCCGCTTCTGGCATCAGCGTACCAAAGTTAAGGATCGCCAGTTTCTCGCCACGACGCTTCACAATGCCT +TTGCCAATTGGTAGTTTTTCCAGCGGCGTCAGTTCCACGCCGACCGCGTTGCCACGCGGGTAGCGCACCG +CTGACGGGCCATCGTTATAGTGATAGCCGGTATAGAGCATCTGGCGACATTCGTTTTCATCGCTCGGGGT +CATAATGACCATTTCCGGTATGCAGCGCAGGTAAGAGAGATCAAAAGCACCCTGATGGGTTTGACCGTCA +GCACCAACAATGCCCGCGCGGTCGATGGCGAACAGGACCGGAAGCTTTTGAATCGCCACGTCATGCAGCA +CCTGATCATAGGCGCGTTGCAGGAAAGTGGAGTAAATCGCGACAATGGGTTTGTACCCACCAATCGCCAG +ACCCGCAGCAAAGGTCACCGCGTGTTGCTCGGCAATTGCCACGTCGAAGTAGCGATCCGGGAATTTACGT +GAAAACTCGACCATGCCGGAACCTTCACGCATCGCCGGAGTAATCGCCATCAGCTTGTTGTCTTTCGCTG +CCGTTTCGCACAACCAGTCGCCAAAGATTTTTGAATAGCTCGGCAAACCGCCGCTACTTTTCGGCAAACA +ACCGCTGGAGGGATCAAATTTAGGCACGGCGTGGAAAGTGATCGGGTCTTTTTCTGCCGGTTCATAACCA +CGACCTTTTTTGGTCATGATATGCAGGAACTGCGGGCCTTTCAGGTCGCGCATGTTCTTTAGCGTGGTGA +TAAGCCCCAGCACATCGTGACCGTCCACCGGGCCGATGTAGTTAAAGCCCAGCTCTTCAAACAACGTGCC +AGGCACTACCATGCCTTTAATATGTTCTTCGGTGCGTTTGAGCAGCTCTTTAATTGGCGGCACGCCAGAG +AAAACTTTTTTCCCGCCTTCGCGCAGTGAAGAGTAAAGCTTACCGGAAAGCAGCTGTGCCAGATGGTTGT +TGAGCGCGCCGACATTTTCGGAAATCGACATTTCATTGTCGTTGAGAATCACCAGCATATCAGGACGGAT +ATCGCCCGCGTGATTCATCGCTTCAAACGCCATGCCTGCGGTAATCGCGCCATCGCCAATGACACAGACG +GTGCGGCGATTTTTGCCTTCTTTTTCGGCAGCAACCGCAATACCAATTCCGGCACTGATGGAGGTTGATG +AATGCCCGACGCTTAATACGTCATATTCGCTTTCGCCGCGCCACGGGAACGGGTGCAGACCGCCTTTCTG +ACGGATGGTGCCGATTTTGTCGCGGCGTCCGGTCAAAATTTTATGCGGATAAGCCTGATGCCCCACATCC +CAAATCAATTGGTCAAACGGGGTGTTGTAGACATAGTGCAGCGCCACGGTCAGTTCGACCGTGCCCAGCC +CGGAGGCGAAGTGCCCGCTGGAACGGCTCACGCTGTCGAGTAAATAGCGGCGCAGTTCGTCGCAGAGTTT +CGGTAAACTCTCTTTCGGCAACAGTCGTAACTCCTGGGTGGAGTCGACCAGTGCCAGGGTCGGGTATTTG +GCAATATCAAAACTCATCAGGGGCCTATTAATACTTATTGTTTATTTATTACGCTGGATGATGTAGTCCG +CTAGCGCTTCCAGTGCCGAGGTATCGAGTGACTGTTCAGCCAGTTGTTTCAGCGACTGACGGGCATCGTC +GATCAGATCCCGGGCTTTCTTCCGGGCTTGCTCAAGACCCAGAAGTGCAGGGTAGGTACTTTTACCAAGT +TGCTGGTCGGCACCCTGGCGTTTTCCCAACGTTGCAGTATCTCCCACCACATCCAGGATGTCATCCTGAA +CCTGGAAGGCAAGGCCGATGCTCTCTGCATACTTGTCGAGTACCGGCAGAGCACGACGTCCTTTATCTCC +GGCGCTTAATGCACCAAGGCGAACGGCGGCGCGAATCAATGCGCCGGTTTTATGACGATGAATACGCTCA +AGCGCGTCCAGAGGTACGTGTTTGCCTTCCGCGTCTAAATCTAATGCCTGACCACCGCACATTCCGGCAA +TACCACTGGCGCTCGCCAGTTCAGAAATCATCGAAATTCTGTCGCGGTCCGACACTTCCGGCATATCGGC +ATCGCTTAAAATCGAGAACGCCAGCGTTTGTAAAGCGTCGCCAGCGAGAATCGCGTTTGCTTCGCCAAAC +TTCACATGGCAGGTTGGCAAACCGCGACGCAGATCGTCATCATCCATTGCCGGTAAATCATCATGAATTA +ATGAGTAAGCGTGGATACACTCAACGGCGGCAGCGGGTGCGTCCAGCGTGTTTGTGCTAACGCCGAACAT +ATGACCGGTGGCATAAACCAGGAAAGGTCGCAGGCGCTTACCACCTAATAATGCGCCATACTGCATGGTT +TCGACCACGGGAGTGTTCTGAAAGGGCAGTGGGGCGATAAAACGGCTCAGCGCCTGGTTGGCCTGCTTAA +CGCAGGCTTCGAGTTGCTGCGGAAAGTCCATTACTCATTGTCCGGTGTAAAAGGGGTTAGAGAGGCGTCT +TCATTGTCAGACAGCAGAATTTGTACGCGCTGTTCGGCTTGTTGTAATTTGGCCTGCCCCTGACGTGCCA +GCTGCACGCCGCGTTCGAACTCGTTCAGCGCCTCTTCCAGCGGCAGGTCGCCACTTTCCAGACGGGTTAC +AATCTGTTCCAGCTCGCTCAGCGCCTTTTCAAAGCTGGCGGGCGCCTCATTTTTCTTCGGCATAATGAAT +GTCTGACTCTCAATATTTTTCGCCCCGTCATGGTAACGGACTCAGGGCAAATAGCAAATAACGCGCAATG +GTAAGGTGATGTGCACAGCAAAGCGATGTTAGTGGTATACTTCCGCGCCTGGATGCAGCCGCAGGTGTGG +GCTGCTGTATTTTTCCCTATACAAGTCGCTTAAGGCTTGCCAACGAACCATTGCCGCCATGAAGTTTATC +ATTAAATTGTTCCCGGAAATCACCATCAAAAGCCAATCTGTGCGCTTGCGCTTTATAAAAATCCTTACCG +GGAACATTCGTAACGTTTTAAAGCACTATGATGAGACGCTCGCTGTCGTCCGCCACTGGGATAACATCGA +AGTTCGCGCAAAAGATGAAAACCAGCGTCTGGCTATTCGCGACGCTCTGACCCGTATTCCGGGTATCCAC +CATATTCTCGAAGTCGAAGACGTGCCGTTTACCGACATGCACGATATTTTCGAGAAAGCGTTGGTTCAGT +ATCGCGATCAGCTGGAAGGCAAAACCTTCTGCGTACGCGTGAAGCGCCGTGGCAAACATGATTTTAGCTC +GATTGATGTGGAACGTTACGTCGGCGGCGGTTTAAATCAGCATATTGAATCCGCGCGCGTGAAGCTGACC +AATCCGGATGTGACTGTCCATCTGGAAGTGGAAGACGATCGTCTCCTGCTGATTAAAGGCCGCTACGAAG +GTATTGGCGGTTTCCCGATCGGCACCCAGGAAGATGTGCTGTCGCTCATTTCCGGTGGTTTCGACTCCGG +TGTTTCCAGTTATATGTTGATGCGTCGCGGCTGCCGCGTGCATTACTGCTTCTTTAACCTCGGCGGCGCG +GCGCATGAAATTGGCGTGCGTCAGGTGGCGCATTATCTGTGGAACCGCTTTGGCAGCTCCCACCGCGTGC +GTTTTGTCGCTATTAATTTCGAACCGGTCGTCGGGGAAATTCTCGAGAAAATCGACGACGGTCAGATGGG +CGTTATCCTCAAACGTATGATGGTGCGTGCCGCATCTAAAGTGGCTGAACGTTACGGCGTACAGGCGCTG +GTCACCGGCGAAGCGCTCGGCCAGGTGTCCAGCCAGACGCTGACCAACCTGCGCCTGATTGATAACGTCT +CCGACACGCTGATCCTGCGTCCGCTGATCTCTTACGACAAAGAGCACATCATCAACCTGGCCCGCCAGAT +TGGCACCGAAGACTTTGCTCGCACGATGCCGGAATATTGTGGTGTGATCTCCAAAAGCCCGACGGTGAAA +GCAGTTAAATCGAAGATTGAAGCGGAAGAAGAGAAGTTCGACTTCAGCATTCTCGATAAAGTGGTTGAGG +AAGCGAATAACGTTGATATCCGCGAAATCGCCCAGCAGACCGAGCAGGAAGTGGTGGAAGTGGAAACCGT +CAATGGCTTCGGCCCGAACGACGTGATCCTCGATATCCGTTCTATCGATGAACAGGAAGATAAGCCACTG +AAAGTCGAAGGGATTGATGTGGTTTCTCTGCCGTTCTATAAACTGAGCACCAAATTTGGCGATCTCGACC +AGAACAAAACCTGGCTGCTGTGGTGTGAGCGCGGGGTGATGAGCCGTCTGCAGGCGCTCTATCTGCGCGA +GCAGGGCTTTAACAATGTGAAGGTATATCGCCCGTAATTTGTGGTTTTTACGTCGCATCTGGTCAGATGC +GACGTTTGCCGCATCCGACACTACTCGTAATAATTATAAATCCCTGCCGCCATCACCAGTTGTGATGCCA +CTTCATGGGCTTTTTCACGCCCAACCAACAGGTCGATAATTTTCAGACCAAAGTCGATAGCTGTACCCGG +CCCCTGGCTGGTCAGCAATTTTACCCGTGCATCCCAGACGACGCGCTTGTCCAGCCATTGTTCGGCGGGA +ATTTTGTCTTTCAGCGTCGGGAAGCCGGTCATATTACCAATCGGGAAGATATCGTGCGGCACCAGCACGG +TGGCTGGCGCGGCGCAAATAGCCGCGACGATACGCCCGGAACGGTGGAACTGTTTAACGGTTTCAACCAG +CAGAGTGCTATCGCGAAAACACTCCGCGCCTTTAATGCCACCAGGCAGCACGATCACGTCATATTCGCCA +TCAGCCACTTCGACCAGCGGCGCATCCGCCAGCAGCTTCACGCCGCGCGAGCAGGTAATCGCCAGGTTAC +CATCGCTGGCGACGCTGGCAGTGGTGACTTTGATACCGCCGCGAACCAGCAGATCGATAGTGGTGACGGC +TTCAGTCTCTTCACTACCAGGGGCGAGGCAAACCAGTGCCGATGCGCTCATATTCACTCTCCTTTCTTTT +TACCATTTCAAACAGGCGGGTGTTTTCCGGTACGGCAATCCCATGCGCGCGGGCGCGGCGTAAGAGAAAA +CCATTGATATAGTCGATTTCAGTGTGGCGCAGCGCGCGGATATCCTGCAACATCGACGAGATATTTTCCG +CTGTGGCATCAATCACCTGCATCACGTAATCACGCAAATCTTCTGCTGAAGTATGATGCCCTTCGCGTTC +GATCACCGCCGCGACTTCTTCGCATATCTGCATAATTTCTTGCGGATGATGACGTAATTCACCGTTCGGG +CAATTCCAGATGGCAGTCAGTGGATTAATCACGCAGTTGACTGCCAGCTTGCGCCACAGCTCGGCGCGAA +TATTGTTATGCCAGGCAACGTCAGGCAACACGGTTTGCAAAATATCCGCCAGATAACTGTAATCCCCGTC +CTGTTGCCGTGCCGGGCCAATATGCGTGATACCGTTTGCCACATGAATAATGACATTGCCGTCGCGGCGG +GCTGCATGGGTGGTGGTGCCCATCAGTAATGGCTGCTGAATGTTTTGCAACTCTTCGATGGTGCCCATGC +CGTTGTGAATTAACAGTATTGGCGTAGTTACAGGCAGTGTGGACGCGAGGCTTTTGACGGCATCGGAAAC +CTGCCATGCTTTCAGCGTCACCAGGAGCAGATCGCTGGTGGCGAGAAAATCGGGATCGTTGGCGGTCAGC +GATTCGTTAAATATCGAACCATCTGTCTCAACCAGATTCACGCTACAATAAGGTTGCGGTACGCGCAGCC +AGCCCTGAACTTCATGACCCTGTTTGCAAAGTGCTGTAAGCCATAATTGCCCTAAGGCACCGCATCCCAA +TACGGTAATTTTCATTGTTCCTCCTCACCCGCAACCACTCCGGGTGTTCAATAAGGCTATCCCTTAATTG +TGCATGCTGTTGCGACTATGCACAATTAAGGGATACGTCCTGGTGCAGGACTGTCGGTTATTTAACTTTG +CGGGTATTATGCTTCGCATCAAAAATGAAGGGAGAGGAAAAGATGCCATCTTTCGATATTGTCTCTGAAG +TTGATCTTCAGGAAGCACGTAACGCGGTCGATAACGCGAGCCGCGAAGTGGAGTCCCGTTTTGACTTCCG +TAACGTTGAAGCCTCATTTGAGCTGAACGACGCCAGCAAAACCATCAAAGTGTTGAGCGAGTCCGATTTC +CAGGTCAATCAGTTGCTGGATATTCTGCGTGCCAAGCTGCTGAAGCGCGGCATTGAAGGCAGTTCGCTGG +ATGTACCGGAGAATATCGTTCATAGCGGTAAAACCTGGTTTGTGGAAGCGAAACTGAAACAGGGCATTGA +GAGCGCGACCCAGAAGAAAATCGTCAAGATGATCAAAGACAGCAAACTGAAAGTGCAGGCGCAAATTCAG +GGCGATGAAATCCGCGTAACGGGCAAATCTCGTGATGATTTGCAGGCTGTCATGGCGATGGTACGTGGTG +GCGATCTCGGTCAGCCGTTCCAGTTCAAAAACTTCCGCGATTAATCGCGACTATGTGCGTTTTGTTCATG +TCAGATGCGGCATGAACGCCTGATTCGGCCTACAAAGGTTTGTAATTCAGAAACTTTGTAGGCCTGATAA +GCGTAGCGCAGCAGGCAATTCGCCGCGTTTTTTATGCCTGACGAATTGCCTGTTCTATCTCAAAGCGATT +CGTCACTTTGCTGTCGATTTTCACATAAGCTGAATGTTCTTCTTCTGCAATCAACACTTCTTTGATGCCT +TCAGTTTCTAGCAAACGCACTTTTAACGCCTCGTTTGCGGCAATGTTCGCCGGGATTTCAATGCGCAAAC +TGCTGACATACGGCGGTTCTTTCATGGTACTGGCGACTGTCAGCCACACTGCGGCCAGCATTGCGCCAGC +GAGAAATACCCCCTGACCGTCAAACATGCCGTTAATCCAGCCGCCCAGCGAACCGCCAATCGCCACGCCA +AGAAACTGGCTGGTGGAGTAAACACCCATCGCCGTACCTTTGTAACCTGCTGGCGACTCTTTACTGATAA +GTGAGGGCAGGAGGGCTTCCATCAAATTAAACGCCACAAAGAAAAGCTGCACGCCGACCACCAGTTGCCA +GAACTGCGTTTGCGCGTTCCACAACACAATTTCCGCAACCACGATCAACCCGACGCAGAAGACAAAGACT +TGCTTCATTTTGCGCTTAACTTCAGCGTAGATAATGAAAGGCACGACCGAGCCAAAGGCGATTAGCATTG +TCGCCAGATAGACCTTCCAGTGTTCAGCCGCCGGGAACCCTGCATCAGCCAGTTGTCCGGGCAGGGCAAC +AAACGTCGACATCAGCAAAATATGCAGACACATAATGCCAAAGTTGAGTTTCAGCAGCCGCGGTTCCGCC +AGCACTTTACTGAAACTGCCTTTCACCATTCCGGACTCACGATTAAGTACGTGAGTGCTACTGTTGGGCA +CAACCCAAATGGTCAACGCAATGCCGGTCGTTGCCAGAATAGCGATCATCCAGAACAGCGCGTGCAGCCC +AAGTTTGTGAGTGATGATCGGGCCAAGCACCATCGCAATGGCAAAGGTAATGCCAAAGCTCACGCCGATA +AACGCCATCGCTTTGGTGCGGTTTTGTTCGCGCGTGAGATCGGAAAGCAGCGCCATAACGGCGGCGGCAA +TTGCTCCAGAGCCTTGTAGCGCCCGGCCCAGAATAATTCCCCAGATGGAGTCGGAAAGCGCAGCGATAAC +GCTACCGGCGGCAAACACCGCCAGCCCACCGACAATTAATGGTTTGCGACCAATGCGGTCGGAAAGCAGG +CCAAACGGAATCTGAAAAACGGCCTGAGTCAGACCATAAATACCAATGGCAATACCGATTAATGCTTCGC +TGGCACCTTGCAGAGCCATGCCGTACGTGGTCAGAACCGGCAGAACCATAAACATGCCCAGCATGCGCAA +CGAGAATACGGTCCCTAAACCCCAGGTCGCGCGCCTCTCACCTGGCGTCATTTTATAATCGTTCATTACC +ACCTCTGTTTTAAATTCGCGACTAGTGTAAAGCGGCAAACGAATGGGGTAAACATGCGGATTTTTTAGTA +AATATTTCGAGAGGGATATGTTTCTAATGCTAAGAAAAAAGGTGCCGTAGCACCTTTTTAATAGAGAGGT +TTTGTTACCACACAGCAGCCAGCAGCGTATGCGAGTCCGGTACCATAAAATCAACGGACATCATCACCGA +GAGGGCAGTGATGGCGATGATAGAGAAGCCGAACAGCTTGCGCGCCCAGATTCTGTCATCAGCAACTTTA +TAACCGCGCAGAGCCATACCTAACCACCAGACGCTAACCGCCGCGGCGACCACCAGATATTTATACCCAG +CGTAACCGCCAAGAGAGAGCATCAGCGTGGCAACGGCAAAGGCGATGATATACAGCGTGATGTGATTCTT +CGCCACCGAAATGCCTTTTACCACTGGCAATACCGGAATGTTTGCCGCCTGGTAATCCTTAAAGCGGAAA +ATGGCGATGGCATAGGAGTGAGGCATCTGCCACAGGCTGAAGATAGCCAGCAGGATCGCTGCGCCGCTAT +CGAACTCACCGGTTACCGCACAGTAGCCGATCACCGGCGGCGCAGCGCCGGAGAGCGAACCAATCAACGT +GCCGTAGACAGAGTGGCGTTTCATGTACAGGCTATAAACGCCGACATAAACCACAAAGCCCATCACCCCC +AGCCAGCAGGCCAGCGGATTCGCGCCAAACCACAGCAGCATAAAGCCAGCAATACCCAGCAACGTGGCGT +ACACCAGCGAGACAGCAGGAGAGATCAGGCCTTTCACCAGCACCCGATTCTTCGTCCTTTCCATCTTTCT +GTCGATATCCCTGTCGATGTAGTTGTTAAACACACAACCCGACGCCACAACCAGTGACACCCCAACCAGC +GTGTAGATAAACAGGGGATAATCAATGCTGCCCTTTGAGGCCAGCAGGAATCCCCCAATCACCGAGATCA +GGTTGCCAAAGATGATGCCTGGTTTCGTTACTTGCAGGTATTGCTTAAACATCATAACCGCCGCTCTTAG +TGCATCATCATGTTGTAGTTGAGGTTCCACATAATCCAGATGGAGCCTACAACCAGGATAGCGATGATTA +GCACGGTGAAGACAAACGCCGTCATGTTCCAGCCTTCATCTGATTTGGTATTCATGTGCAGGAAGCACAC +CAGATGCACCAGAACCTGTACCACTGCCATTGCCAGGATTGTTCCCAGAATTACGGCCGGAGAGGCAGCT +CCTGTCATCACCATCCAGAACGGAATCACCGTCAGAATGATCGACAGGATAAAGCCTGTCATGTAGGTTT +TTACGCTGCCATGGGACGCGCCGCTGTGATCGGTAGAATGACTCATTACATCGCCCCCATCAGATAAACA +ACAGTGAACACACAGATCCAAACCACATCCAGGAAGTGCCAGAACAGGCTCAGGCACATGATGCGGGTAC +GGTTAGTGCTGGTCAGGCCGCGACGGGCGATTTGCACCATCAGCACCGCCATCCAGATAAGACCAGAAGT +GACGTGCAGACCGTGCGTGCCGACCAGCGCAAAGAACGCTGACAGGAAGCCGCTGCGATCCGGACCCATG +CCGTTAACAATCAGGTGATGGAATTCATAGATTTCCATCCCGATAAATCCGGCACCAAACAACCAGGTCA +ACGCCAGCCAGGAGATAACCTGGCTTTTGTTGTTTTTGTACATGGCGATAGCCGCCATGCCGTAGGTGAT +GGAGCTGAACAACAGCAAGAAAGTTTCAACCAGAACGAACGGCAGTTCGAAAATGTCCTTACCTGTCGGG +CCGCCTGCGGTGCCGTTCACCAGAACGGCATAGGTAGCAAACAAGATAGAGAACAGAATGCAGTCGCTCA +TCAGGTAGATCCAAAATCCGAAGATTTTGGTTCCGCCTGCATCGTGGTGCCCGTGTTCGTGCGCGTGGGC +AGTCGCGTGCGTCAAAGTATCAGTTGCCATTTTTCAGCCCTGCCTTAGTAATCTCATCGAAATGCTGGTT +TTCCAGTTTTTCGATTTCTGCCACCGGCACGTAGTAATCCACGTCCTCGTCGAAGCTTTTCACGATCCAG +GTGATGATCATGCCTGCGAAGCCAACAATCGCCAGCCACCAGATATGCCAGATCATGGCGAAACCGAAGA +TGGTGGAGAAAGCTGCAATGACGATACCTGCACCGCTGTTTTTCGGCATATGAATTTCTTCATAGTGGTC +AGGCTTTTTATACGCTTCGCCTTTCTCTTTCATTTCCCAGAATGCATCACGTTCGTGAACGTGCGGCACT +ACGGCAAAGTTATAGAACGGAGGCGGGGAAGAGGTTGCCCACTCCAGCGTACGGCCACCCCACGGGTCGC +CAGTCAGGTCACGGTTCTGGTCGCGGTCGCGAATAGAAACGTACATCTGAATAACGAGGCAGAGAATACC +CAGCGCAATCAGTACTGCACCGCTGGCTGCAATCATCAGCATGGTGTGGAACTGCGGGTCAATCTGCTGG +CTCAAACGACGGGTCATGCCCATGAAGCCCAGCGCATACAGTGGCATAAAGGCAACGAAGAAGCCGATGA +TCCAGAACCAGAACGCGCGTTTACCCCAGGTTTCGTTCAGTTTGAAACCGAACGCTTTAGGCCACCAGTA +GGTCATCCCTGCGAAGCAGCCGAAGACCACGCCGCCGATGATCACGTTATGGAAGTGCGCAATCAGGAAC +AGGCTGTTATGCAGAACGAAGTCCGCGCCCGGTACGGCCAGCAGCACGCCAGTCATCCCGCCCACCGAGA +AGGTGACGATAAAACCGATGGTCCACAGCATCGCAGAATGGAACACGATGCGGCCCTGATACATGGTGAA +CAGCCAGTTGAAGATCTTCACCCCGGTCGGGATGGCGATAATCATTGTGGTGATACCAAAGAAGGCGTTT +ACGTTCGCGCCCGCACCCATCGTAAAGAAGTGGTGCAGCCAAACGATGAACGACAGCACGGTGATACAGA +CGGTTGCCCATACCAGCGAGGTATAACCAAACAGACGTTTACGCGAGAAGGTTGCCGCAATTTCGGAGAA +CACACCGAAAACAGGCAGGATCAGGATGTAAACTTCCGGGTGGCCCCAGGCCCAAATCAGGTTGATGTAC +ATCATCATGTTGCCACCCATATCGTTGGTAAAGAAATGGGTGCCCAGATAGCGATCCAGGGTCAACAACG +CGACGGTAACCGTCAGAATTGGGAAGGAAGCAATAATCAGTACGTTCGCGCACAGTGATGCCCAGGTAAA +TACTGGCATCTTGAACATGGTCATGCCCGGTGCGCGCATCTTCAGAATGGTAACGAAGAAGTTGATACCG +GTAAGCGTCGTACCTATACCGGATAGCTGGAGACTCCATATCCAGTAATCGACACCGACTCCCGGACTGT +ACTCTATTCCCGATAGCGGTGGATAGGCCAGCCAGCCGGTCTGCGCAAATTCGCCCACGCCGAGAGAAAC +GTTAACCAGAATCACACCAACAACGGTAAACCAGAAGCTTAAGTTGTTGAGGAACGGGAACGCAACGTCA +CGCGCGCCGATCTGCAGCGGAACCACCAGGTTCATCAGACCGATAACGAAAGGCATCGCCACGAAGAAGA +TCATAATCACGCCGTGCGCGGTAAAGATCTGATCGTAGTGGTGAGGTGGCAGGAAGCCCGCTTCGCCCGC +CGAGGCAAGAGCCTGCTGGCTACGCATCATAATGGCGTCAGCAAAACCACGCAGCAACATCACAATCGCC +ACGATGATATACATGATACCGAGGCGTTTATGGTCGACGGAGGTCAGCCACTCTTTCCACAGGTAGGTCC +ACTTACCGAAGTAAGTGATCAGGCCAACGAGCGCCAGACCTCCCAAAATAATGCCAGCGATCGTAACCAT +GACGATAGGTTCATGGAACGGGACTGCATCAAGTGATAATTTTCCGAACATCTTTATTCTTCCTCAACCC +CTTTAATGGGCGGATTCCGCGTGGCTCATGTCCATGCCTTCCATACCTTCGTGTGCGCTGTGCTCACCTT +CTGGCTGGGTCATGTCCATGCTCTTACCGTGAGCCATAAACTTGTTAATTACATCGGCAAACAAGTCTGG +TTTCACGTTGGAGAAATATTCCACCTGGTTGTATTCGCTAGGCGCGGCCAGTTTTTCGAACGCAGCCATG +TCAGACATGGTGTTCGGCGACTGCTTCGCTTTTGCGACCCACTGGTCGAATGCGGCGCGATCCGGTGTTG +CAATAGCTTTGAACTTCATGCCTGAGAAGCCCGGGCCGCTGTAGCTGGCGGAGATACCGTCATAAGTGCC +GGGTTCGTTGGCGATCAGATGCAGGCGAGTCTGCATACCGGCCATGGCATAAATCTGGCTACCCAGACGC +GGAATGAAGAAGGAGTTCATCACGGAGTTGGAGGTCACTTTGAAGTACACCGGAGTGTTCGCCGGGAAAG +CGATTTCATTCACGGTAGCAATGCCCTGTTCCGGGTAGATGAAGAACCATTTCCAGTCCATGGAAACCAC +TTCGATGGTAATGGGCTTCTCGTCGTGTGCCAGCGGCTTGCTAGGCTCAAGAGCGTGAGTGGTTTTCCAG +GTCAGTACTGCAAGGAAGATGATGATTAAGATAGGTACCGTCCAGACCACAGCTTCCACTTTATTGGAGT +GTGACCAGTTCGGGCTGTACTTAGCATCTTTATTGCTCGCACGGTACTTCCAGGCGAAACCAACAGCCAT +CAAGATTGCGGGAATAACGACAATCAACATCAGGCCAAATGCCGTCAGTATCAGTGAACGTTGCTCCAGA +CCAATCTGTCCTTTGGGATCTAACAGCGCAGAATTACAGCCACTGAGCAATACAGTGCCTGCAAATAATG +ACAACCATCCCAAACTTTTATTGTATTTCCTGAGTCTCATTTAACGACCTCAATTCCACGGGATCTGGTG +GCGTTTAAAGTGTGTGGGCATTTTACGGGAAGGTTACATTACTGTAAACATGATTAAATTCCTGTTACTT +GGATTTGGCTGCCAGGTCACATATGTTGCAAAACATATCAGGTTGATTTTAAGAAGCTGTTGCAAAAGGG +CGTTATAACAAAAGGGGAGTGCTGAAGGAGTCTGGGCGGGCAATTGGTATAACCAATGTGAAATAAAACA +ATTATTTAACAAATAATTATCATTAGAGTGACAACTGGGTGATGAGAAAATAAAGACTCATTAGCTGAAT +CGTGTAAGAAAAATAGAATTTATAAATGGCGCCAATAATTTCCAAACGCTAAGCCGCACAAAAGAACAAA +TATTAATAAGCGATACTGATGTTTATTTAGCCGTAATAATTACGGCGAGTGATTACTACAGCTAAATAAT +ATTTACAGATTACGTCAGATGCGTTTTTCGTAGCGCCAGATAATCCAGCAAACCACCAAGCACGACGCCA +GAAAGGGCGACTAAAACCCCGACTTCCAGCAGAGCAGGCAGGAAAGAGAAGTGCGTCAAATCCAGCGCGT +CCATCGTCAATAGCAGTAACCACACGGCCAACAGGCTGACGCCCGCCGCCAGTGTCCACATGGCAAAGGC +ATAACCTGCCGGATATGCGGTACGGGAGATAAAGTTGTCATTTACTCGTGTATATTCAAGCGTCTGGCGG +CAAACCAGCAGCAAAATAAGCCCTGGTACGGCAGCGGCGACGGAGAATAGATAGAATGTCGACCAGCCGT +GTGCTTCAACAAACCAACCCGCCACGGGGCCGACATAAACTCGCCCTACAGCAGAAAGCGCTGAGAGCAG +GGCAAATTGAGTAGCGGAAAATGACTTATTACATAGCGTCATTAACAGCGCGACAAAGGCTGATGTGCCC +ATCCCGCCACAGAGGTTTTCGAAAAAGACGGCTGCGCCCATGCTGTAGAGATGCTTATCAGTAATCGACA +GCAGCCAGTAACCGGCGTTAGACGCACCTTGTAAAATGCCGAAAATCAGCAGTGCCCGGAACAGTGACAG +GCGCTGCATCAAAATCCCACCGTACAATGCGCCAACAATGGTCGCTAGTAAGCCAAGCGTTTTGTTAACC +ACGCCTACTTCACCCGCATCAAACCCGACGCCGCGAATCAAAAACGTGGTTGTCAGGCTCATGGCGAATG +CGTCGCCCAGCTTATACAGCACGATAAGAAGCAAAATAAGCCAGGCATTATTGCGACCAAAGAAATCTCG +CAGAGGTGCAACAACCGCTTGTTCCAGCGTTTTGGGCACAGGAATGGTGTCGGTTGGTTCTGGTGCAAGC +AACGTCGCGATAATACAGGGGATCAACAGTGCCGCCATTAACCAGTACATGCCCTGCCAGCCCAGCCATT +TATCTGCCAGCCACAGGGCTAGGCCGCCGGAAACCAGCATCCCTAAACGGTAACCCAGCACGCTGATTGC +CGCGCCCGCACCACGTTCTTCTGCCGGAAGCACATCGGTTTTCCACGCATCGAAGACTATATCCTGGGAA +GCAGAGCAAAAAGCGATCACCACTGCCAGCGCCGCCATCCAGCGGAGTTGGGTGCCTGGTTCGAGAAAAC +CCATCGCCGCAATGGCGACTAATAACAGGATTTGCGTGGCGAGCAGCCAACCGCGCCGCCGCCCAAAAAA +TGGAGGCGTGTAGCGGTCCATCAGCGGTGACCAGAGGAATTTAAAAACGTAAGCCTGGCCTACCAGAGAG +AAGAAACCAATGGTTTTGAGATCGATATTCTCGACCGTCATCCAGGCCTGTAAGGTACCGGATGTCAGGG +CGAGCGGTAGCCCGGAAGCAAAACCCAGGATCAGCAATATGGCTGAACGCGGCTGTTGAAAAATACGTAA +ATATTGACTGGACATGGGCGTCTACAGGCCCGGCTTGCACCGGGCCAGAGGGCAGAAATTAACGCGCGTT +CTGCTTGATGAATTCGTGGATGCTGGTGTCCTGAGACATATCAGCGATGGTATCGGTCAGCACACTGTTA +ACCGCATCGGCGATATTTTTGTTGGAGGCCTGGAACGCACCTTCAACGTTGTAGCTGGCACGATAGTTTT +TGGTCATTTTGTTGCCATTCTGCGCGGTAGCGATGATGGCGATATCCGCTTTGGTCGCGATGTTGTAGCG +CACGTTGCCCTGGGACACGTCAGCATACAGTTGGCTAACGATGATTTGCAGATTAACCGGGCCATTCGGA +CCAACCATGTAACCACGCGCGGTCATCTGTTTTTCCAGCACTTCTTGCAGCAGGAAACGCAGATCGCGGG +AGGCGGTCAGGGTAACGATTTGATTATCGCGGGTGACTTTTGCCAGCGCCTGATCGGTACGCTGATCGGC +ACCATTAATGCTTACGGTGACGCCCATCAGGCTTGGATCCTGCTGTGGCAGTGTAATCGTCGGGGAAACT +TCAATAGTTGTTGGCGGTTTTGCGCATCCTGCAAGCATAAACAGAGCAACTAACGGGAAGAGGATTTTTT +TGAACATGTTCGGGCTCTCAGAGACTCTTAAGCGTGTTTGGTAAAAATTCCCGCCATCATAACATTGCCA +ACGGCGAGGGGAAGTGGGTAAGGCATGTAAATTCATCATGTTGACGAAATAATCGCCCCTGGTAAAAGAA +ACACTGATGCGAGGCCTGTGTTTCAATCTTTAAATCAGTAAACTTCATACGCTTGACGGAAAAACCAGGA +CGAAACCTAAATATTTGTTGTTAAGCTGCAATGGAAACGGTAAAAGCGGCTAGTATTTAAAGGGATGGAT +GACATCTCAGCGTTGTCGGAGGAGATATTTCATGATGATACGTGAGCGGATAGAAGAAAAATTAAGGGCG +GCGTTCCAACCCGTATTCCTCGAAGTAGTGGATGAAAGCTATCGTCACAATGTCCCAGCCGGCTCTGAAA +GCCATTTTAAAGTTGTGCTGGTCAGCGATCGTTTTACGGGTGAACGTTTTCTGAATCGTCATCGAATGAT +TTACAGTACTTTAGCGGAGGAACTCTCTACTACCGTTCATGCGCTGGCTCTGCATACTTACACTATTAAG +GAGTGGGAAGGGTTGCAGGACACCGTCTTTGCCTCTCCTCCCTGTCGTGGAGCAGGAAGCATCGCGTAAA +AACGCATTTGCAACTGTCGGCGCTTTTCCAGTATGTTGCTAAAGATTTTATGAAAAACGGCCTGCGGGCC +GTTTTGTTTTGTCTGGATTTTGCGCTTTTTGCCCAGCATTCAGACGAAAATTGCCCGGGAATTGTGAAAA +AATACGCGACAGCGCGCAATAACCGTTCTCGACTCATAAAAGTGATGCCGCTATAATGCCGCGTCCTATT +TGAATGCTTTCGGGATGATTCTGGTAACAGGGAATGTGATTGATTATAAGAACATCCCGGTTCCGCGAAG +CCAACAACCTGTGCTTGCGGGGTAAGAGTTGACCGAGCACTGTGATTTTTTGAGGTAACAAGATGCAAGT +TTCAGTTGAAACCACTCAAGGCCTTGGCCGCCGTGTAACGATTACTATCGCTGCTGACAGCATCGAGACC +GCTGTTAAAAGCGAGCTGGTCAACGTTGCGAAAAAAGTACGTATTGACGGCTTCCGCAAAGGCAAAGTGC +CAATGAATATCGTTGCTCAGCGTTATGGCGCGTCTGTACGCCAGGACGTTCTGGGTGACCTGATGAGCCG +TAACTTCATTGACGCCATCATTAAAGAAAAAATCAATCCGGCTGGCGCACCGACTTATGTTCCGGGCGAA +TACAAGCTGGGTGAAGACTTCACTTACTCTGTAGAGTTTGAAGTTTATCCGGAAGTTGAACTGCAGGGTC +TGGAAGCGATCGAAGTTGAAAAACCGATCGTTGAAGTGACCGACGCTGACGTTGACGGCATGCTGGATAC +TCTGCGTAAACAGCAGGCGACCTGGAAAGAAAAAGACGGCGCTGTTGAAGCAGAAGACCGCGTAACCATC +GACTTCACCGGTTCTGTAGACGGCGAAGAGTTCGAAGGCGGTAAAGCGTCTGATTTCGTACTGGCGATGG +GCCAGGGTCGTATGATCCCGGGCTTTGAAGACGGTATCAAAGGCCACAAAGCTGGCGAAGAGTTCACCAT +CGACGTGACCTTCCCGGAAGAATACCACGCAGAAAACCTGAAAGGTAAAGCAGCGAAATTCGCTATCAAC +CTGAAGAAAGTTGAAGAGCGTGAACTGCCGGAACTGACTGCAGAATTCATCAAACGTTTCGGCGTTGAAG +ATGGTTCCGTAGAAGGTCTGCGCGCTGAAGTGCGTAAAAACATGGAGCGCGAGCTGAAGAGCGCCATCCG +TAACCGCGTTAAGTCTCAGGCGATCGAAGGTCTGGTAAAAGCTAACGACATCGACGTACCGGCTGCGCTG +ATCGACAGCGAAATCGACGTTCTGCGTCGCCAGGCTGCACAGCGTTTCGGTGGCAACGAAAAACAAGCTC +TGGAACTGCCGCGCGAACTGTTCGAAGAACAGGCTAAACGCCGCGTAGTTGTTGGCCTGCTGCTGGGCGA +AGTTATCCGCACCAACGAGCTGAAAGCTGACGAAGAGCGCGTGAAAGGCCTGATCGAAGAGATGGCTTCT +GCGTACGAAGATCCGAAAGAAGTTATCGAGTTCTACAGCAAAAACAAAGAACTGATGGACAACATGCGCA +ATGTTGCTCTGGAAGAACAGGCTGTTGAAGCTGTACTGGCGAAAGCGAAAGTGACTGAAAAAGAAACCAC +TTTCAACGAGCTGATGAACCAGCAGGCGTAATTTACGCAGCATAACGCGCTAAATTCGCACAAAGGCCCG +TCACCGCCAGGTGGTGGGCTTTTTTTTGTCATGAATTTTGCATGGAACCGTGCGAAAAGCCTCTTTCGGT +GTTAGCGTAACAACAAAAGATTGTTATGCTTGAAATATGGTGATGCCGTACCCATAACACAGGGACTAGC +TGATAATCCGTCCATAAGGTTACAATCGGTACAGCAGGTTTTTTCAATTTTATCCAGGAGACGGAAATGT +CATACAGCGGCGAACGAGATAACTTTGCACCCCATATGGCGCTGGTGCCGATGGTCATTGAACAGACCTC +ACGCGGTGAGCGCTCTTTTGATATCTATTCTCGTCTACTTAAGGAACGCGTCATTTTTCTGACTGGCCAG +GTTGAAGACCACATGGCTAACCTGATTGTGGCGCAGATGCTGTTCCTGGAAGCGGAAAACCCAGAAAAAG +ATATCTATCTGTACATTAACTCCCCAGGCGGGGTGATCACTGCCGGGATGTCTATCTATGACACCATGCA +GTTTATCAAGCCTGATGTCAGCACCATCTGTATGGGCCAGGCGGCCTCGATGGGCGCTTTCTTGCTGACC +GCAGGGGCAAAAGGTAAACGTTTTTGCCTGCCGAATTCGCGCGTGATGATTCACCAACCGTTGGGCGGCT +ACCAGGGCCAGGCGACCGATATCGAAATTCATGCCCGTGAAATTCTGAAAGTTAAAGGGCGCATGAATGA +ACTTATGGCGCTTCATACGGGTCAATCATTAGAACAGATTGAACGTGATACCGAGCGCGATCGCTTCCTT +TCCGCCCCTGAAGCGGTGGAATACGGTCTGGTCGATTCGATTCTGACCCATCGTAATTGATGCCAGAGGC +GCAACTGTGCCGCTATACTTATCCAGGGCGGCACAACGCTGTAAGCGGCTTGCGCCTGAGAATGGCATTT +GCGTCGTCGTGTGCGGCACAAAGAACAAAGAAGAGGTTTTGACCCATGACAGATAAACGCAAAGATGGCT +CAGGCAAATTGCTGTATTGCTCTTTTTGCGGCAAAAGCCAGCATGAAGTGCGCAAGCTGATTGCCGGTCC +ATCCGTGTATATCTGCGACGAATGTGTTGATTTATGTAACGACATCATTCGCGAAGAGATTAAAGAAGTT +GCACCGCATCGTGAACGCAGTGCGCTACCGACGCCGCATGAAATTCGCAACCACCTGGACGATTACGTTA +TCGGCCAGGAACAGGCGAAAAAAGTGCTGGCGGTCGCGGTATACAACCATTACAAACGTCTGCGCAACGG +CGATACCAGCAATGGCGTCGAGTTGGGCAAAAGTAACATTCTGCTGATCGGTCCGACCGGTTCCGGTAAA +ACGCTGCTGGCTGAAACGCTGGCGCGCCTGCTGGATGTTCCGTTCACCATGGCCGACGCGACTACACTGA +CCGAAGCCGGTTATGTGGGTGAAGACGTTGAAAACATCATTCAGAAGCTGTTGCAGAAATGCGACTACGA +TGTCCAGAAAGCACAGCGTGGTATTGTCTACATCGATGAAATCGACAAGATTTCTCGTAAGTCAGACAAC +CCGTCCATTACCCGAGACGTTTCCGGTGAAGGCGTACAGCAGGCACTGTTGAAACTGATCGAAGGTACGG +TAGCTGCTGTTCCACCGCAAGGTGGGCGTAAACATCCGCAGCAGGAATTCTTGCAGGTTGATACCTCTAA +GATCCTGTTTATTTGTGGCGGTGCGTTTGCCGGTCTGGATAAAGTGATTTCCCACCGTGTAGAAACCGGC +TCCGGCATTGGTTTTGGCGCGACGGTAAAAGCGAAGTCCGACAAAGCAAGCGAAGGCGAGCTGCTGGCGC +AGGTTGAACCGGAAGATCTGATCAAGTTTGGTCTTATCCCTGAGTTTATTGGTCGTCTGCCGGTTGTCGC +AACGTTGAATGAACTGAGCGAAGAAGCTCTGATTCAGATCCTCAAAGAGCCGAAAAACGCCCTGACCAAG +CAGTATCAGGCGCTGTTTAATCTGGAAGGCGTGGATCTGGAATTCCGTGACGAGGCGCTGGATGCTATCG +CTAAGAAAGCGATGGCGCGTAAAACCGGTGCCCGTGGCCTGCGTTCCATCGTAGAAGCCGCACTGCTCGA +TACCATGTACGATCTGCCGTCCATGGAAGACGTCGAAAAAGTGGTTATCGACGAGTCGGTAATTGATGGT +CAAAGCAAACCGTTGCTGATTTATGGCAAGCCGGAAGCGCAACAGGCATCTGGTGAATAATTAACCATTC +CCATACAATTAGTTAACCAAAAAGGGGGGATTTTATCTCCCCTTTAATTTTTCCTCTATTCTCGGCGTTG +AATGTGGGGGAAACATCCCCATATACTGACGTACATGTTAATAGATGGCGTGAAGCACAGTCGTGTCATC +TGATTACCTGGCGGAAATTAAACTAAGAGAGAGCTCTATGAATCCTGAGCGTTCTGAACGCATTGAAATC +CCCGTATTGCCGCTGCGCGATGTGGTGGTTTATCCGCACATGGTCATCCCCTTATTTGTCGGGCGGGAAA +AATCTATCCGTTGTCTGGAAGCGGCGATGGACCATGATAAAAAAATTATGCTGGTCGCGCAGAAAGAAGC +TTCAACGGATGAGCCGGGTGTAAACGATCTTTTCACCGTCGGGACCGTGGCCTCTATATTGCAGATGCTG +AAACTGCCTGACGGCACCGTCAAAGTGCTGGTCGAGGGGTTACAGCGCGCGCGTATTTCTGCGCTCTCTG +ACAATGGCGAACACTTTTCTGCGAAGGCGGAGTATCTGGAGTCGCCGACCATTGATGAGCGGGAACAGGA +AGTGCTGGTGCGTACTGCAATCAGCCAGTTCGAAGGCTACATCAAGCTGAACAAAAAAATCCCACCAGAA +GTGCTGACGTCGCTGAATAGCATCGACGATCCGGCGCGTCTGGCGGATACCATTGCTGCACATATGCCGC +TGAAACTGGCTGACAAACAGTCTGTTCTGGAGATGTCCGACGTTAACGAACGTCTGGAATATCTGATGGC +AATGATGGAATCGGAAATCGATCTGCTGCAGGTTGAGAAACGCATTCGCAACCGCGTTAAAAAGCAGATG +GAGAAATCCCAGCGTGAGTACTATCTGAACGAGCAAATGAAAGCTATTCAGAAAGAACTCGGTGAAATGG +ACGACGCGCCGGACGAAAACGAAGCCCTGAAGCGCAAAATCGACGCGGCGAAGATGCCGAAAGAGGCAAA +AGAGAAAGCGGAAGCAGAGTTGCAGAAGCTGAAAATGATGTCTCCGATGTCGGCAGAAGCGACCGTAGTG +CGTGGTTATATCGACTGGATGGTACAGGTGCCGTGGAATGCGCGTAGCAAGGTCAAAAAAGACCTGCGTC +AGGCGCAGGAAATCCTTGATACCGACCATTATGGTCTGGAGCGCGTGAAAGATCGAATCCTTGAGTATCT +TGCGGTTCAAAGCCGTGTCAACAAAATCAAGGGACCGATCCTCTGCCTGGTAGGGCCGCCGGGGGTAGGT +AAAACCTCTCTTGGTCAGTCCATTGCCAAAGCCACCGGGCGTAAATATGTCCGTATGGCGCTGGGCGGCG +TGCGTGATGAAGCGGAAATCCGTGGTCACCGCCGTACTTACATCGGTTCTATGCCGGGTAAACTGATCCA +GAAAATGGCGAAAGTGGGCGTGAAAAACCCGCTGTTCCTGCTCGATGAGATCGACAAAATGTCTTCTGAC +ATGCGTGGCGATCCGGCCTCTGCACTGCTTGAAGTGCTGGATCCAGAGCAGAACGTAGCGTTCAGCGACC +ACTACCTGGAAGTGGATTACGATCTCAGCGACGTGATGTTTGTCGCGACGTCGAACTCCATGAACATTCC +GGCACCGCTGCTGGATCGTATGGAAGTGATTCGCCTCTCCGGTTATACCGAAGATGAAAAACTGAACATC +GCCAAACGTCACCTGCTGCCGAAGCAGATTGAACGTAATGCACTGAAAAAAGGTGAGCTGACCGTCGACG +ATAGCGCCATTATCGGCATTATTCGTTACTACACCCGTGAGGCGGGCGTGCGTGGTCTGGAGCGTGAAAT +CTCCAAACTGTGTCGCAAAGCGGTTAAGCAGTTACTGCTCGATAAGTCATTAAAACATATCGAAATTAAC +GGCGATAACCTGCATGACTATCTCGGTGTTCAGCGTTTCGACTATGGTCGCGCGGATAACGAAAACCGTG +TCGGTCAGGTAACCGGTCTGGCGTGGACGGAAGTGGGCGGTGACTTGCTGACCATTGAAACCGCATGTGT +TCCGGGTAAAGGCAAACTGACCTATACCGGTTCGCTCGGCGAAGTGATGCAGGAGTCCATTCAGGCGGCG +TTAACGGTGGTTCGTGCGCGTGCGGAAAAACTGGGGATCAACCCTGATTTTTACGAAAAACGTGACATCC +ACGTCCACGTACCGGAAGGTGCGACGCCGAAAGATGGTCCGAGTGCCGGTATTGCTATGTGCACCGCGCT +GGTTTCTTGCCTGACCGGTAACCCGGTTCGTGCCGATGTGGCAATGACCGGTGAGATCACTCTGCGTGGT +CAGGTACTGCCGATCGGTGGTTTGAAAGAAAAACTCCTGGCAGCGCATCGCGGCGGGATTAAAACAGTGC +TAATTCCGTTCGAAAATAAACGCGATCTGGAAGAGATTCCTGACAACGTAATTGCCGATCTGGACATTCA +TCCTGTGAAGCGCATTGAGGAAGTTCTGACTCTGGCGCTGCAAAATGAACCGTCTGGTATGCAGGTTGTG +ACTGCAAAATAGTGACCTCGCGCAAAATGCACTAATAAAAACAGGGCTGGCAGGCTAATTCGGGCTTGCC +AGCCTTTTTTTGTCTCGCTAAGTTAGATGGCGGATCGGGCTTGCCCTTATTAAGGGGTGTTGTAAGGGGA +TGGCTGGCCTGATATAACTGCTGCGCGTTCGTACCTTGAAGGATTCAAGTGCGATATAAATTATAAAGAG +GAAGAGAAGAGTGAATAAATCTCAATTGATCGACAAGATTGCTGCAGGGGCTGATATCTCTAAAGCTGCG +GCTGGCCGTGCGTTAGATGCTATTATTGCTTCCGTAACTGAATCTCTGAAAGAAGGGGATGATGTAGCAC +TGGTAGGTTTTGGTACTTTTGCCGTTAAAGAGCGTGCTGCCCGTACTGGCCGCAACCCGCAGACCGGTAA +AGAGATCACCATCGCTGCTGCTAAAGTACCGAGCTTCCGTGCAGGTAAAGCACTGAAAGACGCGGTAAAC +TAAGCGTTGTCCCCAGTGGGGATGTGACGAAGTTCAAGGGCGCATCTACTGATGTGCCTTTTTTATTTGT +ATTCGGTGACTTTCTGCGTCTTGTGGGCTGACAATTGCCCCCGTTTCTTGTCACAATAGGCCTTTGCGCG +CATCGATACGTTGCGTGAGGTACACAGTCATCTACAGCGGAGTGTTGTTACACCATGATGGACAGCTTAC +GCACGGCTGCAAACAGTCTCGTGCTCAAGATTATTTTCGGTATCATTATCGTGTCGTTCATATTGACCGG +CGTGAGTGGTTACCTGATTGGCGGAGGCAATAACTACGCCGCAAAAGTGAATGACCAGGAAATCAGCCGT +GGGCAATTCGAGAACGCCTTCAACAGCGAGCGTAATCGCATGCAGCAACAGCTGGGCGATCAATACTCCG +AGCTGGCAGCGAACGAAGGCTATATGAAAACCCTGCGTCAACAGGTGCTGAATCGTCTGATCGACGAGGC +GCTGCTGGATCAGTACGCACGTGAGCTGAAACTGGGTATCAGCGATGAGCAGGTTAAACAGGCGATTTTC +GCGACCCCAGCCTTCCAGGTTGACGGCAAATTTGATAACAGCCGCTATAACGGTATCCTCAACCAGATGG +GGATGACCGCCGATCAGTACGCCCAGGCGCTGCGTAACCAGCTCACTACCCAACAGCTGATTAACGGCGT +TGCCGGTACCGATTTTATGCTGAAAGGTGAAACCGACGAGCTGGCGGCACTGGTCGCGCAACAACGCGTG +GTGCGTGAGGCGACTATCGATGTTAACGCGCTGGCGGCGAAGCAGCCTGTGACCGAACAGGAGATTGCCA +GCTACTACGAACAAAACAAAAACAATTTCATGACGCCGGAACAATTCCGCGTGAGTTACATCAAGCTGGA +TGCCGCAACGATGCAGCAACCGGTTAGCGATGCGGATATCCAGAGCTACTACGACCAGCATCAGGATCAA +TTCACCCAGCCGCAGCGTACCCGCTACAGCATCATCCAGACCAAAACTGAAGATGAAGCGAAAGCGGTAC +TTGATGAGCTGAATAAAGGCGGTGATTTTGCTGCATTAGCCAAAGAAAAATCTGCCGATATTATCTCTGC +TCGTAACGGCGGCGATATGGGTTGGTTAGAAGATGCCACTATCCCGGACGAACTGAAAAATGCTGGTCTG +AAAGAAAAAGGCCAACTGTCTGGTGTCATCAAATCTTCGGTCGGTTTCCTGATTGTACGTCTGGACGACA +TTCAGCCAGCGAAAGTGAAATCGTTAGACGAAGTACGTGACGACATTGCGGCGAAAGTGAAACACGAAAA +AGCCCTCGATGCGTACTACGCGCTGCAGCAGAAAGTGAGCGATGCGGCAAGCAACGACACCGAGTCTCTG +GCCGGTGCAGAGCAAGCTGCCGGCGTTAAAGCCACTCAGACGGGTTGGTTCAGCAAAGATAACCTGCCGG +AAGAGTTGAACTTCAAGCCGGTTGCCGACGCTATCTTTAACGGCGGTCTGGTAGGTGAAAACGGCGCGCC +GGGCATCAACTCTGACATCATCACCGTAGACGGCGACCGCGCATTCGTGCTGCGCATCAGCGAGCACAAA +CCGGAAGCGGTGAAACCGTTGGCAGATGTTCAGGAACAAGTTAAGGCATTGGTTCAGCACAACAAAGCTG +AACAACAGGCGAAAGTGGATGCTGAGAAACTGCTGGTTGATTTGAAAGCCGGCAAAGGTGCGGAAGCTAT +GCAGGCTGCCGGTCTGAAATTTGGCGAGCCGAAAACCTTAAGCCGTTCCGGTCGTGACCCGATTAGCCAG +GCGGCGTTTGCACTGCCACTGCCAGCGAAAGACAAACCGAGCTACGGTATGGCGACCGATATGCAAGGTA +ATGTGGTTCTGCTGGCGCTGGATGAAGTGAAACAAGGTTCAATGCCGGAAGATCAGAAAAAAGCGATGGT +GCAGGGTATCACCCAGAACAACGCACAAATCGTCTTTGAAGCTCTGATGAGTAACCTGCGTAAAGAGGCG +AAAATCAAAATTGGCGATGCGCTGGAACAGCAATAATCCTGAAGCCGCCTCGCAAAAAAATGCGTTGCAG +CTGTAACAAGAAAAGGTCGCTTTCGCGGCCTTTTCCATTTCTGAACATTGCCATTTGTTTACTGTTTTCA +CTGCCGTTAAGGTGATTCCACTGTTAACAAACAAGGAGAAAACAGTATGAAACACGGAATTAAAGCACTG +CTCATTACCCTGTCCCTGGCCTGTGCCGGAATGTCTCATAGCGCGCTGGCGGCAGCTTCTGTGGCGAAAC +CGACGGCGGTAGAAACCAAAGCGGAAGCTCCTGCAGCACAAAGTAAAGCAGCAGTACCGGCGAAAGCCAG +TGACGAAGAAGGCACCCGGGTCAGCATTAATAATGCCAGCGCGGAAGAGCTAGCCCGCGCGATGAATGGC +GTTGGCCTGAAGAAAGCGCAGGCGATTGTCAGTTATCGCGAAGAGTACGGTCCGTTTAAAACTGTGGAGG +ATCTAAAGCAGGTGCCGGGGATGGGCAATTCGCTGGTGGAACGTAATCTGGCGGTATTAACCCTGTAATT +AATTTGCATAGTGGCAATTTTTTGCCAGACTGAAGAGGTCATACCAGTTATGACCTCTGTACTTATAACA +ACAACGTAAGGTTATTGCGCTATGCAAACACAAATCAAAGTTCGTGGATATCATCTCGACGTTTACCAGC +ACGTCAACAACGCCCGCTACCTTGAATTTCTCGAAGAAGCCCGCTGGGATGGGTTGGAAAATAGCGACAG +TTTTCAGTGGATGACGGCCCATAACATCGCCTTCGTCGTGGTCAATATCAATATTAACTATCGTCGCCCA +GCGGTATTAAGTGACCTGTTAACTATTACCAGTCAGTTGCAGCAATTAAACGGTAAAAGCGGCATCTTAA +GCCAGGTCATTACACTGGAGCCGGAAGGGCAGGTGGTAGCGGATGCGCTTATTACGTTTGTTTGTATTGA +TCTTAAAACGCAGAAAGCATTAGCTCTGGAAGGGGAATTGCGCGAAAAGCTGGAGCAGATGGTTAAGTAA +ACGTTTTGTGGTGCCGGATGCTCAAGCCGCATCCGGCGACACCCGGAATAATTACCTCAACCCGGTTTTC +TGCTTCATCGCTGCCATCACCGTCGGTTTATCGGCCAGATAATGATTCAAACCGTTGGCGCGTAAATTAC +ATGCCGCACAATGACCGCAACCGTCGCCTTTAAAGCCGTTATAGCAGGTCAACGTTTCGTTACGGACTAA +ATCCAGTTTGCCGTAATAATCTGCCAGCGCCCAGGTTTCCGCTTTATCAATCCACATCAGCGGCGTTTCA +AAACGAATATCTTTCGCCATGCCCAAACTGACGGCATGGTTTAGTGCTTTCACAAACTCATCGCGGCAAT +CCGGGTAGCCGGAGAAATCCGTTTCGCAGACGCCAGTAATTACGGCTTCTGCTTTTACCTGATACGCATA +TATTGCCGCCAGCGTCAGGAACAAAATATTACGCCCTGGGACAAACGTATTCGGGATACCATCGGCTTCA +GGTTCATAATCAGGCACCGGAATGCTGTCACGCGTCAGGCTACTGACCGCCAGCTCGTTGAGCAGGGTGA +CATCCAGCACCTTATGCGCGCGTGCCCCCAGTTTCAGCGCCAGTTCGCGTGCCACGTCGATTTCTGCGCG +ATGCCGCTGACCGTAATCGAACGTCACGCAATGGACTTCATCATATTGTTGTAATGCCTGCACCAGACAG +GTGGTGGAATCCTGACCTCCACTGAACACAACGACAGCACGTTTCATAGATAATCCTGCTTGAACAATAA +AAGCGTTATGGTAACGCCTGCGATTAACCCGGACCAGCTATTCATTGCGATGGCGCGGGAAGCCAGGCTT +CGGTAAATTCAAACCAGCCGCGCGGTGTCAGTCGCACACCGTTCACGCCGGGAGGGGCACTAATGCGATA +GTGATAGTTGAACAGCGGCGTCAGCGTCGCATCTGTCATTAACTGGCTAAAAACCGCTTTCAGGGCATTA +AATCGGTTTTCTTCATCAGGCATTATTTGCACGGCATCCAGTGTCGATTGTAGATGTGCGTATGCTGGAG +CGTCGAAAACATGTGGCCACAGCGGATCGCAGCGCAGCCATTGCTCCAGAGTATATTCCGGTGCTTCGCC +AATTAATCTGTCGCCCATCATGAGGTCTGCGTGTGCCTGTAGGGTCGTGTCGTCCCAGTTTTTTGCGTTA +TGAAAAATAATTGTGAGTTCACAGCCTTCCGCTGCCAGTGTCGCCTGTAGGCGTTCTGCCATGGTATGAA +GTTCTATCGGTAGGTGATAAACCAGCGTCAAGGTTTTCGGTAGTTTGACTTCATCCGGTACCTGCCAATG +CGGAATAGTCCAGCCTGGCAGTAATGCATGACTGGCGGTGATCAGGTTTTCTCCGACTTCTAACGTTTGT +AATAAACCGGATTGATGAATAATGGAGATCACTTTTCGCGCCTGCCAGAGGGAGAGTCGGGGACTTTTGC +GCAACGTCAAATAGCAAAAACCTAAACTGATGCCGCTACTGACCTGGCTGACCCGTTGCAGCTCCTCCGG +TTTGCCGATGGTGATTTGCACGGGATGCCGACAACTGGTTCCCAAATCTTTTTCGAAAAGCGGCGGAGTT +ATCCAGTACTCAACCGCTTTAAGCAGCGGATGACGTAAATGGTAATAATCATGGCTTTCCAGGCGCACCA +GCTCTGCTGTGAATTGTGTTAAGCGAAAAGGACCCGTGCCGATCAGTGGGAATTGCGGATGCGCCAGATG +GCTGCAATAGCTCGCCAGCCGGTGCGCAAGCCAGTAATCAGGGCGATGTAAAAAGAAGGTCAGACACTGC +GGATGGGTGACTTCAATACGCTTCACGCTAATAAATAATTGATCCAGTGCTGGCAGTTGTAACAGCATCA +ATAATCGCTGGTGTAAGTGTGAGGCTTTTACTGCATCGCCGTTATGCCAGTGTAGGGTTGAACGAAGATA +AAAGTCCCAGCGTAACCCGTCAGTAGAGGTTTCCCAGTGATGCGCTAAATCGCCAATCGGGCGCTGAGTA +TTATTATCGAAGCGGGTCAGGCCGGAAAATATCTGCCCGGCGAGATGCTGCTCGGCACGGCCGGGCAAAA +AGCCTGGTTGTAGCGGTTCGAGCGGGCGATAGTAGGGAATACGCAACGTGGGTGTATCGTTTTGCCATTG +TCCGCCCATAAACGGCTGTAACAGAGTGCGCAGCTCACCTGGGGCCAGTTGCGCCAGCTCCAGCACATCT +TGCTGCTTTCCGGTTTCCAGTGCCTGTTCCATCATCGCATTGCGTAGCGATTCCGGCGTGACCAGAAAGC +GTAATTGTCCGCGCTTTCCGCGTCCTGACTGCGCCTGCCACTCCAGCCATCCCGCCTCCTGTGCCTGACG +CAACAGCGTACGAACATGGCGTTCGCTGCAAAAACAGCGTTCGGCCAGTTCGCTGACGGTGACGGTTTGC +GGCTTTCCGGCGGAAGGTTGCCACAGACGTTGATACTGGTTAAGACGGTTGAGCAATCGCATATAAACCC +GGAACAATATTATTTAACTATTCACTATTACTTCCGTATATATCAGGTGATACTCAATCACCATTAACCG +TGTCACAGAGTGGAGAAAGAAATGGCTCGTCTGGCAGCATTTGATATGGATGGCACTTTATTGATGCCCG +ACCATCATTTAGGTGAGAAAACCCTCTCTACTTTGGCGCGACTGCGTGAACGCGACATTACCCTCACTTT +TGCCACGGGGCGTCATGCGCTGGAGATGCAGCATATTCTCGGGGCGCTATCGCTGGATGCGTATTTGATT +ACCGGCAACGGAACGCGCGTGCATTCTCTGGAAGGTGAACTTTTACATCGTGATGATTTACCTGCGGATG +TCGCGGAGCTGGTGCTGTATCAGCAATGGGATACCCGAGCCAGCATGCATATCTTCAATGACGACGGTTG +GTTTACCGGGAAAGAGATCCCTGCGTTGTTGCAGGCATTTGTCTATAGCGGTTTTCGTTATCAGATAATC +GATGTCAAAAAAATGCCACTCGGCAGCGTCACCAAGATCTGCTTCTGTGGCGATCACGACGATCTTACAC +GCTTGCAGATCCAGCTATACGAAGCATTAGGCGAGCGTGCACATTTGTGTTTTTCCGCCACGGATTGCCT +CGAAGTGCTGCCGGTGGGCTGCAATAAAGGCGCTGCATTGACGGTGCTGACCCAACATTTAGGTTTATCG +TTGCGCGATTGCATGGCCTTTGGTGATGCGATGAACGATCGCGAAATGTTAGTCAGCGTCGGTAGCGGAT +TTATTATGGGCAATGCGATGCCGCAACTGCGCGCGGAGCTCCCGCATTTACCGGTGATTGGACATTGCCG +AAATCAGGCTGTCTCTCACTATTTGACGCACTGGCTGGACTATCCACATCTACCTTATTCCCCCGAATAA +CGAGATCCCTTCCAGCACCGGGCAATTGCCCGGTTTTTTTTGCGTTGAATTTGTCATTTTGTGCCGTGGT +GTTTAAACCGCACAGAATAAATTGTCGTGATTTCACCTTTAAAATAAAATTAAAAGAGAAAAAAATTCTC +TGTGGAAGGGCTATGTTAGATAAAATTGACCGTAAGCTGCTGGCCTTACTGCAGCAGGATTGCACCCTCT +CTTTGCAGGCACTGGCTGAAGCCGTTAATCTGACAACCACCCCTTGCTGGAAGCGCCTGAAACGGCTGGA +GGACGACGGTATCCTTATCGGCAAAGTCGCCCTGCTGGATCCGGAAAAAATAGGCCTCGGCCTGACCGCT +TTTGTGCTGATAAAAACGCAACATCACAGCAGCGAATGGTATTGCCGCTTTGTCACGGTGGTTACCGAAA +TGCCAGAAGTGCTGGGGTTCTGGCGCATGGCTGGTGAATACGATTATCTGATGCGCGTCCAGGTTGCCGA +CATGAAACGCTACGACGAGTTTTATAAGCGTCTGGTAAACAGCGTGCCGGGGCTGTCGGACGTCACTTCC +AGCTTCGCGATGGAACAGATTAAATACACCACTTCTTTACCCATCGAATAAATATCCAGAATCAGGTCAG +GACACAACGCGTGCGATTATTTGCTCAATTAAGCTGGTATTTCCGTCGGGAATGGCGTCGCTATCTCGGG +GCTGTCGCCTTGCTTGTCATTATCGCGATGCTGCAACTGGTTCCGCCAAAAGTGGTTGGTATTGTTGTCG +ATGGCGTGACAGAACAACACTTTACTACCGGGCAGATCCTGATGTGGATCGCCACCATGGTGCTGATTGC +CGTTGTGGTTTATCTCCTGCGTTACGTCTGGCGGGTATTGCTGTTTGGTGCGTCTTATCAACTGGCTGTT +GAACTGCGTGAAGATTATTACCGTCAGCTAAGCCGGCAGCATCCTGAGTTTTACCTGCGTCATCGCACCG +GTGACCTCATGGCTCGTGCGACCAATGACGTCGATCGCGTCGTGTTTGCCGCCGGAGAAGGGGTGCTGAC +GCTGGTGGATTCACTGGTGATGGGCTGCGCTGTGTTGATTATGATGTCTACGCAAATTAGCTGGCAGTTG +ACCTTATTTTCCCTGTTGCCGATGCCAGTGATGGCGATCATGATTAAGCGCAACGGCGATGCTTTGCATG +AACGCTTTAAGCTGGCACAGGCGGCGTTTTCCAGTCTTAATGACCGCACCCAGGAAAGCCTCACCAGTAT +CCGCATGATCAAAGCCTTTGGTCTGGAAGATCGCCAGTCGGCGTTATTTGCCGCGGATGCCGAAGATACC +GGCAAAAAAAACATGCGGGTGGCGCGTATTGATGCTCGTTTCGACCCGACCATCTATATCGCGATTGGTA +TGGCGAACTTGCTGGCGATTGGCGGCGGTAGTTGGATGGTGGTGCAGGGCAGTTTAACGCTGGGCCAGCT +CACCAGTTTTATGATGTATTTAGGTCTGATGATTTGGCCAATGCTGGCGCTGGCATGGATGTTTAACATT +GTGGAACGTGGTAGTGCTGCGTACAGCCGTATTCGCGCGATGCTGGCGGAAGCGCCGGTGGTGAACGATG +GTAGCGAACCCGTGCCGGAAGGGCGTGGCGAACTGGATGTAAATATTCACCAGTTCACGTATCCGCAGAC +TGACCATCCTGCGCTGGAAAACGTCAATTTCGCCCTGAAACCCGGTCAGATGCTGGGTATCTGCGGGCCG +ACTGGTTCCGGCAAAAGTACCCTGTTGTCGCTCATTCAGCGTCATTTCGACGTCAGCGAGGGGGATATTC +GCTTTCATGATATTCCTCTGACGAAGTTACAACTCGATAGCTGGCGTAGCCGCCTGGCGGTAGTTAGCCA +GACGCCATTCCTTTTTTCTGACACTGTGGCGAATAACATCGCGCTGGGTTGCCCGAATGCCACCCAGCAA +GAGATTGAGCATGTCGCGCGGTTAGCCAGCGTACATGACGATATTTTGCGTCTACCGCAAGGTTACGATA +CAGAGGTGGGCGAGCGCGGTGTGATGCTTTCCGGCGGGCAAAAACAGCGTATCTCCATTGCTCGTGCGTT +ATTAGTCAACGCGGAAATCCTCATCCTTGATGATGCGCTTTCGGCGGTGGACGGACGCACTGAGCACCAG +ATCCTGCATAACCTGCGTCAGTGGGGGCAGGGAAGAACGGTAATCATCAGTGCCCATCGCCTTTCTGCAC +TGACGGAAGCCAGTGAAATTATTGTGATGCAGCACGGACATATCGCCCAGCGTGGCAATCATGATGTGCT +GGCACAACAAAGCGGCTGGTATCGCGATATGTATCGCTATCAACAACTGGAGGCGGCGCTCGACGACGCT +CCGGAAAATCGCGAGGAGGCCGTCGATGCGTAGTTTTAGCCAACTGTGGCCGACTCTCAAGCGCCTGTTA +GCGTACGGTTCGCCGTGGCGTAAACCGCTGGGGATTGCGGTCCTGATGATGTGGGTTGCGGCGGCGGCAG +AAGTCAGTGGGCCGCTGCTTATCAGCTATTTTATCGACAATATGGTAGCGAAAAATAACCTGCCGTTGAA +AGTGGTTGCAGGGCTGGCTGCGGCGTATGTTGGGCTGCAACTGTTTGCCGCCGGGCTACATTACGCGCAG +TCGCTGCTGTTTAATCGGGCGGCAGTAGGCGTAGTGCAACAGTTGCGTACCGACGTGATGGATGCTGCGT +TACGCCAGCCATTAAGCGAGTTTGATACCCAACCCGTCGGGCAGGTGATTTCCCGCGTCACTAATGACAC +TGAAGTGATCCGCGATCTCTACGTTACCGTAGTGGCAACTGTCCTGCGCAGTGCCGCGCTGGTGGGCGCG +ATGCTGGTGGCGATGTTCAGCCTCGACTGGCGAATGGCACTGGTGGCGATAATGATTTTCCCGGTGGTGC +TGGTGGTAATGGTGATATACCAGCGTTACAGCACGCCGATTGTCCGTCGTGTGCGCGCCTATTTGGCGGA +TATCAACGACGGCTTTAACGAAATCATCAATGGCATGAGCGTTATCCAGCAGTTTCGTCAGCAGGCGCGA +TTTGGCGAACGTATGGGGGAGGCCAGTCGTTCACACTATATGGCGAGGATGCAAACCCTGCGCCTCGACG +GTTTTCTGCTGCGTCCGCTGCTGAGTCTGTTTTCATCGCTCATTCTTTGTGGCTTGTTGATGCTGTTTGG +CTTCTCCGCCAGCGGCACCATTGAAGTGGGCGTGCTGTATGCGTTTATCAGCTATCTTGGGCGACTTAAC +GAACCATTAATCGAACTGACCACGCAACAGGCGATGCTGCAACAGGCTGTTGTTGCTGGTGAGCGCGTGT +TTGAACTGATGGACGGACCGCGCCAGCAATATGGCAATGATGATCGCCCGTTACAGAGTGGCACCATCGA +AGTCGATAACGTGTCATTTGCTTATCGCGATGACAATCTGGTGCTAAAGAACATTAATCTCTCTGTGCCT +TCGCGCAATTTTGTGGCGCTGGTCGGGCATACCGGCAGTGGCAAAAGCACCCTCGCCAGTTTATTGATGG +GCTATTACCCGCTAACGGAAGGTGAGATTCGCCTTGATGGTCGTCCATTAAGTTCGCTAAGTCACAGCGC +GCTGCGCCAGGGCGTGGCAATGGTGCAGCAAGATCCGGTGGTGCTGGCGGATACCTTCCTCGCCAACGTG +ACGCTGGGGCGGGATATCTCCGAAGAACGCGTCTGGCAGGCGCTGGAAACCGTGCAACTGGCGGAGCTGG +CGCGTAGCATGAGCGACGGTATTTACACGCCGCTGGGCGAGCAGGGGAATAATCTCTCAGTTGGGCAAAA +GCAACTGCTGGCACTGGCGCGCGTGCTGGTCGAGACGCCGCAAATCCTGATCCTTGATGAGGCAACCGCC +AGCATTGACTCCGGTACTGAACAGGCGATTCAACATGCTCTGGCGGCGGTGCGTGAACATACCACGCTGG +TAGTGATTGCTCACCGCTTATCGACCATTGTTGATGCCGACACCATTCTGGTGCTTCATCGTGGGCAAGC +CGTGGAGCAGGGCACTCACCAGCAACTGCTGGCGGCCCAGGGACGCTACTGGCAGATGTATCAACTGCAA +CTTGCGGGCGAAGAGCTGGCAGCCAGCGTGCGTGAAGAGGAATCATTGAGCGCCTGAATAGCGCAATATT +TCATCGTTGGTGCAAAAATGTAACGCACTGTGCACTGTCATAGTGCGTTTTCATTTTCAAACTTCTTAAC +TTCCTGCTCTCTTTCTCGTTTTTCATTTCTGGCACACCGCTTGCAATACCTTCTTCGTGTAGCAGAACCA +TTACCGAATTCTGACCGGAGGGGATCTATGAAGCTGGTGACCGTGATAATCAAACCATTCAAGCTGGAAG +ACGTTCGTGAAGCGTTATCTTCCATTGGTATTCAGGGCCTGACCGTCACCGAAGTGAAAGGTTTCGGGCG +TCAGAAAGGGCATGCCGAGCTGTACCGGGGGGCGGAATACAGCGTCAATTTCCTGCCAAAAGTAAAAATT +GATGTGGCGATTGCTGATGACCAACTCGATGAAGTGATCGATATCGTCAGTAAGGCGGCTTACACCGGAA +AAATTGGCGACGGCAAAATCTTCGTCGCTGAATTGCAACGCGTCATTCGTATTCGTACCGGCGAAGCCGA +CGAAGCGGCGCTGTAATCTCTGGCACACAGCAACAGGAACGAAAAATGAAGATAGCGACGATAAAAACTG +GGCTTGCTTCACTGGCGATGCTTCCGGGACTGGTAATGGCTGCACCTGCGGTGGCCGATAAAGCCGACAA +TGCGTTTATGATGATTTGTACTGCGCTGGTGCTGTTTATGACTATTCCGGGGATTGCCCTGTTTTACGGT +GGGTTGATTCGCGGCAAAAACGTGCTGTCGATGCTGACGCAGGTGACGGTGACATTTGCACTGGTCTGTA +TTCTCTGGGTGGTTTACGGTTACTCGCTGGCGTTTGGTGAGGGCAACAACTTCTTCGGCAACATTAACTG +GTTGATGCTGAAAAACATCGAACTGACGGCGGTGATGGGCAGCATTTATCAGTATATCCACGTGGCGTTT +CAGGGATCGTTTGCCTGCATTACCGTCGGCTTGATAGTTGGGGCGCTGGCGGAACGAATCCGCTTCTCAG +CTGTGTTGATTTTCGTGGTGGTATGGCTGACGCTCTCTTACATTCCGATTGCGCATATGGTGTGGGGCGG +TGGTTTGCTGGCTTCTCACGGTGCGCTGGATTTCGCGGGTGGCACCGTGGTGCACATTAACGCCGCAATC +GCCGGTCTGGTGGGCGCGTATCTGATAGGAAAACGCGTGGGCTTCGGTAAAGAGGCGTTTAAACCGCACA +ACCTGCCGATGGTCTTCACCGGGACTGCCATTCTCTATATCGGTTGGTTTGGCTTTAACGCCGGGTCAGC +GGGCACGGCGAATGAAATCGCGGCACTGGCATTTGTGAATACTGTGGTCGCAACGGCGGCGGCAATTCTT +GGCTGGATCTTCGGTGAATGGGCGCTGCGTGGTAAGCCTTCACTGCTGGGGGCGTGTTCTGGCGCGATTG +CCGGTCTGGTCGGCGTGACGCCAGCCTGCGGCTACATTGGGGTTGGCGGCGCGTTGATTATCGGCGTGGT +AGCTGGTCTGGCGGGCTTGTGGGGCGTTACCATGCTCAAACGCTTGCTGCGGGTGGATGATCCCTGCGAT +GTCTTCGGTGTGCACGGCGTTTGTGGCATTGTCGGCTGTATCATGACCGGGATTTTTGCCGCCAGCTCGC +TGGGCGGCGTGGGCTTCGCTGAAGGTGTGACGATGGGCCATCAGTTGCTGGTACAGCTGGAAAGCATCGC +CATTACGATCGTCTGGTCCGGTGTTGTGGCATTTATCGGCTACAAATTGGCGGATCTGACGGTTGGTCTG +CGTGTACCGGAAGAGCAGGAGCGAGAAGGGCTGGATGTCAACAGCCACGGCGAGAATGCCTATAACGCGT +AACAAGCACTGCAAAAAACAGCCGGACGGTTTTCACCTCCGGCTATTTTTTTAATTGTGATTACGCATCA +CCCCTTCCTGAACGGTCGAGGCAACCAGTACGCCGTCTTGGGTATAAAACTCACCGCGCACAAAGCCACG +TGCGCTGGACGCCGAGGTGCTCTCCACGCTATACAGCAGCCATTCATTCAAATTAAACGGGCGATGGAAC +CACATGGAATGGTCAATGGTGGCAATCTGAATCCCCGGTTCGAGAAAACCGATGCCGTGCGGCTGTAGAG +CTACCGGCAGGAAGTTAAGATCAGAAGCGTAACCGAGCAGATACTGATGAACGCGCAGGTCATCCGGCAC +GCTACCATTTGCGCGGATCCACACCTGACGATGTGGTTCTGCGACGTGACCTTTCAGTGGGTTATGAAAC +TCCACCGGACGGACTTCCAGCGGACGATCGCAGATGAATTTATCTTTCAGCACTGGCGGCAGCAGGTGCG +CCAGCGATTGGGCGATTTGCGTTTCCGAAGGGAGGCCATCAGGCGCTGGCGCGGACGGCATTGTTTTTTG +ATGTTCGAAACCCGCTTCTGGTGCCTGGAAAGAGGCAGTCATATAAAAAATCGGTTTGCCGTTTTGAATA +GCAGCAACCCGGCGGGCGCTGAAGCTGTTACCGTCACGCAGCGTTTCGACATCATAAATAATCGGCTTCT +TACTATCGCCAGGGCGAAGAAAGTAGCTGTGAAACGAATGTACCAGCCGCTCTTCAGGGACGGTCTCTTT +TGCAGCATACAAGGCCTGACCCACGACCTGGCCGCCAAACACCTGGCGTAAACCTAAATCTTCACTCTGG +CCGCGAAAGAGTCCTTCCTCAATTTTTTCCAGATTTAACAATGTCAGTAAATTTTTTAGCGCCTGACTCA +TATAACTCTCCAGTAACAAAGCTGCCGCAGCAAGCCAAAGTGAGTTGAGTATAACGCAAATTTGCTACTG +GTCCGATGGGTGCAATGGTCTGAATTACGGGCTAATTACAGGCAGAAATGCGTGATGTGTGCCACACTTG +TTGACGTTACTATTTTGTTAACCACTCTTCCGGCGAGGAAAGTTAGCCCGCTGGTGCATTGATAATAAGG +AGAAATGAATGAAACTCGTGCACATGGCCAGTGGTTTAGCGGTTGCGATTGCGTTGGCGGCTTGCGCAGA +TAAAAGCGCGGATATTCAGACGCCAGCACCGGCTGCAAATACGTCTATTTCAGCAACACAACAACCAGCT +ATCCAGCAACCGAATGTCTCCGGTACCGTCTGGATCCGTCAGAAAGTCGCACTGCCGCCTGATGCTGTGC +TGACCGTGACACTTTCTGACGCGTCGTTAGCCGATGCACCGTCAAAAGTGCTGGCGCAGAAAGCGGTGCG +TACTGAAGGTAAACAGTCACCATTCAGCTTTGTTCTGTCATTTAACCCGGCAGATGTTCAGCCGAACGCG +CGTATTCTGTTGAGTGCGGCGATTACCGTGAATGACAAACTGGTATTTATCACCGATACCGTTCAGCCGG +TGATCAACCAGGGCGGAACTAAAGCCGACCTGACATTGGTGCCGGTACAGCAAACCGCCGTGCCGGTTCA +GGCCAGCGGTGGCGCAACGACTACCGTACCTTCGACTTCACCAACTCAGGTGAATCCGTCTTCGGCAGTT +CCAGCTCCTACGCAATATTAAGCGACGTTAACCCTCTCCGCCCGGAGAGGGTTAGTAGTTCCAGCGATAA +CGCTGCAAGTCGATTTGCCCGCTTCCCGATACCATCACACCTTCTGCCAGTAATGCCTGTCGCTGACGCT +GTAAATCCGGTCCGGTTAGCGAAATTGTGCCGTGGCGATTAACCACCCGGTGCCAGGGTAAGGTGCTGCC +TTCAGGGAGACGCTTTAACACACCGCCCACCTGGCGCGCGGCGCGGGGCGATCCCGCCAGTTTCGCCACA +TCACCGTAAGTGGTGACATAGCCTTCGGGAATAGCGGCGACGATTTGCCAGACGCGTTGGGGAAATGAAT +CTTCTTTTTCCATCTTTTCTTCCTGAGGTAATTTTTCAGCATAATCTGGAAAAACGCCCGAGTGAAGTCG +CATTGCGCAAGAAACCAGCATCTGGCACGCGATGGGTTGCAATTAGCCGGGGCAGCAGTGATAATGCGCC +TGCGCGTTGGTTCTCAACGCTCTCAATGGGGGCTCTGTTGGTTCTCCCGCAACGCTACTCTGTTTACCAG +GTCAGGTCCGGAAGGAAGCAGCCAAGGCAGATGACGCGTGTGCCGGGATGTAGCTGGCAGGGCCCCCACC +CATTTCTGCCTCCCACCGTTTCGTCAAAAAATCCCAACATGGCTAAACTTTAACCACAACTGACGTCGCA +AGAATTGTCTGGCTGCGCAGTACGCTTCGGAGGTATGTCTGATGAAGTATGTTGATGGTTTTGTGGTTGC +CGTTCCTGCCGATAAAAAGGATGCCTATCGGGAAATGGCCGCTAAGGCTGCGCCATTGTTTAAAGAGTTT +GGCGCGCTTCGTATTGTCGAATGCTGGGCCAGCGATGTACCGGATGGCAAAGTGACCGATTTTCGTATGG +CGGTGAAAGCGGAAGAGAATGAAGAGGTTGTCTTTAGCTGGATTGAATACCCTTCAAAAGAGGTCCGCGA +CGCTGCTAATCAAAAGATGATGTCGGACCCACGGATGAAAGAGTTCGGCGAGTCCATGCCGTTTGACGGC +AAGCGAATGATCTATGGCGGATTCGAGTCAATCATCGACGAATAGGTAGCGTGACGGGCTGTGCGGCGTG +CCGTCAGCCCAAAAATTCACAAATGTTGCTCGGCCCAGCGTAAGAAATCTTCTTTCGGTAATGCCTTGCT +GTAGAGCCAGCCCTGACCGTAGTGCACGCCATGCTGGCGTAACCACTCTTCTTGTTTACTGGTTTCGATT +CCCTCCGCTACCATTTTCAGTTTCAGTGTTTTTGCCATTTCGATGATATGCGGCGTGACATTTTTATATT +CCAGCGCATCAACGAAAGATTTATCGATCTTCAGAATGTCGACATCCAGATCCTGTAAATAACTTAAACT +TGAATACCCCGTACCAAAATCATCAAGATAAATTTCATGGCCCGCCTCCCGGTAGCGAGAAATTATCGGG +GCGCTGGTTTTCGGATCGGCAAACTCGCGTTCAGTGAGTTCAAGCGCGATCTGTCTGGGATTAACCTGAT +AGTGATTGATCATGTCACGCAGCAATTGCGGGATTTTTTCCGAGGTGAGCACGGGGGATTCAAGATTGAT +CGAAATATGCTGCTGTGGATGCTGACGCAGCCAGTCGCCCATATCTTCAAAGACGCTTCTTATAATCAGT +AGCGTCAATGGCTCAGAAAGGCCCGTTTGCTGTGCCAGCGGAATAAAACTATCTGGTGACAACCAACTAC +CGTCTGTCTGCGGCCAGCGCGCCAGTGCCTCAGCACCGACAATTTTGCCATTGGCTAAGGAGACAATCGG +CTGATAGTGCACGCAAATATCACGATTTTCGATAGCATCCTGCAGCCGATGATGCGGTGACTGAATACGG +CGCAAAATACGCAGCACAAACATCGCTGCCAGCAGGCCAATCACCAACCCGAGCGGTAACCAAATAAAGA +CTTGCCGATGCCAGCCTTTCTGCAACATTTTCGTTGAAGCCCATGTGATGATCGAAATATTCATCTCCGG +TAAGGGCAGGATATCGTAAATGATTCCATTATTTTCGATATGCTCACCGGGTGTTTTTTGTAGCCTGGTA +ATAATTCCCTGAGCAATTTCATCGCTGCTGGTTATGACAACGTTATGGGCATTGCCAATAATGGCGGCAT +CAATTTGCCATGAGCTATAGGGAATGACATCAATAAAGGAAGCGGGGTCGATCATGACGACATAATGTGC +CGTTCCCATGGCGACCATGTAACGGATAATGCCTAAATCGTTATGCGATGTTAACCAGACACGATAACCA +TCTTTCGAAATTTTACCTGGCTCGGGGAAGGTATCGGGCGGACTTTCATGCTCCAGAGACGAACACTGGG +GAACGTTGTTATCGATATAAGCCACTTCCTGAATATAGCGATAACTGTAAGATACCCGACGCATTTCCAT +GAGATGGGCTTCGCTACAGGCAGCGCCTTGCCATCTTTCCAGCTCCTGCAGCGCATCTTTCCCTTGTGTC +GCCACCTTATTGGCTCGAATAGCGACGCGGGAGGAATAGGTATCCAGCTCTTCAATAAACGATGTTTCTA +CCTGCTGATGGGCCAGCCAGATGCTTAAGCCGACAGGCAGCAATACTGAAAGAATCAGTACTCCCGAAAT +AAGGCCGACCAGATGTCGTGTTCTCACCAGCATATCCTTATTAACACAGTGTAGGGAAAGTATATCTGAT +TGTGGAAAAAGGCTGGCTGGAGATAAGGAGGTAGAGCTGGTATTTCATGAAGTGATGGGTGGAAACGATC +ATTGTCATTTGACCAGGCGCAGAGCTTTACGCCTGGTATGTAACCCTAACTTAAGATGTTGATTCGGCGC +GAGCGAGGGTAAAAATATCGTAAAAAGACAGTTCACCTTTACGGACGATCATTTTTTGCAGTTGTTCCTT +ATGAACATCCGCGACACGCGGAGAGTTCAAGATGGCTTCAACCAGCGCGGCAGGTACAAAGCGCGTGTTG +TACCATTCGCCGTTATAGCAAACGCGGAAATCCAGCACGTCGATATCTTCATAGCGGTAGCGTGGGTAGA +CATCGAAAAAGAAGAAACCATTAAGCAGGATAAATAATACAACCAGTAGCCAGACAGAGCCTGACAGCGT +TTCGGACTGCAACATCACCGCCAGGGTGGCAAAAAAAGCAACGTACATACCGATAAACAGCCCCGGATGT +TTACGGATAAAACTGATACTAAAGCGGGGTTTGTTGTCGCGTTTTTCGCGGGTATTCAGAGACTCAATCG +TTTCGGTCAGCAGGCGTTGTATTTCGGTCATCGTTTGCCTTCGTGGTATCTGCAACTTTCCAGGGAACAC +CCTATTTTAACGTGGGAATAGTAGAGGGGAAGTAACAGATCTACCACAATTTTGCATAACAGTTGCGAAA +AACCGATTACAATTTTTTAATTATTCTGGCTGGATTACCGCCCACGACAACGTTGTCCGGGACATCTTTT +GTGACAACTGCACCTGAGGCTACCACGACGTTATCACCAATGGTCACACCAGGGTTAATGACCGCGCGTC +CGCCAATCCAGACGTTATTACCGATGGTGACGGGTTTCCCCAGTTCAGCACCGCTATTACGTGCTACAGG +GTCGATGGGATGTGTTGCCGTGTAGATATGAACGCCTGGTGCCAACATACAGTTATCACCGATGCGAATA +GGGCAGACATCAAGCATCACGCAATCGAAGTTGGCGAAAAAATTATTACCGAGAAAAATGTTATAGCCAT +AGTCACAGCGAAACGTTGGCTCAATATAAGCCTCTGTCACCTGACCGAATAGATCAGCGAGAATTTGCTG +GCGTAATGTGTGCTCTTCCGCCAGGGAATGATTGTATCGGTGAATAAGCTGACGAGCGCGCAGGCGATCG +CGAGATAACGTCTCATCTGCCGAGCGATACAACTCACCAGCAATCATCTTTTCTTTTTCTGTGCTCATTA +CTGACCTCCGGTTGCTGAAAATGCGGCAACACAGTAAGACGAAAAGTCAGTGAAGAGAACGTTCCCATTA +CATCTGTGTGATAAAGATCACATAGGGTATGTCTTCATGGCGAAAAAGTATAAAATTCTTAATAAACAGC +CGGTTATAGCTCCGAAAGCGAATTATTTATTAGCGAATAAATTTCCATACTGAGGAAGGGATCTTGTCGT +ACAGTTTATTCATGGTCAATTCGGCGAGGCGGTGATCTGCGGCTGAGTAAAATACCGCCAGTTCATTATC +TGATAATTCGTATTTATTTTTCTCGATAACACGCTCCAGCGTGTCAATTGTCTGGCAACGACGTAAACGC +ATTAAATAATCGGTTTTCGTTAAAGGTTTTTCGGACATACTTCTACCTATGGTTGTAATAATTCTAACAA +GATAAACTCGCAGGATTCTCTTTCGTCGCATTGACAAAACAACGGAATAGTCGATTACCTGACTTCCGCC +ATTTCTGAAGATCCTGCATATTAATACCATAACTACTGAACAACATAAAGGTGTCATCCAGATATTCGTC +GATCTGCTCAATGAGCTTATTGTCTTCATTATACTTAATTTTGTAATTAAGTGCGAAGGTCGCAATATGC +TCAATCAGTTCATTCAACTGGAGGTTGATCGCCGAGGTTGGGTCGTTTACCCAGCCATGATTGCTTTCTT +CAAGGTTTGCAAGGCAGTCATGATACAGGGTTTCACAGAGAAACTTAAGCTGTGCGATATCATGTCTTTT +GGGTGAGTATTCATCCATAACGCGTCCCCTTCTTAGCGGTTGAACTAACGGACACCTTTCGGGATGGAAA +AAACTTACTGACCTGGACTTGCCCTCTCGTTTGTTAGCTTAACTATAAGCCACTCTTTGCAGGTTTTCAT +CGCATTATTACGAAAAATTACAATTAGGAAGGAAGCGGGACAGGACTCACTTTTTCATACTAGCACTAAC +CCGCAGCAGGTAAAAGCAGTTTGCTCGAACTATTCATAACATTTCAGGATTATCGCCAGATGAAATTGGT +GACACTAATACCAGGATTGCTCTGAATATGACGTAATAACCGAGGAATGAATAAAGAATTACCGCAAATA +ATTAAGAATAGCCTCTAAATGATTATGGATTATTAAATCTATTAGCGCTACTTAATATAAATTAACTAAC +AATCAGTATTTTTTATGAATTTTATCCGTGGTTAATACTGGTTTTCGTATGAGATCCTGAGTTGGTGGTT +CAATTACTCCTTAATGTTCGTAGGTTATGCATAAAAAAGGCCGCTTACGCGGCCTTAGTGATTACACGTT +GTATCAATGATGATCGACAGTATGGCTGTGCTCGATATCTTCATTCTTGCGGCTAAAGCGGCGGCGAACC +ACCACAAAGAATACCGGAACGAAGAAGATTGCCAGTACCGTTGCGGTCACCATCCCGCCCATTACACCGG +TACCTACTGCGTTCTGCGCGCCGGAACCAGCACCAGTACTGATAACCAGCGGCATAACGCCGAGGATAAA +CGCCAGCGAGGTCATCAGGATCGGACGTAAACGCATCCGCACCGCATCAAGCGTCGCTTCAATCAGACCT +TTACCTTCTTTATCCATCAAGTCTTTGGCGAATTCGACGATAAGGATCGCGTTCTTCGCCGACAACCCAA +TGGTTGTGAGCAGGCCTACCTGGAAGTAAACGTCATTGGTCAGGCCACGGAAGGTGGCAGCCAGCAACGC +ACCGATAACCCCCAGCGGAACGACCAGCATAACGGAGAACGGAATCGACCAGCTCTCGTACAGCGCCGCC +AGACACAGGAACACGACAATCAACGAAATCGCGTACAGTGAAGGTGCCTGGTTGCCGGAGAGACGTTCCT +GATAGGACATCCCCGTCCAGTCATAGCCAACACCGGTAGGCAGTTTGCTCGCCAGTTGTTCCATCAGCTC +CATTGCTTCACCGGTACTTTTACCCGGTGCCGCCTGGCCTAAGATTTCCATGGATGGCAGGCCGTTGTAA +CGTTCCAGACGCGGCGAACCGTACTCCCAACGAGAAGAGGAGAACGCCGAGAATGGCACCATCTGACCAT +CAGCAGCACGAACATACCAGTCGCCGATATCATCCGGCAGCATACGGTATTTCGCTTCTGACATGACATA +AACTTTCTTCACACGACCGCGGTCGATAAAGTCGTTCACATAGCTGCCGCCCCATGCAGCGCCCAGAGTG +GTGTTAATGTCGTTGATAGAAACACCCAGCGCCTGCGCTTTTTCCTGGTCGATATCAATCTTAAACTGCG +GGGTATCTTCCAGACCGTTTGGACGTACGCTGGTCAACATATCAGGGTGCTTCGCTGCTTCTGCAAGCAA +CTGGTTACGCGCCTGAGTCAGTTTTTCGTGACCAAGGCCAGCCTGGTCAATCAGCTCAAAGTCAAAGCCG +GTTGCAGTACCCAGTTCCACGATTGCGGGCAGGTTAAAGGCGAAAACCATCGCATCTTTGATTTGCGAGA +AAGCGCGTGTTGCACGCATGGTAATCGCTTCAACTTTGTTTTCTTCGCCCGGACGATCGGCCCAGTCCTT +CAAGGAAACGAACGCAATACCGGTATTCTGACCACGTCCCGCAAAGCCGAAGCCGTTAACGGCGAACACC +GACTCAACGTTGTTCTTTTCTTTGGTCAGATAGTAATGCGTTACCTCATTGAGCACTTTCTGTGTACGTT +CCTGCGTTGCACCTGCTGGCAGCTGAACCATGGTCATAAACACGCCCTGGTCCTCATCTGGCAAGAAGGA +GCTTGGCAGACGCACGAACAGATAGGCCATGCCGACCACGATGATCAGATACAGCACCAGGTAACGCCCC +GTACTGCGCAGAATACCGCCTACGCTGTCGGTGTAGTGGTGCGTGCTCTTCTCGAACATGCGGTTAAACC +AGCCGAAGAAGCCTTTTTTACCTTCCCCGTGATCGCCTTTGGCAATCGGTTTCAGCATGGTGGCACAAAG +AGCTGGAGTCAGGATCAACGCCACCAGTACCGACAGCGCCATTGCTGAAACAATGGTAATAGAGAACTGA +CGATAGATAGCACCAGTAGAACCGCCAAAGAAGGCCATCGGTACGAATACCGCCGACAGTACCATCGCGA +TACCGACCAGAGCGCCCTGAATCTGCCCCATCGACTTACGGGTAGCTTCTTTTGGCGGCAAACCTTCTTC +CGCCATAACACGCTCAACGTTTTCTACCACAACGATGGCGTCATCCACCAACAGGCCGATGGCGAGCACC +ATCCCGAACATTGTTAGCGTGTTTATCGAGAAGCCAAAGGCGGCAAGGACGGCAAAGGTCCCGAGCAATA +CCACCGGTACGGCAATGGTCGGAATCAACGTCGCGCGGAAGTTCTGCAGGAACAGATACATAACCAGGAA +CACGAGGATGATCGCTTCGACCAGCGTTTTAACCACTTCGTGAATAGAGATTTTCACGAACGGCGTGGTG +TCGTATGGGTAAACAATTTTCAGACCCGACGGGAAGAACGGTTCCATCTTCGCCAGTTCAGCACGGATTG +CCGCAGCGGTATCCAGCGCGTTTGCACCGGTCGCCAGCTTGATCCCCAGACCGGAAGCCGGTTGGCCGTT +AAACTCTGCGATGATGTCGTAGTTCTCACCACCCAGCTCAATCTTCGCGACGTCACGCAGCAGCACGCGG +GAACCATCCTGATTCACTTTCAGCAGGATTTTGCCGAACTCTTCAGTAGAGGTCAGACGCGTCTGAGCAA +TAATAGAGGCGTTAAGCTGTTGGCCTTTCACCGGCGGCGTACCACCGAGCTGACCCGCCGCAACCTGGGC +GTTCTGCGCTTTGATGGCGGTAATGACATCAACCGGCGTTAGCTGGAATTTGTTCAGCTCATTCGGGTTC +ATCCAGATACGCATCGCGTACTGTGAACCGAACAACTGAACATCACCCACGCCCGACGTACGGCTGATGG +CATCTTTCATATTCGCCGCCACGTAGTCGGAGATATCCTCCTGCGTCATGGTGCCATCGGTGTTGATAAC +GCCGACAACCATCAGGAAGCTGCTGGATGATTTCTCAACGCTCACCCCTTGCTGCTGAACTTCTTGCGGC +AGCAACGGCATCGCCAGCTGCAGTTTGTTCTGCACCTGAACCTGCGCGATATCCGCATCAGTACCAGACT +CAAAGGTCAGGGTGATCTGCACGGTACCCGTGGAGTCACTGTTAGAGGACATGTACATCAGGTTATCGAT +ACCGTTCATATTCTGTTCGATAACCTGTGTCACCGTGTCCTGCACTGTTTTCGCATCAGCGCCGGGGTAG +GAGGCGGAGATCGTTACTGCCGGCGGTGCAATCGTAGGATATTGCGCCACCGGCAGTTTGAGGATCGCCA +GCCCCCCTGCCAACATGATGATAATGGCGATCACCCACGCAAAAATCGGGCGATCGATAAAGAAATTAGG +CATGTCTTAACGGCTCCTGTTTAAGTTAAGACTTGGACTGTTCAGGCTGAGCACCGCTTGCGGCTTGCTG +GTTATTATCAGCGGTAACTTCTTGTGCTTTTACCTGGACACCAGGACGCACTTTCTGCAGCCCACTTATT +ACTACGCGATCGCCTGCTTTCAGACCTTCTGTCACCAGCCACTTATCGCCAATAGCCTGGCTTGCAACGA +TCGGACGGGTTTCCACTTTGTCATCCGCGCCAACTACCAGTACGGTGGCATCGCCACGCGGCGTACGGGT +TACGCCCTGTTGCGGGACTAAAATAGCGTTTGGATTAAGCCCTTCTTCCAGACGTGCGCGCACGAACATA +CCCGGCAGCAGAGTGTGATCCGGGTTCGGGAAGATAGCGCGTAGGGTGATAGACCCAGTGGTCTGATCAA +CGGTAACGTCAGAGAATTCCAGCGTACCGTCCTGCGGGAACTTAATGCCGTCACTGGTGATCAGTGACAC +TTTGGCTTTGCCGTTCTCTTGTTTCAGCGTGCCATTCGCCAGTTCCTGTTTCAGGCGCAGGAAGTCGTTG +CTGGACTGGGTCACATCAACGTAGATCGGATCAAGTTGCTGCACGGTTGCCAGCGCAGTCGCCTGACCGT +TCTGTACCAATGCGCCTTCCGTCACGTTCGACTTACCAATGCGACCGCTAATCGGAGAGGTGACTTTGGT +GTAAGCCAGATTGATCCGCGCAGTTTCAACGGCAGCTTTCGCCGCAGTTACCGCAGCATTCGCCTGTTGC +GCATCAGCCAGAGCCTGATCGTACTCTTGCTTACTGATGTACTGAGTACCGAGCAGTTTCTGATAACGAT +TCACCGTCAATTGCGCGATATTGGCTGCAGCCTGGGCTTTCGCCAGATCACCTTTCGCACTGTCGTATGT +CGCCTGATAGGTCGCAGGATCAATCTGATAGAGAGAGACACCTGCTTCGATGTCGCTACCTTCTTTGAAA +TTACGCTTCAGGATAATCCCGCTAACTTGAGGACGAACTTCTGCGATCCGGTAGGCACTGGTGCGACCCG +GAAGCTCGGTTGTGATCTGCAGAGGTTCAGTTTTGACTGTTACTACGCCAACGGCGGGCATCTGCTGGCC +ACCTTGTTGGGCCTGTTTGTCGTCACATCCTGTTAGGGCTAAGCTGCCTGAGAGCATCAGAACGACCGCC +AGAGGCGTAAACCCTCTGTTTTTGTTCATATGTAAACCTCGAGTGTCCGATTTCAAATTGGTCAATGGTC +AAAAGTTAATAAACCCATTGCTGCGTTTATATTATCGTCGTGCTATGGTACATACATTCACAAATGTATG +TAAATCTAACGCCTGTAAATTCACGAACATATGGCACGAAAAACCAAACAAGAAGCGCAAGAAACGCGCC +AACACATCCTCGATGTGGCTCTACGTCTTTTCTCACAGCAGGGGGTATCATCCACCTCGCTGGGCGAGAT +TGCAAAAGCAGCTGGCGTTACGCGCGGTGCAATCTACTGGCATTTTAAAGACAAGTCGGATTTGTTCAGT +GAGATCTGGGAACTGTCAGAATCCAATATTGGTGAACTAGAGCTTGAGTATCAGGCAAAATTCCCTGGCG +ATCCACTCTCAGTATTAAGAGAGATATTAATTCATGTTCTTGAATCCACGGTGACAGAAGAACGGCGTCG +ATTATTGATGGAGATTATATTCCACAAATGCGAATTTGTCGGAGAAATGGCTGTTGTGCAACAGGCACAA +CGTAATCTCTGTCTGGAAAGTTATGACCGTATAGAACAAACGTTAAAACATTGTATTGAAGCGAAAATGT +TGCCTGCGGATTTAATGACGCGTCGCGCAGCAATTATTATGCGCGGCTATATTTCCGGCCTGATGGAAAA +CTGGCTCTTTGCCCCGCAATCTTTTGATCTTAAAAAAGAAGCCCGCGATTACGTTGCCATCTTACTGGAG +ATGTATCTCCTGTGCCCCACGCTTCGTAATCCTGCCACTAACGAATAACCCTGAATCTGACTCCAGGATT +TTTCCTGGACATTTTCGTCGTTGCTATTCTGGTTCACTGCGTCGTGATATTCTTGCGGTTTGACTTTTTC +AGGTCGTTCTTCAGGTTCAGAAACCTTCATTCATCATGACTATGTTCCAGTATTACAAACGATCACGGCA +TTTTGTTTTTTCAGCATTTATTGCTTTTGTTTTTGTCTTGTTATGCCAGAACACGGCGTTTGCGCGGGCG +TCATCGAATGGTGATCTGCCGACAAAAGCGGACCTGCAGGCGCAACTTGACTCACTAAATAAACAAAAAG +ATCTTTCTGCTCAGGACAAACTGGTGCAGCAGGATCTGACAGATACATTAGCCACCCTCGATAAAATCGA +TCGCATAAAAGAAGAGACAGTTCAGCTACGGCAAAAAGTCGCTGAAGCGCCGGAAAAAATGCGCCAGGCG +ACCGCGGCGTTAACAGCACTTAGCGATGTCGATAACGACGAAGAAACGCGCAAAATTCTGAGCACGCTGT +CGTTGCGCCAGCTGGAAACTCGCGTTGCCCAGGCGCTGGACGATTTGCAAAACGCACAAAACGATCTGGC +GTCTTATAACAGCCAGCTGGTTTCGTTACAGACGCAGCCCGAACGCGTGCAAAATGCGATGTATAACGCT +TCGCAGCAGCTGCAACAAATTCGCAGTCGTCTGGATGGGACTGATGTCGGCGAGACAGCCTTACGTCCCA +GCCAGAAAGTGTTAATGCAGGCCCAGCAGGCGTTGCTGAATGCGGAGATTGACCAGCAGCGTAAAAGCCT +GGAAGGGAACACCGTCTTGCAGGATACCTTGCAAAAGCAACGTGATTACGTGACGGCGAACAGCGCTCGT +CTGGAGCACCAGTTACAACTGTTGCAAGAAGCGGTAAACAGCAAGCGCCTGACTTTAACCGAAAAAACGG +CGCAGGAAGCCGTCTCCCCGGATGAAGCCGCGCGTATTCAGGCTAATCCGCTGGTGAAGCAGGAACTGGA +AATTAACCAGCAGTTAAGTCAGCGTCTGATTACCGCGACTGAAAACGGTAATCAGTTGATGCAGCAAAAC +ATTAAAGTCAAAAACTGGCTGGAGCGGGCGCTGCAATCGGAACGCAATATTAAAGAGCAGATTGCCGTCC +TGAAGGGCAGCCTGCTGTTGTCTCGTATCCTTTACCAGCAACAACAAACGCTGCCCTCGGCGGATGAACT +GGAAAACATGACCAACCGCATCGCGGATTTGCGTCTCGAACAGTTTGAAGTTAACCAGCAGCGTGATGCA +CTCTTCCAGAGCGATGCGTTCGTCAACAAACTGGAAGAAGGTCACACCAACGAAGTCAACAGCGAAGTTC +ACGATGCGTTATTGCAAGTGGTTGATATGCGTCGCGAATTGCTGGATCAACTCAACAAACAGTTGGGTAA +CCAGCTGATGATGGCCATTAACCTGCAAATCAACCAGCAGCAGTTAATGAGTGTGTCGAAAAACCTGAAA +TCCATCCTGACTCAGCAAATCTTTTGGGTGAACAGTAACCGTCCAATGGACTGGGACTGGATCAAAGCGT +TCCCGCAAAGCCTGAAAGATGAATTTAAGTCGATGAAAATCACGGTGAACTGGCAAAAAGCCTGGCCCGC +CGTTTTTATCGCTTTCCTCGCTGGTTTGCCGCTGCTGTTGATTGCCGGGCTGATCCACTGGCGTCTGGGC +TGGCTGAAAGCGTATCAACAAAAACTGGCTTCCGCTGTGGGTTCCCTGCGTAACGACAGCCAGCTCAACA +CACCAAAAGCGATCCTTATCGACCTGATCCGTGCGCTGCCGGTGTGCCTGATTATTCTCGCGGTTGGCCT +GATTCTGTTGACCATGCAGCTCAACATCAGCGAACTGCTATGGTCGTTCAGCAAAAAACTGGCGATATTC +TGGCTGGTGTTTGGCCTGTGCTGGAAGGTACTGGAGAAAAACGGCGTTGCCGTACGTCACTTCGGCATGC +CGGAACAGCAGACCAGCCACTGGCGTCGGCAAATTGTCCGCATCAGTCTCGCATTGCTGCCTATCCATTT +CTGGTCTGTGGTGGCAGAACTTTCCCCGCTGCATCTGATGGATGATGTGCTGGGGCAAGCGATGATTTTC +TTCAACCTGCTGCTGATTGCCTTCCTGGTATGGCCGATGTGCCGCGAAAGCTGGCGTGATAAAGAGTCGC +ACACCATGCGACTGGTCACCATTACCGTGCTGTCGATAATCCCGATTGCGCTGATGGTGCTGACTGCTAC +AGGCTACTTCTACACTACGCTGCGTCTGGCAGGACGCTGGATTGAAACCGTTTATCTGGTGATCATCTGG +AACCTGCTGTACCAGACGGTACTGCGTGGCTTAAGCGTAGCGGCGCGGCGTATCGCCTGGCGTCGTGCGC +TGGCGCGTCGGCAGAATCTGGTGAAAGAGGGCGCAGAAGGTGCTGAACCGCCGGAAGAACCCACCATTGC +ACTGGAGCAAGTTAACCAGCAGACGCTGCGTATTACCATGTTGCTGATGTTTGCGCTGTTCGGTGTCATG +TTCTGGGCAATTTGGTCCGATTTGATCACCGTGTTCAGCTATCTCGACAGCATCACGCTCTGGCATTACA +ACGGCACTGAAGCTGGCGCTGCGGTGGTGAAAAACGTCACCATGGGCAGTCTGTTGTTTGCGATTATCGC +CTCAATGGTGGCCTGGGCGTTGATTCGCAACCTGCCTGGTTTACTGGAAGTGCTGGTGCTCTCGCGACTG +AATATGCGCCAGGGCGCGTCGTATGCCATTACTACCATCCTTAACTACATCATTATTGCTGTTGGTGCGA +TGACGGTGTTCGGATCGCTGGGCGTCTCTTGGGATAAACTCCAGTGGCTGGCCGCAGCATTATCCGTAGG +TCTTGGTTTTGGTTTACAAGAAATTTTCGGTAACTTCGTCTCCGGTTTGATCATTCTATTCGAACGTCCG +GTGCGTATTGGCGATACGGTAACCATTGGTAGCTTCTCGGGGACGGTAAGTAAGATCCGTATTCGTGCGA +CAACGATTACCGATTTCGATCGCAAAGAAGTGATCATCCCGAACAAAGCGTTTGTTACCGAGCGTCTGAT +CAACTGGTCGTTGACTGACACTACTACGCGTCTGGTGATCCGTCTCGGCGTGGCCTATGGCTCCGATCTG +GAAAAAGTGCGTAAAGTGTTACTGAAGGCGGCGACTGAGCACCCAAGGGTGATGCACGAACCAATGCCGG +AAGTCTTCTTTACGGCATTTGGTGCCAGCACGTTGGATCATGAGCTGCGTCTGTATGTGCGTGAACTGCG +TGACCGTAGTCGTACTGTCGATGAGCTGAACCGTACTATCGATCAGCTGTGCCGTGAAAACGACATCAAC +ATTGCCTTTAACCAGCTTGAAGTGCATCTGCACAACGAGAAGGGCGATGAGGTGACGGAAGTAAAACGCG +ACTACAAAGGCGATGACCCGACGCCAGCGGTAGGGTAAAAACGAAAGGGGGCAACATTTAGTTGCCCCGA +GATTGCTAACAAAGTGCGCGTTGTTCATGCCGGATGCGGCGTGACCGCCTTATCCGGCCTACGAAACCGC +AAGAATTCAATATATTGCAGGAGCGGTGTAGGCCTGATAAGCGTAGCGCATCAGGCAGTTTTGCGTTTGC +CCGCAACCTTAGGGGACATTTAGCGACCCCATTTATTTCTCACTTTTCCGCCTCATCATCGCGCGTTAAT +TTCTTTTCATAATCACGCTTTACAATATCCAGCGCGCGCAGCACGGTACTGGCAGGGATCTGATTTTCCT +CCAGCAGCACAATCAAATCGACAGCCAGTTTGACATCGTCAGGGGCATTTTCCAGTGACATATTCTCTCC +ATTGCTAGCGGGTTAAACGCGCTAACCTGTTTTCGATTTTTTCCAGCGCATGGCGGCAGCGTGCCAGGCG +CGCTTCATAGGCTTCCACTTCACGATGCAGCGTTTGCTGTTCCACGAGATCGGTCACCCGCGCCAGACGG +GCTCTGCGTTCGGCAACCATCTCACGTAGCCGCCGCTCAAAATCCTGATGCTGAATACGTTTACGCTGCC +AGCGGGCAATTTTCGGTGGTGCACTGTCCCACTCGCGCAATGACCAGGCGGAGGCTTCACGCGCGATGGC +TTCCAGTTGTGCCGCCAGATGTTCCGCCAGCCAGGCCACTTGCGGCAGCTGTTGCTGCTCAACTGCATGA +CGAAGCGCAGCCAGATTATCGCCCGCCTCGTCGAGACAAGCCTGTAGTGTTGTCGCACGAGTCTGAAAAA +GATGCCTGTCGAAACGAGCACTTAGCGTGGCGAACTGTGACACCGGGGCACAACGCTGACGCAGCGTAGC +GAGCTGTCCTTCCAGTTTTTCCAGCAGCAGGGCGGTTTTCACGATAAGACCTCAATGAAAATGATAATTG +TTATGCTAAAGTAGCCACTCTGTAAGCTGACAACACTCAATATGCAACGAATCATTTTAATCATCATTGG +CTGGCTGGCGGTAGTGCTGGGTACGCTGGGCGTGGTATTACCGGTATTACCGACGACGCCGTTTATCCTG +CTGGCGGCCTGGTGCTTTGCCCGTTCTTCCCCGCGCTTTCACGCCTGGTTGCTGTACCGCTCATGGTTTG +GCAGCTATCTACGTTTCTGGCAGAAACATCATGCGATGCCGCGCGGCGTCAAACCGCGGGCGATTTTGCT +TATTTTGCTCACGTTTGCCATTTCTCTGTGGTTCGTCCAGATGCCATGGGTGCGCATCATGTTGCTGGTA +ATTCTCGCCTGTTTGCTTTTCTATATGTGGCGAATTCCGGTGATTGATGAAAAGCAAGAAAAGCACTGAA +GCACAACAATCGCAGTTGCAATTATTGCGTACAGCCAGTACATTCTGGCGTTTTCGAGCACAGGCGCAGG +CGGTCAAAGGTTAAACAACTGTTACTTTTGATACGTTTAAAACGCGCCGTGAGTACCACCGTAACAAGCA +GGCATACACTTATGACCGCGACTGCACAGCAGCTTGAGTATCTCAAAAATAGCATCAAAAGCATTCAGGA +CTACCCAAAACCCGGCATTCTTTTCCGCGATGTCACCAGCTTACTGGAAGACCCGAAAGCTTACGCTCTC +AGCATCGACTTGCTGGTTGAGCGTTACAAAAATGCGGGCATTACCAAAGTTGTCGGCACCGAAGCGCGTG +GCTTCTTGTTTGGCGCTCCGGTAGCTCTGGGTCTGGGCGTTGGCTTTGTACCGGTCCGTAAACCGGGCAA +ACTGCCGCGTGAAACCATCAGTGAAACTTACGACCTGGAATACGGCACCGATCAGCTGGAGATCCACGTT +GATGCCATCAAACCGGGCGACAAAGTTCTGGTGGTGGACGACCTGCTGGCAACCGGCGGCACTATCGAAG +CGACCGTTAAACTGATCCGTCGTCTGGGTGGTGAAGTGGCTGACGCTGCGTTCATTATCAACCTGTTCGA +TCTCGGCGGCGAACAGCGTCTCGAAAAACAGGGCATTACCAGCTACAGCCTTGTCCCGTTCCCGGGCCAT +TAATTATCGCCAGTCTTGTGCTGCCCACGCTACGGACAGCACAAGATGTGCATTCAGCCTCGCCGTTCTG +ACGGGGCTGTGTTAGCATTACCCCTTCGTGAATCCACCTTCCAGCGTTTCAGAGCCTGCCAATGAGTTAT +CAGGTCTTAGCCCGAAAATGGCGCCCACAAACCTTTGCTGACGTCGTCGGCCAGGAACATGTGCTGACCG +CACTGGCGAACGGCTTGTCGTTAGGGCGTATTCATCATGCTTATCTTTTTTCCGGCACCCGTGGCGTCGG +AAAAACCTCTATCGCCCGACTGCTGGCGAAGGGGCTAAACTGCGAAACCGGCATTACCGCGACGCCGTGC +GGCGTGTGCGATAACTGTCGTGAAATCGAGCAGGGGCGCTTTGTCGATCTGATTGAAATCGACGCCGCCT +CGCGCACCAAAGTTGAAGATACCCGCGACCTGCTGGATAACGTCCAGTACGCTCCGGCGCGTGGTCGTTT +CAAAGTTTATCTGATCGACGAAGTGCATATGCTGTCGCGCCACAGCTTTAACGCACTGTTAAAAACCCTT +GAAGAGCCGCCGGAGCACGTTAAGTTTCTGCTGGCGACGACCGATCCACAGAAATTGCCGGTGACGATTT +TGTCACGCTGTCTGCAATTTCATCTCAAGGCGCTGGATGTCGAGCAAATTCGCCATCAGCTTGAGCACAT +CCTCAACGAAGAACATATCGCTCACGAGCCGCGGGCGCTGCAATTGCTGGCACGCGCCGCTGAAGGCAGC +CTGCGAGATGCCTTAAGTCTGACCGACCAGGCGATTGCCAGCGGTGACGGCCAGGTTTCAACCCAGGCGG +TCAGTGCGATGCTGGGTACGCTTGACGACGATCAGGCGCTGTCGCTGGTTGAAGCGATGGTCGAGGCCAA +CGGCGAGCGCGTAATGGCGCTGATTAATGAAGCCGCTGCCCGTGGTATCGAGTGGGAAGCGTTGCTGGTG +GAAATGCTCGGCCTGTTGCATCGTATTGCGATGGTACAACTTTCGCCTGCTGCACTTGGCAACGACATGG +CCGCCATCGAGCTGCGGATGCGTGAACTGGCGCGCACCATACCGCCGACGGATATTCAGCTTTACTATCA +GACGCTGTTGATTGGTCGCAAAGAATTACCGTATGCGCCGGACCGTCGCATGGGCGTTGAGATGACGCTG +CTGCGCGCGCTGGCATTCCATCCGCGTATGCCGCTGCCTGAGCCAGAAGTGCCACGACAGTCCTTTGCAC +CCGTCGCGCCAACGGCAGTAATGACGCCAACCCAGGTGCCGCCGCAACCGCAATCAGCGCCGCAGCAGGC +ACCGACTGTACCGCTCCCGGAAACCACCAGCCAGGTGCTGGCGGCGCGCCAGCAGTTGCAGCGCGTGCAG +GGAGCAACCAAAGCAAAAAAGAGTGAACCGGCAGCCGCTACCCGCGCGCGGCCGGTGAATAACGCTGCGC +TGGAAAGACTGGCTTCGGTCACCGATCGCGTTCAGGCGCGTCCGGTGCCATCGGCGCTGGAAAAAGCGCC +AGCCAAAAAAGAAGCGTATCGCTGGAAGGCGACCACTCCGGTGATGCAGCAAAAAGAAGTGGTCGCCACG +CCGAAGGCGCTGAAAAAAGCGCTGGAACATGAAAAAACGCCGGAACTGGCGGCGAAGCTAGCGGCAGAAG +CCATTGAGCGCGACCCGTGGGCGGCACAGGTGAGCCAACTTTCGCTACCAAAACTGGTCGAACAGGTGGC +GTTAAATGCCTGGAAAGAGGAGAGCGACAACGCAGTATGTCTGCATTTGCGCTCCTCTCAGCGGCATTTG +AACAACCGCGGTGCACAGCAAAAACTGGCTGAAGCGTTGAGCATGTTAAAAGGTTCAACGGTTGAACTGA +CTATCGTTGAAGATGATAATCCCGCGGTGCGTACGCCGCTGGAGTGGCGTCAGGCGATATACGAAGAAAA +ACTTGCGCAGGCGCGCGAGTCCATTATTGCGGATAATAATATTCAGACCCTGCGTCGGTTCTTCGATGCG +GAGCTGGATGAAGAAAGTATCCGCCCCATTTGATCGTAAGCACAGCTTACGTTCGTCATCCTTAACGTGA +TTGAGAGAGAAACCTATGTTTGGTAAAGGCGGTCTGGGTAACCTGATGAAGCAAGCCCAGCAGATGCAAG +AAAAAATGCAGAAAATGCAGGAAGAGATCGCGCAGCTGGAAGTCACCGGCGAATCTGGCGCAGGTCTGGT +AAAAGTGACCATCAACGGTGCACACAACTGCCGTCGCGTAGAGATCGACCCGAGCCTGCTGGAAGACGAC +AAAGAGATGCTGGAAGACCTGGTGGCTGCAGCATTCAACGACGCAGCACGTCGTATTGAAGAAACGCAGA +AAGAAAAAATGGCCTCTGTATCCTCCGGAATGCAGCTGCCGCCTGGCTTTAAGATGCCGTTCTGATGCAA +ACCAGCCCGCTGTTAACACAGCTTATGGAAGCACTGCGCTGTCTGCCGGGCGTTGGCCCGAAGTCGGCGC +AGCGTATGGCGTTCACGCTGCTTCAGCGCGATCGTAGCGGCGGGATGCGTCTGGCGCAGGCGCTCACCCG +GGCGATGTCGGAAATCGGCCACTGCGCCGATTGCCGCACTTTCACCGAACAGGAAGTCTGTAACATCTGT +TCGAATCCGCGTCGTCAGGAAAACGGTCAAATCTGCGTGGTGGAGAGTCCGGCGGACATCTACGCCATTG +AGCAGACGGGGCAGTTTTCAGGTCGTTATTTTGTGTTGATGGGGCATCTGTCACCGCTGGACGGCATCGG +TCCGGATGATATCGGGCTTGATCGTCTGGAACAGCGTCTGGCAGAGGAAAAAATCACTGAAGTGATCCTC +GCCACCAACCCCACGGTTGAAGGTGAAGCTACCGCTAACTACATTGCCGAGCTTTGCGCGCAATATGACG +TGGAAGCCAGCCGAATCGCTCATGGCGTTCCGGTTGGCGGCGAGCTGGAAATGGTCGACGGCACCACGTT +GTCACACTCCCTTGCCGGGCGTCATAAGATTCGTTTTTAAGCAAACGAGAGCAGGATCACCTGCTCTCGC +TTGAAATTATTCTCCCTTGTCCCCATCTCTCCCACATCCTGTTTTTAACCTTAAAATGGCATTATTGAGG +TAGACCTACATGAAAGGACAAGAAACTCGTGGTTTTCAGTCAGAAGTGAAACAGCTTCTGCACCTGATGA +TCCATTCTCTCTATTCCAATAAAGAAATCTTCCTGCGTGAGCTTATCTCTAACGCCTCCGATGCGGCGGA +CAAGCTGCGTTTCCGTGCGCTCTCTAACCCGGACCTGTACGAAGGTGATGGCGAACTACGCGTTCGTGTC +TCTTTCGATAAAGACAAGCGTACGCTGACCATCTCCGATAACGGCGTGGGGATGACCCGCGACGAAGTGA +TTGACCATCTGGGGACTATCGCTAAATCCGGTACCAAATCATTCCTCGAATCCCTGGGTTCTGACCAGGC +GAAAGACAGCCAGCTGATCGGTCAGTTTGGTGTTGGTTTCTACTCTGCGTTTATCGTGGCCGACAAAGTG +ACCGTGCGTACTCGCGCGGCAGGCGAAAAACCAGAAAATGGCGTCTTCTGGGAATCGGCTGGCGAAGGTG +AATACACCGTTGCCGACATCACCAAAGAAGATCGTGGTACTGAAATCACCCTGCATCTGCGTGAAGGCGA +AGACGAGTTCCTCGATGACTGGCGCGTGCGTTCCATCATCAGCAAATACTCCGACCATATCGCGCTGCCG +GTAGAGATCGAAAAACGCGAAGAGAAAGACGGCGAAACCGTTATCTCCTGGGAGAAAATCAACAAAGCGC +AGGCGCTGTGGACTCGTAACAAGTCGGAAATCACCGATGAAGAGTACAAAGAGTTCTACAAACACATCGC +CCACGACTTTAATGATCCGCTGACCTGGAGCCACAACCGTGTTGAAGGTAAGCAGGAGTACACCAGCCTG +CTGTACATCCCGTCCCAGGCTCCGTGGGATATGTGGAACCGCGATCATAAACACGGCCTGAAACTGTATG +TTCAGCGTGTGTTCATCATGGACGACGCAGAACAGTTCATGCCGAACTATCTGCGCTTCGTGCGTGGTCT +GATTGACTCCAGCGATCTGCCGCTGAACGTTTCCCGTGAAATCCTCCAGGACAGCACGGTAACGCGTAAC +CTGCGCAATGCGCTGACCAAGCGTGTGCTGCAAATGCTGGAAAAACTGGCGAAAGACGACGCGGAAAAAT +ACCAGACCTTCTGGCAACAGTTTGGCCTGGTACTGAAAGAAGGTCCGGCGGAAGATTTCGCTAACCAGGA +AGCGATCGCCAAACTGCTGCGTTTTGCTTCTACCCATACCGATTCTTCTGCGCAGACCGTATCTCTGGAA +GACTACGTTTCCCGCATGAAAGAAGGGCAGGAGAAAATCTACTACATCACCGCAGACAGCTATGCGGCAG +CGAAGAGCAGCCCGCACCTGGAACTGCTGCGTAAGAAAGGCATCGAAGTTCTGCTGCTTTCCGACCGCAT +CGATGAGTGGATGATGAACTATCTGACTGAGTTCGACGGTAAACCGTTCCAGTCGGTGTCTAAAGTTGAC +GAGTCGCTTGAAAAACTGGCTGACGAAGTTGATGAGAGCGCGAAAGAAGCGGAGAAAGCACTGACTCCGT +TCATCGACCGTGTGAAAGCCCTGCTCGGCGAGCGCGTGAAAGATGTCCGTCTGACTCACCGTCTGACCGA +TACGCCAGCGATCGTTTCGACCGACGCGGACGAAATGAGCACTCAGATGGCGAAACTGTTCGCTGCGGCG +GGCCAGAAAGTGCCAGAAGTGAAATACATCTTCGAACTGAACCCGGATCACGTACTGGTGAAACGTGCGG +CAGATACTGAAGATGAAGCGAAGTTCAGCGAGTGGGTAGAACTGCTGCTGGATCAGGCGCTGCTGGCAGA +ACGCGGCACGCTGGAAGATCCGAACCTGTTTATTCGTCGTATGAACCAGCTGCTGGTTTCCTGATGTAAT +GCCGGATGACCTTCGTGTCATCCGGCATTTTTCTTTTCATCATCTGCACTTTCCGCAAATTATCTCGCCA +TTAACCGTTTCAGCCCCAGGTGCCTTTCTTGAGGCAATCGCCTGTTGGTGGTATCGTTTATCGCTTTTTC +AAAAAATTCGACACATTTTAAGGGGATTTTCGCAATGCGTATCATTCTGCTTGGCGCTCCGGGCGCGGGG +AAAGGGACTCAGGCTCAGTTCATCATGGAGAAATATGGTATTCCGCAAATCTCCACTGGCGATATGCTGC +GTGCTGCGGTCAAATCTGGCTCCGAGCTGGGTAAACAAGCAAAAGACATTATGGATGCTGGCAAACTGGT +CACCGACGAACTGGTGATCGCGCTGGTTAAAGAGCGCATTGCTCAGGAAGACTGCCGTAATGGTTTCCTG +TTGGACGGCTTCCCGCGTACCATTCCGCAGGCAGACGCGATGAAAGAAGCGGGCATCAATGTTGATTACG +TTCTGGAATTCGACGTACCGGACGAACTGATCGTTGACCGTATCGTCGGTCGCCGCGTTCATGCGCCGTC +TGGTCGTGTTTATCACGTTAAATTCAATCCGCCGAAAGTAGAAGGCAAAGACGACGTTACCGGTGAAGAA +CTGACTACCCGTAAAGATGATCAGGAAGAGACCGTACGTAAACGTCTGGTTGAATACCATCAGATGACAG +CACCGCTGATCGGCTACTACTCCAAAGAAGCAGAAGCGGGTAATACCAAATACGCGAAAGTTGACGGCAC +CAAGCCGGTTGCTGAAGTTCGCGCTGATCTGGAAAAAATCCTCGGCTAATTCGAAAGCGCGCACGGACAG +TCCCCTCGCCCCCTCGGGGAGAGGGTTAGGGTGAGGGGAACAGGCCCGCACAAGCAAACTTATCAGCAAT +CTCAGGCCGGATATTCATTCGGCCTTTTACAAAAACCTCAATCTGCGCTATTCCTTTTTCTGATTTGACC +TCTCACAGCAATTAGTTCTTCTTCCTCACTTTTCCGCTACAATTATCAACAAGTTGAATCGATAAGAGGC +GGTAATGCGTCAGACTAAAACCGGTATCCTGCTGGCAAACCTGGGTACGCCCGATGCCCCCACACCTGAA +GCGGTAAAACGCTATCTGAAACAATTTTTAAGCGACAGACGCGTGGTTGATACCTCACGGTTGTTATGGT +GGCCATTGCTGCGCGGCGTGATTTTGCCGCTGCGCTCGCCGCGTGTGGCGAAGCTGTATGCCTCTGTCTG +GATGGAAGGTGGCTCGCCGCTGATGGTTTACAGCCGCCAGCAACAGCAGGCGCTGGCACAACGTTTACCG +GAGATGCCCGTAGCGCTGGGAATGAGCTACGGCTCGCCATCACTGGAAAGCGCCGTAGATGAACTCCTGG +CAGAGCATGTAGATCATATTGTGGTGCTGCCGCTTTATCCGCAATTCTCCTGTTCTACGGTCGGTGCGGT +ATGGGATGAACTGGCACGCATTCTGGCGCGCAAACGTAGCATTCCGGGGATATCGTTTATACGTGATTAC +GCCGATAACCACGATTACATTAATGCACTGGCGAACAGCGTACGCGCTTCTTTTGCCAAACATGGCGAAC +CGGATCTGCTACTGCTCTCTTATCATGGCATTCCCCAGCGTTATGCAGATGAAGGCGATGATTACCCGCA +ACGTTGCCGCACAACGACTCGTGAACTGGCTTCCGCATTGGGGATGGCACCGGAAAAAGTGATGATGACC +TTTCAGTCGCGCTTTGGTCGGGAACCCTGGCTGATGCCTTATACCGACGAAACGCTGAAAATGCTCGGAG +AAAAAGGCGTAGGTCATATTCAGGTGATGTGCCCGGGCTTTGCTGCGGATTGTCTGGAGACGCTGGAAGA +GATTGCCGAGCAAAACCGTGAGGTCTTCCTCGGTGCCGGCGGGAAAAAATATGAATATATTCCGGCGCTT +AATGCCACGCCGGAACATATCGAAATGATGGCTAATCTTGTTGCCGCGTATCGCTAAAGCTGAGCGGTAA +AGAACTGAGCGCCGTCGCGAAGAGCCTCGTCGGCGGTTTTCATCATCCGTGAATAATGCAAAAAGGCGTG +CAGCGTGCCTGGGTAGAGTTTGAACTCACAGGGCTGCTGATGCGCCGCTAACGTCTGGTAAAGCAGACGG +CTGTCATCCAGCAGCGGATCGAACTCCGCCCCGGCAATAAAACAGGGCGGAACTTCGCGAGTGAGATCAT +TATTAAACAGACAGTAATACGGCGACTCGCGGTCCGCGTCGTTGCTTAAATATGCCTCTTCGTACATCTG +CAAATCCTGTTGCGTTAAGCCATCCCAGACACCGCCCAACAGACGACGAGTCACGGAATCCCGTAATCCG +TAAAGCCCATACCACAGCAAAACGCCCGCAACTTTACCGCAATCGATCTGTTTATCACGCAACCACAACG +CACTGGCGAGCGCCAGCATGGCACCTGCGGAATCACCGGCAAAGCCAATGCGGGACATATTGATTTGATA +ATCCTCCGCCTGCTGGTGGAAATAACAACAAGCAGCCACAATTTCCTCTATCGCTTGCGGAAAACGCGCT +TCAGGTGAAAGGGTGTAATCAATACCAATCACCGTACATTGGCTGTAGCTTGCCAGCAGGCGCATGATGC +GATCGTGGGTATCGAGATTGCCGAGAATAAAACCGCCTCCATGCAAATAAAATAGCGTCGCTGGGCTATC +TGGCTGCGGACAAAAGAGACGTGTTTCCACCTGCCCATATTTTGTTGGAACCATGTAAGCTCTGGTTGCC +ATTTCTGGAGCGCCCGCATTCCAGAATCGGCGCTCAAGCGTGTAATACTGTCGTTGCTCAGCAATCGTTC +CCGTTGCGGGCCAGGGCGGTAAATCCGGCTGAAGAGTATTCACAACGGTCTTCATTTCAGCAGAAATAAG +GTCCAGAACAGGTAGTTTGTTTTCCGGCTTCATACAAAAACTCCTTTCAAATTACGTCATTGTAAGGAAC +CACTGCCATGAAAATGCGATCCCGCCTGCTGATATTGAAACTGGCTGCGTCTCGCGCGCTCCCGTCAGAT +TGTGTTAACATTCGCCGCTCAGTTAACCACCCGTAAAAACAACCATGAAATTTCCCGGTAAACGTAAATC +CAAACATTACTTCCCCGTAAACGCACGCGATCCGCTGCTTCAGCAATTCCAGCCAGAAAACGAAACCAGC +GCTGCCTGGGTAGTGGGTATCGATCAAACGCTGGTCGATATTGAAGCGAAAGTGGATGATGAATTTATTG +AGCGTTATGGATTAAGCGCCGGGCATTCACTGGTGATTGAGGATGATGTAGCCGAAGCGCTTTATCAGGA +ACTAAAACAGAAAAACCTGATTACCCATCAGTTTGCGGGTGGCACCATTGGTAACACCATGCACAACTAC +TCGGTGCTCGCGGACGACCGTTCGGTGCTGCTGGGCGTCATGTGCAGCAATATTGAAATTGGCAGTTATG +CCTATCGTTACCTGTGTAACACTTCCAGCCGTACCGATCTTAACTATCTACAAGGCGTGGATGGCCCGAT +TGGTCGTTGCTTTACGCTGATTGGCGAGTCCGGGGAACGTACCTTTGCTATCAGTCCAGGCCACATGAAC +CAGCTGCGGGCTGAAAGCATTCCGGAAGATGTGATTGCCGGAGCCTCGGCACTGGTTCTCACCTCATATC +TGGTGCGTTGCAAGCCGGGTGAACCCATGCCGGAAGCAACCATGAAAGCCATTGAGTACGCGAAGAAATA +TAACGTACCGGTGGTGCTGACGCTGGGCACCAAGTTTGTCATTGCCGAGAATCCGCAGTGGTGGCAGCAA +TTCCTCAAAGATCACGTCTCTATCCTTGCGATGAACGAAGATGAAGCCGAAGCGTTGACCGGAGAAAGCG +ATCCGTTGTTGGCATCTGACAAGGCGCTGGACTGGGTAGATCTGGTGCTGTGCACCGCCGGGCCAATCGG +CTTGTATATGGCGGGCTTTACCGAAGACGAAGCGAAACGTAAAACCCAGCATCCGCTGCTGCCGGGCGCT +ATAGCGGAATTCAACCAGTATGAGTTTAGCCGCGCCATGCGCCACAAGGATTGCCAGAATCCGCTGCGTG +TATATTCGCACATTGCGCCGTACATGGGCGGGCCGGAAAAAATCATGAACACTAATGGAGCGGGGGATGG +CGCATTGGCAGCGTTGCTGCATGACATTACCGCCAACAGCTACCATCGTAGCAACGTACCAAACTCCAGC +AAACATAAATTCACCTGGTTAACTTATTCATCGTTAGCGCAGGTGTGTAAATATGCTAACCGTGTGAGCT +ATCAGGTACTGAACCAGCATTCACCTCGTTTAACGCGCGGCTTGCCGGAGCGTGAAGACAGCCTGGAAGA +GTCTTACTGGGATCGTTAAGTTATCGTCGGTTCGTAGGCCAGATAAGGCGTTCACGCCGCATCTGGCATT +TGGCTCTCGATGCCTGATGCGACGCTGGCGCGTCTTATCATGCCTACATATTTTTCATATTTTACATCCG +GCAACCACCGTTTACCCCGTCACCACCTCACCCGCCGGTGGCGTTTCCAGCAGTTCCAGCATGGTACGGG +CGATTTCACGCTCGCCCATCACTACCTGATTCGCACCACGTTCGGTGATATACGCCACTTCATCGTCATA +ATGGGCGCGGGCAATAATCTCAATATCCGGATTTTTCGCGCGGGCAGATGCCACAATCTCACCCGCTTCA +TAACCGTTGGGAATCGTCAGGATCAGCCATTTTGCACATTCCAGATGCGCCAGTTGCATAATTTCTTCGT +TCGCCGCATTGCCCAATACTGCGCGGACCCCGCGCTCTCGCAGCTCATCAACACGGGTTCGTGACGTCTC +AATCACCACCAGCGGAATATCAGAGGCGAGCAATTTCTCCCCCAGCAGGCTGCCTACACGACCGTAACCC +ACCAGTAGCGCATGGTTGCAAATATCCACTGGGATCTGCTTCTCTTCTTCGATTGCCTCTTCCAGCGTCT +GCTCTTCCAGCGTTTCGGTCTTCGCCAGATATTTCTCCAGTAGTGCGAACAGTACCGGGTTGAGCATAAT +CGACAGGATCGCCCCTGCCAGTACCAGGTTTTGTCCGGCCTGCGGCAGTAAATTCAATGCCATTCCCAGT +CCCGCCAGGATAAACGCGAACTCACCAATCTGCGCCAGGCTGGCGGCGATGGTTAATGCCGTACGTTGGG +AGTGACCAAACAGTCGCACCAGGAAAAATGCGGCTAACGACTTACCAAACAGAATAATCGCCAGCGTCGC +CAGCACTGCCAGCGGTTGCTGAATCAGAATTAACGGATCAAACAACATCCCGACGGAGACAAAAAACAGC +ACCGCAAACGCGTCGCGCAATGGCAGCGTATCGTGGGCGGCACGGTGACTCAGTTCAGACTCGTTCAGTA +CCATCCCGGCAAAGAACGCACCGAGTGCAAAGGAGACATCAAACAGCTCTACCGCACCAAAGGCAACCCC +TAACGCCAGCGCCAGCACCGACAGGGTAAACAGCTCGCGAGAACCGGTTGCCGCGCTGCGTGCCATAATC +CACGGCACCAGACGGCGACCTACCAGCATCATAATGGCGATAAATGCGATCACTTTGCCGATGGTGATCC +CCATATCGACTGCAAGAGTGGCAAAGCCCACATCGCCCTGTTCCATCATTCCTGCCACTGCGGGCAGCAA +CACCAGCGTCAGAACCATTACCAGGTCTTCCACAATCAACCAACCGATGGCGATTTGCCCACGCTGACTG +TCAATTAATTGCCGTTCTTCAAGTGCGCGCAGTAACACCACGGTACTGGCGGTGGAAAGACATAAACCGA +ACACGATACCGGTCATTAACGACCAGCCCAGCACGGCAGAGAGCGCCATACCCAGCAGCGTCGCCACGGC +TATCTGGGCGATCGCACCGGGAATGGCGATGGCCTTTACCGCCATCAAATCCTTCAGCGAAAAGTGCAAA +CCGACGCCAAACATCAACAGAATGACGCCCAGTTCAGCCAGTTCCGGGGCAAGCTTGGTATCGGCAACAA +AGCCCGGAGTGAATGGTCCTGCCAGCACACCCGCTAACAGATATCCCACCAGAGGAGAAATACGTAGTTT +ATTGGCCAGCATGCCGAGGATAAAGGCGAGCACAAGGCCGCCAACAATGGTGGTGATAAGCGGGGTGGCG +TGATGCATTCCGTCTCCTTTTCCTGGTGGTTATTGTCCATTTTTGGCCGGGAAAACCAAAATTACAGGTA +ATAGTTTATGACAATTTCATTGATGATGTTCATGAATAATTATTGAATTTTGCAGAAAAATGGAATTAGC +TGCAAAAAAAGCACGGATCGGAAAACAGAAGGCGGTTTAACAGAGGAAAGGCTTATGGCGACTGTAAAAC +GATGCAGCCAAAGTTTGCCTTTGGCTGCAATGAAATCAGTCTTTATGCCGGTTATCAGGCAGGAATATGG +TCAACATCCCCAATAGTGGCAGGAAAGCACAGATTTTATAGACTAACTCGATGCTGGTGTGATCGGCGAT +AAGCCCCAGAACTGCCGCTCCCAGACCTCCCATGCCAAAAGCAAAACCGAAAAAGAGTCCAGAAACCATA +CCGATACGTCCTGGAAGCAGCTCCTGAGCGTAGACCAGAATGGCAGAGAATGCCGAAGCGAGGATAAATC +CAATAATCACCGTTAAAACCCCCGTCCAGTGCAGGCTGGCGTAGGGTAAAATCAGCGTAAACGGCGCAAC +GCCGAGGATAGAGCCCCAAATCACATATTTCCGCCCAATTTTATCCCCTACAGGCCCGCCGATCACCGTA +CCTGCCGCAACGGCAAACAGGAAGGCAAACAGATGAAGCTGAGCATTCTGGATAGATAATCCGAATTTTT +GCATCAGATAAAAGGTGTAATAGCTGCTGATGCTCGCCATATAGAAATATTTCGAGAAAATGAGGATTAA +CAGAATGCTGACCGCCAGTACAACTTTATTGCGCGGCAGTGGATTGATAATCGTCGCTTTGGGTTTTCCT +TTATTCATTCGGTGCTGTGCCGAGTACCAACGGCTGATTTGCGCCAACACCACGATCGCCAGCAGTGCCG +CAAGCACAAACCAGGCAACGTTGCCTTTGCCATAAGGCGCGATAATCACCGCCGCCAGCAAGGGTCCCAG +GGAACTGCCAAAGTTGCCGCCGACCTGAAAGATAGATTGCGCCAGGCCATGCCGCCCGCCGGAAGCCATA +CGGGCCACGCGAGAAGATTCCGGATGAAAGACCGATGAACCGGTACCGACCAGCGCCGCCGCCAGCAGAA +CTGCGCCAAAACTGCCCGCCAGCGCAAGCAGCACCAGACCGCTTAAGGTAAAGCACATGCCAATTGGCAA +CGACCATGGCATCGGATATTTATCGGTCCAGTAGCCGACCACTGGTTGCAGTAGCGAAGAGGCGAGCTGG +AAGGTGAGGGTTATCATGCCAATCTGCATAAATGTCAGAGAAAATTCTGACTGAAGCAGCGGATAAATCG +CCAGAATCAGCGATTGGATCATGTCGTTCAGCAGATGTGAGAGGCTGATAGCACCTAAAATACCAAACGA +TGTTCGGGCCTTGGTCGTTGACGCAGCCGCGCCCGCCACAGGCTGGGGTTGTTCACTCATTGCCATAGGA +AAGTCACTTTTTCAGGGTTGCGATGTAAAGAATGATCTTATTTGTGATTATTACCAGACTAACATACCTG +TATGCGTCGTCTGAAGGAAGTCTCAACGCCGAATACAGAATTTCTAATCTGGATGCAGATTTATCTTCAC +CGGACGCAGACTTGTCTATGATGTCGCGTCATACTATTTTTCAACACGTTGAAATCAGGTCAGGGAGAGA +AGTATGAAATTATTGCAGCGGGGCGTGGCGTTAGCGCTGTTAACCACATTTACACTGGCGAGTGAAACTG +CTCTGGCGTATGAGCAGGATAAAACCTACAAAATTACAGTTCTGCATACCAATGATCATCATGGGCATTT +TTGGCGCAATGAATATGGCGAATATGGTCTGGCGGCGCAAAAAACGCTGGTGGATGGTATCCGCAAAGAG +GTTGCGGCTGAAGGCGGTAGCGTGCTGCTACTTTCCGGTGGCGACATTAACACTGGCGTGCCCGAGTCTG +ACTTACAGGATGCCGAACCTGATTTTCGCGGTATGAATCTGGTGGGCTATGACGCGATGGCGATCGGTAA +TCATGAATTTGATAATCCGCTCACCGTATTACGCCAGCAGGAAAAGTGGGCCAAGTTCCCGTTGCTTTCC +GCGAATATCTACCAGAAAAGTACTGGCGAGCGCCTGTTTAAACCGTGGGCGCTGTTTAAGCGTCAGGATC +TGAAAATTGCCGTTATTGGGCTGACAACCGATGACACAGCAAAAATTGGTAACCCGGAATACTTCACTGA +TATCGAATTTCGTAAGCCCGCCGATGAAGCGAAGCTGGTGATTCAGGAGCTGCAACAGACAGAAAAGCCA +GACATTATTATCGCGGCGACCCATATGGGGCATTACGATAATGGTGAGCACGGCTCTAACGCACCGGGCG +ATGTGGAGATGGCACGCGCGCTGCCTGCCGGATCGCTGGCGATGATCGTCGGTGGTCACTCGCAAGATCC +GGTCTGCATGGCGGCAGAAAACAAAAAACAGGTCGATTACGTGCCGGGTACGCCATGCAAACCAGATCAA +CAAAACGGCATCTGGATTGTGCAGGCGCATGAGTGGGGCAAATACGTGGGACGGGCTGATTTTGAGTTTC +GTAATGGCGAAATGAAAATGGTTAACTACCAGCTGATTCCGGTGAACCTGAAGAAGAAAGTGACCTGGGA +AGACGGGAAAAGCGAGCGCGTGCTTTACACTCCTGAAATCGCTGAAAACCAGCAAATGATCTCGCTGTTA +TCACCGTTCCAGAACAAAGGCAAAGCGCAGCTGGAAGTGAAAATAGGCGAAACCAATGGTCGTCTGGAAG +GCGATCGTGACAAAGTGCGTTTTGTACAGACCAATATGGGGCGGTTGATTCTGGCAGCCCAAATGGATCG +CACTGGTGCCGACTTTGCGGTGATGAGCGGAGGCGGAATTCGTGATTCTATCGAAGCAGGCGATATCAGC +TATAAAAACGTGCTGAAAGTGCAGCCATTCGGCAATGTGGTGGTGTATGCCGACATGACCGGTAAAGAGG +TGATTGATTACCTGACCGCCGTCGCGCAGATGAAGCCAGATTCAGGTGCCTACCCGCAATTTGCCAACGT +TAGCTTTGTGGCGAAAGACGGCAAACTGAACGACCTTAAAATCAAAGGCGAACCGGTCGATCCGGCGAAA +ACTTACCGTATGGCGACATTAAACTTCAATGCCACCGGCGGTGATGGATATCCGCGCCTTGATAACAAAC +CGGGCTATGTGAATACCGGCTTTATTGATGCCGAAGTGCTGAAAGCGTATATCCAGAAAAGCTCGCCGCT +GGATGTGAGTGTTTATGAACCGAAAGGTGAGGTGAGCTGGCAGTAATCCGAAAGTGCCGGATGTTTGCAT +CCGGCACAATGCTTAATCGCGGCGGGCGATATCAGCAAATTTGGCATCGAGGATCTTTGCCAGATCGCCT +GCCGCCAGTTCGATATCCAGTCCGCGCTTGCCGCCGGAAACATAAATAGTGGCAAATTCTTGTGCGGGGG +CGTCGATAATCGTTGGCAGACGTTTTTTCTGCCCCAGTGGGCTAATCCCCCCAACCAGGTATCCCGTCGA +ACGCTGCGCGACCATCGGATCGGCCATCTCAACTTTCTTGGCACCCAGCGCTTTTGCTACTTTTTTAAGA +TCCAGTTGACCTGCGACCGGCGTAACGGCCACGGCAAGGTGTTTCATATCACCGTTCACTGCCACCAGCA +GCGTTTTGTAGACCTGATCCGGATTCAAACCTAATTTTTTGACGACTTCATCGCCAAAATTGGTTTCAGC +CGGATCGTGCTCGTAGGTATGGATTTGAAACGAAATCTTGTTTTTTTCGAGTAATTTAACTGCGGGTGTC +ATGGTAATTTTCCTGCCTTAAACAAAAAAACGAAGCAAGCATACGCCTGATGGCGGTCCAAAAAAAAGAG +TCATCTTGCCTAAGAGTATTGGCAGGATGGTGAGATTGAGCGACAATCGAGTTACACCGTCGCTTAAAGT +GACGGCATAATAATAAAAAAATGAAATTCCTCTTTGACGGGCCAATAGCGATATTGGCCATTTTTTTAGC +GCAACATTTGCGGCAAATTCCCTTCTCCATACAGGTGTAGTGCACCGACCGCGACCACATATCGCCCCGG +CGGCATGGCGCGTAATTTATCCCGCCAGGCGAGATTTCGCTGATGCATCAGCACATCGTACAGCGACTGA +CTGAACGTATTGGGCAGCGTTATATCATTATTTTGCGGCGGTGCATTCAGCCACCAGCTCATCATTTGTT +GCAGCAACCGTGCGTTGGTATGCCAGTGGGTCAGCGTATCGTCCAGCAGCGCCAGTCCTTTGTCAGGGAG +CTGGAGCAACATGGCAATCTGGTTTTCAGCCCCTTCCAGTTCAATCACGGGTTTATGTTGTTGCTTCGCC +GCCTGCAATAGCTGGTAATCGATACCGTATTCTGCCCGCAGCCCCAGTTTTTGTGCCTGCGTCGCCTGAA +GAACCATCGCGATTTGCCACAGCGGTTGGGTAGAAAAGAGTGAGGGAGAAATGCCCATCTCCTGGCTAAT +GTGCTGCAGGTTTTGGAGTTGCTCCTCGCTAATGCGCTCTTCCAGCGCCTCGCAGGCAGGCAAATTAGCA +AAAGGCGTATCGCTGGTGGAAACATCCGCCTCGACGATCAGCGCATCGGCGTTTTTGAGCTTTTTGAGCA +AACGGGTGGGCAGGGGAGCCATATCGTGGCTACCCATATGAATACTGCCAATCAGATGAAAATGGCGATT +GCCGGGGAGGGTGATATCGATGGCAGGCCAGGTGTAATGATTACCGCGCAGCGCGGCCCAAAGCGTTTTT +ACCCGGTACAACAGATCCATACGACCTCCCTTTGTGAAATATCATGCTAGCGCGCGGTGAGGGATGGCGC +AAATGGAGTTGGAGACTTGTTTAATGTGTTTGTATGATTCAGTATGTTCTTGCATCGCTATTCACAAGGA +AGCAACAGTTAAAAACCATGAAACAGGCAACAAGAAAACCGACGACACCCGGAGATATTCTTCTCTATGA +ATATCTGGAACCGCTCGATTTGAAAATCAATGAGTTAGCAGAGTTGCTGCATGTTCATCGTAATAGCGTC +AGTGCACTGATCAATAACAATCGTAAACTCACTACTGAGATGGCATTTCGTCTGGCGAAAGTTTTTGATA +CCACAGTCGATTTTTGGCTAAACCTCCAGGCGGCGGTTGATCTTTGGGAAGTTGAAAACAACATGCGCAC +CCAGGAAGAATTGGGACGGATTGAAACAGTGGCTGAATATTTGGCACGCCGTGAAGAGCGTGCAAAAAAG +GTCGCGTAAGGCCAAAACATCGCTTCATCTCGTAGGCCGGATAAGGCGTTCACGCCGCATCCGGCATCCG +AGCACCATTGCCTGATGCGACGCTTACCCGTCTTATCAGGCCTACAAACTTGTGCCTGAACCGTAGGCCG +GATAAGGCGTTTACGCCGCATCCGGCATCCGAGCACCATTGCCTGATGCGACGCTTACGCGTCTTATCAG +GCCTACAAACCTGTGCCTGAACCGTAGGCCGGATAAGGCGTTTACGCCGCATCCGGCAGTCATGCGTCGA +TGCCAAATGCGCCACCCTAAAGCAGCGCATCCGCAATGATGTACTTATTCCTTCGGTTTAAACCGCAGCA +ACCGGTTGGCGTTACTCACTACGGTAATCGACGAGAGCGCCATTGCCGCTCCGGCAACTACCGGGTTAAG +CAGTGTTCCAGTGAACGGCCACAAAATACCGGCGGCGACCGGAATACCGATACTGTTGTAGATAAACGCA +CCGAGCAGGTTCTGCTTCATGTTGTGCAGCGTTGCGCGGGAAATAGCGAGCGCATCCGCAACGCCCATCA +GGCTATGGCGCATCAGGGTAATCGCCGCGGTTTCAATGGCAACATCACTGCCGCCACCCATCGCAATGCC +GACATCCGCCTGAGCCAGCGCTGGCGCGTCGTTAATGCCGTCGCCCACCATTGCCACCTGACGTCCTTCA +CTTTGCAGATGTTTGATCGCTTCGGCTTTACCGTCCGGCAGCACCCCGGCGATCACCTCATCAATCCCTG +CTTCTTTGGCGATCGCATTGGCGGTGGTTGGGTTATCCCCGGTCAACATCACCAGACGATATCCCGCTTT +ATGCAGGCGTTGCAGCGCCGCCACGCTATCACTACGCAACGGATCGCGTACTGCCAGCAGGGCTACCGCT +TTCCCGTCAACCGCCAGCAGCACAGGCGTTGCCCCTTGCGATGCCTGAGCAGTAATCTCCGCTTCGATAG +CTTTGGTACCAACCTGTTGCTCATTTAACAGCGCCTGATTGCCCAGCAATAACGCATGACCTTCAGCTTC +ACCGCTCACGCCCAGCCCGCGCAATGTGCGGAAACCGTTGACCTGCGGTAGCTGCATATCACCTGCTTTA +TCGAGGATCGCTCGTGCCAGCGGATGGCTGGAACCTTGCTCCAGTGCCGCCGCCAGACGCAATGCCTGCG +CTTCATCAACATCAGCAAATGTTTTCACTGCGACAACCTGCGGCTTCCCTTCAGTCAGCGTCCCGGTTTT +ATCGAACACTACAGTGTCGAGTGTACTGGCGCGTTGCAGCGCGTCAGCGTCCCGCACCAGCACGCCAAAC +TCAGCCGCCCGCCCGACGCCGGAAATAATCGACATCGGCGTCGCCAGCCCCAGCGCACACGGACAGGCAA +TAATCAGTACCGTGGTGGCAATCACCAGGGTATAGACAATCTGCGGTGCCGGACCAAAGAAATACCAGAT +TGCCGCACTGACAAGCGCAATAACCACCACTACCGGCACAAATACGGCTGAGATTTTATCCGCCAGCTGA +CCGATTTCTGGCTTGCTGCTCTGGGCCTGGCGCACCATGCGAATGATTCGTGACAGCGTAGTATGGCTGC +CAACCGCACTGGCACGAAACAGCACACTGCCGTCCTGTACCACTGTCCCGGCATGGACGCTATCGCCTTC +GCCTTTTTGCTGCGGGATTGGTTCGCCCGTCAGCATCGCTTCATCCAGCCATGCTTCGCCCTGGGTAATC +TCGCCATCTACCGGCACGCGATCGCCGGTCGTCAGGCGCAGCAACATACCTGGCTGCACTTCTGCCAGAG +GCACGCTTTTTTCACCTTCGTCAGTAACCAGGCGTGCCGTCGGCGGGGTTAAATCGAGTAACTTTTCCAG +CGCCTTAGAAGAACGCTGGCGTGCGCGCGCTTCCAGCATATGGCCGAGATTGATCAGACCGATAATCATC +GCGCTGGCTTCGTAATAAAGATGTCGCGCTTCCATCGGGAACCACTGCGGCCACAGGTTGACGCTCATCG +AATAGAGCCACGCCACGCCAGTACCCAGCGCCACCAGCGTATCCATCGTCGCCGCACCGTTCAGCAGGCT +TTTCCATGCACTGCGGTAAAAATGGCCGCCGGCGAAAACCATCACTGCCAGGGTTATCAGGCCGATAACC +AACCACAGGCTGCGGTTGTCAGCGGTGACCATCATGTTATCGCCGATCATCCCCCAGACCATCACCGGGA +TACCCACCGCCAGTGCGACAATTGCCTGCCAGCGGAAGCGCTTCATCGTAGCGACGGCGGTTTCTTGCTG +GCGCTCGCGGCGTTTAGCGTCATCTTCAATCGCTTCCGCGCCGTAGCCCGCTTTTTCCACCGCCTGCACT +AAATCTTGTGGGGAGGCACTGCCCATCACCAGCGCAGTACGCTCCGCCAGGTTTACCCGTGCCTGAGTGA +CGCCCGGTACGCTTTGCAGCGCATTTTGTACGCGGGTGACACAGCTGGCGCAGCTCATGCCGCTCAGCAG +CAACTGCTGGCTGTCATCGTCATCGGCGGTCGCTGCCGGAAGCGCCTCAGAAACCGCTGTCAGTGCTTCC +GACGGGATTGATGACTCCGCCAGCGGTTTAGCCTTTGGGTGGCTTACAGATGCGTCATAACCCGCTTGTT +TGATGGTTTCGATCAGCTGTTCTGCACTGGCAGTCCCGGTAACGTGCGCTTCAGTGATAGACACATCCGC +CTGCTCAACATCCGGACGCTGTTCAAGACTTTCTTTCACGCGTTTAACGCAGTGACCGCAGGACAGGCCG +TCCAGGGTCAGGTCGATAGTTTGTGACATAAAACACTCCTTTAAGACAGTTTTGACTGGCTGTGATAAAG +GTTAAACCTTCCAGCAAGGGGAAGGTCAAGAAATTAATAAACCAGGCGGGTAAAAGTCCGTAAAGATTAA +AAAATCGGCTCGATTTGCATCAGGATTAGACATTTATCTCTTTGTTTTCCTGTAGTTAAGTTGCGGGTGC +TAAGTTAAATCAGGATGCCTGAAAATCGGCACCGGGGTGAGGAATTACCTCCCGCATCTATAAAAAGGAG +TTAACAAAAGATGTTAGATGCAAACAAATTACAGCAGGCAGTGGATCAGGCTTACACCCAATTTCACTCA +CTTAACGGCGGACAAAATGCCGATTACATTCCCTTTCTGGCGAATGTACCAGGTCAACTGGCGGCAGTGG +CTATCGTGACCTGCGATGGCAACGTCTATAGTGCGGGTGACAGTGATTACCGCTTTGCACTGGAATCCAT +CTCGAAAGTCTGTACGTTAGCCCTTGCGTTAGAAGATGTCGGCCCGCAGGCGGTACAGGACAAAATTGGC +GCTGACCCGACCGGATTGCCCTTTAACTCAGTTATCGCCTTAGAGTTGCATGGCGGCAAACCGCTTTCGC +CACTGGTAAATGCTGGCGCTATTGCCACCACCAGCCTGATTAACGCTGAAAATGTTGAACAACGCTGGCA +GCGAATTTTACATATCCAACAGCAACTGGCTGGCGAGCAGGTAGCGCTCTCTGACGAAGTCAACCAGTCG +GAACAAACAACCAACTTCCATAACCGGGCCATAGCCTGGCTGCTGTACTCCGCCGGATATCTCTATTGTG +ATGCAATGGAAGCCTGTGACGTGTATACCCGTCAGTGCTCCACGCTCCTCAATACTATTGAACTGGCAAC +GCTTGGCGCGACGCTGGCGGCAGGTGGTGTGAATCCGTTGACGCATAAACGCGTTCTTCAGGCCGACAAC +GTGCCGTACATTCTGGCCGAAATGATGATGGAAGGGCTGTATGGTCGCTCCGGTGACTGGGCGTATCGTG +TTGGTTTACCGGGCAAAAGCGGTGTAGGTGGCGGTATTCTGGCGGTCGTCCCTGGAGTGATGGGAATTGC +CGCGTTCTCACCACCGCTGGACGAAGATGGCAACAGTGTTCGCGGTCAAAAAATGGTGGCATCGGTCGCT +AAGCAACTCGGCTATAACGTGTTTAAGGGCTGATCATGATGAACACGGAAGGTAATAACGGTAACAAACC +TCTCGGTCTATGGAACGTCGTTTCCATCGGCATTGGGGCAATGGTGGGGGCGGGGATCTTCGCGCTGCTG +GGGCAGGCTGCATTGCTAATGGAAGCCTCGACCTGGGTCGCCTTTGCTTTTGGCGGTATTGTGGCGATGT +TTTCCGGTTATGCCTATGCGCGTCTGGGGGCGAGCTATCCCAGCAATGGCGGCATTATCGACTTCTTTCG +TCGCGGATTAGGCAACGGCGTCTTTTCGCTGGCGCTCTCGTTACTGTACCTGTTGACGCTGGCGGTGAGC +ATCGCCATGGTCGCCCGTGCTTTTGGCGCTTATGCCGTGCAGTTTTTGCATGAAGGCAGCCAGGAGGAGC +ACCTTATTTTGCTCTACGCGTTGGGGATCATTGCGGTGATGACGCTTTTCAACTCCTTAAGCAACCATGC +GGTAGGGCGGCTGGAAGTGATCCTCGTCGGCATTAAAATGATGATCCTGTTATTGCTGATTATTGCCGGT +GTCTGGTCGCTGCAACCGGCGCATATTTCCGTCTCTGCGCCCCCCAGCTCCGGTGCGTTCTTCTCCTGTA +TTGGGATAACTTTCCTTGCCTATGCGGGCTTTGGCATGATGGCGAACGCGGCGGATAAAGTGAAAGATCC +GCAGGTCATTATGCCACGGGCGTTTCTGGTGGCGATTGGCGTTACCACGTTGCTTTATATCTCGCTGGCA +CTGGTTTTGCTTAGCGATGTATCGGCATTAGAGTTAGAAAAATATGCCGATACCGCCGTAGCGCAGGCTG +CTTCTCCGCTGCTCGGGCATGTGGGTTATGTGATCGTCGTCATCGGCGCTTTACTGGCGACGGCTTCAGC +CATTAACGCGAACCTGTTCGCCGTGTTTAACATCATGGACAACATGGGCAGCGAACGCGAACTGCCGAAG +CTAATGAATAAATCCCTGTGGCGGCAGAGTACCTGGGGCAACATTATTGTCGTGGTGTTGATTATGCTGA +TGACGGCGGCACTGAATTTAGGCTCACTCGCCAGCGTTGCCAGCGCCACCTTTTTGATTTGCTACCTGGC +GGTGTTTGTGGTGGCGATCCGCCTGCGTCATGATATTCACGCCTCGTTGCCGATTCTTATCGTTGGTACG +TTGGTGATGTTGTTGGTGATCGTTGGCTTTATCTACAGTCTGTGGTCCCAGGGTAGCCGTGCGTTGATAT +GGATTATTGGCTCACTCTTACTCAGCCTTATTGTGGCAATGGTCATGAAGCGCAATAAAACCGTATAACA +TCTCTCTGTGCGCAGTACTTCCTGTATTATTGTGGTGGCGGTCGATATTCGCACTGGCAAAAAAACGTGC +TTGAATATCTGTTGAAACCCTTTAACAAAGCACAGGAGGCGTTGCGCGAACGATGAACATCAGCGATGTA +GCAAAAATTACCGGCCTGACCAGCAAAGCCATTCGCTTCTATGAAGAGAAGGGGCTGGTGACGCCGCCGA +TGCGCAGCGAAAACGGTTATCGCACCTACACGCAGCAGCATCTCAACGAACTGACCTTACTGCGCCAGGC +ACGGCAGGTGGGCTTTAACCTGGAAGAGAGCGGCGAGCTGGTGAATCTGTTTAACGACCCGCAGCGGCAC +AGCGCCGACGTCAAACGGCGCACGCTGGAGAAGGTGGCGGAGATCGAACGACACATTGAGGAGCTGCAAT +CCATGCGCGACCAGCTGCTGGCACTGGCGAATGCCTGCCCTGGCGATGACAGCGCCGACTGCCCGATTAT +CGAAAATCTCTCCGGCTGCTGTCATCATCGGGCAGGGTGATTAAGACGAGACGGCTCGGATATGTAGGGT +TATCCCTTCTATCGCAATGACTTCAACATGCGTACCTGCACCGAGATCCTCGCTGGCGCTGACAGGCCAT +GAACTGTCACCGACGCGCATATGACCGCGCCCGTTGACCAGCGGAGATTCCAGCACAAAACGTCGGCCAA +TCAGCTGCTGCCCGCGCTGGTTTAAATGACTATCGCTGTGCTTTTGTTCGCGCACCCGCCGCGACAACCA +TTTCCACCACAGCCAGGCGGCGAGCAGCGTCAGGATGGCAAACATTACCCCTTGCCACTCCCAACCCAGC +GGCACCAGCCAGACCACCAGGCCGGTAATCACCGCTGCCACGCCGCTCCACAACAAATAACCATTTCCGC +CCAGCATCTCGGCTGCCAGCAGCAAACCGCCGAGACTGAGCCAGAAAATATGTGGATGAACGACCATTAA +CTCCATCATGGCTGAGTCCGTTTGTTGGCGCTGTCTTTCACCAGCTCGGCAATCCCGGCAATCGACCCCA +TCAGGCTGCTGGCCTCTAATGGCATCATCACTACTTTGCTGTTACTGGAGGAACCGATCTGCTGTAACGC +TTCGGTGTATTTCTGCGCTACGAAGTAGTTCACCGCCTGAATATCACCGGAGGCGATAGCTTCAGACACC +ATTTTGGTGGCGCGGGCTTCTGCTTCGGCGGAACGTTCACGCGCTTCAGCCTGTAAAAACGCCGACTGAC +GTTCGCCTTCCGCTTTCAGGATTTGCGACTGTTTTTCACCTTCGGCTTTGAGGATTTCCGCCTGACGGAT +CCCTTCCGCTTCAAGAATGTAAGCGCGTTTGGTACGTTCCGCTTTCATCTGCGCGTTCATTGAAGAGATA +AGCTCTGCCGGTGGGCGCACGTCGCGAATTTCAATACGGGTGACTTTAATCCCCCACGGGTTGGTGGCTT +CATCGACAATACGCAGCAGGCGTGAGTTGATGCTGTCGCGCTGAGAGAGCATTTCGTCAAGTTCCATTGA +ACCCAGCACGGTACGGATGTTAGTCATGGTCAGGTTGATGATCGCCAGCTCCAGATTGCTGACTTCATAA +GCCGCGCGCGGCGCGTCAATCACCTGAATAAAGCACACGGCGTCGATGGTAACGTTGGCGTTATCTTTCG +AGATAACTTCCTGGGAAGGGATATCGAGCACTTGCTCCATCATATTGATCTTGCGACCAATGCGATCCAT +AAACGGCACCACCAGACTGAGCCCCGGCTGTAACGTTTTGGTATAGCGACCAAAGCGTTCTACTGTCCAC +TGATAGCCCTGCGGTACGATTTTGACACCCGCGCCGACAATGACCAGCGCGACAAAAATGAGAATCGGGA +TAAAGATAAGCATCGGAAAAACCTCCTGTTGTACCGTCCATAATCAGCAAAATTGCTGCTTGATTAAACA +AATTATACCTGATTACTGAAAGAGAGTTCCCCCTTATTCCTGCGAAGGATAAACTGTTTTTAGTAAAAAT +CAGAAAAAGGGAACAGCGATGCAGGAAAATAGTCCTTTGCTTCAGCTACAAAACGTAGGATATCTGGCGG +GTGATGCGAAGATTCTTAATAACATCAATTTTTCGCTGCGTGCTGGCGAATTTAAGTTAATTACCGGTCC +TTCTGGTTGTGGCAAAAGTACGCTGCTAAAAATAGTTGCTTCATTGATCAGCCCAACCAGCGGAACGTTA +CTGTTTGAAGGTGAGGATGTCAGCACACTAAAGCCAGAAATCTACCGCCAACAAGTCTCTTACTGCGCCC +AGACACCGACGCTGTTTGGCGATACGGTATACGATAATCTGATCTTTCCCTGGCAGATCCGTAACCGGCA +GCCTGACCCAGCCATTTTTCTCGATTTTCTCGAACGCTTCGCCTTGCCGGACAGCATTTTGACGAAGAAT +ATCGCCGAGCTATCTGGTGGTGAAAAACAACGCATCTCATTGATTCGTAACCTGCAATTTATGCCGAAGG +TTTTATTGCTGGATGAAATAACCAGTGCGCTGGATGAAAGTAATAAACATAACGTCAATGAGATGATCCA +TCGTTATGTGCGCGAGCAAAATATTGCCGTGCTGTGGGTGACACACGATAAAGACGAAATTAATCATGCG +GATAAAGTGATTACACTGCAACCGCATGCCGGAGAAATGCAGGAAGCACGCTATGAACTCGCATAATATT +ACTAACGAATCATTAGCACTGGCATTAATGCTGGTGGTGGTGGCAATCTTAATTAGCCATAAAGAAAAAC +TGGCGCTGGAGAAAGATATTCTCTGGAGCGTCGGGCGAGCGATAATTCAGCTGATTATTGTCGGCTATGT +GCTGAAGTATATTTTCAGCGTGGATGATGCCAGCCTGACATTATTGATGGTGTTATTTATCTGCTTTAAT +GCGGCGTGGAACGCGCAAAAACGCAGTAAATATATTGCTAAAGCTTTTATCTCATCGTTTATTGCCATTA +CGGTCGGGGCGGGAATTACCCTGGCGGTGCTGATTCTCTCAGGGTCGATTGAATTTATCCCGATGCAGGT +GATCCCTATCGCCGGGATGATTGCCGGTAACGCCATGGTAGCGGTGGGGTTGTGTTACAACAATTTAGGG +CAACGGGTCATTAGCGAACAGCAACAGATTCAGGAGAAACTGAGTCTTGGTGCGACGCCGAAGCAGGCTT +CAGCGATATTGATTCGCGACAGTATTCGCGCGGCTTTAATTCCGACGGTCGATTCAGCAAAAACGGTTGG +CTTAGTGAGTTTACCAGGAATGATGTCCGGGCTGATATTTGCCGGGATTGATCCGGTGAAGGCGATTAAA +TATCAGATTATGGTGACCTTTATGCTGCTCTCAACCGCCAGCTTGTCGACCATTATTGCCTGCTATTTAA +CCTATCGTAAGTTTTATAATTCGCGCCACCAGTTGGTGGTGACGCAATTGAAGAAGAAATGATGCGATGC +CGGATGCGCAGCATCGCATCCGGCGTTGTGGTTCATGTGCCGATCAACGGAATATCAATACAACAATGCA +TACAGCTGGCGGCGATACTTCGACGCCAGTGCATCACCCGTACCCAGCGCAGCGAGGATCTCCTGGAACG +TTTTACGCGTCTGACCGTCTGCGGCGGTGAGATCTTTACGCAGATGCCCGAACAGCAACTCCAGCGCCTC +TTCATTGCGCCCAACCTGATGCAGTTGCAGCGCCAGTTGCGTCGCCAGTGCGGCATCTTCTGGATTCTCC +GCCACCTGCTGTTGCAACTGTTGAATTTCCGGCGTATCAGCCGCCTGCTTCAGCAGTTCGATTTGCGCCA +CCAGCCCCTGGTAGCGGGTGTCCTGATCCTGCAACGGAATGGTTTTCAGCACCGCTTCCGCATCTTCAGA +ACGGTTCAGCGCAATCAGCGTTTCTGCCAGCAGCAGGCCGATCTCCCCGTTCTGATTCGACAACTGCCAG +GCGTCTTTCAGCAATGGCAGGGCATCGGTGTAATTGCTTTCCTGCATCAGTTGCATCGCCTGCTGCGCTT +TCAGCTCTTCTTCGCGCGGCAGCACTTTATCCAGCAGGGCGCGGATCGCCTCTTCCGGTTGCGGCCCCTG +GAAGCCATCTACCGGTTGCCCGTTCTGGAACAGATACACGGTCGGAATCGCACGCAGACCAAACTGCGCG +GCAATCATCTGCTCCGCGTCGCAGTCCAGCTTCGCCAGAATAAATTGCCCGTTGTACTGCGCCGCGAGGC +TTTCCAGAATTGGGGTTAACTGCAAACAGTGCTGGCTACGTTCAGACCAAAAATAGAACAGCACCGGAGT +GGTCATCGACTGTTCAAGAACCTGTTGCAGGTTAGATTCGTTAATGTTGACAATATTTTCTACGGACATG +GAGTCGCTCTCTGTTGTCGATATTTTCTTTGACATGGGGGCTTAAGCGCGCGCTTCAACTCACCCCTGCA +ATATTTTGTCCATCACGCGCCCCGGCAGCAGGCGCTTAAGCACCATTACCGCCCAGGTCACCAGCGTCAC +CGGATAGCGCATCTTCGGCTTCTCGCTAATAAAAGCATGGCGTACTTTGTCCACCACCGCTTCCGGTCCC +AACGTAAAGCGGGCGGCGATGCCGGGATTTTCGACTGGTTTATCACTTTGCGTCTGGTTGACGTTGTCGG +TGAAGCGAGTACGAATGGGACCGGGTTCGATCAGGCTGACTTTAATTCCGCTGTGGCGCAGCTCCATGCG +CAGTGCATCTGACCACGCCTCCAGCGCATATTTACTGGCCGCGTAAGCGCCACGACCCGGCGTGGAGATT +AATCCCATCACCGATGATGTCATCACAATACGCCCTTCACCGTGCGGTAACATCGCGGGTAACAGGCGCA +TGGTGAGCTGGTGTGCGCCGAAAAAGTTGGCGGAAAACTGCTGTTCCATCTGCGCACGGCTGATGGTGGA +AAGGGGGCCATACATGCCGAATCCGGCATTGTTAAAGATCCCATACAGACAATTATCGGTCAGGGCGATC +ACCTCGTCGGCTGCGCGATCAACACTTTCTGGTGAATCCAGATCGATCAACACGCCGGTAAATCCCATGC +TGTTCATGCGCTCAACATCATCCGGTTTCCGGCAACCTGCCAGCACATGAAAACCCTGGCGTTTTAATTC +GAGCGCGCTTTCCAGGCCAATTCCACTGGAACATCCGGTAATTAAGACCGATTTTTGCATAACTTTACCT +GTCAGGATCTCCGTTGCTTTATGAGTCATGATTTACTAAAGGCTGCAACTGCTTCGCCATCCAGTCGGCA +ATAAACGGCTGGGCGTCGCGGTTGGGATGAATACCGTCATCCTGCATCCATTGTGGCTTGAGGTAGACCT +CTTCCATAAAAAAGGGCAGCAGCGGAACATCAAACTCTTTGGCGAGTTTGGGGTAAATGGCGCTAAAGGC +TTCATTATAACGGCGACCATAGTTTGCAGGCAGACGTATTTGCATTAACAATGGTTCAGCGTTGGCGGCT +TTGACATCCTGCAAAATCTGGCGCAGCGTTTGCTCGGTTTGCTGTGGCTGAAAACCACGCAAACCGTCAT +TGCCGCCCAGTTCAACCAGCACCCAACGCGGCTGATGCTGTTTCAGCAGAGCCGGAAGGCGCGCCAGTCC +TTGTTGCGAGGTGTCGCCGCTGATGCTGGCATTAACTACCGACGTTTTACTCTGCCACTTATCATTCAAC +AAGGCAGGCCAGGCCGCGCTGGCAGACATTCGATACCCGGCGCTCAGGCTATCACCCAGAATCAATAACG +TGTCCGCTGCGGCGGCACGGAAGGTTAACAGGACCAGGAACAGGAAGGGCAAATGCCAGCGGAAAACATT +GTTGAAGTTCATCATCTTAAGAAGTCCGTCGGTCAGGGGGAGCATGAACTCTCCATCCTCACCGGAGTTG +AGCTGGTTGTCAAACGTGGCGAGACCATCGCACTGGTGGGCGAGTCGGGATCGGGTAAGTCAACCTTGCT +GGCGATCCTCGCCGGGCTTGATGACGGCAGCAGTGGCGAAGTGAGTCTGGTGGGACAACCGCTACATAAT +ATGGACGAAGAAGCGCGGGCAAAGTTGCGCGCGAAGCACGTCGGCTTTGTTTTTCAGTCATTTATGTTAA +TTCCTACCCTTAACGCGCTGGAAAACGTCGAGCTTCCGGCTCTGCTGCGCGGTGAGAGTAGCGCGGAAAG +TCGTAACGGGGCGAAAGCGTTGCTCGAACAGTTAGGGCTGGGTAAACGTCTGGATCATCTTCCGGCACAG +CTTTCCGGCGGTGAACAGCAACGAGTGGCGCTGGCACGAGCCTTTAATGGTCGACCTGATGTGCTGTTTG +CCGACGAACCCACCGGCAACCTTGACCGCCAGACGGGCGATAAAATTGCCGACCTGCTGTTTTCCCTCAA +CCGTGAACATGGCACCACGTTGATTATGGTGACCCACGACCTGCAACTGGCGGCACGCTGCGACCGCTGC +TTACGGCTGGTGAACGGGCAGTTGCAGGAGGAAGCATGATTGCACGTTGGTTCTGGCGCGAATGGCGTTC +GCCGTCGCTATTAATTGTCTGGCTGGCGCTAAGCCTGGCGGTGGCCTGCGTGCTGGCGCTGGGCAATATC +AGCGATCGCATGGAGAAGGGCTTAAGCCAGCAAAGCCGTGAGTTTATGGCGGGCGATCGGGCGTTGCGCA +GTTCACGCGAAGTGCCGCAAGCGTGGCTGGAGGAAGCGCAAAAGCGCGGCCTGAAAGTCGGCAAGCAGCT +GACTTTCGCCACAATGACCTTTGCAGGCGACACACCGCAGCTGGCGAACGTCAAAGCGGTGGATGATATC +TACCCGATGTATGGCGATCTGCAAACTAATCCCCCTGGCCTGAAACCGCAGGCGGGCAGCGTATTGCTGG +CCCCACGCCTGATGGCACTGCTTAACCTGAAAACGGGCGACACCATTGACGTGGGCGATGCCACCTTGCG +GATTGCCGGAGAAGTGATTCAGGAACCGGATTCCGGTTTTAACCCCTTCCAGATGGCTCCGCGTCTGATG +ATGAATCTGGCGGATGTCGATAAAACCGGAGCCGTGCAGCCGGGGAGTCGGGTCACCTGGCGTTATAAAT +TCGGCGGCAACGAGAACCAGCTCGACGGCTATGAGAAATGGTTGTTACCTCAGCTTAAACCCGAACAACG +CTGGTACGGTCTGGAACAGGACGAAGGCGCGCTGGGGCGATCGATGGAACGCTCGCAACAGTTCCTGCTG +CTTTCGGCGCTTCTGACCTTGCTGCTGGCAGTGGCAGCGGTGGCGGTAGCGATGAATCATTACTGTCGCA +GTCGCTACGATCTGGTGGCGATCCTCAAAACGCTGGGGGCAGGGCGAGCGCAACTGCGTAAGCTAATCGT +CGGTCAGTGGTTGATGGTGCTGACGCTTTCAGCCGTTACCGGTGGGGCCATAGGCCTGTTGTTCGAAAAC +GTGTTGATGGTGCTGCTCAAGCCCGTTCTGCCTGCTGCACTACCGCCAGCCAGCCTCTGGCCGTGGCTGT +GGGCGCTTGGCACCATGACGGTCATCTCGCTGCTGGTGGGGCTACGACCATATCGCTTGTTGCTGGCAAC +GCAGCCTTTACGCGTATTACGTAATGATGTGGTAGCGAACGTCTGGCCGCTGAAGTTTTATCTGCCGATT +GTCAGTGTGGTGGTTGTGCTGCTGCTCGCCGGATTAATGGGTGGCAGCATGCTGCTTTGGGCGGTGCTGG +CGGGCGCGGTAGTACTGGCTTTGCTGTGCGGTGTGCTGGGCTGGATGCTGCTGAATGTACTTCGCCGCAT +GACGCTGAAATCGCTGCCTCTGCGCCTGGCGGTTAGCCGCCTGTTACGTCAGCCGTGGTCAACGTTAAGT +CAGCTTTCGGCATTTTCGCTCTCCTTTATGCTGCTGGCACTGCTGCTGGTGTTGCGTGGCGATCTGCTCG +ACCGCTGGCAGCAGCAGCTACCTCCAGAAAGCCCGAACTACTTTTTAATTAACATCGCCACAGAACAGGT +AGCACCGCTAAAAGCGTTCCTCGCGGAACATCAGATAGTCCCGGAATCGTTTTATCCGGTGGTGCGGGCG +CGGCTGACGGCGATTAACGATAAGCCGACAGAAGGTAATGAAGATGAGGCGCTTAACCGCGAACTCAATC +TTACCTGGCAAAATACGCGGCCCGATCATAATCCGATTGTCGCCGGTAACTGGCCGCCAAAAGCCGATGA +AGTGTCGATGGAAGAGGGGCTGGCGAAACGCTTAAACGTTGCCCTCGGTGATACCGTGACTTTTATGGGC +GATACCCAGGAGTTCCGCGCTAAAGTGACCAGCCTGCGCAAAGTGGACTGGGAAAGTCTGCGGCCTAATT +TCTATTTTATTTTCCCTGAAGGGGCATTAGACGGGCAACCGCAGAGCTGGCTTACCAGTTTCCGCTGGGA +GAATGGCAACGGCATGTTGACACAACTCAACCGCCAGTTCCCGACCATTAGCCTGTTAGATATTGGCGCG +ATTTTAAAACAGGTCGGTCAGGTGCTGGAGCAGGTAAGTCGGGCGCTGGAAGTGATGGTGGTACTGGTCA +CCGCCTGCGGTATGTTGCTGTTGCTGGCACAGGTGCAGGTGGGAATGCGTCAGCGTCATCAGGAGCTGGT +GGTGTGGCGCACACTCGGTGCGGGGAAAAAACTGCTGCGTACCACGTTGTGGTGTGAGTTCGCCATGCTT +GGGTTTGTTTCCGGCCTGGTGGCCGCAATTGGTGCGGAAACGGCGCTGGCAGTGTTGCAGGCGAAAGTGT +TTGATTTTCCGTGGGAGCCAGACTGGCGATTGTGGATTGTTCTGCCGTGCAGCGGAGCGCTGCTGCTGTC +GCTTTTCGGCGGCTGGCTGGGTGCGCGACTGGTTAAGGGTAAGGCGCTGTTCAGGCAGTTTGCGGGGTGA +TGAGAGTAAATAAGGGGCGTTCTGGTTGAATGGAACGCCTTGTTTAAATTAATTCTACAATATGTTTCAT +TGATGATGTTATTGAATTGGTGATTTCCTATCTTTCTATTGCTGATATTAATCTGAATCGGTGGAGTTTA +TTGATTTTAAATATAGCCCTACAAAAATAACTCAGACTAATAAAATCATAAATCATATGCGTTGAATGGA +TATTATCCATATAGTGAATTTGTTGATGATGAATTCATCTGTGCTAAAAATGTTAGTTTAATAAAATATT +GAAAGTGACCTGTAATAACAGTTGTTGTTGATTGAGAACAAATAAGTTTATGTGAAAAATATATAAATAC +ATTAGCTGGTCTTGTGTGTCATTTTATTTTTTTTTGTTGCTAACACAGGGATATGAACAATAACTAAAAG +GGCACTTTATATGAGCGGAAAACCAGCGGCGCGTCAGGGAGATATGACTCAGTATGGCGGTCCCATTGTC +CAGGGTTCGGCAGGTGTAAGAATTGGCGCGCCCACCGGCGTGGCGTGCTCGGTGTGTCCGGGCGGGATGA +CTTCGGGCAACCCGGTAAATCCGCTGCTGGGGGCGAAGGTGCTGCCCGGCGAGACGGACCTTGCGCTGCC +CGGCCCGCTGCCGTTCATTCTCTCCCGCACCTACAGCAGCTACCGGACGAAGACGCCTGCACCGGTGGGC +GTTTTCGGCCCCGGCTGGAAAGCGCCTTCTGATATCCGCTTACAGCTACGTGATGACGGACTGATACTCA +ACGACAACGGCGGGCGGAGCATTCACTTTGAGCCGCTGCTGCCGGGGGAGGCGGTGTACAGCCGCAGTGA +GTCAATGTGGCTGGTGCGCGGTGGTAAGGCAGCACAGCCGGACGGCCATACGCTGGCGCGGCTGTGGGGG +GCGCTGCCGCCGGATATCCGGTTAAGCCCGCATCTTTACCTGGCGACCAACAGCGCACAGGGGCCGTGGT +GGATACTGGGGTGGTCTGAGCGGGTGCCGGGTGCTGAGGACGTACTGCCAGCGCCGCTGCCGCCGTACCG +GGTGCTTACCGGGATGGCGGACCGCTTCGGGCGGACGCTGACGTACCGGCGTGAGGCCGCCGGTGACCTG +GCCGGGGAAATCACCGGCGTGACGGACGGTGCCGGGCGGGAGTTCCGTCTGGTGCTGACCACGCAGGCGC +AGCGTGCGGAAGAGGCCCGCACCTCTTCGCTATCTTCTTCTGACAGTTCCCGCCCTCTCTCAGCCTCAGC +GTTCCCCGACACACTGCCCGGTACCGAATACGGCCCCGACAGGGGTATCCGCCTTTCGGCGGTGTGGCTG +ATGCACGACCCGGCATACCCGGAGAGCCTGCCCGCTGCGCCACTGGTGCGGTACACGTATACGGAAGCCG +GTGAACTGCTGGCGGTATATGACCGCAGCAATACGCAGGTGCGCGCTTTCACGTATGACGCGCAGCACCC +GGGCCGGATGGTGGCGCACCGTTACGCGGGAAGGCCGGAGATGCGCTACCGCTACGACGATACGGGGCGG +GTGGTGGAGCAACTGAACCCGGCAGGGTTAAGCTACCGCTATCTTTATGAGCAGGACCGCATCACCGTCA +CCGACAGCCTGAACCGGCGTGAGGTGCTGCATACAGAAGGCGGGGCCGGGCTGAAACGGGTGGTGAAAAA +AGAACTGGCGGACGGCAGCGTCACGCGCAGCGGGTATGACGCGGCAGGAAGGCTCACGGCGCAGACGGAC +GCGGCGGGACGGAGGACAGAGTACGGTCTGAATGTGGTGTCCGGCGATATCACGGACATCACCACACCGG +ACGGGCGGGAGACGAAATTTTACTATAACGACGGGAACCAGCTGACGGCGGTGGTGTCCCCGGACGGGCT +GGAGAGCCGCCGGGAATATGATGAACCGGGCAGGCTGGTATCGGAGACATCGCGCAGCGGGGAGACAGTA +CGCTACCGCTACGATGACGCGCACAGTGAGTTACCGGCGACGACAACGGATGCGACGGGCAGCACCCGGC +AGATGACCTGGAGCCGCTACGGGCAGTTGCTGGCGTTCACCGACTGCTCGGGCTACCAGACCCGTTATGA +ATACGACCGCTTCGGCCAGATGACGGCGGTCCACCGCGAGGAAGGCATCAGCCTTTACCGCCGCTATGAC +AACCGTGGCCGGTTAACCTCGGTGAAAGACGCACAGGGCCGTGAAACGCGGTATGAATACAACGCCGCAG +GCGACCTGACTGCCGTTATCACCCCGGACGGCAACCGGAGCGAGACACAGTACGATGCGTGGGGAAAGGC +GGTCAGCACCACGCAGGGCGGGCTGACGCGCAGTATGGAGTACGATGCTGCCGGACGTGTCATCAGCCTG +ACCAACGAGAACGGCAGCCACAGCGTCTTCAGTTACGATGCGCTGGACCGGCTGGTACAGCAGGGCGGCT +TTGACGGGCGGACGCAACGTTATCATTATGACCTGACCGGAAAACTCACACAGAGTGAGGATGAGGGACT +TGTCATCCTCTGGTACTACGATGAATCGGACCGTATCACTCACCGCACGGTGAACGGCGAACCGGCAGAG +CAGTGGCAGTATGATGGCCACGGCTGGCTGACAGACATCAGCCACCTGAGCGAAGGCCACCGTGTTGCCG +TCCACTATGGCTATGACGATAAAGGCCGCCTGACCGGCGAATGCCAGACGGTGGAGAACCCGGAGACGGG +GGAACTGCTGTGGCAGCATGAGACGAAACACGCATACAACGAGCAGGGGCTGGCAAACCGCGTCACGCCG +GACAGCCTGCCGCCGGTGGAGTGGCTGACGTATGGCAGCGGTTACCTGGCGGGAATGAAGCTGGGCGGGA +CGCCGCTGGTCGAGTATACGCGGGACAGGCTGCACCGTGAGACGGTGCGCAGCTTCGGCAGCATGGCAGG +CAGTAATGCCGCATACGAACTGACCAGCACATACACCCCCGCAGGCCAGTTACAGAGCCAGCACCTGAAC +AGCCTGGTATATGACCGTGACTACGGGTGGAGTGACAACGGCGACCTGGTGCGCATCAGCGGCCCGCGAC +AGACGCGGGAATACGGCTACAGCGCCACGGGCAGGCTGGAGAGTGTGCGCACCCTCGCACCAGACCTGGA +CATCCGCATCCCGTATGCCACGGACCCGGCGGGCAACCGGCTGCCGGACCCGGAGCTGCACCCGGACAGT +ACACTCACAGTGTGGCCGGATAACCGCATCGCGGAGGATGCGCACTATGTCTACCGCCACGATGAATACG +GCAGGCTGACGGAGAAGACGGACCGCATCCCGGCGGGTGTGATACGGACGGACGACGAGCGGACCCACCA +CTACCACTACGACAGCCAGCACCGCCTGGTGTTCTACACGCGGATACAGCATGGCGAGCCACTGGTCGAG +AGCCGCTACCTCTACGACCCGCTGGGACGGCGAATGGCAAAACGGGTCTGGCGGCGGGAGCGTGACCTGA +CGGGGTGGATGTCGCTGTCGCGTAAACCGGAGGTGACGTGGTATGGCTGGGACGGAGACAGGCTGACGAC +GGTGCAGACTGACACCACACGTATCCAGACGGTATACGAGCCGGGAAGCTTCACGCCGCTCATCCGGGTC +GAGACAGAGAACGGCGAGCGGGAAAAAGCGCAGCGGCGCAGCCTGGCAGAGACGCTCCAGCAGGAAGGGA +GTGAGAACGGCCACGGCGTGGTGTTCCCGGCTGAACTGGTGCGGCTGCTGGACAGGCTGGAGGAAGAAAT +CCGGGCAGACCGCGTGAGCAGTGAAAGCCGGGCGTGGCTTGCGCAGTGCGGGCTGACGGTGGAGCAACTG +GCCAGACAGGTGGAGCCGGAATACACACCGGCGCGAAAAGCTCATCTTTATCACTGCGACCACCGGGGAC +TGCCGCTGGCGCTTATCAGCGAAGACGGCAATACGGCGTGGAGCGCGGAATATGATGAATGGGGCAACCA +GCTTAATGAGGAGAACCCGCATCATGTGTATCAGCCGTACCGTCTGCCAGGGCAGCAGCATGATGAGGAA +TCAGGGCTGTACTATAACCGTCACCGGTACTACGATCCGTTGCAGGGGCGGTATATTACTCAGGACCCGA +TGGGGTTGAAAGGGGGATGGAATTTATATCAGTATCCTTTAAATCCACTACAACAAATTGACCCTATGGG +ATTATTGCAGACTTGGGATGATGCCAGATCTGGAGCATGTACGGGGGGAGTTTGTGGTGTTCTTTCACGT +ATAATAGGACCAAGTAAATTTGATAGTACTGCAGATGCTGCGTTAGATGCTTTGAAAGAAACGCAGAATA +GATCTCTATGTAATGATATGGAATACTCTGGTATTGTCTGTAAAGATACTAATGGAAAATATTTTGCATC +TAAGGCAGAAACTGATAATTTAAGAAAGGAGTCATATCCTCTGAAAAGAAAATGTCCCACAGGTACAGAT +AGAGTTGCTGCTTATCATACTCACGGTGCAGATAGTCATGGCGATTATGTTGATGAATTTTTTTCAAGTA +GCGATAAAAATCTTGTAAGAAGTAAAGATAATAATCTTGAAGCATTTTATCTCGCAACACCTGATGGACG +ATTTGAGGCGCTTAATAATAAAGGAGAATATATTTTTATCAGAAATAGTGTCCCGGGATTGAGTTCAGTA +TGCATACCGTATCATGATTAATTTTAGTGCTTTTATTAGTGGGGCCTATAAGGAGATTCAATGAAATATA +GTTCAATATTTTCGATGCTTTCATTTTTTATACTATTTGCCTGTAATGAGACAGCTGTTTACGGTTCTGA +TGAAAACATTATTTTTATGAGGTATGTGGAAAAATTACATTTAGATAAATACTCTGTTAAAAATACGGTA +AAAACTGAAACAATGGCGATACAATTAGCTGAAATATATGTTAGGTATCGCTATGGCGAACGGATTGCAG +AAGAAGAAAAACCATATTTAATTACGGAACTACCAGATAGTTGGGTTGTTGAGGGAGCAAAGTTACCTTA +TGAAGTTGCGGGTGGTGTATTTATTATAGAAATTAATAAGAAAAATGGATGTGTTTTGAATTTCCTACAT +AGTAAATAATGCTGGCGCTGATGGATGCGGATGGAAACATTGCGTGGAGCGGGGAGTATGATGAGTGGGG +CAACCAGCTGAATGAAGAGAACCCGCATCACCTGCACCAGCCGTACCGGCTGCCGGGGCAGCAGTATGAT +AAGGAGTCGGGGCTGTACTACAACCGGAACCGGTACTACGATCCGTTGCAGGGGCGGTATATCACTCAGG +ACCCGATAGGGCTGGAGGGGGGATGGAGTCTGTATGCGTATCCGCTGAATCCGGTGAATGGTATTGATCC +ATTAGGGTTAAGTCCCGCAGATGTAGCGCTAATAAGAAGAAAAGATCAACTAAACCATCAAAGAGCATGG +GATATATTATCTGATACTTATGAAGATATGAAGAGATTAAATTTAGGTGGGACTGATCAATTTTTCCATT +GTATGGCATTTTGTCGAGTGTCTAAATTAAATGACGCTGGTGTTAGCCGATCGGCGAAAGGGCTGGGTTA +TGAAAAAGAGATTAGAGATTACGGGTTAAATCTGTTCGGTATGTACGGCAGAAAAGTAAAGCTATCCCAT +TCTGAAATGATTGAAGATAATAAAAAAGACTTGGCTGTAAATGACCATGGGTTGACATGTCCATCAACAA +CAGATTGCTCAGATAGATGTAGTGATTATATTAATCCAGAGCATAAAAAAACGATAAAGGCTTTACAAGA +TGCTGGCTATCTCAAGTAATCTATCAAAGATGATAATATTTATTTTTGCTATTATAATCATTGTTGTTTT +ATGCGTAATTACTTATCTTTATTTATACAAAGATGAATCTCTTGTAAGTAAACATTACATAAACTATATG +GCAATACCAGAAAATGATGGAGTTTTTACATGGCTCCCAGATTTTTTTCCGCACGTAGCGGTGGATATAT +CAATATACACAAATGTAGAAGATGATTATTTTTTTCTTATTTTTCCCTAACAAATGATGATGGGGGTAGG +TTTAAGAAAACATTGACAGTGAGGGCCAGGGAACAAGTGGCGAAAATCGTATCAAAGAATGATCCAGATA +CAAAAAAAGTGTGGTGTAAATATGGTAAGATACCAGGGCAAGGGGATGGTGTAAACCTTTTTTTTGTTGG +TGAAATTAATGTTACGCATTATTTTATAACAAATATTGGAGCTGGATTGCCTGATGCTTGTGCAGAGTAA +TTGCTTGAATTAAGAGTCTATCCCATATCGAAGTCGTCAACTTCGTAGTGAGGAAAAGTAAAATTCCTGA +CTGAGAAAAGACATGTCGGCTATTGTGTAAAGCCATATAGCTCAGACGATGAATATCTACTCGTATTCAG +TTGTTTATTGAGGGTGAGTTCCGACCCTGAAACAACAAATAAAATGAACAGTCAGAGAGTTTACATAGAA +TTGCACTGGTCTTTTACGATATCTGACATTGTGTAATACATATTCAGCCATGCATTAATTAAAATGTTAC +GTGTTTAATGTGAGTCCCTATCTGAAAATAAATAATCCTTCCGGATTAAAATAAATTCTTGCCGGGAAAG +AAAGAGGAAATAAACCATTAGCGGAAAACCAGCGGCACGCCAGGGTGACATGCCCCAGTACGGCGGCCCG +ATAGTCCAGGGTTCAGCGGGGGTACTGATAGTCGCGCCGACTGCATCGAGAACTCCATACAACTTTTTAC +GGAACGTCACCTGATAAAATTTGTTCAGTATCGTCTTTTGAGATTCTCAAGGTTATGGAGTAACCAGACA +GAACGGACACCACTGTCGGAGATAAAAACCCCCTGTTTACGCAGCTCGTTGCTGGCCCGGTGCTGACCAT +GTGTCGGGAAAGCGACGGCGTAATCAACAACAGCCTGTTCAGTTGCCTCATCGGTACGGTTCTTAAGGTT +AGGAGCGCGGCGACTACGATTAATCTGCGCATCCACACCGCCTTCAGCGACCAGTTCGCGGTAACGATAA +AACGTATCACGCGAAACGCCCATGATTTTACAGGCTTTTGATACGTTGCTGAGTTCTTCAGCCAGATTGA +GCAAACCGGCTTTGTGTTTGATGACGGGATTGGCAGTATGAAGCATGAGAGTTACCTCTTGTTTTGGATA +AGGATTCGACACTCATATCAAAACCGGTAACTCTCAACCTTTCAAGGCCATGTGTCAGATCAAGTCGCGA +CTAATACAAATACGTCCCTCATTACCGCGCCTTAACCCATTCCGCCACTTCCGCCCACTCACCGCGAAAG +ACAACTTTTTCCGCTTTTTTCTCAAGCTGATAGCGATACATCGGGTCGTAATATTCTTCAAGTAACGGCA +CCAGCCAGGCCAGATGACCGTCGGTGCTGCCGGTGGTGAGTTGCGTTGTCAGTGCTGCATCCAGCCTTGC +AGCCAGTTCGTTATAGCGCTGTAGCCCCAGCCGACGCTTAATCGCCGAAAGTCCGTGATGCAGGTATTCG +CAATACTCCTGCCAGCCCTGTTCGTCGCCGTACGCGTGGGTAAAATCATGATGCATACGCAAGAAATACT +CTTCGTTCAGGCGCTCAAGACGGATCTCAAACGGATCTTCTACCACCGCAATCGCCGCCTGAGTCATTCG +CTCGCGCAGGCATTCCGGCAGGTGATTCGAACCGATCATCCGGCTTTCGTCTTCCAGCACCCACAGGCGC +AAATTCTGACGGGCGTCGGTTTTTAGCATTTCGGCAGCCAGCAGGTTTTCAAAACTCGCCTGGCTAAGTT +GTGGTTGTAACGTGCGACCAAACGCCGAACCGCGATGACGCGCCAACCCTTCCAGATCAACACCGTTCGG +CTGTTGCTGCACTAACAGCGTTTTACCGCTGCCGGTACAACCGCCAATCAGCACTATCGGTTTTTGTGCC +AGTTCAATAGTCGCCTGAATCGCGGTCTGGCGCAGTGCCTTATAACCGCCTTCCACCAGCGGATAATCAA +TCCCCGCTGCATGCAACCAGCTTTGCACAATATGTGAGCGCTGACCGCCACGGGCGCAGCAGAGAATACC +TTGCGGATTTTGCAGGCACGCTGCCCGCCAGGCGTCCATGCGCTGCTGACGAATTTCACCCGCCACCAGT +TTATGTCCCAGCGCCAGCGCTGCGTCTGAGCCTTGCTGTTTATAGCAGGTGCCAACGGCGGCGCGTTCAT +CGTTATTCATTAACGGCAGATTGATAGCGGCGGGCATTGCGCCGTGCTCAAACTCGATAGGGGCGCGAAC +ATCAATAATGGGCGTATCAGCAATCAGCAGGGCACGATAGTCCTGTTCCGTGTGTCTCTCTTGCATAGTT +AAAAGTGAACCTCAAATCAGCTTGCGCGCTATTTTACGCGCCAACGCGCAAGGAAACTTGATTTTTAACT +GCGTGGGTTGCCGAAAATTTCTAAAAATCCGCTGATTTCCGGCCTGCGCTGGGTAAACAAGGTCACAATA +TCTTCTACCGCTTTGCCGCTGCCAAATTTGCGCCATGCCAGACTCAATGGCGAAGGAGGGCGCATCGTTG +GGATTACCCGGCTGACCAGTTGTTGATTATCGATCATTGACTGGCAAAGCGATTTTGGCAAAAAACCAAT +GCCAACGCCCGCCAGATGGGCGGCGATTTTCGTTTCCATATCGGGAACAATAATCTCTTTTTGCCCTGGC +AATCGCCAGGCGACGCGTTTGGTTAAGGTGCGGGCGCTGTCTTCAATATTGACCGCCGGAAAGCGCCGCA +ACTGCGCTTCTGTTAGCGGCTCTTCAACGTTCGCCAGCGGATGATCCGCCGCCATGACAAAGCGCCATTG +CACCGATCCTAAGGGATCAAGACTAAAGGTATTTGCCAGCGCCTCAGTTCCCGTGACGCCGATAGCCAGC +GAAAAACCTTCGTACAATAGCGAGTCCCAGACGCCCATATAGATTTGTCGGGAGATGTGAAACTGGGTAA +AGGGGTAACGCTCATTCAGCCACGCCAGCAACTGGGCGACGGCCTGGGGGTTGTAGAGCAGGTTGTTGAT +GACAATATTCACCTGGCGTTCCACGCCATCATTCACCTGTTGCAGCTCGCTTGGCATACTTTCCAGCCAG +CTCAGCCAGTCTCTGGCCTGGGAAAGTAGATGCTCGCCAGCCGCTGTCAACGTCACGCTGCGAGTCGTAC +GGAAAAACAGCGCTACTCCGGTATTCTCTTCCAGAAGTTTAATGCGATAACTGATCGTCGCCGTGGTTTT +ACATAATCGTTCTGCCGCTTTTGAAAAACTTCCTGTTTCAGCAACCGCAATGAAAGTCCGCAAGGTTTCT +GGATCGAACATCTTCAGGTATCCCCTTTTAAATCCGCAAGTTGCGTGATTTTCTTATCCTCTGATTTATC +AGTATTTTTACATGATAACCCTGTTCAATTTGTGGACTAAATCTAGTTTTGGAAAAATATTCCAACTTTT +GTATTGATGTTGTTCTCTTAAGGTTTTAGATTGCCTGTTATTGAAACCAAGCTGACCGGTCGGCGGTGGT +TGAACGGAATTATGTTACAAGGACAAAAAGATGAAACTTCAGGTATTACCGTTAAGTCAGGAAGCCTTTA +GTGCTTATGGCGACGTAATCGAAACGCAGCAACGGGATTTTTTCCATATTAACAATGGCCTGGTGGAGCG +TTACCACGATTTGGCGCTGGTTGAGATTCTTGAGCAAGACTGTACGCTTATCAGCATTAACCGCGCGCAA +CCGGCGAATCTGCCGCTGACCATTCACGAACTCGAACGTCATCCGCTGGGTACTCAGGCCTTTATCCCGA +TGAAAGGTGAGGTGTTTGTGGTGGTCGTGGCGTTAGGTGACGACAAACCAGACCTGTCAACGCTGCGGGC +GTTTATCACCAACGGCGAACAGGGAGTGAATTACCATCGTAACGTCTGGCATCACCCACTTTTCGCCTGG +CAGCGCGTCACCGATTTTCTGACCATCGATCGCGGCGGCAGTGACAACTGTGATGTTGAAAGTATTCCTG +AACAGGAACTCTGTTTTGCGTGACGCCTGCAACCGACTTGCATAAGATAAACTAATTGTTCATTGTTTAT +GCTCACTTGTAGGTCGGAGTTAACGTAGGTATGACGGAAGTTAGACGGCGCGGCAGGCCAGGACAGGCGG +AGCCTGTGGCACAGAAGGGCGCACAGGCGTTAGAGCGGGGAATTGCGATTCTGCAATATTTGGAAAAAAG +TGGGGGAAGTTCGTCGGTTAGCGATATTTCTCTCAATCTGGATTTGCCGCTCTCCACGACCTTTCGCTTG +CTGAAGGTTTTACAGGCAGCGGATTTTGTCTATCAGGACAGTCAATTAGGCTGGTGGCATATAGGATTAG +GTGTCTTTAACGTCGGTGCGGCGTACATCCATAACCGCGATGTCCTCTCCGTCGCCGGGCCGTTTATGCG +CCGCCTGATGTTACTTTCCGGCGAAACGGTCAATGTCGCGATCCGTAACGGCAATGAAGCGGTATTAATT +GGTCAGTTAGAGTGTAAATCGATGGTCAGGATGTGTGCGCCACTGGGCAGTCGTCTGCCACTGCATGCTT +CCGGTGCGGGCAAAGCGCTGCTTTATCCGCTGGCGGAAGAGGAGTTGATGAGCATCATTCTGCAAACCGG +TTTGCAGCAGTTTACGCCAACTACGCTTGTGGATATGCCCACCTTGCTGAAGGACCTGGAACAAGCGCGT +GAACTGGGCTATACCGTAGATAAAGAAGAGCATGTTGTAGGTCTGAATTGCATAGCTTCAGCAATTTACG +ATGATGTCGGTAGTGTTGTTGCCGCTATCTCCATCTCCGGGCCTTCATCAAGACTGACAGAAGATCGTTT +TGTCAGTCAGGGTGAGCTGGTCAGAGACACCGCCCGCGATATCAGCACGGCGTTGGGACTGAAAGCACAT +CCATAATGTCTGTCGCATCCCGCTCTGCGGAGCGGGTTTTTTTGACAAAATTTGAAAGTTGGAAAAATTT +TCCAATAAATAGAGGTAGGAATAAAATGGCAAAAATGAGAGCCGTTGACGCGGCAATGTATGTGCTGGAG +AAAGAAGGTATCACTACCGCCTTCGGTGTTCCGGGAGCTGCAATCAATCCGTTCTACTCAGCGATGCGTA +AGCACGGCGGTATTCGTCACATTCTGGCGCGTCATGTGGAAGGTGCTTCGCACATGGCGGAAGGTTATAC +CCGCGCAACGGCAGGGAATATCGGCGTATGTCTGGGGACTTCCGGTCCTGCGGGCACGGACATGATCACC +GCGCTCTATTCCGCTTCTGCTGATTCCATTCCTATTCTGTGCATTACCGGCCAGGCACCGCGCGCCCGTC +TGCATAAAGAAGATTTTCAGGCCGTAGATATTGAAGCAATTGCTAAACCGGTCAGCAAAATGGCGGTTAC +AGTTCGTGAAGCGGCGCTGGTGCCTCGCGTGCTGCAACAGGCATTTCACCTGATGCGTTCTGGTCGTCCG +GGTCCGGTACTGGTGGATTTACCGTTCGACGTTCAGGTTGCGGAAATCGAGTTTGATCCTGACATGTACG +AACCGCTGCCGGTCTACAAACCTGCTGCCAGCCGTATGCAGATCGAAAAAGCTGTAGAAATGTTAATCCA +GGCCGAACGTCCGGTGATTGTTGCCGGGGGCGGGGTAATTAATGCTGACGCAGCTGCACTGTTACAACAG +TTTGCTGAACTGACCAGCGTTCCGGTGATCCCAACGCTAATGGGCTGGGGCTGTATCCCGGACGATCATG +AACTGATGGCCGGGATGGTGGGTCTGCAAACCGCGCATCGTTACGGTAACGCAACGCTGCTGGCGTCTGA +CATGGTGTTTGGTATCGGTAACCGTTTTGCTAACCGTCATACCGGCTCGGTAGAGAAATACACCGAAGGG +CGCAAAATCGTTCATATTGATATTGAGCCGACGCAAATTGGTCGCGTGCTGTGTCCGGATCTCGGTATTG +TCTCTGATGCTAAAGCGGCGCTGACACTGCTGGTTGAAGTGGCGCAGGAGATGCAAAAAGCGGGTCGTCT +GCCGTGTCGTAAAGAATGGGTCGCCGACTGCCAGCAGCGTAAACGCACTTTGCTGCGCAAAACCCACTTC +GACAACGTGCCGGTGAAACCGCAGCGCGTGTATGAAGAGATGAACAAAGCCTTTGGTCGCGATGTTTGTT +ATGTCACCACCATTGGTCTGTCACAAATCGCTGCGGCACAAATGCTGCATGTCTTTAAAGACCGCCACTG +GATCAACTGTGGTCAGGCTGGTCCGTTAGGCTGGACGATTCCGGCTGCGCTAGGGGTTTGTGCCGCTGAT +CCGAAACGCAATGTGGTGGCGATTTCTGGCGACTTTGACTTCCAGTTCCTGATTGAAGAGTTAGCTGTTG +GCGCGCAGTTCAACATTCCGTACATCCATGTGCTGGTCAACAACGCTTATCTGGGGCTGATTCGTCAGTC +ACAACGCGCTTTTGACATGGACTACTGCGTGCAACTCGCTTTCGAGAATATCAACTCCAGTGAAGTGAAT +GGCTACGGTGTTGACCACGTAAAAGTAGCGGAAGGTTTAGGTTGTAAAGCTATTCGGGTCTTCAAACCGG +AAGATATTGCGCCAGCCTTTGAACAGGCGAAAGCCTTAATGGCGCAATATCGGGTACCGGTAGTCGTGGA +AGTTATTCTCGAGCGTGTGACCAATATTTCGATGGGCAGCGAACTGGATAACGTCATGGAATTTGAAGAT +ATCGCCGATAACGCAGCGGACGCACCGACTGAAACCTGCTTCATGCACTATGAATAAGGGAGATAAATAA +TGTTACGTTTCTCTGCTAATTTATCGATGTTATTTGGAGAATATGATTTTCTCGCCCGTTTTGAGAAAGC +TGCGCAGTGTGGTTTTCGCGGCGTTGAATTTATGTTTCCTTATGACTACGACATTGAAGAATTAAAACAT +GTGCTGGCGAGTAATAAACTCGAACATACGCTGCACAATTTACCGGCGGGTGACTGGGCGGCGGGGGAGC +GCGGTATTGCCTGTATTCCTGGCCGTGAAGAAGAGTTTCGGGATGGCGTAGCAGCAGCGATTCGTTATGC +CCGTGCGCTGGGTAATAAAAAAATTAACTGTCTGGTCGGTAAAACGCCGGCTGGTTTCAGCAGTGAACAG +ATTCACGCAACGCTTGTAGAAAACCTGCGTTATGCCGCGAATATGCTGATGAAAGAAGATATTTTATTAC +TGATTGAACCTATTAACCATTTTGATATTCCTGGTTTCCATCTCACCGGAACTCGGCAGGCGCTGAAATT +GATTGATGATGTTGGTTGCTGCAATTTGAAAATTCAGTATGACATTTATCATATGCAGCGGATGGAAGGT +GAATTAACCAACACCATGACTCAGTGGGCTGATAAAATTGGTCACCTGCAAATTGCCGATAATCCGCATC +GCGGCGAACCGGGAACCGGAGAAATTAATTATGATTATCTCTTTAAGGTAATCGAAAATTCTGACTACAA +CGGTTGGGTTGGGTGTGAATATAAACCCCAAACCACCACGGAAGCCGGTTTACGCTGGATGGATCCGTAC +CGTTAAAACGTAACGCTATTCAGACAATGCTTTTTTAGGCCGCTAAGTTGGCAGGGGATCGTGTTGTCTG +AATTCAGGAAAAGCGAAATTTAAAAGAGGTTAATTATGAAACTGGGATTTATTGGCTTAGGCATTATGGG +TACACCGATGGCCATTAATCTGGCGCGTGCCGGTCATCAATTACATGTCACGACCATTGGACCGGTTGCT +GATGAATTACTGTCACTGGGTGCCGTCAGTGTTGAAACTGCTCGCCAGGTAACGGAAGCATCGGACATCA +TTTTTATTATGGTGCCGGACACACCTCAGGTTGAAGAAGTTCTGTTCGGTGAAAATGGTTGTACCAAAGC +CTCGCTGAAGGGCAAAACCATTGTTGATATGAGCTCCATTTCCCCGATTGAAACTAAGCGTTTCGCTCGT +CAGGTGAATGAACTGGGCGGCGATTATCTCGATGCGCCAGTCTCCGGCGGTGAAATCGGTGCGCGTGAAG +GGACGTTGTCGATTATGGTTGGCGGTGATGAAGCGGTATTTGAACGTGTTAAACCGCTGTTTGAACTGCT +CGGTAAAAATATCACCCTCGTGGGCGGTAACGGCGATGGTCAAACCTGCAAAGTGGCAAATCAGATTATC +GTGGCGCTCAATATTGAAGCGGTTTCTGAAGCCCTGCTATTTGCTTCAAAAGCCGGTGCGGACCCGGTAC +GTGTGCGCCAGGCGCTGATGGGCGGCTTTGCTTCCTCACGTATTCTGGAAGTTCATGGCGAGCGTATGAT +TAAACGCACCTTTAATCCGGGCTTCAAAATCGCTCTGCACCAGAAAGATCTCAACCTGGCACTGCAAAGT +GCGAAAGCACTTGCGCTGAACCTGCCAAACACTGCGACCTGCCAGGAGTTATTTAATACCTGTGCGGCAA +ACGGTGGCAGCCAGTTGGATCACTCTGCGTTAGTGCAGGCGCTGGAATTAATGGCTAACCATAAACTGGC +CTGATACCCGCAATAAAAATGGCCGATATCAGAAAATGAATCGGCCAGCAATATTAAAAAAGAAAGCAGC +CAAAGATGTTGCTTCAGTATTAAAAATAATATTTTTATTTTATTTGTTCCTCATAGCTAGATTAAAACAA +CGTTATTCGATACGTGAAATTAAGAGGGATTTATGGAACATCAGAGAAAACTATTCCAGCAACGCGGCTA +TAGCGAAGATCTATTGCCGAAAACGCAAAGCCAGCGGACCTGGAAAACATTTAACTATTTTACCTTATGG +ATGGGTTCGGTTCATAACGTTCCCAATTATGTGATGGTCGGCGGCTTTTTTATTCTCGGCTTGTCTACCT +TTAGTATTATGCTGGCAATTATCCTCAGCGCCTTTTTCATTGCCGCGGTAATGGTATTAAACGGTGCTGC +GGGCAGTAAATACGGTGTGCCTTTTGCCATGATCCTGCGTGCTTCTTACGGTGTACGTGGTGCACTGTTT +CCCGGATTATTAAGGGGCGGAATTGCCGCCATCATGTGGTTTGGTTTGCAATGTTACGCGGGGTCACTGG +CCTGCTTGATTCTGATTGGCAAAATCTGGCCGGGATTTTTAACTCTCGGTGGTGATTTCACTCTGTTAGG +CCTTTCTCTACCGGGCTTAATTACTTTCTTAATCTTCTGGCTGGTCAACGTTGGTATAGGTTTTGGCGGT +GGCAAAGTTTTAAATAAATTCACTGCCATTCTTAACCCGTGCATCTATATCGTTTTCGGCGGTATGGCGA +TTTGGGCGATTTCACTGGTCGGGATCGGTCCAATCTTTGACTACATTCCGAGCGGTATTCAGAAAGCAGA +AAACGGTGGCTTCCTGTTCCTGGTGGTGATTAACGCGGTAGTTGCGGTCTGGGCGGCACCGGCGGTGAGC +GCATCCGACTTTACGCAAAACGCCCACTCGTTTCGTGAGCAGGCGCTGGGGCAAACGCTGGGTTTAGTTG +TGGCCTATATTCTGTTTGCGGTCGCCGGGGTATGTATTATTGCCGGAGCCAGTATTCACTACGGCGCTGA +TACCTGGAACGTGCTGGATATTGTTCAGCGTTGGGACAGCCTGTTCGCCTCGTTCTTTGCGGTACTGGTT +ATTCTGATGACAACTATCTCCACTAACGCGACCGGTAATATTATTCCAGCCGGTTATCAGATTGCCGCCA +TTGCACCGACAAAACTGACCTATAAAAACGGCGTACTGATTGCCAGTATTATCAGCTTGCTGATCTGCCC +GTGGAAATTAATGGAAAATCAGGACAGCATTTATCTTTTCCTCGATATTATCGGCGGAATGCTTGGTCCG +GTAATTGGTGTCATGATGGCGCATTATTTTGTGGTGATGCGCGGACAAATTAATCTTGATGAACTGTATA +CCGCACCTGGCGATTATAAATATTACGATAACGGTTTTAACCTCACTGCGTTTTCAGTAACTCTGGTGGC +CGTTATTTTATCTCTTGGCGGTAAGTTTATTCACTTTATGGAACCGTTATCGCGTGTTTCATGGTTTGTC +GGCGTCATCGTCGCCTTTGCGGCCTACGCCTTATTAAAGAAACGTACAACAGCAGAAAAAACAGGAGAGC +AAAAAACCATAGGTTAATTAATCCCGATATTGAACATTGAGTTAAAAACCAATCTGTATTTTACAAGGAG +TTTGTTATGTCTTTTGATTTAATCATTAAAAACGGCACCGTTATTTTAGAAAACGAAGCTCGCGTTGTAG +ATATCGCCGTTAAAGGCGGAAAAATTGCTGCTATCGGTCAGGATCTGGGCGATGCAAAAGAAGTTATGGA +TGCGTCTGGTCTGGTGGTTTCGCCGGGCATGGTTGATGCGCACACCCATATTTCTGAACCGGGTCGTAGC +CACTGGGAAGGTTATGAAACCGGTACTCGCGCAGCGGCAAAAGGTGGTATCACCACCATGATCGAAATGC +CGCTCAACCAGCTGCCTGCAACGGTTGACCGCGCTTCAATTGAACTGAAGTTCGATGCCGCTAAAGGCAA +GCTGACTATTGATGCGGCACAACTCGGTGGCCTGGTGTCTTACAACATCGACCGTCTGCATGAGCTGGAT +GAAGTGGGCGTTGTCGGCTTCAAATGCTTCGTTGCGACCTGTGGCGATCGCGGTATCGACAACGACTTCC +GTGATGTAAACGACTGGCAGTTCTTCAAAGGTGCGCAGAAGCTGGGCGAACTGGGTCAGCCGGTGCTGGT +GCACTGCGAAAACGCGCTGATTTGTGACGAACTGGGCGAAGAAGCGAAGCGTGAAGGTCGCGTAACCGCT +CATGACTATGTGGCTTCGCGTCCGGTATTTACCGAAGTGGAAGCAATTCGCCGCGTACTGTATCTGGCGA +AAGTTGCTGGTTGCCGTCTGCACGTTTGCCACGTCAGCAGCCCGGAAGGTGTTGAGGAAGTGACTCGTGC +ACGTCAGGAAGGTCAGGACGTTACTTGTGAATCCTGCCCGCATTACTTTGTACTGGATACCGATCAGTTC +GAAGAAATCGGTACTCTGGCGAAGTGTTCACCGCCGATCCGCGATCTGGAAAACCAGAAAGGCATGTGGG +AAAAACTGTTTAACGGTGAAATCGACTGCCTGGTTTCCGACCACTCTCCATGCCCGCCGGAAATGAAAGC +CGGTAACATCATGAAAGCATGGGGCGGTATCGCCGGTCTGCAAAGCTGCATGGACGTGATGTTCGATGAA +GCGGTACAGAAACGCGGTATGTCTCTGCCAATGTTCGGCAAATTAATGGCGACTAACGCAGCAGATATTT +TCGGTCTGCAGCAAAAAGGCCGTATCGCCCCAGGAAAAGATGCCGACTTCGTCTTCATTCAGCCGAATAG +CAGCTATGTTCTTACCAATGACGATCTGGAATATCGCCACAAAGTCAGCCCGTATGTTGGCCGTACCATT +GGCGCGCGTATCACGAAAACCATCTTACGTGGTGATGTGATTTACGACATTGAACAGGGCTTCCCTGTTG +CGCCGAAAGGTCAATTTATCCTTAAACATCAGCAGTAATCTGGCCCCTGCAATGCCCGTCCTTGCGGCGG +GCATTCTCCGGTTAAGGTGTGTTTATGTTCAATTTTGCAGTCAGCCGCGAAAGCCTGTTATCAGGATTTC +AGTGGTTTTTCTTTATTTTTTGCAACACGGTTGTGGTTCCTCCTACGCTACTTTCTGCTTTTCAGTTGCC +GCAAAGTAGCCTGCTTACGCTCACGCAATATGCTTTTCTTGCTACCGCACTGGCCTGCTTCGCTCAGGCG +TTTTGCGGTCATCGTCGCGCTATTATGGAAGGGCCAGGTGGCCTGTGGTGGGGAACCATCCTTACTATCA +CCCTTGGTGAAGCATCGCGCGGGACACCGATCAACGATATCGCCACCAGCCTGGCAGTGGGGATTGCACT +CTCCGGCGTGCTGACGATGTTGATTGGTTTTAGCGGATTAGGCCATCGCCTGGCACGGTTATTTACGCCG +TCGGTGATGGTCTTGTTTATGTTGATGCTGGGCGCGCAGCTGACCACTATCTTTTTCAAAGGTATGCTCG +GGCTGCCGTTTGGCATAGCCGACCCGAATTTTAAAATTCAGTTACCGCCGTTCGCGCTCTCGGTGGCGGT +GATGTGCCTGGTACTGGCGATGATTATCTTCCTGCCGCAACGTTTTGCCCGTTATGGCCTGCTGGTCGGC +ACCATAACCGGCTGGTTGTTGTGGTACTTTTGCTTTCCTTCTTCGCACTCGCTCTCCGGTGAGTTGCACT +GGCAGTGGTTCCCGCTCGGCAGTGGCGGTGCTTTGTCGCCGGGAATTATTCTGACGGCGGTGATTACAGG +TCTGGTAAATATCAGCAATACCTACGGTGCGATTCGGGGCACGGATGTTTTTTATCCGCAGCAGGGCGCA +GGGAATACGCGTTATCGTCGTAGCTTTGTGGCGACCGGATTTATGACGCTGATAACCGTACCGCTGGCGG +TAATTCCATTTTCACCGTTTGTTTCATCCATTGGTTTATTAACCCAGACTGGCGATTACACGCGGCGTTC +GTTTATTTATGGCAGCGTTATTTGCCTGCTGGTGGCGCTGGTTCCTGCACTCACGCGACTGTTTTGCAGT +ATCCCTTTACCCGTGAGTAGTGCGGTCATGCTGGTTTCTTATCTGCCTTTACTCTTTTCCGCGCTGGTGT +TTAGCCAGCAAATAACGTTTACCGCTCGCAATATTTATCGACTCGCATTGCCGTTATTTGTCGGCATATT +TTTAATGGCATTACCGCCTGTGTATCTGCAAGACCTTCCATTAACGCTTCGTCCTCTGCTCAGTAACGGC +TTATTGGTCGGGATTTTACTGGCTGTTCTTATGGATAACCTTATTCCGTGGGAACGCATCGAATAATTTG +TTGAAAAAGGATTGATAATGAAGATTGTCATTGCGCCAGACTCTTTTAAAGAGAGCTTAAGTGCAGAAAA +ATGTTGTCAGGCAATTAAAGCCGGGTTTTCGACCCTCTTTCCCGATGCGAACTATATCTGTTTGCCGATA +GCGGATGGCGGCGAAGGGACGGTGGATGCGATGGTCGCCGCGACGGGCGGCAACATCGTGACGCTTGAAG +TCTGCGGGCCGATGGGCGAAAAAGTGAATGCTTTTTATGGCCTTACCGGCGACGGGAAAACGGCGGTGAT +TGAGATGGCGGCAGCAAGTGGCCTGATGCTGGTCGCGCCTGAAAAGCGTAATCCGTTGCTGGCCTCCAGT +TTTGGTACGGGGGAGTTAATTCGTCATGCGCTGGATAACGACATTCGCCATATTATTCTCGGCATTGGCG +GCAGTGCGACGGTCGACGGCGGTATGGGCATGGCGCAGGCGCTCGGTGTGCGTTTCCTTGATGCCGACGG +TCAGGCGCTGGCGGCAAACGGTGGTAATTTAGCGCGCGTGGCAAGCATTGAGATGGATGAATGCGATCCG +CGTCTGGCGAATTGCCATATTGAAGTAGCATGTGACGTTGATAACCCGCTGGTAGGGGCACGCGGCGCGG +CGGCGGTGTTTGGCCCGCAAAAAGGGGCAACGCCGGAGATGGTCGAAGAACTTGAACAGGGGCTGCAAAA +TTACGCCCGTGTTTTACAACAGCAAACTGAAATTAATGTCTGCCAGATGGCGGGCGGCGGCGCTGCGGGC +GGTATGGGTATTGCGGCGGCGGTATTTCTCAATGCGGATATTAAACCGGGCATTGAAATTGTGTTGAATG +CGGTCAATCTTGCGCAGGCAGTGCAGGGCGCAGCACTGGTGATTACCGGGGAAGGGCGCATCGACTCGCA +AACGGCAGGCGGTAAAGCGCCGCTGGGTGTGGCGTCGGTGGCGAAGCAGTTTAATGTACCGGTGATTGGG +ATTGCTGGCGTATTGGGTGATGGCGTGGAAGTGGTGCACCAGTACGGCATTGACGCGGTATTCAGCATTT +TGCCTCGTCTGGCACCTTTAGCCGAAGTGCTCGCCAGCGGTGAAACCAATCTCTTCAACAGCGCGCGAAA +TATTGCCTGCGCCATTAAAATAGGTCAGGGAATTAAAAACTAACCCTTACCTTTAAAGCGGATGCGATTT +ATATCGCATAAGAGTGCAGTACTCATGCCGGATGCGGCATGAGTACCATATCCTTCCTGAAAATCGCGCA +AATTCTATATATTGCAGAGATCATGTAGGCCTGATAAGCGAAGCGCATCAGGCAATGTTACAAAAAAAGC +CACGGTATAAACCGTGGCAAAATCCAACATAGCTAAAAATAATCAGGCGAGTGGTATGACTTAAATCTCT +ACGTCGCGGTTACAATCTTTCGAGTAAATATAGCTGAACGCTTCACCACGCCCTACACCATAACCAGCCT +GTAAAGAATAAGCGCCCATAAAGATGTAATCGCCTTTTTTCACCGGGATCCAGTTATTGTCGAGGTTATA +AACCCCCTGACCGGAAAGAATATAGGCACCGTGTTCCTGAACGTGTGTTTCGATATAACCGTGGCTGGCA +CCTGGTGCAAAAGAGAGGATATGCATGTTCATATCAAAACCTAACTCTTTGGGCAGAAAATCCAGCAGAA +TAACATCGTCCATGCCTTCATAATGAATGCGTTCCAGTTCGCTGGCATTGCCAGAAACCAGCCACGGTGC +ATAGCCTTCTACCGGAACATAGCGGCGCTTATATAAAAAGATTTGGCTGTCTTCGGCCTGGGCGTTAACA +AACGTCATTAAGGAGCCTGGCGGGCAATAAAGATAGCCACCTTCGCTTAAGGCAAATGTTTTGCCTTCGG +CTTTGGCAGTGATATTTCCAGAGATCACATACAGGAACGTTTCAATGCCTTCGCCACCGAAGCCCTGTTG +GTTGCCACCGTTTTGATGCAGTGTGACCAGATAATCAACAAAAGAGGCACCCAGCTTTGGCGTGGAGAGG +ATTGTCGCGTCACAATTTTCAAAGCCCGGAATAATATTTTTTACCAGACCATCCGGGGTTAACAGTGCGA +AATTACCGTGTTTAACAATCGCACGGTTAGCCAGTAAATCTTCGCGGTAACCGGTGACGTTATTTAAATA +TCCCATTTATGACTCCTTATTTCTGCCAGGCAAGTTGATAAAGCATGAGTGCCAACGTTTTGACCCCTTC +GGCAAGGTCGGTAATATTGGTGCGTTCCGCCGGGTTATGGCTGATCCCGTTGATGCTGGGGATAAAAATC +ATGCAGGTTGGTACGCGAGGCGCGAAAATTTGCGCGTCGTGCCCGGCACCACTGTGCATCACCCGGTAAT +TCAGTTTTTCTCTTTCACACAATTCTGTCAGGGTGGCGACCAGCTCCTTATTCATCGGCACGGGTTCTTC +GTCCATCCATAAATCGATATCAATACCAATGTCCATTTCATCGCAAATCGCCCGCATGTCGTTTTCTAAC +TGTTGGGTGAAATCGCGCAGCACGGCAGCGTCGGTATGACGACAATCAATGGTGAACGTGGTTTTACCCG +GCACCACATTTACCGTATTCGGGCGCGGCTCTACTTTGCCAAAGGTCAGAACCAGCGGATCGCCCATCCT +TTTCGCTTTTTCGACCGACTGATGGCAAATGCGACTGAAAGCGTAAACTGTATCACGACGATAACCCATC +GGCGTGGTGCCTGCATGGTTTGATTCGCCGTTCAGCGTTACCGTATAACGACGCTGCCCGACAATTGCAT +TCACCACGCCAATTGATTGCCCATTACTTTCCAGCACACAGCCCTGTTCAATATGCAGTTCAACAAAGGC +TTTAATATCCTGACGCGGAGTTAGTGGGGCGTTCGGAAGAGTAAATCCGCAAGCCTTCATCGCATCGACA +AAACTATTTCCTTTGGCATCACAGATATTCCGCACGTCGTCAGGATTCGCCAGCCCAAAAATATTTTTAC +TGCCCCAGAAGACATACGGGAAGCGGCTGCCTTCTTCTTCTGCCATCGCCACCACTTCGACCGTACGTAG +CGGCGCGCCGTATTGCGTTTTCAGCCAGTCAATTGCCAGCCACGCCGCCAGCGCGCCGAATTGCCCGTCA +AGGTTACCGCCGTTAACCACGGTATCGATATGCGAACCGCTCAGAACCACTTCCTGTGGATATTCGGTGC +CATTCAGGCGACCGTATAAATTCCCCACTTCATCGAAACGTGTTTCCAGCCCGCTTGCTGCCATTCTTTT +TTTAAATTGCTGCTGGGTTTCCAGCCATTCCGGCGAATAAAGTAAACGGGTCATCCCACCCGCTGGGTCA +GCGCCAAAAGAGGAAAGCCAGGGCAGCGTTTCTTCTATAGCTTGACGGAAATGTGTAATCATAAGAAAGT +CCTGTCTCAATAATTATTGCGCAAAGGGATTTTTCGTTTCGTATGACGTGTTATAAAGCGCGTCGGAAAT +TAAATACTGGTAAATATCATCAACAATTTCGATGCCTTCGACGGCGGCTTTGCGTTGTTTAATATCCTGA +TCCTGTCCGGGATAATAAACCTGATTAAAACCGGGCGCGGGGGTAATGGCATTTAATTCGCGCATGGTCT +GGCTAAGATGTTGACGGAATAATTCGCTGGAGGAGAAAAAGTTCGGATTAATAACTATATGTAATTGCCC +CAAATTACGCCCTGCGTGTAAATCGTCATACATCGAACTAACCTGTCGCCCGAACGGTAAGCCGAGTAAG +ACGCCTGAGAGGACGTCAATCATCATCATCAGGCCATACCCTTTTGGCCCGGCGGCGGGGAGCAGAGCAT +GTACCGCGAACGGATCGGTTGTTGGTACACCGTTTTTATCGACCGCCCAGGTATCCGGGATAGACATATT +ACGCGAGCGGGCGTCGAGCACTTTTCCCCATGCCTGTACGGTAGTCGCCATATCAAAGGTAAGGATCTCG +TCGCCTTCTCCCGGCGCGGCAAAGGCCAGGGGGTTAGTACCGTAGTAAATTTCCGCGCCGCCAAACGGCA +CCACCATTGGATCGGACTGGCACATCGAAATGCCAATGAATCCGGCGCGGGCTGCCTGCTGCACAAAATA +AGAGATTGCGCCGCTGTGACCCATCCGGCTGATACCGACCACCGCAACGCCATTTTGCTGGGCGGTTTTG +ATGGCATGTTCCATACCCATTTTCGCCGCGACCTGTCCGGCGGCATTGTCGGCATGTAAAATTGCCGAGC +ACGGCCCGGTTTCCTCAAGACGAAACTCCGGTTCGCGGTTGGTGCCGCCTTTTGAAATGCGTTCCGCGTA +GTATTCCACGCGCACCGCGCCATGAGAGTGGATCCCTCTGGCATCGGCGTAAACCAATACTTCAGCCACG +GTTGCAGCGTGCTCACGTTTTAACCCAGCCTGGCAGAGTTTATTCTCAATTAGCTGGTGGAGTGTTTCCC +GACTGATTTTCATCTGTCTTCCTTTTTAACGACGGTGTGAAGCATGACTGCAATTAACATACAGGGAAAA +TATCTGGATTATGTGATCCAGACAGGCAAAAAAATATAGTTAGAATTTATTTGATAATCCGCTCACTTTT +AACCTGATTTTTAAAACAACAACGCTTATTAAAAAATAATGAGTAATAGCCTGGTGGTTATTTGAATTCT +TTTGTTAATAATTCCTGTGTGATATTCATCACCTTATTTACTCGTTGTCATCGATACCGTAATCGCCACA +TTAACACTGCTCGTGCAATTGCCATGGGTGCAATTTTTAAGGAGTTGTTATGATCCACGCCTTTATTAAA +AAAGGGTGTTTTCAGGATTCGGTCAGTTTAATGATTATTTCACGAAAACTCAGCGAATCAGAAAATGTTG +ATGATGTTTCCGTAATGATGGGTACGCCCGCCAATAAAGCGTTATTAGATACCACAGGTTTCTGGCATGA +CGATTTTAATAACGCCACGCCGAACGATATTTGCGTGGCAATTCGTAGCGAAGCGGCGGATGCGGGGATC +GCGCAGGCGATTATGCAGCAGCTTGAAGAGGCGCTAAAACAACTGGCGCAGGGGTCAGGCAGCAGCCAGG +CGTTGACGCAGGTGCGTCGCTGGGACAGTGCCTGTCAGAAATTACCCGATGCCAATCTGGCGCTGATTTC +AGTGGCTGGCGAGTATGCGGCGGAGCTGGCAAACCAGGCGCTGGATCGCAACCTCAACGTGATGATGTTC +TCCGATAACGTCACGCTGGAAGATGAAATCCAACTTAAAACCCGCGCGCGGGAAAAAGGCTTGCTGGTGA +TGGGGCCGGACTGCGGTACGTCGATGATTGCCGGCACACCGCTGGCTTTTGCTAACGTGATGCCGGAAGG +CAATATTGGCGTCATTGGCGCTTCCGGTACCGGGATTCAGGAGCTGTGTTCGCAGATTGCGCTGGCAGGG +GAGGGAATTACTCACGCGATTGGCCTTGGCGGGCGCGACCTCAGCCGTGAAGTGGGCGGCATCAGTGCGC +TAACAGCGCTGGAAATGCTCAGTGCAGACGAGAAAAGCGAAGTGCTGGCATTTGTTTCAAAACCACCTGC +CGAAGCTGTGCGTCTGAAAATTGTTAATGCCATGAAAGCAACCGGCAAACCGACGGTGGCGCTGTTTTTA +GGTTATACCCCGGCGGTGGCCCGCGACGAGAATGTCTGGTTTGCCTCCTCGCTGGATGAGGCCGCACGCC +TGGCTTGCCTGCTTTCACGCGTCACGGCGCGACGTAACGCAATAGCGCCTGTCAGCAGCGGATTTATTTG +CGGTTTGTATACCGGCGGTACGCTGGCTGCCGAAGCGGCGGGATTACTTGCCGGACACCTTGGCGTGGAA +GCCGACGATACCCATCAACATGGCATGATGCTGGACGCCGATAGCCACCAGATTATTGACCTCGGCGATG +ATTTCTACACCGTCGGGCGTCCCCATCCGATGATCGACCCAACCTTACGCAACCAGTTAATTGCCGATCT +CGGCGCTAAACCGCAAGTGCGCGTGTTGCTGCTTGATGTCGTGATTGGCTTCGGTGCGACCGCCGATCCT +GCCGCCTCGCTGGTGAGCGCCTGGCAAAAAGCCTGTGCCGCGCGTTTAGATAATCAACCACTGTATGCCA +TTGCCACGGTGACAGGCACTGAACGTGACCCGCAATGCCGCTCGCAGCAAATCGCCACGCTGGAAGATGC +GGGGATTGCGGTCGTGAGTTCGCTACCGGAAGCCACCTTGCTGGCGGCAGCGTTAATTCATCCGCTCTCG +CCTGCCGCACAGCAACACACACCGTCATTACTGGAAAACGTCGCCGTGATTAACATCGGATTACGCAGCT +TTGCGCTGGAGCTACAAAGCGCCAGCAAACCGGTTGTGCATTACCAATGGTCGCCAGTCGCCGGTGGCAA +TAAAAAACTGGCTCGTTTATTAGAACGTTTGCAATAAGGGGTTCCCATGTTTACATCAGTGGCGCAAGCC +AATGCTGCGGTTATCGAACAAATTCGTCGCGCTCGTCCACACTGGCTGGATGTGCAACCGGCTTCTTCAC +TTATCAGCGAACTAAACGAGGGCAAAACACTGCTTCACGCCGGGCCGCCAATGCGCTGGCAGGAGATGAC +CGGACCCATGAAAGGGGCGTGCGTGGGCGCATGTCTGTTCGAAGGTTGGGCGAAAGATGAAGCGCAGGCG +CTGGCAATACTGGAGCAGGGGGAAGTGAACTTCATTCCTTGTCACCATGTGAATGCCGTCGGGCCAATGG +GCGGTATTACTTCTGCCAGTATGCCGATGCTGGTGGTTGAGAACGTGACCGACGGCAACCGGGCGTACTG +CAACCTCAACGAAGGTATCGGCAAAGTGATGCGTTTTGGCGCTTACGGCGAAGATGTCCTGACTCGCCAT +CGCTGGATGCGCGATGTGTTAATGCCAGTATTAAGCGCGGCGCTGGGGCGCATGGAGCGCGGTATCGATC +TCACGGCGATGATGGCGCAGGGCATTACGATGGGCGATGAGTTCCATCAACGCAATATTGCTTCCTCTGC +ACTGTTAATGCGTGCGCTGGCCCCACAAATTGCTCGCCTCGATCATGATAAACAGCACATCGCCGAAGTG +ATGGATTTCCTCAGCGTGACCGATCAGTTCTTCCTCAACCTCGCGATGGCTTACTGCAAGGCGGCGATGG +ATGCTGGCGCGATGATCCGCGCAGGCAGCATCGTCACGGCAATGACCCGCAACGGCAATATGTTCGGGAT +TCGGGTAAGCGGGCTGGGCGAACGCTGGTTTACTGCGCCTGTAAACACTCCGCAAGGTCTGTTTTTCACC +GGCTTCTCGCAGGAGCAGGCGAACCCGGATATGGGCGATAGCGCGATTACCGAAACCTTTGGTATCGGAG +GTGCGGCAATGATCGCAGCGCCTGGCGTAACGCGCTTTGTCGGTGCGGGTGGCATGGAAGCGGCAAGAGC +GGTATCTGAAGAGATGGCGGAAATTTACCTTGAACGCAATATGCAGTTGCAGATCCCAAGCTGGGATTTT +CAGGGCGCGTGCCTGGGGCTGGACATTCGTCGCGTGGTAGAAACCGGCATTACGCCACTCATCAATACCG +GTATCGCCCATAAAGAGGCGGGGATCGGGCAGATTGGCGCAGGCACCGTGCGGGCACCGCTGGCGTGCTT +TGAACAGGCGCTGGAAGCACTGGCTGAAAGCATGGGTATTGGTTGAGGAACGCGCAATGACGATCATCCA +TCCTCTGCTTGCCAGTAGTAGCGCACCGAATTATCGCCAGTCCTGGCGGTTAGCGGGAGTGTGGCGGCGG +GCGATTAACCTGATGACGGAAAGCGGCGAACTGTTAACGTTGCATCGTCAGGGTAGTGGTTTCGGCCCCG +GAGGATGGGTGCTTCGCCGTGCGCAATTCGATGCGTTATGCGGTGGATTATGCGGCAATGAACGACCACA +GGTTGTGGCTCAAGGGATTCGCCTCGGGCGTTTCACGGTTAAACAGCCACAGCGTTATTGTTTGCTGCGT +ATTACGCCGCCTGCGCATCCTCAACCACTTGCAGCTGCATGGATGCAACGCGCGGAGGAAACCGGGCTTT +TCGGGCCACTGGCGTTGGCGGCAAGCGATCCGCTGCCTGCTGAGTTACGCCAGTTTCGTCACTGTTTTCA +GGCCGCGCTCAATGGCGTTAAGACCGACTGGCGGCACTGGCTGGGTAAAGGCCCCGGATTAACGCCGAGT +CATGATGACACGCTGAGCGGAATGCTGCTGGCGGCCTGGTATTATGGCGCTTTAGATGCGCGCTCCGGTC +GTCCGTTTTTTGCCTGTTCCGACAATCTGCAACTCGTTACCACAGCGGTGAGCGTCAGTTATTTACGTTA +TGCCGCGCAAGGATATTTCGCCTCGCCACTCCTGCACTTTGTTCATGCTCTGAGTTGCCCGAAACGTACC +GCTGTTGCGATTGATTCGCTGCTGGCGCTGGGGCATACGTCAGGGGCAGATACGCTGCTGGGGTTCTGGC +TTGGCCAACAATTATTACAAGGAAAACCATGAAAACACTGGTTGTGGCTCTTGGGGGCAACGCCTTACTC +CAGCGCGGTGAGGCGCTGACGGCAGAAAATCAATATCGCAATATCGCCAGTGCTGTACCCGCGCTGGCAC +GCCTGGCCCGTTCTTATCGGTTGGCGATTGTTCACGGCAACGGGCCGCAGGTGGGGCTGCTGGCATTGCA +GAATCTGGCGTGGAAAGAGGTAGAACCGTATCCGCTGGATGTGCTGGTTGCGGAAAGCCAGGGGATGATT +GGCTATATGCTGGCGCAGAGTTTGAGCGCACAGCCGCAGATGCCGCCCGTGACGACGGTGCTGACGCGCA +TTGAGGTTTCGCCTGATGATCCGGCGTTTTTGCAGCCAGAGAAATTTATTGGTCCGGTTTATCAGCCAGA +AGAACAAGAGGCACTGGAAGCGGCTTACGGCTGGCAGATGAAACGTGATGGTAAATATTTGCGCCGGGTG +GTGGCGTCTCCGCAACCGCGTAAAATTCTCGACAGCGAAGCCATCGAGTTGTTGCTCAAAGAGGGGCATG +TGGTGATTTGCAGTGGCGGCGGCGGTGTGCCTGTGACGGATGACGGAGCAGGGAGTGAAGCAGTGATTGA +TAAAGATCTCGCCGCTGCGTTGCTCGCCGAGCAGATTAATGCAGATGGACTGGTGATCCTCACCGATGCT +GATGCGGTATATGAAAACTGGGGAACGCCGCAGCAACGTGCCATTCGCCATGCCACACCGGATGAGTTAG +CGCCATTTGCCAAAGCCGATGGTTCGATGGGGCCGAATGTAACGGCGGTGAGTGGTTATGTCAGAAGCCG +TGGTAAACCCGCGTGGATTGGGGCGTTATCGCGAATTGAAGAGACGCTGGCGGGCGAAGCGGGGACCTGT +ATTTCGCTGTAGTCGTAGGCATTAGACATTTGTGCCTGATGCGACGCTTGACGCGTCTTATCAGGCCTAC +AACCGGTGCCGCATCCGGCAATTGGTGCACAATGCCTGATGCGATGCTTGACGCATCTTATCAGGCCTAC +AATGGGTACCGGATCGGTAGGCCGGATAAGGCGTTTACGCCGCATCCGGCAAGAATAGAGCACCAGTTAA +CCGAACTTACTCTGCGCCCAAATCACGCCGCTGGCATATTCCGGCGGCAGCAGCGGGATTAAGGCTTCCA +GCGTCGCAGTCAGACGCGATGTGTCGCTGTCGGTCAAATTCAGATGCCCCACTTTACGCCCCGGACGGAC +TTCTTTGTCGTACCAGTGCAGATGCACCAGCGGCAGTTTCAGCCAGTCATAATTCACATCGCTACCAATC +AGATTGATCATCACCGACGGATTATTCACCACTGGTTGCGGTAACGGCAGATCGGTAATCGCCCGCAGAT +GCAGCTCAAACTGGCTGATGCTGGCACCGTTTTGTGTCCAGTGACCGCTGTTATGCACACGCGGTGCCAG +TTCGTTGATCAACAGACCTTGCGGGGTGACAAAACACTCCATCGCCATCACGCCCACATAGCCCAGCTCC +TGCATAATCGCCGACAGCATCTCTTCGGCTTGCGCCTGCTGCTGTGCGTTGGCCTGCGGAAAAGCGACGC +TGGTGCGCAAAATACCGTCCTGATGCAGGTTATGCGTCAGCGGATAAAACACGGTGCTGCCATCAAAGCC +GCGCGCGCCAACCAGCGACACTTCACCAGAGAAGTTAATGCCCTGCTCGACAATACATTCGCCGTAACAC +TCTGCCGGTAACTGTTCGGTTTCATTTGCGCGTAAACGCCATTGACCGCGACCGTCATAACCACCAGTGC +GACGCTTAACAATCGCCAGCTCACCTAAACGATCAAACACCGCAGGCCACTCGCTGCGTTCGGCAAGTAA +CTGCCACGGTGCAGTCGGCAGGTGGAGCTTATCGAAAAGCTGCTTCTGAGTCAGACGGTCAGCAATAATC +GGGAACACATCGCGGTTCACAAAGGCCGGATGGCGCGCCAGCTCGCGGGTTAATGCGGTTTCCGGCCAGC +GTTCTATCTCAGCGGTAATCACGCTTTGTTGAAAAGGCACCGCCGCCGGTTCAGCGTCCAGCCCGACTGG +CCAGACAGCAATGCCTAACGGTTCGCCTGCCTGACGCAGCATACGGCCTAACTGCCCGTTACCGAGGACG +CAAACCTGTTTCATGCCGCACCTCGCGGGTCCGGGTTTTCCAGCACTTCGTCGGTCTGGGCTTTGCGCCA +GTCATTCAGACGCTGGTGCAGTTCTTTATCATGAGTCGCAAGAATTTGTGCTGCCAGTAACGCCGCGTTT +GCCGCGCCAGCTTTACCAATCGCCAGCGTACCCACCGGAATGCCGCGCGGCATTTGTACGATGGAGTAGA +GGCTATCGACACCGCTCAGTGCGGCGCTCTGTACTGGCACGCCCAGCACCGGCACCAGCGTTTTGGCGGC +AATCATGCCTGGCAGATGCGCTGCGCCGCCTGCGCCCGCAATAATCACCTGATAACCGTTCTCTTCGGCG +CTTTCGGCGAAGCTGAACAGTTTATCGGGGGTGCGGTGAGCAGAAACCACTTCAACGTGGTGCGGGACAT +TCAGGATTTCGAAGATTTCGGCGGCGAACTGCATGGTAGCCCAGTCGCTTTTGGACCCCATCACGATGGC +GACACGCGCCGGATTATTGCGGGAAGACATGCGTCTTAAAACTCCTGTGGTGCACAACTCTCGGCTTTAG +AGGGCACAGAGAATAGCACGGAAAGAGAGCAAGGAAAACGGTTGCGTGGCTGTGAAATCAGCAAAGTTGC +GGGTTTTTTAAAACGGAAAATGAATCAGCTCAACGTCATCCGCCGTGACTTTCACCATTGAACCTTCCGT +ATGCCAGGCACCCAGTACCACGCGAAAAGCAGGTTGCTGATTGGCGATAAGTTCATGCACCGCCGGGCGA +TGGGTATGCCCGTGGATCAGCCATTGCACCTGATGTTTTTCCATCGCACTGACCACCGCGTTTTGGTTAA +CGTCCATGATCGCCAGCGATTTACTGCTGTTGGCTTCTTTGCTGTTCGCGCGCATTCGCGCGGCAATGCG +TTTGCGCACAAACAACGGCAGGGCGAGGAATAGCGTCTGCAGCCAGGGTTTGTGGACCTTGGCGCGAAAA +GCCTGATAACCCGCGTCATCGGTGCACAGCGTGTCGCCATGCATAATCAACACCCGGCGACCATAAAGTT +CGAGCACCTTTTCTTCCGGCAATAACGTCATGCCACTTTCACGGGCAAAGCGTTTGCCGAGCAGAAAATC +ACGGTTGCCATGAATGAAATAACAGGGAACGCCGGAATCGGACACCGCTTTGATCGCCGCCGCCATCTTG +CGATGGAGTGGGTTGGGATCGTCGTCGCCAATCCATGCTTCAAACAGATCGCCAAGAATATACAGCGCGT +CGGCCTTGCGGGCTTCCCCCGCTAAAAAACGCAGAAAACCGGCGGTGATCGCCGGTTCTTCCACGCAGAG +ATGAAGATCTGCAATAAAGAGTGTCGCCACGATTACTCGCTAACGGTCACGCTTTCAATGATAACGTCTT +CTTTTGGCACGTCCTGGTGCATACCGCTACGACCGGTTGCAACACCTTTGATTTTGTCTACCACGTCCAT +GCCGTCAACCACTTCAGCAAACACGCAGTAGCCCCAACCTTGCAGGCTTTCGCCAGAGAAGTTCAGGAAG +TCGTTATCAACCACGTTGATGAAGAACTGTGCAGTTGCAGAGTGCGGAGCCTGAGTACGTGCCATTGCCA +GCGTACCACGGGTATTTTTCAGGCCGTTGTTGGCTTCGTTTTTGATCGGTTCTTTGGTGGCTTTTTGTTT +CATGCCCGGTTCAAAACCGCCGCCCTGAATCATAAAGCCGTTGATAACACGGTGGAAAATGGTGTTGTTG +TAAAAACCTTCGCGGCAGTAGTCCAGGAAGTTTTTAACTGTTTCAGGTGCTTTATCGTCAAAAGTTTTGA +TGACAATATCGCCGTGATTGGTGTGGAAAGTAACCATTTTTGCATCCTGTTCCGTTTGATTGGTGCTTCA +ACCCAGTTCGGGTCATATATAGGGTGGTGTTATAGCATAACCGCACGATCGGATCATCACGCAATGTATG +CTGATTCGCGCGGGAAATATGGGTATTATACGCAACTCAATTACCCACACATGTCTAAACGGAATCTTCG +ATGCTAAAAATCTTCAATACTCTGACACGCCAAAAAGAGGAATTTAAGCCTATTCACGCCGGGGAAGTCG +GCATGTACGTGTGTGGAATCACCGTTTACGATCTCTGTCATATCGGTCACGGGCGTACCTTTGTTGCTTT +TGACGTGGTTGCGCGCTATCTGCGTTTCCTCGGCTATAAACTGAAGTATGTGCGCAACATTACCGATATC +GACGACAAAATCATCAAACGCGCCAATGAAAATGGCGAAAGCTTTGTGGCGATGGTGGATCGCATGATCG +CCGAAATGCACAAAGATTTTGATGCTTTGAACATTCTGCGCCCGGATATGGAGCCGCGCGCGACGCACCA +TATCGCAGAAATTATTGAACTCACTGAACAACTGATCGCCAAAGGTCACGCTTATGTGGCGGACAACGGC +GACGTGATGTTCGACGTCCCGACCGATCCAACTTATGGCGTGCTGTCGCGTCAGGATCTCGACCAGCTGC +AGGCAGGCGCGCGCGTTGACGTGGTCGACGACAAACGCAACCCAATGGACTTCGTTCTGTGGAAGATGTC +GAAAGAGGGCGAACCGAGCTGGCCGTCTCCGTGGGGCGCGGGTCGTCCTGGCTGGCACATTGAATGTTCG +GCAATGAACTGCAAGCAGCTGGGTAACCACTTTGATATCCACGGCGGCGGTTCAGACCTGATGTTCCCGC +ACCACGAAAACGAAATCGCGCAGTCCACCTGTGCCCATGATGGTCAGTATGTGAACTACTGGATGCACTC +GGGGATGGTGATGGTTGACCGCGAGAAGATGTCCAAATCGCTGGGTAACTTCTTTACCGTGCGCGATGTG +CTGAAATACTACGACGCGGAAACCGTGCGTTACTTCCTGATGTCGGGCCACTATCGCAGCCAGTTGAACT +ACAGCGAAGAGAACCTGAAGCAGGCGCGTGCGGCGCTGGAGCGTCTCTACACTGCGCTGCGCGGCACAGA +TAAAACCGTTGCGCCTGCCGGTGGCGAAGCGTTTGAAGCGCGCTTTATTGAAGCGATGGACGACGATTTC +AACACCCCGGAAGCCTATTCCGTACTGTTTGATATGGCGCGTGAAGTAAACCGTCTGAAAGCAGAAGATA +TGGCAGCGGCGAATGCAATGGCATCTCACCTGCGTAAACTTTCCGCTGTATTGGGCCTGCTGGAGCAAGA +ACCGGAAGCGTTCCTGCAAAGCGGCGCGCAGGCAGACGACAGCGAAGTGGCTGAGATTGAAGCGTTAATT +CAACAGCGTCTGGATGCCCGTAAAGCGAAAGACTGGGCGGCGGCGGATGCGGCGCGTGATCGTCTTAACG +AGATGGGGATCGTGCTGGAAGATGGCCCGCAAGGGACCACCTGGCGTCGTAAGTAATTGCGCTATTGCCG +GATGCGAGTTTTCGCATCCGGTTATCGTCTGCGCCACCACAACATTCCCATCAGTAGCATCCCCGGCAAC +CACACCCACATCAATTCAGAAATAATCACCTGATGCCCGTACGGCGTGGTGTAACGAGACAATGCAAACG +GCGCGACTTTTATCACCTGCCAGGGAGCGAAAAAGCGTTCATCTGACCACGGCCACAGCCAGCCAACGCC +TTTACCGCCAGTGGTTACCGAATCCAGCAAGCTGTGCGATAGCAACGAGACGGTTAAAAACAGCCAGCAG +CGAATCAGCCCAGCCCTGAACCATCGGCGTCCAATAAACACACATAACAGCGGGACAACAAACGCAAACA +CCAGCGAATGGGTAAACCCGCGATGACCAAAAACATTGCCGTAAGCAACGCCAAATTTAAACGACAATAC +GTCGGCGTCGGGCAGCATCGCCAGGATGATTCCGGCAAATAACAGACGCGGAGGGATGACTTTCGAACCC +AACCCTAAACCAATGCATAGGGGAACGGCGGCGTGCGTAATAACGGTTGGCATGATGGTCGCTTCGGCAA +AATGTCGATGCTATCAGCATGGATGAACGGGGCGTAGAGGGCAAAAGTCTGAAAAGAGAACCGGCCTGTT +GATACAGGCCGGGAAAGGGATCAGGCAACAACCTGTACGCTGTGACCTGCAAAACTCACTGTCTGACCGG +CGACGATTTTGCAGCGTTTGCGCGTTTCAACCGCACCGTCGACTTTCACCTGGCCTTCGGCAATCGCGAT +TTTCGCCTGCGCGCCGCTTTCGCTCCAGCCTTCCAGTTTCAGCAAGTCGCACAGCTCAACGTGCGGATGT +TTACCTAAAGAAAATGTCGCCATGTTACTCATCCTGTGGATCATGATATTCAACGCACGCCTGTAGCGTG +TTTTCAATCAGCGTGGCAACCGTCATCGGGCCAACGCCGCCGGGAACAGGCGTAATGTATGAGGCGCGTT +TAGCCGCGTCTTCAAACACGACGTCGCCCACAACTTTGCCATTTTCCAGACGGTTGATGCCGACATCAAT +CACAATTGCGCCTTCTTTGATCCAGTCACCGGGAATAAAGCCTGGCTTGCCAACGGCAACGATCAATAGA +TCGGCATTTTCTACGTGATGACGCAGATTTTTAGTGAAGCGGTGAGTCACTGTAGTGGTGCAACCTGCCA +GCAGCAGTTCCATGCTCATCGGGCGGCCAACGATATTCGATGCGCCAATCACCACGGCGTTGAGGCCGAA +GGTATCAATGTTGTAACGCTCAAGCAGCGTGACGATACCGCGCGGGGTGCAGGGACGCAGACGCGGCGCG +CGCTGGCACAGACGACCGACGTTGTAAGGATGGAAACCGTCCACGTCTTTGTCCGGATGAATACGTTCCA +GCACTTTGACGTTATCAATACCCGCCGGTAACGGCAGTTGAACCAGAATGCCATCGATGGTGTTGTCGGC +ATTCAGCGTATCGATAAGCTCCAGCAGCTCCGCTTCGCTGGTGGTTTCCGGGAGGTCATAAGAGCGGGAG +ACGAACCCGACTTCTTCACAAGCCTTGCGTTTGCTTGCGACATAAATTTGCGATGCAGGGTTACTACCCA +CCAGCACAACGGCCAGTCCTGGTGCCCGCAGTCCGGCTGCAATACGCGCCTGAACTTTTTGAGCAACTTC +AGAGCGCACCTGCTGCGCAATCGTTTTACCGTCAATAATCTTTGCTGCCATCAGAGAGAGGATTCCATCT +GTTACGTAGATCGAAGGGGATGCGCCTATTTTGTCAGAAGCGGGGCGCGCTGTCAGGTTTCGTTTCAGAT +TTATCGCGTGAAGCGACCTCTTGCGAAGGTGAGGCGCACCGTCGCTGAGACTGAAAGCTTCATTTTTCGT +CCATGATGGCGTTGTAAATCTGGAACTGATTTATTTCCTTGTCTAAGGATTAAGATAATTTAAGAAATAC +CTGACAATATAAAAAGAATTTTCAGCCTGGTAATTTACCGCTTCAGGTCTATATTTGTGTTGAATATATT +TTGCGCGGAAGTATTCATCTAACGGGGCTCTCTATTTTTTAGAATAGAGTGCATATTTTCAATTAAGACA +TTCTTAGAGGATAAAAAGGAATTTACTACTATCAGTGTCTTAAATAAAGTAATCGGTTATATACGGATGT +GGAGTCGATAAATGAGATTGAAGGAATATATATGAAATTAAGATTTATTTCGTCTGCGCTGGCTGCCGCA +CTATTCGCCGCTACGGGTAGTTATGCTGCCGTTGTAGATGGCGGTACAATTCACTTTGAAGGCGAACTGG +TGAATGCTGCCTGTTCAGTGAATACTGACTCGGCAGACCAGGTTGTCACACTCGGTCAATATCGTACCGA +TATTTTCAATGCTGTTGGTAATACCTCTGCATTAATTCCATTCACCATTCAGTTGAACGACTGCGATCCT +GTTGTTGCCGCTAATGCTGCCGTTGCATTTTCTGGTCAGGCTGATGCAATCAATGATAATTTATTGGCCA +TTGCATCCAGTACCAATACAACAACAGCAACGGGTGTCGGTATTGAAATACTTGATAATACATCCGCAAT +TCTCAAACCTGATGGGAATAGCTTCTCAACCAACCAGAACTTGATCCCCGGGACCAACGTTCTTCATTTT +TCTGCACGTTATAAAGGCACCGGTACAAGTGCATCAGCAGGGCAAGCAAATGCTGACGCGACTTTTATTA +TGAGATATGAATAATCAAAACCACGTTGTTTTGAATTATATATCACGTCTTATAACAAAGTAATGTACCG +GTTGTCTGAAGCGGTATGGTGGCAATGTAAATCGAAATCATGTTCACTTTGTATCATGCCGCTTTATTAA +ATGAAAAGGGAATGATGTGTTGTAAGAAACCAAAGCAATCATTTCTTTATATTCCTTATTTTTGCCGTCA +GGAATACACAAGGCGTATTAACTATGATGACTAAAATAAAGTTATTGATGCTCATTATATTTTATTTAAT +CATTTCGGCCAGCGCCCATGCTGCCGGAGGGATCGCATTAGGTGCCACGCGTATTATTTATCCCGCTGAT +GCTAAACAGACTGCGGTATGGATTAGAAATAGCCATACCAATGAGCGCTTTCTGGTCAATTCGTGGATTG +AAAACAGCAGCGGTGTAAAAGAAAAGTCATTCATCATTACACCGCCACTGTTTGTTAGTGAACCCAAAAG +CGAAAATACTTTGCGTATTATTTACACCGGTCCACCGCTGGCAGCAGATCGTGAGTCTCTGTTCTGGATG +AATGTTAAGACGATCCCTTCGGTAGATAAAAATGCATTGAACGGCAGGAATGTTTTGCAACTGGCGATTT +TATCGCGCATGAAATTATTTCTCCGTCCAATTCAATTACAAGAATTACCCGCAGAAGCGCCGGACACACT +CAAGTTTTCGCGATCCGGTAACTATATCAATGTTCATAATCCATCACCTTTTTATGTCACCCTGGTTAAC +TTACAAGTGGGCAGCCAAAAGTTGGGGAATGCTATGGCTGCACCCAGAGTTAATTCACAAATTCCCTTAC +CCTCAGGAGTGCAGGGAAAGCTGAAATTTCAGACCGTTAATGATTATGGTTCAGTAACTCCGGTCAGAGA +AGTGAACTTAAACTAACCGAATCATCTGACAATATCAGAGCTAATTATGAAAATACCCACTACTACGGAT +ATTCCGCAGAGGTATACCTGGTGTCTGGCCGGAATTTGTTATTCATCTCTTGCCATTTTACCCTCCTTTT +TAAGCTATGCGGAAAGTTATTTCAACCCGGCATTTTTATTAGAGAATGGCACATCCGTTGCTGATTTATC +GCGCTTTGAGAGAGGTAATCATCAACCTGCGGGCGTGTATCGGGTGGATCTCTGGCGTAATGATGAGTTC +ATTGGTTCGCAGGATATCGTATTTGAATCGACAACAGAAAATACAGGTGATAAATCAGGTGGGTTAATGC +CCTGTTTTAACCAGGTACTTCTTGAACGAATTGGCCTTAATAGCAGTGCATTTCCCGAGTTAGCCCAGCA +GCAAAACAATAAATGCATCAATTTACTGAAAGCTGTACCTGATGCCACAATTAACTTTGATTTTGCAGCG +ATGCGCCTGAACATCACTATTCCTCAGATAGCGTTGTTGAGTAGCGCTCACGGTTACATTCCGCCTGAAG +AGTGGGATGAAGGTATTCCTGCTTTACTCCTGAATTATAATTTCACCGGTAACAGAGGTAATGGTAACGA +TAGCTATTTTTTTAGTGAGCTCAGCGGGATTAATATTGGCCCGTGGCGTTTACGCAACAATGGTTCCTGG +AACTATTTTCGCGGAAATGGATATCATTCAGAACAGTGGAATAATATTGGCACCTGGGTACAGCGCGCCA +TTATTCCGCTGAAAAGTGAACTGGTAATGGGAGACGGCAATACAGGAAGTGATATTTTCGATGGCGTTGG +ATTTCGTGGTGTACGGCTTTATTCTTCTGATAATATGTATCCTGATAGCCAGCAAGGGTTTGCCCCAACG +GTACGTGGGATTGCCCGTACGGCGGCCCAGCTAACGATTCGGCAAAATGGTTTTATTATCTATCAAAGCT +ATGTTTCCCCCGGCGCTTTTGAAATTACAGATTTGCACCCGACATCTTCAAATGGCGATCTGGACGTCAC +CATCGACGAGCGCGATGGCAATCAGCAGAATTACACAATTCCGTATTCAACAGTGCCAATTTTACAACGC +GAAGGGCGTTTCAAATTTGACCTGACGGCGGGCGATTTTCGTAGCGGTAATAGTCAGCAATCATCGCCTT +TCTTTTTTCAGGGTACGGCACTCGGCGGTTTACCACAGGAATTTACTGCCTACGGCGGGACGCAATTATC +TGCCAATTACACCGCCTTTTTATTAGGGCTGGGGCGCAATCTCGGGAACTGGGGCGCAGTGTCGCTGGAT +GTAACGCATGCGCGCAGTCAGTTAGCCGACGCCAGTCGTCATGAGGGGGATTCTATTCGCTTCCTCTATG +CGAAATCGATGAACACCTTCGGCACCAATTTTCAGTTAATGGGTTACCGCTATTCGACACAAGGTTTTTA +TACCCTTGATGATGTTGCGTATCGTCGAATGGAGGGGTACGAATATGATTACGACGGTGAGCATCGCGAT +GAACCGATAATCGTGAATTACCACAATTTACGCTTTAGCCGTAAAGACCGTTTGCAGTTAAATGTTTCAC +AATCACTTAATGACTTTGGCTCGCTTTATATTTCTGGTACCCATCAAAAATACTGGAATACTTCGGATTC +AGATACGTGGTATCAGGTGGGGTATACCAGCAGCTGGGTTGGCATCAGTTATTCGCTCTCATTTTCGTGG +AATGAATCTGTAGGGATCCCCGATAACGAACGTATTGTCGGACTTAATGTTTCAGTGCCTTTCAATGTTT +TGACCAAACGTCGCTACACCCGGGAAAATGCGCTCGACCGCGCTTATGCCTCCTTTAACGCCAACCGTAA +CAGCAACGGGCAAAATAGCTGGCTGGCAGGTGTAGGTGGGACCTTACTGGAAGGCCACAACCTGAGTTAT +CACGTAAGCCAGGGTGATACCTCGAATAATGGGTACACGGGCAGCGCCACGGCAAACTGGCAGGCCGCTT +ACGGTACGCTGGGGGGCGGGTATAACTACGACCGCGATCAACATGACGTTAACTGGCAGCTGTCTGGCGG +TGTGGTCGGGCATGAAAATGGCATAACGCTGAGCCAGCCTTTAGGGGATACCAATGTTTTGATTAAAGCG +CCTGGCGCAGGCGGTGTACGCATTGAAAATCAAACTGGCATTTTAACCGACTGGCGCGGCTATGCGGTGA +TGCTGTATGCCACGGTTTATCGGTATAACCGTATCGCGCTTGATACCAATACGATGGGGAATTCCATCGA +TGTTGAAAAAAATATTAGCAGCGTTGTGCCGACGCAAGGCGCGTTGGTTCGTGCCAATTTTGATACCCGC +ATAGGCGTGCGGGCGCTCATTACCGTTACCCAGGGCGGAAAACCGGTGCCGTTTGGATCACTGGTACGGG +AAAACAGTACCGGAATAACCAGTATGGTGGGTGATGACGGGCAAGTTTATTTAAGTGGTGCGCCATTGTC +TGGTGAATTACTGGTTCAGTGGGGAGACGGCGCGAACTCACGCTGCATTGCGCACTATGTATTGCCGAAG +CAAAGCTTACAGCAAGCCGTCACTGTTATTTCGGCAGTTTGCACACATCCTGGCTCATAAAGGAAATTAT +CAATAAGATAATCTGCAGATTATTATTGGCGATGGCATGTTTGTGTCTGGCAAACATATCCTGGGCTACT +GTTTGTGCAAATAGTACTGGCGTAGCAGAAGATGAACACTATGATCTCTCAAATATCTTTAATAGCACCA +ATAACCAGCCAGGGCAGATTGTTGTTTTACCGGAAAAATCCGGCTGGGTAGGTGTCTCAGCAATTTGTCC +ACCCGGTACGCTGGTGAATTATACATACCGTAGTTATGTCACCAACTTTATTGTTCAGGAAACTATCGAT +AATTATAAATATATGCAATTACATGATTATCTATTAGGTGCGATGAGTCTGGTTGATAGTGTGATGGATA +TTCAGTTCCCCCCGCAAAATTATATTCGGATGGGAACAGATCCTAACGTTTCGCAAAACCTTCCATTCGG +GGTGATGGATTCTCGTTTAATATTTCGTTTAAAGGTTATTCGTCCCTTTATTAACATGGTGGAGATCCCC +AGACAGGTGATGTTTACCGTGTATGTGACATCAACGCCTTACGATCCGTTGGTTACACCTGTTTATACCA +TTAGTTTTGGTGGCCGGGTTGAAGTACCGCAAAACTGCGAATTAAATGCCGGGCAGATTGTTGAATTTGA +TTTTGGTGATATCGGCGCATCGTTATTTAGTGCGGCAGGGCCGGGTAATCGACCTGCTGGTGTCATGCCG +CAAACCAAGAGCATTGCGGTCAAATGTACGAATGTTGCTGCGCAGGCTTATTTAACAATGCGTCTGGAAG +CCAGTGCCGTTTCTGGTCAGGCGATGGTGTCGGACAATCAGGATTTAGGTTTTATTGTCGCCGATCAGAA +CGATACGCCGATCACGCCTAACGATCTCAATAGCGTTATTCCTTTCCGTCTGGATGCAGCTGCGGCAGCC +AATGTCACACTTCGCGCCTGGCCTATCAGTATTACCGGTCAAAAACCGACCGAAGGGCCGTTTAGCGCGC +TGGGGTATTTACGCGTCGATTATCAATGAGGTACGGAGAATGAGAAGAGTACTCTTTAGCTGTTTCTGCG +GGCTACTGTGGAGTTCCAGTGGATGGGCAGTTGACCCTTTAGGAACGATTAATATCAATTTGCACGGTAA +CGTTGTTGATTTCTCCTGTACCGTAAACACAGCGGATATTGATAAGACGGTAGATTTAGGCAGATGGCCT +ACGACACAACTACTGAACGCTGGCGATACCACGGCACTCGTCCCTTTTAGCCTGCGGCTGGAGGGATGTC +CTCCGGGTTCAGTTGCGATTTTATTTACGGGAACGCCGGCATCCGATACCAACCTGCTGGCTCTGGATGA +TCCCGCAATGGCACAAACCGTCGCCATCGAATTACGTAATAGCGATCGCTCCCGGCTCGCACTGGGGGAG +GCGAGCCCGACTGAGGAAGTAGATGCAAATGGCAATGTCACACTAAACTTTTTTGCCAATTATCGAGCGT +TAGCCAGCGGTGTTCGGCCAGGTGTGGCGAAAGCGGATGCGATATTTATGATCAATTATAATTAATATTA +TATTAATTCGTATAATTTGGCGTAGTCGATAAGCTCTACAATTGAATGCAAACCTAGCTTGCCATAAATA +TTAGATTTATGCGCACTAACTGTTTTATTGCTAAGTAATAACTTATCGGCAATTTCTTTATTAGATAATC +CGCTAACCAGATAACGTAATATGGTCACTTCACGATTAGATAGCACAGTGACCGTTGAACTATTCGTACT +ACATTTATTGCTTTTTATATAGTTAAGCGTTTCGCTGGGAAAAAACGTGTATCCGGAGAGGATCATCTGA +ACGGCATGAAAAATATCATTCTGATCATTGCATTTACTGACAAAACCGTTAGCACCAGCTTGTATCGCTC +TGCCAGCATAAAAGCATTCTGATTTCGATGATAAAAATAACACTTTCACTGTGCTCTGGATTTGTTTGAT +CCTTTTCAGGAAGGTAAAACCGTCTGTTCCGGGCAAGTCTATATCCATAATGATTAAATCAACAGGACGG +GTTCGGAGATAATCGATGGTTATGCGATAATCATCCGTTTTCAGGACAATCTGCAATTCACTGTTTTTTT +GCAACAGAACTTCAATAGACATTCTGATGATAGGATGAGTATCCATAATGATCACCGACGTTGGTTTCAT +AGTTACCAGTCTCATAGGAGCGGACAATTTTCCGTTAGGTCGGGAAATTGTACTTTGATACATGAAAATA +CGGGTTTTCTTGATTCAGACGCGCAGCGGTGTGCGTTTGTTTGCCGCTATAGCGAAATAAATCAGAAAAT +CAGACGCGGTCGTTCACTTGTTCAGCAACCAGATCAAAAGCCATTGACTCAGCAAGGGTTGACCGTATAA +TTCACGCGATTACACCGCATTGCGGTATCAACGCGCCCTTAGCTCAGTTGGATAGAGCAACGACCTTCTA +AGTCGTGGGCCGCAGGTTCGAATCCTGCAGGGCGCGCCATTACAATTCAATCAGTTACGCCTTCTTTATA +TCCTCCATAATTTCAGAGTGGGACATATTTGGGACATTATCACCAAAAATGTCGTCTATTTTCCTCGCAT +GCTCTGTCAAATGATTAGGCGCAAGGTGAGCATACCTACGAACCATTTCTATGGACTCCCATCCGCCCAT +TTCCTGAAGCACTGATAATGGGACGCCTGACTGAATCAGCCAGCTTGCCCAGGTGTGTCTGAGGTCATGG +AAACGGAAATCTTCAATTCCTGCACGACGACAAGCTGATAGCCATGATGTCTTGCTGTCGATGCGCATCT +TCCTGACCGCAGGCGTTGATGTTCCATCTGCTCGCTTAGCCGCCTTGGTATGTACAAACACCCATTTGTG +ATGCTTGCCTATTTGATCACGCAACACTTTACAGGCGGTATCGTTCAGCGCCACACCAATGGCGCGGTTT +GATTTGCTCTCTTCTGGATTCACCCAGGCAACTCGTCGCTGCATGTCGATTTGTTGCCATTCCAGATTTA +TGATGTTCGACTTTCTCAGACCAGTTGCCAGCGCAAACTTGACGACAGATTTCAGTGGTTCGGGGCACTC +ATCAATAAGGCGTTTTGCTTCCTCCTTTTCCAGCCATCTGACTCGCTTGTTTCTGACCGCTGGTATCTTG +ATGACAGGCGCTTTTTCCAGCCACTTCCAGTCGCGTTCTGCAGCACGGAGAATGGCCTTTATCATGGCAA +GATGCTTTGCCTTTGTCTGAGTTGATACTGGCTTTGGTTCATAAACAGGCAGTTCTTTACCTTTCCTGAT +GGCGGCCTGAACTTTCTGTTTCCATATTTCTTTCGTCTTTCTGTTATGCATTCTGCTTACAGCAGAGTAA +ATCTTTGCCTCCGAGATATCTTTAAGCCTTATACCCTCAAAATGTTCAAGCCAGAACTCAATCCGGCTTT +TATCTGAATCGAGAGATTTTTTATCAGCTTTTTCCTCAAGCCATCTTAGGCAGGCCTCTTCAAAAGTGAC +ATCAGGTAAATCCCCTAGCTTTTCTACTCGCCAGAGTTCTGCTTTTCGCTTGTCGTGCAACTCCTGAGCT +TGCCGTTTGTCCTTTGTGCCAAGAGATTCCTTAATTCGTTTCCCGCCCGGGAGCGAATACGAGGCATACC +ATATTTCATTTCTGCGGAAGAGTGACATTTTCTTTCCTCTGTTATGCCATCACCCGCGCTCACCTGGACA +GTATGCAGCGGAGACTGAAGCGCCGCAATGCAGGCTTGCCGTGTTGTGAGGTACCCGGATATTATCGTGA +GGATGCGTCATCGCCATTGCTCCCCAAATACAAAACCAATTTCAGCCAGTGCCTCGTCCATTTTTTCGAT +GAACTCCGGCACCATCTCGTCAAAACTCGCCATGTACTTTTCATTCCGCTCAATCACGACATAATGCAGG +CCTTCACGCTTCATGCGCGGGTCATAGTTGGCAAAGTACCAGGCATCTTTTCGCGTCACCCACATGCTGT +ACTGCACCTGGGCCATGTAAGCCGATTTTATTGCCTCGAAACCACCGAGCCGGAATTTCATGAAATCCCG +GGAGGTACGAGTATTGCCGGAAGCGTGGCCTGTATCCGGATGCAGAGTCTTATCCGTGGAAATCGAACGC +GCATTACTGGTTGGTTACCAACTTGTACCAGAACATGCGGGCCAATGCGCTGGCTGACGCGGAATTACGG +CGCAAGGCTGCCGATGAACTGACCTGTATGACAGCGCGAATTAACCGTGGTGAGACGATACCTGAACCAG +TAAAACAACTTCCTGTTATGGGCGGTAGACCTCTAAATCGTGCACAGGCTCTGGCGAAGATCGCAGAAAT +TAAAGCTAAGTTCGGACTGAAAGGAGCAAGTGTATGACGGGCAAAGAGGCAATTATTCATTACCTGGGGA +CGCATAAGAGCTTCTGTGCACAGGACGTTGCCGCGGTAACAGGCGCAACCGTAATCTGATCTTACCCAGC +AATAGTGGACACGCGGCTAAGTGAGTAAACTCTCAGTCAGAGGTGACTCACATGACAAAAACAGTATCAA +CCAGTAAAAAACCCCGTAAACAGCATTCGCCTGAATTTCGCAGTGAAGCCCTGAAGCTTGCTGAACGCAT +CGGTGTTACTGCCGCAGCCCGTGAACTCAGCCTGTATGAATCACAACTCTACAACTGGCGCAGTAAACAG +CAAAATCAGCAGACGTCTTCTGAACGTGAACTGGAGATGTCTACCGAGATTGCACGTCTCAAACGCCAGC +TGGCAGAACGGGATGAAGAGCTGGCTATCCTCCAAAAGGCCGCGACATACTTCGCGAAGCGCCTGAAATG +AAGTATGTCTTTATTGAAAAACATCAGGCTGAGTTCAGCATCAAAGCAATGTGCCGCGTGCTCCGGGTGG +CCCGCAGCGGCTGGTATACGTGGTGTCAGCGGCGGACAAGGATAAGCACGCGTCAGCAGTTCCGCCAACA +CTGCGACAGCGTTGTCCTCGCGGCTTTTACCCGGTCAAAACAGCGTTACGGTGCCCCACGCCTGACGGAT +GAACTGCGTGCTCAGGGTTACCCCTTTAACGTAAAAACCGTGGCGGCAAGCCTGCGCCGTCAGGGACTGA +GGGCAAAGGCCTCCCGGAAGTTCAGCCCGGTCAGCTACCGCGCACACGGCCTGCCTGTGTCAGAAAATCT +GTTGGAGCAGGATTTTTACGCCAGTGGCCCGAACCAGAAGTGGGCAGGAGACATCACGTACTTACGTACA +GATGAAGGCTGGCTGTATCTGGCAGTGGTCATTGACCTGTGGTCACGTGCCGTTATTGGCTGGTCAATGT +CGCCACGCATGACGGCGCAACTGGCCTGCGATGCCCTGCAGATGGCGCTGTGGCGGCGTAAGAGGCCCCG +GAACGTTATCGTTCACACGGACCGTGGAGGCCAGTACTGTTCAGCAGATTATCAGGCGCAACTGAAGCGG +CATAATCTGCGTGGAAGTATGAGCGCAAAAGGTTGCTGCTACGATAATGCCTGCGTGGAAAGCTTCTTTC +ATTCGCTGAAAGTGGAATGTATCCATGGAGAACACTTTATCAGCCGGGAAATAATGCGGGCAACGGTGTT +TAATTATATCGAATGTGATTACAATCGGTGGCGGCGGCACAGTTGGTGTGGCGGCCTCAGTCCGGAACAA +TTTGAAAACAAGAACCTCGCTTAGGCCTGTGTCCATATTACGTGGGTAGGATCAACCAGCATAAATCAGG +CTGCGGCTAAAATGGCGCGGGCAGGAATCCTGGTCGTTGATGGTAAGGTCTGGCGAACGGTGTATTACCG +GTTCGCTACCAGAGAAGAATGGGAAGGAAAGGTGAGCACGAATCTGATTTTTAAGGAGTGTCGCCAGAGT +GCCGCGATGAAACGGGTATTGAGGGTATATAAAAGAACATCAATGGGAACACAATGATGAAACAGGTGAG +TTGAGTTCAAACTGTAGTACAATTCTCTCCAGTTTGAACAGGAAAGAATATGCTATGAACCCTTATATTT +ATCTTGGTGGTGCAATACTTGCAGAGGTCATTGGTACAACCTTAATGAAGTTTTCAGAAGGTTTTACACG +GTTATGGCCATCTGTTGGTACAATTATTTGTTATTGTGCATCATTCTGGTTATTAGCTCAGACGCTGGCT +TATATTCCTACAGGGATTGCTTATGCTATCTGGTCAGGAGTCGGTATTGTCCTGATTAGCTTACTGTCAT +GGGGATTTTTCGGCCAACGGCTGGACCTGCCAGCCATTATAGGCATGATGTTGATTTGTGCCGGTGTGTT +GATTATTAATTTATTGTCACGAAGCACACCACATTAAAATAATTTGTTTCTAAACGACTAAAATATGGAG +GCTCTTATATTTATATGAGCCTCGTTTTATGCTTTTTGTTAATGTCTTTATTTTTTATGTATTCTTTTGT +GCTTTCAAGATTATGGCGTAAGAAAATTGCAATACGATTATTGTTGTATATTCAAGATAATGTGACCTTA +ATTGTCTTTTTAAATAAAAAATAAACAAAAATTATATCCCACCACTAAGGTTTATAAAAGCATACGTTAG +CAGGTGTCACCATGAAAAAAGCCATAGCATATATGCGATTTTCATCACCAGGTCAGATGTCTGGCGACTC +ATTAAACCGACAGAGAAGACTTATTGCTGAATGGTTAAAGGTAAATAGTGATTATTATCTTGATACCATA +ACATATGAAGATTTAGGATTAAGTGCATTCAAAGGAAAGCATGCACAATCAGGAGCTTTTTCGGAATTTT +TAGATGCTATAGAGCATGGTTATATATTGCCAGGAACTACATTGTTAGTTGAAAGTCTGGACAGACTTTC +AAGAGAAAAAGTCGGTGAAGCGATTGAACGTCTGAAATTGATTTTGAATCACGGTATTGATGTTATAACT +CTTTGCGACAATACAGTCTATAATATTGACTCTTTGAATGAGCCATATTCATTAATAAAAGCCATACTTA +TAGCACAAAGGGCAAATGAAGAAAGCGAGATAAAGTCAAGTCGGGTTAAATTATCATGGAAGAAAAAACG +GCAGGATGCACTGGAATCAGGTACGATTATGACGGCGTCTTGTCCGAGATGGCTCTCCTTAGATGACAAA +AGAACGGCTTTTGTTCCAGACCCCGACAGGGTGAAAACTATTGAGCTAATTTTTAAACTCAGGATGGAAA +GGCGCTCATTGAATGCAATAGCCAAGTATTTAAATGATCATGCTGTAAAGAATTTCTCAGGAAAAGAAAG +TGCATGGGGACCTTCTGTAATTGAAAAATTATTAGCGAATAAAGCTCTGATAGGTATTTGCGTACCTTCA +TATCGTGCAAGAGGGAAAGGGATAAGTGAAATCGCTGGCTATTATCCCAGAGTCATATCAGATGATTTGT +TTTACGCTGTACAGGAAATTCGGTTGGCACCTTTTGGTATTAGCAATAGTAGCAAGAATCCTATGCTAAT +AAATCTACTTCGAACAGTTATGAAGTGTGAGGCTTGTGGTAATACCATGATTGTTCATGCGGTATCTGGA +AGTTTGCATGGCTATTATGTTTGTCCGATGAGAAGATTACATCGATGTGACAGGCCATCAATAAAAAGAG +ATTTGGTTGATTATAATATCATTAATGAATTGCTTTTTAATTGTAGCAAAATTCAACCAGTTGAAAACAA +GAAAGATGCTAATGAAACTTTAGAGTTAAAAATTATTGAGCTTCAGATGAAAATTAATAATTTAATCGTT +GCATTGTCTGTCGCGCCTGAAGTTACCGCTATAGCAGAGAAAATAAGACTATTAGATAAGGAATTACGAA +GGGCTTCGGTATCATTGAAAACTTTGAAGAGTAAAGGTGTAAATTCATTCAGTGATTTTTATGCTATTGA +CTTAACCAGTAAAAATGGACGAGAGTTATGCCGTACACTTGCCTATAAAACATTCGAAAAAATCATAATT +AATACGGATAATAAAACCTGTGATATCTATTTTATGAATGGCATTGTTTTTAAACACTATCCTTTAATGA +AAGTAATATCCGCCCAGCAGGCGATAAGTGCTCTCAAATATATGGTTGATGGTGAGATTTATTTCTAAAT +AATGATCTCGGATTTTAAGTTATGCTATGGTGATAAAGTGCAAGACAGAATTAATTATCTTTGACGAAAC +TTAATGGGTAATTACTTTGTTTGCTCCCACAAGCGAGTTTTGTACGGCTGTATTGGGGTAGTAAATGAGC +TATACAATCTTAATCATTTGTTAGGTGAGAACTCTTGGTCGCAGATTCAAATACTGAAAATACGTGACAA +ATTATTATGAGCAAAATGGTGTATGTCACGTATTTTGAATGGTAGGTTAAAAAATAACACCGACTTTCGT +AGGTGTTACTAATAATAAAGCAGAGTTTTTAGATAGTATCAATGTGCTTTGTGTATATTGTGGCAAATAA +TTGGGTTGGGGGTACAATTGTGATTGCTTTTGCATGAACATTGCGCCTTTATGCATAATGAGATAAAGGA +ATATCAAATAAAATAACGATAGGTCATAACAAAGAGGTTTTTATGAAAACACTTATCGTTTCAACTGTAT +TGGCATTCATAACATTTTCTGCGCAGGCTGCAGCATTTCAGGTCACTAGTAATGAAATAAAAACAGGAGA +GCAACTTACAACGTCTCATGTCTTTTCTGGATTTGGGTGTGAAGGTGGTAATACATCGCCCTCATTAACC +TGGTCTGGTGTTCCTGAAGGTACCAAAAGCTTTGCCGTAACTGTATATGATCCAGATGCACCTACAGGCA +GTGGTTGGTGGCATTGGACTGTTGTTAATATTCCAGCAACAGTAACATATTTGCCCGTTGATGCAGGGAG +ACGTGATGGAACAAAACTGCCGACTGGTGCTGTTCAAGGCCGAAATGATTTTGGCTATGCTGGGTTTGGT +GGCGCATGTCCTCCTAAAGGAGATAAACCACATCATTACCAGTTTAAAGTATGGGCTCTAAAAACTGAAA +AGATTCCTGTAGATTCTAACTCCAGCGGAGCGTTAGTTGGTTATATGCTTAATGCTAATAAAATCGCAAC +CGCTGAGATAACACCAGTTTATGAGATAAAGTAGGGTGAGAGTATGCTGGCAAGAGGTAAGACTAACTTA +AAGATCGAAGAAATACGGATGCATAAACATCATGAGATTCATAGGGTTAAGCCTCTTATGCCAGCTTTGT +GTCGTATCCGTCAGGGAAAGAAAGTTATCAATTGGGAGACGCATACTTTAACTGTTGATAATAATCAAAT +AATATTATTTCCTTGTGGTTATGAATTTTATATTGAGAATTATCCTGAAGCAGGGCTTTATCTTGCAGAA +ATGCTTTACTTACCCATTGATTTAATTGAGAGTTTCCAAAAACTTTATACGGTAACTGATCAAATACGTA +ACAAAACAAGTTTCTTTTTACCTCAGAATCCTGAGTTAATATATTGTTGGGAGCAACTAAAAACATCTGT +TTCCCGAGGCTTCTCAACTAAAATTCAGGAGCACTTAGCAATGGGCGTTCTACTTTCGTTAGGAGTGAAT +CATGTTAATCATTTACTTTTATCATATAGTAAACAATCATTGATAAGTCGTTGTTATAACCTGCTGCTAT +CCGAACCCGGCACAAAATGGACAGCAAACAAGGTTGCTCGATATCTCTACATTTCTGTTTCTACATTACA +TCGCCGTCTAGCAAGCGAGGGGGTAAGTTTCCAAAGTATACTGGACGATGTGAGGTTAAATAATGCGTTG +TCTGCTATACAAACGACGGTAAAACCTATAAGCGAGATTGCCAGAGAAAATGGTTATAAGTGTCCTTCTC +GTTTTACTGAAAGATTTCATAATCGTTTTAATATAACACCAAGAGAGATAAGAAAAGCTTCCAGAGAGTA +AAAGTGTTTTAAGAAGGAGCAATTCTATCGATTTTGATTTTGGGAAATCAACACGGCATAATTATGTCAC +CGGAGCCTGAACAACTCCGGTGACTTCTGCGCTAAACGGGGACGTTTATGCGCACATACAATCCAAACTC +TCTTCTCCCTTCACAGATGCAGAAATGCACCTGCAATTCTTTGCATCTAGCGTTTGACCTCTGCGGAGGG +GAAGCGTGAACCTCTCACAAGACGGCATCAAATTACATCGCGGCAACTTCACCGCTATCGGTCGGCAGAT +CCAGCCTTATCTGGAGGAGGGCAAATGCTTTCGCATGGTGCTTAAACCGTGGCGTGAGAAACGCAGTCTT +TCCCAGAATGCACTCAGCCACATGTGGTACAGCGAAATCAGTGAATACCTCATCAGCAGGGGTAAAACGT +TCGCCACTCCAGCTTGGGTAAAAGATGCTCTCAAACACACATATCTCGGTTATGAAACCAAAGACCTGGT +TGATGTCGTAACCGGTGATATCACCACTATCCAGTCGTTACGCCATACCTCCGATCTTGATACCGGAGAG +ATGTATGTCTTCCTGTGTAAGGTTGAAGCCTGGGCGATGAATATTGGTTGCCACCTGACTATTCCACAGA +GCTGCGAGTTCCAGCTGCTGCGCGACAAGCAGGAGGCGTAATGGCTACACCGCTTATTCGTGTCATGAAC +GGACACATCTACAGAGTACCAAATCGTCGTAAGCGTAAACCTGAGCTGAAGCCATCCGAAATACCAACAC +TGCTCGGATATACCGCCAGCTTGGTTGATAAAAAATGGTTGCGACTGGCAGCAAGGAGGAGTCATGGCTG +ATTTGAGAAAAGCAGCGCGTGGTCGGGAATGCCAGGTAAGAATCCCTGGCGTATGTAATGGCAACCCTGA +AACGTCTGTACTGGCACATATCCGGCTGACTGGATTGTGCGGCACCGGTACGAAACCGCCAGACCTGATT +GCCACCATTGCATGTTCTGCCTGCCACGACGAAATCGACCGCCGCACGCATTTTGTTGACGCTGGATATG +CAAAAGAATGCGCGCTGGAAGGTATGGCGAGAACACAGGTTATCTGGCTGAAAGAGGGGGTTATTAAGGC +GTGAATACCTACAGCATCACATTACCCTGGCCTCCGAGCAATAATCGCTATTACCGCCATAATCGCGGGC +GCACGCACGTCAGCGCAGAGGGGCAGGCATACCGCGATAACGTCGCCCGAATCATTAAAAACGCAATGCT +GGATATCGGCCTGGCTATGCCTGTGAAAATCCGCATTGAGTGCCACATGCCGGATCGCCGTCGCCGTGAC +CTGGATAATCTGCAAAAAGCCGCTTTTGACGCACTCACTAAAGCAGGTTTCTGGCTGGATGATGCTCAGG +TCGTTGATTACCGCGTTGTGAAGATGCCTGTTACCAAAGGTGGGAGGCTGGAACTGACCATCACCGAAAT +GGGGAATGAATGATGTTTGAGTTTAATATGGCAGAACTTCTTCGCCACCGCTGGGGGCGTCTGCGCTTAT +ATCGTTTCCCCGGTTCTGTTTTGACCGATTACCGAATACTGAAGAATTACGCCAAAACCCTGACAGGAGC +AGGAGTATGAAGTCAGAGATAACAATCAACTAATACTGTTTTGTTGATTTTTGCTTGTAATTGGCGTTCT +GGTCTGATTTTTGTGGAGTAAGTTGATGCGTGATATTCAGATGGTTCTTGAGCGTTGGGGAGCGTGGGCG +GCTAATAATCATGAAGATGTGACCTGGTCGTCCATTGCCGCCGGTTTTAAGGGATTAATTACTTCAAAAG +TAAAATCTCGCCCGCAATGTTGTGACGATGACGCGATGATCATTTGCGGGTGCATGGCCCGTCTGAAAAA +GAACAACAGCGATTTGCACGATTTATTAGTAGATTATTATGTAGTCGGTATGACATTCATGTCACTGGCA +GGTAAGCATTGCTGCTCTGATGGTTATATCGGGAAAAGGTTACAGAAGGCTGAGGGCATAATTGAAGGGA +TGTTAATGGCATTAGATATCCGGTTAGAGATGGATATCGTTGTTAATAACTCTAATTAATATGCCAATTG +TTTACTAAAAATTATTAAAAATGGGGCGTTGAGACGCCCCCAAAAATAAAGGGTAATATATAACAGAAGG +TTTATATAGTTAGAAGCAAGGTTGTGCTTCTAAAGGAAGTGGCTTGAGGGAGCCACTTATATGTTGGGGA +GGCAACGCCTCCCGCAACATATCTTTTTCGTAATCAGATTAGAACTGGTAAACCAGACCTACAGCAACGA +TGTCATCAGTGCTTACACCGAGTGCTTTAGGGAAGGTGCGAATAAGCGGGGAAATTCTTCTCGGCTGACT +CAGTCATTTCATTTCTTCATGTTTGAGCCGATTTTTTCTCCCGTAAATGCCTTGAATCAGCCTATTTAGA +CCGTTTCTTCGCCATTTAAGGCGTTATCCCCAGTTTTTAGTGAGATCTCTCCCACTGACGTATCATTTGG +TCCGCCCGAAACAGGTTGGCCAGCGTGAATAACATCGCCAGTTGGTTATCGTTTTTCAGCAACCCCTTGT +ATCTGGCTTTCACGAAGCCGAACTGTCGCTTGATGATGCGAAATGGGTGCTCCACCCTGGCCCGGATGCT +GGCTTTCATGTATTCGATGTTGATGGCCGTTTTGTTCTTGCGTGGATGCTGTTTCAAGGTTCTTACCTTG +CCGGGGCGCTCGGCGATCAGCCAGTCCACATCCACCTCGGCCAGCTCCTCGCGCTGTGGCGCCCCTTGGT +AGCCGGCATCGGCTGAGACAAATTGCTCCTCTCCATGCAGCAGATTACCCAGCTGATTGAGGTCATGCTC +GTTGGCCGCGGTGGTGACCAGGCTGTGGGTCAGGCCACTCTTGGCATCGACACCAATGTGGGCCTTCATG +CCAAAGTGCCACTGATTGCCTTTCTTGGTCTGATGCATCTCCGGATCGCGTTGCTGCTCTTTGTTCTTGG +TCGAGCTGGGTGCCTCAATGATGGTGGCATCGACCAAGGTGCCTTGAGTCATCATGACGCCTGCTTCGGC +CAGCCAGCGATTGATGGTCTTGAACAATTGGCGGGCCAGTTGATGCTGCTCCAGCAGGTGGCGGAAATTC +ATGATGGTGGTGCGGTCCGGCAAGGCGCTATCCAGGGATAACCGGGCAAACAGACGCATGGAGGCGATTT +CGTACAGAGCATCTTCCATCGCGCCATCGCTCAGGTTGTACCAATGCTGCATGCAGTGAATGCGTAGCAT +GGTTTCCAGCGGATAAGGTCGCCGGCCATTACCAGCCTTGGGGTAAAACGGCTCGATGACTTCCACCATG +TTTTGCCATGGCAGAATCTGCTCCATGCGGGACAAGAAAATCTCTTTTCTGGTCTGACGGCGCTTACTGC +TGAATTCACTGTCGGCGAAGGTAAGTTGATGACTCATGATGAACCCTGTTCTATGGCTCCAGATGACAAA +CATGATCTCATATCAGGGACTTGTTCGCACCTTCCTTAGTGAAGTCATTTTTGTCAAGCAGGTTGATTTT +GTAATCAACGAAAGTAGACATATTTTTGTTGAAGTAATAGGTTGCACCTACATCAACATATTTGACTAAG +TCCTGATCGCCCCATACTCCAAGATCCTTACCTTTAGATTGCAGGTAAGCAACGGACGGACGCAGACCGA +AATCGAACTGATATTGTGCAACAGCTTCGAAGTTTTGGGCTTTATTAGCAACGAAGTGATCAGCAAATAC +AGTCATATTCTGGGTTTCAGAATAGGTAGTGGCCAGGTAAATGTTGTTAGCGTCATATTTCAGACCTGCG +GCCCAAACTTCTGCATTTTTACCGGAAGCAAATACTTCAGGAAGAACTTTCCCTGCATTAACTTGAGTGT +CGGTACGATCAGATTTCGCATAAGTTGCACCGATACCGAATCCTTCGTATTCATAGGTAGCAGAGAAACC +GAAGCCATCACCGTTACCTTCAGTGTAGTTATCGAAATCGCTACGATCGTTTTTGCCTTGGTACTGAGCA +GCAAAGTTCAGACCATCAACCAGACCAAAGAAGTCGTTGTTACGATAGGTTGCAACACCAGTTGCACGTT +GAGTCATGAACACGTCGGTTTGAGTCCAAGTGTCACCACCGAATTCTGGCAGGACGTCAGTCCACGCACC +GATGTCGTATGCTACACCGTAGTTACGGCCGTAATCGATGGAGCCGTAGTCACCGAATTTCAGGCCAGCG +AAGGCAAGACGGGTTTTATCTTTGGAGGAACCTTGAGATTCAGCGCGGTTGCCTTTGAATTCATATTCCC +ACTGACCGAAACCAGTCAGTTGATCGTTGATTTGGGTTTCACCTTTGAAGCCAAGACGGGCATAAGTAGT +ATCACCATCATCTGCATCATTAGAGGAGAAGTAGTGCTTAGCATTAACTTTCCCGTACAGATCCAGCTTG +TTACTGTCTTTATTATAAATTTCAGCTGCCTGAGCAGACATCGCCATTAGTACTGATGCAGCTACAGCAG +AAATTGCCACTGTTAATTTTTTCATCGTGAGCCCTTTTTTTGAACTATTATTAAAAAATGATGTCACTGC +GCGATAAATATTCATCTAATCAATGTGATTATTTCAAGATGTAAGTTTTGGTTTCTCGTTTGATTTGTGA +AGTAGATCTCTATTTTTATCTGAACTTTTTTCTATCGAATCCTATTCATGGCTCTTGGCTGAATAAAAAT +AAATCTATTAGCCAATTTATATTAACGGCTGTTATTTATAAGTGCTCTATAATTTGAAGGTTCAATTTAA +ACCGGCTAAAAATAACACTGGAAATTATTTTTTGGTTATTTGTTGAGATTTGCTTATGTATTTGTAGTGG +TGTTTTCAATACTCGGTAGCATTCTCTCAAATATCATTTAGTGGTTTACGTACGTAAAAAATTGGTTATG +CTGTTAAGAGTGGTTACTTCGTCACACAGCTTAAACCCGCCGTCGAGCGGGTTTTTCCATTTTTTGAGTC +TCGATATTAGCTGATAACCCAATACCTGAGTTATTCACTGACTCCGAGTCTGTTACGTTTCGTAGTATTC +CCTCAATTTACACCCGCTTTGTCTGCGAGGTGGGGTTATGAAATCCATGGATAAGTTAACAACGGGTGTC +GCCTATGGCACCTCAGCAGGTAGTGCCGGGTACTGGTTTTTACAGCTGCTAGATAAAGTCACTCCCTCAC +AGTGGGCAGCAATAGGTGTGCTGGGTAGCCTGGTATTTGGCCTGCTGACGTACCTGACAAACCTTTATTT +CAAGATTAAAGAAGATAAGCGCAAGGCTGCGAGAGGTGAATAATGCCTCCATCATTACGAAAAGCCGTTG +CTGCTGCTATTGGTGGCGGAGCAATTGCTATAGCATCAGTGTTAATCACTGGCCCAAGTGGTAACGATGG +TCTGGAAGGTGTCAGCTACATACCATACAAAGATATTGTTGGTGTATGGACTGTATGTCACGGACACACC +GGAAAAGACATCATGCTCGGTAAAACGTATACCAAAGCAGAATGCAAAGCACTCTTGAATAAAGACCTTG +CCACTGTCGCCAGACAAATTAACCCGTATATCAAAGTCGATATACCGGAAACAACGCGCGGCGCTCTTTA +CTCATTCGTTTACAACGTGGGTGCTGGCAATTTTAGAACATCGACGCTTCTTCGCAAAATAAACCAGGGC +GATATCAAAGGCGCATGTGATCAGCTGCGTCGCTGGACATACGCTGGCGGTAAGCAATGGAAAGGCCTGA +TGACTCGTCGTGAGATTGAGCGTGAAGTCTGTTTGTGGGGGCAACAGTGAGCAGAGTAACCGCGATTATA +TCCGCTCTGATTATCTGCATCATCGTCAGCCTGTCATGGGCGGTCAATCATTACCGTGATAACGCAATCG +CCTACAAAGTCCAGCGCGACAAAAATGCCAGAGAACTGAAGCTAGCGAACGCGGCAATTACTGACATGCA +GATGCGTCAGCGTGATGTTGCTGCGCTCGATGCAAAATACACGAAGGAGTTAGCTGATGCGAAAGCTGAA +AATGATGCTCTGCGTGATGATGTTGCCGCTGGTCGTCGTCGGTTGCACATCAAAGCAGTCTGTCAGTCAG +TGCGTGAAGCCACCACGGCCTCCGGCGTGGATAATGCAGCCTCCCCCCGACTGGCAGACACCGCTGAACG +GGATTATTTCACCCTCAGAGAGAGGCTGATCACTATGCAAAAACAACTGGAAGGAACCCAGAAGTATATT +AATGAGCAGTGCAGATAGAGCTGACCATATCGATGGGCAACTCATGCAATTATTTTGAGCAATACACACG +CGCTTCCAGCGGAGTATAAATGCCTAAAGTAATAAAACCGAGCAATCCATTTACGAATGTTTGCTGGGTT +TCTGTTTTAACAACATTTTCTGCGCCGCCACAAATTTTAGCTGCATCGACAGTTTTCTTCTGCCCAATTC +CAGAAACGAAGAAATGATGGGTGATGGTTTCCTTTGGTGCTACTGCTGTCTGTTTGTTTTGAACAGTAAA +TGTCTGTTGAGCACATCCTGTAATAAGCAGGGCCAGCGCAGTAGCGAGTAGCATTTTTTTCATGGTGTTA +TTCCCGATGCTTTTTGAAGTTCGCAGAATCGTATGTGTAGAAAATTAAACAAACCCTAAACAATGAGTTG +AAATTTCATATTGTTAATATTTATTAATGTATGCCAGGTGCGATGAATCGTCATTGTATTCCCGGATTAA +CTATGTCCACAGCCCTGACGGGGAACTTCTCTGCGGGAGTGTCCGGGAATAATTAAAAACGATGCACACA +GGGTTTAGCGCGTACATGTATTGTATTATGCCAACACCCCGGTGCTGACACGGAAGAAACCGGACGTTAT +GATTTAGCGTGGAAAGATTTGTGTAGTGTTCTGAATGCTCTCAGTAAATAGTAATGAATTATCAAAGGTA +TAGTAATATCTTTTATGTTCGTGGATATTTGTAATCCATCGGAAAACTCCTGCTTTAGCAAGATTTTCCC +TGTATTGCTGAAATGTGATTTCTCTTGATTTCAACCTATCATAGGACGTTTCTATAAGATGCGTATTTCT +TGAGAATTTAACATTTACAACCTTTTTAAGTCCTTTTATTAACACGGTGTTATCGTTTTCTAACACAATG +TGAATATTATCTGTGGCTAGATAGTAAATATAATGTGAGACATTGTGACGTTTTAGTTCAGAATAAAACA +ATTCACAGTTTAAATCTTTTCGCACTTGATCGAATATTTCTTTAAAAATGGCAACCTGAGCCATTGGTAA +AACCTTCCATGTGATACGAGGGCGCGTAGTTTGCATTATCGTTTTTATCGCTTCAATCTGGTCTGACCTC +TTTGTGTTTTGTTGATGATTTATGTCAAATATTAGGAATGTTTTCAATTAATAGTATTGGTTGCGTAACA +AAGTGCGGTCCTGCTGGCATTCTGGAGGGAAATACAACCGACAGATGTATGTAAGGCCAACGTGCTCAAA +CCTTCATACAGAAAGATTTGAAGTAATATTTTAACCGCTAGATGAAGAGCAAGCGCATGGAGCGACAAAA +TGAATAAAGAACAATCTGCTGATGATCCCTCCGTGGATCTGATTCGTGTAAAAAATATGCTTAATAGCAC +CATTTCTATGAGTTACCCTGATGTTGTAATTGCATGTATAGAACATAAGGTGTCTCTGGAAGCATTCAGG +GCAATTGAGGCAGCGTTGGTGAAGCACGATAATAATATGAAGGATTATTCCCTGGTGGTTGACTGATCAC +CATAACTGCTAATCATTCAAACTACTTAACCTGTGACAGAGCCAACACGCAGTCTGTCACTGTCAGGAAA +GTGGTAAAACTGCAACTCAATTACTGCAATGCCCTCGTAATTAAGTGAATTTACAATATCGTCCTGTTCG +GAGGGAAGAACGCGGGATGTTCATTCTTCATCACTTTTAATTGATGTATATGCTCTCTTTTCTGACGTTA +GCCTCCGACGGCAGGCTTCAATGACCCAGGCTGAGAAATTCCCGGACCCTTTTTGCTCAAGAGCGATGTT +AATTTGTTCAATCATTTGGTTAGGAAAGCGGATGTTGCGGGTTGTTGTTCTGCGGGTTCTGTTCTTAGTT +GACATGAGGTTGCCCCGTATTCAGTGTCGCTGATTTGTATTGTCTGAAGTTGTTTTTACGTTAAGTTGAT +GCAGATCAATTAATACGATACCTGCGTCATAATTGATTATTTGACGTGGTTTGATGGCGTAGATGCACGT +TGTGACATGTAGATGATAATTATTATCATTTTGTGGGTCCTTTCCGGCGATCCGACAGGTTACGGGGCGG +CGACCTCGCGGGTTTTCGCTATTTATGAAAATTTTCCGGTTTAAGGTGTTTCCGTTCTTCTTCGTCGTAA +CTTAATGTATTTATTTAAAATACCCCCTGAAAAGAAAGGAAACGACAGGTGCTGAAAGCGAGCTTTTTGG +CCTCTGTCGTTTCCTTTCTCTGTTTTTGTCCGTGGAATGTGCAATGGAAGTCAACAAAAAGCAGCTGGCT +GACATTTTCGGTGCGAGTATCCGTACCATTCAGAACTGGCAGGAACAGGGAATGCCCGTTCTGCGAGGCG +GTGGCAAGGGTAATGAGGTGCTTTATGACTCTGCCGCCGTCATAAAATGGTATGCCGAAAGGGATGCTGA +AATTGAGAACGAAAAGCTGCGCCGGGAGGTTGAAGAACTGCTGCAGGCCAGCGAGACAGATCTCCAGCCA +GGGACTATTGAGTACGAACGCCATCGACTTACGCGTGCGCAGGCCGATGCACAGGAGCTGAAAAATGCCA +GAGACTCCGCTGAAGTGGTGGAAACCGCATTCTGTACTTTCGTGCTGTCGCGGATCGCAGGTGAAATTGC +CAGTATTCTCGACGGGATCCCCCTGTCGGTGCAGCGGCGTTTTCCGGAACTGGAAAACCGACATGTTGAT +TTCCTGAAACGGGATATCATCAAAGCCATGAACAAAGCAGCCGCGCTGGATGAACTGATACCGGGGTTGC +TGAGTGAATATATCGAACAGTCAGGTTAACAGGCTGCGGCATTTTGTCCGCGCCGGGCTTCGCTCACTGT +TCAGGCCGGAGCCACAGACCGCCGTTGAATGGGCGGATGCTAATTACTATCTCCCGAAAGAATCCGCATA +CCAGGAAGGGCGCTGGGAAACACTGCCCTTTCAGCGGGCCATCATGAATGCGATGGGCAGCGACTACATC +CGTGAGGTGAATGTGGTGAAGTCTGCCCGTGTCGGTTATTCCAAAATGCTGCTGGGTGTTTATGCCTACT +TTATAGAGCATAAGCAGCGCAACACCCTTATTCCAGCTGGCTTCGTGGCTGTTTTCAACAGTGATGAGTC +ATCGTGGCATCTCGTTGAAGATCATCGGGGTAAAACGGTTTATGACGTAGCGTCAGGGGACGCGTTATTT +ATTTCTGAACTCGGTCCGTTACCGGAAAATGTTACCTGGTTATCGCCGGAAGGGGAGTTTCAGAAGTGGA +ACGGTACAGCCTGGGTGAAAGATGCAGAAGCAGAAAAACTGTTCCGGATTCGGGAGGCGGAAGAAACAAA +AAACAGCCTGATGCAGGTAGCCAGTGAGCATATTGCGCCACTTCAGGATGCTGTAGATCTGGAAATCGCA +ACGGAGGAAGAAACCTCATTGCTGGAAGCCTGGAAAAAATATCGGGTGTTGCTGAACCGTGTTGATACAT +CAACTGCACCTGATATTGAGTGGCCTACGAACCCTGTCAGGGAGTAATCATTGGGATTATGCCGCAGCAC +GTCTTAAGCAAGAACATGCTGCGGTTGGATGCTATTTTTTTCCTGAAGCGGAAAACATTACTACAGTACC +TTGAACCTTGGTTTTAACATTCTCGAAATGCTCTGAGAGTATATGTGTTAAGCCTTCTTCGGAATCTTTT +GTGTTTGAAAAGATGCCTTTCTGATTGTAAATGCGCATCAGTTTTTGACCGAAGCTATTGTGCACAACTC +CATCGCCAAGAATTGTGGCTCCGTATAGAGTTCCATCGTCAGTTAAGGCCTGCGCCGCATTGCGTATTAC +ACAGCTTTTTGTAGATATATTTCCAGGCAGGCAGTGAAGAAGGTAAGACATGGAAATGGAATCAAATTGA +CCATGTAACGCCGCGGGATAAGGTTCAAAAACATCATGGCTAATTTTATGTTTAATTTTTGATTCCCCAG +CCCTTGTAGATGCCGCGTTCAGGCTAGCTTCGTTCAAATCCATTAAAGATATCAGACTACTCTCAGGTAC +GTGAGTAAGGTAAAACCCAGTTCCAACACCAATATCCAGATGGTTGTTACCTAAATGTTCCAGAAAGTGT +GGAAGAAGGTGTTCCTTTGTAGGACATCCCCATGCAAGCCGATTTGATACTCCCAAAACCCACCAGTCAT +AAAGCTTTAGGGTAAGTGGTGTGTAAATTCTAGCCCCATCATCTGTGTTTTTTTATTAATTTCACCATGT +TATAGTTTTATTTGTGAATTAAATCAATTATGGCAATGAATTACAAGGGGTTAAATGCTGCCGCAGCATA +GCGATATTGAAATAGCCTGGTATGCTTCAATACAGCAGGAGCCGAATGGCTGGAAGACCGTCACCACACA +GTTCTACATCCAGGAATTCAGTGAGTATATTGCGCCACTGCAGGATGCTGTAGATCTGGAAATCGCAACG +GAGGAAGAAAGATCGTTGCTGGAAGCCTGAAAAAAGTATCGGGTGCTGCTAAACCGTGTGGACACTTCCG +TAGCACCAGATATCGAGTGGCTTATTCAACCATAATAAACAGTATGTATATCATAGGTTATTAATTGTGA +GTTTTTTCGGTGTGTTATTTGTTTGTTTGATGTTATGCTTTTGCGCCCCAAAAGGTTGTTTAGATGTATT +TTATCAATTGATTTTCAATATCGTTTAATAAAGAAAAATTAAGCAAGCTGGATGTTGGTTTTTTGTTAAT +TGAATGGTTCTAATAATGTTTTTTTACTGTTGTTGAATGTGACTTGATAAGAAATGCAAGTAAAAATGAT +ACTCTTTTTATTTTAAATTCAAACGGTTGACATATATATAGCAAGAGGTTTCAGGTGCGTTGTAGTGAGT +TTATGTTAATAAAAAGCATAGTAAGCGTTGAAAAATGTAACTTTGAAATAAGTTAGAATAAAAAACAACA +TACATATAATAATTTAATCTTAAATGAAATTTATTAAAATTTGCAAACTATAATTTTGTGTATAAAAATA +TAAATGCACATCATCCTGATTATGATTGTGTATTTAATTGGTTGTTATTTGACTACTATCAACTTGTTTT +AATTTTATGATAGGTGCAAGATGGATTATGTTTGCTCCGTAGTTTTCATCTGTCAATCATTTGATTTAAT +TATAAACAGGAGAGTTATCTCGTTCAAAAAAAATTCATTGTTTATTGTAAGCGACAAAATTAGAAGGGAG +TTACCAGTATGCCCCTCTAAACTAAGAATTGTTGATATAGATAAGAAAACATGTTTATCCTTTTTTATCG +ACGTGAATAATGAGCTGCCTGGCAAATTTACTCTTGATAAGAATGGCTATATTGCTGAAGAGGAACCTCC +ATTATCGCTTGTTTTTTCTCTGTTTGAAGGGATTAAAATAGCAGACTCACACTCCCTTTGGTTAAAAGAA +AGACTATGTATATCCTTACTTGCCATGTTCAAAAAACGCGAAAGTGTAAATTCATTTATACTAACAAATA +TAAATACATTTACCTGTAAAATTACTGGAATAATCAGTTTTAATATTGAGCGGCAATGGCATTTAAAAGA +TATTGCGGAATTGATTTATACGAGTGAAAGTTTAATAAAAAAAAGATTAAGGGATGAAGGAACGTCATTT +ACTGAAATATTGAGAGATACTAGGATGAGGTATGCAAAAAAACTCATAACTTCAAACTCTTATTCTATCA +ATGTCGTAGCCCAGAAATGTGGCTATAACAGTACTTCATATTTCATATGTGCATTTAAAGATTATTATGG +TGTCACGCCATCTCATTATTTTGAGAAAATAATCGGCGTCACAGATGGAATAAACAAAACAATTGACTGA +TAATGTTTATTACAAGTTGTCTACATGTTAATTATAATATTATACAGCGTTTTTTTTGATGTGATATTCT +GGAACCATTAATTTGTAATTGGGTTGCTGTCGCCTATTTTATACATACTATAATTGATGGTTTTCTATGT +GATTTAGTTAATAACCTTCTGGGTTTATTTTAAGGGTTAATTGTTACATTGAAATGGCTAGTTATTCCCC +GGGGCGATTTTCACCTCGGGGAAATTTTAGTTGGCGTTCTTAAAATGTGTACTTAAGACCAGCAGTAGTG +ATGAAGTTATAGTTTTCTATACCTGCTCCATTTTTGCTGTAGTCTGAAGTGTTATTATTGTGATCATAAA +GTGAAGTATTACCTTTTTTATTCGTAACCCGATTCCATGCGCCTTCAACATAAACTTTTGCGTTAGGTGT +GACGTAATAACCTGCATTGACTGCAACAGAATAGTAATTTTGGTCTTTGACCTTACTGCGATAAGTGATT +CTTTTTCCCGGGTCATAGTGTTCATCGTTATCAGATGATTCCACCCAGCCGCTGTATTTAAATGTGCCAC +CGAGTTCAAAATCTTCATAACGATAACTTCCAGTCAAGCCAATGTAGGGCATTTTAAAACGTTGTTTGTA +GCCGATTGCTCTTTCTCCATTCGGGAAGGAGCCGATATCATCTCTGAATCCCTCCTCAGAACTGTAGATA +TAGGAACCACCTCTGGCTGTAAAGCTATAACGGCTTTCCTGATATCCGGCCATGAGTCCCAGGCGGTAAT +TGGGTTCGTTGAGGAGCCAGCCTTTGATATTCAGATCAAATTCGTTGGCATAATTGAGTTGTGTATCAGG +GTGTCTACTTTCATCCGTCCAGGTTCCGGGGTTACTGGAATCCATCCAGTCCTGATCGACCATATTGCCA +CCTCGGCTGCCGAGAGTTGTCCAGCCAGCAGCCCCGATAGATATCTGGGGCATCAAATCCCAATTAATTG +CACCTTTAATAATTGCAGCGTTATTGAATTTCCAGTCGAGTTGACTGACTTTTCGGCCTCCTTCTTCGGC +TAGATAAACACGCTCTTTTGTTTTTCCGCTCAGAGTTCCAAGACTAATGTCCGCATTTATGTTGTCAGGA +GTAAACGATAAAGTCTCGGTAGAAGCAAAAGAGCTGATCGCAATAGGGGTTGTCAGGACTATTCCCAGAA +GTTTCGCCCGCATAAAAGTTCTCCATTCAATCGTTTTAATGATTGAATATGTATTTTTTATATCTAACTT +AATGAGTCAATTACATATTGCTCCACTGTTTATATTTTGTTTAGTATTGAATGATTATCACAATGCGCTA +TCTGTTTTTGGTTTAATTATCTGTTATTGTTTCATATTTCGGTTTTACTGTGTGGTTTTTTTATGCTTTT +GTGGTGCTTTTATCTATTTAAGTGCCATGCCTTTAGAGGCATATAAGCGAAAATAGCATGAGGTTTATCC +TCAATTACTATGTTTTTTAGTACAAAAAAGAGGGACAAAACTGAGACACATAAGGCCTCGCAATGGCTTG +CAAGGCTTTACATGTTTTGAGGTAGTGGGACGTGTGAGCGCAGAGATGGCGCGGTAAGTTGTTGACTTAA +AATGTCGTTCTAGGAACTTCTAAGTCGTGGGCCGCAGGTTCGAATCCTGCAGGGCGCGCCATTTCTTCCT +CATTTATGCCCGTCTTATCCGTTTCCGCTTTGCCCTTCACCACATCACTTTTTGTCGCTGTTTGGCGAGA +TAATTCAACGGTGTCAGGCCGTAAAACGCCTTAAAAACAGAGATAAAGTACGACGTGCTGCTATAGCCAC +ATAATTGCGCCACCTGAGTGATATTTTTGTTATCCATCAATAACATCTGTACGGCGTAACGCATACGACA +CTCTGTGACAATCTGGCTATAGCTGGTATTTTCGTTTTTTAATTTCTTTTTGAGCAGGCTGGGGCTTAAA +CATAGCGAACTGGCGACAATTCGCAGATTCCAGTAATGCTGAATATCGCTTTGAATAATGCGGCAGACGC +TGTCGCGGACGCTGCTGCGTAAGATATACATCAGTAGGGCAATAAACCGCGATTGCTCAAGAAAGTTAGA +CAATACGGTAAAAAGCAATGCGCGCGTCAACTCCGCTTCGCAGGGTCTGCTGGGTTGCTGCTTGCTGTGG +TTGGCGGCTAGCCGGAACACTTCCGGTGTACGGCTATGACAAGCGATAACCGGGGTTGCCAGCCGCGACC +AGGGCTTTACACAGGTTAAGTTCTTATTTAAAAACAACAGATAATCGTTGATGATGTTACGGTTGATGTG +GGTGATTAATACGTGATTTAACGTTGAGAGTTCAATGACGTTATTGTTGCACGCGAAGGCGGCCAGGTAG +TTTTTCGGAAGGGTAAACGTAGCATGGTTATTGACGCTTACCTCTACCTCTTTTTCGGTCAGGATCACCA +CGCAAGGTTCACTGCTGCTCAATTGCATTTCGCACTCCTCAGATATCAGAAACTCCGCTCAAAGGATCTA +TGCTTCCTGCATGAGTGATCGGCCCGTTCGCCGATAACGATCTTCTTTCTTTAGCACGCTTTTTAGCAAT +TAATCTTGATGGAATTCTGATGAGAGCGAAAGAGGTAAGCCAGGTCGTACCCGACTTACCTGGAGGAGAT +TTAATACTCGAGAATGCCGTGCGCGACGGGCAAATAGCGCAGAGAGAAATAGAGAGTGTCTTTACCGCAA +GAGGAACGTTTCGCTAACAGCGAGGCAATTTCTGCGTCCGGTTTCGGTTTCGCTGTAAAGGTTTTGCCTT +TGCCGGCGACAAAAAGTTCATAAACAACGCCGCTGGCAGGGGCGGGACTTTGGCAATCGGCGCTGGCCTG +TAAATAACGTTCACGCTGTTCAGCGGTCAGTTTATCCACGCCGCTGCCATCCTGTACCCAGACATTAACG +CCGGTTGCTTTAACGTGTTCCAGCAGTTGGCGATAGCCATCGGGCGACATGTTTCCGGCGAAAAAACTAC +TGATATAAACCGGTTTTGCTGAAACATCGCTAATCAGCCGCTGCGCGTTGTTTAACCATGTTAGCAAAGG +CTGACGGGCGGCTTCGCTGCGCCAGTTCAGGTCGTCAATTTCCGCGCTGATGTACCAGCCATCCGGCGTT +ATGCCAGGCGCGGCGCTCCATAATCTGGCTTGCTGGAGATCGGCAGCCAGCAGGCGATTAAGATAGCTTT +CCAGCGCTGCGGACGACTGTTTCTGGTGCATAAAAAATTCCGGATCGGCGTTCAGCCCGACAATAAGCTT +CAGACCAGCCTGTTGCGCAGCTGCGGCCCGCTTAAACAATAACGTGCGCTGTTCTGGCTGGGTAAATGCA +TCGCCGTAACGGGTCCATTGCAAAACAAGGGTATCGAAGCCTTGCAAACGTAACTGACTCATCAGCCCCT +GCCACTGGGTATCGGTAACCTGACTATCTCGGTTTTGTGGTTGCCAGATAATACCTTTCATCGCAAAGGA +AAAAGGGCTGACCAAAAGCAGTGTCAGCAATACGAAAATGAACTTACGCATTTACCAGTGCACTCCAATG +GTGAGAAACGCGTTGTTGCGCTCTCCGTTACGTTGATTAATCGCCTTAAAGGTATGTTGATACTCGACGC +CGAGACTGACTTTGTGCGGCCAGGCGTCGTAGTGCGTCTCGCCGGTCCAGATATTCCAGCGGACCCCGAC +TCCGCCAAGCTGCGCGCCCTGAGTGCCTTTATCACGATAGCCGTTGTCCTGAACGTGAGCGTAAGGCTCA +ATAGTCTGTCCGTTAGCTACCTTCTGATGCCAGCTGACGCGATAATCTGCCGTCCACGCCTGAATATCCT +GGCGGATATATTGCGCCGCATCGAGGTACAGGTTTTGGGCAAACCAGCCTGAACCGTTCGGGTGCCATTC +GTCGCTGTATTTGCCGCCATTAAAGAATGAGGCGCTGGCGCGCAGCATGGTATCGGATGCGCCATTTTGG +CCGTTCAGCGGCAACTGCTGTTCGACGGCGATGAAAAAGATCTGATCGCGCAGCGGCTTCCAGCGCAGAC +CGGTGCCGGACATCGGATTTTTCACCGGCATCATCACCCCGTTTTCTCCGGTATCGGCAAAGACGCGGCT +ATAAACTGAGAGCAGGTCGCCTTCCAGCAGCATATTGCGTCCGATGCGGTACTCGGCTTCCAGTTGTCCG +TAGCTACGATAGCTTTTCCCTGGCGCTGCGCCGCCGACATTATTGTTAGCGGTACTCATTGCGCCGGAAC +GCAAGCCGATGGAAGAATCGAAACTGAACGTCCAGCGGCGACCGACCTCCTCATGCAAACGGCGGAAATT +GAAGCGTTGTTGATTTTGTTCTGGGGTCAGTGGGGTTATCAGCGCCTGATTATCAATGTCATCAATCACC +AGCCGGGCGTAGTGCTGCGTCGCAGGCATGTCATCCAGACGCTGGTTCACGTAGGCCAGTTGTCGGATCA +GTGCCGGATCGTCCGGAAGCCCTTTATGCGCCGGTTCGAGCATTTCCCGCGACTGTGCGATATCACCGCT +ATCCCACAAGGCGTAACCAAGCGCTGCCTGGGTGTTGCTATTATTCGGTTCCAGTTCCAGCGCGGCGCGC +AAATCACTCACCGCGGCCGGGACATTATGACGTTGGCGATAAATTGTCGCCCGCGCAACGTAAGCGTTGG +CAGAAGGCGCAATATTGATTGAGCGCGTGAGATCGTTCAGTGCGAGTTCCGGCTGACCAGGAATGTAACG +TTGCGCATGCAGCCACCAGTAGAGGGCATTGCTTCCCAGTCCACGTTTTTCTGCCTGTTGTAGCCAGCGA +TCGCGAGCCGCACCATTTCCTGCCGCCTGGGCGGTATTGGCAGCAGCAAGCAGATCCTCATTGCTCATGT +CGTGAAGACTGATTTTCTGCCAGGCCGCCAGTGCGGTGGCGTAGTCCTCAACCTGATACGCCTGATAGGC +TACCGCACGATGTTGCCAGGCGCTCGGTTGTCGTTGTTCGGCCTGAAGCCATGCATACAACGCCACACCG +GGTAGCGTGTCCCGATAACACTTTGCCAGACGGTTCCAGGCGGCGGCATCGTAGGAAGGCGACATATCGC +CCAGCAAGCGAACTATTGCCGGGCAATTATCTGCAATACCCGGCAACTGACTTTGCCACTGACGTTGCTC +CGCCAGCGGTAAGGGTTTCGATAAAATCGCCACCTTCGCCGGCGTTGCCAGGTAAGGATGACTTTCCAGC +AGAGACGCCAGTCGCGCCATTAAAGTCTGGCTGACACGCGCATCGCCCTGGAAAGGATAGCGTTGCAGCA +ATAAATCGGCAGCTTCGCGTGACTGCTCGTTCTGCATCAGTTGCCAGGTTAGTTGATCCAGGCGGGTAAG +ATTTGCCGGTTCTTGCTGATACAGCAATCGTGCCAGACGCAGAGCTTCAGCCTTGTTACGGGTCGCCACG +CTGACAGCATAACGCTCCTCAAGCATTTCATTGGCGGGGAGGGTGGCGAGCAGTTTTTGCGCTGCGTCGT +ACTGACCTTCTTTTAACAGCACCGGTAGCGTCGCGCCAACAACATACTGGCGGTTGTCGGCAAACTGTAC +CGTATAATTCGCCAACGCCTGAACGGGGTTAGCGCTGTATTTAGATAACAGATAGAGCCAACTTTTCTCT +TGTGCGTCCGTGGTAAATAGTGGCTTATTTTCAATGAGATAATGCTGGAGGCGTGCTTTTTCGCCACGAT +AAGCCAGCGCGGTCGCGTAAGTAATATATGACTGAGGATCGGTGAAGATCCCCTGTGATTGCAGTGCCAG +GATCCGATCGTCCAGCTGCCCGGCAAGAAGCACGTCAAACCACTGACGGCGTTCTGCCGCGCTTAATGTG +TTCTGCTGGCGTGCTTCATTGTATAGCGTATCTGCCTGGGACCATTGTTTCAGGTAGATTGCCCGTTGCA +GCAGATCGGTTCGCAGCGTTTTTCCTTCCGGCGATGCAGCAAACGTCGCATCGTTCAGTTGCGCTCTGGC +GACAGGTAACTGTGCCAGCCGCAGGGCATTCTGCCCGACTTCACTGCGACAACGCAGGGTCGGCGCAGCA +TCGCACGCTTTTTGCTGGGCAAGCAGTTCTTCAACTGTCGTAACGCTTTTCACTTCAACCGGAATAGCCG +CCAGACTGCGCTCAAGTCGGGCATCTCCTGGGTGACGTTTCAGTTGATCCTCAAGCAACAGCCGCGCCCG +GTCATCATGACCAAAATGGCGATAGGCTTCCGCAAGGTATAAAGTCAGCGGAATATTATCCGGCACCTGC +TGGTGTATATATTCAAATTCGCGGATGGCGGTTGCTTCGTCGTTATTTTTCTGTGCCTTCAGCGCTTTAT +CGAGACGGGGATAAATAACAAAATGGCGATAATCGCTCAGCCCCAGCTCTTCTGCGCTGGTGCCGATATT +GTCTGCGAGTGCGCTGGTACTCAATAAAGACGTCAGCAGTAAACCAGACCATCCGATGACGCGATTAAGG +TTATTCTCCTTCATTTTCGGACTCCAGTTGCGCAACCTGTTCTGTGTTTAAACCTGCTTTGAGTAATAGT +GATTGCATCGAAACTTGTAATTCGCGTTGAATTGTCAGGACGCGATCCAACGTTTCCTGGCTGATAACGC +CTTCGGTGACCAAAAACTTGCCGAGCGGCAGAGAACTGCGTTCATGGCGCAATAACAACACGTTAATTGC +TGAACGATTAATATGACCGAGCGTGGTCAGTATTTCGGCGAACAGGAACTGATGCGGCACATATTGCCGC +CAGATTTCACCGGCCTGCTGTTCCGTGAGCCACTGATGCTGAACCGCATTGTACAACATTGCCCGCGGAT +CGTGACCGCGTCGGCGTGCATACCAGTGACGTAACCCTGTGACAATTTGTCCCCGCAGAACAATGACGTA +ACGCACTTTGCGTCCGACTTTACGCGTCAGGGCCGCCAGCGAAACCGGGTCAATACCATCTTCACTGCCG +ACAATTAACTCGTCATTTTCCAGACGCAGCGGCAGTACCGCATAATGCAGCGCCACGGAGGCCGGCATTT +CGGCAATCAGCGAGGAAGGGATCTGCCAGGCATCGATGGATTCCCACGCCACGCCGTTTTGCTCTGCCAG +CGCCTGTGCCAGCTGCTCGGCGCTAATCAGCCCCTGCATCAGCATTGAACCGCCCAGGCGTAGACCTTCG +ACGCGATTACGCAGTGCTGTATCGAGTTGTTCTTCAGTGATGACCTGATTTTCCAGCAGAATTTGACCTA +ACGGGCGCAACGAGCGGGTATCGCCAGTCACGCTGGGGAAGTCATGCGTTGTTTTATCCCACGCCACGCG +ACGTGGATCGCCGTGTTGAAGTACCTGTTTTAGCGCGCGCCAGTTGGCCATGAAGTTAATCAGGTTGCCC +CAGAAAAGACGCAGGACGGAAAGCAGCCCCTGCGTCAGGCCGTAGTAGCCAGTAACGAAAATCACCCGCT +GCACGATGCGGTTAACCATCAAACCAAAGTTTAGCCACAGCAGGGTCATTAACCATGCGCTGCCGCTGAA +AATAGAAAGGAAATGCCAGGCATCGGGCCACAAACTTTCATACGCCAGCAACAGCAAAAGCTGGATCATC +ACCAGCATCGCGAGGAAGCTGACAAAGTTACTGATTGCCCCTTTGCGGTCGCGCCAGAGAAAGTAGTTCA +GCGTCAGGCTGGAGGTCCATTTATGGGTTTTAAAGCCTTGGAAAACAATGCCGATGATCCAGCGGGATTT +TTGTCGAACCGCAGTCGAAAAGGTATCGGGGAAATATTCGCGCACGCAGATCATGTTTGATGTCCGCGCG +TGCTGTAAAAATTTACGCTGCTCGCGTTCTTTGGCTTCGTCCACCACCGGAAAACGGACAAAAATTTCCG +TCATACCTTTTTCTTTCAGGCGGAAGCCAATGTCGTAATCTTCAGTAAGACTCTGCACGTCGAAAGCAAT +ACCGTCACCGTCAGCTAACAGTGCGGTCACGGCGCGGCGGCTGAAACAGGTGCCGACGCCTGCGCTGGGC +ACTTGTCCGGCGAGGGCTTCACGCACCGGAACATCTTTGCCATGCAGCTCTGAAAACTCATCAATGTAAG +TCATGCTGGTGAAGTGCGTCCATTCGCGTTCGAACGGATACACCGGGATCTGAATCAGATCTTTACGCTC +GACCAGATAGTTGAACAGACGCAATTCCATCGGTGAAATCACATCTTCGGCGTCATGCAGAATAAAACCA +GCAAAAGCGAAATTGGCGCTACGCTCAAATTGGGTGATGGCGTCCAGCACGTTGTTCAGACAGTCGGCTT +TGCTGGTGGGGCCAGGACGCGCGCAGACTACCTTATGCACATTCGGGAAGCGAGCGCACACTTCGTCAAC +ATCACGCTGAGTATCGGGGTCGTTGGGGTAGGTGCCAACAAAGATATGATAGTTTTCGTAGTCGAGCGTG +GTCGCCGCCAGCTCGGCCATATTGCCGATGACGCCCGTTTCATTCCACGCCGGAACCATAATCGCTAACG +GTTTTTCATCTGGTTTATACAGTTCGCGGTAACTCATTCGCGGGTAGCGGCGATAAACACTCAACTTGCG +TTTAATGCGGCGTACCCAGTAGACGACATCAATAAAAAAATCGTCCAGCCCGCTGATGAACATGATGACC +GCTAACGTTATCGCGATTACTTTTAAGCCGTAGAGCCAGGTAGCAAAAACATCAAGAAGCCAGTCCACAC +AAAAACCTTACATTAACGCTGGTTATGTTTAGGGTGGCGTATATTAAGGTTTTTTATGAATTGTGACAGC +TTTTTACCATTAATAGGTATGACTATTGCGGCACGTTATTTTTACACTGGTTATAAAAGTTGCCGTTTGC +TGAAGGATTAAGCGGGTAATGTGATAACAAACCTTGTCCCCCGCGCATCCGACGTTACCGCAACCGTGCC +TTTATGCGCGACAACAATCGATTTCACTATCGCCAGGCCAATACCGCTACCTTCACCTTTTCGCTGGCGG +GAGGGGTCAACGCGATAGAAACGGTCAAACAATCGCGGTAAGTGCTCGGGCGCAATGGGCGTACCGGGGT +TTTCGACGATAACTTGCACCAGGTGATCGACCGTCTGACAGCGCACTACAATTGTCTCTCCGGTTGGCGT +ATAACGCAGGGCGTTCGAAAGCAGGTTGCTTAGCGCCCGACGCAGCATCAGCGGATCGCCCGCGACCTGA +CACTTGTCGCCAACAAACCGCAACTCCACGCCGCGATCTTCCGCTAACGCCTCGAAAAAATCGAACACTT +TGCCGACTTCATCCGCCAGGTTGAGCATTTTCTTTTCGGGGATTAGCTGGTTGTTATCGGCCTGAGCGAG +AAACAGCATATCGCTGACCATTTTCGCCATTCGCGTCAGCTCTTCGAGATTAGAGTAGAGCACATCTTCC +AGCTCCTTCTGGCTGCGCGACTGGCTGAGGGCGATTTCGGTTTGCGTTATGAGATTCGTAATTGGTGTGC +GAATTTCGTGAGCGATATCCGCTGAGAAATTGGACTGGCGGGTAAAGACATCCTCAATACGCTCGATCAT +ATGGTTGAACGACAGTACCAGCTGTTCCAGCTCAATGGGCACGGTCTGCGGGTCGAGGCGAACGTCGAGA +TCTTTCGAGGTAATATTCTGGATTTGACGGCTGACGCTGCGGATCGGCGCGTGACCTTTATGTACCGCCA +ACAGTACGATAAAGACGATCAGGATGCTGATTACCGATGCGGTCATAATAAGTTTATTCATCAAATCATT +TATGTAATGAAGATGAAAATCGATCGAAAGCGCGATGTAGAGCGTATAAATCGGTTTGCCGTCCACCAAC +GGGCCAACCGGCAAGTTAATCATCCGCCAGTTGCTGTGTTCCATATGCCCGTGACCGTGGCCTGGCATCA +TCATCGTCGGGCCGGAAAGGAGATACACCTCGCCACCCTGAGCGTCTTTATCGGGTATGGCGTCACGCGT +AAACTCGCGGATATCCGGCGCACCGGGGGAGTGATACACCGTTTTACCCTGACTATCTGCCAGGGAAATC +AACACATTGGAATAACCACTGACGATATCTTCCAGCGTCATTAAGCGTCGGGCTTGCGTTTCGTCAGGGT +GATTTAGTACCCGTTCAAGGGTGGCGCTAATCTCTTTTAAATCATTAATATCCTGCTCGGCAAAATGAAC +TTTTACTGAGTGGATCATGATCCATGCAAAGGCGAAAAACGCCGCGATGGTGGCCAGGCTGATAAAAAAG +GTCAGGCGGGTTGCCAGCGAAAACGGGCGCTGAAATGGCTTACTGACCATCCGGCACCTCAAGCATGTAA +CCCACGCCGCGCACGGTCTGAATTAGCTTCGGCTCAAAGTCGTTGTCGATTTTGCCGCGCAGCCGCTTCA +CCGCCACATCAATAGCATTGGTATCGCTGTCAAAATTCATGTCCCATACCTGCGAGGCGATAAGCGAGCG +GGGCAGCACTTCGCCCTGATGGCGAAGGAAGAACTCCAGCAGAGTAAACTCTTTACTGGTCAAAGTGATG +CGCGTGCCGCTGCGGGTGACTTTGCGGCTGACGAGATCGACCATCAAATCGGCAACCTGAAACTGACTTT +CGATAATCACCGCCGCCCCGCGCCGCAGTAATGTGCGCACCCGCGCCAGCAGTTCAGCAAAAGCGAATGG +CTTCACCAGGTAGTCATCTGCCCCCAACTCCAGCCCCTTGACGCGATGTTCAATGGTGCCAAGCGCGGTA +AGCAACAGAATCGGCATCCCTTTATTGGCGGAGCGTAACATGCGCACGATATCCCAGCCGTTCACGTCCG +GCAGCATAATATCGAGGATTATCAGATCATAATCACCGGTCATCGCCAGATGGTAGCCATTCAGCCCGTT +GTCGGCCAAATCGACCACAAAACCGGCTTCGGTTAACCCTTTGGTCAAGTATTCTCCGGTTTTCTTTTCA +TCTTCGACAATCAACAGTTTCATATTTCCTCCGCATGTTGCCCGGGCAATTCTAGAGTAGCGGGATCAGA +TGGCAATCGCTTATTGGCAAAATGACAATTTTGTCATTTTTCTGTCACCGGAAAATCAGAGCCTGGCGAG +TAAAGTTGGCGGCATAAAATCACCAGAAATTATGAGCCTATGTCTCCTTGTAAACTTCTGCCATTTTGTG +TGGCCCTTGCGCTAACCGGTTGTTCACTGGCACCGGATTATCAGCGTCCGGCAATGCCCGTGCCGCAGCA +GTTCTCACTCAGCCAGAACGGCCTGGTTAACGCAGCAGATAACTATCAGAACGCGGGCTGGCGCACCTTT +TTTGTTGATAATCAGGTGAAGACGCTGATTAGCGAGGCGCTGGTGAATAATCGGGATTTGCGCATGGCGA +CGCTGAAAGTGCAGGAGGCACGGGCGCAATATCGTCTGACCGATGCCGACCGCTACCCACAGCTCAATGG +CGAGGGCAGCGGCAGCTGGAGCGGTAATCTTAAAGGGAATACCGCCACGACACGGGAGTTTTCGACCGGC +CTTAACGCCAGCTTTGACCTCGATTTTTTCGGTCGCTTAAAGAACATGAGCGAAGCCGAGCGACAAAATT +ATTTAGCCACTGAGGAAGCTCAGCGCGCGGTGCATATTCTGCTGGTTTCTAATGTCGCGCAAAGCTATTT +CAATCAGCAACTGGCGTATGCGCAATTGCAAATAGCCGAAGAAACGCTGCGTAATTATCAGCAGTCATAT +GCGTTTGTCGAAAAACAACTGTTGACAGGTAGCAGTAATGTTCTGGCGCTGGAACAGGCTCGCGGGGTGA +TAGAAAGTACCCGCAGCGACATCGCTAAACGTCAGGGGGAACTGGCGCAGGCGAATAATGCATTGCAACT +GTTGCTGGGAAGCTACGGCAAGCTGCCGCAAGCGCAGACAGTAAACAGCGACAGCCTGCAAAGCGTTAAA +TTACCGGCGGGATTGTCGTCGCAAATCTTATTGCAGCGCCCGGATATTATGGAAGCTGAACACGCGTTAA +TGGCGGCTAATGCCAATATTGGCGCTGCACGCGCGGCATTTTTTCCGTCTATAAGCCTGACCAGCGGAAT +ATCGACCGCCAGTAGCGATCTATCGTCATTATTTAACGCCAGCAGCGGGATGTGGAATTTTATACCCAAA +ATTGAGATCCCCATTTTTAATGCCGGACGCAACCAGGCCAATCTGGATATCGCCGAAATTCGCCAGCAGC +AGTCGGTGGTGAATTATGAACAGAAAATCCAGAACGCCTTTAAAGAAGTGGCAGATGCGCTGGCATTACG +TCAAAGCCTGAACGATCAAATTAGCGCCCAGCAGCGTTATCTGGCATCGCTGCAAATTACTTTGCAACGG +GCGCGGGCATTATATCAGCACGGCGCAGTAAGTTATCTGGAAGTGCTGGATGCCGAGCGTTCTTTATTTG +CAACCCGACAAACTTTACTTGATCTGAATTATGCCCGTCAGGTTAACGAAATTTCTTTGTATACCGCACT +TGGTGGCGGTTGACAGCAATATACTCGTCATACTTCAAGTTGCATGTGCTGCGTCTGCGTTCGCTCACCC +CAGTCACTTACTTATGTAAGCTCCTGGGGATTCACTCGCTTGTCGCCTTCCTGCAACTCGAATTATTTAG +AGTATGACTTTTAACTCCAGGAGAGAATAAATGAAAAAAGCACTGCAAGTCGCAATGTTCAGTCTGTTTA +CCGTTATTGGCTTTAATGCCCAGGCTAACGAACATCATCATGAAACCATGAGCGAAGCACAACCACAGGT +TATTAGCGCCACTGGCGTGGTAAAGGGTATCGATCTGGAAAGCAAAAAAATCACCATCCATCACGATCCG +ATTGCTGCCGTGAACTGGCCGGAGATGACCATGCGCTTTACCATCACCCCGCAGACGAAAATGAGTGAAA +TTAAAACCGGCGACAAAGTGGCGTTTAATTTTGTCCAGCAGGGCAACCTTTCTTTATTACAGGATATTAA +AGTCAGCCAGTAACCCAGGTTTAATGAGATGAAAAAAATCGCGCTTATTATCGGCAGCATGATCGCGGGC +GGTATTATTTCTGCGGCAGGTTTTACCTGGGTTGCAAAGGCGGAACCGCCTGCAGAAAAAACGTCGACCG +CAGAACGTAAAATCTTATTCTGGTACGACCCAATGTATCCCAATACGCGGTTCGATAAACCAGGTAAATC +GCCGTTTATGGATATGGATCTGGTGCCGAAATATGCCGATGAAGAGAGTTCTGCGTCTGGTGTGCGCATT +GACCCGACTCAGACGCAGAATCTGGGGGTGAAAACGGCTACCGTCACGCGCGGACCGCTGACTTTTGCCC +AGAGTTTCCCGGCGAATGTCAGTTACAACGAGTATCAGTATGCCATTGTGCAGGCTCGCGCTGCCGGGTT +TATCGACAAGGTGTATCCGCTTACCGTGGGCGATAAAGTACAAAAGGGCACACCGCTTCTCGACCTGACC +ATTCCTGACTGGGTGGAAGCGCAGAGTGAGTATTTACTGCTGCGCGAAACCGGCGGTACGGCGACCCAGA +CTGAAGGCATTCTTGAGCGGCTGCGACTGGCGGGAATGCCGGAGGCGGATATTCGCCGCCTGATCGCCAC +GCAAAAAATCCAGACTCGCTTTACGCTCAAAGCGCCCATTGATGGCGTGATCACCGCGTTTGATCTGCGC +GCGGGAATGAATATCGCCAAAGATAACGTGGTAGCGAAAATTCAGGGTATGGACCCGGTGTGGGTCACTG +CTGCGATCCCGGAGTCTATCGCCTGGCTGGTGAAAGATGCCTCGCAGTTTACCCTCACCGTTCCGGCGCG +ACCGGATAAAACACTCACCATCCGCAAATGGACGCTGCTACCTGGCGTGGATGCCGCGACCCGCACGCTG +CAGCTGCGTCTGGAAGTCGACAACGCCGACGAGGCGCTAAAACCGGGCATGAACGCCTGGTTGCAACTCA +ACACCGCCAGCGAACCGATGCTGCTCATTCCGTCACAAGCGCTGATTGATACCGGCAGCGAACAGCGGGT +GATTACCGTTGATGCCGACGGGCGCTTTGTACCGAAACGCGTTGCTGTTTTCCAGGCATCGCAAGGCGTC +ACCGCATTACGCTCTGGTCTGGCGGAAGGTGAAAAGGTGGTTTCCAGCGGCCTGTTCCTGATTGATTCCG +AAGCCAATATTTCTGGCGCACTGGAGCGGATGCGCTCTGAAAGTGCTACCCATGCGCATTGAGGGAATAA +CCAATGATTGAATGGATTATTCGTCGCTCGGTGGCGAACCGTTTTTTGGTGCTGATGGGCGCGTTGTTTC +TGAGCATCTGGGGCACCTGGACCATCATTAATACGCCAGTGGATGCGCTGCCGGATCTCTCCGATGTGCA +GGTTATTATTAAAACCAGCTATCCCGGTCAGGCACCACAAATCGTTGAAAATCAGGTGACTTATCCGCTA +ACCACCACCATGTTGTCGGTGCCTGGCGCGAAGACTGTGCGCGGTTTCTCACAGTTTGGCGACTCTTATG +TGTATGTCATTTTCGAAGATGGCACCGATCCGTACTGGGCGCGTTCGCGGGTGCTGGAGTACCTCAACCA +GGTACAGGGTAAGCTGCCTGCGGGAGTCAGCGCCGAGCTGGGGCCAGATGCCACGGGTGTTGGCTGGATC +TATGAATATGCACTGGTGGATCGCAGCGGTAAGCACGATCTGGCCGATTTACGCTCATTACAGGACTGGT +TTCTCAAATATGAGCTGAAAACCATCCCTGACGTTGCGGAAGTGGCGTCGGTGGGCGGTGTGGTGAAAGA +GTATCAGGTGGTTATCGATCCCCAGCGCCTGGCGCAGTATGGCATCAGTCTCGCCGAAGTAAAAAGCGCG +CTGGATGCTTCAAACCAGGAAGCGGGCGGTTCGTCGATCGAACTGGCGGAAGCGGAATATATGGTGCGCG +CCAGCGGCTATCTGCAAACGCTCGACGACTTTAATCACATCGTTTTAAAAGCCAGTGAAAATGGCGTGCC +CGTTTATCTGCGCGATGTTGCGAAGGTCCAGATTGGCCCGGAGATGCGCCGGGGCATTGCCGAACTAAAC +GGCGAAGGCGAAGTGGCGGGCGGGGTGGTGATCCTGCGATCCGGCAAAAACGCCCGAGAAGTGATCGCCG +CCGTGAAGGACAAACTGGAAACGCTGAAAAGTAGTCTGCCGGAAGGCGTGGAGATAGTTACAACATACGA +TCGCAGCCAGCTCATTGACCGCGCCATCGACAACCTCAGCGGCAAGTTGCTGGAAGAGTTTATTGTGGTG +GCGGTAGTCTGTGCGCTGTTTCTCTGGCATGTGCGCTCGGCGCTGGTGGCGATTATTTCGTTGCCGCTGG +GGTTGTGTATTGCTTTTATTGTCATGCACTTCCAGGGACTGAATGCCAATATTATGTCGTTGGGTGGCAT +TGCGATTGCCGTCGGGGCGATGGTCGATGCTGCTATCGTCATGATCGAGAATGCGCATAAACGGCTGGAA +GAGTGGCAGCACCAGCATCCTGACGCCACGCTGGATAATAAAACGCGCTGGCAGGTGATCACCGATGCGT +CTGTTGAAGTGGGGCCGGCGCTATTTATCAGTCTGCTGATTATCACGTTGTCGTTTATCCCGATCTTCAC +CCTGGAAGGGCAGGAAGGGCGTCTGTTTGGCCCGTTGGCGTTCACCAAAACGTATGCGATGGCGGGTGCG +GCGCTGCTGGCGATCGTAGTGATCCCGATCCTGATGGGCTACTGGATCCGTGGCAAAATTCCGCCGGAAA +GCAGTAACCCGCTCAATCGCTTTTTGATTCGTGTTTATCATCCGCTGTTGCTGAAAGTACTGCACTGGCC +GAAAACCACGCTGCTGGTGGCGGCGCTTTCGGTGCTGACGGTTCTCTGGCCGCTCAATAAAGTTGGCGGG +GAATTTTTACCGCAGATCAATGAAGGCGACTTGTTGTATATGCCATCGACGCTGCCGGGGATTTCCGCAG +CAGAGGCGGCGAGTATGCTGCAAAAAACCGACAAGCTAATTATGAGCGTACCTGAAGTGGCGCGGGTATT +TGGCAAAACCGGGAAAGCGGAAACCGCCACCGATTCTGCTCCGCTGGAGATGGTAGAAACGACCATCCAG +CTTAAGCCGCAGGAGCAGTGGCGGCCAGGCATGACGATGGACAAAATCATTGAGGAACTGGATAACACCG +TGCGGCTGCCGGGGCTGGCGAATCTGTGGGTGCCGCCAATTCGTAACCGTATCGATATGCTCTCAACCGG +CATTAAAAGCCCCATCGGCATTAAAGTTTCCGGCACTGTGCTGGCGGATATCGACGCGATGGCTGAGCAA +ATTGAAGAAGTAGCGCGAACGGTGCCAGGCGTAGCTTCTGCGCTTGCCGAGCGGCTGGAAGGTGGGCGCT +ATATCAACGTTGAGATTAACCGTGAAAAAGCCGCACGTTACGGTATGACGGTGGCGGATGTGCAGTTGTT +TGTGACTTCTGCGGTGGGCGGGGCGATGGTTGGCGAAACGGTGGAAGGGATTGCCCGTTATCCAATTAAT +CTGCGTTATCCGCAAAGCTGGCGCGATAGTCCGCAGGCACTGCGCCAGCTGCCGATCCTGACGCCGATGA +AGCAGCAAATCACCCTGGCAGACGTGGCCGACATTAAAGTCTCTACCGGACCGTCGATGCTGAAAACCGA +GAATGCGCGCCCGACGAGCTGGATTTATATCGATGCCCGCGATCGTGACATGGTGTCGGTGGTTCACGAT +TTGCAAAAAGCGATAGCTGAAAAAGTGCAGTTAAAACCGGGCACCAGCGTGGCATTCTCCGGGCAGTTCG +AGCTACTGGAGCGCGCCAACCATAAGCTTAAACTCATGGTGCCGATGACGTTGATGATTATCTTCGTGCT +GTTGTATCTGGCGTTCCGTCGGGTGGGCGAAGCGTTGCTGATTATCAGCAGCGTACCGTTTGCGCTGGTG +GGCGGCATCTGGTTGCTGTGGTGGATGGGCTTTCATCTTTCCGTGGCGACGGGCACTGGCTTTATCGCCC +TCGCCGGGGTCGCCGCCGAATTTGGCGTGGTGATGCTGATGTATTTACGTCACGCCATAGAGGCCGTGCC +GTCGTTGAATAATCCACAAACATTCAGCGAGCAGAAGCTGGATGAGGCGTTATATCACGGCGCGGTCCTG +CGCGTGCGCCCGAAAGCGATGACGGTGGCGGTGATTATCGCCGGTCTGCTGCCGATTCTGTGGGGAACGG +GGGCTGGTTCAGAGGTGATGAGCCGGATTGCCGCGCCGATGATTGGCGGCATGATCACCGCACCTTTGCT +GTCGCTGTTTATTATCCCGGCGGCGTATAAGCTGATGTGGCTGCACCGACATCGGGTACGGAAATAAAAG +CAGGATACCCCGTTTAACCGTGTGGATTGTGTCTTGCGACGATGGGCACTAAATGTTAAAAGGTGCCCCT +CAACAAAAAAGACACACAGGGGAAAGGCGTGAAAAACGCGTCAACCGTATCGGAAGATACTGCGTCGAAT +CAAGAGCCGACGCTTCATCGCGGATTACATAACCGTCATATTCAACTGATTGCGTTGGGTGGCGCAATTG +GTACTGGTCTGTTTCTTGGCATTGGCCCGGCGATTCAGATGGCGGGTCCGGCTGTATTGCTGGGCTACGG +CGTCGCCGGGATCATCGCTTTCCTGATTATGCGCCAGCTTGGCGAAATGGTGGTTGAGGAGCCGGTATCC +GGTTCATTTGCCCACTTTGCCTATAAATACTGGGGACCGTTTGCGGGCTTCCTCTCTGGCTGGAACTACT +GGGTAATGTTCGTGCTGGTGGGAATGGCAGAGCTGACCGCTGCGGGCATCTATATGCAGTACTGGTTCCC +GGATGTTCCAACGTGGATTTGGGCTGCCGCCTTCTTTATTATCATCAACGCCGTTAACCTGGTGAACGTG +CGCTTATATGGCGAAACCGAGTTCTGGTTTGCGTTGATTAAAGTGCTGGCAATCATCGGTATGATCGGCT +TTGGCCTGTGGCTGCTGTTTTCTGGTCACGGCGGCGAGAAAGCCAGTATCGACAACCTCTGGCGCTACGG +TGGTTTCTTCGCCACCGGCTGGAATGGGCTGATTTTGTCGCTGGCGGTAATTATGTTCTCCTTCGGCGGT +CTGGAGCTGATTGGGATTACTGCCGCTGAAGCGCGCGATCCGGAAAAAAGCATTCCAAAAGCGGTAAATC +AGGTGGTGTATCGCATCCTGCTGTTTTACATCGGTTCACTGGTGGTTTTACTGGCGCTCTATCCGTGGGT +GGAAGTGAAATCCAACAGTAGCCCGTTTGTGATGATTTTCCATAATCTCGACAGCAACGTGGTAGCTTCT +GCGCTGAACTTCGTCATTCTGGTAGCATCGCTGTCAGTGTATAACAGCGGGGTTTACTCTAACAGCCGCA +TGCTGTTTGGCCTTTCTGTGCAGGGTAATGCGCCGAAGTTTTTGACTCGCGTCAGCCGTCGCGGTGTGCC +GATTAACTCGCTGATGCTTTCCGGAGCGATCACTTCGCTGGTGGTGTTAATCAACTATCTGCTGCCGCAA +AAAGCGTTTGGTCTGCTGATGGCGCTGGTGGTAGCAACGCTGCTGTTGAACTGGATTATGATCTGTCTGG +CGCATCTGCGTTTTCGTGCAGCGATGCGACGTCAGGGGCGTGAAACACAGTTTAAGGCGCTGCTCTATCC +GTTCGGCAACTATCTCTGCATTGCCTTCCTCGGCATGATTTTGCTGCTGATGTGCACGATGGATGATATG +CGCTTGTCAGCGATCCTGCTGCCGGTGTGGATTGTATTCCTGTTTATGGCATTTAAAACGCTGCGTCGGA +AATAAGGCATTCACGCTACATCCGACAAAACGATGTCAACCATCCGAAACCGCTCTCATCCATTCGATGA +GAGCGGTTTTTTTAATTACTGCTTAAATGCACCCGCCAGAGAGCGAATATCATTGCCGGTTGGCGACTGA +TGAAGTCGCAGACCAAACTCTTCGACAATCGCAAATATGTGATCGAATATATCAGCCTGAATGCTTTCAT +ATTCCAGCCACACCACGGTGTTAGTAAACGCGTAGATCTCGAGCGGTAAACCGTTATCACCTGGAGCCAG +TTGGCGTACCATTAAGGTCATATCTTTACGAATCCGCGGATGGTTACGCAGATATTCGTTCAGATAGGCA +CGAAAGGTTCCAATATTGGTCATTCGGCGCAGATTTAATACCGACTCCGTAGAACCTTGCTGGCGATTCC +ACTCATTAATTTCCTGATGGCGGCTGGTTAAATAAGGCTTTAACAAATGCGCTTTATTCAGACGTTGCAT +TTCGTCTTCATCAAGAAAACGAATACTGGTGACATCAATACTGATACTGCGCTTAATACGTCGCCCGCCA +GATGCTGACATCCCGCTCCAGTTTTTAAAGGAGTCAGAAACCAGAGACCAGGTGGGAATAGTGGTAATGG +TATTGTCCCAGTTACGCACTTTGACGGTGGTTAACCCAATATCGATCACCGCGCCATCCGCGCCGTATTT +CGGCATCTCCAGCCAGTCGCCCAGTTTCAGCATATCGTTCGCGGAAAGCTGAATACCTGCCACCAGACCA +AGAATCGGATCTTTAAATACCAACATCAGCACGGCAGCCATTGCACCAAGACCGCTGATCAGAATCGCTG +GCGACTGACCAATCAGCAGCGAGATCATCAAAATGCCGACCAGAATCGCGCCGATCAGTTTAATCCCCTG +AAATATCCCTTTCAGCGGTAACTGAGATGCTGCCGGGAATTTCTGCGCCAGATTCAAAATAACATCCAGC +AACGAGAAGACTGAAAGCAGCGCATACATCATGATCCACAACTGCGCGCAGGTAGTCAGAATATCTGCCG +CTTCGGTGCCTTTTTGCAGCCAGAATACCGCCTGAATATTGACGATAATCCCCTGCAGGGTAAAAGCTAA +ACGGTGGAAGAGTTTATTCTGGGTAATGATTTGCAACCAAAGCCGTGAACTGGCGATGGCACGTTTTTCG +AAGGTCCGCAGTACCACCCAATGCAAAATAATATGCACCACGACGGCGGTCAGAAAAATAATACCGAAAA +TCATCACCATCGAGGTGGTGTGATCGATCTCAATACCCGCTAAATCTTCAACCTGGGATATTAAATCCTG +CATAACGTCTCCTTTATACAACAGCAGCCTATGATGACGGCTGAAACAGGGTTATGCAAATCAGGAGAAT +CTGAGAGGAAATAGCCGGGCAGATGCCCGGCAAGAGAGAATTACACTTCGGTTAAGGTGATGTTTTGCGG +CAGACGAGATTTCGGCAGCGTAGCGTTAAAATCTTCAACGCTGTGATGACCTACCGGAACAACCACCAGA +CTGGTGTAGCCTTTCTCTTTCAGACCAAATTCTGCATCGAGGATGGCGGCGTCAAAACCTTCGATGGGTA +CCGCGTCCAGACCCAGAGCCGCCACGCCGAGCAGGAAGTTACCGACGTTGAGATAAACCTGTTTTGCCAT +CCACTCTGCATCATCATGCAGATCTTTACGGTGCATATCAGCGAAGAACTTGCGACCTTTATCGTTCGCG +GCTTTCGCTTCCGGCGTGGCAAAGCGGCCATCGGCATCTTCCTGGTCAACAACCAGCTTCAGCCAGACAT +CGTCCATCGCGGTTTTTGCACAGAACACCACGACGTGCGAGGCATCAAGCATTTTACGCTCGTTGAACAC +GTAATTACCGGCAGCGGATTTGGCAACACGCGCTTTACCTTCTTCCGTGCTGGCAACAATAAAATGCCAC +GGCTGGGAGTTGGTGCTGGATGGGCTGTATTGCAGTAGCGTTTTGATCTGCTCGGCCTGTTCCGGGGTAA +GTTTTTTGCTGGCATCAAATGCCTTAGTGGAATGACGCTTTAAGGCGACAGAAATGATATCCATAAAGAC +TCCATGTGAAAGTAATTTTGCGTGCCAGCAGATTACAAGGTTCAACGAGAAATGGTAAGCGAGAAAAATG +CGCTATAGATTTCCGCTTTAGCCTGGACGCACTCTTTTTTGATCGCGTTTAGCCAGACCATCAACCACCA +GATTCCACGAATCGTTGATCAGATCGCGAAGTAACGCTTCGGAGATTTCTTCGCCGGGATACACTGAAAT +CCAGTGCTTTTTATTCATGTGATACCCTGGCTTAATGCTTGGGTATATTTGCTGATTTAACAGGGATTTT +TGTGGATCGGACTTCAGATTGATAAAGGGGACGCCGCGTAGCTCCGACGACAGCATAAAAATCTTGCCGC +CAATTTTAAAAACATCGAACTCCGGGCCAAAAGGCCAGCAAAGCTCGACAAAGGGTAACTCAAGGGCCAG +GCGTTTCGCCGTTTCGTGCAGTGATTGCTTATCCATAAACGTTCCTTTAGGCGAAGGAGAATAAGCAAAG +TATGCCGCGAAGTACGGCGATAATCGACGTTTAATCCGCCAGCGAGAACCAGCGTCGCCAGATAAAGCGC +AGAACAAAATACTCAATAGCGCCCAGCACTAAAAACCACAGACAAAACAATAAAGTGTAAAGCTGACTAA +GATCCATCAGATGGAACATGGTCACCAGTTTTTGTGCCAGCGCCAGCCCCAGTGCGGGGGCGGGCAGCAG +CAGGCAAGAGAGGAAAGCCATCAGCAAAATGCCTGCTGCGGTGGTCAAGGTTTCTAAAGGGTGTTTCATA +ACATTGTTAAATGTAAGTTAAAACACCATTGTCAGGGATATTCTTCTGTAAGGCAATTCCCGGCTTAGTC +ACCGGCCCAGATCTCACAATGCTTTTTCACCAGCCCAATCAGCGAGCCGCCATCGGCGACGAAATCGCGC +ATTAGCTGCGCTTCATTCAGACCGCTGACGACCTGGCGATGCAGGGCCTCAATCGCGCTCGATGCACCAA +TTTTATGTGCGGAAGGGGCGATTTTTTCCAGCAATCGCAAGGTATCTTCCGTTAGCGGTCGACGATCTCC +AGTGTGCGGATCGGTGATGACGCCTTCAAGCCCATAGCGACAGGCCTGGAAACGGTTGAATTTATACAGC +AGGTAATCTTTTTCCTGATGTTTAAACGGGCGTTCCGTCAGTAACCAGTGGGCGGTAGCCTGAATTAATC +CCGCCATATTTACTGCGTGGCTAAGGGTTAACGGGGTATCCATCACCCGAACCTCCACCGTGCCAAAATG +AGGACTGGGGCGAATATCCCAGTGCAGATCTTTAATGCTGTCGATCATCGTGGTGTAACTCAGACAGCGA +AACAGGGCTTCAAATTGTTGCCAGTTACTGACCCACGGCATCGGGCCATTATCAGGAAAGGCGGAAAAAA +TATTCGGTCGTGAGGAGGCAAAACGCGTATCCGTTCCCTGCATATATGGCGACGCGGCGGAAAGGGCGAT +AAAGTGCGGCACAAATCGTGACAAGCCGTGCAGCAAATAAATGGCGTCATCGCCACTGGCGCAGCCAACA +TGGACATGCTGACCAAAAACGGTCGCCTGCTGAATGAGATAACCAAAGTTTTCCAGCGTGCGTTGATAGC +GTTCGTTATCGCATACCTCCTGACGCTGCCATTTCTGAAACGGGTGCGTGCCACCGCCGCAAATTTCCAG +ATGATGGTCTGTGGCTGCCTGCAATACGACTTTCTGCATCGCTGAAAACTGCCCGGCAGCCTGGTTGATA +TCACGGCAAACATCCGTCGCCAGCTCCAGCATACTTTCGGTGATATCGTGCTTTACCTCTCCGGCCGTGA +TCTTATTTTTAACCGCGTCAATCAGCATTGAAGAGTCCTGGCTTAAGTCATAGCCCGGCGGATTAACCAC +CTGCATTTCCAGTTCAATACCGAGGGTAAAAGGTTCAGAAACATGAAAATCGGGTAATGGCATAGGTTTC +TCTTATGTTGGCGTTTTCTATTCAGTATAGAAGTCGGAGCGGCTGGGCGAGATGCGGAAGTTCTGGAATG +TTTCTTTTTTTTGGTGATGGTGAACTGATGGTGCCTGAAGCAATTTGGCTACTTTTGCAATGTGACAAGT +TATGGCAGTGCTGACTGGTGGCGAAGAATTTTGACGATTGAGTCATGCAGAAAAAAACGGGTTCAGCTTC +AGTTGATTAAATGAGGAGTGAGAAGTCCGAAACAGGACTCACTGTATAAATAAACAGCTATTTTGTTGAG +GAAGGGTAAGATAACGGCGGGTGCCTGAAGCTTTCCGGTTTCAGGTTTACTCTGAGGTCTGGAAAGATGA +AGCCCCAGGAGATATTTCTATCAACCCTGGGGCTGCCACTCCAAACCCGAACAATTTGGATGGTAGTCCC +TTCTTCGCATGGAGGCAATATAAACATGCTGACGAAATATGCCCTTGCGGCAGTCATAGTGCTGTGTTTA +ACGGTGCTGGGATTTACGCTTCTGGTCGGAGACTCGCTGTGTGAGTTTACGGTGAAGGAACGTAATATTG +AGTTTAAGGCTGTTCTCGCTTACGAACCGAAGAAGTAGCCGTTGTGCGGGGAGTAATCCCATAAGCGCTA +ACTTAAGGGTTGTGGTATTACGCCTGATATGATTTAACGTGCCGATGAATTACTCTCACGATAACTGGTC +AGCAATTCTGGCCCATATTGGTAAGCCCGAAGAACTGGATACTTCGGCACGTAATGCCGGGGCTCTAACC +CGCCGCCGCGAAATTCGTGATGCTGCAACTCTGCTACGTCTGGGGCTGGCTTACGGCCCCGGGGGGATGT +CATTACGTGAAGTCACTGCATGGGCTCAGCTCCATGACGTTGCAACATTATCTGACGTGGCTCTCCTGAA +GCGGCTGCGGAATGCCGCCGACTGGTTTGGCATACTTGCCGCACAAACACTTGCTGTACGCGCCGCAGTT +ACGGGTTGTACAAGCGGAAAGAGATTGCGTCTTGTCGATGGAACAGCAATCAGTGCGCCCGGGGGCGGCA +GCGCTGAATGGCGACTACATATGGGATATGATCCTCATACCTGTCAGTTCACTGATTTTGAGCTAACCGA +CAGCAGAGACGCTGAACGGCTGGACCGATTTGCGCAAACGGCAGACGAGATACGCATTGCTGACCGGGGA +TTCGGTTCGCGTCCCGAATGTATCCGCTCACTTGCTTTTGGAGAAGCTGATTATATCGTCCGGGTTCACT +GGCGAGGATTGCGCTGGTTAACTGCAGAAGGAATGCGCTTTGACATGATGGGTTTTCTGCGCGGGCTGGA +TTGCGGTAAGAACGGTGAAACCACTGTAATGATAGGCAATTCAGGTAATAAAAAAGCCGGAGCTCCCTTT +CCGGCACGTCTCATTGCCGTATCACTTCCTCCCGAAAAAGCATTAATCAGTAAAACCCGACTGCTCAGCG +AGAATCGTCGAAAAGGACGAGTAGTTCAGGCGGAAACGCTGGAAGCAGCGGGCCATGTGCTATTGCTAAC +ATCATTACCGGAAGATGAATATTCAGCAGAGCAAGTGGCTGATTGTTACCGTCTGCGATGGCAAATTGAA +CTGGCTTTTAAGCGGCTCAAAAGTTTGCTGCACCTGGATGCTTTGCGTGCAAAGGAACCTGAACTCGCGA +AAGCGTGGATATTTGCTAATCTACTCGCCGCATTTTTAATTGACGACATAATCCAGCCATCGCTGGATTT +CCCCCCCAGAAGTGCCGGATCCGAAAAGAAGAACTAACTCGTTGTGGAGAATAACAAAAATGGTCATCTG +GAGCTTACAGGTGGCCATTCGTGGGACAGTATCCCTGACAGCCTACAAAACGCAATTGAAGAACGCGAGG +CATCGTCTTAACGAGGCACCGAGGCGTCGCATTCTTCAGATGGTTCAACCCTTAAGTTAGCGCTTATGGG +AGTAATCCCCGCATATCCGGTTGTCAGGTCAGGATGGTAAGGCACCTGCTTTACACTTTCGCCCGTGGTC +AGTGATGGCTGCGGGCGAATCGTACCAGATGTTGTCAATTAATCGTGTTGGCACAGCGTTATGACTATCT +TTTCTTTTATCTGCCAGTGCACAGCAAACATCTCATTCTCACGATGAATGATGACCTGCTGTTTATTCCA +GCTAATTATCTGATAGTCCAGAAAACCTGCATCAGTTTGGATCTCACTTGCCTTAAATGCGCTCTCTTTG +GCGGAAAATGCCAGTGTCAGCGCCAGAGAAAAGGCTAAACCGCAGTCTGCGAGTCGCTCGTGTTCCGCTG +GTGTAATAATGTTGTCTGTCAATTCTCTTGCGGTTTGTACAGAAAAAATTTCTTCTATATCAATGCCAAT +CGGTTGACGAGATACCACGGCTAATGCCGTAGTCCCACAGTGGCTAATACTGCCGTATACCTCCGCAGGC +CAGACAGGTTGGCGTAGCTCGCCGATTGCGGGCACACATTTATAGCCATATTCCCGCAAAGCATAAACAG +CAGCGATCCGTCCGGCTAAATGCTCTGTTTTACGTTTACGTCCAGCGTGTTGCAGTTGTGCGTAGTGCGG +CAGCCAGAGTAAATCCTGCTCACAAAAATTCGCCGGATCGAACTCAACAAAATGCAGCGTATGTCCGGCA +AAGGGGAGGGAGGTATGCGTAGTTTTCATATCGACCATATTCGAGACTGATGACAAACGCAAAACTGCCT +GATGCGCTACGCTTATCAGGCCTACATGGTCCTGCAATATATTGAATTGGCAAGATTTTTGTAGGCCGGA +TAAGGCGTTCACGCCGCATCCGGCATGAACGACGCGCACTTTGTCAACAATCTGACGTTAGCATCAGAAG +TGGGTGTTTACGCTCATATACCACGTACGTCCCGGCTCGTTATAGGTATACGCCCCGGCACCGGCGATAT +AGTTGGCCCCTGCCAAATCGCCCGTGGTCTGGGCATTACCCGCACGCCACAAACGTTTGTCGAACAGATT +GTCCACGCCGCCGGTCAGACTGACATTCTTCGTCACATCCCAGGTCGCGCTCAGGCCAACAATGCTGTAA +GGACTAATTTCTTTGGTTTCCGGTCCAACCGCTGGCTGACCTTTATAGTTGTACTTCTTCGGCTGCTGCT +TGCCGTACCAGGTGAAGGTCGTTTGCATCGACAAATCTTCCCGTGCCTGCCAGCTCAGCGTTGAGTTCAA +CGTATACTCCGGGATGATCGACAAACGGTCGCCCGTGGTTTTGTTTTCACTCTTCAGCATATAAGTGATG +TTATTGGTCCACATCACCGTTTCGCTAACCGGTACGTTTAACGATCCTTCCAGACCTTCAACCACCGCTT +TCGGCACGTTATCCCACTGATAGAGATCGGTGCCGACTGCGTTTTGCCCTACAGCCACATAGCCCGCTTC +AATCTTATTGCGATAATCGTTACGGAACCAGGTGACGCCCGCCAGCCACCCGTCGCGTTTGAACTCCAGA +CCAATCTCTTTGTTGATGCTGGTTTCTGCTTTCAGGTCATCGTTACCTTGCAGATAGCAGCCGCCCGCGC +TGGCATAGCAACCCTGACCTTTACTGTAGAGAATGTAGTTCGGGTTAGTCTGGTACAGGCTCGGCGCTTT +ATAAGCACGGGCGATGCCCATTTTCAGCGTGAAGTCATCGCCTAAACCTTGCGATATGTTCAGCGCCGGG +CTCCAGTTATTGCCGACAATACTGTGATGATCGAAACGCAGCCCCGGCGTTACGATGGTGCTGTCAGTCA +GCTCCATGTTGTTTTCGGCAAACAGCGAGAAAATTTCTGCTTTTGAATACGGGCTACGGTCGGTGGTACT +CACGCCATCAATAGCGCCACCGGTATTCGTTCCGGTCAGTGCCTGGGTGTTGGAACTTAAGTCCTTCATC +CGTTGCTGATTCCACTCCGTACCCAGCGTCAGCGTCTGGTTAACGAGGAAATCAATCGGCAGGTTAACTT +CGCTGTGCAGCATCACGTCATCAAGATCGATATCGACGAAATCCTGTGTCGCTTTTTCGTTAAATTTCCC +TTCGGTACCGCCCGCCAGACCTTCCGGAATACGCGAGTTACGGGTGTGTTCGTACTGCACCCAGTTGCTG +GTGGTCACGCCGTTATCCCAGCCACCGTTCCAGGTCAGCGCGTAGTTCTGGCGATACAGACGGTTGGTTT +CATCGCCATATTTCGAGCGGGTATAGGAATCGGAGTTGGTATTCTGGGTGTCGCCCGCATACAGGTTACC +CTGGCGGCTGTAACCTGCTTCCAGTTCCAGCGATTGCAATGGCGCGAAATCCCAGCGCACCACGCCATTA +ATATCTTTGTTGATTACCCCTTCGCGCCCGGCTGGTAACGTCGTGGCATACGTTCCGGCACGCGCGGACT +GATGGCCCTGGTTGATATCCCACGCGTCAGCCTGGGTTTTGTCGAGGTTGCCATACAAACGGAAGCTGAA +TTCGTCGCCCAGCGGACCGGTCAGGCTAAAGTTAGTGCGTTTGGTGGCACCTTCCTCTTTATGTTCTGGC +GCATTGAAATATGCGTCCCAGGAGCCGTGCCACTCGCCGCTGCCTTTTTTGGTAATGATGTTAACCACGC +CGCCCGCCGCGCCGTTGCCATAACGCGCAGCTGCCGGACCACGCAGAACTTCAATACGTTCAATCATTTC +AGGTGGCACCCAGGAAGTATCACCACGGGTATCGCGCTCGCCACGCCAGCCCTGACGCACCGAGTTACGG +CTGCTTACCGGCTTGCCGTCAATCAAAATCAGCGTGTTTTCCGGACCCATACCGCGAATATCAATCTGTC +GGTTATTCCCACGCTGACCACTGGTGGAGTTACCGGTCAGGTTAACGCCTGGCATGGTACGGATGATCTT +CGACACATCGCGGGCAACCGGGTTTTTGCGGATTTCATCTGCGGTGATGGTCGAAACGCCAGGCGCCTGT +AAGTTCTGCTCGGCGGCGGTAACGACAATAGTATCGTCATGTGAAACAGGAGTATCGGTCGGCTCTTGTG +CCTGCGCTACCCCATAAATCCCCAGATTGACCAACAAGGCCAGGGAATGAATCTTCTTGTTCATTGTTTT +ATTCCTGCATTTTTGCCACGAATTGCAACTGTCGGGCATGGTCGTCATCAACACGACGCATCCCGCTACC +GCGAAAACCTTTGATCCTGAAAGACACGCAGTGCAGTTGGTTAATTAATGTCCGCGCTTCCCACGGCGCG +CCATTACGCTATTGCAAATGCAAATAGTTATCAATAATATTATCAATATATTTCTGCAATCAATGAAAAA +TTGCACAGTAAACATGGGGTTATGGTGTGACGGCGTTAAAAGTAGGAAGTGAGAGCTGGTGGCAGTCGAA +ACATGGCCCGGAATGGCAGCGTCTGAATGACGAAATGTTTGAGGTCACTTTCTGGTGGCGTGATCCCCAA +GGTTCTGAAGAATACTCGACGATAAAGCGCGTATGGGTCTACATCACTGGTGTGACCGATCACCATCAGA +ACAGCCAGCCCCAGTCGATGCAGCGAATTGCAGGCACTAACGTCTGGCAGTGGACGACACAACTCAATGC +CAACTGGCGCGGCAGCTACTGCTTTATTCCCACCGAACGCGATGACATTTTTTCTGTACCATCCCCCGAT +CGCCTCGAATTGCGCGAAGGCTGGCGAAAACTATTACCCCAGGCGATAGCCGATCCGCTGAACCTACAAA +GCTGGAAAGGCGGGCGAGGGCACGCTGTTTCTGCACTCGAAATGCCGCAAGCGCCTCTGCAACCGGGATG +GGATTGTCCGCAAGCGCCAGAAATACCTGCCAAAGAAATTATCTGGAAAAGTGAACGGTTGAAAAAGTCA +CGGCGTGTATGGATTTTTACCACCGGCGATGCAACAGCAGAAGAACGCCCGCTGGCAGTTTTGCTCGATG +GCGAATTTTGGGCGCAAAGTATGCCCGTCTGGCCAGTGCTGACTTCGCTGACCCATCGTCAGCAACTTCC +TCCCGCCGTGTATGTGTTGATCGACGCTATCGACACCACGCACCGCGCCCACGAACTGCCGTGTAATGCG +GATTTCTGGCTCGCAGTACAGCAAGAGTTATTACCCCTGGTGAAAGCTATTGCCCCTTTTAGCGATCGTG +CCGATCGCACCGTGGTTGCCGGGCAGAGTTTTGGTGGGCTTTCCGCGCTGTATGCCGGACTGCACTGGCC +TGAACGCTTTGGCTGTGTATTAAGCCAGTCAGGATCGTACTGGTGGCCGCATCGGGGCGGGCAGCAAGAG +GGCGTGTTACTTGAAAAGCTAAAAGCTGGTGAAGTTAGCGCCGAAGGTCTGCGCATTGTGCTGGAAGCGG +GTATTCGCGAGCCGATGATCATGCGGGCCAATCAGGCGCTGTATGCGCAATTACACCCCATAAAAGAATC +CATTTTCTGGCGTCAGGTTGACGGCGGACATGATGCGCTTTGTTGGCGCGGTGGCTTGATGCAGGGGCTA +ATCGACCTCTGGCAACCACTTTTCCATGACAGGAGTTGAATATGGCATTCAGTAATCCCTTCGATGATCC +GCAGGGAGCGTTTTACATATTGCGCAATGCGCAGGGGCAATTCAGTCTGTGGCCGCAACAATGCGTCTTA +CCGGCAGGCTGGGACATTGTGTGTCAGCCGCAGTCACAGGCGTCCTGCCAGCAGTGGCTGGAAGCCCACT +GGCGTACTCTGACACCGACGAATTTTACCCAGTTGCAGGAGGCACAATGAGCCAGCATTTACCTTTGGTC +GCCGCACAGCCCGGCATCTGGATGGCAGAAAAACTGTCAGAATTACCCTCCGCCTGGAGCGTGGCGCATT +ACGTTGAGTTAACCGGAGAGGTTGATTCGCCATTACTGGCCCGCGCGGTGGTTGCCGGACTAGCGCAAGC +AGATACGCTGCGGATGCGTTTTACGGAAGATAACGGCGAAGTCTGGCAGTGGGTCGATGATGCGCTGACG +TTCGAACTGCCAGAAATTATCGACCTACGAACCAACATTGATCCGCACGGTACTGCGCAGGCATTAATGC +AGGCGGATTTGCAACAAGATCTGCGCGTCGATAGCGGTAAACCACTGGTCTTTCATCAGCTGATACAGGT +GGCGGATAACCGCTGGTACTGGTATCAGCGTTATCACCATTTGCTGGTCGATGGCTTTAGTTTCCCGGCC +ATTACCCGCCAGATCGCCAATATTTACTGCACATGGCTGCGTGGCGAACCAACGCCTGCTTCGCCATTTA +CGCCTTTCGCTGATGTAGTGGAAGAGTACCAGCAATACCGCGAAAGCGAAGCCTGGCAGCGTGATGCGGC +ATTCTGGGCAGAACAGCGTCGTCAACTGCCGCCGCCCGCGTCACTTTCTCCGGCACCTTTACCGGGGCGC +AGCGCCTCGGCAGATATTCTGCGCCTGAAACTGGAATTTACCGACGGGGAATTCCGCCAGCTGGCTACGC +AACTTTCAGGTGTGCAGCGTACCGATTTAGCCCTTGCGCTGGCAGCCTTGTGGCTGGGGCGATTGTGCAA +TCGTATGGACTACGCCGCCGGATTTATCTTTATGCGTCGACTGGGCTCGGCGGCGCTGACGGCTACCGGA +CCCGTGCTCAACGTTTTGCCGTTGGGTATTCACATTGCGGCGCAAGAAACGCTGCCGGAACTGGCAACCC +GACTGGCAGCACAACTGAAAAAAATGCGTCGTCATCAACGTTACGATGCCGAACAAATTGTCCGTGACAG +CGGGCGAGCGGCAGGTGATGAACCGCTGTTTGGTCCGGTACTCAATATCAAGGTATTTGATTACCAACTG +GATATTCCTGATGTTCAGGCGCAAACCCATACCCTGGCAACCGGTCCGGTTAATGACCTTGAACTGGCCC +TGTTCCCGGATGTACACGGTGATTTGAGTATTGAGATCCTCGCCAATAAACAGCGTTACGATGAGCCAAC +GTTAATCCAGCATGCTGAACGCCTGAAAATGCTGATTGCCCAGTTCGCCGCGGATCCGGCGCTGTTGTGC +GGCGATGTCGATATTATGCTGCCAGGTGAGTATGCGCAGCTGGCGCAGCTCAACGCCACTCAGGTTGAGA +TTCCAGAAACCACGCTTAGCGCGCTGGTGGCAGAACAAGCGGCAAAAACACCGGATGCTCCGGCGCTGGC +AGATGCGCGTTACCTGTTCAGCTATCGGGAAATGCGCGAGCAGGTGGTGGCGCTGGCGAATCTGCTGCGT +GAGCGCGGCGTTAAACCAGGGGACAGCGTGGCGGTGGCACTACCGCGCTCGGTCTTTTTGACCCTGGCAC +TCCATGCGATAGTTGAAGCTGGAGCGGCCTGGCTACCGCTGGATACCGGCTATCCGGACGATCGCCTGAA +AATGATGCTGGAAGATGCGCGTCCGTCGCTGTTAATTACCACCGACGATCAACTGCCGCGCTTTAGCGAT +GTTCCCAATTTAACAAGCCTTTGCTATAACGCCCCGCTTACACCGCAGGGCAGTGCGCCGCTGCAACTTT +CACAACCGCATCACACGGCTTATATCATCTTTACCTCTGGCTCCACCGGCAGGCCGAAAGGGGTAATGGT +CGGGCAGACGGCTATCGTCAACCGCCTGCTTTGGATGCAAAATCATTATCCGCTTACAGGCGAAGATGTC +GTTGCCCAAAAAACGCCGTGCAGTTTTGATGTCTCGGTGTGGGAGTTTTTCTGGCCGTTTATCGCAGGGG +CAAAACTGGTGATGGCTGAACCGGAAGCGCACCGCGACCCGCTCGCTATGCAGCAATTCTTTGCCGAATA +TGGCGTAACGACCACGCACTTTGTGCCGTCGATGCTGGCGGCATTTGTTGCCTCGCTGACGCCGCAAACC +GCTCGCCAGAGTTGCGCGACGTTGAAACAGGTTTTCTGTAGTGGTGAGGCCTTACCGGCTGATTTATGCC +GCGAATGGCAACAGTTAACTGGCGCGCCGTTGCATAATCTATATGGCCCGACGGAAGCGGCGGTAGATGT +CAGCTGGTATCCGGCTTTTGGCGAGGAACTGGCACAGGTGCGCGGCAGCAGTGTGCCGATTGGTTATCCG +GTATGGAATACGGGTCTGCGTATTCTTGATGCGATGATGCATCCGGTGCCGCCGGGTGTGGCGGGTGATC +TCTATCTCACTGGCATTCAACTGGCGCAGGGCTATCTCGGACGCCCCGATCTGACCGCCAGCCGCTTTAT +TGCCGATCCTTTTGCCCCAGGTGAACGGATGTACCGTACCGGAGACGTTGCCCGCTGGCTGGATAACGGC +GCGGTGGAGTACCTCGGGCGCAGTGATGATCAGCTAAAAATTCGCGGGCAGCGTATCGAACTGGGCGAAA +TCGATCGCGTGATGCAGGCGCTGCCGGATGTCGAACAAGCCGTTACCCACGCCTGTGTGATTAACCAGGC +GGCTGCCACCGGTGGTGATGCGCGTCAATTGGTGGGCTATCTGGTGTCGCAATCGGGCCTGCCGTTGGAT +ACCAGCGCATTGCAGGCGCAGCTTCGTGAAACATTGCCACCACATATGGTACCGGTGGTTCTGCTGCAAC +TTCCACAGTTACCACTTAGCGCCAACGGCAAGCTGGATCGCAAAGCCTTACCGTTGCCTGAACTGAAGGC +ACAAGCGCCAGGGCGTGCGCCGAAAGCGGGCAGTGAAACGATTATCGCCGCGGCATTCTCGTCGTTGCTG +GGGTGTGACGTGCAGGATGCCGATGCTGATTTCTTCGCGCTTGGCGGTCATTCGCTACTGGCAATGAAAC +TGGCAGCGCAGTTAAGTCGGCAGGTTGCCCGCCAGGTGACGCCGGGGCAAGTGATGGTCGCGTCAACTGT +CGCCAAACTGGCAACGATTATTGATGCTGAAGAAGACAGCACCCGGCGTATGGGATTCGAAACCATTCTG +CCGTTGCGTGAAGGTAATGGCCCGACGCTGTTTTGTTTCCATCCTGCGTCCGGTTTTGCCTGGCAGTTCA +GCGTGCTCTCGCGTTATCTCGATCCACAATGGTCGATTATCGGCATTCAGTCACCGCGCCCCAATGGCCC +CATGCAGACGGCGGCAAACCTGGATGAAGTCTGCGAAGCGCATCTGGCAACGTTACTTGAACAACAACCG +CATGGCCCTTATTACCTGCTGGGGTATTCCCTTGGCGGTACGCTGGCGCAGGGTATTGCGGCGCGACTGC +GTGCCCGTGGCGAACAGGTGGCATTTCTTGGCTTGCTGGATACCTGGCCGCCAGAAACGCAAAACTGGCA +GGAAAAAGAAGCTAATGGTCTGGACCCGGAAGTGCTGGCGGAGATTAACCGCGAACGCGAGGCCTTCCTG +GCAGCACAGCAGGGAAGTACTTCAACGGAGTTGTTTACCACCATTGAAGGCAACTACGCTGATGCTGTGC +GCCTGCTGACGACTGCTCATAGCGTACCGTTTGACGGTAAAGCGACGCTGTTTGTTGCTGAACGCACACT +TCAGGAAGGTATGAGTCCCGAACGCGCCTGGTCGCCGTGGATAGCGGAGCTGGATATCTATCGTCAGGAT +TGTGCGCATGTGGATATTATCTCTCCAGGGACGTTTGAAAAAATTGGGCCGATTATTCGCGCAACGCTAA +ACAGGTAAATTAATATTATTTATAAACCCATAATTACAGAAAATAATTATGGGTTTTTTATTTGTTTGAT +TTATAGGTTTGATGAATATTTCTCTTAAATAGAGTGAATGTTGCATTCAGTGGAAGGAATTTACAAACTT +CAGCTTCGGATAATTATCACCAACTGGTAAAGTGAGCGCCGTGGAGATTTCCCCCTATTGGACTCATTTT +CAGGTTATACCCCATGTCATCACTGAATATTAAACAGGGAAGTGACGCTCATTTTCCCGATTATCCTCTG +GCGTCGCCCAGTAATAATGAAATTGATTTACTTAATCTAATCTCAGTTTTATGGCGGGCCAAAAAAACGG +TCATGGCGGTCGTTTTTGCGTTTGCCTGCGCAGGCTTGCTGATCTCTTTCATCCTGCCGCAAAAATGGAC +CAGCGCGGCGGTTGTCACGCCTCCAGAACCTGTTCAGTGGCAAGAGTTGGAGAAATCATTCACTAAGCTT +CGTGTGCTGGATCTGGATATCAAAATTGATCGTACAGAAGCATTTAACCTGTTTATCAAGAAGTTTCAGT +CGGTTAGCTTGCTGGAAGAGTACCTGCGTTCATCACCTTATGTGATGGACCAATTAAAAGAGGCGAAAAT +CGACGAACTGGATTTGCATCGCGCAATTGTCGCATTGAGCGAAAAAATGAAAGCGGTTGATGACAATGCC +AGTAAGAAAAAAGATGAACCGTCACTGTATACCTCCTGGACGCTAAGTTTTACCGCGCCAACCAGTGAAG +AGGCGCAGACCGTTTTGAGCGGGTATATCGATTATATCTCTACGTTGGTGGTGAAAGAGTCGCTAGAAAA +CGTCCGTAATAAACTGGAGATCAAAACCCAGTTTGAAAAAGAAAAACTGGCTCAGGATCGCATTAAAACG +AAAAATCAACTTGATGCAAACATTCAGCGCCTCAATTATTCACTCGACATTGCCAACGCGGCAGGAATTA +AAAAGCCCGTTTACAGTAATGGTCAGGCCGTTAAAGATGACCCCGATTTTTCTATTTCTCTCGGTGCAGA +CGGTATTGAACGCAAACTGGAAATAGAAAAAGCGGTCACTGACGTTGCGGAACTGAACGGTGAATTACGT +AATCGGCAGTATCTTGTCGAGCAATTAACAAAAGCACATGTCAACGATGTGAATTTTACGCCGTTTAAAT +ATCAGTTAAGCCCGTCATTGCCAGTGAAAAAAGACGGTCCGGGTAAGGCGATTATTGTGATCCTTTCCGC +GTTGATCGGCGGGATGGTGGCTTGTGGTGGCGTGCTGTTGCGCTATGCGATGGCATCCAGAAAACAGGAT +GCCATGATGGCAGACCACTTAGTTTAACTATTTGCGGTTGAAGGTGCCGTTCGTCCGAGCGGCACCACAA +GCGGCGTTCCGGCAACTGGATCGTCAATGATCATGCAGCGCAGACCATAAATGCGCTCAATCAGTTCAGC +AGTGACAATCTCCTTCGGCGCTCCCTGAGCAACAATTTTCCCTTCCCGCAATGCAATCAAATGGCTGGCG +TAACGACAGGCCTGATTAAGATCGTGCAGCACCGCCGCCAGGGTATAGCCTTTTTCGCGGTTCAGTTCGC +TTAACAACTCCAGCAAATCAATCTGATGACTGATATCCAGCCAGGTCGTGGGTTCGTCGAGCAGCATAAT +TGCCGTTTCCTGGGCCAGCACCATCGCGATCCACGCTCGCTGGCGTTGTCCGCCAGAAAGGGTATCCACG +CTTTGATCTGCCAGATGAGTTATTCCCGTGGCCTGCATTGCTTTCGTTACCGCTTCTTCATCCTCTTTGC +GCCAGCGGGTAAACAGCGGTTGATGCGGATAACGTCCACGCGCCACCAGCTCCTGCACGGTGATATCGCC +CGGCGTGGTAGCATTTTGCGCCAACAGACCAATCCGGCGTGCAACCTCTTTACTGGCGTAATGTTGAATG +TGCTCGCCATCCAGCCAGACATGCCCATGAGCAGGCGTCATCAGGCGGCTTAAGGTACGCAGTAACGTGG +ATTTACCGCAGCCATTTGGCCCGATAATTGCCGTGAAGTGACCATCAGGTATTTCTACAGTCAGATTTTC +CGCAACGGTATATTTGCCATATCCCAGGGTTAACTGTTCGCCGCGCAAACGGGCTACTGATTCGGTCATT +TTTTGCGAGACTCCTGAATTAACAAGACGATAAGGTAAATACCGCCGAGGCTGACGGTAACGACGCCAAC +CGGAAGTTGATACGGCATAAACAGTTGTTGGGCGCAGAGATCGGCCGCCAGCAGTAACAGCGCCCCGCAT +AGCGCCGCCTGGGTTAGCCCCCAGCGAGCGGTGCCGCTAATGCGTCGGGCAATGTGCGGTGCGACTAAAG +CAATAAAGGAAATCGGCCCGGCAAGCGCTGTTGCCGCAGCGGTAAGCACCACTGCAACCAGCATCATTAA +CAGACGCGAACGTTCGACGCTGACGCCCAGCGCACACGCGGTATCATCGCCCATTTCCAGCAAGCGCATC +CGGCGTACCAGTAAGGCGGCGGCAATGAGCATCAATATAATGATGGGTGCGGAAGGCGAGGTTTTTGCCC +ACGTCAGGCCGTTGAGCGATCCGGCATTCCACAAACCTGCTGTTAGCGCCGTTTCTAAAGACGCTTTCAG +CAACAGCCAGGTATTAAAGGCCACCAGCATGGCGCGAACGCCGATACCGATAATAATCAACCGAAAGGTG +TCGATGCCGTTGCGCCAGGCGAGCAGCCAGACCAGCAGCGAAGTGACAATGCCGCCCACCATTGCTGACA +GCGCGATAGCCGTCAGGTCCTGACCAAACAGCACCATCGCCACCAGCACGCCGCTCCACGCCCCGGTGTT +AAAGCCCATTACGTCAGGGCTGCCGAGCGGGTTACGCATCAGCGACTGAAAAATCGCGCCACTGACGCCC +AGTGCTGCGCCAATCAACAGCGCCATCAGCACGCGTGGTAAACGCCATTCGGTGACCACCATCGTCATAC +TGCGCGGCGCATCGCCCATCAGCGCGGCGAATACCTGCGAGGTTTCCAGCGTGACGGCACCGCTGCGTAA +TCCCCAGATACCTGCAACCACACAGGCGGAAACCAGCAGCAAACAGGTGATGAGTAATCGGCGAGAGACG +TAAATCATGCACCACCTCGCGTTTTACGTCGCACGAGGAAGATCAGCACCGGTGCACCAATAAACGCACT +GACCACAGAAACGCGCAGTTCGCCGGGCACAATCACCCGCCCGATGATATCGGCAAACAGCAGCAGGGCA +GGGGTAGCAAGTAGCGTGACGGGCAGCGACCAGCGATGATCGGCACCCACCAGCCAACGCGCCATATGCG +GCATCATCAGGCCAATAAAGGCAATCGGGCCAACTATTGCCGTCGCACTACCACAAAGCACGGTAATCGC +CAGCAGACCAATCAACTGTGTGCGCGCCACGCGACTGCCCAGCGCCGTCGCGGTGTCGCTGCCGAGGCTC +AAACTGTTCAGCGCGCGACTCAGTAATAGCGCAGTTGCTCCGGCGATCAGCACCGGGATCAGCACCACTT +TTAAGGTATGTAGATTGCGAATATCCAGCGAACCGGCTTGCCAGAAACGCAACTGATCGTAGACGTCAGG +ATTAAGCAGGGCGATGCCGCTGGTCAGTCCTTCCAGCACCGCCGCCAGCGCCACGCCCGCCAGGGTTAAA +CGCACCGGACTTAACTGCCCGCCGCCCTGACTGCCGGTAAAGGCAACAATCAATGAGGCCACCAGCGCCC +CGGCGAAGGCCATCGCCAGTTGTTCCTGCGCGGAAGAGTAACCAAACAGCGCCGCACCCAGCACAATGGC +AAAGCTGGCTCCGGCGTTCACGCCAAGCAAGCCGGGGTCGGCAAGTGGGTTTCGGGTGAGGGTTTGCATT +AACGCCCCGGCAAGGCCAAGCGCGCCGCCTGCCAGTAAACCGGCAAGGGTACGCGGCAGCCGCGCGTCGA +GCACGATGGTGCAGTCGGCGCTCTGGCAGGTGCCGGAGAAGGCCTCCAGCACTACGGAAGCGGGGAGTGA +TTTTGCCCCAATGAGCAGGCTTAATGCCGTCGCGATAATCAGTAATAACAGCAATCCGGGCACGGCAATG +GCGCGTGTCACGGCAACAGAACCAGACATACGAACTTCCATGATAATGAAATTAATTATCGTTATCGATC +TTATTTGGATATGTTAGCATGTGCAGCCTAAGAATAGGTATTTAAAATATTTGATGGCAAGGCATTGTAA +TGAATAAACAATCCTGGCTGCTTAACCTCAGCCTGTTGAAAACGCACCCGGCGTTTCGCGCAGTATTCCT +CGCTCGTTTCATCTCAATTGTGTCTCTGGGTTTGCTCGGCGTCGCGGTGCCGGTGCAGATCCAGATGATG +ACACATTCCACCTGGCAGGTGGGGCTTTCGGTGACGCTGACCGGCGGCGCGATGTTTGTTGGCCTGATGG +TCGGCGGTGTGCTGGCGGATCGCTATGAGCGCAAAAAAGTGATTTTGCTGGCGCGCGGCACCTGTGGCAT +TGGCTTCATTGGACTGTGCCTTAATGCACTGCTGCCGGAGCCGTCATTGCTGGCAATCTATTTACTTGGT +TTATGGGATGGTTTTTTCGCATCGCTTGGCGTTACGGCGCTATTGGCGGCGACACCAGCACTGGTAGGGC +GTGAAAACTTAATGCAGGCCGGGGCGATCACCATGTTGACCGTGCGTCTGGGGTCGGTGATTTCGCCCAT +GATTGGCGGTTTATTGCTGGCGACCGGTGGCGTAGCCTGGAACTACGGGCTGGCGGCGGCGGGCACGTTT +ATTACCTTGCTACCGTTGTTAAGCCTTCCGGCGTTGCCACCGCCACCGCAGCCGCGTGAGCATCCGTTGA +AATCATTACTGGCAGGATTTCGTTTTCTGCTTGCCAGCCCGCTGGTGGGCGGGATTGCGCTGCTGGGTGG +TTTATTGACGATGGCGAGCGCGGTGCGGGTACTGTATCCGGCGCTGGCTGACAACTGGCAGATGTCAGCG +GCACAGATTGGTTTTCTCTACGCGGCGATCCCGCTCGGCGCGGCTATTGGTGCGTTAACCAGCGGGAAGC +TGGCACATAGTGCGCGACCAGGGTTATTGATGCTGCTCTCCACGCTGGGATCGTTCCTCGCCATTGGTCT +GTTTGGCCTGATGCCGATGTGGATTTTAGGCGTGGTTTGTCTGGCGCTGTTCGGCTGGTTGAGTGCGGTC +AGCTCGTTGCTGCAATACACAATGCTGCAAACGCAAACCCCGGAAGCGATGTTAGGGCGGATTAACGGTT +TGTGGACGGCGCAGAACGTGACGGGCGATGCCATAGGCGCGGCGCTGCTGGGTGGTTTGGGCGCGATGAT +GACACCGGTTGCTTCCGCAAGCGCGAGCGGTTTTGGTTTGTTGATTATCGGCGTGTTGTTATTGCTGGTG +CTGGTGGAGTTGCGACATTTTCGCCAGACGCCGCCGCAGGTGACAGCGTCCGACAGTTAATGCTTAAAAC +AGCGCCTTAAGCCTATCCAGCACTTGCATGGCGCTGTAGTAATCCAGACGGAACGTCTCGGTTCCCAGCG +CATAAACCTGCTTGTTTTGTACTGCAGGCAGGTGCGCGAGCAGCGGATTAGCATAAATAGCATCGGCATC +TTTCTGATCACCGGCGAACAGGAATAGTGACTCGCCATTTAACCCTGCAGCCAGATTTTCCCCACCAAGC +TGAATGATGTCATGGCGTTTACCCTGACTTTGGCTGGCATTTAACCCTGCGGGTAACTTCGCCAGCGTAA +AGCCGAGTTGTTCCAGCATCTGCCCTTGTGCTGATTCTGGCGTCCAGAGATTGGCACTGTGTGCAGCGGC +AGTATAGACAATGGCAGTGACCGGCTGCGGCGGTAATTTGATTTGCTCTTTCGCCGCCGCCAGTTGCTTA +TCAAACTGCGCAATCCGCTCTGCCGCTTGTTTCTCATGCCCGGTAATTTCGCCAAGTTGCGTTAACAGCG +ACTGCCAGCTTTTGTCGTCGTAATTGATGATTAATGTCGGGGCGATGGTGGAAAGCTGATCATACAGTGC +CAGCGCCGAATCCCCGCCGGTTGCGCTAATTAAAATCAGATCCGGCATTTGCGCGGCAACGGCTTCGGCG +CTCGGTTCGCCGATATAGAGCCGTTGCAGTTTGCGTTCTTTCGCCACCTTGCTCCACTGGCGTAAAAAGC +CCTGGTCATCCGCGACGCGGTTATTCGGCGTGGTCGCGCCGCTGGCGATCACCGGAGCATCAATCGCCAG +CAGTGAGCCGGTCAGGGTGACGCTGGTGGAAACAATACGCTGCGGCTGGCTTTCCAGTGTATGTGTGCCA +CGGCTGTCAGTAATCTGACGCGGCCAGTCAGCGGCCTGAACTGCGGCTATTCCTGAAAGCAAAAGTCCTG +TTAATAGAAGGGCGTTGCGGTAGAGCGGGGCGAGTCTCACAAATCAGCTTCCTGTTATTAATAAGGTTAA +GGGCGTAATGACAAATTCGACAAAGCGCACAATCCGTCCCCTCGCCCCTTTGGGGAGAGGGTTAGGGTGA +GGGGAACAGCCAGCACTGGTGCGAACATTAACCCTCACCCCAGCCCTCACCCTGGAAGGGAGAGGGGGCA +GAACGGCGCAGGACATCACATTGCGCTTATGCGAATCCATCAATAATGCTTCTCATTTTCATTGTAACCA +CAACCAGATGCAACCCCGAGTTGCAGATTGCGTTACCTCAAGAGTTGACATAGTGCGCGTTTGCTTTTAG +GTTAGCGACCGAAAATATAAATGATAATCATTATTAAAGCCTTTATCATTTTGTGGAGGATGATATGGAT +ACGTCACTGGCTGAGGAAGTACAGCAGACCATGGCAACACTTGCGCCCAATCGCTTTTTCTTTATGTCGC +CGTACCGCAGTTTTACGACGTCAGGATGTTTCGCCCGCTTCGATGAACCGGCTGTGAACGGGGATTCGCC +CGACAGTCCCTTCCAGCAAAAACTCGCCGCGCTGTTTGCCGATGCCAAAGCGCAGGGCATCAAAAATCCG +GTGATGGTCGGGGCGATTCCCTTCGATCCACGTCAGCCTTCGTCGCTGTATATTCCTGAATCCTGGCAGT +CGTTCTCCCGTCAGGAAAAACAAGCTTCCGCACGCCGTTTCACCCGCAGCCAGTCGCTGAATGTGGTGGA +ACGCCAGGCAATTCCGGAGCAAACCACGTTTGAACAGATGGTTGCCCGCGCCGCCGCACTTACCGCCACG +CCGCAGGTCGACAAAGTGGTGTTGTCACGGTTGATTGATATCACCACTGACGCCGCCATTGATAGTGGCG +TATTGCTGGAACGGTTGATTGCGCAAAACCCGGTTAGTTACAACTTCCATGTTCCGCTGGCTGATGGTGG +CGTCCTGCTGGGGGCCAGCCCGGAACTGCTGCTACGTAAAGACGGCGAGCGTTTTAGCTCCATTCCGTTA +GCCGGTTCCGCGCGTCGTCAGCCGGATGAAGTGCTCGATCGCGAAGCAGGTAATCGTCTGCTGGCGTCAG +AAAAAGATCGCCATGAACATGAACTGGTGACTCAGGCGATGAAAGAGGTACTGCGCGAACGCAGTAGTGA +GTTACACGTTCCTTCTTCTCCACAGCTGATCACCACGCCGACGCTGTGGCATCTCGCAACTCCCTTTGAA +GGTAAAGCGAATTCGCAAGAAAACGCACTGACTCTGGCCTGTCTGCTGCATCCGACCCCCGCGCTGAGCG +GTTTCCCGCATCAGGCCGCGACCCAGGTTATTGCTGAACTGGAACCGTTCGACCGCGAACTGTTTGGCGG +CATTGTGGGTTGGTGTGACAGCGAAGGTAACGGCGAATGGGTGGTGACCATCCGCTGCGCGAAGCTGCGG +GAAAATCAGGTGCGTCTGTTTGCCGGAGCGGGGATTGTGCCTGCGTCGTCACCGTTGGGTGAGTGGCGCG +AAACAGGCGTCAAACTTTCTACCATGTTGAACGTTTTTGGATTGCATTAAGGAGCGAGGATGAGCATTCC +ATTCACCCGCTGGCCGGAAGAGTTTGCCCGTCGCTATCGGGAAAAAGGCTACTGGCAGGATTTGCCGCTG +ACCGACATTCTGACGCGACATGCTGCGAGTGACAGCATCGCGGTTATCGACGGCGAGCGACAGTTGAGTT +ATCGGGAGCTGAATCAGGCGGCGGATAACCTCGCGTGTAGTTTACGCCGTCAGGGCATTAAACCTGGTGA +AACCGCGCTGGTACAACTGGGTAACGTCGCTGAATTGTATATTACCTTTTTCGCGCTGCTGAAACTGGGC +GTTGCGCCGGTGCTGGCGTTGTTCAGCCATCAGCGTAGTGAACTGAACGCCTATGCCAGCCAGATTGAAC +CCGCATTGCTGATTGCCGATCGCCAACATGCGCTGTTTAGCGGGGATGATTTCCTCAATACTTTCGTCAC +AGAACATTCCTCCATTCGCGTGGTGCAACTGCTCAACGACAGCGGTGAGCATAACTTGCAGGATGCGATT +AACCATCCGGCTGAGGATTTTACTGCCACGCCATCACCTGCTGATGAAGTGGCCTATTTCCAGCTTTCCG +GTGGCACCACCGGCACACCGAAACTGATCCCGCGCACTCATAACGACTACTACTACAGCGTGCGTCGTAG +CGTCGAGATTTGTCAGTTCACACAACAGACACGCTACCTGTGCGCGATCCCGGCGGCTCATAACTACGCC +ATGAGTTCGCCAGGATCGCTGGGCGTCTTTCTTGCCGGAGGAACGGTTGTTCTGGCGGCCGATCCCAGCG +CCACGCTCTGTTTCCCATTGATTGAAAAACATCAGGTTAACGTTACCGCGCTGGTGCCACCCGCAGTCAG +CCTGTGGTTGCAGGCGCTGATCGAAGGCGAAAGCCGGGCGCAGCTTGCCTCGCTGAAACTGTTACAGGTC +GGCGGCGCACGTCTTTCTGCCACCCTTGCGGCGCGTATTCCCGCTGAGATTGGCTGTCAGTTGCAGCAGG +TGTTTGGCATGGCGGAAGGGCTGGTGAACTACACCCGACTTGATGATAGCGCGGAGAAAATTATCCATAC +CCAGGGTTACCCAATGTGTCCGGATGACGAAGTATGGGTTGCCGATGCCGAAGGAAATCCACTGCCGCAA +GGGGAAGTCGGACGCCTGATGACGCGCGGGCCGTACACCTTCCGCGGCTATTACAAAAGTCCACAGCACA +ATGCCAGCGCCTTTGATGCCAACGGTTTTTACTGTTCCGGCGATCTGATCTCTATTGATCCAGAGGGTTA +CATCACCGTGCAGGGGCGCGAGAAAGATCAGATTAACCGTGGCGGCGAGAAGATCGCTGCCGAAGAGATC +GAAAACCTGCTGCTGCGCCACCCGGCGGTGATCTACGCCGCACTGGTGAGCATGGAAGATGAGCTGATGG +GCGAAAAAAGCTGCGCTTATCTGGTGGTAAAAGAGCCGCTGCGCGCGGTGCAGGTGCGTCGTTTCCTGCG +TGAACAGGGTATTGCCGAATTTAAATTACCGGATCGCGTGGAGTGTGTGGATTCACTTCCGCTGACGGCG +GTCGGGAAAGTCGATAAAAAACAATTACGTCAGTGGCTGGCGTCACGCGCATCAGCCTGAAGGAGAGAAC +ACGATGGCTATTCCAAAATTACAGGCTTACGCACTGCCGGAGTCTCACGATATTCCGCAGAATAAAGTTG +ACTGGGCCTTTGAACCGCAACGTGCCGCGTTGTTAATCCATGATATGCAGGACTATTTTGTCAGCTTCTG +GGGCGAGAACTGCCCGATGATGGAGCAGGTGATCGCGAATATTGCTGCGCTGCGCGACTACTGCAAACAG +CACAATATCCCGGTTTATTACACCGCCCAGCCGAAAGAGCAGAGCGATGAAGATCGGGCGCTGTTGAATG +ATATGTGGGGGCCGGGCCTGACCCGCTCGCCGGAACAGCAAAAGGTGGTGGATCGCCTGACGCCAGATGC +CGACGACACGGTGCTGGTGAAGTGGCGCTACAGCGCGTTTCATCGTTCTCCGCTGGAGCAAATGCTGAAA +GAGAGTGGACGTAACCAGCTGATTATTACCGGGGTATATGCCCACATTGGCTGTATGACCACCGCAACCG +ACGCATTTATGCGCGATATTAAACCGTTTATGGTGGCGGATGCGCTGGCCGATTTCAGCCGTGACGAGCA +TTTGATGTCGCTGAAATATGTGGCCGGACGTTCTGGCCGGGTGGTGATGACTGAAGAATTACTGCCAGCA +CCTATCCCCGCCAGCAAAGCGGCGCTGCGTGAGGTGATCCTGCCGTTGCTGGACGAGTCCGATGAACCGT +TCGATGACGACAACCTGATCGACTACGGTCTGGATTCGGTGCGCATGATGGCGCTGGCGGCGCGCTGGCG +CAAAGTGCATGGTGATATCGACTTTGTCATGCTGGCGAAAAACCCGACCATCGACGCCTGGTGGAAGCTA +CTCTCCCGCGAGGTGAAATAATGGATTTCAGCGGTAAAAATGTCTGGGTAACCGGCGCAGGTAAAGGTAT +CGGCTACGCCACGGCGCTGGCGTTTGTTGAGGCGGGAGCGAAAGTTACAGGTTTTGATCAAGCGTTCACT +CAGGAGCAATATCCCTTTGCGACCGAAGTGATGGATGTTGCCGACGCTGCGCAGGTCGCGCAAGTGTGTC +AGCGACTGTTAGCTGAAACGGAGCGACTGGACGCGCTGGTCAATGCGGCGGGAATTTTACGCATGGGCGC +GACCGATCAGCTCAGTAAAGAGGACTGGCAGCAGACTTTTGCGGTTAACGTCGGCGGTGCGTTTAACCTG +TTCCAGCAAACCATGAACCAGTTTCGCCGTCAGCGGGGCGGGGCGATTGTCACTGTGGCGTCCGACGCCG +CGCACACGCCGCGTATTGGCATGAGTGCTTATGGCGCATCGAAAGCGGCGCTGAAAAGCCTGGCGTTGAG +CGTCGGGCTGGAACTGGCGGGTAGCGGCGTGCGCTGTAATGTGGTTTCGCCTGGCTCCACCGACACCGAT +ATGCAACGCACGCTGTGGGTGAGCGATGACGCCGAAGAACAGCGTATTCGCGGCTTTGGCGAGCAGTTTA +AACTCGGCATTCCGCTGGGGAAAATCGCCCGTCCACAAGAGATCGCCAACACGATTTTGTTCCTCGCCTC +TGACCTCGCCAGCCATATTACCCTACAGGATATTGTGGTCGATGGCGGCTCAACGCTGGGGGCATAAGCA +TGATCTGGAAACGCCATTTAACGCTCGACGAACTGAACGCCACCAGCGATAACACAATGGTGGCGCATCT +GGGAATTGTGTATACCCGTCTGGGCGATGATGTGCTGGAAGCCGAAATGCCGGTTGATACCCGTACTCAT +CAGCCGTTCGGTTTACTACATGGCGGCGCGTCGGCGGCGCTGGCGGAAACGCTGGGATCGATGGCCGGAT +TTATGATGACCCGCGACGGACAGTGTGTGGTAGGCACAGAACTTAATGCAACACACCATCGCCCGGTGTC +TGAGGGAAAGGTACGCGGCGTCTGCCAGCCGCTGCATCTTGGTCGGCAAAATCAGAGCTGGGAAATCGTC +GTTTTCGATGAACAGGGGCGGCGTTGCTGCACTTGTCGGCTGGGTACGGCAGTTTTGGGATGAACCCGAC +AGAATTAGATGAGATTGCAGGAAAACTCGGTTAACGGAGTGATCGAGTTAACATTGTTAAGTTAAATATT +GGTTTCAACTCCGATTTACATGGTTGCTGTGTTGTTAAATTGTACAAAGATGTTATAGAAACAAAATGTA +ACATCTCTATGGACACGCACACGGATAACAACTATGAACAAATCAGGGAAATACCTCGTCTGGACAGTGC +TCTCTGTAATGGGAGCATTTGCTCTGGGATACATTGCTTTAAATCGTGGGGAACAGATCAACGCGCTGTG +GATTGTGGTGGCGTCGGTCTGTATCTATCTGATCGCTTACCGTTTTTATGGGCTGTATATCGCCAAAAAT +GTGCTGGCGGTTGACCCGACGCGTATGACGCCAGCGGTGCGCCATAACGACGGGCTGGACTATGTGCCGA +CGGACAAGAAAGTGCTGTTCGGTCACCATTTTGCGGCCATTGCCGGAGCAGGTCCGCTGGTGGGGCCGGT +ACTGGCGGCGCAAATGGGCTACCTGCCGGGGATGATCTGGCTGCTCGCTGGGGTGGTTCTCGCCGGTGCG +GTGCAGGATTTCATGGTGCTGTTTGTTTCTACGCGCCGTGACGGTCGCTCGCTGGGTGAGCTGGTCAAAG +AAGAGATGGGGCCAACCGCCGGGGTGATTGCGCTGGTGGCCTGCTTTATGATCATGGTCATTATCCTTGC +AGTGCTGGCGATGATCGTGGTGAAAGCCCTGACTCATAGCCCGTGGGGAACATATACCGTTGCGTTCACC +ATTCCGCTGGCGCTGTTTATGGGGATCTACCTGCGCTATCTGCGTCCGGGGCGTATTGGCGAAGTGTCGG +TCATCGGTCTGGTATTCCTGATTTTCGCCATTATCTCTGGCGGCTGGGTGGCAGAAAGTCCGACCTGGGC +ACCGTACTTTGACTTTACCGGCGTGCAGTTGACCTGGATGCTGGTGGGTTACGGTTTTGTGGCGGCGGTG +CTGCCGGTGTGGTTACTGCTGGCCCCGCGTGACTACCTCTCTACCTTCCTGAAAATCGGGACTATCGTCG +GTCTGGCGGTAGGCATTTTGATTATGCGCCCGACGCTGACCATGCCTGCGCTGACCAAATTTGTCGATGG +CACTGGCCCGGTATGGACCGGTAACCTGTTCCCGTTCCTGTTTATCACCATCGCCTGTGGCGCGGTGTCT +GGCTTCCATGCGCTGATCTCTTCTGGGACCACGCCGAAGATGCTGGCGAACGAAGGGCAGGCGTGCTTTA +TCGGCTACGGTGGGATGTTAATGGAATCCTTCGTGGCGATTATGGCGCTGGTTTCCGCCTGTATCATCGA +TCCGGGCGTGTATTTTGCCATGAACAGCCCGATGGCGGTGCTGGCTCCGGCAGGGACGGCGGATGTGGTC +GCTTCTGCCGCGCAGGTGGTGAGTAGCTGGGGCTTTAGCATTACACCAGATACGCTAAACCAGATTGCCA +GCGAAGTGGGTGAACAGTCGATCATTTCCCGTGCGGGCGGTGCGCCGACGCTGGCGGTGGGGATGGCCTA +CATTCTGCACGGCGCGCTGGGCGGCATGATGGATGTGGCGTTCTGGTATCACTTCGCCATTTTGTTTGAA +GCACTGTTTATTCTGACGGCGGTGGATGCAGGTACGCGTGCTGCGCGCTTTATGTTGCAGGATCTGCTGG +GCGTGGTGTCTCCTGGCCTGAAGCGGACCGATTCACTGCCTGCTAACCTGCTGGCAACAGCGCTGTGCGT +ACTGGCGTGGGGCTACTTCCTCCATCAGGGCGTGGTCGATCCGCTGGGCGGCATTAACACTCTGTGGCCG +CTGTTTGGTATTGCCAACCAGATGCTGGCAGGGATGGCGCTGATGCTCTGTGCCGTGGTGTTGTTCAAGA +TGAAACGTCAACGTTACGCCTGGGTGGCGCTGGTACCAACGGCCTGGCTGCTGATTTGTACCCTGACCGC +AGGCTGGCAGAAAGCGTTTAGCCCGGATGCGAAAGTCGGCTTCCTGGCCATTGCTAATAAGTTCCAGGCA +ATGATCGACAGCGGCAATATTCCGTCGCAGTATACTGAGTCACAGCTGGCGCAACTGGTGTTCAACAACC +GTCTGGATGCCGGGTTAACCATCTTCTTTATGGTGGTCGTGGTGGTTCTGGCACTGTTCTCGATTAAGAC +GGCACTTGCGGCATTGAAAGATCCGAAGCCAACGGCGAAAGAAACGCCGTATGAACCAATGCCGGAAAAT +GTCGAGGAGATCGTGGCGCAGGCAAAAGGCGCACACTAAAGTCAGAGTGAGGGGGGGATGTTGGCGAATG +TTGGCTTAGTGCCCAGGGTTCCCTCTCACCCTAACCCTCTCCCCGGTGGGGCGAGGGGACTGACCGAGCG +CGTTGATAGCATTTGTAGGCCGGATAAGGCGTTCACGCCGCATCCGGCACTCTTTCAGCAACATGGTTAG +CGGAGGCCAAGATGTTTGATTCACTGGCAAAAGCCGGAAAATATTTAGGTCAGGCGGCGAAGCTGATGAT +TGGTATGCCTGATTACGACAACTATGTCGAACATATGCGGGTTAACCATCCCGATCAAACGCCGATGACC +TACGAAGAGTTTTTCCGTGAGCGGCAGGACGCGCGCTACGGTGGAAAAGGCGGCGCGCGCTGCTGCTAAA +TTTGTACGTCAGGCTTTAAACGATTCCACTTTTTTGAACGCTGCACGCAACGTATCTGGTGTCAGCGTGA +CTGGCAGGTAATGAATGGACTCCACCGGACGCAGGGTGTGGGCAATCACTTTGTCGATCTCCGCCTGATT +ATTGATATCCACTTCCAGCTCCGCCAGTGTAGTCGGCAGATGAAAACGCTGATACGCTCCAGTTAATTGC +GCCAGCACATCATCCTGACCCAGCAAGGCGCTTTGCACCAGAATTCCGTAGGCGACTTTGGTGCCGTGGA +GAAACTTCTCGGTTTGCGGCAGCACGGTCAGACCGTTATGCACGGCATGAGCTGCCGCCACACGCGTAAA +ACGATCGCCCAGACCACCAACCATCCCACCACCAGCAATAATAGCATCCACCACATCGCAAAATGATTGC +GTTAACTGTTGATTTTGCTGATCGCTCAGCGCCTGTTCGCTACTGTTTAACAAGACGTCGCGAATGGCTT +GCGCATTATTGATCCCCAGTCGCACGGTTAGCGGCAACGTTTCTGGTTGCGGAGCCAGCACCACCGCTTC +ATACCATTTCGCCAGCGTGTCACCGATCCCCGCCAGCAGATATTGTTGCGGTGCATTGAGGATAATCTCC +GGTTCCACCAGCACCATAAAATTGGCGTCGTCGAAAATCTCATAATGCAGCGCCTGTCCGGCATCATTAT +ACCAGACGGAGAGCGGTGTCCAGGCGGCGCAGGTGGCGGCGATCGTCGGAACGGCAACAAACGGCAGACC +GAGACGGCGGGCGAGGGCTTTCGCGGTGTCGAGCAGTGCACCGCCACCGACGCCAATCACCACGCTGCGG +TCGTCACCGGACTCAGCCGCCAGTTGTTGTACATCGCTTTCGCTGCAATGACCGCGAAACAAAATATGCT +TTGCCCCTGGCAGTCCAAACGCTGGCGGAAGTTTGGTTTGCGCCGCAGCAATGGCGCGTTTGCCGTAGAT +CCACACCGCGCGAGAAAGTTGTTCATCAGTGAAAAAATCGTGCAGGTGATTGAAACTTCCTGGATGTGAA +AAGTAGTTAGCCGGGCCGACGACCACGCGGATAGGATTGTGAGGCATGTTGTGTTGTCCTTATTGTTTTA +TTTAGACATCTAAACGTCTTGATTGCCAAATACTAGCATCGTGTTATAGTGCCTTCAACACGCAACTTCG +TCAGGTACAATAAAAATGACAAATAACCCTCTGATTCCACAAAGCAAACTTCCACAACTTGGCACCACTA +TTTTCACCCAGATGAGCGCGCTGGCGCAGCAACACCAGGCGATTAACCTGTCGCAAGGCTTTCCTGATTT +TGATGGTCCGCGCTATTTACAGGAGCGGCTGGCGCACCACGTTGCACAGGGGGCAAACCAATACGCGCCC +ATGACCGGCGTGCAGGCCTTGCGCGAGGCGATTGCTCAGAAAACGGAACGTTTGTATGGCTATCAACCAG +ATGCCGATAGCGATATCACCGTAACGGCAGGGGCGACGGAAGCGTTATACGCGGCGATTACCGCACTGGT +GCGCAATGGCGATGAAGTGATTTGTTTTGATCCCAGCTATGACAGTTACGCCCCCGCCATCGCGCTTTCT +GGGGGAATAGTGAAGCGTATGGCACTGCAACCACCGCATTTTCGCGTTGACTGGCAGGAATTTGCCGCAT +TATTAAGCGAGCGCACCAGACTGGTGATCCTCAACACTCCGCATAACCCCAGTGCAACTGTCTGGCAGCA +GGCTGATTTCGCCGCTTTGTGGCAGGCGATCGCCGGGCACGAGATTTTTGTCATTAGCGATGAAGTCTAC +GAGCACATCAACTTTTCACAACAGGGCCATGCCAGTGTGCTGGCGCATCCGCAGCTGCGTGAGCGGGCAG +TGGCGGTTTCTTCATTTGGCAAGACCTATCATATGACCGGCTGGAAAGTGGGTTATTGTGTTGCGCCAGC +GCCCATCAGCGCCGAAATTCGCAAGGTACATCAGTATCTGACCTTTTCGGTGAATACCCCGGCACAGCTG +GCGCTTGCTGATATGCTACGTGCAGAACCTGAGCATTATCTTGCGTTACCGGACTTTTATCGCCAGAAGC +GCGATATTCTGGTGAATGCTTTAAATGAAAGCCGGCTGGAGATTTTACCGTGTGAAGGTACATACTTTTT +GCTGGTGGATTACAGCGCGGTTTCTACCCTGGATGATGTTGAGTTTTGCCAGTGGCTGACGCAGGAGCAC +GGCGTAGCGGCGATTCCGCTGTCGGTGTTTTGCGCCGATCCCTTCCCACATAAACTGATTCGTCTCTGTT +TTGCCAAGAAGGAATCGACGTTGCTGGCAGCAGCTGAACGCCTGCGCCAGCTTTAGCTATTTAACCGTCC +AGGCGCGGGAATATTGACGGTCGGCAAACAACTCTTGCAGGCCGTTAATTTGCTTCAGGCGCAGCACTTC +GTCGCTGTCCATTCCCAGCTCTTTGCCAATTTTATTATCGTCCCATCCCAACTGGCTAAGTTCACGGACG +ATTTCCGACATGGCGGTGATTTGATGGCGTCCACGAGCGCGATTATGACGAATAGTCGCGGCGATGCGTT +GATTACGCGTACCTTCCAGACAGGTCACCGGCAAATAACCTTTTAAGCGTAATTTTAATGATGATGAGCC +TTTACCAATTTCATGGCGGTGAAAACCATCCACGATTTCCATGGCATTTTTATCCGTATGTGTGACCACA +ATGGGTTGGGTAAAACCATCTATTTCAATGGATTTTTGCAGCAGTTTTTTTTCGGGTGGTGCCACGTTGT +TTGGGTTGTAATCATTAGGCATAAGTTGGCTGTTTTTAACCCACAGAACGCAATCCACTGGCTCTTCACG +AAAGGGGCTAACCTGATGGATCGCCATGCGGATTTCATTAATCGCTTTGATGCGATCATCTTCCGGCAAG +CTGGCGAGAAATTGCGTTAAATCCTGCGTTAATCGTTGTTGCATAGTATCCCCCATTCCTGACGTTTTCC +TTTTATCCGTTCGTTATAACGCTGATAGTTCTTCGATTTTGTGGGGCTAAATGATAATGCCCGACACCAG +TAATCGTTATTGAGTAAAACTTTGCATATCCGCCGCCAGGAGGGGATATCTTTCGCGCCAATGTCCCCTT +GCTGGGTTTGTGGAACCTCGATGCCTTTTTTCTGATACCAGTGCAAATAAATGGCGATTTTATTGCGGTA +ATGCTCAGCTGTTTTTTCCGGCATGCTATTGAGCAGCAATAATGCATATTCTTGCCAGTCTAAATGTTCT +GGCTTGAGGATTTTCCGATGCCCATAGAAATGATTGTCATGTCCGGCGTAAATGCCGCCACTTTTTACCC +CGCTGACTCGTGCGCACATAGCAGCCCAGCGATCCGGTTCGATAACGTGATAGAGCCATAATCCTTGTCG +TTGCTCCGGGCCAAAAGGTTCGCAAATTCGCATATGACGCAGAGGAACGCCTGCCTGATACATTAGGTTA +TACAGTGGGTTGCAGAGACTTTGATGATTTGCATACCAGGTCCAGATATCAGCCACTTTCCAGTCGTAAA +TGGGGTAAATGTACCAGCTATGACCGCCTGGTGCGGCCGTAGTCCAGGGTTTATCGTCGGCAAAACGTTG +TTTATTTAAACTGGCGATGGCGACAAAACGGTTGTAGGACTCATCCGCACGGATGCCGATCATCATCGCC +GCCGGACGTTTTTGTGAAAACCATTCGGCAAACTCACGTACAAATTGTTCGAAGGTCATGCCTGGCTGGT +AAAAGCAGAAAAAGTCAGGGTCGGTTATCGCATCTTGGGGAGGTTGACGTACCCATTCGACATCAGGTTC +CCAGCACTGCCATTCGGGTTGGTATTGTGAAAGGGAATTTTGCGTCGTAAGCGGGAGCGCAACCCAGTAA +AACTCTTCGATGACATCGGTGTACAACTCGCGCAGGGACTGAACATAGTTAATGGTGCAAGAGAATTGCG +CCTCCCAGTCGATAAACAAAACGCAGATTTTTTTGCCCATTTGTCGGGCAAGTTCGGCTGTCAGATGCAG +CATTAAACCAGAGTCTTTGCCGCCAGAAAATGAGACACAAACGCGGGGTAGGGTGTTGAGTGTCCAGGTA +ATACGCTCTCGTGCAGCTTCCAGAATATTGAGCGGAAGAGGAATTTTATAAATAGACATCTGAAGACGCT +CTCTGAACGTTACAGGGTGATCAGTGAGATAAGTCTGTTAATTATAAAGTAAACACTGTAAAGCAGAGTG +TTTTATTTTTCATTCGCGCTGTGAATAAATAGATGAAAGTTATAGTAGCTGTCTGTAGTTATATATCAAA +AACTCTCATTTAGACGGTCAATAAATCGGGAGAACACCAAATTATTTAAAGAAGATTTATTATAGGAAAT +GTAAAGCTTTATTGAAGGTAACGGATGTTCTAGTTTTATCTCTTTTAAGTTAAGAAAGTCACGGTAGGAA +TTATAAAGTTCATAGGGGACTATTCCCAGTAAATCTGTAACTGCAATGCTATTAATGATTGTCAGCAAAG +AGGAACCACGAAATGAGATTTTGCGATTCATAAATCTCTCGTCTATTTCCATTTGAATATCATCAACCCC +TGCTGATTTAGATATTAATTGGGTGAACTCTTCTGCCATAATTTGTTCATAAGTGCTATTGTCAGTAATT +CGTGGATGCCTATTACTACAAATTAGAGTATTGCGAATCGTATGCAATGGCATGCAAATGACGGAACGGC +TGATCACTGGCATTTGGGTGATCACCAGATCGGCTTTGCGGTGAACCAACAGTTCTTCAGCATTCTCTGC +TGACATGAGGATATCATGGCACTCAATCTCGACAGAGGAATCTTGCCGTAGGCAGCGGATCAGCATACTA +TTATTAGAGCAAGAAATGAGCTGAGGGCCGTAGATAATAAAGTTTTTCTTTAGTTCGGACTTATTGACTA +TATTAATTGTTTGTTCAAGGCCTCTGAGATTTTTCTCAAGATGGTGATGCAGATTTAACCCTGTTGTCGT +CGGCGCGATACCTTTTCCTGAGCGAATGAATAAAGGGTCATTAAATTGCGCACGTAAGCGTTGTAACGAC +TGGCTCACGGCTGATGGGGTGATATATAGTGATTCAGCAGCTTTGCTAATGCTTAAATGCTGGTAAATAC +ACTCAAATATGACAAGAAGATTTAAGTCGAACTTTTTCAAGTCGTAGAGATTGGCCATACACTACTCCGG +TTATATTTTTCTTCCATGATATATTCACTTAATCAATGTTTTTTGCGTATATATTTTTATTGATTATGTT +TTTTTGCTTAACTCAGGATTAAGTTTTTCTAAAATAGCACAGCCACTTAGGGCAGAGCGAGCAATTCATG +CTTTTTTAGGATGGTTGAAAAGCAGGGATATAGTTCAACCATCCATGAATTACCTTTTATTTATTCCCCA +TAATGATATTAAGCGTTTTCTGATCGGGCAACCCCACGGCCTGTTGTAGCGTATTTTCCTTACTCATGTA +ATAGATAGCCGGCGTGACATTTGCCCCCAGATCGTCCATCAGTTTCTCATTGTCACTTAACACTTTCATT +TGCTCTGTACTTACGTTTGCAGGCACGTTTAGCTTAAGCTTGCCACCAGAGGCTTCATATTGTTGCCAGG +TTTTTGCGGGATCTTTGGAGGCAAGAATTGCCGCTGCTGTCGCCGGGCTTTCTGGCTTGATAACCCCAAC +CAACAATGTTCTTAATTGCACTTTGCCAGAATCTACCCACGGGCGCGCCTGCTGCCAGAACTGTTTACAA +TATGGGCAGAACGGATCGGCGAAGACGTAGACAATGACCGGCGCATCTTTTTTACCGTCGAGGAGCCAGT +GGGATTGTTCCATCCGTTGCCACATTTCGCGTCCGGCTGGTGCGTAAATTTCTTTTTCGATAAGTGTGTT +ACTCAGGTTTTCACCTTTCTCGTTGTACATGTAACCAGAGATAGCGTGCTTACCATCTGGAGTCAGGTAG +ATGGTGACGCCCATATCCTGATACTTTCCGAGATAACCTTTCATTCCTCCGGGGGCATCGAATGTTTTGA +TGATTGTAATGCCCTGTTTTTCAATCGCTTTTACTGGAGCAGGAAGTTCCTCTGCGAAGGCGATTGCAGG +AAGCAGAGCCAGTAAAAGTATCTTTTTTAACATTAATTTGTCCTTTTCAGTCAGTGCAAAAGTCGAGTAA +AAGGCATAACCTATCACTGTCATAGGTAAGAGCTTAGATCAGGTGATTGCCCTTTGTTTATGAGGGTGTT +GTAATCCATGTCGTTGTTGCATTTGTAAGGGCAACACCTCAGCCTGCAGGCAGGCACTGAAGATACCAAA +GGGTAGTTCAGATTACACGGTCACCTGGAAAGGGGGCCATTTTACTTTTTATCGCCGCTGGCGGTGCAAA +GTTCACAAAGTTGTCTTACGAAGGTTGTAAGGTAAAACTTATCGATTTGATAATGGAAACGCATTAGCCG +AATCGGCAAAAATTGGTTACCTTACATCTCATCGAAAACACGGAGGAAGTATAGATGTCCTTGATTAACA +CCAAAATTAAACCTTTTAAAAACCAGGCATTCAAAAACGGCGAATTCATCGAAATCACCGAAAAAGATAC +CGAAGGCCGCTGGAGCGTCTTCTTCTTCTACCCGGCTGACTTTACTTTCGTATGCCCGACCGAACTGGGT +GACGTTGCTGACCACTACGAAGAACTGCAGAAACTGGGCGTAGACGTATACGCAGTATCTACCGATACTC +ACTTCACCCACAAAGCATGGCACAGCAGCTCTGAAACCATCGCTAAAATCAAATATGCGATGATCGGCGA +CCCGACTGGCGCCCTGACCCGTAACTTCGACAACATGCGTGAAGATGAAGGTCTGGCTGACCGTGCGACC +TTCGTTGTTGACCCGCAGGGTATCATCCAGGCAATCGAAGTTACCGCTGAAGGCATTGGCCGTGACGCGT +CTGACCTGCTGCGTAAAATCAAAGCAGCACAGTACGTAGCTTCTCACCCAGGTGAAGTTTGCCCGGCTAA +ATGGAAAGAAGGTGAAGCAACTCTGGCTCCGTCTCTGGACCTGGTTGGTAAAATCTAAATTTCCTTCGTC +TTTCACGCCATAGCGGCGTTGGCGTCGCCCGCTCACCCCGGTCACTTACTTGTGTAAGCTCCCGGGGATT +CACAGGCTAGCCGCCTTGCTCTGACGCGAAATACTTCGGAAATTCACCTAATTCTTCGGGTGCTGCGGCA +CCCGATTTTCTTCCCCGCACCATGATGCAAGCTGCATCCAGGTAGCCGCAGAGGCCGCTTGCATGATGAT +GTTTAAAGCCCAGGAGATAAACATGCTCGACACAAATATGAAAACTCAACTCAAGGCTTACCTTGAGAAA +TTGACCAAGCCTGTTGAGTTAATTGCCACGCTGGATGACAGCGCTAAATCGGCAGAAATCAAGGAACTGT +TGGCTGAAATCGCAGAACTGTCAGACAAAGTCACCTTTAAAGAAGATAACAGCTTGCCGGTGCGTAAGCC +GTCTTTCCTGATCACCAACCCAGGTTCCAACCAGGGGCCACGTTTTGCAGGCTCCCCGCTGGGCCACGAG +TTCACCTCGCTGGTACTGGCGTTGCTGTGGACCGGTGGTCATCCGTCGAAAGAAGCGCAGTCTCTGCTGG +AGCAGATTCGCCATATTGACGGTGATTTTGAATTCGAAACCTATTACTCGCTCTCTTGCCACAACTGCCC +GGACGTGGTGCAGGCGCTGAACCTGATGAGCGTACTGAACCCGCGCATCAAGCACACTGCAATTGACGGC +GGCACCTTCCAGAACGAAATCACCGATCGCAACGTGATGGGCGTTCCGGCAGTGTTCGTAAACGGGAAAG +AGTTTGGTCAGGGCCGCATGACGTTGACTGAAATCGTTGCCAAAATTGATACTGGCGCGGAAAAACGTGC +GGCAGAAGAGCTGAACAAGCGTGATGCTTATGACGTATTAATCGTCGGTTCCGGCCCGGCGGGTGCAGCG +GCAGCAATTTACTCCGCACGTAAAGGCATCCGTACCGGTCTGATGGGCGAACGTTTTGGTGGTCAGATCC +TCGATACCGTTGATATCGAAAACTACATTTCTGTACCGAAGACTGAAGGGCAGAAGCTGGCAGGCGCACT +GAAAGTTCACGTTGATGAATACGACGTTGATGTGATCGACAGCCAGAGCGCCAGCAAACTGATCCCAGCA +GCAGTTGAAGGTGGTCTGCATCAGATTGAAACAGCTTCTGGCGCGGTACTGAAAGCACGCAGCATTATCG +TGGCGACCGGTGCAAAATGGCGCAACATGAACGTTCCGGGCGAAGATCAGTATCGCACCAAAGGCGTGAC +CTACTGCCCGCACTGCGACGGCCCGCTGTTTAAAGGTAAACGCGTAGCGGTTATCGGCGGCGGTAACTCC +GGCGTGGAAGCGGCAATTGACCTGGCGGGTATCGTTGAGCACGTAACGCTGCTGGAATTTGCGCCAGAAA +TGAAAGCCGACCAGGTTCTGCAGGACAAACTGCGCAGCCTGAAAAACGTCGACATTATTCTGAATGCGCA +AACCACGGAAGTGAAAGGCGACGGCAGCAAAGTCGTTGGTCTGGAATATCGAGATCGTGTCAGCGGCGAT +ATTCACAACATCGAACTGGCCGGTATTTTCGTCCAGATTGGTCTGCTGCCGAACACCAACTGGCTCGAAG +GCGCAGTCGAACGTAACCGCATGGGCGAGATTATCATTGATGCGAAATGCGAAACCAACGTGAAAGGCGT +GTTCGCAGCGGGTGACTGTACGACGGTTCCGTACAAGCAGATCATCATCGCCACTGGCGAAGGTGCCAAA +GCCTCTCTGAGTGCTTTTGACTACCTGATTCGCACCAAAACTGCATAAGAAGAAGTAAGATTCACCTGCA +ATTGCTTAGCCGCCGGGGTCAAACCTGGCGGCTTTTTTATGGCATTAAAAAGCCCCGCCGGGATGGCTCC +GGGCAGGGCGGGATACTTATTCTGGCAATTAACGCACAACCAGCACCGGCAGATTGGCGTGGCGGATCAC +GCTCGAGGCGTTAGAACCTAACAGATGGGTCGAAATCGATGGGTTGCGAGAACCAATAACTACAACATCA +GCCCCCAGTTCTTCTGCCAACTCATTGACTTCATCCCGCACGCTACCAAAACGGACATGTTGTTTAATGC +GGGAAGGATCGATGGTGAAGTGGCTGACCATCGTTTGCAGACGTTCTTGTGCTTCATGTTGCAGATGCTC +TTCAAAACGACGCACATCAGCGGCAAAACGGTGCAGGCTCAGGCTGGCTGACCCGGGTAGTACGTGAAGT +AGATGAATAACTCCGTCATCCTGGGCGAGGAATTCAGCGTGGCGAACAGCTTTGTCGCTCAATTCCATTT +CAAATACATCAACTGGCATAATGATTGTCTTATACATAACCCTTTCTCCCTGTTAATCATGAACAAATCA +TTCGCCATGATTATAATATTTATCCCTGATATTTGTCTGGTTCTTTTTCCTTACGAACTGTTTCTGTGAT +GAATATATTCTCACTGAACACCAGGAATTCTCCCAAAACCTGTGGTACCGCCCGTTTTCCCGCTGTGATA +GCTACCCTTAAAGACTGACTCTTTTTTGAACTGTCTCTGGAGGTTGCATGAAAGCATTGACTTATCACGG +CCCACATCACGTTCAGGTAGAAAATGTTCCCGATCCGGGCGTTGAACAGGCAGATGATATTATTCTGCGT +ATTACGGCAACGGCGATCTGTGGCTCTGACCTCCATCTTTATCGAGGCAAAATACCTCAGGTTAAACATG +GCGATATTTTTGGTCATGAATTTATGGGGGAAGTAGTTGAAACCGGAAAGGACGTAAAAAATTTGCAAAA +AGGCGACCGAGTGGTAATTCCGTTCGTCATTGCTTGTGGCGACTGTTTTTTCTGTCGATTGCAACAATAT +GCCGCCTGCGAAAATACCAATGCGGGTAAAGGCGCTGCGCTCAATAAAAAACAGATACCAGCTCCAGCGG +CATTGTTTGGTTATAGTCACCTGTATGGCGGCGTTCCTGGTGGGCAGGCGGAATATGTCCGCGTCCCTAA +AGGGAATGTGGGGCCGTTTAAAGTACCGCCTTTGCTTTCAGATGATAAAGCGCTTTTCCTTTCTGATATT +CTGCCAACGGCATGGCAGGCAGCAAAAAATGCGCAGATCCAACAAGGTTCAAGCGTTGCAGTCTATGGTG +CTGGTCCTGTGGGATTGTTGACAATCGCCTGTGCACGGTTGCTCGGTGCGGAACAGATTTTTGTTGTTGA +TCATCATCCCTACCGCTTGCATTTCGCCGCCGACCGCTACGGCGCGATCCCGATTAATTTTGATGAAGAC +AGCGATCCGGCACAGTCAATTATTGAACAAACGGCAGGTCACCGGGGCGTGGATGCAGTAATAGACGCCG +TCGGTTTTGAAGCGAAAGGCAGCACCACGGAAACGGTGCTGACTAACCTGAAACTGGAGGGCAGCAGCGG +TAAAGCGTTGCGTCAGTGTATTGCGGCGGTCAGGCGTGGCGGCATTGTTAGCGTACCGGGCGTCTACGCT +GGATTTATTCACGGTTTCCTGTTTGGCGACGCCTTTGATAAAGGGTTGTCGTTTAAAATGGGACAGACCC +ACGTTCACGCATGGCTGGGAGAATTATTACCGTTAATTGAGAAAGGATTACTGAAACCAGAAGAAATTGT +TACCCACTATATGCCGTTTGAAGAGGCCGCCCGGGGATATGAGATTTTCGAAAAACGTGAAGAGGAGTGC +CGTAAGGTGATTCTGGTACCCGGTGCACAAAGCGCAGAGGCGGCGCAGAAGGCGGTTTCAGGTCTGGTGA +ATGCGATGCCGGGGGGAACAATATGATCGTCAGGAGTGGTTTTCGAGGTAAAGGACAGCCATGACGATAA +TCGCCGCCATAATCAGAAATCCTATCAGGATGTAAAATGCTTCTGCCATGGTTATTCCCACAAACGAAAC +GGAATAATTTTGCAGCAAAAGTGAACAGTGAGAACCAGGAAAAATTGCTGATTTTGCGTAAAGAGGATGC +GAGTGCATCCTCTGGGCAAAGCGAGTTATCGCTTGTGCAGATGGGATTAAAGCAGGTAGTCGCCAGCAGC +TTCTGGCTGGTATTCGAGTTCCAGCACTTCAAGGTGGGTTGCAACGCCGCCCGGAAGTTCCCAGTGAATG +GAATCGCCAACGCGCAGCCCCAGCAGTGCGGCACCTACCGGAGCCATAACGGAAAGCTGAGTATTGCTAT +CGGTCATTTTTGCCGGATACACCAGCGTGCGCACACGCACTTCGCCATCGCTAAGATTGCGGAATTTAAC +CCGGCTGTTCATTGTCACCACGTCGTGTGGCATCTCTTCTGGCGAACACATTTGGGCGCGATCCAACTCT +GCGTTTAACGCGTCGGCGATTGGCAAACCAGCATAGGCGGGTTGCTCCAGCAGAATATCGATGCGTTCGG +CATCCAGGTCGTTAATGATGATAGTTGGTCTGGACATTTTTACTCCATGTCGTCGGTGCTGCGAGTGTCG +CAGATAAACATACCCAAAAGAAAACCCTCACCGTCAGGCGGCGAGGGTTTAACTCACATGATGATACTGA +CTGTTGCTCACTCTTTGAAGTGATTTGCGTCACATTCAGGGAATTCCTCAATGCAGCGCATTATGTATAA +ATCTTAATCGCCTTGGTTTATGGAAGACGAATTAGCGTGTTTTGTAAATCAGATGATTAATAACCCGCTT +TATCAATCACAAAGGTTTTGCCACAGTTACCTGGGTGAGGTTGTGGCAAGAATGAGTTTGCAGAAAGCGG +AGCGTTGATGGCGTCAGCTTTGATCGAGATCTGAATTTCAGTCAAATACGCAGGGTTACCCTGGCACGTT +AGCTTAACTGCTTTCACGTTCTCTTTTCCCCAGCTTTTGGCAAAGGCGGCGTCAAAGTCACGGCGGCTCA +CTGTTTTACCGTAATTATCCGCAAGGAATTTTCCGGCTTCGCTCTCTTTAATTTCTTGATTCAGGCGTAC +CATCGTACCGAAGTATGCGTCCGGATCAAAACCAAAGCAGGCACCGTGTTTGGCATATTCGTAGCGTTCC +AGGCAGGAACGTCCGCCAGCTCCTGGCATGACTTCACTTAGTTTAGCGGCCGTTTCCAGTGATAATCCGG +TTTCCGGCGATGAACACATTCGGCTGGCGCGCGCTTCTGGTAGATTCGGGATTGGGCGAGTAGCGCAACC +GAAGCGCATCCAGCGGCGTTCATCAACACCACGGGCAGCAACCGATTTAGGCAATCCTGGCCACAGACCA +TGTACGGTCAGAAAATCAGCTTTGTTGGTCGTTTCGGTTTGCAGGCGACATTCATCTCGTTCGTTACGAT +TTCGATCGTGTTGACTCTGGCAAAATCCGGTTTGCCAGGAGAGGGCCAGGACATAGCGATCAAAATCGCC +ATACTGTTTTGCCTGCAACGCTAAGGCGTTGGCAGAAGAGAAGGGAAGCAGAGAAACCGCGAGCAACGCG +GCGTTACGCCAGAATGCTTTCATAATGGGTGTGGAACTCATACATACACTGAATACTATCTATTAAATCA +TAAAAAAGCCCGCCAGGTGGGCTTACCTGGCGGGCGTGATGATTTATTCAGCGTTTGGCGAACGTATTAG +TTCCACATGGCGAGAATCGGCCAGCCAACCAACAGCAACATAGAGATGTAAATCACCCCGAAGATTGCGC +CAAGACGCCAGTAATCTTTTGATTTCACATAGCCACAGCCGTAAATAATCACCCCAGGACCGGTTGCATA +CGGCGTCAGACAGCCCATGATACCGATAGACAGCACCAGCAGGATACACAGTTGTTCCATTGGTACGCCC +GGAATACCTTTACCGACGGCCAGAATAACCGGCAGCATGGTTGCGGTGTGCGCAGACAGGCTGGCAAACA +GGTAGTGTGCAAAGTAGAACACCAGAACCAGTACAATCACCGTTGCGTTTGGTGAGAATCCTTCCAGGTG +CGTACTCATGGTACCGGCGAACCAGTCAATAAAACCAGAACGAGTCAGGCCGTTAGCCATCACAACCAGA +GTTGCCAGGTTGACCAGTGTGTTCCATGCGCTGTTATAGCGGGTAATGTCTTTCCAAGGCACAACGTGCA +GGGCCAGCATTAGCGAAACTGCCAGCAGACCAACCGCAGTAGCATTAATGACTTCACTGCCAAATACCCA +CAAACCTAAGCTGAGCAATACAAGGCCAATCAGTGTCCACTCTCTGCGTGTCAGCGCACCCATGGTTTTC +AGTTCATCACCCGCCCAGGTTGCCACTTCTTCACTGTGTGTGATTTCCGGTTTGTACAGCACGTAGGAAA +GCCACGGCGCAATGATAAGCAAGATAACCCCAACCGGCAGGAAGCAGAGGAACCACTGCAACCAGCTAAT +CTGGATACCGGCAATTTTGCTGACGAACTCCAGACCCAGCACGTTTGGTGCCGCACCGGTGACAAACATG +GACGAACTCAGACTGGTACTAATGACCATCATCCACATCAAATAGCCGCCAATACGACGCGCGGACGGAT +CGTTCGGGAATGATTTAAACAACGGCGGCAGGTTTTTAATGACCGGAAAAACCGTACCCCCGGTACGCGC +GGTGTTGGAAGGTGTAAACGGTGCCAGCAGAATGTCGATAATGACAATCGCATAACCCAACGTCAGCGTG +CGTTTGCCCATGAATTTCACCAGGAAAAGGGCAATGCGACGACCTAACCCGGAAACTTCATACCCTAATG +CAAAAATAAATGCGCCAAATACCAGCCATACCGTGGTGCTGGAAAAACCAGCCAGGCCCCATTTCAGCGC +CTGTTTTTGCGCATTAAACGCTGGGTCAGCTAATTCTTTGGCATCAAAGAGCAGGTAATTACTGCCAATA +ACGCAAATAGTAACCGCAATAAAACTGATCGCTGTTGCCGGAATTGGCTCGAGGATCATGCCGACAATCA +TTGCCACAAACACAGCGAAGTAATGCCATGCCTGCGGCGGCATACCGTCGGGGACAGGGATAAGAAACAT +GACACCCATCACCACCAGTGGGGCCAATAGTTTCCATATATTATCTTTTGCTAAAGACATACGGGTTCTC +CGAAAATTAATATTTCCAAATTTATCAAGTGCTTAAATAATTAAATCTGTGCTAAAAACCAGGTAAGGAT +CAGTAGGTCAGCACTGCCGCCTGGACTGAGATTTCGTTCGATACACTCCCTGTCGAACTGCCGGAGATAA +TCGAGATCGGCGGGGGTTCGAATGCCCCCTTTTTGCAATAATGTTTGCGCCTCGCGCTGTAGCCAGCGCA +GGCCCCCCTCGCCACCGCGCGATGCAACGTTGGTATCGCCGTTGATCGCCATCAGTAGGAGCAAGGTATC +GAGCAATGCCAGTTCAGGATCTAACCCCTGATCCAGCAGAGTGAGGTAATGCGGCAAGGCGTGATTGATC +ACCAGTGGATAACCCGCTTCGGCTTCACCGCGTGCGCCGGTAAGGCCAAGCTGTTGGTACAACCGTTGAC +CTGCCGTCAGTTGTGAATTATTGGTACGCAGTTCGCGATCGGTCAGGCCACGGCAGAAACTTGCCGCCGT +AGAACAAACGGTTGTTGGCGTTACCGGTTGGTTGAGTTGAAGCAAACGGCCAATTGCCGCACATAGCAGC +CCTAAAGAAAAAATGCTGCCTTTATGCGTGTTTACGCCCGCAGTGGCGCGGAACATATCACCTTCGCAAG +CCATACCAATTGGGCGTAATCCGTGGAGTACCGCTTCTGGTGCCATTTCCGCACTACAGGCACCAAATTC +AATGAAACGGGGTAGCCAGCCCTGAATCGCCAGCGCGCTGCGGTGGAAATCTTCCAGCGCCATATCTTTG +TGCGCACCGCAGTTAATGCGATCCACGAGGCCTGGTTTCGGTGACAGATTGACTTCAGTCAGCATGGCGC +GCCAGCCCAGCAGGGCGTACTCATCGATTAATGACGTCGCAAGCTTTGTGGTTTTAGTTGACGTTGCAGG +CATCGACATCGTTCAGCAGTGCCTCCATGCGGTTGAGTAAATCGGTCAGTTGATGGGTTTTTCCACGCGC +GCAGACGGCTGCGCTTTGTTCGCACAACAGGCAGCGGCGAGGCGGCAGTGAATAGTCGCGGCGGGAGAGA +ATTTCGCCTTCGGGCGTCAGGACATCGATATCCCATAACCGCCCGAGAGGATGACTATGTTCAAGCTCAA +TGGTGGCGAGCTTGAGGTCGCGAGCCGGGGCGGCAATGCTCAACATGCCCTCCGGCCCGCTGGCGGAAAC +CAGTGCAGCCTGCTCCTGAATTTGCCAGCCCTGTTTTGCGGCTAAGGCACGCAAGGCTGTCACGCCATGA +TTAAAAATTCGGCGTGTGACCTCGCTGTCTTTAATCGGCCCAGGCGCAACCACGGTAAAGGAGACCAGTG +GAACAGGATGGCGCTTGAGCCAGACGTGTTGCCGTGCTTGCCTTTCATCCCGGCTGACGAGCAGCTCGGG +AATTGATACCGCATGGTGGCTGGCGAGTTCAGGAAGCAGGTGCATGGCTTATTCCTTCACCTGATGCACA +ACATCGATCACCGAGCCATCGCGGTAACGCACAACGGCAACGACGCGGTCTGTGAATTCAATCGGCTGTG +GTTCACCGGTCAGCAGACGCGCACGTTCGCGCAGCCACTCAATGGAAACCACTTTAATGCCCGCTTCCTG +CAGACGTTCTGCCAGTTCCGGACGTGCCGGGTTAACTGCGATACCGTGGTCTGTGACCAGAATATCGACA +CTGGAGCCTGGGGTGATGCAGGTCAGTACGTTATCCACCAGAGTCGGAATACGACCGCGTACCAGCGGCG +CGACGATGATGGAAAGCGCAGAGGCAATCGCGGTATCGCAGTGACCACCGGAAGCACCACGCAGTACGCC +GTCAGAGCCGGTCAGCACGTTAACGTTGAACTGGGTGTCAATTTCCAGCGCGCTCAGTACCACCACGTCG +AGACGATCAACCGATGCGCCTTTCGAACCCCAGTTAGCGTACTGGTTGGCGCTGATTTCGATGTGATTGG +GGTTACGGGCCAGCGATTGCGCAGCATGGCTGTCAAAGCTCTGCACATCCAGCAGTTTGCGGATCAGACC +TTTTTCGTGCAGGTCAACCATCGTCGCGGTAATACCGCCAAGGGCGAAGTCGGCGCGAATATCGCGGCTA +CGCATTTTGTCTTCCAGGAAACGGGTTACCGCCAGCGATGCGCCGCCGGTGCCGGTTTGCATGGAGAAAC +CTTCTTTGAAGTAGCCAGAGTTGACAATCACATCCGCAGCGCTACGGGCAATAAGCAGTTCGCGCGGGTT +AGTGGTCATACGGGTCGCGCCAGCGCCGATTTTTGCAGCATCGCCAACGCGGTCAACTTTGACGATCAAA +TCAACCTGATCTTGCTCAATGCTTGCCGGATTATGCGGATAAGGCAGCAGTTCTTCGGTAAGCATCACGA +CCTGTTTTGCGTTGTCGGCATCAACTATTGCATAGCCGAGGGAGCCGCAGCAGGCTTTACCGGTGTAGCC +GTTGGCATTACCGAATTCATCACAGGACGGGACGCCGAGGAAAGCCACGTCGATATTCAGTTCGCCGCTC +TGTACCAGATGCACACGACCGCCGTGAGAGTGGATCTGCACCGGTTCTGCCAGCAGACCACGGGAGATCT +CTTCCGCCAGTGGACCACGCAGGCCGGAGGTATAAATGCGGGTAACCACGCCCTGGCGAATGTGTTCTAC +CAGCGGCGCATGGCAATCACTCAGGGAGCTGGACGCCAGGGTCAGGTTTTTAAAGCCCATCTTCGCGATG +ACGTCCATCACCATATTGACGGTCAGGTCACCGCCACGGAAAGCGTGATGGAAGGAAACCGTCATGCCGT +CCTGTAAACCAGAGCGACGAATCGCTTCTTCCAGGTTGGCGCACAGTTTGCGATCGCGCGCTTTTTCAGC +CTGGTAGGTTTGCTTTGGCGAGTTCTGGAAAGCGGCAAGATCGCATTCAGCGCGACGATTCCAGGCCGCT +ACCCGTTCTTGTCGTTGAGATTGTTCAATTTTCTGCGTCATTTTGATTGCCTTATTCTTCGCGGATGCCG +GAAAGTTCTGCACGGGAGAGCACCAGACGGGCGCGATCGATAACCGGACCGTCCACCATCTTGCCGTTCA +GGGAAACCACGCCGAGGCCTTCGCGAGCGGCGGCTTCAGCGGCTTCTACGACGCGGCGGGCGTGATCCAC +TTCTTTCTGGGTCGGTGCGTAGAGGTTGTGCAGCAGATCAATCTGACGCGGGTTGATCAGCGATTTGCCG +TCAAAGCCCAGCTGTTTGATGTGGGCGGCTTCTTGCAGAAATCCGGCTTCGTTGTTAGCGTCGGAATAGA +CGGTATCGAACGCCTGAATACCCGCAGAGCGCGCGGCCTGCAAAATGGAACAGCGTGCGAACAGCAGTTC +AGTTCCTTCCGGGGAGCGTTCTGTACGCAGGTTGCGCACATAGTCTTCTGCACCGAGGGCGATACCGATC +AAACGCTCGGAAGCGTGAGCGATTTCCACTGCGCGGGTAATCCCCAGCGGAGATTCAATCGCCGCCAGCA +GGCCGGTGCTGCCGGGTTCACGACCACAGGCTTTTTCGATACGCAGGATCTCTTTTTCAATATCCAGAAC +ATCCTGAGCGGTATCGGTTTTCGGCAGACGCACAACGTCCGCACCACCGCGAACGACGGCTTCCAGGTCG +TTAACACCCCATTCGGAATCCAGCGCGTTGACACGCACAATGGTTTCAATATCGCGATACAGCGGATGTT +GCAGCGCGTGGTAAACCATGCGGCGGGCGGTGTCTTTTTCACGCAATGCTACGGAGTCTTCGAGGTCAAA +CATCAGGGCATCAGCCGGGTAGATGAAGGAGTTGCTGACCATCGCGGCATTGGCACCAGGCACAAACAAC +ATGCTGCGGCGGGTGCGAGTTTTACGTTGTTGCAGCGAAGCGGAAATCATTGGCAATCCTCCCATGGCAG +AGCCGGGATACCGCTGGCGCGTGCCAGCAGGGCTTCCAGTCGTGCACGTAAAATGCAGTCCAGTGCGCCT +TTGTCATCGACATTCAGCTGTACGCCGCGCACGTTGTAGCGGGCGAGAACGTCCAGAATGGTGGTGCGAA +TTGCATCGCCAAACTGTTTCTCAACGCTGCTATTGATTTGCAGGTCGATATCCTGCGTATCGAGTGGGGC +GATGCGTATCATCACATCCCCAGACTCAAGGGTGCCTGCAACGGCGGGCTGGTTTATTTTCATTTTTCAC +CTGTTTCTCATGCGGGGGTCTTTTGACGAGCTGCCGCGTCCTGGCGGGAGTGCTCAAGCAGGTTCTGCAA +ATAATGCAGCGTGACTGCAGGGACCAGCGGCGCGATAGCCGTGAGATCGTTTTTCGCCAGCAGTTGACGT +ACCCGGGAAGCGGATATCGGCATCTCCTGGTAACGCAGCCGCTCAATTTCAACCAGTTCGATGGGCGGTG +CGGAGATAGTCGGCGTTTCCAGCCAGTAGCGCATATCCTGGTTGTACTGGGCGGTAACGCGACAAAAGGG +TTCAGTACCGACAAAGCGGTGAGTTACACCCAGCGCGGGAGCGAGGTACTGACGGAAAATCTTCAGATCA +ATTTCGGTGTAACAATGGTTAATGACGCTCTGTTCTTTAATGAAGTAGCAAGGGAACGTAGCGCGGGAGA +TGATGTATTCGGAGCCACGATGCACAGTCAGGCGTGGAATATCGGCGGTGCCTTTTAACACCAAATCCAG +CCGGTCTTCATAGGGGAAGCGTGAAGAATCTTCTTTGACTAAAAACAGATGCAACCAGTCGCACTGTGCC +GCAGCCTGTTGAATCAGATAACGGTGACCATTCGTAAAGGGATTGGCGTTCATCACAATGCAGCCAATCT +TGTTCCCTGGATGACGAAATTTTTTCAGCGATTCGGCATAGCGTTTCAGTCGCGTGGCGCTGTTTTCCAT +CAGCACCATCACGCCGGGTACGCTGGTCAGCGTGGAAAAACCGCACTGGCGGAACAGCGCCTCGTATTCG +GTTTTGGTATAAATAAACAGATGCGTGCTGTGCCGCTCATAGGCGAGGTTTATCAATTCAGTGGCTAATG +TCAGCGCCAGTCCTTCACCGCGGACGGATTCACTGATAGCAACGCATTTAATAATATTTCCGGCAATTCC +ACCGCACGCGATAAGCTTTTCATCGCGGGTTACGGTAATAAATACTTCGACTGTGGTGTCAACGCTCAAA +TCATTTTCATGCAGGAATTGGGCGATTTCCGCCATTTTTTTATTTTCTGAACGTTTTACGCGGGTGAAAA +TATCATTGCCGAACATAATAAATAGTATCCTGAAGGTGCATGTTGTTATCGATTTGCAACGAATGTTGTT +CAATGTTGCAAACTGATAACCTTTTATTTTCACTTGGGAGAAAGGGGGTGATCGAGGTATATCTTTTTCT +CCTTTCGCTATACATCCTAAGGAGTATTTCGGCGTGAAATTTTGATTTATTTCACATAGAGTTAGTGGTT +TTTTATTTATTTAATGATTTTAAGTTTTTTAATTAATGTAATTACGAAATGACTCGCAGGTTTAAGTGAT +TTAATTGATTTAATGAATAAAATTTGCCACGATCATAATTAATATCTATGTATTTTGATTCAACATTTTA +ATTACATCCGTCAAAGAGGCTCGGGACAACCCGCAAGGAAAACAATGTTGCAGCTTAACGAGAATAAACA +GTTTGCATTTTTCCAAAGACTGGCATTTCCGCTGCGTATCTTTTTGCTGATTCTGGTGTTCTCAATATTT +GTCATTGCAGCCCTGGCGCAATATTTTACGGCCAGTTTTGAGGACTATTTAACGCTTCATGTACGCGACA +TGGCAATGAATCAGGCGAAAATTATTGCCTCCAATGACAGTGTCATCTCTGCGGTGAAAACGCGTGACTA +CAAACGGCTGGCGACCATCGCTAACAAATTACAAAGAGATACCGATTTTGATTATGTGGTGATTGGGGAC +CGGCACTCGATCCGCCTTTACCATCCTAATCCGGAGAAAATTGGTTATCCTATGCAGTTCACCAAACAGG +GCGCGCTGGAGAAAGGGGAGAGCTACTTCATTACCGGGAAAGGGTCAATGGGGATGGCGATGCGCGCCAA +AACGCCAATCTTTGATGACGATGGAAAAGTCATCGGCGTGGTGTCGATTGGCTACCTGGTGAGTAAAATC +GATAGCTGGCGGGCTGAGTTTTTATTACCGATGGCAGGTGTGTTTGTCGTGCTGTTAGGGATTCTGATGT +TGCTGTCGTGGTTCCTGGCCGCGCATATCCGTCGGCAGATGATGGGCATGGAGCCAAAGCAAATCGCACG +CGTGGTCCGTCAGCAAGAGGCGCTGTTTAGTTCGGTTTATGAAGGGCTGATTGCGGTGGATCCGCATGGT +TACATTACCGCCATCAATCGTAACGCAAGAAAGATGCTGGGGCTGAGTTCCCCCGGACGGCAATGGTTGG +GTAAACCCATTGTTGAAGTGGTCAGGCCCGCCGATTTCTTTACCGAACAGATTGATGAAAAACGTCAGGA +TGTGGTGGCGAACTTTAACGGTCTGAGCGTTATTGCCAACCGGGAAGCTATTCGTTCAGGTGATGATTTG +CTGGGGGCCATTATCAGCTTTCGTAGTAAAGACGAAATTTCCACCCTCAATGCGCAACTGACGCAAATAA +AACAATACGTTGAGAGCCTTCGTACATTGCGACACGAGCATCTCAATTGGATGTCGACGCTCAATGGTCT +GTTGCAGATGAAAGAGTATGATCGCGTGCTGGCGATGGTGCAGGGGGAGTCTCAGGCCCAGCAACAGCTT +ATTGACAGCCTGCGCGAGGCGTTTGCCGATCGCCAGGTGGCGGGGCTGCTTTTTGGTAAAGTGCAGCGCG +CCCGGGAACTGGGGCTAAAAATGATCATTGTCCCCGGTAGCCAGCTTTCGCAACTGCCGCCAGGACTGGA +TAGCACCGAGTTTGCAGCCATTGTGGGCAATTTACTTGATAACGCCTTCGAAGCCAGCCTGCGTAGCGAT +GAAGGAAACAAGATCGTTGAATTATTCCTCAGCGATGAAGGCGATGATGTGGTGATTGAAGTCGCCGATC +AGGGCTGCGGCGTTCCAGAGTCTCTACGAGACAAAATATTTGAGCAGGGGGTCAGTACGCGTGCTGACGA +GCCCGGTGAACATGGCATTGGGTTGTACTTGATTGCCAGCTACGTAACGCGCTGCGGTGGTGTTATCACT +CTCGAAGATAATGATCCCTGCGGTACCTTATTTTCAATCTATATTCCGAAAGTGAAACCTAATGACAGCT +CCATTAACCCTATTGATCGTTGAGGACGAAACGCCGCTGGCAGAGATGCATGCGGAATATATTCGTCACA +TTCCCGGATTCAGTCAGATATTACTGGCGGGAAATCTGGCGCAGGCCCGAATGATGATCGAGCGTTTTAA +GCCGGGGCTAATCTTGCTCGATAACTATCTTCCTGACGGTAGAGGGATTAATTTACTGCATGAACTGGTG +CAGGCGCATTATCCCGGCGACGTGGTGTTTACCACTGCAGCCAGCGATATGGAAACGGTGTCTGAAGCCG +TACGTTGTGGTGTATTTGATTATCTCATTAAGCCCATTGCCTATGAACGGCTGGGGCAAACGCTAACCCG +TTTCCGCCAGCGTAAACATATGCTGGAAAGTATTGATAGCGCCAGCCAGAAGCAAATTGATGAGATGTTT +AATGCTTATGCTCGCGGTGAACCTAAGGACGAGCTACCGACCGGCATTGACCCCTTGACGCTAAACGCGG +TGCGAAAACTGTTTAAAGAGCCTGGTGTGCAACATACGGCAGAAACGGTGGCGCAGGCACTGACCATCAG +CCGCACCACTGCCAGGCGTTATCTTGAATATTGCGCCAGCCGCCATCTGATTATTGCTGAAATTGTTCAC +GGCAAAGTTGGCAGACCACAACGCATATACCACAGTGGGTGACATGATAAAGCCGGAGGAAACTTGCCTC +CGGCATTACTATTTACTTGCCTGTGACCGCTGCTGCCGTTCCTGGCACCATCAGCTCTGTAGCAACGATA +ACAATCACCAAACCAACAAGCACCGGTACCGAGGTGCGTTTTACGACTTCAAACGGCGAGATCTTCGCCA +TCCCGGCAACCGCAACGACTACGCCAGAAACGGGCGAAAGGGTACGGCCAAGGTTTGACGCCTGCAGCAT +CGGGATAGTCAAATACGCCGGGTTAATGCCGGAAGAGTGCGCCAGTTTCGGGATCATCTCAACAAACGCA +TAAAACGGCGCATTGCCTGAACCGGTCGTGACTGCCGCCAGCATTGTCAGAATCACCAATACCAGCATCA +GGATGATACTCGCCGAACCAAACGAGGTAGCGATAGAAATCAGACTTTGAATAAAGCCGATGGTGCTAAG +CCCCTGAGCGAATACCCCAGCGGCAACCAGCAGCATCACCACGTTAGCAAACGCATCTGCCATCCCGCGA +TAAGCCACTTCCAGACCAGAGAAAACTTTCTGGGTATTAAAGCTGCGGAGGAACTCCAGAATGGAGGCAA +TCAGCATACAAATCACCAGAATAGTGATGATGTGTAATTGCGGACCCCATTTACCGTCAAAAATCAGTAC +ACCGATGATCGGCGTGAACGGCAAAATGGCATAAAACGCAGGAGCAGTGGTGGTGATTTCACTGACATCT +AACATTTCATGAGAGATGTGCTCTTTTTTATCCAGATAACGTTGCCAGAAGAAGTGGGCGATCGCCATGC +CGATAATTGCAGCAATTGAGATAGGCAGCGTCGTTTTGAAGGCGAAGTCAATCAGCGACATTTCGGAAGC +TTGCGCCGCCAGCACCACATCCCCTGAAGTCGGTGCGAGAATAATCGCCGCCGGGGAGGCACAAATGGCA +GCAGCTGCGCCACGACTGATACCAACGTTTACCATCACCGGAAATAGGGTTGCCATCAGCAAAACACCCA +GACCGGTTGCGGAAGAGACGGCCAGAGACATCAGACAGGCGACAAAATAGGCGGCAATCATCAGCAGGTA +AGGGGAGTTAATATACTGCAATGGTTTTGACGCCAGCTTGACCACCATATCATTCGCGCCGATATGGGTC +ATGTAAGCGGCAAATCCACACAGCATCATAATCATCATGCCGAGGTCGCCGCCGCGGCTCATTAGTAATA +TTTTAACGTATTCAACGATATCCGTGGCGCTGTAGCCTGTTGAAGCCTGGCTGGACGGTAACACTTTGTG +CCCCATAATGGCACTGATAATCAGCAATAACAGGCCACCGACAAATAACACACCAGTGGCGGAATACCCT +TTAATGATGTAGCGAGCTACACCCACAATAACCACAACCCCAATAAGGAGCTCAATGAATGTCAGCATAA +TTTTTCCTGTCTCCAGGCCCCAAAGTAAATAATAAAAAATTCCTAAAGCTTAAGGAAAAAATATGCCCAA +TAAATTGGCGATGAATGCTGATTAAAATCAAGAAAAACTGCCATTAAGACATTGAAGTTGCTGTTTTTAT +ACATAGATAACAAAACGCATATTTAGCGGTTGGCAATTATCACATAATAATGTGTGCAAATTGATGGTGG +ATTGATGCAAATTTGTTAATTGCAATGGTGTTAGCTGCGGCTGTGCGCTCAAAAAATAATCTAATATGAG +CATAGGTTGACGATATATATTATATACTTCGTTAAGATGATTGTTGTATCTCGTTAAAAAATAAAATAAT +TTTTCCTTGATTGCATTTTGTCATCAAAAAAGACTTGGTTTTTCTTTTTTGACTATTCCCATCGCAGAAA +ACGACGCATCATCTTTAATCGATGCGCGGAAATATTTAACTTGAACAAGCGGAAATAAATAGAGCAGCTA +TTCAGATTATTCTTTATGTTGGGTCTATTAAGGTTATGTTAATTGTAGCTTTGCTATGCTAGTAGTAGAT +TTTTGATAAATGTTTTATGGTCACAAATGAACGTGAGTAAATATGTCGCTATCTTTTCCTTTGTTTTTAT +TCAGTTAATCAGCGTTGGTAAAGTTTTTGCTAACGCAGATGAGTGGATGACAACGTTTAGAGAAAATATT +GCACAAACCTGGCAACAGCCTGAACATTATGATTTATATATTCCTGCCATCACCTGGCATGCACGTTTCG +CTTACGACAAAGAAAAAACCGATCGCTATAACGAGCGACCGTGGGGTGGCGGTTTTGGCCTGTCGCGTTG +GGATGAAAAAGGAAACTGGCATGGCCTGTATGCCATGGCATTTAAGGACTCGTGGAACAAATGGGAACCG +ATTGCCGGATACGGATGGGAAAGTACCTGGCGACCGCTGGCGGATGAAAATTTTCATTTAGGTCTGGGAT +TCACCGCTGGCGTAACGGCACGCGATAACTGGAATTACATCCCTCTCCCGGTTCTACTGCCATTGGCCTC +CGTGGGTTATGGCCCAGTGACTTTTCAGATGACCTACATTCCGGGTACCTACAACAATGGCAATGTGTAC +TTTGCCTGGATGCGCTTTCAGTTTTGAGACAAATGAAGTTTTAGTAACTTCTTTAAAATCAATAGCTAAA +ATAAGTAACATCAAAAATAACGCGACTTTTATCACTTTTTAGTAAAGTTACACTGGACAAAGCGTACCAC +AATTGGTGTACTGGTAACCGACACAGCATTTGTGTCTATTTTTCATGTAAAGGTAATTTTGATGTCTAAG +ATTAAAGGTAACGTTAAGTGGTTTAATGAGTCCAAAGGATTCGGTTTCATTACTCCGGAAGACGGCAGCA +AAGACGTGTTCGTACACTTCTCTGCAATCCAGACTAATGGTTTTAAAACTCTTGCTGAAGGTCAGCGCGT +AGAGTTCGAAATCACTAACGGTGCCAAAGGCCCTTCTGCTGCAAACGTAATCGCTCTGTAAGATACGTCA +GCAAGAATTCAAAACCCGCTTAATCAGCGGGTTTTTTTTGGTCTTTAGTGTGCGGTTGAGGCCGAAAACA +GCCAGAATGCCAGTGCGGTCATGGCAAAAGACCCCAGAAGGTTGACGAAAACGTTCAGTAATGCCCAGCC +AAAGCGGCCCTCTTGTAACAAAAACACCACTTCTGCCGAAAATGTTGAGAAGGTTGTTAGACCGCCACAA +AATCCGGTGGTGATTAATACTTTCCACACTGGATCAATGTTCGTCATCCTGCTGAACCATGCGAATCCTA +TTCCTATGATGAATGCCCCAATCAGGTTTGCTGTCAGCGTCCCCAACGGAATCGCCTGATGCAGTGGGTT +AAATCGCATACTTAACAGCCATCTCGCCACGCTTCCCGTACCACCGCCAATAAAAACTGCTAAAAGAAGT +TGTAACACTGCAAAATCCTGCTATTTGATTTGTATGAGTGATAAGTGTAACGCCGAATAATCGTCGTTGG +CGAATTTTACGACTCTGACAGGAGGTGGCAATGCTGGTTGCCGCAGGACAGTTTGCTGTTACATCTGTGT +GGGAAAAGAACGCTGAGATTTGTGCCTCGTTGATGGCGCAGGCGGCGGAAAACGACGCATCGCTGTTTGC +CCTGCCGGAAGCATTGCTGGCGCGCGATGATCATGATGCAGATCTATCGGTTAAATCAGCACAGCTGCTG +GAAGGCGAATTCCTCGGACTTTACGGCGAGAAAGTAAACGTAACATGATGACGACAATTCTGACGATTCA +TGTTCCTTCAACGCCGGGGCGCGCATGGAATATGCTGGTGGCACTTCAGGCAGGAAACATCGTCGCCCGT +TATGCCAAACTGCATCTCTATGATGCATTTGCCATTCAGGAATCACGCCGTGTTGATGCTGGTAATGAAA +TCGCTCCGTTACTGGAGGTGGAAGGGATGAAGGTCGGTCTGATGACCTGTTATGACTTACGCTTTCCAGA +GCTGGCGCTGGCACAGGCATTACAGGGAGCTGAAATCCTGGTACTTCCTGCCGCCTGGGTTCGCGGGCCG +CTCAAAGAGCATCACTGGTCAACGTTGCTTGCCGCTCGTGCGCTGGATACCACCTGTTATATGGTGGCGG +CGGGGGAGTGCGGGAACAAAAATATCGGTCAAAGCCGGATTATAGATCCCTTTGGCGTCACCATTGCGGC +AGCGTCAGAAATGCCTGCACTCATTATGGCGGAAGTGACGCCCGAACGTGTGCGTCAGGTGCGCGCGCAA +CTGCCCGTCTTAAACAACCGTCGCTTTGCGCCGCCGCAATTATTATGATGTTTTTTTACTCGGCGCTTGA +TTCACCTTGTTACAGATTGCTATTGTGTGCGCGCGTCGAATGACCGTTAATATTCTCTGGTTTTTAAGGC +GCGTTCTGTTGCCGGTTATATGTCAAGAAGGTATCTATGGGTGAGATTAGTATTACCAAACTGCTGGTAG +TTGCGGCGCTGGTCGTTCTGCTGTTTGGGACTAAGAAGTTACGTACGCTGGGCGGAGACCTTGGAGCGGC +CATTAAAGGGTTCAAGAAGGCGATGAATGATGACGATGCTGCGGCGAAAAAAGGCGCAGACGTTGATCTT +CAGGCTGAAAAGCTCTCTCATAAAGAGTGACGTGGCGAGCAGGACGCTCCCTCAATATCTTGTTCGATAC +AAAAAACCCGCTTCAAAAAGCGGGTTTTTTATCAGACAGATGTAAGTAATTATTACAGGATTACTTAACT +TCCATCCCTTTCGCCTGCAAATCGGCGTGGTAAGAAGAGCGGACAAACGGACCGCATGCAGCATGGGTAA +AGCCCATCGCCAGCGCTTCGGCTTTCATTTCGTCGAACTCATCCGGGCTAACGTAACGTTGAACCGGCAG +GTGATGGCGGCTTGGCTGCAAATATTGCCCCAGCGTTAACATCGTCACACCATGACGGCGCAGGTCGCGC +ATTACCTCAATAATTTCTTCATTGGTTTCACCCAGTCCCACCATCAGACCAGACTTGGTCGGGATTTCCG +GATGCGCTTCTTTAAAGCGTTCCAGCAGCTTCAGCGACCAGTTGTAATCTGCACCAGGCCGTACCTGACG +GTAAATACGCGGTACGTTTTCCAGGTTATGGTTGAACACATCTGGTGGCGTTGCAGTCAGAATATCCAGA +GCACGATCCATACGACCGCGGAAATCCGGCACCAGAGTTTCAATTTTGATTTGCGGGCTTTTTTCCCGAA +TGGCAGTAATGCAATCCGCAAAGTGCTGGGCACCGCCATCGCGCAGGTCATCACGGTCAACGGAGGTGAT +AACCACATAACGCAGCGCCATATCGGCAATGGTCTGCGCCAGTTTCACTGGTTCATTGGCATCAGGAGCT +ACCGGGCGACCGTGGGCAACATCACAGAACGGACAACGGCGGGTACAAATAGCGCCGAGGATCATAAACG +TTGCTGTGCCGTGGTTGAAGCATTCCGCCAGGTTAGGGCAGGAGGCTTCCTCGCAGACAGAATGCAGGCC +ATTTTTGCGCATTGCGGCTTTGATGCCCTGGATACGTGTAGAGTCCGCTGGAAGCTTGATTTTCATCCAT +TCCGGCTTGCGCAGCAGGGCTTCGCGCTCTGTTGCCACGTTTTTAACCGGGATAAGGGCCATCTTATCGG +CATCGCGGTATTTAACACCGCGTTCCATCACAATGGGTTTACTCATAGCGTGCGTGTTCCAGTTGCGAAT +TACGAAGGAAAGCGTTTCAATTCAATAGATTGTTGTAATTATCAACTATTTTTGAATTAACGACTGGCAG +TATATCATTGAAACGGACCTGAAAGCAGCCAAAGCGGTCGCGAAAATGTAAAATTGTTGTTGGATTGTGC +CATTTTATCGTTCTGCGCTGTGATCTGGCTGTAACAATACTTTTTCAAAATGCATTACGGATAACATCTA +TTACTCCGTGCAGGATGGGATCACGCAGGCTGAATTTGTTGTAGTGGATAGAGAAATCTATTTGCTCCTC +ATTTAAGGACGGAAAAGGCAGTTTTTCCAGCGGCCAGCAGCGGCTAAACAGGTTATAAAAACGGCTGGGA +ATAATCGCTAACATGTCACTGTTGGCAACCAGTGCAGCGATTGTCAAAATGTTGTAGCTGGTGAAATTGA +TTTGCCGGTCCGGAAACATTTCTTGAACTCTCTGCCGCAGACCGCTGAAATTTTGCTCTTCCGGTAACAG +AAGTACATGCGCAGCGTTGTCGATAGTCTCTCTGTCATCTTCTAAAGAGAGTAGTGGATTTCCCTCGCGG +CAAATTAACACCATATTGTCGGTGAACAGAACATGATGTTGCACCGTACGATTGGTGCAAAACATGTTAT +CGATGATGAGATCGGTTTGAAACTGACTGAGTTGGTTTTCCGCGTCGCTGATGGGCGGGTTGCGCAGTAA +AAGCTGCGGATAGTGAGTTTTAATCGCCCGATAGATGACAGGAAGGACCAGTGCTCCGACCGAGGGAGTG +GTCGCAATAGTTATCGTTCGTTGCTTATCATAGCTTCCTTCGATATCCAGCGCGCCAAGAATGGACTCAA +GGCCCTGACTGATATACTCATGTAGATGCATCGCAAATGCGGTAGGAGTGACACCCTGGCCTTTGCGAAT +AAACAATGGGTCAGGGAATATAACGCGCAGTTTCTGAATAGACTGACTGATTGCCGAGGGGGTCAGATTA +AGCACTTTCGCTGCATTAACGATCCCTTTATGTACATATACAGCTTCAAAAATAGTCAGAAGGTTAAGAT +CAATATTTCGTAAGGTTGTAAATATTTGTGGTTTACCTTCTGACGACTTTCTGCTTAAACAGGGTTCAAT +TTGATTATTACTATCCACGCACTTACTCCAATTTTATTCATGGAAAAATAATATTTAAAAAATTACAATA +ATCTTATGTCTAATTGGAACGGAACGCTTTTGCTCACCATAATCAACTATTTCAATAGGTTAATCAATGG +GGTGAGTTACGGAGCAAGGCGTGGCACCGCATTTCTGCAAGTGATAAAGAAAATATACAAACGCGAAGGA +GATGTAAAGCATTAGCAGATATTATGAGTAATGACCCAGTGTAAATTGGGCCATTGATGTATGGAATTAA +GCGGTAATATATTCGAAGTCCGGATTGTTTAGTAGCGCTAAAATATTTTCCAGTAAACGTGGAGCAATAT +TATTAGTCGTCGCTTCGGGTTTCCATTGTGATATTTTAGCCATTTCCATTCCGGCATACCCACAAGGATT +AATACGTAAAAATGGTGAAAGATCCATATTGACGTTTAATGCCAGACCGTGGAATGAACAACCGCGTCGA +ATACGTAAACCCAGTGAGCAAATTTTCTTTTCCCCAACATAGACACCTGGCGCGTCAGCCCGAGGATGCG +CTTCTATACCCAGTTCAGCCAGGGTATTCACCACTGTTTGCTCAAGCAAGGTCACCAGTTCACGCACACC +GAGTTTACGGCGTTTCAGGTTAAGCAACACATACATCACCTGTTGCCCCGGCCCGTGATAAGTCACCTGC +CCACCGCGATCGCTCTGGATCACCGGAATATCACCCGGCATTAAAATGTGCTCCGCTTTTCCTGCCTGAC +CTTGGGTGAATACCGGATAGTGCTCGACCAGCCAGATTTCATCAAGGGTACTATCATCGCGGGTATCGGT +GAATTCATGCATAGCCTGGGAGATTGGCTCGTAAGGCTGAAGACCGAGCTGGCGGACAAGAATTTTATCC +TGATACAAAACGGCATCTCCGTGGAGAATGAGTAAAAGTGGGGGAAAAGTATATCACAGCGAGGAGAGGG +GAGTTACCCGACCAGGAGCCGGGTAACGGAGAAGCGAGTTACAGAACCATGCGGACAATATCGATTTTGC +CCAGTTCTTCATACAGTGTTTCAACCTGCTCGATATGAGTGGCGTTGATAGTGATAGATACCGAGTGGTA +GTTGCCTTTGCTGCTTGGTTTTACCGTTGGGGTGTAGTCACCTGGCGCATGGCGCTGTACCACTTCAACC +ACCTGATCAACCAGCTCAGGTAACGCCTGCCCCATAACTTTGTAAGTAAAAGGAGTAGGGAATTCAAGCA +GTTCGTTAAGTTTGGTTTTCATGTCAGCTCCGGCGTAACGTAATTAAATAGCAACTCCCGCCAGAAGGCG +GGAGTTTTTTACTGATGCTTAGTATATGGGGACGGAAATTACACTTTCAAGTGTTTAATTTTTAACCAAA +CCAGTGATGGAACATTAATTTAATGTAATCAATGATTTTGCCGAAGAAGTTACCTTCCGGGATTTCTTGC +AACACAACCAGCGGGCGTTGCTCGATCGTTTTGCCATCAAGCTGGAAGTTGATAGTTCCGACGACCTGAT +TCTTTTGCAGCGGCGCATGCAATTCACTGCTGTTCAGCACATAGCTGGCTTTCAGATCTTTCATGCGACC +ACGCGGAATGGTCAGGTACACGTCTTTATCAACCCCTAACGAAGCGCGATCAGAATCACCAAACCAAACC +GGTTCAGAGGCGAACTCTTTACCTACTTTCAGTGGGTTAACGGTTTCAAAGAAACGGAAGCCCCAGGTTA +GCAGTTTTTTACTTTCGGCTTCACGGCCTTTAAAAGTACGTCCGCCCATTACCGCAGAAATCAAGCGCAT +CTGGCCTTCAGTCGCAGAAGCAACAAGGTTGTAACCTGCTTTGTCAGTGTGTCCGGTTTTGATGCCGTCG +ACATTCAGGCTGTTATCCCATAACAGGCCGTTACGGTTCAGCTGGCGAATACCGTTAAACGTAAATTCTT +TTTCTTTATAGATCGAGTATTCATTCGGTACGTCACGGATCAATGCCTGGCCGATCAGCGCCATATCTCG +CGCGGAGCTGTACTGACCATCAGCATCCAGACCATGTACCGTCTGGAAGTGGGTATTTTTCAGGCCCAGT +GCGTTAACGTAGCTGTTCATCAAGCCAACAAAAGCGTCCTGGCTACCAGCGGCAAAATCGGCCATGGCGA +CACAAGCATCGTTACCCGATTGCAGGTTAATACCGCGGATCAGCTGAGAAACCGGAACCTGCATGCCCGG +TTTGAGGAACATCAGCGAAGAACCTTTAAACACCGGGTTACCGGTGGCCCATGCGTCGTTGCCGATAGTG +ACTAAATCAGTTTCTTTAAATTTACCGGCTTTCATTGCCTGGCCGATAACGTAACTGGTCATCATTTTGG +TCAGGCTGGCAGGATCGCGGCGGACATCTGCGTTCTGTTCGGCGAGCACTTTGCCGGAGTTATAGTCAAT +CAGGATGTAGGACTCCGCATCGATCTGCGGTACACCCGGGATCATAGTTTTGATATTCAGGTCATCGGCA +TGTGCAGCAGAGATAAAGGCTGTGCAAAGAGCCGTGGTGAGCGCCAGGCGCTTCATGATACGAGCGGAAA +AAATGGTATTCATGGTCTGAACTACGACATCCGTGATGGAATTAAAAAAGTGCCCTACTATAGCAAATGC +ACTACCGGCAGGCATCTGACTTTCCGCGTGACTTTGTTAACGTCATTTACAGAAATTGACACATCAGATG +CCTGCTTTACGCTACTGCGCGGTAGTAATAAATGACTGTAATTGGGCTTCGGTTTGCAAACGTTGCTGCA +AGGTACTGGCTTCGGCTTTGCTGGCGAATGGGCCAAGCTGGATCCGCCAGACCGCGCCATTTTGAGTTAC +GCGACCGGGGACGCCGAACTTCTGTCCCAGTTGCTGTTGGTACTGTTGCGCACGAGCCTGATCGCTTACG +GCCCCGACTTGCACCATAAAGTTGCCGCTGGCGCTTTGCGAGACGGCTTGCGGTGTCACCATTGCAGGCG +AGGTTGCAGGCGTTGTCGACGGAGCTGTAACAACGGGCTGTGGCGCAGGCGTCGGTTCGCTGCCTTCCAG +TACACCAGGCGCTAAGGTCGTTGGTGCGCCGAGGAAACCGCTACTGGTTACCGGCGCGCCGGTCGGATCT +TCGCTTTTTAGCGTCGAATTACTGACCGGAAGAATGTCACCCTGCGGGCCAGACACTGAACTTGTTCCCG +CGCCACCGCTTAAATCGGGAGGTGCAGGCAGGGCGTAAGTCTGTTTGGCGACTGTGGTACAAGCCATACC +AGGACCAGAAAGCGAACCATCCTGGGCAACAATAATCGGATCGATACGAACTTTGGTGTTGTTTGACGTG +TTAAGACGGTCAGCTGCCGCGCGAGAAAGTGAAATAACGCGGTCGTTGCCGTAAGGGCCGCGATCATTAA +TGCGCACCACGATCATTCGCCCGTTAGCCAGGTTAGTGATTCTGGCGTAGCTGGGGATCGGAAGCGTTGG +ATGGGCTGCCGTCAGCTGTGTCGGATCGAATGCTTCGCCAGAGGCCGTCAGGTTACTGCCGGGTTCGGCA +TCATAGATTGCCGCCAGTCCCGCCTGGCTAAATCGAGACGGATCCTGCACGATTTTGTAGCTTTTACCGT +CGCGCTGGTAATCCTGATTTGCCGTCGCGTTCAGTGGTTCGAAACGCGGGTCCGCCCCGCTAATTTCAAC +TATAGGGCCGTTACATACCGCAGGCTGCGGTACACTTACCGTCTGTTGCTGACCATCATCGCTTGTACAT +GCCGCGAGCATTCCTGCCGCGATGCAGATCCCGAGCCACTGCTTACGCATTGCGCACCTCTTACACGCTT +TTCGACAACATTTTCCTGTGGGTGTGGATTGACATTACAATCCCGAACCCAGCCATCAGCACAATTAGCG +CCGATCCTCCATAACTGACCAGTGGGAGCGGAACCCCTACAACCGGCAGAATACCGCTTACCATACCAAT +ATTTACGAAGACATAAACGAATAATATCAGCATTAAGCCGCCAGCCATGACGCGACCAAAGGTGGTTTGC +GCTCTGGCGGCTATCCACAGCCCGCGCATGATCAGCAGAATGTAGAGAGCGAGCAGAATCAGAATGCCCA +CTAATCCCAGCTCTTCCGCCAGTACCGCGAAGATAAAGTCAGTATGGCGTTCGGGGAGAAATTCAAGCTG +TGACTGAGTGCCGTGCAGCCAGCCTTTGCCGCGTAATCCGCCGGAGCCAATAGCAATTTTAGACTGAATA +ATGTGATAGCCCGCGCCGAGTGGGTCTGATTCCGGGTCCAGGAGCATCATTACGCGCTGGCGCTGGTAAT +CATGCATCAGGAAGAACCACAGAATCGGAATGAACGCCGCTACCAGCACTACTGCGACGCCAATCAGACG +CCAGCTAAGGCCAGAGAGGAACAGTACAAACAGACCGGAAAGCGCAACGAGGATTGATGTTCCCAGGTCA +GGCTGTGCAGCCACCAGCAGCGTGGGCATAAATATCAGCACCAGCGCGATGCCAGTGTTCTTCAACGATG +GCGGGCAAACGTCGCGGTTGATAAAGCGCGCAACCATCAGTGGTACGGCTATTTTGGCAATTTCCGACGG +CTGAAAACGAACAATACCGAGGTCCAGCCAGCGTTGAGCACCTTTAGAGATGGCACCGAAAGCATCTACC +GCCACCAGCAAAATAATACAGATGATATAGAGATAGGGGGCCCAGCCTTCATAAACGCGTGGAGGAATTT +GCGCCATCACCACCATGATGACCAGACCCATCGCGATTTGGCCGATTTTACGCTCCATCATGCCAATATC +CTGACCGCTGGCGCTCCAGATAACCAGGGCGCTGTAAACCAGCAATGCCAGTAAGATCAGCAGCATTGTG +GGATCGAGATGGACTTTATCCCAGAATGTTTTTTTATTCGGATTATCCGTCATGATTAATGGTCCTCCGC +TGCGGCAACCGCTGGATTTTCCGCAGGCAGATCGGTGTTGTTATCACCCAGCATAATGTGGTCGAGGATC +TGGCGCATCAGTGTACCAACCGCCGGACCCGCACCACCGTTCTCCAGAATCATGGCGACAGCCACTTGCG +GATTGTTGTATGGCGCAAAGGCGGTCATCAGTTTGTGGTCACGTAAACGCTCGGCAATTTTGTGCGCATT +ATAGGTTTCGTTCGCTTTCAGACCGAAGACCTGAGCGGTACCGGATTTCGCCGCAATTTTGTACGGTGCG +CTAGCAAAGTATTTATGCGCCGTACCGTTAGGGCGGTTAGCAACACCGTACATACCGTCTTTCGCCAGCT +CCCAGTAACCGGAATGAATATCGCCGACGGGCGGTTCATGCGGCTGTACCCATGGCACCTGTTTGCCGTC +TTCGGCGGTGCTCATCAGCAAATGAGGAACCTTCACGATACCGTCATTAATCAGGATCATCAGTGCCTTA +CTCATCTGGATTGGGGTCGCTGTCCAGTAACCCTGACCGATACCAACCGGAATGGTGTCACCCTGATACC +ACGGTTTTTTAAAGCGTTTCTGTTTCCATTCGCGGGTAGGCATGTTGCCGGAACGTTCTTCCGCCAGGTC +GATACCGGTGTAATGACCATAACCGAATTTACCCATCCATTCGGAGAGGCGATCGATCCCCATATCGTAG +GCCACCTGATAGAAGAAGGTATCCGCAGATTCTTCCAGCGATCTTGTGACATTCAGACGCCCGTGGCCCC +ATTTTTTCCAGTCACGATAACGTTTTTCCGAACCTGGCAGTTGCCACCAGCCTGGGTCAAACAGCGTCGT +ATTGCGCGTGATCACCCCGGCGCTCAATGCCGAAACCGCCACATAGGGTTTAACTGTAGACGCGGGAGGA +TAAACCCCCTGTGTGGCGCGGTTCACCAGCGGTGTATTCGGATCGTTCAACAAGGCGGAATAATCTTTGC +TGGAGATACCGTCAACAAACAAGTTTGGGTCATAACTAGGCGTGGAAACCAGCGCCAGCACCCCACCTGT +ACGCGGATCGGTGACTACCACAGCTGCGCGGCTACCCGCCAGCAGCGTTTCAATATATTGCTGGAGTTTG +AGATCCAGCGTCAGGTAAATATCGTGTCCGGCTTGCGGTGGTACTTCTTTTAACTGGCGAATAACACGCC +CACGGTTGTTAACTTCAACCTCTTCATAACCGGTCTGACCGTGCAGCACATCTTCATAGTAACGCTCAAT +GCCCAGCTTACCGATATCATGCGTTGCCGCATAGTTGGCCAGTTTGCCGTCATTATTCAGGCGTTCGACG +TCTTTATCGTTGATTTTCGACACATAGCCGATGACGTGGGTCAACGCCGAACCGTAAGGATAGTAACGAC +GTTTATAGCCTTTAACTTCGACACCCGGAAAACGGTACTGATTGACGGCAAAGCGAGCTACTTGTACTTC +GGTCAGGTTAGTTTTCACCGGAATAGAGGTGAAACGGTGTGAACGTGCGCGCTCTTTTCGGAATGCAGCA +ATATCGTCATCGGTCAGATCTACCACGCTGCGCAAAGCGTCCAGCGTTTGCTGCACGTTATCGACTTTCT +CCGGCATCATTTCTATCTGGTAGATAGTGCGGTTGAGGGCCAGAGGGATACCGTTACGATCGTAGATAAT +GCCGCGGCTGGGCGCGATAGGCACCAGCTTAATGCGGTTTTCATTAGAGCGGGTCTGGTAGTCGGTAAAG +CGAACAATTTGCAGATTATACAGGTTGGCGATAAGCACGCCGGTCAGCAGCAAAATCCCCAAAAAGGCGA +CCAGCGCCCGGCGCACAAACAGCGCGGACTCTGCCGTATAGTCGCGAAAAGAGTTCTGTAGTTTCATCCG +CTGCGTTTTCTACTCAAAGCTCCCTTATCACTCACGGTGATAAGGATGGTTGGTGGTGATGCTCCACGCC +CGGTACAGACTCTCTGCGACCAGCACGCGAACCAGCGGATGGGGGAGGGTAAGCGCCGACAGCGACCAGC +TCTGCTCAGCCGCCGCTTTACAGGCAGGCGACAACCCTTCAGGCCCGCCAATCAGTAGACTGACGTCGCG +ACCATCCAGCTTCCAGCGTTCCAGCTCAGCGGCTAACTGCGGCGTATCCCAGGGCTTGCCTGGAATATCG +AGGGTGACAATGCGGTTTTTGCCTGCGGCCGCCAACATCTGCTCACCCTCTTTGTCGAGTATGCGCTTGA +TGTCCGCATTCTTGCCGCGTTTTCCGGCCGGAATTTCAATCAGCTCGAAGGGCATATCTTTCGGAAAACG +ACGCAGGTACTCGGTAAAACCGGTTTGTACCCAGTCCGGCATTTTCGTTCCCACGGCGACAAGTTGCAGC +TTCACGCATTAACTCCAGAGTTTTTCCAGTTCATACAGGCGACGGCTCTCTTCCTGCATGACATGGACAA +TCACATCGCCCAAATCCACGACAATCCAGTCGGCGCTGTTTTCACCTTCTACGCCGAGCGGTAACAGGCC +CGCTGCGCGAGACTCCTGCACAACGTGGTCAGCAATGGACATAACATGACGGCTGGACGTACCCGTACAG +ATGATCATGCAGTCGGTGATGCTGGATTTGCCCTGAACGTCTAAGGCGATGATGTCCTGACCTTTGAGGT +CATCAATTTTGTCGATAACAAAATCCTGGAGTGCTTTACCCTGCAAGTTTTCCCCCTGGGTGAATCAAAT +AGATAAAAATGGTCTGTCAGTATACCTGAACCAGAGGCGATTTCGGGACAATTGTCGCCGAATCGGCTTT +CGAAAGTGGGCTATCATCCCACCCCGCGCCGCAGATTGCATCGCCATTTTTGTAAAACAATTTCTACAAA +GTCGTGTCTGGCGGAAAAAGTCTGGCTGCGGAGAATATCAGCCTGCCCGGGTCTGTCAATGGTCGTTGCG +GCTTACCCGTAAAAAAACAGAAAAGTCATGCATTCTCGACCCCGATGGCACGGCTATTGAGGACGCGTAG +CGTCGCGAATTTTTGGTTGATATCAATGGCGCTCCAACACCCCTGGTCAACGCGAAAATGCCACATAGCT +TCGGCAGGCATGCCAATTAAACGGGCGATTAACAGACTCAGTACACCCTGATGGCTGACGACTAAAATAT +TCTGATAGTGCTGAAATTCACTAAGCCTTGCGATAAAGCGTTCCACACGTTGCGAAAATGCCTGAAATCC +TTCACCGTTCGTGGGGATTGCATGCTGCCAGTCATTGCACCACGCGCTATAGTTTTCGGCATCTTCTTGC +ATGAGGTCGCGATGATGTCGCATCTCCCAGTCGCCAAAAAACATTTCGTTGAGTTCAGGTATGATTTGCA +CGGGGAGCTGGCGGTCACTGAGAACCAGTCGCGCGGTATGCTGTGCCCGTTCCAGTTCACTGCATAAAAC +CAGATCAAAGGAAACACCATGTAGCAGCGTATGCAGATTTTGCGCTTGCTCAATACCGCGCGCGGTCAGG +GGGGTGGGCGCATGACCGCTGTAAAGACCATCGATATTCGCTTGCGTTTCACCATGACGAATTAACCACA +GTCGCATCATGCCCTCCGTAACGACAGGTATCAGCGATACAAGCCTTGTTGGTTAATGTAAGTCAGTACC +GGTTCCGGCAATAAATCCTCACATGATTCACCGTTTTGCAAACGTTCGCGGATGATGGTCGCCGAGATGT +TAAACCACGGCGTTTCAGCCAGATAAATTTTACCGGCAGGCTGAAGGTGAAGATCTTCCGGGTTATGTGT +CAAATGATCTTCCAGCCATTGCTGGTATTGCGGTTGCGCCATTTCAAGTGGGTAACCTGGACGCCGACAG +ACGATCAAATGTGCATTGTCGAGTATCGTTTCGTATTCGTACCAGGTCGGAAAGGTCAGCAGTGAATCCT +GACCAATAATAAACGCCAGCGGCACGTCCGGTCCTTGTTCCTGCCGCCACTCTTTCAGTGTTTGCGCAGT +GTAAGAGGGGGCATTGCGCTTTAGCTCGCGTTCATCAAGAGTAAATAATGGCTTGTCGGCAATCGCCAGT +TCAAGCATGTGTTTACGCTGCACGCTGTTCGCTTCCGGCTGGGGACGATGCGGAGGAACATTATTAGGGA +TGATTGTGACCCGCGTCAGACCAATCAAATTCGCCAGCGTTTCCACGGGTTTTAGATGACCATAGTGCAC +CGGATCAAAGGTGCCGCCAAACAGAGCCTGTAAAGATTTCATATCAACCGTCGATAAATACGTCCGCCAG +GGGTTTATGGCACAACAGAAGAGATAACCCTTCCAGCTCTGCCCACACTGACTGACCGTAATCTTGTTTG +AGGGTGAGTTCCGTTCGTGTCAGGAGTTGCACGGCCTGACGTAACTGCGTCTGACTTAAGCGATTTAACG +CCTCGCCCATCATGCCCCGGCGGTTCTGCCATACCCGATGCTTATCAAACAACGCACGCAGTGGCGTATG +GGCAGACTGGCGTTTCAGGTTAACCAGTAACAACAGTTCACGTTGTAATGTGCGCAACAAAATAACCGGT +TCGCTGCCTTCCAGACGCAGTTGCTGAAGAATATGCAATGCGCGCTTACTTTTTCCCATCAACAAAGCAT +CAACCCAATGAAAAGGGGTGAAATGCGCGGCATCATTCACCGCCTGTTCAACGCGCGGTAATGTCAATTT +GCCGTCTGGCCAGAGCAGCGATAAACGCTCCAGTGCCTGAGCCAGCGCCAGCAGGTTACCTTCATAACAG +TAGCAGAGCACCTGATTTGCCGCGTCATCCAGTTCTAAGTTGAGCTGTTTTGCGCGCGCAGCAACCCAGC +GGGGAAGCTGAGCCTGCTCCGGTGTCTGACAGGTCACCTGCACGCTGCGATTCGCAAGCGCAGTAAACCA +GGCGGCATTTTCTTGCGCTTTGCTTAATTTATTACCGCGGACGATCAACAGCAGGTCGTCATGCAGAAGT +CCGGTGAGTGTGAGAAGTTGCTCATTGATCGCCGCATTCGGTCCGTTTTCTGGTAACAACAGCAATAGCG +TTTGTCGACTGGCAAACAGACTCATAGCCTGGCATAACGAAAAGATCGCATTCCAGTCAGTGTTGGGATC +AATGGAAAAAGTGTGGTGTTCTTCGAATCCTTGTGCCGCAGCTACCTGACGAACAGCGTCCTGGCTTTCC +TGCAATAACAGAGGATCGTTACCAAGTAAAAGATACGCCGCGCGCAGCCCTTCATTGAGCTGCGCGCGGA +GTTGTTCCGGGTACAACCGAATCATCAGTTACCCAGCGTGGTGGAGACGCGTGCAGGCGTTGCCGGAGTA +TCCGTTGTGGTCGACGTCTGTTCTTCGTCGGAACGAATATCCGCAGCACGGATGCTTGGCAGCTTACGAA +TCAGCTGTTCGGCAGCACGGTCGTACATCTCTTTTACGATCATGTCTTGTTCGTTATCTTTCGCTAACGC +CATTTGCGGGTTATCGAAGAACGAACGGAAGACTTTGGCGCTAATCGGGTAGATATCACGGCCGGGGATC +AACACGGTCGCATTAACCGTCATGATCATCTGATACTCTGCTGTTTGACCGTTACGGAATACCGATGCGG +TATCTTTCGCGATGCTCACTTTACCCAAACGCAAGGATGGAACGTCCTTACGCGTGGTTTCTTTATCAAG +CAACTCGACACCATTCAGACGTAACTGGTTACGCACCGCACGGCTTAATGGCCCGTTCGGATCGCCTGAG +TCCAGGATCATGACCTTCATAGTGGAAGGAACCTGCGTGGTATCACGCAGATGCCAGCCACACCCGGCGG +TGATTAACACCGCCAGAGATAACAACAATGTTGCCAGATATCGCACGCTTCCTCCCGCGCTTAGCCAACG +ACCAGATTGAGGAGTTTACCTGGTACGTAAATCACTTTACGTACAGTAACGCCATCAAGATATTTTGCTA +CCAGATGTTCCTGGCCAGCACGTTCGCGAACCTGTTCTTCCGTTGCGTCCACCGGAACGGTGATTTTGGC +ACGGACTTTACCGTTAACCTGCACCACGACCAGCGTGGAGTCTTCCACCATCGCTTTTTCGTCAGCAACC +GGCCACGGCGCGTTGTCGATATCGCCTTCGCCTTTCAGTTCCTGCCACAGCGTGAAGCAGATGTGCGGGG +TGAACGGGTTAAGCATACGGACAACGGCCAGCAGTGCTTCCTGCATCAGAGCGCGATCCTGCTCGCCATC +GGTTGGTGCTTTCGCCAGTTTGTTCATCAGCTCCATAATCGCCGCAATTGCGGTGTTGAAGGTCTGACGA +CGGCCGATATCATCGGTCACTTTAGCGATCGTTTTATGCACATCGCGACGCAGCGCTTTCTGATTTTCAG +TCAGCGCATCAACGTTCAGTGCCGCAACATCACCTTTTGCTGTGTGCTCGTAAACCAGTTTCCAGACACG +TTTCAGGAAGCGGTTAGCCCCTTCCACACCGGATTCCTGCCATTCGAGAGTCATATCAGCCGGAGAAGCA +AACATCATAAACAGACGAACGGTGTCCGCGCCGTAACGTTCAACCATCACCTGCGGGTCGATACCGTTGT +TCTTCGACTTGGACATTTTGCTCATGCCGGTATAAACCAGTTCATGGCCTGCCGCATCTTTCGCTTTCAC +GATACGGCCTTTCTCGTCACGTTCAACGATAGCATCAACCGGGGAAACCCAGTTACGTTCGCCGTTTTCG +CCAACATAGTAGAAGGCATCTGCCAGCACCATACCCTGACACAGCAACTGTTTCGCTGGTTCGTCAGAGT +TCACCATGCCTGCATCACGCATCAGTTTGTGGAAGAAGCGGAAGTAGAGCAGGTGCATAATGGCGTGTTC +AATACCACCAATGTAGATATCCACCGGCAGCCAGTAGTTAGCCGCTTCGGAATCCAGCATACCTTCTTTG +TACTGCGGGCAAGTGTAGCGCGCATAGTACCAGGAGGACTCCATAAAGGTGTCGAAAGTGTCGGTTTCAC +GCAGTGCTGGCATACCGTTAACGGTAGTTTTCGCCCACTCCGGATCTGCTTTAATCGGGCTGGTAATGCC +GTCCATTACCACATCTTCCGGCAGGATCACCGGCAGCTGGTCGTCCGGGGTCGGCATTACGGTACCGTCT +TCCAGCGTCACCATCGGAATCGGCGCGCCCCAGTAACGCTGACGGGAAACACCCCAGTCGCGCAGGCGGT +AGTTCACTTTACGCTCGCCAACGCCCATCGCAGTCAGTTTATCGGCGATGGCGTTGAAGGCCGCTTCATG +GTCAAGACCGTTGAACTCGCCAGAGTTGAACAGCACGCCTTTTTCAGTCAGGGCTTGCTGAGAAAGATCT +GGCTCAGAGCCGTCAGCTGCCAGGATAACCGGTTTGATGTTCAGGCCGTATTTAGAGGCAAACTCGTAGT +CGCGCTGGTCGTGCCCCGGTACCGCCATAACTGCGCCCGTGCCGTACTCCATCAATACGAAGTTTGCTGC +CCAAACGGGAATTTCTTCGCCCGTTAATGGGTGAACCGCTTTAAAGCCAGTATCGACGCCTTTTTTCTCC +ATCGTCGCCATTTCAGCTTCGGCAACTTTGGTGTTACGGCATTCGTCAATAAAGGCCGCCAGTTCAGGAT +TATTTTCCGCCGCTTTCTGCGCCAGCGGATGACCCGCAGCTACCGCCAGGTAGGTACAACCCATAAAGGT +GTCCGGGCGGGTAGTGTAAACGGTCAGCGTGTTGTCATAGTCGTTAACGTTGAAGGTGATCTCCACGCCT +TCGGAACGACCGATCCAGTTACGCTGCATGGTTTTAACGGTGTCTGGCCAGTGATCCAGTTTATCCAGAT +CGTTGAGCAGCTCGTCAGCGTAAGCAGTGATTTTGATAAACCACTGCGGGATCTCTTTACGTTCAACTTT +GGTATCGCAGCGCCAGCAGCAGCCGTCGATAACTTGTTCGTTCGCCAGTACGGTCTGGTCGTTCGGGCAC +CAGTTGACCGCAGAAGTCTTCTTATATACCAGGCCTTTTTTATACAGCTCGGTGAAGAATTTCTGTTCCC +AACGGTAGTATTCCGGCGTACAGGTTGCCAGCTCGCGGCTCCAGTCATAACCAAAGCCCAGCATTTTGAG +CTGGTTTTTCATATACGCGATGTTGTCGTACGTCCACGGTGCCGGAGCGGTGTTGTTTTTCACCGCCGCG +CCTTCCGCAGGCAGACCAAACGCGTCCCAGCCGATCGGCTGCAGGACGTTTTTGCCCAGCATACGCTGGT +AGCGGGCGATCACGTCACCGATGGTGTAGTTACGTACGTGGCCCATGTGTAGTCGACCAGAAGGATAGGG +AAGCATAGACAGGCAGTAATACTTCTCTTTGCTCTCGTCTTCGGTTACTTCAAATGTGCGCTTCTCATCC +CAATGAAGCTGTACTTTGGATTCTATCTCTTCCGGGCGGTATTGCTCTTGCATGGCAGCCAGTGGTCCTG +TTTTCAATACGGCTACAAATGTAGCGTTGAGGTGGTTTTTCAGATCCGCATAGCATAGCCCAAACGTCCG +CGTCAAAACAGCCTTTCGCGCACTCGACGTTGAAATGATGCCCGGATTATTCATACATTAATTTACAGAG +TTTGTGGGCGTATTAGCAAAGCAAGGAACAAAGAACGTCTATTATTATAGTCAGTTAACGACCCGGGAGA +TGAAACGATGAACAAGGTTGCTCAATATTACCGTGAACTGGTTGCGTCACTGAGCGAACGCCTGCGCAAT +GGCGAACGTGATATCGACGCACTGGTGGAACAGGCGCGCGAGCGCGTAATAAAAACAGGGGAGTTAACGC +GAACCGAGGTCGATGAGCTGACGCGAGCTGTCAGACGTGACCTGGAAGAGTTCGCCATGAGCTATGAAGA +GAGCCTGAAAGAAGAATCTGACAGCGTCTTTATGCGGGTGATTAAAGAAAGCTTGTGGCAGGAGCTGGCA +GACATCACCGATAAAACGCAGCTTGAATGGCGCGAAGTTTTCCAGGACCTCAATCATCATGGGGTTTATC +ACAGCGGAGAAGTGGTCGGGCTGGGAAATCTGGTCTGCGAGAAATGTCACTTCCATCTCCCGATCTACAC +ACCGGAAGTGCTGACGCTATGCCCGAAATGTGGTCATGACCAGTTCCAGAGACGCCCGTTTGAGCCGTAA +TAGTCTGATTTCGCACAGCAATAAAGAGAATATGGGCCGAATGAAATTCCCCGGCCCTTGTTTTTATCTC +TACAGTAAATCTTCAGTCTCACGAATTTCCTGACTGACATCTCTGGTTCCGGATGACTGAACTTTACGAT +ACAGGTCGAGAGCCTGTCGGAGATCGACAGGTCTTCCTTCTCCGTAGTGATACATAATGGCCAGGTTATA +CCAGGCAGTGGCGTCATTGCATTCAGCGGCTTTCGTAAACCATTCAAAGGCAGCCTGATAATCTTTCTCA +ACGCCTTGTCCGTGTTTATACATATAACCGATGTTGACGTAAGCGCCGACGCTCCCCTGAGCGGCAGCCT +TCAGATACCAGTACATCGCTTGCTTATAGTCCTGGTCCACCCCTTCGCCAGCGTTATAATCCCATGCAAT +TTGAAACTGGGCGTGCCGATTACCCTGCTGTGCGCTTTTCAAATACCAGAATGCGGCGAGTGTCTTGTTT +TGAGCAACGCCTTTTCCGTCTTCATAAAGATCGGCCAGATTGTTTTGCGCGTCACTATGGCCTTGTAATG +CAGCTTGTTTGTACCAGAAAAATGCCAGCGCATAGTCTTTTGCGACTCCGTTGCCATTTCTGTACATCCA +CCCAAGATTATTTTGCGCATAAGACATTCCGCTCTCCGCGGCTATCTGATACCAGACAACCGCTTCTTTA +TAATTGGGGGCTTCTCCACGATCCAGTGTCCAGCCAAGGGCGTTGGAAGCGAAAGTATGGCCTTGTAGGG +CAGCTTTTTTCAGCCAGAAGATGGCTTGCTCATTATCTTTATGACGGCTTTTATCCTCGGTATACTTTTG +CCCTAAGGAATACTGTGCTTCACAATGACCTTGCTCAGCGGCCAGCTTCAGCCAGTAAAAGGCTTTTTCG +TCGTCCGGAGAATCAATTGCGCTATCGCGATTATAATAAAACCCAACAATATATTGAGCCTCGCAATCGC +CTTTTTCAGCACGTTCGATAATCTCATCTATTGATAAATTATCGCAGCAACTTGACGTGAAAATCATTAT +CATTTCCTTATGGTTGCAGATAAAACATATTATATTTTTATGTGTTCCATTTTTGCGTAAGCCTTATTTT +ATGCGTATTATGTCGCGTCAGAAAAGTATAAATAAACGAGCCTCGCAATGCGGCTAATATTCATTTAATG +AATATTTAAGGATAAATTATATGGACATGGAGTCGCAAAAAATATTGTTTGCACTTTCCACTCCGATGGA +AATACGCAATGAATGCTGTTTACCTTCGCATTCATCACCCAAAATGTATTTAGGTACATGCTTTTTTGAC +CTTTCTTCCTCATGGGGAATTGATGACCGTGATGACCTGCTGCGCACAATTCACCGAATGATCGATAACG +GTCATGCCGCTCGGTTGGCAGGGTTTTATCACCGCTGGTTTCGTTATTCGCCATGTGAATGGCGTGACTA +TCTTGCTGAACTAAATGAGCAAGGTCAGGCTTATGCGCAATTTGTCGCCAGCACCGCCGAATGCTGTGGC +GAAGGGGGAATCAAAGCCTGGGATTATGTCCGGATGGGTTTTTTAAGCCGAATGGGCGTACTTAATAACT +GGTTGAGCGAAGAAGAAAGTCTATGGATCCAGTCGCGCATTCATCTACGGGCTCTACGTTATTATAGTAA +CTGGCGGCAATACTTTGCCGGTTATACCTTTGGTCGGCAATATTGGCAGTCTCCCGAAGATGATCATCTG +CCTTTATTACGCGAATTCTTAGCGCGTAAAGAATACGACGATTCCGGCAATGATATGTTTTATCAATTAT +TTGCCAGTGATGATGCGTATTACCCTACCTTGTCCTGGCAACCATTGGCTTACTATTCTGCATGCCCGGA +AACGCTTAAGGATATGAGCGACCTATGAAAAATTGCTGGAAGATCCTCGATATAGAGGAAACGACTGACG +TCGATATTATCCGCCGCGCTTATCTGGCGCTGTTACCGTCCTTTCATCCAGAAACCGATCCGCAGGGTTT +TAAACAACTTCGTCAGGCGTATGAGGAGGCGCTACGGATTGCGCAGTCGCCTGCTAAATCTGTTTGGCAA +CCAGAAGAATATGAGGTAGCAGAACATGAAATTCTGCTCGCCTTTCGTGCGTTACTTGCCTCTGATAGTG +AACGTTTTCTGCCCTCCGCCTGGCAGCGATTCATTCAGCAATTAAATTATTGCTCGATGGAGGAGATTGA +TGAATTACGCTGGTCGCTGTGCACAATCGCCATGAACACTGCCCATTTATCCTTCGAGTGCGTGGTGTTA +TTAGCAGAAAGATTGCGGTGGTTACAGGAGGAAAATACCGGGGAAATAGACGAAGAAGAACTGGAATCCT +TTTTATATGCCATTGCGAAGGGGAATGTTTTTAACTTCCAGACCATTCTGCATCTGCCCGTTGCCGTGCA +AAATGACACCATCGATTTTTACCAAATGTTCGCTCGGATTTGGTCATCGCATCCACAATGGCTGACATTG +TATTTAGCGCAACATCGCGCAGTGATTATCCCCGATGATGCAAAACTGCACAGAAATTTACTCCGCTGGT +ATAGCGCAGGTCGCCTGGATATCCCCGAACTTCTGGATTACGCCCAGTCATGGCGGGAAACTGAACCTGA +TAATGAAGATGCGCCTTATTATGAATACGCGCAACGCGTCTATTGTGGAGAAGGCGAAAGCCTGTTGGCA +GAACTTTGTGACTACTGGCGCGAGTATCCCTCCACCCAGGCGGATGCTTTAATGTTGCAATGGTGCCGTC +AGCATCGGGTCGATTATTACCCATTACTGGTGATGATGATTGAAGCGCGTGATCTGGTTAACGATCAGGG +AAAACCGCTACTTTATGTCCCCGGCGACAGCGCCCGTACGCGTTTTCATTTATACGAAATACTCAGCGAT +GAAAAACTCTCTGCGCTGGGGCGTTCACTGGTCGAGATGGTTTTGCACAAAGGACGTAAGCCGCGGATCT +CACTCACGCGTGATACAGAACATACCTTATGGCCATTATATCTAGTTGCCAAACAATTAGTGCAGGCCTG +CCAACCTACAGAAGAATCATTAATGCCGATTGTGAGCCGCCTTGATGCAGAAAATCGTTGTCCACTGGAA +GCATTAATTATTCGTCGATTATTAATTCAGGCGGCGAATTTTACCGAGAAGCAAACTGTTGAACCGGAGC +CGCAACCGCAGCCAATGCCCGTTGACGATGGTGGGCCAGGCTGTCTGGGCATCATTAAAATTATTTTCTA +TATTTTTATCTTTGCTGGTTTGATAGGGAAAATACTCCATCTGTTCGGGTGACAGTCGACGTTAATGTGC +GGGAAGCCCGGCAAGTAATCTTTCCGCATTTTTGTAATGTTGTTTGGCGGTCAGTTTTAACCATTTTTGA +GATTCATAATGGTTAACATTAATACCTGAGCCATTTCTGTAGATCAAACCTAAAGTATATTGAGCATGAG +CATACCCTTGTTCAGCTGCTTCCTTATACCAGAGAATTGCTTTACGGGTGTCGGGTTTGACCCCCAGACC +TTTGAGGTAGATCCACCCCAGTTTACTTTGCGCGCGTGGATTTTCCTGTTCCGCTGATTGCTCATACCAG +TATCTCGCCTGTGTATAATCCAGTGGTTTACCGTCGCTACCATGAAGATAAAATTCTCCAAGGCGATATT +GCGACGTTGAGTGACCATGAATCGCGGAAAGCTCCGTGGCTGCCGTGGTGAATGGAAGACTGCCCGGTGA +GCTTAAATAATCAAAGGCATAATTCACCATGGCTTTATCACGCAACGTCGTTTTCTTGGGTTGGCTAATA +CAGGTAATTGCTGCAACTATAAAAATTGCGAATATATACATTAATTTTTTATTCATGTGTGAATGCTTCG +ATTTTCTTTTTATTTTGAAAGCGTCAAGTTTATACTCATCAATAATAAAAAAGTAGTCAGTTAATGCACT +TAAGGGATTATTAACAAATGAATAAGGAAGAACAATATCTTCTTTTTGCGCTTTCTGCGCCCATGGAAAT +ACTTAATCAGGGTTGCAAACCCGCGCATGACTCGCCAAAAATGTATACTGGGATAAAAGAATTCGAGCTC +TCATCATCCTGGGGAATAAATAATCGTGATGATTTAATTCAGACTATTTATCAGATGACTGATGATGGTC +ATGCCAATGATTTAGCTGGCTTATATCTGACATGGCATCGCTCTTCCCCTGAAGAGTGGAAAGCATTAAT +TGCTGGTGGCTCGGAGAGAGGGTTGATTTATACCCAATTCGTTGCCCAAACCGCTATGTGCTGTGGGGAA +GGGGGAATCAAAGCCTGGGATTATGTTCGAATGGGGTTTCTGTCACGGGTCGGTGTGCTCAACAAGTGGC +TGACGGAAGAAGAGAGTTTATGGCTGCAATCGCGCGTCTATGTACGAGCTCACCATTACTATCACAGCTG +GATGCACTATTTTTCCGCCTATTCGTTAGGACGTCTCTACTGGCAATCTTCTCAGTGCGAAGACAACACT +TCGCTACGCGAGGCGCTAACCCTGTACAAATACGATAGCGCCGGGAGTCGTATGTTCGAAGAGCTGGCAG +CGGGAAGCGATCGTTTCTATGCCACGCTTCCCTGGCAGCCATTAACTGTCCAGTCTGAATGCCCGGTAAC +GCTTAAGGATGTGAGCGACCTATGAAAACATGTTGGCAAATCCTCGAAATTGAAAGCACGACGCAAATAG +ACATTATCCGCCAGGCTTATCTTGCTCGCTTACCGTTGTGTCATCCCGAAACCGATCCGCAAGGGTTTAA +AGCATTACGCCAGGCCTATGAAGAGGCCCTGCGACTGGCGGTAAATCCTGTCGAGGAAGCAGATGATGAA +GAAAAAGATGCTGCCGCTGAACATGAAATACTACGTGCATTCAGGACATTACTGGATTCAGAAAGTGATC +GTTTTCAGCCTTCCGCCTGGCAGAAATTTATTCAGCAATTAAATACCTGGAACATGGAGGATGTCGATCA +ATTACGCTGGCCGCTGTGTGCAATCGCCATAGAAGCGCGATATCTTTCATTAAATTGTGCTTCTTTGCTG +GCAGAGCGTTTGAACTGGCATTCATTTAATGACAGCGAAGGAATGGATGAGGAAGAAAGGGAGGCTTTTC +TTGAGGCCATTCAGGCTGGTGATTGTTTCGATTTCCTTAGCCTTCTGGAATATCCCATTGCGTTGCAGAA +CCAGACTGTTGAGTATTACTTCGCGCTGGAACGTTGCTGCCGTTACCATCCTGACTATGTCACTGCGTTT +TTGGCGATGGAAGGTCCGTGGTTAATTCCTGATGATGCAAAGTTACATCGCAAACTGTTGCGCTGGTACA +GCTCGGTGCAAACAGGTATGGCGGAACTCATTCCTGTCGCTCAACAGTGGCAAACGGAAGAACCAGAAAG +CGAAGATGCCCGGTATTACTTGTGTGCACAACGTTTGTACTGCGGCGAGGGGGAAAGCCTGCTTGCCGAT +CTCTGCGCGTACTGGGAAAGTTACCCATCTACACAAGCTGATAATTTGTTGTTGCAGTGGAGCAAGCGTC +ATTGCCCGGATTATTTCGCGTTATTAGTGATGGTTATCGAAGCGCGGAGCATGGTAGATGCGCAAGGTCA +ACCGCTGAAATATGTTCCTGGTGAGAGCGCCCGGACGCGGCTGTTATGGGCGGAGATTTTACATAGCGGA +AAATTATCGCCGTTAGGTCAATCGTTTATTGAGTCGTTATTCTTCAAGCGCAAAGCATGGGCGTGGTGGA +AATCGAGAGTCGGTAGCGAGACAGAGCAAGATTCACCGTTCCTGGATTTGTATCGGGTAGCGGAACAGGT +AGTACTTGAAGCGTTTCCGAAACAAGAGATGCTGGCCCGTCTTAATACAAGGCTGGAAGGCGGAGATGCT +CATCCATTAGAGGCCATTGTCACCCGGATGCTTTTGACGAAAGTGAAACTCGAGCCGGAGGATGAAGATG +TCGATGAGCCAACACCTGAAAATCATGAAGAAAAAAATGATGAGGGTGAAAAACCACAGAGCATTACCAG +CATTATCAAAATCAGTTTAACGGTGCTGGTGATAGGTTATGCTCTCGGCAAAATCGCGATGTTGTTTAGC +TGACGATGTGTTTTTTGCGCCGATGCCGGATGCAGCGTTTACGCCGCATCCGGCAGCCGTGTTTATGGGA +TCTCAATGGCTAAATAATCGCTCGCCCGCCGCCGAACTTCATCCACGCGGGCCATATCGTTTGACTGCAA +CGCCGCATCAAAATCGGTGATCACCCGGCCGATCTCTTCTCGCTCGTCACCCAGCGCCCGCGCCCACAAC +TCTTCCAGTTTGGCTTTAAAGGTGCGATTGATGAGCATATCGCGCGGATAAATTTTCAATGCGGATAACC +GCGTCCGACTCTCTTCAATCTGCTGCGCGCTCAATGTTACCGGGCTGTGGTTAATCACTCTGGACTTAAC +GCTGCCGTCTTCCAGAAGCACGTCAACTTCAAGCAACCCGTTGATATCATAACTAAAGCGAATATCAATC +GACTGATAAGCCCCGGTTTTCTTCAACGGCACATCGAAGGATTCCACCAGAATGTTGTTTTTAACTTTGT +GGTTTTCTCCCTGATAGACGTTAACCGTAATTGAATCCTGTTCCGGGTGCATGGTTGAATAAGTTTCTAC +ACGCGACACGGGCACAGTGGTGTTTCGTTCAATAATCGGCGAGAAAATGCCGGAAACGCCCTGGCGGTTA +ACTTCAACGCCCAACGAGTAAGGGCAAATATCAGTGAGGATTACCTCTTCAATATCTTCACTGCGTAAGC +GGCAGGCGGCCTGGATTGCTGCGCCCAGCGCGACAATGGTGCTCGGATCGTAACTTTGATACGGTAATTT +GCCAAACAGACGCACGGCGATTCGCTGCACCAGCGGCATTTGTGACGCGCCGCCAACCAGCACCAGACTG +TCGATTTGACTCGGCTTCAGACGCGCATCGCGCAACGCCTGTTCAATCGGCACTCGCAAGCGATTGAGCA +GCGGCAACCACAAATCTTCCAGTTCGTTCTCGTAAAATTCGCATTCCCGCGTTTCTTCCTGATACTGCCA +GCGAATGTGCAATGGCGATTGATTGCTACATTTTGCCGCTTCCACACAGGCGTACAAGGCTGCCAGTTCA +CTCTCGTTAAGCGTGGTCCTGGCGACATCCGCGCGTTTTAAAACCTCATCGACCAGCATATGGGTAAAAT +CTTCGCCACCAAGAAAGTTGTCGCCAGCGGAGGCGTGAACTTCAATCACCGGCGTGGCGTACTCAAGCAC +CGTAACGTCAAACGTGCCGCCACCGAGATCAAACACCAGCGAACGGGTATTTTGTTGGGTATGCAGGCCA +TACGCCATCGCAGCTGCTGTGGGTTCATTAATTAAGCGTACCGCATTTAACCCGGCTAACTCCGCTGCTA +AACGGGTATGCTTGCGTTGTTCATCGCTGAAATAAGCCGGAACGGAGATCACCACATCTTTAATCGGACG +TTGCAGAAATTCTTCGGCATCTTCTTTTAATGAGCGTAATACCAAAGAGGACAGTTCTGGCGCGTTAAAT +GTGTCGCTGCCTAACCGCCAGTTGGTATTACTGCCCATTGCACGTTTAAATAACGCTGCCGTTTTATCCG +GATGCGAAGTACGCCGTGATACAGCCGGTTTTCCGACTAAAATATGATTATTTTCATCCATGCTAATTAT +GGATGGTGTTAAATATTCACCGAACTTATTTGGAATTAATTGCGCGGCACCGTCTTTCCAGACGGCAATT +AAACTATTGGTAGTACCGAGATCGATACCAATGGCGAGTTCTGCATTATCCATTGCATTTATATCTTGAA +AGAAAAAGAGATAAACAGATTAAGACCACCCAGGTAACGCGTGGTGATCTTAATCAATGACGTGTGTTAA +GCGTAAAATTTCAGACGATCAGCCAGTAAATCAACAAAGCCCTGACGATCAACATCGACCATTACGGTGG +CATTCGGTTTATTGCCTGTCAGATAATAATAATCAACAACCGTCATACCCTGGGTATATTTCCCCTGTGT +TTCCACGCCAACCCAGCGCTCAACAGAGGTAAATAACTCCGGTTTCAACAGCCAGGCGATGGTGCATGGG +TCATGCAGTGGTGCGCCGACAAAGCCCCATTTTTCGTCTTTATGATATTCGAGGAAGAAATCCAGCAGTT +CGGCAACAATGGTTGAAACAGGGTTACCAATCGCGCGGAAACGCTCGGTGTCTTCAACGTGGATTTGTGC +TTTATGAGTAACATCCAGACCGGCCATCACCACCGGGATCCCTGACTGGAAGACAATTTCTGCCGCTTCC +GGGTCAACGTAAATATTAAATTCAGCCGCAGGCGTCCAGTTACCCAGCCCCATAGCGCCACCCATAATCA +CGATACGGGCAATTTTGCTATGCAGTTCCGGATGGCTATTGAGCAGCAAGGCAACGTTAGTTTGCGGTCC +GGTAGACACAATGGTGACAGGTTCCGCACTTTCACGCAGCGTTTTCGCCATCAGCTCTACCGCCGTACAG +TTTTGCGGTGCGAATGTCGGTTCCGGTAATGCCGGGCCGTCGAGACCGCTTTCGCCGTGCACATTGTCCG +CGATAATCAACTCACGCATTAACGGTTTTACCGCGCCGCCTGCTACCGGAATATCGGTGCGATTAAGCAA +GGTCAGCATACGCAGAACATTGCGTAAGGTTTTTTCTGGTGTCTGGTTTCCGGCGGAAGACGTAATTGCT +TTGACATCAAGCTCTGGTGAGGCGAGGGCGAGAACTATTGCGATAGCGTCGTCATGACCTGGGTCGCAAT +CTAACAGAATTGGCAGTGCCATTGTTGCTCCTTGTTGTGTGCTTCTTTGCGACAAGGGTAACGCCAGGAT +GTAACAGATACGAGGGGCGAAACGATAAAGCGTGAGATGGCGCGCAATTGGGTATGCGCGCCAGAGTGAT +TAATGCAGGATTTTCGCGAGGAAGTCTTTTGCGCGGTCCGATTTCGGATCATCGAAGAAAGCGTCTTTCG +GCGAGTCTTCGACAATTTTACCCTCGTCCATAAAGATCACCCGATTCGCCACTTTACGGGCAAAGCCCAT +TTCGTGGGTCACCACCATCATGGTCATTCCTTCGTTCGCCAGTTCCACCATCACGTCCAGTACTTCGTTG +ATCATCTCCGGATCCAGCGCCGATGTCGGTTCGTCAAACAGCATCGCAATAGGATCCATACACAACGCGC +GAGCGATTGCCACACGCTGCTGCTGACCGCCGGAAAGCTGCGCCGGAAACTTATTGGCGTGAGCAGAAAG +CCCGACACGCTCCAGCAGTTTCAGGGCTTTTTCACGAGCCGGCGCTTTATCGCGTTTAAGCACTTTCACC +TGCGCCAGGGTCAGGTTTTCGATAATCGACAGATGAGGGAACAGCTCGAAATGCTGGAATACCATCCCGA +CGCGGGAACGCAGCTTTGCCAGATCGGTTTTCTTGTCGTTAACCACGATACCATCGACGGTGATTTCACC +TTGCTGCACCGGTTCGAGGCCGTTGACGGTTTTAATCAGCGTTGATTTGCCGGAACCAGACGGGCCGCAA +ACCACCACCACTTCGCCTTTTTTCACTTCGGTTGAGCAGTCGGTCAGCACCTGAAAGTGACCATACCATT +TTGAAACATTTTTCAGGGTAATCATTATGCTGTCCTTCTTTTCAAGTAGCTGACCAACAACGACGCGCTA +AGACTAATAACGAAATAAACAAATCCGGCAAACAGGATCATCTCAACCTGCGTACCATCACGCTCACCAA +TGGTTGAGGCGGTACGGAAGAAATCGGCCAGGGATAACACATACACCAGTGAGGTATCCTGGAACAGTAC +GATGCCCTGAGTGAGCAGCAGCGGCACCATCGCGCGGAACGCCTGCGGCAGAATAATCAGTTTCATCGAC +TGCCAGTGAGTCATTCCCAACGCCAGCGCGGCGCTCGATTGACCACGAGAAATACTTTGAATACCAGCAC +GGATAATCTCTGAATAGTAGGCCGCTTCAAACATCGAAAACGCCACCATCGCCGAAATTAAACGGATATC +ATTTTTTGGCGATAATCCCAGCACGTTTTGCAGAAAACCCGGCACGATCAGGTAAAACCACAGCAAAACC +ATAACTAAAGGAATCGAGCGGAATACGTTAACGTAGGCTTTGGCAAACCACGCCACGGGCGCAAAGCTGG +ATAAACGCATCACCGCCAGCATCGTGCCCCACAAAATACCAATCACTACCGCCGTGACGGTGATTTTCAG +GGTGATCACCAGCCCGTCGAGCAGATATGGCAGGGAAGGGACAATGGAACTCCAGTCAAACTCGTACATT +ATTTGCCCCCCATGTTGCCAGGCAGGCGAACTTTACGTTCAACCAGCGTCATCACCAGCATGATAAAAGC +GTTAATCAACACATACGCCAGCGTAATGGCGGTAAACGACTCCCAGGCATGGGCTGAGTAATCGAGCAAT +TTACCCGCCTGCGCCGCCATATCCACCAGACCGATAGTCGAGGCGATGGCGGAGTTTTTCACCAGGTTCA +TCATCTCTGAGGTCATCGGCGGGACGATAACGCGATAAGCATTAGGCAGCAGTACGTATCGATAAGCCTG +CGGTAGCGTCAGGCCCATCGCCAGCGCGGCATTTTTTTGCCCTCGCGGCAGCGACTGAATCGCGGCGCGT +ACCTGTTCGCAAACACGGGCGGCGGTAAACAGCCCCAGGCAGAGCATGGATGAAAGGAAAAACTGAATAT +TGGGATCCAGCTCGGCCTTAAACCACATGCCGATTTTCTCCGGCAGCAGCTCCGGGATCACCAGATACCA +GGTAAAGAATTGCACAATCAACGGCACGTTGCGGAACAGTTCGACATACAACGTACCCAGACCAGAGAGA +AAACGGTTTGGAACGGTACGTAAAATGCCGAAAAATGAACCGACGAGGAAAGCGATAATCCAGGCGCAGA +TCGACAAAGCGATCGTCACCTGAAAACCACTCCAGATCCAACCAAGATAGGTGGTGTTGCCGAACGGGGC +TTGTTGTAAAAAAATACCCCAGTTCCAGTCTATAGACATAAATCTACTCCAGAAAAAAGAGGGTAGCAGC +GTTAACTGCTACCCTCGAAGATTGTTACCCAGCGTATTGCGGTTTTCAGGCCCGATGGGGAACGACCATC +AGGCGTATAGTCTGTCCGTGCTACGTAACAATCGAGAGGGCTGGAATTTCCGCCCCTGGTTCTTGTAATT +AGTTCAGTGCCTTGTCATTCGGTTCTTTGAACAGTGCTTTCATTTCGTCTGACAGTTCGAAATTCATGTT +CAGGTTTTTCGGCGGAATTGGATTTTTGAACCACTTATCAAACCATTTTTCCGCTTCACCGGAGGTCTGC +ACCTGAGCGATGGTGTCATCCATCAGCTTTTTGAACTGCGGATCATCTTTACGCAACATACAACCGTAGG +CCTCCTGAGACTGCGGCTTGCCGACGATTTCCCAGTTGTCTGGTTTCTTCGCTTTCGCACGTTCACCGGC +CAGCAGAGCGTCATCCATCATAAAGGCAACGGCACGACCGCTTTCCAGGGTGCGGAAAGAGTCACCGTGA +TCTTTGGCGCTGATGATGCGCATATTCATTTTTTGCTCTTCATTCAGTTTGTTGAGCAAAACTTCAGAGG +TAGTGCCGGAAGTGACGACTACGGCTTTGTCTTTCAGGTTGGCAAAATCTTTGATATCGCCACCCTTTTT +GGTCAACAGGCGCGTACCGACCACGAAAATAGTGTCAGAGAAAGCCGCCTGTTTTTGGCGTTCGACGTTG +TTGGTGGTAGAACCACATTCAAAATCGAAAGTGCCGTTTTGCAGCAGTGGAATACGGTTTTGTGAGGTAA +TCGGAATCAGTTTTACCTGCAAGTCCGGTTTGTTGAGTTTCTTTTTCACTGCTTCAACAATGGCGTTGGA +GTAATCCTGCGAGTAACCCACCACTTTTTGCTGATTGTCGTAATAAGAGAAAGGCACTGAAGATTCACGG +TGACCGACGACAATCACACCGTTTTTGGCGATTTTGTCCAGAGTACTGCCCGCTGCCGGGGCGGCGTCAT +CTGCCTGTGCCAGTCCTGCGGAAAGCGCCAGGGCGAGGATTGCTGTGGCAGGTTTACGTAATTGCATATC +CAACTCCTTTATCTTCTGCGTTAAGAACGCATGGATACCCGTTGTGAGTGTTTGTGTTGTTATCGTCTGC +AACTTTATTGTGCAGTGTTGTGCCTGTTAGGGAAGGTGCGAATAAGCGGGGAAATTCTTCTCGGCTGACT +CAGTCATTTCATTTCTTCATGTTTGAGCCGATTTTTTCTCCCGTAAATGCCTTGAATCAGCCTATTTAGA +CCGTTTCTTCGCCATTTAAGGCGTTATCCCCAGTTTTTAGTGAGATCTCTCCCACTGACGTATCATTTGG +TCCGCCCGAAACAGGTTGGCCAGCGTGAATAACATCGCCAGTTGGTTATCGTTTTTCAGCAACCCCTTGT +ATCTGGCTTTCACGAAGCCGAACTGTCGCTTGATGATGCGAAATGGGTGCTCCACCCTGGCCCGGATGCT +GGCTTTCATGTATTCGATGTTGATGGCCGTTTTGTTCTTGCGTGGATGCTGTTTCAAGGTTCTTACCTTG +CCGGGGCGCTCGGCGATCAGCCAGTCCACATCCACCTCGGCCAGCTCCTCGCGCTGTGGCGCCCCTTGGT +AGCCGGCATCGGCTGAGACAAATTGCTCCTCTCCATGCAGCAGATTACCCAGCTGATTGAGGTCATGCTC +GTTGGCCGCGGTGGTGACCAGGCTGTGGGTCAGGCCACTCTTGGCATCGACACCAATGTGGGCCTTCATG +CCAAAGTGCCACTGATTGCCTTTCTTGGTCTGATGCATCTCCGGATCGCGTTGCTGCTCTTTGTTCTTGG +TCGAGCTGGGTGCCTCAATGATGGTGGCATCGACCAAGGTGCCTTGAGTCATCATGACGCCTGCTTCGGC +CAGCCAGCGATTGATGGTCTTGAACAATTGGCGGGCCAGTTGATGCTGCTCCAGCAGGTGGCGGAAATTC +ATGATGGTGGTGCGGTCCGGCAAGGCGCTATCCAGGGATAACCGGGCAAACAGACGCATGGAGGCGATTT +CGTACAGAGCATCTTCCATCGCGCCATCGCTCAGGTTGTACCAATGCTGCATGCAGTGAATGCGTAGCAT +GGTTTCCAGCGGATAAGGTCGCCGGCCATTACCAGCCTTGGGGTAAAACGGCTCGATGACTTCCACCATG +TTTTGCCATGGCAGAATCTGCTCCATGCGGGACAAGAAAATCTCTTTTCTGGTCTGACGGCGCTTACTGC +TGAATTCACTGTCGGCGAAGGTAAGTTGATGACTCATGATGAACCCTGTTCTATGGCTCCAGATGACAAA +CATGATCTCATATCAGGGACTTGTTCGCACCTTCCTTAGGTAACATTTAGTTTGGCTAAATGTAAAGATA +TTGCTGTTTTATTGTTTGTTTTTGCGAGATGCGCCGCACCATTCCGAAGCAAAATTCTTAAAATGCACTC +TTTTAGTGCTACCGCTGGATTACTGTGGTGCAACTAGGTTGTACTGATGCTGTTTCAGGGTTTGCCTTGT +ATAACAAAGCAATAGATGTGCCAAAGTTGGATAGGAGAATATTGTTATCCGGATAATGCACTGATGCCGC +ATCCGGTGAGCGTGCCGAAATATGGGATGTATTCCGGCACGATAAGAAGGGATTATTTACGTCGCTGACG +CAGACTCATCAACACAGCAGCAAAACCAAACAATGCCGTCAGCACCCACAGCGGCCAGTTGCCGGTACGT +GCGTATGGTGTGAGTCCGGTGGTCGGCGTCACGTTAGTGGTTAACACCTCGCGGGTGAACTGCGGGATCA +TCGCCTGAATCTCACCCTGCGGGCCAATCACCGCCGTAATGCCGTTGTTGGTGCTGCGCAACAGTGGGCG +CGCCAGCTCCAGCGCACGCATTCGCGCCATCTGGAAGTGTTGCCATGGACCAATAGATTTACCAAACCAC +GCATCGTTGGAGATAGTCAGCAGATAGTCGGTATCCGGGCGGAAGTTATCGCGCACTTGCTCGCCGAGAA +TGATCTCGTAGCAAATAGCCGCAGTAAGCTCAATACCATTTGCCGACAGCGGCGGCTGGATATATGGCCC +ACGGCTGAACGACGACATCGGCAGATCAAAGAACGGTGCTAACGGACGCAGAATCGACTCCAGCGGGACA +AACTCGCCAAACGGCACCAGATGGTTTTTGTTATAGCGATCGGCTGATTCGTAGCTGTACGGCGCACCTT +TACCCAGCGTGATGATGGTGTTGTAGGTATCGTAGCGGTTCTGCTTATTGAGACGCGCGTCGACAATCCC +GGTTACCAGCGAGCTACCTTTATCACGCAACTCACCGTCCAGTGCTTTGAGGAACGGTTGCTGATTAATT +TCCAGATCGGTTATCGCCGACTCCGGCCAGATAATCAACGATGATTTGCCCATCAGCGGTGCCGTTGCGT +TGTAGTAAATCTTCAGCGTATTAAGAAGCTGGCCTTCGTCCCATTTCAGCGATTGCGGAATATCGCCCTG +AACCATCGAAACCTGAATGGTTTTCTCCGGTTGTGGGGTAAACCACTGGATGTAACGCAGCGGGAAGGGA +AGGGCAAACAGCACGACGGCCACCACCAGCGGACGCCAGTTGCGTTTGACCAACGCCAGTGCCAGCAGGC +CACTAACCATCATCAGCAGGAAGTTAATGGCTTCCACGCCCATTATCGGTGCCAGCCCTTTTAACGGGCC +ATCAATCTGGCTATAGCCGAACTGTAACCACGGGAAGCCGGTCAGTACCCAACCGCGCAGAAACTCGGTC +ACTTGCCAGAGGGCAGGGGCGGCAATCGCTACGCGCAGCCAGGTGGTTTTCGGCCACAGACGCGACAGCA +CGCCAGCAAACAGTCCGGTATACAGCGACAAATACGCCGCCAGCAGCACCACCAGGAAGATGTTAACCGG +GCCAGGCATTCCGCCAAAGGTCGCGATGCTGACATAGACCCAGTTAATACCGCTGCCAAAGAGGCCAAAT +CCCCAGCAAAAGCCAATAGCGGCAGACTGGAGTGGACGGCGGTTAAAGGTCAACGCCTGAAGCCCCATCA +GCGAAATAATCGCCGCAGGCCAGACGTCGTAAGGAGAGAAGGCCAGCGTTCCGCAGGCACCGAATAATAA +CGCCAGCAGCAGGCGAATGCGCTGGCGTTCAATTAATGAGGCAAAAGCCATGTAGTTATCTATCCAGTTT +CGGTTTTATTCATCCAGCTTCGGCTGGGGTGAGTCATCCGGGATTTTGACATGAACCTGAATAATACGCC +GACTGTCGGCCATCGCCACTTTGAACTGGTAACCGTCGATGTCGATAGTTTCGCCACGCGCCGGAAGATG +CCCAAATGCCTGCATCACCAGACCACCGATAGTGTCGACTTCTTCATCGCTAAAGTGGGTGCCGAACGCT +TCGTTGAAGTCTTCAATGGAAGCCAGTGCGCGTACGGTCCAGGTATGACGACTCAGCTGACGGAAGTCGA +TATCATCTTCTTCGTCATACTCGTCTTCAATCTCACCAACAATCAGTTCCAGGATGTCTTCAATGGTCAC +CAGACCGGAAACCCCACCGAATTCGTCAATAACGATCGCCATGTGGTAACGCTGAGAGCGAAACTCTTTC +AGCATCCGGTCTACGCGCTTACTTTCAGGAACGACAACCGCCTGACGTAACACTTTGTCCATGCTGAAGG +CTTCAGCATCGCTGCGCATAAACGGCAGCAAGTCTTTCGCCATCAGAATCCCTTCAATGTGATCTTTGTC +TTCGCTAATCACCGGGAAACGTGAGTGGGCGGACTCGATGATGACATCAAGACATTCGTCCAGCGTCTGG +TTGCGTTTCAGGGTAATCATCTGGGAGCGGGGGATCATGATGTCGCGAACGCGTTGGTCTGCGATGTCCA +TCACCCCTTCGAGCATATCGCGCGTATCTTCGTCGATAAGGTCGTTCTGCCCGGAATCACGGATCAGCGC +CAGCAGTTCGTCACGGTTTTTCGGTTCACCGTGGAAAAGTTGGCTGAGTAACAGGGAGAAAAATCCCTTC +TTGTTGCTTATCGTGTCACTACTGTGTGAATTGTCGTCGCTCATGGCGTCGTATGGGTTCTCATGTTAGT +TAATCAAAACGCCGTCGTTAATCACCAACGGCGGGGACGTCTGCCAGTCAAATGCCTGGCAAATTATTCT +TTCTCGGCAATGTACGGATCCTCATAGCCCAGAGCAAGCATAATCTCTGTTTCGAGGGCTTCCATTTCTT +CTGCTTCGTCATCTTCGATGTGATCGTAACCTAACAAATGCAGACTGCCGTGCACCACCATATGCGCCCA +GTGCGCCTCCAGTGGTTTGCCTTGCTCCTGAGCTTCCTTCTCAACCACCTGACGGCAGATAACCAGATCG +CCCAGTAGCGACATTTCCATGCCAGGCGGCACTTCAAACGGGAAGGAGAGCACGTTGGTCGGCTTATCCT +TACCGCGATAGGTCAGATTCAGACTGTGGCTTTCGGCGGTATCGACCACGCGAATCGTCACTTCCGATTC +TTCCTGAAACTGCGGGATCACCGCATTCAGCCATGTCTGAAACTGGCTCTCTTCCGGTAACCCGGAATTA +TCTTCACATGCCAGTTGTAAATCGAGGATCACCTGACTCATTTTTGTTCCTGTTCTTCGCGCTTGCGTTC +TGCTGCCAGCGCCGCTTTTCGTTTTTGTTCGGCTTCTTCCCAGGCTTCATAGGCGTTAACGATACGCGCC +ACCACAGGGTGACGAACCACGTCTTCGCTGTGGAAGAAGTTAAAGCTGATCTCTTCGACATCGGCCAGCA +CTTCGATGGCGTGACGTAAGCCTGATTTAGTATTACGCGGCAGGTCGATCTGTGTGACGTCGCCGGTGAT +AACCGCTTTTGAGTTAAAACCGATACGGGTCAGGAACATCTTCATCTGTTCGATGGTGGTGTTCTGGCTC +TCATCGAGAATGATAAACGCGTCGTTCAGCGTACGACCACGCATATAGGCCAGCGGTGCGACTTCAATAA +CGTTGCGCTCAATCAGTTTCTCGACTTTCTCAAAGCCCAGCATTTCAAACAGCGCGTCGTACAGCGGGCG +CAGATACGGGTCTACTTTCTGGCTTAAATCGCCAGGCAGGAAGCCCAGTTTCTCACCGGCTTCTACTGCC +GGACGAGTCAGCAGAATACGGCGAATTTCCTGACGCTCCAGGGCATCAACTGCCGCAGCCACTGCCAGGT +AGGTTTTACCCGTACCCGCCGGGCCAACGCCGAAGGTAATGTCATGGTCGAGAATATTGGCGATGTACTG +CGCCTGGTTTGGCGTGCGCGGCTTAATTACGCCGCGTTTGGTTTTGATATTGACCGCTTTGCCGTACTCC +GGCACGCTCTCCGCGCTTTGCTCCAGTACCCGCGCTTCTTTAATCGCAAGGTGGATCTGTTCCGGTTCGA +TATCCTGAATCTGACCGCGCATCGGGGCAGTATCGACATACAGGCTACGCAGAATGTCTGCCGCAGCGGT +GACGCAAATCGGACGGCCGGTCAGTTTAAAGTGGTTATCGCGGCGATTGATCTCGATGCCGAGACGGCGT +TCGAGCTGCTTGATGTTGTCATCAAACGGGCCGCACAGGCTCAACAGACGCGCATTGTCTGCTGGCTCCA +GGGTGATTTCGCGAGTGTCTATGTTCAAACCGTTCCTCTTATCTGTATGCCGCCGGAAGCTGAACATTCA +CCGGCCTATAAGGAAATTATTCACGCCACAGGAAAAAGGCGCAAGCATTGCAATAAAGATGGGGATAAAG +AGAGAAAAAACAAGGCCCACCGGAACGGCAGGCCTGAGAATTACGGCTGATAATAACCCACGCCAAGGTC +GTTTTCTTTGCGGGTACGGGCAATCACTGATTCCGGTGTTTCTGCCACGCGCAGACCCATTTCATCTTCA +GTACGCACCACTTTACCGCGCAGAGAGTTCGGGTAGACGTCGGTAATTTCTACATCGACGAATTTACCGA +TCATATCCGGCGTGCCTTCGAAGTTGACCACGCGGTTATTTTCCGTACGCCCGGAAAGCTCCATGATGCT +CTTACGCGATGTACCTTCTACCAGAATACGCTGGGTGGTGCCGAGCATCCGGCGGCTCCACGCCATCGCT +TGCTGATTAATGCGCTCTTGCAGAATATACAGACGCTGCTTCTTCTCTTCTTCCGGAACATCATCAACCA +TATCGGCGGCTGGTGTACCCGGACGTGCAGAGAAGATAAAGCTGTAGCTCATGTCGAAATTGACGTCGGC +AATCAGCTTCATCGTTTTCTCGAAGTCTTCGGTGGTTTCGCCAGGGAAGCCAACGATGAAATCAGAACTG +ATCTGAATATCTGGACGCGCCGCACGCAGTTTACGGATGATCGCTTTGTACTCCAGCGCCGTATGGGTAC +GGCCCATCAGGTTCAGAATGCGATCGGAACCGCTCTGTACCGGCAGATGCAGGAAGCTCACCAGCTCCGG +CGTGTCGCGATACACTTCGATGATATCGTCGGTGAATTCGATCGGATGGCTGGTGGTAAAGCGAATACGA +TCGATCCCGTCGATCGCAGCAACCAGACGCAGCAGATCGGCAAACGATCCGGTGGTGCCGTCGTAGTTTT +CACCACGCCAGGCGTTCACGTTCTGACCGAGCAGGTTGACTTCACGCACGCCCTGAGCCGCAAGCTGGGC +AATCTCAAACAGAATATCGTCGGACGGACGGCTTACCTCTTCACCACGGGTGTAAGGCACCACGCAGTAG +GTGCAATATTTATTGCAGCCTTCCATGATGGAGACAAACGCGGTCGGCCCTTCGGCGCGCGGTTCCGGTA +GACGGTCAAACTTCTCGATTTCCGGGAAGCTGATATCTACAACCGGGCTGCGGTCGCCACGCACGGAGTT +GATCATCTCCGGCAGACGGTGCAGCGTTTGCGGCCCAAAAATAATATCGACATAGTGGGCGCGCTGGCGA +ATGTGCTCGCCTTCTTGCGATGCCACGCAGCCACCGACGCCGATAATCAGGTCTGGATTCTTCTCTTTTA +ACAGTTTCCAGCGACCCAACTGATGGAAGACTTTTTCCTGAGCCTTCTCGCGGATTGAGCAGGTGTTCAG +CAGCAGCACATCCGCTTCTTCCGCCACGTCGGTCAGTTGATAGCCGTGGGTGGCATCCAGCAGATCGGCC +ATCTTCGATGAATCGTACTCGTTCATCTGACAGCCCCAGGTTTTAATATGGAGTTTTTTGGTCATCGACT +TGCTCTTGCGAAATAGTAGCCAGGAATGCAGGGCGCATAGTGTAATGCTTTGCTGCCGTTGTGACCAGTA +TGAGCGTTATCAGCCCTTAGGGGTAAAAATCCTGTAAACTTAAAGCATATTGCTAACAGGATGATTGACC +ATGACAAATCAACCAACGGAAATTGCCATTGTCGGCGGAGGAATGGTCGGCGGCGCACTGGCGCTGGGGC +TGGCACAGCACGGATTTGCGGTAACGGTGATCGAGCACGCAGAACCAGCGCCGTTTGTCGCTGATAGCCA +ACCGGACGTGCGGATCTCGGCGATCAGCGCGGCTTCGGTATCATTGCTTAAAGGGTTAGGGGTCTGGGAT +GCAGTACAGGCTATGCGTTGCCATCCTTACCGCAGACTGGAAACGTGGGAGTGGGAAACGGCGCATGTGG +TGTTTGACGCCGCTGAACTTAAGCTACCGCTGCTTGGCTATATGGTGGAAAACACTGTCCTGCAACAGGC +GTTGTGGCAGGCGCTGGAAGCGCATCCGAAAGTAACGTTACGTGTGCCAGGCTCGCTGATTGCGCTGCAT +CGCCATGATGATCTTCAGGAGCTGGAGCTGAAAGGCGGTGAAGTGATTCGCGCGAAGCTGGTGATTGGTG +CCGACGGCGCAAATTCGCAGGTGCGGCAGATGGCGGGAATTGGCGTTCATGCATGGCAGTATGCGCAGTC +GTGCATGTTGATTAGCGTCCAGTGCGAGAACGATCCCGGCGACAGCACCTGGCAGCAATTTACTCCGGAC +GGACCGCGTGCGTTTCTGCCGTTGTTTGATAACTGGGCATCGCTGGTGTGGTATGACTCTCCGGCGCGTA +TTCGCCAGTTGCAGAATATGAATATGGCACAGCTCCAGGCGGAAATCGCGAAGCATTTCCCGTCGCGTCT +GGGTTACGTTACACCGCTTGCCGCTGGTGCGTTTCCGCTGACGCGTCGCCATGCGTTGCAGTACGTGCAG +CCAGGGCTTGCGCTGGTGGGCGATGCCGCGCATACCATCCATCCGCTGGCGGGGCAGGGAGTGAATCTTG +GTTATCGTGATGTCGATGCCCTGATTGATGTTCTGGTCAACGCCCGCAGCTACGGCGAAGCGTGGGCCAG +TTATCCTGTCCTCAAGCGTTACCAGATGCGGCGCATGGCGGATAACTTCATTATGCAAAGCGGTATGGAT +CTGTTTTATGCCGGATTCAGCAATAATCTGCCACCACTGCGTTTTATGCGTAATCTCGGGTTAATGGCGG +CGGAGCGTGCTGGCGTGTTGAAACGTCAGGCGCTGAAATATGCGTTAGGGTTGTAGCCTTACAACATTGC +CGGATGCGTGCCAACCGTAGGTCGGATAAGACGCGGCAGCGTCGCATCCGACATTGAAGGATAAGACGTG +TCAACATCGCATTCGACATTGAATGAACGCAGAAAAGCAAAAAGCTCGCCGAAGCGAGCTTTTTTAATGT +GGCTGGGGTACGAGGATTCGAACCTCGGAATGCCGGAATCAGAATCCGGTGCCTTACCGCTTGGCGATAC +CCCAACTGGGTGCACTTACAAGGTAAGCGTCTTGAATAAATTGGCTGGGGTACGAGGATTCGAACCTCGG +AATGCCGGAATCAGAATCCGGTGCCTTACCGCTTGGCGATACCCCAACAAATTGGTTTTGAATTTGCCGA +ACATATTCGATACATTCAGAATTTGGTGGCTACGACGGGATTCGAACCTGTGACCCCATCATTATGAGTG +ATGTGCTCTAACCAACTGAGCTACGTAGCCAGATTGTTTCTTCGATGGCTGGGGTACCTGGATTCGAACC +AGGGAATGCCGGTATCAAAAACCGGTGCCTTACCGCTTGGCGATACCCCAATAACCGGGCGGTGAACCGC +TTACTCGAAGAAGATGGCTGGGGTACCTGGATTCGAACCAGGGAATGCCGGTATCAAAAACCGGTGCCTT +ACCGCTTGGCGATACCCCATCCGTACAACGCTTTCTGGTGAATGGTGCGGGAGGCGAGACTTGAACTCGC +ACACCTTGCGGCGCCAGAACCTAAATCTGGTGCGTCTACCAATTTCGCCACTCCCGCAAAAAAAGATGGT +GGCTACGACGGGATTCGAACCTGTGACCCCATCATTATGAGTGATGTGCTCTAACCAACTGAGCTACGTA +GCCATCTTTTTTTTCGCGATACCTTATCGGCGTTGCGGGGCGCATTATGCGTATAGAGCCTTGCAGCGTC +AACCTCTTTTTCAAGGAAAATTGCTCGAAAGTGACTGTTTGGTTAGGTTGCGAACAGCGTGGCGCTATAT +TCGTCAATTATTGTTTACTTTGTGTTTTTTCCCACCCTACAGCCATTCTTTTGTCATACAGGATGAAATT +CGGAATTTAACAATAGTGGTGGGAAATTAATCTATGAAATACTGGCCTACAGTGATGAGTTGTCAAACAG +TGATGTGGCAAACCCGGAACATTTCCTTACTGCATATCAGAATCAACAAGCACCTCAATAACTGAAACAG +CCCCGGATTTCACCGGGGCTGTTTCGCATTTCTTACTTATACGCCGACTGGTGAACACCAACCGCGCGAC +CAGACGGATCGTCCATTTTCTTGAACGCTTCATCCCATTCGATCGCTTTAGCGGAAGAACAAGCGACGGA +AGGACCGCCCGGCACGCACTCAGCGGCGCTCGGAAGCGGGAATAGTTCTTCAAAGATCTCCCGATACAAG +TACGCTTCTTTAGAGGTTGGCGTGTTGTACGGGAAGCGGAAGCGGGCAGTTTCCAGTTGCTGATCAGAAA +CCTGCTGCGCAGCCACTTCTTTCAGGGTGTCGATCCAACTGTAACCGACGCCATCGGAGAACTGCTCTTT +CTGCCGCCAGGCCACGCTTGCAGGCAGATACGCTTCAAAACATTCACGCAGGATGTGTTTTTCCATTTTG +CCGTTACCGCACATTTTATCCTGTGGGTTAATACGCATCGCCACATCAAGGAATTTTTTGTCGAGGAACG +GAACGCGTGCTTCCACGCCCCAGGCTGACATCGCTTTGTTGGCACGCGCGCAGTCATACATATGCAGGGC +CAGCAGTTTACGCACCGTCTCTTCATGCAGTTCTTTGGCATTCGGTGCTTTGTGGAAGTAAAGATAACCG +CCGAACACTTCATCAGAACCTTCACCGGACAGCACCATTTTAATGCCCATCGCCTTGATCTTACGCGACA +TTAAATACATCGGTGTTGAAGCGCGAATAGTGGTCACATCATAAGTTTCGATGTGGTAAATCACGTCGCG +GATGGCATCCAGACCTTCCTGTACAGTGAAGTGAATTTCGTGATGCACCGTGCCCAGATGGTTTGCCACT +TCCTGGGCTGCTTTCAGATCCGGTGAACCCGGCAGACCTACAGCAAAGGAGTGTAACTGCGGCCACCAGG +CTTCAGAGCGTTCCTGATCTTCCACGCGACGGGCTGCGTATTTCTTGGTGATAGCGGAAATAATTGAGGA +ATCCAGACCACCAGAAAGCAGCACACCGTAAGGCACATCAGACATCAGATGGCTTTTAACTGAATCTTCC +AGTGCCTGACGCAGCTCGTTTTTGTCGGTCACGTTATCTTTCACCGCATCGTAGTCGAACCAGTCGCGAT +GATAGTAAGAACGGATTTCGCCGTCCTGGCTCCACAAATAGCTCCCCGCCGGGAACTCTTTAATCGTGCG +GCAAACTGGCACCAGCGCTTTCATTTCTGAGGCCACATACAGCTGACCGTGTTCGTCATACCCCATATAC +AGTGGGATGATCCCCAGATGGTCGCGACCAATCAGGTAGGCATCTTTTTCGCTGTCGTACAGTGCAAAGG +CAAACATGCCCTGCAAGTCGTCGAGAAATTCCGGCCCTTTTTCCTGATACAGCGCGAGGATCACTTCACA +GTCAGACCCGGTCTGGAACTGGTAACGATCGCCATATTCGGCGCGCAATGCCTGGTGGTTGTAGATTTCA +CCGTTTACCGCCAGTACGTGGGTTTTTTGTTGGTTGTAGAGAGGTTGCGCCCCCGCGTTAACGTCAACAA +TTGACAGACGTTCGTGGGCGAGAATGGCGTTATCGCTGGCATAAATACCGGACCAGTCCGGGCCACGATG +ACGCATCAGGCGTGACAGCTCGAGGGCTTTCTTACGCAGCTCAACTGCGTCTGTTTTGATATCGAATACG +CCAAAAATTGAACACATAACCTTCTCCGTTAACCTGGTATTTGTTGCTTGTTGTGTTTGCTTGTTTAAAA +AAATGCCGCAAAGCAGCACTGTGCGCAAGCGATTTGGCGGTGAAAAAATAAAAAACGTAATGGTGATTGT +CGATTGGTGAAAAAAGGTCTGGTGTGAGGATATATTTATTGATGAATCGATAATTTTTAGCGGGTTTTAT +TGAATGTTTATATTTTACGGGGGCCAAATTGCTGACAAAGTGCGATTTGTTCATGCCGGATGCGGCGTGA +ACGCCTTATCCGGCCTACAAAAGCATGAAAATTCAATATATTGCAGGAGCTGCGTAGGCCTGATAAGCGT +AGCGCATCAGGCAGTTTGGCGTTTGTCATCAGAGCCAACCACGTCCGCAGACGTGGTTGCTATTCAGATA +ACGTCGATTTCAGCGACTGACGGGTAAATCCAGCTGGGGCGGAAAGGCATACTGTCGATATCGTCGAGCG +ACGAAACACCAGAAAGCACCAGAATCGTCTCCAGACCTGCCTGGAAGCCGGCCAGAATATCGGTACGCAG +GTTATCGCCGACAATCACCGTTTCTTCCGAATGCGCCTGCATTTTGTTTAATGCTGCGCGGATGATCCAC +GGGCTGGGCTTACCAACATAGAACGGTTTGCGCCCGGAGATTTTCTCAATCCCTGCACACAACGCGCCAC +AAGCGGGATAAAAACCGCGCCCGTGGGTGTCCGGATTGGTGGCGATAAAACGTGCACCGTTAGCGACGAA +ATAGGCTGCTTTATGCATCATGTCCCAGTTGTAGGAACGCGTTTCGCCAACAATCACGAAATCAGGGTTC +ACATCGGTAATAGTGAAACCGGCTTTGTACAGTTCATGAATCAGTGCGCCTTCGCCCACCACATACGCTT +TCTTGCCTTCCTGGCGACGCAGGAAATCGGCAGTCGCCATCGCAGAGGTATAAAACACGCTGTCAGGTAC +ATCGACACCTGCGGTGGCAAAGCGGTTCGCCAGATCTTGCCCAGTCTGCGAAGGATAGTTGGTCAGCAAC +ACCAGCGGCAGGCCTTTATCCATAATCCCGTGCAAAAATTCCGCTGCACCCGGTACGGCGACGTTATCGT +GCATCAGCACGCCGTCGATATCGCAAATTACATTTTTAATGGTCATGGACTACCCAGAATATTGACAACA +ATAAGCGCCACTATAAAAGCACATTAATTTTCCAGCAAATGCTGGAGCAAAATACCGTTGAGCATGGCGC +GTTTTACCAGCGCAAAAGCGCCGATTGCCGAGCGGTGATCCAGCTCAGAACGTACCACCGGCAGATTAGT +GCGAAACGCCTTCAGCGCCTGGGTATTAATGCAGCTTTCAATAGCAGGGAGCAGCACTTTATCGGCTTCG +GTGATTTCACCGGCAATAACAATTTTTTGCGGATTAAATAAGTTGATAGCAATGGCGATGGTTTTACCCA +GATGACGACCGACATACTCAATTACTTCCGACGCCAGACTATCGCCTTTGTTCGCGGCTTTGCAGATAGT +TTTGATGGTGCAGTCGTCCAGCGGCACGCGGCTCTGGTAGCCCTGCTTTAACAGATTCAACACCCGTTGT +TCAATGGCAGCGTTGGCAGCGATAGTTTCCAGGCAGCCAAAGTTGCCGCAGTGGCAGCGTTCACCCAGCG +GTTCGACCTGAATATGGCCAATTTCACCGACGTTGCCGTTGCGGCCAATAAAAATGCGCCCGTTAGAGAT +AATCCCGGCCCCGGTTCCGCGATGGACACGCACCAGAATGGAGTCTTCGCAATCCTGACTTGCACCGAAG +TAGTGCTCCGCCAGCGCCAGACTACGGATATCGTGACCAACGAAACAGGTCACTTTAAAACGTTCTTCCA +GAGCTTCTACCAGCCCCCAGTTTTCTACCTGAATATGCGGCATGTAATGAATTTTGCCGCTGTCCGGGTC +AACAAGCCCTGGCAGGATCACCGAAATCGCGATCAGCTCGCGCAGTTTGCGCTGGTAGCTATCAATAAAC +TGAGCAATGGCATTCAACAGGGCATGTTCCAGCGTTTGCTGGGTACGTTCCGGCAGCGGGTAATGTTCTT +CTGCCAGCACTTTGCTGCTGAGATCAAACAGAGTGATGGTGGCGTCATGACGACCAAGCCGTACGCCGAT +TGCGTGGAAATTGCGGGTTTCGGTGACGATGGAGATAGCGCGGCGGCCCCCGGTGGAGGCCTGCTGATCA +ACTTCTTTGATCAGCCCGCGTTCGATAAGCTGACGCGTAATTTTGGTTACGCTGGCGGGGGCAAGCTGGC +TTTGCTCGGCAATCTGAATCCGCGAGATTGGCCCGTACTGGTCAATCAGGCGATAAACCGCCGCGCTGTT +AAGCTGTTTTACGAGATCAACATTACCTATCTGAGCTTGTCCGCCTGGTGTCATACTTTCTCTTATTGAG +TTACGACCTCGTTACCGTTAACGATGGTCTTGGTGATTTTAAAATCAGGTGTGAATGCAGTCAGGTTGGC +TACTTTACCTGCGGCGAGTGTGCCGAGACGTTTCTCAACGCCAATCGCACGCGCCGGATAGAGCGTCGCC +ATACGTAGCACTTCATCCAGTGCGATACCGCAATGTTCGACCAGATTACGCACGCCTTCAATCATGGTTA +AGGATGAACCGCTTAACGTACCGTTCTCATCCACACAAAGTCCGTTACGGTAGTATATTGTTTTACCCGC +AAAAATGAACTGTTCAATGTTGGCACCTGCTGGCGCGGTGGCGTCAGTAACCAGACACAGTTTGTCGCCT +TTCAGACGTTTAGCGTTGCGAATGTTGGCGTAATCAACATGCAGGCCATCAGCAATAATACCGCAATAAA +TGTCAGCTTCGTCGAGGATCGCGCCCGCCAGGCCAGGTTCACGACCGGTAATATACGGCATCGCGTTGTA +CAGATGGGTGGCAAAGGTAATCCCCGCGCGGAAACCGGCTTTTGCTTCTTTCAACGTCGCGTTGGAGTGA +CCGGCAGAAACCACAATCCCGGCATTTGCCAGTTTGCTGATGACTTCCGCAGGAACCATTTCCGGTGCCA +GGGTCACTTTGGTAATGACGTCGGCGTTTTCACACAGGAAATCGACCAGCGCGGCATCAGGCTTACGCAC +AAAATTCGGATTATGGGTGCCTTTTTTTACCAGATTCAGCCACGGACCTTCCAGATGCAGACCTAACGCC +TGATTCGGATGTTTTGCCAGGTACTCGCGCATAACGCGCACGCCCTGTTTCATCAGCTCATCGCTGGTGG +TGATAAGCGTCGGCAGATAGTTAGTACAGCCTGATTTCTCATTGGCTTTCTGCATGATTTCCAGCGTTTC +CACGCTGACCGCTTCAGCGGTGTCGTTAAACTGTACGCCGCCGCAGCCGTTTAACTGCACATCGATAAAA +CCGGGGGAGAGAATGGCCCCGTTCAGTGAACGTTGTTCGATCTCTGGCGGCAGTTCCGCTACCGGACAGA +CGCTTTTAATCAGGCCATCAGCGATAACAACCGCGTGGTCATCAAGAAATTCGTGGCCGGTAAAGATCCG +GCCCTGGGTTAATGCATACATTCTGACCCCCGATTTTAAAAAATATTGCCCTGAGCAAGGAGCCAGGGCA +GGGATAACAATTACAGACCTTTGATATTTTCTGCTTCTAATTCATTGAAATATCTTAAAGTCTTAACTTT +CAGCTCCATGGTGGAAGGTTCATCGCACACCATGATCGCTTTCGGATGCAGTTGCAGACAGCTGATGGTC +CACATATGGTTCACGCAACCTTCAACGGCGGCCTGCAGCGCCAGTGCTTTCTGGCTACCCAGCACCAGAA +TCATCACTTCTTCGGCATCCAGCAGTGTACCAACACCGACAGTCAGGGCATATTTTGGCACCTGATTAAC +ATCGTTATCAAAGAAACGAGAGTTTGCGACGCGAGTGTCATGAGTCAGGGTTTTGATACGAGTACGAGAA +GCCAGAGAAGACGCCGGTTCGTTAAATGCAATATGACCGTCGTTACCTACACCGCCCATAAACAGATGAA +TTTTTCCGTAAGAACGGATTTTTTCTTCATACTGGCGGCACTCGGCGTCGATATCCGGGGCGTTGCCGTT +GAGAAGGTTGATGTTTTCTGCTGGAATATCAACGTGATCGAAGAAATTACGGTGCATAAAGCTGTAGTAG +CTTTCCGGATGCTCTTTCGGCAGACCGACATATTCGTCCATGTTGAAGGTGACAACGTGCTTAAAGCTGA +CCTGGCCTGCTTTATGCATTTCGACTAACGCTTTATAGGTGGTCATCGGCGTGCCGCCAGTCGGCAGGCC +CAGTACAAACGGACGATCGGCAGTCGGTTTGAACGCATTGATACGATTGACGATATGGCGAGCAGCCCAT +TTGCCGACCTGTTCAGCGGTAGTCAGGGGGATCAGTCTCATTATTCACCTCAATAAGTAAAATGTAAGCC +GTTGGCGGATTAGGCATCTTTAAGCGTAACCTGGATTTGCGCAGACAGGCGTCAATCCGACCTGATTTTT +TGAATGATAAAATAAGTTTTCTGGTTTAGCCAGTAAAAGGGAGTGATAATAACGATATTTGGTGACAAAA +CTCACAAAAGACACGCGTTTAATTTGCGATACGAATTAAATTTTCACACACTCTGTAGCAGATGATCTAA +CAATCTGATTACAGAACATCGGCAGTACAATTTGCAGCAAAATAAAAATACGGCTTGAAACGAGCCAAAT +AGGGTTCTCGTAGGGGGAATAAGATGAATATTTTAGGTTTTTTCCAGCGACTCGGTAGGGCGTTACAGCT +CCCTATCGCGGTGCTGCCGGTGGCGGCACTGTTGCTGCGATTCGGTCAGCCAGATTTACTTAACGTTGCG +TTTATTGCCCAGGCGGGCGGTGCGATTTTTGATAACCTCGCATTAATCTTCGCCATCGGTGTGGCATCCA +GCTGGTCGAAAGACAGCGCTGGTGCGGCGGCGCTGGCGGGTGCGGTAGGTTACTTTGTGTTAACCAAAGC +GATGGTGACCATCAACCCAGAAATTAACATGGGTGTACTGGCGGGTATCATTACCGGTCTGGTTGGTGGC +GCAGCCTATAACCGTTGGTCCGATATTAAACTGCCGGACTTCCTGAGCTTCTTCGGCGGCAAACGCTTTG +TGCCGATTGCCACCGGATTCTTCTGCCTGGTGCTGGCGGCCATTTTTGGTTACGTCTGGCCGCCGGTACA +GCACGCTATCCATGCAGGCGGCGAGTGGATCGTTTCTGCGGGCGCGCTGGGTTCCGGTATCTTTGGTTTC +ATCAACCGTCTGCTGATCCCAACCGGTCTGCATCAGGTACTGAACACCATCGCCTGGTTCCAGATTGGTG +AATTCACCAACGCGGCGGGTACGGTTTTCCACGGTGACATTAACCGCTTCTATGCCGGTGACGGCACCGC +GGGGATGTTCATGTCCGGCTTCTTCCCGATCATGATGTTCGGTCTGCCGGGTGCGGCGCTGGCGATGTAC +TTCGCAGCACCGAAAGAGCGTCGTCCGATGGTTGGCGGTATGCTGCTTTCTGTTGCTGTTACTGCGTTCC +TGACCGGTGTGACTGAGCCGCTGGAATTCCTGTTCATGTTCCTTGCTCCGCTGCTGTACCTCCTGCACGC +ACTGCTGACCGGTATCAGCCTGTTTGTGGCAACGCTGCTGGGTATCCACGCGGGCTTCTCTTTCTCTGCG +GGGGCTATCGACTACGCGTTGATGTATAACCTGCCGGCCGCCAGCCAGAACGTCTGGATGCTGCTGGTGA +TGGGCGTTATCTTCTTCGCTATCTACTTCGTGGTGTTCAGTTTGGTTATCCGCATGTTCAACCTGAAAAC +GCCGGGTCGTGAAGATAAAGAAGACGAGATCGTTACTGAAGAAGCCAACAGCAACACTGAAGAAGGTCTG +ACTCAACTGGCAACCAACTATATTGCTGCGGTTGGCGGCACTGACAACCTGAAAGCGATTGACGCCTGTA +TCACCCGTCTGCGCCTTACAGTGGCTGACTCTGCCCGCGTTAACGATACGATGTGTAAACGTCTGGGTGC +TTCTGGGGTAGTGAAACTGAACAAACAGACTATTCAGGTGATTGTTGGCGCGAAAGCAGAATCCATCGGC +GATGCGATGAAGAAAGTCGTTGCCCGTGGTCCGGTAGCCGCTGCGTCAGCTGAAGCAACTCCGGCAACTG +CCGCGCCTGTAGCAAAACCGCAGGCTGTACCAAACGCGGTATCTATCGCGGAGCTGGTATCGCCGATTAC +CGGTGATGTCGTGGCACTGGATCAGGTTCCTGACGAAGCATTCGCCAGCAAAGCGGTGGGTGACGGTGTG +GCGGTGAAACCGACAGATAAAATCGTCGTATCACCAGCCGCAGGGACAATCGTGAAAATCTTCAACACCA +ACCACGCGTTCTGCCTGGAAACCGAAAAAGGCGCGGAGATCGTCGTCCATATGGGTATCGACACCGTAGC +GCTGGAAGGTAAAGGCTTTAAACGTCTGGTGGAAGAGGGTGCGCAGGTAAGCGCAGGGCAACCGATTCTG +GAAATGGATCTGGATTACCTGAACGCTAACGCCCGCTCGATGATTAGCCCGGTGGTTTGCAGCAATATCG +ACGATTTCAGTGGCTTGATCATTAAAGCTCAGGGCCATATTGTGGCGGGTCAAACACCGCTGTATGAAAT +CAAAAAGTAATCTGCTTTATGCCTGATGCGACGCTTGAGCGTCGCATCCAACAATGACAAGCGGTGGAGA +TCTTCTCTGCCGCTTTTTTTTTCATCAATCATCCCCATAATCCTTGTTAGATTATCAATTTTAAAAAACT +AACAGTTGTCAGCCTGTCCCGCTTATAAGATCATACGCCGTTATACGTTGTTTACGCTTTGAGGAATCCA +CGATGAGTGAGGCAGAAGCCCGCCCGACTAACTTTATCCGTCAGATCATCGATGAAGATCTGGCCAGTGG +TAAGCACACCACAGTACACACCCGTTTCCCGCCGGAGCCGAATGGCTATCTGCATATTGGCCATGCGAAA +TCTATCTGCCTGAACTTCGGGATCGCCCAGGACTATAAAGGCCAGTGCAACCTGCGTTTCGACGACACTA +ACCCGGTAAAAGAAGATATCGAGTATGTTGAGTCGATCAAAAACGACGTAGAGTGGTTAGGTTTTCACTG +GTCTGGTAACGTCCGTTACTCCTCCGATTATTTTGATCAGCTCCACGCCTATGCGATCGAACTGATCAAT +AAAGGCCTGGCGTACGTTGATGAACTGACGCCGGAACAGATCCGCGAATACCGCGGCACCCTGACGCAAC +CGGGTAAAAACAGCCCGTACCGCGACCGCAGCGTTGAAGAGAACCTGGCGCTGTTCGAAAAAATGCGTGC +CGGTGGTTTTGAAGAAGGTAAAGCCTGCCTGCGTGCGAAAATCGACATGGCTTCACCGTTTATCGTGATG +CGCGATCCGGTGCTGTACCGTATTAAATTTGCTGAACACCACCAGACTGGCAACAAGTGGTGCATCTACC +CGATGTACGACTTCACCCACTGCATCAGCGATGCCCTGGAAGGTATTACGCACTCTCTGTGTACGCTTGA +GTTCCAGGACAACCGTCGTCTGTACGACTGGGTACTGGACAACATCACGATTCCTGTTCACCCGCGCCAG +TATGAGTTCTCGCGCCTGAATCTGGAATACACCGTGATGTCCAAGCGTAAGTTGAACCTGCTGGTGACCG +ACAAGCACGTTGAAGGCTGGGATGACCCGCGTATGCCGACCATTTCCGGTCTGCGTCGTCGTGGTTACAC +TGCGGCTTCTATTCGTGAGTTCTGCAAACGCATCGGCGTGACCAAGCAGGACAACACCATTGAGATGGCG +TCGCTGGAATCCTGCATCCGTGAAGATCTCAACGAAAATGCGCCGCGCGCAATGGCGGTTATCGATCCGG +TGAAACTGGTTATCGAAAACTATCAGGGCGAAGGCGAAATGGTTACCATGCCGAACCATCCGAACAAACC +GGAAATGGGCAGCCGTCAGGTGCCGTTTAGCGGTGAGATTTGGATTGATCGCGCCGATTTCCGCGAAGAA +GCTAACAAGCAGTACAAACGTCTGGTGCTGGGTAAAGAAGTGCGTCTGCGTAATGCTTATGTGATTAAGG +CAGAACGCGTCGAGAAAGATGCCGAAGGTAATATCACCACCATCTTCTGTACTTATGACGCCGATACCTT +AAGCAAAGATCCGGCAGATGGTCGTAAAGTCAAAGGTGTTATTCACTGGGTGAGCGCGGCACATGCGCTG +CCGGTTGAAATCCGTTTGTATGACCGTCTGTTCAGCGTGCCTAACCCAGGTGCTGCGGATGATTTCCTGT +CGGTGATTAACCCGGAATCGCTGGTGATCAAACAGGGCTTTGCTGAACCGTCGCTGAAAGATGCGGTTGC +GGGTAAAGCATTCCAGTTTGAGCGTGAAGGTTACTTCTGCCTCGATAGCCGCCATTCTACGGCGGAAAAA +CCGGTATTTAACCGCACCGTTGGGCTGCGTGATACCTGGGCGAAAGTAGGCGAGTAATTTTAAGTTTCGC +TATGCCGGATGGGGCGTTTACGTCGCATCCGGCAAGGAACAGACAAACAGTTTCAAACGCTAAATTGCCT +GATGCGCTACGCTTATCAGGCCTACATGATCTCTGCAATATATTGAGTTTGCGTGCTTTTGTAGGCCGGA +TAAGGCGTTCACGCCGCATCCGGCAAGAAACAGCAAACAATCCAAAACGCCGCGTTCAGCGGCGTTTTTT +CTGCTTTTCTTCGCGAATTAATTCCGCTTCGCAATTTATCCATAAAATAAATTTAAAATAACAAAACATA +ATTAAATAAAATGTAACCGCTTTCATCTTGCTGGAATTTCACGCTTTTATTCTTCTGCAAGCCTTTCAAC +CGCAAACTTAAGCCTTGTAACAAAAATCATCAAAATATGTGCGGTTGCTCATGTTCTTACATTCTGGTTA +CAGAAAGAGATTGATAATTCGCGTCGCGAAAAATAGTCTGTTCCTGTAGTCAGCGAGACTTTTCTCAACG +CTACTTTTTTAATTTTTATTTTTTCGCTGTTCACCTTTGGTGCAGCAATTTATACGTCAAAGAGGATTAA +CCCATGCGTACGTTTAGTGGCAAACGTAGTACGCTGGCGCTGGCTATCGCCGGTGTTACAGCAATGTCGG +GCTTTATGGCAATGCCGGAGGCTCGCGCCGAAGGATTCATCGACGATTCAACCTTAACCGGCGGTATCTA +TTACTGGCAGCGTGAACGCGACCGTAAAGATGTTACCGACGGCGACAAATACAAAACCAACCTTTCTCAC +TCCACCTGGAATGCCAACCTCGATTTTCAGTCCGGTTATGCTGCTGATATGTTCGGCCTTGATATTGCTG +CGTTTACGGCGATTGAAATGGCGGAAAACGGCGACAGCTCCCACCCGAACGAAATCGCGTTTTCAAAAAG +TAATAAAGCCTATGACGAAGACTGGTCCGGCGACAAAAGCGGTATAAGCCTGTATAAAGCTGCGGCCAAA +TTTAAATACGGTCCGGTTTGGGCGAGGGCAGGTTACATTCAGCCAACTGGTCAAACGCTGTTAGCGCCGC +ACTGGAGCTTTATGCCAGGTACTTATCAGGGGGCGGAAGCCGGGGCGAATTTTGATTACGGCGATGCTGG +TGCGTTGAGTTTCTCCTACATGTGGACCAACGAATACAAAGCGCCGTGGCATCTGGAAATGGATGAGTTT +TATCAGAACGATAAAACCACCAAAGTTGATTATCTGCACTCCTTTGGGGCGAAATACGACTTCAAAAATA +ACTTCGTACTGGAAGCGGCATTTGGTCAGGCGGAAGGGTATATCGATCAATATTTTGCCAAAGCCAGCTA +CAAATTTGATATCGCCGGTAGCCCGTTAACCACCAGCTACCAGTTCTACGGTACCCGAGATAAAGTTGAC +GATCGCAGCGTCAACGACCTTTATGACGGCACCGCCTGGCTGCAAGCGTTGACCTTTGGTTACCGGGCGG +CTGACGTAGTGGATTTGCGCCTCGAAGGCACCTGGGTTAAGGCTGACGGTCAGCAGGGATACTTCCTGCA +ACGTATGACTCCAACCTACGCTTCCTCAAACGGTCGCCTGGATATCTGGTGGGATAACCGTTCTGACTTC +AACGCCAACGGCGAAAAAGCGGTCTTCTTCGGTGCGATGTATGACCTGAAAAACTGGAATCTTCCAGGCT +TCGCCATCGGCGCTTCCTACGTTTACGCATGGGATGCTAAACCTGCGACCTGGCAGAGCAATCCGGATGC +GTACTACGACAAAAACCGGACTATTGAAGAGTCTGCCTACAGCCTGGATGCGGTCTATACCATTCAGGAC +GGTCGCGCCAAAGGCACGATGTTCAAACTGCATTTCACCGAATACGACAACCACTCCGACATCCCAAGCT +GGGGCGGTGGTTACGGCAACATCTTCCAGGATGAGCGTGACGTGAAATTTATGGTAATCGCACCATTCAC +CATCTTCTGATGCCCGACGCGGCAGGTTTTGTGCCTGCCGCACGTTTGAGGAATTTGCTATGAAAAAACT +GATTCTCATCGCCATAATGGCATCGGGGCTGGTAGCTTGTGCGCAATCAACCGCGCCACAGGAAGACAGT +CGTCTGAAAGAGGCATACAGCGCCTGTATCAACACCGCACAAGGTTCGCCAGAAAAAATTGAAGCCTGCC +AGAGCGTGTTAAACGTGCTGAAGAAAGAGAAACAACATCAGCAGTTTGCCGACCAGGAAAGTGTACGCGT +ACTGGATTATCAGCAGTGTCTGCGTGCAACGCAAACCGGAAATGATCAGGCGGTGAAAGCCGATTGTGAT +AAAGTCTGGCAGGAAATACGCAGTAATAACAAATAAGTGAGAGCTGTAACTCTCGCTTTTCTTATTTCCC +TTGCATAAAAAAGCCAACCCGCAGGTTGGCTTTTCTCGTTCAGGCTGGCTTATTTGCCTTCGTGCGCATG +TTCATCTTCGCGGCAATCGCCTTCGGCACAGTGACCGTAAAGATAGAGACTGTGGTTAGTCAGGCGAATG +CCATGTTTTGCGGCAATTTCACGCTGACGCGCTTCGATGGAATCATCACTAAATTCGATAACCTTGCCGC +AGTCGAGGCAGATCAGGTGATCGTGGTGATGTTGCTGTGTCAGTTCAAATACGGATTTACCGCCTTCAAA +ATTGTGGCGGGTGACGATACCAGCGTCGTCAAACTGGTTCAGTACGCGATATACCGTAGCCAGACCAATT +TCTTCACCCATATCGATCAGACGTTTGTATAAATCTTCCGCACTGACGTGATGGTTGTCCGGCTCCTGAA +GAACTTCCAGGATTTTTAAACGAGGAAGCGTTACTTTCAGGCCAGCTTTCTTTAGGGCGGTATTGTTATC +AGTCATGCGGAATCTGTCCTGTTACTAAGCGGTTCACTTCATTAGAAGAAGTGACAGAATTTGCTCTTGA +GATAATGCGTATCATTATAGAATTGCCACGCCTAAATGAAAACCACAAGTCCCTGGCAAATATTGTTAAT +AAAAACGTGGCACAGCTTACATTTACAACGGCAAGGCCACTTGAACACCGGGACATTGTACAGGTACAAC +AGCAAAAGTTACAAATTTGTAGCAATTATTTTGATTGGCATTATCTATTAATACGGCGTAGACATGAGTC +TACGCCGCATCACATCAGGCATTGAGAATTTCGTCGAGATGCAACTCTTCAGAAATCTGTTTAACCCATT +TTTCTACACGTTCAGCGGTCAGTTCCGGCTGACGGTCTTCGTCGATAGCCAGACCGACAAAGTGGTCGTC +ATCTGCCAGACCTTTTGATGCTTCGAAATGATAGCCCGCAGTTGGCCAGTGACCAACGATGGTTGCACCG +CGCGGTTCAATGATGTCGCGGATGGTGCCCAATGCGTCGCAGAAATATTCGGCGTAATCTTCCTGGTCAC +CACAACCAAACAGCGCAACCAGTTTGCCGTTGAAATCAATCTCTTCGAGAGTCGGGAAGAAGTCATCCCA +GTCACACTGCGCTTCGCCGTAATACCAGGTTGGGATGCCCAGCAGCAGAATGTCATAAGCTTCCAGATCT +TCTTTGCTGCTTTTTGCAATGTCATGGACATCGGCAACGTCTTTACCAAGCTGTTTTTGAATCATTTTTG +CGATATTTTCGGTATTACCGGTGTCGCTGCCGAAAAAGATGCCAGTGATAGCCATGAGTGAAATAACCTC +TTGAAACTTATTGAAATGGGGGTGGAAAATTGCCCACGGATAAAGGCAATCATAGCAGAACAGGCAGTCT +TGCGGAATCAGCAAACGAGCAGGACTGCACACTGTGCTACATGAAAGTGGAAATTTAAACGATGCCCTGA +CTACGCAGCGCCGCCAGTTGCTGCATTAACATCTCTTCGATCAGTTCGCTACGGCTCATATTGCGCGACT +CCGCCAGCTCGTTCAGCGCCTCGACAGCTTCCGCGTTCAGCTTCAGTTCGACACGCTTAAGGCCACGTAC +TTTGTCGCGTTTTAGCTGGTTGCGTTTATTAATACGCAGCTGTTCATCGCGCGAAAGCGGATTAGTTTTC +GGTCGTCCCGGTCGACGCTCGTGCGCGAACAGATCTAATGTCGTACGGTCCGTTTGTTCTTTGGCCATGA +TCTTGGTGACTTCGGGGGAAACAATCAGCCAGGCCTCTGCCCGGATGGATAGCGCGCCATAATACATCAG +CGCGATGAGTCACGCCAACGCCCACGCGCGGAAAGCGACGCGGACGCTGGGTTTTTAATCAGTTGCGTTA +ATCATTGAGATAGCGACGGATAGCGCGTAATACCGCATCCGGTTTTTCAGCATGGACCCAGTGACCCGCG +CCTGCAATCACATGCGCCCGTGCCTGTGGAAATTGAGCCAGTAAATCATCACGGTACTGCTCGCTAACAT +ACGGAGAATTGCCGCCAGGGATAAACAGGGCAGGGTGATCCCATGCCGGGATTTTCTCCCAACCTACAAT +ATGCGGATACTGATCCCACAATACCGGCACGTTAAAGCGCCACTCCCCGTCAACAAAAGATTTCAGCAGA +AACTGAATCACCCCTTCTTCATTAAGATGCTGGCGCATTATTGCTGCTGCTTGCTGGCGAGTTTGTGCGT +CCGATTCACTGACCGCGTTGATAGCCGCAAAAATCTCATCATGACGGCGTACGTGATAGTCGACCGGCGC +GATATCGATCGCCACCAGTTTATCGATGCGATCGGAGGCTAGTGCAGTAAGTGCCATTACCGCTTTACCG +CCCATGGAGTGACCGATAAATGTTGCTTTGTCGATCTGCTGTGCATCCAGAGTATCAACAAGATCCTGCG +CCATCGCCGGGTAATTCATTACCGGATCTCTCGGTGAAAGACCGTGGTTACGCATATCAACCTGGATGAT +ATTGTGATCGTTTACCAGATCGCGAGCCAGTACGCCAAGGTTGTCGAGGCTGCCAAACAGACCGTGGACA +AGAACGATGGGAGAATTATTGTGCTGGTTTTGTGCAGTTTGCGCGCGGATATTCAATTTCATGGCAAAGT +TCTTTTTTTCGCGTTGTCGGGTTAGGGTATTATGTTGACCATTGTGCCACAGGGCTGCAACAAATAAGGT +TTATTCCGAGTTTTTCTGCAAGCCAGGCTTGACGCTATCCGCTGCCGGGATTTATTCATATACTCCTGGC +GACTTGTATTCAGCTAAGACACTGCACTGGATTAAGATGAAAACGATTGAAGTTGATGATGAACTCTACA +GCTATATTGCCAGCCACACTAAGCATATCGGCGAGAGCGCATCCGACATTTTACGGCGTATGTTGAAATT +TTCCGCCGCATCACAGCCTGCTGCTCCGGTGACGAAAGAGGTTCGCGTTGCGTCACCTGCTATCGTCGAA +GCGAAGCCGGTCAAAACGATTAAAGACAAGGTTCGCGCAATGCGTGAACTTCTGCTTTCGGATGAATACG +CAGAGCAAAAGCGAGCGGTCAATCGCTTTATGCTGCTGTTGTCTACACTATATTCTCTTGACGCCCAGGC +GTTTGCCGAAGCAACGGAATCGTTGCACGGTCGTACACGCGTTTACTTTGCGGCAGATGAACAAACGCTG +CTGAAAAATGGTAATCAGACCAAGCCGAAACATGTGCCAGGCACGCCGTATTGGGTGATCACCAACACCA +ACACCGGCCGTAAATGCAGCATGATCGAACACATCATGCAGTCGATGCAATTCCCGGCGGAATTGATTGA +GAAGGTTTGCGGAACTATCTAAAACGTTGCAGACAAAGGACAAAGCAATGGCAATCCACAATCGTGCAGG +CCAACCTGCACAACAGAGTGATTTGATTAACGTCGCCCAACTGACGGCGCAATATTATGTACTGAAACCA +GAAGCAGGGAATGCGGAGCACGCGGTGAAATTCGGTACTTCCGGTCACCGTGGCAGTGCAGCGCGCCACA +GCTTTAACGAGCCGCACATTCTGGCGATCGCTCAGGCAATTGCTGAAGAACGTGCGAAAAACGGCATCAC +TGGCCCTTGCTATGTGGGTAAAGATACTCACGCCCTGTCCGAACCTGCATTCATTTCCGTTCTGGAAGTG +CTGGCAGCGAACGGCGTTGATGTCATTGTGCAGGAAAACAATGGCTTCACCCCGACGCCTGCCGTTTCCA +ATGCCATCCTGGTTCACAATAAAAAAGGTGGCCCGCTGGCAGACGGTATCGTGATTACACCGTCCCATAA +CCCGCCGGAAGATGGTGGAATCAAATACAATCCGCCAAATGGTGGCCCGGCTGATACCAACGTCACTAAA +GTGGTGGAAGACAGGGCCAACGCACTGCTGGCCGATGGCCTGAAAGGCGTGAAGCGTATCTCCCTCGACG +AAGCGATGGCATCCGGTCATGTGAAAGAGCAGGATCTGGTGCAGCCGTTCGTGGAAGGTCTGGCCGATAT +CGTTGATATGGCCGCGATTCAGAAAGCGGGCCTGACGCTGGGCGTTGATCCGCTGGGCGGTTCCGGTATC +GAATACTGGAAGCGTATTGGCGAGTATTACAACCTCAACCTGACTATCGTTAACGATCAGGTCGATCAAA +CCTTCCGCTTTATGCACCTTGATAAAGACGGCGCGATCCGTATGGACTGCTCCTCCGAGTGTGCGATGGC +GGGCCTGCTGGCACTGCGTGATAAGTTCGATCTGGCGTTTGCTAACGACCCGGATTATGACCGTCACGGT +ATCGTCACTCCGGCAGGTTTGATGAATCCGAACCACTACCTGGCGGTGGCAATCAATTACCTGTTCCAGC +ATCGTCCGCAGTGGGGCAAAGATGTTGCCGTCGGTAAAACGCTGGTTTCATCTGCGATGATCGACCGTGT +GGTCAACGACTTGGGCCGTAAACTGGTAGAAGTCCCGGTAGGTTTCAAATGGTTTGTCGATGGTCTGTTC +GACGGCAGCTTCGGCTTTGGCGGCGAAGAGAGTGCAGGGGCTTCCTTCCTGCGTTTCGACGGCACGCCGT +GGTCCACCGACAAAGACGGCATCATCATGTGTCTGCTGGCGGCGGAAATCACCGCTGTCACCGGTAAGAA +CCCGCAGGAACACTACAACGAACTGGCAAAACGCTTTGGTGCGCCGAGCTACAACCGTTTGCAGGCAGCT +GCGACTTCCGCACAAAAAGCGGCGCTGTCTAAGCTGTCTCCGGAAATGGTGAGCGCCAGCACCCTGGCAG +GTGACCCGATCACCGCGCGCCTGACTGCTGCTCCGGGCAACGGTGCTTCTATTGGCGGTCTGAAAGTGAT +GACTGACAACGGCTGGTTCGCCGCGCGTCCGTCAGGCACGGAAGACGCATATAAGATCTACTGCGAAAGC +TTCCTCGGTGAAGAACATCGCAAGCAGATTGAGAAAGAAGCGGTTGAGATTGTTAGCGAAGTTCTGAAAA +ACGCGTAAACACATTTAATAAAAAAAGGGCGGTCGCAAGATCGCCCTTTTTTACGTATGACAAACACAGA +ATTGCCTGATGCGCTACGCTTATCAGGCCTACGAGGATGGTGCAATATATTGAATTTAAGCGATTTTGTA +GGCCGGATAAGGCGTTCACGCCGCATCCGGCAAAAACAACGAACACTTTGTCAACAAACTGAGTAGCTCA +AGGAAATCCCAATGAAGACCAACAGGAGTCTGGTCGTCATAGTGTCACTAATTACCGCCACATTACTGCT +GACTGCATGCGCCCAACCTGAACAATCATCATTAGCTGGCGACTGGTTACTGACCCCTAAAGATAAAACC +AGAGGATTAACGGGTAGCATTGCGGTAAATATTGCACCTTTCCGGTGTAAGACAAATTGCCGTGGTGATA +ACTTACCTGATAATACCCGCCGCTGGCAGTTGTCAGGCGGGAACGAAAAAGAACTTACTTATCTTCATAA +TATGTCAGCACAAGAAAAGGTCGGTTTAAATCCCGGTTGGCAATGCTACACCTCATTTTTTATGCGGGTT +TGCCAGGGCAAGCCCGGCACTCGACCGATAGTCAATGAGGATTATGTCAGCGAAAGCGGATTTTTTGGCT +CGATGATGCATGTCGGGATTATTGAGTTACGACGCTGCCAGTCAGAAAATTGCCAGCAAGAATTGAAAGC +GATAAATACACATTAAAATAGTGAGTCCGGGAATGAAACCCGGACCTGAACATGTCTTATTGCGTGAATG +TTTCTTTCATTTGATACTGCATTTCCCAGAGTTCAGTAAGCGAAATAACTTTTCTTGTTCTTGCTTCTTC +ACTTTGTACCCATAAGAAAGGGTAGAACGTGAAGGCTTCCGTTGCCGATAATTTTATTACGTCTTCTCGC +CATTGCTGCCATCGTACATTTTCATAGAAGGTATCTAAATCACCGGATAATGCCCACTGAAGAAACTCAG +AATATCCAACTTCCAGACTTTCCCAATTCAGCGTATCTGGCGCAAAATAATAAACGCAGCCAGTATCTTC +CCCAAGATCGCCACCATTAAGAGCAAAAATTACCCCTGCGACATCGTCAGCGATGGGTAAAGCCCGCACG +CCTGCGAATTCAGGGCGTTGTGTCCAACTTACTGGATCTCGTGGCAACCGGGGGTGACCAGATCCTGCTA +TGCGTAACTAACCATTATCAATCAGCAGACCTCCGGAGCCATAGACAAGCGCACCCATCGGTGATTTTGT +TGTCACCTGTAATTGATAAAGTGCGGTTTCGGCTAAATCTTTATTAACCGGTAAGAGTTCGGTATGGTTT +GTGGCGTCTTTTAACCAGTTCTGGATTATTGGCCAGGCTGAATCTTCAGTATTTACTAACTGATTCATTT +CACGCATCGCTACTTGCTCCTTGTGTGCTACGGTGTCATTTATGATGAGGAATTGTATGGAACATTTTTT +AAATATTAAGTTCCTTATATTTGAATAAAAAATGACTTTATCCATACATTGCCACTTTTTTCAAAGCATA +AACCGATACCCAATACCGGTTTCAGTAATAAAATGGCGAGGCCGGGCCGGATCCTGTTCCAGTTTTTGTC +GCAGATGCCCCATATAATTACGCAAATAGTTGCTGTGTTCGATCGCGTTTAGACCCTACATCTGCCGGAT +GCGGCATAAATAACGAACTATTTGCCAACAAACAGAAAGGGCGATCATTCAATCGCCCTTTTTTACTTTG +TTTTATTAACCGTGTTTATTTTTCAGTTCAAAGCGTGGTGATACCAGACCATACAGTGTCCAACCAAGGA +AGGTCACGATGGAACCGTACAGCATGGCTTCTTCCCCGGATGAGTACAGCGCATAAAAGCTATACATCGC +GCCAACAAAAGCAACAAAGTTTGCAACTTTCGCTTTTGAGGGGGGCACATTAGCGACCTTCTGAATAATG +ACTAATGCCGCCATTGACAGAATATACGGAATGATATTGGTCACCACGGCCAGGTTAACCAGCACGTTGA +ACTGACTGTTTAGCGACGGGCTAATGGTCATCAGTGCCAATCCACTCTGAATAATCACAATGGTCAACAT +TCCCTGCACCGGTGCATCCACTTTGGTTACACGGGAGAAAATTTTAGGGAAGTAGCCTTCATCAGATGAA +GATTTAAACACCTGGGCAATGGTGAACTGCCAGCCAAGTAGCGAACCGCAGCAGGACATCACCATCAGCG +CCATAATGACTTTACCCACTTCCGGCGTGAACATCTGCGCGAAGGCCAGACCAAATGGTGCCGTTGAATT +TGCCAGCTCCATATTTGGCACAATCCCGGCAATCACGTTGGTGGAGACGATATAAATCACCGCCGCACCT +AACGTACCGCCGAGTACCGCGATTGGCACATTACGTTCCGGGTTTTCCACTACATCAGTATTCGCACACG +CAGACTCCAGACCAAGAAAAGCCCACAGCGTCATAGCGATGGAAGAACCTACCGCACTGAAGAACGGTGC +ATGATGCGGATTCCAGGAATCAACGTACAGCGTCGGGCTAAACCAGAACCAGCCAATAATGCACAGACCG +ACGACCGGAATAATGACCCCCCACACGGTAATGCTACTGATTTGCCCGGTAATGCGCGCACCACCAAAGT +TAGCCACGGTACAAATCCACAGCACCCCGATGGTCGCAAGACCAATCTGCACTGGCGACAAACTCGCGCC +GAGCAGTTCGGTGCCGTAACCAACCGCCGAAATAGCAATCGCGACGTTAGCAATCAGCAGTGAGACGCCG +TAGGTATAGTTCGCCATAAAGTTACCGGATTTACCGAAAGCATACTCGGCATAACCGCCCATACCGCCTG +ATTTACGGCTGAACATACCGCATTTTGCGAATGCCCATGCCAGTGCCATTGAGCCTACGGCTGTCACCAG +CCAGGAGATAATTGAGATTGTCCCGACTTCGGCAAGCTTTGTCGGCAGCATGATGATACCGGAGCCCATC +ATGTTGACCATCGTCAGTATGGTTAACTGAACGACGCCCATTTTGTTCGATTTAGCCTGACTCATAATTT +TTCCCCTTTCAACAGGGTGCTTTGCGCATCACGAGGCTTGATGACATAGCACCAAACTTGCTTACGACCA +TCATGTTCTTCGATATAGACACCCTGCAGCTCCGGTGCAAAACCTGGCAGCAGGTTGATCCCTTCTTCCA +GAGCGCTGAAGTAACGCAGAACAGCACCACCCCAGATTTCACCCGGAACAACACACAGCACACCCGGAGG +ATAAGGAAGCGCACCTTCGGCAGCGATACGGCCTTCTGCATCCGGCAGACGAACCAGTTCCACTTCACCG +CGTAAATAGGCGTAGTTGGCTTCTTGCGGATTCATGCTGACGCGTGGGAAGTGCTCCTTACGGAACATCT +CTTTTTGCAGTTGTTTCACGTTGTGGCGGGCATACAAATCATGCATTTCCTGACACAACTGACGCAGGGT +ATAACCGGCGTAGCGCTCTTCATGCTGTTTGTAGATGGAAGGTAGCACTTCTGCTAATGGCGCGTCGGAC +TCAAGCAGTTTTTCGAAGCGTACCAGCAGGGCAACAAGTTGCTGAAGTTTGGCCATATCTTCTGCCGGAG +TCAGCAGGAAGAGGATGGAGTTAAGATCGCATTTTTCCGGCACTACGCCATTTTCGCGCAGGAAGTTAGC +AAGAATCGTCGCGGGTACACCGAACGCTTCATATTCGCCGTTACGTGCATCAATACCTGGGGTTGTCAGC +AACAGTTTGCATGGATCGACAAAGTATTGATTCTCTGCATAGCCTTCAAAAGAATGCCAGTGTTCCCCTG +GTACAAACTGGAAGAAGCGCAGATCAACCGCAATTTGCGCTGTTTCATACGACTGCCAGGGTTTACCATC +CACCAGTTCAGGTACGAACGGACGAATATGCTGACAGTTATCGAGGATCAGTTTGCGGGCATTAATGCCA +TTTACCACACAATCCATCCACATATTACGACCGCTGACACCTTCATGCATTTTGGCGTTGATATTCAGTG +CGGCAAACAGCGGATAGAACGGGCTGGTGGAGGCGTGCATCATAAAGGCGTTGTTCATGCGTTTGTGCGG +TACATAACGCTGTTGCCCTTTGATGTGGCTGTCTTTTTTATGAATTTGTGAAGTCTGAGAAAAACCAGCC +TGTTGTTTATGCACAGATTGCGTAACCAGAATACCCGGATCGTTCTCATTAAGATCCAGCAACAGCGGCG +AACAGTCCGCCATCATCGGAATAAACTGTTCATAGCCGACCCATGCTGAGTCAAACAGGATGTAGTCACA +CAGATGACCAATTTTATCCACCACTTGGCGGGCGTTATAAATCGTACCGTCGTAGGTGCCTAACTGAATC +ACAGCGAGGCGGAAAGGACGAGCCTCTTTTGCCCGCTGCGGTGCGACTTCCGCGATCAGCTCACGCAGGT +AACTTTCTTCAAAACAGTGCGCATCAATGCCACCGATAAAGCCATACGGGTTACGTGCCGTTTCCAGATA +AACCGGTGTTGCACCAGCCTGTAGCAACGCTCCGTGGTGGTTAGATTTGTGGTTATTGCGATCAAACAGC +ACCAGATCACCCGGTGTTAGCAGGGCGTTTAAAACCACTTTGTTAGAAGATGAAGTGCCATTTAAAACGA +AGTAGGTTTTATCGGCATTAAACACTTTTGCCGCATGTTGCTGTGCAATGCATGGCGCGCCTTCGTGAAT +CAGCAGATCGCCCATCGCTACGTCGGCGTTGCACAAGTCGGCACGGAACAGCGCCTCACCAAAGTATTCC +ACAAACTGATTCCCCGCCGGATGGCGACGGAAAAATTCGCCGCCCTGATGACCAGGGCAATCAAACGCGC +TGTTACCTTGATTGACATAATCGACCAGTGCGCGGAAGAAAGGTGGGCGCAGTTGAGTTTCATAATGGCT +GGCAGCGGTTTCTAACTGGCGACCATAAAATTCTCGTCGCGATTCGCAATTCTCAAAGACACCCGAAATA +CGGGGCAAATACTCTGCGGGTACACGTTCTTGATTTTCAGTAGCAATAAATACCGGGATGCCATAACCCG +TGGCATCGATTTCATCGAGTTTTCCGCATGTAACATCGTTGAGCGATAAAACTATTGCCGCCACATCGAT +ATTACGACTTTCATTAATGTAGATACATTCTCGCTGCGTGGTAAAACAGTCCGGGCAAGAATCACTAACC +GCAATTTTTAATTTTGACATTTTTCATCTCTTTATTTTAGGTAATAGCAGGTCCTCAATTTCTCGAATGA +GAAATCGATCGTGCCGGAAAAAAGCAAAGTTACCCCGCTGATAAATAAATCAGGTAGATTGCTTTTTTCA +GAATGCAGAAACCCTTACCAGTCAGGTGGCTGATAATACAAGGGTTAACAGAGAATGAGCACTGCGGAAT +ACAGGCATATGCCTGTAATACAGAGAGTCAGGAAGACCTGTACGCTGAAGTGCCCTTAGTCGGTAGACTA +ACGGGCATTGAAGAAGTGAAAGTCGAAGCTATTGCGATGAGCAAACTTCATAATATGAGTTGTCCGCCTT +ATATGGGGCATAGTGCGGCTGTTATTTTCCATTTAATTTACCTTTCCTGATGTGAATGAAGGTGAAGATA +TTCTATCCAGGAAATACGGTTGAACTGTGAAGGTGATCAATAAAAAATGATCAATCTTAATTTATTTAAT +GATGAGCTTTTTACTCAGTAATATAAAATATTGAATTGTTATTTTTGTGTGTTGTTTAAGATAAAAAGCC +GTATTTATTATTACGGCTTTAATTAATAAAAGGCAGGCTGTATTAAAATTAATATTCAAAGCATAAACCG +ATAGCCAATACCGGTTTCAGTAATGAAATGGCGTGGGCGGGCGGGATCCTGTTCCAGTTTTTGTCGCAGA +TGTCCCATATAAATACGCAAATAGTGACTGTGTTCGACCGCGTTTGGCCCCCACACCTGGTTAAGGAGCT +GGCGCTGGGTGAGTACTTTTCCGGCATTGTTGAGCAGCACCGCCAGCAGGCGGAACTCAATTGGTGTGAG +ATGCACCTCTTCCTCACCCCGGTGAATCACGCGGGCGGCTAAATCGACGGTAACATCGGAAAATTTTACC +AGCGGATCGGGCGCGGTGGTGGCAGAGTGGCGGCGTAATGCGACGCGCAGACGGGCCTGCAATTCGCCAA +TGCCAAACGGCTTACTCAGATAATCATCCGCTCCGGCATCCAGCGCGGCGATTTTGTCGCTCTCTTCGCT +GCGTGCGGAAAGCACAATCACCGGCACCGCGCTCCACTGGCGCAGGTCGCGGATAAACTCAATCCCATCA +CCATCGGGCAGGCCGAGATCGAGAATAATCAAATCTGGCTTACGGGTTGCCGCTTCCAGCAAGCCGCGTT +GCAGCGTTTCGGCCTCAAAGACGCGCATCCCGTCGCCCTCCAGCGCCGTGCGCAGAAAGCGACGAATAGC +CTGTTCATCTTCAACAATCAGAACGTTTGTCACATATCCTCATGAAATTCTTCAAGTTCAGGGGCAGTTT +GCTGGGGAAGTGTAACACGAAAACAGGCACCACCTTCCGGTCGGTTGAACGCGGTAATAGTGCCCCCGTG +TACATCCACTATCGCCCGACAAATTGCCAGTCCAAGCCCTACCCCCGGTACTGCCGACTCTTTATTCCCG +CGAGCAAACTTATCAAATATCGTCTGCTCCTGGCCTGGCGGAAGACCGGGGCCGTTATCCCAGACATCCA +GTTGTAGATTTTCGCCCTCAACGTGGGCATCGATACCAATTTCGGCCTGCGCACCCGCATATTTCACCGC +GTTCTCCAGCAGATTAATCAGCACCCGTTCAAAGAGTGGCCCGTCAACGTGGATTAAGGTCAGCGGTTCT +GGCAGAGAAAGATTGATGGGCGACGATAAACCCGGTTCCAGCATTTGCAGCGCGCTGCCGACTACTTCTT +CCAGCGTTAACCACTCTTTCTTCAAATTAAAGCCGCCGGACTGAATTCGCGCCATATCCAGTAGATTATT +CACCAGTCGGGTAGTGTTCAGCACATGCTGACGGATCTCGCTGGCCTGGCGGGCGTGGGGTGATCCTTCG +CTTGCCAGATCGAGCGTTAAGATTTCTGCCTGACCAAACAGCACCGTAAGCGGCGTGCGTAAATCATGCG +AAAGCGCCGCCAGCAGGGCGTTGCGGATCTGTTCACGTTCGCTTGCCATCCGCGCCTGTTCTTCGCTGGC +GGTTAGCGTCAGCCGCTCAAGGGCATTGGCGACTAACAGCGTAAACGTCTCCAGCAGGCGCTGCTGTTCC +GGGATCATCAACTGGCGCAGATTCCCCGGCTCCACCACCACCAGCCCGTAGGTTTTCTCGCCGCTTTTTA +GCGGCAAAATCTGGTACGGTACACCGGGTAACGTGTCGGTGCCCGCGCCCGCAGGCAGGCCTTTATCAAA +ACTCCACTGCGCGATGGCATCGTCCCACGGCGTCATTCCTTGCGGATGTGTTAACGGCTGCAATTTACCG +TTGTCATCGGGCAACAACACCTGACTGCGGGCATGAAACGTGGAGGCAATAAATTGTTCGCTGGTGGCAG +CGATATCCTGCGGACTGCGGCCCACCGCCAGAGCTTTCGACATTTCATATAAGTGCCGTGTGCGTTGCTC +GCGGTAACGGGCTACCCGCGCCTGATAACGCACGCCAGCAGTAAGGTTCCCGATCACCAGCCCGACGGTT +AACATCACCGCGAAGGTCAGCAGATATTGCACATCAGAGACGGCGAGCGTGCCGCGTGGGGCGATAAAAA +AGAGATCGAAACTCACTACATTAATGACGGTGGCAACCACTGAAGGCCAGCGTCCATAAAATAGCGCCAC +CACCACCACGCCAAGCAGATACAGCATCACCAGGTTGGCGGCATCAAACGCCATCAGCCACTGCATGGCA +ATTAAGGTGATAACGGCGCATAACGCGGCGGCAACCACGCATCCCTGAATTTGTACACGCCACTTGTCTT +TAAAAGAGCGGTTATCCGGCGCGTTGTTAATCGTGCGGGCGGGTGGTTCATCAAGCGCGACCAGCACCTG +ATCGAGATCGGGGGCGATGCGCGCCAGTCGGTCAGCAAACGTTTCCCGACGCCACCAGCGGCGCGAGGCC +GGGCGACCGAGAATAATCTTGCCGAGATTATGTTCACGGGCATAACGCACTACCGCTTTCTCTTCCGCTG +GATCAGAAAGTGTTGCCGTCTCCGCGCCCAGTTCCTGCGCCAGACGTAAGGCGCTGAGAATTGCCCGACG +TTTTTTTTCCGGTAAGCGGTGCAGGGCAGGGGTTTCAACATACACCGCGTGCCAGACGCTACCCAGCCGT +GACGCCAGCCGCGCCGCTGCGCGGACCAGTTTTTCGCTGCCGGTGTTATGGCCGATGCATAAAAGGATCG +CGTCGCGCGTGTGCCACACTTTCTCTTCGCCAGGATGCCCCCGCCAGGCGCGCATTTGCTCATCAACGCG +ATCGGCAGTACGGCGCAGTGCCAGTTCGCGCAGGGCGATCAGATTACCTTTGCGGAAAAAATGTTCAATG +GCGCGCTCCGCCTGCCCGGCAATATAGACTTTGCCTTCTTTCAGCCGCTGGCGCAGATCGTCCGGGGGCA +AGTCCACCAGCACCACGTCGTCGGCGGCATCGAAAAAAGGATCGGGCACGGTTTCCCGTACCTGAATTCC +GGTGACGCCGCTGACCACATCATTCAGACTTTCCAGATGCTGAACGTTGACGGTAGTGAAAACATCAATG +CCAGCTTCCAGCAGTTCTTCGATATCCTGCCAGCGTTTGGGATGACGGGAACCTGGCGCATTACTGTGCG +CCAGTTCGTCCATTAAGATCAGCGCCGGGCGGCGGGCGAGGGCGGCATCGAGATCAAACTCGCTGATATG +CCGCCCACGGTACGCCTGGCGTTTTAACGGCAGAACAGCCAGCCCTTCCAGCATGGCGGCGGTATCTTTT +CGCCCGTGGGTTTCTACCACGCCAACCACAATATCCAGCCCTTGCGCCCGCAGTCGCTGGGCTTCTGCCA +GCATCGCCCAGGTCTTCCCGACGCCTGCACAGGCACCGAAGAAAACTTTCAGCTTCCCCCGATGCGGCGC +GGCAGTTTGTTCCAGCAGACGATCGGGGTCGGGACGTAAGGGTTCGTTATTCATCAAGTTTATCCAGCGC +CAGATTGAGTTCAACAATGTTGACAACCGGCTGGCCGATATATTTCACCAGCGGTTGTTGGCTGTATTTT +GCGATCAGTTGCGTGAGCTGTTCAACGCTGAGATTACGCGCTTTCGCCACGCGTGGGATTTGCCAGGCCG +CCGCTTGCGGGGTGATATTATTGTCCAGCCCGCTTGCCGATGCCGTCACCAGTTCAACCGGAACGCTCGC +GCTGGCATCCGGGTTAGCGGCCCGTAATGCAGCAACGCGTGCGGCTATTAGTTTATCCAGCTCAGGGTTA +CTGACCGCCAGATTGCTCCCGCCAGAAGCCTGTGGATTATAGGGCATTTCTGCCGTTGCCGACGGGCGAC +CATGAAAATAGCCGTTGCCGGTAAAATTCTGCCCGATTAATGCCGAACCGCGCACCGTATCACCTTCACG +AATCAACGAACCATTGGCCTGCCAGGGAAACCACCATTGCCCCAGTACGGTGGTCAGCAGCGGGTAAACG +CCGCCAGTAATCAATAACAGAAAGATAAATGTTGATAATGCCGGACGTAATCCACTCATGGTAAACCTCA +CACCAGACCGCAAACGGTCAGCAGTAAATCAATGACTTTGATACCGATAAACGGCACCAGCAGCCCACCC +AGACCGTAAATCCATAAGTTACGGCGCAACATGGCAGAAGCGGTAAGCGGTTTATAACTCACGCCTTTTA +ACGCCAGGGGAATCAAAAAGACGATAATCAAGGCGTTGAAAATCACCGCACTGAGGATTGCGGAGTCGGG +CGAATGCAGGCACATGATGTTCAGCGCATTTAACTGCGGATACGTTGCCGCGAATGCCGCCGGAATAATG +GCGAAGTATTTCGCCACATCGTTGGCAATGCTGAAGGTGGTCAGCGAGCCACGGGTCATCAGCATCTGTT +TGCCAATGTGCACCACCTCGATCAACTTGGTCGGGTTAGAGTCGAGATCGACCATATTGCCCGCCTCTTT +CGCCGCCTGGGTGCCGGAGTTCATCGCCACCGCGACATCTGCCTGCGCCAGCGCCGGAGCATCGTTGGTG +CCGTCGCCGGTCATCGCTACCAAACGACCTTCCGCCTGATACTGACGGATCAATGCCAGCTTGGCCTCCG +GTGTCGCTTCGGCGAGAAAATCATCGACACCCGCTTCCGCAGCAATCGCGGCGGCAGTCAGACGGTTATC +GCCGGTAATCATCACCGTTTTAATGCCCATTTTGCGCAGCTGGGCGAAGCGCTCTTTAATACCGCCTTTG +ACGATATCTTTCAGCGCAATAACGCCCAGCACACGAGAACCTTCCACCACCACCAGCGGCGTGGCTCCCT +GACGCGCAACCTGATCGACTTTTTGATCAACATCGGTAGGGAAGTGACCACCGTTAGCCTCAACATGGCG +ACGAATGGCATCGACAGAACCTTTACGGATCATGCGGTTGTCGATGTTGATCCCGCTCATCCGGCTTTGC +GCAGTAAACGGTACAAAGGTGGCATGGAGCGACTGCACATCGCGCTCGCGCAGGTTAAAACGCTGCTTGG +CGAGGATCACAATACTGCGGCCTTCCGGCGTTTCATCAGCCAGCGAAGCCAGTTGTGCGGCGTCAGCCAG +CGTTTTTTCATCCACGCCCTGCGCGGGGATAAACTCCGACGCCTGACGGTTACCGAGTGTGATGGTGCCG +GTTTTATCCAGTAGCAGAACGTCAACGTCACCTGCCGCTTCAACTGCACGTCCGCTGGTGGCAATCACAT +TCGCGCCTAGCATCCGGCTCATCCCGGCGACGCCGATCGCTGACAACAGGCCGCCAATAGTGGTTGGGAT +CAGACAGACCAGCAGCGCCACCAGTACCGTTACGCTGACTGCATTACCGCCCCACGCGGAAAACGGCCAC +AGCGTGGCGGTTGCCAGTAAAAAGACGATAGTCAGGGCAATCAGCAGAATGGTCAGGGCAATTTCGTTCG +GCGTTTTGCGTCGCTGTGCGCCTTCCACCATCGCGATCATCCGATCCAGAAATGTCTCGCCGGGGTTAAC +GCTACACTCAATCACCAGCCAGTCAGAAAGAATACGCGTGCCGCCGGTGACGGAGGCAAAATCGCCGCCG +GATTCACGGATCACCGGTGCCGATTCCCCGGTGATGGCGCTTTCATCGACCGATGCACCCCCTTCAATAA +CTTCACCATCGCAGGGGATAATATCGCCAGCTTCTACCAGTACGATATCGCCTTTACGAAGTTGGTCGGC +AGGAACTTTGTCCGCCGCAGCGCCATATTTCGGCTCACGCAGCTTGCGGGCAAAGGCAGTTTTTTTCACC +CCTTTCAGACTGTTGGCCTGCGCTTTACTGCGGCCTTCTGCCAGCGCCTCGGCGAAATTAGCGAACAGTA +CGGTGATCCACAGCCAACCGCTAATGGCCGCGCTAAACAGCGCATTGCCGGGCATCGCACCGCTTGCCAT +CGCGATGCTAATACAGGTGGTCAGCAGACTGCCGATCCAGACGATAAACATCACCGGATTGCGCCATTGC +GCCTGCGGGTTTAATTTTTTCACCGCTTCTTTCAGCGCCTGAACGACAAGTGTTGGTTCGAATAGCGCCA +GTTGTTTACGACTCATATTCAGTGCTCACTCAATATCATCAGGAGAGATATTCCGCCACCGGACCAAGCG +CCAGGGCAGGGATAAAGGTCAGTGCGCCAACCAGCAACACGGTGCCGATTAACAGGCCAACAAACAGCGG +GCCGTGCGTTGGCAGCGTGCCGGAGCTGGCGGCTTGGCTCTTTTTACTCACCAGCGAACCGGCAATTGCC +ATCACCGGGATAATCACCCCGAAGCGACCGACAAACATGCAGAACGCCAGTAAACAGTTCCAGAACGGAG +AGTTGGCGCTTAATCCGGCAAAGGCGCTGCCGTTGTTGTTAGCGGCGGATGACACGGCGTACAGCACTTC +GCTAAAACCATGCGGGCCAGGGTTGAGCATGGCGCTACGTCCGGCGTCGGTCATCATCGCCAACGCCGCG +CCCATCAGCACCAGCGTCGGGGTAACCAGAATTGCCAGTGCAGTCAGTTTCATCTCGCGTACGTCGATTT +TTTTACCCAGATATTCCGGTGTACGACCAATCATCAGCCCGGCAATAAACACCGCCAGCAGGACAAACAG +CATCATGCCGTAAAGACCAGAACCGACACCGCCGAACACCACTTCACCAATTTGCATCAGCCACATCGGC +ACCATGCCACCGAGAGCGGTAAACGAATCATGCATCGCAATCACCGCGCCACAGGAAGCCGCCGTCGTCA +CGACCGCAAACAGGCTACTGACCAGCACGCCGAAACGGCTCTCTTTACCTTCCATATTGATGCTGCTGTC +CGTGCCCAGTGCCAGCAGATGAGGATTACCCTGAACTTCTGCCCACATCACCACGCCTACGCAGATGACA +AAAATCACTGACATCGCCCACAGCAACATGCGCCCCTGGCGGCGATCGCCCATCACTTCACCAAAGGCAA +AGCACAGCGCCGTTGGGATCAAGAAGATCGCCAGCATCTGCACGAAGTTGGTCAGTGCGGTTGGGTTTTC +AAACGGATGCGACGAGTTGGCATTAAAGAAGCCACCGCCGTTAGTACCGAGCATCTTGATCGCTTCCTGA +GAAGCTACAGGCCCCATGGGTAACAGCTGTTGCGCTCCTTCAACGGTATTCACAGCCTGATAAGGCAGAA +AGTTTTGCAGCGCACCTTGTTGAATAAAAAACAGTGCAATCAACAACGCCACAGGGACTAGCACCCATAA +CGTGATGCGTAGCAGATCGACCCAGGCATTCCCGAGCGTGCTCATGCTCTGGCGGGTAAACGCACGGATG +AGGGCAAAAATCACCGCAATCCCGCTGGCGGCAGAAAGAAAGTTTTGCACCGTTAAGCCCGCCATCTGGC +TGAAATAGCTCAACGTGGTTTCACCGCTATAAGATTGCCAGTTGGTATTGGTGACAAAGCTGACGGCGGT +ATTCAGCGCCAGATCCCACGACAGCCCTGGCAACTGCTGTGGATTAAGCGGCAGATAGTGCTGACCGAGC +AACATAAAAAACAGCACCGCCAGCCCCAGCATGTTCAGGCCGAGAATGGCACAAAGATATTGCTTCCAGT +TCATCTCACGGTCAGAGACGCCAAGTGCGCGAAAAAGTACGCGCTCAACGCCCGTTGTACCGGGAAGAGG +AATGTCATTAATCAGCCGCGCCAGCCCGCTGCCTAAAGGACGCGCCAGCACCATTAACACCAGTAAAAAC +GTGGCGATCAGTAAGAACCCTTGCGCAGCCATCAGAACGCCTCCGCATTGATCAGGGCATAAACCAGATA +ACCCAGTAATAAAAACACCAGCAATACGCCGGTTATCACGCCTGCACTCACAGTGCACCTCCAGTGGCCT +AAAAGTGATACCGGAAGGGTAGAATTCTGGCTGCAAAGATTTCGCAAAAATCTGCGGGCGGGGTGTAAAA +AAAGTATAAAAATGGCAAAAGCCATGATTTAACTAATGTTTAGTATTAATTTAACTTTTGTGTAACTTAA +TTACAGGATGAATGTAAATAAACCATCAATAAGCAAAAATAAGTGGTCGGATGAGTAGTAAAATTACACA +AAAGGCGGTACTATTTTCATCAGATAAACAAATTCATTTTTCCGGTGCCATTCACCGGGTAGATACAAAA +GGGGGAGAAAAGTATGGAACTCTACAGAGAATATCCTGCATGGCTTATCTTTTTACGCCGTACTTATGCG +GTTGCAGCGGGCGTTCTGGCGCTGCCTTTCATGCTTTTCTGGAAAGACCGCGCCCGCTTTTACAGCTACC +TGCATCGCGTCTGGTCGAAAACCAGCGATAAACCGGTGTGGATGGATCAGGCCGAAAAGGCAACTGGTGA +TTTTTATTGATTGCTGAGTTTTGAATACATTGAAAACCGCCAGCGGAAACGCTGGCGGTTTTTTGTATCA +GGAAGATGTTCAGAGGAATATTTAGACATCGTTATACCAATCGAAACATATATTCATGAAATATATATAA +ATATTTTCCTAATTGTTCTTATCTGACAGATATCTCACTTAAGGCTTTCTTATAAATCTGTAGGGTTTCG +CCTGTCAGCAGACAAATAACCCGATAAAACAAGGATGAGCAGATGAGCGGAAAACCGGCGGCGCGTCAGG +GCGACATGACGCAGTATGGCGGTAGCATTGTCCAGGGTTCAGCCGGGGTACGCATCGGTGCCCCCACCGG +CGTGGCCTGTTCGGTGTGCCCCGGCGGGGTGACGTCCGGCCATCCGGTCAATCCGCTGCTCGGTGCAAAG +GTCCTTCCCGGTGAAACCGACATCGCCCTGCCCGGCCCGCTGCCGTTCATTCTCTCCCGCACCTACAGCA +GTTACCGGACAAAAACGCCCGCGCCGGTGGGGAGCCTCGGCCCCGGCTGGAAAATGCCTGCGGATATCCG +CTTACAGCTGCGCGATAACACACTGATACTCAGTGATAACGGCGGCAGAAGCCTGTATTTTGAGCACCTG +TTTCCCGGTGAGGACGGTTACAGCCGCAGCGAGTCACTGTGGCTGGTGCGCGGCGGCGTGGCGAAACTGG +ATGAAGGTCACCGGCTGGCCGCACTCTGGCAGGCGCTGCCGGAAGAACTCCGCTTAAGTCCGCATCGTTA +TCTGGCGACAAACAGTCCGCAGGGGCCGTGGTGGCTGCTCGGCTGGTGTGAGCGGGTGCCGGAAGCGGAT +GAGGTGCTGCCTGCGCCGCTGCCGCCGTACCGGGTACTGACCGGGCTGGTGGACCGCTTCGGGCGCACAC +AGACGTTCCACCGCGAAGCCGCCGGTGAATTCAGCGGCGAAATCACCGGCGTGACGGATGGTGCCGGGCG +TCACTTCCGGCTGGTACTGACCACGCAGGCGCAGCGGGCAGAAGAAGCCCGGCAGCAGGCCATTTCCGGC +GGGACGGAACCGTCCGCTTTTCCTGATACCCTGCCGGGTTACACCGAATATGGCCGGGACAACGGCATCC +GTCTGTCTGCCGTGTGGCTGACGCACGACCCGGAATACCCGGAGAATTTACCTGCCGCGCCGCTGGTGCG +CTATGGCTGGACGCCCCGCGGCGAACTGGCGGCGGTGTATGACCGCAGCAATACACAGGTGCGCAGCTTT +ACTTACGATGATAAATACCGGGGCCGGATGGTGGCGCACCGTCACACGGGCCGACCGGAAATCTGTTACC +GTTACGACAGCGACGGGCGGGTGACAGAACAGCTAAACCCGGCAGGCTTAAGTTACACGTATCAGTATGA +GAAGGACCGCATCACCATCACCGACAGCCTGAACCGCCGTGAAGTCCTGCACACGCAGGGTGAAGGCGGG +CTGAAGCGGGTGGTGAAAAAGGAACACGCGGACGGCAGCGTCACGCAGAGTCAGTTTGACGCGGTGGGCA +GGCTCAGGGCACAGACGGATGCCGCAGGCAGGACAACAGAATACAGTCCGGATGTGGTGACGGGCCTCAT +CACGCGCATCACCACGCCGGATGGCAGGGCATCGGCGTTTTACTATAACCACCACAGCCAGTTAACGTCA +GCCACCGGGCCTGACGGGCTGGAAATACGCCGGGAATATGATGAATGGGGCCGTCTGATTCAGGAAACTG +CCCCTGACGGCGATATCACCCGCTACCGTTATGATAATCCACACAGTGACTTACCCTGCGCAACGGAAGA +TGCCACCGGCAGCCGGAAAACCATGACGTGGAGCCGTTACGGTCAGTTGCTGAGCTTCACTGACTGTTCC +GGTTATGTAACCCGCTATGACCATGACCGTTTTGGTCAGGTGACGGCGGTGCACCGCGAGGAAGGGCTGA +GTCAGTACCGCGCATACGACAGCCGTGGACAGTTAATTGCCGTGAAAGACACGCAGGGCCATGAAACGCG +GTATGAATACAACGCCGCCGGTGACCTGACCACCGTCATTGCCCCGGACGGCAGCAGAAACGGGACACAG +TACGATGCGTGGGGAAAAGCCATCTGTACCACGCAGGGCGGTCTGACGCGCAGTATGGAATACGATGCTG +CCGGACGGGTCATCCGCCTGACCAGTGAAAACGGCAGCCACACCACCTTCCGTTACGATGTACTCGACCG +GCTGATACAGGAAACCGGCTTTGACGGCCGCACACAGCGTTATCACCACGACCTGACCGGCAAACTTATC +CGCAGCGAGGATGAGGGGCTGGTCACCCACTGGCACTATGACGAAGCAGACCGCCTCACGCACCGCACCG +TGAATGGCGAAACCGCAGAGCGGTGGCAGTATGACGAACGCGGCTGGCTGACAGACATCAGCCATATCAG +CGAAGGGCACCGGGTGACGGTGCACTATGGTTATGACAGTAAAGGCCGCCTCGCCAGTGAACACCTGACG +GTGCATCATCCGCAGACGAATGAACTGCTCTGGCAGCATGAGACCAGACATGCGTACAACGCACAGGGAC +TGGCGAACCGCTGTATACCGGACAGCCTGCCCGCCGTGGAATGGCTGACCTACGGCAGCGGCTGGCTGTC +AGGCATGAAACTCGGCGACACACCGCTGGTGGAGTACACCCGCGACCGCCTGCACCGGGAAACGCTGCGC +AGCTTCGGCCGTTATGAACTCACCACCGCTTATACCCCTGCCGGGCAGTTACAGAGCCAGCACCTGAACA +GCCTGCTGTCTGACCGCGATTACACCTGGAACGACAACGGCGAACTCATCCGCATCAGCAGCCCGCGCCA +GACCCGGAGTTACAGCTACAGCACCACCGGCAGGCTGACCGGCGTTCACACCACCGCAGCGAATCTGGAT +ATCCGCATCCCGTATACCACAGACCCGGCAGGTAACCGCCTGCCCGACCCGGAGCTGCACCCGGACAGCG +CCCTCAGCATGTGGCCGGATAACCGTATCGCCCGTGACGCGCACTATCTTTACCGGTATGACCGTCACGG +CAGGCTGACAGAGAAAACCGACCTCATCCCGGAAGGGGTTATCCGCACGGATGATGAGCGCACCCACCGG +TACCATTACGACAGTCAGCACCGGCTGGTGCACTACACGCGGACACAATATGCAGAGCCGCTGGTCGAAA +GTCGCTATCTTTACGACCCGCTGGGCCGCAGGGTGGCAAAACGGGTATGGCGGCGTGAACGGGACCTGAC +GGGCTGGATGTCGCTGTCACGGAAACCGCAAGTGACCTGGTACGGCTGGGACGGCGACCGCCTGACCACG +ATACAGAACGACAGAACCCGCATCCAGACGATTTATCAGCCGGGGAGCTTCACGCCACTCATCAGGGTTG +AAACCGCCACCGGTGAGCTGGCGAAAACGCAGCGCCGCAGCCTGGCGGATACCCTTCAGCAGTCCGGTGG +CGAAGACGGTGGCAGTGTGGTGTTCCCGCCGGTGCTGGTGCAGATGCTCGACCGGCTGGAAAGTGAAATC +CTGGCTGACCGGGTGAGTGAGGAAAGCCGCCGCTGGCTGGCATCGTGCGGCCTGACGGTGGCGCAGATGC +AAAGCCAGATGGACCCGGTATACACGCCGGCGCGAAAAATTCACCTGTACCACTGCGACCATCGCGGCCT +GCCGCTGGCCCTTATCAGCACGGAAGGGACAACAGCGTGGTACGCAGAATACGATGAATGGGGTAACCTG +CTGAATGAAGAGAACCCGCATCAGCTGCAGCAGCTTATCCGCCTGCCGGGGCAGCAGTATGATGAGGAGT +CCGGCCTGTATTACAACCGCCACCGCTATTATGACCCGCTGCAGGGGCGATATATCACTCAGGATCCGAT +TGGGCTGAAAGGGGGATGGAATTTTTATCAGTATCCGTTGAATCCGATCTCAAATATAGATCCATTAGGA +TTAGAAACACTAAAATGCATTAAGCCACTGCATTCAATGGGCGGAACTGGTGAAAGAAGCGGTCCAGATA +TATGGGGGAATCCGTTCTATCATCAATATCTTTGTGTCCCAGATGGTAAAGGGGACTATACTTGTGGTGG +CCAAGACCAACGGGGAGAATCAAAAGGAGATGGTCTATGGGGGCCAGGTAAAGCAAGTAATGATACAAAA +GAAGCTGCTGGCCGTTGTGACCTCGTTGAAACCGATAATAGTTGTGTGGAGAACTGTTTAAAAGGGAAGT +TTAAAGAGGTAAGGCCGCGTTATTCTGTATTGCCTGATATATTCACACCTATAAATTTAGGGCTATTTAA +AAACTGCCAAGACTGGTCTAATGATTCTTTAGAAACATGTAAGATGAAGTGCTCCGGAAATAACATTGGA +CGTTTTATTAGATTTGTATTCACCGGAGTGATGTAATGAAATATATTATTTTTTTATTCAGAGCTATATG +GCTGGCTTTATCGCTTTTAATACTATTCTTTTCCATGCATAGACTTTCACTATTAGACTCCACTCGTGAT +GTGAGCGAGTTAATTAGTCTCATGTCTTATGGAATGATGGTAATATGTTTTCCAACAGGCATAGTATTCT +TTATTGCTCTAATATTTATAGGGACTGTATCAGACATTATTGGCGTAAGGATTGATAGTAAGTATATTAT +GGCGATAATAATATGGCTTTATTTTCTGTCAGGAGGGTATATTCAATGGTTTGTATTAAGTAAGCGCATT +ATAAACAAATAAATTAAGTTAATTGCTCTTATTATTATATGTAACCTGGGCATTGATATCCCGTATGCCA +CAGACCCGGCAGGTAACCGCCTGCCCGACCCGGAGCTGCACCCGGACAGCACCCTCAGCATGTGGCCGGA +TAACCGTATCGCCCGTGACGCGCACTATCTTTACCGGTATGACCGTCACGGCAGGCTGACGGAGAAAACC +GACCTCATCCCGGAAGGGGTTATCCGCACGGATGATGAGCGCACCCACCGGTACCATTACGACAGTCAGC +ACCGGCTGGTGCACTACACGCGGACACAATATGCAGAGCCGCTGGTCGAAAGCCGCTATCTTTACGACCC +GCTGGGCCGCAGGGTGGCAAAACGGGTGTGGCGACGTGAACGGGACCTGACGGGCTGGATGTCGCTGTCA +CGGAAACCGCAAGTGACCTGGTACGGCTGGGACGGCGACCGCCTGACCACGATACAGAACGACAGAACCC +GCATCCAGACGATTTATCAGCCGGGGAGCTTCACGCCACTCATCAGGGTTGAAACCGCCACCGGTGAGCT +GGCGAAAACGCAGCGCCGCAGCCTGGCGGATACCCTTCAGCAGTCCGGCGGCGAAGACGGTGGCAGTGTG +GTGTTCCCGCCGGTGCTGGTGCAGATGCTCGACCGGCTGGAAAGTGAAATCCTGGCTGACCGGGTGAGTG +AGGAAAGCCGCCGCTGGCTGGCATCGTGCGGCCTGACGGTGGAGCAGATGCAAAACCAGATGGACCCGGT +GTACACGCCGGCGCGAAAAATCCACCTGTACCACTGCGACCATCGCGGCCTGCCGCTGGCGCTTGTCAGC +ACGGAAGGGGCAACAGAATGGTGCGCAGAATACGATGAATGGGGCAACCTGCTGAATGAAGAGAACCCGC +ATCAGCTGCAGCAGCTTATCCGCCTGCCGGGGCAGCAGTATGATGAGGAGTCCGGCCTGTATTACAACCG +CCACCGCTATTATGACCCGCTGCAGGGGAGGTATATCACTCAGGATCCGATTGGGCTGAAGGGGGGATGG +AATTTTTATCAGTATCCGCTGAATCCGGTTCAGTATATAGATTCAATGGGACTGGCATCAAAATATGGAC +ACTTAAATAATGGCGGATATGGAGCGAGACCCAACAAACCGCCTACGCCCGATCCAAGTAAATTGCCGGA +CATAGCGAAACAATTAAGACTGCCATATCCTATTGACCAGGCCAGTAGTGCGCCTAATGTTTTCAAAACA +TTCTTCAGAGCATTAAGCCCTTACGACTACACACTGTATTGCAGGAAGTGGGTAAAACCAAATCTGACTT +GTACGCCACAGGATGATTCCCAGTATCCAGGGATGGATACAAAGACAGCAAGTGATTACCTGCCACAGAC +AAATTGGCCAACAACTCAATTACCACCAGGATATACTTGTGCAGAACCCTATTTATTCCCAGACATTAAT +AAACCCGATGGGCCAGCAACAGCAGGGATAGATGATTTGGGTGAAATTTTAGCTAAGATGAAACAGAGAA +CATCGAGAGGAATAAGAAAATGAAAAGAGTTTTGTTCTTTTTGCTGATGATATTTGTTAGTTTTGGTGTT +ATAGCTGATTGCGAAATACAAGCTAAAGATCATGATTGTTTTACTATTTTCGCTAAGGGTACTATTTTTT +CCGCGTTTCCTGTCTTAAATAATAAAGCCATGTGGAGATGGTATCAGAATGAGGACATCGGTGAGTATTA +TTGGCAAACAGAACTGGGTACATGTAAAAATAATAAATTCACACCAAGCGGGGCGAGACTCTTAATTCGC +GTCGGGTCACTACGCCTTAATGAAAATCATGCCATCAAAGGAACGTTGCAGGAGTTGATAAATACAGCAG +AAAAAACGGCGTTTCTCGGCGATCGGTTTAGAAGTTATATAAGAGCGGGTATCTATCAAAAAAAGAGCAG +TGATCCAGTTCAGTTGTTGGCAGTCCTTGATAATTCAATCATGGTAAAATATTTTAAAGATGAGAAACCA +ACTTATGCTCGAATGACAGCACATCTCCCGAACAAAAATGAGTCTTACGAATGTTTAATAAAGATACAGC +ATGAACTAATTCGTAGTGAAGAGAAATAAAATCTCTTCCTGAGAAAACAAATTAATCATTGTGAAAAATT +ATATAACTCATGGAATAGGTGTTTATTTTGCGTTCCATTTGCAGGGAAAGATCACGTAACGCTACTTTTT +TGTACTAAATAATTCGAATTTTAAGTTCAACAATTGAGATACTACTTATTGTCTAAAGCTGTTTTTCATA +GCTTATACATGATCAAATACTCCTTACATAAATAAGGTGAACAAATGGAACTTAAAAAATTGATGGAACA +TATTTCTATTACACCCGATTACAGACAAGCCTGGAAAGTGGTGCATAAATTGTCAGATATTCTACTGTTG +ACTATTTGTGCCGTTATTTCTGGTGCAGAAGGTTGGGAAGATATAGAGGATTTCGGGGAAACACATCTCG +ATTTTTTGAAGCAATATGGTGATTTTGAAAATGGTATTCCTGTTCACGATACCATTGCCAGAGTTGTATC +CCAGGGAAAGATCACGTAACGCTACTTTTTTGTACTAAATAATTCGCATTTTATGTTTAAAAATTGAGAT +ATTCCTTATTACCTAAAGCTGTTTTTCATAGCTTATACATGATCAAATACTCCTTACATAAATAAGGTGA +ACAAATGGAACTTAAAAAATTGATGGAACATATTTCTATTATTCCCGATTACAGATAAGCCTGGAAAGTA +GAGCATAAATTGTCAGGCATCCTACTATTGACTATTTTTGCCGTTATTTCTGGTGCAGAAAGTTGGGAAG +ATATAGAGGATTTCGGGGAAACACATCTCGATTTCTTGAAGCAATATGGTGATTTTGAAAATGGTATTCC +TGTTCACGATACTATTGCCAGAGTTGTATCCTGTATCAGTCCTGCAAAATTTCACGAGTGCTTTATTAAC +TGGATGCGTGATTGCCATTCATCAAATGATAAAGACGTCATTGCAATTGATGGAAAAACGCTCCGGCACT +CTTATGACAAGAGTCGCCGCAGGGGAGCGATTCATGTCATTAGTGCGTTCTCAACAATGCACAGTCTGGT +CATCGGGCAGATCAAGACGGATAAGAAATCCAATGAGATCACAGCTATCCCTGAACTTCTTAACATGCTG +GATATTAAAGGAAAAATCATCACAACTGATGCGATGGGTTGCCAGAAAGATATTGCAGAGAAGATACAAA +AACAGGGAGGTGATTATTTATTCGCTGTAAAAGGAAACCAGGGGCGGCTTAATAAAGCCTTTGAGGAAAA +ATTTCCGCTGAAAGAATTAAATAATCCAGAGCATGACAGTTACGCAATGAGTGAAAAGAGTCACGGCAGA +GAAGAAATCCGTCTTCATATTGTTTGCGATGTCCCTGATGAACTTATTGATTTCACGTTTGAATGGAAAG +GACTGAAGAAATTATGCGTGGCAGTCTCCTTTCGGTCAATAATAGCAGAACAAAAGAAAGAGCCAGAAAT +GACGGTCAGATATTATATCAGTTCTGCTGATTTAACCGCAGAAAAGTTCGCCACAGCAATCCGAAACCAC +TGGCACGTGGAGAATAAGCTGCACTGGCGTCTGGACGTGGTAATGAATGAAGACGACTGCAAAATAAGAA +GAGGAAACGCCGCAGAATTATTTTCAGGGATACGGCACATCGCTATTAATATTTTAACGAATGATAAGGT +ATTCAAGGCAGGGTTAAGACGTAAGATGCGAAAAGCAGCCATGGATAGAAACTATCTCGCGTCAGTCCTT +GCGGGGAGCGGGCTTTCGTAATCTTTCCCTGCTTTTTGTACTAAATAATTCGCATTTTATGTTTAAAAAT +TGAGATATTCCTTATTACCTGAAGCTGTTTTTTATTGCTTATACATGATCAAATACTTCTTACATAATTA +AGGAGAACAAAATGGAACTTAAAAAATTGATGGAACATATTTCTATTATCCCCGATTACAGACAAGCCTG +GAAAGTGGAACATAAATTATCGGATATTCTACTGTTGACTATTTGTGCCGTTATTTCTGGTGCAGAAGGC +TGGGAAGATATAGAGGATTTTGGGGAAACACATCCCGATTTTTTGAAGCAATATGGTGATTTTGAAAATG +GTATTCCTGTTCACGATACCATTGCCAGAGTTGTATCCTGTATCTGTCCTGCGAAATTTCATGAGAGCTT +TATTAACTGGATGCTTGACTACCATTCTTCAGATGATAAAGACGTCATCGCAATTGATGGAAAAATACAC +CGGCATTCTTATGACAAGAGTCGCCGTAAGGGAGCGATTCATGTCATTAGTGCGTTCTCAACAATGCACA +GTCTGGTCATCGGACAGATCAAGACGGATAAGAAATCCAATGAGATCACAGCTATCCCTGAACTTCTTAA +CATGCTGGATATTAAAGGAAAAATCATCAAAACCGATGCGATGGGTTGCCAGAAAGATATTGCAGAGAAG +ATACAAAAACAGGGAGGTGATTATTTATTCGCTGTAAAAGGAAACCAGGGGCGGCTAAATAAAGCCTTCG +AGGAAAAATTTCCGCTGAAAGAATTAAATAATCCCAAGCATGACAGTTACGCAATTAGTGAAAAGAGTCA +CGGCAGAGAAGAAACCCGTCTTCATATTGTTTGCGATGTCCCTGATGAGCTTATTGATTTCACGTTTGAA +TAGAAAGGGCAGCTATGGTTAGAAACTACCTGACGTCAGTCCTTGCGGGGAGCAGGCTTTCGTAAATTTG +TCCTGCTACAACAGGATTAACTTCACAAATATCATTTCTCAACGTCTACACTTACTCCTGTAAACCGCTC +AGGAGCAGTAATGAATCTACAACGATTTGATGACAGCACCCTAATCCGTATCTTTGCCCTTCATGAGTTA +CATCGACTGAAAGAACATGGCTTAACGCGCGGGGCGCTTCTCGATTATCACAGCCGCTATAAACTCGTCT +TTCTGGCGCATTCTCAGCCGGAGTACCGCAAACTTGGCCCGTTCGTGGCTGATATTCACCAGTGGCAAAA +TCTGGATGACTATTACAACCAGTACCGCCAACGCGTAGTTGTTTTGCTTTCTCACCCCGCCAACCCGCGC +GATCACACCAATGTTTTGATGCACGTTCAGGGTTATTTTCGCCCGCATATTGATTCCACAGAACGCCAGC +AGCTGGCTGCGCTTATCGACAGTTATCGCCGTGGCGAGCAACCACTTCTTGCGCCGCTGATGCGTATCAA +ACACTATATGGCGCTTTATCCTGACGCCTGGCTTTCAGGGCAGCGTTATTTCGAACTTTGGCCGCGTGTG +ATTAACTTGCGCCATTCAGGAGTTTTATGACTACCCATCTGGTCTGGTTTCGCCAGGATTTACGTCTGCA +CGATAATCTCGCACTGGCTGCCGCCTGCCGCAATTCGTCTGCACGCGTGCTGGCGTTGTATATCGCTACA +CCACGCCAGTGGGCGACGCATAACATGTCGCCGCGTCAGGCTGAACTTATCAATGCTCAACTGAATGGGC +TACAAATAGCGCTTGCGGAAAAAGGTATTCCTTTATTGTTCCGTGAAGTGGATGACTTTGTCGCCAGTGT +CGAAATAGTTAAACAGGTGTGCGCGGAAAACAGCGTTACCCACCTGTTTTATAACTATCAGTATGAAGTG +AATGAGCGGGCGCGGGATGTGGAAGTTGAAAGAGCGCTGCGTAACGTGGTGTGTGAAGGATTTGATGACA +GCGTGATCCTGCCGCCTGGCGCGGTGATGACCGGTAATCACGAGATGTACAAAGTCTTTACGCCTTTTAA +GAATGCCTGGCTGAAACGGCTGCGGGAAGGGATGCCGGAGTGCGTCGCTGCGCCAAAAGTTCGTAGTAGC +GGATCGATAGAGCCCTCGCCATCCATTACGCTGAATTATCCTCGTCAGTCTTTCGATACTGCGCATTTTC +CGGTGGAAGAAAAAGCGGCGATTGCGCAATTACGCCAGTTTTGCCAGAACGGTGCCGGAGAATATGAGCA +ACAACGAGATTTTCCGGCAGTGGAAGGCACCAGCCGTTTGTCGGCCAGCCTGGCAACGGGCGGGTTATCG +CCTCGCCAGTGCTTGCATCGCTTGTTGGCTGAACAGCCGCAGGCGCTGGACGGTGGGGCCGGTAGTGTCT +GGCTTAATGAGCTGATCTGGCGCGAGTTTTACCGTCACCTGATAACGTATCACCCCTCGTTGTGTAAACA +TCGTCCATTTATTGCCTGGACGGATCGTGTACAGTGGCAGAGCAATCCCGCACATTTACAGGCCTGGCAG +GAAGGCAAAACGGGATACCCGATTGTTGATGCCGCTATGCGTCAGCTTAACAGCACTGGCTGGATGCATA +ACAGGCTACGGATGATTACAGCCAGTTTTCTGGTGAAAGATTTATTGATCGACTGGCGCGAAGGCGAGCG +ATATTTCATGTCGCAGCTGATTGATGGTGATTTGGCAGCCAATAACGGTGGCTGGCAGTGGGCCGCTTCA +ACCGGAACCGATGCAGCGCCGTATTTTCGTATTTTCAACCCGACAACCCAGGGCGAGAAATTTGATCATG +AGGGCGAGTTTATCCGCCAGTGGCTACCGGAACTGCGCGATGTGCCAGGGAAAGTGGTGCATGAGCCGTG +GAAGTGGGCGCAGAAAGCAGGTGTGACGCTGGATTATCCGCAACCGATAGTCGAGCACAAAGAAGCGAGA +GTACAAACGTTGGCAGCGTATGAGGCGGCGCGGAAGGGGAAATAACAGACGCGTCAGGCAATCGAGCCCA +GATGCCGGATGCGGCGTGAACGCCTTATCCAGCCTACAAATTTGTGCAAATTCAATAAATTGCAGGAAAT +ACGTAGGCCTGATAAGACGCGTCAAGCGTCGCATCAGGCATCGGTGCTGGCCTATTAAGACTCCAGCGCC +AGCGCGCGGTTTCTGAATTTCAGCGCCTGATACAGCCAAATCATCAGTACCAGTCCTACACACGCCAGTG +CGCCCCAGGTAATTTGATCAAATACTTCAATATATGCATTGATGGAGTAGTTGATCGCCCCGGAAGCATC +AAACGAAGCCTGCGATGTCTGATCGGCAATCACGCCCGCCAGATAGTTCGCGATCGCGCCAGAAAGCAGC +ATGTAGATGCCGGTTAATACGCCGGTCACACCGGGGATTTCAATGCGCGTAATTTGCGACATGGCAACCG +GGTCGATAAACAGTTCCGCAAAGCCCATCACCGCCAGGCCTAATACCATCAGTGGCAGAGAAGAGTGACC +ATACATTGCGGACCAGCGGGCGCTTAAGGTCAGAATGCAGAATCCGGCGCTCATCAGGCCAAGGCCAAGA +GCAAATTTCCCCCAGATGCGCACGGTACGATTACCCGCGACACTCTCTTTTACCACCCACGCCAGGAACA +CACCGCACAGCATAACTGCGAAGGCATTAATCGACTGGAACATCGCGGTCGGAACGGTATAACCAAACAT +ATCGCGGTTAACGAAGCGGTCGATATAAAGGCTAATCGAGCTACCGCCCTGTTGTGCGAAGGCCCAGAAC +AACATACTGAAGAAGGTGAGCGTCACAATCAGCCCCAGCTCCTTCCGCTGTTTCTGGTTTTCTGCTTTGC +GATAAATTTTTGCCAGTACACCCAGGCCAATAATAGTCGCGACAATTAAGGCGTATACCGACCACTCTTT +CCAGAACAGTATGGTAATCAGTGCAGGCGTTGCCACCAGCAGAACCAGCAGCCATCCCCAGTTCGGCAGG +AGAAAGTTTGTCGCACGCAGTACTTTTTTGTTAACGCCGCGGGTATGAGTGAAATGACGATTGCCACATA +AGAAAATGACCAGACCCGCGATCATGCCAACCGCCGCCAGGCCAAAGCCCATCGCCCAGCTGTACTCTTC +CTGGGCGTAACCACAGGCGATAGGTGCGATAATAGACCCCACGTTACCCGCCGCATACATCAGCGAGAAA +CCGCCATCACGACGCGGATCGGTTGGCTCATACAGCTCGCCGAGCAGACAGCTTACGTTAGATTTAAACA +GGCCATAGCCGCAGACGATAATCGCCAGGGACAGATAGAGGAATGACGGATGGATCTCACTGGCACCCAG +CACCACATGACCGATCGCCATCAACAACGCCCCCAGCATCACCGCCATGCGATTGCCGAGAACTTTATCC +GCCAAAAAGCCACCGAGGATTGGCGTGACATACACCAGCGAACAGTAGGCGCTAAATAACTCGTAGGCGT +GAGTATCGTTGTATTTTAGTTGATTGGTGAGATAGAGAATCAGCAGGGCACGCATGCCGTAAAAGCTAAA +ATATTCCCAGATTTGCAGCGCAACGACATAGTAAATAGCGCGCGGCTGTGATGCGTGTTTATTCATAATA +ATTCCACAATTGACGGCAACGTCACGTAATAGTTGCGCGGCGTGCTTGTGTTTCCTTAAAGTTAAAACTT +TGATACAGATCTGATTATTTATGCAATATGCTGTCTGATTGCATAAATATACATTAGCTGAAGCGTGATG +ATATAAACAATTTGCGTCTTTTGGCGTCGGGTTTGTTTCTTAATATGTCAAAAGATTGGCTATCGACGAA +CTGGCGAGGTAACGCTATGTTAACGGTGTAGCTATCAGAATACGGAAGGCGCGAAGATGAAAAACACCGA +ACTGGAACAACTGATTAACGAAAAACTGAACAGCGCGGCGATTAGTGATTACGCGCCGAATGGTTTGCAG +GTGGAAGGCAAAGAGACGGTGCAAAAAATTGTTACCGGTGTCACCGCCAGCCAGGCTTTGCTCGATGAGG +CAGTGCGTCTGGGCGCGGATGCGGTCATTGTGCATCATGGCTACTTCTGGAAAGGAGAGTCTCCGGTCAT +TCGCGGAATGAAGCGTAACCGTTTAAAAACGTTGCTGGCGAATGATATCAACCTGTATGGCTGGCATTTG +CCGCTTGACGCACATCCTGAGCTGGGCAATAACGCACAGCTGGCGGCGTTACTGGGGATCACGGTCATGG +GCGAAATTGAGCCGTTGGTGCCGTGGGGCGAACTGACCATGCCTGTGCCGGGACTGGAGCTGGCTTCCTG +GATTGAAGCGCGTCTGGGACGTAAGCCGTTATGGTGTGGCGATACCGGACCTGAGGTGGTCCAGCGCGTC +GCCTGGTGCACGGGCGGCGGGCAAAGTTTTATCGATAGCGCCGCGCGTTTTGGCGTGGATGCTTTTATTA +CTGGCGAAGTTTCTGAACAGACCATTCATTCAGCCCGCGAGCAGGGATTGCATTTTTATGCTGCAGGTCA +CCATGCCACTGAACGTGGTGGTATTCGCGCATTGAGCGAGTGGCTGAATGAAAATACCGATCTTGATGTG +ACCTTTATTGATATTCCTAATCCTGCATAACGAATAATCAGAGGGATCGAAAGTGCAACGAGCGCGTTGT +TATCTGATAGGTGAAACGGCGGTAGTGCTGGAACTGGAACCGCCGGTGACGCTGGCTAGCCAGAAACGGA +TCTGGCGACTGGCGCAGCGTCTGGTGGATATGCCGAATGTGGTTGAAGCCATTCCCGGCATGAACAATAT +CACGGTGATTTTGCGTAATCCTGAGTCGCTGGCGCTGGATGCCATAGAGCGTTTGCAACGCTGGTGGGAG +GAGAGCGAGGCGCTGGAGCCGGAGTCTCGCTTTATTGAAATTCCGGTGGTTTACGGTGGTGCAGGCGGAC +CGGATTTGGCGGTGGTCGCGGCGCATTGCGGGTTGAGCGAAAAACAGGTTGTTGAATTGCACTCCTCCGT +GGAATACGTGGTCTGGTTTTTAGGTTTTCAACCGGGCTTCCCGTATCTCGGGAGTTTGCCGGAACAACTA +CACACGCCACGGCGCGCTGAACCGCGCTTACTCGTTCCGGCAGGTTCTGTCGGGATCGGCGGGCCGCAGA +CTGGTGTTTATCCGCTGGCAACGCCGGGTGGCTGGCAGTTGATTGGTCATACCTCACTCAGCCTGTTTGA +TCCGGCGCGTGACGAACCCATCTTATTACGTCCGGGAGACAGCGTGCGCTTTGTACCGCAGAAGGAGGGA +GTATGCTGAAGATTATTCGTGCGGGCATGTATACCACTGTGCAGGATGGCGGTCGTCACGGTTTTCGCCA +GTCGGGTATCAGCCACTGCGGCGCACTGGATATGCCCGCGTTACGCATTGCTAACCTACTGGTGGGTAAT +GACGCCAATGCCCCCGCGCTGGAGATCACGCTCGGTCAGTTAACTGTTGAGTTCGAAACTGATGGGTGGT +TTGCTCTGACGGGTGCCGGTTGCGAAGCGCGGCTGGATGATAATGCCGTCTGGACCGGCTGGCGATTGCC +GATGAAAGCAGGCCAGCGTTTAACGCTTAAACGCCCGCAGCACGGGATGCGCAGTTATCTGGCGGTCGCG +GGTGGTATTGATGTTCCGCCGGTAATGGGCTCATGCAGCACCGATCTCAAAGTGGGGATTGGCGGGCTGG +AAGGCCGTTTACTGAAGGATGGTGACCGACTCCCGATTGGCAAATCGAAGCGTGATTCTATGGAAGCGCA +GGGCGTTAAACAGCTGCTGTGGGGCAACCGCATTCGCGCCTTGCCGGGGCCGGAATATCATGAGTTCGAT +CGCGCCTCGCAGGATGCATTCTGGCGTTCGCCCTGGCAGCTTAGCTCGCAAAGTAACCGCATGGGCTATC +GCTTACAGGGGCAAATTTTAAAACGCACCACCGATCGCGAACTGTTATCTCACGGTTTGTTACCGGGCGT +GGTGCAGGTGCCACATAACGGGCAGCCGATTGTGTTGATGAACGACGCACAGACCACCGGTGGTTACCCG +CGTATTGCCTGTATCATTGAGGCTGATATGTACCATCTGGCGCAAATTCCGCTCGGTCAGCCGATTCATT +TTGTCCAGTGTTCACTGGAAGAGGCACTAAAAGCACGGCAAGATCAGCAACGTTATTTTGAACAATTAGC +GTGGCGGCTGCACAATGAAAATTGACCTGAACGCCGATCTGGGCGAAGGCTGCGCCAGCGACGCAGAGCT +ATTAACGCTGGTTTCCTCTGCCAATATTGCCTGTGGATTTCATGCAGGCGATGCGCAAATCATGCAGGCT +TGCGTGCGTGAAGCAATAAAAAATGGTGTCGCGATTGGCGCTCACCCGAGTTTTCCCGACAGGGAAAATT +TTGGTCGCAGCGCCATGCAGCTGCCGCCAGAAACCGTTTACGCCCAGACGCTGTATCAAATTGGCGCGCT +GGCAACGATTGCCCGTGCGCAAGGCGGCGTAATGCGTCATGTCAAACCGCACGGCATGTTGTACAACCAG +GCGGCGAAAGAAGCACAACTGGCAGACGCCATCGCCAGAGCGGTATACGCTTGCGATCCAGCATTGATTC +TCGTCGGGCTGGCGGGAAGCGAGCTGATTCGTGCAGGCAAGCAATATGGTCTGACAACGCGCGAGGAAGT +GTTTGCCGATCGCGGTTATCAGGCTGACGGCTCGCTGGTGCCGCGAAGCCAGTCAGGCGCGTTGATTGAA +AACGAAGAACAGGCGCTGGCGCAAACGCTGGAGATGGTGCAACACGGCAGAGTCAAAAGTATCACCGGCG +AATGGGCAACGGTCGCGGCGCAAACGGTCTGCCTGCATGGCGACGGCGAGCACGCACTGGCGTTCGCCCG +CCGACTACGCTCTGCATTTGCCGAAAAGGGGATTGTTGTCGCAGCATAACCCCGATTAATAAAGAATGAA +AAAAGGATATCACCATGCCTGAAGGCCCGGAGATCCGCCGTGCAGCGGATAACCTGGAGGCGGCGATCAA +AGGCAAACCACTAACTGATGTCTGGTTTGCCTTCCCGCAGTTAAAACCTTATCAATCACAACTTATCGGT +CAACACGTTACCCATGTGGAAACGCGTGGTAAGGCGTTGTTAACTCATTTTTCCAACGACTTAACGCTCT +ACAGCCATAATCAGCTTTACGGCGTCTGGCGCGTGGTTGATACCGGCGAAGAGCCGCAGACCACGCGAGT +ATTGCGGGTAAAACTGCAAACGGCTGACAAAACCATTCTGCTTTATAGCGCCTCGGATATTGAGATGTTG +ACCCCGGAACAACTGACCACGCATCCGTTTTTACAACGCGTTGGTCCCGATGTGCTGGATCCGAATCTGA +CGCCGGAGGTGGTGAAAGAACGATTATTGTCGCCGCGCTTTCGTAACCGTCAGTTTGCTGGATTACTGCT +CGATCAGGCGTTTCTGGCTGGGCTTGGCAATTATTTGCGGGTGGAGATCCTCTGGCAGGTTGGGTTGACT +GGAAATCATAAAGCGAAAGATCTCAATGCGGCGCAACTGGATGCACTCGCACACGCGTTACTGGAGATTC +CTCGATTTTCCTACGCTACGCGGGGGCAGGTGGATGAGAATAAGCATCATGGGGCGCTGTTTCGCTTTAA +GGTTTTTCATCGAGATGGCGAACCGTGCGAACGTTGTGGCAGCATCATTGAGAAAACCACGCTGTCATCT +CGCCCGTTTTACTGGTGCCCTGGCTGCCAGCACTAGGCCGACCGCTTCGGCGCATAGGTTGAAATAAACC +GCGCAATGGCAGGCCCTGTCAGCAAAATACTGAACAGGCGTAGGGTTTGCATCGCCATAATGAGCGCCAT +ATCGGCATTGCTCCCTGCGGCGATGACCGCCACGGTATCAAGCCCGCCGGGGCTGGTGGCGAGGTAGGCA +GTCATAAAATCAATGTGCATAAACCGGGTCAGCCCCCACGCCATACCCGCACAAATAGCCAGCAGAGCAA +AAATCGACAGCAGGATTTGCGGTAGCGGGCGTAGTGCCCGCAGTAAGATTTGTTTATCGAAACCAAGACC +AATCCGCCAGCCAATTGCCATATACGCCATCGCCAGCAGCCATTCCGGTAGTTCGATGGTGATGAGCTGA +CCAGACTGGAGCACTGCGCCCGCCAGCATCGGGATGAGCATCGTGCCGGAAGGAAGACGCAGCAGGCATC +CCACTGTACCGGCAACGACCGCGAGCAAAATAGTAAGCAGGAGATTAATGCTCACTGGCGGGAACCAGAC +GATATGCTGGTTAACCGCTTCAGCGTTATCGCCCAGCATCATGCGGGTGACCAGAACAGCGGCCCCCGCG +ACGAACAGCACTCGCAGATATTGCATAAACGCCACCAGGCGAATATCTGCGCCGTAATCTTGCGCCATAG +CGACCATTGCCGCCGCGCCGCCAGGAGAGGAGCCCCAGGCACCGGTATTTCCAGGCAATGAGCTATAGCG +CACCAATAACCAACCCACAATGGCGCTGGAAAGCAGCGTTACCAGTAAAATTGCAAGCACGATCGGCCAG +TTGACGGCCAGGGTGGTGAGAATCGAACCAGTGAGGTTTTGCGCAATCATGCAGCCAAGAATGGCCTGGG +CGGCGAGAAAAGCAGAGCGGGGAAGTTGCAGAGTAATTCCGCGCATACTAAAGATGATCCCGGCGATCAT +CGGCCCAAGTAATAGCGCCGCCGGGAGATGTACCGCGAGGAAACCAATAGAAAGGAGAAGTGATAGCACA +CATAACATTCCCCACTGCAAAACTGGCATCCTTCGCTCCCTCATTATTTTCTCTTTGGTGTATCGATACA +GCATAAAGAAAGCTGGGCCAGGAAAAAATAACAGCAATCAAGGAAAAGGGGAAAATCAGCAATTTTCTGA +AAGAGATGCCCTTTCCGGCGGCAAAGGGCATCATGGTAAATCAGTTATAGTTAATCTTAAAAAGCACCAC +TGTATCGAAGGGGCCAGCCTCGATGGGGGTGCCTGGAATGGACGAAAGTTCAGCCGTATAGGTTTTTTCG +TAGACCAACATGTCACTGGTGAAATCGGCGTATTCAGCATATTTATTGAAGGTATAAGGCGAGGCGTTTT +CATCCAGTAAACGTAGCTTCAGACCATTACCAATCAACAATGCTTTATCTTCTTCAACCAACGTTTCTTC +GGTATAAAAGGAGGAACTGACTTTAAATCCGTCGGTGCATTGATCGTTTTGGCTCTTGGTCGTTTTAATA +CTGAACGTTTTCGACATTGTGTGGCGACGTATATCCAGCAAATTAAATTTACCAAAATCAATCACCTGTG +TTTCCGGTGAAATGGAAAAATTGACGCTGCAATCCAGCACGCGAATGTTTTCCAGACCAGTAATATGATA +TTTCAGGTTTTGGGCAGTAGGGTCTTCGTTAACGCTACCGGCACCGTCAAATTGCACGACGATATAGTCG +CTAAGCGTACTTTGATAATCATGCGGCGGCATTTCTCGTATTTTGACGTATAACCGCATGCGAGCGAGAA +AGGTACGCGACATATGAATATTAGCGGGATCGCCCGAGCAAATTTTGTTCTGCCATCCCATCGCGATGAT +CTGCTCAGGGGTATAAATATCAATGTTCTTACTGTCGATACACTGGTTAGTGTCGATGCGACTTTTTCCC +AGACTGGCATCGTAATCGACACCGTTGTATGTCACGCCGAGTTGATAATAACGATCCTGCACCCCCGGAT +AGGGGTTTACCCAGGCGTAGACATGCTCGCTTTCAAAGTTGCCGTTGGTATTGTTGTCACAATAGACGGG +AATTTTAATATCGTCAGATTCCCAGATCTTATCACCGGGTTTGGCATTGCCTGGTACAGCAAACGGTTGA +ATCGCTTCTGATTTTTCTACTGCGCCACCAGATGTACCAAAATAGCAGTTCAGCGCCATTGCAGACTTCA +ACGGCAGAAATAACAGGCAGATGACGAGCAACAATCCCTTGCCAGCACTCATTTCGCCTCCACTGCTTGT +AAACGGCATTGTCCGCTGCAGTTGAGCGTCGTCATGCGTAATGCGCCGTAATCATCCATGTAACCGAGAT +AAAACTGGCTGCCGCTATAACTTCCGGTGTTTGTGTTGACCGTACTAAAAGGTGCAACCATCACGGTTTT +GAAGCCTGGGAGAACGCCTTTTTCATTTCTCCCCAGATAGGCAATGGTCAGATAATACGCGGTAGGATTT +TTCAGTGTCAGTTGGTTGCCCTGCTGGCTGACCTGTAACTGCAGTTCGACCTTTTCTCCTGCTTTCTTGC +GTAATGCAGCCGGTCGCCAGAACAATTTAATACGACTTTGAATAGCGACCTGAAGTATCGCATGGTCGCT +GCTTTTATCCGGAGCGGGAGGAATTTCGCGCATATTGTAGAAAAATAGCGTTTCGCGATCGCCAGGTAAT +TGTGTGGTTGAGGCTTGTTTCACAACCCGCACCTGCGATGTCGCTTTCGGTTCCAGACGTTGAATAGGGG +GCAAAGCGACCAGAAGAGCATCGCTTTTCTCCCCTTTTTCATTTTCTATCCAGGAATAAGCAAGATAAGG +CAGTTTGTCACTTTGGTTTTCGATACGCAGGCTGGTGGCTTTGTCATTGGCGTTAAACACAATGCGTGTG +CGATCGGGTTGCACCGCAGCATTGCAACCCAAGCTGATGGTTAACAACATTAAGGGTAATCCTTTAATAA +ATGTCATTCTCTTTTCCTTAATTAATGACAAGGTAAAATCAGGCGTTTGGTCGTGTCTTCCAGACGTTCT +GGCAGATGAATAATGCAGCTTTGCTCACCCCAGACCACGGTAAACAGTTGATTTTCAGCGACACCGCTTA +ACCAGGCATGTCCTTCCTCGCCAACCATACCCACGCTAATGCCGCTGTCATCCTGGCGGATATCCGCACC +GAGGGGAGGGAACTGACCGCTGGCGTTGCGTATGATGACGTTAACGTCTTTACCGGAACGGGAAGCCAGT +GATTTGTAACCTATCGCGCCTTCAATCCATGTTTCCTTGATGACGTTTTCTGCAACTGTTACGCCGTCGG +GTAAGTCATTCATGTTCACCGCCACGGTGGAAGGCTGGTAACTGGAAATCAACGGCACCACCGCAATGCC +AAAATGGTTGGTGTAGTCGAGATTGCCCTGAACCGGAATATCTGCCACGCCATCGGTGCTGACCATCAGG +CGTGGTTCATTGGTGGAGCTGCGGCGATGAAATGCTGCACCATATTGGGTTGCGGTGAAAGAACCGCTCC +AGCTGCTGCTGACGGAACTGTAATCACTGGCGGCATAGGTACCAGAAATATCCCACTCACCCGCTGAACT +CAGGTGCTGATAGTTACCGCTCACCTGGGCTCCATTGTCCGGACGATCGGATTGCAGTCCGGCAGACATG +CCCCAGCTATTACGTTCATCCAGCGTATCGTTCCACGACATGCGGTGTATGGTGCTGTGGCTACTGTTTT +GCATGTCATAGCCAACCCGACCACCGTTACCGAAGGGGAGCGAAATCGACAGATAAATCTGGTTGTCGCG +ATCTTTATCTTCGTAGTGGGTCGTATTGAATGACGTCGAAATCGAGATATCTCTCCAGTCACCAATATCA +ACATTAAAACCTGCTGTGATGTTGGCGGTCGTGGAGGCGTCTGCATTCCACCAGGTTTGATGTAGCAGGT +TGGCGTAAAGATTGAGGTTTAGTGGGGTAATCGGTTGGCCCACGGATAAGCTGATCGTCTGTTTTTCGTC +CTGCGCATCGCTGTCGTTGTATTTGTGATCCAGATAGTTGGCGTAGCTGTGAAAATGACGATCTGAGAAG +CGATAAGCGGCGAGCGAAATCGTGCTGTTGGTGGCATCCACTTGTTTGCTGTAATTAAAACGGTAGCTTA +AGCCCCGCTCGTCCTGCTGAGTATCAAAATGGCTACTGGCCCAGGTGACATCAAAGGACAGTGCGCCAAG +CCACAGCATATTTTGCCCGATACCCATTGCGGCAGAATGGTAGTCATCATCAGAAATCAGCAGGCCGCCG +TACAGCGAGGTGTTTGAGAGCATCCCCCAGGAAACTTCATTGCTAAAAAAGGTTTCATTTTCAGTTTGAT +GTGACATGGAAGGCCGTGGCTGACCCGCGGCCAATTTATAGCGAACCTGTCCCTGGCGAGTCAGGAAGGG +CGTCGATGCTGCCGAAACCTGGAAATTGTTCACCCGACCATCTTCTTCCGTCACTTTGACATCCAGCGTG +CCCTGAACAGACTGATTGAGGTCATCAATAATAAACGGGCCTGGCGGGACTTTTTTCTGGTAAATGACGC +GGCCTGATTGACTGATCGTCACCGTGGCATTGGTCTGTGCAATACCGCTAATTTGTGGGGCGTAGCCACG +CAGCTCCCACGGTAACATTCGATCGTCACTCGCCAGTGCCGCGCCGGTATAAGAAAAACCATCGAAAATA +TTGGAACTGAAATCGGTTTCGCCGAGGGTTAACTTAGAGCCTAATTGCGGTAATGGACGAAAAAGATAGG +TGCGCGATATTCCGCCTGACTGGTCATGGTTATCTTCGCTATCGGTCTTATTAAGCTGGTAATCACTGCG +TAAGCGCCATGCCCCGGCGTTAATTCCGGCGGTACCGTAGGCATTCAGGTTAGTGCTGCTGCTGCCGTCC +TGTGGGCGGTAGCTGCTGGCAAACAAGTTGTAATCCATCAGGACACCGGCAACACCTTCTTTCCATGTAG +AGGGGGGAGCCCAGTTTTCTGAGTGCCACGCCAGCCAGGCTTGCGGAATACTAATATTCAGTTGCTGATT +GGCTTGATCGAAATTGAAGAGCATTTCAGGTCGGGAACTGAAATCAATACACCGATCTATCTGTGGCAAG +GACTGACGGATATCTGGTTTTAAACCAAATTTATCGACCAGTGAATCATTGATGCATGGAATGGTTTTGT +CACCCTTTTTTTGCCAGTTAATTTTTTGCCCATTACTGATTTTGTTGTTATTCACCGCAACGCTAACAAA +ATATTCACCGGGAGCAATGACTCCTTTTTCCTTTAATAATGAAATATCAATGCGGTCGCGCATTGATTTA +TCGAGAACATTCAGATTGAATTCGACCGCCATTGCGCAAGGCATCGCCATGACCAGGCAGGATACAAAAG +AGAGTCGATAAATATTCACGGTGTCCATACCTGATAAATATTTTATGAAAGGCGGCGATGATGCCGCCAA +AATAATACTTATTTATAATCCAGCACGTAGGTTGCGTTAGCGGTTACTTCACCTGCCGTGACATCGACTG +CATTATCAATTTGTTCCATCCAGGCGAAAAAGTTCAGCGTCTGTTCTGATGAGCTTGCATCCAGGTCAAG +ATCTGGCGCGGCTGAACCTAATACGATGTTACCGTCATTTTTGTCCATCAGTCGTACACCGACCCCAGTT +GCTTCGCCTGCACTGGTGTTGCTCAACAAAGGCGTAGCACCAGTTGTCTTAGCCGTGCTATCGAAGGTTA +CGCCAACTTTGGATACCGGCATTCCGCTACCGTTGTCAGAAGCAGGCAGATCACAGTTGATCAAGCGAAT +GTCGACGGCCACTTTATTGCTATGATGCTCCCGGTTTATATGGGTTGTCGTGACTTGTCCAAGATCTATG +TTTTTATCAATATCTTCTGGATGAATTTCACAAGGTGCTTCAATAACCTCCCCCTTAAAGTGAATTTCGC +CAGAACCTTCATCAGCAGCATAAACAGGTGCAGTGAACAGCAGAGATACGGCCAGTGCGGCCAATGTTTT +TTGTCCTTTAAACATAACAGAGTCCTTTAAGGATATAGAATAGGGGTATAGCTACGCCAGAATATCGTAT +TTGATTATTGCTAGTTTTTAGTTTTGCTTAAAAATATTGTTAGTTTTATTAAATGCAAAACTAAATTATT +GGTATCATGAATTTGTTGTATGATGAATAAAATATAGGGGGGTATAGATAGACGTCATTTTCATAGGGTT +ATAAATGCGACTACCATGAAGTTTTTAATTGAAAGTATTGGGTTGCTGATAATTTGAGCTGTTCTATTCT +TTTTAAATATCTATATAGGTCTGTTAATGGATTTTATTTTTACAATTTTTTGTGTTTAGGCATATAAAAA +TCAACCCGCCATATGAACGGCGGGTTAAAATATTTACAACTTAGCAATCAACCATTAACGCTTGATATCG +CTTTTAAAGTCGCGTTTTTCATATCCTGTATACAGCTGACGCGGACGGGCAATCTTCATACCGTCACTGT +GCATTTCGCTCCAGTGGGCGATCCAGCCAACGGTACGTGCCATTGCGAAAATGACGGTGAACATGGAAGA +CGGAATACCCATCGCTTTCAGGATGATACCAGAGTAGAAATCGACGTTCGGGTACAGTTTCTTCTCGATA +AAGTACGGGTCGTTCAGCGCGATGTTTTCCAGCTCCATAGCCACTTCCAGCAGGTCATCCTTCGTGCCCA +GCTCTTTCAGCACTTCATGGCAGGTTTCACGCATTACGGTGGCGCGCGGGTCGTAATTTTTGTACACGCG +GTGACCGAAGCCCATCAGGCGGAAAGAATCATTTTTGTCTTTCGCACGACGAACAAATTCCGGAATGTGT +TTAACGGAGCTGATTTCTTCCAGCATTTTCAGCGCCGCTTCGTTAGCACCGCCGTGCGCAGGTCCCCACA +GTGAAGCAATACCTGCTGCGATACAGGCAAACGGGTTCGCACCCGAAGAGCCAGCGGTACGCACGGTGGA +GGTAGAGGCGTTCTGTTCATGGTCAGCGTGCAGGATCAGAATACGGTCCATAGCACGTTCCAGAATCGGA +TTAACTTCATACGGTTCGCACGGCGTGGAGAACATCATATTCAGGAAGTTACCGGCGTAGGAGAGATCGT +TGCGCGGGTAAACAAATGGCTGACCAATGGAATACTTGTAACACATCGCGGCCATGGTCGGCATTTTCGA +CAGCAGGCGGAACGCGGCAATTTCACGGTGACGAGGATTGTTAACATCCAGCGAGTCGTGATAGAACGCC +GCCAGCGCGCCGGTAATACCACACATGACTGCCATTGGATGCGAGTCGCGACGGAAAGCATGGAACAGAC +GGGTAATCTGCTCGTGGATCATGGTATGACGGGTCACCGTAGTTTTAAATTCGTCATACTGTTCCTGAGT +CGGTTTTTCACCATTCAGCAGGATGTAACAAACTTCCAGGTAGTTAGAATCGGTCGCCAGCTGATCGATC +GGGAAACCGCGGTGCAGCAAAATACCTTCATCACCATCAATAAAAGTAATTTTAGATTCGCAGGATGCGG +TTGAAGTGAAGCCTGGGTCAAAGGTGAACACACCTTTTGAACCGAGAGTACGGATATCAATAACATCTTG +ACCCAGCGTGCCTTTCAGCACATCCAGTTCAACAGCTGTATCCCCGTTGAGGGTGAGTTTTGCTTTTGTA +TCAGCCATTTAAGGTCTCCTTAGCGCCTTATTGCGTAAGACTGCCGGAACTTAAATTTGCCTTCGCACAT +CAACCTGGCTTTACCCGTTTTTTATTTGGCTCGCCGCTCTGTGAAAGAGGGGAAAACCTGGGTACAGAGC +TCTGGGCGCTTGCAGGTAAAGGATCCATTGATGACGAATAAATGGCGAATCAAGTACTTAGCAATCCGAA +TTATTAAACTTGTCTACCACTAATAACTGTCCCGAATGAATTGGTCAATACTTCCACACTGTTACATAAG +TTAATCTTAGGTGAAATACCGACTTCATAACTTTTACGCATTATATGCTTTTCCTGGTAATGTTTGTAAC +AACTTTGTTGAATGATTGTCAAATTAGATGATTAAAAATTAAATAAATGTTGTTATCGTGACCTGGATCA +CTGTTCAGGATAAAACCCGACAAACTATATGTAGGTTAATTGTAATGATTTTGTGAACAGCCTATACTGC +CGCCAGGTCTCCGGAACACCCTGCAATCCCGAGCCACCCAGCGTTGTAACGTGTCGTTTTCGCATCTGGA +AGCAGTGTTTTGCATGACGCGCAGTTATAGAAAGGACGCTGTCTGACCCGCAAGCAGACCGGAGGAAGGA +AATCCCGACGTCTCCAGGTAACAGAAAGTTAACCTCTGTGCCCGTAGTCCCCAGGGAATAATAAGAACAG +CATGTGGGCGTTATTCATGATAAGAAATGTGAAAAAACAAAGACCTGTTAATCTGGACCTACAGACCATC +CGGTTCCCCATCACGGCGATAGCGTCCATTCTCCATCGCGTTTCCGGTGTGATCACCTTTGTTGCAGTGG +GCATCCTGCTGTGGCTTCTGGGTACCAGCCTCTCTTCCCCTGAAGGTTTCGAGCAAGCTTCCGCGATTAT +GGGCAGCTTCTTCGTCAAATTTATCATGTGGGGCATCCTTACCGCTCTGGCGTATCACGTCGTCGTAGGT +ATTCGCCACATGATGATGGATTTTGGCTATCTGGAAGAAACATTCGAAGCGGGTAAACGCTCCGCCAAAA +TCTCCTTTGTTATTACTGTCGTGCTTTCACTTCTCGCAGGAGTCCTCGTATGGTAAGCAACGCCTCCGCA +TTAGGACGCAATGGCGTACATGATTTCATCCTCGTTCGCGCTACCGCTATCGTCCTGACGCTCTACATCA +TTTATATGGTCGGTTTTTTCGCTACCAGTGGCGAGCTGACATATGAAGTCTGGATCGGTTTCTTCGCCTC +TGCGTTCACCAAAGTGTTCACCCTGCTGGCGCTGTTTTCTATCTTGATCCATGCCTGGATCGGCATGTGG +CAGGTGTTGACCGACTACGTTAAACCGCTGGCTTTGCGCCTGATGCTGCAACTGGTGATTGTCGTTGCAC +TGGTGGTTTACGTGATTTATGGATTCGTTGTGGTGTGGGGTGTGTGATGAAATTGCCAGTCAGAGAATTT +GATGCAGTTGTGATTGGTGCCGGTGGCGCAGGTATGCGCGCGGCGCTGCAAATTTCCCAGAGCGGCCAGA +CCTGTGCGCTGCTCTCTAAAGTCTTCCCGACCCGTTCCCATACCGTTTCTGCGCAAGGCGGCATTACCGT +TGCGCTGGGTAATACCCATGAAGATAACTGGGAATGGCATATGTACGACACCGTGAAAGGGTCGGACTAT +ATCGGTGACCAGGACGCGATTGAATATATGTGTAAAACCGGGCCGGAAGCGATTCTGGAACTCGAACACA +TGGGCCTGCCGTTCTCGCGTCTCGATGATGGTCGTATCTATCAACGTCCGTTTGGCGGTCAGTCGAAAAA +CTTCGGCGGCGAGCAGGCGGCACGCACTGCGGCAGCAGCTGACCGTACCGGTCACGCACTGTTGCACACG +CTTTATCAGCAGAACCTGAAAAACCACACCACCATTTTCTCCGAGTGGTATGCGCTGGATCTGGTGAAAA +ACCAGGATGGCGCGGTGGTGGGTTGTACCGCACTGTGCATCGAAACCGGTGAAGTGGTTTATTTCAAAGC +CCGCGCTACCGTGCTGGCGACTGGCGGAGCAGGGCGTATTTATCAGTCCACCACCAACGCCCACATTAAC +ACCGGCGACGGTGTCGGCATGGCTATCCGTGCCGGCGTACCGGTGCAGGATATGGAAATGTGGCAGTTCC +ACCCGACCGGCATTGCCGGTGCGGGCGTACTGGTCACCGAAGGTTGCCGTGGTGAAGGCGGTTATCTGCT +GAACAAACATGGCGAACGTTTTATGGAGCGTTATGCGCCGAACGCCAAAGACCTGGCGGGCCGTGACGTG +GTTGCGCGTTCCATCATGATCGAAATCCGTGAAGGTCGCGGCTGTGATGGTCCGTGGGGGCCACACGCGA +AACTGAAACTCGATCACCTGGGTAAAGAAGTTCTCGAATCCCGTCTGCCGGGTATCCTGGAGCTTTCCCG +TACCTTCGCTCACGTCGATCCGGTGAAAGAGCCGATTCCGGTTATCCCAACCTGTCACTACATGATGGGC +GGTATTCCGACCAAAGTTACCGGTCAGGCACTGACTGTGAATGAGAAAGGCGAAGATGTGGTTGTTCCGG +GACTGTTTGCCGTTGGTGAAATCGCTTGTGTATCGGTACACGGCGCTAACCGTCTGGGCGGCAACTCGCT +GCTGGACCTGGTGGTCTTTGGTCGCGCGGCAGGTCTGCATCTGCAAGAGTCTATCGCCGAGCAGGGCGCA +CTGCGCGATGCCAGCGAGTCTGATGTTGAAGCGTCTCTGGATCGCCTGAACCGCTGGAACAATAATCGTA +ACGGTGAAGATCCGGTGGCGATCCGTAAAGCGCTGCAAGAATGTATGCAGCATAACTTCTCGGTCTTCCG +TGAAGGTGATGCGATGGCGAAAGGGCTTGAGCAGTTGAAAGTGATCCGCGAGCGTCTGAAAAATGCCCGT +CTGGATGACACTTCCAGCGAGTTCAACACCCAGCGCGTTGAGTGCCTGGAACTGGATAACCTGATGGAAA +CGGCGTATGCAACGGCTGTTTCTGCCAACTTCCGTACCGAAAGCCGTGGCGCGCATAGCCGCTTCGACTT +CCCGGATCGTGATGATGAAAACTGGCTGTGCCACTCCCTGTATCTGCCAGAGTCGGAATCCATGACGCGC +CGAAGCGTCAACATGGAACCGAAACTGCGCCCGGCATTCCCGCCGAAGATTCGTACTTACTAATGCGGAG +ACAGGAAAATGAGACTCGAGTTTTCAATTTATCGCTATAACCCGGATGTTGATGATGCTCCGCGTATGCA +GGATTACACCCTGGAAGCGGATGAAGGTCGCGACATGATGCTGCTGGATGCGCTTATCCAGCTAAAAGAG +AAAGATCCCAGCCTGTCGTTCCGCCGCTCCTGCCGTGAAGGTGTGTGCGGTTCCGACGGTCTGAACATGA +ACGGCAAGAATGGTCTGGCCTGTATTACCCCGATTTCGGCACTCAACCAGCCGGGCAAGAAGATTGTGAT +TCGCCCGCTGCCAGGTTTACCGGTGATCCGCGATTTGGTGGTAGACATGGGACAATTCTATGCGCAATAT +GAGAAAATTAAGCCTTACCTGTTGAATAATGGACAAAATCCGCCAGCTCGCGAGCATTTACAGATGCCAG +AGCAGCGCGAAAAACTCGACGGGCTGTATGAATGTATTCTCTGCGCATGTTGTTCAACCTCTTGTCCGTC +TTTCTGGTGGAATCCCGATAAGTTTATCGGCCCGGCAGGCTTGTTAGCGGCATATCGTTTCCTGATTGAT +AGCCGTGATACCGAGACTGACAGCCGCCTCGACGGTTTGAGTGATGCATTCAGCGTATTCCGCTGTCACA +GCATCATGAACTGCGTCAGTGTATGTCCGAAGGGGCTGAACCCGACGCGCGCCATCGGCCATATCAAGTC +GATGTTGTTGCAACGTAATGCGTAAACCGTAGGCCTGATAAGACGCGCAAGCGTCGCATCAGGCAACCAG +TGCCGGATGCGGCGTGAACGCCTTATCCGGCCTACAAGTCATTACCCGTAGGCCTGATAAGCGCAGCGCA +TCAGGCGTAACAAAGAAATGCAGGAAATCTTTAAAAACTGCCCCTGACACTAAGACAGTTTTTAAAGGTT +CCTTCGCGAGCCACTACGTAGACAAGAGCTCGCAAGTGAACCCCGGCACGCACATCACTGTGCGTGGTAG +TATCCACGGCGAAGTAAGCATAAAAAAGATGCTTAAGGGATCACGATGCAGAACAGCGCTTTGAAAGCCT +GGTTGGACTCTTCTTACCTCTCTGGCGCAAACCAGAGCTGGATAGAACAGCTCTATGAAGACTTCTTAAC +CGATCCTGACTCGGTTGACGCTAACTGGCGTTCGACGTTCCAGCAGTTACCTGGTACGGGAGTCAAACCG +GATCAATTCCACTCTCAAACGCGTGAATATTTCCGCCGCCTGGCGAAAGACGCTTCACGTTACTCTTCAA +CGATCTCCGACCCTGACACCAATGTGAAGCAGGTTAAAGTCCTGCAGCTCATTAACGCATACCGCTTCCG +TGGTCACCAGCATGCGAATCTCGATCCGCTGGGACTGTGGCAGCAAGATAAAGTGGCCGATCTGGATCCG +TCTTTCCACGATCTGACCGAAGCAGACTTCCAGGAGACCTTCAACGTCGGTTCATTTGCCAGCGGCAAAG +AAACCATGAAACTCGGCGAGCTGCTGGAAGCCCTCAAGCAAACCTACTGCGGCCCGATTGGTGCCGAGTA +TATGCACATTACCAGCACCGAAGAAAAACGCTGGATCCAACAGCGTATCGAGTCTGGTCGCGCGACTTTC +AATAGCGAAGAGAAAAAACGCTTCTTAAGCGAACTGACCGCCGCTGAAGGTCTTGAACGTTACCTCGGCG +CAAAATTCCCTGGCGCAAAACGCTTCTCGCTGGAAGGCGGTGACGCGTTAATCCCGATGCTTAAAGAGAT +GATCCGCCACGCTGGCAACAGCGGCACCCGCGAAGTGGTTCTCGGGATGGCGCACCGTGGTCGTCTGAAC +GTGCTGGTGAACGTGCTGGGTAAAAAACCGCAAGACTTGTTCGACGAGTTCGCCGGTAAACATAAAGAAC +ACCTCGGCACGGGTGACGTGAAATACCACATGGGCTTCTCGTCTGACTTCCAGACCGATGGCGGCCTGGT +GCACCTGGCGCTGGCGTTTAACCCGTCTCACCTTGAGATTGTAAGCCCGGTAGTTATCGGTTCTGTTCGT +GCCCGTCTGGACAGACTTGATGAGCCGAGCAGCAACAAAGTGCTGCCAATCACCATCCACGGTGACGCCG +CAGTGACCGGGCAGGGCGTGGTTCAGGAAACCCTGAACATGTCGAAAGCGCGTGGTTATGAAGTTGGCGG +TACGGTACGTATCGTTATCAACAACCAGGTTGGTTTCACCACCTCTAATCCGCTGGATGCCCGTTCTACG +CCGTACTGTACTGATATCGGTAAGATGGTTCAGGCCCCGATTTTCCACGTTAACGCGGACGATCCGGAAG +CCGTTGCCTTTGTGACCCGTCTGGCGCTCGATTTCCGTAACACCTTTAAACGTGATGTCTTCATCGACCT +GGTGTGCTACCGCCGTCACGGCCACAACGAAGCCGACGAGCCGAGCGCAACCCAGCCGCTGATGTATCAG +AAAATCAAAAAACATCCGACACCGCGCAAAATCTACGCTGACAAGCTGGAGCAGGAAAAAGTGGCGACGC +TGGAAGATGCCACCGAGATGGTTAACCTGTACCGCGATGCGCTGGATGCTGGCGATTGCGTAGTGGCAGA +GTGGCGTCCGATGAACATGCACTCTTTCACCTGGTCGCCGTACCTCAACCACGAATGGGACGAAGAGTAC +CCGAACAAAGTTGAGATGAAGCGCCTGCAGGAGCTGGCGAAACGCATCAGCACGGTGCCGGAAGCAGTTG +AAATGCAGTCTCGCGTTGCCAAGATTTATGGCGATCGCCAGGCGATGGCTGCCGGTGAGAAACTGTTCGA +CTGGGGCGGTGCGGAAAACCTCGCTTACGCCACGCTGGTTGATGAAGGCATTCCGGTTCGCCTGTCGGGT +GAAGACTCCGGTCGCGGTACCTTCTTCCACCGCCACGCGGTGATCCACAACCAGTCTAACGGTTCCACTT +ACACGCCGCTGCAACATATCCATAACGGGCAGGGCGCGTTCCGTGTCTGGGACTCCGTACTGTCTGAAGA +AGCAGTGCTGGCGTTTGAATATGGTTATGCCACCGCAGAACCACGCACTCTGACCATCTGGGAAGCGCAG +TTCGGTGACTTCGCCAACGGTGCGCAGGTGGTTATCGACCAGTTCATCTCCTCTGGCGAACAGAAATGGG +GCCGGATGTGTGGTCTGGTGATGTTGCTGCCGCACGGTTACGAAGGGCAGGGGCCGGAGCACTCCTCCGC +GCGTCTGGAACGTTATCTGCAACTTTGTGCTGAGCAAAACATGCAGGTTTGCGTACCGTCTACCCCGGCA +CAGGTTTACCACATGCTGCGTCGTCAGGCGCTGCGCGGGATGCGTCGTCCGCTGGTCGTGATGTCGCCGA +AATCCCTGCTGCGTCATCCGCTGGCGGTTTCCAGCCTCGAAGAACTGGCGAACGGCACCTTCCTGCCAGC +CATCGGTGAAATCGACGAGCTTGATCCGAAGGGCGTGAAGCGCGTAGTGATGTGTTCTGGTAAGGTTTAT +TACGACCTGCTGGAACAGCGTCGTAAGAACAATCAACACGATGTCGCCATTGTGCGTATCGAGCAACTCT +ACCCGTTCCCGCATAAAGCGATGCAGGAAGTGTTGCAGCAGTTTGCTCACGTCAAGGATTTTGTCTGGTG +CCAGGAAGAGCCGCTCAACCAGGGCGCATGGTACTGCAGCCAGCATCATTTCCGTGAAGTGATTCCGTTT +GGGGCTTCTCTGCGTTATGCAGGCCGCCCGGCCTCCGCCTCTCCGGCGGTAGGGTATATGTCCGTTCACC +AGAAACAGCAACAAGATCTGGTTAATGACGCGCTGAACGTCGAATAAATAAAGGATACACAATGAGTAGC +GTAGATATTCTGGTCCCTGACCTGCCTGAATCCGTAGCCGATGCCACCGTCGCAACCTGGCATAAAAAAC +CCGGCGACGCAGTCGTACGTGATGAAGTGCTGGTAGAAATCGAAACTGACAAAGTGGTACTGGAAGTACC +GGCATCAGCAGACGGCATTCTGGATGCGGTTCTGGAAGATGAAGGTACAACGGTAACGTCTCGTCAGATC +CTTGGTCGCCTGCGTGAAGGCAACAGCGCCGGTAAAGAAACCAGCGCCAAATCTGAAGAGAAAGCGTCCA +CTCCGGCGCAACGCCAGCAGGCGTCTCTGGAAGAGCAAAACAACGATGCGTTAAGCCCGGCGATCCGTCG +CCTGCTGGCTGAACACAATCTCGACGCCAGCGCCATTAAAGGCACCGGTGTGGGTGGTCGTCTGACTCGT +GAAGATGTGGAAAAACATCTGGCGAAAGCCCCGGCGAAAGAGTCTGCTCCGGCAGCGGCTGCTCCGGCGG +CGCAACCGGCTCTGGCTGCACGTAGTGAAAAACGTGTCCCGATGACTCGCCTGCGTAAGCGTGTGGCAGA +GCGTCTGCTGGAAGCGAAAAACTCCACCGCCATGCTGACCACGTTCAACGAAGTCAACATGAAGCCGATT +ATGGATCTGCGTAAGCAGTACGGTGAAGCGTTTGAAAAACGCCACGGCATCCGTCTGGGCTTTATGTCCT +TCTACGTGAAAGCGGTGGTTGAAGCCCTGAAACGTTACCCGGAAGTGAACGCTTCTATCGACGGCGATGA +CGTGGTTTACCACAACTATTTCGACGTCAGCATGGCGGTTTCTACGCCGCGCGGCCTGGTGACGCCGGTT +CTGCGTGATGTCGATACCCTCGGCATGGCAGACATCGAGAAGAAAATCAAAGAGCTGGCAGTCAAAGGCC +GTGACGGCAAGCTGACCGTTGAAGATCTGACCGGTGGTAACTTCACCATCACCAACGGTGGTGTGTTCGG +TTCCCTGATGTCTACGCCGATCATCAACCCGCCGCAGAGCGCAATTCTGGGTATGCACGCTATCAAAGAT +CGTCCGATGGCGGTGAATGGTCAGGTTGAGATCCTGCCGATGATGTACCTGGCGCTGTCCTACGATCACC +GTCTGATCGATGGTCGCGAATCCGTGGGCTTCCTGGTAACGATCAAAGAGTTGCTGGAAGATCCGACGCG +TCTGCTGCTGGACGTGTAGTAGTTTAAGTTTCACCTGCACTGTAGACCGGATAAGGCATTATCGCCTTCT +CCGGCAATTGAAGCCTGATGCGACGCTGACGCGTCTTATCAGGCCTACGGGACCACCAATGTAGGTCGGA +TAAGGCGCAAGCGCCGCATCCGACAAGCGATGCCTGATGTGACGTTTAACGTGTCTTATCAGGCCTACGG +GTGACCGACAATGCCCGGAAGCGATACGAAATATTCGGTCTACGGTTTAAAAGATAACGATTACTGAAGG +ATGGACAGAACACATGAACTTACATGAATATCAGGCAAAACAACTTTTTGCCCGCTATGGCTTACCAGCA +CCGGTGGGTTATGCCTGTACTACTCCGCGCGAAGCAGAAGAAGCCGCTTCAAAAATCGGTGCCGGTCCGT +GGGTAGTGAAATGTCAGGTTCACGCTGGTGGCCGCGGTAAAGCGGGCGGTGTGAAAGTTGTAAACAGCAA +AGAAGACATCCGTGCTTTTGCAGAAAACTGGCTGGGCAAGCGTCTGGTAACGTATCAAACAGATGCCAAT +GGCCAACCGGTTAACCAGATTCTGGTTGAAGCAGCGACCGATATCGCTAAAGAGCTGTATCTCGGTGCCG +TTGTTGACCGTAGTTCCCGTCGTGTGGTCTTTATGGCCTCCACCGAAGGCGGCGTGGAAATCGAAAAAGT +GGCGGAAGAAACTCCGCACCTGATCCATAAAGTTGCGCTTGATCCGCTGACTGGCCCGATGCCGTATCAG +GGACGCGAGCTGGCGTTCAAACTGGGTCTGGAAGGTAAACTGGTTCAGCAGTTCACCAAAATCTTCATGG +GCCTGGCGACCATTTTCCTGGAGCGCGACCTGGCGTTGATCGAAATCAACCCGCTGGTCATCACCAAACA +GGGCGATCTGATTTGCCTCGACGGCAAACTGGGCGCTGACGGCAACGCACTGTTCCGCCAGCCTGATCTG +CGCGAAATGCGTGACCAGTCGCAGGAAGATCCGCGTGAAGCACAGGCTGCACAGTGGGAACTGAACTACG +TTGCGCTGGACGGTAACATCGGTTGTATGGTTAACGGCGCAGGTCTGGCGATGGGTACGATGGACATCGT +TAAACTGCACGGCGGCGAACCGGCTAACTTCCTTGACGTTGGCGGCGGCGCAACCAAAGAACGTGTAACC +GAAGCGTTCAAAATCATCCTCTCTGACGACAAAGTGAAAGCCGTTCTGGTTAACATCTTCGGCGGTATCG +TTCGTTGCGACCTGATCGCTGACGGTATCATCGGCGCGGTAGCAGAAGTGGGTGTTAACGTACCGGTCGT +GGTACGTCTGGAAGGTAACAACGCCGAACTCGGCGCGAAGAAACTGGCTGACAGCGGCCTGAATATTATT +GCAGCAAAAGGTCTGACGGATGCAGCTCAGCAGGTTGTTGCCGCAGTGGAGGGGAAATAATGTCCATTTT +AATCGATAAAAACACCAAGGTTATCTGCCAGGGCTTTACCGGTAGCCAGGGGACTTTCCACTCAGAACAG +GCCATTGCATACGGCACTAAAATGGTTGGCGGCGTAACCCCAGGTAAAGGCGGCACCACCCACCTCGGCC +TGCCGGTGTTCAACACCGTGCGTGAAGCCGTTGCTGCCACTGGCGCTACCGCTTCTGTTATCTACGTACC +AGCACCGTTCTGCAAAGACTCCATTCTGGAAGCCATCGACGCAGGCATCAAACTGATTATCACCATCACT +GAAGGCATCCCGACGCTGGATATGCTGACCGTGAAAGTGAAGCTGGATGAAGCAGGCGTTCGTATGATCG +GCCCGAACTGCCCAGGCGTTATCACTCCGGGTGAATGCAAAATCGGTATCCAGCCTGGTCACATTCACAA +ACCGGGTAAAGTGGGTATCGTTTCCCGTTCCGGTACACTGACCTATGAAGCGGTTAAACAGACCACGGAT +TACGGTTTCGGTCAGTCGACCTGTGTCGGTATCGGCGGTGACCCGATCCCGGGCTCTAACTTTATCGACA +TTCTCGAAATGTTCGAAAAAGATCCGCAGACCGAAGCGATCGTGATGATCGGTGAGATCGGCGGTAGCGC +TGAAGAAGAAGCAGCTGCGTACATCAAAGAGCACGTTACCAAGCCAGTTGTGGGTTACATCGCTGGTGTG +ACTGCGCCGAAAGGCAAACGTATGGGCCACGCGGGTGCCATCATTGCCGGTGGGAAAGGGACTGCGGATG +AGAAATTCGCTGCTCTGGAAGCCGCAGGCGTGAAAACCGTTCGCAGCCTGGCGGATATCGGTGAAGCACT +GAAAACTGTTCTGAAATAAATATCTGTAATAAGAAATAGCCCTCGCCGCTTCCCTCTACAGGAATGGCGA +AGGGCTGTCGGTTTCGACATGGTTGGCCATCGTATGATGGCCTTTTTTGTGCTTATCGCGATGATTTTCG +CTGCGCTATCAGGGTAAATTTATAGTCATCGGTATTAAAAGCGTTGCGGCTATATTCAAACACCCGACCA +TCAACTAAATATCCACGCGATACTTTTTCAAGAATCGGCTTTGTCTGGCTGATATTAAGCAGACGGCTCA +TCTCTTCGGTTGGCATCAGAGGAATGATTTCCTGTTCGCTACGATCGATAACCATTTTCTTCACTTCTTC +GATAAAGTGATATTTCGAATTTTCCATGACCTGCCAGGTGAGATCCGGGAACAACGCAAGCGGCATCCAG +GTTTCTTCCAGCGCCATTGGCTTTTGCTTGCGATAGCGCACGCGCTTCACATGCCACACACGATCCTGCG +GGGTGATTTGTAGCTGTTGCTGAAGAAAATCGTCAGCCGGAATCACTTCGAATATCAGAACTTCACTGTG +TGTATCGACGTGACGGTCCGACAGTTTTTCATCAAAACTGGTTAACTGAAAAATATCGTAATTGACCCGC +TCTTCTTTGACGTAAGTCCCGCTGCCCTGAATGCTTTCGAGGATCTGCTGCTCGACTAGCTGGCGCAAAG +CCTGACGCACCGTAACCCGGCTGACGCCAAACTCTGTTTGTAGCGCTGATTCAGTGGGTAACGCATCGCC +AGGTTTAAGCTCGCCACGCGCAATTTGTTCACGAATGCGATCGGCAATCTGCCGGTATAAGGGCTTGTGT +CCCATTTTTAGTATCTCATTAATACGAATTTAACCATTATGCCCGATAAATTCATCCTGTAAATAATACA +AATACAATACAAATAATTTCAATCAAGTGAAATTGATCACATAATGGTATTGTTTTATCGGGCACACTGG +CGCGACTATAAAAACGATCAAGTGAGGATCATGATGAATCTGACGACTCTGACCCACCGCGATGCGTTGT +GTCTGAATGCGCGCTTTACCAGCCGTGAAGAGGCCATCCACGCGTTGACTCAACGTCTTGCTGCTCTGGG +GAAAATTTCCAGTACTGAGCAATTTCTGGAAGAAGTGTATCGCCGTGAAAGCCTTGGCCCGACCGCCTTA +GGTGAAGGGTTGGCTGTGCCGCATGGCAAAACTGCTGCGGTAAAAGAAGCGGCGTTTGCGGTCGCCACAC +TCAGCGAGCCGCTTCAGTGGGAAGGCGTTGATGGCCCGGAAGCAGTTGATTTAGTGGTGCTGCTGGCGAT +TCCCCCCAATGAAGCGGGTACTACGCATATGCAACTGCTGACAGCGCTGACCACGCGCCTTGCGGATGAT +GAGATTCGGGCGCGTATACAGTCGGCGACGACGCCTGATGAGTTGCTCTCGGCGCTGGATGACAAGGGAG +GCACGCAACCTTCTGCCTCTTTTTCCAACGCGCCAACTATCGTCTGCGTAACGGCCTGTCCGGCGGGTAT +TGCTCACACCTATATGGCTGCGGAATATCTGGAAAAAGCCGGACGCAAACTCGGCGTAAATGTTTACGTT +GAAAAACAAGGCGCTAACGGCATTGAAGGGCGTTTAACGGCGGATCAACTCAATAGTGCAACCGCCTGTA +TTTTTGCGGCTGAAGTCGCCATCAAGGAGAGTGAGCGTTTTAATGGCATTCCCGCGCTTTCAGTGCCTGT +TGCCGAGCCGATTCGCCATGCAGAAGCGTTGATCCAACAAGCGCTTACCCTCAAGCGTAGCGATGAGACG +CGTACCGTACAGCAAGATACGCAACCGGTGAAAAGTGTCAAAACGGAGCTGAAACAGGCACTGTTGAGCG +GAATCTCTTTTGCCGTACCGTTGATTGTCGCGGGGGGCACGGTGCTGGCGGTCGCGGTATTACTGTCGCA +AATCTTCGGGCTACAAGATCTGTTTAATGAAGAAAACTCCTGGCTGTGGATGTACCGCAAGCTGGGCGGC +GGGCTGCTCGGAATTTTGATGGTACCGGTGCTCGCGGCCTATACCGCCTATTCTCTGGCAGATAAACCGG +CGTTAGCGCCAGGCTTTGCGGCTGGACTTGCCGCCAACATGATCGGCTCCGGGTTTCTCGGCGCGGTCGT +TGGCGGATTGATAGCCGGTTACTTGATGCGCTGGGTGAAAAATCACTTGCGTCTTAGCAGTAAATTCAAT +GGATTCCTGACTTTTTATCTCTACCCGGTGCTCGGTACGTTGGGAGCGGGCAGTCTGATGCTGTTTGTGG +TGGGGGAACCTGTCGCCTGGATCAATAACTCGCTTACCGCCTGGCTGAACGGTCTGTCAGGAAGTAACGC +GCTGTTGCTGGGTGCCATTCTCGGTTTTATGTGTTCCTTTGACCTTGGAGGGCCAGTGAATAAAGCCGCT +TATGCATTCTGCCTGGGCGCAATGGCGAACGGCGTTTACGGCCCGTATGCCATTTTCGCCTCCGTCAAAA +TGGTTTCGGCATTTACCGTAACCGCTTCCACGATGCTCGCACCGCGCCTGTTTAAAGAGTTTGAAATTGA +GACCGGGAAATCCACCTGGCTGTTAGGGCTGGCAGGTATTACCGAAGGGGCGATCCCGATGGCGATTGAA +GATCCGCTGCGGGTTATTGGTTCGTTTGTGCTGGGCTCTATGGTAACGGGCGCTATTGTCGGTGCGATGA +ATATCGGCCTTTCGACACCCGGTGCCGGCATTTTCTCGCTCTTTTTACTTCATGATAATGGCGCGGGCGG +TGTTATGGCGGCAATTGGCTGGTTTGGCGCGGCATTGGTGGGGGCTGCAATCTCGACTGCAATTCTCCTG +ATGTGGCGGCGTCACGCGGTTAAGCATGGCAACTATCTGACTGATGGCGTAATGCCATAAACAAAAAGGA +AACGACGATGAAAGCAGTATCTCGCGTTCACATCACCCCGCATATGCACTGGGATCGAGAGTGGTATTTC +ACCACCGAAGAGTCACGTATTCTGCTGGTCAATAATATGGAAGAGATCCTGTGCCGACTGGAACAGGACA +ACGAATACAAATATTACGTACTCGACGGGCAAACGGCGATCCTCGAAGATTATTTCGCGGTGAAACCGGA +AAACAAAGACCGTGTGAAGAAACAGGTAGAAGCCGGCAAGTTGATTATCGGCCCCTGGTATACCCAGACC +GATACCACGATTGTTTCTGCGGAATCCATCGTCCGTAATCTGATGTACGGAATGCGTGACTGCCTCGCGT +TTGGCGAGCCGATGAAAATAGGTTATTTACCAGATTCCTTTGGCATGTCCGGGCAACTGCCGCATATCTA +CAATGGATTTGGCATTACCCGCACCATGTTCTGGCGCGGATGTTCGGAGCGCCACGGTACTGATAAAACC +GAGTTTTTGTGGCAAAGCAGTGACGGTAGCGAAGTGACGGCGCAGGTGCTGCCGCTGGGCTACGCCATCG +GTAAGTACTTACCTGCCGACGAAAACGGATTACGTAAACGCCTCGACAGTTATTTTGACGTGCTGGAAAA +AGCGTCTGTAACCAAAGAGATTTTGCTGCCGAATGGGCATGACCAGATGCCATTGCAGCAAAATATCTTC +GAAGTGATGGATAAGCTACGTGAGATCTACCCTCAACGTAAGTTTGTGATGAGCCGCTTTGAAGAGGTAT +TTGAGAAGATCGAAGCGCAGCGAGATAATCTGGCAACCCTGAAAGGGGAATTTATTGATGGCAAATATAT +GCGCGTGCATCGCACCATCGGTTCTACGCGTATGGATATCAAAATTGCCCACGCGCGTATTGAAAATAAG +ATTGTTAATCTGCTGGAACCGCTGGCAACACTGGCCTGGACGTTGGGTTTTGAATACCACCACGGCTTGC +TGGAGAAAATGTGGAAAGAGATCTTAAAAAATCATGCCCACGACAGTATCGGCTGCTGCTGTAGTGACAA +AGTTCATCGCGAAATCGTCGCCCGCTTCGAACTGGCTGAAGACATGGCGGATAATCTGATTCGTTTCTAC +ATGCGCAAAATTGCCGACAACATGCCGCAGAGCGACGCCGACAAACTCGTCCTGTTTAACCTGATGCCCT +GGCCGCGTGAAGAAGTTATCAACACCACTGTGCGGCTGCGCGCCAGCCAGTTTAATTTGCGGGACGATCG +CGGTCAGCCTGTACCGTATTTTATTCGCCATGCCCGTGAGATCGATCCAGGCCTAATCGATCGGCAAATA +GTTCATTACGGTAATTACGATCCCTTTATGGAGTTTGATATACAGATCAACCAGATTGTCCCTTCTATGG +GCTATCGCACGCTTTATATCGAAGCGAATCAGCCTGGCAACGTAATTGCGGCAAAAAGTGACGCTGAAGG +GATACTGGAAAATGCTTTCTGGCAAATTGCGCTCAATGAGGATGGTTCTCTGCAACTGGTAGATAAAGAC +AGCGGTGTGCGCTATGACCGGGTATTGCAAATTGAAGAAAGCTCTGATGATGGTGATGAATATGACTATT +CACCCGCAAAAGAAGAGTGGGTAATTACCGCAGCGAACGCGAAACCGCAATGCGATATTATTCATGAAGC +CTGGCAGAGCAGGGCTGTTATCCGCTATGACATGGCAGTGCCGCTCAATTTGTCAGAACGCAGCGCCCGG +CAATCCACTGGCAGAGTAGGGGTGGTGTTGGTTGTCACTCTTAGTCATAACAGCAGGCGTATTGATGTGG +ATATCAATCTTGATAACCAGGCTGACGATCATCGCCTTCGTGTCCTGGTCCCTACACCTTTTAACACCGA +CAGTGTTCTGGCAGATACGCAGTTTGGTTCGCTAACGCGCCCCGTGAACGACAGTGCAATGAACAACTGG +CAGCAAGAAGGCTGGAAAGAAGCGCCGGTTCCGGTATGGAATATGCTCAACTATGTTGCCTTACAGGAAG +GGCGTAACGGCATGGCTGTCTTTAGCGAAGGGTTACGTGAATTTGAAGTCATCGGTGAAGAGAAGAAAAC +CTTTGCCATTACGTTGCTGCGTGGCGTGGGCTTACTGGGCAAAGAAGATCTGCTTTTAAGGCCTGGGCGG +CCTTCGGGAATTAAAATGCCAGTCCCGGACTCACAACTACGTGGTCTGCTTTCTTGTCGCCTAAGTTTAT +TGAGTTATACCGGTACGCCAACCGCCGCTGGTGTAGCTCAGCAGGCGCGAGCATGGCTGACTCCAGTACA +GTGTTACAACAAAATCCCATGGGATGTGATGAAGCTCAACAAAGCCGGATTCAACGTGCCGGAAAGTTAT +AGTTTGTTGAAAATGCCCCCAGTGGGATGCCTGATAAGCGCACTTAAGAAAGCTGAAGACCGACAAGAAG +TGATTTTACGGCTGTTTAATCCGGCTGAATCAGCAACCTGTGATGCGACTGTTGCTTTCAGTCGCGAGGT +GATTTCTTGCTCAGAAACGATGATGGATGAACACATTACCACCGAGGAAAATCAAGGTTCAAATCTATCG +GGGCCTTTTTTACCCGGCCAGTCACGGACGTTCAGTTACCGGCTTGCCTGAATAGCAATCAAACCGAAGC +CACATATGCGCGGCCAGATTGTTGACAAAGGGCGCTTTGTTCATGCCGGATACGGCATGAACGCTTTATT +CGGTCTACAAAAGCAGGCAAATTCAATATATTGCAGAGATGATGTAGACACTGGCAAGCGTAGCGCATCA +GGTAATTTTGCGTTTATCTTCACTCTCAAGCCACGTATATGTGGCTTTATTTTTAACAAAATAATAACCC +TGGGTGAGTTAATTATAATATAATTATAAGTTAACTAAATGTTAATATTGGCGGGGTGGATTTATGCCTT +TATTAGTAATCCTGAAACTCTGCGTCGTATTAGCCAGTGACCAAAAAAAGAATTAAGGTCAACCGTGCTG +TTTTTGCTTCGTCTCTTTTTATCTTTAATTGCCAACCGAAACTAATTTCAGCCTTATAACTCACACATTT +TAAACATAAATGTCACTAAAGTTACCTTATTGAAACATGATTAACATAATTTGTAGGAATTGATATTTAT +CAATGTATAAGTCTTGGAAATGGGCATCAAAAAGAGATAAATTGTTCTCGATCAAATTGGCTGAAAGGCG +GTAATTTAGCTATAAATTGATCACCGTCGAAAAATGCAAATTTGCTTCAACAAAAACCTGTTTATTGTAA +GGATTTTGCGGCGTAATATATACGTGGGATCAATTTGAGTTTTTATTAACATGTTTGCAACCTTTCTTTA +CGCCGTTTTTGTGTGCATTCACATGGTATGATGAAAGTGTTCAAACAAATTTCTATTGGGGCATGCGTGT +GACCCTTTCTAACGGGGTTCACTCTCGGAGTCTTCATGCGATGAGCAAGGAGTCATGATGTTAGATATAG +TCGAACTGTCGCGCTTACAGTTTGCCTTGACCGCGATGTACCACTTCCTTTTTGTGCCACTGACGCTCGG +TATGGCGTTCCTGCTGGCCATTATGGAAACGGTCTACGTCCTCTCCGGCAAACAGATTTATAAAGATATG +ACCAAGTTCTGGGGCAAGTTGTTTGGTATCAACTTCGCTCTGGGTGTGGCTACCGGTCTGACCATGGAGT +TCCAGTTCGGGACTAACTGGTCTTACTATTCCCACTATGTAGGGGATATCTTCGGTGCGCCGCTGGCAAT +CGAAGGTCTGATGGCCTTCTTCCTCGAATCCACCTTTGTAGGTCTGTTCTTCTTCGGTTGGGATCGTCTG +GGTAAAGTTCAGCATATGTGTGTCACCTGGCTGGTGGCGCTCGGTTCAAACCTGTCCGCACTGTGGATTC +TGGTTGCGAACGGCTGGATGCAAAACCCAATCGCGTCCGATTTCAACTTTGAAACTATGCGTATGGAGAT +GGTGAGCTTCTCCGAGCTGGTGCTTAACCCGGTTGCTCAGGTGAAATTCGTTCACACTGTAGCGTCTGGT +TATGTGACTGGCGCGATGTTCATCCTCGGTATCAGCGCATGGTATATGCTGAAAGGTCGTGACTTCGCCT +TCGCTAAACGCTCCTTTGCTATCGCTGCCAGCTTCGGTATGGCTGCTGTTCTGTCTGTTATTGTTCTGGG +TGATGAATCCGGCTACGAAATGGGCGACGTGCAGAAAACCAAACTGGCTGCTATTGAAGCCGAGTGGGAA +ACGCAACCTGCGCCTGCTGCCTTTACTCTGTTCGGCATTCCTGATCAGGAAGAGGAGACGAACAAATTTG +CGATTCAGATCCCTTACGCACTGGGCATCATTGCAACGCGTTCCGTGGATACCCCGGTTATCGGCCTGAA +AGAGCTGATGGTGCAGCATGAAGAACGCATTCGTAACGGGATGAAGGCGTACTCTCTGCTCGAACAACTG +CGTTCTGGTTCTACCGACCAGGCGGTTCGTGACCAGTTCAATAGCATGAAGAAAGACCTCGGTTACGGTC +TGCTGCTGAAACGCTATACGCCAAACGTGGCTGATGCGACTGAAGCGCAGATTCAACAGGCAACCAAAGA +CTCCATCCCGCGTGTAGCGCCGCTGTACTTTGCGTTCCGTATCATGGTGGCGTGTGGCTTCCTGCTTCTG +GCAATCATCGCGCTCTCTTTCTGGAGTGTCATCCGCAACCGCATTGGCGAGAAAAAATGGCTTCTGCGCG +CCGCGCTGTACGGTATTCCGCTGCCGTGGATTGCTGTAGAAGCGGGCTGGTTCGTGGCTGAATATGGCCG +CCAACCGTGGGCTATCGGTGAAGTGCTGCCGACAGCTGTGGCGAACTCGTCACTGACCGCAGGCGATCTC +ATCTTCTCAATGGTGCTGATTTGCGGCCTGTATACCCTGTTCCTGGTGGCAGAATTGTTCTTAATGTTCA +AGTTTGCACGCCTCGGCCCAAGCAGCCTGAAAACCGGTCGCTATCACTTTGAGCAGTCTTCCACGACTAC +TCAGCCGGCACGCTAAGACAGGAGTCGTCAAATGATCGATTATGAAGTATTGCGTTTTATCTGGTGGCTG +CTGGTTGGCGTTCTGCTGATTGGTTTTGCAGTCACTGACGGTTTCGACATGGGGGTGGGCATGCTCACCC +GTTTCCTCGGTCGTAACGACACCGAGCGTCGAATTATGATTAACTCCATTGCACCACACTGGGACGGTAA +CCAGGTTTGGCTGATCACCGCGGGCGGCGCACTCTTTGCTGCCTGGCCGATGGTCTATGCCGCTGCGTTC +TCCGGCTTCTATGTGGCGATGATCCTCGTGCTGGCGTCTTTGTTCTTCCGTCCGGTCGGTTTTGACTACC +GCTCCAAGATTGAAGAAACCCGCTGGCGTAACATGTGGGACTGGGGCATCTTCATTGGTAGCTTCGTTCC +GCCGCTGGTAATTGGTGTAGCGTTCGGTAACCTGTTGCAGGGCGTACCGTTCAACGTTGATGAATATCTG +CGTCTGTACTACACCGGTAACTTCTTCCAGTTGCTTAACCCGTTCGGCCTGCTGGCAGGCGTGGTGAGCG +TAGGGATGATCATTACTCAGGGCGCAACCTATCTGCAAATGCGTACCGTGGGCGAACTGCACCTGCGTAC +CCGTGCAACGGCTCAGGTGGCTGCGCTGGTGACACTGGTCTGTTTCGCACTGGCTGGCGTATGGGTGATG +TACGGTATCGATGGTTATGTCGTGAAATCGACAATGGACCATTACGCAGCCTCTAACCCACTGAATAAAG +AAGTGGTTCGTGAAGCTGGCGCATGGCTGGTTAACTTCAACAACACGCCAATTCTGTGGGCTATTCCGGC +ACTGGGTGTGGTTCTGCCGCTGCTGACCATCCTGACTGCACGTATGGATAAAGCCGCGTGGGCGTTTGTG +TTCTCCTCCCTGACGCTGGCCTGCATCATCCTGACAGCCGGTATCGCAATGTTCCCGTTTGTGATGCCGT +CCAGCACCATGATGAACGCAAGTCTGACAATGTGGGATGCAACTTCCAGCCAGCTGACGCTTAACGTCAT +GACCTGGGTTGCGGTGGTTCTGGTACCGATCATTCTGCTCTACACCGCCTGGTGTTACTGGAAAATGTTC +GGTCGTATCACCAAAGAAGATATTGAACGTAACACCCACTCTCTGTACTAAGTAAGGAGCTAAAAATGTG +GTATTTCGCATGGATTCTGGGAACGCTTCTTGCCTGTTCGTTTGGGGTAATCACCGCGCTGGCGCTTGAA +CACGTCGAATCAGGCAAAGCCGGTCAAGAAGACATCTGATGAGTAAGATTATCGCGACTTTGTATGCGGT +AATGGACAAGCGCCCCCTGCGGGCGCTTTCCTTCGTGATGGCGCTTCTGTTAGCAGGATGTATGTTTTGG +GACCCATCTCGTTTTGCCGCGAAGACCAGTGAACTGGAAATCTGGCATGGTTTATTGCTGATGTGGGCCG +TCTGTGCTGGTGTGATTCACGGCGTGGGCTTTCGTCCGCAGAAGGTTCTTTGGCAAGGGATTTTTTGCCC +ATTGCTTGCCGATATTGTTCTCATTGTCGGGCTGATTTTCTTCTTCTTTTAAATCAGAATTCTCTTTAAA +AAATTATGGGCCGCTCCAGGCCCATAAATTTTTACGCTCCCTTAACTTGCCCTCATTCCCAAACCTCAAT +CGCGCGCGTATAGTAGCAGCGTTTAAAAGCTCTAACTTTTGTTGCATTACCGGGATGTAAAGTGAATACA +ACGCTGTTTCGATGGCCGGTTCGCGTCTACTATGAAGATACCGATGCCGGTGGTGTGGTGTACCACGCCA +GTTACGTCGCTTTTTATGAAAGAGCACGCACAGAGATGCTGCGTCATCATCACTTCAGTCAGCAGGCGCT +GATGGCTGAACGCGTTGCCTTTGTGGTACGTAAAATGACGGTGGAATATTACGCACCTGCGCGGCTCGAC +GATATGCTCGAAATACAGACTGAAATAACATCAATGCGTGGCACCTCTTTGGTTTTCACGCAACGTATTG +TCAACGCCGAGAATACTTTGCTGAATGAAGCAGAGGTTCTGGTTGTTTGCGTTGACCCACTCAAAATGAA +GCCTCGTGCGCTTCCCAAGTCTATTGTCGCGGAGTTTAAGCAGTGACTGACATGAATATCCTTGATTTGT +TCCTGAAGGCTAGCCTTCTGGTTAAACTTATCATGTTGATTTTGATTGGTTTTTCAATCGCATCTTGGGC +CATTATTATCCAGCGGACCCGTATTCTTAACGCAGCGGCGCGCGAAGCCGAAGCGTTTGAAGATAAATTC +TGGTCTGGAATCGAACTCTCTCGCCTCTATCAAGAGAGCCAGGGGAAACGGGATAATCTGACTGGTTCGG +AACAAATCTTTTACAGCGGGTTCAAAGAGTTTGTGCGCCTGCATCGTGCCAATAGCCATGCGCCGGAAGC +CGTAGTGGAAGGGGCGTCGCGTGCTATGCGTATCTCCATGAACCGTGAACTTGAAAATCTGGAAACGCAC +ATTCCGTTCCTCGGTACGGTTGGCTCCATCAGCCCGTATATTGGTCTGTTTGGTACGGTCTGGGGGATCA +TGCACGCCTTTATCGCCCTCGGGGCGGTAAAACAAGCAACACTGCAAATGGTTGCGCCCGGTATCGCAGA +AGCGTTGATTGCGACTGCAATTGGTCTGTTTGCCGCTATCCCGGCAGTTATGGCCTACAACCGCCTCAAC +CAGCGCGTAAACAAACTGGAACTGAATTACGACAACTTTATGGAAGAGTTTACCGCGATTCTGCACCGCC +AGGCGTTTACCGTTAGCGAGAGCAACAAGGGGTAAGCCATGGCCAGAGCGCGTGGACGAGGTCGTCGCGA +TCTCAAGTCCGAAATCAACATTGTACCGTTGCTGGACGTACTGCTGGTGCTGTTGCTGATCTTTATGGCG +ACAGCGCCCATCATCACCCAGAGCGTGGAGGTCGATCTGCCAGACGCTACTGAATCACAGGCGGTGAGCA +GTAACGATAATCCGCCAGTGATTGTTGAAGTGTCTGGTATTGGTCAGTACACCGTGGTGGTTGAGAAAGA +TCGCCTGGAGCGTTTACCACCAGAGCAGGTGGTGGCGGAAGTGTCCAGCCGTTTCAAGGCCAACCCGAAA +ACGGTCTTTCTGATCGGTGGCGCAAAAGATGTGCCTTACGATGAAATAATTAAAGCACTGAACTTGTTAC +ATAGTGCGGGTGTGAAATCGGTTGGTTTAATGACGCAGCCTATCTAAACATCTGCGTTTCCCTTGCTTGA +AAGAGAGCGGGTAACAGGCGAACAGTTTTTGGAAACCGAGAGTGTCAAAGGCAACCGAACAAAACGACAA +GCTCAAGCGGGCGATAATTATTTCAGCAGTGCTGCATGTCATCTTATTTGCGGCGCTGATCTGGAGTTCG +TTCGATGAGAATATAGAAGCTTCAGCCGGAGGCGGCGGTGGTTCGTCCATCGACGCTGTCATGGTTGATT +CAGGTGCGGTAGTTGAGCAGTACAAACGCATGCAAAGCCAGGAATCAAGCGCGAAGCGTTCTGATGAACA +GCGCAAGATGAAGGAACAGCAGGCTGCTGAAGAACTGCGTGAGAAACAAGCGGCTGAACAGGAACGCCTG +AAGCAACTTGAGAAAGAGCGGTTAGCGGCTCAGGAGCAGAAAAAGCAGGCTGAAGAAGCCGCAAAACAGG +CCGAGTTAAAGCAGAAGCAAGCTGAAGAGGCGGCAGCGAAAGCGGCGGCAGATGCTAAAGCGAAGGCCGA +AGCAGATGCTAAAGCTGCGGAAGAAGCAGCGAAGAAAGCGGCTGCAGACGCAAAGAAAAAAGCAGAAGCA +GAAGCCGCCAAAGCCGCAGCCGAAGCGCAGAAAAAAGCCGAGGCAGCCGCTGCGGCACTGAAGAAGAAAG +CGGAAGCGGCAGAAGCAGCTGCAGCTGAAGCAAGAAAGAAAGCGGCAACTGAAGCTGCTGAAAAAGCCAA +AGCAGAAGCTGAGAAGAAAGCGGCTGCTGAAAAGGCTGCAGCTGATAAGAAAGCGGCAGCAGAGAAAGCT +GCAGCCGACAAAAAAGCAGCAGAAAAAGCGGCTGCTGAAAAGGCAGCAGCTGATAAGAAAGCAGCGGCAG +AAAAAGCCGCCGCAGACAAAAAAGCGGCAGCGGCAAAAGCTGCAGCTGAAAAAGCCGCTGCAGCAAAAGC +GGCCGCAGAGGCAGATGATATTTTCGGTGAGCTAAGCTCTGGTAAGAATGCACCGAAAACGGGGGGAGGG +GCGAAAGGGAACAATGCTTCGCCTGCCGGGAGTGGTAATACTAAAAACAATGGCGCATCAGGGGCCGATA +TCAATAACTATGCCGGGCAGATTAAATCTGCTATCGAAAGTAAGTTCTATGACGCATCGTCCTATGCAGG +CAAAACCTGTACGCTGCGCATAAAACTGGCACCCGATGGTATGTTACTGGATATCAAACCTGAAGGTGGC +GATCCCGCACTTTGTCAGGCTGCGTTGGCAGCAGCTAAACTTGCGAAGATCCCGAAACCACCAAGCCAGG +CAGTATATGAAGTGTTCAAAAACGCGCCATTGGACTTCAAACCGTAATCGCGATGTTGACTGTTCGGACG +GTCAACATCAGGCACCGGTTGCCACGGGGTTCTGGTAGTTTTGTGTATTTTAGTTTGTTAACATTCTGCT +AAATTATCGTGGGCCATCGGTCCAGATAAGGGAGATATGATGAAGCAGGCATTACGAGTAGCATTTGGTT +TTCTCATACTGTGGGCATCAGTTCTGCATGCTGAAGTCCGCATTGTGATCGACAGCGGTGTAGATTCCGG +TCGTCCTATTGGTGTTGTTCCTTTCCAGTGGGCGGGGCCTGGTGCGGCACCTGAAGATATTGGCGGCATC +GTTGCTGCTGACTTGCGTAACAGCGGTAAATTTAATCCGTTAGATCGCGCTCGTCTGCCACAGCAGCCGG +GTAGTGCGCAGGAAGTACAACCAGCTGCATGGTCCGCACTGGGCATTGACGCTGTAGTTGTCGGTCAGGT +CACTCCGAATCCGGATGGTTCTTACAATGTTGCTTATCAACTTGTTGACACTGGCGGCGCACCGGGTACT +GTACTTGCTCAGAACTCGTACAAAGTGAACAAGCAGTGGCTGCGTTATGCTGGTCATACCGCCAGTGATG +AAGTGTTTGAAAAACTGACCGGCATTAAAGGTGCGTTCCGTACTCGTATTGCCTACGTTGTTCAGACCAA +CGGCGGTCAGTTCCCGTATGAACTGCGCGTATCTGACTATGACGGTTACAACCAGTTTGTCGTTCACCGT +TCACCGCAGCCGCTGATGTCTCCGGCGTGGTCACCAGACGGTTCTAAACTGGCTTATGTGACCTTCGAAA +GCGGTCGTTCCGCGCTGGTTATTCAGACGCTGGCAAATGGCGCTGTACGTCAGGTGGCTTCATTCCCGCG +TCACAACGGTGCACCTGCATTCTCGCCAGACGGCAGCAAACTGGCATTCGCCTTGTCGAAAACCGGTAGT +CTGAACCTGTACGTAATGGATTTGGCTTCTGGTCAGATCCGCCAGGTGACTGATGGTCGCAGTAACAATA +CCGAACCGACCTGGTTCCCGGATAGCCAGAACCTGGCATTTACTTCTGACCAGGCCGGTCGTCCGCAGGT +TTATAAAGTGAATATCAACGGCGGTGCGCCACAACGTATTACCTGGGAAGGTTCGCAGAACCAGGATGCG +GATGTCAGCAGCGACGGTAAATTTATGGTAATGGTCAGCTCCAATGGTGGGCAGCAGCACATTGCCAAAC +AAGATCTGGCAACGGGAGGCGTACAAGTTCTGTCGTCCACGTTCCTGGATGAAACGCCAAGTCTGGCACC +TAACGGCACTATGGTAATCTACAGCTCTTCTCAGGGGATGGGATCCGTGCTGAATTTGGTTTCTACAGAT +GGGCGTTTCAAAGCGCGTCTTCCGGCAACTGATGGACAGGTCAAATTCCCTGCCTGGTCGCCGTATCTGT +GATAATAATTAATTGAATAGTAAAGGAATCATTGAAATGCAACTGAACAAAGTGCTGAAAGGGCTGATGA +TTGCTCTGCCTGTTATGGCAATTGCGGCATGTTCTTCCAACAAGAACGCCAGCAATGACGGCAGCGAAGG +CATGCTGGGTGCCGGCACTGGTATGGATGCGAACGGCGGCAACGGCAACATGTCTTCCGAAGAGCAGGCT +CGTCTGCAAATGCAACAGCTGCAGCAGAACAACATCGTTTACTTCGATCTGGACAAGTACGATATCCGTT +CTGACTTCGCTCAAATGCTGGATGCACATGCAAACTTCCTGCGTAGCAACCCGTCTTACAAAGTCACCGT +AGAAGGTCACGCGGACGAACGTGGTACTCCGGAATACAACATCTCCCTGGGTGAACGTCGTGCGAACGCC +GTTAAGATGTACCTGCAGGGTAAAGGCGTTTCTGCAGACCAGATCTCCATCGTTTCTTACGGTAAAGAAA +AACCTGCAGTACTGGGTCATGACGAAGCGGCATACTCCAAAAACCGTCGTGCGGTACTGGTTTACTAAGA +GAATTGCATGAGCAGTAACTTCAGACATCAACTATTGAGTCTGTCGTTACTGGTTGGTATAGCGGCCCCC +TGGGCCGCTTTTGCTCAGGCACCAATCAGTAGTGTCGGCTCAGGCTCGGTCGAAGACCGCGTCACTCAAC +TTGAGCGTATTTCTAATGCTCACAGCCAGCTTTTAACCCAACTCCAGCAACAACTTTCTGATAATCAATC +CGATATTGATTCCCTGCGTGGTCAGATTCAGGAAAATCAGTATCAACTGAATCAGGTCGTGGAGCGGCAA +AAGCAGATCCTGTTGCAGATCGACAGCCTCAGCAGCGGTGGTGCAGCGGCGCAATCAACCAGCGGCGATC +AAAGCGGTGCGGCGGCATCAACGACGCCGACAGCTGATGCTGGTACTGCGAATGCTGGCGCGCCGGTGAA +AAGCGGTAATGCAAACACGGATTACAATGCAGCTATTGCGCTGGTGCAGGATAAATCCCGCCAGGATGAC +GCAATGGTGGCATTTCAGAATTTCATCAAAAATTACCCTGATTCAACTTACCTGCCAAACGCCAATTATT +GGCTGGGTCAGTTAAACTACAACAAGGGTAAAAAAGATGATGCGGCGTACTATTTTGCTTCGGTAGTGAA +AAACTATCCGAAGTCACCAAAGGCTGCAGATGCGATGTTTAAAGTCGGCGTCATCATGCAGGACAAAGGT +GACACCGCAAAAGCGAAAGCCGTATACCAGCAGGTTATCAGTAAATACCCTGGTACTGATGGCGCTAAAC +AGGCACAAAAACGTCTGAACGCGATGTAATGCATAACACACGACCAGAAGTCGCATTATTTCTGGTCGTG +TCGTGCGAATCATAAGCAGTTGAGTGATCTACATCGAAATTTTTGTTGCGCTCAAGTCTGAAATCAGTAA +TATATGCCGCCGTTGCCACGGGATATCAAACAAACCGAAAGCAACGAAAAAGTGGGTCGTTAGCTCAGTT +GGTAGAGCAGTTGACTTTTAATCAATTGGTCGCAGGTTCGAATCCTGCACGACCCACCAATCGCTAAGGT +GGAAGCGGTAGTAAAACGTGAAGGATAACGTTGCATGAGCAACGGCCCGAAGGGCGAGACGAAGTCGAGT +CATCCTGCACGACCCACCACTAACATAGTTAGTTGTAGTATCCAGCGTAGTATCGGGTGATTAGCTCAGC +TGGGAGAGCACCTCCCTTACAAGGAGGGGGTCGGCGGTTCGATCCCGTCATCACCCACCACCGGGTCGTT +AGCTCAGTTGGTAGAGCAGTTGACTTTTAATCAATTGGTCGCAGGTTCGAATCCTGCACGACCCACCAGT +TTTAACATCGAAGACAGATGTTAAGCGTGTAGGATAACGTTGCGTCAGCAACGGCCCGTAGGGCGAGCGA +AGCGAGTCATCCTGCACGACCCACCACTAATGACGGTGGGTTCGGTGGAAGTAGTTTGTAGTATCCAGCG +CAGTATCGGGTGATTAGCTCAGCTGGGAGAGCACCTCCCTTACAAGGAGGGGGTCGGCGGTTCGATCCCG +TCATCACCCACCACTCGGGTCGTTAGCTCAGTTGGTAGAGCAGTTGACTTTTAATCAATTGGTCGCAGGT +TCGAATCCTGCACGACCCACCAGTTTTAACATCAAACTCAGATGTTAAGCGTGAAGGATAACGTTGCGCC +AGCAACGGCCCGTAGGGCGAGCGAAGCGAGTCATCCTGCACGACCCACCAATCTTAAAGATTGGCCCCGA +GTAAAAATCTTTCAGGTAACACCCGTATGGGTCGTTAGCTCAGTTGGTAGAGCAGTTGACTTTTAATCAA +TTGGTCGCAGGTTCGAATCCTGCACGACCCACCAATTTAAAGGTGGTTACTGGTAGAGAACGTGAAGGAT +AACGTTGCGTTAGCAACGGCCCGAAGGGCGAGACGAAGTCGAGTCATCCTGCACGACCCACCATCCTGAA +TGATTAAGGCAGCATAATCCCGCAAGGGGTCGTTAGCTCAGTTGGTAGAGCAGTTGACTTTTAATCAATT +GGTCGCAGGTTCGAATCCTGCACGACCCACCAATGTAAAAAAGCGCCCTAAAGGCGCTTTTTTGCTATCT +GCGATACTCAAAGATTCGAACCTGCAGCAGGTTTGAGTTGAGCGCAGCGAAACAACGGAGCCGCTCGCGG +CGACGGCCCGAAGGGCGAGCGAAGCGAGTCATCCTGCACGACCCACCAATGTAAAAAAGCGCCCTAAAGG +CGCTTTTTTGCTATTCAGGCATCCTCAATTTCACTTTGTAAACCTGATGACATCGTCAGAGCTTACTGTG +CAAGCAACTCTATGTCGGTGGAATTAGGCGTAAAATGACGCATCCTGCACATTAGGCGTAATTCGAGTGA +CTTTTCCCCACCATTCGACTATCTTGTTTAGCATATAAAACAAATTACACCGATAACAGCGAATATTACG +CTAATGTCGGTTTTAACGTTAAGCCTGTAAAACGAGATGGTAAGATGAGCGTAATGTTTGATCCAGACAC +GGCGATTTATCCTTTCCCCCCGAAGCCGACGCCGTTAAGCATTGATGAAAAAGCGTATTACCGCGAGAAG +ATAAAACGTCTGCTAAAAGAACGTAATGCGGTGATGGTTGCCCACTACTATACCGATCCCGAAATTCAAC +AACTGGCAGAAGAAACCGGTGGCTGTATTTCTGATTCTCTGGAAATGGCGCGCTTCGGTGCAAAGCATCC +CGCTTCTACTTTGTTAGTCGCTGGGGTGAGATTTATGGGAGAAACCGCCAAAATTCTCAGTCCGGAAAAA +ACAATTCTGATGCCGACACTTCAGGCTGAATGTTCACTGGATCTCGGCTGCCCTGTTGAAGAATTTAACG +CATTTTGCGATGCCCATCCCGATCGTACTGTCGTCGTCTACGCCAACACTTCTGCTGCGGTAAAAGCGCG +CGCAGATTGGGTGGTAACTTCAAGCATTGCCGTCGAACTTATTGATCATCTTGATAGTTTGGGTGAAAAA +ATCATCTGGGCACCCGACAAACATCTGGGGCGTTACGTGCAAAAACAGACGGGTGGAGACATTCTATGCT +GGCAGGGTGCCTGTATTGTGCATGATGAATTTAAGACTCAGGCGTTAACCCGCTTGCAAGAAGAATACCC +GGATGCTGCCATACTGGTGCATCCAGAATCACCACAAGCTATTGTCGATATGGCGGATGCGGTCGGTTCC +ACCAGTCAACTGATCGCTGCTGCGAAAACATTGCCACATCAGAGGCTTATTGTGGCAACCGATCGGGGTA +TTTTCTACAAAATGCAGCAGGCGGTGCCAGATAAAGAGTTACTGGAAGCACCAACCGCAGGTGAGGGTGC +AACCTGCCGCAGCTGCGCGCATTGTCCGTGGATGGCCATGAATGGCCTTCAGGCCATCGCAGAGGCATTA +GAACAGGAAGGAAGCAATCACGAGGTTCATGTTGATGAAAGGCTGCGAGAGAGGGCGCTGGTGCCGCTCA +ATCGTATGCTGGATTTTGCGGCTACACTACGTGGATAACGAATAATAAGGCGTAACGTTACGCTTTGGGG +GAAAGATGGATTTTTTTAGTGTGCAGAATATCCTGGTACATATACCAATAGGGGCAGGCGGTTATGATCT +CTCATGGATCGAAGCGGTAGGCACGATCGCCGGGTTGCTGTGTATTGGCCTTGCCAGTCTGGAGAAGATC +AGCAACTACTTCTTTGGCCTGATCAACGTCACCTTGTTTGGCATTATTTTCTTTCAGATTCAGCTGTATG +CCAGCCTGCTATTACAGGTGTTTTTCTTTGCCGCGAATATTTACGGTTGGTATGCGTGGTCGCGACAAAC +CAGTCAGAACGAGGCGGAGTTGAAAATTCGCTGGTTGCCATTGCCGAAGGCACTCAGCTGGTTGGCGGTT +TGCGTTGTTTCGATTGGTCTGATGACGGTATTTATCAATCCGGTGTTTGCATTTTTGACCCGCGTGGCAG +TCATGATCATGCAAGCATTAGGATTACAGGTTGTGATGCCTGAACTGCAACCGGACGCTTTCCCGTTCTG +GGATTCATGCATGATGGTGTTATCTATCGTGGCAATGATTCTGATGACGCGTAAGTATGTGGAAAACTGG +CTGTTGTGGGTGATTATTAACGTGATTAGCGTCGTTATTTTTGCACTTCAGGGCGTTTACGCCATGTCTC +TGGAGTACATCATCCTGACCTTTATTGCGCTCAACGGCAGCCGGATGTGGATCAACAGCGCACGTGAAAG +AGGCTCACGCGCGCTGTCCCATTAATGGTGATGATGTGAATGGCCAGACACCCCTTCATTCAGGTGGCAG +TCTGGCCCATGACAAGGTTGATATTCCATCTGAATGGTGGCGTGCTCAATCTGATAGTGATCCATCAGGT +AGTGTTGGATCTGATCCAACAAGGCATCGTGATCGTGTGGCGGGATCACCTGCACATGCAACGTCATCAC +CGGCTTCTCGCCTACCATCCATACATGTACATGGTGCACATTGCGGACTTCCGGGATTTCCCGGCACATA +CGACGCTTCAGTTCAGCGATATCCAGCGATACCGGTGCACCTTCAAGTAATTCATTCACGCTATCTTTCA +ACAGTCGCCACGCGCTACGCAGAACCAGAAGCGACACCAGTATCGAGAGAATGGGGTCAGCAGGTGTCCA +GCCAGTCCAGATAATAATCAACGCGGCAATAATAGCCCCAACCGAACCCAGCAGGTCCCCGAGCACATGC +AGTGCCGCTGCTCGTACGTTGAGGTTTTTCTCTTCGCTGCCGTGATGAAGTAACCAGAAAGAAAGTATAT +TTGCCAGCAACCCAGCCACGGCAATTGCCATCATCATGCCGCCCTCGACCGGACGCGGCGTGCGGAAGCG +TTCTATCGCCTCCCAGACAATCAAAATGGTAATTACCACGAGGGCTATGGCATTCACAAACGCCGCGAGC +GTGGTCAGTCTTAGCCAACCGAAAGTGTGGCGAATGGTGGGAGGACGACGTGAAAATTGCACGGCGAGTA +GGGCGAAAAGCAGGGCGGCAGTATCGGTCAACATATGACCCGCATCGGCCAGCAATGCCAGAGAACCAGA +AAGAAAACCACCAACGACTTCTACCAGCATAAACCCGGCAGTCACGCCGAAAGCATACAACAAGCGACGA +GCATTATTATCTTCTGGCAGGTGTGAGGACGTGTGTGAGTGTGAGTGCGCCATGACGAGTCATCCCTTAA +TTATTCTCACTTAACTTTATGACATCATACTGCTTTTAGAAGTGAAAAATTAAAAGGGAGAGACTCCGCT +CTCCCATTATTGGCTATTTTGCAGGGTTACTGCGTGGTACCGTCGGTTTTGGTATCGACATCATTATTGA +TGCCATCACCGGTTTGTACCTTTTTATTGATATCCGGACAGCGACCATCTTTGCACATGGTGTTCTTGTG +CTCTTCATCTTTGGTCATTCCGTCATTGTTCATTGAAGAACCATCCGAATGCAGCATTGTGCCGCCAGAA +CCGGTATTTACCCCGTTATTGTCGACGTTATTTGGCGCGACATTTTCACGGGCGTCAGGGGCTACCTGGC +CCGCATCAGCTGCGGCGTTTGCCTGGCCGTTATTAGTTTGCGCTCCGCTATCGGCAGCCAGTGCGGCACC +GCTGGCAAGGCTTAGAGTGGCAGTCAGAAATAATGTGGCCAGTTTTGTCATTTTCATAGGATGCTCCTGT +TATGGTCGTTATGTCGGATAACCTCTTCCAACAGTGCATTTGCAGGTGAATATAAGGCATTGGTTTAAGA +TTTCAGCCAGGTTATGAAACGCAGCAGAGAATCTTGAAATAATTAACAAACAAAGGAGTTACAGTTAGAA +ATTGTAGGAGAGATCTCGTTTTTCGCGACAATCTGGCGTTTTTCTTGCTAATTCCAGGATTAATCCGTTC +ATAGTGTAAAACCCCGTTTACACATTCTGACGGAAGATATAGATTGGAAGTATTGCATTCACTAAGATAA +GTATGGCAACACTGGAACAGACATGAATTATCAGAACGACGATTTACGCATCAAAGAAATCAAAGAGTTA +CTTCCTCCTGTCGCATTGCTGGAAAAATTCCCCGCTACTGAAAATGCCGCGAATACGGTTGCCCATGCCC +GAAAAGCGATCCATAAGATCCTGAAAGGTAATGATGATCGCCTGTTGGTTGTGATTGGCCCATGCTCAAT +TCATGATCCTGTCGCGGCAAAAGAGTATGCCACTCGCTTGCTGGCGCTGCGTGAAGAGCTGAAAGATGAG +CTGGAAATCGTAATGCGCGTCTATTTTGAAAAGCCGCGTACCACGGTGGGCTGGAAAGGGCTGATTAACG +ATCCGCATATGGATAATAGCTTCCAGATCAACGACGGTCTGCGTATAGCCCGTAAATTGCTGCTTGATAT +TAACGACAGCGGTCTGCCAGCGGCAGGTGAGTTTCTCGATATGATCACCCCACAATATCTCGCTGACCTG +ATGAGCTGGGGCGCAATTGGCGCACGTACCACCGAATCGCAGGTGCACCGCGAACTGGCATCAGGGCTTT +CTTGTCCGGTCGGCTTCAAAAATGGCACCGACGGTACGATTAAAGTGGCTATCGATGCCATTAATGCCGC +CGGTGCGCCGCACTGCTTCCTGTCCGTAACGAAATGGGGGCATTCGGCGATTGTGAATACCAGCGGTAAC +GGCGATTGCCATATCATTCTGCGCGGCGGTAAAGAGCCTAACTACAGCGCGAAGCACGTTGCTGAAGTGA +AAGAAGGGCTGAACAAAGCAGGCCTGCCAGCACAGGTGATGATCGATTTCAGCCATGCTAACTCGTCCAA +ACAATTCAAAAAGCAGATGGATGTTTGTGCTGACGTTTGCCAGCAGATTGCCGGTGGCGAAAAGGCCATT +ATTGGCGTGATGGTGGAAAGCCATCTGGTGGAAGGCAATCAGAGCCTCGAGAGCGGGGAGCCGCTGGCCT +ACGGTAAGAGCATCACCGATGCCTGCATCGGCTGGGAAGATACCGATGCTCTGTTACGTCAACTGGCGAA +TGCAGTAAAAGCGCGTCGCGGGTAAGGTTTAATTGTCGGATGCGCCGTCAGAGTGGCGTATCCGATGAAT +CACCACAGGCCTGATAAGTCGCGCAGCGTCGCATCAGGCAATGTGCTCCATTGTTAGCAACAAAAAAGCC +GACTCACTTGCAGTCGGCTTTCTCATTTTAAACGAATGACGTTTACTTCGCTTTACCCTGGTTTGCAACC +GCCGCTGCTTTCGCTGCGATCTCGTCAGCATTACCCAGATAATAGCGTTTCAGCGGTTTGAAATTCTCGT +CGAACTCATACACCAGCGGCACGCCAGTCGGGATATTAAGCTCAAGAATCTCTTCTTCGCTCATGTTATC +AAGATATTTCACCAGCGCACGTAAAGAGTTACCGTGTGCAGCGATGATCACGCGCTCACCGCTCTTCATA +CGCGGCAGAATAGTTTCATTCCAGTAAGGGATCACGCGGTCAATGGTCAGCGCCAGGCTTTCCGTCAGCG +GCAGTTCTTTCTCGCTCAGTTTCGCGTAACGCGGATCGTGACCCGGATAACGCTCATCATCTTTAGTCAG +TTCCGGCGGAGTCACTGCAAAACCACGACGCCACTGTTTCACCTGCTCGTCGCCATACTTTTCAGCAGTT +TCCGCTTTGTTCAGACCCTGCAACGCACCGTAGTGACGTTCGTTCAGTTTCCAGGATTTCTCAACGGGCA +GCCATGCCTGATCCAGTTCGTCCAGCACATTCCACAGGGTATGGATAGCGCGTTTCAGCACAGAAGTGTA +AGCAAAGTCAAAGCTGTAACCTTCCTCTTTCAGCAGCTTACCTGCTGCTTTTGCTTCGCTTACGCCTTTC +TCAGACAGATCCACGTCGTACCAACCGGTGAAACGGTTTTCTTTGTTCCACTGACTTTCGCCATGACGAA +CCAGAACCAGCTTAGTTACAGCCATATACTTACTCCTCAAATCATCTTTTAATGATAATAATTCTCATTA +TATTGCCGCGACGAAGCAACAGCAATGCTTACGCATAACCATAGCGAAAATAGTGGCGCAGTGTAAGGTT +GTTGTGAATATTGAGTTGCAAATATGTCGGTGTTTGCTGGTGATTTGAACAATATGAGATAAAGCCCTCA +TGACGAGGGCGTAACATTACTCAGCAATAAACTGATATTCCGTCAGGCTGGAATACTCTTCGCCAGGACG +CAGGAAGCAGTCCGGTTGCGGCCATTCAGGGTGGTTCGGGCTGTCCGGTAGAAACTCGCTTTCCAGAGCC +AGCCCTTGCCAGTCGGCGTAAGGTTCGGTTCCCCGCGACGGTGTGCCGCCGAGGAAGTTGCCGGAGTAGA +ATTGCAGAGCCGGAGCGGTGGTGTAGACCTTCAGCTGCAATTTTTCATCTGCTGACCAGACATGCGCCGC +CACTTTCTTGCCATCGCCTTTGGCCTGTAACAAGAATGCGTGATCGTAACCTTTCACTTTGCGCTGATCG +TCGTCGGCAAGAAACTCACTGGCGATGATTTTGGCGCTGCGGAAATCAAAAGACGTTCCGGCGACAGATT +TCAGGCCGTCGTGCGGAATGCCGCCTTCATCAACCGGCAGATATTCGTCCGCCAGAATCTGCAACTTGTG +ATTGCGCACGTCAGACTGCTCGCCGTCAAGATTGAAATAGACGTGATTAGTCATATTCACCGGGCAAGGT +TTATCAACTGTGGCGCGATAAGTAATGGAGATACGGTTATCGTCGGTCAGACGATATTGCACCGTCGCGC +CGAGATTACCCGGGAAGCCCTGATCACCATCATCTGAACTCAGGGCAAACAGCACCTGACGATCGTTCTG +GTTCACAATCTGCCAGCGACGTTTGTCGAACCCTTCCGGCCCGCCGTGCAGCTGGTTAACGCCCTGACTT +GGCGAAAGCGTCACGGTTTCACCGTCAAAGGTATAACGGCTATTGGCGATACGGTTGGCATAACGACCAA +TAGAGGCCCCCAGAAACGCGGCCTGATCCTGATAGCATTCCGGGCTGGCACAGCCGAGCAGCGCCTCGCG +GACGCTGCCATCGGAAAGCGGAATACGGGCGGAAAGTAAAGTCGCACCCCAGTCCATCAGCGTGACTACC +ATCCCTGCGTTGTTACGCAAAGTTAACAGTCGGTACGGCTGACCATCGGGTGCCAGTGCGGGAGTTTCGT +TCAGCACTGTCCTGCTCCTTGTGATGGTTTACAAACGTAAAAAGTCTCTTTAATACCTGTTTTTGCTTCA +TATTGTTCAGCGACAGCTTGCTGTACGGCAGGCACCAGCTCTTCCGGGATCAGCGCGACGATACAGCCGC +CAAATCCGCCGCCGGTCATGCGTACGCCACCTTTGTCGCCAATCACAGCTTTGACGATTTCTACCAGAGT +GTCAATTTGCGGCACGGTGATTTCGAAATCATCGCGCATAGAGGCATGAGACTCCGCCATCAACTCGCCC +ATACGTTTCAGGTCGCCTTGCTCCAGCGCGCTGGCAGCTTCAACGGTGCGGGCGTTTTCAGTCAGTATAT +GACGCACGCGTTTTGCCACGATCGGGTCCAGTTCATGCGCAACAGCGTTGAACTCTTCAATGGTGACATC +ACGCAGGGCTGGCTGCTGGAAGAAACGCGCACCGGTTTCGCACTGTTCACGACGGGTGTTGTATTCGCTG +CCAACCAGGGTACGTTTGAAGTTACTGTTGATGATGACGACAGCCACACCTTTGGGCATGGAAACTGCTT +TGGTCCCCAGTGAGCGGCAATCGATCAGCAAGGCATGATCTTTCTTGCCGAGCGCGGAAATTAGCTGATC +CATGATCCCGCAGTTACAGCCTACAAACTGGTTTTCTGCTTCCTGACCGTTAAGCGCGATTTGTGCGCCG +TCCAGCGGCAGATGATAAAGCTGCTGCAATACGGTTCCGACCGCGACTTCCAGTGAAGCGGAAGAACTTA +ACCCGGCACCCTGCGGCACATTGCCGCTGATCACCATGTCCACGCCGCCGAAGCTGTTGTTACGCAGTTG +CAGATGTTTCACCACGCCACGAACGTAGTTAGCCCATTGATAGTTTTCATGTGCGACAATGGGCGCATCG +AGGGAAAACTCGTCGAGCTGATTTTCATAATCGGCTGCCATCACGCGAACTTTACGGTCATCGCGTGGTG +CACAACTGATCACGGTTTGATAATCAATCGCGCAGGGCAGAACGAAACCGTCGTTGTAGTCGGTGTGTTC +ACCAATCAAATTCACGCGGCCAGGCGCCTGAATGGTGTGAGTGGCAGGGTAGCCAAATGCGTTGGCAAAC +AGAGATTGTGTTTTTTCTTTCAGACTCATTTCTTACACTCCGGATTCGCGAAAATGGATATCGCTGACTG +CGCGCAAACGCTCTGCTGCCTGTTCTGCGGTCAGGTCTCGCTGGGTCTCTGCCAGCATTTCATAACCAAC +CATAAATTTACGTACGGTGGCGGAGCGCAGCAGAGGCGGATAAAAGTGCGCGTGCAGCTGCCAGTGTTGA +TTCTCTTCGCCATTAAATGGCGCGCCGTGCCAGCCCATAGAGTAGGGGAAGGAGCACTGGAAGAGGTTGT +CATAACGACTGGTCAGCTTTTTCAACGCCAGCGCCAGATCGCTGCGCTGGGCGTCGGTCAAATCGGTGAT +CCGTAAAACGTGGGCTTTGGGCAGCAGTAGCGTTTCGAACGGCCAGGCAGCCCAGTAAGGCACGACGGCT +AACCAGTGTTCGGTTTCGACAACGGTACGGCTACCGTCTGCCAGCTCGCGCTGAACATAATCCACCAGCA +TTGGTGATTTCTGTTCGGCAAAATATTCTTTTTGCAGGCGGTCTTCGCGCTCAGCTTCGTTAGGCAGGAA +GCTATTTGCCCAAATCTGACCGTGCGGATGCGGGTTAGAGCAGCCCATCGCCGCGCCTTTGTTTTCAAAA +ACCTGCACCCATGGGTACGTTTTCCCCAGTTCTGCGGTTTGCTCCTGCCAGGTTTTGACGATTTCCGTCA +ATGCTGCAACGCTGAGCTCTGGCAGCGTTTTACTGTGATCCGGTGAAAAGCAGATCACCCGGCTGGTGCC +GCGCGCGCTCTGGCAACGCATCAGCGGATCGTGACTTTCTGGCGCATCTGGCGTGTCAGACATCAAAGCC +GCAAAGTCATTAGTGAAAACGTAAGTCCCGGTGTAATCGGGGTTTTTATCGCCTGTCACCCGCACATTAC +CTGCGCAGAGGAAGCAATCTGGATCGTGCGCAGGTAACACCTGTTTGGCTGGCGTTTCCTGCGCCCCCTG +CCAGGGGCGCTTAGCGCGGTGCGGTGAAACCAGAATCCATTGCCCGGTGAGCGGGTTGTAGCGGCGATGT +GGATGATCAACGGGATTAAATTGCGTCATGGTCGTTCCTTAATCGGGATATCCCTGTGGATGGCGTGACT +GCCAGTGCCAGGTGTCCTGCGCCATTTCATCGAGTGTGCGCGTTACGCGCCAGTTCAGTTCACGGTCGGC +TTTGCTGGCGTCCGCCCAGTAGGCCGGAAGGTCGCCCTCGCGACGCGGTGCAAAATGATAATTAACCGGT +TTGCCGCAGGCTTTGCTGAAGGCATTAACCACGTCCAGCACGCTGTTGCCTACGCCAGCGCCGAGGTTGT +AGATGTGTACGCCTGGCTTGTTCGCCAGTTTTTCCATCGCCACGACGTGACCGTCCGCCAGATCCATTAC +GTGGATGTAATCGCGTACGCCAGTACCATCTTCGGTCGGATAATCGTTACCAAAAATCGCCAGCGAGTCG +CGACGGCCTACAGCAACCTGGGCGATGTATGGCATCAGGTTATTCGGAATGCCTTGCGGATCTTCGCCCA +TATCGCCCGACGGATGCGCGCCAACCGGGTTGAAGTAGCGCAGCAGGGCAATGCTCCAGTCCGGCTGGGC +TTTTTGCAGATCGGTGAGGATCTGTTCCACCATCAGCTTGCTTTTGCCGTAAGGGCTTTGCGGTGTGCCG +GTCGGGAAGCTTTCAACGTATGGAATTTTGGGCTGATCGCCATAAACGGTGGCGGAGGAGCTAAAAATAA +AGTTTTTGACGTTAGCGGCGCGCATGGCGCTAATCAGGCGCAGAGTGCCGTTGACATTGTTGTCGTAATA +TTCCAGCGGTTTTTGTACCGATTCGCCCACGGCTTTCAGCCCGGCGAAGTGGATCACGGTGTCGATAGCG +TGATCGTGCAGGATCTCGGTCATCAACGCTTCGTTACGAATATCGCCTTCAACAAACGTTGGATGTTTGC +CGCCTAAACGCTCGATAACAGGCAGTACGCTGCGCTTACTGTTACAGAGGTTATCAAGAATGATGACATC +ATGACCGTTTTGCAGTAATTGCACACAGGTATGACTTCCAATGTAACCGCTACCACCGGTAACCAGAACT +CTCATAATTCGCTCCATTAGGCTTATGGTATGAAATAACCATAGCATAACAAAGATGCGAAAAGTGTGAC +ATGGAATAAATTAGTGGAATCGTTTACACAAGAATTTAGCCGTTTTTTATGCGCGATTAAGTGATTATAA +AACAGAGGGTTTATGAATGATTGCGCTTTTTATCTGAAAAAAGACGCGGTTTCATGCCTGCATGCGTCGA +ACCGTTGGCCGGAGAGGGTGCTAAGGCCGCCTCCGGCAAGGTCAGCACTACCGACTCAATATATTTTTGT +CAGCACATAGCGATAGAGTCCACCGTCCGGCACGAACTCAAGACGATGGGTAATACAGGCAGGCGCATCT +TCAGCGTGGTGCGAAACAAACAACAATTGCGTTTCACCTTCGCTAATCAGCACATCAACAAAACGGCGGA +TAAGCTGGCGATTCAGCGGATCAAGCCCCTGTAGTGGTTCATCGAGAATAAGCAACGTCGGATGTTTCAC +CAGTGCGCGGACAATCAGCGCCAGACGCTGCTGTCCCCAGGAAAGACTATGGAACGGAGCGTCAGCCGTG +CGTTTATCAATGCCGAGAATATCCAGCCACTGCTGCACCAGTTTTTGCTGGCGATCCGAAACGGCCTGAT +AAATGCCAATCGAATCAAAATAGCCAGAAAGAATCACATTACGCACGGTAGTGCTGACCCGGTAATCCAG +ATGCAAACTACTGCTGACGTAACCGATATGCTTTTTGATATCCCAGATGGTTTCGCCGCTGCCGCGACGT +CGTCCGAAAAGCGTCAAATCGTTGCTGTAACCTTGCGGATGATCGCCAGTAACCAGGCTTAATAACGTCG +ATTTTCCTGCACCATTTGGCCCGACAATTTGCCAGTGTTCGCCTGGATTCACCTGCCAGCTAAGGTTATT +AAGAATGGGGCGATCGTTATAAGAAACCACGCCATTGTTCAGCACAATGCGCGGTTCGTTGGCGGGTAAG +GCGTGACGTGCTGAAGGTTCATCCGGCTCCGGCAGTTGCACACCTTCAAGCTGTTCACTATGCGCCAGTT +GCGCGACGAGTGCTTGTTGGAGCAGTTCCTCTTTAGCGCCAGTTTCCGCTAACGTGCAATCCGCCAGCAC +GCCAGCAAACTGGACAAACTCCGGGATCTCATCGAAGCGATTGAGCACCAGTACCAGAGTAATACCGGAC +TGATGTAACGAGGCGAGTCGCTCAGCCAGCTGCTGACGTGAGGCAACATCCAGGCCATCGAACGGCTCAT +CAAGAATCAACAAGTCAGGCTCCGACATCAGCGCCTGACACAGCAGGGTTTTTCGCGTCTCGCCAGTGGA +AAGGTATTTAAAGCGTCGGTCGAGGAGGGCGGTAATACCGAACTGCTGCGCCAGTTGCATGCAACGCGGT +GCATCCTTTACTTCATCCTGAATGATCTCAGCCGTAGTGCGTCCGGTGTCATCTTCGCCAGGGCCGAGCA +TATCGGTGTTATTCCGCTGCCATTCGTCGCTGACGAGTTTTTGCAATTGCTCGAAGGAGAGACGAGTGAT +GTGGGAAAACTGGCTTTGCCGTTCACCTTTCAAAAGCGGAAGTTCCCCCGCCAGCGCGCGGGCCAGGGCC +GATTTCCCGCTTCCATTCGAACCGACAAACGCCCAACTATCACCCGCGTTTAACGTTAGCTGAGGCAATT +GCAGCGTTTTTGTGTCGCTAAGACGAAACGTGCCTTGCAAAATTTGCAACGATGACATTTTATATCCCAC +TTTGTGCAGCGATTACTGACAGGGATACGTGTTTCATAACAAATTGTCAACACGCTTAGCACAGCGTGGC +GATAATCACGCTGTCGGCATTAAAGTAGGCCGTGACATTCTGTCCTTGCTGAAGAGAAGTCGCTTCATTT +ACCGGCACTGTGGCGCACAGTGTTTGCCCGTCGGGTAGCGCCATTAATACTTCGCACTGCTCTGCGCCGC +GCTCAATATGACTAATAATACCCGGTAATTGGTTGTCAGCGTTTTGCGCGACCGCCTCGTCCTGAGTAAT +ACCTACCCACGGCGCTTTTAGCAATATCAACACTTCTTTGCCTTCATCCAGCCCCAGACGCGCGCCGCTT +TGTGCGGTAATTGCGACTTTCAGGCGTGTTTTTCCGTCAGCCAGTAAGACATCAACATGCTGTTGAACGT +CATCATGATCGCGGGCGGTGATGGTACCGAACCACTGGTTACGGGCGCTGGTTTGCAGTGAAAAACGTGA +GATCGCGGCCAGCAGGCTGTTCAGCGGCAGGGCGTCATCGTCACTTAACACATCAAAGGCTTTTTGCTGG +ATTTGCGCCAGTAAGTCATAGAGCTGAATCAGTCGCTGACCATAGCGGGTCAGTACTGCGCCGCCGCCAC +CTTTACCGCCTGTTGCGCGCTCGACCAGAATATGCTCACTTAACTGATTCATCTCGTTAATGGCATCCCA +GGCGCTTTTATAGCTAATACCGGCATCTTTCGCTCCCTGGCTAATGGAACCGGAAAGCGCAATGTGTTTT +AGTAGCGAAATGCGGCGCGGGTCGGCGAATAATTTTTGTTGGAGCTTAAGGGTGAGAAGGATTTCGGCCT +GCATAACAATGTCCTGGCAAAAGTCTTATTGTGACGGAAAACGAACGCCACGCAAAGCTGACCGCACAAA +AGGGGAGTGCTTTTCTGTGCTTAGCGGTTAGAATAGTCTCATGACTATATCTGGAGTTGACCATGTTAGA +GTTATTAAAAAGTCTGGTATTCGCCGTAATCATGGTACCTGTCGTGATGGCCATCATCCTGGGTCTGATT +TACGGTCTTGGTGAAGTATTCAACATCTTTTCTGGTGTTGGTAAAAAAGACCAGCCCGGACAAAATCATT +GATTCCCTGAATGCCCGCTTAGTCGGGCATTTTCTTTTTCTCAACTTCCTGCTTTTCCTGCCGATATTTT +TTCTTATCTACCTCACAAAGGTTAGCAATAACTGCTGGGAAAATTCCGAGTTAGTCGTTATATTGTCGCC +TACATAACGTTACATTAAGGGGTTACCAATGGCTCGTAAATGGTTGAACTTGTTTGCCGGGGCGGCACTC +TCTTTCGCTGTTGCTGGCAATGCACTGGCAGATGAAGGGAAAATCACGGTGTTCGCCGCCGCATCACTGA +CTAACGCAATGCAGGACATTGCTACGCAGTTTAAAAAAGAGAAAGGCGTGGATGTGGTTTCTTCTTTCGC +TTCGTCATCTACTCTCGCCCGTCAGATTGAAGCGGGTGCGCCTGCGGATCTGTTTATTTCTGCCGATCAG +AAATGGATGGATTATGCGGTTGATAAAAAAGCGATCGATACAGCTACGCGTCAGACACTGCTCGGCAATA +GCCTGGTCGTTGTAGCACCGAAAGCCAGCGTGCAGAAAGATTTCACCATCGACAGCAAAACCAACTGGAC +TTCACTGCTGAATGGCGGTCGCCTGGCGGTTGGCGATCCGGAACATGTTCCCGCTGGCATTTATGCAAAA +GAAGCACTGCAAAAACTGGGCGCATGGGATACGCTCTCTCCGAAACTGGCCCCAGCGGAAGATGTTCGTG +GGGCGCTGGCGCTGGTCGAACGTAACGAAGCGCCTCTGGGCATTGTCTACGGTTCTGACGCAGTTGCCAG +CAAAGGGGTAAAAGTGGTTGCCACCTTCCCGGAAGATTCACATAAAAAAGTGGAATATCCGGTTGCTGTT +GTGGAAGGGCATAACAATGCGACAGTGAAAGCATTTTATGATTATCTGAAGGGACCGCAGGCAGCGGAAA +TCTTTAAACGTTACGGATTTACAATCAAGTAATGATACTGACCGATCCAGAATGGCAGGCAGTTTTATTA +AGCCTGAAAGTTTCTTCCCTGGCTGTGCTGTTTAGCCTGCCGTTTGGGATCTTTTTTGCCTGGTTACTGG +TGCGTTGCACGTTTCCGGGCAAAGCTCTGCTCGACAGCGTACTGCATCTACCGCTGGTGTTACCGCCCGT +GGTCGTCGGTTACTTATTATTAGTTTCGATGGGACGGCGCGGATTTATCGGTGAACGTCTGTATGACTGG +TTTGGTATTACCTTCGCCTTTAGCTGGCGCGGCGCGGTTCTCGCTGCCGCCGTCATGTCGTTTCCGCTGA +TGGTGCGGGCAATTCGTCTGGCGCTGGAAGGGGTTGATGTCAAACTGGAACAGGCCGCAAGAACACTGGG +GGCCGGGCGCTGGCGCGTTTTCTTTACTATCACGTTACCGCTGACCTTACCGGGAATTATTGTTGGTACG +GTACTGGCTTTTGCTCGTTCTCTCGGTGAGTTTGGTGCAACCATCACCTTTGTGTCGAACATTCCTGGTG +AAACGCGAACCATTCCTTCTGCCATGTATACCCTGATCCAGACCCCCGGCGGGGAAAGTGGAGCGGCGAG +ACTGTGCATTATTTCTATTGCGCTGGCGATGATCTCCCTGTTGATTTCAGAATGGCTGGCCAGAATCAGC +CGTGAACGGGCGGGGCGCTAATCATGCTGGAACTGAATTTTTCCCAGACGTTGGGCAACCATTGCCTGAC +TATTAATGAAACGCTGCCCGCCAATGGCATCACTGCTATCTTTGGCGTCTCCGGTGCCGGAAAAACTTCG +CTGATTAACGCCATCAGTGGACTGACGCGCCCGCAAAAAGGGCGGATTGTCCTCAATGGGCGGGTACTAA +ATGATGCCGAAAAAGGTATCTGCCTGACGCCGGAAAAGCGTCGCGTTGGCTATGTTTTTCAGGATGCGCG +GCTGTTCCCGCATTACAAAGTGCGTGGCAATCTGCGCTACGGCATGTCGAAAAGTATGGTCGATCAGTTC +GATAAGCTGGTGGCGCTTTTAGGCATTGAACCGTTGCTTGACCGTTTACCAGGCAGCCTGTCCGGAGGCG +AAAAACAGCGCGTGGCGATTGGTCGGGCTTTGCTGACAGCACCGGAATTGCTGTTGCTGGATGAACCGCT +GGCGTCACTGGATATTCCGCGTAAACGCGAACTGTTGCCTTATCTGCAACGGCTGACACGGGAAATCAAC +ATTCCGATGTTGTATGTCAGCCATTCGCTGGATGAGATCCTCCATCTGGCAGACAGAGTGATGGTACTGG +AAAACGGTCAGGTGAAAGCCTTTGGCGCGCTGGAGGAAGTGTGGGGCAGTAGCGTGATGAATCCGTGGCT +GCCGAAAGAGCAACAAAGTAGCATTCTGAAAGTGACGGTGCTTGAGCATCATCCGCATTACGCGATGACC +GCGCTGGCGCTGGGCGATCAGCATTTGTGGGTCAATAAGCTGGACGAACCGCTGCAAGCTGCGCTACGTA +TCCGCATTCAGGCTTCCGATGTTTCTCTGGTTTTACAACCGCCGCAGCAAACCAGCATTCGTAACGTATT +GCGGGCAAAAGTTGTTAATAGTTATGACGACAACGGCCAGGTGGAAGTGGAACTGGAAGTCGGCGGTAAA +ACGCTGTGGGCGCGTATCAGCCCGTGGGCCAGGGATGAACTGGCGATCAAACCTGGCCTGTGGCTGTACG +CGCAAATTAAAAGTGTGTCGATAACCGCCTGATTAAATCAGGTGGCTATAAATGAACTGGGCAATGCTGT +CGGTGGTGTTATCACCAATCACAATGTTGGCGCGCGCTTTTACCGCGTCATCGGCGTTGCCCATCGCCAC +GCCTGTACCAGCGGCTTCCAGCATACTGATATCATTAAAGTTATCGCCGAATGCCACGACGTTTTCCATC +GACCAACCTTGCGCCTCAACCCATTTCGTCAAACGTTTACCTTTGCTGTTGCCGCCGCGTGCAATATCAA +CCTGATCGTGCCAGGACCATTCACACTCCAGTCCCAGTTCATGTTCGACATGCTTACCAAAATGCTGCAA +TTGCGGCAGGTCATCGTGCGTCAGGGCGAACTTCCATACGGCGTTAACTTGTTGCGCCGTTTCAGCCAGA +GAAGCGACTTGTGTGAAAGTCGGACGCTGTTCCGGCGGCAGGGTTTGCGCCCAGTTAGATGTGCGAATGA +CATGCCCGGTCGGGTGCTCATAGACCATTGCATCATCGACATACATCAGACCGTGAATGTGGTGTTCATT +CAGCATCTCAATGAGTTGCAGGGCTTTAATAACGGGCATTGGGTCCGCTTCCAGCACGGTTTTTGCATGA +TAATCATACAAATAGGTGCCATTACAGCAAATAGCAGGTGTATCCAGCGCCAGCGCCTGATAAAAAGGAT +GAATAGCGACGTGATGGCGACCTGTGACGATGATTAATTGATAGCCTGCTTCGCGAGCGCGGGCCAGGGC +TTCTATCGATGAAGGAAGCAGGGTCTTTTTCGGGGTCAATAAGGTGCCGTCTAAGTCGAGAGCAATCACG +CGTGTGGTCATGGCGTATTCCAGATTAAGGTTAAGAATTTTCGTCTGCGCGAATGGTACACCGATACCAC +TATCGGACAAAATTCTGCGTTTTAATTCAGCATTCACCGCCAAAAGCGACTAATTTTAGCTGTTACAGTC +AGTTGCTAAATGCAAAGGAGCATTCATGAAGCAAACAGTTTATATCGCCAGCCCTGAGAGCCAGCAAATT +CACGTCTGGAATCTGAATCATGAAGGCGCACTGACGCTGACACAGGTTGTCGATGTGCCGGGGCAGGTGC +AGCCGATGGTGGTCAGCCCGGACAAACGTTATCTCTATGTTGGTGTTCGCCCTGAGTTTCGCGTCCTGGC +GTATCGTATCGCCCCGGACGATGGCGCACTGACCTTTGCCGCAGAGTCTGCGCTGCCGGGTAGTCCGACG +CATATTTCCACCGATCACCAGGGGCAGTTTGTCTTTGTAGGTTCTTACAATGCGGGTAACGTGAGCGTAA +CGCGTCTGGAAGATGGCCTGCCAGTGGGCGTCGTCGATGTGGTCGAGGGGCTGGACGGTTGCCATTCCGC +CAATATCTCACCGGACAACCGTACGCTGTGGGTTCCGGCATTAAAGCAGGATCGCATTTGCCTGTTTACG +GTCAGCGATGATGGTCATCTCGTGGCGCAGGACCCTGCGGAAGTGACCACCGTTGAAGGGGCCGGCCCGC +GTCATATGGTATTCCATCCAAACGAACAATATGCGTATTGCGTCAATGAGTTAAACAGCTCAGTGGATGT +CTGGGAACTGAAAGATCCGCACGGTAATATCGAATGTGTCCAGACGCTGGATATGATGCCGGAAAACTTC +TCCGACACCCGTTGGGCGGCTGATATTCATATCACCCCGGATGGTCGCCATTTATACGCCTGCGACCGTA +CCGCCAGCCTGATTACCGTTTTCAGCGTTTCGGAAGATGGCAGCGTGTTGAGTAAAGAAGGCTTCCAGCC +AACGGAAACCCAGCCGCGCGGCTTCAATGTTGATCACAGCGGCAAGTATCTGATTGCCGCCGGGCAAAAA +TCTCACCACATCTCGGTATACGAAATTGTTGGCGAGCAGGGGCTACTGCATGAAAAAGGCCGCTATGCGG +TCGGGCAGGGACCAATGTGGGTGGTGGTTAACGCACACTAACCGCTGATTTACCCGGCGCAGTCTCTCCT +GCGCCGGTGTATTAACCTATCTCCTGTAACGCGTGTCTCTGGCGTTCGACGATATTGGTCCACAAATTGT +CTTTATCGTCAGTCCATAAATTAATCAGCAAGGCAAAAAAGCGTTCTGCTGCTGGAGAAAGTACGGCATC +TTTACGGCGAATTATTCCCAATGTTCGACGTATAACGGGTTCCACCAATGGGATACCAATAATCGAAGAA +TAGGGCGCATGAGGCATTGCCAGGCCAGGAAGCGCCGAAATCCCCAGTCCCGCCTCCACCAGTCCTAATG +ACGTCGAAAGATGACGCACTTCGTAAAACCAGTCCAGCTTCCAGGGCTTGTCGGCCAGCTGTTGTTCTAT +CAACAGTCGGTTGCCGCTGGAGGAGCGTACGCCAATCATTTTGTAACCCACTAACTCCTGCCATTCTACA +AGCTGCTTTTTGGCCAATGGATGGTCACGCCGACAGGCCAGCACGAACGGCTCGTTGACCAGTGGGGTAA +AATCAATGGATGAATTTGTGACGTTGTTCATGTTTATGCCAAAGTCTGATTCGTTACACAGCACCGATTC +CATGCAATTATTCGTGCCTTGTTCCAGAATCCGCACTTTAATATTGGGATACAGCTCATTAAATTTACCG +ATTGCCAGCGGTAAAAAATAAAATACTGCGGTCGGAATACACGCTAACGTCACCATACCACGATGATAAG +CATTCATATCACGAATATTAAAAAGCGTTTCATCGAATTTCTTTATTAATTCCCGCGCCTCCGGGAGCAA +CCTTTTTCCTGCTTTTGTTAACGTAACCTTGCGAGTTGTACGCTCAAATAGTTGAACATGTAAATCTTCC +TCCATCTTTTTTATTCTTCGCGTTAATGCAGGTTGCGTAATATTGAGTAATTTAGCGGCATTGTTAAACG +AACTGGACTCTGCCAGTATGACAAATGCCTTCATACTTGATAATTCATGCTTCATTATTACTCCGGAAAA +TGGAAGCGACGATTTTGGGTGGCTGGCCGTTAAAAATTTTAACTGCATTTAGCCAACTTAAATTAATGAA +AAAATGTTATTAATCGTTGAGCTAAAGTCATTAGAGATGCTTTGCCCTTAATGTAACCATATCGCAATAA +GTTATGTTTTTAAATTGAGGGCATTATTATGAAAAAAATACCCTGCGTGATGATGCGAGGTGGAACCTCG +AGGGGCGCGTTCCTGTTAGCGGAACATTTACCCGAAGATCAAACGCAGCGCGATAAAATATTGATGGCAA +TTATGGGTTCCGGTAACGATCTGGAAATTGACGGTATTGGCGGCGGTAATCCACTGACCAGTAAAGTCGC +CATTATTAGCCGTTCCAGCGATCCGCGTGCTGATGTCGATTATCTGTTTGCGCAGGTAATCGTTCATGAG +CAACGTGTCGATACCACGCCTAACTGCGGCAATATGCTGTCTGGTGTTGGGGCATTCGCCATTGAAAATG +GTTTGATTGCAGCGACTTCGCCAGTTACTCGCGTACGTATCCGCAACGTCAATACGGGTACGTTCATCGA +AGCTGATGTGCAAACGCCAAATGGTGTTGTCGAGTACGAGGGTAGCGCCAGAATTGACGGCGTACCGGGT +ACTGCCGCACCGGTTGCGCTCACTTTCCTGAATGCCGCTGGAACCAAAACCGGAAAAGTTTTCCCGACTG +ATAATCAGATTGATTATTTTGACGATGTCCCGGTGACCTGTATCGATATGGCGATGCCAGTCGTCATTAT +TCCGGCTGAATATCTGGGAAAAACAGGTTATGAATTACCGGCGGAACTGGATGCCGACAAAGCATTATTA +GCCCGCATTGAATCTATCCGTCTACAAGCGGGTAAAGCAATGGGCTTAGGTGATGTCAGTAATATGGTTA +TCCCTAAACCTGTGCTTATTTCTCCAGCGCAGAAAGGCGGGGCAATTAATGTGCGTTATTTTATGCCGCA +TTCTTGCCATCGCGCGCTGGCGATAACCGGTGCTATTGCTATTTCCAGTAGTTGTGCATTGGAAGGCACC +GTCACCCGACAAATCGTCCCTTCTGTAGGATACGGCAATATCAATATTGAACACCCCAGTGGTGCGCTCG +ACGTTCATTTAAGTAATGAAGGTCAGGATGCCACGACGTTACGCGCATCTGTTATTCGGACGACCAGAAA +AATATTTTCCGGTGAAGTTTATCTTCCCTGAAAAAATTCGTTGTCAGGATAAGGACAATCAATAAAGGAC +TTCTGTATGAGTCATACAGAAAGAACAGGATTTTAAATGAATAAGAAATCGTTATGGAAGCTAATTCTGA +TATTAGCGATCCCATGTATTATTGGTTTTATGCCAGCTCCGGCAGGATTAAGCGAACTGGCGTGGGTGCT +TTTTGGTATTTACCTGGCGGCCATTGTGGGGCTGGTTATCAAGCCTTTCCCGGAACCTGTCGTACTGTTA +ATTGCCGTTGCTGCCTCAATGGTGGTGGTCGGTAACTTATCCGACGGTGCGTTTAAAACCACCGCCGTAT +TAAGCGGTTACTCTTCAGGTACCACCTGGCTGGTGTTCTCGGCGTTTACCTTAAGCGCCGCATTTGTGAC +CACCGGTTTAGGTAAACGTATTGCCTATCTGCTGATTGGTAAAATCGGTAACACCACGCTGGGTCTGGGT +TACGTTACGGTATTCCTCGATCTGGTACTGGCTCCGGCAACACCGTCTAACACCGCGCGTGCGGGCGGCA +TTGTGTTACCGATCATCAACAGCGTGGCGGTGGCTTTGGGGTCCGAACCGGAAAAAAGTCCGCGTCGTGT +CGGACATTACCTGATGATGTCCATTTACATGGTCACCAAAACCACCAGCTATATGTTCTTTACCGCAATG +GCGGGGAACATTCTGGCGCTGAAAATGATCAACGACATTCTGCACCTGCAAATTAGCTGGGGTGGATGGG +CGCTGGCAGCCGGATTGCCGGGCATCATTATGCTGCTGGTCACCCCGCTGGTGATTTACACCATGTATCC +ACCAGAAATTAAGAAGGTGGATAACAAAACCATCGCTAAAGCGGGCCTTGCCGAACTAGGACCGATGAAA +ATCCGCGAAAAAATGCTGCTCGGTGTCTTTGTGCTGGCGCTGCTGGGCTGGATTTTCAGTAAGTCTCTGG +GGGTTGATGAATCCACCGTGGCAATCGTTGTTATGGCAACCATGCTGCTGCTGGGTATCGTTACCTGGGA +AGACGTGGTTAAAAATAAAGGCGGCTGGAATACCTTAATCTGGTACGGCGGTATTATCGGCTTAAGCTCC +TTATTATCGAAAGTTAAATTCTTCGAATGGTTAGCTGAAGTCTTTAAAAATAACCTGGCATTTGATGGTC +ACGGTAACGTTGCTTTCTTCGTTATTATTTTCCTCAGCATTATCGTGCGTTATTTCTTCGCTTCCGGTAG +TGCCTATATCGTTGCTATGTTACCGGTATTTGCCATGCTGGCGAACGTCTCCGGCGCACCGTTAATGTTA +ACCGCGCTGGCACTGTTGTTCTCCAACTCCTATGGCGGCATGGTTACTCACTATGGCGGCGCGGCAGGTC +CGGTCATCTTTGGCGTGGGTTATAACGATATTAAATCCTGGTGGTTGGTCGGTGCGGTACTGACGATATT +AACCTTCCTGGTGCATATCACCCTCGGCGTGTGGTGGTGGAATATGCTGATCGGCTGGAACATGCTGTAA +ATATTCTCGTCATACTTCAAGTTGCATGTGCTGCGTCTGCGTTCGCTCACCCCAGTCACTTACTTATGTA +AGCTCCTGGGGATTCACTCGCTTGTCGCCTTCCTGCAACTCGAATTATTTAGAGTATATCCATTTATTAT +CTTTCTGCGCACTTCACGGTGCGCAGATATCTGGAGCATTTGATGATCAAGTTATCTGAAAAAGGCGTGT +TTCTCGCCAGTAATAACGAAATAATTGCCGAAGAACATTTCACCGGCGAAATTAAAAAAGAAGAAGCCAA +AAAAGGCACTATTGCCTGGTCTATTCTCTCTTCGCATAATACGTCCGGAAATATGGATAAACTTAAAATT +AAGTTTGATTCATTAGCCTCTCACGATATTACCTTTGTTGGTATTGTACAGACCGCTAAAGCGTCCGGTA +TGGAACGTTTCCCGCTGCCGTATGTGCTGACCAACTGCCATAACTCACTCTGCGCCGTCGGCGGCACTAT +TAACGGTGATGACCATGTTTTTGGTTTATCGGCGGCCCAGCGTTATGGCGGTATTTTTGTGCCTCCGCAT +ATTGCGGTCATCCATCAATATATGCGTGAGATGATGGCAGGCGGCGGCAAAATGATCCTCGGGTCAGACA +GCCACACCCGTTACGGTGCATTAGGGACAATGGCAGTCGGTGAGGGCGGCGGTGAGTTGGTAAAACAGCT +GCTTAATGACACCTGGGATATCGACTATCCGGGCGTGGTTGCGGTGCATCTGACCGGAAAACCTGCGCCG +TATGTGGGGCCACAGGATGTGGCGCTGGCTATCATTGGCGCGGTGTTCAAAAACGGTTACGTCAAAAACA +AAGTCATGGAGTTCGTTGGACCGGGCGTTAGCGCGCTCTCTACCGATTTCCGTAACAGCGTTGACGTGAT +GACCACTGAAACGACCTGTTTAAGTTCTGTCTGGCAAACCGATGAAGAAGTCCATAACTGGCTGGCGCTG +CACGGTCGCGGCCAGGATTACTGCCAGCTTAACCCTCAACCGATGGCGTACTACGATGGCTGCATCAGCG +TTGATTTAAGCGCCATCAAACCAATGATTGCGCTGCCGTTCCACCCGAGCAACGTGTATGAAATCGACAC +ACTGAACCAGAACCTGACCGACATTCTGCGTGAGATTGAAATTGAGTCCGAACGCGTGGCGCACGGTAAA +GCCAAACTCTCGCTGCTGGATAAAGTGGAAAATGGTCGCCTGAAAGTGCAGCAGGGGATTATCGCGGGCT +GTTCTGGCGGTAACTACGAAAACGTCATCGCGGCGGCGAATGCACTGCGCGGTCAATCCTGTGGCAATGA +CACCTTCTCGCTGGCAGTTTACCCGTCATCACAGCCGGTGTTTATGGATCTCGCCAAAAAAGGTGTGGTA +GCAGATTTGATTGGCGCAGGCGCAATCATCAGAACCGCGTTCTGCGGCCCATGCTTTGGCGCGGGCGATA +CGCCAATCAACAACGGTTTGAGTATTCGCCACACCACGCGTAACTTCCCGAACCGCGAAGGCTCTAAGCC +AGCTAATGGGCAGATGTCAGCGGTGGCGTTGATGGACGCTCGTTCTATCGCTGCGACTGCGGCAAACGGT +GGCTATTTAACCTCTGCCAGCGAACTTGATTGCTGGGACAACGTGCCGGAGTACGCCTTCGATGTAACGC +CGTATAAAAACCGTGTTTATCAGGGCTTTGTGAAAGGGGCAACTCAGCAACCGCTGATTTACGGGCCGAA +CATTAAAGACTGGCCGGAATTGGGTGCGCTGACTGACAATATCGTCCTGAAAGTGTGCTCGAAGATCCTC +GACGAAGTGACCACCACCGACGAACTGATTCCTTCCGGTGAAACCTCTTCTTATCGTTCAAATCCGATTG +GTCTGGCGGAGTTTACCCTGTCTCGCCGCGATCCCGGTTATGTTAGCAGAAGTAAAGCGACTGCTGAGCT +GGAAAATCAGCGTCTGGCGGGGAATGTCAGCGAGCTGACAGAGGTGTTTGCGCGCATTAAGCAGATTGCT +GGTCAGGAGCATATTGATCCGCTGCAAACTGAAATTGGCAGCATGGTCTATGCGGTGAAACCAGGCGATG +GTTCTGCGCGTGAACAGGCGGCGAGCTGCCAGCGTGTGATTGGCGGTCTGGCGAATATTGCCGAGGAGTA +CGCGACTAAACGCTATCGTTCTAACGTCATCAACTGGGGGATGTTACCGCTGCAAATGGCGGAAGTACCA +ACCTTTGAAGTGGGGGATTACATTTACATCCCTGGCATTAAAGCGGCGCTGGATAATCCGGGTACGACGT +TTAAAGGTTATGTGATCCATGAAGATGCGCCGGTAACGGAAATTACGCTCTATATGGAAAGTCTGACTGC +TGAAGAGCGCGAGATTATCAAGGCGGGTAGTTTGATTAACTTCAATAAAAACCGTCAGATGTAAAAAGCG +CCATGTGAATGTAGGTCGCATTCGGCACTTATTGTCGGATGCGATGCTTGCGCATCTTATCCGACCTACG +AATCGCATCGAATCTGTAGGCCAGATAAGGCATTTTCGCAGCATCCGGCACTTATTGTCGGATGCGATGC +TTGCGCATCTTATCCGACCTACAAATCGCATCGAACCGTAGGCCGGATAAGGCGTTTACGCCGCATCCGG +CAAATAGTTAATTGCTCTTACTTCTTCGCCTCTGCAACCACTTTACTACCCACGCCGCGGTTATTGTATT +CCCACATGCGGTTGTAGTTAGTGTCATTCAGATTGCGCTGTATTTCGTCGTTATCATCTACGCTGCCGGT +ATTACCCGCAAACGGACGATTAGAGATCACCGCATCGGCCCACGGTTTAGCCGTGTTAAAACCTTCGTTG +ATGGCGCTATCACGGATCACCACCTGACCGTTGGTATTGGCATCAACATCCAGCGAGCGGCCCAGTTGCG +CCACACCATCACCGAAAGCATTGAAACGGCTGTTTACGGCGAGGAAACCGTAGTAAATGTTGGACAGCGT +AGCCGGTGCAAACACATACGCTTCTTGCTGAGTACGTGAGTTCACCACGCGGAATTCGGTGTTATCGAAC +ACCACTGCGCCGCGACCAGAAACGATATCCACATCCCCTTCAATGTAGCTGTTGGTCACCAGCGTACGCG +GCTGACGATTCGTTTCCAGACGGTTCTGCACACCGCTGTTGGTGACAAAGAAGGTGTTCTGACGACCGAG +AATGTTAACGTTGTTAATCTGTACCTGGTCACCATCAGTACGCAGTGCCACCGCCGGATGGTTACCTGCA +TCTACGCTATCGCCCAGCGTGTTTTCGATGGTCAGATTTTGCAGTTGCAGGCCATTGTTTTGTGACCAGA +AGACCGCAGAGCAGAGAACACCGATACTGTCGCTGCGTTTGCTCTGGCAGCTATCGTACATATACCACGC +TGGTTTACCTGGCATATATTTGCCGCGCGGGTTGACGTCGTGACGCCAGTCGGCAGGGCTCATGCCACCA +TCAAGGGAAAGCCCAATCTTCACATCAATCGGTTTTTCACCTGTACCGTACAGAGTAATTCCACCCGGAG +CGGCAGGGACATATACCGTTCCCTGATACTCACCAGGCATCACGGCAATATACTGGCGCTTGTTGGTACG +CTTGATAATTGCCGCATCTACCGCCGCCTGAATCGTGGTATGCGTTACACCTTGAGTGCCCGCCGGGCCG +ACAACAAAGTCAGGTTGCGCAGGCAGGGTAATCGGGGAAGGATTCCACGCTGCAGCACCTGGTGTCAGGG +ATGCAAAATAGTGTTGAGCATCGAAATTCTGCGCTTCTTTTGCCGACAGAATCGGGCGAGAAGAGGTACC +AGGCGCGGTTTGATCAGAAGGACGTTGATCGGGCGGGGTTGAGCTACAGGCGGTCAGCGTCACGCCAAAA +GCCAATGCCAGCGCCAGACGGGAAACTGAAAATGTGTTCACAGGTTGCTCCGGGCTATGAAATAGAAAAA +TGAATCCGTTGAAGCCTGCTTTTTTATACTAACTTGAGCGAAACGGGAAGGTAAAAAGACAAAAAGTTGT +TTTTAATACCTTTAAGTGATACCAGATGGCATTGCGCCATCTGGCAGAGTGATTAACTAAACATCGCAGT +AATCGAGGCGCTTGCCAGAGAGTGGAAATGAACGTTAAACCCGACCATCGCGCCGCTGGCACCTTCATCG +ACATCAATACGTTCTATATCCAGCGCGTGAACGGTAAAAATGTAGCGATGAGTTTCGCCTTTCGGCGGTG +CTGCGCCATCGTACCCGGTTTTACCAAAGTCGGTACGCGTCTGCAAAACGCCGTCTGGCATTGCTACCAG +ACCAGAGCCAAACCCTTGCGGTAATACGCGGGTATCAGCGGGTAAGTTAACAACTACCCAGTGCCACCAG +CCGGAGCCGGTTGGCGCATCCGGGTCGTAGCAGGTGACAACAAAACTTTTCGTTCCCGCAGGAACATCAT +CCCACGCCAGATGCGGTGAAATATTATCGCCATCGTAACCCATGCCGTTAAAGACATGACGATGCGGCAA +TTTATCGCCATCGCGCAGATCGTTACTGATGAGTTTCATGAACCCTCCTTTCTTGTTTGCAGAAAGTGTA +GCCAGAAACCCTCACGCGGACTTCTCGTTATTGGCAAAAAAATGTTTCATCCTGTACCGCGCGGTTAACC +GCTGCGGTCAGACGCTGCAACTGTTGCGGGAGAATAATATAGGGCGGCATCAGGTAAATCAGTTTGCCAA +AAGGCCGGATCCAGACACCCTGTTCGACAAAGAATTTTTGCAGCGCCGCCATATTCACCGGATGAGTGGT +TTCGACCACGCCAATGGCCCCCAGTACGCGCACATCGGCAACCATTTCGGCATCACGGGCGGGGGCAAGT +TGCTCGCGCAGCTGTACTTCAATATCCGCCACCTGTTGCTGCCAGTCGCCAGATTCGAGAATCGCCAGGC +TGGCGTTTGCTGCCGCGCAGGCCAGCGGATTGCCCATAAAAGTTGGCCCATGCATAAAGCAACCGGCTTC +ACCGTTACTGATGGTTTCTGCAACCTCGCGCGTGGTGAGTGTGGCGGAAAGGGTCATTGTGCCGCCGGTT +AAGGCTTTACCGAGGCACAAAATGTCCGGCGCGATTTCTGCATGTTCACAGGCAAACAGTTTCCCGGTAC +GACCAAATCCAGTGGCGATCTCGTCGGCAATCAGCAAGATACCTTCGCGATCGCATATTTTGCGGATTCG +TTTTAACCATTCCGGATGGTACATGCGCATCCCGCCTGCGCCCTGGACAATCGGCTCAATGATCACCGCC +GCGATTTCATGACGATGCGCCGCCATCAGGCGGGCAAAGCCCACCATATCGCGCTCATCCCATTCGCCAT +CCATGCGGCTTTGCGGGGCGGGAGCAAACAGGTTTTCTGGCAGGTAGCCTTTCCACAGACTGTGCATTGA +GTTATCCGGATCGCACACCGACATCGCGCCAAAGGTATCGCCATGATAACCATTGCGGAAGGTCAGAAAA +CGCTGGCGCGCTTCGCCTTTGGCTTGCCAGTACTGCAACGCCATTTTCATCGCCACTTCCACCGCTACGG +AACCGGAGTCCGCGAGAAAAACGCACTCCAGCGGTTGCGGCGTCATCGCCACCAGTTTGCGGCACAGCTC +AATGGCTGGCGCATGGGTGATACCGCCAAACATCACATGCGACATGGCATCAATTTGCGACTTCATCGCC +GCATTAAGCTGCGGGTGATTGTAGCCGTGGATCGCCGCCCACCAGGACGACATACCGTCAACCAGGCGTC +TGCCGTCAGACAAAATCAGCTCGCAACCTTCGGCGCTCACCACCGGATAAACCGGCAGAGGGGAGGTCAT +GGATGTGTATGGGTGCCAGATATGGCGTTGGTCAAAGGCAAGATCGTCCGTTGTCATAATCGACTTGTAA +ACCAAATTGAAAAGATTTAGGTTTACAAGTCTACACCGAATTAACAACAAAAAACACGTTTTGGAGAAGC +CCCATGGCTCACCGCCCACGCTGGACATTGTCGCAAGTCACAGAATTATTTGAAAAACCGTTGCTGGATC +TGCTGTTTGAAGCGCAGCAGGTGCATCGCCAGCATTTCGATCCTCGTCAGGTGCAGGTCAGCACGTTGCT +GTCGATTAAGACCGGAGCTTGTCCGGAAGATTGCAAATACTGCCCGCAAAGCTCGCGCTACAAAACCGGG +CTGGAAGCCGAGCGGTTGATGGAAGTTGAACAGGTGCTGGAGTCGGCGCGCAAAGCGAAAGCGGCAGGAT +CGACGCGCTTCTGTATGGGCGCGGCGTGGAAGAATCCCCACGAACGCGATATGCCGTACCTGGAACAAAT +GGTGCAGGGGGTAAAAGCGATGGGGCTGGAGGCGTGTATGACGCTGGGCACGTTGAGTGAATCTCAGGCG +CAGCGCCTCGCGAACGCCGGGCTGGATTACTACAACCACAACCTGGACACCTCGCCGGAGTTTTACGGCA +ATATCATCACCACACGCACTTATCAGGAACGCCTCGATACGCTGGAAAAAGTGCGCGATGCCGGGATCAA +AGTCTGTTCTGGCGGCATTGTGGGCTTAGGCGAAACGGTAAAAGATCGCGCCGGATTATTGCTGCAACTG +GCAAACCTGCCGACGCCGCCGGAAAGCGTGCCAATCAACATGCTGGTGAAGGTGAAAGGCACGCCGCTTG +CCGATAACGATGATGTCGATGCCTTTGATTTTATTCGCACCATTGCGGTCGCGCGGATCATGATGCCAAC +CTCTTACGTGCGCCTTTCTGCCGGACGCGAGCAGATGAACGAACAGACTCAGGCGATGTGCTTTATGGCA +GGCGCAAACTCGATTTTCTACGGTTGCAAACTGCTGACCACGCCGAATCCGGAAGAAGATAAAGACCTGC +AACTGTTCCGCAAACTGGGGCTAAATCCGCAGCAAACTGCCGTGCTGGCAGGGGATAACGAACAACAGCA +ACGTCTTGAACAGGCGCTGATGACCCCGGACACCGACGAATATTACAACGCGGCAGCATTATGAGCTGGC +AGGAGAAAATCAACGCGGCGCTCGATGCGCGGCGTGCTGCCGATGCCCTGCGTCGCCGTTATCCGGTGGC +GCAAGGAGCCGGACGCTGGCTGGTGGCGGATGATCGCCAGTATCTGAACTTTTCCAGTAACGATTATTTA +GGTTTAAGCCATCATCCGCAAATTATCCGTGCCTGGCAGCAGGGGGCGGAGCAATTTGGCATCGGTAGCG +GCGGCTCCGGTCACGTCAGCGGTTATAGCGTGGTGCATCAGGCACTGGAAGAAGAGCTGGCCGAGTGGCT +TGGCTATTCGCGGGCACTGCTGTTTATCTCTGGTTTCGCCGCTAATCAGGCAGTTATTGCCGCGATGATG +GCGAAAGAGGACCGTATTGCTGCCGACCGGCTTAGCCATGCCTCATTGCTGGAAGCTGCCAGTTTAAGCC +CGTCGCAGCTTCGCCGTTTTGCTCATAACGATGTCACTCATTTGGCGCGATTGCTTGCTTCCCCCTGTCC +GGGGCAGCAAATGGTGGTGACAGAAGGCGTGTTCAGCATGGACGGCGATAGTGCGCCACTGGCGGAAATC +CAGCAGGTAACGCAACAGCACAATGGCTGGTTGATGGTCGATGATGCCCACGGCACGGGCGTTATCGGGG +AGCAGGGGCGCGGCAGCTGCTGGCTGCAAAAGGTAAAACCAGAATTGCTGGTAGTGACTTTTGGCAAAGG +ATTTGGCGTCAGCGGGGCAGCGGTGCTTTGCTCCAGTACGGTGGCGGATTATCTGCTGCAATTCGCCCGC +CACCTTATCTACAGCACCAGTATGCCGCCCGCTCAGGCGCAGGCATTACGTGCGTCGCTGGCGGTCATTC +GCAGTGATGAGGGTGATGCACGGCGCGAAAAACTGGCGGCACTCATTACGCGTTTTCGTGCCGGAGTACA +GGATTTGCCGTTTACGCTTGCTGATTCATGCAGCGCCATCCAGCCATTGATTGTCGGTGATAACAGCCGT +GCGTTACAACTGGCAGAAAAACTGCGTCAGCAAGGCTGCTGGGTCACGGCGATTCGCCCGCCAACCGTAC +CCGCTGGTACTGCGCGACTGCGCTTAACGCTAACCGCTGCGCATGAAATGCAGGATATCGACCGTCTGCT +GGAGGTGCTGCATGGCAACGGTTAATAAACAAGCCATTGCAGCGGCATTTGGTCGGGCAGCCGCACACTA +TGAGCAACATGCAGATCTACAGCGCCAGAGTGCTGACGCCTTACTGGCAATGCTTCCACAGCGTAAATAC +ACCCACGTACTGGACGCGGGTTGTGGACCTGGCTGGATGAGCCGCCACTGGCGGGAACGTCACGCGCAGG +TGACGGCCTTAGATCTCTCGCCGCCAATGCTTGTTCAGGCACGCCAGAAGGATGCCGCAGACCATTATCT +GGCGGGAGATATCGAATCCCTGCCGTTAGCGACTGCGACGTTCGATCTTGCATGGAGCAATCTCGCAGTG +CAGTGGTGCGGTAATTTATCCACGGCACTCCGCGAGCTGTATCGGGTGGTGCGCCCCAAAGGCGTGGTCG +CGTTTACCACGCTGGTGCAGGGATCGTTACCCGAACTGCATCAGGCGTGGCAGGCGGTGGACGAGCGTCC +GCATGCTAATCGCTTTTTACCGCCAGATGAAATCGAACAGTCGCTGAACGGCGTGCATTATCAACATCAT +ATTCAGCCCATCACGCTGTGGTTTGATGATGCGCTCAGTGCCATGCGTTCGCTGAAAGGCATCGGTGCCA +CGCATCTTCATGAAGGGCGCGACCCGCGAATATTAACGCGTTCGCAGTTGCAGCGATTGCAACTGGCCTG +GCCGCAACAGCAGGGGCGATATCCTCTGACGTATCATCTTTTTTTGGGAGTGATTGCTCGTGAGTAAACG +TTATTTTGTCACCGGAACGGATACCGAAGTGGGGAAAACTGTCGCCAGTTGTGCACTTTTACAAGCCGCA +AAGGCAGCAGGCTACCGGACGGCAGGTTATAAACCGGTCGCCTCTGGCAGCGAAAAGACCCCGGAAGGTT +TACGCAATAGCGACGCGCTGGCGTTACAGCGCAACAGCAGCCTGCAGCTGGATTACGCAACAGTAAATCC +TTACACCTTCGCAGAACCCACTTCGCCGCACATCATCAGCGCGCAAGAGGGCAGACCGATAGAATCATTG +GTAATGAGCGCCGGATTACGCGCGCTTGAACAACAGGCTGACTGGGTGTTAGTGGAAGGTGCTGGCGGCT +GGTTTACGCCGCTTTCTGACACTTTCACTTTTGCAGATTGGGTAACACAGGAACAACTGCCGGTGATACT +GGTAGTTGGTGTGAAACTCGGCTGTATTAATCACGCGATGTTGACTGCACAGGTAATACAACACGCCGGA +CTGACTCTGGCGGGTTGGGTGGCGAACGATGTTACGCCTCCGGGAAAACGTCACGCTGAATATATGACCA +CGCTCACCCGCATGATTCCCGCGCCGCTGCTGGGAGAGATCCCCTGGCTTGCAGAAAATCCAGAAAATGC +GGCAACCGGAAAGTACATAAACCTTGCCTTGTTGTAGCCATTCTGTATTTGGTTAAATTGCGAGCGAGAT +CGCGTCTTCGATTGACTGCAATTTAACCAATTAAATTCTAAAATAATCACGAAAAAAATTTTACTTCCGC +CTCATGCGGCGAATGTGGGAATTGCCCAGGCGGCGGGGGATAGGGGCTGGAGACAGTTATCCACTATTCC +TGTGGATAACCATGTGTATTAGAGTTAGAAAACACGAGGCAAGCGAGAGAATACGCGGCTTGCACGCGAA +TTGGCGTTAAAGACGGCTCAAAGAAATATCTTTTATTTTTTAACTGGTTAGATAAATGCAATGGCAGTCA +CTGAACAGGCATCTCTTGCCATAAAACTGTCATCACTCATCTTGACAAATGTTAAAAAAGCCGTTGCTTT +GGGGATAACCCGGTAAGGCCGGAGTTTTATCTCGCCACAGAGTAAATTTTGCTCATGATTGACAGCGGAG +TTTACGCTGTATCAGAAATATTATGGTGATGAACTGTTTTTTTATCCAGTATAATTTGTTGGCATAATTA +AGTACGACGAGTAAAATTACATACCTGCCCGCCCAACTCCTTCAGGTAGCGACTCATGAGTAAACCGTTC +AAACTGAATTCCGCTTTTAAACCTTCTGGCGATCAGCCAGAGGCGATTCGACGTCTCGAAGAGGGGCTGG +AAGATGGCCTGGCGCACCAGACGTTACTTGGCGTGACTGGCTCAGGGAAAACCTTCACCATTGCCAATGT +CATTGCTGACCTTCAGCGCCCAACCATGGTACTTGCGCCCAACAAAACGCTGGCGGCCCAGCTGTATGGC +GAAATGAAAGAGTTCTTCCCGGAAAACGCGGTGGAATATTTCGTTTCCTACTACGACTACTATCAGCCGG +AAGCCTATGTACCGAGTTCCGACACTTTCATTGAGAAAGATGCCTCGGTTAACGAACATATTGAGCAGAT +GCGTTTGTCCGCCACCAAAGCGATGCTGGAGCGGCGTGATGTGGTTGTGGTGGCGTCTGTTTCCGCGATT +TATGGTCTGGGCGATCCTGATTTATATCTCAAGATGATGCTCCATCTCACGGTCGGTATGATTATCGATC +AGCGCGCGATTCTGCGCCGACTGGCGGAGCTGCAATACGCTCGTAATGATCAAGCATTCCAGCGTGGTAC +TTTCCGCGTTCGTGGCGAGGTGATAGATATCTTCCCGGCAGAATCGGATGACATTGCACTTCGCGTGGAA +CTGTTTGACGAGGAAGTGGAACGATTGTCGTTATTTGACCCGCTGACCGGGCAGATTGTTTCCACTATTC +CACGTTTTACCATCTACCCGAAAACGCACTACGTCACACCGCGCGAGCGCATCGTACAGGCGATGGAGGA +GATCAAAGAAGAGCTGGCCGCCAGACGCAAAGTGCTGTTGGAAAACAACAAACTGCTGGAAGAGCAGCGG +CTGACCCAGCGTACCCAGTTTGATCTGGAGATGATGAACGAGCTGGGCTACTGTTCGGGGATTGAAAACT +ACTCGCGCTTCCTCTCCGGTCGTGGACCGGGTGAGCCACCGCCGACGCTGTTTGATTACCTGCCTGCCGA +TGGGCTGCTGGTCGTCGATGAATCTCACGTCACCATTCCACAAATTGGCGGCATGTATCGCGGTGACCGG +GCGCGTAAAGAGACACTGGTGGAGTACGGCTTCCGCCTGCCATCAGCGCTGGATAACCGTCCGCTTAAGT +TTGAAGAGTTCGAAGCATTAGCGCCGCAAACCATCTATGTTTCGGCGACGCCGGGTAATTACGAGCTGGA +AAAATCCGGCGGCGATGTGGTGGATCAGGTGGTGCGTCCAACCGGATTGCTTGACCCGATTATCGAAGTG +CGGCCGGTGGCGACACAGGTTGATGATCTTCTTTCGGAGATTCGTCAGCGAGCGGCAATTAACGAACGCG +TACTGGTCACCACACTGACCAAGCGGATGGCGGAAGATCTTACCGAATATCTCGAAGAACATGGCGAGCG +CGTGCGTTATCTTCACTCAGATATCGACACCGTCGAACGTATGGAGATTATCCGCGACTTGCGTCTGGGT +GAGTTCGACGTGCTGGTAGGGATCAACTTACTGCGCGAAGGTCTGGATATGCCGGAAGTGTCGCTGGTGG +CGATCCTCGACGCTGACAAAGAAGGCTTCCTGCGTTCCGAACGTTCGTTGATCCAGACCATTGGTCGTGC +GGCACGTAACGTTAACGGTAAAGCGATTCTCTACGGCGATAAGATCACCCCATCAATGGCGAAAGCGATT +GGCGAAACCGAACGTCGCCGTGAGAAACAGCAGAAGTACAACGAGGAACACGGAATTACGCCGCAAGGCT +TGAACAAGAAAGTGGTCGATATCCTGGCGCTGGGGCAGAACATTGCCAAAACCAAAGCGAAGGGCAGAGG +AAAATCGCGCCCGATTGTTGAGCCGGATAATGTGCCGATGGATATGTCGCCTAAAGCGTTGCAGCAGAAA +ATCCATGAGCTGGAAGGGTTGATGATGCAACACGCGCAGAATCTGGAGTTCGAAGAAGCGGCGCAAATTC +GTGACCAGTTGCATCAGCTGCGTGAGCTGTTTATCGCGGCATCGTAACAGGATAGCGAAGAAGACTGATG +ACAAACGGAAAACAGCCTGATGCGCTACGCTTATCAGGCCTACATTTTCTCCGCAATATATTGAATTTGC +GCGGTTTGTAGGCCGGATAAGGCGTTCACGCCGCATCCGGCATAAACAACGCGCACTTTGTCTTCAATAG +GAAGCCGGAATTTTCCTTCGGATTTCCGTTAACCTAAAGCCTGTAACGCCTTTTCCAGCGCGTTATGTAA +CAACTGGCGGTCATGACGATACGGAATATCGCTGGCCTCCAGTACCTCCTGGATCACAATCCGCTCTTTC +ACCGCCGAGACATCCACTTTTGGCCCGACGATGACCGCATCAATGACCTTTTTACCAACATACTGCTCCA +TAATTGCCAGCTTGCTTTCCAGCTTCAAATTAGCCGCAGGTAAACTCAACTCACGCCCCAGATTGCCGAT +ATAAACCATCGGCGCTGGCGTGCGGCGTAATGCCTGGGCGATTTCCTTCAGCAGCAGAATTGGCATCAGG +CTGGTATAAAAACTGCCAGGCCCAATAATGATGAGATCCGCTTCATTGATAGCGTGAACCGCCTCACGCG +TTGCGGGTACATTAGGCGTTAACAATAACTCTTGAATCGGCGTAGTTAACTGGTCGATATTGACCTCGCC +GTAAACTTCATGCCCCTGATCGTCAATCGCCATCAGATCAACAGGATGCTCTGACATTGGAATCAAATGC +GTATCCACTTTCAGCAGATTACGAATTAAATTGATGGCTTCCAGAGGCCGCACGCTAAGGTGATCCAGCG +CCTTTAACATCAAGTTTCCGAGATTATGACCGGAAAGTTCGCCATTGCCACCAAAACGGTATTCAAACAT +CGCGGAGGCGACGCTCGGTTCCGTTATCAGCTGGTTGAGGCAGTTGCGCATATCGCCCCAGGCAATGCCG +CCTTCTGAACGGCGAATACGCCCCGTCGAGCCACCATTATCGGTGGTGGTGACGATACCCGTTAAACGAG +AACCCAAAGACGAAAGTGATGAGAGAACGCGTCCCAGTCCATGCCCTCCGCCGAGAGCAACGACACGATC +AAGATCAGCCAGCGTACGATTGCGCATATAGTTTCCTGGAGTCAGATTATCCGCGCTACAGTAGCGCAAA +TTGCGGGGAAACAGCAATTAACCTGCCAATATTGAGGATACAAACTATTTTCTTCTACCTCTAAAGGACG +ATGCACGCTATGCCTCCCTGATGATGTATATCAAAGTAAAACCGCCATTTTCCCTTATTCTGTAGCGAAA +TAGCACGATCATGACGCTATATACATGATTACATAGCGAAAGTGTGGATGGTAAAAATCTCATTTACACG +CTAGTATCGGCATAACCACTAAACACTCTAGCCTCTGCACCTGGGTCAACTGATACGGTGCTTTGGCCGT +GACAATGCTCGTAAAGATTGCCACCAGGGCGAAGGAAGAAATGACTTCGCCTCCCGTATCTGGAAAGGTG +TACATGGCTTCACAACTGACTGATGCATTTGCGCGTAAGTTTTACTACTTGCGCCTGTCGATTACCGATG +TGTGTAACTTTCGTTGCACCTACTGCCTGCCGGATGGCTACAAACCGAGCGGCGTCACCAATAAAGGCTT +TCTTACCGTCGATGAAATTCGCCGGGTTACGCGCGCCTTCGCCAGACTGGGCACCGAAAAAGTGCGCCTG +ACAGGAGGAGAGCCGTCTTTACGCCGCGACTTTACCGATATCATCGCCGCTGTGCGGGAAAACGACGCTA +TCCGCCAGATTGCGGTCACAACCAATGGTTACCGTCTGGAACGCGATGTGGCGAGCTGGCGCGATGCGGG +ACTTACTGGCATTAACGTCAGTGTCGACAGTCTGGACGCCCGCCAGTTTCACGCTATTACCGGGCAGGAT +AAATTCAACCAGGTCATGGCAGGGATTGATGCTGCATTTGAGGCCGGTTTTGAGAAGGTCAAAGTCAATA +CCGTGCTGATGCGTGATGTTAATCATCACCAGCTCGACACCTTTCTGAACTGGATCCAGCATCGCCCTAT +CCAGCTGCGTTTCATCGAACTGATGGAAACGGGCGAGGGCAGCGAGCTCTTCCGTAAGCATCACATCTCT +GGTCAGGTTCTGCGTGACGAGCTACTGCGTCGCGGCTGGATCCACCAATTACGTCAACGCAGCGACGGTC +CCGCGCAAGTCTTTTGCCATCCAGATTACGCCGGAGAGATTGGCCTTATCATGCCGTATGAAAAAGACTT +CTGCGCCACTTGCAACCGCCTGCGCGTTTCCTCCATTGGTAAACTCCATCTCTGCCTGTTTGGTGAAGGC +GGCGTTAACCTGCGCGATCTGCTGGAAGACGATACCCAGCAACAGGCGCTGGAAGCGCGTATTTCAGCGG +CGCTGCGGGAGAAGAAACAGACCCATTTCCTGCATCAAAACAACACCGGTATTACGCAAAACTTATCGTA +CATTGGCGGCTAAAACGTCAAAAGGAGAGATCAGATGAGTCAGGTAAGCACTGAATTTATCCCGACCCGT +ATTGCTATTCTTACGGTTTCTAATCGTCGCGGTGAAGAAGACGATACCTCCGGTCACTATCTGCGCGATT +CGGCGCAAGAAGCGGGCCATCACGTTGTCGATAAAGCCATTGTGAAAGAAAACCGCTACGCTATTCGCGC +TCAGGTATCTGCGTGGATCGCCAGCGACGATGTACAAGTGGTATTGATTACGGGTGGTACTGGCCTGACG +GAAGGTGATCAGGCTCCCGAAGCATTGCTGCCGTTGTTCGACCGTGAAGTTGAAGGTTTTGGTGAAGTGT +TCCGGATGTTGTCGTTTGAAGAGATTGGCACTTCCACGTTGCAATCTCGTGCGGTAGCGGGCGTCGCCAA +CAAAACGCTGATTTTCGCCATGCCGGGTTCGACCAAAGCGTGCCGTACCGCATGGGAAAATATCATCGCG +CCGCAGCTGGATGCCCGTACGCGTCCGTGTAATTTCCATCCACATTTGAAGAAATAAGTATGTCGCAACT +GACCCATATCAACGCCGCTGGCGAAGCGCACATGGTGGATGTCTCCGCCAAAGCGGAAACCGTGCGTGAA +GCGCGGGCGGAAGCCTTTGTCACCATGCGCAGCGAGACGCTGGCGATGATTATTGATGGTCGCCACCACA +AAGGCGACGTATTTGCCACTGCGCGTATTGCCGGTATTCAGGCGGCAAAACGCACCTGGGATCTGATCCC +GCTCTGTCATCCGCTGATGCTCAGCAAAGTTGAAGTCAATTTACAGGCCGAGCCGGAGCACAATCGGGTG +CGTATAGAAACCTTATGCCGCCTGACCGGGAAAACCGGTGTCGAAATGGAAGCATTAACCGCGGCCTCCG +TGGCGGCGCTGACCATTTATGACATGTGCAAAGCGGTGCAAAAAGATATGGTGATTGGTCCGGTACGTTT +GCTGGCGAAGAGCGGCGGCAAGTCGGGTGACTTTAAGGTGGAAGCGGATGATTAAAGTTCTTTTTTTCGC +CCAGGTGCGCGAGTTGGTGGGAACAGATGCAACCGAAGTGGCTGCGGATTTCCCAACTGTTGAAGCGTTA +CGCCAGCACATGGCTGCGCAGAGCGATCGCTGGGCGCTGGCGCTGGAAGATGGCAAATTACTGGCTGCCG +TCAACCAGACGCTGGTGAGTTTTGACCATCCGCTGACTGACGGCGACGAAGTAGCTTTCTTCCCGCCGGT +AACCGGAGGTTAAGATGGCAGAAACCAAAATTGTTGTTGGTCCGCAGCCGTTCAGCGTAGGAGAAGAGTA +CCCGTGGCTGGCGGAGCGTGACGAAGACGGTGCGGTAGTCACCTTTACTGGTAAGGTGCGCAACCATAAC +CTGGGCGACAGCGTCAACGCATTAACCCTCGAACACTATCCGGGGATGACTGAAAAAGCACTGGCAGAAA +TTGTTGATGAAGCGCGTAACCGCTGGCCGCTGGGGCGCGTCACTGTGATTCACCGCATCGGGGAATTATG +GCCGGGCGATGAAATCGTTTTTGTCGGTGTCACCAGTGCGCATCGCAGCAGTGCGTTTGAAGCCGGGCAG +TTTATTATGGATTATCTCAAAACCCGCGCACCGTTCTGGAAGCGCGAAGCCACGCCGGAAGGCGACCGCT +GGGTTGAAGCTCGGGAGAGCGATCAGCAGGCGGCAAAACGCTGGTAGTTTTTTGTTAGCCGGATAAGGCA +CCGCTGCGTCCGGCAATTTCACCGCTCAGTACATACGTTTACGCTGCGTCGATGCACAGCCTCATCATTT +TGCAGTATCCTTAAGATATTCCTTATATCTTCAGGAGATCGTCATGGACAGATTCCCACGTTCTGATTCA +ATCGTACAACCCCGGGCTGGCTTGCAAACTTATATGGCTCAAGTCTATGGCTGGATGACCGTTGGCTTGT +TGCTGACCGCATTTGTTGCCTGGTATGCGGCTAATTCCGCGGCCGTGATGGAGCTGTTGTTCACTAACCG +TGTCTTTTTAATCGGTCTGATCATCGCGCAATTAGCATTGGTTATTGTGTTATCAGCGATGATTCAAAAG +CTGAGCGCAGGTGTAACGACGATGCTCTTTATGCTTTATTCGGCGCTGACGGGTCTTACGCTTTCCAGTA +TATTCATTGTCTATACCGCTGCTTCTATCGCCAGTACTTTCGTCGTTACTGCCGGGATGTTCGGCGCAAT +GAGCCTGTACGGTTACACCACGAAGCGCGATTTAAGTGGCTTTGGCAATATGCTGTTTATGGCGTTAATC +GGCATTGTGCTGGCATCGCTGGTCAACTTCTGGTTGAAAAGCGAAGCATTGATGTGGGCAGTTACCTACA +TCGGCGTGATTGTCTTTGTCGGATTGACGGCGTATGACACGCAGAAACTGAAAAATATGGGTGAGCAGAT +TGATACCCGCGACACGTCGAACCTGCGCAAATATTCCATTCTTGGCGCGTTAACCTTGTATCTGGACTTC +ATCAACCTGTTCCTGATGTTGTTGCGGATCTTCGGCAACCGCCGTTAATTCTTTTTCACCATCACTATCC +CGGCCATGTGTCGGGATTTTTTTCTTACTAAAAACGACACTTAACAAGTACCAGGTATAAAATATGCCTT +ATGGACGAGCGGAAGCGTTTTCTGTATCCATAAATGCAAAAGTATTTTGTATGCGTGGTTTTAAATTTAT +TGATGGTGAATATTAATATTTTTTCTAAGGATAACTAAAAGAATGGAATCATACTCGCAAAACAGCAATA +AATTAGATTTTCAGCACGAGGCCAGGATATTAAACGGTATATGGCTCATTACCGCTTTAGGTTTGGTGGC +AACCGCAGGACTAGCCTGGGGAGCTAAGTATATCGAAATTACGGCAACCAAATATGATTCACCACCAATG +TATGTCGCCATAGGGTTATTATTACTTTGTATGTATGGCTTAAGTAAGGATATCAACAAGATAAATGCCG +CCATCGCGGGCGTAATATATCTGTTTTTACTCTCTTTGGTGGCGATTGTCGTTGCAAGTTTAGTTCCTGT +ATATGCCATTATCATCGTGTTCAGCACTGCGGGCGCGATGTTTTTAATCAGTATGCTGGCCGGTTTATTA +TTTAATGTTGATCCTGGTTCTCACCGTTTTATCATTATGATGACGTTGACAGGGTTGGCCCTGGTAATCA +TCGTGAATGCGGCATTAATGAGTGAACGGCCCATTTGGATAATAAGTTGCTTAATGATTGTGTTATGGTC +AGGCATTATCTCGCATGGACGAAATAAGCTCCTTGAATTGGCGGGGAAATGCCATAGTGAAGAGTTGTGG +AGTCCGGTTCGTTGCGCTTTTACAGGTGCATTAACACTCTATTACTATTTTATCGGCTTCTTTGGGATAC +TTGCCGCGATAGCTATAACGCTTGTCTGGCAAAGGCATACGCGTTTTTTTCATTAGCCGTAAATGCACAT +ACTAAAGAACTTAACTAAACTTCACATCGCCGCTTCATTTTTCGCCCGTAGCTTCTTCGCCTGGCTTTCC +AGCAACAGGTAACAGATCAGCGCCAGCAGCAGTGGGATAAAGTAATACAGCACACGGTAAGCGAGTAGGG +CGGCGATAATTGTACCTTTGGAGGTATGCTCCCCAGCCAGTAGTGCGATAAACACCGCTTCCAGCACACC +GATCCCCGCCGGAATATGCACGATGACGCCAGCAATACTACTAACCAGTAACACGCCCAGTACAAAGAAA +TAGTTCACGCTTTGACCAAGTAACAGCCAGATAATCGCCCCCATTACCATCCAGTTAACGCTGGAAATCA +GCATCTGAGCGAGGGCGAATTTCCATGAAGGCAGCACCAGCTTTTGCCCTTTGATGGTCATATGGCGGTG +CTTCGCGAAAGCGCAAAACCACAAATAAACCGCGATAATCATCAGTAAGCCAATGCCGAGAATACGCAGC +GTAGTTTGATCGACATACCAGTGATCCGGCAACTCCACCACGCCTGCGGTAAAGATAATCCCTGCCAGTA +AAATGTAGCCCAGCCAGTTGGTGGTAATACTGAGCGAGAAAATCCGCGTAATAGTGCTACCGGGCAACCC +CAGACGAGAGTACAAACGATAGCGCATACCAATGCCGCCGACCCAGGTACTGAGCGTCAGGTTGAAGGCG +TAGCAGATAAACGACACCAGCATCACCTGGCGCTTCGCCAGTTTGTGACCGCAGTAAAAGCGGGCGAGCA +GGTCATAGCAGCCGTAAATCAGATAGCTGACGACCACCAGCCCGACCGCACTAAGCAGCGCAACGCGATT +GTAGTCGCGGATGACCTTCCAGACCTCTTCCCAGTCCACTTTTTTGGCGTAGACCACCAGCAACACAATC +ACCGCGATAAAAAACAGCCAGGTGAGGATCTTCTTTGCTAAGCGCCAGCGCGGGTGTGATTTACTCATCA +GGGTTTTACCCCCGTGTTTTCAGTTTCTACCCGATCCTGCGTTTCCATTGTCGGTTGTGCGGGCGGATCA +ACCTGCGCCAGACGTGGCGTGTGTGCCGGAAGCCAGCCAACCAGCGCCGGGAAGTGGCGTAAAAAGTGGA +ACGCCAGCACGCTTTTGGTCAGGTTCCACCAGGTGCGTTTGGGCAGCATGGTTTCATCCACCTGCTGACA +ATCTGCGGCAATAATGCCGTTCAGATTATCGCGCAGCGTCTGGTTAAAATGACGATCGTGGATGATGACA +TTTGCTTCGAGATTCAGTGACAAACTGAGCGGATCGAGATTACTGGACCCTACTGTCGCCCAGTGATCGT +CCATCAATGCCACTTTGCCGTGGAGCGGGCGGCGGCGGTACTCAAAAACCTGAACGCCGCCTTTAACCAG +ATAGTTATACAGCAAGCGCGCACCGACTCTGACAATCGGCATATCCGGTTCGCCCTGAATGATCAGTTTG +ATCCGCACCCCGCGCCGTGCCGCTTTACGCAAGGCGTGTAAAAATCGATAGCCGGGGAAGAAGTAGGCGT +TGGCGATAATCACTTCCCGCCGCGCCTGAGTGAGCATTTTCAAATAATGGCGTTCAATATCATCGCGATG +TTCTTCGTTATCGCGCCAGACCAGCAATACCTGCGCTTCTCCCGGCTGGCGGTTCTCTTCCGCTTTGTGA +TGACGTCGCCACCAGCGTCGTGCCGCGCTCTGTCCAGGCAGGTTTTCCAGCTCAAACTGGAGAATATCTT +CGACAATCGGCCCTTCAAGGCGTACCGCGTAATCCTGTTTAGCCTCTGGACCGTAGCTGGACATATGCTC +GGCGGAGTAATTCAGCCCGCCAATAAAGGCTATACGCGCGTCGATCACCACAATTTTGCGATGCATCCGG +CGAAACACATTGGTGCGCATACCAAAAAGGCGAGGGCGGGGATCGTAGTAGCGGAACACTACGCCAGCTG +CCGTCAGTTCATTGACAAACTCATCGCTGAGATCCGGCGAACCGTAGCCATCCAGCAAGACTTCCGCTTT +AACCCCGCGTTGCGCTGCTGCCAGTAGTGCCGCATGCAGTTGTTTGCCGACGTCATCCTCAAACCAGATA +AACGTTTCAAGAATGATGCGTTCTTGTGCCTCGCCAATCGCCTTAAACACCGCGGGATAATATTGCTCGC +CGTTTTCCAGCAACTGGATCTTATTGCCTTCGCGCCAGCTACATTTCATAAATGAATCTCCGCACTTAAA +GGGGCATGATCAGAAAGGTGTCGCCATGTCCGCAGCGGCAACGCGGTTGGCGCGCTGGCGCTGGCATTTT +TGACGTAGATCCTGTCCAGTCGTAGTAGAGGAAATTGCACCGGAAACGTGCGCGCCGGGCGTCCGTGGGC +GCGGGTAAAAATCTCATCCAGTCCGGCCTGCACTTTTAACGGATGATTAGCTTTTTGCCGCCAGTCATTG +AAATCACCCGCCACCAATACCGGTTCGCCGTCCGGTAGCTCATTCACCCATTCGGCGAGCATCGCAAGCT +GCGCCTGACGGTGCGCCTCACGCAGGCCCAGATGTACGCACATCACATGAATCGCTTTTCCGGTCATCGG +CGGCACAATGCGGCAGTAGAGCACGCCGCGCTTTTCCGCACCATCGACCGAAACATCGCGATTCTCATAA +TGTTCAATGGGATAACGCGACAGTACGGCGTTGCCGTGATGCCCTTCCGGGTATACGGCATTGCGACCGT +AGGCAAAATCGCTCCACATAGTGTCGGCGAGAAACTCGTAGTGCGAGGTATCGGGCCAGTTTTCCACATG +CAGCGGATGAACTTCGTGCGCGCCCATCACTTCCTGCAGGCAAACAATATCGGCGCTGACGGTACGCACG +GCGTCGCGAAGTTCCGGCAAAATGAAGCGTCGGTTAAACGCGGTAAAGCCTTTGTGAATATTGATGGTGA +GCACCTTGAACGAAAATTGTTGTGTTTGATCGGGCATAATTTTCCTGTCTTTGCCTCTTATCTCATTGAA +ATAGTGTAGTCGGCGTCACAAAAAGGTGCGGTCTTACGGAATTTTCCGTAAAGTTCGGTACTCTGAGTAA +GTAGAGATAAATTCTTCAGGAGAGAAGCCATGAAGTGGCAACAACGTGTTCGTGTCGCAACGGGTCTAAG +TTGCTGGCAGATTATGTTGCATTTACTGGTAGTGGCGCTGCTGGTGGTGGGCTGGATGAGTAAGACTCTG +GTTCACGTCGGCGTGGGATTATGCGCACTGTATTGTGTCACGGTAGTGATGATGCTGGTGTTTCAGCGCC +ACCCCGAGCAACGCTGGCGTGAGGTGGCAGACGTGCTGGAAGAGCTGACCACGACCTGGTATTTTGGCGC +AGCGCTGATTGTGCTGTGGCTGTTGTCCCGCGTTCTGGAAAACAACTTTTTGCTGGCAATTGCAGGGCTG +GCAATCCTTGCCGGCCCGGCGGTAGTGTCTTTGCTGGCGAAAGATAAGAAGTTACATCACCTTACGTCTA +AACATCGCGTACGCCGCTGACCCTGTCGTGGCCGTTATCACCAGTAGCGGCCACAAACTATTCCACACAA +TATCCAGACTCGCATCCTTCAAATAAATCTGCTTGGTAATGTCCGTAAAGTGGCGAATAGGGTTAATCCA +CGTCAGGTTTTGCAGCCATACCGGCATGTTTTCCACCGGAGAAACGTAACCGGAAAGGAGAATGGCGGGC +ATCATAAAGACAAACACGCCGATAAACGCCTGCTGTTGTGTTGAACAGAGTGATGAAATCAACAGACCGA +ATCCCACCAGCGATAAACCATAAATCACCATCGTAAAGTAGAACAGCGCCAGCGATCCGGCGAAGGGGAT +TTGATACGCCCAGATACCAATCGCCAGCACAATGGTGGCCTGGAAGGTGGCGACAATTAACGCCGGTACG +GCTTTGCCGATGAAGATCTGCCAGGTGGTGAGCGGCGAAACCAGTAGCTGATCGAGCGTACCTTGTTCAC +GTTCGCGGGCGACGGAAAGTGAAGTGACGATCATTACGCCGATAGTGGTGATCATGGCGATCAGTGACGG +CACCACAAACCATTTGTAGTCGAGATTCGGGTTATACCAGTTGCGTACCACCAGCTCGCTGTTGTTAGGT +TTCGGTTTTCCTTCCAGCAGCTCCTGCTGATAATTTTTGACGATCTGTTGCAGGTAGTTGGCGGCAATTT +GCGCACTGTTGGAGTTACGCCCGTCGAGGATCAACTGCAAAGGCGCGGTCTGGAAGGTATCCAGTTTGCG +CGAGAAGTCAGCCGGGAAACGCACCAGTAGTAACGCCTTTTGTGTGTCGATGGTTGGGCGGATCTCCTGT +GGGCTTTTCAGCAGCAGCACATGAGTAAAGGCGCTGGCGCGGGCAAAACGTTGGGTCAGCTCCACCGAAT +GCTCGCCGTTATCTTCATCGTAGATGGCGATGGTGGCGTTAGTCACTTCCAGCGTGGCGGCGAACGGGAA +CAGGATCACCTGAATTAGCACGGGTAAAATCAGAATCGCGCGGGTTTGCGGTTCGCGCAGCAACGACTGC +AACTCTTTGCGGATTAACGTCCATAAGCGATGAAACATGCTCTTCTCCCTAATCCAGCCGACGTTTGGTT +TTCAGCCACGTCAGGCCGATAAACATCACCGCCGAAGCGATCAAAAACAGCACGTTTACCACCAGCACCA +CTGGAATATTCCCGGCGAGGAACAGGCTTTGCAGGGTGCTGACGAAATAACGAGCGGGAATAATGTACGT +CACCGCGCGGATCACCGCGGGCATACTGTCGATCTGAAAAATAAAGCCGGAAAGCATAATCGACGGCAGA +AAAGCGGCGTTCAGGGCGACCTGAGCGGCATTGAACTGGTTGCGGGTAATCGTGGAAATCAGCAGCCCCA +TCCCCAGGGTACTGAGTAAAAACAGGCTGGAGATAAAAAACAGAATCAGCAGCGACCCGCGATACGGCAC +GCCGAGAATAAACACTGACACCAGCATACACAGCAACATCGCCAGCATCCCGAGAAAGTAATAAGGGATC +AGCTTACACAGCAGCAGTTCCGTGCGGGTAATCTCCGTAGAGAGCAGAGCCTCCATGGTGCCGCGTTCCC +ATTCTCGCGCCACCACCAGCGAGGTGAGAATCGCGCCGATGACCGTCATGATAATGGTCACCGCACCGGG +GATAATGAAGTGCTGGCTAATCGCCGCCGGGTTAAACCAGTAGCGGGTTTGTACATCAATAAGCGGTTCA +AAAGTCTGCCCGTTGTCCTCCGCTCGCTGCATTTGCCAGATCTGCCAGATCCCTTCGACATACCCCTGTA +CAAAGTTAGCGGTATTCGGCTCACTGCCGTCGGTGATCACCTGAATCGGTGCGGTGGCGTTGGCGCGCTC +CATCTGTTCCGCAAAATCCACCGGAATAACCACCAGACCGCGAATTTTCCCCGCCTGCATTTTGGCGATC +AGTTCCTGACGGTTATCGCTGATGGTGGCGTCGATGTAGGGCGAACCGGTCATGGTGTGGGTGAAATCCA +GCGCCGCTTCGCTACGCTGTTCCAGTAAAATCCCGACCCGCAGCTTGCTGGAGTCGAGGTTAATGCCGTA +ACCAAAAATAAACAGCAGTAGCAGCGGGATCACTACCGCAATCAGCCAGCTACTCGGATCGCGAACGATC +TGCCGCGTCTCTTTAACGCACAGCGCCCGTACGCGACGCCAGGACAGGATCGGGTTACTCATTGCTATGC +TCCTTATCCCAGTCGTGGATCAACTGAATAAAGGCTTGCTCCATGGTGGGATCGGGTTGCTCATCGTTAG +CCGACTGTGCTTTCAAATCGTCCGGCGTGCCGCTGGCGATTAATTTCCCGCGGTACACCAGGCCGATGCG +GTCGCAATATTCCGCTTCATCCATAAAGTGGGTGGTGACCATCACCGTGACGCCTTTCTCTACCATGCTG +TTGATGTGCAGCCAAAATTCACGGCGGGTGAGGGGGTCAACGCCGGAAGTCGGTTCGTCGAGAAACAGAA +TGTCCGGTTCATGCATCAGCGAACAGGCCAGCGCCAGCCGCTGTTTAAAACCTAATGGCAGTTCATCGGT +GGCGTGGGAGGCGATACTTTTCAGGCCGAACGCCTCGCTCATGCGGGAGATTTTTTCGTTCTGCGCCCGA +CCGCGTAAGCCATACACACCAGAGAAAAAGCGTAAATTCTGTTCGACCGTCAGGTTACCGTAGAGCGAAA +ATTTTTGCGCCATATAGCCGAGATGCTGGCGCGCTTTACCGGAACTCTCTTTCAGATCCATCCCCAGCAC +CAGCGCCTGGCCGGAAGTCGGCACCAGCAAACCGCACATCATCTTAAAGGTGGTCGATTTACCCGCGCCG +TTTGGCCCCAGCAAACCAAAAATCTCCCCACGTTTAACGGCAAAGTTGACGTGATCGGTGGCGGCAAAAT +CCCCAAATTTCTTGGTCAGTTCTTTCGCTTCGATCACCGTCTCGCCGGGTGTGCCTTCTACCGTATGTAA +TATTGCGCCCAGCGGCGATTCCGAGGTTCCGGCACCGCCCAGCAAATCAATAAACGCATCTTCAAAACGC +GGCGTAGTTTCGTTGATGTTGATTTCCGGCATCCCGTCGGCATGGCGAATATCGTCTGGTGTGGCCTCTT +TTTTGAGGATCAGACGTACCGATTTCCCCTGAATCATGCCGTCGCTGACCTGCGGCAGTTTCAAGGCGCG +TTGCAACAGTTTGCGGTTGCCCTCGTGTGGACTGGTCATCAGAAAGCTGCGTCCGGCCATGGTTTGTGTC +AGGGCTTTTGGTTCTCCCTGATACAGCAACTCGCCTTCGTTCATCAGTAACACGTCACGGCACTGCTCGG +CTTCGTCGAGATACGAGGTACTCCAGAGGATTAACATCCCTTCGCCCGCCAGCTCATGCACCATCTGCCA +CAGTTCGCGCCGTGAGATAGGGTCAACGCCGACGCCGGGTTCATCGAGCAGCAACACTTTCGGTTCGCCC +ACCAGGGTACAGGCCAGACCGAGTTTTTGTTTCATCCCACCGGAGAGCTTGCCCGCCAGGCGTCCGGTAA +ACGGCCCAAGAGACGTAAACTCCAGCAGGCGAGCAAAAGTTTGCTTACGTGCCTCGCCGGTGACGCTGCG +CAAATCCGCGTACAGATTGAGGTTCTCCATCACCGTGAGATCTTCATACAGACCAAATTTCTGCGGCATA +TAACCGAGCACGGCGTGCAGCGCGCCGTCGTTTTTGATCGGATCAAAGCCAATCACCGTGGCACTGCCGC +TGTCGGGTTTCAGTAATCCCGCCAACATCCGCATCAGCGTGGTTTTACCTGCACCGTCCGGCCCCACCAA +CCCCGTCACATAACCGGCGTGAATGGTACAATCGAGCGGCGCGACGGCGGGCTTGTCCATGCCCGGAAAG +CGTTTTTCCAGGCCGTTCAGCGTGATAACGGCATCATTCATGTCCTGCCTCGTCACCGAATTGTACCGTC +ACTGGCATTCCCTGGCGTAACGCATCATCGGCGTCGGTCACCACAATACGCAGGCGATAGACGAGGTCGG +TACGCAGATCCGGCGTTTCGACGGTTTTCGGGGTAAATTCAGCAGTCGGCGAAACGAAACCAATCTGCCC +GTGATACGGCTTGTCCGGGCGACCATCGGTATAAAGCAGCACTTTGCGCCCCGGCTGGGCCTGGTCAAGA +TTACGTTCATCAACATAAGCGCGCACCCACACCGGACGCGTTAGTGAAACGGTAAACACCGTGCCACCTT +CATTGAGGACCGTGCCTGGCTCCACCGCGCGCGTTAACAGCGTGCCATCAGACGGGGCTATCAACGTTGA +GTCCTGTAAATTCAACTCCGCCTGCGCCAGTTGCGCCTGCGCCTGTTCGAGGCTGGCTTTCGCCTGAGCG +ATGTCCTGTTCACGGTTACCGGAACGGTACTGACGCAATTTATCCTGTGCTGATTTCAGCGTTGCCTGCG +CCTGGTCGCGCGAGGAGCGGGCATTTTCCAGGTCATTTGCCGAAATAGTGCGGCTTTTCCACAACCCTTG +CTGGCGGTTATAGAAGTTCTGCGCATAGTCATAGGCGGCTTGCGCCTGTTTCACCGCTGCGGCGGCCTGA +GCGATTTCTTCATTGCGATACCCGGCAAGCATCAGGTCATACTGCGCCTGTGCCACCGAAACACCCGCTT +TCGCCTGCATCAGGGCAATCTCATACGGCTTGTGATCCAGTTCGCCCAGCACCTGGCCCGCTTTGATAGC +ATCACCTTCGTCCACCGCCAGCGATTCAACGCGCCCCCCAACACGGAAACTAAGATTTACCGTACGAATA +TCCACGTTGCCATACAGCGTCAGGCCGTTATCCTGGCGGCTTTGATACCACCAGTAGCCTCCGGCAACCA +CGGCGGCAAGTACCACTACCGCCAATCCGATCACGACAGGTTTTTTCATCACTACAAACTCCTTTGCGAT +AATCCTTGCAAAATCAGGTCGATATGACAGGTCACCGTCTGGTTGATCAGTTCGGTCTTTTCTTCATCGA +ACGCGGTCCAGCCGGTACGTAACAGAATTGTTTCTTTGCCAAGACGGAACGCCAGAATCTCACCAATCAA +CGCATGGGTATGAAGGATCATGCGGGTGTCATTGGCGTCGCAGCCGGTCCAGGCGGCAATCAGGCGTGTC +AGGTGGCTGTGTAGCGGACTAATCACCTGTTCGTGCACCAGGTGGTAGGCTGCCGTGGGAGAGAGCTGCT +CACGGGAGATAAACTTGCTGAGGTTGACGGTGTCATCCTGGGTGAGCAGCTTAATCATGTTCCTGCAGGC +GCGAAGGATCAGTTCACGGATGGCAGCCCGATCAGGCTGTGGTTGCGCGAACAAGCGTTCGGCTTCCTCG +GCATGCGGACGGAACTGCTCGCCAATAAAATCGGCAATCCACTGGGCGCAGGCGAGGTACAAATCTTCTT +TCGAACCGAAGTAGTAGGTGATGGCAGCGATATTCTGCCCGGCCTGGGCGGCTATCTCGCGAGTGGTGGC +GTTCATTCCATATTCACCAAACTGCGCCAGTGCGGCAGCAATCAGCTGTTTTTTCGCCTGTTCACCCTTG +ATTGTCATGGCAGGATTATTCATCGCACAGTCCATTCTTAATCAAATGATTGATTAAGATTATGACTCCA +TAGGGGAGTTGTCCAGTATGGCTAAGAATTTTAGCAACGCCAGTCACAGGGATAATTTATGCGCTGCGTC +ACAAAAACTGCTACACTCCGCTCCCTCATGACATTGTGGTTTTTGTCATTTTCCTTTTCAGTATCTCCCT +GAAAACTACACCGGTAACGGTCGGGGCGGTTCGGAGTAGTTATGTCTTTCGATTCTTTGGGTTTAAGCCC +TGATATCCTGCGCGCCGTTGCCGAGCAGGGTTACCGTGAACCCACCCCTATTCAGCAGCAGGCGATCCCT +GCGGTGCTGGAAGGCCGCGACCTGATGGCTAGCGCCCAGACCGGCACCGGCAAAACAGCGGGCTTTACGC +TGCCGCTGTTGCAACACCTGATCACTCGCCAGCCGCACGCCAAAGGGCGTCGTCCGGTACGTGCGCTCAT +TCTTACCCCGACCCGTGAACTGGCGGCGCAGATTGGCGAAAACGTCCGTGATTACAGCAAATACCTGAAC +ATTCGTTCGCTGGTGGTGTTTGGTGGTGTGAGTATTAACCCGCAGATGATGAAACTGCGTGGCGGCGTTG +ATGTGCTGGTGGCAACCCCGGGACGTTTGCTGGACCTGGAACATCAGAATGCAGTGAAGCTGGATCAGGT +TGAAATCCTCGTCCTCGATGAAGCTGACCGCATGCTCGACATGGGCTTTATCCACGATATCCGTCGCGTG +TTAACAAAACTACCTGCGAAGCGCCAGAACCTGTTATTCTCCGCGACCTTCTCTGACGATATTAAAGCCC +TGGCGGAAAAACTGTTGCACAACCCGCTGGAAATCGAAGTGGCACGCCGCAATACCGCGTCTGATCAGGT +GACCCAGCACGTTCACTTTGTCGATAAGAAACGCAAACGCGAATTGCTGTCGCACATGATTGGGAAAGGG +AACTGGCAGCAGGTGCTGGTGTTTACCCGTACCAAACACGGCGCTAACCATCTGGCTGAACAGCTCAATA +AAGATGGCATCCGTAGTGCGGCGATCCACGGCAATAAATCGCAAGGTGCGCGTACTCGTGCGCTGGCTGA +TTTTAAATCGGGCGATATTCGTGTACTGGTGGCAACTGACATCGCTGCGCGCGGCCTGGATATTGAAGAG +CTGCCGCACGTCGTCAACTATGAACTGCCAAACGTACCTGAAGATTATGTCCACCGTATCGGGCGTACCG +GTCGTGCGGCTGCTACCGGTGAAGCGTTGTCGCTGGTGTGTGTTGATGAACACAAACTGCTGCGTGATAT +CGAAAAACTGCTGAAAAAAGAGATCCCGCGCATTGCGATTCCGGGCTATGAGCCGGACCCGTCAATCAAA +GCCGAACCGATCCAGAACGGTCGCCAGCAACGTGGCGGCGGCGGTCGTGGGCAAGGTGGTGGTCGCGGTC +AACAGCAACCACGCCGTGGGGAAGGTGGCGCAAAATCTGCAAGCGCGAAACCTGCAGAAAAACCGTCTCG +CCGCCTCGGCGATGCCAAACCGGCAGGCGAACAACAACGTCGCCGCCGTCCGCGTAAACCTGCCGCTGCG +CAGTAATCTTTTATGCCGGGCTATGCCCGGCATCAGGCTGATGAACAAACGCAAAACTGCCTGATGCGCT +ACGCTTATCAGGCCTACGTGAACTCTGCAATATATTGAATTTGCATGCTTTTGTAGGCCGGATAAGGCGT +TTACGCCGCATCCGGCATTTCACAACAAGCACTTGTCAGCAATTTGAGAACACGGGAAAAAATTTATCTG +TTTTACCGCCCATAAGCCACCGAGACGTTACTTCTCTATAGCCAATTGTTCGCGCAACTCCATTAAAAGG +TAGCCCAGTCGATTCTTGCCCTTACCATGACCACCGTCTCCCCAGTAAGCATCGTTTTCCGTATGCTCAA +CCAGTTTTGCGGGCGCGGTTGCCAGCAAGAGCGCACGCAGTTCTGCATGCTGTTCGAATTTAGCGCGAAG +TGCTTTTCGCATCACCTGTTCTTTGACCGACTCCCAGTTTTTACGCAGAGGCTTAGAACGATCGCGCCCC +ATGCGTGCGGCGACCATAGGGGAAGAAACCCGACGGATCTCTTCGCGGTATTTTTCATCAAGGAATTTTT +GTGCCTGAAAATAGTGTTCTGAGGTAGGCCAGGTTTTCCCGTCAACCTTGATGGGCCAGGCGGCAAAGTT +AGAAAAATCACCGTAGTCATCGCTGGTGCTGTAGAAATTTATGATGGTGTCTTGCATGACGTGTTGGATC +CTTTGTGCTCGAACGGGCATTAAACCGCATTATGTTGGTGGTTATTGCGAGCCGCTTTCCAGAAACAGAA +AAACCATTACCCCTGAAAACCGAAAAATGCCACAATATTGGCTGTTTATACAGTATTTCAGGTTTTCTCA +TGGCATTAACCGCCGCGCTTAAAGCGCAAATTGCCGCCTGGTATAAGGCGCTTCAGGAACAGATCCCCGA +CTTTATTCCCCGTGCGCCGCAGCGGCAGATGATTGCGGACGTCGCCAAAACGCTGGCCGGAGAAGAAGGG +CGACATCTGGCGATTGAAGCCCCCACCGGCGTTGGGAAAACGCTCTCTTATTTGATTCCCGGCATCGCCA +TTGCCCGCGAAGAGCAAAAAACGCTGGTGGTGAGTACCGCCAACGTGGCATTGCAGGATCAGATTTACAG +CAAAGATTTACCGCTGCTGAAAAAGATCATTCCCGATCTTAAATTCACTGCCGCTTTTGGGCGTGGGCGC +TACGTTTGTCCGCGTAATCTGACGGCGCTCGCCAGTACTGAACCCACGCAACAGGATCTGCTGGCGTTTC +TTGACGACGAACTGACGCCGAACAATCAGGAAGAGCAAAAACGTTGTGCGAAGCTGAAGGGCGATCTCGA +TACTTATAAATGGGATGGTCTGCGCGATCATACTGATATCGCTATAGATGACGATCTCTGGCGTCGTTTA +AGTACCGACAAAGCCAGCTGCCTCAACCGCAATTGTTACTACTATCGTGAATGCCCGTTTTTTGTCGCTC +GTCGGGAGATTCAGGAAGCGGAAGTGGTGGTGGCAAACCATGCGCTGGTGATGGCGGCGATGGAAAGCGA +AGCGGTATTGCCTGACCCGAAAAATTTACTGCTGGTGCTGGACGAAGGCCATCACCTGCCGGATGTGGCG +CGGGATGCGCTTGAGATGAGCGCCGAAATCACCGCGCCGTGGTATCGGCTACAGCTGGACTTGTTCACGA +AACTGGTCGCTACCTGCATGGAGCAGTTTCGCCCGAAGACCATCCCACCGCTGGCGATCCCTGAACGTTT +GAATGCGCATTGTGAAGAGTTGTATGAGCTTATCGCCTCGTTAAACAACATTCTCAATCTCTACATGCCT +GCCGGGCAGGAGGCAGAGCACCGTTTTGCGATGGGCGAACTGCCAGATGAAGTGCTGGAGATCTGCCAGC +GGCTGGCAAAACTCACCGAGATGCTGCGTGGCCTGGCGGAGTTATTTCTTAACGATTTAAGTGAGAAAAC +CGGCAGCCATGACATTGTACGTCTGCATCGGTTGATTTTGCAGATGAACCGCGCGTTGGGGATGTTCGAG +GCGCAAAGCAAACTCTGGCGGCTGGCTTCGCTGGCGCAATCTTCCGGTGCACCGGTGACCAAATGGGCGA +CGCGGGAAGAGCGCGAAGGGCAGCTACACCTCTGGTTTCACTGCGTGGGAATACGTGTCAGCGATCAGCT +GGAAAGGCTGCTGTGGCGCAGTATTCCGCACATTATTGTCACCTCCGCAACCTTGCGTTCGCTGAACAGT +TTTTCGCGTTTGCAGGAGATGAGTGGTCTGAAAGAGAAAGCGGGCGACCGTTTTGTGGCGCTGGATTCCC +CCTTTAACCACTGCGAACAGGGCAAAATTGTTATTCCCCGGATGCGCGTTGAGCCTTCCATCGACAACGA +AGAGCAGCATATTGCCGAAATGGCGGCCTTTTTCCGTAAGCAGGTGGAGAGCAAAAAACATCTCGGTATG +TTGGTACTGTTTGCCAGCGGACGGGCGATGCAGCGCTTTCTCGACTATGTGACGGATTTACGTCTGATGT +TGCTGGTTCAGGGCGATCAGCCGCGTTACCGTTTAGTTGAACTGCACCGCAAACGCGTCGCCAACGGTGA +GCGCAGCGTGCTGGTGGGCTTACAGTCATTTGCCGAAGGGCTTGATTTGAAAGGTGATCTGCTCAGCCAG +GTGCATATCCACAAAATCGCTTTTCCGCCCATCGACAGCCCGGTGGTGATCACCGAAGGGGAATGGCTGA +AAAGCCTCAACCGCTATCCGTTTGAGGTGCAAAGCCTGCCGAGCGCCTCGTTTAACCTGATTCAGCAGGT +TGGGCGACTGATTCGAAGCCACGGTTGCTGGGGCGAAGTGGTTATCTACGACAAACGCTTGCTGACCAAA +AATTATGGCAAGCGACTACTGGATGCATTACCGGTATTTCCGATAGAGCAACCGGAAGTCCCTGAAGGTA +TAGTTAAAAAGAAAGAAAAAACGAAATCCCCACGCCGTCGGCGGCGTTAATGATGTGAGTCAGGTAAGGA +GTCGTAAATGGACTATCGCAAAATCATTAAAGAGATCGGGCGCGGGAAAAACCACGCGCGCGATTTAGAC +CGGGATACTGCGCGCGGTCTGTATGCTCATATGCTCAATGGTGAAGTCCCTGACCTTGAGTTGGGCGGCG +TATTGATTGCGCTGCGTATCAAAGGAGAAGGGGAAGCAGAGATGCTCGGCTTTTACGAAGCCATGCAAAA +TCACACCATCAAGCTGACGCCGCCAGCAGGCAAGCCGATGCCGATTGTCATCCCCAGTTACAACGGCGCG +CGTAAACAGGCCAACCTGACGCCGTTGTTGGCGATTCTCCTGCACAAACTCGGTTTTCCTGTGGTGGTTC +ACGGGGTTAGCGAAGATCCAACCCGCGTGCTGACTGAAACCATTTTTGAATTGATGGGTATTACGCCAAC +GTTGCACGGCGGGCAGGCGCAGGCGAAGCTCGACGAACATCAACCGGTGTTTATGCCAGTCGGCGCGTTT +TGCCCGCCGCTGGAAAAACAACTGGCGATGCGCTGGCGGATGGGCGTGCGTAACAGTGCACATACCCTGG +CGAAACTGGCGACGCCATTTGCCGAAGGTGAGGCGCTGCGTCTTTCCAGCGTTTCGCATCCGGAATACAT +TGGACGCGTCGCGAAGTTCTTTAGCGATATCGGCGGGCGGGCGCTACTAATGCATGGTACTGAAGGTGAA +GTGTATGCTAATCCGCAGCGCTGCCCGCAGATCAATCTCATTGACCGTGAAGGGATGCGGGTGCTGTATG +AAAAACAGGACACTGCTGGTAGCGAGTTACTGCCACAAGCAAAAGATCCGGAAACCACGGCGCAGTGGAT +TGAGCGTTGCCTTGCTGGCAGCGAACCGATTCCCGAATCGCTGAAAATCCAGATGGCTTGCTGCCTGGTG +GCTACGGGTGAAGCGGCAACTATCAGCGACGGCCTGGCGCGCGTTAATCAGGCATTTTAATTCTTTTCTC +AGCCGGATGAGCCATGTCATCCGGCTTTTACCCCACCGCAATATGAAATTCCTGCATCTTTATTGACCTT +CCCACGCCCGGCGTGCAGCATAAAAATACAACAAACACATAACATAAACAGGAGTTAACCATGGAAAGTG +GTCATCGCTTTGATGCTCAGACGCTGCACAGTTTTATTCAGGCTGTATTTCGTCAGATGGGTAGCGAGGA +ACAAGAAGCGAAATTAGTTGCCGATCATTTAATCGCGGCAAACCTGGCAGGGCATGATTCACATGGTATT +GGCATGATCCCAAGCTATGTACGCTCCTGGAGTCAGGGGCACCTGCAAATTAACCATCATGCCAAAACCG +TTAAAGAGGCGGGGGCGGCGGTCACGCTCGATGGCGATCGCGCATTTGGTCAGGTCGCGGCACATGAAGC +GATGGCGCTGGGGATTGAGAAAGCGCATCAGCACGGTATTGCCGCCGTGGCGCTACATAACTCGCATCAT +ATCGGCCGTATCGGTTACTGGGCGGAGCAGTGTGCAGCGGCGGGGTTTGTCTCTATCCACTTTGTTAGCG +TGGTCGGTATTCCAATGGTCGCGCCGTTCCACGGTCGCGACAGCCGCTTTGGCACCAATCCGTTCTGTGT +GGTTTTCCCTCGTAAAGATAATTTCCCGCTGTTGCTTGATTACGCCACCAGCGCCATTGCATTTGGCAAA +ACCCGCGTCGCCTGGCATAAAGGCGTCCCCGTGCCGCCAGGTTGCCTGATTGACGTTAACGGCGTGCCGA +CGACCAATCCGGCGGTAATGCAGGAGTCGCCGTTGGGTTCGCTGTTGACCTTTGCCGAACATAAAGGCTA +CGCCCTTGCAGCGATGTGTGAAATTCTTGGCGGGGCGCTTTCCGGCGGTAAAACGACGCATCAGGAAACG +TTACAAACCAGTCCCGATGCCATTCTTAACTGCATGACCACTATCATCATCAACCCGGAACTCTTCGGCG +CGCCGGATTGTAACGCGCAGACCGAAGCCTTTGCCGAGTGGGTGAAAGCCTCGCCGCATGATGATGATAA +GCCGATTTTGCTACCGGGCGAGTGGGAAGTGAACACGCGTCGCGAACGGCAGAAGCAGGGGATTCCACTG +GATGCGGGAAGCTGGCAGGCCATTTGTGATGCAGCGCGGCAGATTGGTATGCCGGAAGAGACGTTGCAGG +CTTTCTGTCAGCAGTTAGCCAGCTAAAAAAAAGCCCGTCCAGTGGCGGACGGGCAAACAAGGGTAACATA +GGATCAATGAGGGTTAGAGCATATGCGTCTGTCGGCAAACAGACAGGGAAATACTTGTGCTGGACGTAGC +GTAAACGCCTGATCCGTCCAACGGTTCGGATTTTGTAGGCCTGATAAGACGCGGTAGCGTCGCATCAGGC +ATCTGTTGCCGGATGCGGCGTAAACGCCTTATCCGTCCTACGAATTACTTATAAATTACCGCAGTACCGC +TTAATTTATTGTTGTTGGTGGCGGAAGTGATGCTGTATCCACTGGCACCGGCTGCCGCGGCTTTCTCAGC +CAGTTTCGCTTCCAGGGCATCGAGGGTGGATGCGCCATCGGCAGAAACCACGCCGATTTTATTCATGTTC +TGTGCCTGGGATGCCGTTACCGGTTCCGCCGCGAACACGCCAAATGACAGAGTTGAAAGAGCCATAGCAG +CAACAACAGTATTGATAGTTTTCATAATTAATCTCTCGCAGGTGATTTTTGTATAAGTGACGTTGTTTCG +TCGATGTGATGAGTATCACGTTTTTTTACGAGAGATAAAATCGAAGAGAATTGACCGCCTTGTTCAAATA +AATTGATTGATATCTAACCTACTGATAAACCATTTATTTGTTGTACTTATGAACTTGTTTTATACCGCGT +GGCAGTCACAGCAGCGTTAAAGGCACGGAATGACACGCAAAATACAAATTATACTCGCTATGCATCTCGC +CAGTTGTAGTTAACGTAACTGGCTGTCTTTCGAACCTCTGCGATTATATCCTGTATAAGCTGGTTTTTGT +AAATCTTTCTCCTGCTGACAATGAATACATAAGCGCACGCCAGGAATGGCTTCCCGACGGGCCTGCGGGA +TGGGGGCACCGCACTCTTCACATTCATCCAGGCTTTCGCCGCGCGGAATTTCACCCCGAGCGCGGGCAAT +CGCATCTTCAATTGTACTGTTGATCTGTTCGTTGACGGCGTCATCGTTAGCCCAACCGGATGCCATATCG +ACCTCCCCATATCAATACTTGTACAGTTAAGTGTAGCTAATCCAGGGACGAACTCGGGCAGTTCAAGCAT +CAGATCTCCGACCATTCCCGCAGCAGATTATGATAAAGATTAAGCAGCGACAGGATCTCTTCACTTTCGC +CGTAGCGGCTTTTCAGCGACTGAATATTGTTGTCCAGTTCAAACAGCATGGCGCGCTTTTTATCATCGCG +GATCATCGACTGGATCCACATAAATGATGCCACTCGTACGCCGCGGGTTACGGGTGTCACGCAATGCAGG +CTGCTGGAGGGATACAACACGAGATCGCCTGCCGGGAGTTTTACCCGATGTTGTCCGAAGGTGTCATTAA +CGACCAGTTCGCCGCCGTCGTAGCTTTGTGGATCGCTTAAAAACAGCGTGGCAGAAAGGTCAGTACGCAT +CCAGCCGTTTTGTGGATGGCTGCGTACTGCGCCATCCACATGGAAACCATAGGTTTCATTGTTCTGATAG +CGATTAAACAGCGGCGTGGAAAGGGTACGCGGCAAGGCCGCGGCAAAGAATAAAGCATGTTGGTTAACCG +CGTTCAGCACCTCATTTTGCAGGGCGGCGTATAACGTGCTGCGGGTGTCGACCTGTTGATTGTTCTTAAC +TTGCGCACCTTGTGCGCCGGTGGTGACGCGTCCATCCACCCATTCGGCTTGTTCCAGTTGTTCGCGAAAA +CGAGCGACGTCCTGTGGCGATAACACGCCGGGAATGTGGTACATCATACAATTTCTCCAAAAAGTGGGGC +CTGCGCCCCACATCTGAATCAGAAATGCATATTGGCTGTGAGCAAGAAGGTTCTTGGCTCGCCCGGGTGA +TAACGGTAGCCGCTCTTGTTGATTGAGGCGACGTAATCGGTATCAAACAGGTTGTAAACGTTTAGCTGGA +AGTCGAGATTGCGATTAACTCGATACCCCAGTTTGGCATCGGCGACCCAGTAACCTTCGGTAAACGCTGG +CGTTCCCACCGCGCCGTCTGAACCTTTATGCATACTGCCGATATAGCGTGCGCCCGCGCCAACAGAGATA +TCGTCGGTTGCCTGATATTGGCTCCATAAGGTGAAGGCGTGCTCCGGGGTATACGGCAGCGATGAGGAAC +CATCCTGGGCAACATCTTTGCCGTTTTTGATGGTTGCTTTTTGCTGGGTATAGCCGCCAATCACCTGCCA +CGCGGGAGTGATATTCCCGGCCACGGATATCTCATAGCCTTCGACGCGTTTCTTACCGTATTGCGAGTAA +GTTCCGTCATCATTTTGCTCAACTTCATTTTCGATATCAGTGCGGAACAGCGCGGCGGTGAGCAACAGAC +GTTTATCCAGAACCTGCCATTTGGTGCCAATCTCGCTGGTGTTGGCTTTTTGCGGTTTAAAATCGGTGCG +GTTGGCACTGTTACCGCTGCCAGACTGCGCAAGGGCGAAGTTGTTGCCGCCCGGAGGCTGCTGGGAAACG +GCATAGTTAATATAGACATTGCCGTTTTCCGTCAGGTGATACAGCGCCCCGGCTTTCCAGTTCATCAGAT +TGCCCGACTTGGCGGTGTCGACGGTGGTGACCGGAGAACCTTTTGCCACACCAGTTGGGCAGGTGATGGC +ACCGCGTCCGCTGCCGCCGCAGGCGGTGGCACTGTCATATTCAGTATGATAATTATCCAGACGGATCCCG +CCGTTCAGCTCAAAATCACGGGTGATTTGCAGCGTATCAAAGGCGTAAATTGCGAAGGTATCCGTCTGAC +CATTGGCGTTTGCGCCGTTGCGCGTCAGGCCGCCGGGATGAATGCTGCTGTCAGGATGATAAATATTTAC +CGCGGGTAACGTCACCGGATTAACGCCGTAGTTAGTCTGCGTTTCACGGGTAAATTCCACGCCGGTACTG +ACATCATGACCGATAGAACCGGTATAGAACGTCGAGGTCAGGTTGGTCTGGTTGGTGAGAATTTTATTAC +TCACATCTTTGGTATTCGCCGTGCGTGACCAGGTCCAGCTATTCACATCGCTGGTGGGCTGAGTAATATT +CGACGCCCCGCCCATAATCGCCGTCATCAGGTAATCCTGCTTTACGCGCGACCAACGGGTAGTATTGCGA +ATGGTGGTGTTATCGTTGATGTCGTGCTCAAAACGCATGGTGGCGGTGTCGGTGGTCGAATCGTCGTAAT +CGGAATCCGTGCCGTAAAAGTTATGAGTATCAACTTTTCCGGAATGATTCAGGGCCGCCGTTCCCGCAGA +TGGGGCAGAATAGCCCGGCAAACCGATGGTCGGAATGCCGCCGTCTGGCGTGTTGTGCTGGGTGACATGC +AGATAATTAAGATACAAACGATTCGCTGTACCAAGGCCAAAAGCGACAGAAGGGGCGACGCCGTAACGCT +CATTTTTGACTTTGTCGCGTCCGGCATCGTGCGTTTTTTCGCCCATTACATTCAGGCGCACCGCGGTGGT +ATCACCAATGACCTGATTGACGTCCAGCGTGCCGCGGCGGAACCAGGCGCTGCCAATACTGGCGGAGGCG +TCAATGCCGGAATCATTGCGCGGCTGCTTGCTGATCATATTGATCGAGCCTGTCGGTGCGCTGCGCCCGT +AGTCGGTGCCGGACGGCCCTTTAATCACTTCGACCTGCTCGGTATTGAAGGTGTCGCGCGAGACGCTGCC +GATATCGCGAATGCCATCAATATAAATACTGTTAGAGGTATCGGCACCACGCATATAAATGGCGTCGCCA +GTGGTGGAGTTACCGTTCTCACCCGCAAAAAACGCACCCACGCCGGGGACGTTTTTGAGCGCGTCGGTAA +GGTTGGTTGCGCCCTGATCTTTAATCACTTGTTCAGAAATTACCGTCATCGTGCGGGTAGTATCCGCTAC +CGGACGCGAGAATTTCGGATCGGCAGATTGTTGTGGCGCATAAAGCGAAGGCGTTGATGCTTCGACAACC +AGCGTGTCATCCGCGTTAGTTTGCCCTTCGGCGGCGAGTGCCTGAGCCACAGGCGTGATGCCAATACAAA +GACCGGCAAAGAACGTGAGCGAATGAAATTGTCTGGCAGGGAAATTGCGATTGTTTTCCATTTTGCAGGT +GACTTTTTCTTATATGTTGAAATTTTCACTGCCACGAGAAAGCCTCTCTGCGGATGCGATGCCACTGTTA +ATCCCGTGATAGTGCTCGTGAAAGTGATAATAATTTTGATAAGCATTATCACTTGGAGCGATTTTCTATC +ACCCATTGCGCGAAAAAGAAATACATTTATTTACATTGAGTTCATATTTGATGTTTTTTGATTACAAAAC +AGACGAAAACTGCATCCAGAGGCGAATGCAGTTACGTTGGTGGGGTTATTTGTAGATGGTTGCAGTACCG +AACATCTGGTCATTTCCGCCTGCGGAATTAATGACATAACCTTTCGCGCCTTGTTCGCGCGCTTTTTCTG +CCAGTTTATCCTCCAGATCGCTTAGGTTTGATGCGCCAGTTGCCGAAACGGTACCGGCGGGCCGTAGCTG +ACCGCTGTCCAGGTTACTCATCGGTTGCGCGGCATAAGCCGTGAGAGAGATTCCGCTCAGGACGGTGGCA +ATCAGTAGTGTGAGGCACTTTTTCATAATGACATCCTCATAAATACAACGGGTAGTGCCTGATAAGTGTA +GGTCGCCTGCGCGATGCAAATGACGCAAAAAATTGACAGAGATGTGCTTATTTTTTGAACGATATATTTT +TACAAAATAAGACAAATCAATGACATGCATAATGCTGATTTTTATGATGAATTGCCATAAACCATAGCCA +TGTTAAGGTTTTGGGGAATGATAAACGCAGCCAGATATTTACCCTGTCGCGTTATGCGGGTATCTTACGC +CGCTGCTTAAAGGAGAATGCTATGTCCGCCCAGAAACCGGGGTTGCATCCGCGCAACCGTCATCACAGCC +GCTACGATCTCGCCACGCTTTGTCAGGTCAATCCTGAACTCAGGCAATTCCTCACGCTTACACCCGCCGG +GGAGCAAAGCGTAGACTTTGCCAATCCGCTGGCGGTGAAGGCGCTCAATAAGGCGTTGCTGGCCCATTTT +TACGCCGTAGCGAACTGGGATATCCCCGACGGTTTTCTCTGCCCACCAGTACCGGGCCGGGCGGATTATA +TTCATCACCTTGCCGATTTACTGGCAGAAGCAAGCGGAACAATTCCAGCGAATGCCAGCATTCTGGATAT +CGGCGTTGGTGCGAACTGTATTTATCCGCTGATTGGCGTACATGAATATGGCTGGCGTTTTACCGGTAGT +GAAACCAGCAGCCAGGCGTTAAGCAGTGCGCAGGCGATTATCAGTTCTAATCCGGGGCTTAACCGCGCCA +TTCGTCTGCGTCGGCAAAAAGAGAGTGGGGCGATTTTTAACGGCATCATCCATAAAAACGAGCAATACGA +CGCGACCTTGTGTAACCCGCCATTCCACGATTCCGCCGCTGCGGCACGGGCAGGTAGTGAGCGTAAACGC +CGTAACCTGGGGCTGAACAAAGACGATGCACTGAACTTTGGCGGCCAGCAACAGGAGTTGTGGTGTGAAG +GCGGTGAAGTCACCTTTATCAAAAAGATGATTGAAGAGAGCAAAGGCTTCGCGAAGCAGGTGATGTGGTT +TACATCACTGGTATCTCGTGGTGAAAACTTACCGCCGTTGTATCGTGCCCTGACGGACGTGGGCGCGGTG +AAGGTGGTTAAAAAAGAGATGGCCCAGGGGCAAAAGCAGAGTCGCTTTATTGCCTGGACCTTTATGAACG +ACGAGCAGCGCCGCCGTTTTGTCAATCGCCAGCGTTAAAGCGTTGGTTCCCCCGGCGGTAACGGTTCAGC +CGGGGTCGCGCCCGGAGCAGGCAGCACCTGATAAGTCTGCACTGGCGCGCGAACGCCCGCCAGGTCGAAA +TGTTTTTTCACCTGGCTGTCGAGGGCAAAGCGTACCGTCCACTGTTTGAGTGGCAGCGTGGTGAACGAAA +CACGCAGTGTAAACGCGGTATTGCTTAAGCCGACAATCCCGGCAAAATTCGGTTCACCAATAATCAGCCC +GCGAATTTCTTCGTTTTCCATTAATTCCGCTACCGCATCTTTCAGTGCCTGATTGGCTTTATCAGCATCT +TCATGGCGATCAACATCATAATTTGCCACCACCGAACCAATGCCGCGGACAAAGTTAGCAAAGGTGGTTA +TCGAAGACCACGGAATGATGTGATACGCCCCGGTATCCTGTCGTACGCCCACGGAGCGAATCGACATCCG +TTCCACTGTGCCGGTCAACGGCCCGATAGTCACCAAATCTCCAGTGTTCATGCCGTTTTCAAACTGAATA +AATACCCCGGTGATAATATCTTTCACCAGCGTTTGCGAACCAAACGAGATAGCCAGACCTAATGCCCCGG +CACCTGCCAGCAATGGCGCGATATTGACGCCGATTTCCGACAACACAATCATGATGGTGATGGTACTGAT +AATCACCGCCAGCGCGTTACGAAACAGCGTAAGCAGGGTACGCGTGCGGGCGCTGGGTAGCGGGCGGCCA +TGAATATCCGAAGCCAGCCGGTTTTCGATCAAACTGGCGAGCACCGTCCAGCCAACCGCCGAGAAGAAAA +GAATGAGTGCGATACGGATCAGGATATCTACGGTTTTCTGCCCCGCGCCGTTTTGCAGCCAGTTCCAGAA +ATCGAACAATCCCCATGCGCTCAACAGCAACATTACCGCCACGCAGACTGTCAGAATACGCGCCGTTTTC +AGCGCCGCCGACAGCCAGCCATTCAACCGTTTTTGCAGCTCCGGATAGTTACGCTGAGTATGTGGCGAGA +GAGTGATGGTTTTCGCCAGCCAGCGGGAAAACATACCGGAAACAAACGCTGCGATACCAATAATCGCCAG +GCTGCGCACCGTTGCACCCATCATAAATTTCAGGCTGTTGCCCGGATCGAACAACGAAAAGAAAAACAGC +ACGATAAAATAGGCGCTTGCCAGCCAGTGCCACACCAGCGCAAAGGCGCGGATAAACAGGCTGAAAAAGG +CCAGCGAATGCTCCGCGAAGTTGAGCAAATGCTGGGTAATCTCTTTTTTATTACGAAAGATCAGGTACAA +CGCCCAGACGGTCATGCACAGCATAATGATGACGTTCGCCAGCGCACCTATCTGTACATTCACCTGATTA +GAGATAATCGGCACGGCCACAATCAGGCCATAACCTATCAAACTGCTTAACCAGCTCAGGCGACGACTCC +AGTAACGGGCGCTCTCGTCCTGAATCGTGAACGGGCGCAGCTCCGCCACGTTTGGGCAAAAAATCAGGCG +TAGTACGGCTTTGAAAAATTCAATGAGGGCAAAGGCGTTGAGAAACAAACTTTGTTGGAAAGCGATGGTG +CGACTGCCTGCATTCAGGTTGTCGCTTAATACCTGGCCGACAAATAATGTCAGGGCCAGTAACAGCAGGT +CGATAATAAACGCCCCGATAATCATCGCCGGAAGCTGCAACCAGTTGCTGCGCTCACGATTTTTTTGCCG +CGCCCACTGACCCATTTTGCGATACAGCGGCAGTGCGCACAGGCGAATCAGCCAGTAAAAACCAAACACT +AATACCGCTAACATTGAAAAATGGGTCAGCGCATTGCTGAAGGTTTGTGGATTAAACGGCTTATGCGGGG +AGCCGGTGATATTGCGATAAAGTTGCCCGAAGCGGGCGGAAAGGGCTTCACCATAATGGCGGCTGACTTC +GGTGACCTTTTGCAGCACGGTTTGCTCTTCGACCAGCGTCGGCGGCACTATTTTTGGTACCGGTTCAGCA +GGGGGCGTAGCGGCAACGGTGCGCAACTGGTCGATCAACTCTTTACGCGAGGTGTCATTATCCAGCACAT +CCGCCAGTGCGCCATAGGCCGCTTTTTTTTGTTCGATATCCGGTTCCGGGGCCGGTTCAGTCGTTGAGTC +CGTTGTCGTTGTGGTTGTAACGCCGGGTATGGATACCGCGTGGGCAGGTGCGCCCAGCAGGCAGAAGAGG +ATGAACAGGATCCACCGCATGACTCCTCCAGTGAGAAAATAGAGCAAAAAGATAAGTATAGATGCTGGAG +GAGGGGCGATTTTAAATGAGAGGAATCTGGTGTGCCTCCCTTTCGGGTGAAAGGGAGGAAGGGATATTAA +GCAGGTTGCTGACAACGTGCGGGCTTTTTTGCCGGATGCGGCGTGAACGCCTTATCCGTCCTACAAGTTC +ATGCAATTTTAATAAGTTGCCAGATATCCTGTAGGCCTGATAAGCGTAGCGCATCAGGCAATGTGTCTTA +TTAAGAGACGTGCTGCAAAAATTCCTGCAAGCGCTGGCTCGGCGGGTTCTTGATCAACACCTGCGGATTG +CCATCTTCCGCAATCCGGCCTTTGTCGATAAAGATCAGCCGCGAAGCTACTTTCTCGGCAAAACCGATTT +CGTGGGTCACGATCACCATCGTCATCCCTTCTTCAGCCAGATCCTGCATAACCTTCAGCACTTCATGGCG +CAGTTCCGGGTCAAGAGCGGAAGTCGGTTCATCAAACAGCATCATTTTCGGCTTCACCGCCAGCGCGCGG +GCAATCGCCACACGCTGCTGTTGACCACCAGAAAGTTCGGAAGGGTAGTGATGTGCACGTTCTGCCAGAC +CGACTTTCGCCAGCAGCTCACGTGCCAGTTTTTCCGCCTCTTCTTTGTTCGCGCCACGCACGCGTAGCGG +GCCAAACATGACGTTTTCCAGCGCTGTCAGATGCGGGAAGAGGTAAAACTGCTGGAACACCATACCTGCT +TCCTGGCGAATCAGGCGCTCGTCAACTTTCGGATCGTTAACCTTCAGGCCATCGACAATCAGATCGCCGG +AGGTGATTTCTTCCAGTTTGTTGATGCAGCGCAGCAGGGTCGATTTACCGGAACCGGACGGCCCGATAAT +CACCACGACTTCGCCCTGGGCAATGTTCAAATCGATATTGTGCAGCACCTGGGTTGGGCCAAAGTGCTTG +GAGACGTTTTTAAATTCAATCACAGGATTTTCATCCTTCTTTCCAGACGACGCAGAATAAAGCTCAGCAC +CAGGGTAATAATCAGATAGAACACCGCCACGGCGCTCCAGATCTCAAGGGCGCGGAAGTTACCGGCAATA +ATTTCTTGCCCCTGACGGGTCAGTTCCGCCACGCCGATCACAATAAACAGCGAGGTGTCTTTAATGCTGA +TGATCCACTGGTTACCCAGCGGCGGCAGCATACGACGCAGTGCCAGCGGTAAAATGACGTAGCGAATGGT +TTCCCAACGTGAAAGACCGAGCGCCAGTCCTGCTTCACGAAAACCTTTGTGGATAGACAGCACCGCACCA +CGCGTGATTTCCGCAATATACGCGCCGGAGTTGATCATGATGGTGACCACCGCCGCAGTAAATGGGTCGA +TGCGTAAGTCGTTAAACGCCATCGGCAGGGCGAAATAAATAAACATCACCTGGACGACGATAGGTGTGCC +GCGGATCACTTCAATAAAGACCAGCGCGACGTGGTTGGCTATCCAACCTCCGAAGGTGCGTGCAAAACCT +GCCAGCAATCCGATTACCAGACCGCCTGCCAGACCGAGGACCGAAATCCACAGGGTCATTTTGGCACCTT +CAATCAGAAGCGGAATGGCAGGCCAGATGGCACTCCAGTCAAACTGCATATGTTGTTCCTGTTACCGTGG +TGTAAATAATCAAATTCAGGGTAATTAATGGCCCCGGAGCGGGTTTGCGCCCCTCACCCTAATCCTCTCC +CCATAGGGGAGAGGGAACTGCCAGTGCGTTTTACAGGTGTAGCGTTATTATTTCGGTTCAGTACCGAACC +ATTTTTTGTAGATTTCGTTGTAAGTTCCGTTCTCGCGCAGGGTTTTCAACGCGCCGTTGACTTTGTCACG +CAGCTCGTCGCTACCTTTCGGGAACGCAATACCGTATTGCTGCGCTTCCAGAGAGTCACCTACCGCTTTG +AACTGACCGTTACCGGCGGTTTTGATGAAGTACAGAATGTTTGGCGTATCGTGCAGAACGGCGTCTGCGC +GGTTGGTGCCCAGTTCCATATAGGCGTTATCGATGTTCGGGAACTGACGCAGATCTTTAGTTTTGATGTT +TGCTTTCGCGTAATCAACGGAGCCAGTACCGCTCTTCACAGCAACCACTTTCCCGTCGAGATCTTTCACG +CTTTTCACATCGTTATTGTTAGCTTTCACCATCACTAACAGGCCGCTTTTGTAGTAGCCGTCAGAGAAAT +CGATCGCTTTTTTACGCTCGTCGGTGATGGTAATGCCCGCCAGCGCCAGATCGACGTTTTTGGTTTGCAG +TGCCGGAATGATCCCACTGAAATCCATCGGCTTCAGTTCGTAATCCAGCTTCAGCTCTTTAGCGATGGCA +GCCCACAGATCAACGTCAAAGCCCACATATTTATCGCCCTGTTTAAATTCAAACGGAACGAAGGCGGTAT +CCGTCGCGACAACTAATTTTTTATCCGCGGCATGAGAAGAAACCGCAAAAGCCAGGGTCAGTGCAGCCAG +TGAAACTTTTAATACAGACTTCATAGCATTTCCTTTTTTCTATCCACGGGACGATCCCCTGCGTGACATT +CACATATATGAAAAAATCGTGCCAGTTTTGCAACTCCTTGATTTTTCGAGATGCGGCAAAAACGTGATGC +ACGATTTATAGGGCAATACCCTGAAGATGCACCATTCTGGGGCACCAATCTGGTGCGCTAAAATTGTGCA +CTCAACACAGTGATTATTTAGCGTAAAACCTGATGAAAAAACAATCTTTATGTAACGATTGTGTGATGAT +GTGGATACAAAAAATTTACTTAATCAGCTGGAGATAGCAGATGGATGCACTAAATAAGTGCGTTGAGGTG +GGCTGCAAAACAAAACGGCCTCCTGTCAGGAAGCCGCTTTTATCGGGTACTAAAGTTCTGCACCATCAGC +GATGGATTTATTCGATGTTAGACTCGATAAACCACAGGAATTTATCCAGGTCGCGAGACGCGGCGGTCAG +GATATCTGCGGTGTCGTCATCTTTCGCTTCGCCAATCGCTTTGCGTACGTCATTAGCGACGATTGCGTAA +CGGTCAGCCAGTTCTTTCAGGTGATCCTGAACGTTGTGGATGTCCAGCGGGTAACTTTTCAGCGGGGTTT +TGCTGTTGATAACTTGAGTGGTCCCCAGAGCTACACCGCCCAGCTGCACTGCACGTTCTGCCATGGTATC +CAGATGATCGATCAGTGCGGTGCGGAAGCCATCCAGCATTTCATGTACGGCAATGAAGTTAGCGCCGCGC +ATGTTCCAGTGCGCTTGTTTGGTAATCAAAGAAAGATCAATAAACTGGATAACCTGGCGATTCAGCAACT +CTACTGTTGCTTTTTTCTCGCTGTCGGAGACATCGTTGCGGGTATAAAGCAGATTGGTCGCTTTTGATTT +AACTAATTTAGCGGTACTCATAATTTCATATCCTCTTGATGTTATGTCCCAGTAATTAACGAGATTAAGT +ATAGCACCGGCTATGTGTTCCGCTATTCTGGCTGTTCCTATCACACTAATAGTGGTAACAAGCGTGAAAA +ACAAAACTAATAAAGATTCAATGAGTTAGATATATTGATAAGAACAATTCTTATTTATCTGCTCGCCAGG +AATTTTCGGAATAAATATGCTTTTGCATAATTCGATATATAAAGACGGTGTAGAGGAAAAGTAGCGAGAA +ATTCTGCATGGTTATGCATAACCATGCAGAAATGTAAATTTAATTAATGTCTAATTCTTTTATTTTGCTC +TCTTTGCGTACTGTCAGCGTAGACCCCATTGAAGCGGCGATGATAGCGCCGAGCGCCAGTAGCTGTATGG +GTGTCAGTGTTTCTCCGAGGAAAATCATCCCGGAAACGGCAGCCAGCGCCGGTTCCATGCTCATCAGCGT +ACCAAATGTCCGTGTTGGCAAACGGGTGAGGGCAATCATTTCCAGCGAATAAGGCAGAGCGGTCGAGAGA +ATAGCGACAGCCAGACCCAATGGAATAACCGACCAGTGCCAGAGTGCTTCACCAGCCTGAAGCGCTCCAA +TTGGCACGAAAATTAACGCTGCAATCAACGAACCAATTGCCACCGTCGCAGGGCCATGTTCCGCTCCTGC +GCGTTGCCCACTTAAAATGTAAATAGCCCAACAAGCCCCGGCCCCCAGTGCCAGCGCACAGCCGGTTAAA +TCGACATGGGAAACGTCTTGCCCCAGCGGTAGCAGGAACCACAGACCAAGAACCGCCAGCACAACCCAGA +CGAAATCTACCGGGCGACGAGAAGAGAACAGCGCCACCGCCAGTGGTCCGGTGAACTCCAGCGCCACCGC +AATACCCAGCGGTACTGTCTGAATAGAAAGATAAAAAAGATAATTCATCCCACCCAGCGAAACGCCGTAA +AACAACAGCGGTAACCGTTGCTCTTTGGCAAAGCGCAGTCGCCATGGCTTAAAGAACGCGATGAGGATCA +GCGTTCCTAATGCCAGACGCAGCGCAGTGACACCCGGTGCGCCCACCAGAGGAAAAAGTGACTTAGCTAA +CGAGGCTCCACCCTGAATAGACGCCATGGCAACGAGCAATATGACTATTGGTAACCAGACCGGCATTTTA +CGTAATGAACCAGGCATCCTTTCTCCCACAAATATCTAGACTTAAGTAAAGCGTGGAGTGTACTGGATAT +ACCCAATGCTGGTTGAGCATTTGTTGAAAAAATTTTCCCCCGTTTTGACTAAAATGCGCCAGGATTGATG +GAATCATTAGTCTGGTGATTAGGAATAATCTGGATGAATGACAGGGAAAACATGCGTAATACTTACGCAG +TTCTCTGAAAAAGTGATTTAAATTTAGATGGATAGCGGTGTATGGAAACGTTCTGTTACATGAAATGGCC +CGTTAGACATCACAAATCGCGAAGAGTTTCCCATTAATTTTTGATATATTTAAAACTTAGGACTTATTTG +AATCACATTTGAGGTGGTTATGAAAAAAATTGCATGTCTTTCAGCACTGGCCGCAGTTCTGGCTTTCACC +GCAGGTACTTCCGTAGCTGCGACTTCTACTGTAACTGGCGGTTACGCACAGAGCGACGCTCAGGGCCAAA +TGAACAAAATGGGCGGTTTCAACCTGAAATACCGCTATGAAGAAGACAACAGCCCGCTGGGTGTGATCGG +TTCTTTCACTTACACCGAGAAAAGCCGTACTGCAAGCTCTGGTGACTACAACAAAAACCAGTACTACGGC +ATCACTGCTGGTCCGGCTTACCGCATTAACGACTGGGCAAGCATCTACGGTGTAGTGGGTGTGGGTTATG +GTAAATTCCAGACCACTGAATACCCGACCTACAAACACGACACCAGCGACTACGGTTTCTCCTACGGTGC +GGGTCTGCAGTTCAACCCGATGGAAAACGTTGCTCTGGACTTCTCTTACGAGCAGAGCCGTATTCGTAGC +GTTGACGTAGGCACCTGGATTGCCGGTGTTGGTTACCGCTTCTAATCACTTTGGTGATATAAAAAATCCG +CCTCTCGGGGCGGATTTTTGTTTTTAAGGTTTCGGGTCGAAAATATCGGTTCCGAGATGGTTGTAATCCA +CCTTCTGTAACTGGAAGTTGGTGATGTATATCGGCCCGGCTTTCTTCTCAGATATAAACGGGTATTTGAT +GTTAATTTCCTTCGCTTTAATCCCCGTCCACTGGGAGAAAAAGCCTAAGAAGTCATTGGCTGAGCGGCGG +GCTTTAATCACACGATGCGCTTTATCGTCGCTGGAAATGACCATAAAAGGCACCTGGAAATTTTGCTGAT +ATTTATCATCATGGGCAAGGTATTGCACGTCTTTACCGCGCTCTTTAAAGGCCAGACCGTGGTCAGAAAA +GTAAACCAGCGAGAAGCTGCTGCCGCTGTTGCGTAACTGATCGTACAGCTTGCGCAGTAAATCGTCCGTT +TGCGTCATGGTATAGAGATAGCACGACGTTTCTTTCGATTGCACAAAGGTTTCGTATTTTCCTTGTGTCC +TGTCGCAGGCCTGCGGATGTGAGCCCATCAGATGTAGAACAATCAGCTGCGGTTGCGAGTGCTCTTGCGC +CAGCACTTGAGCGGTCATATCCAGTAACGCTTCGTCTTTGGTGTTTTTATCTGCTTCAAAATTACCTTCT +TTCAGGAAGTACACTTCATCTGCTCGTTTGGCGATGCTGGCGATAGCGGTATCGTATTCGCCGATTTGAC +CCTGGTTGGAAAACCACCAGGTCTGGAAGCCCGCGCGATTTGCCAGGGTGACAAAGTTATCCTGAAACTG +TGGTTTGCCATCGACAACGCGATTGAGCGTTAAGCCAAGCGATTTCTGCGTGGAGCCACTGGCGGCAATG +TAGTCAGCAAATATCAAACCGTTAACGCTGCTGGCAAACGGGGTATTGTCCCAGTGACCGCCAAAGGCAC +CGAGGGCATCGCGACGCGCGCTTTCACCGATCACCACCACATAGGTCTGATACTTCGGCTTAACGGCAGT +GACCGTCCAGGTATCTTTCATTCCGGAAAGTTTTGCCATCCGTTCTTGCTCTTCAATCACCTCGTTATTA +TTGACGATGACATCCTTAGCAAAACGAAATACCGGATAGCCAGTATCTTTCAGTTTAAATACGCCACCCC +AGGCCAGGTTTTGCACGGGAGCAACAAAAAATGTCGCCACACTGAATACCAGACACAGGCTGTCGAAGGT +ATTCCAGCGCGCTTTTTCATTCTCTTTTTTTCGCCTGATTGCTATTACGCCGAGCGCAAAAATAAATAAG +CCGACCAGGTAGCTGTACCACGGAAAAATCGTCAGGATTTCGGTCGACTCTTCCATATTGGTGGAGTGCA +ATGCCAGCAATGTATTGAAATTAGGCGCGCCGTAGGCCTGAGCAAAAGGGAAATAACAAGCCGCCACCAG +CGAACTGACACCGACCAGAACTTTTTGTACGCGAGGCAATGTTCGCCATAGCAAAAGCAAAATAGCCGTA +AACGCAGCGGTGTAGAGCAAACTGAAGGGGTAACCTAAGCCGAGGTTAATTAATAGCGACTGTAAAAAGT +AGAACGCAGTCCACGGGCTAAATACCCGGCTACGGGTAACAAGCGATTCTTTGAGGGTTAAATTCATATG +CCACTATCGTAACAAACGCCATGTGCTTACCCTGGCGTCAAGGGTCAATACCTGCAAGAGTGCGTGAAGA +GTGGAAAGGGGTCCGCATCCGCGAGCCGCAATATACGCAGGGCTGCAAGAAGATAGAGCGAGCCGCCGTT +CAGGTCAACTACTGACGAACAAATCTTTTGCGAAGGGGATTGCAAATCCGACAAAAAGTGGGGTTTTTCA +GACCAAAACGCGTTATGCCTGCATGAAAGCAGGAGTGAAGCGGCGTACCGCGACGCCGCTATTTATCGGA +AGGTTTATCTTGCTGCGGTTTGTTGTTGACCATATCGCACAACATAGAGAGCAGCATTAACCGTACTTTA +AAGGGAGAATGACTAAACACGCGCATACACCTCTTGAACTCATTCATAAGACCTCCTGACTTGCTAATCC +CGTCGATCCTTGAGGGATGATTGCATTACATACAGATATAGCACAGGCTATATTATATAGCTATTGCTAA +AACGTTAATTTTTTGTACCTTCGCAACTCTGGTTTACAATGTGCGCACGAAATGAGAACGCTATGTATGC +GTCACCATAATGAGGAAGCACAATGAGTCGTCGCGCAGGTACGCCAACAGCAAAAAAAGTGACGCAGTTA +GTGAACGTGGAAGAGCACGTTGAAGGGTTCCGCCAGGTCAGAGAGGCGCATCGGCGCGAGCTTATTGATG +ATTACGTTGAGCTGATTTCTGACTTGATCAGGGAAGTGGGGGAAGCTCGTCAGGTGGACATGGCTGCTCG +TCTGGGAGTTTCGCAACCGACGGTGGCTAAAATGCTTAAGCGGCTGGCAACCATGGGGCTGATTGAAATG +ATCCCCTGGCGTGGCGTGTTTTTAACGGCAGAAGGAGAGAAGCTGGCGCAGGAAAGCCGCGAGCGACATC +AGATAGTCGAAAATTTCTTGTTGGTGTTGGGCGTCAGTCCGGAAATCGCCCGTCGCGACGCGGAAGGCAT +GGAGCACCATGTTAGTGAAGAGACGCTCGACGCTTTTCGTTTGTTTACCCAGAAACACGGTGCCAAATGA +GCCTGCCTTTTTTACGCACGCTGCAAGGCGATCGTTTTTTTCAGTTATTAATTCTTGTTGGTATCGGATT +AAGCTTTTTCGTGCCCTTTGCACCGAAATCCTGGCCTGCTGCTATCGACTGGCACACCATCATCACCTTA +AGCGGCCTGATGCTGCTGACCAAAGGTGTGGAGTTAAGCGGTTATTTTGATGTGCTGGGGCGCAAAATGG +TGCGCCGCTTTGCTACGGAGCGTCGGCTGGCGATGTTTATGGTGCTGGCGGCGGCGCTGCTTTCTACCTT +TCTGACCAACGATGTCGCGCTGTTTATTGTTGTTCCGCTGACTATCACGCTAAAAAGACTGTGTGAGATC +CCGGTTAATCGGCTGATTATTTTTGAGGCGCTGGCAGTCAACGCTGGTTCGCTACTGACGCCAATTGGCA +ACCCGCAAAATATTCTTATCTGGGGACGTTCTGGTCTTTCGTTTGCCGGATTTATTGCCCAAATGGCACC +GCTGGCTGGCGCAATGATGCTGACGCTCCTGCTCCTGTGCTGGTGTTGTTTCCCTGGAAAGGCGATGCAA +TACCATACGGGGGTGCAAACACCGGAGTGGAAACCGCGGCTGGTGTGGAGTTGTCTGGGGCTGTATATCG +TCTTTCTGACGGCGCTGGAGTTCAAACAAGAGCTGTGGGGACTGGTGATTGTGGCGGCAGGCTTTGCGCT +GCTGGCACGTCGCGTGGTGCTCAGTGTGGACTGGACGCTGCTGCTGGTGTTTATGGCGATGTTTATCGAC +GTCCATTTACTGACCCAGCTTCCAGCGTTGCAAGGCGTGTTGGGTAACGTGAGTCATCTATCTGAACCCG +GGTTATGGTTAACGGCAATCGGTTTATCGCAGGTGATCAGTAACGTGCCGAGTACCATATTGTTGCTGAA +CTATGTGCCGCCGTCTTTATTACTGGTATGGGCGGTAAACGTAGGTGGCTTTGGGTTATTACCCGGATCG +CTGGCAAATTTGATTGCGCTACGTATGGCGAACGATCGCCGCATCTGGTGGCGTTTCCATCTCTATTCAA +TACCGATGCTGTTGTGGGCGGCGTTGGTGGGATATGTTTTGTTAGTTATACTCCCGGCCAACTAGGGTCT +GGCAAATAAAAAAGGCGGATTATGAGTCCGCCTTTTGCTTTAAGTTTTGAAGATTAATTCAGACGAACCG +GCATCCCGGAGCGGTTTTTAATCGCTTCATCAAGAACAACCTGGTCAACATCTGGCTGACCGGTCACTGT +CTGCACGCTCTTCGTCAGGGTAATTGGCACAATTTCCTGACCTTCAAACTGGGCTTCGGTGGTAGACAGC +GGGTTATGGACTTCAATATAACGGCTGCCGTCTGGCTCGGTGGTCGCTTTTACCGGCTCATCAATAAACT +GTACGCGGGTACCGACCGGTACTTTCTCGAACAGGAATTTGATGTCTTCGTTACGCAGACGCACACAACC +ATGACTTACACGCAGGCCGATACCGAAGTTGGCGTTGGTGCCATGGATAGCATACAGGCGACCGATATAG +AGTGCATACAGCCCCATCGGGTTATCCGGACCTGCCGGAACGACAGCCGGAAGCGGTTCGCCCGCAGCGC +GGTACTCTGCGTGCATTTTGGCGGTCGGCGTCCAGGTCGGGCCTGCTTTTTTACGCTCAACTTTGGTGGT +CCAGTTGATAGGCGTATCTTTGCCTAACTGACCAATGCCGATCGGCAGCACGATAACGGTGTTGGTCCCT +TTCGGATAGTAATAAAGACGCATCTCAGCACTGTTAATGACGATGCCTTCATGAACGGTATCCGGCAGGA +TCAGCTGCTGCGGAATGTTCAGTACAGTACCGCCTTTCGGCAGGAAGGTATCCACACCCGGGTTCGCTTC +CATCATATTGGAAAGCCCCATCTGGTACTCGGCGGCAAAATACTCCAGCGGCTGAGTGTTACCTTCAGGA +ATGGTGATCACCTGATTCTGACCAACCAGGCGACTCCCGTCGGTTGGCAGAGGATAAGTTACCGCAGAGG +CGGTACTGCAAAAGCCGACAACAGCGAAGGCCGCTGCGAATAATGTTTTCAATTTCATATTCATGTTAAG +CGAGATTTTGTGCCTGGCAGGCCATTGGGTTGAGAATATTAGAGTATTGGAAGCGCATTATAAGTTCATT +CCAGCTCACAGTGAAATCAGATGTGTACGAAATCACATTTTTTGCCTTTGGCTTGAGTGTAGACCTTAAG +CGAGGAGCAGGATCTTCTTTCAGACTTATGGCATAATGCGCGGTTTGTCATATCTCTTTTCAGGATACGC +CTGTGTTAGTTTCCAGTAACGTCACCATGCAGTTCGGCAGTAAGCCGTTGTTTGAAAACATTTCCGTCAA +ATTTGGCGGCGGCAACCGTTACGGCCTGATTGGCGCGAACGGTAGTGGTAAATCCACCTTTATGAAGATC +CTCGGCGGCGACCTTGAGCCGACGCTGGGTAACGTTTCCCTCGATCCCAACGAGCGCATTGGTAAACTGC +GTCAGGATCAGTTTGCCTTTGAAGAGTTCACTGTGCTGGATACGGTGATCATGGGGCATAAAGAGTTGTG +GGAAGTGAAGCAGGAGCGCGACCGCATCTATGCTTTGCCGGAAATGAGTGAAGAAGACGGCTATAAAGTG +GCCGATCTGGAAGTTAAATACGGCGAAATGGACGGTTACTCTGCGGAAGCTCGCGCCGGTGAACTGTTGC +TTGGCGTGGGAATTCCAGTGGAACAGCACTACGGCCCGATGAGTGAAGTTGCTCCTGGCTGGAAGCTGCG +TGTGCTTCTGGCGCAGGCGCTGTTTGCTGATCCGGATATTCTCCTGCTCGACGAACCGACCAACAACCTC +GACATCGACACCATTCGCTGGCTGGAACAGGTGCTGAACGAGCGTGACAGCACCATGATCATCATCTCGC +ACGACCGTCACTTCCTTAACATGGTCTGTACCCACATGGCGGATCTGGATTACGGCGAGCTGCGCGTTTA +TCCGGGTAACTACGATGAGTACATGACGGCGGCGACCCAGGCGCGTGAACGTCTGCTGGCCGATAACGCC +AAGAAGAAAGCGCAGATTGCTGAGTTGCAATCTTTCGTTAGCCGCTTTAGCGCCAACGCCTCGAAATCTC +GCCAGGCAACTTCGCGCGCGCGCCAGATTGATAAAATCAAACTGGAAGAGGTGAAAGCCTCCAGCCGTCA +GAACCCGTTCATCCGTTTTGAACAGGATAAGAAACTGTTCCGTAACGCGCTGGAAGTGGAAGGTCTGACC +AAAGGGTTTGATAACGGTCCGCTGTTTAAAAATCTCAACCTGCTGCTGGAAGTGGGTGAAAAACTGGCGG +TACTGGGTACCAACGGCGTCGGTAAATCAACGCTGCTGAAAACGCTGGTGGGCGATCTGCAACCGGACAG +CGGCACCGTAAAATGGTCTGAGAACGCGCGCATTGGTTACTATGCTCAGGACCACGAATATGAGTTTGAA +AATGATCTGACCGTGTTCGAATGGATGAGCCAGTGGAAGCAGGAAGGCGATGACGAGCAGGCGGTACGCA +GTATTCTCGGTCGTTTGCTGTTCAGCCAGGACGACATCAAAAAGCCAGCTAAAGTGCTTTCCGGTGGGGA +AAAAGGGCGGATGCTGTTTGGTAAGTTAATGATGCAGAAGCCGAACATTCTGATCATGGACGAACCGACC +AACCACCTGGATATGGAATCCATTGAGTCGCTGAACATGGCACTGGAACTGTATCAGGGCACGCTGATCT +TTGTTTCACACGACCGTGAGTTCGTAAGCTCCCTGGCGACCCGCATTCTGGAAATCACCCCGGAACGCGT +GATCGACTTTAGCGGTAATTACGAAGATTACCTGCGTAGTAAAGGGATCGAGTAAGTGATTATCCGTCAC +CCCGATACTGTCGGGGTGACGGCGGCTGATGACAAATGCAAAATAGCCTGATGCGCTACGCTTATCAGGC +CTACGCAGTACCTGCAATATATTGAATCTGCAGGACTTTGTAGGCCGGATAAGGCGTTAACGCCGCATCA +GGCATTAACAAAGCGCATTTGTCAGCAATCTGAGTAACGTCGAATCGATTTTCTTAATCCCACATCAATT +CACTTCCATTAATTCTCAAACATCCATGCCCAACGCTCGCTTACCGTGAATGTTGAGGTCGGCAAGCGTA +AAGCGTCCTTCCCAGTTTGTTTCATAGTCCTCGCGCGGGAAGTCGCCCGGCGATGCGCCTTTTTCCAGTG +CGGCCTTCACCTTGTGCGCGTAGGCAAGATTTTTCTCGCACATCGGTGCCGCAGGAATGTACATCACGTT +GCCCCAACCTTGTTGATTTTCAACGGGGGCAACGGAATGGATGACGTCGCAGTGCCACCAGACGGAGTCT +CCGGCTTCGAGTTTTGGAATGCTGGTTAACGCCTCAATCAACAGTGGATGCCATTGCTCTGATACCGGCA +ATACTCTTCCGGGCGCTACGCCGCACAGTTCATCCTCCGGCACATCATCAAGCAGCGGACGTAACAGTAC +GTACGCCATAGCTTCAGGAATGGGCACGACGTGCAGCAGCCCCTGACCAGGCAGCATATCAGAGAGCGCT +GTCCAGCCCTGGAATGTCCGAAACACGGAACATTTGGTGGTGTTGTCCACCGTGTACTCTTCAACTTCCG +TACGATGTGCCGCATGCCAGGGATCATATTGCGCCAGATTGCCATTAAAGACGTTGGCGAAAACGCGCTG +ATACGCTGGAAGCAGCCAGCGTTCCAGTGCCCCGGAGTCGGTATGCGCTCCAAGACCTTTGGAGGTCGTT +CCGGGCGGACGGCGGCGGATACGGTCAGGGTAGATGACGCTCACATCCGGGTTAAACCATTGCTTTCCAT +CACTTTCAAATGTCCACAGACGATTGAGAAACGACTGCGCATTCGCCATTTCTTCACTCTGGCGGGCCTG +CATTTGCGCCTGCGACCAGTAGATGGGGTAAATCTCGGGACGTGAAGCGCTGAGCGTCCCGAAGAAATTA +TCGCCGGGGCCTTTGTAGACCTCGTCAAAGCGGTTGCGGTCCAGATAGTCCAGCATCGACTGATCCCAGC +CTAGCGCTTGTTCGCGGGGGAAATGGCCTTTTATCACCGCACAACCGCGACGTTTAATCTGTTCGCGCTG +CTCTGCAGTAACATGACCTGCTTTGATATCGGCATAAGACAGCACCGGCCAGACGGCATCGCCCTGTGCT +TTGAGTGCGTTGATTTCAGCCACTCGCGTGGCAATGTCATCGCTTAGCTGATTAAAGATCTGCTGGACGT +CGCCAAGCTGCGCCCGCAGCGCGTGCTTCATCTGACGGATAGCTGCTTTGTGATCGGCAGGCAATGTGTC +GCTGGTAAAAGTAGAAGCCATAACCACCTCTCATTAACTTTCATTCGAAACCATTCTGATTTGCATGTGA +CAATATAAGTTATAAATAAGTTAATGCAAGTTTAATGATTTGATGTGATGTACAGGATGTAAAAAGAAGG +GAAAACCGGAGCGCACGGCTCCGGTAGAGAGGTCAGCTGTTAAAAGGGGATGTGTTATCCAGCACCGCCT +GAATCACATTCAGCGCGCCTTCATGATTATTATCATCGGTAGCGTAACGGGCGATTTGTTTAATGTTTTC +CGCAGCATTGCCCATCGCAAAGGAATAACGCGCCATTTTCAGCATCTCCGCATCGTTACCGCTGTCGCCA +ATCGCTACCACATTTTGCGGTGACAGATCCCAGCGTTTCAGTAACCGCGAAATACCGTTTGCTTTATGTA +GACCGGGAATAATCAGGTCGATAAAGCCAAAACCACTGGTAACGGGTTTCATAATGCCATCGAGCGCTAC +GTGCAGTTTGTCGATCACTAACGGGATTTGTTCATCCGGCAGGTTGAGCGAAAACTTGAACAGTACGTCG +TCAATCTCCTGATAATCTTTTACAGGTTTCAGGCGATGGTAGTGTTTTGCCATCAGTGCGACAAATGCTT +CGGGGGCATTTTCGCTGACATATGCACTTTGCAGACCGCAGGCGACAAAATTGAGTTGCTTATCTTTTAG +CAACTCGCCAATAACAATCCGCGATTCATGTCGGGTCAGTTCGCCGTGGAACAACTGCTTGCCATGTTCG +TAAACCAGTGCGCCGTTTTCCGCGACAAAAGAGATCTCATCCTTTAGCTCAGGAAAGAATGAAATAAGCT +GGTAATACTGATTACCGCTGGCAACAACGAACTTAATGCCGCGCTTTTTCAGTTCCTGATATTGCGCCAT +AAAACGTGGTTGGTTGTACGTTTTGGCGTCGTTAAGAAAAGTACCGTCCATGTCTGTGACGATAACTTTT +ACGCTCATAGGTGTGCTCCTGGCTCGAAAATGAAACCGTAACAGTGTAATAACAATGTGACGCAGAGCAC +AAATTATATTTCGAATGAAAGTAAGGATGAAATTGATGATGTGAATGATTTAGCCCGGCGACGACGCCGC +CGGGCCGAGGAGATTACAGCATATGTTCAGTACGGGCGATGATATCGTCCTGAGCGTCTGGAGAGAGCGC +GGTGAAGAACGCGGAATAGCCCGCGACACGCACTACCAGATCGCGATACTGATCGGGATGTTTTTTCGCA +TCCAGCAGCGTTTCGCGGGAAACGATGTTGTACTGAATATGCCAGCCTTTATGCACTTCAAAGAAGGTAC +GCAGCAGGATCATCAGTTTCTGCTTGTCAGATTCGTTCTCCAGCGTTGCCGGATTCAGTTTCTGGTTGAG +CAACACGCCGCCGAGAATCGCTGCCGTAGGCAGTTTACCCACTGAGCCAATGACCGCAGTAGGGCCAAGA +TGGTCAGTACCGGAGGCCGGGCTTGCGCCTTCTGCCAGCGGGGTGTGGGCTTTACGCCCGTCCGGTGTTG +CCATAGTCTGCGCGCCAAACGGTACGTTAGCGGAGATTGATGACGTACCCGCGTAATAGTTGCCGCCAAC +CGGACCACGACCGTAGCGCGGATTATGGTACTGTTTCAGTTCGTCGATATAGGTCTGATAAGCGCGAGCC +AGCAGCGTATCGACAGTATCATCGTCGTTGCCGTACTTCGGCGCACCGTTAATCAGCCGCTGACGCAGCT +GCTCGTGAGTCAGGCCGTCGAAGTCATCTGCCAGTGCGGCAGCAAGCTGTTGCTGACCAATCGCACCTTG +TTCAAACACCAGTTTCTTCACTGCCGCCAGGCTGTTGCCGAGGTTGGCAATGCCGACCTGCAGGCCAGAA +ACCCAGTCATATTTCGCGCCGCCTTGCTTGATACTTTTCGCTCGCTCAATACAGTCATCCACCAGCGCCG +AGCAGAGAATATCGTGCACGTTCTCTTCCAGCATGGTGTCGACGACATATTCGATTTCGATTGATTTGCG +GGTGTAGTAACGGATTTGCGTATCCCACGCGTCCATCACTTCATCGAAGTTGTTGAAGTTACCTGCCGAC +AACGCTTTTTCTTGTGGCAGGAACACTTTGCCGCTGGTGGCATCATGCCCGCCTTCCAGCGCCGCCAGCA +TCACGCGGGCGAAGTTGATAAAGCTCATGCCGGTACAGCGATAGCCCCATTTGCCACCGACGGCGGTTTC +TATACAACCAATCGCTGCGTAGTCATAAGCGTCCTGCGGTTCAATACCGAGTTTAATAAATTCCGGGATC +ACGATTTCGTCGTTGTTGAACGCCGGCATCCCGAAGCCGCAACGGATCACCTGTACGCAGGCGTCGAGGA +AATCGTTGCTCATTCCTGCATGGTAACGCACGCTGAGGTTAGGCTGAGTGGAACGCAGGCGACCGCAGGA +TTCGAGGATCGCGTAAGAGAGTGGATTCACCGCGTCCATTGGTTGACCATCAACCAGATTTTGCCCGCCA +ATAGTGACGTTCTGATACAGCGGACTTCCCGCAGAGGCTTTTGAGTGTGAGCCGGAGCGGATCTTGTTCA +CTTCCAGCAGTTTCAGCCAGCAGCTATGCAGCATCTCGATGGCGTGTTCGCGATCCAGCGTCTGGTTGAG +TTCAACGTCGCGGCGATAGTACGGGTAGAGATACTGGTCCATACGACCAAACGATACTGAGTGACCGTTA +GATTCGATCTGCAAAATCAACTGGATGAAGTAACACAGTTGCAGCGCCTGCCAGAAAGTCTGCGGCGGCT +GGTGGGCGATAAGATCGCAGTTTTCTGCCATCGCCAGCAGTTCATCGCGACGGCTTTCGCGGGTTTCGGT +CGCGGCCATTTCACGCGCCAGGGCAGCGAAACGTTCAATGTGTTCACTGACTGCCACCAGCACGATATCA +ATCGCTTTCAGGAATTGCTCACCGTGTAAATCTTCCAGCACCGTCAGGTTGATGCGCGAGCGACGTTCCG +CTACTTCCTCGCGCAGACCATCAAGCCCTTTTTCCAGCAGCAGCGGGAAATTCACCGCCAGGTGCGCATC +GCCGGAGGTCATATTGCCTTCCGCTTTAATGATTCCGGTCGCCAGCAGACCTTTTTGCTCATCGGTAAAC +ATGCCGTAGCAGCGATCCTGTACGGTCTGACCGCGCCACCACGGGCACACTTCATGCAGAACGCGTTTGT +TCTCTTCGCTCACCGCAAAGCCAGCACCGGGACGATCTGCCAGATCATCAATCTCTTTTTCGATCCACGA +GACAGTATATTCCGGGAAGATCGGCGCGGCGCGAACTTCGCTTGCCTGGTTGCCAATGATCAACTCATCG +TGTTTGATCCAGATGGTGCGATTCGCCAGGTGATGCGCCAGTGCCAGCGCGCGACGTACCGGGATCGGCT +TATCGAGATGTTGTTGATACATCTCGGTATAGTGCTGCGCGCGCTCGGTACAGACTGGCGGTTTCACAAT +ATGCACCAGCGCATTTTTGTGCGCTTTAATGCGGTCGCTGAGCGTGTCCAGTTTCAGTGTGGTCATGGTT +GTTATCCTCGTAAGGTCGCGGTTAACCCTTTCTGGCAGGCATACTGCTGGGCAAAGTCGAGCAGTTCTGG +CGCATCAAGCGGTTTTTCCGGGGCGTCATAGGGCAGATTAAGTAAGTGATATTTGTTGATGCCCAGCGTG +TGGTAGGGCAGAAAATGAATTTCGCCAACGTGCAGCTCGTCGGCGGCAAAATCGGTAATGGCTTTTACAG +AGGTTTCGTCGGCATTAAAGCCCTGAATCAGCGGCACGCGGATAATGATTTTTTTGCCCGCTGCGGCGAG +TTTTTTCAGGTTATCCAGCACTCTGGCGGCGTTACCGTCGGTCCACTGTTTAAACGGCGCGTCGGCAACG +TGTTTTAAATCGGCAAGAAACAGATCGATATAGGGCAGAGAAGGGGCGATATATTTCCACGGCACATGCA +GACAGGTTTCTACCGCAGTATGAATGCCTGCCTCGTGGCTGGCTTGCAGTAGCGCCATCGCCATTTCCGG +CTGCATAAAGGGCTCACCACCCGAAAGCGTTAAACCGCCGCCGCTGCGATCGTAAAACGGTTTATCGCGC +AGAACGGTCGTCATGATCTCCTCAACGCTTTTCACTTCACCACACACGGTTAATGCCTGTGTCGGACAGC +AGTCGGTTAACGCCGTCAGATGCTCCGGGGTTAACTTTTCCCGATGAATAAGCAAACCATTCAGCGCGCG +CTCAATCACTTCCGGCGCGGCCTTAGCGCACAGCTCGCAGCCTTCCAGACACAGTCGTGCGTCATACAGC +AGATCCTGCGTGCGGGCGCGGCTTTCCGGGTTCTGACACCAGCGGCAGCCCAGCGAACAGCCTTTAAGAA +ATACGACCGTGCGGATACCGGGGCCATCATGGGTCGAGTAGCGCTGAATATTGAAAATCATAGTTGCCTC +TCTATTTCGTTCAAGCATTAAAATACTTTCGAATGAAAGTTAGATTGATGTGCGTCAACTGTTCAGAGAG +TTTTCCCGTGATAGTCTACATTCAGACAAAAAGTACATTTTGAGGATGGTTATGGAACTGTATCTGGATA +CTTCAGACGTTGTTGCGGTGAAGGCGCTGTCACGTATTTTTCCGCTGGCGGGTGTGACCACTAACCCAAG +CATTATCGCCGCGGGTAAAAAACCGCTGGATGTTGTGCTTCCGCAACTTCATGAAGCGATGGGCGGTCAG +GGGCGTCTGTTTGCCCAGGTAATGGCTACCACTGCCGAAGGGATGGTTAATGACGCGCTTAAGCTGCGTT +CTATTATTGCGGATATCGTGGTGAAAGTTCCGGTGACCGCCGAGGGGCTGGCAGCTATTAAGATGTTAAA +AGCGGAAGGGATTCCGACGCTGGGAACCGCGGTATATGGCGCAGCACAAGGGCTGCTGTCGGCGCTGGCA +GGTGCGGAATATGTTGCGCCTTACGTTAATCGTATTGATGCTCAGGGCGGTAGCGGCATTCAGACTGTGA +CCGACTTACACCAGTTATTGAAAATGCATGCGCCGCAGGCGAAAGTGCTGGCAGCGAGTTTCAAAACCCC +GCGTCAGGCGCTGGACTGCTTACTGGCAGGATGTGAATCAATTACTCTGCCACTGGATGTGGCACAACAG +ATGATTAGCTATCCGGCGGTTGATGCCGCTGTGGCGAAGTTTGAGCAGGACTGGCAGGGAGCGTTTGGCA +GAACGTCGATTTAACCGGACGTTCTGCATCCTCATAAATTGCTGATGACGTGGCGGAGTGCCGCGTCTTA +TCAGGCCTGGAGGTGGCAATTACTGCCCACACACCTCACACCCCGGATTACGCATCAGTTTCATTTCGCG +AAACTGACAGGTCATCGCATCGTACATGACGATTTTCCCGCTGGCCGGTTTGCCATAACCTGCCAGCATT +TTGATCGCTTCCATTGCCTGCAACGAACCAATTACGCCGATCAACGGTGCCATTACGCCTGCTTCCACGC +AGGTTAATGCATTTTCACCAAACAAACGGCTAAGGCAGCGATAGCACGGTTCACCGTCCTGATAAGTAAA +GACGGTGATTTGACCTTCCATACGAATTGCCGCGCCGGAAACCAGCGGTACCTTCGCGGCAAAACAGCCT +GCGTTCAGTTGATTACGTACCGCAACGTTATCCGTACAGTCGAGCACCAGATCGTGTTCAGCAATCAATG +CTGCAAGTTCTGCGTCATCCAGCAGTGCATTGACTGGCGTAATCGCGATATGTGGGTTGATCCGCGTCAG +GGCGTCACGGGCGGATTCCACCTTCGGTTGCCCGACCGTGGCATCACTGTGCAGTGTCTGGCGTTGCAGA +TTCGAGAGCGAAACCGTGTCGAAGTCGAGCAGCGTCAGGTTACCGACACCGGCGCTTGCCAGATACTGCG +AGGCTGCACAGCCGAGGCCGCCCAGGCCCACTATCAGCACGCGAGAATCTTTCAGCGCCTCCTGGCCGTC +AAAATCAAAGCCGCGCAGAATGATTTGCCGGTTGTAGCGCAGCATCTCCTGATCGCTGAGTTCCGCCATT +ACAGGCCTCCGAACAACGCGTTAAACGGTTCTACTTCCACCCATTCGCCCACTTCCACATTGCCGCGATC +GCGTTCCAGCACGATAAAGCAGTTGCCGAGGCTAAAGGAGCTAAATATATGTGAACCCTGATGTCCGGTG +GTCGTCACTTCCAGTTCGCCATCGGCGTTGCGTTGCAGCACGCCGCGCTGGAAATCAAGACGTCCTGGCG +TTTTTTTCAGGCGGGACGCTGTGCGTACGCGCTGGCGCGCGGGCAGGCCGCTGGCGGTGTTACCGCTTAG +TTTTGCCAGCAAAGGCTGTACCAGTTGATAGAAGGTCAGCGTCGCTGAAACCGGGTTGCCCGGCAGGCCG +CAGAACCAGCTATTGCTGAGTTTACCGAACGCGAACGGTTTACCTGGTTTAATCGCCAGCTTCCAGAAGG +CGATCTCCCCCAGCTCTTCAAGAATCGTTTTGGTGTAATCCGCCTCACCCACTGAAACACCGCCGGAACT +GATCACCACATCCGCCTGGCTGTCGGCTTCAATAAATGCGGCGCGCAGGGCATGGGGATCGTCGCGGATA +ATCCCTAAGTTAATTACCTCGCATCCCAACTGTTCTAACATCAGGTGTACGGCGAGACGGTTGGTATCGT +AGATTTGGCCGTCGCCCAGCGGCTGACCGGGCAACTGGAGTTCATCACCGGTAGAAAAAAGCGCTACACG +CACTTTACGAATCACCGGAACTTCGGCAATCCCCAGTGAAGCAATTACTGGCAGCTCTGCGGTAGTCAGG +CGAGTTCCCGCCGGGAAAACAACCGCACCTGCAGAGATATCTTCACCGCGACGGCGAATATTTTGCCCGC +TACGCACTTCAGCAGTAAAACGCACGCCATTGTCCATTTGTTCAGTCTGCTCCTGCATCACCACCGCTTC +GCAGCCTTCCGGCACCGGCGCACCGGTCATAATACGAATGCAGGTACCCGCAGGCCATTCACCATGGTAT +GGCTGACCGGCAAAGGATTTACCGGCAACGGGCAGCGGTTGCCCGGAGGCAATATCGGCTAAACGCACCG +CGTAGCCGTCCATTGCGGAGTTATCAAACCCCGGAACATCAAGCGGCGAAACGACATCGCTCGCCAGAAT +ACGACCAAAACACTGTACCAGTGGCAGCGTTTCCTGGGCGGTCAGTGGGGTGACGCGAGAAAGCATCTCA +TTAAGCGCGGTGTCGAGCGACATCAATCCGGTGGTAAATTCCATGAAAACACTCCTGCGGAGGCAAAATC +GAATTTGCCTATTATGTCAGAAAAACGCCACAGACTGTATGCCACCTCGGGCGTAGCGCTGGGTCCTGCC +TTTACATGCCATATCCATCTTTCTATATTCAAAAATTGAATGAGTAATTCATAAAAATTCTGATATTTAT +AGCAAAAGTGGCGAACCACCCTTAATGGACGAATACTATGGGCAAAGCAGTCATTGCAATTCATGGTGGC +GCAGGTGCAATTAGCCGCGCGCAGATGAGTCTGCAACAGGAATTACGCTACATCGAGGCGTTGTCTGCCA +TTGTTGAAACCGGGCAGAAAATGCTGGAAGCGGGCGAAAGTGCGCTGGATGTGGTGACGGAAGCGGTGCG +TCTGCTGGAAGAGTGTCCACTGTTTAACGCCGGAATTGGCGCTGTCTTTACGCGTGATGAAACCCATGAA +CTGGACGCCTGTGTGATGGATGGTAACACCCTGAAAGCCGGTGCGGTGGCGGGCGTTAGTCATCTGCGTA +ATCCGGTTCTTGCCGCCCGGCTGGTGATGGAGCAAAGCCCGCATGTGATGATGATTGGCGAAGGGGCAGA +AAATTTTGCGTTTGCTCGTGGCATGGAGCGCGTCTCGCCGGAGATTTTCTCCACGTCTTTGCGTTATGAA +CAACTACTGGCAGCGCGCAAGGAAGGGGCAACCGTCCTCGACCATAGCGGTGCGCCACTGGATGAAAAAC +AGAAAATGGGCACCGTGGGGGCCGTGGCGTTGGATTTAGACGGCAATTTGGCGGCAGCCACGTCCACAGG +CGGAATGACCAATAAATTACCCGGACGAGTTGGCGATAGTCCCTTAGTGGGTGCCGGATGCTACGCCAAT +AACGCCAGTGTGGCGGTTTCTTGTACCGGCACGGGCGAAGTCTTCATCCGCGCGCTGGCGGCATATGACA +TCGCCGCGTTAATGGATTACGGCGGATTAAGTCTCGCGGAAGCCTGCGAGCGGGTAGTAATGGAAAAACT +CCCTGCGCTTGGCGGTAGCGGTGGCTTAATCGCTATCGACCATGAAGGGAATGTCGCGCTACCGTTTAAC +ACCGAAGGAATGTATCGCGCCTGGGGCTACGCAGGCGATACGCCAACCACCGGTATCTACCGTGAAAAAG +GGGACACCGTTGCCACACAGTGATGAACTTGATGCCGGTAATGTGCTGGCGGTTGAAAATCTGAATATTG +CCTTTATGCAGGACCAGCAGAAAATAGCTGCGGTCCGCAATCTCTCTTTTAGTCTGCAACGCGGTGAGAC +GCTGGCAATTGTTGGCGAATCCGGCTCCGGTAAGTCAGTGACTGCGTTGGCATTGATGCGCCTGTTGGAA +CAGGCGGGCGGTTTAGTACAGTGCGATAAAATGCTGTTGCAGCGGCGCAGTCGCGAAGTGATTGAACTTA +GCGAGCAGAACGCTGCACAAATGCGCCATGTTCGCGGTGCGGATATGGCGATGATATTTCAGGAGCCGAT +GACATCGCTGAACCCGGTATTTACTGTGGGTGAACAGATTGCCGAATCAATTCGTCTGCATCAGAACGCC +AGTCGTGAAGAAGCGATGGTCGAGGCGAAGCGGATGCTGGATCAGGTACGCATTCCTGAGGCACAAACCA +TTCTTTCACGTTATCCGCATCAACTCTCTGGCGGGATGCGCCAGCGAGTGATGATTGCGATGGCGCTGTC +ATGCCGCCCGGCGGTGCTGATTGCCGATGAGCCAACCACCGCGCTGGATGTCACTATTCAGGCGCAGATC +CTGCAATTAATCAAAGTATTGCAAAAAGAGATGTCGATGGGCGTTATCTTTATCACTCACGATATGGGCG +TGGTGGCAGAGATTGCCGATCGGGTACTGGTGATGTATCAGGGCGAGGCGGTGGAAACGGGTACCGTCGA +ACAGATTTTTCATGCACCGCAACATCCTTACACCCGTGCGCTGTTAGCTGCTGTTCCGCAACTTGGTGCG +ATGAAAGGGTTAGATTATCCCCGACGTTTCCCGTTGATATCGCTTGAACATCCAGCGAAACAGGCCCCCC +CCATCGAGCAGAAAACGGTGGTGGATGGCGAACCTGTTTTACGAGTGCGTAATCTTGTCACCCGTTTCCC +TTTGCGCAGCGGTTTGTTGAATCGCGTAACGCGGGAAGTGCATGCCGTTGAGAAAGTCAGTTTTGATCTC +TGGCCTGGCGAAACGCTATCGCTGGTGGGCGAGTCTGGCAGCGGTAAATCCACTACCGGGCGGGCGTTGC +TGCGCCTGGTCGAATCGCAGGGCGGCGAAATTATCTTTAACGGTCAGCGAATCGATACCTTGTCACCCGG +CAAACTTCAGGCATTACGCCGGGATATTCAGTTTATTTTTCAGGACCCTTACGCTTCGCTGGACCCACGT +CAGACCATCGGTGATTCGATTATCGAACCGCTGCGTGTACACGGTTTATTGCCAGGTAAAGACGCGGCTG +CACGCGTTGCGTGGTTGCTGGAGCGCGTGGGCCTGTTACCTGAACATGCCTGGCGTTACCCGCATGAGTT +TTCCGGCGGTCAGCGCCAGCGCATCTGCATTGCTCGCGCGTTGGCATTGAATCCAAAAGTGATCATTGCC +GACGAAGCCGTTTCGGCGCTGGATGTTTCTATTCGCGGGCAGATTATCAACTTGTTGCTCGATCTCCAGC +GTGATTTCGGCATTGCGTATCTGTTTATCTCCCACGATATGGCGGTGGTAGAGCGGATTAGTCATCGTGT +GGCGGTGATGTATCTCGGGCAAATTGTTGAAATTGGTCCACGGCGCGCGGTCTTCGAAAACCCGCAGCAT +CCTTATACGCGTAAATTACTGGCGGCAGTTCCGGTCGCTGAACCGTCCCGACAACGACCGCAGCGTGTAC +TGCTGTCGGACGATCTTCCCAGCAATATTCATCTGCGTGGCGAAGAGGTGGCAGCCGTCTCGTTGCAATG +CGTCGGGCCGGGGCATTACGTCGCACAACCACAATCAGAATACGCATTCATGCGTAGATAACATTCAGGC +GGAGAATAAAATGGCAAGAGCTGTACACCGTAGTGGGTTAGTGGCGCTGGGCATTGCGACAGCGTTGATG +GCATCTTGTGCATTCGCTGCCAAAGATGTGGTGGTGGCGGTAGGATCGAATTTCACCACGCTCGATCCGT +ATGACGCAAATGACACGTTATCTCAGGCCGTAGCGAAATCGTTTTACCAGGGGCTGTTCGGTCTGGATAA +AGAGATGAAACTGAAAAACGTGCTGGCGGAGAGTTATACCGTTTCCGATGACGGCATTACTTACACCGTG +AAATTGCGGGAAGGCATTAAATTCCAGGATGGCACCGATTTCAACGCCGCGGCGGTGAAAGCGAATCTGG +ACCGGGCCAGCGATCCGGCGAATCATCTTAAACGCTATAACCTGTATAAGAATATTGCTAAAACGGAAGC +GATCGATCCGACAACGGTAAAGATTACCCTCAAACAGCCGTTCTCAGCGTTTATTAATATTCTTGCCCAT +CCGGCGACCGCGATGATTTCACCGGCAGCGCTGGAAAAATATGGCAAGGAGATTGGTTTTTATCCGGTGG +GAACCGGACCGTATGAACTGGATACCTGGAATCAGACCGATTTTGTGAAGGTGAAAAAATTCGCGGGTTA +CTGGCAGCCAGGATTGCCCAAACTGGACAGCATAACCTGGCGTCCGGTGGCGGATAACAACACCCGCGCG +GCAATGCTGCAAACCGGTGAAGCGCAGTTTGCTTTCCCCATTCCTTACGAGCAGGCCACACTGCTGGAGA +AAAACAAAAATATCGAGTTGATGGCCAGTCCGTCAATTATGCAGCGTTATATCAGTATGAACGTGACGCA +AAAGCCGTTCGATAACCCGAAGGTCCGTGAGGCGCTGAATTACGCCATTAACCGTCCGGCGCTGGTGAAA +GTTGCCTTTGCGGGCTATGCAACGCCAGCTACTGGTGTGGTACCGCCAAGTATCGCCTACGCGCAAAGTT +ATAAACCGTGGCCTTACGATCCAGTGAAAGCGCGCGAATTACTGAAAGAGGCGGGATATCCCAACGGTTT +CAGTACCACGCTGTGGTCGTCACATAACCACAGCACCGCGCAGAAAGTGCTGCAATTTACCCAGCAGCAG +TTAGCGCAGGTCGGGATTAAAGCCCAGGTGACTGCGATGGATGCCGGACAGCGGGCGGCAGAAGTTGAAG +GTAAAGGGCAAAAAGAGAGCGGCGTGCGGATGTTCTACACTGGCTGGTCGGCTTCAACCGGCGAAGCGGA +CTGGGCACTATCGCCGCTGTTTGCCTCGCAGAACTGGCCACCGACGCTGTTTAATACCGCGTTTTACAGC +AATAAACAGGTGGATGACTTCCTGGCTCAGGCACTGAAAACTAATGATCCGGCGGAAAAGACCCGCTTAT +ATAAGGCGGCGCAGGATATCATCTGGCAAGAATCGCCGTGGATCCCGCTGGTGGTAGAAAAACTGGTGTC +GGCACACAGTAAAAACCTGACCGGTTTTTGGATCATGCCAGACACCGGCTTCAGCTTTGAAGACGCGGAT +TTGCAATAAGCAACGCAGGGAGTGGAATGCTTAATTACGTTATCAAACGCTTACTGGGGTTGATTCCGAC +GCTGTTTATCGTCTCGGTGCTGGTGTTTTTATTTGTCCATATGCTGCCCGGCGATCCGGCGCGATTGATT +GCCGGGCCCGAAGCTGATGCGCAGGTTATAGAACTGGTGCGTCAGCAGCTGGGGTTGGATCAGCCGCTGT +ATCACCAGTTCTGGCACTATATCAGCAATGCTGTGCAGGGGGATTTTGGCCTGTCGATGGTGTCGCGTCG +TCCGGTTGCCGATGAGATTGCCAGCCGCTTTATGCCAACGCTGTGGCTGACCATAACCAGTATGGTCTGG +GCGGTTATATTTGGTATGGCGGCGGGAATTATCGCCGCCGTCTGGCGTAACCGTTGGCCGGATCGATTGA +GTATGACCATTGCGGTGTCGGGGATCTCGTTTCCGGCATTTGCTCTGGGGATGCTTTTAATTCAGGTATT +CTCCGTTGAACTGGGCTGGCTGCCTACCGTGGGAGCAGACAGTTGGCAGCACTACATTTTACCCTCCCTG +ACGCTCGGCGCGGCAGTGGCCGCCGTGATGGCGCGCTTTACCCGCGCGTCGTTTGTCGATGTTTTAAGCG +AAGATTATATGCGTACCGCGAGGGCGAAAGGGGTGAGCGAAACCTGGGTTGTCCTCAAACACGGGCTACG +TAACGCGATGATCCCGGTAGTGACCATGATGGGCTTACAGTTTGGCTTTTTGCTCGGTGGTTCCATCGTT +GTGGAGAAAGTTTTCAACTGGCCGGGACTTGGACGCTTACTCGTTGACTCCGTAGAAATGCGTGATTACC +CGGTGATTCAGGCGGAAATTCTGCTTTTCTCGCTGGAATTTATTCTTATCAACTTAGTGGTGGATGTGCT +TTACGCCGCCATTAACCCGGCTATCAGGTACAAGTAAGGATGCGACTATTTAACTGGCGACGTCAGGCGG +TGTTAAACGCCATGCCACTGGTCAAACCTGACCAGGTACGTACACCGTGGCATGAATTCTGGCGACGATT +TCGCCGTCAGCATATGGCGATGACCGCCGCATTATTCGTTATTTTATTGATTGTGGTGGCCATTTTTGCA +CGCTGGATCGCTCCCTATGACGCCGAAAATTATTTTGATTATGACAATCTGAATAACGGACCTTCTTTGC +AGCACTGGTTTGGCGTCGATTCACTGGGGCGTGACATTTTCAGCCGTGTCCTGGTTGGTGCGCAAATCTC +GCTGGCGGCGGGCGTGTTTGCCGTGTTTATCGGTGCGGCGATCGGGACGTTGCTGGGCTTGCTCGCTGGA +TATTATGAAGGCTGGTGGGATCGGCTGATCATGCGCATTTGCGATGTGCTGTTTGCCTTCCCGGGTATTT +TACTGGCGATCGCTGTTGTTGCGGTGTTGGGAAGCGGCATTGCTAACGTGATTATTGCAGTCGCCATTTT +TTCCATCCCCGCGTTTGCCCGCCTGGTGCGCGGCAACACGCTGGTGTTGAAACAGCAAACCTTTATTGAG +TCAGCACGCAGTATTGGTGCCAGCGATATGACCGTTTTGTTGCGTCATATCCTGCCTGGGACCGTCTCTT +CTATCGTGGTGTTTTTCACCATGCGCATTGGTACCTCGATTATCTCTGCCGCCAGCCTCTCATTTCTCGG +CCTCGGTGCGCAGCCGCCGACACCAGAGTGGGGAGCAATGCTCAATGAGGCTCGAGCGGATATGGTTATC +GCGCCGCATGTCGCTGTTTTTCCGGCCCTGGCTATTTTTCTGACCGTACTGGCGTTCAATTTGTTGGGCG +ATGGTTTACGCGATGCGCTGGATCCGAAAATTAAAGGATAGTTACGTTTGAATATTGCTTGAAAGGGTAA +TCACCTCACAGGAAATTATTGCCCTAAGCAAGTGTTGTAACTTTCTGCTGATTTTGTAGAATCGGGTAAT +TTGGTTAAAAAGCCGCAGCAAGGGACAATTTTTGCAGCGGCACAGCGTTCAGATAGTTATTTTGTTAAAT +GTATTAACATGCTGAGTTTATACGAAAAGATAAAGATAAGGCTGATAATTTTATTTTTATTGGCAGCACT +GTCATTTATTGGTCTTTTTTTCATCATTAACTATCAACTGGTATCGGAGCGCGCGGTAAAACGTGCCGAT +AGCCGCTTTGAACTTATTCAGAAAAACGTTGGCTATTTCTTTAAAGATATTGAACGTTCGGCCCTGACAT +TAAAGGACTCACTGTATTTATTAAAAAATACAGAGGAGATTCAACGCGCCGTGATTCTTAAAATGGAAAT +GATGCCATTTTTAGACTCGGTGGGACTGGTACTTGATGATAATAAATATTATCTTTTTTCGCGGAGGGCG +AATGATAAAATCGTTGTTTATCATCAGGAACAAGTAAATGGACCGCTTGTCGACGAGTCAGGGCGGGTTA +TTTTTGCCGATTTTAACCCATCGAAACGACCGTGGTCGGTGGCTTCAGATGACTCTAACAACAGCTGGAA +TCCGGCATACAATTGCTTTGATCGTCCGGGTAAAAAATGTATCTCTTTTACGCTACACATCAACGGCAAA +GATCACGATTTGTTAGCGGTGGATAAAATTCATGTCGATTTAAACTGGCGATATCTGAACGAGTATCTTG +ATCAAATCAGCGCTAATGATGAAGTTCTATTTTTGAAACAAGGCCATGAGATCATTGCCAAGAATCAACT +CGCTCGTGAAAAACTGATTATTTATAATAGCGAAGGTAATTATAATATTATTGATTCTGTCGATACTGAA +TATATCGAAAAAACATCAGCGGTGCCAAACAACGCATTATTCGAAATCTATTTTTATTATCCTGGCGGTA +ATTTATTGAACGCATCAGATAAACTTTTTTATCTGCCGTTTGCGTTCATTATTATCGTATTGCTGGTGGT +TTATTTAATGACCACTCGTGTGTTCCGTCGGCAATTTTCTGAAATGACAGAGCTGGTTAATACGCTGGCG +TTTTTGCCTGACTCAACGGATCAAATCGAGGCTCTGAAAATTCGTGAAGGCGATGCGAAAGAGATTATCA +GCATCAAAAATTCGATCGCGGAAATGAAAGATGCCGAAATTGAACGGTCAAATAAATTGCTCTCACTGAT +CTCTTACGATCAGGAAAGTGGTTTTATTAAAAATATGGCGATTATTGAGTCTAACAATAATCAGTATCTG +GCTGTGGGGATCATCAAACTGTGTGGTCTGGAAGCCGTGGAAGCGGTGTTTGGTGTTGATGAGCGCAATA +AAATCGTCAGGAAATTGTGTCAGCGAATTGCCGAGAAATATGCGCAATGCTGCGATATCGTGACATTCAA +TGCCGATCTCTATTTACTTCTGTGTCGGGAAAATGTACAGACATTTACCCGTAAAATAGCGATGGTAAAC +GATTTTGACAGCAGCTTTGGCTACCGCAATCTGCGCATCCATAAGTCTGCCATTTGTGAACCTTTGCAGG +GGGAAAACGCCTGGAGTTACGCAGAAAAACTGAAACTGGCGATTTCCAGTATCCGTGACCATATGTTCTC +AGAGTTTATTTTCTGTGATGACGCGAAACTCAACGAAATAGAAGAGAATATCTGGATTGCGCGTAATATT +CGCCATGCAATGGAAATTGGCGAACTATTCCTCGTCTATCAACCGATCGTTGATATTAACACCCGCGCCA +TTCTGGGCGCGGAGGCGTTGTGCCGTTGGGTGTCTGCGGAGCGGGGGATCATTTCACCGCTGAAGTTCAT +TACCATTGCTGAAGATATCGGGTTTATCAATGAGCTGGGTTATCAGATTATTAAAACGGCAATGGGTGAA +TTCAGACATTTTAGTCAGCGTGCGTCGCTGAAGGATGATTTCTTACTGCATATTAATGTTTCGCCCTGGC +AGTTAAACGAACCACACTTTCATGAGCGTTTTACCACCATCATGAAAGAAAATGGCCTGAAGGCGAACAG +CCTCTGTGTTGAGATCACTGAAACCGTGATCGAGCGAATTAATGAACATTTTTATCTCAATATTGAACAA +CTGCGTAAACAAGGGGTACGGATATCGATTGATGACTTTGGCACCGGTTTGTCAAACCTGAAACGTTTTT +ATGAAATTAATCCAGACAGCATAAAGGTGGACTCGCAATTCACCGGCGATATTTTCGGTACTGCGGGAAA +AATTGTGCGCATTATTTTCGACCTGGCACGCTATAACCGGATCCCGGTGATTGCGGAAGGCGTAGAGAGC +GAAGACGTTGCGCGCGAATTAATCAAATTAGGATGTGTTCAGGCTCAGGGGTATCTGTACCAGAAACCCA +TGCCATTCTCCGCCTGGGATAAAAGTGGAAAATTAGTAAAAGAGTAGTTTACGTATGTCCAGAATCAATA +AGTTCGTACTTACAGTCAGTCTGCTGATTTTTATCATGATTTCAGCAGTTGCCTGCGGGATCTACACTCA +AATGGTAAAGGAACGGGTGTATAGCCTGAAACAGTCCGTTATTGATACTGCTTTTGCGGTGGCAAATATT +GCTGAATATCGGCGTAGCGTGGCAATTGATCTTATCAACACGCTAAATCCCACGGAGGAACAGCTGTTGG +TTGGTTTGCGCACAGCTTACGCCGACTCGGTTTCCCCCTCTTATTTGTACGATGTCGGTCCTTATCTGAT +TTCCAGTGACGAATGTATTCAGGTAAAGGAGTTCGAGAAAAATTATTGTGCAGATATTATGCAGGTTGTG +AAGTATCGACATGTCAAAAATACAGGGTTTATCTCTTTTGACGGTAAAACCTTCGTCTATTACCTCTATC +CGGTAACTCACAATCGTAGTCTGATATTTTTGCTTGGTCTGGAGCGTTTTTCTTTACTGTCAAAATCGCT +GGCGATGGACAGCGAGAACCTGATGTTCTCTCTATTTAAGAACGGTAAACCGGTGACCGGTGATGAATAT +AATGCTAAAAACGCCATCTTCACCGTTTCGGAAGCGATGGAGCACTTCGCCTATTTGCCGACCGGATTGT +ATGTATTTGCGTATAAAAAAGATGTTTATTTGCGGGTTTGTACATTGATTATTTTCTTTGCCGCATTGGT +GGCAGTGATATCGGGTGCCAGTTGCCTCTATCTGGTACGCAGAGTGATTAATCGTGGTATTGTGGAGAAA +GAAGCCATCATTAATAACCATTTTGAACGCGTACTGGATGGCGGGCTTTTCTTTTCGGCTGCCGATGTCA +AAAAACTCTACAGTATGTATAACTCGGCGTTCCTGGACGACCTGACCAAAGCAATGGGCAGAAAATCCTT +TGACGAAGATTTAAAAGCGCTGCCGGAAAAAGGCGGTTATTTGTGCCTGTTTGACGTCGATAAATTCAAA +AACATTAACGACACCTTCGGTCATTTGCTGGGCGATGAAGTGTTGATGAAAGTGGTGAAAATCCTTAAAT +CACAGATCCCGGTAGATAAAGGTAAAGTCTACCGCTTCGGCGGTGACGAATTTGCGGTGATTTATACGGG +TGGAACGCTGGAAGAGTTGCTATCGATTCTAAAAGAAATCGTTCATTTCCAGGTGGGAAGCATTAATTTA +AGTACCAGTATCGGTGTAGCACATTCAAATGAATGTCCTACCGTCGAACGCTTGAAAATGCTGGCGGATG +AGCGGCTGTATAAGAGTAAGAAAAACGGCAGGGCACAGATTAGCTGGCAGTAATCATTATTCGCAGGCCG +GACAAATGATTTTGCCCGGCCTGAATTAATTAAACCCGGCTACCCCACAAATCGTACTCATCGGCGTGCT +CGACTTTCACACGCAGGATATCACCCGGCTTAACGTTGGTTTCACCATTGAGATAAACCGCGCCGTCGAT +TTCCGGTGCATCTGCCATGCTGCGACCAATCGCGCCTTCTTCGTCCACTTCGTCGATAATCACCAGAATT +TCACGGCCCACTTTCTCTTGCAGGCGCTCGGCGGAAATCTGCTGCTGCAGCTGCATGAAACGGTTCCAGC +GTTCTTCTTTAACTTCTTCCGGAACCTGGTCAGGCAGGGCATTGGCGTCTGCACCTTCAACCGGGCTGTA +TTTAAAGCAGCCAACGCGATCCAGACGCGCTTCTTTCAGGAAGTCGAGTAGCATCTGGAAATCTTCTTCT +GTCTCGCCAGGGAAGCCGACAATAAAGGTTGAGCGTAGGGTCAGTTCCGGGCAGATTTCGCGCCACTGTT +TGATGCGCGCCAGTTGGCGATCTACAGAACCCGGACGCTTCATCAGTTTGAGAATGCGCGGGCTGGCGTG +CTGCAACGGAATGTCCAGATACGGCAGGATTTTGCCTTCTGCCATCAGTGGGATGACGTCGTCCACATGC +GGATAAGGGTAAACGTAGTGCAGACGTGTCCAGATCCCCAGTTTCGATAACTGTTCGCACAGGCTGACCA +TGCTGGTTTTTACCGGCTCGCCGTTGTGGAAGCCAGTACGATGTTTAACATCAACGCCATAGGCGGAAGT +ATCCTGCGAGATCACCAGAATCTCTTTAACGCCCGCATCTACCAGACGTTTCGCTTCACTTAACACTTCG +CCAATCGGACGGCTCACCAGGTCGCCGCGCATAGACGGAATAATGCAGAAGGTGCAGCGGTGATTACAGC +CTTCAGAAATTTTCAGATAGGCATAATGACGCGGCGTCAGTTTCACACCTTGTTCTGGCACCAGGCTCAG +GAATGGGTTGTGTTTCGGTTTTGGCACGTAGTGATGAACGTGCTCCAGAACCTGCTCATAGCTATGAGGC +CCGGTGATTTCCAGCACTTTCGGGTGGACTTCGCGGATCTGATCTTCTTTTGCCCCCAGACAACCGGTCA +CAATAACCTTGCCGTTTTCATTCAACGCTTCACCAATGGCTTCCAGTGATTCTTGTACCGCGCTGTCAAT +AAAGCCGCAGGTGTTGACGATCACCATGTCCGCATCGTCATAGCTCGGTACCACGTCATAACCTTCAGTG +CGGAGTTCGGTGAGAATACGCTCTGAATCAACAAGGTTTTTCGGACAGCCAAGGGAAACAAAGCCGATTT +TCGGCTGGGGAGTTACTTTGCTCATAGCTTAAAAAATATTCAGTTACAGGAAAGGTCAGGGCAGGGATTC +TACAGAGTTCTGGATAAAATTTGTATCGCAATCTCATTCGCTGGCGGAGGCGAAGGAAATGTAAATTTTG +TTAATTCGGCGTGAAGAATTGATCCTGGACAGCATTTTGCTCAAAAAATAGCCATACTATTTAATTGCAA +CAAGGCTGGGAAGAGGAGGATCGAAGTATGTTCGTTGACAGACAGCGAATCGATCTGCTGAACCGGTTGA +TCGACGCACGCGTTGACCTCGCCGCATACGTGCAACTGAGGAAGGCAAAAGGATACATGTCCGTCAGCGA +AAGCAATCATCTACGAGATAACTTTTTTAAACTGAATCGCGAACTGCACGATAAATCGCTGCGGTTGAAT +CTTCATCTGGATCAGGAAGAGTGGAGTGCTCTTCATCATGCTGAAGAAGCATTAGCGACAGCCGCAGTAT +GTTTGATGAGTGGGCACCATGATTGCCCGACTGTTATTACCGTCAACGCCGATAAGCTTGAAAATTGTCT +GATGAGCTTAACGCTGAGTATCCAGAGCCTGCAGAAGCACGCCATGCTTGAGAAGGCCTGAAAACTAAGG +GGGAGAAAGCGTCTCCCCCTTCATGTTTAAGTTTTTGTAAAAATGAATTTGTTATCTCCTCCACTGACTA +CGCTTTAAGCCAGAGTCAATCCGGAGGCGTTATGCATCGACAATCCTTTTTCCTTGTGCCCCTTATTTGT +CTTTCTTCCGCTCTCTGGGCGGCTCCTGCAACGGTAAATGTCGAAGTACTGCAAGACAAACTCGACCATC +CCTGGGCACTGGCCTTTTTACCCGATAATCACGGTATGTTAATCACTCTGCGCGGCGGCGAGTTGCGTCA +CTGGCAAGCAGGAAAAGGATTATCTGCGCCGCTTTCCGGAGTTCCGGACGTTTGGGCGCACGGGCAGGGC +GGCCTGCTGGACGTGGTTTTAGCGCCTGATTTTGCTCAGTCTCGCCGCATCTGGTTAAGTTATTCCGAAG +TTGGCGATGATGGCAAAGCCGGAACTGCTGTGGGTTATGGCCGCTTAAGTGATGATCTCTCAAAAGTGAC +CGACTTCCGCACCGTCTTTCGCCAGATGCCAAAACTGTCTACCGGCAACCATTTTGGCGGGCGGCTGGTA +TTCGACGGTAAAGGTTATCTTTTTATTGCTCTGGGCGAAAACAATCAGCGCCCGACGGCGCAGGATCTGG +ATAAATTACAGGGCAAACTGGTGCGTCTGACCGACCAGGGCGAAATCCCGGATGATAATCCTTTTATAAA +GGAATCCGGTGCGCGCGCCGAGATCTGGTCTTATGGCATTCGTAATCCGCAAGGAATGGCGATGAATCCG +TGGAGTAATGCACTGTGGCTGAATGAACATGGCCCGCGCGGTGGTGATGAAATTAATATCCCGCAAAAAG +GCAAAAACTACGGCTGGCCGCTGGCAACCTGGGGAATCAACTATTCAGGCTTTAAGATACCGGAAGCGAA +AGGGGAGATCGTCGCCGGGACCGAGCAACCTGTTTTTTACTGGAAAGATTCGCCCGCTGTGAGCGGCATG +GCCTTCTATAACAGCGATAAATTCCCCCAGTGGCAGCAAAAATTATTTATTGGCGCGCTGAAAGATAAAG +ATGTCATTGTGATGAGCGTCAACGGCGACAAAGTGACAGAAGATGGCCGTATTTTAACGGACAGAGGGCA +GCGAATTCGTGATGTTCGCACTGGACCCGACGGTTATTTATACGTTCTCACCGACGAGTCCAGTGGGGAA +TTACTTAAAGTTAGCCCACGCAATTAGCTAACGGGAATCATCACCACTTTGCGCACTGCGGGGCGTTCAG +TGAGTTGCTGATACCAGCGTTGCAGATTTGGACGCGGTGTCCAGGTCAGGCCAACGTTAAACAAATTGTA +GATGAACGGTGCGATAGCGATATCGCCCACACCAAACTCGTCGCCAGAGAACCATTTTACTTTTGCCAGT +TCCGCATCGAGCAGGGCAAACAGGGCGTCGCACTCTTTGCAACTGGCATCAATGGCGGCCTGATCGCGCT +CTTCCGGTGGTGTTCTGACTAATCCCATCAGGATCCCGCGATGAGCATTACTGAGCGTCTGGTTTGCCCA +GTCCATCCATTTTTCCGCTTCCGCACGACGTGCCGGTGAGTCGATCCACAGGCGTTTTTGCCCGTACTGT +GCCGCCAGATAGCGGACAATGGCGTTTGATTCCCAAAGAATGAGATCACTTTCGTCGTCACGCAACAACG +GCACCAGCCCGTTAGGGTTCATCGCCAGAAAATCAGCATCGTGATTTATCCCAAACTCACGGCCCGCGAG +AATTTGCTCATAAGGTAGTTCCAGTTCTTCGAGCGTCAGCAATACTTTTTTTACGTTAGTTGAATTATTC +CGACCCCACAGCGTAATCATACTCACCCCTTTTCCGACAGGCAGCCACAGGCTGAACAGGACTCCGATGG +TGAAGTAAAGTTAACTTTTAAGCAACAGCTGGCAAAAAAATGACACCAGAAGCAGCGAAGCGGCAGGATA +TTGCATAAACTTTAAAAACTTTACCAACTTACGGTTTCTTTAAGTTTGTGTGTGCGTTATTAATCACCAA +ACTTATCATACGGCGATATAACGTATTTTTTTTGAATGGATACTCGGGTGGCATTTATGACGCAATACTC +CTCTCTCCTTCGTGGTCTTGCAGCGGGTTCTGCATTTTTATTCCTTTTTGCCCCAACGGCATTCGCGGCG +GAACAAACCGTTGAAGCGCCGAGCGTGGATGCGCGTGCATGGATTTTAATGGATTACGCCAGCGGTAAAG +TGCTGGCAGAAGGCAATGCGGATGAGAAACTGGATCCCGCGAGCCTGACTAAAATCATGACCAGCTATGT +GGTTGGGCAGGCGCTTAAGGCCGATAAGATTAAACTCACCGATATGGTGACGGTCGGTAAAGATGCCTGG +GCGACGGGAAATCCGGCACTGCGTGGTTCATCGGTAATGTTCCTCAAACCGGGCGATCAGGTTTCGGTGG +CAGACTTGAACAAAGGTGTGATTATCCAGTCCGGTAATGACGCCTGTATTGCGCTGGCTGATTACGTTGC +CGGGAGCCAGGAGTCATTTATTGGTCTGATGAATGGTTATGCCAAAAAACTGGGTCTGACCAACACTACC +TTCCAGACGGTGCACGGCCTGGATGCGCCGGGGCAGTTCAGCACCGCGCGCGATATGGCATTGCTGGGTA +AAGCATTGATCCACGATGTGCCGGAAGAGTACGCCATTCATAAAGAGAAAGAGTTCACCTTCAACAAAAT +TCGTCAGCCTAACCGTAACCGTCTGCTGTGGAGCAGCAATCTGAATGTTGATGGCATGAAGACAGGAACC +ACGGCAGGCGCGGGATATAATCTGGTTGCTTCGGCTACCCAGGGCGATATGCGTTTAATCTCCGTAGTGT +TGGGGGCGAAAACCGACCGTATCCGTTTTAATGAGTCTGAGAAATTATTGACCTGGGGTTTCCGCTTCTT +TGAAACCGTGACGCCAATTAAACCTGATGCCACCTTTGTGACTCAGCGCGTCTGGTTTGGTGATAAGAGC +GAAGTGAATCTCGGGGCAGGTGAAGCGGGCTCAGTGACCATACCGCGTGGGCAGCTGAAAAACCTGAAAG +CGAGTTATACGTTAACGGAACCGCAGCTTACCGCACCGCTGAAAAAAGGTCAGGTTGTCGGGACCATTGA +TTTCCAGCTTAACGGTAAATCCATTGAGCAGCGTCCGCTGATCGTGATGGAAAATGTGGAAGAGGGCGGA +TTCTTTGGTCGGGTGTGGGATTTCGTGATGATGAAATTCCATCAGTGGTTCGGCAGCTGGTTCTCTTAAT +CTTCTGATAACCGGATGGCGCGAAACGTCATCCGGTTATACGTCATTAATACATCAACTTAATGCGCTGC +GTCTGCGCGTACTTCACATACTCATCTTCCGGGCAACAATCGCTCACCACAATATCAAAGCGTTTCAGGT +CACCCATGCGCGCCGGACGCACCTTGCCAAATTTACTGTGGTCGACAACCAGCACATGCTTTTGCGCCAT +CGACATGGCCCAGTGTTTTACCGGCAACTCTTCAAGATTAAAACAGGTAGCGCCTTTACTGACATGCACG +CCCGCCGCAGAATAAAAAGCGATATCCGGGCAAAAATTATTCAGCGTTTGCTGAAAATCGATGGGTTTGA +AAATGGCGTTGCTGGCGTGAAATTCACCACCGCAAAGAAACGCGCGGCAATGGGGTTTCTCTTTCAGCGC +CAGAAAGGTATTTAGCGAATAACAAACGGCGGTAAAAGGGATTTCATTATCAATCGCTTCAATAATCCAC +GGCGTGGTGGTGCCACAGTCAAAAAAGAGGGTCTGATCGGGTTCTACCAGCGTCGCAGCCAGTTTTGCCG +CCCGGCGTTTTTCTTCCACCAGGCGGGATTTTTGATCGCTTAACAGGTAATGGCTGGCACTGCGCGGTTC +CAGAACAATATAGCCGCCGAGCAAAACGACGGGCGCACTGTGGTTGTTCAGATCGCGACGAATCGTCATC +TCCGAAACCCCAAGCAGGGCGGCGGCGTCTTTAAGATGTAACTTATCGCTGCGTTTTAATTCTTGCAGCA +GCTGCCCGATACGCTCTTCGCGACGTGTTTCCATAATCCCTCTGAATAGTTATTGAAGCGAGCCGCTCAA +TACTACACTTTTTAGCAGAGATCAGTCACGCACCCAGCCTTTGCGGATCGGTAATGCAAAACAGACGCGA +TACCACGATTGCAGACGTTGATAGAGTTTATGCCCCATCGCTTGCCAGATAATCTGGGCACTAAGGCAGC +CAATCATACCTGCCAGCAATCCACCGAGCATATCCAGCGGCCAGTGGACGCCAAGATAAACGCGCGACCA +GGCAATGACGACGGCCAGCACCATTAAAAGTGAGCCGGACCACAGGCGATGCCAGCATAAAAATGCCAGT +GCAAAGGTGAAAATCACCGTACCGTGATCGCTTGGGAATGAGTCATCCGCCGCATGATGCAGGAAGTTAT +AGCCGATATTTTCGACAAAGGGTCGGTCGTGCGGAAAAAGATGTCCCATCGTCCAGGACACAAACAGGCT +GACCGCCAGCGCGATAGCGATTTTTATCACCAGTTGCCGTTGTGCTGTAAGCCCCCACAACCAAAGTACC +ACGGCCAGCAACGGCACCACGGTAATCAAATCTTTAGCAATAAAAATCGCCAACGAGATCATCCACGGAG +CCGAGTCTGGCGTCGCGTTAATAAGAGAGAATAGAGAGAGATTCAAATTTTCCAGCATAACTTCCCGACG +CAAAGTGATTAAAAGGGAGCCAATACAGGCAAGTCGTTGAGAATAAAGTGCAGGTTAAACTGGGTAAAGC +GGCATCGTCTTATTTCCCTCAAGCGGCCTGTTTACGGTGGGTGATTGTAACGGGCATAGGTTAAATAAAA +CTTAAAGAAAGCGTAGCTATACTCGTAATAATGTAAGAATGTGCTTAACCGTGGTTTCAGCTACAAAATT +CGCTTTCTCGTTAGCTGCGCTTTTATTAAACTCTGCGCGATTATTATTGGCGAAGAAATTGCATGCAAAA +TAAATTAGCTTCCGGTGCCAGGCTTGGACGTCAGGCGTTACTTTTCCCTCTCTGTCTGGTGCTTTACGAA +TTTTCAACCTATATCGGCAACGATATGATTCAACCCGGTATGTTGGCCGTGGTGGAACAATATCAGGCGG +GCATTGATTGGGTTCCTACTTCGATGACCGCGTATCTGGCGGGCGGGATGTTTTTACAATGGCTGCTGGG +GCCGCTGTCGGATCGTATTGGTCGCCGTCCGGTGATGCTGGCGGGAGTGGTGTGGTTTATCGTCACCTGT +CTGGCAATATTGCTGGCGCAAAACATTGAACAATTCACCCTGTTGCGCTTCTTGCAGGGCATAAGCCTCT +GTTTCATTGGCGCTGTGGGATACGCCGCAATTCAGGAATCCTTCGAAGAGGCGGTTTGTATCAAGATCAC +CGCGCTGATGGCGAACGTGGCGCTGATTGCTCCGCTACTTGGTCCGCTGGTGGGCGCGGCGTGGATCCAT +GTGCTGCCCTGGGAGGGGATGTTTGTTTTGTTTGCCGCATTGGCAGCGATCTCCTTTTTCGGTCTGCAAC +GAGCCATGCCTGAAACCGCCACGCGTATAGGCGAGAAACTGTCACTGAAAGAACTCGGTCGTGACTATAA +GCTGGTGCTGAAGAACGGCCGCTTTGTGGCGGGGGCGCTGGCGCTGGGATTCGTTAGTCTGCCGTTGCTG +GCGTGGATCGCCCAGTCGCCGATTATCATCATTACCGGCGAGCAGTTGAGCAGCTATGAATATGGCTTGC +TGCAAGTGCCTATTTTCGGGGCGTTAATTGCGGGTAACTTGCTGTTAGCGCGTCTGACCTCGCGCCGCAC +CGTACGTTCGCTGATTATTATGGGCGGCTGGCCGATTATGATTGGTCTATTGGTCGCTGCTGCGGCAACG +GTTATCTCATCGCACGCGTATTTATGGATGACTGCCGGGTTAAGTATTTATGCTTTCGGTATTGGTCTGG +CGAATGCGGGACTGGTGCGATTAACCCTGTTTGCCAGCGATATGAGTAAAGGTACGGTTTCTGCCGCGAT +GGGAATGCTGCAAATGCTGATCTTTACCGTTGGTATTGAAATCAGCAAACATGCCTGGCTGAACGGGGGC +AACGGACTGTTTAATCTCTTCAACCTTGTCAACGGAATTTTGTGGCTGTCGCTGATGGTTATCTTTTTAA +AAGATAAACAGATGGGAAATTCTCACGAAGGGTAAAAAAATGCCTGACTGCTTTGTGCGATCAGGCATTC +TCGAATTAATGGTGATGGTCGTCAATCTGGTGTTCGATAACCATCCCTTCACCTACGCTGGCAAGATGGC +GAACATAAGGATGCGGGCGGTAAGCCGGAGCTGGCGCAGGAGCCACATAGACGGTTTGCGGCACAGTCGC +GACGCTGACCGCTTGTGGAACGCTGACTGAATCAGGAACCACAACCACTTTGTATCCACTCGGCACATCG +ACGGTGACACTTTGCGCCATCGCCACACCAGTAAAGCCCATTAAAAGCGCGCCCAACAGTAGACAATTTT +TCATAATCATTTCGCCTGAAATAATGCAGCGGGTTAATTTCCGCGAATTATGCAGCCTTCATTCAGGCAT +TGTGTTGCCGGGCGTGCTGCCGGTTTTATTGGTCAAATGGCGCTTCGTGTTTAAGAACTTTATCGATCAC +ATCCAGTACGCCTTCACGGTTATTGGAGCCTGCGCGGTATTTTGCCGCTGCGACGACCGCGCTACCGGCA +TTTTCCATTGCAAAACTAAAGCCTGCCTGACGCAGCATCTCAATATCGTTACCGCCATCGCCAAAGACCA +CCACTTCGCTGTCGTCTATTCCCCATAATTTCTGCAGTTGGCGAAGGCCATTGGCTTTATGTACGCCGGG +GATAATCAGATCGATGCTGCCGTTGCCGGTGTGGACCGACACCATAATATCGCCGATGGCCTCATGTAAT +GCTTTTTGTACTTGTGGAATCAGTTCATCGGAAAGATTCAGGCCAAACTTAAAGAAGATATCCTCTAAGT +TGTCAAAGTTATCGACGTATTCCAGACGGTGATAATACATTTCCGCCACCGTTTTCATGGCATCGTCATA +TTTTTTGAGTGTATAGGCACTATTTTTTCCGCAGGCAATAATTTCCACTTCCGGGCGCGTCAGCAAATGT +TCCACGACAGTAGCAAACGCATCCTTCGATAGCTCGCCATTAAAAACATCTTTGCCTTCGCTCACTACCC +AGCCGCCGTTTTCAGCCACAAAGGCAATTTCATTAGCAATTTCAGGGAAGAAAGAGATCAACTGATAATA +TTGATTCCCGCTGGCGACTACAAAGCGAATTCCTTGTGCTTTCATTTGCTGATACTGAGCCATAAACCGC +TCACGGTTATAGGTTTTTTGATCGCTTAAGAAAGTACCATCCATGTCTACCGCAATTAATTTAATGCTCA +TCAACTATTCTCCATCGCCGTCTGCGTTTTGGTATCGGGTTTGGCGACGGCTTTCGCGACAATAGCCGCG +AGAATAACCAGCGCCAGTACAACCAGCATTGCACTACGTAATCCATAATGTTCGCCGAGATAGCCCAGCA +GCGGCGGCCCGACGAGGAAAGCCAGATAACCGGTCGTTGCTACCACACTGACGCGGGTTGGTGCATCGGG +GCCGGTATCGCTGGCGGCAGAAATGGTCAGCGGGAAGCCCAGCGAGGCACCCAGTCCCCAGAGTACAACA +GACACCCCAGCGACCCAGGCGCTATCGACAAAAATAATCAGCCCAATACCCAACGCCCCCATTAGTGCAC +TGGCCCGAACCACGGCAACGCGACTGTAACGGTCGATGAACCAACCGCCGGTGAAGCGTCCAACGGTCAT +CCCCAGGGTAAAACCGGCATAAATCAGCGAGCCGGAAGTAGGGCTAAAACCGTGACCGTCAACCATTAAT +AAGGGTAACCAGTCGTTGGCAGAACCTTCGGCAAAGGCCATCGCCAGCACCACAACACCTATCAGCAGCA +ACTGGATATCGCGATAAAAAGGTACGCCTTTTTCGCCATGCTGGGTGCCATCGGCAGCATTTTTGCCCGT +ACCGTCAGGGATTGCCTGAATGGCGATATAAATAGGTGCGATACCTACCAGCGCCGCCAATAAAATGTGC +ACCGTTGCCGGAACGCCAAAGGCCGTCAGTGCCATCCCGACACCTGCGCCTGCCAGCGTGCCCAGGCTAT +AAAAACCGTGCATCATCGGCAAAACCGTCTTATTCATTTCTCGCTCAACGGCAGCACCTTCAACGTTTAT +CGCCACTTCCGCAGAACCAAAACTTGCCCCAAAGACGCCGAGACCAACGGCAAAGAGCAGGGGCGATGTC +AGCCAGAGTGCCAGACTTAATATCATCATCCCGATCAATGCGCAGGACATCGTGACCAGGATGACATTAC +GTGTCCCAAAGCGTTTCACTAACCACGCCGAGCAGAGAATACCGCTCATCGAACCGATCGACAGACCAAA +GAGAACACCGCCCATTTCAGCGATCGAGACAGAGAGAATATCGCGGATAGCAGGCGTACGGGTTGCCCAG +GACGCCATTAACAGGCCTGGCAAAAAGAAGAACATAAACAGCGCCCAGGTTCGGCGTTTCAATGCATTAC +GTGAAGAATTTACGGTCATAGATCACGTCAAAATAAGAAGAGGGAAGACAACATTAGCAAGGTTGTGTAC +ATTTGTACACAATTGCAGAGAGAGGAAATGACATGCGTCGCGCTAACGATCCGCAACGGCGAGAAAAAAT +TATCCAGGCCACGCTGGAGGCGGTGAAACTTTACGGAATACATGCTGTTACGCACCGCAAAATTGCTACC +CTTGCCGGGGTACCGTTGGGATCGATGACCTACTATTTTTCAGGAATTGATGAGTTGTTACTGGAGGCGT +TCAGCAGTTTTACTGAGATCATGTCCCGGCAATATCAGGCATTTTTTAGCGATGTTAGTGATGCTCCGGG +CGCATGCCAGGCTATCACCGATATGATCTACAGCTCACAGGTTGCAACGCCGGATAACATGGAGCTGATG +TACCAGCTCTACGCGCTGGCTAGCCGAAAACCGCTATTAAAAACGGTAATGCAAAACTGGATGCAGCGCA +GTCAGCAAACGCTCGAACAATGGTTTGAACCCGGAACCGCCCGCGCGCTTGATGCGTTTATTGAGGGGAT +GACGCTGCATTTTGTCACCGACCGTAAGCCGCTATCGCGCGAGGAGATTTTGAGGATGGTTGAGAGGGTT +GCAGGGTAGTAGATAAGTTTTAGATAACAAAAAACCCATCAACCTTGAACCGAAATGGCGGGGTTGATGG +GCTCCACAAAATGGGGACATCAAAGAAAAGCAGTGGCACTAATTAAGACTGATGCCCTGCGGAAAAGTTC +TGCGGTTGTGCAAAAAAATTTCATTTTCAGGGCAACTTCAGTTTTATCCTAATCCTGGCCATACCATGAC +GATGATTGTCCCTGCCAGCGTCAGCAGGACGTTGGCGATTGCATAGGTGCCCGCATAGCCCAGCGCCGGG +ATGTTACTGCGAGCTGTATCACTGATGATCTCCATTGCCGGCGCGCAGGTACGTGCGCCCATCATTGCGC +CGAACAACAGCGCGCGGTTCATTCGCAATACATAAGCACCGAACAAGAAACAGATAACCACGGGCACCAG +ACTGACAATCAATCCGGCAATCAACATCTGACCGCCAATCGCGCCCAGGCCGTTATTAATACCGCTACCG +GCGCTCAGACCAACGCCTGCCATAAACACCATCAAGCCGAACTCTTTCACCATGCTTAATGCACCCTGCG +GAATGTAACCGAAGGTCGGGTGGTTAGCACGCATAAAGCCCAGCATAATTCCGGCGAATAACAACCCGGC +AGCGTTCCCCATGCCGAAACTGAATGTGCTGAACTGGAAGGTGATCATCCCGATCATCAGCCCAATAACA +AAGAAGGCGCAGAATGCCAGCAGGTCAGTGACCTGGCTGTGAATCGAGATAAAGCCGATGCGATCGGCGA +TGGTTTTTACGCGGCGGGCATCGCCGCTGACTTGTAAAACGTCACCTTTGTTAAGCACGACGTTGTCATC +TATCGGCATCTCAATCTGGCTACGAATGACGCGGTTAAGGAAGCAACCGTGATCGGTCAACTTCAGTTGT +GCGAGACGTTTACCTACAGCGTTATGGTTTTTAACGACCACTTCTTCAGTGACGATACGCATGTCGAGAA +GGTCACGATCGAAAACTTCTTTACCGTTACGGAAGCTGGGATCGAGTCGGGCATGGGCGTCGGGATAGCC +TACCAACGCTATTTCATCGCCCATTTGTAGCACGGCATCACCGTCTGGATTTGCCAGAATCCCGTTACGT +CGAATACGTTCAATGTAGCAGCCGGTTTGTCGATAAATACCCAGTTCACGCAGATTTTTGCCGTCGGTCC +AGGCCACCAGTTCCGGGCCGACGCGATAGGCGCGGATCACCGGTAAATAAACCTTACGGTTGGCATCAGT +GTCCAGGCCACGTTCGCGGGCGATTTGCTGGGCGCTGGTCTGTAAGTCCTGATGCTGCAATTTCGGCAAG +TAACGCGCACCAACAATCAAACTCACCAGACCGATTAAATAGGTTAAGGCATACCCGAGGCTCAGATTAT +CCAGTGCCAGTGAGAGCTGCCTGCTTTCCATGCCGGAATGACGCAGTGTATCGCCAGCACCGACCAGAAC +CGGTGTCGACGTCATAGAGCCTGCTAACATACCGGCCGTCAGGCCAATATCCCAGCCAAACAGCTTACCT +AACCCTAAGGCGATCACCAGCGCACTGCCAACCATCACCAGTGCTAACATTAGGTAATTTTTCCCATCGC +GAAAAAAAATGGAAAAAAAGTTCGGTCCGGCTTCGACCCCGACGCAGAAAATAAACAGCATAAAGCCAAG +ATTAAGCGCATCGGTGTTAATGCTGAAATGTTGTTGGCCTAATAACAGCGATACGACTAAAACGCCAATG +GAATTACCCAGTTGGATCGAACCAAGTCGTAACTTTCCGAGACATAGCCCAAGCGCGAGGACCACAAATA +ATAACAGAATGTAATTCCCATTTAACAATTCGGCGACGTTTATATTCACGGAGGCTAACTTCTTGTTTAC +TAGTAAGCTGTTGAAAGAAATGGTAATTTACGATAATGTTTTTTACCAGAATTCAGGGCGCAGATTCATT +CAGCGCACCTAAACGATAGTAAAGTAACAATATATTTTACTAGTGTAATCACATTAGGTATCAACGGCTA +TATGAATTGCGTTGGCCTATATTAGCATGGAATGCGAAGCGGCTTTATCTTACTGAACGCCACACTGGCG +AAAAATGTGTTCGATAGACGCAGTGTCAGGAGGAACGAGTGAAACATAAACAACGTTGGGCGGGGGCAAT +CTGCTGTTTTGTCCTCTTCATTGTGGTGTGCCTTTTTCTGGCGACGCACATGAAAGGCGCTTTTCGGGCT +GCCGGGCATCCTGAAATCGGCTTGCTATTTTTCATTCTTCCTGGAGCAGTCGCCAGCTTCTTTTCACAGC +GTAGAGAAGTCCTGAAACCTCTGTTTGGCGCAATGCTGGCGGCACCCTGTTCGATGCTCATTATGCGGCT +GTTTTTTTCACCGACGCGCTCATTCTGGCAAGAGCTGGCATGGTTACTAAGCGCGGTGTTCTGGTGTGCG +CTGGGGGCACTGTGTTTCTTATTTATCAGTAGTTTGTTTAAACCACAGCACAGAAAAAATCAGTAAAGCC +CTCAACGCGAGGGCTTGTCAGACGATCAGGCGTCCAGATTTTCTTTCACCCATGCAGCAAAATCGGTATA +GCCGCCGATATGTTGCTGATCGACAAAAATCTGCGGCACGGTTTCTACGGGTTTACCTGCCTTTTGTTGT +AGATCTTCTTTAGTGATCCCTTCCGCACGAATATCTACATACTGATACTGAAAATCATCGCGTTCATTGC +TCAATTTCTCAGCCAGATCTTTTGCACGCACACAGTAAGGGCAACCCGAACGACCAAAAATAACGGTTTG +CATTATTTCTCTCCTCATAGATTTATGCCTGTAATGATCACGCTAAAATGTATTCGCTGAAAGTAGGTTT +AACCTGTTGCATTAATTGCTAAAAGCTATAACTGTTAAACACAATACAGTGAAAAGTTTTAGACTGAAGG +CTCACTTTGCAGAGGGAAGCGTATGCGCGCGATCGGTAAATTGCCTAAAGGCGTGTTGATACTGGAATTT +ATCGGAATGATGCTACTGGCGGTGGCGCTGCTGTCGGTAAGCGACTCCCTGTCGCTGCCTGAGCCATTTT +CTCGGCCAGAAGTGCAGATTCTGATGATTTTTCTCGGTGTTTTGCTCATGCTTCCCGCTGCGGTGGTGGT +TATTCTTCAGGTGGCAAAACGTCTTGCCCCACAGCTGATGAACCGTCCACCGCAATATTCACGTTCAGAA +AGAGAAAAAGATAATGACGCCAACCATTGAACTTATTTGTGGCCATCGCTCCATTCGCCATTTCACTGAT +GAACCCATTTCCGAAGCGCAGCGTGAGGCGATTATTAACAGCGCCCGTGCGACGTCCAGTTCCAGTTTTT +TGCAGTGCAGTAGCATTATTCGCATTACCGACAAAGCGTTACGTGAAGAACTGGTGACGCTGACCGGCGG +GCAAAAACACGTAGCGCAAGCGGCGGAGTTCTGGGTGTTCTGTGCCGACTTTAACCGCCATTTACAGATC +TGTCCGGATGCTCAGCTCGGCCTGGCGGAACAACTGTTGCTCGGTGTCGTTGATACGGCAATGATGGCGC +AGAATGCATTAATCGCAGCGGAATCGCTGGGATTGGGCGGGGTATATATCGGCGGCCTGCGCAATAATAT +TGAAGCGGTGACGAAACTGCTTAAATTACCGCAGCATGTTCTGCCGCTGTTTGGGCTGTGCCTTGGCTGG +CCTGCGGATAATCCGGATCTTAAGCCGCGTTTACCGGCCTCCATTTTGGTGCATGAAAACAGCTATCAAC +CGCTGGATAAAGGCGCACTGGCGCAGTATGACGAGCAACTGGCGGAATATTACCTCACCCGTGGCAGCAA +TAATCGCCGGGATACCTGGAGCGATCATATCCGCCGAACAATCATTAAAGAAAGCCGCCCATTTATTCTG +GATTATTTGCACAAACAGGGTTGGGCGACGCGCTAAAACCGCCACGTCGATGTATGATACGCGGGCTTTT +GACCAGGTCTGACAGAGAGGTGCAGGGTGAAAATTGCCATATTGTCCCGGGATGGAACGCTCTATTCGTG +TAAGCGGCTGCGTGAAGCCGCTATACAGCGCGGTCACCTGGTTGAAATTCTTGATCCGCTTTCTTGCTAC +ATGAACATAAATCCTGCGGCGTCTTCTATTCACTACAAAGGCCGCAAGTTACCCCATTTTGACGCAGTGA +TCCCGCGTATTGGCACCGCCATTACCTTTTATGGGACGGCGGCACTGCGCCAGTTCGAGATGCTGGGGAG +CTATCCGCTCAATGAGTCGGTCGCCATTGCCCGGGCGCGTGACAAATTGCGTTCCATGCAACTGCTGGCG +CGTCAGGGCATCGACCTGCCTGTCACGGGCATTGCGCATTCGCCGGATGATACCAGCGATTTAATCGACA +TGGTCGGTGGTGCGCCGCTGGTGGTCAAGTTGGTTGAAGGCACGCAGGGAATTGGCGTCGTGCTGGCGGA +GACGCGTCAGGCGGCGGAAAGCGTGATTGACGCTTTCCGCGGTCTGAACGCGCATATTCTGGTGCAGGAA +TATATCAAAGAGGCGCAAGGGTGCGATATCCGCTGTCTGGTTGTTGGCGATGAAGTGGTCGCTGCGATTG +AACGGCGGGCGAAAGAGGGCGATTTTCGTTCCAATTTGCATCGTGGCGGCGCGGCAAGCGTCGCCAGTAT +CACACCACAGGAGCGTGAAATCGCGATAAAAGCCGCGCGAACGATGGCGCTGGACGTTGCTGGTGTGGAT +ATTCTGCGTGCTAATCGCGGGCCGTTGGTGATGGAGGTGAATGCGTCGCCGGGGCTGGAAGGAATAGAAA +AAACCACCGGTATCGACATCGCGGGTAAAATGATCCGCTGGATCGAACGCCACGCTACGACAGAATATTG +CCTGAAAACGGGTGGTTAGTCGCAATCACATTACTGATCATGGTTTTGCCTGCGCTTTTTGCGTAAGCTG +TGCCGGTCTTTTTATCGAAAGAGGTTGTACAAAATTATGACATCGCTGGTCGTTCCTGGTCTGGATACGC +TGCGTCAATGGCTCGATGACCTGGGGATGAGTTTTTTTGAATGTGATAACTGTCAGGCTCTGCATCTGCC +CCATATGCAGAATTTCGACGGTGTCTTTGATGCCAAAATCGATCTGATCGATAACACGATCCTGTTTTCT +GCCATGGCGGAAGTCCGACCTTCAGCCGTATTGCCGCTGGCGGCGGATTTATCTGCCATCAATGCCAGTT +CGCTGACCGTGAAAGCATTTCTTGATATGCAGGATGATAATCTGCCAAAGCTGGTGGTTTGCCAGTCTTT +ATCCGTTATGCAGGGCGTAACCTATGAGCAGTTTGCATGGTTCGTGCGTCAGAGCGAAGAGCAGATTTCG +ATGGTCATTCTTGAAGCTAATGCCCATCAACTGCTGTTACCGACTGATGATGAAGGGCAAAACAACGTTA +CCGAAAACTATTTCCTCCACTGATAACTCCTTTCGAGCACGCAGTCGCTGGTGCAGTGGCTGCGCGCTGC +AAAATTATCTGCTGTTTTTAACCTTTTCTTAAAGATTATTTCACTTCTCTTGTGTCGATTTGGCTTTATC +ACATAGAGCAAATATGCATAAAAATTTGTTAAATACCGTTTTTTAATCCGAGCTATAGTCTCAAACCCTG +GCTAAAGTTATTCTTGCGATGCTTTTATATAGCGAGCAGTGCTGGCCGGGAGAAAGTTCTCTTTTCTTAC +ACCGCGCCGATAAAAAATATGCACGTTTATTGCATATCTTTCAGTGTGACAACTTTTGTTCGTTTGTTAA +CGAACTTTCAGAAGGAAAGAGATATGACCGCCTTAAATAAAAAATGGCTATCGGGTCTGGTTGCGGGTGC +TCTGATGGCCGTCTCTGTCGGCACGCTCGCGGCTGAACAAAAAACACTCCACATTTATAACTGGTCTGAT +TATATCGCCCCGGACACGGTGGCCAATTTTGAAAAAGAAACCGGTATTAAAGTCGTCTACGATGTTTTCG +ACTCTAACGAAGTACTGGAAGGCAAATTAATGGCCGGGAGTACCGGCTTTGATCTGGTGGTTCCATCTGC +CAGCTTTCTGGAGCGCCAGTTGACTGCGGGAGTTTTCCAGCCGCTGGACAAAAGCAAATTGCCGGAGTGG +AAGAATCTCGACCCGGAACTGCTGAAGCTGGTCGCCAAACACGATCCCGACAATAAATTTGCTATGCCCT +ATATGTGGGCGACGACCGGGATTGGCTATAACGTTGATAAAGTTAAAGCGGTGCTGGGCGAAAACGCGCC +CGTCGATAGCTGGGACTTGATCCTCAAACCTGAAAATCTGGAAAAACTGAAAAGCTGCGGTGTCTCTTTC +CTGGATGCGCCAGAAGAAGTTTTTGCTACCGTGTTGAATTATCTCGGCAAAGATCCCAACAGCACTAAAG +CGGATGATTACACCGGACCGGCAACAGATCTGCTGTTAAAGCTGCGCCCGAACATTCGTTATTTCCATTC +ATCTCAATACATTAACGACCTGGCAAACGGCGATATTTGCGTCGCTATCGGCTGGGCAGGTGATGTCTGG +CAGGCGTCAAACCGCGCGAAGGAAGCGAAGAATGGCGTGAATGTCTCGTTCTCGATTCCAAAAGAAGGGG +CGATGGCGTTCTTTGATGTATTCGCCATGCCTGCGGATGCCAAAAACAAAGACGAAGCCTATCAGTTCCT +GAATTACCTGCTGCGCCCGGATGTAGTAGCGCATATTTCCGACCATGTGTTCTATGCCAACGCCAATAAA +GCAGCCACGCCGCTGGTGAGTGCGGAAGTCCGTGAGAACCCAGGTATTTATCCGCCTGCGGATGTTCGTG +CGAAGCTGTTCACTCTGAAAGTGCAGGATCCGAAAATCGACCGTGTGCGCACCCGCGCGTGGACCAAAGT +GAAGAGCGGAAAATAATCCGCAGTCGTAGATGCCGGAGGGGCGCACCACACCCGCCGGCAATTCGCACCA +TTATGGTGCGCTTGCACACATTCAATGCCGGAGAGCAGCCGTGAATGACGCTATCCCTCGCCCGCAGGCG +AAAACCCGTAAGGCGCTGACGCCGCTATTAGAAATCCGCAACCTGACCAAATCCTACGATGGTCAACATG +CGGTGGATGATGTCAGCCTGACCATCTACAAAGGTGAAATCTTCGCGCTGCTGGGCGCATCCGGCTGTGG +CAAGTCCACGCTGCTGCGTATGCTGGCAGGTTTCGAACAACCTTCTGCCGGACAGATAATGCTTGATGGC +GTCGATTTGTCACAGGTTCCGCCTTACCTGCGCCCCATCAATATGATGTTTCAGTCTTACGCGCTGTTTC +CGCATATGACCGTGGAACAGAACATCGCTTTTGGCCTGAAACAGGACAAACTACCGAAAGCGGAAATTGC +CAGCCGGGTCAATGAGATGCTCGGCCTGGTGCATATGCAGGAGTTCGCCAAACGCAAACCGCATCAGCTT +TCCGGTGGTCAGCGACAACGTGTGGCCCTGGCCCGAAGCCTTGCGAAGCGCCCGAAACTATTACTGCTCG +ATGAGCCGATGGGCGCGCTGGATAAAAAGCTGCGTGACAGGATGCAGCTTGAAGTGGTGGATATTCTGGA +GCGCGTCGGTGTGACTTGTGTGATGGTCACCCACGATCAGGAAGAGGCGATGACCATGGCGGGGCGCATC +GCCATTATGAATCGTGGGAAATTTGTCCAGATTGGCGAACCGGAAGAGATCTACGAGCATCCGACTACCC +GCTATAGCGCCGAATTTATTGGCTCGGTAAACGTCTTTGAAGGCGTACTCAAAGAGCGTCAGGAAGATGG +CCTGGTGCTTGATTCGCCGGGGCTGGTGCATCCACTGAAAGTCGACGCGGATGCCTCGGTGGTCGATAAC +GTGCCGGTACATGTGGCGCTGCGCCCGGAAAAAATCATGCTTTGCGAAGAGCCGCCCGCCAATGGTTGTA +ACTTCGCGGTGGGGGAGGTGATACACATTGCCTATCTCGGCGATCTTTCGGTGTATCACGTTCGTCTGAA +AAGTGGGCAGATGATTAGCGCCCAGCTACAAAACGCCCATCGTCATCGTAAAGGGTTACCGACCTGGGGC +GACGAAGTGCGTTTGTGCTGGGAAGTGGACAGCTGTGTGGTGCTGACGGTTTAAGGAGCAAAGATGAGTA +CACTTGAACCTGCTGCCCAGTCGAAACCGCCGGGCGGATTTAAGCTGTGGTTGTCGCAGCTGCAAATGAA +GCATGGGCGCAAACTGGTCATTGCGTTGCCATATATCTGGTTGATCTTGCTGTTTCTGCTGCCATTTCTG +ATTGTCTTTAAAATAAGCCTGGCGGAGATGGCGCGCGCTATTCCACCTTATACCGAACTGATGGAGTGGG +CTGACGGGCAACTGTCCATCACTCTTAATCTCGGTAATTTTCTGCAACTGACCGACGATCCGCTCTATTT +CGATGCTTATCTCCAGTCGCTACAGGTGGCTGCGATTTCGACATTTTGCTGTTTACTGATCGGCTATCCG +CTGGCGTGGGCGGTGGCGCACAGTAAGCCTTCGACCCGTAATATTTTATTACTACTGGTGATCCTGCCGT +CGTGGACCTCGTTTCTGATCCGCGTTTATGCCTGGATGGGAATATTAAAAAACAACGGTGTGCTGAATAA +TTTTCTGCTGTGGCTGGGGGTTATCGATCAACCGCTGACCATTCTGCATACCAATCTGGCCGTTTATATC +GGCATTGTTTACGCTTACGTGCCGTTTATGGTACTGCCGATTTATACCGCGTTGATTCGTATTGATTATT +CGCTGGTGGAAGCAGCGCTGGATCTCGGTGCACGACCGCTGAAAACGTTCTTTACTGTGATCGTGCCGCT +GACTAAAGGTGGGATTATTGCCGGATCGATGCTGGTGTTTATCCCGGCTGTGGGCGAGTTTGTGATCCCG +GAACTGCTCGGTGGCCCGGACAGCATCATGATCGGGCGCGTGCTATGGCAAGAGTTTTTCAATAACCGCG +ACTGGCCGGTGGCCTCGGCGGTAGCGATCATCATGTTGCTGCTGCTAATTGTGCCGATAATGTGGTTCCA +CAAACACCAGCAAAAAAGCGTGGGAGAACACGGATGAATAATTTACCGGTAGTTCGTTCGCCCTGGCGGA +TTGTGATTTTGCTGCTGGGCTTTACCTTTCTCTACGCGCCAATGCTGATGCTGGTTATCTATTCGTTTAA +CAGCTCGAAGCTGGTGACGGTGTGGGCCGGCTGGTCAACGCGCTGGTATGGTGAGTTATTGCGCGATGAC +GCGATGATGAGTGCGGTTGGTTTAAGTCTGACAATTGCGGCCTGTGCGGCGACGGCGGCGGCGATCCTCG +GAACTATTGCGGCGGTGGTGCTGGTGCGCTTTGGCAGGTTTCGCGGATCAAATGGCTTTGCCTTTATGAT +CACCGCGCCGCTGGTAATGCCAGATGTCATCACGGGCTTGTCGCTGTTGTTATTATTCGTCGCGCTTGCT +CATGCCATTGGCTGGCCTGCGGACCGCGGTATGCTCACCATCTGGCTGGCGCATGTCACTTTTTGTACGG +CTTATGTGGCGGTCGTTATTTCTTCAAGATTGCGGGAACTGGATCGCTCGATAGAAGAAGCAGCGATGGA +TCTCGGTGCGACGCCGCTGAAAGTGTTTTTCGTCATTACGCTACCGATGATCATGCCCGCGATCATTTCT +GGCTGGTTACTGGCTTTTACTTTGTCGCTTGATGATCTGGTGATCGCCAGCTTTGTTTCCGGGCCGGGAG +CCACCACGTTACCGATGCTGGTCTTTTCCAGCGTGCGGATGGGGGTGAATCCGGAAATCAACGCCCTGGC +AACATTGATCCTCGGCGCGGTCGGAATTGTCGGATTTATCGCCTGGTATCTGATGGCTCGCGCAGAAAAA +CAGCGGATACGCGACATCCAGCGTGCAAGACGTGGCTGAAGACACTAAAATTTGCCAACCTGGCTACATA +ATGCCGCGCATGTCGCGGCATTGTTTTCATGGAAGACGAAACGTTGGGATTTTTTAAGAAAACATCTTCA +TCTCATGCTCGCCTGAATGTGCCTGCGCTGGTGCAGGTGGCGGCGCTCGCCATTATTATGATCCGTGGCC +TCGACGTGCTGATGATTTTCAATACGCTGGGCGTGCGCGGTATTGGCGAGTTCATTCATCGCAGCGTACA +AACCTGGAGTTTAACGCTGGTCTTTTTAAGCAGTCTGGTGCTGGTTTTCATTGAGATCTGGTGTGCGTTT +TCACTGGTGAAAGGGCGTCGCTGGGCGCGCTGGCTATATCTGCTGACACAAATCACCGCCGCAAGTTACT +TGTGGGCGGCTTCGCTGGGGTACGGTTATCCGGAGCTGTTCAGCATTCCCGGTGAATCAAAACGTGAAAT +CTTCCATAGCCTGATGCTGCAGAAGCTGCCGGATATGCTCATCCTGATGCTGCTGTTCGTTCCCTCGACC +AGTCGGCGGTTCTTCCAGTTGCAATAATGTGTATAATCGTCGCCCCTGATGATGTGAAGGTCAATGTATG +CAGTGCGCACTTTACGACGCGGGTCGCTGTCGTTCCTGTCAGTGGATAATGCAGCCGATTCCAGAGCAAC +TCTCCGCTAAAACCGCCGATCTTAAAAATCTGCTCGCCGACTTTCCGGTTGAGGAATGGTGCGCGCCGGT +GTCAGGCCCGGAACAAGGGTTTCGTAATAAAGCCAAAATGGTGGTGAGTGGTAGCGTTGAAAAACCACTG +CTCGGTATGCTGCATCGCGATGGCACACCAGAAGACCTTTGTGACTGCCCGCTTTATCCTGCCTCATTTG +CGCCCGTTTTTGCGGCGCTAAAACCGTTTATCGCCCGAGCGGGGTTAACGCCCTACAACGTGGCGCGTAA +GCGTGGCGAACTGAAATACATTCTGCTGACTGAAAGCCAGAGTGATGGAGGCATGATGCTGCGCTTTGTA +CTGCGTTCTGATACCAAGCTGGCGCAACTGCGTAAGGCGCTGCCGTGGTTACACGAACAACTACCGCAGC +TGAAAGTTATTACCGTCAATATTCAGCCGGTACATATGGCGATTATGGAAGGGGAGACGGAGATCTACCT +GACCGAACAACAGGCACTGGCGGAGCGTTTTAATGACGTACCGCTGTGGATCCGTCCGCAAAGTTTCTTC +CAGACTAATCCGGCGGTCGCCAGCCAGTTGTACGCCACCGCGCGCGACTGGGTACGACAGCTGCCGGTTA +AACATATGTGGGATCTGTTCTGCGGTGTGGGGGGCTTTGGTTTACACTGCGCGACGCCTGACATGCAGTT +AACCGGGATCGAAATTGCATCAGAGGCCATTGCCTGTGCAAAGCAGTCAGCCGCTGAACTGGGCTTAACG +CGTTTGCAATTTCAGGCGCTGGACTCCACTCAGTTTGCCACCGCTCAGGGGGATGTGCCGGAGCTGGTGC +TGGTTAACCCGCCGCGCCGCGGCATTGGTAAACCGCTGTGTGATTATCTCTCAACGATGGCACCGCGTTT +TATCATCTACTCCAGCTGTAACGCCCAAACTATGGCGAAAGATATCCGCGAACTGCCTGGGTTTCGTATT +GAACGGGTGCAGCTTTTCGATATGTTCCCGCATACCGCGCACTATGAAGTGCTGACGCTGCTGGTGAAGC +AATAAAAAAGCCGCATGTGCGGCTTCAGATTGCTGACAAAGTGCGCGTTGTTTATGCCGGATGCGGCGTA +AACGCCTTATCCGGCCTACAAAAGCGTGCAAATTCAATACATTGCATGGGCCATGTAGGCCTGATAAGCG +TAGCGCATCAGGCAATTTTACCTTTGTCATCAGTCTCAAGCCGCGGTTGCGGCTTTCTGAATCTTACTGT +GGGAACCACTGGTCACTGATTTTTTGATAAGTACCGTCAGCTTTAATTGCTGCCAGCGCGTTATTCAGTT +TTTCCAGCAGGGCTTTGTTATCCGGACGTACAGCGATGCCCAGGCCGGTGCCAAAATATTGCGGATCGGT +CACTTTCTCAGTAGCAACACCAAGTTGTGGATTGGTTTTCAGCCATTCGTTTACCACCGCTGTGTCACCA +AATACCCCATCAATACGACCATTTTTCAGATCGATAAAGGCATTCTGATAACTGTCATAAGAGACAGTTT +TCACTTCCGGGTGCTGATCCTGAATATATTTCTGGTGCGTAGTACCGTTTTCCATCCCAATACGTTTGCC +TTTCAGATCGGCAAACGTTTTGTAGGTATCTTTTTTGGCAATCACGACGGCTGAGTTTTCATAGTAGGGC +GTGGTAAACGATACCTGTTTGCTACGCTCCGGGGTGATATCCATACCGGAGATTACGGCGTCATATTTTC +TGAATTTCAGGGACGGGATCAGGCTGTCGAACGCGTGATTAGTAAAAGTACATTCTGCCTGCATTTGTTT +GCACAAGGCTTTTGCCAGATCGATATCAAAGCCGACAATCTCATTATTAGCACCTATAGATTCAAAGGGT +GGATAGGTGGCTGAAACGCCAAAATTGATTTTCTCTGCGGCAGAAGCACCGAAAGTAAAGGAAGCAAGTA +AAGCGGCAAGAACTAACTTTTTCATGATGGAACTCCCGTCTGTCAATCTTATGATTTTTGGCCGTGTCTG +CGGCATGGGATAACAATGCCATCAAGTGAATTTATATGCAATAAACATGATTAAATAATTTAAATGAAAT +AAAAAAGACGGACAACTTAGTGGGTTGTCCGTCTTCATTATAAGAATTTATGCACTATGTAGGCCGGATA +AGGCGTCCCCGCCGCATCCGGCACAGGCACCGTGCTGATGTCTGATGCGACGCTGGCGCGTCTTATCAGA +CCTACAAAACCCCCCGGCGAATGTACGCAGCCACATTAATTTCGCCGTTCGAATGCCAGCGCTTTGCGCT +CGATCAGACGCATCATCAGCGTCAGCAGGCCGTTAACGACCAGGTAAATAATCCCTGCCGCACCGAACAC +CATTACATCGTAGGTGCGTCCGTACAACAACTGGCTGTATCCCATCACTTCCATCAGCGTAATGGTGTAT +GCCAGAGAGGTACTTTTGAATACCAGCACCACTTCGTTGGAATAAGAAGAGAGCGAGCGTTTAAAGGCAT +ACGGCAGCAGGATCGCCAGCGTATCTTTTTTGCTCATTCCCAGGGCGCTACAGGACTGCCACTGACCTTC +CGGGATCGCACGAATTGCACCGTAAAACAGCTGCGTGGTATACGCCGCACTATTCAGCGACAACGCAATC +AGCGCACATAACCACGGTTCTGACAACAAATGCCACAGTGCCGGATACTCCTGCAAAGTCGGAAACTGGC +CCGGCCCGTAATAAATCAGGAAGATCTGCACCAGCAGCGGCGTACCGGTAAACAGCGTGATATAACCCCG +CACCAGCCACACCAGCACCGGCGTTTTCAGCGTCAGGATGATGGTAAAAATCAATGCCAGAATCAGTGCC +ACAATCAGCGAGGCAACGGTTAGCGTCAGGCTGGTGTGTAGCCCTTTCATCAGTTCGGGTAAATACTCAA +ACATTAGCTGGGCCTCCGCTCAAAACGTGTCGCGCGCAGGTCAATGCGTTTGAGAATGTACTGACTGAGC +AGGGTGATCACCAGGTAAATCGCCGCCGCCACAATGTACCAGGTAAATGGTTCCTGGGTACGAGTAGCGA +TGCTTTTTGTTTGCAGCATTAAATCATTCACACTAATCAAACTGACCAGCGCGGTATCTTTCAGCAGCAC +CAGCCACTGGTTACCGAGGCCAGGCAGCGCATGACGCCACATCTGCGGCATCACCAGACGGAAAAAGATA +GCCGATTTCGACAGCCCCAGCGCCTGACCAGACTCCCACTGACCCACCGGCACCGCTTTCAACGCGCCCC +GAAGCGTTTGCGAGGCATAGGCGGCATACAGCAGTGACAGAGCGATGACACCACAAAGGAACGGGCTAAC +GTCGAAGTTCTCAATGTCCATCTGCACTGGGATCTGCACGAACCCAAGATTGATAGTGAAGCCATCCGAA +AGCGTCAGCAGCAGCTGCGAGGAGCCAAAATAGATAAACAGCACCACCAGAATTTCTGGCAGGCCACGCA +GAATGGTTACCAGCGCTGAACCTGCCCACGCGACAGGACGCCATTTTGCCGACTCCCATACCGCAAAGAA +CATCGCCAGCGCCAGCCCGACAATCAATGCACAAACGGCAAGGCCGACGGTCATCCCGGCGGCGCTTGCT +AAAGGAAAAAATTCATTCATCAGGAATTACTTCTGGAACCATTTGTTGTAGATGGTTTCGTAAGTGCCAT +CTTTCTTCACTTTTTCCAGCGCAGTGTTGAGTTTCTGCTGCAGCTCAGTGTTGCCCTGACGTACCGCGAT +GCCGAGGCCAGTGCCGAAGTAATCTTTATCGGTCACTTTGTCGCCCACCGCCGCCAGTTTCGGGTTATCT +TTCAGCCACTCAGTGACCACTGCGGTGTCACCGAAGACGCCGTCGATACGCCCGTTTTGCAGATCCAGTT +TTGCGTTCTGGTAGCTGTCATACGGAACGGTAGTGATTTCCGGGTGCTTATCCATAATGAATTTCTGGTG +TGTCGTCCCGTTCTGTACGCCGACTTTTTTGCCTTTCAGCTGATCAACACTGGTGTATTTGCCTTGCTGA +CCCACAAACAGGGCAGAGTTGTCATAGTACGGGGTGGTAAACAGCACCTGCTTTTCACGCTCCGGAGTGA +TATCCATGCCCGCCATCACGGCTTCTACGCGACGGAATTTCAGGCTTGGGATCAGGCTGTCAAACGCCTG +GTTAGAGAAAGTGCAGGTTGCATCAATCTCTTTACACAGCGCTTGTGCCAGGTCGACGTCAAAACCAACG +ATCTGGTTGTTTGCATCAATCGATTCAAACGGAGGATAGGAGGCTTCGGTAGCAAAACGAATGGTTTCGG +CAGCTGTGGCGGAAAGACTAAAACCTGCAATTAACGCGGCAATCAGAACTTTTTTCATTGTTGTTATCCC +GAATCTTAGTGAGAGAGATAGTTTTTAAATGCTTCGGTTTGCGGCTCGGTAAAGCAGCTCGCGTCGCCTT +GTTCTACGATATGACCATTTTCCATATACACCACTCGGCTGGCGGTTTTACGCGCCACTTCAACTTCGTG +GGTGACGATCACCTGGGTAATATTCGTTTCTGCCAGCTCACGAATGATGCTGACGATTTGTGCCGTAATT +TCCGGGTCCAGTGCGGCGGTCGGTTCATCGAACAGCAGTACCTGCGGTTCCATCATCAACGCACGGGCAA +TAGCAACACGCTGCTGCTGACCACCAGAAAGATGCAGCGGGTAACGATCGCTATAAGGTTTGAGACGCAG +ACGTTCCAGCAGTTTTTCTGCACGGGCCAGCGCCTGATCTTTACTCAACCCCAGTACACGGCAGGGCGCT +TCAATCAGGTTTTGCTGCACGGTCAGATGCGGCCACAGGTTGTATTGCTGAAACACCATGCCAACGTTAC +GACGCAAATCGCGAATCGCTTTGTCAGAGGGTGTTTTGGTGAAATCGAAATGGTTGCCTGCAATGTTGAG +CGTACCGGAGCGCGGCATCTCAAGCAGATTGAGTACACGCAGCAGCGAGCTTTTACCCGCGCCGCTGGGG +CCAAGTAACACCAGCGTTTCGCCCTGTGGGCAATCCAGCGTGATATCGAACAGCGCCTGATGCGCGCCGT +AGAAGCAATTAATGCCGTTTAATTGAATACTCATTGACACTCGTATACTGGCAGTCTGATAGCTATTGAG +GTCGAAGATAGTACCTTTGACAGAATAATTATGCAATATTTCTGCTTTAAAAGTTAAAAGCAAAGCGCAT +TATTCAATAAACATAGCACAAAATAACGGGGGCGGTGGTCGGCGAGCATAAATGTCGGCATTCCTCACGA +AATGCCGGACAATTTACGGGGTTTATTGGTTGATCAAGGCGTTAGCGATTCTCGATGGACTGACGGAGCG +TACCCGCCGTGGCATGAACGCTACCGCCTAAGTAACGCACATCGTCGATGACCCAACACTGGCCTTCCTG +AATCATTAACACTTCATCCTGCCAACCCTGGTCACCCTGTTTGAGATCCACGCGCAATGGAATGTTACGG +GCATCACGATTAGGGATAGTCGATGCACTGGCAACGTGGGCGCTATCTGGCAAGGTGGTTCGACTGGAGA +ATGGATCGTTGGTCAGTAGTTCCCGATGGTTATTATCCCGGGAGGCATCGCTAAGCAGTGTCGCCAGTTT +GTCGCTCAGATAAGGGCGCAAGGCGGTGATGTCGTTGCTGCGGTGCAAAATGCGGTAGTCATAAAATTGC +TGGGCCACGTTATCCGGGCCTCCTTCAACGCAAGGACCACTGCGTGTGCCGTTATCTTTATAAGCTGGAG +TGACTGTGGTGCAGGCACTGAGGAGCAGTGCGCAGGGGATAAGCATTGTCAATTTGCTGTAGCGCATAAT +GATTTCCTTATAAGCGATCGCTCTGAAAGCGTTCTACGATAATAATGATATCCTTTCAATAATAGCGTAT +CAGTCTGATAATGCTTTTGAGATCGAAGGCTTAGCAAACAAGGAGATCGATCATGCAATTTTCTACAACC +CCAACTCTGGAAGGCCAGACCATCGTTGAATATTGCGGTGTGGTGACCGGCGAAGCGATTTTAGGTGCCA +ATATTTTCCGTGATTTCTTTGCCGGTATCCGCGATATCGTTGGCGGACGTTCCGGTGCGTATGAAAAAGA +ACTGCGTAAAGCACGGGAGATCGCCTTTGAGGAATTAGGCTCCCAGGCGCGGGCGCTGGGGGCCGATGCC +GTCGTCGGTATTGATATCGACTACGAAACGGTCGGGCAAAACGGCAGTATGCTGATGGTTAGCGTCAGCG +GTACGGCGGTGAAAACGCGTCGATGAGAAGATTCTTCTGGCTGGTCGCTGCCGCTCTGTTATTGGCAGGG +TGTGCAGGCGAAAAAGGCATTGTCGAGAAAGAGGGATATCAGCTTGATACCCGACGCCAGGCGCAGGCGG +CGTATCCGCGCATTAAAGTGCTGGTGATCCACTACACCGCAGATGATTTTGATAGCTCGCTGGCGACACT +GACCGATAAGCAGGTCAGCTCGCATTATCTGGTCCCTGCGGTACCACCGCGATACAACGGTAAACCGCGC +ATCTGGCAACTGGTGCCGGAACAAGAACTGGCCTGGCATGCGGGGATTAGCGCCTGGCGCGGGGCAACGC +GCCTTAACGACACCTCTATTGGCATTGAGCTGGAAAACCGTGGCTGGCAAAAATCGGCCGGAGTGAAATA +TTTTGCCCCGTTTGAACCGGCACAGATTCAGGCGCTTATTCCACTGGCGAAAGATATTATTGCCCGTTAT +CACATCAAGCCGGAAAACGTAGTGGCACATGCGGATATCGCACCGCAGCGCAAAGACGATCCGGGGCCAT +TATTTCCCTGGCAGCAACTGGCGCAGCAGGGGATTGGTGCCTGGCCGGATGCGCAGCGGGTTAACTTTTA +CCTTGCCGGGCGCGCGCCGCACACACCGGTAGATACCGCGTCATTGCTGGAGCTTTTGGCGCGCTACGGT +TATGACGTTAAACCTGATATGACACCGCGCGAGCAGCGGCGCGTGATTATGGCATTCCAGATGCATTTCC +GCCCGACGTTATATAACGGCGAAGCGGATGCAGAAACTCAGGCGATTGCCGAAGCATTGCTGGAGAAATA +CGGGCAGGATTAGCGCGGCAGTTTTCCGTGGTCGCGTAGCCAGGCGGCAGTTTTCTCGATACCTTCATCC +AGGGTGATGACCGGCTGATAACCTAACTCTTCCTGCGCACGCGTAATATCCAGCGTAAAGTCAAAATTCA +ACTTGGAGACGCCGTAGTGGGTCAGCGGCGGCTCTTTTGCTGACTTGCGGCCTAAACGCTCCATGCTGCG +GGCGATCATATCCAGCATCGGGTAGGGGACGGAACGAATACGACAGTCAATATTCAACTCGTCGATCAGC +TTCTGCACGATGCTGCGCAGTGTGCGATGCTCGCCGTTGGTGATGTTGTACACACGCCCGGAAGGTAGCT +TATCGCAGGCTTCCTGGCTTGCCAGCCACATTGCGTGCACGGCATTTTCATAGTAGGTCATATCGACCAG +CGCACTGCCGCCATGCGGTAACAGAATACTGCCGTAGTGGTGCATCATATGCGCCAGACGGGGAATAAAG +ACTTTATCGTGCGGTCCGAACAGACTTTGTGGGCGCAGAATAGTAAAGCGCGTTTGTGGATTCGCCTGCG +AAAGCATATTGATCACTTCTTCGCTGGCTGCTTTGCTGCGGGCAAACTCGTTGGCGAAGCGGTGAGGGCG +AAAATCTTCTTTAATATCGCGATGGTGGTGATAATCGAAGTACAGGGAGGGGGAAGAGATATGAATAAAG +TTACGCACACCCCAGGCGACAGCCCATTCACCCAGGCGGCGAGTGGCGCGAACGTTAGCCAGATCGAAAG +CCTGTTGTGTCCCCCAGGGTGAGGTAAAGCTGGAGCAGTGCCACAGCGTATCAATGCCCGCGAGCATCAC +TTTAGCTTGTGATGAAACCAGCTCGGTCAGATCCGCCGGAACAAACTCTGCGCCCATTTTTTCCAGCAAT +TTGCCCATTGCCTCGTTGCGACCGGTCGCTCGCACGCTGATGCCTTTCTGGCATAAAAACTCTACCGCGT +TTCGACCTAAGCCGCTGGTGGCGCCGGTAACCAGTACCTTCATATCAATCCACTGTTGTTGAGAAAATAA +CGTGCGCATTCTTCCGTGATTTCCCCCATGATGCAATGGGAAACATGAAAGAATAACGCAGGTTTTGTCG +ATTAATCTGTGCTTTGTTCTGCCAGTCTGGCGATTTGTTTTGCCATTCCGCGAAAAATAAACAGATGCGC +GGGGATCATCAATAACCAGTAAAACAGCCCCGGCATACCGTGCGGATGCCAGAAAGCGCGGACATCGATA +GTACGATAGTCGCCTTTATCTTCCAGGCTAAAACACAGTCGTCCCAGCCCCGGCGCTTTCATGCCAAATA +ACAACGTAAGTTGTTTTTCCGGTTCAACGACAATCACTTTCCAGCTATCCACCGCATCGCCAGTCTGTAA +ATATTCGCGCTCCGGGCGGCCTTTCGCCAGCTTATGACCGATCGCGCGGTCCATCAACGCCCGTGTCTGC +CACAAAATATTGCCAAAGAAATAACGCTCTTTACCGCCGATTTGGTTCACTACCTGCCATAAAGCAGCAA +GGCTGGCGGACGTTTTAACGGTAAACCCCGCCTGTTTGGCAAAATAACCGTACTCCGGTCGCCAGCGGGC +AAAGGCCTGAGCGTCGTAGCCCCAGTCGCTGGAGTTGACCAGTTTTTCCTCCTCTTTCAACGTGCTACGT +ACCGCGTCATCGAAAGCGATCAGCCGTTGTGGGATGAGTGCACGTAGCGCGGTATCATCCGCCAGCAGAT +CGTGTTTCAGCCCCTGAATCAACGCCCTGGCGGTGGTGGGCGGTACGGAAGTAATCACATTGAGAAACCA +CACCGAAATCCAGCGGGTGGGGAGGGGGATGGGGATCAACCAGCGGCGCTTACCGCTCACCGCCATAAAA +TGTTCAAACTGTTGCTGATAACTGAGCACCTCTGGTCCGGCGGCTTCGAAGATGCGGTGTTCGCTGGCCG +GATGATCTAACAACGCAACCAGATAGTGCAGCAAGTTTTCCAGCGCAATGGGCGTGGTGCGTGAACGAAC +CCAGCGCGGAGGCGTTAAGACTGGCAGGTTGTAGACCATATCGCGCATGACTTCGAACGCCGCGGAACCT +GCGCCAACGATAATTCCGGCCCGCAGTTCGGTCACGGGTACATTCGCTTCACGCAGAATGTCCGCCGTAG +CCTGACGAGCACGCAGATGATCCGACTGCTCATGTGGCGGGGCCTGCAACGAACTAAGAAAGATTAATTG +CTTAACTGGTACTTCACGTAGCGCATCGCGGACGTTGAGAGCCACCTGGCGCTCCTGAGCGATAAAATCG +CCGCCTTCGCCCATGCTGTGCACCAGAAAATAGACCGTATCGATATCCTGCAACAGGGCCGGTAGGTTAT +CCGGCCAGCTGAGATCGACTTTATGGCAACTGACGTTTGCCAGTTGCAGCTTTGCAAGCCTGTCGACATG +ACGTGCCGCCGCCAGGATCTGATGCCCTTGCTGGCTGAGTGTGCGCACCAGATGCTGACCAATGTAGCCA +CTGGCACCGAGAACTAAAATGCGTTGCGGCACGTCTCTCTCCTTAACGCGCCAGGAATGCACGCCAGTGG +GCGGCGACTTCCGCCAGTTGTTCGCGCGAGACGTCAAGATGCGTCACCAGGCGGACAATCGGCGAGGCGT +TAATCAGCACGTTTCTCGCTTTCATGTATTCGCCTAACGCGGCAGCATTTTCTTCCCCGACGCGAACAAA +CAGCATATTGGTGTCCTGACGCATCACATCCGCGCCTGCTTCACGCAGCTGCTCCGCCATCCAGGCAGCG +TTGTCGTGGTCTTCCTGCAAGCGCGCAACGTTATTTTTCAGGGCATATATCCCGGCGGCAGCCAGAATGC +CGGACTGGCGCATCCCGCCACCTGTCATTTTCCGCCAGCGAATGGCACGTTTAATGTAATCACGATTACC +GACGAGTAATGAACCGACTGGCGTCCCAAGACCTTTCGACAGGCAAATGGTGAACGAATCACAATATTGC +GTGATCTCTTTCAGTTCGCAGCCGTAAGCCACCACGGCATTAAAGATGCGCGCACCGTCAACATGCAGCG +CCAGATTGCGCTCGCGGGTAAATTCCCATGCTTCTTTCAGGTATTCCCGCGGCAACACTTTGCCGTTGTG +GGTGTTTTCCAGACTGAGTAATTTGGTGCGGGCGAAATGGATATCGTCGGGTTTGATTTTCATCGCCACT +TTATCCAGCGGTAGCGTGCCGTCGGCAGCCGCGTCTATGGGTTGCGGTTGAATACTGCCCAGCACCGCCG +CGCCACCGGCTTCAAACAGATAGTTATGCGCGGCCTGACCGACAATATACTCTTCGCCGCGTTCGCAGTG +ACTGAGCAGAGCGACCAGGTTGGCCTGAGTGCCGGTAGGCAGAAAAATGGCGGCTTCTTTACCGGAAAGC +TCTGCTGCGTAGTCCTGCAGAGCATTAACGGTAGGGTCGTCTCCGTAAACGTCGTCCCCAACCGGGGCGG +CCATCATCGCTTCGAGCATGGCGCGGCTTGGTCGGGTAACGGTATCACTGCGTAAATCAATCATGGCATG +TCCTTATTATGACGGGAAATGCCACCCTTTTTACCTTAGCCAGTTTGTTTTCGCCAGTTCGATCACTTCA +TCACCGCGTCCGCTGATGATTGCGCGCAGCATATACAGGCTGAAACCTTTGGCCTGTTCGAGTTTGATCT +GCGGTGGAATGGCTAACTCTTCTTTGGCGACCACCACATCCACCAACACCGGACCGTCGATGGAGAAGGC +GCGTTGCAGGGCTTCATCAACTTCAGACGCTTTTTCTACACGGATACCCGTAATGCCGCACGCTTCGGCA +ATGCGGGCAAAGTTTGTGTCGTGTAGTTCGGTGCCGTCAGTCAAATAGCCACCAGCTTTCATCTCCATCG +CCACAAAGCCCAGCACGCTGTTGTTAAAGACGACAATTTTCACTGGCAGTTTCATCTGCACTACTGAGAG +GAAATCGCCCATCAACATGCTAAAACCGCCATCGCCGCACATGGCGACCACCTGACGTTCTGGCTCTGTC +GCCTGCGCACCCAGCGCCTGCGGCATGGCGTTAGCCATCGAACCGTGGTTAAACGAACCTAACAGGCGAC +GCTTGCCGTTCATTTTTAGATAACGTGCCGCCCACACCGTTGGCGTACCAACGTCACAGGTGAAAATAGC +GTCATCGGCGGCAAAATGACTAATTTGCTGCGCCAGATATTGCGGGTGAATGGCTTTCTCGCTCGGTTTA +GCTAAATCGTCCAGCCCTTTGCGGGCGTCGCGGTAATCTTCCAGCGCTTTATCCAGAAACTTGCGATCGG +CTTTTTCTTCCACCAATGGAAGCAATGCACGCAGAGTCGACTTGATATCGCCGACCAGTGCCATATCCAC +CTTGCTGTGAGCGCCGATGCTGGCTGGGTTGATATCAATCTGAATGATTTTGGCATCGGTCGGGTAGAAG +GCGCGGTAGGGAAATTGCGTGCCGAGTAGCACTAACGTGTCGGCGTTCATCATGGTATGGAAACCTGACG +AGAAGCCGATTAACCCGGTCATTCCAACATCATACGGATTATCGTATTCGACATGTTCTTTACCGCGCAG +GGCATGAACAATAGGCGCTTTAATTTTCCCGGCAAACTCAACTAACTCTTTATGCGCCCCCGCGCAGCCG +CTGCCACACATCAGGGCGATATTGCTGGAATAACGCAGCAGTTGCGCCAGTTTGCGTAACTCTTCTTCTT +CCGGCGTCACGACTGGTTGTGGCGCATGATACCAGTGCATGGTTGCCCCTTCTGGCGCAGGTTTTAACGC +CACGTCGCCTGGTAACACGACAACCGAAACGCCACGGTTAAGCACCGCTTTGCGCATGGCAATCGCCAGT +ACTTGTGGGATCTGCTCCGGGCTGGAAACCAGCTCGCAATAGTGACTACATTCGCGGAATAGCTCTTGTG +GGTGGGTTTCCTGGAAATAGCCGCTGCCAATTTCGCTGGAGGGAATATGAGCGGCAATCGCCAGTACCGG +AACGTGATTGCGGTGGCAATCGAACAGGCCGTTGATTAAGTGCAGGTTGCCGGGGCCGCACGATCCGGCG +CAGACCGCCAGTTCTCCGCTAAGTTGTGCTTCAGCGCCAGCGGCAAAGGCCGCCACTTCTTCGTGGCGGG +TGGACATCCACTCGATGGTGCCCATGCGATTAAGACTGTCACTAAGACCGTTCAGAGAGTCGCCTGTGAC +TCCCCAGATGCGTTTCACCCCTGCCGATTCGAGTGTTTTGGCGATATAAGCTGCAACCGTTTGTTTCATG +GTTCTCCATCTCCTGAATGTGATAACGGTAACAAGTTTAGTTCATCTGACGGAGGGGGAAGGGATGGGAG +AGAAAGGAGGCACTAACGGTTAAATAGCCCGATGAAAGGAATATCATCGGGCATAAGGCGATTATGCGAG +AACCAAATCCCCCTGCGGATGGCAGGAGCAGGCCAGTACGTAACCTTCAGCGATTTCGGCGTCGGTCAGC +GTCATTGTGCTGCTCACCGTATATTCACCGGAAACCACTTTTGTCTTACAGCAGCCGCAAACACCCGCAC +GGCAGGCAGCGACAACCGGAACGTTATTGCTTTCCAGCGCCTCCAGTAGCGTGGTGCCAACCGGGGCGTA +AAATTCTCGTGCCGGTTGCAGTTTGGTGAATTTCAGACCGCTGGTCGCCGCTTCTGCTACTGGGGTGAAG +AATTTCTCTTTAAAGAAACGCGTCACGCCGAGCGCTTTCACTTCCTGCTCTACCCAATCCATATACGGAG +CCGGGCCGCAGGTCATCACGGTACGTGAAGCTAAGTCAGGTACACCTGCCAGCAGTTCGCGAGTGAGACG +ACCAGCGATAAAGCCTTCGGTAACGTTATTTTCTGCCACCAGCGTTACCGGATAGTTACGCCACTCATCG +GCGAAAATAACATCCTGCGGCGTACGCACGTTGTAGATCACCCGCACATCGGCCTGTGGACGGTTCTTCG +CAAGCCAGCGACGCATCGACATAATCGGCGTGACGCCGCAGCCTGCCGCCAGCAACAGGAATTTATCTTC +TGCTTTATCGTCGCAGGTAAATTCCCCCATCGCGTCCGAAAGCCAGAGATAATCACCGCGTTTTACATCG +CGCGTCAGCCACTGGGAGCCGACACCGTCATCAATCCGCCGCACGGTCAGGGTGATATATTCACTCACGC +CTGGCGTGGAGGAAATGGTGTAAGCACGCAGCGTTTCCGCTGAGTTTCGCACGCTGACCAGTGCATATTG +CCCGGCGCGATATGGGTAGTAATCGTGGCAAATCAGGGAAATCGTCCACACATCCGGCGTTTCTTGCGTA +ATGTGATGAACCTGCATCCGCCACGGGCATTGATTCGTTGGCATCGTCATCGACAAACTCCTTACGCGCT +CAACAGTTGCTTCATGTCTTCTTCAACAGTGGTGATAGAACGCAGGCCGAATTTCTCGTTCAGCACCGCC +AGCAGGTCTGGTGTCAGGAAACCAGGTGCAGTCGGGCCGGTGACGATATTTTTCACGCCCAGAGAAAGCA +GCGTCAGCAGAATGACGATCGCTTTCTGTTCAAACCAGGAGAGCACCAGCGACAGCGGCAGATCGTTGAC +ACCGCAGCCCAGTTTCTCTGCCAGAGTGACAGCCAGAATAATCGCTGAGTAAGCATCGTTACATTGACCT +GCATCTACCAGACGCGGCAGACCTTCGATATCGCCAAACTCAAGTTTGTTAAAGCGATATTTACCACAGG +CGAGGGTCAGGATCAGGCAGTCATCCGGCACGCTGGTGGCGAAATCGGTGAAGTAGTGGCGCTCGCCGCG +TGCGCCGTCACAGCCACCAAGCAGGAAGATATGACGCAGTTTTTCACGGCTCACCAGATCAATCAGCGTA +TCAGCAGCGCCAAGCAGCGTCTGGCGACCAAAACCCACGGTGATAAGGTGCGGAATTTCGCTGTACGGGA +AGCCTGCCATCTGTTGCGCCTGGGTGATAACCGCAGAGAAATCATCACCGTCCAGATGACGCACGCCAGG +CCAGCCAACAATGCTGCGGGTCCAGATACGATCGTCATAAGCGCCTACGGTTGGGTCGATGATGCAGTTC +GAGGTCATCACGATGGGGCCAGGGAAACGAGCGAACTCCACTTGCTGATTCTGCCAGCCGCTGCCGTAGT +TACCGACCAGATGCTTGAATTTACGCAGCTCCGGGTAGCCATGCGCAGGCAGCATTTCGCCGTGGGTGTA +GACATTAACGCCCGTGCCTTCGGTCTGTTCCAGCAGGTTGTAGAGATCTTTGAGATCGTGACCGGAAATC +AGAATGCATTTACCCGCCGTCGCTTTGACGTTGACCTGGGTTGGCGTCGGGTGACCGTATTTACCGGTTT +CGCCTGCATCCAGAATGCTCATCACTTTGAAGTTCATCTGGCCGATTTCCATTGAACACTCAAGAAGCGC +GTTCATATCGGCAGGCCAGGTCCCCAGCCACGCCATGATTTTATGGTACTGGGCATAAATATCGTTGTCG +TATTGACCGAGAACATGCGCGTGTTCCATATAGGCCGCCGCACCTTTCAGGCCATACAGGCACAGCAGAC +GCAGGCCGAGAATGTTTTCGCCAATCGCCGCTTTATCTTTGTTAGGGGTAAATTCTGCTGCCTGACGTTG +CAGCTCGCCGAGATCGTCGCTCACCAGTTGCAGGTCAGCCATCGGGTTATCGACGCGCGCGTTGGCATCT +ACAGCCAGGCATTGCGCTTTCAGCGCCTCGCGCAGGGCAATCGCTTCACGAGCGTAGCCGACAATACGCG +GAGAATCGAAGTTAACGTTGGTCAGGGTTGAGAAAAAGGCACGTGGCGCGAAGCTGTCAACATCGTGGTT +GATGATGCCGTATTCACGCGCTTTTACCGCCCAGGCAGAAAGCCCTTGCAGCGCCGCGATGAGTAAATCC +TGAAGGTCAGAAGTTTCCGCCGTTTTACCACACATCCCCTGCGCGTATGAGCAGCCGTTTCCTGCCGGAG +TACGGATAGTTTGTTCACATTGCACACAAAACATGATCACACCTTTTAAAGTTATATTTAATATACATGT +TTAAGGTTAAGACGCTTAACGCGGGGATAAAAGGGATTTTTCATGCAACTTTAAGGGAGATTGATTTAGC +GCAATTTTGGCGGCAGGGATCTACCGCCAGAGAGGTATTACGCAGAGAAAAAGGCGATGAGGATCGGCAC +TAACAGGCTAAGAATAAAACCGTGAACAATTGCCGCCGGGACCATATCCAGCCCGCCAGTACGTTGAAGA +ACGGGCAGGGTGAAATCCATTGATGTGGCACCGCATAAGCCCAGTGCAGTAGAGCGGCTGCGGCGAATCA +GCCCAGGGATCAACATAATAGCAATCAGTTCACGGGCCAGATCATTAAAAAACGCCGCGCTCCCGATTAC +CGGACCAAAAGATTCGGTCAATAAAATACCGGAAAGAGAATACCAGCCGAAACCGGAGGCCATTGCCAGC +GCGGTATTGATGGGGAGATCAAGAATAAAGGCGTTAATTAAACCACCAATTAATGAACTGACAACCACCA +CCACGGCGACAATCATTCCCCGGCGATTAAGGACAATCTGCTTTAAGGTCATGCCATTATTGCGCAACTG +AATACCAACGAGGAAAAGTAGCAAAATTAACGTGTATTCACTGGCTTCGGTCGCGTGTTGTAAGAAAGCC +AGTCCACTTAGACCAATGGCAAAACCAATCACTACTACGCCGCACAGTTTTAGCGACTCCAGCGCCATCG +CAATACGCGACGGGAGTTTTTCTTGCTGATGGTGGTTGCGCCACGGCAGGCCTCGCTCCAGCCACATCAG +GGCGGCAATATTACACAGTAAAATAACGGTAATACTGACGGCAGAATAATGCAGAATCGCCAACAGGTTA +CTGGCGAGGTTATCGAGAAACGCCAGACTGATACCCATAAAAAAGAGAATAAGGTAAACCATCCAGCTTA +ATAGCTGATTAATAACTTTTAACGCAGCTTGTTGGCGAAGCGGAATGAGGTAACCCACAATCAGGGGAAC +CAGAATGATTAACAGCCCAGAAAACATGAAAACCCAGTCCTTGCAAAGATGAAGTCGAAATGCGCGATGA +CACACTACTGAAAGCGGAAGGACGAGTAAAGTTGCAATTAAAAGGAAATGTTATGCATAAGGAGCAGTAG +AGTATTCGTTTTCATTTAAAGATATTCTTGCGCTTTAATTACAAACTGCACCGATGTTGGTGGCGTCAAA +ATCGCCGAGGCGTTCCCTGAAGGCCGGGGCAGCCCACATGGATGTGGGCTGAGGGCGCGTTTTACAGGGA +TGTTACCTCGCGCCCGACCCGGTAGCCGTAAGGGATAAGTCGAGGGCACCGCGCAGCGGCGATTTTGTTC +GCCAGAGCCCGGGGGTGCAGGGGGCGGCGGCGATTGGCCGCCCCCTGCGCGCTCCTTGCGCCAGTGGCAA +TATGTTGCTTAGCTCATGAAAGGAGCGCAACAAGATGATGAATCAACATATAACAACATCTTAAAAAAAG +GCCTGACATTACGCCAGGCCTTCTGCGTTAATTAATCACGCTTTTCCAGCAGGGTCCGGTAAATCAGACC +ACCGATAATGCCGCCGACAATTGGCACCACCCAGAAGAACCACAGTTGTTCTAATGCCCAGCCGCCCTGG +AAGATAGCAACCGCGGTGCTGCGCGCCGGGTTAACAGAAGTGTTAGTCACCGGAATACTAATTAAGTGAA +TCAGGGTTAAGGCCAGACCAATAGCGATCGGCGCAAAACCTGCCGGCGCGAATTTGTCGGTTGCGCCGTG +GATCACCAACAGGAAACCTGCACTCAATACCAGTTCAACTACCAGCGCGGAAAGCATGGAATAACCGCCT +GGTGAATGCTCGCCATAACCGTTAGAAGCAAAACCGCTGGCTGCCGCGTCAAAACCCGTTTTACCACTGG +CAATTAAATACAGCAGCGCCGCTGCAACAATACCGCCGACAACCTGGGCAATTACGTAGCCAACGACTTC +TTTTGCCGGAAAACGTCCGCCAGCCCATAAACCAATAGTGACCGCCGGGTTAAAATGACCACCAGAAATA +TGACCAACAGCAAAGGCCATCGTCAGAACGGTCAGACCGAACGCCAACGCCACGCCGGCAAAACCAATGC +CTAATTCCGGGAAGCCTGCGGCCAGTACAGCACTACCACAGCCACCAAAAACAAGCCAGAAAGTACCAAA +ACATTCAGCTGCTAATTTTCTGAACATATCCACCACAATTAAAAATTGACCCTGTGAAAAATATGGTCGT +TTTATAGGGTCGTCGTAAAAAAGTGACGACGGAAATAATGCGCGGCTATTTTAAAAACGAAGGCGAGTCA +TTCACCAGATAAATAAATCCAGTAAATTTGATTTAGGGCAACAGCGGGTTGCCCCATATAGTCATTTGTC +TGATTGACAGTGTAGTGCACGCAAAAGATTTAATCCTTTAGGCGTAATAAAAAATAATTTATCATGCTAA +TTATTTGATTTTGTTGTTTTTGCAGACTTATCAGCAAGAGGGAGTATAACGCGATTATTCGCTCATTTTT +CAGACATTTGCCATGCTTAAATGTGATGTCATCACGTATTAGCAAGGCCTTTCCCGTTATACTGCCAGCG +TAAAGGATAAGTCACATATTTCTGGAGGGGATATGATTCTTGAGCGCGTTGAAATTGTGGGTTTTCGCGG +TATCAACCGTTTGTCGTTGATGCTGGAACAAAACAACGTCCTGATTGGGGAGAACGCGTGGGGTAAATCC +AGCTTGCTGGACGCCTTAACTCTGCTGCTATCGCCAGAATCAGATCTCTACCATTTTGAGCGCGACGATT +TCTGGTTCCCGCCGGGAGATATCAACGGGCGAGAACATCATCTGCATATTATTTTGACCTTCCGCGAATC +GCTGCCAGGCCGACATCGGGTTCGCCGTTATCGGCCGCTGGAAGCGTGCTGGACGCCATGCACCGATGGC +TATCACCGTATTTTTTATCGTCTGGAAGGGGAGAGTGCGGAAGACGGCAGCGTGATGACACTGCGCAGTT +TTCTCGATAAAGACGGACATCCGATTGATGTCGAGGATATTAACGATCAGGCACGCCATCTGGTGCGTTT +AATGCCGGTGCTGCGCTTGCGTGATGCCCGTTTTATGCGCCGTATTCGTAACGGCACGGTGCCAAATGTC +CCTAATGTGGAAGTCACCGCGCGCCAGCTCGATTTCCTCGCCCGTGAGTTATCCTCACATCCGCAAAATC +TCTCTGATGGGCAGATTCGTCAGGGACTTTCCGCAATGGTACAGCTGCTTGAGCATTATTTCTCTGAGCA +GGGGGCCGGACAGGCGCGATATCGTTTAATGCGGCGGCGAGCCAGCAATGAGCAACGAAGCTGGCGCTAT +CTGGATATCATCAACCGGATGATTGACCGACCTGGTGGGCGCTCGTATCGGGTTATTTTGCTCGGCCTAT +TTGCTACTTTGTTGCAGGCAAAAGGCACATTGCGACTGGATAAAGACGCCCGTCCATTGTTGCTGATCGA +AGATCCAGAAACCCGTTTACACCCCATTATGCTTTCAGTTGCCTGGCATCTGTTGAATCTTCTGCCATTG +CAGCGCATTGCCACCACCAACTCGGGTGAGTTGCTTTCGTTAACGCCGGTAGAGCATGTTTGCCGACTGG +TACGTGAGTCCTCGCGCGTTGCCGCCTGGCGTCTGGGGCCGAGTGGCTTGAGTACCGAAGATAGCCGACG +CATATCCTTTCACATTCGTTTTAACCGTCCGTCATCGCTGTTTGCACGCTGCTGGTTGCTGGTGGAAGGG +GAAACGGAAACCTGGGTTATCAATGAACTGGCGCGTCAGTGCGGACATCATTTTGATGCCGAAGGGATCA +AGGTCATTGAGTTTGCCCAGTCCGGGCTAAAGCCACTGGTTAAATTTGCCCGCCGAATGGGGATTGAATG +GCATGTACTGGTCGATGGCGATGAAGCAGGGAAGAAATATGCCGCTACGGTACGCAGCCTGTTGAATAAC +GATCGGGAAGCCGAACGAGAACATTTAACGGCGTTACCGGCGCTGGATATGGAACATTTTATGTATCGCC +AGGGATTTTCCGATGTGTTCCACCGCATGGCGCAAATCCCGGAAAATGTACCGATGAATCTACGCAAAAT +TATCTCGAAAGCGATCCATCGCTCTTCCAAACCCGATCTTGCCATTGAAGTGGCAATGGAGGCAGGACGT +CGTGGTGTGGACTCCGTACCGACGCTGCTGAAAAAAATGTTCTCACGCGTGCTGTGGCTGGCGCGCGGTC +GCGCGGATTAACCGCGAAACATCGTGGCCATTTGTGGCTGAATAGCGTCGAGCATCTCATAGCGCCGACG +GTATTCAGCCCGTTTTTTACTGGCGATTTCGGCAATCTCTTTTCGTGCTATCTGTGCTGGAAGGCGGTAA +TGGCGTTCAGCATCACATACGCCGCCAACCGATTCCCAGAAAGCGTTGTAATCAGCGTGGATCTTGCCTT +CTTTATCGCGATAACGCAGGCTGCGGTAAATATGCGTTTCATTGCTGACGGCAATAATCTGCTCTACCTG +CAAACGTTGGGCAAACAGACAGGCCGCTTCCATCACGAGGCGTTTGGGAAATAGCCCGTGGCAGGCTTTC +GTCGCATTCTGGATTTCCTGATGTGGAATTTCCCATTTTGCGCCTTGCAGTCCGCCAATAAACATCGTTC +TTTTCCCCTGATATTCACACAGGGTAAACGTGATCTCTGCCAGAGGAATACCTTCGCTGTTGCGGAACAG +GATTGTGCTGTCACCTTCTTTATCCATTGAGATCATCATGGTCAGCTCAAGCGTGAACTGCTCGCCGTTT +TTGCCTTCCAGCTTCGCCAGTTGCAGCCCGGGGGTATTCAAATATAAGCTGAATTCTTCCGCCGACATAC +ATTCGCGGAGTAACGCATAATGGTAACGTAACGCCTCCAGCAATTGCTTACGGCTAAGATTCGCCGCAAG +GTAAGGGCGATGCAGACGCACAGGCAGTCGCGGCTGGCGCGTTAACAATACATTGAGATTAGGCCAGTGG +GAAAGTTCGTTCATCCACTCAACGCTTAAACGCGGCATAATCAACGAGCGCAGCAAAAATTTCTGGCGAA +AACTACGGCGATGCCAGAATTTACCCGGCCGACACTGTCCACGTGCCAGACTAAGAAAAAGTGACAGGCT +GCTGAGAGATTCAGATGGCGTAAAGGTCCGTTCAGTTAGCTGCGACATATTCATGAAATCAATGGTTATA +CATGGCGTCGATTTCACCATTGCGTATCTTAACCAAACATCAATAGTGTGATTACTAACGTAAATTTTAG +GGTTTTGTTGATATTTCGTTGAAGTTAATGACCCGGATTGGCATATGGAGTATTCAGAAAATTTATGAAA +AAGCGGAAAACCGTGAAGAAGCGTTACGTTATTGCGCTGGTGATAGTCATCGCCGGACTGATTACGTTAT +GGAGAATTCTTAACGCACCCGTGCCGACTTATCAGACGCTGATTGTGCGCCCCGGTGATTTACAGCAAAG +CGTGCTGGCGACCGGAAAGCTGGACGCGCTGCGTAAGGTTGATGTGGGCGCGCAGGTCAGCGGTCAGTTG +AAAACTCTGTCGGTGGCGATTGGCGATAAAGTAAAAAAAGACCAGCTTTTAGGGGTTATTGATCCTGAAC +AGGCTGAAAACCAGATTAAGGAGGTCGAAGCAACGCTGATGGAGCTACGTGCGCAGCGGCAGCAGGCGGA +AGCGGAGCTGAAACTGGCGCGGGTGACGTATTCCCGTCAGCAACGTCTGGCACAAACGAAGGCTGTTTCA +CAGCAGGATCTCGACACCGCCGCGACGGAGATGGCTGTGAAACAGGCGCAAATTGGCACCATTGACGCGC +AAATCAAGCGCAATCAGGCTTCTCTCGATACGGCTAAAACCAATCTCGATTACACTCGCATCGTTGCCCC +GATGGCCGGGGAAGTCACGCAAATCACCACTCTGCAAGGCCAGACGGTGATTGCCGCACAACAAGCACCG +AACATTCTGACGCTGGCAGATATGAGCGCCATGCTGGTAAAAGCGCAGGTTTCTGAAGCGGATGTAATCC +ACCTGAAGCCGGGGCAAAAAGCCTGGTTTACGGTGCTTGGCGATCCACTGACGCGCTACGAGGGGCAAAT +CAAGGATGTACTACCGACGCCGGAAAAGGTTAACGACGCTATTTTCTATTACGCCCGTTTTGAAGTCCCC +AACCCCAATGGTTTGCTGCGGCTGGATATGACTGCGCAAGTGCATATTCAGCTCACCGATGTGAAAAATG +TGCTGACGATCCCTCTGTCGGCGTTAGGCGATCCGGTTGGCGATAATCGTTATAAAGTCAAATTGTTGCG +TAATGGTGAAACACGCGAGCGTGAAGTGACGATTGGCGCACGTAACGATACCGATGTTGAGATTGTCAAA +GGGCTTGAAGCGGGCGATGAAGTGGTGATTGGTGAGGCCAAACCAGGAGCTGCACAATGACGCCTTTGCT +CGAATTAAAGGATATTCGTCGCAGCTATCCTGCCGGTGATGAGCAGGTTGAGGTGCTGAAGGGCATCAGC +CTCGATATTTATGCGGGTGAGATGGTCGCGATTGTTGGCGCTTCGGGTTCCGGTAAATCGACCCTGATGA +ATATTCTCGGCTGTCTGGATAAGGCCACCAGCGGCACCTATCGCGTCGCCGGTCAGGATGTTGCCACGCT +GGACGCCGATGCGCTGGCGCAACTGCGCCGCGAGCATTTCGGCTTTATTTTCCAGCGTTACCATTTGCTT +TCGCATTTAACCGCCGAGCAGAACGTTGAAGTACCCGCCGTCTATGCTGGTCTTGAGCGGAAACAGCGAC +TGCTTCGTGCCCAGGAGTTGCTGCAACGGCTGGGGCTGGAAGACCGTACAGAGTATTATCCGGCACAGCT +TTCGGGTGGTCAGCAACAGCGCGTCAGCATCGCGCGGGCATTGATGAACGGTGGTCAGGTAATTCTTGCC +GATGAACCAACCGGCGCACTGGACAGCCATTCTGGCGAAGAGGTGATGGCGATCCTGCATCAGCTGCGCG +ATCGTGGGCATACGGTGATTATCGTCACCCACGATCCGCAGGTCGCTGCTCAGGCCGAGCGGGTGATCGA +AATTCGCGACGGCGAAATTGTGCGCAATCCTCCCGCCATTGAAAAAGTGAATGTTACTGGCGGGACGGAA +CCTGTTGTCAACACGGTGTCTGGCTGGCGGCAGTTTGTCAGCGGTTTTAACGAGGCGCTGACGATGGCAT +GGCGGGCGCTGGCAGCGAATAAAATGCGTACTTTACTGACCATGCTGGGGATTATTATCGGTATTGCGTC +GGTGGTTTCCATTGTCGTGGTGGGTGACGCCGCCAAACAAATGGTGCTGGCGGATATTCGTTCTATTGGT +ACGAATACTATTGATGTCTATCCCGGGAAAGATTTTGGCGATGACGATCCGCAATATCAGCAGGCGCTGA +AGTACGACGACTTAATCGCCATCCAAAAACAACCGTGGGTCGCCTCAGCCACACCTGCCGTCTCGCAAAA +CCTGCGCCTGCGTTATAACAATGTTGATGTTGCTGCCAGTGCCAATGGCGTGAGCGGCGATTATTTTAAT +GTCTATGGCATGACCTTCAGTGAAGGAAACACCTTTAATCAGGAGCAGCTGAACGGTCGTGCGCAGGTCG +TGGTTCTCGACAGTAATACTCGCCGCCAGCTTTTCCCCCATAAAGCAGATGTGGTTGGCGAGGTGATTCT +GGTCGGCAATATGCCCGCCAGAGTCATTGGTGTGGCGGAAGAAAAACAGTCGATGTTTGGTAGCAGTAAA +GTGCTGCGTGTCTGGCTACCTTACAGCACGATGTCCGGGCGAGTTATGGGCCAGTCGTGGCTTAACTCCA +TTACTGTCAGGGTGAAAGAAGGATTTGACAGCGCCGAGGCGGAACAGCAACTCACGCGTTTACTTTCACT +GCGCCACGGAAAGAAGGATTTCTTTACCTGGAACATGGACGGCGTCTTGAAAACTGTTGAAAAGACCACA +CGTACTTTACAACTGTTTCTGACGCTGGTGGCGGTGATTTCGCTGGTGGTGGGCGGTATTGGTGTAATGA +ATATTATGCTGGTGTCAGTGACCGAGCGGACGCGGGAAATTGGCATTCGCATGGCTGTAGGTGCGCGAGC +AAGCGATGTTTTGCAACAGTTCCTGATCGAAGCCGTACTGGTTTGCCTGGTCGGTGGCGCGTTGGGAATA +ACACTGTCACTGTTAATTGCTTTCACCTTGCAGCTTTTCTTACCCGGCTGGGAGATTGGTTTTTCACCGT +TGGCGCTGCTGCTGGCGTTTCTCTGCTCGACGGTCACCGGGATTTTATTTGGCTGGTTACCCGCACGAAA +TGCGGCACGACTGGATCCAGTAGATGCTCTGGCACGAGAGTAATTTTTGAGATAAAAATGCCAGCCGATC +GGGCTGGCATTTTGCCTTTAGGATGTACACAATGAGACAGAAGAGCTATGCGACTGCCGCTTCTACTTCG +ACGGGCACAATAACACTGGCGTGATTGCCTTTTGGCCCCTGGTGGACATCAAACTGAACGGATTGTCCAG +CTTTTAGCGTTCTGTAACCATCCATCTGAATGGTGGAATAATGAGCGAAAATATCTTCGCCGCCGCCTTC +AGGGCAGATGAAACCAAACCCTTTGGCATTGTTGAACCACTTAACAGTACCCTTTTCCATGCTTCGACAT +CCTTCGCAAATCTTATACAAGTAAGATGGAATAAACCGGGGTCAGAGAGGGGGCTGTTCAAAACCTCGCC +AACTCTAGAAATACAATTTAGAGAATTAGGGCGAGCCGTCAAGCATTTGACAGGGGACAAGGGGCAGGTA +TGAATCAAAAATTTGAAGCAGTTAACGCTATTGACAGGAATGTGACAGATGTCGCTGATGCCAACGATAG +ATGATAGTTATCTATCATGTGGAGTAGATTGGTCAGGCAAATAAGCTCTTGTCAGCGGCAGGGCGTTCTG +CCGATAACCGTAACCGAAGATGATAACTGACAATGGGTAAAACGAACGACTGGCTGGACTTTGATCAACT +GGCGGAAGAAAAAGTTCGCGACGCGCTAAAACCGCCATCTATGTATAAAGTGATATTAGTCAATGATGAT +TACACTCCGATGGAGTTTGTTATTGACGTGTTACAAAAATTCTTTTCTTATGATGTAGAACGTGCAACGC +AATTGATGCTCGCTGTTCACTACCAGGGGAAGGCCATTTGCGGAGTCTTTACCGCCGAGGTTGCAGAAAC +CAAAGTGGCGATGGTGAACAAGTACGCGAGGGAGAATGAGCATCCATTGCTGTGTACGCTAGAAAAAGCC +TGAATGCAGGCATAAAAATTGGGGGAGGTGCCTATGCTCAATCAAGAACTGGAACTCAGTTTAAATATGG +CTTTCGCCAGAGCGCGCGAGCACCGTCATGAGTTTATGACCGTCGAGCACTTGTTACTGGCGCTGCTCAG +TAACCCATCTGCCCGGGAGGCGCTGGAAGCGTGTTCTGTGGATTTGGTTGCGCTCCGTCAGGAACTGGAA +GCCTTTATTGAACAAACCACACCCGTTCTGCCTGCCAGTGAAGAGGAGCGCGACACACAGCCGACGCTGA +GTTTTCAGCGTGTACTGCAACGTGCGGTCTTCCATGTCCAGTCCTCCGGTCGCAATGAGGTTACCGGTGC +AAACGTTCTGGTCGCTATCTTTAGCGAACAGGAGTCGCAGGCGGCATATCTGTTGCGTAAACATGAAGTC +AGCCGTCTCGATGTGGTGAACTTTATCTCTCATGGCACGCGTAAAGACGAGCCGACACAGTCTTCTGATC +CTGGCAGCCAGCCAAACAGCGAAGAACAAGCTGGTGGGGAGGAACGTATGGAGAATTTCACGACGAACCT +GAATCAGCTTGCGCGCGTGGGCGGAATCGACCCACTGATTGGTCGTGAGAAGGAGCTGGAGCGTGCTATT +CAGGTTCTCTGCCGTCGCCGTAAAAACAACCCGCTGCTGGTGGGGGAATCTGGTGTCGGTAAAACCGCGA +TTGCGGAAGGTCTTGCCTGGCGAATTGTTCAGGGCGATGTGCCGGAAGTGATGGCTGACTGTACGATTTA +CTCTCTCGATATCGGTTCTCTGTTAGCGGGCACAAAATATCGCGGCGACTTTGAAAAACGTTTTAAAGCG +TTGCTCAAGCAGCTGGAGCAGGACACTAACAGCATCCTGTTTATTGATGAGATCCACACCATTATCGGTG +CGGGTGCAGCGTCTGGTGGTCAGGTCGATGCGGCTAACCTAATCAAACCGTTGCTCTCCAGCGGTAAAAT +TCGTGTAATTGGTTCGACAACCTATCAGGAGTTCAGCAACATTTTCGAGAAAGACCGTGCTCTGGCGCGT +CGCTTCCAGAAAATTGATATTACTGAACCGTCGATCGAAGAAACTGTTCAAATCATCAATGGCCTGAAAC +CGAAGTATGAAGCGCACCACGACGTGCGTTATACCGCAAAAGCGGTGCGTGCGGCGGTAGAGCTGGCGGT +GAAATACATTAACGATCGTCATCTGCCGGATAAAGCCATTGATGTTATCGACGAAGCGGGCGCTCGCGCA +CGCCTGATGCCGGTAAGCAAACGCAAGAAAACCGTTAATGTGGCGGATATTGAGTCCGTGGTGGCCCGTA +TTGCACGCATTCCAGAGAAGAGTGTTTCTCAGAGTGATCGTGATACCCTGAAAAACCTCGGCGATCGCTT +GAAAATGCTGGTCTTCGGTCAGGATAAAGCCATTGAGGCGCTGACTGAAGCCATTAAGATGGCGCGTGCA +GGTTTAGGTCACGAACATAAACCGGTTGGTTCGTTCCTGTTTGCCGGCCCTACCGGGGTCGGGAAAACAG +AGGTGACGGTACAGCTTTCGAAAGCTTTGGGCATTGAGCTTCTGCGCTTTGATATGTCCGAGTATATGGA +ACGCCATACCGTCAGCCGTCTTATTGGTGCGCCTCCGGGATACGTTGGTTTTGATCAGGGCGGTTTGCTG +ACTGATGCGGTCATCAAGCATCCACATGCGGTGCTGCTGCTGGACGAAATCGAGAAAGCGCACCCGGACG +TGTTCAATATTCTGTTGCAGGTGATGGATAACGGTACGCTGACCGATAACAACGGACGCAAAGCAGACTT +CCGTAACGTGGTGCTGGTGATGACCACCAACGCCGGGGTACGGGAAACTGAGCGCAAATCCATTGGTCTT +ATCCACCAGGATAACAGCACCGATGCGATGGAAGAGATCAAGAAGATCTTTACACCGGAATTCCGTAACC +GTCTCGACAACATTATCTGGTTTGATCATCTGTCAACCGACGTGATCCATCAGGTGGTGGATAAATTCAT +CGTCGAGTTGCAGGTTCAGCTGGATCAGAAAGGTGTTTCTCTGGAAGTGAGCCAGGAAGCGCGTAACTGG +CTGGCCGAGAAAGGTTACGACCGGGCAATGGGCGCTCGTCCGATGGCGCGTGTCATCCAGGACAACCTGA +AAAAACCGCTCGCCAACGAACTGCTGTTTGGTTCGCTGGTGGACGGCGGTCAGGTCACCGTCGCGCTGGA +TAAAGAGAAAAATGAGCTGACTTACGGATTCCAGAGTGCACAAAAGCACAAGGCGGAAGCAGCGCATTAA +TCTGATTGTTAGGTAGGTTGGTCAAGTCCGTAATCTCGAAAGAGGTTACGGACTTTTTGTTTATGGGGTG +GAGGAGGTTCAGACCCTTTTTTTAATGATGATGGTAAGTTGTTGATAATTAGTGCTGCGGGAAGGTAAGG +ATAAAAAAGGGTGCTGCAGGAGAATGGGATGGTTTTGCTTTATTAACAACGGGCTAAACGTGTAGTATTT +GAGTTCACTGCCGTACAGGCAGCTTAGAAATTCACAGGTAACATACTCCACCCGCCCACCATGTTCACTG +CCGTACAGACAGATAAAATGCGAAAAAAAAGCTCGCACTTTCGTACGAGCTCTTCTTTAAATATGGCGGT +GAGGGGGGGATTCGAACCCCCGATACGTTGCCGTATACACACTTTCCAGGCGTGCTCCTTCAGCCACTCG +GACACCTCACCAAATTGTTTTGCTACCAAACCTCATGGGTGGCAACGGGGCGCTACTATAGGGAGTTGGA +GTAAAACGGTCAAGAAGAATTTTAATGATAATTATTGTTTGCTCATACTGTAAACAAGTTGTGCAGTATA +TCTACATCGAGACAAGTTACGGACTTATACTTCCAAAGTACTTCATACATATCACAAAATAAAAAGGCCG +GTTAAACCGACCTTTTACTCGTTCTTTCTCTTCGCCCATCAGGCGGTAAAACAATCAGCGACTACGGAAG +ACAATGCGGCCTTTGCTCAGGTCGTACGGGGTCAGTTCAACAGTCACTTTGTCGCCCGTCAGGATGCGGA +TGTAGTTTTTGCGCATTTTACCGGAGATGTGTGCAGTAACCACGTGACCGTTTTCTAACTCTACGCGGAA +CATGGTATTAGGCAACGTTTCAAGAACGGTACCTTGCATTTCAATATTGTCTTCTTTGGCCATCTAATCC +TCTGGGGTATCACTACCGTAATTTGAACCGGCAAGATAATGCCGAAGTTCTGTAAATAAGTAAAGATTTG +CGCGCTAAATCGCAACAAACAGGTTCGGCACATTACTCCGAAAACACACGGCTAAGCCGCACCAAAAGCG +CAACGTATAAGGGAGCGGTGAGATAAACGATGGGCGTTACCTGACGCGAAAAATTCCTTATCGGCAGCGG +GGTAATGAGCGTAACCAACTCTGCGACCGCAATTATAACACTCTGGGGAGAAATGTGCCGAAAACATTCA +TTCTTGTGGTGAAAACAAGCATCGTGGTACCCAGAAATTATTCGGCAATCGTCCGAGGCGCATTTGATTG +AGATAATTAAGGTAATCCCGGCGGGGAATTTCGCAGGCACCAAGCGATGCTGTGTGATCGTTAAGGACCT +GGCAGTCGATAAGCTTACCGCCATGACCGATAAATTCCTCACAGAATACCAGAAGCGCCGTTTTAGACGC +ATTTTCCATCCGGCTGAACATGGACTCGCCACAAAATAGCGTTCCCTGGGCCACGCCGTACATACCGCCG +ACAAGCTCATCTTCACGCCAGACTTCAATGGAGTGGGCATGGCCGAGTTCGTGAAGGCGATGGTAGGCTT +CGACCACGCCACGCGTGATCCAGGTTCCTTCTTCGCGATCGCTGGCACAGCCTTCAATGACCTGACCAAA +AGCGTAATTCATCGTGACACGATAGGGCGAGCGTTTATGAAATCGCTTCATACTACGGCTGATATGCAGT +GATTCTGGCCATAGCACCGCGCGGGGATCGGGCGACCACCAGAGGATGGGGTCGCCTGGAGAAAACCACG +GAAAAATACCACGCTGGTAAGCCATTAACAGGCGCGCAGGGCTAAGATCGCCCCCAAGTGCCAGCAGGCC +GTTAGGCTCACGTAATGCGCCTTCCGGGGAAGGGAAGGCTATTGAATGGCGAGAAAGCTGAACCAGGCGC +ATGACCGCAAAACTCCACGCAAGTCGGATCGTTCAATAATAGCTTACAAACCCTGCTTGAACTGGTAATA +ACGCCCCTGTCTGGCAAGCAGTTCTGCGTGAGTACCTTGCTCAATAATTTGCCCGTTGTCCATCACTATT +ATTTGTTGGAAACGAGAGAGTCCGCGAAGTCGATGGGTGACCATTAACACCGTTTTCTCACGCATCATTT +CTGCAAGCAATTCAAGGATCTGGCTTTCGGTTGTGGCATCTAAGCCTTCGGTAGGTTCATCCAGCAACAC +CAGTGGCGCATCATGTAACAGCGCACGGGCGATAGCCAGACGGCGCAGTTCACCACCGGAGAGCTGGCGT +CCGCCTTCACCTAACCAACTGTTGAGACCTGCATCCTCGAGCAGCTTTTCCAGGCCAACGCGACGCAAGA +TCTCCGACAGAGCCTCATCACTACTGCCAGGCGAGGCGAGTAAAAGATTATCACGCAGCGTGGCGCTAAA +CAGATGCACTCGCTGAGGAACAACGCTGATGGTCTGTCGTAGAGCCGCTTCATTCAGGCTGGCTATGGGG +CTATCGTTAAGCAAAATCTCGCCCTGTTGCGGGTCCCATGCGCGGGTCAGCTGTTGTAACAGTGTTGATT +TGCCGCATCCGGTTCGCCCGAGAATCGCTATATGTTCCCCGGCGTTTACCTGAAGAGAAATCCCTTTAAG +TGCCTGTTGAGATTGCTCCGGATAAGTGAACTGAACATCCCGTAACGTCAGCGAAACGCGATCGGCAACA +CGAGTTTGGGTATCAGGAAAGGTGACCTCCGGTTTTTGATCCGTTAAGTCAGAGATACGTACGGCAGAGG +CAATGACTTGCCCCAGATGCTGAAATGCACCCGTTACTGGTGCCAGTGCTTCAAACGCGGCTAACGCGCA +GAAGACAAACAGGGCAATTAACGCGCCGGGTTGAGCATTGCCGCCAACGCCGCCAGACGCCATCCACAGC +ATCAGGATCACCGCTAACGCGCCAATGAGCAGCATTATCGCTTGCGACAATGCGGTCAGTTCAGATTGAC +GGCGTTGCGCTTCCAGCCATTGAATTTCTGTATTCTCTAGTTGCGTGCGATAACGATCGCTGGCACCAAA +AATGGTCAGCTCAGCTTGCCCTTGCAGCCAGGCCGTCAGTTGTTGGCGATACTGTCCGCGAAGATGAGTC +AGATTTTGCCCGGTGCTTTTTCCCGCACGATAAAACAGCGGTGGCATCAGGAAAAGCGTCAGTAACATAA +TGCCGCCCAGCGTAAAGGCGAGGGTGAAATCAAGGAAACTTAACCCGATTGTCACCACCATAATCACCAC +AAAAGCGCCCACCAGCGGCGAGATAACGCGCAGGTAAAGATGATCGAGCGTATCAACATCCGCCACCACG +CGATTGAGCAATTCGCCCTGACGATAGCGCGCCAGTCCGGCAGGGGAGAGGGGCAGCAATTTGCTGAAGG +TGTAAATGCGCAGATGCTGCAACACGCGGAAAGTCGCGTCGTGACTTACCAGACGTTCAAAATAGCGCCC +GGCAGTACGGGTGATTGCTGCGCCACGCACGCCCGCAGCGGGTAGCATATAGTTGAAGCTGTACAGTCCG +GCAACCCCCGCAACCGCTGAGGCCGAGAGGAACCAGCCGGAAAGTGTCAACAGACCGATACTGGCGAGCA +GCGTCACAATTGCCAGCACAATACCAAGACTTAACATCCATTTATGACGTTTATACAGTGCCAGATAGGG +TAGCAAAGCGCGCATTTAAATCTCCTCCTGACGATGGGCCAGTAATGTGGCGAATGGGCCACCAGCCACA +CTTAATTCCGCGTAACGTCCTTGCTCAATAATCCGGCCATCCTGCATAACCCAAATGACATCCCAGTCAG +CAAGATCTTCTAACTGGTGGGTGACCATTAACGTTGTCTGGCGCAGAGAGGCGGCATTCAGCGCCTCCAT +TACGCGCTGTTCACTGTGAGCATCAAGGCTGGCAGCGGGTTCATCCAACAGTAATAGCGAACAGGGATTT +AGTAACGCACGGGCCACCGCCACGCGCTGCGCCTGCCCCACGGAAAGGCGGGCAGCCTGGTCGCCAACAG +GCGTATCAACGCCTTGTGGGAGGAGCGGTAGAAACTCGCTGACCCAGGCGTTATCCAGCGCTGCTTGTAA +TTCTTGTTCGCTGGCATCAGGTCGCGCCAGTAGTACGTTATCCCGCAATGTTGCTGCCGGTAATTGTGGG +TTTTGCCCAACCCAGGAGAGATGTTTACGCCATGATTCTGGTGATAAATCGCGTAATTCTATCCCGTTGA +TTCGTAGCGATCCCTGATATGAGAGAAAACCAGAAAGCGCGTTCAGCAGTGAGCTTTTACCTGAACCGCT +GCGACCAACCAACACCGCACGTTGGCCTGCTGGCAAAGTAAAGTTCAGCGGTCCGGCCAGCGTTTTACCT +TCCGGCGACGTGATAAACAGCTCCTCGGCCTCAATGGTCACCGGATCGGTCGATGCTAATTCCGCCTCAC +CACGTTGCGGATGGGCGAGCGGGGTTTCCATAAACGTTTTCAGACTGTCAGCTGCGCCAACAGCCTGGGC +TTTAGCATGATAAAACGTACCGAGATCGCGTAATGGCTGGAAAAACTCTGGCGCAAGGATCAGGGCCAGA +AAACCCGCAGCCAGCGTCACACCGGTATCGTAGTGACCAAAATCCAGCTCGCCGAGATAGGAAAAACCAA +AGTAGACCGCCACCAGAGCAATTGACAGCGAGGTAAAAAATTCGAGAATGCCGGAGGATAAAAACGCCAG +CCGTAGCACTTCCATTGTCCGTTGGCGGAAATCTTCCGAAGCAGAACGAATACTTTCAATTTCAGCTTCA +CCACGACCAAAAATACGCAATGTTTCCATGCCGCGCAGGCGATCGAGGAAATGCCCACTTAAGCGAGCAA +GAGCGAGAAAGTTACGTCGGTTAGCATCGGCAGCCCCCATTCCAACCAGCGCCATAAACAACGGAATTAA +CGGTGCAGTGCCCAGCAGAATGAGCGCCGCAGCCCAGTTAGAGGGGAAGATTGCCACCACAATCAGCAAC +GGCACCGACACTGCCAGCGCCATTTGCGGCAGATAGCGTGCATAGTAATCATGCATATCGTCAATTTGCT +CGAGTACCAGCGTCGCCCAGCTCCCCGCAGGTTTACCCTGAATCCACGCTGGCCCTGCTTGTTGCAGACG +GTCGAGAACCTGACGGCGGATGGCAAAGCGGATATGCTGCCCGGCGTGATAACCCACCCGTTCGCGTAAC +CAGACCACCCATGCGCGCAGTACAAAGGTCAGAACCAGTAACGTAAAGGGAAGCAGCAGGGCTTCACGGG +GAATATTCTCCATAATCATATGTTGCAGAATTCGCGCCATGAACCAGGCCTGGGCAATGATCAATATGCC +GCTCACAAAGCCCAGCAGACGAGAAATATTCAGCCAACGTTGGGAGATGACGCTTTGCTGTTTTAACCAG +CGGGTTAACTCTTTTTGACGAGATTTATTCATTGCACGCTTAGCAGGTGAGTTATCAGAATTATTTGCAG +AGCAATGTTACAACGGGGAAAAAATAAAGGCGACCCATAGTCGCATGGTGTCGCCTTCTTTACTTTTGTT +ACTGATTTGTAAAATTATTTTGCGTCAGCTAAACCATCGAGGTAGCGTTCCGCATCAAGTGCTGCCATGC +AGCCTGTACCGGCCGAAGTAATGGCCTGGCGATAAATGTGATCCATCACGTCGCCTGCGGCAAAGACGCC +AGGAATGCTGGTCTGGGTGGCATTACCATGAATACCCGACTGTACTTTGATGTAGCCGTTTTCCAGTTCC +AGCTGCCCTTCGAAAATCGCAGTATTCGGGCTGTGACCGATAGCAACAAACAGACCGGCAACGTCGAGTG +ACTCGATGTTATCGCTGTTTTGCGTATCGCGCAGACGAACGCCAGTGACACCCATTTGATCGCCGGTCAC +TTCTTCCAGCGTACGGTTGGTGTGCAGAATGATGTTGCCGTTCTCCACTTTATCCATCAGGCGCTTAATG +AGGATTTTTTCCGCGCGGAAACCGTCACGGCGGTGAATCAGATGCACTTCCGAAGCGATGTTAGACAGAT +ACAGCGCCTCTTCAACCGCGGTATTGCCGCCGCCGATGACCGCAACTTTCTGGTTGCGATAGAAGAAACC +GTCGCAGGTTGCACAAGCAGAAACCCCACGGCCTTTAAAGGCTTCTTCAGAGGGCAGGCCGAGATAGCGT +GCAGAAGCTCCGGTGGCAATAATCAGCGCGTCGCAAGTGTATTCGCCGTTATCGCCATTCAGACGGAACG +GACGGTTTTGCAGATCCACCTTGTTGATATGATCAAAAATGATCTCAGTTTCAAACTTGGTGGCATGTTC +GTGCATGCGCTCCATTAATAACGGACCGGTCAGATCGTTTGGATCGCCAGGCCAGTTTTCCACTTCCGTG +GTGGTGGTCAGTTGGCCGCCTTTTTCCATGCCGGTAATCAGCACAGGTTGCAGGTTGGCGCGCGCCGCGT +AGACAGCAGCGGTGTATCCCGCCGGGCCTGAACCCAGGATAAGCAGTTTACTGTGTTTGGTCGTGCCCAT +GAGATCCCCATAGTTGTTGGCAGACAATGGGCAGGATTGTAGGGAATTTACAGACGTAAAAAAAGAGTAT +GACGATTTTGTTAACAATTTGTGCAATCGGCAGCATCGATAAGCAGGTCAAATTCTCCCGTCATTATCAC +CTCTGCTACTTAAATTTCCCGCTTTATAAGCCGATTAAATGATGAATAAACGCCCCTGTTAATGAATATC +TGGCATGTTGTACTAAAAATCGATGTTTTGCTTTGACAATCCCCTGGTGTTTTGCGAAAACATTCGAGGA +AGAAAAAAAACAGTATTCTTATATGCGCATAACCATGCATGTAAATACCATGTTTACCGTGCTAGTGAAA +TCTACGTATGGCGTGGACAGACGCCATTCGTGATGTCGATAGCTGCCACAAGGCAACGGTCTTCTCACCG +TAGACCCAGGCATTGCGCGCCGTGAATCTTCATGATTTCGGTCTATCGTGACGGGTAGCGACTCTGAACA +GTGATGTTTCAGGGTCAGACAGGAGTAGGGAAGGAATACAGAGAGACAATAATAATGGTAGATAGCAAGA +AGCGCCCTGGCAAAGATCTCGACCGTATCGATCGTAACATTCTTAATGAGTTGCAAAAGGATGGGCGTAT +TTCTAACGTCGAGCTTTCTAAACGTGTGGGACTTTCCCCAACGCCGTGCCTTGAGCGTGTGCGTCGGCTG +GAAAGACAAGGGTTTATTCAGGGCTATACGGCGCTGCTTAACCCCCATTATCTGGATGCATCACTTCTGG +TATTCGTTGAGATTACTCTGAATCGTGGCGCACCGGATGTGTTTGAACAATTCAATACCGCTGTACAAAA +ACTTGAAGAAATTCAGGAGTGTCATTTAGTATCCGGTGATTTCGACTACCTGTTGAAAACACGCGTGCCG +GATATGTCAGCCTACCGTAAGTTGCTGGGGGAAACCCTGCTGCGTCTGCCTGGCGTCAATGACACACGGA +CATACGTTGTTATGGAAGAAGTCAAGCAGAGTAATCGTCTGGTTATTAAGACGCGCTAACACGGAACAGG +TGCAAAATCGGCGTATTTTGATTACACTCCTGTTAATCCATACAGCAACAGTACTGGGGTAACCTGGTAC +TGTTGTCCGTTTTAGCATCGGGCAGGAAAAGCCTGTAACCTGGAGAGCCTTTCTTGAGCCAGGAATACAT +TGAAGACAAAGAAGTCACATTGACAAAGTTAAGTAGCGGCCGCCGCCTTCTGGAGGCGTTGCTGATCCTT +ATTGTCCTGTTTGCCGTCTGGTTGATGGCTGCCTTACTAAGCTTTAACCCTTCGGACCCCAGCTGGTCGC +AAACGGCCTGGCATGAACCTATCCATAATTTAGGTGGGATGCCCGGTGCGTGGTTGGCAGATACGCTGTT +CTTTATTTTTGGCGTGATGGCTTACACCATTCCCGTCATTATTGTCGGCGGTTGTTGGTTTGCCTGGCGT +CATCAGTCCAGCGACGAATACATTGATTATTTTGCCGTTTCGCTACGCATCATTGGCGTTTTGGCGCTCA +TCCTTACCTCCTGTGGTCTGGCGGCAATCAACGCTGACGATATCTGGTATTTTGCCTCCGGTGGCGTCAT +TGGCAGCTTACTAAGCACTACGCTACAACCACTGCTACACAGTAGCGGGGGAACTATTGCGCTGCTCTGC +GTTTGGGCAGCGGGCCTGACGTTGTTCACCGGTTGGTCATGGGTGACCATTGCTGAAAAACTCGGCGGCT +GGATTTTAAACATTCTCACCTTCGCCAGTAATCGTACCCGTCGCGATGATACCTGGGTCGATGAAGATGA +GTATGAAGACGACGAAGAGTATGAAGATGAAAATCACGGCAAACAGCATGAATCACGCCGTGCCCGTATT +CTTCGCGGCGCGCTAGCGCGTCGTAAACGGTTGGCGGAAAAATTCATTAATCCGATGGGGCGGCAAACAG +ACGCTGCGTTGTTCTCCGGTAAGCGGATGGATGATGACGAAGAGATTACCTACACTGCACGCGGTGTGGC +TGCCGACCCGGACGACGTCCTATTTTCGGGCAATCGTGCAACGCAGCCAGAATATGACGAATACGATCCA +TTATTAAACGGTGCGCCAATTACCGAACCTGTCGCTGTAGCAGCTGCTGCTACCACGGCGACACAAAGCT +GGGCTGCGCCGGTTGAACCTGTGACTCAGACGCCGCCTGTTGCCTCTGTTGATGTTCCACCTGCGCAACC +TACAGTAGCCTGGCAGCCTGTACCGGGTCCACAAACGGGAGAGCCGGTTATTGCTCCTGCACCGGAAGGT +TACCCACAGCAGTCACAATATGCGCAGCCTGCAGTGCAATATAATGAGCCGCTGCAACAACCAGTACAGC +CGCAGCAGCCGTATTATGCACCTGCAGCTGAACAACCTGCGCAACAGCCGTATTATGCCCCTGCGCCAGA +ACAACCGGTGGCAGGTAACGCCTGGCAAGCCGAAGAGCAGCAATCCACTTTTGCTCCACAGTCTACATAC +CAGACTGAGCAAACTTATCAGCAGCCAGCCGCTCAGGAGCCGTTGTACCAACAGCCGCAACCCGTTGAAC +AGCAGCCTGTTGTGGAGCCTGAACCCGTTGTAGAAGAGACAAAACCCGCGCGTCCGCCGCTTTACTACTT +TGAAGAAGTTGAAGAGAAGCGAGCCCGTGAACGTGAACAACTTGCGGCCTGGTATCAACCGATTCCAGAA +CCGGTTAAAGAACCAGAACCGATCAAATCTTCGCTGAAAGCACCTTCTGTTGCAGCAGTACCTCCAGTAG +AAGCCGCTGCCGCTGTTTCCCCGCTGGCATCTGGCGTGAAAAAAGCGACACTGGCGACGGGGGCTGCCGC +AACCGTTGCCGCGCCAGTCTTCAGTCTGGCAAATAGCGGTGGACCGCGTCCTCAGGTCAAAGAGGGGATT +GGTCCGCAGTTGCCACGACCGAAACGTATCCGCGTGCCAACTCGTCGTGAACTGGCGTCTTACGGTATTA +AGCTGCCCTCACAGCGTGCGGCGGAAGAAAAAGCCCGTGAAGCCCAGCGCAATCAGTACGATTCTGGCGA +TCAGTACAACGATGATGAAATCGATGCGATGCAGCAGGATGAACTGGCACGTCAGTTCGCCCAGACACAG +CAGCAACGCTATGGCGAACAGTATCAACATGATGTGCCCGTAAACGCAGAAGATGCAGATGCTGCGGCAG +AGGCTGAACTGGCTCGTCAGTTTGCGCAAACTCAACAACAACGTTATTCCGGCGAACAACCGGCTGGGGC +GAATCCGTTCTCGCTGGATGATTTTGAATTTTCGCCAATGAAAGCGTTGCTGGATGATGGTCCACACGAA +CCGTTGTTTACGCCAATTGTTGAACCTGTACAGCAGCCGCAACAACCGGTTGCACCGCAGCAGCAATATC +AGCAGCCGCAACAACCAGTTCCGCCGCAGCCGCAGTATCAGCAGCCACAACAGCCGGTTGCGCCGCAGCC +ACAATATCAGCAGCCGCAACAACCGGTTGCGCCACAGCAGCAATATCAGCAGCCGCAACAACCGGTTGCG +CCGCAGCAGCAGTATCAGCAGCCACAACAGCCAGTTGCGCCACAACCGCAGGATACCCTGCTTCATCCGC +TGTTGATGCGTAATGGCGACAGCCGTCCGTTGCATAAACCGACGACGCCGCTGCCTTCTCTGGATTTGCT +GACACCGCCGCCGAGCGAAGTGGAGCCGGTAGATACCTTTGCGCTTGAACAAATGGCTCGCCTGGTGGAA +GCGCGTCTGGCTGATTTCCGTATTAAAGCCGATGTCGTCAATTACTCTCCGGGGCCGGTTATCACTCGCT +TTGAATTGAACCTGGCACCGGGCGTAAAAGCGGCGCGCATTTCTAACTTGTCACGGGACCTTGCCCGTTC +ACTTTCGACGGTGGCGGTGCGTGTCGTTGAAGTTATTCCTGGCAAACCCTATGTAGGTCTGGAGTTACCG +AATAAAAAACGACAAACCGTTTATCTGCGCGAAGTTTTGGATAACGCCAAATTCCGCGATAATCCGTCGC +CATTAACCGTGGTGCTGGGTAAAGATATCGCCGGTGAGCCGGTGGTTGCCGATCTGGCGAAAATGCCGCA +CTTGTTGGTTGCGGGGACTACCGGTTCCGGTAAATCTGTCGGTGTGAACGCGATGATCCTGAGCATGCTT +TATAAAGCACAGCCAGAAGATGTGCGTTTCATCATGATCGACCCGAAAATGCTGGAGCTTTCGGTTTATG +AAGGCATTCCGCATCTGTTAACGGAAGTCGTTACTGATATGAAAGATGCCGCCAACGCGCTGCGCTGGTG +TGTTAACGAGATGGAGCGTCGGTATAAACTGATGTCTGCGCTGGGTGTGCGTAATCTGGCGGGTTATAAC +GAAAAAATTGCTGAAGCCGATCGCATGATGCGTCCGATTCCAGACCCGTACTGGAAGCCGGGTGACAGTA +TGGATGCCCAGCATCCGGTGCTGAAAAAAGAACCATACATTGTGGTGTTGGTTGACGAATTTGCCGACCT +GATGATGACGGTAGGTAAAAAAGTGGAAGAGCTGATAGCACGTCTGGCGCAAAAAGCCCGTGCCGCGGGT +ATCCACCTCGTACTGGCAACTCAGCGTCCATCGGTTGATGTTATTACTGGTCTGATTAAAGCGAATATTC +CGACCCGTATCGCCTTTACCGTATCCAGTAAGATTGACTCACGTACCATTCTTGATCAGGCTGGCGCGGA +ATCACTGCTGGGTATGGGGGATATGCTCTACTCTGGGCCGAACTCCACGTTGCCGGTACGTGTCCATGGT +GCTTTTGTTCGCGATCAGGAAGTTCATGCCGTGGTGCAGGACTGGAAAGCGCGTGGTCGCCCACAGTATG +TTGATGGCATCACCTCCGACAGCGAAAGCGAAGGTGGTGCGGGTGGTTTCGATGGCGCTGAAGAACTGGA +TCCGTTGTTCGATCAGGCGGTGCAGTTTGTCACTGAAAAACGCAAAGCGTCAATTTCTGGCGTACAGCGT +CAGTTCCGCATTGGTTATAACCGTGCAGCGCGTATTATCGAACAGATGGAAGCGCAGGGGATTGTCAGCG +AACAGGGGCACAACGGTAATCGTGAAGTGCTGGCCCCACCGCCGTTTGACTAACTAATGCATCGTATGCC +GGATAAGGCGCGGTAGCGTCGCATCCGGCACTCTATCAACTGAAAATTCAGTATTTTCTTCTTTCCTCAA +GCTGATTATTAGCCTGGAATAGAGAGTAGAGGGAACTCCCGATCGGGAGTGACGTAATTTGAGGAATAAT +GATGAAAAAAATTGCCATCACCTGTGCATTACTCTCAAGCTTAGTAGCAAGCAGCGTTTGGGCTGATGCC +GCAAGCGATCTGAAAAGCCGCCTGGATAAAGTCAGCAGCTTCCACGCCAGCTTCACACAAAAAGTGACTG +ACGGTAGCGGCGCGGCGGTGCAGGAAGGTCAGGGCGATCTGTGGGTGAAACGTCCAAACTTATTCAACTG +GCATATGACACAACCTGATGAAAGCATTCTGGTTTCTGACGGTAAAACACTGTGGTTCTATAACCCGTTC +GTTGAGCAAGCTACGGCAACCTGGCTGAAAGATGCCACCGGTAATACGCCGTTTATGCTGATTGCCCGCA +ACCAGTCCAGCGACTGGCAGCAGTACAATATCAAACAGAATGGCGATGACTTTGTCCTGACGCCGAAAGC +CAGCAATGGCAATCTGAAGCAGTTCACCATTAACGTGGGACGTGATGGCACAATCCATCAGTTTAGCGCG +GTGGAGCAGGACGATCAGCGCAGCAGTTATCAACTGAAATCCCAGCAAAATGGGGCTGTGGATGCAGCGA +AATTTACCTTCACCCCGCCGCAAGGCGTCACGGTAGATGATCAACGTAAGTAGAGGCACCTGAGTGAGCA +ATCTGTCGCTCGATTTTTCGGATAATACTTTTCAACCTCTGGCCGCGCGTATGCGGCCAGAAAATTTAGC +ACAGTATATCGGCCAGCAACATTTGCTGGCTGCGGGGAAGCCGTTGCCGCGCGCTATCGAAGCCGGGCAT +TTACATTCTATGATCCTCTGGGGGCCGCCGGGTACCGGCAAAACAACTCTCGCTGAAGTGATTGCCCGCT +ATGCGAACGCTGATGTGGAACGTATTTCTGCCGTCACCTCTGGCGTGAAAGAGATTCGCGAGGCGATCGA +GCGCGCCCGGCAAAACCGCAATGCAGGTCGCCGCACTATTCTTTTTGTTGACGAAGTTCACCGTTTCAAC +AAAAGCCAGCAGGATGCATTTCTGCCACATATTGAAGACGGCACCATCACTTTTATTGGCGCAACCACTG +AAAACCCGTCGTTTGAGCTTAATTCGGCACTGCTTTCCCGTGCCCGTGTCTATCTGTTGAAATCCCTGAG +TACAGAGGATATTGAGCAAGTACTAACTCAGGCGATGGAAGACAAAACCCGTGGCTATGGTGGTCAGGAT +ATTGTTCTGCCAGATGAAACACGACGCGCCATTGCTGAACTGGTGAATGGCGACGCGCGCCGGGCGTTAA +ATACGCTGGAAATGATGGCGGATATGGCCGAAGTCGATGATAGCGGTAAGCGGGTCCTGAAGCCTGAATT +ACTGACCGAAATCGCCGGTGAACGTAGCGCCCGCTTTGATAACAAAGGCGATCGCTTTTACGATCTGATT +TCCGCACTGCATAAGTCGGTACGTGGTAGCGCACCCGATGCGGCGCTGTACTGGTATGCGCGAATTATTA +CCGCTGGTGGCGATCCGTTATATGTCGCGCGTCGCTGTCTGGCGATTGCGTCTGAAGACGTCGGTAATGC +CGATCCACGGGCGATGCAGGTGGCAATTGCGGCCTGGGATTGCTTTACTCGCGTTGGCCCGGCGGAAGGT +GAACGCGCCATTGCTCAGGCGATTGTTTACCTGGCCTGCGCGCCAAAAAGCAACGCTGTCTACACTGCGT +TTAAAGCCGCGCTGGCCGATGCTCGCGAACGCCCGGATTATGACGTGCCGGTTCATTTGCGTAATGCGCC +GACGAAATTAATGAAGGAAATGGGCTACGGGCAGGAATATCGTTACGCTCATGATGAAGCAAACGCTTAT +GCTGCCGGTGAGGTTTACTTCCCGCCGGAAATAGCACAAACACGCTATTATTTCCCGACAAACAGGGGCC +TTGAAGGCAAGATTGGCGAAAAGCTCGCCTGGCTGGCTGAACAGGATCAAAATAGCCCCATAAAACGCTA +CCGTTAATGTTATCGTTGCGGTAATGTTGTTACTGTATCCCTGTGGTCGCAGGCTGTGGCCACATCTCCC +ATTTAATTCGATAAGCACAGGATAAGCATGCTCGATCCCAATCTGCTGCGTAATGAGCCAGACGCAGTCG +CTGAAAAACTGGCACGCCGGGGCTTTAAGCTGGATGTAGATAAGCTGGGCGCTCTTGAAGAGCGTCGTAA +AGTATTGCAGGTCAAAACGGAAAACCTGCAAGCGGAGCGTAACTCCCGATCGAAATCCATTGGCCAGGCG +AAAGCGCGCGGGGAAGATATCGAGCCTTTACGTCTGGAAGTGAACAAACTGGGCGAAGAGCTGGATGCAG +CAAAAGCCGAGCTGGATGCTTTACAGGCTGAAATTCGCGATATCGCGCTGACCATCCCTAACCTGCCTGC +AGATGAAGTGCCGGTAGGTAAAGACGAAAATGACAACGTTGAAGTCAGCCGCTGGGGTACCCCGCGTGAG +TTTGACTTTGAAGTTCGTGACCACGTGACGCTGGGTGAAATGCACTCTGGCCTCGACTTTGCAGCTGCAG +TTAAGCTGACTGGTTCCCGCTTTGTGGTAATGAAAGGGCAGATTGCTCGCATGCACCGCGCACTGTCGCA +GTTTATGCTGGATCTGCATACCGAACAGCATGGCTACAGTGAGAACTATGTTCCGTACCTGGTTAACCAG +GACACGCTGTACGGTACGGGTCAACTGCCGAAATTTGCTGGCGATCTGTTCCATACTCGTCCGCTGGAAG +AAGAAGCAGACACCAGTAACTATGCGCTGATCCCAACGGCAGAAGTTCCGCTGACTAACCTGGTGCGCGG +TGAAATCATCGATGAAGATGATCTGCCAATTAAGATGACCGCCCACACCCCATGCTTCCGTTCTGAAGCC +GGTTCATATGGTCGTGACACCCGTGGTCTGATCCGTATGCACCAGTTCGACAAAGTTGAAATGGTGCAGA +TCGTGCGCCCAGAAGACTCAATGGCGGCGCTGGAAGAGATGACTGGTCATGCAGAAAAAGTCCTGCAGTT +GCTGGGCCTGCCGTACCGTAAAATCATCCTTTGCACTGGCGACATGGGCTTTGGCGCTTGCAAAACTTAC +GACCTGGAAGTATGGATCCCGGCACAGAACACCTACCGTGAGATCTCTTCCTGCTCCAACGTTTGGGATT +TCCAGGCACGTCGTATGCAGGCACGTTGCCGCAGCAAGTCGGACAAGAAAACCCGTCTGGTTCATACCCT +GAACGGTTCTGGTCTGGCTGTTGGTCGTACGCTGGTTGCAGTAATGGAAAACTATCAGCAGGCTGATGGT +CGTATTGAAGTACCAGAAGTTCTGCGTCCGTATATGAACGGACTGGAATATATTGGCTAATACCCAATTT +TTCTGAATCTAAAAAGCGCCTGCGGGCGCTTTTTTTGTCTCCCTTTGATACCGAACAATAATTACTCCTC +ACTTACACGTAATACTACTTTCGAGTGAAAATCTACCTATCTCTTTGATTTTCAAATTATTCGATGTATA +CAAGCCTATATAGCGAACTGCTATAGAAATAATTACACAATACGGTTTGTTACTGGAATCAATCGTGAGC +AAGCTTGAGTGAGCCATTATGAAAACGAAAATCCCTGATGCGGTATTGGCTGCTGAGGTGAGTCGCCGTG +GTTTGGTAAAAACGACAGCGATCGGCGGCCTGGCAATGGCCAGCAGCGCATTAACATTACCTTTTAGTCG +GATTGCGCACGCTGTCGATAGCGCCATTCCAACAAAATCAGACGAAAAGGTTATCTGGAGCGCCTGTACA +GTTAACTGTGGTAGTCGCTGCCCGCTACGTATGCACGTCGTGGACGGTGAAATCAAATATGTCGAAACGG +ACAATACCGGCGATGACAATTACGACGGCCTGCACCAGGTTCGCGCCTGCCTGCGTGGGCGTTCCATGCG +TCGCCGTGTCTACAATCCGGACCGCCTGAAATATCCGATGAAACGAGTCGGGGCGCGCGGTGAAGGCAAA +TTCGAGCGCATTAGCTGGGAAGAAGCCTACGACATCATCGCGACCAATATGCAGCGCCTGATCAAAGAGT +ACGGCAACGAGTCTATCTATCTGAACTATGGCACCGGTACGCTGGGCGGCACCATGACCCGCTCCTGGCC +GCCGGGAAATACCCTGGTCGCGCGGCTGATGAACTGCTGCGGCGGCTATCTGAACCATTACGGCGACTAC +TCCTCCGCGCAAATTGCGGAAGGTTTGAACTATACCTACGGCGGCTGGGCAGATGGCAACAGCCCGTCGG +ATATCGAAAACAGTAAGCTGGTAGTGCTGTTTGGTAATAACCCTGGCGAAACGCGAATGAGTGGCGGTGG +GGTGACTTACTATCTTGAACAGGCACGCCAGAAATCTAATGCCCGCATGATCATCATCGATCCGCGCTAT +ACCGACACCGGTGCCGGGCGCGAAGATGAGTGGATCCCTATTCGTCCGGGAACAGATGCCGCACTGGTTA +ACGGTCTGGCGTACGTCATGATCACTGAAAACCTGGTGGATCAGGCATTCCTCGATAAATATTGCGTTGG +CTACGATGAGAAAACCCTGCCAGCCAGTGCGCCGAAAAATGGCCACTATAAAGCTTATATTCTGGGTGAA +GGGCCAGATGGCGTGGCTAAAACGCCGGAATGGGCCTCGCAAATCACTGGTGTTCCGGCAGACAAAATCA +TCAAATTGGCTCGTGAAATCGGTAGTACCAAACCGGCGTTTATCAGCCAGGGATGGGGCCCGCAGCGTCA +CGCTAACGGTGAAATCGCAACCCGTGCTATCTCGATGCTGGCGATTCTGACCGGTAACGTTGGTATTAAC +GGAGGCAACAGCGGCGCGCGTGAAGGTTCATACAGCTTACCGTTTGTCCGTATGCCGACCTTGGAAAACC +CGATCCAGACCAGCATTTCGATGTTTATGTGGACCGATGCCATTGAACGTGGCCCGGAAATGACGGCGCT +GCGTGATGGTGTACGCGGGAAAGATAAGCTGGATGTGCCGATCAAAATGATCTGGAACTATGCCGGTAAC +TGCCTGATTAACCAGCATTCTGAAATCAACCGTACCCATGAAATCCTTCAGGATGATAAGAAGTGCGAGC +TGATTGTGGTTATCGACTGCCACATGACCTCATCGGCGAAATATGCTGACATCCTGCTGCCTGACTGCAC +CGCTTCCGAACAGATGGACTTTGCGCTGGATGCATCCTGCGGGAATATGTCTTACGTGATTTTCAACGAT +CAGGTGATTAAACCGCGCTTTGAATGTAAGACCATCTATGAAATGACCAGCGAACTGGCAAAACGTCTTG +GCGTTGAGCAACAGTTTACTGAAGGCCGTACCCAGGAAGAGTGGATGCGGCATCTGTATGCCCAGTCGCG +GGAAGCGATTCCTGAACTGCCAACGTTTGAAGAGTTCCGCAAGCAGGGGATCTTTAAAAAGCGCGACCCA +CAAGGGCATCACGTTGCTTATAAAGCCTTCCGTGAAGATCCGCAGGCAAACCCACTGACTACGCCATCGG +GCAAAATTGAGATTTATTCGCAGGCGCTGGCTGACATTGCCGCTACCTGGGAATTGCCTGAAGGCGATGT +GATCGATCCACTGCCGATCTACACGCCGGGCTTTGAAAGTTATCAGGATCCGCTGAACAAACAGTATCCG +CTGCAGCTTACAGGTTTCCACTATAAATCTCGCGTTCACTCAACTTACGGCAACGTTGATGTGCTGAAAG +CGGCTTGCCGTCAGGAAATGTGGATCAACCCGCTTGATGCCCAAAAACGCGGTATCCACAACGGCGATAA +AGTCAGGATCTTTAACGATCGTGGTGAGGTTCATATTGAGGCGAAAGTGACGCCACGAATGATGCCGGGT +GTGGTCGCACTGGGTGAAGGTGCCTGGTATGACCCGGATGCAAAACGTGTCGATAAGGGTGGTTGTATTA +ACGTACTGACCACTCAACGTCCGTCTCCTCTCGCTAAGGGGAATCCGTCACATACAAACCTTGTTCAGGT +TGAAAAGGTGTAAGGAGTAACCGATGACAACCCAGTATGGATTTTTTATTGATTCCAGCCGTTGCACCGG +TTGCAAAACCTGCGAGCTGGCCTGTAAAGACTACAAAGATTTGACGCCAGAAGTCAGCTTCCGCCGCATT +TATGAATATGCTGGCGGCGACTGGCAGGAAGATAACGGTGTCTGGCACCAGAACGTGTTTGCCTACTATC +TGTCGATTTCATGTAACCACTGCGAAGATCCGGCTTGTACTAAAGTCTGCCCGAGCGGTGCGATGCATAA +ACGTGAAGATGGTTTTGTTGTGGTCGATGAAGATGTGTGCATTGGCTGCCGCTACTGCCATATGGCTTGC +CCGTATGGCGCACCGCAATATAACGAAACGAAAGGCCATATGACCAAATGCGATGGTTGTTATGACCGTG +TTGCGGAGGGTAAAAAGCCGATCTGTGTTGAATCTTGTCCGCTGCGGGCGCTGGATTTCGGCCCTATCGA +CGAGCTGCGTAAAAAACATGGCGATCTGGCGGCCGTTGCGCCGTTGCCGCGAGCTCACTTTACCAAACCG +AATATTGTGATCAAACCCAATGCCAATAGCCGCCCGACCGGGGATACCACTGGCTATCTGGCAAACCCGA +AGGAGGTGTGAGATGGGAAGTGGATGGCATGAATGGCCGCTGATGATCTTCACGGTCTTCGGGCAATGTG +TAGCAGGTGGTTTTATCGTTCTGGCTTTGGCGCTGCTCAAAGGCGACCTGCGAGCAGAAGCCCAGCAGCG +TGTTATCGCCTGCATGTTTGGTTTATGGGTGCTGATGGGCATTGGCTTTATCGCCTCTATGCTCCATCTT +GGTTCACCAATGCGCGCTTTTAACTCGCTCAACCGGGTAGGGGCTTCAGCACTCAGTAACGAAATCGCCA +GCGGTTCGATCTTTTTTGCCGTAGGCGGCATCGGCTGGTTGCTGGCAATGCTGAAAAAGCTGTCACCGGC +ATTGCGTACGCTGTGGCTGATAGTGACGATGGTTCTTGGCGTCATCTTTGTCTGGATGATGGTGCGTGTG +TATAACAGCATTGATACCGTTCCGACCTGGTACAGCATCTGGACGCCGATGGGCTTCTTCCTGACGATGT +TTATGGGCGGCCCGTTACTGGGTTACCTGTTGTTGAGTCTGGCTGGCGTCGATGGCTGGGCGATGCGTCT +GCTGCCAGCAATTTCTGTACTGGCACTGGTAGTGAGTGGCGTGGTGTCAGTGATGCAGGGCGCAGAGCTG +GCGACTATTCATAGTTCTGTGCAGCAGGCCGCAGCGCTGGTGCCGGACTATGGTGCGCTGATGTCCTGGC +GGATCGTGCTTTTGGCCGTTGCCCTGTGCTTGTGGATTGCACCACAGCTAAAAGGTTATCAGCCTGCGGT +TCCGCTACTTTCTGTATCATTCATTCTGCTTCTGGCAGGGGAATTAATCGGTCGCGGCGTATTCTATGGT +TTGCATATGACCGTGGGGATGGCCGTCGCAAGCTAATCATAACAACCGGGGTTTCGGCCCCGGTTCTCTT +TTATTTCTGCTTCGTTAACGTGTCATAACTGGTCATCAAATTACGATAATCAGGAATGTGGTTAGAGAAC +AACGTCGCCAGTCCTTCAATATCATTACGCCAGTCGCGATGCAGCTCGCACGCCACGCCGAACCATGTCA +TCAATTGCGCACCAGCTTGCGACAAGCGATCCCATGCCGAATGCCGGGTAATTTCATTAAAGGTCCCTGA +CGCGTCAGTCACGACAAAGACGTCAAACCCTTCTTCAATGGCTGAAAGCGCCGGGAATGCCACGCAAACT +TCGGTTACCACACCGGCAATAATTAACTGTTTTTTACCTGTCGCTTTGACAGCTTTTACAAAATCTTCGT +TATCCCAGGCGTTAATATTTCCCGGGCGAGCAATGTAAGGTGTATCGGGGAATTGTGCTTTCAGTTCTGG +AACTAATGGGCCGTTAGGACCGGTTTCAAAACTGGTGGTAAGAATAGTTGGTAAGTTGAAATACTTAGCC +AGGTCACCCAGCGCCAGCACGTTATTTTTAAACTTATCGGGTTCGATATCCCGTACAAGGGAAAGTAAAC +CAGCCTGGTGATCAACAAGCAAAACGGCAGCATCATTTTTATCAAGACGAACATACGGTTTGGTCATCCT +CTTCTCCTTTCGAGAGTCAGTGGTACGTCTGAAATCGATCAGACGCGATGCATTGCTCTGAAAGCATAGA +CGGGAAATATGAGTTTGCTGTGACCATGAAATTTTTCGACTGAACGAAGCGTATGAAATTTGTGTTAGTT +CAATAAAAACAATCAGATGAGACTAATCATCTCTTCAGCATTAGCGTTATGAATGAGTAATATAAATCGA +TAATACCGCCGCTGGGATATCGCGTATTTTCACCCATTGACAATGTTTTTGGCGGTGGCATGATGCGCAT +GAAATTTGAACTTCCTCACGGTTTTAATTCATGTCCACGTATACCCAGCCTGTCATGCTTTTGCTGTCTG +GCCTGCTTTTGTTGACTCTGGCGATTGCGGTGTTAAATACACTCGTGCCGCTTTGGCTCGCCCAGGAACA +CATGTCCACATGGCAGGTAGGCGTTGTCAGCTCATCCTATTTTACCGGCAACCTTGTCGGTACATTGCTG +ACAGGGTATGTCATTAAGCGCATTGGCTTTAACCGCAGCTATTATCTGGCCTCCTTCATTTTTGCCGCTG +GCTGTGCCGGCCTTGGCCTGATGATTGGATTCTGGAGCTGGTTGGCTTGGCGTTTTGTCGCGGGCGTCGG +CTGTGCCATGATTTGGGTGGTTGTTGAGAGCGCGCTGATGTGCAGTGGGACGTCACGTAACCGTGGGCGT +TTGCTTGCTGCGTATATGATGGTTTATTACGTGGGAACGTTTTTAGGCCAGTTACTGGTCAGCAAAGTTT +CAACCGAGCTGATGTCCGTATTGCCGTGGGTTACAGGTTTGACGTTGGCAGGGATCTTACCGCTGTTGTT +TACGCGTGTGCTGAATCAGCAGGCTGAAAACCATGATTCGACGTCAATTACGTCAATGCTAAAACTCCGT +CAGGCGCGGCTTGGCGTGAATGGCTGCATTATCTCAGGAATCGTTCTGGGATCTCTATATGGCCTGATGC +CGCTGTACCTCAATCACAAAGGGGTGAGCAATGCCAGCATTGGTTTCTGGATGGCGGTACTGGTCAGTGC +GGGTATCCTTGGACAATGGCCGATTGGACGTCTGGCGGATAAGTTTGGTCGACTGCTGGTGTTGCGTGTT +CAGGTCTTTGTCGTCATTCTCGGCAGTATCGCGATGCTTAGCCAGGCGGCGATGGCCCCAGCGTTATTCA +TCCTCGGTGCCGCTGGCTTTACGCTATATCCGGTGGCGATGGCATGGGCTTGCGAGAAAGTTGAACATCA +TCAACTGGTGGCGATGAACCAGGCCTTACTGTTGAGCTATACTGTGGGAAGTCTGCTTGGCCCGTCATTT +ACCGCTATGCTAATGCAGAATTTCTCCGATAATTTATTGTTTATCATGATCGCCAGCGTATCGTTTATCT +ATTTGCTGATGCTGCTGCGCAACGCCGGTCATACGCCGAAACCCGTTGCTCACGTGTAAATGAATTCAAG +CAGAGTGTGAACTTACTGTTTCACACTCTGCTTTTTTGTTTCTTCTATCTGACTTGCTTTATTCCAAATT +TTATTCGTTTAAAAATAAAATGTGCAGCAGGTTATAATTTTGCATTTCGCTATTTCCGCACTTCTTATTT +GCCGCGCATAATCCCTCGTTTTACCGATGCCCCTTTAATTTTGGCGAAGGATTTGTCTATGGCTGGGAAT +GTTCAGGAAAAACAGTTGCGATGGTACAACATTGCGCTGATGTCTTTTATCACTGTCTGGGGTTTTGGCA +ACGTTGTTAATAACTATGCCAACCAGGGGCTGGTGGTTGTTTTTTCATGGGTGTTTATCTTTGCACTCTA +TTTCACACCTTATGCGCTAATTGTTGGTCAGTTAGGCTCGACCTTCAAAGATGGGAAGGGCGGGGTCAGT +ACCTGGATTAAACACACGATGGGACCCGGACTGGCTTATCTCGCCGCGTGGACCTACTGGGTGGTGCATA +TTCCCTATCTGGCACAAAAACCCCAGGCAATTCTGATTGCGCTCGGTTGGGCGATGAAAGGCGACGGTTC +GCTAATCAAAGAATATTCAGTCGTAGCGTTACAGGGGTTAACGCTGGTGCTGTTTATCTTCTTTATGTGG +GTTGCTTCACGCGGTATGAAATCGCTGAAAATCGTCGGTTCTGTGGCAGGGATTGCTATGTTTGTTATGT +CACTCCTGTATGTGGCGATGGCGGTAACCGCGCCTGCAATTACTGAAGTGCATATTGCGACCACAAACAT +TACCTGGGAAACGTTCATTCCTCATATCGACTTTACCTACATTACCACTATTTCAATGCTGGTTTTCGCG +GTTGGCGGAGCAGAGAAGATTTCTCCTTACGTTAATCAAACGCGCAACCCAGGAAAAGAATTTCCAAAAG +GGATGTTATGCCTGGCGGTGATGGTTGCGGTTTGTGCCATTCTGGGCTCGCTGGCGATGGGGATGATGTT +TGATTCGCGTAATATCCCGGATGACTTAATGACCAACGGTCAGTATTACGCCTTTCAGAAGCTGGGCGAG +TATTACAACATGGGTAATACTTTAATGGTGATTTACGCCATTGCGAATACCCTGGGACAAGTAGCGGCGC +TGGTATTCTCGATTGATGCCCCGCTTAAAGTGCTATTAGGTGATGCTGACAGCAAATATATTCCAGCCAG +TTTATGTCGTACCAACGCTTCTGGTACGCCCGTTAATGGCTATTTTCTGACCCTGGTACTGGTGGCGATT +CTGATTATGCTGCCGACTCTCGGCATTGGTGATATGAACAATCTCTATAAATGGCTGTTGAACCTTAATT +CGGTAGTGATGCCGCTGCGTTATTTATGGGTATTTGTTGCATTTATTGCAGTCGTTCGCTTGGCGCAGAA +ATATAAACCAGAATATGTCTTTATTCGTAATAAGCCTCTGGCAATGACCGTCGGGATTTGGTGTTTTGCC +TTTACCGCCTTTGCCTGTTTGACGGGGATCTTCCCGAAAATGGAAGCCTTCACTGCAGAGTGGACCTTCC +AGTTGGCGCTGAATGTTGCAACGCCGTTTGTGCTGGTAGGATTAGGACTGATATTCCCGCTGCTGGCGCG +TAAAGCGAATAGTAAATAATTATTGTGGTCGGTGACGCTGACTCTGGCAGATCTGACCCGTTTTTACATA +ATCGAGAAATGCGCGCAAGCCGCAGGACATATACTGGCGGTTTGGATAATAGATCTGGAAGCCTGGACGC +TCTGTGCTCCAGTCTTCCAGTACACATTCTAAACGACCAGTATCAAGGTACTCCTTGATCTGTTCATAGA +GCAGATACCCGATACCAGCACCCATCAAAACGGCCTCCAGTTCAGCATCAACATCATCCAGAATGATATT +TCCTGCGACAGCAATTTCCAGCTCCTTTGCAAATTGCCAGTGGAAAGGTTTGCCGCTGGGATAACGAAAA +ACAACACATTGATGATTAAGCAGATCATGAGGATGGCGGGGTTTGCCATATCTTGCAAAGTACTCTGGCG +TTGCTGCTACACATAATTTCACTGGCGGGCCGATCGCCACGCTGATCATATCTTTTTCGACGATGCAACT +AAGTCGAACGCCAGCGTCAAAGCCCTGTTGGACGATATCGACAAGAGAGTCGTCAGTTGTGAGCTCGACT +TTAATATCAGGATATTCACGTGTGAAACCAACCAGTAAAGACATTAAAAATATACGTGCAGCTACCCGGG +CGGCATTGATTTTGAGCGTTCCTGTCGGTGTCAGACGAAAATCATTCATCTCATCTAACATGATCTGAAT +TTCGTCGAAAGCTGGGCGCAATCGTTCATAGAGATTAGAACCCGCTTCCGTTAACGATACGCTTCGGGTT +GTCCGATTGAATAAGCGAATTTTAAGACGTTGTTCCAGTGTTTTAATACTATGGCTAATGGCGGACGAGG +ATAAGCCTAACTCATCGCCCGCTGCACGAAAGCTTTGATTACGGGCCACGGCAAAGAAAGTGGCAAAGTC +AGACATATTCATCCGCATTAGTGAAAATCCTTCATTAACTCATCCTGAATCATCACGTTTACAGGATTAT +GCCGCCTGCGTAAAGTGCGCTCCAGAACTTAACGTGGAGGTAAAATTATGCAGTCTGAACGTATTTATTT +GGTATGGGCCCATCCTCGTCATGATTCATTGACCGCACATATTGCTGATGCGATCCATCAGCGGGCAATG +GAGCGGAAAATACAGGTGACGGAACTCGATTTATATCGGCGTAATTTCAACCCAGTGATGACGCCGGAAG +ATGAACCAGACTGGAAGAATATGGATAAACGTTATTCTCCAGAGGTTCATCAGCTTTATTCAGAGCTGCT +TGAACATGACACGTTAGTGGTGGTTTTTCCTCTCTGGTGGTACAGCTTCCCGGCAATGCTAAAAGGATAT +ATTGACAGAGTATGGAATAATGGGCTGGCTTATGGAGATGGGCACAAATTACCATTCAATAAAGTTCGTT +GGGTGGCGCTGGTTGGAGGAGACAAAGAATCATTTGTCCAGATGGGCTGGGAAAAAAATATAAGCGATTA +TTTAAAAAATATGTGCAGTTATCTTGGTATTGAAGATGCCGATGTCACTTTCTTGTGTAATACAGTGGTA +TTCGATGGGGAAGAACTTCACGCGAGCTATTATCAGTCGTTATTATCTCAGGTACGGGATATGGTAGATG +CACTATAAGATGTGTTAAAAACGCTGTAGCAGAATGAAGCGCGGAATAAAAAAGCGGCAACTCAATAAAG +TTGCCGCTTTACGGGGAAATTAGAACATTACCTTATGACCGTACTGCTCAAGAATGCCTTTCACGCGTTC +CATGGTCTCTTTCTTCGGTGGTTTAACACCGTCGAGTTTGTACTCTTCACCCATTGCCACCCATTTGTGT +TTGCCCAGCTCGTGGTAGGGGAGAAGCTCGATTTTCTCAACGTTGCCCATATCACGGGTAAATTCACCGA +GGCGATGCGCTGAATCGTCATCGTCAGACCAGCCTGGGACAACAACGTAGCGGATCCACACCTTCACATT +TTTGTTCGCCAGATATTTAGCGAACTCCAGCGTGCGGTGGTTGGAAACTCCAACCAGATTTTGGTGGATC +TCGTCGTTCATCTGTTTGAGATCGAGCATTACCAGGTCGGTTACTTCCAGCAGTTCATCAATCACCGGAT +CGTAACGACGAACAAAACCGTTGGTGTCCAGACAGGTATGAATGCCTTCTTTTTTGCAGGCGCGGAACCA +GTCACGAACAAACTCAGCTTGCAGGATTGCTTCACCGCCGGATGCGGTAACGCCGCCGCCGGAAGCGTTC +ATAAAGTGGCGATAGGTCACCACTTCCTTCATCAAATCTTCAACGGTAACTTCTTTACCGCCATGCGTGT +CCCAGGTGTCGCGGTTATGACAATACAGGCAGCGCATCAGGCAGCCCTGGAAAAAGGTGATAAAGCGAAT +ACCTGGGCCGTCTACGGTTCCACAGGATTCAAAGGAGTGAATGCGACCAATAACTGACATTGCGGTGTTT +CTCCAGATGTGGCCCATCTGAGGCCGTGTTGGTGCGCAGCTCGAAGGCTACGTCGAGTCTGTTTTGGCAG +TCACCTTAAAGTATAGATAGCTGACAAAAAAGGCTCTCGCGCTAAAAAAGGCCCCACTTTCGTGGAGCCT +TTATTGTACGCTTTTTACTGTACGATTTCAGTCAAATCTAATTACATAGATTGAGTGAAGGTACGAGTAA +TAACGTCCTGCTGCTGTTCTTTAGTCAGCGAGTTGAAACGTACTGCGTAGCCAGATACACGGATGGTCAG +CTGCGGATATTTTTCCGGGTTTTCCATCGCGTCGAGCAGCATTTCACGGTTCATCACGTTAACGTTCAGG +TGCTGACCACCTTCGATGGATGCTTCGTGGTGGAAGTAACCATCCATCAGACCAGCCAGGTTGGTCTTAC +GAACTTCGTCGTCTTTACCCAGTGCGTTCGGAACGATAGAGAAGGTGTAGGAGATACCATCTTTAGCGTA +AGCAAACGGCAGTTTAGCAACGGAAGTCAGAGAGGCTACTGCACCTTTCTGGTCACGACCGTGCATCGGG +TTAGCACCCGGTCCGAACGGCGCGCCAGCACGACGACCGTCTGGGGTGTTACCCGTTTTCTTACCATACA +CAACGTTAGAAGTGATGGTCAGAACAGACTGAGTCGGGATAGCGTCACGGTAGGTGTGCAGTTTCTGAAT +TTTCTTCATGAAACGTTCTACCAGGTCAACAGCCAGGTCATCTACACGCGGATCATTGTTACCAAACTGC +GGGTATTCGCCTTCGATTTCGAAGTCGATAGCCAGACCGTCTTCGTCACGAATCGGTTTAACTTTCGCAT +ATTTGATTGCAGACAGGGAGTCAGCAGCAACGGACAGACCAGCGATACCACACGCCATGGTGCGGATAAC +GTCACGGTCGTGCAGCGCCATCAGAGAGGCTTCGTAGCTGTACTTGTCGTGCATGTAGTGGATGATGTTC +AGTGCAGTGATGTACTGTTTAGCCAGCCAGTCCATGAAGTGATCCATGCGCTCCATCACTTCATCATAGT +TCAGGACATCGCCTTTGATCGGTTCAGACTTCGGACCAACCTGCATTTTCAGTTTTTCGTCAACGCCGCC +GTTGATTGCGTACAGCATGGTTTTCGCCAGGTTTGCACGCGCACCGAAGAACTGCATTTGTTTACCAACG +ATCATCGGGCTTACGCAGCAAGCAATAGCGTAGTCATCGTTGTTGAAGTCCGGACGCATCAGGTCATCGT +TCTCATACTGCAGAGAAGAGGTGTCGATGGACACTTTAGCGGCGAATTTCTTGAAGTTCAGCGGCAGTTT +TTCAGACCACAGAATGGTCATGTTCGGTTCCGGAGACGGACCCATGGTGTACAGGGTGTTCAGGAAACGG +AAGCTGTTTTTGGTAACCAGGGTACGACCGTCGAGGCCCATACCACCGATAGATTCGGTTGCCCAGATCG +GGTCGCCAGAGAACAGTTCATCGTATTCCGGAGTACGCAGGAAGCGAACCATACGCAGTTTCATGACCAG +GTGGTCAACCATTTCCTGCGCTTCTTGTTCGGTGATCTTGCCAGCTTTCAGGTCACGTTCGATGTACACA +TCCAGGAAGGTGGAGGTACGACCGAAGGACATTGCAGCACCGTTCTGAGACTTAACAGCAGCCAGGTAGC +CGAAGTAAGTCCACTGGATAGCTTCCTGAGCGTTGGTAGCCGGACCAGAGATGTCGTAGCCGTATTTCGC +AGCCATTTCTTTCATCTGACCCAGAGCGCGGTGCTGTTCAGCGATTTCTTCGCGCAGACGGATAGTCTGT +TCCAGGTTTACGCCGTTTTCCAGATCAGCCTGCAGAGAAGTGAACTGTGCCAGTTTGTCTTTCATCAGGT +AGTCGATACCGTACAGCGCAACGCGACGGTAGTCACCGATGATACGGCCACGGCCATATGCATCTGGCAG +ACCGGTCAGAACACCAGATTTACGGCAACGCAGGATGTCCGGAGTGTAAACGTCGAACACGCCCTGGTTG +TGAGTTTTACGGTATTCAGTGAAGATTTTTTTGATCATCGGATCCAGTTCGCGGTTGTACGCTTTGCAGG +AACCTTCGATCATTTTGATACCACCGAACGGGATAAGAGCACGTTTCAGCGGAGCTTCAGTCTGCAGACC +AACGATTTTCTCAAGCTGCTTGTTGATGTAGCCAGCGTCGTGAGAGGTGATGGTGGAAGCAACAGCGGTG +TCAAAGTCAACTGGCGCGTGAGTGCGGTTTTCCAGTTTAACGCCTTCCATTACTTTGTCCCACAGGGTGG +TGGTCGCTTCAGTAGCGCCAGCCAGGAAGGACTCGTCACCCTCGTACGGAGTGTAGTTTTTCTGAATGAA +GTCACGGACGTTTACTTCATTCTGCCAGTCACCTTTGGTAAAACCTTCCCAGGCTGTGGCTAACTTTTCA +TTAAGCTCGGACATGTAACACCTACCTTCTTAAGTGGATTTTTTATTTACTGCGTACTTCGACAACCATT +AATGGTGGTCGTTTTCACGCAGGTAAATGACCCAGTATGTCAACCCAACCAACAAACCACCACCGATAAT +GTTGCCGATCGTAACCGGAATCAGGTTATCAGTGATGAAATTCATCACGGTCAGGTGAGAAAAATTTTCC +GGTGCAGAACCGACTGCGGTCCAAAATTCCGGGGATGCGAAGTCGCGGATTACAATACCCATCGGGATCA +TAAACATGTTTGCGATACTGTGCTCAAAACCGCTGGCAACAAACATCGCGACCGGCAGCACCATAATGAA +CGCTTTGTCCATCAGGCTGCGGCCAGAATAACTCATCCATACTGCCAGACATACCATCAGGTTTGCCAGG +ATACCAAGACAGACGGCCTCAATAAAAGTATGGTGCACTTTGTGGTCGGCGGTTTGTAGGACGTTTAGTC +CCCATTGACCATTTGCGGTCATATACTCGCCGGAAAGCCACATTAAAAGTACAAACAGCAGTGCGCCGAC +CAGGTTGCCAAAATAGACATTTAGCCAGTTTTTCGCCAACTGACCCCAGGTGATGCGCCCACTCGCCTTA +GCAACAACAATCAACACGGTGGAAGTAAAGAGATCGGCTCCGCAGACAACACAAAGAATCAGCCCCAGAG +AGAAGCAAATGCCGCCAACCAGTTTTGCCATGCCGAAGGGCATTGTGCCTGTGCCAGTGGTTGCTGTGAT +ATAGAAGACGAATGCGATTGAGATGAAAACACCGGCGGTAATCGCCAGATAGAAAGTCTTAAGCGGATGT +TTCGTTGCTTTATAGACACCCGCCTCTTCGGCCACTTTGGCCATTGCAGCAGGAAGTAAAAGATCAAAAG +GGTTGTCAGCTTTCACACTAACTCTCTCTTTATTAAGTCGGCGACGAGATACTAACAAAGCATTATAGAT +GAGAAATTGATATAGATCATATCTCGCCTGGCTTATAGGCCCGTAACTCGCATGGTTTTTATGCAAATAC +GGAGTAAATATTTGATTATCCAAATAAAAATAAATTTTAAAAATTAACAAATGAGTTGAATTTTTTCCGC +ATCCTCCGCTAAAACAGTTAATTAAAAGGGAGCATCAGGCGAATAAAGTAACAATATCGATCGTATTTAT +TAAATACAAATTACCGATATTTAACCTTATAATTACAATTATTTTATTAATGCAAATATATGTAAAGCGG +GGCATTAAAAAAACGCCCCGTAATATAACTCAGACTAATCATTAAGCCTACATTGCGTAGGCTATTTGAT +TTTATTTTGCCCAGAATGCTGCTTTGGCGCGCTGCAGCTTTTCGTAGGCCTTCAACAACGACTGATGTGC +AGCAAACGCGTGCAGATCGCTATCTACCGGTTGCAGGCCGTAAAACGCCGCTTCGCCGCTCATTGCCGCA +CTGGCGGCTTCTACGGCATCTGCGCCGTACATGCGAACAAACGCATTCAGATATTGCAGCGGCTGGCGAT +CTTCTTCCTGTGCCAGTAATAACAACGTTTGCAGGCAGCGATAATAGTTGGCGCGTTCCGGACTAAATAC +TGATGAGTTAAACTCCATCGTCCATTCGGTCCAGACCAGAGCCTGTTCCAGATCGCCACCAGCCAGCGCC +AGCATGGCTTTTAATTCACCGATACGCAGGGTGTACCAACCGTTATCCGACCCGGTCGCCAGACCCAACA +GCTCACGCACGCGGGTAAAGTCATCAAAACCTTCTTCATCCAGTTGCTCGATGAGGTTCAGGTAATCTTC +TTTTTCCCACTCGCTGCCTGGTAGCGAAAGAATCGTTTCACGTAAATGGCTGCCCATACTGTTATTCGCG +AGCCACAGATCTTCAGCCGGATAAATATCGGACATGCCAGGCACGATAATACGGCAAGCATAAACGCCCA +GATGCTCGTAATCGGCAATATAAACTTCTTTATCTTCTTTGTTGAAGATAGCCATCAGTGTGGCGAACTC +TTCTTCCGTGGTGCCGGAGAAATTCCAGTCCACAAACGGATAATCGGCATCCTGCTTGAACAGGTCCCAG +GAGATTAAACCGCTGGAATCGATAAAGTGCGTTTCGAGGTTGGTATGTTCAGCGACTTCTTCATCATCGA +AGGTTGGCGGAGTAAACACATCCAAATCTTTCAGGCCACGACCTTGCAGCAGCTCGGTCACGGTACGTTC +CAGTGCTACGCCAAAATCAGGATGCGCACCGAAAGAGGCAAAGCAGGTACCGTTAGCAGGATTGAACAGT +ACCACGCAAATCACCGGATACTGGCCGCCAAGCGAACCGTCATAAGCGAAGATTGGGAAACCCTCCGCTT +CCAGCGTTTCGATGGCTTCAACTACTGCTGGGTAACGCGCCAGCACGTCTGCCGGGATCTCTGGCAGGCT +GATGCTTTCAGCAATAATGCGGTTTTTCACGTAGCGTTCGAAAACTTCAGACAATCCCTGAACGCGTGCT +TCGTTGCGGGTATTACCTGCGGACATACCGTTGGAGACGTACAGGTTACCAATGATATTCATCGGAATAT +AAACGGTCTGATTGTCGGACTGACGCGTAAACGGCAGGCCGCAAATACCACGATCTTCGTTACCGGATTG +TAGGTCAATCAGCATGCTGCCGGTCAGTTCATTCTCCGGATCATAAAACGCGCGCAGACGGTCATCGAGC +AGCCCTTCTGGCACATCGTCATTTTCGGTCAGTGGGAACCATTTTTCGTTGGGATAATGCACGAACGGAC +CGTTGGCGATGGTTTCGCCCAGCCAGAAGTCCGCAAAAAAGTAGTTGGTTGAGAGACGCTCGAAATATTC +ACCGAGTGCAGAAGCCAGCGCCGCTTTCTTGGTTGCGCCTTTACCGTTGGTAAAACACAGTGCGCACTCT +TTGTCGCGAATATGTACAGACCAGACGTTAGGCACGGGATTCAGCCAGGAGGCCTCTTCAATCTGAAAGC +CGAGGTCTGAAAGTTTTTGCTGGAAGCGAGCGATGGAATCTTCCAGAGCGGCATCTTTGCCGGGGATAAA +TGTTTGCGTCATGAAAATCACTTTAGTCGTACGGAAAGCGCGCAATAATACGGGTTTTATCTCAAAGGCG +CTATCACCGCCGCCATGCCGATGAACTGTTGACTATGCTTTTAGCGGATAAACCACGTTAAGAGCATAAA +AATGAAGGCGTTCGATCTCCACCGTATGGCATTTGATAAAGTGCCTTTTGATTTCCTTGGCGAAGTTGCA +CTACGTAGTCTTTATACCTTTGTACTGGTCTTTTTGTTCCTCAAAATGACCGGAAGACGCGGTGTGCGGC +AGATGTCGCTGTTTGAAGTTTTAATCATTCTGACGCTGGGATCAGCGGCGGGAGATGTGGCGTTTTATGA +TGATGTGCCGATGGTCCCGGTACTTATCGTCTTTATTACTCTGGCGTTGTTATACCGCCTGGTAATGTGG +TTGATGGCGCACAGTGAAAAACTGGAAGATCTTCTGGAAGGCAAGCCAGTTGTCATTATTGAAGATGGCG +AGCTGGCCTGGTCGAAACTCAATAACTCCAACATGACGGAATTTGAGTTCTTTATGGAGCTACGATTGCG +TGGCGTGGAGCAGCTGGGGCAGGTACGTCTGGCGATTCTCGAAACCAACGGGCAAATCAGTGTCTATTTC +TTTGAAGATGACAAGGTGAAACCGGGTTTACTTATTTTACCCAGTGATTGTACGCAGCGTTACAAAGTGG +TGCCGGAGTCGGCGGACTATGCCTGTATTCGTTGTAGTGAAATCATTCATATGAAAGCGGGGGAAAAACA +ATTATGTCCGCGCTGTGCAAATCCAGAATGGACGAAGGCAAGTCGGGCAAAACGGGTGACCTGACAGTAA +AAACATCGGCTTTTTGCTAATAATCCGAGAGATTCTTTTGTGTGATGCAAGCCACATTTTTGCCCTCAAC +GGTTTTACTCATTGCGATGTGTGTCACTGAATGATAAAACCGATAGCCACAGGAATAATGTATTACCTGT +GGTCGCAATCGATTGACCGCGGGTTAATAGCAACGCAACGTGGTGAGGGGAAATGGCTCAAATCTTCAAT +TTTAGTTCTGGTCCGGCAATGCTACCGGCAGAGGTGCTTAAACAGGCTCAACAGGAACTGCGCGACTGGA +ACGGTCTTGGTACGTCGGTGATGGAAGTGAGTCACCGTGGCAAAGAGTTCATTCAGGTTGCAGAGGAAGC +CGAGAAGGATTTTCGCGATCTTCTTAATGTCCCCTCCAACTACAAGGTATTATTCTGCCATGGCGGTGGT +CGCGGTCAGTTTGCTGCGGTACCGCTGAATATTCTCGGTGATAAAACCACCGCAGATTATGTTGATGCCG +GTTACTGGGCGGCAAGTGCCATTAAAGAAGCGAAAAAATACTGCACGCCTAATGTCTTTGACGCCAAAGT +GACTGTTGATGGTCTGCGCGCGGTTAAGCCAATGCGTGAATGGCAACTCTCTGATAATGCTGCTTATATG +CATTATTGCCCGAATGAAACCATCGATGGTATCGCCATCGACGAAACGCCAGACTTCGGCGCAGATGTGG +TGGTCGCCGCTGACTTCTCTTCAACCATTCTTTCCCGTCCGATTGACGTCAGCCGTTATGGTGTAATTTA +CGCTGGCGCGCAGAAAAATATCGGCCCGGCTGGCCTGACAATCGTCATCGTTCGTGAAGATTTGCTGGGC +AAAGCGAATATCGCGTGTCCGTCGATTCTGGATTATTCCATCCTCAACGATAACGGCTCCATGTTTAACA +CGCCGCCGACATTTGCCTGGTATCTATCTGGTCTGGTCTTTAAATGGCTGAAAGCGAACGGCGGTGTAGC +TGAAATGGATAAAATCAATCAGCAAAAAGCAGAACTGCTATATGGGGTGATTGATAACAGCGATTTCTAC +CGCAATGACGTGGCGAAAGCTAACCGTTCGCGGATGAACGTGCCGTTCCAGTTGGCGGACAGTGCGCTTG +ACAAATTGTTCCTTGAAGAGTCTTTTGCTGCTGGCCTTCATGCACTGAAAGGTCACCGTGTGGTCGGCGG +AATGCGCGCTTCTATTTATAACGCCATGCCGCTGGAAGGCGTTAAAGCGCTGACAGACTTCATGGTTGAG +TTCGAACGCCGTCACGGTTAATGCCGAAATTTTGCTTAATCCCCACAGCCAGCCTGTGGGGTTTTTATTT +CTGTTGTAGAGAGTTGAGTTCATGGAATCCCTGACGTTACAACCCATCGCTCGTGTCGATGGCACTATTA +ATCTGCCCGGTTCCAAGAGCGTTTCTAACCGCGCTTTATTGCTGGCGGCATTAGCACACGGCAAAACAGT +ATTAACCAATCTGCTGGATAGCGATGACGTGCGCCATATGCTGAATGCATTAACAGCGTTAGGGGTAAGC +TATACGCTTTCAGCCGATCGTACGCGTTGCGAAATTATCGGTAACGGCGGTCCATTACACGCAGAAGGTG +CCCTGGAGTTGTTCCTCGGTAACGCCGGAACGGCAATGCGTCCGCTGGCGGCAGCTCTTTGTCTGGGTAG +CAATGATATTGTGCTGACCGGTGAGCCGCGTATGAAAGAACGCCCGATTGGTCATCTGGTGGATGCGCTG +CGCCTGGGCGGGGCGAAGATCACTTACCTGGAACAAGAAAATTATCCGCCGTTGCGTTTACAGGGCGGCT +TTACTGGCGGCAACGTTGACGTTGATGGCTCCGTTTCCAGCCAATTCCTCACCGCACTGTTAATGACTGC +GCCTCTTGCGCCGGAAGATACGGTGATTCGTATTAAAGGCGATCTGGTTTCTAAACCTTATATCGACATC +ACACTCAATCTGATGAAGACGTTTGGTGTTGAAATTGAAAATCAGCACTATCAACAATTTGTCGTAAAAG +GCGGGCAGTCTTATCAGTCTCCGGGTACTTATTTGGTCGAAGGCGATGCATCTTCGGCTTCTTACTTTCT +GGCAGCAGCAGCAATCAAAGGCGGCACTGTAAAAGTGACCGGTATTGGACGTAACAGTATGCAGGGTGAT +ATTCGCTTTGCTGATGTGCTGGAAAAAATGGGCGCGACCATTTGCTGGGGCGATGATTATATTTCCTGCA +CGCGTGGTGAACTGAACGCTATTGATATGGATATGAACCATATTCCTGATGCGGCGATGACCATTGCCAC +GGCGGCGTTATTTGCAAAAGGCACCACCACGCTGCGCAATATCTATAACTGGCGTGTTAAAGAGACCGAT +CGCCTGTTTGCGATGGCAACAGAACTGCGTAAAGTCGGCGCGGAAGTGGAAGAGGGGCACGATTACATTC +GTATCACTCCTCCGGAAAAACTGAACTTTGCCGAGATCGCGACATACAATGATCACCGGATGGCGATGTG +TTTCTCGCTGGTGGCGTTGTCAGATACACCAGTGACGATTCTTGATCCCAAATGCACGGCCAAAACATTT +CCGGATTATTTCGAGCAGCTGGCGCGGATTAGCCAGGCAGCCTGAATGAACAACGGGCAATAAATAGCCA +AATCTTTCTTTATCAAAACGTCGGCACATTGTCGGCGTTTTTTTTCGGACCTTGTGAGTCATTTTGATTA +ATGGTAGCGTCGCTTGTCAATGTAAGTTGTTGATACATAATATTTATATATGATTAATCAACGGATGATT +CACATGAAGAATACTAAATTACTGCTGGCGATTGCGACCTCTGCAGCATTACTGACAGGGTGTCAAAATA +CCCACGGTATTGATACCAATATGGCTATCAGCTCCGGTTTAAATGCCTATAAAGCAGCAACATTAAGCGA +TGCCGATGCAAAAGCGATTGCCAATCAGGGCTGTGCCGAAATGGACAGCGGCAATCAAGTCGCAAGTAAA +TCCAGCAAGTACGGTAAACGTCTGGCAAAAATCGCCAAAGCATTGGGTAACAATATTAATGGCACGCCGG +TCAACTATAAGGTTTATATGACCAGCGACGTCAACGCATGGGCGATGGCGAACGGCTGTGTTCGTGTCTA +CAGTGGCCTGATGGACATGATGAATGACAACGAAATTGAAGGCGTTCTGGGCCATGAACTGGGCCACGTC +GCGTTGGGTCACTCGCTGGCTGAAATGAAAGCTTCTTATGCGATCGTTGCCGCACGCGATGCCATTTCAG +CTACCAGCGGTGTGGCTTCCCAGCTTTCCCGCTCACAATTAGGTGATATCGCAGAAGGCGCTATCAATGC +TAAATACTCCCGTGATAAAGAGTCCGAAGCAGATGATTTCTCCTTTGATCTGTTGAAGAAACGTGGCATC +AGCACCCAGGGGCTGGTTGGCAGCTTTGAAACACTGGCTAGCCTGGATGGCGGTCGCACCCAGTCCATGT +TTGACTCTCACCCACCATCAACAGAGCGTGCGCAACACATCCGTGATCGTATCGCCTCTGGTAAGTAAAT +CATTGTCATCTTTCGGGCTGGTCTTCTGCCAGCCCGCTATAATTGCGCAATAAATCCCCATCTGAATACA +GACAAAACTGGTTTTTGCACACAACGTTAACGATTTGTGGCGTCGGCGCGTATAATGCGCGCGGTTATGT +TAACGGTACGCCTGTTTTAAGGAGATAAAGATGACGGCAATTGCCCCGGTTATTACCATTGATGGCCCAA +GCGGTGCAGGGAAAGGCACCTTGTGTAAGGCTATGGCGGAAGCGTTGCAATGGCATCTGCTGGACTCGGG +TGCAATTTATCGCGTACTGGCATTGGCGGCATTACATCACCATGTTGATGTTGCGTCGGAAGATGCGCTG +GTACCGCTGGCATCCCATCTGGATGTACGTTTTGTGTCGACCAATGGCAATCTGGAAGTGATCCTCGAAG +GGGAAGATGTCAGCGGCGAAATTCGTACTCAGGAAGTGGCGAATGCAGCTTCACAAGTCGCGGCATTCCC +ACGCGTTCGTGAAGCATTATTGCGTCGCCAACGCGCGTTTCGCGAATTACCAGGTCTGATTGCCGATGGC +CGCGACATGGGAACGGTGGTATTCCCTGATGCACCAGTGAAAATTTTCCTTGACGCCTCCTCGGAAGAAC +GTGCGCATCGCCGCATGCTACAGTTGCAGGAGAAGGGCTTTAGTGTTAACTTTGAGCGCCTTTTGGCCGA +GATCAAAGAACGCGACGACCGCGATCGTAACCGAGCGGTAGCGCCACTGGTTCCGGCAGCCGATGCTTTA +GTGTTGGATTCCACCACCTTAAGCATTGAGCAAGTGATTGAAAAAGCGCTACAATACGCGCGCCAGAAAT +TGGCTCTCGCATAAGCGACCGAATTTGCAGTACCCCCGTTGCAATGGAATGACAGCGGGTATGTTAAACA +ACCCCATCCGGCATGGAGCCAGGTGGACGTTAAATATAAACCTGAAGATTAAACATGACTGAATCTTTTG +CTCAACTCTTTGAAGAGTCCTTAAAAGAAATCGAAACCCGCCCGGGTTCTATCGTTCGTGGCGTTGTTGT +TGCTATCGACAAAGACGTAGTACTGGTTGACGCTGGTCTGAAATCTGAGTCCGCCATCCCGGCTGAGCAG +TTCAAAAACGCCCAGGGCGAGCTGGAAATCCAGGTAGGTGACGAAGTTGACGTTGCTCTGGACGCAGTAG +AAGACGGCTTCGGTGAAACTCTGCTGTCCCGTGAGAAAGCTAAACGTCACGAAGCCTGGATCACGCTGGA +AAAAGCTTACGAAGATGCTGAAACTGTTACCGGTGTTATCAACGGCAAAGTTAAGGGCGGCTTCACTGTT +GAGCTGAACGGTATTCGTGCGTTCCTGCCAGGTTCTCTGGTAGACGTTCGTCCGGTGCGTGACACTCTGC +ACCTGGAAGGCAAAGAGCTTGAATTTAAAGTAATCAAGCTGGATCAGAAGCGCAACAACGTTGTTGTTTC +TCGTCGTGCCGTTATCGAATCCGAAAACAGCGCAGAGCGCGATCAGCTGCTGGAAAACCTGCAGGAAGGC +ATGGAAGTTAAAGGTATCGTTAAGAACCTCACTGACTACGGTGCATTCGTTGATCTGGGCGGCGTTGACG +GCCTGCTGCACATCACTGACATGGCCTGGAAACGCGTTAAGCATCCGAGCGAAATCGTCAACGTGGGCGA +CGAAATCACTGTTAAAGTGCTGAAGTTCGACCGCGAACGTACCCGTGTATCCCTGGGCCTGAAACAGCTG +GGCGAAGATCCGTGGGTAGCTATCGCTAAACGTTATCCGGAAGGTACCAAACTGACTGGTCGCGTGACCA +ACCTGACCGACTACGGCTGCTTCGTTGAAATCGAAGAAGGCGTTGAAGGCCTGGTACACGTTTCCGAAAT +GGACTGGACCAACAAAAACATCCACCCGTCCAAAGTTGTTAACGTTGGCGATGTAGTGGAAGTTATGGTT +CTGGATATCGACGAAGAACGTCGTCGTATCTCCCTGGGTCTGAAACAGTGCAAAGCTAACCCGTGGCAGC +AGTTCGCGGAAACCCACAACAAGGGCGACCGTGTTGAAGGTAAAATCAAGTCTATCACTGACTTCGGTAT +CTTCATCGGCTTGGACGGCGGCATCGACGGCCTGGTTCACCTGTCTGACATCTCCTGGAACGTTGCAGGC +GAAGAAGCAGTTCGTGAATACAAAAAAGGCGACGAAATCGCTGCAGTTGTTCTGCAGGTTGACGCAGAAC +GTGAACGTATCTCCCTGGGCGTTAAACAGCTCGCAGAAGATCCGTTCAACAACTGGGTTGCTCTGAACAA +GAAAGGCGCTATCGTAACCGGTAAAGTAACTGCAGTTGACGCTAAAGGCGCAACCGTAGAACTGGCTGAC +GGCGTTGAAGGTTACCTGCGTGCTTCTGAAGCATCCCGTGACCGCGTTGAAGACGCTACCCTGGTTCTGA +GCGTTGGCGACGAAGTTGAAGCTAAATTCACCGGCGTTGATCGTAAAAACCGCGCAATCAGCCTGTCTGT +TCGTGCGAAAGACGAAGCTGACGAGAAAGATGCAATCGCAACTGTTAACAAACAGGAAGATGCAAACTTC +TCCAACAACGCAATGGCTGAAGCTTTCAAAGCAGCTAAAGGCGAGTAATTCTCTGACTCTTCGGGATTTT +TATTCCGAAGTTTGTTGAGTTTACTTGACAGATTGCAGGTTTCGTCCTGTAATCAAGCACTAAGGGCGGC +TACGGCCGCCCTTAATCAATGCAGCAACAGCAGCCGCTTAATTTGCCTTTAAGGAACCGGAGGAATCATG +ACCAAGTCAGAATTGATAGAAAGACTTGCCACCCAGCAATCGCACATTCCCGCCAAGACGGTTGAAGATG +CAGTAAAAGAGATGCTGGAGCATATGGCCTCGACTCTTGCGCAGGGCGAGCGTATTGAAATCCGCGGTTT +CGGCAGTTTCTCTTTGCACTACCGCGCACCACGTACCGGACGTAATCCGAAGACTGGCGATAAAGTAGAA +CTGGAAGGAAAATACGTTCCTCACTTTAAACCTGGTAAAGAACTGCGCGATCGCGCCAATATTTACGGTT +AAGTTTTTTACTCAAACTTGAACGAGAGAAAAGCACCTGTCGGGTGCTTTTTTCATTTCTCTAATCTGGA +ACTGGAAGCTGCCTCGCAGAGTTTTGAACAGTTTTCACCCTTTCGTTAAATTCTTCTGAATATGCCTCGG +GGAACGCAAAATTCCCACCAGACAACCGCTCAACAAAGTTGCACACTTTCCATAAACAGGGAGGGGTGCA +TGAAAATAACGACAGTCGGTGTATGCATAATTAGCGGAATTTTTCCGTTGCTGATTTTGCCCCAATTGCC +TGGGACATTAACCCTTGCGTTTCTGACTCTCTTCGCCTGCGTACTGGCATTTATCCCTGTTAAAACCGTC +CGTTATATCGCGCTGACGTTGCTGTTTTTCGTTTGGGGCATATTATCAGCAAAGCAAATTTTGTGGGCAG +GAGAAACCTTAACTGGCGCGACGCAGGATGCAATTGTTGAGATCACTGCAACTGACGGCATGACCACTCA +TTACGGTCAAATTACTCATCTACAAGGTCGACGTATATTCCCTGCGTCAGGTCTCGTGATGTATGGCGAA +TATCTTCCGCAAGCGGTTTGTGCTGGACAACAATGGTCAATGAAACTCAAAGTTCGTGCAGTTCATGGCC +AACTTAATGATGGCGGCTTTGATAGCCAGCGTTATGCCATTGCCCAGCATCAGCCGCTCACCGGCCGTTT +TCTGCAGGCAAGTGTCATTGAACCGAATTGTAGCCTGCGTGCACAGTATCTGGCGTCACTACAAACAACG +CTGCAACCCTATCCGTGGAATGCGGTTATTCTTGGTTTAGGTATGGGGGAACGGTTATCCGTCCCCAAAG +AAATCAAAAATATCATGCGCGATACTGGAACGGCGCATTTAATGGCGATATCGGGATTGCACATCGCTTT +TGCGGCGTTGCTGGCTGCCGGACTCATTCGCAGTGGACAAATTTTTCTGCCTGGGCGCTGGATCCACTGG +CAAATACCATTAATTGGCGGAATCTGCTGTGCTGCTTTTTATGCCTGGTTGACGGGAATGCAACCTCCTG +CATTGCGTACCATGGTGGCGCTTGCTACGTGGGGAATGCTTAAGTTAAGTGGGCGACAGTGGAGTGGCTG +GGATGTATGGATATGTTGTCTGGCGGCAATTTTGCTGATGGATCCTGTTGCCATTCTCTCGCAAAGTTTA +TGGCTCTCTGCCGCTGCGGTCGCGGCATTGATATTTTGGTATCAGTGGTTTCCCTGTCCTGAGTGGCAAC +TGCCGCCGGTATTGCGTGCAGTTGTTTCCCTCATCCATCTGCAACTGGGAATCACACTTCTGCTTATGCC +CGTGCAAATCGTCATATTTCATGGCATTAGTCTGACCTCGTTTATTGCAAATCTATTAGCAATTCCCTTG +GTGACATTTATCACGGTTCCGTTGATCCTCGCCGCGATGGTTGTGCATTTAAGCGGGCCGTTAATCCTGG +AGCAAGGGTTATGGTTTCTTGCCGACCGGTCTTTGGCTTTACTTTTCTGGGGGTTAAAGAGTTTGCCGGA +AGGGTGGATCAACATTGCTGAATGTTGGCAATGGCTATCATTTTCCCCATGGTTCTTACTGGTGGTATGG +CGATTAAACGCCTGGCGAACGTTGCCAGCAATGTGTGTGGCTGGAGGCTTGCTGATGTGCTGGCCGCTGT +GGCAAAAACCTCGACCTGACGAGTGGCAGCTGTACATGCTTGATGTCGGGCAAGGGCTGGCAATGGTGAT +AGCCAGAAACGGCAAAGCGATTCTCTATGACACAGGACTGGCCTGGCCTGAAGGGGATAGTGGGCAACAA +CTGATTATCCCCTGGCTCCACTGGCATAATCTTGAACCGGAAGGCGTTATTCTGAGCCATGAACATCTGG +ATCACCGGGGAGGGCTGGATTCAATATTGCATATATGGCCGATGTTATGGATCAGAAGTCCGTTAAACTG +GGAACATCATCAGCCCTGTGTGCGTGGCGAAGCGTGGCAATGGCAAGGATTGCGTTTCAGCGCGCACTGG +CCTTTACAAGGTAGCAACGATAAAGGAAATAACCATTCCTGTGTGGTTAAGGTTGATGACGGGACGAATA +GCATTCTTCTAACCGGTGATATTGAAGCCCCAGCTGAACAAAAGATGCTAAGCCGTTACTGGCAGCAAGT +GCAGGCAACATTGCTTCAGGTACCTCACCATGGCAGTAATACCTCATCATCGTTGCCATTAATTCAGCGA +GTGAATGGAAAAGTGGCACTCGCATCGGCATCGCGCTATAACGCATGGCGACTGCCCTCTAACAAAGTTA +AGCATCGCTATCAACTGCAAGGATATCAATGGATTGATACTCCACATCAAGGTCAAACAACGGTCAATTT +TTCAGCGCAAGGCTGGCGGATTAGCAGCCTCAGGGAGCAAATTTTACCTCGTTGGTATCATCAGTGGTTT +GGCGTGCCAGTGGATAACGGGTAGAATATGCGGCTATTTCAACAAATGCTGGTTTTTTGAATGCATAACG +ACAAAGATCTCTCTACGTGGCAGACATTCCGCCGACTGTGGCCAACCATTGCGCCTTTCAAAGCGGGTCT +GATCGTGGCGGGCGTAGCGTTAATCCTCAACGCAGCCAGCGATACCTTCATGTTATCGCTCCTTAAGCCA +CTTCTTGATGATGGCTTTGGTAAAACAGATCGCTCCGTGCTGGTGTGGATGCCGCTGGTGGTGATCGGGC +TGATGATTTTACGTGGTATCACCAGCTATGTCTCCAGCTACTGTATCTCCTGGGTATCAGGAAAGGTGGT +AATGACCATGCGTCGCCGCCTGTTTGGTCACATGATGGGAATGCCAGTTTCATTCTTTGACAAACAGTCA +ACGGGTACGCTGTTGTCACGTATTACCTACGATTCCGAACAGGTTGCTTCTTCTTCTTCCGGCGCACTGA +TTACTGTTGTGCGTGAAGGTGCGTCGATCATCGGCCTGTTCATCATGATGTTCTATTACAGTTGGCAACT +GTCGATCATTTTGATTGTGCTGGCACCGATTGTTTCGATTGCGATTCGCGTTGTATCGAAGCGTTTTCGC +AACATCAGTAAAAACATGCAGAACACCATGGGGCAGGTGACCACCAGCGCAGAACAAATGCTGAAGGGCC +ACAAAGAAGTATTGATTTTCGGTGGTCAGGAAGTGGAAACGAAACGCTTTGATAAAGTCAGCAACCGAAT +GCGTCTTCAGGGGATGAAAATGGTTTCAGCCTCTTCCATCTCTGATCCGATCATTCAGCTGATCGCCTCT +TTGGCGCTGGCGTTTGTTCTGTATGCGGCGAGCTTCCCAAGTGTCATGGATAGCCTGACTGCCGGTACGA +TTACCGTTGTTTTCTCTTCAATGATTGCACTGATGCGTCCGCTGAAATCGCTGACCAACGTTAACGCCCA +GTTCCAGCGCGGTATGGCGGCTTGTCAGACGCTGTTTACCATTCTGGACAGTGAGCAGGAGAAAGATGAA +GGTAAGCGCGTGATCGAGCGTGCGACTGGCGACGTGGAATTCCGCAATGTCACCTTTACTTATCCGGGAC +GTGACGTACCTGCATTGCGTAACATCAACCTGAAAATTCCGGCAGGGAAGACGGTTGCTCTGGTTGGACG +CTCTGGTTCGGGTAAATCAACCATCGCCAGCCTGATCACGCGTTTTTACGATATTGATGAAGGCGAAATC +CTGATGGATGGTCACGATCTGCGCGAGTATACCCTGGCGTCGTTACGTAACCAGGTTGCTCTGGTGTCGC +AGAATGTCCATCTGTTTAACGATACGGTTGCTAACAACATTGCTTACGCACGGACTGAACAGTACAGCCG +TGAGCAAATTGAAGAAGCGGCGCGTATGGCCTACGCCATGGACTTCATCAATAAGATGGATAACGGTCTC +GATACAGTGATTGGTGAAAACGGCGTGCTGCTCTCTGGCGGTCAGCGTCAGCGTATTGCTATCGCTCGAG +CCTTGTTGCGTGATAGCCCGATTCTGATTCTGGACGAAGCTACCTCGGCTCTGGATACCGAATCCGAACG +TGCGATTCAGGCGGCACTGGATGAGTTGCAGAAAAACCGTACCTCTCTGGTGATTGCCCACCGCTTGTCT +ACCATTGAAAAGGCAGACGAAATCGTGGTCGTCGAGGATGGTGTCATTGTGGAACGCGGTACGCATAACG +ATTTGCTTGAGCACCGCGGCGTTTACGCGCAACTTCACAAAATGCAGTTTGGCCAATGATCGAAAAAATC +TGGTCTGGTGAATCCCCTTTGTGGCGGCTATTGCTGCCACTCTCCTGGTTGTATGGCCTGGTGAGTGGCG +CGATCCGTCTTTGCTATAAACTAAAACTGAAGCGCGCCTGGCGTGCCCCCGTACCGGTTGTCGTGGTTGG +TAATCTCACCGCAGGCGGCAACGGAAAAACCCCGGTCGTTGTCTGGCTGGTGGAACAGTTGCAACAGCGC +GGTATTCGCGTGGGGGTCGTATCGCGGGGATATGGTGGTAAGGCTGAATCTTATCCGCTGTTATTGTCGG +CAGATACCACAACAGCACAGGCGGGTGATGAACCTGTGTTGATTTATCAACGCACTGATGCGCCTGTTGC +GGTTTCTCCCGTTCGTTCTGATGCGGTAAAAGCCATTCTGGCGCAACACCCTGATGTGCAGATCATCGTA +ACCGACGACGGTTTACAGCATTACCGTCTGGCGCGTGATGTGGAAATTGTCGTTATTGATGGTGTGCGTC +GCTTTGGCAATGGCTGGTGGTTGCCGGCGGGGCCAATGCGTGAGCGAGCGGGGCGCTTAAAGTCGGTTGA +TGCGGTAATCGTCAACGGCGGTGTCCCTCGCAGCGGTGAAATCCCCATGCATCTGCTGCCGGGTCAGGCG +GTGAATTTACGTACCGGTACGCGTTGTGACGTTGCTCAGCTTGAACATGTAGTGGCGATGGCGGGGATTG +GGCATCCGCCGCGCTTTTTTGCCACGCTGAAGATGTGTGGCGTACAACCGGAAAAATGTGTACCGCTGGC +CGATCATCAGTCTTTGAACCATGCGGATGTCAGTGCGTTGGTAAGCGCCGGGCAAACGCTGGTAATGACT +GAAAAAGATGCGGTGAAATGCCGGGCCTTTGCAGAAGAAAATTGGTGGTATTTGCCTGTAGACGCACAGC +TTTCAGGTGATGAACCAGCGAAACTGCTTACGCAACTAACCTTGCTGGCTTCTGGCAACTAGTTACGCCG +CGGCAGCGTTCGATTGATGGAGTCATGAATGTCGCTGCCGCACCTCTCCCTTGCTGATGCGCGTAATCTT +CACCTTGCCGCACAAGGCCTGTTAAACAAACCCCGCCGTCGAGCGTCGTTGGAGGATATTCCGGCAACGA +TCTCCCGCATGTCCTTGCTGCAAATCGATACCATCAATATTGTTGCCCGTAGTCCATATCTGGTGCTTTT +CAGTCGTCTGGGAAATTATCCTGCCCAGTGGCTGGATGAGTCTCTGGCGCGTGGCGAATTAATGGAATAC +TGGGCGCATGAAGCCTGCTTTATGCCGCGTAGCGACTTTCGTCTTATTCGCCACCGCATGCTGGCACCTG +AAAAAATGGGCTGGAAATACAAAGACGCCTGGATGCAGGAACATGAGGCGGAAATTGCACAGTTAATTCA +GCATATTCATGATAAGGGGCCGGTACGTTCAGCCGATTTTGAGCATCCTCGTAAAGGTGCAAGCGGCTGG +TGGGAATGGAAGCCGCATAAACGGCATCTGGAAGGTTTATTTACTGCCGGAAAGGTGATGGTGATTGAAC +GGCGCAACTTCCAGCGCGTTTATGATTTAACCCACCGTGTCATGCCTGACTGGGATGATGAGCGCGATCT +CGTTTCGCAAACAGAAGCAGAAATCATCATGCTGGATAACAGTGCGCGTAGCCTGGGAATATTCCGCGAA +CAGTGGCTGGCAGATTACTATCGGCTGAAACGTCCGGCACTGGCGGCGTGGCGCGAAGCGAGGGCTGAAC +AGCAGCAAATCATTGCTGTGCATGTTGAAAAATTGGGCAATCTTTGGCTGCATGATGATTTGCTGCCGCT +ACTCGAGCGAGCGCTGGCCGGAAAGCTCACTGCAACGCACAGCGCGGTACTTTCGCCTTTTGATCCTGTT +GTCTGGGATCGCAAACGCGCAGAGCAGCTTTTTGATTTTAGCTACCGGCTGGAGTGCTATACCCCAGCGC +CGAAACGCCAGTATGGCTATTTTGTTCTGCCGTTATTACATCGTGGGCAATTAGTTGGGCGAATGGATGC +CAAAATGCATCGCCAGACAGGCATCCTTGAAGTTATCTCTCTGTGGTTACAGGAAGGTATTAAACCAACG +ACAACGCTGCAAAAAGGGCTACGTCAGGCGATTACTGATTTCGCTAACTGGCAGCAGGCAACGCGGGTGA +CATTAGGATGCTGCCCGCAAGGCCTCTTTACTGATTGCCGCACCGGCTGGGAAATAGACCCCGTCGCATA +AATGATTATGATAAGATTTATGCATTCATAACCCGATCCATCTGGAGGAACTATGGATCATCGTCTGCTT +GAAATCATTGCCTGCCCGGTTTGCAACGGAAAACTTTGGTATAACCAGGAAAAACAAGAGCTTATTTGCA +AACTGGACAACCTCGCTTTCCCGCTGCGTGATGGCATTCCAGTGTTGCTGGAAACGGAAGCCCGCGTGCT +GACTGCTGATGAGAGTAAATCATGAGTTTTGTGGTCATTATTCCCGCGCGCTACGCGTCCACGCGTCTGC +CCGGTAAACCATTGGTTGATATTAACGGCAAACCCATGATTGTTCATGTTCTTGAACGCGCGCGTGAATC +AGGTGCCGAGCGCATCATCGTGGCAACCGATCATGAGGATGTTGCCCGCGCCGTTGAAGCCGCTGGCGGT +GAAGTATGTATGACGCGCGCCGATCATCAGTCAGGAACAGAACGTCTGGCGGAAGTTGTCGAAAAATGCG +CATTCAGCGACGACACGGTGATCGTTAATGTGCAGGGTGATGAACCGATGATCCCTGCGACAATCATTCG +TCAGGTTGCTGATAACCTCGCTCAGCGTCAGGTGGGTATGGCGACTCTGGCGGTGCCAATCCACAATGCG +GAAGAAGCGTTTAACCCGAATGCGGTGAAAGTGGTTCTCGACGCTGAAGGGTATGCACTGTACTTCTCTC +GCGCCACCATTCCTTGGGATCGTGATCGTTTTGCAGAAGGCCTTGAAACCGTTGGCGATAACTTCCTGCG +TCATCTTGGTATTTATGGCTACCGTGCAGGCTTTATCCGTCGTTACGTCAACTGGCAGCCAAGTCCGTTA +GAACACATCGAAATGTTAGAGCAGCTTCGTGTTCTGTGGTACGGCGAAAAAATCCATGTTGCTGTTGCTC +AGGAAGTTCCTGGCACAGGTGTGGATACCCCTGAAGATCTTGAGCGCGTTCGCGCTGAAATGCGCTAATT +TCACTTCACGACACTTCAGCCAATTTTGGGAGGAGTGTCGTACCGTTACGATTTTCCTCAATTTTTCTTT +TCAACAATTGATCTCATTCAGGTGACATCTTTTATATTGGCGCTCATTATGAAAGCAGTAGCTTTTATGA +GGGTAATCTGAATGGAACAGCTGCGTGCCGAATTAAGCCATTTACTGGGCGAAAAACTCAGTCGTATTGA +GTGCGTCAATGAAAAAGCGGATACGGCGTTGTGGGCTTTGTATGACAGCCAGGGAAACCCAATGCCGTTA +ATGGCAAGAAGCTTTAGTACGCCCGGAAAAGCCCGACAACTGGCATGGAAAACCACCATGCTGGCAAGAA +GTGGGACTGTCCGTATGCCGACTATTTATGGTGTGATGACGCATGAAGAACACCCCGGCCCCGATGTCCT +GCTACTGGAGCGGATGCGTGGTGTTTCGGTGGAGGCACCAGCCCGAACACCAGAACGCTGGGAACAACTC +AAAGACCAAATCGTTGAAGCCTTACTGGCCTGGCACCGTCAGGACAGTCGCGGTTGCGTCGGCGCGGTCG +ACAATACTCAGGAAAATTTCTGGCCCTCATGGTACCGGCAACATGTTGAAGTGCTATGGACCACGCTCAA +TCAGTTCAATAACACCGGTCTGACGATGCAGGATAAGCGGATCCTGTTTCGCACTCGCGAATGTCTCCCG +GCATTATTTGAAGGCTTTAACGACAATTGTGTGCTGATTCACGGTAACTTCTGTTTACGCAGCATGTTGA +AAGATTCGCGCAGCGATCAGTTACTGGCGATGGTCGGGCCGGGACTAATGCTTTGGGCACCGCGAGAATA +CGAACTGTTCCGACTAATGGATAATTCTCTGGCGGAAGATTTGCTCTGGAGTTACCTGCAACGCGCGCCA +GTGGCGGAGTCGTTCATCTGGCGGCGTTGGTTGTATGTGTTATGGGATGAAGTTGCGCAACTGGTTAATA +CCGGACGATTTAGTCGGCGCAACTTCGATCTGGCATCAAAATCACTCTTGCCGTGGCTCGCCTGACGAAC +CTTTTAGCCACTGCCAGATACGGCCAAGCGTTTCATAGCCAACACGATCGCTATGCATCAACCAGACCGG +AGAAGGGATTGCCCGTTCCCACGGGTTAAGCGGCGAGTCGATGGCCAACTGATTCGCCGGGGCTGGTAGC +GGATTTAACCCTTCCTGCTGAAAAAAGATCATCGCCCGCGGCAGATGTGATGCGGAGGTCACCAGCAGGA +AAGGGGCGTCACCAATCGCCTGTTTCACTGCTGCAGCTTCTTCTTCGGTATCTTTTGGCAAATCCAGGGT +GATAATTTGCTCGCGCGGCACGCCCAGCGATTGCGCAACTCTGGCACCTACTTCCGCTGTACTCACCGTA +TTGGTTTTTGCTACGCCTCCCGTGAAGATCAGTTTTGATCCCGGATTTTCGCGCCATAAGCGAATACCTT +CATTCAGGCGTGGCAGACTGTTATTGATTAAATTAGAGCTCGGTGCCCACTGCGGGTTCCAGGTATAACC +ACCTCCGAGCACCACGATATAGTCCACTTTTTGCGAATTATTCCATGTCGGATAGGTGCTTTCGATGGGA +CGCAGCAGGCGGTCGGCTACCGGTTGCAAACTCAATAACAAGAGCGCCAGCCACCCAATGCTAATAAAAA +TCTTCCCGGTTTTTTGAAAACGGCTAAACCACAGCAGCGCCAGGCCAGCGCCAATAATCAACAACATCAG +CGGAAGTGGCAGCAACATATTGCCAATCACTTTTTTCAGTGTAAAAAGCATCCTTTCTGGTTCCTTTTTT +AACCATATAGCAAGGGATCGCCAGCGATATTACACCAGACGGGTTCATTCTCGCCGTGGCTGTGACAAAA +TAGCGTCTTTATCAGAAAACGTCTTAGCCAACCGGTGGAGAAAGCAATGCAGGATCGCAATTTTGATGAT +ATTGCGGAAAAGTTTTCCCGTAACATTTACGGCACCACCAAAGGGCAGCTTCGACAGGCTATTCTGTGGC +AGGATCTCGATCGCGTGCTGGCGGAAATGGGCCCGCAAAAACTGCGTGTGCTGGATGCTGGCGGTGGAGA +AGGGCAGACCGCAATCAAAATGGCCGAGCGTGGGCATCAGGTCATTTTATGCGATCTTTCTGCGCAGATG +ATCGACCGCGCAAAACAGGCGGCAGAAGCAAAAGGTGTGAGCGACAACATGCAATTTATACATTGCGCCG +CTCAGGATGTTGCTTCGCATTTGGAAACGCCCGTTGATCTGATATTGTTCCATGCGGTGCTCGAGTGGGT +GGCTGATCCCCGCAGCGTATTGCAGACCCTCTGGTCAGTGTTGCGTCCAGGCGGCGTGTTGTCGTTAATG +TTCTACAATGCGCATGGTTTGTTGATGCATAACATGGTCGCCGGGAATTTTGATTACGTGCAGGCGGGAA +TGCCGAAAAAGAAAAAACGGACGCTTTCGCCAGATTATCCACGCGACCCGGCGCAGGTTTATCTGTGGCT +GGAAGAAGCTGGTTGGCAAATTATGGGTAAGACAGGCGTTCGCGTGTTTCATGATTATCTGCGCGAGAAA +CACCAGCAGCGCGACTGCTATGAAGCATTACTTGAATTAGAAACGCGTTATTGCCGTCAGGAACCGTATA +TTACCCTGGGGCGTTATATTCATGTCACCGCGCGCAAACCGCAGAGCAAGGATAAAGTATGAGTGAATTT +TCCCAGACAGTCCCCGAACTGGTTGCCTGGGCCAGAAAAAATGACTTCTCCATCTCGCTGCCGGTAGACC +GACTCTCTTTTCTGCTGGCGGTTGCCACGCTGAACGGCGAGCGTCTGGATGGTGAGATGAGTGAAGGCGA +GCTGGTGGATGCATTCCGCCATGTGAGTGATGCGTTTGAGCAAACCAGCGAAACCATCGGCGTGCGCGCC +AATAACGCGATCAACGACATGGTGCGTCAACGTCTGCTGAACCGCTTTACCAGCGAGCAGGCGGAAGGGA +ACGCAATTTACCGTCTGACGCCGCTCGGCATCGGCATTACTGACTACTACATCCGTCAGCGCGAGTTTTC +TACGCTGCGTCTTTCTATGCAGTTGTCGATTGTGGCGGGTGAGCTCAAACGCGCAGCAGATGCCGCCGAA +GAGGGCGGTGATGAATTTCACTGGCACCGTAATGTCTATGCGCCACTGAAATATTCGGTAGCAGAAATTT +TCGACAGTATCGACCTGACGCAACGTCTGATGGACGAACAGCAGCAGCAGGTGAAGGACGATATCGCCCA +GTTGCTGAACAAAGACTGGCGGGCGGCGATTTCCAGCTGTGAATTGTTGCTTTCGGAAACTTCCGGAACG +CTGCGTGAATTGCAGGATACGCTGGAAGCGGCAGGCGACAAATTGCAGGCTAATCTGTTGCGCATTCAGG +ATGCGACGATGACCCATGACGATCTGCATTTCGTCGATCGTCTGGTGTTCGATCTGCAGAGCAAACTCGA +TCGTATTATCAGTTGGGGCCAGCAATCCATCGACTTGTGGATTGGCTACGACCGCCACGTACACAAATTT +ATTCGTACCGCGATCGATATGGATAAAAACCGCGTCTTTGCTCAGCGGTTACGTCAGTCGGTACAAACCT +ATTTTGATGAGCCGTGGGCGCTAACTTATGCCAATGCCGATCGTCTGCTGGATATGCGTGACGAAGAGAT +GGCACTGCGCGATGAAGAAGTGACTGGGGAACTTCCTGAGGATCTGGAATACGAAGAGTTTAACGAGATC +CGCGAACAGCTGGCGGCGATCATCGAAGAACAACTTGCCGTGTACAAAACCAGACAAGTGCCGCTGGATC +TTGGTCTGGTGGTACGCGAATATCTGTCACAGTATCCGCGTGCACGTCACTTTGACGTTGCGCGTATTGT +TATTGATCAGGCGGTACGTCTTGGCGTAGCGCAAGCAGATTTCACCGGACTGCCAGCGAAATGGCAGCCG +ATTAATGATTACGGAGCCAAGGTACAGGCGCATGTCATCGACAAATATTGAACAAGTGATGCCGGTTAAG +CTGGCGCAGGCGCTGGCGAATCCGTTATTTCCGGCGCTGGACAGCGCCTTACGTTCAGGACGCCATATTG +GCCTCGACGAACTGGATAATCATGCATTCCTGATGGATTTTCAGGAATATCTGGAAGAGTTTTACGCGCG +TTATAACGTTGAGCTTATTCGCGCACCAGAAGGGTTCTTCTATTTACGCCCACGTTCCACCACGCTGATC +CCTCGTTCCGTCTTGTCGGAACTGGATATGATGGTCGGGAAAATCCTCTGTTATCTCTATCTCAGCCCGG +AACGGCTGGCGAATGAGGGGATTTTCACCCAGCAGGAACTGTACGACGAACTGCTCACCCTGGCCGATGA +AGCAAAACTGCTGAAACTGGTGAACAACCGTTCAACCGGTTCAGACGTTGACCGTCAGAAGTTGCAGGAG +AAAGTACGTTCTTCGCTCAACCGTCTGCGTCGTTTAGGCATGGTGTGGTTTATGGGCCACGACAGCAGCA +AGTTTCGCATTACCGAATCGGTGTTCCGCTTCGGAGCCGATGTGCGTGCTGGCGACGATCCCCGTGAAGC +ACAGCGTCGCCTGATTCGTGATGGCGAAGCAATGCCGATTGAAAATCATCTGCAACTCAACGATGAAACC +GAAGAGAATCAGCCAGATAGCGGAGAGGAAGAATAATGATTGAACGCGGTAAATTTCGCTCACTGACGCT +GATTAACTGGAACGGCTTTTTTGCCCGAACTTTTGACCTTGACGAGCTGGTCACGACGCTTTCTGGCGGT +AACGGGGCGGGTAAATCCACCACCATGGCGGCGTTCGTTACGGCGCTGATCCCCGACCTGACCCTGCTGC +ATTTCCGTAACACTACGGAAGCCGGGGCCACCAGCGGTTCGCGCGATAAAGGTCTGCACGGTAAGCTGAA +AGCGGGTGTCTGTTATTCGATGCTCGACACCATTAACTCGCGCCACCAGCGCGTGGTGGTCGGTGTGCGT +CTGCAACAGGTTGCCGGACGCGATCGTAAAGTGGATATCAAGCCGTTTGCCATTCAGGGACTGCCGATGT +CGGTGCAGCCGACACAGCTGGTGACCGAAACCCTGAACGAACGCCAGGCGCGCGTGCTGCCGCTTAACGA +GCTGAAAGACAAGCTCGAGGCGATGGAAGGCGTGCAGTTTAAACAGTTCAACTCCATTACTGATTACCAC +TCGCTGATGTTCGATCTGGGCATCATCGCGCGTCGTCTGCGCTCCGCATCTGACCGTAGCAAATTCTATC +GTCTGATCGAAGCTTCGCTGTATGGCGGGATCTCCAGTGCCATTACCCGTTCTCTGCGCGACTACCTGTT +GCCAGAAAACAGCGGCGTGCGTAAAGCGTTCCAGGACATGGAAGCGGCGCTGCGTGAAAACCGTATGACG +CTGGAAGCGATTCGTGTCACCCAGTCGGACCGCGACCTGTTTAAGCATCTGATCAGCGAAGCCACCAACT +ACGTGGCGGCGGACTACATGCGTCACGCCAACGAGCGCCGTGTCCATCTCGACAAAGCCCTGGAGTTTCG +TCGCGAGCTACATACTTCGCGTCAGCAACTGGCGGCTGAGCAGTACAAACACGTCGATATGGCGCGTGAG +CTGGCAGAGCACAACGGTGCCGAAGGCGATCTGGAAGCGGATTATCAGGCGGCCAGTGATCACCTGAACC +TGGTGCAAACCGCACTGCGTCAGCAGGAGAAGATCGAACGCTACGAAGCGGATCTCGATGAGCTGCAGAT +CCGTCTGGAAGAGCAAAATGAAGTGGTGGCAGAAGCCATCGAACGCCAGCAAGAGAATGAGGCTCGTGCG +GAAGCTGCCGAACTGGAAGTGGACGAGCTGAAAAGCCAGCTTGCTGACTACCAGCAGGCGCTGGACGTCC +AGCAAACGCGCGCGATCCAGTATAACCAGGCGATTGCTGCGCTTAATCGTGCCAAAGAACTGTGCCATCT +GCCGGACTTAACCGCCGACTGCGCCGCCGAATGGCTGGAAACCTTCCAGGCGAAAGAGCTGGAAGCGACT +GAAAAAATGCTCTCTCTTGAGCAGAAAATGAGCATGGCGCAAACCGCGCACAGCCAGTTTGAGCAGGCTT +ATCAGCTGGTGGTGGCAATCAACGGCCCACTGGCGCGTAACGAGGCGTGGGATGTCGCTCGCGAACTATT +GCGCGAAGGGGTCGATCAGCGTCACCTGGCAGAGCAGGTTCAGCCGCTGCGGATGCGATTAAGCGAACTG +GAACAGCGTCTACGCGAGCAGCAAGAAGCTGAGCGTCTGCTGGCAGATTTCTGCAAACGTCAGGGCAAGA +ATTTTGATATCGACGAACTGGAAGCCCTGCATCAGGAACTGGAAGCACGCATTGCCTCTCTTTCCGATAG +CGTGTCTAACGCCCGTGAAGAGCGCATGGCACTGCGCCAGGAGCAGGAACAGCTGCAGTCTCGCATTCAG +AGTTTGATGCAGCGTGCGCCGGTTTGGCTGGCAGCGCAAAACAGTCTCAACCAGTTGAGCGAACAGTGCG +GCGAAGAGTTTACCTCCAGCCAGGACGTCACCGAATATCTGCAACAGTTGCTGGAGCGTGAGCGAGAGGC +GATTGTTGAACGCGATGAAGTGGGCGCGCGCAAAAACGCCGTCGATGAAGAGATCGAACGTTTAAGCCAG +CCTGGCGGCTCTGAAGATCAGCGTCTGAACGCGCTGGCGGAGCGTTTTGGTGGTGTGCTGCTGTCAGAAA +TTTATGACGACGTTAGCCTGGAAGATGCGCCGTACTTCTCAGCGCTGTATGGCCCGTCACGCCACGCCAT +CGTGGTGCCAGATCTGTCACAGGTAACTGAACACCTGGAAGGCTTGACCGATTGCCCGGAAGATCTCTAT +CTGATCGAAGGAGATCCGCAGTCATTCGATGACAGCGTGTTCAGCGTTGATGAGCTGGAAAAAGCGGTAG +TGGTGAAAATCGCCGATCGTCAGTGGCGTTATTCACGTTTCCCGGAAGTGCCGCTGTTTGGTCGTGCTGC +GCGTGAAAGCCGTATTGAAAGCCTCCATGCCGAGCGTGAAGTGCTTTCCGAACGCTTCGCCACGCTCTCC +TTTGATGTACAGAAAACTCAGCGTCTGCATCAGGCGTTCAGCCGCTTTATCGGCAGTCATCTGGCGGTTG +CGTTTGAGTCTGACCCGGAAGCAGAAATCCGTCAACTGAACAGCCGTCGCGTCGAACTGGAGCGGGCGTT +AAGTAATCATGAAAATGATAACCAGCAGCAGCGTATTCAGTTTGAGCAGGCGAAAGAGGGCGTTACGGCG +CTGAACCGCATTCTGCCGCGTCTCAACCTGTTGGCTGATGACAGCCTGGCGGATCGCGTCGATGAAATCC +GCGAACGTCTGGATGAAGCCCAGGAAGCCGCGCGTTTTGTTCAGCAGTTTGGCAATCAACTGGCGAAACT +GGAACCGATTGTTTCGGTATTGCAGAGCGACCCGGAACAGTTCGAACAGTTAAAAGAAGATTACGCGTAC +TCTCAGCAGATGCAGCGCGATGCCCGTCAGCAGGCGTTTGCCCTGACGGAAGTGGTGCAGCGTCGTGCGC +ACTTTAGCTATTCTGACTCGGCAGAAATGCTTAGCGGTAACAGCGATCTCAACGAAAAACTGCGTGAACG +TCTGGAACAGGCGGAAGCGGAGCGTACCCGCGCTCGCGAAGCGTTGCGCGGTCACGCAGCGCAGTTGAGT +CAGTACAACCAGGTGCTGGCTTCGCTGAAAAGTTCTTACGACACCAAAAAAGAGCTACTCAACGATCTGC +AACGTGAATTGCAGGATATCGGCGTGCGTGCTGATAGCGGGGCAGAAGAGCGGGCGCGTATTCGCCGTGA +CGAGCTGCATGCGCAACTGAGCAATAACCGTTCACGCCGCAATCAACTGGAAAAAGCGCTTACCTTCTGC +GAAGCGGAGATGGACAACCTGACCCGCAAACTGCGCAAGCTGGAGCGGGATTACTTTGAGATGCGCGAGC +AGGTAGTGACCGCCAAAGCGGGCTGGTGTGCGGTGATGCGCATGGTGAAAGATAACGGCGTTGAGCGCCG +CTTACACCGTCGTGAGCTGGCTTATCTCTCCGCTGATGATTTGCGTTCCATGTCGGATAAGGCGTTAGGT +GCGCTGCGTCTGGCGGTGGCGGATAACGAACATCTGCGCGACGTGCTGCGCATGTCGGAAGATCCGAAAC +GTCCGGAGCGTAAAATTCAGTTCTTCGTGGCGGTTTATCAGCATCTGCGTGAACGTATTCGTCAGGATAT +TATTCGTACCGATGATCCGGTGGAAGCTATCGAACAGATGGAGATTGAACTTAGCCGTCTGACCGAAGAA +TTAACCTCCCGTGAACAGAAACTGGCGATCAGTTCCCGCAGCGTGGCGAACATCATTCGCAAAACCATTC +AGCGCGAGCAGAACCGTATCCGTATGCTCAACCAGGGGTTGCAGAACGTATCGTTTGGTCAGGTGAACAG +CGTGCGTCTCAACGTGAACGTGCGTGAAACGCACGCCATGCTACTGGATGTGCTCTCTGAACAGCACGAG +CAGCATCAGGATCTGTTTAACAGCAACCGTTTGACCTTCTCGGAAGCGCTGGCGAAACTGTATCAACGTC +TTAACCCGCAGATTGATATGGGGCAGCGCACGCCGCAGACCATCGGTGAAGAACTGCTGGATTACCGCAA +CTATCTGGAAATGGAAGTTGAGGTTAACCGTGGTTCCGATGGCTGGCTGCGCGCAGAGTCTGGTGCATTG +TCGACCGGTGAGGCGATTGGTACCGGTATGTCGATTCTGGTGATGGTGGTACAAAGCTGGGAAGATGAAT +CTCGCCGCCTGCGCGGTAAAGATATCTCTCCTTGCCGCCTGCTGTTCCTCGATGAAGCAGCGCGACTGGA +TGCTCGTTCTATCGCCACGCTGTTTGAATTGTGTGAGCGTTTGCAAATGCAACTCATCATCGCAGCGCCG +GAAAATATCAGCCCGGAGAAAGGCACCACCTATAAACTGGTGCGTAAAGTCTTCCAGAATACCGAACACG +TTCATGTCGTCGGCCTGCGAGGATTTGCGCCGCAACTCCCTGAAACGCTTCCAGGAACTGACGAAGCGCC +TTCTCAGGCGAGTTAAAATTAAGGCGGCAGCAATGCCGCCTTTTCTTTTTCCGAAAACTCCGTTTCTGCA +CTAAAAAAGTGGCACATTACGGCGCGCTTTTCTTTAAACTTCTTTACATTAGGTTATGTAAAAACGTATC +GGCGTTTATATACTGAAGATAAGCCTGATGAGTAACAGGCTTGCTCGTCATACTTTCGTGAGTATTGGCG +TTGTACAGGCAAGTCGTAAAATAACAGCCTGGCTATTCAGAGTATGATAAAAACAGGGGGCAAGGGATGT +TGCTTAATATGATGTGTGGTCGTCAGCTGTCGGCAATCAGTTTGTGCCTGGCCGTAACATTCGCTCCACT +GTTCAATGCGCAGGCCGATGAGCCTGAAGTAATCCCTGGCGACAGCCCGGTGGCTGTCAGTGAACAGGGC +GAGGCACTGCCGCAGGCGCAAGCCACGGCAATAATGGCGGGGATCCAGCCATTGCCTGAAGGTGCGGCAG +AAAAAGCCCGCACGCAAATCGAATCTCAATTACCCGCAGGTTACAAGCCGGTTTATCTTAACCAGCTTCA +ACTGTTGTATGCCGCACGCGATATGCAACCCATGTGGGAAAACCGTGATGCTGTTAAAGCCTTCCAGCAA +CAGCTGGCAGAGGTGGCGATTGCCGGTTTCCAGCCGCAGTTTAATAAATGGGTAGAGTTACTGACCGATC +CTGGTGTTAACGGGATGGCACGCGACGTGGTGCTCTCTGATGCGATGATGGGCTATCTCCATTTCATTGC +AAATATTCCGGTCAAAGGCACTCGCTGGCTATATAGCAGTAAACCTTATGCACTTGCAACGCCGCCGCTC +TCGGTGATTAACCAATGGCAGCTGGCGCTGGATAAAGGTCAATTGCCTACGTTTGTTGCAGGACTGGCAC +CGCAGCATCCGCAATATGCGGCGATGCATGAATCGTTACTGGCCTTACTCTGTGACACCAAACCGTGGCC +CCAACTGACCGGCAAAGCAACGTTGCGCCCAGGGCAGTGGAGTAACGACGTACCGGCGTTGCGCGAAATA +TTGCAACGCACAGGCATGTTGGACGGGGGGCCGAAAATTACTCTACCTGGCGATGACACGCCAACTGACG +CGGTAGTCAGCCCATCCGCTGTTACTGTTGAAACAGCAGAAACTAAGCCGATGGATAAGCAAACGACGTC +TCGTAGTAAACCTGCGCCTGCCGTTCGCGCCGCCTACGATAATGAACTGGTGGAAGCCGTTAAACGTTTT +CAGGCATGGCAAGGATTGGGGGCAGATGGTGCTATTGGCCCGGCAACACGTGACTGGTTAAACGTAACGC +CCGCCCAGCGTGCTGGTGTGTTGGCTCTCAACATCCAGCGATTGCGCTTGCTGCCAACAGAGCTTTCTAC +CGGGATCATGGTTAACATTCCGGCCTATTCGCTGGTCTACTATCAGAACGGCAATCAGGTGCTGGATTCG +CGAGTCATTGTCGGTCGCCCCGATCGCAAAACGCCGATGATGAGCAGTGCCCTTAACAACGTAGTGGTAA +ACCCGCCGTGGAACGTACCTCCAACTCTGGCACGCAAAGATATTCTGCCAAAAGTGCGCAACGATCCGGG +ATATCTCGAAAGCCATGGCTATACGGTGATGCGCGGCTGGAACAGCAGAGAAGCGATTGACCCATGGCAG +GTTGACTGGTCTACAATCACGGCCTCGAATTTACCGTTCCGCTTCCAGCAGGCTCCAGGCCCACGGAACT +CGCTGGGGCGCTATAAATTCAATATGCCGAGTTCAGAGGCCATTTATTTGCATGACACGCCGAACCACAA +TCTGTTCAAGCGTGATACACGCGCATTGAGCTCAGGCTGTGTACGAGTGAATAAAGCTTCCGATCTGGCG +AATATGCTGTTGCAGGATGCAGGCTGGAATGACAAACGTATTTCTGATGCGCTGAAGCAGGGTGATACAC +GTTACGTCAATATTCGGCAGTCGATTCCGGTGAATCTCTACTACCTGACGGCCTTTGTTGGTGCAGATGG +TCGTACCCAGTATCGTACAGATATTTACAATTATGATCTGCCTGCGCGATCCAGCTCGCAAATCGTATCG +AAAGCGGAACAATTAATCAGGTAAATGAAGTAGTTCGGGGAAATCAGTTGTCGTAATAATTAGCATGATT +GGGGGCGATTCTCTGCAGCCCCCGTCACTGCTGGGGTTGAGTCATCTTGACGTCTGCTTTACGGGCGGTT +AAGGTGCCTCTTGTGCGCCAGAAGTGCATATAAACGATAACATTGACCTGTAGACTTGATTATCATGGAC +AAATTCGACGCTAATCGCCGCAAATTGCTGGCGCTTGGTGGCGTTGCACTCGGTGCCGCCATCCTGCCGA +CCCCTGCGTTTGCAACACTCTCTACCCCACGCCCGCGCATTTTGACACTCAATAATCTTCATACCGGAGA +GTCAATCAAAGCGGAGTTTTTCGATGGCAGAGGCTATATTCAGGAAGAATTGGCAAAACTTAACCATTTT +TTCCGCGATTACCGCGCGAACAAAATAAAGTCCATCGACCCAGGATTATTCGACCAGTTGTATCGCCTGC +AAGGGTTGTTAGGCACGCGCAAACCGGTGCAACTCATTTCCGGTTATCGTTCTATTGATACCAACAATGA +ACTACGCGCCCGCAGCCGTGGAGTAGCGAAGAAAAGCTATCACACTAAAGGCCAGGCGATGGATTTCCAT +ATTGAAGGTATCGCGTTAAGCAATATTCGCAAAGCCGCGTTATCTATGCGCGCAGGTGGTGTAGGATATT +ATCCACGTAGTAACTTTGTGCATATTGATACCGGGCCAGCACGGCACTGGTAGTAATTGCTTAACGAAAC +AGGGGCAGTATGAACTATCGTATTATTCCGGTCACCGCATTCTCCCAGAACTGTTCATTAATCTGGTGTG +AACAAACCCGTCTGGCCGCACTGGTCGATCCTGGCGGCGATGCGGAAAAAATCAAACAGGAAGTTGATGA +CAGCGGCCTGACACTGATGCAGATCCTGCTGACGCATGGTCATCTGGACCACGTTGGCGCAGCGGCGGAA +CTGGCGCAACATTACGGCGTGCCGGTTTTCGGCCCGGAAAAAGAAGATGAGTTCTGGCTGCAAGGCTTGC +CTGCGCAAAGTCGTATGTTTGGTCTGGAAGAGTGCCAGCCGCTGACGCCAGATCGTTGGCTGAACGAAGG +CGATACCATCAGCATAGGGAATGTGACTTTACAGGTGTTACATTGCCCTGGGCATACGCCGGGTCATGTC +GTGTTTTTTGATGATCGGGCAAAGCTGCTGATTTCTGGCGATGTTATTTTCAAAGGCGGAGTAGGGCGCA +GTGACTTCCCGCGTGGCGATCATAATCAACTGATTTCTTCAATCAAAGATAAATTGCTGCCACTGGGGGA +TGACGTGATATTTATTCCGGGTCACGGACCATTATCCACACTTGGTTATGAACGCCTGCATAATCCCTTC +CTGCAAGACGAAATGCCCGTCTGGTAAGGCACATAAAAAAGCCCGCTTTTAATGCTGGCCTGGATTTCTG +GCAAAGTGCGCTTTGTTTATGCCGGATGCGGCACGAGCGCCTTATCCGGCCTACAAAATCGTGCAAATTC +AAAATATTGCAGGGGACGCGTAGGCCTGATAAGCGTAGCGCATCAGGCAATGTTGCGTTTGTCATCAGTC +TCAGCCCGCTTTTCAGCGGGCTTCATTGTTTTTAATGCTTACAGCACTGCCACAATCGCTTCGCACAGCG +GAGCCATGTTATCTGGTGTCATCCCGGCCACATTTACGCGACCAGAAGCAACCGCATATACGCCAAACTC +TTCGCGCAGACGCAGCACTTGTTCTTTTGTCAGGCCACTGAAGGAGAACATGCCGTTCTGTTTGATGATA +AAGCTGAAGTCGCGGTTTGCGCCTTTTTCCTGCAGCGTATTGACGAACAACTGACGCATACGCTGAATAC +GCTGGCGCATATCAGTCAGCTCTTGTTCCCAAATCGCACGTAACGCATCGTTGCTCAGGATGGTGGCAAC +AACAGAAGCGCCGTGTGCTGGTGGGTTAGAGTAGTTAGCGCGAATCGCCGCTTTCATTTGGCTGAATGCG +CGATCAACGGTTTCACTGTCGGCAGCAACCAGAGTACAAGCGCCAACACGCTCGTTGTACAGGCCAAAGT +TTTTAGAGTAGGAACTGGCAACAATCAGCTCTTTATGCATAGCCGCGAAAGCGCGCAGTCCTTCAGCATC +TTCTTCCAGACCACGGGCAAAACCCTGGTAAGCGAAGTCAAACAGCGGTAACCAGCCTTTCTCAACGGAG +AGTTGTGCCAGTGTTTGCCATTGTTCCAGCGTAGGGTCGATACCGGTTGGGTTATGGCAGCAGCCATGGA +ACAGCACTACGTCGCCAGCCTGAGCTTCATTCAGGCTGTTAATCAGTGCATCGAAGTCAAGAGTGTGATT +TTCCGCATCATAATAAGCGTATTCACGAACTTCCAGACCTGCAGAGTTAAAGACGCTCTTATGGTTCGGC +CAGCTTGGGTTGCTCACCCACACACGCTTAACGCTGGTATTTTTTGCCAGGAAATCGGCAGCCACGCGTA +GTGCGCCAGTGCCCCCCGGAGTCTGTGCCGTGCGAGCACGTTTGTCATTGATCAGGGCGCTACCTTTACC +AAACAGCAGTTCCTGAGTGCAGCGACCAAATTCAGGGATGCCGTCAATGCCGAGGTAATTTTTGGTGGTT +TCATTTTCGAGCAGATACTGTTCAGCCTTTTTCACGCTGGTCAGTACCGGGGTTTTGCCCGTCTCATCTT +TATAGACACCAATCCCGAGGTTAATTTTGCCGGGACGTTCATCGGCACGAAACAGATCGGCCAGGCCCAG +AATCGGGTCGGCAGGAGCGGCGGTAATGTTCTCAAACATGACGAGGTTCCATTATGGTTACAGAAGGGAA +GTCCGCTATCAGGGTAACGGGAGATTTACAAAATTCCAACTATTACTGATGAAAACGCAGGCTGTTTTTG +CAAGACGTGAGATTGCTCTGGAAGGTATAAAAAAAACAGGACCAAAGTCCTGTTTTTTCGGCATTTAACA +AAGAGGTGTGCTATTAGAACTGGTAAACGATACCCACAGCAACGGTGTCGTCTGAACCTACGCCCAGTTT +GTTGTCAGAATCGATCTGGTTGATGATGTAGTCAACATAGGTGGACATGTTTTTGTTGAAGTAGTAGGTT +GCGCCCACTTCAAAGTAGTTCACCAGATCAACATCACCGATACCTTCTACGTCTTTCGCTTTAGATTTGG +TGTAAGCGATGGACGGACGCAGACCGAAATCGAACTGGTATTGCGCAACTAACAGAACGTCTTGCGTTTT +GTTGGCGAAGCCGCTGGTGTTTGTAAATTTATTAGTGATCGGCGTAGCGTTACGGGTTTCACCGTAGTTC +GCTGCCAGGTAGATGTTGTTCGCGTCGTACTTCAGACCAGTAGCCCACTGTTCAGCTTTTTTACCGTTGC +CAAGAGGTTGAGCTTCTTGCAGGTTGGTACGGTCAGCTGCACCATAAGCACCAACGATACCAAAGCCTTC +GTATTCGTAGCTGATAGAACCGCCAACACCGTCGCCGTTAGAACGGCGTGCAGTGTCACGCTCGTTTTTA +CCCAGGTACTGAACAGCGAAGTTCAGGCCATCAACCAGACCAAAGAAGTTGGAGTTACGATAGGTAGCAA +CGCCGCCAACACGACCAACGAAGAAGTCATCGCTGTATGCAGTATCACCACCAAATTCTGGCAGCATATC +GGTGTAACCCAGTGCATCATAAACCACACCGTAGTTACGGCCGTAATCGAAAGAACCAACGTCAGCGTAT +TTAAGACCCGCGAATGCCAGACGCGTTTTGTTACCAGTTTGAGCGTCAGCGCCTTCAGAGTTGTTACCCT +GGAAGTTATATTCCCACTGACCATAACCGGTCAGATCGGAATTGATTTGAGTTTCCCCTTTAAAACCAAG +ACGGGCATAGGTCATGTCGCCATTGCCACCGTAACTGTTTTCACCGTTACCCTTGGAAAAATAATGCAGA +CCAACAGCTTTACCGTACAGATCTACTTTGTTGCCATCTTTGTTATAGATTTCTGCAGCGTTTGCAGTAC +CTGCTACTAACAGAGCAGGGACGATCACTGCCAGAATATTGCGCTTCATCATTATTTATTACCCTCATGG +TTTTTTTTATGACACCTGCCACTGCCGTCAATAAGTTCTGTCAATAAAAATTTACGGAACTATTGATGAG +AGTTTGGTGTCTTTATGTGTCTGCAGGCATCTTTCCATTCAAACTAACGTTTCGCTACCGTGAAAGTGCT +ACAAAGATAAAGATTTGGTTTCAAAAAGAAAAAATATGTAACCAAAAGTAAAATTTAAGGAACTTTGTGA +ACACCGTCATATTTCCATAGAGACGTGATGATATTTACAGCAATTTTAATCTATTTATATGATTTCCTTA +TATTTAAATTAACTAAACGGAAATTTTGTTTCTGATGGAAACTTTATCGACCTGGCACAAAATCTTCTTT +CAGACATCCAGAATGCCAAAAAATAGTATGAAAATTGTGCTATTAGCTAAGAAAAAACTAATCCGCAATA +AGAATGCGGATTAGTTTTTGCGCGTAAATGTTGCAATGTAATATTCCGTAACAGGATGATCGTTATGGCG +GGGTTGCAAATAGATTGCTTGACTTAACAAACAGATAACTTGACAGAAAAGATAAAAAAAGAGCCAGCGG +GCGCTGGCTCTTGAAGACGCTAAATTAGAAGCTGGCGTTACGCGGAGTACGTGGGAACGGAATCACATCA +CGTACGTTTTGCACGCCAGTTACGTAAGCAATCAGACGTTCAAAACCAAGACCGAAACCTGAATGCGGAA +CAGTACCGTAGCGACGCAGATCGCGATACCACCAGTAATCTTCTTTATTCAGGCCCATTTCCAGCATACG +CTCGTCCAGCACGTCCAGACGTTCTTCACGCTGGGAGCCACCAATGATCTCACCGATGCCCGGAGCCAGA +ACGTCCATAGCCGCAACGGTTTTACCGTCTTCGTTAAGGCGCATATAGAACGCTTTAATATCTTTCGGAT +AGTTTTTAACCACTACCGGTGCTTTAAAGTGTTCTTCCGCCAGATAACGCTCATGCTCAGAAGAGAGATC +GACTCCCCAGTAAACCGGGTTTTCAAACTTCCTGCCGCAGTTTTCGAGAATGGTCACTGCGTCGGTATAA +TCCACCTGCGCAAAATCGGCTTCAATGAAGCGTTCCAGACGTGAAACGGCATCTTTATCTACGCGTTCAG +CGAAGAATTTCATGTCGTCAGCGCGTTCTTCGAGAACCGCTTTGAAGACATATTTCAGCATGGCTTCAGC +CAGACCCGCAATATCGTTCAGGTTAGCAAACGCCACTTCCGGCTCCAGCATCCAGAATTCCGCCAGGTGA +CGGCTGGTGTTGGAGTTTTCAGCACGGAAAGTCGGGCCGAAGGTATAAATTTTGGACAATGCGCAAGCGT +AGGTTTCGCCGTTCAACTGGCCAGATACGGTCAGGAAAGACTCTTTACCAAAGAAGTCTTTGTCGAAATC +CACTTTGCCCTGATCGTTACGCGGCAGGTTTTCCAGATCCAGCGTAGAAACGCGGAACATTTCGCCTGCA +CCTTCGGTATCAGATGCGGTAATCAGTGGCGTTGAAACCCAGAAGAATCCCTGCTCGTTAAAGAAGCGAT +GCAGCGCCTGCGCCAGCGTATGGCGAACGCGCGCGACGGCACCAATCAGGTTTGTGCGCGGACGCAGGTG +AGCGACTTCACGCAGATACTCAATGCTGTGGCGTTTTGCCGCCATCGGGTAAGTGTCTGGATCTTCAACC +CAACCAGCAACTTCAACCTTGCTGGCCTGAATTTCAAATTGTTGCCCCTGGCCCGGCGACGCCACGACTT +TACCCGTCACAATGACCGAGCAGCCGGTGGTCAGACGCAGGACGTCTTCATTGTAATTGGGCAGAGAATT +ATTGATGACAGCCTGTACAGGATCAAAGCAGGAACCGTCATAAACGGCGAGGAAGGAGATGCCAGCTTTT +GAATCTCGGCGGGTACGTACCCATCCGCGCACGGTGACTTCGCTGTCAACGGCTACACGGCCCTGGAGTA +CGTCGGCTACAGGCACAACGCTCATAATATTCTCTCTGTTAATAGTCGGAAAAAATAAACACTTGTCCAC +CCGTAAATGGGGGGATACCTATGTTACCTGGCATCTGCAATCAGACAAGCAGAATTCGCAAATGCAGCGA +AAGATTTCGGAATTAAAGGTAAAAAAAGGGAGCCGATTAGCTCCCTGATGATATTAACTGGCTTTTTTAA +TATGCGGAAGGTCGAACGCTTTGCGCAGCGCCCGAACAAACGCTTTATCATGGCAGATAGTTTTGCCAGG +GCTGTCAGAAAGTTTCGCCACCGGTTTACCGTTACACTCTACCAACTTAATGACAATATTCAGGGGTTTT +ACCTGGGGGATATCGCAGGTCAGGCGAGTCCCAATACCAAAACTTAATTGCACGCGGGAAGAGAAGTGGC +GGTATAGCTCAACCGCTTTGCGTAAATCCAGATTGTCAGAGAAAACCAGCGTTTTACTCTGTGGATCAAT +TCCCAGCTTTTCATAATGTGCAATGGCTTTTTCACCCCATTCAACCGGGTCGCCAGAGTCATGACGCAGG +CCCTGATACCGACTAGCGAACTCGACACCGAAATCACGCAGGAAAGCATCCATAGTGATGCAGTCGGTTA +ATGCAATGCCAAGTTGGTCGGGATACTCTTCCAGCCAGGCAGCAAGTGCAGCTCGCTGGCTGTTGGCTAG +ATCCGGGCTGATTTGCTGATGTGCCTGGAACCATTCGTGTGCCTGTGTTCCCATCGGCGTGAGGGAAAGC +CGACGCGCCAGATCGTAGTTGCTGGTGCCCACAAACCAGGATTCCTGTTGCAGACGCTTAACGATGGTTT +CTTGTACTTCGCGAGAAAAACGGCGACGGGTGCCAAAATCCATCAGATGGAAGCGCGACATATCAAGACC +GGCGGTTAACGCCGAGAAGTCGACTAATTTGCTTTCCAGCGTGTCGAGGGCTTGCGCAACGTCGGCCTGC +GGTGAGCGATAGCGATGTACCATTTCACTGATAACCGCCAGCAAAGGAACTTCCCAGAGGATGACTTCAC +GCCACGGGCCGCTTAAACGAATATCCAGCTTGCCATTATCGTTGGACACGGTGACTTGTTCCGGGTTAAA +GCGGAACTCGCGTAACCAGTTAAGATAGTCGGCCTTAAAGAAAGGCAGGGCAGAAAGCCACTGATATTCA +TCATCCTGCAGGCGCAGGTGCTGCATCGCCTGAACCTGTTCACGAATAGCATCGGCATAAATACCCAGCA +GATCGTCACCTCGGCAACGAAACTCCGCCGCGACATGCACATCGTAATAGTGATGAAACACGGCTTGCTG +CATATGCAACTTATAAGCATCTGTATCCAGCAACGAGTGCAGAACAGGAGAAGCGAATTGTGTCATAGGT +GCGCAGTAGCGTCCTCGTACAGGAGCGTTTAGTACAATAAACATCTTCAGGAACTGCTGGAGTATACCTT +GTTTCGCAATTTATTGAACCCCGATCACACCATATGCCACCTTTCTGGTCGATGGCATTACGCGGTGTAT +GTTATAAAAATGTAGCAATAAAGGCGTTTGTACCTGAAAAGATGAAGATTCTGCATAGCGCGATTTACGC +AACAGGAATAGACTGAACACCAGACTCTATAAAAGATGCTAAAGGTTATTTATGACTCAACAGCCACAAG +CCAAATACCGTCACGATTATCGTGCGCCGGATTACCAGATTACTGATATTGACTTGACCTTTGACCTCGA +CGCGCAAAAGACGGTCGTTACCGCGGTCAGCCAGGCTGTCCGTCATGGTGCATCAGATGCTCCCCTTCGT +CTCAACGGCGAAGACCTCAAACTGGTTTCTGTTCATATTAATGATGAGCCGTGGACCGCCTGGAAAGAAG +AAGAGGGCGCACTGGTTATCAGTAATTTGCCGGAGCGTTTTACGCTTAAGATCATTAATGAAATAAGCCC +GGCGGCGAATACCGCGCTGGAAGGGCTTTATCAGTCAGGCGATGCGCTTTGCACCCAGTGTGAAGCCGAA +GGTTTCCGCCATATTACGTATTATCTCGACCGCCCGGACGTGCTGGCGCGTTTTACCACCAAAATTATTG +CCGATAAAATCAAATATCCCTTCCTGCTTTCCAATGGTAACCGCGTTGCGCAAGGCGAACTGGAAAACGG +ACGCCATTGGGTACAGTGGCAGGACCCGTTCCCGAAACCGTGCTACCTGTTTGCGCTGGTGGCAGGCGAC +TTTGATGTACTGCGCGATACCTTTACCACGCGTTCTGGTCGCGAAGTAGCACTGGAGCTGTACGTCGATC +GCGGCAACCTTGATCGCGCGCCGTGGGCGATGACCTCGCTGAAAAACTCCATGAAATGGGATGAAGAACG +CTTTGGCCTGGAGTATGACCTCGACATCTATATGATCGTCGCGGTGGATTTCTTCAATATGGGCGCAATG +GAGAATAAGGGGCTGAATATCTTTAACTCCAAATATGTGCTGGCCCGCACCGACACCGCCACCGACAAAG +ATTACCTCGATATTGAACGCGTTATCGGCCATGAATATTTCCATAACTGGACCGGTAACCGAGTGACCTG +TCGCGACTGGTTCCAGCTCAGCCTGAAAGAAGGTTTAACCGTCTTCCGCGATCAGGAGTTCAGCTCTGAC +CTTGGTTCCCGCGCAGTTAACCGCATCAATAATGTACGCACCATGCGCGGATTGCAGTTTGCAGAAGACG +CCAGCCCGATGGCGCACCCGATCCGCCCGGATATGGTCATTGAGATGAACAACTTCTACACCCTGACCGT +TTACGAGAAGGGCGCGGAAGTGATTCGCATGATCCACACCCTGCTTGGCGAAGAAAACTTCCAGAAAGGG +ATGCAGCTTTATTTCGAGCGTCATGATGGTAGTGCAGCGACCTGTGACGACTTTGTGCAGGCGATGGAAG +ATGCGTCGAATGTCGATCTCTCCCATTTCCGCCGTTGGTACAGCCAGTCCGGTACACCGATTGTGACCGT +CAAAGACGACTACAATCCGGAAACCGAGCAGTACACCCTGACCATCAGCCAGCGCACGCCAGCCACGCCG +GATCAGGCAGAAAAACAGCCGCTGCATATTCCGTTTGCCATCGAACTGTATGATAACGAAGGCAAAGTGA +TCCCGTTGCAGAAAGGCGGTCATCCGGTGAATTCCGTGCTGAACGTCACTCAGGCGGAACAGACCTTTGT +CTTTGATAATGTCTACTTCCAGCCGGTGCCTGCGCTGCTGTGCGAATTCTCTGCGCCAGTGAAACTGGAA +TATAAGTGGAGCGATCAGCAACTGACCTTCCTGATGCGTCATGCGCGTAATGATTTCTCCCGCTGGGATG +CGGCGCAAAGTTTGCTGGCAACCTACATCAAGCTGAACGTCGCGCGTCATCAGCAAGGTCAGCCGCTGTC +TCTGCCGGTGCATGTGGCTGATGCTTTCCGCGCGGTACTGCTTGATGAGAAGATTGATCCAGCGCTGGCG +GCAGAAATCCTGACGCTGCCTTCTGTCAATGAAATGGCTGAATTGTTCGATATCATCGACCCGATTGCTA +TTGCCGAAGTACGCGAAGCACTCACTCGTACTCTGGCGACTGAACTGGCGGATGAGCTACTGGCTATTTA +CAACGCGAATTACCAGAGCGAGTACCGTGTTGAGCATGAAGATATTGCAAAACGCACTCTGCGTAATGCC +TGCCTGCGTTTCCTCGCTTTTGGTGAAACGCATCTGGCTGATGTGCTGGTGAGCAAGCAGTTCCACGAAG +CAAACAATATGACTGATGCGCTGGCGGCGCTTTCTGCGGCGGTTGCCGCACAGCTGCCTTGCCGTGACGC +GCTGATGCAGGAGTACGACGACAAGTGGCATCAGAACGGTCTGGTGATGGATAAATGGTTTATCCTGCAA +GCCACCAGCCCGGCGGCGAATGTGCTGGAGACGGTGCGCGGCCTGTTGCAGCATCGCTCATTTACCATGA +GCAACCCGAACCGTATTCGTTCGTTGATTGGCGCGTTTGCGGGCAGCAATCCGGCAGCGTTCCATGCCGA +AGATGGCAGCGGTTACCTGTTCCTGGTGGAAATGCTTACCGACCTCAACAGCCGTAACCCGCAGGTGGCT +TCACGTCTGATTGAACCGCTGATTCGCCTGAAACGTTACGATGCCAAACGTCAGGAGAAAATGCGCGCGG +CGCTGGAACAGTTGAAAGGGCTGGAAAATCTCTCTGGCGATCTGTACGAGAAGATAACTAAAGCACTGGC +TTGATAAATAACCGAATGGCGGCAATAGCGCCGCCATTCGGGGAATTTACCCCTGTTTTCTCAGGCGAGT +TTCAGATTCACCACGTTGCATCACCCGTTGCAACACCTCCGCTTCCAGCTCCGCTAATCGCACCGACCCT +AATCGACGCGGACGGGGGATATCCACTGTCAAATCCAGACCAATTTTTCCCTCTTCAATTAACAGCACCC +GGTCAGCCATCGCTACCGCTTCGCTCACATCATGCGTCACCAACAGTACGGTAAAGCCGTGCTCCTGCCA +AAGTGACACAATCAAATCCTGCATCTCGAGTCGCGTTAAGGCGTCCAGCGCCCCGAGCGGTTCATCAAGC +AACAATAATCCCGGTCGATGAATCAACGCTCTTGCCAGCGCCACTCGCTGTTTCTGCCCGCCAGAAAGTG +CGGCAGGCCATTCCCCTGCGCGATTCTCCAGTCCTACCGCAGCCAACGCTCGACGTGCGGCATCGCGCCA +CTGGCCTTTAAGGCCTAACCCAACGTTATCAATCACCGATTTCCACGGTAGCAGACGCGCATCCTGAAAC +ATCATTCGCGTGTCTTCCTGAATTTCAGCCAGCGGTGTGGTGCCCGCTAACACATCGCCTGCGGTTGGCG +TTTCCAGACCTGCCAGCAGGCGCAGCAGGGTACTTTTGCCACCACCGCTGCGGCCCACCACCGCCACAAA +CTGACCTGCCGGAATATGTAAATCCAGTTGGTTCAGGACGATATTTTCCGCGTAATGTTTGCTTACTGCA +TTGAGCAACAATGGCGTGCCCTGGTTCAGACGAGCAGTATTCATACCGTGGCCTCCTTCAAATGATAAGC +CGGGTTCCAGCGCAACCAGAGGCGCTCTAACAGCTGCGCGCTGACGTCAGCCAGTTTGCCGAGCAGGGCG +TAAAGAATAATAGCGACTACCACCACGTCCGTTTGCAAAAACTCCCGCGCATTCATCGCCAGATAACCAA +TGCCTGAATTGGCAGAAATGGTTTCGGCAACAATCAGCGTCAGCCACATCAGGCCCAACGCAAAACGCAC +GCCGACCATAATTGAGGGCAGGGCACCAGGCAGGATCACATGGATAAACAGCGGTATGCCGGATAATCCA +TAGCTACGCGCCATCTCCACCAACCCGCGATCGATATTACGGATGCCATGCCAGGTGTTGATATAAATGG +GGAATAGCGTACCGAGCGCCACCAGAAAGATTTTTGCGGATTCATCAATGCCAAACCACAAAATCACCAG +CGGGATCAGCGCCAGATGCGGCACGTTGCGCAACATCTGAATTGAGGTATCCAGCAGCCGTTCTCCCCAG +CGAGATAGCCCGCTAATCAGTCCCAAAATCAACCCCAGCGATCCGCCAATTGAAAAGCCAATCAGCGCCC +GCCAGGAGCTGATCGCCAGATGCTGCCACAGTTCGCCGCTGGCGGAGAGCGTCCAGAACGCCGTCACCAC +TCCTTCCGGTGAAGGCAAAATACGCGTCGACAGCCAGCCAACCGAGGAGGCCAGTTGCCACACCGCCACG +ATGCCCACCGGTAAAAACCAGGGGGCAACGCGCAATAACCACTTCTTCACTGGCGTTGCCATTATTTCTT +CCTTAGCTTTGCGCGACTTTACGGGGGATAAAATCATTCGCCACCGCTTCGCCTTGCGGATTCAGCGGCT +GCGGCTGGGGAATTTCCGGGATGGCGACATCCAGAAGCGGGAACAGCAACTCGCCAACCCGATACGCTTC +TTCCAGATGCGGATAGCCCGAAAGCACAAAACTGTCGATGCCAAGCGCGGCATATTCGTTGATTCGCGCA +GCGACCGTAGGACCATCGCCCACCAGCGCCGTCCCGGCACCGCCGCGCACTAAGCCAACGCCCGCCCATA +AATTGGGGCTGATCTCCAGATTGTCGCGCTTGCCGTTATGTAACGCCGCCATTCGCTGTTGCCCTACGGA +ATCCGTCCGGGCGAATGCGGCCTGTGCTTTGGCGATAGTTTCATCATCAAGATGCGAGATTAACCGCTCG +GCGGCCTGCCACGCTTCGTCGTTAGTTTCACGAACAATCACATGCAGACGAATACCGAAACGAATTTTGC +GTCCATGCGCGGCAGCTTTCGCCCGCACTTGTTCGATTTTCTCTTTAACCAGTTCCGGCGGTTCGCCCCA +GGTGAGGTAGAGATCAACCTGTTCTGCCGCCAGCTCCTGGGCGACATCTGACGATCCGCCAAAGTAAAGT +GGCGGATACGGCTGTTGAATCGCCGGGAAGAGCAGTTTTGCTCCGCGCACATGAATATGTTTACCGTTGA +AATCGACGGTTTCTCTCTGCAATAAACGCCGCCAGACCTGGGTAAATTCCGCCGAGGCTTCGTAGCGCTC +GCTATGATCAAGGAACACTCCGTCGCCTGCCAGCTCTTGTGGATCGCTGCCTGTGACCAGGTTAAACAAC +GCACGTCCATTTGAGAGACGGTCAAGCGTGGCGGCCTGGCGGGCGGCAACGGTAGGTGAGGTTACGCTGG +GACGCAGGGCGACAAGAAACTTCAGCCGCTGCGTCACCGGGATCATCGATGCGGCAACCAGCCACGCATC +TTCGCAGGAGCGCCCCGTTGGAATTAGCACACCGGTATAGCCAAGACGATCCGCCGCTTGCGCAATTTGT +TGCAGATAACCGTGATCAACCGGGCGTGAACCTTCTTCCGTTCCCAGATAATGCCCGTCACCGTGGGTCG +GTAAAAACCAGAACATATTCAGACTCATAATTGTTTTCCTTCCAGTTGAGTGGGCTGCCAGATGCGCTGG +CGAATATCGACTTTTTTCGGCACCAGACGATTTTCATAAAACAGATCTGCCGTTTGCTGCTGTAAGGCGG +CAACCTCGGCGTTAACCGGTTTGATGGTGGTAGGAGGGCGATGATCTAAGTAAGAGGCAATCACCGGTGC +CGGTAAGCCCATCGTTTTTGCCAGTAAAGCGATGCTTTGCTCGCGCTGGCTGCGGGTTAACGCATCGGCC +TCACTAAAGGTTGCCAGTACGCCCTGAATAAAAGCGCCGTTTTTTTCTGCATAGGGACGAGCTGCCAGAT +AAAACGATCCAGTTTGATTGAGATCGGTGCCGTCTTTCAGCACCCGCACGCCGCCCTGTAATAATGCAGC +AGAGTAGTAGGGATCCCAGATAGCCCAGGCGTCAACGTTACCTTGCTGGAACGCGGCGCGGGCATCAGCG +GGCGTCAGGTAAGTGGGTTGGATATCGGTAAACTTAAGTCCGGCCTGACGCAGTGCACGCAGTAAAAGGT +TGTGTGAACTGGAACCTTTCTGAAAGGCAACTTTGTGACCTTTAAGATCGGCTACGGTTTTGATCGGGCT +GTTTTCTGCCACCAGAATCACTTCGGCTTTGGGCTTCGGTGGCTCGACGCCCACGTACACCAAATCAGCC +CCGGCAGCCTGGGCAAAGATTGGCGGAATATCCCCGGTACTGCCGAGATCAATACTGCCAACGTTTAACG +CTTCCAACATTTGCGGACCCGCGGGGAACTCCACCCAGGAGATTTTTGATTCCGGATAGCGTTTTTCCAG +TAACTGGTGGCTTTTTGCCAGCACCATACCAATACTGCCTTTCTGATAGCCTATACGTAACGCTTCAGGC +GAGGATTCTGCAGCAACCGCAAAAGTAGAGACGCTAAGCAATCCCGCCAGCGCCAGTTTAATGATGTTAC +GCATGGGCATTACCTCGCAGAGACAGAAGGTCAGGAACCTGAACATCGCGGCGGTGCAATGCCTGCCAGA +AAGTTTCTAGCGCGGTATCAAGACGGGTTTGCAGATTTGGCGTGAACTGGGGTCTGTGATGGTAATCAAT +TACTTGTGAGTCATCGGCAAACACGCCGTGCAGGATCTCCTGAGCTTTCAGTGCGCTTAAAACTGGTTTA +AGGGCATAATCGACCGCCAGCAGATGGGCCACGGTACCGCCCGTCGCCAGCGGTAGCACCACTTTGCCTT +GCAAAGCGCGTTCTGGCAGCAGGTCGAGCAGGGTTTTCAACGCACCGGAATAGGCGGCTTTATACACAGG +CGTGGCGACAATCAGCCCATCGGCCTGTTGCAGCTGTTCGGTGAAGGTCTTGAGTGCCGGACTATCGAAA +CGAGCATAAAGTAGATCTTCCGGGGCGAAGTTTTGCAGATTCCAGTGATAAACCTCTACATCCAGGCCAT +TTAGTTTTTCCCGCGCATATTCCAGCAAGGAGCTGGAGCGAGAAGGAAAGCGAGGACTACCCGCCAGGGT +GATGACACGCATACTCTCTCCTTATAACCAATTGTTCTTTTTTTGTTAACATTGATAACAATTCGGTCAG +TCTGTCGGAGAGACAAGAAAATTCCAAATATAAATTTTGTGTATCTTTTTCTGAAAATAAACTAAAGAAA +GGGCTTTATATATCACGCATATTTATTTATTGGATAGTCATTAGATGTTGAATCAATGAATTACTCGTTC +AGTTAATATTTAAATATTCATGAAATCTATAAATTAAAGATTTGTCACTTATTGGATTTAGTATGCTTGA +TTTAAATGGCGGACAATTATTGTTATTATTAAGTCTAATGTCATTTAAAGGCATTATCATATTTACGAAG +AGATCAGGATGATAACGATGAAAAAAAGTGTATTGACGGCGTTTATAACTGTGGTATGTGCAACGTCCAG +CGTTATGGCTGCTGATGATAATGCTATCACGGATGGCTCAGTAACATTTAATGGTAAAGTTATTGCTCCA +GCTTGTACCCTGGTAGCTGCGACGAAAGATTCCGTGGTGACTTTGCCAGATGTTAGTGCCACGAAGTTGC +AAACCAATGGTCAGGTTTCTGGCGTGCAAATTGATGTGCCAATTGAATTAAAAGATTGTGATACTACCGT +AACAAAAAATGCAACGTTCACCTTTAATGGCACTGCGGATACTACTCAGATTACAGCGTTTGCTAACCAG +GCCTCATCTGATGCTGCTACAAACGTGGCCCTGCAAATGTATATGAATGATGGTACAACGGCCATCACGC +CAGACACAGAAACCGGGAACATTTTGTTGCAGGATGGAGATCAGACGTTGACTTTTAAAGTTGATTATAT +CGCTACGGGGAAAGCGACTTCAGGTAATGTGAATGCGGTAACAAATTTCCATATTAACTATTATTAATAG +AACTCATTAATTGTTTTATTAATTAGTACCCCTCCAGTGTTCTGGAGGGGATATTCATATTTTTTAAGAG +TGACTATTTATGAAAACTTGCATAACAAAGGGAATTGTGACCGTAAGTTTAACGGCAATATTACTCAGCT +GCTCATCCGCATGGGCGGCAGGTAAAGGCGGGATTGGACTTGCAGCAACACGTCTTGTTTATTCAGAAGG +TGAAGAGCAAATTTCACTGGGTGTACGTAACACCAGTCCGGATGTTCCTTATCTTATTCAGTCATGGGTG +ATGACCCCAGATAATAAAAAATCAGCAGACTTTATTATTACACCACCGCTATTTGTGCTGAATCCGGCAA +ATGAGAATCTGTTACGCATTATGTACATTGGAGCGCCGTTGGCGAAAGACAGAGAAACCCTTTTCTTCAC +TAGCGTACGGGCAGTCCCTTCAACAACGAAGCGGAAAGAGGGAAATACCCTGAAGATTGCCACACAAAGC +GTCATCAAACTTTTCTGGCGACCAAAAGGTTTAGCGTATCCCTTAGGCGAGGCTCCGGCGAAACTGCGTT +GCACTTCGTCAGCTGACATGGTTACGGTCAGTAACCCAACACCTTATTTCATTACCCTGACAGACCTGAA +AATAGGTGGAAAAGTAGTTAAAAATCAAATGATTTCCCCCTTTGATAAATACCAATTTTCTCTGCCAAAG +GGGGCCAAAAATAGCAGCGTAACGTATCGAACCATCAATGACTACGGGGCGGAAACGCCGCAACTCAACT +GTAAATCGTAAGCCGTCTTCAGTTAAGAGAGCGAGATGTATAGAACTCATCGACAACACAGCCTGTTAAG +CTCTGGTGGAGTGCCATCGTTTATTGGTGGGCTGGTGGTGTTTGTGTCGGCAGCGTTCAATGCACAAGCT +GAAACCTGGTTCGATCCTGCTTTTTTCAAAGATGATCCCTCAATGGTGGCCGATTTGTCTCGTTTCGAAA +AAGGACAAAAAATAACGCCAGGGGTTTATCGTGTCGATATTGTTCTGAATCAGACAATTGTAGATACGCG +CAACGTCAATTTTGTTGAGATAACGCCAGAGAAGGGGATTGCCGCCTGTTTGACGACTGAAAGCCTGGAT +GCAATGGGTGTTAATACTGATGCGTTTCCGGCTTTTAAACAACTGGACAAACAAGCGTGTGTGCCATTGG +CGGAGATTATTCCGGATGCCAGCGTAACGTTTAATGTGAATAAACTCCGTCTGGAAATTTCAGTACCGCA +AATCGCCATCAAAAGTAATGCCCGTGGTTATGTCCCCCCTGAACGTTGGGATGAAGGGATCAACGCGCTA +TTACTGGGATATTCGTTTAGCGGGGCTAACAGTATTCATAGCAGCGCAGACAGTGATTCTGGCGACAGCT +ATTTTCTGAATTTAAACAGTGGCGTTAATTTAGGCCCATGGAGATTGCGCAACAATTCAACATGGAGTCG +TAGTAGTGGCCAAACCGCAGAATGGAAGAATCTCAGCAGCTATTTGCAACGGGCGGTTATTCCTCTGAAA +GGCGAACTGACCGTAGGTGATGATTATACTGCAGGCGATTTTTTCGATAGTGTCAGCTTTCGTGGTGTGC +AGCTGGCGTCAGATGACAACATGCTGCCAGACAGCCTGAAAGGGTTTGCGCCTGTGGTGCGTGGTATCGC +CAAAAGCAATGCCCAGATAACGATTAAGCAAAATGGTTACACCATTTACCAAACTTATGTATCGCCTGGT +GCTTTTGAAATTAGTGATCTCTATTCCACGTCGTCGAGCGGTGATTTGTTAGTTGAAATCAAAGAAGCGG +ACGGCAGCGTCAATAGCTACAGCGTACCGTTCTCCAGTGTGCCATTACTCCAGCGTCAGGGGCGAATCAA +ATACGCGGTGACACTGGCGAAATACAGAACCAATAGTAATGAACAGCAGGAGAGCAAATTTGCCCAGGCC +ACGTTGCAGTGGGGCGGACCGTGGGGAACGACCTGGTATGGTGGTGGACAATATGCTGAATATTACCGTG +CCGCCATGTTTGGTCTGGGATTTAACCTCGGCGATTTCGGAGCAATTTCGTTCGATGCGACCCAGGCGAA +GAGTACGCTAGCAGATCAAAGCGAACATAAAGGTCAGTCATATCGTTTTCTGTATGCCAAAACGCTCAAC +CACTTGGGCACTAACTTTCAATTGATGGGCTATCGCTATTCGACGTCGGGTTTCTACACCCTTTCCGACA +CCATGTATAAACATATGGATGGCTACGAATTTAATGACGGTGATGATGAAGATACGCCGATGTGGTCGCG +TTATTACAATTTGTTTTACACCAAACGTGGCAAACTGCAGGTCAATATCTCCCAGCAATTAGGCGAGTAC +GGTTCGTTTTATTTAAGTGGTAGCCAGCAAACTTACTGGCATACGGATCAACAGGATCGGCTATTACAGT +TTGGCTACAACACGCAAATTAAAGATCTTTCGCTGGGGATTTCCTGGAACTACAGTAAGTCCCGTGGTCA +ACCTGATGCTGATCAGGTGTTTGCTCTAAATTTTTCCCTGCCGCTCAATCTGTTGCTCCCCAGAAGTAAT +GATAGCTATACCAGGAAAAAAAATTACGCCTGGATGACCTCTAACACCAGTATCGATAACGAAGGGCACA +CTACACAAAACCTGGGTTTAACGGAGACATTACTCGATGACGGTAACCTGAGCTACAGCGTGCAACAGGG +ATATAACAGCGAGGGGAAAACGGCTAATGGTAGCGCCAGCATGGATTACAAAGGGGCGTTTGCGGATGCC +CGAGTGGGCTACAACTACAGCGATAACGGCAGTCAACAACAACTGAACTACGCTCTTTCAGGCAGTTTAG +TTGCCCATTCACAGGGCATTACCCTGGGGCAATCGCTGGGGGAAACTAACGTTCTGATTGCAGCACCAGG +CGCAGAGAATACTCGTGTGGCGAACAGCACCGGGCTGAAAACTGACTGGCGCGGATATACCGTTGTTCCT +TATGCCACTTCTTATCGGGAAAATCGAATCGCACTTGATGCGGCGTCGTTAAAACGTAACGTGGATCTTG +AAAATGCAGTAGTCAACGTGGTTCCCACCAAAGGGGCGTTGGTTCTGGCGGAGTTCAATGCCCATGCGGG +TGCAAGGGTATTAATGAAAACATCAAAGCAGGGTATACCGCTGCGTTTTGGCGCGATAGCGACGCTGGAC +GGCGTACAGGCTAATAGCGGCATAATTGATGATGATGGCTCGCTCTATATGGCGGGTTTACCGGCGAAGG +GAACAATAAGCGTGCGCTGGGGCGAAGCTCCCGATCAAATTTGTCATATCAATTACGAGCTTACCGAACA +ACAAATTAACTCTGCGATTACGCGAATGGATGCCATATGCAGATAATCTTTGGAGAAAAATGCGTGTCAT +TACTACGACTATTTTTTGCCGCCGTCTTAATGTTATGGTGCGCTCAAACCGCTGCTTATAGCGGGCAGTG +TCATACTACTCAGGGGAATCCGTATATTGGCGTCAATTTTGGCGTTAAAACCCTGGAGGAAGAAGCAAAT +ACGGCAGGGGTAGTTAAAGACAAATTTTATCAGTGGAACGAATCGAATGATTATTATGTTTCCTGTGATT +GCGATAAAGACAATGTCAGAAGTGGCCGATGGGCATTCGCCGCGGATTCACCGTTAGTCTATTTAGGCGA +CAACTGGTACAAAATTAATGACTATCTTGCCGCCAAAGTTTTATTGCAGGTTAAAGGCAGTTCTCCTACT +GCGGTTCCTTTCGAAAACGTGGGCACAGGGGGGGATACCCGATGGCATATTTGCGACCCTGGCGGTCAAC +GTTTAGGTGGGCAGGGGGCAAGCGGTAATAGCGGTAGCTTTTCCCTGAAAATATTGCAGCCGTTCGTTGG +CTCGGTCGTCATTCCTCCTATGGCGCTGGCGCGATTATATGAATGCTACAACATACCCGCAGGTGATTCC +TGCACGACTACAGGTACACCGGTTTTAGTGTATTACCTGTCTGGTACGATCAATTCACTTGGCTCATGTT +CCGTCAATGCCGGAGAGACAATTGAAGTTGATTTAGGTGATGTCTTCGCTGCCAATTTCCGTGTTGTAGG +GCATAAACCTCTTGGGGCCAGAACGGCAGAACTTGCAATTCCAGTCAGGTGTAACACGGGAAACGCGGGA +TTAGTTAATGTCAACCTGAGTCTGACGGCAACCACAGACCCCAGCTATCCCCAGGCGATTAAGACGTCAC +GTCCTGGCGTGGGCGTGGTGGTGACCGATAGCCAGAACAACATTATTTCCCCTGCTGGTGGAACATTACC +GCTCTCTATTCCTGATGATGCAGACAGTATCGCGCGAATGAATGTCTATCCAGTCAGCACGACAGGTGTA +CCACCAGAAACCGGGCGATTTGAAGCCACGGCAACGGTGAGAATAAATTTTGATTAACGCGTGAACGTAT +GAAGAAAAAAACGATATTTCAGTGCGTTATCTTGTTCTTTAGCATTCTTAACATCCATGTCGGGATGGCT +GGGCCTGAACAAGTTAGTATGCATATTTATGGGAATGTGGTCGATCAGGGCTGTGATGTCGCCACCAAAA +GTGCATTACAAAATATTCATATTGGTGATTTTAATATCAGTGATTTTCAGGCCGCGAATACCGTAAGCAC +TGCTGCTGATTTGAATATCGATATCACCGGTTGTGCCGCTGGTATTACTGGCGCGGACGTCCTTTTTAGC +GGCGAGGCTGACACCCTTGCGCCGACACTGCTCAAACTAACTGACACAGGCGGAAGCGGTGGTATGGCAA +CGGGGATTGCCGTGCAAATTCTTGATGCGCAAAGTCAGCAAGAAATCCCGCTCAATCAGGTCCAGCCTCT +TACGCCCTTAAAAGCCGGGGATAACACACTCAAATATCAACTTCGTTATAAGTCCACAAAGGCGGGAGCA +ACGGGCGGTAATGCGACGGCGGTTCTCTATTTTGATCTGGTTTACCAGTGAAGGAGTGATGTTGAAACGG +ATAATCTGGATTCTGTTCTTATTGGGATTAACGTGGGGCTGTGAGCTATTTGCCCATGATGGCACGGTCA +ACATTAGCGGATCGTTTCGCCGTAATACATGCGTGCTGGCACAGGATAGCAAGCAAATCAATGTGCAGTT +AGGCGATGTCTCGCTGACACGTTTTTCTCATGGGAATTATGGCCCGGAGAAATCTTTCATCATTAATTTG +CAGGATTGCGGAACAGATGTCAGCACGGTTGACGTCACCTTTTCAGGAACCCCCGACGGAGTGCAGAGCG +AAATGTTGTCCATTGAAAGTGGTACGGATGCAGCCAGCGGGCTGGCAATTGCGATTCTGGATGATGCGAA +GATATTGATTCCGCTTAACCAGGCGAGTAAAGACTACAGCCTACATAGCGGTAAGGTGCCATTAACTTTT +TATGCGCAATTGCGACCTGTCAATAGCGATGTGCAGTCGGGTAAAGTGAATGCCAGCGCGACATTTGTAC +TTCATTATGACTAATACGTGGAACAGATTGGCGCTCTTGATTTTCGCCGTTTTATCGCTGCTGGTGGCGG +GTGAATTGCAGGCAGGAGTGGTGGTCGGCGGAACGCGATTTATCTTTCCGGCAGACAGAGAATCGATATC +TATTTTACTGACTAATACCAGTCAGGAATCCTGGCTTATTAACAGTAAAATCAACCGCCCAACGCGTTGG +GCCGGGGGGGAAGCGTCGACAGTGCCAGCACCATTACTGGCCGCTCCGCCACTTATTCTCCTGAAGCCCG +GTACGACAGGCACGTTGCGCTTGCTGAGAACGGAAAGCGACATCTTGCCTGTGGATCGCGAAACGCTATT +TGAGTTAAGCATTGCCAGCGTGCCATCCGGCAAAGTTGAAAATCAGAGCGTAAAAGTGGCGATGCGCTCG +GTATTTAAACTGTTCTGGCGACCCGAAGGTTTGCCGGGCGACCCGCTGGAAGCTTATCAACAATTACGCT +GGACACGGAATTCGCAGGGTGTACAACTCACTAACCCAACGCCTTATTACATTAACCTGATTCAGGTGAG +TGTAAATGGTAAAGCGTTAAGTAATGTGGGAGTTGTGCCGCCTAAAAGCCAGCGTCAGACAAGCTGGTGT +CAGGCAATCGCACCGTGTCATGTCGCCTGGCGGGCGATAAATGATTACGGCGGGTTGAGTGCAAAGAAGG +AGCAAAATCTGCCCTGAAACAGGTTCGGAAAACGTTTGCGTTTTTTTTGCCGCAGGTCAATTCCCTTTTG +GTCCGAACTCGCACATAATACGCCCCCGGTTTGCACACCGGGAATCCAGGAGAGTTCATGTACTACCCCT +TCGTTCGTAAAGCCCTTTTCCAGCTCGATCCAGAGCGCGCTCATGAGTTTACTTTTCAGCAATTACGCCG +TATTACAGGAACGCCGTTTGAAGCACTGGTGCGGCAGAAAGTGCCTGCGAAACCTGTTAACTGCATGGGC +CTGACGTTTAAAAATCCGCTTGGTCTGGCAGCCGGTCTTGATAAAGACGGGGAGTGCATTGACGCGTTAG +GCGCGATGGGATTTGGATCGATCGAGATCGGTACCGTCACGCCACGTCCACAGCCAGGTAATGACAAGCC +GCGTCTCTTTCGTCTGGTAGATGCCGAAGGTTTGATCAACCGTATGGGCTTTAATAATCTTGGCGTTGAT +AACCTCGTAGAGAACGTAAAAAAGGCCCATTATGACGGCGTCCTGGGTATTAACATCGGCAAAAATAAAG +ATACGCCAGTGGAGCAGGGCAAAGATGACTATCTGATTTGTATGGAAAAAATCTATGCCTATGCGGGATA +TATCGCCATCAATATTTCATCGCCGAATACCCCAGGATTACGCACGCTGCAATATGGTGAAGCGCTGGAT +GATCTCTTAACCGCGATTAAAAATAAGCAAAATGATTTGCAAGCGATGCACCATAAATATGTGCCGATCG +CAGTGAAGATCGCGCCGGATCTTTCTGAAGAAGAATTGATCCAGGTTGCCGATAGTTTAGTTCGCCATAA +TATTGATGGCGTTATTGCAACCAATACCACACTCGATCGTTCTCTTGTTCAGGGAATGAAAAATTGCGAT +CAAACCGGTGGCTTAAGTGGTCGTCCGCTTCAGTTAAAAAGCACCGAAATTATTCGCCGCTTGTCACTGG +AATTAAACGGTCGCTTACCGATCATCGGTGTTGGCGGCATCGACTCGGTTATCGCTGCGCGTGAAAAGAT +TGCTGCGGGTGCCTCACTGGTGCAAATTTATTCTGGTTTTATTTTTAAAGGTCCGCCGCTGATTAAAGAA +ATCGTTACCCATATCTAATTATTTCTTCGAATTCCTCTTTATAAGATAATCAGGGCTTTATTTTCAGCCC +TGGTTGTTTTATATTCATCGCTGTTGCTTATTTAGACATTTTGTACTTTTATTGTTGAGGTTATTAAGCG +AAGCGACAATGGATTGTGTTGCTGCGGTTTTATAGGGTAGGGGAGAGGCAGATGCGAATTAAACCAGACG +ATAACTGGCGTTGGTATTACGATGAAGAGCACGATCGAATGATGCTCGATTTAGCCAATGGTATGCTATT +TCGCTCACGTTTTGCGCGCAAGATGTTGACTCCAGATGCCTTTTCTCCCGCAGGCTTTTGCGTTGACGAC +GCCGCGCTCTATTTCTCTTTTGAAGAAAAGTGCCGCGATTTTAATTTATCTAAAGAACAAAAAGCCGAAC +TGGTGCTGAATGCACTGGTAGCAATTCGCTATCTCAAACCGCAAATGCCGAAAAGCTGGCATTTTGTTTC +CCATGGTGAAATGTGGGTGCCCATGCCGGGCGATGCGGCCTGCGTTTGGTTGAGCGATACTCACGAGCAG +GTCAATTTGCTGGTCGTTGAATCTGGCGAAAATGCCGCACTATGCCTGCTGGCACAACCCTGCGTTGTTA +TTGCGGGTCGCGCGATGCAGTTGGGCGACGCCATTAAAATCATGAACGACAGGCTGAAACCGCAGGTTAA +TGTTGACAGCTTCAGCCTCGAACAGGCAGTCTAACGCGCCAACTTAAGTGCAGTCTTCGGTACACAGCTA +CAGCAAAGAATGGTGCCATCATCGCCCATTGCTGATTTTTTCAGCGGCGTGACTTCGCCTTCTAAAAGCT +GAACACGGCAACTTCCACAAATGCCCGCGCGGCAAGAATAAGGGATACGAATTCCCTGATTTTCTAATTG +CTCCAGCAACACCTGTTGGTTATTTCCACGAAATGCCTGTCCCTGCCAGTCAATATCTACATTTGCGTCC +GGTTGTTGCGTGATGTTGGCGGTATCATCAGCGGCAGCTGCGCCGTAAATTTTTGCCGGAGCCGTTGCCA +GAATTTCCACCTCATCGCCAACGCGAATCACGCCGCTATTACGGGCAATTAAATTCTGACCAAAATCGAC +ATCGCCGTTATCCTGGGCAGTGCGGAAAGATTGCAATGTTTTTAATGGTTCGCCTGCCGGATGTTTTTGC +CCTTTTTCTGGGCTGACGGTGGTGAAAATACAGCGGCTACAAGGTTTAACCACATCAAACACCACATCAC +CAATGCGAATCACTTTCCAGCGATCTTCTTCCCAGGCTGACGCGCCGGAAACCACCAGATTGGGGCGGAA +TTGCTCCATTTTTACACTGGCCGGACAACGTTGTTGGAGATCACGTAACGAGGCTTCGTTAGCAAGAAGG +TAAGGATAGCCATCAGCAAATGACAGAGGTACAGTGTTGTGGCGTTTCACGCGCCGGGTCATTTGTGGCC +CCACCCAGCGTAATTGCACTTCGCGGGAGAAAAATCCACTTAGCCATTTGTTGATCGCGTCTGGCGCAAT +TCGCGCGGTAAAATGTGTGCCCCAAACTTCGGTTGGTGCGTCTTGTGTGGCGAAATCAGCAAAACGAACA +TATGCGCTACTGCCATCTGGTGCGGTGAGATGCAAGCCATCATGCACAGGTGAAGGAGTAAACCGTACCA +TCTGGGGAAACTGGCGAGCGGTAATAAACGTACCGTCAGGTTCCGTGATCATAAAGATGCGATCGAAGGC +CAGACCACTGACATCTGCCAGAGCATGTGTAAGACCAATGCCGCGCATCGATTTAACAGGATGAATAAAA +AGCCGGATTAATGTCGCCACGGTGCGGTCCTCAAATGAAAATAAGCCCTCAACTTTATGACATGACGCGC +TTATTAGCTATAATGCGCAACAATTTTCTTAGCGCCTGTCCCATTAGGCTATTTTATTTGTCAGTTTGGC +CCTGGGTTATGCTCGAAATCCTCACGTACTTGTGTACGCTCCGGTTTCTCCGCGCTGTCCATGTCCAGAC +TGACTGCAACAATTACGCCTACTGCGGTAGGCTCTTAGAGTAAAAGTGACGATATGAATTCTCTGTTTGC +CAGTACGGCCCGTGGGCTGGAAGAGCTGTTAAAAACTGAACTGGAAAACCTGGGGGCCGTTGAATGCCAG +GTGGTTCAGGGTGGGGTCCATTTCAAGGGCGACACACGGCTTGTTTACCAGAGCCTGATGTGGAGCCGCC +TGGCCTCGCGTATTATGTTGCCGCTGGGCGAGTGTAAGGTTTACAGCGATTTAGACCTCTATCTCGGTGT +TCAGGCGATCAACTGGACAGAGATGTTTAATCCTGGCGCGACCTTCGCTGTCCACTTCAGTGGTTTGAAT +GACACCATCCGCAACAGTCAGTACGGCGCGATGAAAGTGAAAGACGCGATCGTCGATGCTTTCACGCGGA +AAAATCTGCCGCGTCCAAATGTTGATCGCGATGCGCCGGATATCCGCGTTAACGTCTGGCTGCATAAAGA +AACCGCCAGTATCGCTCTTGATCTGAGTGGTGATGGTTTACATCTGCGTGGCTATCGCGATCGTGCTGGT +ATTGCGCCGATCAAAGAAACCCTGGCAGCCGCTATTGTGATGCGATCCGGCTGGCAGCCAGGAACACCGC +TGCTCGATCCGATGTGTGGTTCCGGTACGTTGCTGATTGAAGCAGCGATGCTGGCGACCGATCGCGCACC +AGGCTTGCACCGTGGGCGTTGGGGCTTTAGCGGCTGGGCGCAGCATGATGAAGCTATCTGGCAGGAAGTG +AAAGCGGAAGCGCAAACTCGCGCCCGTAAAGGCCTGGCTGAGTATAGCTCTCATTTTTACGGTTCGGACA +GCGACGCACGGGTGATTCAACGTGCACGCACTAACGCCCGTCTTGCGGGGATTGGTGAACTGATCACCTT +TGAGGTGAAAGATGTCGCGCAACTGACCAATCCGCTGCCGAAAGGGCCGTACGGCACAGTGTTGAGCAAC +CCGCCATACGGGGAACGTCTGGACAGCGAACCGGCGCTGATTGCGCTGCATAGCCTGCTGGGTCGGATCA +TGAAAAACCAGTTTGGTGGCTGGAATCTCTCTTTGTTTAGTGCCTCGCCGGATCTGCTAAGCTGCTTGCA +GCTGCGTGCAGACAAACAGTACAAGGCGAAAAACGGCCCGCTGGACTGCGTACAGAAAAATTACCACGTT +GCCGAAAGCACTCCAGACAGCAAACCGGCGATGGTAGCGGAAGACTACACCAACCGCCTGCGTAAGAACC +TCAAAAAATTCGAGAAGTGGGCTCGCCAGGAAGGGATTGAATGTTACCGCCTGTATGACGCCGATCTGCC +AGAATATAACGTTGCCGTTGACCGTTATGCCGACTGGGTGGTGGTGCAGGAGTATGCGCCGCCAAAAACT +ATTGATGCTCACAAAGCGCGTCAGCGTCTGTTCGATATTATCGCTGCAACCATTTCGGTACTGGGGATTG +CGCCAAACAAACTGGTGCTGAAAACCCGTGAACGCCAGAAGGGCAAAAACCAATACCAGAAACTGGGCGA +GAAGGGCGAGTTTCTTGAAGTTACCGAATATAACGCTCACTTGTGGGTGAACCTGACGGATTATCTCGAT +ACTGGTCTGTTCCTCGATCACCGCATCGCCCGTCGTATGCTCGGTCAGATGAGCAAAGGCAAAGATTTCC +TCAACCTGTTCTCTTATACCGGCAGCGCCACCGTGCATGCGGGATTAGGCGGTGCACGCAGCACCACCAC +CGTGGATATGTCGCGTACTTATCTGGAATGGGCAGAACGCAACCTGCGTCTGAATGGCCTGACCGGGCGT +GCGCATCGCCTGATTCAGGCCGATTGCCTGGCGTGGCTGCGTGAGGCAAATGAACAGTTCGATCTGATCT +TTATCGATCCGCCAACCTTCTCTAACTCAAAACGAATGGAAGATGCGTTTGATGTTCAGCGCGATCATCT +GGCGCTGATGAAAGATTTGAAACGTCTGCTGCGTGCAGGTGGGACGATCATGTTCTCGAACAACAAACGT +GGCTTCCGTATGGATCTCGACGGCCTGGCAAAACTGGGACTGAAAGCACAAGAAATTACGCAAAAAACGC +TCTCCCAGGATTTCGCCCGTAACCGCCAGATCCACAACTGCTGGCTGATTACCGCAGCCTGAAAGGAATA +GTAATGTCATTAATCAGTATGCATGGCGCATGGCTGTCGTTCAGCGACGCGCCGCTTCTCGATAACGCAG +AACTGCATATCGAAGATAACGAACGTGTTTGTCTGGTGGGCCGCAACGGCGCAGGCAAATCGACGTTAAT +GAAAATCCTCAACCGTGAACAAGGGCTGGATGACGGTCGCATTATTTACGAGCAAGATTTGATTGTAGCG +CGTCTGCAACAGGATCCGCCGCGTAACGTTGAGGGTAGCGTTTATGATTTCGTTGCCGAAGGCATTGAAG +AACAAGCGGAATATCTGAAACGCTATCACGATATTTCGCGCCTGGTGATGAACGACCCGAGCGAGAAAAA +TCTCAACGAACTGGCGAAGGTTCAGGAACAGCTGGATCACCACAACCTGTGGCAGCTGGAAAACCGCATC +AACGAAGTGCTGGCGCAACTGGGGTTAGATCCTAACGTTGCGCTGTCGTCGCTTTCCGGCGGCTGGTTGC +GTAAAGCGGCATTAGGACGCGCGCTGGTGAGTAATCCGCGCGTGCTGTTGCTTGATGAACCGACAAACCA +CCTGGATATTGAAACCATCGACTGGCTGGAAGGGTTTTTGAAAACTTTCAACGGGACGATTATTTTCATC +TCCCACGACCGTTCGTTTATCCGCAATATGGCGACGCGCATTGTTGATCTCGATCGCGGCAAGCTGGTGA +CCTATCCAGGGAATTACGACCAGTACCTGCTGGAAAAAGAAGAAGCCCTGCGCGTGGAAGAATTACAAAA +TGCCGAGTTCGATCGCAAACTGGCGCAGGAAGAGGTGTGGATCCGCCAGGGGATCAAAGCACGCCGTACC +CGTAATGAAGGCCGCGTACGCGCCCTGAAAGCGATGCGTCGCGAACGTGGTGAACGTCGCGAAGTGATGG +GTACCGCAAAGATGCAGGTGGAAGAGGCCAGCCGCTCCGGTAAAATCGTTTTCGAAATGGAAGACGTTTG +CTACCAGGTTAACGGTAAGCAACTGGTGAAAGATTTTTCTGCCCAGGTTCTACGTGGCGACAAAATTGCC +CTGATTGGTCCGAATGGGTGCGGCAAAACCACGCTGCTAAAACTGATGCTCGGTCAGCTTCAAGCGGACA +GCGGGCGTATTCACGTTGGCACCAAACTGGAAGTGGCTTATTTCGATCAGCACCGCGCGGAACTGGATCC +CGATAAAACGGTGATGGATAACCTTGCCGAAGGTAAGCAAGAGGTGATGGTTAACGGCAAGCCACGCCAC +GTATTGGGCTATTTGCAGGACTTTCTGTTCCATCCGAAACGGGCGATGACGCCGGTACGTGCGCTTTCTG +GCGGTGAGCGGAACCGCTTGCTGCTGGCGCGTTTGTTCCTCAAACCAAGCAACTTATTGATTCTTGACGA +ACCGACCAACGATCTTGATGTCGAAACGCTGGAACTGCTGGAAGAACTGATCGACAGCTATCAGGGCACG +GTATTGCTGGTTAGCCACGATCGTCAGTTTGTCGATAACACCGTTACAGAATGTTGGATCTTCGAAGGCG +GCGGTAAAATTGGTCGTTATGTCGGCGGTTATCATGATGCCCGTGGTCAGCAAGAGCAGTATGTGGCGCT +CAAACAGCCTGCGGTGAAAAAAACCGAAGAAGCCGCCGCGGCAAAAGCAGAAACTGTAAAACGCAGCAGT +AGCAAACTAAGCTATAAATTGCAGCGCGAACTGGAGCAGCTACCGCAATTGCTCGAAGATCTGGAGGCGA +AGCTGGAAGCCCTACAGACGCAAGTGGCGGATGCTTCCTTCTTCAGTCAGCCGCATGAGCAGACGCAAAA +AGTGCTTGCTGATATGGCTGCTGCAGAGCAGGAGCTGGAGCAAGCCTTTGAACGCTGGGAGTATCTTGAA +GCGTTAAAAAATGGTGGCTGATCGCAAAATAGTCGATTTAAACAGAGACAGCTGACAACGGTAAAATTGC +CTGATGAACTGGGTTTATCAGGCATGAAAACCAACACTTTGTTAGTCATCTGTAAAATAGCGCATCATTA +AGGAGTACCAATGTGCGAACATCATCATGCCGCGAAGCACATCCTGTGCTCGCAGTGTGACATGCTGGTG +GCGTTACCGCGCCTTGAGCATGGTCAGAAAGCGGCATGTCCCCGGTGTGGCACAACGTTAACCGTGGCGT +GGGATGCCCCTCGGCAGCGTCCCACCGCCTATGCGTTGGCTGCACTGTTCATGCTGTTGCTGTCCAACTT +GTTTCCTTTTGTGAATATGAACGTTGCAGGAGTTACCAGTGAAATTACATTACTGGAAATTCCCGGCGTG +CTTTTTTCTGAGGACTACGCCAGCCTCGGCACCTTTTTCCTGTTGTTTGTGCAACTGGTTCCCGCGTTTT +GTCTGATAACCATTCTGTTACTGGTGAATCGCGCGGAATTACCGGTCCGTTTAAAAGAGCAACTGGCACG +GGTGCTTTTTCAACTCAAAACCTGGGGAATGGCGGAGATTTTCCTCGCGGGTGTGCTGGTCAGTTTCGTT +AAACTGATGGCTTACGGCAGCATTGGGGTAGGCAGCAGCTTTCTCCCCTGGTGTTTATTTTGTGTCCTGC +AACTGCGCGCTTTTCAGTGCGTTGATCGTCGCTGGTTATGGGACGACATCGCCCCGATGCCAGAACTGCG +CCAGCCGCTAAAACCAGGCGTCACGGGGATACGTCAGGGGCTGCGTTCGTGCTCCTGTTGTACGGCAATC +CTTCCTGCTGATGAACCCGTGTGCCCGCGTTGTAGTACCAAAGGGTACGTTCGGCGTAGAAACAGCCTGC +AGTGGACACTCGCGCTGCTTGTAACGTCCATCATGCTGTATCTTCCGGCTAATATTTTGCCCATCATGGT +GACGGATTTATTAGGCTCGAAGATGCCGTCGACGATTCTCGCTGGGGTCATTCTGTTATGGAGCGAAGGC +TCTTATCCCGTCGCTGCGGTGATCTTTCTGGCCAGTATTATGGTGCCAACGTTAAAGATGATCGCCATCG +CGTGGCTGTGTTGGGATGCCAAAGGGCATGGCAAGCGCGACAGTGAAAGAATGCATTTGATTTATGAAGT +TGTTGAGTTTGTAGGCCGCTGGTCGATGATTGACGTTTTCGTTATCGCGGTGCTCTCGGCGCTGGTGCGT +ATGGGAGGTTTAATGAGTATTTATCCGGCAATGGGTGCATTAATGTTTGCTTTAGTCGTCATAATGACAA +TGTTTTCTGCTATGACGTTTGACCCGCGTTTGTCGTGGGATCGTCAACCTGAATCAGAGCATGAGGAGTC +CTGACAGTATGGAATCTAATAATGGGGAAGCCAAAATCCAGAAAGTGAAGAACTGGTCTCCCGTGTGGAT +ATTTCCTATCGTCACGGCGCTCATTGGGGCCTGGGTTCTTTTTTATCATTACAGCCATCAGGGACCGGAA +GTGACCCTGATCACCGCGAATGCGGAAGGAATTGAAGGTGGCAAAACCACCATTAAAAGCCGTAGCGTTG +ACGTCGGCGTGGTTGAAAGCGCCACACTGGCTGATGATTTGACGCACGTTGAAATCAAAGCGCGGCTGAA +TTCCGGTATGGAAAAATTGCTGCATAAAGACACCGTCTTTTGGGTGGTGAAACCGCAGATTGGTCGCGAA +GGGATTAGCGGCCTGGGAACGCTGCTGTCTGGAGTTTATATCGAACTGCAGCCAGGCGCGAAAGGCAGCA +AAATGGATAAATACGATTTGCTGGACTCGCCACCGTTGGCCCCGCCTGATGCGAAAGGTATCCGTGTGAT +TCTCGATAGCAAAAAAGCCGGGCAGCTCTCGCCAGGAGATCCGGTGCTGTTCCGTGGCTATCGGGTAGGT +TCGGTTGAAACCAGCACCTTCGATACACAAAAACGCAATATCAGCTATCAACTGTTCATCAATGCACCTT +ATGACCGACTGGTGACCAACAATGTTCGCTTCTGGAAAGATAGTGGCATTGCGGTTGATCTGACGTCAGC +AGGGATGCGTGTGGAGATGGGCTCATTGACAACGCTGCTGAGTGGCGGTGTCAGCTTTGATGTGCCGGAA +GGTCTGGATTTAGGGCAGCCAGTGGCACCGAAAACAGCTTTCGTTTTGTATGATGATCAGAAGAGCATTC +AGGATTCGTTGTACACCGATCACATTGATTATCTGATGTTCTTTAAAGATTCGGTACGCGGTCTGCAACC +GGGAGCTCCGGTAGAGTTCCGGGGTATTCGCCTGGGTACCGTAAGCAAAGTGCCATTCTTTGCGCCGAAT +ATGCGTCAGACATTTAACGATGATTACCGTATTCCGGTACTGATTCGTATCGAGCCAGAGCGGCTGAAAA +TGCAGCTTGGCGAAAATGCGGATGTTGTTGAGCACCTTGGCGAATTGTTGAAACGTGGTTTACGCGGATC +GCTGAAAACCGGAAACCTGGTCACTGGTGCACTGTATGTTGATCTCGATTTCTATCCAAATACGCCTGCA +ATAACCGGTATTCGTGAATTTAATGGTTATCAGATTATCCCGACCGTTAGCGGCGGCCTGGCGCAAATCC +AGCAACGACTGATGGAAGCGTTGGATAAGATCAACAAACTGCCATTGAATCCGATGATTGAACAGGCAAC +CAGTACGCTTTCTGAAAGTCAGCGCACAATGAAAAACCTGCAAACGACGCTGGATAGCATGAACAAGATC +CTCGCTAGCCAGTCGATGCAGCAGTTGCCGACGGATATGCAGTCAACGTTGCGTGAATTGAATCGCAGCA +TGCAGGGCTTCCAGCCTGGCTCCGCAGCCTACAACAAGATGGTGGCGGATATGCAGCGCCTTGATCAGGT +GTTGCGAGAACTGCAACCGGTGCTGAAAACGCTCAATGAGAAGAGTAACGCGCTGGTATTTGAAGCGAAG +GACAAAAAAGATCCAGAGCCGAAGAGGGCGAAACAATGAAAAAGTGGCTAGTGACGATTGCAGCACTGTG +GCTGGCCGGATGCAGCTCCGGCGAAATTAATAAAAACTATTACCAGTTACCTGTGGTGCAGAGCGGTACA +CAAAGTACCGCCAGCCAGGGCAATCGTCTGTTATGGGTAGAGCAGGTCACTGTTCCTGACTATCTGGCGG +GGAATGGTGTGGTTTATCAAACCAGTGATGTGAAGTATGTGATTGCCAACAACAACTTGTGGGCCAGCCC +GTTGGATCAACAGTTGCGCAACACCCTGGTTGCCAACCTGAGTACGCAACTGCCCGGCTGGGTGGTTGCC +TCCCAGCCTCTGGGAAGCGCCCAGGACACGCTCAATGTTACCGTAACGGAGTTTAACGGTCGCTATGATG +GCAAGGTCATTGTCAGTGGTGAGTGGCTGTTGAACCACCAGGGACAACTGATCAAACGTCCGTTCCGTCT +GGAAGGAGTGCAAACTCAGGATGGTTACGATGAGATGGTTAAAGTGCTGGCCGGTGTCTGGAGTCAGGAA +GCCGCTTCTATTGCACAAGAGATAAAGCGTCTACCTTAATTATAAAGATTTGTAAATATAACCGTCTCCG +GTATGTTGCCTGAGGCGGTTTTTTTGTCTCTAACGTGCGGAAAAATTTGTTCCTCTTCACATTTTTTGTA +CAACCGACATGCCCGTGTAGCTCACAAATATGACAGTGGCGTGAATTTTGCGCATTGACGGCAGTTATGA +TTCGCGGTATTGCTTAACTGTGATTGCACATTTAGTAATCACTGTTTTCTTTTCCACCAGAAACCAGTAT +GAGGGAAACGAGGCATGAAGAGACAAAAACGAGATCGCCTGGAACGGGCACATCAACGTGGTTATCAGGC +CGGCATCGCCGGACGCTCAAAAGAAATGTGTCCCTATCAGACGCTGAATCAAAGGTCACAATGGCTGGGA +GGCTGGCGAGAAGCCATGGCGGACAGGGTAGTAATGGCCTGATTCTGTCTCTTTAAAAAGAAACCTCCGC +ATTGCGGAGGTTTCGCCTTTTGATACTCTGTCTGATTATAATCAGAAGGCAGACGTATCCTGGAACAGAC +CGACTTTCAGGTCGCTGGCGGTATAGATCAGACGACCATCAACCAGCACTTCGCCATCCGCCAGGCCCAT +AATCAGACGACGGTTAACAATGCGTTTAAAGTGAATACGGTAGGTCACTTTTTTCGCTGTCGGCAGTACC +TGACCAGTGAATTTCACTTCGCCAACGCCCAGCGCGCGGCCTTTACCTTCGCCGCCCAGCCAGCCGAGGT +AGAACCCTACCAGCTGCCACATTGCGTCCAGGCCCAGGCATCCCGGCATAACCGGATCGCCAATAAAGTG +GCATCCGAAGAACCACAGATCCGGATTGATATCCAGTTCTGCTTCAACATACCCTTTGTCGAAGTTACCA +CCCGTTTCGGTCATTTTGACCACACGGTCCATCATCAGCATGTTCGGTGCTGGCAATTGCGGGCCTTTAG +CGCCAAACAGTTCACCGCGACCAGAGGCAAGAAGGTCTTCTTTTGTATAGGATTCGCGTTTATCTACCAT +GTTCTCTGTAAGCCTTATTTTATTGAAGCACGCAGGATAGCTAACACGTGTACGCTGAACAAGTCCGATC +AGTTCGGAATAAACCAGTTCAGCCAACGTAATGGCCATGGAAAACGGTGACGTCCTTCCTGTTGCGATGC +TTGCGCGATACGTTCCTGGATGGTTTGCATCAGCGTCGTTTGGCCTTCGCCATCCCACACCAGATTTAAT +AATAACGGCAGTGCGTCAGTCACATCGTCTACTGCCCAGATGGTGAATTTGCCTTCTTCTACCGCTTTCA +CCAGTTCACTGTGAAGACTTAAATGGCGAACGTTAGCTGTGGGGATAATGACACCTTGTTTCCCGGTTAA +CTCACGTTGCTGGCAAATAGCAAAGAAGCCTTCGATTTTCTCATTTAAACCACCGACCGGCTGGGCGCGA +CCGAACTGATCGACTGAACCTGTGATAGCGATACTCTGATTCACCGGCACATCGGCGAGGGCGCTTATCA +GGGCGCAGAGTTCAGCCATCGAGGCACTATCTCCATCAACTTCACTGTATGACTGCTCAAATGTCAGCGA +TGCTGAGAAGGGGATCTGTTGCTCAAGCTGTAGTTCCGACATCAGGAACGCTTGCATGATCATCATCCCT +TTCGCATGGATATTGCCGCCAAGCTCCGCTTTGCGTTCGATGTCGGTGAATTCACCATCGCCAATATGCA +CAACGCAGCTAATGCGAGAAGGTTCGCCAAAAGCGCGTGGATGACCCGGAAATTCAATGACCGAAAGGGC +GTTAATTTGCCCGATGCGTTCGCCTTCGGTTTCAATCAGGATTTGCTCCTGAAGGATCTCATCCTGCATA +CGTTCAGCGAGGAAACCTTCGCGCCATTCACGCTGCTGCAGCATTAAGTTTAGCTGCTCGCCGGAGAAGG +TGTCGCCATCACACAGGGAGGCGACCTCTTTACACTGGCGGAGGATCCACTGCGGGCTAAGCGGAAGTGT +TTCTTGTTCACCGGTGTAGCGTGCTGCTTCGCGGATAAGTATCGGCCAGGCATCCGCTCCCGGTGCAGGT +AAGTGATTATGTCTGGCGGTAAATGTCACCCAGCGACACCACTGGGTTACTGACTCCGCATCGACAATCT +GCAGAGTATCTTCAAATTCGCTATAAATAGCCTGCTCTGAAAGCTCTGGCTCCATCTCCTGGAAATCAGC +CAATGATTCGCGTTCGCCTACCAGAATGACTTTCAGCTTCAATGGCATCGAAGGCACAGAGACGGGGAGA +GGGCGCGACTCATCAAACGCAACCCAGTCAAAACGCTCGCGGTTAACGATATTTTTCAGCCGCATCCACA +GCAGAGGTTGCGCCAGCAGTGTACGCAAAGAGATAATGAGAATACCGCCATTTGCCTGATGCACCAGACC +AGGCTGCAGGGTAATGTCGCCATTAAACTGGCGCAGGCAGCCAAAGAGTTGCTCCGCTTCTACCCAGTCG +GCAGCGACAACTTGCGTTAAAGTCGCAAAATTATCATCTGCACTCACTGCGTGACGTAAGCGGATGGAGT +GGCCGGAAACCTCATAGTGACCGCCCACCAGTTGGCCTGCATCGCTTTGTAGCGTACGCGCGGCATTGGC +AATAAGATTCAGATACTCAGACTCTTCCGGGGCCTTCGCCAGCATAAAAGAGGAGGATGCTCGCGTATGC +AGCAACTGCTCCAGCGCAAATTGCAGCCGCGGTTGAGTATCACTGAATAAAGGATCGTTTTCGTCAATCA +AATGTGGCTGAGCAAATATTTCCTGATAGCTATCGGTATCAGGAACCAGGTCACGCCATGCAAGTTTCGT +AATGGTCAAAGTTGATGTTTTTTAGTCTGTTGTCAAAGCCGCGATTATACCGTAACCGGCACTACAGCAC +ACGTAGAAAGCACCGACAATACTCCTGGCATGGGCGTTAAAGCTCACAGGATGGAGATTCTTTTCTTCAC +TGGCCTAAAAAGCTGATATTCTGTAAAGAGTTACACGGTAACATTGAGATCGCTATGAAATATCAACAAC +TTGAAAATCTTGAAAGCGGTTGGAAATGGAAGTATCTGGTTAAGAAGCATCGCGAAGGGGAGTTAATCAC +CCGTTACATAGAAGCCAGTGCCGCCCAGGAAGCCGTCGATGTGTTGCTCTCGCTGGAAAATGAACCCGTG +CTGGTAAATGGCTGGATTGACAAGCATATGAATCCGGAACTGGTCAATCGCATGAAGCAAACCATTCGGG +CAAGACGAAAGCGCCATTTTAATGCGGAACACCAGCATACGCGCAAAAAATCGATCGATCTGGAATTTAT +TGTCTGGCAACGTCTGGCTGGTCTTGCGCAGCGTCGCGGTAAAACGCTTTCTGAAACGATTGTTCAGCTG +ATTGAAGATGCGGAAAACAAAGAGAAATACGCGAATAAAATGTCTTCTCTGAAGCAGGATCTGCAGGCAT +TGCTGGGTAAGGAATAACTGACGAAAGTCAGTTCAATTTACTAAAGGCAAAAAAAACCCCGCAGCAGCGG +GGTTTTTCTACCAGACGAGAACTTAAGCCTGCGGCTGAGTTACAACGTCTTTGATACCTTTAACTTCGAT +CTCTACGCGACGATCCGGAGCCAGGCAGTCGATCAGTGCAGCACGCTGTTTCACGTTGTCACAGGTGTTG +CCAGTAACCGGGTTGGATTCGCCCATACCACGTGCGGAGATCTTGTCTGCCGGGATACCTTTGGAGATCA +GGTAATCAACAACAGACTGAGCACGGCGCTCGGACAGACCCTGGTTGTAAGCGTCAGAACCGATGCGGTC +GGTGTAACCCAGAACAACTACGGAACCGTCTTTCGGATCCAGGTTGCTCAGCTGGCTGTACAGCTGATCC +AGAGCAGCCTGACCTTCCGGTTTCAGGGTTGCTTTGTTGAAGTTGAACAGAACGTCAGACTTCAGAGTGA +AGTGCTTGGTCTGTACTTCCGGTGCCGGAGCTGGAGCCGGAGCAACTACTGGAGCTGCTTCGCCCTGACC +GAAACGGTAGGAAACACCCAGGCTCAGCATGCCGTTGTCCGGACGAGTGCCGATGGTGTGTGCGTCACCG +ATGTTGTTGGTCCACTGGTATTCCAGACGGGTAGCGATTTCAGGAGTGATCGCGTACTCAACACCGCCAG +CGAAGACCGGAGAAACGCCGGTGTCGTGGTTTTTACCATAAACGTTGGATTTAGTGTCTGCACGCCATAC +CATGCCACCCAGACGAGTGTAGATGTCCAGGTCGTCAGTGATTGGGTAACCCAGTTTAGCGGTCAGTTGA +ACGCCCTGAGCTTTGTATGCACCGTTTTCAACGCTGCCTTTGTACGGCATACGACCTAACCAGTCGTAAC +CCATTTCAAAGCCAACATACGGGTTAACCTGGTAACCACCAAAAGCACCAGCGCCCAGTTGGTTTTCATG +GGTCGGGCCATTGTTGTTGATGAAACCAGTGTCATGGTACTGGGACCAGCCCAGTTTAGCACCAGTGTAC +CAGGTGTTATCTTTCGGAGCGGCCTGCGCTACGGTAGCGAAACCAGCCAGTGCCACTGCAATCGCGATAG +CTGTCTTTTTCATTTTTTGCGCCTCGTTATCATCCAAAATACGCCATGAATATCTCCAACGAGATAACAC +GGTTAAATCCTTCACCGGGGGATCTGCTCAATATTAACTCTACCGATATCTTCGGCTTATGCCGAGCACC +CCTGGCGATGTAAAGTCTACAACGTAGTTGAAAACTTACAAGTGTGAACTCCGTCAGGCATATGAAAAAA +AAGTCTTGTATAAGGTATGTTTAATCTTTTTTGTCAGCGACAATTTACAGAAGAGAATCGCGGAAACCGC +TTCAGACAAGCCTCCGCAAGGAAAATTAGTCACGACTGAAAGCATTGGCTGGGCGACAAAAAAAGTTCCA +GGATTAATCCTAAATTTACTTAATGATACAAATTAGAGTGAATTTTTAGCCCGGAAAGTTGTCTCGTGGC +GTGAGAGGATGCGCTTACCGGACGCATAATAAACCCCATAGCGTTACCTTCATTTGCCGCATCAACAAGT +TCAGCATGCTCTTCTTCAGTCAAATCATCTGCCAACCAACCGATCACCACACTGTAATTGCCCGTGCGTA +AAGCGCGAACCATTGACTCCACAGTGTGGCAAGGGGAGAGCTGGCTAATCTGCATTACTTTCGTTAAGGG +TAGCCCAGATGCCTGAACCCATTCCCGACTCAGTTTTTGTTGCGGTGTTAACCAGAGTTGCCAGCGCGAT +TGCTGACCGAGTTGCTGTAACAATGGCAACAGTAGAAGTTGCGTCATCATGGGCTGATCTTCGCGATAGA +CAACTTCACTGATAAGCCCGGCTGTAGTGTTTTCCGTAGAGACACGCGCAATTTTACTTGCTGCGGATGA +GAACGACGAAGAACGATGTGCATAGCCTGAAGTGTACATAATCAATCCAGCCCCTGTGAGTTACTGTATG +GATGTACAGTACATCCAGTGACAACAAAGATCAACCCTATTTTCGGAAAGAGCCTCGCAAATTTTGTCGT +TGGTGACGGGAAAACATAAATTAATCTTGCCCCTTAAGAATAAGTTGCCTATTTTCGTAGTTAACGGATC +CGTTAATGTGAATCATTCTTTTATGTTATGATTTTAAAAGGAATTTTATGAAAAGCCTCTCCTATAAGCG +GATCTATAAATCACAAGAATACCTGGCAACGTTGGGCACAATTGAATACCGATCATTGTTTGGCAGTTAC +AGCCTGACCGTTGACGACACGGTGTTTGCGATGGTTTCTGATGGTGAGTTGTATCTTCGGGCTTGTGAGC +AAAGTGCACAGTACTGTGTAAAACATCCGCCTGTCTGGCTGACATATAAAAAGTGTGGCCGATCCGTTAC +CCTCAATTACTATCGGGTTGATGAAAGTCTATGGCGAAATCAACTGAAGCTGGTGCGTCTGTCGAAATAT +TCTCTCGATGCAGCGCTGAAAGAGAAAAGCACGCGCAATACCCGGGAAAGACTGAAAGATTTGCCCAATA +TGTCTTTTCATCTGGAAGCGATTCTCGGGGAGGTGGGGATTAAGGATGTACGGGCGTTACGTATACTTGG +GGCAAAAATGTGTTGGTTGCGACTGCGGCAGCAAAACAGTCTGGTGACAGAAAAGATTCTGTTTATGCTT +GAAGGTGCCATTATCGGCATTCATGAAGCTGCGCTCCCGGTGGCACGCCGCCAGGAGCTTGCAGAATGGG +CTGACTCTCTTACGCCGAAACAGGAGTTTCCTGCGGAACTTGAGTAATCTGGCGTTGCAGACGACCAATC +TCAGGCAGTAATGCAATCAATAATCCAACTTGTTGTACGACCAGAGGTTCTTTGCTGTCTGCCCGTGGTT +CAAGTTGCTGCATCCGCTGTTTCAGGCTAGCTAATGCCTCATTGACGCGTTCTTCATCAGCAGGTTGATG +ATGTAACGCGTCATCAACATAGCAAACTGCGTCATCAAGAAACGCCAGAATTTCAGGATTAGTTAACTGC +TCCCGGTGAGCACCGAGGGCTGAGATATAGCTGGTAAACGTATGGTTAAGGCACAGCAACCGAAACGCGG +CTTCGCGAATTTGCGGGGTAACGTTCGGCTCGCTGGACATATTTGATACCACCGACGCCAGCTCAGCATC +ACGGTTGTGTGCATCGCGGCGGGCAATACGATACGCCAGACGGTTATCACGCCCCTGATGGTATTGCTCC +AGTATGGCATCGAGATACCGACAGTTGGCCTCTGTGGCGCGTTCGAGCATGCGCGGCAGATTGCGAAACT +GCCAGTCAGGCCAGATGTAGCTCACTGCCGCCCACGCAATGGCACAACCAATCAGCGTATCGATTACGCG +AGGTAACGCTACTTCAAAACCTTCACCCAGTAAGTTAAAACACAGTAGCACCAAAAGTGTGATGAACATC +GTTGCATGAGCGTATTGCACGTTACGGAAGGCAAAAAAGAGCACGCCGGTAATAACCAGCAGCACCAGCT +GCCCTTCCAGTGATGGCACAAACCACAGCACAGGAATGCCAATGGCGATACCTACCAGCGTACCAATAAT +CCTTAACTTCAGGCGGTGGCGCGTGGCGTTATAGTTTGGCTGGCAGACAAACAAACTTGTCAGCAAGATC +CAATACCCGTGATGCATTCCGGTTATCTGAATGATGGCGTAGCCGAAGCACAACACCAGCGACATTCTTA +CCGCATGACGGAAGAGGGCGGATTCCGGCGTGAAGTGACGGCTAAGACGCAGCCAGATATCACTCAACCC +GTGCGGGCTGTCATCAGCGAGCTCATTTTCGTCATTATTATGGGGTAGTGCCTGGGCCTGTTCTGATTCA +ATTGTTGCCAGTTGGGCATCAATGGCGCGTAAATTGTTCAGCAAAAATCCCAGTGTTTTGAGTAAATCGG +CGGGTGCGCCGTTATCGCGCATCCGCTCCAGCGCAGCATCAATATGCGTAAAAGCGCGCTCAAAATGCGG +ATCATGTTGATAAGGCTGACGCAACAAAATACAGCGTGACAGTTGCTGGCACGCCTGGCCCTGCATCGAC +ATCAGCCGCTGAAAACGGAACAGCACGTCGCTGTGGCGAAAATGTTCACGCAATGTTTGATACTGAATAT +GAGAAGAGCTGGCACGCTCGTGAATATCCTGTGCGACAAAGTAATAATGCAGCGTGCGACGCGTTCCCCG +TTGACCACGATCGCCACGTAAGCGGGTCAGCAGCGAGAGTTTCGTCTGATTCAATGTCGCCATCAGCAGA +CCGTTGGCGAGAGCCAAATCGTACAGCGGTGCCTGGCTTTGATCTTCAATATCAGGATCAAACATGCGCG +ACTTGAGCTCAAGATAACGCGCCAGTTGTTCATAGCAACGCGCCAGGTTGTCCTGCAGCGGGCGGACCGG +GAACAGCAGATGACCAATAAGTGTCAGGACGTTGTACCAGACGGCACCGGCCAGCAGATACATCGGCTGC +TGATACCAGTGCTCATACAGTGATGTTCCCAACATAGTGTAAATGGCGATCAGCAATGCACCGAAGGCAA +TTGTTGCATAGCGTTGACCCAGACCGCCGAGCAAAATGAAGCCGCTGGTAGAGAGCGTTAAGCCAATCGC +AAATAGCCAGGGCCAGGGAAACAGCAATTCTACTGAGGCCGAGGCGATAAAAAAGCAGAACAGCGTAATG +ATGAGGTTACGCAAACGTCCCGCCAGTCGGTCATCGAGATCGGTCAGCGCCGCTGCCACCATCCCCAGCG +TTAGCGGAATCGTCAGTTTTACATCACCCAGCCACCACGGAAACGCTGTGGTTCCACAAAGCGCAATAAA +AATACGCGCGTAATACAGCCAGGCGCTGTTCCAGGTATAGCGTTTGAGCAAAGGACTTAGCATAAAGGCC +ATATTAGTGGATTATTCAAAACGACGACGTGCATTGGCTTCACGCGCAGCTTGCGCTGTTTCTACCGATA +CCACGCGACGACCAACCGGCCATAGTGCAATAGCGGCAATTTTAAAGTTCGCAATGCCGACAGGAATGCC +AATGATTGAAATACATTGTGCGATGCCCGTTGCAATGTGCATCAGGCATAACCACCAGCCAAAGAAAATC +AGCCAGAAAATATTCAATACCGTACCGCCAGTATTCAGCAGCACATTTTTGCCAGCCGGGTTCAGTTCAT +CGACATGAATAGCTTCATTGCCATAAGGCACCAGAGACAGTTTAGTGATCTCCCAGCAGGATCGTGTCAG +CGGTAAGGTAAAAATCAGCACAATACTGACCAGAGTCGCCAACAGCCAGCCCAGAGTGGTGGCAAATCCG +CCAAGCACAAAGTTCAGAATGTTCAAAACGGTACGCATAAAACCTCGCTTTACTGTGGTTTTCAGTAATG +GGCGGCAATTGTAACGTTTTTTTGGGCTGGAGCACGTTTTCTCTGACGGTTACACTGATAAGAAATAATT +TCGTGTGGATCTACAGAGTCATGGAACTGAAAGCGACAACGCTTGGAAAACGTCTGGCACAGCACCCTTA +CGATCGGGCGGTGATCCTCAATGCCGGGATTAAAGTCTCCGGCGATCGCCACGAATACCTTATTCCTTTC +AATCAATTACTGGCGATTCACTGTAAGCGCGGTCTGGTATGGGGCGAGCTGGAATTTGTACTGCCGGACG +AAAAAGTGGTGCGTCTGCACGGCACCGAATGGGGCGAGACGCAGCGTTTTTACCATCATCTTGATGCTCA +CTGGCGGCGGTGGAGTGGCGAGATGAGCGAAATTGCGTCTGGTGTTTTACGCCAGCAACTGGATTTGATT +GCCACGCGCACTGGGGAAAATAAATGGCTGACGCGTGAGCAAACCTCTGGCGTGCAGCAACAAATCCGCC +AGGCTTTGTCGGCGTTGCCGTTGCCGGTTAACCGACTGGAAGAATTCGATAACTGCCGTGAGGCGTGGCG +TAAATGTCAGGCCTGGTTGAAAGATATTGAAAGCGCTCGGTTGCAGCATAACCAGGCGTATACCGAAGCC +ATGCTTACCGAGTATGCGGATTTTTTCCGCCAGGTCGAGTCTTCACCGCTGAATCCGGCGCAGGCCCGGG +CAGTCGTTAATGGCGAGCATTCTCTGTTAGTGCTGGCAGGTGCAGGAAGCGGAAAAACGTCGGTGCTGGT +GGCCCGTGCAGGCTGGTTGCTGGCGCGTGGTGAAGCGTCCCCTGAGCAAATTTTATTGCTGGCGTTTGGT +CGCAAAGCCGCTGAAGAGATGGACGAGCGGATTCGCGAACGGCTACATACCGAAGACATTACCGCACGCA +CGTTTCATGCGCTGGCGCTGCATATTATTCAGCAGGGCAGCAAAAAAGTTCCGATAGTCAGCAAACTGGA +AAATGATACCGCTGCCCGTCATGAACTCTTTATTGCTGAGTGGCGCAAGCAATGCAGCGAAAAGAAAGCG +CAGGCGAAGGGCTGGCGGCAATGGCTGACGGAAGAAATGCAGTGGTCAGTGCCAGAAGGTAACTTCTGGG +ATGATGAAAAATTACAGCGTCGCCTTGCCTCTCGCCTCGATCGCTGGGTAAGTCTGATGCGGATGCACGG +TGGTGCACAGGCAGAAATGATTGCCAGTGCACCCGAAGAGATTCGCGATCTGTTCAGTAAACGTATCAAG +TTGATGGCCCCGTTATTAAAAGCCTGGAAAGGTGCGCTGAAGGCAGAAAACGCTGTCGATTTTTCGGGCC +TTATTCATCAGGCGATTGTGATTCTGGAGAAAGGTCGCTTTATCAGCCCGTGGAAGCATATTCTGGTTGA +TGAATTTCAGGATATCTCGCCGCAGCGGGCAGCGTTGTTAGCGGCATTACGCAAGCAAAACAGTCAGACG +ACGTTGTTCGCTGTTGGTGATGACTGGCAGGCGATTTACCGATTCAGCGGTGCGCAAATGTCGCTCACCA +CCGCTTTCCATGAAAACTTTGGTGAAGGCGAACGCTGTGATTTAGACACGACTTACCGTTTTAACAGTCG +TATCGGTGAGGTGGCAAACCGGTTTATTCAGCAGAACCCAGGCCAGCTGAAAAAGCCGCTAAACAGCTTA +ACCAATGGAGACAAAAAAGCCGTCACGTTATTGGATGAGAGTCAACTTGACGCTTTGCTGGATAAGCTCT +CTGGTTATGCCAAACCGGAAGAGCGCATTCTGATCCTGGCGCGTTACCATCACATGAGGCCTGCCAGCCT +GGAAAAAGCGGCAACACGCTGGCCGAAGTTGCAAATCGACTTTATGACCATTCATGCCAGCAAAGGGCAA +CAGGCGGATTACGTCATCATCGTTGGCTTGCAGGAGGGAAGTGATGGTTTTCCGGCTGCGGCGCGGGAGT +CGATTATGGAAGAGGCGCTACTGCCACCGGTTGAGGATTTCCCGGACGCTGAAGAACGGCGGTTAATGTA +CGTGGCGCTGACCCGGGCACGCCATCGGGTATGGGCACTGTTTAACAAAGAGAATCCCTCTCCCTTTGTG +GAAATACTGAAAAATCTGGATGTGCCGGTGGCGAGAAAACCGTAAGAAACAGGTGGCGTTTGCCACCTGT +GCAATATTACTTCAGACGGTCCGCGAGATAACGCTGATAATCGGGGATCAGAATATCGACCGCGTCGTTG +AAATGCGGCGACTGGATTATGAAGTCTGCCGTTGCCACGTTGGTGGCGACCGGAATGTTCCATACCGTCG +CCAGACGCAGCAAGGCTTTCACGTCAGGATCGTGCGGCACGGCATTTAGTGGATCCCAGAAGAAAATCAA +TACATCAATTTTCCCTTCTGAGATCAATGCGCCAACCTGCTGGTCACCCCCCATTGGGCCACTCAACATC +GCGTTGACGTTCATGCCGGTCGCGCGGGAAATTAAGTTACCGGTAGTGCCTGTTGCATACAGTACGTGTT +GTTCCAGTAACGGTTGATGCCGTTCCACCCAGCTCATCAGCATTTGTTTGCAGTGATCGTGTGCCACCAG +CGCAATATGTTTCCGCGCAGGTAAAGTGCGAGTCGTCAGTTCCATAATGTACATCCGTAGTTAACTTTCC +TACAGATTACTGTAAGCACTTATCGCTGCAAGATAAAGACCGAAAAAGCCTGCGCACAGGCACAAAAATC +TCAGGAAGATGGTTGTTTTTCCGCCCACTGCAGGAAAGTATTTCGCGTTTGTGGGTCAGCCAGTTTAAAC +CAATACTTCAGCCGTTGTTCTGTGAGCACCTGAGACTGCGGTGGAATAGCATCCAGCTCGGAAACACCCG +AAAGCAGCGTACTGTCATCTGCCATCATCGTGGCAAATTGCGGTAGTGAAGCGCGTTTCGCGGATTTGTT +ATAGCGTTCAACCTCGACCTCATAATCAATCGTTTTTGCCGTTGAGGTAATGGCGAGAATATCCAGCTTT +ACCGGAATCGGCGTCGCATCGCCATCCAACAATTCAAGGCGCGGCGCGGCATCAAAATGGTTAGCTTCCC +GCTCATTCTCCAGGCGAGGCAGGCGAAAATTGACCTGGTTGATGAGCTGGGTATTAAAACTGACCACCAG +CGGTGGGGAGATATACAGCCGTTCTTCACTATTGGAAAGATGAATCGTCTTCTCAACGCGAAACACTAAC +TGATGCGGTCCATTATCCAGTTCAATGCTGTCCGCACCGCGCAGCAGAGAGCTGGAAACCTTCTTGCCGT +CGAGTACCAGAAGATCGACATCGGTTGAAAGCCGCAGCGTGGTGGCAAAAACGGATACCGGCAAACATAA +TGCAATCAAGGTGGTCACGATGCCGGTTTTCATAGGTAGCTCCTGTCAAAAGACCGCCCGAATAATAATG +TGTCAAAATTTTTCTTTAATCATACTTACTAACATATAGACATATTTCCCGCTTTTGCTCTCATTCATTC +GTATTAGCTGCATGGTTGGCATGTCGGCTTTGTCGTACACTTTGTTAAACAGTCTGGAGGAAATAATGAA +AGAAACCGATATTGCAGGCATTTTAACGTCCACTCACACCATTGCGCTGGTGGGGGCAAGCGACAAACCC +GATCGTCCCAGCTATCGCGTGATGAAATATCTACTCGACCAGGGGTATCACGTCATTCCGGTTTCGCCAA +AAGTTGCCGGCAAAACGCTGCTGGGCCAGAAGGGGTATGGCACGCTGGCAGACGTTCCGGAAAAAGTCGA +TATGGTCGATGTTTTCCGTAATTCAGAAGCGGCGTGGGGCGTGGCACAGGAAGCTATTGCCATTGGCGCG +AAAACTCTCTGGATGCAACTGGGGGTGATTAATGAGCAAGCGGCAGTACTGGCACGGGATGCCGGGTTAA +ATGTGGTGATGGATCGCTGCCCGGCTATTGAGATCCCTCGCCTGGGCCTGGCCAAATAAAAAATCCCCGG +AAGGCAAAAACCTTCCGGGGATTTGTTCAGGGATTAGTTACGCAGACGCGGGGCCTGGAGTTGTTTGCGG +ATGGTCTGCGCCAGCTCATCCATGGATGGCTGTTCAGGATGTTCATCCTGCAATTCGCTACTTAGCTGGG +CTTCAGCCAGGTAGGTATGAACCGGTAGGCCGTTATCGTCCTCCATCACTACGTGATACCACGGAGCGGC +GCGAAGCTCGTCATTCACCGCCAGCTCATCAGGCGACGGTTCAGAGAGCGAATAAACCGGGTCGATATCC +ACGACCACTCCGAGATAACCTAACAGGGAATGGCGGACCTGCTGGCCGATACCGAATTTGCTGGCAATCA +TAGTCACCTCCCGGGAAATCTTTACCTTTGATATAAGGGTAAAATTCCACATTTCAAGTTACATGACGCG +ACAGGCAAACCCTTTCAGATATAGCCCTTCCGGATAGGTAGCGATCACCGGATGATCGGCTGCCTGACGG +AACTGCTCTATAAATTGTACATCACGACCGGCATCAATTGCGGCATCCGCGATGATTTTCTGAAATAAAT +CGCTGGTCATCAGACCGGAACAGGAGAAAGTCAGGAGAATACCGCCTTCATTCAGCAGCTGAATCGCCAG +CATGTTGATGTCTTTATAACCACGACACGCGCCCATCAACTGGCTTTTATTCTCAACAAACTTCGGCGGG +TCCATCACGATAACGTCAAATTTTTCACCGCGATCGCGATAAGTACGCAGCAATTTAAAGACATCATCAC +GGACAAACTCAGCCTTGCTCAGATCCAGTTTGTTCAGCTCAACGTTCTGCCGTGCAATATCCAGCGCTTC +CTGGGAGGTATCAACGCTGACAACCTGGCTGCAACCGCCCATCAGTGCCGATACGGCGAAACCACCGGTA +TAGGAGAAACAGTTCAGCACACGTTTATTTTCAACGTAGCGGCGGGTAGCCAGGCGGCTATCACGCTGGT +CCAGGTAGTAGCCCGTTTTGTGTCCGTGCTGAATATCCACCAGCAGTTTCATTCCGTGTTCTTCAATCGG +CAGCAGGGCAGGTGGCAACTCGCCGGTGACGGGGCCCTGGGTCAGCTCCATTCCTTCTTTTTTACGTACC +GCGACGTCGCTGCGATCGTAAATCGAACATTCCGGGTACAGCGTTTGCAGGGCACTAATTAATGCCGCGC +GCTGATATTCTGCCCCAGCACTCAGCAGTTGCAGCACCAGAAAATTACCGAAACGATCGATAGTAATACC +CGGCAGGCCATCAGATTCTCCGGCGATTAAACGATAGCTGTCGAGGCCATCTTTTTGCGCCAGCCAGTCA +CGCCATTTTTGTGCTTGTTGCAAACGGCGGGAAAAAAAAGCAATGTCGATAGACTCAGACGGGTCAAACG +TCCAGACGCGCGCCCGGATTTGCGAAGCTGGCGAATAAGCGCCGCGTGCTAACCATTTTCCCTGATGATC +AACAATATCGATGGTTTCACCGAGGCTGGCTTTACCTTCCATGCGGGCAACGGCCCCGGAAAAGACCCAC +GGATGGCGACGAAGTAATGATTTTTCGCGCCCTTTGGCTAACACTAAACGTACACTCATAATTTACTTTT +CTGTCGATGCAAAGAAATGGGCGTCATTGTCCGGAGTTTTCCATGGATTTGCAACGCGTCCATTAAGGAT +AAGGAGAGCAGCAATGTCGAAAGTCTGCATAATTGCCTGGGTTTACGGGCGAGTTCAGGGCGTAGGATTT +CGCTACACCACACAGTACGAAGCGAAAAGACTGGGTTTAACCGGGTACGCCAAAAATCTTGACGATGGCA +GCGTGGAAGTGGTTGCTTGCGGTGAAGAAGGGCAGGTGGAAAAATTAATGCAGTGGTTAAAGAGTGGCGG +CCCGCGTTCTGCGCGTGTAGAACGGGTGCTCAGCGAGCCGCATCATCCCTCGGGGGAATTAACCGATTTT +CGTATCCGTTAAATACATTTTACCGGTTTTGGCAGGCCAGCAATTTTGGTGGCTTGCTTAGCCGGACCTT +TCGGAAACAGTCGGTATAAATAGCGGCTGTTACCTTTTTCTTCGCCAAATTTATTCGCCATCGCTTTTAC +CAGCATACGAATCGCCGGAGAAGTATTGAATTCCAGATAGAAATCACGCACAAAACGCACCACTTCCCAG +TGTTCCGGTGACAGCGAAATCCCTTCGTTCTCTGCAATCACCACAGCCAGCGGCTCACTCCACTGGCTGC +TTTCTTTGAGATAGCCTTCGGTATCCGTTTCTATCTCTTTACCTTCGAAGATCAGCATAATTATTACTAC +CTTAATCAGACTGGCGGCAGTGTAACAAAAAACAAAGCCCCGCATAAAGCGAGGCTATGAAAGTGTTAGC +GGGTGAGATTAATCGCGGCTAGCGAAGCCCAGAATGCTCAGCAGGCTGACGAAGATGTTGTACAGCGAAA +CATACAGGCTAACCGTGGCACGAATATAGTTCGTCTCACCGCCATGAATGATGTTGCTGGTTTCAAACAA +GATAGCGCCAGAGGAGATCAGAATGAAGACCGCGCTGATCGCCAGATGCAGAGCAGGCAGCTGCAGGAAG +ATATTCGCAACCATACCAATCAGCACCACCACAATACCCGCCATCAGCATACCGCCGAGGAACGACATAT +CTTTGCGGGTGGTCAGCACATATGCAGAGCAGCAGAAGAACACTAACGCCGTTCCGCCCAGTGCCATAGC +GATTACGTCACCCATTCCGGCAGACAGATAGGTGTTCAGAATAGGTCCGAGGATATAACCCAGAAAACCG +GTAAAGGCGAATGCGGAGATAATCCCGGTCGGCTTATTCGCCGTTTTATAGGTCAGGAACATCAAACCAT +ACATACCCACCAGCGTCAGAATCAGACCCGGAGATGGCAGCATCAGCACCGTACTGGCAGTTGCGGTAAT +CGCCGAAAAGGCCAGCGTCAGGCTCAGCAGAAAATAGGTATTACGCAGCACCTTATGGGTGCTAAGCAGT +GATGTACGGTCATGTGAAGAACTAACAATACGATCCATTGAGTCACTCTCTATGACAGATGTAATTAATT +AAGCAGCATAATGATAATGCGTAAGGGCACCCAGAAGTTTTACCCATCTTTACGCATTTGATCTGGAACA +GGTTTAACAGCGGATTATCAGGTCATTAAGCAAATATAACGCCCTGAGAATTTCGACAGGCAAAAGAAAA +AGGGGTTAGCATTTAGCTAACCCCTTATCTTATTTGGCGGAAGCGCAGAGATTCGAACTCTGGAACCCTT +TCGGGTCGCCGGTTTTCAAGACCGGTGCCTTCAACCGCTCGGCCACACTTCCGGAATGACGCGCACTATA +AACATCCCGATGCGGCGTGTAAACCCCTAATTTGTTTGTTTGCCTGAAAAACAGCCAAAAGTGCATTGAT +AGCGTGAAATAACAGCAGATTGATCATTTCATCACCATGAATTCCTTCTCTTTTACTCGTTTAGCAACCG +GCTAAACATCCCCACCGCCCGGCCAAAAGAAAAATAGGTCCATTTTTATCGCTAAAAGATAAATCCACAC +AGTTTGTATTGTTTTGTGCAAAAGTTTCACTACGCTTTATTAACAATACTTTCTGGCGACGTGCGCCAGT +GCAGAAGGATGAGCTTTCGTTTTCAGCATCTCACGTGAAGCGATGGTTTGCCTTGCTACAGGGACGTCGC +TTGCCGACCATAAGCGCCCGGTGTCCTGCCGGTGTCGCAAGGAGGAGAGACGTGCGATATGAATAACGAG +GAAACATTTTACCAGGCCATGCGGCGTCAGGGCGTTACCCGGCGCAGCTTTCTCAAATATTGTAGTCTGG +CTGCCACGTCGCTGGGATTAGGCGCGGGAATGGCACCAAAGATTGCCTGGGCGCTGGAGAACAAACCGCG +CATTCCGGTGGTATGGATCCACGGTCTGGAATGCACCTGCTGTACCGAATCTTTTATCCGCTCCGCTCAC +CCACTGGCGAAGGACGTCATCCTTTCCCTGATTTCCCTCGATTACGACGATACTTTGATGGCTGCCGCCG +GAACCCAGGCGGAAGAAGTCTTTGAAGACATCATCACGCAATACAATGGCAAATATATCCTCGCAGTAGA +AGGTAATCCGCCGCTGGGCGAGCAGGGGATGTTCTGTATCAGCAGCGGTCGACCGTTTATTGAGAAACTC +AAACGTGCCGCTGCCGGAGCCAGCGCGATTATCGCCTGGGGAACCTGCGCGTCCTGGGGCTGCGTGCAGG +CCGCGCGACCCAATCCGACGCAGGCAACGCCTATCGACAAAGTCATCACCGACAAACCCATTATCAAAGT +ACCTGGCTGCCCGCCGATCCCGGATGTGATGAGCGCCATCATTACTTACATGGTGACCTTTGATCGCTTG +CCAGATGTCGACAGAATGGGCCGTCCGCTGATGTTCTATGGTCAGCGAATCCACGATAAATGCTATCGCC +GCGCCCACTTCGACGCCGGAGAGTTCGTCCAGAGTTGGGATGATGACGCTGCCCGCAAAGGTTACTGCCT +GTACAAAATGGGCTGCAAAGGGCCTACCACCTATAACGCCTGTTCCTCCACACGCTGGAATGATGGCGTT +TCTTTCCCAATCCAGTCTGGTCACGGCTGCCTGGGCTGTGCGGAAAATGGTTTCTGGGATCGCGGTTCGT +TCTACAGCCGCGTGGTCGATATTCCGCAAATGGGTACTCATTCCACCGCCGATACCGTCGGTTTAACCGC +GCTTGGCGTGGTGGCAGCGGCTGTTGGTGTGCACGCAGTCGCCAGCGCCGTTGACCAGCGCAGACGTCAT +AACCAGCAACCTACAGAAACCGAACATCAGCCAGGCAATGAGGATAAACAGGCATGAGCACTCAGTACGA +AACTCAGGGATACACCATCAATAATGCCGGACGCCGCCTGGTGGTCGACCCGATTACGCGCATCGAAGGC +CACATGCGCTGCGAAGTGAATATTAACGATCAGAATGTGATCACCAATGCCGTCTCCTGCGGCACCATGT +TTCGCGGGCTGGAGATCATCCTACAAGGGCGCGACCCGCGCGATGCGTGGGCGTTCGTTGAACGTATCTG +CGGCGTCTGTACTGGCGTACACGCCCTGGCTTCGGTTTACGCCATCGAAGATGCTATCGGTATTAAAGTG +CCGGACAACGCCAATATCATCCGCAACATTATGCTGGCAACGCTCTGGTGCCACGATCATCTGGTGCACT +TCTATCAGCTTGCCGGGATGGACTGGATCGATGTGTTAGATGCGCTGAAAGCCGACCCGCGGAAAACCTC +CGAACTGGCGCAAAGTCTCTCCTCTTGGCCGAAATCATCCCCTGGCTATTTCTTCGACGTACAAAACCGC +CTGAAAAAATTTGTTGAAGGCGGGCAGTTGGGGATCTTCCGCAATGGCTACTGGGGGCACCCGCAGTACA +AACTGCCGCCAGAAGCTAACCTGATGGGCTTTGCCCACTATCTCGAAGCTCTCGATTTCCAGCGTGAAAT +TGTCAAAATCCACGCGGTCTTTGGCGGTAAAAACCCGCATCCAAACTGGATTGTCGGCGGGATGCCTTGC +GCCATCAACATTGACGAAAGCGGCGCGGTCGGGGCAGTCAATATGGAACGCCTGAACCTGGTGCAGTCAA +TTATCACCCGCACGGCGGACTTCATTAACAACGTGATGATCCCCGACGCCTTAGCCATCGGTCAGTTCAA +CAAACCGTGGAGCGAAATCGGCACTGGTCTTTCTGATAAATGCGTTCTCAGCTACGGCGCATTCCCGGAT +ATTGCCAACGACTTTGGCGAGAAAAGTCTGCTGATGCCTGGCGGCGCGGTGATTAACGGCGACTTCAACA +ATGTGCTGCCAGTGGATTTGGTTGATCCGCAGCAGGTGCAGGAGTTTGTCGACCACGCCTGGTATCGATA +TCCCAACGATCAGGTCGGGCGTCATCCGTTCGATGGCATCACCGACCCGTGGTACAACCCCGGCGATGTC +AAAGGCAGCGATACCAACATTCAGCAGCTGAATGAACAGGAACGCTACTCGTGGATCAAAGCGCCACGCT +GGCGCGGTAACGCGATGGAAGTGGGGCCGCTGGCGCGCACGTTAATCGCTTATCACAAAGGCGATGCTGC +GACCGTTGAGTCGGTCGATCGCATGATGTCGGCGTTGAACCTGCCGCTTTCCGGTATCCAGTCAACGTTA +GGCCGCATTTTGTGCCGCGCGCACGAAGCGCAGTGGGCCGCAGGTAAGTTGCAGTATTTCTTCGACAAGC +TGATGACCAACCTGAAAAACGGCAATCTCGCCACTGCTTCCACGGAAAAATGGGAACCTGCAACCTGGCC +GACAGAGTGCCGTGGTGTCGGTTTTACCGAAGCGCCGCGCGGGGCGTTAGGCCACTGGGCCGCCATTCGC +GATGGCAAGATTGATCTCTACCAGTGCGTGGTGCCGACCACCTGGAACGCCAGCCCGCGCGATCCCAAAG +GGCAGATTGGCGCTTATGAAGCGGCGCTGATGAACACCAAAATGGCGATCCCCGAGCAACCGCTGGAGAT +CCTGCGTACTCTGCACAGCTTTGACCCGTGCCTCGCCTGTTCAACACACGTGCTGGGCGACGACGGTAGC +GAGCTGATCTCCGTGCAGGTGCGTTAACAGCGAAGGAGAATCATCATGCAACAGAAAAGCGACAACGTTG +TCAGCCACTATGTCTTTGAAGCGCCAGTGCGCATCTGGCACTGGTTGACGGTGTTATGCATGGCGGTGTT +GATGGTCACCGGATACTTTATCGGCAAGCCGCTACCTTCCGTCAGCGGCGAGGCGACGTATCTGTTCTAT +ATGGGCTACATCAGGTTAATTCACTTCAGCGCCGGGATGGTTTTTACCGTGGTTTTGCTGATGCGGATCT +ACTGGGCTTTTGTTGGCAATCGATACTCCCGCGAGCTGTTTATCGTGCCGGTATGGCGTAAAAGCTGGTG +GCAGGGCGTGTGGTATGAAATCCGCTGGTATCTGTTTCTGGCAAAACGTCCGAGTGCCGATATAGGCCAT +AATCCCATCGCCCAGGCGGCGATGTTCGGCTATTTCCTGATGTCGGTCTTTATGATCATCACTGGTTTTG +CGCTGTACAGCGAACACAGCCAGTACGCTATTTTTGCGCCGTTCCGTTATGTGGTGGAATTTTTCTACTG +GACGGGTGGCAACTCAATGGACATTCACAGCTGGCATCGGCTGGGGATGTGGCTGATTGGCGCGTTTGTG +ATCGGTCATGTCTACATGGCGCTGCGTGAAGACATCATGTCCGACGACACGGTGATCTCCACCATGGTCA +ACGGCTACCGTAGCCACAAATTTGGCAAAATAAGTAACAAGGAGCGTTCATGAGCGAGCAACGCGTGGTG +GTCATGGGGCTGGGCAACCTGCTGTGGGCCGATGAAGGCTTCGGCGTGCGGGTGGCGGAACGGCTGTATG +CCCATTACCACTGGCCCGAGTATGTGGAGATTGTCGATGGCGGTACTCAGGGACTGAACTTGCTGGGGTA +TGTCGAAAGCGCCAGCCATCTGTTGATTCTCGATGCCATTGACTACGGGCTGGAACCTGGAACGCTGCGA +ACCTATGCCGGAGAACGCATTCCGGCTTATCTCAGCGCGAAGAAAATGAGCCTGCATCAGAACAGTTTCT +CCGAAGTGTTGGCGCTGGCGGATATCCGCGGACATCTGCCAGCACATATTGCCCTCGTCGGTCTGCAACC +CGCAATGCTCGACGACTACGGCGGTAGCCTGAGCGAACTGGCACGGGAGCAACTGCCCGCTGCGGAACAG +GCGGCGCTGGCGCAGCTTGCTGCGTGGGGAATTGTGCCGCAACCGGCTAATGAATCGCGCTGTCTCAATT +ATGACTGTCTGTCGATGGAAAATTACGAAGGCGTTCGCTTGCGCCAGTACCGGATGACACAGGAGGAGCA +GGGATGAGCAACGACACGCCATTTGATGCGTTGTGGCAACGAATGCTGGCGCGCGGCTGGACGCCAGTCA +GTGAATCCCGTCTTGACGACTGGCTTACGCAAGCGCCAGACGGCGTGGTGTTATTAAGCAGTGACCCGAA +ACGCACGCCAGAGGTCAGCGATAATCCGGTAATGATTGGCGAATTACTGCGCGAGTTTCCCGACTATACA +TGGCAGGTGGCGATTGCTGACCTTGAGCAGAGCGAAGCCATCGGCGATCGCTTTGGCGTCTTTCGCTTTC +CTGCCACTTTAGTGTTTACCGGCGGAAACTATCGCGGCGTGCTGAATGGTATTCACCCGTGGGCGGAACT +GATAAACCTGATGCGCGGGCTTGTCGAACCGCAGCAGGAGCGTGCCTCATGAGCGAAACTTTTTTCCATC +TGCTGGGGCCAGGAACGCAACCGAACGATGACAGTTTCAGCATGAATCCACTGCCGATCACCTGTCAGGT +GAATGATGAACCGAGTATGGCGGCCCTGGAGCAATGTGCTCACAGCCCGCAGGTGATTGCGCTGTTAAAC +GAGTTACAACATCAACTAAGCGAACGCCAACCGCCGTTGGGCGAGGTGCTGGCAGTCGATCTGTTAAATC +TCAACGCCGACGATCGTCACTTTATCAATACGCTTCTCGGGGAAGGGGAAGTGTCAGTGCGCATTCAGCA +GGCTGACGACAGTGAAAGTGAAATACAGGAGGCGATCTTCTGCGGATTATGGCGGGTGCGCAGACGTCGC +GGCGAAAAGTTGCTGGAGGACAAACTGGAGGCTGGCTGCGCGCCGCTGGCGTTGTGGCAGGCGGCAACGC +AAAATCTCTTGCCGACAGATTCGCTGTTACCGCCGCCCATTGATGGCCTGATGAATGGCCTACCGTTGGC +GCATGAGTTACTGGCACATGTACGTAACCCCGACGCGCAGCCGCACAGCATTAATCTGACGCAATTACCC +ATCAGCGAGGCTGATCGGCTTTTTCTCTCACGTCTCTGTGGGCCGGGAAATATTCAGATTCGTACCATTG +GCTATGGCGAGAGCTATATCAACGCCACGGGGTTACGCCATGTCTGGCATTTACGCTGTACGGACACCTT +AAAAGGCCCGTTACTGGAAAGTTATGAAATCTGCCCAATACCGGAAGTGGTGCTGGCAGCGCCAGAAGAT +TTGGTCGACTCTGCGCAGCGGCTTAGCGAGGTATGTCAGTGGCTGGCGGAAGCTGCACCGACGTAAAAAG +ACGGTAAGTATCGCTTTCAGTCTTATGAATATCGCAATCGGCGAATACCTCTGGTCGTAGAGTTTCAGGA +TAAAGAGGGAGATCTACCATTATCGGGTTATTTTTCTCTCTTCGCCTACAGGAGTGCGCATGTGGGATGT +CATTGATTTATCGCGCTGGCAGTTTGCTCTGACCGCGCTGTATCACTTTTTATTTGTACCCCTTACCCTG +GGGCTGATTTTTTTGCTGGCTATTATGGAAACCATTTACGTGGTCACCGGCAAAACAATCTACCGCGATA +TGACGCGCTTCTGGGGTAAGCTCTTCGGTATCAATTTTGCTCTTGGCGTGGCTACCGGCCTGACCATGGA +GTTTCAGTTTGGTACTAACTGGTCATTCTATTCCAACTATGTGGGCGATATTTTTGGCGCACCGCTGGCG +ATGGAAGCATTAATGGCCTTCTTCCTCGAATCCACCTTTGTCGGGCTGTTCTTCTTCGGCTGGCAACGGC +TGAATAAATACCAGCACCTGCTGGTGACGTGGCTGGTGGCGTTCGGTTCAAATCTCTCTGCGTTGTGGAT +ATTGAATGCCAACGGTTGGATGCAATACCCGACCGGTGCGCATTTTGATATCGACACCCTGCGTATGGAG +ATGACCAGCTTCAGCGAGCTGGTCTTTAATCCGGTCAGCCAGGTGAAATTTGTGCACACCGTAATGGCGG +GCTACGTGACCGGGGCCATGTTTATTATGGCGATCAGCGCCTGGTATTTACTGCGCGGACGGGAGCGCAA +TGTCGCATTACGCTCGTTTGCCATCGGTTCCGTCTTCGGTACTCTGGCGATTATCGGTACCCTGCAACTC +GGAGACAGTTCTGCGTATGAAGTCGCGCAAGTACAACCGGTAAAACTGGCGGCGATGGAAGGGGAGTGGC +AAACGGAACCTGCACCTGCACCGTTCCATGTGGTTGCCTGGCCGGAACAGGATCAAGAGCGTAACGCCTT +TGCCCTCAAAATTCCCGCGCTGCTAGGGATCCTCGCCACTCACTCATTAGATAAACCCGTGCCGGGTCTG +AAGAATTTGATGGCTGAAACCTACCCACGCTTGCAACGCGGACGTATGGCCTGGCTGTTAATGCAGGAAA +TATCGCAAGGCAATCGTGAGCCGCATGTGTTGCAGGCATTCCGGGGACTGGAAGGTGACCTGGGCTACGG +CATGTTGCTCTCCCGCTATGCGCCGGATATGAATCATGTCACAGCCGCACAGTACCAGGCGGCGATGCGT +GGCGCGATACCTCAGGTTGCGCCGGTATTCTGGAGTTTCCGCATCATGGTGGGCTGTGGTTCCCTGCTGC +TACTGGTGATGCTGATTGCGCTTGTCCAGACGCTGCGTGGCAAAATCGACCAGCATCGCTGGGTGCTGAA +AATGGCGCTCTGGAGTTTGCCGTTGCCGTGGATTGCGATTGAAGCCGGGTGGTTTATGACCGAGTTTGGT +CGTCAGCCGTGGGCGATACAGGACATCTTACCGACATACTCCGCGCACTCCGCTTTAACCACAGGACAAC +TGGCTTTCTCACTGATCATGATCGTAGGGCTTTACACCCTGTTCTTAATCGCCGAAGTCTACCTGATGCA +GAAATATGCCCGTCTGGGGCCGAGCGCGATGCAGAGTGAACAACCGACGCAGCAACAGGGGTAAAGGAGA +AAATCATGTTTGATTATGAAACATTGCGCTTCATCTGGTGGCTGCTGATTGGCGTGATCCTGGTGGTCTT +TATGATCTCCGACGGATTTGACATGGGGATCGGCTGTCTGCTGCCGCTGGTGGCGCGTAATGATGATGAA +CGCCGGATAGTGATAAACAGCGTTGGTGCACACTGGGAAGGCAACCAGGTCTGGTTGATCCTCGCTGGTG +GGGCATTATTTGCCGCCTGGCCCAGAGTGTATGCAGCGGCGTTTTCCGGCTTTTATGTGGCGATGATCCT +GGTGCTGTGCTCACTGTTCTTCCGCCCGCTGGCCTTTGATTATCGCGGAAAAATCGCCGATGCACGCTGG +CGTAAAATGTGGGACGCCGGTCTGGTCATCGGCAGTCTGGTGCCGCCGGTAGTCTTCGGTATCGCCTTCG +GCAACTTGTTGCTCGGCGTGCCGTTTGCCTTCACACCGCAATTACGCGTGGAGTATCTCGGCAGCTTCTG +GCAACTGCTGACGCCATTCCCTTTATTGTGCGGATTGCTCAGCCTTGGGATGGTGATTTTGCAAGGTGGC +GTCTGGTTACAACTGAAAACTGTTGGTGTGATTCATCTGCGTTCACAGCTGGCGACCAAACGCGCTGCAC +TGTTGGTGATGCTGTGCTTTTTGCTGGCGGGTTACTGGCTGTGGGTCGGTATTGATGGCTTTGTACTGCT +CGCCCAGGATGCTAACGGTCCTTCCAATCCGTTAATGAAACTGGTGGCAGTGCTACCTGGTGCCTGGATG +AATAATTTTGTCGAGTCGCCCGTTTTGTGGATCTTCCCGCTGCTGGGATTCTTCTGCCCATTGCTGACGG +TGATGGCGATTTATCGTGGTCGCCCGGGTTGGGGATTTTTGATGGCATCATTGATGCAATTTGGCGTGAT +TTTCACGGCAGGCATCACGCTGTTCCCCTTTGTCATGCCGTCAAGCGTGAGTCCGATCTCCAGCCTGACG +TTGTGGGACAGTACTTCCAGTCAGCTGACGCTGAGCATTATGTTGGTAATCGTGCTGATATTTTTGCCCA +TTGTGTTGCTCTACACTCTCTGGAGCTACTACAAAATGTGGGGGCGCATGACAACAGAAACTCTCCGCCG +TAACGAAAACGAGTTGTACTAAGGAGCAGAAACAATGTGGTATTTACTTTGGTTCGTCGGCATTTTGTTG +ATGTGTTCGCTCTCCACCCTTGTGTTGGTATGGCTGGACCCGCGTCTGAAAAGTTAACGAACGTAGGCCT +GATGCGGCGCATTAGCATCGCATCAGGCAATCAATAATGTCAGATATGAAAAGCGGAAACATATCGATGA +AAGCGATCTTAATCCCATTTTTATCTCTTCTGATTCCGTTAACCCCGCAATCTGCATTCGCTCAGAGTGA +GCCGGAGCTGAAGCTGGAAAGTGTGGTGATTGTCAGTCGTCATGGTGTGCGTGCTCCAACCAAGGCCACG +CAACTGATGCAGGATGTCACCCCAGACGCATGGCCAACCTGGCCGGTAAAACTGGGTTGGCTGACACCGC +GCGGTGGTGAGCTAATCGCCTATCTCGGACATTACCAACGCCAGCGTCTGGTAGCCGACGGATTGCTGGC +GAAAAAGGGCTGCCCGCAGTCTGGTCAGGTCGCGATTATTGCTGATGTCGACGAGCGTACCCGTAAAACA +GGCGAAGCCTTCGCCGCCGGGCTGGCACCTGACTGTGCAATAACCGTACATACCCAGGCAGATACGTCCA +GTCCCGATCCGTTATTTAATCCTCTAAAAACTGGCGTTTGCCAACTGGATAACGCGAACGTGACTGACGC +GATCCTCAGCAGGGCAGGAGGGTCAATTGCTGACTTTACCGGGCATCGGCAAACGGCGTTTCGCGAACTG +GAACGGGTGCTTAATTTTCCGCAATCAAACTTGTGCCTTAAACGTGAGAAACAGGACGAAAGCTGTTCAT +TAACGCAGGCATTACCATCGGAACTCAAGGTGAGCGCCGACAATGTCTCATTAACCGGTGCGGTAAGCCT +CGCATCAATGCTGACGGAGATATTTCTCCTGCAACAAGCACAGGGAATGCCGGAGCCGGGGTGGGGAAGG +ATCACCGATTCACACCAGTGGAACACCTTGCTAAGTTTGCATAACGCGCAATTTTATTTGCTACAACGCA +CGCCAGAGGTTGCCCGCAGCCGCGCCACCCCGTTATTAGATTTGATCAAGACAGCGTTGACGCCCCATCC +ACCGCAAAAACAGGCGTATGGTGTGACATTACCCACTTCAGTGCTGTTTATCGCCGGACACGATACTAAT +CTGGCAAATCTCGGCGGCGCACTGGAGCTCAACTGGACGCTTCCCGGTCAGCCGGATAACACGCCGCCAG +GTGGTGAACTGGTGTTTGAACGCTGGCGTCGGCTAAGCGATAACAGCCAGTGGATTCAGGTTTCGCTGGT +CTTCCAGACTTTACAGCAGATGCGTGATAAAACGCCGCTGTCATTAAATACGCCGCCCGGAGAGGTGAAA +CTGACCCTGGCAGGATGTGAAGAGCGAAATGCGCAGGGCATGTGTTCGTTGGCAGGTTTTACGCAAATCG +TGAATGAAGCACGCATACCGGCGTGCAGTTTGTAATGCATAAAAAAGAGCATTCAGTTACCTGAATGCTC +TGAGGCTGATGACAAACGAAGAACTGTCTAATGCGTAGACCGGAAAAGGCGTTCACGCCGCATCCGGCCA +CTTTCAGTTTTACTCTTTCTCGGAGTAACTATAACCGTAATAGTTATAGCCGTAACTGTAAGCGGTGCTG +GCGCGTTTAATCACACCATTGAGGATAGCGCCTTTAATATTGACGCCTGCCTGTTCCAGACGCTGCATTG +ACAAACTCACCTCTTTGGCGGTGTTCAAGCCAAAACGCGCAACCAGCAGGCTGGTGCCAACAGAACGCCC +CACGACCGCGGCATCACTCACCGCCAGCATCGGCGGCGTATCGACAATCACCAGATCGTAATGGTCGTTC +GCCCATTCCAGTAATTGACGCATCCGATCGCGCATCAGCAGTTCAGACGGGTTAGGTGGCACCTGACCGC +GAGTAATCACATCAAAGCCTCCTTTGCCAAAATGCTGGATCACTTTGTTGAGCTCATCTTTACCTGCCAG +ATATTCCGACAAGCCATGTTCATTACTCACGGTAAACAGGTTATGCGAATAACCACGGCGTAAGTCGGCA +TCAATAAATAACACTTTTTGATCGGACTGGGCGATCACCGCTGCCAGAGTTGAACTGACAAACGTTTTAC +CACTGTCTGGCGTCGCACCGGTGATCATTAGAATGTTATTCTCCGTCTCCATCATAGCGAAATGCAGACT +GGTTCGTAGCGCACGTACGGCTTCCACAGCAGAATCCGCCGGGTTATCCACCGCCAGGAAGGGGATATTT +TTAGTACGATGGCGCTGCTGATTAGAAAATAAATTTTTCTTACGCAGACGGGTGCGTTTATCCAGCCACT +CGGACATTGGGATAGTGGCATAAACGCTGATGCCGTGCTCTTCCAGTTGTTCCGGGGCTTCTACACCACG +ACGCAACATCGCACGCGCCAGCACGGCACCCACAGAAATAAACAGGCCAAGAATAAAACCAAGCACCACG +TTCAACGCTTTTTTCGGTTTCACTGGCTGCGGCTGAGTGACTGCCGGGTCGATAATCCGCACGTTACCAA +TGGCACTGGATTTCGAAATACTCAACTCCTGCTGGCGGTTAAGTAATTGCAGATATACCGCACGGCCCGC +TTCTACGTCACGACTTAAACGCAACACTTCCTGTTGGGTGGAAGGCATTGCCGATACCCGCTTATTCAGG +CGTTTGCGTTCTTGCTCCAGCGTCTGGCGTTTTTCCAGCAGCGCACGATAAGTTGGGTGATCTTTCTTAT +ACAGCTGGGAGATCTCTGCCTCGCGGAAGGTCAGCTCATTGAGTTGATTATCAACGTTCACAATCTGCTC +AAGAACGGCTTTGGCTTCCAGGTTAAGGTCAACCGAATCGCGCTGCTGGCGATAAACGTTGAGTTTTTCT +TCCGCTTGGTCCAGCTCGCTGCGCACTTCAGGTAACTGGCGCTGTAAGAATTCAAGGCTTTGTGAATCCT +GCGCCGCCTGGCGAGCGATATTCTGTTGCAAATAGTTGTTAGCGATGCTGTTCAGAATACGAGTAATCAA +CTGGGGATCATCACCAGTCATGGTAAGTTCCAGCATCCCGCTTTCTTTACTGCGTTCGCTAACGGTAAAG +GTTTCCTGCAATGCGTTAATCGCTTCCAGTTCGGTACGCTGGCTCAGGACAAACTGTGTTCCTGGTTTGG +CCTTAATGTCCGCGATAGTCAGCGCAACGCCATCTTTTTCCAGACGCTGGCCGACCATACCATTGACGGT +GAACTCTTCACCTTCCAGTGTATAGTGGCCGTTTTCCCCAACCGTGAGTGTCAGTTGCTGATCCTGACCA +TTCAGTTGTGGAATATGCATCCAGCTGATCGCCAGCTCACCTGGTTTTTCTTTGGTTAATCTCGCCCAGC +CGCGACCCACAATCGGAAAATACTTCTGCTCAACTATGTCGCGCAGATTCAGTTCAGCAATGGTTTTACC +GAGAATCATGCGCGATTGCAGCAGTTGGATCTCCGGTGCAGACTCGGGCGATGAGTTAGGGATCATATCG +CTCAGGCCGCTGAGAATGGCGTTGCCCTGTTTTTGCTCAACCTGGACCAGAGTATCTGCCTGATAAATTG +GTGTGCTTAACAGCGAGTAAGCGACAGCGATCAGCGTGAATAACGCGGTCACGCTGATAATAAACTTACG +GTGATCCCATAACTCGCCGACCAGACGAAGCAGATCGATCTCATTTTCCTGAGTGCTGCCTGGTGGCGTA +TTCATATTTTTAGTTGTCATCGTATTTTATAAACTCAAATTACCGGCTGAGGCGCTTCGCCCATTCCTGA +CTGGCGCGCTCCAACATACCGTAGACATGTTCAAATGCGTCCTGACTTTTACGATAGGGATCCGGGATCT +CTTTCTGTTCCAGCCATTGCCCAAACAGCATTGTCTTCCCGCGGACCTCGGGAGCAATTGCGGTAACCTG +AGCAATATGTTCCGACTCCATTGCCAGAATCAGATCGTAATTTCGTGCCATCTCAGCAGTGAGCTTACGT +CCGGCATGTCCTTCAAGAGATACGCCATGATTAGCGGCAACATCTGCCGCTGTCGCATCTGCAGGGTGTT +TTACCAGACCATGAACACCTGCCGATTTGACTTTTACGCCCGGCAGACGTTTACGCAGCAAGCGCTCGCC +AATGGGCGAACGGCAAATGTTGCCGGTACAAACCACCAGGATTGAGTTAAATTTTAGTTGGGCCATGTTT +GAATCCACCGTGAAGTCTCTGTCAGGTCATGCACCCCGGAAATCGTCGGTACCAGCAGAGAAATCACACG +GTTCCAACGAGCCAGCGGCGCGGTAGTGACATAAACAATGTCGTAAGGTTCAAGCTGGAATTCCGTTCCG +AGTATCATTGCCGATGCGTCCTTCGCATTCAGCTGATAAATATTGGCGATTTTGCCATTCTGCTTGTTTT +GCGTTGCACGAATAACAAAAATCCCCGTCGCATCAGCGACATCCTGATTCATACCCTCAGCGTTACCCAG +CGCTTCCGCCAGGGTCATACCGCTGCGGTCCATTTTCAGCGTGCTCTGTTTACCCACTTCACCCATCACG +AAGACTTTCAGATCATCGTTGCGCGGAATAAATAAAATATCGCCCGGGTGCAGCAGTTTGTTCTGGCGCA +AGTCGCCACGCTGCATCAGCGCATAGAGGTTCACTTTGGTCTTTACGCCATTCTGGGTGAGCACCACGTT +GCGCCAGTCTGCATCTGCGGTCAGACCGCCCGCGGCGTTAATCGCATCCATGATGGTCAGAGGAATATTG +GTAATCGGCTGCTGACCCGATTTGCTGACTTCGCCGGTGACGTACGCTTTTTGCGATCGGAACGCCGCGA +CGCTGACATCGACTTGCGGGCTTTCAATGACTGAATCGAGACGCGCTGTAATCTCGTTGCGTACCTGGGT +AAGTGTTTTCCCGGCCACTTTCAGGCGACCAATATAGGGGTAGAAAATCGCACCATCGGCGTTAACCCAG +TTGCCGGTATCACTGGCGCTACGGTATTGCCCTGCGGGGGTGGTTAGTTCCGGGTGATCCCAGACCGTAA +CCATCAACACATCACCAATCCCGATACGATATTCATAGTTTGCGATTTGCTGCTCCAGCTCCGGGTTAGC +CTGCGACATAATCGGTTTGGCGCGCAACTGATCAATCAATCCTGGCGTGACGGGATAGATATTGACCATT +TTGTCCAGGTCATACTGATTGTCAGGTAGTTCAATGACATCCTTGTTACTGGTCGATAAATTCTGACCAG +GAACAAGGGTACATGCTGTCAAAGACAGAACAGCCAATGTCAGTACCGAAAACTTAAAAATGTTCTTTTT +CATTGGTTTATATTTATCAGTCAATGTAATGTTATGAATTACGTCAGGTTATTGTCCAACCGGTACTTCT +CGCTCTGCCGTCATTGGATAGAGCTGGTATTTGCGTGACAGCATTTGTCCACCATCACGCGTCAATGGTG +TCCACGAAACCACCGCGCGGTTGCGGTTAGGTCCAATGGTCATCAAGTCGAATGGAATCGAGATATAAAA +ACCTTTACTAAAGCCGCCTTCGCCGTAGTCATCTTTAGATACGTTACTGATTGCCGCCCATACCCCTACC +GCCACGCCGCTGTCAAAGCGTTTGGCGACGTCGATCGTTGCGCCTTTATCTTTTGCCAGATATTGCCCAA +CGCTAAGTTTCATCAGTACGCCATTGAGCGTCGGCGGGTTCCAGTAAGCCGTCACGAAACCTGTTGGCGT +GGAATAATCGGTGAAACGCATCATGTTGTCCCAGTCACGTTGCTTCACGTAGTTAACGTCCACACCCAGC +GCCCAGCAGGCATCTAGCGGGCGATAAAGCAGCTCGGAACCGACACCGGCGTACATCGTTTCCAGATAAC +CGCCATACACCTGGCCATAGAAACCATTGCCTAAGTCAGCAAAATAGTTCGCCTGCAAGTTGTTGAGATA +AACGTCATTGCGAACGTAGTCACGGATATGCGTGCGCACGCGGGGCAGGGTAGAGTCCGCGGGCAACAGC +GAAGACTTAAACTTGTCGTAGTTGTTGTAAATATTGGTGAAAATACCGCCATCAAGCAGCAGGTGGTCGG +TAAACCAGTAGCGGGCACTGGACATCAGCCCCAGCTGGAACATATAGAAATCTTCCGGGCCGCCCAGCGA +CTGTGAAAGTGTTGGGTTGAAAGAGTAGCTAAAGCGATCTTCACGAATACGGTAGCCCCGACCAAAGGCA +GAAAGATCTTCAGCTTCAACACGTTGTTGTTGCAGTGGCTCTGATTGACCAGGCGCTGTACCTGCCAGCT +GTTTGCGCAGGCTGGCTACGTCGGTTTCGGTAGTCACCATCGCCATATGCTCGCGCTTTTGCGTCACGCT +AATCTTCTCAACGCCTTGCGGCAGGTTATTCACCAGAATCCGGTTGGCACGATCGACCGCTTCACGAGAG +TCACGGTATTTGTATTGCTGACCAGACATATACAGTGTCTTATCGCGTAGCTGAATTTCTGGCGCGTCAA +AGCCCGCGTTATACTTCAGGGCGGTAAGTTGGTTTGCTACCGTGGTGTACTGCAATCCTTCAGATTCAGG +CGCAGGTTGATATGCCGGTTTTGGCGTATCGCGCAGGGCAGGGCGCAGATCGTTGAAATTGGTCCGTAAC +GTGAAGCCAAACATCAACGTGTTACCGCGTTCATAACTCAGGTTGAGATCTGCCCAGCTGGCAGCGCGAT +AAACTGCGCCGACGTTGAAATGGCTTGCCTGAGGCAGTTTGCCAGCGAAATCATTCTGGTAATTGTTTCC +ATCGTATTCGAGTTTCAGACGCAGGGGATTCCACGGCGTTTGATACTCAATGCCGCCAAAGATGGAAGCC +GGGCCACGAAAGATATCGCTAAAGCTGATATCGCCCGCATCGTGAGACTCTGCGCGATGACAATATTTAT +CGCTCACCCGGCAAAACGGGTTGGTAATATTGCCCGCATTACCGGCGTAGCCCCATGCCATCCCGAGGGT +GAAATCAAATGGCCCCGCTTGCTTGCTGGCCACCAGATACTCACCGTCAAACAGACCCGTACCAGCAATA +TCACGTTTACCAAACGCCACTTGCGGTAGCCAGTAACCTTCTTCCCACAGGCGAAGTTTAAAATCGAATG +ATTTGTCTTTGTATGACTGATCGCCGCTGAAATCTTCCCACTGGCTATATTTGCGTGTGCGCACATCCGT +ATAACGAATGGTGCCTTCCAGCCATGGGAACAGCGCCACGGAGGTGGAGTAGAACCGGTATTGATCGTTA +TCCCGGTAGTTGACGCTGAATTCACCTTCCGGTGCGATGCGCGCATTTGGCATCTGCAACAATCCTGTGC +CGCCAAAGTCTGATTGCGACGAACCCAGCGGATCCGGGTAGGTTAATACTTCAGCATGACAGGCACTGGA +GACGGCAATGGCCAGGCAGCTTAAAAGATAAGAATTCTTCTTCATCAGTCAGGAACACGTTGCGTTAAAA +CAGACACAATCTGGTCATTTAAATCAGCATATTTTTCGGGCAGTACATGCGCAGAAAAGCCCAACCAAAG +CTGGCTGCCAGGCGGTGGTTCCACATGTCTTTTATTCCACAGGGCAACAGGGGCGACGACAGTCTCACCC +TCAGGCGTAATCACCATAACGTTATTCTTGTCCGCGCCTGCAAGGCGGGGGTGATCTTGCAGATAATCGG +TAACGCTACGGCCTGCCTGCCAGGGCAATTGCCCGGCCCCAGAAACCGCACCCAGCAGAGTAATAGTCAC +CGGACGCTGTACGGTATAGAGCGTATAGTCCCCGACCAACGGGGGATTGCTGTTCTCATCCACTCGTACA +AAATCAGGGTCCAGTTTGACCGGTAAGCGACCAGTGATATTGAGATTGAGTAACTGCTGGCGCACGGATT +TAATCGTTGCCGCCACATCGTCGTCAGCTTCTGCTTCCCAGGAAGCAAGCTGTGCCATGACATGTTGGTA +GTCTTTAAGCGCTTTAGCTTTCGCCGCAGAGTCGGTCAGCAAGGCACCAGGCCACCAGAGGCGATCGCGC +AGTTGCGGTTGTGTCACCAACTGGACAACATTTTCCACGGGGCCAACGGAAAGTGTCTGTTGTTCGCCAG +GCAGATAAATAGTCACCGTTCCTTGCGCAAAGGCATGGGGTGTCATTACGTAAAGTACGCTGGCAATGAA +ATACGACTGTAATTTATTCATGGTGCGGGTTTAAGAAACGTCATTTCTACGGGAATAACCCCTGCGCCTA +ACATTTGCCGACTTTGACGAACCTGGCCAGTAGCCGAATCGACCCAGAATGTGTTTTGCCACTGTTTTTC +TGGCCGCGTGGAAGTCACCTCTTCCTGCCAGACATTACACAGCACATTGCGACCCGCAATATTCAGCGTC +TCTAATCCAGCAAAGGAAAAAGTAGAACTCAGGGTCGCAGAGCGAAAATGGTTGTCTTCACTCCAGAGAA +TATCGCGCGTCCAGCGGCTGCCATCTTTTATTGCCAGCGCGTTACGCAGAGGGTCCTGCCCGGAATTTGT +CACTTCCAGCAGATTATTATTAAGTTTGACGGTTTTTAAAAGACGTCCATTGTGGGTAACCAGCATGGCG +TTATCCTGGGATAACCATTTGCTTTGTTCTTGTTCTATATATCCCAGTACCACAAAGATTCGTTGCCCTT +CATTAAGGCGTAAATACATAGTGGAATAAGGCAACGCCTGGATCTGCTGATCCGCTACGGTGATATCCTG +ATTATCGAAAAGGCTGGCGCGAAATGTATCGACCATACTTTGCTGGCTGTGCGTACATCCCGCAAGAAAT +AGTGCGAAAATCGATAAAATAAGAGGGCGCACCTTTAATCCTTGAAAGGTTAATTAAAAAAATGCAAATC +TCTAAAGCCCGGTACGAATATCGCAACCGGGTATCATTTAACTTTAATTTCGACGCGTTAAAGCAGTATT +AGCGTGTAGTGGACGTGGTGGTTGAGGTGTTATGAGAACCGCCATCGCCACTGTCATTTGCTGCAACAAC +TGCCAACGTCGCCACACCAACAGCCGTTGCCACACCGACAACTGTCGCCGTGCCGACAGCGCCAGCAGCC +ACGCCACCAGTGGTAGTAGCAGTCGTGGTTGCGCCGGTAGTGGTCGTTGTGGTGCCAGTAGTACCCGTCG +TTGCCTCGGTCCCGTTTGTTGCTTCAGGGGCAGCAAACGCAGCTGGCGTCGTCAACATGAAGGCCATAAG +GATTGCAGAAAGCTTGTGTTTCATAACTTTTCCTTTATTCATCGCATGGACAATACGGGTGATGCTGCCA +ACTTACTGATTTAGTGTATGATGGTGTTTTTGAGGTTCTCCAGTGGCTTCTGTTTCTATCAGCTGTCCCT +CCTGTTCAGCTACTGACGGGGTGGTGCGTAACGGCAAAAGCACTGCCGGACATCAGCGCTATCTCTGCTC +TCACTGCCGTAAAACATGGCAACTGCAGTTCACTTACACCGCTTCTCAACCCGGTACGCACCAGAAAATC +ATTGATATGGCCATGAATGGCGTTGGATGCCGGGCAACAGCCCGCATTATGGGCGTTGGCCTCAACACGA +TTTTCCGCCATTTAAAAAACTCAGGCCGCAGTCGGTAACCTCGCGCATACAGCCGGGCAGTGACGTCATC +GTCTGCGCGGAAATGGACGAACAGTGGGGATACGTCGGGGCTAAATCGCGCCAGCGCTGGCTGTTTTACG +CGTATGACAGGCTCCGGAAGACGGTTGTTGCGCACGTATTCGGTGAACGCACTATGGCGACGCTGGGGCG +TCTTATGAGCCTGCTGTCACCCTTTGACGTGGTGATATGGATGACGGATGGCTGGCCGCTGTATGAATCC +CGCCTGAAGGGAAAGCTGCACGTAATCAGCAAGCGATATACGCAGCGAATTGAGCGGTATAACCTGAATC +TGAGGCAGCACCTGGCACGGCTGGGACGGAAGTCGCTGTCGTTCTCAAAATCGGTGGAGCTGCATGACAA +AGTCATCGGGCATTATCTGAACATAAAACACTATCAATAAGTTGGAGTCATTACCGACAATACGTACGCT +TGAGATCAGGATTGTCTACTTTGAGTATAACATCCTTGTGAAATCTCCCTTTCCTCATACCGCTTGCACT +ATATACTGCGGGTAGGAAAGGCGCGCAGAGGGAAATATAAGATTGTTAACTATCCCCCTCTGGAAATACG +ACTTGTGAGCATAAGATAAATCTTAGCAAAATACAAATTAAAGATAAGGAAATTGTTACGAAAGCTATTA +ATTATTGTTGGTAATATAGTTTCAAGTGGTACTATAACTGGCTGTTAAATGGCATTTATAACTATTAGGT +GCAGAGATATTCGCTTAAATGGATTAGTTTCTTTGTGGAAAAGTAACTGATGTTATAATGTATGATGTTG +ACTATTTCACTATTCCAATAAAACCAGTCAGCTTTAAACAAGCAGCGTCATATTAAGAGAGATAAACATT +TGCCGCTGTTGGTCCTCGCAGGCCATTTACGCGGCAAAATTCCACACGTAATCCTGGTATAAGCACTTCT +GCGTCGCGGGGAGTGAATGCGGAAATATGGACCTGAACTTCTTTACGACCGTCGGAGGGGATAATGAATC +CTTTGCCGCTTTTGCGATCAAAGGTTTTGACAATTCCTGTCATTTTACGGGACAAACAAATTCCTTACTG +AAAATACTGCGCTGCACTATACGGGGTTAATAAAATAAAGCCAGCGATATTTAAGACCGCCGGACGGCTA +AAATAAAATTTGCTTAATCTCAATTATCATGCGTTAATAGCTGCGTCGGTTTGAAAGACAGACAGCATAC +AAAGTAGTTTACTAAAGCAGTTCTCATTATCAGGCATTATCCCCTTCTTTTGAGTCTCTCTCCTGAACAC +TAAGTAGTTTCTGTATTAAAGCCCTGTTTGCCGAAAGGCCCAAAATGAAGGAAGTAAAATATGTCTAATA +AAATGACTGGTTTAGTAAAATGGTTTAACGCAGATAAAGGTTTTGGCTTTATCACTCCTGATGATGGCAG +CAAAGACGTTTTCGTCCATTTCACCGCCATCCAGAGCAATGAATTCCGCACGCTGAACGAAAATCAGAAA +GTTGAATTTTCTATTGAGCAGGGGCAACGTGGCCCCGCGGCAGCGAACGTTGTTACGCTCTAAGGTTGCC +ATTATTACTCAACATCTCCATTTCCGCTGTCCATGTTGTCATGGTTCACAGTACCGCACATCGGCATTCG +ATGTGACGGAGCGAAACCCTTTGGGCGCTAAGTGTATTTTTTGTAAATCGACGATGATCACCTTTGATAA +CGTCGCGCTGCAAATACGCACTGACCATGCGCCGCTGGATTTCACAAAATAATATCAGGCTCCCTCGTGG +AGCCTTTTTTATATCTGCCTTATTTTTCTTCAACGCTGTATGTATAGTAAGCGATAACCTGTTGATTATT +GAATCTTTCGGGGAGATGGCTTATAACATTTCTTACCTGACCAGGGTACCGGGAACCAACACCTTACTGG +CGTGTTGCTGTCTTTTAAGACCAGAAGAGGTTAACAGTGAATATTGAAGAGTTAAAAAAACAAGCCGAAA +CGGAAATCGCCGACTTTATCGCGCAAAAAATCGCCGAGCTGAACAAGAATACAGGGAAAGAAGTCTCTGA +AATTCGCTTCACCGCACGAGAAAAAATGACCGGGCTTGAAAGTTATGATGTCAAAATCAAAATAATGTGA +TTTTGTGAACATCACCCCGTGCGAGGTGATGTTCCGCTTGTTGCTAATTTAGTGACCAATCATTGGCGCT +TGTGGAATTAAGCGTCGGTACAATTCCTCCGGCACCGGGCTTTGCCATACTCCCGCATACATTGCGTAAC +CAATCACCGCAAACATAATCCCCAGAACCAGTAGCGTCATTAACCAGCCAGACAACGCAAAGGCTTTTTT +ATTTGCCGCAGGTTTTTGCAGTGAAAAGGTCAATGTTGAGGCTACCGGACATGACTCTACGCAAGTCATA +CAGCCGGTACATTCCACTGTTCGTACCTGAATTAATTTATCGACCGGGATCCGTGATGGGCAATTTTTTG +CGCATTTGCCACAGTCGATACAACTTTCGGCATTGCGACGAATCTTAAACGGCGACAATAGCGAAACCAC +GCCCATCAGCGCGCCATATGGGCAAAGATAACGACACCAGGCATGGCGAATAAACAGGCTGGCAATCAGC +AAAACGGTCACGCTGATTAATGTCGCGGTCCCCATATGACGAAAGAAATCGAGCATTTTAACGTCCATCA +CCACGCTGTAGGGCGACAACATAAAATAGTGAATCGCCTGAGCGGGCATCAATAACGCGATATAGATAAA +AAAACTCAACAGCAAATACTTCACGCCGCGCAGAGGAATATCCAGCCAGCGGGGAAGGACACATTGCCGA +CCAAACAGTTTGTTACCGAGATCGCCGATTAATTCAGAAAGCGTACCAACCGGGCATAACCATGAGCAAA +AGGCCTTTTTGAGTAATAGACTGATGACGATAAAAGCGACCAATAACAGCATCGCGGCGGCGTGGACGGA +CGGTAACTGACCTGTTACAAGGCTATATTTCAGATTCATCAGCCCGGCAATCGGTAGCCAGCCTTCGATA +CCTCCCGGTCTGGCGACAAATGTCGTGCTACTTGCCGTTTCGTAATAGCGCACCCAATACCAGAACGTGA +TGGCAATATAAATATTCATTGCCAACAGTAATAATTGCGTCGCTTTACGCCAGGTCGTGGCATTACGCCA +GTCATTCCACGGTAATTTGCCGCCCGTCGTGCCTGGCCGCCGCTGCCAGCGGGTTCTTTTATTCTCTGCC +ATGATTTTGCCAGTCCGTTAAGTTGTATACCAAATGCCACTATTCTAGTTGTTCTTAACTGGCTGATATT +GATTCAAATCGCGTTCAGGTCTTTCTTATGCAACCATGCTTCCAGAGCGGCAACACTGCGTGTAATTTCT +TCGTGTGGAAGGGGGGCAGATAATGGCTGCTGCTCCAGTTGTGCGCATAGCTGGCTGGCGATATGCATTC +CCAGACTCGAGCAACTGCTTTTTAGCTGATGCGCGGCACGCTTTATTTTCTCGCTATCCTGACTGGCGCG +GGCAATGTCGATTTCATCGAGAAGCGGCAGGGCATGTTGTGTAAATAATACCAGCCATTCGTGGATCTTC +TCCGTCCCCATTAACTGAGCATCTTCATTGAGTTGCGATACATCCAGCGATTGATCATTATTGACTTGCA +GTTGGAGATAGTGCGCCAGTAACTGACCGAGCACTTCACGCGGCACCGGTTTAGGGATAATCCCGCGGAA +TAATGAACTGGTACGCTGGCGCAGCGTTTCGTCAATGACATGGGCGCTAAAGCCAATCAAAACCAGCGAC +GGATATTGCTGTGCCAGTTGTCGGGCAAGCGTAATGCCGTCGATATCCGGCAGATCAAAATCCACCAGTG +CGGCAGCAAACGGTTCGCTATTTTGCAGTGTCTCTAAAGCCTGCGCGGCATTGCCAACAGCAACAATCTG +CGCACCACTGGTTTTCAGCATCTCAATGGTAATTCGCTGGGTTAGCGGGTTATCTTCAATTAACAGCAAA +CGTAAACCGTCAAGACGCACCGCCTGATTGACTGTTTTTGGCACGGGTGCCGTGGCAACACGTAACGGCA +AGCGTAAACAAAAACAGCTTCCAACCTCCGGCGTGCTGGTGGCGCTCAGTTCGCCGCCCATCGCCTGGGC +CAGACGGCTACTGATAGTCAGTCCCAGCCCGGTGCCGCCGCGTTTGCCGCTTACCTGCACAAATGGCTGG +AAGATTTCTGCCAGTTTCGCGGGATCAATACCGCAGCCGCTGTCTTCCACTTCGACCAGCCATTGCTCGC +CATCAGTGCGACTACGCAGGATAATGTACCCTTCGTCAGTAAAACGCAGGGCGTTGCTCAACAGGTTGGT +TATAACCTGACGAATACGTCGTGGATCGCCCATTAACGCGCACGGCATATCATCGGCAATTGCCGTTGCC +AGGCGAATCGGGCGACCTTTCACCCGTCCGCTCATTAATTGCAGGGTACTTTCCAGCAGCGGGCGCGGTT +CAAAGGGCTCATCGCTGACCGAAACATTCTTGCCACCTGCTTCGATAGCGGAATAATCGAGAATATCGTT +GAGGATGGTCAGCAACGATTCACCAGAGTCAGTAATTGCCCGCAAATCATCACGCTGGGCGTTAAGTGCG +GGGTTATCTGCCAGCAGTTGAGCAGTGCCGAGAATACCGTACAGCGGTGTGCGGATCTCATGGCTCATCG +CCGCCAGAAACGCCGATTTTGCCTGGCTGGCTTTTTCTGCTTCCGCCCGTGCCTGTCGGTGTTCTATCAC +CAGTTCCTGCAATTCAGCTGTACGCGCTTTGACCTGCGCCGCCAGCTGTTCGCGGTGGCGATTCAGTGCA +TGAACATTGCTGCGAAACGCATCCATCAGCCGCCCGATGGTATCCAGCTCCCGTACGCCAGCGGTTTCCG +GGAAAGGGGAGTCAATATCACCGTCCAGCAGCCGTTGCAGCGCCTGCGTTTGTTCGGCAAGTGGACGCGT +GACTGAGCGATAAACCACGCGCCAGAGGATCAGAATCAGTGCGCAAAGTGAAACCATCCCCAGCAATAAC +AGGCTGTATTGCCCGCGTGCACTCGCTTTTTCCAGATGCGCCAGTCCGTGCTGATTACGCAGCTCAATGG +TGTCGACCAGCTGACTGACTTCGCTACTAAACTGCGCGAACTGGGCGATGTTATTTTGTGCGAGAGTTTG +TAGGTGATTGCTGATTTCACTGTCCTGCTGATACAGCGCCAGCAAATCGCTATATTGGCTAACGGTAGTT +AACGTTGTTGCGACCTGCGCACGAACACCCGGATCTTCAATGCGTATTTGCCGACGTTGCAGAATTTTCA +CCGCATTATTGAGCTGCTTTTCCAGCGTTGGTGCATTTTTCTGGATCTGCTCCAGCCCCAGATTCATCAC +CATTTGCTGCACCCGCAGAGCGCTAAGGCGCAGTTCATTCATCTGGTTAACATACTCAAGATCGATATCA +ATCAGCCGATCGAGTGCACTTTCAGCAGCCTGACGCTGATCTTGTTCGATCAAATCGTAAATCCCGGCCT +GGGTCGCTCCAGCGGAAGTTGTCGCATTATTCGCCTGACCTTGCGCCAGGCGTGCGATCTCATCGGCGGC +AGCGACTATCTGCTGACTGAGTTGCTGTTGTTGCTGGCGCAGTTGCAAACGCTGCCCCACCAGTTCCCCT +TGCTGACGTAACGAACGGGAGATCTCCTGCTCCTGTTGTTCAATAGCGGTGGTATCAAAACCTTGTTCCC +GTAACGCTTGCAGCAACGCATTAATCTTCAGGCTTTGTGCGGTGAGCATTCGCCCCTGCGCCTGCCACAT +CTTTTCGTTATCGGCACTGGTCAGGTTCTGCGCGGCGAAAAGTTCCCAGGCGCTGGCTTCGCTCAACTGG +CGCGCCATATTCATGGTAGGAATCAATGCCTGAGTGTTGTCTTTTTCCACCTGGCTGATAAAGCGCAGGT +TGTACCATCCCACCAGGGTACTGGTCAGGGTTAACAGCGCCATCAGGGCAAAGCCCATCCAGAGTCTTCG +GGTCAGGGTTAAATTCACGGTCGGTGCACTTTAGGTGAAAAAGGTTGAGTCGCAAAGCGGAATGCATCTA +GCATAAAGCCTTATTATTGATGAGGCTATCATGCGCGTACTGCTATTTTTACTTCTTTCCCTTTTCATGT +TGCCGGCATTTTCGGCTGATAACCTGTTGCGCTGGCATGATGCGCAGCATTTCACGGTGCAAGCCTCTAC +GCCGCTTAAAGCCAAACGCGCATGGAAACTGTGCGCGCTTTATCCCAGCCTGAAAGATTCATATTGGTTA +TCGTTGAACTATGGTATGCAGGAGGCTGCTCGCCGCTACGGTGTGGATTTAAAAGTGCTGGAGGCAGGCG +GCTACAGCCAGTTGGCTACCCAGCAAGCACAAATCGACCAGTGTAAACAGTGGGGCGCAGAGGCCATTTT +GCTCGGTAGTAGCACGACCTCATTTCCCGACCTGCAAAAGCAGGTAGCAAGTCTGCCGGTGATCGAACTG +GTAAATGCTATTGATGCTCCCCAGGTGAAAAGCCGCGTTGGTGTGCCCTGGTTTCAGATGGGCTATCAAC +CGGGGCGATATCTGGTGCAATGGGCGCACGGTAAACCACTGAATGTGCTGTTGATGCCCGGACCCGATAA +CGCCGGGGGCAGTAAGGAGATGGTCGAGGGTTTTCGCGCAGCCATTGCCGGAAGCCCGGTGCGTATTGTT +GATATTGCGCTTGGTGATAACGATATTGAAATCCAGCGTAACCTGTTGCAGGAGATGCTGGAACGCCATC +CAGAAATCGACGTCGTTGCCGGAACGGCCATTGCGGCAGAGGCGGCAATGGGGGAAGGGCGTAACCTGAA +AACGCCGCTTACCGTGGTGTCGTTTTATCTTTCACATCAGGTGTATCGCGGGCTGAAGCGGGGAAGAGTG +ATTATGGCTGCCAGCGATCAAATGGTCTGGCAGGGGGAACTGGCGGTTGAGCAGGCCATCAGGCAATTAC +AGGGGCAATCGGTTTCTGATAATGTCAGCCCACCGATTTTAGTTCTGACGCCGAAAAATGCCGACCGTGA +ACATATTCGCCGCTCGCTGTCACCAGGGGGATTTCGTCCGGTCTATTTTTATCAGCACACATCAGCGGCT +AAGAAATAACCTTCACCATGTTGCGTCACCAGTAAATCCGCGCTGAGTTTATGACGTAAACGACGAATTA +ACACATCGACGGTGCGCAGGTCAGGGTTTTCCACCCGACGCGCAGAAAGCATACGTAGCAGACGTTCACG +GCTGAGAATTTCGCCCGGATTCGTCACAAATGCCACCAACATTTCATACTCTGCGCGGGTCAGTTTAATC +GGCTCGCCATCCCGCTCCAGCGTATGGCGCGACACATTCAGGCAATAACCGGCAAAGCGATAGCAGTTGT +CCTGAGTGTGCGGTTGAGCTTGTCGCGCGAGGTCGATTCGCCAGAGCAGATTTTTCACCCGTACTACCAG +TTCGCGCAGTTCCAGCGGTTTGGTGACGTAATCGTCTGCGCCCATTTCCAGCCCAACAATACGGTCAATC +CGATCGCTGCGTCCGGTAACCAGAATAATCCCCACCGTTGAGCGTTCTCGCAGGGCGCGGGTTAACATCA +GGCCATTTTCATCGGGTAAGTTGATATCCAGCAGAATTAAATCTACCGACTGATTCTGCATAATTTCCCG +TAGCCCAGCACCGCTCGCCGTAACGGAAACGGTATACCCCTCCTGAGTGAAGTAGGATTGTAATCGCGCC +TGGGTAACCGGCTCATCTTCAACAATAACAATGTGATGTGGCATCAGAGGGTTTTACTCATTCTGTTCAT +ATCTGTTCATATTCTGCCGTAAGCCGTTCATCCTGACCAGTGCCGCTGTTCATATTTGCTCATTAAGATC +GCTTCACTAAACCATAATTCTACAGGGGTTATTATGCGGAAACTCTGGAACGCGCTACGCCGACCCAGTG +CTCGTTGGTCGGTACTGGCGCTGGTCGCAATTGGGATTGTGATTGGCATTGCGCTGATTGTATTGCCACA +CGTTGGGATCAAAGTCACCAGCACAACCGAATTTTGTGTCAGTTGCCACAGTATGCAACCGGTGTATGAA +GAATATAAACAGTCGGTGCATTTCCAGAACGCCTCCGGCGTGCGAGCTGAATGCCATGACTGTCATATCC +CGCCGGATATTCCAGGCATGGTGAAGCGCAAACTGGAAGCGAGCAATGATATCTACCAGACCTTTATTGC +TCACTCCATTGATACACCTGAAAAATTCGAAGCCAAACGCGCGGAACTTGCCGAGCGTGAATGGGCGCGA +ATGAAAGAAAACAACTCGGCAACCTGCCGCTCCTGCCATAACTACGATGCGATGGATCATGCGAAGCAGC +ATCCTGAAGCAGCACGTCAGATGAAGGTGGCAGCGAAAGATAATCAATCCTGCATCGACTGTCATAAAGG +TATTGCCCACCAGTTACCGGATATGAGTAGCGGCTTCCGTAAGCAGTTCGATGAGCTGCGCGCCAGTGCT +AATGACAGTGGTGACACGCTGTACTCTATTGATATTAAGCCAATTTATGCGGCGAAAGGCGATAAAGAAG +CCTCTGGTTCTCTGCTGCCTGCTTCGGAAGTGAAAGTCCTTAAACGTGACGGCGACTGGCTGCAAATTGA +AATTACCGGCTGGACGGAAAGCGCCGGACGTCAGCGTGTACTCACCCAATTCCCAGGTAAACGCATCTTT +GTTGCCTCGATTCGTGGTGATGTGCAGCAGCAGGTAAAAACGCTGGAGAAAACCACCGTTGCCGACACCA +ATACCGAGTGGAGCAAGTTGCAGGCCACTGCGTGGATGAAGAAAGGCGACATGGTGAACGATATCAAACC +GATCTGGGCTTATGCGGATTCGTTGTACAACGGCACCTGTAACCAGTGCCACGGCGCACCGGAAATCGCC +CACTTTGACGCTAACGGTTGGATCGGCACGCTCAACGGCATGATTGGCTTTACCAGTCTCGATAAACGTG +AAGAACGCACCTTGTTGAAATATCTGCAAATGAATGCGTCTGACACCGCAGGTAAGGCTCACGGCGATAA +GAAGGAAGAAAAATAATGAACAATAACGATCTCTTTCAGGCATCACGTCGGCGTTTTCTGGCACAACTCG +GCGGCTTAACCGTCGCCGGGATGCTGGGGCCGTCATTGTTAACGCCGCGACGTGCGACTGCGGCGCAAGC +GGCGACTGACGCTGTCATCTCGAAAGAGGGCATTCTTACCGGGTCGCACTGGGGGGCTATCCGCGCGACG +GTGAAGGATGGTCGCTTTGTGGCGGCAAAACCGTTCGAACTGGATAAATATCCGTCGAAAATGATTGCCG +GATTGCCGGATCACGTACACAACGCGGCGCGTATTCGTTATCCGATGGTACGCGTGGACTGGCTGCGTAA +GCGCCATCTCAGCGATACCTCCCAGCGCGGTGATAACCGTTTTGTGCGCGTGAGCTGGGATGAAGCCCTC +GACATGTTCTATGAAGAACTGGAACGCGTGCAGAAAACTCACGGGCCGAGTGCCTTGCTGACCGCCAGTG +GTTGGCAATCGACGGGGATGTTCCATAACGCTTCGGGGATGCTGGCGAAAGCTATTGCCTTGCATGGTAA +TAGCGTTGGTACGGGCGGAGATTACTCTACCGGTGCTGCGCAGGTGATCCTGCCGCGCGTAGTCGGTTCG +ATGGAAGTGTATGAACAGCAAACCTCCTGGCCGCTGGTATTGCAGAACAGCAAAACCATTGTGCTGTGGG +GCTCCGATTTGCTGAAAAACCAGCAAGCGAACTGGTGGTGCCCGGATCACGATGTTTATGAATATTACGC +GCAGCTAAAAGCGAAAGTCGCCGCCGGTGAAATTGAGGTCATCAGCATCGATCCGGTTGTCACATCCACC +CATGAGTATCTGGGGCGCGAGCATGTGAAGCACATTGCGGTTAACCCGCAAACTGACGTGCCGCTGCAAC +TGGCGCTGGCACATACGCTGTACAGTGAAAACCTGTACGACAAAAACTTCCTTGCTAACTACTGTGTGGG +TTTTGAGCAGTTCCTGCCGTATCTGCTGGGTGAGAAAGACGGTCAGCCGAAAGATGCCGCATGGGCTGAA +AAACTGACCGGCATTGATGCCGAAACCATTCGTGGGCTGGCGCGGCAGATGGCGGCGAACAGAACGCAAA +TTATTGCTGGCTGGTGCGTGCAGCGTATGCAGCACGGTGAACAGTGGGCGTGGATGATTGTGGTTCTGGC +GGCGATGCTGGGGCAAATTGGCCTGCCAGGTGGTGGTTTTGGTTTTGGCTGGCACTACAACGGCGCAGGC +ACGCCGGGGCGTAAAGGCGTTATTCTGAGTGGTTTCTCCGGCTCTACGTCGATTCCGCCTGTTCACGACA +ACAGTGACTACAAAGGCTACAGCAGCACTATTCCGATTGCCCGTTTTATCGATGCGATCCTCGAACCGGG +GAAAGTGATCAACTGGAACGGTAAATCGGTAAAACTGCCGCCGCTGAAAATGTGTATTTTTGCCGGAACT +AACCCATTCCATCGCCATCAGCAGATCAACCGCATTATTGAAGGCTTGCGCAAGCTGGAAACGGTTATCG +CCATAGATAACCAGTGGACCTCAACCTGCCGCTTTGCCGATATCGTACTGCCTGCGACCACGCAGTTTGA +GCGTAACGATCTCGACCAGTACGGCAATCACTCCAACCGTGGCATTATCGCCATGAAACAGGTGGTGCCG +CCGCAGTTCGAGGCGCGCAACGACTTCGATATTTTCCGCGAGCTGTGCCGTCGCTTTAATCGCGAAGAAG +CCTTTACCGAAGGGCTGGACGAAATGGGCTGGCTGAAACGCATCTGGCAGGAAGGTGTACAGCAAGGCAA +AGGACGCGGCGTTCATCTGCCAGCGTTTGATGACTTCTGGAATAACAAAGAGTACGTCGAGTTTGACCAT +CCGCAGATGTTTGTTCGCCACCAGGCATTCCGCGAAGATCCGGATCTCGAACCGCTGGGCACGCCGAGTG +GCCTGATTGAGATCTACTCGAAAACTATCGCCGATATGAACTACGACGATTGTCAGGGGCATCCGATGTG +GTTTGAGAAAATCGAACGCTCCCACGGTGGGCCTGGCTCGCAAAAGTATCCGTTGCATCTGCAATCTGTG +CATCCGGATTTCCGACTTCACTCGCAGTTATGTGAGTCGGAAACGCTGCGTCAGCAATATACGGTAGCGG +GTAAAGAGCCAGTATTCATTAACCCGCAGGATGCCAGCGCGCGCGGTATTCGTAACGGTGATGTGGTACG +CGTCTTTAACGCTCGCGGTCAGGTGTTGGCAGGGGCAGTGGTTTCTGACCGCTATGCACCCGGCGTGGCA +CGAATTCACGAAGGGGCATGGTACGATCCAGATAAAGGCGGCGAGCCTGGTGCGCTGTGCAAATACGGTA +ACCCCAACGTGTTGACCATCGACATCGGTACATCGCAGCTGGCGCAGGCGACCAGTGCGCACACTACGCT +GGTGGAAATTGAGAAGTACAACGGAACAGTGGAGCAGGTGACGGCGTTTAACGGCCCCGTGGAGATGGTG +GCGCAGTGCGAATATGTTCCCGCGTCGCAGGTGAAATCATGACCACGCTGACAGCACAACAGATTGCCTG +TGTTTACGCCTGGCTAGCGCAGTTGTTCTCCCGTGAGCTGGACGATGAACAACTGACGCAAATCGCCAGT +GCGCAGATGGCTGAATGGTTTTCGTTGCTGAAAAGCGAACCGCCGCTCACTGCGGCGGTGAACGAGCTGG +AAAACCGTATTGCCACGCTGACAGTACGTGACGATGCCCGTCTGGAACTGGCCGCGGACTTTTGCGGCCT +GTTTCTGATGACCGACAAACAAGCGGCGCTGCCGTATGCATCGGCCTACAAACAGGACGAGCAAGAGATT +AAACGCTTGTTAGTTGAGGCAGGGATGGAAACCAGCGGCAATTTCAACGAACCGGCAGATCATCTGGCGA +TCTATCTCGAATTGCTCAGCCATCTGCATTTTTCGCTGGGAGAGGGGACCGTTCCTGCGCGAAGAATCGA +CAGTTTGCGGCAAAAAACACTGACGGCGCTGTGGCAATGGTTACCAGAGTTTGTTGCGCGTTGTCGTCAG +TATGACAGCTTTGGTTTTTACGCGGCACTAAGCCAGTTATTGCTGGTGTTAGTGGAGTGCGACCACCAAA +ACAGATAACGTCGTTTGTGCGCCTGAAAAGACGCGTTTAGCGTCGCATCAGGCATTATGGCGCAGTTGCC +GGATGCGGCGTGAACGTCTTATCCGGCCCACAGGAACTGTAATCTTTGTAGACCGGTTAAGATGCGTCAT +CGCATCCGGCAAACACACATCACGGATGAGCTACAAACCGGGAAAGCCGCTGGCGCAGCAGGCGGTTTTC +CTGCTTCAGGTGCGCAATATCATCCATTAACGTCAGCGCCACCGCGATCCCCGGCCAGTCCAGAGCCAGT +TCATGACGCAGGCGTACCGCGCGTTGCACCACAATGGCGGCATGGTCGTCAAATACCCAGGTTGTTTCCT +GGATCTCACGCGGTTCAACCACCCCCAAACCGACAATTTCATTCAACTCCTCTTCAGAGATGCCGGTATG +CAGGCAAAATTCGGTAATAGTAAAAGTCACCGTAACATTAGCCATTATGCTTTCCCCCAATCTTTACGTG +GATCAAAAGACGACTGGGCGTCTGCCAGTTGCTGCCACAGCGCGGCAGTGTTTTCATCCGGTTTCGGCGG +CATCACGATTTTCAGTACCGCATACAGATCGCCGGTCTGTTTTTTGCTCACCAGACCTTTGCCTTTAACG +CGCAATCGTTGCCCGGCCTGGCTGCCTGGCGGGATAGTCAGCAAAATGCTTTCTTTCAGTGTTGGAACGG +TGACTTTAGCACCCAGCGCCGCTTCCCACGGGCTAACCGGCACCACAATTTCCAGATCCTGGCCGACAAT +ATCAAACAGCGGATGTGGCGCAATATGAATCACCAGCCACAAATCGCCATTTGGACCGCCGTTTTCGCCC +GGCGTCCCCTGGCCTTTCAGACGGATGCGTTGACCATTGCCGACGCCCGCCGGGATCTTCACATTCAGCG +TTTTCGGAATTTCCTGTTCGATCATGCCAAAGGCGTTATAAACCGGCAGGTTATAGCTGATGGTACGCTT +ATGCTCAGTAAGCGTTTCTTCGAGGAATACCGCCACTTCGATTTCAATATCGTGGCCGCGTGTGGCGGGG +CGTTGACGGCTCTGGCGGGCATGCTGACCGAAAATTGACGAGAAGATATCGTCAAAATCTTCGGCGTTAA +AACTCTGACCGTCGCCATGGTGGAACTGACGGTTAAATTGCGGATCGTTGCGATGTTGCCACATCTGATC +ATACTCAGCGCGACGTTGTTCATCACTTAACACTTCCCAGGCTTCAGCGACCTCTTTGAAGCGGGCTTCG +GCATCCGGTTCTTTGCTGACATCAGGATGGTATTTGCGGGCAAGTCGACGATAGGCGGTCTTGATTGTCT +TGAGATCGTCCGTCGGTTTCACGCCCATGATGGCGTAATAATCCTTTAATTCCATAGCGTTATCTCGCGT +AAATCAACACAAATTGAAGGAACCCCTGTAAGGTAACTCCTATAAGTGTAGGGTAATCCTCAAAATTTCA +TATGCCAACACAGAATATGTTATTGAAATCATCGCGGAGAGGAGGTCGCCATCAAGATGGGTTGCTGAAC +ATATTTTAAACAGGTGAAAAAGGGTGAGCGATTTTTGATAGTTGAACCAGGCACTTTAAGTTTAACTAGG +GCGTCATTATTTATTAAATTTTATAGACGCTATATATGGGTAGTAATATACATGGAATTAGTTGCACTGC +AAATAATTATTTGAAACAGGCCTGGAACGATATAAAAAATGAGTACGAAAAAAATCAAACATATTCAATC +ACGCTTTTTGAAAACACACTGGTGTGTTTTATGCGGTTATACAATGAACTCAGACGTAAAGTAAATGAAG +AGGATACTCCATGTCTGGAATGTGAATCACTAGAAAAAGAATTTGAGGAAATGCAGAATGATAATGATCT +ATCATTATTTATGAGAATATTGCGTACTAATGATACACAAATTTATTCAGGGGTTTCAGGAGGTATTACA +TATACTATACAATATGTTCGAGATATTGATATTGTTAGAGTGTCCTTGCCGGGCAGAGCTTCAGAGTCTA +TCACAGATTTTAAAGGTTATTATTGGTATAACTTTATGGAGTATATTGAAAACATTAATGCGTGTGATGA +TGTTTTTTCTGAGTATTGTTTTGATGATGAAAATATAAGTGTCCAGCCAGAGCGGATAAATACGCCGGGA +ATATCTGATTTGGATTCTGACATTGATTTGTCTGGTATATCTTTTATTCAGCGTGAAACTAACCAGGCAT +TAGGATTAAAATATGCTCCTGTAGATGGCGATGGATATTGTCTGTTAAGAGCTATACTGGTTTTAAAACA +ACATGATTATTCATGGGCGCTGGTCAGTTATAAGATGCAAAAGGAAGTTTACAACGAATTCATTAAAATG +GTTGATAAAAAAACGATCGAGGCTCTTGTTGATACGGCATTCTATAATCTCAGGGAAGATGTAAAGACGT +TATTTGGCGTTGATCTACAATCTGACAACCAAATTCAGGGGCAGAGTAGTCTTATGTCATGGAGCTTTCT +GTTTTTTAAAAAACAATTCATTGATAGTTGCTTGAATAACGAAAAATGTATCCTGCATTTACCCGAGTTT +ATATTTAATGATAACAAGAACTTGCTTGCTTTAGATACCGACACGTCGGATAGGATTAAAGCGGTGAAGA +ATTTTCTTGTTGTTCTTTCAGATAGCATTTGCTCATTATTTATTGTTAATAGTAATGTGGCATCAATCTC +CTTGGGGAATGAATCCTTTTCAACAGATGAAGATCTTGAGTATGGTTATTTAATGAACACTGGCAATCAT +TATGACGTTTACCTCCCTCCTGAACTTTTTGCTCAGGCTTACAAGTTAAACAATAAGGAAATGAATGCGC +AACTCGACTATTTAAATCGTTATGCAATTTAATGGCAAAGGCATATGCTAAAAACCATTGTTATTAGTCT +CACACTTTTTTATTGGTAAATATTGTCTCTGTATTGGTAACGCCGCAGATATTCTGTTTAGCCACAGGTG +CAATTATCAGCGGCGTACGCGAGGCAGGGGCTAATCAGGCATAGTTTGCGTCAAACCTTGCCTGTTTTTG +AAGATGTATATAGAAAAACAGGCGTTCAACAAGCCATTTTGCGAACCTGTTCCCGGAAAAAAGTCATATT +TCTGTCACACTCTTTAGTGATTGATAACAAAAGAGGTGCCAGGAATGAACAAAACGCTAATCGCCGCAGC +TGTGGCAGGGATAGTTTTACTCGCTTCAAACGCTCAGGCACAAACCGTACCGGAAGGCTATCAGCTACAG +CAAGTGCTCATGATGAGCCGCCATAACTTACGTGCGCCGCTGGCGAACAATGGCAGTGTGCTGGAGCAGT +CGACGCCGAATAAATGGCCAGAATGGGACGTCCCCGGTGGGCAACTCACCACCAAAGGTGGCGTGCTCGA +AGTGTATATGGGCCATTACATGCGTGAATGGCTGGCAGAGCAGGGGATGGTGAAATCGGGGGAATGCCCG +CCGCCGTACACCGTTTATGCCTATGCCAATAGTCTGCAACGTACCGTTGCGACCGCACAGTTCTTTATTA +CCGGCGCATTCCCGGGGTGTGATATTCCTGTGCATCACCAGGAAAAAATGGGCACTATGGACCCAACCTT +TAACCCGGTGATCACCGATGATTCCGCCGCATTCAGTGAACAGGCGGTGGCGGCAATGGAGAAAGAGCTC +AGCAAACTCCAGCTTACCGACAGCTACCAGCTACTGGAAAAAATCGTTAACTATAAAGATTCCCCTGCCT +GTAAAGAGAAACAACAGTGTTCGCTGGTGGATGGCAAAAATACCTTTAGCGCCAAGTATCAACAAGAACC +AGGTGTTTCCGGGCCGCTGAAAGTCGGCAACTCGCTGGTAGATGCGTTTACTTTGCAATATTACGAAGGT +TTTCCGATGGATCAGGTGGCCTGGGGAGAAATCAAATCTGACCAGCAGTGGAAGGTGTTGTCGAAGCTTA +AAAACGGCTACCAGGACAGCCTGTTTACCTCACCGGAAGTGGCGCGCAATGTTGCGAAACCGCTGGTCAG +TTATATCGACAAAGCTCTGGTCACCGATCGCACCAGCGCACCGAAAATTACAGTGTTGGTTGGGCACGAC +TCCAACATTGCCTCTCTGTTAACGGCGCTGGATTTCAAACCGTATCAGTTGCATGACCAGAACGAACGCA +CGCCGATTGGCGGCAAAATCGTTTTCCAGCGTTGGCATGACAGCAAAGCCAATCGCGATTTGATGAAAAT +TGAATATGTGTATCAGAGTGCGGAACAGTTACGTAATGCCGATGCGTTAACCCTGCAGGCACCTGCGCAG +CGTGTGACGCTGGAATTAAGCGGTTGCCCGATAGACGCTGATGGTTTCTGCCCGATGGATAAGTTTGATA +GCGTGTTGAATGAAGCGGTGAAATAACAGAAAACTCCCCCGCGAGAAGCGGGGGAGTCGCTGGTTAAACG +TTTTTACGTTCGATGGTCTGTTCGCCCCAAAAAAGCGAATCTTTATCGGTCTTAGCAAAGGCTTTGACTA +ACACTTCATCACTACCTTCTTCCCAAATCTTTTCCGCCATTTTTTCGTCGTACCCGGCGACTTCGAAAAT +GGCCTCGGCTATTTCCGGCGACGTATTGCGCAGAGATGCCCATTCACCGACGTGATGAGCTTTCGCTTCT +TGAGTTGGCATGCGTATCCTCCTGTTGAAGATTAGCCGTTAAGTTTAACTGCCAGACCTGCGACATATTC +CCCTTGATAACGAGCAATAGACAGTTCTTCCTGGCTGGGCTGGCGTGAACCGTCACCGCCTGCGATGGTG +GTTGCGCCGTACGGCGTACCGCCGCGAACCTGTGAAACGTCAAATAATTCCTGCGCTGCGTAGCCAATAG +GGACAATTACCATGCCGTGATGCGCAAGGGTCGTCCAGGTGGATGTGATGGTTTGTTCCTGACCGCCGCC +AGTACCGGTGGAACTAAAGACGCTCGCCAGTTTTCCGTATAGTGCGCCGGAAGCCCACAGGCCGCCCGTC +TGGTCGAGGAAGGTACGCATTTGACCGGACATGTTGCCAAAGCGGGTAGGTGTACCAAAAATAATGGCGT +CGTAATCGGCCAGTTCTTGCGGGGTTGCAACCGGTGCAGTTTGCGTTTTACCGCCTGCTTTTTCAAATAA +TTGCGGCGGCATGGTTTCCGGTACACGCTTAACGACAACTTCAGCGCCATCCACTTTGCTTGCACCCTCA +GCGACTGCGCGTGCCATCGTTTCAATATGTCCGTACATGGAATAATAAAGCACCAGAACTTTAGCCATTT +CTAACCACTCCTCGTGTTATCTCTATTCCGTAGCGATTCGCTACCACTTATTTAAAGATAAGACGTCCTT +TTCAGAGTGCAAATTTCACAACCACTTATTTGATTTATAACAACTTTCACAAGCACGTAATTTTGTCGCA +AAATGACACATTTTTATCTCATCGCGTTTTTTTAATCATAAGAGCGGCTTATGGATAATTATTGGAGATG +ATATCTATTCTCGCTAAGAAGCTGTTGCAGGATATTACCAAACGCGGGTCTGCCCGCGTCAGTTCACTAA +GCTTAGTCCCACGTAGCGAAAATATGGCAGCCGCCATACGCCGCGTTAATTCTATGCAATATGATGTCTA +TACCCAGACGGAGGTCAGTAATGGCAAACCATCGAGGCGGTTCCGGCAATTTTGCAGAAGACCGCGAAAG +AGCATCAGAAGCAGGTAAAAAAGGTGGACAGCACAGCGGGGGTAATTTCAAGAATGACCCGCAGCGCGCA +TCTGAAGCAGGTAAAAAAGGTGGTAAGAGCAGTCACGGCAAAAGCGACAACTAGCCGGGCTAATCAATGA +CGAATGCATTTTTGTCTGTAGCTCGTCAAAAAGCCATCACCGCCGGTTACCCGGTGGTTGATACTGATGA +CAAATGTAAGCTTGCCTGATGCGCGATGCTTATCAGGCCTACCAGAAGATTGCAATATATTGAATTTGCA +CTGTTTTGTAGGCCGGATAAGGCGTTTACGCCGCATCCGGCATGAACAATGCGTACGTTGTCAACAATCT +GCACCGCCGGTAACCCCGGCGGTTTTCTGTTTATGGCTCCTGATGAACAACTTCTGGCGGTGGAACGTCA +ACCAACTTTCTGCTTAACAACGCATTGAGTAAAATCGCGCCAAAGGTTGCTGTACCAATCCCTCCCAACG +TAAAACCGCCCAGCGTGAGAGCAAAATCACCCGCGCCCAGCACTAAGGTTACTGCGACCATAATCAAATT +ACCGTTCTGGCTTAAATCGACACGGTTTTGTACCCATATCCTTGCGCCTGCGACGGCAATCAGCCCGAAC +ACAACAATTGATGCACCACCAATAACCGCGGCCGGAATGGTATGAATCAGCGCACCAAATTTCGGTGAAA +AGCCCAACAGCATGGCGATGACGGCAGCAGCAACAAACACCAGCGTCGAGTAGACTTTGGTCACGGCCAT +CACACCGATATTTTCAGCATAGGTGGTCACGCCGCTACCGCCGACAGAGCCGGAAAGCATCGTTGCCAGA +CCATCGCCTACGAATGCCCGCCCCATATACGGGTCCATATTGCGTCCGGTCATCCCGGCGACTGCCTTGA +GATGACCTAAGTTTTCCGCCACCAGAATCACCGCCACGGGCGCAATCAGCATCATTGCCTGACCATTAAA +AGCAGGAGTGGAAAAATGTGGCAGACCGAACCAGGCAGCATGGCTGACGAGAGTAAAATCGACGGCTTTT +CCCAGCCCTAAAACGTTGGTCATCACGCCATACAGCAGACAGGCGACAATTAATCCTACGAGAATCAATA +ACCGCTGGATCATGCCACGGGTAAACACCGCCACCAGCCCAATACACAGCACCGTCATTACCGCCATCCA +GCTATCAAAGGCCGAAGCCGATACACTTTTCACTGCGATAGGCGCTAAGTTCAGGCCAATCGCCATCACC +ACCGCACCCGTCACCACCGGCGGCATCAGTCGTTCAATCCAGCGCGTACCGATTTTCATCACCACCAGGC +CAATGACGGTATAAACCAGCCCACAGGCGATAATCCCGCCCAGCGCAATGCTGATATTCGGGTTAATGCC +CTGACCGTTAAAGCCCGTCGCGGCGATCACCACGCCGACAAAAGCCGCGCTGGAGCCGAGATAACTGGGG +ACGCGCCCGCCGGTAATAAAGAAAAACAGTAACGTGCCGATCCCCGACATTAAAATGGAAAGATTGGGAT +CCAGCCCCATCAGAATCGGCATTAACACCGTCGCGCCAAACATCGCCACCGCGTGTTGAACGCCCATTAC +TGCCGTCTGAGCAAACGGCAATCGTTCATCCGGCGCGACCACGCCGCTCTCTGTAGAGGTCGATTTTAAC +TGCCAGTGAGGAAAACCGAACATTGCCATCAGCTGTCTCCTTAAGGAGGTTAACAAGCAGGGCGCATCAG +CGCGTGATAACTGCGATCGAACCACACCAGCCCGTAGGGTGTGGTGTGACGATGAATCGCTTCGATGGCG +CAAAACAGAATGTCGTGGGTGCCGACGCTCACCACCTGGCTGATACGGCAGTCAAACGAAACCAGAGCCT +CTTCCAGTTGCGGGCATCCGGTCACCCCCGTCTGCCAGCGGGCGGCGGCAAAGCGGTGTTCCATGGGCGT +TTTGCCGCCAAAAAGGTTTGAAAGCGGCTCCTGCCCGGCGCTAAGTGTATTTACACACAGCGTTCGATTT +TCATTGAATGCCGGCCAGACGGACGCCCCACGATTCAGGCACACCAGTAATGTGGGCGGCGTATCGGTCA +CACTGCAGACGGCGCTGGCGGTGAACCCGGCGCGCCCGGCTGGACCGTCCGTGGTGATAATATTGACCGC +CGCGCCCATGCAGGACATCGCATCGCGAAAAGTTTGTTGATCGACAATGTTCATAGTTTGCTCCTTACAA +CAGCCCGCAGGCTTCTTCAAAGGACAGACGTGGCAGGCGCGCATAAAGCTTGCTGCTATCGCCATAGCCG +ATATTAATCAGCAGATTGCTCTTCAGCGTGCTGCCCGTAAAAAAGGCGTCGTCCACGTGTTGACGGTCAA +AGCCCGACATCGGGCCGGTATCCAGTCCCAGCGCCCGGCAGGCGACGATCAGATAGGCCGCCTGCATGGA +ACTGTTGCGAAACGCTGTTTCTTCGGCAAGTTGTGGGCTGGAGGTAAACCAACTGCGGGCATCACCGTGG +GGAAACAGTAGTGGTAACCGTTCATAAAATTCACTGTCCCAGGCGACGATAGCGGTGACGGGCGCGGTCA +GGGTTTTTTGCAGATTGCCGCTGGAAAGTGCCGGGCGCAGACGTTCTTTTCCTTCTGCCGTGCGGGTAAA +CACGATCCGTGCCGGAGAACAGTTAGCTGATGTCGGCCCCCATTTCATCAGGGCATAAATCTCCCGTAAC +GTCTCATCGCTGACGGGTGTCTCCCGCCAGCCGTTGTGAGTGCGGGCATCGGTGAACAGGGTGCTAAGCG +CACCTGGGCTAACGGCTTCGTTCATAGCAATTCCTTACAGGGCGGCTTCACGGTGATGTAACAGGCTGGC +AAGCCCGTTGAGTAACAGAGCATTAAACGTTTCGGGATCGGTCACGTTGCAGGCGTGTCCGCCATAGGGC +ATCACCATTTTCTGGCTATCGGGCAGGGCGGCATGAAGTTCACTGGAACATGCTGTTGGCACCAGCAGAT +CATCACTGGCGCAGATGATTTGCACCGGGCAGCGGATGCGATCCGCATGGTGACTAAAGTCAGCGCGTTT +GAGGGCGTTAAGTCGACGCAGTAAATTATTTTTGCCCTGAAAATGCGCCAGTGCCAGCGCGTCTTCTGCC +TCCAGGCGAGGTGCGCGGGCCGCCATCCAGTCGGCGGGATAGAGGAACAACGGCTGCGCTTCCACCCATG +CCTGCGCGCCGCCGCTATACAGTAATCGTTCGCGAACCTGAAAACAGCGGCGCGTATGGGCGTTTATTCG +TAGCCAGCCGTTAACGCTGATCAGCACAGTTACCGACGCGGGATAATCCAGCGCCAGCTGCATTCCCACC +AGCGCACCGAGCGCATGGCCGACCACTGCGTAATGCTCAATCCCTGCGGCTACCAGCGCCTGATGCAGTT +CCGCTGCCATCTGGGCGATACTGTAATCTTCTGCCAGCGTGTCGGGATTATTGCCGGTGCCGCGCTGGTC +GTAACAGACTACCTGATACTCCTGCTCCAGCACCGCCAGTTGCGGTAACCAGTAACTGCCGCTACCCCCA +AGACCCGAAATCAACACCACTACGGGCGCATCAGCATAAGGGGGAGGTGAGAGTGAAAGTTTCATCGCGG +CCTCACTTGGCGATATGCGCAATTGTGGCGATTTCCACCAGCGCGTCAGGTTTTACCAGTCCGCACTGAA +TGCAGAATCGCGCCGGTTTATCACCCGGAAAAAACTCGGCGTAGATTTCGTTAATCGCGGCGTAATTTTT +CCAGTCGGTAATAAAGATGCTGTTGAAGGTCACATCCGCCATCGTGCCACCCGCCGTCTCGATCACCTTG +CGGATAGTTTCCAGAACGTGGCGGGTTTGCGCCTTTGGGTCATCGGCAAACAGCACGTTATTATGTTGAT +CAAAAGCCAGCGTACCGGAGACATACACCACGCCATCAGCCAGCGTGCCGGGAACGAAGGGGGCCAGCGG +TGCGCTGCTGCCAGCGGGAATAATTACGGATTTTGGCATCGTTAAACTCCTTAAGCGATATGAGCAAAGG +ACGTGGGAGAAAGCGCGTCGCAGAATGTTTCGACGTCGCTGACCCAGCCAAAAAAGGTTTCGATATTGAA +CAACGCGGCTTTCTGCGCAAATTTCGGCCCCGCCTGGTGAGTTGCGTCTTCAAGCACCACGCCGAAATAC +TCCAGAAAAAAGCCGTCGCGTAGCGTCGATTCGACGCAGACGTTGGTAGCGATGCCGGTGAAAACCAGAT +GGCGTATTCCGCGGCTGCGCAAAATGCTGTCCAGCGGCGTATTGAAGAAACCGCTGTAGCGCGGCTTCGG +CAGCACAATATCGCCAGGCTGCGGCACCAGTTCATCCACCAGTTGATAATCCCAGGAGCCTTTCGCCAGC +AATTTCCCCTGCAGCTGCGGCTGCTTACGCATGGTTTTCAGGGCGTTCGATTTATGAAAATTCGGTGAGC +CGGGTCCGCCAGCCTCGACATACTGTTCATCCCAGCCATTTTGAAACCAGATGATCAGCATCCCTGCCGC +TCGCGCTGCGGTCACGGCGGTTTGAATGTTGGCAATGACCGGGCGAGTGGTTGAGACATCAAACCCGGCG +AGATCTAAGTAGCCGCCTGGCGTGGCATAAGCGTTTTGCATATCCACCACGATCAGCGCACTTTGCTGCG +GATCGAAGGTAATGGCTTCCGGTCGAGCGGTTAAGGTCGTCATCATGCCACCTCCTGAGTCAGCGCAGGT +AGATGGGCGCGGCATTGCATCAGTGGTTGAATGCGCTCGCCGAAGGTTTCGATTCCCGACAGAAAATCGT +CGAAGGTTAACAGCACGCCTTCGGCACCAGGCACGCTTGCGACTTCATCTAACATGCGCGCGACACTGGC +GTAAGAACCGACTAACGTCCCCATATTGATGTTTACCGCCGAAGTGGGATCGGCCATCTGACGAACGTTG +GTGTCAGTACCGGAGCGGGTATCTTTCTGACTTTGTTCGGTTAGCCAGCTTAACGCCTCTTCATCCGCGC +CCGCTTTGTAGTGTTCCCATTTGGCGCGAGCGGCATCGTCGGTTTCATCGGCAATCACCATAAACAACAC +ATAAGAGCCAACGTCGCGTCCGGTTTGCTCTGCGGCCTGTTTCATCCGCGCAGCGGTCGGGGCGAAAGCC +GTGGGTGTATTTACGCCTTTGCCGAAACAGAAGTTGAAATCGGCATACCGGGCGGAGAACGCCATGCCAG +CGTCGCTTTGCCCGGCGCAGATCACTTTCATGGGGACACTCGGTTGCGGACTCACGCGACAATCATTCAT +GGTGAAAAAATCGCCTTTAAAATCGCTTTTCCCCGTGCCCCACAGGTCGCGCAGCACCTGAACATATTCG +GTGAGATAGTCGTAACGACGGGAGAAATAGTCATCGCCAGGCCAGATACCCATCTGCTCATACTCGGGCT +TTTGCCAGCCAGTCACGAGGTTGACGCCAAAACGCCCGCCAGAGATGGAGTCGATGGTTGCGGCCATACG +GGCGACGATTGCCGGAGGTAACGTTAAGGTGGCAGCAGTGGCGTAAATCTGAATGCGCGAGGTCACGGCC +GCCAGCCCCGCCATCAAGGTGAACGACTCAAGGTTGTGATCCCAGAACTCAGTTTTGCCGCCAAAGCCAC +GCAGTTTGATCATCGACAGGGCGAAATCGAAATGGTAGTGCTCCGCTTTTTGCACAATGGCTTTATTCAG +TTCAAAGGTCGGCATGTACTGCGGCGCGTGGGTCGAAATGAGCCAGCCGTTGTTGCCAATAGGTACGAAT +ACGCCAATTTTCATCATCAACCTCTCTTCGTCTCGTAAAGTGAAAGTCAGACGGGGCGCTGCATCCTGCA +TATCCTTTTCAGCCGCGTATTGGCTTGTTTGCAAAGCGGATGCCAGTTTTTAAAAAGTTAATGTTATTAA +TCTGTTAACATTACGTTATCTAAAATATCTGGTAAAAAGTGGACTAAACGGTCAAAACAGTTGCACATAA +AACATGCATCTGTGCGCGATGAGAGTGCAGAAGGTCGAGGCCGGGCGGGGGTTTTGCTATCCTGTTGCCA +ATCTACAAGAGGGGAGAGCGCATGACGCAAGGCGCAGTGAAAACAACGGGTAAACGTTCGCGCGCAGTAA +GCGCGAAGAAAAAAGCGATTCTTAGCGCAGCACTGGACACTTTTTCACAATTCGGTTTTCACGGCACAAG +GCTGGAGCAGATCGCAGAGTTGGCGGGTGTTTCAAAAACCAATCTGCTGTATTACTTTCCGTCAAAAGAG +GCGCTGTATATTGCCGTGCTGCGGCAGATTCTCGATATCTGGCTGGCACCGTTAAAAGCGTTTCGTGAAG +ATTTCGCCCCGCTGGCGGCGATCAAAGAGTACATCCGTCTGAAGCTGGAAGTCTCACGCGATTATCCGCA +GGCTTCGCGCCTGTTCTGTATGGAGATGCTGGCAGGCGCGCCGCTGTTAATGGATGAACTGACGGGCGAT +TTGAAGGCATTAATTGATGAGAAATCGGCGCTGATTGCCGGTTGGGTCAAAAGCGGCAAACTCGCGCCGA +TTGATCCGCAGCATTTGATTTTTATGATTTGGGCTTCCACTCAACATTACGCCGATTTCGCCCCTCAGGT +GGAGGCGGTGACAGGCGCGACGTTGCGCGATGAGGTATTTTTCAATCAAACGGTTGAAAACGTGCAGCGG +ATTATTATTGAGGGGATTCGACCACGTTAAAGATGCCGGAGGAGGTTGTAACATCCTCCGGCTACCTGTT +TAACCTATAGTCATTAAGCTGGCGTTACCGCCAGCGGCAGCGGTATTCACACTCAGCGAACGCTCGATAT +ACAGCCGTTCCAGAAGGATATTGCTTTCGCCACGGGCAAAACCCTGCACCGAAACAATTGTGCCATCCCG +CGCGGCAACTGCTTCACACAATGCGCGAAGCTGATCCGAATCACCGTGGAAGATCACCGCATCAAACGGT +TGAGCGGTTATATTTTCCGCTTTCGCCAGTTGAATACGTTCGCTGACTGCCGATGGCAATGCCTTCACTA +ACTGACGATGCAGCGCGTCATCCGGCCACAGTACCTGGCTGCCCACCGCCAGCACGGCGGCGAGCTGAGT +CAGCGCATCCTGCTCATCATCGGCAATACACAACACGCGCTCACGCGGCAGCAGCGTCCAGGTGTTGCGT +TCACCCGTCGGCCCCGGCAGCAATCGTTGTGTTCCTGCCTGCGCCAGCTCGCCATATTGCGTACATAACG +CCTGCAATTCTGGACGATTTGCTGCCCATTCCCGCAGTGCATTTAGCGGCTGAGTCAATGCGGCTTTCAA +CTGCGCATCGACCGGATACTTTGCATCCTGACGCGCGAGCGTCACTGCCAGCGCACTTTCCGGGCGATTC +GCCAGCAGACGGTAGAGATAGAGCGGACCGCCTGCTTTCGGCCCGGTACCGGACAACCCTTCGCCGCCGA +ACGGCTGCACACCAACCACTGCGCCCACCATATTACGGTTAACATACAGGTTACCAACATGGGCCGAGCC +AGTGACCTGGGCGATGGTTTCATCAATGCGCGTATGGACGCCAAGCGTCAGACCATAACCGGAAGCGTTA +ATCTGCTCGATCAGCTCTGGTAGCTGGTTACGGTTGTAACGCACCACATGCAGCACCGGACCAAAGACCT +CTTTTTGCAATTCGGCAAAGTCATCCAGTTCGATCAGCGTCGGGGCGACAAAGGTGCCGCTTTGCCATTC +ACGGGCATCTTCGCTGTTTTCCCGCACCGCCTGGAACACCGGACGGCCTTTGCTACGCATGGTCTGAATA +TGGCGCTCAATATTGGCTTTCGCTTCGCTATCAATCACTGGACCGATATCGGTGGTCAGGCGACCCGGAT +TACCCATCCGGCATTCGGCCATTGCGCCGCGCAGCATTTTCAACGTGTGGTCGGCAATCTCATCTTGCAG +GCACAGCACGCGCAGCGCCGAACAACGCTGACCCGCACTGTCGAACGCCGAGGCCAGTACATCCACGACG +ACCTGTTCGGTCAGTGCTGAAGAATCGACAATCATCGCGTTCATGCCGCCGGTTTCAGCGATGAGCGGAA +TAGGGCGACCCTGAGCGTCCAGGCGGCTGGCGATATTGCGCTGCAGTAACGTAGCGACTTCGGTTGAACC +GGTAAACATCACCCCGCGCACGCGATCATCACCCGTCAGTTGCGCGCCCACGGTTTCACCCCGACCTGGC +AGCAATTGCACCACGCCTGGCGGTACACCCGCTTCCAGCAAAATGGCGATCCCTTGCGCGGCAATCAGCG +GCGTTTGTTCTGCCGGTTTTGCCAGCACGCTGTTACCTGCCGCCAGTGCGGCGGCGATCTGCCCGGTGAA +AATAGCCAGCGGGAAGTTCCACGGACTGATACACACCACAGGCCCTAATGGACGGTGGGTTTCGTTAGCG +AAATCATCCCGCACCTGTCCGGCGTAGTAGTGGAGAAAATCGACCGCTTCGCGCACTTCGGCAATGGCGT +TACTGAAGGTTTTTCCGGCCTCACGCACCAGAATACCAATCAGTTGCTGCATCTGGCTTTCCATCAGCAC +GGCAGCGCGGTGCAAAATCGCTGCGCGTTCAGCCGGAGGCGTGGCAAACCAGATTGGCGCGTTATTAACC +GCACTTTCCAGCGCCTGTTCTACTTCACGCGGCGTGGCTTCACGCACATAGCCCACAATATCTTTCGGTT +CCGCAGGGTTAATAACGGGCGACATCTCACCTGCCGCTACCGGTTGTTCCAGCATTGGCAAGGCCTGCCA +TTTTTGCAGTGCACTATTGAGCAGGGCAGAGGAGAGCGAGGCCAGGCGGTGTTCGTTAGCGAGATCCAGC +CCTGCCGAGTTGTCGCGCCCGTGACCGTAAAGATCGCGCGGCAGGGGAATTTTCGGATGCGGTAATCCAG +TTTGCCCTTCCTGTTGCGCCAGTTTTTCTACAGCAGTGACCGGATCGGCGACCAGTTCATCCAGTGGCAA +AGAGGTGTCGGCAATACGGTTAACAAACGAGGTGTTAGCACCGTTTTCCAGCAGGCGACGCACCAGATAC +GCCAACAGCGTTTCATGTGTGCCAACCGGAGCATAAATACGACACGGACGGTTAAGTTTGCCGTCGGCAA +CTTTCCCGGTGACCTGCTCATACAGTGGCTCGCCCATACCATGCAGGCACTGGAACTCGTACTGACCCGG +GTAGTAGTTCTGCCCCGCCAGTTGATAAATCGCCGCCAGCGTATGGGCGTTGTGCGTCGCGAACTGCGGG +TAGATTAGATTCGGCACCGCCAGCAGCTTTTTCGCACAGGCGAGATAAGAAACGTCGGTATACACCTTGC +GGGTATAAACCGGATAACCTTCAAGGCCGTCCATCTGCGCACGCTTAATTTCACTATCCCAGTACGCGCC +TTTCACCAGGCGAATCATCAGACGGCGACGGCTGCGGGTGGCGAGATCAATCAGGTAATCGATCACCAAC +GGGCAGCGTTTTTGATAAGCCTGAATAACAAAACCGATGCCGTTCCAGCCTGCCAGTTCCGGCTCGAAAC +AGAGTTTTTCCAGCAGATCGAGGGAGATCTCCAGGCGATCGGACTCTTCGGCGTCAATGTTGATACCAAT +ATCGTACTGACGCGCCAGCAGGGTGAGTGATTTCAGACGCGGGTAAAGCTCTTCCATTACCCGGTCATAC +TGGGCGCGGCTATAACGCGGATGCAGCGCCGACAGTTTGATTGAAATGCCCGGCCCTTCATAGATGCCAC +GACCGTTAGACGCTTTACCGATGGCGTGAATCGCCTGCTGATAGGAAACCATATACGCCTGTGCATCTGC +GGCGGTCAGCGCGGCTTCGCCCAGCATATCGTAAGAGTAACGGAAACCTTTCTCTTCCAGCTTGCGGGCA +TTGGCTAACGCTTCCGCGATGGTTTCGCCAGTGACGAACTGCTCACCCATCAGGCGCATCGCCATATCCA +CACCTTTGCGGATCAGCGGTTCACCGCTTTTACCGATAATGCGGTTCAGCGAGCGGGAGAGGCTGGCTTC +GTTATGGGTGGAAACCAGTTTGCCAGTAAACAGCAGCCCCCAGGTGGCGGCATTAACAAACAGTGACGGG +CTACGACCAATGTGTGACTGCCAGTTACCGTTGCTGATTTTGTCGCGAATTAACGCGTCGCGGGTGGCTT +TGTCGGGAATACGCAACAACGCTTCCGCCAGACACATCAGCGCCACGCCTTCCTGCGATGACAGCGAAAA +CTCCTGCAATAACCCCTGGACCATACCTGCGCGACCACTGGCATTTTTTTGATTACGCAGTTTATCGGCC +AGCTGATACGCCAGTTTGTGCGCCTGTTCAGCAACTGGCTGCGGCAGGCGGGCTTGTTCCAGCAGCATAG +AAACCGCTTCGGTTTCCGGGCGGCGATAGGCCGCGGTGATCGCGGCGCGGGAAACCGACTGGGGCAATAT +TTGCTCGGCAAAGTCGAGGAATGGCTGGTGTGGTTCCTCTGCCGGAGTCGGTGCTTCATCGCTCTCATTG +GCCGCGCCAGAAAGCAGCGCAGGTAGCTCCGGCAGAGTATCGCTGTTTTCCAGTTGTTCGAGATAAGAAA +AAATCGCCTGCTTAATTAACCAGTGTGGTGTGCGATCGATACGTGTCGCGGCAGACTTAATACGCTCACG +CGTCGCGTCGTCCAGCTTAACCCCCATGGTGGTGGTTCCCATGCCATTACTCCTGTTGTTCAGAAAGGTG +CAACTTAACGTTATCGTGAAATATCCATGATGTTGCAACTTTGTGCAACCATGTTAAATGTGACATGCGT +AGCAAGCTTAAAAATGAATGAAATGTTAATAAAAGAAATCGATATGACAGGGATTAAAAAAATAACTCAG +ACTTTTTCTCTGCGGCAGTTAACATTTTTGAAAGGTGCAACCGCAAAAAATGTGAGAGAGTGCAACCTGA +TGAAAAATAGTGTCGCTGAGCACTAAAATTTAATGTAAATGGTGTGTTAAATCGATTGTGAATAACCAGC +GCTTCCGGCAGGATACGGTCGCCCTGGTAAAACATAAACTCTGTTACCCCGTTCCGGTGGCAGATATAAC +GGCAAGTTTCGACATTGCCGATAATAATTTTTTGGAGACTTTAGATGGCTATTAGCACACCGATGTTGGT +GACATTTTGTGTCTATATCTTTGGCATGATATTGATTGGGTTTATCGCCTGGCGATCAACGAAAAACTTT +GACGACTATATTCTGGGCGGTCGTAGTCTTGGGCCATTCGTGACGGCATTATCGGCGGGTGCGTCGGATA +TGAGCGGCTGGCTGTTAATGGGGTTGCCGGGCGCTGTTTTTCTTTCCGGGATTTCCGAAAGCTGGATCGC +CATTGGCCTGACATTAGGCGCGTGGATTAACTGGAAGCTGGTGGCCGGGCGGTTGCGTGTGCATACCGAA +TACAACAATAACGCCTTAACACTGCCGGATTATTTCACCGGGCGCTTTGAAGATAAAAGCCGCATTTTGC +GCATTATCTCTGCGCTGGTTATTTTGCTGTTCTTCACCATTTATTGCGCTTCGGGCATTGTGGCAGGCGC +GCGTCTGTTTGAAAGTACCTTTGGCATGAGCTACGAAACGGCTCTGTGGGCGGGCGCTGCGGCGACGATC +CTTTACACCTTTATTGGCGGTTTCCTCGCGGTGAGCTGGACTGACACTGTACAGGCCAGCCTGATGATTT +TTGCCCTGATCCTGACGCCGGTTATCGTCATTATCAGTGTCGGTGGCTTTGGTGACTCGCTGGAAGTGAT +CAAACAAAAGAGCATCGAAAACGTTGATATGCTCAAAGGTCTGAACTTTGTTGCCATTATCTCACTGATG +GGTTGGGGGCTGGGTTACTTCGGGCAGCCGCACATTCTGGCGCGTTTTATGGCGGCGGATTCTCACCACA +GCATTGTCCATGCGCGTCGTATTAGTATGACCTGGATGATCCTCTGCCTGGCAGGGGCGGTGGCTGTCGG +CTTCTTTGGGATTGCTTACTTTAACGATCATCCGGCGTTGGCTGGTGCGGTAAATCAGAACGCCGAGCGT +GTGTTTATCGAACTGGCGCAAATTCTGTTTAACCCGTGGATTGCCGGGATTCTGCTGTCGGCAATTCTGG +CGGCGGTAATGTCAACCTTAAGTTGCCAGCTGCTGGTGTGCTCCAGTGCGATTACCGAAGATTTGTACAA +AGCGTTTCTGCGTAAACATGCCAGCCAGAAAGAGCTGGTGTGGGTAGGGCGTGTGATGGTGCTGGTGGTG +GCGCTGGTGGCGATTGCGCTGGCGGCAAACCCGGAAAACCGCGTGCTGGGCTTAGTGAGCTACGCGTGGG +CAGGCTTTGGCGCGGCGTTTGGTCCAGTGGTGCTGTTCTCGGTGATGTGGTCACGCATGACGCGTAACGG +TGCGCTGGCGGGGATGATCATCGGTGCGCTGACGGTTATCGTCTGGAAACAGTTCGGCTGGCTGGGACTG +TACGAAATTATTCCGGGCTTTATCTTCGGCAGTATTGGGATTGTAGTGTTTAGTTTGCTGGGTAAAGCGC +CGTCAGCGGCGATGCAAAAACGCTTTGCCGAGGCCGATGCGCACTATCATTCGGCTCCGCCGTCACGGTT +GCAGGAAAGCTAAGGGACTTAGCCTGCGGCGGTTTTGTTTGGCTTCAGCAGCGGGTTGCGCTCCCTTAAT +GTGCCTCGCCATATAAATTGAATGGTGCAGGGAGCGCGCAGGGGGCGGCCAATCGCCGCCGCCCCCTGCT +GTCCCGGCCTTCGGGGAACGCTTCAGCGATTTTGACGCCACCAACACCCGAGCTGTTATTATGTTCCGGG +CAAAAAGTTAGATTTGATAATCGCGGATGGACGAAATTGCTTGATACACCCGCTTATCAGTTTTACATGG +AAGCTCTGATGCATTGAGTCTGGACAGTTTTGTCGGCTGGATACGGCGTTTACGCGGCATCCGGCAAGAA +CACATGGTTCTTTGCAAACAATCCCATCTTTCTACCCTGGAATAATCGTTTATATCCCTTGGCATTACCT +CTCTTTGTTTACATTCCAACATCATTTTATAAACATTCCGCTTGTGTTTTTCTTTGCCGTAATGATAATC +GCTATCACTGCGATTTACTTTTCTTTGCATAGATTGACTCAGAAAAACGTTTAAGGGTGGGTGGCATGTT +TGTTCCGTTTCTCATTATGTTGCGCGAAGGACTTGAAGCCGCGCTGATTGTCAGTTTGATTGCCAGCTAT +CTTAAGCGTACCCAGCGAGGCCGATGGATTGTGTGATGTGGATTGGCGTGTTGCTTGCCGCTGCGTTGTG +CCTGGGCTTGGGTATCTTCATTAACGAAACCACCGGCGAATTTCCGCAAAAAGAACAGGAACTGTTTGAA +GGTATCGTGGCGGTGATCGCCGTGGTGATCCTTACCTGGATGGTTTTCTGGATGCGCAAAGTGTCGCGCA +ACGTCAAAGTGCAACTGGAACAGGCAGTCGATAGCGCATTGCAGCGTGGAAATCATCATGGCTGGGCGCT +GGTGATGATGGTCTTTTTTGCCGTTGCAAGGGAAGGGCTGGAGTCGGTCTTTTTCCTGCTGGCGGCATTT +CAACAAGATGTCGGGATCTGGCCGCCGCTGGGTGCAATGCTCGGTCTTGCTACTGCCGTGGTGCTAGGCT +TCCTGCTCTACTGGGGCGGTATTCGCCTCAATCTTGGTGCATTTTTTAAATGGACCAGCCTGTTTATTCT +CTTCGTCGCCGCAGGGCTGGCAGCTGGTGCCATTCGCGCATTTCATGAAGCCGGATTGTGGAACCACTTT +CAGGAAATCGCCTTCGATATGAGTGCGGTGCTCTCAACTCACTCGCTGTTTGGCACGCTGATGGAAGGGA +TTTTTGGCTATCAGGAAGCGCCGAGCGTCAGCGAAGTCGCCGTCTGGTTTATTTATCTCATCCCGGCGCT +GGTGGCATTTGCTCTGCCACCACGCGCAGGGGCGACAGCGTCTCGCTCCGCGTAACAAATACGACGCAAA +CTCTTGCTTAGTTACAACATACTTTAAAGGGATAGTCTCGTCATGACCATTAACTTCCGCCGTAACGCAT +TGCAGTTGAGCGTGGCTGCGCTGTTTTCTTCTGCTTTTATGGCTAACGCCGCTGATGTGCCGCAGGTCAA +AGTGACCGTGACGGATAAGCAGTGCGAACCGATGACCATTACGGTTAACGCCGGGAAAACACAGTTCATT +ATTCAGAACCACAGCCAGAAGGCGCTGGAGTGGGAGATCCTCAAAGGCGTGATGGTGGTGGAAGAGCGGG +AAAATATCGCCCCTGGCTTTAGCCAGAAAATGACGGCGAATTTACAGCCTGGCGAATACGATATGACCTG +CGGTCTGCTGACTAACCCGAAAGGGAAGTTGATCGTCAAAGGTGAGGCAACGGCGGATGCGGCGCAAAGT +GATGCGCTGTTAAGTCTTGGTGGTGCAATTACTGCATATAAAGCGTATGTCATGGCGGAAACCACGCAGC +TGGTGACCGACACCAAAGCCTTTACCGACGCGATTAAAGCAGGCGATATCGAAAAAGCGAAAGCACTGTA +TGCACCGACGCGCCAGCACTATGAGCGTATTGAACCGATTGCTGAACTGTTCTCCGATCTGGATGGCAGC +ATTGACGCCCGTGAAGATGATTACGAGCAAAAAGCCGCCGACCCAAAATTCACTGGTTTCCACCGTCTGG +AAAAAGCATTGTTTGGCGACAACACCACCAAAGGGATGGATCAGTACGCTGAGCAGCTTTATACCGATGT +GGTCGATTTGCAAAAACGCATCAGTGAACTGGCTTTCCCACCTTCAAAAGTGGTCGGCGGCGCAGCCGGA +CTGATTGAGGAAGTGGCAGCCAGCAAAATTAGCGGTGAAGAAGATCGCTACAGCCACACCGATCTGTGGG +ATTTCCAGGCTAACGTTGAAGGCTCGCAGAAAATTGTCGATTTGCTGCGTCCACAACTGCAAAAAGCCAA +CCCGGAACTGCTGGCAAAAGTCGATGCCAACTTTAAAAAGGTCGATACCATTCTGGCGAAATACCGTACT +AAAGACGGTTTTGAAACCTACGACAAATTGACCGATGCCGACCGGAATGCACTGAAAGGACCGATTACTG +CGCTGGCGGAAGATCTGGCGCAACTTCGCGGTGTGCTGGGACTGGATTAAGCGTTATGCAGTATAAAGAT +GAAAACGGCGTGAATGAACCGTCACGCCGACGTTTACTGAAAGTGATAGGTGCACTGGCGCTGGCGGGAA +GTTGTCCGGTCGCTCATGCACAAAAAACGCAAAGTGCGCCGGGTACGCTTTCACCGGATGCTCGCAATGA +GAAACAGCCGTTTTATGGTGAGCATCAGGCAGGGATCCTGACGCCACAACAGGCCGCAATGATGCTGGTG +GCGTTTGATGTGCTTGCCAGCGATAAAGCCGATCTTGAGCGGTTGTTTCGCTTGTTGACTCAGCGTTTTG +CTTTTCTGACTCAGGGCGGAGCAGCACCAGAAACGCCAAATCCGCGCCTGCCACCACTCGATTCCGGCAT +TCTTGGCGGCTACATTGCGCCCGATAATCTCACCATCACGTTATCGGTGGGTCACTCATTGTTTGATGAG +CGCTTTGGCCTTGCGCCACAGATGCCAAAAAAGCTGCAGAAGATGACGCGTTTCCCCAACGACTCGCTGG +ATGCGGCGTTATGTCATGGTGATGTGTTGCTACAGATTTGCGCCAACACCCAGGACACGGTTATCCATGC +GCTGCGCGATATCATCAAACACACGCCGGATTTGCTCAGTGTGCGCTGGAAGCGGGAAGGGTTTATTTCC +GATCACGCGGCGCGTAGTAAAGGCAAAGAGACGCCGATTAATTTGCTGGGTTTCAAAGACGGCACTGCCA +ATCCCGATAGCCAGAATGATAAGTTGATGCAAAAAGTGGTGTGGGTAACGGCAGATCAGCAGGAGCCTGC +GTGGACAATCGGTGGCAGCTATCAGGCAGTACGCTTGATTCAGTTTCGAGTGGAATTTTGGGACAGAACG +CCGCTGAAAGAACAGCAGACGATTTTTGGCCGTGATAAGCAAACCGGTGCGCCGCTGGGAATGCAGCATG +AGCATGATGTGCCTGATTACGCCAGCGACCCGGAAGGGAAGGTGATCGCGCTGGACAGCCATATCCGGCT +GGCGAATCCCCGCACGGCGGAGAGTGAGTCCAGCCTGATGCTGCGTCGTGGCTACAGTTATTCACTGGGC +GTCACCAACTCCGGGCAACTGGATATGGGGTTGCTGTTTGTCTGCTACCAACACGATCTGGAAAAAGGCT +TCCTGACAGTACAAAAAAGGCTCAATGGCGAAGCGCTGGAGGAATACGTTAAACCTATCGGCGGCGGTTA +TTTTTTTGCGCTGCCGGGGGTGAAGGACGCGAACGATTATTTCGGAAGCGCGTTATTGCGGGTTTAATGT +TTTTAGGCGGATAAGGCATTTGTGCGCAGATGCCTGATGCGACGCTTGCGCGTCTTATCATGCCTACAAT +CAGTGCGGGTTTGGTAGGCTGGATAAGGCGTTCACGCCGCATCCGGCGATCGTGCACTGATGCCTGATGC +AAATCCTGCTGAAAGCACACAGCTTTTTTCATCACTGTCATCACTCTGTCATCTTTCCAGTAGAAACTAA +TGTCACTGAAATGGTGTTTTATAGTTAAATATAAGTAAATATATTGTTGCAATAAATGCGAGATCTGTTG +TACTTATTAAGTAGCAGCGGAAGTTCCCGGCAGTGATAGTCAGTCACTATGGAGATCGCGGATGGTAACG +TCCTGTACTGGACATGTTTTAGATAATCAACGCGCCACCACTCGCGGAGTTTTCTCCTCCGGTAGTCATC +TCGTCACTTTGCATTTTCAACCTCATCCTTTCTTTTCATGTGTTACCGACGCCGTAAACGGTGCGCGTAG +CCGTTTTTCGGCATTTTATCCAAAAGCAAACTATGGCTTACAAGGAAGCCAACCCTCTGATGTTCGTGCG +CATAATCGCGCTGCCAACGGCGCGTGTGATGAATACAAACAACTCAAGGTGCTCTCCATGGGAAGACAAA +AAGCAGTGATCAAAGCTCGTCGCGAGGCAAAACGTGTGCTGAGACGGGATTCGCGCAGCCATAAGCAGCG +TGAAGAAGAATCGGTCACCTCGCTTGTGCAGATGGGCGGCGTAGAAGCCATTGGTATGGCCCGCGACAGT +CGCGATACTTCGCCCATCCTCGCGCGAAATGAAGCGCAATTGCACTATCTGAAGGCTATTGAGAGTAAGC +AGCTGATATTCGCCACGGGCGAAGCCGGGTGCGGAAAAACCTGGATCAGCGCAGCAAAAGCGGCAGAGGC +CCTGATACATAAGGATGTCGACAGGATTATCGTCACCCGTCCAGTTCTGCAAGCCGATGAAGATCTTGGC +TTCTTACCTGGAGATATCGCAGAAAAGTTTGCTCCCTATTTTCGCCCGGTCTACGACGTGCTGGTCCGGC +GCTTAGGGGCTTCCTTTATGCAGTACTGCCTGCGACCGGAAATAGGGAAGGTGGAAATTGCGCCGTTCGC +CTATATGCGTGGACGTACCTTTGAAAATGCAGTCGTCATTCTTGACGAGGCGCAGAATGTGACTGCCGCG +CAAATGAAAATGTTTTTAACCCGCCTCGGGGAGAACGTGACGGTTATCGTCAACGGTGATATCACGCAAT +GCGATTTGCCTCGCGGCGTGTGCTCCGGATTAAGTGACGCGCTGGAACGTTTCGAAGAAGATGAAATGGT +TGGGATCGTCCGGTTCGGTAAAGAGGACTGCGTACGTTCGGCACTTTGCCAACGTACGCTGCATGCCTAC +AGTTAAGTGTGTTATCGGTGCAGAGCCCGGGCGAACCGGGCTTTGTTTTGGGTGTTTATGCCCGGACTAG +CGCTTTTTCTGAAACAACCATTTTTATTTGCCCCTGGCTGGTGAAGTGTACGCTCATCCTGTGGCTTTTT +TGTAGTTGCTGATAGAGCTCATCAGGTATTGCTAAGCTCTCTGCATATTCTTGCGGCGTATATTGGTAGG +CTGCATGATGCTGCTGTTTTTGAAAACGCAGCTTATTGTACAGCGCCCAGACAATTAACACGACGGCATT +CGCCACTGCCAGCAAAAAATAGAACTGAAGTCGGCTTCTGGCCTCGCTTTGCCAGTAATAACCCGTCAGC +AGATCCATGGCGAATAAGAATATGAACAACGCAAATAATGTCCACAAGATGGTTGTGGCAACATAATCAA +CCAGTAAACGTACTGGTGATTGTCGGGTCGTAATAATTAAATTGTTCATATTAACCTCTCAGAATCCCGC +GATCGGGACTTACCCAACGGGCGCGTTGCTTTTTAGGCATCAACATGACTCGTGTAAATGATACCAATGT +CGTTGCCAGGCTCAGCATCCAGAAAATAACCGGGAACCAAATAATCCAGAAAAGCGATGAAGTCAGATTA +TGCTCATAGCGATTCTCGATCATCAGGCTGACAATAAATTGCAGTAAACATAACGTACACAATAATATTC +CGGCAGTATGTGTCGCAGCGATATGTGTCAATTCAATATTTAACGGTACACCGGCAAGTTGGACTGCGTA +AATAATGAAACCGACCAGGCAGGTGAAGGCCCATATTGTCGTCAGGCAGTATTCAAAAAACAGCGGCCAC +ATTCGAAAGTTTTCTTTGCGCCACAACCTTGTCATATTTTTGAGGAATACTTCTGCACCGCCCTGAGCCC +AGCGCAGGCGCTGTTTCCACAGCCCTTTTAACGTTTCAGGCATTAATATCCAGCACAGTGCCCGTGGCTC +GTAAAAAATCGTCCACTGATTCAACTGCAGCTTCCAGCTAATATCAATATCTTCGGTGATCATATCGTCA +CTCCAGTAACCCACTTCTGCCAGGGCGCTGCGACGAAATGCGGCAATAACACCGGAAACGGTAAATACGT +TTCCATAGATACGCTGGGTTCGCTTGATCAAACCAATAATTGAGGAATACTCGCCAACCTGAATTTTACC +CACCAGGGTAGAACGTGTTCGAATACGAGGATTACCGGTTACGGCACCCACACGCGGGTTGTACAACATC +GGTTCCACAATATATGCCGCCGCATCGCGGTCTAATAACGCATCGCCATCAATGCACACCAGATATTCAC +TTTTCGCCGCGGCAGCTCCGGTTTTAAGCGCAATGGCTTTCCCCTGGTTTTGCGCCAGATGAATGACCCG +CAAATGGGGAATTTGTGCAGCCATGCGATCCAGGATGGCACGGGTTTTATCTGTTGAACCGTCATTTACG +GCAATAACTTCAATGTTCTCATAACGCTGTGCTAAAGCGGCGTGTATGGTTTCCTCAACGTTTTTCTCCT +CATTAAAACAGGGAATGATAATGGAGATAGACGGATTATCTTTCAACTGGGGAGCTGGTGCGTTTTCTCC +CCACGGCCAGTGGCGTTCACGATAGACCCAGAAATAGACGCCGCCAACAATCCACATAATGGACATAAAA +AACGGCCAGAAGAAAACGAACCTCATCATCAGTTCACCAGAGTGAAAGTACGCTACGCATAGGGGTATGC +ATAACACCAGACATAATATAAAAAACGATACGATGCGATTAATCATTTTTCGGATACCAGGCTGTTGAAA +ACTCAGGACGAATAAGGTCTATTTCAGGTTGGTTATGCAGAAAATTGTCGGGATAATAACCATAGTTTTT +CACTCCATTCAGTTGTAATAGGCTCATCCAGTGAGCGAGTTGTTGCGAAGAAATAGCCTGATGCTGACCA +TTTTTCTGCCAGTTTTGTGCCTGTAATTCTAAAATAGATTTGTCTTTAGCCTGAGGGATGTTTTTAATTT +GATTGGTCAATTGTATTAACCATTGGTCAGCCGATTTTTCTGCGACACCTTCCAGATAAGGCATAGCCAT +AATAGCGGTCCAGTCATAGCTTTTTAGGAAATCAGCATAATTCTGTGCAAACCAGGCTTCACTTTCAGGT +TGTATTACCGGAAGTGCAAAAATATTTCGTGCAGTTTTAATATGTGGACCGCGAATGGCTTTTACGCGCG +CACTAAGTTCTAAAGTGAAGTCAGTTAACGCACGACTTTTAAAGCGGGCCCACTGTTTAAATTGCTCCGG +GTTTTGTCGAATTTCGCTCAGACTCCCGCTAAAGCCTGCTTGCTGATAAGCCGTGATAGCCGGTGCACTG +GCATCTTCATAATCTGAAAGCAAAGCATCATCGTGGAACAATATGCCATCAAAAGCAGCATGTCCGGCAA +GATCTTCATATAACATGCCAACTTGTGCTCTGACTCTGTCATCGAAAGGAGAGAGACGGTGATATTGTTC +AGGATGAATTTGTGCTTTTTTCTCCCCTGTTGGTAAGTATTTTACTCGCGTTAATGTGGGATCTAAATCC +CAGCTTAATACCGGCATCCACGCATAGATGTTTACACCTGAGCGGGTACGTAATTGCCAGGCAACCCGAC +TAAAAATATCTGCTTTCATTGGTAGCAAACGATTTGGAAACCAGACCTCTTTGACCAGCCCATCACCATC +GGGATCAGCAAATGCCTGCAAATACACGGTTGATATTTGCATATCTTTCACCCGCTGAATTAGCACATCA +ATATTGCGATCCATTTGCTGGAGGTTTTCGTCATAAACGTAATCAAGATCGATATGCATTATCCGTTGTG +GTGATTTTTCCTGTACGGTAATAATTTGCTGGGCAAACTCTTTTAATGAGGGATTATTGGCGATTAATAC +CCGCGGAATGGAATCCAATTGCGACGCATTTGCCAAACCTGATTCAAGGGTGAAGAACATGTCATAACCG +AGTTTTTTTAATTCCTCTATCGCTATGCCATTCGCTTCGCCATAAGGCCAAACAAAAACGTGTGGATTTA +CCTCAACCTTTGTACGCAGGTATTCCGTCATTTTTACAGCATCCAGACGAATTCTTTCCCGGTATTCTGC +TGCGGTTTCATACCGTGCGTGGTCAGTAAAATATGCACGATTTACATATACAGGCAATAAGCTGCCGGTG +GCATTAGCCTGAATACCGTAGTGAGAATTCCATGTATGAGAAGCGAGCTCAACGAGCCGGGAACGCGCAA +CTTCTCGCACTTGTTGCCACGTGGCAAAATATTCTCGATCGACCAACTCATCGCCAAATTTTACTTGTTT +ATCCGCTGGCGTATCGACCCAACTGCCGACGGGGGCCCATACAGCAGGCCACTGGAAGGCCTGAAGAATT +GGGAAGACGCGGGTATAAAAACTCTGGTAGCCGTCATCAAAAGTCAGCACTACAGCTTTTTCCGGTAGCG +GTTTTCCTCCTCGATGTGCTTCACGAATTTGAGCAATACTGACCGGTTGATAACCGTTCTCGCGCAGCCA +GGCAAATTGTTCACGCAGTGCTGATGTCCGCACTGACATAAAACGCTGGTCGGCAGCTTCGTCTTCAACG +TTATGCCATGAAATCGCTACAAAACCATTATGCGGCCACGGTTGCTCGGCGAGTAAAGATTCGCGATCCT +GTGGCGGTATAAATGATGTTCTTGACTGGCTAATGCACGCGGTGAGCATAATTATACTCACCAGCATCAG +GAGATATTTATTTCCATTACGTAACATATTTATCCTTAAAATCTGAATGTCATATCGAATTCAACGTATA +AGTTGTGTTCTCTGTCACCGTCATAAGGTCGTTTTTCCCAGCGTAGCGTTGCGCCAGCATCAATCACGTC +ATTCCAACTAATGCGTTGCCCGTAGCCGAGTTGGGTGACGACATCCGTGCCATAATGTTTTTGCCAGGAG +GCACCAACACCTGCGCTGAATATTTGCTCCCAGCTATTTTCATAGCTTCGCCATAACAAATGGCTTGCCT +CAAATGCCGGAACAATATCGAACGTTTTTATAGGGTTGTAGTATGGGGTATCGTGTTCTGTATTTTGTTC +GTAATACAGACTGGGTAGGAAATCGACAATCAAATATGGTGAAGACCAGATGCGTTCCTGACCCTCAAGT +GAGACTTCATGACGCTGGTTACTGTCGGAAAAATCAGTGAAAGCCCAGGAGACACCGTACTTACGCCGCT +CATTTTGATACCAGCGAACATAAGCCTGAGCACTGTTGCCTGTAACACCATTTTTCATTGCCCGTAATGG +AACGCGGTGAGAGAGGCGTTCCAGTTGCGAACCAATACGCCAGTTATCATTAAAATCATACCAGCCAGAC +AGGCGCGCGCCGGGTTTATGCTCATGATTGAAAACGCGTTCAGCGTACTCTGCCTCGAGCCAGATATTAC +GTGACCGCCACTCAACACCCGCAAGCCAGTCGCGAACAATCCCTTTTCCTTCGCTAAATTGTCCATCGGC +ATAACCGAATCCAGCAAAACCGCGCCAGTTATCCTTCAGCGGTGGTGAATAAACGATGGTGGTTAAGTCG +ACATCATGTTTACCACTATCCGGGCCTTCGGCATCAATTCCTGTTGAGCCAGCGATACGAAGCTCTGCAA +GATTATGTACATCAACCGCACGTTTTAATCGTACAACGCCGGGATCTTGCGGTTCACGTTCGACAACATC +GTGCGTTAAGACAGCTGCCTGCTGCCATTCTTGTAACGTTAATGCTGTCCAGGCTTGTTCAACCTCCAGA +TTAATATTACGTGGCTCGATCACTTCTGCTTTTTTTAATTCATTTTCTGCTGCACGAGGCCAACCGCGGG +CTTGTAACACACTCGCGTAATCAATGCGCAGTCCCTGATTTCCTGGTGCGTTATAAGCAAGCTCTCTGGC +TGTCATTTCAGCCTGAGGAAGATCATTACTATATTTTGCTACGGTTGAGAGAAACGAATGCCCCTGTAAC +CAGGTATCATTCGGGATGCTCGTAGGCGTGCCCATTAACCGAAGGAAAGGCGGCGAAGTATTAATGGTAT +GTTGGGTGACAGTTAGCGCGCCCGGATAATTTTCACTCTCCAGGTGGCTGTAAAAGAGATCCGCAAGTTC +TTCATCGGATAAATCCGGGGCAATGGTCTCCTTGTGATAAAAGAGCTCGGTCATTATTGACTGTGCTTTT +TTCGGCTGATGATCTTTGAGATAAGCCGATGCAACCCAATATTGCCCCCAGGGCGGAATAATTTGCCCCG +TCTTTTTTAATCGCTGATAGTGAGAAATAACGTCTTTATAACGATCGCGAGTTAATAACGCGCCAAGATG +ATCAACCTGAATACGCTGGTACTGGGCAGTGCGGTCTGGGTTATCGTGCCACAGAATTTCTAATGCAGCG +TATTGGGCGAGGGCGCGATCGGCAATGGCATAACGTTCACTTTCACTGCGCGTAGGCATAAACGACAGTC +TGACCAGTTCGGCATGAATATCAGCGCGAATATCTGGCGTTAAATTGGCATCGTCAATCGCGGCAGCAAG +TTGATTATTACGTAATGCCTGCACGTATTCTGTGGGATATTGTTGCGTAGATGCATTTTCAGGTAATGAC +TCTGTCATCGCCCGTAATTCATCCTGATGACGCCCCGCCAGTTTATAGATATAGGCTTCTGCGAGTAAAT +TGGCTTTGTCCGGTGCTCCAGAGTTAAGCTGCTTAAGTTTAACCAGCGCAGTATCATAGTGACCAGCATC +TGCCAGGGTTAAAATTTGTCCCCGTTGATAATCCTTATTTTGCGGCTCCAGAGAGAGCGCCTTTTGCCAC +AGTGTAAGCGAGTTTTGCCATTGTTGCAGGTTACGATAAGCGACGGCGACAGCTGCATAACCACGCGCTG +GTAATTGCTGATGACGGTAGCGGTTGTAAACGGTAATAACCTGTTTATCTTGCCCGGCCCATAAGGCAAT +CTGTAACCAGTCAGCAATTTGGTTATTGCTGAGTGCTGATTTTAGTGCAAACCATGACAAAGCTGGCTGA +GTATTACCCTTGCGAGCTTCAATAATCAATGCATCATAGGCGTTATTAACAGCACTCTTCGCCGCGGGAC +TCGCTGCTAAAAATGCGGCAGTAAGAAGTTTCAAAGCCCATTTGGTTTTCGGGCACCTTTTTCTGCTACT +TGAATACATCCTGTATTACTCCATGTATTGCCAAAATCTCTCTCTGTATCTAATTACAGGTAACTGAAAA +GAAAGATATTTTTGCACCTCATAATCCGTTATTAAACGCGGAAGAGAGACGTGAATTGTTGATGATGAGA +AGAAGAAATGATGAGCAGAGTGTCCATATAAAATCCTTTTCTCGCCCGAAAATCCATTCCAATGATGAGG +ATCTTCAGGAATACGGCATAAATCCCAATGCCTTTTTCAAAATAAATTAGGATTAAAATAATTAAATCAG +TAAATTCCGATGCATGATTTCGGATTTTTCGAAAGTCCTGATGAAAGGCTGCGCTACGGCACTCACGGAT +TTAATTGTTATTCCTAATGTATCTATGAATTAATGTTTTATAAGGATTTTCTATAACCATTTATAAGTAT +TTTCAAGCCTGGCTTGTTGCAAACAATGTATAAAGCACTTAGGCAATAATAATTACATTCAGCAACTATC +ATCATCGGTATTGTTTGTGGGCGGAATTTCATATTGACAACAGTACAGTTCTTATATCTATTAATAATAG +AAAGGGATCTACAACCTACAGATTGGTGTAGCTTTATGGAAAAAGACTATTTGAGAATTAGTAGTACTGT +ATTAGTGAGCTTATTGTTTGGGCTTGCTTTGGTTTTGGTGAATAGTTGGTTTAATCAGCCAGGCGTTGAG +GAAGTTGTTCCACGATCAACCTATCTGATGGTAATGATTGCTTTATTTTTTATCGATACTGTTGCATTTA +TTTTTATGCAGTTGTATTTCATTTATGACCGTAGGCAATTTTCAAACTGTGTACTTAGTTTGGCTTTTCT +GAGTTGTTTGATTTACTTTGTTATAACCGTCATTATCATTCAGCAAATTATTGAGGAGCGTTTGACAAGC +AGTGTTGTCCAAAATGACATTGCAATCTATTATTTGTTTCGTCAGATGAGTTTGTGCATATTAATATTTC +TGGCATTGGTGAATAAAGTTAGTGAAAACACAAAACAGCGCAATTTATTTTCCAAAAAAATGACTTTGTG +CATAAGTTTGTTTTTTGTTTTTGGGGGGCCGATAGTTGCTCACATACTTTCTAGTCATTATGAGAGCTAC +AATTTACACATTGCCGAGTTAACCAATGAAAATGGTCAGGTGGTTTGGAAAGCCTCATATGTTACCATAA +TGATTTTCATGTGGTTAACCTTGCTTTCGGTTAATCTATACTTTAATGGTTTACGCTATGATATCTGGAA +TGGAGTGACGGTGATTGCTTTTTGTGCCGTACTGTACAATATCTCTCTGTTATTTATGAGCAGGTATAGC +GTGTCCACTTGGTATATTAGTCGCACTATTGAAGTAGTCAGTAAGTTAACCGTTATGGTAATATTTATGT +GCCATATATTCAGTGCGCTACGAGTAACAAAGAACATTGCACATCGCGATCCCTTAACCAATATATTTAA +CAGAAATTATTTTTTTAATGAACTGACAGTTCAATCAGCATCAGCCCAAAAAACGCCTTATTGCGTCATG +ATTATGGATATCGACCACTTCAAAAAAGTCAACGACACCTGGGGGCATCCGGTTGGCGATCAGGTGATAA +AAACAGTGGTGAATATCATTGGGAAAAGCATACGACCAGATGACCTTTTAGCGCGCGTCGGCGGCGAAGA +GTTTGGCGTCTTGCTGACGGACATCGATACTGAACGTGCGAAAGCTTTAGCGGAAAGGATTCGGGAAAAT +GTTGAGCGTTTAACTGGCGATAATCCTGAATACGCTATACCACAAAAAGTGACGATTAGTATTGGCGCTG +TTGTGACTCAGGAAAATGCGTTAAACCCAAATGAGATCTATCGACTGGCTGATAACGCACTTTACGAGGC +GAAAGAGACCGGGCGTAATAAGGTGGTTGTGAGGGATGTGGTGAATTTTTGTGAGTCACCATAAAGCGGC +ATTTTGATCCTACCCACGTAATATGGACACAGGCCTAAGCGAGGTTCTTGTTTTCAAATTGTTCCGGACT +GAGGCCGCCACACCAACTGTGCCGCCGCCACCGATTGTAATCACATTCGATATAATTAAACACCGTTGCC +CGCATTATTTCCCGGCTGATAAAGTGTTCTCCATGGATACATTCCACTTTCAGCGAATGAAAGAAGCTTT +CCACGCAGGCATTATCGTAGCAGCAACCTTTTGCGCTCATACTTCCACGCAGATTATGCCGCTTCAGTTG +CGCCTGATAATCTGCTGAACAGTACTGGCCTCCACGGTCCGTGTGAACGATAACGTTCCGGGGCCTCTTA +CGCCGCCACAGCGCCATCTGCAGGGCATCGCAGGCCAGTTGCGCCGTCATGCGTGGCGACATTGACCAGC +CAATAACGGCACGTGACCACAGGTCAATGACCACTGCCAGATACAGCCAGCCTTCATCTGTACGTAAGTA +CGTGATGTCTCCTGCCCACTTCTGGTTCGGGCCACTGGCGTAAAAATCCTGCTCCAACAGATTTTCTGAC +ACAGGCAGGCCGTGTGCGCGGTAGCTGACCGGGCTGAACTTCCGGGAGGCCTTTGCCCTCAGTCCCTGAC +GGCGCAGGCTTGCCGCCACGGTTTTTACGTTAAAGGGGTAACCCTGAGCACGCAGTTCATCCGTCAGGCG +TGGGGCACCGTAACGCTGTTTTGACCGGGTAAAAGCCGCGAGGACAACGCTGTCGCAGTGTTGGCGGAAC +TGCTGACGCGTGCTTATCCTTGTCCGCCGCTGACACCACGTATACCAGCCGCTGCGGGCCACCCGGAGCA +CGCGGCACATTGCTTTGATGCTGAACTCAGCCTGATGTTTTTCAATAAAGACATACTTCATTTCAGGCGC +TTCGCGAAGTATGTCGCGGCCTTTTGGAGGATAGCCAGCTCTTCATCCCGTTCTGCCAGCTGGCGTTTGA +GACGTGCAATCTCGGTAGACATCTCCAGTTCACGTTCAGAAGACGTCTGCTGATTTTGCTGTTTACTGCG +CCAGTTGTAGAGTTGTGATTCATACAGGCTGAGTTCACGGGCTGCGGCAGTAACACCGATGCGTTCAGCA +AGCTTCAGGGCTTCACTGCGAAATTCAGGCGAATGCTGTTTACGGGGTTTTTTACTGGTTGATACTGTTT +TTGTCATGTGAGTCACCTCTGACTGAGAGTTTACTCACTTAGCCGCGTGTCCACTATTGCTGGGTAAGAT +CAGTGCCTGGCACACGCGTTTGATGGAAGACGGCGTTCAGGCAATGCGCGATTATCTTGCCGGACTGGAT +ATCGCTTCGCCAGAGCATCAGGTTCTGATGAACGTAACAGCAAAAAGCGAGGTCGCTCCGTCAATTATCA +AAGAAAATCTCTCATTACACTTAACTCATACGGTGAAATGGACTGAATCTCTCGATACATTTCTGAATAT +GCCAACCCCGGTAGCTTTCCTTGAAATAAGTAATAAGCCCTATTTGGGGAATATGTTAAATGATTTTGCT +GGCGTGGATCAGCAACGAGTTATGCATTGTCGTAAAGCATTTAGTGATGCAAAGGTATTCAAATGATTCC +TGATTATTTAACTTTTATTCGCTTTCAGGATAAACGAAATCTGATATACATTTATGCTATTGGACTTATT +CTGATAGGCTTTTATTGGAAGAATGCAGGGTTTACTTTTCCATCAGAGGATATTGGTGTAGTTAGTGGGA +TTCTGGCTCTGGTGCTGTATAATTTTATTTTTGATCTCAAGGCGTACTGGGCTTATAAATGCGTCACGAA +GAATATCGATTTTTCGTGGTTTAAGAAAAAGCAGAACCACAAAATAGAATTATTTCTTACACAACCTCTG +GTGGCAGGATTTCTGTCGTTAATCATGTTGAGTGCAATGAGTTGGGGGCTATACCAGCTTCTACCCTCGT +TATATGCGCTGTTCCTGATTTCGTTACTTGGGCCGTTGGTCATCTTTCTGCTGTTTCGGATGATCCGCAC +CAGTTATGTCAAGCAGGTCGCTATTTCAGTAGCGAAAAAAGTAAAATATAAAAGTCTGACTCGCTATGTG +CTGCTTTCGGTGTGCATCTCAACGGTTGTTAACCTGCTTACTATCAGCCCGTTGCGTAACAGTGATTCTT +TTGTGACAGAGGGGCAGTGGTTAACGTTTAAATCGATAATTGCATTGCTCATTCTTTGTGGCGTAGTGTT +GGCGATTAATCTGTTTTTTCTGCGCTTCTCCAAGCGGTACGCTTTTCTGGGCAGGCTTTTTTTGCAGGAA +ATCGATCTGTTTTTCTCCAGTGAAAATGCGTTGTCGACCTTTTTTGCCAAGCCGCTTTGGCTTCGGTTAT +TCATATTGCTGGTTATTGAAGTGATGTGGATTACGCTGGTGTCGGTATTGGCAACGCTTGTAGAATGGCG +GATTTGGTTTGAAGCCTATTTTTTACTCTGCTATGTACCGTGCTTAATTTACTATTTTTTCTATTGTCGA +TTCCTCTGGCATAACGATTTTATGATGGCATGTGACATGTATTTCCGTTGGGGGCATTTTAATAAGTGAG +GAAGTGATAGGAAGTGACCAGATAATACATATATGTTCTGTACTCTCTTGCGCATTTTGATTGTTGACTG +AGTAACCAGACAGTTGATGTGCACGATTTCCCCTCGCCCTAACAGACGTGGGCGGGGGCACCCGGTGTGT +GCAATATACGAAAAAAAAGCCCGTACTTTCGTACGAGCTCTTCTTTAAATATGGCGGTGAGGGGGGGATT +GACTCGCTTCGCTCGCCCTGCGGGCAGCCCGCTCACTGCGTTCACGGTCTGTCCAACTGGCTGTCGCCAG +TTGTCGACCCCCGGTCGGGGCTTCTCATCCCCCCGGTGTGTGCAATACACGAAAAAAAAGCCCGTACTTT +CGTACGAGCTCTTCTTTAAATATGGCGGTGAGGGGGGGATTGACTCGCTTCGCTCGCCCTGCGGGCAGCC +CGCTCACTGCGTTCACGGTCTGTCCAACTGGCTGTCGCCAGTTGTCGAACCCCGGTCGGGGCTTCTCATC +CCCCCGGTGTGTGCAATATACGAAAAAAAAGCCCGTACTTTCGTACGAGCTCTTCTTTAAATATGGCGGT +GAGGGGGGGATTGACTCGCTTCGCTCGCCCTGCGGGCAGCCCGCTCACTGCGTTCACGGTCTGTCCAACT +GGCTGTCGCCAGTTGTCGAACCCCGGTCGGGGCTTCTCATCCCCCCGGTGTGTGCAATATACGAAAAAAA +AGCCCGTACTTTCGTACGAGCTCTTCTTTAAATATGGCGGTGAGGGGGGGATTCGAACCCCCGATACGTT +GCCGTATACACACTTTCCAGGCGTGCTCCTTCAGCCACTCGGACACCTCACCAAATTGTCGTTCCTGTCT +TGCTGGAACGGGCGCTAATTTAGGGAAATCATGACCTGAGGTCAACAAACTTTTTGAAAAAATCGCGCGT +TTATTCAAACTTCAATCAATGTGTGGTTTTAATAAGCGAAATCTGCTTTTTTTGCCACCGACCACGGATT +TGTTATGCTGGTGGCCTTTGTAGATCATAACGATAAGTGCGAATAAATTTCGCACAACGCTTTTCGGGAG +TCAGTATGGATATCATCTTTTATCACCCAACGTTCGATACCCAATGGTGGATTGAGGCACTGCGCAAAGC +TATTCCTCAGGCAAGAGTCAGAGCATGGAAAAGCGGAGATAATGACTCTGCTGATTATGCTTTAGTCTGG +CATCCTCCTGTTGAAATGCTGGCAGGGCGCGATCTTAAAGCGGTGTTCGCACTCGGGGCCGGTGTTGATT +CTATTTTGAGCAAGCTACAGGCACACCCTGAAATGCTGAACCCTTCTGTTCCACTTTTTCGCCTGGAAGA +TACCGGTATGGGCGAGCAAATGCAGGAATATGCTGTCAGTCAGGTGCTGCATTGGTTTCGACGTTTTGAC +GATTATCGCATCCAGCAAAATAGTTCGCATTGGCAACCGCTGCCTGAATATCATCGGGAAGATTTTACCA +TCGGCATTTTGGGCGCAGGCGTACTGGGCAGTAAAGTTGCTCAGAGTCTGCAAACCTGGCGCTTTCCGCT +GCGTTGCTGGAGTCGAACCCGTAAATCGTGGCCTGGCGTGCAAAGCTTTGCCGGACGGGAAGAACTGTCT +GCATTTCTGAGCCAATGTCGGGTATTGATTAATTTGTTACCGAATACCCCTGAAACCGTCGGCATTATTA +ATCAACAATTACTCGAAAAATTACCGGATGGCGCGTATCTCCTCAACCTGGCGCGTGGTGTTCATGTTGT +GGAAGATGACCTGCTCGCGGCGCTGGATAGCGGCAAAGTTAAAGGCGCAATGTTGGATGTTTTTAATCGT +GAACCCTTACCGCCTGAAAGTCCGCTCTGGCAACATCCACGCGTGACGATAACACCACATGTCGCCGCGA +TTACCCGTCCCGCTGAAGCTGTGGAGTACATTTCTCGCACCATTGCCCAGCTCGAAAAAGGGGAGAGGGT +CTGCGGGCAAGTCGACCGCGCACGCGGCTACTAATAAAGCATCAGGATTCCTGCTATCCTTGGCGGGAAT +TGAATACAGGAGAGAGTTATGTATCCCGTCGACCTTCATATGCATACCGTTGCCAGCACACATGCATATA +GCACATTAAGTGATTACATTGCCCAGGCCAAACAAAAGGGCATTAAACTTTTTGCGATCACCGATCATGG +CCCGGATATGGAAGATGCGCCGCATCACTGGCACTTCATTAACATGCGTATCTGGCCGCGAGTGGTTGAT +GGGGTAGGGATCCTGCGCGGCATCGAAGCTAACATTAAAAATGTTGATGGTGAAATTGACTGCAGCGGTA +AAATGTTTGACTCGCTGGATCTAATTATTGCCGGTTTTCATGAGCCGGTTTTTGCGCCACATGACAAAGC +GACCAATACACAAGCGATGATCGCCACTATCGCCAGCGGCAATGTGCATATAATAAGCCATCCCGGAAAT +CCCAAATATGAAATAGATGTGAAAGCCGTTGCTGAAGCAGCCGCGAAACATCAGGTGGCGCTGGAAATCA +ATAATTCCTCATTTTTACACTCACGTAAGGGCAGTGAAGACAACTGTCGTGAGGTAGCCGCAGCGGTACG +TGATGCTGGAGGTTGGGTGGCATTAGGCTCGGATTCTCACACCGCGTTTACCATGGGGGAATTTGAAGAG +TGTCTTAAAATCCTCGACGCGGTAGATTTTCCGCCAGAGCGCATTTTGAATGTTTCTCCGCGCCGCTTAC +TGAACTTCCTTGAATCTCGCGGTATGGCACCGATTGCGGAATTTGCAGACCTTTAATTACTAGTAATGGA +AATATATTAATGAACGAGTTTTCTATCCTCTGTCGTGTGCTGGGTTCGCTCTATTACCGCCAACCACAAG +ATCCTTTACTGGTGCCGCTGTTTACCCTGATTCGTGAGGGGAAACTGGCTGCGAACTGGCCACTGGAGCA +GGATGAGTTGCTGACACGTTTGCAGAAAAGCTGTGATATGACGCAAGTCTCTGCCGATTACAATGCGTTG +TTTATCGGCGATGAATGTGCTGTGCCGCCATATCGTAGCGCATGGGTTGAGGGCGCGACGGAAGCGGAAG +TGCGCGCTTTTCTTTCTGAGCGAGGGATGCCATTAGCGGATACGCCAGCCGATCACATCGGCACATTGCT +GCTCGCAGCTTCCTGGCTGGAAGATCAGTCAACGGAAGATGAGAGCGAAGCACTGGAAACACTGTTCAGT +GAGTATCTGTTACCCTGGTGTGGTGCGTTCCTTGGCAAAGTGGAGGCCCATGCAACCACGCCTTTCTGGC +GCACCATGGCACCGCTAACCCGCGATGCCATTAGTGCAATGTGGGACGAGCTGGAAGAAGATTCTGAAGA +ATAAGTGTGATCTACGTCACTCATAACTGCAACGGATAATTTGTTGTTGCATAAAATGTGTGCTCGATCT +CATTCATGGCCGCGTTTTCTGCTATCATGCGCGGCATGAACATACTTCTCTCTATTGCAATCACAACAGG +CATTCTCTCCGGTATCTGGGGATGGGTGGCTGTTTCCCTGGGCTTACTAAGCTGGGCGGGCTTCCTGGGC +TGTACGGCCTACTTTGCCTGCCCGCAAGGTGGGCTGAAAGGGCTGGCGATCTCCGCTGCAACCCTGCTTA +GTGGCGTGGTGTGGGCGATGGTCATTATTTACGGTAGTGCACTGGCACCACATCTGGAAATTCTCGGTTA +TGTCATAACCGGTATTGTCGCGTTTCTGATGTGTATTCAGGCCAAACAGCTGCTGCTTTCATTTGTTCCG +GGGACGTTTATAGGCGCATGCGCGACGTTTGCCGGGCAGGGTGACTGGAAACTGGTGTTACCTTCGCTGG +CGCTTGGGCTGATATTTGGTTACGCAATGAAAAACAGTGGCCTGTGGCTGGCGGCGCGTAGTGCAAAGAC +GGCGCACCGTGAGCAGGAAATCAAAAATAAAGCGTGAGGGGCACTCACGCTTTCGCTTAAACAGTAAAAT +GCCGGATGATAATTCCGGCTTTTTTATCTGTCAGGATTCCGGTGGAACCGACATATGGCGGTATTTCACC +AGAATGTCATTCTGCCGTTCTGCTTTATTTTGCAAATCCCACAGACCACGGTCGATACCATCATTAATCA +GGAAAATGACCCCTGTTTCGATAGCCGACATCAGGCACAGCATAACAGGTTCGTTCGAGGTGTAACCCAC +TTCCCCTTCAAGCAAGCGCTGGTAGTCAATAAAGCGGAAAACCCCGGCCTGAACTTCATAGGAAAGTATC +GTCTTACTGGTGTTCACCGAAGAAAGGATCTCGCCGGTACTCACATTGACGACGCGCAGGTTCACGGCAA +TCTGATCGAGCTGGTATTGCGTGTCGGCACCGATGCCAAAATATCTTGCCCCAACCCCGCCAGATTTGAC +GTTGCTTTCATAACCGATAATCGAACCTTCAACCATGATATTTGCCGCCGTTAAAGATTGCAGCGGGATT +CGGTTATTAATGGCAACCGTGCCGTTTTCTTGTGCCGCACGAATAATCTTGCGCTCGTTAAGCAGGTTTT +GTAAGCCCTGGCGCTCCAGCGGTATAAACCAGCGAGAATCTTTCAGTGCCGTGACCAGCATTGCCGTGGC +GCTTTGCGGAACAGCAGTGGAGAAGTTACTTGCCGGGTAGGGTTTAAATTGCCCGGTTTCGTCCTGAATG +TTGTATACCGAAACAAAGATTTTACCCGTCGGCGCTGGCAGATGGGTCAAATCTTTGTAGCTCTGAGCAC +GAGGCATTAATGTCGGTCTGGCGGCTTCTTTAGGCGGGGCGGTTAAGCATCCGCTCAGTAACATGACGGC +AACCAAAAGAAATAAGCGCTGCATGATTATTTTCCTTATGAAGCTGGGGCTTAAAAATCGGTTGAGTTAT +TTTGTAAACCCGAAACCTGGATGGTCGAGGTTTGTCCGGTTTTACGATCTGTCACGTTCAACTGCAATTG +ACCATCGCGGTTGGCAATATCGACAATATAATCGTTGGTCACCATGCGGCCCGGTTTACCGGTATTAATA +TTCGACAGTAGCCCACCTAAAATTTGTGACTGGATGGCCTGAGTAAAGTTATCTAACGCTGAGGGTGTTT +CAATACCAAAGTCATCGTTATAGCTCGGATCTTTATAAGAGTTTTGGGCCTGAGCGCTATTTAATAAAAA +AGCGCCATTATTTGGGTTACCACCAAAGTTTGGATTACGGAACTGGAAAGTCATGGTTCCAGCCCAACTT +AATGGCGAAATAAGCATGAGTAGAACTACTGCATGTTTGACACGCATTGCAGCCTCCGAACAATTTTTTA +TTTAGAATTCATCATGCGCCAAATCGCCCGTACTTAATAACGCCTGATTTATCTGGCGACGATTTAGTGC +TTCTTCAGTTTGAATCAGTGCAAAGACGACAGTTTTCTCGAAGTCTCTTTTCAACGGAAATAAAAAAGTC +TGGAAAATAACGTCCTGATTGACCGTTATAGTGATCCAGCTTCCCCATCGTGCACTGGGCCTTTCATTAA +TCGTTAAGTTACCCGTATAGTCACTTTCCCATTTATCACTAAAGGCTCGGTAAAAATCATGGCCAATAGA +TGAAACAGTATGGTCAGTTAGCAATCCCGGGACTTCTACCTCAACGGCGTGAAGATTCCCTGCGGCGAAC +AGAAATTCTGCCGCCACAATCCAGCGTAAATAACGTTTCATGGCTTTATCGCCTGAGGTTATCGTTTGCC +CAGGAAACCGCTTGTGTCCGGTTTTTTACGGCTATCTTCTTGAAAAGATTATAAAGATGCGTTTTAACCG +TATTTTCGCTGATGAACAACGAACGAGCGATCTCGTTATTAGACGCGCCGATACGCAGCTTATTCAGGAT +CTCTTTTTCCCGATGAGTAAGGAGGGCTGATTCCGTGCTGTTATAACGATAGTTACCTGAATGCGTAATC +AGGTAGCTGGCAAGCTTTTGCGTAAAGTAGCATTCGCCGCGCAGGACGCCTTGCAACCCATTGACAACAC +GTTCTTGATCCTCCATGGAATAAAAAACGCCGTTGATATGAGGCCAGTTTTCAATGTCGCGGTACGGGTA +ATCTTCAGGCGTATTTAGCAACAATATTTTGATATTGTTGTTTTTCCTGCTCAAAGTATCCTGCCAATAA +TGGATAAGCTTTTTATCCGCTTCCATCATATCCAGAAGAATAATAGAGCCTGAAGAGATATCGTCCAGAG +AACGTTGAATATTATGTAATTTTCCTGTAATTGCCAGCGATTGTTTAAGGTGCTGCAAGAGAGCTGTCGC +CTGCAAAGAAGATTTAGTGATCAACAATAATGTATGACCATGAATACTATGGACTTCATTAAACATGATG +AAACCCCGCTTTTTTTATTGATCGCACACCTGACAGCTGCCTCTAAAATAGAAGCACCAGAAGTACTGAC +AGATGTTGCACTGCTGTGTGTAGTAATAAATCAGCCCTAAATGGGTAAAATATAAAACTAATGGATTACA +TCTGATTTCAATCTAGCCATTACAAATCTTAAATCAAGTGTTAAACATGTAACTAAATGTAACTCGTTAT +ATTAAAATGTTAACCTTAAGGTTTTATTAAGTTTAGAAATGATAGAAAAGTTGTACATTTGGTTTTTATT +GCACAATTTTAAAAAATCATACAAATGGTGATAACTTACTAATAATGCATATAAAAAATATTTCGGTGTA +GTCCTTTCGTCATGTAAAACGTTCTTGTTTTTTCTCCACACCTCCGTGGACAATTTTTTACTGCAAAAAG +ACGAGGTTTGTCACGGCTTGTGCGCAAGACATATCGCAGCAATCAGCGACGGGCAAGAAGAATGACTGTC +TGGTGCTTTTTGATAGCGGAAAACGGAGATTTAAAAGAAAACAAAATATTTTTTTGCGTAGATAACAGCG +TATTTACGTGGGTTTTAATACTTTGGTATGAACTAAAAAAGAAAAATACAACGCGCGGGTGAGTTATTAA +AAATATTTCCGCAGACATACTTTCCATCGTAACGCAGCGTTAACAAAATACAGGTTGCGTTAACAACCAA +GTTGAAATGATTTAATTTCTTAAATGTACGACCAGGTCCAGGGTGACAACATGAAAAACAAATTGTTATT +TATGATGTTAACAATACTGGGTGCGCCTGGGATTGCAGCCGCAGCAGGTTATGATTTAGCTAATTCAGAA +TATAACTTCGCGGTAAATGAATTGAGTAAGTCTTCATTTAATCAGGCAGCCATAATTGGTCAAGCTGGGA +CTAATAATAGTGCTCAGTTACGGCAGGGAGGCTCAAAACTTTTGGCGGTTGTTGCGCAAGAAGGTAGTAG +CAACCGGGCAAAGATTGACCAGACAGGAGATTATAACCTTGCATATATTGATCAGGCGGGCAGTGCCAAC +GATGCCAGTATTTCGCAAGGTGCTTATGGTAATACTGCGATGATTATCCAGAAAGGTTCTGGTAATAAAG +CAAATATTACACAGTATGGTACTCAAAAAACGGCAATTGTAGTGCAGAGACAGTCGCAAATGGCTATTCG +CGTGACACAACGTTAATTTCCATTCGACTTTTAAATCAATCCGATGGGGGTTTTACATGAAACTTTTAAA +AGTAGCAGCAATTGCAGCAATCGTATTCTCCGGTAGCGCTCTGGCAGGTGTTGTTCCTCAGTACGGCGGC +GGCGGTAACCACGGTGGTGGCGGTAATAATAGCGGCCCAAATTCTGAGCTGAACATTTACCAGTACGGTG +GCGGTAACTCTGCACTTGCTCTGCAAACTGATGCCCGTAACTCTGACTTGACTATTACCCAGCATGGCGG +CGGTAATGGTGCAGATGTTGGTCAGGGCTCAGATGACAGCTCAATCGATCTGACCCAACGTGGCTTCGGT +AACAGCGCTACTCTTGATCAGTGGAACGGCAAAAATTCTGAAATGACGGTTAAACAGTTCGGTGGTGGCA +ACGGTGCTGCAGTTGACCAGACTGCATCTAACTCCTCCGTCAACGTGACTCAGGTTGGCTTTGGTAACAA +CGCGACCGCTCATCAGTACTAATACATCATTTGTATTACAGAAACAGGGCGCAAGCCCTGTTTTTTTTCG +GGAGAAGAATATGAATACGTTATTACTCCTTGCGGCACTTTCCAGTCAGATAACCTTTAATACGACCCAG +CAAGGGGATGTGTATACCATTATTCCTGAAGTCACTCTTACTCAATCTTGTCTGTGCAGAGTACAAATAT +TGTCCCTGCGCGAAGGCAGTTCAGGGCAAAGTCAGACGAAGCAAGAAAAGACCCTTTCATTGCCTGCTAA +TCAACCCATTGCTTTGACGAAGTTGAGTTTAAATATTTCCCCGGACGATCGGGTGAAAATAGTTGTTACT +GTTTCTGATGGACAGTCACTTCATTTATCACAACAATGGCCGCCCTCTTCAGAAAAGTCTTAATTTGTTG +AAATATCGAGCATAAGATGAATCTGGAGAGAATGGTCTGCTGCGAATCAGCCAACCTGAAAGTATGGATA +ACACAACCCTCAAGGATGACTAATCATTGAGGAAATAGAATAAATGTTCAGACCTTTTTTAAACTCTCTT +ATGCTCGGCAGTTTGTTTTTTCCTTTTATTGCCATTGCTGGAAGCACCGTGCAAGGGGGCGTGATCCATT +TTTATGGCCAAATTGTGGAACCGGCATGTGACGTCAGCACCCAGTCATCACCCGTAGAAATGAACTGCCC +ACAGAATGGTTCTATTCCGGGCAAAACCTACTCCAGCAAAGCGTTAATGAGCGGCAATGTCAAAAACGCG +CAAATAGCCTCAGTAAAAGTGCAGTATCTTGATAAACAGAAAAAGCTGGCTGTAATGAACATCGAATATA +ACTAAGTTTCTGAACAACTCACGTTGCTGAGCAGAAAAATGCGATTTAACCAAAAAGCCTGCTGTACACT +TAAGAAACAAGAAGGTGTAAGGAGGCGTTATGAAAACGCGTATTCATGTTGTGCAGGGTGATATTACCAA +ACTGGCCGTTGATGTGATTGTGAATGCGGCTAATCCGTCATTAATGGGAGGCGGCGGCGTCGATGGGGCC +ATTCATCGCGCAGCGGGTCCGGCCCTGCTGGATGCTTGTTTAAAAGTCAGGCAACAGCAGGGCGATTGCC +CTACGGGGCATGCCGTTATTACGCTTGCAGGCGATCTTCCCGCTAAAGCCGTAGTGCACACCGTCGGGCC +AGTCTGGCGTGGTGGTGAACAAAACGAAGACCAGCTTTTGCAGGATGCCTATCTCAATAGCCTACGACTG +GTGGCGGCAAACAGCTATACGTCAGTGGCTTTTCCTGCAATCAGTACTGGGGTTTATGGTTACCCTCGTG +CGGCAGCGGCTGAAATCGCAGTAAAAACCGTTTCAGAATTTATTACCCGTCACGCTTTACCCGAACAGGT +ATACTTTGTCTGTTATGATGAAGAAAACGCCCACCTCTACGAAAGACTCCTTACCCAACAAGGAGATGAA +TGATTTGCCCCGGCTGGCGAGCGCGGTGCTGCCACTGTGTTCGCAACATCCCGGTCAGTGTGGCCTTTTT +CCTCTGGAGAAAAGTCTGGATGCGTTTGCCGCCCGGTATCGTCTGGCCGAAATGGCAGAGCATACGCTCG +ATGTTCAGTATTACATCTGGCAGGACGATATGTCGGGTCGGTTACTGTTTTCCGCCCTGTTAGCCGCAGC +AAAGCGTGGCGTTCGCGTCCGTTTGTTGCTGGACGACAACAATACGCCCGGACTTGACGACATTTTACGC +TTGCTTGACAGTCATCCACGCATTGAAGTCCGGCTTTTTAATCCTTTCTCGTTTCGCTTGCTGCGTCCGC +TTGGTTATATCACCGACTTTTCCCGTCTTAATCGCCGTATGCACAATAAAAGTTTCACTGTCGATGGCGT +GGTGACCCTGGTGGGAGGACGAAATATTGGTGATGCCTATTTTGGAGCAGGGGAGGAGCCACTTTTTTCG +GATTTAGATGTCATGGCAATAGGACCCGTGGTAGAGGACGTTGCCGATGATTTCGCCCGCTACTGGTATT +GCAAATCGGTTTCACCCTTACAGCAGGTGCTGGATGTCCCGGAGGGTGAAATGGCGGATCGCATCGAGTT +ACCCGCCTCCTGGCATAACGATGCCATGACGCATCGTTATTTACGCAAAATGGAATCCAGTCCATTTATA +AATCATCTGGTTGATGGAACATTGCCGCTTATCTGGGCGAAGACACGTTTATTAAGTGATGATCCGGCGA +AAGGGGAGGGCAAGGCAAAACGGCATTCACTGTTACCGCAGCGCCTGTTCGATATCATGGGCTCACCCAG +TGAACGCATCGATATTATCTCTTCCTATTTTGTACCGACACGCGCAGGTGTGGCGCAACTCTTACGGATG +GTGAGAAAAGGGGTAAAGATTGCGATCCTAACCAATTCTCTTGCCGCTAACGATGTTGCTGTCGTCCATG +CCGGATACGCGCGCTGGCGCAAAAAATTGCTCCGCTATGGCGTGGAATTATATGAACTCAAGCCGACGCG +TGAACAAAGTAGTACGTTACACGATCGCGGCATAACCGGTAATTCCGGAGCCAGCCTGCATGCTAAAACC +TTTAGCATCGATGGTAAAACGGTGTTTATCGGCTCTTTCAATTTCGATCCGCGTTCAACATTGCTCAATA +CTGAAATGGGCTTCGTGATAGAGAGCGAAACGCTGGCACAGTTAATTGATAAACGCTTTATTCAGAGCCA +GTATGATGCGGCCTGGCAGCTCCGTCTGGACAGGTGGGGACGGATCAACTGGGTTGATCGTCATGCAAAG +AAAGAGATTATTCTCAAAAAAGAACCCGCCACCAGTTTCTGGAAGCGGGTTATGGTCAGACTGGCGTCGA +TATTGCCCGTGGAATGGTTATTGTAAATGTGGCTTAACGGGCTGGTGCTTTATCGTTCTCACGCTTAACA +ACCGGTTTACCAGAGAACAAAAACTTCAGTAACGGGATGCGCAAATGAATTTCATACAGAATTATCGCAA +TCCCTACTACAAATATCAGGCCACAGAGAAAACCAAGCCAGTTGGAGGTGATGTGCGGTGTAATGTATGC +GCCGAAAAACAGCGTTAACGGGTGGTGAACCAGATAGATAAACAGCGATGCGTTAACAAAATAAGTCACC +CGCGCTGACTGGAAGTTAAGCAAACGGTGGCCAAAGGAGAAGACCACATTCACCATCCACAGACCGAGGA +CCATGGTGATCACCGACTCGGTTTCGTACATCCAGGCATCGCCACTGCCATAGCGCTGGTTGAGTAAATA +AGCGACAAACGCCAATGCTGCTGCAAGGGTACAGCCACGAGACGGCGTGGTAAACAAGGCTTTAAGATGA +GGGAAAATGAAAGCCAGTGCGCCGAGGATAAAGAACGGCAAATAAAACAGCGTTTGCATGACAATAAAAT +TGAACATGCCATTACTCAGAATGGGCGGATACACAATAAAAATCGTTCTTCTTATTACCGCATAACCGAT +GCCGAGGCATAAAAAAATCACCGATAGTTTTACCATCGAGAATTTTTTATTCGTTTTATCAGAATTTTCT +AAATTATTTCTGATGCGCTTAAATATCCATACGCACAGCGTCGTCATGACCACTAACACCAGTAAAAACC +ACAGGTGTGATATTAATTCCCAGGCCAACGTATTATATTTGTCATACAATGACAGCCCAGGCCAACTTTC +CGCTTTTCCTTTGACATATTGCAGCATAATAAATTGCGGTAATGTCAGTAGGGGGATGGCTGTTAACATC +GGGATACCTACACGTTCGACACGTACTTTCCACCATTTTTTCAAGGGATAGCGTAAAAAAAGCATGTAGG +AAAAGTAGCCGGATATAACGAAAAATACCTGCATGCGGAACGAGTGGATGAAGTCATTAAAAAGGGTCAG +CCACAATGATGATTCGGCGCTATTCACATGCCATGTATGGCTCGAATAGATTAAAGAAATATGAAAAGGT +ATCCCTAACAACATCAGCCAGGCGCGGATGGAGTCGAGGAAATATTCACGTTGCGCGGGTACTGGGTTCA +TATATGGTTAACTAATCTCGGATTTTTCGTCTTATCCCTGTCGGGTTATGCCTTTAGGCTTGTTGCCATA +GTGACACCGACCTGACCGCGCCAGGCGCAGGCTTCAAGGTTTTTATGCATAGCATCATCGCTACCACTAA +CCAGAATGGAAGCGTCTGTAAGACGGTTGATAAATAAATTTGCTGGCAAACCCTACACGAAGTCGATGCT +TCTGTCTTTAGGAGAAGCACGGAAAGTGAAAACGGTTGCAATCAGGTGCTTAATCCATGAGCCAGCGTGC +TGAACGATACCGGGATTCTGTTGTCGGAATGGCTGGTTATCCATTAAAATAGATCGGATCGATATAAGCA +CACAAAGGGGGAAGTGCTTACTAATTATGAAACATAAACTACAAATGATGAAAATGCGTTGGTTGAGTGC +TGCAGTAATGTTAACCCTGTATACATCTTCAAGCTGGGCTTTCAGTATTGATGATGTCGCAAAGCAAGCT +CAATCTTTAGCCGGGAAAGGCTACGAGACGCCCAAAAGCAACTTGCCCTCCGTTTTCCGCGATATGAAAT +ACGCGGACTATCAGCAGATCCAGTTTAATCATGACAAAGCGTACTGGAACAATCTGAAGACCCCATTCAA +ACTCGAGTTCTACCATCAGGGTATGTACTTCGATACCCCGGTCAAAATAAATGAAGTGACTGCCACCGCA +GTCAAACGAATCAAATACAGCCCGGATTATTTCACTTTCGGCGATGTTCAGCATGACAAAGATACGGTAA +AAGACCTTGGCTTTGCCGGTTTTAAAGTGCTTTACCCGATCAACAGCAAAGATAAAAACGATGAAATCGT +CAGCATGCTCGGGGCCAGCTATTTCCGCGTGATTGGTGCAGGTCAGGTTTATGGCCTTTCTGCCCGCGGC +CTGGCAATTGATACCGCCTTGCCATCGGGTGAAGAATTTCCGCGCTTCAAAGAGTTCTGGATCGAGCGTC +CAAAACCGACTGATAAACGTTTAACCATCTATGCATTGCTTGACTCGCCGCGTGCGACAGGTGCTTACAA +ATTCGTGGTTATGCCAGGGCGTGACACGGTTGTGGATGTGCAGTCGAAAATCTATCTGCGCGATAAAGTC +GGCAAACTGGGGGTTGCACCGTTAACCAGTATGTTCCTGTTTGGGCCGAACCAACCGTCGCCTGCAAATA +ACTATCGTCCGGAGTTGCACGACTCTAACGGTCTCTCTATCCATGCCGGTAATGGCGAATGGATCTGGCG +TCCGTTGAATAACCCGAAACATTTAGCGGTCAGCAGCTTCTCCATGGAAAACCCGCAAGGCTTTGGTCTG +TTGCAGCGCGGTCGTGATTTCTCCCGCTTTGAAGATCTCGATGATCGTTACGATCTCCGTCCAAGCGCAT +GGGTGACTCCGAAAGGGGAGTGGGGTAAAGGCAGCGTTGAGCTGGTGGAAATTCCAACCAACGATGAAAC +CAACGATAACATCGTCGCTTACTGGACGCCGGATCAGCTGCCGGAGCCGGGTAAAGAGATGAACTTTAAA +TACACCATCACCTTCAGCCGTGATGAAGACAAACTGCATGCGCCAGATAACGCATGGGTGCAACAAACGC +GTCGTTCAACGGGGGATGTGAAGCAGTCGAACCTGATTCGCCAGCCTGACGGTACTATCGCCTTTGTGGT +CGATTTTACCGGCGCAGAGATGAAAAAACTGCCAGAGGATACCCCGGTCACAGCGCAAACCAGCATTGGT +GATAATGGTGAGATAGTTGAAAGCACGGTGCGCTATAACCCGGTTACCAAAGGCTGGCGTCTGGTGATGC +GTGTGAAAGTGAAAGATGCCAAGAAAACCACTGAAATGCGTGCTGCGCTGGTGAATGCCGATCAGACGTT +GAGTGAAACCTGGAGCTACCAGTTACCTGCCAATGAATAAGACAACTGAGTACATTGACGCAATGCCCAT +CGCCGCAAGCGAGAAAGCGGCATTGCCGAAGACTGATATCCGCGCCGTTCATCAGGCGCTGGATGCCGAA +CACCGCACCTGGGCGCGGGAGGATGATTCCCCGCAAGGCTCGGTAAAGGCGCGTCTGGAACAAGCCTGGC +CAGATTCACTTGCTGATGGACAGTTAATTAAAGACGACGAAGGGCGCGATCAGCTGAAGGCGATGCCAGA +AGCAAAACGCTCCTCGATGTTTCCCGACCCGTGGCGTACCAACCCGGTAGGCCGTTTCTGGGATCGCCTG +CGTGGACGCGATGTCACGCCGCGCTATCTGGCTCGTTTGACCAAAGAAGAGCAGGAGAGCGAGCAAAAGT +GGCGTACCGTCGGTACCATCCGCCGTTACATTCTGTTGATCCTGACGCTCGCGCAAACTGTCGTCGCGAC +CTGGTATATGAAGACCATTCTTCCTTATCAGGGTTGGGCGCTGATTAATCCTATGGATATGGTTGGTCAG +GATTTGTGGGTTTCCTTTATGCAGCTTCTGCCTTATATGCTGCAAACCGGTATCCTGATCCTCTTTGCGG +TACTGTTCTGTTGGGTGTCCGCCGGATTCTGGACGGCGTTAATGGGCTTCCTGCAACTGCTTATTGGTCG +CGATAAATACAGTATATCTGCGTCAACAGTTGGCGATGAACCATTAAACCCGGAGCATCGCACGGCGTTG +ATCATGCCTATCTGTAACGAAGACGTGAACCGTGTTTTTGCTGGCCTGCGTGCAACGTGGGAATCAGTAA +AAGCCACCGGGAATGCCAAACACTTTGATGTCTACATTCTTAGTGACAGTTATAACCCGGATATCTGCGT +CGCAGAGCAAAAAGCCTGGATGGAGCTTATCGCTGAAGTCGGTGGCGAAGGTCAGATTTTCTATCGCCGC +CGCCGTCGCCGCGTGAAGCGTAAAAGCGGTAATATCGATGACTTCTGCCGTCGCTGGGGCAGCCAGTACA +GCTACATGGTGGTGCTGGATGCTGACTCGGTAATGACCGGTGATTGTTTGTGCGGGCTGGTGCGCCTGAT +GGAAGCCAACCCGAACGCCGGGATCATTCAGTCGTCGCCGAAAGCGTCCGGTATGGATACGCTGTATGCG +CGCTGTCAGCAGTTCGCGACCCGCGTGTATGGGCCACTGTTTACAGCCGGTTTGCACTTCTGGCAACTTG +GCGAGTCGCACTACTGGGGACATAACGCGATTATCCGCGTGAAACCGTTTATCGAGCACTGCGCACTGGC +TCCGCTGCCGGGCGAAGGTTCCTTTGCCGGTTCAATCCTGTCACATGACTTCGTGGAAGCGGCGTTGATG +CGCCGTGCAGGTTGGGGGGTCTGGATTGCTTACGATCTCCCGGGTTCTTATGAAGAATTGCCGCCTAACT +TGCTTGATGAGCTAAAACGTGACCGCCGATGGTGCCACGGTAACCTGATGAACTTCCGTCTGTTCCTGGT +GAAGGGTATGCACCCGGTTCACCGTGCGGTGTTCCTGACGGGCGTGATGTCTTATCTCTCCGCTCCGCTG +TGGTTTATGTTCCTCGCGCTCTCTACTGCATTGCAGGTAGTGCATGCGTTGACCGAACCGCAATACTTCC +TGCAACCACGGCAGTTGTTCCCAGTGTGGCCGCAGTGGCGTCCTGAGCTGGCGATTGCACTTTTTGCTTC +GACCATGGTGCTGTTGTTCCTGCCGAAGTTATTGAGCATTTTGCTTATCTGGTGCAAAGGAACGAAAGAA +TACGGCGGCTTCTGGCGCGTTACATTATCGTTGCTGCTGGAAGTGCTTTTTTCCGTGCTGCTGGCTCCGG +TACGCATGCTGTTCCATACGGTCTTCGTTGTCAGCGCGTTCCTTGGCTGGGAAGTGGTGTGGAATTCACC +GCAGCGTGATGATGACTCCACTTCCTGGGGTGAAGCGTTCAAACGCCACGGCTCACAGCTGCTGTTAGGG +TTAGTGTGGGCTGTTGGGATGGCGTGGCTGGATCTGCGTTTCCTGTTCTGGCTGGCACCGATTGTCTTCT +CGTTGATCCTGTCACCGTTTGTTTCGGTGATTTCCAGCCGTGCCACCGTTGGTCTGCGCACCAAACGCTG +GAAACTGTTCCTGATCCCGGAAGAGTATTCGCCGCCGCAGGTGCTGGTTGATACCGATCGGTTCCTTGAG +ATGAATCGTCAACGCTCCCTTGATGATGGCTTTATGCACGCAGTGTTTAACCCGTCATTTAACGCTCTGG +CAACCGCAATGGCGACCGCGCGTCACCGCGCCAGTAAGGTGCTGGAAATCGCCCGTGACCGCCACGTTGA +ACAGGCGCTGAACGAGACGCCAGAGAAGCTGAATCGCGATCGTCGCCTGGTGCTGCTAAGCGATCCGGTG +ACGATGGCCCGTCTGCATTTCCGTGTCTGGAATTCCCCGGAGAGATATTCTTCATGGGTGAGTTATTACG +AAGGGATAAAGCTCAATCCACTGGCATTGCGTAAACCGGATGCGGCTTCGCAATAAAAACGTAGTTGCCT +GATGCGCTACGCTTATCAGGCCTACATCGTTCCTGCAATTTATTGATTTTGCAAGACTTTGTGGGTCGGA +TAAGGCGTTCACGCCGCATCCGGCAAAAACAACGAGCCAATAAAAATACCGGCGTTATGCCGGTATTTTT +TTACGAAAGAGGTATCAAATGCGTTTAATTGTGGTGAGCATCATGGTGACCTTGCTGAGTGGCTGTGGCA +GCATTATTAGTCGCACTATACCGGGGCAGGGGCATGGCAACCAATATTATCCCGGTGTGCAATGGGATGT +GCGTGACTCCGCCTGGCGTTATGTCACGATCCTTGATCTGCCATTCTCTCTGGTTTTTGATACTTTACTG +CTGCCGATCGACATTCATCATGGCCCGTATGAGTGATTAACGTTCATCCCACTCATCAGCTGCTGCGCGT +CCTTCCTCGGTATCCAGCGGTGGCTCAAGCTGAAATTCCCCCTCGTCCCATTCATGTAATGTATTCTCTT +CCTGCCACTCCTGGCGTATCTCTATCTCATCATAGTCGCCATCAAAAACACTTTGCGCGGCTTCACCGCT +AAGCATAGGTAAACATTCACCTTCTTCCCCTTCGTCGGCAAAAAACTCAACTTGCCACATGATGTCGCCG +TCCTGCAAAACGTATTTTTGGGCATTGAACTGTTGCACATTCGCATCTTCGGCGTCGATGCCGGGGTTGT +CTGCAAGAAATTCTTCGCGTGCAGCGTCAATGGCTTCTTCAAGCGTTGCGTACATGGTCATCACGATTCT +CCCTTTGAGTTGATGAGGTTTCAGGGAAAAGGATAGCTGATTCTCCGCTTTTGCAAGTATGAAAGGCGAA +AAATCAGTTCGATACCTGGGGTATTCGACGACGACGTAGACTGTTCCATGAATAGACTGCGTTGAATAAC +ACTACGCCAGCGGTGACGAGAAATACCGCTCTGAAACCGTAGTTCGCTGAAATCGCTGCTCCCATCAATG +GTCCGGTAACGTTGCCAATATCACGAAACGATTGGTTATAGCTGAAGATACGCCCGGCGATCTGGTTGCT +CGAGTTGTAAACCAACAGTGTCTGTACGGCGGGGAGTAGTGCACCATCGGCGGCACCGAGCAAAAAACGT +AAAATCCCAAGTTGCAATGGCGTCTGAACGTAAGACATTGGGATCAACAGCAGTACAGAAAAGATCAGCG +CTGTAATCAGGATCTTTTCGGGTCCGATTCGATCGCCAAGTTTGCCGAGTCGTGGTGCACTTAGCAGAGC +CGCCACGCCTGGCACCGAGGCGATCATGCCACTGATAAAGGCGACGTTACTGACGTTACCCGCCAGTTCG +CGGACATACAGCGTCAGAATGGGGGCAATTGAGCCCGTCGCCACCTGGATGATTAACGTAGTGACAAACA +GGCTGAGTACCAGTTTCGGGTTTTTAAGTGATGTCACCACTTCCCGCATGTGCAGCATCTCTTTTTTGCT +GACCGGCTGGAATTTTTCTCTGATGCAAAACAGGGTGACGAAAAAGCAGAGTATGAGCACACTGGCGGTA +ATAAAGAATACCGGACGTAAGCCGTAGCTATCGGCGAGCAGGCCGCCAGCCATTGGGCCGAGCAACGCAC +CACTAACGCCGCCTGTGGAGAGCGTACCCAGCGCCCAGCCGCTTTTATTACGCGGTACTTGTGTGGCGAT +AAGAGCATTAGCGTTGGGGACAAATCCGCCAAGTAACCCAAGAAGCGCCCGCAGGATCAAAAACTGCCAG +ATATTTTGTGCCAGCCCCATCAACACCATCACGATGCCCATGCCGAGGGCAGAGCGTAATAGCATGAGTT +TTCGGCCTTTACGGTCGGCGAGTCCACCCCAAAACGGTGAGGCGATGGCCGAAAATAAAAATGTAATGCT +GAAGACAATACCGGACCACATATTCAGGGCGGAGTGACCGGTAACGCCAAGCTGCTCAACGTAGAGGGGT +AAGAAGGGCATTACCAGACTGAAGGCGGCACCGGTAAGAAAACAGCCTAGCCAGGCGACGATCAGGTTTC +GTTTCCAGTTTATAGGGGTGTCATTTTCACAGGGTGACATAGCAATCCGCTGTTGGTGCGCCAGGCGCGG +TGAACATAAGAAGAAAAGATAAGCACACTAATTATGCGCCCGACTTCCAGGGGGCGCAATCCAGAGAGCT +TTTATCGCTAAATCAGGGGGATTTGCTGTGGTAATGCCGGATGCCATTCTGAAGCATCCGGCATGGGAGA +TTTAATAGCGTGAAGGAACGCCTTCCGGGCGTGTTTTAAAGCGACGGTGTAACCACATATACTGCTCTGG +TGCCATCATGATGCATTTTTCGACCACTTTGTTCATCCACGCGGCGGTAGTTTCGGCATCATCCAGTGGC +GGAGAACACTCTGGCGGCAGCATAATCAATTGATACCCTTTGCCATCTGGCTTACGGCGTGGAACGAAGG +GCACCAGACATGCGCCGGACATCCGTGCCAGCATCCAGGTTCCGGTCGTGGTCGCAGCCTGCTCAACGGC +AAACAACGGGACGAAAACGCTTGAGCGCGGGCCGTAATCATGATCCGGTGCGTACCAGACCACTTCGCCT +TTTTTCAGGGCTTTAATCATGCCTTTTAAATCTTTGCGGTCGAGCATCGATTTATTTGAGCGCAAACGGC +CCCAGGTTTGTAGCCAGTCAATCAGTGGATTATCGTTCGGGCGATAAACGCCAATACCCGGTTCCTGCAT +ACCAAACTGCCGCGCACCCAGCTCCAGTGTCAGAAAATGGATGCCAACTAACAGGATGCCGCGTTTTTGC +GCCTGCACGTCACGAATGTGTTCCATGCCGATCACTTCCGTCCAGCGGGCGATTCGGCGGTCCGGCCAGA +ACCACGCCATGCCGGTTTCCATCAGGCCCATGCCAACGGATTCGAAATTCTTCACCACCATTTTACGGCG +TTCTTGTTCGCTCATTTCCGGGAAGCACAGTTCCAGGTTGCGATGCACAATTTTTGCGCGTCGTTTCATA +AAACGTAACGCCAGTTTTCCTAATCCACAACCGAGGCGGTAGATAACCGGGTAGGGCAATTGCACGACTA +ACCAAAGTACGCCAATACCCAACCAGGTTAACCAATAACGCGGATGAAGCAGTGCGGTGGAGAACTTGGG +TAGATTCGTCATATCAATCCTGTTTTTCAACCTATTCGGGCAATTGTATGTATTGTCGCATTTTTTCGCC +CGCAACCAAAATTTGTGGCTGAAGACTGGGCGAAATTGCCGCGCTTGTAAATAACAAATAATTTTTAATG +CGCAAATGTAGCGTAAAATGTGTGGATGTTAATTATCGATAATTGCTATATCATGCCGCGGATTTTTACT +TTCCCATCTCGCAGGAACCGTACACCATGCCAGTGTTACACAACCGCATTTCCAACGACGCGCTAAAAGC +CAAAATGTTGGCTGAGAGCGAACCGCGAACCACCATTTCGTTTTACAAGTATTTCCACATCGCCGATCCT +AAGGCGACCCGTGACGCTTTATATCAGCTGTTTACCGCGCTGAATGTTTTTGGGCGAGTGTATCTGGCGC +ATGAGGGCATTAACGCGCAAATCAGCGTACCTGCGAGCAATGTTGAAACATTTCGCGCGCAGCTCTATGC +CTTCGACCCGGCTTTAGAGGGTTTACGCCTGAATATCGCGTTGGATGATGACGGGAAATCCTTCTGGGTA +CTGCGCATGAAGGTACGCGATCGCATTGTTGCCGACGGTATTGACGATCCTCACTTTGATGCCAGCAATG +TTGGTGAGTATCTGCAAGCGGCGGAAGTGAACGCCATGCTTGACGATCCCGATGCACTATTTATCGACAT +GCGTAACCACTATGAGTATGAAGTGGGGCACTTTGAAAACGCGCTCGAAATTCCGGCAGATACCTTCCGT +GAGCAGCTGCCAAAAGCAGTCGAGATGATGCAGGCACATAAAGATAAAAAAATCGTCATGTACTGCACCG +GCGGCATTCGTTGTGAAAAGGCCAGTGCCTGGATGAAACATAACGGATTCAACAAAGTCTGGCATATCGA +GGGCGGAATTATTGAATACGCCCGTAAGGCGCGCGAGCAGGGCTTGCCGGTGCGTTTTATTGGCAAAAAT +TTTGTTTTTGACGAGCGGATGGGCGAACGTATATCGGATGAGATTATCGCGCATTGCCACCAGTGCGGCG +CGCCGTGCGACAGCCATACCAACTGTAAAAATGATGGCTGCCACCTGCTGTTTATTCAGTGTCCAGTATG +CGCGGAAAAATACAAAGGTTGTTGTAGTGAGATTTGCTGCGAAGAAAGCGCGTTACCGCCAGAAGAACAG +CGACGCCGTCGGGCAGGACGTGAAAATGGCAATAAGATCTTTAATAAGTCTCGTGGACGTCTGAATACAA +CACTGTGCATTCCTGATCCAACAGAATAAATATCATTGCCGGATGCGTGCCATCCGGCAACATTTCACGC +TTACTTCTGCTGTACGCCTTCCACTGAAATAATCAGATCCACTTCCTGAGAAGCTGGACCTAAATCTGTC +TTGATATTGAAGTCCTTGAGCTTAATTTTGCCTTCGGCCTCGAAGCCTGCACGTTTACCACCCCATGGGT +CGTCGCCCTGACCAATTAATTTCGCTTCCAGCGTGACGGGTTTGGTTACGCCATTCAGCGTCAGATCGCC +GGTAATATCCAGTTCGTCACCGTCTTTCTTCACGCTGGTGGAGGTGAATGTTGCCTGTGGATATTTTGCG +GTATTGAGGAAATCTGCACTGCGAAGATGTTTATCGCGTTCGGCGTGATTAGTATCGACGCTGGTGGTGT +TAATTGTCACATTCACTTTATCGGCAGCCGGATTTTTTTCGTCAAAGGTAAAAGTACCGTCGAAATCTTT +AAAGGTGCCGTATAACCAGCTATAGCCAAGGTGCTGGATGCGGAAATTAACAAAGGCGTGCTGACCTTCT +TTGTCAATTTTGTAATCGGCGGCAACCGCTGAACCGGCAGAGAACATCAGGGACGCGAAGGTTAAACCAA +GCAGGCTTTTTTTCATTTTTTATACTCCATAGTCAGATGACGACTTTCCCAGCATGCGCTTCAGAGTGTC +GTCTTTATCGATGAAATGATGCTTCAGGGCCATAAATCCGTGCATAACGGACAGTACTACGACGCTCCAC +GCGAGCCAAAAATGCAGGGCACCGGCAAAGTCTGCCTGTGCGCCAGCGTCGGCAAGGGTCGCGGGGACGT +CAAACCAGCCAAAAACGCTGATCGGTTTACCATCGGCAGTTGAGATCAGATAGCCGCTGATGCCGATGGC +GAAAAGCAATAGGTACAATGCGAGATGTCCAGCTCTTGCGGCAAGACGAGTCATGGGCGAATAACTCGGC +AGCGGACCCGGCGGTGGAGATATGACACGCCACAGAACGCGAATAACCAGCCCCATCATTAACAAAATAC +CGATGCTTTTATGCAGTTCGGGTGCTTTGTGATACCAGCCATCGTAATAACTGAGCGTGACCATCCACAG +ACCTAAAGCAAACATGCCGTAGACAATAATTGCGCTTAGCCAATGGAAGGCCGCAGATATAACACCATAG +CGTTCAGGGGTATTTGTGAATGACATAAGTGCATCCAAAACGAATTTGCGAGAGAAAGAAAATGGCGTGT +CGGAGAATGAATTGCAACACAAAAATAACAAATTGAATGATATTTATTTTTATTTCAATAATTTTGAATT +AATAATGAAAGAATCTTCATAAGTTTAGTGGGTTCAGCATCAGAGATGTCTGGTGAGTGCTGTAGAAGCA +GGAATAATCTCATTCAATTTTTCACGCTAAATGAAAGGGAGATTAAATATTTGTCAGTTTATGTCAGTGC +GGAAAACTAAAAATAAAACACATAGATCAGATCCATAATTGCCAACAATCCCCAGAGAAAAAGATAAAGC +ATCAGATGCTCGCGAATATTATTGATGAGATAGTGCAACAGCCGACGCATTAAATACTCCTGTAAAAACG +GCCTCATTCTGGAGGCCGTAATGATGATTATTGGAAGCGGGAAAGCCTGAATGGCGTCAAATCAAAATCG +CTTTTTTTGTCTTGCGCAAAATCGGCAGCTATTTCCCCTAAAACTGACGCAAATTTAAAACCGTGCCCAC +TCAGGCCGGTAATGAGCAGTGTATTATCGTGGCCGGGTAGGGTATCGATAATAAAATCTTCGTCAGGCGA +ATTATCATAGGTGCAGGCAGCGCCGTACAGGCAGCAACCGATACCCGGCAATACATTGCGCAAGAACGGG +AAGGCTTCTGACCCATCACTGGCCACTTCCGCAAACGGAACACGTTCATCCGCTGAATGGATAACCTGGC +CTCCGTTATGTTTGCCAATCTTCAACGCGTCGTTTTCTGCCGGAAAACCATAATATTGATCGCCATTGGG +CAGTTCACCGGTAAACGCCGGGAATTTATTCTTCACGCTATAGCGGCCATCGGCCTGATACCAGGCAAAT +ACTTTGCGTACGGGCTGGACAGGCAGCTCCGGGAGCAGGTCTTTTACCCATGTTCCCGCGCAGACAATCG +CTTTTTTCGCCTGATACTCACCGTCAGCCGTTTCAATAGTTACGCCATCATCGTCATGACGAATTGCGGT +GACCGGGCAGTTGAACAGTTGCGCACAGCCCGCTTCCTTCGCCAGTTGGATCCAGGTTTTAATCGCCAGT +TCGCTGCGCAAAAAACCGGAATCAGTTTCAAATAAGCCGATGTAGTTGTCCGGGACGCGTATTTCCGGCC +AGCGGGCCATAATCCCTTGCGCATCGAGCTTTTCAACGTTGAGTTGCCATTGTTCGGCGCTGTGGGCGAC +GTTGGCGAGAAATGTGGAATCAGCCGGGCCAAGGTTAATGACGCCAGAGCGTACAAAAATGGGATCTTCT +TCGTTGTGGCGGGAGAGTTCATCCCACAGCGTTTGCGCGCGGAGGACCAGCGGGACATACTTTTCGCCTT +CACCATAAGCATGGCGAATTAATCGCGTATCGCCGTGGTGGCTGCCGTGTTGATGCGGTGGCATATGGGC +GTCGGTCATTAGCACGTTTAAACCGGCGCGGGTTGCATAATACCCGGCGGCAGCGCCTACGGAACCGCTG +CCAATAATGATGAGATCGTATTTCATTTTTTTCTCTCTGCTCTCATGGTTTAAGCAGAGTAATTAACTGA +ATGCAGATATACAACCCAGAAATGGTAAAGGCACCGGTGAGGTGCCTTTTGGGTGGATGGTCATGTCATG +TTAATGACGCCGATACTCGTTTACCTGGAAATCACCGGATTCAATTTTGGCGATTCCTGCTTCTAATATC +GAAATAAATTGTCTGGCAACATCAGTGGTTAACCAGAGCGTCTGACCAACTTCAGTCCCTTCCTGCTCGG +ACTTATTTGGGGTCTGGTAGTGCAAACGCAACATCAGCGCATCATAGCTATCAACGGTGCTGATGTCCCA +CCCTACGAGCGGATGAGTCTGAATGACTTCATTATTTTTTTCCATCATGGCCCCCTAATTCGTGTTACTA +GACAACGTTATTCGAGGTTCAATGCGTTTTTATCTGAAGCAACTTCAGTATACCAATAAGTAAGGGTATT +CACCGAATTTTTAAAGGGGGAAACAGATAAATTTCTGCTTTTAAGATTTATATGAACAATAAAACAGCAT +GTCATTCATATTTTTTTAGCATATTGTGCAATTATTTTGAGGAAGTGTAGAAATTTTGTACTCAAAATTC +GTAAGTAAAATAAAAAAGCCGGGGCGACCCGGCAAAAAAAATCACTGCATATTATTCGCTGACAAACCAG +TCATCGGCGCTTTCCCACGTTTCCTGGAGAATTTCACTAATGCGCTGTTTATCTTCTTTTGTCGCGCCAA +TAACCGATAAATTATTCGCTGCGGCATAACGTACCGATACGTGGCCTTCATTATCAGGAAACGCATACTG +AATACGGCGGGAAAGTTCGCCAGCCAGGGCGTCAATAGCCCCAGCTGGCAATGGAGAAGTTTTCGCTATG +GTGACTTCAATTCGCATAATAGCCCCCTGTTGAATATACTGGTTATTTATACAGGTAAAATAACCTAATG +ACAACAGGAAGCTACGATTTTTATTGTTTAACGGACCAGCGTACCGTTTCCCCGGCGAGGAATGGCACCA +GCGTGTCATCAGTCAGTGCGATGCTTTCAGCAACCTGTTGCTCTTCACGTACCAGTTCGATGAATGTGTC +GTTGACCGGCAACCCATAGAACTGCGGGCCGTTTACAGAACAGAATGCTTCAAAGTGCTGCAAAGCATTC +ATTTCTTCAAAGACGGTAGCGTAACTGCCCAGCGCGGTTGGGGCGTTGAAGCAGCCCGCGCAGCCGCAAC +TGCTCTCTTTGCGATGACGTGCATGTGGCGCAGAATCCGTACCGAGGAATACTCGATTAAAACCGCTGGC +GACCAGTTCACGCAATGCCTGTTGGTGAATATTACGTTTGAGGATGGGTAGACAATACAGGTGCGGACGC +ACGCCTCCAACCAGCATATGGTTGCGGTTAAACATCAGATGCTGCGGAGTGATGGTGGCAGCCAGCCGTT +CATTTCCGTCACGGACATAGTCGGCAGCATCTTTGGTGGTGATGTGCTCAAAAACGACTTTCAGCGCAGT +CAGGCGCTGGCGCAGAGGTTCCATCACGCTTTCTATAAAGCGCGCTTCACGATCAAAAATGTCGATATCT +GCATGTGTCACTTCACCATGCACCAGTAGCGGCATACCGATTTTTTCCATGCGCTCAAGTACCGGCATGA +TTGCGTCAATTGACGTCACGCCGTGGCTGGAGTTAGTGGTTGCGTTTGCCGGGTAAAGTTTTGCAGCGGT +GAACACGCCTTCGTTAAATCCGCGCTCCAGCTCATTAGGATCCAGCGAATCTGTTAAATAACAGGTCATC +AATGGGGTGAAATCGTGCCCGGCAGGTACGGCGTCAAGAATACGCTGGCGATACGCCACGGCAGCCTCAA +CGGTGGTCACGGGCGGAGCCAGATTGGGCATTACGATAGCCCGTCCATAAATTTCGCTGGTATATGGCAC +GACAGTTTTTAACATGTCGCCATCGCGGAGGTGAAGGTGCCAGTCGTCTGGGCGGCGGATCTTTAATACC +TGGGATGGTGCAGTCATTAATCTCTATGCTCCGGCTGAAGGGATGTTTTTGCCGGACACAAAGGATAAGC +GGAAACGTTTTCCTTTGCACGAAAAATAAAGGGCGCGAATGCGCCCTCGTGATTAATCAGTAAATGGAAT +GACAATTTCGCCTGGCTTCACTTCAATGCCTTTCGCCAGTTTTTTCGCCATTGCTTCGCCCTGGCTGCCA +TCTTCGCGCAGGACGTAAGCAGGTTGCTGGTTAAAGTAATTGCGTAATGCCTGGTTCAAATAGGGAAGCA +ACGTTTGCATCACCGTTTGCATTTTTTCCGGTTGTACCGTCGCATCGACCACTTCCATCTCTTTCAGGAA +GATCGCACCTTTTTCTTTATCAAACACGGGCAGCGCTTTCAGCTTCAGTTTCATGGTCGCTTTCTGACTA +CCGAACAGGGAGTTCATGTCCAGATTGGCGTCTCCGGTTAGGGTAACCTTATTCGGCTCTTCGCGACCAA +TTTGGCTGGTCAGGTTTGTCAGAACAATATGGGCGTCAGCCACGCCGGGTAAACCGATATCTTTTGAGAA +ATTATTATGTTTCGCAAGCGACTGGTTAATTTCTTGTTCGGTGATGGTGTATTGGGTGAGTTGATTACAG +CCAACGAGCAGGCCACTGACGATCAATGCAGCGGCAAATAAAAACTTGTTCATGGTAGTCCTCGACATGA +AATCTGCGTCAATATCCTGACACAACGCAGCATGTGTCACCAGCGATAAACTCGCCAGCAGAAAAAACTG +AAAACGGCGGCAACCCGCGAATACAGGCTGCCGCGGCGGGTCAGGATTAAATCGCCATTGATGATAACAA +ATTGATTTGTGTCTGTTTCGCCATATTATCGCGGTAATCAGCAACGCGGCTTGGCCAGTTAATTCCGGCT +ACCAGCGTCAGATTACGCAGTAGCGGGAATAGCTGAATATCATCTTCCGAAAGTTCGCCATTCACGGCGT +TCGGTTTGACGATCAGTTTGTCCAGCGCACGTAAATCATCGCTGATATTCTTAATCAGACCGTCAGAGTG +GGCCAGCAGGTCGGCAAAATTACCCGCGCTGGCCTCTTTCTTGTCGACGAAATATTTGCGCGCGGCGGGA +GTAGAAAACTCATCAAATGCCGATTTGGCAAAACGCGGCAACAGCAGTTTGTTGGCGTAGCCATTGACCT +TGCGCAGCCACTCTTCAATGGCAGGGGAACGTTTGCCGGTCAGTAACGGTTTGCCGTCGAGTTTATCGAC +ATAGTGAACGATGTCCATGCTTTCTGGCATATAGCGGCTGTCATCTTTTTGCAGAATGGGAACCTGTTTT +TGACCGACCATCCGGGTGGGTGTTTCTGCGTCGTCGTTGAGCAGAACATGTAATTCGACGGGGATATTTT +TCAGGCCGAAAATCATGCGGGCTTTGAGGCAGTAAGGGCAGTGATCGTAAATGTATAGCTTCACGTGACT +CCTCCATTTGGCTGTCAGTTCACTTTCAGTATGAAGGAGTCAGGGGGGAGTATCAAATCAGGCGTCGCGT +TCAAGCAAACGACGCGCGGCGCGTTTCTGGCTAAACTGCCAACCCAGCGCAAGGAAAGTGAAGATGCCAA +TAATGCCCAGCATCATCCACGGAAGCTCTGGCTGGTGCGCCGATTTGCCCAGGTCAAACAGCCAGCCGCC +ACCGATATAACCAATAGCGCCGCCAATCGCCAGACCCAGACGGCTAAACCCCATATAGCTGCCGCGAGCT +CTTGCGTCCGCCAGCGAAGCACTTAAGGTTTCACGCGCAGGCTCGGCAATGATCGACCCGATATAAAACA +GACAAATCAGGGTGAAAAGTTGTTGCAGGCCGCTGACCATGCCCACCGGCATCATGCTTAATGACATTAT +CAACAGCCCAGCCATCAACCGGTGTTCCAGACGAAAATGCTTTTCACTCCAGCGGGCGATAGGGTAGAGC +AACGTTAACGACAGACACGCTTCAATGGCATACATCCATTTAACGGCAGAGGGCGCGCCAGCCACGTCGT +TGACCATAATTGGCAGCATCAGCATCACTTGTACAGCCAGCATGTAGTAACCCGCCAGCGTCAGAACATA +GGTGACAAAACGCTTGTCACGCATCACGCGGGTCATGCCTTCGCGAACGGGCGTGCGTACGGTGGAGAGT +TTCCATGCTGGTAACAACCACGCATTGAACGCCGCACATAGCACAAATAGAACTGCCCCTGTGGCGCAGA +CCAGGCGAAAGTCGTATTGCAACAGCCAGCTCCCCAACAATGCGCCAATGACCGCACCGGCACTGTCCTG +CATCATCAACAGCGAGAAAAAACGACCACGCTGCTGTGGACGGATTAATTTCACCACCAGCGCCGAACGC +GGCGGATCAAACAACGTGCCACCGAGTCCCGAGAGCAGGCATGAAAACCACAATAGCCACGGTTCGTGGG +CGATACCCATTGTGGCGAATCCGGCGGCGCGCATCAGCATACCGGTAACAATCATCGGTTTGGCACCAAA +GCGGTCGGCAATTGCACCGCCGAAAATACCCAGACCTTGCTGAATAAATTGGCGTAGACCGAGAGCAATA +CCGACCATGACGGCGGCCCAGCCCATTTGATCAACGAAGCGGATAGAGATCAGCGGGAAGACAACAAAGA +ACCCCAGCACGACCAGCATATTATCGATGAGCAGGAAATATTTACCCAGGTTCCTCGCCTGCGACACGCG +GGACATTTCCCCTCCCGGGAAATAAAAGATGAGCACTTTCTATTCTGCATTGCCGCTAAGACTTTTCCCA +TCACTTCGGGGACAATATTTTTTTATCAAAACGTCGCTTTGATAGAGAGTTTTTATCAAATATGTGAATA +ATGCAGAAAATGGCATTTTGGACTTTTCACAGGGTCTGGTTGCGCAGGTATAGTAATACTTACAGCGTAT +TAAAGACGTTACGGGAAGGAGTAGGTATAGAATGTTTGGCTATCGCAGTAACGTGCCAAAAGTGCGCTTA +ACCACAGACCGACTGGTCGTGCGTCTGGTGCATGATCGTGATGCCTGGCGTCTTGCGGATTATTACGCAG +AGAATCGCCATTTCCTCAAGCCCTGGGAGCCAGTGCGCGACGAAAGCCACTGTTATCCATCAGGCTGGCA +GGCCAGGCTGGGGATGATTAACGAATTTCATAAACAAGGTTCAGCTTTCTACTTTGGCTTATTCGACCCG +GACGAAAAAGAGATTATTGGCGTTGCCAATTTTTCCAATGTTGTTCGTGGCTCTTTTCATGCCTGCTATC +TCGGTTATTCGATTGGGCAAAAATGGCAGGGCAAAGGACTCATGTTTGAAGCCCTGACCGCAGCCATTCG +TTATATGCAGCGCACCCAACATATTCATCGCATTATGGCTAATTATATGCCGCACAATAAACGCAGCGGT +GATTTACTGGCGCGACTGGGTTTTGAAAAAGAAGGCTATGCGAAAGACTATCTGTTGATTGATGGACAAT +GGCGCGATCACGTACTGACGGCATTAACTACCCCAGACTGGACGCCCGGCCGCTAAGGAGAATCTCATGA +AATATCAACTTACTGCCCTTGAAGCTCGCGTGATTGGTTGCTTGCTGGAAAAGCAGGTGACCACGCCGGA +GCAATACCCGCTCTCAGTCAATGGTGTAGTCACGGCCTGTAATCAGAAAACGAACCGTGAACCGGTCATG +AATCTGAGTGAATCCGAAGTGCAGGAACAGCTGGATAATCTGGTCAAACGTCATTATCTACGCACAGTGA +GCGGTTTTGGTAATCGGGTCACCAAATATGAGCAACGTTTTTGTAATTCAGAATTTGGCGATCTGAAACT +GAGCGCAGCGGAAGTGGCGTTAATCACCACGTTGTTATTGCGTGGTGCCCAGACGCCAGGTGAACTGCGC +AGCCGCGCCGCGCGAATGTATGAATTCAGCGATATGGCGGAAGTGGAGTCGACGCTGGAACAACTGGCAA +ATCGCGAAGATGGTCCTTTTGTGGTGCGTCTGGCCCGCGAACCGGGTAAACGCGAAAACCGCTACATGCA +TCTTTTCAGTGGTGAGGTTGAAGATCAGCCGGCGGTGACGGATATGTCGAACGCGGTTGACGGTGATTTA +CAGGCCCGCGTCGAAGCCCTGGAAATCGAAGTGGCAGAACTGAAACAGCGTCTTGATTCGTTGCTGGCCC +ATCTGGGAGATTAAAGTGAAAAAATTACGTATCGGCGTAGTGGGATTAGGTGGCATTGCGCAAAAAGCGT +GGTTACCGGTGCTGGCGGCAGCGTCTGACTGGACGTTACAAGGAGCCTGGTCGCCTACGCGCGCGAAAGC +CCTGCCAATTTGTGAAAGCTGGCGCATTCCTTATGCCGATTCGTTATCCAGCCTTGCCGCCAGTTGCGAT +GCGGTTTTTGTGCATTCCAGCACCGCCAGCCACTTTGACGTGGTCAGTACGTTACTCAATGCGGGGGTAC +ATGTCTGTGTCGATAAACCGCTGGCAGAAAATCTGCGCGATGCTGAACGGCTGGTGGAACTGGCGGCGCG +GAAAAAACTGACGTTGATGGTCGGTTTTAACCGTCGTTTCGCACCACTCTACGGTGAGTTAAAAACGCAA +CTCGCCACCGCAGCCTCGCTAAGAATGGATAAACATCGTAGCAATAGCGTCGGGCCACACGATCTTTATT +TCACGTTGCTGGATGATTATCTGCATGTGGTGGATACCGCGCTGTGGTTGTCGGGCGGCAAAGCCTCTCT +GGATGGCGGTACGCTACTGACTAACGACGCTGGCGAAATGCTGTTTGCCGAGCACCATTTTTCGGCTGGT +CCTTTGCAGATCACCACCTGTATGCATCGCCGTGCCGGAAGTCAGCGTGAAACCGTGCAGGCCGTGACTG +ACGGTGCGCTCATCGACATTACGGATATGCGCGAATGGCGTGAGGAGCGCGGGCAGGGCGTAGTGCATAA +ACCGATTCCTGGTTGGCAGAGTACGCTTGAGCAACGTGGGTTTGTCGGCTGTGCGCGGCACTTCATTGAA +TGTGTGCAAAACCAGACAGTTCCGCAAACCGCCGGCGAACAGGCCGTGCTGGCGCAACGTATCGTTGACA +AGATCTGGCGCGATGCGATGAGTGAATAAACCCTGTAACATCTGGCGGTAGCAATTCACCATAATCCAGG +TAGACTATTCGCCTCTTTCAGCGCCTGCCTTGCAGGCGTTTTGCCCGTGGGTCTGGATTAGAACACCGAT +GAATTTATTAAAATCGCTGGCCGCCGTCAGCTCGATGACCATGTTTTCGCGTGTGCTTGGCTTCGCACGA +GACGCAATTGTCGCCAGAATCTTTGGCGCAGGGATGGCAACCGACGCCTTTTTCGTCGCTTTTAAACTTC +CTAACTTGTTACGCCGTATCTTTGCCGAAGGGGCATTTTCCCAGGCATTTGTACCGATTCTGGCGGAATA +TAAAAGTAAGCAGGGTGAAGACGCCACGCGGGTCTTTGTCTCTTATGTTTCTGGCCTGCTGACACTTGCG +CTGGCGGTTGTGACGGTCGCTGGCATGCTCGCCGCACCGTGGGTGATCATGGTGACCGCGCCAGGCTTCG +CTGACACAGCTGACAAATTTGCCCTGACCAGCCAGCTACTAAAGATTACCTTTCCCTATATCTTGCTGAT +CTCCCTGGCGTCGCTGGTGGGAGCGATTCTGAATACGTGGAACCGCTTCTCGATTCCGGCGTTTGCTCCA +ACACTGCTTAACATCAGCATGATTGGTTTCGCGCTGTTTGCCGCACCGTACTTTAACCCACCGGTGCTGG +CGCTGGCGTGGGCTGTTACGGTCGGCGGCGTCCTGCAGCTGGTGTATCAGCTACCGCACCTGAAGAAGAT +CGGCATGCTGGTCCTGCCGCGCATTAACTTCCACGATGCCGGAGCAATGCGCGTGGTGAAACAGATGGGA +CCGGCGATCCTTGGCGTCTCTGTGAGCCAGATCTCCTTAATCATCAACACCATTTTTGCCTCGTTTCTTG +CTTCCGGTTCGGTGTCTTGGATGTATTACGCCGACCGCTTAATGGAGTTTCCGTCCGGTGTGCTGGGCGT +GGCGCTTGGCACCATTTTGCTGCCGTCGCTGTCGAAAAGTTTTGCCAGTGGCAATCATGATGAATACAAC +CGTTTGATGGACTGGGGGTTGCGTCTTTGTTTCCTGTTGGCGCTGCCGAGTGCGGTTGCGTTGGGCATTC +TTTCCGGTCCGTTGACCGTTTCGCTGTTCCAGTACGGTAAATTTACCGCGTTTGATGCGCTGATGACCCA +GCGGGCGTTAATTGCCTACTCGGTGGGTTTGATTGGCCTGATTGTAGTGAAAGTGTTGGCTCCTGGCTTT +TATTCCCGCCAGGACATTAAAACGCCAGTGAAAATTGCCATCGTTACGCTGATTTTAACGCAATTGATGA +ACCTGGCGTTTATTGGTCCGTTGAAACATGCCGGGCTGTCACTTTCTATTGGTCTGGCGGCGTGTCTGAA +TGCTTCGCTGCTTTACTGGCAGTTGCGTAAGCAGAAAATCTTTACCCCGCAACCCGGCTGGATGGCGTTT +CTGTTGCGTCTGGTGGTGGCGGTACTGGTGATGTCTGGCGTGCTTTTAGGTATGTTACATATCATGCCGG +AGTGGTCATTGGGTACCATGCCCTGGCGTTTACTGCGTTTAATGGCGGTCGTGCTGGCGGGGATTGCCGC +GTACTTCGCTGCACTGGCGGTACTGGGCTTCAAAGTTAAAGAATTTGCCCGCCGGACGGTGTAACAATGC +ATTCCGGCCTGCAGTGCAGGCCGGAGATAATCTTCAGATCGAAATCTTTTTACCGCCGCGATGGGTTGTT +GAGGTCTGACCGTTCGCCCCATATAGCGTCGGTTCCTGATGCGGTTTCAACATTTCCAGCGCCTGTTGAT +TGCGCTCAATCTGTCCTTCCAGTAACCAGCCGTTATGTTGATTCATTTGGCGTAGTTGCTGCGTTTTCAC +AGTAATTTCCTGCCAGCGTTGACTAATATCAACGCTATTTGCTGTATTGGGTTCTTTCCTGCGTAACTGT +TCGAGGTAATCCAGCGTCGCCAGCAGTGAGCTTTTTTGTTCTGTAATCCATTGCAACTGGCTGCCGTTGA +TCTGCCCCATAGAGAGATGTTGCTGCTCTTGATCCATTACCGTTTTGAGATCGTTAAGCACAGCGGACAT +CTGGTCGAGGATCTCTGCAAGACGTGTCATACGATCAGTTACTCTGCAAGTCTTGCTGCGCTTCGTTGAT +CAGCGCATCGGCAATTTTGCCGGTGTCCATTTTTAGTTCACCGTTACGAATCGCCAGTTTTAACGCTTCG +ACACGTTCAAGATTGATATCACTGCTGCCGGGTTGCATCAGTTTTGCTTGCGCGTCGCTTAACGTCACAC +TGGTGCTGGTGGAGGCGGTTGTTTTTGCCGCCCGGCTGTTCGTTACCGGCGCGTCAGTGGTTTCGCGCGG +TTGAACGGTGCTTACAGGCTTCAGAGGCGAAGTGCGATCAATACTCATGGTTTATTCCTCATTGAGGGCG +CTTTTATCATGTGTTGCTTATTTATCGGCAAGGGACGGGTAATCTTTAACAGCTTACAGGTTTATAAGAA +TATTCCCATCTGCATCAACAACGCCGCTGACTACCTGTCCCGATACCATGCGCACCCGCGCATTCTGTGC +GACGGCTGCATTGTTCAGCGCCTGACCTTCTGCGTTGGCGCTAAACCCATCACCGCTGGCGATCACATTG +ACGCGTTGTCCCGCTTTTACCCGCCATGCCTGGCGAAACTGGGTTAACTGGATAGGTTGATCGGGTGATA +GATCGCGCAGGCTAATGGCATCAACAAGTTGATTGATATCCAGCACCGTACGCGGTGGCAGGGTATCCAG +CCGTCCGCGTTTCAGTTTGACATTGCCAGCTTCCAGCTTTCCTCCCCGCGCAATGGGCATCGCGGCAACC +ACATAATTTCCTGTGGCCTGTACATTAACCTGTAAATATCGTTTGTCGTTACCGCAGCGTGCCAACACAT +TCACATTGCCCCACAGGCGGGAATTATTGCTCATCGAAAGCAATGGCTGCTCGCATGGCGGTAGTAGATT +GGGCGCTGTACGAATAGAAACACGAACCTCATCACTTACCCCCGCGAGTTGGGCGCTAAAAAAGTTGTGC +AATTGCGATGTGAGATTGCTCGCCGTACTTAACGGACTGAACAGTATCGCGATGATCGCCACGCTACGTT +TTATTATCAGCATTTTCGCCCCCAGCCATTTCTACAACGTGAATTGTACCTGTCCGCAATGACCATCAAC +GGCATAAATAGCGACCCATTTTGCGTTTATTCCGCCGATAACGCGCGCGTAAAGGCATTTAAGCTGATGG +CAGAATTTTGATACCTGCGGAGGAGATATGCTCGATAAGCTCGACGCCGCCTTACGTTTTCAACAAGAGG +CGCTCAATCTGCGCGCCCAGCGTCAGGAAGTGCTGGCAGCAAACATCGCCAATGCCGATACCCCTGGTTA +TCAGGCGCGCGATATCGATTTTGCCAGTGAACTTAAAAAAGTCATGCAACGTGGACGGGATGCAACCAGT +GTGGTTGCACTGACGATGACCTCAACGCAACACATTCCGGCGCAGGCGCTGACGCCTCCTACCGCAGAAC +TGCAATACCGTATTCCGGACCAGCCTTCGCTTGACGGTAATACCGTCGATATGGATCGCGAACGCACCCA +GTTTGCCGATAACAGCCTGCAATACCAGATGAGCCTTAGCGCGTTGAGCGGGCAAATCAAAGGCATGATG +AACGTTTTACAGAGCGGAAATTAACGGATGGCACTGCTGAATATTTTTGATATCGCCGGGTCGGCGTTAA +CTGCCCAGTCCCAGCGCCTGAACGTGGCGGCCAGTAATCTGGCGAATGCTGATAGCGTGACCGGTCCCGA +TGGACAGCCATATCGGGCAAAACAGGTGGTATTCCAGGTTAACGCTGCACCAGGTGCTGCGACAGGCGGC +GTAAAGGTTGCCGATGTTATAGAAAGTCAGGCCCCGGACAAACTGGTTTATGAACCGGGTAATCCGCTGG +CAGATGCAAAGGGCTACGTAAAAATGCCGAACGTTGATGTTGTCGGAGAGATGGTTAACACCATGTCGGC +GTCACGCAGCTATCAGGCCAATGTTGAAGTGCTCAACACGGTGAAAAGCATGATGCTGAAAACCCTTACG +CTCGGTCAATAAAGGAGAAAGCTATGTCCATTGCGGTAACCACCACCGATCCGACAAATACCGGCGTCAG +TACCACCAGCAGTAGTTCGCTCACGGGCAGCAACGCCGCAGATTTACAAAGCAGTTTTCTGACTTTGCTG +GTGGCGCAGCTGAAAAACCAGGACCCGACCAATCCAATGGAAAACAACGAGCTGACGTCGCAATTGGCAC +AAATCAGCACGGTCAGCGGGATTGAAAAACTCAATACCACGCTCGGATCTATTTCCGGACAGATTGATAA +CAGCCAGTCGTTACAGGCCAGTAACCTGATCGGTCACGGCGTGATGATCCCCGGCACCACTGTTCTTGCG +GGAACCGGCAGTGAAGAAGGGGCTGTGACCACGACCACGCCGTTTGGTGTTGAGCTGCAACAGGCGGCAG +ACAAAGTTACGGCCACCATCACCGATAAAAATGGCGCGGTTGTGCGCACCATTGATATTGGTGAACTGAC +CGCCGGAGTTCACAGTTTCACCTGGGACGGTACGTTGACTGATGGCAGCACTGCGCCGAACGGTTCTTAC +AATGTAGCGATTAGCGCCAGTAACGGTGGTACACAACTGGTTGCCCAGCCGCTGCAGTTTGCTCTGGTGC +AGGGTGTGATCCGCGGCAACAGCGGTAATACGCTGGATCTCGGCACTTACGGCACCACCACCCTCGACGA +AGTACGGCAGATAATTTAAGCCTTCACATTTCAGGAGTCAGTCATGGCCTTTTCTCAAGCGGTTAGCGGA +TTAAACGCTGCCGCCACCAACCTCGATGTTATTGGCAACAATATCGCCAACTCCGCCACCTACGGCTTTA +AATCAGGCACGGCCTCTTTTGCCGATATGTTTGCCGGTTCGAAAGTGGGACTGGGGGTAAAAGTTGCCGG +TATCACTCAGGACTTTACCGATGGCACGACCACCAACACCGGGCGAGGTCTGGACGTTGCTATCAGCCAG +AACGGTTTTTTCCGTCTGGTAGACAGCAACGGTTCGGTGTTCTACAGCCGTAACGGACAATTTAAGCTGG +ATGAAAACCGTAACCTGGTGAATATGCAAGGTTTACAGCTGACGGGTTACCCGGCAACCGGTACGCCGCC +GACTATTCAGCAAGGGGCGAATCCGACCAATATTTCGATCCCGAATACCCTGATGGCAGCGAAAACTACC +ACCACGGCATCGATGCAGATCAACCTGAATTCCAGTGATCCGCTTCCTACTGTTACGCCATTCAGCGCCA +GCAATGCGGATAGCTATAACAAAAAAGGTTCGGTGACTGTTTTCGACAGTCAGGGTAATGCTCATGACAT +GAGCGTCTACTTTGTGAAGACCGGGGATAATAACTGGCAGGTCTACACCCAGGATAGCAGTGATCCAAAC +AGCATTGCGAAGACAGCGACAACACTGGAATTTAATGCTAATGGCACATTAGTGGATGGTGCGATGGCGA +ATAATATCGCAACCGGCGCAATTAACGGTGCAGAACCCGCCACGTTTAGTCTGAGCTTCCTCAACTCCAT +GCAGCAAAATACCGGCGCTAACAATATTGTGGCAACCACCCAGAACGGCTACAAACCGGGCGATCTGGTG +AGTTATCAAATCAATGATGACGGTACGGTTGTCGGCAACTATTCCAACGAACAAACCCAACTGCTGGGGC +AGATTGTACTGGCGAACTTTGCCAACAACGAAGGTCTGGCATCCGAAGGCGACAACGTCTGGTCTGCGAC +GCAATCTTCTGGCGTGGCGCTGTTGGGGACAGCCGGGACGGGAAACTTTGGCACCCTGACCAACGGTGCG +CTGGAAGCGTCCAACGTCGATCTCAGTAAAGAACTGGTCAATATGATCGTTGCCCAGCGTAACTATCAGT +CTAACGCCCAGACCATCAAAACCCAGGACCAGATCCTCAACACGCTGGTTAACTTACGCTAATCGCTGAC +GGGATAGCTCAATGGATCACGCAATTTATACCGCGATGGGAGCAGCCAGCCAGACACTGAATCAACAGGC +GGTAACCGCCAGTAATCTGGCCAATGCCTCAACGCCCGGTTTTCGCGCGCAGTTGAATGCTTTACGCGCG +GTGCCAGTGGAAGGGCTTTCTCTGCCCACGCGCACGTTGGTCACGGCGTCAACGCCGGGCGCAGATATGA +CGCCCGGCAAAATGGATTACACCTCGCGCCCGCTGGACGTCGCGTTGCAGCAGGATGGCTGGCTGGCCGT +GCAGACCGCTGACGGCAGCGAAGGGTATACGCGTAATGGCAGCATTCAGGTTGATCCCACCGGGCAACTG +ACAATTCAGGGGCATCCGGTGATAGGCGAGGCTGGGCCAATTGCTGTGCCGGAAGGGGCGGAAATCACTA +TTGCTGCCGATGGCACAATCTCGGCGCTCAATCCGGGCGATCCGGCAAATACGGTTGCGCCAGTAGGGCG +TCTTAAACTGGTGAAAGCCACGGGCAGCGAAGTGCAGCGCGGTGACGACGGCATTTTTCGTTTAAGCGCA +GAAACCCAGGCCACGCGTGGGCCGGTACTGCAGGCAGATCCAACCTTGCGTGTGATGTCGGGGGTTCTGG +AAGGCAGTAACGTCAATGCCGTTGCGGCAATGAGCGACATGATTGCCAGCGCGCGGCGTTTTGAAATGCA +GATGAAGGTGATCAGCAGCGTCGATGATAACGCAGGCCGTGCCAACCAACTGCTGTCGATGAGTTAATTG +AAAGGATACATGACAAGTATAAGTTGCCCGATGCGCAAGTTTATCGGGTCTATGGGGGCAATCGCAATTT +ATCGATTTTGCGAGCACTTGTAGGCCGGATAAGGCGTTTACGCCGCATCCGGCAAGAAGACATATGCACT +TTGTCACTAATCCACTACAGGACATTTTATGATCAGTTCATTATGGATCGCCAAAACGGGCCTTGACGCC +CAGCAAACCAATATGGACGTCATTGCCAACAACCTGGCAAACGTCAGTACTAACGGTTTTAAGCGTCAGC +GCGCGGTGTTTGAAGATCTGCTTTATCAAACCATTCGCCAGCCGGGGGCACAGTCTTCCGAACAAACCAC +CTTACCCTCCGGATTACAAATCGGCACGGGGGTACGCCCGGTCGCCACTGAACGCTTACACAGCCAGGGA +AACCTGTCGCAGACCAACAACAGCAAAGATGTCGCGATTAAAGGGCAGGGCTTTTTCCAGGTGATGTTGC +CAGATGGTTCATCAGCCTATACCCGTGACGGCTCTTTCCAGGTGGATCAGAACGGGCAGCTGGTGACGGC +TGGTGGTTTTCAGGTGCAGCCAGCGATCACCATTCCGGCGAATGCGTTAAGTATCACCATCGGTCGTGAT +GGCGTGGTCAGCGTAACCCAACAAGGCCAGGCAGCTCCGGTTCAGGTTGGGCAGCTCAATCTCACCACCT +TTATGAATGACACCGGGCTGGAGAGCATTGGCGAAAACCTCTACACCGAAACGCAATCCTCTGGTGCACC +GAACGAAAGCACGCCGGGCCTGAACGGCGCGGGACTGCTGTATCAAGGGTATGTTGAAACGTCTAACGTC +AACGTGGCGGAAGAACTGGTCAATATGATTCAGGTGCAACGCGCTTACGAAATCAACAGTAAAGCGGTGT +CCACCACCGATCAGATGCTGCAAAAACTGACGCAACTCTAAGGCTTAACCGGTGGCAGGTTCACCGGTTT +ACTGATTTTTGAAGATGATAGCCATGCAAAAAAACGCTGCGCATACTTATGCCATTTCCAGCTTGTTGGT +GCTTTCACTAACCGGCTGCGCCTGGATACCCTCCACGCCGCTGGTGCAGGGGGCGACCAGTGCACAACCG +GTTCCCGGTCCGACGCCCGTCGCCAACGGTTCTATTTTCCAGTCTGCTCAGCCGATTAACTATGGCTATC +AACCGCTGTTTGAAGATCGTCGACCACGCAATATTGGCGATACGCTGACCATCGTGTTGCAGGAGAACGT +CAGCGCCAGCAAAAGCTCCTCTGCGAATGCCAGCCGTGACGGTAAAACTAATTTTGGCTTTGATACTGTG +CCGCGCTATTTGCAGGGGCTGTTTGGTAACGCTCGTGCCGATGTCGAAGCCTCCGGTGGTAACACGTTCA +ACGGAAAGGGCGGGGCCAATGCCAGCAATACCTTTAGCGGCACGTTGACGGTGACGGTTGACCAGGTACT +GGTCAACGGCAACCTGCATGTGGTGGGTGAAAAACAGATTGCCATTAATCAGGGTACCGAATTTATTCGC +TTCTCTGGCGTGGTTAATCCACGCACTATCAGCGGCAGCAATACCGTACCGTCTACTCAGGTGGCGGATG +CGCGCATTGAATACGTAGGCAATGGCTACATTAACGAAGCGCAAAATATGGGCTGGTTGCAGCGTTTCTT +CCTTAACCTGTCGCCAATGTAAGTGAGGCTGTGGTGATTAAATTTCTCTCTGCATTAATTCTTCTACTGG +TCACGACGGCGGCTCAGGCTGAGCGTATTCGCGATCTCACCAGTGTTCAGGGGGTAAGGCAAAACTCACT +GATTGGCTATGGTCTGGTGGTGGGGCTGGATGGCACCGGTGACCAGACAACCCAGACGCCGTTTACCACA +CAAACGCTTAATAACATGCTCTCACAGCTGGGAATTACCGTTCCGACGGGCACCAATATGCAGCTAAAAA +ACGTCGCTGCGGTAATGGTGACAGCGTCACTTCCTCCGTTTGGACGTCAGGGGCAAACCATCGATGTGGT +GGTTTCTTCCATGGGAAATGCCAAAAGCTTGCGTGGAGGTACGTTGTTGATGACACCGCTTAAGGGCGTT +GACAGTCAGGTGTATGCGCTGGCGCAGGGCAATATTCTGGTTGGCGGCGCAGGAGCCTCCGCTGGCGGTA +GCAGTGTTCAGGTTAACCAACTGAACGGTGGACGGATCACCAATGGTGCGGTTATTGAACGTGAATTGCC +CAGCCAGTTTGGCGTCGGGAATACCCTTAATTTGCAACTTAACGACGAAGATTTCAGCATGGCGCAGCAA +ATCGCTGACACCATCAACCGCGTGCGTGGATATGGCAGCGCCACCGCGTTAGATGCGCGGACTATTCAGG +TGCGCGTACCGAGTGGCAACAGTTCCCAGGTCCGCTTCCTTGCCGATATTCAGAATATGCAGGTTAATGT +CACCCCGCAGGACGCTAAAGTAGTGATTAACTCGCGCACCGGTTCGGTGGTGATGAATCGCGAAGTGACC +CTCGACAGCTGCGCGGTAGCGCAGGGGAATCTCTCAGTAACAGTTAATCGTCAGGCCAATGTCAGCCAGC +CAGATACACCGTTTGGTGGTGGACAGACTGTGGTTACTCCACAAACGCAGATCGATTTACGCCAGAGCGG +CGGTTCGCTGCAAAGCGTACGTTCCAGCGCCAGCCTCAATAACGTGGTGCGCGCGCTCAATGCGCTGGGC +GCTACGCCGATGGATCTGATGTCCATACTGCAATCAATGCAAAGTGCGGGATGTCTGCGGGCAAAACTGG +AAATCATCTGATGATCAGCGACAGCAAACTACTGGCAAGTGCGGCCTGGGATGCGCAATCACTCAACGAA +CTAAAGGCGAAAGCGGGCGAAGATCCGGCGGCAAATATCCGTCCGGTGGCCCGTCAGGTGGAAGGGATGT +TCGTGCAGATGATGTTGAAAAGCATGCGCGACGCTTTACCAAAAGATGGCCTGTTCAGCAGCGAGCACAC +TCGCCTGTATACCAGTATGTATGACCAGCAGATTGCCCAACAGATGACGGCGGGCAAAGGTCTGGGGCTT +GCAGAGATGATGGTTAAACAGATGACGCCAGAACAACCATTGCCAGAGGAGTCCACGCCAGCAGCACCGA +TGAAATTCCCGCTCGAAACTGTGGTGCGTTATCAAAATCAGGCGCTTTCGCAGCTGGTGCAAAAGGCCGT +GCCACGTAACTACGATGATTCGCTGCCGGGTGACAGTAAAGCATTCCTCGCGCAACTCTCGCTGCCCGCC +CAACTGGCAAGCCAGCAAAGCGGTGTGCCACATCATTTGATCCTCGCTCAGGCGGCACTGGAATCTGGTT +GGGGGCAACGGCAAATCCGCCGCGAAAACGGCGAGCCGAGCTATAACCTGTTTGGTGTCAAAGCCTCTGG +CAACTGGAAAGGGCCAGTTACTGAAATCACCACGACTGAATATGAAAACGGCGAAGCGAAGAAAGTAAAA +GCGAAGTTTCGCGTCTACAGCTCGTATCTGGAAGCCTTGTCGGATTACGTTGGGCTGTTAACGCGTAACC +CGCGCTACGCCGCCGTGACGACCGCCGCGAGTGCGGAACAGGGGGCGCAGGCCCTACAGGACGCGGGCTA +TGCCACCGATCCTCACTATGCCCGCAAACTCACCAACATGATTCAGCAGATGAAATCGATAAGCGACAAG +GTGAGCAAAACCTACAGTATGAACATTGATAATCTGTTCTGAATAACTCAAGTCCGGCGGGTCGCTGCCG +ATAATACTCTGTAATTGAAGGCTTATAAGGAACCTCCATGTCCAGCTTGATTAATAACGCCATGAGCGGA +CTGAACGCGGCCCAGGCGGCGTTAAATACGGCAAGTAATAATATCTCCAGCTATAACGTTGCCGGATATA +CCCGCCAAACCACTATTATGGCGCAGGCCAATAGCACGTTGGGCGCTGGCGGCTGGGTTGGCAATGGTGT +CTACGTTTCTGGTGTGCAGCGTGAGTATGATGCGTTTATTACCAACCAGTTACGTGCGGCGCAGACGCAA +AGTAGCGGTCTGACTGCCCGCTATGAGCAGATGTCGAAAATCGACAATATGCTCTCCACCAGTACCTCTT +CGCTGGCAACACAGATGCAGGATTTCTTCACCAGCCTGCAAACGCTGGTGAGTAACGCGGAAGACCCGGC +AGCGCGCCAGGCGCTGATTGGGAAATCAGAAGGATTGGTGAATCAGTTTAAAACCACCGATCAATATCTG +CGCGACCAGGACAAACAGGTCAATATCGCGATAGGTGCCAGCGTTGATCAGATCAACAACTACGCTAAAC +AAATTGCCAGCCTGAACGATCAAATCTCGCGCCTGACAGGCGTGGGGGCAGGGGCGTCACCTAACAATCT +GCTGGATCAACGCGATCAACTGGTGAGCGAATTAAACCAGATTGTTGGTGTAGAAGTCAGCGTTCAGGAT +GGCGGCACTTATAACATCACGATGGCCAATGGTTACTCACTGGTTCAGGGAAGTACGGCGCGGCAACTGG +CGGCAGTTCCTTCCAGCGCTGACCCTTCTCGTACGACTGTCGCTTATGTTGATGGGACGGCAGGCAATAT +TGAGATCCCGGAGAAATTACTGAATACCGGGTCGCTGGGCGGCATTCTGACATTCCGTTCTCAGGATCTG +GACCAGACGCGTAATACGCTTGGACAACTGGCGCTGGCATTTGCCGAGGCTTTCAACACCCAACACAAAG +CCGGATTTGATGCTAACGGCGATGCCGGTGAAGATTTCTTTGCTATCGGTAAGCCCGCGGTTCTGCAAAA +CACGAAAAACAAAGGTGACGTTGCGATCGGTGCCACGGTAACTGATGCCTCCGCGGTACTGGCGACAGAT +TACAAAATCTCGTTCGATAATAATCAGTGGCAGGTCACCCGCCTTGCCAGCAATACCACTTTTACGGTGA +CGCCGGATGCCAACGGTAAAGTGGCATTTGATGGTCTGGAGTTGACGTTTACAGGAACGCCTGCCGTTAA +CGACAGCTTCACGCTGAAACCAGTAAGTGACGCCATCGTCAACATGGATGTATTAATCACCGACGAAGCG +AAAATAGCGATGGCGAGCGAAGAAGATGCGGGTGATAGCGATAACCGCAACGGTCAGGCCCTGCTGGATC +TGCAAAGCAACAGTAAAACGGTGGGCGGTGCGAAATCCTTTAACGACGCTTATGCCTCGTTAGTGAGTGA +TATCGGTAATAAAACCGCGACGTTGAAAACCAGTAGCGCCACGCAAGGTAATGTGGTGACGCAGCTTTCC +AATCAGCAGCAGTCGATTTCCGGTGTCAATCTCGATGAGGAGTACGGAAATCTGCAACGTTTTCAGCAGT +ATTACCTGGCGAATGCGCAGGTTCTGCAGACGGCAAACGCGATTTTTGATGCGCTGATTAACATTCGCTA +AGGGGAGATAAGATGCGTTTCAGTACACAGATGATGTACCAGCAAAACATGCGTGGTATCACCAATTCTC +AGGCAGAATGGATGAAGTACGGCGAACAGATGTCGACGGGTAAGCGAGTCGTTAACCCTTCTGACGATCC +CATTGCTGCATCACAAGCCGTAGTTCTCTCCCAGGCACAGGCGCAAAACAGCCAGTACACGCTGGCGCGT +ACTTTCGCCACTCAAAAAGTGTCACTGGAAGAGAGTGTACTTAGCCAGGTCACCACTGCTATCCAGAATG +CTCAGGAAAAAATTGTCTACGCCAGCAATGGCACCTTGAGTGACGATGACCGGGCCTCGCTGGCTACGGA +TATTCAGGGGCTTCGTGACCAGTTGCTGAATCTGGCAAACACCACTGACGGTAACGGGCGCTACATTTTT +GCCGGTTATAAAACAGAGACTGCGCCGTTTAGCGAAGAGAAAGGGAAATACGTCGGTGGAGCAGAAAGTA +TTAAACAACAGGTCGATGCTTCGCGTTCGATGGTGATAGGGCACACGGGTGACAAAATTTTCGACAGTAT +TACCAGCAACGCGGTAGCGGAACCAGACGGTAGCGCTTCTGAAACCAATCTTTTTGCCATGCTGGATAGT +GCCATCGCAGCCCTGAAAACGCCGGTCGCGGATAGCGAAGCGGATAAAGAAACCGCCGCTGCGGCGTTAG +ATAAAACCAACCGCGGACTGAAAAACTCGCTGAACAATGTGCTGACTGTTCGCGCGGAATTAGGCACGCA +GCTGAACGAACTGGAGTCGCTGGATTCATTAGGTAGCGATCGCGCTTTAGGGCAAACGCAGCAGATGAGC +GATCTGGTTGATGTGGACTGGAATGCAACTATTTCATCTTACATCATGCAGCAAACGGCATTGCAGGCAT +CGTATAAAGCATTTACCGATATGCAGGGATTGTCGCTCTTCCAGCTCAGCAAATAATTTCGCTTTAAAAC +ATATCATGAAACTGGGTATGTTTTGTCTGCCTGCTCTGGGATCGCTGGGGCGGGCATTTTTTTGCCTATT +TTGCATTGTTGGTTAGCAAGGATGCCATTCGATGAATTTTAATATGTTGATTCAAAGATGAAATAAAAAA +GCCCTGGCAGTTACCAGGGCTTGATTACTTTGAGCTAATTATTACTCAACAGGTTGCGGACGCGCAGGAG +CGGCAGAGGCATGATGTGTTGCCGTATGACCACCTGCGGCACCTTTACCTTCGAAGGCAAAAGTAGGGCG +CTGCCAGTCACTGTGACGCGGTGCCTCCGGAACATATTCCGGTGCTGGAGCGCGCGTCATTGGCGCGGTA +GCGTGGTTATGCTCAACGGTGACCTCAGGTTCGACCGCAGCTACCGTTTCAACTTCTGCTGCGACTTCAG +CGACTACTGGCGCGGCAGGTTGAGCAACAACTTCAGGTTCAGCAACTACAACCTCAGCAGTTTCGACAAC +TTCTTCAATATCTGCCGTCTCTTCCTGCGGTTCAACCACCGGTTCTGCTTGTTCTGCAACTTCCTGGGCT +ACGGCAACATCAGACTCGGTAATCACCTGCGGCTGTTCAGTTACCGCGGCAGCGATCACTTCAGGATGCG +TCGTTTCAACCACTTCCGGTTGCGGTTCGGCAACCTGAACGGGGGCTTCTACGACACCGGCCACTTCTTC +AACAACTGGCGCGCTAACAACCGGTTCGATAGCGGCGGCGACAGGGACCTCAGTCACCATCGGCTGCACA +TGTACTTCTTCCTGTTCGCGCTGCTCTTCAACCTGTACATCTTGCGGACGTACAATTGGATAGCGGATCC +AGACTTTGCCAGAGGCCAGTTCCGGAGACGCGCACGCTACGGTCAACGGCATTGGCGACTGGGTTGGATA +ACGCTCGTCACGATAGCGACGACGACGCTGACCACTTACGCGCAGGTGACGAGGCGAGCGGCGAGAACGA +CGCGGCATGCCACCGTTGTCACGGTTATCAGCATTGTTCTCTTCTTGCTGTTCTGGTGCAGTTTGCGCTA +CGACTGGCAGCGGGACTTTCACCAGTTCTGTGCGTGGAGCTGGCGCTTCCTGAACAATTGGTTCGGCAGC +GACAGTTTCTTCAACCACCGGTGCGACTACCGCTTCTTCGGCTACGCTTTGCTCGTAACGCACTTTCTGA +TTGAGCTGACGCTGTTTACGACGCGGCTGAACCGGACGTACACGTTCTTCCTGTTCGGTTTCCTGAACAG +ATTGCTCTTCAACATTCAGCGCCTTCGCTTCTTGTTGCGCCTGACGTTTATCATCATTACGGCGGCGGCT +ACGTTCACGACGCGGCGCTTGCTGCTCGTCGGCGGTACGCGCTTTTTCCGTTACCTCAGCCTGCTGACGG +CTCTCACGCGTCTCGGCAGTCTGCTGCTGTGCCTGGCGACGATTACGACGGTTTTCTTCGCGATTATCGC +TGCCTTCAGTACGTTCACTACGGGTGTCGCGGCGCTCATTACGGTCACGGCGGTTGTTCTGACGAGGCTT +GCGACGATCCTGTTGACGTTCCGGTTTCGCTTCTGCTTTCGGTGCTGGTTGCTCGGTCGGTTTGGTTTCT +TCACCACCGCTGAACAGCGCTTTCAGTGCGCCGAAGAAGCGGCTCAACAGCCCAGGTTGTGCAGGAGCTG +CTGGTGTTGCCGGTGCAGCTTTCGGTGCTGGAGCTACAACAGGCGCGGCAGGTTCAGCTGGCGTTGGCGC +AGGCGGCACATCCGGCATGGCAAAGGTTGCCAGCGCAGGTTGTTCCGGACGCTTACGTTCAGCGAACTCT +TCTTCAGACGGCAGCGCCATCGCTTCTTCATGCAGCTTCGGCAGCATGTAGCTTAAGGTTGGGGTTTCTT +CCCCTTTACGCACGCGCAGCACGTGGTAGTGCGGGGTTTCCATCTGATCGTTTGGCACAATTACACAGCG +CACACCGTCCTGACGAGTTTCAATGGCATTTACCGCAGAACGTTTTTCATTCAGCAGGTAAGAAGCGATT +GGCACAGGAACAATGGCGTGAACTTCCTGGGTGTTCTCTTTCAGCGCTTCTTCTTCGATCAGACGCAGAA +TAGAGAGCGACAGCGATTCGTTGTCACGCACGGTGCCAGTACCAGAACAACGCGGACAAACGTGATGACT +GGATTCACCCAGTGATGGGCTCAGGCGCTGACGGGACATTTCCAGCAGGCCAAAGCGAGAAATATGGCTG +ATTTGAATACGCGCACGGTCCTGACGCACCGCTTCACGCAGACGGTTTTCTACCGCACGCTGGTGGCGTA +CTGGCGTCATGTCGATGAAGTCGATAACAATCAGGCCGCCGAGGTCACGCAGGCGCAGCTGACGAGCAAT +CTCATCGGCAGCTTCGAGGTTAGTGTTAAACGCGGTTTCTTCGATATCGCCGCCGCGGGTCGCGCGTGCG +GAGTTGATGTCGATGGCCGTTAACGCTTCGGTGCTGTCGATAACAATGGAACCACCAGACGGCAGACGAA +CTTCACGCTGGAAGGCGGACTCGATCTGTGACTCGATCTGGTAGTGGCTGAACAGCGGGATCTCGCCGGT +GTACAGTTTGATTTTGCTGCTGAAATCCGGGCGACCTAATGCAGCGATATGCTGACGTGCCAGTTCGAGC +ACTTTCGGGTTATCGATAAGGATTTCGCCGATGTCCTGACGTAAGTAATCGCGGAATGCGCGAACGATTA +CGTTGCTCTCCTGATGAATCAGGAACGGGGCCGGGCGGCTTTCAGCGGCTTTTTTGATGGCTTCCCAGTG +TTTCAGACGGAAGCTTAAATCCCATTGCAGCGCCTCAGCAGATTTGCCGACGCCAGCGGTGCGCACGATA +AGCCCCATGCCTTCCGGCAGTTCAAGGCTTGCCAGTGCTTCTTTTAATTCGGTACGGTCGTCGCCTTCGA +TACGGCGAGAAATGCCACCCGCGCGCGGGTTGTTCGGCATCAGAACCAGATAGCTACCCGCCAGACTGAT +AAAGGTGGTTAATGCCGCGCCTTTGTTGCCGCGCTCTTCTTTATCGATCTGAACAATGACTTCCTGACCT +TCACGCAACACATCTTTAATGTTGGGACGACCATGAGCACTGTAGTTAGCAGGGAAATATTCGCGGGCAA +TTTCTTTTAGTGGGAGGAAACCGTGACGTTCAGCGCCGTAATCAACAAAAGCAGCTTCCAGACTCGGTTC +AATGCGGGTGATTTTACCTTTGTAGATGTTTGCCTTTTTCTGCTCGTGCCCTGGACTTTCGATATCCAGG +TCATACAGACGCTGCCCATCTACAAGGGCAACGCGCAACTCTTCCTGCTGAGTTGCGTTGATTAACATTC +TTTTCATCGTAACTTACTCATTATTCTTACATTGACGACTAAGCTGCGGGCAAAGTAACGCCTTTCCGGG +TGTGAACCGATGGCCTCGTGTCTAGTCGCGTCGCCAACCTCACGGTTATCGTCAGCTCAAAGAGGCGCAG +AGTGTCGGTTGCCCGTTTTTCATGCGGAAAAACAGCGCAATTATCAAAGAAACAGACTGGGTATTACTCT +CCAGAAATATTTCCATCTACCGGTAAGGACTGCAACCCGCAGCCCGCTAACTGCCTGAAAGATCAATACG +TCTTACGCCATTGCTGCGTGGATGATCGGTCGGGCAAAATGGGTTATTCCGTAAAATTTCTTGTTTTAAC +AAGGATGGACACGGAAACGGCCTCATTATTCCACTGCAAGCCTTGTTATAGCAAGATGACTTTTACCATT +TATCACCCGCTTACTCACAGTTTTTTCACTTCTTGCTGGTGATTGGTTTAATAACCATCAATAAAGTGAT +CACGCAGTGAAGTAATAAGGTGCAAAAGTAAATATAAGCATAGAAAAATGAGTGGCGCGAATCCTGTTGG +CTAATTAGAATCGCCAACCATGAAAACAGAGACTCCATCCGTAAAAATTGTTGCTATCACCGCTGACGAA +GCGGGGCAACGTATCGATAACTTTTTGCGTACCCAATTGAAAGGCGTACCAAAAAGTATGATTTACCGTA +TTTTGCGTAAAGGCGAAGTGCGGGTGAACAAAAAACGTATTAAGCCTGAATATAAACTCGAAGCGGGTGA +TGAGGTGCGTATTCCACCGGTTCGCGTTGCTGAGCGGGAAGAAGAGGCGGTTTCGCCACATCTGCAAAAG +GTGGCGGCGCTGGCGGACGTCATCTTATATGAAGATGATCACATCCTGGTGCTGAATAAACCTTCCGGTA +CGGCGGTACATGGCGGCAGTGGTTTAAGCTTCGGCGTTATTGAAGGTTTGCGGGCGTTGCGCCCGGAAGC +GCGGTTCCTTGAACTGGTTCATCGTCTTGACCGGGACACCTCAGGTGTTTTGCTGGTAGCGAAAAAACGC +TCGGCGTTGCGTTCTCTGCATGAGCAATTACGTGAAAAAGGGATGCAAAAAGATTACCTGGCGCTGGTGC +GCGGTCAGTGGCAGTCGCATGTGAAGAGCGTTCAAGCACCGTTACTGAAAAATATTCTGCAAAGCGGCGA +ACGTATCGTGCGTGTGAGTCAGGAAGGCAAACCGTCGGAAACACGCTTTAAAGTGGAAGAACGCTATGCA +TTTGCCACCCTGGTGCGTTGTAGCCCGGTAACAGGGCGTACTCACCAGATCCGTGTGCATACACAATATG +CGGGTCATCCGATTGCCTTTGACGATCGCTACGGTGACCGTGAATTTGACAGGCAGCTCACTGAAGCAGG +CACGGGATTAAATCGCCTGTTCCTGCACGCTGCAGCGTTGAAGTTTACTCATCCGGGGACCGGTGAGGTG +ATGCGTATCGAAGCTCCGATGGATGAAGGTTTGAAGCGTTGTTTGCAAAAGCTGCGTAACGCGCGCTAAT +ACAAGCATATAAACCTGATAATGGGCGGTTGGCCTGATAAGGCGTTTACGCCGCATCAGGCCGCCAGCAC +CGATTGCCGGATGCGACGTAACCACATCCGGCGCAAAAAACTATCCCATCAGCGGGTTTTTCCCTTCCCG +ACGTAACATCTGACACAGCGCGATTAGCGGTAAACCAACCAGCGTGTTAGGATCACGCCCCTCTAAACGC +TCAAACAGCGTAATGCCAAATCCTTCACTCTTAAAGCTACCCGCGCAGTGCAGGGGATGCTCTTTACGCA +CGTAATTATCAATCTCCGCCTCGCTCAGGTGACGGAAATGGACGTCAAAAGGCTCCACTTCTGTTTGCAG +ATGCCCATTCGCCGAATTAAACAACGCCAGTCCAGTATAGAAGGTGACGATATTGCCGCTGGCTTTGCGT +AATTGCAGACGGGCATTTTCTTCCGTTAACGGTTTACCGGTGATTTCGCCATCAAGAACACATACCTGGT +CTGAACCAATAATTAAATGATCCGGATAACGTGACGCCAGAGATTGCGCTTTTTCTTGTGCCAGTCGAAG +CACCAACTGTCGCGGTGATTCGTCGCTGCGTGGGGTTTCGTCGACCTCTGGTGCTGCACATTCAAAAGAG +ATTTGCAGTTTTTCCAGAAGAGCGCGACGCCATGGCGAGGTGGAGGCTAAAATAAGTTTAGGCATATTTT +TTTCCATCAGATATAGCGTATTGATGATAGCCATTTTAAACTATGCGCTTCGTTTTGCAGGTTGATGTTT +GTTATCAGCACTGAACGAAAATAAAGCAGTAACCCGCAATGTGTGCGAATTATTGGCAAAAGGCAACCAC +AGGCTGCCTTTTTCTTTGACTCTATGACGTTACAAAGTTAATATGCGCGCCCTATGCAAAAGGTAAAATT +ACCCCTGACTCTCGATCCGGTTCGTACGGCTCAAAAACGCCTTGATTACCAGGGTATCTATACCCCTGAT +CAGGTTGAGCGCGTCGCCGAATCCGTAGTCAGTGTGGACAGTGATGTGGAATGCTCCATGTCGTTCGCTA +TCGATAACCAACGTCTCGCAGTGTTAAACGGCGATGCGAAGGTGACGGTAACGCTCGAGTGTCAGCGTTG +CGGGAAGCCGTTTACTCATCAGGTCTACACAACGTATTGTTTTAGTCCTGTGCGTTCAGACGAACAGGCT +GAAGCACTGCCGGAAGCGTATGAACCGATTGAGGTTAACGAATTCGGTGAAATCGATCTGCTTGCAATGG +TTGAAGATGAAATCATCCTCGCCTTGCCGGTAGTTCCGGTGCATGATTCTGAACACTGTGAAGTGTCCGA +AGCGGACATGGTCTTTGGTGAACTGCCTGAAGAAGCGCAAAAGCCAAACCCATTTGCCGTATTAGCCAGC +TTAAAGCGTAAGTAATTGGTGCTCCCCGTTGGATCGGGGATAAACCGTAATTGAGGAGTAAGGTCCATGG +CCGTACAACAGAATAAACCAACCCGTTCCAAACGTGGCATGCGTCGTTCCCATGACGCGCTGACCGCAGT +CACCAGCCTGTCTGTAGACAAAACTTCTGGTGAAAAACACCTGCGTCACCACATCACTGCCGACGGTTAC +TACCGCGGCCGCAAGGTCATCGCTAAGTAATCACGCATCTGCGTGATGAAGCTTAGTGAGGATTTTCCCC +AGGCAACTGGGGAAAGACCAAACCGGGCGGCGACGATACCTTGACACGTCTAACCCTGGCGTTAGATGTC +ATGGGAGGGGATTTTGGCCCTTCCGTGACAGTGCCTGCAGCATTGCAGGCACTGAATTCTAATTCGCAAC +TCACTCTTCTTTTAGTCGGCAATTCCGACGCCATCACGCCATTACTTGCTAAAGCTGACTTTGAACAACG +TTCGCGTCTGCAGATTATTCCTGCGCAGTCAGTTATCGCCAGTGATGCCCGGCCTTCGCAAGCTATCCGC +GCCAGTCGTGGGAGTTCAATGCGCGTGGCCCTGGAGCTGGTGAAAGAAGGTCGAGCGCAAGCCTGTGTCA +GTGCCGGTAATACCGGGGCGCTGATGGGGCTGGCAAAATTATTACTCAAGCCCCTGGAGGGGATTGAGCG +TCCGGCGCTGGTGACGGTATTACCACATCAGCAAAAGGGCAAAACGGTGGTCCTTGACTTAGGGGCCAAC +GTCGATTGTGACAGCACAATGCTGGTGCAATTTGCCATTATGGGCTCAGTTCTGGCTGAAGAGGTGGTGG +AAATTCCCAATCCTCGCGTGGCGTTGCTCAATATTGGTGAAGAAGAAGTAAAGGGTCTCGACAGTATTCG +GGATGCCTCAGCGGTGCTTAAAACAATCCCTTCTATCAATTATATCGGCTATCTTGAAGCCAATGAGTTG +TTAACTGGCAAGACAGATGTGCTGGTTTGTGACGGCTTTACAGGAAATGTCACATTAAAGACGATGGAAG +GTGTTGTCAGGATGTTCCTTTCTCTGCTGAAATCTCAGGGTGAAGGGAAAAAACGGTCGTGGTGGCTACT +GTTATTAAAGCGTTGGCTACAAAAGAGCCTGACGAGGCGATTCAGTCACCTCAACCCCGACCAGTATAAC +GGCGCCTGTCTGTTAGGATTGCGCGGCACGGTGATAAAAAGTCATGGTGCAGCCAATCAGCGAGCTTTTG +CGGTCGCGATTGAACAGGCAGTGCAGGCGGTGCAGCGACAAGTTCCTCAGCGAATTGCCGCTCGCCTGGA +ATCTGTATACCCAGCTGGTTTTGAGCTGCTGGACGGTGGCAAAAGCGGAACTCTGCGGTAGCAGGACGCT +GCCAGCGAACTCGCAGTTTGCAAGTGACGGTATATAACCGAAAAGTGACTGAGCGTACATGTATACGAAG +ATTATTGGTACTGGCAGCTATCTGCCCGAACAAGTGCGGACAAACGCCGATTTGGAAAAAATGGTGGACA +CCTCTGACGAGTGGATTGTCACTCGTACCGGTATCCGCGAACGCCACATTGCCGCGCCAAACGAAACCGT +TTCAACCATGGGCTTTGAAGCGGCGACACGCGCAATTGAGATGGCGGGCATTGAGAAAGACCAGATTGGC +CTGATCGTTGTGGCAACGACTTCTGCTACGCACGCTTTCCCGAGCGCAGCTTGTCAGATTCAAAGCATGT +TGGGCATTAAAGGTTGCCCGGCATTTGACGTTGCAGCAGCCTGCGCAGGTTTCACCTATGCATTAAGCGT +AGCCGATCAATACGTGAAATCTGGGGCGGTGAAGTATGCTCTGGTCGTCGGTTCCGATGTACTGGCGCGC +ACCTGCGATCCAACCGATCGTGGGACTATTATTATTTTTGGCGATGGCGCGGGCGCTGCGGTGCTGGCTG +CCTCTGAAGAGCCGGGAATCATTTCCACCCATCTGCATGCCGACGGTAGTTATGGTGAATTGCTGACGCT +GCCAAACGCCGACCGCGTGAATCCAGAGAATTCAATTCATCTGACGATGGCGGGCAACGAAGTCTTCAAG +GTTGCGGTAACGGAACTGGCGCACATCGTTGATGAGACGCTGGCGGCGAATAATCTTGACCGTTCTCAAC +TGGACTGGCTGGTTCCGCATCAGGCTAACCTGCGTATTATCAGTGCAACGGCGAAAAAACTCGGTATGTC +TATGGATAATGTCGTGGTGACGCTGGATCGCCACGGTAATACCTCTGCGGCCTCTGTCCCGTGCGCGCTG +GATGAAGCTGTACGCGACGGGCGCATTAAGCCGGGGCAGTTGGTTCTGCTTGAAGCCTTTGGCGGTGGAT +TCACCTGGGGCTCCGCGCTGGTTCGTTTCTAGGATAAGGATTAAAACATGACGCAATTTGCATTTGTGTT +CCCTGGACAGGGTTCTCAAACCGTTGGAATGCTGGCTGATATGGCGGCGAGCTATCCAATTGTCGAAGAA +ACGTTTGCTGAAGCTTCTGCGGCGCTGGGCTACGACCTGTGGGCGCTGACCCAGCAGGGGCCAGCTGAAG +AACTGAATAAAACCTGGCAAACTCAGCCTGCGCTGTTGACTGCATCTGTTGCGCTGTATCGCGTATGGCA +GCAGCAGGGCGGTAAAGCACCGGCAATGATGGCCGGTCACAGCCTGGGGGAATACTCCGCGCTGGTTTGC +GCTGGTGTGATTGATTTCGCTGATGCGGTGCGTCTGGTTGAGATGCGCGGCAAGTTCATGCAAGAAGCCG +TACCGGAAGGCACGGGCGCTATGGCGGCAATCATCGGTCTGGATGATGCGTCTATTGCGAAAGCGTGTGA +AGAAGCTGCAGAAGGTCAGGTCGTTTCTCCGGTAAACTTTAACTCTCCGGGACAGGTGGTTATTGCCGGT +CATAAAGAAGCGGTTGAGCGTGCTGGCGCTGCCTGTAAAGCGGCGGGCGCAAAACGCGCGCTGCCGTTAC +CAGTGAGCGTACCGTCTCACTGTGCGCTGATGAAACCAGCAGCCGACAAACTGGCAGTAGAATTAGCGAA +AATCACCTTTAACGCACCAACAGTTCCTGTTGTGAATAACGTTGATGTGAAATGCGAAACCAATGGTGAT +GCCATCCGTGACGCACTGGTACGTCAGTTGTATAACCCGGTTCAGTGGACGAAGTCTGTTGAGTACATGG +CAGCGCAAGGCGTAGAACATCTCTATGAAGTCGGCCCGGGCAAAGTGCTTACTGGCCTGACGAAACGCAT +TGTCGACACCCTGACCGCCTCGGCGCTGAACGAACCTTCAGCGATGGCAGCGGCGCTCGAGCTTTAAAAG +AGGAAAATCATGAATTTTGAAGGAAAAATCGCACTGGTAACCGGTGCAAGCCGCGGAATTGGCCGCGCAA +TTGCTGAAACGCTCGCAGCCCGTGGCGCGAAAGTTATTGGCACTGCGACCAGTGAAAATGGCGCTCAGGC +GATCAGTGATTATTTAGGTGCCAACGGCAAAGGTCTGATGTTGAATGTGACCGACCCGGCATCTATCGAA +TCTGTTCTGGAAAAAATTCGCGCAGAATTTGGTGAAGTGGATATCCTGGTCAATAATGCCGGTATCACTC +GTGATAACCTGTTAATGCGAATGAAAGATGAAGAGTGGAACGATATTATCGAAACCAACCTTTCATCTGT +TTTCCGTCTGTCAAAAGCGGTAATGCGCGCTATGATGAAAAAGCGTCATGGTCGTATTATCACTATCGGT +TCTGTGGTTGGTACCATGGGAAATGGCGGTCAGGCCAACTACGCTGCGGCGAAAGCGGGCTTGATCGGCT +TCAGTAAATCACTGGCGCGCGAAGTTGCGTCACGCGGTATTACTGTAAACGTTGTTGCTCCGGGCTTTAT +TGAAACGGACATGACACGTGCGCTGAGCGATGACCAGCGTGCGGGTATCCTGGCGCAGGTTCCTGCGGGT +CGCCTCGGCGGCGCACAGGAAATCGCCAACGCGGTTGCATTCCTGGCATCCGACGAAGCAGCTTACATCA +CGGGTGAAACTTTGCATGTGAACGGCGGGATGTACATGGTCTGACCGCGATTTGCACAAAATGCTCATGT +TGCGCGCAGTCTGCGTGGTTATGAGTAATAATTAGTGCAAAATGATTTGCGTTATTGGGGGGTAAGGCCT +CAAAATAACGTAAAATCGTGGTAAGACCTGCCGGGATTTAGTTGCAAATTTTTCAACATTTTATACACTA +CGAAAACCATCGCGAAAGCGAGTTTTGATAGGAAATTTAAGAGTATGAGCACTATCGAAGAACGCGTTAA +GAAAATTATCGGCGAACAGCTGGGCGTTAAGCAGGAAGAAGTTACCAACAATGCTTCTTTCGTTGAAGAC +CTGGGCGCGGATTCTCTTGACACCGTTGAGCTGGTAATGGCTCTGGAAGAAGAGTTTGATACTGAGATTC +CGGACGAAGAAGCTGAGAAAATCACCACCGTTCAGGCTGCCATTGATTACATCAACGGCCACCAGGCGTA +AGTGAACATCTCCAGGCGGTCGTTCGACCGCCTGAGTTTTATCTTTTTGTCCCACTAGAATCATTTTTTC +CCTCCCTGGAGGACAAACGTGTCTAAGCGTCGTGTAGTTGTGACCGGACTGGGCATGTTGTCTCCTGTCG +GCAATACCGTAGAGTCTACCTGGAAAGCTCTGCTTGCCGGTCAGAGTGGCATCAGCCTAATCGACCATTT +CGATACTAGCGCCTATGCAACGAAATTTGCTGGCTTAGTAAAGGATTTTAACTGTGAGGACATTATCTCG +CGCAAAGAACAGCGCAAGATGGATGCCTTCATTCAATATGGAATTGTCGCTGGCGTTCAGGCCATGCAGG +ATTCTGGCCTTGAAATAACGGAAGAGAACGCAACCCGCATTGGTGCCGCAATTGGCTCCGGGATTGGCGG +CCTCGGACTGATCGAAGAAAACCACACATCTCTGATGAACGGTGGTCCACGTAAGATCAGCCCATTCTTC +GTTCCGTCAACGATTGTGAACATGGTGGCAGGTCATCTGACTATCATGTATGGCCTGCGTGGCCCGAGCA +TCTCTATCGCGACTGCCTGTACTTCCGGCGTGCACAACATTGGCCATGCTGCGCGTATTATCGCGTATGG +CGATGCTGACGTGATGGTTGCAGGTGGCGCAGAGAAAGCCAGTACGCCGCTGGGCGTTGGTGGTTTTGGC +GCGGCACGTGCATTATCTACCCGCAATGATAACCCGCAAGCGGCGAGCCGCCCGTGGGATAAAGAGCGTG +ATGGTTTCGTACTGGGCGATGGTGCCGGTATGCTGGTACTTGAAGAGTACGAACACGCGAAAAAACGCGG +TGCGAAAATTTACGCTGAACTCGTCGGCTTTGGTATGAGCAGCGATGCTTATCATATGACGTCACCGCCA +GAAAATGGCGCAGGCGCAGCTCTGGCGATGGCAAATGCTCTGCGTGATGCAGGCATTGAAGCGAGTCAGA +TTGGCTACGTTAACGCGCACGGTACTTCTACGCCGGCTGGCGATAAAGCTGAAGCGCAGGCGGTGAAAAC +CATCTTCGGTGAAGCTGCAAGCCGTGTGTTGGTAAGCTCCACGAAATCTATGACCGGTCACCTGTTAGGT +GCGGCGGGTGCAGTAGAATCTATCTACTCCATCCTGGCGCTGCGCGATCAGGCTGTTCCGCCAACCATCA +ACCTGGATAACCCGGATGAAGGTTGCGATCTGGATTTCGTACCGCACGAAGCGCGTCAGGTTAGCGGAAT +GGAATACACTCTGTGTAACTCCTTCGGCTTCGGTGGCACTAATGGTTCTTTGATCTTTAAAAAGATCTAA +GTTGTCATTTTCCACCCTTATAAAAGGTCCGCTTGCGGGCCTTTTTTCTTAGCTTTTATTCCGACTTGTT +CCGTAGTGAACATGCTGCCACACTAACAATTCTCTGATAAGGAGCCGGTATGTTCTTAATTAACGGTCAT +AAGCAGGAATCGCTGGCAGTAAGCGATCGGGCAACGCAGTTTGGTGATGGTTGTTTTACCACCGCCAGAG +TTATCGACGGTAAAGTCAGTTTGTTATCGGCGCATATCCAGCGACTACAGGATGCTTGTCAGCGGTTGAT +GATTTCCTGTGACTTCTGGCCTCAGCTTGAACAAGAGATGAAAACGCTGGCAGCAGAACAGCAAAATGGT +GTGCTGAAAGTCGTGATCAGTCGCGGTAGTGGCGGGCGAGGGTACAGCACATTGAACAGCGGACCGGCAA +CGCGGATTCTCTCCGTTACGGCTTATCCTGCACATTACGACCGTTTGCGTAACGAGGGGATTACGTTGGC +GCTAAGCCCGGTGCGGCTGGGGCGCAATCCTCATCTTGCAGGTATTAAACATCTCAATCGTCTTGAGCAA +GTATTGATTCGCTCTCATCTTGAGCAGACAAACGCTGATGAGGCGCTGGTCCTTGACAGCGAAGGGTGGG +TTACGGAATGCTGTGCGGCTAATTTGTTCTGGCGGAAGGGCAACGTAGTTTATACGCCGCGACTGGATCA +GGCAGGTGTTAACGGCATTATGCGACAATTCTGTATCCGTTTGCTGGCACAATCCTCTTATCAGCTTGTC +GAAGTGCAAGCCTCTCTGGAAGAGTCGTTGCAGGCAGATGAGATGGTTATTTGTAATGCGTTAATGCCAG +TGATGCCCGTATGTGCCTGTGGCGATGTCTCCTTTTCGTCAGCAACGTTATATGAATATTTAGCCCCACT +TTGTGAGCGCCCGAATTAGTCATGAAAAAAGTGTTATTGATAATCTTGTTATTGCTGGTGGTACTGGGTA +TCGCCGCTGGTGTGGGCGTCTGGAAGGTTCGCCATCTTGCCGACAGCAAATTGCTTATCAAAGAAGAGAC +GATATTTACCCTGAAGCCAGGGACCGGACGTCTGGCGCTCGGTGAACAGCTTTATGCCGATAAGATCATC +AATCGTCCACGGGTTTTTCAATGGCTGCTGCGTATCGAACCGGATCTTTCTCACTTTAAAGCCGGGACTT +ACCGCTTTACACCGCAGATGACCGTGCGCGAGATGCTGAAATTGCTGGAAAGCGGTAAAGAAGCACAGTT +CCCTCTGCGACTGGTAGAAGGGATGCGTCTGAGCGATTACCTCAAGCAATTGCGTGAGGCCCCGTATATC +AAGCATACGCTGAGCGATGATAAGTACGCCACCGTAGCGCAGGCACTTGAACTGGAAAACCCGGAGTGGA +TTGAAGGTTGGTTCTGGCCAGACACCTGGATGTATACCGCCAATACCACCGATGTCGCGTTACTCAAGCG +AGCGCACAAGAAAATGGTGAAAGCGGTCGATAGCGCCTGGGAAGGGCGTGCGGACGGTCTGCCTTATAAA +GATAAAAACCAGTTGGTGACGATGGCATCAATTATCGAAAAAGAAACCGCCGTTGCCAGTGAACGCGATA +AGGTTGCCTCAGTATTTATCAACCGTTTACGCATTGGTATGCGCCTGCAGACCGACCCGACCGTGATTTA +CGGGATGGGAGAGCGTTATAATGGCAAACTTTCTCGTGCAGACCTGGAAACGCCGACAGCGTATAACACC +TATACCATTACCGGTCTGCCGCCAGGTGCGATAGCGACGCCGGGGGCGGATTCGCTGAAGGCTGCTGCGC +ATCCGGCAAAAACGCCGTATCTCTATTTTGTGGCCGATGGTAAAGGTGGTCACACGTTTAATACCAATCT +TGCCAGTCATAACAAGTCTGTGCAGGATTATCTGAAAGTGCTTAAGGAAAAAAATGCGCAGTAAGTATAT +CGTCATTGAGGGGCTGGAAGGCGCAGGCAAAACTACCGCGCGTAATGTGGTGGTTGAGACGCTCGAGCAA +CTGGGTATCCGCGACATGGTTTTCACTCGGGAACCTGGCGGTACGCAACTTGCCGAAAAGTTAAGAAGCC +TGGTGCTGGATATCAAATCGGTAGGCGATGAAGTCATTACCGATAAAGCCGAAGTTCTGATGTTTTATGC +CGCGCGCGTTCAACTGGTAGAAACGGTCATCAAACCAGCTCTGGCTAACGGCACCTGGGTGATTGGCGAT +CGCCACGATCTCTCCACTCAGGCGTATCAGGGCGGCGGACGTGGTATTGACCAACATATGCTGGCAACAC +TGCGTGATGCTGTTCTCGGGGATTTTCGCCCCGACTTAACGCTCTATCTCGATGTTACCCCGGAAGTTGG +CTTAAAACGCGCGCGTGCGCGCGGCGAGCTGGATCGTATTGAGCAAGAATCTTTCGATTTCTTTAATCGC +ACCCGCGCCCGCTATCTGGAACTGGCAGCACAAGATAAAAGCATTCATACCATTGATGCCACCCAGCCGC +TGGAGGCCGTGATGGATGCAATCCGCACTACCGTGACCCACTGGGTGAAGGAGTTGGACGCATGAGATGG +TATCCATGGTTACGACCTGATTTCGAAAAACTGGTAGCCAGCTATCAGGCCGGAAGAGGTCACCATGCGC +TACTCATTCAGGCGTTACCGGGCATGGGCGATGATGCTTTAATCTACGCCCTGAGCCGTTATTTACTCTG +CCAACAACCGCAGGGCCACAAAAGTTGCGGTCACTGTCGTGGATGTCAGTTGATGCAGGCTGGCACGCAT +CCCGATTACTACACCCTGGCTCCCGAAAAAGGAAAAAATACGCTGGGCGTTGATGCGGTACGTGAGGTCA +CCGAAAAGCTGAATGAGCACGCACGCTTAGGTGGTGCGAAAGTCGTTTGGGTAACCGATGCTGCCTTACT +AACCGACGCCGCGGCTAACGCATTGCTGAAAACGCTTGAAGAGCCACCAGCAGAAACTTGGTTTTTCCTG +GCTACCCGCGAGCCTGAACGTTTACTGGCAACATTACGTAGTCGTTGTCGGTTACATTACCTTGCGCCGC +CGCCGGAACAGTACGCCGTGACCTGGCTTTCACGCGAAGTGACAATGTCACAGGATGCATTACTTGCCGC +ATTGCGCTTAAGCGCCGGTTCGCCTGGCGCGGCACTGGCGTTGTTTCAGGGAGATAACTGGCAGGCTCGT +GAAACATTGTGTCAGGCGTTGGCATATAGCGTGCCATCGGGCGACTGGTATTCGCTGCTAGCGGCCCTTA +ATCATGAACAAGCTCCGGCGCGTTTACACTGGCTGGCAACGTTGCTGATGGATGCGCTAAAACGCCATCA +TGGTGCTGCGCAGGTGACCAATGTTGATGTGCCGGGCCTGGTCGCCGAACTGGCAAACCATCTTTCTCCC +TCGCGCCTGCAGGCTATACTGGGGGATGTTTGCCACATTCGTGAACAGTTAATGTCTGTTACAGGCATCA +ACCGCGAGCTTCTCATCACCGATCTTTTACTGCGTATTGAGCATTACCTGCAACCGGGCGTTGTGCTACC +GGTTCCTCATCTTTAAGAGAGACATCATGTTTTTAGTCGACTCACACTGCCATCTCGATGGTCTGGATTA +TGAATCTTTGCATAAGGACGTGGATGACGTTCTGGCGAAAGCCGCCGCACGCGATGTGAAATTTTGTCTG +GCAGTCGCCACAACATTACCGGGTTATTTACATATGCGGGATCTGGTAGGCGAACGTGACAACGTCGTAT +TTTCTTGTGGCGTGCATCCACTCAACCAGAATGATCCCTACGATGTAGAAGATTTACGCCGTCTGGCGGC +AGAAGAGGGTGTTGTAGCGCTGGGTGAAACCGGGCTGGATTATTATTACACGCCGGAAACTAAAGTACGT +CAGCAAGAGTCCTTCATCCATCATATCCAGATTGGTCGTGAACTGAACAAGCCGGTTATCGTCCATACCC +GTGACGCCCGTGCCGATACGCTGGCAATTCTGCGCGAAGAAAAAGTGACGGATTGCGGTGGCGTACTACA +CTGTTTTACAGAGGACAGAGAAACGGCGGGTAAATTACTGGATCTCGGATTTTACATCTCCTTTTCCGGC +ATTGTGACCTTCCGTAATGCGGAGCAACTGCGCGATGCTGCGCGTTATGTCCCCCTGGATCGGTTACTGG +TGGAAACTGACTCACCTTACCTTGCGCCGGTACCGCATCGAGGAAAAGAGAATCAACCTGCGATGGTTCG +TGACGTTGCAGAATACATGGCTGTGTTGAAAGGTGTTGCCGTTGAAGAACTGGCGCAGGTAACCACCGAT +AACTTCGCCCGTCTGTTTCACATCGACGCTTCCCGCCTTCAATCCATCCGTTGAATGAGTTTTTTTAAAG +CTCGTAATTAATGGCTAAAACGAGTAAAGTTCACCGCCGAAAATTGGGCGGTGAATAACCACGTTTGAAA +TATTGTGACATATGTTTTGTCAAAATGTGCAACTTCTCCAATGATCTGAAGTTGAAACGTGATAGCCGTC +AAACAAATTGGCACTGAATTATTTTACTCTGTGTAATAAATAAAGGGCGCTTAGATGCCCTGTACACGGC +GAGGCTCTCCCCCCTTGCCACGCGTGAGAACGTAAAAAAAGCACCCATACTCAGGAGCACTCTCAATTAT +GTTTAAGAATGCATTTGCTAACCTGCAAAAGGTCGGTAAATCGCTGATGCTGCCGGTATCCGTACTGCCT +ATCGCAGGTATTCTGCTGGGCGTCGGTTCCGCGAATTTCAGCTGGCTGCCCGCCGTTGTATCGCATGTTA +TGGCAGAAGCAGGCGGTTCCGTCTTTGCAAACATGCCACTGATTTTTGCGATCGGTGTCGCCCTCGGCTT +TACCAATAACGATGGCGTATCCGCGCTGGCCGCAGTTGTTGCCTATGGCATCATGGTTAAAACCATGGCC +GTGGTTGCGCCACTGGTACTGCATTTACCTGCTGAAGAAATCGCCTCTAAACACCTGGCGGATACTGGCG +TACTCGGAGGGATTATCTCCGGTGCGATCGCAGCGTACATGTTTAACCGTTTCTACCGTATTAAGCTGCC +TGAGTATCTTGGCTTCTTTGCCGGTAAACGCTTTGTGCCGATCATTTCTGGCCTGGCTGCCATCTTTACT +GGCGTTGTGCTGTCCTTCATTTGGCCGCCGATTGGTTCTGCAATCCAGACCTTCTCTCAGTGGGCTGCTT +ACCAGAACCCGGTAGTTGCGTTTGGCATTTACGGTTTCATCGAACGTTGCCTGGTACCGTTTGGTCTGCA +CCACATCTGGAACGTACCTTTCCAGATGCAGATTGGTGAATACACCAACGCAGCAGGTCAGGTTTTCCAC +GGCGACATTCCGCGTTATATGGCGGGTGACCCGACTGCGGGTAAACTGTCTGGTGGCTTCCTGTTCAAAA +TGTACGGTCTGCCAGCTGCCGCAATTGCTATCTGGCACTCTGCTAAACCAGAAAACCGCGCGAAAGTGGG +CGGTATTATGATCTCCGCGGCGCTGACCTCGTTCCTGACCGGTATCACCGAGCCGATCGAGTTCTCCTTC +ATGTTCGTTGCGCCGATCCTGTACATCATCCACGCGATTCTGGCAGGCCTGGCATTCCCAATCTGTATTC +TTCTGGGGATGCGTGACGGTACGTCGTTCTCGCACGGTCTGATCGACTTCATCGTTCTGTCTGGTAACAG +CAGCAAACTGTGGCTGTTCCCGATCGTCGGTATCGGTTATGCGATTGTTTACTACACCATCTTCCGCGTG +CTGATTAAAGCACTGGATCTGAAAACGCCGGGTCGTGAAGACGCGACTGAAGATGCAAAAGCGACAGGTA +CCAGCGAAATGGCACCGGCTCTGGTTGCTGCATTTGGTGGTAAAGAAAACATTACTAACCTCGACGCATG +TATTACCCGTCTGCGCGTCAGCGTTGCTGATGTGTCTAAAGTGGATCAGGCCGGCCTGAAGAAACTGGGC +GCAGCGGGCGTAGTGGTTGCTGGTTCTGGTGTTCAGGCGATTTTCGGTACTAAATCCGATAACCTGAAAA +CCGAGATGGATGAGTACATCCGTAACCACTAATCCGTAAGACGTTGGGGAGACTAAGGCAGCCAGATGGC +TGCCTTTTTTACAGGTGTTATTCAGAATTGATACGTGCCGGTAATGCTGAAATTACGCGGTGTGCCGTAG +ACGATAGAACCTTCCACGTTGGTATCGTAGGTTTTGTCGAACAGGTTATTGACGTTCCCCTGTAACGAGA +AGTTTTTCGTCACCTGGTAGCGGGTGAAGAGATCCACCAGCGCGTAGCTACCTTGCTCGGCGCGGAAGGT +GCCATACGGCGTCACGGTGTCGGTATACACGCGATTTTGCCAGTTAACACCACCGCCGACCGTCAACTCT +GGCATGACAGGCAACCGATAGCTGGTGAACATTTTAACCGTGGTGCGTGGCAGATTAGGATTAACGGCGT +TTCCTTCGTTATCCTCTGCAATATAGCGCGTTGCGCCAAATGTCAGCTGCCAGTTGTCGGTAATTGCGCC +GTTGAGTTCAAATTCCACCCCTTTACTGACTGTCCCATCCACCGCTTTATAGGCGGTTTCGCCGTTGCTG +CCGGGGATAGGTGTACCGGTGGACTGAGCGACATTATCCTGCTCAATACGGAAGATGGCTAACGTGGTGG +TCAGACGGCTATTCATCCAGTCCGATTTCAGACCCAGCTCGTAGTTGTTACCGGTGATTGGAGCCAGATA +TTTGCCTGAACTGTCACGATCATTTTGCGGCTGGAAAATAGAGGTATAGCTGGCGTAGGTCGACCAGTTG +TCATTGATGTCAAACACCAGACCAGCGTAAGGCGTGGTGTGGTTTTTCTCCATGCTGTAAGTCAGCGTAT +CAACCCGCCAGTTGGTATAACGTGCGCCGAGGATCAGATGCAGCGGATCGGCAAGGGTGACACGAGTGGC +AGCATATAACGATTTCATATGTGTGGTATCGTCCTGCGCCAGGCTCTGTGGTGACCAGTCGGTTTGTGGG +AAATTGCCATTAAAGTTGTAGAAACTGCCAATTTCATCCGGGAAGATGTTGGCCCATGAACTGAAGTAAC +GATTGTTTTGTTTGCTGTAACTGCCACCAAACATTAGATTGTGCTGACGACCAAACAATTCATAACTACC +GTCAGCGAACAAATCCAGCGCATCAACTTTACGTTTGCCACTGTTCCAACCGGTGCCGCCGACATAATCA +AAGCCAGGTCCATAATTACTGTATGGCCCAACCAGCATACCATCCGCTTTGTTTACATAGGCATCGACAT +ACATCATTTTGCTGTCAAATTCGACTTCAGAGTGGGTGGCATTCAGTGTCGCTTGCCAGGTATCAGCAAA +CTGCTGCTTCAGGGTCATAAAGACCTTGTTGATCTCTTTATCGTTGTACGCCCAGTCAGGTGCGGTACTG +CGTGCGCGATCGTAACTGTTGCTGCTGCCATCAGTATTCCAGCGCGGTAAACCGCCCCAGGTAGGGCTAT +TAACATCAATGCGCTGATATTCGTAACCGGCTGAAAGCGTCGTAAGATCGCCTAAATCAGCATCGACAAT +GCCCGAGAAGAAGGTCTTTTCACTGTTGTAGCGGTCCAGCCATGAGTCGTTATTCTGGTAGCCGCCGACA +ATTCGCGCGCGGATTTTACCGTCTTCGGTGAGTGGGCTTTGTAAATCCGCCACATACCGTTCTTTGTTCC +AGCTACCGTATTCCGCCGAGACATCGCCTTTAAATTCACGACTGGTCGCGTGTTTTCGAACCATATTAAT +TGCCGCAGATGGATTACCCGTCCCGGTCATGAGTCCTGTCGCGCCACGCACTACTTCTACGCGTTCAAAG +AGTGCCATATCAGAAAGTGCGTCGCCCAGATTCCAGCGCGATTCAAAATAGGTGGGGATACCATCAACCA +TATAGTTATCGATCTGGAATCCGCGGGAATAATAAAGAGCACGATCGGAATCCGCCTGACTTTTGCTGAT +CCCCAGCGTGTTTTCCATCACTTCGCCCAGCGTTTGTAACTGCTGATCTTCCATCCGCTGCTGGCTAACA +ATAGTGACCGACTGAGGAATATCACGTTGAGTCATCTGCATTTTGGTACCCGCAGAGGTAGACGTTACGC +TGTAATCATTTTCGCCATCATCTGGAGCTGTGGCTGAACCCTCAACAATCACCGTTTCTTCAGTGGCTGG +TGCAGCAAAAGCGGCAGAAGGTAATAGTGCCAGTGCTATGCAACCGGCAAGTAGTGACGGTTTGGTGATG +GCTTGATATTGATTATCCCTGTTAAATTGTGTTGAAAGCATTTGAAATCTCTTGGTTTATGTTGTCGTCA +GGCTCATGCCGGAGGAGGGTGATGAGCGATTATATTTAGTGTGCGAATAATTTTGTTTGTAAATGCAAAT +GAGAAATATACGCATTCATATTTGTCATGTAAACCAAACAGAGAATGTCTTTTCAGCGCATTCGCAGGCA +GAAATGGGAATAATGGCGATATATACGGCAGCAAAACGATTTTTTGCTTAAGAAATCGTGAGTTAAGGTT +GAAAGAGCAGGTTTAACTCGACCATACTCTATACTCGCAGTGTGGCGCGGCGTAGCATGGCGCAACGCAT +GGCTATTTGAAAAAGGAAAATGTCGTGGCAGAAGAAACTATATTCAGCAAAATTATTCGTCGTGAGATCC +CCTCCGATATCGTCTACCAGGATGATCTGGTAACGGCGTTTCGCGATATTTCGCCGCAAGCGCCAACGCA +TATTCTGATCATTCCGAATATCCTCATTCCGACTGTGAACGACGTCTCAGCTGAGCATGAGCAGGCGCTG +GGACGCATGATCACCGTAGCGGCAAAAATTGCTGAGCAAGAAGGTATTGCCGAAGATGGCTATCGTCTGA +TCATGAATACCAACCGCCATGGCGGACAAGAGGTTTACCACATCCATATGCACTTGTTGGGTGGCCGTCC +GCTGGGACCAATGCTGGCGCATAAAGGTCTGTAACGATGAGAAAAGGATGCTTTGGGCTGGTGTCTCTGG +TGTTGTTACTGCTGGTGGGCTGTCGTTCACATCCGGAAATTCCGGTGAATGATGAGCAATCGCTGGTGAT +GGAGTCATCTTTATTGGCTGCGGGCATCAGTGCAGAAAAGCCCTTCCTTTCGACGTCTGATATTCAACCT +TCAGCATCCTCAACGCTTTATAACGAAAGGCAAGAACCCGTTACCGTTCATTATCGTTTTTACTGGTATG +ACGCCAGAGGGCTGGAGATGCATCCTCTGGAAAGGCCACGCAGCGTTACCATTCCCGCACATTCGGCGGT +AACGCTGTACGGCAGCGCCAATTTTCTGGGGGCGCACAAAGTCAGACTTTATCTATATTTGTAAGGGGTG +AATCTTGATGACAAAAATGAGTCGCTACGCCTTGATTACCGCGCTGGCGATGTTTCTCGCCGGGTGTGTG +GGGCAACGTGAACCTGCACCGGTAGAAGAAGTGAAACCAGCGCCGGAACAACCAGCCGAGCCACAACAGC +CTGTCCCCACAGTGCCCTCGGTGCCGACGATCCCGCAGCAGCCAGGCCCAATTGAGCACGAAGATCAAAC +TGCACCGCCTGCGCCGCATATTCGCCATTATGACTGGAATGGCGCAATGCAGCCGATGGTCAGTAAGATG +CTTGGGGCTGACGGGGTGACTGCGGGTAGCGTCCTGCTGGTTGATAGCGTTAACAACCGTACTAACGGTT +CGCTGAATGCCGCAGAAGCGACCGAAACGCTGCGAAATGCGCTGGCTAATAACGGGAAATTTACCCTGGT +TTCCGCCCAGCAACTGTCGATGGCGAAGCAACAGTTAGGTTTGTCGCCGCAGGACAGTTTAGGCACCCGT +AGTAAAGCCATAGGCATTGCCCGCAATGTCGGCGCTCATTACGTGCTGTACTCCAGCGCCTCTGGCAACG +TTAACGCTCCGACCCTACAAATGCAGCTGATGCTGGTGCAGACGGGCGAAATTATCTGGTCAGGTAAAGG +TGCCGTTTCGCAGCAATAATCCCATCACGCGCGACGAATTGCTGTCGCGCTTTTTCCCGCAGTATCATCC +CGTCACGACGTTTAATAGTGGGCTTAGTGGCGGGAGTTTTCTCATTGAACATCAGGGCCAGCGTTTTGTT +GTGCGTCAGCCGCACGATCCTGATGCGCCGCAGTCCGCGTTCTTGCGCCAGTATCGGGCTTTATCACAAC +TACCCGCATGCATTGCACCGAAGCCGCATTTATATCTCCGTGACTGGATGGTAGTCGACTATCTGCCCGG +CGCGGTAAAAACGTATTTGCCGGATACCAACGAACTGGCAGGCTTGCTGTATTATCTACATCAACAACCA +CGTTTTGGCTGGCGAATAACGCTGTTGCCGTTACTGGAACTGTACTGGCAGCAAAGCGATCCGGCGCGGC +GGACAGTGGGTTGGCTGCGAATGTTAAAACGTCTGCGCAAAGCGCGGGAACCACGGCCTTTACGCTTAAG +TCCATTGCATATGGATGTCCACGCCGGAAATTTAGTGCATAGCGCGTCAGGGTTAAAACTCATCGACTGG +GAGTATGCCGGAGATGGTGATATCGCGCTGGAACTGGCGGCGGTGTGGGTGGAAAATACTGAACAGCACC +GGCAATTGGTCAATGACTATGCCACTCGCGCGAAGATTTATCCGGCGCAATTATGGCGTCAGGTCAGGCG +ATGGTTTCCCTGGCTGCTGATGCTCAAAGCAGGGTGGTTTGAGTACCGCTGGCGACAAACCGGCGATCAA +CAATTTATCAGGCTGGCCGATGACACCTGGCGGCAGCTATTAATAAAACAATAAGGAGAGCAGTGTGGGT +CCAGTAATGTTGGATGTCGAAGGTTACGAACTGGACGCGGAAGAGCGTGAAATACTGGCGCATCCGCTGG +TGGGAGGGCTGATTCTCTTTACGCGTAACTATCATGATCCTGCCCAGTTACGTGAACTGGTGCGCCAGAT +CCGCGCAGCTTCGCGCAATCGTCTGGTGGTGGCGGTTGATCAGGAAGGTGGACGCGTGCAGCGTTTTCGT +GAAGGTTTTACCCGCTTGCCAGCGGCGCAATCATTCGCTGCGCTGTCAGGAATGGAAGAGGGTGGCAAAC +TGGCGCAGGAGGCAGGTTGGTTGATGGCCAGCGAAATGATCGCTATGGATATTGATATCAGCTTTGCGCC +TGTGCTGGATGTCGGGCATATCAGCGCGGCGATTGGCGAGCGTTCTTATCATGCCGATCCACAAAAAGCC +CTGGCAATTGCCAGCCGGTTTATTGATGGTATGCATGAAGCCGGAATGAAAACGACCGGGAAACACTTCC +CAGGACACGGTGCAGTAACGGCAGACTCACACAAAGAAACACCGTGCGATCCACGTCCACAAGCGGAGAT +TCGCGCTAAAGATATGTCGGTCTTCAGTTCCTTAATCCGCGAAAATAAACTCGACGCCATTATGCCTGCG +CATGTGATCTACAGTGATGTTGATCCGCGTCCGGCGAGCGGTTCTCCCTACTGGCTGAAAACCGTTTTGC +GTCAGGAACTGGGTTTTGACGGCGTGATTTTCTCTGACGATTTATCGATGGAAGGTGCCGCGATTATGGG +CAGTTATGCCGAACGCGGGCAGGCTTCACTGGATGCGGGTTGCGATATGATCCTGGTCTGCAATAATCGT +AAAGGGGCCGTCAGCGTGTTAGATAATCTGTCACCGATCAAGGCAGAACGTGTTACACGTTTGTATCATA +AAGGTTCATTTTCGCGACAGGAACTGATGGACTCGGCTCGCTGGAAAGCGATCAGCACCCGTCTGAATCA +GTTACATGAACGCTGGCAGGAAGAGAAAGCAGGTCACTAACCCTGGCTTATGTGAGGAAGCGATGATTAT +CTATTTACACGGTTTTGACTCTAACAGTCCGGGTAACCACGAGAAAGTCTTACAATTGCAGTTTATTGAC +CCGGATGTACGCTTGATAAGCTACAGTACGCGGCATCCGAAACATGATATGCAGCATCTGCTTAAAGAAG +TGGACAAAATGTTGCAACTGAACGTTGACGAGCGTCCGCTAATTTGCGGCGTTGGCTTGGGCGGATACTG +GGCGGAACGGATTGGTTTTCTTTGCGACATCCGCCAGGTGATCTTCAACCCTAATTTGTTCCCTTATGAG +AACATGGAAGGCAAGATTGATCGCCCGGAAGAGTATGCCGATATTGCCACTAAGTGTGTGACCAACTTCC +GTGAGAAGAATCGCGATCGTTGCCTGGTGATTTTGTCGCGTAATGATGAAGCGCTTAACAGCCAGCGGAC +ATCTGAAGAGTTGCATCATTATTACGAGATTGTCTGGGACGAAGAGCAGACGCACAAATTCAAGAATATC +TCCCCGCATTTACAGCGCATTAAAGCGTTCAAAACCCTCGGGTAAATGCCCTCGTCGCATCAGGTAACCT +TGCCGGTACCTGATGCGCTCCGAATTCTGTGGGTCGGATAAGGCGTCCACGCCGCATCCGACAGTCGAGC +ATCAATGCCTGATGCGCTTCTTATCAGGCCTACCGAACGCCCTGCATACACCCCTCACTCTATATCACTC +TCACAAATTCGCTCAAATAATAAACAATAAACTCTGTTTTTTGATCTCACCCGGTAAAGTCGCCTATCTT +TTCAGCAACAAAACTTGATTAACATCAATTTTGGTATGACCAATGCACCATTCATGTTATTCTCAATAGC +GAAGAACATTTTCATTGCTGTAACCTGTTGTTAATTAAGAGCTATGTTAATAACCATTAATTAACAATTG +GTTAATAAATTTAAGGGGGTCACGTTGACTACGCCATTGAAAAAGATTGTGATTGTCGGCGGCGGTGCTG +GTGGGCTGGAAATGGCAACACAGCTGGGGCATAAGCTGGGACGCAAGAAAAAAGCCAAAATTACGCTGGT +CGATCGTAACCACAGCCACCTGTGGAAACCGCTGCTGCACGAAGTGGCGACTGGCTCGCTTGATGAAGGC +GTCGATGCGTTGAGCTATCTGGCCCATGCGCGCAATCATGGTTTCCAGTTCCAGCTGGGTTCCGTCATTG +ATATTGATCGTGAAGCGAAAACAATCACTATTGCAGAACTGCGCGACGAGAAAGGTGAACTGCTGGTTCC +GGAACGTAAAATCGCCTATGACACCCTGGTAATGGCGCTGGGTAGCACCTCTAACGATTTCAATACGCCA +GGTGTCAAAGAGAACTGCATTTTCCTCGATAACCCGCACCAGGCGCGTCGCTTCCACCAGGAGATGCTGA +ATTTGTTCCTGAAATACTCCGCCAACCTGGGCGCGAATGGCAAAGTGAACATTGCGATTGTCGGCGGCGG +CGCGACGGGTGTAGAACTCTCCGCTGAATTGCACAACGCGGTCAAGCAACTGCACAGCTACGGTTACAAA +GGCCTGACCAACGAAGCCCTGAACGTAACGCTGGTAGAAGCGGGAGAACGTATTTTGCCTGCGTTACCGC +CACGTATCTCTGCTGCGGCCCACAACGAGCTAACGAAACTTGGCGTTCGCGTGCTGACGCAAACCATGGT +CACCAGTGCTGATGAAGGCGGCCTGCACACTAAAGATGGCGAATATATTGAGGCTGATCTGATGGTATGG +GCAGCCGGGATCAAAGCGCCAGACTTCCTGAAAGATATCGGTGGTCTTGAAACTAACCGTATCAACCAGC +TGGTGGTGGAACCGACGCTGCAAACCACCCGCGATCCAGACATTTACGCTATTGGCGACTGCGCGTCATG +CCCGCGTCCGGAAGGGGGCTTTGTTCCGCCGCGTGCTCAGGCTGCACACCAGATGGCGACTTGCGCAATG +AACAACATTCTGGCGCAGATGAACGGTAAGCCGCTGAAAAATTATCAGTATAAAGATCATGGTTCGCTGG +TATCGCTGTCGAACTTCTCCACCGTCGGTAGCCTGATGGGTAACCTGACGCGCGGCTCAATGATGATTGA +AGGACGAATTGCGCGCTTTGTATATATCTCGCTATACCGAATGCATCAGATTGCGCTGCATGGTTACTTT +AAAACCGGATTAATGATGCTGGTGGGGAGTATTAACCGCGTTATCCGTCCGCGTTTGAAGTTGCATTAAT +CGACGTACACTGGCGGATGTGGCATAAACGCCTCATCCGCCCTTGAGGAACAGCGCGATCGGCAGCCGCG +TTGTATCAGGCATCCTTTCAGACTCCTCCGAATCCTTAAGTATTTCCAGCCATTCCCGCGCTTTTCATCT +TCTGTCTGATAGCTGCTTTTCTCCTTCGCTTGCATGATTGGCATAACTGCAAAGAAGGAGGTGTTCCCGT +GAATAAATCAATGTTGGCGGGTATCGGGATTGGTGTCGCAGCTGCGCTGGGCGTAGCGGCAGTGGCCAGT +CTGAACGTGTTTGAACGGGGCCCGCAATACGCTCAGGTTGTTTCTGCAACCCCAATCAAGGAAACGGTTA +AAACACCGCGTCAGGAGTGTCGCAACGTCACAGTGACCCATCGTCGACCGGTGCAGGATGAAAATCGCAT +TACCGGGTCGGTGCTCGGCGCTGTTGCTGGCGGCGTGATAGGGCATCAGTTTGGTGGTGGTCGCGGTAAA +GATGTCGCCACTGTTGTGGGGGCGCTGGGTGGTGGATATGCCGGTAACCAGATCCAGGGCTCTCTCCAGG +AAAGCGATACTTACACGACTACGCAACAGCGTTGTAAAACGGTGTATGACAAGTCAGAAAAAATGCTCGG +TTATGATGTGACCTATAAGATTGGCGATCAGCAGGGCAAAATCCGCATGGACCGCGATCCGGGTACGCAG +ATCCCGCTAGATAGCAACGGGCAACTGATTTTGAATAACAAAGTATAACAAGGCTGTACTCTGCAATTTG +GCCCCTCATTCGCTCAGGCTGAGGGGCTTTTTTTGCGACTTATTTCACCAGTTCGGGCCATAAACGCAAA +GTCGTTCCGGCAATCTGCATCAGTTTTTCCAGCGATGCACCTTCGCGTGCGCTGATCGACATCCCCTGAA +TAATACAATTAAGGAATTCTGCCAGATGTGTCACGTCACAGTGGGGCGGGATTTCCCCGCGCGCTTGTCG +TTGACATAAAAACTGCTGCAAAGTGCGCTCTTGCATCGCATGGCGTGATTTCAACGTATTGGCGATATCT +CCTGAATCTGGGGAGAGGGTGGTGCAGTTGTTGATCATGAAGCAGCCTGCCGGGGTGTCTTTGCTGGTAA +AGCAGTTGGCGATGGCAGCAAAATAGTCAGCCAGCGCAGACTCCACGCTTTTCTCTTCACAAAACAGCTG +TGCTTCATGCTTAGCGGCAAAACGATCGATATAGCGGTCGAGAACGGCACGAAATAACCCCTCTTTGTTG +GTAAATTCCGCGTATAGCGTGGGCGCTTTGGCTCCGGTCGCTTCGACGAGGTCCGCAAGAGAAGTCGCTT +CATAACCGTGTTGCCAGAACAATTTCATGGCCTTATCAAGCGCGGCATCCCTGTCGAACACTTTTGGGCG +GCCACGGCTTTTTTTTACACATTGTGTTGAGTCAGTTGCCATGATGCCGTTGTACCTGGTGACTGTGAAT +GAAAGGTTATTATAAAAATAATCACCTCCGTTCACCAGTCCAGATCCCATAAAAATAATTGCTTTCTATT +TAACTGAAATTTAAAGATTTTTAAATTAATTAATGATTGTTATAAAAAATATCTTGTATGTGATCCAGAT +CACATCTATCATTTAGTTATCGATCGTTAAGTAATTGCTTGCGACGTCATTCATCTGCATAAGGCCACTA +TTATGAAAAACGTAAAAACCCTCATCGCTGCGGCGATTTTAAGCTCCATGTCATTTGCCAGCTTTGCGGC +TGTCGAAGTTCAGTCAACGCCAGAAGGCCAACAAAAAGTCGGTACAATCAGTGCTAACGCGGGGACAAAT +CTGGGATCGCTGGAAGAGCAGCTGGCGCAAAAAGCGGATGAGATGGGCGCAAAATCTTTCCGTATTACTT +CTGTAACCGGTCCGAATACCCTCCATGGAACAGCAGTAATTTATAAATAAGCATTAACCCTCATTAATGC +CTGCTACTGCTGATTTTTTCCCCGCGACATGCCGTGTCGCGGGGATTTTTTTATCCGGGCTTTACAGCGT +TTGTGGGCTCACTTGATGACGGCGGACATCCACCGGCATCCCGGAACGGACATCCATCACATGTTGCATC +ACTTCAGCGTCAGTTTGTGCTGCATCTTTAAATGATTGCATTGCGCTATTCAGCGTAATTGGCAGCAGCT +GCGGATCGTCATCAATCTTCTCTGACAGCGGCTGATGTACTTCAACCAGACGCGCACCGTTTGGTTCGGC +AGAGACTTTTATCGGAGTGTTGATGATATTCACTTTGGTGCCTGGGGTGACCTGGCTAAAGAGTGTTTTG +ATATCGTCATCCCGCAGACGAATACAGCCAGAACTTACCCGCATGCCAATGCCGAAATCGGCGTTCGTAC +CATGAAGCAAATAAACGCCGCCATAGGCCGCCAGACGAATCGCATGATGGCCCATTGGGTTATCCAGTCC +AGCCGGCACTACCGCAGGCAACTCAATTCCCTGTGCTTTATAACGGGCGCGGATGTTTGCCGTTGGCGTC +CAGGTTGGGTTTGCACGTTTGTCTGAAACGGTGGTCACCATTGTCGGTGTCAGCGTGTCACCACCTAACT +GACCAATACCTATTGGATACACGGTTACCGAATTTTTACCCGGCGGGTAGTAATAGAGACGCAGCTCCGC +AATGTTGATCACAATGCCTTCGCGCGGCGCATCTGGAAGTAGGGTTTGCAACGGGATCGTTAACACGCTG +CCCGCGCGCGGTACGTAAGGATCAACGCCGGGGTTAGCCTGTAACAGAGCGAGAAAGCCGACGTTGTATT +TTTTGGCGATGGCTTCCAGAGAACCACCGTCATTTTCCACCACATGAAATTTGTTTTCGCCAACCAGACG +ACTGCCCGCTGGCGGCAGCGGCCAGGTGTTGGCTTTTGCCGGTAGCGCCAGCGCCACGGCAGCGGCGAAC +GTAAAAAACGTTAGCCAGCGAGAAAAACGCGTTTTGATCATCACCAAAAATCCATAATAAATATAAGGTT +ATTGTAATAAACAGATAAGCCTGAATTATGGATGGTGACAGTGTCGGATAGTGCAGGGAAGTGCAAAGAA +TTTGTAAATGTTGCAGATGGGGGCGCAGAAACGCCCCCGATTTACCATTAAGCGATCGCGTTCTCTTCCA +GTTCACGCATAAACTGGCGTACCCATTCGATACGCGTTTTCCGCTCACTCAAATCCTGAATAAATTTCAG +GCGCGTCGGACCATCAAGGCGGTAATGCTGCGGCTGTTTTTGCAGCAAACCAATCAACCAGGCCGGATTA +ACGTGATTCTTCTCGGCAAATTCGATCACCCCGCCTTTCTCATTACCTTCCAGCTTCCTGATCCCCAGTT +TCTGCGCTTGCTGGCGCAGACGGGCAATATCCAGCAGGGTACGCGCCGGATCTGGCAGCAGGCCGAAGCG +ATCGATAAGCTCGACTTTGATCTCTTCCAGTTCGTTTTCCGTTTTGGCGCTGGCAATACGTTTGTAGAAC +GACAGACGCGTGTTCACGTCAGGGATGAAATCATCTGGCAATAGCGACGGCATCCGCAGCTCGACTTCTG +TTTGCTGGCTGGTGAGATCTTCCAGCGACGGCTCGCGTCCGGCTTTCAGTGCATCGACGGCGTTTTCCAG +CAACTCCATATACAGCGAGAAACCGATGGTTTCCATTGAGCCGCTTTGTTCTTCGCCAAGCAGTTCACCC +GCGCCGCGAATCTCCAGATCGTGCGTTGCCAGCGCAAAACCTGCCCCGAGATCTTCCAGCGAGGCAATTG +CTTCAAGACGTTTTTGTGCATCGGTAGTCATCGCTTTTGGATGCGGTGTCAGCAACCATGCATATGCCTG +ATGATGCGAACGTCCGACGCGACCGCGTAACTGGTGCAGCTGCGCCAGACCGAAGTGATCCGCGCGTTCA +ATGATAATAGTGTTGGCTGTCGGGATGTCGATCCCGGTTTCGATAATGGTTGTACAAACCAGCACGTTGA +AACGTTGATGATGGAAATCATTCATCACCCGTTCCAGTTCGCGCTCGCGCATCTGCCCGTGACCGATGGC +GATCCGCGCTTCTGGCACCAGTTCTGCCAGCCGTTCGGCGGCTTTCTGAATGTTTTCCACATCATTGTAG +AGATAATAAACCTGTCCTCCGCGCAAAATTTCACGCAGGATCGCCTCCCGGACCACCATGCTGTCATACT +CACGGACAAAGGTTTTAACTGCCAGACGACGGGCGGGCGGCGTGGCGATAATCGACAGGTCACGCATTCC +GCTCATTGCCATATTCAGCGTACGTGGGATCGGCGTTGCAGTAAGCGTCAGAATATCCACGTTCGCGCGC +ATCGCTTTAATGCGCTCTTTATGACGCACCCCGAAGCGGTGTTCTTCATCGACAATCAGCAGGCCTAAAT +CTTTAAACTTGACGTCACTTTGCAGCAGTTTGTGCGTACCGATCAGAATATCGATTTTCCCTTCCGCCAC +TTCCGCAAGGATTTGCGTCTGCTCTTTGGCGCTGCGGAAACGGGAGATCATTTCGATACGTACCGGCCAG +TTGGCGAAACGGTCGCGGAAGTTGTCGTAATGCTGCTGCGCGAGAAGGGTGGTAGGCACCAGCACCGCCA +CCTGCTTGTGGTTATCTACTGCCAGGAAAGCTGCGCGCATCGCCACTTCTGTTTTACCAAAGCCAACATC +GCCGCACACCAGACGATCCATTGCCAGCGGCTGACACATGTCGCTAAGTACCGCATTAATGGCCTGCGCC +TGATCCGGCGTGGTTTCAAACGGGAAGCTGTCGCAGAACAACTGATACTGCTCACGATCGTGTTTAAACG +CGAAGCCCTCTTTGGCGGCGCGTTGCGCGTAGATATCCAGCAATTCCGCCGCCACATCACGCACTTTTTC +CGCCGCTTTCTGCCGCGCGCGTGACCACGCATCGCCGCCAAGTTTATGCAGCGGGGCGTTTTCTTCCGCG +CCACCTGCGTAACGGCTAATCAGATGCAGTGACGACACCGGAACATACAGTTTGGCGTCGTTGGCATAGG +TGAGCATCAGATACTCGCCAGTAATGCCACCCGCTTCCAGCGTGGTCATTCCGGCATAACGACCGACGCC +GTGCTCCAGATGGACCACCGGCTGACCAATATGCAGTTCCGCAAGGTTACGGATCAGTGTATCGGGGTTG +ATGGTGCGGCGAGAATCCTGACGACGACGGGCAACGCGTTCACCGAGCAGATCGCTTTCGCAAATCAGCG +CCAGATTACGCACCGTATCGACAAAACCATGTTCGGCAGCGCCAATCATCAGATAACGCCCACGGTCGCT +GGCTTCATCAAGACGCATAATGCGTTGCGGAGCAATTTTAATTCGTGCGAGCAGTTCACCCAGCGCTTCA +CGGCGACCTTCACTTTCTACCGAGAACACCACCGGACCGTCGAAAGTCTCGAGGAACTTACGCAGCGCAT +CCAGCGGCGCTTTTTGTTGTGCCTGAACGGCCAGGTCTGGCAGTTTCTGGAAACCTAAATTGGCATTCGC +GGCTTTTGTCGGTAAATGTTCAGTTTTTAGCTGCACCCGGGGCCAGTTTTTCAGCTCTGAGAAGAGCTCG +TCCACCCGCAGCCAGAGCGATTGTGGTGGCAACAGCGGGCGCATCGGATCGACGCCGCGATTCTCAAAAC +GCGCCAGCGTGTCAGCCTGGAAACGTTCGGCACTGGTTTCCAGATCGCCAGTATTCACGAGCAAGGTATT +GGCAGGGAAATAACTGAACAGCGGCGGCAGTGGTTCGCTGAAGAACAATGGCTGCCAGTACTCGATCCCG +GCAGGTAATGTGCCTTTACTCACTTGCTGGTAAATATGTTCTGGATCGCGCTTCACTTCGAAGGTATCGC +GCCACTGGCTGCGGAACAGTTCAATTGCCGCTTTATCGGTCGGAAATTCGTGCGCGGGCAGCAGATTGAT +CGCTTCTACTTCCTCCAGCGTGCGCTGGCTGTCGACGTCAAACACCCGCAGGCTGTCGATTTCATCATCA +AAGAAATCAAGACGATAAGGCAGCTCACTCCCCATCGGGAAGAGATCCAGCAACGCGCCGCGCGTGGCGT +ATTCGCCGTGCTCCATCACCTGGTCAACATGGCGATAACCGGCGCTGTCCAGTTGGGTTCGTAATGCATC +TCGTGACAGGCGCTGACCTTTTTTCATCACCAGCGCATGACCGTGGAGAAAACTGTGTGGGCAAACGCGC +TGCATAAGCGTATTCACCGGAACAATCAGTACGCCACGCTGCATCGTCGGTAGCTGGTAAAGGGTGGAAA +GGCGCGAGGAGATAATGTCCTGATGAGGCGAAAAACTGTCGTAGGGAAGAGTTTCCCAGTCCGCCAGATT +CATCACCATTTGATCGGTAAACTGGCTGATTTCATCATGCAAACGCAGAGCATTTTGCATATCTGGTGCA +ATGAGTACCACCGGACCGGCGTGACGTTCGGCAATTTCCGCTACCAGCGTTGCACAGGCTGCGCCGGTTA +ACTCGCCCAGCAGACGCTGCTCACCCGCTTTGACGGGCAGCGTATAACGATATTGTTCAGGCATAACGGT +TGTCAGATTCTCGTTAGGATATGCCTCAACATATGGGGGCATATCTCTGATAAGCAATGCTGTTCATTAT +CCGTAATCGACATGGTTTAGCAAATTGAATCGCCCCGGCTGGGGCGATGGCTTAGCGGGAGTAACTGACG +GCAGCGGGCAGTGAAGGCGGGGAGAACAACAGATCGCTGAATGCACGCTGTGAAAGTTTTCTTACCAGCA +AGCCCGCAACAGTACAGATGAACAAACTGACAAAGGGATAAACCAGCAGGAGTGTCAGTTCGACTTGCGG +CGACCAGCGTGCTGCGTTCATTTGCGCAAGCAGAGTTAAGCTGAATATTTCAACCAGAATGCGATGGGTG +GTGTAGATAGCAATGGTGTTGGAGCCAATCACATTCAGCAGGCTGGTGGAGCGCATACCGAATCGTTGCT +CGTATTGATAAAACAGCTTCATGATCACCACAATCGATACCAGCGACAACAGCAGCGAGATAGTAAACAA +CCAGGCACCGACCGCCAGAACGGTAAGCAAAGAAGCCATCAGCAGATGGCGGCGCAACGGCACCTCTTTA +ACACAGGTCATTATTGTTGCGCCAAACCATGCGCCAAGGCTGTAATAAGGCAAATTGCGGATCACACTGT +TCATTCCCCACCACGGCGTGGGAACGAAATTAACCGCCACACTCAGCAGTACAAACAAGGCGAATAGTGG +CAGCGCCAGACGGCTAAAAATTTTACATACCACGAAATAGACAATTAACGCATACAGATACCACAAGCTG +GTGCTGGCGGTGATCATCCCGTGCAGGAACTCACCGGTGGAATCGGCATAAGCGGCATTGGAGGCATTGC +TTAAATCGCGCTCAGGTGCCAGCCACTGGTTCAGCGCACTTAACGCCAGCCACTGCACCACGCCCCAAAG +CGCCAGCACCCAGAAGATGTTCCAGATCCGTTTATCGAGACAATTTCCCCACGGTACGCTGTCGATATAG +CGGCGAATCAAATAGCCGGATATAAAGAAAAAAACCGGCATACGAAAGGGGGCAAGGTAAAGATTGAAAT +AGATCCAGCATTTGCTCAGGACTTCCGATAACGGATGCTGAAAAGTGGTCAGATGCGGATAAAAGGTAAT +GACCGAGTGATAAATCACCACCAGACAAATACATAACCCTTTGATCTGGTTAATCCATAGCTCTTTTTGT +TTCATCAGGACAACACGCTCTTTTTTAATTTACATGCGGTTGATCCTGCGGGTTATGACCCGAGGTGTAA +TGGGTATCTGTCTGTATTGGATGATTTTTCAGATTAAGATCAGGCGGCAAGATTGATGATAAAACATGGC +AATTTAGCCGATTGATTTACGGGGGCTTTTCAGATTAGCCCTGACGATCACTTACAGTTCAGACGTTTAC +CCATCTTGCTTTCGCTTATATACTCGTGTCTTTGCTACAGCAACCAGACGGATTTCATGTACCAACCTGT +CGCTCTATTTATTGGCCTGCGTTACATGCGTGGGCGTGCAGCGGATCGCTTCGGTCGTTTCGTCTCCTGG +CTTTCTACCATCGGCATTACCCTCGGGGTGATGGCGCTGGTCACAGTATTGTCAGTGATGAACGGCTTTG +AGCGCGAGCTGCAAAACAACATCCTTGGCCTGATGCCACAGGCAATTCTCTCTTCTGAGCATGGCTCTCT +TAACCCGCAGCAACTCCCAGAAACGGCAGTCAAACTGGACGGCGTTAATCGCGTCGCACCTATTACTACC +GGTGATGTGGTACTGCAAAGCGCGCGCAGCGTGGCGGTCGGGGTGATGCTCGGTATCGACCCGGCGCAAA +AAGATCCACTTACACCGTATCTGGTCAATGTGAAACAAACTGACCTCGAGCCGGGGAAATATAATGTCAT +CCTCGGCGAACAACTTGCCTCACAGCTAGGCGTTAATCGCGGTGATCAAATCCGCGTGATGGTACCATCT +GCCAGCCAGTTCACGCCGATGGGGCGTATTCCAAGCCAGCGCCTGTTCAATGTGATTGGCACTTTCGCCG +CCAACAGTGAAGTCGATGGCTATGAAATGCTGGTGAATATTGAGGATGCCTCGCGTCTGATGCGTTATCC +GGCAGGCAATATTACCGGCTGGCGTTTGTGGCTGGATGAGCCGCTGAAAGTCGACTCATTAAGTCAGCAA +AAACTGCCTGAAGGCAGCAAATGGCAGGACTGGCGTGATCGTAAAGGCGAGTTGTTCCAGGCCGTACGCA +TGGAAAAAAATATGATGGGTTTACTGCTGAGCCTGATTGTCGCCGTTGCGGCGTTTAACATTATTACCTC +ACTAGGGCTGATGGTAATGGAGAAGCAGGGCGAAGTAGCGATCCTGCAAACGCAAGGCTTAACTCCGCGA +CAAATCATGATGGTCTTTATGGTGCAAGGGGCCAGCGCCGGGATTATCGGTGCGATCCTCGGAGCGGCGC +TTGGCGCCCTGCTTGCCAGCCAGTTAAATAATCTGATGCCGATAATCGGCGTCCTGCTTGATGGCGCGGC +GCTGCCGGTGGCTATCGAACCTTTACAGGTCATTGTTATTGCGCTGGTGGCGATGGCTATCGCGCTGCTG +TCTACGCTTTACCCTTCATGGCGCGCTGCCGCCACTCAACCCGCTGAGGCTTTACGTTATGAATAAGATC +CTGTTGCAATGCGACAACCTGTGCAAACGCTATCAGGAAGGCAGTGTGCAAACCGATGTGCTGCACAATG +TCAGTTTCAGCGTCGGCGAAGGTGAAATGATGGCGATCGTCGGTAGCTCTGGTTCCGGTAAAAGTACCTT +GCTGCACCTGCTGGGCGGGCTGGATACGCCAACCTCCGGCGATGTGATTTTTAATGGTCAGCCAATGAGC +AAACTGTCGTCGGCAGCGAAAGCTGAACTGCGCAACCAGAAGCTGGGCTTTATTTATCAGTTTCACCACC +TGCTGCCGGATTTTACCGCCCTGGAAAACGTGGCTATGCCGCTGCTGATTGGCAAGAAAAAGCCCGCTGA +AATCAACAGCCGTGCACTTGAGATGTTAAAAGCGGTGGGGCTGGATCATCGTGCGAATCACCGCCCATCT +GAACTTTCTGGCGGCGAACGCCAGCGTGTGGCGATTGCCCGTGCGCTGGTGAATAACCCGCGCCTGGTAC +TGGCGGATGAACCTACCGGTAACCTCGATGCGCGTAACGCCGACAGCATCTTCCAGTTGCTTGGGGAATT +GAATCGCTTGCAGGGCACCGCCTTCCTGGTGGTTACTCACGACCTGCAACTGGCGAAACGTATGAGCCGC +CAGTTAGAAATGCGTGATGGTCGTCTGACGGCGGAACTGAGCCTGATGGGGGCGGAGTAATGGCGATGCC +TTTATCGTTATTAATTGGCCTGCGTTTTAGTCGCGGACGGCGGCGCGGCGGCATGGTGTCGCTGATCTCC +GTTATTTCTACCATTGGCATTGCCCTCGGCGTGGCGGTATTGATCGTCGGCTTAAGCGCGATGAACGGCT +TTGAACGCGAACTGAACAACCGTATTCTGGCGGTGGTGCCGCATGGTGAAATCGAGGCGGTGGATCAGCC +GTGGACTAACTGGCAGGAAGCACTGGATCACGTGCAAAAAGTGCCGGGTATTGCCGCTGCCGCGCCGTAT +ATCAATTTCACCGGGCTGGTGGAAAGTGGCGCGAATCTTCGCGCAATCCAGGTGAAGGGCGTTAACCCGC +AACAGGAACAGCGTCTGAGCGCATTACCCTCGTTTGTCCAGGGCGATGCGTGGCGCAATTTTAAAGCGGG +CGAACAGCAAATTATCATCGGCAAAGGCGTGGCGGATGCGCTGAAAGTGAAGCAGGGGGATTGGGTGTCG +ATTATGATCCCCAACTCGAATCCCGAGCATAAACTGATGCAGCCAAAACGTGTGCGTTTGCACGTTGCCG +GTATTTTGCAGTTGAGTGGTCAACTCGATCACAGTTTTGCCATGATCCCGCTGGCGGATGCCCAACAATA +TCTTGATATGGGTTCCAGCGTGTCAGGTATTGCCCTTAAAATGACGGATGTTTTCAACGCCAATAAGCTG +GTACGCGATGCGGGTGAAGTGACCAACAGCTATGTTTATATTAAAAGCTGGATTGGTACTTACGGCTATA +TGTATCGCGATATCCAAATGATCCGCGCCATTATGTATCTGGCGATGGTACTGGTGATTGGCGTGGCCTG +TTTCAACATCGTCTCCACCTTAGTGATGGCGGTGAAAGACAAGAGTGGCGATATCGCAGTATTAAGAACG +CTGGGGGCGAAAGATGGTTTAATTCGCGCCATCTTTGTCTGGTATGGATTGCTGGCAGGGCTGTTCGGCA +GCCTGTGTGGTGTGATTATCGGCGTAGTGGTTTCACTGCAACTTACCCCGATTATTGAGTGGATTGAAAA +GTTGATCGGTCATCAGTTCCTCTCCAGCGATATCTATTTTATTGATTTCCTGCCATCGGAATTGCACTGG +CTGGACGTCTTCTACGTACTGGTCACAGCATTGTTGCTGAGTCTTTTGGCAAGTTGGTATCCGGCGCGGC +GCGCCAGTAATATTGACCCTGCGCGAGTCCTTAGCGGCCAGTAAAGGCAGTACATTAAAACAAGGAGCGG +CAATGTATTACGGGTTTGATATTGGTGGAACAAAAATTGCGCTTGGCGTGTTTGATAGCGGTCGGCAGTT +GCAGTGGGAAAAGCGGGTGCCGACACCGCGTGACAGCTATGACGCATTTTTAGATGCAGTGTGTGAGCTG +GTAGCTGAAGCTGACCAACGTTTTGGCTGTAAAGGTTCTGTCGGCATCGGTATTCCGGGAATGCCGGAAA +CAGAAGATGGTACGCTGTATGCCGCCAATGTCCCCGCTGCCAGCGGTAAACCGCTGCGTGCCGACCTGAG +CGCACGTCTTGATCGCGATGTACGCCTTGATAACGATGCCAACTGTTTTGCCCTTTCAGAAGCCTGGGAT +GATGAATTTACTCAATATCCACTGGTGATGGGGTTGATTCTCGGCACCGGTGTTGGCGGCGGGCTGATTT +TCAACGGCAAACCGATTACCGGTAAAAGCTACATTACCGGCGAGTTTGGCCATATGCGTCTGCCGGTTGA +TGCGTTAACCATGATGGGGTTGGATTTCCCGTTACGCCGCTGCGGCTGTGGTCAGCATGGCTGCATTGAA +AATTATCTGTCTGGTCGCGGTTTTGCGTGGCTGTATCAACACTATTATCATCAACCGTTGCAGGCTCCCG +AAATTATTGCGCTTTATGATCAAGGCGATGAGCAGGCAAGGGCGCACGTTGAGCGTTATCTGGATTTATT +AGCGGTTTGTCTGGGAAATATCCTGACCATCGTTGACCCTGACCTGGTCGTCATTGGTGGTGGCTTATCG +AATTTCCCGGCAATCACAACGCAACTGGCGGACAGGCTGCCTCGTCATCTCTTACCTGTAGCTCGTGTTC +CGCGCATTGAACGCGCGCGCCACGGTGATGCGGGAGGAATGCGTGGTGCGGCCTTCCTACATCTAACCGA +TTAAACAACAGAGGTTGCTATGCTGTCGCGTCGGGGTCATCGGTTAAGTCGTTTTCGTAAAAATAAACGC +CGCCTGCGCGAGCGTTTGCGTCAGCGTATTTTTTTCAGAGATAAAGTGGTGCCGGAAGCAATGGAAAAAC +CAAGAGTACTCGTACTGACAGGGGCAGGAATTTCTGCGGAATCAGGTATTCGTACCTTTCGCGCCGCAGA +TGGCCTGTGGGAAGAACATCGGGTTGAAGATGTGGCAACGCCGGAAGGTTTCGATCGCGATCCTGAACTG +GTGCAAGCGTTTTATAACGCCCGTCGTCGACAGCTGCAGCAGCCAGAAATTCAGCCTAACGCCGCGCATC +TTGCGCTGGCTAAACTGCAAGACGCCCTCGGCGATCGCTTTTTGCTGGTGACGCAGAATATCGACAACCT +GCATGAACGCGCAGGTAATACCAATGTGATTCATATGCATGGGGAACTGCTGAAAGTGCGTTGTTCACAA +AGTGGTCAGGTTCTCGACTGGACAGGAGACGTTACCCCAGAAGATAAATGCCATTGTTGCCAGTTTCCGG +CACCCTTGCGCCCGCACGTAGTGTGGTTTGGCGAAATGCCACTCGGCATGGATGAAATTTATATGGCGTT +GTCGATGGCCGATATTTTCATTGCCATTGGCACATCCGGGCATGTTTATCCGGCGGCTGGGTTTGTTCAC +GAAGCGAAACTGCATGGCGCGCACACCGTGGAACTGAATCTTGAACCGAGTCAGGTTGGTAATGAATTTG +CCGAGAAATATTACGGCCCGGCAAGCCAGGTGGTGCCTGAGTTTGTTGAAAAGTTGCTGAAGGGATTAAA +AGCGGGAAGCATTGCCTGATGCACTACGCTTATCAGGCCTGCAAGGGGACGCAATTAATTGAATTTGCGG +GTTTTGTGGGCCGGATAAGGCGTTCGCGCCCCATCCGGAATAATACACGCGCACTTTTCCGGCCTCTTTT +ATCGTTTACTCGTCAATAACAATGCGGCAATAAACGTACAGACACCAATTAGCCCTGCCCAGAGTGGCGA +TATTCTGGTAATCGCAAAGCTATTATCGATATACAAACATAAAGCCTGATAACCCATATTGGCAATAGTC +ATCGCCACTGCAAATTTTAACGCATAAATAAAACGAGTCGTGTAGTAAAAGATCCTGGAAAATAAGATAA +ACGTCGCAGCCCAGGCGATAAAACCTAATGTGTTGGTGCTGCCGGGGGGAGCATTTTCATGCTGTTGTCC +TGGATGCGGATAATACGTTAGTGGCGGCGTCGATTGTTTTAATATCTGTGCTTGTAGAACAGCCAATGCA +TTATTGATTCCCTGATACCAGAGATCTGCATTTAAATAAGCCAGCGTGTGATTTTCTATCAGAAGGCCGA +GATGTTTATCGTCCAGACCACTTTCAACCTGGCCGTTGGTGATCATAATTAACCGTGGTTCGCGGGTAGT +AAATAGTAACAGAACACTTCCTTTTACATCACTCAATGAAGATGACGCATGCGCCAGCATCGCTTTACCA +TTTTGTCTGAGACTGGCTTCATTATTAATGTCGGGTAAAACCACAATAAACGGTGCAATTCCCGTTTGTT +GGCGAAAAAGCTCGGCTTTATGCGCGATCTCTTCAGCATCTGGTACAGTACCGGTAACGTCCGTAAAAAG +TGTCTTCATTATTGGAATTAATGGCTTGCTGGCTGCTGTCAGAGGCAGGAGTATCAGTAAACTGAGCAGT +ATAATGAATTTTTTCATGGGCGGGACTTCCGTTTCCTGCGTGATTTTTTAGAGGAGGGCATACTTATTAA +TAAACCGACGGCGATAAAAATAACGCCCATAATGCCGATAAACCCCCATTTAAAAAAATTAACCCACGGG +TTATTTATCTCAGCCTTTTCAGGATGCCCGGGAGAATAATAAACATTAACTTTATCGCCTTCGCTGTCTT +CATAAAAATCGCTGCCGATACTCGAATTGAAAATTAGCGTGTAATCTGGCGTCGGTCGAAAGGCAACGAC +GGGATACCACGAACCATCTTTACCCGTGCGATGAGAATGACTGGAGTGCCAGACGGTATCAACAATGACG +CCTTCGGTATGAATCGCGTCTTTGCTATAGGTGAACTGGTTATAAAAGACAACAACAGAAATGAGGATCA +GTACCAGACCGATACCGAGGAATATACGAAAGAAAACTTTACTGTCCTGACTCATTAGCCACATCCTTGC +TAACTAAAAAACGGGCGGTAATACCACCGCCCGCTTGCTGAATTAACGTCCTGCTTTCAGCTTCTGATAA +TACTCTTCATAAATGCTGCTGGCTGCGCCAACGTCATTCTGCCATTCGCCATTTTTAATGGTTTCAGCAT +CCGGGTAGAGTGTTTTATCGTTCGCCACTTCTGGACTTAACAGCTTACGCGCCGCAAGGTTTGGCGTTGG +ATAACCGATAGTTTCAGCAACCTGTTTTGCCACATCCGGGCGCAGCAGGAAGTTGATCAATTTCAGCGCG +CCTTCTTTGTTTTTGGCATTTGCCGGGATCGCCAGGCTGTCCATCCAGAAAATGCCGCCTTCTTTCGGCC +ACACCACGTCAATTGGCGTACCCGCCTGGCGTGCAACGAAAGCAGAACCGTTCCAGATCATGCCGAGGTT +AACTTCGCCTTCCATGTACGGGTTCGCCGGGTTATCGGAGTTAAAGGCTGCCACGTTTGGCATCAGTTTT +TTCAGCTCGTTATATGCAGCTTCAATCTCTTTCGGATCGGTGGTGTTACCGGAGTAGCCCAGCTTACGCA +GCGCCATCTGGAACACTTCACGGGCATCGTCGGTCAACAGCAGGCTGCCTTTGTACTCTGGCTTCCACAG +ATCGGCCCAGCTGGTGACAGATTTCGGATCCACCGCATCACCGTTAACACCAATCGCCGTCGCACCCCAG +ATATACGGAATGGAGTAGTCGTTATTCGGGTCAAAAGGCTTGTTGAGCATGTCTGGATCGAGATTGCTGA +AGTTTGTTAACTTCGACTTGTCGATCTTCTGGATCATCCCTTCTTTACGCATTTTATCAACGTAATAGGT +TGAAGGAACCACCAGATCATAGGCACCGTCTTTGTATGTTTTCAGCTTGGCGTACATGGTTTCGTTCGAC +TCGTAAGTCGAATAGATAACCTTAATACCGGTTTCTTTGGTGAACTGTTCAAGCAGTCCTGGCGGCACGT +ACTCGGTCCAGTTGTAGAAATACAGCGTGTTGTTGTCATCGGCGTGAGCGGCGCTCATGCCCAGTGCCAG +AGCACCCGCCGCGAGCAGGTGGCGTGACCATTTTTTCATTTAACGTCCCCTGTGTTACCTTTCGTTTTAT +CACGAGCAATAAGCTGGCTGGCAATAACCATCACCAGCGACAGCACCAGTAATATGGTTGCCAGCGCGTT +AACTTCCGGCGATACGCCGACTTTGACCATCGAATAAATTTTTAACGGCAGAATTTCATAACTTGGTCCG +GTGACGAACGAAGAAACTACCACATCGTCCATCGACAGGGTAAAGCTTAACACCCAGCCCGCCGCCACCG +CTGGCATTGCCAGTGGCAGAATGATTTTTCGCAGAATGGTAAATTCGCTGGCACCGAGATCTTTCGCCGC +TTCCAGCATTCGCACGTCAAAACCTTTCAGGCGCGAATACACCGTCACCACCACAAATGGCAGGCAGAAG +GTGATATGCGAGAACAGCAGCGACCAGAAGCCAAGCTGAATACCCAGCAGCATAAACAGCACCAGCAGCG +AAATCGCCATCACGATATCTGGTGACATCATCACCACAAACAGCATTCCGCTAACGAACGGCTTACCACG +AAAGCGATAACGGTACAGCGCAACTGCCGTCAGTGAACCGATAAGCGTAGCAAACGTCGCCGAAAACACC +GCCATTGTTAGTGAATGCTGCGCTGCCTGTAACAGGCTGTCGTTGTTCATCAGCAGGCTATACCATTTGG +TGGTAAAGCCCTGCCAGTTGATGCCAAAGCGCGAGCTGTTAAAGGAGTTCACAATCAAAATAATGATTGG +GATATACAGGTACGCGTAGATAGCGGTCATAAAACCGCCGCGAAGCAGTCGACCGATCATTCGAGTTCCA +CCTTCTTATTCAGCAAACGAGAAGCGCGCCAGTAAACCAGCAACATCAGGCCCATTACGATAGTCAGCGT +AATGCTGGTAGCTGCACCAAACGGCCAGTCACGAATATTAAGGAACTGGACCTTGATGACGTTACCGATC +AGCAGGTTTTTCGCACCGCCCATCAGGTCGGATACATAGAACAGGCCCATCGCTGGCAGCATCACCAGCA +GACATCCGGCAATAATTCCCGGCATCGTCAGTGGAATAATGATACGGATAAAAGTCTGTAACTTGCTGGC +ACCGAGATCGCGCGCCGCCTCAAGCAACGGCTTATCCAGTTTTTCGATACTGGAGTACAGCGGCATCACC +ATAAACGGCAGCAGAATGTAAACCAGACCGATAATCACCGCACTGGGCGTGAACATGATACGGATTGGTG +TGTCGATAACGCCCAGCCAGAGCAAAAACTCGTTGAGATAGCCTTTGGTGCTGAGGAAAATTTTCAGCCC +GTAGATACGAATTAATGAGTTGGTCCAGAACGGAACAATCAGCAGAAACAGCAGCAGCGGACGCACCTTG +TGTGGCAACTTCGCCAGAAACCAGGCAAACGGGTAGCCCAGCACCAGGCAGGCGAGGGTGGCGATCAGCG +CCATATTCAGCGAGTGCAATAGCACTTCAAAATAGAGCGGATCGAGCAGACGCGTGTAGTTATCCAGCGT +AAAGACCATTTTGACAAAACTGGCGTCGTCGCGGGTCAAAAAGCTGGTGCCAATGATCATCAGGTTGGGC +AGAAAGACAAACAACACAAGCCAACCGACAATAGTGACAATCACTACATTCTGGAACTTACTTGTGTTCT +TCATCAGCCAGTACGACCTCCCAGCTTTCTACCCAATTAATGGCCATTTTTTGGTCGAGAGAGTGGTCAA +AGTCAGGATCGTCTTCATTGAAGAATTCGCTGACCATCACCATCTTGCCATTTTCCAGTTCAACAACCGA +CTCCAGCGTCATGCCTTTGTAGTTACGCTCGCGAACGTAACCAATCAGCCCTTCAGCGTGGTTGTCGTCG +TTAATCTCTTCAACACGTAAGTCTTCCGGGCGCAGCAGAACATGCAGTTTTTGCCCCGGTTCAACGGCGA +AGTTAACGTAGATATTACATTCGCGGCCTTCAACGTTGGCGCGTACGCGCTGCTCGTCTAGACGTTCGAT +GACAGTGGCGTTAAACATATTGATTTCGCCAATGAAGCCGGCAACAAACAGGTTTTTCGGCTCTTCGTAG +ATTTCACGCGGCGTGCCGTCTTGCTCAATGCGACCATCGCGCATCACCACAATCCTGTCTGACATGGTGA +GTGCTTCTTCCTGGTCGTGAGTCACAAAGACGAATGTAATGCCAAGCTTACGCTGTAACGCTTTCAGCTC +GTTCTGCATTTGCTTACGCAGTTTGTAATCCAGCGCTGAGAGCGACTCATCCAGCAACAACAGACGAGGC +TTGTTAACCACCGCGCGAGCAATGGCGACGCGTTGCTGTTGACCACCAGAGAGCTGATGCGGTTTGCGTT +GAGCGAAGGTTTCCAACTGCACCATCCGCAGGGCTTCCATCACGCGGGGCGTAATTTCAGCAGCGGGGGT +TTTTTGCATGCGCAACCCAAAGGCCACATTTTCGAACACGGTCATGTGGGGGAAAAGTGCGTAGCTTTGG +AAAACAGTGTTCACATAGCGGTTTTCCGCCGGAACGTGGGTGATGTCCTCGTTATCCAGCATGATGCGTC +CGGAATCAACAGTTTCCAGACCTGCAATCAGGCGAAGAACGGTTGTTTTACCGCAGCCAGAAGGGCCAAG +CAGCGTGAGGAACTCGCCATTGTTGATAGTCAGATCCAGCTGGGGAATGACCTCTTTACCATCAAAGCAT +TTGCGAATTCCCGCCAATTGCACCAGCGGTGAAAGCGAACTCGGTTGTTTATTCAATTTTTTACTCTGTC +CCATGTAAACGCAACGGATGGCTTACCGATGCGGGGTTTGTGGTTAACCACCTTGGTGACTCTTAATGAG +GGCGGTAATTCTACGGCAAACCGCTTGAATCGCCAATCTTTGTTGTGAATTACTGGCTTAGCTTTATATT +CATTAAGGTAATGCTGATAAATATTCCCGCTTGCAGGGGTAAAAGTGACCTGACGCAATATTTGTCTTTT +CTTGCTTCTTAATAATGTTGTCACAAAAAGTGAGGGTGACTACATGGATAAACTACTTGAGCGATTTTTG +AACTACGTGTCTCTGGATACCCAATCAAAAGCAGGGGTGAGACAGGTTCCCAGCACGGAAGGCCAATGGA +AGTTATTGCATCTGCTGAAAGAGCAGCTCGAAGAGATGGGGCTTATCAATGTGACCTTAAGTGAGAAGGG +CACTTTGATGGCGACGTTACCGGCTAACGTCCCTGGCGATATCCCGGCGATTGGCTTTATTTCTCATGTG +GATACCTCACCGGATTGCAGCGGCAAAAATGTGAATCCGCAAATTGTTGAAAACTATCGCGGTGGCGATA +TTGCGCTGGGTATCGGCGATGAAGTTTTATCACCGGTTATGTTCCCGGTGCTGCATCAGCTACTGGGTCA +GACGCTGATTACCACCGATGGTAAAACCTTGTTAGGTGCCGATGACAAAGCAGGTATTGCAGAAATCATG +ACCGCGCTGGCGGTATTGCAACAGAAAAAAATTCCGCATGGTGATATTCGCGTCGCCTTTACCCCGGATG +AAGAAGTGGGCAAAGGGGCGAAACATTTTGATGTTGACGCCTTCGATGCCCGCTGGGCTTACACTGTTGA +TGGTGGTGGCGTAGGCGAACTGGAGTTTGAAAACTTCAACGCCGCGTCGGTCAATATCAAAATTGTCGGT +AACAATGTTCATCCGGGCACGGCGAAAGGAGTGATGGTAAATGCGCTGTCGCTGGCGGCACGTATTCATG +CGGAAGTTCCGGCGGATGAAAGCCCGGAAATGACAGAAGGCTATGAAGGTTTCTATCATCTGGCGAGCAT +GAAAGGCACCGTTGAACGGGCCGATATGCACTACATCATCCGTGATTTCGACCGTAAACAGTTTGAAGCG +CGTAAACGTAAAATGATGGAGATCGCCAAAAAAGTGGGCAAAGGGTTACATCCTGATTGCTACATTGAAC +TGGTGATTGAAGACAGTTACTACAATATGCGCGAGAAAGTGGTTGAGCATCCGCATATTCTCGATATCGC +CCAGCAGGCGATGCGCGATTGCGATATTGAACCGGAACTGAAACCGATCCGCGGTGGTACCGACGGCGCG +CAGTTGTCGTTTATGGGATTACCGTGCCCGAACCTGTTCACTGGCGGTTACAACTATCATGGTAAGCATG +AGTTTGTGACTCTGGAAGGTATGGAAAAAGCGGTGCAGGTGATCGTCCGTATTGCCGAGTTAACGGCGCA +ACGGAAGTAAGCGAAAAGGGATGCGGCATGTGATGCCGCATCCGGCTTAAATCCAAACTTACCCTTCGAA +GAACCAATACCCGCTATTGACCAGCGCCGCGAGCATCGCGAGGAATGACGGATCTTCCAGCGCATCGCCA +AAATTCTCCGCAGTCAGCGCAATGTTGCTGGCGAGTGCATCCAGTGCCGGACGGTGCGGGGAATCGATCT +TCTCACCATTGGCATACACGTCGTCGCCAATGCGCAATACGCGCAGACCACCCAGGCGCACCAGCACTTC +ACCTTGTTTCAGCGCATCGTAGATTTCATCCGGCTGATAAGGCGGCTCTGGCGGCGCGATATCCAGTTCA +TGACGTGACTGGGATATAAACTCGCCAAACCATTGCTTAAAGTGTTCCGGCTGGTTGATCAATTCGAGCA +TCATCTCACGCAGTTTATCCATCTCTTGCGGCAGAACATCCGCAGGATGAGCGCGAGGTGGAACATCCGG +ATCGCTGTAGTAGTTGCCGCCCAGTTCACGTTGCAGCACATAATCGGCAAATCCACTAATCAGTTCCCGC +GTATTTGGCGCGCGAAAGCCCACGGAATAGTTCATCGCATTTTCCAGCGCGTAGCCTTCATGCGGGAATC +CTGGCGGAATATAAAGAATATCACCAGGCTCCAGCTCTTCATCGATGATGGCTTCGAACGGATCGACCTG +TAACAGATCCGGATGTGGGCAGTGCTGTTTCATTTGCAGCTTTTCGCCCACTCGCCAGCGACGACGTCCG +GTACCCTGAATGATAAACACGTCGTACTGATCGAGATGCGGGCCGACGCCGCCGCCGGGTACAGAAAAAG +AAATCATCAGATCATCAATACGCCAGTCCGGTAGTTCACGGAACGGTCGCATCAGCGCGGCGGTCGGCTC +ATGCCAGTGGTTCACTGCCTGTACCAGTAATGACCAGTTGGTTTCACCGAGATGATCGTAGCTTTCGAAC +GGGCCGTGGCTGACCTGCCATTTGCCATCCTGGTGACTGACCAGTCGACTGTCAACTTCGCTTTCCATCG +CCAGACCCGCCAACTCGTCTGGAGAGATCGGGTCAATAAAATTATTAAAGCCGCGTTTTAACACCACCGG +GCGTTTCTGCCAGTGACGTTCAAGAAAATCGGGCCAGTTAAGAGTGAGTTGGTATTCCATGTTAAGCATC +CACAGGCTGGTATCTGCAACCGATTATAACGGATGCTTAACGTAATGCGTGAAGTATGGGCATATTTATT +CATCTTTCGGCGCAGAATGCTGGCGACCAAAAATCACCTCCATCCGCGCACCGCCCAGCATGCTCTCTCC +GGCGACGATTTTACCCTCATATTGCTCGGTGATTTCGCGGGCTACCGCCAGCCCTACACCTTGCCCAGGG +CGTAAAGTATCAACCCGTTGACCACGGTCGAAAATGACCTCTCGCTTGCTTAATGGAATACCGGGGCCAT +CATCCTCGACCACAATATAGAGATGCTCGTCGGTTTGCCTTGCAGAAATTTCGACAAACTCGAGGCAATA +TTTACAGGCATTATCCAGCACGTTGCCCATCACCTCGACAAAATCGTTCTGCTCACCGACAAAGCTGATC +TCTGGCGAAATATCGAGAGAGATATTGACCCCTTTGCGTTGATACACTTTGTTCAGCGCTGAGGTGAGAT +TGTCCAGCAGTGGGGCGACCGGATGCAGCTCGCGGCTGAGCAATGTCCCGCCGCGCATACTGGCACGATG +CAGGTAGTAGCCAATTTGCTGTGAAATGCGGCTGATTTGCTCCAGCATTACCGGCTCAGCATCACTGACG +CTCATCTTTTCACTACGCAGAGAACGCAGCGTACTTTGCAGCACCGCCAGTGGCGTTTTCAGACTATGGG +TCAGGTCGGTGAGCGTCGTACGGTATTTGTCGTAACGTTCGCGTTCACTTTTTAACAATCGGTTCAGGTT +TCGTACCAGACTGGTCAGTTCTCGCGTTGTGGCTGGATTGAGCAATTCGCGGTTATGTTCTTCCAGTTCG +CGGACTTCTTTTGCCAGGGCTTCGATGGGGCGTAAACTCCACCAGGCGGCGACCCACAGCAGCGGGATCA +CTAACAGCAGATTGGCTGAGAGCACATAGATAAACCAGCTCCAGACCATATAGGAACTTTTTAGCTCCAC +CGGAATGGTATCCACCACCACAATGGTTAATTTTGGCATCCGCGATGTTGCCGGGTAGACGTTTACTGCC +ACCGAGTGGGTCATCTCCGCGTCGTCATCATCTTCCCGCACTTCCTGCAACTGTTGCTGTATCGAATGAT +CTCCACTCAGCAAGAGGCTGGTATCGTTAACATCCGCTTCAATTTCATGAAAACCATTCGATTTCAGCCA +GTCAGGCTGGATCATCTTCATCAGCCAGGGCACGTCACGTTGCGCCCATAAAAGCTGCCCGTTCTCATCA +TAAATTAGCGTCATGGTGGGGCTTTGCTTGTCGATATTTTCGGGTAACTCGACATGCAACTTATTGTTTT +CCCACTTCGCAAGGGTATAGAACAGATTGCTCTCGCCACGTAACAGCCGAAACGTAGTTTTATCGAAACT +GACGCTATAACCGATCAGCGCGACCATTCCGTAGGCAAGCGAAAGCACCAGTACTACCGCTGCCGTTGCC +AACAGAAAACGTACCCGCAGCGAGAGCGGGAAAAAAAGACGCAGTAATTTTTTCATCAGCGCAATTCGAA +CAGATAGCCCTGGCCGCGAACGGTGGTAATCACTTCTTGGGGATATTGTGCCTGAATTTTTTTGCGCAGA +CGTCCCATCAGTACATCAATGGTATGGCTTTCCCGCAGCTCCGCATCCGGATAGAGTTGGAGCATTAACG +AATCTTTGCTGACCACTTTGCCATTATTGCGTATCAACGTTTCCATAATAGTGTATTCGAACGCGGTCAG +TTTGATCACTTCGTCATTAATAGATAATTCACGGCGAGAGAGATCAACCTGAAACGGGGGGAGCGAAATG +ACCTGTGAAGCCAGACCGCTATTACGCCGCATTAATGCCTGCATTCGCGCCATCACCTCTTCAATATGAA +ACGGTTTAGTCACATAATCATCAGCACCGGCACTTAATACTTCGACTTTGTCCTGCCAGCTTTCACGGGC +GGTTAATACCAGAATCGGCAGTGAAACATCGTTGCTACGCCAGCGGCGAATCAGTGACAGACCGTCCTCG +TCTGGCAATCCGAGATCGACAATCGCAATATCCGGTATATGTTCATTGAGATAATAATCGGCTTCTTTGG +CATCTTCTGCGTCATCGACCTGATGACCAGCATCCTGAATCTGAACTTTAAGGTGGTGACGTAACAACGC +ATTGTCTTCAACAACCAGTACGCGCATTTTTATTTCTCCCTGTCTTAATTATTAAAATAGTGTAACGCGA +TTATGTGGTTATGGGGGTAAACATTAAATAAACCAGCGGGGAGGGGAGGTAAAGTGAAAAAATAAAAAGC +GGATAATCTTAATAAGCAGGCCGGACAGCATCGCCATCCGGCACTGATACGAGGTTTATTTCAGCTCATC +AACCATCGTGATAGCTCGACCAATATAGTTAGCCGGCGTCATCGCTTTCAGGCGGGCTTTCTCTTCTTCT +GGCAACGCCAGACCATCGATAAACTGCTTCATGCCTTCGGCGTCAACGCGCTTACCGCGAGTCAGCTCTT +TCAGCTTCTCGTACGGTTTTTCGATGCCATAGCGACGCATAACTGTCTGGATTGGTTCAGCCAGCACTTC +CCAGTTGTGATCCAGTTCATCCAGCAGATGGTCACGGTTCACTTCCAGTTTGCTCACGCCTTTCAGGGTG +GATTGATATGCAATCAAGGCATAACCGATACCCACGCCGAGGTTACGCAGCACGGTAGAGTCGGTCAGGT +CACGCTGCCAGCGGGAAACCGGCAGTTTGCTTGCCAGATGCTGCAATACCGCGTTGGAAAGGCCCAGATT +CCCTTCGGAGTTTTCGAAGTCGATCGGGTTAACTTTATGCGGCATGGTGGAAGAACCAATCTCACCAGCA +ATGGTTTTCTGTTTGAAGTGGTTAAGGGCGATATAACCCCAGACGTCACGGTCAAAGTCGATCAGAATAG +TGTTGAAGCGCGCAACGCAATCAAACAGTTCGGCAATGTAGTCGTGCGGTTCGATCTGGGTGGTGTACGG +GTTCCACTGAATACCCAGCGAGGTGACGAACTCTTCGCTGAACTGATGCCAGTCAACTTCCGGGTAAGCG +GCGATGTGGGCGTTATAGTTACCGACCGCGCCGTTGATTTTGCCGAGGATCTCCACCTGGTTAAGCTGGC +GGTACTGGCGCTCCATACGGTAGGCGACGTTTGCCATCTCTTTACCGATGGTTGACGGCGTGGCTGGCTG +ACCGTGGGTACGAGACAGCAGCGGGATATCGCGATACTGAACGGCGAGATCTTTAATGCCATCAATCAGT +TGACGCCAGTATGGCAGGATCACTTCATCACGCGCGGTTTTCAGCATTAATGCGTGGGAGAGGTTATTGA +TATCTTCCGAAGTACAGGCAAAGTGGATGAATTCAGAAACCGCGTGCAGTTCCGGGATCTCCGCCACTTT +TTCTTTCAGGAAATACTCAACCGCTTTAACGTCGTGGTTAGTGGTACGCTCGATAGTTTTGATGCGCGCC +GCATCTTCTTCGCTGAAACTGGCGACGATTGCATCAAGGTAACCGATTGCGTCGGCAGCAAAAGCAGGAA +CTTCCTTGATCGCTGCGTGCGCGGCCAGTTTTTGCAGCCAACGTACTTCAACTTGTACACGGAATTTCAG +CAAACCATATTCGCTGAAAATCCCGCGCAGCGCGCTGACTTTATCGCCGTAGCGTCCATCGACAGGGGAA +ACGGCGGTCAGTGAGGATAATTCCATAGATCACAACTCCGGGGTTAAATGAGCAAGAATTTGTTTTGCCT +GAGTGGTCAGGCGATTACGAGAAAACATCAGTTGCAGACGTCCGCCGCCGACCTGGTGCCAGAGCACGGC +GGCGCGAATGCCTGCCAGCAGGGTTGCGCGAACTTTCGCCTGCACTTGTGGGCTTTGCAGTACAGCAGGG +GAACCGGTGACCTGAATGCGCGGGCCAAGCGGGCTAATCACATCAACATAGATAGCAGCCATCGCGCTCA +TCAGCGTTTCGGACTGTAAATCGAAGTGTTCGAGCTGGCGTTGCAGGCCGTTGATCCGGTTGCCCAGAGT +GTCGAGCGCGCCTTTCGCTGAGGAGAGTTTGCGCTCAAGCACCATCAAGCTGAGTGTGTAGCGGGTTAAT +TCGGCGTTTAAGCCCTGGCGACTGCTGGCATTGAGCACGCCGAGCAGGGTTTCCAGCCCGACGCGCAGGT +TGGCTTCGCTACCGCCAAAAACCGCCAGCGTCGAGCTGGGGTTCATATCAATAATACTGTTGAGTGAGAC +GTGTAGCGCATCGGCATCACAATGCCCCTGGTGAGCGAGTTGTTGCACCAGGCGTGCCGACTGACAAATA +CCGGCCAGGGCGAGGGTGATGTCATAGTAATTCTTTGCCACGTTCACTGCTTCCTTGTTTTAAGTAAAGA +TAATAATCAGACCGGCAGCGGCAGACGCTGCTCAATAATACCGCCACCGAGGCACACTTCACCGTTATAG +AAGACGGCAGACTGGCCCGGCGTCACGGCGGCAACCGGTTCATCGAAAATCACTTCAATGCGATCATCGT +CCAGCGCCTTGACGGTGCAAGGGATATCGGTCTGGCGATAGCGGGTTTTTACCGTGCAACGCATAGTGCC +GGTGAATGGTTCGCGATCGACCCAGTGCAACTGCTGGGCAATCAACCCGACAGACATCAGCCGCGGGTGT +TCATGGCCCTGAGCGACAACCAGAATGTTGTTTTCGACGTCTTTGTCCACCACATACCACGGTTCTTCGG +TACCTTCTTTGGTGCCACCGATACCCAGACCTTTACGCTGACCGAGAGTGTGATACATCAGCCCCTGGTG +CTCACCAATTTCATCGCCATCGACGGTAATGATTTTGCCCGGTTGCGCCGGGAGATAACGGCCCAGGAAC +TCGCGGAATTTACGTTCGCCAATGAAGCAAATGCCGGTAGAGTCTTTTTTCTTCGCGGTGACCAGACCAA +GATCTTCAGCAATCTTACGCACCTGCGGTTTTTCCAGTTCGCCGACCGGGAACAGGCTTTGCGCAATCTG +CTCATGGCTGAGCGTATAAAGGAAGTAGCTCTGGTCTTTATTGCTGTCCAGACCACGCAGCAGGCGGCTC +TTGCCATCGACATCGGCCCGACGTACGTAATGACCGGTAGCGATATAATCGGCACCTAAATCTTCGGCGG +CAAATTCGAGGAAGGCTTTAAATTTGATCTCTTTGTTGCACAGAATATCCGGATTCGGCGTGCGACCGGC +TTTATATTCGGCAAGGAACAGTTCGAAGACGTTGTCCCAGTACTCGGCAGCAAAGTTAACGGTGTGCAGT +TCAATGCCGAGCTTGTCGCAGACAGCCTGGGCATCAGCCAGATCCGCTGCCGCTGTGCAATATTCCTCAC +CGTCGTCTTCTTCCCAGTTCTTCATAAACAGGCCTTCGACCTGATATCCCTGTTGTTGCAACAGCCAGGC +AGAAACGGAGGAATCGACACCGCCGGACATGCCGACGATTACTTTTTTTGCGGTTTCAGACATTGGATCA +CTCACGACATTGAACTTCAAGGCGGCGTATTCTATCACGCAGCCTTTTAGATGACACCCTTTGTAAAAGG +CCAGTTAAAATCGCCAATCATCTCCAGCGGATAACGTTGCCCGCTTTGATAACAACGAATACTTTCCGCC +ACCAGCGGCGAACGAAGATTTGACGCCTGTAAAATTTCTTCGGCGCTGACCCAACGGCAGCAGTCGATAT +CGCTGTCATGAGGCTGGGTCGGGCATATTTGCTCAAGCTCAATGGCAAAGAGGAAACGCAAAAACGGCGT +TTTATCTGGCGCAATCCACTGATGCATACGAATAAAGTGTTGCGGCTGCGCGCTGATGCCGGTTTCTTCC +CACAGTTCACGGGCGGCGGCTTCCACTAAGGTTTCATCGGCTTCCAGATGCCCGGCAGGTTGGTTCCATA +ACGCTTTACCATTAATCGTCTCTTCAACGACTAAAAATTTGCCTTCTGCGTGCACCACGCAAGCAACGGT +AACGTGCGGTTTAAACATTTTGCATCCTTAATCTGTCACTTCTCGCCATTCACCATTGGCAAGATTATCC +AAAGAGTAATCACCCATCGCATAGCGAATCAGTCGCAGCGTGGGGAAGCCAACATGGGCGGTCATGCGGC +GCACCTGGCGATTACGTCCTTCATATAAGGTGATCTTCAGCCAGCTGGTGGGAATACTTTTGCGTTCACG +AATTGGTGGATTCCGCGGCCATAACCACGCGGGTTCGTCAACCAGCTCCGCGCCGGCGGGCAGGGTAGGG +CCATCATTTAAGGTTACGCCATTGCGCAAGGCTTCAAGTGCGTCTTGTGTGGGAATACCTTCCACCTGCA +CATAATAGATTTTTCCGGTGCGTTTACCCGGCTGGGTTAAACGCGCCTGCAACGCGCCGTTATTGGTCAG +CACCAGCAACCCTTCGCTATCGCGGTCAAGGCGACCTGCTGCATAAACACCCTGAACCGGGATGAATTCT +TTTAATGTTTTGCGTCCGGCTTCATCGGTGAACTGCGGAAGAACATCGTAGGGTTTATTGAACAGGATCA +CACGCGTGGGCTGGTTTTCAGGTTTACGCCTGGTAGAACGTTGCGAGCTGAATCGCTTAACCTGGTGATT +TCTAAAAGAAGTTTTTTGCATGGTATTTTCAGAGATTATGAATTGCCGCATTATAGCCTAATAACGCGCA +TCTTTCATGACGGCAAACAATAGGGTAGTATTGACAAGCCAATTACAAATCATTAACAAAAAATTGCTCT +AAAGCATCCGTATCGCAGGACGCAAACGCATATGCAACGTGGTGGCAGACGAGCAAACCAGTAGCGCTCG +AAGGAGAGGTGAATGGAAAGTAAAGTAGTTGTTCCGGCACAAGGCAAGAAGATCACCCTGCAAAACGGCA +AACTCAACGTTCCTGAAAATCCGATTATCCCTTACATTGAAGGTGATGGAATCGGTGTAGATGTAACCCC +AGCCATGCTGAAAGTGGTCGACGCTGCAGTCGAGAAAGCCTATAAAGGCGAGCGTAAAATCTCCTGGATG +GAAATTTACACCGGTGAAAAATCCACACAGGTTTATGGTCAGGACGTCTGGCTGCCTGCTGAAACTCTTG +ATCTGATTCGTGAATATCGCGTTGCCATTAAAGGTCCGCTGACCACTCCGGTTGGTGGCGGTATTCGCTC +TCTGAACGTTGCCCTGCGCCAGGAACTGGATCTCTACATCTGCCTGCGTCCGGTACGTTACTATCAGGGC +ACTCCAAGCCCGGTTAAACACCCTGAACTGACCGATATGGTTATCTTCCGTGAAAACTCGGAAGACATTT +ATGCGGGTATCGAATGGAAAGCAGACTCTGCCGACGCCGAGAAAGTGATTAAATTCCTGCGTGAAGAGAT +GGGGGTGAAGAAAATTCGCTTCCCGGAACATTGTGGTATCGGTATTAAGCCGTGTTCGGAAGAAGGCACC +AAACGTCTGGTTCGTGCAGCGATCGAATACGCAATTGCTAACGATCGTGACTCTGTGACTCTGGTGCACA +AAGGCAACATCATGAAGTTCACCGAAGGAGCGTTTAAAGACTGGGGCTACCAGCTGGCGCGTGAAGAGTT +TGGCGGTGAACTGATCGACGGTGGCCCGTGGCTGAAAGTTAAAAACCCGAACACTGGCAAAGAGATCGTC +ATTAAAGACGTGATTGCTGATGCATTCCTGCAACAGATCCTGCTGCGTCCGGCTGAATATGATGTTATCG +CCTGTATGAACCTGAACGGTGACTACATTTCTGACGCCCTGGCAGCGCAGGTTGGCGGTATCGGTATCGC +CCCTGGTGCAAACATCGGTGACGAATGCGCCCTGTTTGAAGCCACCCACGGTACTGCGCCGAAATATGCC +GGTCAGGACAAAGTAAATCCTGGCTCTATTATTCTCTCCGCTGAGATGATGCTGCGCCACATGGGTTGGA +CCGAAGCGGCTGACTTAATTGTTAAAGGTATGGAAGGCGCAATCAACGCGAAAACCGTAACCTATGACTT +CGAGCGTCTGATGGATGGCGCTAAACTGCTGAAATGTTCAGAGTTTGGTGACGCGATCATCGAAAACATG +TAATGCCGTAGTTTGTTAAATTTATTAACGGGAGCGTAACGCTCCCGTTGTTTTTTGTTAGGCTGCTAAC +GGTTATCAAAATTTTATCAAAAAAAGTTATCAAAACCCCTCGGTAGTTTTGGGGTAGGCTGGCCGGTCAG +GTGGTAGTTCTACTACTAGTCTCCCACATAGATATTCCTTAGCTTTTTATTATTGCTGGCGGACGCTCGT +TAATATTTAAGGTCTTCATTGATTAAGACATCCCCAAAGTTAGTTATGTATTCACTGTTATTAGGACAAT +TATGAATTACCACTCCTTACACCCGCTCAAATATTGTTAAATTGCCGGTTTTGTATCAACTACTCACCCG +GGACTCGCCAGGGGACAGCCAACAGGCATTGGGTGCAATCACCTTAGCGTTCAGGTACATGCGGAATGTA +AAAAAGGCCGCGAGCGCGGCCCCTTCACATACATCTTTAGTACTGAGACTGTTTAACCTAGGGAATTATT +ATCGTATTATATTGCATTACAACTCCCAACAGTGACATATGAACTTCCTGCTTTACTCCACGACTTTAAT +ATTTCAAGGCCATGTGAAGAACATATTTCTTGCACTGCGAGTTCATCGAGTAATCCATAGTAAGAAACAC +TTTTTGAATTTTTGTAAATGTATCCGTAAAGATGTTTTCTTCCTGTTTCGTATTTTTTGAAGTATGAGCT +TTTATATTGATTTACAATAAGAGTCTCACCTCCTGATTTTAGTAATCTCTTGATGCTAAGAACTATTTTG +TCGATTGTATCCCGACAAGGAACGGCAGAGAGAACATTAGAGCAAAGGATGAAATCGTAACCCCCAATTA +TTTTGTCGACATCCTCGAAAGCAACTGTATTTGCATTTTTATAATATCGTGGGACATAGTCAATAATTTT +AGTTTTAATTCCTCTAATAATTTGCTCTCTTTCAAGTTGCCTTTTCGAGTCTAGAAAAGTAACTTCATCA +AATTTACTGATTAATTCATCAGAATATCTAAGTTTTCCGCAGCCAAAATCAAGGGCGTGGCCATTTTTCT +CAATGCTTCTAATATACTCGCAAAGATATCTAGAGGGCATCGTATGAGGTTTTGCTGCATTCTCTGAGCG +AATATTAACTCCGTGCATATTATAGTTCAAAGCAAGTACCATTCAATTAATGTTATTTTTAGTGAAAAAT +TCTTTTATTTTATCGTCCGGGATTTTTCCGACTTGACTTTCAGTTCTGGGCTTAACTGTCAAAGCAAAGA +TAATACCACTCACTGAGAATGATAAAATTACAAAAAAGAATAAAGACAGCAAAGAACCTTCAACATGAAA +AATATCCATTTGTTTGCAAAAAAAGATTATTAGGAAGGAAATTAATGCAATTATCGAAAATTCAAAAAAT +ATCCAAAAATAGTATACTTTATTCCAGAAGAGTTCAATATAATGTTTGTCTTCAATTTTTCTTACTTCAG +GGTAATATAGATTGCTCATTACATTGTGAGCTTCATCTTTATTTAATTTTCTGTTGACTCCAGCTCTCCG +TGATAACGGTTTTATAATTAGATGCTTATCCCAAAGATATCGCACCCGAAGTAGTTTGGCTGCATTGTTA +TGTAGGTCTAACGCACCGCTAATTAAATATGCAAAAATCGCAAAAGCACAAGGTAATATACCAAAAGATA +GTGCCCAATTAATAAAGCTCTCATGATCTTTAATAGGTGGGACATACTTGGTTGGTAATGTTATTAAAGG +GATGTATTCGTAAATAACTAGAAGTATGCAATATATTAGCGTATTTAAGAAAGTTGCTTTATGAAGTTTA +GGCAACATTTCATTATAATTTTTGGGGGGTTCGAACATATTATTCACCTGAGTCACGCTTTAGGATAGTG +TAATGGTAATATTTAATTAAGTGTCATTATATACTTTTCAGTAGGTTAGTTACAATTTTTTGTATCTGTT +CAGGCTGACCTAGCTTCGCTGACAGACAATATTGTGATCAGTAGCACGTATCGAGGAGGAGTAGCGCTAC +AAATTTGACGCTGGGTGAGAATCTGAAATTGATAGAAATGAAATAATGAAATAATGAAATGATGAAATGA +TGAAATGATGAAATGATGAAATGATGAAATGATGACAGAGTGTCCAGTGGGCACGGATGGTGTCTTACGA +CATGCTTACCTTAATCGTTCCCAGTGTGCCTATAGCAGATATTCTAAACATGTCGATAATTCATTACGCA +TATAGTATCGAACATAGAAAAAACTGAAGATTCATCTTATTTTGTATATACTACCTAGCCCAACAATGTA +GAGGTTAACGAAAAATGCGCTCACCAATTTGTCATCTTTTCTCAGCAATTAATTCATCACCATTTAAGAT +TGCACCAGAGAAGGAGCAAGATCTTAAAACGATAGTTGACGACAAAAAAATTATAATTTCAGTTGTGAGT +GAACCTGGTTTTAATATCCGAGTCAGGAAGAATGAGAGTAATAATTCACATGAAATAGTTCTAACAGTAG +CTTCACTTGAATATATTTGGGCATTTTCCAATTTCTTTTGGGTTTTTACGCAAGAGTACTCCAAATCTCA +GAAAAATAATGATGAGCACTTTGATTTAACAGGAAAAAATAGGCTTAAAAAGTCTGATGAACTTCTTAAA +TGGGCAAGGAAAAACTTGCAAACAACAGGTTGCGAATCATGGCCTAAAAAATGTCCCAAGCCAGAAGCAT +ATTTACAAGGAAGCGAAGACTCACAAGTTGCTAGCGAGATATTTCTTTGTGCTATTGCTTGGATTCTTCA +TCATGAAATAAGTCATGTTGTTTTACAGCATCCATTGGTCACTACAGCATTCTCCACTCAAGAGGAGCGT +GAAGCAGATTCACATGCTACAAAATGGATATTAGGCAACCTGTATGAATCCGCTCCTGAATTAAAGAAAC +GTGCACTTGGCATTGCTACGGCAGTGCTTTGTATACAAAGCTTAGAAGTTGAAAATTACTTCTGTTTACA +AAATACACACCCAGCTGCATATGAGCGTATATATTCGAATATTTCATGCTACCCTGTCGGAAATGAAGAG +TTGATTGAAGCTCTATGTACAGTGATGCTTCAATATCTTTTCCATGGCAAAAATATCAATGTGAATCTAG +ATGGGGAGTCCTTTTCATCGATTTTAGGTGATCTTCTCTGTGATATTTCACGTCTTACCAGTAACTGATA +TGGCTGTCCGCCGCTCGCTTAAAGTGGACTTTTTAGTTTTTATCATGTGCGGTGAGAAATTCAATGTGGC +GTTGAGATGCTTAAAGGTTCACAACGCTACTTTGCTCCATCCTTTACCTCGATCATCATGATAACGATCG +GTTTGTTGTTGTGTTTTATGACCAAGTAGTTTTTGTGTGTCTAACCCCTGTTCTTTATACAGACGTTCAG +ATAAAGACCTTTGCTCATGGAATGTCGCAGGTGAACCCTCTCCCCAGTCAATTCTTGCTAAATCTCTCGC +TTTACTAAAATTCATCGTCAATGTATTGGCTTTAACCTGCGCTCCGCGCTCTGCTTGTGAAGTTGAACGA +AAAAAATGCACTAAGTATGCACTGACTGCATAGTCACGGCAGCGGGCTACTACATCGCGTAAACTCCAGT +TAATCGCATTGAGGCGAAGAGAAAGAGGAATTGCGATTTTGCTCCCGGTCTTTTCCTGAATGACATGAAG +ATGATCATCCCAAATATCGCTAAATTTCATACGCGAAATATCACCTAACCGCTGACCAGTAACCAGCGCT +AACAGCATGGCATTTCCCATGTAACGATGAGTAGCGTCTGCGATATCGAAGATTTTTTTCCATTCTTCAA +GGCTCAGCCGTTGTCGGGTAATTTTTCTTCTTGGTTGTTTAGTGGCTAATGCTGGGTTATAGCCAGGAGG +TACTTCTCCGTAGTGCTGCGCCTCTTTGAAAACATCAATCAGGACGGAGCGAACTACTTGTGCCATTCTT +GGCCGCCCAGCGGCGATATACTCATCAAGCAATTGTGCTATATCTCTGACATCAACGGCTGAGATCAACT +TCATTCCTGCTCGTTCTCTGAGCAAGGATACTGGTTTAGCTTTTTGTTTATAGGTGTTGAGTCTTATATC +ACCACTTTTAAGCCTGTCATCCTGGATCGCTTGATAGCGATCTAACCAGGTTGACGTTGTGATAGCCTTT +CCTTTGCTGGTTGCGATCCTGTCACTGATAGCCAGAATCTGCCGGGTTCTTTGTTCAGCCAGGCGAGTGT +TGGCCTCAGTGGCAATAGCGATAGCTTCAGCTTCGTTTGTTCCCAAAGCATGGAATTTTCCTGTCACTGG +ATGCTTATACCGCCAATAGACTTTATTTACCTTCCTACTATAAAGCGGATATAAGTTAGGGACTGAAACA +TTATTCTTACGCGGTCTGGCTGCCATTACTCAAAATCCGTTGCAAAAGTAATGAGTCATTTTTCTTGATT +ACAGGTGTTACCAACTCCCCAACTAACTCGGCGTCCTCACGCACTCGCCATAACCGGCCTTGTTTCATGG +CCGGTGGACAAAATAAATTCTGCTTAGCATAACGACGCAATGTGGACACACTTGGAGGATTACTTCTGTA +TTTTTCAGCAGCCCATTCTTCAAGAGTTAACATTTGAAGCATATGCGATCACCTTATTACTACACTAACT +GCTTAGTCTCAGCATATCGACCCTGCACGGTCGGTTAGTTTCTCCACAAAACAGAGAAGAGCACCTGTGG +CCACAGCTATCAGGATGGGTCGGGTTATTAACCCGTCATCCGGGGATACTCTTCTCTGTTTTGTAAAAAG +GGCGGTACCAGAAAGGACTAAGGAAAAAACTGGTACCGCCAAGACTACACACAGCATAAAGTTGTGGTGT +CGGGTGCCCCCGGTGCCTGGCGAAGGTTGCACACCAGGCGGGTGGGTATCCACAGAAGGTCGATTGTCAG +CCTCAACCTTAACCCGCGTGCGCTGAGCCGCATTCACCACAACGCTAAGGATTCTCTCTGGTTGAAAATA +CTTAGCTGTTATGTGCCTGTCTTTTCACCACTTCAGGCTCGGTGGTATGCTGGAGTTCTCACACAGCCAG +CAAGCAAGGAAACTTAATGAACCAGTTTTATGTTCACGTTCGTCTATTTGAAGACACAGCCGAACAGACC +AAAAAATTTGAAGAATTAATGCTTAACTTTCTGTACCAGAAAACAGTTAAAGAGTCTGACGATAGCTGCT +GCAGACTGATTCCAGAGGGATATATCCTCAAAAGTACAATGAACTGCCAACAAATCCTTGATCAAACATT +TTCAATTGCTAACAGTGCCGGTGTTGACGCAAATATATTTGTCTGTAAATTTGAACAAAGCGCATGCTTA +CTTCCGTCTGCTTCCTTAGTTGGTAACGATTTCGTTCATTACGATCTTACGCCTAAGCCCATCAAGCTCG +ATTCTTAAAGCCTTAACCATTGTGTCGTGATAAACACGGCTCACCTTCTCTCCATTGCATGGCAGAGGGG +TGAGTGTGTTAGCCATGAAATTCATGAACTCGGTTCGACCAGGGGCTTGCGCCCCGCAAGTCTTTAATGC +CTGTTTTGCTAACAAAATGCGGGCCTCAGTGCCTGCATTTGGCTCTATCTGCTGCAAACGTTTAGCGTCT +TCCAGCAACAATGCGATCACATGCTTCAAATTCTGCTCATTCATCTATTCTCTCCACTGAAATCATCCGC +TAACGAATCATCCCGGTCTTCGTACGTACCGGGCGGGCTACTTCGTGGGCGTCCTGCCTGTTTGTTGTTT +CTCTTGGGTACATTATGTATCTCAAAGGTACATTGTCAAGTATAAAAAAACCTGCCGAAGCAGGTTCATA +AACATTGATTAGGCTTTGATTTTGTATCTTCTTGGTTTTCCTGAGAAAATCACAGTACCAATTATAGAGC +AATTACCGTTGATCTTAATGTAAGGCTCAGGCCAGTTTGGGTTTAACGCTTTGAGATAACGCTGTGTCCC +ATCTTCTATCAACCTTTTGAAGGTGGTTTCACCTGTATCGTGCATCAATGCAATAACGTCGTCACCGTGG +CAGGCAGGTACTTCAGGATCGACAAAAATCATGTCTCCCGGGCGGTACTCATCAATCATTGAATCACCTA +TTACCCGCAAGATATAAGTCATTTCCCCACAGGGTACAGGGCAGGGATACGTTTCTGCTGTGCTCAAATC +AACCTCAGAATATCCAACTTCTTTCCATGCTCCGGCCTGTACCCATGATATGACAGGGACTAATGTGATT +TGTTTATTAGTGATTGAAACATCAGGTTTTTTTGTGATGTTCGTTGTCTGGTGTTCTTGATCGAGCCATC +CTACAGGCAGGTCGAAACATTTTTCGATGTGTCGTGCCATGCTGTCACCGATATTTTTAGTAGCACCATC +TCCCATAAACCTGCTGGTCTGGGTTGGCTCGCGATCAATCATAGTGGCAAAGGAAGAATTCCCGCCAACA +CCATCTCTCAGTTTTCTGGCGTTAGACCGCCGGATGTCATGGATTGTTTTCATAACGAAATTAAAACCCT +TGTACCGTTAAGGTACAAGTATCTTGAAGGTTCATTTCAATCATGTAATATGTACACCGGAGGTACATAT +TGTATGAAAGCGTATTGGGACTCTTTAACCAAAGAACAGCAGGGCGAGTTGGCCGGAAAAGTTGGCTCAA +CACCTGGCTACTTACGGCTGGTTTTCAATGGCTATAAAAAAGCCAGTTTTGTGCTGGCTAAAAAACTTGA +GCAATACACATCAGGTGCAATTACGAAATCTGACTTAAGACCGGATATCTATCCGAAAGATTAGCAGAAC +ACTTTCAATTTTTAACCACAGAACGATGAGGCTAATCGTGGGTAAGCATCACTGGAAAATAGAAAAACAG +CCTGAGTGGTACGTGAAAGCTGTCAGAAAAACTATCGCGGCGTTGCCGAGTGGTTACGCTGAAGCGGCTG +ACTGGCTCGATGTAACAGAAAACGCTTTATTCAACCGCCTTCGTGCAGATGGCGATCAGATTTTCCCGCT +GGGATGGGCAATGGTTTTACAGCGTGCTGGTGGCACTCACTTCATTGCTGATGCTGTGGCGCAGTCTGCA +AATGGCGTCTTTGTGTCTCTTCCTGACGTCGAGGATGTGGACAACGCCGATATTAACCAGCGTCTGCTGG +AAGTCATTGAACAGATCGGCAGTTATTCAAAACAGATTCGTTCAGCAATCGAAGACGGTGTAGTGGAACC +GCATGAGAAGACAGCAATTAACGACGAGCTGTATCTCTCAATTTCGAAGCTGCAGGAGCATGCAGCACTT +GTCTACAAAATTTTTTGCATTTCAGAAAGTAATGACGCCCGCGAGTGTGCAGCTCCGGGCGTCGTGGCGT +CGATTGCTTCTGGTTGTGGAGAAACTAACGCATGAACAGTTTAACAACACACTACCGTCGCTCGCAACTG +ATTGCGCTTCCTGTACCGGGTGGAAAAGCGAAGGTGGAATATTGCTATGCAGTGAATGTACCAGGTGACA +GGGAAATTGTAACCCACAGCTTTGCAGAGTGGGCTGTGGGTGATTTCAACCGGCAGAAGGAGACAGTCCT +TTGCGACAAGTTAACCGCTGGTTCAAAGATCACTACGGAGTGCCCGTCAGAGTCATTCGTTGGGAGCCGG +AAACACAACGGGTTATCTACCTCCGCGAAGGTTATGAGCATGAATGCTTCAGCCCGCTCGAACAGTTTCG +TCGTAAATTCAGGGAAATAGAGGTCGGTCATGAGCACTAAATTAACCGGCTATGTATGGGATGGTTGCGC +TGCATCAGGCATGAAGTTATCCAGCGTGGCAATTATGGCCCGCCTGGCTGATTTCAGTAATGACGAAGGT +GTGTGCTGGCCATCAATTGAAACCATTGCCCGTCAGATTGGCGCGGGGATGAGTACCGTCAGAACGGCTA +TCGCACGGCTGGAAGCAGAAGGCTGGTTAACGCGTAAGGCGCGTCGCCAGGGTGATGGTTCATCACCCCA +CTGTGCCGTGGTGGATGAATATCACGAGCACGCCACAGATGCGCTTTACACCACGATGCTTACCGGGATG +GGGGCGCGACGCCAGCCACTGATGTGGGCCATTACCACCGCCGGGTACAACATTGAGGGGCCGTGCTACG +ACAAACGGCGGGAAGTCATCGAGATGCTCAACGGCTCGGTGCCAAACGATGAACTGTTCGGGATCATCTA +TACCGTTGATGAAGGTGACGACTGGACCGACCCGCAGGTGCTGGAAAAAGCCAATCCAAATATTGGCGTG +TCGGTTTATCGCGAATTTTTGTTAAGTCAGCAGCAGCGTGCGAAAAATAACGCCCGTCTGGCAAACGTCT +TTAAAACAAAACACCTCAATATCTGGGCGTCGGCGCGTTCGGCGTATTTCAACCTGGTGAGCTGGCAGAG +CTGCGAGGATAAATCACTGACCCTTGAGCAGTTCGAGGGGCAGCCGTGCATTCTGGCCTTTGACCTGGCG +CGTAAGCTGGATATGAACAGCATGGCGCGACTTTATACCCGCGAGATTGACGGTAAAACGCATTACTACA +GTGTGGCCCCGCGTTTCTGGGTACCGTATGACACGGTGTACAGCGTCGAGAAAAATGAAGATCGCCGGAC +AGCCGAACGCTTTCAGAAATGGGTGGAAATGGGCGTTCTGACCGTTACCGATGGTGCGGAGGTGGATTAT +CGCTACATCCTCGAAGAGGCCAAAGCGGCGAACAAAATCAGCCCGGTCAGTGAGTCACCCATCGACCCCT +TCGGGGCGACCGGGCTGTCACATGACCTTGCTGATGAAGACCTGAACCCCGTCACCATCATTCAGAACTA +CACCAACATGTCCGATCCGATGAAAGAGCTGGAAGCGGCGATTGAATCGGGGCGCTTTCATCATGACGGC +AATCCCATCATGACCTGGTGTATCGGCAACGTGGTCGGCAAAACCATTCCGGGTAACGATGATGTGGTGA +AGCCCGTCAAGGAGCAGGCGGAAAACAAAATCGATGGTGCAGTTGCGCTGATTATGGCGGTTGGCAGAGC +CATGCTGTACGAGAAAGAAGACACGCTGTCTGATCACATTGAGTCCTACGGGATCCGCTCGCTTTAACTG +AGGTAATTATGATCATGCTGATTCTCGCGCCTCTGGTGGGCGTGCTGGGTGCGCTTTTGCTGGCGTATGG +TGCCTGGCTGATTTATCCCCCGGCGGGTTTTGTTGTTGCCGGGGCGCTGTGCCTGTTCTGGTCGTGGCTG +GTGGCGCGATATCTCGACCGTACACAGTCGTCTGTCGGCGGAGGTAAATAGTGTTCTTTTCGGGATTATT +TCAACGAAAAAGTGACGCACCGGTGACCACGCCAGCAGAGCTGGCGGATGCCATCGGGCTGTCGTATGAC +ACCTATACCGGAAAGCAGATCAGCAGTCAGCGGGCTATGCGACTGACGGCGGTTTTTTCCTGCGTCAGAG +TGCTGGCAGAGTCGGTCGGGATGTTGCCCTGCAATCTGTATCACCTGAACGGCAGCCTGAAGCAGAGAGC +CACCGGCGAACGTCTGCATAAACTGATCTCCACGCATCCCAATGGCTATATGACGCCGCAGGAGTTCTGG +GAGCTGGTGGTCACCTGTCTGTGCCTGAGGGGAAACTTTTACGCCTACAAAGTGAAAGCATTTGGCGAAG +TGGCTGAACTGCTGCCCGTCGATCCCGGCTGTGTGGTATATGCGCTGGGAAGGTGTCAGCGATGGCCTGA +AGGTGACCGCCGGGAGTGTTATTCAGCGCGATGACCTGGTGCAGTACACGACAACTGACGATGCAACCAG +CTCCGGTGGTGTCCTGCGCGTGCCGATCGCCTGCTCAAGTGCAGGTGCGGTCGGTAACGCTGACGACGGT +ACGGCATTAATCCTGGTCACGCCGGTGAATGGTCTGCCGTCTTCCGGTGTGGCTGACACCCTGACAGGCG +GATTTGATACTGAAGAGCTGGAAACGTGGCGCGCCCGCGTCATTGAGCGGTATTACTGGACGCCGCAGGG +CGGGGCTGACGGGGACTATGTCGTCTGGGCTAAAGAAGTGCCCGGCATTACCCGCGCATGGACATACCGT +CACTTGATGGGAACGGGAACTGTCGGTGTGATGATTGCCAGCAGTGACCTGATTAATCCCATTCCGGAAG +AATCAACGGAAACGGCGGCAAGACAACATATCGGGCCACTGGCCCCGGTGGCAGGCTCTGATTTGTATGT +GTTCAGGCCGGTGGCACATACGGTGGATTTTCATATCCGCGTGACGCCGGACACACCAGAAATACGGGCT +GCCATTACCGCGGAGTTGCGTTCGTTCCTGCTGCGTGATGGTTATCCGCAGGGAGAACTCAAGGTATCGC +GTATCAGTGAGGCGATTTCCGGTGCGAACGGGGAATACAGCCATCAGTTGCTTGCACCGGTGGACAATAT +CTCCATTGCGAAAAACGAACTGGCGGTACTGGGGACGATTTCATGGACGTGACAAACGATGATTACATCC +GCCTGTTATCGGCACTGTTGCCGCCCGGTCCGGTGTGGTCAGCCAGCGATCCGGCGATTGCCGGTGCGGC +ACCGTCATTAACCCGTGTTCATCAGCGTGCGGATGCCCTGATGCGGGAGCTGGATCCGCGCACCACCACT +GAACTGATAAACCGCTGGGAGCGTCTGTGCGGTCTGCCGGATGAATGTATTCCGGCGGGAACGCAGACCC +TTCGCCAGCGTCAGCAACGGCTGGATGCGAAGGTTAACCTGGCGGGCGGCATCAACGAGGATTTTTATCT +TGCACAGCTTGCTGCCCTGGGCAGACCAGATGCCACCATCACGCGATACGACAAAAGCACTTTCACCTGC +TCATCGGCCTGTACTGACGCGGTGAATGCGCCGGAATGGCGGTATTACTGGCAGGTCAACATGCCAGCCA +CCACCAACTCCACCTGGATGACATGTGGCGATCCCTGTGATTCCGCACTGCGTATCTGGGGTGACACCGT +TGTCGAGTGTGTGCTTAACAAACTCTGCCCGTCGCATACCTACGTAATTTTTAAATATCCGGAGTAATCC +ATGCATCGTATAGACACGAAAACCGCGCAGAAGGATAAGTTCGGCGCGGGTAAGAACGGTTTTACCCGTG +GTAACCCCCAGACCGGCACGCCTGCCACCGATCTGGATGATGACTACTTTGACATGTTGCAGGAGGAACT +TTGCAGCGTGGTGGAGGCATCCGGTGCCAGCCTGGAGAAGGGGCGGCACGACCAGTTACTTACCGCACTT +CGCGCGCTGCTGTTAAGCCGCAAGAATCCGTTTGGCGATATCAAATCGGATGGCACTGTGCAAACGGCTC +TCGAAAACCTTGGTTTGGGAGAAGGAGCAAAACTCAATGCAGCAACGGCTACATTAGGACGCACCGGTTT +CATAGCTATACCGGTTATGATTGGTGGTATTGAGCAATCAGTAATCATTCAGTGGGGGTGGAATGCCGCA +AAAGCATCTGCCTCTGGGGGGGATGGAAATACAGTTGTATTCCCGGTTGCGTTTAATAATGCCTGTGTTG +CCGTTGTTGCAAATTATGACAATGTCAGCGCACCTATCAATGCAGTGGCAACGGGGGGATATACAACCAC +TTCGTTTTTATTACGGTGCGCAGCTCAAACGGGTAGTTATTACTATAACTGGATTGCTATTGGGTATTAA +GATGAAAATATACTGTTGCTTAAATACCGTTGGTTTTTTTATGGATGGCTGTGGCGTCATTCCGCCAGAT +TCTAAAGAAATAACGGCAGAACACTGGCAGTCATTATTAAAATCTCAAGCTGAAGGAGGCGTGATCGATT +TTTCTGTTTTTCCTCCTTCTATTAAAGAGGTTATCCGTACTCATGATGATGAAGTCGCAGATGCGAACTT +TCAAAAGCAGATGCTTATCTCTGATGCAACTGATTTTATCAATAGCAGACAGTGGCAGGGTAAGGCTGCA +TTGGGAAGACTTAAAGAAGATGAGCTGAAACAATATAATTTGTGGCTGGATTATCTGGAAGCACTGGAAC +TGGTTGATACATCCAGTGCGCCAGATATTGAATGGCCTACGCCTCCGGCAGTTCAGGCCAGATGACATCC +GGCGCGGTGCTGGTATCTGTTGCCGTCACCGCGTCAATGTAATCCAGCACAGCGTTAAGTCTGGTTGTTT +CTGCCTGCGTCAGTTTACGTCCGGCCTGCAATTTCAGTTGAATCAGACTAATGGAAGCCATTGCAGCATC +AATCAGTGACTGGCGCTGTGCTTCTGCCGCGTCTACTGCGGCGCTATGCTGTGCTTCAGTATCGGTCACC +CATTTCTCACCATCCCATTTATCGTATGGAGATAAAGGGGCGATAGTGGTTGTATTTTCAGGGTAATCAC +CCGGAGCTTTGATTTCTTTTGATTCTCCAGTTTTGGTGCTATAGACCGTTTCACCGCGATGGTCTGGCAC +ATATTCCCATGAGTTAAAATCTGCAGAACGGCAGATTGCATAACCAGCCTTATGTGTACCAGGGGCATCT +AAACAGGAACATGCCGGAATGCCGACACCAACGGCAAGATATTCATTTGAAGTGGAAATATATTCCCGTG +TTTCACCATCGTAGTTATAAACGGTAACATCCCCTGCCTTTGTTGCAATAAGGTCACTATTTAATATTGC +TTTATGCATCAGGCTGCCCTCACGATATAGTTAAATGCAATATTACGCGGACGCGTTTCTGAGGCTGCGG +CACCTAAACCATCCACTGATTGTTTATATGTTTTAAAGGTTCCATAATCCGGGGCTGGTAATCCGGCATC +GTTTGTGTTTCCTCTTTTGATAATGTCAGTGCCACTATTTACCCATATTTCATCAAAATAGAAATTAATC +GTTGCATCAGTCACAATCGTGGATCTTGACGGTAATCCATGAGCATGATCCTCCGTTGCATACCCCTGAA +TACTTAAAATAGAGCGACCTGTATCAATCCCCCGCCCGTCATCCCAGCCACGAATAAACTCACCACGTAA +ATCAGGCAATTTATTTGTCGGATAAGCCTTTGCCAGTTCCGGGTATTCTTCAGCAGAAAAAGCGGCACCA +TTGCATTTCAGCCAGCCTGTTGGCGGAGTGGCTGAAGGCCACGGAACCGGGACACCAACAGGTAATGCAG +AGCCTTCTCCCAAACCAACGTTTATGAAAATGAAGAAATAACAAGCAAATGGCATCATTCCTGCTTTTAC +CAGGGGGATTTAACATGCTTATTGGCTATGTACGCGTATCAACAAATGACCAGAACACAGATCTACAACG +TAATGCGCTGAACTGTGCAGGATGCGAGCTGATTTTTGAAGACAAGATAAGCGGCACAAAGTCCGAAAGG +CCGGGACTGAAAAAACTGCTCAGGACATTATCGGCAGGTGACACTCTGGTTGTCTGGAAGCTGGATCGGC +TGGGGCGTAGTATGCGGCATCTTGTCGTGCTGGTGGAGGAGTTGCGCGAACGAGGCATCAACTTTCGTAG +TCTGACGGATTCAATTGATACCAGCACACCAATGGGACGCTTTTTCTTTCATGTGATGGGTGCCCTGGCT +GAAATGGAGCGTGAACTGATTGTTGAACGAACAAAAGCTGGACTGGAAACTGCTCGTGCACAGGGACGAA +TTGGTGGACGTCGTCCCAAACTTACACCAGAACAATGGGCACAAGCTGGACGATTAATTGCAGCAGGAAC +TCCTCGCCAGAAGGTGGCGATTATCTATGATGTTGGTGTGTCAACTTTGTATAAGAGGTTTCCTGCAGGG +GATAAATAAAGTTAAAGACACTTTGTGTACAAAAGAAAGTAAAACAACAGCAACTTGTTGCAATTTTATC +AATAAAAGTAGTATTGTCGTGAAAAATTGATTAAAGATTAATATTATGCATGTTTTTGATAATAATGGAA +TTGAACTGAAAGCTGAGTGTTCGATAGGTGAAGAGGATGGTGTTTATGGTCTAATCCTTGAGTCGTGGGG +GCCGGGTGACAGAAACAAAGATTACAATATCGCTCTTGATTATATCATTGAACGGTTGGTTGATTCTGGT +GTATCCCAAGTCGTAGTATATCTGGCGTCATCATCAGTCAGAAAACATATGCATTCTTTGGATGAAAGAA +AAATCCATCCTGGTGAATATTTTACTTTGATTGGTAATAGCCCCCGCGATATACGCTTGAAGATGTGTGG +TTATCAGGCTTATTTTAGTCGTACGGGGAGAAAGGAAATTCCTTCCGGCAATAGAACGAAACGAATATTG +ATAAATGTTCCAGGTATTTATAGTGACAGTTTTTGGGCGTCTATAATACGTGGAGAACTATCAGAGCTTT +CACAGCCTACAGATGATGAATCGCTTCTGAATATGAGGGTTAGTAAATTAATTAAGAAAACGTTGAGTCA +ACCCGAGGGCTCCAGGAAACCAGTTGAGGTAGAAAGACTACAAAAAGTTTATGTCCGAGACCCGATGGTA +AAAGCTTGGATTTTACAGCAAAGTAAAGGTATATGTGAAAACTGTGGTAAAAATGCTCCGTTTTATTTAA +ATGATGGAAACCCATATTTGGAAGTACATCATGTAATTCCCCTGTCTTCAGGTGGTGCTGATACAACAGA +TAACTGTGTTGCCCTTTGTCCGAATTGCCATAGAGAATTGCACTATAGTAAAAATGCAAAAGAACTAATC +GAGATGCTTTACGTTAATATAAACCGATTACAGAAATAAAATTATTTATTAAAGTCACATTTAAGACGTA +ATACCCTACAGGGTAAAAATTTTCTCTGATCTTAACTTCTGCAAATGTTAACTGCTATTTTTATGCTAAA +AATGGTTATCAAAACTCAAAAACACATGTTTATAATCAATGAGTTATAGAAATGCTAAGGGCTAATGAGT +TATATGCAAATTAGTAAAATTATGTTGCTATGTCAGATAGTTACGATTTAGTCATCTAACTAATGCTGCG +CCATATGGGTTGGACTGAAGCGGCTGACCTGATTGTTAAAGGTATGGAAGGCGCAATCAATGCCAAGACC +GTAACTTATGACTTCGAACGTCTGATGGAAGGCGCTAAGCTGCTGAAATGTTCAGAGTTTGGTGAAGCGA +TCATCGAAAACATGTAATCTCTCCATGTGTTAAATATTGAAACGGGCGTATAACACGCCCGTTGTTTTAT +TTATGTGGATATTATTAATAGCATATCGAGCATATTTATATGAAGCCCATTACTTGAGCCCATATGGGCA +TATTTTTATAATGCAACTATTATGTAAACATTTATTTGTTATTTTGCTTTCTCCTGGAGGACACTCTTGA +CTGCTTTTGAGTAAACTCCATAAATCCTTGTTGAATGGTGCGATGTGATAAATAGTAATAGGATATTCTT +TATCCTTAAGGATAATACCAGACTTAACCGGTGTAAATATACTGCCAGGAGGGAGAAATATAGTAGATTG +ATACCAGATGATCATTTTCATATTACCCCATATGGCTGAAAAAGATATACCACATGTAGGTTGAATTACC +GTGTCAATTACTATCCACTTCATTTGTTATGTCTTATCCCACGGTATTTAATATGGTTCATTAGGATGTT +TATTTCTTGATTTTGCATATGAGTATATTACCCCCCCCTCAAAAAAATAAATTAATTAAAATGATGGCTT +ATATAAAATAAAATTTAAAGCAAGGAATCTCAATGGATGTTAAACAAAATGAGATTTTGTGAAAGCAATA +AATTATTGACTTCGTTTTAGATTTGTTTAGCTATAATGTTATACATTCAAATGACTGAACATCCTGTAAT +TAAAACATAGCCTTTATGCTACTTTGTGCCAATTTGCTAAACATTATGGTTGCCTTTTTATATAACGATA +ATAATGAATATAAGCATGACATGAGAATAAGGTTTCAATTTTTGAGTTATATAGGAATGATTTAACCTGT +TCCTGGCTAAAATACATATAACCGGATGATGACTAAACCAAAATACATGTGCGTTAAGTATTGAAACGGA +CGTGTGGCACGGCCGTTGTTTTTATAAATATGTTAACCGTTATAAAATAACGTATCAAAAGTCAAGTGAT +CACATTTCAAATATCAAGTTGATAGTATTAGTCTGGTGATTATTTATGGGTGACAATAAAAAGACAGTAT +TAATCATCCATAGAGATAGTCTCTGCACTTTTATTTCCATTATGCTAATGCCTTACTGAATTATGAAGCA +TTTCTTAAGTATCCAACTTTAGCTAGATTAATGGTTTATTATTTTCTACATCTTCAATATATAAAAGCGT +ATTATCAATGGCGTAGTAACTGCGTTTGTTATGATTAACATCAGTAACCCACCGGAAAACGCCCGCGCCT +GCCAGTGTTGAACAGTATTCCCGAAATGTAGATTTTCCGCAAATATGAAGCAATGCGGCCTCTTTTATTT +TAGCAGGGTTCTTGGTCGTACTAACTTTTAACAGGTTCCTGGTTCCTCTTAATAACAAAACCGTATCATC +GTGAGTAATAATTCTGATGTTATCCGTAGCCAGATAATAAATGTAATGTGCAATACGGTGATGTTTTAAT +TCTGAATAAAACCAGGAGAAGTTTTGCTCTTTTCTCACTTGCTCAAACATCTTTTGAAAAACAACGACCT +GATCCATCAGGATAATAACCTCTTGTTAGTTGTGAGACTGCGTAGTGTGCACGATCGGTTTTACCACTTC +AATCTGGTCTGTCCTTTGGCTGTGATATGTACAGAGTGTGATAGAGGGAATATCTGAATTCTCCCGGTGA +GCATTTTGCAACGGACCAGCTCCGGTACAAACGCTGTTGTGGGTTCAGATTATAACATTCTGTCTAAGGG +GCGGGATAAAGGTGAAATTAGGGGGCATGAAAGATGACTTTATAACCTTGCTCACCCCAGTGTTGTAAAA +GTTCGTTTTGCCTTCTCGTTGGTGCCATGCCTGTCCAGACAATCAATGTTTGCGTCGGGAACAGTTCCGG +GCGCGGCGATTCAATGGGATCAGCAAGAACAGAAATGTGCCATCCTGACAATGATAAACGCCATGCTTCC +AGCCACAATCGTGCTCTCTCTTCAACATTCCACGCCATCAGAATGGCTTCTTTACCGGGCTTACGGCGCA +TTTCGAAAAGCGAGGTTGCTGCGTATTCAATTAATGCGCCGTCAAACATACTGCTCATAATGCGGGAGGT +GTTGTGATCAAGCACGAGACGCTGGCGAACAGGAAGGTAAACATGATTAATCAATTGATCTACTGGGTAC +TCTCGACCCAGTGAAATAATTCTCGCGCGTAGTTTGGCAGGATTAGCCATGCGAAGAATTGACATCATCT +CTTCTTGCAGGCGGCTCCAGTCATCTTCCGTATCCTGGCTGGTGGTTTCCAGTAATGCTTTAACTTTGCC +TACAGGGACGCCATTACTTATCCAACGCTTGATCTCTTCGATGCGTTGTATGTCTTCTTCATCAAAGAGT +CGGTGTCCGCCTTCACTGCGCTGTGGTTTTAACAAACCGTAGCGGCGTTGCCAGGCCCGGAGAGTGACAG +GATTAATCCCGCAACGTTCAGCAACATCACCAATGCTGTAATAAGCCACAATTCCTCCTTGCGGTCACAA +ATCTCCGTCGCCTGTACACGACCCAATAATACTTTGTACAATATACGCTAAAATTGTACAAAGTATAAAT +AAGATTTCAGCTAAATTGGATGAAACATTATTTTTAATGTGGATTAAATTTAAACGTAACGTATTCATTT +TCACGATGATTTACTGAAATCATGTGAAAGAATGTGCTGAAAATTATTTTTTCTCTGGCCACGCTATGGA +AGGGATACCATTCAATTTAGCTTTAGCAAACAGATCTCCCTGAAACATCTCAATTCCTGCGGATTCAAGC +CACATCCACTCTTCTGGTGTTGCCACGCCCATAGCACTGACTTGAATTTCAAGTGATGTACAGCATTTTA +TGATCGCCTGAATAATTGCCTGCCGTGGCCCACTTTTATGAACATTGGTAATCAATTCCTGACTGATTTT +AATTCTGTCAGGCTGGAAGCGTGACAGGAGTAACAAACCAGCAAAACCTGCGCCAAAATGATCAATTGCT +ACACTGATACCAGCAGCCTTTAGCGATTTAATCGCTTCGGCAAACTCATCAAACCGAGATATGACTTCAC +TTTCAGTAAATTCAACGATGATTTGTTCAGGCACCAGAGCATTGGCCTTTATTTCATTAAGTAAAAAAGA +GACTGCGTCAGGTTCGTTAACCAGGGTCATAGGTAATAGATTGATTGAAATCATTTTATCACCGAGCTCA +AGTGCGTGTGCCATCGTGAATGCAAGCGCCTTACTTTTGAGATCCGCTGTGTAGATTTCCCCGTCTTTAC +GCTGCCCAACCGCTATGGCTGATGGGCTATCTTCATTTTTTTGCACAATGGCTTCAAAAGCGATTATCCG +CCGCGATAAGGGATCGACAATAGGATGAAAGGCAAAGTGGTCGTTTATAGTTGGTGAAAGGGCACAGGAA +TCAAGTTCTTTATCAGATCCGTCAGCGATAAAAAGCCAGGAGTCTTCGGCAGGGATCTCGAAATAGGTTG +ATTGTTCGGTTGCAAGGACAAAAGTACGAAAAAATTGTAGCGCTCTGTCATCATAAGTTAGCTGAAATTT +TGATGTGCCTTTGTCGAATACGGCCTGTAAAACGTCATCTCGCTCGTGCAGGCGCAAATCAAATAATTCC +ATTCCCGCTTTGCCAAAACGGCGAGCAGGCGCGTAATCGCACAGCAGCTCAACAATATTATAGTGCCGTG +GATCCTGGCATATAGCCCGATATATCATTTTAACCTGTTCTTCCGGACCTTCCAGAAGCTGGAAAAAATG +AGAACCATTAAACAGTAAGATCCCTGTTACGTCAGACTGCATGTTCCTGCGATTTGCTATCGAAACCATT +TCTTCGATTTTTTTGACAGGTTCGTCGTCACGTATATGGCTACGATAAATAAGGGTGGTAAGCATTAACA +ATCCAGGGTAATGGGTGAGGCGAGAGTAAGACGGTAACAGACATATCTTCTTGTGTCTTTCTTTTAATAC +CAAAACATAACCGTTTCTTTACATTGATAAAAAATGGAAAAAGTTGAACACTAGTTGGCGAAAAATCTTG +TATAGATTGTCAGTTAAATGATGCAATATGTTTTATCATAACACATTGTTTTATATGCATTAGCACTAAT +TGCAAAAAATTAATTTATCATTCTGTACACATATTTCGTACAAGTTTGCTATTGTTACTTCACTTAACAT +TGATTAACATTTTTAACAGAGGCGTAGCATGCATCAAAATTCAGTGACTTTAGATTCTGCGGGAGCAATC +ACTCGTTACTTTGCAAAAGCTAACTTGCATACTCAGCAGGAAACTCTCGGGGAAATTGTGACTGAGATTT +TGAAAGATGGACGTAATCTGAGTCGAAAGTCGCTTTGTGCCAAACTTCTTTGCCGACTGGAACACGCGAC +TGGGGAAGAGGAACAGAAACATTATAATGCACTAATTGGGTTGCTTTTTGAATAATGCAACAGCCTGATT +ATTTAACAGGTTAGCTATGAAGTCGTTATGAAGACATCTGATAATGAACGTATAAAATATGAAATTACTG +GCCAGGCGGTGCTCCAGATACTGCGCATGAAGATAAATTTTTCATTGCAGACTCTTATTAAGCAATTACT +CGTAATGAAATCGGCTGAGGAAGATGCTTTCCGACGCGATTTAATTGACAGCATAATTCGTGATTTTAGC +AATAGTGATTCAGGAGGGCCAAACCGAAGAACAGCGACAGCTGACAATAAAAGTATGTTCAATGGTAAGA +AAATAAACAGAATACATTAAAATTTCATAAGTAAGATGAGAGGTTACCATGCTTGAAGATACTACAATTC +ATAATGCAATAACTGATAAAGCGTTAGCAAGTTACTTTCGCAGTTCGGGTAATTTGTTAGAAGAAGAATC +AGCAGTGTTAGGGCAGGCTGTCACCAATTTAATGCTTTCAGGCGATAATGTTAATAATAAAAATATTATC +TTAAGTCTGATACACTCCTTGGAAACAACAAGTGATATTCTCAAAGCTGATGTGATTAGAAAAACACTGG +AAATCGTGTTGCGATACACAGCTGATGATATGTAACTTCTAATTATTAAGTATAAGTTTATAGAAAACTC +ATTCATCTTATTTTTGTCTGTCGCTTTAGACTATACACAGCATAATTTTATTGGGTTAATATTTCTACGA +GGCTGACATGAATAATTCAATCCCAGAGAGATTTATTTTTCAATGTGCTTTGTTTAAAAATCTCGAGAGG +GAGGTGTTCATGACGCATGGGTATGTTGATAGTCATATTATTGATCAGGCTTTACGCTTGCGTTTAAAAG +ATGAAACCAGTGTGATTCTTTCTGATCTCTATCTGCAAATATTGCAGTACATTGAAATGCATAAGACTAC +ACTAACGGATATCATTATTAATGACAGGGAATCCGTGCTCTCTTAGAACTTGAGTAAGGTTTTAGAATAA +ACATCAGCTGTATCACCATGCTGATGCAAAGTGAGCATTTCAGGCGTTATGCTTTCTTATTATGTCCGCA +ATATCAGGTGTCAAGAATGGAGAGTTCTCGCTCTCCATTCTTGACGCCTGATATCCCGCCTAACTTATTT +TGTACTGCCTACATTATGCTCAATAATTAATGGGTTAGATCAAGATGGAGAAAATTTTATCTTCGGCGTG +GATATTTCTTATGCTCTCTACCATGCTCTCTGTAGATGCCAGCGCGAGCGAATGAATGGCATTTTCATGT +ATTAAACCCTTTGGCCGGGACAAGCAAATGCGCAATACACTCATACCCATCCTCGTTGCGATATGCTTGT +TTATTACCGGTGTCGCTATTTTGAACATCCAGCTCTGGTATTCCGCAAAAGCAGAGTACCTGGCGGGAGC +GAGATATGCCGCCAACAATATCAATCATATACTTGAAGAAGCGTCACAAGCGACTCAAACAGCGGTTAAC +ATTGCCGGGAAGGAATGCAACCTCGAGGAGCAATATCAGCTTGGCACTGAAGCAGCTCTGAAACCTCACC +TGCGCACAATCATCATTCTCAAACAGGGAATAGTCTGGTGTACATCCCTGCCTGGGAATCGGGTCCTGTT +GTCTCGTATTCCTGTTTTCCCGGACAGTAATTTACTGTTGGCTCCAGCAATCGACACCGTTAATAGATTA +CCTATCCTGCTCTATCAGAACCAATTTGCAGATACGCGCATTTTGGTTACGATAAGCGATCAGCATATTC +GTGGGGCACTTAATGTACCCTTGAAAGGGGTAAGGTATGTATTACGCGTGGCGGATGACATTATTGGACC +AACGGGTGATGTGATGACGCTTAATGGACATTATCCCTATACCGAGAAGGTTCACTCCACAAAATATCAT +TTCACTATTATCTTTAACCCGCCGCCACTCTTTAGCTTCTACAGACTTATCGATAAAGGCTTTGGGATTT +TAATATTTATTCTGTTAATCGCCTGCGCCGCTGCCTTCCTGCTTGATAGATATTTCAATAAAAGCGCAAC +GCCTGAAGAGATCCTGCGACGGGCAATAAATAATGGGGAGATCGTCCCTTTTTACCAACCTGTGGTAAAT +GGTCGGGAAGGGACATTGCGGGGAGTTGAGGTGTTAGCCCGCTGGAAACAACCTCACGGTGGATATATAT +CACCCGCGGCATTTATTCCACTTGCTGAAAAATCCGGATTAATCGTTCCGCTTACGCAAAGCCTGATGAA +TCAGGTTGCCAGACAGATGAACGCTATCGCGAGTAAATTGCCGGAAGGTTTTCATATTGGAATTAATTTT +AGCGCTTCGCATATTATTTCGCCGACGTTTGTCGACGAGTGTTTAAATTTCCGTGACAGTTTTACCCGCC +GCGATTTAAACCTTGTTCTGGAAGTCACCGAGCGTGAGCCATTGAATGTTGATGAAAGTCTGGTTCAGCG +GTTGAACATACTGCATGAAAATGGTTTTGTCATCGCACTGGATGATTTCGGTACTGGCTACTCAGGGCTT +TCTTATCTTCATGACCTGCATATTGATTATATCAAAATTGATCACAGTTTCGTTGGCCGCGTAAACGCAG +ACCCAGAATCAACCCGAATTCTGGATTGTGTATTGGATCTGGCGCGTAAACTTTCGATCAGTATCGTCGC +TGAAGGTGTCGAAACGAAAGAACAACTTGACTATCTGAACCAAAATTATATCACATTTCAGCAGGGTTAT +TATTTCTATAAACCTGTTACATACATCGACCTGGTCAAAATTATCCTTTCTAAACCGAAGGTGAAGGTTG +TGGTTGAGTGAAAATTGATCAGTAAGGCCATAGTGCGGTGTAATTATAGACAGCTAATTAGCTCGTTGCC +TCTTGTTACTATTGTTCATTATTTTGTTTGCTATAATTGTTTGAAAGTTTTGACAGGATTGCCATTAGTA +GCATGAACAATAGTAATAATCTGGATTATTTCACTCTCTATATCATATTTTCCATTGCATTTATGCTGAT +CACCCTCCTGGTCATCCTTATTGCAAAACCCAGTACCGGGCTGGGAGAAGTGCTTGTGACGATAAATTTG +CTTAATGCCCTTGTTTGGCTGGCGATCAATCTGGTTAATCGATTAAGAGAAAGACTCGTCAACCACAGGG +ATCAGCAATAATCTTTCAGTTTCTCACTGTCAGTATGCGGCTGAATGGGTTGCTGGCAGTGAACGCCTGG +ATCATTGAAGGAAAGGCATTATTGCGCAAATAGTTGTCAACCCTGGTGTTATCACGGTTGTTTTTATATA +TCACCGAAATAATCCTCATCGCAACTATTAACAATTTTGATGTCGAAGAGTTATTTGTTAAACAAAATCG +TCACCTCAAAGTGATCAATGTCATGAAAATAAGGTGAAAAATGATAATGCCGACTTATTTATCATTTATA +TATTGTCGCTGTTTATCTATTTAAATTTTTTGTGCTTTTGTTTTTGTCTTTACCCTCCGTTTTGGTAATC +TGAGCTCATAGGTTATTTGACCAGGAATGTTTGTTAATCCAATGAATGGATGGTTAATCTATGAAACTGA +AAAAACTCCCCGGGTTTAGTTTGGGACTTATTGCTCTGGCGGTGGGTAATGCATATGCAACACAATTGTT +GGATGATTATAGTATAATTTCCTATATGACTGATGAAGAATCGCCGATTGAAATCAAAGATAATAATCCG +ATAAGTAATGGAGAGTATCTAACCACTGAAGACGAAAGCCATGCTGTGAAAGTGGATGACGGTGTAACTG +GATATATAAATAATGCCAGTGTGATGACTAGTGGTGATGGATCTTATGGTATTTCTGTTGATAGTCAAAA +CAAAGTATTATATATAAGCGATAGCGATATTAAGACCTCTGGAAGCGTATCTGACAAAGAAAATGGAGGG +ATAACAGCCAGCGCAGTAGTCAGTGAATTTGGTGGCACCATCTTTATGAATGGTGATAATTCAGTCGAGT +CGGGTGGGGCATATTCAGCGGGACTTTTAAGCCAGGTTAATGATTCTGAAAAGATGGTAAATAACACCCG +TCTTGAAACCACAGATAAAACGAACATTGTTACCTCTGGGGAAAATGCAGTAGGTGTTCTTGCATGTTCA +AGTCCTGGAGAGTCTCGAACATGTGTCGATGCTGTAGATGATGAAGTTAGTGATTCTAACAGTTACGAAG +TTATTAGCCGTGCTGATTTAAAAATGAATGGTGGTTCCATAACAACTAATGGCATTAATAGCTATGGTGC +TTATGCTAATGGGAAAAAAGCATATATTAATTTAGATTATGTGGCACTTGAAACTGTGGCTGATGGAAGT +TATGCAGTTGCTATTCGACAAGGTAACATTGATATAAAAAATAGTTCTATTACAACAACAGGCACTAAAG +CCCCCATTGCAAAAATATACAATGGTGGAGAGTTATTTTTTTCCAATGTCACCGCGGTATCAAAACAAGA +TAAAGGAATATCAATTGATGCATCAAATATCGATTCTCAAGCCAAAATAGCACTATTAAGTGTTGAACTT +TCAAGTGCTTTGGATAGTATTGATGTTAACAAAACTACAACGGATGTAAGTATCCTTAATCGAAGTATTA +TCACACCTGGTAATAATGTTCTGGTTAATAATACTGGAGGTGACTTAAACATAATTTCGTCCGACTCTAT +TCTAAATGGAGCGACTAAACTCGTCAGCGGCACAACCACGCTGAAGCTTTCAGAAAATACAATCTGGAAT +ATGAAAGATGACTCCGTTGTTACCCATCTGACTAATTCAGACAGTATTATCAATCTTTCGTATGATGATG +GTCAAACATTTACCCAAGGAAAAACATTAACCGTAAAAGGTAATTATGTCGGTAATAATGGTCAGCTTAA +TATCCGCACCGTATTAGGTGATGATAAATCGGCTACGGACAGACTTATTGTTGAGGGTAATACTTCGGGT +TCAACTACCGTCTATGTGAAAAATGCTGGAGGAAGCGGCGCGGCCACGCTAAACGGGATCGAACTCATAA +CTGTGAATGGCGATGAATCTCCAGCAGATGCCTTCAGATAAGGTGATGCAAGGATTGCAGCTGGAGCTTT +CGAATATCAACTAAAACAACAAGGCAAAAACTGGTATTTGACAAGTTATCAGTCAGTGAATGAGGAGGAT +AACAGCTCAGAGGGAAATTCAGAATCAACAGAAACGCCTACCCCCGTCCTGCGCCCCGAAGCTGGAAGTT +ACGTCGCTAACCTGGCAGCTGCTAACACTCTTTTTGTTATGCGTCTGAACGACCGTGCGGGTGAAACGCG +CTACATCGATCCTGTAACTGAACAGGAGCGTTCAAGCCGACTTTGGCTACGTCAAATTGGCGGGCATAAT +GCCTGGCGTGACAGCAACGGACAGTTGAGAACGACCTCGCATCGCTACGTCTCGCAGTTAGGGGGCGATC +TGTTAACCGGTGGTTTTACCGATAGTGACAGTTGGCGTTTGGGAGTGATGGCTGGTTATGCCCGCGACTA +CAACTTAACTCATTCCAGCGTGTCGGATTATCGTTCGAAAGGGAGTGTCAGAGGCTATAGCGCAGGGCTG +TATGCCACCTGGTTTGCCGATGACATCAGTAAAAAAGGCGCATACATTGACTCCTGGGCGCAATATAGCT +GGTTTAAAAACTCGGTGAAAGGGGATGAATTAGCCTATGAATCCTATAGCGCGAAAGGTGCAACCGTCTC +GCTGGAAGCGGGTTACGGTTTTGCCCTGAATAAATCCTTTGGTCTGGAAGCGGCGAAATATACGTGGATC +TTCCAGCCACAGGCACAGGCTATCTGGATGGGCGTCGATCATAATGCGCACACGGAAGCCAATGGCTCAC +GTATTGAGAATGACGCAAATAACAACATCCAGACCCGACTCGGCTTCCGCACCTTTATTCGTACTCAGGA +GAAAAACAGCGGTCCGCACGGTGACGACTTTGAACCTTTTGTTGAAATGAACTGGATCCATAACAGTAAA +GATTTTGCTGTCTCAATGAACGGTGTGAAAGTCGAACAAGATGGGGCGAGTAATTTGGGGGAAATTAAAC +TTGGCGTAAATGGCAACCTGAATCCAGCGGCCAGCGTCTGGGGAATGTGGGCGTGCAGCTGGGTGATAAT +GGCTACAATGACACCGCAGTGATGGTGGGCCTGAAATATAAGTTCTGATCCCGCCGTTAGCTAAAAAACC +GCGTCGTATTCATCGACGCGGTACATATGAAATATTATTTTTTGCCGATAGCACGCATGGTGTCATCAAT +TGCCGTGATCAACAGCATTTGCGGGTCTTTAGCGCAAACCTGATTCAGTTTTTCTACCACTTTGGCGCTC +AGTTCCGGAGATTGCTCAATTTTTAAATCACGGCTGGCAACGCTGGCATTACCCATTACCGCAACAATTT +CTGCAACCTGTGCGCTGTCAGTTTTTGCCATTTCGTTGGCTTCTGCGCAAGTAATATAGGTTTCTGACGG +CAAACCGTTTTTAATATTGTAGTCCTGCGCCCAGGTCATTGGTGCGAAAACAAACAGGCCCGCCAGTAAA +GCAAATTTTTTCATCATCATTCCTTATTTCATTTTACCCAGAATTGCACCACCCGTACCGCCAATCACGG +CACCTTTAATCGCCCCTTCGAGGCCATTGCCGGTCAGAACGCCAGTGACAGCACCAACGGCGGCACCCAC +TTTTGCACCTTTACGCGCATTTTTACCGTCGCGGCCTTTTTCTGTTACTGCACCAACACCAGCGCCAACA +GCTGCACCTTTCAGTACGCCATTAACACCATTGCCAGTAAGTAAACCAACGCCTGCGCCTAGCAATGCAC +CTTTCGTGGTGCGGTTCATATCCGCCATCGCTGGCGTGGAGCAGAACAATGCTGAGATAAGCCCGAAGGC +AAGTATTTTTTTCTTCAACTTAGATGTCCGGTATTAAGTAAGTTGCACACACAATAATTTCGTCTTCAAT +TAAGATCTGCTTAACTAAAGAACGCTCGCTATTATTCAGATAATTCAAAATGAGCGTGGCTGTGATGATA +GGAATTATGTTTTTTACGTGAATGAGAATAATCTTAAATGAGGAATAACTCATTGATTGACAATATTTTT +ATTCAAGAAGTGTCATTGACTGTTAACGCAATGTTGTAAAGGTAAGATAATCTGATTTATCAATATTATT +GTGTGATTTTTATGTGAGCAGAAGATATTCATCAGCAACGATTACATTAGTCATTTTATTTTGCCGACGG +CCTCATTGTCGAAAGATAAGCGTACGACAGTATTATCAGAAAAGAGTGATTTTTTATCCAACTACACTTC +AGCGCACTGCGTGTAAAAAATGCCTCTTTCTTATGCGGGATATCATCATTTCATCATGATGTCTTTGGTG +AGCGGTGAACACAATACACCTGCGCTGTCTCTTCAGGATGAATCCCCTGGTCTGGTGCCTGCGGGCTGAT +GTTGCAGCAGAGCTTAGGTCACTTAGACGCTACTATCATTTATCCAATGGCATGGAATCGAAATCAGTCG +ATACCCGCAGTATATATCGTGAACTGGGTGCAACGCTGAGTTACAACATGCGCCTGGGGAACGGTATGGA +AATGAACCCTGGCTGAAGGCGGCTGTGCGCAAAGAATTTGTCGATGATAACCGGGTGAAGGTGAATAATG +ACGGTAATTTCGTCAATGATTTGTCGGGCAGACGTGGAATATACCAGGCAGCTATTAAAGCCTCATTCAG +CAGTACGTTTAGCGGACATCTCGGGGTGGGGTATAGCCATGGTGCCGGTGTGGAATCCCCGTGGAACGCG +GTGGCTGGTGTGAACTGGTCGTTCTGACCATCAACGATTAAACTGCGCTTCGGCGCAGTTTTCGTTTACA +GGATGTTGAAAGGGAAAATTCTGGGGCAAAAAAAGCCCGCCAGTTACGGCGGGAAACCTCATCCTATGGG +AGAACAATGAATAATGAAATTGCGGGGTTATCATCTCCCAGTATATCCATACTAACAATAAGGTTATTTA +CTCAACCAGGCATAAACATTTTGTTTTGTGCGTGGGAACAGCCTTAAGGTGTAAAGGGGGAGGTGGAAAT +AGCAATGAGGAGTATCAGCAAGAATACTCGCCGCTTTACCACAACGTGGATGAGAGGGATGAAAAACTCA +AGGCAGAGATAACTCTGCCTTGAAGATAAATGCGCTTTTACAGCGGGCTTATTTCAGCTCTTCTGCTTCC +GGTAAGGTCACGTTCAGCTCAAGAATAGAAATATCGCCATCTTTTTGCTCAAGCTGTACGGTTACCATCT +CAGGATCAATTTGTACGTATTTACAAATGACCTCAAGAATATCTTTACGCAACTGCGGCAGATAATGCGG +TTCTGCATCGCTGCGACGGCGTTCAGCAACAATAATCTGCAGCCGTTCTTTTGCAATGTTGGCTGTGTTT +TTCTTCCGCGAGAGAAAGAAATCGAGTAATGCCATAACTTATCCTCCGAACAAGCGTTTGAGGAAGCCTT +TCTTCTCTTCTTCAATGAAGCGGAAAGGACGTTCTTCTCCCAACAGACGTTCTACGGTATCTGCGTAGGC +TTTACCCGCATCGGCGTTAATGTCGAGAATGACCGGTTCACCCTGGTTAGAGGCGCGCAATACTGATTGA +TCCTCTGGGATCACGCCGACGAGTTTGATGCGCAGGATCTCCAGCACATCTTCCATGCTCAGCATGTCAC +CTCTGCTTACGCGGCCTGGGTTATAGCGCGTTAACAGCAGGTGCTCTTTAATAGGCTCTTCGCCATTTTC +TGCGCGGCGTGATTTCGACGCCAGAATGCCTAAAATACGGTCAGAGTCGCGTACTGAGGAGACTTCCGGG +TTGGTGGTAATAATGGCTTCGTCTGCAAAATAGAGTGCCATTAACGCACCGGTTTCAATCCCTGCCGGGG +AGTCACAAACGATAAATTCAAAATCCATCGCTTTCAGATCATCAAGAACTTTGGCGACCCCTTCACGGGT +GAGGGCATCTTTATCGCGTGTTTGCGATGCCGGCAGAATATAGAGATTTTCAGTACGCTTATCTTTAATT +AACGCCTGATTTAGCGTTGCATCGCCCTGAATGACGTTGACGAAATCGTAAACGACCCGGCGTTCACAAC +CCATAATCAGGTCGAGATTACGCAGGCCGATATCAAAATCTATCACGACAGTTTTCTTTCCCTTCTGGGC +CAAACCAGTGGCGATGGCCGCGCTGGAGGTTGTCTTACCAACACCCCCTTTGCCCGAAGTAACAACAATA +ATGCGTGCCATAGAAATTCCTTGTTAAAAAGGGATCAATTTAACGGTTGAACGGTCAAAGCGTTTTCGAC +TAACTGCAGTCGCGCCGCTTTGCCATAAAATTCTGCTGGGATTTGATCACTCAGCCAGTATTCACCTGCG +ATGGACACCAGTTCCGCCATCAGGTTCGTACAAAATATTTGCGTTTCCCGGTCACCACTTGCCCCTGCCA +GCGCACGACCGCGCATCATGCCATAGACATGAATGTTCCCATCGGCAATCAATTCGGCCCCAGCGCTAAC +GTGGCTTGTAACAATCAGATCACATTGTGGAGCATAAATACGCTGACCGGAACGCACCGGGGTATCTATT +AAACGCGTTTTTGTGACCGGCGTTGTATTTTGCGCTGGAGCCTGCGGTGTGGGAGCTGGACGTGGCGCTT +TTTCCTTTCCTTCCGTCAGGATAGGCAGCCCCATCTTTTCAATTTCGGCTTTAAGTTGCGCATCTTTGCA +GCCACTTACGCCAATAACCCGCAAACCGGTTGCCGAAACCGCCTTATGCATCGCTGACCAGTTTACCGGG +TCTTCCAGTGCACTGACGTTGAGTACAACGGGGGCATGTTTTAAAAATGCGGGGGCCTGAGCGATTTTGT +CTTCCAGCGCCTGATGGATAACCTTAGGTTCTGCCTCATGCAGATGAACCACAGATAAAGTGAAGCTACT +GCCTTTAAGCTCGATTGGCGTGTTTGACATCCTGGCCTTACTCAATTAGCTATTAATCATCGCCAGCGCG +CGATGATGTTCCGAAGACTATAAGGCATGTTATAGTCTGGATTATATTGAGGCAAGTCACCCTCCCATTT +ATTCAGAGTAAAAGTCTATTCTGTGATAAATGGCGCTGATTCATAGCTTAAAAAATACCCTTGTCAATCA +ACCCATTGCCGTCGTACTTTTGATTGTTCTTATTTACGCTTCCTTTTTCCGCACCCTAATCGTGACAGCA +TCTCCAGACCTGTTTAAATATCCAGTATTGAGGCAAGTGTATTTTTTCACCACGCCAGGCTTTCTTAACT +TTCCATTTTTTGCGGCATCATTAAAGAACAGATACCCGTTATCTTAATATCCGCCACAGAATTGCTCTAT +CATAGAAACCGCAGAAGACGTCTGATACTTCTGTCAGGTCATCGTAACTCGTCCAGGTCAGCGGTTTTGA +TTACGGATTGATGATGAAATGAGCATAAGTGTTGTACGGTTGGATTATCAGGATGTGCTATGAATATGAT +GCGTATTTTTTATATCGGATTGTCAGGTGTGGGGATGATGTTCTCATCAATGGCGTCTGGAAATGACGCT +GGCGGACTTCAATCTCCGGCGTGCGGCGTTGTTTGCGACCCGTATATTTGTGTGAACTCAGATGGCATTT +CCCCAGAGTTAACAAGGAAATATCTCGGCGAAAAAGCCGCTGAAAACTTACAATCATTACAAGGCTACGA +TCCCAGCGAATTTACATTCGCTAACGGTGTATTTTGCGATGTTAAAGAAAAATTATGTCGTGATGATCGT +TATTTTGGTGTGGATGGTAAGCGGAGTGGAAAAATCAATCAAACCACCACAAAGATGTTATTTATGTGTC +GTGAGTGATGTCTTGTTTACATTATGTTCTATTCGTCATTAACCTCTTGAGCGACAGAGAGGAGTGGGGC +ATTAACGTTTATGACGGGGAGAGTCCCCGTCGGTTGACATTTACTTAATTTGAATATCGACGTTATATTT +TTTAGTTTTGTTTTTACGGGCGTCGTTTCGGGTTTGCAACACTCGCAGCTCATATTTGCCAGAAGCAGGG +AGTGAGTATTGTCCGTGACTATCGAGTTCTGGGGAATATCTGGATAAATCAACTGAATCATCGATTCCTG +GCCCGAAGAGGTAAGTATCAGCGCCTTCATTAGAGATACTCACATGCACTTTCTGACCTTTTTTGGCATA +GAAGGTATATGTATCGTAATCGTATCCCTTTATTTCGCCGGAGTACTGAGCGCTGCTATGGCCTTTTCTG +AACTCAACATTGACATTCTTACCCGCAGCAAAGCTCGTGGAGGTTAGCAGTGCAAGCAGCAATACAGCCT +TCCTGATGCTCTTGATTTTCATTGGTAGTCTCCTGTTCAGAATGAGTACGATGAACTGTTATAATATAAC +AATCCCTAACGGGAGAATTCCAGTGGCTTTCCTGCGTTCGGTAAAATCACGTTGCGGCATTTTTGCCGGG +GGGATTACTTATAAAGGGGGCATGGACTCAACAAACCGTAGAAATCTACAGCTGGCTGGCTTGTGGCGCG +GGTTTCATTGATGTTAGCTTATGCCAAAACCTGGCATCTTAAAGAGTAAAAGTATGTTTTGTGTGATTTA +TCGAAGCAGCAAGCGTGACCAGACCTATTTATATGTCGAAAAAAAAGACGATTTTTCGCGTGTTCCTGAG +GAACTGATGAAAGGTTTTGGTCAGCCTCAGTTAGCGATGATTCTGCCGCTGGATGGGCGGAAGAAACTGG +TCAATGCCGATATTGAAAAGGTTAAACAGGCATTAACCGAGCAAGGTTACTATTTGCAGTTACCGCCACC +ACCCGAAGATTTGCTGAAGCAACATCTTTCCGTCATGGGGCAGAAAACAGACGACACTAACAAATAACCG +ATATCCGGCGGTGGCATTATCTTTGTCGGCGCGGGTTTTCATATCCACGATAAGGTGAGGGGAACGTTAT +GTATCAACATCACAACTGGCAAGGTGCGCTGCTGGATTATCCGGTGAGTAAAGTAGTCTGTGTTGGCAGT +AACTATGCCAAACATATTAAAGAGATGGGCAGCGCAGTGCCCGAAGAGCCAGTGCTGTTTATTAAACCAG +AAACGGCACTGTGCGATCTGCGGCAGCCATTGGCGATCCCATCCGATTTCGGTTCAGTTCATCATGAAGT +CGAACTGGCGGTGTTGATTGGCGCGACACTGCGTCAGGCTACGGAAGAGCATGTCCGCAAAGCCATTGCC +GGTTATGGCGTGGCGCTCGATCTGACATTGCGTGATGTTCAGGGAAAAATGAAGAAAGCCGGGCAGCCGT +GGGAAAAGGCTAAAGCGTTTGATAACTCTTGTCCGCTTTCCGGGTTTATTCCCGCGGCGGAATTTACCGG +CGACCCGCAAAATACAACGCTGAGCCTGAGCGTAAACGGCGAACAACGCCAGCAAGGTACGACTGCGGAC +ATGATCCATAAAATCGTTCCGCTGATCGCTTATATGAGCAAGTTTTTTACCCTCAAGGCCGGTGACGTTG +TGTTGACAGGCACGCCTGATGGCGTCGGCCCGTTGCAAAGCGGTGATGAGCTGACAGTCACTTTCGATGG +GCATTCTTTGACAACTCGCGTTTTGTAATACTTTTTGCCGCCTGAAAGCGGCGGCAAAACTTGCATCGCT +GTGCCAGACTGGTTATAAGGTGCGTTTTAACGTAATGGCGGAACACCTGATGAGCGATGTACCTTTCTGG +CAAAGTAAAACCCTGGACGAAATGAGCGATGCGGAATGGGAGTCGTTGTGTGATGGTTGCGGTCAGTGTT +GCCTGCATAAACTGATGGATGAAGACACCGACGAAATCTACTTCACTAACGTCGCCTGTCGCCAGCTCAA +TATTAAAACCTGTCAATGTCGGAACTACGAACGTCGTTTCGAGTTTGAACCCGACTGCATTAAATTAACC +CGTGAAAATCTGCCAACATTCGAATGGCTGCCAATGACCTGCGCTTATCGTTTGCTGGCGGAAGGTAAAG +ATTTACCTGCGTGGCATCCGCTACTTACTGGTTCGAAAGCGGCAATGCATGGTGAACGTATCTCTGTGCG +TCATATCGCAGTGAAAGAATCAGAAGTGATTGACTGGCAGGATCATATCTTAAATAAACCTGACTGGGCG +CAGTGATAAATTTAATAGATGCTGATGGGGGCTTTCTTAATATACGTCTGGATGCTCGCCATTTCGTAGC +CCTGTTTTTGAAAGCGCTCTGTCATAATGAGAGTTACCCGATACCTTATTATCAACAGGTAACTCTCAAT +CTTTAAAAAACGTCTGTGTTTTTAAATGTGATAAACCTTATACCTTGAGTACATGGAGAGAATAATCGCT +TATCAGACTTCAGGTACCTCAAAGAGTGTCTTTTTACCGTGTCTTTTCTGATACTCATTACAGGTGTTAA +TCATTTTTTTGGCCGCTTCTTTTAGCAAAGAAAGCATTAAATCATCATAATCAACGTAGAATCTGGTTGT +TTCAGTTTCCGTTTTTATCTCACCGATGGCGGCTATTTCGGTGGTTAATTTCAATTTGGCGGCATCGATA +TCTTTATTCGCTTGTTTAACCGTGTTAGACAGGGTGGTAAAGAAATTCTGCACAGATTTTAACTTGTTCT +TCAATTCTGGAATCAGTTTTCCTTCAACTACGCCCGCAGCAATAGAATAGGAAATGATTAATCCAAATGG +ACCGGCGACGACACCGGCTGCGGCACCGGCATATGCTTCCTTCCTGATTTTATCTACCTGTGACTGGAAA +TAGCTGCTTTTTTCTGAAAAATCATTGGTTAACTGGCTATCTAACGCCAGCAGTTTCCCGGAAGCGTTGT +TGAAACTTTGTGAGCTTACCAGCAGGGATTTTTGCGCTTCATTCAGCTTCGTGATGCCGTCATCCAGTAC +CTTAATGAGAATGTCTTTCTGGGCGGATGCTTTCTTCTCATTGTACTCATCAAATAGCAAAATATACGCT +GCGAGCAATTGCGTCGCAACACCACACCATTCATACACTGTTTGGGTTGCTTCAAAATACTTATCCTGGC +TATCCATAAGTAAGGTTTTAATATCGCCGACTAAAACGGAGGCTGCCTGTGAATACTCCTGTTTAAAGCG +ACTTAACTCTTTTATGGTTTCATCAAAGGTCTGCCAGGGGATGACCTGATCGAGATATTTATTATAAAGA +TCTAATGCTCCATCTGCGGTTTCGATTGCGTTTTTAACTACTTCTACCGTTTTATCTGCAACGATTTCAG +TCATAATCATTCGCCTCTTTAAATATATAAATTGTAATGAAACTCCTGTTTTACAACTATTAATAAATTT +TACTTCATCTAATTCATAGTTAGCCGGGCGGGATGCGTCAATGTCTTTATTTCTATTAATATGATAAATA +TCAAACAATGTTTAATGTCATTATGGCGAATGCTTCTATTCTATTTTTTAGCCGGGTGATATTTTTCATT +TCTGCTGGATGAGCGTCGTCGCCAGAAGGCCACGTGAGCACAAGATAAGAGAACGAAAAATCAGCAGCCT +ATGCAGCGACAAATATTGATAGCCTGAATCAGTATTGATCTGCTGGCAAGAACAGACTACTGTATATAAA +AACAGTATAACTTCAGGCAGATTATTATGTTGTTTATCAAGCCTGCGGATCTCCGCGAAATTGTGACTTT +TCCGCTATTTAGCGATCTTGTTCAGTGTGGCTTTCCTTCACCGGCAGCAGATTACGTTGAACAGCGCATC +GATCTGAATCAACTGTTGATCCAGCATCCCAGCGCGACTTACTTCGTCAAAGCAAGTGGTGATTCTATGA +TTGATGGTGGAATTAGTGACGGTGATTTACTGATTGTCGATAGCGCTATTACCGCCAGCCATGGTGATAT +TGTCATCGCTGCTGTTGACGGCGAGTTTACGGTGAAAAAATTGCAACTACGCCCGACGGTACAGCTTATT +CCCATGAACAGCGCGTACTCGCCCATTACCATCAGTAGTGAAGATACGCTGGATGTCTTTGGTGTGGTGA +TCCACGTCGTTAAGGCGATGCGCTGATGTTTGCCCTCTGTGATGTAAACGCGTTTTATGCCAGCTGTGAG +ACGGTGTTTCGCCCTGATTTATGGGGTAAACCGGTGGTTGTGCTATCGAATAATGACGGTTGCGTTATCG +CCCGAAACGCTGAGGCAAAGGCGCTTGGCGTTAAAATGGGCGATCCCTGGTTCAAACAAAAAGATCTGTT +TCGTCGCTGTGGCGTGGTTTGCTTTAGCAGCAATTATGAGCTTTACGCAGACATGAGCAATCGGGTGATG +TCGACGCTGGAAGAGCTATCGCCCCGCGTCGAGATTTACAGTATTGATGAGGCATTCTGCGATCTGACAG +GTGTGCGTAATTGTCGCGATCTGACTGATTTTGGCAGAGAAATTCGCGCAACGGTGCTACAACGTACCCA +TCTTACTGTTGGTGTGGGGATCGCCCAGACCAAAACGCTGGCTAAGCTTGCCAATCATGCGGCAAAAAAA +TGGCAGCGGCAGACGGGTGGGGTGGTGGATTTATCAAATCTGGAACGCCAGCGTAAATTAATGTCTGCTC +TCCCCGTGGATGACGTCTGGGGGATTGGACGGCGGATCAGCAAAAAACTGGACGCGATGGGGATCAAAAC +CGTTCTCGATTTGGCGGATACAGATATCCGGTTTATCCGTAAACATTTTAATGTCGTGCTCGAAAGAACG +GTGCGTGAACTGCGCGGCGAACCCTGTTTGCAACTGGAAGAGTTTGCACCGACGAAGCAGGAAATTATCT +GTTCCCGCTCGTTTGGTGAACGCATCACGGATTATCCGTCGATGCGGCAGGCCATTTGTAGTTACGCTGC +CCGGGCGGCGGAAAAACTTCGCAGCGAGCATCAATATTGTCGGTTTATCTCCACGTTTATTAAGACGTCA +CCATTTGCGCTCAATGAACCTTATTACGGCAATAGCGCGTCGGTAAAACTGCTGACGCCCACTCAGGACA +GCAGGGATATCATTAACGCTGCTACGCGATCTCTGGATGCCATCTGGCAAGCGGGCCATCGTTACCAAAA +AGCGGGCGTGATGCTGGGGGATTTCTTCAGTCAGGGAGTCGCGCAGCTCAATTTATTCGATGACAACGCA +CCGCGCCCCGGGAGTGAGCAATTGATGACGGTAATGGATACACTGAATGCTAAAGAGGGCAGAGGAACAC +TCTATTTTGCCGGGCAGGGGATCCAGCAACAATGGCAGATGAAGCGAGCCATGCTTTCACCACGTTATAC +AACGCGAAGTTCTGATTTACTGAGGGTCAAATAAATATAGCGGCAGGAAAAAAGCGCTCCCGCAGGAGCG +CCGAATGGATTAGCGACCGAACAGATCACGTTTTTTCGCTTTAAACGGCTGGGAAATCACCACCAGCACT +GCGACAATCAGGTAAGCGATAAAAATACCGAGCAGCCACTGCGGCATTTCCAGACCTAAAAAATCCCACT +GACGCTCGGCGCAATCGCCAGAGGCGACAAACACTTGCGGCACCCACTTATCCAGCGGCAGCCATTCCGG +GAAACGAACCATAAAATCACAGGTGGCAAACGGCGAAGGATAGAGCTGAAGCATGGTGTGCTCGTAAGTT +AACTGCACACCGCGGAACGCACTATACAACCAGATAACCATCGCTACATAACGCAGCGGAGTTTTCGGGG +CGATCGCGCCAATCAGCGCAGCACCCAGAACGCCGAATAACGCGCAGCGTTCATAAATACAGAGCACGCA +AGGTTTCAGTAACATCACATGCTGGAACCACAGCGCCGTCAGTTCCAGTGCCAGAGCAGTAAACGCCATC +AACAGCCACGCGCCCCGGCCTTGTGAACATTGGTTCAAAAATCGCAACATAATCATTTCCCTGCAATATG +CATAGAGTGCGCAGTTTAAACCAATTCATTCGCTGCGCCACCAGGAGGCAGCAAAAATAGGACGCAATTG +GACAATTATCGGGCGAAAAGGCAAACCGGGCATTTATATGCCCGGTAAGTTGTTATCAAAGCGTTGCTAT +CCAGCCCATTTGCATAAACCATTCGGTTACAGGGGCAAGCGTAAACTCGACGCAGAGCAAGCCGACGAGT +GTCAGGACGAGGGTGTAAGGCAGGGCCATCCACACCATGCGGCCATAAGAGAGGCGAATCAATGGCGCGA +GTGCAGAGGTCAGCAGGAACAGGAACGCAGCCTGACCGTTCGGCGTAGCGACGGAGGGCAGATTGGTACC +GGTATTAATGGCGACCGCCAGCAGCTCGTATTGCTTCAACGTGATAGCGCCACTTTCCATTGCCGCTTTC +GCTTCGTTGATATAAATCGTCCCCACGAAGACGTTATCCGAAATGGATGACAGCAGACCGTTGAAAATAT +AGAACAGCGACAGCTGAGCATGTTCCGATGCCTGCAACACAAACTGAATAATTGGCGAAAACAGTTGTTG +GTCGATAATCACCGCGACTACCGAGAAAAACACCGTCAACAGTGCGGTGAATGGCAGAGATTCGGTGAAG +GCTTTACCGATAGCATGCTCATCGGTGACACCGGTCAATGATGTTGCCAGAATAATGACTGACAAACCAA +TCAAGCCAACTTCCGCCAGATGCAACGCCAGCGCAGTCACCAGCCAGACGCCAATAATCGCCTGGACAAT +CAGACGGATTTTATCCTGACGGGTACGCTGGTGGCGGCTTTGATCGTCAAACTGTTGCAACACTTCGCGG +ACTTTCTCCGGCAGCGTTTCACCGTAGCCAAACCAACGCAGCTTCTCTACCAGCAGGCAGGTTAACAGGC +CACAAATCAGAACCGGAACGGTCACCGGCGACATGCGCAGGAAGAAATCGCCAAAATGCCAGCCAGCCGC +TTTAGCGATGATCAGGTTCTGTGGTTCGCCCACCATGGTCATTACGCCGCCTAATGCGGTGCCGACACCG +GCATGCATCATCAGGCTACGCAGAAAGCCACGGAACTGTTCCAGAACCACTTTGTAATGCTTGTCGATAT +GACTATCGTCTTGCAGGTCGGTGTCTTCGGTACGGGAAGAGGCTACGCGGTGATAAATACCATAAAAACC +GACTGCAACGCTGATCACCACCGCCACGACGGTTAAGGCATCGAGGAACGCGGAGAGGAACGCAGCCGCC +ACGCAAAAAGAGAGCGACAGCAGCATTTTGGAGCGAATGCTTAACAGCAAACGGGTAAATATGAACAGCA +ACAGCTGTTTCATAAAATAGATACCCGCCACCATAAACATCAGTAACAGCAAGACTTCAAGATTTGCCGC +CACCTCTTCACGGACGTGTTCCGCGCTGGTCATGCCGATGAATACCGCTTCGATAGCCAACAGACCACCG +GGGAGCAGCGGGTAGCATTTCAGGGCCATCGCCAGAGTGAAAATAAATTCCGCTACCAGCAACCAGCCCG +CGACGAAAGGGCTGATGAGGAAAATTAACGGGTTTACGATTAAGAAAATGATGAGGGCGAGTTTGTACCA +GTCGGGGGACTGGCCCAAAAAATTGCGCCATAGCGCGCGGCCCCAGGAGATCTCCATGATGGTTTCCCTT +ACCTTACAAATAATCAATGATGTTTTTATGTTTAAACGCAAAGCTTAACGGTCAGGCAGGAGTGAGGCAA +GTCTTGATAGTCAAGGGGAAAGAGATGCGGAAAATGAAGCCTTGATCCCTTTTTCTTCTTTTTGTCTGCT +ATCAGCGTAGTTAGCCCTCTGGTATGATGAGTCCAACTTTGTTTTGCTGTGTTATGGAAATCTCACTATG +GTCATTAAGGCGCAAAGCCCGGCGGGTTTCGCGGAAGAGTACATTATTGAAAGTATCTGGAATAACCGCT +TCCCTCCCGGGACTATTTTGCCCGCAGAACGTGAACTTTCAGAATTAATTGGCGTAACGCGTACTACGTT +ACGTGAAGTGTTACAGCGTCTGGCACGAGATGGCTGGTTGACCATTCAACATGGCAAGCCGACGAAGGTG +AATAATTTCTGGGAAACTTCCGGTTTAAATATCCTTGAAACACTGGCGCGACTGGATCACGAAAGTGTGC +CGCAGCTTATTGATAATTTGCTGTCGGTGCGTACCAATATTTCCACTATTTTTATTCGCACCGCGTTTCG +TCAGCATCCCGATAAAGCGCAGGAAGTGCTGGCTACCGCTAATGAAGTGGCCGATCACGCCGATGCCTTT +GCCGAGCTGGATTACAACATATTCCGCGGCCTGGCGTTTGCTTCCGGCAACCCGATTTACGGTCTGATTC +TTAACGGGATGAAAGGGCTGTATACGCGTATTGGTCGTCACTATTTCGCCAATCCGGAAGCGCGCAGTCT +GGCGCTGGGCTTCTACCACAAACTGTCGGCGTTGTGCAGTGAAGGCGCGCACGATCAGGTGTACGAAACA +GTGCGTCGCTATGGGCATGAGAGTGGCGAGATTTGGCACCGGATGCAGAAAAATCTGCCGGGTGATTTAG +CCATTCAGGGGCGATAATCCCTTCCGTTTAAAGAGCAAACCCCTCAAACGAGGGGTTTTTTGTTGTTTTT +ACAGATTTCCCATTCTTGGCGGGCAACGTTCCAGCAACTCGATGCTGCCGTCTTCGTTTTGCTGTTCGAG +CATCACATCAAATCCCCACAGGCGATGCACATGCTTCAGGACTTCTTTGCGCCCCCGATCCAGCGGTGCG +CGATTATGTGGAATATAACGCAGCGTCAGCGAACGGTCGCCGCGCAAATCCACGTTCCAGATCTGAATAT +TCGGCTCCAGATTACTTAAGTTATATTGCGACGATAACCGGTTACGGATCTCCCGATAACCTTCTTCATT +ATGAATAGCGGAAATCTCCAGATAATTATGCCGATCGTCATCCAGCACGGTGAAGAAGCGGAAATCACGC +ATCACTTTCGGTGACAGGAACTGGCTGATAAAACTCTCATCTTTGAAATCACGCATCGCGAAATGCAGCG +TTTCCAGCCAGTCGGAACCGGCGATATCCGGGAACCAGTATTTGTCTTCTTCCGTTGGCGACTGACAAAT +CCGTTTAATATCCTGGAACATGGCGAACCCGAGGGCATACGGGTTGATGCCGCTGTACCACGGGCTGTTA +TAGGGGGGCTGGAAGACCACATTGGTGTGGCTGTGCAAAAACTCCAGCATAAAACGTTCCGTTACTTTCC +CTTCATCATACAGATGGTTAAGGATGGTGTAGTGCCAGAAGGTCGCCCAGCCTTCGTTCATCACCTGAGT +CTGTTTTTGCGGATAAAAATACTGGCTCACCTTACGCACAATACGCAGGATTTCACGCTGCCATGATTCC +AGCAGTGGCGCATTTTTCTCCATAAAATAGAGCAGGTTTTCTTGTGGTTCGGACGGATAGCGGCGCGCTT +CAGCAACCGTTTTCTCTTCCTCGCGCTTCGGCAGGGTACGCCAGAGCATATTGACCTGACTTTGCAGATA +CTCTTCGCGACTTTTCTGCCGGGCTTTCTCTTCTTGCAGCGAGATTTTTTGCGGGCGTTTGTACCGGTCC +ACGCCGTAGTTCATCAGCGCGTGGCACGAGTCCAGAAGCCGTTCTACTTCATCAACGCCATAACGCTCTT +CGCACTCGGTAATATATTTACGGGCAAAAATCAGATAATCGACAATCGAACTGGCGTCGGTCCAGCTACG +GAATAAGTAATTGTTTTTGAAGAAAGAGTTATGCCCATAGCAGGCATGAGCCATCACCAGCGCTTGCATG +GTAATGGTGTTCTCTTCCATCAGGTAAGCGATACACGGGTTAGAGTTAATGACGATTTCATAGGCCAGTC +CTTGCTGACCGTGCTTATACAGCCGTTCAGTCTCGATAAACTTTTTACCGAATGACCAGTGCGGATAGTT +AATTGGCATGCCGACGCTGGAGTAGGCATCCATCATCTGTTCTGAGGTTATCACTTCAATCTGGTGCGGG +TAGGTATCCAGCCGGTAGAGTTTCGCCACCCGGTCTATCTCTGCCAGATAAACATCCAGCAGGTCGAACG +TCCAGTCGGGTCCATCGCTCAAACGTGTGGTGTCCTTATTCATAGAATCGATCGTCGCCATACGCGCACC +TCATTGTTGTCGGCGCTCTCTGTGTGGAGCACCTCATTTCAAGCATAGAACACCTGTTAAAAACCGCGTC +GCCGGAGAATTTTTTTCTTTGCGATTTCTTATTATCAGAGTGCCACTAATCCGCTTCTGAACGGAATTTT +ATGCTGGATAAAAAGGGCGTTCAGCAGGAGATACTAAAGACGCCATATTGCCGCAGAGTCAGGGAGATGT +GAGCCAGCTCACCATAAAAAAGCCGCATGTTGAATAATATTTTCAACTGAGTTATCAAGATGTGATTAGA +TTATTATTCTTTTACTGTATCTACCGTTATCGGAGTGGCTATGCGAGTTGTCATACTGGGAAGTGGTGTG +GTAGGCGTTGCCAGCGCCTGGTACTTAAATCAGGCAGGACATGAGGTCACCGTCATTGATCGGGAGCCGG +GGGCCGCCCTGGAAACCAGTGCCGCGAATGCCGGGCAAATCTCCCCCGGATATGCTGCACCGTGGGCGGC +ACCAGGTGTGCCTTTAAAAGCGATTAAATGGATGTTCCAGCGCCATGCGCCGCTGGCGGTTCGTCTCGAC +GGTACGCAGTTCCAGTTGAAATGGATGTGGCAAATGTTACGTAACTGCGACACCAGCCACTACATGGAAA +ACAAAGGGCGGATGGTGCGTCTGGCGGAATACAGCCGTGATTGCCTGAAAGCATTGCGCGCCGAAACCAA +TATTCAGTATGAAGGGCGTCAGGGTGGGACGCTGCAACTGTTCCGTACCGAACAACAGTATGAAAATGCG +ACCCGCGATATCGCCGTGCTGGAAGATGCCGGCGTACCGTATCAGCTGCTGGAATCCAGCCGCCTGGCGG +AAGTGGAGCCCGCGCTGGCAGAAGTGGCGCACAAACTGACGGGCGGCCTGCAGTTACCCAATGATGAAAC +CGGAGACTGTCAGCTATTTACCCAGAATCTGGCGCGGATGGCGGAGCAGGCGGGGGTTAAATTCCGCTTT +AATACGCCCGTTGACCAACTGCTTTGCGACGGCGAGCAAATCTACGGCGTGAAGTGTGGCGATGAAGTGA +TTAAGGCCGATGCGTATGTGATGGCGTTTGGTTCTTACTCGACGGCGATGCTCAAAGGCATTGTTGATAT +TCCGGTGTATCCGCTGAAAGGCTACTCGCTGACCATTCCAATTGCGCAGGAAGATGGTGCGCCGGTATCC +ACCATTCTTGATGAAACCTACAAAATCGCCATTACCCGTTTCGATAACCGCATTCGTGTTGGCGGAATGG +CGGAGATTGTTGGTTTTAATACCGAGCTGTTGCAACCGCGTCGTGAAACGCTGGAGATGGTGGTTCGCGA +TCTCTATCCACGCGGCGGTCATGTCGAGCAGGCGACTTTCTGGACTGGTCTGCGCCCGATGACGCCAGAC +GGCACGCCGGTTGTCGGGCGTACACGCTTTAAAAATCTGTGGCTGAATACCGGTCACGGCACGCTCGGCT +GGACGATGGCTTGCGGTTCCGGTCAGTTGTTAAGCGATCTGCTCTCTGGTCGCACGCCAGCGATCCCATA +TGAGGATCTAAGCGTAGCGCGCTACAGCCGTGGATTTACGCCATCACGTCCGGGCCATTTACATGGCGCA +CACAGCTAAGGAAACGAGATGACCCGTCCGATACAGGCCAGCCTCGATCTGCAGGCATTAAAACAGAATC +TGTCCATTGTCCGCCAGGCCGCGACGCACGCGCGCGTCTGGTCGGTGGTAAAAGCGAACGCTTACGGGCA +TGGTATTGAGCGTATCTGGAGCGCGATCGGGGCCACCGATGGCTTTGCATTGCTTAACCTGGAAGAGGCA +ATAACGTTACGTGAGCGCGGCTGGAAAGGACCGATCCTGATGCTGGAAGGATTTTTCCATGCTCAGGATC +TGGAGATTTATGACCAGCACCGCCTGACCACCTGCGTACACAGCAACTGGCAGCTCAAAGCACTGCAAAA +TGCGCGGCTAAAAGCACCGTTGGATATTTATCTTAAAGTGAACAGTGGGATGAATCGGTTGGGCTTCCAG +CCCGATCGCGTGCTTACCGTCTGGCAGCAGTTGCGGGCAATGGCGAATGTTGGCGAAATGACCCTGATGT +CGCATTTTGCCGAAGCGGAACATCCTGATGGAATTTCCGGCGCGATGGCGCGTATTGAGCAGGCGGCGGA +GGGGCTGGAGTGTCGGCGTTCGTTGTCCAATTCGGCGGCGACTCTGTGGCACCCGGAAGCGCATTTTGAC +TGGGTTCGGCCTGGCATTATTTTGTATGGCGCTTCGCCGTCCGGTCAGTGGCGTGATATCGCCAATACCG +GATTACGTCCGGTGATGACGCTAAGCAGTGAGATTATTGGTGTCCAGACGCTAAAAGCGGGCGAGCGTGT +GGGCTACGGCGGTCGCTATACTGCGCGCGATGAACAGCGAATCGGCATTGTCGCCGCAGGGTACGCCGAC +GGTTATCCGCGCCACGCGCCTACCGGTACCCCTGTTTTAGTGGACGGCGTGCGCACCATGACGGTGGGGA +CCGTCTCGATGGATATGCTAGCGGTCGATTTAACGCCTTGCCCGCAGGCGGGTATTGGTACGCCGGTTGA +GCTGTGGGGCAAGGAGATCAAAATTGATGATGTCGCCGCCGCTGCCGGAACGGTGGGCTATGAGTTGATG +TGCGCGCTGGCGCTACGCGTCCCGGTTGTGACGGTGTAACTTGTTGTAAGCCGGATCGGAGGCAACGTCT +TCTGGGTGCAAAAAAATCATCCATCCGGCTGGTCAGCAACTGTAGTTGTTAATGTGACAGAGCCATTGCC +CATGATAGTGTCCATTAAAAGGATGGACACTATTTCCCCGGAACCTGAACTCACCGCACAGGCGTTCTAC +ATAAAACGCTTACGCTTCATTGTTGACTCGAACTCGACTTCAGATAAATCACGCTTTACCCTTGATGGAG +CCTGTACATAGATTTGTGTAATTGCCTGATTTTGATATGTTCAATTCAACATCAAATGAAGGTTAAATTA +TGGACGACAAACAATTGCAGGCTCAGGCTGCGTTCAGCAAAGCATCGCAACCGGCGATAGATGCTTCATT +AAATTTAAGATTCAGCTTCCTCTTCAGCCACCCGTACGCCAATCTTCAACACTTCATTATCTTCTTTCTC +GGCCACCGTCCAGATCATCCCGGCAAACTCTACCTGGTCACCGACAACCGGTGCCGCGCCTAACAACTGC +TGGACAATTTCACCCAGCGTTTGCTGCTTATCACGATATTCTCGCCCGTCTTCCAGGCCATATATCAGCG +CAACATCAGCATATTTGGCGCTGGCTTCGAGAATGAAGTCACCAAAGAAGCGTTGATCCAGCGCGACCGG +CGGCGACTGGCTGAACAGTTTACCGAGCGCCGGAAGATCGCGTTCCCGACCAATTACACACAACACATCG +CCTTCGCGCAGTCGGGTGCTGCCGGTAGGATGAAGCAACTGGTTATCACGAAACAGTGCCGCAATACGCG +TCTCTTTTGGCATATGCAAATCGCGCAGTGCCGCGCCCACGCACCATTTATCGGCACTCAATTGATAAAC +AAACTGCTCCCACGGATTTTCCGGATGAATATCCAGGCCAACGCGTGACACCGGACGTCCCACTGGCGGA +ACCACCACTTTGGCTTTTTTAGCCGCCCACGAGAGTGATGTTCCCTGCAAGAGCAGTGAAACCAGAACCA +CAAAGAAGGCGACATTAAAGAACAGACGTGCATTCTCCAGCCCCGCCATCATCGGGAACACGGCCAGGAT +GATTGGCACCGCGCCGCGTAATCCTACCCAGCTGATAAACACGCGCTCACGCAGATTGAAACCGCGGAAG +GGGAGCAATCCAGCAAATACCGAAAGGGGACGGGCGAAGAATATCATCCATGCGGACAAAATGAGCGCCG +GAATGGCAATAGGCAGCAGATCGCTTGGGTTAACCAACAGCCCCAGCACCAGGAACATGGCGATTTGCGC +CAGCCAGGCGAGGCCGTCGAAATTTTGCAGGATGCCGTAGCGGTTGCGAATAGGGCGATTACCCAGCAGA +AAACCGCACAGATACACCGCCAGAATACCGCTACCTTCCAGCGCAGTAGTTAATGAGAAAATCAGAATAC +CGCCACTTAATGCCAGCAATGGATATAATCCGGCGGGCAGGGCGATGCGGTTGATCATTTGCAGTAGTAA +ATAACCGCCGCCAAGACCTATTACAATGCCCAGACCAAATTGTTGCAGAATATCGACAATGAACATCCAG +CTAATATTGCTCTCATGATGCTGGATCATCGCAATTAGGGTAATCGTCAGAAAGACCGCCATTGGATCAT +TACTGCCGGATTCAATTTCCAGCGTCGAGCCAACACGTTCGTTAAGCCCCTTACCACCCAGCAGAGAAAA +GACCGCTGCAGCATCGGTAGAGCCGACGATAGCGCCGATTAATAAGCCTTCAATCAAATCAAGATTAAAC +AGCCACGCCGCCATCATGCCGGTTAAACCAGAGGTGATAAGCACGCCCAGCGTCGCCAGCGACAGTGCCG +GTCCTAACGCCACACGAAAGGAACTGGCCTGAGTGCGCATCCCGCCGTCGAGCAAAATAATCGCCAGTGC +CAGGTTACTTACCATGTAGGCGAAGGGGTAATTATCAAACGGGATACCGCCGACGCCATCGACTCCTGCC +AGCATGCCGATCGCCAGAAAAATAACCAGAATAGGAATGCCAAGACGGGAAGAAAATGAACTAAGTAATA +TACTGCTGGTGACAAGGATGGATCCTAAGATGAAAAGGCTAATTATTGTTGTGGCATCCAACGGTCGGTT +ACTCCTGATTACGCTGTCTCTTATATAAACCCTACCATATTAGCGGCAGAGACAGCGTTTTACTTAGCCC +TGAAGCGTGATTTTTTTACATTTTAAGAACAGGATGACCGCTAATCGTCAACTGAGTGCCTTCCCGGGTG +TTATTCAGAATGGCATGTGCGCCCAACGGCAGCGTAACCGTGCGTTGTTCATGACCAAAATCGAGGCCGG +TAATGAGTGGAATCGACAGGCGGGAACGCAAAAACGCGTACACTGACTCCAGGTTGTAACCTGCGTCATA +ATCATTGGGCGTGCTGCCGCTAAAGCTACCGAGAATAATCGCCTTCTGACGTGGCAAAATTCCCGCATGA +TAGAGCTGCAACAGCATACGTTCGACCCGGAAAGGGTGCTCGTTAATATCTTCCAGCACCAGAATACCGT +TCTCAATTTTTGGCATCCACGGTGTACCGATCAGTGAAATCAGCATCGCAAGATTGCCTCCCCACAACGT +GCCTTCGGCCCGACATGTCGGGCCTTCCCCTTGCCATTCAATGGTGAAGGTTTCATTGCGTAACGCCAGC +CAGAAATGGTGCTCGGTAAAGGCGTTCAGTTCATCCGCGCCAAAGTTTGCTACCAGCATGGGGCCGCTAA +AGGTGATGACATTGCCATGCGCCAGAAGACCGCACTGAATGGCGGTAAAATCGCTATGTCCGCAAATGAG +CAACGGGTCATGTTGTTGGCGAGCCACCAGTGCCTGCCAGTCAATATCTGCCAGTAAACGACTGGCACCG +TAACCGCCGCGTACAGCCAGCACGATGGTGTTGGGGGTAGTCAGTCTGGCAAGGGAATTGAGATCTTCCA +GACGCTCTGTTTCCGTACCCGCAAAACGCTCACAACGACGGGCAATAACCTCGACGTTATTGACTTGATG +CCCCGCGTCGGTAAGGCGCTGGATACCACGCAGCGCGGCGTGCTGTTTAATGCAGTAACCCGATGGGGCA +ATTAAGTGAAACAGAGACATGGCAATTCCTTGCTGACAACAGAAACGAAATGTATATCATGCCGCTTAGG +TGTGCCGTTGTCACCTCAACGGCGATTCCAGGCTATAAGGATAGAAGAAGTGAAATTGAGATGGTTTGCC +TTTTTGATTGTGTTATTAGCGGGTTGTTCATCAAAGCATGACTATACGAACCCGCCGTGGAACGCGAAAG +TTCCGGTGCAACGTGCGATGCAGTGGATGCCAATAAGCCAGAAAGCCGGTGCAGCCTGGGGCGTCGATCC +ACAATTGATCACGGCGATTATCGCTATCGAATCGGGTGGTAATCCGAACGCGGTGAGTAAATCGAATGCC +ATTGGTTTGATGCAGTTAAAAGCTTCAACCTCCGGACGTGATGTTTATCGCCGTATGGGCTGGAGTGGTG +AGCCGACGACCAGCGAGCTGAAAAATCCAGAGCGTAATATTTCAATGGGGGCGGCTTACCTGAATATTCT +GGAAACCGGCCCGCTGGCAGGCATTGAAGATCCGAAGGTACTGCAATATGCGCTGGTGGTGTCATACGCT +AACGGGGCAGGTGCGCTGCTACGGACTTTCTCGTCAGATCGGAAAAAGGCGATCAGCAAAATCAACGATT +TGGATGCTGACGAGTTCCTCGAACACGTAGCGCGAAATCACCCTGCGCCGCAGGCTCCGCGCTATATCTA +CAAACTTGAGCAGGCACTGGACGCGATGTAAATCAGTCGCGCACTTTGTCCGCTTTTTCCCGGGCTTCTC +GCTCGAGAGAGAAAATAATCCGCTGTAATTGCCGCTCCACCGTCGGGCTGACGTTAAGAAAACGGAAGCT +CAGACGGGGAGTGGTGATGGTTTCATTCTTGCCATCAATCACTTTGCGCTCGCTGATGGAGATTAACTGG +GCGTCAAAGTGAAAAACACCCCATTGCCCCATGTTGACTTCAATCTGAGCGAAGCGCATGCCTTCTTGTA +ATTCGGCAGGCTTTGCTGTTTCCAGTAATGCGCCCATGCCGCCTAACGACAAATCATACAGGCGGAAACG +TAACGTACTGTTATCCGCCAGTTTGGTCTGGCAAAAATAAGGCGGATGGAGTGGGGCGGAGATGCGGAAA +TATCGGCGTCGTTGTACAAACCATAAGGTGGGAGGCGGTACGGTAATAAATGCCGGAAGCTGCAAGTATT +CACTCTGCTGTAGTTGTTCAACAGTAAACTCGACTTTCGCACCCTGAGTTTCGGCGGTAATGGTAATGTG +CTGTGCCTTTAGCACGGCGATGTTGTCTTCGGCTTGACTGCCGAAATCCAGCACCAGTTTATCCGGGGTT +ATTGCCAGTAATTTGCTGATCAGCTGCCCGCCATTCCAACTGAGACGCAAAGGAATTGCGGCTTTGTGCA +AATCGCGTAACACGCCCAGGACGGCTAACGGATTTTGTTTCAGGAACTGCTCATGGTAATGACTCACGCG +GAAAAACTCCTGACTGACAAACTGTCTTTGGTTTATCGGTCACAGTTAACAAAACTTAATACAAATGCGT +GAATATTTTTTACATGTTGTTCTTAAATCAGCCGACATACGCCCAGCATCGATCCCGCCCTTGCCTATAC +TTAGAGCGTTGATGTAAGCATTTCTTGCGTCCGATTCATCGAAACGAGGGCCTGAACATGGGAATTATTG +CCTGGATTATTTTTGACCTGATAGCCGGCATTATCGCCAAGCTAATCATGCCGGGGCGTGATGGTGGTGG +ATTTTTCCTGACCTGTATTCTCGGGATAGTCGGTGCGGTGGTCGGCGGCTGGCTGGCGACCATGTTTGGC +ATTGGCGGCTCCATCAGTGGTTTTAATCTGCACAGCTTCCTGGTGGCGGTGGTGGGAGCTATTCTCGTTC +TGGGCATATTCCGCCTCCTGCGAAGAGAATAAGATTTTCATAAGGCGGATAGCGATACAGATGCCGCTAT +CCGCTTTCACATCAGAACGTATACTCGACACCTGCTTTACGGGTGAAAAAAATCAATATAGCACTTCGAT +ATCCGATAAAGTCGGTTCCCGGTAACAACAACAGAATCCTTTTTTAATTATTGTTTCGTTGTTTTTGGTG +TGATTCAGAAAATAAATATTTTAGACAGTAGCCAGTCAGGCGTTAAAAATGGGGCGGATAGTGAGGCGGT +TTTGGCTGCGCTTATTGAACATTTAGAATTGATCAATCCTTCTGGCAGATTAAGCCAAAATACCCGTTCG +GCAATGCTTCAGTTACGCGAAGAGGAATGGTCTGAATTCTTTTTTTGGTTGCTAAATTCTCTGGAGTGTC +TGGATTATGTGATTATTAATTTAACTCCAGAAAGCAAAAAAACGTTGATGAGTGAACACCGTAACAATAT +TCAGGTAGCAATTGATGCTTTATATAGCCAACGTCGGCGTAAATCGCCGGGTGATGAAAGTGAAACACTT +ACCCGTAGAAATGACGCTATCTTCGGCAACCACGTATGGCAAACATTTGCGCAATACTTCCCGCCAGGAC +TTGAAAAACCGTCTGTGTAGAAAAAACCATAGCTATGGTGTTATCTGCCGACAACGCCATCCGGAGAAGC +CGAATGACGTTGTCGGAGTAAGCGCTGGTTAAGGTGTGGGTTGTGCCTCTTTGGTTGAGGGTTGCGTCGT +TGCTGACTTAACGGTCGGACGCGTCGCCGGAACATTGTCACACGGTTGCTCTTTCGGGCAGATCAAATCC +AGCATTTTCAGCGTCACGCCATTGGTCCAGCCAAAGCCATCCTGTAATGGATATTCGCCACCGCCGCCCC +CCGTTCCGGTGGTGCTGACATCATATTTTTCCACCAGCTTTTTCTCCCGGTCATAGGTGTGCTGAACATT +GGTCAGGAAGTGCCAGCTAATGTCCATCGCCACCTCTTTTTGCCCGTAGTTTTGTAATCCTTCTGTCGCG +ACCCACTGTAACGGTGCCCAGCCATTTGGCGCATCCCATTGTTGCCCACTTTTCACCGACGTGGTGTTCA +GGCCGCCGGGTTGCAGCAGATGTGTTTTCGTCGCCGTCGCCATTTTGTTGGCGCGATCTTTCGCTGCCGC +ATTGACGTACAGCGGGAACAGGGCGGCCGCGGTTAACTGATTGCGCACTTTATGACTTTTCAGGTCGTAA +TCGGCATACCAGCCTTGTTGATCGTTCCACAGGTATTTTTCGATCCCTTTTTGACGGGCATTTGCCAGCG +TTTCGTACTGGTTTGCCATCGCGTTATCTCCGGCAGCTTTGCTGGCGCGGGCGAGGATTTTTTCCATTTT +AAACATCAGGCTGTTCAGATCGACCGGTACGATGCTGGTGGTGCGTAAGGTATTTAACTGCTGCGGGTTG +TCCATCCAGCGCGAGCTGAAATCCCAGCCAGACGCAGCGGCAGAGCGCAGGTCGCGGTAAATTTCAGTGG +CAGGTCGATTCGGATTGCTTTTGGCGGTGGCAATATCTTCCACCCATGACTCTGGTCGTGGCGTATCGCG +ATCGTCCCAGTAGCGGTTGAGAAGGGTACCATCCTGAAGTTTGACAACGCGTTTTTCCTGTTGTCCGGCT +TGCAGGTTTTCAACACCGTCCATCCAGTAAGCATATTCTTTTTGCATTTGCGGCAGGTATTGCTTCAACG +CGGCATCGCCTTCATGCTGCGCCAGTAACTCTACCATCAGGGCAAAGAAGGGCGGTTGCGAGCGGCTTAA +ATAGTAACTGCGGTTGCCGTTGGGAATATGACCGTAAGTGTCTATTTCATGAGCAAAATTGGCCACCATA +TCCGCGACTTTATCCCAGTGACCGCTTTCGGCAAGTCCTAACATGGTGAAGTAACTGTCCCAGTAATATA +CCTCGCGAAAGCGTCCGCCCGGCACGACATAAGGTTCCGGCAGCGGTAACAGAGAATCCCATTTTTCGGT +GTTTTCGGTAGAACGCGTTAATACCGGCCAAAGTCCGTCAATATGTTCGCGCAGTGACTGCCCCTCTGGC +GGAACATATTTCTCGCCTTCTTTCGGCAGGGTGAAATTGACGTTAACGAAATGGCGCAGATCAAATCCGC +TCTGGTTTTGCTGCATCCGATAATCAGCAAGGATCATCAGCGGATCGCTGTTCGGCACGGCATCGGCAAA +GGTTTTTTGGTCCGGAAAAAGTTTGGCGTTTTGCACATCATTAAACAGCGGCCCTAATAAAATATCAGGC +GGCTGTGGTGTTACCGGTGTTTCTTCTGCCTGCACCGATAGCGCAGCGAAACACAAAAAGATACAGGCTG +GAATTAACGCCATTTTTTGCGGGCGAGAAGGTGCGGGGGATTTCATCAATCATTCTCCTTTGGCGAAACC +GAATAAAACGGTATTCAAGTATCAGAAAACCTTAGTTCAGGATCGCACTAGCTGCATGATCGAAATCTCA +TTCTGCGAACTGTCAGGCATTTTAGAAAAGGGAATTAAAGGGATAAATAACGGCGAAATAGAGTGATCAA +ATAACGTCTGTTTATTAGCCAGCCAGCGGCGTTGGGTTCGTGATTAGCGAAGAAAAATCATCATAAATTG +GTGAAAAATATAACAGGTAGTTAAAAACCATTAGTGCTGAGTAAATTGCCGGATGACATCAGAACGATGC +CATCCGAACAGTGGCTTAACCCTGACGGTTGAAACGTTGCGTTTTAACGTCCAGCGTTAGCGTTTCTTCT +GGTTGTATCGCATACAGTTTCTCACCCTGCTGGCAAATCCAGCCAATCCCCAGTTCACGGGCGATTAGGG +CGCTGTGGGATACCGGACTTCCGGCGCTAAGGCAGATACCTTTTACAACCGCCGGATCCAGTTGCAGTAC +TGTGGAAGGATAAATGTTCTCCGCCAGTAGAATAGTTGGCGAGTTAAACTGCGGGAGTTCTTCTTTCGTT +TGGGTCAGGTGGACCAGGGTGCGATGCAGAAGATCGTCCACATCAATATAGCGAGCTTGTAGATATTCAT +CATCCAGTTGCTGGTATTGCTGGCTAAGTTCTTTAAGAACTTGCTGCCAGGCATATTCTGCCGTGCAATG +TTCATGCTGAAGGAGTTCGCTTGCCGCCGCCAGCAGTTCCGGATCATCTAACAGTGTATGGTGACCAGAA +AAGATTGCGGCAATATCGTCAAGCCCGCTGGCTTCTGCTTTCGCTGTTAACGTCATCAGATCTAATAACG +TGAAGTCAATAGCCTGGCGTAATCGATCTTGTTCTTCTTCCACGGTCAGGGTTGATTTTGCCTGTACCGT +ACATAAAACTGGTTGATAATAAAAGGCTTTACCCGAAACAGGCGGAACGGGACGCAGAGTAGGTGGAGCG +ACTTCCTCCGTTTCACCAAAGTTATCTTCAGCCAGCTGACGGAAAGCGATCAGTGCCTCTTCAGCTTCTG +GCCCTTTCGCAATCAGGCGCAGCGTATCGTTATAGCGAACTTGTAGTAACGCAATCTGGTTAATACTCTC +TGGTGTGACGCATTTGCCGTTTTTTTCCAGCAACATATCGGCATTAAATGTCGATAAGGTATAAACCAGC +CGGGAGGCCGGACGTACATGCAGGCCGTTACGGTTTTTTATGACCACCGCCAGAGAACGGGCTTCTTCAT +CGTACGCAGGACATGTGTCAGAGATTTCAGTGTCGGAGGACGGTAAACCCAGTTGTTCACGTTTGGCTTC +CAGCGCATGCATGGCGTCAAAGATAACTTTGTCGATATCCGCCCCCGAGGCCGCGCTGACCGTTGCTGCC +AGTGTACCTTCGACCAACGGCGCAGCACACAAACGTACTTTTGCGGCGATCTCGGGAGCCAGCAATTCCA +GCGCAGTTTCAGCACTCAATAATGCGCTACCCATATCCATCATGACCAGCACATGGTCGGCATCAGCAAC +AGATTCGATGGCCTCCATCACTTTGACGGCATCGGTACCAATGGGATTTTGTGGATCGTCAATTCCCGCG +GCAATGGCGATTTTACAACTATCACTCATTAACATCTGACGGGCTAATTCACCGACACCTTCTCCCAGTC +GGCTGCTATGTGAAACTATGACCAGGTTTACCATCACCAATTCCTTACTCTTTTGCGGCTAACGCCAACA +TTTGCATCATAAACATCACCGAGGTCGCGCCGGGATCCTGGTGACCAATACTGCGTTCACCGAGATAACT +GGCGCGGCCTTTGCGGGCTTGCATCGTAATCGTACTTTGTGCAGCGGATTCGGCGATGCTACTGGCAGCT +TCGAGCGCCACCGGAACAGAGAGATTTTGCTCGCTGGACTGACGTAACGATTCCACCACCGGCACCCACA +CATCACACATGGTTTTATCGCCAGGTTCGGCTTTCCCGCGACTGATTACGCCGTCCGCGCCATCGCGGAA +CATCTGATAAAGCTCTTCCAGTGTCAGGCTTTGCCGTGCCTGGGTCGCCTGTGCGGCGCGGATAAAGAAG +GTACCGAACAGCGGACCACTGGCACCACCGACGCTGGAAAGCAGCGTCATACCGGTATTCTTGAGAATGA +AACCGATATCTTTATCTGCGATAGCAGGGAGTTTTTCCACCACTTTGCTAAAGCCTCGGTTCATATTTAG +CCCGTGGTCAGCATCGCCAATTTCGCGATCCAGTCCGGTAAGATACTCGCTCTCGGTGCTGAAAATATCG +CCACAACGAGTGAGCCAGTTAACAATTTGAGTTCTGCTCAGTGACATTGCTTTCTCCTTATTTACCCCAG +TTAAGGGCCGGGGTGTGGACCGGGGCGTCCCAGAGTGCCAGCGTTTCGTCATCAACTTTCAGTAAGGTGA +TTGAGAAACCGGTCATATCCAGTGAGGTGCAGTACGCGCCAATTAAATTACGTTCGATAGTCAATCCCGC +TTGCTGGCAACGTGTGGTCAGGCGGTTATAGACGCCGTACAGCTCAGAAAGCGGAGTTGCGCCAAGATTG +TTAACCAGCGCAATCACCCGATCGCCAGACTGGAGCGGTTGTTTGGTTTGTTGTTCTTCCTGCCAACTGC +CTTGTTGATAATCCCAGAAACGCAAAGTGCGATGGTATGAGCCATTTACCAGCAGGGTGTCGAACATTTC +ATCGACGGTTTGATCAAGGGAAGAGAAGGGGCGGCGGTCAATACCCGGCTCACCATGAATGCCGACGCCA +AACTCCATCTCATTATCCGCCAGGGTAAAAGAAGGTTTGCCCGCGGCAGGAACGGTACAGGCACCGAGAG +CGATACCTATTGAGTGGCCTTGATTATTCAGCTTACGCCCCAGTTCCGCACAGGCGTCCAGTGAGTCGCC +ACGCTCCGCCGCTGCGCCTACGAGTTTTTCAATTAATACGGTGTTGGCAACGCCGCGTCGCCCGGCAGTA +TAAAGACTGTCTTTTACCGCAACGTCGTCATCAATGACCACAGTGGTCACTTTTACGCCGCTATCGTGCA +GTAACTCGGTCGCTGTTTCAAAGTTAAGAATATCGCCGGTGTAATTTTTGATAATCAACAGTACACCTTC +GCCGCCATCAACTTGCATGGCGCATTCAAAGATTTTATCGGGCGTCGGTGAGGTGAAAATTTCGCCCGGA +CAGGCCCCCGAAAGCATCCCCTGACCGATATAACCACAGTGCATCGGCTCGTGTCCGCTGCCGCCACCCG +ACAGCAGGGCGACTTTTCCTGCAACAGGGGCATCAGCTCGGGTGACATACACCGGATCCTGATGCAGTGT +CAGCGATGGATGCGCTTTCGCCAGTCCTGCCAGTTGTTCGTCCAGTACGTCTTGCACATCATTGATCAAT +TTTTTCATTATTTTGCTCCAGCAATTACGGTAGGGCATGGATGATGTTCAACGACACGGCGACCACTGAC +TGCCGATGAATCCATTGTGCATCAGGCAAGGGAAAAGAAAATTAGCCCAAATTATGTTTCATAGTGAAAC +ATATGCTTTAATGAATGTTCCATATTGAAACTTTTACGTGTATTAATACTTAAAATTGCGAGCCGGAACA +CCTTTTGTCATAAGGGATGCGGGATATGAGTGGCGCTTTTAACAACGATGGTCGGGGCATATCTCCCTTA +ATTGCAACCTCCTGGGAGCGATGCAATAAGCTGATGAAACGGGAGACATGGAACGTACCACATCAGGCCC +AGGGCGTGACATTTGCTTCTATTTATCGGCGTAAGAAAGCGATGCTGACGCTCGGGCAGGCTGCGCTGGA +AGATGCCTGGGAATATATGGCACCGCGAGAGTGTGCGCTGTTTATCCTCGATGAAACCGCCTGCATTCTC +AGCCGTAATGGCGATCCGCAAACCTTGCAGCAGCTAAGTGCACTGGGATTCAATGACGGCACGTATTGCG +CCGAGGGAATTATTGGTACTTGTGCGCTATCGTTAGCGGCTATCTCTGGTCAGGCCGTGAAAACGATGGC +CGATCAACATTTCAAACAGGTACTCTGGAACTGGGCCTTTTGTGCAACGCCGTTGTTTGACAGCAAGGGC +CGATTGACGGGAACAATAGCGCTGGCGTGTCCGGTTGAGCAAACTACCGCAGCTGATTTGCCGTTGACGT +TGGCAATCGCCCGCGAGGTCGGAAATTTACTGCTGACGGACAGTTTGCTCGCTGAAACTAACCGTCATTT +AAATCAACTTAATGCCCTGTTAGAAAGTATGGATGATGGCGTGATTAGCTGGGACGAGCAGGGTAATTTG +CAATTTATTAATGCCCAGGCGGCGCGGGTCTTGCGCCTTGACGCGACGGCAAGTCAGGGACGGGCAATCA +CTGAACTCTTAACGTTACCCGCCGTATTGCAACAAGCAATAAAACAGGCACATCCGCTCAAACACGTAGA +AGCAACCTTTGAAAGCCAGCACCAGTTTATTGATGCGGTGATAACCCTTAAACCGATAATAGAAACGCAG +GGAACCAGCTTTATTTTGTTGCTCCATCCTGTGGAACAGATGCGGCAGTTGATGACCAGTCAATTAGGAA +AAGTCAGCCATACCTTCGCTCATATGCCACAGGACGATCCGCAAACCCGCCGCTTGATTCATTTTGGTCG +CCAGGCGGCGCGCAGTAGCTTTCCTGTCCTGCTTTGTGGAGAAGAGGGCGTGGGCAAGGCACTGCTAAGT +CAGGCAATTCATAATGAAAGCGAGCGTGCTGCAGGTCCTTATATCGCCGTCAATTGTGAGTTATATGGTG +ATGCTGCGCTGGCGGAAGAATTTATTGGTGGCGATCGCACGGACAATGAAAATGGCCGTCTGAGTCGGCT +GGAACTGGCACACGGCGGCACGCTGTTTCTTGAAAAGATTGAATATCTGGCGGTGGAGTTACAGTCTGCT +TTGCTTCAGGTTATCAAGCAGGGGGTTATCACGCGACTGGATGCGCGGCGTTTAATACCAATTGATGTCA +AAGTGATTGCAACAACGACCGCGGACCTCGCAATGCTGGTGGAACAAAATCGTTTTAGTCGCCAGCTGTA +TTACGCGCTGCATGCATTTGAAATTACCATCCCGCCTCTGCGTATGCGGCGTGGCAGCATTCCGGCGCTG +GTGAATAACAAATTACGCAGTCTTGAAAAACGCTTCTCTACGCGGCTGAAAATTGATGACGATGCCCTCG +CTCGCCTGGTTTCTTGTGCATGGCCAGGCAACGATTTTGAACTTTACAGCGTCATCGAGAATCTTGCTCT +GAGTAGTGATAACGGGCGCATTCGCGTCAGTGATTTGCCGGAACATCTGTTTACCGAGCAGGCGACAGAT +GATGTCAGCGCCACCCGCCTTTCCACCAGTCTGTCATTTGCGGAAGTTGAAAAAGAGGCAATTATTAACG +CAGCCCAGGTCACAGGCGGTCGCATTCAGGAAATGTCGGCTTTACTTGGGATCGGCCGCACTACGCTGTG +GCGGAAAATGAAGCAACATGGCATTGATGCAGGGCAGTTTAAGCGCCGGGTATGAAAGACAGAAACGATT +TCTGATACATCAGAGTGATCTGTATTTCATTCCGGCGCACGCTAACAATTTTCAGCATCGTTTAAGGGCT +TGTCTATCCCGCACTTAAAAGCTGAAGCGATATCCTCCGTTGACTTGCTTCTGATCAAAGAGGTTACCCT +GCGTGTAATCCGCTTCGAGATAGAATGTGTGCTGTTTGTTATACTGTGCACTGACTCCCACGCCGTTATT +CCAGCCATTACCTTTGAAACTGTACTTCTCCCGGGAGTTGTTCAACAGATATTCGGTATCCCCTGAAAAC +TCGCGGATAGCGCCAGTCTTCACATAGACATTCAGCTGGCTGTTGCCTGCGGTGATGTCATACCCCAGTA +TCATGCTGGCACGCCCCAGCAGCGATTCGTAGTGATTCAGATGTATATTGAGGCCATTACTCGCCTTCAT +AGTCATCTCATTCTGGTGGCTGTATGTAAGCTGGGTTTGCGGCTCTATATAGAACCCATAACCAGTAGGG +GACAGGTTGAACCTCTGCCCGGCTTCCAGGGAGATGCTCATTCCATTCGCAGTGCCGTTGGCGTTAACGC +CGTTGTTCTGACTGTCCAGTACGTGGAAACTATTTTTCTGGCGCGATGCTTTTATAACGAGATCGCTGTA +AAAACCGTTTTGTGCCATGTAACTGGCGTACATTCCCATGTAGTCTGAACGTGCGGTACCGTCGCCTCCG +CTATAGTCCGGCGATGCATGTGTTGAGCCAATATACAGACCGACATACAACGGCATTACATCAGAGAGAC +GTTTATCCCCACCAAACTGGATACCGCTGTAACCCATGTCAAAGCCGCTCAGTTTGCCACTGGCAAAGGA +GTCCAGGCTTCCCCCATAACTGCGCAACCAGATATTACCGTCTTTACTCTGATTTCGCAGGTCACCCATC +CGTTGCATCAGCGTACGGTTTTCAACATAGTTCAATAAGTAACCGACATTGAGATAATTGCCGCCAGCAT +CTGCGGTCGTGGTGGGTTTAGGCGTGGGAGCGGGTTCAGGCGTAGGATCGGGGTTGACTATGGGAGGCTG +AGCGGGAGCTGGTGTGGGTTCAGGATTAGGAGTCGGTTCCGGAACTGTCCCGGAAGCGTAAAGCTCCCAG +TTAGTGCCATTTTTACGCACATCGTACAGATATCCCCCCAACTCAACCTGAGAAGACGCGCTGAACGAGG +CCGCGCCGTCAGTGGTTTTTACCACTGTCAGAACTTCATTTCCCGTTGTGGCCTCGCTGCCCTGGTTGCG +GATAGCCAATACGTGATTACCAGCACTACTCCCGCTGATATTCAATAAATCCCCTTTATTATTAACGCCA +TTACCCTCGCCAACAACATCAGCACGCATAATAAAGGTACTGTTACCGCTCAGGTTCTCTACGTTTAATG +TGGCAAATGTGCCGGCAGTTGACCCGTGGCTGGCAAAATCGACAGTTGAATGGCTCAGCGCCAGCGTGTC +GAGATTAGAATTACTTGTTACGTTCCAGACGCTGTTATTCATTGCAACGTCCAGTTTTCCGCCATTGACA +TTATCGCTGAGGGAGGAACCTGTCCAAACCGACCCAGGGTGCATATCCAGATTGATTAGCCCACCTTTGG +AAAGAACGCTACCGTTGATAAGCATACGACCCGAGGCGTTGATGCGGCTGGCGGCATAACCATCGTCATG +TTGCGTTGCGATGGCCATCTGGTCGGGTGTACTCATATCAATGACCAGATCGCTCGTGAGGTCGATCTGG +CTGTTGGTCATGGCATAAATTCCCCTGGCTCCTGCCGCGCCGGTGATAGCCAAACTGTCTCCGGTTATTC +TACCGCCGCTGAGAGCCCACAAACCCAGCGCCAGACTGCCATTACGATCAACTGTAATATCGGTATTTTG +CATGTTGACAACAGCCGTTGCCGTCTGGGCCGAGGCACCATAAGAACCGCCGGAAAAGATGCTGTTTCGT +TGCGCTGCCGTGCCAGTAAAATTGATTATCGCGTCTGAACCACTGGTGACGAGGCCACCGCCCTGCGCGG +AAGAAATATGGCTATCTGCACCGATAGTGGTTGTACCACCACGAACTTCGACGCCATTGGCCGCGGCTCC +AGTTACATCAACAGTGAGTGCATTCGCGCTAACCTGGCCAAAGCTCCAGAGGCCGTGAGCATTATCGCCA +TTGGTTTTAATGGTACTGTTTGTTCCGAGATCGACAACAGAGTTTTTCTGTACGTTTATCCCCATGGCGC +TGTAGCCCTGAACATCGATTGTCAGGTCTGTAGCCGTAAAACGCGCAGCACCATTGGCGTTATTGCCGTT +GAGACCACCGATATAAACACCTGTACTTCCATCGGTCGTGATTTTACTTCCGCTTCCAAGATCGACACTG +GTGCCATAGTCATTGATGGTTAGGCCTATACCGTTCGAGTTTTCAATGGTGAATTGAGTGGCTGTTAGTG +TTGAGCTATGCCCAATAATGATGCCGTCATCGTTACTCTTAATGGTGCTGCCTGTGCCTAAGTCAGCATG +GGTATAGTCACCAATTAAGTTAATGCCGATGGCAGAGGTTTGACCAACAACATCTACTGTGAGTCGGTTA +GCTGTCAGGGAGCTGTTTTTGCCCTGAATAATGATTCCTTTTGCATATCCAGAGGCGTCGTTGACATTGA +CGGTGACATCATTACCCAGGTTGATATTGCCAGGCGTGTTTCCTGCTGGGGTCATTACACCATAGAGGTT +TCCTGATGGATCGGCGGTATCTCCTGTAATTCTGTCACCATCATTAATAGTAATATTGGTGCCATATTGA +CTTCCTGTATCAGCAGCTATCAGCAGGGGGGAAAAGATAATTGCATTCAAACCAATAGCGCCAAATTTTA +TCAGTTGAATTGAGGGCGAACGGATTTTTAATTCAGCGAGACGATCTGCTTTGGTATTCCCATTGTGTTG +TTTGATGCCCATACCACTCCTATATAGTACCCAGACTATGGGTCTATGGATTTTGTCATTTTGTTTAAAT +CAATGAATAATATCCTCTTATCATCATGATATTTGTATGGTGCAATCATGATGAGCTTCTCAGAGAATAA +TTCTCTATTACCGGGCAAAATCAGGAACACAGGAATTAATATATATTTAACATCCCCCTTACAAAGGTGA +GTTTATATCGAGTTATTCCCTAAGTTGTCGTTACTTATTCCAATTCGTTACTATAAATATGGCAAAAATA +TTACAACAAACAGCGGTTAAAAAATTTGGTGAAGATTTTTTGTAATAATCCTAATTAGTTATGGGAATTT +CGCTTGATGTATCTGCATAACAAAAACAATATGCGCCATTTTTGCATTACTAATAAGAAAAAGCAAAAAA +CATCGATATTCATTTTTGGTCAATGGGTTTTCTGGCCTATCGTTGTTATTGTGCTACTGGTTATCATTTT +CATCTTGCCAGCATATTGGAGCGTGATCAATTTTGATCAGCTGTGAAGGGGGCTGATGTGTAGTGATACA +AAAACTTACGTTATATCACTGCTAATGAGATATCCGGCATCTGAACACTTATGTCTTTAATTATTCTCGT +GGTTCACTATAGGCAATAAGCACAAAAGTGTAGGATGTTACAAGAATGATTAGGACTCGGTGAAATGAAA +AATCCACGCAATTGCGTGGATTTTATATACTTTTGCGCTCTTCATGAGATTTAGCGAAACCTCATGAGAC +AATAAATTAATTAGACGTTGAAAAGGAAGTTCATCACATCGCCATCTTTCACGATGTAATCTTTACCTTC +TGCACGCATTTTGCCTGCTTCTTTCGCGCCTTGTTCACCTTTGTAAGTGATGAAATCTTCAAACGAGATG +GTTTGTGCACGGATAAAGCCTTTTTCAAAATCAGTATGGATTTTGCCCGCTGCCTGCGGCGCGGTTGCTC +CAACCGGAATGGTCCATGCACGCACTTCTTTCACCCCAGCGGTGAAGTAAGTTTGCAGGTTCAGCAGTTT +ATAACCGGCACGGATCACACGGTTCAGGCCCGGCTCTTCCAGCCCAAGCTCCTGCATAAACTCGTCACGT +TCTTCGTCGTCCAGTTCGGCAATGTCTGCTTCAACAGCAGCACAAACCGGAACCACAACAGAACCTTCTT +TCGCCGCGATTTCACGCACCTGGTCAAGATATGGGTTGTTTTCAAAACCGTCTTCGTTGACGTTGGCGAT +GTACATTGTTGGTTTCAGCGTCAGGAAGCTCAGGTAACGAATAGCCGCTTTCTCTTCAGCGCTTAAATCC +AGCGCGCGCAGCATACCTGCATTTTCCAACTGGGGCAGGCATTTTTCCAGGACCGCCAGCTCAGCTTTCG +CGTCTTTATCGCCACCTTTGGCTTTCTTCTGTACGCGATGAATCGCACGTTCGCAGGTGTCGAGGTCTGC +CAGCGCCAGTTCGGTGTTGATAACTTCAATATCGTCAGCCGGGTTAACTTTGCCGGAAACGTGAATGATG +TTGTCATTTTCAAAGCAGCGAACAACGTGACCGATCGCTTCGGTTTCACGGATGTTGGTCAGGAACTGGT +TACCCAGACCTTCGCCTTTCGATGCGCCTTTTACCAGACCGGCGATATCGACAAATTCCATGGTCGTGGG +AAGCGTACGCTGCGGTTTTACGATTTCAGCCAGTTGATCCAGGCGAGGATCAGGCATTGGTACGACGCCT +GTGTTCGGCTCAATGGTGCAGAATGGAAAGTTGGCCGCTTCAATACCGGCTTTGGTCAGCGCGTTGAACA +GGGTAGATTTCCCGACGTTGGGCAAACCGACGATACCGCATTTGAATCCCATGATTTAAATCACCTTAAT +ATCTTAATAATCAACCTGTTATTGCTAACAGATTGCAGAAATGGAAATAACTTTGCCTATTATACACGGC +ACTCGGCAAAAATGCCGCAGACAACGACTTATTGCGCTTTAAAGGCGTGCAATCGGTTCGTTGCTTTGGT +CAAGCCATCTGTAAACCACATTTCAGTACAACGCGCCGCTTCGTCAATGGCTTCATCAATTAACTTCTGT +TCACTAACAGGCGGTTTGCCTAACACAAAACCGACAACTTTATTTTTATCGCCCGGATGACCGATTCCGA +TGCGTAAACGGTGAAAGTTAGGGTTATTACCCAATTTACTGATGATGTCTTTCAGTCCATTGTGACCACC +ATGGCCACCGCCCAATTTAAATTTGGCGACGCCAGGAGGCAGATCCAGTTCGTCGTGGGCCACCAGAATT +TCGTCCGGATTAATGCGGAAAAAACTGGCCATCGCCGCAACGGCTTTGCCGCTGAGATTCATAAATGTAG +TCGGGACTAACAGGCGGACATCTTCGCCTCCAAGAGTGACTCGCGAAGTATAACCAAAGAATTTAGCCTC +TTCGCGCAGCGGAGCGCGCAAACGCTCTGCCAGTAAGTCAACGAACCAGGCACCAGCATTATGTCGCGTT +GCGGCGTATTCAGCACCGGGGTTCGCCAGGCCGACAATCAATTTAATCGTCACGTTTTTTTGTCCTGAGT +GTGTACATAACTGGCGCGTAGTTTACTGGTTGCGGCCCCGCTTGACAAAAAACTGCGTATCAAATGCAGA +TAACGTAATAATTGCCTGAGTGGACTATTAGAAAGTCAAGGTGTTCAGGCGTTTATTTGTAAAGTTTTGT +TGAAATAAGGGTTGTAATTGTGATCACGCCCGCACATAACCCACTGGGTGTTGTCTATACTTTACACATA +AGGAAGAGGGGTATTCCCTGTTACAACCCAGAAAGTTCCGGAGGTGACATATGAAACGCAAAAACGCTTC +GTTACTCGGTAACGTGCTCATGGGGTTGGGTCTGGTGGTAATGGTGGTCGGCGTGGGGTATTCAATCCTC +AACCAGTTACCACAGTTTAATATGCCCCAGTATTTCGCACATGGTGCAGTGCTAAGTATTTTCGTCGGTG +CCATTCTCTGGCTGGCGGGTGCCCGTGTTGGCGGGCATGAACAGGTGTGCGACCGTTACTGGTGGGTTCG +CCACTATGACAAACGTTGCCGCCGTAGCGATAATCGCCGTCATAGCTAACAAATAATGCAGTTTGCTGAC +CAGTCAGTTTGCGCTGACTGGTCAATCTCGTACTTATAAATCCGCCATCGCCGCGCGACGATTCGGGAAG +AACGCCAGGCGTCCCGGGATCGGTTGAATGCCAGCGCGAGCCATAGTGCGCAGTGGCTGGAATTCCACGT +TGCACACGCGCAGTTCACATCCCTCGGGCAGACGCTTCACAAAACGCTGGAACGCATCAAGACCACCAGC +ATCAAGTACCGGAACGGCATCCCACTTCAGAATCACAATCCGTTTGCCTTCAAGACGTGACTCCAGGTCC +GTGAATAAGCCTTCAGCAGCAGCAAAAAACAGCGGGCCAATAACGCGCAGAACCAGGACATCGTCTGGAA +CATCTACGACTACCGGTGCCAGGCGAGTCATACGTGCGATACGACGCATAAACAGCAGCGATGCCAGCAC +GATCCCCACGCTGATGGCAATAACCATATCAAACAACACGGTCAGCGACATGCACAGCAGCATGACGATG +ATGTCATCTTTCGGCGCATGACGCAGCAAGTCGACCACTTTGTGCGCTTCACTCATGTTCCACGCCACCA +TCAACAGCAGGGCTGCCATGGCGGAAAGCGGCAGCCAGGAGAGCAGCGGTGCCAGTACCAGCAGGGCAAG +AATAACCAGAATAGAGTGGATCACCGCCGAGATAGGGGACGTTGCCCCGGCACGGACGTTAGCGGCAGAA +CGCGCGATGGCAGCTGTAGCGGTAATACCACCAAAGAACGGAGCGATAATATTCCCCAGTCCCTGTCCAA +CCAGTTCGCTGTTCGCCTTGTGTTTCGTCCCGGTCATACCATCCAGCACCACGGCGCAGAGCAGAGATTC +GATTGCGCCGAGCATTGCCATTGAGAATGCCGCAGGCAGCAGTGTGCGAATAGAATCCCAGGTTAGCGTG +AATTCTGAATTAGGCAGATCCCACGGCAGCACCAGTTGCGGCAGCAGTTGCGGAATACCGTTACCCTGAG +AACCATCGGCCAGGACGTAGTGGAATTGCGAACCGATGGTAGCAACATGTCCGCCGAGCAGGTTAACAAT +CCCCATCACCGCGCAACCAGCCAGCAAGGCCGGAAGGTGACCGGGTAAACGAATGCCCAGACGCGGCCAA +AAAACAAGAATACCTAGCGTCACAATGCCAATGGCAGCATCACCCACATTAATGGTCGGCAGCGCCATAA +ATAATGCGCCGACTTTTTGTAGATAATGTTCCGGGACATGGGCCATTTGCAGACCGAGAAAATCTTTAAT +CTGCATGGTACCGATGGTGATCCCGATACCCGAGGTGAAACCTAAGGTGACGGAAACCGGAATATACTCA +ATCAGGCGACCAAAGCGTGCCAGACCCATCAGAATCAAAAAGATCCCCGACAGCAAGGTCGCAACCAGCA +GTCCTGCCAGTCCAAACTGTTGCGACACGGGATAGAGAATTACCACAAATGCCGCAGTCGGACCGGAAAC +GCTAAAGCGTGACCCACCCGTCAGAGCAATGACAATCCCCGCAACAGCTGCGGTATATAAACCGTACTGG +GGTGCCACACCACTACCAATAGCCAACGCCATCGCCAGCGGGATAGCAATAATCCCGACGGTTATCCCGG +CAATCAGGTCACGGGTAAACCGTGCGGCAGTATATTTTTCTTTCCAGCAAGCGTCGATCAGAGCGCGGAA +AGGCATCACATGTGAGGAAAATATTTTGTTCACAATAATGTTTCATCCGTGAGCGCATCATCTGTCAACT +AAATGGCAGGTGAAGGAGGCATAGGTCATACAAATGGATATTACAGACAAAAAAACCCGCCGCAGCGGGT +CTTTGAGCCGGGTTCGATTAGTGTTCGAACATGGCAGAGATCGATTCTTCGTTGCTGATACGACGAATCG +CTTCGGCCAGCATACCTGACAGGGTCAGAGTACGCACGTTCGGCAGTGATTTGATTTCATCGCTCAGCGG +AATGGTATCGCAGACAACGACTTCATCAATTACAGAGTTACGCAGGTTGTTCGCCGCGTTGCCAGAGAAG +ATCGGGTGAGTCGCGTACGCAAATACACGTTTAGCACCACGTTCTTTCAGAGCTTCAGCAGCTTTACACA +GCGTACCGCCAGTGTCGATCATATCATCGACCAGTACGCAGTCACGACCTGCAACGTCACCGATGATATG +CATCACCTGTGAAACGTTCGCACGCGGACGACGTTTGTCGATGATTGCCATATCGGTATCGTTCAGCAGC +TTAGCGATAGCGCGGGCACGCACAACGCCGCCGATGTCCGGAGAAACCACAATTGGGTTATCCAGATTCA +GCTGCAGCATGTCTTCCAGCAGGATCGGGCTACCAAATACGTTATCAACCGGAACGTCGAAGAAACCCTG +AATCTGTTCAGCGTGCAGATCCACTGTCAGCACACGGTCAACACCGACGCTGGAGAGGAAGTCTGCAACC +ACTTTCGCAGTGATTGGTACACGAGCGGAACGGACGCGACGGTCCTGGCGCGCATAGCCAAAGTAGGGGA +TAACAGCGGTGATACGACCTGCGGAAGCACGACGCAGGGCATCAACCATAACGACTAATTCCATCAGGTT +GTCGTTAGTAGGGGCACAAGTGGACTGGATGATGAAAATATCACCACCGCGTACATTTTCATTAATTTGT +ACGCTGACTTCGCCATCGCTAAAGCGACCTACAGCGGCGTCGCCGAGTGAAGTGTACAGGCGGTTGGCAA +TACGTTGTGCTAGTTCCGGGGTGGCGTTACCAGCAAAAAGCTTCATATCAGGCACGAGAAGAACCTCAGG +CATGCGTCCATTGGTGGAAAGAATCTGCCGAAAACTGTGCGGGCCAGGCATGATCCTTTCCAGGCGGTGT +ATTAAAGAGCGCGATGCAACGTCTGGAACAAGGTGACGTTGTCACCGAAACTCAGCTTGCCCGGCTTAAA +GCATGGCTCTGTGCAATGGGGAAAGATTAGCGCCTTTCGCCACAAAGCCATTGAGCCATTCCGGGGCTTG +CTCTAGCACCTGGCGGGCTTCAGACTCTGTATCAAATTCAGCAAAGACACAGGCCCCTGTCCCAGTCAGG +CGCGACGGGGCGTATTCTAACAGCCAGGAAAGCACCGCATCAACCTCGCGAAAACGTTTTCTTGCGATAA +CCTCGCAATCATTGCTGAATTCACATTTTAGCAACGTTTCTATTGACCTTTTTGGCGTATTGCGCGGGAG +TTCAGGATCTTTAAAAATCACCGGAGTCGGAATACTTACACCAGGGTGCGCCACCAGATACCACTTCTCT +GGCGGATCCACCGGCGTTAGTATTTCACCAACGCCTTCGGCAAACGCGGCATGCCCCCGAACAAAGACAG +GAACATCTGCGCCCAGCGTCAGCCCCATTTCCGCCAGCTCATCCATGCTTAGCCCGCATTGCCAGAGATG +ATTTAATGCCACCAGGACCGTCGCGGCATTGGATGAACCACCGCCGAGACCGCCGCCCATCGGCAAACGC +TTGTCAATGCTGATATTCGCACCGCTTCCCGTCGGAAGACGCCCGCTGTCTGCCGCAGTTTTCATCAACA +ATCGCGCTGCGCGAACGATCAGGTTATCTTCATGTTCCACGCCTTCAACGGGCGTTAACAGACGAATATC +CCCATCGTCACGAAGCTCAATGCTGATGGTGTCGCCGTAATCAAGAAACTGAAACAGCGTTTGCAGCGTG +TGGTAACCATCCGCACGCTGACCGGTAATGTATAAAAACAGATTAAGTTTTGCCGGAGAGGGCCACTGTG +TCCGCATTATTTCACTATCCAGTTATCCATTTTTAACTTGATGCGTTGACCACCGTCGGTGAGTTCCATA +TTGGCTGGCATCGCAGGTTGCGTTTTGGTGTCATAACCACCATAAACAACCTTCCAGTTTTTGCCATTCT +GGCTGTAGGTAATTTCGCTCAGGCGGTACTGGTCGTCCAGTTTGTAGTCGGTTGCATCACCCGGTAAACC +TAAAATCCACTGGCGCAAGCTGTTGAGCGGAATTGGCATTCCGGTCAATTTGCCAATCATCTCTTCGGCG +TCATCGGCGGTATAACGCTGACCTTTATTGTCGACTAACTGCACGTTACCCGGTTGAGCATTCAGCTCCA +GTTCCGTGCTGCCCAATGGGTTAGTGAGCAGCAGACGGTAGCGATCCTGGCCGGTTTGCTGCCAGAAAAA +GCGGGCGTACACTTTTTGTTGGTCAGAAATATAAGCGAACGCGCCGCGAGTCTGATACTGATTAAGATTG +CGCACGTCTTGCTGATGCTGACGCCATTGTGGCGAATCCGGGCTTTTGCCAGGACCTTTGGGCGTGGTAA +CGGAACAGGCAGTGAGCACAAGAGCAGCCAGCGGTAGCAGGCGGATAAGACGAAAATCGGGCAGGGGCAT +AGTGATGACAAGTCCTTGAGATACGTTGCAGTTATAACCCTTAATGCTAGCGTTACCGTCCGCTATCGTC +TATGTTCAAGTTGTCTTAATTGCCAGAATCTAACGGCTTTCGGCAATTACTCCAAAAGGGGGCGCTCTCT +TTTATTGATCTTACGCATCCTGTATGATGCAAGCAGACTAACCCTATCAACGTTGGTATTATTTCCCGCA +GACATGACCCTTTTAGCACTCGGTATCAACCATAAAACGGCACCTGTATCGCTGCGAGAACGTGTATCGT +TTTCGCCGGATAAGCTCGATCAGGCGCTTGACAGCCTGCTTGCGCAGCCGATGGTGCAGGGCGGCGTGGT +GCTGTCGACGTGCAACCGCACGGAACTTTATCTTAGCGTTGAAGAGCAGGACAACCTGCAAGAGGCGTTA +ATCCGCTGGCTTTGCGATTATCACAATCTTAATGAAGAAGATCTGCGTAAAAGCCTCTACTGGCATCAGG +ATAACGACGCGGTTAGCCATTTAATGCGTGTTGCCAGCGGCCTGGATTCACTGGTTCTGGGGGAGCCGCA +GATCCTCGGTCAGGTTAAAAAAGCGTTTGCCGATTCGCAAAAAGGTCATATGAAGGCCAGCGAACTGGAA +CGCATGTTCCAGAAATCTTTCTCTGTCGCGAAACGCGTTCGCACTGAAACAGATATCGGTGCCAGCGCTG +TGTCTGTCGCTTTTGCGGCTTGTACGCTGGCGCGGCAGATCTTTGAATCGCTCTCTACGGTCACAGTGTT +GCTGGTAGGCGCGGGCGAAACTATCGAGCTGGTGGCGCGTCATCTGCGCGAACACAAAGTACAGAAGATG +ATTATCGCCAACCGCACTCGCGAACGTGCCCAAATTCTGGCAGATGAAGTCGGCGCGGAAGTGATTGCCC +TGAGTGATATCGACGAACGTCTGCGCGAAGCCGATATCATCATCAGTTCCACCGCCAGCCCGTTACCGAT +TATCGGGAAAGGCATGGTGGAGCGCGCATTAAAAAGCCGTCGCAACCAACCAATGCTGTTGGTGGATATT +GCCGTTCCGCGCGATGTTGAGCCGGAAGTTGGCAAACTGGCGAATGCTTATCTTTATAGCGTTGATGATC +TGCAAAGCATCATTTCGCACAACCTGGCGCAGCGTAAAGCCGCAGCGGTTGAGGCGGAAACTATTGTCGC +TCAGGAAACCAGCGAATTTATGGCGTGGCTGCGAGCACAAAGCGCCAGCGAAACCATTCGCGAGTATCGC +AGCCAGGCAGAGCAAGTTCGCGATGAGTTAACCGCCAAAGCGTTAGCGGCCCTTGAGCAGGGCGGCGACG +CGCAAGCCATTATGCAGGATCTGGCATGGAAACTGACTAACCGCTTGATCCATGCGCCAACGAAATCACT +TCAACAGGCCGCCCGTGACGGGGATAACGAACGCCTGAATATTCTGCGCGACAGCCTCGGGCTGGAGTAG +CAGTACATCATTTTCTTTTTTTACAGGGTGCATTTACGCCTATGAAGCCTTCTATCGTTGCCAAACTGGA +AGCCCTGCATGAACGCCATGAAGAAGTTCAGGCGTTGCTGGGTGACGCGCAAACTATCGCCGACCAGGAA +CGTTTTCGCGCATTATCACGCGAATATGCGCAGTTAAGTGATGTTTCGCGCTGTTTTACCGACTGGCAAC +AGGTTCAGGAAGATATCGAAACCGCACAGATGATGCTCGATGATCCTGAAATGCGTGAGATGGCGCAGGA +TGAACTGCGCGAAGCTAAAGAAAAAAGCGAGCAACTGGAACAGCAATTACAGGTTCTGTTACTGCCAAAA +GATCCTGATGACGAACGTAACGCCTTCCTCGAAGTCCGAGCCGGAACCGGCGGCGACGAAGCGGCGCTGT +TCGCGGGCGATCTGTTCCGTATGTACAGCCGTTATGCCGAAGCCCGCCGCTGGCGGGTAGAAATCATGAG +CGCCAGCGAGGGTGAACATGGTGGTTATAAAGAGATCATCGCCAAAATTAGCGGTGATGGTGTGTATGGT +CGTCTGAAATTTGAATCCGGCGGTCATCGCGTGCAACGTGTTCCTGCTACGGAATCGCAGGGTCGTATTC +ATACTTCTGCTTGTACCGTTGCGGTAATGCCAGAACTGCCTGACGCAGAACTGCCGGACATCAACCCAGC +AGATTTACGCATTGATACTTTCCGCTCGTCAGGGGCGGGTGGTCAGCACGTTAACACCACCGATTCGGCA +ATTCGTATTACTCACTTGCCGACCGGGATTGTTGTTGAATGTCAGGACGAACGTTCACAACATAAAAACA +AAGCTAAAGCACTTTCTGTTCTCGGTGCTCGCATCCACGCTGCTGAAATGGCAAAACGCCAACAGGCCGA +AGCGTCTACCCGTCGTAACCTGCTGGGGAGTGGCGATCGCAGCGACCGTAACCGTACTTACAACTTCCCG +CAGGGGCGCGTTACCGATCACCGCATCAACCTGACGCTCTACCGCCTGGATGAAGTGATGGAAGGTAAGC +TGGATATGCTGATTGAACCGATTATCCAGGAACATCAGGCCGACCAACTGGCGGCGTTGTCCGAGCAGGA +ATAATGGAATATCAACACTGGTTACGTGAAGCAATAAGCCAACTTCAGGCGAGCGAAAGCCCGCGGCGTG +ATGCTGAAATCCTGCTGGAGCATGTTACCGGCAGAGGGCGTACTTTTATTCTCGCCTTTGGTGAAACGCA +GCTGACTGACGAACAATGTCAGCAACTTGATGCGCTACTGACACGTCGTCGCGATGGTGAACCCATTGCT +CATTTAACCGGGGTGCGAGAATTCTGGTCGTTGCCGTTATTTGTTTCGCCAGCGACCTTAATTCCGCGCC +CGGATACGGAGTGTCTGGTGGAGCAGGCACTGGCGCGGTTGCCTGAACAACCTTGCCGTATTCTCGATCT +CGGGACGGGTACCGGGGCGATTGCGCTTGCGCTGGCTAGCGAGCGCCCGGACTGCGAAATTATCGCTGTA +GATCGTATGCCTGATGCTGTCTCCCTGGCACAACGTAATGCCCAGCATCTGGCGATCAAAAATATCCACA +TTCTGCAAAGCGACTGGTTTAGCGCGCTAGCCGGGCAGCAGTTTGCGATGATTGTCAGCAATCCGCCGTA +TATTGACGAGCAGGACCCTCATCTTCAACAAGGCGATGTCCGCTTTGAGCCGCTCACTGCGCTGGTTGCG +GCAGACAGTGGAATGGCAGACATCGTGCATATCATCGAACAGTCGCGTAACGCGCTGGTATCCGGCGGCT +TTCTGCTTCTGGAACATGGCTGGCAGCAGGGCGAAGCGGTGCGACAAGCATTTATCCTCGCGGGGTATCA +TGACGTCGAAACCTGCCGTGACTATGGTGATAACGAGCGCGTAACGCTCGGCCGCTATTATCAATGACAA +GTTTTTCTACACTGCTTAGTGTTCATCTTATTAGTATCGCGCTTTCTGTTGGGCTATTAACCTTACGTTT +CTGGCTACGTTATCAGAAGCATCCACAGGCATTTGCTCGCTGGACGCGCATTGTGCCGCCGGTTGTCGAT +ACGCTGTTACTGTTAAGCGGCATTGCGTTGATGGCTAAAGCGCACATCCTGCCATTTTCCGGGCAGGCAC +AGTGGCTGACTGAAAAGCTGTTTGGAGTTATCATTTATATCGTTTTGGGTTTTATTGCACTCGATTATCG +TCGTATGCACAGTCAGCAGGCGCGCATTATTGCCTTCCCGCTGGCGTTGGTGGTGCTGTACATCATCATT +AAACTCGCCACCACAAAAGTACCGTTACTGGGGTAAGTCATGAGATCGTTAGCTGATTTCGAATTTAATA +AAGCGCCATTGTGCGAAGGCATGATCCTGGCTTGCGAAGCAATCCGCCGCGATTTTCCCTCGCAAGATGT +TTACGACGAACTGGAGCGTCTCGTTAGTCTGGCGAAGGAAGAAATCAGCCAGCTTCTGCCTTTAGAAGAG +CAGTTGGAAAAACTGATCGCGCTGTTTTACGGCGACTGGGGATTTAAAGCCTCACGCGGTGTTTATCGTC +TTTCCGATGCATTATGGCTGGACCAGGTGTTAAAGAATCGACAGGGCAGTGCGGTATCATTAGGTGCGGT +TTTATTATGGGTCGCGAATCGTCTCGATTTGCCGCTGCTGCCGGTGATTTTCCCTACGCAGCTGATATTG +CGCATTGAATGTCCGGATGGCGAAATTTGGCTGATTAATCCTTTTAACGGTGAATCGTTAAGCGAACATA +TGCTGGACGTATGGTTAAAGGGAAATATCAGCCCGTCGGCGGAACTGTTTTATGAAGACCTTGATGAAGC +TGATAACATTGAGGTAATCCGCAAATTGCTGGATACACTCAAAGCCTCGTTGATGGAAGAAAATCAGATG +GAGCTGGCGTTACGCACCAGCGAAGCTTTATTACAATTCAACCCTGAAGATCCCTATGAAATTCGCGATC +GCGGGTTGATTTATGCGCAACTGGATTGCGAACACGTTGCGTTGAACGATTTAAGTTATTTCGTTGAACA +GTGTCCGGAAGACCCGATCAGCGAAATGATCCGTGCGCAAATAAATAACATCGCGCATAAACATATTGTG +CTGCATTAATTAATCGACATTTTACTCAAGATTAAGGCGATCCTATGAAACAAAAAGTGGTTAGCATTGG +CGACATCAACGTAGCAAATGACCTGCCGTTCGTACTGTTTGGCGGTATGAACGTGTTGGAATCTCGCGAT +CTGGCGATGCGCATTTGCGAGCACTACGTAACTGTGACCCAGAAACTGGGTATCCCTTACGTGTTCAAAG +CCTCTTTTGACAAAGCCAACCGCTCCTCCATCCACTCTTATCGTGGACCGGGCCTGGAAGAAGGGATGAA +AATCTTCCAGGAGTTGAAGCAGACTTTTGGCGTGAAAATTATCACCGACGTTCACGAACCAAGTCAGGCA +CAGCCCGTTGCTGATGTCGTGGATGTGATTCAGTTGCCGGCGTTTCTTGCTCGCCAGACTGACCTGGTTG +AAGCCATGGCGAAAACCGGTGCGGTAATTAACGTCAAGAAACCACAGTTTGTCAGCCCGGGACAGATGGG +TAATATCGTTGATAAATTCAAAGAAGGCGGCAACGAAAAAGTGATTCTTTGCGATCGCGGTGCTAACTTC +GGCTATGACAACCTGGTTGTCGATATGCTGGGCTTCAGCATTATGAAGAAAGTGTCTGGTAACTCGCCGG +TGATTTTCGACGTGACCCACGCACTGCAATGCCGCGATCCGTTTGGCGCAGCTTCCGGTGGTCGTCGTGC +TCAGGTGGCTGAGCTGGCACGAGCCGGTATGGCGGTAGGTCTGGCGGGGCTGTTTATTGAAGCGCATCCG +GATCCGGAACATGCGAAATGTGATGGTCCATCCGCGCTGCCGCTGGCTAAACTGGAACCGTTCCTCAAGC +AGATGAAAGCGATTGATGATCTGGTGAAAGGTTTCGAAGAACTGGATACCAGCAAGTAATCTTTTTTGCT +TGAAAAATAAAGTATTAGCGTTCTGCGTTAAGACTTTTTTCATGGGTGCCGGATACAAAAAAGGCCGCAG +GCTGTTACCCCTGCGGCCGGTTTCGGGCGCATATTGCCATCACGGCAGCCTGACGCCCGTTTTCACCTTA +CTTCCGGTTACGCCACCAGCTGACAATCGCTGCGGTAATAATTCCCGCCAGGATCGGTGCTGCCAGGTCG +TGCCAGAAAATCATGGCAAACTGCGCGAGCGTCATATAGCCGCCTTGTTGTAATGACAACATTTTGCGGC +TATTCTTGAATTGTTCTGGTTCAAGATTAGCCCCCGTTCTGTTGTCAGGTTGTACCTCTCAACGTGCGGG +GGTTTTCTCTTTCCAGCAACCAATGCCACCAGGGATAAAGCCCCCGCAACATTGCGCCTCACCGGATAAC +GCCGGCTTGGTGTGGATACTACGACTCAATTCATCTTCACTTCATCCCTGAAATGTTTGCAATGAAGAGT +GCATTCCGGTTTTTCAACAGCTGTTACAGTCATTTCATGAGTGCTCTGGATGAGGCTTCCAGCTCGGGTT +GCCAATATTTACTTGTGGAAGTGATAAAGACAAAAATGGCCGCAGGCTGTTACCCCTGCGGCCGGTTTCG +GGCGCATATTGCCATCACGGCAGCCTGACGCCCGTTTTCACCTTACTTCCGGTTACGCCACCAGCCGACA +ATCGCTGCGGTAATAATTCCCGCCAGGATCGGTGCCGCCAGGTCGTGCCAGAAAGTCATGGCAAACTGCG +CGAGCGTCATATAGCCGCCTTGTTGTAATGACAACATTTTGCGGCTATTCTTGAAGTGTCTGGTTTCAAG +ATTAGCCCCCGTTCTGTTGTCAGGTTTTACCTCTCAACGTGCGGGGGTTTTCTCTTTCCAGCAACCAATG +CCACCAGGGATAAAGCCCCCGCAACATTGCGCCTCACCGGATAATTCCGGCTTGGTGTGGATACTACGTC +TCAATTCATCTTCACTTCATCCCTGAAATGTTTGCAATAAAGAGTACATTCCGGCTTTTCAACAGCTGTT +GCAGTCGTTTCATGAGTGCTCTGGATGATGCTTCCAGCTCGGGTTGCCAATATTTACTTGTGGAAGAGAT +AAAGACAAAAATGGCCGCAGGCTGTTACCCCTGCGGCCGGTTTCGGGCGCATATTGCCATCACGGCAGCC +TGACGCCCGTTTTCACCTTACTTCCGGTTACGCCACCAGCTGACAATCGCTGCGGTAATAATTCCCGCCA +GGATCGGTGCTGCCAGGTCGTGCCAGAAAATCATGGCAAACTGCGCGAGCGTCATATAGCCGCCTTGTTG +TAATGACAACATTTTGCGGCTATTCTTGAAGTGTCTGGTTTCAAGATTAGCCCCCGTTTTGTTGTCAGGT +TTTACCTCTCAACGTGCGGGGGTTTTCTCTTTCCAGCAACCAATGCCACCAGGGATAAAGCCCCGCAACA +TTGCGCCTCACCGGATAACGCCGGCTTGGTGTGGATACTACGTCGCAATTCATCTTCACTTCATCCCTGA +AATGTTTGCAATGAAGAGTACATTCCGGCTTTTCAACAGCTGTTGCAGTGGTTTCGTGCAGGGTGTGGTA +CAGGCTCGCAATTCTGATTAACGACCTGTCCAGGTAGTATGAAGAAATACAATAAGCAGGAATTTATATT +ATCTCCCCCGATTACCGTCATCGGAGGAGATATAACTGTCAGGCAAATATCGTCATCAAATAGGCGGCAA +ACAGTGCCAGATGCGCTGCGCCATTGAGCACGTTAGTACGTCCGGTGGAGAAGGAGATATGGCACAGCAC +TAAAGAGGCCACCATCACCACCATTTCTGGCGCACCAAGTGCAAACTGCAATTCGTTACCCGTCATAAAG +GCAATTAGCGTGACGACAGGTACGGTAAGCGAAATGGTTGCTAACACTGAACCAAAGAACAGATTCATCG +CGCGCTGAACCTGGTTGTTCAACACTGCTTTTAATGCACCTAAACCTTCCGGCGACAGAATCAACAGTGC +CACCAGGAAGCCAGTAAAGGCGACAGGGGCATTCATGCTGTCGAGCAATGTCTCCAGCGAGCTGGCGTTC +ATTTTGGTCACCGCAATAACGGCAATCAGATGGATAATCAACCAGATAGCATGCCACAGGCTGCTATGGG +CAGACGGTTTACCGTGATGCGGGTCGTCATCATCACTGTCATCTTCGTGCTCGTAGACAAACAAACTTTG +ATGCGTTTTGGTCTGGATCAGCAAAAATACGCCATACATTGCCGCAGAAATTAATGCTACCAGTAACGCC +TGACCGGTTGAAAAATTCGCCGCAGGCAGAGCCATTGGAAATACCAGTACGATTATCGCCAGGGGGAACA +GCGCAATTAAATACTGCTTGATACCAAACAGATTCATATATTGGGTGGCAAACTTACGACCGCCCAACAA +TAATGAAAAGCCAACCAGCCCACCGGTAACAATCATAATGATTGAATAGAGCGTATCACGCATTAGCGTT +GGCGCGGCGTCGCCGGTTGCCATTAAAGCTGAAATCAAACTGACTTCAAGAATAACCACTGAAAGGCTAA +GAATAAGCGAACCGTAAGGTTCTCCCAGGCGATGGGCTAATACGTCCGCATGACGGACAACACTAAAGGC +GCTACTTAAAATACCAATAAGCGCAAGAAGATTGATGGCAATGACCACTGGTAGTGTCTGGCTGCTTCCC +CACAGGAACAGCACTACCAGCGCCAGAACCGGGAAAATAAGCGAAGTCTCCTTGTGGCGGGTTTTTACCG +CCTCTTGAGCATTTGACATTATGGTTATCCCTTTGCAGATGAATTTATCGAAAATGTAAAAAATAGGTAG +GAAAAATAACAGAAAGTGTCTGGATATCGGTAACATTTTACGAATTTTTACCCCGCTGTCGATTTTTTAC +TCATTGGGGCATAAAAATAAGTATTACGTTTAGACAATGTTTGTTTTAGCGTCTCTTAAGAAGAGTCTGA +CCTGAAAATTCTTATGTTTTGGCAAGAGTAGATATTGTTGACCACACTTAATGTTCAACTTTGTAAAAGG +AGTCAACGATGCCGTATAAAACGAAAAGCGATCTGCCGGAAAGCGTAAAGCACGTTCTACCGTCTCATGC +CCAGGATATCTATAAAGAAGCGTTCAACAGCGCATGGGATCAATATAAAGATAAAGAAGATCGGCGTGAT +GACGCCAGTCGCGAAGAAACCGCGCATAAAGTGGCCTGGGCTGCTGTGAAGCATGAATATGCCAAAGGGG +ATGATGATAAATGGCATAAAAAATCGTAAAACCGGTCGCTTAGTTAAAGCTATTCGTGCGGTGTTGCCTT +GCAAGTGGTCCGTGGATTGCATATTGTCCCGTTAGTGGTTTCAAAATGAGCAGTAAAAATGTCCGGAAGA +CACCAAAAAGTTGTCGCAGGGAAGTATGCAGTGGCGGAAGTGTAAGGTGATAACGCGTGATTTCTTGATG +AATGCCGATTGTAAAACGGCATTTGGTGCCATTGAAGAATCACTCTTATGGTCAGCAGAACAACGGGCGG +CTTCGCTGGCGGCGACGCTGGCTTGTCGACCTGATGAGGGACCGGTGTGGATCTTCGGCTATGGATCGTT +GATGTGGAATCCGGCACTGGAGTTTACCGAATCGTGCACCGGTACACTGGTTGGATGGCATCGCGCATTT +TGCCTGCGCCTGACCGCCGGGCGCGGGACTGCGCACCAGCCGGGACGGATGCTTGCACTGAAAGAGGGCG +GACGCACCACAGGCGTCGCCTATCGACTGCCAGAAGAGACGCTGGAGCAGGAACTAACCCTGTTGTGGAA +GCGAGAGATGATTACCGGCTGTTATCTGCCAACCTGGTGTCAGCTTGATCTTGATGATGGACGCACAGTA +AACGCCATTGTGTTTATTATGGACCCGCGACATCCAGAATATGAATCTGATACTCGCGCTCAGGTCATCG +CGCCGTTGATTGCGGCGGCGAGCGGTCCGCTGGGAACCAACGCACAATACCTGTTTTCACTGGAACAGGA +GCTTATCAAACTGGGAATGCAGGACGATGGGCTGAATGATTTGCTGGTATCGGTAAAAAAACTGCTGGCG +GAGAATTTTCCGGATGGTGTGTTACGTCCGGGATTCGCCTGAGTAAACTTCCCGCATAGTGGGGCGTCAG +ACGCCCCCTCAAACATTAAAATGTGAGCACTTTATCGGCTGACAGCGTCCATTGCGCCAGTTCCACAAGA +GTACCGATTTCCACCCCATCAATCAGAGGAAGTGTACTAATCCCGCGCCCGTCGGTACAGGTTTTGCACA +ATTTCACCGGTACATTCTGAGCGGTAAGGATCTCCAGCATTTGCTGAATGTTGTAGCCTTCCCCTGGTTT +TTGCCCGCGCAACCCGGCTGTGACCGCATCAGACATGAGGAACAGACGCAGATCCAGATTGCTCTCCTGC +TCTCGTAACGCAATGGCCAGCCGCAAGCTGTTAAACAAGGATTCGCTCCCGTAAGGTGCGCCATTGGCAA +CGATCACGATTTTTTGCATTATTTACTCCTGTATTCAGGGAATTAGACACTCATCTTCTATCTTACTGCT +TCTGCAGCGTCTGACCAATCGGTCACATTTTTAAGGATTTTCCTGAAAGCGCGAGAAAATACGACAAAAG +TTGCCAGTAATCGTTATTCTTTAAGGCTATGGTTTTTCATTATTACCGGAAGTTACCGACGTTTTGAGCC +GTTTCGTTCCTCGCATTATCCCGTTTTATTTACTCTTGCTTGTAGCAGGCGGTACAGCTAACGCACAATC +TACCTTCGAGCAAAAAGCGGCAAATCCCTTTGATAATAACAATGATGGTCTGCCGGATTTAGGCATGGCT +CCCGAAAATCATGATGGGGAAAAACACTTTGCTGAAATTGTGAAAGATTTCGGCGAAACCAGTATGAATG +ATAACGGGCTGGATACTGGCGAGCAGGCAAAAGCTTTCGCATTGGGAAAAGTCCGCGACGCGCTTAGTCA +ACAGGTTAATCAGCACGTAGAGTCCTGGCTATCACCGTGGGGAAATGCCAGTGTTGACGTCAAAGTGGAT +AACGAAGGACATTTCACCGGCAGTCGTGGAAGCTGGTTTGTGCCGTTACAAGATAATGATCGTTATCTCA +CCTGGAGCCAGCTTGGTCTTACTCAGCAGGATAATGGGTTGGTGAGCAATGTGGGCGTTGGGCAACGCTG +GGCGCGCGGCAACTGGCTGGTGGGTTATAACACTTTTTATGACAACTTGCTGGACGAAAATCTTCAGCGA +GCGGGCTTTGGTGCCGAAGCGTGGGGCGAATATTTGCGATTATCGGCAAACTTTTATCAGCCGTTTGCTG +CATGGCATGAACAGACAGCCACGCAGGAACAACGGATGGCGCGCGGGTACGACCTGACAGCTCGGATGCG +CATGCCGTTCTATCAACACCTCAATACCAGTGTCAGCCTAGAACAGTATTTTGGTGATCGTGTTGATTTG +TTTAACTCTGGTACGGGTTATCACAATCCCGTCGCGTTGAGTCTGGGATTAAATTACACCCCTGTGCCAT +TAGTCACTGTGACGGCCCAGCATAAACAGGGTGAAAGTGGCGAAAATCAAAATAACCTCGGGCTGAATCT +TAATTACCGCTTTGGTGTACCGCTCAAAAAACAACTTTCTGCGGGCGAGGTTGCCGAAAGTCAGTCGTTA +CGTGGTAGTCGCTATGACAATCCGCAGCGAAATAATCTACCGACTCTTGAGTACCGACAGCGAAAAACGT +TAACGGTGTTTCTGGCGACACCGCCGTGGGATCTAAAACCTGGCGAAACAGTGCCGCTGAAATTACAAAT +CCGCAGTCGTTACGGTATTCGGCAACTGATTTGGCAGGGCGATACGCAGATATTAAGTTTGACGCCGGGC +GCACAAGCCAACAGCGCGGAGGGCTGGACGCTGATCATGCCTGACTGGCAGAACGGGGAAGGGGCAAGCA +ATCACTGGCGATTGTCTGTGGTGGTGGAAGATAACCAGGGGCAGCGTGTCTCCTCCAATGAGATCACGCT +AACGCTTGTCGAACCGTTCGATGCATTGTCAAACGACGAACTGCGCTGGGAACCGTAATCAGAAAATGCG +CTCCTGATGCACCCATACCGCTGCTTCCACGCGAGACTTGAGCTTCATTTTCTTCAGCATGTGCTTGACG +TGCACTTTTACTGTGCTTTCGGTGATATCCAGGCGGCGGGCAATCATCTTGTTCGGCAAACCCTGGGCAA +TCAGCTTGAGAATATCGCGCTCGCGTGGGGTTAACTGGTTAACATCGCGCTCAGTAGTGGCACGGTTAGC +GCGCAAGCTGGCGGCCAGAACAGGCGTTAATGCTTCGCTTAATACCATTTCGCCAGCAGCTGCCTGATGC +AATGCTTTCAGCAGATCTTCCGGTTCCATATCTTTTAACAGATAGCCATCCGCGCCGCGTTTCAGTGCGG +TGACCACATCTTCTTCATGGTTAGAGACGCTGAATACCACAATGCGCCCTGAGAGGGACTTTTCGCGCAG +TTTATCCAGCGTTTCCAGACCGTTCATGCCGGGCATATTGAGATCTAACAGGATCAGATCGGGATCAAGA +GACTCCGCCAGTTCAATACCCTGTTCGCCATTACTCGCTTCGCCAACCACGGTGATATCTGGTGCCATAC +TGATAAGCTGTTTTACGCCAGTTCGCAGCATCGGGTGATCGTCAATCAGCAGGATAGTAGCCGGTTCCTG +ATTACTCATGGGTATCTCCTTGGACGTCTGTGAAAGTTTTTTCGGGAATAAAGGTGACCACCACTTCGGT +GCCACCTGATTCACGACGGCGGACGCGGCAATCGCCTCGTAAACTTTGCGCACGATCGCGCATTATTATC +ATGCCGTAGTGATTGCTGCGGATGGCATTTTCAGGCACGCCGCAGCCGTTATCCTGGACGGTCAGTTTGA +CCTGATTATCGTTTTGCGCCACCGTCACCACGACTTCACTCGCTTGCGAATGTTTGAGGGCGTTACTTAA +TGCCTCACGGGCAATTTGCAACAAGTGGATTGCCTGATGCGAAGGCACCAGGCGAGGCGGCAATTGATAA +TCCAGCTTCACCGGGAAGCCAAATTTGGCGCTGTACTCTTCGCAACTCGCCTCCAGCGCCGGACGTAATC +CAGGCTCGGTGAGCTGCAAGCGGAATGTGGTGAGCAATTCACGCAACTGCGCCCAGGATGCATTCAGTTC +GTTACGGATCTGACTTAACAGTTCGCGGCTGCTTTCTGGCAGCGCATCGCCCTGCATCTGTAAACAACTC +ACCTGCATCTTCATGCAAGAGAGAGATTGGGCAATAGAATCATGCAGTTCGCGCGCAATGGTGGCACGCT +CTTCCATCACGATCAACTGTTGCTGACGTTCCTGATGGCGATCCAGCGCCAGCGTGGCGGTGAGTTGTTC +AACCAGGGTATCCACCAGTTGTTGTTGATCATGGCTAAGATGACGCCCCTGCGGCAGGGTCGCCAGCAAA +ATACCGTACTGCGTATGAGAGTCAGCCAGCCGCCACTTCAGGGTCGTGCCGCGATCACCAACGGGTAATA +CGCCGCGCGGGCAGAGCTGGCAGCCTTTATCATCACAAGTCATATCTGGCTGGCAGGTAAACTCCTGATG +ATTCTCTTCATCATCAGTGTCATACACCCGCAATTCGATATCACGTAGCAGGGTTAAATTCTGTAAGCCG +TTGAGTACAGGTGACAGGCGTTCACACAGCGGGGCGCGGGAATGCAAACGGCGGTTAGCCTGCCATAAAA +AAGAGAGGATCTGATTTTTATGCTCCAGCCCGGCGGTTTTCTCCTGAACCCGCTGCTCAAGTACGGCATA +ACTTTCGGCCAGTTCTGCAGACATATTGTTCAACGCAGTTCCAAGCATCGCCATTTCGTTGCGCCCGCTG +ATGTTTGCGCGTTGGGTAAAATCGCGATGACTGACGGCACTCGCCATTGCCAGCAGTTGCCGCCACGGTT +GTAGCAGTCGCGCCCGCAACCAGATAATAGTGAACACCAGTAAAAGTGCCATAAATACCGCCATTACCCG +ATGGACCAGTACCACTGTCTCGATGCGCATTTCCGTGGTGCGGTCAAAACCAGATACCAGTTGATCAAGC +CCGGCAACAAACTGGCTGACATCCGCTGACACCGTTTCTCGGTTTTGTGCACGCATCAGCGCAGGGATCA +GTTCATTACGCCAGTAATCTTGTAAACCCTGTAATTGCGCCAGTTGTCCGTCTCGTTCTGCTGCTCGAGT +CAACTCGGCGCTAAATGCCGTTTGTTCCATCTCTTTAATTAAGGGCTTGTCTTTCTCGCTTAATGGCACT +GCCGCCAACAGACGGTAACTTTGCATGCGCAGCGATCCCGCTTTGTTGATCGCATGGGCGCTGCCCTGAA +CGCCTTGCACCAGCCAGCCAGAAACCGCCATCCCTGCCAGTCCAATAGCAGTAGAAAGCAACACAATAAG +CGCAACCTGATTAACCAGGGTGAGCGGAGAGAGACAACGTTTAAGCATGTAAACCTCTTCCTTCAGGCTT +TAAATGAGCAATAACCTTAATGAATGTGACGATACATTCTGGAATGGCAGTATTCTCGGCTATTGGCTGA +AGTATACCCATACCCGGAAAGAGTTACTCCTTATTTGCCGTGTGGTTAGTCGCTTTACATCGGTAAGGGT +AGGGATTTTACAGCACCGTGAAAAATCTCATAATTTTTATGAAGTCACTGTACTCACTATGGGTAATGAT +AAATATCAATGATAGATAAAGTTATCTTATCGTTTGATTTACATCAAATTGCCTTTAGCTACAGACACTA +AGGTGGCAGACATCGAAACGAGTATCAGAGGTGTCTATGAGTCACTCATCCGCCCCCGAAAGGGCTACTG +GAGCTGTCATTACAGATTGGCGACCGGAAGATCCTGCGTTCTGGCAACAACGCGGTCAACGTATTGCCAG +CCGCAACCTGTGGATTTCCGTTCCCTGTCTGCTGCTGGCGTTTTGCGTATGGATGTTGTTCAGCGCTGTT +GCGGTGAACCTACCGAAAGTCGGCTTTAATTTTACGACCGATCAGCTATTTATGTTGACTGCGCTGCCTT +CGGTTTCTGGCGCGTTATTACGTGTTCCATACTCCTTTATGGTTCCTATCTTCGGTGGTCGTCGCTGGAC +GGCGTTCAGCACCGGTATTCTGATTATTCCTTGCGTCTGGCTGGGTTTTGCCGTGCAGGATACCTCCACG +CCTTATAGCGTCTTCATCATCATCTCTCTGCTATGCGGCTTTGCTGGCGCGAACTTCGCATCCAGTATGG +CAAACATCAGCTTCTTCTTTCCGAAACAGAAGCAGGGTGGCGCGCTGGGTCTGAATGGTGGTCTGGGAAA +CATGGGCGTCAGCGTCATGCAGTTGGTTGCTCCGCTGGTGGTATCACTGTCGATTTTCGCAGTATTTGGT +AGCCAGGGCGTCAAACAGCCGGATGGGACTGAGCTGTATCTGGCGAATGCGTCCTGGATATGGGTGCCGT +TCCTTGCCATCTTCACCATTGCGGCGTGGTTTGGCATGAACGATCTTGCTACCTCGAAAGCCTCCATCAA +GGAGCAGTTGCCGGTACTCAAACGGGGTCATCTGTGGATTATGAGCCTGCTGTATCTGGCAACCTTCGGC +TCCTTCATCGGCTTCTCCGCGGGCTTTGCAATGCTGTCAAAAACGCAGTTCCCGGATGTTCAGATTCTGC +AATACGCTTTCTTCGGGCCGTTTATTGGTGCGCTGGCGCGTTCTGCAGGTGGTGCATTATCTGACCGTCT +GGGCGGAACTCGTGTCACGCTGGTGAACTTTATTCTGATGGCGATTTTCAGCGGCCTGCTGTTCCTGACC +TTACCGACTGACGGGCAGGGCGGAAGCTTCATGGCGTTCTTCGCGGTCTTCCTGGCGCTGTTCCTGACAG +CTGGGCTGGGTAGTGGTTCCACTTTCCAGATGATTTCAGTGATCTTCCGTAAACTGACAATGGATCGCGT +GAAAGCAGAAGGGGGTTCTGACGAACGTGCGATGCGTGAAGCGGCAACCGACACGGCGGCGGCGCTGGGT +TTCATCTCTGCGATTGGCGCGATTGGTGGCTTCTTTATCCCGAAAGCGTTTGGTAGCTCGCTGGCATTAA +CGGGTTCGCCAGTCGGCGCAATGAAGGTATTTTTGATTTTCTATATCGCCTGCGTAGTGATTACCTGGGC +GGTATATGGTCGGCATTCTAAAAAATAAACCGTTACTCGTCATACTTCGGGTTACATGTGCTGCGGCTGC +GTTCATTCACCCCAGTCACTTACTTTAGTAAGCTCCTGGGATTCATTCACTTGCCGCCTTCCTGTAAACC +GAATTATATAGAGTAAAATATTTGATTATCCTTTGCGCGGCATGATGTCGCGCTTTTTTTATGCGTCATT +TAGTTACAACATACTAATGTTATATGGTTTATTTCGCCGGATTTCATTAAGAGCCATTAATATGTTACCC +ATGGGGAATACTCCTTAATACCCATCTGCATAAAAATCTTAATAGTTTAAATAACTACAGGTATAAAACG +TCTTAATTTACAGTCTGTTATGTGGTGGCTGTTAATTATCCTAAAGGGGTATCTTAGGAATTTACTTTAT +TTTTCATCCCCATCACTCTTGATCGTTATCAATTCCCACGCTGTTTCAGAGCGTTACCTTGCCCTTAAAC +ATTAGCAATGTCGATTTATCAGAGGGCCGACAGGCTCCCACAGGAGAAAACCGATGAGTAAATTCCTGGA +CCGGTTTCGCTACTTCAAACAGAAGGGTGAAACCTTTGCCGATGGGCATGGCCAGCTTCTCAATACCAAC +CGTGACTGGGAGGATGGATATCGCCAGCGTTGGCAGCATGACAAAATCGTCCGCTCTACCCACGGGGTAA +ACTGCACCGGCTCCTGCAGCTGGAAAATCTACGTCAAAAACGGTCTGGTCACCTGGGAAACCCAGCAGAC +TGACTATCCGCGTACCCGTCCGGATCTGCCAAACCATGAACCTCGCGGCTGCCCGCGCGGTGCCAGCTAC +TCCTGGTATCTTTACAGTGCCAACCGCCTGAAATACCCGATGATGCGCAAACGCCTGATGAAAATGTGGC +GTGAAGCGAAGGCGCTGCATAGCGATCCGGTTGAGGCATGGGCTTCTATCATTGAAGACGCCGATAAAGC +GAAAAGCTTTAAGCAGGCGCGTGGACGCGGTGGATTTGTTCGTTCTTCCTGGCAGGAGGTGAACGAACTG +ATCGCCGCATCTAACGTTTACACCATCAAAAACTACGGCCCGGACCGTGTTGCTGGTTTCTCGCCAATTC +CGGCAATGTCGATGGTTTCTTACGCATCGGGTGCACGCTATCTCTCGCTGATTGGCGGTACTTGCTTAAG +CTTCTACGACTGGTACTGCGACTTGCCTCCTGCGTCTCCGCAAACCTGGGGCGAGCAAACTGACGTACCG +GAATCTGCTGACTGGTACAACTCCAGCTACATCATCGCCTGGGGGTCAAACGTGCCGCAGACGCGTACCC +CGGATGCTCACTTCTTTACTGAAGTGCGTTACAAAGGGACCAAAACTGTTGCCGTCACACCAGACTACGC +TGAAATCGCCAAACTGTGCGATCTGTGGCTGGCACCGAAACAGGGCACCGATGCGGCAATGGCGCTGGCG +ATGGGCCACGTAATGCTGCGTGAATTCCACCTCGACAACCCAAGCCAGTATTTCACCGACTATGTGCGTC +GCTACACCGACATGCCGATGCTGGTGATGCTGGAAGAACGCGACGGTTACTACGCTGCAGGTCGTATGCT +GCGCGCTGCTGATCTGGTTGATGCGCTGGGCCAGGAAAACAATCCGGAATGGAAAACTGTCGCCTTTAAT +ACCAATGGCGAAATGGTTGCGCCGAACGGTTCTATTGGCTTCCGCTGGGGCGAGAAGGGCAAATGGAATC +TTGAGCAGCGCGACGGCAAAACTGGCGAAGAAACCGAGCTGCAACTGAGCCTGCTGGGTAGCCAGGATGA +GATCGCTGAGGTAGGCTTCCCGTACTTTGGTGGCGACGGCACGGAACACTTCAACAAAGTGGAACTGGAA +AACGTGCTGCTGCACAAACTGCCGGTGAAACGCCTGCAACTGGCTGATGGCAGCACCGCCCTGGTGACCA +CCGTTTATGATCTGACGCTGGCAAACTACGGTCTGGAACGTGGCCTGAACGACGTTAACTGTGCAACCAG +CTATGACGATGTGAAAGCTTATACCCCGGCCTGGGCCGAGCAGATTACCGGCGTTTCTCGCAGCCAGATT +ATTCGCATCGCCCGTGAATTTGCCGATAACGCTGATAAAACGCACGGTCGTTCGATGATTATCGTCGGTG +CGGGGCTGAACCACTGGTATCACCTCGATATGAACTATCGTGGTCTGATCAACATGCTGATTTTCTGCGG +CTGTGTCGGTCAGAGCGGGGGCGGCTGGGCGCACTATGTAGGTCAGGAAAAACTGCGTCCGCAAACCGGC +TGGCAGCCGCTGGCGTTTGCCCTTGACTGGCAGCGTCCGGCGCGTCACATGAACAGCACTTCTTATTTCT +ATAACCACTCCAGCCAGTGGCGTTATGAAACCGTCACGGCGGAAGAGTTGCTGTCACCGATGGCGGACAA +ATCCCGCTATACCGGACACTTGATCGACTTTAACGTCCGTGCGGAACGCATGGGCTGGCTGCCGTCTGCA +CCGCAGTTAGGCACTAACCCGCTGACTATCGCTGGCGAAGCGGAAAAAGCCGGGATGAATCCGGTGGACT +ATACGGTGAAATCCCTGAAAGAGGGTTCCATCCGTTTTGCGGCAGAACAACCAGAAAACGGTAAAAACCA +CCCGCGCAACCTGTTCATCTGGCGTTCTAACCTGCTCGGTTCTTCCGGTAAAGGTCATGAGTTTATGCTC +AAGTACCTGCTGGGGACGGAGCACGGTATCCAGGGTAAAGATCTGGGGCAACAGGGCGGCGTGAAGCCGG +AAGAAGTGGACTGGCAGGACAATGGTCTGGAAGGCAAGCTGGATCTGGTGGTTACGCTGGACTTCCGTCT +GTCGAGCACCTGTCTCTATTCCGACATCATTTTGCCGACGGCGACCTGGTACGAAAAAGACGACATGAAT +ACTTCGGATATGCATCCGTTTATTCACCCGCTGTCTGCGGCGGTCGATCCGGCCTGGGAAGCGAAAAGCG +ACTGGGAAATCTACAAAGCCATCGCGAAGAAATTCTCCGAAGTGTGCGTCGGCCATCTGGGTAAAGAAAC +CGACATCGTCACGCTGCCTATCCAGCATGACTCTGCCGCTGAACTGGCGCAGCCGCTGGATGTGAAAGAC +TGGAAAAAAGGCGAGTGCGACCTGATCCCAGGTAAAACCGCGCCACACATTATGGTCGTAGAGCGCGATT +ATCCGGCGACTTACGAACGCTTTACCTCTATCGGCCCGCTGATGGAGAAAATCGGTAATGGCGGTAAAGG +GATTGCCTGGAACACCCAGAGCGAGATGGATCTGCTGCGTAAGCTCAACTACACCAAAGCGGAAGGTCCG +GCGAAAGGCCAGCCGATGCTGAACACCGCAATTGATGCGGCAGAGATGATCCTGACACTGGCACCGGAAA +CCAACGGTCAGGTAGCCGTGAAAGCCTGGGCTGCCCTGAGCGAATTTACCGGTCGTGACCATACGCATCT +GGCGCTGAATAAAGAAGACGAGAAGATCCGCTTCCGCGATATTCAGGCACAGCCGCGCAAAATTATCTCC +AGCCCGACCTGGTCTGGTCTGGAAGATGAACACGTTTCTTACAACGCCGGTTACACCAACGTTCACGAGC +TGATCCCATGGCGTACGCTCTCTGGTCGTCAGCAACTGTATCAGGATCACCAGTGGATGCGTGATTTCGG +TGAAAGCCTGCTGGTTTATCGTCCGCCGATCGACACCCGTTCGGTGAAAGAAGTGATAGGCCAGAAATCC +AACGGCAACCAGGAAAAAGCGCTCAACTTCCTGACGCCGCACCAGAAGTGGGGTATCCACTCCACCTACA +GCGACAACCTGCTGATGCTGACTTTAGGTCGCGGTGGTCCGGTGGTCTGGTTGAGTGAAGCCGATGCCAA +AGATCTGGGTATCGCCGATAACGACTGGATTGAAGTCTTCAACAGCAACGGTGCTCTGACTGCCCGTGCG +GTTGTCAGCCAGCGTGTTCCGGCAGGGATGACCATGATGTACCACGCGCAGGAACGTATCGTTAACCTGC +CTGGTTCGGAAATTACCCAACAGCGTGGTGGTATCCATAACTCGGTCACCCGTATCACGCCGAAACCGAC +GCATATGATCGGCGGCTATGCCCATCTGGCATACGGCTTTAACTACTATGGCACCGTAGGTTCTAACCGC +GATGAGTTTGTTGTAGTGCGTAAGATGAAGAACATTGACTGGTTAGATGGCGAAGGCAATGACCAGGTAC +AGGAGAGCGTAAAATGAAAATTCGTTCACAAGTCGGCATGGTGCTGAATCTCGATAAGTGCATCGGCTGC +CACACCTGTTCAGTTACCTGTAAAAACGTCTGGACCAGCCGTGAAGGCGTGGAATATGCGTGGTTCAACA +ACGTGGAAACCAAGCCGGGCCAGGGCTTCCCGACTGACTGGGAAAACCAGGAAAAATACAAAGGCGGCTG +GATCCGTAAAATCAACGGCAAACTGCAGCCGCGCATGGGTAACCGTGCCATGCTGCTGGGTAAAATCTTC +GCTAACCCGCATCTGCCGGGGATCGACGATTATTACGAGCCGTTCGATTTTGACTATCAGAACCTGCATA +CCGCGCCGGAAGGCAGCAAATCGCAGCCGATTGCCCGTCCGCGTTCGCTGATTACCGGGGAACGGATGGC +GAAAATCGAAAAAGGGCCGAACTGGGAAGATGACCTGGGCGGTGAGTTTGACAAACTGGCGAAAGACAAG +AACTTCGACAACATCCAGAAGGCGATGTATAGCCAGTTCGAAAACACCTTCATGATGTATTTGCCGCGCC +TGTGCGAACACTGCCTGAACCCGGCATGTGTGGCGACCTGCCCGAGCGGTGCGATTTACAAGCGTGAAGA +AGATGGCATCGTCCTGATCGACCAGGATAAATGCCGTGGCTGGCGTATGTGCATCACTGGATGCCCGTAC +AAAAAAATCTACTTCAACTGGAAGAGCGGTAAGTCTGAGAAGTGCATCTTCTGCTATCCGCGTATTGAAG +CGGGTCAGCCGACCGTGTGCTCAGAAACCTGTGTCGGTCGTATCCGTTATCTTGGCGTGCTGTTGTACGA +TGCCGACGCTATTGAACGTGCAGCCAGCACCGAGAACGAGAAAGATCTTTACCAGCGTCAGCTGGACGTG +TTCCTCGATCCGAACGATCCGAAAGTCATCGAGCAGGCGATTAAAGACGGTATTCCGCTGAGCGTTATTG +AAGCCGCACAGCAGTCGCCGGTTTATAAAATGGCAATGGAATGGAAACTGGCGCTGCCGCTGCATCCGGA +ATATCGCACACTGCCGATGGTCTGGTACGTGCCGCCTCTGTCTCCGATTCAGTCTGCAGCAGACGCGGGT +GAGCTGGGTAGCAACGGCATTCTGCCAGACGTCGAAAGCCTGCGTATTCCGGTACAGTATCTGGCGAATC +TGCTGACCGCCGGTGATACCAAACCGGTACTGCGCGCACTGAAACGTATGCTGGCGATGCGTCATTACAA +ACGTGCTGAAACCGTTGACGGTAAAGTTGATACCCGTGCGCTGGAAGAGGTCGGTCTGACCGAAGCCCAG +GCACAGGAGATGTACCGTTATCTGGCGATTGCTAACTACGAAGATCGCTTTGTGGTGCCGAGTAGTCATC +GTGAACTGGCACGGGAAGCCTTCCCGGAGAAAAATGGCTGCGGCTTTACCTTTGGTGATGGCTGCCACGG +TTCAGATACCAAATTCAATCTGTTCAACAGCCGTCGTATCGATGCCATCGATGTGACCAGCAAAACGGAG +CCGCATCCATGATCGAACTCGTGATTGTATCGCGTCTCCTTGAATATCCGGATGCTGCCTTATGGCAGCA +TCAACAAGAGATGTTTGAGGCGATTGCCGCGTCGAAAAATCTGCCAAAAGAGGATGCCCATGCGCTGGGC +ATTTTCCTGCGCGATTTAACGACGATGGATCCGCTCGATGCCCAGGCGCAGTACAGCGAACTGTTCGACC +GTGGCCGCGCCACGTCACTGTTGCTGTTTGAACATGTGCACGGCGAATCCCGCGACCGCGGCCAGGCGAT +GGTGGACCTGCTGGCGCAGTACGAGCAGCACGGCTTGCAGTTAAACAGCCGCGAATTGCCGGACCATCTG +CCGCTGTATCTGGAGTACCTGGCGCAGCTGCCGCAAAGCGAAGCCGTGGAAGGTTTGAAAGATATCGCGC +CGATTCTGGCATTGCTGAGCGCGCGTCTGCAACAGCGTGAAAGCCGTTATGCCGTGCTGTTTGATCTGCT +GCTGAAACTGGCGAATACCGCTATCGACAGCGACAAAGTGGCGGAAAAAATTGCCGACGAAGCGCGCGAT +GATACGCCGCAGGCGCTGGATGCTGTCTGGGAAGAAGAGCAGGTTAAATTCTTTGCTGACAAAGGCTGCG +GTGATTCAGCAATCACTGCGCATCAGCGTCGCTTTGCCGGTGCCGTCGCGCCGCAATATCTGAATATCAC +CACCGGAGGACAGCACTAATGCAATTCCTGAATATGTTCTTCTTTGATATCTACCCGTACATAGCCGGGG +CGGTCTTCCTGATTGGTAGCTGGCTGCGTTATGACTACGGGCAGTACACCTGGCGCGCGGCGTCCAGCCA +GATGCTGGATCGCAAAGGGATGAACCTGGCGTCGAACCTGTTCCATATCGGGATTCTGGGGATTTTTGTC +GGTCACTTCTTCGGTATGCTGACGCCGCACTGGATGTATGAAGCCTGGCTGCCGATTGAAGTGAAACAGA +AAATGGCAATGTTTGCTGGTGGTGCCAGCGGCGTGCTGTGTCTGATTGGCGGCGTGCTGTTGCTGAAACG +TCGTCTGTTCAGCCCACGCGTGCGTGCAACCACTACCGGAGCGGATATCCTGATCCTGTCGCTGCTCGTT +ATCCAGTGCGCGCTGGGCCTGTTGACCATTCCGTTCTCCGCTCAGCATATGGACGGTAGCGAGATGATGA +AACTGGTTGGCTGGGCGCAGTCGGTGGTGACCTTCCACGGTGGCGCTTCTCAACACCTCGATGGTGTGGC +GTTTATCTTCCGTCTGCACCTGGTGCTGGGGATGACGTTATTCCTGCTGTTCCCGTTCTCGCGTCTGATA +CACATCTGGAGCGTACCGGTGGAGTATCTGACACGTAAGTACCAGCTGGTGCGCGCTCGTCACTAAGCGA +ATTTTAGTTCACATAGACCCTGCTTCGGCGGGGTTTTTTTATGGGCACGGTGCGGGGTGAGTTGTCGGAT +GCGCTTCGCTTATCCGACCTACAGGGGAGGATATTGTAGGCCCGGTAAACGTGGTGCCATCGGGCAAAAT +TAGCTCGGAGTAACAGGTTTTGATTATTTAAGGAAGCGATGGTGGTGGGGGAAGGATTACTCAGCGCTGC +GCGCTTCGCCCTTCGGGTCGTTGCCTGCGGCAACGCTCTCTCGCTGGCGCTCAAGTCGAACCTTGGTCGA +AGCTTCTCATCCTTCCCCGCTTGGGCAGAATATTTGATTGCGGATTCGTTTGAGAATTCCGGGGCTTTTG +AAAGTGATGGTGGTGGGGGAAGGATTACTCAGCGCTGCGCGCTTCGCCCTTCGGGTCGTTGCCTGCGGCA +ACGCTCTCTCGCTGACGCTCGAGCCGAACCTTAGTCGAAGCTTCTCATCCTTCCCCGCATGGGCAGAATA +TTTGATTGCGGATTCGCTTGAGAGTTCAGGGACTTTTGAAAGTGATGGTGGTGGGGGAAGGATTACTCAG +CGCTGCGCGCTTCGCCCTTCGGGTCGTTGCCTGCGGCAACGCTCTCTCGCTGGCGCTCGAGTCGAACCTT +GGTCGAAGCTTCTCATCCTTCCCCGCATGGGCAGAATATTTAATTGCGGATTCGTTGGGAAGTTCAGGGA +CTTTTGAAAGTGATGGTGGTGGGGGAAGGATTCGAACCTTCGAAGTCGATGACGGCAGATTTACAGTCTG +CTCCCTTTGGCCGCTCGGGAACCCCACCAGGGGTAATTCAAATTTTGAGGTAATGCTTGAGATGGTGGTG +GGGGAAGGATTATTCGTCGCTTCGCTCCTCACCCTTCGGGCCGTTGCCTGTGGCAACGTTCTCTCGCTTT +CGCTCGAATCGAACCTTAGTCGAAGGTTCTCACCCTTCCCCGATGAGTGCAAACTTTCACAATCTCACCG +AAGTTACCACATCGCTGTGGTGAATTATGGTGGTGGGGGAAGGATTCGAACCTTCGAAGTCGATGACGGC +AGATTTACAGTCTGCTCCCTTTGGCCGCTCGGGAACCCCACCACGGGGTAATGCTTTTTACTGGCCTGCT +CCCTTATCGGGAAGCGGGGCGCATCATATCAAATGACGCGCCGCTGTAAAGTGTTACGTTGAGAAAAATG +AACTGGTTGCGTAATTTTCATCCGTAACGGATTAAAGGTAACCAGTTATTTTTGCTGGCGATTAAAGAAT +AATCGTTCGATTACCGTAAACAAAGACGCGCTGTGCCAGTACTTTGTATAGTGCACGACTTAAGACGTTT +TTCTCGACGTCACGACCTGCGCGCATCATATCTTCAGCTGTGTAGGTATGATCGACATGAATAACGTCCT +GCATGATGATTGGGCCTTCGTCCAGATTGTCATTCACATAGTGAGCGGTTGCGCCAATAATCTTCACACC +ACGTTCATAGGCCTGGTGATAAGGACGTGCGCCAATAAACGCTGGCAGGAATGAATGGTGAATATTGATG +ATCTTATTCGGGAAGCGTGCCACAAATTCCGGCGTTAATACCCGCATATACTTCGCCAGCACCACGTAGT +CAGGTTGATAAGCATCAATGGCATCCGCCATCTTTTGATCGTGCTCGTTGCGGGTTAACCCTTCATGGCT +TACCAGCTCAAACGGAATATCAAAACGCTCAACCAGAGAACGTAAAGTATCGTGGTTACCAATAACTGCC +GCGATTTCGACATCCAGGCCGCCGTAATTGGCTTTCATCAACAAATCGCCAAGGCAATGCGCTTCTTTAG +TGACCAGAATCACTATCCGGCGACGACCGGCAGGATTCAGCTCACGCACGGAGCCTTCTGGCAATGCGCT +ATCGAGATCCGCCAGCAGGGTGGAATCATTAAAAATCCCTTCCAGTTCCGTGCGCATAAAAAAGCGCCCG +GTACGGTGATCAACAAATTCATTGTTCTGTACGATATTTAACTCGTGCTTGTAGCAAATATTGGTAATAC +GTGCGATCAGACCTTTTTGGTCCGGACAAATAGTACGCAGAACTTTACGTTGGAGTGAATGCATTGCTGG +AAAAACCTTGTTGAGAGTGTTTGCTAAACCGTACCGTCAACCATTATTGGCCGCAGCACTTTTTAAATTT +TTTACCTGAACCACAAGGGCAGGGATCGTTGCGACCAAACTGCGGACGTGTACCGTCAATATAGTACCAT +TGACCGTTTTCTTTCAAAAATCGCGAACGTTCAATTATTGCACCTGTTTTACCACCTTCGGTAAATCGAG +CAACAAAACTGACAAATCCGATATTGTCGGCGTCCTGCCAACAATGTTCAAATACGGTCAATCCCAACCA +TTCAGTATGCGCAAATCCGGCCATCAATTCGGCACGTAACGCCGCTGCTCCACAAGAGGGATGCCAGGTC +TTTATTAAATAATCTGCGTCTTGCATCACAAAAGCGCAGTAACGCGAACGCATGAGATGTTCTGGATCAG +GTGCAACCTTTTCACCAGACACATAAGGGTGGCAACATAGGCTATACTCGACAGCACTACCACAGGGACA +AAGCTGAGACACAAATAATCTCCCTGGAAACAATAACGGCGTATTAACCGCCTGAGTAGCACTATGTTAA +CCGAGCAGTAGCGATGTGGCTACGATTGCATTCCAGGGGAATCTTGCGGGAATAATGAGAAAGATAAAAA +TAGGGCTGGCGCTGGGATCTGGCGCGGCGAGAGGTTGGTCGCATATTGGCGTTATTAATGCGCTAAAAAA +AGTGGGTATTGAAATTGATATCGTTGCAGGATGTTCAATTGGTTCGCTGGTGGGCGCTGCCTATGCATGC +GATCGATTATCTGCGCTGGAAGATTGGGTGACCTCTTTCAGTTATTGGGATGTTTTACGCCTGATGGATC +TCTCCTGGCAGCGCGGTGGGTTACTGCGCGGCGAGCGTGTCTTCAATCAATACCGCGAAATAATGCCGGA +AACAGAGATCGAAAATTGTTCCCGTCGCTTTGCGGCTGTTGCCACCAATTTAAGTACGGGACGTGAATTA +TGGTTTACTGAAGGCGATCTCCATCTTGCTATTCGCGCATCATGCAGTATTCCAGGACTCATGGCACCTG +TTGCACATAACGGCTACTGGCTGGTTGATGGAGCAGTCGTTAACCCAATTCCTATTTCCCTCACGCGTGC +ATTGGGGGCTGATATTGTGATAGCGGTTGACCTGCAGCACGATGCTCATTTGATGCAACAAGATTTGCTC +TCCTTTAATGTCAGTGAAGAAAATAGCGAGAATGGTGATTCTCTGCCGTGGCATGCGCGTCTGAAAGAAA +GGTTAGGCAGCATAACGACACGTCGGGCGGTGACAGCGCCAACGGCAACAGAGATTATGACCACTTCTAT +CCAGGTGCTGGAGAACCGCCTTAAAAGGAACCGCATGGCAGGTGATCCGCCCGATATTCTGATTCAACCT +GTTTGCCCGCAAATATCTACGCTTGATTTCCATCGCGCGCACGCTGCCATTGCGGCCGGACAGCTGGCAG +TGGAAAGGAAAATGGACGAACTTTTGCCGTTGGTACGCACCAACATTTGACCAGAATTTTTATCTACACT +TAAGTTAATTCTGACAGGCGCAGGTGGCAATAGCATGCCACTATTGAGTAAAGCCAGTCAGGGGAGAGAA +CATGACGCAGCCATTGGTCGGAAAACAGATTCTCATTGTTGAAGATGAGCAGGTATTTCGCTCGCTTCTG +GATTCATGGTTTTCCTCATTGGGAGCGACAACGGTACTGGCGGCTGATGGGGTGGATGCCCTTGAGTTGC +TGGGAGGTTTCACTCCAGACCTGATGATATGTGATATCGCGATGCCACGAATGAACGGGCTTAAACTGCT +GGAGCATATACGTAACAGAGGCGACCAGACCCCAGTTCTGGTGATATCTGCCACTGAAAATATGGCAGAT +ATTGCCAAAGCGTTACGTCTGGGCGTTGAAGATGTTTTGCTGAAACCAGTTAAAGATCTGAATCGCTTGC +GCGAGATGGTTTTTGCCTGTCTCTATCCCAGCATGTTTAATTCGCGCGTTGAGGAAGAGGAAAGGCTTTT +TCGCGACTGGGATGCAATGGTTGATAACCCTGCCGCAGCGGCGAAATTATTACAGGAACTACAACCGCCG +GTTCAGCAGGTGATTTCCCATTGCCGGGTTAATTATCGTCAATTGGTTGCCGCGGACAAACCCGGCCTGG +TGCTTGATATTGCCGCACTTTCGGAAAACGATCTGGCATTTTATTGCCTTGATGTCACCCGAGCTGGACA +TAATGGCGTACTTGCTGCCTTGTTATTACGCGCATTGTTTAACGGATTATTACAGGAACAGCTTGCACAC +CAAAATCAACGGTTGCCAGAGTTGGGCGCGTTATTGAAGCAGGTAAACCATTTACTTCGTCAGGCCAATC +TGCCGGGGCAGTTTCCGCTATTAGTTGGCTATTATCATCGCGAACTGAAAAATCTCATTCTGGTTTCTGC +GGGTCTGAATGCGACGTTAAATACCGGCGAACACCAGGTGCAAATCAGTAATGGTGTTCCGTTAGGCACT +TTAGGTAACGCTTATTTGAATCAATTGAGCCAGCGATGCGATGCCTGGCAATGCCAAATATGGGGAACCG +GTGGTCGACTGCGCTTGATGTTGTCTGCAGAATGAGCAAACGATAACGCGGGCTAAATTTGCATTACCTG +CTAATGTCGGCTGGTGGTACTATCGTCGCCATTCGTATAAGTAATTGTCTTAATTATGCTAACTCGCCTC +CTTTTCAGAACTTAGCCCCTTCGGGGTGCTGATATACTGGGATGCGATACAGAAATATGAACACGTTCAA +AACACGAACAGTCCAGGAGAATTTAAATGGCTGCCATTAATACGAAAGTCAAAAAAGCCGTTATCCCCGT +TGCGGGATTAGGAACCAGGATGTTGCCGGCGACGAAAGCCATCCCGAAAGAGATGCTGCCACTTGTCGAT +AAGCCATTAATTCAATACGTCGTGAATGAATGTATTGCGGCTGGCATTACTGAAATTGTGCTGGTTACAC +ACTCATCTAAAAACTCTATTGAAAACCACTTTGATACCAGTTTTGAACTGGAAGCAATGCTGGAAAAACG +TGTAAAACGTCAACTGCTTGATGAAGTGCAGTCTATTTGTCCACCGCACGTGACTATTATGCAAGTTCGT +CAGGGTCTGGCGAAAGGCCTGGGACACGCGGTATTGTGTGCTCACCCGGTAGTGGGTGATGAACCGGTAG +CTGTTATTTTGCCTGATGTTATTCTGGATGAATATGAATCCGATTTGTCACAGGATAACCTGGCAGAGAT +GATCCGCCGCTTTGATGAAACGGGTCATAGCCAGATCATGGTTGAACCGGTTGCTGATGTGACCGCATAT +GGCGTTGTGGATTGCAAAGGCGTTGAATTAGCGCCGGGTGAAAGCGTACCGATGGTTGGTGTGGTAGAAA +AACCGAAAGCGGATGTTGCGCCGTCTAATCTCGCTATTGTGGGTCGTTACGTACTTAGCGCGGATATTTG +GCCGTTGCTGGCAAAAACCCCTCCGGGAGCTGGTGATGAAATTCAGCTCACCGACGCAATTGATATGCTG +ATCGAAAAAGAAACGGTGGAAGCCTATCATATGAAAGGGAAGAGCCATGACTGCGGTAATAAATTAGGTT +ACATGCAGGCCTTCGTTGAATACGGTATTCGTCATAACACCCTTGGCACGGAATTTAAAGCCTGGCTTGA +AGAAGAGATGGGCATTAAGAAGTAACATCCGTATCGGTGTTATCCACGAAACGGCGTTGAGCAATCGACG +CCGTTTTTTTATAGCTTATTCTTATTAAATTGTCTTAAACCGGACAATAAAAAATCCCGCCGCTGGCGGG +ATTTTAAGCAAGTGCAATCTACAAAAGATTATTGCTTGATCAGGAAATCGTCGAGGGATTTACCTTGCTC +ATCCATTGCTTTTTTGATTACAGCTGGAGTACGGCCTTGGCCAGTCCAGGTTTTAGTTTCGCCGTTTTCG +TCAACGTAGCTATATTTTGCCGGACGCTGAGCACGTTTAGCTTTGGTGCCAGATTTAACGGCAGCAAGGC +TATTCAGCAGTTCGTTCGGGTCAATACCGTCAGCGATCAGCATTTCGCGATATTGCTGCAGTTTACGAGT +GCGCTCTTCAACTTCAGCAGCAGCCGCGCTTTCTTCTTCGCGACGTTCGTTAACAACAACTTCTAATTTT +TCCAGCATTTCTTCCAGCGTTTCAAGTGTACATTCTCTTGCCTGCGCACGAAGAGTACGGATGTTGTTCA +GAATTTTAAGTGCTTCGCTCATTGTAGTAATCTCAAACTTATATTGGGGTGGTTTGTTGAGGTAATAATA +GAGCCTTAAATTCAGTTGTGCAATAGCCAGGAATGTAAGGAATTCAAAATTGTTCTTTATTTTGTGCCGC +CAATAAATATCTTTTCATAAAATTAGCCAGAAAAGACGCGGCATATAGCCCTATTTACACCGATGATTTC +GCAGCACGTGAGGTTAAAACTTCCTGATTCATGTCACATTTTATGGGGAGATTATCGTAGGCTGACGACC +TTTCAGTCTTCTGTATTAGTTGTGTTTACGAGAATTCCCTATTAAGCGAATGATGAAAAGTAGAACAGTC +GCAATAAGAGCATGGACTTAGTATTGCACTATCTCCTGGAGGTCAACAGAGGGCTATTACTTGCGCAACA +GGTTAAAGATTGTGAATAGTTACCAGCAGTCATTTACCCGCTTATAACAAGCGAGGCAGTTGTAATGATA +GCTCAGAAGGATTATGCAAGGCTTCGTAAGGGAGAACGCATATACCCACTTCTGTGCATACTGTTGAGCT +GAAAAACTGACGAATTATGATAAACTCCAGCCAACTTTATTTCATATCATTGAGGGCCTGTGGCTGATGG +CACAGCTATATTTCTACTATTCCGCAATGAATGCGGGTAAGTCTACAGCATTGTTGCAATCTTCATACAA +TTACCAGGAACGCGGCATGCGCACTGTCGTATATACGGCAGAAATTGATGATCGCTTTGGTGCCGGGAAA +GTCAGTTCGCGTATAGGTTTGTCATCGCCTGCAAAATTATTTAACCAAAATTCATCATTATTTGATGAGA +TTCGTGCGGAACATGAACAGCAGGCAATTCATTGCGTACTGGTTGATGAATGCCAGTTTTTAACCAGACA +ACAAGTATATGAATTATCGGAGGTTGTCGATCAACTCGATATACCCGTACTTTGTTATGGTTTACGTACC +GATTTTCGAGGTGAATTATTTATTGGCAGCCAATACTTACTGGCATGGTCCGACAAACTGGTTGAATTAA +AAACCATCTGTTTTTGTGGCCGTAAAGCAAGCATGGTGCTGCGTCTTGATCAAGCAGGCAGACCTTATAA +CGAAGGTGAGCAGGTGGTAATTGGTGGTAATGAACGATACGTTTCTGTATGCCGTAAACACTATAAAGAG +GCGTTACAAGTCGACTCATTAACGGCTATTCAGGAAAGGCATCGCCACGATTAATAAGAATTTCTTTACT +GACAGGGTGAGCAGGGCACTTTTATCCTGTCAGTTCGTTTTACGCACTTCTTCCGGGCTATATACCCTTC +TCGGCAGTTTTTTAACGCCGCTATACGCCTCACAGGGCTCTTAAGCACCGACGTTGACTTGTGACCTGTA +AAGTACAATATCCCTGTGTTTAGGCGTTATACATCGTCGCAAATATGATGAAGGCTAATGCTGTCGGTTT +ATGGAAAAGTTGCTTTGGGTAAACAAAAAATACGGCCCCAGAAGGGCAATGCCGTTCACTTAAGAGGAGC +GGCACTATGTTTCACAGGATAACGGGTTTTTGATATCTTAACCGACCTCGGCCTTGATGGTCGGGGGCGT +TTTGTTATGAACACCACTTCCAGAGCACCCCGAAGATGCTCCAGTCGTTTCGGGATGGTCCCTGGTGACG +CCGTGTTTCCCAGCTCTATCATTTCTGATGCGATATTCTTCCACGCAGGCAGTAGCCAGTGGCGGTTACA +ACCCTTCTGGTTCAGCGTCAGCAGCAGGTCTTCGCTGTAAAAAAGTTTATCAAACAACGTAATAGAGTTA +TCCGGGATGGTGGCGAGCATGGAGTGGGCCAGCACAGTTTCGCTCTGCCGGTAAGGTGCGGTCACGGCAT +TCAGCAGAATGTGACTTCCCAGGTTCATTAAGGCCACCAGACGCATAACCGGGTAGGCGTTCTGCCGCTT +AGTGGATGTGTTGGCAGACCCATAATATTCACGCAGCTCGGGTTTATCAGGTGTCCTGAACTGTGCGCCA +TCAATGGCAAAAAGTTGCAGGCCGTGCCAGTCATCCTTCAGGTAACGTTCCGCGCCCCTGTCTGTGCGGT +CTGGCGGAAGAGCCATTCCACTGGGGCGGCCCCCACGCGCTGACGCGCCTGGGTGACAGCGCTGCGGGCC +AGCAGGTTCATCCCCGCTTCGCCATCCGCGCTCAGGTTCAGACGGCGAACAACATCGGTAATTGGCTCAT +TGCACCACCATCCAGATAACCATGTCCCCCGGTAAACGACGGCGGCGAACGGTCGCATGAGCAGAAAGCG +TCAGGCAGTGTTGTATCCACTCGGTGGGAAGGTGTTCTGCAAATAGTTGTGCAGAGGGCGGAGGCATAAG +CGGATGGTCACTGAAATCGAGCAGATCATTGAGAAGTGGCATAAGAAAACGGCTCCCTGTTGTGGAAGCC +GTTATAGTGCCTCAGTTTAAGGATCGGTCAACTAATCCTTAACTGATCGGCATTGCCCAGAAGGGGCCGT +TTATGTTGCCAGACAGCGCTACTGATTAAGCGGATTTTTTCGCTTTTTTCTCAGCTTTAGCCGGAGCAGC +TTCTTTCTTCGCTGCAGTTTCACCTTCTACATAATCACGACCGTAGTAGGTATCCAGCAGAATCTGTTTC +AGCTCGGAGATCAGCGGGTAACGCGGGTTAGCGCCGGTGCACTGGTCATCGAATGCATCTTCAGACAGTT +TATCCACGTTCGCCAGGAAGTCTGCTTCCTGAACGCCAGCTTCACGGATAGATTTCGGAATACCCAGTTC +AGCTTTCAGCGTTTCCAGCCATGCCAGCAGTTTCTCGATCTTAGCAGCAGTACGGTCGCCCGGTGCGCTC +AGACCCAAGTGGTCGGCAATTTCAGCATAACGACGGCGAGCCTGCGGACGGTCATACTGGCTGAATGCAG +TCTGCTTGGTCGGGTTGTCGTTCGCATTGTAGCGAATAACGTTACAAATCAGCAGGGCGTTTGCCAGACC +GTGCGGAATATGGAACTGGGAACCCAGTTTGTGCGCCATTGAGTGACATACACCCAGGAAGGCGTTCGCA +AACGCGATACCCGCGATAGTCGCTGCACTGTGAACACGTTCACGCGCTACCGGATTTTTAGACCCTTCGT +GGTAGGACGCTGGCAGATATTCTTTCAGCAGTTTCAGTGCCTGCAGAGCCTGACCATCAGAGAACTCAGA +TGCCAGTACAGAAACATAAGCTTCCATGGCGTGAGTTACTGCGTCCAGACCACCGAAAGCACACAGGGAC +TTCGGCATGTCCATAACCAGGTTGGCGTCGACAATCGCCATATCCGGAGTCAGCGCATAGTCTGCCAGCG +GATATTTCTGACCAGTAGCGTCGTCAGTTACAACCGCAAACGGAGTGACTTCAGAACCTGTACCAGAAGT +GGTGGTGACAGCGATCATTTTCGCTTTCACGCCCATTTTCGGGAACTTGTAGATACGTTTACGGATATCC +ATAAAGCGCAGCGCCAGCTCTTCGAAGTGAGTTTCCGGATGTTCGTACATAACCCACATGATCTTCGCGG +CGTCCATCGGGGAACCACCACCCAGCGCGATAATCACGTCTGGTTTGAAGGAGTTTGCCAGTTCTGCACC +TTTACGAACGATGCTCAGGGTCGGGTCCGCTTCTACTTCGAAGAAGACTTCAGTTTCAACGCCTGCTGCT +TTCAGTACGGAAGTGATCTGATCAGCATAACCATTGTTGAACAGGAAGCGGTCAGTCACGATGAGCGCAC +GTTTGTGGCCATCAGTAATCACTTCATCCAGCGCGATTGGCAGGGAGCCACGGCGGAAGTAGATAGATTT +CGGAAGTTTGTGCCACAACATGTTTTCAGCTCGCTTAGCAACGGTTTTCTTGTTGATCAGGTGTTTCGGA +CCAACGTTTTCAGAGATGGAGTTACCACCCCAAGAACCACAACCCAGAGTCAGGGAAGGTGCGAGTTTGA +AGTTATACAGGTCACCGATACCACCCTGAGACGCTGGGGTGTTAATCAGGATACGCGCCGTTTTCATTTT +CTGACCGAAGTAAGAAACGCGAGCCGGTTGGTTATCCTGGTCAGTGTACAGGCAAGAGGTATGACCGATA +CCGCCCATAGCAACCAGTTTCTCTGCTTTTTCTACCGCGTCTTCGAAATCTTTAGCGCGGTACATTGCCA +GAGTCGGGGACAGTTTTTCATGTGCGAACGGTTCGCTTTCATCAACAACGGTCACTTCACCGATCAGAAT +CTTGGTGTTTTCTGGTACAGAGAAGCCTGCCAGTTCAGCAATTTTATAGGCTGGCTGACCAACGATAGCC +GCGTTCAGCGCACCGTTTTTCAGGATAACATCCTGAACAGCTTTCAGCTCTTTACCCTGCAACAGATAGC +CGCCGTGGGTTGCAAAACGTTCACGTACAGCGTCATAAACAGAGTCAACAACAACAACAGACTGTTCAGA +AGCACAGATTACGCCGTTGTCGAAGGTTTTGGACATCAGTACAGATGCAACTGCACGTTTGATATCAGCA +GTTTCATCGATAACAACTGGAGTGTTGCCCGCGCCTACACCGATAGCTGGTTTACCGGAGCTGTATGCGG +CTTTAACCATGCCCGGACCACCAGTCGCGAGGATCAGGTTGATGTCTGGGTGGTGCATCAGTGCGTTAGA +CAGTTCAACAGAAGGTTGATCGATCCAGCCGATCAGATCTTTCGGAGCACCGGCAGCGATAGCAGCCTGC +AGAACGATATCAGCCGCTTTGTTGGTGGCATCTTTTGCACGCGGGTGCGGGGAGAAGATAATGGCGTTAC +GGGTCTTCAGACTGATCAGCGATTTGAAGATAGCAGTTGAAGTCGGGTTAGTGGTCGGAACGATACCGCA +AATAATACCGATTGGTTCAGCGATAGTGATGGTACCAAAAGTGTCGTCTTCAGACAGAACACCACAGGTT +TTTTCATCTTTATAGGCGTTGTAGATATATTCAGAAGCAAAGTGGTTTTTGATCACTTTATCTTCGACGA +TACCCATGCCGGATTCGGCAACGGCCATTTTCGCGAGTGGGATTCGAGCATCTGCAGCAGCCAGAGCGGC +GGCGCGGAAGATTTTGTCTACTTGCTCTTGAGTGAAACTGGCATATTCACGCTGGGCTTTTTTTACACGC +TCTACGAGTGCGTTAAGTTCAGCGACATTAGTAACAGCCATAATGCTCTCCTGATAATGTTAAACTTTTT +TAGTAAATCATCTGCTCGAATACGAGAGTATAGTCAGTGCGGTGATGATTTGCTTAACCTATGAAAATCA +AAAGCTTACTCGCGCTCACACTCACTGTGATTTACTAAAAGAGTTTAAACATTAGAGTTATTATCTCTAA +TGCGTCACTTCCAGGTGGCGTAAGCAAGATTACTCACTTCTGGGTACTGATTACGTGATCCAAATCAAAT +TTTTGCAAAGCTGACACCTTTCAGCATCGCTTTTCGCCATTATAGCTAACAGTTAATAAATTGTAGTATG +ATTTGGTGGCTACATTAGCATGTTTTGCACAACTAGATAACAATAACGAATGATAGCAATTTTAAGTAGT +TAGGAGGTGAAAAATGCTGTCAAAAGGCGTATTGTCAGCGCGTCTTTTCAACCTTATTTATGGCTAACAT +TATCCGGCTTTTGCTTCGGAGCTAACCGTGATTCAGACCTTTTTTGATTTTCCCGTTTACTTCAAATTTT +TCATCGGGTTATTTGCGCTGGTCAACCCGGTAGGGATTATTCCCGTCTTTATCAGCATGACCAGTTATCA +GACAGCGGCAGCGCGAAACAAAACTAACCTTACAGCCAACCTGTCTGTGGCCATTATCTTGTGGATCTCG +CTTTTTCTCGGCGACACGATTCTACAACTTTTTGGTATATCAATTGATTCGTTCCGTATCGCCGGGGGTA +TCCTGGTGGTGACAATAGCGATGTCGATGATCAGCGGCAAGCTTGGCGAGGATAAACAGAACAAGCAAGA +AAAATCAGAAACCGCGGTACGTGAAAGCATTGGTGTGGTGCCACTGGCGTTGCCGTTGATGGCGGGGCCA +GGGGCGATCAGTTCTACCATCGTCTGGGGTACGCGTTATCACAGCATTAGCTATCTGTTTGGTTTCTTTG +TGGCTATTGCATTGTTCGCTTTATGTTGTTGGGGATTGTTCCGCATGGCACCGTGGCTGGTACGGGTTTT +ACGCCAGACCGGCATCAACGTGATTACGCGTATTATGGGGCTATTGCTGATGGCATTGGGGATTGAATTT +ATCGTTACTGGTATTAAGGGGATTTTCCCCGGCCTGCTTAATTAATTCCTTTCAAATGAAACGGAGCTGC +CATGCTCCGTTTACTTCGTCATTATTTTTACTTTGTTCCCGCGCAGTTATCAAAAGCAAAAGGAATAGGT +AAAAATATTCTTCTCAAATTACAGTTAGTTATAAGGATTTCCTTAACTGCTTCTCCTCACCATCATGTTA +TTTTCGCCACATCATAATCCTGGGCTTGCTGAAGAATAATTGAAATGATATTATTAATTCCACTGCCTTT +GGTAGAGGAAAGTGCTAAGGAAGGTGCGAACAAGTCCCTGATATGAGATCATGTTTGTCATCTGGAGCCA +TAGAACAGGGTTCATCATGAGTCATCAACTTACCTTCGCCGACAGTGAATTCAGCAGTAAGCGCCGTCAG +ACCAGAAAAGAGATTTTCTTGTCCCGCATGGAGCAGATTCTGCCATGGCAAAACATGGTGGAAGTCATCG +AGCCGTTTTACCCCAAGGCTGGTAATGGCCGGCGACCTTATCCGCTGGAAACCATGCTACGCATTCACTG +CATGCAGCATTGGTACAACCTGAGCGATGGCGCGATGGAAGATGCTCTGTACGAAATCGCCTCCATGCGT +CTGTTTGCCCGGTTATCCCTGGATAGCGCCTTGCCGGACCGCACCACCATCATGAATTTCCGCCACCTGC +TGGAGCAGCATCAACTGGCCCGCCAATTGTTCAAGACCATCAATCGCTGGCTGGCCGAAGCAGGCGTCAT +GATGACTCAAGGCACCTTGGTCGATGCCACCATCATTGAGGCACCCAGCTCGACCAAGAACAAAGAGCAG +CAACGCGATCCGGAGATGCATCAGACCAAGAAAGGCAATCAGTGGCACTTTGGCATGAAGGCCCACATTG +GTGTCGATGCCAAGAGTGGCCTGACCCACAGCCTGGTCACCACCGCGGCCAACGAGCATGACCTCAATCA +GCTGGGTAATCTGCTGCATGGAGAGGAGCAATTTGTCTCAGCCGATGCCGGCTACCAAGGGGCGCCACAG +CGCGAGGAGCTGGCCGAGGTGGATGTGGACTGGCTGATCGCCGAGCGCCCCGGCAAGGTAAGAACCTTGA +AACAGCATCCACGCAAGAACAAAACGGCCATCAACATCGAATACATGAAAGCCAGCATCCGGGCCAGGGT +GGAGCACCCATTTCGCATCATCAAGCGACAGTTCGGCTTCGTGAAAGCCAGATACAAGGGGTTGCTGAAA +AACGATAACCAACTGGCGATGTTATTCACGCTGGCCAACCTGTTTCGGGCGGACCAAATGATACGTCAGT +GGGAGAGATCTCACTAAAAACTGGGGATAACGCCTTAAATGGCGAAGAAACGGTCTAAATAGGCTGATTC +AAGGCATTTACGGGAGAAAAAATCGGCTCAAACATGAAGAAATGAAATGACTGAGTCAGCCGAGAAGAAT +TTCCCCGCTTATTCGCACCTTCCCTAAATAATAATCAATTGTTAAATTATTGTGCATTTCACTACTGGAA +CTGTAATCAGAAAAGATAGACATGCTTAGCCAATCTCTATTTGATTGAATTGAAAGATGTTTGTTAAGGC +ATGGATGCAAGCTATAGATTCTGATACGGTCAATAAAAGAGAATTGCTTAACAATTTTGCAAAATGTATT +GGCGAGTAAGAACCGCATTTGGTACTTTCCGGGCAACCGCCAGACGATTCTTTATTGGTAATGAGAATAA +TTAACAATTAAAGAGCGTCGCGAAAGAATAATGTGTCTCGACAGGGGAGACACAGTACGAATCGACATAA +GGTGATCGTCTGAATCACCAGAATAAATAAAGTCGGTGATAGTAATACGTAACGATAAAGTAACCTGACA +GCAGAAAGTCTCCGAGCCTGTGCAGGGTCCCAATCCGGGATTACACATGCTGGTTAATACCAGTAATTAT +AATGAGGGAGTCCAAAAAACAATGACCAACATCACCAAGAGAAGTTTAGTAGCAGCTGGCGTTCTGGCTG +CGCTAATGGCAGGGAATGTCGCGCTGGCAGCTGATGTACCCGCAGGCGTCACACTGGCGGAAAAACAAAC +ACTGGTACGTAACAATGGTTCAGAAGTTCAGTCATTAGATCCGCACAAAATTGAAGGTGTTCCGGAGTCT +AATATCAGCCGAGACCTGTTTGAAGGCTTACTGGTCAGCGATCTTGACGGTCATCCAGCACCTGGCGTCG +CTGAATCCTGGGATAATAAAGACGCGAAAGTCTGGACCTTCCATTTGCGTAAAGATGCGAAATGGTCTGA +TGGCACGCCAGTCACAGCACAAGACTTTGTGTATAGCTGGCAACGTTCTGTTGATCCGAACACTGCTTCT +CCGTATGCCAGTTATCTGCAATATGGGCATATCGCCGGTATTGATGAAATTCTTGAAGGGAAAAAACCGA +TTACCGATCTCGGCGTGAAAGCTATTGATGATCACACATTAGAAGTCACCTTAAGTGAACCCGTTCCGTA +CTTCTATAAATTACTTGTTCACCCATCAACTTCACCGGTGCCAAAAGCCGCTATCGAGAAATTCGGCGAA +AAATGGACCCAGCCTGGTAATATCGTCACCAACGGTGCCTATACCTTAAAAGATTGGGTCGTAAACGAAC +GAATCGTTCTTGAACGCAGCCCGACCTACTGGAACAACGCGAAAACCGTTATTAACCAGGTAACCTATTT +GCCTATTGCTTCTGAAGTTACCGATGTCAACCGCTACCGTAGTGGTGAAATCGACATGACGAATAACAGC +ATGCCGATCGAATTGTTCCAGAAGCTGAAAAAAGAGATCCCGGACGAAGTTCACGTTGATCCATACCTGT +GCACTTACTATTACGAAATTAACAACCAGAAACCGCCATTCAACGATGTGCGTGTGCGTACCGCACTGAA +ACTAGGTATGGACCGCGATATCATTGTTAATAAAGTGAAAGCGCAGGGCAACATGCCCGCCTATGGTTAC +ACTCCACCGTATACTGATGGCGCAAAATTGACTCAGCCAGAATGGTTTGGCTGGAGCCAGGAAAAACGTA +ACGAAGAAGCGAAAAAACTGCTGGCTGAAGCGGGTTATACCGCAGACAAACCGTTGACCATCAACCTGTT +GTATAACACCTCCGATCTGCATAAAAAGCTGGCGATTGCTGCCTCTTCATTGTGGAAGAAAAACATTGGT +GTAAACGTCAAACTGGTTAACCAGGAGTGGAAAACGTTCCTCGACACCCGTCACCAGGGTACTTTTGATG +TGGCCCGTGCAGGCTGGTGTGCTGACTACAACGAACCAACTTCCTTCCTGAACACCATGCTTTCGAACAG +CTCGATGAATACCGCGCATTATAAGAGCCCGGCCTTTGACAGCATTATGGCGGAAACGCTGAAAGTGACT +GACGAGGCGCAGCGCACAGCTCTGTACACTAAAGCAGAACAACAGCTGGATAAGGATTCGGCCATTGTTC +CTGTTTATTACTACGTGAATGCGCGTCTGGTGAAACCGTGGGTTGGTGGCTATACCGGCAAAGATCCGCT +GGATAATACCTATACCCGGAATATGTACATTGTGAAGCACTAATGGCAATACGTGGGGCAGGAGTGTCCT +GCTCCACGGTGTCTGATTTTTATCGCATTACAGAAGGCACAGGCCAGAAGGTAGGGCAATGTTAAAATTT +ATTCTACGTCGCTGTCTGGAAGCGATTCCGACGCTATTTATTCTTATTACTATTTCGTTCTTTATGATGC +GCCTCGCGCCGGGAAGCCCTTTTACCGGCGAACGTACTTTACCGCCAGAAGTGATGGCCAATATCGAAGC +GAAATATCATCTTAATGATCCGATCATGACACAGTATTTCAGCTACCTGAAACAACTGGCGCACGGTGAT +TTCGGTCCATCGTTTAAATATAAAGATTATTCGGTCAATGACTTGGTTGCATCCAGTTTTCCCGTTTCTG +CCAAACTGGGAGCCGCAGCATTTTTCCTTGCGGTAATACTGGGTGTTAGTGCTGGCGTTATTGCCGCATT +AAAACAAAACACCAAATGGGACTATACCGTGATGGGGCTGGCAATGACCGGGGTTGTTATCCCCAGTTTT +GTGGTTGCACCATTATTAGTCATGATATTTGCGATCATTTTGCATTGGCTGCCGGGCGGTGGCTGGAATG +GTGGGGCGCTTAAATTCATGATATTGCCGATGGTGGCGTTGTCACTCGCTTATATCGCCAGTATTGCGCG +TATTACCCGTGGCTCTATGATTGAAGTATTACACTCCAATTTTATTCGTACTGCCCGGGCGAAAGGGTTA +CCTATGCGGCGGATCATTTTACGTCACGCATTAAAACCTGCTCTGTTACCCGTGCTCTCTTATATGGGCC +CCGCATTTGTCGGCATTATTACCGGTTCTATGGTTATCGAAACCATTTATGGTTTGCCGGGGATTGGACA +ACTGTTCGTTAATGGCGCATTGAACCGTGACTATTCCTTAGTGTTAAGCCTGACCATCCTGGTTGGTGCT +TTAACCATTTTGTTTAATGCCATTGTCGATGTGCTATATGCGGTTATCGACCCGAAAATCCGTTACTGAT +ACTGGAGCTCGCGATGATGTTAAGTAAGAAAAACAGCGAGACGCTGGAAAATTTCAGTGAAAAGCTGGAG +GTCGAAGGGCGCAGCTTGTGGCAGGACGCACGTCGACGTTTTATGCATAACCGTGCGGCGGTTGCCAGTC +TGATAGTGCTGGTGCTGATCGCGTTATTTGTAATCCTGGCACCGATGCTTTCCCAGTTTGCCTATGACGA +TACTGACTGGGCGATGATGTCCAGCGCCCCGGATATGGAGTCCGGTCACTACTTTGGTACTGACTCATCC +GGTCGCGACCTGCTTGTGCGCGTTGCGATTGGCGGGCGTATCTCACTCATGGTCGGTGTTGCTGCGGCAC +TGGTGGCTGTGGTCGTCGGGACACTTTATGGTTCGCTTTCCGGTTATCTGGGCGGTAAAGTGGATTCGGT +AATGATGCGTCTGCTGGAAATCCTCAACTCCTTCCCATTCATGTTCTTCGTCATTTTGCTGGTGACCTTT +TTCGGTCAAAACATCCTGCTGATTTTCGTGGCGATAGGCATGGTTTCCTGGCTGGATATGGCTCGTATTG +TGCGTGGGCAAACCCTGAGTCTGAAGCGCAAAGAGTTTATTGAGGCGGCACAAGTTGGCGGTGTATCGAC +ATCGGGCATTGTTATTCGCCACATTGTGCCGAATGTACTCGGTGTGGTGGTGGTCTACGCATCACTTCTG +GTGCCCAGCATGATCCTCTTTGAATCTTTCCTTAGCTTCCTGGGGTTGGGTACGCAAGAGCCGTTAAGCA +GCTGGGGTGCATTGCTGAGTGATGGCGCGAACTCGATGGAAGTCTCTCCATGGTTATTGTTGTTCCCAGC +GGGATTCCTCGTGGTGACGCTGTTTTGTTTCAACTTTATCGGCGATGGCTTGCGTGATGCCCTCGACCCG +AAAGATCGTTAAGGAGTGCAGCCATGAGCGTAATTGAAACTGCAACTGTGCCGCTCGCACAACAACAGGC +TGACGCACTGCTGAACGTGAAAGATTTGCGTGTCACCTTTAGTACCCCGGACGGCGACGTCACGGCGGTC +AATGATTTGAATTTTTCCCTACGTGCCGGAGAAACGCTGGGTATTGTAGGTGAGTCTGGTTCGGGTAAAT +CGCAAACTGCATTTGCGTTGATGGGCCTGTTGGCTGCCAACGGACGTATTGGCGGATCGGCAACCTTCAA +TGGGCGTGAAATCCTCAATTTGCCAGAGCATGAACTCAATAAACTGCGCGCTGAACAAATCTCAATGATT +TTTCAGGACCCAATGACTTCGTTGAATCCCTATATGCGCGTCGGTGAGCAGTTGATGGAAGTGCTGATGC +TGCATAAGAACATGAGCAAAGCTGAGGCGTTTGAAGAGTCGGTGCGGATGCTCGATGCGGTAAAAATGCC +GGAAGCGCGTAAACGCATGAAAATGTACCCGCACGAATTTTCTGGCGGCATGCGTCAGCGAGTCATGATT +GCGATGGCCTTGTTATGTCGACCTAAGCTGCTGATTGCGGATGAACCAACAACTGCGCTGGACGTCACCG +TACAGGCGCAGATCATGACGCTATTAAATGAACTGAAGCGGGAATTTAATACCGCCATCATTATGATCAC +CCACGATCTTGTCGTGGTGGCGGGGATCTGCGACAAAGTGCTGGTAATGTACGCCGGGCGCACGATGGAA +TATGGCAACGCGCGCGATGTCTTTTATCAACCCGTTCATCCTTATTCTATCGGTTTGCTCAACGCGGTGC +CGCGTCTCGATGCGGAAGGTGAAACAATGTTGACCATCCCGGGTAATCCGCCAAACCTGCTGCGATTACC +GAAAGGTTGCCCGTTCCAGCCACGTTGTCCGCATGCGATGGAAATTTGTAGTAGCGCACCGCCGCTGGAA +GAGTTTACGCCTGGCCGTCTGCGTGCTTGCTTTAAACCGGTGGAGGAACTGTTATGAATGCTGTAACTGA +AGGAAGAAAAGTCCTCCTTGAAATCGCCGATCTTAAAGTGCACTTTGAAATCAAAGATGGCAAACAGTGG +TTCTGGCAACCGCCGAAAACGCTCAAAGCCGTCGATGGTGTCACTCTTCGCCTGTATGAAGGGGAAACAT +TAGGTGTGGTAGGGGAATCGGGATGCGGTAAGTCCACCTTTGCTCGCGCCATCATCGGTTTGGTCAAGGC +GACCGACGGTCATGTTGCCTGGTTAGGTAAAGAGTTGCTGGGCATGAAACCCGATGAATGGCGTGCCGTT +CGCAGTGATATTCAGATGATTTTCCAGGATCCGTTGGCATCGCTAAACCCGCGTATGACCATCGGCGAGA +TCATCGCTGAACCACTGCGTACTTATCATCCGAAAATGTCACGCCAGGAAGTTCGCGAGCGCGTGAAGGC +GATGATGCTGAAAGTCGGGTTATTGCCTAACCTGATTAACCGCTATCCGCATGAGTTCTCTGGTGGGCAG +TGCCAGCGTATCGGGATTGCGCGTGCTCTTATTCTTGAACCGAAGCTGATTATCTGTGATGAGCCGGTGT +CGGCGCTGGACGTGTCAATTCAGGCACAGGTGGTCAACCTGCTCCAGCAATTGCAACGTGAGATGGGATT +GTCATTAATTTTTATCGCTCATGACCTGGCCGTGGTAAAACACATTTCCGATCGTGTGTTGGTGATGTAT +CTCGGCCATGCGGTAGAACTGGGGACCTATGATGAGGTCTACCACAATCCACTACATCCTTACACCAGGG +CATTGATGTCGGCAGTCCCCATACCTGATCCGGATCTGGAGAAGAACAAAACCATCCAGTTACTGGAAGG +GGAATTACCGTCGCCGATCAACCCGCCTTCCGGTTGTGTTTTCCGTACCCGTTGCCCGATTGCCGGTCCA +GAGTGCGCCAAAACACGTCCTGTTCTGGAGGGGAGTTTCAGACACTCCGTTTCTTGCCTGAAAGTCGATC +CGCTTTAAAAACAATAAGGGCTGACAGTTGTCAGCCCTTTTTCACGCTAAAAGCGATTATTTATTCCCGC +CAGATGATATGGCAAAGTTTGTGATCTTTTTCGCGGCATAACAGAATGCGGGCAAAAACATCGTTGATTT +CACCATCTTCACTGTCCGCCAGACCAATCACCACTTCGGCAAAAAAGTCCGGGTTCAAATCGAAATCAAC +ATGTTCCTGCCAGTCTTCCGCCGGATCGAATAACTCCGCGCCGCCGCGCTCTTCAAACTGAAGATTGAAC +AGCAGAACATCAGCTGGATCGAGATTGTCGGCAGCCAGTTCGAGAAAAATATCGTAGGCCTGTTCAAGCG +TTTCATCTTCAGTCAGGCGATTGTTTAGATCCATATCCATAGTTACTACCTGTTTAACCTCTGTTGGCGA +CGTTTTACAGCAACGGACTGAAGAAGTAAAACAGTCGCTCGGCGACACGTTGCCATAATGGACGTTTTAG +CCATAAACGGGCATCGAGCAGACGTGAACGCGAAATATAATCGTCCTGAACGGCGGCGAGGTCAGCACCA +AAACCTTTATCGTCGATTGCCAGGGTAATCTCGAAATTTAGCCACAGACTACGCATATCAAGGTTAACTG +TGCCAACCAGACTTAGTTCGCCATCGACCAGCACGCTCTTGGTATGCAGTAACCCGCCTTCAAACTGATA +AATTTTAACCCCAGCAGCCAGCAGTTCCGTAAAGAATGCGCGACTGGCCCAGCCGACCAGCATCGAGTCA +TTTTTTCGCGGAAGGATAATACTGACATCCACCCCGCGCTGCGCCGCCGTGCAAATCGCATGAAGTAAAT +CATCGCTTGGCACAAAGTAGGGCGTGGTCATGATCAAATATTCACGCGCCGAATAAGCCGCAGTCAATAA +TGCCTGGTGAATGAGATCTTCCGGAAAGCCGGGGCCAGAAGCAATTGTGTGAATGGTGTGACCGCTGGCC +TGTTCAAACGGCATAATATTGACATCTGGTGGTGGCGGCAGAATACGTTTTCCGGTTTCAATCTCCCAGT +CGCAGGAATAAATAATCCCCATCGCGGTGGCGATAGGGCCTTCCATACGCGCCATCAGATCAATCCATTG +CCCTACGCCCGCATCTTGTTTGAAGTAGCGAGGATCGACCATATTCATGCTGCCGGTGTACGCGATGTAA +TTATCGATCATGATCATCTTGCGATGTTGGCGCAGGTCCATACGGCGTAAAAACACACGCATCAGATTGA +CCTTTAAGGCTTCGACCACTTCAATACCGGCATTACGCATTAGCTCGGGCCACGGGCTGCGGAAAAAAGC +CACACTCCCGGCGGAGTCGAGCATCAATCGGCAATGAATGCCGCGTCGCGCAGCCGCCATTAATGATTCA +GCCACCTGGTCCGCCATGCCGCCGGGCTGCCAGATATAAAACACCATCTCAATATTATGGCGCGCGAGCT +GGATGTCGCGGATTAACGCCTGCATCACATCATCTGACTCGGTCATCAGTTGTAGCTGATTCCCTTTGAC +CCCAGCGATCCCCTGACGACGCTCGCAAAGCTTGAATAATGGCGCAGCGACACTGCTATTTTCTTCGGCG +AAGATATGCTTACAGGCTTTAAGGTCGTTAAGCCATTTTGCGGTGGAAGGCCACATCGCTCTGGCGCGCT +CAGCGCGGCGTTTGCCTAAATGGAGCTCGCCAACGGCAAGATAGGCAATAATTCCGACTAACGGCAGAAT +GTAAATAATCAACAGCCAGGCCATCGCGGAGGGAACTGCGCGTCGTTTCATTAGAATGCGTAAAGTTACG +CCTGCAATGAGCAACCAGTATCCCAGAATGGCCAACCAACTCACCAACGTATAAACGGTTGTCATAGATT +AGAAATCCTTTTGAAAGCGCATTGTTATGAGTTTACGCATATGGATTCATCTGGCAAATAAAAACGCGGG +AAAAGCACTGGTCAGCGTCGGGGGTGGGGGTATAATGACCATTCTGTTATTGCATAGAGTAGTTAACATG +AAGCGGAGTAGAACGGAAGTGGGGCGCTGGCGCATGCAGCGTCAGGCTAGCCGACGTAAATCGCGTTGGC +TTGAGGGGCAATCGCGCCGAAATATGCGTATCCACAGCATCAGGAAGTGCATTCTAAACAAACAGCGTAA +CTCGTTATTGTTTGCGATCTACAATATCTAAATGTACTGGGCACCATTGCGGTGCCCAATAAGTTTACTC +TTCCGTCTTTAAACTCTATTTTTGCGCCGATTCTTTACTGTCAGCTTTCGTTTCTAGTTCATCGTTATCG +CTGAAAATACCATGACCTGAGTTCAACAACATTGAAACGAGCATATCATTATTAATCTCTTCACCATTTA +AAACTCGCGCCAGAATTTCGCTGCCAAACAGTTGCGGTGAGAGAATGATATCCGGATGTACCATCTTAAT +CTTATTCAGGTTTTTGCTATCACTGACGGCGAGAACTGTTTTGACATCACTGCTCATATCTTTTGCCGAG +AGTACAACAAACGCGTTATCTGCATCGTTATCACTCAGCGCCAGAATGGCCCGGCAACGATCGATTCCCG +CTTTCTTTAATACAGAACTGTCATTACTGTCACCGGGGATAACATCAGCATTATCGCCTAAGCGTTGCTC +AAGTTGCTTGATATCATCTTCAGGCAAGTTGCTGATAACCGTTACGTTTTGTCCGCGTTGATTCAGTTGC +AGGATCGTATTGATGGCGAGAATCGAATGTCCGCAAACAATAAAATGATCTTTACGATGCATTGTATGAT +TGTTTCCTTTTACAAGTTTGTTGAATCCCCCGCGGATAAGCGGACCAAAAATTGAGGTCATAGATGTGGC +AAAAACGGTAATGCCGGAAATAATGACCGAAATAGTGAACAATCGTGCTGATTCAGAAACAGGGACAATA +TCGCCATAGCCGACGGTTGACATGGTTTCTATCGAAAAATAGAACGCGGTCATCAAACTTTCTATTCGCG +GATTAAAACCTTCGCTTAAATAAAGCGCACCGTAGGTTGAGTAAAACAGTAATGTCGTGAAACTAATAAA +TGCAAAAATTGTCCCGGCTGCGGCGCTACTGTGGGAGAAGTCTTTGCGCAGTATCAGCAAAAACACCAGC +GTAAAAATGCAAAATCCAATACTAAATTTCAGCCAGGGATAAAAATGCAGGGTGTAAATTAGCGCTATCA +ACAACAAAATGATACTGATTGCCCATGCGAGCTTTGCCCGGAACAGTAAGCCAATGGAGTTCAGGACAAG +AAAGACGCCGAGCATAAAGAGTGGGGCGTTTGCCAGCAAGGAGAGATCCAACTCTGAAAATGCTTTGATA +TGGAAAATATCAAGCAAATTGACCGACATACCATAGATTGTTTTAAAAATAAGCAATCCATTTAAAAAGA +CGGCCAGCGCGAGAATGTCGTGCCGAAGGGTCACCCATAAATTTGTTGCTGTTTGTTTGAATGTAGCCCA +GTGACTCACTGATACCTCTGTAACCACAATTTTGTTTAATTATCTTAGCGTGCACATTTTCTGAACATAC +ATGCAGCGCGTGAATGTGTTAAACAATAGTAGATGACTTTATCCGCAGTAATCAAAGGATTTGAGCGAGC +AACTGTACCTCAGGAAAGGTCATTTTTCCTGAATATGCTCACATCATATAAAGAAATACAGATAAAGTTA +TTATCTGCTTGTGGTGGTGAATGCACTGACCGGCTATAAGGAAAGGCCAAACAAGAACACGGTTGCAAAA +ACCGTGCCCTTAAATATTGAATCTCTATTCAGAACACTTTCTTAAATGGTTTCACTGAAACGTGTTCATA +GACTCCTGCCGCTACGTACGGGTCAGCATCGGCCCAGGCCTGAGCTGCTTCCAGCGATTCAAATTCAGCA +ATAACGGTTGAGCCAGTAAATCCCGCAGCCCCTGGATCGTTACTGTCTACCGCTGGCATTGGACCAGCTG +TCAACAAACGACCTTCATCATGCAGTAACTGTAAACGTGCTAAATGTGCCGGACGAACGGAAAGGCGTTT +TTCGAGGCTATCAGCTTTGTCTTGAGCGTAAATAACATACAACACGGGCACAACTCCTTGTTCGGGAAAG +TTGTAAAGTACGTTATTTGAAAGGGCGAAGATCTGCAACGGAAAGATGATGTCTTTGTTAAGGCCATGCA +TAAAGTAAGGGTAATTACGCCAAAAATGACATTTTCACTGATCCTGATCGTCTTGCCTTATTGAATATGA +TTGCTATTTGCATTTAAAATCGAGACCTGGTTTTTCTACTGAAATGATTATGACTTCAATGACCCTTGAT +TTACCTCGCCGCTTCCCCTGGCCGACGTTACTTTCGGTCTGCATTCATGGTGCTGTTGTGGCGGGTCTGC +TCTATACCTCGGTACATCAGGTTATTGAACTACCTGCGCCTGCGCAGCCGATTTCTGTCACGATGGTTAC +GCCTGCTGATCTCGAACCGCCACAAGCCGTTCAGCCGCCACCGGAGCCGGTGGTAGAGCCAGAACCGGAA +CCTGAGCCGATCCCCGAACCGCCAAAAGAAGCACCGGTGGTCATTGAAAAGCCGAAGCCGAAACCTAAGC +CAAAACCGAAGCCGGTGAAAAAGGTACAGGAGCAGCCAAAACGCGATGTCAAACCCGTAGAGTCGCGTCC +GGCATCACCGTTTGAAAATACGGCACCGGCACGCCTGACATCAAGTACAGCAACGGCTGCAACCAGCAAG +CCGGTTACCAGTGTGGCTTCAGGACCACGCGCATTAAGCCGTAATCAGCCGCAGTATCCGGCACGAGCAC +AGGCATTGCGCATTGAAGGGCAGGTTAAAGTTAAATTTGACGTTACGCCGGATGGTCGCGTGGATAACGT +ACAAATCCTCTCAGCCAAGCCTGCGAACATGTTTGAGCGTGAGGTGAAAAATGCGATGCGCAGATGGCGT +TATGAGCCGGGTAAGCCAGGCAGTGGGATTGTGGTGAATATCCTGTTTAAAATTAACGGCACCACCGAAA +TTCAGTAAGCAGAAAGTCAAAAGCCTCCGACCGGAGGCTTTTGACTATTACTCAACAGGTAAGGCGCGAG +GTTTTCCTTCAGGATCAACCGCGACATACTTAAATAATGCTTCTGTCGCTTTATAGCGTTGCCCAATTGG +TTCAGACGCTACTTTTTTCACCCACACTTCAATATTAATGCTGACCGATGTCGTCCCTTTCTGGACACAG +CGTGCATAGCAGCACACCACATCGCCGACCGCAACCGGCCGTAAGAAAGTCATTCCTTCAACCCGCACAG +TCACTACGCGACCGTGGGCAATTTCTTTTGCCAGAATAGCGCCGCCAATATCCATTTGTGACATTAACCA +ACCACCAAAGATGTCACCATTGGCATTGGTATCGGCGGGCATGGCTAAAGTACGTAAAACAAGATCGCCC +TGAGGGACGTTATGTGTTGTAGACATGGTAAAACCGACTTAAAAGGAAAATCACAGGCGCGATGCTACTA +TGATTTTCCTGAGGAGAACAGAGGAGATACAGCGCCAGCCCCGAAGGACTGGCAGTCTGGTTAGGATTTA +TCTTCCTGCGGCATGTGGCGGTAGATATAGATACCGCTTAACAATGTGAAGATTAAGGTAAGGGCGGTCA +GGCCAAAGACTTTAAAGTTGACCCAAATATTTTGCGGCAGCCAGAATGCGATGTAGATGTTTGCCAGACC +GCAAAGGATAAAGAAAACAGCCCAGGCCAGATTCAGCTTCGACCATACCGGTTGCGGCAGCGTGAGTTCT +TTACCCAGCATCCGCTGAATTAGCGGCTTTTTCATCACCCATTGGCTGACTAACAGGGCTCCCGCAAATA +GAGCATAAATGACAGTAACCTTCCATTTAATAAACTCATCATTGTGGAAGAACAGCGTCAAGCCACCGAA +GACGACCACCAGAACAAAAGTGATCAGGGCCATCTTCTCAACCTTACGAAAGCGAACCCAGCTATAGATA +AGCACAATCGCCGTGGCGACGATCAGCGCCGCAGTAGCCGCATAGATGTCATAAATCTTGTAAAACGCGA +AAAAGACAACCAGCGGTAAAAAATCAAGAAACTGCTTCATTTTACGATTCCGTAATCAAATGCTTAAGGT +TATTGGCGAATCAACATATACAGGCGGAACAGATAGATGAGCAATATGGCTGAAATCAGGTTGCTCAAGG +TGTTCGCCAGTACGGCACCAATTTCCGGGGTTAATGCGGCAAAAGAAGAGGCAAAAAGCAGCAACAGTGT +TTTTGCCAGCAACCAGCTCAGTACTGCGGGTGCCACCAGACGCATATTCGCCCAAGTCAGCCGCATACTG +CTACGCATCGAGGCAAAAACGCCCATTTTGTCCTGTACCAACATCACCGGTGCCAGGGCCAGTAAAATGG +CCATGATAATTCCCGGAACGACCACCAGCATGATGCCAATCTGTACTAAAAGGGTAGTCAGAAAAATCAG +AATAAATAACTTTGGCAATATCGGCGCACTGGCACCAATAGCTCGCAGCGCACTGACTCTCTGACCCGCA +GACACCAGCTGGATAATTAATATTACGCCTCCGGCGAGAATGGCGTTACCGATTAATCCTGAAAAAGTGG +ACGCCGCTGAAGCCTGCAGCAAAATTTGTTGCTGTTCCGGTGACATATTCTGAACCAGGTCGAACAACCC +ACTACTGCCGCTAACGGGCACGCCGTCATTGAGCTGCGCAAGCTGTGCATCACTGGGTGAGAAAACATGC +CCTAACACCACTGTGATAAACGCACATAGCAACGATACCAACAGAATGGTCATAAATTGATTACGGAAGA +AATTTCCGGTGTCACGGTATACGGACTGCGCCGTGATAGACATGCACTCTCCTTGAGTTTTATGCAGGTG +TTAATTAGCGGGCAATTGTACCCTGGTTAAGCCTCGGGTGGCAGCATCAGGTCTTGTATGGAAAAGCATA +TCTTTGTAAAGCGGAGGTAATTGCTGGCCTTCAGGCATGGGCAAATCGCGGCAAGTGGCGACCGAGTTAA +TATTTGCGTAGCGAAAATATTTAAAAATTGATTTAAATCACATTAACCAGGATTCTCAATGCAACTTCTA +AATTAATCCAGATCAATAAAGGGTGAATTATCATATGTAATGTGATCTATGTAGGATCATTTGTTACTCC +AATGTAGGTATATTCGTCACGTTTTTATAACCATAACGACGGAGCGGATATGAAAAAGTTAACAGTGGCG +GCTTTGGCAGTAACAACTCTTCTCTCTGGCAGTGCCTTTGCGCATGAAGCAGGCGAATTTTTTATGCGTG +CAGGTTCTGCAACCGTACGTCCAACAGAAGGTGCTGGTGGTACGTTAGGAAGTCTGGGTGGATTCAGCGT +GACCAATAACACGCAACTGGGCCTTACGTTTACTTATATGGCGACCGACAACATTGGTGTGGAATTACTG +GCAGCGACGCCGTTCCGCCATAAAATCGGCACCCGGGCGACCGGCGATATTGCAACCGTTCATCATCTGC +CACCAACACTGATGGCGCAGTGGTATTTTGGTGATGCCAGCAGCAAATTCCGTCCTTACGTTGGGGCAGG +TATTAACTACACCACCTTCTTTGATAATGGATTTAACGATCATGGCAAAGAGGCAGGGCTTTCCGATCTC +AGTCTGAAAGATTCCTGGGGAGCTGCCGGGCAGGTGGGGGTTGATTATCTGATTAACCGTGACTGGTTGG +TTAACATGTCAGTGTGGTACATGGATATCGATACCACCGCCAATTATAAGCTGGGCGGTGCACAGCAACA +CGATAGCGTACGCCTCGATCCGTGGGTGTTTATGTTCTCAGCAGGATATCGTTTTTAATTCCGCACAAAA +ACGACCCCGTAATATACGGGGTCAATAAGGACATGGTATAAAGGGTATTATTTCTTCGCTTCTACGCCAT +CAGTTTCAGAGCGAATTAAAAATTTCTCAGTTGTTTGCGGAATATTCTGAATCAGCCAGTCGGCCATTTG +CTTTTCCTCATTTAAAATCGCTTCGATGGTTGGAATTGAAGCTGTATCACCGGCATTTTTTGCTGCTGCT +AATAGTGAGGTGTAACAGGCGATTTCAAATTGCTCGAAGACATATCCGCTAATAGAGCCTTTGACTATTT +CATCAGAAGGGAATATACCACCGATTGACTGCCCAAGCGCAGCCATTTTACTCATGGAATCTTTAATGAC +TGAACGTGAAATGTCATTACGATCAAGAATAGTTTCCAGTTGAACAATCTGGTTTTTGGTTTCACTAAGA +TGTTGTTCAATACGAGCGCGTAGTTCAGGATAATTATCTATACGGCTGGCCATGGATTCAAGCATAGATT +CGGCTTGCTTTTCCATTGCGTGGGCGTCACGTAACCAGTCATGATAATGTTCAATACGATTCATGAAAAT +GTCCTCTTTATAAAATGACTAAAAGTTAAAATTCATATTTCAGGCTTTATTTTCGGCTTTCTTATTTACG +TTATTAATGGCCAGATCAGTCAGTTTGATGTCGGTGGCCTTTTCTTCTTCCAGGGTTTCTTTCAGAAGCT +TCGCTGCTTTACGGTAACCTAATTGTTCAGCCAGCGTCGCTAATGTCCCGTAACTGGCAATCTCATAATG +CTCGACTTTCTGTGCTGCGGCAATCAGTGCGGCATCACGCACTTCGTTTTTCTCGGTACTTTCGATGACC +TCATTAGCTTCTTCAATAAGACCTTCCATTGCCACACATTTCATGCGCTTAATTTTCAGGTTCGATTCGG +ACTCCACAACTTGATCAATACGTTCAATCTGTCCATGAGTTTCCTCGAGGTGCGCATGAAAAGCCTGACT +TAATTTTTCATTTGATGTTGCTCTTGCGAGTTTTGCCAGTGCCCGGGTTAATTGTTTTTCTGCGCTGTAG +GTATCTGAAAGCAGGTGAATAAATACATCTTCAATGGTCTTCATATTCATATTTTTCTCCAGTGAAATCA +CTGCGAGCCATACGGCCCGCAGATGCAATTATCTTTATCAGCTGATATTAATAATTAACGGTGAATCAGG +ATTTGCCTGATTTATTACCACCGCTTTGTTGACCGCCTTTTTTACCCGCTTCAGATGCGCGTTGCGGATC +ATTTTTAAAATTACCGCCGCTATGCTGACCGCCTTTACGGCCTGCGTCGGATGCCTTCTCACGGTCTTCG +GCGAAATTTCCTGAACCACCACGATGTTCGGCCATGTTATTTCTCCCGTTGCGTTGCATTGTTTCATTAA +TATGAGTGTTGTGTGTCGACACTCATTAAAATTAGTCGCTAATGAGAATTAGTCAAATTAAGCGCAACGA +GAAGATAGAGGGAAAATATATTTTGAGGAACATTCTGGATATATTAACAATTACCTGAGGAATAAGTGAC +TTAGAGAAAATTATTGATTTTACTGGTGTTATGTTGCGGGATTAATTTGTTTGATTATATTACTGTTGGG +CGGAAAAATGACGTAAGTTGACGTTCGACCGGGGTAAGCGAAACGGTAAAAAGATAAATATTAAATGAAT +TTAGGATTTTTCCGGCTTCATTAAAGAAAGTTAAAATGCCGCCAGCGGAACTGGCGGCTGTGGGATTAAC +TGCGCGTCGCCGCTTTCATCGGTTGTACAAAAACTTTCAGTGCCGCCAGCATTTTCTCTGGCTCATTAAT +ATGTTGCTCGATGATTTTAACAATGGCCGAACCAGAAATCGCGCCCGCAGCTCCTGCATCAATCGCTGCT +TTTACCTGATCCGGGGCGGAAATACCAAATCCCTGCAATGGAGGTGCAGCGTTGTACTCTTTCAGCTTCG +CAACCAGATGATTGAGGGGTAACGCGGCGCGGTTTTCTGCGCCGGTCACGCCTGCTCGTGACAGCAAATA +GGTGTAACCACGACCGTAAGAGGCTATCTGGCGCAGCAGGTCGTCATCGGCATTTGGCGGGCAGATGAAG +ATAGGTGCGACATTATGACGCAACGCGGCCTGGCGGAAGGGCGCGGACTCTTCAACTGGCACATCGGCAA +CCAGCACCGAATCGACGCCGACTTTTTCGCACTGGGCATAAAACTCATCAATGCCTTTGTTAAACACCAG +ATTGGCATACATCAACAGGCCAATGGGAATGGTCGGGTGTTTCTGGCGAATCAGTGCCAGCATTTCAAAA +CATTGTGCCGGAGTCACACCTGCCGCAAAGGCGCGCAGAGTGGCGTTTTGAATCGTCGGGCCATCCGCCA +GTGGGTCGGAGAAGGGGATACCTAACTCCAGCGCGTCAGCACCGGCTTCAATTAGCGTATCGATAATTTT +CAATGACTGCTCAATGCCCGGATCACCGAGCGTGACGAAAGGAACGAATGCGCCTTCTTTGCGCTCCTTC +AACTGGGCAAACAGAGATTCGTAGCGTTCCATCAGATTTCCCCTCGTGCTTTCAAAATATCGTGAACGGT +GAAGATGTCTTTATCGCCGCGACCGGAAAGGTTAACCACCAGTAGCTGCTCTTTATCCGGGTTTTCGCGC +ATCATTTTCAACGCATGGGCCAGGGCGTGGGAGGATTCCAGCGCCGGGATGATCCCTTCGTGCAGGCACA +GCGTTTTGAAGGCTTCAAGGGCTTCATCATCGGTAATAGACACGTAATCAGCGCGTCCAGTGCTGTTAAG +ATACGCGTGTTGTGGGCCGACAGACGGGAAATCCAGTCCGGCGGAGATGGAGTAAGATTCTTCAATCTGC +CCGTCTTCGGTTTGCATCATCGGCGCTTTCATACCGAAATAGATACCCACGCGACCATGTTTTAGCGGTG +CGCCGTGCTCGCCAGTTTCGATACCGTGACCACCTGGCTCCACACCAATCAGGCCGACGTTGGTTTCATT +GATGAAATCAGCAAACATGCCGATGGCATTCGAACCGCCGCCAACACAGGCGATAACGGCATCCGGCAGG +CGACCTTCTCTTTCCAGAATCTGCGCTTTGGTTTCTTCGCCAATCATCCGCTGAAACTCACGCACAATGG +TCGGATAAGGATGCGGGCCAGCTGCGGTGCCCAGCATATAGTGCGCGGTTTCGTAACTACCGGACCAGTC +GCGCAGCGCCTCGTTACAGGCATCTTTCAGCGTCGCGGAACCGCTATGCACCGGGATCACTTCCGCACCC +ATTAAGCGCATACGAAAAACGTTAGGCGACTGGCGTTCAACGTCTTTGGCACCCATATAAATACGGCATT +TCAGGCCGAGCAGGGCGCTGGCAAGGGCCGACGCCACGCCATGCTGACCGGCACCGGTTTCGGCGATGAT +TTCGGTTTTACCCATCCGCTTCGCCAGCAACGCCTGCCCCAGCACCTGGTTAGTTTTATGCGCGCCGCCG +TGCAGCAAATCTTCACGCTTGAGATACAGCGTGGTGTTCGTCCCGGCTGTAATGTTCTGGCATTTGGTCA +GCGCGGTTGGACGCCCGGCATAGTTTTTCAGCAGGTCGTTGAACTGAGCCTGAAATTCAGGATCTTTTTG +CGCACTGACAAAAGCTTCTTCCAGCTGGCGCAGAGCAGGCATCAGGATTTGTGGCACGTACATGCCGCCA +AACTCACCAAAATAGGGGTTAAGTAATGTTGTCATTGTTCCTTTCCTTAATATGCGCGCAGCGTCTGGAA +AACCGAGGCCAAAAGACGTGCGTCTTTGATGCCCGGTTGCGACTCTACAGCAGAATTAAAATCAAGTCCG +GCGCAGCCGGTTTGTGCCGCTTCCACGCAGTTATCTGCGCCTAAGCCCCCCGCCAGCAGAACGTTGCCAA +GCGATTGACCATTTAATAGTGACCAGTCAAAACGTTGCCCGCTTCCACCCTGGCCGTTGTCTAAAACATA +TTTATCAACGTGCTGAAACTCGCGGGCGGGCAGGGTTTCACCGACGCTTAATGCTTTCCAGATGGCAACA +TGTGCTGGCAGAGCTTCACGCAGCGTATCGATATACAGCTGTTCTTCATTACCATGCAGTTGCACTGCCG +CCAGCGATAACACCTTAGCTTTGTCCACCACATCGGCAATATCGTGATTGCGGAACACGCCAACATACTG +CAACGGTGCCGCAGCCATCACTTCCTGCGCCTGTTCAACGTTGACGCAACGCGGTGATGTCGCAACAAAA +ATCAACCCACCGTAAATCGCGCCCGCGTCATAAGCTGCTTTAGCATCTTGCCCACGCGTCAGGCCACATA +CTTTATTCTCACCCAGCAACACCCGGCGCACGGCGGCGTGCAAATCGTCATGGGCCATCAACGCCGAACC +AATCAGAAAACCGTTAGCGAAGTGGCTTAACTCGCGCACCTGAGCGTAAGTATTGATGCCGGATTCGCTG +ATTACCGTCACGTTGTGCCCCAGTTTCGGCGCAAGCTCGCGGGTACGGTTGAGATCAATCGACAAATCAC +GCAGATCGCGGTTGTTGATGCCAACGACCTTTGCTCCCAATGCAATGGCGCGCTCCTGTTCCTCTTCATT +ACTGACTTCGGTCAGCACCCCCATCTCCAGACTGTGAGCGACGGCGGCAAGCTGGCGATATTGGTCGTCA +TCCAGTACTGAAAGCATTAATAAGCAGGCATCGGCCTGGTAATAGCGCGCCAGATAGATCTGGTAAGGGT +CGATAATGAAGTCTTTACATAAAATCGGCTGCGGGGCGATTTGGCTGACGATGGGGAGGAAATTAAAGCT +CCCCTGAAAATATTTCTCATCAGTCAGCACCGAAATTGCCGAAGCGTAATGTTTATAAATGGCGGCAATG +CGTGCTGGATCGAAATCATCACGGATCACGCCTTTTGACGGCGACGCTTTCTTGCACTCCAGAATAAACG +CCGTGCGCGCACCCTGTAGCGCATCATAAAAATGTCGCGTGCTCGGCTGAACCTCATTCTGAAAACTGGC +CAGCGGTTGCTGCTGTTTGCGGGCTTCTACCCAAATCGCCTTGTCTGCGACGATTTTCGCTAAAACGGTT +TGCATCATTTACCCTCGTGCCGCCAGTGCGGTGACTCTGTCGTAAGCGGAACCACTGCGCAGTACCTCAA +GAACGGTTTGCGCATTGGCTTGCAGATCTTCATGGCCATGCAGGCGCATTAACATGGCGACGTTCGCAGC +GACGGCTGCTTCATGGGCGGCGTCGCCTTTACCTTGTAACAAACGTGTTAAAATGTCACGGTTTTCTTCC +GGTGTTCCGCCTGCCAGTTGCTCCTGGTGGTAGGGTGTCAGGCCAAAGTCTTCTGCGGTGAGCTGATAGC +TTTTAATTTCGCCGTCATGCAGTTCGGCAACGATTGTCGGCGCGTGTAATGAAACTTCATCCATCCCGCC +GCTGTGCACCACCGCCGCGCGTTGATACCCCAGCACGCGCAAGGTTTCGGCAATCGGCAGCACCAGTTCC +GGACTATAAACACCAATTAACGCCAGCGGCGGATGCGCCGGGTTAATCAATGGCCCCAGCACATTGAACA +GGGTGCGGGTTTTCAGTTGCTGGCGAACCGGCATCGCGTGGCGGAATCCGGTGTGATACTTCGGCGCAAA +GAGGAAACATACACCTAACTCATCCAGCGCCTGGCGCGATTTATCGGCGTTCATATCAAGATTAATACCG +AACGCCGCCAGCAGATCGGACGAACCAGATTTACTGGAGACGCTACGGTTGCCGTGTTTCGCCACTTTCA +GCCCACAGGCCGCGGCGACAAACGCACTGGCGGTAGAAATATTGATACTGTTGCTGCCGTCACCGCCAGT +ACCGACGATATCAGCAAACAGATAATCCGGGCGCGGGAACGGCGCTGCGTTTTCCAGTAGCGCGGTTGCT +GCCCCGGCGATCTCGTTCGGGTGCTCACCGCGAATTTTCATGCTCACCAGCGCCGCCGCCAGTTGTTCCG +GCTTCAGCTCGCCACGCACCACCGCTGAAAACAGCTGGTGGCTTTCTTGTTGGCTAAGCGTCTGCGCCTG +ATACAGTTTTTCCAGAATCGGTTGCAGCGTGTTGGCTGGCTCTAGTTTCTGCTGCGCCCAGGCCAGCGTT +TGTTCCAGCAGGCGAGCGCCCTGGGTGGTGAGAATGGATTCCGGATGGAACTGGAATCCACAAACGCGAT +CCGCATCGTGACGTACTGCCATCACCATGCCATTAAAATGGGCGTTGATGGTTAAACCGGCCGGAATGTT +ACTGCCAACCAGCGAGTGATAACGCGCCACCGGCAGCGGGTTTGTTAATCCGGCAAACATCGCCTGACCG +TCATGTTCAATGCTGGAGGCTTTACCGTGGAGAATTTCGCCCGCCTGACCGACATAGCCCCCGTAAGCTT +CGACAATCGCCTGATGTCCGAGGCAAATGCCAATAATGGGCAGCTTGCCACGCAAGCGGGTGAGGAGTTC +CGGCATACAACCGGCTTCGCTCGGCACACCGGGGCCAGGAGAAAGCATCAGCACCGGATTGCTCATGGTC +GCCAGGCGTTCAATTAAGGTTTGCGCCGGAATATGGTTGCGGTAAATCACCACGTTATGCCCATTGCTGC +GCAACTGATCTGCCAGGTTGTACGTAAAAGAGTCGATATTATCGAGCAGCAGAATGTCAGCCATCAGAAA +GTCTCCTGTGCATGATGCGCGGTGGCAATAGCGCGCAGTACAGCGCGGGCTTTGTTACGGGTTTCGTCGG +CTTCCGACTGCGGAACAGAATCAAGGACTACACCAGCACCCGCTTGCACGGTGGCGATACCGTTTTCCAC +CAGCGCCGAGCGGATCACAATGCAGGTGTCGAGATCGCCATGCGCGGTGAAATAACCTACCGCGCCGCCG +TAGCTGCCGCGGCGACGACCTTCCGCCTCGGCAATTAACTGCATAGCGCGTACTTTCGGCGCACCGCTTA +ACGTCCCCATATTCATACAGGCGCGATAAGCGTGCAGGGCGTCAAGATCGTGACGCAGTTCGCCGACTAC +GCGAGAGACGAGGTGCATCACATAGGAATAACGGTCAACTTTGGTGAGATCGGCGACGTAGCGGCTGCCG +GGGGTGCAAATGCGTGCCAGATCATTACGGGCGAGATCAACCAGCATCAGATGTTCAGACAGCTCTTTAT +GATCGGTACGCATTTCCAGTTCAATACGGCTGTCGAGATCTCTGTCCAGTGAACCATCGGCGCGACGACC +GCGTGGGCGTGTTCCGGCAATCGGGTAGATCTCAATCTGGCGGCTGGTGGCATCATACTTGAGCGAGCTT +TCCGGCGACGCGCCAAATAGGGTGAAATCATTATCCTGCATAAAAAACATGTACGGGCTGGGATTACTCT +TTTTCAGCACGTAATAGGCCGCCAGCGGTGACGGGCAGGGCAGAGAGAAACGGCGAGATGGCACCACCTG +GAAAATTTCTCCAGCGCGAATCGCTTTTTGCAACAAACGCACTACGCCACCGAACTCTTCATCGCTCTGA +TTACATTCACAACGCATATGCGGCACGGAAACCACTGGCAGCGGCGGCGCGGCTTCGGTCAGTTGCTGAC +GTAGTTCGTTCAGGCGAGCAGTGAGACGTTGTTTTTCTTCTTCATTCGGAGCAAACAGGCTGGCCTGAAT +ACGGGTGCTTTTTTTCTGATGGTCAATCACCATCAGCGTTTCAGCGAGATAAAAACAGAAATCAGGGCAG +TTATTTTCCGCTGACAGTTGCGGTAAATCTTCAAATCCCGCCACAAGGTCATAAGAGAACAGGCCGCCGA +AGAACATGGCTTCTCGTTCTTCCTTCGGTACATTCAACAGATTCTGCAATAAACGGAAAGCGTCAAAAAC +CGAAAGGGAGCATAAGCGGGCGTCTTCATCCAGCAGTGGACTGACAGGGGGGAAGCGCAGCACACGGCAG +TTTGGTGATTGTTCACTTTCCACACCCGCAGGCAGGGCGTTATCCAGTAGTGCCAGGAGGGCTTCGCCGT +TGCCGGAAAGTGCCTGGATTGTGACAGTGTCACCTAAAGCTGTAATGCGCAGCGCACTGTCTACCAGCAG +CAGGCTTTTTAAATCATCTTTGCTGTCGATATCTGCGGATTCCAGCAGCAGCGTTGCCGGACGATCCCCA +CACAACTGGTGAAAAAGCGCGGTGGGATTGTCGCGATAAGCGCCTTCGCAGGTTAGCAGTTCGAGAGTCG +GTTTTTGTGTTTGCATTGTTATTCTCTAATTTTGTTCAAAAAAAAGCCCGCTCATTAGGCGGGCTGGGTA +TCTGATTGCTTTACGCATGGTGAATACACTGCCCGTTTCAGGAAGTGCGCCACCAACCTTTCAGTACGAA +AATTGCTTTCATTGTCGATACCCTTTTTACGTGAACTTGCGTACTAGTTAACTAGTTCGATGATTAATTG +TCAACAGCTCATTTCAGAATATTTGCCAGAACCGTTATGATGTCGGCGCAAAAAACATTATCCAGAACGG +GAGTGCGCCTTGAGCGACACGAATTATGCAGTGATTTACGACCTGCACAGCCATACCACAGCTTCCGATG +GCTGCCTGACGCCAGAAGCATTGGTGCACCGTGCAGTCGAGATGCGCGTCGGCACCCTGGCGATCACCGA +CCATGACACCACAGCTGCAATCGCGCCAGCAAGAGAGGAAATTTCACGTTCGGGACTGGCGTTGAATCTT +ATTCCCGGCGTGGAAATTTCCACGGTCTGGGAAAATCATGAAATTCATATTGTCGGGCTGAATATTGATA +TTACTCATCCGCTAATGTGTGAGTTCCTCGCGCAGCAGACAGAACGGCGCAATCAGCGGGCGCAGCTGAT +TGCCGAAAGACTTGAAAAAGCGCAAATACCTGGGGCGCTGGAAGGCGCACAACGACTGGCGCAGGGCGGC +GCAGTGACGCGCGGTCATTTTGCGCGTTTCCTTGTTGAGTGCGGCAAAGCCAGTTCAATGGCGGATGTCT +TTAAAAAGTATCTGGCGCGCGGGAAAACCGGATACGTTCCGCCACAGTGGTGTACAATAGAACAAGCTAT +TGATGTCATTCATCATTCTGGCGGTAAGGCGGTGCTAGCTCATCCTGGGCGGTACAATCTTAGTGCTAAA +TGGCTGAAAAGATTGGTTGCGCATTTTGCCGAACACCACGGTGACGCGATGGAAGTCGCGCAGTGCCAGC +AATCGCCCAATGAACGTACCCAGCTGGCGGCCCTTGCGCGTCAGCATCATTTATGGGCATCACAAGGATC +TGATTTTCATCAGCCATGCCCGTGGATCGAACTGGGTCGTAAACTCTGGCTGCCCGCAGGCGTTGAAGGC +GTCTGGCAGCTATGGGAACAGCCGCAGAACACCACAGAGAGGGAATTATGAGCCAGTTTTTTTATATTCA +TCCTGATAACCCACAGCAACGTCTGATCAACCAGGCGGTGGAGATCGTGCGTAAAGGCGGGGTGATTGTT +TATCCAACTGATTCCGGCTATGCGCTCGGCTGTAAAATTGAAGATAAAAACGCGATGGAGCGTATTTGTC +GTATTCGCCAGCTGCCGGACGGTCACAACTTTACCCTGATGTGTCGCGATCTTTCTGAACTCTCGACCTA +TTCATTTGTTGATAACGTTGCGTTTCGTTTAATGAAAAACAACACGCCGGGCAACTATACCTTCATCCTG +AAGGGGACGAAGGAAGTGCCACGCCGTCTGTTGCAGGAAAAACGCAAAACCATCGGTATGCGTGTGCCTT +CTAACCCTATCGCTCAGGCGTTACTTGAAGCATTGGGCGAACCGATGCTTTCCACTTCGCTAATGCTGCC +AGGCAGCGAATTTACCGAATCGGACCCGGAAGAAATTAAAGATCGTCTGGAAAAACAGGTAGATTTGATT +ATTCACGGCGGCTATCTCGGGCAGAAACCGACAACGGTTATTGATCTTACCGATGATACGCCGGTCGTGG +TGCGTGAAGGCGTAGGTGATGTGAAGCCTTTCTTATAACAAATTGCGTTCCACGGATGGAAGACTATGGC +AGGGAAGTTTCGCTGCATTTTGCTGTTGATAGCAGGGCTGTTTGTATCATCTCTAAGTTATGCAGAAAAC +ACGGAGATCCCTTCTTATGAAGAAGGGATCTCGCTCTTTGATGTTGAAGCCACTCTGCAACCAGATGGGG +TGCTCGACATCAAAGAAAATATTCATTTTCAGGCGCGAAATCAGCAGATTAAGCACGGCTTTTATCGTGA +TTTACCACGACTATGGATGCAGCCTGATGGGGACGCTGCACTGCTGAACTATCATATTGTTGGCGTCACC +CGTGATGGTATTCCTGAACCCTGGCATCTTGACTGGCATATCGGGTTAATGAGTATTGTCGTGGGCGATA +AACAACGTTTCTTGCCTCAAGGCGACTATCATTATCAAATTCATTATCAGGTTAAAAATGCTTTCCTGCG +TGAGGGGGATTCTGATCTGCTAATCTGGAACGTGACCGGTAACCACTGGCCGTTTGAAATTTATAAGACC +CGTTTTTCTCTCCAGTTCTCTAATATTGCGGGTAATCCATTTAGCGAAATCGATCTTTTTACCGGAGAAG +AGGGCGACACATATCGTAATGGCCGCATCCTTGAGGACGGAAGAATTGAATCCCGCGATCCGTTTTATCG +TGAAGATTTCACGGTCCTCTACCGCTGGCCTCACGCTTTACTTAGCAATGCCTCGGCTCCGCAAACGACG +AATATTTTCAGCCATCTTCTTTTACCCTCCACGTCATCGTTGTTAATTTGGTTTCCGTGTCTGTTCCTGG +TTTGTGGATGGTTATATCTCTGGAAGCGCAGGCCGCAATTTACGCCGGTAGATGTGATTGAAACCGATGT +CATTCCGCCAGATTACACGCCCGGCATGTTACGTCTCGATGCGAAGCTAGTTTACGACGATAAAGGTTTT +TGTGCCGATATCGTAAATCTGATTGTGAAAGGAAAAATTCATCTGGAAGATCAGTCTGACAAGAACCAGC +AAATCCTGATTCGTGTTAATGAAGGCGCGACCAGAAATAATGCGGTATTACTGCCCGCAGAGCAGTTATT +ACTGGAAGCGTTATTTCGTAAAGGCGATAAGGTCGTTCTTACGGGGAGACGCAACAGAGTCTTACGCAGG +GCATTTTTACGGATGCAGAAATTTTATCTGCCGCGTAAAAAGTCTTCGTTTTACCGGTCTGATACTTTTT +TGCAATGGGGTGGACTGGCAATATTGGCGGTCATTCTTTACGGTAACTTGAGTCCTGTAGGCTGGGCAGG +AATGAGTCTGGTGGGCGATATGTTTATTATGATCTGCTGGATTATTCCTTTTTTATTTTGTTCCCTTGAG +CTTTTGTTTGCCCGCGATGATGACAAGCCTTGCGTTAATCGTGTAATCATCACTTTGTTTTTACCACTGA +TTTGTTCAGGCGTGGCCTTCTATTCTCTCTACATCAATGTCGGAGATGTATTCTTTTACTGGTATATGCC +AGCGGGTTATTTTACCGCTGTTTGCCTGACCGGTTATCTCACTGGCATGGGGTATATTTTTCTGCCAAAG +TTTACCCAAACTGGACAGCAACGTTATGCCCACGGTGAAGCTATCGTTAACTATCTTGCGCGTAAAGAGG +CAGCAACACACAGTGGACGTCGGCGGAAAGGGGAAACACGGAAACTGGATTACGCGTTGCTAGGTTGGGC +TATATCGGCAAATTTGGGGAGGGAATGGGCGTTACGCATTGCCCCTTCGCTTTCTTCGGCGATTCGCGCT +CCAGAGATTGCCCGTAACGGCGTTTTATTCTCATTACAGACGCACCTAAGTTGCGGGGCCAATACCAGTT +TGTTGGGGCGAAGTTATTCCGGTGGTGGTGCTGGCGGCGGCGCGGGTGGCGGAGGCGGTGGTGGCTGGTA +ATTAAGCTGATGTTAATCGAAACAAGCTTTAACCATAAAGATAGTGTAGTATGTTGCGCCTCAAAGCCAG +GCCGATAAACGTCGAGTCGTTTACTTAAGGCCTGAAGAGTTCAAACAGACTTTACTATCAGTGAGTCAGA +TGTAAGTTCTGACTCACTGTTGCACAAAAGCATATCAGACGCCTGGGAAGGCGACACCAAAAGGAAGCTC +TATGAGCGAAAAGCTACAGAAAGTGCTGGCGCGTGCCGGCCACGGTTCTCGCCGTGAAATCGAATCTATT +ATTGAAGCCGGTCGTGTGAGTGTTGATGGCAAAATTGCTAAACTCGGCGATCGTGTTGAAGTTACCCCTG +GATTGAAAATCCGTATCGATGGTCACCTGATTTCGGTACGTGAGTCCGCTGAACAAATTTGTCGCGTTCT +GGCCTATTACAAACCGGAAGGTGAGTTGTGTACCCGTAACGATCCGGAAGGACGTCCAACGGTGTTTGAC +CGTCTGCCAAAACTGCGTGGCGCACGCTGGATTGCCGTGGGTCGCTTGGACGTTAATACCTGTGGTCTGC +TGCTGTTCACCACCGATGGTGAACTGGCAAACCGTTTAATGCACCCAAGCCGTGAAGTTGAACGTGAATA +TGCCGTGCGTGTATTTGGTCAGGTTGACGACGCGAAACTGCGTGATTTGAGTCGTGGCGTGCAGTTGGAA +GATGGTCCGGCAGCTTTTAAAACCATCAAGTTCAGCGGCGGCGAAGGGATCAACCAGTGGTACAACGTGA +CTCTGACCGAAGGCCGTAACCGTGAAGTTCGTCGTCTGTGGGAAGCGGTTGGTGTGCAGGTGAGCCGCCT +GATCCGTGTTCGTTACGGTGATATCCCACTGCCAAAAGGTCTGCCACGCGGTGGCTGGACGGAGCTGGAC +CTCGCCCAGACTAACTATCTGCGCGAACTGGTGGAGCTACCGCCAGAAACCAGCTCTAAAGTCGCTGTAG +AAAAAGACCGTCGTCGCATGAAGGCGAATCAGATTCGTCGTGCGGTGAAACGTCACAGTCAGGTGAGCGG +CGGTCGTCGTTCTGGCGGACGTAATAATAACGGTTAATCAAAGTATGCCGGACGTCATATCCGGCATTTT +TACAGATTAATAATCGATCCCTATCTGCGCTTTTACACCGGCATCAAACGCATGTTTGACGGGGCGTAAT +TCACTTACCGTATCTGCCAGTTCAAGAATATCCCGATGACAACCACGACCCGTGATAATCACCGTCTGTT +GATGTGGACGTTCATTTAACGCCTGCACCACTTCTTCCAGTGGCAAATAGTCATACGCCACCATATACGT +CAGTTCATCAAGCAAAACCATATCCAGTGAGGAATCAGCAAGCATCCGCTTTGCATGTTGCCAGACTTCG +CGGCAGGCGGCGGTATCAGACTCGCGGTTTTGTGTATCCCAGGTAAAGCCCGTTGCCATCACCTGAAACT +CAACGCCATGTGGCTCCAGCAGATTGCGTTCGCCATTAGGCCAGGTGCCTTTAATAAACTGCACGACGCC +TACTTTTTTTCCGTGACCAACTGCGCGTGTTGCCGTACCAAATGCCGCGGTGGTTTTGCCTTTTCCATTG +CCGGTAAAGACGATGATAATACCGCGTTCATCCTGGGCCTGGGCCACACGAGCATCTACTTTTTCTTTCA +CTCGCTGCTGACGCTGTTGGTAGCGTTCATCACTCATTGGGAAATTCCTGGTTTACGGCCCGGTTGGGCG +TCAAAGGTCATGCCGGTTTTACGGCGGCTGTCATCGCCCATCAGCCAGAGGTAGAGCGGCATGATATCAG +CGGGTGTTTTAAGTTTCTGTGGATCTTCGGTCGGGAAGGCGCTGGCACGCATTGCGGTGCGCGTACCGCC +TGGGTTAATGCAGTTGACACGCAGGCGCTGCTGATATTCATCGGCCAGTACCTGCATCATCCCTTCGGTG +GCAAATTTCGACGCTGCATATGCACCCCAGTTGGCTCGTCCCTGACGTCCAACGCTTGATGAAGTAAAGA +CCAGTGAACCGGCGTCCGATTTGAGTAATAAAGGAAGCAGTGCCTGGGTGAGCATAAAGGTGGCATTAAC +GTTGACCTGCATGACGTCCTGCCAGACCTGCGGATTTTGTTCGCTCATTGGGCAAACATCGCCGAGCAAT +CCGGCATTATGCAAAACACCATCCAGACGCGGATAATTAACGGCAATGCGCTGTGCCAGTTGTTGGCAAT +TTTCGGACGTGCAGGTCAGCAAATCGAGAATAAACCACTGTGGCTGACGCCCAGTTTCTTCGTTTATGTG +GCTGGCTACCTGACGTAATTTTTCTTCATTACGGCCCAACAGAATCACTGTCGCACCATAGCGTGCATAC +GTCATCGCGGCTTCACGACCAATACCATCGCTGGCTCCCGTCACCAGGATAATGCGATCATTGAGTAAAT +CTTGTTTTGGCTGGTAATGCATGGCTACTCCTCAACGACGTTGTCTGTCGCGCTGCCAGTGTACTTTATG +ACTTTGGGGCTTTATGCCTGAAACAGAAGGGCATTTCAATCAGCCTGGGGCGATAACACCGCAAAATGGA +TACTTTGTCATACTTTCGCTGCAATAACATCTCTGCGAGACGGCTTAACATGCCTGTTGTAAACTGTGAG +CCAAAGCGTTGTTTAACCAAGGTGGGGACTCGTGGAATTGTTGTCTGAATATGGTTTGTTTTTGGCGAAA +ATCGTTACCGTTGTGCTAGCGATTGCGGCGATTGCCGCCATTATTGTCAATGTTGCTCAACGTAATAAAC +GCCAGCGTGGCGAGTTACGGGTCAACAATCTCAGCGAACAGTATAAGGAGATGAAAGAAGAACTGGCCGC +GGCGCTGATGGACTCACATCAGCAAAAACAGTGGCACAAAGCGCAGAAGAAAAAGCATAAGCAAGAAGCG +AAAGCAGCAAAAGCGAAAGCCAAACTGGGCGAGGTGGCAACTGACAGTAAACCCCGCGTCTGGGTGCTGG +ATTTTAAAGGCAGCATGGACGCCCATGAAGTGAACTCGCTACGTGAAGAGATAACGGCTGTACTCGCAGC +ATTCAAACCGCAGGATCAGGTTGTGCTCCGTCTGGAAAGCCCTGGTGGCATGGTGCATGGTTACGGGCTG +GCGGCTTCGCAACTGCAGCGTCTGCGCGATAAAAACATTCCTTTAACTGTTACGGTAGACAAAGTCGCTG +CCAGCGGCGGTTACATGATGGCCTGTGTGGCGGACAAAATTGTTTCCGCACCGTTTGCTATTGTGGGTTC +CATTGGCGTGGTGGCGCAAATGCCCAACTTTAACCGCTTCCTGAAAAGCAAAGATATTGATATCGAACTG +CACACTGCCGGGCAGTATAAGCGCACGCTGACGTTGCTGGGTGAAAATACCGAAGAAGGGCGGGAGAAAT +TCCGCGAAGAGTTGAACGAAACGCATCAGTTGTTTAAAGATTTTGTGAAGCGTATGCGTCCTTCTCTGGA +TATTGAACAGGTGGCAACGGGTGAACACTGGTACGGACAACAGGCGGTAGAGAAAGGCCTGGTTGATGAA +ATCAACACCAGTGATGAAGTTATTCTTAGCCTGATGGAAGGCCGTGAAGTGGTCAATGTACGCTATATGC +AGCGTAAACGACTCATTGACCGATTCACCGGCAGCGCGGCAGAGAGCGCCGATCGATTGTTGCTACGCTG +GTGGCAGCGGGGTCAAAAGCCATTGATGTAAAAGACAAACGCGAGGCTAAGACCTCGCGTTTTGCTTTAA +TCAACCAGATGATATTTTTCTGAAAGCACATGGGCCAGGTGTTTGAACATATTAAACACCGCGGTGCTTT +TGGCTGTTGGCAATCCTTGTTCATCTAAAAAGTAGTCGCCGGTAAATACCAGCACGCCATTACGCTGCGT +GACGCCGGTGGCTTCAATCCCTGCGAGCGTATCCTCATGCTCACGAATGATTTTGTTGGCCTCTTTCAAC +AGCGTTTCGCGGTCGATGGGTTGTGTCTCTTTGTTCATTATTTACTCCTTAAACAAGGACATTAGTCTAC +GCCAGGCATGGCTTGCAGACAAATATACCACGCTGGTGGCAAGAGCGCCTTACTGGCAACTTTGGATTTT +GCATGCTAATAAAGTTGCGTATCGGATTTTATCAGGTACAGTGTGACGCTTTCGTCAATCTGGCAATAGA +TTTGCTTGACATTCGACCAAAATTCCGTCGTGCTATAGCGCCTGTAGGCCAAGACCTGTTAACTCAGTCA +CCTGAATTTTCGTGAACAGAGTCACGACAAGGGGTTGATATCCGCAGAGAGCGAGTCCATATCGGTAACT +CGTTGCCAGTGGAAGGTTTATCAACGTGCGACGCATTCCTGGAAGAATCAAATTAGGTAAGGTGAATATG +GGTAAAGCTCTTGTCATCGTTGAGTCCCCGGCAAAAGCCAAAACGATCAACAAGTATCTGGGTAGTGACT +ACGTGGTGAAATCCAGCGTCGGTCACATCCGCGATTTGCCGACCAGTGGCTCAGCTGCCAAAAAGAGTGC +CGACTCTACCTCCACCAAGACGGCTAAAAAGCCTAAAAAGGATGAACGTGGCGCTCTCGTCAACCGTATG +GGGGTTGACCCGTGGCACAATTGGGAGGCGCACTATGAAGTGTTGCCTGGTAAAGAGAAGGTCGTCTCTG +AACTGAAACAACTGGCTGAAAAAGCCGACCACATCTATCTCGCAACCGACCTTGACCGCGAAGGGGAAGC +CATTGCATGGCACCTGCGGGAAGTGATTGGGGGTGATGATGCGCGCTATAGCCGAGTGGTGTTTAACGAA +ATTACTAAAAACGCGATCCGCCAGGCATTTAACAAACCGGGTGAGCTGAATATTGATCGTGTTAATGCCC +AGCAGGCGCGTCGCTTTATGGACCGCGTGGTGGGGTATATGGTTTCGCCGCTGCTATGGAAAAAGATCGC +TCGTGGCCTGTCTGCCGGTCGTGTGCAGTCGGTGGCGGTTCGCCTGGTGGTCGAGCGTGAGCGTGAAATT +AAAGCGTTCGTGCCGGAAGAGTTCTGGGAAGTCGATGCCAGCACGACCACGCCATCTGGTGAAGCGTTGG +CGTTACAGGTGACTCATCAGAACGACAAACCGTTCCGTCCGGTCAACAAAGAACAAACTCAGGCTGCGGT +AAGTCTGCTGGAAAAAGCGCGCTACAGCGTGCTGGAACGTGAAGACAAACCGACAACCAGTAAACCTGGC +GCTCCTTTTATTACCTCTACGCTGCAACAAGCTGCCAGCACCCGTCTTGGATTTGGCGTGAAAAAAACCA +TGATGATGGCGCAGCGTTTGTATGAAGCAGGCTATATCACTTACATGCGTACCGACTCCACTAACCTGAG +TCAGGACGCGGTAAATATGGTTCGCGGTTATATCAGCGATAATTTTGGTAAGAAATATCTGCCGGAAAGT +CCGAATCAGTACGCCAGCAAAGAAAACTCACAGGAAGCGCACGAAGCGATTCGTCCTTCTGACGTCAATG +TGATGGCGGAATCGCTGAAGGATATGGAAGCAGATGCGCAGAAACTGTACCAGTTAATCTGGCGTCAGTT +CGTTGCCTGCCAGATGACCCCAGCGAAATATGACTCCACGACGCTGACCGTTGGTGCGGGCGATTTCCGC +CTGAAAGCACGCGGTCGTATTTTGCGTTTTGATGGCTGGACAAAAGTGATGCCTGCGTTGCGTAAAGGCG +ATGAAGATCGCATCTTACCAGCAGTTAATAAAGGCGATGCTCTGACGCTCGTTGAACTTACACCAGCCCA +GCACTTTACCAAGCCGCCAGCCCGTTTCAGTGAAGCATCGCTGGTTAAAGAGCTGGAAAAACGCGGTATC +GGTCGTCCGTCTACCTATGCGTCGATCATTTCGACCATTCAGGATCGTGGCTACGTGCGAGTAGAAAATC +GTCGTTTCTATGCGGAAAAAATGGGCGAAATCGTCACCGATCGCCTTGAAGAAAATTTCCGCGAGTTAAT +GAACTACGACTTTACCGCGCAGATGGAAAACAGCCTCGACCAGGTGGCAAATCACGAAGCAGAGTGGAAA +GCTGTACTGGATCACTTCTTCTCGGATTTCACCCAGCAGTTAGATAAAGCTGAAAAAGATCCGGAAGAGG +GTGGTATGCGCCCGAACCAGATGGTTCTGACCAGCATTGACTGCCCGACTTGTGGTCGCAAAATGGGGAT +TCGCACAGCGAGCACCGGGGTATTCCTTGGCTGTTCTGGCTATGCGCTGCCGCCGAAAGAGCGTTGCAAA +ACCACCATTAACCTGGTGCCGGAAAACGAAGTGCTGAACGTGCTGGAAGGCGAAGATGCTGAAACCAACG +CGCTGCGCGCAAAACGTCGTTGCCCGAAATGCGGCACGGCGATGGACAGCTATCTCATCGATCCGAAACG +TAAGTTGCATGTCTGTGGTAATAACCCAACCTGCGACGGTTACGAGATCGAAGAGGGCGAATTCCGCATT +AAAGGTTATGACGGCCCGATCGTTGAGTGTGAAAAATGTGGCTCTGAAATGCACCTGAAAATGGGGCGTT +TCGGTAAATACATGGCCTGCACCAACGAAGAGTGTAAAAACACACGTAAGATTTTACGTAACGGCGAAGT +GGCACCACCGAAAGAAGATCCGGTGCCATTACCTGAGCTGCCGTGCGAAAAATCAGATGCTTATTTCGTG +CTGCGTGACGGTGCTGCCGGTGTGTTCCTGGCTGCCAACACTTTCCCGAAATCGCGTGAAACGCGTGCGC +CACTGGTGGAAGAGCTTTATCGCTTCCGCGACCGTCTGCCGGAAAAACTGCGTTATCTGGCCGATGCGCC +ACAGCAGGATCCGGAAGGTAATAAGACCATGGTTCGCTTTAGCCGTAAAACCAAACAGCAATATGTCTCT +TCGGAAAAAGACGGAAAGGCGACTGGCTGGTCAGCATTTTATGTTGATGGCAAATGGGTTGAAGGAAAAA +AATAACCTTTAATTCTGTCAGGTTTTTATAAACAAAGGGTCGCGAAAGCGGCCCTTTTTTATTGCATATT +ATTTTTTCTTCACACCTATACACTAAGGCTATAAATGATATAGTGGTTATAGTTAGCACCTTTTTTATTA +TTAAATCGTATTAGTCACCCGCCAGGTGTGACGAAAAAACGATGTTCTGATGGCGTCTAAGTGGATGGTT +TAACATGAAATTACAACAACTTCGCTATATTGTTGAGGTGGTCAATCATAACCTGAATGTCTCATCAACA +GCGGAAGGACTTTACACATCACAACCCGGGATCAGTAAACAAGTCAGAATGCTGGAAGACGAGCTAGGCA +TTCAAATTTTTTCCCGAAGCGGCAAGCACCTGACGCAGGTAACGCCAGCAGGGCAAGAAATAATTCGTAT +CGCTCGCGAAGTCCTGTCGAAAGTCGATGCCATAAAATCGGTTGCCGGAGAGCACACCTGGCCGGATAAA +GGTTCACTGTATATCGCCACCACGCATACCCAGGCACGCTACGCATTACCAAACGTCATCAAAGGCTTTA +TTGAGCGTTATCCTCGCGTTTCTTTGCATATGCACCAGGGCTCGCCGACACAAATTGCTGATGCCGTCTC +TAAAGGCAATGCTGATTTCGCTATCGCCACAGAAGCGCTGCATCTGTATGAAGATTTAGTGATGTTACCG +TGCTACCACTGGAATCGGGCTATTGTAGTCACTCCGGATCACCCGCTGGCAGGCAAAAAAGCCATTACCA +TTGAAGAACTGGCGCAATATCCGTTGGTGACATATACCTTCGGCTTTACCGGACGTTCAGAACTGGATAC +TGCCTTTAATCGCGCAGGGTTAACGCCGCGTATCGTTTTCACGGCAACGGATGCTGACGTCATTAAAACT +TACGTCCGGTTAGGGCTGGGGGTAGGGGTCATTGCCAGCATGGCGGTGGATCCGGTCGCCGATCCCGACC +TTGTGCGTGTTGATGCTCACGATATCTTCAGCCACAGTACAACCAAAATTGGTTTTCGCCGTAGTACTTT +CTTGCGCAGTTATATGTATGATTTCATTCAGCGTTTTGCACCGCATTTAACGCGTGATGTCGTTGATGCG +GCTGTCGCATTGCGCTCTAATGAAGAAATTGAGGTCATGTTTAAAGATATAAAACTGCCGGAAAAATAAT +TTCTTGCGTTATTTTCGGCACCTTTTATGTAGCGAAGGTGCCGGAATATATTCTCTTTTGTTACTTATTT +CTATACCGTGCACAATATTTTTATCCCTCATATTTATAGGGTAAATTACCTGTAAAGTAGTGTCTAATTA +CCCGCCTCGCAAACTCCAGTTTTCAAATATCTATTTCAGGTCAAAAGATTGAATTATTCACTGGAGACGA +TTCGTAAATTCGCTGGATTTTTGACTAAAGTTTCTTTAGGATTTGTCTCATCGTATGATTAATTACACCA +ATCGTTCAACGTCTTGCTGATAAGTGATGGCGATTATATGAGGTTAGCAATGCCTTCTGGAAATCAGGAA +CCCCGCCGCGATCCTGAATTAAAACGTAAAGCCTGGCTGGCGGTTTTTCTTGGTTCTGCACTTTTCTGGG +TGGTTGTCGCACTGCTGATTTGGAAAGTGTGGGGATAACTATGGTCGGTCAGGAGCAACTGGAGTCGTCA +CCATTATGCCAGCATAGTGACAATGAAACAGAAACGAAACGGGAATGTTCCGTCGTTATTCCAGACGACT +GGCAACTAACATCGCAGCAGCAAGCCTTTATAGAACTGTTTGCTGAAGATGATCAGCCGAAACAATAATT +ATCATCATTCTTATTACCCATTTTTAATGAATTAAAGGGCTTTTAATACACCGCAGCAATAACAGCTTGA +GTTATCTCAACACAAAATAATAACCGTTAAGGGTGTAGCCTATGATCAACACAAATATGAAATATTGGTC +CTGGATGGGCGCGTTTTCTCTGTCGATGCTCTTCTGGGCCGAACTCCTCTGGATCATTACTCACTGATCC +TTGACCCCGCTGCGGCGGGGTTGTCATTTGCTTTGCCACAAGGTTTCTCCTCTTTTATCAATTTGGGTTG +TTATCAAATCGTTACGCGATGTTTGTGTTATCTTTAATATTCACCCTGAAGAGAATCAGGGCTTCGCAAC +CCTGTCATTAAGGAGGAGCTATGTCGTCAACCCTACGAGAAGCCAGTAAGGACACGTTGCAGGCCAAAGA +TAAAACTTACCACTACTACAGCCTGCCGCTTGCTGCTAAATCACTGGGCGATATCACCCGTCTACCCAAG +TCACTCAAAGTTTTGCTCGAAAACCTGCTGCGCTGGCAGGATGGTAACTCGGTTACCGAAGAGGATATCC +ACGCGCTGGCAGGATGGCTGAAAAATGCCCATGCTGACCGTGAAATTGCCTACCGCCCGGCAAGGGTGCT +GATGCAGGACTTTACCGGCGTACCTGCCGTTGTTGATCTGGCGGCAATGCGCGAAGCGGTTAAACGCCTC +GGCGGCGATACTGCAAAGGTTAACCCGCTCTCACCGGTCGACCTGGTCATTGACCACTCGGTGACCGTCG +ATCGTTTTGGTGATGATGAGGCATTTGAAGAAAACGTACGCCTGGAAATGGAGCGCAACCACGAACGTTA +TGTGTTCCTGAAATGGGGAAAGCAAGCGTTCAGTCGGTTTAGCGTCGTGCCGCCAGGCACAGGCATTTGC +CATCAGGTTAACCTCGAATATCTCGGCAAAGCAGTGTGGAGTGAATTGCAGGACGGTGAATGGATTGCTT +ATCCGGATACACTCGTTGGTACTGACTCGCACACCACCATGATCAACGGCCTTGGCGTGCTGGGGTGGGG +CGTTGGTGGGATCGAAGCAGAAGCCGCAATGTTAGGCCAGCCGGTTTCCATGCTTATCCCGGATGTAGTG +GGCTTCAAACTTACCGGAAAATTACGTGAAGGTATTACCGCCACAGACCTGGTTCTCACTGTTACCCAAA +TGCTGCGCAAACATGGCGTGGTGGGGAAATTCGTCGAATTTTATGGTGATGGTCTGGATTCACTACCGTT +GGCGGATCGCGCCACCATTGCCAATATGTCGCCAGAATATGGTGCCACCTGTGGCTTCTTCCCAATCGAT +GCTGTAACCCTCGATTACATGCGTTTAAGCGGGCGCAGCGAAGATCAGGTCGAGTTGGTCGAAAAATATG +CCAAAGCGCAGGGCATGTGGCGTAACCCGGGCGATGAACCAATTTTTACCAGTACGTTAGAACTGGATAT +GAATGACGTTGAAGCGAGCCTGGCAGGGCCTAAACGCCCACAGGATCGCGTTGCACTGCCCGATGTACCA +AAAGCATTTGCCGCCAGTAACGAACTGGAAGTGAATGCCACGCATAAAGATCGCCAGCCGGTCGATTATG +TTATGAACGGACATCAGTATCAGTTACCTGATGGCGCTGTGGTCATTGCTGCGATAACCTCGTGCACCAA +CACCTCTAACCCAAGTGTGCTGATGGCCGCAGGCTTGCTGGCGAAAAAAGCCGTAACTCTGGGCCTCAAG +CGGCAACCATGGGTCAAAGCGTCGCTGGCACCGGGTTCGAAAGTCGTTTCTGATTATCTGGCAAAAGCGA +AACTGACACCGTATCTCGACGAACTGGGGTTTAACCTTGTGGGATACGGTTGTACCACCTGTATTGGTAA +CTCTGGGCCGCTGCCCGATCCTATCGAAACGGCAATCAAAAAAAGCGATTTAACCGTCGGTGCGGTGCTG +TCCGGCAACCGTAACTTTGAAGGCCGTATCCATCCGCTGGTTAAAACTAACTGGCTGGCCTCGCCGCCGC +TGGTGGTTGCCTATGCGCTGGCGGGAAATATGAATATCAACCTGGCTTCTGAGCCTATCGGCCATGATCG +CAAAGGCGATCCGGTTTATCTGAAAGATATCTGGCCATCGGCACAAGAAATTGCCCGTGCGGTAGAACAA +GTCTCCACAGAAATGTTCCGCAAAGAGTACGCAGAAGTTTTTGAAGGCACAGCAGAGTGGAAGGGAATTA +ACGTCACACGATCCGATACCTACGGTTGGCAGGAGGACTCAACCTATATTCGCTTATCGCCTTTCTTTGA +TGAAATGCAGGCAACACCAGCACCAGTGGAAGATATTCACGGTGCGCGGATCCTCGCAATGCTGGGGGAT +TCAGTCACCACTGACCATATCTCTCCGGCGGGCAGTATTAAGCCCGACAGCCCAGCGGGTCGATATCTAC +AAGGTCGGGGTGTTGAGCGAAAAGACTTTAACTCCTACGGTTCGCGGCGTGGTAACCATGAAGTGATGAT +GCGCGGCACCTTCGCCAATATTCGCATCCGTAATGAAATGGTGCCTGGCGTTGAAGGGGGGATGACGCGG +CATTTACCTGACAGCGACGTAGTCTCTATTTATGATGCTGCGATGCGCTATAAGCAGGAGCAAACGCCGC +TGGCGGTGATTGCCGGGAAAGAGTATGGATCAGGCTCCAGTCGTGACTGGGCGGCAAAAGGTCCGCGTCT +GCTTGGTATTCGTGTGGTGATTGCCGAATCGTTTGAACGAATTCACCGTTCGAATTTAATTGGCATGGGC +ATCCTGCCGCTGGAATTTCCGCAAGGCGTAACGCGTAAAACGTTAGGGCTAACCGGGGAAGAGAAGATTG +ATATTGGCGATCTGCAAAACCTACAACCCGGCGCGACGGTTCCGGTGACGCTTACGCGCGCGGATGGTAG +CCAGGAAGTCGTACCCTGCCGTTGTCGTATCGACACCGCGACGGAGTTGACCTACTACCAGAACGACGGC +ATTTTGCATTATGTCATTCGTAATATGTTGAAGTAACAACTATTTGCTTGCCGGTTATTTTGCTTCCGGC +AAGCAAATGAATTACACAATGCAAGAGGGTTATTTGTTCAGCAAATGGCCCATTTTCTCGGCTTTGGTAT +CGAGATAATGTTCGTTATTGGGGTTACGACCTACAATCAATGGTACGCGTTCAACAATATTAATCCCTGC +TTCGGTCAGAATTTCGACTTTTTTCGGGTTATTGGTTAACAAGCGGACTTCATTGACGCCAAGGAGTTTG +AACATATCAGCGCAAAGAGTGAAGTCGCGCTCATCAGCGGCGAAGCCTAACTGGTGGTTAGCCTCTACGG +TATCGTAACCTTGATCCTGCAGTGCGTAAGCGCGGATTTTATTCAGCAGACCAATGTTACGACCTTCCTG +ACGGTGATACAGCAAAATACCACGGCCTTCCTCGGCAATTTGCGTCAATGCCGCTTCGAGCTGGAAGCCA +CAATCGCAGCGCAAGCTGAACAGGGCGTCACCGGTCAGACATTCGGAATGGACGCGCGCAAGTACCGGGG +TATGCCCGGAAATATCGCCATAGACTAGCGCGACATGATCGTGTCCGGTTGCCAGTTCTTCAAATCCCAC +CATCAGGAAATCGCCCCATGGGGTTGGCAGTTTGGCTTCTGCCACACGTTTAAGCTGCATGAAATTCTCC +AGATAATGCTGGTTCTGTATTGGCTTATTTTGCCATAACGAGAAGGGGTTCACCTAATCACGACGCGTCG +ATCGTTCACGGAATGGCACAAATCTGTCAATTTTTCCTGGAACTGGCGTTTTCAGTTATGATTGTGGGAC +TTATCAAAAAGGAGAGGCCATGCGTTCGATTGCCAGACGTACCGCAGTGGGAGCTGCACTATTGCTTGTC +ATGCCAGTAGCCGTATGGATTTCTGGCTGGCGTTGGCAACCTGGAGAACAAAGTTGGCTACTAAAAGCGG +CTTTTTGGGTTACTGAAACTGTCACCCAGCCCTGGGGCGTCATTACACATTTGATTTTATTCGGCTGGTT +TCTCTGGTGTCTGCGTTTTCGCATTAAGGCTGCCTTTGTATTATTTGCCATTCTGGCGGCCGCAATCCTT +GTGGGACAAGGCGTTAAATCCTGGATCAAAGACAAAGTCCAGGAACCACGACCTTTTGTTATCTGGCTGG +AAAAAACACATCATATTCCGGTTGATGAGTTCTACACTTTAAAGCGAGCAGAACGCGGAAATCTAGTGAA +AGAACAGTTGGCTGAAGAGAAAAATATCCCACAATATTTGCGTTCACACTGGCAGAAAGAGACGGGGTTT +GCCTTTCCTTCCGGTCACACGATGTTTGCTGCCAGTTGGGCACTGCTGGCCGTTGGTTTGCTGTGGCCGC +GTCGGCGAACGTTAACCATTGCTATCTTGCTGGTCTGGGCAACGGGAGTCATGGGAAGCCGCCTGCTGCT +CGGGATGCATTGGCCACGCGATCTGGTAGTAGCTACGTTGATTTCGTGGGCGCTGGTGGCGGTGGCAACG +TGGCTTGCGCAACGAATTTGTGGGCCATTAACACCACCTGCGGAAGAAAATCGCGAAATAGCGCAACGAG +AACAAGAAAGTTAACGCTGGTTGATTTTCCGAATTTAGCCCTTAAATCATCAACAATGCGTGTGGATGCC +ATTTCGCAGACGGCGCGAAAATGGTACTTTAAAGGGCTATTGCGGTAAGTTGACCATAATTTATTCGCTC +TAACCACATAACGGGAAGTAATGTGAAATATTTACTCATTTTCTTACTGGTGTTAGCGATCTTCGTGATT +TCGGTCACGTTGGGTGCGCAGAACGATCAACAGGTGACGTTTAATTATCTGTTAGCGCAAGGGGAGTACC +GTATTTCCACATTGCTGGCGGTATTGTTTGCTGCGGGGTTTGCTATCGGTTGGTTGATTTGTGGCCTGTT +CTGGCTGCGAGTTCGTGTTTCCCTGGCGCGCGCTGAACGTAAAATAAAGCGACTGGAAAACCAGCTTTCA +CCCGCGACTGACGTGGCTGTAGTGCCGCACTCGTCAGCGGCGAAGGAATAACTTTCTATGCTGGAGTTGT +TGTTTCTGCTTTTGCCTGTAGCCGCTGCCTATGGCTGGTATATGGGCCGCAGAAGTGCGCAACAAAACAA +GCAAGATGAAGCCAACCGCTTGTCGCGTGATTACGTAGCGGGGGTTAACTTCCTGCTTAGTAATCAACAG +GATAAAGCGGTAGACCTGTTTCTCGATATGCTTAAAGAGGATACAGGCACCGTTGAAGCCCACCTTACGC +TCGGAAACCTGTTCCGTTCGCGTGGCGAAGTTGATCGCGCTATTCGCATCCATCAGACCCTAATGGAAAG +CGCCTCGCTGACCTATGAACAGCGTCTGTTGGCGATTCAACAACTGGGGCGTGATTACATGGCCGCCGGG +TTATATGACCGCGCGGAAGACATGTTCAATCAGCTGACCGATGAAACTGACTTCCGCATTGGCGCGCTGC +AACAGTTGCTACAAATCTACCAGGCTACCAGTGAGTGGCAGAAAGCAATTGATGTTGCCGAACGCCTGGT +GAAGCTGGGTAAAGATAAACAGCGCGTCGAAATTGCCCATTTCTACTGTGAGTTAGCCCTGCAGCATATG +GCCAGCGACGATCTCGATCGTGCCATGACCTTGCTAAAAAAAGGGGCGGCGGCAGATAAAAACAGCGCCC +GCGTATCCATAATGATGGGACGCGTGTTTATGGCGAAAGGAGAATACGCCAAAGCCGTCGAAAGTCTGCA +ACGCGTGATATCCCAGGACAGAGAACTGGTCAGCGAAACGCTGGAAATGTTGCAAACCTGCTATCAGCAG +TTGGGTAAAACTGCCGAATGGGCAGAATTCCTGCAGCGTGCGGTGGAAGAGAACACCGGTGCCGATGCTG +AATTGATGCTTGCTGATATCATCGAAGCGCGCGACGGTAGTGAGGCCGCACAGGTCTATATTACGCGCCA +GCTTCAGCGTCATCCGACCATGCGTGTGTTCCATAAGTTAATGGATTACCACTTAAATGAAGCGGAAGAA +GGGCGTGCCAAAGAGAGCCTGATGGTGCTGCGTGACATGGTTGGCGAGAAGGTACGTAGTAAGCCTCGTT +ATCGTTGCCAGAAATGTGGTTTTACCGCATACACCCTCTACTGGCATTGTCCGTCTTGTCGGGCCTGGTC +AACCATTAAACCGATTCGCGGTCTTGATGGCCTGTAATTTTTAAAAAAAATCCGACTTTAGTTACAACAT +ACTAATTATTAATGTTCCATTGTGCTCCGGCAACGACGGCGCAGAAAAAGCCTGCCAGGGGAGAAATCGC +AACTGTTAATTTTTTATTTCCACGGGTAGAATGCTCGCCGTTTACCTGTTTCGCGCCACTTCCGGTGCCC +ATCATCAAGAAGGTCTGGTCATGACGTTAACTGCTTCATCTTCTTCCCGCGCTGTTACGAATTCTCCTGT +GGTTGTTGCCCTTGATTATCATAATCGTGATGACGCGCTGGCCTTTGTCGACAAGATCGACCCACGCGAT +TGTCGTCTGAAGGTCGGCAAAGAGATGTTTACATTGTTTGGGCCACAGTTTGTGCGCGAACTTCAACAGC +GTGGTTTTGATATCTTTCTTGACCTGAAATTCCACGATATCCCCAACACTGCAGCGCACGCTGTCGCTGC +TGCAGCTGACTTAGGCGTGTGGATGGTGAATGTTCATGCCTCTGGTGGGGCGCGTATGATGACCGCAGCG +CGTGAGGCACTGGTTCCGTTTGGCAAAGATGCACCGCTTTTGATTGCTGTGACAGTGTTGACCAGCATGG +AAGCCAGCGACCTGGTCGATCTTGGCATGACACTGTCACCTGCAGATTATGCAGAACGTCTGGCGGCACT +GACGCAAAAATGTGGCCTTGATGGTGTGGTGTGTTCTGCTCAGGAAGCTGTGCGCTTTAAACAGGTATTC +GGTCAGGAGTTCAAACTGGTTACGCCGGGCATTCGTCCGCAGGGGAGTGAAGCTGGTGACCAGCGCCGCA +TTATGACGCCAGAACAGGCGTTGTCGGCTGGTGTTGATTATATGGTGATTGGTCGCCCGGTAACGCAATC +GGTAGATCCAGCGCAGACGCTGAAAGCGATCAACGCCTCTTTACAGCGGAGTGCATGATGAGTGATTCCA +ACAGCCGTCTGGTCTACTCAACGGAAACCGGACGTATTGATGAGCCCAAAGCGGCCCCTGTACGCCCTAA +AGGCGACGGTGTGGTGCGTATTCAGCGTCAGACCAGTGGACGTAAAGGTAAGGGCGTTTGCCTGATTACC +GGTGTCGATCTCGATGATGCCGAACTGACAAAACTTGCAGCGGAACTGAAGAAAAAATGCGGCTGCGGCG +GAGCAGTTAAAGATGGAGTTATTGAAATCCAGGGCGATAAGCGTGATTTATTAAAATCACTACTTGAAGC +GAAAGGGATGAAGGTAAAACTCGCAGGCGGTTAACATAAAAAGCCACGGATATATCCGTGGCTTTCGAAT +ATTTTACTGTGCGTATTATTCAGTTATTTCGTACTGAACAGAATCAAGCGTATTATAATTGCGAGTCGAT +AATCGACATTTATTTACGATTATTTACCGACCTGGTGACCAATAACACCTCCGACAGCTGCACCACCTAA +TGTACCCAACGTACTGCCATCGGTCAGTACTGCACCGCCTAATGCCCCTGCACCCGCGCCGATTGCGGTG +TTGCGGTCCCGTTTAGACCAGTTAGAACAGGCACTCAGAGACATTGCCAAAGTAATTGCCAGAACAGCCG +CGGTCATTTTTTTGCTCGTTACAAACATAATACTCTCTCCTGAATTTATGATTCACGGAAGTAAGCTCTC +TATAACTATAATAGCTAAGAATAAGTCTGGTGAAATTATTCCGTGAAATCTGCTCGCGCGCAGGGTTATA +TCACGCAGGTGATAATGACTTCCTGTTATATCGCTGATAATAATTTTATATCTTGAGAGTGTTAATAACA +GGTAAATAGTCTTAATTATCAACCAGGAATCATCTTAGAGCGGATGATTTGCCAAACTGCAAATCATCCG +TAGAGAAGGGAAATGGTTAAATGTCAACGACGTGAATGGTGAGTTTACTGTGCTCAAGATGCATCAGATC +GCTGGCGCGTATTTTCGAATCGGTAATCACGCGATTGAATCGCTCAACGGGACCGATGGAGTATGAATGT +ACAGCACCAAATTTCGAGCTGTCAGTCAGGACTATCGCTTCGCACTCTTTTTCCAGCACGGCATTGACCA +CATCGGTACGCATCATATCGCGACCGGTAAATCCAGTTTCAGGTTGCCAGCCATCAATACCAATAAATGC +TTTGCTGAAATGCACCTGTTGGATGCACTGGCGTGTCAAAGGGCCAACCATACTTTCGCTTTTTTTCTGA +TACACGCCACCGAGCAAAATAACTTCACAAGGCGCGTCTTTCAGCAAATGCGCGATGTAGCTGCTGACCG +TGATGATAGTGACATTTTTCTTCTGCTCGCCCAGAGTCCGGGCGAGTAGGGCATTGCTGCTGCCATTTTC +GATAAAGATGGTTTCGCCCGGTTGAACCAGCGACGCGGCAAACTCGGCGAGTTCACGCTTCAGCGTATAG +TTGCTCATCATACGGGTTTCGACGTCATCACTATCAAGCGAAACAGCAAAGCCATGTGCACGGCGGAGGT +AACTCAGTTTTTCGAGTGTGTTGAGATCCTGGCGAATGGTAACTTCAGAAACTCCAGTGGCTTTTGCCAG +ATCGGTTACGCTAACCTGACCCTGGTCAATGACCATCTGTAGAATAGTTTGTTGTCGGGAATTCATCGCT +GTAATTCTTATAACGTTATAATACTTAATAAAAAAATACTGACGCGCCGGGCATCCTCAAATAGGAAAAC +CTGAAGGCACGATTGTTAAATCTCCCACGGTGCCTTCGGGATGTCTGGCGTAGATTCAGCAACCTGGCGC +AAGAGTTCTGCTTTAAGTATCTCGAGATTATGGATCGCAGAGTGGTAATCGCCTGCCACAAGGATATCTA +ACACAATATCAATACGTTCGGCAACGCGCTGGGCATCAAATTCAGACATCAAGGACATCCTTATAGCAAA +AGGGGGAAAATGAATAATGCAAAAATTGCCGCTAAAAGAGAAGTGTTTAACAGCAACGGCTAATTATCAT +CCAGGAATACGATATATAATGACGGGATATAGCGCTAAGTATATATATTCATCTACTTATGCGCGCTTCA +GATAGCGTTTATACCAGCGTTCGAAGGCGACGGCGGGCATCGGTTTGGCAAACAAAAATCCTTGCCGCTC +ATTGATCCCGTTCTTGGTTAAAAAAGCATCTTCCTTTGCACTCTCTACACCTTCGGCGATCACCTGAAGA +TTCAATGCCTGGGCCACAGCGACGATCGCCCGGACCAGTGACTGCGAGACAGGTTGTTTGTGAATATCTC +GAACAAAAACCTGGTCAAGTTTGATGGCATCGATCGGAAAGCGCGCCAGTTGCGAAAGTGAAGAGTAGCC +GGTACCAAAATCATCCAGATGCACTTGCGCACCTAGTTGGCTAAATTGTTGAATAACAGACAGTGCCAGT +TCATCATTCTCAATCAGACAACTCTCTGTCAGTTCAACATCTATAGGGCAGTATTCAAAATTGAGTTCCT +GGAGAACCTGTTTCAGGGCGGTGAAAATGGTTTGATCGGCGAGCTGACGTGCAGAAATATTTACCGCCAC +TCGCAGGTTTATGCCTTTATCCCGCCACTTTGCCACCTGGCGTACGACATCGAGAATCACCCAACGGCCT +AAAGGCACAATTAGCCCTGACTCTTCGGCGTAGGAAATGAAGTCCAACGGTGGAATCAACCCACGTTCAG +GTGACTGCCAACGTACTAGTGCTTCCAGACTGCGCACTTCGCCACGCCAGGTGATTTTCGGTTGATAGTG +AATAACCAACTGATCGTTTTCCAGTGCTTTACGCAAGTTGGTATCCAGCCAGAGATATTCAAATACCCGT +TGATTCATTTCTGGGGTAAAAACGCAAAATTGTCCTCGTCCGCCTTCCTTCGCTGTGTACATTGCTGTGT +CGGCGTGACGAATAATAGCCGTGCTGTCTGAACCATGTTCGGGAGAGAGTGCAATACCTACTGAACAGCT +GGTATAAACTTCAATTAAACCAATGCGAAAGGGGAGCCGTAAGCGGGTCAAAATTCGTGATGCCATTGCT +TCCAGCGCGCTTTGTGAGGTGTTGGATGCCAGTACCAGAAACTCATCCCCACCTGGACGCGCCAACACCT +GGTCATGTTCGAGACAGCTTAAAATAGCCAATGACACGTCGCGTAATAACTGGTCACCAAACAAATGCCC +ATAGGCGTCGTTGACCTTTTTGAAATTATCCAAATCAAGATACACAACCCCAACTTTATTGTTATCTGCA +TGATTAATAGCGTGATCGATTAAATCCTGCATTGCGTTACGATTCGGCAGTCCGGTGATACTGTCGGTAT +TTGCCAGAATACGCAGTCGCTCCTGAGCGCGGCGCTCTTCGGTAATGTCGGTGCCGGAACAGATTAAAAA +AATCTCGTTTTTGCCACTGCCGCTGTGGACAAATTTATTGCGAAACAGAAACAGCCGCTGGCCTTTACAT +GTTGGTATCCACAGTTCGACTTCATATGCATTGCCGCTTCGAAAAAATACACGGTTATTGCGCCTGGATG +CCGCAGCTTCACGACGGCTCATAAACAGTTTAAACACGCTTTGCCCAATGACGTCGTGTTCTTTCAACCC +TGTGTAATCTTCACATAACCGATTGAAGCGTTGGATATTCCCCCGGCTGTCGAGAATCACTATTGCGGAA +TGTGCTTCAGAAACTACCTGCTCAGCAAAGGAAAGCCCGTGTGATAAATCACGAGCAACCGCCGGTGTGT +CATGCCATGCAGACGCGTTGCCAGCCCATTCCCGTTTATTGATTTTTCGTCCTACCAGATGCACAGAAAG +ATCGCTTTCATCGACGGTCAGACTCATCATCAGGCTGGAGGTGATGACCGTCATTTCCCTGATGCGAGCA +GCCTGTTCGGCAGATAACTGCAATGTACGATCAGGTTCTGTGGTTTCGGTGGTAGAAAAGCGCAAAACAT +CGCTGCTTTCCGTCAACCGCCAGTATGGATTGTGCGATCCGAGAAAGTTGTACAACGTTGTGGACTCCCT +AACGGTTTTCATGATGCATATCCTCCGGTTAACAGCGGAGTCCGCGGTTAAATAAAAGGAACAACATGAC +TTACATGAAATTAACGGCGGCTAAACGCATTGTTTTTTTTATATATTTATTTGTAATCCAGTTTTGGAAA +AACGCCAGTTTTCAAACGAAAGTCAGTTAAAAAATCTGCCTGGATATAACGAAGGTAGAGCGGGGAAATA +AACGGCCCATCCATGAGGAATGGGCCGTGAAAGGAGATTACGCGACCGGGCGCGCAATAATGCTGCGGGT +TTCCATGCGGACTTCGGCAATAGTGACGTCAATAACGTCAGTCACTTTGTAAACCGTTTCACCTTTAATT +TGTACAGTGCCGTTTTCCTGGCTGCAAACCAGTTCATCGCGCACAGCGTGTAAGAAAGGTGCCGGAATAA +AGGCGATAGCGCCGTTATCAACCAAACGAACACGCATGCCGCCACGGCTGATATCGACAATTTCCGCTGC +GAAACGGGTGTCGGTCCCGGCTTTGTCTTTCAGGAAGCGTGCGTATAACCAGTCACCAACATCACGTTCT +GCCATCCGGTTGAGACGGCGACGCTCGGCCATTTGGACAGTGATTTCATCCTGTGGGCGCGTCGCAGTTT +CGCCTTTGATAACCGCTTTCAGCAGACGGTGGTTGATCATGTCGCCATATTTACGGATCGGCGAAGTCCA +GGTGGCGTATGCTTCCAGACCGAGGCCAAAGTGAGGACCGGGTTCAGTGCTAATTTCAGCAAATGACTGG +AAGCGACGAATGCGGCTGTCGAGGAAACCAGTTGGTTGCGCGTCCAGTTCACGACGCAGTTTGCAGAAAC +CGTCCAGCGTGAGCACTTCTTCGGCATCGACATGCAGACCGTGCGTTTTCAGCAACGCTGCCAGCGCGTC +GGCATTCGCCGGATCAAAGCCCATATGCACGTTATAGATGCCAAAACCGAGCTTATCGCGCAGTACGCGG +GCCGCACAAATGTTAGCGGCAATCATCGCTTCTTCGACGATACGGTTGGCAATGCGACGAGGCTCGGCGA +CGATATCCAGCACTTCACCTTTTTCACCGAGAATAAAGCGGTAATCCGGGCGATCTTTAAACACCAGTGC +GTGGTTATGACGCCACTCGCCGCGGCGTTGGCAAATTTGCGCTAGCAAACGGACTTGTTCGGCAATTGCT +TCACTTTCAGGCTGCCAGTCACCGGTATTTTCCAGCCAGTCAGAAACCTGGTCATACACCAGCTTTGCTT +TGGATTCGATGGTGGCGGCAAAGAATTCGATATTATCTTCAATGGTGCCATCAGCGGAGAGCGTCATGCG +GCATGCCAGTACCGGGCGGACTTCATTGGCGCGCAGTGAGCAGAGATCGTCAGAAAGCTCGCGAGGCAGC +ATAGGGATGTTGAAGCCAGGCAGATAGTTGGTGAATGCGCGAATTTTCGCGGCTTTGTCCAGCTTGCTGC +CTTCAGCAATCCACGCGGTTGGATCGGCAATCGCCACAATCAGCTGAAGTTTGTCATCCGGCAACGCCTT +AGCGAAAAGGGCGTCATCCATATCTTCTGTGCTGGCACTGTCGATGGTGACAAAATCCAGCGCGGTCAGA +TCTTCACGAACCAGACCTTCATCGAGCATTTCGGTAGCGACGCCGTCTGGTGCTTCTTTTTCCAGATTAT +GGCGTGCAAGGGTAACCCACCACGGTACAAAGTGATCGTCACCAAAAGTGATGTATTGTGTCAGTTCTGC +ATAGAAAGAACGATCGCCTTTCAGCGGATGACGGCGCATTTCGGCAACCGCCCAGTCGCCTTCTTTAAAC +TCGTGGTTCAGGCCACGGGCTGCGCGGCAAGGAATGGCGTCTTTTAAGAGTGGATGATCAGGAACGATGG +CCAGACGGTCATTTTTGCCCTGAACCTTACCCACGAAACGAGTCAGGAACGGTTCAACCAGTTCTTCTGG +CTCTGCGGATTCACGTTCTTTTTCACTGTGGATCACCGCGATAATTCGGTCGCCATGCATGACTTTTTTC +ATCTGCGGCGGCGGAATGAAATAACTTTTTTGCGCGTCGACTTCCAGGAAGCCAAAGCCTTTTTCTGTGG +CTTTTACCACCCCTTCAGCGCGTGGCGTCTGGGAATGCAGTTGCTGTTTAAGCTGCGCTAGCAGCGGGTT +GTCCTGAAACATAATTGTCTATTTTGGTGGCCATTAGAGCGGCTGACAGTTTTACGCGAATCTGTCTGAC +GCGGCAAGGTTAATATGTCTCACCCAACGCGATTTTTAAGCGATTTATCCAGCCACACAGCCCGCTCCAT +ACCAGCAGATTAATAATCTGCGTTGATGATTTTTCGTGTTCGAGTAAAGGGCTGAACTGGGCGGCGCTAA +AGCGATCGGGTGCTCGGGTCAGCCATTGTATCGCCTGAACGGTAGCGCGCTCAACAGAATGACGGTCAGC +CCATTGGTTAATTTCATTTTCGCCCTTGCGCATAAGGGTGCTGATTTTTTTATATTCATTTGATGAATCC +ATACAGGTGGCAAAACAAGCAGGACTGCCATTTATACGCGCGCATAACAACGCCGCAAGCTGATTATCCG +GCTGTGTATTGCCCCGTGTGCTGTTTAACAACTTTTCGAGAAGGGAAAGTGAAATAGGGTGGAGAGAGAG +TATTTCGGCCAGTTGGCAAAGTTCTGCAGTTGAACTTTTTGTGTGCTCTTCAGGTAGTTTTTCCACCTCA +TAGCTGCTTCGCCAGCGTAATGATTCATCAGCAAACAGTGACGCGTCGGCGTAGTTTTGTATCTCCAGCC +CGGGTAACCAGCGTACCGGATGCCCGAGATAAGCCTGAAATGTCGCAATTGTCCGCGCCTGAAAGCCAAT +AAAACCAATGATTTGGCTAATGATCACACAGTCCCAGGCAGTAAGACCGACGTCATTCAGATGCTGGCGC +GATCGGTTGTCGATAATAGAAGGCGAGCTAGCCAGTTGGCGGGCATATTGCGTGATTTGTGCCAACCGAT +GATTACTTTCCCTGGTGGAATCAGGCCCGGGGAGCGGCGTAAGTCGCGCCGAATAGTAGTTACATAACCG +CTGGACGCCGCAAACCTGAGCAACCGTCAGGGCCGTCGACAAGCGTTCATAAGCGGTGAAGGTCTGTGAA +CGGGTCACGGTAAGCTGGTCAGGGAACAAATCCACTGCAAGAACACGCGCAGGGTCCAGCCATGAAAGGA +AGGGGGCCAGCGTTTCTTTTTCAAGGATCACGTCGAGTAGAAAGGGATCGCTGACCTTTGCGGCTTCCGG +GACCAGAGGCAGAACGTCATACTCCGTAGTACTGGATTGCGTTTCATGATACCAGTGGCTTTTGCCGGTG +ATGTGGCGTTGTTCCATGGGCGCTCCTTGGTCGTAAAGGAAATCGTTATCCTGACGCAAGGCGGGAAGGG +GAGAAAGACGGATCGGCGATAACAAATATCAGAAAGGTATAACAGAGATAACGGGCGGCAGAACGCCGCC +CATCTTTACCAACAGAACGATTATTTCAGTTCGAGTTCGTTCATTGCAGCAATGCTGAAACCGCCGTCAA +CGTGGACCACTTCACCGGAGATACCGGCAGAGAGATCGGAGCACAGGAATGCCGCAGAGTTACCCACATC +TTCAATAGTAACGGTACGGCGAATCGGGGTAACGGCTTCGCAATGAGCCAGCATTTTGCGGAAGTCTTTG +ATACCGGAGGCCGCCAGAGTACGGATCGGACCAGCAGAGATGGCGTTAACACGCACACCTTCCGGACCCA +TCGCGTTCGCCATATAGCGCACGTTCGCTTCCAGAGACGCTTTTGCCAGACCCATAACGTTGTAGTTCGG +GATAGCGCGCTCAGCGCCAAGGTAGGAAAGGGTCAGCAGGGCAGAACCCGGATTCAGCATGGAGCGGCAA +GCTTTTGCCATTGCAACGAAGCTGTAGGAGCTGATGTCGTGGGCAATTTTGAAGCCTTCACGGGTAACGG +CGTTAACATAGTCACCATCCAGCTGATCGCCAGGTGCAAAACCAATAGAGTGTACGAAACCGTCAAATTT +CGGCCAAACTTTCCCCAGTTCAGCGAACATGGTGTCGATGCTGGCATCTTCTGCAACATCGCACTGCAGA +ACGATGTCAGAACCCAATTGAGCGGCAAATTCTTCTACGCGGCCTTTCAGTTTGTCGTTCTGGTAGGTGA +ATGCCAGTTCAGCTCCTTCGCGGTGCATCGCCTGAGCGATACCGTAGGCGATGGATAGTTTGCTGGCAAC +ACCGGTTACCAGAATGCGCTTACCGGAAAGAAAACCCATAGCTTTAATCCTTATTGTTGATGCTTGTTGT +GCCTGAAAATCAGGCGATTCGTCGTTTTAGTAAACAGTACGAACAGATAAACGGTTATTATAATCAACCT +GGCTGTGAGTAGCTATAGTTGCCAGGTCCGACCGGAGCAGGCTGCGGCAGGGGGGGCGCTTTTCCCCTCA +CCCTAACCCTCTCCCCAGAGGGGCGAGGGGACCGTATTGTGCAAATATTGTTACCCCAGCAACAAACAGG +CTCATACAGCCCCTAACCCTTTCATGGCGATGGCTGGGACGGTTCAGACCTTGCCGAATATTCTCCAGCA +CCGTCTCCATGTTTTCACCACAACAGCTATTCGGCTCGGTCTGCCCCCTCGCTCTTTCAGGGAGAGGGTG +ACCGGCGGTTCAGTTCCTGCAGAATATTCTCCAGCACCGTCTCCTCATTACAATCAATCTCGTTATTCCA +GAAACGCAGCACGGTCCAGCCCTGCGACTCAAGCCAGCTAGTGCGCCTGGAATCATAGGCAACTGCTAAA +TCATGCTGCCCACCATCCAGCTCAACGACTACACGCGCCGAGCAGCAAGCAAAATCGAGAATGTAGCTCC +CCACTGGATGTTGACGGCGAAATTTGAAATCACTAAAACGTCGGCTGCGAAGATATCGCCAGAGCTTTCG +TTCCTGCAAAGTGAGATTGCGTCTTAAATCACGCGCATTTGATTTAATTTTATCTATCACCTCATTCTGA +CAAGATTTAATCTTTTGTCAGAATGAGGTGAATAATCTGGAAGGAGGATTCAGAAAATTAGCGATCTTTA +CGCCACGCATCCGCCGTCAATGCCTCGCCAAAATGACCGGCAATCAGCCGTTTGGTGAGTTCATGCAGCG +GCGATGCCAGCACATCCGCGGTGCTGCCTCGCTCGACAACCTCGCCCTGATGCATCACCAGCACCTGGTC +GCTAATGTGCTTCATCATTCCGATATGCTGGGTAACATAAATATACGAAATGCCCTGTTTTTCCTGTAAT +TCCAGCATCAGATTAATCAACTGCGAACGCATCGACATATCCAGTGAAGCGAGGGCTTCATCGGCAATAA +TGACTTTTGGGCGCAATATCAGCGCGCGCGCCAGACCCAGACGCTGTTTTTGTCCGGGTGCCAACATATG +CGGATAGTAACTGACGTGATCCGGTAGCAGCCCAACCATACGCATCGTTTCAATAATCTGTTTGCGACGC +TGTTCCGGTTCCAGGTCGGTGTTCAGGCGCAGTGGAAAATCCAGAATTTGCGAGATACGTTGACGGGGAT +TCAACGAGGTCGAAGGATCCTGAAAAATCATGCGAATACGCTGACTGCGGAAGGAATAATCGCCAAAATG +CAGTGGATGATCGTCAATCAATAACTCGCCGCTGGTAGGCTCTATCATTCCCGCCAGCATTTTTGCCAGC +GTGGATTTACCCGAACCATTCTCGCCAATAATCGCCAGTGTCTGGCCTTCACGTAGCGTAAAGCTCAAGG +GTTTTACCGCTTCTACGGTCTGACGACGAAACCAGCCGGTCCGGTAGCGGAACGTTTTACTTAAATTACG +CACTTCAAGCAGCGTTTCGATCATCTCACTCTTTCTCCATGTTCAGCGGGAAATGACAGGCATAGAGATG +ATTTTTCGCCCCCGTCAAACGTGGCGTCACAATGCATTCTCGTTGTGCATACGGGCAACGTGGCCCCAGA +CGACAACCAATCGGTAACTGTTCCAGCAGTGGGATAGCGCCGGGCAGCGTATTGAGGCGACTTTTATGCG +GCATCGCGCTGCCGAAGTCTGGTATCGCGCGGATCAGCGCCTGGGTATAAGGATGATGTGGCATCGTCAC +CAACTCCTTACTCGGCGCGGTTTCCACTGTTTGACCGCAGTAAAGCACGTTAATTTTATCCGCCCATTGG +CTAAGCATTTGTAAGTCATGGCTGATAAGCAAAATAGTGGTATTGCTGTTTTGGTTGAGACGCGTCAGCA +GGCGAAAGATTTGCGCCTGGGTTGTTGGCTCCATTGAGTTGGTCGGTTCGTCAGCAATCAGCAGACGCGG +TTGATTCGCCAGTGCAATGGCTATCATCACTTTCTGACATTCACCTTCGGTCAACTCATAGGGAAAACTG +CGCATCGCATCTTTGTGATCTTTAATCCCCACGCGGTGCAGCAGTTCAATGGCACGGCGTTTGCGCCAGC +CAAAACGCTGCCACCAACGGCCTTTATAGGTCCAGGCTGGGATGTTTTGCATCAACTGGCGGCCCACACG +TTCTGAAGGGTCAAGACACGACTGCGGTTCCTGGAAAATCATCGACACGTTATGGCCAACCAGTTTGCGC +CGTTCGCGTGCGGAGAGACGCAGCAAATCGATATCATCAAAACGCATACGGTCAGCAGTAACACGCCAGT +TATCTTTATTCACCCCACAAATCGCTTTCGCAATCAAACTCTTGCCGGAACCGGATTCACCAACAAGACC +GCGGATTTCACCTTCGGTTAAGGTCATACTTACCCGGTCGACGGCTTTAACCCACTCATCACCGGTTTTA +AATTCAATGGTCAGGTTACGAATATCGAGTAATGGCATTATTCCACCCCCGCAATAATCGCACGACGAAC +GCCATCGCCAAGGAGGTTAACCAACAACACGCTAATCATAATTGCCGCACCTGGCAGCATGACAGTCCAC +GGGGCGACATAAATCAGTTCCAGCGCATCACCGAGCATCGCTCCCCATTCAGGCGAGGGGAGTTGTGCGC +CGAGATCGAGAAAGCCCAGCGCGGCGATATCGAGAATTGCCATCGACAGTGCGCGGGTGATCTCGGTGAC +CAGCCCGGCGGTGATGTTTGGCATCACAGCAAACCAGAGAATATTCAGCGTTGATGCGCCATCCAGACGG +GCGGCGATAACGTACTCTTTTTCCAGTTCGTCATGCACCATGCTGTAAATCGAACGTACCATACGCGGCA +GCAATGCCAGCCAGACAGCAAACATAGCGTGGGACAAACTCGGTCCGGCAAACGCTACAACGATAATTGC +CAACAGCAGCGAAGGGATCGCCAGTAAGGTATCCAGAATATGGTTAAGCACCGCTGAGCGGAGGCCGTGT +GTCGCCCCGGCGAAGGTGCCCAGTACCAGGCCACAGATCGTCGCGGCAAGCGTCACCACAAATGCGCCAC +CCACGGTTGGCGCAGCTCCGCTCAGTAAACGGCTTAAAACATCGCGTCCGAGGTCGTCAGTCCCCAGGAA +GAAAGAAACTTCGCCATAGCGCGACCATGACGGCGGCAATAATTGATAACCGAGAAATTGCTGGTCGATG +CCGTAAGGCGCAAACCAGCCGCCAAAAATACACAGTACAGCCAGCCCCGCGCAGCCGTACAGGCCGACCA +TCGCAGAGGCGTCACTATAAAATTTGCGCCAGGCGGTACGCAGCGTGCCCGGCGGGCGCTTTTCGCTGTA +TACGCTATCGTAAGGCATACCATTCCTTATGTTTCAGAGGGTTAGCCATGGCACCCAAAATATCAGAAAT +CACGTTAACAATAATGACCAGTGAGCCACACACCATCACTCCGGCGGAAATGGCTGCGTAATCCTGCTGG +CGGATGGCGTTAATTAACCAGCGCCCTAAACCCGGCCAGCTAAAAACCATTTCGGTGATCATCGCCAGCG +TCAGCATGGTGGAAAACTGTAAGCCCAGGCGAGGAATAACCGGCGGTAACGCGTTATGCAGAACGTGGCG +ACGCAAAATAGTAAAGCGCGACAAACCGCGGGTCGCCGCCGCTTTTACATAGTTCTGGTCATACACTTCG +ATAGTGCTGATACGCATCAGGCGGATCACTTCAGTTGTTGGCGCAACCGACAGGGTGATCACGGGCAATA +TCATATGGCGGATTGCGCTCATGATCATTTCATCCCGCCATGGTGAGTCCGAAAGCCAGGCATCAATCAA +CGCAAAACCGGTAATCGGTTTCACTTCGTAGAGCAGATCGAAACGCCCTGAAACGGGCAACCAACCTAGC +GTGAGTGAACAAAACAGCGTCAACAGAAGCGCCAGCCAGAACACCGGGATTGAAAAGCCCAGTAAGGCGA +TGGCGTTGATCAAGTTATCCTGCCACTTATGGCGCGTAATCCCGGCAATCATCCCCACGGGGATGCCAAC +AATCAGCGCAAAACCGAAGGCGAGGATGCACAGTTCCATCGTCGCCGGGAAGACCTCTTTTAACTGTTCG +GCAATCGGTTGACCGTTAATGCTGGAAACACCAAAATCCCAGTGGATCAGGCCGTTAAACCAGAACACCC +AGGCATTCCACAGTGACGCGCCTTGTAACGGCGCATGAGGGGTGAAATAGCTCAAGCTGAAGCCAACGAA +GGTCAGCAGGAACAAGGTGACAATCAATAACAAAATGCGGCGTAAGGTGAAGATAATCATGGTTTTTTCA +CCTCATCCTGTTTCTCGCGATACACCCCAGCAAAGGAGGCGTTACCAAACGGGCTAAGTACCAGACCTTT +GATATCGTACCGATAGGCCTGCAAACGCAATGACGACGCCAGCGGCAAAATGGGCAATTCCTGCGCCAGA +ATACTCTGCGCTTCGTCATAGGCTTCAATACGCGCCGCCAGCTGCTGCGAAGAGAGCGCCTTACGCAATA +CGCTGTCGAATTTCGGATCGCACCAGTGGGCGAGGTTGGTCTGCGAATGAATTGCCGCGCAGCTCAGTAA +CGGACGGAAGAAACTGTCCGGGTCGTTACTGTCCGTCGCCCAACCGGATAACGTCAGATCATGGCTCATA +TCCATCAACCGCGCCTCCTGAAAGCGACCTTCTACCGGCACAATCACCACTTTTACGCCAACCTGCGCCA +TATCCGCCTGAATCAGTTCGGCAGTTTTCAGTGGACTGGGGTTCCACGCCTGCGAACGTGTGGGCACCCA +CAGTTTCAGCGTTAAATTTTCCAGCCCCAACGACTTCAACTGTTCGCGCGATTTCGCCGGATTGTATTCA +GTAATTTTAGCCTCGTTGTCATAGGCCCACGAGGCGCGCGGTAAAATAGAGGCCGCCGTTTCAGCCGTAC +CATAATAGATGGATTGCATCAGGCGCTGGTTATTAATCGCCAGTGCCAGCGCATGGCGGACAGCGGGATT +ATTTAGCGGCGGTTTGGCGGTGTTAAATGCCAGATAGGCGACGTTCATCCCAGGACGCAGCGTTAAACGC +AAGCGCGGGTCGTCACGCAAAATGGATAGCTGGCTGGCAGCAGGCCAGGCCAGAACGTCGCATTCCCCGG +TCAGGAGTTTCGACAGACGTCCGGTGCCGCCGGAGCCTAAATCCACCACTACCTGCGGCATTAACGGTTT +ACCGCGCCAGAAGTCATCATGACGTTGTAGGCGAATAAATTGCCCGGCGCGGTATTCCGACAACTGATAC +GGACCGGTGCCGACCGGTTGACGGTCGAGTTGCTCCTGGCGATCTTCTTTCTCTAACTTCCGGGCATATT +CTGCCGACATGACCGAAGCATAATGGGTTGCGAGGTGCCACAAAAAAGAAGCATCCGGCTGGGCGAGTCG +GAACTCAACGGTATGATTATCCAGTTTGCGGACGCTTTTCACGTTATCGGCAAATTGCAGGCTGTCGAAG +TAGGGGAAGTTGCTGCCGTTGACGTTATGCCACGGGTTGTTGCGGTCAAAAATTCGCTGGAAGGTAAACA +CCACATCGTCGGCATTCATTTTACGAGTGGGAGTAAACCAGTCGGTTTTTTGAAACGGAACATCGCGACG +CAGGTGGAAGCGATAGGTCGCGCCGTTGTCGAGTACTTCCCAGCTTTCGGCAAGTTCCGGCATCAGGCGA +TAGGTATAGGGATCGACATCCAGCAGTCGATCATAAAACTGGGCGGCAAGGGTATCGACAATTAACCCAC +TGCTCGCTTTGGATGGGTTAAAGGTGTTGACTTGCCCGCTGACGCAATAGACAAAACCGCTGTCGCGGAT +ATCAGCATGCGGGGGAGATTCAGGCGCGGCGATTGCCTGACCACTCACAAGTCCAGCAATCACCAAAAGA +GACGATAATACCTGGCGCATAATATTAAGGGATTTTATGTAAAGAGGCTATCTTACTAATATTTAATGAC +ATTTGCCATTACCGTTTGTGTTCAGGGGTCGTAATGAGGGCCGTGTGGTTGGTCGTTGAACAGGTGACGT +CGCCATCTGTTCAACATTCGTACCCGTGATTTCTCTATAACTATAACTCACAGAACAACTTAGCGAGGAG +CAGAGCGGTACGATCGTGAGAAACCCATTAAAGCACGCTGCAGTGCGTGTCATTGTTAGCCAGATGCGGC +GTGAACGCTTTATCCGGACAACGATACTGACCGATCGTCTGCAATTAAATCATTACTCATTACCCCATTG +ATTCAAAAACTCTGCGATCTCATCAATGCGTACGGGATTAATCCCCGCTTCAGCAGCCATTTCATGTTGG +GCTTCTTCGCTGATCTCTTCATTGTTCATCAAACGGGTGAGCAGTAACTGGAAGTAGTGGGCCAGCGGTG +TGCGTTCAGCCTCTGCGACAGGCTCTGCGCATTCGGTCGCGTACTCATCGGCAATATCAAAATATTTTAG +CGGGATATCGTGGTTCATTATTTGCCCCTGGGGTTAATGCGCTAAGCATAAGGGCGGATGATAGCACTCG +TGATCCGGGTCATACATCTTTTTATAGTTAATGGCGCGGCGCGTTACCCTCAGGCAGGATAATGCGCCGC +GCATCCGACTATTACGTTTCACTCACCGGCGTTCTGTCACCATCATACAACGGCACTTTGCGATAGCGGC +GGATCAGATACCATAAATATGCGCCGCCTAACGAAGCCCATACCAGACCGAGTGTCAGTGACGTTGACTC +GAGGTTAACCCACAGCACACCCACCGTCAGCGCGCCAACCAGCGGCATCAGCAAATAGTGGAAGTGATCC +TTCCAGCTTTTATTCATTCCTTTACGCCGCCAGAAATGATTAAACACCGACAGATTCACGAAGGTAAACG +CCACCAGAGCACCGAAGTTAATTAACGCTGTGGCGGTAACTAAATCGAAGAACAGCGCCGACAACGCGAC +AATCCCGACCATAATGACGTTGAGTGCCGGAGTCCGCCATTTTGGGTGCACATAGCCAAACACGCGCTCC +GGAAACACATTGTCACGCCCCATCACATACAGCAGACGCGACACGCTGGCATGTGAAGCCAGGCCAGAGG +CTAACGTGTTCACAAACGTGGTGCAGAGGAAAATCGACTGGAAGAGCTTGCCGCCGACGTACAGCGCAAT +TTCAGGCAGTGCGGCATCCGGATCTTTAAAGCGGCTGATATCGGGAAAGAACAGCTGCATAAAGAACGAC +GCCGCGATAAAGATAACGCCACCGTAGACCGCCGTCAGGAAGATGGCTTTCGGGATCACGCGTGCGGCGT +CCGGCGTCTCTTCCGAAAGCGTGGTCACCGCATCGAAACCGAGGAAGGAGAAACAGACAATCGTCGCCCC +GGTAATAATCGGGATCAGGTGCGCGTTCTCGCTGATAAACGGCTGAAGTGACCAGACGGTGCCAACGCCT +TCTCCTTTATGCAGTCCCTGAACTACCAGGAAGATAAACACCACCATGATGGAGATTTGCACCAGTACAA +ACAGGGTATTGAAGTTAGCGACCAGGTTGACGCTCTTCAGATTCGCGGCGGTTAAAATGGCGACGAAGGT +TACCACCCACACCCACGGCGGCACTTCCGGGAAGAGGGCGGAGAGATAGATTTTCGCCAACAAGACGTTA +ATCATCGGCAAAAAGAGATAATCCAGCAGCGATGACCAGCCGACCATAAATCCGACGTGCGGGTTAATCG +ACTTTTGCGCGTAGGTATAGGCCGAACCGGCCTCCGGAAACTGGCGAACCAGTTTGCCGTAGCTGATAGC +GGTAAACAGCACACCCGCCAGCGCCAGCAAATAGGACGCCGGAACGTGACCGTCGCTAATGCCGGAGACA +ATACCAAAAGTATCAAATACGGTCATCGGCGTGAGATAGGCCAGACCCATCATCACCACCTGCCACAATT +TCAGTGATTTTCGCAGACGGGTTTTGCCGGGTTGCGCAGCAATATTCAGTGGTGAATTAATAGCCATAAT +TGCTGCCTCCCCTGCGTAATAAGGTTTGCGGTCGTGTCGACCTGAAATCAAACCTGTTTAGCAAGGGAAG +CAAAGGGGGCGGAGTCCAGTCAGTAGCAGGAGGGGCGCATACGCAGCCTCCCTCGCCATGCGGGGATTTA +ATCATCGGCATCATCTCATTTCCTCGTCACAGTCTTAATCGTTAACGGAAGCCCGTTGCCGCCCGCGCTC +CATAACGCGACATCCGGGAAATGTCTGGATTACCAGCAAATGTCAGGCCTGGCTCCGCTCAGGCCGATGA +AACAACCCCGCAAGGGGTATTACGCGTTTTTCAACATCCACTCAATTTCTGTTTCTGTGATGAGGCGCTC +AAACTGCAACAGCTCATCATTTTTACAGGCGTGATAGACATGGCAGAAGCGTTCGCCTAAATAGCGGCGC +AGGTGATCATTCTCGATAAACTCACCCAGGGCATCGCTCTGGCGAATCGGAAAGGGTAAGCCTTCCTGTT +CCAGCCCGTTGCCTTCGACTTCTTCCTGCAACGGCAGCTCGTTATCAAGGCCATGCAAAATACCGGCAAA +AATCGCTGCCATCACCAGATATGGGTTGGCATCGGCACCCGCCACGCGATATTCCACGCGGTGATTATGA +CGGTCGCCGCACGGAATACGCAGGGCGACGGTGCGGTTGTTATGGCCCCACGACGCCTGCGTCGGCACAT +ACATTCCCGGCTGGAAGCGGCGATACGAGTTCACGTTTGGTGCCAGCAACGCCATCGACGACGGCATCAG +GTCAATCATCCCGGCGAGCATCTTTTTCAGCAGCGGCGAATCTTCGCCTTCCGCGTCAGAAAGCACGTTC +TCGCCACGATTATTTTGCATACTGATATGGATATGCATTCCGCTGCCCGCGTGCTCTTCATACGGCTTCG +CCATAAAAGTGGCGTGCATCTTATGCTTTTCTGCCATCAGACGCACCAGGCGTTTTAGTGCCAGCGCATC +ATCGCAGGCTTCCAGCACGTTATCAGTATGGTAAAGGTTGATTTCAAACTGACCCGGCGAGGCCTCAGCG +ACCGCGCCATCTGCCGGAATCAGCTGTAACTGCGCCAGTTCATCAATATCATTGAGCACGTCGGCGAAGT +GGTTGAGGTTATCAACGGAGTAAACCTGGCTTTGTGTATTGCGGTCATCGGTGCCAGGCGCGCAGGGCGG +TTGCAGATACCCTTCAGCGTCGCGCTGGCGATCCAGTAAATAGAACTCCAGCTCTACCGCTACGACCGGG +AACAATCCGCGCTGGCGCAGCTGCTGCCACAGGCGGTTAAGAACGTTCCGCGGCTCAACGTCAAAGGGAG +CGCCATCTTCATCGACCATGGTCAGGAGCATCTGACCGATAAACTCTGGATCGGCGGCAGAAGGAGTTAA +GGAACCGAGAACAGGAACACAGGTACGATCCGGCTCGCCCATTTCCTGACCCAGACCTGCTTCTTCTACT +ACGTTGCCCAGAATATCCATTGCAAATACCGAGGCCGGGAAATAACACCCTTTCTCGAGCTTCTTCAGGC +TTGAAACAGGAATACGCTTTCCACGGAAGCAACCATTTAAATCGGTAAGTAAAACATCAACATATTGCGT +ATTCGGGTAGCGCTCCAGGTAGCGTTTCACTTCCTGCGTAAAGGCGCTACCCCGCCTCTCTTCTGACTGC +TGAACAAAGTTCTCTACTTCAACGATATTGGTTTCCATGATTCTTCGCCTTTGGTTTGTTTTCCGCTCGT +TATCAAAGCGTAAAATATAATGACCACCATTCGAATCTGTATGCAAACTAAATGTTTGTCAAATGTTAAA +TTGAGTTTGCAAAAATGAAAACCCACTGCTAGATTGAAAAAATATTGAACATAAAGGTCATTTAAAGCGC +AGTAATGGCGATAATTTAGTCCACTTTGTGAGATTGAGCATGGAAAATATAATGAACAATCCGGTTATCG +GTGTCGTAATGTGCAGGAACAGGCTTAAGGGTCATGCGACCCAGACTCTGCAAGAAAAGTACCTGAATGC +CATCATCCATGCAGGCGGCTTGCCTATTGCGCTACCACATGCGCTGGCGGAACCGTCATTACTTGAACAA +CTTTTGCCGAAACTCGATGGCATTTATCTTCCTGGTAGTCCCAGCAATGTGCAGCCGCACCTATATGGTG +AAAACGGCGATGAGCCTGACGCCGATCCCGGGCGTGATCTTCTGAGCATGGCGATAATTAATGCCGCACT +CGAAAGGCGCATCCCCATTTTCGCCATCTGCCGGGGTTTACAAGAACTGGTGGTGGCAACCGGTGGTTCG +TTGCATCGCAAGCTGTGCGAACAGCCTGAATTGCTGGAACATCGGGAAGATCCCGAACTGCCGGTGGAAC +AGCAATATGCACCGTCGCATGAAGTTCAGGTTGAAGAGGGGGGATTACTGTCTGCGTTGTTACCTGAATG +TAGCAACTTTTGGGTAAACTCTCTACATGGACAAGGGGCGAAGGTCGTTAGCCCACGGTTGCGTGTTGAA +GCTCGCTCGCCGGATGGCTTAGTTGAGGCGGTTAGCGTCATCAATCATCCTTTTGCGCTGGGCGTACAGT +GGCACCCGGAATGGAACAGTAGCGAGTACGCGCTTTCGCGTATATTGTTCGAGGGCTTTATCACCGCTTG +TCAGCACCATATCGCTGAAAAACAGCGACTCTGACCACTACAGTTTAAGGAAATGCAAATATGAGTGATG +AGGGACTGGCGCCAGGAAAACGCTTGTCGGAAATCCGCCAGCAGCAGGGGCTTTCACAACGTCGTGCCGC +CGAACTCTCCGGGCTGACTCACAGTGCTATCAGTACGATAGAACAAGATAAAGTCAGCCCTGCCATCAGT +ACGCTGCAAAAGCTGCTGAAGGTGTATGGTCTGTCACTCTCGGAATTCTTTTCCGAGCCGGAAAAACCTG +ATGAGCCGCAGGTCGTCATTAATCAGGACGACTTAATTGAGATGGGTAGTCAGGGTGTGTCAATGAAGCT +GGTTCATAACGGTAACCCGAATCGCACGCTGGCGATGATCTTTGAAACGTACCAGCCGGGCACAACCACT +GGGGAAAGAATTAAGCATCAGGGTGAGGAAATAGGCACTGTACTGGAAGGTGAAATTGTTCTGACGATTA +ATGGTCAGGATTACCACCTCGTCGCGGGGCAAAGTTATGCCATTAATACCGGCATCCCGCACAGTTTCAG +TAATACGTCGGCAGGTATTTGCCGAATTATCAGCGCCCATACGCCCACCACGTTTTAATCTTTTTGTTCT +GTAAGCCGGGTAAGCGCAATGCGCCCGGCAATCTATACACAAAATCATTCAAGTTGCATCAAGGCGGCAA +GTGAGCGAATCCCGATGAGCTTACTCAGGTAAGTGATTCGGGGGAGCGAACGCAGCCAAGGCAGAGGCGG +CTTGAAGGATGAAGTGTATATAAAGAATGTCGCCAGAAATAAACGGGCATACGGCCCGGGGATCTCTGCG +CCCTGACGTTCACAAACTGCATATATCTGATAGACGTGAAACAGGAGTCATAATGAATTTTCATCATCTG +GCTTACTGGCAGGATAAAGCGTTAAGTCTCGCCATTGAAAACCGCTTATTTATTAACGGTGAATATACTG +CTGCGGCGGAAAATGAAACCTTTGAAACCGTTGATCCGGTCACCCAGGCACCGCTGGCGAAAATTGCCCG +CGGCAAGAGCGTCGATATCGACCGTGCGATGAGCGCAGCACGCGGCGTATTTGAACGCGGCGACTGGTCA +CTCTCTTCTCCGGCTAAACGTAAAGCGGTACTGAATAAACTCGCCGATTTAATGGAAGCCCACGCCGAAG +AGCTGGCACTGCTGGAAACTCTCGACACCGGCAAACCGATTCGTCACAGTCTGCGTGATGATATTCCCGG +CGCGGCGCGCGCCATTCGCTGGTACGCCGAAGCGATCGACAAAGTGTATGGCGAAGTGGCGACCACCAGT +AGCCATGAGCTGGCGATGATCGTGCGTGAACCGGTCGGCGTGATTGCCGCCATCGTGCCGTGGAACTTCC +CGCTGTTGCTGACTTGCTGGAAACTCGGCCCGGCGCTGGCGGCGGGAAACAGCGTGATTCTAAAACCGTC +TGAAAAATCACCGCTCAGTGCGATTCGTCTCGCGGGGCTGGCGAAAGAAGCAGGCTTGCCGGATGGTGTG +TTGAACGTGGTGACGGGTTTTGGTCATGAAGCCGGGCAGGCGCTGTCGCGTCATAACGATATCGACGCCA +TTGCCTTTACCGGTTCAACCCGTACCGGGAAACAGCTGCTGAAAGATGCGGGCGACAGCAACATGAAACG +CGTCTGGCTGGAAGCGGGCGGCAAAAGCGCCAACATCGTTTTCGCTGACTGCCCGGATTTGCAACAGGCG +GCAAGCGCCACCGCAGCAGGCATTTTCTACAACCAGGGACAGGTGTGCATCGCCGGAACGCGCCTGTTGC +TGGAAGAGAGCATCGCCGATGAATTCTTAGCCCTGTTAAAACAGCAGGCGCAAAACTGGCAGCCGGGCCA +TCCACTTGATCCCGCAACCACCATGGGCACCTTAATCGACTGCGCCCACGCCGACTCGGTCCATAGCTTT +ATTCGGGAAGGCGAAAGCAAAGGGCAACTGTTGTTGGATGGCCGTAACGCCGGGCTGGCTGCCGCCATCG +GCCCGACCATCTTTGTGGATGTGGACCCGAATGCGTCCTTAAGTCGCGAAGAGATTTTCGGTCCGGTGCT +GGTGGTCACGCGTTTCACATCAGAAGAACAGGCGCTACAGCTTGCCAACGACAGCCAGTACGGCCTTGGC +GCGGCGGTATGGACGCGCGACCTCTCCCGCGCGCACCGCATGAGCCGACGCCTGAAAGCCGGTTCCGTCT +TCGTCAATAACTACAACGACGGCGATATGACCGTGCCGTTTGGCGGCTATAAGCAGAGCGGCAACGGTCG +CGACAAATCCCTGCATGCCCTTGAAAAATTCACTGAACTGAAAACCATCTGGATAAGCCTGGAGGCCTGA +AATGACCGAACATACCAGCAGTTACTACGCCGCCAGTGCGAATAAATATGCACCATTCGACACGCTGAAT +GAGTCAATCACCTGCGACGTTTGCGTGGTTGGCGGCGGCTATACCGGGCTCTCCTCCGCGCTGCATCTGG +CGGAAGCGGGCTTTGACGTAGTGGTTCTCGAAGCCTCACGCATCGGCTTTGGCGCAAGCGGGCGCAATGG +CGGACAGCTTGTGAACTCCTACAGCCGCGACATCGACGTGATCGAAAAAAGCTACGGCATGGACACCGCC +CGTATGCTCGGCAGCATGATGTTCGAAGGTGGTGAGATCATCCGCGAACGTATCAAACGTTATCAGATTG +ACTGCGACTACCGCCCCGGCGGCCTGTTTGTGGCGATGAATGATAAACAGCTCGCCACACTTGAAGAGCA +GAAAGAGAACTGGGAACGCTACGGCAATAAACAGCTGGAATTGCTGGACGCCAACGCCATTCGCCGTGAA +GTAGCCAGCGATCGCTATACCGGTGCGCTGCTGGATCACAGCGGTGGGCATATTCATCCGCTAAACCTTG +CCATTGGCGAAGCGGACGCCATCCGCCTCAACGGCGGGCGCGTGTATGAACTTTCTGCCGTGACGCAGAT +CCAGCACACCACGCCAGCCGTTGTGCGAACTGCCAAAGGTCAGGTGACGGCGAAGTATGTGATTGTCGCC +GGGAATGCGTATCTGGGCGATAAAGTAGAGCCGGAACTGGCGAAACGCAGCATGCCGTGCGGCACGCAGG +TGATCACCACCGAACGGCTGTCGGAAGATTTAGCCCGTTCGCTGATCCCGAAAAACTACTGTGTGGAAGA +CTGTAACTATCTGCTTGATTACTACCGTCTTACCGCCGACAACCGCCTGCTGTACGGCGGCGGCGTGGTC +TACGGCGCGCGCGACCCGGATGACGTTGAGCGCCTTGTGGTGCCGAAACTGCTGAAAACCTTCCCGCAGC +TGAAGGGCGTGAAAATTGATTACCGCTGGACGGGCAACTTCCTGCTGACCCTGTCGCGTATGCCGCAGTT +TGGTCGCCTCGATACCAACATCTATTACATGCAGGGCTACAGCGGCCACGGCGTGACCTGTACTCATCTA +GCCGGACGTTTGATTGCCGAACTGCTGCGCGGCGACGCCGAACGTTTCGATGCCTTCGCCAATCTGCCGC +ATTACCCGTTCCCCGGCGGGCGCACGCTGCGTGTGCCGTTTACCGCGATGGGCGCGGCGTATTACAGCCT +GCGCGATCGTCTGGGCGTTTAATTTCCGATTAACCGTGAAGAGTCAAAAGGTGTGAAACATGAGCAACAA +TGAATTCCATCAGCGTCGTCTTTCTGCCACTCCGCGCGGGGTTGGCGTGATGTGTAACTTCTTCGCCCAG +TCGGCTGAAAACGCCACGCTGAAGGATGTTGAGGGCAACGAGTACATCGATTTCGCCGCAGGCATTGCGG +TGCTGAATACCGGACATCGCCACCCTGATCTGGTCGCGGCGGTGGAGCAGCAACTGCAACAGTTTACCCA +CACCGCGTATCAGATTGTGCCGTATGAAAGCTACGTCACCCTGGCGGAGAAAATCAACGCCCTTGCCCCG +GTGAGCGGGCAGGCCAAAACCGCGTTCTTCACCACCGGTGCGGAAGCGGTGGAAAACGCGGTGAAAATTG +CTCGCGCCCATACCGGACGCCCTGGCGTGATTGCGTTTAGCGGCGGCTTTCACGGTCGTACGTATATGAC +CATGGCGCTGACCGGAAAAGTTGCGCCGTACAAAATCGGCTTCGGCCCGTTCCCTGGTTCGGTGTATCAC +GTACCTTATCCGTCAGATTTACACGGCATTTCAACACAGGACTCCCTCGACGCCATCGAACGCTTGTTTA +AATCAGACATCGAAGCGAAGCAGGTGGCGGCGATTATTTTCGAACCGGTGCAGGGCGAGGGCGGTTTCAA +CGTTGCGCCAAAAGAGCTGGTTGCCGCTATTCGCCGCCTGTGCGACGAGCACGGTATTGTGATGATTGCT +GATGAAGTGCAAAGCGGCTTTGCGCGTACCGGTAAGCTGTTTGCCATGGATCATTACGCCGATAAGCCGG +ATTTAATGACGATGGCGAAAAGCCTCGCGGGCGGGATGCCGCTTTCGGGCGTGGTCGGTAACGCGAATAT +TATGGACGCACCCGCGCCGGGCGGGCTTGGCGGCACCTACGCCGGTAACCCGCTGGCGGTGGCTGCCGCG +CACGCGGTGCTCAACATTATCGACAAAGAATCACTCTGCGAACGCGCGAATCAACTGGGCCAGCGTCTCA +AAAACACGTTGATTGATGCCAAAGAAAGCGTTCCGGCCATTGCTGCGGTACGCGGCCTGGGGTCGATGAT +TGCGGTAGAGTTTAACGATCCGCAAACGGGCGAGCCGTCAGCGGCGATTGCACAGAAAATCCAGCAACGC +GCGCTGGCGCAGGGGCTGCTCCTGCTGACCTGTGGCGCATACGGCAACGTGATTCGCTTCCTGTATCCGC +TGACCATCCCGGATGCGCAATTCGATGCGGCAATGAAAATTTTGCAGGATGCGCTGAGCGATTAATAGCC +CAACGCAATAATGTCTGATGCGCTGCGCTTATCAGGCCTGCAAACGACGTATTGATTATGTATGCCGAAT +AAAGCATTCACGCCGCATCCGGCAAGTTGTATTGCTCAACTTCGCTAAATCTGGTGCTTTTTCAACAACG +CGCGGAACTGATGATAAGTTAACCCCAGTAATTCAGCCGCGCGCTTCTGGTTATATTTCCCTTGTTGCAA +ACTGAGTTGCAGCAACTCTTTTTCCTGCTGCATCTGAAACTCACGTAAATCCAGCGGCAGTGTTGGAAGC +GAGGTGGTTTCTGAAACGGCGATAGCGTCTTCAGGCGGACGCCGTTTAAAGGGATCAATAATGATGTCAT +CAAGCGGATAATCGCTGGTGCCGTGGCGATACACTGAACGTTCCACCACGTTTTTCAATTCACGAATATT +TCCCGGCCAACGATAATTCAGCAATGTTTCTCTGGCGCGCTCCGTAAACCCCGGGAACAGAGGCAGCTTG +ATTTCCCGACACATCTGGATGGCAAAGTATTCTGCCATCAACATTATGTCGCTTTCGCGCTCGCGCAGTG +GTGGCAGTTGTACAACATCAAAAGCCAGTCGGTCGAGCAGGTCAGCGCGAAAAGTGCCTTCATTGACCAT +CGCCGGGAGATCGGCATTCGTCGCGCATACCAACCGCACATTCACCTGCAATGGTTGGCTGCCGCCAACG +CGCTCCAGTTCACCGTACTCAATCACGCGCAATAATTTCTCCTGCACCATCATCGGTGCCGTAGCGAGTT +CATCAAGAAATAGCGTACCGCCGTCGGCACGTTCAAATCTCCCTGGATGACGTTTTTGCGCACCGGTAAA +CGCCCCCGCTTCGTGACCAAACAGTTCGGAATCCAGCAGATTTTCATTTAACGCCGCGCAGTTAAGGGAA +ATAAACGGCCCTTGCCAACGGGAGGAGAGATAATGCAGGCGGCTGGCAATCAGCTCTTTACCGGTGCCGC +GTTCGCCGATGATGAGCACCGGTTTGTCCAGCGGTGCGAGATGCGAAACCTGTTCCAGCACTTCGAGAAA +GCTGTTCGCCTCACCAAGTAAATTATCTTTGTATTCTGCCATGATGAAATTCGCCACTTGTTAGTGTAAT +TCGCTAACTCATCCTGGCATGTTGCTGTTGATTCTTCAATCAGATCTTTATAAATCAAAAAGATAAAAAA +TTGGCACGCAAATTGTATTAACAGTTCAGCAGGACAATCCTGAACGCAGAAATCAAGAGGACAACATTAT +GGGTATTTTTTCTCGCTTTGCCGACATCGTGAATGCCAACATCAACGCTCTGTTAGAGAAAGCGGAAGAT +CCACAGAAACTGGTTCGTCTGATGATCCAGGAGATGGAAGATACACTGGTTGAAGTACGTTCTACTTCGG +CGCGCGCGTTGGCAGAAAAGAAACAGCTGACTCGCCGTATTGAACAAGCGTCGGCGCGTGAGGTTGAATG +GCAGGAAAAAGCCGAACTGGCGCTGCTGAAAGAGAGAGAGGATCTGGCACGTGCAGCGTTAATTGAAAAA +CAGAAACTGACCGATCTGATTAAGTCCCTGGAACATGAAGTGACGCTGGTGGACGATACGCTGGCACGCA +TGAAGAAAGAGATTGGCGAGCTGGAAAACAAATTGAGCGAAACACGCGCTCGCCAGCAGGCATTGATGTT +ACGTCATCAGGCGGCAAACTCGTCGCGCGATGTGCGTCGTCAGCTGGACAGTGGCAAACTGGATGAAGCA +ATGGCTCGTTTCGAATCTTTCGAACGTCGTATTGACCAGATGGAAGCGGAAGCAGAAAGCCACAGCTTCG +GTAAACAAAAATCGCTGGACGATCAGTTTGCCGAACTGAAAGCCGATGATGCAATCAGCGAACAACTGGC +ACAATTAAAAGCCAAAATGAAGCAAGACAATCAATAATAACATCCAGGCGGCGTCCGAACGCGCCGCCGC +TCATCGTCTAAGGAGTACTTATGAGCGCGCTATTTCTGGCTATTCCGTTAACCATTTTTGTGCTGTTTGT +TTTACCGATCTGGTTATGGCTGCATTACAGCAATCGTTCTGGTCGCAGTGAATTGTCGCAAAGTGAGCAG +CAGCGATTAGCGCAACTGGCTGATGAAGCAAAACGGATGCGCGAACGTATTCAGGCGCTGGAATCTATTC +TTGATGCAGAACATCCGAACTGGAGGGATCGCTAATGGCGGGCATTAATCTCAATAAAAAATTATGGCGT +ATTCCACAGCAGGGCATGGTCCGCGGCGTCTGCGCCGGGATTGCCAACTATTTTGATGTACCGGTAAAAC +TGGTGCGTATCCTGGTGGTGCTGTCGATTTTCTTCGGTCTGGCGCTGTTTACCCTGGTTGCTTACATCAT +TTTGTCATTTGCGCTTGATCCAATGCCGGACAACATGGCCTTTGGTGAGCAGCTACCTTCCAGCAGCGAA +TTGCTGGATGAAGTCGACCGTGAACTGGCGGCAAGTGAAACGCGTTTACGCGAGATGGAACGTTATGTCA +CTTCCGATACTTTCACGTTACGTAGCCGTTTCCGTCAACTGTGAGGAAAGTTATGAATACTCGCTGGCAA +CAGGCCGGGCAAAAGGTAAAGCCTGGTTTCAAATTAGCAGGCAAGCTGGTACTTCTTACCGCACTGCGCT +ATGGCCCGGCGGGTGTGGCGGGCTGGGCGATAAAATCAGTTGCTCGCCGACCGCTGAAAATGTTGCTGGC +TGTGGCGCTGGAACCGCTGTTAAGTCGGGCTGCTAATAAACTGGCACAGCGTTATAAAAGGTGAGGGGAG +TTTCGCAAAAATTGTTAAATCTCAGGCGTATAATGGATGGCAATTTTCATCCATAGAAGGACGCTTACAT +GTTTAAAAAAGGCTTACTTGCTCTGGCACTGGTGTTTTCACTGCCCGTTTTCGCCGCTGAACACTGGATC +GATGTTCGTGTTCCAGAGCAGTATCAGCAAGAGCACGTTCAGGGGGCCATCAATATTCCCCTGAAGGAAG +TGAAAGAGCGCATTGCCACCGCCGTTCCGGATAAAAACGACACCGTGAAAGTGTATTGCAATGCCGGACG +CCAGTCAGGGCAAGCAAAAGAGATCCTTAGCGAGATGGGATATACCCACGTTGAGAACGCCGGTGGCCTG +AAAGACATCGCAATGCCGAAGGTCAAAGGTTAAAAGAATTCACCATGAGCGGCGCTTATGCGCCGTTTTT +TTTTCTGTCACACCTTATTTACATCCCCATAGATTATTTGCGTCAGCTCACAAATACGCTTTTTCCCTGG +TAAAAAATGATTTCCTGCGTGACTAAAACCCTTGTGCTCAATTGACAGTTTATTTTCTGCGGAGTAGTCT +CTCGTTTCATGGGACCGCTACCACGGAAAGGCAACATGAAACAGAAAATTACGGATTACCTGGACGAAAT +CTACGGTGGAACATTTACCGCAACTCATTTACAGAAACTTGTAACGCGTCTTGAGAGTGCGAAACGATTA +ATTACACAGCGACGTAAAAAACACTGGGATGAAAGTGATGTCGTGTTAATTACCTATGCCGATCAATTTC +ACAGCAATGATTTAAAACCATTACCCACATTTAATCAGTTTTACCATCAATGGCTGCAAAGCATTTTTTC +ACATGTTCATTTGTTGCCGTTTTATCCATGGTCATCTGATGATGGCTTTTCGGTAATTGATTATCATCAG +GTCGCCAGTGAAGCGGGGGAGTGGCAGGATATTCAGCAACTCGGTGAATGCAGTCATTTAATGTTTGATT +TTGTCTGCAACCATATGTCGGCAAAAAGTGAATGGTTTAAAAACTATTTACAACAGCATCCAGGTTTTGA +AGATTTTTTTATTGCCGTTGACCCGCAAACCGATCTCAGCGCCGTCACTCGCCCGCGTGCGTTACCGTTA +TTAACGCCATTCCAGATGCGCGATCATTCAACGCGCCATTTATGGACCACCTTTAGTGACGATCAAATTG +ACCTGAATTACCGTAGCCCTGAAGTGTTGCTGGCGATGGTGGATGTTTTACTCTGTTACCTTGCGAAAGG +TGCTGAGTATGTCCGCCTGGATGCCGTTGGCTTTATGTGGAAAGAGCCGGGAACAAGCTGCATCCATCTG +GAAAAAACACATCTGATTATCAAACTGTTACGGTCGATTATTGATAACGTTGCGCCAGGTACAGTGATCA +TTACCGAGACCAATGTTCCGCATAAAGACAACATTGCTTACTTTGGCGCAGGCGATGACGAAGCACATAT +GGTGTACCAGTTCTCGCTGCCGCCACTGGTGCTGCATGCGGTGCAAAAACAGAACGTTGAGGCGCTTTGT +GCGTGGGCGCAAAACCTGACACTACCTTCCAGCAACACCACCTGGTTTAACTTCCTCGCCTCTCACGATG +GCATCGGGCTAAACCCGCTACGGGGCTTGTTGCCTGAAAGCGAAATATTAGAGCTGGTCGAGGCGTTACA +GCAGGAAGGTGCATTAGTAAACTGGAAAAATAATCCCGACGGTACACGCAGTCCGTATGAAATAAATGTG +ACCTATATGGATGCGTTAAGCCGCCGTGAGAGTAGCGATGAAGAACGTTGCGCCAGGTTTATCCTTGCCC +ATGCGATTTTGTTAAGTTTCCCCGGTGTGCCAGCGATATATATTCAAAGTATTCTTGGCTCGCGTAATGA +TTACGCAGGTGTCGAAAAACTCGGATATAACCGTGCGATTAACCGTAAAAAATATCACAGTAAAGAGATA +ACCCGAGAACTGAACGATGAAGCTACATTAAGGCATGCGGTATATCATGAGTTGTCGCGTTTAATTACAC +TTCGTCGCAGCCATAACGAGTTTCATCCGGATAATAATTTTACCATTGATACGATTAATTCATCCGTAAT +GCGTATTCCAAGAAGTAACGCTGATGGTAATTGTCTGACTGGATTGTTTAATGTCAGTAAAAATATTCAG +CATGTAAATATTACTAATCTGCATGGTCGGGATCTGATTAGTGAAGTTGATATATTGGGTAATGAAATAA +CGCTGCGCCCCTGGCAGGTTATGTGGATTAAATAAAAAGGAACATCTCATGATTAAATCAAAAATCGTGC +TGTTATCAGCACTGGTTTCATGCGCCCTGATTTCAGGCTGTAAAGAAGAAAATAAAACGAATGTATCCAT +CGAATTTATGCATTCTTCGGTGGAGCAGGAGCGCCAGGCCGTTATCAGTAAATTGATTGCCCGTTTTGAA +AAAGAAAACCCTGGCATCACCGTTAAGCAAGTGCCCGTGGAAGAAGATGCCTATAACACTAAAGTCATTA +CTCTTTCACGTAGCGGTTCGCTGCCGGAAGTGATCGAAACCAGCCATGACTACGCCAAAGTGATGGACAA +AGAGCAGCTTATCGATCGCAAAGCGGTTGCCACAGTCATCAGCAACGTTGGTGAAGGCGCGTTTTACGAT +GGCGTACTGCGTATTGTGCGTACCGAAGATGGTAGCGCATGGACCGGTGTTCCTGTCAGCGCCTGGATTG +GCGGTATCTGGTATCGCAAAGATGTGCTGGCAAAAGCGGGGCTTGAGGAGCCGAAAAACTGGCAACAGCT +GCTGGACGTTGCACAGAAACTGAATGACCCGGCGAATAAAAAATACGGCATTGCGCTGCCTACAGCAGAA +AGCGTGTTGACGGAACAATCCTTCTCCCAGTTTGCGTTATCCAACCAGGCTAACGTCTTTAACGCCGAAG +GCAAAATCACCCTTGATACACCAGAGATGATGCAGGCACTGACCTATTACCGCGACCTTACTGCCAACAC +TATGCCGGGTTCTAACGACATCATGGAAGTGAAAGACGCCTTTATGAACGGCACCGCGCCGATGGCGATT +TACTCCACCTATATCCTTCCGGCTGTGATTAAAGAAGGCGACCCGAAAAACGTCGGTTTCGTGGTGCCAA +CCGAGAAAAACTCTGCGGTCTACGGCATGTTGACCTCGCTGACCATTACCGCCGGGCAAAAGACCGAAGA +GACGGAAGCAGCAGAAAAATTTGTCACCTTTATGGAGCAGGCAGACAACATTGCCGACTGGGTGATGATG +TCGCCAGGTGCTGCGCTGCCGGTGAATAAAGCGGTGGTGACTACCGCCACCTGGAAAGACAACGACGTTA +TTAAGGCGCTGGGTGAACTACCGAATCAGCTAATCGGTGAACTGCCAAATATTCAGGTTTTTGGCGCAGT +AGGGGATAAAAACTTTACCCGCATGGGTGATGTGACGGGTTCTGGCGTGGTGAGTTCAATGGTGCATAAC +GTCACCGTGGGTAAAGCCGATCTCTCTACTACGCTGCAAGCGAGCCAGAAAAAACTGGATGAACTGATCG +AACAGCACTAAACCCAGGACAGGAATCCGCAATGAACAGGCTTTTTTCAGGTCGTTCCGATATGCCCTTT +GCGCTGCTGCTTCTCGCGCCCAGCTTATTACTGCTGGGCGGTCTGGTGGCGTGGCCGATGGTGTCGAATA +TCGAAATCAGTTTTTTACGTCTGCCGCTCAATCCCAACATCGAGTCAACGTTTGTTGGGGTGAGCAACTA +TGTGCGTATCCTCTCCGATCCCGGCTTCTGGCATTCGCTGTGGATGACGGTCTGGTATACCGCGCTGGTG +GTGGCGGGCAGCACCGTGCTCGGGCTGGCGGTGGCGATGTTTTTCAACCGCGAGTTCCGCCTGCGCAAAA +CCGCGCGTTCGCTGGTGATCCTCTCCTACGTAACGCCGTCCATTTCGCTGGTGTTCGCCTGGAAATACAT +GTTCAACAACGGCTACGGCATTGTTAACTACCTCGGCGTCGATCTTCTGCATCTCTATGAGCAGGCACCG +CTGTGGTTCGATAATCCGGGCAGTAGCTTTGTGCTGGTGGTGCTGTTCGCCATCTGGCGCTACTTCCCGT +ATGCCTTTATCTCGTTTCTGGCGATTTTGCAGACCATCGACAAATCGCTGTACGAAGCGGCAGAGATGGA +TGGCGCTAATGCCTGGCAACGGTTTCGTATCGTCACGCTGCCCGCAATTATGCCGGTCCTGGCGACGGTG +GTGACACTGCGCACCATCTGGATGTTCTACATGTTCGCGGATGTTTATTTGCTGACGACCAAGGTCGATA +TTCTCGGTGTATATCTCTACAAAACCGCCTTTGCCTTTAATGATTTAGGAAAAGCGGCGGCGATCTCGGT +GGTGCTCTTCATCATTATTTTCGCTGTCATTCTGCTGACCAGGAAACGGGTGAACCTCAATGGCAACAAA +TAAACGCACACTCAGTCGCATCGGTTTTTACTGCGGGCTGGCGCTGTTTCTCATCATCACGCTGTTTCCA +TTTTTTGTGATGCTGATGACCTCGTTCAAGGGCGCGAAAGAGGCGATCTCACTGCATCCTACGCTGCTGC +CGCAGCAGTGGACGCTGGAGCATTACGTCGACATTTTTAACCCGATGATTTTCCCGTTTGTCGACTACTT +CCGTAACAGTCTGGTGGTGTCTGTGGTTTCATCCGTGGTGGCGGTATTCCTCGGCATTCTTGGGGCTTAC +GCGCTTTCCCGCCTGCGCTTTAAAGGTCGGATGACCATCAACGCCAGCTTTTACACGGTGTATATGTTCT +CTGGCATTTTGCTGGTGGTGCCGCTTTTCAAAATCATCACCGCGCTTGGCATTTACGACACTGAGATGGC +GCTGATCATCACCATGGTGACGCAAACTCTGCCCACCGCCGTGTTTATGCTGAAAAGCTACTTCGACACC +ATCCCCGATGAGATCGAAGAAGCGGCGATGATGGATGGCCTCAACCGTCTGCAAATTATCTTCCGCATCA +CCGTGCCGTTGGCGATGTCCGGGCTGATATCCGTGTTCGTCTACTGCTTTATGGTGGCGTGGAACGACTA +TCTGTTTGCGTCGATTTTCCTCTCCAGCGCCAGCAATTTCACCTTACCGGTGGGCCTGAACGCGCTGTTC +AGTACGCCAGATTACATCTGGGGACGGATGATGGCGGCCTCACTGGTGACCGCATTGCCGGTGGTGATTA +TGTATGCGCTTTCGGAACGTTTTATTAAGAGTGGTTTGACCGCCGGTGGCGTGAAGGGCTAAAGCGGCCA +GTTTCTTTACAAGGAGTTTTAAATGAAAAAGTTAGTAGCCACAGCACCGCGTGTTGCTGCGCTGGTTGAG +TATGAAGATCGGGCGATTTTAGCTAATGAAGTGAAGATCCGCGTGCGTTTCGGCGCACCGAAACACGGAA +CGGAAGTGGTCGACTTCCGCGCCGCCAGCCCGTTTATTGATGAAGACTTTAACGGCGAATGGCAGATGTT +CACTCCGCGTCCGGCAGATGCGCCGCGCGGCATTGAGTTTGGCAAATTCCAGCTTGGCAACATGGTGGTT +GGCGACATTATCGAGTGCGGCAGCGACGTTACCGACTACGCGGTGGGCGACAGCGTATGCGGCTACGGCC +CGCTCTCCGAGACGGTCATCATTAACGCAGTGAATAACTACAAGCTGCGCAAAATGCCGCAAGGCAGCTC +CTGGAAAAACGCCGTCTGCTACGACCCGGCGCAGTTTGCCATGAGCGGCGTGCGCGATGCCAACGTGCGC +GTAGGGGATTTTGTGGTGGTGGTAGGGCTTGGCGCAATCGGTCAAATTGCCATCCAACTGGCTAAACGCG +CTGGCGCTTCTGTGGTGATTGGCGTCGATCCTATCGCCCATCGCTGTGATATTGCCCGTCGCCACGGCGC +GGATTTCTGCCTTAACCCCATCGGCACTGATGTAGGTAAAGAGATCAAAACGCTGACCGGCAAGCAGGGT +GCCGATGTGATTATCGAAACCAGCGGCTACGCCGACGCGCTGCAATCGGCGCTCCGCGGTCTGGCTTATG +GCGGCACCATCTCCTATGTCGCGTTTGCCAAGCCGTTTGCCGAAGGTTTTAACCTCGGACGCGAAGCGCA +TTTCAATAACGCCAAAATTGTCTTCTCTCGCGCGTGCAGCGAACCGAACCCGGATTATCCGCGCTGGAGC +CGCAAGCGTATTGAAGAAACCTGTTGGGAACTGCTGATGAACGGTTATCTCAATTGCGAAGATTTAATCG +ACCCGGTGGTGACCTTTGCCAATAGCCCGGAAAGCTATATGCAGTATGTCGACCAGCATCCGGAACAGAG +CATCAAAATGGGCGTTACGTTTTAATTCAAAGGAATGAAAAAAATGAAAATCGGCACACAGAATCAGGCG +TTCTTTCCGGAAAACATTCTGGAGAAATTTCGTTATATCAAAGAGATGGGCTTCGATGGTTTTGAGATTG +ACGGCAAACTGCTGGTTAACAACATCGAAGAAGTCAAAGCGGCGATCAAAGAAACCGGTTTACCGGTGAC +CACCGCCTGCGGTGGCTATGACGGATGGATTGGCGACTTTATCGAAGAGCGTCGTCTTAATGGCTTAAAG +CAGATCGAGCGCATTCTCGAAGCGCTGGCAGAAGTGGGCGGTAAAGGCATCGTCGTTCCGGCTGCGTGGG +GCATGTTTACCTTCCGCTTACCGCCGATGACCTCGCCGCGTAGCCTGGACGGCGACCGCAAAATGGTGAG +TGATTCCCTGCGCGTACTGGAACAGGTCGCCGCGCGTACCGGAACCGTGGTGTATCTCGAACCGTTAAAC +CGCTATCAGGATCATATGATCAACACCCTCGCCGATGCCCGCCGTTACATCGTCGAAAACGATCTTAAAC +ATGTACAGATTATCGGCGATTTCTATCACATGAATATCGAAGAAGATAACCTGGCGCAGGCGCTGCATGA +CAACCGCGACCTGCTCGGTCATGTGCATATTGCGGATAACCATCGCTACCAGCCGGGCAGCGGCACCCTG +GATTTCCACGCGCTGTTTGAACAGCTGCGCGCGGATAACTATCAGGGCTATGTAGTGTACGAAGGGCGTA +TCCGGGCGGAAGATCCTGCCCAGGCGTACCGTGATTCGTTGGCCTGGTTGCGTACCTGCTAAGAGGTCTT +TGTGAAAAGTGCAATGACAAGCTCTCCGCTGCGGGTCGCGATAATAGGCGCAGGCCAGGTGGCGGATAAG +GTTCATGCTTCGTACTACTGCACCCGCAACGATCTGGAACTGGTGGCTGTCTGTGACAGCCGCCTTTCCC +AGGCGCAGGCGCTGGCAGAAAAATACGGGAATGCATCCGTGTGGGACGATCCGCAGGCCATGCTGCTGGC +GGTGAAACCTGATGTGGTTAGCGTCTGCTCACCTAACCGTTTTCATTACGAACATACCCTGATGGCACTG +GAAGCGGGCTGCCATGTGATGTGCGAAAAACCGCCCGCCATGACGCCAGAACAGGCGCGGGAAATGTGCG +ATACCGCGCGCAAACTGGGCAAGGTGCTGGCCTACGACTTTCACCATCGTTTTGCGCTCGATACGCAACA +GCTGCGTGAACAGGTGACCAACGGCGTTTTGGGAGAGATTTACGTTACCACCGCCCGCGCCCTGCGTCGC +TGCGGCGTTCCCGGCTGGGGTGTCTTTACCAATAAAGAACTGCAGGGTGGTGGCCCGCTGATCGACATCG +GCATTCATATGCTGGATGCTGCGATGTATGTGCTGGGCTTTCCGGCGGTGAAAAGCGTGAATGCGCATAG +CTTTCAAAAGATCGGCACGCAAAAGAGCTGTGGTCAATTTGGTGAGTGGGATCCGGCAACTTACAGCGTC +GAAGATTCGCTGTTTGGCACCATTGAATTTCATAACGGCGGCATTCTGTGGCTGGAAACGTCATTTGCAC +TCAACATCCGCGAACAGTCGATTATGAACGTCAGCTTTTGTGGTGATAAAGCTGGTGCGACGCTGTTTCC +AGCACATATCTACACCGATAACAACGGTGAATTAATGACGCTGATGCAACGGGAAATAGCAGACGACAAC +CGCCATTTGCGCAGCATGGAAGCCTTTATCAATCACGTACAGGGCAAGCCCGTGATGATAGCCGACGCCG +AGCAGGGGTACATCATCCAGCAACTGGTGGCGGCGTTGTATCAATCCGCAGAAACAGGGACGCGTGTGGA +ATTATGACCAGGCCAGTAACGTTATCAGAACCCCATTTCAGCCAGCATACCCTGAACAAGTATGCATCGC +TGATGGCGCAGGGGAACGGCTATCTTGGGCTTCGCGCCAGCCATGAAGAAGATTACACGCGCCAGACGCG +AGGGATGTATCTGGCGGGGCTGTATCATCGGGCGGGAAAAGGTGAAATCAACGAACTGGTGAACCTGCCT +GATGTCGTGGGGATGGAGATTGCCATAAATGGTGAGGTTTTCTCGTTATCCCACGAAGCCTGGCAGCGTG +AGCTTGACTTTGCCAGTGGCGAATTACGCCGCAATGTTGTCTGGCGTACCAGCAACGGCTCAGGTTACAC +CATCGCCAGCCGTCGCTTTGTTTCGGCAGACCAACTGCCGCTCATTGCGCTGGAAATCACTATTACGCCA +CTGGACGCCGACGCGTCAGTGCTGATTTCAACAGGCATTGACGCCACGCAAACCAATCACGGTCGCCAAC +ATCTCGACGAAACCCAGGTGCGGGTGTTTGGTCAGCATCTGATGCAGGGGAGCTACACCACCCAGGATGG +ACGCAGTGATGTGGCCATCAGCTGTTGCTGTAAGGTGAGCGGTGATGTGCAGCAATGCTATACCGCCAAA +GAGCGCCGTTTACTGCAACATACCAGTGCGCAGCTTCATGCAGGCGAGACAATGACGTTGCAAAAACTGG +TGTGGATCGACTGGCGGGATGACAGGCAAGCTGCTTTAGACGAGTGGGGCAGCGCGTCGCTTCGCCAGCT +TGAAATGTGCGCGCAGCAGAGTTACGACCAACTTCTTGCAGCATCAACAGAAAACTGGCGTCAATGGTGG +CAGAAACGTCGTATCACGGTAAATGGCGGCGAAGCGCACGATCAGCAAGCGTTAGATTATGCGCTTTATC +ATCTGCGCATCATGACGCCTGCCCACGACGAGCGCAGCAGCATTGCGGCAAAAGGCTTAACCGGCGAAGG +CTACAAAGGCCACGTTTTCTGGGATACAGAAGTATTTTTGTTACCGTTTCATCTGTTTAGCGATCCGACG +GTTGCCCGAAGTTTACTGCGTTATCGCTGGCACAACTTGCCAGGCGCGCAGGAGAAAGCGCGACGCAACG +GCTGGCAGGGCGCGCTATTTCCGTGGGAAAGCGCGCGCAGCGGCGAAGAAGAGACGCCGGAATTTGCCGC +CATTAACATTCGCACCGGGCTGCGGCAAAAAGTGGCCTCGGCGCAGGCGGAACATCATCTGGTGGCCGAT +ATCGCCTGGGCGGTTATTCAATACTGGCAGACCACGGGGGATGAAAGTTTCATTGCGCATGAAGGCATGG +CGCTACTTCTGGAGACGGCAAAGTTCTGGATTAGCCGCGCGGTGAGAGTTAACGATCGTCTGGAAATTCA +TGATGTTATTGGGCCAGACGAATATACCGAACATGTCAATAATAATGCATACACCAGCTATATGGCCCGC +TACAACGTTCAACAGGCGCTGAATATTGCCCGCCAGTTCGGCTGTAGCGACGATGCGTTTATCCATCGCG +CCGAAATGTTCCTCAAAGAGCTATGGATGCCAGAAATTCAGCCCGACGGCGTTTTGCCGCAGGATGATTC +GTTTATGGCTAAGCCGGCGATTAATCTGGCGAAATACAAAGCGGCGGCGGGGAAGCAAACCATACTGCTG +GATTATTCACGCGCAGAAGTGAACGAGATGCAGATCCTCAAACAAGCTGATGTGGTGATGCTCAATTACA +TGCTGCCGGAGCAGTTCTCAGCGGCATCGTGTCTTGCCAATCTGCAATTTTATGAACCGCGCACTATTCA +CGACTCGTCATTAAGTAAAGCAATCCACGGCATTGTTGCCGCACGCTGTGGCCTGCTGACCCAAAGTTAT +CAGTTCTGGCGCGAGGGGACTGAAATCGATCTTGGTGCTGATCCGCATAGTTGTGATGATGGTATCCATG +CTGCCGCAACTGGCGCTATCTGGCTGGGGGCGATTCAGGGTTTTGCCGGGGTGAGCGTGCGTGACGGTGA +ATTGCATCTCAATCCGGCGTTACCTGAGCAGTGGCAACAGTTGTCTTTCCCTCTGTTCTGGCAGGGCTGC +GAATTACAGGTCACTCTTGACGCGCAGCGTATTGCGATTCGAACTTCTGCGCCCGTTTCACTGCGTTTGA +ACGGTCAGCTTATAACCGTGGCTGAAGAATCTGTTTTCTGTTTGGGTGATTTTATTTTGCCCTTCAATGG +GACCGCTACCAAACATCAGGAGGATGAATGAAACTGCAAGGGGTAATTTTCGATCTGGATGGTGTAATCA +CCGATACCGCGCATCTGCATTTCCAGGCGTGGCAGCAGATTGCCGCTGAAATTGGCATCAGCATTGATGC +GCAGTTTAACGAATCCCTAAAAGGGATCAGCCGCGATGAGTCTCTGCGGCGCATTCTGCAACACGGGGGC +AAAGAGGGCGACTTTAACTCGCAGGAGAGGGCGCAACTGGCGTATCGCAAAAATCTGCTCTATGTCCACT +CACTACGCGAGTTGACGGTCAACGCTGTTCTACCCGGCATTCGCTCTTTGCTGGCAGATCTCCGTGCACA +GCAGATCTCGGTTGGGCTGGCTTCTGTCTCCCTGAATGCGCCGACGATTTTAGCGGCGCTGGAGCTGCGC +GAGTTTTTCACCTTCTGCGCGGATGCTTCCCAACTTAAAAACTCGAAACCGGACCCGGAAATCTTTCTCG +CCGCCTGTGCAGGGCTGGGCGTGCCGCCGCAGGCATGTATCGGCATTGAAGATGCGCAGGCGGGCATTGA +CGCCATTAACGCCAGCGGTATGCGCTCGGTGGGGATCGGCGCGGGCTTAACCGGGGCGCAATTACTGTTG +CCTTCAACGGAATCACTCACCTGGCCGCGGTTATCGGCCTTCTGGCAAAACGTATAGCAAAGGAATCAAC +ATGGCTCAGCTTTCGTTACAACATATTCAAAAAATCTACGATAACCAGGTGCATGTGGTGAAGGACTTCA +ACCTGGAAATTGCCGATAAAGAGTTCATCGTGTTTGTCGGCCCGTCGGGCTGCGGTAAGTCGACCACCCT +GCGCATGATTGCCGGGCTTGAGGAGATCAGCGGCGGCGATCTGTTGATCGACGGCAAACGAATGAATGAC +GTTCCAGCCAAAGCACGCAATATAGCGATGGTGTTCCAGAACTACGCGTTGTATCCGCATATGACGGTTT +ACGACAACATGGCGTTTGGTCTGAAGATGCAAAAAATCGCCAAAGAGGTGATTGATGAGCGGGTGAACTG +GGCGGCGCAAATTCTCGGCCTGCGTGAGTACCTGAAACGTAAGCCGGGGGCGCTTTCCGGCGGGCAACGT +CAGCGAGTGGCGCTTGGGCGGGCGATTGTACGCGAAGCGGGCGTGTTTTTAATGGATGAACCGCTCTCTA +ACCTTGATGCCAAGCTGCGCGTGCAAATGCGCGCAGAGATCAGCAAGCTGCATCAGAAACTGAACACCAC +CATGATCTACGTGACCCACGATCAGACCGAAGCGATGACCATGGCGACGCGGATTGTGATTATGAAAGAC +GGGATTGTTCAGCAAGTAGGTGCGCCGAAAACCGTTTATAACCAACCCGCGAATATGTTTGTTTCCGGAT +TTATTGGATCACCAGCGATGAATTTTATTCGCGGCACGATCGATGGCGATAAATTCGTTACGGAAACGCT +TAAATTAACCATTCCCGAAGAGAAATTAGCGGTTCTGAAAACACAGGAAAGTTTGCATAAGCCCATCGTG +ATGGGAATACGACCGGAAGATATTCATCCGGACGCGCAAGAGGAAAATAACATTTCCGCCAAAATTAGCG +TGGCAGAATTAACCGGTGCGGAATTTATGCTCTACACCACGGTTGGGGGCACGAGTTAGTGGTCCGTGCT +GGTGCGTTAAATGATTATCATGCAGGAGAAAATATCACTATTCATTTTGATATGACGAAATGTCATTTCT +TTGATGCAGAAACGGAAATAGCAATTCGCTAAATACAGGGGGAAGGCATTCCCCCAGGATAATACAAGGA +ACAATAATGAAAAAGTTATTACCCTGTACCGCACTGGTGATGTGTGCGGGAATGGCCTGCGCACAGGCCG +AGGAAAGGAACGACTGGCACTTTAATATCGGCGCGATGTACGAAATAGAAAACGTCGAGGGTTATGGCGA +AGATATGGATGGGCTGGCGGAGCCTTCAGTCTATTTTAATGCCGCCAACGGGCCGTGGAGAATTGCTCTG +GCCTATTATCAGGAAGGGCCGGTAGATTATAGCGCGGGTAAACGTGGAACGTGGTTTGATCGCCCGGAGC +TGGAGGTGCATTATCAGTTCCTCGAAAACGATGATTTCAGTTTCGGCCTGACCGGCGGTTTCCGTAATTA +TGGTTATCACTACGTTGATGAACCGGGTAAAGACACGGCGAATATGCAGCGCTGGAAAATCGCGCCAGAC +TGGGATGTGAAACTGACTGACGATTTACGTTTCAACGGTTGGTTGTCGATGTATAAATTTGCCAACGATC +TGAACACTACCGGTTACGCTGATACCCGTGTCGAAACGGAAACAGGTCTGCAATATACCTTCAACGAAAC +GGTTGCCTTGCGAGTGAACTATTATCTCGAGCGCGGCTTCAATATGGACGACAGCCGCAATAACGGTGAG +TTTTCCACGCAAGAAATTCGCGCCTATTTGCCGCTGACGCTCGGCAACCACTCGGTGACGCCGTATACGC +GCATTGGGCTGGATCGCTGGAGTAACTGGGACTGGCAGGATGATATTGAACGTGAAGGCCATGATTTTAA +CCGTGTAGGTTTATTTTACGGTTATGATTTCCAGAACGGACTTTCCGTTTCGCTGGAATACGCGTTTGAG +TGGCAGGATCACGACGAAGGCGACAGTGATAAATTCCATTATGCAGGTGTCGGCGTAAATTACTCGTTCT +GATAATGGGCTAAATTGCCGGATGCGGCGCGAGTACTTTATCCGATCTATAAATGTAGGCCGGATAAGAT +GCGCTAGCATCGCATCTGGCATTCAGGCAAGGTAGCTGGTATTTATTTCAGCGTCATATGCGTGGCAACG +GTAATATTCTGTGGTGACGGTTTTCCAGAAATTAAGCGGAATAATAACTCGCAGCTTTGTTGACCTAACT +CCTGCGTCGGAACATCGATGCCGCCCGGTGCAGGCGTTAAAATAAATGACAGCGTTTCATTGCTATAACC +CACCACCGCTAACTGCTGCGGAATAGCAATATTTTTCTCTGCTGCCGCACGATAAATGCTCATTAATTTC +AGGCTGTCAGTGGCAAACACCGCCTCAGGCAACGGTGACTGGCTTAATAATTGCCGTGCTGCTTTTAATG +CAGTTTCATGGGTATAACCGCCATCAACAATCCATTCATCACGCACTGCAATATTATGCGCAGCCAGGCT +CTGCTTATAACCATTAACGCGATCAACCGAAACATGGACATCAAGCGGAGCATGCAGGCAGGCAATATTT +TGATGCCCACTTTCAATTAATGCATCGGTCAACGCAATGCTGTCGCCAAAATTATCGGTATCGACAGAAT +AAACATGGGCATATTGACCTTCAACTTTGCCAATCACCACCACCGGAATATCATATTTATCGAGTTGGGC +AAAAAATGACTCATCCGCTGGCGAACTGAGCATAATAATGCCTTTAATCATTTTCTGCTTAATTTTGCTT +TCGCATTTTTGCAGATCTTCTGCCGGATTGTGCGACGTTTGTAATATCACGTCGAAACCTTCTTCTTCAG +CTTTGGCGGTGATGGCATGCAAAACTTCAGAGAAAAACGGATTACCCGCCGTAGTTTTGGTCGAACGGGT +AGAAATCACCATAATGGCATCAAAACCCGAAGAGGTCAGCGCGCGGGCCAGCTTGTTTGGCTGATACTGT +AATTCTTCAATGGCCCGTAACACTTTTTCGCGCGCTTCCGGGGAGATATTAGTTTGCTTATTCAGCACGC +GTGATACGGTGGATTTTGATACGCCTGCAACCCTGGCAATATCATAAATAGTAGGGGACATAGGTCAGGA +ACTCCGTCCGAACGTGAATGCTGCACATCTTATGGAGTTCGCCGGTCGATGACAACACGGGCAGTTGATA +ATCAATGGCCTGGCCCCCACATTCATATCCTTACGAATGATTTTTTTTCTGGTCTTCAGAGCAGCACAGG +ACAGCAATGAAGCGACTTAAAAATGAACTCAATGCGCTGGTGAATCGGGGTGTCGACAGACATCTGCGCC +TCGCTGTAACCGGACTTAGCCGCAGCGGCAAAACAGCGTTTATCACCGCGATGGTTAATCAGTTGCTTAA +TATTCACGCCGGAGCACGTTTGCCGCTGTTAAGTGCGGTGCGTGAAGAGCGCCTGCTGGGCGTGAAACGC +ATTCCCCAGCGTGACTTTGGCATTCCGCGCTTCACCTATGACGAAGGGCTGGCGCAGTTATATGGCGATC +CACCCGCCTGGCCAACGCCAACGCGCGGCGTCAGTGAAATCCGCCTGGCGCTACGTTTTAAATCGAATGA +TTCGCTGCTACGCCACTTTAAGGATACCTCCACGCTGTATCTGGAAATTGTGGATTATCCCGGCGAATGG +TTGCTCGACCTGCCGATGCTGGCGCAGGACTATTTAAGCTGGTCGCGCCAGATGACGGGCTTACTCAATG +GTCAGCGCGGAGAATGGTCGGCGAAATGGCGAATGATGAGCGAAGGGCTGGACCCGCTAGCGCCTGCCGA +CGAAAACCGGCTGGCGGACATTGCCGCCGCGTGGACCGATTATCTCCACCACTGTAAAGAGCAGGGGCTG +CACTTTATTCAGCCTGGGCGCTTTGTCTTGCCGGGAGATATGGCAGGTGCGCCCGCGCTGCAATTCTTCC +CGTGGCCGGATGTCGATACCTGGGGCGAGTCCAAACTGGCGCAGGCCGATAAGCATACCAATGCCGGAAT +GCTGCGCGAGCGCTTTAATTATTACTGCGAGAAGGTGGTGAAGGGGTTCTATAAGAATCATTTTCTGCGC +TTTGACCGCCAGATTGTGCTGGTGGATTGCCTGCAACCTCTCAACAGTGGGCCACAGGCATTTAATGATA +TGCGTCTGGCACTGACGCAGCTGATGCAAAGTTTTCACTACGGGCAGCGTACCCTGTTCCGGCGTTTGTT +TTCGCCGGTTATCGATAAGCTATTGTTTGCTGCCACTAAAGCGGACCATGTGACCATCGATCAGCACGCT +AATATGGTTTCATTACTGCAACAACTGATTCAGGATGCCTGGCAAAATGCGGCGTTCGAAGGGATCAGCA +TGGACTGCCTGGGGCTGGCGTCAGTTCAGGCGACCACCAGCGGCATTATTGATGTTAACGGTGAGAAAAT +CCCGGCGCTGCGTGGTAATCGACTTAGCGATGGCGCACCGCTCACTGTTTATCCTGGCGAAGTTCCCGCA +CGTTTGCCTGGTCAGGCGTTCTGGGATAAGCAAGGCTTCCAGTTTGAGGCATTTCGTCCGCAGGTGATGG +ATGTCGACAAACCACTACCGCATATTCGTCTTGATGCTGCGCTGGAATTTTTAATAGGAGATAAATTGCG +ATGACCGAACCGTTAAAACCACGTATTGATTTCGACGGTCCTCTGGAGGTCGATCAGAATCCTAAATTCA +GGGCGCAGCAGACCTTTGACGAAAATCAGGCGCAAAATTTTGCCCCGGCCACGCTCGACGAAGCGCAGGA +AGAAGAGGGGCAAGTCGAAGCGGTAATGGACGCAGCGTTACGTCCGAAACGCAGCCTGTGGCGCAAAATG +GTGATGGGAGGGCTGGCTCTGTTTGGCGCAAGCGTTGTCGGGCAGGGTGTACAGTGGACAATGAATGCCT +GGCAAACCCAGGACTGGGTGGCGCTGGGTGGATGTGCCGCTGGGGCATTGATTATCGGCGCTGGCGTAGG +TTCTGTGGTAACAGAGTGGCGGCGCTTATGGCGCTTGCGACAGCGCGCCCATGAACGCGACGAAGCGCGT +GATTTATTGCATAGCCACGGCACGGGCAAAGGCCGCGCATTTTGCGAAAAACTGGCGCAGCAGGCGGGTA +TTGATCAGTCGCATCCGGCGCTGCAACGCTGGTATGCCTCAATCCATGAAACGCAAAACGACCGTGAAGT +GGTCAGCCTGTATGCGCATTTGGTCCAGCCAGTTTTAGATGCCCAGGCGCGGCGCGAAATCAGCCGTTCG +GCGGCGGAATCAACGTTGATGATTGCGGTCAGCCCGCTGGCGTTGGTCGATATGGCGTTTATCGCCTGGC +GCAATCTGCGTTTAATTAATCGCATCGCCACGCTGTATGGCATTGAACTGGGGTATTACAGCCGTTTGCG +TCTGTTTAAGCTGGTATTGCTGAATATCGCTTTTGCCGGAGCCAGCGAACTGGTGCGCGAAGTGGGGATG +GACTGGATGTCGCAAGATCTCGCTGCTCGTTTGTCTACCCGCGCAGCTCAGGGGATTGGTGCAGGACTTC +TGACGGCACGACTCGGGATTAAAGCTATGGAGCTTTGCCGCCCGCTGCCGTGGATTGACGATGACAAACC +TCGCCTCGGGGATTTCCGTCGTCAGCTTATCGGTCAGGTGAAAGAAACGCTGCAAAAAGGCAAAACGCCC +AGCGAAAAATAATGCAATATCGGGTGCTGACCGGATATCTTTACGCCGAAGTGCCCGTTTTTCCGTCTTT +GTGTCAATGATTGTTGACAGAAACCTTCCTGCTATCCAAATAGTGTCATATCATCATATTAATTGTTCTT +TTTTCAGGTGAAGGTTCCCATGCGTCTGGAAGTCTTTTGTGAAGACCGACTCGGTCTGACCCGCGAATTA +CTCGATCTACTCGTGCTAAGAGGCATTGATTTACGCGGTATTGAGATTGATCCCATTGGGCGAATCTACC +TCAATTTTGCTGAACTGGAGTTTGAGAGTTTCAGCAGTCTGATGGCCGAAATACGCCGTATTGCGGGTGT +TACCGATGTGCGTACTGTCCCGTGGATGCCTTCCGAACGTGAGCATCTGGCGTTGAGCGCGTTACTGGAG +GCGTTGCCTGAACCTGTGCTCTCTGTCGATATGAAAAGCAAAGTGGATATGGCGAACCCGGCGAGCTGTC +AGCTTTTTGGGCAAAAATTGGATCGCCTGCGCAACCATACCGCCGCACAATTGATTAACGGCTTTAATTT +TTTACGTTGGCTGGAAAGCGAACCGCAAGATTCGCATAACGAGCATGTCGTTATTAATGGGCAGAATTTC +CTGATGGAGATTACGCCTGTTTATCTTCAGGATGAAAATGATCAACACGTCCTGACCGGTGCGGTGGTGA +TGTTGCGATCAACGATTCGTATGGGCCGCCAGTTGCAAAATGTCGCCGCCCAGGACGTCAGCGCCTTCAG +TCAAATTGTCGCCGTCAGCCCGAAAATGAAGCATGTTGTCGAACAGGCGCAGAAACTGGCGATGCTAAGC +GCGCCGCTGCTGATTACGGGTGACACAGGTACAGGTAAAGATCTCTTTGCCTACGCCTGCCATCAGGCAA +GCCCCAGAGCGGGCAAACCTTACCTGGCGCTGAACTGTGCGTCTATACCGGAAGATGCGGTCGAGAGTGA +ACTGTTTGGTCATGCTCCGGAAGGGAAGAAAGGATTCTTTGAGCAGGCGAACGGTGGTTCGGTGCTGTTG +GATGAAATAGGGGAAATGTCACCACGGATGCAGGCGAAATTACTGCGTTTCCTTAATGATGGCACTTTCC +GTCGGGTTGGCGAAGACCATGAGGTGCATGTCGATGTGCGGGTGATTTGCGCTACGCAGAAGAATCTGGT +CGAACTGGTGCAAAAAGGCATGTTCCGTGAAGATCTCTATTATCGTCTGAACGTGTTGACGCTCAATCTG +CCGCCGCTACGTGACTGTCCGCAGGACATCATGCCGTTAACTGAGCTGTTCGTCGCCCGCTTTGCCGACG +AGCAGGGCGTGCCGCGTCCGAAACTGGCCGCTGACCTGAATACTGTACTTACGCGTTATGCGTGGCCGGG +AAATGTGCGGCAGTTAAAGAACGCTATCTATCGCGCACTGACACAACTGGACGGTTATGAGCTGCGTCCA +CAGGATATTTTGTTGCCGGATTATGACGCCGCAACGGTAGCCGTGGGCGAAGATGCGATGGAAGGTTCGC +TGGACGAAATCACCAGCCGTTTTGAACGCTCGGTATTAACCCAGCTTTATCGCAATTATCCCAGCACGCG +CAAACTGGCAAAACGTCTCGGCGTTTCACATACCGCGATTGCCAATAAGTTGCGGGAATATGGTCTGAGT +CAGAAGAAGAACGAAGAGTAAGCGCGAATATGCCTGATGGTGCAACACCATCAGGCATATTAAATTATGC +TTTCAGTACAGCCAGAGCTGCTTCGTAATCCGGCTCGGTGGTGATTTCATCCACCAGCTGGCTGAAAATC +ACATTGTCATTTTCGTCAATAACCACAACGGCACGCGCTGCCAGACCTTTCAGTGGGCCATCAGCAATTG +CCACACCGTAAGCTTGCAGAAATTCAGCGTTACGGAAAGTGGAGAGGGTGATAACGTTGTTCAGACCTTC +TGCGCCGCAGAAACGAGACTGGGCGAACGGCAGATCGGCAGAGATACACAGCACAACGGTGTTGTCGATC +TCAGTTGCCAGTTGGTTAAACTTACGTACTGATGCGGCGCAAACACCGGTATCAATACTCGGGAAAATGT +TCAGCACTTTGCGTTTACCCGCAAACTGACCGAGGGTGACGTCAGACAGATCTTTTGCCACGAGAGTAAA +AGTCTGCGCTTTGCTACCCGCCTGCGGGATGGAATTGGCGACTGTAACCGGGTTGCCCTGGAAATGAACG +GTTTGTGACATGATTATCTTTCCTGTTTACATATAGTTAACGTCACACCTAGTTTATGCTAACTGTCAAT +AACACAGCAAACGCTATTTGCGCTTAATCCGCAGACCACCGCGACAACAAGGAGTAAAGATGAGAACCGT +TAAGGTATTCGAGGAAGCCTGGCCCTTACATACCCCGTTTGTGATTGCCCGGGGAAGTCGCAGTGAAGCG +CGCGTGGTGGTGGTTGAACTGGAAGAAGAGGGTATTAAAGGCACCGGCGAATGCACGCCGTATCCGCGTT +ATGGGGAAAGTGATGCCTCGGTAATGGCGCAAATTATGAGCGTCGTGCCGCAACTAGAGAAAGGGCTGAC +ACGGGAGGAGTTGCAAAAAATTCTCCCTGCCGGCGCAGCACGTAATGCGCTGGATTGTGCATTGTGGGAT +CTGGCCGCGCGAAGACAGCAGCAATCGCTGGCTGATTTGATCGGCATAACGCTTCCCGAGACAGTTATCA +CTGCACAGACGGTTGTCATCGGTACGCCTGATCAGATGGCCAATAGTGCATCAACACTCTGGCAGGCAGG +CGCGAAATTACTGAAAGTGAAGCTGGATAACCATCTTATCAGTGAGCGGATGGTGGCAATTCGCACAGCT +GTGCCCGATGCGACGCTGATCGTTGATGCAAATGAATCCTGGCGTGCAGAAGGGTTGGCGGCGCGTTGCC +AGCTATTGGCGGATTTAGGCGTTGCGATGCTTGAACAACCGCTTCCTGCGCAGGACGATGCGGCGCTGGA +GAATTTTATTCATCCGTTGCCGATTTGTGCTGATGAAAGTTGTCATACTCGTAGCAATTTGAAGGCGCTG +AAAGGGCGCTATGAGATGGTTAATATTAAGCTCGATAAAACCGGGGGTCTGACGGAAGCGCTGGCGCTGG +CGACTGAAGCGCGTGCACAAGGTTTCAGTCTGATGCTGGGCTGCATGTTGTGTACCTCTCGTGCCATTAG +CGCCGCTTTACCGCTGGTGCCGCAGGTCAGTTTCGCCGATCTTGACGGACCGACCTGGCTGGCGGTAGAT +GTGGAACCGGCGCTTCAGTTCACGACGGGCGAATTGCATCTTTAGGATGCCAGCGCAGCAAGTTTGCCAT +CGCAAAGAGATATTTTTCGCTGGCTTCGTCGGAGGAGATGGGCGGAAACTCTGCGGTGATGCAATGCAAG +TTCAGATCTGCACACCAACTGCCGAAAGAGCCAGGCGTTTCATAACCGACGCTGGTTACCAGAGGCAATT +CAAACGCCTGAGCCAGCCATTCGCCTAATTCGCTGTGTCTGGGATCTTCAATACAGGCCAGTGGATCGTG +GAATGAGACCACCCAGGCAGGTTGAATGCGGTGTATAAGCTGGCACAGCGCCTGGGTTTCAGGTTCGGAG +CCAGGTTTGTCACCTGTCAGTAATACGACATCGCGTTCTTCAGCGGCGCTGTTCCAGCGATAAACGGTTT +CACCTTCCTTCCAGTTCGCCGCCGGAAAGTTTCTGTTTAAATCCACACCATTAGCATTGGCCCGTAACCC +CAACTGGCAGCCGTCAGGATTCACACACAGCACCACATGATGACGGCGCAAAGAAGGTGTCAACGTCCGC +AGAGCACAGGAGAGCGTGACGACCGAAGAGTTTTCATCACCGTGAGTGCCAGCCAGAATCAAACCACTTT +CGCGGCTGGCTGCAGGGGCAGGAAACCAGATTAACGGCGCGCCCAATAATGAACGTCCGTAATGTTCTGT +TCCGGGCGGAAATGCGCCGCGTTCGGCGCGTGGGCGGGTTACGGTCATGATCGTCTCTGGTTCAGGAAGT +ATTACAGGCAGTGTTGTGCAAATTTTGCGGATTATCAAATCCTTTTCTTCAACGCTATGTCATCGATCTT +GTATCACTTTTTTGCCGGAAGTTGTTTGCATTTTATTAGTTGGATAGGGTTTGTGGATTTTTGCTGGCTG +ACGGGCAAATAAAGTTTGTTTAATGGTTTGCTTATCTGCCAGTTGATTAATCACATGGCGGGCTATCTGA +CCGCCAGCACCAAGAATCAGTACATTTTTCATGAAAATTATCCCAGATTATTGGCAGCAATATGCCAGTC +CATATCACTATTGCGGATTTGAATATGTTTCATTACAGAGTTTCCTCAAAGAACGGAGCTAATACTGAAA +TTGCTTCAGCCACATAGGCTTTGCCGTCATAAAGATCCATATGGTTTGCGCCTTCAACAATGTGATAGCG +TTTATCCTGGCTTGATGCTCGATCGTACAGGTCGTCACTCATCCATTTGCTCCCTGCCTGGCTGCCCGCC +ACAATCTGCGTCGGCTGAGTCAGGTACACTTCCGCCATATGGTAAGCATCATAGGTAATAATCTGGTTAA +GGCTGCGCAAAGTAGCGTAACCCGGTGCTGTTGGATACTGCGCGCGAGGGGTGTGGTAATACTCCCAGGC +CTGACGCAGTTCTTCGTTCGGCGCATCGGACTCCTTCATTGGTGCCAGTGGCATAATGGCGTATTCTCCG +CTGCTAATATCGCTGGTTCTGGCGTTTGAACCCGCTTCAACGTATGGCAGGGCATCAATAGATTTCACAT +TGTTTTCCCAACCATTACGGAATATCGAACCAATATTGACCGCACTAACGGTACCGATGGCCTTGATGCG +GCGATCCTGAATTGCAGCATTGGCTGTATATCCTGCACCGGCACAAATTCCCATCGCACCAATTCGGGTA +TTGTCGACATAAGAAAGCGTTGTCAGGTAATCAATCACGGCACTGATGTCTTCAGTACGAATGTATGGGT +TTTCTAACTGACGCGGCTCGCCGCCACTTTCACCTTGATAAGATGCGTCATAAGCAATAGTGACAAATCC +CTTTTCCGCCAGTTTTTTGGCATAGGTTCCGGCCGTTTGTTCTTTAACGCCCCCACCTGGGTGAGATAAC +ACAATTGCCTGATACTGACGGGTTTCATCAAATTTTGGAGGGAAATAGATCACTGCAGACAAAGAGATGG +TTGGATTATTGCTGTTAGTGAAGCTGACTTTATTATTCATCATTCCGTTCCTCATGGAGTTGTCGGTTCG +TTTTAACGGTTGGTGATATCACTATAGATATTGATCATTAAGTTGATTAGACCCAAAATCATGATTAGAC +CTATCATTTAAATGATTAATAGATTGCATGGAGATACTGAATGAAGCGTGAAGAAATCGCTGATCTGATG +GCGTTTGTCGTCGTTGCAGAGGAGCGTAGCTTCACTCGTGCAGCAGCCCGCCTGAGCATGGCGCAGTCAG +CTTTAAGCCAGATAGTGCGTCGTATAGAAGAACGATTGGGATTGCGGCTTCTGACGCGAACCACGCGCAG +CGTTGTTCCAACTGAAGCGGGCGAGCATCTTTTGTCTGTTCTTGGCCCTATGTTGCATGACATAGATTCA +GCCATGGCATCCCTGAGCGATCTGCAGAACCGCCCATCCGGGACAATACGTATTACTACTGTAGAACATG +CAGCAAAAACGATATTGTTACCAGCAATGCGCACATTCCTGAAATCGCATCCTGAAATTGATATTCAGCT +CACCATTGATTATGGTTTGACCGATGTCGTTTCTGAACGTTTTGATGCAGGCGTCCGTCTGGGTGGGGAG +ATGGATAAAGATATGATCGCCATTCGAATCGGGCCAGATATACCAATGGCTATTGTTGGCTCACCGGATT +ATTTTTCTCGCCGAAGTGTTCCAACGTCAGTGTCACAATTAATAGATCATCAGGCAATTAATTTGTATCT +TCCCACATCGGGTACAGCAAATCGCTGGAGATTAATACGCGGTGGACGTGAAGTTCGTGTTCGCATGGAA +GGTCAGCTTTTACTGAATACGATAGACCTGATCATTGATGCTGCAATTGATGGGCATGGATTGGCGTATC +TACCTTATGATCAGGTTGAGCGGGCTATTAAAGAAAAAAAACTGATACGTGTTTTGGATAAATTCACACC +AGATTTACCCGGTTATCACCTGTACTATCCACACCGTCGACATGCTGGCTCGGCATTCTCATTATTTATA +GATAGGCTGAAGTATAAAGGTGCTGTTTAGCACTACTTGCTGATACATTAATTTAATTCTTCTCTTAACG +TATTCTCAGTTCCTTTCAACGTTTTGGTCATTTTTTATTCTTCGTACAATGGCGACAGATGCTGATTATG +ATACCGAAAACGGGTTTGAACGTGCGAAGCCCGAACGTAGTGTTCGGAGTTCTATGTGCTTTACCGCATT +TTGGAGACTATTATTTACACTAAATCTGATTTGATATATTGATACTTAAAACATTTGATGCTTCCTTTGT +CACTTTTTTGATGGAAGTTGTTTGCATTTCTTTAAGGCGAAACAAATAATTACGCATCAATTTTAATGTC +GGTTAGAGGGAAACTTATGAAGCACTCTGTTTCAGTCACGTGTTGTGCGCTGTTGGTCAGCAGCATTTCT +CTTTCGTATGCTGCAGAAGTTCCGAGCGGCACAGTACTGGCAGAGAAGCAGGAGCTGGTGCGCCACATTA +AAGATGAGCCTGCGTCGCTGGATCCCGCTAAAGCCGTGGGCCTGCCAGAGATTCAGGTCATTCGCGATCT +GTTTGAAGGTCTGGTGAATCAGAACGAAAAAGGGGAGATTGTCCCCGGCGTTGCGACTCAGTGGAAAAGT +AATGACAACCGTATCTGGACTTTTACCCTGCGCGATAACGCAAAATGGGCGGATGGCACACCGGTAACGG +CGCAAGATTTTGTCTACAGCTGGCAACGTCTGGTGGACCCAAAAACATTGTCGCCATTTGCATGGTTTGC +CGCGCTGGCGGGAATCAACAACGCACAGGCGATTATTGATGGTAAAGCTACGCCTGACCAGCTTGGCGTC +ACCGCAGTTGATGCCCATACTTTGAAAATTCAGCTTGATAAACCGTTGCCGTGGTTTGTGAATTTAACCG +CTAACTTTGCCTTCTTCCCGGTGCAAAAAGCCAACGTAGAAAGCGGTAAAGAGTGGACGAAACCCGGAAA +TCTGATCGGCAATGGCGCTTATGTTCTTAAAGAGCGCGTAGTCAATGAAAAACTGGTCGTGGTACCGAAT +ACCCATTATTGGGATAACGCCAAAACGGTACTGCAAAAAGTGACCTTCCTGCCAATTAATCAGGAATCCG +CAGCCACTAAGCGTTACCTCGCGGGGGATATTGATATCACCGAATCCTTCCCGAAAAATATGTATCAGAA +GCTGTTGAAGGATATTCCGGGGCAGGTTTATACGCCGCCGCAGCTCGGGACCTATTATTATGCGTTTAAC +ACGCAAAAAGGGCCGACGGCAGATCAGCGCGTTCGTCTGGCATTAAGTATGACGATAGATCGCCGCCTGA +TGACCGAAAAAGTATTAGGGACGGGCGAAAAGCCAGCGTGGCATTTTACACCAGATGTTACCGCGGGATT +TACGCCGGAACCTTCGCCGTTTGAACAAATGAGTCAGGAAGAACTGAATGCGCAGGCAAAAACTTTGTTG +AGCGCAGCTGGTTATGGTCCGCAAAAACCGCTGAAGCTGACGCTTTTGTATAACACTTCAGAAAACCATC +AAAAAATTGCGATTGCTGTAGCATCGATGTGGAAAAAGAACCTTGGCGTAGATGTTAAATTGCAAAATCA +GGAATGGAAAACCTATATCGATAGCCGTAACACCGGCAATTTTGATGTTATCCGCGCCTCGTGGGTGGGG +GATTATAATGAACCCTCCACTTTCCTGACATTATTAACGTCAACGCATTCAGGAAATATTTCACGCTTTA +ACAATCCGGCATATGACAAAGTTCTGGCCCAGGCATCGACGGAAAATACCGTTAAAGCGCGTAATGCCGA +TTACAACGCGGCAGAAAAAATCCTCATGGAGCAAGCACCGATTGCACCAATTTATCAATATACCAATGGA +CGATTAATCAAGCCGTGGCTGAAAGGTTATCCCATTAATAATCCTGAAGATGTGGCGTACAGTCGGACTA +TGTATATTGTGAAGCATTGATGTGATGGGAACTGGCGTTACCCTTGTGCATAACGCCAGTGATGTCTGAT +TTAGCGACCCTGTTCCGGCGGTGTAATGTTATCCATATACAGCGTCTGGCTGGGGAAGGCAAAGTCCGCG +CCGTGTGACTGTACAATATCGATAATCTTCAAATAAACGTCTTGCTGTGCAGCAAGCCATTCAGCCCATA +CCGTGGTTTTGGTAAAGCAATAAACCATAATATTCAATGAAGAGTCAGCAAACTGGTTGAAATAAACCAG +TAAGGTTTGTCGCTGGTCGATGGCCGGGTGATTTTTCAGCATCTCACGTACAGCTTCGACAATAACGCCC +ACTTTTGCCGCATCCTCATAACGTAAACCAATGGTCGTGGTAATGCGGCGGTTGGTCATTCGTCCTGGGT +TTTCTACGCTGATCGACGAAAACAGCGAGTTCGGTACGTACAATGGACGATTATCAAAGGTCGTAATTTT +GGTAATTCGCCAGCCAATTTCCGCTACTGTACCTTCGATATTTCTGTCCGGTGAACGGATCCAGTCGCCA +ATACTGAAAGGACGGTCGAAATAGAGCATAATCCCGGAAAAGAAGTTACTCAGAATATCTTTACCGGCCA +TACCGACAGCCAGACCACCAATACCACCAAAGGTCAGCAAGCCAGAAAGGCTCATGCCGAAATGTTCGCC +ATAAAGCAGAACAAGCACCACAATAATGGTGATTTTGATGATACGCGACATAATCCGCGCACTGGTGATA +TCGCGACCTTTTTTAATCTGCTGTTTTTCAAACTGATTAATCAGCAGAAATAGCTTAATCGTCAGAATAA +CCGCAATCAGGGACGTACAGATAAAATCGATAACGCCTGGGGTGATAAATTTGAGTTTATAGTTTTCTAT +AACATAATTAATAATGCTACCAACAGCACTGATAATTATGGTGTAGATTAAAAATTGCACCGCATGGAAT +AAAAATCCTTTTCTTTTACGATTTCCACGGCGAAACCAAAAGCTCATCAGAATCAATGCTGCGCAGCTAC +CGAAAATAATGACCAGATTAAGCGCATTATTTGTAAACAGTTCAGCGATCATTGTTTTATCAGGCTCCTC +CAGATAATTGTCGTCATGCCGGAAACCCCTGGCGGGGCTATTTTACCGCGACAATTCATTCAGATCATCA +ATAGTCAGGGAAGGAAGTAGCAACATTAGCTAAGGAAGGTGCGAACAAGTCCCTGATATGAGATCATGTT +TGTCATCTGGAGCCATAGAACAGGGTTCATCATGAGTCATCAACTTACCTTCGCCGACAGTGAATTCAGC +AGTAAGCGCCGTCAGACCAGAAAAGAGATTTTCTTGTCCCGCATGGAGCAGATTCTGCCATGGCAAAACA +TGGTGGAAGTCATCGAGCCGTTTTACCCCAAGGCTGGTAATGGCCGGCGACCTTATCCGCTGGAAACCAT +GCTACGCATTCACTGCATGCAGCATTGGTACAACCTGAGCGATGGCGCGATGGAAGATGCTCTGTACGAA +ATCGCCTCCATGCGTCTGTTTGCCCGGTTATCCCTGGATAGCGCCTTGCCGGACCGCACCACCATCATGA +ATTTCCGCCACCTGCTGGAGCAGCATCAACTGGCCCGCCAATTGTTCAAGACCATCAATCGCTGGCTGGC +CGAAGCAGGCGTCATGATGACTCAAGGCACCTTGGTCGATGCCACCATCATTGAGGCACCCAGCTCGACC +AAGAACAAAGAGCAGCAACGCGATCCGGAGATGCATCAGACCAAGAAAGGCAATCAGTGGCACTTTGGCA +TGAAGGCCCACATTGGTGTCGATGCCAAGAGTGGCCTGACCCACAGCCTGGTCACCACCGCGGCCAACGA +GCATGACCTCAATCAGCTGGGTAATCTGCTGCATGGAGAGGAGCAATTTGTCTCAGCCGATGCCGGCTAC +CAAGGGGCGCCACAGCGCGAGGAGCTGGCCGAGGTGGATGTGGACTGGCTGATCGCCGAGCGCCCCGGCA +AGGTAAGAACCTTGAAACAGCATCCACGCAAGAACAAAACGGCCATCAACATCGAATACATGAAAGCCAG +CATCCGGGCCAGGGTGGAGCACCCATTTCGCATCATCAAGCGACAGTTCGGCTTCGTGAAAGCCAGATAC +AAGGGGTTGCTGAAAAACGATAACCAACTGGCGATGTTATTCACGCTGGCCAACCTGTTTCGGGCGGACC +AAATGATACGTCAGTGGGAGAGATCTCACTAAAAACTGGGGATAACGCCTTAAATGGCGAAGAAACGGTC +TAAATAGGCTGATTCAAGGCATTTACGGGAGAAAAAATCGGCTCAAACATGAAGAAATGAAATGACTGAG +TCAGCCGAGAAGAATTTCCCCGCTTATTCGCACCTTCCCTAACTAATCAATGCGTTGATTGTAAATCCAG +CTAAGAGGTGAGGTTTTCAGAGCAGACAACGGTGAAATGTCATGGTATTGTTACGTTTAGGTAACAAGAA +ATTTGTCTGCACAAGGATTACATCATGATTATGGCGAAACTGAAGTCAGCGAAAGGGAAGAAATTTCTCT +TTGGTTTGTTGGCGGTTTTCATTATTGCGGCGTCGGTTGTGACTCGCGCGACCATCGGCGGCGTTATAGA +ACAGTACAATATTCCGCTGTCTGAGTGGACGACATCAATGTATGTGATTCAGTCATCGATGATTTTTGTT +TATAGCCTGGTCTTTACTGTGTTGCTGGCAATCCCGTTGGGAATTTATTTCCTTGGCGGCGAAGAGCAGT +AAGTAAAAAATAGGCCCGATAACTCGGGCCTTGTCAGTTATTGAAGAGTCGTTAATCGTCTTCTTCGTCA +TCCAGTTCAACGGGTGTCTGATACTGGTCAGGTTTAATGACCAGCAGGTCGCAGCGAAGATGATCAATCA +CCTGTTCCGCCGTGTTGCCGAGGAATGCTGCTGAAATACCGGTGCGTCCTACCGTGCCCAGAACCACAAT +CCCCGCCTGTAAGTGCTCCGCCAAATCAGGAATCACCTCTTCTGGCAGACCTTTTTCTACGTGCGTCATG +TTTTCATTAATGCCGAATTTCTGCCGCAGGGCTTTCATTGCCAGCAAATGTTGCCCACGAATGGCATCGT +TATAAACGCTCGGGTCAAATTCCGGCAGTTCAATCGCGATATTAATTGGCGTTACCGGATAAGCGCCAAC +CAGATGAACTTCGGTATGGTTGACTTGTTCTGCCAGTTCGATCGTCTCTTTGACCAGTTTTTCATTGAGC +GCATTATGATACGGCTCTTCACTGGCGAGATTCACCGCCACCAGCGCCTTGCCTCCTTCCGGCCACGGCT +GGTCTTTCACCATCCACACCGGGCTTGGGCATTTGCGTAACAGATGCCAGTCCGTTGGCGTAAAAATCAC +CGCTTCCAGACGGTCATGTTGGTGCGCCATTTTTAGCACCAAATCGTGTCCGCCGCTGATCACTTCCTGA +ATGATGGCTTCGAAAGGACGGTTATGCCAGACCACTTTAATTTCAATGGGAACGCCAGCATTGAGATAAT +ATTTTGCCTGCTCGTGGATCCAGGCTGTACGCTGGCTGATGACGCCCTGACGCATAGCGGTACGTTCGTC +CGGGGAGAGCAGGGTGGTCATTTCGTATGAGAAGTCATAGATCGGCAAAAAGGCTTTAATTTTGCCACCA +ATCCGTTGATGTAAATAAACAGCTCGCCGCAATGCTGGTTGGTCGTCCTGGTTAGGATCGATAACAACGA +GCATGTTCTGATACATAGCCATACAGGGTCTCCTTACAACAACTGTCAACGCAGTTTGTAATTAAAAGAT +TAACCCATATCTGGTGAATGAAACAGTGATGAACCTTCTGCCAGATCAATAAATCAGAAAAATTTAATGA +TATGACAGAAGGATAGTGAGTTATGCGGAAAAATCAGGCAACGTTACGCGTATGACCAGCAAGCTGGGCC +AGCGCATCGTTATTTTCGATGGTGATGTATTTACCTTTGACTGCCAGCATGCCGCTTTTCTGGAAGCGAC +CCAGCAGACGGCTGATGGTTTCTACCGTCAGGCCCAGATAGTTACCGATATCGCCACGAGTCATCGTCAG +GCGGAATTCACGAGGGGAGAAGCCGCGTTGGGCAAAACGACGGGACAGGTTGTAGATGAATGCAGCCAGA +CGTTCCTCGGCATTTTTCTTCGACAACAGCAGGATCATGTCCTGATCGCCTTTGATTTCACCGCTCATCA +GACGCATCATCTGCTGACGCAGATTCGGCATTTTACCGGACAAATCGTCCAGCGTTTCGAACGGGATTTC +ACATACCATCGAGGTTTCCAGCGCCTGCGCGAAGCTCGGGTGATGGCCGCTGCCGATGGCGTCAAATCCC +ACCAGGTCGCCTGCTAAATGGAAACCAGTGATTTGCTCGTCGCCTTGCTCAGTGATGGTATAACTTTTAA +TCGTACCGGAGCGGATGGCATAAAGCGATTTAAGTTCATCACCAGCCTTAAACAGCGTCTGGCCTTTCTG +AATAGGCTTCTTCCGCTCAATGATATTATCAAGCTGATCAAGCTCATGTTCGTTGAGTGTGAACGGGATG +CAAAGCTGGCTGATGCTGCAATCCTGGCAATGGATAGCACAACCGCCAGACTGAATGCGCCGTATAATTC +GCTTTTCCGGGATCATAGGTCTGCTCAAGCCGTAATTGATATTTGTCAATTTTAACATCTTTTTAGGGAG +CAAGTAAGTCTAAGCAAACCTTAACAGCAGAGAATTCCGATATTAGATGTAAATATATGTCTATCTATTT +GAAAACCCTTAAGTTGTTAAGGGTAACTTTACATAAAAGTGTGAACAAGCTGGCACAAATTGTTTAATGT +TTACAGCAAAAGATAACCTTCATGGCGCAATAACCACTCTTTTCGCTGAACTCCGCCTGCATATCCGGTC +ATGGTGCCGTTTCGGCCAATAACCCGATGGCAAGGTACGACGATGCTGATGGGATTCGATCCGTTTGCCG +CACCAACGGCACGCGCCGCGCCAGGACGGCCCAATTGCTCAGCCAGTTGGCCGTAATGCATTACCTGCCC +GCAGGGGATAGTGCGTAGTGTTTTCCAGACTTCGCGCTGAAATGGCGTCCCCCCCGTAGCAGTGGGAAGC +GTATCAATAATGCTAAGATTACCGGCAAAATATTCACGAAGCTTGTCGCTTAAACCGCCTGGATTGGTGG +CAGAAATGCGCTCATAGCCTTCTTTGCGATAATGGATGTCCAGCAGCTGCACCATGCGTTCGCTGTACTC +TTCCCATTCAACCGCCCGCAGGCGAAATTGCTCATCGCAAATCACCCACAGTGGACCCAGTGGCGTGGCA +ATTTTTTCTTCAAGTAATCTCAGCATCCGTTCTCTCTTAAGACAAACGTGGGTAAATACCCGGACCTATC +GGCAGACCGACAAGATACCACGCCAGCAACATCAGCAGCCATACCACCAAAAAGATAAGTGGATAGGGCA +AGACTAACGAATAGTAAGTACCCAGTTTCGCGTCTGGTTTGTAGCGTTGCAGGAATCCAAGAAACAGTGG +AACAAAAGGAGATACCGGCGCTAAAGGCAATACGGATGAGTCGGCAATACGAAAGAGGATTTGCGCAAAT +GCCGGGTGAAAGCCAAGTAGCATAAACATTGGTACGAAAATGGGGGCGAGAATCGACCAGATTGCGGAAC +CGCTGGCAATAAACATGCATAAGAAAGAGGAAAGCAACGCCAGACCGACAAACGCCGGGATGCCGCTAAG +CCCTGAACTTTCCAGTATATCGGTCAGCCCCACGGCGATGAATTTCCCCATGTTGCTCCAGTTAAACATG +GCGACAAATTGGGCGAGGGGAAAAACCATCACGATAAATCCCGCCATCTCTTTCATCGGTTCAATCATTA +AATGCGGTAAATCCGCCTGACGTCGAATTGTGCGGGTAGCGATGCCATAAGCCAGCGAGACAACAAAGAA +AAAAAGAATGATCAGTGGCACGATACCTTTAATAAAGGGTGATGGCATCACGGTGTGATTAATCGGATCG +CGCAATATCCCGTTTTGCGGGATCACCATCAGCGCAATCGCAGCAATAAAAAGTAGCGATACGACACCTG +CTATGCGTAAACCAAAACGCTGACTTTCGGTCAATGTCTGCAGTTTCTCATCGCTGTTTCCCTGCCATTG +ACCTAACCGTGGCTCGATGATTTTGTCGGTTATCAGGCCGCCAACAATCGTCAGTACGACTACGGAGCTG +GCCATAAAATACCAGTTATCAATTACACTGACGTGCATTTGCGGATTGAACGCAGCTGCCGCTTCCGTGC +TGATCCCCGACAGCAACACGTCGGTTGTGACAATCAGTAAATTAGCCGTAAAGCCGCAACCTACGCCTGC +AATGGCAGCCAGTAAACCTGCAACTGGATGCCTGCCCACCGCCAGAAAAATCAGCGCACCCATCGGTGGC +ATGATCACTAACGCCGCATCGGAAGAAATGTGGCTGAAAAAAGCAATAAACAGCACCATATAACTGGCGT +AGCGGGCATTAACATGCGATGCCATTTTAACCATTAGTGCTGGCAGTAAGCCGACGCGCTCCGCCAGACC +GGCACCTAAAACCAGCGCCAGGATCGCACCAAGTGGAGCAAAACCGCTAAAGTTTTTAATAACATTGGGT +AAAAACCAGTGTAATCCTTCCACACTGAGCAGGTTTTTCACCACGACCGGCGTACCATCGGTCGGGTTTT +TCGCACTGACGCCAAAGGCCGACAAAATTGCCGTCGTCACCATGAGTACGATAATCAAATAGATAAAGAG +CAGAAAAGGATGGGGAACCTTGTTACCAATTCTTTCGACCCAGCCATAGAGCTTCCCGGATTGGGAGGAC +GACGGTATGGATGACATACTCATGGGCATTCCTCGGTTGTTGTGTTTGCGTTGTTGTTGTTATTTTAAAG +GTGACGGTGTCACGTTTTTCGGGATAGGGCAGTGATACGGTTGCGTGTCCGTTACTTGCTGATGCTCTTG +TTGGCATTCTTGCAATAGCCCTGAATCAAGGAAGAGATTGACTGTGGTTGCTGCCATAGTTTTCGCCGCC +AGCAGCATTCCTTTATGAGCAATAGATGTTCGCCCCTGGCTAACCAGTTGCCACGTATGTAGCGGTGTAC +CGACGGCAAAACAGGGGCTGAAACACTGGGCAACAGGCAGTTTCCAACTGACGTCGCCGACATCAGTCGA +TGCCGCAAGCACGTTATCGGTGGCGGCATATGGAGCGACTTCATTCGCCAGTACCGTTTCACGATGACGT +AGTGCAAAAACCTTGCCGTTTTCGCCACCGGTTGCGGCGATATTATTCAGACTGTTTTGCCGATCGTTGG +AGGTGAGCGTAGCCTGAATTTGTTTCGCAAAAGCCAGTTCTTCGGAGTTCCATTCCGGGGTACCAAAATG +GGATAGGGCCTGGTACATGGCATTTTCTAAGGTGCGATTCGGGAGATAACTGGAACAGGCTTTGTCGAAG +CGGCATTCAACCGTGGTTTCGGTCATCAATGCCGCACCTTCGGCGATTTTGGCGACCCGATCATAAATAT +GCTGCACGTCGGTCATTTCGGGGGCGCGGATAAGATAAAGCACTTCTGCCTGCGCCTGGACCACGTTGGG +CGAGATCCCGCCGCTATTTGTGATGGCATAGTGTACGCGCGCTTTTTCAATAATATGTTCGTTGAGGAAG +TTGGTGCCAGTGGTCATCAACGTTACGGCATCAAGGGCGCTGCGTCCCAAATGAGGGGAATTCGCGGCAT +GTGCTGCGATCCCTTTAAAGCGCCATGATGCCTGAATGTTTGCCAGCGTGCGGGTATTGAACATACCGGC +AAAGGCTTCCGGGTGCCAGGTGAGTGCCGCATCCACATCATCAAATACCCCCTCGCGAACCATGAACGTT +TTACCCGAGCCGCCTTCTTCGCCAGGACAACCATAAAAGCGCACCGTGCCGCCTTGCCCATATTGTTCCA +GCCATTTCTTGACGGCTATTGCAGCGGCAAAGGCGGCGGTTCCCAGCAAATTGTGTCCGCAACCGTGACC +ATTTTCACCGGGCGTCACGGATGTAGGTTGCGCGCAACCTGCTTGCTGACTTAAACCTGCCAGGGCGTCA +TATTCTCCCAGCAGGGCGATAACCGGTTTGCCTTGACCAAACGAAGCAATAAAGGCATTTGGGATATTGC +CTACGTTGCGGGTAACGGTGAAGCCTGCAGATTCCAGCGCCGAAGCCAGATGCTCCGCTGACCAGAACTC +TTCAAAACGTGTTTCTGGATGATCCCAGATTTGATCGGCAATATCGGTATAACGTTGGCGATCGGCTTCA +ATCGCATCGTCGATAAAACGATAGATTTCCTGCATCAGATACCTCGCGTCCAGGGAAAATTGAGCGCGGT +GCGCGCCAGCGTTTCGACGGCAATAGCGAGAACCTGCTCGTCAAAATCGAATTTTTCGTTGTGATGACCT +GCCGCCAGCTGTGTGCCAAACACCACGTAGGAGGCTTGCCCTTGATGTTGCTGCACGCGGGCCATCATTA +ATGTGGCATCTTCGGAACCCGCAGGCGCTTCAACACGTTCAATGGCCTGATTGACCCCCGCGACCTGAGC +CGCCTGACTTTGCAACCATGCGACCCATTGCGGCGAAGGAGAACTGGCGGTAGCTGCACCCATCAGACGA +GTTTCAACGCCGACACCATACATGGTTGCTGCGCCCTGAATCGCTTGTTGTGCACGGTCAAAAACATATT +GATTAATGACGTCGCTGGCCCCGCGTGTTTCCACTTTCAGCAACGCCGAGGCAGGAACAACGTTACGACC +GCTTCCTGCCTGCATAACGCCCACGTTTACTCTGGAAGCTCCTTCGCTGTGCGGGGCGATTGCATGCAGT +GCAAGAGTGGCTTGTGCTGCCGCCAACAAGGCATTGTGACCGTCTTCTGGTTTTGCGCCTGCGTGAGCGG +CGGTACCGGTGAAGTGCGCGTCAAATTTGGTGGTTGCCATAAAATTATCACTGCCGCACACCACGGTGCC +CGCAGGTACGCCAGTGCCAATGTGCACGGCAGTAAAATAATCAACATCATCTACGACACCTGCATCGACC +ATCGCCCGCGCGCCACGCGTACCTTCCTCTGCAGGCTGAAAAATCAGTTTGATGACGCCATGTAGTCCGG +ACTCGAACTGTTTAAGGGTATGCGCCAGCCCAAGCCCAATGGCGGTATGTCCATCATGACCACAGGCATG +CATCATTCCGGCGTTACATGACGCAAAACCGTCGCGGTAGGGGCGATGGCTGACATCCTGCTCTTCACTG +AGATCCAGCGCGTCCATATCGACACGGAAAGCCATCACCGGACCGGGGCGACCGGTATCCAGGGTGGCGA +CGATACCAGTGAAACCACCTTCAAAAGCCGCAATCCATTGTGCTAGCGCACCCTGTTGACGAGCGCGCTC +GAATTCGCGTTGTAGAGTGAATTCATCAGGTAATCCCATCCGGCTACTTTCATTAACTACTTCGCGACCC +AGCGCCAGTGAATAGCCGAGCTGGTGCAATTCTTCCGCAACAAGGGTGGCAGTGCGGAATTCCACCCAGC +CAGACTCTGCATAGTGATGAAAATCACGTCGCCAGTGCGATAATTTTGGGGCAAGCGAATTAACAAATTG +ATTCAAAGACTCCATAACCTTTCCCGTCATCAGTAAAAAGTGTGACCCGGTTCACGTAGCGATAGTTTTT +ACTTATCACTAACTGATTTTTCACAGTTTTAACCGTTCATAAATTACCCTGACACAATCATCTGCATTAA +AGTAGATGCCAGTTTCTTTGGTCTGATAAATAACGGTTATCGGTGGCGTCATGGCTTTTCAGGTAAAAAT +TCATCAAATTCGGGCTTTTGTTGAAGTGGCTCGTCAGGGCAGCATTCGCGGAGCGAGCCGAATGTTGAAT +ATGTCGCAACCGGCACTGAGTAAATCTATTCAGGAGCTAGAAGAAGGGTTAGCGGCGCAACTCTTTTTTC +GCCGTAGTAAAGGCGTGACGTTAACTGATGCCGGTGAAAGTTTTTATCAGCACGCCAGTCTAATTCTTGA +AGAGCTGCGCGCAGCCCAAGAGGATATTCGCCAACGACAAGGGCAACTGGCAGGGCAGATTAATATCGGC +ATGGGGGCCAGTATTTCCCGCAGTCTGATGCCAGCTGTCATATCTCGTTTTCATCAGCAGCATCCGCAGG +TAAAAGTACGCATTATGGAAGGGCAACTGGTGTCGATGATTAATGAATTGCGTCAGGGAGAATTGGATTT +CACCATCAATACCTATTATCAGGGACCGTACGACCACGAATTTACTTTTGAGAAATTACTGGAAAAGCAA +TTCGCGATCTTTTGCCGCCCGGGACACCCCGCCATTGGTGCCCGTTCGATCAAACAGTTACTGGATTACA +GCTGGACAATGCCGACGCCACACGGCAGCTACTACAAACAGTTGAGTGAATTGCTTGACGATCAGGCGCA +AACGCCACAGGTCGGTGTAGTCTGCGAGACGTTCTCAGCCTGTATCAGTCTGGTGGCAAAAAGCGATTTT +CTCAGCAAACTGCCTGAAGAAATGGGCTGCGATCCCTTGCACGGACAGGGGCTGGTGATGTTGCCGGTTA +GCGAAATTTTACCGAAAGCGGCCTATTATTTGATTCAGCGGCGTGATAGTCGCCAGACACCACTGACCGC +GTCATTAATCACGCAATTCCGGCGAGAATGCGGCTATCTGCAAAGTTAAAACTGCATAAAAAAATAGAGT +CTGTCGACATCCGCCAGACTCTACAGTACACACAGCAGTGCATCCGCGTCTTAAATCCGGCATTGTCTCC +TCTGCGCCGGTGACTGTGTTATAACGGTTTTAACCTTTAGTTGCCAATTTTCTTCAGTGACAGATTTCAC +GAAAATATAAGTTACATTATTAATATCGTGAATGAATAATCATGCATAAGTATTTTGCTTAAAATATCGG +CAATATTTGGAACTTATTACTGGAAATTTGGGTAATACGTTGTTGGACCGACCCGGTCTGGTTATCATAT +CGCGCTCTTAATTGCGGGAGGATGTAACATGAACCTTGACGACAAATCGCTGTTTCTTGACGCCATGGAA +GATGTCCAGCCGCTGAAACGTGCTACCGATGTCCACTGGCATCCAACGCGTAACCAACGTGCGCCGCAGC +GTATCGACACGCTGCAGCTTGATAATTTCCTCACCACCGGATTTCTCGACATCATCCCACTAAGTCAGCC +GCTGGAGTTTCGGCGGGAAGGGTTGCAACATGGGGTGCTGGATAAGCTGCGCAGTGGTAAATATCCGCAA +CAGGCGAGCCTGAATCTTTTGCGCCAGCCGGTGGAAGAGTGCCGCAAAATGGTGTTCAGTTTTATTCAAC +AAGCCCTGGCGGATGGTTTGCGTAACGTGCTGATTATTCATGGTAAAGGGCGGGATGATAAATCGCATGC +CAATATTGTCCGCAGCTATGTGGCGCGCTGGCTGACCGAATTTGATGATGTTCAGGCATATTGCACCGCG +CTACCGCATCATGGCGGCAGCGGGGCGTGTTACGTCGCACTACGTAAAACGGCGCAGGCGAAGCAAGAAA +ACTGGGAGCGCCACGCTAAGCGCAGTCGTTGATCTCGAGACGCATCCGCGGCTTATGCCGCCAGCACGCG +GTTGCGTCCATCATTTTTCGCCCGATACAAAGCATCATCAACGCGTTTAAACAGTTCATCGATGCTTTCA +TTTCCTTCGTGATGCGCCACACCAATGCTGACGGTAAAGCGTGGTAAGCCCGAAATACTCACTTTTGCCA +CGCTTACGCGGATAGTTTCAGCCAGCGAAAGCGCGGTATCCAGTGGGGTTCTTGGTAGCAATAAGACAAA +CTCTTCGCCTCCCCAACGAAACACCAAATCGCCTTTGCGAGCGCAACTTTCGAGGGTGCGGGCGAGGGCG +CATAACACCTCATCACCTTTAGAATGCCCATAGAGATCGTTAATGTGTTTAAAACGATCGGTGTCGATGA +GCAACAAGCTGTAATCCTGAGCGATGGCGAGATGCTGCATTTGGCCTGGTTCCGTAATGTGATAAAACTG +TCGCCGATTCAGTAATCCGGTCATCGCGTCATGGTGAGCAGCATGTTCCAGCTGCTCCTCCAGCCGTTTT +TGCTCAGTAATATCATGCACAATACATAACATGAGCTTGTCGCCATAAATTTCAATCGGTCCGGCATAGG +TCTGCACATGACGAGTCGAACCATCCGCCAGTTTATGAACAAAATTCAAAGGTTTATGACCACCGGGTAA +ATGCGAGATTTCATGCATGATAGGCATGACGCGACGCCCGAGCATATTTATTTCCCAGGTATGTTTCTGG +CACATCGTTTCATGGTTATAACCATAGAAATTGAGCGCGGCGAGGTTAGCATCGACGATTTGTCCATCTC +GTGACGGGTCAATCAACAACATTGGTGCAGAGTTAGTCAGAAAAAAGCGCGCATAAAAACCTTGTTTTTT +GCGCTGATAATTTGCCGAGCGACTGGCTTTTAAACCCAGCGTTGCCGGCGCTTCGATACCTTCGAAAATA +ATCACCGGTTCTGTTTCTGTCAGCTTTCGCAAAACAAGCCGACAGCTCAATGCTGTTTCCTCTTCTTTAC +GCTGAACAGTGAGGATTTCGATAATATCGTGTTGGTTTTGCAGATCGGAGAGGTATTTCGGCAGTTCTTT +TTGTGAGGAGACGGAATAGGGTCCGGTTCGTAGCTGACTAAACGTGAGGTCTTGCATCAACAGTTTCGCC +GCGCTATTGGCATAAATTAACTGTTCCTCAAAGGGCGAAACGATCCAGACAGGACTGGTGAGTAAGTCCA +GGGTATTGAAGTTGTGCGTAATCATTGAGATCCCGTTATTTTTATCAATTTTTGTTGCTATCCGATCGCA +AAAAAGCCACGTCATATGATCAGATAATTCTGATAATGATAGACGCTATTTAACACTTCACACGGTTTGT +ATACGGAAAAGCATTTTGCTTTTTGTATTCAATTTAGACAGAATTTTATTAATCATTTCAGGGTAATGGG +GTGATGAGATGTTGCGTAACAGGGCCAGAAGGCTAGACTACAAAATAATGCGTTGATGATGGAGGCACTG +TGGAAGCGATTAAGGGATCGGACGTTAATGTCCCGGATGCAGTATTTGCCTGGATGCTGGATGGTAGAGG +CGGCGTTAAACCGCTGGAAAATACAGATGTGATTGATGAAGCGCATCCCTGTTGGCTCCACCTTAATTAT +GTACACCATGATAGCGCCCAATGGCTGGCGACAACACCGCTGCTTCCCAATAACGTACGTGATGCGCTGG +CGGGCGAGAGCACGCGTCCCCGAGTCAGCCGTCTCGGTGAAGGCACGCTGATTACATTGCGCTGTATAAA +CGGCAGCACCGATGAACGCCCCGATCAACTGGTCGCCATGCGTGTATATATGGACGGGCGGTTAATTGTT +TCGACCCGACAACGCAAAGTGCTGGCGCTGGACGATGTGGTGAGCGATCTGGAAGAGGGCACGGGTCCGA +CCGATTGCGGGGGATGGCTGGTGGATGTGTGCGATGCGTTGACCGATCATTCCAGTGAATTTATCGAGCA +GCTGCACGATAAAATTATCGACCTTGAAGATAATCTCCTTGATCAGCAAATTCCACCGCGTGGATTCCTG +GCTCTGCTGCGCAAACAATTAATTGTGATGCGTCGCTATATGGCACCGCAACGTGATGTTTATGCTCGTC +TTGCCAGTGAACGTTTGCCGTGGATGAGCGATGACCAACGCCGTCGGATGCAGGATATTGCCGATCGCCT +TGGGCGCGGCCTTGACGAAATCGACGCCTGTATAGCACGGACTGGCGTGATGGCGGATGAAATCGCTCAG +GTGATGCAGGAAAATTTAGCTCGTCGTACCTATACAATGTCGTTGATGGCAATGGTCTTTTTACCCAGTA +CCTTTCTGACCGGGTTATTTGGCGTCAACCTTGGTGGGATCCCTGGCGGCGGGTGGCAATTCGGATTTTC +AATTTTTTGTATTCTGTTAGTTGTTCTTATTGGTGGTGTTGCTTTATGGTTGCATCGTAGTAAATGGTTG +TAACAAAAGCAATTTTTCCGGCTGTCTGTATACAAAAACGCCGCAAAGTTTGAGCGAAGTCAATAAACTC +TCTACCCATTCAGGGCAATATCTCTCTTGCAGGTGAATGCAACGTCAAGCGATGGGCGTTGCGCTCCATA +TTGTCTTACTTCCTTTTTTGAATTACTGCATAGCACAATTGATTCGTACGACGCCGACTTTGATGAGTCG +GCTTTTTTTTGCCTGTTATTTATCAGCGTCTACCCTTTAAGAGTCCACCCAATGACCAGAGGGAAATATG +ACGACACTTATTTATTTGCAAATTCCTGTCCCTGAACCGATTCCTGGCGATCCTGTTCCAGTGCCCGATC +CGATCCCTCGCCCGCAACCCATGCCTGACCCACCACCCGATGAAGAACCGATTAAATTGTCGCATCGTGA +GCGTAGATCTGCGAGGATACGCGCCTGCTAACTTTGCGTCGATGACCACGAGAATAGATTGTGACCGCTT +TTTCTACCCTGAATGTTTTGCCTCCCGCCCAACTCACGAACCTTAATGAGTTGGGTTATTTAACCATGAC +GCCGGTGCAGGCCGCCGCGCTTCCGGCGATCCTTGCCGGAAAAGATGTTCGCGTGCAGGCGAAAACCGGC +AGCGGCAAAACGGCGGCTTTTGGCCTCGGCTTGTTACAGCAAATTGATGCGTCGCTATTTCAAACCCAGG +CTTTAGTGCTGTGTCCTACGCGTGAACTGGCGGATCAGGTGGCAGGTGAATTGCGTCGGCTGGCGCGTTT +TCTGCCAAATACCAAAATTTTGACGTTGTGCGGTGGTCAACCGTTCGGTATGCAGCGTGATTCGTTGCAA +CATGCGCCGCATATTATCGTGGCAACGCCGGGGCGTTTGCTGGATCACCTGCAAAAAGGCACGGTATCAC +TGGATGCGTTGAATACGCTGGTGATGGATGAGGCCGACCGCATGCTGGATATGGGATTTAGCGATGCCAT +TGATGATGTCATCCGTTTTGCGCCTGCATCTCGACAGACGCTTCTGTTTTCGGCAACCTGGCCGGAAGCC +ATCGCTGCAATCAGCGGACGAGTGCAACGCGATCCTTTGGCGATTGAAATTGACTCAACAGATGCTTTGC +CACCCATTGAACAACAATTTTATGAGACATCCAGCAAAGGCAAAATTCCTCTGTTGCAACGGTTATTAAG +CTTGCATCAGCCATCCTCTTGCGTGGTGTTTTGCAATACCAAAAAAGATTGCCAGGCTGTCTGCGACGCG +CTGAATGAAGTAGGGCAAAGTGCATTGTCATTACACGGCGATTTGGAGCAACGCGATCGCGATCAGACCC +TGGTACGTTTTGCTAACGGTAGCGCCCGTGTACTGGTCGCGACTGATGTTGCTGCGCGTGGTCTGGATAT +TAAATCGCTTGAGCTGGTGGTGAACTTTGAGCTGGCGTGGGACCCTGAAGTTCATGTACATCGCATCGGT +CGTACAGCTCGTGCAGGAAATAGCGGTCTGGCGATCAGTTTCTGTGCTCCGGAAGAAGCACAGCGGGCCA +ATATCATTTCTGACATGTTGCAGATAAAACTTAACTGGCAAACGCCGCCAGCTAATAGTTCCATTGCGAC +GCTGGAAGCAGAAATGGCAACGTTGTGTATCGATGGCGGGAAAAAAGCCAAAATGCGCCCGGGTGATGTA +TTAGGTGCACTGACAGGAGATATCGGGCTTGATGGCGCAGATATTGGCAAAATCGCCGTGCATCCGGCGC +ATGTCTATGTCGCGGTCCGTCAGGCTGTTGCTCATAAAGCATGGAAACAGTTACAGGGCGGGAAGATTAA +AGGAAAAACGTGCCGGGTGCGGTTATTAAAATAATGAAATGTTGAATTGCCGGGTGCAAGAGTAAACATC +TTATTCGGGATTGCCGGATGCGACGCTGGCCGCGTCTTATCCGGCCTCCATAAGAGTAGCCCGATACGCT +TGCGCATCGGGCGCTATCCTGGTTATTTCACTTCAACCACATTCAGCCGTAACTCATCCAACTGATTTTC +ATCTTCTTCTGGCTGCCAGCACGCCGGTTGTAGTGGGATCTCTTCGCGATCAAACGCCAGATCACCCCCG +TTAACCACTTCAGAACCGTGGGTGATGCCTTTGAAATCGAACAGGTTGGTATCGCACAGATGCGACGGCA +CCACATTCTGCATCGCGCTGAACATCGTCTCGATACGCCCTGGATAACGTTTATCCCAGTCACGCAACAT +GTCAGCAATCACCTGACGTTGCAGGTTAGGCTGTGAACCGCACAGGTTGCACGGAATAATCGGGAACGCT +TTTGCATCGGCAAATCGCTGAATATCTTTCTCGCGGCAGTAGGCCAGCGGACGAATAACGATATGTTTGC +CATCATCGCTCATCAGTTTCGGAGGCATACCTTTCATCTTACCGCCGTAGAACATATTTAAGAACAACGT +TTGCAGGATATCGTCACGATGGTGACCCAACGCGATCTTCGTCGCCCCCAGTTCCGTTGCGGTACGATAA +AGGATACCGCGACGAAGGCGAGAACACAGTGAGCAAGTGGTTTTGCCCTCTGGAATCTTCTCTTTCACGA +TACCGTAAGTATTCTCTTCAACAATCTTGTACTCAACGCCCAGCTTTTCAAGATACTCGGGCAGAACGTG +TTCCGGGAAGCCCGGTTGCTTTTGATCGAGGTTAACAGCCACCAGCGAAAAATTGATTGGCGCGCTTTGC +TGCAAATTGCGCAGAATCTCCAGCATGGTATAGCTGTCTTTACCCCCGGAGAGGCAAACCATGATGCGAT +CGCCTTCTTCAATCATATTGAAGTCAGCAATGGCTTCGCCCACGTTACGACGCAGACGTTTTTGTAATTT +GTTCAGGTTGTATTGTTCTTTCTTTGTAATTTGTTGATTTTCTTGCATTATTTCAGTTCTCTGGTACTAA +ATGGGGCAAATTGGGGGCAAACTTTGCAACTACGATAACCGCGCATTCAACATGGCTATCTGTTCGTCGT +TCATGTCATCAATCCACATACCGTAAATTTCATACACCATCTGCGCAGTTTCATGCCCCATTTGGCTGGC +TATAAATGCCGGGTTCGCTCCTGCCGTCAACAGCCAGCAGGCAAAAGTATGCCGCGTATGGTACGGATTA +CGGCGGCGAATACCAGCACGTTTTACTGCTGCATTCCACCTTGCCCCCAAACTGCTTACCGAGTAATAAG +GTTTTTGTTTTCCGTTACACACCCTGGGCATGAAAACAAAATGCAGTTTTTGCTTTTCGGTTCTGCCGTA +CTCCCGATGATAAAAGGTGATTTCGCTTTTGCGATGATGCCCGGTCAGTTTGTATTGCTCCTTCAGTGCT +TCAAGAGCAGGCTGCAGTAGTGTTACTGTTCGGATCCCGGCATTTGTTTTTGGGGGACCGAACATATCAA +GTATCGTCAGGTTTCTTCTGACATTCACTATTCCCTTTTCGAGATCCACATCCTCCCACGCCAGAGCTGC +CAGTTCCCCGTGACGAAGTCCTGAGTAAACGGCAAATTTCCACAAGTTCTGGCTCTGTCCTTTTTCACTT +TCCATTAATGCATTGAATTCTGTTTTAGATAACGGATCAGGCTTTATTCTGTTTCGCTGTAATTTTTTTA +CTCCTTCAAATGGTTTGGTTGATATAAATCCCGACTGATACGCAAAACGCAACAGCGAACAGAGCAGGGC +GATATAGTTATCAACTGTGCGCACGGTTCTTCCTTTTTTGTTGGATCTTGGATTATCCAGGTAAAGCGTT +TCTCCATGCAGCAGTTCATTCCGGTAGTTTAAGATATCGCTATAACGAATATGTGATATCGGGGTACTTT +CACAAATTATTATTCTGAGTGTTTTTAATTGTGATTTCGTTTTCTTCATTGTGTTTGTTGTTAACTCTGT +CTCTTTAATTTTTGTCCAGATATCACAAAGCTCTCCGAACGTTTTTATGACTCTCGTTGTCACCATTTTT +GCCCCAGTGCTGGACTGGGGAAAACGTCTTAAATACTCAAATTCACCGGAGTTTATTTCATGAACTATCA +GCGCTCTTAAATTTCCGGCCTTTTTAATATTACTGTTTGTAATCTCCCAGCCTTTTAATGTTTCCCGACA +TCGTTTTCCTCGAAACATGAACCAGATGCGAATGTATCTACCTCTAATCTCGACACCTGTTGGTAATTTA +GACATATCATGAGTCTTTGATAAACTGATTTATCTTTGGATAGTTGTACCAGATAATCCCTCGTTTGCTG +TCTGGCTTACCTAAAGGAGATACTCGTTTGAAGTGGAAGCCCTCCACCCAACAGTTCTGGCGGTATGCTT +CAATTTGTCTGGCCCCCAGACCAGTGCGAAGCATCAGGCCGTATTCAACCATCCACTCTTCATTAAAGAT +TACTTGTGCCATCGCATCACCTCTGGCAGGCGCCAATGTTAGACTGAAATTGACGCCCGATGTTGATTAT +TAATAATCAGCTATGAAGTTTTAATTTGAATACAATGCAATTCTCGAGGACTGAAGTTTCTCGCAATTAA +AATTTATCAGTTTTACTTTCTGCTCTCTGGAAACGCCTGCTTCTTTTTTACCTGAGAGCATTTTTTCGCA +TTCTGATTTCGTTAGTTTAGATTTTGAATATCTTGTCCAGTTAGTAGGAGTGCCACCTTCCTTTTCAATA +GTGGCGGTAATTTTATACATGAACACCTCCATTATTATTTCCAGTGGTTCGTTTATTCCATCTTTCGAGT +GCTTCTTTTTCACTTCCACCATAACCGGTTCGGGATTCGCATCCGTTACACTTCGCTCGGTAATATCCTG +AAATGGCTTTCACCGTTACTGATGGACAACCACAAAATGGACATGGTTTAACATTGTCATATCTCATAAT +TTTTCTCATAAAAAATATTTCAAGTTGGCGGTGCATTACACCGCCAGGCTGAATTATTCCTCTGAATTAT +CGATTACACTGTATTCCCCGGTTAATACAGAGGAATCTGCAGGATCGATTGTCAGTGGTTCCTTTTCATC +CATTGATACTGCACGCTGGATCTCAATTGATACGGGCAAATATTTGAACAGGCGACGAATAGCCGTTTTC +TTTGCCATTTCTTCCCAGTGAGTTACCCACGGCCCGTTATTACCAGCTTTACTCAGGCTGCGCACCAGCT +CAATCTGTTTGCGCGTCATAACTTCAAACTGAGTACCTCCGTCTTTCAGTCTTGCGACAGCATAGACGTG +GGTAACCGGGGCATCTTCGTTTTCTCCCGGGCGGTGTATTAACTTTTCATCAAGGCCAAATTCGAAGCTA +AACTCGTCACCTTCACGGACAACACGGGCTGACAGGCTGGCGATTTGACCAGAACGGCGAGCCAGATCAA +TCATGCCGCGATAGCCAATGATTAGCTGAACGTTCTTTTTACCGCTCTTTTCGTTTTTATTACCAAAAGG +CAGTAAATATGCATGACCGAGGGCGCTACCTGGCTCAAGTCCGAGCTGTGAACACTGTACGATCGCACTG +ACAAAACTCATAGTGTCACAGTTTCCTAACGCCGGAACTTTACGAATTTCTGTGGTGGCGATACGGATCA +TACGTTCAGCCGTCATATGGCGTGGAAGAGCTGCTGCCAGTTGCTCTTTCATTGATGGCTGGTTAATAAA +ACTAATCACGTCGCTATTTTTAACTGCTGCTGGTGCACGGTTTCCCTGAGTTTTTTGCAGATCGGCTTTT +GCGATTGGTGGTTGCTTAGTCATTTGCATATTCCTTAGCCCAGCGGGGCAGTGATAATGTCTTAATAGCT +GGCCATTCATCGGTATTCAGGCAGTCAGACAGGGTTCGCAGATTGCGGTGATATTCCTGTTGACCTGCCA +GTTTTGCTTCTTCGCCCATCATGAAAATTTCAACCGGATAACGTCCGCATTCAATAGTTGTGCTGGCAAC +CAGAAAAACGAAAGTTGGCTGCACTCCAAACTGTGCTTCATAACCGTCACTGTAGAATGCATCCTGAACG +TGATAGCGGTAGTCGTAATAAGCGGTTTTGAATCGTTGAATATCCGCCGTAGTTTTCACGTCCATGATCC +AGTGAAATTCAGGGATAATTTTGTCCGGACGGCACCGACACAAAATTCCTGTTTCAGGATCTTCCCAGTA +AATTGATGATTCAGCGTGTCCGGCGCTTTCAACAAGCCATTGCCCCAGCGGCAAAGCCATAACGCTTTGA +TACATGAGTTCAATTTTCCGGCCTTCTTCCGCAGTGATAACCGTTTTTCCTGTGCTTGCGCATTCCATCA +GAAACGCTTTCTCTTCTTCTTTTCCGGCGTTTGTACGGCGGTTAAATTCAGGTGCTACGATAAAGCGGTT +ACTGAATTCTTCCGGTTCAAGTACCCGGCAGTGGAAAGCAGTTCCTAAATCGAGCGTTTTTGTCTTTGTG +GTGTCCACGGGGGCATTTTTACGCCACAAATATAGTGCCGGAGTATCAGCAATGTCATCGAGCTGAGACT +TACTGATACCGGGACCCGCGTGGTAATTCTCATTCGAAATTCCGTAATAAATACCTGGCTCTATGTCTTC +TACGATTACGGGATCTGCGACTTCGCCAGTTTCATCACTGCAATCGCGATGCGGATCGCTGCCAGCATTC +TCATTGTGCGGATGTTCAGCGCCTTCCATTTCCTCCGGATCATTTTCCTTAGCTTCAACCTGACTCTCTT +CATCGAATGTTTCCTGGTATGTTGCGTCGCCCATCACCGCACCACAGTCAGGGCAGTTATCCCCGCCAGT +CTGGCCGCAGGCATTGCAGGCTATTTCCGGTTCCTGTTGCACTACTGGCTCAGGTTGATTCATATCTGGG +CTGGTTTTTTCCGTTTCTGGCTGGTTCTGGTACACACAATCGCGAGTCTGGATCCCCTTTACCCATTTCG +GATCGTTCGGGTCGCTAATTCCGTCAACAAATTCACCACGTGATGCAGCAAGCAATTTATCGTCATCGAC +AGGATTTTTTGATGGAATGTTTTTCCGGGCTTCATGGAGTTCTGCCCGCAGTTCCTGATATTTCGCATCA +ACAGAATTTACCTGTGACTGAGCATCCAGCGGCTGCGTGTCCTGATGATGTTCAGTTGCGTCCGGTTCCA +TTGTTTCAGCCTCTCCCTGTTCAACTGCCGTTGTTCCAGATGGTTGCGGTTTTTCTTCATCATCCTGTTT +TCCTTCTTCTGTTACTCGCTGCGGCATCGGGGCAGAGGAGCGACCGCAGGCAATATCCACGATTTCCGGA +TCAGGGTTGGCATGATCGGTTTCAGTCAGTACTTTGTTCAGATATTCAGTGACGTGCGCGGGGATGACCT +CGATCCCAATTGGTGCTTCTTTTACGGACGCAACCACGATGGCGCGGGAATAATCCAGCCCGCCAGGCAT +GGTGATGAATTTGTCGCGGAAAACAGAAAAGGGCGGTTTATTTTCAGCGATAATTTCCTCAATGCGTTTA +GCGTGTGCCGGATGAAGGTTATAGATGTCCAGATCCATTGAACGGGCCAGTACGCCAGTGGCTACGTCGC +GCGCCAGTGACGTCAGATCGTGTACGAAACCTTCGCCGCGATCGGTGAGGTTTCCGCCGCCAGCATTAGC +ACCGGAAGCCGTGCGAGTGATGTGTGAAACACGATTACCCTTCATCCACTCTTTTGTCAGCAGTCCTCGA +TCGGTGTAGTCAGCGTTCAGGTATGCTTCGAAAAAAGCAGTTATCAGTCCCAGGTTTGAATTACCAGGAT +TAGGGAAAACTTTGTCAGTGTCACGAACCAGTTTGTGGAGTTCGCGAATTTCCAGCGGGTCGAGCAGGCT +GGTTTTGTGGGAAACAGCCAGGGCAGTAACAGCCGGTAGTTCTTCAGCCCGAGCAATGTGTAATGCCTGG +AGTCCGTCGCGTGAAACGTGCGTTACCGGTTTTTCGCTGCCGTGTTGAGCAAGCCAACGAATGGGCAGTT +CCTGGCCAGAAATTGGGAGTAGCATATTCTCCTCAATCTCAGTCATGTCTTCGCCGTTGACGTTGGTATT +GCCTTGATAGTGAGCGTTGTCTGGTGCTGCTCCCGGTTTTAGTTCCCATGTCATGGAGTCTTTGCTGAGT +TGATAGCGTTCACTCCAGGTAAAATCGATCTCACCTTCAGCGGGCAGGTCATTAACGACAGGAAAATTCG +TGGCAACAGCTTTAAAATAGCTGCTCAGTTTTTTACCTGACTTAACGATCAGGTAGTCCAGAGTGGCACA +GGTCGATTCAAAATCGTTGCTTGCCCACAGGACGACGTCAGGTTCACCGGATGATTTTTTCGCTTTCCGT +AACAGGAAGAGTGGTTTTGTGCTCATTGTTTTTTAACCTCAACTCAGATTAAAATTCGTTTTGTTCAGTG +AATGATCTTGCCGGATACACACTGTTCATAGCCTGCGCCATACGCAGGCTATTTCTTTCAGATTTCACCT +TTTAATTTCATTGCAATTAGAGTTGCCAGAAATTCGGCTTTTTTTTCTGCGGGCAGATTCTTTCCGATAT +GCACCAGGCACATTTTTTTGACACCTTCATCAAGTGTTTTTACGTTGCCTGATGGACCATCGATATCAAC +CACAGTGAATGGGGTTTCTTTATTTTCTGTTTTAATTACGTAGCCAATGCGCTTTCCTTCCAGATTCACC +TCGTGAACAATGTCATCGGTAGTTACAACAGTGGCTTCATAATTGGTAATCATGTTTTTCTCCTTAATTA +AGGTTGAGCGAATACCTGCCATTTCTGGCATAAATTCAGTTTCGAATAGTCAATTAATTAAAGTTCATGT +GCCATCTGGTCTTTTTCGGCACAAGCTTCACTGCAATATTTTCTCGGTTCGTCTTTTGATAAAATCCCGT +GCATGAAGTGAAGCATTCTTTCAATAGCTTTGCTTTCTTCAACGTCTTTTTTGCAAAGGTGGTAAGCACA +TTTTATTTTCTTAGTCATCACCATGACTCCGCCTTTACAGGTAAACCATCACGACCGAGGAAGACTTTAA +TCATGCGGTCAGTAATGAATGTTTTTGTGGTCAGGTTACGAATATATAGTTTTCGCTTTTTAATATTGTT +TGCCGAGGCAATATATGTCCGGCCTTCATGAAGAACATAATCGCCAGGAGTCACACACTGACGTGGTATT +TCATCAGTTCCGAAGTGATGTGCAATCATAATTATCTCCATTTTTACAAATGAACTTTGTTGATGCGGTG +TCTGGTGCCTCCAGGTGACTGCAACCAGTTAACAATTACAGTCGGCTTTCCCACCCAAACCAATAAGGAC +TAACATGACTTTTAACTGTGCCACGTGCGCTTAGCCGCATTCACCGCATCACAAAATTCACTTTAAAAAG +GGCGGACATCAGCCGAACTTCAAGAAAAAAACTGATGCCGCCAGGACTACACACAGCAATGTCGTTATTT +ACAACCGGAGGCGCACTCCCACCATTTAAATTTAACAGACAAGACCGACTCTTTATGGATATCGGAAATG +CGCCTTCGTGTTGTGCCCGGTTTTATTTCACCACCTCCGGGCTTCGGTGGTCTCGGCTATACCCCTACAG +CGAGAGCTTGTGTTAACATTTCAATACCCTTACAGTTGAGAGTTATTGATATGTTGGATGTATTTACTCC +ATTGTTGAAACTTTTTGCTAACGAGCCACTCGAAAGACTTATGTATACGATTATCATTTTTGGTCTCACT +CTCTGGCTGATACCGAAAGAGTTTACTGTCGCATTCAATGCTTATACTGAAATACCTTGGCTCTTTCAGA +TTATCGTTTTTGCCTTTTCTTTCGTGGTCGCCATTTCCTTCTCAAGATTGCGAGCACATATTCAAAAGCA +TTATTCATTACTACCAGAGCAACGAGTATTGCTTCGTTTATCTGAGAAAGAAATCGCTGTATTTAAAGAT +TTCCTTAAAACAGGAAATCTTATTATCACTTCTCCTTGCCGTAACCCGGTTATGAAAAAATTAGAACGGA +AGGGCATCATTCAACATCAGAGTGATAGCGCAAACTGTTCTTATTATCTCGTCACCGAAAAATACTCCCA +TTTTATGAAGTTATTCTGGAACAGCAGGAGTAGACGTTTTAATCGTTAGCTTACTGTGTGCTTCTCCAAC +CATCGGCGCGCACCAGTTTCGGTTTTAAATGTTTTGCTTTTGGTATACGTCATGGCAGTGAACGTTCCAT +CCTGGTTGGGGAACACGCCGCACACCAGGGATTCGTTGTTGCCGAGGTCGATTTTTTGCATTTTGCGAAT +CTCACATCTTGTTGCTACGTATAGCGACTTCTGCCTGCCAGAGATCCCAGTCGTTGCTGCGTAAAGCCTG +CACAGCCTGGTTGTAAGTGATACCGCAACAATCCATCAAATACTGAACTACTTCGTAATGCACCATCTTA +TCTCTCCCCTTAACGCCGGGTGGCGGAACTAACTGCTGCACTGCAAAATTTGAATCCCGCCGTCATGTTC +ATACGCCTCGGGCTGGCTACTTAACCCCTTACCACTGCCTGGTAACTCGAAGTATTGCCCGGCGTTCTGT +GGGGCGGGGTGGGTGGTATGCTGGAACTATAGGTAATGCCTAATTGATTGTCAATAGGCTATGCCTAATG +TTTTGAGCGTAACCTAATAGGTGATGGCGACAGCAGAAAGTGATGGGGGGGTTAAATAACGGAATCCAGG +AGTTTTCCGTCAGACCATATAAGTTTAAGTTCCAGTTTTTGTGATGTTCTGGCTTTTCCGTTCAGATTCA +AGAGCTTTCAGATACTTACCCACTTTCATTTCCATCGCTGCTATGTAGGCGCGAACATCGTGGTCAACCC +AATCTGGTTCTGTAGCATTTCCAGATAACAGGAAAGCTACAATCGCTCTTATTTCATCAGAGGCTGCTTG +ATAAAGGTTGTTTATATCTAAAAGTTCACTTTTTGTATCTGAATTGGTGGGGGTTGGTATGGGGTATTCG +TTAAGCCCCCAATGCTCTGGACCAACAACATCAGAAAAGAAACGCCATAATTCTGGAAGTTTATCTTTAC +TTATAGAGCCTTTCTTAATCCAGTCATAAATTGATGGTGGTTGGACTTTAAAGTGGCGTGCGACCTCCGC +CTTTGATTTGACGGATCCCGATGCGATTTTTTTGTTAATGGCCTGCTCTATCGCTCGGCCTAAGTCTTTA +CCACTAAGCATTGCTTAATATTCTCCTATGCGCATTACATTAGGCAATCCCTACCCTTACTGCATTAGGC +ACAGCCTATTGACAATTGCGTTAGGCGTCGCCTAATATTTCTGTGTGTTTTTGGAGTTCATTCGATGAAA +AAAGAGAACTATTCATTCAAGCAAGCTTGTGCTGTTGTCGGTGGGCAATCAGCAATGGCTAGGCTTTTAG +GTGTATCACCTCCAAGCGTAAATCAATGGATCAAAGGGGTACGTCAATTGCCTGCCGAGAGATGTCCAGC +AATTGAACGTGCAACAAGAGGTGAGGTTCTGTGCGAAGAACTTCGTCCTGATATTGACTGGTCATATTTA +CGACGTTCGGCATGTTGTTCGCAGAATATGTCAGTGAAGCAACTAAATGACAGTAACAAATCCTCATTTG +ATCATACCTGAAACATCAAGAGGCAAATGATTCATGAAAATCAAGCATGAGCACATCGAATCAGTGTTGT +TTGCCCTAGCAGCCGAAAAAGGGCAGGCATGGGTAGCCAATGCAATTACTGAAGAATATCTGCGCCAGGG +GGGCGGCGAATTGCCCCTGGTTCCAGGCAAGGACTGGAACAATCAGCAGAATATCTATCACCGTTGGTTG +AAAGGTGAAACGAAAACGCAAAGAGAAAAAATTCAGAAGCTGATCCCAGCAATTCTGGCAATCCTTCCGC +GCGAGCTGCGTCACCGACTCTGCATCTTCGATACCCTGGAACGCCGTGCATTACTGGCGGCGCAGGAAGC +GTTAAGTACGGCAATTGATGCGCATGATGATGCAGTCCAAGCCGTTTACCGGAAAGCGCATTTCAGCGGC +GGCGGTTCTTCCGACGATTCTGTCATTGTTCATTAAGCAAAAGTTTCCATGCTGTTTGTGCTTATTCTAA +GCCACCGGGCAGCATCATACGGGGCAATTATGGCCGCATTACCATACATGCAACTGTACATAGCTGATTA +CCTGGCTGACACCATGCATTTGTCAGCAGAGGAGCATGGTGCGTATTTGTTGCTGATGTTCAATTACTGG +CAAACAGGAAAGCCAATACCTAAAAACAGGCTGGCAAAAATTGCCCGTCTGACTAACGAGCGATGGGCTG +ATGTTGAACCATCCTTGCAGGAGTTTTTTTGCGATAACGGCGAGGAATGGGTGCATCTTCGGATTGAGGA +AGATCTGGCATCAGTCAGGGAAAAATTAACCAAAAAATCAGCCGCAGGAAAAGCATCTGTTCAGGCCAGA +AGAAGCAGAAAGGAAGCAGATGTTCAAACAAAACAAGAGAGAAATTTAACAGGTGTTCAAACAGATGTTG +AAGTGGTGTTTGAACATGATGTCAACACAAAGGCAACTAATAAAGATACAGATAAAGATCTAAAAACAGA +TCCCCCCCTAAATCCCCCCCGGGGGAATCGAGGTGTCAAAAAGTTTGACCCTCTGGATATTACTTTGCCG +AACTGGATTTCTGTCTCGCTTTGGCGTGAGTGGGTTGAATTTCGCCAGGCATTGCGAAAACCGATTCGAA +CGGAGCAGGGCGCTAACGGGGCGATACGGGAGCTGGAAAAATTCCGCCAGCAGGGTTTTTCACCTGAGCA +GGTGATTCGACACAGCATCGCCAATGAATACCAGGGCTTGTTCGCGCCGAAAGGTGTTCGACCTGAGACG +TTACTCCGACAGGTTAACACCGTCTCGTTACCGGATAGTGCGATCCCGCCAGGCTTCAGGGGGTAACTGA +CCATGAAAAATATTGCGACAGGCGATGTTCTTGAACGTATCCGCAGACTGGCCCCGTCACATGTAACCGC +GCCATTCAAGACGGTAGCGGAGTGGCGCGAGTGGCAACTTTCCGAAGGCCAGAAACGTTGTGAGGAGATC +AACCGTCAGAATCGTCAGTTGCGGGTGGAAAAAATTCTGAATCGCTCTGGCATCCAGCCATTGCACCGCA +AATGCTCGTTTTCGAATTACCAGGTGCAGAACGAAGGGCAGCGATACGCGTTGAGTCAGGCGAAATCCAT +CGCTGATGAACTGATGACCGGGTGTACAAATTTTGCGTTCAGCGGAAAACCTGGTACCGGGAAGAACCAC +TTAGCGGCAGCTATCGGGAATCGCCTGCTGAAAGACGGTCAGACAGTGATTGTGGTTACCGTGGCTGATG +TTATGAGTGCCCTGCACGCCAGCTATGACGATGGGCAGTCAGGCGAAAAATTTTTGCGGGAACTGTGCGA +AGTGGATCTGCTGGTTCTTGATGAAATTGGCATTCAGCGCGAGACGAAAAACGAGCAGGTGGTACTGCAC +CAGATTGTTGATCGCCGGACAGCGTCGATGCGCAGCGTGGGGATGCTGACAAACCTGAACTATGAGGCCA +TGAAAACATTGCTCGGCGAGCGGATTATGGATCGCATGACCATGAACGGCGGGCGATGGGTGAATTTTAA +CTGGGAGAGCTGGCGTCCGAATGTCGTCCAGCCAGGAATTGCGAAGTAATTTTTACCGGGAGAAAAATTT +AATGGAGACTGTTTTTGACGCACTGAAAGCAATGGGAAAAGCCACATCCATAGAACTTGCTGCGCGACTT +GATATCAGTCGTGAAGAAGTGCTGAACGAACTATGGGAACTGAAAAAGGCTGGTTTTGTTGATAAAAGCG +CGTACACCTGGCGTGTGGCTGATAACAATGTTCAGCAGGAACAGCCAGCGCAGGCAGAACTGCCGGAAGA +AATCACCACAGCAACAGTAGCGAAAATCTCAGAGTGCGATTTAACCGCGACGATTGAACAACGAGGACCA +CAAACGGCTGATGAGCTGGCTACATTGTTTGGTACCACATCACGCAAAGTGGCTTCAACGCTGGCAATGG +CAATCAGCAAAGGTCGTCTGATTCGCGTAAATCAGGGCGGTAAATTTCGTTACTGCATACCGGGCGATAA +TTTACCAGCAGAGCCGAAAGCAGCATCGGTATCTCCGCTCTGGTTATCTGCATCGTCGTCTGCCTGTCAT +GGGGTGTTAATCATTACCGTGATAACGCCATCGCCTACAAAGAACAGCGCGACAAAAATGCCAGAGAACT +GAAGCTGGCGAACGCGGCAATTACTGAGATGCAGATGCGTCAGCGTGATGTTGCTGCGCTCGATGCAAAA +TACACGAAGGAGTTAGCTGATGCGAAAGCTGAAAATGATGCTCTGCGTGATGATGTTGCCGCTGGTCGTC +GTCGGTTGCACATCAAAGCAGTCTGTCAGTCAGTGCGTGAAGCCACCACCGCCTCCGGCGTGGATAATGC +AGCCTCCCCCCGACTGGCAGACACCGCTGAACGGGATTATTTCACCCTCCGGGAACGACTGGTAATGATG +CAGGCCCAACTTGAAGGTGCTCAGCAATACATAACCGAGCAGTGTTTAAAGTAAAATCTTAACTACAATA +TGATTCATTTTGATGATTGTTTCATAAGGAACAGTGAAGTAAGATCTAAGAGGAGTTAAATTTTATACAG +TATAATCATAATATTGCAGCAAGGTGGTTATAATTGAAAGAATATTTAGATATGAATACATCTCATGTAA +GAGTTGTTACTCATATGTGTGGGTTCCTGGTTTGGCTCTATAGTCTTTCAATGTTGCCACCAATGGTTGT +AGCATTGTTTTATAAAGAAAAAAGCCTGTTTGTTTTCTTTATAACTTTCGTTATATTTTTTTGCATTGGT +GGCGGAGCGTGGTATACAACTAAGAAATCTGGCATTCAATTACGTACCCGTGATGGGTTTATTATAATTG +TAATGTTTTGGATTTTGTTTTCTGTTATTAGTGCATTCCCTTTATGGATTGACTCAGAACTTAATTTAAC +GTTCATTGATGCTCTGTTTGAAGGGGTTTCTGGAATAACAACAACAGGAGCAACTGTAATTGATGATGTT +AGTTCATTACCTCGGGCATATTTGTACTATCGGTCACAGTTAAATTTTATAGGTGGTTTAGGAGTTATTG +TTCTGGCGGTTGCTGTATTGCCATTATTGGGTATTGGTGGTGCAAAGCTTTATCAGTCAGAAATGCCGGG +GCCATTTAAGGATGACAAACTCACTCCCCGCCTGGCCGATACGTCACGGACACTGTGGATAACTTATTCT +TTATTAGGTATTGCTTGTATTGTCTGTTATAGACTTGCAGGAATGCCTTTGTTTGATGCTATTTGTCACG +GGATTTCCACAGTTTCGCTTGGTGGTTTCTCAACTCATAGCGAGAGTATCGGATATTTTAATAACTATTT +GGTTGAGCTGGTGGCTGGTTCTTTTTCCCTGCTATCGGCTTTCAACTTCACTCTTTGGTATATTGTTATT +AGCAGGAAAACGATAAAACCTTTAATCAGAGATATTGAACTTCGTTTCTTTCTGTTAATAGCCTTAGGGG +TGATCATTGTTACCTCTTTCCAGGTCTGGCATATAGGTATGTATGACTTGCATGGAAGTTTTATTCATTC +GTTTTTTCTTGCCAGCTCCATGCTCACTGATAATGGTTTAGCTACGCAGGATTATGCAAGTTGGCCCACG +CACACGATAGTGTTTTTGCTGTTGTCAAGTTTCTTTGGGGGATGTATAGGTTCAACTTGTGGTGGAATTA +AGTCACTTCGATTTCTTATACTTTTCAAACAAAGCAAACACGAGATAAATCAGCTTTCTCATCCCAGAGC +GTTGTTGAGTGTAAATGTAGGAGGGAAGATAGTTACAGATCGTGTAATGAGGTCTGTATGGAGTTTCTTT +TTTCTTTATACTCTCTTCACGGTGTTTTTTATACTGGTGTTAAATGGTATGGGATATGATTTTCTTACAT +CATTTGCAACAGTGGCTGCATGTATTAATAATATGGGATTAGGTTTTGGGGCTACTGCATCGTCATTCGG +AGTGCTTAATGACATTGCAAAATGCTTAATGTGCATAGCTATGATTCTTGGTCGCCTTGAAATTTATCCT +GTTATTATATTGTTTTCAGGTTTTTTTTGGCGCTCCTAATATATGGCTGATTTATAATTGTGAGTTTAAT +ATTATGTTGACTCACTCATTGATCCAATACCTAACTTTACCAGCAACACCTCCGTCCCCAGTAGCACTGG +CTGCTGGGGTGCGTTTTATTCATAAAGCAAGGCTGTATGAGCGAGAAATTAAAGATAGTCTATCGCCCAT +TACAAGAATTGTCACCGTATGCGCACAACGCCAGGACGCACAGTACTGAGCAGGTGGCACAACTGGTAGA +AAGTATTAAGCAATTCGGCTGGACTAATCCGGTGCTGATTGACGAAAAGGGCGAAATTATTGCGGGTCAC +GGTCGTGTTATGGCGGCTGAAATGCTCAAAATGGATTCTGTTCCGGTCATTGTTCTGTCTGGCCTGACGG +ATGAGCAGAAGCAGCGATAACGATCAGTATCGCTCCCGTAATGCATTAATCCGTCGCCACATTGAGAAAA +TGGATGCCAGTTTGCACGTCGGAACGAAGGAGTTTGATATTTCAAAGGTTTCCGAGGTGGATTCTGTTGA +TGATTTACTCATTGATAATGCCGCTCGTTATCTGCTGAAAGACTGGAAAGGGGTTGGTGAACTGGTTAAT +GGTGTTGAGGTTGCACTGGAATATACGGCAGAACGAGGGATCGCGCTGCTTAAGCAGAATCCAGAGTTGT +ACTGGCAGATCCTTGCAGAAGCAGCCAGCATCGCCCAGGGTAAAGAGCAGCAGAAGCAGGATACGATAAA +AAAGCCATAGCTGCCCAGCGGTGGTTATCGGAGTTCGGGGGAGAAAGGGGGGAAAAGGCAAGATGGAAGC +GAGAAAAACTCAGGTTGCCACCGATACCGGAACCAGAAATAGACCCGGTGCTTAAGGAGTTGTTGTACGC +CTATTCGGTAATATCCCGTGCCCGACGTTATGCTGGAATGGCTGGGGTGCCTTTGCCTTTATCTCTGACA +GAGATAAATGAATATTTAGCCACTCATCCGGTATTGATTGAGCGCGATGAATTTGAAGCAGTGATCTTTG +CACTGGATGACCAGTATTTTCAGGAGCAGTGTGTGTAGTTGTTAATTACGTACACTCTGTTACAGAGATG +TGATGGTGTCTTTAATTAAATCGATGATGCTCCTGGAGAAAAGCATTGCGTGGCCTCGTAATCGCTATAT +CTACTATTATGTCGCCTGAAACCCACTTCGCGGTGGGTTTTTTGTTGTCAGGAGTTTTAATAAATGGCAG +AGCAAACCTCGCGTCTCGCAATAATTATTGATAGCACTGGAGCGAAAAATAATGCTGACAATCTGACCTC +CTCATTAGTCAAAATGACGCAGGCTGGGGAAACTGCTGCAAATAGCGCAGGGAAAGTGACTAAGGCAACA +GAAGATGAGAAGAACGCGCTCGCAAAATTAAAAGCAGCTATTGATCCAGTTGGTGCCGCAATTGATACTG +TCGGTCGACGCTATTCTGAATTAAAGAAATTTTTCGATAAAGGGCTTATTGATAAAGAAGAATATGAATT +TCTTGTCCGTAAACTTAATGAAACCACAGAGGAATTGAGCGGGGTTGCGCAAGCGCAGAGAGAAGCCGAG +AAGGCCGGAAAACTTGCTGCCGCTCAGCAGGAAGCGCAGGCTCAGGCCTTTCAAAGAATGCTGGACAAGA +TCGACCCTCTGGCTGCGGCGCTAAGAAATCTTGAACAACAGCATGATGAACTTAATGCTGCGTTTGCATC +CGGGAAAATAAATGGTTCTCAGTTTGAGAATTATAGCCGAAAAATACAGGAAACACGGCGAGAGCTTACC +GGAGAGGCTCAGGCAGAGCGAGAAGCAGCAAAAGCGCATGATGAACAGGTTGTTGCTTTGCAACGTCTGA +TTGCTCAACTTGATCCTGTCGGAACTGCTTTTAATCGTCTGGTAGAACAACAGAAACAGCTCAATGAAGC +AAAAGCTAAGGGGATGCTTTCTCCTGAAATGTATGAGGAGCTTTCTGGAAAACTTCGTGCTATGCGGAGT +GAGCTTGAGGTTACTCAATCACAATTAAGCAAAACCGGAATGTCGGCAAAACAAACGGCTTTTGCTATGC +GCATGTTGCCTGCACAAATGACGGATATTGTTGTTGGGTTGTCCACTGGTCAGTCGCCATTTATGGTGTT +AATGCAGCAGGGCGGCCATTCAGCTATGCAGGAGACAAGAATCGCCAGCTTACCCGTTACAGCGATACCC +GCTGGCATGAAGATTCCGTGCGTAACCGCTGGTTCAGCGTGATGGTGGGGCCGTCTGTGCGCGTGAATGA +ATGGTTCAGCGCGTATGCGATGGCGGGTATGGCTTACAGCCGTGTGTCGACTTTCTCCGGGGATTATCTC +CGCGTAACTGACAACAAGGGAAGGTGCGAATAAGCAGGTCATTTCTTCCCAAGCTGACTCGCTGATTAAA +ATTTCGCGGATCTGGGCCGATTTTTTTCCCGCAAACACATCGAATCAGCCTATTTAGGCTATTTTTTCCA +CCATTTCTGGCGTTATTTCCGGTTTTTACTGAGATCTCTCCCACTGACGTATCATTTGGTCCACCCGAAA +CAGGTTGGCCAGGGTGAATAACATCGCCAGTTGGTTATCGTTTTTCAGCAGCCCCTTGTATCTGGCTTTC +ACGAAGCCGAACTGCCGCTTGATGATGCGAAACGGGTGCTCCACCCTGGCACGGATGCTGGCTTTCATGT +ATTCGATGTTGATGGCCGTTTTGTTCTTGCGCGGATTCTGCTTCAAGGTTTTTACCTTGCCGGGACGCTC +GGCGATCAGCCAGTCCACATCCACCTCGGCCAGCTCCTCGCGCTGTGGCGCTCCTTGGTAGCCGGCATCG +GCTGAGACAAATTGCTCCTCTCCATGAAGCAGATTACCCAGCTGATTGAGGTCATGCTCGTTGGCCGCGG +TGGTGACCAGGCTGTGGGTCAGGCCACTCTTGGCATCGACACCAATGTGGGCCTTCATGCCAAAGTGCCA +CTGATTGCCTTTCTTGGTCTGATGCATCTCCGGATCGCGTTGCTGCTCTTTGTTCTTGGTAGAGCTGGGT +GCCTCAATGATGGTGGCATCCACCAAAGTGCCTTGGGTCATCATGACGCCTGCTTCGGCCAGCCAGCGAT +TGATGGTCTTGAACAATTGACGGGCCAGTTGATGCTGCTCGAGCAGGTGGCGGAAATTCATGATGGTGGT +GCGATCCGGCAGGGCGCTATCCAGGGATAATCGGGCAAACAGGCGCATGGAGGCGATTTCGTACAGGGCA +TCTTCCATGGCACCGTCGCTCAGGTTGTACCAATGCTGCATGCAGTGAATACGCAGCATGGTCTCCAGCG +GATAGGGCCGTCGGCCATTGCCCGCCTTGGGATAAAACGGCTCGATGACAGCGGTCATATTCTGCCATGG +CAGAATCTGCTCCATGCGGGAGAGGAAAATCTCTTTTCGGGTCTGACGGCGCTTAGTGCTGAATTCACTA +TCGGCGAAGGTGAGTTGATGGCTCATGATGTCCCTCTGGGATGCGCTCCGGATGAATATGATGATCTCAT +ATCAGGAACTTGTTCGCACCTTCCCAAGGGGAAAACGCACGACGTGCTGACCGGAAGTGATGACGGTCGC +CACAGCAACACGTCTCTGGCGTGGGGAGCTGGCGTGCAGTTTAACCCGACCGAATCCGTGGCCATTGATA +TTGCTTATGAAGGCCCCGGCAGTGGCGACTGGCGCACTGACGGTTTCATCGTGGGTGTCGGTTATAAGTT +CTGATTAGCCAGGTAACACAGTGTTATGACAGCCCGCCGGTTCAGGCGGGCTTTTTTGTGGGGTGAATAT +GGCAGTAAAGATTTCAGGTGTACTGAAAGACGGCACAGGAAAACCGGTACAGAACTGCACAATCCAGCTG +AAAGCAAAACGTAACAGCACCACGGTGGTGGTGAACACGCTGGCCTCAGAAAATCCGGATGAAGCCGGGC +GTTACAGCATGGACGTTGAGTACGGTCAGTACAGCGTTATTCTGTTGGTGGAAGGATTCCCGCCGTCACA +TGCCGGGACCATTACCGTGTATGAAGATTCTCAACCCGGTACGCTGAATGATTTTCTCGGTGCCATGACG +GAGGATGATGCCCGTCCGGAGGCACTGCGCCGTTTTGAACTGATGGTGGAAGAGGTGGCGCGTAACGCGT +CCGCGGTGGCACAGAACACGGCAGCCGCGAAGAAGTCAGCCAGTGATGCCAGCACATCAGCCCGTGAGGC +GGCAACCCATGCGGCTGATGCTGCGGACTCAGCACGCGCAGCCAGCACGTCAGCCGGACAGGCCGCGTCG +TCGGCTCAGTCAGCGTCTTCCAGCGCAGGAACGGCATCAACAAAGGCCACTGAAGCATCAAAAAGTGCTG +CCGCTGCAGAGTCCTCAAAAAGCGCGGCGGCCACCAGTGCCGGTGCGGCGAAAACGTCAGAAACGAATGC +TTCAGCGTCACTACAATCAGCAGCCACATCTGCATCCACCGCGACCACGAAGGCATCAGAAGCTGCGACC +TCGGCCCGGGATGCGGCGGCCTCAAAAGAAGCGGCAAAATCATCAGAAACGAACGCATCATCAAGCGCCA +GTAGTGCAGCTTCCTCGGCAACGGCGGCAGGAAATTCCGCGAAGGCGGCAAAAACGTCCGAGACGAACGC +CAGGTCTTCTGAAACGGCAGCGGGACAGAGCGCCTCGGCTGCGGCAGGCTCAAAAACAGCGGCTGCGTCG +TCTGCCAGTGCAGCGTCAACAAGTGCCGGGCAGGCCTCAGCCAGTGCCACCGCCGCCGGAAAATCGGCAG +AAAGCGCCGCATCGTCTGCTTCAACAGCCACAACGAAGGCTGGCGAAGCCACTGAACAGGCCAGCGCAGC +AGCGAGGTCTGCTTCCGCAGCGAAGACATCCGAAACGAACGCGAAAGCGTCGGAAACAAGCGCAGAATCC +TCAAAAACGGCTGCCGCATCGTCAGCCAGTTCGGCGGCGTCATCGGCATCATCGGCGTCTGCTTCAAAAG +ATGAGGCGACCAGACAAGCGTCAGCAGCGAAGAGCAGCGCCACGACGGCATCCACGAAGGCGACAGAGGC +TGCTGGCAGTGCGACGGCGGCAGCTCAGAGCAAAAGTACGGCGGAATCCGCGGCAACGCGCGCCGAGACA +GCAGCTAAACGGGCAGAGGATATTGCATCCGCCGTGGCGCTTGAGGATGCAAGTACGACGAAAAAGGGGA +TAGTACAGCTCAGCAGTGCGACCAACAGTACGTCTGAAACGCTGGCGGCAACGCCAAAGGCAGTAAAATC +AGCCTATGACAATGCAGAGAAACGTCTGCAGAAAGACCAGAACGGCGCTGATATACCCGATAAGGGATGC +TTCCTGAACAACATTAACGCGGTCAGTAAAACAGACTTTGCTGATAAGCGTGGTATGCGTTATGTGCGGG +TTAACGCTCCTGCAGGTGCAACATCTGGAAAATATTACCCTGTTGTTGTTATGCGTTCTGCTGGCTCAGT +AAGCGAACTGGCATCAAGAGTCATTATCACCACGGCAACGCGAACCGCAGGCGATCCGATGAATAACTGC +GAGTTTAACGGATTTGTTATGCCTGGTGGCTGGACTGACAGGGGGCGTTATGCTTATGGCATGTTCTGGC +AATATCAAAACAATGAACGAGCCATTCACTCAATAATGATGAGTAATAAGGGCGATGATTTGCGCTCTGT +GTTCTATGTTGATGGCGCTGCTTTCCCTGTTTTTGCGTTTATTGAAGATGGCCTGTCAATATCCGCACCT +GGTGCTGATCTCGTTGTTAATGATACGACCTATAAGTTTGGGGCAACAAATCCGGCGACTGAATGTATCG +CGGCGGACGTTATCCTTGATTTTAAGAGTGGGCGTGGTTTTTATGAGTCTCATTCGTTAATCGTTAACGA +TAACTTGTCGTGCAAAAAACTTTTTGCCACAGACGAAATTGTAGCGCGTGGTGGTAATCAGATTCGAATG +ATAGGTGGGGAGTATGGTGCATTATGGCGTAATGATGGCGCTAAAACTTACCTGCTGCTTACCAATCAAG +GTGATGTTTATGGTGGCTGGAATACATTAAGACCGTTTGCTATTGATAACGCAACCGGCGAACTGGTTAT +TGGAACCAAACTGTCCGCAAGTCTGAACGGTAATGCATTAACAGCAACAAAGCTGCAAACGCCAAGACGG +GTTTCTGGTGTTGAGTTTGATGGTTCCAAAGATATTACTTTAACCGCCGCGCATGTGGCTGCTTTTGCCA +GAAGGGCAACGGATACATATGCCGATGCGGATGGTGGCGTTCCATGGAATGCCGAATCTGGCGCTTACAA +TGTCACCCGCTCTGGCGACAGCTATATTCTGGTTAACTTCTATACCGGAGTCGGAAGTTGCCGGACCCTG +CAGATGAAGGCGCATTACAGAAATGGTGGTCTGTTCTACCGTTCTTCAAGAGACGGTTATGGTTTTGAGG +AAGACTGGGCAGAAGTTTATACCTCGAAAAATCTTCCACCAGAAAGCTACCCAGTCGGCGCACCAATCCC +GTGGCCATCAGATACCGTTCCGTCTGGTTATGCCCTGATGCAGGGGCAGGCTTTTGACAAATCTGCTTAC +CCGAAACTTGCAGCCGCTTATCCGTCAGGCGTGATCCCTGATATGCGTGGCTGGACGATTAAGGGCAAAC +CTGCCAGTGGTCGGGCCGTATTGTCTCAGGAACAGGACGGCATTAAATCGCATACCCACAGCGCCAGCGC +ATCCAGTACAGATTTGGGGACGAAAACCACATCGTCGTTTGATTACGGCACTAAATCCACGAATAACACC +GGGGCACATACACACAGTGTGAGCGGCTCTACAAACTCGGCTGGAGCACACACACACTCACTAGCCAACG +TGAACACGGCTAGTGCTAACTCCGGTGCTGGTAGTGCATCAACAAGATTGTCTGTTGTGCATAATCAAAA +CTATGCAACATCATCTGCTGGCGCACATACCCACTCACTGTCCGGCACTGCTGCAAGCGCAGGTGCACAC +GCGCATACTGTCGGTATTGGTGCTCATACGCACTCCGTTGCGATTGGTTCACATGGACACACCATCACCG +TTAACGCTGCTGGTAACGCGGAAAACACCGTCAAAAACATCGCATTTAACTATATTGTGAGGCTTGCATA +ATGGCATTCAGAATGAGTGAACAACCACGGACCATAAAAATTTATAATCTGCTGGCCGGAACTAATGAAT +TTATTGGTGAAGGTGATGCATATATTCCGCCTCATACAGGTCTGCCAGCAAACAGTACCGATATTGCACC +GCCAGATATTCCGGCTGGCTTCGTGGCTGTTTTCAACAGTGATGAGTCATCGTGGCATCTCGTTGAAGAT +CATCGGGGTAAAACGGTTTATGACGTGGCTTCCGGCAACGCGTTATTTATTTCTGAACTCGGTCCGTTAC +CGGAAAATGTTACCTGGTTATCGCCGGAAGGGGAGTTTCAGAAGTGGAACGGCACAGCCTGGGTGAAGGA +TACGGAAGCAGAAAAACTGTTCCGGATCCGGGAGGCGGAAGAAACAAAAAACAACCTGATGCAGGTAGCC +AGTGAGCATATTGCGCCGCTTCAGGATGCTGCAGATCTGGAAATTGCAACGGAGGAAGAAATCTCGTTGC +TGGAAGCATGGAAAAAGTATCGGGTATTGCTGAACCGTGTTGATACGTCAACTGCACAGGATATTGAATG +GCCAGCACTGCCGTAGGGTAAAACATATAAATTCTATAATTAGATGTATCTTTCCATTTACGGCAAGGAA +GGGGGCTTGGAAGACGTAAAGCATCTCACACCGAGATTATTTTTTATATGTCAGGTGTCTGAAGTTTTGC +TTTGGCTCTTAAAATGGTTTGCCGCGAGGTTTTGAATTCCCGGGCAATGGCACTTATACTTACACCTGAC +TTAATTCGTTCGAATACCACCTGTTTCTGTTCTTCATTTAACACAGGAGGTCGACCAAAACGTTTCCCTG +CGCCGCGGGCTCTTACTATCCCGGAATGAGTGCGTTCAAGTAAAAGGTCTCGTTCAAATTCAGCGACTGC +TGAAATTACTTGCATCATCATTTTTCCTGTTGGACTGGTCAGGTCAATGCCACCCAATGCTAAGCAATGC +ACTCTGATACCTGTTTCGGTCAGTTGTTCCACTGTTTTCCTGATATCCATTGCATTACAACCAAGGCGAT +CCAGTTTTGTCACAATCAATTGATCACCACATTTCAGGCGAGCAAGCAACCGGTTAAAACCAGGACGCTC +ACTGGTTGCTGCTGAGCCGCTAATGTGTTCTTCGATTATTTGCTGAGGTTTGATTTTAAAACCTGCACTT +TCGATTTCCCGGCGTTGATTTTCGGTGGTCTGATCCAGCGTTGATATCCGACAGTAAGCAAAAATTCGAG +ACATAGTGAGACTCTATACGAAATTGGTGTTCATATCATAATGCATCTCAGAAAATAATTATGATTATTT +TTGTGCATATTTGTATGTACACGTTCGAAAATAAACGAATGCGTATGCAACCCCGTAATTTTGGTGAGAC +CCAAAATCGATTTTGTGAAAAATGGCTTTAACTCGGTTTGTTTTTCGAGTTCCGGGCGGACTCAAGGAAG +AAGAATAGTGTTGCGTGTTATTTTAACCAGATTTCAAGTTGTTTGGTCGTGGAAAAGTGGAGCAAAATGT +TGTTAAAGTGGAAAAATGATAAAAAAGTAAGTTTATTATATTACATTTTACCATTTAAATTTTGGTTGTC +TTTAAGAACTGATATCGCTGTTTGTAATAATTCTTTGTTATCCAGCCATGATGTTTTCTTTATGTTTCCT +TCAATGTAATCAAGCAATGTTCTGGTATTGATAGGTCTTCCCTGTTTTGCTACTTCCACTACAGCATCCC +CTAGGATAATTCTTACTTCAGGAAGCTGCGCAGGGAACCACTTTAGGGTGTCTTTTGATTTCATGAAGAT +ATTCCTTAAAATATTATTGATTTTCATTGCGATATTGTATGTCTGATTCAGGATATGTTGACTTATACAT +CGGTTTTGTCTGGGTTATTGGATATGCCAATCCCTAATTTTATTAGAGCATGACTAAAAATGCTGAATAT +GATAAGGAGCGAAGTGATTATCAGTATGCTGTTCATATAGCCTCGAATTAGTAATGTGTTATATATGATA +TAGTTGACAATTTTTATCCTGGGTGTTCTTAAAGTTCGTAGATAAACATTGTCGTTTCAGGTATACAGGA +ATGCTAACAGGTGGCGGCAAAAATCAGGCGGTTTATGGCGCAAGCTGAAGTGGCAACTGCAAACTATCTT +ATGCAGAGACTCTACACGGATTGGGTTTAAAAGTATACATAGATAACAGTTTTTATCTGAAGAAGAAAAA +TATCAAGGTGATATAGCCTATATGCCTTTGATGCGGAGGAATGAATGTGATGGGAGTGATGTATCTGAAT +AGTTGAAAAACCGCAGTCACGTCGTATGCAAGAACGTGCTGCGGTTGGTTTGACTTTGATTGAGACGTTT +TGGAATTTTTTTCGGTGGCAAAAATGGGGCAAAACGCTGCAAAAGGGGCAAAAAAGGGGCAAAAAAAGAG +TGGATTATCGTAGCTTATTGTTGTCGCTGATGATATTTAACACATTGAAAAATAAGTAAAATACTTATGA +GTCAGAGAGTTGTGATTTTTGCCCTTACTTGTTCAGGTTGTATTGTTCTTTCTTACTAATTTCTTGATTT +TGCGACATTTAAAAGCGACTCAATTCGTTATATGGCATCAGAAGAGTATGCGTCATGCCGGAACGCCCAG +CATAAGAAATCTGATATAAAAAACTGTGGCGTGTATGGTACGGATTAGAGGGGAAAATGTCAGCACATTT +GCGAAATGAATCAAAAAGCCCGCAGCAATGTGCGGGCGTTAGTGTCAGCGCACAACCAGCACGGAGCACT +CTGCGTGACGCACTACAGCTGCGGCGTTGGAACCGAGCAGATAAGTGGTGATATCCGGTCGATGGGAAGC +AATGATGATCATATGAGCGGGGATCTTCTTCGCCAATTCCAGAATGCGGTCTTTGGGCGAGCCTTCCTCA +ACATGGACATGCACTCTGTCGGTTGGCAGTTTAAATTTTTTAATGATCTCTTCCAGTTGCGATTTGGCTT +CCGCTTTCAGGTCATCCATTGCCGGTAATTCTGCGGAATACGCTAAACCCAGAGAGGCATAGTAGGGCAG +TGAAGGTATTACCGTCAGGAAATGAACCTCTGCATCATCAATCTTTGCCTCTTCCTCAACGTGGCTAATC +ACGCGTTGAGTTAATTCTGAATCGGAAATATCGATAGGGACAAGAATCGTTCTGTTCATAAAACCTCCTG +TTTTAGTATCCGCATAAAGTGTAACGCCAGATGACACTTTTTGTGTAATGACGGAGTTCACATTTTTAAT +TTAGATCAAAGGAGGAAGAATAAGCAGAAAAAGCCCGCCATAACAGCGGGCAGGAGGATTTAGAACTGAT +AAACCAGACCTAAAGCGACAATATCATCGGTAGAGATGCCATTGGCAGCGTAGAAGCTGTCATCTTCATC +CAACAGGTTGATTTTATAGTCAACGTAGGTGGACATGTTTTTATTGAAATAGTAAGTCGCGCCAATATCG +GCGTATTTAACCAGATCTTTATCATCAACACCTGCCGGGTTGTCTGCACCACCCGCAGCGTGCAGGTCAC +GGCCTTTAGACATCAGGAAAGAGACTGCCGGACGCAGACCAAAATCAAACTGGTACTGTGCAGTGACTTC +AAAATTCTGGGTTTTGTTTGCCACAGCATAATCGCTGTCGCCAAACGGGGTCATATTACGCGTTTCTGAA +TACATGGTTGCCAGGTAAATATTGTTAGCATCGTATTTTAGCCCAGCAGTCCACGCGTCTGCTTTATCAC +CACCCGCCGCAGTATGGTTAACCTGGTCATTGGTGCGGTCAGAAGAGGTGTATGCCGCACCAGCGCTAAA +GCCCATGCCTAAATCATATGTTGTGGAAAGACCCCAGCCGTCACCGTTTTCATGGCGAACATCACGTCCG +TTGTTGGTGCCTTCCTGACCATTACTGGCTCCTTCGTTGTTACCTTGATACTGCACCGCGAAGTTCAGAC +CATTTACCAGACCGAAGAAATCAGTATTACGATAAGTCGCGACGCCATTGGCTCGACCAGTCATAAAGTT +GTCTGCATTGGTATAAGAGTCACCGCCAAATTCAGGCAGCATATCGGTCCAGCCTTCGATGTCGTACATT +ACGCCATAATTACGTCCGTAATCGAAAGAACCGTAATCTGCAAATTTCAGCCCGGCAAATGCCAGACGGG +TCCATGACTGGTTTTTTGAAGATTCAGTGTTGTTTGCCTGAATATTGTATTCCCATTGACCGTAGCCAGT +GAGTTGATCGTTAATTTGGGTTTCGCCTTTAAAACCCAGACGCGCATAGCTCTGGTCGCCATCTTTCGCT +GAATTATCAGAAAAATAATGCAGGCCATCAACTTTGCCATACAGATCTAATTTGTTGCCGTCTTTATTAT +AAACTTCGGCTGCATGTGCAGCACCTGCGGCGAGCAGGGCAGGAATTAAAAGTGCCAGTACTTTGCTTTT +CATTGAATAAATCCTTTAGTTATTTTATTTGCCTTTTATCCCCATTTCGGGGAGTGAAAACATCCTAAAG +GAGAAGTTCAGTTAGCCGATAAATATCATTTGTTACGCCTTAAGTAAAACCTTAATCAAATAATTCCTCT +GAAATGATAATAAGTCTGGTGAATGTATCGAAGATAATACATACAAAATAAAAATTATACTTTTAATTTG +CTATACGTTATTCTGCGCGGGTTATATGCCTTTATTGTCACAGATTTTATTTTCTGTTGGGCCATTGCAT +TGCCACTGATTTTCCAACATATAAAAAGACAAGCCCGAACAGTCGTCCGGGCTTTTTTTTTAGAATTGGA +TAATCCTTATCCAGAGCATTTAATCGGTGTTGCTTTTTTCCGCTTTTCCGGCCATTTGTGCCAGGAAGTC +ATAGCGTTTTTGCAAATCAGCTGCAGCATCTTTCCATAACTGTTCTGCCACTTCTGGCTGCTGCGAATTC +AGCCGACGGAAACGTTGCTCGTGAAGTAACGTTTCTTCCGGTGCTTCTGACGGCGGGCGTGAATCCAAGG +CCAGCGGCAGTTTGCCTTCATCGGCACGACGCGGATCAAAGCGATATAGCGGCCAGAAGCCGGTAGCTGT +GAGTTGGCGCATCTGGTCGTGGCTGAGTGCCAGATCGTAACCATGCTCTTCACACGGGCTATAAGCAATG +ATCAGCGATGGCCCCGGATACGCTTCCGCTTCCTGAATCGCTTTCACCGTCTGGTTCAGCTGCGCGCCGA +GAGAAATCTGCGCCACATAAACATGACCGTACATCATCATACTGACGCCAAGATCTTTACGCGCTTTACG +TTTGCCGTGCTCGCCAAATTTAGTTACTGCACCCAGCGGTGTCGCTTTCGACGCCTGACCACCGGTGTTG +GAATAGCATTGCGTATCCAGCACCAGAATGTTGACGTTTTCCGTCAAACTCAATACATGATCCAGACCGC +CAAAGCCGATATCGTAAGCCCAGCCATCACCACCAATCAGCCAGATTGATTTTTCCACCAGTGCATCTGC +ATCACGTAGCAGTTCATGTGCTTCGGCAACATCGTTGAGTTGCTGGCGTAAAGCTGCAACCTGTTCACGA +CGAACCTCTGGCGTGGCGTCTGATTTCAACGCCGTCAGTAATTCCGCCGGGATTTTATCGGCAAATTGAT +CCAGCAGACGCAGCACGCGGACACGGTGTTGATCGACCGTCAGGCGGAAACCAAGGCCAAATTCGGCATT +ATCTTCAAATAGAGAGTTCGCCCATGCCGGCCCACGACCGTTGGCATCGGTGGTATACGGTGTAGAGGGC +AGGTTACCGCCATAAATTGAAGAACAGCCAGTGGCGTTAGCGATCAACATCCGGTCGCCATAGAGCTGAG +TCAGTAATTTAATATACGGCGTCTCGCCACAACCGGAGCAAGCACCTGAATATTCAAACAGCGGTGTAAT +CAGCTGCGATGTACGAATATCAATACGTTCCAGTTTGCTACGGTCGATTTCTGGCAGGTTGAGGAAGAAA +TCGTAATTGATTTTCTCTTCTTCGACATGTTCCAGGCGAGACATCATATTGATGGCTTTAATCTCTGGAT +TCTGACGGTCTTTCGCCGGGCAAACTTCGACGCACAGGTTACAACCGGTGCAATCTTCCGGTGCCACCTG +CAAGACATATTTCTGCCCGCGCATATCACGCGATTTCACATCCAGCGAATGCAGGCTGGCAGGGGCGTTT +TCCATCGCTTCAGGCGGCACCACTTTTGCGCGAATAGCTGAGTGTGGGCAAGCGGCAACGCAGTGGTTAC +ATTGGGTACAGAGTTCCTCTTTCCAGATGGGGATCTCTTCGGCGATATTGCGTTTTTCCCAGCGCGTAGT +GCCCATCGGCCAGGTGCCGTCTGGCGGCAGCGCCGAAACGGGGAGGGCGTCACCAAGCCCGGCGAGCATC +GCAGCGGTTACGGTTTTCACGAAATCAGGGGCGGCATCGGAAACCACTGGCGGTCGATTGGCGCTGTGCG +GATTTACCGGTTGCAACGGAACTTCTTCTACGGATTCACGCGCCAGCGCCAGAGCCTGCCAGTTGCGTTC +CACCAGATCCTGGCCTTTGCTACTGTAACTTTTGGCAATCGCACCCTGCAATTCTGCGAGGGCGCTATCG +CCAGGCAGAATTTGCGTCAGATGGAAAAAAGCCATCTGCATGACGGTATTAATACGGGCCGCCAGGCCAC +ATTCGCGGGCGATTTTCGCCGCGTTAATCACATAGAAGCGCGCTTTTTTCTGGTTTAACACGGCCTGAAC +TTCTTGCGGCAAGCGCGACCACACTTCATCTGCGCTGTACGGCGTGTTGAGCAGGAAAATGCCGCCAGGT +TTTAAACGCTCAGCCATCTGATATTTATCGATAAACTGCAACTGGTGGCAGCCAACAAAATCAGCCTGGG +AAATGAGATAAGCGGAACGAATCGGCTGTTCGCTCACTCGAAGGTGAGAAACCGTCAGGCCGCCCGCCTT +TTTGGAGTCGTAAACAAAATAGCCCTGTGCGTACCACGGCGTGGAATTACCGATAATCTTGATATTGTTT +TTGGTCGCGGAAACGCTGCCATCACTACCAAGGCCATAAAACAAGGCTTCCAGTTTCGCCGAGTTTGGCA +GGGTGTTTTCCGGCAACGGCAGTGACAGATTGGTCACATCATCGTAAATACCAACCGTAAAGCGCGCTTT +CGGTTTAGCCGCGTTGAGCTCGGCAAATACCGCCAGTACACAGTCTGGGCCAAATTCTTTGGATGAAAGA +CCATAGCGCCCACCAATGACACGGGGCAGAGTTTCGCGCTCGCCATTATTAAAGGCTTCTGCCAGTGCGG +TCATTACATCCAGATAGAGCGGTTCTGCCTGGGCACCGGGTTCTTTGGTTCTGTCCAGTACCGCCACGCT +GCGTACGGATCCCGGCAGAGCTTGCAGTAAATGTTTAGCGGAGAAGGGGCGGTACAGGCGAACTTTCAGC +ACGCCAACTTTTTCGCCACGGGTTAGCAATTCATCAACCACTTCTTCACAGGTGCCAATGGCAGAGCCCA +TCAGGATAATCACCCGTTCCGCTTGCGGATGCCCGTAATATTCAAACGGCTGATACTGACGACCTGTCGC +GGCAGAGAAATCATTCATCGCCTGTTCAACATGGTCATAGACCGCGTTGTACCATGGGTTGGTGGCTTCG +CGAGACTGGAAATAAGTGTCAGGATTGGCGGACGTACCGCGGATCACCGGATGTTCCGGGTTGAGTGCCC +GGGCGCGATGAGCATCAATTTCGACCTGCGGCATGAGATCAAGAATCGTGTCATCGGCCAGCGGGACAAT +TTTATTGATTTCGTGGGACGTGCGGAAACCATCAAAGAAATGAATAAATGGCACGCGGCTTTTCAGCGTC +GCGATTTGCGAAATGAGAGCAAAGTCTTGCGCTTCCTGGACGTTTGCTGCACACAACATCGCGCAACCCG +TCTGGCGCACCGCCATAACGTCGGAATGATCGCCAAAAATAGAGAGTGCATGTGTGGCAACGGTACGTGC +CGCTACATGCAGGACAAACGGTGTTAGTTCGCCTGCCAGTTTGTACAGCGTCGGGATCATCAGCAGCAAA +CCCTGCGATGACGTAAACGATGTTGAAAGGGCACCCGTCTGCAAAGCGCCATGCACGGTAGCGATAGCAC +CCGCTTCCGACTGCATTTCAACCACGCGTGGTGTGTCTCCCCAAACGTTCTTTAAGCCGTTTCCGGCCCA +GGCATCAGCCTGTTCTGCCATCGTGGAACTGGGGGTAATAGGGTAGATGGCGATAACTTCACTGGTGCGA +AATGCGACCGAAGCAACCGCGCCATTACCGTCAATAGTAATCATATGACACCCTTACATTGCGCAAATGA +GGGGCGCACGAAATTGCTGCGCGCCCAGTAGTAATCTTTCAATTTTAGCAAATGGCTTTCTTCTGCATTT +TCGCTTTTGTGTCCCCCACATCAGCGTAATGAATGTTTTGATCAAACAGAGGGCAAAAAAATAGCCATAA +AAAAGTAAAAATGCGGGGCAACGCGCAGGACAGCTCTCGACGCCGCCCTCTGTGCTGCCTATTATTTATG +GCGGTGTCGTTTGGCTTGAAGATCAGAGGAAGAAAAGATGCGAGCAGCGTTTTGGGTAGGGTGTGCCGCT +TTATTGTTGTCGGCGTGTAGTAGTGAACCTGTTCAGCAGGCGACTGCCGCGCACGTAGCGCCAGGTTTAA +AAGCGTCGATGTCCAGTAGTGGAGAAGCAAATTGTGCAATGATCGGCGGTTCGCTTTCTGTTGCCCGTCA +ACTGGATGGTACGGCGATTGGGATGTGTGCATTACCCAACGGCAAACGCTGTAGCGAACAGTCACTTGCC +GCCGGGAGCTGTGGCAGCTATTAATTCATTAAATCCGCCAGCTTATAAGTTAATGTCTGTTTTGCGGTCG +CCAGCGTTAACTGGTTCGCGGTCAGATCCACTTGTGCACCTTCTTTCAGCATTTCGCTAATGGTGTTATC +GAGTTCATTAAGCTGCGGGTTAGCGCACATCATACGGGTCATTGCCAGCCCTTTGGCTGTCAGTTCACCA +TTAGACAGTTTGCCTTCACCGCTAAAGCGGTTACACATGCTGCCGGAAATCATCATTTTTTCACCAAAGC +TGATTTCTGGCGGATTTTTATCGCTGGTCACGGGCTTACCGTTTACGCTTTCCAGCACAAAGCGATGATG +CTGTAGCTGTTCTGGCGTAACAGCAATTTTGTCATTACTTACACATCCCGCCATCAGCAGGCTTAGCGCA +ACAAACGCGGCTACTTTCTTCATTGTGGTTCTCAATTACAGTTTCTGACTCAGGACTATTTTAAGAATAG +AGGATGAAAGGTCATTGGGGATTATCTGAATCAGCTCCCCTGGAATGCAGGGGAGCGGCAAGATTAAACC +AGTTCGTTCGGGCAGGTTTCGCCTTTTTCCAGATTGCTTAAGTTTTGCAGCGTAGTCTGAGAAATACTGG +TCAGAGCTTCTGCTGTCAGGAATGCCTGGTGCCCGGTAAACAGCACGTTGTGGCAGGCAGACAGGCGACG +GAATACGTCATCCTGGATCACGTCGTTGGATTTATCTTCAAAGAATAGATCGCGTTCGTTCTCATACACG +TCCATACCCAACGAACCAATTTTCTGATTTTTCAGCGCTTCAATTGCTGCCTGAGAATCAATCAATGCAC +CGCGACTGGTATTGACGATCATCACGCCATTTTTCATCTGTTCGAAGGCGGCTTCGTTCAACAGATGATA +GTTTTCCGGTGTCAGCGGGCAGTGCAGAGAGATAACGTCTGATTCAGAGAACAGGGTTGGCAGATCGACA +TACTCCACACCGAGTTCCAGCGCCGCTGCACTTGGATACGGATCGAACGCCAGCAGACGCATACCAAAAC +CTTTCAGAATGCGCAGCATCGCCACACCGATTTTACCGGTACCGATAACGCCTGCCGTTTTGCCATACAT +AGTAAAGCCGGTCAGACCTTCCAGAGAGAAGTTAGCATCACGGGTACGCTGATACGCGCGGTGAATACGG +CGGTTCAGCGTCATCATCATACCGATGGCGTGTTCAGCAACGGCCTCTGGATCATAGGCTGGAACACGGA +CTACTTTCAGCCCCAGTTCTTTTGCCGCGTCAAGGTCGACGTTATTGAAACCGGCACAGCGCAGGGCGAT +ATATTTAACGCCGTGCTTTTTCAGCTCTTCCAGCACCGGGCGGCTGCCGTCATCGTTTACGAAAATACAT +ACCGCTTCGCAGCCATTGGCAGTTTTAGCGGTTTTTTCCGTCAGCAGAAAGTCAAAAAATTCCAGCTCAA +AGCCAAAGGACTCGTTCACCTGTTGCAGGTACTTCTTGTCGTACTGTTTTGTGCTATAAACGGCGAGTTT +CATAAGACTTTCTCCAGTGATGTTGAATCACATTTAAGCTACTAAAAATATTTTACAAAATTTCAAATTT +AATTGAAAGCTATGGCGATATTGAAAAATTCATCAACAACTATGCTTAGTGTAGGCGCAACCTTCAACTG +AACGGTTAAACATGCCACAATACCCGTATTGAATGCTTAATTTTTCGCTAAATCAGGATATTAACTACCC +ATGCTGGGTAAATATAAAGCCGTTCTCGCGCTGTTATTACTGATTATTCTTGTGCCGTTGACGCTGCTGA +TGACGCTCGGGCTGTGGGTTCCCACGCTGGCGGGCATCTGGCTACCGCTCGGGACACGTATTGCATTAGA +TGAAAGCCCACGCATTACGCGTAAAGGTTTAATCATTCCCGATCTCCGTTATCTGGTGGGAGATTGTCAG +CTTGCGCATATCACCAACGCCAGCCTTTCACATCCCAGCCGCTGGTTATTGAACGTCGGCACGGTAGAAC +TTGATTCTGCTTGTCTGGCGAAATTGCCGCAGACGGAGCAATCGCCAGCCGCTCCAAAAACACTCGCGCA +GTGGCAGGCCATGCTGCCTAACACCTGGATCAATATCGATAAACTGATTTTTTCTCCCTGGCAGGAATGG +CAGGGAAAACTCTCTCTCGCATTAACCTCTGATATCCAGCAACTGCGTTATCAGGGCGAAAAAGTTAAAT +TTCAAGGCCAGCTGAAAGGGCAACAACTTACAGTCAGCGAACTGGATGTCGTCGCGTTTGAAAATCAGCC +GCCGGTAAAACTGGTGGGGGAATTTGCTATGCCGCTCGTGCCGGATGGACTTCCTGTAAGTGGGCATGCT +ACTGCGACGTTAAACTTGCCGCAGGAACCGTCACTGGTGGATGCCGAGCTGGACTGGCAGGAAAATAGCG +GGCAATTGATCGTGCTGGCACGGGATAACGGCGATCCGTTGCTCGATTTGCCGTGGCAAATTACTCGTCA +ACAATTGACCGTAAGCGATGGTCGCTGGAGCTGGCCGTATGCAGGTTTTCCTTTGAGTGGCCGACTGGGT +GTCAAAGTCGACAACTGGCAGGCAGGGCTTGAGAACGCTCTGGTCAGCGGACGACTGAGTGTGCTGACCC +AGGGGCAAGCGGGTAAGGGCAACGCGGTGCTTAATTTTGGCCCAGGAAAATTAAGCATGGATAACAGTCA +GCTGCCTCTGCAGCTGACCGGTGAAGCGAAACAGGCGGACCTCATTTTATATGCCCGTTTACCTGCGCAG +CTAAGTGGAAGTCTGTCTGACCCAACGCTGACCTTTGAGCCAGGCGCGTTACTTCGTTCAAAGGGAAGAG +TCATCGATTCGCTGGACATCGATGAAATCCGCTGGCCTTTAGCGGGTGTAAAAGTCACCCAACGTGGTGT +TGACGGACGTTTGCAGGCCATCTTGCAGGCGCATGAAAATGAACTGGGCGATTTCGTGCTGCATATGGAT +GGGCTGGCGAATGATTTTCTCCCTGACGCTGGCCGCTGGCAGTGGCGCTACTGGGGAAAAGGGAGTTTTA +CACCGATGAATGCCACCTGGGATGTCGCAGGAAAAGGTGAGTGGCATGACAGCACGATTACGCTGACCGA +TCTCTCCACCGGTTTCGACCAGTTACAATACGGTACGATGACGGTAGAAAAGCCGCGATTAATTCTCGAC +AAGCCCATCGTCTGGGTACGTGACGCACAGCATCCCTCCTTTAGCGGCGCGCTGTCACTGGACGCCGGGC +AAACGCTGTTCACTGGCGGCAGTGTGTTACCGCCATCAACCTTAAAATTTAGCGTCGATGGGCGCGATCC +TACCTATTTCCTCTTTAAAGGCGATTTACATGCTGGTGAGATTGGCCCGGTTCGGGTAAATGGTCGCTGG +GACGGTATTCGTCTGCGCGGTAACGCCTGGTGGCCTAAACAATCACTGACCGTATTCCAGCCGCTGGTGC +CACCCGACTGGAAGATGAACTTACGCGATGGTGAACTGTATGCTCAGGTTGCATTTTCTGCTGCGCCTGA +ACAAGGATTCCGCGCGGGAGGACACGGCGTGTTGAAAGGCGGTAGTGCCTGGATGCCAGATAATCAGGTT +AACGGTGTCGATTTTGTCCTGCCTTTCCGTTTTGCCGATGGAGCCTGGCATCTGGGGACTCGCGGCCCCG +TTACGTTGCGAATTGCCGAAGTGATTAATCTGGTGACAGCGAAAAATATTACGGCTGATTTGCAAGGGCG +TTATCCGTGGACTGAAGAAGAACCCTTGCTGTTGACTGATGTTAGCGTCGATGTGTTAGGCGGTAACGTA +CTGATGAAACAATTACGTATGCCGCAACATGACCCGGCGCTGTTGCGGCTGAATAATCTCTCATCCAGCG +AACTGGTTAGCGCCGTCAATCCGAAACAATTCGCCATGTCCGGGGCATTTAGTGGTGCACTGCCGTTATG +GCTGAACAATGAAAAATGGATTGTGAAAGATGGCTGGCTGGCGAATAGCGGGCCGATGACATTGCGACTG +GATAAAGACACTGCGGATGCGGTGGTAAAAGACAATATGACTGCGGGTTCAGCAATTAACTGGTTGCGCT +ATATGGAAATTAGCCGTTCATCGACAAAAATTAATTTAGATAATCTCGGTTTATTAACCATGCAGGCCAA +CATTACAGGTACCAGTCGCGTTGATGGTAAAAGCGGTACGGTAAACCTTAATTACCATCATGAAGAGAAT +ATTTTTACGCTGTGGCGCAGTTTACGCTTTGGCGATAATCTCCAGGCATGGCTGGAGCAGAACGCACGTC +TGCCGGGAAATGACTGTCCGCAAGGAAAAGAGTGTGAGGAAAAACAATGAAAATTTTACTGGCTGCGTTG +ACGTCATCTTTTATGCTGGTTGGCTGTACGCCTCGCATTGAAGTCGCTGCACCTAAGGAACCGATCACTA +TCAATATGAACGTTAAAATTGAGCATGAGATCATCATCAAGGCAGACAAAGATGTCGAAGAGCTGCTTGA +AACTCGTAGCGATCTTTTCTGAGGTGATGATGAAGAAAACATTACTTCTTTGTGCGTTTCTTGTTGGGCT +GGTAAGCAGCAATGTAATGGCATTGACTCTGGATGAAGCCAGAACTCAGGGGCGGGTAGGTGAAACATTT +TACGGTTATCTGGTTGCGCTGAAAACGGATGCTGAAACAGAGAAATTAGTAGCCGACATTAATGCCGAAC +GTAAAGCGAGTTACCAACAACTGGCAAAGCAAAATAATGTGTCGGTAGATGATATCGCGAAACTCGCCGG +GCAAAAGCTCGTAGCTCGGGCCAAACCGGGGGAATATGTACAAGGGATAAACGGTAAATGGGTGCGAAAA +TTTTAATAGCAAAACCGCAATATCGGGATAACGCTACAGGAGAAGGCGATTGATCTATTTTCCTGAAACA +AGGTGAATATTCAAAAACTCCTGTCAAATTGCCTTTTGCCCTGAAAAATGCATAGTCAAATATCTGTTTT +AACTAATTGGCGTTGCAGTACATGCAACGCCAATTAGTTAGCGGAATTTACGTCGATACTCGCCTGGCGT +CATCCCAAAGCGTTGCTTAAATACCGTTGAAAAATGACTCTGGTCAGAAAATCCCCAATGAAAGCCGATG +CCTGCCAGTTTTTCATCATCTGCGGCATGGCGAATCGCATCTGCACAAAAATCGAGACGACGGTTACGAA +TATATTGCGCGACTACCAAACCTTTATCGGCAAACATTCGGTACAAACTACGTACTGACATACCTGTCTC +TCCGGCTATCCACTCCGGGCGTAATATCTCTTCGCGAATATTATCGTCTATCAACGTAACCACTTTTTGA +AACTGACGTTCACGACGAGGTTGAACAGATTCCCGCTGATGAAGTACCGGGCGCAGCAGACACACCATCG +CCTGTAGCGCAGCTTCACTTTCTGTTTCAGAAAGTGCCGGATTATTCATGCTCTCCTGTAACAGGCGATG +ACTGAGTTGCACCATGGGTAAGTCAGCGTCCAGTCTTTCTGCGCAGATAGGTTTTTGATGGGGAAAATAT +TGTTCCAGCAGAGTGCGTGGCAAAAGTAATGAAATCTGTTTAGAAGACTCCTGCCAGTAAAGCGAACAGG +GGCGTGAGGCATCGAGTAACGTAATATCGCCAGCGCCAATCTGCACCTGACGCTCATCCTGCTCCATTAT +TGCCTGACCACTAAGCTGAAAAACGGTGTAAAACCAGGCATCGTCGCTGCCTTTTACTTCCTGCCAGGTG +CGGGATAAATTCACCCCGCTGGTTGTCACGGTACTCAGCTTTAGTCCTTTGGCAAAATGCGTGTCCAGTA +CACCCGTGTAACGCTCAGTCAGCAGGCGTCCGGTAAAATTTCCGCATACCTGATTGATTTGGGAAAGCCA +TTGCTGAAACTCATTATCCACTGCGGGGTTCATGGCACGTTTTCGCTCTGTGAAATGTATTTTTATTGTT +GCATTTGTGTTGCAATAAACGAAGCTAATGAGCCTGACTATAGGAAATAAGTCTTGTCAGGCATAGAGAC +ATAAGCGGTTATTGTCACGATTTGCGGAGCTTGTCACAGCTGACAAAGCGAATGTCACAGCGAAAAAAGT +GACTTTTCTTGTCGCTGCGTACACTGAAATCACACTGGGTAAATAATAAGGAAAAGTGATGACAGAGCCG +CATGTAGCAGTATTAAGCCAGGTCCAACAGTTTCTCGATCGTCAACACGGTCTTTATATTGATGGTCGTC +CTGGCCCCGCACAAAGTGAAAAACGGTTGGCGATCTTTGATCCGGCCACCGGGCAAGAAATTGCGTCTAC +TGCTGATGCCAACGAAGCGGATGTAGATAACGCAGTCATGTCTGCCTGGCGGGCCTTTGTCTCGCGTCGC +TGGGCCGGGCGATTACCCGCAGAGCGTGAACGTATTCTGCTACGTTTTGCTGATCTGGTGGAGCAGCACA +GTGAGGAGCTGGCGCAACTGGAAACCCTGGAGCAAGGCAAGTCAATTGCCATTTCCCGTGCTTTTGAAGT +GGGCTGTACGCTGAACTGGATGCGTTATACCGCCGGGTTAACGACCAAAATCGCGGGTAAAACGCTGGAC +TTGTCGATTCCCTTACCCCAGGGGGCGCGTTATCAGGCCTGGACGCGTAAAGAGCCGGTTGGCGTAGTGG +CGGGAATTGTGCCATGGAACTTTCCGTTGATGATTGGTATGTGGAAGGTGATGCCAGCACTGGCAGCAGG +CTGTTCAATCGTGATTAAGCCTTCGGAAACCACGCCACTGACGATGTTGCGCGTGGCGGAACTGGCCAGC +GAGGCTGGTATCCCTGATGGCGTTTTTAATGTCGTCACCGGGTCAGGTGCTGTATGCGGCGCGGCCCTGA +CGTCACATCCTCATGTTGCGAAAATCAGTTTTACCGGTTCAACCGCGACGGGAAAAGGTATTGCCAGAAC +TGCTGCTGATCACTTAACGCGTGTAACGCTGGAACTGGGCGGTAAAAACCCGGCAATTGTATTAAAAGAT +GCTGATCCGCAATGGGTTATTGAAGGCTTGATGACCGGAAGCTTCCTGAATCAAGGGCAAGTATGCGCCG +CCAGTTCGCGAATTTATATTGAAGCGCCGTTGTTTGACACGCTGGTTAGTGGATTTGAGCAGGCGGTAAA +ATCGTTGCAAGTGGGACCGGGGATGTCACCTGTTGCACAGATTAACCCTTTGGTTTCTCGTGCGCACTGC +GACAAAGTGTGTTCATTCCTCGACGATGCGCAGGCACAGCAAGCAGAGCTGATTCGCGGGTCGAATGGAC +CAGCCGGAGAGGGGTATTATGTTGCGCCAACGCTGGTGGTAAATCCCGATGCTAAATTGCGCTTAACTCG +TGAAGAGGTGTTTGGTCCGGTGGTAAACCTGGTGCGAGTAGCGGATGGAGAAGAGGCGTTACAACTGGCA +AACGACACGGAATATGGCTTAACTGCCAGTGTCTGGACGCAAAATCTCTCCCAGGCTCTGGAATATAGCG +ATCGCTTACAGGCAGGGACGGTGTGGGTAAACAGCCATACCTTAATTGACGCTAACTTACCGTTTGGTGG +GATGAAGCAGTCAGGAACGGGCCGTGATTTTGGCCCCGACTGGCTGGACGGTTGGTGTGAAACTAAGTCG +GTGTGTGTACGGTATTAATCTGGTTCGCTCATAAGTAAAAAACGGCACCTGGTGCCGTTTTTTTGTCTGA +AACAATCACTTATCTTTCTTCAGCGCCCCTAGCGTTGGCGTTTCGTCAAAGAAGTTCCATGGTTTCAGCA +GAGTATGTACCCATTCGGTCGGCATAATCGGCCACTCTTCGGCGCGGGCCACATGTGTGGTGCCGGTGGT +CATCCAGACAACGGCGTCGGTGTTGTCCAGCGACTCGTTATCCTTACTGTATTGTCCAAGACCGGTGTCA +TGAGTAGAACGGTTCGGATATTTGCCTTCCGGGAAACGCTCGCCAGGATGATAACGCGTTACCCAGAGCT +GCTTGTCCATAAAGCTTAAACGATGATAGATCCACTCGTCCGGCGCGAACTGGGCACCTTTTGCTACCGG +GTGAGTACCACCTGCATAAGGAATAATTTGATAGGAAACCGGATTGCCCATGCGGTTCTCTTTGTTCGGG +TTACTCAACAGACGAATCGTGCCCGGATCAAATTTCTGTGCGGCATCCTGTTCATTGCCGATGTTGTACT +GATTAACTTGCATGGTACTGGTGCGTGGGCCACCGGCAGTATTCGGTTTTACCACTGGGTCCATCGCCAC +CAGGCTGTTATTCTCGCCATCTACATCCAGATCGAGGCGGAAATTATAAATATGTTGGTGTGTAGTACCC +ACGATATTGTGATCGATAAGCGTGCCGTAGCGCGTGTCATCTTTCGCCGTCTCATCGTGCATGGTTTTCG +CTTTAACACCTTTCACCGCTTCGATGCCCGTAGCACCGGCATCGATGCCAATAGTGCCGTTTTCATGGAA +GATCCAGTCAAAAATGTAGTCATAGTTACCCACTGTACTGATCCAGCGCACCACTAACTCCCGGCGTTCG +GTACTGACGTTGGGCTGGCCCATTTCCTGATGCTTATACTCCGGCCCGGCATAACGTTCAAATACCGCGA +TAGCGCGAGGGATCTCCATCGGCACGCCAGTGTAGTCGGCGATGGTTTCATTAAGGAGCACTGCGTTAGA +CGGGGCATCTTTACCACGAGCAATTGGTGAGGTTAGCGTGCCCATACCGTAGTCACCAGAGTCCAGATAC +GCTTTAAAGTACCAGCCAATATCAGGATCACCGTAAGGCACAATCATGCCGCCGAGAGAACCTTCGTACA +TGACTTTGCGTTTGGTGCCATTGTCGTTATAAGTCACGGTGGAGATCATCGGCCCGACGCGAGAGTTCAT +GCTGAGGTGAAAATCCCAGTTCCGCCAGTGAATCATATCGCCAGTAATGGTGTAATTTTTACCTTCAGGC +TCAATGATTTGCATAGGCTTAACTGCCGGAGCAACGCGGTCACGGCCATCAAATGGGCGTGCGGTCATTG +GCACCGGAACTACCGGACCTTCTTCAATCTTAACGATTTTTTTCTGTTCTAAATCAACGACCGCCACCAG +GTTTTCGATGGGATGTGCCCAGTAGTTGCCATCACCGACATCAAGATAGCTGATGACTTTGAGCAACCGG +GCATCTTGTTTCAGGCCATCTTTACCATCGAAATAACCTACGGTCAGCGGCGTGGTAATCACTTTTTTCG +CATCAGTAATACCGCGTTTCTTCACGGCAGCGGCAAATTCTTCACTGTTGTTAATAATGTTCTGCACACT +GGCGAAATCATCCAGCAACACCATACCGTGGGCGTCTTTAATGGGTTGCCAGGAGAGCAGTTTGTTGTTT +TGCAGATCCACCACCGCTTCGATGATATGTTTGCCGTCGAGCATAATGACGTCGGCTTTGCGCGGCTGGT +CAACCGGTTTGTTTTCCAGCGCAAACGCCCAGACAGCTTCTTTATCTGGCGGTAGCAGGGAGATCTCAGT +AAAACGGGTATTGGGTTTGAAGTCCGCGGAAGCTTTAACAATTTCAACGGCCTGTTTAATTTCGTCCGCA +GTTAGCGCATTAAGTGGGTGAGGGCGCTTTTCTACCTGAAAGGTTTGATCCAGCCCGGACTGGAAAACAT +CGTTAATAAAGGTGTCAGAAACCCAGGCTTTATTGTCTTTCATCACTACCGGTACTTGCAGTGCCAGAGG +CTGACCATTAACAATTGCTGTTTGCGCACCAGGCTTCACTTTCACGTACGCGCCATCTTTAATCAGGGTA +AAGAGCTGGGCGTAGTCGTCCCACTGCACATCGGCACCAAATTCTTTAAGCGTTTTATCCATTGGCACCA +TATGCGCTTCACCACCGTGGGCAAATACCGGCGCTTGCCAGGCGAAACTTAAGGCGACTGCCAACGCCAG +GGTTGTTTTACGGGCAGAATACAGAGAGGGGCTTCCCATTATTAACCTCGTCAGATGTTGTGTTCTTGTT +AGCAACCGCGCTCTGTGGGCGGTTTAGTCAGGTTCACATTATCAGTACTGATGCAAAGGGGATTGCCTGC +ACCTGCCAGGTTGTTTGGCAGGTGTGCCAGCTTTTCATACAGTGGATGCCCTGAAAATAGATGTACACAT +CATGCATAATGTGACAACGTCACAAAACTTAGTGAAATAAAAGGGCAACTATTCGCCGTTGCCCTTCATT +CACCGATTAATCGACAAAATCACCGTGCTGCCTGGCCACCAGCGTCAGAATTGAATACAGCGCCACCGGG +GTTTGATGCTGATTGAATACCTCTACAGCCCATTCCACCACACCTGTTGGTTTTTCTTCTGCGCTACGCT +GTTTTTTCAGCGTCTTGCGCTTACAGGTGAGACGCACCTGGATGGTATCGCCTGGCTTTACGGGTTCGAT +AAAACGCAAGCTTTCCAGCCCGTAGTTAGCAATGACCGGACCGACACCGGCATCGACAAACAGACCCGCA +GCCGCAGAAAGCACAAAATACCCATGCACCACCCGCTCACCGAAAATAGATTCGGCAGCAGCAATCTTAT +CCATATGTGCATAGAAATGATCGCCGCTGAGGCAAGCAAAGTTAACAATATCGGCCTCTGTCATTGTGCG +GCGGGGAGTCAACAGGCTGTCGCCTGGTTGTAGCTCCTCAAAATATTTGCGGAACGGATGAATACGATCT +TCTTCGACTTTCGCACCGCGCACCCACTGTTTACTGATAGCGGCAAGCATCGTCGGACTACCCTGAACAG +CGGTTCGCTGCATGTAATGTTTCACCGCTCGTAAACCGCCTAATTCTTCACCGCCTCCTGCGCGACCAGG +CCCACCATGTACCAGTTGTGGCAGTGGGGAGCCATGCCCGGTGGATTCTTTTGCCGACTCTTCATTGAGG +ATCTGAATTCGCCCATGCGTACGTGCCGCGTCGGCAATAAACTGACGCGCAATTTGCGGATCAGCCGTCA +CCAGCGTTCCCGCAAGGCTACCGCCGCCTGCACAAGCCAGTTGCAGAGCATGTCGCTGGTTTTGTGCTGG +CATCAGCGTTGCGACAGGGCCAAAGGCTTCTGTTGCATGTACCGCCGGTGTTTCATCCGGCTGCGGACAG +TACAATAAGGTTGGCGGGAAGAAGGCACCCGCAGCAGATAAATCCGCCTGACCACCGAGGCGAATCTCGC +ATCCTGCAGCCAGCAATATGTTCACTTTTTCCTGCACATCGGCACGCTGCTCAGCATTTACCAGTGCGCC +CATTTTCACGCCTTCCTGAGCAGGATCACCGACCACGACTTTCTGTAATCGCGCAACCAGAGCATCACTG +ACAGCATTAACCAATGCCTGCGGCACAATAATCCGCCGGATTGCCGTACATTTTTGCCCGGCTTTTGTGG +TCATCTCACGCACAACTTCACGAATAAACAGCGCAAACTCCGGTTGATCCGGGGTGACATCTTCGCCCAG +TACGCAGCAGTTCAGGGAATCAGCTTCCATAGTGAAGGGGATAGATTTGGCGACGATATTTGGCTGAACT +CGCAGCATCTGTCCGGTCGCCGCTGACCCCGTGAAAGTCACCACATCCTGGCTGTCCAGATGATCCAACA +AGTCGCCAGCACTACCGCAGATCAGACTAATTGCGCCTTCGGGAACAAGACCACTATCGACAATTGATTT +CACCATCGCCTGAGTCAGTTGGGCCGTCGCGGTAGCTGGTTTGATGATGGCTGGCATTCCGCCCAGCCAC +GTTGGTGCCAGCTTTTCCAGCATTCCCCAGCAGGGGAAGTTAAAGGCGTTAATATGCACTGCCACGCCTG +ACTTTGAGGTCAGTAAATGGCGCGCGGCAAATCCACCTTCTTTCGATAAGGGGATCAATTCATCTTCCGG +CCACAGCGTATCGTCAGGCAGCTCCCGGCTACCGAGGCTGGCGTAAGTAAATAACGTCCCAATGCCACCT +TCAATATCAACCCAACTGTCTGCCCGCGTTGCGCCTGTTTGCGCAGAAAGAGCATAGAAACGCTCTTTTT +CACTCAGCAGATGTTTAGCGACCGCTTTAAGCATCGCCGCACGTTCGATAAAGGTCATAGCGCGAAGGGC +GGGGGCACCTTTTTCAATGGCAAACTGGCGGGCAGCCGCCATATCAAGACCTTCACTGGTCACTTCCCAT +AACGCCTCGCCGCTAATAGCGTGGTGAATCAAACGGCTACGGCCCCGGCCAGACTGCCAGGTACCGGATA +AGAAACTGGCTAACTGCTGCATCGCTACTCTCCAGATGTTTCACATTTCTGTTGCTAATAGTTAAATCGC +GAATCATAAAAAGCAAAGGATCTTTTAACGAAATGTTAACTATGCGATCTGTATAGCAACTGCGGAAAAC +ATTAATGCACTGATAAATAATGATTTATAAAAATAGGGTGCGAAATCCGTCACAGTTCAAACATACAAAA +TTTGTGATTTTACTTAACTATTGTGTAACTTTCATAAAACAATGTGATTCGTGTTTTTAATTAATTCACG +AAAACTGGAATCGTAAAGGTGATGACGTGACCCAAGAAGAACGCTTTGAGCAACGGATAGCCCAGGAAAC +GGCTATCGAGCCACAGGACTGGATGCCCGATGCTTACCGAAAGACATTGATCCGCCAGATTGGGCAGCAT +GCGCACTCCGAGATTGTTGGTATGTTGCCTGAAGGTAACTGGATCACTCGCGCACCAACCTTGCGGCGTA +AAGCCATTCTGTTGGCCAAAGTGCAGGATGAAGCCGGTCATGGTCTGTATCTCTATAGCGCCGCCGAAAC +ACTGGGCTGCGCCAGAGAAGACATCTACCAAAAAATGCTCGACGGACGGATGAAATATTCCTCCATCTTT +AATTATCCGACATTGAGTTGGGCTGATATCGGTGTTATCGGCTGGCTGGTGGATGGCGCAGCGATCGTCA +ATCAGGTGGCGTTATGCCGCACTTCTTATGGCCCGTATGCCAGAGCAATGGTGAAAATCTGCAAAGAAGA +GAGTTTTCACCAGCGTCAGGGGTTTGAAGCCTGCATGGCACTGGCGCAGGGCAGCGAAGCTCAAAAGCAG +ATGTTGCAAGACGCCATTAACCGTTTCTGGTGGCCAGCCTTAATGATGTTCGGGCCAAACGATGATAACT +CGCCAAACAGCGCCAGAAGTCTCACCTGGAAAATCAAACGTTTCACCAACGACGAACTCCGCCAGCGTTT +CGTGGATAACACCGTTCCACAGGTTGAAATGCTCGGTATGACCGTTCCTGACCCGGATCTGCATTTTGAC +ACTGAAAGCGGTCACTACCGCTTTGGTGAGATCGACTGGCAGGAGTTTAACGAAGTAATTAACGGTCGCG +GAATTTGTAATCAGGAGAGGCTCGACGCCAAACGTAAAGCCTGGGAAGAAGGTACCTGGGTACGGGAAGC +AGCGCTGGCCCATGCACAAAAACAACATGCCCGTAAGGTCGCATAAGGAGATTCAAAATGAGTAATGTTT +ACTGGCCGTTATACGAAGTTTTCGTGCGTGGCAAACAGGGCTTATCACACCGCCATGTTGGCAGTTTACA +TGCTGCCGATGAGCGGATGGCACTGGAAAATGCCCGTGATGCTTACACCCGTCGTAGCGAAGGATGTTCA +ATTTGGGTGGTGAAGGCGAGTGAAATTGTTGCCTCGCAACCGGAAGAACGCGGTGAATTTTTTGATCCGG +CTGAAAGCAAGGTCTATCGCCATCCAACGTTTTACACCATCCCTGATGGCATTGAGCACATGTGAGGTCG +GAAATGAATCAGTTAACGGCTTACACCTTGCGCCTGGGCGATAACTGCCTGGTGCTCTCCCAGCGGTTGG +GTGAATGGTGCGGTCACGCACCGGAACTGGAAATCGATCTCGCACTGGCAAACATTGGCCTCGATTTATT +AGGTCAGGCACGCAACTTCTTATCGTATGCCGCTGAATTAGCGGGAGAAGGCGATGAAGATACCCTGGCC +TTCACCCGAGACGAGCGCCAGTTCAGCAACTTATTGTTGGTTGAACAACCAAACGGCAATTTTGCCGACA +CCATTGCACGCCAGTATTTCATCGATGCATGGCATGTGGCGCTCTTTACCCGTCTGATGGAAAGCCGTGA +TCCGCAACTGGCGGCGATTTCTGCCAAAGCAATTAAAGAAGCGCGCTATCACCTGCGTTTTAGTCGTGGC +TGGCTGGAGCGACTGGGCAATGGTACTGACGTATCAGGGCAAAAGATGCAGCAGGCCATCAACAAGTTGT +GGCGTTTTACCGCCGAACTGTTCGATGCCGACGAGATTGATATTGCACTGAGTGAAGAGGGTATTGCGGT +TGATCCACGCACTTTACGCGCAGCGTGGGAAGCCGAAGTTTTTGCCGGGATCAACGAAGCCACATTGAAC +GTACCGCAAGAGCAGGCGTATCGCACTGGCGGTAAAAAAGGACTGCATACCGAACACCTTGGACCCATGC +TGGCAGAAATGCAGTATCTCCAGCGTGTCTTGCCCGGTCAGCAATGGTAACAGAGGAGATGGGTATGCAA +CGTCTGGCCACCATTGCACCGCCACAGGTTCATGAGATATGGGCGCTACTCAGCCAGATCCCGGACCCGG +AGATCCCGGTGCTGACCATTACTGATTTAGGCATGGTGCGTAATGTGACACAGATGGGAGAAGGATGGGT +GATCGGCTTTACGCCGACATATTCCGGTTGTCCGGCAACGGAACATTTGATTGGCGCGATACGTGAGGCA +ATGACAACCAACGGGTTTACCCCCGTTCAGGTTGTGCTGCAACTCGACCCGGCATGGACCACCGACTGGA +TGACCCCCGATGCCCGTGAGCGTCTGCGAGAGTATGGCATTAGCCCGCCCGCCGGACACAGTTGCCATGC +CCATTTGCCGCCAGAAGTACGTTGCCCGCGCTGCGCCAGCGTCCATACCACACTTATCAGTGAATTTGGT +TCCACGGCCTGCAAAGCATTGTACCGCTGCGATAGTTGCCGCGAACCTTTCGATTATTTCAAATGTATTT +GAGGATGCCATGACAACGTTTCATTCCTTAACAGTGGCAAAAGTCGAGTCGGAAACCCGTGATGCGGTGA +CCATTACCTTTGCGGTGCCCCAGCCTTTGCAGGAGGCGTATCGCTTTCGCCCCGGTCAACATTTGACCTT +AAAAGCCAGCTTTGATGGTGAAGAATTACGCCGTTGTTACTCCATTTGCCGCAGCTATCTGCCTGGCGAA +ATTAGTGTGGCGGTGAAAGCCATTGAAGGCGGACGTTTCTCCCGCTATGCCCGCGAACACATCCGCCAGG +GTATGACGCTGGAGGTCATGGTGCCGCAGGGGCATTTCGGCTATCAGCCGCAGGCCGAACGCCAGGGGCG +CTATCTGGCAATTGCAGCAGGATCAGGTATTACGCCAATGCTGGCGATTATCGCCACCACTTTACAAACC +GAGCCTGAAAGTCAGTTCACCCTGATCTACGGTAACCGTACCAGCCAGAGCATGATGTTTCGCCAGGCAC +TGGCAGACCTGAAAGACAAATATCCTCAGCGTTTACAGTTGTTGTGCATTTTCAGTCAGGAAACCCTCGA +CAGCGATCTGCTTCACGGGCGTATTGACGGTGAAAAATTACAGTCACTTGGGGCCTCGCTCATTAATTTT +CGTCTTTATGATGAGGCATTTATTTGTGGTCCGGCGGCGATGATGGATGACGCGGAAACCGCCTTAAAAG +CACTGGGAATGCCAGATAAAACCATTCATCTGGAGCGGTTTAATACGCCTGGCACGCGCGTCAAACGTAG +CGTTAACGTGCAAAGTGACGGACAAAAAGTGACTGTACGTCAGGATGGGCGGGATCGGGAAATCGTGCTT +AATGCCGACGATGAAAGCATTCTCGATGCGGCATTGCGCCAGGGGGCGGATCTGCCCTATGCCTGCAAAG +GCGGCGTCTGTGCGACCTGCAAATGCAAAGTGCTGCGTGGCAAAGTGGCGATGGAAACCAATTACAGTCT +GGAACCGGATGAACTGGCCGCAGGTTATGTGTTGAGTTGCCAGGCACTGCCGCTGACCAGCGATGTGGTG +GTTGACTTTGACGCGAAGGGGATGGCATGAGCGAACTGATCGTCAGCCGTCAGCAACGAGTATTGTTGCT +GACCCTTAACCGTCCCGCCGCACGTAATGCGCTAAATAATGCCCTGCTGATGCAACTGGTAAATGAACTG +GAAGCTGCGGCTACCGATACCAGCATTTCGGTCTGTGTGATTACCGGTAATGCACGCTTTTTTGCCGCTG +GGGCCGATCTCAACGAAATGGCAGAAAAAGATCTCGCGGCCACCTTAAACGATACACGTCCGCAGCTATG +GGCGCGATTGCAGGCCTTTAATAAACCACTTATCGCAGCCGTCAATGGTTACGCGCTTGGGGCGGGTTGC +GAACTGGCATTGTTGTGCGATGTGGTGGTTGCCGGAGAGAACGCGCGTTTTGGGTTGCCGGAAATCACTC +TCGGCATCATGCCTGGCGCAGGCGGAACGCAACGTTTAATCCGTAGTGTCGGTAAATCGTTAGCCAGCAA +AATGGTGCTGAGCGGAGAAAGTATCACCGCTCAGCAAGCACAGCAGGCCGGGCTGGTTAGCGACGTCTTC +CCCAGCGATTTAACCCTCGAATACGCCTTACAGCTGGCATCGAAAATGGCACGTCACTCGCCGCTGGCCT +TACAAGCGGCAAAGCAAGCGCTGCGCCAGTCGCAGGAAGTGGCTTTGCAAGCCGGACTTGCCCAGGAGCG +ACAGTTATTCACCTTGCTGGCGGCAACAGAAGATCGTCATGAAGGCATCTCCGCTTTCTTACAAAAACGC +ACGCCCGACTTTAAAGGACGCTAATGATGGAATTCATCCTCAGTCATGTAGAAAAGGGCGTGATGACACT +AACGCTCAACCGCCCGGAACGCCTGAACAGTTTTAATGATGAGATGCACGCACAACTGGCAGAGTGCCTG +AAACAGGTCGAGCGCGACGACACTATCCGTTGCCTGTTACTTACAGGTGCCGGGCGCGGATTTTGTGCTG +GTCAGGATCTTAACGATCGTAACGTTGATCCCACAGGCCCCGCACCGGATTTAGGGATGTCAGTTGAACG +TTTCTATAACCCACTGGTACGTCGCCTGGCAAAACTGCCAAAACCGGTGATCTGTGCAGTCAATGGCGTG +GCGGCAGGGGCAGGCGCAACACTGGCACTGGGGGGCGACATCGTTATTGCTGCCCGTTCAGCAAAATTCG +TCATGGCGTTTAGTAAGTTAGGCTTAATACCCGATTGCGGTGGAACCTGGTTACTGCCACGCGTTGCCGG +ACGAGCGCGCGCCATGGGGCTGGCACTGCTGGGGAATCAACTGAGTGCTGAACAGGCGCACGAATGGGGG +ATGATCTGGCAGGTTGTTGATGATGAAACGCTGGCAGATACCGCGCAACAGCTGGCACGGCATCTGGCGA +CACAACCGACATTTGGTCTTGGACTTATCAAGCAAGCGATAAATAGCGCTGAAACCAATACGCTCGATAC +GCAACTGGATCTGGAACGTGACTATCAGCGACTTGCCGGACGGAGCGCAGATTATCGTGAAGGTGTCAGT +GCGTTCCTGGCTAAACGCTCACCGCAGTTCACGGGGAAATAGCATGATGATAAATGTGCAAACTGTGGCA +GTGATTGGGAGCGGCACCATGGGGGCAGGCATTGCTGAAGTTGCTGCCAGTCATGGACACCAGGTTTTAC +TGTATGACATTTCTGCTGAAGCGCTGACCCGCGCAATCGACGGGATACACGCGCGGCTAAATTCACGCGT +GACGCGGGGAAAACTGACTGCTGAAACCTGTGAACGCACATTGAAACGCCTGATCCCGGTGACCGATATT +CACGCGCTGGCAGCTGCGGACCTGGTCATTGAAGCGGCGTCTGAACGTCTGGAAGTCAAAAAAGCGCTCT +TTGCACAGCTGGCGGAAGTTTGCCCGCCACAAACGCTATTGACCACTAACACTTCGTCAATCTCTATAAC +CGCGATTGCTGCGGAGATAAAAAATCCTGAACGTGTTGCGGGGCTGCATTTTTTTAACCCGGCACCGGTG +ATGAAGTTGGTGGAGGTGGTCAGTGGGCTGGCAACGGCGGCGGAAGTTGTTGAGCAGTTGTGTGAACTAA +CGTTGAGTTGGGGTAAGCAGCCTGTGCGCTGTCATTCGACTCCTGGATTTATCGTTAACCGTGTTGCGCG +TCCTTATTATTCCGAGGCCTGGCGGGCACTGGAAGAGCAGGTTGCTGCACCAGAAGTGATTGACGCTGCA +CTTCGCGATGGCGCTGGTTTCCCGATGGGGCCGCTGGAATTAACCGATCTGATTGGTCAGGACGTCAATT +TTGCTGTCACCTGTTCGGTGTTTAACGCTTTCTGGCAGGAGCGTCGTTTTTTACCTTCGCTGGTGCAACA +GGAACTGGTGATTGGTGGACGGTTGGGCAAGAAAAGTGGGCTGGGCGTGTACGACTGGCGCGCGGAACGT +GAGGCAGTTGTTGGCCTGGAAGCGGTAAGCGACAGTTTTAGCCCAATGAAAGTAGAAAAGAAAAGTGACG +GTGTCACGGAAATTGACGATGTTTTATTGATTGAGACACAAGGCGAGACGGCACAGGCGCTGGCAATACG +ACTGGCACGCCCGGTGGTAGTGATCGATAAAATGGCGGGCAAGGTGGTGACCATTGCTGCTGCAGCGGTG +AACCCGGACTCAGCGACCCGCAAGGCCATTTATTACCTGCAACAGCAGGGCAAAACAGTGCTGCAAATTG +CAGATTACCCAGGAATGCTGATTTGGCGAACGGTAGCAATGATCATCAATGAAGCCCTTGATGCGCTTCA +AAAAGGCGTGGCCTCTGAACAGGATATCGATACCGCCATGCGTCTTGGGGTGAATTATCCATATGGCCCA +CTTGCCTGGGGAGCGCAACTTGGCTGGCAGCGAATATTAAGGCTCCTTGAAAATCTACAGCATCACTATG +GCGAAGAACGCTATCGCCCATGTTCATTGCTGCGCCAACGGGCGCTTCTGGAGAGCGGTTATGAGTCATA +AGGCCTGGCAAAATGCCCATGCAATGTATGAGAACGATGCCTGCGCCAAAGCGCTTGGCATCGACATTAT +CTCAATGGATGAAGGCTTTGCTGTAGTGACCATGACCGTCACTGCACAAATGCTTAACGGTCATCAAAGT +TGCCACGGCGGGCAGCTATTTTCACTGGCTGATACTGCCTTTGCCTACGCCTGCAATAGCCAGGGGCTGG +CAGCCGTCGCTTCTGCCTGCACGATTGATTTTTTGCGTCCAGGCTTTGCCGGAGACACCTTAACTGCTAC +TGCGCAGGTACGTCATCAGGGCAAGCAAACCGGTGTTTACGACATCGAAATTGTTAACCAACAACAAAAA +ACGGTTGCGCTGTTTCGCGGTAAATCTCACCGCATCGGCGGCACCATTACAGGAGAAGCCTGATGCGTGA +AGCCTTTATTTGTGACGGAATTCGTACGCCAATTGGTCGCTACGGCGGGGCATTATCAAGTGTTCGGGCT +GATGATCTGGCTGCTATCCCTTTGCGGGAACTGCTGGTGCGAAACCCGCGTCTCGATGCGGAGTGTATCG +ATGATGTGATCCTCGGCTGTGCTAATCAGGCGGGAGAAGATAACCGTAACGTAGCCCGGATGGCGACTTT +ACTGGCGGGGCTGCCGCAGAGTGTTTCCGGCACAACCATTAACCGCTTGTGTGGTTCCGGGCTGGACGCA +CTGGGGTTTGCCGCACGGGCGATTAAAGCGGGCGATGGCGATTTGCTGATCGCCGGTGGCGTGGAGTCAA +TGTCACGGGCACCGTTTGTTATGGGCAAGGCAGCCAGTGCATTTTCTCGTCAGGCTGAGATGTTCGATAC +CACTATTGGCTGGCGATTTGTGAACCCGCTCATGGCTCAGCAATTTGGAACTGACAGCATGCCGGAAACG +GCAGAGAATGTAGCTGAACTGTTAAAAATCTCACGAGAAGATCAAGATAGTTTTGCGCTACGCAGTCAGC +AACGTACGGCAAAAGCGCAATCCTCAGGCATTCTGGCTGAGGAGATTGTTCCGGTTGTGTTGAAAAACAA +GAAAGGTGTTGTAACAGAAATACAACATGATGAGCATCTGCGCCCGGAAACGACGCTGGAACAGTTACGT +GGGTTAAAAGCACCATTTCGTGCCAATGGGGTGATTACCGCAGGCAATGCTTCCGGGGTGAATGACGGAG +CCGCTGCGTTGATTATTGCCAGTGAACAGATGGCAGCAGCGCAAGGACTGACACCGCGGGCGCGTATCGT +AGCCATGGCAACCGCCGGGGTGGAACCGCGCCTGATGGGGCTTGGTCCGGTGCCTGCAACTCGCCGGGTG +CTGGAACGCGCAGGGCTGAGTATTCACGATATGGACGTGATTGAACTGAACGAAGCGTTCGCGGCCCAGG +CGTTGGGTGTACTACGCGAATTGGGGCTGCCTGATGATGCCCCACATGTTAACCCCAACGGAGGCGCTAT +CGCCTTAGGCCATCCGTTGGGAATGAGTGGTGCCCGCCTGGCACTGGCTGCCAGCCATGAGCTGCATCGG +CGTAACGGTCGTTACGCATTGTGCACCATGTGCATCGGTGTCGGTCAGGGCATCGCCATGATTCTGGAGC +GTGTTTGAGCATATCAACCTGCGAGTACCCTACAATGATAACCAATACAAAGCTTGACCCGATTGAAACC +GCGTCTGTTGATGAGTTACAGGCGTTGCAAACACAGCGTCTGAAATGGACGCTCAAACACGCGTATGAAA +ATGTGCCGATGTATCGGCGCAAATTCGACGCAGCAGGCGTACATCCTGATGATTTCAGGGAACTTTCAGA +CCTGCGTAAATTTCCCTGTACCACCAAACAGGATCTGCGCGACAACTATCCCTTTGACACCTTTGCCGTG +CCAATGGAACAAGTGGTGCGCATTCATGCTTCTTCGGGAACCACAGGTAAACCGACAGTTGTCGGCTATA +CGCAAAACGATATTGATAACTGGGCCAATATTGTAGCGCGTTCTTTGCGTGCGGCAGGGGGCTCGCCCAA +AGACAAAATTCATGTTGCCTATGGTTACGGCCTGTTTACTGGTGGGCTGGGTGCGCACTATGGTGCCGAA +CGTCTGGGCGCTACGGTGATCCCGATGTCTGGCGGGCAGACGGAAAAACAAGCGCAACTGATCCGTGATT +TTCAACCAGATATGATCATGGTTACGCCATCTTATTGCCTTAACCTGATTGAAGAGCTGGAGCGGCAGTT +GGGCGGTGATGCCAGCGGTTGCTCGCTGCGGGTTGGAGTATTTGGTGCTGAGCCGTGGACACAGGCCATG +CGTAAAGAGATTGAGCGTCGCCTGGGGATCACCGCACTGGATATTTATGGCCTGTCAGAAGTGATGGGGC +CGGGGGTGGCGATGGAGTGTCTGGAAACTACCGACGGCCCAACCATTTGGGAAGATCATTTCTATCCTGA +AATTGTTAATCCTCATGACGGCACACCGCTTGCCGATGGTGAACATGGCGAACTGTTATTCACCACGCTG +ACCAAAGAAGCATTGCCGGTCATTCGTTACCGCACGCGTGATTTAACCCGACTGTTACCAGGAACGGCGC +GGACTATGCGCCGCATGGATCGCATCAGCGGACGCAGCGATGACATGTTGATTATTCGCGGTGTAAATGT +CTTTCCGTCACAACTGGAAGAAGAGATTGTCAAATTCGAACATTTATCGCCGCATTACCAACTGGAGGTG +AACCGCCGGGGGCATCTTGATTCACTTTCTGTGAAAGTGGAGTTGAAAGAAAGTAGCCTGACATTGACGC +ATGAGCAGCGTTGCCAGGTATGCCACCAGCTGCGCCATCGGATTAAGTCGATGGTGGGGATCTCTACCGA +TGTGATGATCGTTAACTGTGGCAGTATCCCGCGTTCAGAAGGCAAGGCGTGTCGGGTGTTTGATCTGCGC +AATATTGTTGGTGCCTGACGTATCGTCTGGCCCTGGTGGGGTAAAGCGCCAGGGCCAGAAGTCGATACGA +CCTGTGCTATGATTCATAAATCACAACAATAACAACAGACTGAAGCGAATGAGTAAACTTGATACTTTTA +TCCAACATGCTGTAAACGCTGTTCCGGTCAGTGGCACATCTTTGATCTCCTCTCTGTATGGTGATTCGCT +TTCCCATCGTGGTGGTGAAATCTGGTTGGGTAGTCTGGCTGCTTTGCTGGAAGGGCTGGGATTTGGTGAG +CGTTTCGTGCGCACCGCTTTGTTTCGTCTTAATAAAGAAGGCTGGCTGGATGTTTCCCGCATCGGGCGAC +GCAGTTTCTATAGCCTCAGTGATAAAGGCTTGCGCCTGACGCGACGGGCAGAAAGTAAAATTTATCGCGC +AGAGCAACCTGCATGGGATGGTAAATGGCTCCTGTTGCTCTCGGAAGGTTTAGATAAATCAACGCTGGCT +GATGTCAAAAAGCAGTTGATCTGGCAAGGTTTTGGCGCACTGGCACCCAGCCTGATGGCATCGCCGTCGC +AAAAACTGGCCGATGTACAGACACTTTTGCATGAAGCGGGTGTGGCGGATAACGTGATTTGTTTTGAAGC +GCAAATACCACTGGCGCTTTCTCGCGCAGCACTGCGTGCCAGAGTAGAAGAGTGCTGGCATTTAACTGAA +CAAAATGCCATGTACGAAACCTTTATTCAGTCATTCCGCCCGCTGGTGCCGCTTTTAAAAGAGGCGGCAG +ACGAGTTAACCCCGGAGCGGGCATTTCATATTCAGCTTTTACTGATCCATTTTTATCGCCGTGTCGTCCT +TAAAGACCCATTGTTGCCGGAGGAGTTGCTTCCGGCACACTGGGCAGGGCATACGGCGCGTCAGCTGTGT +ATCAACATTTATCAGCGCGTAGCGCCTGCTGCTTTAGCGTTCGTTAGTGAAAAAGGTGAAACCTCGGTCG +GTGAACTGCCTGCGCCGGGAAGCCTGTATTTTCAACGTTTTGGCGGCTTGAATATTGAACAGGAGGCGTT +ATGCCAATTTATCAGATAGACGGTCTGACTCCGGTTGTGCCAGAAGAGAGTTTTGTCCATCCGACAGCGG +TATTGATCGGCGATGTTATTCTCGGCAAGGGCGTTTACGTTGGGCCAAATGCCAGCCTGCGTGGCGATTT +TGGTCGTATCGTGGTGAAAGATGGCGCGAACATTCAGGATAATTGCGTTATGCACGGTTTTCCCGAGCAG +GATACTGTTGTAGGAGAAGATGGACATATTGGTCATAGCGCTATCCTTCACGGCTGCATTATCCGCCGCA +ATGCATTAGTGGGAATGAACGCGGTAGTGATGGACGGTGCGGTGATTGGCGAGAACAGCATTGTTGGTGC +ATCCGCATTTGTGAAAGCCAAAGCAGAAATGCCAGCTAATTACCTGATTGTCGGCAGCCCGGCGAAAGCG +ATTCGTGAACTCAGTGAGCAGGAGTTGGCATGGAAAAAGCAGGGTACGCATGAGTACCAGGTGCTGGTGA +CACGCTGTAAGCAGACGTTACATCAAGTCGAGCCATTGCGGGAAATTGAACCTGGCAGGAAACGCCTGGT +ATTTGATGAGAATCTGCGACCGAAACAGTAACAGATGTAAAATTATTTTGTCCCTTTAATTATAAAGCAG +AGTTATGTTTAAGCTCTGCTTTATTTATTTGAGTATTAATTCATACCGTTTTTTCATCATATAATTATTT +ATAATGAGAATGTGGTTTTAATTTGTAATTTATATTATATACACAATTTATATATTTCATGGTCTTTTTT +TATTCACCTGAATTATAATTGTGAATTATAGGAAAGTATGTTTGATTAGATAATAATCTACTGGCAATAT +TGGATGTCTTCTATGTTTTAAATAACTAATTGGTCGGGTTAGTGCATCCGGCTTTCTTTATATTCGCCAG +AAGGATTTATTATGCAAAGGAAAACTCTATTGTCGGCCTGTATTGCATTAGCTCTGAGTGGTCAGGGTTG +GGCGGCAGATATCACAGAGGTAGAAACCACCACAGGTGAAAAGAAAAATACCAATGTGACTTGTCCGGCA +GACCCAGGAAAACTCAGTCCGGAAGAGCTTAAACGCTTACCCTCTGAATGCTCTCCTTTAGTCGAACAAA +ACCTGATGCCATGGCTTTCCACAGGCGCTGCTGCGTTAATCACGGCCTTAGCCGTAGTGGAACTAAACGA +CGATGATGATCATCATCATCGCAACAATTCTCCACTCCCACCGACACCCCCTGATGATGAATCAGACGAC +ACTCCAGTTCCCCCAACTCCTGGCGGAGATGAGATAATACCGGACGATCCGGATGATACGCCTACACCTC +CCAAACCGGTTTCGTTTAATAATGACGTTATTCTCGATAAAACAGAAAAAACGTTAACTATTCGCGATTC +AGTTTTTACTTATACCGAGAATGCTGACGGGACTATATCTCTGCAAGATAGCAATGGTCGTAAGGCAACG +ATTAATCTTTGGCAGATTGATGAAGCGAATAACACTGTTGCCCTTGAAGGGGTGAGCGCAGATGGCGCAA +CGAAGTGGCAATATAATCACAACGGTGAGCTTGTTATTACGGGTGATAATGCCACAGTAAACAACAATGG +CAAAACCACCGTTGACGGTAAAGATTCCACCGGTACGGAAATCAACGGTAATAACGGGAAAGTGATTCAG +GACGGCGATCTGGATGTCAGCGGCGGCGGTCACGGTATTGATATCACCGGTGACAGCGCGACGGTGGATA +ACAAGGGCACCATGACCGTCACCGATCCGGAGTCCATGGGTATCCAGATCGACGGTGACAAGGCCATCGT +CAATAACGAAGGCGAGAGCACCATCACCAACGGTGGCACCGGCACCCAGATTAATGGTGATGACGCCACG +GCAAACAACAACGGCAAAACCACCGTTGACGGCAAGGATTCCACCGGTACGGAAATCAACGGTAATAACG +GAAAAGTTATTCAGGACGGCGATCTGGATGTCAGCGGCGGCGGTCACGGTATTGATATCACCGGCGACAG +CGCAACGGTGGATAACAAGGGCACCATGACCGTCACCGATCCGGAGTCCATCGGTATCCAGGTTGACGGC +GACCAGGCGGTTGTTAACAACGAAGGCGAGAGCGCCATCACCAACGGTGGCACCGGCACGCAGATTAACG +GTGATGACGCCACGGCAAACAACAACGGCAAAACCACCGTTGACGGCAAGGATTCCACCGGTACGGAAAT +TGCTGGCAATAACGGGAAGGTGATTCAGGACGGCGATCTGGATGTCAGCGGCGGCGGTCACGGTATTGAT +ATCACCGGCGACAGCGCAACGGTGGATAACAAGGGCACCATGACCGTCACCGATCCGGAGTCCATCGGTA +TCCAGATTGACGGCGACCAGGCCATCGTCAATAACGAAGGCGAGAGCACTATCACCAATGGCGGCACCGG +CACTCAGATCAACGGTAACGACGCCACCGCGAATAACAGTGGAAAAACCACTGTTGATGGAAAAGATTCC +ACGGGTACCAAAATCGCGGGCAATATCGGCATTGTAAATCTGGATGGTAGCCTGACTGTTACAGGCGGTG +CGCATGGTGTTGAGAACATTGGTGACAACGGCACGGTTAACAACAAAGGAGATATTGTTGTTTCCGATAC +TGGATCGATTGGCGTGCTCATCAACGGTGAGGGGGCAACAGTATCCAATACGGGTGATGTTAACGTTAGC +AATGAAGCGACAGGGTTCAGCATCACAACCAACAGTGGGAAGGTTTCGCTGGCAGGCAGTATGCAGGTTG +GCGATTTCTCGACCGGGGTAGATCTTAATGGCAACAATAACAGCGTGACGCTGGCGGCAAAAGATCTAAA +AGTGGTCGGGCAGAAAGCGACGGGCATAAACGTTTCTGGCGATGCGAATACAGTGAATATCACTGGTAAC +GTTCTGGTTGATAAGGATAAAACCGCAGACAATGCGGCGGAATATTTCTTCGATCCATCCGTGGGTATCA +ACGTTTACGGCAGTGATAATAACGTGACGCTGGATGGAAAGTTAACTGTTGTATCAGACAGTGAGGTTAC +TTCTCGTCAGAGTAATTTATTTGATGGCAGCGCAGAGAAAACGTCAGGTCTGGTTGTGATTGGCGATGGC +AATACCGTTAATATGAATGGTGGACTTGAACTGATTGGAGAGAAAAACGCGCTTGCAGATGGGTCGCAGG +TTACTTCCTTGCGCACAGGATATAGTTATACCAGCGTTATTGTCGTTAGTGGTGAGTCGTCGGTATATCT +GAATGGAGATACGACAATCAGCGGAGAATTCCCTCTGGGGTTTGCCGGGGTTATTCGGGTACAGGATAAA +GCTTTGCTGGAAATTGGCAGTGGCGCTACGCTAACAATGCAGGATATTGACAGTTTTGAACATCATGGGA +CAAGAACCCTGGATTTGCCCCTATATTTCCAGACATCTGTTATCACTTAACCCATTACAAGCCCGCTGCC +GCAGATATTCCCGTGGCGAGCGATAACCCAGCGCACTATGCGGATGCCATTCGTTATAATGCTCGAACGC +CTCTGCAAGGTTCTTTGCTGCCGTTAACCCGTCTGGTTTGGGCATGATACTGATGTAGTCACGCTTTATC +GTTTTCACGAAGCTCTCTGCTATTCCGTTACTCTCCGGACTCCGCACCGCCGTGTTCTTCGGTTCAAGTC +CCAACATCCGGGCGAACTGGCGTGTTTCATTAGCCCGGTAGCATGAACCATTATCCGTCAGCCACTCCAC +TGGAGACGACGGAAGATCGTTGCCGAAGCGGCGTTCCACCGCTCCCAGCATGACGTCCTGTACTGTTTCA +CTGTTGAAGCCGCCGGTAGTGACCGCCCAGTGCAGTGCCTCACGATCACAGCAGTCCAGCGCGAACGTGA +CACGCAGTCTCTCTCCGTTATCACAGCAGAACTCGAACCCGTCAGAGCACCATCGCTGATTGCTTTCTTT +CACGGCCACTCTGCCTGTATGTGCCCGTTTCGATGGCGGTACAGCAGGTTTTCGCTCAAGCAACAGCGCA +TTCTGGCGCATGATCCGGTAAACACGTTTGGCATTGATCGCAGGCATACCATCAAGTTCTGCCTGTCTGC +GAAGCAGCGCCCATACCCGACGATAACCATACGTTGGCAGCTCTCCGATAACATGGTGTATACGGAGAAG +CACATCCGTATCATCAGTGTGACGACTGCGGCGGCCATCCATCCAGTCATCGGTTCGTCTGAGAATGACG +TGCAACTGCGCACGCGACACCCGGAGACAACGGCTGACTAAGCTTACTCCCCATCCCCGGGCAATAAGGG +CGCGTGCGCTATCCACTTTTTTGCCCGTCCATATTCAACGGCTTCTTTGAGGAGTTCATTTTCCATCGTT +TTCTTGCCGAGCAGGCGCTGGAGTTCTTTAATCTGCTTCATGGCGGCAGCAAGTTCAGAGGCAGGAACAA +CCTGTTCTCCGGCGGCGACAGCAGTAAGACTTCCTTCCTGGTATTGCTTACGCCAGAGAAATAACTGGCT +GGCTGCTACACCATGTTGCCGGGCAACGAGGGAGACCGTCATCCCCGGTTCAAAGCTCTGCTGAACAATT +GCGATCTTTTCCTGTGTGGTACGCCGTCTGCGTTTCTCCGGCCCTAAGACATCAATCATCTGTTCTCCAA +TGACTAGTCTAAAAACTAGTATTAAGACTATCACTTATTTAAGTGATATTGGTTGTCTGGAGATTCAGGG +GGCCAGTCTAAACCCCAGAACTTACTTATGCTGATTCCGGTGCGAAAATTGTTAATAAAGGTACTTGTAG +ATTCAATTGGTCAACGCAACAGTTATGTGAAAACATGGGGTTGCGGAGGTTTTTTGAATGAGACGAACAT +TTACAGCAGAGGAAAAAGCCTCTGTTTTTGAACTATGGAAGAACGGAACAGGCTTCAGTGAAATAGCGAA +TATCCTGGGTTCAAAACCCGGAACGATCTTCACTATGTTAAGGGATACTGGCGGCATAAAACCCCATGAG +CGTAAGCGGGCTGTAGCTCACCTGACACTGTCTGAGCGCGAGGAGATACGAGCTGGTTTGTCAGCCAAAA +TGAGCATTCGTGCGATAGCTACTGCGCTGAATCGCAGTCCTTCGACGATCTCACGTGAAGTTCAGCGTAA +TCGGGGCAGACGCTATTACAAAGCTGTTGATGCTAATAACCGAGCCAACAGAATGGCGAAAAGGCCAAAA +CCGTGCTTACTGGATCAAAATTTACCATTGCGAAAGCTTGTTCTGGAAAAGCTGGAGATGAAATGGTCTC +CAGAGCAAATATCAGGATGGTTAAGGCGAACAAAACCACGTCAAAAAACGCTGCGAATATCACCTGAGAC +AATTTATAAAACGCTGTACTTTCGTAGCCGTGAAGCGCTACACCACCTGAATATACAGCATCTGCGACGG +TCGCATAGCCTTCGCCATGGCAGGCGTCATACCCGCAAAGGCGAAAGAGGTACGATTAACATAGTGAACG +GAACACCAATTCACGAACGTTCCCGAAATATCGATAACAGACGCTCTCTAGGGCATTGGGAGGGCGATTT +AGTCTCAGGTACAAAAAACTCTCATATAGCCACACTTGTAGACCGAAAATCACGTTATACGATCATCCTT +AGACTCAGGGGCAAAGATTCTGTCTCAGTAAATCAGGCTCTTACCGACAAATTCCTGAGTTTACCGTCAG +AACTCAGAAAATCACTGACATGGGACAGAGGAATGGAACTGGCCAGACATCTAGAATTTACTGTCAGCAC +CGGCGTTAAAGTTTACTTCTGCGATCCTCAGAGTCCTTGGCAGCGGGGAACAAATGAGAACACAAATGGG +CTAATTCGGCAGTACTTTCCTAAAAAGACATGTCTTGCCCAATATACTCAACATGAACTAGATCTGGTTG +CTGCTCAGCTAAACAACAGACCGAGAAAGACACTGAAGTTCAAAACACCGAAAGAGATAATTGAAAGGGG +TGTTGCATTGACAGATTGAATCTACACTGTTGAAATTCAGAATTTAGGTTTTGCTTTTGTTACTGGTGAA +AATACAACAGGTATAAATAGTGGCACGATCTCGTTATTACAAAATGGTAAAGATCCGGCACCGTCTCCCA +TTGTTTTACTGGCTACTAACGGAGGGAGCGCCACTAATGCAGGTACGATCACAGGTAAAGTGACGGAACA +ACATAGCGTATTTAACAAGTATTCAACGGGCACATCGAATTCATTTATTTTTAATAACGATGTCAGTAGC +ATAACAGGGTTAGTCGCTCAATCGAATAGCACAATTATCAATACTGACAGCGGCATCATTGATTTGTATG +GTCGTGGTAGTGTCGGCATGCTTGCTATAGCAGATTCAACAGCAGAAAATCAGGGTAAAATTACACTGGA +TTCTATGTGGGTAGATGCAAATGACACTACCGCAATGCGAGATATAGCTAGCAACAGCGCCATTGACTTC +GGTACAGGTGTGGGAGTTGGTACTGATAGTTATAGTGGTGCAGGGAAAAATGCAACAGCAATTAACCAAT +TGGGCGGTGTTATAACTATTTATAACGCCGGCGCAGGTATGGCGGCCTATGGCGCCAGCAATACAGTTAT +TAACCAGGGGACGATTAACCTCGAAAAAAATGGTAATTATGACGATAGTCTGGCAGCAAATACTCTGGTA +GGGATGGCTGTTTATGAGCATGGTACTGCTATCAACGACCAGACGGGTGTTATCAATATCAATGTTGGTA +CTGGTCAGGCGTTTTATAACGATGGCACAGGAACAATTGTTAACTATGGTACAATCTGCACTTTCGGCGT +GTGCCAATCGGGGAATGAGTACAATAATACAGATGATTTCACCTCACTGATCTATACCGGTGGCGATACG +ATTACACGAAGCGGAGAAACTGTAACGCTAAATAAATCTGCTGCTGTGACTGATAAGCTGGCTGGGAATG +TTGTTAATAGCGGAACGCTTTCCGGTGATCAAATTACGGTATCAAGCGGTCTTCTGGAAAATACCAGCGG +TGGCATCATCAATAACTTAGTAAAACTTGACAAGGGTGCCGTCATTAAAAATGCCGGGGTGATGACGAAT +AACGTCGATGTTAGCGGTGGAATCCTCAATAATGCCGGAGAAATGACTGCGCAAATTACCATGAATGCTG +GTGCTGATAGTTCGTTAGTGAACAACACCGGAACCATCAATAAAATCGTGCAGAACGCGGGGGTATTCAA +TAATAGTGGCAGTGTAACAGGGCGGATGATGTCGGCTGGCGGGGTCTTTAATAATCAAACTGACGGGGCG +ATTATGAGAGGTGCTGCGCTGACAGGTACTGCAGTGGCAAATAACGAAGGAACCTGGAACCTCGGAAGTA +GTAGTGAGGGTAACAACACCGGGATGCTGGAAGTTAATAATAATTCAGCTTTCAATAACCGCGGCGAGTT +TATTCTTGATAACGACAAGAATGCTGTGCACATCAACCAGTCCGGTACGCTTTATAATACCGGTCACATG +AACATCAGTAATTCTTCCCACAACGGAGCCGTTAATATGTGGGGCGGAAATGGTCGTTTTATCAATGACG +GAACGATTGATGTTTCTGCGAAGTCACTGGTAGTCAGCGCTAATAATGCCGGCGATCAGAATGCCTTCTT +CTGGAACCAGGATAACGGGGTCATCAACTTCGATCACGACAGCGCCAGTGCCGTGAAAGTCACCCACAGC +AACTTTATTGCCCAGAATGACGGCATCATGAACATCAGCGGCACCGGTGCTGTGGCTATGGAAGGTGATA +AGAACGCGCAGCTGGTTAACAATGGCACCATCAACCTCGGTACCGCAGGCACTACTGACACGGGTATGAT +CGGTATGCAACTCGATGCCAACGCCACGGCGGATGCGGTAATCGAAAACAACGGCACCATCAATATCTTC +GCCAATGACTCGTTTGCATTTAGCGTACTGGGTACAGTAGGTCATGTGGTTAACAACGGCACGGTGGTGA +TTGCCGATGGGGTTACGGGTTCTGGACTGATCAAGCAGGGCGACAGCATCAATGTTGAAGGTATGAACGG +TAACAACGGTAATAGCAGCGAAGTGCATTATGGCGACTATACGTTGCCGGATGTGCCGAAGCCCAATACG +GTTAGTGTAACGTCGGGAAGTGATGAGGCTGGTGGCAGCATGAACAACCTCAACGGCTATGTCGTCGGTA +CCAACGTTAACGGCAGCGCCGGGAAGCTGAAGGTTAACAATGCCAGCATGAACGGCGTGGAGATTAACAC +GGGCTTTACCGCTGGTACGGCAGACACCACTGTGAGTTTTGATAACGTAGTGGAAGGTAGCAACCTGACC +GACGCTGACGCCATCACCTCAACGTCCGTGGTATGGACTGCCAAAGGCAGCACCGATGCCAGCGGTAACG +TTGACGTCACCATGAGCAAAAATGCCTACACCGATGTGGCAACAGATGCCTCGGTGAATGACATCGCGAA +AGCACTGGATGCGGGTTACACCAACAACGAACTGTTTACCAGCCTGAACGTCGGCACGACTGCTGAACTG +AACAGTGCTCTGAAACAGGTCAGCGGTAGCCAGGCGACCACGGTATTCCGCGAAGCGCGCGTGTTAAGCA +ACCGCTTTAGTATGCTGGCAGATGCCGCGCCGAAAGTGGGTAACGGTCTGGCGTTCAACGTTGTCGCGAA +AGGCGATCCGCGTGCCGAGTTAGGTAATAATACCGAATACGACATGCTGGCATTGCGTAAAACTATCGAC +CTGAGCGAAAGCCAGACGATGAGTCTGGAGTACGGTATCGCTCGTCTCGATGGTGATGGTGCGCAGAAAG +CGGGTGATAATGGCGTTACAGGCGGTTATAGCCAGTTTTTTGGCCTGAAACATCAGATGTCGTTCGATAA +CGGCATGAACTGGAATAACGCCTTGCGTTACGACGTTCACAACCTTGACAGCAGCCGCTCGATTGCATTT +GGCAACACGAACAAAACGGCTGATACCGACGTGAAACAGCAGTACCTGGAGTTCCGCAGCGAAGGGGCGA +AGACTTTCGAACCGAGCGAAGGACTGAAGGTTACGCCATATGCGGGTGTAAAACTGCGTCACACACTGGA +AGGTGGCTATCAGGAGCGCAATGCCGGAGACTTTAACCTGAATATGAACAGTGGCAGCGAAACGGCGGTG +GACAGCATCGTCGGGCTGAAACTGGACTACGCAGGTAAAGACGGCTGGAGCGCTAGCGCTACGCTGGAAG +GCGGGCCGAACCTGAGCTACGCGAAGAGCCAGCGTACGGCAAGCCTGGCAGGCGCAGGCAGTCAGCACTT +TAACGTCGATGACGGTCAGAAGGGCGGCGGCATCAATAGCCTGACAAGCGTCGGCGTGAAGTACAGCAGC +AAAGAAAGTTCGCTGAATCTGGATGCGTACAACTGGAAAGAGGATGGCATCAGCGATAAAGGCGTGATGC +TGAACTTCAAGAAAACGTTCTAATTTTTAGCATGTGATCCCTAAACCGCAACGCTGATACAGGTTGCGGT +TTTTTTATTGCCGGATGTGGTACGTGACGCGTTTTGTTTTGTGTCTTTCAGGACAATAGAGCAACTCATC +CAGTAATCTTGTTTACACCTTCGCATTATTTATCTCTTTTCGTTTCTATACTGATTTTTCTTAATCCGTT +TTATTACAGGGCAGGGTGCGATGAGCAGCAATACATTTACTCTCGGTACAAAATCCGTTAACCGTCTTGG +TTATGGCGCGATGCAACTGGCAGGTCCTGGAGTTTTTGGCCCCCCACGAGATCGCCACGTCGCTATAACC +GTGCTGCGTGAGGCGCTGGCATTGGGCGTCAATCATATTGATACCAGCGACTTTTATGGTCCGCACGTCA +CCAATCAGATTATCCGCGAAGCGCTTTATCCTTACTCTGACGACCTGACAATTGTCACTAAAATTGGTGC +GCGGCGTGGAGAGGACGCATCCTGGTTGCCCGCATTTTCTCCGGCAGAGCTGCAAAAAGCGGTGCACGAT +AATCTACGTAATCTCGGGCTGGACGTGCTGGATGTGGTTAACCTGCGCGTTATGATGGGGGATGGTCATG +GCCCAGCGGAAGGATCGATTGAGGCCAGCCTGACCGTGCTGGCAGAGATGCAACAACAAGGCCTGGTAAA +ACATATTGGCCTGAGCAACGTCACACCGACGCAGGTTGCAGAGGCGCGCAAGATTGCCGAAATTGTCTGT +GTGCAAAACGAATACAACATCGCGCACCGTGCTGATGATGCAATGATTGATGCTTTGGCCCACGATGGCA +TTGCCTACGTGCCGTTCTTCCCGCTCGGGGGCTTTACACCGCTGCAATCGTCCACACTTTCCGATGTTGC +TGCGAGCCTGGGTGCAACACCAATGCAGGTGGCGCTGGCGTGGCTGTTACAGCGTTCACCGAATATTTTG +CTGATCCCAGGGACGTCTTCGGTTGCGCATTTACGGGAGAATATGGCTGCTGAAAAATTGCATCTTTCTG +AGGAAGTGTTGTCTACGTTGGATGGTATTTCGCGAGAATAACGAATATACAAAAGGGAAAGATGCATTTC +CCTTTTTTTCTTTTTTAATGGCATGGAGTGCATATGTTGAAGGCCAGGAATTGCGGCTGGATACGTTTAC +TGCCCCTGTTTATGCTGAGTCTACCAGTACAGGCGGAACTTCGATGTGTTGCAAATGCAGTTGATATTGA +ATCATTTTTTTCTGCGGCTACCGCTGAAGATAAACAACAAGTTGAACAAGCTATCAACAGTAGCGTGAAT +CTTGTCCCCTTCGGTTTATCTGCATCGAACTGGAAAGTGCATCGTGGCGATTTAGTGGTAGAAGGTAATA +TAGAGAGTAATCAAAAATTGATTGTTCTTGGGAATTTGACAGTCAAAGGTAATATTTCCACTTTCTCTCT +TTCTAATCCATGGGTTATTCTCGGTAACGTGACGGCAACGAATATAGTTGCGGATTCACCACTGTTAATT +ACCGGTTCGATAAATGCAAGTGGACTGGTATTTATCGACTCATATTACGATAATCCGTCTACGATTAAGG +GGAGTATTAATGCGCGTGGGATATTTATCAATGACATAATTGCACCTGTTGTTGCGTCTTCGACAAATAG +TGAATTCATGGTCCGTGCGAGTGACAAACATGACACTGAAAATGTCAAAAAAGCGCTGATGATAATAAAT +CCTGATGCATATTATTGGGGGCTAATTAATGATGAAGATGCTCTGAAAGAAATTTTTAAGCGAAGCAATA +TTCGCATGGCAGGGAATGTCTGTAATCAGATGAAAAAAGAAGCGCTGTTTCGCCCTAAGCCTTCTCCTGA +GTTAGTGCAAGAATTGCAAATGCTGGATGAAGGCAAAGTTGCTGCATTTGAAGGACGAGACATTGCGACA +TTTGATCTTGCCGTAATGCGAACTCTCCCAAGGCTTAAAGGAATTTCAGCTAACCTACGCAAACAACTTA +TTAATAGCAATGATGAACAAACGATTGAAAGTATGGCGAGATATATGCCTGACAATGAGATTCTGGAGTT +GACCGATCAGCAATTGGGTTACCAGCCTGTTGTTCTGGGGTTGCTCGACCGTGAACCGCTCTCTGTCGAA +ATAATGACGCGAATGAGTCGTCTACCTGATGGTGTCGGTCCGTTGAATCTTGCGCTACGTGAAAATCTCC +CTCTGGATATCGTCATGACTCTGGCGAAAAGAGATTGGGATATGATCATTCAGGAGCTTTATAAAGATGC +GTGGTTATTGCCTGAATCCATTATTGATGGCTATATCCGCAGTGATGATTCCTCTATTCGTCAGGTCGGT +GCTGGAGGACAACTCACCTACAATCAGGCAATGCAGTTGGCGAACGATTCATCAAACAATGTTGTCACAA +GCTTAGCGTTCAAGCTGGCAGAGATGAAACACCATGGTCAATTGTTGCGGATGACGCCACAAGAGAGTGA +CAAAGTTGCAGGCTATTTATACCAAAAATTCGAGAATGACGATGATCTAATACGTGTGTTATTTTTAGCA +TTGCCAGATAACTTACAGTTTAATTTTGTTAAAAGGATGGAGAAAAAATCCCCGGCCTACTTTTGCTGTC +GGGATATGCAGGTAATTCACTCTGACGCTGCTTTACAACGGTTATTGACACGTTTCAACGATCCTGAAGG +GTGGAGTAATCTGGCGAAAAATCAGTATCTGAGCACGTCGATGAAACAAAAAATTTGGCAACGTGCTTTA +TCGCATCGGAAAAATAATCCGAAAGCAGATTCAGATGCATATGAAACCAGCGCTGATATGATTTTGTCTG +AGCTGATTAGCCACGGCGAAGTTGATGACCAGATGCTATTAAATGCCACCGCCCTGATACGTTCGGACGA +CTGGGACTTTTTAGAGAGTGCATTAATTAGTTGGGATAATTTACCCGCTGTTGTTCTCAAGGAATTACAG +CAAAACACGCCACGCAATGATATTTGGGCGAAGTTTTTTCTGAGGCAGGAAAACAGTTCCCGTGCGCAGG +TTGACGAAGCGTTACGTGTTTATTATGCACTAGACCCCGATGCGTTAGCACAACTGGATGTACTGGCAAA +ACAACCGGATCGTATATGGTGGAGTACACTGGCGAAAAGCAATCTCACATTTTTCAAGTTCGGCGCACTT +AACAACCGCCACACACCGCCTGCAGTACTGGCGGCAGAAATTGATCCCGAGTGGTGGATTGTGGCGATGA +ATAATCCCCGTTTTCCAGTTGATGTATTAAAGGCGAGGCTGAAACGTGATCCTTTGCTGGCGTTAGAGCT +TGTTAACCCTGAACTGGATTTAGTCCGCCAGCTGGCGCTTAACGGTAAGACGCGCGCAATACGGGAACAA +GCGATGAGAAAACTTGATGAGTTGTATTGATCCACAACGTAATGTTTTTTAACTATCTGATTAATTGGGG +ATAATCATTCCTGACAGTGAGTCCCCAATACCTTGATATATTCTGAATTTTTAATGAAACGGCGTGTTGC +GATATCTCCGTCAGGGGAATTGATGCACCATAGCGCAAACCGAATTATCAAGGATTGATAATGACGCTCT +ACCAGATAAAACCGCTCTTTCAGTCGCTGTTAAGGCCGACGATGTTTTGGCTTTATAAGCACCACGTTAC +AGCGAATCACATCACTCTTGCTGCACTGGCGCTTTCTCTTCTTACCGGATTGCTGTTGATGTTGGCGGCA +CAACCCATCCTCTTTTTGCTATTGCCCATCGTGCTTTTTATCCGTATGGCGCTCAATGCGCTGGATGGCA +TGTTGGCGCGTGAGTGCAACCAGCAAACACGTCTGGGGGCGATTTTGAATGAGACTGGCGATGTTATTTC +CGATATTGCGCTCTATTTACCATTTTTATTTTTACCGGAAAGTAACGCATCACTCGTGATACTCATGTTA +TTTTGCACCATATTGACCGAGTTTTGCGGTTTACTCGCGCAGACGATTAACGGTGTTCGCAGTTATGCCG +GTCCATTTGGCAAAAGCGATCGCGCGTTAATATTTGGTCTGTGGGGTCTGGCCGTTGCCATTTATCCACA +GTGGATGCAGTGGAATAATCTTTTATGGAGCATTGCTTCAATTCTGCTTCTCTGGACTGCGATTAATCGT +TGTCGGAGTGTGCTTCTTATGAGCGCTGAAATATAATGCTGGAAAAATCTCTGGCAACACTTTTCGCGTT +GTTAATTTTAGCAACGCTGATAAACCGTTTTCTGCTATGGCGGTTACCGGAGAGAAAAGGGGGTGAGGTT +ACATTACGTATTCGTACCTGGTGGGGCATCGTCATTTGTTTTTCAATGGTGATTTCAGGTCCACGCTGGA +TGACGTTGACGTTTTTTGCGCTGATAAGTTTTCTGGCATTGAAAGAATATTGTACGCTTATATCTGTACA +TTTTCCGCGTTGGTTATATTGGGGTATTCCTCTTAACTATTTGCTTATCGGTTTTAATTGCTTTGAGCTG +TTTCTGTTATTTATACCTTTGGCTGGGTTTCTGATATTAGCCACCGGGCAAGTTTTAGTGGGTGACCCCT +CTGGTTTTCTGCATACCGTGAGCGCCATTTTTTGGGGCTGGATAATGACCGTTTTCGCCTTGAGTCATGC +CGCCTGGTTATTAATGTTGCCAACCACAAATATCCAGGGCGGGGCGTTACTGGTGTTATTTCTTTTGGCA +TTAACCGAGTCAAACGATATTGCACAGTATTTATGGGGAAAATCCTGCGGCAGAAGAAAAGTGGTCCCTA +AAGTCAGCCCGGGAAAAACATTGGAAGGTCTGATGGGCGGCGTCATCACCATCATGATTGCGTCACTGAT +TATCGGACCGTTACTGACACCGCTAAATACATTACAGGCATTATTAGCGGGTTTGTTAATTGGTATTAGT +GGTTTTTGCGGCGATGTCGTGATGTCAGCCATCAAACGAGATATTGGTGTTAAAGATAGCGGAAAACTAT +TGCCAGGACATGGCGGACTCCTTGACAGGATTGACTCATTAATTTTCACCGCTCCGGTATTTTTTTATTT +TATACGCTACTGCTGTTACTGAAGGAAAATAGAGAAAATGGAAAATTCACGCATCCCTGGGGAACATTTT +TTTACCACCAGTGATAATACAGCGTTGTTTTATCGGCACTGGCCCGCTTTACAGCCCGGGGCGAAAAAGG +TCATCGTCTTATTTCATCGCGGGCATGAACATTCTGGTCGTCTACAACATCTCGTTGATGAACTGGCGAT +GCCAGATACTGCTTTTTATGCCTGGGATGCCCGAGGGCATGGAAAAAGTTCGGGGCCGCGTGGTTATAGC +CCATCTCTTGCGCGTTCAGTGCGGGATGTCGATGAATTTGTCCGTTTTGCTGCCAGCGACAGCCAGGTTG +GACTGGAAGAGGTGGTAGTGATCGCGCAAAGCGTCGGCGCAGTGCTGGTTGCCACATGGATTCATGATTA +TGCACCTGCAATTCGCGGGCTGGTGCTGGCTTCTCCGGCCTTTAAGGTTAAATTGTATGTGCCGCTGGCA +CGTCCTGCGCTGGCGTTATGGCATCGTCTGCGTGGTCTGTTTTTTATTAATTCCTATGTGAAAGGACGCT +ATTTGACCCACGATCGGCAACGGGGGGCGAGTTTCAATAATGATCCGCTGATCACACGGGCGATTGCCGT +TAATATCTTGCTCGATCTCTACAAAACGTCTGAACGTATTATTAGAGATGCGGCGGCGATTACGCTCCCC +ACGCAACTTCTGATATCAGGCGATGACTATGTGGTGCATCGCCAACCGCAGATTGATTTTTATCAGAGAT +TACGTAGCCCTCTGAAAGAGCTGCATCTGCTGCCAGGCTTTTATCACGACACGTTGGGTGAAGAGAACAG +GGCGCTGGCATTTGAAAAAATGCAAAGCTTTATTAGTCGTTTATATGCTAACAAATCGCAAAAATTTGAT +TATCAGCATGAAGACTGCACAGGACCATCAGCGGATCGATGGCGGCTACTTTCTGGTGGACCCGTGCCAT +TATCGCCGGTTGATTTAGCGTATCGCTTTATGCGAAAGGCGATGAAATTGTTCGGGACGCACTCTTCGGG +CCTGCATCTCGGAATGAGCACCGGCTTTGATTCAGGCAGTTCGCTGGATTATGTCTATCAAAATCAACCG +CAAGGTAGTAACGCATTCGGGCGTTTAGTCGACAAAATCTACCTGAACAGTGTTGGCTGGCGCGGTATTC +GCCAGCGCAAAACCCATTTACAAATACTGATTAAACAAGCCGTTGCCGATCTCCACGCCAAAGGTTTAGC +CGTCCGCGTGGTTGACATTGCCGCAGGGCATGGGCGCTATGTACTGGATGCGCTGGCAAACGAGCCTGCC +GTAAGCGATATTTTGTTACGTGATTACAGCGAGTTAAATGTTGCACAGGGGCAAGAGATGATTGCTCAAC +GGGGAATGTCTGGGCGGGTGCGTTTTGAACAGGGCGATGCGTTTAACCCGGAGGAACTCAGCGCGTTAAC +TCCGCGGCCTACGCTGGCGATTGTCTCTGGCCTGTATGAGCTTTTTCCCGAAAATGAGCAGGTAAAAAAC +TCACTCGCAGGTCTTGCCAATGCCATCGAACCGGGCGGCATTCTCATCTACACCGGGCAGCCGTGGCACC +CTCAACTGGAGATGATTGCCGGGGTGTTAACCAGTCATAAAGATGGTAAACCGTGGGTAATGCGCGTGCG +TTCGCAAGGGGAGATGGATTCACTCGTGCGTGATGCCGGATTTGATAAATGCACACAACGGATTGATGAG +TGGGGTATTTTTACGGTTTCGATGGCGGTGCGTCGTGATAACTGAACGTCGGAACGTATTGCTACAAGGC +GCTGGCTGGTTATTGTTGCTGGCCCCGTTTTTCTTCTTCACCTATGGATCTCTTAATCAGTTCACCGCGG +TTCAGGACCTTAACAGCCATGATATCCCCAGTCAGGTATTCGGTTGGGAAACGGCGATCCCTTTTCTTCC +CTGGACTATTGTTCCTTACTGGAGTCTGGATCTTTTATATGGATTTTCGCTGTTCGTTTGTAGCACGACA +TTCGAACAGCGCCGACTTGTCCACCGGCTTATTCTGGCAACGGTAATGGCCTGCTGCGGTTTTTTGCTCT +ATCCGCTGAAGTTTAGTTTTATCCGTCCTGAAGTGAGTGGGGTGACGGGATGGCTATTTTCGCAACTTGA +ACTGTTTGATCTGCCTTATAACCAGTCTCCTTCGCTGCATATTATTCTCTGCTGGCTACTTTGGCGTCAC +TTTCGTCAGCATCTGGCTGAGAGGTGGCGTAAAGTCTGCGGCGGATGGTTTTTACTCATCGCCATTTCGA +CGCTGACGACCTGGCAGCATCATTTTATTGATGTCATCACAGGGCTGGCGGTAGGTATGTTGATTGACTG +GATGGTGCCCGTCGACCGTCGTTGGAATTATCAGAAACCTGATCAACGTCGAATCAAAATAGCACTGCCC +TATGTCGTAGGCGCGGGCTCGTGCATTGTATTGATGGAGCTAATGATGATGATTCAGTTATGGTGGTCAG +TCTGGTTATGTTGGCCAGTATTATCGCTACTCATAATTGGCCGTGGGTACGGTGGGCTTGGCGCGATAAC +AACAGGGAAAGATAGTCAGGGGAAACTACCGCCCGCCGTTTACTGGCTGACATTGCCCTGCCGCATCGGG +ATGTGGCTGTCTATGCGTTGGTTTTGTCGTCGCCTGGAGCCGGTGAGCAAAATGACTGCTGGTGTTTATT +TAGGGGCGTTTCCACGACATATTCCGGCACAGAATGCGGTTCTGGACGTCACCTTTGAATTCCCTCGCGG +ACGAGCCACAAAAGATCGACTCTATTTTTGTGTACCGATGCTGGATCTGGTGGTTCCGGAAGAGGGGGAG +CTCCGACAGGCCGTGGCGATGCTGGAAACATTACGCGAAGAGCAAGGCAGCGTTCTGGTCCATTGTGCAT +TGGGATTATCGCGCAGTGCGCTGGTGGTGGCGGCATGGTTGTTATGTTACGGACACTGTAAAACCGTTAA +TGAAGCGATTAGCTATATTCGAGCCAGACGCCCGCAGATTGTGCTGACAGACGAGCACAAAGCGATGCTG +AGATTATGGGAAAACAGGTAAGTGGATTGAGATGTGGACTGAATATCTACAGTCCACATCAAGACCGTGT +CCGGTTATGCAGAAACAATGCTGTCGATGGCTGCTTTTGCGTCAGACTGTGCTTTCGCTGCCATTTCCGG +ACCGTATGCGATCCCTTCGGCGAAGACAAATTTCACATCGGTAATGCCGATAAAGCCGAGGAACGTGGAC +AGATACGGCGTCACCAGGTCCGTTGGTCCATCTTTGTGGATCCCGCCGCGGCTGGTAATAACGATGGCTT +TTTTACCCGTTACCAGACCTTCCGGACCGTTCTCGGTATAGCGGAAAGTAACGCCTGCGCGGGCAACCAG +GTCAAAATAGTTTTTCAACTGAGTCGAGATGTTGAAGTTATACATCGGTGCCGCAATAACGATAACGTCG +TGGGCTTTCAGCTCGGCAATCAACTCATCGGAAAGTGCCAGAGCTTCCTGCTGACGCGGAGTCAGCGGCG +CATCGCTCGGACGCAGAGCGCCAACCAGTTCGCCATCCAGTACCGGAATCGGATTTGCAGCCAGGTCGCG +AACGGTGATTTCATCAGCGGAGTGCTTTTCGCGCCATTGTTCAACAAAATAATCGGACAACTGATTAGAC +TGAGAGTACCCTGCCAGGATGCTGGATTTAAGAACTAATACCTTGCTCATGGTGTTTCCTTATAGATGTT +TGAATGGGCGATGCCCCGTTGCTTGTTGACACTTTATTCACAATCCTGCCACAGAGATAGCGCAATAAAT +CGAAGCCTATGTTCGAATTTATTGAACAACGCATAGAAAGCCGCGATGTGGTACTCTATATCTATCATTT +AAAAGAAAATTAATCAGGCAGACTACTGCCCACTAACGTTATGACAGAACAACAAAAATTGACCTTTACG +GCCTTGCAGCAGCGGCTGGATTCGCTGATGCTGCGTGACAGACTGCGTTTTTCTCGCCGTCTGCACGGCG +TGAAGAAGGTTAAAAATCCTGATGCACAACAGGCCATTTTCCAGGAGATGGCGAAAGAGATTGACCAGGC +GGCAGGGAAAGTCCTGCTGCGTGAAGCGGCACGACCGGAAATTACTTATCCTGACAATTTACCGGTTAGT +CAGAAAAAACAGGACATTCTCGAAGCGATTCGTGATCACCAGGTGGTGATCGTCGCCGGGGAAACGGGTT +CTGGTAAAACGACTCAGTTACCGAAAATCTGTATGGAGCTGGGGCGCGGGATTAAAGGACTGATCGGCCA +TACCCAGCCGCGTCGTCTGGCGGCAAGAACAGTGGCGAACCGTATTGCGGAAGAGCTGAAAACGGAGCCG +GGCGGTTGCATCGGTTACAAAGTGCGTTTCAGCGATCACGTAAGTGATAACACGATGGTCAAGCTGATGA +CCGACGGTATCCTGCTGGCGGAGATCCAGCAAGACCGCCTGCTGATGCAGTACGACACTATCATTATTGA +CGAAGCGCACGAACGCAGCCTGAATATCGATTTTTTGCTCGGCTATTTGAAAGAGTTGCTGCCGCGGCGT +CCTGACCTAAAAATCATTATCACTTCCGCGACTATCGACCCGGAACGCTTTTCGCGCCACTTTAATAATG +CGCCGATTATTGAAGTCTCCGGTCGGACCTATCCGGTGGAAGTGCGCTATCGCCCGATTGTTGAAGAAGC +CGATGACACCGAGCGCGATCAGTTGCAGGCGATTTTTGACGCCGTAGACGAACTGAGTCAGGAAAGCCAT +GGCGACATTCTGATCTTTATGAGCGGCGAGCGGGAAATCCGCGATACCGCCGATGCGCTGAACAAGCTGA +ACTTACGCCATACCGAAATCTTGCCGCTTTATGCGCGGCTTTCGAACAGCGAACAAAATAGGGTATTCCA +GTCGCACAGCGGACGGCGCATTGTGCTGGCGACCAACGTCGCGGAAACGTCGCTGACCGTACCGGGGATT +AAATACGTTATCGACCCCGGTACAGCGCGTATCAGCCGCTACAGCTATCGCACCAAAGTGCAGCGTTTGC +CGATTGAGCCGATTTCCCAGGCGTCTGCCAATCAGCGTAAAGGCCGCTGTGGTCGTGTGTCCGAAGGGAT +CTGTATTCGTCTCTATTCCGAAGACGATTTCCTCTCGCGCCCGGAGTTTACCGATCCGGAGATTCTGCGT +ACCAACCTGGCCTCGGTTATTTTGCAGATGACCGCGCTGGGGCTGGGCGATATCGCTGCGTTCCCGTTTG +TCGAAGCACCGGATAAACGCAATATCCAGGATGGCGTGCGTCTGCTCGAAGAGCTGGGCGCGATCACCAC +TGATGAACAGGCCAGCGCCTATAAACTGACGCCGCTCGGTCGCCAGCTCTCGCAGTTGCCTGTCGACCCA +CGTCTGGCGCGTATGGTGCTGGAAGCGCAAAAACATGGCTGCGTGCGTGAGGCGATGATTATCACGTCCG +CGCTCTCCATTCAGGATCCGCGCGAACGTCCGATGGACAAACAGCAGGCATCGGACGAAAAACATCGTCG +CTTCCACGACAAAGAGTCTGACTTTCTCGCGTTTGTGAATCTGTGGAATTATCTTGGCGAGCAGCAAAAG +GCGCTTTCTTCCAACGCCTTCCGTCGCCTGTGTCGTACCGATTATCTCAACTATCTGCGCGTGCGCGAAT +GGCAGGATATCTACACCCAGTTGCGTCAGGTGGTGAAAGAACTTGGCATTCCGGTTAACAGCGAACCGGC +GGAGTATCGCGAAATTCACATTGCGTTGCTGACCGGTTTACTTTCCCATATCGGCATGAAAGATGCCGAT +AAACAAGAATATACCGGCGCACGTAACGCGCGTTTCTCCATCTTCCCCGGTTCTGGTTTATTCAAAAAAC +CGCCTAAATGGGTAATGGTGGCGGAACTGGTAGAAACCAGCCGCCTGTGGGGGCGCATTGCTGCGCGTAT +CGACCCGGAATGGGTGGAGCCAGTTGCTCAGCATTTGATTAAACGCACCTACAGCGAACCGCACTGGGAA +CGGGCGCAGGGCGCGGTGATGGCAACGGAAAAAGTCACTGTTTATGGTTTGCCGATTGTTGCCGCGCGCA +AGGTCAACTACAGCCAGATCGATCCGGCGTTATGTCGTGAACTCTTTATTCGCCACGCGCTGGTGGAAGG +TGACTGGCAGACGCGTCACGCATTCTTCCGTGAAAACCTGAAACTACGGGCGGAAGTAGAAGAGCTGGAA +CACAAATCACGTCGCCGCGATATTCTGGTTGATGACGAAACGTTGTTTGAGTTCTACGACCAGCGCATCA +GCCACGATGTAATCTCCGCTCGCCACTTCGACAGCTGGTGGAAAAAAGTCAGCCGCGAAACGCCTGATTT +GCTCAACTTTGAAAAAAGCATGTTGATCAAAGAGGGCGCAGAAAAAATCAGCAAGCTGGATTACCCGAAC +TTCTGGCATCAGGGCAATCTCAAGCTGCGTTTGAGCTATCAGTTTGAGCCCGGCGCGGATGCTGACGGTG +TGACCGTACATATTCCGCTGCCGTTACTTAACCAGGTTGAGGAAAGCGGGTTTGAATGGCAGATCCCCGG +TCTGCGCCGCGAACTGGTGATTGCTCTGATTAAATCGTTGCCGAAACCGGTACGCCGTAATTTTGTACCC +GCGCCAAACTATGCCGAAGCGTTTTTAGGCCGCGTCAAACCGCTGGAGTTACCGTTGCTCGACAGCCTTG +AGCGCGAGTTACGGCGGATGACCGGCGTTACCGTTGACCGCGAAGACTGGCACTGGGATCAGGTGCCCGA +TCACCTGAAAATTACCTTCCGCGTGGTGGATGACAAAAACAAGAAGCTAAAAGAAGGGCGCTCGCTACAA +GATCTGAAAGATGCGCTGAAAGGCAAAGTGCAGGAAACGCTATCTGCGGTGGCGGATGACGGTATCGAGC +AGAGCGGCTTACATATCTGGAGTTTTGGTCAGCTGCCGGAAAGCTACGAACAGAAGCGTGGCAACTACAA +AGTGAAGGCGTGGCCGGCGCTGGTGGATGAGCGCGACAGTGTGGCGATCAAACTGTTTGATAACCCGCTG +GAGCAAAAGCAGGCAATGTGGAACGGTCTTCGCCGTCTACTGCTGCTGAATATTCCATCGCCAATCAAAT +ATTTACATGAAAAGTTACCGAACAAAGCCAAGCTGGGACTGTACTTTAACCCGTATGGCAAAGTGCTGGA +GCTGATCGACGACTGTATCTCCTGCGGTGTGGATAAATTGATCGACGCCAATGGTGGCCCGGTCTGGACG +GAAGAAGGCTTTGCTGCGCTGCATGAAAAAGTGCGTGCCGAACTGAACGACACGGTGGTGGATATTGCGA +AGCAGGTCGAGCAAATCCTTACGGCAGTGTTCAATATCAACAAACGTCTGAAAGGGCGGGTGGATATGAC +CATGGCGCTGGGGCTTTCTGACATTAAAGCGCAGATGGGCGGGTTGGTATATCGCGGTTTTGTCACTGGT +AACGGCTTCAAACGGCTGGGCGACACGCTGCGATATTTGCAGGCGATTGAAAAACGGCTGGAAAAACTGG +CGGTTGATCCACATCGCGACCGTGCGCAGATGCTGAAAGTCGAAAACGTCCAGCAGGCGTGGCAGCAATG +GATCAACAAACTGCCGCCCGCACGTCGTGAGGATGAAGACGTGAAAGAGATCCGTTGGATGATAGAAGAG +TTGCGCGTTAGTTACTTCGCTCAACAACTTGGTACGCCTTATCCGATTTCAGATAAGCGTATTTTGCAGG +CGATGGAGCAGATTAGCGGTTAACCCTGCTATTTGCCTGATAAAGAAAAAACCCGGTAAGCATTTAGCGC +CGGGTTTTTTATTAATTCTAAAACGGTAAGGGTAAAAATTCAGGAATTCAGAAAAATACAATTCTCTGCT +GCAAGATGAATAATGTTTATCTACAGCATTTCCTTAAAAGATATGTCAGGCTTGCGGAGTGGCGGTTAAG +GACATACGATTTCCTCCTTTCAGAGTGCTCCGCTTCTCACTATTATCTCACGCAGTATTCTTAAGGGAAC +GATAAGGAGGAACCATGAACATTACCCCGTTTCCGACGCTTTCGCCGGCAACTATAGATGCCATAAATGT +TATCGGACAGTGGCTGGCGCAGGATGATTTCTCCGGTGAGGTGCCGTATCAGGCCGATTGCGTGATCCTT +GCAGGCAATGCGGTTATGCCGACTATCGATGCGGCATGTAAGATTGCCCGCGATCAGCAAATTCCTTTAC +TGATTAGTGGTGGTATCGGTCACTCGACAACTTTTTTGTATAGCGCCATCGCACAGCATCCGCACTACAA +CACTATCCGCACCACTGGCAGAGCAGAAGCGACCATCCTGGCGGATATCGCTCATCAGTTCTGGCACATT +CCGCATGAAAAAATCTGGATTGAAGACCAGTCAACAAACTGCGGTGAAAACGCACGCTTTAGCATCGCGC +TATTGAATCAGGCCGTAGAACGAGTTCATACGGCTATCGTTGTTCAGGACCCCACCATGCAGCGGCGCAC +GATGGCGACGTTCCGCCGTATGACTGGGGACAATCCCGATGCACCACGCTGGTTAAGTTATCCCGGATTC +GTTCCTCAGTTAGGAAATAACGCAGACAGTGTAATCTTTATTAATCAGTTACAAGGATTATGGCCAGTTG +AGCGTTATCTCTCACTACTCACTGGCGAGCTGCCGCGTTTACGCGATGATAGCGATGGCTACGGTCCCCG +CGGGCGAGATTTTATCGTTCACGTTGATTTTCCGGCAGAAGTCATCCATGCATGGCAAACGCTGAAACAT +GATGCGGTGCTCATCGAGGCGATGGAAAGTCGCTCGTTACGTTAAAAATTGCCCGTTTGTGAACCACTTG +TTTGCAAACGGGCATGACTCCTGACTTTTATTTCTGCCTTTTATTCCTTTTACACTTGTTTTTATGAAGC +CCTTCACAGAATTGTCCTTTCACGATTCCGTCTCTCTGATGATTGATGTTAATTAACAATGTATTCACCG +AAAACAAACATATAAATCACAGGAGTCGCCCATGTCAGTACCCGTTCAACATCCTATGTATATCGATGGA +CAGTTTGTTACCTGGCGTGGAGACGCATGGATTGATGTGGTAAACCCTGCTACAGAGGCTGTCATTTCCC +GCATACCCGATGGTCAGGCCGAGGATGCCCGTAAGGCAATCGATGCAGCAGAACGTGCACAACCAGAATG +GGAAGCGTTGCCTGCTATTGAACGCGCCAGTTGGTTGCGCAAAATCTCCGCCGGGATCCGCGAACGCGCC +AGTGAAATCAGTGCGCTGATTGTTGAAGAAGGGGGCAAGATCCAGCAGCTGGCTGAAGTCGAAGTGGCTT +TTACTGCCGACTATATCGATTACATGGCGGAGTGGGCACGGCGTTACGAGGGCGAGATTATTCAAAGCGA +TCGTCCAGGAGAAAATATTCTTTTGTTTAAACGTGCGCTTGGTGTGACTACCGGCATTCTGCCGTGGAAC +TTCCCGTTCTTCCTCATTGCCCGCAAAATGGCTCCCGCTCTTTTGACCGGTAATACCATCGTCATTAAAC +CTAGTGAATTTACGCCAAACAATGCGATTGCATTCGCCAAAATCGTCGATGAAATAGGCCTTCCGCGCGG +CGTGTTTAACCTTGTACTGGGGCGTGGTGAAACCGTTGGGCAAGAACTGGCGGGTAACCCAAAGGTCGCA +ATGGTCAGTATGACAGGCAGCGTCTCTGCAGGTGAGAAGATCATGGCGACTGCGGCGAAAAACATCACCA +AAGTGTGTCTGGAATTGGGGGGTAAAGCACCAGCTATCGTAATGGACGATGCCGATCTTGAACTGGCAGT +CAAAGCCATCGTTGATTCACGCGTCATTAATAGTGGGCAAGTGTGTAACTGTGCAGAACGTGTTTATGTA +CAGAAAGGCATTTATGATCAGTTCGTCAATCGGCTGGGTGAAGCGATGCAGGCGGTTCAATTTGGTAACC +CCGCTGAACGCAACGACATTGCGATGGGGCCGTTGATTAACGCCGCGGCGCTGGAAAGGGTCGAGCAAAA +AGTGGCGCGCGCAGTAGAAGAAGGGGCGAGAGTGGCGTTCGGTGGCAAAGCGGTAGAGGGGAAAGGATAT +TATTATCCGCCGACATTGCTGCTGGATGTTCGCCAGGAAATGTCGATTATGCATGAGGAAACCTTTGGCC +CGGTGCTGCCAGTTGTCGCATTTGACACGCTGGAAGATGCTATCTCAATGGCTAATGACAGTGATTACGG +CCTGACCTCATCAATCTATACCCAAAATCTGAACGTCGCGATGAAAGCCATTAAAGGGCTGAAGTTTGGT +GAAACTTACATCAACCGTGAAAACTTCGAAGCTATGCAAGGCTTCCACGCCGGATGGCGTAAATCCGGTA +TTGGCGGCGCAGATGGTAAACATGGCTTGCATGAATATCTGCAGACCCAGGTGGTTTATTTACAGTCTTA +ATGAGTGAAAGAGGCGGAGGTTTTTTCCTCCGCCTGTGCGCGTCAGAGTTTAGCGAATTTTTCGAGGGTG +CGAATAAGCTGTGTGACGAAGCCATATTCGTTATCGTACCAGGCGACCGTTTTCACCAGTTGTAAATCGC +CCACGGCGGTAATTTCCGTTTGCGTGGCATCAAACACCGAACCGAAATGGCTGCCAATGATATCGGAAGA +GACTATTTCTTCATCGGTATAACCAAATGACTCGTTATTGGTGGTTGCTTGTTTAAGTGCGTTATTCACC +TCTTCGGCAGTCACTTTTTTCCGAGAATCGATACCAGTTCAGTGACCGAACCTGTTTTCACCGGCACGCG +TTGCGCATGACCTTTCAGTTTGCCGCTCAGTTCCGGGATCACCAGACCAATGGCTTTTGCCGCCCCCGTA +GTGTGGGGAATGATATTTTCTGCCGCTGCGCGTGAAGCACGTAAATCTTTACCACGCGGGCCATCCACCA +GTGACTGGGTGCCAGTATAGGCATGAATGGTCGTCATCGTGCCGACTTCTATCCCGAAACTGTCATGCAA +GGCTTTGGCCATCGGCGCAAGACAGTTAGTGGTGCATGACGCCACGGAAACAATGGTGTCGTTGCCATCC +AGAGTGTCGTCATTGACGTTATAAACGATAGTTTTCATTTCACCGGCAGGGGCGGAAATCAACACCTTCT +TCGCACCAGCATCAAGATGCGCCTGCGATTTCTCGGCGGAGGTATAAAAGCCAGTACATTCGACAATGAT +TTCTGCACCTTTCGCTTTCCACGGAATATTTTTAGCCTCTTTTTCGGCGTAAACCGCGATACTTTTCCCA +TCAACGATAAGTGAATCTTCCGTAAAATCAACGCTCCAGGGGAATGGTCCGTAGTTTGAATCATGTTTCA +GCAGGTAGGCGAGAATTTATGGGGAAGTGAGATCATTAATAGCGACAACGTCTATGTTGCTTTTGACTTC +AAGTAATCGACCCAACACCAGTCGACCGATACGACCAAAACCGTTAATACCAACTTTACTCATGGTTTTC +TCCTGTCAGGAACGTTCGGATGAAAATTGATCCTTTCCAAGCTTAGACCAGGATGGCGGGATGGGCAATC +TCCATTCTCACAGTGAAACGTAACGTACTGAAAACGGGTGAACAATATTTAATGAAATTTTGAGAAAAGC +CCGTTATGTTAACGGAAAATTATGTTAAAGCAGGAAATGTTATGGAAAATAAATATTCAAGGTTACAAAT +CAGCATTCACTGGCTGGTCTTTTTACTGGTTATCGCAGCGTATTGCGCAATGGAGTTTCGTGGTTTCTTC +CCACGTAGCGATCGGCCACTCATCAACATGATTCATGTTTCCTGTGGCATCTCAATTCTCGTGCTGATGG +TCGTTCGTCTTTTGTTAAGGCTGAAATACCCAACCCCGCCGATTATACCTAAGCCAAAACCGATGATGAC +GGGACTGGCGCATTTGGGACATTTGGTGATTTATCTCCTGTTTATTGCGCTGCCAGTGATTGGTTTGGTG +ATGATGTATAACCGGGGCAACCCGTGGTTTGCGTTTGGTTTGACGATGCCTTACGCTTCAGAGGCCAATT +TCGAACGGGTAGATAGCTTAAAGTCGTGGCATGAAACGCTGGCGAATCTGGGATATTTTGTCATCGGGTT +GCACGCTGCGGCTGCACTGGCACACCACTATTTCTGGAAGGACAACACACTTCTACGCATGATGCCGCGT +AAACGTTCCTGAAGGATATTTAAAGAAAACGCCTGTACTAAAACCGACCCGTGGTACAGGCGAAGAATAC +GGGTCTACATCGGAAGCGCCTATTATATTTATTTGTATGATAAATAAAACCATAATCCTTGCCCATACGT +CCATCTGGCTTATTTTTAATCAATTCACCCGATCTTTGATCTCATCAACGGTATCAAAATAAACCAGCGT +ATAACGTTCAAATCGAACATAAGATTCGATAAACCATGGAGGTTATATGAAAAAACTGGCACTTATTTTG +TTTATGGGAACGCTTGTTTCCTTTTATGCCGATGCCGGGCGCAAACCCTGTTCTGGTTCGAAAGGGGGGA +TCTCACACTGTACGGCAGGCGGCAAATTTGTCTGTAATGATGGTTCTATTAGTGCATCGAAAAAAACATG +CACTAACTGAAGTGTAAAAGGGGTGCCATGAGAAAATGAATCTGCTAGTCAAATGCGCGGGGAAAATCCC +CGCGCTTGCCCTTACCTGGACGTGCAGGCCATGAGCGCAGCAACCTCCTTATCACCGTCCCGGAACCGCA +GTTCGTAGAGCGTTTGTCGGGTCAGGAGTGTGAATGTCAGAATCGTAATGCAGATAATGAGCAGACACAC +CACCAGAGGGTTGTGCTTCATAGCCTTTCTCCTTGCCGGATGGCGGGTAAGAGGCTAAGATCTGAATTGC +TAGGTTCATTCGTTGGCCTCGGTTGATAGAAATATCGGTCGGGGCCTTCGTCTTTCTGATTCCCGGTTAG +CCTGAAAACAGAAAGTCTCAGGCACCCGCAGGCATCCTATGAGGTTTCCTTAGGGACGAAAATAATCACT +TCACGAAATTGCGTGCTGTTTTCCAGAATTTTTCGTCATTCGGGTTAGCCAGTTTAGCCATTCGTTACTC +TCTTCATTCCAATAGCATTAATTTTCTATGCAATAATTGTTGTAAAAATGTGACGCAAAGAGGTTTTTGG +TCATAAGTAATTACCGTCAAGTGCCGATGACTTTCTATCAGGAGTAAACCTGGACGAGAGACAACGGTAA +TGAATACAACTCCCTCACAGCGATTAGGTTTTTTGCATCACATCAGGTTGGTTCCGTTATTTGCCTGCAT +TCTAGGCGGTATCTTAGTTCTATTCGCATTAAGTTCAGCCCTGGCTGGCTATTTCCTCTGGCAGGCCGAT +CGCGATCAGCGTGATGTTACTGCGGAGATTGAGATTCGGACCGGGTTAGCGAACAGTTCAGATTTTTTGC +GTTCAGCCCGGATCAATATGATTCAGGCCGGGGCTGCGAGTCGTATTGCGGAAATGGAAGCAATGAAGCG +AAATATTGCGCAAGCCGAATCGGAGATTAAACAGTCGCAGCAAGGTTATCGTGCTTATCAGAATCGACCG +GTGAAAACACCTGCTGATGAAGCCCTCGACACTGAATTAAATCAACGCTTTCAGGCTTATATCACGGGTA +TGCAACCTATGTTGAAATATGCCAAAAATGGCATGTTTGAAGCGATTATCAATCATGAAAGTGAGCAGAT +CCGACCGCTGGATAATGCTTATACCGATATTTTGAACAAAGCCGTTAAGATACGTAGCACCAGAGCCAAC +CAACTGGCGGAACTGGCCCATCAGCGCACCCGCCTGGGTGGGATGTTCATGATTGGCGCGTTTGTGCTTG +CCCTGGTCATGACGCTGATAACATTTATGGTGCTACGTCGGATCGTCATTCGTCCACTGCAACATGCCGC +ACAACGGATTGAAAAAATCGCCAGTGGCGATCTGACGATGAATGATGAACCGGCGGGTCGTAATGAAATC +GGTCGCTTAAGTCGTCATTTACAGCAAATGCAGCATTCACTGGGGATGACAGTAGGGACTGTTCGACAGG +GCGCGGAAGAGATTTATCGTGGCACCAGCGAAATTTCAGCTGGCAATGCGGACCTGTCATCTCGCACCGA +AGAACAAGCGGCGGCTATCGAACAAACTGCCGCCAGCATGGAGCAACTCACTGCGACGGTGAAACAGAAT +GCGGATAACGCGCATCATGCCAGCAAACTGGCGCAAGAGGCTTCTATTAAAGCCAGCGATGGCGGGCAGA +CGGTTTCCGGTGTAGTAAAAACGATGGGCGCTATCTCCACGAGTTCGAAGAAAATTTCTGAGATCACCGC +CGTCATCAACAGTATTGCTTTCCAGACGAATATTCTGGCACTGAATGCTGCCGTTGAAGCCGCGCGAGCG +GGTGAGCAAGGGCGTGGATTTGCCGTTGTCGCCAGCGAAGTACGGACACTCGCAAGTCGCAGCGCTCAGG +CGGCGAAAGAGATTGAAGGCTTGATCAGTGAATCAGTCAGGTTAATTGACCTGGGGTCGGATGAGGTGGC +AACGGCCGGGAAAACCATGAGCACTATTGTTGATGCCGTCGCGAGTGTCACACATATCATGCAGGAAATC +GCCGCCGCCTCGGATGAACAAAGTAGAGGCATAACGCAGGTTAGCCAGGCGATTTCTGAAATGGATAAGG +TGACGCAACAGAATGCTTCTCTGGTAGAAGAGGCCTCAGCGGCGGCGGTGTCCCTTGAAGAACAGGCGGC +ACGATTAACTGAGGCGGTGGATGTATTCCGTCTGCACAAACATTCTGTGTCGGCAGAACCTCGCGGAGCG +GGTGAACCAGTTAGTTTCGCTACGGTGTGAAAATGTTCAAGGAGGGATCGACAGATCCCTTCACCTTTCA +GAACGGCATTGATTTTCGAATAGCGTTAATCATCAACTGGCAACCAGAAGAGAACGTCGCATCTACGCGG +GTCAGTATTCCAATCGGTTCGCCTGCACCATGTCCCGGAACAGGCAGGGCCACCAGCGTGGCATGACGCA +GGTCGTCTTTTACAGCGCCAGAAGGGACAAACCACACGTAATCGTATTCAACCGTAAGTTGACGAGATAG +CGAAGCAGACAGCGTTTCGATACAACCCGAAGGAATTTTACAGCCCTGGCTCTGCACTAATGCATCTGAA +TGCTGGCGTGGCGCAGTGCCTTCTGGTGATACAACGACCGGCCATTCCAGCACCCGGCTTAGCGTTACGT +TCTCCTGAAGTAGCGGGTGATTAGGGCGGACAACCAGCTTCAACGATTCAAGAAACAGCAGTTCGTAATT +AAGCCCGGTCATCAGTTCAGGATCTGACATCCGACCAATGCCGATATCGATTTCCCCGGTTTTTAAACCC +GCCAGAATCATAGGGTTACTCATTGTCGCAACTTGCAAGGTCGTCTCTTTTTGTTGCTGATGAAACTGAC +CTATAACCGAAGGTAATATCCCCAGTGCCGCAGTAGGTAGTGCACCAACCCTGACGACATCATTATTAAG +ACCTTCTTTACGATGAAGCGACCGTCCGGCAGTGTTGATGGCGTCAAGAACTCTGACTGCATGCGTTAAA +AATTGTTCGCCGGGTAAGGTAAGTTGCGCCCCCTGACGACCACGCTCAAACAAGCGAGCGCCAGTCAGCT +GCTCCAGTTCATTCAATGTCTTAGAGAGCGCAGGTTGACTCAAATTAAGGGTTTCAGCCGCGCGCCCCAA +AGTTCCTTGTTGTGCGACAGCTACGAATGTATGAAGGTGGCGCAAACGGATGCGCTGACTAAACAGACTA +TTTTTTTCCATAAGCGATGTTAAAAACGAAGCGGTGTCGCTGACAAGTGAAGTTGTTTGATTATGATAAC +TTGATTGCAAAATATTATTAACAATTAAAGCAATTATGTTACAGCAAAATGGATAATATTGATGTTTTCG +CGGCGAGATCACAGTTTGTAAATTCTTCCCGCAAGAGTGAATGCGGTTACCTACACTCCAGATTACTGAC +CACTGGAGGCAGACACTATGGCGAACAGCATCACGGCGGATGAGATTCGGGAACAGTTTTCGCAGGCAAT +GTCAGCCATGTACCAGCAAGAAGTTCCGCAATATGGCACGCTGCTGGAACTGGTAGCTGATGTGAATCTG +GCTGTGCTGGAAAACAATCCTCAACTGCACGAAAAAATGGTAAATGCAGACGAGCTGGCGCGACTGAATG +TTGAACGTCATGGGGCGATTCGCGTTGGGACTGCACAAGAGCTTGCTACTCTTCGGCGGATGTTTGCCAT +TATGGGGATGTACCCGGTGAGCTATTACGATCTCTCGCAGGCAGGGGTGCCGGTACATTCGACAGCATTT +CGGCCCATTGATGATGCTTCTCTGGCGCGTAATCCCTTCCGCGTTTTTACCTCCTTACTCCGCCTTGAGC +TTATCGAGAACGAAATTTTGCGCCAGAAAGCGGCGGAGATTCTGCGTCAGCGCGATATCTTCACCCCACG +TTGTCGACAACTGTTAGAGGAATATGAGCAGCAGGGCGGTTTTAACGAAACACAGGCACAGGAGTTTGTG +CAGGAAGCCCTGGAAACGTTTCGCTGGCACCAGTCAGCAACGGTAGATGAAGAAACCTATCGCGCATTGC +ACAACGAACATCGGTTGATTGCTGATGTGGTCTGTTTTCCTGGATGCCATATCAACCACCTGACGCCACG +TACGCTGGATATTGACCGGGTGCAGTCGATGATGCCTGAATGCGGAATTGAACCCAAAATTCTCATCGAG +GGGCCGCCGCGCCGCGAGGTACCGATTTTACTACGCCAGACCAGCTTTAAAGCACTGGAAGAGACGGTGT +TGTTTGCGGGGCAGAAACAGGGCACGCATACCGCGCGCTTTGGTGAAATTGAGCAGCGTGGCGTGGCATT +AACGCCGAAAGGGCGACAACTGTATGATGATCTTCTGCGTAACGCTGGAACCGGGCAGGATAATCTCACT +CACCAAATGCATTTACAGGAAACCTTCCGCACTTTTCCTGACAGTGAGTTTTTAATGCGTCAGCAAGGGT +TGGCATGGTTCCGGTACCGTCTGACGCCTTCGGGTGAGGCGCATCGTCAGGCGATTCATCCTGGAGACGA +TCCACAGCCCTTAATTGAACGTGGTTGGGTAGTGGCGCAACCCATCACCTATGAAGATTTCTTGCCCGTT +AGCGCGGCGGGGATCTTCCAGTCAAATCTGGGTAATGAAACGCAGACACGCAGTCACGGTAATGCCAGTC +GCGAAGCATTTGAGCAGGCGTTGGGTTGTCCGGTTTTGGATGAGTTCCAGCTTTACCAGGAAGCGGAAGA +ACGCAGTAAACGTCGCTGTGGTTTGCTTTAAAATCTGACCATCCGCCTTTGCAAAAATTTGCCTGATTTT +ACAAACGAATCAGGCTCATCCCATCGACATAAAAAAAATGCCGATTTATGCATATTCTCTCAGTTCAACA +ATTGGATTATTAATAAATATTGTCTAGAGTGAGCGGTCATAAATAAGCACTTTCTTGCCGCTGAAAACGA +CCAGCGCGGGACCATTCACAACACCAGAAGGACTCACTTTCAGGTATGGATCGTAGACGATTTATTAAAG +GTTCAATGGCTATGGCCGCCGTGTGCGGTACCAGCGGCATTGCTTCTCTTTTTTCTCAGGCGGCATTCGC +GGCAGATTCTGATATTGCCGACGGGCAAACCCAGCGTTTTGACTTCTCCATTCTACAGTCAATGGCGCAC +GACTTAGCGCAAACAGCGTGGCGTGGTGCGCCTCGTCCGTTACCTGACACGCTGGCGACAATGACGCCGC +AGGCTTATAACAGTATTCAATACGACGCCGAAAAATCGCTCTGGCATAACGTTGAGAACCGTCAACTGGA +CGCTCAGTTCTTCCATATGGGAATGGGATTCCGTCGCCGCGTTCGTATGTTTTCTGTAGATCCAGCAACA +CATCTGGCGCGTGAAATTCACTTTCGCCCGGAGTTGTTCAAATACAACGATGCAGGTGTTGATACAAAAC +AATTAGAAGGGCAAAGCGATCTCGGCTTTGCCGGTTTTCGCGTGTTTAAAGCCCCCGAACTGGCGCGCCG +TGATGTAGTATCATTTCTCGGCGCGAGTTATTTCCGCGCCGTTGATGATACATATCAATACGGTTTGTCG +GCCCGCGGCCTGGCGATCGACACTTACACCGACAGTAAAGAAGAGTTCCCCGACTTTACCGCCTTCTGGT +TTGATACGGTAAAACCGGGGGCAACTACCTTTACCGTTTATGCGTTGCTCGATAGCGCCAGCATTACTGG +TGCCTATAAGTTCACTATCCATTGTGAGAAAAGTCAGGTGATTATGGATGTGGAAAATCACCTGTATGCG +CGCAAAGACATTAAACAGCTGGGCATTGCGCCGATGACCAGTATGTTCAGCTGCGGTACTAATGAACGTC +GGATGTGCGATACAATTCATCCGCAAATTCATGACTCTGATCGTCTGTCCATGTGGCGGGGCAACGGCGA +GTGGATTTGCCGTCCGCTGAATAATCCGCAAAAATTGCAGTTCAATGCTTACACCGACAACAACCCGAAA +GGGTTTGGTTTATTGCAACTGGATCGTGACTTCTCCCATTATCAGGACATTATGGGCTGGTATAACAAAC +GCCCAAGTCTGTGGGTGGAACCGCGTAACAAGTGGGGTAAGGGCACCATCGGCCTGATGGAAATCCCAAC +AACGGGCGAAACGCTGGATAACATTGTCTGCTTCTGGCAGCCAGAAAAAGCTGTAAAAGCAGGTGATGAG +TTTGCATTCCAGTATCGTCTGTACTGGAGTGCGCAACCGCCTGTTCATTGCCCATTAGCGCGCGTTATGG +CGACGCGTACCGGCATGGGCGGTTTCTCGGAAGGTTGGGCGCCAGGTGAACACTATCCCGAAAAATGGGC +GCGTCGTTTTGCCGTCGATTTCGTTGGTGGTGATCTGAAAGCTGCCGCGCCAAAAGGCATTGAGCCGGTG +ATTACGCTTTCCAGTGGGGAAGCGAAGCAAATCGAAATTCTCTATATTGAACCCATCGATGGTTATCGTA +TTCAGTTTGACTGGTATCCGACTTCGGACTCCACTGATCCGGTCGATATGCGGATGTATCTACGTTGTCA +GGGGGACGCTATCAGTGAAACATGGCTGTATCAGTATTTCCCGCCAGCGCCGGATAAACGTCAGTATGTT +GACGACCGCGTGATGAGTTAATCGTTTTTTCTTCGGCACCTTCTTCGGGAGGTGCCGTCTGGTTAAACAC +GATCCCGCTCGCATTTTTCCCTAAGTTAAATGAGTAATCTGATGGTGTGTATTTCAGATACACCTTGTCA +GCCACTAACAGGGAGTGCGTATGTTTCCAGAATACCGAGATTTAATATCCCGTCTGAAAAACGAAAATCC +TCGCTTTATGTCCTTGTTCGATAAACACAATAAACTTGATCATGAAATTGCCAGAAAGGAAGGTTCCGAC +GGTCGAGGGTACAATGCGGAAGTGGTCCGCATGAAAAAACAAAAGCTACAGTTAAAAGATGAGATGCTCA +AAATCCTGCAGCAGGAGAGCGTCAAAGAGGTGTAAACTTTCCTAAGCCGCCAGCCAGGCGGCTTTTTTAA +CAACTGCATGGATTGACTGGAGATAAGATGACTGAAACGATAAAAGTAAGCGAATCACTTGAATTACATG +CTGTTGCAGAAAATCACGTCAAACCTCTTTATCAGTTAATCTGTAAAAATAAAACCTGGTTACAGCAGTC +GCTAAACTGGCCGCAGTTTGTTCAAAGTGAAGAGGACACGCGAAAAACGGTGCAGGGTAATGTGATGTTG +CATCAACGCGGCTATGCCAAAATGTTCATGATTTTCAAAGAAGATGAACTTATCGGCGTTATCTCGTTTA +ATCGTATTGAACCACTGAATAAAACCGCTGAAATAGGCTACTGGCTGGACGAATCTCATCAGGGGCAGGG +GATCATTTCTCAGGCGCTGCAGGCATTGATTCATCATTACGCCCAGTCTGGTGAACTTAGACGCTTCGTG +ATCAAATGTCGGGTGGACAATCCGCAAAGCAACCAGGTCGCTTTGCGCAATGGTTTTATCCTTGAAGGTT +GCCTGAAACAGGCTGAGTTCCTGAATGATGCCTATGATGATGTGAACTTATACGCGCGTATTATCGATTC +ACAATAACCCTGCCAGCGGCGTTCGCGTAATGCGCTCCTCGCCGTTAATGACTTTTGGACCACGGACATG +AACCGTGTCGCCATCAAAGGCTTCAACGACGGCGTGGTCGGTTAACTCCACATGGTTTTCAATTATCACC +GCACCTGTAATACGGCTCTCACCTTGTATGACAACGTGCTCGTCGAGCAGAATCGGTCCGCCACGTACCA +CGGCATTTCCGCCAACCAAGACATGATGTTTTAACACACAATTACCTTCCACAATGGCATATTCCGCCAC +CTGCGAACTGTAATGAATCGTCGGAATGGCATCTTCTTCTATGCCAGCTTTCACCTGCGCGTGACCGTAG +ACTTTAGCGCAATCGCATAGCCAGACATTGTTCTCTTCATTACCTTCAATACTGGCAAAATCAAAAACTT +CGGCGCGATGTTCAATAAAAGCATACCGGACGACGGCATCGCCATAAATTTGTGCCTGGTGGACAATACG +CGAGGCGCTAACCCTTGCGCGATCATAAATTTGGAGCAGGAGTTGATGGTCGGGCGTTAAGCCTTGTGCG +GCGACGATCATAGAATGTTGATCAATTAAGGCGTGACCAAATATTCTACATTGCCCGTAAACTAATGAGT +CATGAATGGTGACGCTGTCACTTATATATGCACCCTGGCTGATTTCACTATTATCGATCCAGACGTTATC +CGTTGCGTAAACCTCTCCCCACAGCACGCTGGTGCCGGTGATACGCGTATTACCGGAAATCACCGCTCCG +CCGAACGCAATAGCATTCTGGTCGTAAATCCAGCAATTTCCTTCTTGTGCTAACACCGTTTCGCGATCGA +TCCAGCCGCCAGCGGTTCCTGCTATCACATCGTTAAAATCGCTAATGGCGATAATCTGCCGTAATAACAC +ATTTTTTTTAGTGCCATCTTCCTGATAACTAAAGGCTCGCTGTTCTTCACTTAGACGATATTTGCGCATA +GCGTTTTCCCACAGGTGACTTACTATAACCGTAGCAAATTCTGCGGCTCTGGCTATGCTCGAGAAAATTC +CATAAAATGCATTTCAAATATACTTTATAAATTAAACAAAATGAGTAAGAAGATGCAGAGCGATAAAGTG +CTCAATTTGCCGGCAGGCTACTTTGGTATTGTGTTGGGGACGATAGGGATGGGATTTGCCTGGCGCTATG +CCAGCCAGGTTTGGCAGGTCAGCCACTGGTTAGGGGATGGGCTGGTGATTCTGGCGATGATCATCTGGGG +ATTATTGACTAGCGCATTTATTGCCCGACTCATACGCTTTCCGCATAGCGTGCTGGCGGAAGTTCGCCAT +CCAGTGCTGAGCAGTTTTGTGAGTTTGTTTCCGGCAACGACGATGCTGGTGGCGATTGGTTTTGTTCCGT +GGTTTCGCCCACTGGCGGTGTGCCTGTTCAGTTTTGGTGTCGTGGTTCAGTTGGCTTATGCCGCCTGGCA +AACTGCGGGATTATGGCGCGGATCTCACCCTGAAGAAGCTACCACGCCTGGACTGTATCTGCCGACAGTT +GCCAACAACTTTATCAGCGCAATGGCCTGTGGTGCGTTGGGCTACACCGACGCCGGTCTGGTGTTTTTAG +GCGCAGGCGTTTTCTCATGGCTAAGCCTTGAACCGGTGATCTTGCAGCGTCTGCGCAGTTCGGGAGAATT +ACCCACGGCACTGCGGACATCACTCGGCATTCAGCTCGCTCCTGCGCTGGTGGCTTGTAGTGCCTGGCTG +AGCGTCAACGGCGGCGAGGGTGACACGCTGGCGAAAATGCTTTTCGGTTATGGACTGCTGCAACTGCTGT +TTATGCTACGTCTGATGCCATGGTATCTCTCCCAGCCATTTAATGCTTCATTCTGGAGTTTCTCGTTCGG +CGTATCTGCACTGGCAACCACCGGTTTGCATCTGGGGAGTGGCAGCGATAATGGATTTTTCCATACGCTG +GCGGTGCCGCTGTTTATCTTTACCAATTTTATTATTGCAATACTGCTCATCCGTACTTTTGCGCTTCTGA +TGCAGGGAAAATTGTTAGTCAGAACCGAGCGCGCCGTTTTAATGAAAGCAGAGGACAAAGAATGATCATT +CGTGACGAAAACTATTTTACTGATAAATATGAATTAACCCGCACACACTCTGAAGTACTGGAAGCGGTGA +AAGTGGTTAAACCGGGTAAAACGCTGGATCTGGGCTGTGGCAATGGTCGTAACAGTCTTTACCTGGCAGC +CAATGGTTATGATGTTGACGCATGGGATAAAAATGCCATGAGTATCGCCAACGTCGAGCGCATTAAATCC +ATTGAAAATCTGGATAATTTACACACCCGAGTCGTTGATCTGAATAACCTCACATTTGATAGACAGTACG +ATTTTATTCTTTCGACTGTGGTGCTGATGTTCCTTGAGGCTAAAACCATCCCCGGGTTGATTGCCAATAT +GCAACGTTGCACTAAACCTGGTGGTTACAACCTGATTGTGGCGGCGATGGATACCGCTGATTATCCATGT +ACCGTCGGCTTCCCGTTTGCCTTCAAAGAGGGAGAATTACGTCGATATTACGAAGGCTGGGAGAGGGTGA +AATACAATGAAGACGTCGGCGAGCTGCACCGCACCGACGCCAACGGTAATCGTATTAAACTGCGTTTCGC +CACGATGCTGGCACGTAAAAAATGACCCGGTAAGCACAAAACGCGTGAAAATTCCCCACGCTGAGATGAT +TTACTGTTCTTCTTTTCGGTAAGCATATTTTTTATCGAAGGGATGTGAAATTAATCACAGTAGTCGAAGT +TTTTAGCAGCTTAACTTACTGAAATTTAAGTACTGATGATTGACTTAGCCCCTTTTTCGGCATTGACTAT +GTCGTCTGAAAAGGGGCTGAAAAATTTATTTTCACCAACACTTTTTTTGCCACAACACGAAGCGGCGCTT +TTTGCTATAACTTAGAAAGTAATATAATCATCTCAGGAAACTATTCATGCGTACCACATCATTTGCGAAA +GTTGCAGCTTTATGCGGCTTATTGGCTCTGTCTGGTTGTGCATCTAAAATCACCCAGCCAGATAAATATT +CTGGTTTTTTAAACAATTACTCTGATTTAAAAGAAACAACCTCGGCTACAGGTAAACCTGTTTTACGTTG +GGTAGACCCGAGTTTTGATCAAAGCAAATATGACAGCATCGTCTGGAACCCAATCACTTATTATCCGGTA +CCGAAACCGTCGACCCAGGTAGGGCAGAAAGTTCTGGATAAAATTTTGAACTATACCAACACCGAAATGA +AAGAAGCGATAGCGCAGCGTAAACCACTGGTTACCACCGCTGGGCCGCGTAGTCTGATTTTCCGTGGGGC +CATTACCGGTGTAGATACCAGCAAAGAAGGGCTGCAATTCTATGAAGTGGTTCCTGTTGCATTAGTGGTT +GCGGGGACGCAAATGGCTACAGGCCACCGTACCATGGATACTCGCCTCTATTTTGAAGGTGAGCTGATTG +ATGCAGCGACTAATAAACCGGTTATCAAAGTCGTTCGTCAGGGCGAAGGTAAAGACCTGAATAACGAAAG +TACGCCAATGGCTTTCGAAAATATTAAACAAGTTATTGATGACATGGCGACCGATGCCACCATGTTTGAC +GTTAACAAAAAGTAGTTCCAGACGCGCCATCGTTAGATGGCGCTTTTTATCCGGTGCGCCGTAAAACCCC +ATCCTTCAGGGCGGGGATATAAGGCGCGGTTTTCCACCTGACCAGGTGTTTGCTGTTGTTCAATGTATTG +GCGGATGACGGATATTGGCGCACCTCCGCAGCTACTGGCAAAATAGCCAGGACTCCACAAAACGCCTTTG +TAGTAATACCTGAATGCAATATCTGGTCGATCTCGTCGCAGTCACCTACCCGATACGCCTTTGAGGCTGT +TTACCAGACTGGATATCGCCAGTTTGGGAGGATAGTTAATTAACAAATGGACGTGATCTGGTTCGCCATC +CATTTCAACCAGTTCAGCTTCAAAATCAGCACATACATTTGAAAAGTAAGTGCGTAGTTTTTCTGTCGCG +TCATGGTCAAAAATCTGGCGTCGGTATCTGGTGACAAAGAGCAGGTGAACATGCATCAGGAAAACACAAT +GCCTTCCACGCCGGATATCGGTTTCTTTTTTCACAGACCAAAGTATCATTTGACCTGTGAAACGATTACA +GGCATTTAAATTCCAGTTAAGACCCGGTGGTCAACAGGAGTGTGAAATGAGGCGCTTCGCAGGCGCATGT +CGTTTCGTTTTCAATCGTGCTCTGGCACGTCAGAATGAGAATCATGAGGCCGGTAATAAATACATCCCTT +ACGGGAAAATGGCTTCCTGGCTGGTTGAGTGGAAAAATGCCACTGAAACGCAATGGCTTAAAGATTCTCC +CTCACAGCCATTGCAACAGTCACTGAAAGACCTTGAGCGGGCTTACAAAAACTTCTTCCGGAAGCGGGCT +GCTTTTCCCCGATTCAAAAAGCGGGGACAGAATGATGCATTCCGCTACCCGCAGGGCGTTAAGCTCGATC +AGGAAAACAGCCGTATTTTTCTGCCGAAACTGGGCTGGATGCGCTACCGGAACAGCCGTCAGGTCACGGG +TGTTGTGAAAAATGTCACTGTCAGCCAGTCCTGCGGTAAGTGGTACATCAGTATTCAGACAGAAAGTGAA +GTATCAACTCCGGTTCACCCTTCAGCATCAATGGTCGGGCTGGATGCTGGCGTGGCTAAACTCGCCACGC +TGTCAGATGGCACAGTCTTTGAGCCTGTAAACAGTTTTCAGAAAAACCAGAAGAAGCTGGCGAGACTTCA +GCGACAGTTAAGCCGCAAGGTCAAATTCAGCAACAACTGGCAAAAGCAGAAACGCAAAATACAGCGACTG +CATTCCTGTATCGCAAATATCCGCAGGGACTACCTTCACAAAGTCACAACGGCCGTCAGCAAAAACCACG +CAATGATAGTCATTGAGGATTTGAAGGTCAGCAACATGTCAAAGTCAGCAGCGGGTACGGTCAGCCAGCC +GGGGCGCAATGTCCGGGCAAAATCAGGTTTAAACCGTTCGATACTGGATCAGGGCTGGTATGAAATGCGC +CGCCAGCTTGCGTATAAGCAGCTCTGGCGTGGCGGTCAGGTGCTTGCTGTTCCGCCAGCGTATACAAGCC +AGCGTTGCGCGTACTGTGGTCATACAGCGAAAGAGAACCGCCTGTCACAAAGTAAATTCAGATGCCAGGT +ATGTGGATATACAGCGAACGCCGATGTAAATGGCGCTCGCAACATTTTAGCGGCGGGGCACGCCGTTCTT +GCCTGTGGAGAGATGGTGCAGTCAGGCCGCCCGTTGAAGCAGGAACCCACCGAAATGATTCAGGCGACAG +CCTGAACGTAGCAGGGATCCACGTCCTTCAGGGCGTGGAGGATGTCAATATCGGTTTCTGTCAGCGATTA +AATTCAACACCACGTAACAAACGCCTCCGGCAATTAATCCCCAAAACGCAGAACCAATCCCGACCAGCGT +CAATCCACTTGCCGTTACCAGAAATGCCACCACCGCCGCGTCTCGCTCACGCTCATTATGCAGCGCCTGA +TACAAACTGCCGCCGATGGTACTTAACAGCGCCAGACCTGCCAGCATCTGGATCCAACTTACGGGCAGGG +CAGCCATCATCCCGGTAATGGCACTACCAAACAGACCTGCGAGCAAATAGAAAATGCCTGCAACGGCAGC +GGCCAGCCAACGTTGATCTTTATCCGGATGCGCTTCCGGGCTTTGGCAAATAGCCGCGGTGATTGCCGCA +ATACCGACGGAATAAACGCCGAAAGGGGAAAAAACCAGTGCCAGCAATCCAGTAAATACAATTAATGGCG +AAACAGGAGCCGAATATCCAGCTGCTTTCATTGCTGCGATACCCGGTGCGTTTTGCGATGCCATCGTCAC +CAGAAAAAGGGGGAGTGCAACGCTCAGGCTGTGAGCAAACGAAAAATCAGGGGTAATATAAGTGGGGAGA +ACGGGTTTAAAGACAACATCAGTTGTGACAACGTCACCTTGCGCGATGACGATCACGATCCCAATAATCA +TCGCGGCAATTACCGCATAGCGCGGCGCAACGGCCTTGGTTGCCAGCCATACCAGCAACATACTTCCACA +CAACGTAAATTGACCGTCCAGACTGGCAAACGCCTGTAAACCAAAGCGTAATAAAATCCCGGCAAGCATT +GCCGCCGCAAGCGAGTGCGGAATAATGCGCATCAGACGAGCAAAGAGTCCCGTTATGCCGCAGAGGACTA +TTAGCGCGTTGGTGACAATAAAAACGCCGATGGCTTCGTTAAGTGTTAGTCCCTGCAATCCGGTGACCAA +CAAAGCCGCGCCAGGCGTTGACCATGCGGTGAGAACAGGTACGCGATACCATAATGTCAGAGTCAGCGTA +CTGACGCCCATTGCCAGCCCCAGCGCCGTCATCCAGCCAGAGATTTGTGCAGTGGTGGCTCCGGCGACAA +TCGCTGCTTGCCAGATTATTGCCGCTGAACTGGCGTAGCCAATTAATACCGCCAGAAACCCCGCCAGTAG +CGTGGGTGGAGGAATAGAAAACAGACGCATAGTCACCTCGTGCGTTATAGCGTACAGGCACCGTAGCATT +TGTCCGTTATAACGCACAAGTGATAAACTTCCGTTTTGCCGGAGGAGTCGCATGGAAAATCTCGCTCGCT +TTTTATCCACCACACTTAAACAACTACGCCAGCAGCGCGGCTGGAGTCTTTCGCGACTGGCAGAAGCGAC +GGGCGTTTCTAAAGCAATGTTAGGGCAGATTGAGCGTAATGAGTCCAGTCCGACGGTCGCGACATTATGG +AAAATTGCCACCGGGTTGAACGTACCATTTTCAACATTTATTTCTCCGCCGCAGTCCGCTACGCCTTCAG +TTTATGATCCACAACAGCAGGCGATGGTGATCACTTCGCTGTTTCCTTATGATCCACAACTCTGCTTTGA +ACACTTCTCGATTCAGATGGCATCTGGTGCAATAAGCGAATCGACGCCCCATGAGAAGGGGGTAATCGAA +CATGTCGTCGTCATTGATGGACAACTTGATCTGTGCGTTGATGGGGAATGGCAGACCCTTAATTGTGGGG +AAGGCGTTCGATTTGCTGCAGACGTCACGCATATCTATCGTAATGGTGGGGAGCAAACCGTACATTTTCA +TTCCCTCATCCATTACCCGCGCAGTTAAGCGGGAAAACTATTTCGCAACGTCGCGCTTGTGGCTAAAATA +GCCGCCATTTTTCAGCTACTGGATAAGAATGTGACCGTATCTTCTCATCGACTTGAACTGTTAAGCCCGG +CACGCGATGCCGCCATTGCCCGCGAAGCTATTTTGCACGGTGCCGATGCTGTTTATATCGGCGGCCCTGG +TTTTGGTGCCCGTCATAATGCCAGTAATAGCTTGAAAGATATTGCCGAGCTGGTGCCGTTTGCCCATCGT +TATGGTGCAAAAATTTTCGTCACGCTTAACACCATTTTGCATGATGATGAGCTGGAACCCGCGCAACGGC +TGATTACTGACCTCTACCAGACCGGTGTCGATGCGCTGATTGTTCAGGATATGGGGATTCTGGAACTTGA +TATTCCGCCGATTGAACTGCACGCCAGTACGCAGTGCGACATTCGTACAGTTGAAAAAGCGAAGTTCCTC +TCTGATGTTGGCTTCACGCAGATTGTGCTGGCGCGAGAGCTGAATCTTGATCAGATCCGCGCGATTCACC +AGGCTACGGACGCGACCATTGAATTCTTTATTCATGGGGCACTGTGCGTGGCCTATTCGGGTCAGTGCTA +CATTTCTCATGCGCAAACAGGGCGTAGCGCCAACCGTGGCGATTGCTCGCAGGCGTGCCGTTTGCCATAC +ACATTGAAAGACGATCAGGGGCGGGTGGTTTCCTATGAAAAACATCTGCTGTCGATGAAAGATAACGATC +AGACTGCCAACCTCGGCGCGCTGATTGATGCTGGTGTACGCTCCTTCAAGATTGAAGGGCGTTACAAAGA +TATGAGCTACGTGAAGAATATCACCGCCCATTATCGCCAGATGCTTGATGCCATTATTGAAGAACGTGGC +GATCTGGCGCGCGCTTCATCAGGTCGTACTGAACATTTCTTTGTTCCATCGACGGAAAAGACTTTCCACC +GTGGTAGCACAGATTATTTTGTGAATGCCCGTAAAGGCGATATTGGCGCGTTCGATTCGCCGAAATTTAT +CGGCCTGCCGGTAGGCGAAGTAGTGAAAGTGGCGAAAGATCATCTCGATGTTGCCGTTACCGAGCCACTG +GCAAATGGCGATGGCCTGAACGTGTTGATTAAACGTGAAGTCGTCGGTTTTCGTGCCAATACGGTCGAGA +AAACCGGAGAAAATCAGTACCGCGTCTGGCCCAATGAAATGCCAGCAGATTTGCACAAAATTCGTCCACA +TCACCCACTAAACCGTAATCTTGATCATAACTGGCAGCAGGCACTGACAAAAACCTCCAGCGAACGTCGG +GTGGCGGTAGACATTGAACTGGGCGGCTGGCAGGAACAACTGATTCTGACCCTCACCAGTGAAGAGGGTG +TCAGCATCACGCATACGCTGGACGGGCAGTTCGACGAAGCCAATAACGCCGAAAAAGCAATGAACAATCT +GAAGGATGGTCTGGCAAAACTGGGGCAAACCCTCTATTACGCCCGCGATGTGCAAATTAATTTGCCGGGG +GCGCTGTTTGTACCAAACAGTCTGTTAAACCAGTTCCGCCGTGAAGCTGCTGACATGCTGGATGCTGCGC +GTCTTGCCAGTTACCAGCGCGGCAGCCGTAAACCGGTTGCTGATCCTGCGCCGGTTTATCCGCAAACGCA +TCTGAGTTTCCTCGCGAACGTATACAACCAGAAAGCGCGTGAATTTTATCATCGCTATGGTGTGCAGCTG +ATTGACGCGGCGTATGAAGCACATGAAGAGAAGGGCGAAGTCCCGGTGATGATCACCAAGCATTGTCTGC +GCTTTGCCTTTAATCTGTGCCCGAAACAGGCGAAAGGCAATATCAAAAGCTGGAAGGCGACGCCAATGCA +ACTGGTTAACGGCGATGAAGTATTAACGCTAAAGTTTGATTGCCGCCCATGCGAGATGCACGTCATTGGC +AAAATCAAAAATCACATACTGAAAATGCCGTTACCGGGAAGCGTAGTGGCATCCGTAAGTCCGGATGAGC +TGCTGAAAACATTGCCGAAGCGAAAAGGGTAAAACGCCAGTTTTCTGGTTACTCACAACTTATTGAATCT +GCATGATATTGCCTGCCGGGTAAGGCGTTACGCCGCATCCGGCATCAAATGACTCAACGTTGTCCCGCTT +CTGGTTTGCGCGATTTTTGCCAGTAAAAATGCTCGCGCAAACCTTCCGCCGACTCTTCCGCCACAGCACG +CAATTCATCGCTGTCCGCTTCATGACGCAGCTGATGATCCACATTCTTTACCCACACAAATTCATGTCCT +TTGTGCCCTGCCATGAGTTGTCCTGAAAACAGAGCACACGTTAATAAGACAACCGATAACGCCTTCGTAA +ACATCCTGCCACCTTTTTCTTACCTTTTGCCGCTATGATGCCGATCGTTTCTTGAGGTTATTATTCAGTT +TTGCAAATTAGCGCAAAGAAATTCTGGAATCTTCCTTCCTGATTTTGCATTGCATTCTGCCGTTGCGGCG +ATTTAGTGCTATTTTCGAGCAAATTACACACGGAGGTAAACACTAATGTTTACTTTGTTGATATACTCAG +CGGCAGGGAGGCGATGTGAAACAAAGCGAGTTCAGACGTTGGCTCGAATCTCAGGGCGTCGATGTAGCGA +ATGGCAGCAACCATTTGAAACTCAGGTTTCATGGGAGGCGCAGTGTCATGCCGCGTCACCCCTGCGATGA +GATTAAAGAACCATTGCGTAAAGCAATCCTGAAACAACTCGGTTTGAGTTAATCGCCAATTAAAAAGGTT +AATGACATGCGAGAGACAGTCGAAATTATGCGTTATCCCGTCACTCTTACACCCGCGCCGGAAGGCGGTT +ATATGGTTTCTTTTGTGGATATCCCTGAAGCGTTGACCCAGGGCGAAACTGTCGCTGAAGCGATGGAAGC +GGCAAAAGATGCTTTACTGACCGCATTTGATTTTTATTTTGAAGATAACGAGCTTATCCCTTTACCTTCG +CCATTAAATAGTCACGATCACTTTATTGAAGTACCTTTGAGCGTCGCCTCTAAGGTATTGCTGTTAAATG +CTTTTTTACAGTCAGAAATCACTCAGCAAGAGTTAGCCAGGCGAATTGGCAAACCTAAACAGGAGATTAC +TCGCCTATTTAACTTGCATCATGCGACAAAAATCGACGCCGTCCAGCTCGCGGCAAAGGCGCTTGGCAAA +GAGTTATCGCTGGTGATGGTTTAATTACAGTTAACGAAAAGTTGTCATTTTTAACAACTGATATAGACTG +CCGAATCATCTGCACATAATTACGATTCGATAATGAAAAAATACCAGCAGCTTGCAGAACAATTACGCGA +GCAGATTGCGTCGGGTATCTGGCAACCCGGCGATCGTTTGCCTTCGTTGCGTGACCAGGTGGCGCTTTCA +GGCATGAGCTTTATGACTGTCAGCCATGCCTATCAGTTGCTCGAAAGTCAGGGATATATTATCGCACGAC +CGCAGTCGGGTTATTACGTTGCGCCACAGGCAATAAAAATGCCGAAAGCGCCAGTCATTCCAGTCACTCG +AGATGAAGCAGTCGATATCAACACTTATATTTTTGATATGTTGCAGGCCAGTCGCGATCCGTCGGTCGTT +CCGTTTGCCTCGGCCTTTCCCGACCCGCGACTTTTCCCCCTCCAACAACTAAACCGCTCGCTGGCGCAGG +TAAGCAAAACCGCCACAGCGATGAGCGTGATTGAAAACTTACCGCCAGGAAACGCAGAACTGCGTCAGGC +TATTGCTCGTCGCTATGCCTTACAGGGCATCACCATTTCTCCTGATGAAATTGTCATTACTGCCGGGGCG +TTAGAGGCATTAAACCTCAGTTTGCAAGCGGTAACTGAACCGGGCGATTGGGTGATAGTAGAGAATCCTT +GTTTCTACGGTGCGTTGCAGGCGCTGGAGCGGCTACGGCTGAAGGCGTTATCGGTGGCGACGGATGTTAA +AGAAGGGATAGATCTTCAGGCGCTGGAACTGGCGTTGCAGGAGTATCCGGTGAAAGCGTGCTGGCTGATG +ACTAATAGCCAGAATCCACTCGGATTTACCTTAACGCCGCAAAAAAAAGCACAACTGGTGGCGTTGCTCA +ATCAGTACAACGTAACGCTGATTGAAGATGACGTTTACAGCGAACTTTATTTTGGACGGGAAAAACCGCT +GCCTGCGAAAGCGTGGGATCGCCACGATGGCGTTTTGCATTGCTCTTCGTTTTCGAAATGTCTGGTGCCT +GGTTTTCGTATTGGTTGGGTCGCCGCCGGAAAACATGCACGTAAAATTCAACGCTTGCAGTTGATGAGTA +CGCTTTCCACCAGCTCACCGATGCAACTTGCGCTGGTGGATTACCTTTCCACGCGCCGATACGACGCCCA +TCTTCGTCGCCTGCGTCGCCAGCTTGCGGAACGTAAACAACGTGCCTGGCAGGCACTGCTGCGTTATCTG +CCTGCGGAAGTGAAAATTCATCATAATGACAGTGGTTACTTTCTCTGGTTGGAGCTCCCCGAGCCGTTAG +ATGCCGGCGAATTAAGCCTGGCGGCACTGACGCATCATATCAGTATTGCGCCGGGTAAAATGTTTTCTAC +CGGTGAAAACTGGTCACGTTTTTTCCGTTTTAATACCGCGTGGCAGTGGGGAGAGCGTGAAGAACAGGCG +GTAAAACAATTAGGCAAACTTATTCAAGAACGGCTGTAATAGCGTTTAATTTAATTCCTCTTAGATTGGG +TAATATGAATTTCGAATAGCAGTCATATTTCCTAACTCCTTGACTATACTCCAGAAGATAACCTTACAGA +CGGCATAATGCGCGGTAGCTCACAACCTGAATAAATTTTCTCAGGGGCGAAGGTGTGCCTGCAAGCCGCC +GTCTATGGTTAAACAAGGAGATATTTTTACGGCACGGCGGCTGAACAATTAATTACGACAGGAGTAAGAC +CTTATGAGCAAGACATTTGCCCGCAGCAGCCTGTGTGCGCTCAGCATGACAATAATGACCGCTCACGCCG +CCGAACCGCCTACCAATTTAGATAAACCGGAAGGGCGACTGGATATTATCGCCTGGCCGGGATACATCGA +ACGCGGACAAACTGATAAACAATACGACTGGGTAACGCAGTTCGAAAAAGAGACAGGCTGCGCGGTGAAT +GTGAAAACCGCCGCGACTTCCGATGAAATGGTCAGTCTGATGACCAAAGGGGGTTACGATCTGGTTACGG +CATCCGGCGATGCCTCGCTGCGTTTGATTATGGGTAAACGCGTGCAGCCGATTAATACCGCATTGATTCC +CAACTGGAAAACGCTCGATCCGCGCGTGGTTAAAGGCGACTGGTTTAATGTTGGCGGCAAAGTTTACGGC +ACACCTTACCAATGGGGGCCGAACCTGCTGATGTACAACACTAAAACCTTCCCGACGCCGCCGGATAGCT +GGCAAGTGGTTTTTGTTGAGCAAAATCTGCCGGACGGCAAGAGCAATAAAGGCCGCGTTCAGGCTTATGA +TGGCCCTATCTATATTGCGGACGCTGCGTTGTTCGTTAAAGCCACTCAGCCGCAGTTGGGCATCAGCGAT +CCGTATCAACTCACCGAAGAACAGTACCAGGCGGTGCTGAAAGTGCTGCGCGCTCAACACAGTTTGATCC +ATCGCTACTGGCATGACACTACCGTGCAAATGAGCGATTTCAAAAACGAGGGTGTGGTTGCTTCCAGTGC +CTGGCCCTATCAGGCCAACGCCCTGAAAGCCGAAGGCCAGCCTGTTGCTACCGTTTTCCCGAAGGAGGGT +GTTACCGGTTGGGCTGATACCACCATGCTGCATAGCGAAGCGAAACATCCGGTTTGCGCCTACAAATGGA +TGAACTGGTCATTAACGCCAAAAGTGCAGGGCGATGTGGCGGCCTGGTTTGGCTCGTTACCGGTAGTGCC +GGAAGGGTGTAAAGCCAGTCCGTTATTAGGCGAAAAAGGTTGTGAAACCAACGGTTTTAACTATTTCGAC +AAAATCGCCTTCTGGAAAACGCCTATAGCAGAAGGGGGCAAGTTTGTTCCCTACAGTCGCTGGACGCAGG +ATTACATTGCCATTATGGGCGGTCGCTAACTTCGCTGGGGTGCTTTATGACGTACGCAGTGGAGTTTGAC +AACGTCTCGCGGTTGTACGGTGACGTGCGCGCAGTAGATGGCGTCAGTATTGCGATAAAAGATGGTGAGT +TCTTCTCTATGCTGGGGCCGTCCGGCTCCGGCAAAACCACCTGCCTGCGCCTGATTGCTGGCTTCGAACA +GCTTTCCGGCGGGGCTATCTCTATCTTTGGTAAACCCGCCAGCAATCTGCCACCGTGGGAGCGGGACGTG +AATACTGTCTTTCAGGACTACGCGCTATTTCCGCATATGTCGATTCTTGACAATGTCGCCTATGGGCTGA +TGGTCAAAGGCGTGAATAAAAAGCAGCGGCACGCAATGGCGCAAGAGGCGCTGGAGAAAGTGGCGTTGGG +GTTTGTACATCAACGTAAACCGTCACAACTTTCTGGTGGTCAGCGCCAGCGGGTTGCTATCGCCAGAGCA +TTGGTGAATGAACCGCGCGTATTGCTGTTGGATGAACCGCTCGGCGCACTGGATCTCAAATTGCGTGAGC +AGATGCAGCTGGAACTGAAAAAACTGCAACAGTCTCTCGGTATCACTTTTATCTTCGTTACCCACGATCA +GGGCGAAGCGTTATCGATGTCCGATCGTGTGGCGGTTTTCAATAATGGACGCATTGAGCAGGTCGATTCC +CCGCGCGATCTCTATATGCGCCCGCGCACGCCGTTTGTTGCCGGGTTCGTTGGTACATCGAATGTTTTTG +ATGGACTGATGGCAGAGAAACTTTGTGGCATGACGGGAAGCTTCGCCCTGCGACCGGAACATATCCGCCT +CAACACCCCTGGTGAACTGCAGGCCAATGGCACGATCCAGGCGGTGCAATATCAGGGCGCGGCAACTCGT +TTTGAACTGAAATTGAACGGCGGTGAAAAACTGCTTGTGAGTCAGGCCAATATGACAGGCGAAGAACTGC +CTGCCACGCTCACGCCCGGACAACAGGTGATGGTTTCCTGGTCGCGTGATGTGATGGTGCCGCTGGTTGA +GGAGAGGTGAATGGCGATGAATGTATTGCAATCACCTTCACGTCCAGGTCTGGGTAAGGTGTCCGGTTTC +TTCTGGCATAATCCGGGGCTGGGGCTGTTTTTACTGCTGCTTGGCCCGCTAATGTGGTTTGGCATTGTCT +ATTTCGGCTCGCTGCTGACACTGTTATGGCAGGGATTTTATACTTTTGACGATTTCACCATGTCGGTAAC +GCCGGAACTGACGCTGGCGAATATCCGTGCGCTGTTTAATCCGGCGAATTACGACATCATTCTCCGCACG +CTGACTATGGCTGTGGCAGTCACTATCGCCAGCGCCATTCTGGCTTTTCCAATGGCGTGGTATATGGCGC +GCTATACCAGCGGGAAAATGAAAGCGTTTTTTTATATTGCGGTAATGTTGCCGATGTGGGCGAGCTACAT +TGTTAAAGCCTATGCCTGGACGTTATTGCTGGCAAAAGATGGCGTGGCTCAGTGGTTTTTACAACATCTT +GGGCTGGAACCACTGCTGACTGCGTTCCTTACATTACCTGCGGTGGGCGGAAATACGCTGTCAACTTCCG +GGCTGGGGCGCTTTCTGGTGTTTCTCTATATCTGGTTGCCGTTCATGATCCTGCCCGTTCAGGCGGCGCT +TGAGCGTTTGCCGCCGTCATTGTTGCAGGCGTCGGCTGATCTCGGCGCACGTCCACGACAAACCTTTCGC +TATGTGGTGCTGCCGCTGGCAATCCCGGGTATTGCCGCTGGCTCTATCTTTACCTTCTCACTCACACTGG +GCGATTTTATCGTCCCGCAGCTGGTTGGTCCTCCAGGATATTTTATCGGCAATATGGTTTATTCCCAGCA +GGGGGCGATTGGCAATATGCCGATGGCGGCGGCATTCACCCTGGTGCCGATTATTCTCATCGCACTGTAC +CTGGCGTTCGTGAAACGTCTGGGAGCGTTCGATGCACTCTGAACGCGCACCGTTTTTCCTCAAACTGGCG +GCCTGGGGCGGCGTTGTTTTCCTACATTTTCCCATCCTGATAATCGCCGCCTATGCGTTTAACACTGAAG +ATGCGGCGTTTAGTTTTCCACCGCAGGGCCTGACGCTGCGCTGGTTTAGCGTGGCAGCACAGCGTAGTGA +TATTCTTGATGCCGTGACACTGTCACTTAAAGTGGCGGCGCTGGCGACATTAATTGCGCTGGTGTTAGGG +ACGCTGGCAGCTGCCGCGCTGTGGCGACGAGACTTTTTCGGCAAAAACGCCATTTCGCTGTTACTGCTGC +TGCCCATTGCGCTGCCGGGCATTGTCACTGGTCTGGCGTTATTAACCGCCTTTAAAACCATCAATCTGGA +GCCGGGATTTTTCACCATCGTGGTCGGTCATGCGACTTTTTGTGTAGTTGTGGTGTTTAACAATGTCATC +GCCCGTTTTCGCCGCACCTCCTGGAGTCTGGTTGAGGCGTCAATGGATCTTGGGGCCAATGGCTGGCAAA +CCTTCCGCTACGTAGTGTTGCCGAATCTCAGTTCGGCGTTACTGGCAGGAGGAATGCTGGCGTTTGCCTT +GTCGTTCGATGAAATCATCGTTACGACCTTTACGGCAGGTCATGAACGAACGTTACCGTTGTGGTTGCTC +AATCAGCTTGGGCGACCGCGTGATGTACCGGTAACTAACGTGGTGGCACTGCTGGTTATGTTGGTAACAA +CCTTGCCGATCCTGGGGGCCTGGTGGCTAACCCGCGAAGGCGACAATGGTCAATAACCACTGATACAGGA +ATATGCTATGCAACATAAGTTACTGATTAACGGAGAACTGGTTAGCGGCGAAGGGGAAAAACAGCCTGTC +TATAATCCGGCAACGGGGGACGTTTTACTGGAAATTGCCGAGGCATCCGCAGAGCAGGTCGATGCTGCTG +TGCGCGCGGCAGATGCAGCATTTGCCGAATGGGGGCAAACCACGCCGAAAGTGCGTGCGGAATGTCTGCT +GAAACTGGCTGATGTTATCGAAGAAAATGGTCAGGTTTTTGCCGAACTGGAGTCCCGTAATTGTGGCAAA +CCGCTGCATAGTGCGTTCAATGATGAAATCCCGGCGATTGTCGATGTTTTTCGCTTTTTCGCGGGTGCGG +CGCGCTGTCTGAATGGTCTGGCGGCAGGTGAATATCTTGAAGGTCATACTTCGATGATCCGTCGCGATCC +GTTGGGGGTCGTGGCTTCTATCGCACCGTGGAATTATCCGCTGATGATGGCCGCGTGGAAACTTGCTCCG +GCGCTGGCGGCAGGGAACTGCGTAGTGCTTAAACCATCAGAAATTACCCCGCTGACCGCGTTGAAGTTGG +CAGAGCTGGCGAAAGATATCTTCCCGGCAGGCGTGATTAACATACTGTTTGGCAGAGGCAAAACGGTGGG +TGATCCGCTGACCGGTCATCCCAAAGTGCGGATGGTGTCGCTGACGGGCTCTATCGCCACCGGCGAGCAC +ATCATCAGCCATACCGCGTCGTCCATTAAGCGTACTCATATGGAACTTGGTGGCAAAGCGCCAGTGATTG +TTTTTGATGATGCGGATATTGAAGCAGTGGTCGAAGGTGTACGTACATTTGGCTATTACAATGCTGGACA +GGATTGTACTGCGGCTTGTCGGATCTACGCGCAAAAAGGCATTTACGATACGCTGGTGGAAAAACTGGGT +GCTGCGGTGGCAACGTTAAAATCTGGTGCGCCAGATGACGAGTCTACGGAGCTTGGACCTTTAAGCTCGC +TGGCGCATCTCGAACGCGTCGGCAAGGCAGTAGAAGAGGCGAAAGCGACAGGGCACATCAAAGTGATCAC +TGGCGGTGAAAAGCGCAAGGGTAATGGCTATTACTATGCGCCGACGCTGCTGGCTGGCGCATTACAGGAC +GATGCCATCGTGCAAAAAGAGGTATTTGGTCCAGTAGTGAGTGTTACGCCCTTCGACAACGAAGAACAGG +TGGTGAACTGGGCGAATGACAGCCAGTACGGACTTGCATCTTCGGTATGGACGAAAGATGTGGGCAGGGC +GCATCGCGTCAGCGCACGGCTGCAATATGGTTGTACCTGGGTCAATACCCATTTCATGCTGGTAAGTGAA +ATGCCGCACGGTGGGCAGAAACTTTCTGGTTACGGCAAGGATATGTCACTTTATGGGCTGGAGGATTACA +CCGTCGTCCGCCACGTCATGGTTAAACATTAAGGATAATATTGCAGATCGTAAGAGTATGAGATGATCTT +GCGTACTGTCAGAGCACTGATTTCTCTGACAGTACGTGCTGCGTGCAAAATCACTACATCAAATAAACCA +GCCAAATCTCATAGAGATAAGAGTAAACAAACCAACAGCAGCAAAGAAATTTATCAGTACTACAGTTCTA +CTGGAAACATTCATTTTTGCCACCTTTTATCATTGCCCCTATGTGTATAGTACGGGTTAAGAAAATCCGC +AATAATACTCATTCTGAAGATGGATAAGGGCAAGTTGCTGTTTGATGATTTTTTCTCAAACTGGTGAAAA +AACTTGATGCACGTCAAAAAATGACGCATATTTGCGCGCGTTTTATTCATCTGGCTGGACGCCCGTACAT +GTCTCTCTATCAACACATGCTTGTTTTTTATGCGGTTATGGCAGCAATCGCATTTCTTATCACCTGGTTT +CTTTCTCACGATAAGAAACGCATCCGTTTCTTAAGCGCCTTTCTGGTGGGGGCAACATGGCCGATGAGTT +TCCCGGTGGCGCTGTTGTTTTCACTGTTTTAAATCTTACTCACTGGCTTGACGGCACCACGCAGACTTAT +ATCATTTGGATGAATCGATAAATTTCACAAGTGGCTAAGGAGAAAGTATGTCGCATCTGGATGAAGTCAT +CGCGCGCGTGGATGCCGCGATTGAAGAGAGCGTCATTGCCCATATGAACGAATTATTAATCGCCCTGAGC +GATGACGCGGAGTTAAGTCGGGAAGATCGCTACACCCAGCAGCAACGTCTGCGCACAGCGATCGCCCATC +ACGGTCGCAAGCATAAAGAAGATATGGAAGCGCGCCACGAACAGTTAACCAAAGGCGGCACCATCCTCTG +ATTAAAATGAGCGTCTGGCTACCAACCAGGCGCCAACCACAAGTAAAATTGCGCCACAAATTGGGCCGAA +CAACGCCCGTAGTGGTACGCCATGACTGCGGAAGATATCCAGCATCAGACCGCCAATCAGCTGACTGGCG +ACCAGTACAGCAATAGTTGTCGCCGCTCCCACATTCTGATATCCGCTGATACTGGCGAAGACAAAAAACG +ATCCCAGCAAGCCAGGTATAAGTGTCCACCAGCGCACGCTGGACACCAGTTCGCCAAACCCCGCCATGCC +TTGTTTAAACCATAAAATAGAAACAAAGAGCACAATCCCCACCAGTGAGTTCAGCAACATGGCGATGAGA +ATGGTAGAGGAGGTCTGGGTGATGCGCACCATCAGCGTGTTCTGGACAACCAGACCAATTCCGGCGGCAA +TCAAAAAAGCAAGGGTGAGCGACTGATTCATCCAATCGCGTCCGGTTCAGTGCGCTCGTCGAGTTGCAAC +TGCATAAATGTCAGATCCAGCCAACGACCAAATTTAGTGCCTACCTGCGGCATTTGCGCGGTGACGACAA +ATCCCAGCGACTGGTGGAGATGCAGCGAGGCCTGATTTTGCGATTCGATCCCGGCGACCATGACATGCTT +CCCGCAATCCCGCGCTTCATCAATCAATCGGCTTAACAATTTACGCCCCAGACCTTTGCCCTGATGATCG +GGATGGACATAAACCGAATGTTCCACGGTATGGCGAAAACCATCGAAACTACGCCAGTCGCCAAACGAGG +CATATCCCGTCACTACGCCGTTTTCCTCGCTCACCAGCACTGGATAACCTGCTAAAGTCCGCGCTTCAAA +CCAGGCAATGCGGTTATCAGCATCCACCGTTTGGTCATTCCAGATAGCCGCCGTATACAACACGGCGTGG +TTATAAATTTCCGCAATGGCAGCACAGTCGGCTTTGCGGGCAAAACGGATGGACATGTCTGGCCTCAATA +AAATAATGATGATGATGTTATCAATACTATCGAAAACAGCCCGAAGCAACGGATTCCTCGATGAAATTAT +TGCGTGTTGCAGAGGGGATGTGACGGCTGCAAACAAAACCAATCCCGTGAGCCTGCTACTATTGATGGAT +TCATGCCAAAAGCACAGGAGAGCATTATGGGGCAACAAAAGCAGCGTAATCGACGTTGGGTTCTGGCCTC +GCGTCCACATGGCGCACCTGTTCCGGAGAATTTCCGTCTTGAAGAAGATGATGTCGCCACACCGGGTGAA +GGACAGGTGTTACTGCGCACAGTTTATTTGTCCCTGGACCCGTATATGCGTGGACGTATGAGCGATGAGC +CATCTTATTCACCGCCTGTTGATATTGGCGGCGTGATGGTCGGCGGTACGGTGAGCCGTGTCGTGGAGTC +GAATCATCCTGATTATCAGTCTGGCGACTGGGTGCTGGGCTACAGTGGATGGCAAGACTATGACATATCC +AGTGGTGATGATCTGGTGAAACTTGGCGATCATCCGCAAAATCCATCGTGGTCGCTGGGTGTGCTAGGGA +TGCCAGGCTTTACCGCTTATATGGGCCTACTGGATATCGGTCAGCCTAAAGAGGGCGAAACGTTGGTGGT +AGCTGCGGCGACAGGACCAGTGGGGGCGACGGTGGGGCAAATCGGCAAACTTAAAGGTTGCAGAGTGGTG +GGGGTAGCCGGTGGCGCGGAAAAATGCCGCCATGCTACCGAGGTGTTAGGCTTCGATGTTTGTCTTGATC +ACCACGCGGATGATTTTGCCGAACAACTGGCGAAAGCGTGCCCAAAAGGTATTGATATCTATTATGAAAA +CGTGGGCGGTAAGGTATTCGATGCGGTGCTACCGTTACTTAATACATCTGCGCGCATTCCCGTCTGCGGA +TTAGTGAGCAGCTATAACGCTACAGAGCTACCACCCGGTCCGGATCGTTTACCTCTGTTGATGGCTACAG +TGCTGAAAAAACGTATTCGCTTGCAAGGTTTTATTATCGCTCAGGATTATGGTCACCGCATCCATGAGTT +TCAGAGGGAGATGGGGCAATGGGTGAAAGAGGATAAAATCCACTACCGCGAAGAAATTACTGACGGTTTA +GAGAATGCGCCACAGACGTTTATCGGCCTGCTGAAGGGTAAAAACTTCGGCAAAGTGGTGATCCGCGTGG +CGGGTGATGATTAAAGTTTCAACGGCGGCGTAAGCCGCCATAAAAATCCAGGCAAAAAGCTTATTTTCAG +CTTTAATTAACTAACCACATCATTGTTCTGCTGCTAATAACAACAAAGGTGAGTGGTTTATGATTATTCA +CTTTAATACACCAGGTGAATTCCTTCTGCCATGCAGGCAGGGTTGGACAGAAAACACGCGAAGGAATTAA +AATGCCTGGAACGGGAAAAATGAAACATGTCAGTTTGACTCTGCAGGTTGAGAACGACCTGAAACATCAG +CTTAGTATTGGCGCATTAAAACCTGGCGCACGCCTGATTACTAAAAATCTGGCGGAGCAATTAGGTATGA +GTATTACACCTGTGCGTGAAGCATTATTACGTCTGGTTTCGGTGAATGCGCTTTCTGTCGCACCTGCACA +AGCATTTACAGTTCCGGAAGTGGGGAAACGTCAATTAGACGAAATCAATCGGATCCGCTACGAACTGGAA +TTAATGGCAGTTGCTCTGGCTGTTGAAAACCTCACCCCGCAAGACCTTGCGGAACTCCAGGAATTGCTCG +AGAAATTACAGCAGGCGCAAGAAAAGGGCGACATGGAACAAATCATTAATGTAAACAGGCTATTTCGCTT +AGCGATTTATCATCGCTCAAATATGCCCATCCTGTGTGAGATGATTGAGCAACTGTGGGTCAGGATGGGG +CCTGGTTTACATTATCTCTATGAAGCGATTAATCCAGCGGAATTACGGGAGCATATAGAAAACTATCATC +TGTTACTCGCTGCGTTAAAAGCAAAAGACAAAGAGGGATGCAGACATTGTCTTGCTGAAATTATGCAACA +AAATATTGCTATTTTATACCAGCAATACAATCGTTAAAGTAAATGCCCGGCAAATACCGGGCATCAAGGT +AATTACTCAAATCTCCACGCAATATTCATGCCGACACCATAATTTCGTCCGGGCGAAGGTTCGTAATATC +GCCCGTTTGACTCATTGACAATGACAGAACCAACGTATTCTTTATCGAATAAATTATCGACACGACCAAA +TAAATCCACAGTTAAATTGTGGTAATTGTATTTATACCCGGTGAATAAGCCGACGAGAGTATAAGACGGC +GCTTTTGCCGTATTTTCATCATCTGCCATAATATCGCCCATATAACGCGCTTCCGTGCCTGCATACCAAC +CATCTTCCGGTACATAACCTATCGACGCAAAGCCCATATTACGGGCGATCCCTGGCATCCGATTACCGTT +ACAATCCTGTTCATTGCAAACATTGCTGCGATAGGTCGCATCAAGCCAGGTCCAGGACGCGTTTACGCGA +AAATCTCCTGCGAAACGTTGATCCCATGCCAGTTCAGCGCCTTGACGACGGGTCTTTCCGGCATTTTTGT +AAGTCGTACGCCCACCGCTACTGCTATCGACAACAATTTCATCATCAGTGTCGGTCTGAAACAATGCGAG +ACTAAGCAGCCCATCACCAATACGCGTTTTACTGCCGATCTCAATTGTATCGTTGGTGGATGGTTTTAAA +CCTAAGTTCATACCGCTTTGCCCATCAGCACGATAAGACAGCTCATTAATCGTCGGCGTTTCAAAACCTC +GCCCGGCTGCCAGATAGATATTCCAGGCATCGGTCATTGCATATTTTAACGAACCGGCAGGTAGCCATTT +ATGATAACTGGCATCACCGCTGTCATCGCCGTTACCCGGAGTAACGTAATGGTCGTTGGAATCAAACCAC +ACGGAGCTGTAGCGCACGCCAGCATCCAGCGACAGTTTTTCGCTCAGCTGCCACTGCGTCTGTAAATAGG +GATCGATGTTCCACATCAGATTGCGTTCGTCGCGACGCAACTCACCTTTTTGCCCGTACTCCGGCATGCC +GCTATTCAGGCGGAAGTTATTGTAGCCCTTGCGGTTTTCACTCATGTTTTCGTAGTTCAGGCCGGTAGTG +AACGTGACCGGAACGCCCAGTTCACCACGGTGTGTCCAGCGGCTGTCTATTCCCTGGTAATGGCGTTGCA +GGGTAATCACGCCGCCCGCATGTGACGGGTTAAGTTGTGGTGCCATGGGTATTGACTGGTACTGGGTCGT +TTCTCGCTCTCCGGCATACATCATCACACTCATATCATCCCGCGAACTCAGGCTACGCTCATAGCGCAAC +CCAGCCTGAGTTTGCTTGATGGTTTTTCGCGTGTCGTACTGTTCTGCACGAGGCGCTTGTTGTGGATTAG +CCTTCCATTCTGCTTTGGTTAGCCCACCTGGGTCATCTGCTTTGATATCCACACTATTGAAAATCAGACT +TAATTTGCTGGCTTCATCAATGCGTACGCCCAGTTTGGCATTGGCTAAATTTTTCTGTGCGCCACTATGG +TCACGATAGCCGTGGGTCGTAAAACGCGTGGTTGAGACGGTGTAATCGACATCGCCAGGCTGTGTGCCGT +CTCCCGTTGCGCCCGTTGCTTTCAGCCCATAGCGCCAGCTGCCAAAACTGCCGTAGTAACTACTGGCTTC +AATGGTTGGTGGCTGTTGTCCGGTCTGGGTGGTGACATTCATTACCCCACCAGACGCGTTGCCATACAGG +GCAGAGAAGGGGCCACGCAGCACTTCCACATTTTGCACACTGCTTAAATCGATGTTGGATGTTTGCCCTT +GCCCGTCGGGCATGGTGGCGGGAATACCGTCCACATACAGGCGAATACCGCGAATACCGTAAGTGGAGCG +GGAGCCAAATCCGCGAATCGACAGCTGTAAATCTTGCGCATAGTTCTGCCGGTTTTGTACCTGCAAACCA +GGCACGCCGGTCAGTGATTCGGACAAGTTAATGCGCGGTGTTGCCAGGCGCATCTCCTCGCCATCCACCA +CGCTTACTGCTGCTGGGGTATCCAGTTCTGAAACCACCTGCGGTGCGGCACTGACAATCATAGTCTGTTC +ATCAGCGGCAAAAACAACGGGGGAAAGGACAAGCAGTGCGGGCAAAACGGTCTGTCGGACGGAAAAAATC +TTCATGAAAAAAGCCAGGTTAAGAATGGGAAAACGCCGTCATGGTAATGAAATTGTAAATTTATGGAAAA +TGAAACGGCACAATACGTTAAGTAATTGAGAAAATTGTAGTCGTAACGGCAAGAAATGCTCCACATTTGA +GAAAATAATGATTACCATTCCCATTTATAACAAGAGCGTAACGATGATTACGCTTAGCGAAGCATTGTGA +AGCAGCAAAAATATCGGTTCATCAAAGGGAGTCGTCATGCATTTACGTCATCTGTTTTCATCGCGCCTGC +GTGGTTCATTACTGTTAGGTTCATTGCTTGTTGTTTCATCATTCAGTACGCAGGCCGCAGAAGAAATGCT +GCGTAAAGCGGTAGGTAAAGGTGCCTACGAAATGGCTTATAGCCAGCAAGAAAACGCGCTGTGGCTCGCC +ACTTCGCAAAGCCGCAAACTGGATAAAGGTGGCGTGGTTTATCGTCTTGATCCGGTCACTCTGGAAGTGA +CGCAGGCGATCCATAACGATCTCAAGCCGTTTGGTGCCACCATCAATAACACGACTCAGACGTTGTGGTT +TGGTAACACCGTAAACAGCGCGGTCACGGCGATAGATGCCAAAACGGGCGAAGTGAAAGGCCGTCTGGTG +CTGGATGATCGTAAGCGCACGGAAGAGGTGCGCCCGCTGCAACCGCGTGAGCTGGTAGCTGACGATGCCA +CGAACACCGTTTACATCAGTGGTATTGGTAAAGAGAGCGTGATTTGGGTCGTTGATGGCGGGAATATCAA +ACTGAAAACCGCCATCCAGAACACCGGTAAAATGAGTACCGGTCTGGCGCTGGATAGCGAAGGCAAACGT +CTTTACACCACTAACGCTGACGGCGAATTGATTACCATCGACACCGCCGACAATAAAATCCTCAGCCGTA +AAAAGCTGCTGGATGACGGCAAAGAGCACTTCTTTATCAACATTAGCCTTGATACCGCCAGGCAGCGTGC +ATTTATCACCGATTCTAAAGCCGCAGAAGTGTTAGTGGTCGATACCCGTAATGGCAATATTCTGGCGAAG +GTTGCGGCACCGGAATCACTGGCTGTGCTGTTTAACCCCGCGCGTAATGAAGCCTACGTAACGCATCGTC +AGGCAGGTAAAGTCAGTGTGATTGACGCGAAAAGCTATAAAGTGGTGAAAACGTTCGATACGCCGACTCA +TCCAAACAGCCTGGCGCTGTCTGCCGATGGCAAAACGCTGTATGTCAGTGTGAAACAAAAATCCACTAAA +CAGCAGGAAGCTACCCAGCCAGACGATGTGATTCGTATTGCGCTGTAATAGATATGGCGAGGGTGAAAAC +GGTGAGACTTGCCTGCCTTTTATCACGGCGTATCCGGCACTTTCGTCAGTAATCTGAATTTGCCCGGCAC +GTAGCCGGGCAATTTTGCAATTAACTCGCCGTTTCAGGCTTAAACACAATTTCCTGTTTTTCTTCATCTT +CCTCGACGACTGGCGCAGTGCTGTGAATTTCAGCAACGCGTTTGCGCACACCAAACCAGCCTATAACCAG +CAAAATACCGATAATCGGCAGCGCCGCGATAGTATAAGTCCCGTTCGGGTAATCGAACGCCATCAGCACA +AGGACACTCAGTAAAAACAGTAATGTCAGCCAGGAAGTGAAGGGCGCGCCAGGCAGTTTAAAACTGACAT +CCGCTGCTTTGCCTTCTTTAATCGCTTTACGCAGGCGCATCTGGCACACGATGATAAACGCCCATGAAGC +GATGATTCCCAGCGACGCGAAGTTCAACACAATCTCAAATACGCGCGACGGCACCAGATAGTTGAGGAAT +ACGCCGACGACATACACAACTAGTGTCGCCAGAATCCCGGCATACGGCACATGCTGACGACTCATTTTCG +CCATAAAACTCGGTGCGGAACCGCCCATCGCCATTGAGCGCAGAATACGTCCGGTGCAGTACAGACCTGA +ATTCAGGCTGGAGAGGGCAGCGGTCAGCACCACAATGTTCATAATGCTGCCGATATATGGCACACCCAGT +TTAGAGAAAAACGTCACGAACGGACTTTGCCCCGCCTGATACGCGCTCCACGGCAATAACATAACCAGCA +ACACCACGGAGCCGACGTAAAACAGGCCAATACGCCAAATCACACTGTTAATGGCTTTAGGCACCATGGT +CTGCGGATCTTTACATTCTCCGGCAGCTGTACCCACCATTTCAATGGAGGCAAAAGCAAACACTACGCCC +TGAATCAACACCAGCGCAGGCAGCAAACCGTGGGGGAAGAAGCCGCCATTATCGGTGATTAAATGAAAGC +CAGTGGTGTTGCCATCCAGCGGCTGACCACTACCGAGGAACACTGTACCCACGACCAAAAAGGTCACAAT +GGCGAGCACTTTAATAAGCGCAAACCAGAACTCCATCTCCGCAAACCATTTCACACCGATCATATTCATG +GTGCCAACGATGGTAAGTGCAGCGAGCGCAAAGACCCACTGCGGCACGCCGCCAAACGCACCCCAGTAAT +GCATATACAGAGCGACGGCGGTAATATCAACAATCCCCGTCATCGCCCAGTTGATGAAGTACATCCAGCC +AGCAACATAAGCGGCTTTCTCACCCAAAAACTCACGGGCATAAGAAACAAAACTGCCACTGGAAGGGCGG +TGTAGCACCAGCTCACCCAATGCACGCAGAATAAAAAACGAAAACAAGCCACAAATTAAATAAACCAGTG +CCAGTGCGGGCCCCGCCATTTGCAGTCGGGCTCCTGCACCTAAAAACAAGCCGGTGCCAATCGCGCCGCC +AATGGCGATCATCTGCACCTGGCGATTGCCCATCGCTTTGTGATACCCCTCTTCGTGGGCATTAAGCCAG +CGGCGTTTCGCGGCGTGTTGATCTGAAGTGTCGGTGTCGTGTTTACTCATTGCTCTCCCTGATTGCTTTA +ATGAAAAAGTCATATAAGTTGCCATGAACAATGTTTATTCATCCTGGCGATGATAGTTATCACCATTATT +CTTTATGGGTATAAAACTATCGGCGCAGCATCCTACCCGTTATCGATAAACGATGCAAAACATCCCCTTA +CAATCCTGAAGGGGATTAATACAACTGACGAAAAAATGACAAATCCTTTTGCTGGTTAACCTGTGTACTG +TCCTACACTTAATCTTTAAAAGATTGTGAGGGGCATATGATTAAGGTGTATGGCGTACCCGGATGGGGCT +CTACAATCAGTGAGCTGATGCTAACACTGGCTGATATTCCTTATCAGTTCGTTGATGTCAGTGGTTTTGA +CCACGAGGGAGCTTCACGCGAGTTATTGAAAACCCTGAACCCGTTGTGTCAGGTTCCGACACTGGCATTG +GAAAATGACGAGATTATGACGGAGACAGCGGCGATTGCATTGATGGTTCTCGATCGTCGCCCGGACCTTG +CGCCACCGGTTGGGCGCGCCGAACGTCAGCTGTTTCAACGGCTATTGGTCTGGCTGGTTGCTAATGTCTA +TCCAACATTCACTTTCGCCGATTACCCTGAGCGTTGGGCTCCTGACGCACCTGAACAGTTAAAGAAGAAT +GTTATTGAATATCGAAAATCGCTTTATATCTGGTTGAATTCGCAGCTCACTGCTGAACCTTATGCGTTTG +GTGAGCAACTAACGCTGGTGGACTGTTATCTTTGCACTATGCGCACATGGGGGCCTGGGCATGAATGGTT +TCAGGATAATGCCACGAATATCAGTGCGATTGCTGATGCTGTATGTCAGTTACCGAAATTACAAGAAGTA +TTAAAAAGGAATGAAATTATTTGAGTGGGATACCAGAAGATTATGTTATTTATTATTCAGTAACTTTATC +CACAATGATGGGCGTAATTAATTAAATTCATGGTATGTTTTTTAATTTATATCACTCTCCTTTTCATTCA +GCGTGTCTATTTCATTTCCTCTGAAAAGAAACTAACTATTCACATCGTGCAGATGTTTCAGTTGTTATCA +CAGGCATTCTATAATCTCAAAATGTTTTTAATGATGGATATGCTCGGAGTTGGAGATGCAATTAATATTA +ATACAAATAAAAATATCCGGCAGGTATGCTAAAAGGATAAATGGCGTTCTCTGTATTTATTCGCAATTAT +CTGTAGGACAAATATGGAGAGCTTGATGAGTCAGAGCTAAAACAGCAATTGATTAATAAACATGTTGATT +TATTCAAGAAAATGGATGTATTTTAAATGTTGATTCTTAATATAACCTAATCAATAGATTATCAAGTGAG +AGCTACACATTATTGGAGGGGCAGGGGAAAACACCATTTTGGGAACAATGCATCAGGTACTCTTACCACT +GAAGCAAGATCATCCGGCACCAGGTGGTGGTGCAGTGCTTTGGAAATGGTCCCCTCGGGGGAGTTGTCAT +TATTTTCTATGCTATTTGCTTATTATATTCATCAGGTGAATTTAATAAATTCCTAATTTGAAATATCCAC +TATTAAGCTAGTGTTTAACGACGTTAAGATGGCAATGTGCAGATCATGTTATCAGGGTGGGGCGGTAGCG +TATATTCCTTATACAAACCATCATTCATTTCAATGATTGTTATTGAATTATTTATTGTTGTGAATAAAAA +GACATTATGAATATTGGTTTGACTTTGCATATCAGGTTTTTTATTACTCGCTGTAATGTACGAGCCTGTC +GTGAATAACGTCGAGAACCCATCCGTTGCGTTTGTGATTATTTTGTTGACTAAACAGACACCCGTTTCTC +TGAAGTAAAATCCCAGACTAAATCATCACATAACCATGACATTTTTCTGATATTCCCCGGTAACGCCAGA +TGTCGACTCGCTTAACCACCCTCAGCCATACCAGTGAAGGCCACCGCGTGTCGGTCCACTACGGCTATGA +CGATAAAGGCCGCCTGACCGGCGAACGCCAGACGGTGGAGAACCCGGAGACGGGGGAACTGCTGTGGCAC +CATGAGACCGGACATGCGTACAACGAACAGGGGCTGGCAAACCGCGTCACGCCGGACAGTCTGCCGCCGG +TGGAGTGGCTGACCTACGGCAGCGGCTATCTTGCGGGCATGAAGCTGGGCGGGACGCCGCTGCTGGAGTT +CACGCGCGACCGCCTGCACCGTGAGACGGTGCGCAGCTTCGGCAGCATGGCAGGCAGTAATGCCGCATAT +AAACTGACCAGCACATACACCCCCGCAGGCCAGTTACAGAGCCAGCACCTGAACAGCCTGGTGTATGACC +GTGACTACGGGTGGAATGACAACGGCGACCTGGTGCGCATCAGCGGCCCGCGACAGACGCGGGAATACGG +CTACAGCGCCACGGGCAGGCTGGAGAGTGTGCGCACCCTCGCACCAGACCTGGACATCCGCATCCCGTAT +GCCACGGACCCGGCGGGCAACCGGCTGCCGGACCCGGAGCTGCACCCGGACAGTACACTCACAGTGTGGC +CGGATAACCGCATCGCGGAGGATGCGCACTATGTCTACCGCCACGATGAATACGGCAGGCTGACGGAGAA +GACGGACCGCATCCCGGCGGGTGTGATACGGACGGACGACGAGCGGACCCACCACTACCACTACGACAGC +CAGCACCGCCTGGTGTTCTACACGCGGATACAGCATGGCGAGCCACTGGTCGAGAGCCGCTACCTCTACG +ACCCGCTGGGACGGCGAATGGCAAAACGGGTCTGGCGGCGGGAGCGTGACCTGACGGGGTGGATGTCGCT +GTCGCGTAAACCGGAGGTGACGTGGTATGGCTGGGACGGAGACAGGCTGACGACGGTGCAGACTGACACC +ACACGTATCCAGACGGTATACGAGCCGGGAAGCTTCACGCCGCTCATCCGGGTCGAGACAGAGAACGGCG +AGCGGGAAAAAGCGCAGCGGCGCAGCCTGGCAGAGACGCTCCAGCAGGAAGGGAGTGAGAACGGCCACGG +CGTGGTGTTCCCGGCTGAACTGGTGCGGCTGCTGGACAGGCTGGAGGAAGAAATCCGGGCAGACCGCGTG +AGCAGTGAAAGCCGGGCGTGGCTTGCGCAGTGCGGGCTGACGGTGGAGCAACTGGCCAGACAGGTGGAGC +CGGAATACACACCGGCGCGAAAAGTTCATTTTTACCACTGCGACCACCGGGGCCTGCCGCTGGCGCTCAT +CAGCGAAGACGGCAATACGGCGTGGCGCGGGGAGTATGATGAATGGGGCAACCAGCTTAATGAGGAGAAC +CCGCATCACCTGCACCAGCCGTACCGTCTGCCAGGGCAGCAGCATGATGAGGAGTCGGGGCTGTACTATA +ACCGTCACCGGCACTACGATCCGTTGCAGGGGCGGTATATCACCCCGGACCCGATTGGGTTGAGAGGTGG +ATGGAATATGTATCAGTATCCGTTGAATCCCATACAAGTGATAGACCCAATGGGGTTAGATGCGATTGAG +AATATGACATCAGGTGGACTAATTTATGCCGTATCTGGTGTACCTGGATTGATTGCTGCAAACAGCATTA +CTAACAGTGCTTACCAGTTCGGTTATGATATGGATGCTATTGTTGGCGGAGCTCATAATGGGGCCGCCGA +TGCAATGAGACATTGTTACTTGATGTGTCGAATGACTAAGACATTTGGATCAACAATAGCTGACGTGATA +GGTAAAAATCATGAGGCGGCAGGGGATAGACAAGGTCAGCCAGCTAAAGAAAGAATCATGGATCTTAAAA +ATAACACTGTCGGTATTGCTTGTGGCGATTTTTCTGCCAAATGTAGCGATGCATGTATTGAAAAATATAA +CACTGGGCAACTCTTCGGGTTAGATGGTATAAAAGCAGATAATCCAATAAAAGCAAAGCAAGGGAGTTCA +GATGCTTCAAATTATTAGAGGCAAACTTGTCATTTTTTTAATTACCCTTTGTTTATTTGTTGTTTACCTT +GGGTTTGATAACAATTCAAATTCTGACATCGTATTTTATGGACATAAAACACCAAAGAGCGTTGAGATAT +ATCTTTCTGAAAAAAATATTATTTATAAAATAATTAATGACCAAAAAATTAGTAGAGGGAATGGTCATTT +TATAAGTATAATGGTTAATAATTACAGGACGCACTGTGGAGTGGTTGATATAAATCTTAATTTTTTCAAT +GATATTCTTTATAGCGTGCGATTAAAAAACATTAGTAAACTGGAGAATATGGAGTTCTGCGCTACAAAAC +AACGGGTGTATTTTAGTGATAAAAACAAGAAGGCTAGTTATAAAATAATTAATTATGGAGACTATTATGA +TGTTGATTATTATGATAACAATTTGAAAAATGAAGTTTTTGACTGGATTGGTAAATGGTCATAATGAACA +ACACCAGAAAGAGAAAAATATAAAATACATACAGAAAGACATGAGAGCAAGGGACGGGGCAGGGCAAGAT +CATGAAAATTGTGATGTAAATCACGATTTTCATCTTTGCTTTAACGCCTACAGGTGATCAAAATTTAACC +TTTGGAATAACTAAAAAGATAAAAAAGGACGCCAGGTGAGTATTCAAAGTTTGCTTGATTATATTTCAGT +GACCCCTGATATACGACAACAAGGAAAGGTTAAACATAAATTATCTGCTATTTTGTTTCTCACCGTATGT +GCAGTAATTGCAGGTGCCGATGAGTGGCAGGAAATTGAAGATTTTGGACATGAAAGACTTGAATGGCTAA +AGAAATATGGTGATTTTGATAATGGCATTCCGGTCGATGACACCATTGCACGCGTTGTGAGTAACATTGA +CAGTTTGGCCTTTGAAAAGATGTTTATTGAATGGATGCAGGAGTGCCATGAAATCACTGATGGTGAAATT +ATAGCAATAGATGGAAAGACCATAAGAGGCTCCTTTGATAAGGGAAAAAGAAAAGGAGCAATCCATATGG +TGAGTGCATTCTCGAACGAAAATGGTGTTGTACTGGGGCAGGTGAAAACGGAAGCCAAAAGTAATGAGAT +TACAGCCATTCCAGAGTTGCTTAACCTACTGTATTTAAAGAAAAATTTGATAACCATTGATGCTATGGGC +TGTCAGAAAGATATCGCTTCGAAGATCAAAGATAAAAAAGCAGATTATCTTCTGGCAGTAAAAGGCAATC +AGGGGAAATTACATCATGCATTCGAGGAAAAATTTCCTGTAAATGTGTTTTCTAATTATAAAGGCGATTC +GTTTAGTACGCAGGAGATAAGTCATGGAAGAAAAGAAACACGTTTGCATATTGTCAGTAACGTAACGCCT +GAACTTTTGTGATTTTGAATTCGAATGGAAGGGATTAAAAAAGCTTTGTGTAGCATTGTCATTCAGGCAG +AAGAAAGAAGATAAATCAGCAGAAGGTGTAAGCATCCGATATTATATTTCATCAAAGGATATGGATGCTA +AAGAATTTGCACATGCTATCAGAGCGCACTGGCTGATCGAGCACAGTCTTCATTGGGTGTTAGATGTAAA +AATGAATGAAGATGCCAGCCGGATAAGAAGAGGAAACGCAGCCTAAATAATATCTGGAATAAAGAAGATG +GCACTGAATTTATTAAGAGATTGCAAAGACATTAAGGGTGAAGAGGAAAAGAAAGAAGGCTGCGTTAAAC +ACAGGGAAAGATCATCAGAAGTTCACTTTTTGTACTAAACAATTCGCATTTTATGTTTAAAAATTGAGAT +ATTCCTTATTACCTAAAGCTGTTTTTTATTGCTTACACATGATCAAATACTCCTTACATAATTAAGGAGA +ACAAAATGGAACTTAAAAAATTGATGGGACATATTTCTATTATCCCCGATTACAGACAAGCCTGGAAAAT +GGAACATAAGTTATCGGATATTCTACTGTTGACTATTTGTGCCGTTATTTCTGGTGCAGAAGGCTGGGAA +GATATAGAGGATTTTGGGGAAACACATCCCGATTTTTTGAAGCAATATGGTGATTTTGAAAATGGTATTC +CTGTTCACGACACCATTGCCAGAGTTGTATCCTGTATCAGTCCTGCAAAATTTCACGAGTGCTTTATTAA +CTGGATGCGTGACTGCCATTCTTCAGATGATAAAGACGTCATTGCAATTGATGGAAAAACGCTCCGGCAT +TCTTATGATAAGAGTCGCCGCAGGGGAGCGATTCATGTCATTAGTGCGTTCTCAACAATGCACAGTCTGG +TCATCGGACAGATCAAGACGGATGAGAAATCTAATGAGATTACAGCTATCCCAGAACTTCTTAACATGCT +GGATATTAAAGGAAAAATCATCACAACTGATGCGATGGGTTGCCAGAAAGATATTGCAGAGAAGATACAA +AAACAGGGAGGTGATTATTTATTCGCGGTAAAAGGAAACCAGGGGCGGCTAAATAAAGCCTTTGAGGAAA +AATTTCCGCTGAAAGAATTAAATAATCCAGCGCATGACAGTTACGCAATGAGTGAAAAGAGTCACGGCAG +AGAAGAAATCCGTCTTCATATTGTTTGCGATGTCCCTGATGAACTTATTGATTTCACGTTTGAATGGAAA +GGGCTGAAGAAATTATGCGTGGCAGTCTCCTTTCGGTCCATAATAGCAGAACAAAAGAAAGAGCTCGAAA +TGACGGTCAGATATTATATCAGTTCTGCTGATTTAACCGCAGAGAAGTTCGCCACAGCAATCCGAAACCA +CTGGCATGTGGAGAATAAGCTGCACTGGCGTCTGGACGTGGTAATGAATGAAGACGACTGCAAAATAAGA +AGAGGAAATGCAGCAGAATTATTTTCAGGGATACGGCACATTGCTATTAATATTTTGACGAATGATAAGG +TATTCAAGGCAGGGTTAAGACGTAAGATGCGAAAAGCAGCCATGGACAGAAACTACCTGGCGTCAGTCCT +TACGGGGAGCGGGCTTTCGTAATCTTGCCCTGGGCATTATTGTCGTATAAACGCTTTACCGGACACATGA +CATTCACAATGTGTGTTAATTTTACTGACATCTTTCAAAAGGAGCGTAATCATGCCGCACATCGACATTA +AATGTTTTCCGCGTGAACTGGACGAACAACAAAAAGCAGCACTTGCTGCAGATATTACCGACGTTATTAT +TCGTCATCTGAACAGTAAAGACAGTTCGATAAGCATTGCTCTACAGCAGATTCAACCAGAATCTTGGCAA +GCTATCTGGGATGCCGAAATCGCGCCCCAAATGGAGGCTTTGATAAAGAAACCTGGTTATAGCATGAATG +CTTAACCCGCCGTAACACGCTTGCCGCTGGTAACAAACGTCCCAGCACCTAAATGATGCAACGTATTGAG +CTTATCATCATCAAACTGCCAGCGGCCTTCGACAAATACCCGTGCGTCTGCCGCTGCTGATACTACTTCG +CCAAACAGCGTGTCGTATTCTTCTTGCGCAGAAGTCGCAGGTAGCAATCGACACTCCATCCACGCCAGAC +ATTTTTCCTCGACCAGAGGCAAACCAAATACCGGGCCTCTCACAACCGGAATGCCATAGCAATTAAATTT +ATCTTCATCACGCCCCGACACACTTCCCACCGCCCACGTCCAGTTAGTTGCTGCAACGCCCGGGATAACG +ATGCCAAATTTACCGTTATGTTCAATCAACTCCCTGGTCCATGTCGATTTATCTACCACAATCGCCACGC +GTGGAGGTTCAAACTCCACCGGCATTGACCAGGCTGCAGCCATAATGTTACGCCGCTGGGATTGCTCATC +GAAACTGGTGATCAAGACCGTTGGGCCATGATTTAACAGACGGCTGGCATGGTGTAATTCTATGGGGATG +AATCGGCTCATGGTATCGCCTCGCGAAGAAGGTTTTTTTAAGCGTAGTCCGTAACGCAATAAGTAACGAA +ATTAACGGGATTGGCGATTTGCGAACGTGATGCATGTCCGCGATCGCACAAAATAGCCGGTGCGGCGTCT +ATTCCAGGTTATAAGTTGAGAAAACCACTAAGGGAAACGCCTGATGACGCCCATTCTGAATCACTATTTT +GCCCGTATTAACTGGTCGGGAGCTGCTGCGGTCAATATTGATACGCTTCGTGCATTGCACCTGAAACACA +ATTGCACCATTCCGTTTGAAAACCTCGACGTTTTGCTGCCGAGGGAAATACAGCTTGATAATCAATCGCC +GGAAGAGAAACTGGTGATAGCCCGTCGTGGCGGTTACTGTTTTGAGCAGAATGGCGTGTTTGAGCGGGTG +TTACGCGAGCTGGGGTTTAACGTTCGCAGCTTGTTAGGGCGCGTAGTGTTATCAAATCCGCCAGCATTAC +CGCCGCGCACCCATCGTTTGCTGTTGGTGGAACTGGAAGAGGAAAAATGGATTGCTGATGTCGGTTTCGG +TGGGCAGACGCTAACCGCGCCGATTCGTTTAGTTTCCGATCTCGTGCAGACCACGCCACACGGAGAGTAT +CGGTTGTTGCAGGAGGGTGATGATTGGGTGTTGCAGTTTAATCATCATCAGCATTGGCAGTCGATGTACC +GTTTTGATCTCTGCGAGCAGCAACAAAGCGATTATGTGATGGGCAATTTCTGGTCGGCGCACTGGCCGCA +GTCGCATTTTCGCCATCATTTGCTGATGTGCCGCCATTTGCCGGACGGCGGCAAGCTGACACTGACCAAT +TTTCATTTTACCCATTATGAAAATGGGCACGCGGTGGAGCAGCGAAATCTACCGGATGTGGCGTCATTAT +ATGCTGTGATGCAAGAACAGTTTGGTCTGGGCGTGGATGATGCGAAACATGGCTTTACCGTGGATGAGTT +AGCGCTGGTGATGGCGGCGTTTGATACGCACCCGGAGGCGGGAAAATAATTTATGTCAGGTTGCCGGATG +CGGCGTAAACGCCTTATCCGGCATACATTAGCCCGGTTGTAGACCTGACAGGCGAAGCGCATCAGACAAC +GGTTTCAGAGTTCAATTGCCCATTCGGCATGAAACAAAATCACCGCTGTGCCTGAAATGGTGACTTTTTC +CGGTTGGTTATCACGAATTGTCACCGTCACTTCAATCATACCGTCACGCCCCAATGCGCGCCCCTGATGG +CCTTTAACACGCAACACGTTGCCATCGTGGGGCAATACGTTGTGATGTACCAACCATGCACCCATCGGGC +CATTGGCATTGCCAGTCACCGGATCTTCCACAATACCAATCGCAGGCGAGAACATGCGACCATCGGTTTC +GTTTTTGCCTGGGCGGATCTGGAACGGGAAGAAACCATTGCAGCCAATCTTTTTGCTGATAGCGGTCAGC +GCATTAAGGTCAGGCGAAAGGGCGTCGATATCCACTTCCGGTTTCAGTGGGATCATCACTTTTGAGTGTC +CTGTTGTTGCCACCTGAATTGGCAAGCCTGGCAGAATATCGTCCTCAGTGAGATGAAGCGCGTTGATAAT +CGCCGCACGTGTTTCACCTTCCAGCGGTGGCTCAAAGCCCGGCGTACCTTGTTCCAGCGAAATACGATAA +TCATCGTTGTGCTTTTCGATAGTCACGCGATGTTTTCCTGCCAGCGATGTTTGCCAGATCGTGCAATTTC +CTAAACCTAACACCTTCGCACGTACATAGTGCGCAGCTACTGTCGCGTGACCGCAAATCGGCACTTCAAC +CGTTGGCGTAAAGTAGCGGATGCGCACATCGCTGTCGTCGCTGTGCAGCAGAAAAGCAGTTTCCGAATGG +CCTAACTCGCGGGCGATAAGCTGCATTTGCGCTTCGCTAAGATTATCGGCGGGGAAAACAACACCGGCAG +AATTGCCGCGAAACGGTTGTGAGGTAAAAGCATCGACGTGGTACACCTGCGGTTTCATTAACGTTCTCCT +GTGACTGGAGAACTATCATAGCCTGCAAGTGGCCGGAGAGCGAAGGGCTATCCGGCCAGGGTGAAATTAT +CGCCGCGAACGCACAATTTGATATCGACGAGTAAAGTACTCAAACGGCGCGCTCCACACATGCACCAGTC +GGGTGAACGGGAAGAGCAGGAAGATGGTCATTCCCAACACCAGATGCAGGCGGAAGACGAACGCTACGCC +GTTGAGCATCTCTGACGATCCACCACGGAAAGTGACAATGCTTTGCGCCCAACCCACCAGCTTCATCATT +TCGCTACCATCAGGATACTGTGCTGAAAACGGTATGGTACTTAGCCCCAACAGACACTGGATCAGCAAAA +TGCTCATGATGATGATATCCGGCGTAGTGGAAGTGGCACGCACGCGCTGATTTGTCAGCCTGCGCCACAG +CAGTCCTGCGCCGCCAATCAACGTCAACACACCGCAAATACCGCCGAGCACCATCGCCATGAGTTGTTTC +GCTGCCACTGGCAAAAACCACGCGTACATCCAGTGCGGCGTTAACATGCCGAACAAGTGCCCGAAGAAAA +TCCCCAAAATGCCGATATGGAACAGATTCGACCATATCACCATCCCGCGTTTATCGAGCATTTGACTTGA +GGAGGCGCGCCAGGTGTACTGCCCGTAGTCGTAGCGCAGCCAGCTGCCGAGGAAAAACACCGTCGCACAA +ATGTACGGGTAGATATCGTAAAAAAAGACGTTCAGATACTGAATCATTTCCCACCTCCCGCACTGATGTC +GACATATTGCGGCGCGACATCCTGGCTAAAGCGTCGCTGATATTGATTAAGCGGCGAGCTGTCACACGCC +GTGGCGTTATCTTCAATAAACTTCACCTGTTCCTCTTCCCACACTGCATCAAGCGCCTGGCGGGTGTCAT +CGCGCTCTTCGCTGTTTACTTGTTTTGTGACACTGTCACTTGAAAGGGAGCTTCCCGCCAGTTGCAGCAG +AGCATCAAACAACGCGTACCACGGTGCCTCGCGTTGTTTTAAGCGACCGCCAAGCAGGGCGAGGATCGGC +GCAACATTGAGCAATCCTTCTTTCGCCTGATCGTCAGGCAGTACGCTTAAATACTCCAGATACAGCGGTA +GATAATCGGGCAGTTCCCGACAATCCAGCTGCAGGCCGACCTTTTCATACTCCGCCAGCAGGTCCACCAT +TGCCTGGCCGCGATCGCGGGACTCGGCATGAACATGTTCGAACAGCAGCAGCGACGTGGTGCGCCCGCGG +TCAAACACTTCGCACCATTCGGCCTGTTTATCCAGCAGCGGCGCGTTAAGCAGGTTGTGGGTGAAATCCG +TAAGCATCGGCGCGTCGCGGCGGATCAACGCCAGCGCGTCCTCCTTGCATTCCCACAACAGCTCGTCCGG +ATACTCCATCAACAGGCCGATCACTTTGAGGATCTGCATTATTCGCCCTCCGCTTTGTCGCGCACTTCGG +TGATGTTGATGGCATCGATACGGCTACTGTTGAACAGGTTGAATTTACTGTCCGAACCGTGGCAACCGTC +GCCAAAGGTAAAACCGCAGCCGTTGCGTTCTGCGAAGGCATCGCCCGCCATTTCCCGATGGCTGGTCGGG +ATAACAAAACGATCTTCATAGTTGGCAATGGCGAGATAGCGATACATCTCTTCGACCTGGGCGACGCTCA +GGCCTACTTCGTCGATGGCACGAGTATCAGTAACGCCTTCCACGGTTTGTGAACGCATATAGTGGCGCAT +CGCCATCATCCGTTTCAGCGCCCGCAGTACCGGACCGGTATCGCCGGCACTCAACATATTGGCGAGATAT +TGCACCGGAATACGCAGGCTTTCGATGGCGGGCAGCACGCCTTCGCTTTTCGGCAAACCGCCCGCATCTG +CGTAGGACTGAATCGGTGACAGCGGAGGAACGTACCAGACCATCGGCAGGGTGCGGTATTCAGGGTGCAA +CGGTAGTGCCAGTTTCCAGTCCATCGCCATTTTGTAGACTGGCGAACGCTGGGCAGCGTCAATCACATTT +TGTGGAATACCTTGTTTCAGGGCTTCCTCGATCACTGAGGGATCGTGTGGATCGAGGAACACTTCGCACT +GGCGTTCATAGAGGTCAACTTCGCGCTCGGTGCTCGCCGCTTCCTCGATGCGGTCGGCGTCGTAAAGCAG +CACGCCCAGATACCGGATGCGACCCACGCAGGTTTCTGAGCACACGGTCGGTTGACCGGACTCAATTCGT +GGGTAACAGAAGATGCATTTTTCTGACTTGCCGCTTTTCCAGTTGAAGTAGATTTTTTTGTACGGACAAC +CGCTTATGCACAAACGCCAGCCACGGCATTTATCCTGATCAATCAGCACAATGCCGTCTTCTTCGCGTTT +GTAGATAGCGCCGCTTGGGCAGGTCGCCACGCAGCTGGGATTGAGGCAGTGTTCGCACAGGCGCGGCAGG +TACATCATGAAGGTGTTTTCAAACTGCCCGTACATCTCCTTTTGCATGGCCTCGAAGTTGCGGTCGCGGG +CACGTTTTTCGAACTCACCGCCCAGCAGTTCTTCCCAGTTTGGCCCCCAGATCACTTTGTCCATCCGTTT +GCCGTCAATCAGTGAACGCGGGCGAGCAGTAGGAATATGTTTGCCTTCCGGTGCGCTATGCAAATGTTCG +TAGTCGAAGGTGAAAGGTTCGTAGTAATCATCAATCTGCGGCACCACCGGGTTGGCGAAGATTTTGGTTA +TTACGCCCATCTTGTTGCCCAGACGCGGGCGTATCTTGCCATTCACATCACGCACCCAGCCGCCTTGCCA +CTCTTCCTGATCTTCCCAGTTTTTCGGATAACCAATGCCCGGTTTGGTTTCGACGTTGTTAAACCATGCG +TACTCCATGCCTTCGCGCCCGGTCCAGACGTTTTTACAGGTCACCGAACAGGTATGGCAGCCGATACATT +TGTCGAGGTTAAGCACCATGCCGACTTGTGAACGGATTTTCATTTTTTCGCCTCCTGTACCTGATCGCGA +CCTTCATCATCCAGCCAGTTAACGTTCTTCATCTTGCGGATCATGATGAACTCATCGCGGTTCGATCCGA +CGGTGCCGTAGTAGTTAAAGCCCCAGGCCAGCTGCGCGTAACCGCCAATCATATGCGTTGGTTTCGGGCA +AACGCGGGTAACCGAGTTATGAATGCCGCCGCGCATGCCAGTTACTTCCGAACCAGGAATATTCATAATG +CGTTCCTGGGCGTGATACATCATGGTCATGCCCGGCGGTACACGTTGGCTGACCACCGCGCGGGCAGTCA +GCGCGCCGTTGGCGTTGAATACTTCCACCCAGTCGTTATCGACAATGGTCAGTTCTCGGGCATCTGTTTC +GCTGATCCAGACAATCGGTCCACCGCGAGAGAGCGTCAGCATTAGCAGGTTTTCACTGTAGGTTGAGTGA +ATGCCCCATTTCTGGTGCGGCGTCAGGAAGTTAAGTGCTTTTTCCGGGAAGCCGTTTGGCGGTATCTGGC +GCATCTCACTGACGCTACGGGTGTCGATAGGCGGGCGATAAGCCACCAGGCTTTCACCAAAAGCACGCAT +CCACGGATGATCCTGATAGAGCTGCTGGCGTCCCGACAGCGTGCGCCACGGAATTAACTCATGAACGTTG +GTGTATCCCGCGTTATAGGAGACGTGATCGCTTTCCAGACCGGACCAGGTGGGGCTGGAGATAATTTTAC +GCGGCTGCGCCTGAATATCGCGAAAGCGAATCTTCTCGTCCTCTTTGTGCAGCGCCAGATGGGTATGTTC +GCGCCCGGTGATCTCGCCCAGCGCCTGCCACGCTTTGACTGCAACATGACCGTTGGTTTCCGGTGCCAGT +GCCAGAATCACTTCTGAAGCGTCAATGGCGGTGTCAATCAGCGGACGCCCCTGTGCCGGGCCATCACGCT +TGGTGTAATTGAGTTTGCCGAGGAAATCGATTTCATCCTGGGTATTCCACGAAATCCCTTTACCGCCATT +GCCAAGTTTGTCCATCAATGGCCCGAGCGAGGTAAAGCGTTCATACGTAGCAGGGTAGTCGCGCTCCACC +GCCACAATATTCGGCGCGGTTTTGCCTGGAATCAGATCGCATTCGCCTTTGCGCCAGTCGAGCACTTCAC +ACGGCTGTGAGAGCTCTGCCGGAGAGTCATGCAGTAGGGGTTGTAATACCACGTCGGTTTCTTTGCCAAG +ATGACCCACGCACACTTGCGAAAATGCTTTGGCGATACCTTTGTAGATTTCCCAGTCGCTGCGTGATTCC +CACGCCGGATCGACCGCCGCAGAAAGCGGATGAATAAACGGATGCATATCCGAGGTGTTCATATCGTCTT +TTTCGTACCAGGTGGCGGTGGGCAGAACGATATCGGAGAACAGGCAGGTACTGGACATGCGGAAGTCGAG +CGTCACCAGCAGGTCGAGCTTGCCTTCAATCGCTGCAGTTTGCCACTCGACTTCTTCCGGTTTGATCCCG +TCGCTGGCACCGAGTTCCTCGCCCTGAATCCCGCTTTCGGTCCCCAGCAGATACTTCTGCATATACTCGT +GGCCTTTGCCGGAGGAGCCAAGCAGGTTAGAGCGCCAGACAAACAAATTACGCGGATGATTGCTGCTGCT +ATCTGGTTGTTCGCAGGCCATACGTAAATCGCCCGATTTCAGCGCCTGGGCGGTAAATTCTGTGGGGGAT +AATCCGGCCTTGTCGGCTTCAGCTTTAATCCCGAGCGGGTTACGCCCCAGCTGCGGCGCAGAAGGTAGCC +AGCCCATACGTTCGGCGCGAACGTTGAAATCAATCAGATGACCGCTGTACTTACTGGCATCGGCGAGCGG +TGAAAGTAACTCCTGAGCAGAGACTTTTTCATAGCGCCATTGGCTGGAATGATTGTAGAAAAACGAGGTG +CTGTTCATTTGGCGCGGTGGTCGGTTCCAGTCGAGCGCAAAGGCCAGTGGCAACCAGCCGGTTTGTGGGC +GCAGTTTTTCCTGGCCGACATAGTGTGCCCAGCCGCCACCGCTTTGCCCGACACAACCGCAGAAGATCAG +CATATTGATCATCCCGCGGTAGTTCATGTCCATGTGATACCAGTGGTTAACACCTGCGCCGAGGATAATC +ATCGAGCGCCCATGCGTTTTATGGGCGGTATCGGCAAATTCACGGGCGATGGTTTCAATATACTGGCGCG +GCACGCCGGTAATTTGCTCACCCCAGGCTGGGGTGTACGGTTTGATTTCAGCGTAATCTTTCGCACTGTT +TTCATCTTCCAGCCCGCGATCGAGGCCGTAATTCGCCAGTACCAAATCATAAACGCTGACCACCGGACAG +GTGTTGCCATCGACTAACGTCAGGTTTTTAACGGGCAATTGGCGCACCAGCACCGGATTGTGTTTTACGC +TGCGAAAATGCGGATTTTCAATGCCGCCAAAGTAGGGGAAGGCCACGCCTGCAACAGCGTCATGTTGACC +GAGCAGGGTTAACGACAATTCGGTTTCCGTACCGGCGGCAATGGATTCCAGATTCCATTTGCCTTTTTCT +CCCCAGCGGAAACCAATCGAACCGTTCGGCACTACCAATTCACCTGCGGTATTAACTGCTACGGTTTTCC +ACTGCGGATTGTTGCTTTCGCCCAGTCCATCCACCAGGTCAGATGCGCGGATCATGCGCCCGGGAACGTA +GCTACCATCGTCGCGAGGCTCCAGCATTACCAGCATCGGCATGTCGCTGTAGCGGCGGCAGTAGTTGATA +AAGTAGTCGCTGGGATTATCGAGATGAAACTCTTTTAAAATCACATGGCCCATTGCCATCGCCAGGGCGC +TATCAGTGCCTTGTTTCGGTGCCAGCCACTGGTCGCACAATTTGGCCACTTCAGAGTAGTCAGGGGTAAT +GGCGATGGTTTTAGTGCCTTTGTAGCGTACTTCGGTAAAGAAGTGGGCGTCCGGCGTACGTGTCTGCGGT +ACGTTAGACCCCCAGGCGATGATGTAGCTGGAGTTATACCAGTCGGCAGATTCCGGTACGTCGGTTTGCT +CGCCCCAGGTCATCGGCGAGGCGGGCGGCAGGTCGCAATACCAGTCGTAGAAACTTAAACAGGTGCCGCC +AAGCAGCGACAGATAACGCGTTCCGGCGGCGTAAGAAACCATCGACATCGCCGGGATCGGCGAGAAACCG +GCAACGCGATCCGGGCCGTAGGTTTTGATGGTCCAGACGTTAGCGGCGGCAATCAGCTGGTTTAGTTCCT +GCCAGTTGGAGCGGATAAACCCGCCGCGCCCACGCACTTGTTTGTAGCTCAGGCACTTTTGCGGATCGTT +CATAATCGATGCCCACGCCAGTACCGGATCGCTGTGTTGCTTGAGGGCTTCGCGCCACAGTTCAATCAGT +CGTTTACGAATGAGCGGGTATTTCAGGCGGTTAGCGCTGTAAAGATACCAGGAGTAACTTGCGCCACGCG +GGCAGCCGCGAGGTTCATGATTGGGCAGGTCAGGGCGAGTGCGCGGGTAGTCGGTCTGTTGGATTTCCCA +GGTCACCAGACCATTTTTAACGTAGATTTTCCAGCTACAGGAGCCTGTACAGTTAACACCGTGGGTGGAA +CGCACGATTTTGTCGAACTGCCAACGCTGGCGATAGCTGTCCTCCCAGTCGCGGTTGCTATGCATCACCT +GTCCGTGACCATCGGCAAAGGTTTCGCCCTTTTGTTTGAAGTAGCGAAAGCGATCCAAAAGTTTACTCAT +GACATGACTCCTGCTCCAGGAATGAATTGGGATCTGATGCCTTGTCGGATGCGACACGGTTGTACATCAG +GCATCGATCTCTTATTTTTGGCTGAACTTCCGCCGACCATAAACCAGCCAGGTCAGCAGCACACAAACGA +TGTAGAAGATTAAAAACACTTTCATCGCGCCGACCGGAGAGCCGGTCATATTGAGCGACATGCCAAACGC +CTGCGGAATAAAAAAGCCGCCCACTGCGCCAATGGCTGAGATAAAGCCCAGAGCCGCCGCCGTTTCGGTG +ACGGCTTCTTTATGAGCTTGCTCATCACTACCGCCTTTCATCTTTACCCGATAAATGGTTATCTGGCGAA +AGATGACGGCGATCATCTGGAAAGTAGAACCACTTCCCAGACCCGCAGTCAGAAACAGCCCCATAAATAC +GGCGTAAAAGGCGATGAAATTACCGGAGCCTGTGCCCGGTAAGGTAAGGAACAGCAGGGCACTGAAAATC +GCCATAAAAATAAAGTTGATCAACGTCACCCGCACGCCGCCGAACTTATCGGAAATAGCACCACCAACCG +ACCGCGCGATGGCACCGATAAATGGGCCAAAGAACGCCAGGCGCAGAATATTCACATCCGGGAACTGGGT +TTTTGCCAGCATGGCAAAACCCGCAGAAAAACCGATAAACGAACCGAAGGTGGCAAGGTAAAGCAGGCTC +AGCAGCCAGAGATGCAGGCGTTGTAAGACAGGGAGCTGGTCGGCAATTGAGGCGCGTGAACTGGCGATAT +CATTCATCCCTGACCATGCGGCGATCGTGGCAATCGCCAGTAGCGGTACCCAAATCCATGCGGCATTCGC +CAGCGACATCACCGAACCGTCGGCCTGCGGTACGCCATTGACGCCGAGAAAGGCAAATACAGGTACAAAA +ATGACCAGCGGTGCAACCAGCTGCATTACACTTACACCTAAGTTTCCTAATCCGCCATTAATCCCAAGAG +CGCTCCCTTGTTTGGCTTTTGGAAAGAAGAAACTGATATTGCCCATGCTCGAAGCAAAGTTTGCACCTGC +AAAACCGCATAGCAAAGCGATAACGATAAATATCCCAAAAGGAGTATTCGGATTTTGCACGGCAATTCCG +AGCCAGACGCAAGGAATAATCAGGATTGCAGTACTAAAAACCGTCCATCGGCGTCCACCGAATATAGGCA +CCATAAAGGAGTAGGGAACACGCAATAATGCGCCAGAAACGGAGGGTAATGCGGTTAATAAAAAGAGTTG +ATCGGTAGTAAAATTAAAACCGATTTTATTGAGATTAACGGTAACTGCGCTAAATAGCATCCAGACACAG +AAGGCAAGAAGTAGACAACTGACTGATATCCAGAGATTTCTTCGAGCAATATGTTTTCCTTTATTTTCCC +AGAAGGCCGGATTTTCTGGTTTCCAGTCGCGCAAAAGATAACGACTATTTTTCTCATTTTGCAGTGCCAT +ATTGTTCCTCACATGCACACATTGGTAATGAAAAAAAGACAAAACACGAGGTAAGGCGCAATAGCCAGTT +ATTAGAATTAAGGATGAATTGGGTGAAGTGCTGATTGAAAGAATAGATAAGAAAGCGTAACCGCGGGGGC +AGAATGGGGATTAAGTAGCCAGATATGTGTTACTAAATGTAACTAACAAGCTAACCTTCAAACGGGGTTA +ATCTTTGAACGTATGTCATGTTTCAACCCTTCAGATCGTGAATCTAAAGGGTTACATATTAACTATATTA +TCAACAAGACCAGACACTTATAGAATTAGTGATGATTTATTCACTAAAAAGGCCATGAACTGGAGGAAAA +CGATCTGTCCAGAAGGTCTATCGGTTCCTCTCTTATTGCCTGATTGTAATAATCGTTATTACAGTAAGTA +TTGTTTATTTCATCTAAGGTCATGTTTTTAACTTTTATATTCATCTGGTTTACAACTTCCTCTGTCTTGT +AAGTGTGTATATTATATGGGGTATATGCTTTTTTAATAGGATAGTGAAACAATTCGTTATCCACATCTAT +TCCGTCAGAGTGAACTTCAAATGCACCAGGCGAAAGAATTGCCAGGCCAGTATTAAGCTTAAGTGCTGGG +GAAAACAAATTAAATAACATGAGCTGCATAGTAGGGCAATTGTTCTTCCCAGAAACATTTAAAAAATTTA +AGTTTTGCTCTGTTTTATTATGGGGAATAAAGTTCCAATATCGGATGTATTATTAGTATCAATGTGGGTT +ATTTTATTATTGTCCAGTCTTAAACTTTTGATAGATGGAAGATAAGTCAGGAAATCAAGATTTATATATT +TCAACTGGTTGTTAGCAGCGTTTAATGTCTGAACATTGCAGAAGTTGCTATAGAATATTTTAATTTCAGA +AAGCAAATTGTTGTTAATAAGTAACGTATTCAAGTTGGGAAATAAGTCATTGTGTAAACTTGTTAGTTTA +TTATGGGATAGATCCAGCAGTAAGAGTTCATTTTTATTACCTGCAACAATATCAGTTAATTGATTATGGC +TGAGATTCAGGTATTGCAGCCATTCGCAAGATTCTAATTGCACAAACTCTAGTTGATTATGTGCCGCACT +AAAATAAGTAACTGATGAAAGCCTATCTATATCAATATTTCTGAGAGCATTATTATTCATAGATATATGT +GTAATACTTACATTTCTGCCTTGAGGAAAATTTATTGACTCAAGAGCATTACTATTCAGACTTAGCTTTA +CGAGTCTATCGTAGTTGGTTGCATCAAAATGTGTGAATTGGTTATTATCAAGATTGATAGATGTGAAGTT +TTGCAGCCCTGGTGGTTGAGTGGTTAAATTAAGTCCTGATAAATCAATGGTCACTTCATTAGTGTCATCA +ATTATATTTCTTACTGCAGTCCAGTACTGCATTTGTGCAAGTGGATCATTGTTGATGCCGTTAACTAATA +CATGCCAAAGATGTTTTGATGATATTAGTTGATCAATGTCATTGGTTGGCAGTAAATTGTTATTGCTTAA +GTTTAAATATTCCAGTTTTGTAGTGTTTTTGGCGTTTAAATGTGCAATATGGTTGTCGTTTAAAGTGATT +GTTTTCATCCTGGGATGATTGTGTAATATAAGGTCAGTGATCATATTGTGATGGGCACTTAACTCAATCA +GAGATTCTTGCCGCGCGAGCCGTTGGCTTCATCGTTATAGCCTTTAAAATCATATTCCCAGTGACCAAAA +CCAATCATTTGATCATTGATTTGCGTTTCTCCTTTAAAGCCGAGACGGGCATAAGTTTTATCACCATCGT +CACGCTTATCATCAGTAAAATAACGTAGAGCGGTAACCTTGCCATAAAGGTCGAGTTTATTACCATCCTT +GTTATAGACTTCGGCAGCGTGTGCTACGTTCGCAGCTAACAAACCAGTTACAACCACCGCAACTATTTTT +AATTTCATTTAACAGAATCCTTTTAATTATCGTTAAACGTATTTTCTAAACGAATTTTAAACGGCGTCAT +TTATAAATGACATACTGTTTTTAAAATAGAATGGTGATTAAAAACAATGAGAAAAATAGATGAAATAATA +TTATTTATCGATATGTGATCGAAGTCGAAATGAGATATAAGGTGAATTACTGGTATTTGAAATTTATTTT +TTTAATATTGTCGGAATTTATCTGATTAACTACCGGGCCGTAGACCCGGCAGTTATTTTAACCACGACGT +GTCGCCAGCCAGCAGAGCAGGGAACCGCCGCAGACCATCAGCGCGCCTTGCCAGAACGAGAACGACAGCG +GGGCGCTGAGCAGCACGGCTGCAAGCGCTGAGGAAAGTACAGGCGTAAAATACGAACCTACCGCCATAAT +GGTGACATTGCCATGCAATATACCGACATTCCATGCAGCATAAGCAAATCCTAAGGTAAATGCCGCAGAG +ATGAGTTTAATCATGACGGGCGTGCTAAATATCATTTCTGGTTGTGGCGTAAGAAAATAGTAAACCCACA +GACTTGCTCCCGTTAGCAGGACAAAAACGGTAATTCCATTAAATCCGCGTGCGTATTTATTCGTTACTGT +GCAATAGGCTGCCCAGATAAACGCACCAATGAACGCCAGGAAATAACTCAATGGGCTGGTGGTGATATTA +TTGATGATTTCATCATAATGTAACCCATTGTCACCGCCTAACACCCAACAGACGCCGACGAGGGCTAATA +ATAATCCAGGTACAATCAACCAGTTGGTTTTCTGACCATTAAACAGAATGGCAAAGAGAATTGTCAGGCT +GGGCCACAGATAGTTCACCATACCCACTTCAATCGCCTGATGATGGGTCGCCGCATACCCTAAGGAAAGC +GCCAGACAGATTTCATAGCTGACGAATAACAGACTCCCGGCGAGTAAATAGCCTTTCGGGATTTGCCGAA +TACGCGGAAATCCAACCGTGAAGATTAACAGCAGCCCGCTTAATGAATAGATAGCAGCTGCGCCGCCGAC +CGGGCCGAGCCCCTCACTGACACCGCGAATCAATCCTACCATCGTGCTCCACAGGACGATCGCTATCAGC +CCTATGAGCGTTGCTTTTTGTCGTGTCATGCTCGCTGTTTTGTCTCTCTTGCCGTTAAAAATTAAGCTGA +ATTTTATAGCATTTTTTTAACTGGCCTGTCAGGCAGTGGTGCGTTTTTCTACCGCTATTGAGGTAGGTCA +ATTTGCGAAGGCGGATTATTTTGTGGCAAACAGATGTTCTTTTTGATTTCGCGCAAAAAGATTCAGAATT +TTACTGTTAGTTTCCTCGCGCAGTAATACCCCTGAAAAAAGAGGAAAGCAATGGACGTCAGTCGCAGACA +ATTTTTTAAAATCTGCGCGGGCGGTATGGCTGGAACAACAGTAGCGGCATTGGGCTTTGCCCCGAAGCAA +GCACTGGCTCAGGCGCGAAACTACAAATTATTACGCGCTAAAGAGATCCGTAACACCTGCACATACTGTT +CCGTAGGTTGCGGGCTATTGATGTATAGCCTGGGTGATGGCGCAAAAAACGCCAGAGAAGCGATTTATCA +CATTGAAGGTGACCCGGATCATCCGGTAAGCCGTGGTGCGCTGTGCCCGAAAGGGGCCGGTTTGCTGGAT +TACGTCAACAGTGAAAACCGTCTGCGCTACCCGGAATATCGTGCGCCAGGTTCTGACAAATGGCAGCGCA +TTAGCTGGGAAGAAGCATTCTCCCGTATTGCGAAGCTGATGAAAGCTGACCGTGACGCTAACTTTATTGA +AAAGAACGAGCAGGGCGTAACGGTAAACCGTTGGCTTTCTACCGGTATGCTGTGTGCCTCCGGTGCCAGC +AACGAAACCGGGATGCTGACCCAGAAATTTGCCCGCTCCCTCGGGATGCTGGCGGTAGACAACCAGGCGC +GCGTCTGACACGGACCAACGGTAGCAAGTCTTGCTCCAACATTTGGTCGCGGTGCGATGACCAACCACTG +GGTGGATATCAAAAACGCTAACGTCGTGATGGTGATGGGCGGTAACGCTGCTGAAGCGCATCCCGTCGGT +TTCCGCTGGGCGATGGAAGCGAAAAACAACAACGACGCAACCTTGATCGTTGTCGATCCCCGTTTTACGC +GTACCGCTTCTGTGGCGGATATTTACGCGCCTATTCGTTCCGGTACGGACATTACGTTCCTGTCTGGCGT +TTTGCGCTACCTGATCGAAAACAACAAAATCAACGCCGAATACGTTAAGCATTACACCAACGCCAGCCTG +CTGGTGCGTGATGATTTTGCTTTCGAAGACGGTCTGTTCAGCGGCTACGACGCTGAAAAACGTCAATACG +ATAAATCGTCCTGGAACTATCAGCTCGATGAAAACGGCTATGCGAAACGCGATGAAACACTGACTCATCC +GCGCTGTGTGTGGAACCTGCTGAAAGAGCACGTTTCCCGCTACACGCCGGACGTCGTTGAAAACATCTGC +GGTACGCCAAAAGCCGACTTCCTGAAAGTGTGTGAAGTGCTGGCCTCCACCAGCGCACCGGATCGCACAA +CCACCTTCCTGTACGCGCTGGGCTGGACGCAGCACACTGTGGGTGCGCAGAACATCCGTACTATGGCGAT +GATCCAGTTGCTGCTCGGTAACATGGGTATGGCCGGTGGCGGCGTGAACGCATTGCGTGGTCACTCCAAC +ATTCAGGGCTTGACTGACTTAGGCCTGCTCTCTACCAGCCTGCCAGGTTATCTGACGCTGCCGTCAGAAA +AACAGGTTGATTTGCAGTCGTATCTGGAAGCGAACACGCCGAAAGCGACGCTGGCTGATCAGGTGAACTA +CTGGAGCAACTATCCGAAGTTCTTCGTTAGCCTGATGAAATCTTTCTATGGCGATGCCGCGCAGAAAGAG +AACAACTGGGGCTATGACTGGCTGCCGAAGTGGGACCAGACCTACGACGTCATCAAGTATTTCAACATGA +TGGATGAAGGCAAAGTCACCGGTTATTTCTGCCAGGGCTTTAACCCGGTTGCGTCCTTCCCGGACAAAAA +CAAAGTGGTGAGCTGCCTGAGCAAGCTGAAGTACATGGTGGTTATCGATCCGCTGGTGACTGAAACCTCT +ACCTTCTGGCAGAACCACGGTGAGTCGAACGATGTCGATCCGGCGTCTATTCAGACTGAAGTATTCCGTC +TGCCTTCGACCTGCTTTGCTGAAGAAGATGGTTCTATCGCTAACTCCGGTCGCTGGTTGCAGTGGCACTG +GAAAGGTCAGGACGCGCCGGGCGAAGCGCGTAACGACGGTGAAATTCTGGCGGGTATCTACCATCATCTG +CGCGAGCTGTACCAGTCCGAAGGTGGTAAAGGCGTAGAACCGCTGATGAAGATGAGCTGGAACTACAAGC +AGCCGCACGAACCGCAATCTGACGAAGTGGCTAAAGAGAACAACGGCTACGCGCTGGAAGATCTCTATGA +CGCTAATGGCGTGCTTATTGCGAAGAAAGGTCAGTTGCTGAGTAGCTTTGCGCATCTGCGTGATGACGGT +ACAACCGCATCTTCTTGCTGGATCTACACCGGTAGCTGGACAGAGCAGGGCAACCAGATGGCTAACCGCG +ATAACTCCGACCCGTCCGGTCTGGGGAATACGCTGGGATGGGCCTGGGCGTGGCCGCTCAACCGTCGCGT +GCTGTACAACCGTGCTTCGGCGGATATCAACGGTAAACCGTGGGATCCGAAACGGATGCTGATCCAGTGG +AACGGCAGCAAGTGGACGGGTAACGATATTCCTGACTTCGGCAATGCCGCACCGGGTACGCCAACCGGGC +CGTTTATCATGCAGCCGGAAGGGATGGGACGCCTGTTTGCCATCAACAAAATGGCGGAAGGTCCGTTCCC +GGAACACTACGAGCCGATTGAAACGCCGCTGGGCACTAACCCGCTGCATCCGAACGTGGTGTCTAACCCG +GTTGTTCGTCTGTATGAACAAGACGCGCTGCGGATGGGTAAAAAAGAGCAGTTCCCGTATGTGGGTACGA +CCTATCGTCTGACCGAGCACTTCCACACCTGGACCAAGCACGCATTGCTCAACGCAATTGCTCAGCCGGA +ACAGTTTGTGGAAATCAGCGAAACGCTGGCGGCGGCGAAAGGCATTAATAATGGCGATCGTGTCACTGTC +TCCAGCAAGCGTGGCTTTATCCGCGCGGTGGCTGTGGTAACGCGTCGTCTGAAACCGCTGAATGTAAATG +GTCAGCAGGTTGAAACGGTGGGTATTCCAATCCACTGGGGCTTTGAGGGTGTCGCGCGTAAAGGTTATAT +CGCTAACACTCTGACGCCGAATGTCGGTGATGCAAACTCGCAAACGCCGGAATATAAAGCGTTCTTAGTC +AACATCGAGAAGGCGTAAGGGGGCGAACAGATGGCTATGGAAACGCAGGACATTATCAAAAGGTCCGCAA +CTAACTCCATCACGCCGCCTTCTCAGGTGCGTGATTACAAAGCAGAAGTCGCAAAACTTATCGACGTTTC +CACCTGTATCGGCTGTAAAGCCTGTCAGGTGGCGTGTTCGGAGTGGAACGACATCCGTGATGAAGTGGGG +CACTGCGTCGGGGTTTACGATAACCCCGCCGATCTGAGCGCCAAGTCCTGGACGGTGATGCGCTTTAGCG +AAACCGAACAGAACGGCAAGCTGGAGTGGCTGATCCGTAAAGACGGCTGTATGCACTGTGAAGATCCCGG +CTGCCTGAAGGCGTGCCCGTCTGCTGGTGCAATCATTCAGTACGCTAACGGGATTGTCGATTTCCAGTCG +GAAAACTGCATCGGCTGTGGTTACTGCATTGCCGGGTGTCCGTTTAATATTCCGCGCCTCAACAAAGAGG +ATAACCGGGTATATAAATGCACGCTCTGCGTCGATCGCGTCAGCGTCGGCCAGGAACCGGCTTGTGTGAA +AACCTGTCCGACCGGGGCTATCCACTTCGGCACCAAGAAGGAGATGCTGGAGCTGGCGGAACAGCGCGTG +GCGAAACTGAAAGCGCGTGGTTACGAACATGCTGGCGTCTACAACCCGGAAGGGGTCGGTGGTACGCACG +TTATGTACGTGCTGCATCACGCCGATCAGCCGGAGCTGTATCACGGTCTGCCGAAAGATCCGAAGATCGA +CACCTCGGTAAGCCTGTGGAAAGGCGCGTTGAAACCGCTGGCAGCGGCTGGCTTTATTGCCACTTTTGCC +GGGTTGATTTTCCACTACATCGGTATTGGCCCGAATAAGGAAGTGGACGATGACGAGGAGGATCATCATG +AGTAAGTCGAAAATGATTGTGCGCACCAAATTTATTGATCGCGCCTGTCACTGGACCGTGGTGATTTGCT +TCTTCCTGGTGGCGCTGTCCGGGATTTCGTTCTTCTTCCCGACGCTGCAATGGCTGACGCAAACCTTCGG +TACGCCGCAGATGGGACGCATTTTGCACCCGTTCTTCGGCATTGCGATTTTCGTCGCACTGATGTTTATG +TTTGTGCGTTTTGTGCATCACAACATCCCGGATAAGAAAGATATTCCGTGGCTGTTGAACATTGTCGAAG +TATTGAAAGGCAATGAGCATAAAGTGGCGGATGTCGGTAAGTACAACGCCGGGCAAAAGATGATGTTCTG +GTCGATCATGAGCATGATTTTCGTGCTGCTGGTGACCGGGGTGATTATCTGGCGTCCGTACTTTGCGCAG +TACTTCCCGATGCAGGTTGTTCGCTACAGCCTGCTGATCCACGCGGCTGCGGGTATCATCCTGATCCACG +CCATCCTGATCCATATGTATATGGCATTTTGGGTGAAAGGATCGATTAAAGGGATGATCGAAGGGAAGGT +AAGTCGTCGCTGGGCGAAGAAACACCATCCGCGCTGGTATCGTGAAATCGAGAAGGCAGAAGCGAAAAAA +GAGAGTGAAGAAGGGATATAATCTCTTTTGAACTTTAAGCTGAAAATGGCGCTGTAAAAGGCGCCATTTT +CATATTGTAGACAACGTAGGCTTTGTTCATGCCGGATGCGGCGTGAACGCCTTATCCGGCATGAAAACCC +TTCAAATCCAATAGATTGCAGTGAACGTGTAGGCCTGATAAGCGTAGCGCATCAGGCAATGTTGCGTTTG +TCATCAGTTTCAAATGGCGCTGTAAAAGGCGTCATTTTCATATTGTAGACAACGTAGGCTTTGTTCATGC +CGGATGCGGCGTGAACGCCTTATCCGGCATGAAAACCCTTCAAATCCAATAGATTGCAGTGAACGTGTAG +GCCTGATAAGCGTAGCGCATCAGGCAATGTTGCGTTTGTCATCAGTTCTAAATGGCGCTTTATAAAGTGC +CATTTTTTTATTGCGTAACCAGACGGCGTAATCGCGACACATCCACTGTTTTTTCTGCCTCTGCCAGACT +CCAGGCGTTTTGCAGATTCAGCCACATTTGCGGCGAACTGCCGATCACCACGGAAAGTTTAATCGCCATT +TCTGGCGTCAAAGCTGCTTTTCCTGTCAGCAATCGGCTTGCCGTTGAGGGAGCAATTTCCATTGCTCTGG +CAAACTCGCGCAGGCTGACATTAAGTTCGTCCAGTGATTCCTGAATAATGTCCCCCGGGCGGGGATGATT +GGCCATTTTCATTAGTGTCTTTACTCTCAGTAGCGTTCCTTCACTGGGAACACTATCATTATTGTTCCTT +CCTACGCAACAATAATCCATTTAGCCATTTCATGTTGGAGAGTGTGCGATGCTGCGACCCGAACATGGCA +GTCGCAGCAAAGGCCTCTTAGTGACGGAAATCAATCACCATGCGGCCACGGATTTTGCCTTCTTCCATCT +CAGTAAAGATGGTGTTGATGTCCGCTAACGGACGCAGGGCGACTTTCGGCACCACTTTACCTTCGGCGGC +AAACTGGAAGGCTTCAGTTAAATCCTGGCGCGTGCCGACCAGCGAACCGACCACTTCAATACCATCCAGC +ACAAGACGTGGGATATCCAGGCTCATAGACTCCGGCGGTAGACCGACAGCCACAACACGACCGCCTGCAC +GGACAGCATCAACTGCCGAGTTAAACGCAGCTTTAGCTACCGCTGTTACCACCGCAGCGTGAGCGCCACC +AGTTTTCTCCTGCACAATTTTGGCGGCGTCTTCGGTGTGTGAGTTAATCGCTAAATCTGCGCCCATTTCG +GTTGCCAGTTTTAACTGCTCATCATTGACATCAATGGCGATCACTTTGGCGTTAAAGACATTCTTCGCGT +ATTGCAGGGCGAGGTTACCCAGACCGCCAAGACCGTAGATAGCAATCCACTGCCCTGGACGAATTTTTGA +CAGCTTAACGGCTTTGTAGGTGGTGACTCCCGCACAGGTAATGCTGCTGGCCGCCGCCGAGTCCAGACCA +TCTGGCACTTTTACCGCGTAATCGGCGACCACGATGCACTCTTCCGCCATCCCGCCATCAACGCTGTATC +CGGCATTTTTAACTGAACGGCAGAGCGTTTCGTTACCACTGTTACAGTATTCGCAATGACCGCATCCTTC +GTAGAACCACGCCACGCTGGCACGATCGCCTGGTTTTAATGAGGTGACACCTGGACCCACTTCTGCCACC +ACACCGATGCCTTCATGGCCCAGAATTACGCCGGTTTTGTCACCAAAATCGCCATTCTTAACATGAAGAT +CGGTATGACATACACCACAACACTCCATTTTCAGCAGGGCTTCGCCATGTTTCAGTGAGCGCAGTGTTTT +ATACGTAACGTCAACATGATGATCCTTCGTAACAACTGCAGCCTTCATAGTTCCTCCTTTTCGGATGATG +TTCTGCATAGCAGGTGAGGCAAATGAGATTTATTCGCCACTACCCAGTATGGATGAGATCTGAAAAAGGG +AGAGGGAAATAGCCCGGTAGCCTTCACTACCGGGCGCAGGCTTAGATGGAGGTACGGCGGTAGTCGCGGT +ATTCGGCTTGCCAGAAATTATCGTCAATGGCCTGTTGCAGGGCTTCGGCAGAGGTTTTCACCGCCACGCC +TTGCTGCTGCGCCATTTTGCCAACCGCAAACGCAATTGCGCGGGAGACTTTCTGAATATCTTTCAGTTCC +GGCAGTACCATACCTTCGCCGTTCAGCACCAATGGTGAATACTGCGCCAGCGTTTCACTTGCCGACATCA +GCATCTCATCGGTGATACGTGACGCGCCGGAAGCAATAACACCCAGGCCGATGCCCGGGAAAATAAAGGC +GTTGTTACACTGGGCGATAGGGTAGATTTTATCTTTCCATACCACTGGATTAAACGGGCTGCCCGTGGCG +ACCAGCGCGTTACCTTCGGTCCAGGCGATAATGTCCTGCGGTGTGGCTTCCACGCGTGACGTCGGGTTAG +ACAGCGGCATCACGATCGGACGCGGACAGTGTTTATGCATCTCACGGATGATCTCTTCCGTAAACAGCCC +GGTCTGTCCTGAGACGCCAATCAGAATATCTGGTTTTACATTGCGCACCACATCCAGCAGTGACAGCACA +TCGCTGTCGGTATCCCAGTCACTGAGGTTTTCGCGCTTCTGCACCAGTTTGGTCTGGAAAGGCAGCAGGT +TCGGCATCTTGTCAGTCAGCAAGCCAAAGCGATCGACCATAAAGACTTTCTGCCGCGCCGCTTCCTCGCT +TAATCCTTCGCGCTGGGTCTGGGAGATGATCATTTCGGCAATGCCGCATCCCGCTGAACCTGCGCCAAGG +AAGACGATTTTTTTCTCGCTTAACTGACCACCTGCCGCGCGGCTTGCTGCGATCAGTGTGCCGACTGTTA +CCGCCGCAGTGCCCTGAATGTCATCGTTAAAAGAACAAATTTCATTGCGATAGCGGTTAAGTAACGGCAT +CGCATTTTTTTGAGCAAAGTCTTCAAACTGCAACAGCACGTCTGGCCAGCGTTGTTTCACAGCCTGGATA +AATTCATCAACGAATTCATAGTATTCGTCGTCAGTGATACGCGGATTACGCCAGCCCATATACAGCGGAT +CGTTAAGCAGCTGTTGGTTGTTCGTTCCGACATCCAGCACCACCGGAAGGGTATACGCCGGGCTGATGCC +GCCACAGGCGGTATAGAGCGACAGTTTACCGATCGGAATGCCCATCCCGCCGATGCCCTGGTCACCAAGC +CCCAGAATGCGTTCACCGTCAGTCACCACAATCACTTTAATATTATGGTTCGGCACGTTTTGCAGAATAT +CGTCCATATTGTGCCGGTTCTGGTAAGAGATAAACACGCCGCGTGAACGGCGGTAGATCTCAGAAAAACG +CTCACAGGCTGCGCCGACGGTTGGGGTATAAATAACAGGCATCATCTCATCAAGATGATTGTTTACCAGA +CGGTAGAAGAGGGTTTCGTTAGTGTCCTGGATGTTACGCAGGTAGATGTGTTTGTCGATTTCGGTTTTGA +ATCCCTGATACTGGATCCATGCTCGTTCCGCTTGTTCTTCGATGGTTTCGACCACTTCCGGCAGTAACCC +CAGCAGGTTGAAGTTACGGCGTTCTTCCATGCTGAAGGCACTGCCTTTATTCAACAACGGAAATTCCAGC +AGTACAGGGCCAGCGTAAGGGATATAAAGCGAACGCTGTTTTTTTGTTTTTGGTTCCATGTCACTCACTC +TTTTTTGAATATCCATCCCTGGGGGGCTTTTATCGTCTTTGCTTTACCGCCAGGGCGTCGGCCTCAAGTA +TAAAGCAGATAAAAACAAAAACACCATTGCGCAGGCAATGGTGTTTAATCGTCATTGAGGACTGATGGTT +ATGAATTACTTTTCAGCGGGGCGTTTTCTGCCGGTTGGGTTATTTACTACGCTGGATTTGTCACCTTCGG +TAACTATTTTGCGCTGGTTAGAAATTTTATGGTCCAGTCCAAGAATATGACGTGCCTGACGGTTCGATTT +CATTTTAACTCCTCAATCCTGTAGCTAGTTTTAAGGACAACATCGCCGTAGCGAAGAAACACGTGCTAAA +CCCCTAAATTAGGTTGCCGATCAAGCATAGCACCTTAAAGCGTAGGGTGCTGGCCACTGACCACATAATT +GATCGTTTGCTGGTAGATATCACTGAGGATGTCGTTATCAGAAGCTTCAACCCATTTGGTCAGCTCCATG +AGAATGTCATCTTCAGTGACAACACCATGCTGTGCCCGAAGGCCTTGCTCAATGGCATTAACCAGAGCGG +GTTCTGCTGTTGAATTTTCTGCCTGATAATAAGTAAACATAGTGATTCTCCGTGTCTGTGTATTTATGGT +GTCTGCTACGGATCGCAGATTTATAAAGCACATTCAGCATGGCAAATATTTGCCGCTTCGTTGTTAAGAT +TAGTCCTGGTTGATGATTTTTATATTTTAACACCATGATATTCATAGGGATTGTGATTGGTATGATCCGA +TTAATATTGATACAATATCTTTTGGGTTATATATTCCCGGTAATCTATTGTGGGAATTTAATTTAAGTGC +AGAAGTAATATTTTCGCCGGATTTTATTCGGAATATCCTGCTTATCCTCGTGCTGTTTCTCACGTAGTCT +ATAATTTCCTTTTTAAGCCCACAGGAGAGCAACAATGACAATCCATAAGAAAGGTCAGGCACACTGGGAA +GGCGATATCAAACGCGGGAAGGGAACAGTATCCACCGAGAGTGGCGTGCTGAACCAACAGCCGTATGGAT +TTAACACGCGTTTTGAAGGCGAAAAAGGAACCAACCCTGAAGAACTGATTGGCGCAGCGCATGCCGCATG +TTTCTCAATGGCGCTTTCATTAATGCTGGGGGAAGCGGGATTCACGCCAACATCGATTGATACCACCGCC +GATGTGTCGCTGGATAAAGTGGATGCCGGTTTTGCGATTACGAAAATCGCACTGAAGAGTGAAGTTGCGG +TGCCGGGTATTGATGCCTCTACCTTTGACGGCATAATCCAGAAAGCAAAAGCAGGATGCCCGGTCTCTCA +GGTACTGAAAGCGGAAATTACGCTGGATTACCAGTTGAAATCGTAAAGCATTGCCGGATGACGCGTCAGG +CGCGTGAATGCCTGATGCGTTGTTAGCATCTCTACAGCGCCCGCCAGCACCGGAGCTCACGTCCGTCCTC +CCTTATTGCTAATGATTGCCGGACTTCACATCCGTGGGTTGCCAGCGGGCAACGTTCGTAGAAAAAACAG +CCTTGCGGCAACGTGCGGTTTCCCGGCAGATCCGTTTTACGTAATGCCCATTCTTCCTCCAGCGGTTTAT +CAATGGCGGGGAGGGAATCCAGCAATAATCGGGTGTATGGATGTGCAGGTGCCGTCAGCACCTGCTGCGC +GTCGCCCAGTTCTACAATCTGCCCGAGATACATCACCGCCACCCGATCGCTCATATGACGTATCACCGAG +ACATTGTGTGAAATCAGCACATAGGTCAGCCCGTGATTTTCCTGTAGCGTTACCAGTAAATTGAGGATCT +GCGCCTGAACGGAGATATCCAGCGCAGAGGTTGGCTCATCAAGCACAATCACGTCAGGCTGCGAAGAGAG +TGCTCTGGCAATGGCGATACGTTGCCGCTGCCCGCCGGAGAACGCATGAGGCAGGCGGTCGAGATACTCC +GGACGAATACCCACCTGCACAGCCAACTCCTCTGCCAACGCTCGCCGCTGTTGTTCACTACTACGCTTAG +CTATCCAGAGCGGTTCTGTGATGATGCGCCACACCGGTAAGCGCGGATTAAGCGAAGAGAGCGGGTCCTG +AAACACCATCTGCATAATGCGTTGTGAGCCAGAACGGATGTACTGCCCGTGGCTCGGTTGCAGCATACCC +ATTAAAAGCTGTGCGAGGGTGCTTTTGCCGCAGCCTGACTCGCCGACGATCCCTAAGGTTTCACCACGGC +GGATCTGTAAATCAATACCATTAATGGCATGAACATGTTCCGTAGTTTTACCAAGCCAGTTTTTACGGGC +CGGGAAATTGATATGGACGTCGCGTAACGTTAATAACGTGTCAGACACTTATAACCTCCTGCTGCGGATA +CCAACAGGCACAGCGCTGGTTGTTGTCACCACACGCTGTCAGCGCCGGGACGTTTTCACACTGTGCACCT +GCCGCATAGCAACGATCGCGAAAAGCGCAGCCGTCAGGCAAATGGGTGAGGTTTGGTACCGTCCCTGGAA +TGGCGGGTAATAGCTGGCGTGGTACTCCATGTTCTGGTGCGCATTGCAGCAAACCAATGGTATACGGATG +CCGGGGATGATGGATAACGTCTGCCGTCACGCCGCTTTCAATTACGCTTCCGGCATACATCACGTAAACG +CTATCGCACAGTTGCGACACCACGGCCATATCATGGCTGATGAACAGAACCGCAGTTCCACTGGCGCGGG +CTTTATGTTTAAGCAAACGCAGTACCTGCAACTGCACCGTGACGTCCAGCGCCGTAGTCGGTTCGTCGGC +AATAATCAATTGCGGCTCGCAGGAGAATGCCAGCGCAATCATTACCCGCTGGCGCATACCACCTGAAAGC +TCAAACGGATAGCGCGACATAACTTCCACGGCATCCGGGATTTGCATCTCTTCCAGCAGGTCAATCGCTT +TAGCTCTGGCTTCCCGACGACTTATTGGTTGATGATGGCGGATCACGTCCATCATCTGAAGACCTATTCG +ACGTGTCGGATTGAGGGCGGTCATCGGTTCCTGAAAGATCATCGCCACTCGTGCGCCGCGCCACTGACGA +AGCTGTTTTTCCCGCGCGTTAAGAACATCTTCTCCCAGCAGGGAAATCTGCCCCCGATGTACGCAATAAC +TGCCCGTCGGTAGCAGACGCATAATCAGCATTGCGGTGACTGATTTACCTGAGCCGGATTCTCCCACCAG +ACCGACAATTTCACCGCGGTTAATCTGCAAGGACACATTGTTGAGCGCGTGAACATCACCGTTAAAACCG +GGGAAACTCAAATGCAGTTGTTGAATGTCCAGAACGGGTTGGGTCATGACTGCTTTCCTCCTGCTTTCGG +GTCAAGCAGATCGCGAATACCATCACCAAAGAGATTAAACCCGACGGCGGTAAGCAAAATCGCTGCCCCC +GGAAATGCGCAATACCACCACTGATCGAGTACATAGTTGCGACCATTTGCTACCATCGCGCCCCATTCAG +CACTCGGTTGTTGAGCACCCAGGCCAATAAATCCCAACGTGGCGGCCATTAAAATCGCGCTACCGATATC +CAGCGATGCCTGCACGATCAGCGGCGGTAGGGAGTTACGTAAAATATGCCAGTTGATCAGATGCCAACGA +GACGCGCCAAAGGTTTTCGCCGCCTGAACATAGGTATACTGGCGTACAACTAATGCTTGCCCCCGCGCCA +GGCGCACATAAAAGGGAATTCGCACAATAGCAATAGCCAGCATGGCGTTAAACAAACTCGGCCCGAGAGC +GGCAGCCAGTGCCATTGTCAGTACCAACGAAGGAATCGACAGCATAATGTCCATGATGCGCATGATGATG +GCGTCTGCGCGTCCACCAAGCACACCGGATAGACATCCGAGTAGCGAACCAATCATACCCGCAATGGCAA +CCACGACTAATCCGGCGAGAATTGATTGCTGACTGCCGACCAGTACGCGGCTAAACAGATCGCGTCCCAC +TTCATCGGTGCCAAACCAGTGCGCCGCAGAAGGCGGCAAAAGGCGGGCGGTTAAATCAATGGCGTTGGGA +TCATGCGTCGCCAGCCACGGTGAAAAAATCATCATCAATAGCATTAATACAATGATGACTGCGCTGGTCA +CGGTGAGCGGACTGCCTTTCAGCATCCATACCAGTTTTGCACCGTTAAATCGCGTTTGTTTTTGTGGGCG +TACGGCGGACGTTTCCTCGCTTAGCATCATTCACCACCTCCACGTCCGATACGCGGATCAATCCACAAAT +AGAGCAAATCCACCACCAGGTTGACCAGCACATAAGCAAATGAAACCACGACGGCAAAGCCCATCACTGC +CGGGAAGTCGAGCGCCTGTATTGATGTTACTACCCATGCACCCATTCCGGGCCAGGCAAAAACGGTTTCG +GTGAGCACTGCGCCATACAACAAATCGCCCAGCGCCAAACCCAATACGGTAATCGATGGGATCAACGCAT +TGGGTAGCGCATAACATAAAACGATATACCAGCCGGGCAAGCCGCTGGCCCGGGCGGTACGAATGTAGTC +TTCACTCAATTGTTCCAGCATCGCTGAGCGGATCTGGCGAGCGACAATTCCCAGGTGAACGAACGCCAGC +GTTAATGCCGGTAAGATGAGATGTTGCAACGCATTGAAGAAGACTTCACCGTTGCCTTCAAGCAGCGCAT +CGAGCAGATAAAAGCCGGTAACGTGCGTTGGTGGATCCAGCCAGTCATCAAGCCTTCCGCCGCCGGGAAG +AATTTGCAGATGACCATAAAACAGCACAATGACGCCCAGCCCAAGCCAGAACGCAGGTGTGGAGATTCCG +GTAATGGCCATTATTCGCACCAGATGATCCAGCCAGCGATTTCGCCAGACTGCAGAGAGTATGCCCAGCG +GGATGCCAATCAGGAGTGCCAGCAGCAGGGCACCAAAAGCCAGCTCCAGCGTCGCCGGGAAAAATATACG +CAACTCTTCCAGCACCGGACGCCCGGTACGAATGGATGTTCCCAGGTCACCATGAAACAGGTCGCTGACG +TAGCGGTAAAACTGTACATACAGTGGCTGGTCCAGTCCCAGTTGCTGGCGAATATTTTCCACGATAGCAT +CGCTGGCGCGGTCACCCGCCAGTAACCGCGCCGGATCACCAGGGATCAGATGCGAGATAATAAACGTAAT +CACGCAGACGCCCGCCACCACGAGCACCAGCCCCCAGCAGCGTTGGCGTAAAATACTCCAGAAGGTCACG +TTATTTACTCATGGTATTGATATTGAAGACCTGTTCCAGCATGGGATTGAACACAAAGCCTTTCACCTCT +TTGTTCATCGCCAGTTGGTAGTTTTTCTGGAACAGGTACACATAAGCAGCGTCATCAATGACGATTTTCT +GTGCCTGCTGGTAGTCCCGGGTACGCTGCGTCTGGTCGGTGGTCGCAAGCGCATTGCGCAGTAACTTATC +GACCTCACTGTTTTCATAGAACGAGCGGTTACCCGGCAGACCTTTTTTGTCTGACTCAAACCAGTAATTC +ATAAACATATACGGGTCGGCAAAATCCGGACTCCAGTTGCCAATCGCAATGTCGTAATCACCTTTACCCA +CTCTGTCGCGCATGGTGGCGTTCGCCAGCTTTTCCAGCTTCACAATGATGCCCAGCTTGTTGAGACTGGA +TTGTGTCGCCAGAGCAATAGGCTCCCAGTTCGGATCGTTATCGGAGTAGAGAAACGTCAGGCTGGTGGGT +TTGCTCGTCACTTTATCCCATTCGGCTTTGGCTTTCGTTTCGTCATGGTTGTATTGCATTGCCGTCGCAT +CGTAGCCCCACATGCCTTCCGGAATCGGGCCGCGCATCTGTTTTCCGTTACCACTCAGAATGCCGTTAAC +CATGCCCTGATAATCGGTAGACCAGGAAATGGCCCGACGCAGATCCGCCTGATTAAGAGGCGCTTTGCTG +TTATTCAGATACAGATAGGTAACGCGCAGTGACGGATACTCTGCCACATTGACTTTATTTTCCTGCTTCA +GGGCGTTGAGTTGATCCACCGGCAGCGCATCGGCAATGTCAATGTCGCCACGGGAGAGCTGCAGGCGACG +GGAGGCACTTTCACCAATAATTTTTACCGATACCCGTTTGAAGTTCGGTTTATTGCCTGGGTAATGCGGA +TTTGGCACCAGAACTAATTGCTGACCTTTTTGCCAGCTTTTCAGCATAAATGGTCCGGAACCGGCGGTAT +TTTGCGCGAGGAAGCCGCGAGCATCATCCGCTGCATGTTCCTTTAAGACCGCCGGATTGATAATGGATGC +ACCGTCATTCGCCAGCGTGTAGAGGAACGGTGCGAATGGTTGGCTAAGGGTAAACTTCACCGTATGTTCG +TCGGGAGCATCAATCTTTAAATCTTTGGGAAATGCTTCTGCTGGCCCCTGGCCGATTTTTAGTAGCCGCT +CAAAAGAAAGTTTTACTGCTTCGGCAGTGACAGGTGTGCCATCGGCAAATTTAGCATTATCTTTCAGGGT +GAACGTCCACTCTTTTTGATCGTCAGACGCTTTCCAGCTACTTGCCAGATCGCCTTCAACGTCGGTTGAG +CCTTTATCACCGTCCGTTTTGTACTGAACCAGCCGCTGATAAGACGGGTAGGTCACTGTCCAGTCGTTAT +TATCTATTGTTACCGCCGGGTCGAGGGTTTGTGGATCGGCGGCCTTACCAATCACCAGCATATCTTTTGG +TACGGCGGCGTGCGCAACCGGGAAATTTGTGGCAAGGACGAGCGCGAGCAATGTGGGACGAAACGATATC +GATCTCTTCATGACAGTTTCCTGATTAACTGACGTGCTGTGTGCCAGGGGATATAAAACAAGAGAATTGA +TCAGCGAGCAGAGGGTAACTCGCTGCCTGGGGTAATTCGAAGTGCCACCATTCGCTGGAGATACCGACAA +AACCGCCACCAGTCATTATCGCATTCAGCAACAGCCGATTGCGCTGAGCGGCGGGCGGGACGGAAGGGTG +ATAGGCATGGGAGCGCTCGTGCATTTCATCGAACCCTGCGCCCATATCGAGGATGTTCCCGTGCTCATCA +CGAAGCGTCAGGTCGATCGCCGTGCCACGGCTGTGATTAGAACCGACCGTCACATCAACAACATATTGCG +GGTCTGGGCAGGCTTGCCACAACATCGCCTGTGCTTGTTGTGGGCGATACGCATCGTAAATCACCAGTTG +TAACCCTGACAGCTGGGCGATGCTGATACTTTTCGCCAGCGCGGTAATCGCATCCTTGTGTAACAGACAA +CGCGCTTGCTGATAAATAGCTTTACCTGTGATGTTATCAGCGCAGGCGTATTTCAATTCGATCTCCAGAT +CAGGGAAGATTACGGCTAAATCAACCAGTTCGGTGGTATCCGACATAAACGGTTCCTGTATAAGACAAAA +ATTGCTGCGCTTTCCGCTTATGCAGATCTCATGCCATGCCGGGATAAGCGCCAGAATGCTGGCTTAAAGT +TATATTTTTTAACTTTTGATCAACATTTGTGCAGCGTAGTGCAGTTTTGGTGCAAGAGGGGAAGTTAAGG +AAGGAATCTCCCGGAATCGTAGCTGAAATCACAGTATTTAAGTGACAGTGTCACGTTAAATGAAAACCCG +CGAGTGCGGGCGAGAGGAATTTGTCAGATTTTCAGCGGTAACACGCTGCTCATCCAGCCTGGAATTTCTT +CGGCGGGTAGGGGGCGGGAAAAGAAATATCCCTGAATAACGCGACAGTGGATCTTGCGTAGCATCTCAAA +TTGCTCTTTGGTTTCGACGCCTTCCGCCACGACGGTTAAATTGAGGCTTTGCCCAATGCTGGTAATGGCT +TCAAGTAAGGCAAGGATGCGTTTTTCGGTCAGACAACGATCGACAAAACTTTTGTCAATTTTGATTTCCG +TTACCGGAAGACTGACTAAGCGGGATAATCCGGAAAAGCCCGTACCAAAATCATCTACCGATAAGCCCAC +GCCCATATCACGCAGGATCTGAATGCGCTTAAAGATTTCGGTATCGTGTTCCATCATCATGCTTTCCGTG +ATTTCTACCGTCAGCTGGTGGCCGTCAATACCCCAGGCGTGCATTGCATCAGACACCTGATTAGGCAGTT +GATTACTGCGAAAGTGCAGCGCCGACAAGTTCACGGATAACGCCGGGATATGAATATTCTGGCTACGCCA +TTCTGCTAACTGACGGCAAGCTTCCGCGATGACCCAGCGCCCAATATTTTCGATTTCACCAATCTCTTCT +GCGAGAGGAATAAACCGTGAAGGGGGCACATGACCATGCAGGGGATCGTGCCAGCGAGCAAGGGCTTCGA +TGCCGTACAGTTCACCCGTTTCTGCGAAGATTTGCGGCTGGTAAACCAGTTTCAGTTGGTTATTGCTAAT +CGCTTCTTTCAGCGCTGCGCCTAAAACCAAACGCTCTTTTACCATTTCGTTCATCGCCGGGCTGAAGAAC +TGCCAGCCGTTACCGCCATTCTTGCGAATATAATCCATTGCATTGTGAGCAGTGGAGAGCAAGTAATCGC +GGTTTTTACCCAGGTCGTAGCTGATGCCAATACTCAAGGTAAGCGGGAAGGGTTTATCGTCAATCATTAT +CGGCTTGCTGACCACATTCCGTAGCTCATCGGCGATTTGGGTAATGTTACTGACGTCGTTTTCGAGGCTC +ACGAGGACAAACTGCGTACCTTCGATACGACAGAGATACTGATCCGGTTTGAGTTTTTCACGAAAGCGAT +TGACCACTTCCAGCAATGCCTGATCGGCCCACGCATAGCCAAGGCTATCAATCACATCCTGAATATGGTC +AACACCGATGAGATACACCACGGGAGAGACGGCTTTGTCGACCAGGTCATCGAGGTAATTGTGCAGGTTA +TTGCGATTTGGCAGACCGGTCATCGGATCAAATTGGATGAGTTGTTCAATATGCTGACGGCTTTTTTCCT +GTTCCAGCGCCAGCGCGGCCATATGCTGGCTGATATCTGCCACGCGTTCGATAAAGGCGCTGGTTTCTGC +TCCTGACGAGGTTTTAATTTGCAGGATCCCCGCAGGCGCGCCATCACGCTGACGAATGGTCGCTGACCAG +CTTTGCGCATTTTGAATTTCTGCACCGTGGGAAGATGACGCCCAGTGTATCGGCATCCCGTTGCGCAGTG +CGAACAGCGAAACATGCGATTCGTTGAGTACAGATTCGATGTTACGACAAATGATTTCCCCCATTTCATG +AAATGGCGGGCTGCTGCACATGGCGGCGAGAATATTGCCTTCAAGCTGGCGAATCTGCCGTTCTTCGGTG +ATATCCGAGAAAGTCATTACCAGGTTCTGCAGATGCGCGAGCACGTCATAAACCGGGCTGATAGAGGCTT +TAATCCAGATTTTTTCACCGGTGCGCGTCAACAGCAGAAATTCGTCCTGATCGCGGGCGGTTTTCCATAG +CAACTGTTGTAAACGAATGCGGTTATCGGCAGGGAATTCAGGAATGTTCAGGAGTGTATCGGGCTGCATA +CCGCTGGCTTCGCTAATGCAGTAACCAAACATTTCGGTAAATGCGCGATTGCACTGCACAATATGGCGTT +CCGGATCGAGGACAATCACCGGTCGGTCGAGATGGTCAACGGCAATAATCAATTGTCGGGTCTGTTCTTT +TTGCGCCATTTCTACGCTGGCATCCCGTACCAGCGCCAGGTAATAAACTTTCCCCTCGGCGCTCACTTTC +GATAGCGCAAAACGGGTCCAGATTTTACTGCCGTCTTTTTTCTCCAGCTGCAGCTCCCGACTCATCCCCT +CAACACGCGCTTTACCGCCTTCACGGTTGTGACGAATGTATTCAGGATGCGCAGGACGCAAATCCCGCGG +AATCAGCATATCAATGTTATTGCCAATGACTTCTTCACGTTTGTATCCCCAGAGCTTCTCTGCGGCGGGG +TTGAAAAACATCACTTCATCATTTTCGTTAATTAACACCGCACCCATCATATTTTGCTCAAGGGCGGGGA +AAAAAATGCCATCGGCGGCATTATCCGCATCGGTTAGCTTCATGATTACCTCTGCATCCTGGCGCATCTA +AAGACTGGCTTTCCAGAGTTCAACACGGTTTCTACCTCGTCTTTTGGCGATATACAGAGCTTCATCGGCT +ATTTGAATGAGGCGCTCATAGTCAGGATGACCATTAAACATGGCGGCACCGATGGAAAGTGAGAGGGCAA +TATCTTCGCCGTTTGCGGCTTTCAGTTTGGTTTTCTCCACCCGACTGCGAATACGTTCTGCGGTACGTAA +CGTTTCGTTTTCAGAAGCTTCAGTCAAAACAATGATAAATTCATCGCCCCCGTAGCGGAAAACATAATCA +CTACTGCGGACGTTGTCATAAAAGGCCTGAGAGACTTTACGCAGAATTTCATCACCAGTGTTATGGCCCC +ACGTATCGTTGATCTCTTTGAATTTATCAACGTCAATAATCAGCACTGACAGCGGTGTACCGGTCCGGTT +GGCATGGGCAATTTCGCGTTTGAAGATAGTCGGTAGGAAACGGCGGTTAAGTAATTTCGTCAGTACATCC +ATACCGACTTCGTGGCGCGATACTTCTTCAAACAATTCACGCAGCAAGGTAATAATTTGCGATACGGTAT +TTCTTATCTGTAATAAAAATTTCACCCGCAGACTTCTGTTATTCAAATTTCTGGTGTTACGCATGGTTTG +ATTGAAAATACCGTCGAAATCCTGAATCAGACGGGAGATATGGCCTACTTCGGCAATACCACTAAAATAA +TGTCGACCTTTATGGTTAAACCACAGGCCAAAATCAGCCTGGCTTAAAGGCAAACTACTGCCTAAATCAG +AATCCAGCAGGATTTTATAGATAATATCTATTTCCCATGAAAGTATTGAGGCTATTTGCCGTTCTTTTTC +TTCTTCGGCGTTTTCCAGTAACGAGAAGATACGATAGTTTTCATCTTCCTTTGAGGCACTACTGTCACTA +AAGGTAAACGCGCGAGTCATCACTTCCATCGCGATATCAATACTGTTAATCGAGAAATGGTAGACCTGAA +GTTTTTCTGCGGCGGAATAATCCGAAGAGAAGATCACCGGATAGAGGATTTTTTTCAGCACCCGAAACCC +CATCTCGACAATTTCTACCGGAATTCCTATGCGGGCATGCACTTCCGCGACGGTATGCTGGATTTGTATT +AGCCTTTCGACATCGTCAACCTGGGCAGAAAGCACGTTAATAATCCAGCGTTCCATCGCACTCTTCAACT +GCCGCTCAACTTGTTCATTACTCAAGAATTCTTCGGCATGCGGGTCGATGCGGACAATTCGATAAAACTC +GATACTCAGATAATGAGCATGCGCAACGGCAATTTCCGCGGCTTTAGCACGAATGGGCGGATCTGCCTGT +TCGACAAGTCCGGTCCACTCATCTTTCATTCTTTTAAAATACATCTCCATAATTCACACCCTTATAAGGC +TGGGAAATCAGACGGAATCAAAATGAAACGCAACGTGCGAGATCGACTAACTGCACCATATTCTCCTGAA +ATATGAAGATATACTGAAAAGAAATAAGCGATTTAGGACAGTTTCAATCTACGCTACTGTTCTTCAGAAG +AGTATAGCCCATCGTAATTATTTTTCGGTGACAGCGAATATCGTATGGTTTTTCATATTCATACATTTTT +ATTAGGGATTTATGGCTGTTTAACTAAGTGTGGTTAATTTGACTTAAGTAAGCATGATTATTAGTGGGAT +AGTTTAAGAGGGTAACAAGCCGGTGGGTAAAGCACCGGCTTGTTACAAAGTAAGAATGGGAGTTTAACTG +CCCCAGCGACTTTGCAGATAGCTGACCGCTTGTTGAGTCTGCGGTTTATTCAGATAGTCCTCACGGAACA +AGATGGTGCCGCTAATTTCGGGCACAGCATCGTTAAGATCGAGCTGCTTTTTCAGTTCCGGTACGCCGCC +GTTAATCATCCAGTCTGGCTCTATCTTTGAAGGTTCACCCACTTTATAGAAGGCGATACCGATATACAGG +CGGGTCCTGGTCGGTTTAACGACATCCGCCCACCATTTTGCCAACACGTCATAACGCGCGGCACTCCGTG +AGAACGGCCAGTAAATTTGGGGAGCAATGTAATCCAGCAATCCTTGTTCCACCCATCGACGGGTGTCAGC +GTAGGATTCGTCATAGGCTGCCGCGCCTCGGGTATCGGAACCGAGCGGATCGTGTGATCGGTTACGCCAC +ACGCCTGCCGGGCTAACACCAAATTCGACTCCCGGCTTAATGCTTTTAATGGTGTGCGATACCTTTGCAA +TTAACTGCTGAGTATTGTTGCGCCGCCAGTCTGCTTTTGACGCAAATGCGCCTCCGTATTTACGGTACGT +TTCGTTATCATTTAGCCGTGAACCCGGTGACTCCGTATAGAAATAGTCGTCAAACTGCACGCCATCTACG +GGATAGCGGGAAACCACTTCTGCGACTATTGATGTGATCCAGTCCTGAACCTCAGGGATGCCCGGGTCGA +GGACAAAGCGATCGCCAGACGTTCTGATCCAGTCGCGGTGTTGCACATAGACGCTCGCCGGTTGTTGAGA +CAGAGTGCTATTCAGTTCCCTGATAGTACCGGGCTTCGTATTAACCGATACGCGATAGGGGTTAAACCAG +GCGTGTACTTTCATCCCACGCTTGTGGGCTTCGTCGAGCATAAATTGCAGCGGATCGTAACCCGGATTTT +CACCAATCTTACCGGTCATAAGATCGGACCACGGCAAAATTTTCGATGGCCACAGGGCGGTACCGTCCGG +CTTGACCTGGAAAAAGACCGTGTTTATGCCGAGACGTTGCAGATGATCCAGTTTGTCGATCATCGCCTGT +TGTTGTACACGGGCCCGGCTGGTGGGGTTACTAATGTTAACCGAGGAAACCGGTGGCCAGTCGAGCCGAG +AAACCGTGGCCAGCCAGATGCCACGCATCGGTTGTGACGATTGTTGCGTCGTGGCTGGTGGCTTTGAACC +TGCTGGTGGTGTCACCATGGACTCTGGAGGCGTGCTTTTACAACTACACAGTAAAAGTGCCAGTGCAACT +AGTATCGCTGGTCTTCTAATCGTTAATTTCTTGTTTCGGGAGCAGATATCCATATGTGCTGGTTTCCGGT +AAACAGATGTGCGCTCATTCTCGTACTTATCCCCGTTAAGTCAATACGACAGCAAGCACGAAAAAGGGAG +CGATGAATTATCGCTCCCTTGTCTTATAACCATTCAGACATGGTTAGTGTTTCTTGTCATTCATCACAAT +ATAGTGTGGTGAACGTGCACGCGGGTGCAGGAAGAAGTGACCTTTTGGTGCGTTCTGACTGTTGATTGGC +TCCAGAGTGACGCCGGTATTTGCTTTGCCTTTACGATCATGAACAGCATAGAGAATAAAGGGCAGGGCAA +GTACCACCAGGAAACTAACAACCAGTAATTCAACATACATATCGGTAGAATCACCCTGGATGTTATCCGG +CGGCAGGAAGGAAACAATAAACGCCATAATTGAAGTCAGCAGACCGACAATTGCCACGACCAGTTTCACC +CCTTTACCACCAGGGATATTAAATGTGCGTTTTAAGTCAGGATGTTTAAGAACCAACACAATGTAGCCAA +TAAACAGCATGAAATAAGCACACAGATAAATCACCACCGTCAGCGCCAGTGCGATCAGGAAGGACATGTT +GTTACCGCCACCGGTATTGGTGAGGATGATCAACGCGATAGACGTAATCACCAGCTGCGAAATGACCAGC +GTTACCGGTACGCCATTTTTGTTCATTTTAGCGAATGCCGCTGGCAGCAGGTTTTTCTGCGCTGTTACAT +ACATCCCGCGAGAAGGACCAACAATCCAGGAGGCGATTTCCGCCAGAACACCCAGCAACAGCAGTGCGGA +GATCACGCGAACCGTCCACTCAATTTCTGGTGCCACATGGGACATCAGAACGGTAAAGGTTTGCATTACC +CCTGCGGAGAGGTTGATTTCATTACCCGGAATGACCATCGCAATAGACAAACCACCAACAGAGCTTAAGC +AGATTGCCGCCACCATCAGCAGTAACATAGCCAACGGATAGTCGCGCCCTGGGTTGCTCATTTCATTGAC +GTGGGTTGCGGATGCTTCTACGCCCATATAACTCAAAATGAAGGCAACAAATACTACCAGGGTGCCCACT +TTAGAGAAGTCAGGGAAGAAGGTCTTCGAATCCATTTCGATAGCAACGGGGGCACCGGAGTGCAGATAAA +TAGCCGCTAATGCGATCAAAATAAATGCAGGTAACAGGATACCGGCGAAGAAGCCAACTTTAGCAATTCG +CGCCGTGTATTTCGTGCCACCAAACTGCGTTAATGCCAGCGCCCAAAGAATGATGAGTGCTGCAATAGTT +TTGGTAATGGGGTCTTCATTCAGCGCTGGCCATTTCAGGATGTAGGAGAGTGCCCCTAACACGAAATAGA +GCATCGGAATAAAACCAATGGCGATTTGCAGATAGCCAAATGAGATCGCTGCAAATCCCCATCTCGGCCC +CAGAGTATTTGATACCCAGGCGAAGACACCACCTTCTTCCCAGCCGTCGACGGTGGCCATTTCCGCAGCA +CAAAGTCCCACGGGAATAAACCATAAAATCCCGCCTAATAGCAGGAAGAAGACTAATGAAAAGCCCGATG +TTGCGAAGGTAGGGTATTCATAAACAGCCATTACCATCGATGCCGTTATGGCAAAGAATCCAAGTAATGT +GAGCTGCTTAGCTTTACCTGTCTGTACTGATGTAGCCATATTATCCCCCTAAAACGGTATTCCTGTCGGA +ACCGCACCTGTTTTGTTCTGAAGCGTATTCAGAACAATATTTTCCGTTGCTAATGCCAGTGAACAGACTT +TGGAAATTGTCCCGAAACGGGTTCGTTTCGGGACACCGTTACCGTTAAACGTTATCAGGTATGTTTAAAG +CTGTTCTGTTGGGCAATACCCTGCAGTTTCGGGTGATCGCTGAGATATTTCAGGGAGGCTTTGTAGTCTT +CCAGCAACAGTTCAGCAAAGTCCATTTCGAAGCCGCGACGACACATAATGCGCATCACCACGATGTCGGT +GGCTTCACCGCCGAGAGTGAAGGCCGGAACCTGCCAGCCGCGCAGACGCAGACGTTCAGAGAGGTCATAC +AGGGTGTATCCCGGATCTTCACCATCTTTCAGTTTGAAGCAAACCGCCGGGATGCCTTCGTCCGGGCGAC +CCGTACAGATGAACTCATACGGCCCCAGTTTGGCGATTTCATCCGCCAGATAAGCGGCAACCTGGTAAGA +GGCGTTCTGTACTTTGGTATAGCCTTCACGACCGAGGCGCAGGAATTCATAGTACTGTGCAATTACCTGA +CCCGCCGGGCGGGAGAAGTTGATGGCAAAAGTACCAATTTGACCACCCAGGTAGTCAACGTTGAACACCA +GTTCCTGCGGCAGCGCTTCTTCGTCACGCCAGATAACCCAGCCGCAGCCCAGCGGAGCCAGACCGAATTT +ATGGCCTGAAGCACTGATCGATTTCACACGCGGCAGGCGGAAGTCCCAGACGATATCCGGGGCGACGAAC +GGTGCCAGGAAGCCACCGCTGGCAGCGTCGATGTGCATGTCGATGTCGATACCGGTATCGGCCTGGAATT +TATCCAGCGCATCGTGCAGCGGTTGTGGGAACTCATAGTTACCAGTGTAGGTCACGCCGAAAGTCGGCAC +CACGCCGATGGTGTTTTCGTCACAGGCTTCAATCATGCGTTTCGGGTCCATAAACAACTGACCGGGGCGC +ATAGGGATCTCACGCAGCTCCACATCCCAGTAGCGGGCGAATTTATGCCAGCAGATTTGTACCGGACCGC +ACACCAGGTTTGGTTTATCCGTTGGTTTGCCTGCAGCTTCCATACGCTTGCGCCAACGCCATTTCATCGC +CATCCCGCCGAGCATACAGGCCTCGGAAGAACCAATGGTGTTGGTGCCAACGGCCTGACCATTTTTCGGC +GCAGGCGCATGCCACAGATCGGCAACCATATTTACGCAACGCAGGTCGATGGCTGCGGATTGCGGATATT +CTTCTTTGTCGATCCAGTTTTTGTTAATGGATAAATCCATCAATTTGTGGACATTTTCGTCGTCCCAGGT +CTGGCAGAAAGTGGCCAGGTTCTGACGAGCGTTGCCATCAAGATATAATTCGTCATTGATAATCTGGAAT +GCGACATCGTCGCGCATTTCGTGCAGCGGAAAACGTTTTGATTCTGCGATAGTGGAAATAGACTTCGCAC +CAAAACGTGAATCGAGTAGTTCCGACCTTAAATCCGTTACTTGCTTCTTATCCATTTTAAACTCCTTAAA +ATGATTGGATCGCATTAAAAAAGTAGGATTTATCGATAAAGTAAGCAAGTGCAAAGGACTCGTGTTTAAA +TAACAAAATCCTAATGTTATTTATCGTGAGATATTACGCGAATAATATTTTTTCATTGAAAAACAATACA +ATATGAAATTCTTGGGTGGTGGTAAGGTGTTTTATGCTGTTATTTTTATGCGCATTCTGTGTCTCCTGAA +TTATCACGTAAAAATCAGACCTTAAAATATCACTATTAGTACTTGATTATTATTTTGAACGCATTTATAA +AATTATTACATAAAAATAGCGAATATTGCTAAAATCCCCGCCAACGATGTGTTGACGGGGCTGTTATTAT +TTTGGCAATAATACTCCGGTATAAGTATTTACCGGATGAGAAAGATATTGTTTAACGGCAGTGTTAACAT +TCTCTACCGTCATTTGTTTCAACAATTGCTCCTGCTCAGTCCATGCTGCAGGATCGTCATATTGAATAAG +ACTATTTACAATAGTGTTCGCTAATTGTTGAACGCTACGCTGTTGGATATCGAGGCTGCGCTGAACGTTT +TGCTGGTATTCATTCAGTTCTTGCTCACTGATCCCTTTAGCCAGACGCTTAACCATCACTTCATTCGCTA +ACGTTAACAGTTCATCATGTCGTTCTGGTTGACAAGTAAAAGCCAGCAAATGACTGATATCTTTGGCCTG +AGGATCAACCGAGAGGCGAGAAGAAACGCTGTATGCTCCAGATGCCTGTTCACGAATATTAACACGTAGA +TCTTTTGCCAGTGCGACGTTAAAAGCATCGAGCGCCATACGCGTCGGCAGATTAACAGGTGTCCGGGAAT +CATAACGCTTCCACTGTGAAACCTGTGCCACAGGTTCATTTTGTTCTTTTACAGTAACCGATGCGTTGTC +CGTCGCGCGAGTTAATGGTTTACCTGCGGCTAATGGCGAATCAGAGTGTTTGATTGATCCTAAGTAACGC +GTAATTAACGCCACGAGTTTGTCTTCTGCGACATTACCGACAATGACAAACGTGATATCCGCTGGAGATG +AAAACAATTGGCGATCGGCAGCCAGCGCATCTGCGGCAGTAAACTGTGCAATCTGATTTTCTTGCAGTAA +TTTCGTGCGGTCATCAGCATAGCGCGTCTCATACATCTGCTGGGCGAATTTCTCCGCTGGACGCTGGTCG +AGCGTTTTCAACGCCTGAATTTGAGCATTTTGTAGCGATGCCCAAATATTATCGTTAATCGTGCTGTGGG +TGATTCGCTGGTTAATCAACTGAAAACCAGGTTCAGGGTTATTAGTCCGCGCGCTAACGGAGAGCAACGT +ATTCATGCCACTGACTTTACTGCTCATGGTTACCGAATTTTCCGCACTCCAGCGTTTCAGGCTGGAAGAG +GAGAGTTCGCCAACGCCGCTTCCGCTAACTGCTTTATTTGCCAGCGCGATAAGTGATTTTTGCTGCGCAG +GGAAACTTAAATCGCCTTTATTCGATACGGCAATAATTTGTAGCTTTTGCTCTTCACCCGCGGATTTTGC +CAGAATAACCCTGGCACCATTGGAAAGTGTTAATGATGTCAGATTCTCCGCCAGCGTTTCTTTGCTGCTA +ATTTCCGCCTGTGGGTCTGCGTCTACTGTTAACGATAAATTTCTGCCTGGGAAGACGTAAGCCGCCAGCT +TTTTGTTGGCGTACTCCTTTTCCAGCGCCAGGATAGCCGCAGGAGACAATGCTTTTTTGGCGGCAACCTC +ATTGTTTACCATTTGCTCCCAAAATGCGTCCTGGTTCTTTCTTAACTGCTGCCATTTTTCCGCCAGACTT +TGCACGGTAATTTGCTGCCACAGACGTTTCGAAAGTTGATATGTCTCTTCCGGCGACAAGAACGGCGTAT +TATTTAATGAGCTGGATGCCAGGCGACTGGTCAGCATACGTAAATCACGTTCAGCTTGCTGATCAACCGC +ATTTTTCAGCCAGGTGAGGCGGGTAGATTTGACATCATCGAGTTCTTCAGCAGAAAAACCATGCTGATCA +ATGGTTGCCAACTCTGCCATTAATGCATTCGCAGCATCCTGCATATTATCGTCTCGTGCATTTACACGGA +AAAACAGCGACTGATAATCGGGTGCAATTTTAACGCTGCGCGCAGTGCCGCCAGAAATAGTCTTCAACTC +GCCCGACTGTATGCGTTCCTGCAGACGTTGATTGAACAGCTGAACTAACATGCTCCATTCAGCTTGTTCG +ATAAAGCTTTGCTCATCGTTCACTTGTACCATTGGCAGGCGATAATAGAGTGCGATGCCGTTCACCCGGT +TTTCTTTATCATTAATGATATTAAAGCGCAGGTGGTTTTCGGCTTTTGTCGGCCAGACGCGATTTTCAGC +TGCTTTGTTAGCCGGAAGCTTACTTAAATTATCCTTTATCAGCGCCAGCGCTTCTTTACTGTCGATATCG +CCGACCACGATAAAGGTCATATTATTTGGTTGATACCAGCGTTGATAAAATTGGCGCAATTGTGCCGGTG +TGACCGTGGCGACAGTATCCATCAGGCCGATAGGTTCACGGTCTAAATTACGGGTATTTGCCAGCAGGAA +AGGGCGGCGCGCCTGAGAGGTGCGCCATTTCGCATCCTGATGGGCACGCCATTCCTCAGTAATTACGCCA +CGTTCAGCGTCTACTTCGAGTTTTTCAAAGGTTGCGGCATTACTCCATTCACTGAAGATTGCCATCACTT +GTTGCAGATTTTGTTTCTGCGTAGTCGGCAAACTCACCTGATACACCGTTTCGTCATAGCTGGTATAGGC +ATTAACATCGCGACCAAAACGCAGGCCCATTGACTCAAATGTTTCGATGACTTTATTACCCGGCCATGTT +TTTGTGCCGTTAAACATCATATGTTCTACAAAATGAGCCACGCCGAGCTCATTGTCTTCTTCCTGCAATG +AACCGGTATGAATTTGCAGCCATAAATTTACCTGATCCTTTGGATGAGCATGCGGATAAATCATATATCG +CAAGCCATTGTCCAGTTGCCCGGTAATTAACTTTTCATCCTGCGGTAAGGCGGCGGCAATCAGCCGCCCG +GGGAGCAACAGAGTTGCCACTAACGTCAGTAAGAAACAGAGGTTTCTCATAATTATCTCCATGCGAAAAC +CGGGCGAATTTACCCGGTTAAGTAAAATCCGAACTATTAAAATTTCATGCTGACATCAAGCCAGAAAGTA +CGGCCACTGGCGTAGGTCGCCACACCGGTGTTCGTTGTATCAACAGCGGTTTTGCTATCCAGTACATTGA +GAATATCGGCACTGATCGTCAGGTTTTGTTGTTGCAGAAATTGTGGCGTCCAGGACAAGCGGGTGTCCCA +GGTCAGGCTGCTATCCAGTTTTTCGTCAACATACTGCTTGTAATCTGAATATTCGCTGATGTATTGCGCA +TTTGTCTTACCAAGGATAATGCGAGCTTTACGCGCTTCTTGCCAGGCCAGCGTATTCGCCCACACTAACC +CGCTCGGTTGATGCGTGAAATCCATGTTTAAGGAGATCTTTAATGGGTTATTAAAATCTGCCACTGGAAC +GCTATCGTAAGAGACCAGATTACCGTTATAAACCACCTGGTTATCACCGGTATTGCTCTCCTCATAACCA +TTGTTTAACGACAAGTTGCCCTTGCTCTTGATATAGCTAAAGACAATTTGTGGGTTAATATCTACCTGGC +GGATATGCAGGGGTTCGGCCAGTTCAAAACTGAGGCTGAACGAATGCGTTTTGGTTTTGCCATCGTTGTT +ATATTCAGTAATGGTGGTTTTAGTCGCGCTGTCGGTACGACTGCTTTTGCTGATTTGATCATGCGCTTCA +CGGTAAACATAGTTTGCACGCGCAATAACGTTCTTACCGATTTTCTGCTGCAATCCCATTGCCAGTTCAT +CGTTATAAGGCGTTTTCAAATCCTGATAACGCGTCAGAGTTTTATTACCTGATACCGATTCCGTCCAGCT +ATTGCGGATATCACGTAATCCCATATCAAGAATATTCCCGCCATAGTAACGGTTATAACCTGCTGTAATC +ATTGAGGTTTGATTAGCAAAAATATCCCATTCCGTCATAAAGCGCGGGGAGATATTGTGGTTTGACAGAT +AGTTGTCATAGTCATACCGCACGCCGGGCATTAATGACACATTACGCCAGCTAATGCGATCCGCCATATA +CAGCGTGTAGTTGTCAATTCCCAGGCGGCCTTTACCTTTATGGTAAATGGTATGGTTAGTTTTCTTTCCG +GCAGCATTAATCACATAGGATTCAGACTGGTTATGGCGTTCAGTCCACGCATCGGAATAGATGTATTCCG +CGCCGAAGTAGGGTTGATGCGAAACATTACCCACGGCGAATTTTTGCCAGTCCAGGCGTGTTTTGAAGGT +GTAATTATCTACAGCCTGGGAAATGTGTCCTAATCCGCCACGGGTGCAACGCCCTGTAATATCACCATAT +GTACATGAAAGTTCGGTGTACCAGATGTCATGATCGTGACGGGTATAATCACTAATATGATCCCAACCAA +CGGTGGTACGCAGTTTGGCCCATGCGAGCTGCGTATCCATATCCCATGCCAGACCATAGGATTTATTACC +CATTTCGCGATCAGACTGCGGGAAGGTGCTGGTATTATAATCACGGCTGGAGCCGGTATATTTTAAGGTT +AAATCGTGGGTAAAGCGGTCGCTGGCAAACCAGGTAAATTTGCTTAATGCAGTATCGATAACGTTTTTAT +ACTGTGCCCGACCGGCGACAATGCCGTCATTCGAAACATAATCCGCGCGGGTGATATCAGACTGGCGGCG +CGATAAACCGGCGGTAACGCCGAAGTTATCAGCGAGTTCCTGATTAAACGACAAGGTATAAAAGTTCTTT +TTAAAATCTGGGGAGTAATAAGTACTTCCTGAAGAGCCTTGATTAAATGCGCTCTTGTTATTCTCATCGA +TATGCGATGTTAACCAGTCCGAACGCGTAGTGCGATAACCCAATTTCACCTTGCTATCATCAGCGTTGAA +GCGTTTGATCTTTGCATCAATTACCCCGCCATTGAAGCGACCAAATTCAACCGGCACAAAACTGTCATAA +AGCGTCACATTGTCCAGTAAGCTGACATCAAGATAATACCCCTGTGACATCCCGCTAATATTGGTTGCAC +TACTGGCATCGGACTCATTCGCTGGGTTCAGGTTATTAGTTGCACTAATACCGTCAATCAAATAGGCATT +CTGGTAGGGCGACGCACCGTGAATAGAGATTTTCTCAGGGCGAATATCTCCCTGGTTCAACGAGGTACTT +TGCGTTGAATCCATGCGTACCGCAGGGTTGGTTCTCAGCAGATCGCTGATATTGCCATTCCCGGTCGGTA +AACGCTCGATGCTTTCACTGGTGTAATGCGTGTTGCCGTTTACGGGTACAGGGACAGGAGCATAGACCGT +CATCTCTTCAAAAAAATGCATGTACATGTTTTTGTCATCGACGGCCTGCGCCACATCAGCGCCACATAAA +ATGACGCCAGGAATAAGAACTCGCTTCATTTATTTATATCTCCGTACAGCAGGGCTTTTATTGTTTTTAT +AAAACCGCGCTAATGTCACAAATATCATCGGCCAGGTTCCAGACACCGGGTTGATGTGTAACCATAATGA +CGCCGCTTGTGGGTAGTTTTTCACGCACTAAACGCAGTAAGCGGATAGCCTCTTGTTCCTCAAGATGAGA +GGTAGTTTCGTCAAGAAATATCCATTTCGGACGTCGTAAAATTAATCGTGCCAGGGCGATACGTTGTTTT +TCGCCGCTGGAAAGAATATCTCCCCAGCGATCGTGGTCATGAATACGCGCAGCCAATTTCCCAAGACCAA +CCTGATGCAGTACTTCGCTCAACGATTTATCGTCTACGGGCAGGGGAAGTGCTTTACAAATAATCTCTTT +CAGTAAGCCGGTTTTGATTAACGGTGTTTGTGACACATACCAACTGTCAGCAGGAGAAGAAATATCACCT +TTAAACCACGGCCAGCAGTGGGATAATGTTTTAAGCAGTGTGGTTTTTCCCGCGCCAGAGTAGCCTTTCA +GTAATAGCCATTTGCCTGGCGAAACATGAAAGTTCAGGTTCTCTAATATGATCTTATTATCAGGCGTACG +AATACTCGCATCAGCCACTTGTACCGCATGTTGGCAATTTTTAGGCTTATTCGTAGGGCGCTGTTCAGTG +AGTTGATGGAACTCATACAAGCGATCGATAACCGCAGCCAGTTCAGCAAGTTCGTCATATTTATAAATAA +ACCAGCTTAAATTGTTCGATACCAGCATAAATGCCTGGCGCGATTTCATCAGTCCGCCCAGATTGATCTG +CCCGCTAATAAACTGCGGCAATAACAGAAAGTAGGGAAGAACGCTAAGCGAGCGCGAATAAATATTCTGC +CAGTAATCAAGCCACCGCTGACGATTCATTAAACGATGCCAGTTCTCTTTAATGGTATGAAAATTGTCGC +TCAACTCCTGGCGTTGTAGAGACTCAGCATTGCTTAGCGCAATCAGTTCTGCCTGCTTATTATGCTGCAC +AAGATTTGTTCGAAATGTCGCTTCGCTACGTTGTTTTTCCACATTAAGCGGACGAATACGTTTACCCACC +TTATGGGTAAATAAAGTTCCACCGATCACAATGAGCACGACGGTATAGACCATATACCCCTGGATATTCC +ATTCTGTTCCACCAACAGTGAATGAGAGCGTACCCGCGCTTTCCCAAAGAATAACGGTAAAGGTGATCAG +CATGCTAAGTGACTGGATGAAGCCAAATGAAAGACTGAGCGTTTTGCTGATCAGTAAGAGAATGTCTTCA +GCGATACGTTGGTCAGGGTTATCTGTATTTTTATGCTCGCCGTAGATCTGCGTGAAGTAGTAGTTTTTAT +CTGCAAACCACCGATTAAGGTAGTAATCTGTTAACCATTCGCGCCAGCGAATAGTCAGTAGTTTAATTAA +CCATGTTTTGTTTACGGATATTAATACAAAGATCCCCAGCAGGGCAGGGAACCAAAGGACAAGCTGCCAA +AGCTTATCGGTTTCTTTCTGGCTTAGCGCATTGAAAAAATCATTATTCCAGTCGTTTAACCAGACCTGAA +TTTTAACCACGCCAAGGATCATGGCGAGGATAATAATGATTAACAACACTGAAGTTTTATTATTCTTACG +CAGCCAAAAGGGCTTCAACAGACAGAGATACTTTGCTATCAACATACGAAGCGTAATGGGAATGGTTATC +ATTAGCGAAAATTGATTGTGCCATCCAATGATTATCTATGGCAATGATTTACTGATGAAATTTATTTAAG +TATCATTTAACAATATGAAATATAAAGGAATATTTCATTTTCAGTGGTTATGGTTATGCTATTGATAATC +AAGGATATTGCTAATGCCCTGATGCATACCACGTAAGCCAGGATTTTCGCAAGGGAAGATGATGATGACG +AAACACCCGACAGGAATTTATGTCGGGTGCCTTGTTAAGGTCATAAGAAGGAGGCTAAGAATGGAGTTAA +AAGAGAGCGTTATTAATTATTCTCCATTTGTTTTGCAACATCCATAATGTGGTAAAGCGGTACTCTGTTC +TTAGCTAACTCTACCATGGCGTTCATATAAGGTACCATGGTTGAAAAAAGGATTTTATAACCTTCGCAAA +AATAAGAAACAGTCTCATTGTTTACTTTAGTAATACGATGCTTAGGACAACCGCCATTGCAGATAGGTTT +ATATGCACATTGCTGACATTTCGCTGGAATCCGTTTTTTTTGCGCTGTCAGTTGTACACTGTTCATCGTT +TTGAGTTCAGATTTATTAATGTTTCCAATTTTGTACTGTGGATAGACAAAATGGTCGCATTCGTAAATGT +CTCCATTACTTTCAACAACCAGATTATCCTTGCAGGACTCCTGGAAAATACAACTGGTATGCCCATTCCC +CAAAAAACGGCTGACAAAGCTTTCAAACTGACGGATGAAAATTTCACCCACATCGTTTTTAACCCATTGC +ATAAAAATGGTTGACATAAACTTGCCATAAGCCGTGGGAGGCACAGAAAAATCAATGATACGGAATGTGT +TCTCACTATGACCACTGAAATCAATATTCGGCGTCCCGGTTTCTAGCAATTCGATAAATTGCATATGTTT +ACTGCCGATAGATTTTAAAAAATGATAAACCTCAAGAGGGTAATGGACATTAACGTTATTAATGACGGTT +AACGTATTAAACTCTACTTGATATGATTTCAGACGCTCGATGGCTGCTATCACTTTTGCAAAAGTACCGT +TACCTGAATTACTGCGTCTGTAACGGTCATGTAACTCCTGGGGGCCATCGATCGAGATACCAACCAGAAA +TTCATGTTCTTTGAGAAAGGCACACCATTCATTATTCAATAAAATGCCATTCGTTTGTAATGCATTAAAA +ATACGTTTTTGGCCTGCATAGCGTTGTTGATAGTGAATAACTTTACGGAAAAAATCCAGGCCAGCCAGAG +TGGGTTCACCGCCTTGCCAGGTAAAATAGACCTGATTGCCAGACGCTGCGATATATTGTTTGATGAACTC +TTTCAGAGTGCTGTCATCCATCCATTTTTCATGAGTAAACTGCGACTCTTTTTCAAGGTAAAAACAGTAA +TCACATTTGAGATTACATTGAAAACTGGAGGGCTTGGCTGTAACGTGCATCGCTATCTCGCTCAATAAGG +CGGCGGAAAAATCCGCCGCATGAAGGTTTAGTTATTTCGCTTCGCTTAGTGCTTTCTTGATATTGTTAAA +CTTCTCCTGATTTACCTCGCTAAGCGGTGGCTGGCTGCTGTCGATAAACTCTCTTACCACGCCTTGCATC +TCTTTAACGACCTGCGGATTGGCGGCGGCAAGGTTATCTTTTTGCTGTAGATCCGTCAGTTTGTAGAGAC +CTAACTGATTGTTTTCTACTGTATAGACAAGCGAATAATCGTTATTTCTCACCGTATAAGAGAATTGGCT +TAAGTCCTCAGTGTTGGGGTTATGCGGGTAATCGTCTGACTGATGGCGAACAAATTTGTGGTAATTATCC +CAGAATGGAATATTTTCCTCGTCAAACCAGTGAGAATAAGAGGTTATCCAGGTCAGATTTTTATGTGGCT +CGCCTTGTTTCTTATCTTGCAACCAGGGCAGCAAGGAAACGCCATCCAGCTTAAGGTCTTTTGGAATGCT +GATATCGGCTGCATCAAGAGCTGTCGGGTAGAAATCCATTGCGGAAATCAGCTTGTCATAATTACCGGGT +TGAAGTTTTCCTTTCCACCACATAAACATTGGGGTGTGAGTACCGCCAGGATAGGTCTGACTCTTATAGC +CTTTTTGCGCCCCGTTCAGCGGCAGAGGACCATCGATAACCGCACCATTATCGGAGGTAAAGAGAATAAT +TGTATTGTCATACTGTCCGTTTTTCTTCAGTTGTTCGAGAATGCGTTTTACACCCTGATCAACAGAATAA +ACGGAAGCGTAGTAGTTATCTGCTGTTTGACTACCGGTATTAAATTGCTTCTGATATTGATCCGGTGCAG +GATTATCATTTGGCAGGTGCGGAGCATTATAAGCCAGGTAAAGCATAAAAGGCTGGTCAAGTGTTTTGGC +ACGATCAACAACGCCAATTGCCTCATCGGTTAACTGATCGCTGATATAACCTTTTGCGGGGACACGTTCA +CGATTTTTGAACAGTGAAGGGGAGTTGTAATATGCCGTTCCTGCAGCGTGGAATCCCATAAAGTAATCAA +AGCCACGGTTTTGAGGTTGCCATTCTTCCGCAGAAAATGTGGTGAAGTTGTCATGATAGTCACGCGTTTG +TTTATCTTCCGGTACCGGCACATTACTGATTTTTGACAAGTGCCATTTACCTACTGCTGCAGTGTAATAA +CCATGATTCTGGAATAATTCAGGCAAGAAAGTTTCTGTTAGCGGAATACCATCCTGAGCATCGGTATTGG +AATAGACACCAAAGCGGGCGGGAGCTCGACCGGTCATTATTGCGGCGCGGGAGGGGCCGGAAACACCGTG +TGCCACATAGCCGTTAGTAAAACGTACGCCTTCATCCATTAATGAAAGGAGCGTCGGCGTTGATTTTTGT +GCAGCTTCAATGGCTTTATCTATCCCTATTTTGTAGGTATCGACAACTTCACGATTTTCCATTGTTTTTG +GGTCAAAAGATCCCTTATCAAAAGGAAGTTGTCCATAACCAAGATCATCCATGGTCAGTACGATAATATT +TGGCTTTCCTTTGGTACTGTATTCTGTCGGCGTAAAGTCTGAGAAAGCAACGTTTGTTTTGGTTGCTTTC +AGCTTTACATCATCTGCCGCATGAGCAGCAAATGCAGCCATACCAGATGCCAGTATCAAAGATATCGAGG +TACTTACGACACTTTTCTTTAATGCAGACTTCATAAATGTTCCTCTTCTTATTGTACTTAATTCCAAAGT +AATTTTACGAAGAGAAATAAGTGGATGTAAGTGAAGTTAGTCACATAAAGAGATAGCAGATTTAGCTAAA +AAAAGGGAAAAAACAGTCCATAAAGCGTTGACATTACTTTCTGTTCTATTAAGTAATTTCTCGCCGATAA +ACAACTAATTTATTGATATTTAATAAATTATTGCATTTTACTGACAAAATGCAGAATTGAGATCATAAAT +AATCATGCAACAGGTTATGCAAGTGCATAAATATGTGATGGATGTCACTTATTTATTTCAATAAATATAT +CGCCTAAAAACAACGCGGGGCAGGGAATGGCTGCCCCATTTAATTCTTACGCAGCGTGTGTGGTTGACTA +CTCGTTAGCAAATAATCAAATAGCTAAAGCATTCATCGTGTTGCCCGTATTCATACCCGTGTGACTTTGA +CAACGGTACTCCTTAGAAACTCTCTTCGGACTGTTGCCGAAATGTTTGCGGAACGCATAAATAAAATAAG +ATGTACTGGCATAACCACATTGTTCGGCAATTTTATTGACTGAACCTTCTACGCGTATCAAATTTTTTGC +GTGCTGCATTCTTGCATCTAAAAGAATCTGTGAGAATGTCGTTTGCTCTTGCTTAAGTTTTTTCTTCAAC +AGGCTTTCACTGATGTACAGGCAGTCACAAATATCTTTCAGCTTCCATGGGTGCGCCGGCTTCATGTTGA +CAATATTTCTCACTTTCCCAGAAACGGATAGCACACCGTTAGTTAATAGTGTAATGAAACCTTTGCATGC +GGCAAAAATAGACAGGCAAGAAAAAAGCAAAAGTTCTGAAAAATTATGATGATTGCGTTCTTCCGAGTTG +AGATAAGCAATCATTTCATTAAGCAATCCAGTCGGTACATTTGAAGCACGTAAAAACTTCGCAGGAACAG +GCACCGTCACTGTCTGGATGTTAGTGCATTGTAGATATTTTTTAATGGTATTTTCAGTAAATCCGATCTC +TTTAAAATGCCGCTCATAAGGTTCAAAATGCGTACGAACAGCGTTATCTACCATCAGGATCTCGCCGTCA +GAGAAGGCGTAATCTTTATCTAAAATGTTAGCGTTGAAGGCATGATGAATAAATATAACAGAACAAACGA +GCGACATTTTATCTCCTTAAAACAATAAAGTTTTTATCGATACTTTTTTAACATTTCATATTTATAATTT +GCTGTTTGTTTTCAGCCTTGCAAACTATTGATAATGAAATGTGTAAGATCTCTTGCAATGCGACCCATTT +CTGAAATACTCAGCTGATCAATTGCCGAAAAAATGGCTATCAACGTAAGTGTCAGTAATAAGACAACCAC +AATTGCAGACATGATTTCTTTATAGTTGTCTCTTTGCGTGATTTTGTTTTTCACTGTGGTCGCATGCATT +TCAAATATGTTTATTTAGCGGATAACGTTAAAAATCGTTAATCAGTATGCTTAATATAACAGGCTGGAGA +AAAGAGGAAATAGGACTGGTGCTTCAGTACTGAGCGGAGTTTCTTACAGCTGTAGGCAGAAGTTTATATC +TTATAGTATGTAGTTTAATTTAATCCATGTGAGCAAATTGCGAAATAATAGTCAATGAGGAATTCTTCTG +CTGTGCGGATGACAGCAGAAGAAATGAGAAGAGGCATTAATTTGATGGTTCTAATTCAACCGGAATACTT +TTATAGCCAGGAATGCCACTTAATGGATCGTGGTTATCAAGTGTTAGCATGTGATTCGATTCTGGAAAAT +AGGTCACCAGTGAGCGGTCAGCCATAGGGTAAATGACCACTTTTAATCTATCCATGCGGCGTGAGCTGCG +CTTACCGTCTGGCGTAAGCGCAATAAGATTAACTCTTTCGCCGTTTTTTACACGGCAAATTTTAGCTTGT +TTAGCACTCATAAAGACCACATCTCGTTGACCGAATACCCCTCGATAGCGATCATCCATACCATAAATCG +TCGTGTTGTACTGATCGTGGCTGCGTACTGTCGCCATGACCAGCTTACTGTTAAACGCTGAAGAGGGATC +TTCTAACAGCCCTTTGCTGGTAATGAAATTAGCCTTACCTGACGGCGTCATCCAGCGCCTTTCAGCAGCT +GCATTTATCAGGTGAAAACCACCGGGATGACGGATGCGCTGGTTATAGTCGGCGAACTCTGGCAGCACAG +CTTCAATGTCATTGCGAATGCGATCATAATCTTCCACCAGATACTCCCAGGCTACCACGCTCTGGGGTAG +TGCTGCCTGCGCGATTCCCGCGACCACTGCACACTCTGATTTCAGCATTACACCGGCGGGTTTTAACACG +CCACGCGAGGCATGAATCATCGACATTGAATCCTCAACGGTTACCGCCTGCGCACCGTTTTTTTGCATGT +CAATCTCGCTACGTCCCAGGACCGGCAGAATATAGCTATGCCGTGCGGTCAACAGATGAGAGCGGTTAAG +CTTAGTGGCTACGTGTACCGCCAAATCTAATTGCGTTAACGGTACAGCGCTCGCTTCCCGATCTGGCATT +GCCAGCGCAAAATTGCCCCCCATGCAGATCAATGCTCGAGCCTGCCCCGTACATATTGCTTGCATGCTGG +CAATTGCAGCATGTCCAGGTGCATGAGGTGGGGTGAAGCCATAGCGCTCACCCAGACGAGCCAGAAACTC +TGCAGACGGTTTCTCGGTGATACCGACGGTTCGGTCGCCCTGTACATTAGAGTGTCCACGTAGTGGGCAG +ATACCCGCACCAGGCTTGCCAATGTTACCTTTCATCAACAGCAGATTGACCAGTTGCTGTACGTTCTGGG +TACCATGTTCGTGCTGAGTGATCCCCATTCCGTAACAGATAATGGTGCGTTCGGCAGCGGCATATGCGTC +AGCCAGTTCGGCGATTTGTGTCTGACTTAGTCCAGAAATACGTTCGATATCTTTCCACTCGGAATTGAGA +ACGTCACGGCGTAGCTCGTCAAAGCCGACGGTATGCGTTTGAATAAACTCGTCATCAAGCAATGAAGGCC +GACCTGCGGCGCTTGCAGCATCATCGCGCTCAATTAACAGGCGCATCATCCCCTTGAGCAACGCCATATC +GCCACCAATGCGCACGTTATAGTAGGCACTGGCCAACTGAGTCTCAGAGTTCGTCAGCATTTCAAACGGG +TTTTGCGGTGCGGTAAATCGCTCCAGGCCACGTTCCTGTAGAGGATTGATGGCGATCATTTTCGCTCCCC +GTTTCACTAAAGCGCGCAACGAAGTCAGCATGCGAGGGTGGTTTGTACCAGGGTTATGCCCAATGCAAAT +GACTAAATCGCACTTCTCAAAGTCTTCCAGCAACACGGTCCCTTTACCTACACCGATACTCGCTGCCAAA +CCCACGCTTGTCGGTTCATGGCACATGTTGGAGCAGTCGGGAAAGTTATTGCTCCCGTATTCACGGGCAA +AAAGCTGATAAAGAAAGGCAGCTTCATTGGAAGTGCGGCCCGAAGTATAGAATTCAACCTGATTGGGATC +ACTATAGCTTTGAAGGCGTGCGCCAATTTCGTCGAAAGCTTGTTGCCAGCTTAATGGCTTGTAACAGTCG +CTGACGGCATCATATTTCAAAGGCTGAGTGAGTCGCCCCGCAGCCTCAAGCTCGTGGTCTCCCCAGGTAA +GTAATGATTGAACCGTATTCTCAGCAAAGAAAGAGGCGTTTACCTGCTTATCCGTGACTTCCCAGGCGAT +TGCTTTTGCGCCGTTTTCACAAATGTCGAATGACGCACTGTGCTTAGGATCTGGCCATGCACAACCCGGA +CAGTCAAAGCCCTCTGGCTTATTCATGTCAAACATGGCAATAACATCCTGGCGTATATCCATCTGCTTAC +GTACTGCATTCGCTACGGATTTAACAGCACCCCAACCACCTGCAGCACCCTGGTAGGATTCAATTTTTTT +CTTCATCTACTTATCCTGTGTGGAAATGAATTATTAGGATTTGTAATAGCGATGATGCACAGTACATACA +AAGGGATTATCGCCAACATGGATATATAAGAGTAGGGGACTACTCTCTTTCTATTTTTAATCTATTATCG +TTAAACAATAGATTAAATACGATAAGTTAAGCATCATCTCTCATAGTGTTTAAATTAACATATTTTTCAA +TATAAAAAATAAGACTCTGGCTTCAATTGTGCGCGGATTTTCTTACAGGTGTAGGCTAATAGCCTTCACA +AAATAATTATCCGCGCAATTTTCGTGAATGGAGCGCATAGACTAAGGTCAAAATCACAATTATTCATAGA +TAAAAGTGACACCAATGACTGACTGGACGGTTCCGGCTGAAACCTTGTTTCCTGTTTGTCCATAGGTTGC +GCTTAAACCCAGAGGTACTTTGCTTTTATTTACTGTCCCCAGGGAGACATTTTCTCCCGTAGCCAGTATT +TTTCCATTACGCATTAGAGTGACACCCACTCCCGATGCTTTTGTTGCATCAGGTGCTGTGTTAGCAAACA +CTTGTCGGCTACTGTCAGTGGTGGCACCCGAAAGATAAAATGAGAGCTTTTGTTCGCTTGAGCAATATAC +GCCAAGGGGTATTTCTGCGCTTCCAGGAAAGTCCGGGAGATCCACGGTGACATTTCGACTATCAACGGTG +CAGCCGCCTGTTGGCATAACAACATTGTTATTTGAAATAATATTCCACGTAAAATTACGCGGATTTCCGC +TTCCTAATGTTGCAATTTTATACATATGAATACGGGCAATGACTTCCCCCGCTTTTATGACAACTCCACC +GGCCGCCCCAACTGGGGTAATATAGAGTTTTAACGGTAATGGCATCGGTGTCTTATCACCAATATCCAAT +ACGTTGGTATTTGTCGTCAACGGGAAGGGGTAGGTCACATTATTCCAGTACAGCGATCCTTTATATGACT +GTAGGGAGCCTGCGAAAGCTGAGCCTTGTACCAGGTTTATATGATCAGTGTCGTACCAGCCGCCGTAATC +ATTCCAGCAACTTATATGCTGAGACAAGTCTACAACCAGATTCTGGCCCGGCTGTATTACAGGGTCGAGA +TTAACATAAACAGAGGTTGTACCTGCTCCAATACTTGACCCGCCATCGACATTACAACTGAAGGCAAAAA +CTTTGCCTGCCATTAATAGAAGATAAATACCGAACAGGACCTTTATACTGATTGTTTTACCCATGATATA +TCCTAAGGTTAAAAATTGATTTAAAAAGAAGGCTAAGAAAATCGAATCGACGTTATTGCCAGGTGTAGAT +CACATTGATTAGCGCCTCGATCGTTCCCTGGCTTGCGTTTCCATTCACCGTGATAGCTCTTGCCTTAAGT +GGAAACTGTGCATTACGAGTGATCTCATCAACAATAACCGTTTTGCTATCGCCATTTTTTAACGCAGCAT +CCTGGTCATCCCTCAGCTCTATCTGAATATTTTCGGCAGTACCTTCATTTTTGTAATAACCCGTATTGTC +AGTTGAACCTGTCACGATTGCCGTCACTGCACTTGTTTCAACCGGACAATCGGTTAATGACAAAGTAATA +TTGTGCCAGCCAGATGCAGAACCAGGTTGTTGCAGATTGCGCGTATAAAGATCCCCGAGATTAACGTTAG +CTTCTTTGGTTTGAATAGTGCAGGGTTTAGCGACTACCCGACCATTAACAGTGATAGTGACATCGGCGGC +CTGGAGAGTTGCTGTGAATAACGCGCAAAACGTAGCTAACAGGAACCTCTTGTGAAGTCTTTTCATATCT +GACTCTGATTATTGAAATTCAAGGGTAAAGGTTGCCGAAGCCCTCACCAGTCCCGGATTGACGGACTTCT +GAGTTGACTTCAGACGAGCGGAGTAAGGCAAAATATTGTTCTGTTCTGGTACCAGTGGGATCCACTGCAT +CCCGGCATGAAGATCATTCAGTTTCACCGGACGCATATTTGCGTCCAATATTTCTATACCCAAACCGGAG +GCCGTATTGCTTCCTTCATCCAGTTTCAACAAAGTATTATTTTCTGCATCCTCAATACCGTTAAATGCAA +CCCGAACCCCCGTTGTCCCTTTGCTGCATTCACTTAACGTAATCTGAAAAGGGACGGCTGGACTTGTGCT +ACCGGTCGTTGGAAATTGTCTGGCACTGTTTTTTTGGAGATCTACGGTAAAATTAAGCGAATCCGATGAG +ACTGTGCAGCCATAATCGAGGACGCGCCCGCTAATTTTAATAACGCTATCTGCGGATAAAGCAGAATAGG +TGGTTAACCCCAGACATAAACCGAGGAAAATAATGTTATTGTATTTCATAATCTATTGTTCCTTAGCGAC +AGATTGCTGTCTGCTGGTTCAGTAAGGTACCAGGAGAAACTTCAGGAAGCTTGTACTCGACAATACAGTT +TGAGTTTTTATCTTTGCCCCATGAAACCTGTAATTGCCCTGACTGTGGAAGTCCAGTCAGATAAACCTGA +CCATTTTCCGCGACAATGCTGCCATTTTTATTCTCTCCGTGTGTGACAATTGCACCGAATGGAACGCTCT +TATTACCGTACTTCAACGTCATTAATACTTTCCCGCCGATTTGTGCATTAAATGTTGCTCTGGCAATAGC +ACCGTGAGTTGGGATGACAGTGACCACGGTTTCATCCAGTTCAACATTATCTGCAAGGGAATTCGCGTTA +AGAGCAACACGGTTTTCTCTATATTCTGTCGCAAATGGTAATATGGCATAGCCACGCCAGTCGGTATGAA +TTCCGGTCTGGTTCTCTATTTTGACATTATCAGCACCAGGAGCCTTAACCAGAACCATTGTGTCGCCCAG +CGGCTGTCCAAAGGTGATGCCATCAGCATGAGCAATAATCCCACCACTCATTCCGTAATAAATCTGGCTG +CTGTCACCACTCCGACTGTAACCGACATTAGTATTACCATAAGCTCCACGATAATTAAGAGAACTGTAAC +CACTGGTGCCAGACGATGTATTACCTCCGTGGGTGTTACCGACCTGAACGCTATAATTCAGGTTATTATC +CGGCAGCAGAGTGCCATAAACCCCCGATAGATTGGTCATGCCGCCTTTCAAATCGTTTGACATACTGTAA +CTGGCGTTTGAATTACGAAATGCCGACTGACTGTCTGTACGCATCCAATGACTGAAGGGAACATTAAGCG +TAAAAGCGAGTAAATGATCCCGATCGTTTTGCCATATATTATTGGAATAGCTGTAATTCAGCGAAGTCGT +AATATCACCAAACGGCACATTTAATCCAAATGATATTTGCTGGTCGCTGCGTGACGTGTTCCAGTAACTT +TGGCGACTGGCACTGAAAAATGTCGTACCGTAATTTCCAAGCTGCTGAGAGATGCTTATTTGTTCCTGAC +CACGCTTACTGTAGAACAGATTAAAATAATCAATAAATTGTGTCTGCTCATTGGTGTCTCCGGTAGGAGG +CTTGACGGTGTAACCACTCATTCGACTGTAGGCACTGTCGGATAAGTTATAAAAACCTTGCGTAGAATAG +CGATATCCTGCGACCTGGATATTGGTTCCACAACAAGTTTATTGCTGCACTTGTTGAAGAGAGTATTTGC +AAAAACATTTTATGTCGCTAAATAACATGACGATTTCATTATGCATGTTATTTATAAACCGTGACTAAAC +AGAATATTATTGCGAACAAGGGAAGTGTCAGGAAAGGTCAAGAGCTACCAATGGTTAATATGGCTATAAA +TCATTAGCTATGGTTAATGTTTGCTTGCTGAAACTAACACCGAATTGCTCTAAACAGATAAGTGCAGGGT +TTATTAAAGCTGTCCGACAGACTTTCTTAACCTGGTAATATCTCTCTTGGGTGACTCTCCAAACATCCGC +GAATATTCCCGACTGAAATGGGATAGCTTTCGTAACCGACAGCATAGGCTGCTGTGGTGACATCGTAATG +TTCATTCAGCATCTGTCGCCTGACTTCATTGAGACGTAGCCATTTCTGATACCGGAGTGGACTCATTCCC +GCTTGATCCGTCCTTAAATAAGTAACAGCACCCTCTGGTGTTTTCGTATGCAGTGTCTATGCGACAGACA +CTGCGCTCTTAGCATGGGGCAGGGAATAACCAGGCTATTTCTCCATGCACAGGCCAATTATGAAAGAGGA +GAGGCTTAAGTTCTTGAACCCTGAACGAATAACGACTACCAGAAAAGCACTTCGCATCACTCAGACATGA +TTTAACATAATATACATTATGCGCACCAATATAAACCAAGGAAGAATCCAGTCGTTGGCGGTCATGATTG +TCATGCTCATTAACAATGACCAAACCCCATATCTCACTTACTACCGTATTCTCGGCTTAACCGTCCATGC +AACCTCAACACATTGCTTTCAACTGCCGTCACCACGTTCTCCGGAAAATCTGTCGGTAATGAAGTCTTCA +CGTTATCCAGTGCTGCTGGAATCATTCTGGCAAAGTCACTCAGGATTTCATGCATCTGCACTTCCGGGAA +TCTCAGCACCTTTGCTGTCGCCAAAAAATGTCGCGGATAAATTTTATCGATTGCCGTTTTTTTGCCTTTG +GATGCGTTAAGCCCCATTGCCAGTTTGAGATCGCTGATGTGTATTCCCGTACCGCCAAGGACCGGAAATG +CTGAAATGATGTCGTAAAATGGCGTGAGTCGATAACTGCCGCCAGCCTGAATAAATACGGAGAAGTTTTT +TGCATGACCGTCCGTTGCGCCAATCAACCACTGGAAGACCTGGAATTTCATAAAATCATAGCGATCTTTC +AGCGCCTCGCTGGACCCCATCAAAAAAGCCATGATCCGCGCGATGCCTGGGCCTCCATCTGATTCATATT +TCACCGATGAAGGTAAACCGAATGTCTGACACATATCCTCCTGTGGCAAGCGAAGTAAAACCGTTCGCTC +AGCATTCCAACGCCTGTCAAAACGTTCGACCGCTAACGCGCGCACATTTCCCGCTTTAATGATTTCTGCG +TCCGGAACATTCAACCCAAGTTCTTTCGCCAGCAGCAGACAGTAATACTCATTATCAACGCTTTGGCTGA +GATCGAGCGTCGCATTGGGCTGCCTGATTTCGCCAATCGGTAATTTAATGATGTGCGTCGTCGGCGTTAT +TCCTTTCGGAATGCACCAGTCATTGCCTATTCTGAGCAGTGCTGTCTTCTCCTGTGCGCCAGCAACCGAG +ATGCGAAAGTCATTTTCTTCTCTAATCATGCCTAGCGGGATATCTGCTTTATAAGCCGTTAATACTTCTT +CAAGTCTGGCTTCAGTAAGCTTTTCCCATGCCATTATCGGATGCGTTACGGTTTCGTCTTCGGGTATTAA +CGTCACGGCACCAACGCTGTCTCGCCCTATTTCTGACAATAAATCAAACGGTTGTCTGGATTTGGCATGA +TAACGTTTAACGATCCGGTCACGTACAATCGGGCTATCGGGTAACAGGTTATCGAAGAAGTTAAATACGG +CATCAGAGGTGATATTCCCCCTCTGCAATGGCAGCGAAAGTGACAACGGTCTGGCATAACGGCTTGCTAA +CCACTCCGGTGCATACTTAAAGGTGTGCGCGCCGTTGGCTAACTTCGTTAACTCGCCTACCCGCTGGTTG +TTCATCCAAGTGACAAGTTTAGGCATTACCACTCCAGATTTTGCTGTTCTGTTGATTCTGGCGAGGCATT +TTTCGCGTCGCATAGCGTCATTGAGAGTTCAAGCGACTGTAAAATCTTAAAAAATGTCGTGAGCGTGGTA +TTGTCAGGGTTGTTTTCGAAATTGGAAATCGTCGCCTGCTTAATACCAATTTTTTTCGCCAGCTCGCTCT +GCGTCCAGCCATTTTGCTGGCGAACCAGTTTCATTGCATTCGCCAATTGCGTTGGGCTATAGATCTTCTG +AAAGCTCATCATGTCATACGTCCACAGCAAGTTTATCCGCTTAAGGGGATATTATAAGTTTTATCCTTTA +GTGAGGATAAGTCAATCTGGAAACACATCTTATCCGCTCTACGGGATAAACGCTGCGATATCCGCGATCG +CGGATAAAAAGGAGGATTTAAATAAGGCGTTGATGCGCCGTTTGAAGTCGGCAATATTAAGCCGCATGCC +ATCTCGACATGCGGCTTATACGGTTTACCAGCTATATTTCACTCCCAGCATGCCCTGAGTATCGCTATAG +CCTTTATCACCTAGTTGCACACCGACATTCCCCCACAGGCTAAGGTTGTTATTTACTTTCGCCTCAACCC +CGGTACGTACTTCACCGAGATTACGCGCACCTTCACGGCCTACGGTTTGACCATTCATCTTCACGGCGTA +GACTTTGCTATTGTTGATCCAGTTCGCTTCAATGTAAGGCTGGAACTCACGCTGTTTACCATCGTCACGC +TGGTGATGGCTGTTCAGGTAGGTTTTCACCCCAAGTCGCGTTTGCACATTTCCGTCGCCTTCCGTTTCAA +TGCGCGTTCCGTCTTTCCGGGTATGGTCGGAATCTTTCACACCCATCCAGGTGATTTGCGCCTGTGGCTG +GACGTACCAGGTATTCAGCGTCCCTTCGCTGCCGCTAAATGTTCCCGCTTCAAAGGTATACCCACCCTCA +ACAGAGGCCGTCACACCGCGAGAATCATAGTCGTCAGCAGAACGGTTATCGGAACTGACGCTGTTATCAA +ACCAGTTATACAGCGCCCAGCTGTCAACATAAGCGCCGGTCTTATTCGCATCGTTCTGATACCAGGTCGC +GTACAGCCCAGCGCTGTAACCGCTGATGCGCCCATCCGATTTATAACCCACACGATTACTCTGAGTATTA +CTGTGCTGATTGGCGTAGCCTGCCATCACGCCAAGATGCCAGCGATCCTGCGCGTTGCTACTCCACTGCG +CCAAATCGCCGCCTAGCTGCAATACATAGCGGTTAGCCTGAGTATTTAGCTGACCGTCACCGGCCCTTGA +ACGTTCGTGCCCTCCGACATGACGCATCCACATACTGCTTGCCGACCCCTGAGAATGCAGTGAATCTGTA +TACTGCGGCTCACCCAGACGGTCGTGTAAACGATGGCTAAACAGCGAGTTGGCTGCGGCAATGTTGCTGA +TATAGCTTCCGGCCTCCGGGCGATAAACTGATGGGCCTTCCGGATCCACAACAGGGGGATTATTGATGGG +ATCGGGTGTATCCGCTGGCGTTACGCCGTCCCATTTACTGGTCAGATACCAGTTTTTCTCGTCATTCCCC +TTCCCTTTAGCCAGCGTGTAGACGTAAGCCCCAGCTTCGACAGTTCCGGTGGTCAGCGCGAAGTTACCTG +CAGAATTACCGCCAACCTCAATGAGTTCAATACCGTTGACCGTTTGTGCACCGACGCCGCCAATGTTATC +AACCCGAACGCGAGTGTTCCCTTGGGTATCGCCTTTCACGTTCATCTTATCGGTGGGCGAATTATCGCCG +CCCAGCGTCGCGTTGAACGTCATCAGGCCATTGTTTCCGGTATAGTTGCCGTTAACGGTCAGTACATTCC +CCGGTTTCCCCCCTTCGCTATTCATTTGAACCGTGCCGCCATTCTCCAGGTTGCCGCCGATAGTGGTTTT +AGCGACACGCAGTGCCCCCCCCAGGCATAACGTTCATATCACCTGCAGTGGTGACATTTCCCGACATCAC +ACCGCTGTTATGGATATTAATGTGTTGACTTGCCATATTAATGGCAGAGTCGGAACCGAAAGCAATTTCC +CCCCCCACGATATCCGTCGTACCCTGATACGCCGCGGAATCGTTGTTAAGAGTCAGGATCCCGGTACCCA +GTTTTGTCACATCACCGCTACCGCTGATACTGTGCGTCATCGCCCAGCTACGCTCAGTGGAGATGGTGAG +CAGGCCATTATTGATAACGGAAGCATCACCCAGGTTTTTCTGCTCGTTGACGCTGAGCGCGCTGCCTGTA +TCAATGTTGAATTGCCCCACAAAGCGGCTATTATCGCCATCCAACTCTACATCTGTCCTGGCGGTTGCGC +TCACGATACCCTTCCCGCTTATGCTATTACGCAGTTCGCCAGTCACGTTTTTTAGCGTTAACAGACCGTC +ATTGGCAATATTTCCTCTGCCTAACCCCTGAGTATTATCGAGGCTGACTTCCGCATTTGGGCTAATGCTG +GTTAACGCATTGTAGCGTGCATTAAGCCCCTCGATAGCCAGCGTTCCCCCTGTAACATTCAGGTTTCCGC +CACCTGTCAGTTCACCCTGACTGATCCCACCTTTATTTACCGTCAGCGCCCCCTCTTTGAACAAAACAGT +CGAACCCATCTGCCCGGTGAATGTCTCTACCGTCTGCGTCGATCCATTAAGATCGACGATGGCCGCGTTG +CTGATGTTCAGTTCCCGGGTGTTGCCAAGTGCACCATCCGCATCGGTACGTAATGTCCCCATCTGAACGT +AGGTTGCCCCCTGATAGTCGTTCTGACCGTTGGAAAGCGAAACCTGTCGCACCGTATTGATTGCCAGATC +CCCTTCACCACCGATTTTTGCCGACATATCGGCCGTTGCGCCATAGGCTCCGCCATGTTCGGCTAACGTC +AGCTTTTGCCCACCATGGATGTTCAGCGCTTTCAGCCCATAGTTAACGTACAAACCATTACCTGGTGCGG +TCGTGAGGCGGAATCCATAATCACCCTCGGCGACCACCGTTCCGTTTTGCGCAATGTGTAACGTTTTGTC +CGCTTCCACCTCGTCGCCCTGTAAATCACGTAACGTTAATGAGCCACCCGACCCAATAACCGTTTGCGCC +TTCACCAGTTGAACGCCGACATGGCTATCGTCGTGTTCCAGCAAATTGAGCGTCGTCAGAGGGTTATTCG +CCATGGGATCATTCCACGGTTTAGGCACGTCGATAAGCACGTCGCCCGTCCCGTTTACCTGATAGTTACG +GCCTTTCCAGGTGTAGTCACCCGCGCCGACAACCAGCGTATCGACGCTGATATATCCCTCCGCGAGCGTC +GCAGCAGGAATATCCGTATCGAAAATGATGGTACCTCCATTCATGGCCAGTCCACCAATGGATTGCTCTC +CAACTTTTACCGATGTGGTATTTTCACTGTCAGACTGCAACATCGCGTGAGTAAGCGCAGCGGTGTTGTC +GCGTTCCAGAGTGAAGGTACTGTCTTTCAGTTGGGCAACACCGGCGAATTCAGTCCCTGTTGCATGGGTA +AAGCCAAACATCTTGTCGGAGGATGACAGCTGCACTCGCATCAAGCCATCGCCTTTGAGCGCATTGGTCA +GCGTGTAATCTCCTGCACTGTTCGTTGATGCGAGAATGTCGAGCGTACCGGGGTTTGCAATGGTTACTTC +ACTCGACCCCATGCCCGTTACCCCATCTGCCGTATGAGACGCAATGGTCAGGAGGCCGTCATTGACCAGC +GTTTTACCGCTATAAGTATTCCCTGCATTGAACACCGTATGGCCTGCATCATGGATCACTTTTCCGTCTT +TATCGTCACCTGTAATCAGCATATCGACCTGGTAGCCGGCATCACTGTTATTGGTATGATTAAAGACAAA +AACGCCTTCGCCAAGACCAAACTCCACTTTCGTCGCATTGGTGATAAATCCGGCATCTGCCGCCGCCTCA +CCGTGAGCAGCACCAATGTTTAGCGTTCCTACAGCAGGCTCAAAAACACCTAAGTAAACTTCTCCACCTT +CGACATTCAGCGTACCGTTATTCGTCAGGGTTAACGTACCCGTACCAGATGTCCCTACGTACATATTGAA +TGTTTCAAGAAGAGAGTTCTGCCCATCCACCCTCACGTCGCCCTTACTTTTGTCATTGAGAGCTATCTGT +GTATCACGCGCTTTAACTATACCTCCGGTGGTAATATTCAGTTCACCCGTGCCTAATACACCGACCTGTA +GCAATTGTGCGTTAGTAGATGATGTCTTTAAATTCCAGAGACTGTCCGTTGAAATATTAACTATCCCCTT +ACCGGAGGCATTTCCTCCGATAAATCCATAGCCCGTTGAATTAAGGGTGGCACCATTACTGACATTTACG +ATACCGCTACCAAAATTACCGACATTGATACCCACAGTATCGAACGATGATGTCGCATCCATCAGGTTCA +GTGTGCCGATACCGCTTGCTTTATCGCCCAAAAAAGTAATATTTTGCGATACGAACTTACCGCCATCGCT +AATATTGAGGTTTCCGACGCCCGCAACACCAATGGTGGTATAGACATTCTTATTGACCTCCCACATTCCC +CCCGTGGTGATGCTGACATTCCCGACGCCGGTTTCTCCATAACCGAGTGAACTTCCTCCGTTGCTGACAA +CAAGCCCCTGATTACTGATATTCATTTCGCCGTGGCCGTCATAACCAAGATTAGTTCCGAGATTAGTGAT +AACGGAGTTCTTATCCTTAACAGTAATGTTGCCTGTGCCTGTTTCTTTCATCCCCGCAGTGATAATTCCC +GAATCTACTTTGCCTTCACTCGAGACATTAAGTTCACCGTCGCCAGCATCACCGATATAGATATAGCGGA +AAGCTTCGCCCGTTCCGAGGAAATTCCAATGCCCTTTATCGGTCACGTTGACGACACCGTGGGAACCGTC +CTGAACGCCCACCAATGAATATTCTTTGTTATTAATCAGTCCATTATTGGAAATATTGACTGTGCCATTA +CCGAAATATCCATTATAGAGTCTGCGTACCGTGATGACAGAGTCTTGATCCTGCACATTCAGGGTTCCGA +TACCGGTGGCATTGCCACCGATAATCGTATTTTCAGCCGTAACCAACCCCCCCTCGCGAATAGTCGCCTC +CCCAGTTCCTTGATTACCAATTTGAAATTCAATTGAGGAATCATTATTTTTTATTAGCCACTCGCCACCC +TTTTCAACGACAACCTGGCCATTACTGCCCGCCTGATAGCCTAAAATGGCGACGATTGAACTCGTGACGT +AACCCTTATCCGTAATATTTAATGAACCTGTGCCATAGCTACCTATTTCGAATAATTCGGTCGTCAGAAC +AGAGTCCTCTCCCTCAACATTGACCGTCCCGACGCCTCCTGTCGAAGAACCTAATCTTAAATAGCCTCCA +TCGACGTGACCCTTCTGTTTAATATTCAGCGTCCCCGTTCCGGATTGACCCACATTTAAAGGCCTTGCAT +TATTTCCGCTATCATACAATCGCCAGGTGCCACCCAAAACATTAACGGTGCCCTCTGAGTCCTCATTAGC +GCCAATGACGCTGGTAGTAATAGTGGTTAAGGAGGCATTACCGCCAGCCAAAATATTAAGCACTCCAGTG +CCATACCAGCCAACCAGGTAGGCATCATAAGCAACATCAGTATCAATATTGGTAATCTGATCATTATCAA +CTTCCAGACTTGCACCAGACGCTGAACCGCTTAGTGCCAGCAAAACACCCAGCGTCAATCTACTGAATTT +CGTTGTCAGTCCAGAGGATTTACGCAAATTAACCGTCGATGTTTTACCTGCCCTGCGAGTTAATTCCGAG +CAGGCCTGAAATACCTGTAGAGTGCAATTCCATATCACGCGATAGATTCTATTCATATAAACGCTCCATA +TACAAACAATACAGCCACGAAAGAGATGAGTCGTCAGACATTAAAAATGAAACTTATTAAATTGTCAGAG +GTCTGTATTGAGTGTTAGTTGGAGGTGGGAAGGTGTCAATTTGGCTAATTTGCTAATGCTTTCGAATTGA +TAGATTAAAAATTGCATAGTTCTTATTTTATTTAAATATGAACTATGAGTTATTGTTGCTTAATAAGAAA +ACTGTTTCTTTCAATAGGAAAATTATCATCATCATATTTAACAAAGAATAGCACTAATTGCTAAAAATCG +AAGTTTATTAAACCCCTTTTGCATCCATTAGTGTCTTTAGGAATATTCGCTATAAAATAAGGGTTGTGCT +TAATGCTTTAAGAAAAATAGCAATTTTCCCTTGAATATCGTACTGGTGATGGAACGATGAATCTGCAAGC +TGGCTTTTAACAAGCCAGCTCTAAAAGAAGGGAAATAAGAATAACTATACTCAAAAACTAACAGCCACGG +TCATCATGATGTGGCTGTCAATGAAACTATAACCCAGGCGCTTTCCATAACGACGTCGTCAGTCCATGAT +CAACCAGCCCCAGCTGATCCTGATAAACTGCCTGCCACTTATCGCGTGAATCCTGATAAAGTTCATGCTT +TTCCGGGTCTGGTGTGTGCGTCCGTTCCCAGCGAACCAGGCGTTCTCCGGTTTCTGCCATTGATGAAAAA +ATTCCGGCACCGACGCCAGCTGCAATGGCACATCCTAATGCAGTGGCTTCTTTGACCACCGGAATATTGA +CGGGTAATCCCGAGACATCAGCGAGAATTTGACTCCATAATTTCCCTTTTGAACCTCCGCCTGCAAAGAC +TAACGATGAAGGATGAATATTCGAGAAATCAGCAATTTGCTGCAAGTTACACGCTGATACAATCGCCGCA +TTTTCTTCCAGCGCACGGAACAATGTCGCTTTGTTACATTTATCCGGGTCAATGGACAAGTTAATAAAGG +AAGGCGCAGCGTGATACCAGGTTTTAAAGCGCATTCTGTCGGAGAAGATCGGCATTACGCCCCACGACCC +AGGCGGCACCCGACTGGCCATCTCTTCCAGCAGCGTATAGGTGTCGATGCCTAAACGTTCGGCAATCAGT +TTTTCTTCGGCACAGAAAGCATCGCGGAACCAGCGCATGGTGAGTCCGGTAAAAAAGCTTATAGATTCAG +CTTGTACCATGCCAGGAATAACATGAGGATTAACGCGCACGTTCATTTCTGGGTCTGTCACCGGCGCGGC +TAAATTTACAACTTGCTGCCAGAATGTGCCGCCAAGAACCGCGGTTTGTGCCGGACGCACAACGCCTAAC +CCAAGGCAACCAAGCTGCACGTCGCCTCCTCCAACGACCACCGGAGTGCCCGCCTTCAGACCGCAGAGTT +CCGCCGCTTGTGAACTTACCACGCCCAGCAATGTGCCGGTTTCTTTGACAGGAGAAAGAATATCGGCACG +TAGGCCAGCCATATCCAGCAATGCAGGTTTCCAGTCACGGGTGGTTAGATCAAGAAGTCCCGTGGTGCCA +GCGTTAGAGGGATCCACCGCCAGTTCGCCGCTGAGCATATAGGCCAGCCAGTCGCTGATCATGGTGATGG +TTGATGCCTGACGGTAAATATCGGAACGATGGTGCGCCAGCCAAAGTAATCTGGGGATGGCACTTAAAGC +CAGTGTTTGTCCGGTCGCGCGATAAACTTCGTTTTCAAAGGTATTGTTGTGCAGTTCTTTAAGTTCGCTA +ACTTCGCGTGCCGCTCTGGCATCCACATTGGCGCAGGCCCAGATCGGGGCTCCTTCATTATTATATAAAA +CAATGCCTTCACGCATCGAACATGCCGAAACGGCAGCGATATACTCCGGGGCTATGCCGGCGTTGTGCAG +CGCCTGGCGCATACACTCACACGCCAGTTGCCAGTTTTTGTTGAGATCAAATTCCATAGAACCAGGAACG +TCCGGTACTGCCAGATGCCGCCACTCCGCCTGTCCCACTGCTATTTGATTGCCTTCCAGGTCGAATATCA +CAGCCCGAATACTTCCGGTGCCTGCATCCAGCGCCATCAGGTAGTACTTTGATTCTGAAAGGGTAAAGAG +TCGAGCCATTAGATTATCCTCGGCTTATGCGTTCTGTCTGTTCCTCTATACGTTCTCCATCATTCCCGGT +AATAAGGTCATGCAAATTTAACTACGTAAAATCGCCGCTGCTGTGTCCTGATCGGTAACCAGTGCGTTGA +TATAACCGCCTTTCATTGCAGCGGCAATTGCTTCGGCTTTATTTTCTCCCCCTGCCACGCCAACCCGGAC +GGGTATGGTCTTCAGCGCGCTTAAAGGTAAGCCAATCAGTTCGTTATGTATTTTGATATTCGTGACAACG +TCACCTTTTGCATCAAAAAAGTAGCCTAAAATGTCGCCAACCGCCCCTTTTCGGCCAATCATTAACTGTT +CGCCCTGGCTGATATAACCGGAGCGAATGATTGTCGCATCGTCCTGTTGACTCACAGCACCAATGCCGAC +AATCGCCACATCCGCTGCTTGCGCGGCTAACAGAACATCTTTGACGCAATTTTCATTTTTTAGCGTACGG +GCAATGTCAGCGGAGGATGCCCGCAACGGAGCCGGAATAATATTCACACTGCACGCCGCGTTAAGCTGCC +CGATTCCCGTCATATAAGAACCGACGCCACCGGAGAGCGTGACCAGGCGAATTTGCTGTGACGAAATAAA +ACCACTTAAGCGTTGCAGCGTATTCATGGTTGCCTCGCCAAAACCAATCGCCAGCATCTGTTGTGGTTGA +AGTAAACTCATCAACATATGCGCCGCGCCTATCCCCAGTCGCCCACCGACATCAGCATCCGCAAGCCCAG +GGATCACCCGGACATGTTGCAGCGAAAACTGACGACGTAATTGAGTTTCATATTCCAGACAGCCTTCAAA +GCGAGAATTAATCTGTACGCGAATAATGCCGGACTGATGCCCTTTCTCCAGCAATCGCGACACTTTCAAA +CGTGTCAGGCCGAGACGATCGCTGATCTCGCTCTGGGTCAGCCCGTCGTGATAGTAAAACCACGCGATCC +GCGCGACCTGTTCTTCTTCACACATTCCCTGTTCTGAAATTGCCGAATCGTTGATTGTCATAATTCATTC +TTCACTTTGAACATATTTAAATCTTTAATGCAATTGTTCAGTTCTTGCTCATTTATATCTGTGATGGCAA +CCACAGTTTGACTCTACGAGCATGAACAAACGCAACCGTGAAAATCAAAATAGCATAAATTGTGATCTAT +TCGTCGGAAATATGTGCAATGTCCACCTAAGGTTATGAACAAATTAAAAGCAGAAATACATTTGTTCAAA +ACTCACCTGCAAAACTGAACGGGGGAAATATGCAAACGAGTGATACCCGCGCGTTACCGCTACTTTGCGC +CCGCTCGGTTTATAAACAGTATTCAGGGGTCAATGTCCTGAAAGGCATCGATTTTACGTTGCATCAGGGG +GAGGTCCACGCCCTGCTCGGCGGCAATGGTGCCGGTAAATCGACGTTAATGAAGATTATTGCCGGTATTA +CCCCTGCTGATAGCGGTACGCTGGAGATTGAGGGCAACAACTACGTCAGATTAACGCCAGTTCATGCTCA +TCAGCTGGGTATTTATCTCGTTCCCCAGGAACCGCTGCTTTTCCCAAGCCTGTCGATAAAAGAAAACATC +CTGTTTGGGCTGGCAAAAAAACAGCTCTCCATGCAGAAAATGAAGAACTTGCTGGCGGCGCTGGGCTGCC +AGTTTGATCTGCATAGTCTGGCAGGATCGCTGGATGTCGCCGATCGCCAAATGGTGGAAATCCTCCGCGG +GCTGATGCGCGACTCGCGGATTCTGATCCTCGATGAACCTACCGCCTCGCTTACCCCTGCGGAAACCGAA +CGCTTGTTTAGTCGCTTGCAAGAGCTGCTTGCTACTGGCGTGGGTATTGTTTTTATCTCGCATAAGCTGC +CGGAAATTCGCCAGATTGCCGATCGAATTAGCGTGATGCGCGACGGAACCATCGCCTTAAGCGGCAAAAC +CAGCGAACTGTCTACCGACGACATTATTCAGGCCATCACCCCAGCGGTACGGGAAAAATCGCTCTCTGCC +AGCCAAAAATTATGGCTGGAGTTACCTGGTAACCGCCCACAACATGCCGCCGGAACGCCGGTGCTGACAC +TGGAAAATCTGACCGGCGAAGGTTTCAGGAATGTCAGCCTGACGCTCAATGCCGGAGAAATTCTGGGCCT +GGCTGGGCTGGTGGGGGCCGGACGCACAGAACTGGCCGAGACGCTCTATGGTCTGCGTACTTTGCGTGGC +GGACGCATTATGCTGAATGGTAAAGAGATCAATAAATTATCCACTGGAGAACGTTTACTGCGCGGTCTGG +TTTATCTGCCGGAAGATCGCCAGTCATCCGGACTGAATCTCGATGCTTCGCTGGCCTGGAACGTCTGCGC +CCTTACTCATAACCTTCGTGGATTCTGGGCGAAAACCGCGAAAGATAATGCCACCCTGGAACGTTATCGT +CGGGCGCTGAATATTAAATTCAACCAACCGGAACAAGCTGCACGGACATTATCCGGTGGCAACCAGCAAA +AAATCCTCATTGCCAAATGCTTGGAAGCTTCGCCGCAAGTATTGATTGTCGATGAGCCGACGCGCGGCGT +GGATGTCTCGGCCCGTAATGATATCTACCAGCTGTTGCGCAGCATCGCCGCACAAAATGTGGCTGTGCTG +CTTATCTCCTCCGACCTGGAAGAGATCGAACTGATGGCAGATCGTGTGTATGTGATGCATCAGGGCGAAA +TTACCCACTCTGCACTGACCGAGCGCGATATTAATGTCGAGACTATTATGCGCGTTGCCTTCGGCGATAG +TCAGCGTCAGGAGGCGTCATGCTGAAGTTTATTCAGAACAACCGTGAAATCACGGCACTGCTGGCGGTGG +TGCTGCTGTTTGTATTACCCGGTTTTCTCGACCGCCAGTATTTAAGTGTGCAAACGCTGACCATGGTTTA +TAGCAGCGCGCAAATCCTGATCCTGCTGGCAATGGGCGCGACGCTGGTAATGCTTACGCGCAATATTGAT +GTTTCAGTGGGTTCGATTACCGGAATGTGCGCGGTGCTGTTGGGGATGTTACTGAACGCAGGATATTCAC +TACCTGTTGCTTGTGTCGCGACTTTACTGCTTGGTTTGCTCGCGGGATTTTTCAACGGTGTCCTGGTCGC +GTGGCTAAAGATCCCTGCCATTGTTGCCACCCTTGGCACGTTAGGGTTGTACAGAGGCATCATGTTGCTG +TGGACTGGCGGCAAATGGATTGAAGGGTTACCCGCCGAACTGAAACAGCTCTCCGCCCCGCTGCTGCTTG +GCGTTTCAGCAATTGGTTGGTTGACGATAATTCTGGTGGCATTTATGGCCTGGCTGCTGGCAAAGACGGC +GTTTGGACGCAGTTTTTATGCCACGGGCGATAATTTACAGGGCGCTCGTCAACTGGGCGTTCGTACTGAA +GCCATTCGCATTGTGGCATTTTCGTTGAACGGCTGCATGGCGGCACTGGCGGGAATTGTGTTTGCTTCGC +AGATTGGTTTTATCCCCAACCAGACCGGTACCGGGCTGGAGATGAAAGCAATTGCAGCCTGCGTGCTGGG +CGGCATTAGTTTGCTCGGTGGTTCCGGTGCGATCATTGGTGCGGTACTCGGCGCATGGTTCCTGACGCAG +ATCGATAGCGTACTGGTGCTGTTGCGCATTCCGGCATGGTGGAATGATTTTATCGCGGGTCTGGTTCTGC +TGGCGGTGCTGGTGTTTGATGGACGCCTGCGTTGTGCGCTGGAACGTAATCTACGGCGGCAAAAATATGC +CCGCTTTATGACGCCACCGCCATCCGTTAAACCCGCTTCGTCAGGTAAAAAACGGGAGGCCGCATAATGC +GTATTCGCTACGGTTGGGAACTGGCTCTTGCCGCACTGCTCGTTATTGAGATTGTCGCATTTGGTGCAAT +TAACCCGCGAATGTTAGATCTCAATATGTTGCTGTTCAGCACCAGTGACTTTATCTGCATTGGCATTGTC +GCCCTACCGCTAACGATGGTGATTGTCAGTGGCGGGATCGATATTTCGTTTGGTTCGACCATCGGCCTCT +GCGCCATTGCATTGGGCGTACTGTTTCAAAGTGGTGTGCCGATGCCGCTGGCGATACTCCTGACCTTACT +GCTCGGCGCATTGTGCGGGCTGATCAACGCCGGATTAATTATCTATACCAAAGTTAACCCGCTGGTGATT +ACGCTTGGCACGCTGTATCTGTTTGCCGGAAGCGCTCTGCTGCTTTCCGGTATGGCCGGAGCGACGGGGT +ACGAAGGTATTGGTGGATTCCCGATGGCGTTTACAGATTTCGCTAACCTGGATGTGCTGGGACTCCCCGT +TCCGCTGATTATCTTCCTGATATGTCTCCTCGTTTTCTGGCTCTGGCTGCATAAAACCCATGCCGGACGT +AATGTGTTTTTGATTGGGCAAAGCCCGCGCGTGGCGCTTTATAGCGCGATTCCAGTTAACCGTACCTTAT +GTGCGCTCTATGCCATGACGGGGCTGGCGTCTGCGGTCGCCGCTGTGCTGCTGGTATCGTATTTTGGTTC +AGCACGTTCCGATCTCGGTGCGTCGTTTCTGATGCCCGCCATCACCGCCGTGGTGCTTGGCGGGGCCAAT +ATTTATGGTGGTTCCGGTTCCATTATCGGCACCGCCATTGCGGTTTTATTAGTGGGATATTTGCAACAAG +GTTTGCAAATGGCAGGAGTGCCAAATCAGGTGTCCAGCGCCCTTTCCGGTGCGCTACTTATCGTCGTTGT +CGTAGGTCGTTCCGTTAGCCTGCATCGCCAGCAAATTAAAGAGTGGCTGGCGCGTCGGGCCAATAACCCA +TTGCCATAAAGGATATCTTCATGACACTTCATCGCTTTAAGAAAATCGCCTTACTTAGCGCTCTTGGCAT +TGCCGCAATCTCTATGAATGTGCAGGCCGCAGAGCGTATTGCATTTATTCCCAAACTGGTTGGCGTGGGA +TTTTTTACCAGCGGTGGCAACGGCGCACAACAAGCGGGTAAAGAGCTGGGCGTTGATGTGACCTACGACG +GGCCGACAGAACCCAGTGTTTCTGGTCAGGTACAGTTGATTAATAACTTCGTCAATCAAGGTTATAACGC +CATTATCGTTTCTGCGGTTTCGCCTGATGGCTTGTGTCCGGCACTGAAACGCGCCATGCAACGTGGTGTG +AGAGTGCTGACCTGGGACTCTGATACTAAACCGGAGTGCCGCTCTTACTACATTAATCAGGGAACGCCCG +CCCAGTTAGGAGGTATGTTGGTGGATATGGCGGCGCGTCAGGTGAATAAAGACAAAGCCAAAGTCGCGTT +TTTCTACTCAAGCCCCACCGTTACGGACCAAAACCAGTGGGTGAAAGAAGCGAAAGCGAAAATCGCCAAA +GAGCATCCAGGCTGGGAAATTGTCACTACGCAGTTTGGCTATAACGATGCCACTAAATCGTTACAAACCG +CAGAAGGAATATTAAAAGCGTATAGCGATCTCGACGCCATTATCGCCCCCGATGCCAACGCCCTGCCCGC +TGCCGCACAAGCCGCAGAAAACTTGAAAAATGACAAAGTAGCGATTGTCGGATTCAGTACGCCAAATGTG +ATGCGCCCGTATGTAGAGCGCGGCACGGTGAAAGAATTTGGCCTGTGGGATGTGGTTCAGCAAGGCAAAA +TTTCAGTGTATGTCGCGGATGCATTATTGAAAAAAGGATCAATGAAAACGGGCGACAAGCTGGATATCAA +GGGCGTAGGTCAGGTTGAAGTCTCGCCAAACAGCGTTCAGGGCTATGACTACGAAGCGGATGGTAATGGC +ATCGTACTGTTACCGGAGCGCGTGATATTCAACAAAGAGAATATCGGCAAATACGATTTCTGATGTGCAT +TACTTAACCGGAGTAAGTTATGGCAGATTTAGACGATATTAAAGATGGTAAAGATTTTCGTACCGATCAA +CCGCAAAAAAATATCCCTTTTACCCTGAAAGGTTGCGGTGCGCTGGATTGGGGAATGCAGTCACGCTTAT +CGCGGATATTTAATCCGAAAACGGGTAAAACCGTGATGCTGGCTTTTGACCATGGTTATTTTCAGGGACC +GACTACCGGACTTGAACGCATTGATATAAATATCGCCCCGCTGTTTGAACATGCCGATGTATTAATGTGT +ACGCGCGGCATTTTGCGCAGCGTAGTTCCCCCTGCGACCAATAGGCCGGTGGTACTGCGGGCGTCAGGTG +CGAACTCTATTCTGGCGGAATTAAGTAATGAAGCCGTGGCGTTATCGATGGATGACGCCGTGCGCCTGAA +CAGTTGCGCGGTGGCGGCGCAGGTTTATATCGGCAGCGAATATGAACATCAGTCGATCAAAAATATTATT +CAGCTGGTTGATGCCGGAATGAAAGTGGGAATGCCGACCATGGCCGTGACTGGCGTGGGCAAAGATATGG +TGCGCGATCAGCGTTATTTCTCGCTCGCGACTCGAATCGCCGCTGAAATGGGGGCGCAAATTATCAAAAC +CTATTATGTCGAAAAAGGTTTTGAACGGATTGTTGCCGGATGTCCGGTACCCATTGTTATTGCTGGCGGT +AAAAAATTACCGGAGCGCGAGGCGCTGGAAATGTGCTGGCAGGCTATCGATCAGGGCGCTTCTGGTGTGG +ATATGGGGCGTAATATTTTCCAGTCTGACCATCCGGTGGCGATGATGAAAGCCGTACAGGCGGTGGTTCA +CCATAACGAAACGGCTGATCGGGCATATGAACTCTATCTGAGTGAAAAACAGTAACTGCGGATCTAAGGA +GAAGAATTATGCACGTCACACTGGTTGAAATTAACGTTCATGAAGACAAGGTTGACGAGTTTATCGAAGT +TTTTCGCCAGAACCACCTGGGCTCTGTACAGGAAGAAGGCAATTTGCGCTTCGATGTCTTACAGGACCCG +GAAGTGAATTCGCGCTTTTATATCTACGAAGCCTATAAAGATGAAGACGCAGTGGCGTTCCATAAAACCA +CGCCCCACTACAAAACCTGTGTCGCGAAACTGGAATCTTTAATGACCGGGCCGCGTAAAAAACGTCTGTT +CAATGGTTTGATGCCGTGAGGCGAATTTATCAATTTTATCTACAATTGGGGTAACGCGCTGACGGGAGTA +AAAAAATGTCTGACTGGAACCCCTCTTTATATCTACACTTTTCCGCTGAACGATCGCGTCCGGCGGTGGA +GCTGCTTGCCAGAGTGCCGCTGGAAAATGTCGAATATGTTGCCGATCTTGGCTGTGGCCCAGGTAACAGC +ACCGCCCTTCTACAACAACGTTGGCCTGCGGCCAGGATAACAGGCATCGACTCGTCTCCGGCGATGATTG +CTGAAGCGCGCAGTGCTTTGCCAGACTGCCAGTTCGTGGAAGCAGACATCCGCAACTGGCAACCGGTACA +GGCACTCGATCTGATTTTTGCTAATGCCTCACTGCAATGGCTGCCCGACCACTACGAATTGTTTCCTCAT +CTGGTTTCTTTACTTAATCCGCAGGGCGTGCTGGCAGTACAGATGCCAGATAACTGGCTGGAGCCGACCC +ATGTGCTCATGCGCGAAGTTGCCTGGGAACAAAACTACCCGGATCGCGGGCGTGAGCCGTTGGCTGGCGT +TCATGCTTACTACGATATTTTGAGCGAAGCCGGATGTGAGGTCGATATCTGGCGAACCACCTACTATCAC +CAGATGCCGTCACACCAGGCGATTATCGATTGGGTGACTGCCACTGGATTACGTCCGTGGTTACAGGATC +TGACCGAGAGCGAACAGCAGCTTTTTCTTAAGCGCTACCATCAGATGCTGGAAGAGCAGTATCCACTGCA +AGAGAACGGACAGATACTGCTGGCATTTCCGCGTCTGTTTATTGTTGCCCGGCGTATGGAGTAAATATCA +CGTCAGCTGGTAATGACGATCGGGAAGAATTTTTGCTGGAATTTCGGCTTCATCGTTCATCTGTAACAGG +TCAATTTCAATAGCGTTGCAGATGGCATCCAGTGGTAAATCATTGTTTTCAGTACCGAACGGATCTTCCA +GTTCTTCCGCCAGACAATCCAGCGAAATAAAAGTGTAGGAAATCAGCACAGAGATAAAAGGCGTCATGTA +ATGCAGGTCCACGACCAGCGCGAACGGCAGCATGATACAAAACAGATAAACGGTACGATGCAAAATCAGG +GTGTAGGCAAAGGGAATTGGCGTATAGGCAATGCGCTCGCATCCTGCCAGGACCGCTGAAATATCATTAA +GCCGATCGTTGAGGCTAATAAACAGGATATCTGAAAGCTGTCCATTGCGGCGCTGAACCGCCAACCATTC +TCCCATTATTAACAAGATACGGTTAGCTGGAGAGTTCGAAGCCAGTACACGCTGAAGATCTTCAGTCTTG +AGATAATGAGCCAGCACTTCCGCCTGTGGCTGTTTGCGTAATGTCATGCGTAAACAGTGGGCGAAAGCGA +TTTGCAGCCGGGCAAACTCCCTTACACTTGCCGAATCCGGCAATGTCGTTTTTACCTCGCGCAGTAACGA +CCGTGAGGCAATCATCAACTGCCCCCAAAGTTTTCGCGCTTCAACGTAACGGGCGTACCCGGCATTATTA +CGAAAACCAAGAAAAATGGCGATGGCGACACCGAGAATGCTGAACGGTGCGAGGGTGAATTTGATGCCCA +GATGCGTGTACCAGGGCAGCATGAAAATAACAGCGATAGAAAAGAGAAAATTGAGTAGTAAGCGCGAGGA +TATCTTGGATAATACTGAGCCGTGCCAGACAAAAATACGGCGCAGCCAGTGTTGTTGTGGACGAACAATC +ATGGTTATCTTCAGGCGTGGAAAAGTCGCCCTATTAAACGTGATTACGATCACATTCTCAAGACGCTACT +TACAAATTACCTACAAGCTTACAACATTAGCAGGCGCTGCATGTGGCACCTGTTAATGATAAAGGCATAT +AGGATGTTGTAACTAATATGGTGAAATAAGAAACCCGGTCGAAACCGGGTTCAGAAGTAACGGTGTTATT +AGCACAACGGACGTACAGCTTCGCGCATCCCTTTTTCGAGAATCGCATCCAGGTCATTAGCAACCTGCTC +GACCAGACCAGGCACTTGCGTCAGGTCCTGCTCCCAGTGGTCTTTTTCTGCCAAAACAATCGCTACCAGT +TCCTGGGTGCCGATAACACGGTCACGATGCTGGCTCCAGAGTTGCTGATAACGTTCCAGCCAGTGTGCAT +CGTCCTGTACCGGATATGTTTCGCCGTTACGCTCACCACGATAGAACGCAATCAATGCCGCTAATGCGAA +AGTAAGGCGCGCCGGAAGTGTGCCGTTTGCCTTCTGCCCTGCCAGCAGCTGTGGCAGGATGCGGGTGCGG +AACTTGGTCATACCGTTGAGCGCGATAGACAGCAGCTGATGCTTAATGTACGGGTTACGGAAACGCCCGG +TGACTGCACTGGCGAAAGATTCCAGTTCATCACGAGGCAAATCCAGTACCGGAATAATTTCTTCGTAGAT +AGCTTTTTCAACGAATGCGCAAATTTCAGCATCGTTCATCGCTTCACCTACGGTATCCAGCCCTGCCTGG +AACGCCACCGGCACCAGCGCGGTGTGCGCACCGTTGAGGATTGCCACTTTGCGTTCTTTGTACGGTTTAA +TATCGTCAACAATCAGCACGTTGAGCGGATATTTGTCCAGACGCAGTTCAGTCGCTAAGGATTTCGGTCC +CTGAATCACAAACAGGTAAAAGTGTTCAGCGGTGTCGAGAAAACCATCGTGATAACCCAGTTCTTCTTCC +AGTTTAGCCACTTCATCGCGCGGATAACCGGTAACGATACGGTCCACCAGCGTAGAACAGAAGCTGTTAG +CCTGATCCAGCCATTGAATAAATGCTTCTGGCAGTGCCCACTCTTGCGCATAGCGCAGCACCAGTTCACG +CAACGCGTCGCCATTGTAGTCAATCAACTCACACGGAATGATGATCCAACCTTTATCCAGCGCACCGTTG +AAATGGCTAAAGCGTTCGAACAGCAGACGGGTCAGTTTTGCCGGATAGCTTACCGCTGGCGCGTCATCGA +ATTTATCGCCCGCATGGTAGCTGATACCCGCTTCGGTGGTGTTAGAGAAAACAAAGCGCATTTCCGGGTT +GTGCGCCAGTTTCAGGAATTCATCGTATTCACTGTAGACGCTGATTTCACGATTAACCGAGCGAATCAGA +CGCGCGTCGCTGACCGCTTCCCCCTTCTCATTCAGGCCACGGATAATGGTGGTGTACAGACCATCCTGCG +TGCTCAGTGACGGCGGGAATGAAGTTTCAATCGGACGAACAACGACCACGCCAGAATTCAGATCGGTGTG +CTCATTCAGGAGATCGATTTGCCAGTCAACAAAGGCGCGCAGGAAGTTACCTTCACCAAACTGAATGATA +CGTTCTGGATACTGTGCACCGGGAAAATCGCGACGATTTAGTGTTTTCACAATGGGTTCCCTTCTGATTA +GTCATACAACCTGTTTGAATTGGTACGACAGGTTAGCAAACTTTAATACGCCGAACCCCTGTTTTGATCA +ACTCCTGATGATTAATGAGCAGTTTTATGAGAAAAGTGTGGCGCGGATCATGGTTTAATCGAGGAAAAAC +GCCTTTTCCTGGATCATAAAGTGGTAGAACACATTGCATTCAAATCGCGCGTAATGAATAAAGATGTCAG +ACAACTTCCTCACCGTAACGCATAGTGCTGGTACGGTTGCGCCCATCTTTCTTCGAGCGATACAGACACG +TATCGGCTTCGACCATCAATTTATTAAAGTCATCGGTCAGCGTTAGGTACGATGCGCGACCACTACCGAC +GCCAATACTTACCGTGAGATAAAGCGTTTTTTGTTGCCAGGTGAATGGTTGCAGTTCAACGCCTTTACGG +ATTTTTTCCGCCATTAGCAGACCATCGACAGGATTCACCGACGGCACTGCAACAGCAAATTCTTCGCCGC +CCATTCGCGCCACCAGCCCCTTATCACCGACAATCTTCTGAATATGCCGGGCAAACACGCTTAACACTTT +ATCGCCACATTCATGTCCATAGTTATCGTTAATGCTTTTGAAATAGTCGATATCAAGCAGCATGACAGTC +AGATGTTGTGTCTGTTTCAGCGATGGACTTTTCAGCGCCTCATAAAGACCGGACCGTGAGTAAACCTGAG +TCAGAAAATCAAAGTCGGCTCGCAGCGCAACTTGCTTCATTAGCGAATTGATCGCTGCCACGCTAAAAGA +AACCATAATTGGGCATATCGCCATCGTGGCAATACCGAGACGTGCGGAGAACATTTGCGGAATGGAGAAC +GGCGAACCGACCGAGATATCAATCACCGAATTTGCCACCAGTACGATTTCCACCGCACCGGTGACAAAGG +TCAACAGACATGTTACCTGCGGCGTATAGCGCACTGCACACCAGATTAATGCAGGCAGCGGGAACGCCAG +ACTCCCCGCTCCGCCAATGACTACCGAGGCAATAACCGACACAATAAGCGCGATGGCGGGCATCATCTGT +TCTGCTTTAAAGCGCGGCAGCACTCCAGGAATAGCCAACGTCAGCATACAAGGCACGATCAACACGCCCG +TTGAGAATTGCTCACTGAACCAGTCCGCAAGCAAAGGCCAGAAATCCAGACTATCAATACTGACCGAACC +AAGATAGCATGTTCGCTGACAGCGGCGGCAAATAAAGGTACCCTGGGAATGCTATTTTGTCGTTTTCCGC +AATTCTCATGGCTGATTCATCTGTACAACCAGCCAGTGATAGATTACCGCCACGATATAACGTTGTTGTT +CTTCGCTTAACGAAACACCCTGCGGAATGTTATGCCACTTAGCCAGACAACCGCGACAGCAGGTCGCGGT +GGCGTGCTGAGCGATAAACACCGGATGCCCGCGCATGGGGGTTTGCTTACCGTCATTAGCCGGTAATGCC +GGAGCAAGACGTTTAGCGACAAAATCCGCCGCATGTTGTTCGATGACTGGCGCGCCTTTCTCCAGGCAAT +ACTGACGCTCTTTCATGCCCAGACGAAAGCGAGAGCGAAATTTTGAACGGGATAAACGCGCGAAGAGTGG +ATCGAGAGACTGCATTAATAAACCGAACGCCCTAACTGTTTCGTCAATTGTTCAAGAACGGCAATACCCG +CAAGCGAGTTACCTGCATCATCCAGTTCCGGACTCCAGACAGCGATGGCCATTTCATGCGGAACAATCGC +CACAATACCGCCACCAACGCCAGATTTCGCCGGTAGCCCCACCCGCCAGGCAAACTCCCCCGCGTTCTGG +TACATACCACTGGTCGCCATCAGCGCGTTAATTTGCCGCGCCTGCATTGGCGTCACCACTGGTTCATCAA +TATGAATAGCTTTCCCCTGATTAGCCAGAAAGACAAACGTCCGGGCCAGCTCTACACAGCTCATTTTCAG +AGCGCAGTAATGAAAGTAGTTTTGCAGAACGGTTGTCACGTCATGATGGAAATTGCCAAACGACTTCATC +AGCCAGGCGATAGCCGCATTTCGCGCGGAATGTTCAAATTCGGAACGCGCTACCACCGTATCGTAGGAAA +TATCAGACACACCGCTTAAGCCGCGCACGACTTCCAGCATACGTTGCCGTGGTGCGCTTAATCGCCCTTG +CAACATATCGCAGACCACCAGCGCACCGGCATTAATGAACGGATTACGCGGTATACCCTGCTCCATTTCC +AGTTGCACTAAGGAATTGAACGGTGATCCAGACGGATCTTTGCCGACGCGTTGCCAGATTTCCTCTTCGG +AGTAATGACGCATGGCGACAACGAGACTCAGCACTTTGGAAATAGACTGAATGGAAAAACGTTCTTGCGC +GTCTCCGGCCTGAAAAAGCTGTCCGTCAACGGTACAGATAGCAATCCCCAATCGGGAACCGTCTACTGTA +GCCAGCGCCGGAATATAATCCGCGACTTTACCCTGACCAATGAGCGGCCGCACTTGCCGCAAGATGTTTT +CTAAAATTGCATTATCCATGGCGACTGCCACTTTCTACTCCTGGACCGCAGGTCTGAAAAGACCTGCGAG +TATATCAGAGCTGAATATGTCGCGTCAGATCCGGTCTTTCCACACCGTCTGGATATTACAGAATTCGTGT +AAGCCGAAATGGGAAAGCTCACGACCAAAGCCACTCTTTTTCACGCCACCAAAGGCCACTCGCGCGTCGC +TGGCACAATAACCATTGATAAACACCCCACCGCATTCCAGACGTGCCGCCATCTGTCTGGCCTGTGTTTC +GTCAGTGGTAAAAATGGTCGCTGAAAGGCCGAACTCACTATCATTAGCCAGTTCCAGTGCATGTTCTGCA +TCTTTCGCAATGGTGATTGCCGCAACGGGGCCAAACATTTCTTCCCGAAACGCGGTCATTTCTGGGGTAA +CATTCGCCAGAACCGTTGGCGGATAGTAGTTACCTGCCCCAGCCATCTTTTCCCCGCCCAGTAACAAACG +CGCACCCTGCGCCAGGGTTTTCTCCACCTGATGATGCAGCTCATCACGTAAATCAAAACGAGCCATTGGT +CCGAGAGCGTTCTCTTCGTCACGGGGATCGCCCATTTTCAAGGCTGCCGCAGCTGCCACAAAACGTTCGG +TAAATGCCGAAGCAATTCCCTCTTCGATAATAAAGCGTTTTGCCGCTGCACATACCTGTCCGGTATTCTG +ATAACGTCCGGCTACCGCCGCTTTCACCGCCAGTTCCAGATCGGCATCGTTAAGCACAATAAACGGATCC +GAACCGCCCAGTTCCAGTACGCATTTTTTCAGTGCCGCTCCAGCCTGTGCGCCAATAGCCGCTCCCGCAC +GAACACTTCCGGTCACCGTGACAGCAGCAATGCGCGAGTCTTTAATCATCTGACTGACACCGTCGTTGTC +GGCATTCAGCCAGCCATATACGCCTTGTGGGATACCCGCATCTTTAAACACCTGGGCAATGAGCTGTGCA +CAGCCCATCACATTCGGCGCATGTTTAAGTAAGTAGCCGTTACCTGCAAGAATGATGGGAACAGCGCCAC +GCATCACCTGCCATAACGGAAAATTCCACGGCATAATCGCCAGAATCGTCCCCAACGGTCGATACTCAAT +AACCGCCTGCTGATTTTCCACCAGCGTAGGTTCCGCCTTCAGCATTGCCGGACCATGTTCTGCATACCAG +TCACACAAATTCGCCGATTTCGCCACTTCAGCGCGCGCCTGGTTGATTGGTTTGCCCATTTCGCGGGTGA +TCATTTGCGCCATTTCTTCGCTACGAGCGCGCAGAGCCTTACCGATATCACGCAGTTTTTCAGCACGATA +ATCTATATTTGTCTCGCGCCAGTCGCGAAAGCCTGCTGCCGCCAGCTGAAGTGCGTTTTCGATATCGTCA +GCGCCAGCCCACGGCAGCACAGAAAGTTGTTCACCCGTGGCAGGATTTATCGAAATTGCATGAGTTGCCG +GAGTAATGGTCATCGGGGTATCTCCTTTATGAGTCATGGTATGAAGATACGCAGATTTACTCTTGCTTTA +AAATGAATAATATTAAGCCACTTATTCACGAATCGAGAATGCTATGGATCTGACCCAACTGGAGATGTTC +AACGCGGTTGCCGAAGCTGGCAGCATAACCCAGGCTGCAGCAAAAGTGCATCGCGTGCCGTCGAATCTCA +CTACCCGTCTGCGCCAGCTGGAAACAGAACTGGGGGTTGATCTGTTTATTCGCGAGAATCAGCGTTTACG +TCTCTCTCCTGCCGGGCATAACTTTTTACGCTATAGCCAACAAATTCTCGCGTTAGTGGATGAAGCGCGG +AGCGTTGTCGCTGGCGATGAGCCGCAAGGTTTATTTTCTCTTGGTTCGCTGGAAAGCACCGCTGCAGTGC +GCATTCCAGCCACGCTGGCGGAATTCAACCGTCGTTATCCCAAAATTCAGTTTTCACTTTCCACCGGCCC +TTCCGGCACTATGCTGGATGGTGTACTGGAGGGAAAACTGAATGCGGCGTTTATTGATGGACCCATTAAC +CATACTGCCATCGACGGGATACCGGTATACCGCGAGGAACTGATGATCGTCACGCCACAAGGATATGCGC +CAGTAACCCGTGCCAGTCAGGTTAATGGCAGTAACATTTATGCCTTCCGCGCCAATTGTTCGTATCGTCG +CCACTTCGAGAGCTGGTTTCATGCTGACGGTGCCGCTCCGGGAACTATCCATGAGATGGAGTCTTATCAC +GGAATGTTGGCCTGTGTGATCGCAGGAGCAGGCATTGCGCTTATTCCGCGCTCTATGCTGGAAAGTATGC +CGGGGCATCACCAGGTTGAAGCGTGGCCGTTAGCTGAGCAATGGCGTTGGTTAACAACCTGGCTGGTCTG +GCGTCGTGGTGCGAAAACACGTCCGCTCGAGGCATTTATTCAACTGCTGGATGTGCCTGACTCGGCAAGA +CAGGGATATCAATGAGCTATTTTTGATAGTTCTTGCGGTTAATATGCTCTATATAGTGATGTTCCGATGA +CTTATGACTATATGGGGCAAATATGGTTACGCCAGTAAGCATCAGCAATTACATATCTCTTCCTGATGAT +TTTCCCGTACGTAATATTGCACCGCAGGTAAAAGAAGTTTTAAAGGATTTTATTGATGCACTTAGTACAA +TAATATGTAATGAAGAGTGGCGCACGTCTTTAAACATCAACTCAGCCACAAAAAAGATATTTAATAACCT +TGACAACTTATCATATATTCAGAGGACTTCTTTTCGGGGTAACGACACGCTATACAATGAAAAGGTTCAG +TTTAAACTCACTTATCCCGCCAGGAATGGAAGACACAAAGAAAATATTGAATTTCAGGTAGTAATAAATT +TAAGCCCTATTTATTTAGATAATTTTCGCCATGATGGAGAAATTAATATTTTTTGCGCTCCCAACCCAAA +GCCTGTCACTATGGGGCGCGTATTTCAGACCGGCGTCGAGCGTGTACTCTTTCTGTTTCTGAATGATTTT +ATTGAACAATTTCCAATGATCAACCCTGGTGTTCCCATCAAAAGAGCGCATACACCACATATTGAACCCC +TGCCTTCGGATCACCATACCGCTGCAGATTACTTACGCCAGTTTGATTTGCTTGTCCTGAATTTTATCTC +TCGCGGTAATTTTGTCATACTCCCCCGATTATGGAATAACTCTGAGGTTCACAGATGGTTCGTCAATAAA +GATCCTAACTTGATCACCGCCATTCTCGACATAACGGACAGCGAATTAAAAGAGGATTTGTTGCAAAGCC +TGATGGATTCATTAGGTTCTAACAAACATGTACTACCCGAAGTCTGCATCTGCTTTTTATCCCTTTTAGC +AGAACAAGAATCTCCTCATTTTCAGAACTTGTTTTTATTTTTCGCCAATATGTTATTGCACTATCACCAA +TTTATGAATCCCAATGAAAGTGATTTGAATGACGTGTTGATGCCAGCATCATTAAGTGATGATAAAATTA +TCAAACATATGGCGCGCAGGACCCTCAAACTGTTTGTAAAAAATGAAACACCGCCAAAAGTTACTCACGA +AGACCTGGTGAAAAACAGGCCTCGCTCCCCTGTCAGACCACCTATACCCGCAACCGCCAAAACGCCAGAC +CTCCCTGAACGTCATTAAACCGTGATGTTACCGACTCTCTGACGCGTGAAAGAATCAGCGTCAGAGAAAC +GGAAAACGCGATCCAGATCACAAATGCATTGTATTCACATCATTAACCGTTTTAAGATCATTTCATCACT +TTTTCGCAACTCACCCGATAATCTGTTATGACAACAAACACTGTTTCCCGCAAAGTGGCGTGGCTACGGG +TCGTTACGCTGGCAGTCGCCGCCTTCATCTTCAACACCACCGAATTTGTCCCTGTTGGCCTGCTCTCTGA +CATTGCGCAAAGTTTTCACATGCAAACCGCTCAGGTCGGCATCATGTTGACCATTTACGCATGGGTAGTA +GCGCTAATGTCATTGCCTTTTATGTTAATGACCAGTCAGGTTGAACGGCGCAAATTACTGATCTGCCTGT +TTGTGGTGTTTATTGCCAGCCACGTACTGTCGTTTTTGTCGTGGAGCTTTACCGTTCTGGTGATCAGTCG +CATTGGTGTGGCTTTTGCACATGCGATTTTCTGGTCGATTACGGCGTCTCTGGCGATCCGTATGGCTCCG +GCCGGGAAGCGAGCACAGGCATTGAGTTTAATTGCCACCGGTACAGCACTGGCGATGGTCTTAGGTTTAC +CTCTCGGGCGCATTGTGGGCCAGTATTTCGGTTGGCGAATGACCTTCTTCGCGATTGGTATTGGGGCGCT +TATCACCCTTTTGTGCCTGATTAAGTTACTTCCCTTACTGCCCAGTGAGCATTCCGGTTCACTGAAAAGC +CTCCCGCTATTGTTCCGCCGCCCGGCATTGATGAGCATTTATTTGTTAACTGTGGTGGTTGTCACCGCCC +ATTACACGGCATACAGCTATATCGAGCCTTTTGTACAAAACATTGCGGGATTCAGCGCCAACTTTGCCAC +GGCATTACTGTTATTACTCGGTGGTGCGGGCATTATTGGCAGCGTGATTTTCGGTAAACTGGGTAATCAG +TATGCGTCTGCGTTGGTGAGTACGGCGATTGCGCTGTTGCTGGTGTGCCTGGCATTGCTGTTACCTGCGG +CGAACAGTGAAATACACCTCGGGGTGCTGAGTATTTTCTGGGGGATCGCGATGATGATCATCGGGCTTGG +TATGCAGGTTAAAGTGCTGGCGCTGGCACCAGATGCTACCGACGTCGCGATGGCGCTATTCTCCGGCATA +TTTAATATTGGAATCGGGGCGGGTGCGTTGGTAGGTAATCAGGTGAGTTTGCACTGGTCAATGTCGATGA +TTGGTTATGTGGGCGCGGTGCCTGCTTTTGCCGCGTTAATTTGGTCAATCATTATATTTCGCCGCTGGCC +AGTGACACTCGAAGAACAGACGCAATAGTTGAAAGGCCCATTCGGGCCTTTTTTAATGGTACGTTTTAAT +GATTTCCAGGATGCCGTTAATAATAAACTGCACACCCATACATACCAGCAGGAATCCCATCAGACGGGAG +ATCGCTTCAATGCCACCCTTGCCCACCAGCCGCATAATTGCGCCGGAGCTGCGTAGGCTTCCCCACAAAA +TAACCGCCACCAGGAAAAAGATCAGCGGCGGCGCAACCATCAGTACCCAATCAGCGAAGGTTGAACTCTG +ACGCACTGTGGACGCCGAGCTAATAATCATCGCTATGGTTCCCGGACCGGCAGTACTTGGCATTGCCAGC +GGCACAAAGGCAATATTGGCACTGGGTTCATCTTCCAGCTCTTCCGACTTGCTTTTCGCCTCCGGTGAAT +CAATCGCTTTCTGTTGCGGAAAGAGCATCCGAAAACCGATAAACGCGACGATTAAGCCGCCTGCAATTCG +CAGACCGGGAATCGAAATGCCAAATGTATCCATCACCAGTTGCCCGGCGTAATACGCCACCATCATGATG +GCAAATACGTACACCGAGGCCATCAACGACTGACGATTACGTTCGGCACTGTTCATGTTGCCTGCCAGGC +CAAGAAATAACGCGACAGTTGTTAATGGGTTAGCTAACGGCAGCAACACCACCAGCCCCAGGCCAATTGC +TTTAAACAAATCTAACATTGGTGGTTGTTATCCTGTGTATCTGGGTTATCAGCGAAAAGTATAAGGGGTA +AACAAGGATAAAGTGTCACTCTTTAGCTAGCCTTGCATCGCATTGAACAAAACTTGAACCGATTTAGCAA +AACGTGGCATCGGTCAATTCATTCATTTGACTTATACTTGCCTGGGCAATATTATCCCCTGCAACTAATT +ACTTGCCAGGGCAACTAATGTGAAAAGTACCAGCGATCTGTTCAATGAAATTATTCCATTGGGTCGCTTA +ATCCATATGGTTAATCAGAAGAAAGATCGCCTGCTTAACGAGTATCTGTCTCCGCTGGATATTACCGCGG +CACAGTTTAAGGTGCTCTGCTCTATCCGCTGCGCGGCGTGTATTACTCCGGTTGAACTGAAAAAGGTATT +GTCGGTCGACCTGGGAGCACTGACCCGTATGCTGGATCGCCTGGTCTGTAAAGGCTGGGTGGAAAGGTTG +CCGAACCCGAATGACAAGCGCGGCGTACTGGTAAAACTTACCACCGGCGGCGCGGCAATATGTGAACAAT +GCCATCAATTAGTTGGCCAGGACCTGCACCAAGAATTAACAAAAAACCTGACGGCGGACGAAGTGGCAAC +ACTTGAGTATTTGCTTAAGAAAGTCCTGCCGTAAACAAAAAAGAGGTATGACGATGTCCAGACGCAATAC +TGACGCTATTACCATTCATAGCATTTTGGACTGGATCGAGGACAACCTGGAATCGCCACTGTCACTGGAG +AAAGTGTCAGAGCGTTCGGGTTACTCCAAATGGCACCTGCAACGGATGTTTAAAAAAGAAACCGGTCATT +CATTAGGCCAATACATCCGCAGCCGTAAGATGACGGAAATCGCGCAAAAGCTGAAGGAAAGTAACGAGCC +GATACTCTATCTGGCAGAACGATATGGCTTCGAGTCGCAACAAACTCTGACCCGAACCTTCAAAAATTAC +TTTGATGTTCCGCCGCATAAATACCGGATGACCAATATGCAGGGCGAATCGCGCTTTTTACATCCATTAA +ATCATTACAACAGCTAGTTGAAAACGTGACAACGTCACTGAGGCAATCATGAAACCACTTTCATCCGCAA +TAGCAGCTGCGCTTATTCTCTTTTCCGCGCAGGGCGTTGCGGAACAAACCACGCAGCCAGTTGTTACTTC +TTGTGCCAATGTCGTGGTTGTTCCCCCATCGCAGGAACACCCACCGTTTGATTTAAATCACATGGGTACT +GGCAGTGATAAGTCGGATGCGCTCGGCGTGCCCTATTATAATCAACACGCTATGTAGTTTGTTCTGGCCC +CGACATCTCGGGGCTTATTAACTTCCCACCTTTACCGCTTTACGCCACCGCAAGCCAAATACATTGATAT +ACAGCCCGGTCATAATGAGCACCGCACCTAAAAATTGCAGACCCGTTAAGCGTTCATCCAACAATAGTGC +CGCACTTGCCAGTCCTACTACGGGCACCAGTAACGATAACGGTGCAACCCGCCAGGTTTCATAGCGTCCC +AGTAACGTCCCCCAGATCCCATAACCAACAATTGTCGCCACAAACGCCAGATACATCAGAGACAAGATGG +TGGTCATATCGATAGTAACCAGACTGTGAATCATGGTTGCGGAACCATCGAGAATCAGCGAGGCAACAAA +GAAGGGAATGATTGGGATTAAAGCGCTCCAGATTACCAGCGACATCACCGCCGGACGCGTTGAGTGCGAC +ATGATCTTTTTATTGAAGATGTTGCCACACGCCCAACTAAATGCTGCCGCCAGGGTCAACATAAAGCCGA +GCATCGCCACATGCTGACCGTTCAGACTATCTTCGATTAACACCAGTACGCCAAAAATCGCTAAGGCGAT +CCCCGCCAATTGTTTGCCATGCAGTCGCTCCCCGAAAGTAAACGCGCCAAGCATGATAGTAAAAAACGCC +TGTGCCTGTAACACCAGCGAAGCCAGTCCAGCAGGCATACCGAAGTTAATGGCACAAAAAAGAAAAGCAA +ACTGCGCAAAACTGATGGTTAATCCATACCCCAGCAGCAAATTCAGTGGTACTTTCGGTCGTGCGACAAA +AAAGATAGCCGGAAAAGCGACCAGCATAAAGCGCAAACCGGCCAGCATCAGCGGTGGCATGTTATGAAGC +CCCACTTTGATGACCACAAAATTTAGCCCCCATACGACCACTACCAGTAGCGCCAACACCCCATCTTTTC +GCGACATTCTACCGCCTCTGAATTTCATCTTTTGTAAGCAATCAACTTAGCTGAATTTACTTTTCTTTAA +CAGTTGATTCGTTAGTCGCCGGTTACGACGGCATTAATGCGCAAATAAGTCGCTATACTTCGGATTTTTG +CCATGCTATTTCTTTACATCTCTAAAACAAAACATAACGAAACGCACTGCCGGACAGACAAATGAACTTA +TCCCTACGACGCTCTACCAGCGCCCTTCTTGCCTCGTCGTTGTTATTAACCATCGGACGCGGCGCTACGC +TGCCATTTATGACCATTTACTTGAGTCGCCAGTACAGCCTGAGTGTCGATCTAATCGGTTATGCGATGAC +AATTGCGCTCACTATTGGCGTCGTTTTTAGCCTCGGTTTTGGTATCCTGGCGGATAAGTTCGACAAGAAA +CGCTATATGTTACTGGCAATTACCGCCTTCGCCAGCGGTTTTATTGCCATTACTTTAGTGAATAACGTGA +CGCTGGTTGTGCTCTTTTTTGCCCTCATTAACTGCGCCTATTCTGTTTTTGCTACCGTGCTGAAAGCCTG +GTTTGCCGACAATCTTTCGTCCACCAGCAAAACGAAAATCTTCTCAATCAACTACACCATGCTAAACATT +GGCTGGACCATCGGTCCGCCGCTCGGCACGCTGTTGGTAATGCAGAGCATCAATCTGCCCTTCTGGCTGG +CAGCTATCTGTTCCGCGTTTCCCATGCTTTTCATTCAAATTTGGGTAAAGCGCAGCGAGAAAATCATCGC +CACGGAAACAGGCAGTGTCTGGTCGCCGAAAGTTTTATTACAAGATAAAGCACTGTTGTGGTTTACCTGC +TCTGGTTTTCTGGCTTCTTTTGTAAGCGGCGCATTTGCTTCATGCATTTCACAATATGTGATGGTGATTG +CTGATGGGGATTTTGCCGAAAAGGTGGTCGCGGTTGTTCTTCCGGTGAATGCTGCCATGGTGGTTACGTT +GCAATATTCCGTGGGCCGCCGACTTAACCCGGCTAACATCCGCGCGCTGATGACAGCAGGCACCCTCTGT +TTCGTCATCGGTCTGGTCGGTTTTATTTTTTCCGGCAACAGCCTGCTATTGTGGGGTATGTCAGCTGCGG +TATTTACTGTCGGTGAAATCATTTATGCGCCGGGCGAGTATATGTTGATTGACCATATTGCGCCGCCAGA +AATGAAAGCCAGCTATTTTTCCGCCCAGTCTTTAGGCTGGCTTGGTGCCGCGATTAACCCATTAGTGAGT +GGCGTAGTGCTAACCAGCCTGCCGCCTTCCTCGCTGTTTGTCATCTTAGCGTTGGTGATCATTGCTGCGT +GGGTGCTGATGTTAAAAGGGATTCGAGCAAGACCGTGGGGGCAGCCCGCGCTTTGTTGATTTAAGTCGAA +CACAATAAAGATTTAATTCAGCCTTCGTTTAGGTTACCTCTGCTAATATCTTTCTCATTGAGATGAAAAT +TAAGGTAAGCGAGGAAACACACCACACCATAAACGGAGGCAAATAATGCTGGGTAATATGAATGTTTTTA +TGGCCGTACTGGGAATAATTTTATTTTCTGGTTTTCTGGCCGCGTATTTCAGCCACAAATGGGATGACTA +ATGAACGGAGATAATCCCTCACCTAACCGGCCCCTTGTTACAGTTGTGTACAAGGGGCCTGATTTTTATG +ACGGCGAAAAAAAACCGCCAGTAAACCGGCGGTGAATGCTTGCATGGATAGATTTGTGTTTTGCTTTTAC +GCTAACAGGCATTTTCCTGCACTGATAACGAATCGTTGACACAGTAGCATCAGTTTTCTCAATGAATGTT +AAACGGAGCTTAAACTCGGTTAATCACATTTTGTTCGTCAATAAACATGCAGCGATTTCTTCCGGTTTGC +TTACCCTCATACATTGCCCGGTCCGCTCTTCCAATGACCACATCCAGAGGCTCTTCAGGAAATGCGCGAC +TCACACCTGCTGTCACGGTAATGTTGATATGCCCTTCAGAATGTGTGATGGCATGGTTATCGACTAACTG +GCAAATTCTGACACCTGCACGACATGCTTCTTCATCATTAGCCGCTTTGACAATAATGATAAATTCTTCG +CCCCCGTAGCGATAAACCGTTTCGTAATCACGCGTCCAACTGGCTAAGTAAGTTGCCAGGGTGCGTAATA +CTACATCGCCGATTAAATGCCCGTAGGTATCATTAACCAATTTAAATCGGTCAATATCCAACAACATTAA +ATAAAGATTCAGAGGCTCAGCGTTGCGTAACTGATGATCAAAGGATTCATCAAGAACCCGACGACCCGGC +AATCCCGTCAAAACATCCATATTGCTACGGATCGTCAGCAAATAAATTTTGTAATCGGTTAATGCCGCAG +TAAAAGAAAGCAACCCCTCCTGAAAGGCGTCGAAATGCGCGTCCTGCCAGTGATTTTCAACAATAGCCAG +CATTAATTCCCGACCACAGTTATGCATATGTTGATGGGCAGAATCCATTAGCCGAACGTAAGGTAATTCA +TCGTTATCGAGTGGCCCCAGATGATCAATCCACCGACCAAACTGGCACAGTCCATAAGAATGGTTATCCG +TTATTTCTGGCTTACTGGCATCTCTCGCGACCACGCTGTGAAACATACTCACCAGCCACTGGTAGTGGGC +ATCGATAGCCTTATTGAGATTTAACAAGATGGCATCAATTTCCGTTGTCTTCTTGATCATTGCCACTCCT +TTTTCACAGTTCCTTGTGCGCGCTATTCTAACGAGAGAAAAGCAAAATTACGTCAATATTTTCATAGAAA +TCCGAAGTTATGAGTCATCTCTGAGATAACATTGTGATTTAAAACAAAATCAGCGGATAAAAAAGTGTTT +AATTCTGTAAATTACCTCTGCATTATCGTAAATAAAAGGATGACAAATAGCATAACCCAATACCCTAATG +GCCCAGTAGTTCAGGCCATCAGGCTAATTTATTTTTATTTCTGCAAATGAGTGACCCGAACGACGGCCGG +CGCGCTTTTCTTATCCAGACTGCCACTAATGTTGATCATCTGGTCCGGCTGAACTTCTCGTCCATCAAAG +ACGGCCGCAGGAATAACGACATTAATTTCACCGCTCTTATCGCGAAAAACGTAACGGTCCTCTCCTTTGT +GAGAAATCAAATTACCGCGTAGTGAAACCGAAGCGCCATCGTGCATGGTTTTTGCGAAATCAACGGTCAT +TTTTTTTGCATCATCGGTTCCGCGATAGCCATCTTCTATTGCATGAGGCGGCGGTGGCGCTGCATCCTGT +TTTAAACCGCCCTGGTCATCTGCCAACGCATAAGGCATGACAAGAAAACTTGCTAATACAATGGCCTGAA +ATTTCATACTAACTCCTTAATTGCGTTTGGTTTGACTTATTAAGTCTGGTTGCTATTTTTATAATTGCCA +AATAAGAATATTGCCAATTGTTATAAGGCATTTAAAATCAGCCAACTAGCTGTCAAATATACAGAGAATT +TAACTCACTAAAGTTAAGAAGATTGAAAAGTCTTAAACATATTTTCAGAATAATCGGATTTATATGTTTG +AAAATTATTATATTGGACGAGCATACAGAAAAAGCAAATCACCTTTACATATAAAAGCGTGGACAAAAAA +CAGTGAACATTAATAGAGATAAAATTGTACAACTTGTAGATACCGATACTATTGAAAACCTGACATCCGC +GTTGAGTCAAAGACTTATCGCGGATCAATTACGCTTAACTACCGCCGAATCATGCACCGGCGGTAAGTTG +GCTAGCGCCCTGTGTGCAGCTGAAGATACACCCAAATTTTACGGTGCAGGCTTTGTTACTTTCACCGATC +AGGCAAAGATGAAAATCCTCAGCGTAAGCCAGCAATCTCTTGAACGATATTCTGCGGTGAGTGAGAAAGT +GGCAGCAGAAATGGCAACCGGTGCCATAGAGCGTGCGGATGCTGATGTCAGTATTGCCATTACCGGCTAC +GGCGGACCGGAGGGCGGTGAAGATGGTACGCCAGCGGGTACCGTCTGGTTTGCGTGGCATATTAAAGGCC +AGAACTACACTGCGGTTATGCATTTTGCTGGCGACTGCGAAACGGTATTAGCTTTAGCGGTGAGGTTTGC +CCTCGCCCAGCTGCTGCAATTACTGCTATAACCAGGCTGGCCTGGCGATATCTCAGGCCAGCCATTGGTG +GTGTTTATATGTTCAAGCCACGATGTTGCAGCATCGGCATAATCTTAGGTGCCTTACCGCGCCATTGTCG +ATACAGGCGTTCCAGATCTTCGCTGTTACCTCTGGAAAGGATCGCCTCGCGAAAACGCAGCCCATTTTCA +CGCGTTAATCCGCCCTGCTCAACAAACCACTGATAACCATCATCGGCCAACATTTGCGTCCACAGATAAG +CGTAATAACCTGCAGCATATCCGCCACCAAAAATATGGGCGAAATAACTGCTGCGATAGCGTGGCGGTAT +AGCAGGAAGATCCATATTTTCCGCCACCAGCGCCCGCAATTCAAAATCATCGACATCCTGCATTGCTTCG +TTTTCTTCCAGGCAATGCCAGCGCATATCGAGAAGTGCGGCGCTAAGCAGTTCGCTCATCTCATACCCTT +TGTTGAACAGGCTGGCATTACGCATTTTCTGTTGCAGTTCGTCAGGCATTGCTGCCCCGCTCTGATAATG +CCGGGCGTAGCGAGCGAATACCTGCGGATGCGTTGCCCAGTGTTCGTTGATTTGCGACGGAAATTCGACA +AAATCACGCGGCGTGTTGGTGCCGGAAAGCGTGGCATAACGCTGGCGGGCAAAAAGGCCGTGCAGCGTAT +GACCAAATTCATGGAATAAGGTTATGACATCATCCCAGAGTAACAACGCAGGCTCACCGGCAGCGGGTTT +CTGATAATTGCAGACGTTATAAATTACCGGATGTGTTTTATTAAGCGTTGATTGCTCAACAAAATTGCCC +ATCCATGCACCGCCGCTTTTTGAATCACGGGCGAAGAAATCACCGTAAAATAACGCCAGCCCCACGCCAT +TATGATCAAAAATTTCCCACACACGAACGTCAGGATGGTAGACAGGAATATCAAAACGTTCGACAAACTT +AATACCGAAGAGCTGATTCGCGGTCCAGAATACACCTTCATTTAACACCGTGTTTAATTCAAAATATGGC +TTGAGCTGCGCCTCATCAAGATCAAATTTCTCCCGCCGTACCTGTTCCGCATAAAATGCCCAGTCCCACG +GCTGCGCGCTAAACCCGCCCTGCTGCTTATCGATAACCGCCTGTATGGAGGCTAATTCATCGCTCGCACG +TTGACGCGCCGCTGGAACAATTTCCCGCATAAAGTTAAGTGCTGCTTCAGGTGTTTTTGCCATCTGATCG +GCGATTTTCCATGCGGCATAATGAGGAAAACCAAGTAGTGTTGCCTGTTGTGCACGGATCTCCACCAGAC +GTTGAATGATAGCGCGGGTATCATTGGCATCATTTTTTTCCGCTCGCGTCCAGCCCGCAATAAACAGTTT +TTCACGCGTCGCACGATCGCGCATTTCGGCAAGCGCCGGTTGTTGGGTGGTATTCAGCAGCGGAATCAGC +CATTTGTTATCCAGACCTTTCTCGCGAGCCGCCTCTGCCGCCAGCGCAATCTCTTGCTCACTCATTCCTG +CCAGCTGCGCGATATCGTTCACAACCAGACCGCCGGATTTATTTGCTGCCAGTAATCGCTGGTTAAACTG +GCTGGTCAGGGTCGCAGCTTCTGTATTCAGTACTTTTAATTTTGCTTTATCAGCTTGCGCAAGTTTGGCT +CCGGCAAGGACAAAACGTTGATGAATCACCTCCACCAGGCGGATGGATTCACTATCAAGCCCCAGGGATT +CACGGCGCTGCCAGACAGCATCTACCCGCGCGAATAATTCACCGTTCAGATAGATATCATTAGCCAGTTC +CGCCAGTTCAGCGGAAAACTGCTCGTCAAGACGCTGTAATTCATCATTGGTATGCGCCGCAGTCATCGCA +AAAAAGACGCTGGTAACGCGGGTAAGTAATTCTCCGCTTTGTTCCAGTGCCAGAATAGTATTGTTGAAAT +CAGGCATTTGCGGGTTAAGCGCGATGGCAGCAATTTCTGCCCGCTTTTGCTGCATTCCCTCATCGAATGC +CGGGCGATAGTGATGATTGGCAATTTGATCAAAATGGGGAGCCAGATACGGCAGTGTGCTTTGCACAAGG +AAAGGATTCATTGTTGTCATTTTCTTCTCCTGAACGCGAGGTGTTCCATAGCGTAGGCTTACTGATAACG +GAGTGCAATCTTGCAATCCAGTATTACCCGCTCTTAAGCATCCCGTGCTATGTTATTGACACACAAAAGC +GTTGAGGAACAGTGAGATGATCGTTTTAGTAACTGGAGCAACGGCAGGTTTTGGTGAATGCATTACTCGT +CGTTTTATTCAACAAGGGCATAAAGTTATCGCCACTGGCCGTCGCCAGGAACGGTTGCAGGAGTTAAAAG +ACGAACTGGGAGATAATCTGTATATCGCCCAACTGGACGTTCGCAACCGCGCCGCTATTGAAGAGATGCT +GGCATCGCTTCCTGCCGAGTGGTGCAATATTGATATCCTGGTAAATAATGCCGGCCTGGCGTTGGGCATG +GAGCCTGCGCATAAAGCCAGCGTTGAAGACTGGGAAACGATGATTGATACCAACAACAAAGGCCTGGTAT +ATATGACGCGCGCCGTCTTACCGGGTATGGTTGAACGTAATCATGGTCATATTATTAACATTGGCTCAAC +GGCAGGTAGCTGGCCGTATGCCGGTGGTAACGTTTACGGTGCGACGAAAGCGTTTGTTCGTCAGTTTAGC +CTGAATCTGCGTACGGATCTGCATGGTACGGCGGTGCGCGTCACCGACATCGAACCGGGTCTGGTGGGTG +GTACCGAGTTTTCCAATGTCCGCTTTAAAGGCGATGACGGTAAAGCAGAAAAAACCTATCAAAATACCGT +TGCATTGACGCCAGAAGATGTCAGCGAAGCCGTCTGGTGGGTGTCAACGCTGCCTGCTCACGTCAATATC +AATACCCTGGAAATGATGCCGGTTACCCAAAGCTATGCCGGACTGAATGTCCACCGTCAGTAATTTTTAT +ACCCGGCGTAACTGCCGGGTTATTGCTTGTCACAAAAAAGTGGTAGACTCATGCAGTTAACTCACTCACA +AGCAAGAACGAATGACCGTCGAAACGCAACTTAATCCCACACAGCCTGTCAATCAGCAGATTTATCGTAT +TCTTCGTCGCGACATTGTCCATTGCCTGATTGCTCCAGGCACACCGTTGTCGGAAAAAGAAGTTTCTGTT +CGTTTCAATGTGTCACGCCAGCCGGTTCGTGAAGCCTTTATTAAACTGGCGGAAAACGGCCTGATTCAAA +TTCGTCCGCAACGTGGCAGCTACGTCAACAAAATTTCCATGGCCCAGGTGCGCAACGGCAGTTTTATCCG +TCAGGCCATTGAGTGCGCGGTGGCGCGTCGGGCGGCGAGCATGATTACCGAAAGCCAGTGCTATCAACTG +GAACAAAATCTTCACCAGCAACGCATTGCCATTGAGCGCAAGCAACTGGATGATTTTTTTGAACTTGATG +ACAACTTCCATCAACTCCTGACGCAGATTGCCGACTGTCAACTGGCGTGGGATACCATTGAGAACCTGAA +AGCGACCGTTGATCGCGTGCGCTATATGAGTTTCGACCACGTTTCTCCACCAGAAATGCTGTTACGCCAG +CATCTTGATATTTTCTCTGCCCTGCAAAAACGTGATGGCGATGCGGTAGAACGTGCAATGACGCAACATT +TGCAGGAAATCAGCGAATCCGTGCGCCAGATCCGCCAGGAAAACAGCGACTGGTTTAGCGAAGAGTAATT +CATTTCCTCTCATCCCATCCGGGGTGAGAGTCTTTTCCCCCGCCTTATGGCTCATGCATGCATCAAAAAA +GATGTGAGCTTGATCAAAAACAAAAAATATTTCACTCGACAGGAGTATTTATATTGCGCCCGTTACGTGG +GCTTCGACTGTAAATCAGAAAGGAGAAAACACCTATGACGACCTACGATCGTAACCGTAACGCAATCACC +ACTGGCAGCCGTGTTATGGTTAGCGGCACCGGTCACACTGGCAAGATCCTGTCGATTGATACTGAAGGTC +TGACCGCTGAGCAAATCCGCCGCGGAAAAACCGTAGTTGTTGAAGGTTGTGAAGAGAAACTGGCACCACT +GGACCTGATTCGTCTCGGCATGAACTAAGCGTGTGAATGCCGCCGATGGCGGCATTGCTTTTTTACTTCA +CGGAATATTTTGCCACGGTCGCTTTCGCGCCATGCGCTAATAAAGACAAGTACGTTTCCGTCACTCTTGC +AGTAAACAAACTATTGTCTGGCAAATCATCACCAAAGATCGCCTTAATCGCCAGCAATGACTGGACGCGC +GCTTTCCCTTCGGCACTACTTTGTACAGCCTTCTGAATAACAGGTAACAGTGGGTCACTGATTTCTATCG +GATTTCCCTGTTCATCAACACCACCGACATAACGCATCCAACCCGCGACGCCCAGCGCCAGCAGATCGAA +CTTGCTGTCATGCGCCAGATGCCAGCGAACAGAATCCAACATCCGCTGTGGCAATTTCTGGCTACCATCC +ATCGCAATCTGCCAGGTTCGATGACGTAACGCCGGGTTGCTATAGCGTGCAATTAATCGGTTAGCGTAAT +CTTGCAAATCAACGCCCTGCACTTTCAACGTCGGCGCTTGTTCCTGCAACATCAAGCCATACGCCGCATA +ACGATAATGTTCATCTTCCATACAGTCATTAATGTGCTGATATCCTGCAAGATACCCCAGATACGCCAGG +AATGAATGACTGCCGTTGAGCATGCGCAACTTCATCTCTTCATAAGGCAGCACATCGCTAACCAGTTCGG +CTCCCGCTTTTTCCCATTCCGGACGTCCGGCAACAAAGTTATCTTCTATTACCCACTGGCGGAAAGGTTC +ACAGGCAACGCCCGCAGGATCGCGCACACCGGTAAGTTGTTCGATTTTCGCCAGCGTATCCTCTGTCACT +GCGGGCACAATACGGTCCACCATTGTTGATGGGAAAGTCACGTTATCTTCGATCCATTGTGCCAGTTTTA +CATCAACGGCTTGTGCGTAGGAAGTGACAACGTCACGCATAACATGACCGTTTTCTGGCATGTTGTCACA +TGACATGACGGTAAATGCGGGAAGTCCTGCCGCTTTACGGCGAGCCAGCGCCTCAACAATCACCCCTGTT +GCTGTTTTCGGCTGGTGGGGATTTTGCACGTCGGCAGCTACCATCGGGTGATCGAGCATTAACTGTCCGG +TCGCCGGAGAGTGGAAATACCCTTTTTCGGTGATTGTCAGAGAGACAATCGCGATTTGCGGTTCACACAT +CGCTGCCAACACGGTTTCTAAGCCATCTATCTGTACGTGCAAGGCTTTTTTAACGACGCCAACGACGCGA +GCCGTCCACACATCGGCCGACATTTCCGCAACGGTATAAAGATTATCTTGCTGTTGTAAATCGGCAATTT +GCTGTTCGCCGCCGATTAAGTTGACCTCATAATATCCCCAGTCACTGAAATGTTCCGTAGCAAGAATATC +GGCATACACACCCTGATGCGCACGGTGAAATGCACCAAAGCCTAAATGAACAATTCTTGGAGCCAGGTTA +TTAAGATCATAAACAGGGAGTGTCGCTTTTGCTGATAACAAATTATTTCCCATAACAATTCCTTAAATAT +AAATATGGCAAGCTATATGTTTTGTTATATGAATAAAAATCCCCTCTCCGGTAAGAGAAGGGATTAAGGG +TTTACAGACTTCTGGAAGGTTGCGCAGCTCTTACAACACGCGGTTGATCTTCCGCAGCGTCTTCCAGCGC +ACTTAAATCACGGTCTTTCACCTCTGGCATTTTCAGCGCAGAGATTAAACCAATCACTGAATATGCCATG +ATCATAATGGCGATCGGATACCAGGATTCCGTCATGGTGCAGAAAATACCCGCCAGGATAGGACCAAAAC +CGGAAGCGATAAGACCACCAATTTCTTTAGAAATAGCCATCCGGGTAAAGCGGTTTTTACAGCCGAACAT +TTCTGCCATGGTAATGTTTTCCAGAGCAAATAATCCCAGCACCGCACAGTTATGAATCACAATCAGTGCA +ACCATAATGGTGCTCGGGGCATAGCTTTTATCTACAATGATAGAAAGCATTGGCCATGCCAGCACAATCG +CGGAGGTATTCATAATAATATACGGGATCCGGCGACCAATTTTATCGGATAACCAACCAAGGAACGGAAT +GGTCATAAAGCCGAGAATCGAACTGATCATCAATGCATCTGTTGGAATTGCTTTGTTAAACAATAACGTC +TGCACTAAATAGCCTGCAAGGAAAGTCTGAATTAACCCGGAGTTACCCGCCTGACCAAAACGCAGCCCTG +TTGCCAGCCAGAAGGATTTGCTCTGGAACATGCTACCAGCAGGTGCAGGTTTTGCTGTCGGTTGGTTACT +GTCGTTAACCTTCTCAAAGACCGGGCTTTCTTTCAGATTCATACGCAACCAGATAGCAAAGACCATCACG +ACAACACTCGCCAGGAACGGTATACGCCATCCCCACGCCAGCAGTTCCTCTTTACTGAGAATGAAGAACA +TAAAGGCCCAGATTGCCGTTGCGCTCAAGGTTCCGCAGTTAGTTCCCATAGCCACAAATGAGGAGATAAT +TCCGCGCTTACCTTTTGGCGCATATTCCGCCAGCATCGTACCGGCACCGGAAATTTCCGCACCTGCACCC +AACCCCTGAATAATACGCAACGTCACCAGCAAGATGGGTGCAAAAACACCAATCTGTGCATAGGTCGGTA +ACACACCAATTAAGGTGGTACAGATCCCCATCATGGTGATGGTAATAAAGAGCACTTTTTTACGCCCTAT +TCTGTCGCCCATTTTGCCGAAAATAAATGCTCCGACAATACGCGCCACATAACCTGCACCGTAGGTTCCC +ATTGCCAGAATTAACGCCATTGCCGTTGATGATTCAGGAAAAAATATTTCATGAAACACTAACGCTGCGC +CGAGCGAATATAACTGGAAATCCATAATTCACAGGTGTTTTTTCCCATCCTGTGGTTTCCTTGGCGTTTT +CTAGGTTTTTTCAGATAGTTGCATTTTTTTAAAAAGCATCCTAAGTTCGATCTCAGTGTCTATCTGGGGC +CTATTTCTGTCCCATATATGCCCCAAAAAAACTCCCCAACAGATAAGTAGTTTTTTCATGGATTTATGCG +TAAAATCAAGAACGGCTGGAAATCATTCAATACTCACACTATCGAAAAATTTACCAGCCAATCGCAGCAC +GTTCTTGCATAAGGTGTGTCTGCGGTTTTTCAACTATTCAGATACATCACTCCCATCACATTCATTCCTC +CGCATCAAAGGCATATAGGCTATATCACCTTGATATTTTTCTTTTTCAGATAAAAACTGTTATCTATGTA +TACTTTTAAACCCAATCCGTGTAGAGTCTCTACATAAGATAGTTTGCAGTTGCCGCTTCAGCTTGCGCCA +TAAACCGCCTGATTTTTGCTGCCACCTGTTAGCATTCCTGTATACCTGAAACGACAATGTTTATCTACGA +ACTTTAAGAACACCCAAGATAAAAATTGTCAACTATATCATATATAACACATTACTAATTCGAGGCTATA +TGAACAGCATACTGATAATCACATCTCTCCTTATCATATTCAGCATTTTTAGTCATGCCCTAATAAAATT +AGGGATTGGCATATCCAATAACCCAGACAAAACCGATGTATAAGTCAACATATCCTGAATCAGACATACA +ATATCGCAATGAAAATCAATAATATTTTAAGGAATATCTTCATGAAATCAAAAGACACCCTAAAGTGGTT +CCCTGCGCAGCTTCCTGAAGTAAGAATTATCCTAGGGGATGCTGTAGTGGAAGTAGCAAAACAGGGAAGA +CCTATCAATACCAGAACATTGCTTGATTACATTGAAGGAAACATAAAGAAAAAATCATGGCTGGATAACA +AAGAATTATTACAAACAGCGATATCAGTTCTTAAAGACAACCAAAATTTAAATGGTAAAATGTAATATAA +TAAACTTACTTTTTTATCATTTTTCCACTTTAACAACATTTTGCTCCACTTTTCCACGACCAAACAACTT +GAAATCTGGTTAAAATAACACGCAACACTATTCTTCTTCCTTGAGTCCGCCCGGAACTCGAAAAACAAAC +CGAGTTAAAGCCATTTTTCACAAAATCGATTTTGGGTCTCACCAAAATTACGGGGTTGCATACGCATTCG +TTTATTTTCGAACGTGTACATACAAATATGCACAAAAATAATCATAATTATTTTCTGAGATGCATTATGA +TATGAACACCAATTTCGTATAGAGTCTCACTATGTCTCAAATTTTTGCTTACTGTCGGATATCAACGCTG +GATCAGACCACCGAAAATCAACGCCGGGAAATCGAAAGTGCAGGTTTTAAAATCAAACCTCAGCAAATAA +TCGAAGAACACATTAGCGGCTCAGCAGCAACCAGTGAGCGTCCTGGTTTTAACCGGTTGCTTGCTCGCCT +GAAATGTGGTGATCAATTGATTGTGACAAAACTGGATCGCCTTGGTTGTAATGCAATGGATATCAGGAAA +ACAGTGGAACAACTGACCGAAACAGGTATCAGAGTGCATTGCTTAGCATTGGGGGGCATTGACCTGACCA +GTCCAACAGGAAAAATGATGATGCAAGTAATTTCAGCAGTCGCTGAATTTGAACGAGACCTTTTACTTGA +ACGCACTCATTCCGGGATAGTAAGAGCCCGCGGCGCAGGGAAACGTTTTGGTCGACCACCTGTGTTAAAT +GAAGAACAGAAACAGGCGGTATTCGAACGAATTAAGTCAGGTGTAAGTATAAGTGCCATTGCCCGGGAAT +TCAAAACCTCGCGGCAAACCATTTTAAGAGCCAAAGCAAAACTTCAGACACCTGACATATAAAAAATAAT +CTCGGTGTGAGATGCTTTACGTCTTCCAAGCCCCCTTCCTTGCCGTAAATGGAAAGATACATCTAATTAT +AGAATTTATATGTTTTACCCTACGGCAGTGCTGGCCATTCAATATCCTGTGCAGTTGACGTATCAACACG +GTTCAGCAATACCCGATACTTTTTCCATGCTTCCAGCAACGAGATTTCTTCCTCCGTTGCAATTTCCAGA +TCTGCAGCATCCTGAAGCGGCGCAATATGCTCACTGGCTACCTGCATCAGGTTGTTTTTTGTTTCTTCCG +CCTCCCGGATCCGGAACAGTTTTTCTGCTTCCGTATCCTTCACCCAGGCTGTGCCGTTCCACTTCTGAAA +CTCCCCTTCCGGCGATAACCAGGTAACATTTTCCGGTAACGGACCGAGTTCAGAAATAAATAACGCGTCG +CCGGAAGCCACGTCATAAACCGTTTTACCCCGATGATCTTCAACGAGATGCCACGATGACTCATCACTGT +TGAAAACAGCCACGAAGCCAGCCGGAATATCTGGCGGTGCAATATCGGTACTGTTTGCTGGCAGACCTGT +ATGAGGCGGAATATATGCATCACCTTCACCAATAAATTCATTAGTTCCGGCCAGCAGATTATAAATTTTT +ATGGTCCGTGGTTGTTCACTCATTCTGAATGCCATTATGCAAGCCTCACAATATAGTTAAATGCGATGTT +TTTGACGGTGTTTTCCGCGTTACCAGCAGCGTTAACGGTGATGGTGTGTCCATGTGAACCAATCGCAACG +GAGTGCGTATGAGCACCAATACCGACAGTATGTGCATGCGCGCCTGCGCTTGCAGCAGTGCCGGACAGCG +AGTGGGTATGAGCACCATCTGATGATGTCTTCCCTGCATTACGAGTCTGGCCACTACCGCTTGTTGTGCT +CATAATCCCCGCGCTTAGATTTGAAATCGCGGTATAACCATTAGGGAAAATGCTCGTGTTCGTGCCACCA +AATGCACCGGAACTCTTGTGTTGGTGCGCACCGGCACTATTTGCGGTCCCGCTAATACTATGGGTATGCG +CCCCGGTGTTATTCGTGGATTTGGTTCCGTAATCAAACGACGATGTGGTTTCCGTCCCCAAATCCGTACT +GGATGCGCTGGCGCTGTGGGTGTGCGATTTAATGCCGTCCTGTTCCTGAGATAATACGGCCCGACCACTG +GCGGGCTTGCCCTTAATCGTCCAGCCACGCATATCAGGGATCACGCCTGACGGATAAGCAACTGCAAGTT +TCGGGTATGCAGATTTGTCAAAAGTCTGCCCCTGCATCAGGGCATAACCAGACGGAACGGTATCTGATGG +CCACGGGATTGGTGCACCGACTGGATAAAACTCTGCAGGAGGATGAGCCGAGGTGTAAAGCTGCGCCCAC +GGCGACCAGTTTGCGTCGGTCGTATCCCGTCGTGAACGAATAAATGCCGGAGCATGAGCACCGCTTGTAC +CACTCCAGCCGATGAGTAACTCACCTTCGCCAACGGCTGTCATCCCTTTCAGGTGAATGATATTTCCATA +CGCTGTTGGATATCCGTTGTTATACACCTCGTATAACTCAAGACCTGCTGCCCCCTGCGTATTGTCTGTC +AGCGCGGTTATATTCACTCAGCAACCCCGGTATCAGTTCATCCAGCGCGGCTGCTTTGTTCATGGCTTTG +ATGATATCCCGTTTCAGGAAATCAACATGTCGGTTTTCCAGTTCCGGAAAACGCCGCTGCACCGACAGGG +GGATCCCGTCGAGAATACTGGCAATTTCACCTGCGATCCGCGACAGCACGAAAGTACAGAATGCGGTTTC +CACCACTTCAGCGGAGTCTCTGGCATTTTTCAGCTCCTGTGCGTCGGCCTGCGCACGCGTAAGTCGATGG +CGTTCGTACTCAATAGTCCCTGGCTGGAGATCTGTCTCGCTGGCCTGCCGCAGTTCTTCAACTTCCCGGC +GCAGCTTTTCGTTCTCAATTTCAGCATCCCTTTCGGCATACCATCTTATAACGGCGGCAGAGTCATAAAG +CACCTCATTACCCTTGCCACCGCCTCGCAGAACGGGCATTCCCTGTTCCTGCCAGTTCTGAATGGTACGG +ATACTCGCACCGAAAATGTCAGCCAGCTGCTTTTTGTTGACTTCCATTGTTCATTCCACGGCCAAAAACA +GAGAAAGGAAACGACAGAGGCCCAAAAGCTCGTTTTCAGCACCTGTCGTTTCCTTTCTTTTCAGGGGGTA +TTTTAAATAAAAACATTAAGTTACGACGAAGAAGAACGGAAATGCCTTAAACCGGAAAATTTTCATAAAT +AGCGAAAACCCGCGAGGTCGCCGCCCCGTAACCTGTCGGATCACCGGAAAGGACCCGTAAAGTGATAATG +ATTATCATCTACATATCACAACGTGCGTGGAGGCCATCAAACCACGTCAAATAATCAATTATGACGCAGG +TATCGTATTAATTGATCTGCATCAACTTAACGTAAAAACAACTTCAGACAATACAAATCAGCGACACTGA +ATACGGGGCAACCTCATGTCAACGAAGAACAGAACCCGCAGAACAACAACCCGCAACATCCGCTTTCCTA +ACCAAATGATTGAACAAATTAACATCGCTCTTGAGCAAAAAGGGTCCGGGAATTTCTCAGCCTGGGTCAT +TGAAGCCTGCCGCCGGAGACTGTGCTCAGAAAAAAGAGTTTCTTCTGAAGCAAACAAAGAAAAGAGTGAC +ATTACTGAATTGCTCAGAAAACAGGTCAGACCAGATTGAAGCAATTTAGATAATCGTGCAGACTACGCCC +CCTCATATCACATGGAAGGTTTATCTATGGATCAGGTAGTCATTTTTAAACAAATATTTGATAAAGTTCG +AAACGATTTAAACTATCAATGGTTTTATTCTGAGCTAAAACGTCACAATGTCTCACATTACATTTACTAT +TTAGCCACAGAGAATGTTCATATTGTATTAAAAAATGATAATACAGTGTTATTAAAGGGCCTAAAAAACA +TTGTGTCTGTCAAATTTTCAAAGGATAGGCATCTTATAGAAACGACCTCTAATAAGCTGAAATCCAGAGA +GATCACATTTCAGGAATACAGAAGAAACCTTGCTAAAGCAGGAGTTTTTCGGTGGGTTACAAATATCCAC +GAACAAAAAAGATATTACTATACCTTTGATAATTCATTACTATTTACTGAAAGCATCCAGAAAACTACAC +AGATCTTACCACGCTAAACCATAACGTCCGGCTTCTCTCACTCCTGAGCCGGACTGCATTGGTTTAATAA +AAACCATCAACAATTGTGATTTAGATATTCGGAACCATTCAAATATAACAAAACCCCGTAAAAACGAGGT +TTATGGATAAATTTTATTATTGAATACATCAGATTAAATTAATCTTGACATCATAGCTTTCAAGACCCGT +CATTTTTTCCCGTGCGGTAAACTGAATACTGGTAACTTCTTTCCCGGTCTTTTTCTTAAGTTCAATAATT +TTTTTTGTTATATATTCAGAAATATCTGCTTCTGCTTTTGTTTTTAAGTTTTCAATATTCATCATTTCCT +CTTTTAGTCTGTTATGACTTTCCAGTTACACAGTAAGTCGATTATATGGTGCAAACGTGTAAAAGATAAG +ATGAAACATCGCAATAATCAACATACGATAGTCTAAATTTTACACAAACAGACAAAGAGAATTTTCCTGA +ATTATCAATGCAATAGCATCAAATCAACTCAAGAGCCTTATTGCTGCTTCCAGAATTTCTTCTGAAGTAA +CATGTCGATCCGCGGCTACATAAATGACTTTATGATCTCCGGTCAGAGATGGAAACCCTGCGGCCATTAC +AGTAAGGTGTGTTTTTTCGCCATTTGGATATTCACGCATGATGGTGTTAACTCCAGTCATCGCTGGCACT +ACCACTGCTGGTTCAGAGTTAAAAAAACTATGATTTTTTTCATGATGTTACCGTAGTATGTGAGTATCCA +TCGAATAGACACCAAGCAAAAAAGCTCCCGAAGGAGCCTTCATTTTCACTTTTTTAAATCCAACGACAGA +CGGCTGGCATTTAAGTATTGTGAAATATTATCAAATGTAATCATCATTGATTTACAAAAGATACATTTTG +CCCCGAAAGGATTCATGTCAGAAACATCAAAAGATGATGTTCTATACTGGGAACCATGACAACACGGGCA +TCTAAAGTGAATATGGTTTGTAATATTGTCTACCTCAAAGCGCCACTACATGAACAGCGGCAGGACCTTT +AGGTCCGTTCTCAATACCAAATTCAACTTCCTGATTCTCAGTTAATGTTTTGAAATCGTTGCTCTGAATT +GCTGAGAAATGGACAAACACATCTTTGCTGCCATCTTTCGGCGTGATGAAACCAAAACCTTTTTCAGGGT +TAAACCATTTCACTAAACCAGTCATTTTGTTAGACATAATTATTACCTTTTGAAGAAATTAGCCCTTGGG +CAGAATGGTCCGAAAAAAAATATCAGAGAGAAAAACCAACAAGGAAATCTCAAGAGGTACAAATAATAAA +ATTATAACAATGACTGCTTCAGATAAATTTGTAACAAACCAGAACACCATTAACGCATGATTAACCACCC +ATAGCAAGGATTACTTTTGTAAAGAAAAACACAGCAATGAAAGAATAGCTTTATTTATTAATAAAACGTG +TCATTCTGATTAAGACCTTTTATCTTACCCTTAAGATTTCAGGAATTTTGGCTCATGGAAGAGTCCTTTT +TATTTAAATTTTACATTCCGCGATGTAAATGTTCCGATTTAATATTACCCTACATTTGATGCTTTTTATC +TCTTAAAGATTCATAGATCTGTTGACAAGTCACTCCTGCGATGTAGCGTTCGTCAGCAATTTCAGCATAA +AGCTGAGCTTCTGCTGCAATATCTCCGAGCATGTTGGTGAGCATTCCTTCGGCGGTTTTGGTTGTTTTGC +CTCTGACGGCAGCGGCAAGATCTGCGGTATGCTTCGCTGCGTCAAGGCGTATGGCATATTTTTTTGCTTC +GGCACGCAACTGGTTAACACTATCAGACAGATAAGCAGCCCTGGCAGAAATTTCAGCAGATTTCTGTTGC +GCATCTTTAACAGCCTCATCACGGGCTATAGTTCGCCCCTGTTCAATTATTCGAGCAGCAAATTGAGCAT +TTACCTCTTGTGATAATGCGGCAGCATCACGTTCCGCCCATTTTTTTTGCCATCCTCGGTCGCTCCAGAC +ATTTCCGACGATAAATCCTGACAACACGAGAAAAATCACCATGAATATCTGATTCACTGTTCTATCCCCC +AGCAGGTTAATGCGCTCTCCTGGTCACGACGAATAACCTGACCGTAACAGTTATTTGAACGAATGCGGCA +ATCGCGTCCGCCATCCTTAATCCACCAGCGAATCGCTTCGCATGCACCTTTACGATCACCAGCATTCAGC +CGCTTATAAAACGTCGACGGGAAACACTTACCGGGGCCAATGTTATAGGGACAAAATGACGCGATACCCG +CTTTTTGTGGTTCGGTCAGTGGTACTTTAATATTGCGCTCCACCCATGCCAGCGCCTTATCACGCTCAAT +GGCGTTGACCTGGTCGCATTTTTCCTTCGACAGTTTCATATTGGGAAAAACGGTTTTTCCATCCACCACT +GTGGCACCCCGACAGATGGTCCATATGCCAGAACCATCGCGGTATGCCATTGTGTGGTTACCTTCTTTTT +CGTCCAGAAACTGGTCAAGTATCTGAGGAGCAGATGCGCCAGCACCAATCAGCGCCAGAACGGCAGCCGA +CAGGCCGTATCTGATTTTTGTGTTCATAGATATTTATGATGAGGACGCTCGTGCTTATTGGCAGGATTTT +CAATCTTAAAGGAGTACTGATGCTGCAGATAAGACTCAACTTTTTCTGACAATTTTTCTGCTACTTCCAG +GAAGACTTGCCGGACGCTCCTTCTGGCTGCTGCCTCATAAAACTCCAGCGCAGCTCCTTCAACACGGTCC +ATGGCGACATCCAGGTCAAAAATTTCACCGTCAAAGCGTTCTTTGTCCTGTAAGGCTACAGTTACCGTAA +CTTTATTCTCAAAATTACGGACTCCTTTCACAACCAGTTCATAGTCTTGAGTCATTGGATTACTCTCCTC +TCGCAGCCTTACGCCTGTCTTCTTTAATCTTGAAATAAAGATTTGTCAGATACGTCAGCAGGCCAAAAAC +CAGGCTACCCAGCACACCGATTGCAGCCCACTGTGACGGAGTTACTTTATCGAGTAACTGCAATGCCCAG +AAACCAGCATTACCCGCCGATGTGCCATAGGCAACACCTGTTGTTAACTTATCCATTGATTTCATATCCT +CACCCCGATGTACACGGATGGTGCAATATGTTTGAAAAGATCGGAGTCTACGGGGTAGTTTTGACAGCAC +ACGTTGTTCTCAACGGCGCTAAAAAAACATACACATTAAAAATGTGGGTAATTATTTTGAAAGAAAGTCA +TATATAAAATAATAATACGAGAAATGTTTTCATATTTAGTGTACTGTATACGGCCATTTATACAGGAAAA +GCCTATGTCAGAACGTAAAAACTCAAAATCACGCCGTAATTATCTCGTTAAATGTTCCTGCCCAAACTGC +ACCCAAGAGTCAGAACACAGTTTTTCAAGAGTACAAAAAGGTGCCCTTTTGATCTGCCCTCATTGCAACA +AAGTATTCCAGACAAATCTTAAAGCTGTAGCCTGATTGATTTTATTAGTAACAAGTATTTTTTATATTTT +AATAATATATTTAAAGCAGATAATAAAAAACCCGCCTGAGCGGGTTTGAGATTGTGGTGCTTTTTGTGGG +AGTCATCCACTTACGCACTTTGTTTTGCCATGCCAGCAGTTAGCTTCTGCTGTAAAACTATTCATGCAGC +AAACCTGCACTTCACCACAATGGTTAGCATACTTTTCCTGATTAAGATTTTGCCAAATATGCTAGCCATT +GTTTCATGTATTGGACCTCCTTACTTTTTATTAAAGAGATCCAATATTCACTACTCTGTCCGTATCTCTA +CTCAGGCATCAGCCTTCTTCGTTATCGTATACAGACGAGCGATGAATTTTAATCAGTAATGATGACATTT +GCTGCTGCAGGACCTTTAGCACCACTCTCTATAGAGAAGGTAACCTTTTGACCTTCAAATAAGGTTCGAT +AATTATCATTCTGAATCGCAGAAAAATGCACAAACACATCTTTACTACCATCAACAGGAGAAATAAAGCC +GAAACCTTTATCAGCGTTAAACCATTTTACTAAACCAGTCATTTTATTTGACATTCTACATTCCTTAACT +TGAGCCTTTCGGCATAAATGGTTTGCATAACAGAAACGACTTCGTACTTAATTGGAGAGACTCAAAGAAG +GAATAAGTGAATAACACCTGAAATGAGAACTGCTTTAGTAAACTACTTCGTATATCGTCTGTTCTTCAAA +CCGACGCAATCATTAACGCATAGTTGAACATATGAAGCAATGTTTATTTTAGACATCCAGCCATCTTCAA +CCCCATCAAAAAACTATAGCTTTCTTCAGGAACGTGTGTATAGTGCGCCAAGTTATCAGTATTAAGGAAT +TTTTTTGTCCCGTAAAATGACAGGAATTGTCAAAACCTTTGACGGCAAAAGCGGCAAGGGTCTTATCACC +CCATCCGATGGTCGTATCGATGTCCAGCTTCATGTTTCAGCGCTCAATCTCCGCGATGCAGAAGAAATTA +CCACCGGATTACGCGTGGAATTTTGCCGGATAAATGGTCTGCGTGGCCCTTCAGCTGCCAATGTTTACCT +TTCATGAGCTATATTAAAGCTTTAATTTCAGGCCCCATCGGATCACACATGGAGAGTTTTTATGAATAAC +CCCGTCTGTCTTGATGACTGGTTGATTGGCTTTAAAAGCTTATGCTGTACTTTGGCCGTAATAGCTCTGC +TAATAATATAATAAGCAGACTCATTGTGTTTAGGGACATTGTACTGGAAGAAAACATTTTAAACATCAGG +CAAATAACCAAGTCACCAGCTAAATAATAAGTTAACAGACATGAGTCCCGGGATGAGATTCAACATTACC +ATTGCCCCATTTAAAGCACAAAACCCGCTCATCAGCGGGTTTTCTACTTTTTCTTAACGTCGGGTATACA +AAGCCCATCGTTGAAAAAATTTTATCCATATTTTTTGAAAAATGCAAACATCATGTCGCCATCTTCAGCA +AAAATCATTTATCTCGTCACCTTCCTCAATTGCGCTTCCGCGTATGCTTCTTCCTGCCAGCACTTTGTTA +CCAGTTTACCAATGACGTCCGCATACCCCTTATACCACTGATAATCGGTCAGGTCTGGTACCAGCTTCTG +GACATGACGTCGTGCCAGCGTGGTCGGTAAACGACTAAACCGGTTTCCATTACAACGCCCACAAATCTTA +TATACCGGTACGCCATGAAACCGGGTTCTTTTTTCATCCAGAACAATCCCTTTACCCTTACACCCTCTGC +ACGCTGTGCTGGCTTCGCCCTTACCATGGCAATGCTGACATAGTTCCTTCACCCATTCTTCCTTGATTAC +AGATTCCCCGCGTCTGTAGTGTTTCACCACTTCGCGCAATACATTATAAAATCCCGTACCTGAACAATGC +TCACAGCGAGCCTTACTTGCCGCAGACCTGGAGTAATCAGCAAAGGCAAAACTCACGAGGTAAGGAATAA +TCTGTAACCGGATTTCTTCACTCAATTTGTTCAATGTCGGGTTATCCAGTGCCATCGCGTAATTTAGCAG +GCCTTCAATCGCAAACTGAGGGTCCTGAACACCAACTTTTGCCAGAAATAAGGCCAACCCAAGTGGTGCT +TTCGACTGCACCATCCCCTGCGCTGCCATTACATCCGTAATTGTTAAACAACCGGTGCCTGTCGCTGGAG +CGTCATCGCTCAATTTTGGAGATTTTGGGGAGTAATATTTTGGTAAGGCTTCAAGGTTCATGCTCGTTCT +CCACTTACGCCAGTACGCCAATTGCCAGCGCGCGATCGATAAAACGAAATATCAGCTCCAGTTGGGAGCC +ATACTTATCTTCAAATGCCACTGTATCCGTATGCAGCTCGTTGTGATGCTTTCTGCACAAAGGCAACACA +AAGAGATCATGTGCTTTTGTTCCCATTCCGCCCTGCCCGTGACCAATCAGATGATGCGGATCGTCGGCTG +GCATACCGCAGCAAGCACACGGCTGTGTCTTAACCCAACGTGTGTATTTCTCCTTAACCCAGCGGCGACG +TTTAGGCAGCTTCATGAAAGATTCCGGAGACTCTGGATCAACGGTGATGCTTACCACCGTCTTTTCCTGT +GGTGATTTTTGTTGCTGGTGGGCGTAAGGCAACGGTGCAAGATTTTTTGTGCGTTGTTTCAATATGCTGG +TGGCGGTCAGCTCTCCCGGTACGATGTCGCTTTCGCGGTACACCGAGCAGATTTTTTCCGCTGGTAATCC +CAGCGAACGACGCGATACAGCCTCAGGTAGTGCATCCACCACCTGATTGCAGACCGCCCACCAGGATAAT +TCAGCCAAAGATAATTCCCGCTCCTGCGTACCGCTTATTGCGTGACGGATGACGTCAATCACCCATGCTG +TCAGATTTTGTTGAGCAAGCAGCTCCAGTGATTCCGATGTCTGGTCACGCAGTTGGTTGTCGCAGTGCCA +GCACAACACCATTGCGCCGGTACCATAACGGTGAATGACTGTTTCAGTGTGATGGTAATCGCCATTAGGC +CACTGGCAGGATGTAACATGACGTAATAGCCAGTCGGACAATGCGCCAACGCCGCCAGCAGCACGAATCA +CCCGTTCGTTACTAAAAAACGGCAGCAATGTTTTGTCTTCCGCCAGCGGCTGGCGAACGGCAGGAACGAC +TCCGGATGGCAGATTACGCATGCTTTTTGGTTCCGGTTCCACCAGCACTCGAGGATTATGAAATATCTGT +ATGGATTCACGGCCCGGCTTAAGGACCACCAGCCCAAGCTCAGGCACCAGAACAGGTCTAAGTAATACCC +GCACGTTACCTCCAGATCCGTTGCTGGAAAGTGCGGGACGCACGTGGTGGGCGTTCGGAATAAGGCAGCC +TGACAGAGATTATCCAGTGCCGATAGTCGAGACTGAGAGCTTTCTTAACCTCGAACCCGCGCCTGCGGTA +AGAATGAATCAGCCATTCGGCCTGTTCTGCAGTGCATGGAGGGTGCTGGAACCATTCAGACTTGAATGCG +TGAGAATACCGCCCGTGCGTGCAGGCAAGAACGGGCGAATTATCAGAATTGTAATATTTTGCGTTGCGTG +CCATCGGTTTTCTCCGGTGGCACGGTGTTACTCAGCGGGAGTTCAGCCCCGCGCAAGATTGTAGATGAGT +TTATTCTCCTGAAAAAGCAGAAAAGCCAGCTTTTATTCCGATCTCTTTCAATGCCTGTAATGAAGTGACA +AACTCACCTTCGCGCAAGATAAATCCGTCCGTGACCCGAGCATCCACAAAATTAATTAACGCAGCCCCAT +TCTTTCGCAAACACATAATGCGGTAATGACTAACAAGATTTCCATTTTCAACGCACACAGCATAGAGGCC +ATCTTCACAAAAAATTTTACGCAGTTCTTCGATGTTCATCATCAGAATCCTTCCGGATAATTAGCTCTCC +CCTTTAAGGGACCATCCCTCTTATCCCTGCGCGCTACTTAAGTATTTTTGATTCTATTCCGGCACCGTCC +AGAACTTCAAACGCGTTGAAAATAAAAACAAAAACCCGCCGAAGCGGGTTAAGTGCGGGTGCGTTGAGGA +TGCCTGCCACATCAGAGGTGGCGAGGGATTTCTCCCCCGCCGGGTCTCTTACTCCTCAGGTTCGTAAGCT +GTGAAGACAGCGACCTCCGTCTGGCCGGTTCGGATTCGTACCTCGCAGAGGTCTTTCCTCGTTACCAGTG +CCGTCACTATGACGGTTAAACAGATGACGATCAGGGCGATTAACATCGCCTTTTGCTGCTTCATAGCCTG +CTTCTCCTGTCAACGCAAAGCAGAAGTGTCACCTTCGGTGCGAAACAGAGATGTCATGCTTTGGTTCAGA +GAATGCGTTTGACCGCCTCGCTATATACTTCCGAGCGTTCTCTTTTCCCAACAGAAATCACGAAAACGAC +AACTTTCTCGTCTATAACCTGGTATACAAGGCGATAGCCTGAAGACCGGAGCTTAATCTTGTAACAATCA +GGCATACCACGGAGCTTGTTTGCTTCAATCCGGGGTGACTCAAGTACTTCAACCAGCTTCTTTTTCAACT +GTTCACGTACCGTCGAGCCCAGCTTTCGCCATTCCTTTAGTGCCCGCTCGTCAAAATCCAGAAAATACGC +CATCAGAGTTCATCCAGCGTCACACGTACTGGCTTAGGATTACGAAGCCGTTCTTTCACTATCTCCACAA +GTTCAGCATCTTCATCACTCAGGAGTGTCTGTTTGAACGGCAAGCGTTCATTGTCAGCGATATACTCGAG +CATGAGACGAAGCGCTTCAGAAGGAGTTACACCCATTTTTTCAAGCGCGGCGTAAGAACGCGCTTTAAGT +TCATCGTCAATACGCAGGTTAATGCTACCCATGTCTTACACCTCTTGTAATTACAAATGTCATTACAAGT +ATCGCACTACAACATGCTTAGGGCAAGTCACGAAGGAAGTCAGAAAGTAGTCGTAAGAACGGTGATCACT +GTCCGCTTTGTGCCAGGAGCAGCCATTGCTAAGTCCATCCTGTATTGTGCAGGTCAGCTCGTTTTTAAAG +AGTCCGGCCATCATCTTACTGGTACAGACACCATATACTTTGTGACGGTCAGGCTACATATGCACAACTC +AACTTATTCATCTATTTTTTGCTTTAGCATGTCAGTGTTGCTTTCTCGTCGGCGGGTGAGCGGTGACCTG +ACCTGTCGATAAAGGAACGTAACACGTTTTATGCAACACCCGCATGCGGCAGAAAATTATTGCCGAACGT +TTACCCCTGTCAACAAGCTTTACTTTCTGAGGCGCGCCAGCCCGCGAGGAAAACAATCTGAACATCAAAC +AATTAATGACACAAGAAATACGATTAAAGATTTTTTTGTGCATGCCGATAGTGCTTTTTTAAAAGGAGAA +ATCTATGTCTGTCACAATTCAGGGAAATACCTCAACCGTTATTTCAAACAACTCCGCCCCGGAAGGAACA +TCAGAAATAGCCAAAATCACAAGACAAATTCAGGTGCTGACTGAAAAGCTTGGGAAAATCTCATCGGAAG +AGGGGATGACGACACAGCAGAAAAAAGAAATGGCTGCATTGGTACAGAAGCAAATTGAAAGCCTCTGGGC +TCAACTGGAGCAGTTGTTAAGGCAGCAGGCAGAGAAAAAGAATGAAGACGCGACAGTTCAGCCTGATAAA +AAAGAAGAGAAAAAAGACGATACAAATACCGCTGGCACCATTGATATTTACGTCTAAGTGACAGCCGTAT +TGTGGCCCTCATCGGGCCACTTTTCGCCATCAGCCTTTTCTTTAAAGACATATTATCTTTGTATCATTTC +TGATAGTTAACATTACAAGATATAAGTAATGGACGCACTCCCAATTAGTCTATTTAAATCGCCACGAGTT +TAACTGACAACCCATGATCAATTATGAATTGCAACTATTTCTGTAGTCACTTTTGTGGGGACAGTCCACA +AAACTGCCAACTTCCGCTTCTTGCTCTTAGCGGACATTAGCATAGGCTATTTACCATAACGCCTCATTAC +GCGCACCGCCCAGACTGACTCAGCGCGTTTCTGGCATATCCCCGGTAAAACAAGTAACAAACCACCCGAA +AATGAACACCAGAAACGCGACTTAAGAATCTACCCTATGAATGGATATGCACTCAACCGAATCGATCTTG +GTTTCAATCTTTTTTATCGGGATCAGGCTTCTTTTTAGGTAACTTCGGGGGCTTAACTTGCTGATGACTT +TGCGTTCGGCGCGTAAGCCAGGGATGGTCAGCTTTAGGTTTAACATAGTATTTTGAGCGTAAATCAATAC +GGGCATTATCCACTCGTTCATGGACACTCTTTTCATCATCCAGTGGTAGCCTCCATAATTGCAGGCACTA +GCGCCGTGAACTTTTCACGCTTATCCCTGGTGTCGATAGCCTTCCAGCGTTCAAATATCTTCACTCGATT +AACGCCAAGCGCTCGCTGATCAATCGCGCCACCTTCATATGTGACACGCTGAACATCGATGTTCGGGCGC +TCTTTCAAAGCCCAGAATGCTTCAGTGATTAATATCGTCGCCTGCTCCTGTGTCATTCCTGGTCGACATA +TCCAGGCATCCAGAGCCTCACGAGCCTGTTCAGGAGTGATTTTCATTGTTCAACCGCCCCGCCCGCTTCG +TCTTACGATATTCATCATAAACTTTGGGATCATACTGAAGCTCCCCGCCAGATGCCTCCTGTAGACGCAT +CGCGCGACCTTCGGGAACTAAATCCCCTTTCCAGCTATAAAGCGAAGCCAAACGAATACCTGCTGCTTGT +GCAAGTTTTGTTTTTGAACCGAAATACAAAAGAGCGTCAGTTTTAAGCATTTAAAACACCTTTATTGTTA +GTCATAACTAACAAGATAGATGTTAACAAAAACATAGTCAATACGATTTAGCATTAGCTAACTATGGAAA +CAAAAAATTTAACTATCGGCGAACGCATCAGGTATCGTCGGAAAAACCTCAAACACACCCAAAGGTCTCT +TGCTAAAGCCCTGAAAATCTCCCATGTGTCTGTATCACAATGGGAACGGGGTGATAGTGAACCTACAGGG +AAGAACCTTTTTGCCCTCAGTAAAGTATTGCAATGCTCACCAACATGGATTCTATTTGGCGATGAAGACA +AGCAACCAACACCACCTGTTGAGAAGCCAGTTGCCTTATCCCCCAAAGAACTAGAGCTCCTTGAGCTGTT +TAATGCACTGCCAGAATCAGAACAGGATACCCAGCTCGCCGAAATGCGAGCTCGAGTAAAAAACTTCAAT +AAACTCTTTGAAGAATTACTAAAAGCCCGTCAGCGGACAAATAAAAGATAACATCATCAATGAGTTATCT +TTTACCACATCAATTATGTTAGCTATAGCATACAAAATCACTTGACCGATATGTTAGTCATGGCTAATCT +TGTTTGCATCAACACACCGCACGGTGTTCTCAGCAAACAGTTCCGCTACCCCAGCGTTAAGGGGAAATGA +GGTCAGCATGGATACTATCGATCTTGGCAACAACGAATCTCTGGTGTACGGCGTGTTTCCAAACCAGGAC +GGCACGTTCACCGCAATGACGTATACCAAAAGCAAAACGTTTAAAACCGAAAATGGTGCCCGTCGCTGGC +TGGAAAGAAACTCAGGTGAGTGATATGGATTTCGACACAATCATGGAAAAGGCTTACGAAGAATACTTCG +AAGGCCTTGCCGAAGGCGAAGAAGCTCTCAGCTTCAGTGAGTTTAAACAGGCGCTTTCCAGTTCGGCAAA +ATCTAACGGCTGATAAGCGAAACAGCACCGCGAGGAATCAGTATGCAGAAACGAGAACCCGTCATCATCG +CGCCAGACTATACCGATGATGAACTTTATGAGTGGATGCGCCAGAAAATTAATGCAGCGCAGGATCTGAA +ATGGGCTAATGAAGCCAGGGCTAAGCAGGCTGAAAATCTGTCCGCTCTGGAGCAGGATATCACCAATCTG +GAAAAAGCAGCGGCATTAAGCATTGCCAGAATGATTACATACCCGCGTTAGTAGCTAATCAACAAAGCTA +AGGTTAGTAATTAAGGAGTTCTCCACGGGTGAGGTGGAGTGCGTGCGCCGGACACGGGTGCGCATCCGGA +ACTGACAGTTTACTGAAAGGATATTTCCCTGAAAAGTCAGACCATAACGCGAAAGCGCATGGCGAGGTAG +CTGGTTCATAGATAGCCTGTCGTTAAATTTTCGTCGACCGTGCGCTTCCGGTTGTGGCAACCCGCGAAAT +GGCGCGGCGGTAAGTATGGCGGGGTTATTCCTTCCCCGTTGAGGACACCGGGTTGTCAGGTTGACCATAC +GCTTAAGTGACAACCCCGCTGCAACGCCCTCTGTTATCAATTTTCTGGTGACGTTTGGCGGTATCAGTTT +TACTCCGTGACTGCTCTGCCGCCCTTTTTAAAGTGAATTTTGTGATGTGGTGAATGCGGCTGAGCGCACG +CGGAACAGTTAAAACCAAAAACAGTGTTATGGGTGGATTCTCTGTATCCGGCGTTAATTGTTAACTGGTT +AACGTCACCTGGAGGCACCAGGCACTGCATCACAAAATTCATTGTTGAGGACGCGATAATGAAAACGTTA +TTACCAAACGTTAATACGTCTGAAGGTTGTTTTGAAATTGGTGTCACTATCAGTAACCCAGTATTTACTG +AAGATGCCATTAACAAGAGAAAACAAGAACGGGAGCTATTAAATAAAATATGCATTGTTTCAATGCTGGC +TCGTTTACGTCTGATGCCAAAAGGATGTGCACAATGAATTCAGCATTTGTGCTTGTTCTGACAGTTTTTC +TTGTTTCCGGAGAGCCAGTTGATATTGCAGTCAGTGTTCACAGGACAATGCAGGAGTGTATGACTGCAGC +AACCGAACAGAAAATTCCCGGTAACTGTTACCCGGTCGATAAAGTTATTCACCAGGATAATATCGAAATC +CCGGCAGGTCTTTAAAACAGTTCCGTAATAAATATCCGGTTTCATTCTTATATGCCAGCAATGGCAGGGA +TTTGTTCATCCTTAAATCTGTCATGAGGTTAAAACAAATGAGTAAAGTCTTTATTTGCGCCGCTATTCCT +GACGAACTGGCAACAAGGGAAGAAGGCGCTGTGGCTGTAGCCACAGCCATTGAAGCTGGCGACGAACGCC +GTGCTCGAGCAAAATTTCACTGGCAATTCCTGGAACATTATCCGGCTGCTCAGGACTGCGCTTATAAATT +TATTGTCTGCGAGGATAAACCTGGCATACCCCGCCCTGCCCTCGATTCATGGGATGCTGAATATATGCAG +GAAAACCGCTGGGATGAGGAGTCTGCTTCTTTTGTCCCGGTTGAGACTGAATCCGATCCGATGAACGTCA +CTTTTGACAAGCTGGCCCCTGAAGTACAGAACGCTGTCATGGTTAAGTTCGACACATGTGAAAACATCAC +CGTTGATATGGTTATTAGCGCACAGGAATTGTTGCAGGAAGACATGGCAACATTCGACGGACATATCGTT +GAAGCGTTGATGAAAATGCCAGAAGTTAACGCCATGTATCCGGAGCTTAAGTTGCACGCCATTGGGTGGG +TTAAGCATAAATGTATTCCTGGTGCTAAATGGCCCGAAATTCAGGCAGAGATGCGCATCTGGAAAAAACG +TCGCGAAGGTGAACGCAAGGAAACCGGAAAATACACGTCTGTTGTTGATCTCGCCCGCGCCAGAGCCAAT +CAACAGTACACTGAAAATTCAACAGGAAAAATCAGCCCGGTCATTGCTGCCATTCATCGCGAATACAAGC +AGACATGGAAAACACTGGATGACGAACTGGCCTATGGGCGCTGCTTCGCAGACAGGCAGAACTTGATGGT +ATGCCTGCGATCAATGCCAAACGTGTTTACCGGATCATGCGCCAGAATGCGCTGTTGCTTGAGCGAAAAC +CTGCTGTACCGCCATCGAAACGGGCACATACAGGCAGAGTGGCCGTGAAAGAAAGCAATCAGCGATGGTG +CTCTGACGGGTTCGAGTTCTGCTGTGATAACGGAGAGAGACTGCGTGTCACGTTCGCGCTGGACTGCTGT +GATCGTGAGGCACTGCACTGGGCGGTCACTACCGGCGGCTTCAACAGTGAAACAGTACAGGACGTCATGC +TGGGAGCGGTGGAACGCCGCTTCGGCAACGATCTTCCGTCGTCTCCAGTGGAGTGGCTGACGGATAATGG +TTCATGCTACCGGGCTAATGAAACACGCCAGTTCGCCCGGATGTTGGGACTTGAACCGAAGAACACGGCG +GTGCGGAGTCCGGAGAGTAACGGAATAGCAGAGAGCTTCGTGAAAACGATAAAGCGTGACTACATCAGTA +TCATGCCCAAACCAGACGGGTTAACGGCAGCAAAGAACCTTGCAGAGGCGTTCGAGCATTATAACGAATG +GCATCCGCATAGTGCGCTGGGTTATCGCTCGCCACGGGAATATCTGCGGCAGCGGGCTTGTAATGGGTTA +AGTGATAACAGATGTCTGGAAATATAGGGGCAAATCCACAGGTGAACTACGCTCCTCTGTTTGTTACGCA +ATAAAAACTGGTGTTTTCGACTATGCAAAACAGTTTCCCTCCTCACGCAATCTGGAAAAATTTGGTGAGG +CCCGACAAGATTTAACCATAAAAGAACTGGCTGAAAAATTTCTGGCACTGAAAGAAACTGAAGTCGCCAA +AACATCACTCAACACATACCGTGCCGTCATCAAAAATATCCTGAGCATAATCGGTGAAAAAAATCTTGCC +TCATCGATTAATAAAGAAAAATTACTGGAGGTTCGTAAAGAGTTACTGACTGGATACCAGATCCCCAAAA +GTAACTATATTGTTACACAACCAGGGAGATCGGCTGTAACTGTAAATAATTACATGACAAATCTTAACGC +CGTGTTCCAGTTTGGTGTTGATAACGGTTACCTGGCAGATAATCCGTTTAAGGGGATCTCGCCATTAAAG +GAATCAAGAACCATTCCGGATCCTCTTTCGCGGGAAGAATTTATCCGTCTTATCGATGCGTGCAGAAATC +AGCAAGCAAAAAATTTATGGTGTGTTTCTGTTTATACTGGAGTTCGCCCTGGTGAGCTGTGTGCACTTGG +ATGGGAGGACATAGATCTGAAAAATGGAACAATGATGATCAGGAGAAATTTAGCAAAAGACCGTTTCACG +GTACCAAAAACACAGGCGGGAACCAATCGGGTCATTCATCTTATTAAGCCAGCAATCGACGCTCTCCGGA +GTCAGATGACATTAACGAGACTGAGCAAAGAGCATATCATTGATGTTCACTTCAGAGAGTATGGCAGAAC +AGAAAAACAAAAATGCACCTTTGTTTTTCAACCTGAAGTGTCAGCGAGAGTAAAAAATTATGGTGACCAT +TTTACCGTTGACTCAATAAGGCAGATGTGGGACGCAGCGATAAAACGTGCCGGACTCCGCCATCGAAAAT +CATATCAGTCGAGACATACTTATGCCTGCTGGTCGCTGACAGCTGGTGCTAACCCGGCATTTATAGCAAA +CCAGATGGGCCATGCAGATGCGCAAATGGTATTTCAGGTATACGGAAAATGGATGTCTGAAAACAATAAT +GCACAGGTAGCTTTGTTAAATACACAGTTAAGCGAGTTTGCCCCAACCATGCCCCATAACGAAGCAATGA +AAAATTAATTTAATATTTATCAAATAGTTAACACGCATGACTCTTGAAATCCATAAATTCAAGCGCAGTG +CCCAGCCATCCCGATACTGCTGCTTTCACCAAATCCTTAGTGCTTCTTTCGTGTTTTTCTATTGTCATAA +TGGTTATCTCTAAAAAAGAGGTAAGATGCGTACTACTTACTCGCCGTTATTGGTATTATTCAGAAAAAGT +GAGTAAGACTTTGCAGCAATGTTTTTGATCCTGTTCAAATAAACTAATGGCATCAGCAACATGCTGGAAA +TCAAACGTATGGGTAATTAATTTTTCTGGTTTAATTAACCCTTTACTTAACCAGTCGATAACGATCGGGA +ATTTATTTGCATTTAAGCGTGAAGAGAAAATAGAGAGTTCTTTTCCGGTAATTCCTTGCTGAATCACTTC +AGACGGTTCACTGGAGAACCCCATCAATACAATACGTGCCGCTGGAGAAGCCAGCGTTACGGCCTCTTTC +AGGATAGAAGGATGACAAGCCGCATCGATAATTAATGTCGGCTTGATGCCTTTTTCAGTGAAAATCTCGC +CAAGCGGTGTCTGGCTGTTATTAATCGCCCAGTCAGCCCCGCTCTCTTTCGCTTTTTCCAGTCGTTCATC +AATGCGATCGGCAACAATCACATTTTTAACGTTATAGACGCCTTTTAATACCTGAACGATCGTCAGGCCG +ATTGGACCGGCACCATAAACCAGAACGGTATCATTTTCAGTCGGTTGACCATGTCCGGTTACGTTAGCCG +CAATGGTAAAAGGTTCGATCATTACCGCATATTGATCGGCCACTGCTTCAGGAATTTTCCACGCATTTTT +TGCCGGAACCACGGCATATTCACTGAAACCACCGTCAGCGTGCACACCTAATACAGCCAGTGTCGTACAA +ACGTTCGGTTTACCTATAGAGCACGGATAGCAATGCCCACAGCTGACCACCGGATCGACAGCAACACGTT +CACCGACTCTGGCGCTTTCCACGCCTTCACCCACTGCATCAATGACGCCAAAGAATTCATGACCAATGAC +GCGCGGATATTTCGCAAAAGGATTATGCCCACGATAAATATGGCTATCTGAACCACAAATTCCGGCAAGT +TTCACTTTTACTCGTACTTCACCCGCTGACGGGGTGGGTATTTCACGTTCGACAATCGCCAGTTGATTCG +GTTTTTCAATTAATATGCTTTTCATTATCTTACTCCTTACCAGTTCCACAGCGTGCCATCTTCCAGACGT +GCGACTGGTAGATAAGCAGGTTCATAGGGATATTTCGCCGCCAGCTTTTCATCGAATTCGATACCAAGAC +CCGGTTTGTCTCCCGGATGCATATAGCCGTTATCGAAAGTCCAGTTGTGCGGGAAGACTTCGAGCATTTG +TTCGGAATAACCCATGTATTCCTGGACACCGAAATTGGGGACCCACAGATCAAAGTGCAGCGCCGCAGCC +ATGCAGACTGGTGACAAATCGGAAGGACCGTGTGAGCCAGTACGTACCTGATACAGCGAAGCAAAATCGG +CAATCCGGCGCATACCGGTAATTCCGCCTGCATGGGTCAGCGTGGTGCGGATATAATCGATGAGTTGCTC +TTCAATCAGTTGTTTGCAGTCCCAGATGCTGTTGAAGACTTCACCCACTGCGATGGGTGTGACGGTATGT +TGGCGAATGAGACGGAAGCATTCCTGGTTTTCCGCAGGCGTCGGGTCTTCCATCCAGAACATGCGATAAT +CTTCAATGCTTTTACCAAAGCGCGCCGCTTCAATAGGCGTTAAGCGATGGTGCATGTCATGCAGCAAATG +TTCATTAAAACCAAACTTGTTACGTACCGCGTCAAACAATTTCGGCATGAAATCGAGGTATTTCTCCGTC +GACCACAGCTGCTCTTCCGGCCACTGTCCTTTGGTTGCGGGTTCATAAGCCAGACCTTTACCTTTCGACA +TGCCGTAGGTGGTTTTCATACCAGGGATTCCGCACTGCACGCGGATGGCTTTGAATCCAAGCTCTTGATG +ACGGGCATAATCATCCAGAGCTTCATCAATACTGTGACCGGTGGTATGGCAATAAACCATCACCCCTTCA +CGAGACGCGCCGCCGAGTAACTGGTAAAGCGGCATGTTGGCAGCTTTGGCTTTAATATCCCACAGCGCCA +TATCAACCGCTGAAATGGCCGACATCGTAACCGGACCGCGACGCCAGTAAGCACCTTTATAGAAAAACTG +CCAGATATCTTCGATACGGTGCGCATCGCGACCAATAAGCTGCGGACAAAGGTGATCCTGCAAATAAGAG +GCCACGGAAAGCTCACGTCCATTGAGGGTGGCATCCCCAAGGCCCGTAATACCGTCCTCAGTGGTGATTT +TTAATGTGACGAAATTACGCCCCGGACAGGTAACAAAAACTTCAGCCTTTACGATCTTCATGTTCGATTC +CTTGCATCGCTTGTCGTGATGCATGAAATCTACGCAACTGAGCTACTACCATACAAGTATAAAGATCGAA +AAAAGCCGGAGTGATCACAAAAAAAGGCGTATATTTGCGCTGTGAATGGTTGACAAAAGATGAAATAGAA +TACCTTTTGTCAGCTGACACTTCCTCTTATCTTATTGATAAAATGGATTTATGTTCCTACGTGCGCCCCC +AGCCCGCAACAATGATCAACATGCCGCAAAGCGCAATCAACGCACCCGTCCAGTCATAAAGAGTCAGTTT +CACGCCATCCACAACGCGCAGCCACATCAACGCCGTGCAGACATAAACGCCACCATAAGCCGCGTAAACA +CGCCCACTCGCCGCTGGATGCAACGTTAACAACCAGACAAACAGCGCCAGTGAAATCCCCGCCGGAAGCA +ACAGCCAGATACTGGCGTTTCGTTTTAACCACAACCAGGGCAGAAAGCATCCAATAATTTCACACAGCGC +AGTAGCAAAAAATAGTAACGTTGTTTTAATCATCTTTGTCTCTTATTGACATCATGTATAGTTATAGGGC +GACATAATATCATCAATATAAACACCCTCCTGGTACGTTTTGCGTCCGCAGTGGATGGTGTAGAATCACC +TTTAATCATTCATACAGGGAATGAATTATGAAAATCACTCTCAGCAAACGAATCGGCCTGCTCGCTATTC +TGCTGCCTTGCGCACTGGCATTGAGCACAACTGTTCATGCCGAAACTAACAAACTGGTGATTGAGTCTGG +CGACAGTGCACAAAGCCGCCAGCACGCCGCTATGGAAAAAGAGCAATGGAATGACACGCGCAATCTGCGC +CAGAAAGTGAATAAACGCACTGAAAAAGAGTGGGATAAAGCCGACGCCGCTTTTGATAACCGCGATAAAT +GTGAGCAAAGCGCCAACATCAATGCCTACTGGGAGCCCAATACTTTGCGCTGCCTGGACCGTCGAACTGG +CCGCGTTATTACCCCCTAACCTGTTATTGATTTAAGGAATGTAAGGACACGTTATGCCAAGCGCCCACAG +TGTTAAGCTACGCCCGCTGGAGCGTGAAGATTTACGCTATGTACATCAACTCGACAATAACGCCAGTGTG +ATGCGTTACTGGTTTGAGGAACCCTACGAAGCCTTTGTTGAACTCTCTGATCTGTATGATAAGCATATTC +ACGATCAGAGCGAACGGCGCTTTGTGGTGGAATGTGACGGCGAAAAAGCCGGTCTGGTGGAGCTGGTGGA +AATTAACCATGTTCATCGCCGCGCAGAATTTCAGATAATTATCTCCCCGGAGTATCAGGGGAAAGGTCTG +GCAACCCGTGCCGCCAAATTAGCAATGGACTATGGCTTTACCGTTCTCAATCTCTATAAGCTGTATCTGA +TCGTTGATAAAGAGAATGAAAAAGCGATTCACATTTACCGCAAGCTTGGCTTTTCGGTTGAAGGTGAATT +GATGCACGAGTTCTTTATTAATGGTCAATATCGTAATGCCATTCGCATGTGTATATTCCAGCATCAGTAT +CTGGCAGAGCACAAAACACCGGGTCAGACTCTCCTGAAGCCGACCGCACAATAGCATTAATAATAATCGA +TCGTATTTTTGATGGTGTAAACCCGTTCGACGGCGGGTTTTACTCCTTCATCAACAATGATTAGCTGACA +GTCCACCGGATTAGCGTGACTGTCATATTCACAGCTCTGTTTTACATTACCAACCCGTTGATTATTCAGT +AAAGTAACCGCTGTGTAATCTAATTTTTTGATCGGATCCGTTGATGGCGTGGCGCTGACAGATAATGTTT +TGTCGTTACTTTTCGTGGTTTTACCCAGCGGATAACCCTGATCATCATAGCGATATTCCATCTGCATTTG +TTTGCTGCTGGCTTTAATCACGAAGCCATTATCATCGGTTTCCCAACTCACCCCGGCAGAAGGTAATTCT +GCTAGCTGGCATTTTCCCTGTAAACGTACTCTCTTCTCCAGCGTCTCGGCATCACGGTAATAATTGGCGT +CCAGTACCAGAGCGACCACGGTATTATTTTCCAGATCCAGTAATTCGAGTGAATCAAAACAGCCTTCTTC +CGACAAAGTCCCAGAAACACGTTTCGTCACTTCACCTTGCTCATCCATTAATGTCTGAGTGAAATCTTTT +ACCGGACCACGCAGCGGATCAAAATCGAATTCATTAGAGAAACTGGCCATCTCAGGGGTAAATGAAAGTG +TTACCTCTGTGCGGTCACATCCTGTGAGGAATATCGCGAGTAAGCATGGTAGTAATTTGTATTTCACAAC +AGTCACCAGAGAGTAGAGATGATTCTCAATCATAGTAGCAAATACAGTACTTTACACGTTAAATGCTATG +CTTAAAGAAGTTATCTTCGCGTAAGGAGCTTATGATGAAACTCTCAACCTGCTGTGCCGCGCTTCTGCTC +GCCCTCGCCTCACCCGCGGTACTCGCCGCGCCGGGATCCTGTGAGCGCATACAGAGCGATATATCACAGC +GCATTATCAATAATGGCGTACCCGAAAGCAGCTTCACGTTAAGTATTGTACCCAATGACCAGGTTGATCA +GCCTGATTCCCAGGTCGTCGGCCATTGCGCTAATGATACGCATAAAATTCTCTATACCCGCACCACCAGC +GGTAACGTCTCTGCTCCCGCGCAGTCTAGCCAGGATGGCGCGCCTGCCGAACCGCAGTAACACATTATCG +ACTGAACGCCGGATATGACAAATCCGGCGATTTGAACATACAACATAATCCCACCTTATTACTCATACCC +TTCTATTGATATGGATTAATAATTCTTAACCCAAAATGGGTAGACTCCCTCTATTGTTAGCGCGCTAAAT +ATTCAATATATAAACTTTTATATAACGATAAAGAACAGGGAGTGAGTTATGTCCAAAAATGAACGAATGG +TGGGCATCAGCCGCAGAACACTCGTTAAATCTACCGCGATAGGTTCTCTGGCGCTGGCTGCAGGCGGTTT +TTCTTTGCCGTTTACCCTGCGCAATGCAGCAGCAGCGGTACAACAGGCCCGCGAAAAAGTGGTCTGGGGT +GCCTGTTCCGTCAACTGTGGTAGCCGCTGTGCACTTCGTCTACATGTTAAAGATAATGAAGTGACCTGGG +TGGAAACTGACAATACCGGCAGCGATGAGTACGGCAACCATCAGGTACGCGCCTGTTTGCGCGGTCGCTC +CATCCGCCGGCGTATTAATCATCCCGATCGCTTGAATTACCCAATGAAACGCGTGGGCAAACGCGGCGAA +GGCAAATTCGAACGGATTAGCTGGGATGAAGCCCTGGATACTATCGCCAGTAGCCTGAAGAAAACCGTCG +AACAATATGGCAATGAGGCTGTATATATTCAGTACTCTTCGGGGATCGTTGGCGGCAATATGACCCGCTC +TTCGCCATCAGCCTCGGCGGTCAAACGCCTGATGAACTGCTACGGCGGTTCACTCAACCAGTATGGCTCC +TACAGCACTGCGCAAATTTCCTGTGCCATGCCCTACACCTACGGCAGTAATGATGGCAACAGCACCACGG +ATATTGAAAACAGCAAGCTGGTCGTGATGTTTGGTAACAACCCGGCAGAAACCCGCATGAGCGGTGGTGG +CATCACTTATCTTCTTGAAAAAGCGCGCGAGAAATCGAACGCCAAAATGATTGTTATCGATCCGCGATAT +ACCGATACGGCTGCCGGTCGTGAAGACGAATGGCTCCCTATTCGCCCGGGCACCGATGCCGCGCTGGTTG +CGGGTATTGCCTGGGTATTGATTAACGAAAATCTCGTTGATCAACCTTTTCTCGATAAATACTGCGTCGG +CTATGACGAAAAAACCTTACCCGCAGATGCACCCAAAAATGGTCACTATAAAGCCTATATTCTTGGTGAA +GGTGACGATAAAACAGCGAAAACGCCGCAGTGGGCTTCGCAAATTACCGGTATCCCGGAGGACCGTATCA +TCAAACTGGCGCGTGAAATTGGCACAGCAAAACCCGCTTATATCTGCCAGGGCTGGGGGCCACAACGCCA +GGCAAACGGCGAACTGACTGCACGCGCTATTGCTATGTTACCTATTTTGACGGGCAATGTCGGCATCAGC +GGCGGAAATAGTGGCGCGCGTGAATCGACCTATACCATTACCATAGAACGCCTGCCGGTGCTGGATAATC +CGGTCAAAACGTCAATCTCCTGCTTCAGCTGGACAGATGCTATCGATCATGGTCCGCAAATGACGGCAAT +CCGCGACGGCGTCCGCGGCAAAGATAAACTGGATGTGCCCATTAAGTTCATCTGGAACTACGCGGGAAAT +ACCCTCGTTAATCAGCATTCTGACATCAACAAAACGCATGAAATTCTGCAGGACGAATCGAAATGCGAAA +TGATTGTGGTCATCGAAAACTTTATGACCTCATCGGCAAAATATGCCGACATTCTGCTGCCAGACCTGAT +GACCGTTGAGCAGGAAGATATTATTCCTAACGACTACGCCGGTAACATGGGATATCTCATTTTCCTCCAG +CCTGTCACCAGCGAAAAATTCGAACGCAAACCGATTTACTGGATCCTGAGTGAAGTCGCGAAACGTCTTG +GACCTGACGTCTATCAAAAGTTCACAGAAGGTCGCACGCAGGAACAATGGTTACAACATCTGTACGCCAA +AATGCTTGCCAAAGATCCGGCGTTACCGTCTTACGACGAACTGAAAAAAATGGGTATCTATAAGCGTAAA +GATCCCAATGGCCATTTTGTCGCCTACAAAGCATTTCGTGACGACCCCGAGGCAAATCCACTTAAAACGC +CTTCCGGTAAGATTGAAATTTATTCCAGCAGGCTGGCGGAAATTGCCCGTACCTGGGAACTGGAAAAAGA +TGAAGTGATAAGCCCATTGCCAGTTTATGCCTCAACCTTTGAAGGCTGGAACTCCCCTGAACGTAGAACC +TTCCCACTGCAACTGTTTGGTTTCCATTACAAATCCCGTACTCACTCGACCTACGGCAATATTGATCTCC +TGAAGGCTGCCTGCCGTCAGGAGGTGTGGATCAACCCTATAGATGCGCAGAAACGTGGGATTGCCAACGG +CGATATGGTGCGGGTGTTTAACCATCGTGGCGAAGTTCGGCTACCAGCCAAAGTAACACCACGTATTCTC +CCTGGAGTTAGCGCTATGGGCCAGGGAGCCTGGCACGAGGCCAATATGTCTGGCGATAAAATCGACCATG +GCGGCTGTGTGAATACGCTAACCACTCTGCGCCCTTCACCACTGGCGAAGGGAAACCCGCAGCACACTAA +TCTGGTCGAGATCGAAAAAATATAACCCACGACAACCATAAATTCTGGCATGACATTTTGTTTGAAAAGC +AATAAGTGAGTAATGATGAAAATCCATACCACAGAGGCGCTCATGAAGGCTGAAATCAGCCGTAGAAGTC +TGATGAAAACCTCCGCACTTGGCAGTCTTGCGCTGGCAAGCAGTGCTTTCACTCTGCCATTTTCCCAAAT +GGTCCGGGCGGCAGAGGCTCCGGTAGAAGAGAAAGCGGTCTGGAGTTCCTGCACCGTTAACTGCGGGAGC +CGCTGTCTGTTACGTTTGCATGTGAAAGATGACACCGTGTACTGGGTGGAGTCTGATACGACAGGTGACG +ACGTCTACGGTAATCATCAGGTTCGAGCGTGTTTACGCGGGCGCTCTATCCGCCGACGGATGAATCATCC +TGATAGGTTGAAATATCCCATGAAGCGCGTCGGCAAGCGCGGTGAAGGTAAATTTGAACGGATAAGTTGG +GACGAAGCCCTGGATACCATCAGTGATAATCTTCGGCGGATCCTGAAAGATTACGGCAATGAGGCTGTAC +ATGTCCTGTACGGAACAGGCGTAGATGGCGGAAACATCACCAACTCAAACGTCCCGTACCGTCTGATGAA +CTCTTGCGGTGGTTTTCTCAGTCGCTATGGCAGCTACAGTACCGCACAGATCAGTGCCGCAATGAGTTAT +ATGTTCGGTGCCAATGATGGCAACAGCCCGGATGATATCGCCAATACGAAACTGGTCGTTATGTTCGGAA +ATAACCCGGCAGAAACGCGGATGAGCGGCGGTGGTGTCACTTACTACGTCGAGCAAGCCCGCGAACGTTC +AAACGCACGCATGATCGTCATCGATCCACGTTATAACGACACTGCTGCCGGGCGTGAAGATGAATGGCTG +CCCATTCGCCCTGGCACCGATGGCGCACTGGCCTGTGCGATTGCCTGGGTACTGATTACTGAAAACATGG +TCGATCAGCCATTTCTCGACAAATATTGTGTTGGTTACGATGAAAAAACGCTGCCCGCCAACGCACCACG +TAACGCGCATTATAAAGCCTATATTCTGGGCGAAGGGCCTGACGGCATAGCTAAAACGCCGGAATGGGCA +GCAAAAATCACCAGCATCCCGGCAGAAAAAATTATCCAGTTGGCACGAGAGATCGGTTCAGCAAAACCTG +CTTATATTTGTCAGGGTTGGGGGCCACAACGACATTCCAACGGCGAGCAAACATCCCGCGCTATTGCCAT +GCTTTCCGTTCTCACCGGCAACGTCGGCATAAACGGCGGCAACTCAGGCGTACGCGAAGGTAGCTGGGAT +CTGGGGGTAGAATGGTTCCCGATGCTCGAGAATCCTGTTAAAACGCAGATTTCCGTCTTTACATGGACAG +ATGCCATCGACCATGGTACGGAAATGACCGCGACCCGTGATGGTGTTCGTGGAAAAGAAAAACTGGATGT +CCCCATCAAGTTTTTATGGTGCTACGCCAGTAACACATTGATCAATCAACATGGCGACATCAATCACACC +CATGAGGTGCTTCAGGATGACAGCAAGTGCGAGATGATTGTTGGCATTGACCACTTCATGACGGCCTCGG +CTAAGTATTGCGATATCCTGTTGCCCGACCTGATGCCAACAGAGCAAGAAGACCTTATCTCTCATGAATC +TGCAGGGAATATGGGCTATGTGATCCTCGCCCAACCCGCAACCTCAGCAAAATTTGAACGCAAACCCATC +TACTGGATGCTGAGTGAAGTCGCCAAACGCTTAGGACCAGACGTTTATCAAACCTTTACTGAAGGTCGCA +GTCAGCATGAATGGATCAAATATCTCCATGCGAAAACGAAGGAACGTAACCCTGAGATGCCCGACTACGA +GGAGATGAAAACGACCGGGATCTTTAAGAAAAAATGCCCGGAAGAACACTACGTCGCTTTCCGCGCATTC +CGTGAAGATCCACAGGCAAACCCGTTGAAAACACCTTCGGGGAAAATCGAAATTTATTCTGAACGACTGG +CGAAGATTGCAGATACCTGGGAATTGAAAAAAGATGAAATTATTCATCCCCTTCCTGCGTATACCCCAGG +TTTTGATGGCTGGGACGATCCCCTGCGGAAAACCTATCCACTGCAGTTAACGGGCTTCCATTACAAAGCG +CGTACCCACTCCAGCTACGGCAATATTGATGTGTTACAGCAGGCCTGCCCACAAGAGGTGTGGATCAACC +CCATTGATGCTCAGGCACGCGGTATCCGTCATGGCGATACCGTGCGGGTATTTAACAATAATGGAGAAAT +GCTGATTGCCGCAAAAGTGACTCCGCGTATTCTGCCTGGCGTTACCGCCATCGGGCAAGGTGCGTGGCTT +AAAGCGGATATGTTTGGTGACCGGGTCGATCACGGCGGCAGTATCAATATTCTGACCTCTCACCGCCCTT +CACCGCTGGCAAAGGGAAACCCGTCGCACAGCAATCTTGTCCAGATCGAAAAGGTTTAAGGAGTAGCCCA +TGACCACACAATATGGATTTTTTATCGATTCCAGCCGCTGTACTGGCTGTAAAACCTGCGAACTGGCGTG +CAAAGATTTTAAAGATCTTGGCCCGGAAGTCAGTTTCCGCCGTATTTATGAATACGCTGGCGGCGACTGG +CAGGAAGATAATGGCGTCTGGCACCAGAACGTGTTCGCTTATTATCTCTCCATCTCCTGTAACCATTGCG +ATGACCCCGCATGTACAAAAGTCTGCCCCAGCGGCGCAATGCATAAGCGTGAAGATGGCTTTGTGGTGGT +TGATGAAGATGTTTGTATCGGCTGCCGCTACTGCCACATGGCTTGTCCGTACGGCGCGCCACAGTACAAT +GCTGAAAAAGGGCACATGACGAAGTGCGATGGTTGTTATTCGCGCGTCGCCGAGGGGAAACAACCCATAT +GTGTCGAATCCTGCCCGCTGCGTGCACTTGAGTTCGGTCCAATTGAAGAGCTGCGCCAGAAGCACGGCAC +TCTTGCTGCCGTCGCGCCACTGCCGCGCGCGCATTTCACAAAACCCAATATCGTTATCAAACCTAACGCC +AACAGCCGCCCGACCGGCGATACCACTGGTTATCTGGCTAATCCGGAGGAAGTGTAAAATGGGAAATGGA +TGGCATGAGTGGCCACTGGTTATCTTTACCGTATTGGGTCAATGCGTAGTAGGCGCGCTGATTGTTAGCG +GAATTGGCTGGTTCGCCGCCAAAAATGACGCAGACCGTCAGCGTATTGTCCGTGGCATGTTTTTCCTCTG +GCTGTTGATGGGCGTCGGGTTTATTGCCTCTGTCATGCACCTGGGATCGCCACTGCGGGCGTTTAACTCC +CTGAATCGAATCGGAGCTTCTGGTCTGAGTAACGAGATTGCTGCCGGTTCCATATTTTTTGCCGTTGGCG +GATTATGGTGGCTGGTGGCAGTCATCGGTAAAATGCCGCAAGCGTTGGGGAAACTCTGGTTACTTTTCAG +CATGGCGCTCGGCGTCATTTTCGTCTGGATGATGACCTGCGTGTATCAAATCGACACCGTGCCAACCTGG +CATAACGGTTACACTACGCTGGCTTTCTTCCTGACGGTATTGTTGAGCGGTCCAATACTTGCTGCCGCAA +TTCTGCGGGCAGCTCGCGTTACATTTAATACCACACCATTTGCCATCATTAGCGTTCTGGCGCTGATCGC +TTGTGCCGGGGTGATTGTGCTGCAAGGTTTGTCTCTGGCGTCTATTCACTCATCCGTGCAACAAGCCAGC +GCACTGGTACCAGATTACGCCTCCTTACAGGTCTGGCGTGTGGTATTGTTATGCGCAGGTCTTGGATGCT +GGCTTTGCCCGCTCATTCGTCGCCGTGAACCTCACGTTGCCGGACTTATTCTGGGGCTAATCCTCATACT +TGGCGGTGAGATGATCGGGCGTGTGCTCTTTTATGGCCTGCACATGACAGTAGGAATGGCTATTGCAGGT +TAACAAATTGGTGCGGGGCAACCCGCACATTTCAGGATGTTAGGAATGACCCATTTTTCACAGCAAGATA +ATTTTTCTGTCGCGGCGCGCGTGTTGGGCGCGCTGTTTTATTACGCTCCAGAGAGTGCGGAAGCCGCACC +TCTGGTTGCGGTACTCACCAGTGACGGCTGGGAAACTCAGTGGCCTCTACCAGAAGCGTCATTAGCGCCG +CTGGTGACGGCTTTTCAGACACAGTGTGAAGAGACTCACGCCCAGGCCTGGCAGCGTTTGTTTGTCGGCC +CGTGGGCACTGCCGTCTCCGCCGTGGGGGTCGGTCTGGCTGGATCGCGAATCTGTGCTGTTTGGCGATTC +AACATTGGCACTTCGTCAGTGGATGCGCGAGAAAGGCATTCAGTTTGAAATGAAGCAAAACGAACCGGAA +GATCATTTTGGTTCACTGCTGTTGATGGCTGCGTGGTTGGCGGAGAATGGTCGCCAGACAGAATGCGAAG +AATTGCTGGCATGGCACCTTTTTCCGTGGTCAACACGTTTTCTTGATGTTTTTATCGAAAAAGCAGAACA +CCCTTTCTACCGTGCACTGGGTGAACTGGCTCGCTTAACGCTGGCGCAATGGCAATCACAACTGTTAATT +CCTGTCGCGGTTAAACCGCTGTTTCGATAGGATCACCGTAATATTGCCGGATGGTGACGATTACGCGCAA +TCCGGCAATAATAGGTTACAGTGTCACGTTTTTTTATCTCTTAAAGCACGCACTGCTTTTGCGGCTGGCC +TCTTTTGCCGCAAAATAGTCGCCCGTGTTTCATTGCCCATTTCTGCTCATGCATCATCTACACATCTATC +CGGATCTGCGCACTATGTTCCACCGTCTGCTTATCGCAACAGTCGTCGGTATTCTCGCGGCCTTTGCCGT +TGCCGGGTTTCGTCATGCGATGCTGCTACTGGAGTGGTTGTTCCTCAATAATGACTCCGGCAGTCTGGTC +AATGCAGCGACAAACCTTTCCCCCTGGCGACGGTTGCTAACTCCGGCGCTCGGCGGACTGGCGGCGGGTT +TGTTGCTGATGGGCTGGCAGAAATTTACCCAACAACGCCCTCATGCGCCGACCGATTATATGGAAGCGTT +GCAAACCGATGGACAGTTCGATTACGCAGCAAGCCTGGTTAAATCGCTTGCCTCTCTGCTGGTAGTAACC +AGCGGCAGTGCAATTGGTCGCGAAGGTGCGATGATTCTTTTAGCTGCCCTTGCCGCCTCCTGTTTTGCCC +AACGTTTTACGCCACGCCAGGAGTGGAAATTATGGATCGCCTGTGGGGCCGCGGCGGGAATGGCTGCGGC +CTATCGTGCCCCGCTTGCTGGCAGTTTATTTATAGCCGAAGTGCTGTTTGGCACTATGATGTTGGCCTCT +CTCGGCCCGGTGATTATTTCCGCCGTCGTGGCATTGCTGGTTAGCAATCTGATTAATCATAGCGACGCGT +TACTCTACAACGTACAACTCTCAGTGACGGTTCAGGCTCGTGACTATGCGCTGATTATCAGTACAGGTGT +GCTGGCAGGTCTGTGCGGACCACTGTTGTTAACGTTAATGAACGCCTGTCATCGTGGATTTGTGAGTCTC +AAACTTGCGCCGCCCTGGCAACTGGCACTAGGCGGGTTGATCGTGGGTCTGCTTTCCCTGTTCACACCTG +CAGTGTGGGGCAACGGCTATAGCACCGTACAATCCTTTTTAACCGCCCCACCACTGTTAATGATCATTGC +CGGGATCTTCCTTTGTAAACTGTGTGCCGTGCTGGCGAGTAGCGGTTCCGGCGCACCCGGTGGGGTCTTT +ACACCGACGCTATTTATCGGTCTTGCCATTGGCATGTTGTATGGTCGTAGCCTGGGATTATGGTTCCCTG +ATGGCGAAGAAATTACACTTTTACTCGGATTGACCGGGATGGCGACACTGTTGGCGGCGACCACGCACGC +GCCGATTATGTCGACGTTGATGATATGTGAAATGACCGGGGAGTATCAGCTACTCCCCGGTTTATTGATT +GCCTGCGTAATTGCGTCGGTAATTTCGCGGACGTTACACCGTGACTCTATCTACCGCCAGCACACTGCGC +AGCATAGCTAAGCGGATGTATTGCCCCAGTTCACGCTGTTCGGCGCGCGGCAGATAAGGCAGTTCACCAA +TGAGCGGTGCCGGAAGTTTTTTACCCAGCACATCAATGATTTCCGCATAATGCGCCAGTCCTGGGTTGAT +TCGGTTAGCCACCCAGCCAATGAGCGGCAGCCCGTCGTTGGCGATCGCCTGAGCTGTTAGCAGTGCATGG +TTAATGCAACCTTCCTGAATACCGACAACCATCAACACCGGCAGTTGTTCCTGCACTACCCATTCAGAGA +GTGGACGCAAATCATTCATCAGACTGCGCCAGCCGCCAGTCCCTTCTACCACGACATGATCGACTTTTTC +GGTCAGGTTTGCCAGGCCGTTTGAAATGAGGGTGTAATTGATTGGGCAACTGTGCGCCACGCTACTTTCT +TCTTCGCTTAACGCGATAGGATTAACTGCTTCATAAGGCAGTTCGATGGTTGAAACACTCTGCAACACCA +GGGCATCTTTATTACGCAGCCCTTCGGGTGTCTCTTTGCTCCCCTTCGCTACGGGTTTATATCCCGCAAC +CGTTTTTCCCTGGGAGGCTAACGCTTGTAGCAATGCGCGGGAAACCACCGTTTTCCCTACAGAAGTGTCT +GTACCGGTAATAAAGAAACGCTTCAGCATCACTAACTCCACCGTTATGCTTCACAAATATAAACCAGGAA +AATAATTAACCTTGAAAGTCTAAGTTATGCTTTCCTGGCCCAAATTGAGATAGCGCAAATTTTGGTAGAA +CAGTTAAAAAATGTTAACCCTGCAACAGACGAATCAACAAAGAACCGTTATACATCGCGTCTTTTACCAG +TGCAGCGCCTGCCATCGTGCCCTGGTTAGAAAACTGAGTACTCTCAACGCTGATGTGCTGACTATACGCA +GGAAGGGCCTGCTGACGGATGCTGTCTGAGATGACCGGGAAGAGGATATCTGCCGCTTTACTTAACGGTG +AGCCAATCAGTATTTTTTGTGGGTTAAATAAATTCACCATGATGGCAAGAATGCGCCCGACATGCGCGCC +CACCCCGGTAATGATGTCTTTTGCCAGTAGATCGCCGCGCAATGCCGCCTGACACAATGAGTCCACGGTT +AACGGTTGTCCATGTAACATCGAGCTCATGGATTGATTAAGACGCAGCTGTGCCAGCTCAAGAATACTGT +CCACGCTGGCGATGGTTTCGAGGCAGCCGTGATTCCCGCAATAACAGCGTTTCCCATACGGGTCGACCTG +TGTGTGGCCTATTTCCACGAGACTACTGCTGCCTGCGTGTAGCAGATGACCATCGGTAATGACGCCCGCC +CCCACGTTGTGATCGATAACCACCTGAATCACATCGCGCGCCCCGCGTGAGGCACCAAACAAGGCCTCTG +CCATCGTCCATGCGCTGATATCATGCTGAATATAAACCGGAACGCCGGTATGCTGCTCCAGCGCCTCGCC +GAGCGGCATCTCTTTTACATCCTCGTAGAACGGCATGCGATGTACAATACCATTTTCCGTATCAATAATT +CCCGGCAAGGTTATGGCAATCGAAGTTAGACGCTCAAGTTTTTTCTGGTGGCGGATAAAAAACTGATCGA +TATGGGAAATAATACGATCCAGCAATGGCAAGTCATCTTTTAACGCCAGTTCCTGCGACTCTTCCACCAC +CAGTTTGCTGCTCAGATCGCGCAGAGCAAGGAAAATCTCCCCGCGACTAATGCGCAGAGAAAGATAGTGC +CAGGCTTCAGTTTCAACCACCAGCCCCACCGCCGGACGGCCACGGTTCCCCGCTTCTTTGATTTCCAGCT +CTTGCACCAGGTGTGCTTCGAGCATCTCACGGACAATTTTAGTGATACTGGCAGGAGCCAGTTGCGCCAG +ACGGGAAAGATCGATACGCGAGACTGGACCAAGCTGATCAATCAGGCGATAAACCGCGCCCGCGTTGGTC +TGCTTTATTTGATCAATGTGCCCAGGCTGGTTTTCAGCAACCACCGCATACTCCCTATATTTTCGCGCTC +CGAAATAATCTGTAGGCTATGGTGAAGCACTTCAATACGTGTCGTCAAATTTTTACTTAGGCATGTGATT +AACAGCACATTTTTCGGGCTTTTTCGCTGAAATTTCCCTCACCTGAGAGCATTCAGCAGATGAATACGAA +AGTTACGCGCAGCCGGACTTTGTTCATGATGTTTCGGCCAGACCAACCACATTTCAGAAACCGCATCCTC +TTCAGCAATCGGCACCCAGCGCATTTCGTTGAGCTGAACACGTTTAAATGACGCAGGCAAAATTGAAACA +CCCAGACCGGCGGAAACCAGACCGATGATGGTCATTGCCTCGCCCACCTCCTGAGTGATGACGGGCGTCA +AATGGTAACGTCGCATCAGCCCGAGAATATCGTCATACAGCCCTGTCCCGACGTGCGGATCAAAAAAGAC +AAAGGGTTCTTTCGCCAGTTCAGCCAGCGTTACATTCGGGTTATTTGCCAGGGGATGATCGTGCGGGATC +ATCGCCATAAGCGGTTCATGGACGATGACTGCGTGTTCAAGCGACTCCGGTAACGCTGTGTTACGCAGCA +ATCCCATATCCAGCGTTCCTTCAATGAGCGGAGCGATTTGCTCGCGAGTGTTCATTTCGCGGGTTTGTAA +ATGGACATCAGGATAATCACGGCGAAACAGCGATAACGTATCGGACACCGCCCGAATAAAAGGAGCCGAC +GAAGTAAAACCAATGCGCAACTCCCCCGCTTCACCCTGATGCAGCCTTTCAGCGCGAGCGGCAGCGTCAT +CCACCATAGACAGGATTTGCCGACTATCTGCAAGAAACTGTTTTCCTGCTGCCGTCAGCAATACACTGCG +ATTGGTTCGTGCCAGCAGTCGGGCACCAATTTGTTGCTCCAGCGCCTGAATCTGCTGACTTAGCGGCGGT +TGCGAAATATTCAGGCGGGCAGCGGCGCGCCCGAAATGCAGCTCTTCCGCAACAGCAACAAAGTAACGCA +GATGACGAAGTTCAATATTCATATTTAAAACATCTTATTTGAGATTATTAATATATTAGACAGAACAATT +CGATTTTCCTACCCTATGTATAAGCCTGATCTACAGGCATATTTAGCAAGGATTTCAAGTGAGCCGTACT +ACAACTGTTGATGGCGCTCCGGCAAGCGACACTGACAAGCAAAGCATTTCTCAGCCAAATCAATTTATTA +AACGCGGTACGCCGCAATTTATGCGCGTCACCCTGGCGCTGTTCTCTGCCGGACTGGCAACATTTGCACT +TCTCTATTGTGTGCAGCCTATCCTTCCGGTGCTTTCGCAGGAGTTTGGCTTAACCCCCGCGAACAGTAGT +ATTTCACTGTCCATTTCCACGGCGATGTTGGCTATTGGTTTGCTGTTTACTGGCCCGCTATCCGATGCCA +TTGGTCGCAAACCAGTGATGGTCACGGCGCTACTGTTGGCCTCCATTTGTACGTTACTTTCGACAATGAT +GACCAGCTGGCACGGCATTTTGATTATGCGCGCCTTGATTGGGCTTTCGTTAAGTGGCGTGGCAGCTGTT +GGCATGACTTATCTTAGCGAGGAAATCCATCCCAGTTTCGTGGCCTTTTCAATGGGGTTGTATATCAGCG +GCAACTCAATTGGCGGCATGAGCGGACGCTTAATTAGCGGTGTCTTCACGGACTTTTTCAACTGGCGAAT +TGCTCTGGCGGCAATCGGTTGTTTCGCGCTGGCCTCGGCGTTGATGTTCTGGAAAATCCTCCCTGAATCA +CGCCATTTTCGCCCGACTTCGCTGCGCCCTAAGACGTTGTTTATCAACTTTCGTCTGCACTGGCGTGACC +GGGGATTACCGTTATTGTTCGCAGAAGGCTTTTTGCTGATGGGGTCGTTCGTCACGCTGTTTAATTACAT +CGGCTATCGGTTGATGCTCTCCCCCTGGCATGTCAGTCAGGCCGTGGTTGGCTTATTATCGCTGGCTTAT +TTGACCGGTACATGGAGCTCACCCAAAGCCGGAACCATGACCACCCGCTATGGGCGTGGTCCAGTGATGT +TGTTTTCGACGGGGGTTATGCTGTTTGGTTTACTGATGACCTTATTCAGCTCGCTGTGGCTGATCTTTGC +CGGAATGTTACTCTTCTCAGCAGGATTCTTCGCAGCCCACTCAGTAGCCAGCAGCTGGATCGGCCCCCGC +GCAAAACGCGCTAAAGGCCAGGCCTCCTCGCTGTATCTGTTCAGTTACTATCTGGGGTCGAGTATTGCCG +GGACGCTGGGTGGTGTTTTCTGGCATAACTATGGCTGGAACGGCGTCGGCGCATTTATTGCTCTGATGCT +GGTCATTGCTCTGCTGGTCGGGACGCGTTTGCATCGTCGTCTGCACGCCTGAAAAATAAGTCCGGACTGC +GGTAAATACCCGTCCGGACTTATTGCCAGCTCAAACCAACGTTAATAGCCATCCTAAAATAGACGAAGCG +CCAGCCAATTCCCGCAGCGCGTCTAGCGTCATCAGGATTATAAGTACCCAAATAAACGGATTCATTTTGC +TGTGTGTCATTTATTACTGATGCGCAGTTATTCTACTGCTTTGTAAGTAGTAAAATAGTTAACCCGATCA +AGACTACTATTATTGGTAGCTAAATTTCCCTTAAGTCACAATACGTTATTATCAACGCTGTAATTTATTC +AGCGTTTGTACATATCGTTACACGCTGAAACCAACCACTCACGGAAGTCTGCCATTCCCAGGGATATAGT +TATTTCAACGGCCCCGCAGTGGGGTTAAATGAAAAAACAAATTGAGGGTATGACAATGAAAAAAGTATTA +GCTCTGGTTGTTGCCGCTGCTATGGGTCTGTCTTCTGCCGCCTTTGCTGCAGAGACTACGACCACACCTG +CTCCGACTGCGACGACCACCAAAGCAGCGCCGGCGAAAACTACACATCATAAAAAACAGCATAAAGCAGC +ACCTGCCCAGAAAGCGCAGGCGGCTAAAAAGCATCATAAAAATACGAAAGCTGAACAGAAAGCCCCTGAA +CAAAAAGCGCAGGCAGCGAAGAAACACGCCAAGAAACACAGCCATCAGCAACCGGCAAAACCTGCTGCAC +AACCCGCAGCGTAAGTTTTCAACAGTAATGCTGGCGCGCCCCCTCGCGCCTGAAAATTACGGTGCTAAGC +GGGTAACGTTTAGCACCGCCTTTAGCGGAGGGTAGTATGGTGGGCCGTTATCGCTTTGAGTTCATTCTGA +TCATCCTTATTTTATGCGCACTGATTACCGCCCGTTTTTATCTTTCCTGATTGTAGTTATCTGATTTTAC +TCCCACTTTCATCCCGTCCCGTCTATAGTATTTATGAGGGTTTGCTTTTAATAATCATAATTACCCACCA +GAGTGTGATATGCGTACAACCATTGCTGTAGTGTTGGGTGCAATTAGTTTGACGTCTGCTTTTGTGTTTG +CAGATAAACCAGACGTTGCCAGATCGGCAAACGATGAGGTCAGCACCCTGTTTTTTGGTCATGATGATCG +TGTGCCAGTGAATGACACGACCCAATCACCGTGGGATGCGGTTGGGCAACTGGAAACGGCCAGCGGCAAT +TTATGTACGGCGACGCTGATTGCACCCAATCTGGCATTAACGGCAGGACACTGTTTATTGACACCTCCAA +AGGGTAAAGCCGATAAAGCAGTGGCGCTGCGTTTTGTGTCAAATAAAGGTCTTTGGCGCTATGAGATCCA +CGACATAGAAGGCCGCGTTGATCCGACACTGGGAAAGCGGTTAAAAGCAGATGGGGATGGTTGGATTGTA +CCTCCCGCAGCCGCGCCGTGGGACTTCGGATTGATTGTGCTACGTAATCCCCCTTCTGGCATTACGCCGT +TGCCGTTATTTGAGGGAGATAAAGCCGCGCTTACCGCCGCATTAAAAGCGGCAGGTCGTAAAGTGACTCA +GGCAGGCTACCCTGAAGATCATCTCGATACGTTGTACAGTCATCAAAACTGTGAAGTGACTGGCTGGGCG +CAAACGTCGGTGATGTCACATCAGTGCGATACCTTGCCGGGTGACAGCGGTTCGCCTCTGATGTTGCATA +CCGATGACGGCTGGCAATTAATTGGGGTGCAAAGTTCGGCTCCTGCCGCGAAAGATCGCTGGCGCGCCGA +TAACCGGGCCATTTCTGTTACCGGTTTTCGCGACAAGCTGGATCAACTGTCGCAAAAATAATGTTCAAAC +GCTGCCCGACAGCGCGGGCAGCGTCTTCATCAGGCAAGTTTCACCATGATCATTCCAGCCAACAGCAAGA +CCAGGCCAATCCAGCCTTTACGATTTAACCGTTGACCAAACAAGATCCAACCTGCGGCTAACGTGGCGGC +AATACCAAACCCGCCCCACAATGCATAAGCGACAGACAAGTCGATCCCTTTAACGGCTTGAGAAAGCGCA +CTAAAGGCAGCCAGCACCGCCGCCAGGGAGAGCAAGCCAAATATTTTGCGACGAAAGCCGTCAGAAAATT +TCAAAAAGACGTTAGCAACGATTTCCAGCACGATTGCCAATGCCAGCCAGGCGGCGTGAACCCATTCAAA +CTGCGCCATGGTTCACCTCCAGTTCAGGTTTACGCGCTTTACGGGTACCTGATTTTATCAACACAATCCC +GGCGACCAGGGTGGTTAACCCGGCAATTTTCATCAGCGATAAACTTTCGTCGAATAACAAAACGCTAAAC +AAGGTAATAAATAAAATACCGATACCTTCCCACAGCGCATAAGCTACGCCTAAGGCGATTTTTTTAACGG +CGAAAGAGAGAAATATATACGACAGAGAAATCATCACCAGCATTAAAATAAAGCCGCCATTTCCCTCACT +GACGCTCGCCCATTTCATTGACAGCGTACCGGTAATTTCTGTAGCAATAGCCAGACCTAATAAAATCCAA +TAAATATACATTGTCCTTCTCCTGCAAGAGAATTATTTTAATTTTCGCTTAATTCAGCGAAACCAAAGTA +AAGTGGTCAAGCCCCGCGCATAGCGCAAGCTTTGGCAGAAGAAAGGACTAAAGCGCGTTGCGCCAGTGCT +GCTCACCTACGAGCAAGATAGTGGATGAGGTACGAAGATGGGTAAATGTAGAAAATAACGTCCTGAACAA +ATTGTCCATAATATTACAATTATCCGCAGTGTTGCTTCTCGTCATCGCGGATGATAATTGTCCTCGGTAG +TTGAACACGCCTGATTTGTATCATAGCTTAAGAATTAACTCAAAATATTTTCACTTCTTTACCTGAGCGG +TTTGATTTTCGTTATGATGACGGAGCGAAAAAGACATTATTATTAGCAAAGGAAGAAAAAACGGGGACAA +GCATGGCAAAGCCGATCATCACGCTCAATGGCCTAAAAATCGTCATTATGTTGGGAATGCTGGTCATTAT +TCTCTGCGGTATCCGTTTTGCCGCCGAGATCATCGTGCCGTTTATTCTCGCATTATTTATTGCTGTTATT +CTTAACCCGCTGGTGCAACACATGGTCCGCTGGCGTGTGCCGCGTGTACTGGCGGTGTCGATTTTGATGA +CCATCATCGTGATGGCGATGGTGTTGCTATTAGCTTATCTGGGTTCCGCGCTCAACGAGTTGACGCGGAC +GTTACCGCAATATCGCAACTCTATTATGACGCCGCTGCAAGCGCTTGAACCGTTGTTGCAACGCGTAGGG +ATTGACGTCTCAGTTGACCAGCTGGCGCATTATATTGATCCGAACGCGGCGATGACGTTGCTCACCAACT +TATTGACGCAGTTATCTAATGCCATGTCATCAATATTTTTATTGCTGCTGACGGTGCTGTTTATGCTGCT +CGAAGTGCCACAATTGCCCGGAAAATTTCAGCAAATGATGGCGCGTCCGGTTGAAGGGATGGCGGCGATT +CAACGTGCGATTGACAGTGTTTCTCATTATCTGGTGCTGAAAACAGCCATCAGCATCATCACCGGCCTGG +TCGCCTGGGCGATGCTCGCCGCACTCGATGTTCGCTTCGCTTTTGTCTGGGGATTGCTGGCCTTTGCGCT +TAATTACATCCCGAATATTGGTTCAGTCCTCGCGGCAATCCCCCCTATCGCTCAGGTACTGGTGTTTAAT +GGCTTCTACGAAGCGTTGCTGGTGCTGGCGGGATATCTGCTGATTAATCTGGTCTTCGGCAATATTCTGG +AGCCGCGTATCATGGGGCGTGGGCTGGGGCTTTCCACATTGGTGGTATTTTTGTCGTTGATTTTTTGGGG +ATGGTTGTTAGGACCGGTGGGTATGCTGCTTTCCGTGCCGTTGACAATTATTGTCAAAATTGCGCTTGAA +CAAACAGCGGGAGGTCAAAGCATCGCCGTTCTGTTAAGCGATCTCAATAAAGAGTGACGGCCTCAGCAGA +GGCCGTCAGGGTTACAGAGCTTTCAGGATTGCATCCACGCTGGCTTTGGCGTCACCAAACAGCATGTGGG +TGTTTTCCTTGAAGAACAGCGGGTTTTGCACACCAGCATAGCCAGTGTTCATCGAACGTTTAAAGACAAT +CACGTTCTGCGCTTTCCACACTTCCAGCACAGGCATACCAGCAATCGGACTCTTCGGATCATCCTGCGCC +GCCGGGTTAACCGTATCGTTAGCACCAATCACCAGTACGGTATCGGTATCAGCAAAGTCATCATTGATCT +CGTCCATTTCCAGCACGATGTCATACGGTACTTTTGCTTCAGCCAGCAATACGTTCATATGTCCAGGCAA +ACGCCCCGCGACCGGGTGGATACCGAAACGCACATTAATACCACGAGCGCGCAATTTCTCAGTAATTTCA +GCGACAGGATATTGCGCCTGCGCGACTGCCATGCCGTACCCCGGAGTAATGATCACTGAATGGGAGTTTT +TCAGCAGTTCCGCTGTCTCTTCTGCGGTGATTTCGCGGTGCTCACCCACTTCCTGATCATCGCCAGTAGA +AGAGCCGTCGGTGCCGAAACCACCCGCAATAACGCTGATAAAGGAACGGTTCATCGCCTTACACATAATG +TAAGAAAGGATAGCCCCCGAAGAACCGACCAGCGCACCGGTCACAATCAGCAGGTCGTTGCTGAGCATAA +AGCCCGCAGCCGCAGCCGCCCAGCCGGAGTACGAGTTCAGCATCGACACCACCACTGGCATATCTGCACC +ACCGATGGAGGCGACTAAATGCCAGCCGAATACCAGCGCAATTGCGGTCATTATCAGCAATGCCAGCACT +TGCAGGCCGACGCTGTCCGTGCGAACAAATACAATCAGCAGCAGGAAGGAAACGACCAGAGCCGCCAGGT +TCATTTTGTGACGGTTTGGCAGCATCAATGGTTTAGACGAAATCTTGCCACACAGTTTGCCGAACGCCAC +CACCGAACCCGTGAACGTTACCGCCCCGATGAAGATACCGAGGAACACTTCCGTCAGGTGAATATTGACC +AGAATCGGTGCCATTCCCGCGTCATGATGCAGATAGCTGTTAAAGCCAACCAGCACTGCCGCCAGACCCA +CGAAGCTATGCAGGATCGCCACCAGTTCTGGCATTTCGGTCATTTCAACTTTCTTCGCCAGACGGATACC +AATTGCCCCACCAATGACCATCGCCAGCAAGATCCAGCCAACATTACCCGTATCCGGTCCAAAAATGGTT +GCGATTAACGCAATCGCCATCCCGGCGATACCGAAGTTGTTACCCTGGCGAGACGTTTCATGTTTCGAAA +GACCGGCCAGACTGAAGATAAACAGGATCGCGGCAACAATGTATGCAGCTGTAACTAATCCTCCAGACAT +ATGTTACCCCTTAATTTTTGCGGAACATTTTCAGCATGCGCTGAGTCACGGTGAAGCCACCGAAAATATT +AATGCTGGCTATAAGCACCGCGATAAAACTAAGGAAGCTAACCCAGCCGCCCTGGCCAATCTGCAACAGT +GCTCCGACAACAATAATCCCTGAAATCGCGTTGGTGACCGACATCAACGGTGTATGCAGCGCGTGCGATA +CATTCCACACCACGTAATAACCGACAACGCAGGCCAGCGCGAAAACGGTGAAGTGCCCAAGGAATTCTTT +CGGCGCAACGCTTGCCATCCAGCCAAAAAGAATGATTGCCAGCGCCATCAACGCGTATTTACGCCACGGT +GAGCAGGTACATTTTTCCTCAGTTTTCACTTCCGGTGCCGCTTTTTGTGCCGCCTGCGGCTGAGCTGATA +CCTGAATCGGCGGTGCCGGCCAGGTAATTTCGCCCGCACGGATCACGGTCACGCCGCGAATCACCACATC +ATCAAAATCAACAGTGATATTGCCGTCTTTCTCTTTGCACAACAGTTTCAGCAGATTAACGAGGTTTGTG +CCGTAAAGCTGTGAGGATTGCGTCGGCAGACGGCCCGGAAGATCGGTATAACCAATCACTTTGACACCAT +TTTCCGTAGTGAAGATTTCACCCGGCACGGTGTATTCACAGTTGCCGCCGTTTTGGGCTGCCAGGTCGAC +AATCACACTGCCCGCCTTCATGGAGTCAACCATTTCACGGGTAATTAGCTTCGGCGCTGGTTTGCCTGGA +ATAAGCGCGGTGGTGACAATGATATCGACCTCTTTTGCCTGGGCGGCAAAGAGTTCCATTTCCGCTTTGA +TGAACGCGTCCGACATCACTTTGGCATAGCCATCGCCGCTGCCAGCTTCCTCTTTAAAATCCAGCTCGAG +GAATTCCGCGCCCATACTTTGAACTTGTTCTTTCACTTCCGGGCGGGTGTCGAATGCACGCACAATCGCG +CCGAGACTGTTTGCTGCGCCAATGGCGGCCAGACCTGCAACACCCGCACCAATCACCATCACTTTTGCCG +GTGGCACTTTCCCGGCCGCAGTAATTTGCCCGGTAAAGAAGCGCCCAAATTCATGTGCCGCTTCAACAAT +GGCGCGATAACCGGCGATGTTCGCCATCGAGCTTAGTGCGTCCAGCGATTGTGCGCGTGAGATACGCGGC +ACAGAGTCCATCGCCATCACGGTCACGTTACGTTCCGCAAGTTTTTGCATTAATTCCGGATTCTGCGCAG +GCCAGATAAAACTCACCAGCGTTGTCCCAGGATTCAGTAACGCAATTTCATCATCTAACGGCGCATTGAC +CTTCAGAATGATCTCTGACTGCCAGACGCTATTCCCTTCTACAATTTCAGCGCCCGCTTGCACAAACGCT +TTATCGTCAAAACTTGCCAGTTGACCCGCGCCGCTCTCTACCGCGACGGTAAAACCCAGTTTCAGCAGCT +GTTCCACTGTTTTTGGCGTTGCTGCAACACGGGTTTCATTGGTTAACCGTTCTCTTGGTATGCCAATTCG +CATGATATTCCCTTCCATCGGTTTTATTGATGATGGTTTGCCTGTGTCAGGAGCCACACAAGCTGCTCAT +GTACGAGCTAAATGTTACTCCGTTAAAATAAATTAGTAACAAACGCCCTATAACGTACTGAAAATTATGC +CTGTGATCTAGCGCCAAAAATCAGTATTTCGGCGTGAACTCGCAAAATATTAACGATTCAGCCGTGATAG +TGGGATAAACACCTTAGAACGCCGGATAAAGACTGATAATTGTCTTCGACGGTCGGGTAAAACGAGACAT +CGCCCCGGCACGAATCACTACTTAACATTAAATTAACTTATACAATTCAGTTGCTTCAGTAGTAATGATG +CTGATACGGCTGTTTTTTAAGCATAGACGGTCATTTGAGCAGGATTAAAATTGGCTTAAGGAATGTGATA +TGAAAAATGACGCAGACAGTTACACCGTTTAAATGCAATAATCAGCCACGTTTCTCGTTAATAACAATAC +CAGTACCTGGTTTGCGCAAGGCGAAGGATTATTTTTATGAAGCTTAAGAACACCCTCCTGGCGTCGGCAC +TGCTTTCTGCTATGGCATTCTCCGTTAACGCAGCAACAGAACTGACACCGGAGCAAGCGGCAGCGGTTAA +ACCTTTTGACCGTGTAGTGGTTACCGGTCGTTTTAATGCTATTGGCGAAGCGGTGAAAGCCGTTTCTCGT +CGCGCAGATAAAGAAGGTGCCGCCTCTTTTTATGTTGTCGACACTTCTGATTTTGGTAACAGCGGTAACT +GGCGTGTGGTCGCTGACCTCTATAAAGCCGATGCTGAAAAAGCAGAAGAAACAAGTAATCGCGTAATTAA +CGGTGTTGTCGAACTGCCGAAAGATCAGGCTGTTCTGATTGAACCGTTTGACACGGTCACCGTCCAGGGC +TTCTATCGTAGCCAGCCAGAAGTCAATGATGCCATCACCAAAGCGGCAAAAGCGAAAGGTGCCTACTCTT +TCTACATCGTTCGTCAAATCGATGCCAACCAGGGCGGCAACCAGCGTATTACTGCATTCATCTATAAAAA +AGATGCTAAGAAACGTATCGTCCAGAGCCCGGATGTGATCCCGGCAGATTCCGAAGCAGGACGTGCAGCT +CTGGCTGCCGGTGGCGAAGCCGCGAAGAAAGTTGAGATCCCGGGTGTTGCGACTACCGCATCACCAAGTT +CTGAAGTCGGTCGCTTCTTTGAAACCCAGTCATCAAAAGGCGGGCGTTACACCGTCACGCTCCCGGATGG +CACTAAAGTCGAAGAACTGAACAAAGCGACCGCAGCGATGATGGTCCCGTTCGACAGCATCAAATTCTCT +GGCAACTACGGCAACATGACCGAAGTCTCCTATCAGGTTGCGAAACGTGCCGCGAAGAAAGGTGCTAAGT +ATTACCACATCACCCGCCAGTGGCAGGAACGTGGTAATAACCTGACCGTCAGCGCAGATCTGTATAAATA +ACTATTCAGTTACTCCTATAAGGCGGCTTGATGCCGCCTTTCGCATTTTTAGTCACAAATTTCCCCGCGA +CCATTGCATGCAGACACATCTCTTCGTAAAATCCCGCGCTTCAGTGGCAAACTCCATTTTTATGCGTTTT +GCCCTAATATTTATTCTTCTTATCACGTTTTAATCACTGGATATCGATGGAAAAGAAACTGGGACTGAGC +GCACTCACCGCGCTGGTATTAAGCTCAATGCTGGGCGCGGGTGTTTTCAGTCTGCCGCAAAATATGGCGG +CAGTTGCCAGCCCGGCAGCACTGCTCATCGGCTGGGGTATTACTGGCGCTGGCATTTTATTGCTGGCCTT +TGCCATGCTGATCCTCACGCGCATTCGTCCCGAACTTGACGGCGGTATCTTTACCTATGCCCGCGAAGGG +TTTGGCGAGCTAATCGGCTTTTGTTCCGCATGGGGATACTGGCTGTGCGCAGTCATCGCCAACGTCTCCT +ATCTGGTGATCGTTTTTTCCGCGTTAAGCTTTTTTACGGACACGCCGGAATTGCGCCTGTTTGGCGATGG +TAATACCTGGCAATCGATAGTCGGTGCATCGGCTTTATTGTGGATTGTTCACTTTTTGATCCTGCGCGGG +GTGCAAACCGCTGCCAGCATTAACCTGGTGGCGACACTGGCAAAATTGTTGCCGCTGGGTCTGTTTGTTG +TGCTGGCGATGATGATGTTCAAACTGGATACCTTCAAGCTCGACTTCACCGGACTTGCACTTGGCGTACC +CGTTTGGGAACAGGTGAAAAACACCATGCTGATCACCCTGTGGGTTTTCATTGGTGTGGAAGGTGCCGTG +GTTGTTTCTGCGCGTGCGCGTAATAAACGTGATGTTGGCAAAGCGACACTGCTGGCGGTTCTCTCCGCTC +TGGGCGTTTACTTGCTGGTAACGCTGCTTTCGCTGGGTGTGGTGGCACGTCCTGAACTGGCTGAAATTCG +TAACCCGTCAATGGCCGGTCTGATGGTGGAAATGATGGGACCATGGGGCGAAATCATCATCGCTGCCGGT +TTGATCGTTTCCGTTTGCGGCGCGTACTTAAGCTGGACCATCATGGCAGCAGAAGTACCGTTCCTGGCCG +CCACTCATAAAGCATTCCCGCGCATTTTTGCGCGCCAGAACGCACAAGCTGCGCCATCCGCCTCACTGTG +GTTGACCAACATCTGCGTGCAAATTTGTCTGGTACTCATCTGGCTGACCGGTTCCGATTACAACACGTTG +CTGACCATCGCCTCAGAAATGATTCTGGTGCCCTATTTCCTGGTCGGCGCGTTCTTGCTGAAAATCGCAA +CCCGTCCACTGCATAAAGCGGTAGGTGTCGGTGCCTGCATTTATGGCTTATGGTTATTGTACGCCTCTGG +TCCAATGCACTTGCTGTTATCCGTTGTTCTGTATGCACCGGGGCTGCTGGTTTTCCTGTACGCGCGCAAA +ACGCATACCCATGATAATGTACTGAACCGTCAGGAAATGGTGCTGATTGGCATGCTGTTAATTGCCTCAG +TTCCGGCGACCTGGATGCTGGTGGGATAACGTTCATCCCATCGTTGGATAGCAAAGGAGATAACGATGGG +TAAAACCCAGCCCTTGCCAATATTAATTACTGGCGGAGGTCGTCGCATCGGCCTCGCCCTCGCATGGCAT +TTCATTAATCAAAAGCAACCGGTGATTGTCAGCTATCGGACACACTATCCAGCCATTGATGGACTGATTA +ATGCAGGTGCGCAGTGTATTCAGGCTGATTTTTCGACCAACGACGGTGTGATGGCGTTTGCCGATGAAGT +ACTAAAAAGCACCCATGGTCTGCGTGCTATTTTGCATAACGCCAGTGCGTGGATGGCGGAAAAACCGGGT +GCGCCACTGGCCGACGTACTGGCTTGCATGATGCAGATCCACGTTAATACCCCATACCTGCTCAACCATG +CGCTGGAAAGATTACTGCGTGGGCACGGACACGCCGCCAGCGATATCATTCACTTTACCGATTATGTGGT +GGAGCGCGGTAGCGACAAACATATTGCGTATGCTGCAAGCAAAGCGGCACTGGATAATATGACCCGCTCG +TTTGCCCGCAAGCTGGCACCGGAAGTGAAAGTGAATTCTATTGCGCCATCGCTGATCCTGTTTAATGAAC +ATGATGATGCCGAATATCGACAACAGGCGCTGAATAAATCACTGATGAAAACCGCGCCTGGCGAGAAAGA +AGTGATCGACCTGGTCGATTACTTACTTACCAGTTGCTTTGTCACCGGACGCAGTTTCCCACTTGATGGC +GGTCGTCATCTGCGTTAATGCAGCTTTATCCAGCATATAATCAACACCCATGCGCTTATCCCCCAACACG +CAACAGAACCAACAAAAGCGGCGGGCAAGCGCATCATTCCGGTGAAATACCACAGCGACACCAGGTAAAC +AAAATAGGGAATAATCGACCACATACTAAAAATGATGGTTGCGCGTAAGGCTTCAATGCCGCGTTCGCTG +GCAACAATATAATGCGCGATAAGCGCAAAGGTCGGGAAAAGTGGAATCAGCCCGGCGATATAATAATTTT +TCGTTTTTGCTAAAACACCAATCAACAGCACTACCAGCGCACCGAGCGCGGCTTTGATTACCAGCCCCAT +CTTTTTACCTTAACACTTCCATAACAAGTCATCAGTAGAATACCTGATGAAAACTTGTTTAGAAACGATT +GATAGTAAGTAAAAACAGCGCGGTGTATTGTGACGTTTTTATATCTACCGTGAATGTTATGAACACTATC +GTATTTGTGGAAGATGATGCGGAAGTCGGTTCACTGATTGCCGCGTACCTGGCAAAACATGATATGCAGG +TTACCGTAGAGCCGCGCGGCGACCAGGCCGAAGAAACCATTTTGCGAGAAAATCCGGATTTGGTGTTACT +CGACATCATGCTACCAGGCAAGGACGGCATGACCATTTGTCGTGATTTACGCGCAAAGTGGTCTGGACCG +ATTGTTCTTCTAACCTCTCTCGATAGCGATATGAACCACATCCTGGCACTGGAAATGGGTGCCTGCGACT +ATATTCTCAAAACGACGCCCCCTGCTGTTTTGCTAGCGCGTTTACGTTTGCATTTGCGTCAGAATGAGCA +AGCCACACTGACCAAAGGTCTTCAGGAAACGTCTCTGACTCCCTACAAAGCCCTGCATTTCGGCACGTTG +ACCATCGATCCCATCAACCGCGTAGTCACCCTGGCTAACACTGAAATCTCGCTCTCGACAGCTGATTTCG +AATTATTGTGGGAATTAGCTACCCATGCCGGGCAAATCATGGACCGCGATGCATTGCTGAAAAATTTACG +CGGCGTCAGTTATGACGGACTGGATCGTAGCGTGGACGTGGCTATTTCGCGGTTAAGAAAAAAACTGCTC +GATAACGCCGCAGAACCTTATCGCATTAAAACTGTGCGTAACAAAGGCTATCTTTTTGCGCCTCATGCAT +GGGAATAAGCGATGAAAAAACTGTTTATCCAGTTTTACCTGTTATTGTTTGTCTGCTTCCTTGTGATGTC +TCTGCTGGTTGGGCTGGTGTACAAATTTACCGCCGAACGCGCGGGCAAACAGTCGCTGGATGATTTGATG +AACAGTTCGCTGTATCTGATGCGCAGCGAATTGCGTGAGATCCCCCCACACGACTGGGGTAAAACTCTGA +AAGAGATGGATTTAAATCTCTCTTTCGATCTGCGTGTCGAGCCACTGAGTAAATACCATCTTGATGATAT +TTCCATGCACCGACTGCGTGGCGGCGAAATTGTCGCCCTGGACGATCAGTACACGTTTTTGCAGCGTATC +CCGCGCAGCCACTACGTGCTGGCAGTTGGTCCTGTTCCTTATCTTTATTATCTCCATCAGATGCGATTGC +TGGATATCGCCCTGATCGCTTTTATTGCTATTTCCCTCGCCTTTCCGGTGTTTATCTGGATGCGTCCGCA +CTGGCAGGATATGTTAAAACTGGAAGCAGCGGCGCAACGATTTGGCGATGGGCATCTCAATGAACGTATC +CACTTTGATGAGGGTTCGAGCTTTGAACGACTTGGCGTCGCATTTAACCAGATGGCGGACAATATCAACG +CCTTAATTGCCAGCAAAAAACAGCTTATTGACGGTATCGCTCACGAACTGCGAACACCGTTAGTGCGCCT +GCGTTATCGACTGGAGATGAGCGATAACCTGAGCGCCGCCGAATCCCAGGCGTTGAATCGTGATATCAGT +CAACTTGAAGCTTTAATTGAAGAGCTGCTGACTTATGCCCGACTCGATCGCCCACAAAACGAGCTTCATC +TTAGCGAACCAGACCTGCCGTTGTGGCTGTCAACGCATCTGGCAGATATTCAGGCAGTAACGCCCGATAA +AACGGTACGGATAAAAACGCTCGTGCAAGGCCATTATGCGGCGTTGGATATGCGCTTAATGGAGCGCGTG +CTGGATAATTTGCTCAATAACGCCCTGCGGTACTGCCATTCAACGGTTGAAACCAGCCTGCTACTGTCGG +GGAATAGAGCGACATTAATTGTTGAGGATGATGGCCCAGGGATTGCCCCAGAAAACCGCGAACATATCTT +TGAACCTTTTGTTCGCCTCGATCCCAGCCGGGATCGCTCAACCGGCGGCTGCGGGCTGGGGCTGGCAATT +GTCCACTCTATAGCACTGGCAATGGGCGGTACGGTTAATTGTGACACCAGCGAACTGGGTGGTGCCCGCT +TCTCGTTTAGCTGGCCGTTATGGCATAACATCCCGCAATTTACCTCTGCCTGACACTACGCGCACGATGG +TCAAGTCACCACGACTGTGCTATAAAATAAGTATGTTGTAACTAAAGTGGTTAATATTATGGCGCGTTAC +GATCTCGTAGACCGACTCAACACTACCTTTCGCCAGATGGAACAAGAGCTGGCTATATTTGCCGCTCATC +TTGAGCAACACAAGCTATTGGTTGCCCGCGTGTTCTCTTTGCCGGAGGTAAAAAAAGAGGATGAGCATAA +TCCGCTTAATCGTATTGAGGTAAAACAACATCTCGGCAACGACGCGCAGTCGCTGGCGTTGCGTCATTTC +CGCCATTTATTTATTCAACAACAGTCCGAAAATCGCAGCAGCAAGGCCGCTGTCCGTCTGCCTGGCGTGT +TGTGTTACCAGGTCGATAACCTTTCGCAAGCAGCGTTGGTCAGTCATATTCAGCACATCAATAAACTCAA +GACCACGTTCGAGCATATCGTCACGGTTGAATCAGAACTCCCCACCGCGGCACGTTTTGAATGGGTGCAT +CGTCATTTGCCGGGGCTGATCACCCTTAATGCTTACCGCACGCTCACCGTTCTGCACGACCCCGCCACTT +TACGCTTTGGTTGGGCTAATAAACATATCATTAAGAATTTACATCGTGATGAAGTCCTGGCACAGCTGGA +AAAAAGCCTGAAATCACCACGCAGTGTCGCACCGTGGACGCGCGAGGAGTGGCAAAGAAAACTGGAGCGA +GAGTATCAGGATATCGCTGCCCTGCCACAGAACGCGAAGTTAAAAATCAAACGTCCGGTGAAGGTGCAGC +CGATTGCCCGCGTCTGGTACAAAGGAGATCAAAAACAAGTCCAACACGCCTGCCCTACACCACTGATTGC +ACTGATTAATCGGGATAATGGCGCGGGCGTGCCGGACGTTGGTGAGTTGTTAAATTACGATGCCGACAAT +GTGCAGCACCGTTATAAACCTCAGGCGCAGCCGCTTCGTTTGATCATTCCACGGCTGCACCTGTATGTTG +CAGATTAACGCCCGGCTTTCATACTGCCGACCATCTGTTCTGGCCGTACCCAGCTGTCAAACTCGGCTTC +GCTAAGATACCCCAGCGCAAGGGCCGCAGCTTTTAAGGTCAGCCCTTCTTTATGCGCTTTTTTGGCGATC +TCGGCGGCTTTGTCATAACCAATGTGGGTGTTAAGCGCAGTCACCAGCATCAGCGATTCATTGAGTAATT +GATTGATTCGCTCACGATTCGGTTCAATACCCACTGCGCAGTGTTTGTTAAAACTTTCCATGCCATCTGC +CAGCAAGCGCACCGATTGCAGGAAATTGTGGATCACCATTGGACGGAAGACGTTCAGTTCAAAGTTACCG +GAAGCGCCCCCCATGTTGATCGCCACGTCGTTCCCCATCACCTGACAGCAGAGCATGGTTAATGCCTCAC +ACTGTGTTGGGTTCACTTTCCCCGGCATGATTGAGCTGCCCGGCTCATTTTCCGGGATTGAGATTTCACC +AATTCCGCAGCGCGGGCCAGAGGCCAGCCAGCGGACATCATTGGCGATTTTCATCAGTGACGCAGCCAAC +CCTTTCAACGCGCCGTGCGCCTGAACCAGGGCATCACAGGTCGCCAGCGCTTCAAATTTGTTCGGCGCGG +TAACAAACGGTGCACAGGTAATGACTGCCAGTTCATCTGCTACGCGACGCGCATACTCCGGATGGGTATT +TAGTCCAGTACCCACCGCTGTACCGCCAAGAGCCAGTTCCGCTACGTGAGGCAGGCTGTATTCGATATGT +TTGAGATTATGCTCGAGCATCGCTACCCAGCCGGAAATCTCCTGCCCCAGCGTTAACGGCGTGGCATCCT +GCAAGTGAGTACGACCAATTTTGACGATATCGGCAAAAGCACGGGATTTCTCATTCAGTGTCTGTGTCAG +GGTTTTAAGCTGAGGAATGAGTTGCTTGCGCAGCGCCAGCAGCGCCGCAACGTGCATCGCCGTCGGAAAG +ACATCGTTGGAACTTTGGCTTTTGTTCACGTCGTCGTTAGGGTGAACTTTACGTTCCATCCCGCGCACAC +CGCCGAGTAATTCACTGGCCCGGTTAGCCAGCACTTCGTTCATGTTCATGTTACTTTGCGTGCCGGAGCC +GGTCTGCCAGATAGCCAGCGGGAATTCGTCGTCATGCTGTCCTGCCAGTACTTCATCCGCCGCCTGACGA +ATGGCGCTCGCTTTCTCTTCAGACAACAAGCCTAAATCTTCATTAACTTTTGCCGCTGCACGCTTGGTTA +GCGCCAGCGCATGAATCAGTGAGGTGGGCATTTTCTCCGTCGAAATGCGGAAATGCTCCAGCGAGCGTTG +AGTTTGTGCGCCCCACAGCTTATCTGCCGGGACATCAATCGCCCCCATCGAATCTTTTTCGCTGCGTACT +GTATTCATGACCTGCTCCTCACCTGATTAATTTTTTCTTTCTGTTTTGCTTTCGTTAAGCAACTTTTAGC +TCACTTATTATTTACCATTTGATAACAAATGTTTGGTCTTTCGTGCCATGTAAAAAAACCGCCCCGAAGG +GCGGCTCTGTTTATTTCACACAGCGGGTGCATTGTGTGAGTTGTATCTGCTGGAAGAAGTCATTTCCTTT +ATCATCCACAAGGATAAACGCCGGGAAATCTTCCACTTCAATTTTCCAGATGGCTTCCATTCCCAGTTCC +GGATATTCAACACATTCCAGGCTCTTAATACTTCCCTGCGCCAATACAGCGGCCGGACCACCGATACTGC +CAAGGTAGAAGCCGCCGTGTTTTTTACAGGCATCCGTCACCTGCTGGCTGCGGTTGCCTTTCGCCAGCAT +GATCATACTTCCGCCCTGCGCTTGCAGTTGATCGACATAAGAATCCATCCGTCCGGCGGTCGTTGGGCCA +AGAGAACCGGAGGCATAACCTTCCGGCGTTTTGGCCGGACCCGCGTAGTAAATCGGATGATCTTTGATGT +ACTGCGGCAGCCCTTCACCGTTATCCATCCGCTCTTTCAGTTTGGCGTGAGCAATATCACGACCGACGAT +AATCGTGCCGTTAAGCGATAAGCGTGTAGAAACGGGATACTGCGACAACTGTGCGAGGATCTCTTTCATC +GGACGGTTAAGGTCAACGCGCACCGCTTCGCCTTCTCCCGCTTTGCGCAGCTCTTCCGGGATATATTTGC +CTGGATTATGTTCCAGTTTTTCGATCCAGATCCCCTGACGGTTGATCTTCGCTTTGATATTACGGTCAGC +AGAGCAGGAGACGCCCATACCGACCGGGCAGGATGCGCCGTGACGTGGCAGGCGAATCACGCGGATGTCG +TGAGCGAAGTATTTACCACCAAACTGCGCACCCAGACCAAGATTTTGCGCTTCGATCAGCAATTCTTTTT +CCAGTTCCACATCGCGGAACGCCTGACCGTGCTCATTCCCTTCCGTTGGCAGTTCATCATAGTATTTCGC +GGAAGCCAGTTTCACCGTTTTAAGGTTCGTTTCTGCAGAAGTTCCACCAATAACGAACGCAATATGATAC +GGAGGACAGGCCGCCGTACCCAGCGTGCGCATCTTCTCAACCAGGTAATTTTTCAGTTTCCCCGGCGTCA +GTAACGCTTTGGTTTCCTGATAGAGATACGTCTTGTTTGCCGAACCACCACCTTTGGCGATACAGAGGAA +TTTGTATTCGTCGCCATCAACGGCATAAAGATCGATCTGCGCTGGCAGATTGGTGCCGGTATTCACTTCT +TTATACATATCCAGCGGCGCGTTTTGCGAGTAGCGCAGATTATCTTCGATATAAGTGTTATAGACACCGC +GCGCCAGCGCCGCTTCATCACCACCACCGGTCCATACACGCTGCCCTTTTTTACCAACAATAATCGCGGT +GCCGGTATCCTGACAGGTTGGCAGAACGCCTTTCGCCGCGATGTCGGAGTTACGCAGGAATTGCAGCGCC +ACATATTTATCATTTTCGCTGGCCTCCGGGTCACGCAGAATGTCGGCCACCTGTTGTTGGTGCGCCGGAC +GCAGCATGAACGACGCATCATGAAACGCCTGGCGCGCCAACAGAGTTAACGCTTCGGGTGCGACTTTCAA +AATCTCCTGCCCTTCAAATTCAGATACGCTAACGTGTTCGCTGGTTAGCAGGTAATACTCAGTATCATCT +TTTTTGAGTGGAAAAGGAGCCTGATAATGAAAGGGTTTGTTTGACATTGTTCTCTCACTTACTGCCTGGT +TTGGTTATGCTCTGGGCGGGTGTTCCGTTGCCCTGTTAAAAGCGAGTAACAATATCCTACACACTTTTTT +AACAAAAACTGAGACTAGTACGACTTTTTGCGGCTCCAGGTTACTTCCCGTAGGATTCTTGCTTTAATAG +TGGGATTAATTTCCACATTAAAACAGGGATTGATCATGCAAAAACTCATTAACTCAGTGCAAAACTATGC +CTGGGGCAGCAAAACGGCGTTGACTGAACTTTATGGTATGGAAAATCCGTCCAGCCAGCCGATGGCCGAG +CTGTGGATGGGCGCACATCCGAAAAGCAGTTCACGAGTGCAGAATGCCGCCGGAGATATCGTTTCACTGC +GTGATGTGATTGAGAGTGATAAATCGACTCTGCTCGGAGAGGCCGTTGCCAAACGCTTTGGCGAACTGCC +TTTCCTGTTCAAAGTATTATGCGCAGCACAGCCACTCTCCATTCAGGTTCATCCAAACAAACACAATTCT +GAAATCGGTTTTGCCAAAGAAAATGCCGCAGGTATCCCGATGGATGCCGCCGAGCGTAACTATAAAGATC +CTAACCACAAGCCGGAGCTGGTTTTTGCGCTGACGCCTTTCCTTGCGATGAACGCGTTTCGTGAATTTTC +CGAGATTGTCTCCCTACTCCAGCCGGTCGCAGGTGCACATCCGGCGATTGCTCACTTTTTACAACAGCCT +GATGCCGAACGTTTAAGCGAACTGTTCGCCAGCCTGTTGAATATGCAGGGTGAAGAAAAATCCCGCGCGC +TGGCGATTTTAAAATCGGCCCTCGATAGCCAGCAGGGTGAACCGTGGCAAACGATTCGTTTAATTTCTGA +ATTTTACCCGGAAGACAGCGGTCTGTTCTCCCCGCTATTGCTGAATGTGGTGAAATTGAACCCTGGCGAA +GCGATGTTCCTGTTCGCTGAAACACCGCACGCTTACCTGCAAGGCGTGGCGCTGGAAGTGATGGCAAACT +CCGATAACGTGCTGCGTGCGGGTCTGACGCCTAAATACATTGATATTCCGGAACTGGTTGCCAATGTGAA +ATTCGAAGCCAAACCGGCTAACCAGTTGTTGACCCAGCCGGTGAAACAAGGTGCAGAACTGGACTTCCCG +ATTCCAGTGGATGATTTTGCCTTCTCGCTGCATGACCTTAGTGATAAAGAAACCACCATTAGCCAGCAGA +GTGCCGCCATTTTGTTCTGCGTCGAAGGCGATGCAACGTTGTGGAAAGGTTCTCAGCAGTTACAGCTTAA +ACCGGGTGAATCAGCGTTTATTGCCGCCAACGAATCACCGGTGACTGTCAAAGGCCACGGCCGTTTAGCG +CGTGTTTACAACAAGCTGTAAGAGCTTACTGAAAAAATTAACATCTCTTGCTAAGCTTATTAAAGGCTTA +TAACACCTTCAGGCGGCCAGTCCGCCTGATTTCATTTTATGGATAATCATTATGAATAAATCGCTGGTAG +CGGTAGGCGTCATTGTTGCGCTAGGCGTAGTCTGGACAGGCGGCGCATGGTATACAGGCAAGAAGATTGA +AACCCATCTCGAAGACATGGTCGCGCAGGCGAACGCGCAACTCAAACTGACAGCTCCTGAATCCAACCTG +GAAGTGAGTTATCAAAACTATCATCGCGGCGTATTCAGCAGCCAGTTGCAACTGTTGGTGAAACCCATTG +CCGGGAAAGAAAATCCGTGGATTAAAAGCGGTCAGAGCGTCATCTTCAACGAATCGGTTGATCATGGTCC +CTTCCCGCTTGCCCAGCTTAAAAAACTGAACCTGATCCCGTCGATGGCATCAATTCAAACCACGCTGGTT +AATAACGAAGTAAGCAAACCACTGTTTGATATGGCAAAAGGTGAAACGCCTTTTGAGATTAACTCGCGCA +TTGGTTACAGCGGTGATTCCAGTTCCGATATTTCGCTCAAGCCACTGAATTACGAGCAAAAGGATGAAAA +AGTCGCCTTTAGCGGCGGCGAGTTCCAGTTAAATGCTGACAGAGACGGCAAAGCCATCTCCCTTTCCGGG +GAGGCGCAAAGTGGTCGGATAGACGCAGTTAACGAATACAACCAGAAAGTGCAGTTGACCTTTAATAATC +TGAAAACCGACGGTTCCAGCACGCTGGCAAGTTTTGGTGAGCGTGTAGGAAATCAAAAACTGTCACTGGA +AAAAATGACCATTTCAGTGGAAGGCAAAGAACTGGCACTGCTGGAAGGCATGGAGATCAGCGGTAAATCG +GATCTGGTCAATGACGGTAAAACGATCAATAGCCAACTGGATTACTCGCTAAACAGCCTGAAGGTACAGA +ATCAGGATCTGGGCAGCGGCAAGCTGACTTTAAAAGTCGGCCAGATTGATGGTGAAGCCTGGCATCAGTT +TAGCCAGCAATATAACGCGCAAACTCAGGCGCTGCTGGCACAGCCAGAAATTGCCAACAACCCCGAACTT +TATCAGGAGAAAGTGACGGAAGCCTTCTTTAGCGCCCTGCCGCTGATGCTGAAAGGCGATCCGGTGATTA +CTATCGCGCCGCTAAGCTGGAAAAACAGTCAGGGTGAAAGTGCCCTGAATCTGTCGCTGTTCCTGAAAGA +TCCGGCAACGACTAAAGAAGCGCCGCAAACGCTGGCGCAGGAAGTAGATCGTTCGGTTAAATCTCTGGAT +GCGAAACTGACCATTCCGGTGGATATGGCAACTGAGTTTATGACTCAGGTAGCGAAGCTGGAAGGTTATC +AGGAAGATCAAGCGAAAAAACTGGCGAAACAGCAAGTTGAAGGTGCATCAGCAATGGGGCAGATGTTCCG +TCTGACCACCTTGCAGGACAATACCATCACCACCAGCCTGCAATATGCTAACGGTCAGATAACGTTAAAT +GGGCAGAAAATGTCGTTAGAAGATTTTGTTGGCATGTTTGCGATGCCAGCTCTTAACGTTCCGGCTGTAC +CGGCAATTCCGCAGCAGTAATTCACGGCCAAAACGCCGGAGAATTTTCACTCCGGCGTTTTCATCTGAAA +ACAAACCAGAGATTGCCTGATGCGCTACGCTTATCAGGCCTACCTTTTCCTGCAACACTTTGAATTTATG +AGTTTTTGTAGGCTGGATAAGGCGTTTACGCCGCATCCGGCATAAAAAACGCGCACTTTGTCAACAATCT +GAAACGCCGGAGATTTTTCTCTCCGGCGTTATTTTTTACTTCAGCATAAAGTCATACTGAATACTCATTT +TCACATCCCAGTAATTCAGGCGATCGCCCAGCGTACTGCCATCGCGCTTTTCCCGCCCTTTATCGGCAGC +AAGAAAGAAATTCATCCCTTGTAACGGCCCTTCGCTGACCCGATAGTTCATACCACCTAAGATACCCGTG +CCTTCAATCCGCACATCTCGTTTACTGGATTCATAGCCGCGAGTCACAATCGGTGCAAATGTCAGCGTAA +ATTGCGGCGTTAAACGATAGTTGACGCCCAATTGCCAGGACTGCATTCCTTCACGGTTACGATCAAGACT +TAATGAAAAGGGATAGCCAATGTCGGTATCCACCACGGCACCATTCATTGCATGGCGCAAATAACCACCA +CTGCCAAATACACTTCCCCACGGCGCATTCCAGGTCAATTGTCCACTAACCAACGCCGTTTCATTGGGCT +GGCTGGTATTACGACTTAAACCTTCGAGCTGCGCGTAAAAGCCGAGCAACTCCCCTTTCAACGTATAATT +CGGGTCGAGCGGTATGCTTTTCTCGAGAATACTTTGTATCTGATTGGAAACATCTTTCTGTACCGATGCC +CCCAGAGAATAGCGACTGGTATCATCATGCCAACTGGCGGCTAAAAAAGAACGTGCGCGATGTTTATCGT +ATTTTCCCGTCTGGCTGTTATACACCCCTTCATCACGAATACCGGTTGTTGAATCAGTCCATAAAAATAC +TCGTGAACGCCACATTCCCCACAGATCAATATTTGGTGTTAAAGCCCAATAACCTAATGCTCCTTCAGAA +ACTGTCGGTAATGTACGTTGCGAACTGCCAGCCATTAACGGAATACGATAAGGTAAGCTACCATAACTAT +AATCCGTCCCGAAGCGACCTAATTTAAGCAGGCTATTTTCACTGGGTTTTATTTTTACTGCCCCCAGGGC +AAAGCCAAAACTTTTATCACCATCAAGATACCACCGGGTACTCATATCAGCACGAGCACCTAATTTATAA +ACATAATACGCCCCGCCTTCAACGCCAATAATATTGGAATAATAACCACTATTGAAATCGAGCAATCCTC +CCTGTACCCATGCGTAAATATCTCTTCCCGCGCCAGCACTGGGCTTATCCGCCCTGCGCAATTCGTTTTT +CAGTCTGATGCGTAGTCCCGCTTCATCGTCAGCCAGTTGCGCCGCATAAGCAGAGGTAAGGCCAGAGGCA +GCCGTCAGGCAAATAACGGCCATGGCCACTATTTTTCTCATAGTTGCACCTTTGATGTTCTGATTATTTT +TATTGAATATTAATTAGTGATATCGCTGATTAATTGCTGCTGCACTTTTTTACGATTATCAATTTCAACC +ACGATTTCTTTGAATTTTTTATCCGTGAGCGGATAAAACCAGATAATAACGAATGCCAGTAGCATAAATC +CGCAAGGTACTAAGGCAATTGATGTGCGGATGCCCATAATAACTTCCGGCGTTTGCACCTGATTGGCGAT +ATATCCGCTTAACCCCAAAATAAAGGCAGGAATTGAACCTCCGATTGCCTGACCGCATTTACGGGTAAAT +GAGAATAGTGAATAGGTGAGCCCTTCAATTCGCACGCCGGTCAGGTATTCACCGTATTCTACGGTATCAG +CTTCCAGCGCCCACATCACGGTCATGGTAACGCCCTGACCAATTGAAGCGATGGCCAACGCAACCAACGC +CACCGGCAGTGACCAGACGGAAACCCAGAAGAACAGCAGATAACCGCAGGTTCCCAGCAAAGCGCCAATC +AGGAAGGTATTCTTTTTACCGATCCTCGCGACCATCCCCGGCACCAGCGGTGCCGATGCCACAGTACCAA +CCAGGTTTTGCACCAGTACCAGCACAGTGAACAGCCCGGTATCATTTAACACATAGCGCACGTAGAACAA +CGACGAGGCGCTGACCGCAAAGGTCGAAATCAGCACACACAGCGCACCGATGCACAACATAAACAGCGGG +CGATTCCGTTTCAGGGTTTGCAGACTGATATTCAATGACGGCTGCGCAACGATACGTACCACATTCTCAC +GCGTCGATTTGAAGCAGATGAAGTAAAGCACCATTCCGGCAATCGCCAGCACAATTGTCCAGAAATGGTA +TACCGACACCATCTCTTCCGGGCTGGAGTTCTTAATGCTCGGTCCTATCAGAAATGCCAGGCAGACAAAG +GTCAATGAAGCGGCAATCCCACGAGCCGCGCCCAGACGGGCGCGGGATTGTGGTTGTTGGGTCATCGCGG +TAGCAAGTGAACCATAAGGAATATTCACCAGGCTGTAGCAAAGCCCGAGGCCCATGTAGGTCAAATATGC +ATACACCACTTTGCTACCATGGCTCCAGTCGGTCAGCACCCAGAATACCAGCACGCTGAAGATCATTAAC +GGCGCAGTACCGAAGAGTAAAAACGGGCGGAATTTTCCCCAGCGGGTATTCACACTGTCCACCACTCGTC +CGGCAAAGACGTCGGCGAAGGCATCGAATACCCGCACCAGTAACAGCATGGTGCCCGCCGCAGCGGCACC +GACGCCAGCGACGTCGGTGTAGTAACTCAACAGGAAGAGCGCCCCCATTGCGAAGGCGAAGTTATTGGCG +ACGTCACCGAGGCTGTAGCCGACGATGGTGCGCCAGGAGAGTTGTTGATTCATTGTTTGCCTCCCTGCTG +CGGTTTTTCACCGAAGTTCATGCCAGTCCAGCGTTTTTGCAGCAGAAAAGCCGCCGACTTCGGTTTGCGG +TCGCGAGTGAAGATCCCTTTCTTGTTACCGCCAACGCGCAATATGCCTTGCGAGGTCGCAAAATCGGCGA +AATTCCATACCTGTTCACCGACGACGGCGCTGACGCGATCAAAGACGCGGTGATACATATCCAGCCATGC +ACACTGATACTCTTCACTCCACATGTCGGTGTACATTGAGTGCAGCCCGGCTAACGTATCCACGCCGTAT +TCGGTGATGATAATCGGCTGATGCAGTTTCTCCTGCCAGGCCAGAAGTTCTTTTTCCAGTACCTTCTCTG +CCGTTTCCAAATCGCCGCTTTGGACATACCATCCGTAATAACGGTTCAGGCACAGCACATCAAAGAGATC +GCTGATGGTATCGGTGTGAGCGTCGCAGAACATTACATTGACGCAGGTGATCGGACGCGTCGGGTCGAGT +TTACGCGTTGCTTCCGCCAGTGGCGCGAAATATTCCCGTGCACCTTGCGGACGGGTATCCGGTTCGTTGG +CAATACTCCACATCACCACGCTTGGGTGGTTTTTGTCACGCGCTATCAGCTCTTTAATCGCCTGTAAGTG +CGCTTGCTGAGTTTCCCCGTTGACTGCCTCTTCGCTGTACAGTTCTTTCGGCTTGTTGCCCGCTTCGAAA +CCAATGCCTAAAGAGAGGTTAAAGCCGACAGCAGCAGTTTCATCAATCACCACGATGCCATGTTCATCTG +CCCAGTCGAGCATCTCTTCAGCGTAAGGGTAATGCGAGGTACGGTAGGAGTTGGCCCCAATCCAGTCCAT +TAATGCGTGGTCGTGCACCATCAGCACGTTATCGAATCCTTTGCCACGCAAGTCCGCATCTTCATGACGA +CCAAAGCCAGTAAAGTAGAACGGTTTGTGGTTAATCAGGAACTGTTCGCCCTTCACTGCCACTGACCGGA +TGCCGACGCGAAGCGGGTAGATATCACACTCTGTCTGGCTTTTGGCTGTGACGCACAGTTCATAGAGATA +ACCTTCACCCGGTTGCCAGAGGTGCGGATTCACCACTTGCAAAGTCCCGCTAGTGCCTTGTCCAGTTGCA +ACCACCTGTTGATCCGCATCACGCAGTTCAACGCTGACATCACCATTGGCCACCACCTGCCAGTCAACAG +ACGCGTGGTTACAGTCTTGCGCGACATGCGTCACCACGGTGATATCGTCCACCCAGGTGTTCGGCGTGGT +GTAGAGCATTACGCTGCGATGGATCCCGGCATAGTTAAAGAAATCATGGAAGTAAGACTGCTTTTTCTTG +CCGTTTTCGTCGGTAATCACCATTCCCGGCGGGATAGTCTGCCAGTTCAGTTCGTTGTTCACACAAACGG +TGATACGTACACTTTTCCCGGCAATAACATACGGCGTGACATCGGCTTCAAATGGCGTATAGCCGCCCTG +ATGCTCCATCACTTCCTGATTATTGACCCACACTTTGCCGTAATGAGTGACCGCATCGAAACGCAGCACG +ATACGCTGGCCTGCCCAACCTTTCGGTATAAAGACTTCGCGCTGATACCAGACGTTGCCCGCATAATTAC +GAATATCTGCATCGGCGAACTGATCGTTAAAACTGCCTGGCACAGCAATTGCCCGGCTTTCTTGTAACGC +GCTTTCCCACCAACGCTGATCAATTCCACAGTTTTCGCGATCCAGACTGAATGCCCACAGGCCGTCGAGT +TTTTTGATTTCACGGGTTGGGGTTTCTACAGGACGTAACATAAGGGACTCCTCATTAAGATAATAATACT +GGTCAACCTTTAATCTGATTAGTTAACCAATTCTGTGTTGCACACAGTTATCTGTGAGAAACCCATGGAA +GAGAAATGGAAATAAAAAGAACTGACACCGCGATCAAAAAACCAAAAACTGCAATACCCACAGCGTGATA +TAGATCGCATTAATCTTTAAAACAGCGTTGACAGAAGCCATAAAATAAGCAACCGAACGTTCGTTCGAGC +GTATTGGGAACGATAAACTCTCATGACATATGGCTACAGTGAATATTTTGGGGGGAATTCTCCGAAGCCG +GGAAGGATAATTTTTGCACAGAGAAATTACGATATGAAACGCGGGCACAGTTATCACCAGCCCGCCGAAA +AAGAGAGAGAATCAGGATGCGGTTAAGATACCGCCAATCATCGCGCGTAATCCCTGAGCAAACGACGCTT +CACGCGCCAGGTCTTCCGCTTCGATATCGGCCAGTACACCGTAGGTCAGATCCAGCAGTAAACGTGAAGT +CATTGCCGTGTTGATGTCTGGGCTTATCTCGCCTTTTTGCTGGGCATCACGCATCCGCTGGGCAACAAAT +TCCGTGATCGTCATATGCTTATTTTTAAGCATGGCGGCGACCTGTGGGTTACGCATCCCTTCCGCCATAA +TTTCAACCACCAGCGCCCGTTGTCCAAAGGCTTCATGGGTGAGAGAGACAATGGACTCGACCATATAGTC +AACGAAATGAATCCCTTCAATCGGTTCCCGGAAACGGGCCAGCGCCCTCTCCTGGTCCTGTAAGATAATC +GCCTGAATCAAGGCTTCTTTGGAGATGAAATGGTGATAGAGCGTCCCGGGACTAATGGCGCAAGATTTAC +AGATGGCTTTCATCGAGGCACTGTGAAATCCATTTTCTGAAAAAATCTCTCTGGCAGCATTGAGGATCCG +GGTCCGTGTCGGTTGTGCTTCAGTCTGCATGTTATCCATCATTAAACCATTATAGTTAGCGTGAATAACT +AGTTTACCGCGTTGTCAGGTGAGCGCCTATCATTGCTGTTGAATAGTGCGAAGGCACACTCTATTCGTAT +ACTTTTCACTCTGAAATTGGTTAACCAATAGCCGTGATTTGGCTGCCAGTTATTTAGCAGAGACGTTGAT +GAGTTTATCCCGGTAAACAACACGCACGGTTGTTTACCGGTCCGTTAGTGTATTAATTGAGCTCCTGTAC +CCCACCACCGGAGACGGTGAGAATTTGTCCGCTTACCCAGCTCGCAGCAGGCGAGCAAAGGAACAGCGCT +GCGTTAGCAATATCTTGCGGTTGGCCCAGACGTCTGATCGGCGTGTGCTGTAACATTTTTTGTTCAATTT +CTGGTGTAATAACGGATTTCAGGGCATCGGTTAATATTGCCCCCGGCGCAATGCCATTTACCCGAATATT +TTTTTCACCCAGGTCAAACGCCATATTTCTGACCAGATGACTGGCCGCAGCTTTAGATGATGCATAGGAA +GTCATGTTTATATTTTTATTTTCTGCCGCCATAGAAGTGATGGTCAGAATAACGCCACCGCCATTTTTTT +CCATTTCTGGCGCAACAAGTTGTGACAGATGGAAAAAAGAAAACACATTCAGTTCATAAGCACGGCGAAA +ATCCGCCATTGGCATATCAAACGGTTTAGGTCCACCGCCACCGGCGTTGTTAACCAGAATATCAACTTTA +CCCAGCTTACTGATAGCAAAGTCTGCCAGTGCAGAGAGTTCCTGTTCGGAAGTAATATCACAACGGCAGG +CAAATGCCTGACCACCCAGTTGTTGAATTTCGTCTACAACATGGTTAGCTGCGTCGGCGTTAATATCACT +GACCACCACAGATGCGCCAGCTGTCGCGAATGTAATGGCGATTTCTTTACCAATACCTGCACCCGCACCT +GTGATGATGGCGCATTTTCCGTCGAGTCTCAGGTTGTCAGAATTAAACACATAAACCTCCTGTGAACTTC +AGTAAAAATAAAAGGCACCGCCTGTGTGCCACATTTTTTATCATTAACCTTGAGGAAAGGACACTACCAG +GTATAGCAGATAAAGAGAGGATTATTTCGCTGCAATGAGCCGGGCGGGAATAATAAGATTGCGTGAATGC +GTCTCTTCATGGGTGATTTTTTGCATCATGCGATCCGCAAGTGTGATACCAAGTTCCCGCGCTGGCGTGC +TGGCCCAGGTAACAGGTATATCATCAAGTGTGGTTGGTGTCGCATCGGTAAATGCCGCCAGCGAAACCTG +TTGCTCAAAGTAACGATCGACTCCGCTTTCCCCGCTTTGCCGCCCTGCTTTGAGCAAACCAAACCATGCC +CCCATCGCAATAGTTTCGTTATAGCAAACCACGGCACTGATGGTCGGGTTATGACGTAAAAGCGCCGTGA +TAGCTTCCGCGGCTTGCTTCTGGCTGGAAGTGCACTCCAACACCCAATCGCTATGAAACGGCAGGCCAAA +TTTTAGTAGAGTTGCACAATAGCCCCCAACCCGTTCTGCACGGGTTAATGAGGAACTTTGCCCTCCCAGC +CAGGCGATCCGCTGATGCCCATTGCGAATGAGATGCTCCGTCAACAACTGTGCAGCCTGCATGTTGTCCG +GGCGAACCGTATCAACATCATCAAGATAACTGGCACGGGAAGCGAAAATCACCGGGATAGCTTTTTCTTC +TGCCATCCGTCGCAGGTCATCGCTACTTCCTGCAGCTCCGGCAATTACCACACCATCGACACCCTGATTC +AGTAACAGTGAAAACCGCTGTGCCAGCTGCTCACCGTCTTTACCGCCGTGAAGCAAAAAAACCATCCGTC +CCTGCGCTTCCAGAGCTTCCGTCAATCCGGCCGTCAATTCGGCGTAAAACGGCGCAGATAAATCACGGAC +GATCAAACCAATGACGCCGCTTTGCCCGCCGCGCAGCGCCGACGCCTGGCGATTGCGCACAAATCCCAGC +TCTTCAATGGCGGCGTTAACGCGTTCTCCTGTGGCGGTAGAGATTCGCCCTTTGCCACTAAGCACCAGCG +AAACGGTACTTACCGACACGCCCGCAGCCAGCGCAACATCATGAATGGTTATTTTTTTGGCGGTAGCCAT +GCAGATGACCTACTCCCTGATTATGTGACAGATAAAACGTTTTACCTTTTATTTATCTTATACCCGCTAT +TATCGTTGCGTAATGTGATTTATGCCTCACTAAAATTTGATAAAACGTTTTATCTTCTCGCGCAATTTAC +TGAATCCAGATTGTTCTCTACGAGGAGTCGTTTTATGACGGCGAAAACAGCACCGAAAGTCACGCTGTGG +GAGTTCTTCCAGCAGTTAGGCAAAACCTTCATGTTACCCGTGGCATTATTGTCGTTCTGCGGCATTATGC +TCGGCATTGGTAGTTCTCTTAGCAGCCATGATGTCATAACCCTGATCCCGGTCCTGGGCAACCCCGTGTT +GCAGGCTATCTTTACCTGGATGAGTAAGATTGGCTCGTTTGCTTTTAGTTTCCTGCCTGTCATGTTCTGT +ATCGCCATCCCGCTGGGCCTGGCACGCGAAAATAAAGGCGTAGCGGCATTCGCTGGCTTCATCGGTTATG +CGGTAATGAACCTCGCGGTAAACTTCTGGTTGACCAATAAAGGCATTCTGCCAACCACGGATGCCGCGGT +TCTGAAAGCCAATAACATCCAGAGCATTCTTGGGATCCAGTCGATCGATACCGGGATCCTCGGTGCGGTG +ATCGCCGGTATTATCGTCTGGATGCTGCATGAGCGTTTCCATAATATCCGCCTGCCGGATGCGCTGGCAT +TCTTCGGCGGTACGCGCTTCGTACCAATTATCTCCTCGCTGGTGATGGGCCTTGTCGGCCTGGTGATTCC +ATTAGTCTGGCCGATTTTCGCCATGGGTATTAGCGGCTTGGGCCATATGATAAACAGCGCGGGTGATTTC +GGACCGATGCTGTTTGGTACCGGTGAACGTCTGCTGTTGCCGTTTGGTCTGCATCACATTCTGGTGGCAT +TAATTCGCTTTACCGACGCAGGCGGCACGCAGGAAGTCTGCGGTCAAACCGTCAGCGGCGCACTGACCAT +CTTCCAGGCGCAATTGAGTTGCCCGACCACTCACGGTTTTTCTGAAAGCGCCACGCGTTTCCTTTCGCAA +GGTAAAATGCCTGCGTTTCTCGGCGGTCTGCCAGGTGCAGCGTTAGCTATGTATCACTGCGCGCGCCCGG +AAAATCGCCATAAAATTAAAGGTCTGCTGATTTCTGGCCTGATCGCCTGCGTCGTTGGCGGCACTACCGA +ACCGCTGGAATTCCTGTTCCTGTTCGTAGCGCCAGTTCTGTATGTCATCCACGCGCTGTTAACCGGCCTC +GGCTTCACCGTCATGTCTGTGCTCGGCGTCACCATCGGTAATACCGACGGCAATATCATCGACTTCGTGG +TGTTCGGTATTTTGCATGGTCTGTCAACCAAGTGGTACATGGTGCCAGTGGTGGCGGCAATCTGGTTTGT +CGTTTACTACGTCATCTTCCGTTTCGCTATCACCCGCTTCAATCTGAAAACCCCGGGGCGCGATAGCGAA +GTTGCCAGCTCAATCGAAAAAGCCGTTGCCGGTGCGCCGGGTAAATCAGGTTACAACGTTCCTGCAATCC +TCGAAGCATTAGGCGGTGCCGACAATATTGTCAGCCTCGATAACTGCATTACCCGTCTGCGTTTGTCTGT +GAAAGATATGTCGCTTGTTAATGTGCAGGCACTGAAGGACAATCGGGCAATTGGCGTAGTACAACTTAAT +CAACATAACCTGCAGGTTGTTATCGGGCCACAAGTTCAGTCAGTAAAAGATGAAATGGCCGGTCTGATGC +ATACTGTCCAGGCATAAGGATAAGATATGTTCGATTTTTCAAAGGTCGTGGATCGTCATGGCACATGGTG +TACACAGTGGGATTATGTCGCTGACCGTTTCGGCACTGCTGACCTGTTACCGTTCACGATTTCAGACATG +GATTTTGCCACTGCCCCCTGCATTATCGAGGCGCTGAATCAGCGCCTGATGCACGGCGTATTTGGCTACA +GCCGCTGGAAAAACGATGAGTTTCTCGCGGCTATTGCCCACTGGTTTTCCACCCAGCATTACACCGCCAT +CGATTCTCAGACGGTGGTGTATGGCCCTTCTGTCATCTATATGGTTTCAGAACTGATTCGTCAGTGGTCT +GAAACAGGTGAAGGCGTGGTGATCCACACACCCGCCTATGACGCATTTTACAAGGCCATTGAAGGTAACC +AGCGCACAGTAATGCCCGTTGCTTTAGAGAAGCAGGCTGATGGTTGGTTTTGCGATATGGGCAAGTTGGA +AGCCGTGTTGGCGAAACCAGAATGTAAAATTATGCTCCTGTGTAGCCCACAGAATCCTACCGGGAAAGTG +TGGACGTGCGATGAGCTGGAGATCATGGCTGACCTGTGCGAGCGTCATGGTGTGCGGGTTATTTCCGATG +AAATCCATATGGATATGGTTTGGGGCGAGCAGCCGCATATTCCCTGGAGTAATGTGGCTCGCGGAGACTG +GGCGTTGCTAACGTCGGGCTCGAAAAGTTTCAATATTCCCGCCCTGACCGGTGCTTACGGGATTATAGAA +AATAGCAGTAGCCGCGATGCCTATTTATCGGCACTGAAAGGCCGTGATGGGCTTTCTTCCCCTTCGGTAC +TGGCGTTAACTGCCCATATCGCCGCCTATCAGCAAGGCGCGCCGTGGCTGGATGCCTTACGCATCTATCT +GAAAGATAACCTGACGTATATCGCAGATAAAATGAACGCCGCGTTTCCTGAACTCAACTGGCAGATCCCA +CAATCCACTTATCTGGCATGGCTTGATTTACGTCCGTTGAATATTGACGACAACGCGTTGCAAAAAGCAC +TTATCGAACAAGAAAAAGTCGCGATCATGCCGGGGTATACCTACGGTGAAGAAGGTCGTGGTTTTGTCCG +TCTCAATGCCGGCTGCCCACGTTCGAAACTGGAAAAAGGTGTGGCTGGATTAATTAACGCCATCCGCGCT +GTTCGTTAACCCCAATTGCGCAACGTAAAAAATCGTTGCGCAATCGTGGATTTTTACCCTGCTTTGTTTT +TATAATGGTGCGCACTTTTATATCCAGAAAAAGAGTGCGACCATGATTGATACCACCCTGCCATTAACTG +ATATCCATCGCCACCTTGATGGCAACATTCGTCCCCAGACCATTCTTGAACTTGGCCGCCAGTATAATAT +CTCGCTTCCTGCACAATCCCTGGAAACACTGATTCCCCACGTTCAGGTCATTGCCAACGAACCCGATCTG +GTGAGCTTTCTGACCAAACTTGACTGGGGCGTTAAAGTTCTCGCCTCTCTTGATGCCTGTCGCCGCGTGG +CATTTGAAAACATTGAAGATGCAGCCCGTCACGGCCTGCACTATGTCGAGCTGCGTTTTTCACCAGGCTA +CATGGCAATGGCACATCAGCTGCCTGTAGCGGGTGTTGTCGAAGCGGTGATCGATGGCGTACGTGAAGGT +TGCCGCACCTTTGGTGTGCAGGCGAAGCTTATCGGCATTATGAGCCGGACCTTCGGCGAAGCCGCCTGTC +AGCAAGAGCTGGAGGCCTTTTTAGCCCACCGTGACCAGATTACCGCACTTGATTTAGCCGGTGATGAACT +TGGTTTCCCGGGAAGTCTGTTCCTTTCTCACTTCAACCGCGCGCGTGATGCGGGCTGGCATATTACCGTC +CATGCAGGCGAAGCTGCCGGGCCGGAAAGCATCTGGCAGGCGATTCGTGAACTGGGTGCGGAGCGTATTG +GACATGGCGTAAAAGCCATTGAAGATCGGGCGCTGATGGATTTTCTCGCCGAGCAACAAATTGGTATTGA +ATCCTGTCTGACCTCCAATATTCAGACCAGCACCGTAGCAGAGCTGGCTGCACATCCGCTGAAAACGTTC +CTTGAGCATGGCATTCGTGCCAGCATTAACACTGACGATCCCGGCGTACAGGGAGTGGATATCATTCACG +AATATACCGTTGCCGCGCCAGCTGCTGGGTTATCCCGCGAGCAAATCCGCCAGGCACAGATTAATGGTCT +GGAAATGGCTTTCCTCAGCGCTGAGGAAAAACGCGCACTGCGAGAAAAAGTCGCCGCGAAGTAACAAAAT +GGATGGTGCAAATGCACCATCCATTTTTCATGCAAGGCACAAAGTCGCGCGATGTTTGGCGGATTCGATG +CCCAGCTCAATCAACTCCATTACCTGGATTGCCTGGCTTGCCGGAACCGGATTTTCACCATCGCCATTTA +ACGCATCACGAATAGCCGCATAGTAAGCCGGATAATTCCCAGGCACCGTCAACAGCGTTTCTTCGACACG +TTCCTCACCTTCCACGCGGGTAAGTACGCCATCACGCATATCGTAGCCCCAGTCTTCCTGCGGTAGACGC +TCGCCATTTTTCAGACGTTCTTCCTGTGGATCGAGGCCATATTTCACATAACTGCCTCGGGATCCATGCA +CGATATACCGTGCTGACTCAGCGGCTGCCAGCATGGTACCGTGTAAAATGACTCGCCGCTGTGGATAGGA +CAAGATGGCGTGGAAATAATCGGTCGACTGCGCTCCGGGCCGTAACTGTGCCAAATCTACCGTCATGCTG +ACCGGTAAACCAAAAAGCGTAATGGCCTGATCAAGAAGATGTGGTGCTAAATCGTACCAGATACCGCTGC +CTGGGCCGCCCTGTTCACGCCAACGATCGCGCACCTGCGGACGGAAGCGGTCAAAATGAGACTCAAAGTA +AGCAACTTCACCCAGCACGCCTTCCGCGAGTAAACCTTTTAGCGTCAAGAAATCGCTATCCCAGCGACGG +TTATGGAATACAGACAGCACACGCCCCAGGCTTTTTGCCAGCGCATCCAGCTCTCGCGCTTGTGACAGTG +TCACGGTAAAGGGTTTATCAACGACCACATGTTTACCCGCCTCAAGCGCCGCTTTGGCTAACGGGAAATG +GGTATCGTTGGGTGTAGGAATGACAATCAGGTCTATGTTGGGATCGTTAAACAGATGCTTCGGCTCAGAG +ACAACCGTAACCGTTGGCCAGTCGGCTTTTACTTTTGTTTCATCACTGCTGGAGATTACCGCCAGTTCCT +GCCCGGGCGTGCCCGCAATCAGGGGCGCATGGAAGGTTTTGCTCGCATAACCATACCCAATCAACCCAAC +ACGGATGTTGTCGCTCATGTCATTGCCTCTCATTGAAGTATGATGGCTATTTGACACTATCCTTTACCCA +CGCTCAACAGTTTAATAACCTGCCAGCAATAAGGGATGTTGTTTAACTTAAGTCAAAAAAATAGCGAATT +TTCCAACGACAAAAGCTAAATATCGCAAAAACCTCAGTAAAAATCTTGCTGGAGCTATTATTGCTAAGTA +ACATTTACCCCCTGAAGTTAATGGATCAATCAAGAGAGATGTGGGCTGTAATGAATCGTCTTATTGAATT +AACAGGTTGGATCGTTCTTGTCGTTTCAGTCATTCTTCTTGGCGTGGCGAGTCACATTGACAACTATCAG +CCACCTGAACAGAGTGCTTCGGTACAACACAAGTAAGCTCTGCACTTGTGGAGCGACATGCTGCCCGTCC +GGGTGCATGTTTTCACTTGTCGGATATTAAACCAGGAATTTATTATCTTGTTCGATGTTGTTGGTGATTG +TCAGGGATAGTAAAGCGCGTTACTCTTTTCAGAGCAGTTTTTCATCCCTGAATATTTGCCATCAGCGCAT +TCTTATTATTGTAATAACACAAGCGTTCACTTTTGGTGAAATTTTATCATCACTAATAATACCTACCCCT +TTGGTATTAATTATTTTATGGACCTTTTATGACTGTTCAGGACTACTTATTAAAATTTCGCAAAATCAGT +TCACTCGAAAGTCTGGAAAAACTCTACGACCATCTTAATTACACCCTGACGGACGATCAGGAACTGATCA +ATATGTATCGTGCTGCCGATCACCGTCGCGCAGAGCTGGTTTCTGGCGGGCGTTTGTTTGACCTCGGCCA +GGTACCGAAGTCCGTCTGGCACTATGTCCAATAAAGAAAGTAGCGATCGGTTATAAAAGCCTTATAATAA +CGCCCCTAAAATTAGATTTGCCTGTTTGCGTCGCTATTCTGGAGAACCTATGACCACCACAACGCCACAA +CGTATTGGAGGCTGGTTGCTTGGCCCGTTGGCCTGGCTTTTAGTCGCTCTGTTGAGTACGACGCTGGCGT +TGTTGCTGTATACCGCTGCGTTATCTTCTCCGCAAACATTTCAAACGCTCGGCGGACAAGCACTGACGAC +ACAAATCTTATGGGGCGTTTCTTTTATTACCGCTATCGCCTTGTGGTATTACACACTGTGGTTGACCATC +GCTTTCTTTAAACGTCGGCGTTGTGTTCCTAAACACTATATTATCTGGCTGCTTATTTCCGTATTGCTGG +CAGTAAAAGCATTCGCTTTTTCACCCGTGGAAGATGGCATAGCCGTTCGCCAGTTGCTGTTTACTTTGTT +GGCAACCGCATTGATCGTCCCCTATTTCAAACGCTCGTCGCGGGTAAAAGCGACGTTTGTGAATCCGTAA +TAACCTTACAGTTAACCTGTTGTCGCCTGCTCTGGATTAACGGATAATAGGCGGCTTTTTTATTTCAGGC +CGAAAAATGACTGACTACCTGTTACTGTTTGTCGGAACTGTACTGGTCAATAACTTTGTACTGGTCAAGT +TTCTCGGTCTCTGTCCGTTTATGGGGGTTTCCAAAAAACTGGAAACCGCGATGGGCATGGGGCTGGCAAC +AACGTTTGTGATGACGCTGGCGTCTATTTGCGCCTGGCTTATCGATACGTGGATTTTGATCCCACTTAAT +CTGATTTACCTGCGCACCCTGGCATTTATTCTGGTGATTGCTGTGGTCGTGCAGTTCACCGAGATGGTGG +TGCGCAAAACCAGCCCGGTGCTTTACCGTCTGCTGGGGATTTTTTTGCCGCTTATCACCACCAACTGTGC +AGTGCTCGGCGTGGCGTTGCTGAATATCAATCTCGGGCACAATTTCTTGCAGTCGGCGCTGTACGGTTTT +TCCGCCGCTGTCGGTTTCTCGCTGGTGATGGTGCTCTTCGCCGCCATCCGCGAACGCCTTGCTGTGGCTG +ATGTCCCGGCACCTTTTCGCGGTAATGCCATTGCGTTAATTACCGCAGGTCTTATGTCTCTGGCCTTTAT +GGGCTTTAGTGGTTTGGTGAAGTTGTAATGAATGCTATCTGGATTGCCGTTGCCGCCGTGAGCCTGCTGG +GCCTGGCGTTTGGCGCCATTCTGGGTTATGCCTCCCGCCGTTTTGCGGTGGAAGACGATCCGGTCGTTGA +GAAAATTGACGAAATCTTACCGCAGAGCCAGTGTGGTCAGTGCGGTTATCCCGGCTGTCGCCCCTACGCG +GAAGCCATCAGCTGTAACGGTGAAAAAATCAACCGTTGCGCCCCAGGTGGCGAAGCTGTGATGCTAAAAA +TTGCCGAGTTGCTTAATGTCGAGCCGCAGCCGCTGGATGGCGAAGCGCAAGAGATAACGCCTGCGCGGAT +GGTGGCGGTTATTGATGAAAATAACTGTATTGGCTGCACTAAATGTATTCAGGCGTGTCCGGTAGACGCC +ATCGTTGGCGCTACCCGTGCCATGCATACGGTAATGAGTGATCTCTGTACGGGCTGCAATTTATGTGTTG +ATCCGTGCCCGACGCACTGCATCTCGTTGCAACCGGTCGCAGAAACACCTGACTCCTGGAAATGGGATCT +GAACACCATTCCCGTGCGTATCATTCCCGTGGAACACCATGCTTAAGTTATTCTCTGCATTCAGAAAAAA +TAAAATCTGGGATTTCAACGGCGGCATCCATCCACCGGAGATGAAAACCCAGTCCAACGGTACACCCCTG +CGCCAGGTACCCCTGGCGCAGCGTTTTGTTATTCCACTGAAACAGCATATTGGCGCTGAAGGTGAGTTGT +GCGTTAGCGTCGGCGATAAAGTATTGCGCGGCCAGCCGCTTACCCGTGGTCGCGGCAAAATGCTGCCTGT +TCACGCGCCCACCTCGGGTACCGTTACGGCTATTGCGCCCCACTCTACGGCTCATCCTTCAGCTTTAGCT +GAATTAAGCGTGATTATTGATGCCGATGGTGAAGACTGCTGGATCCCGCGCGACGGCTGGGCCGATTATC +GCACTCGCAGTCGCGAAGAGTTAATCGAGCGCATACATCAGTTTGGTGTTGCCGGGCTGGGCGGTGCAGG +ATTCCCGACAGGCGTTAAATTGCAGGGTGGCGGAGATAAGATTGAAACGTTGATTATCAACGCGGCTGAG +TGCGAGCCGTACATTACCGCCGATGACCGTTTGATGCAGGATTGCGCGGCTCAGGTCGTAGAGGGTATTC +GCATTCTTGCGCATATTCTGCAGCCACGCGAAATTCTTATCGGCATTGAAGATAACAAACCGCAGGCGAT +TTCCATGCTGCGCGCGGTGCTGGCGGACTCTAACGATATTTCTCTGCGGGTGATTCCAACCAAATATCCT +TCTGGCGGTGCTAAACAATTAACCTACATTCTGACCGGGAAGCAGGTTCCACATGGCGGGCGTTCATCCG +ATATCGGCGTATTAATGCAAAACGTCGGCACTGCTTATGCAGTGAAACGTGCCGTTATTGATGGCGAGCC +GATTACCGAGCGTGTTGTAACCCTGACTGGCGAAGCAATCGCTCGCCCGGGCAACGTCTGGGCACGGCTG +GGGACGCCAGTGCGTCATTTATTGAATGATGCCGGATTCTGCCCCTCTGCCGATCAAATGGTGATTATGG +GTGGCCCGCTAATGGGCTTTACCTTGCCATGGCTGGATGTCCCGGTCGTAAAGATTACCAACTGTCTGTT +GGCTCCCTCTGCCAATGAACTTGGCGAACCACAGGAAGAACAAAGCTGCATCCGGTGTAGCGCCTGTGCT +GACGCCTGCCCTGCGGATCTTTTGCCGCAACAGTTGTACTGGTTCAGCAAAGGTCAGCAACACGATAAAG +CTACCACGCATAACATTGCTGATTGCATTGAATGTGGGGCTTGCGCGTGGGTTTGCCCGAGCAATATTCC +CCTGGTGCAATATTTCCGTCAGGAAAAAGCTGAAATTGCGGCTATTCGTCAGGAAGAAAAGCGCGCCGCA +GAAGCCAAAGCGCGTTTCGAAGCGCGCCAGGCTCGTCTGGAGCGCGAAAAAGCGGCTCGCCTTGAACGAC +ATAAGAGCGCAGCCGTTCAACCTGCAGCCAAAGATAAAGATGCGATTGCTGCCGCTCTGGCGCGGGTGAA +AGAGAAACAGGCCCAGGCTACACAGCCTATTGTGATTAAAGCGGGCGAACGCCCGGATAACAGTGCAATT +ATTGCAGCACGGGAAGCCCGTAAAGCGCAAGCCAGAGCGAAACAGGCAGAACTGCAGCAAACTAACGACG +CAGCAACCGTTGCTGATCCACGTAAAACTGCCGTTGAAGCAGCTATCGCCCGCGCCAAAGCGCGCAAGCT +GGAACAGCAACAGGCTAATGCGGAACCAGAACAACAGGTCGATCCGCGCAAAGCCGCCGTCGAAGCCGCT +ATTGCCCGTGCCAAAGCGCGCAAGCTGGAACAGCAACAGGCTAATGCGGAACCAGAAGAACAGGTCGATC +CGCGCAAAGCCGCCGTCGAAGCCGCTATTGCCCGTGCCAAAGCACGCAAGCTGGAACAGCAACAGGCTAA +TGCCGAGCCAGAACAACAGGTCGATCCGCGCAAAGCCGCCGTCGAAGCCGCTATTGCCCGAGCCAAAGCG +CGCAAACGGGAACAGCAACCGGCTAATGCGGAGCCAGAAGAACAGGTTGATCCGCGCAAAGCTGCCGTCG +AAGCGGCTATTGCACGCGCCAAAGCACGCAAGCTGGAACAGCAACAGGCTAATGCGGTACCAGAAGAACA +GGTTGATCCGCGCAAAGCGGCAGTTGCCGCGGCTATTGCCCGCGCTCAGGCCAAAAAAGCCGCCCAGCAG +AAGGTTGTAAACGAGGACTAAATGGTATTCAGAATAGCTAGCTCCCCTTATACCCATAACCAGCGCCAGA +CATCGCGCATTATGCTGTTGGTGTTGCTCGCAGCCGTGCCAGGAATCGCAGCGCAACTGTGGTTTTTTGG +TTGGGGTACTCTCGTTCAGATCCTGTTGGCATCGGTTAGTGCTCTGTTAGCCGAAGCTCTCGTACTCAAA +CTACGCAAGCAGTCGGTAGCCGCAACGTTGAAAGATAACTCAGCATTGCTGACAGGCTTATTGCTGGCGG +TAAGTATTCCCCCCCTCGCGCCATGGTGGATGGTCGTGCTGGGTACGGTGTTTGCGGTGATCATCGCTAA +ACAGTTGTATGGCGGTCTGGGACAAAACCCGTTTAATCCGGCAATGATTGGTTATGTGGTCTTACTGATC +TCCTTCCCCGTGCAGATGACCAGCTGGTTACCGCCACATGAAATTGCGGTCAACATCCCTGGTTTTATCG +ACGCCATCCAGGTTATTTTTAGCGGTCATACCGCCAGTGGTGGTGATATGAACACACTACGCTTAGGTAT +TGATGGCATTAGTCAGGCGACACCGCTGGATACATTTAAAACCTCTGTCCGTGCCGGTCATTCGGTTGAA +CAGATTATGCAATATCCGATCTACAGCGGTATTCTGGCGGGCGCTGGTTGGCAATGGGTAAATCTCGCCT +GGCTGGCTGGCGGCGTATGGTTGCTATGGCAGAAAGCGATTCGCTGGCATATTCCCCTCAGCTTCTTAGT +AACGCTGGCGTTATGCGCAATGTTGGGCTGGTTGTTCTCACCAGAAACACTGGCAGCACCGCAAATTCAT +CTGCTGTCTGGAGCGACCATGCTCGGCGCATTCTTTATTTTGACTGACCCGGTTACCGCTTCTACGACCA +ATCGTGGTCGTCTTATTTTCGGCGCGCTTGCGGGCTTATTAGTCTGGTTGATCCGCAGTTTCGGCGGCTA +TCCTGACGGCGTGGCTTTTGCCGTCCTGCTGGCGAACATCACGGTTCCTCTGATCGATTACTACACGCGT +CCGCGCGTCTACGGCCATCGCAAAGGGTAAACCATGCTGAAAACTATCCGAAAACACGGCATTACGTTGG +CGCTATTTGCAGCGGGTTCAACAGGGTTAACTGCGGCCATCAACCAGATGACCAAAACGACGATTGCTGA +ACAGGCCAGTCTGCAACAAAAGGCGTTATTTGATCAGGTGCTGCCAGCCGAACGCTATAACAATGCGCTG +GCACAGAGTTGCTATCTGGTAACTGCGCCAGAGTTAGGTAAAGGTGAGCATCGGGTTTACATCGCCAAAC +AGGATGACAAACCGGTAGCCGCCGTTCTGGAAGCAACCGCGCCAGATGGCTATTCCGGTGCGATTCAGCT +GCTGGTGGGAGCCGATTTTAACGGCACGGTACTTGGCACGCGCGTGACAGAGCACCACGAAACGCCAGGG +CTTGGCGATAAAATCGAACTGCGCCTTTCTGACTGGATCACCCATTTTGCGGGTAAAAAAATCAGTGGTG +CAGATGATGCGCACTGGGCGGTGAAGAAAGATGGTGGTGATTTCGACCAGTTCACCGGCGCGACGATTAC +TCCCCGCGCGGTGGTTAATGCGGTAAAACGCGCCGGATTGTACGCTCAGACGTTACCGGCACAACTTTCT +CAACTTCCTGCCTGTGGAGAATAAAGCGTGAGCGAAATTAAAGACGTTATTGTTCAGGGGTTGTGGAAAA +ACAACTCTGCGCTGGTCCAGTTGCTCGGCCTTTGTCCTCTGTTGGCGGTCACGTCCACTGCCACTAACGC +TCTGGGTTTAGGACTTGCGACTACGCTGGTACTGACGCTGACCAACCTGACCATTTCGACGCTGCGTCAC +TGGACGCCAGCCGAGATCCGCATTCCCATTTACGTGATGATCATCGCCTCGGTGGTCAGCGCTGTACAGA +TGCTGATCAACGCCTACGCCTTTGGCCTGTATCAATCATTAGGGATTTTTATTCCGCTGATTGTCACTAA +CTGTATCGTTGTGGGCCGCGCTGAAGCCTTCGCCGCCAAAAAAGGTCCGGCGCTTTCGGCACTGGACGGC +TTTTCAATTGGTATGGGCGCAACCTGCGCCATGTTCGTGCTGGGTTCACTACGCGAAATTATCGGCAATG +GCACATTGTTTGACGGTGCAGATGCGCTGTTAGGTAGCTGGGCAAAAGTATTACGCGTGGAGATTTTCCA +CACCGACTCCCCTTTCCTGCTGGCGATGCTGCCACCAGGTGCATTTATTGGCCTGGGACTGATGCTGGCA +GGAAAATACCTGATTGATGAAAGAATGAAAAAGCGCCGTGCTGAAGCAGCTGCAGAACGTGCATTGCCAA +ACGGTGAAACAGGGAATGTCTGATGAATAAAGCAAAACGCCTGGAGATCCTCACTCGCCTGCGTGAGAAC +AATCCTCATCCCACCACCGAGCTTAATTTCAGTTCGCCTTTTGAATTGCTGATTGCCGTACTGCTTTCCG +CTCAGGCGACCGATGTCAGTGTTAATAAGGCGACGGCGAAACTCTACCCGGTGGCGAATACGCCTGCAGC +GATGCTTGAACTGGGCGTTGAAGGGGTGAAAACCTATATCAAAACGATTGGGCTTTATAACAGCAAAGCA +GAAAATATCATCAAAACCTGCCGTATCTTGCTGGAGCAGCATAATGGCGAGGTTCCGGAAGATCGTGCTG +CGCTTGAAGCCCTGCCCGGCGTAGGTCGTAAAACAGCCAACGTCGTATTAAACACTGCATTCGGCTGGCC +GACTATTGCTGTCGACACGCACATTTTCCGCGTTTGTAATCGTACTCAATTTGCGCCGGGGAAAAACGTC +GAACAGGTAGAAGAAAAGCTACTGAAAGTGGTTCCAGCAGAGTTTAAAGTCGACTGCCACCATTGGTTGA +TCCTGCACGGGCGTTATACCTGCATTGCCCGCAAGCCCCGCTGTGGCTCTTGTATTATTGAAGATCTTTG +TGAATACAAAGAGAAAGTTGACATCTGAAGAAAAGGGGTAACACCGATTACCCCATTGATAACCTTTCTT +TATCCTCTTTTAAAACATCTTTTTAACGTCAATGATGCCATTGCTTAGCGTTATCATCAGGTAATCCGTT +TGCGGATAACCAAAAATGCAGGTTAATTGTTTTTTTAATAGCGAAATTTTCTATTCATTCGTGATCAAGA +TCACGATGCTGTCGCAATGTAAAAACATTGCAAGAATCAGGTTAAAATCATTTAAATTTACACACGCAAC +AAATATTGACCTACAAAACATTACACTGGCTATTTTTCAGAAACTGGACTATCTCACTAGTAAAAACGCT +AAATAGCAGAACATATCGCCGTTAAGCCATCACCCCCCTCTCAGTGCAGTGAAAAAATCTGCCGTTACGT +TTTTTGAAAAATTTAACGCTGGATAACATTTCCCGGAATGGTTGAATTCCCCGCCTCAGTTATATGTAAC +AGATTATTACAAAGGACTTGTCTGAAAGTGCAAGATAGTGAACATTACCTGCCGTTTCCCCTCCCACTAT +AACAATTGCGCGTATGTTTTTTATACATAACGCGAGAAAGCACCCCCGTTAATATGGGATGTAAAAAAAG +AGGTAAAAGTGTCCACTGCAAACCAAAAACCAACTGAAAGCGTCAGTTTGAACGCTTTCAAACAACCGAA +GGCGTTCTATCTCATCTTCTCGATTGAGTTATGGGAACGTTTTGGTTATTACGGCCTACAAGGAATTATG +GCTGTTTACCTGGTTAAACAACTGGGTATGTCTGAAGCGGATTCAATCACCCTTTTCTCTTCCTTTAGTG +CCCTGGTTTATGGTCTGGTCGCTATCGGCGGCTGGTTAGGTGACAAGGTACTGGGTACTAAACGCGTAAT +TATGCTCGGCGCTATTGTGCTGGCGATTGGTTATGCTCTGGTTGCCTGGTCTGGTCACGACGCCGGTATC +GTTTATATGGGTATGGCGGCTATTGCGGTCGGTAACGGCCTGTTTAAAGCTAACCCGTCTTCTCTGCTTT +CTACATGCTATGAGAAAAACGACCCGCGTCTGGACGGTGCATTCACCATGTACTACATGTCCGTCAACAT +CGGCTCTTTCTTCTCTATGATTGCTACGCCGTGGCTGGCCGCGAAATACGGCTGGAGTGTTGCGTTTGCG +TTGAGCGTTGTAGGCCTGCTGATCACTATCGTTAACTTCGCCTTCTGCCAACGCTGGGTTAAACAGTACG +GTTCAAAACCAGACTTCGAGCCTATCAACTACCGTAACCTGCTGCTGACCATTATTGGTGTTGTGGCACT +GATCGCTATCGCCACCTGGCTGCTGCACAATCAGGAAGTTGCGCGTATGGCGCTGGGCGTTGTTGCCTTC +GGTATCGTGGTTATCTTCGGTAAAGAAGCCTTCGCGATGAAAGGTGCTGCGCGTCGTAAAATGATCGTTG +CCTTCATCCTGATGCTCGAAGCCATTATCTTCTTCGTGCTGTACAGCCAGATGCCAACGTCACTGAACTT +CTTTGCGATTCGTAACGTTGAGCACTCCATTCTGGGTCTGGCCGTAGAACCTGAGCAGTATCAGGCACTG +AACCCGTTCTGGATCATCATCGGTAGTCCGATTCTGGCCGCTATCTATAACAAGATGGGCGATACCCTGC +CGATGCCAACCAAGTTTGCAATCGGCATGGTGATGTGTTCTGGTGCGTTCCTGATTCTGCCGCTGGGTGC +GAAATTCGCGTCTGACGCTGGTATCGTGTCTGTAAGCTGGCTGGTCGCAAGCTATGGCCTGCAGAGCATC +GGGGAACTGATGATCTCTGGTCTGGGTCTGGCAATGGTTGCTCAACTCGTTCCGCAGCGTCTGATGGGCT +TCATTATGGGTAGCTGGTTCCTGACCACTGCCGGTGCAAACCTGATTGGTGGTTATGTTGCGGGTATGAT +GGCTGTGCCGGATAACGTTACCGATCCGCTGATGTCACTGGAAGTCTATGGTCGCGTATTCTTGCAGATT +GGTGTCGCTACTGCCGTTATTGCAGTACTGATGCTGCTGACCGCGCCGAAACTGCACCGCATGACGCAGG +ATGACGCTGCAGACAAAGCGGCGAAAGCAGCCGTAGCGTAAAATTCAGGGAAACTCTTTTACAAGCCGCT +AACTTTTCGTTAGCGGCTTTTTTTTTGTTCAGCAACGCACTACCATACTTTAAACCACAGACAAAAGGAG +TTACCGATGAAATTGTTCTACAAACCGGGTGCCTGCTCTCTCGCTTCCCATATCACCCTGCGTGAGAGCG +GAAAGGATTTTACCCTCGTCAGTGTGGATTTAATGAAAAAACGTCTCGAAAACGGTGACGATTACTTTGC +CGTTAACCCTAAGGGGCAGGTGCCTGCATTGCTGCTGGATGACGGTACTTTGCTGACGGAAGGCGTAGCG +ATTATGCAGTATCTTGCCGACAGCGTCCCCGACCGCCAGTTGCTGGCACCGGTAAACAGTATTTCCCGCT +ATAAAACCATCGAATGGCTGAATTACATCGCCACCGAGCTGCATAAAGGTTTCACACCTCTGTTTCGCCC +TGATACACCGGAAGAGTACAAACCGACAGTTCGCGCGCAGCTGGAGAAGAAGCTGCAATATGTGAACGAG +GCACTGAAGGATGAGCACTGGATCTGCGGGCAAAGATTTACAATTGCTGATGCCTATCTGTTTACGGTTC +TGCGCTGGGCATACGCGGTGAAACTGAATCTGGAAGGGTTAGAGCACATTGCAGCATTTATGCAACGTAT +GGCTGAACGTCCGGAAGTACAAGACGCGCTGTCAGCGGAAGGCTTAAAGTAATAGCCATCGGCCCACAGG +TCGTTGTGGGCCGAAATGAGATATTTCAGAGCTTTGTTGCGCTGAAGTAATGTTCTGGTTTGGCAATACG +ATCCTGAGCAGCCACCACTTGCAGCTCATATTCCTGCATTGCTTTGGTGGTCACCATGATTTCGTAGACT +GCAGCGGTCACATGTTCCAGCGCCTCCTGCAGCGTTGCCCCCTGAAGCAGTTTCACCAGCAGTAAACCGC +TCGTCACATCACCAACACCTACCGGCTGGCGCATACCAAAATCCACCAGCGGACGGCTGATATGCCAGGC +TTCATCGGCGGTGACCAGCAGCATTTCAAAACGGTCACGGCTGTAGCCAGCTCGCGCCAGGTGTTTAACC +AACACAATTTGTGGCCCTTGCGCAATGAGTTCGCGCGCTGCCAGAACCGCTTCTTCGACGTTATTTACCG +CATGCTCACAGAGTATTTCCAGCTCAACCAGATTTGGCGCAATGATATCGCTGGCAGGCAAACCGTGCCG +CACATGAAACTCTGCGACACCCGGTGCAACGATACAGCCTTTTTCCGGATGACCCATTACCGGATCGCAA +AAATATTTCGCCTGCGGATTCGCGGCTTTCACCTGACGGACGATACCGAGGATATGTTCACCCTGCTCCG +CCGATCCCAGATAGCCACTTAATACGGCATCACAGGTGTGTAATTTATCAATGGCGGCAATGCCTTGCAC +AATTTCGGTTAAATGGCTGGGCGGCATCACGCAGCCAGTCCATTTGCCGTATTGGGTGTGATTAGAAAAT +TGAACGGTGTTCAGCGGCCAGACGTTCGCGCCCAGGCGGCGCATCGGAAACTCTGCCGCACTGTTACCCG +CATGACCATAAACAACGTGAGACTGGATAGCGAGAATATTTTTCATCATGTTCCCTGTATAAAAACCAGG +GGGAGTGATTTCTCACTCCCCCTTTCCACTTAATGCATTATTTCCAGCAAATCAGACAGTAATTCTTTTT +ACCGCGACGCAGTAAGGTAAAACGACCAAACAGACGATCTTCTTCTTTAAAGAAGTATTCAGGATCGGAC +TGTTTTTCACCGTTAATGGTGATGGCATTGGAGGCGATAGTTTTACGTGCCTGACCACGGGAAGGTTGCA +GTTCAGAATCGACCAGTGCCTGCATCAGGTCTGCGCCCTTTTCCATCTCAACCATCGGTACGCCGTCCTG +CGCCAGCTGTTCGAAGTCCGCTTCACTCAGCGCACTCAAAGAACCGCTGAACAGGCATTCGGTAATACGT +TTTGCCGCCTGTAAACCTTCTTCACCGTGAACCAGACGAGTCACCTGCTCCGCCAGTACATACTGGGCGC +GCGGTGCTTTACCGCTGTTTTTATCTTCTTCTTCCAGGGCGTTGATCTCTTCAATGCTCATAAAGGTGAA +GAACTTCAGGAAGCGGTAAACGTCGGCATCCGCAGTGTTGATCCAGAACTGGTAGAATTTGTACGGGCTG +GTTTTCTTCGGATCCAACCAGACTGCGCCGCCTTCAGTTTTACCAAATTTGGTGCCATCTGCTTTAGTGA +TCAGCGGAACGGTCAGGCCAAACACCTGATTCTGATGCAGACGACGGGTCAGGTCGATACCAGAAGTGAT +GTTACCCCACTGGTCAGAACCACCAATTTGCAGCACCACACCGTACTGTTTGTTCAGACAGGCGAAGTCA +TAACCCTGCAACAGGTTGTAGGAAAACTCAGTGAACGAAATCCCCTGATCTTCACGGTTGAGACGCTGCT +TAACCGCTTCTTTGTTGATCATCTGGTTAACGGAGAAGTGTTTGCCAATATCGCGCAGGAAGGTCAGCAC +ATTCATATTGCCGAACCAGTCATAGTTGTTCGCCGCGATAGCAGAGTTTTCTCCACAGTCGAAATCGAGG +AACGGGGCAACCTGCTTACGGATTTTGTCCACCCACTCCTGAACAGTTTCTTCGGTGTTCAGCTTACGCT +CGGCAGCTTTGAAGCTCGGGTCGCCAATCAGACCCGTCGCGCCGCCTACCAGCGCAACCGGCTTGTGGCC +CGCCTGCTGGAAGCGTTTCAGGCATAACAATGGAACAAGATGCCCCAAATGCAAGCTGTCAGCGGTAGGA +TCGAAGCCGCAATAGAGCGCGATCGGGCCTTGCGCCAGTCGCTCTGCTAACGCTTCCTCGTCCGTCACCT +GGGCTACCAGCCCCCGCTCTTGCAATTGTTTAATCAAGTTACTGCTTGCCATCAAAATCTCCATGTATAT +AACGACTGCACCTTTGCCGGTACACGACTTTTCGCCAGATGCGAAAGAGACATAGAATAAAGTGCCAGAA +TCAGGAGTACCAGCGATTAAAGCAAGATTTTTGCATCTTTTCAGGGTGCAAGACGATCAATCTTCCACGC +ATCATTTTCACGCTGGTACAAAAAGCGGTCATGCAGGCGATGCTCACCACCCTGCCAGAACTCAATCTGT +TCAAGGCTGACGCGAAAACCGCCCCAAAAGCTCGGCAATGGCACTTCGCCCTGTTGAAACTTCTGCTTCA +GCTCCAGGAATTTACTTTCAAGGATACCGCGGGCAGAAATGCGACTGGACTGCTTCGAAACCCATGCACC +AATCTGGCTATCACGCGGGCGGCTATGAAAATATTTCATCACTTCGAGAGTCGAAAGTCGTTCTGCTTTA +CCGATCACCATCACCTGGCGCTCAAGGGTATGCCACGGGAACAGCAGGCTAACGCGCGGATTATTTTCGA +TTTGATGTGCTTTACGGCTGCCGAGGTTGGTGTAAAACACCATGCCTTTTTCGTCGTAATGTTTGAGTAA +AACGATGCGCTGATAAGGCTGACCATGTTCATCCACGGTAGCGACCACCATCGCGGTAGGGTCCGCCAGT +TTGGCTTCACAAGCCTGAGAGAGCCAACGTTCAAAAAGGGTTAATGGATCGGCGGGAAGATCGCGGCGGC +GTAACCCGCCTTTGGTGTATTCACGGCGCAGATGCGCGATTTGCTGCAATTCGTCGTTATCAGACATGGT +TTTCTTTACGGATTGTCAGTGGGTGACGCTATTGTGCGCCGCCCCTGGAAAAATCTCAACGCTGTGGATT +TTGTAACTGACAGTTATTCAAGACGATGCGGTCGCGTTTATAGACAGTCGCTTCATCGCCTTTCGACCAG +AAAACATAGATTCCGTCAGTGTAACGCGCGCCAGAGGCTGAAATGCCCTGTTTGAGATGCAGTAGTTGAT +TATCGTAAACAAAACTGACCTCCTGGCGCGGATTATTCAGTTTGACCGTCAACGGTTTTTCATCACACTG +GTATTCCAGCGTATCGGTTTGCATGCGCTCAACCAGCTGATTAAAGGCGCTACAGCCGGAGAGAAGGACC +GGCAAAATGATAATTAACAGTTTTTTCATAGTCATATCCCGAAGACTTTCCTGGTCTGGAGGGCAATACG +CCCTCCCTAACGTTCCAAGTGTAACGGCAGACGCGGTAAGAAAAATTCAGTTAACTCTGATATCACGGGT +TAGCGGGGAAAATAGCCCCCAGTACCGTCTCCTGGCTTGCGCCAGTGACGGAAGGCAGATTTCCTGGTAA +TCCCGCCAGCGTCCGCCAGGCAAGCCAGGCGAAAGCCAATGCTTCCATGTCATCGCCACTAATGCCAACG +GCATCGGTGGTGGTGACTTCTGTGCCTGGCAGTAATGCCGCCAGACGCGCCATGAGTAGCGGATTACGAC +TACCTCCACCACATACCATCAATCGTTCGCAGCCACCGCTCAACAAAACTTGTTCAGAAATGGTCACGGC +GGTGAGTTCTGCCAGTGTCGCCTGCACATCTCGGGGATCAACACCCGGAAAATGGCGCAAATGGCGCTCC +AGCCAACCATAGTTAAAGTATTCGCGTCCGGTGCTTTTCGGTGCAGGTTGCGAGAAATACGGGTCGCTGA +GCATATTTTGCAGCAGTGGGAGAATAACTTTACCCGCCCGTGCCCACTCGGCATCTTTATCGTAAGGTTT +ACCGGCCTGACGCCAGATCCAGGCATCCATCAGCATGTTACCAGGACCGGTATCGTAGCCCCCAACCGGC +TGCCCAGGAATGAGCAGTGACAGATTGGCGATGCCGCCAATATTGAGCACCATTCGTCGCTCGGTTGGGT +GAGCCAGCAGCGCATGATGGAACGCAGGTACCAGCGGTGCGCCTTGTCCTCCCAAGGCAATATCGCGACG +GCGAAAATCACCGACAACCGTAATTCCGGTGCGTGCCACAATTTGATTGTTATCGCCAATCTGTAAAGTG +TGTGGTGCCACGCCCGTCGGTTCATGCCAGACGGTTTGACCGTGACAACCGATCGCAACTATATCTCTTG +CCTGCAGATTTTGTTCCTTAAGCAAGGCATTGACCGCATCAGCAAAAAGTTGCCCGAGTTGAGTATCAAG +CTGTCCAAACTGCGAAAGTGTAAGCTGCTGGCCCTGGCAAATATCCAGTACAGCCTGTTTCAGAGATACC +GGGATCGGCCAACTCAAACTTGCCAGCTGTGCGACCCGGTGTTCATCAATTGTCGCCAACACAACATCAA +CACCATCAAGGCTGGTGCCTGACATAACGCCAATAAAGCGGCCCGATTTCATAGTTCATCCTTTTTCAAT +CTGACGTTTGCGCACCACTCAAACATAAACTTTTCGTGAATACCATGCGGAATGACCGATTTTTACCGTT +GGTAGTAAAACATTATCTTCAAATCAATAATCATCATGAATGTTTTGTTTATAATTGGTTGATCCTACTT +TCATTATGATTTGCTCATATTTGGTAGAACATGTAACCATGGATTCACATATGCCATATACTTTGACCAT +GAGGGATGCTTGCGTGGCGTTTCATGGTGAACAGGAGATTTTTCAATGATTAAACGCGTATTGGTTGTTT +CAATGGTAGGTCTGTCTCTTGTCGGTTGTGTTAATAACGACACCCTGTCAGGGGATGTTTATACCGCTTC +TGAAGCGAAACAAGTACAGAATGTCAGCTATGGCACCATCGTTAACGTACGTCCGGTACAGATTCAGGGC +GGTGATGATTCCAACGTTATCGGTGCAATTGGCGGTGCTGTTCTTGGTGGTTTCCTGGGGAATACTGTTG +GTGGCGGAACCGGGCGTTCTCTGGCTACTGCAGCAGGCGCTGTTGCAGGTGGCGTAGCTGGTCAGGGCGT +ACAGAGTGCAATGAACAAAACGCAGGGTGTCGAGCTGGAAATTCGTAAAGACGATGGTAATACCATCATG +GTGGTACAGAAACAAGGCAACACTCGTTTCTCTCCGGGCCAACGTGTCGTACTGGCCAGCAATGGCAGTC +AGGTGACCGTTTCTCCGCGCTAAATAAGTTTGCGTGTGGTCAGGTTACTGACCACACGCCCCCTTCATTT +CACCCTTTGGCCTGTAACTCAATGATATTATGCTCAAGTTTTGCGATGAGCGTAATCAGTTGCTCCAGTT +CCTCTGCGGAGATGCCATGTAATATTTCCGCGCGGGTTTTGTTAATAACAGCTTCCATTTCGCTGATCAG +CGGCTCTGCCTTTTCCGTCAGTTTAATACGTTTAGCCCGACGATCGCTGGCACAAGTTTGACGCGAAATT +AACCCTTTTTCTTCCAGTTGGTCCAGAGTACGGACCAGTGATGGCTGCTCGATGCCAATCGCTTTTGCCA +GTTGAATTTGCGACTGGTCTGGAGGTAACTGATGGATATTGTGTAACGTAACCCAATGGGTTTGTGTTAA +CTCCAGCGGTTTCAGGCGATGGTCTATCAGAGCACGCCATATGCGCACCAACCGTGCCAGATCAGAACCT +AGTGGCGATTCCAATTTCATCTCCTTATAATTAGCTTGCTAAGATATTATGCGGCTTTTAGAATAGTGTG +CAGCAATTGTATTGCTAAAACAAATGTATTGCTGCATTTGGTTACCGTCAGACATATTTTTCAGAAATTG +CGCGTAAATTTTTCGCACTTAAAGAATATTTATTAATCTAACGCAATATATTCGGTCGTAAAGGAATCTA +CTTTGTGAAGTTTATGCTCAATGCAACAGGATTGCCCTTACAAGATCTGGTGTTCGGTGCGTCCGTCTAC +TTTCCTCCGTTTTTCAAAGCATTCGCGTTTGGATTCGTCATCTGGCTTGTCGTACACCGCCTGCTTCGTG +GCTGGATCTACGCCGGTGACATCTGGCATCCCTTGTTAATGGATTTATCGCTGTTTGCGATTTGCGTTTG +CCTTGCTCTGGCAATACTGATTGCGTGGTAACTATGTCAATTAAAACAATTAAGTATTTCTCAACAATCA +TTGTAGCGGTAGTTGCGGTTCTTGCCGGATGGTGGCTGTGGAATTATTACATGCAATCTCCGTGGACACG +CGACGGGAAAATACGCGCAGAACAGGTTTCTATCACCCCACAGGTGTCGGGACGTATTGTTGAGCTGAAT +ATAAAAGACAACCAGCTGGTTAACGCGGGGGATCTTCTGCTCACGATCGATAAAACGCCCTTTCAGATCG +CCGAGCTGAACGCACAGGCTCAGCTGGCGAAAGCGCAATCTGACCTCGCAAAAGCCAATAACGAAGCGAA +TCGTCGTCGTCATCTCTCACAAAATTTTATTTCTGCCGAAGAACTCGATACCGCTAACCTCAATGTTAAA +GCGATGCAGGCCAGTGTTGATGCCGCACAGGCGACGCTGAAACAGGCACAATGGCAACTGGCGCAAACGG +AAATTCGCGCCCCGGTGAGTGGATGGGTGACTAACCTTACTACCCGCATCGGCGATTACGCTGATACCGG +GAAACCGCTGTTTGCCCTTGTCGACAGCCACTCGTTTTACGTCATTGGTTATTTTGAAGAAACCAAGTTG +CGCCATATCCGCGAAGGTGCACCAGCACAAATTACCCTCTATAGTGATAACAAAACGTTACAGGGTCACG +TTTCCAGTATCGGTCGGGCGATTTATGATCAGAGCGTTGAAAGTGACTCAAGCCTTATTCCGGATGTTAA +ACCTAACGTCCCCTGGGTTCGACTCGCCCAACGCGTTCCCGTCCGCTTTGCGCTGGATAAAGTCCCAGGC +GATGTCACGTTGGTGTCGGGCACCACCTGTAGCATTGCCGTAGGTCAATAATGAACGCATCGTCATGGTC +CTTGCGCAATTTGCCCTGGTTCAGGGCCACGCTGGCGCAATGGCGTTATGCGTTACGCAATACCATTGCC +ATGTGTCTGGCGCTGACGGTTGCCTATTATTTAAATCTGGATGAACCCTATTGGGCGATGACCTCGGCTG +CAGTGGTTAGCTTTCCCACCGTTGGCGGTGTTATCAGCAAAAGCCTCGGACGCATCGCTGGCAGTTTGCT +CGGAGCCATTGCGGCACTGCTTCTTGCCGGGCATACGCTCAATGAGCCGTGGTTTTTTCTATTGAGCATG +TCGGCGTGGCTTGGCTTTTGTACCTGGGCCTGTGCGCACTTCACGAATAACGTCGCGTATGCATTTCAAC +TGGCGGGCTACACGGCTGCCATCATCGCCTTTCCGATGGTTAATATTACTGAGGCCAGCCAGCTGTGGGA +TATCGCTCAGGCGCGCGTTTGCGAGGTAATAGTCGGTATTTTGTGCGGCGGCATGATGATGATGATCCTG +CCGAGCAGTTCCGATGCTACTGCCCTTTTAACCGCATTGAAAAACATGCACGCCCGATTACTGGAACATG +CCAGTTTACTCTGGCAGCCTGAAACAACCGATGCCATTCGTGCAGCACATGAAGGGGTGATTGGGCAGAT +ACTGACCATGAATTTGCTGCGTATCCAGGCTTTCTGGAGCCACTATCGTTTTCGCCAGCAAAACGCGCGC +CTTAATGCGCTGCTCCACCAGCAATTACGTATGACCAGTGTCATCTCCAGCCTGCGACGTATGTTGCTCA +ACTGGCCCTCACCGCCAGGTGCCACACGAGAAATTCTCGAACAGTTGCTGACGGCGCTCGCCAGTTCGCA +AACAGATGTTTACACCGTCGCACGTATTATCGCCCCGCTACGCCCGACCAACGTCGCCGACTATCGGCAC +GTCGCCTTCTGGCAGCGACTACGTTATTTTTGCCGCCTTTATCTGCAAAGTAGTCAGGAATTACATCGTC +TGCAAAGCGGTGTAGATGATCATACCAGACTCCCACGGACATCCGGCCTGGCTCGTCATACCGATAACGC +CGAAGCTATGTGGAGCGGGCTGCGTACATTTTGTACGTTGATGATGATTGGCGCATGGAGTATTGCTTCG +CAATGGGATGCCGGTGCCAATGCATTAACGCTGGCAGCAATTAGCTGCGTACTCTACTCCGCCGTCGCAG +CACCGTTTAAGTCGTTGTCACTTCTGATGCGCACGCTGGTGTTACTTTCGCTATTCAGCTTTGTGGTCAA +ATTTGGTCTGATGGTCCAGATTAGCGATCTGTGGCAATTTTTACTGTTTCTCTTTCCACTGCTGGCGACA +ATGCAGCTTCTTAAATTGCAGATGCCAAAATTTGCCGCATTGTGGGGGCAACTGATTGTTTTTATGGGTT +CTTTTATCGCTGTCACTAATCCCCCGGTGTATGATTTTGCTGATTTTCTTAACGATAATCTGGCAAAAAT +CGTTGGCGTCGCGTTGGCGTGGTTAGCGTTCGCCATTCTGCGTCCAGGATCGGATGCTCGTAAAAGCCGC +CGCCATATTCGCGCGCTGCGCCGGGATTTTGTCGATCAGCTAAGCCGCCATCCAACACTGAGTGAAAGCG +AATTTGAATCGCTCACTTATCATCACGTCAGTCAGTTGAGTAACAGCCAGGATGCGCTGGCTCGCCGTTG +GTTATTACGCTGGGGTGTAGTGCTGCTGAACTGTTCTCATGTTGTCTGGCAATTGCGCGACTGGGAATCG +CGTTCCGATCCGTTATCGCGAGTACGGGATAACTGTATTTCACTGTTGCGGGGAGTGATGAGTGAGCGTG +GCGTTCAGCAAAAATCACTGGCGGCCACACTTGAAGAATTACAGCGGATTTGCGACAGCCTTGCCCGTCA +TCATCAACCTGCCGCCCGTGAGCTGGCGGCAATTGTCTGGCGGCTGTACTGCTCGCTTTCGCAACTTGAG +CAAGCACCACCGCAAGGTACGCTGGCCTCTTAATTACTTAATTACACCACAGGCATAGCGTTCACCGCCA +CCGCCCAGCGGTTTAGGTTGATCGGACATATTATCGCCGCCAACGTGGACCATCAGCGCTTTGTCTTTGA +TTTCATCCAGTGATTTCAGACGAGGCGCGATGACGGCATCGGTAGCTTTGCCGTCATTATTGACGACCAG +TGCAGGCAGATCGCCTAAATGCCCGGCACCTTCTGGCCCTTCATGTTTACCGGTATTTTGTGGATCAAGA +TGCCCGCCTGCGGATTCCGCGGCGCTGGCTTTGCCATCTTTGGTGGCTGGCTGGCAGCTTCCTTTGGCAT +GAATATGGAAGCCATGTTCACCGGGGGGTAATGCTTTCAGATCGGGCGAAAACTCCAGACCTTTATCGGT +TTCAGTAATGGTGACGCTACCAATTGACTGCCCTACCCCTTGCGACGTGACGAGGTTCATCTCGACTTTT +TCACTGGCAGCTTGTGCGCCGGTTGCAACAACCAGCGCCAGAATAGCCAGACTAAAACGTTTCATAGGAC +CTCCGTTCATTGTGCATTCCTGAATAAGTGTAAACCAGTGACACATTTTTGAACGGCGGCTATTCCTAAA +AGTGCTTACGGTACGTCGTACCCCAGTGCCGCTTTACGGATACGAAACCATTGTTGACGGGTCATTTTCA +GTGTTTCTGCTTCGACAGCTGCCCGTACGCGCTCAATTTTACCTGAACCGATAATTGGCAGCGGCTGCGA +TGGTAAACGTAATACCCAGGCGTAAACCACCTGTTCAATCGAGCCCGCGTTTAACTCCTCTGCCACCACA +GCCAGTTCATCACGCAGCGGCTGGAAATAATCATCATTAAACAGACGACCACCACCAAGGCAGGACCACG +CCATCGGACGAACACGCAGTTGTTGTAGTTGGTCGAGCGTGCCATCCAGCAGTAACGGCTGATGCACCGG +GGATATTTCCACCTGATTAGTGGCAAGGGTAAACGGCAGACGTGATTGCAACAGGGCAAATTGCGCAGGC +GTAAAGTTCGATACGCCAAAATGACGCACTTTGCCGCTCTGATGCAGATGTTTGAACGCGTCCGCCACTT +CATCGGCATCCATTAACGGGTCTGGTCGGTGGATTAACAGCAAATCCAGATGATCGGTCGCGAGATTAAT +TAGCGACTGTTCGGCGCTCTTAATGATGTGATCGCGGTCAGTGATGTAATGACCAATGACGTTTTCTTCA +CGCGCGGTCGTCGCGATACCGCATTTACTGACGATTTCCATCCGTTCACGCAGGTGAGGTGCCAGTTTCA +GTGCCTCGCCAAACGCCGCTTCGCACTGATAGCCACCATAAATATCAGCATGGTCCACGGTGGTCACGCC +GAGATCCAGATGCTCTTCAATAAAACTGACCAGCTGGCGGGCGGACATATTCCAGTCCATCAATCGCCAG +TAGCCCATCACAAAACGGGAAAACTCCGGGCCTTGCGGCGCAATAGTAATACGCTGAACCATAATCGCTT +CCTCTTATCAGATATGAGAGGAGTATACGCAAGATTAGGTTCAAAAGAGTGATGGTTGCTCCGGTTCGTC +TGATGACGCTGGCTTATTTGCGCGTAATTTGCGCATTAATCGCTGCCGACAAAGGCGCAGCACCTCTTGT +TTTTCGCCATCGCTCATTTTATTCCAGTTAAAACGCTCATCACGACTACGAAAACAGCCGCGACAAAACC +CGCGTTCGTCAGACTGGCAAATTCCCCGGCACGGGCTCTGGACGGGAAAGAACTCTAATTGCTCCGCCAC +TTCGCCCTCCTCAGATAAGATTATTACCATTATTGAAGCTGTTAATGTCCAAAGTAGCAACTTTGCTTGC +ACTAGACCGACTGGTCTACTACACTCCAACGCATGAACAAACACACCGAACATGATACTCGCGAACATCT +CCTGGCGACGGGCGAGCAACTTTGCCTGCAACGTGGATTCACCGGGATGGGGCTAAGCGAATTACTAAAA +ACCGCTGAAGTGCCGAAAGGGTCCTTCTATCACTACTTTCGCTCTAAAGAAGCGTTTGGCGTTGCCATGC +TTGAGCGTCATTACGCCGCATATCACCAGCGACTGACTGAGTTGCTGCAATCCGGCGAAGGTAACTACCG +CGACCGCATACTGGCTTATTACCAGCAAACACTGAACCAGTTTTGCCAACATGGAACCATCAGTGGTTGC +CTGACAGTAAAACTCTCTGCCGAAGTGTGCGATCTGTCAGAAGATATGCGCAGCGCGATGGATAAAGGTG +CTCGCGGCGTGATCGCCCTGCTCTCTCAGGCGCTGGAAAATGGCCGTGAGAACCATTGTTTAACCTTTTG +TGGCGAACCGCTGCAACAGGCACAAGTGCTTTACGCACTGTGGCTTGGCGCGAATCTGCAGGCCAAAATT +TCGCGCAGTTTCGAGCCACTGGAAAACGCGCTGGCCCATGTAAAAAACATTATTGCGACGCCTGCCGTTT +AGCAGGCATTTTTTATCACCAGACGACCGGGAGCCTTTATGTCATCTGAAAAACTGTATTCCCCACTGAA +AGTGGGCGCGATCACGGCGGCAAACCGTATTTTTATGGCACCGCTGACGCGTCTGCGCAGTATTGAACCG +GGTGACATTCCTACCCCGTTGATGGCGGAATACTATCGCCAACGTGCCAGTGCCGGTTTGATTATTAGTG +AAGCCACGCAAATTTCTGCCCAGGCAAAAGGATATGCAGGTGCGCCTGGCATCCATAGTCCGGAGCAAAT +TGCCGCATGGAAAAAAATCACCGCTGGCGTTCATGCTGAAAATGGTCATATGGCCGTGCAGCTGTGGCAC +ACCGGACGCATTTCTCACGCCAGCCTGCAACCTGGCGGTCAGGCACCGGTAGCGCCTTCAGCACTTAGCG +CGGGAACACGTACTTCTCTGCGCGATGAAAATGGTCAGGCGATCCGTGTTGAAACATCCATGCCGCGTGC +GCTTGAACTGGAAGAGATTCCAGGTATCGTCAATGATTTCCGTCAGGCCATTGCTAACGCGCGTGAAGCC +GGTTTTGATCTGGTAGAGCTCCACTCTGCTCACGGTTATTTGCTGCATCAGTTCCTTTCTCCTTCTTCAA +ACCATCGTACCGATCAGTACGGCGGCAGCGTGGAAAATCGCGCACGTTTGGTACTGGAAGTGGTCGATGC +CGGGATTGAAGAATGGGGTGCCGATCGCATTGGCATTCGCGTTTCACCAATCGGTACTTTCCAGAACACA +GATAACGGCCCGAATGAAGAAGCCGATGCACTGTATCTGATTGAACAACTGGGTAAACGCGGCATTGCTT +ATCTGCATATGTCAGAACCAGATTGGGCGGGGGGTGAACCGTATACTGATGCGTTCCGCGAAAAAGTACG +CGCCCGTTTCCACGGTCCGATTATCGGCGCAGGTGCATACACAGTAGAAAAAGCTGAAACGCTGATCGGC +AAAGGGTTAATTGATGCGGTGGCATTTGGTCGTGACTGGATTGCGAACCCGGATCTGGTCGCCCGCTTGC +AGCGCAAAGCTGAGCTTAACCCACAGCGTGCCGAAAGTTTCTACGGTGGCGGCGCGGAAGGCTATACCGA +TTACCCGACGTTGTAATCCAACATTGCGAGCGGCGTAAAGCCGCCGCTATACTAAAACAACATTTTGAAT +CTGTTAGCCATTTTGAGGATAAAAAGATGCGTCTTCTTCATACCATGCTGCGCGTTGGCGATTTGCAACG +CTCCATCGATTTTTATACCAAAGTGCTGGGCATGAAACTGCTGCGTACCAGCGAAAACCCGGAATACAAA +TACTCACTGGCGTTTGTTGGCTACGGCCCGGAAACCGAAGAAGCGGTGATTGAACTGACCTACAACTGGG +GCGTGGATAAATACGAACTCGGCACTGCTTATGGTCACATCGCGCTTAGCGTAGATAACGCCGCTGAAGC +GTGCGAAAAAATCCGTCAAAACGGGGGTAACGTGACCCGTGAAGCGGGTCCGGTAAAAGGCGGTACTACG +GTTATCGCGTTTGTGGAAGATCCGGACGGTTACAAAATTGAGTTAATCGAAGAGAAAGACGCCGGTCGCG +GTCTGGGCAACTAATCTCCTGCCGGGCGTGAACTCATCGCGCCCGCATCTTTACTGCATCGACAAGTAAT +ATTTGTCATAATGCGCGCTGCAATTTATCCGTATTAAGAGAATCAGATGTCCGATAACGCTCAACTTACC +GGTCTGTGCGACCGTTTTCGTGGTTTTTATCCTGTTGTGATCGATGTTGAAACAGCCGGATTTAACGCCA +AAACCGATGCGCTGCTTGAGATTGCCGCCATCACCCTGAAAATGGATGAACAAGGCTGGCTGATGCCGGA +CACCACATTACATTTCCACGTCGAACCATTTGTCGGCGCAAATTTGCAACCAGAAGCCCTCGCCTTCAAC +GGCATTGACCCGAACGATCCCGATCGCGGCGCGGTCAGCGAATACGAGGCGCTGCACGAAATTTTTAAAG +TTGTACGTAAAGGTATTAAAGCGAGCGGCTGTAACCGCGCCATTATGGTGGCGCACAATGCCAATTTTGA +TCACAGCTTTATGATGGCCGCCGCAGAACGCGCCTCACTGAAACGTAACCCGTTCCACCCTTTCGCCACT +TTTGACACTGCTGCACTGGCCGGGCTGGCACTCGGACAAACCGTATTGTCAAAGGCTTGCCAGACCGCTG +GCATGGACTTCGACAGCACCCAGGCGCACTCCGCGCTGTACGACACCGAACGCACTGCTGTGCTGTTTTG +TGAAATCGTCAACCGCTGGAAACGTCTGGGAGGCTGGCCGCTATCTGCCGCCGAAGAGGTGTAATCGAGT +CGATGCCTGATGACATGCAATGATTCAGGCATCTATAGTGAGGCTATTCCACGCATCCTGCATGATATTC +ACGGGGAATAGCGTTAATGGCAGATAATCCAGACCCTTCATCGCTCCTGCCGGACGTGTTTTCACCGGCG +ACCCGCGACTGGTTTCTTCGCGCCTTTAAACAGCCGACCGCTGTCCAGCCGCAAACCTGGCATGTGGCGG +CGCGAAGCGAACATGCGCTGGTGATTGCACCGACCGGCTCCGGGAAAACGCTGGCAGCATTTCTCTACGC +CCTCGATCGGCTCTTCCGCGAAGGCGGCGAAGATACCCGCGAGGCGCATAAGCGTAAAACCTCACGCATC +CTCTATATTTCACCGATAAAAGCCCTGGGCACCGACGTTCAGCGCAACTTGCAGATCCCGTTGAAGGGTA +TTGCCGATGAACGGCGGCGGCGCGGCGAAACGGAAGTCAATCTTCGCGTAGGGATCCGTACTGGCGATAC +GCCTGCACAGGAACGCAGCAAACTCACCCGTAATCCGCCGGATATTCTGATCACCACACCCGAATCACTC +TATCTGATGCTGACCTCCCGCGCGCGCGAAACGCTACGCGGCGTCGAAACGGTAATTATTGATGAAGTCC +ACGCGGTAGCGGGCAGTAAACGTGGTGCGCATCTGGCGTTAAGTCTGGAGCGGCTCGATGCGCTGCTCCA +CACCTCAGCACAGCGAATTGGCCTTTCTGCCACTGTGCGCTCAGCCAGCGATGTGGCAGCATTTCTTGGT +GGCGATCGCCCGGTTACGGTAGTCAACCCGCCCGCAATGCGCCATCCGCAGATACGAATTGTCGTACCGG +TCGCCAATATGGATGATGTCTCATCGGTCGCCAGCGGCACCGGCGAAGACAGCCATGCCGGCCGGGAAGG +CTCCATCTGGCCATATATTGAAACGGGTATCCTTGATGAAGTGTTGCGCCATCGCTCGACCATTGTCTTT +ACTAATTCGCGGGGGCTGGCGGAAAAACTGACGGCACGATTAAATGAGCTTTACGCCGCACGCTTACAGC +GTTCCCCGTCTATCGCCGTTGATGCGGCCCATTTCGAGTCGACCTCCGGCGCAACCTCTAACCGTGTACA +AAGTAGCGACGTTTTTATTGCCCGCTCACACCACGGCTCCGTCTCTAAAGAACAACGAGCAATCACCGAA +CAGGCGCTGAAATCGGGTGAATTACGCTGCGTGGTCGCAACCTCCAGTCTTGAACTGGGGATTGATATGG +GCGCGGTGGATCTGGTGATTCAGGTGGCAACGCCGCTTTCTGTTGCCAGTGGGTTACAACGCATTGGTCG +CGCCGGACATCAGGTTGGCGGTGTATCTAAAGGGCTGTTTTTCCCCCGTACCCGGCGTGATTTAGTCGAT +TCCGCAGTCATTGTAGAGTGTATGTTCGCAGGCAGGCTGGAAAACCTGACACCACCGCATAATCCTCTCG +ACGTCCTTGCGCAGCAAACCGTTGCCGCCGCGGCGATGGATGCATTACAGGTAGACGAATGGTACTCCCG +CGTACGCCGTGCCGCACCGTGGAAAGATCTGCCAAGACGTGTTTTTGACGCCACGCTGGATATGCTTTCC +GGGCGCTATCCCTCTGGCGATTTTTCTGCTTTTCGCCCCAAACTGGTCTGGAACAGGGAGACCGGGATAT +TGACCGCCCGACCTGGCGCTCAATTGTTGGCGGTTACCAGCGGCGGCACCATTCCGGATCGTGGCATGTA +TAGCGTGTTATTACCCGAAGGTGAAGAAAAGGCCGGTTCGCGGCGGGTGGGTGAACTGGATGAGGAGATG +GTATATGAGTCGCGGGTGAACGACATTATCACTCTCGGCGCTACCTCATGGCGGATCCAGCAAATCACCC +GCGATCAGGTGATTGTGACTCCTGCTCCGGGTCGTTCTGCCCGGCTCCCCTTCTGGCGTGGTGAAGGTAA +CGGACGTCCGGCTGAATTAGGCGAGATGATCGGCGATTTTCTTCATTTGCTGGCGGATGGCGCGTTCTTT +TCCGGGACTATTCCCCCGTGGCTGGCAGAAGAAAATACGATCGCCAATATTCAGGGGTTGATTGAGGAGC +AGCGCAACGCGACGGGCATCGTTCCGGGGAGTCGCCATCTGGTCCTCGAACGGTGCCGTGATGAAATTGG +TGACTGGCGTATTATTTTGCACTCTCCCTATGGAAGACGGGTGCATGAACCCTGGGCGGTGGCGATTGCC +GGGCGAATACATGCGCTATGGGGCGCTGACGCGTCGGTGGTCGCCAGTGATGACGGCATTGTTGCACGTA +TTCCTGACACCGATGGTAAATTGCCCGATGCCGCGATTTTTTTGTTTGAACCAGAAAAGTTGCTGCAAAT +TGTCCGCGAGGCGGTAGGCAGCTCGGCACTTTTCGCCGCCCGTTTTCGCGAATGCGCCGCGCGGGCATTA +TTAATGCCGGGGCGCACTCCGGGCCATCGCACCCCGCTTTGGCAACAACGGCTGCGCGCCAGTCAGTTGC +TGGAAATCGCTCAGGGATATCCGGATTTTCCGGTCATTCTCGAAACCCTACGCGAATGTCTGCAAGATGT +TTATGATCTTCCCGCACTGGAACGTTTGATGCGTCGCCTGAACGGTGGCGAAATTCAAATATCCGATGTA +ACGACCACTACGCCCTCGCCTTTCGCCACAAGTTTATTGTTCGGCTATGTCGCGGAATTTATGTACCAGA +GCGACGCCCCGCTGGCAGAGCGCCGGGCATCCGTACTGTCGCTGGACAGCGAGTTACTGCGCAATCTACT +CGGACAGGTCGATCCGGGGGAATTACTCGACCCGCAGGTCATTCGCCAGGTGGAAGAAGAGTTGCAACGA +CTGGCTCCTGGCAGAAGAGCGAAAGGTGAAGAAGGATTGTTCGACCTGCTGCGCGAACTGGGGCCAATGA +CCGTTGAAGACCTGGCGCAACGGCATACAGGCAGCAGTGAAGAGGTTGCGTCGTATCTGGAAAATCTTCT +TGCAGTAAAACGAATCTTCCCAGCGATGATTAGCGGACAGGAGCGTCTTGCCTGTATGGATGATGCCGCC +AGGCTGCGTGATGCCCTCGGCGTACGACTACCAGAGTCATTGCCAGAGATTTATTTACATAGAGTCAGTT +ACCCGCTTCGCGACCTCTTTCTGCGCTATCTCCGGGCTCATGCTCTGGTCACGGCTGAACAACTGGCTCA +TGAGTTTAGTCTCGGTATTGCCATTGTCGAAGAGCAGCTTCAGCAACTGCGTGAACAGGGTCTGGTGATG +AATCTGCAACAAGACATCTGGGTGAGCGATGAAGTATTTCGTCGTCTGCGTTTGCGCTCGCTGCAAGCCG +CCAGAGAAGCGACGCGTCCCGTTGCAGCCACGACCTATGCGCGATTGCTGCTGGAACGTCAGGGCGTATT +ACCCGCCACCGATGGTAGCCCGGCGCTCTTTGCCTCAACATCGCCAGGCGTTTATGAGGGCGTAGATGGC +GTGATGCGGGTGATCGAACAGCTTGCCGGAGTCGGTTTACCCGCCTCACTCTGGGAAAGCCAGATCCTGC +CTGCCCGCGTACGCGACTATTCGTCAGAAATGCTCGATGAATTACTGGCAACCGGTGCGGTTATCTGGTC +GGGGCAAAAAAAACTGGGTGAAGATGACGGCCTGGTGGCACTGCATCTACAGGAATATGCTGCAGAATCG +TTCACTCCCGCCGAAGCGGATCAGGCGAATCGTTCGGCGCTGCAACAAGCGATAGTCGCTGTTCTGGCTG +ACGGAGGAGCCTGGTTTGCACAACAAATCAGCCAACGGATACGCGACAAAATCGGCGAATCGGTTGATCT +CTCTGCCCTGCAAGAGGCGTTATGGGCGCTGGTCTGGCAAGGCGTCATCACCAGCGACATTTGGGCACCG +TTACGCGCCCTCACCCGCAGCAGTTCCAACGCACGCACCTCAACTCGCCGCAGTCACCGGGCTCGTCGTG +GACGTCCTGTCTATGCGCAACCCGTCTCGCCGCGGGTATCTTACAACACACCAAATCTGGCTGGACGCTG +GTCGTTATTGCAGGTGGAGCCACTAAACGATACCGAAAGGATGCTGGCGCTGGCGGAAAATATGCTCGAC +CGCTACGGCATCATCAGTCGTCAGGCGGTGATAGCCGAAAATATCCCTGGCGGGTTTCCATCGATGCAAA +CGCTTTGTCGAAGTATGGAAGACTCCGGGCGAATTATGCGAGGTCGTTTTGTAGAAGGTCTGGGTGGCGC +GCAATTCGCTGAACGTCTGACTATTGACCGATTGCGCGATCTGGCGACACAAGCCACGCAAACGCGCCAC +TATACACCAGTGGCGCTCTCTGCCAACGATCCGGCTAATGTGTGGGGAAATCTTCTGCCCTGGCCTGCAC +ATCCGGCAACGCTGGTTCCAACGCGTCGGGCGGGTGCGCTGGTGGTCGTTTCTGGCGGCAAATTGTTACT +CTATCTGGCGCAAGGTGGCAAAAAAATGCTGGTCTGGCAGGAAAAAGAGGAATTACTCGCCCCAGAGGTT +TTCCACGCGCTGACTACCGCACTGCGTCGCGAACCACGGCTGCGCTTTACGCTAACAGAAGTGAATGATC +TACCGGTCCGGCAAACGCCGATGTTTACGCTGCTGCGTGAGGCGGGATTTTCAAGTTCGCCACAAGGGCT +GGATTGGGGATAGAGAAAGGACTGACGGATGCCCGTTCGCATCCGTCAGTATTGCAGGACGGATTATTCC +GCGTCCGGCTCTTCAGACTTGTATTTAGCGGCAGTTTCTTTGATCAGCTGCTGCAGTTCGCCACGCTGAT +ACATTTCGATCACGATATCACAACCGCCGACCAGCTCGCCGTCAACCCACAGTTGCGGGAAGGTCGGCCA +GTTAGCATATTTCGGCAGTTCCGCACGAATGTCCGGATTCTGCAGAATATCAACATAGGCAAAACGTTCG +CCACATGCGGCAAGCGCCTGGACTGCCTGGGCAGAGAAACCGCAGCTCGGCAGTTTCGGTGAACCTTTCA +TGTACAGCAGGATCGGGTTTTCAGCAATCTGGCGTTGGATTTTTTCGATAGTGGTGCTCATTGTCTTGCT +TCCTCAAACTTCTTTACGGCAGTAATCTGACATTGTAGCGGGTCAGTGCGGCATCGGAAAATAACATTTT +CATCACGCTTTTGCTATTTTATCCCTTTGCTCTATTTGTTGCATTTCAAATATTCGTTTCTTCTCTGATG +CCGGCAAACTGGCGTATTTATAACCATTTTTAGCTTTCACTGCTGCATTTTTTTGCGCTCGCCAACGAAA +CGTATTTTTTAACAATAAAAGCTATTAACTTTCTCTTCTTCTATGCATTAGAATCATCAAGTTTTGTAAA +TCAGACGCAGGCATGATAGACCTGCCTTTACAGAGGGACGCTCAGTGGCGCGGATAAACCGTATTTCGAT +CACGCTCTGTGCTTTACTTTTTACCACCCTGCCTTTAACGCCTATGGCCCATGCTTCAAAGCAAGCCAGG +GAGAGTTCTGCTACCACTCATATCACCAAAAAAGCAGATAAAAAGAAAAGCACGGCAACCACCAAAAAGA +CCCAGAAAACAGCGAAAAAAGCCGCCAGTAAAAGTACGACCAAAAGCAAAACCGCTTCTTCCGTTAAAAA +ATCTTCCATTACCGCTTCTAAAAACGCCAAAACTCGCAGCAAACACGCCGTCAATAAAACGGCCTCAGCC +AGCTTTACCGAAAAGTGTACCAAACGTAAGGGCTATAAATCGCATTGTGTGAAAGTCAAAAATGCCGCGT +CAGGAACTCTTGCCGACGCGCACAAAGCGAAGGTGCAAAAAGCTACGAAAGTGGCAATGAATAAACTGAT +GCAGCAAATTGGTAAGCCATATCGTTGGGGTGGCAGCTCACCGCGTACCGGTTTTGATTGCAGCGGCCTG +GTTTATTACGCTTATAAAGATTTGGTGAAAATTCGTATTCCGCGTACGGCGAATGAAATGTATCACCTGC +GTGATGCAGCGCCAATCGAACGTAGTGAACTGAAAAACGGCGACCTGGTCTTTTTCCGTACTCAGGGACG +CGGCACAGCCGATCATGTCGGCGTGTATGTCGGCAACGGCAAATTTATTCAGTCACCGCGCACAGGTCAG +GAAATTCAAATCACTTCTCTCAGTGAAGACTACTGGCAGCGCCACTATGTTGGCGCTCGTCGGGTAATGA +CCCCAAAAACACTTCGCTAAAACTTTACCCTGTTGTTACGGCAACAGGGTAAGTTCATCTTTTGTCTCAC +CTTTTAATTTGCTACCCTATCCATACGCACAATAAGGCTATTGTACGTATGCAAATTAATAATAAAGGAG +AGTAGCAATGTCATTCGAATTACCTGCACTACCATATGCTAAAGATGCTCTGGCACCGCACATTTCTGCG +GAAACCATCGAGTATCACTACGGCAAGCACCATCAGACTTATGTCACTAACCTGAACAACCTGATTAAAG +GTACCGCGTTTGAAGGTAAATCACTGGAAGAGATTATTCGCAGCTCTGAAGGTGGCGTATTCAACAACGC +AGCTCAGGTCTGGAACCATACTTTCTACTGGAACTGCCTGGCACCGAACGCCGGTGGCGAACCGACTGGA +AAAGTCGCTGAAGCTATCGCCGCATCTTTTGGCAGCTTTGCCGATTTCAAAGCGCAGTTTACTGATGCAG +CGATCAAAAACTTTGGTTCTGGCTGGACCTGGCTGGTGAAAAACAGCGATGGCAAACTGGCTATCGTTTC +AACCTCTAACGCGGGTACTCCGCTGACCACCGATGCGACTCCGCTGCTGACCGTTGATGTCTGGGAACAC +GCTTATTACATCGACTATCGCAATGCACGTCCTGGCTATCTGGAGCACTTCTGGGCGCTGGTGAACTGGG +AATTCGTAGCGAAAAATCTCGCTGCATAATAACTGATGGCAAATGCAGCATTGCCTGAAGCGCTACGCTT +ATCAGGCCTACGCGGATCATCGATGTAGGTCGGATAAGGCACTCGCCGCATCCGGCAAGATAAATCGCAC +GTTGTCAGCAACTGTAACGCAGAAGGTTATCCTTCTGCGTTTTTGTTTAATTAGCTGTTAGCAACGCAAA +CTGTTTCAGGTTGTTTTCTGGCTGACATAAACACCAGCAATAATGCCAGTCCCGCGACAATCGCTCCCAT +CACCGGCACAAAGCTGTATCCCAGCCCAGCGGAAATTACCGCACCACCAGCAGCTGCTCCCAGCGCATTT +CCAAGATTAAAGGCACCAATATTGACTGATGAAGACAGACCTGGCGCTTCACTGGCGACACGCATCACGC +GCATCTGTAACGGCGGTACGACCGCAAAGGTTGCTGCGCCCCACACCACCATGCTAATAGCTGCGCCGAA +CTCATTGCGGGCCAGGAACGGGATTGCCAGCATAATCACCATCAACAACAACAAAAAGCCTTTCAACGTG +CCGTTAACTGAACGATCTGCCAGTTTGCCGCCGAGATAGTTACCGATAGAGAATCCGACACCAATCAGCA +CCAGCATTGCCGTGACGAACACCGGTGTTGCGTGGGTAATACTTTGCAGTACCGGAGAGATATAGGTGTA +GAGAGTAAACATTGCACCAGCTCCCAGTACCGTCGTCAGCAATGCAGACAGCACCTGCGGACGCATTAAT +ACCGCCAGCTCTTTTTTCACTTCAGGTCGTGCCCCTGCACCACCTTTAGGTAATGAGAAGAACAGACTTA +CCATTGAAATCACTCCCAGCCCCGCCGTTGCCAGAAATGACATCCGCCAGCCGATGGTTTCACCCAACCA +GGTCGCCGCCGGCACGCCACCGATATTTGCCAGGGTTAACCCCATAAACATAGTGGCAACTGCGCTGGCC +TGTTTATGTTTTGGCACCACGCTTGCGGCCACGACTGAACCCAAACCAAAAAATGCTCCGTGATTCAGGC +TGGTCAAAATGCGTGAAAGCATCAGGGTCATATAATCCGGCGCGATGGCGGAAAGTACGTTGCCGAGCGT +GAAAATTGCCATCAGGAAAATCAACGCACTGCGGCGGGCACGATGAGAAAGTAGAAGCGTCATCAGCGGC +GCGCCAACCATTACGCCAACTGCATAGGCACTGATTAACATTCCGGCAGCGGGAATCGAGACATCCACAC +CGCGCGCAATGACGGGCAACAAGCCCATTGGCGAGAACTCCGTTGTCCCGATACCAAACGCGCCAATCGC +CAGCGCCAGCAACGGATAGTTAATTTTCATGCCTTATCTCCACCTCTTCGCGTCATTACGCGATATTCAT +TAAAGTGGCGAAAGCATGACAGCAATCACAAAAAAATGAAAATAACAAAAAGAGAAAACACTTTTGCCAT +TTTGCTAACAAACAGGAAGGAGATGCGAGGGAGAACGCGCTCCCTCGAGAGGAAATCAGTGCAGCGCGGC +AGTCAAACCCACGGCTACGATCAAACCGAGGACGATAATCGTTGTTACCAGTGAAAATTTAAGGTCGGTG +CTCATCAAGTTTTCTCCTTTTTTATTACCACACAAAAAGTGATATTACGCATTTTTACACACTGTGATGA +AAAAATCTCCCGTCATTTATAATGATAAGTGTTTTTACCACTTCCCCTTTTCGTCAAGATCGGCCAAAAT +TCCACGCTTACACTATTTGCGTACTGGCCATTGACCCCTTCCTGACGCTCCGTGTCGTTTTTCCGGCGTA +CCGCAACACTTTTGTTGTGCGTAAGGTGTGTAAAGGCAAACGTTTACCTTGCGATTTTGCAGGAGCTGAA +GTTAGGGTCTGGAGTGAAATGGAATGGCAACAATAAAAGATGTAGCGAAACGAGCAAACGTTTCCACTAC +AACTGTGTCACACGTGATCAACAAAACACGTTTCGTCGCTGAAGAAACGCGCAACGCCGTGTGGGCAGCG +ATTAAAGAATTACACTACTCCCCTAGCGCGGTGGCGCGTAGCCTGAAGGTTAACCACACCAAGTCTATCG +GTTTGCTGGCGACCAGCAGCGAAGCGGCCTATTTTGCCGAGATCATTGAAGCAGTTGAAAAAAATTGCTT +CCAGAAAGGTTACACCCTGATTCTGGGCAATGCGTGGAACAATCTTGAGAAACAGCGGGCTTATCTGTCG +ATGATGGCGCAAAAACGCGTCGATGGTCTGCTGGTGATGTGTTCTGAGTACCCAGAGCCGTTGCTGGCGA +TGCTGGAAGAGTATCGCCATATCCCAATGGTGGTCATGGACTGGGGTGAAGCAAAAGCTGACTTCACCGA +TGCGGTCATTGATAACGCGTTCGAAGGCGGCTACATGGCCGGGCGTTATCTGATTGAACGCGGTCACCGC +GAAATCGGCGTCATCCCCGGCCCGCTGGAACGTAACACCGGCGCAGGCCGCCTTGCCGGTTTTATGAAGG +CGATGGAAGAAGCGATGATCAAGGTGCCGGAAAGCTGGATTGTGCAGGGTGACTTTGAACCTGAATCCGG +TTATCGCGCCATGCAGCAAATCCTGTCGCAGCCGCATCGCCCTACTGCCGTCTTCTGTGGTGGCGATATC +ATGGCAATGGGCGCACTTTGTGCTGCTGATGAAATGGGCCTGCGCGTCCCGCAGGATGTTTCGCTGATCG +GTTATGATAACGTGCGCAACGCGCGCTATTTTACGCCGGCGCTGACCACGATCCATCAGCCAAAAGATTC +GCTGGGTGAAACAGCGTTCAACATGCTGTTGGATCGTATCGTCAACAAACGTGAAGAACCGCAGTCTATT +GAAGTGCATCCGCGCTTGATTGAACGCCGCTCCGTGGCTGACGGCCCGTTCCGCGACTATCGTCGTTAAT +CACCCGTTGCGGGAGTCTCTTCCGGCTCCCGCAGCCACTCCTTATTCAGCGTCTCACTATCGCCGAGATA +CTCAAGCAACCAGGTTAACGCAGGCGACATATCATTTTGCTGCCATGTCAGACAACATGCCGAATCCGGA +AAGGGGTTTTCCAGTTCTAATGCTACCCACTTCCCCTCATTAAGCCACGGTTTGGCGAAATGTGTTGGCA +CCATCCCTATGCATAATCCTGCCGAGATACAGGTTGCCGATGATTCCCAGTCAGGCACGACAACTCTTTT +TTGGTTATCCAGCAACCAGGTAATACGTTTAGGTAGCGTTCGCGAGGTGTCTTCGCGCACCAACGACGGC +CAGTTGCGCAACGTATCATCGCTGAACGGGCCATCCATCAACGCCAGCGGGTGGTGACTGGCAACAACGC +AACTCCAGCTTAGCATCCCCATATCCCGGAAGGCATAACGACCGCCTACCGGAATCGCGCGTGTTGCGCC +AATCGCCAGTTCCACGCGCCCGTCGGAAAGCGCATCCCAGACACCGTTGAACACTTCCTGAAAGACAAGA +AGTTCGACATCATCAAAATGGCGATAAAAATCAACGATCATCTGCCGTGTACGTTCTGGCCTGACAATAT +TATCCACTGCGATAGCTAACTGACCGCGCCAGCCGTTCGCTATCTGCTGACATTGCTGGCGGGTGATCTG +CATTTTTTTGACAACAGAGCGCCCTTCTTTGAGAAACCACGCTCCAGCAGCGGTCAGCTCCACATCACGG +TGCCGTCGTTCAAAGAGCGGCACCGCCAGCCACTCTTCCAGCTGACGCACGGTATAGCTGACCGCAGAAG +GAACGCGATGCAGCTCCTGTGCCGCAGCGCTAAAACTACCATTACGCGCTACCGCATCAACAACTTCGAG +TGAATATTCTGACCACATAGTCTGCCTGCAAAATTTTTGAAACCAGTCATCAAATATTACCGTTTCACAA +CACTAATTTCACTCCCTACACTTTGCGGCGGTGTTTAATTGAGAGATTTAGAGAATATACATGCAACCTG +GGAAAAGATTTTTAGTCTGGCTGGCGGGTTTGAGCGTACTCGGTTTTCTGGCAACCGATATGTATCTGCC +TGCTTTCGCCGCCATACAGGCCGACCTGCAAACGCCTGCGTCTGCTGTCAGTGCCAGCCTTAGTCTGTTC +CTTGCCGGTTTTGCCGCAGCCCAGCTTCTGTGGGGGCCGCTCTCCGACCGTTATGGTCGTAAACCGGTAT +TATTAATCGGCCTGACAATTTTTGCGTTAGGTAGTCTGGGGATGCTGTGGGTAGAAAACGCCGCTACGCT +GCTGGTATTGCGTTTTGTACAGGCTGTGGGTGTCTGCGCCGCGGCGGTTATCTGGCAAGCATTAGTGACA +GATTATTATCCTTCACAGAAAGTTAACCGTATTTTTGCGGCCATCATGCCGCTGGTGGGTCTATCTCCGG +CACTGGCTCCTCTGTTAGGAAGCTGGCTGCTGGTCCATTTTTCCTGGCAGGCGATTTTCGCCACCCTGTT +TGCCATTACCGTGGTGCTGATTCTGCCTATTTTCTGGCTCAAACCCACGACGAAGGCCCGTAACAATAGT +CAGGATGGTCTGACCTTTACCGACCTGCTACGTTCTAAAACCTATCGCGGCAACGTGCTGATATACGCAG +CCTGTTCAGCCAGTTTTTTTGCATGGCTGACCGGTTCACCGTTCATCCTTAGTGAAATGGGCTACAGCCC +GGCAGTTATTGGTTTAAGTTATGTCCCGCAAACTATCGCGTTTCTGATTGGTGGTTATGGCTGTCGCGCC +GCGCTGCAGAAATGGCAAGGCAAGCAGTTATTACCGTGGTTGCTGGTGCTGTTTGCTGTCAGCGTCATTG +CGACCTGGGCTGCGGGCTTCATTAGCCATGTGTCGCTGGTCGAAATCCTGATCCCATTCTGTGTGATGGC +GATTGCCAATGGCGCGATCTACCCTATTGTTGTCGCCCAGGCGCTGCGTCCCTTCCCACACGCAACTGGT +CGCGCCGCAGCGTTGCAGAACACTCTTCAACTGGGTCTGTGCTTCCTCGCAAGTCTGGTAGTTTCCTGGC +TGATCAGTATCAGCACGCCATTGCTCACCACCACCAGCGTGATGTTATCAACAGTAGTGCTGGTCGCGCT +GGGTTACATGATGCAACGTTGTGAAGAAGTTGGCTGCCAGAATCATGGCAATGCCGAAGTCGCTCATAGC +GAATCACACTGATCTATATCGATATACTTATACTTAGGCTGCTAACAAAATTTTGTTGTATGATTGAAAT +TAGCGGCCTATACTAATTTCGAGTTGTTAAAGCTACGATAAATATTATGTTTTTACGGGGACAGGATCGT +TCCCGACTCACTATGGATAGTCATTTCGGCAAGGGTTCCTCCTTTCCCTCTGTTCTACGTCGGATTATAG +ACTCGCGGTTTTTTCTGCGAGATTTCTCACAAAGCCCAAAAAGCGTCTACGCTGTTTTAAGGTTCTGATC +ACCGACCAGTGATGGAGAAACTATGAGTTCATCGTGTATAGAAGAAGTCAGTGTACCGGATGACAACTGG +TACCGTATCGCCAACGAATTACTTAGCCGTGCCGGTATAGCCATTAACGGTTCTGCCCCGGCGGATATTC +GTGTGAAAAACCCCGATTTTTTTAAACGCGTTCTGCAAGAAGGCTCTTTGGGGTTAGGCGAAAGTTATAT +GGATGGCTGGTGGGAATGTGACCGACTGGATATGTTTTTTAGCAAAGTCTTACGCGCAGGTCTCGAGAAC +CAACTCCCCCATCATTTCAAAGACACGCTGCGTATTGCCGGCGCTCGTCTCTTCAATCTGCAGAGTAAAA +AACGTGCCTGGATAGTCGGCAAAGAGCATTACGATTTGGGTAATGACTTGTTCAGCCGCATGCTTGATCC +CTTCATGCAATATTCCTGCGCTTACTGGAAAGATGCCGATAATCTGGAATCTGCCCAGCAGGCGAAGCTC +AAAATGATTTGTGAAAAATTGCAGTTAAAACCAGGGATGCGCGTACTGGATATTGGCTGCGGCTGGGGCG +GACTGGCACACTACATGGCATCTAATTATGACGTAAGCGTGGTGGGCGTCACCATTTCTGCCGAACAGCA +AAAAATGGCTCAGGAACGCTGTGAAGGCCTGGATGTCACCATTTTGCTGCAAGATTATCGTGACCTGAAC +GACCAGTTTGATCGTATTGTTTCTGTGGGGATGTTCGAGCACGTCGGACCGAAAAATTACGATACCTATT +TTGCGGTGGTGGATCGTAATTTGAAACCGGAAGGCATATTCCTGCTCCATACTATCGGTTCGAAAAAAAC +CGATCTGAATGTTGATCCCTGGATTAATAAATATATTTTTCCGAACGGTTGCCTGCCCTCTGTACGCCAG +ATTGCTCAGTCCAGCGAACCCCACTTTGTGATGGAAGACTGGCATAACTTCGGTGCTGATTACGATACTA +CGTTGATGGCGTGGTATGAACGATTCCTCGCCGCATGGCCAGAAATTGCGGATAACTATAGTGAACGCTT +TAAACGAATGTTTACCTATTATCTGAATGCCTGTGCAGGTGCTTTCCGCGCCCGTGATATTCAGCTCTGG +CAGGTCGTGTTCTCACGCGGTGTTGAAAACGGCCTTCGAGTGGCTCGCTAAAGGCTATTCTATCGCCCCC +TCTCCGGGGGCGATTTCAGATCAGGCTTCTGTGCCTGGTTGATTCATGGCATTTTCTCGTGCCGCCAGCA +CACGTTCTACCGTATCTACCACTGCCTGAGTTTGTGGATCGATTTCAATGTTGACGCGTGCGCCAAGTTT +TTTCTTCCCAAGAGTCGTGCGTTCCAGTGTTTCCGGAATTAAATGGACGCAAAAACGCGTTGGCGTGACT +TCGCCGACGGTCAGGCTAATACCGTCGATGCCAATAAATCCTTTGTACAGAATATATTTCATCAACTGAC +TATCCTGGACTTTAAACCAGATCTGGCGATTATTTTCTGAGGTTAATATTTTCGCCACTTCAGCAGTGGT +CATAATATGACCTGACATTAAGTGTCCGCCAATTTCATCACTGAATTTCGCCGCACGCTCAACGTTTACC +CAATCCCCCACTTTTAAATCGCCAAGATTGGTAATGCGTAACGTTTCTTTCATCAGGTCAAAACTGACAT +GGTTGCCGTTAATTTCCGTCACGGTCAGGCAGCAACCGTTATGCGCCACGGAAGCACCGGTTTCCAGGCC +GTCCAGCATGTGGTCGGGTAACTCCACCACATGCGTACGAAAATTTGGTTTCTCGTCAATCGACACCAGT +TTTGCGGTGCCCTGTACAATCCCCGTAAACATACTTACAACTCCTGAAATCAGTTAAGACATTCTGTTCA +GCACAATAGCAGGTGGAAAACGCCCTTACCAGTGAAGGGGTAAGAATGGCTATTTTTTCACTGGAGAATT +AATAAATCCTCGCTACAATAGACTGAATTTCCCCTGCTTCTTCTTTTTGCTGCCCATTCAGGCGGCTTTT +TAGTCTCTCATATAACTACAAATAAAAGGTGTTCACGTGCAGAAGTATATCAGTGAAGCGCGTCTGTTAT +TAGCATTAGCAATCCCGGTGATTCTCGCGCAAATCGCCCAAACTGCGATGGGTTTTGTCGATACCGTGAT +GGCGGGCGGCTATAGTGCCACCGACATGGCGGCGGTCGCTATCGGTACTTCTATCTGGCTTCCGGCGATC +CTCTTTGGTCACGGACTGCTGCTGGCATTAACGCCGGTTATCGCGCAATTAAATGGTTCCGGTCGACGTG +AGCGCATTGCGCATCAGGTGCGACAAGGTTTCTGGCTGGCAGGTTTTGTTTCCGTTCTCATTATGCTGGT +GCTGTGGAATGCAGGTTACATTATCCGCTCCATGGAAAACATCGATCCGGCTCTGGCGGACAAAGCCGTG +GGTTATCTGCGTGCGTTGTTGTGGGGCGCGCCGGGATATCTGTTCTTCCAGGTTGCCCGTAACCAGTGTG +AAGGTCTGGCAAAAACCAAGCCGGGTATGGTAATGGGCTTTATCGGCCTGCTGGTGAACATCCCGGTGAA +CTATATCTTTATTTATGGTCATTTCGGTATGCCTGAGCTCGGTGGCGTTGGTTGTGGCGTGGCTACTGCG +GCGGTGTATTGGGTCATGTTCCTTGCCATGGTTTCTTACATTAAACGCGCCCGCTCCATGCGCGATATTC +GTAACGAAAAAGGCACCGCAAAACCCGATCCTGCGGTTATGAAACGACTGATTCAACTCGGTTTGCCGAT +TGCGCTGGCACTGTTCTTTGAAGTGACACTGTTTGCCGTCGTGGCTCTGTTAGTGTCTCCGCTCGGTATT +GTTGATGTCGCAGGACACCAGATTGCCCTGAACTTTAGTTCACTAATGTTCGTGCTTCCAATGTCGCTGG +CGGCAGCGGTAACTATCCGCGTAGGTTATCGTCTGGGTCAGGGCTCAACGCTGGATGCGCAAACCGCTGC +GCGGACCGGGCTTATGGTGGGTGTCTGTATGGCAACCCTGACGGCCATTTTCACGGTTTCACTGCGGGAG +CAAATCGCCCTGTTGTACAACGACAATCCCGAGGTTGTAACGCTGGCTGCGCATTTGATGTTGCTGGCGG +CGGTATATCAGATTTCTGACTCAATCCAGGTGATTGGCAGTGGGATTTTGCGTGGTTATAAAGATACGCG +TTCCATTTTCTATATTACCTTTACGGCTTACTGGGTGCTGGGCTTGCCAAGCGGCTATATTCTGGCACTG +ACCGATCTGGTCGTTGAACCTATGGGGCCAGCAGGCTTCTGGATAGGCTTTATTATTGGCCTGACGTCGG +CAGCCATTATGATGATGTTGCGTATGCGGTTCCTGCAACGTCTGCCGTCAGCCATCATTCTGCAACGAGC +ATCCCGCTAATAAAGACAAGGCGCAACCTTCACGGGTTGCGCCTGTATTTTTACGCAGGCTGGAGCGTTG +CGCCAATCCCGTCTTCGTCTGGCTGTAATTTCAGAGCGTTACACAGAGTTTGCCGACTGGCATCTGTTAT +CTCAACGTGTATATCCCCGGTAACTTCCCCTTTCACATTGATGAAGTCAGGTGAAATTTCTTTTGCACTG +GTTTGCAGGCAAATCGCTCCCTCTCCGCGCAGGCGTTTCACTTTCAGTTGCACATGCGTTGCCGCATCAG +TGATCAGCCACAGTTTTCCACCATTCAGATTGATGTTACCAACAATGAAAGTGACACTGTCACCTTTTAC +CGTACTGCCGTCTAGAATCAACACACCGCCCTGCTGTACAGTAATCGTTGATTGTTGCAGCTCTGCGCCA +TAACCAATAATCATTGAAGCGCCGTCCAGTAATGCAACACTCCCGGTCAGTTCAACCGGTGCGCGATCTT +CCTCTACGACAAAATTTTCGTCCGCGCTGGTGGGTGACAACAGGATCACTGTCCCACCTTGTATTACCGC +GTTTTCCAGCGTACCGGCATGCACTTCAGCCCGACCACCCACATTCACGGACAGGTTTTGCGTCTTACCG +GAACTGTAGAGCTGAAGGCCATCCGTCCCCAGACGATAAATGGATCCATTCTCAACAATAGTGTCAGAGT +CTTCACCACCGAGATTATTCATGGTGCCACCAGCAAGCAACGTATCACTGGCTTTCCCGGCCAGCATAAA +AACGCCGCCCTGATTAATCTCACAATTGCTGGCTTCCCCACCTGGATACACCAACAATTCACCACCTTCA +TCTACCACGACCGCTGAGGTTGTCCCATTAACCAACAGGCCGCCCTCTTGATCGAGAATGATTTTTTCCG +CGCGATGTCCTTCCAGTACACGCAGGTTACCGCCATTTTCCAGCAACAAACCGCAGGCATAACCTTTATC +AACGCTGAATTCACCTTCGGGATGGCGGCCATTAACCGTAGCGAGCGTAGAGAGACTAATTGCGCCTCCC +TCGGACTGAACAATATCTGTGGCAATGGCACCATCGCTGACCGATAGCGTGCCATTGTTACCGTACTGTG +TGCATTTGGCGATCCCACCGGTTGCCACTTTCAACCAGCCAGCCCCCGTGACCACGGTATTTTCGGCTCT +TCCGCCAGCTTCAACAATCAACTCGCCTTCAGTAAGTTGCGTCGCGCCAATGACCTCGCCGGTCTTAACA +ATTTGCACGTTCCCGTCGCTCATCAAGTTTTTCGCATCAGATCCCATGATTTATTCCTTTGCTGCATCTG +TGTGCCTTTATTGCTACCTAAGTGTAAAGGCTACGGAGGATTTATCCACGACAGATTTGAGATGGTGGCA +AACAACTCTGTTTAAACTCTGATACACGAATTATTGGGTTGTATCAGATGTAAATGCGATCCTGAATAAA +AATCACCCTTGCAAATCAACAAAATATAGCCAATTTGCTTAAAAGCTCTGCAAACGGTCGAAATAGCGCA +GAAAATTACGTTTTGCCTCTTGCCACCTTCCCACTCTGCCGCTAATATTCGTCCCCGTTGTCACCTACAA +CGTTGCGTTCATAGCTCAGTTGGTTAGAGCACCACCTTGACATGGTGGGGGTCGTTGGTTCGAGTCCAAT +TGAACGCACCATCCTGCGTCCGTAGCTCAGTTGGTTAGAGCACCACCTTGACATGGTGGGGGTCGGTGGT +TCGAGTCCACTCGGACGCACCAGATTTTCTTAATCTGGTCTTCTCCTTTTTCCCTCTGTTTCTTCTCTGT +ATCCAATACGTTAAAAGATTTACACTGTCTTCGTATGCGTTATCAGAAGGAGAATCGCTATGGCAACTTT +GTTACAACTTCATTTTGCTTTTAATGGCCCATTTGGCGACGCAATGGCTGAGCAGCTTAAACCACTTGCT +GAGTCGATTAATCAGGAACCTGGTTTTCTGTGGAAGGTATGGACAGAAAGTGAAAAGAACCACGAAGCCG +GTGGGATCTACCTTTTCACTGATGAAAAAAGCGCCCTTGCCTATCTGGAAAAACATACTGCCCGACTGAA +AAATCTCGGCGTTGAGGAAGTTGTCGCCAAAGTTTTCGATGTCAATGAGCCACTTAGTCAAATCAATCAG +GCAAAACTCGCCTGACAGAATTTAATCAAGGGCGGTTAGCGCCCTTTTCATCCCTGTCTGAAATTTCTCA +AATTCTAAAAATCTCAACCAAACTTATCTGATAACACTAAATTCGAAAGAATGCGTACAGGTAAGTAACA +ATGAAAAAAATTGCTATTGTGGGTGCCGGGCCTACGGGGATCTACACCTTATTCTCGCTTCTACAGCAAC +AAACTCCACTTTCTATTTCTATCTTCGAGCAGGCTGACGAGGCCGGTGTCGGGATGCCATACAGTGATGA +GGAAAACTCAAAAATGATGCTGGCAAATATTGCCAGTATTGAAATACCGCCGATTTATTGTACGTATCTC +GAATGGCTACAAAAGCAAGAAGACAGCCATCTCCAGCGTTATGGCGTTAAAAAAGAAACCTTGCACGATC +GTCAGTTTTTACCGCGAATTCTGCTGGGCGAATATTTCCGCGATCAATTTTTACGACTAGTAGACCAGGC +ACGACAGCAAAAATTTGCAGTGGCTGTTTATGAATCATGCCAGGTTACCGATCTGCAAATTACAAATGCT +GGCGTCATGCTCGCTACAAATCAGGATTTACCCAGCGAGACGTTTGATTTAGCGGTGATCGCCACGGGTC +ACGTCTGGCCTGATGAAGAAGAAGCAACCCGAACGTATTTTCCCAGCCCGTGGTCAGGCCTGATGGAAGC +AAAGGTCGATGCGTGTAACGTGGGTATTATGGGAACATCCTTGAGCGGACTGGATGCGGCAATGGCAGTG +GCTATTCAGCATGGTTCGTTCATTGAAGATGATAAACAACACGTCGTTTTTCACCGCGATAACGCAAGTG +AAAAGCTAAATATCACGTTGTTGTCGCGCACGGGTATTTTACCCGAAGCCGATTTCTATTGCCCTATTCC +CTACGAGCCCTTACACATCGTCACCGATCAGGCATTAAATGCTGAGATTCAAAAAGGCGAAGAGGGCCTT +TTGGATCGGGTATTTAGATTGATAGTAGAGGAAATCAAGTTTGCTGATCCAGACTGGAGTCAACGCATAG +CCTTAGAGAGCCTGAATGTCGATTCCTTTGCTCAAGCCTGGTTTGCCGAGCGCAAACAACGCGACCCATT +TGACTGGGCAGAAAAAAATCTCCAGGAAGTCGAACGCAATAAACGAGAAAAACATACTGTTCCCTGGCGT +TATGTCATTCTGCGCCTGCATGAAGCCGTACAGGAAATTGTTCCACATCTGAATGAACACGACCATAAAC +GGTTCAGTAAAGGCCTTGCCCGGGTTTTCATCGATAATTATGCGGCAATCCCTTCAGAGTCTATTCGTCG +CCTACTTGCCTTACGTGAAGCGGGAATCATTCATATTCTCGCCCTCGGTGAAGACTACAAAATGGAAATT +AATGAGTCGCGCACCGTCCTGAAAACGGAAGACAACAGCTACTCGTTTGACGTTTTTATTGATGCCCGCG +GACAACGTCCGCTTAAAGTGAAAGATATCCCTTTCCCTGGGCTACGCGAGCAATTACAGAAAACAGGGGA +TGAAATCCCTGATGTTGGCGAAGATTATACGTTACAGCAACCCGAAGATATTCGTGGGCGCGTAGCGTTC +GGCGCGTTGCCCTGGTTGATGCACGACCAGCCTTTCGTTCAGGGACTTACGGCATGTGCAGAAATTGGTG +AGGCGATGGCTCGGGCGGTCGTAAAGCCTGCATCCCGTGCTCGTCGGCGTCTTTCGTTTGATTAAAGGTA +AAGCTATCAGCACTCAACAAACTGATGCTGTTCATTAAGACGATAGCGGACTCCGGCTCGAATATTGTTT +TCACCTTCAATGGCGACGGCGAAGCGAACTCTTTCGCCGTCATGATATGCCAGTGCGGCGCTTCCTCCTG +GCCCGAGAATAATTGAGTCGACCACGCCCGTGCTCACTACCGTTGAATTTTCACCGCTGGCAATGATGTG +TACATTGTCGCCGCTGTTGGCAATTCTGGCGTTTGCGCCAAAGCTGGCGATTTGCACCAGGTCACCATTA +CTGGCGACATGACACCGTTCACCCAATGTACAAACGCGTACTCGCATTCCGGTATTCGCAATCCGACTGC +TATCTCCAGCGCTGCTTATCCGCGAAGAATTACCGGTTACAGCAACCCGTGCGCGTTCACCGGAGCTGCC +AATGTGACTGTTAAAGCCGACACTTCCAATCCGCACGCTATAACCCATACTGGCAATTTGCGCGGCATAC +CCAGCGGTTGCGATTCTGGCGTTATCCTCACAACAGCCGATGCGAGCATGATCGTCGCTGCGGGCAAACT +GACTGCAAAATGGTCTCTCTCCGGGGTCTGTGGCCAGTTTTTGCATAGAGGAAACTTCCTGATGCGCGAA +GTTTTCATCCGCCAGCCATTTTTTCCACGCATACTCAACCAGACTCTCCGCCCAGTCCGTATATCCTTCC +TCAATCAGTGCATGATGAATATCGGCATAACTACCGCCGCGTGGGAAATGGCGCAGGAACCAGCGATACA +TCACCGCTCCGATACGCCATTCTCGCAGGTCTGCTTGTGTAATGATCATTCGTTAGTGCCGGTGATAGCC +ATCGACCATGCTTTTAAAGGTTTCGTGTGGCGTACGCCCCGTGGTGCAAAGATAAAGATGACCGAAGATA +AAAAAGAGGCTTATAAATGCCAGAGCAAAATGTGTCTGCAATAACCAGTATCTTACGCCAGGAAACACAT +CTCCCACGGCTTGCGGATAGAGACACAGCAGCCCCGTCAATAGTAACAACGGCAGCAATCCATACATGAC +ACCAACATAGGCGACCTGCTGTAAGGGATTAAATTTAGACTGGGTTGTTGCCGGGAAAGGATGTTCTTCC +CCCTGCATAATGCCAAACAAATAAAATCGCGTTTGTTTTGCCGCTCGTTCCAGCCACCCCTGACGACGAA +TGCGATAGTGGTGACCATTATCCCCAACGGCATTGATCAGCACAAAGCCGAGCCAGCATGCCAGTAACAA +AAATCCGCAAACTTCATGCACCGCAACCAGACTTTTAACCGCAGTTGCGCCCACCATCGCAAAGTGATTT +ATCAGCCCACTGGCCAGCAACAATACAAAGAGTAACGCATTCGACCAGTGCCATAATCTGACCGCTTTGC +TGTAAAGATAAATCTTCTCACCATGATCGGTGGCTGATTTCTTCACGCCACGAGCACGAAGCAAGGCATG +CAGCCCCAGCACCAACCACATCCCAACCAGCAATACTCCGGCAATGATCAACCACACCGGCCAAAATTCG +GGAGTGAACTGTGGCACATAGTTCGCTAACTGGCTCTGAAACTGTTCAGCATGTTGCGACGGGTTCATAC +ATTTTCCTTTTTAATCAAATGTTGACCGAACCGGCGATACAGATGCGGTTTCCCGGCACCAGGTAGCTGA +TATTGATAGTATTTATTTTGCTGCAACCACGCCTGAATTTCTGGGCTATCTTCGCGACCAAAGATCAATG +CGTGTTCCGGGCAGGCGCTGACGCAAATGGGCGGAAAGCCTTTTGCCAGTCGGGACTCAGCGCAGAAATC +ACATTTATCTGCCACTTTAGTGACAGGGTTAAGGTAGCGAACCTGGTACGGACAAGCGCCAATGCAATAA +CTGCAGCCGATGCACTGCGATTTTTCTACCCGCACGATCCCCTGCTCATCACGCCACGACGCCCCCGTCG +GGCAAACGTCGATGCACGGAGCATCTTCGCAGTGCTGACATGACTGGCGAAAAAAGTGATACTGCGTTTC +GTTGTCGTTATCGGTGACTGGAATGTGTGCTATCGATAAACGGCTTCCCTGAGCGGGGACGTGGTTAGTT +TTACGGCATGCGCGGGCGCAAATATTACAGCCATTGCACCGTGACTCGTCATGAATCATGGCATACCGAA +CTTCCTTTTCTTGCCTCGTGTTCGCTAACAGAGAAGACGCAGAACCAGTAAAAAAGATTACTGTTCCCAT +CCCCAGAACAAATTTGCGTCGAGTGAAGGACATCTGATTATCCCCTAATGCAGTGGCTGCAACTGTCCAC +CCTATCCATGACATCTCCCTGAAATTTCAGGGGTTCTGAAACTGCTCTACCTCGAACCATTCGCATAAGC +CATAAGCCTTGCCATAGGTCATAAATCGCTCGCTAAACAAGTACAACACCGCCGTCGATGACTCCACCTG +CCGTATATCGGCATATTCAGGTGCAACATCCATCGCGGCGATCGCGGCTTCAATCTGCGCTTCCTGGAAG +TAATATGGCGCTTGCATCAGCATGGCGACTTTGTAAGGACGAGGATACGTCTGGCACTCAAAACGAACGG +CGTGTGCAATGGCGCGACAAATGTCCTGCTCCACAACTTGCAAAGACATCGCCGCGTAGTTTTCACTCAT +GGCCTGCGTTGAGTAATAGTAATCATCCTTGCTTCCCGTCAAACAAGCGATATCCGCGTAGTCTCCGTTC +TGCTTAATGCTTTCCAGCAAAACTGACAGTTCCTCTTCTGCAACCAAATAGGGTGGCGAGAGAAACACGG +CGCGCGCCACCAGCTGCCCAGCCGCAGAATGCTGGCGAATGAACTCAGCCAGGATTTCAGCAGGTTCTGG +TTCGGTTACCGTATCAACGGGGTGACGCATCCCCTGCAACCATTGCCGCTTCGCCTCGTCAACTTCGCTG +ACTTTCGCTAACGGCAATTCATCCTGATGGTTCATCTTACCCATTCCTTACGCAGGCAGTAGATTGTGTG +CTGCCAGATCGGCGGCAATATCTTCCAGCCCCAGACGCTGCAATGTTTCGCGGGTTGGACAACCAAGCTG +TGGGTCCCAGCCCATTTCTTTGTAGAACATCGTGAGCGAAGCATGCATATCGTCACGATCCATTTTGTCA +GTACCTTCAGTAAAGACCGGGATCTGCGGATCCTTGTCGAATACCCAGGAACAGATAAGATCGTGTTCAT +TACGCATATCTTTGGTTTGCATCAGTTTTACCGTGTAGGCACGATGCAACGTAAAAATACGCTCTGCAGC +TAAATCTAATTTTTCCTGAGTCATCTCTTCGCCGGTGATCGCTTTGAAGAATTTGGCTTCAAGCGCCAGA +TCGCCCCGGTAATTACGGCTTTTCAGCGGCGAAACGGTCATTGGCCAGACCCAGTTGCACAGGGTGACGG +CGTTATGCAAACAGACCCGCAACAGCGACCACTTTGCATATTTAATTTTTGCGTCATTGATTGGCGTGTA +GTTTTTGGTTTCATCGTAAGCATCTTCAGAACCAAAAAGTTCTTTCGCCACTTCACGTTGCAGTTTCAAT +GGCAAGCCGGAACCAATAAAGTTGATATGGGTATGCGTCATGCAGTCACGGTTGAACATACAGTTAACAA +TGGAACCGACCTGCGCTGACGCTTCATTGGCATGGTGAACCGGATAGCCAAACGGCGACCAGAGTTTATT +TTTCGCGTAGCCCCAGTACTCTTCACCCAAATTCCAGCGTTCTGCGATGGCATATGAACCATCAGCCAGG +TGACTCAGCTCACCCACACGATGCGCCAGACGGTAGTAAAAATCTTTAATGAAGTTAACGTCACCCGCTT +CCAGTTGATCCCAGCGAATTTCTGCATACTCTTCAGCTGGCAGAACACGCTTGAACACACCTTTGCTGTA +ACAATAAGTAAAGTCGCGATGCAACTGCCCGTAGTTACACCATAGGCCGTAGTCATCGAACAAATTCAGA +CCCACCAGGTTACCAATCACACGACCATCGTCTTTATCTTCAAAATCTTTCGGCCCGTTCGGGAAGATGG +TGGTATGGACAAAGTTTGCTACACAAGTGTTACCACCTGTGCTGGGCACGCCAAACTCTTTCACCCGAGG +AATATTCATTTGGGTCATACAACGGATCGGGCAAGAGTGGCAGCCGCTCATTTTTACTGTGTATTTCTCT +GCCGCCGGTCCTAAGTCAAAAACGGATTTATAGGTACGAAAGCCGACCGTATTCTGATTGCCTGGCGGAA +TTTCACCCGTTTCAATCGGACCACCTTCAGCCGCGCCCCAAAACAGCCCTTTACGTGCTGTCCAGCGTGA +CTTGGGATCTGAATACTCTGCCCACGATTGTGGCGTACTTGGCACGACATGGTTGTTATTCGCACCAATA +AGTTCAGTCATCATGTAATCATTGAGACGCTTCATCTCCTGACGATCGGCAATGTTGACCCCTTTCGTCC +CTTCAACCGCAATCGCTTTCAGGTTTTTCGAACCCATTATTGCGCCAGTTCCCGCACCGCCGCTGTGGTT +ACGGCTATTCAACATGCCAGAGAGAGGAACAAGGTTTTCCCCAGCCTGACCAATAGCCGCCACACAGGTT +TCCGGACTGGTCAATCGACAAATTTCTTCCGTCGTTGCGCGCGTCCCTTTTCCCCATAAGAAATCGGCTT +TTTCCAGGCTAACTTTGTCATCTTTAATCTTCAGCCATACCGGTGATTTCGCCTTCCCTTCGATAATAAT +GACGTCGTATCCAGCGAATTTCATTTGCGCTGCAAAAAAGCCACCCATATGGGCATCGACGACTAAATTT +CCTTTGGTAAAAGTAGAAAGTGAGGTGATATTTACGCGAGAACTACAGGGGGCACCAGATCCAGTTAATG +GGCCGGTAGCAAAGACTAATTTATTCGCTTCATCGAAAGGTTTCGTGCCTGGCGGTACTTCGTCATACAT +AATTTTGTAGCCGAAGCCCATGCCACCGACAAAACTTTTAAACTTACTGGAATCTTCGAGGGTAATATTT +CCTGTCGTGAGATTGACTCTTAATATATTACCTGTCCAACCGTTAGCCATGATTTTTTCCTTTGCAAGAT +TCACACAGTAATATCTTTCCACTCGATAATTTTTAACGCCCCTGTTGGGCAGGCGTTTGCGCATTCACCG +CATAACACACATTTCGAGGATTTTTTACTTTCGGTATTTACGGTGGCCATCATCCACGGGCATGCCGTAG +TACAGGCGCTACAGCCAATACAGCGTTTATGATCGACGGTAATACAGCCTTCTTTCTGCTGCCAGGTAAT +CGCACCAATCGGGCAGACGTTCATGCATTGCGGCTCTTTGCATTGACGGCAGGTGTCCGCGGTATAGTTG +AGATCGCCATACAGGCCGCCGCCAGAGCCAACCCCGTTGTCGCCAAAGAAATAATTGCGATGGATTTTGA +TACGGGAGAAGAATGTCCCTACTGAGCCATCGTTGAAGTTGGTACAAGAGATTTCACAGCGGTGGCAACC +CGTGCATCGCGCTCGCTGGGTCACCAGCACCCCTTTGGGGGTATTTATCAACCCTACTGTGCCGCTATCA +ATATCTTCCTGTTTGCAACCCAAAAGTGACAGTAACGCAGGGGCAATTGTTAGACCAGCAAGGCCTTTTC +CTGATATACGCAAGAATTCTAATCGCGTTAAGCCAATATCTAATAGTGGACGATCAACCGGGTTCATTTA +TTTCGCATCCTCTTCGCAAACACAGTGCTGACAATTCAGCAGCCTGATATTAAGCATTCAACTAATACGC +TGCTGACTCTGTCCCCAACACCAGATATTTTCCCTAACCCGATAGTGTATGAGAAAAGATTAACGCCGAT +AAACTAATCCTTTATGGTTAGGAGAAAAAATAATGTGATTATTCTGAGCCCTTAACATTGATCGTTATCA +ATTAAAATTACAAAGCAAGAAATTATAAGTGAACTGATATTTATTATCATTTGAAATAAATTTAACTTAA +GCGACAATTATTTGTGACTTTCATTGCAGAAAATAAAAATAACATTATCGCTATAAATTAAAATACATAC +CGAAATTCGTATAATTTCAGCAGTTGTTATTTAGAATGATTAACTGGACCGCAACTGAAGCAAGAATATC +AGGATGAAGCTTACCGCCTCATCCTGAATGGTCATTTTACCAGTGCGTTAATGACGGTTTCCATCGCCTG +CTTTTCCAGCTCACTGCGCTGAATGCGTTTATTGGCTAATGCTGTACGTAATACGCCTGCGATAACAATA +TGCTTTGGTTCCTGCCCCAGATCGCGCATTTCCAGCACAACTTTACCGACAACTCTGCACATTTCTCGGT +ACAGTTCATCCTCTTTTGTCCGATTTCCCATTCTTTATACCTATTTATCATGCCAACTATCAGCATATAT +CAATCTAACCAATTAAACAAAAATCAAACAAAATCAGACAAATAACGCGATAAATTATTTTAACTGTAGC +AATTGAGCGATGATATATTTATACACCGGATGAACTTTCACTTATCCTCACACTGACAACTTCGGCACCA +GACGTTGCGCAAACAGTGAAGTTTTTGCGTAACCTTTTCCCTGGAACGTTAAATCTTTGATAACAATTTA +TTGTCTAACAAGTTGTATATTTTTTGAAACGCTGTTTTTGTTTTCCTTTTGGATTAATTTCAGCGTATAA +TGCGCGCCAATTGACTCTTGAATGGTTTCAGCACTTTGGACTGTAGAACTCAACGACTCAAAAACAGGCA +CTCACGTTGGGCTGAGACACAAGCACACATTCCTCTGCACGCTTTTTCGATGTCACCTATCCTTAGAGCG +AGGCACCACCACTTTCGTAATACCGGATTCGCTTTCCGGCAGTGCGCCCAGAAAGCAAGTTTCTCCCATC +CTTCTCAACTTAAAGACTAAGACTGTCATGAAAAAGACCAAAATTGTTTGCACCATCGGACCGAAAACCG +AATCTGAAGAGATGTTAGCTAAAATGCTGGACGCTGGCATGAACGTTATGCGTCTGAACTTCTCTCATGG +TGACTATGCAGAACACGGTCAGCGCATTCAGAATCTGCGCAACGTGATGAGCAAAACTGGTAAAACCGCC +GCTATCCTGCTTGATACCAAAGGTCCGGAAATCCGCACCATGAAACTGGAAGGCGGTAACGACGTTTCTC +TGAAAGCTGGTCAGACCTTTACTTTCACCACTGATAAATCTGTTATCGGCAACAGCGAAATGGTTGCGGT +AACGTATGAAGGTTTCACTACTGACCTGTCTGTTGGCAACACCGTACTGGTTGACGATGGTCTGATCGGT +ATGGAAGTTACCGCCATTGAAGGTAACAAAGTTATCTGTAAAGTGCTGAACAACGGTGACCTGGGCGAAA +ACAAAGGTGTGAACCTGCCTGGCGTTTCCATTGCTCTGCCAGCACTGGCTGAAAAAGACAAACAGGACCT +GATCTTTGGTTGCGAACAAGGCGTAGACTTTGTTGCTGCTTCCTTTATTCGTAAGCGTTCTGACGTTATC +GAAATCCGTGAGCACCTGAAAGCGCACGGCGGCGAAAACATCCACATCATCTCCAAAATCGAAAACCAGG +AAGGCCTCAACAACTTCGACGAAATCCTCGAAGCCTCTGACGGCATCATGGTTGCGCGTGGCGACCTGGG +TGTAGAAATCCCGGTAGAAGAAGTTATCTTCGCCCAGAAGATGATGATCGAAAAATGTATCCGTGCACGT +AAAGTCGTTATCACTGCGACCCAGATGCTGGATTCCATGATCAAAAACCCACGCCCGACTCGCGCAGAAG +CCGGTGACGTTGCAAACGCCATCCTCGACGGTACTGACGCAGTGATGCTGTCTGGTGAATCCGCAAAAGG +TAAATACCCGCTGGAAGCGGTTTCTATCATGGCGACCATCTGCGAACGTACCGACCGCGTGATGAACAGC +CGTCTCGAGTTCAACAATGACAACCGTAAACTGCGCATTACCGAAGCGGTATGCCGTGGTGCCGTTGAAA +CTGCTGAAAAACTGGATGCTCCGCTGATCGTGGTTGCTACTCAGGGCGGTAAATCTGCTCGCGCAGTACG +TAAATACTTCCCGGATGCCACCATCCTGGCACTGACCACCAACGAAAAAACGGCTCATCAGTTGGTACTG +AGCAAAGGCGTTGTGCCGCAGCTTGTTAAAGAGATCACTTCTACTGATGATTTCTACCGTCTGGGTAAAG +AACTGGCTCTGCAGAGCGGTCTGGCACACAAAGGTGACGTTGTAGTTATGGTTTCTGGTGCACTGGTACC +GAGCGGCACTACTAACACCGCATCTGTTCACGTCCTGTAATATTGCTTTTGTGAATTAATTTGTATATCG +AAGCGCCCTGATGGGCGCTTTTTTTATTTAATCGATAACCAGAAGCAATAAAAAATCAAATCGGATTTCA +CTATATAATCTCACTTTATCTAAGATGAATCCGATGGAAGCATCCTGTTTTCTCTCAATTTTTTTATCTA +AAACCCAGCGTTCGATGCTTCTTTGAGCGAACGATCAAAAATAAGTGCCTTCCCATCAAAAAAATATTCT +CAACATAAAAAACTTTGTGTAATACTTGTAACGCTACATGGAGATTAACTCAATCTAGAGGGTATTAATA +ATGAAAGCTACTAAACTGGTACTGGGCGCGGTAATCCTGGGTTCTACTCTGCTGGCAGGTTGCTCCAGCA +ACGCTAAAATCGATCAGCTGTCTTCTGACGTTCAGACTCTGAACGCTAAAGTTGACCAGCTGAGCAACGA +CGTGAACGCAATGCGTTCCGACGTTCAGGCTGCTAAAGATGACGCAGCTCGTGCTAACCAGCGTCTGGAC +AACATGGCTACTAAATACCGCAAGTAATAGTACCTGTGAAGTGAAAAATGGCGCACATTGTGCGCCATTT +TTTTTGTCTGCCGTTTACCGCTACTGCGTCACGCGTAACATATTCCCTTGCTCTGGTTCACCATTCTGCG +CTGACTCTACTGAAGGCGCATTGCTGGCTGCGGGAGTTGCTCCACTGCTCACCGAAACCGGATACCCTGC +CCGACGATACAACGCTTTATCGACTAACTTCTGATCTACAGCCTTATTGTCTTTAAATTGCGTAAAGCCT +GCTGGCAGTGTGTATGGCATTGTCTGAACGTTCTGCTGTTCTTCTGCCGATAGTGGTCGATGTACTTCAA +CATAACGCATCCCGTTAGGCTCCACGGAATATTTCACCGGTTCGTTGATCACTTTCACCGGCGTTCCCGT +CCGCACGCTGGAGAACAAGGCTTTAATATCCGGTGCATTCATGCGAATACACCCTGAACTGACGCGCAAA +CCGACGCTGTCCGGCGCACTGGTACCATGAATGAGGTATTCGCCATTACCATGCGCGAGGCGCAGTGCGT +AACGTCCTAGCGGGTTATTTGGTCCGGCAGGAACGACTGGCGGTAATTTAATGCCACGCTCCAGCGAACG +CTGACGAATGCCTGCCGTAGGCGTCCAGGTTGGGTTAGGGATTTTCTGCCCAACACGCGTTTCCATCACC +GGCGTTTCCAGCCCCTGCAATCCAATACCTATTGGATAAACCTGCACAATATTTTCTCCCGGCGGATAAT +AATAAAGGCGCAGCTCTGCAAGGTTAACGATAATCCCCTGACGCGGTGCATCAGGTAATAACAGTTGTGA +AGGAATAGTTATCGTCGTACCAGGTTTTGGCACCGGGGCGATAGTGTTATTGGCTTCAAGGATCAACATT +GCCGCAGTATCAAAACGTCGGGCAATAGCCTGAAGGTTTTTATCCCCTTCTTGCACCGTATACGTTTGAT +TTTGCCCAACCAGTCGGCTTCCGGTTGGTGGTAGCGGATAATCAACCGCCCAGGCAGCCTGGATGGCGCT +AAAAGCGCCGATAAGCGTGAGTGTAAGCAAAGACGCGCGTTTCATTGTAAACCTCCTGTATTTGCCGGAG +ACTCACGCTGAAACGTCGGATGGCGCTTATGTTCACCTGAAACCAAAACACTCCTGTGCAGGTCAGTGTA +AACATTGACCATCCGGCAATGTGAGCCAACCGGATGAAAGCTGTCCTTTTAGTTTAGCTAAGTGCAGCGG +CTTTGGCGCGAATTGCGCGAATCATCGCTTCCAGACCTTGTGAACGAGATGGGGTGAGATGTTGGGTGAG +CGCCATTTTTTCAAACCACGGACGCACATCGAAATTGACAATATCCTGCGGCGTCATCTGATCGTAGAGA +ATAAAGACGACCGCAATAAGCCCTTTCACAATCGCCGCATCGCTGTCGCCCTGTAATTCAATAATTCCCT +GGGCATTCTGGCGCATGACAATCCACACCTGACTCTGACAGCCCTGAATGCTATTTTGTGGACTTCTGTC +TTCGTCGCGTAATTCTGGCAGACGCTGGCCCAGCTCAATAATGTAGAGATATTTCTCTTCCCAGTTGGCG +CAGCGTAAAAAATTACGCAGCAACTTTTCTTTATCCGGCAATAAAGCCATAGTGCCTCCCTGTTATCCCA +GCAAACGGTGAATACGTTGCAGGCCGGTCACCAGACGATCCACTTCTTCATGGGTGTTATACATGGCCAG +CGACGCCCGACACATCGCAGGGACGTTGTAATAGGCCATCAATGGCATTGCGCAGTGATGTCCGGTACGC +ACAGCAATGCCGTAATTATCGAGAAAACTGCCAACATCATAGGCGTGGTGTTTACCGAGATTAAAAGCAA +TAACGCCAAGCCTGTTTTGTGGGCCATAGAGAGTGAGATCCGGTACAGATTCCAGCTGTGATAGCGCATA +ATGCATCAGATTCTGTTCATACTCGGCTATGTTATTAAGCCCCAGCGCCGAAACATACTCCAGCGCCGCG +CCAAGACCAATGATGCCCCCGGTATTGGGTGTACCGGCTTCAAACCGCCATGGTGCTTTGGTCCAGGTAG +TGCCTTCACTCAGGCTGACGGTGGCGATCATAGAACCGCCCCCTTCCCACGGCGGCATCTCCTGCAACAA +GGCTTCTTTCACATAAAGAATGCCAATTCCGGTGGGGCCATACAGTTTATGCCCGGAGAACACGTAAAAG +TCGCAATCCAGCGCCTGAACATCCACCGGATGATGCATCACCGCCTGAGCGCCATCCACCAGCACTTTTG +CGCCATGCTGGTGCGCAAGCGTGATCATTTCCGCCAGTGGATTTTCTGTGCCAAGCACGTTGGAGACATG +AGTAATTGCCAGCAGGCGAGTTTTCTCATCAAACAGCGTAGGCAGCGTCTCCAGTTGCAACGTACCATCG +GGATTGAGCGGGATCACACGCAGCTCTGCGCCAACGCGTGCGCAAAGCATCTGCCAGGGAACAATGTTAG +CGTGGTGCTCCATCTGACTGATGATGATGTTATCGCCCGCCCGCACGTTGCTGTTGCCCCAGCTATTGGC +GACCAGATTGATCCCTTCCGTCGTGCCGCGGACGAACACCAGCTCTTCCGCCGAACGGGCATTAATAAAC +AGCGATGCCCGCTTGCGCACGTTCTCCATTTTCTCGGTCGCCTGGGCGCTTAAGGTATGAATACCACGAT +GCACCGCCGCGTAGCCATGACGATAAAACTCGGCCTCGGCGTCAATCACCTGGCTCGGTTTCTGCGCACT +GGCGGCGCTGTCGAGATAAGCCAGCGGCAAACCGTTTACCTCACGCGAAAGCACCGGAAAGTCGGCCCGC +ACTTTGTCGACGGAAAAAATCATCTTGCACCTCCTGGCAGCCGTTGACCGATTCGGGCCAGCACCTGCTG +TTTAAGCCCCTCATCACGCAGTGCTTCCGTCAGTTCGGCAGCGAAGGCGTAAATGATCATCTGCTGGGCA +TCCTGCTGATTGATCCCGCGCGAGCGCAGATAGAATATCTGTTCATCATCAATACGCCCCACCGTCGCGC +CGTGGCTGCATTTCACATCATCTGCATAGATTTCCAGCTGCGGTTTCGTATCCACTTCCGCCAGTTTGCC +CATCAGCAGATTGTTGTTGGTCATCTGACCATCCGTTTTGATGGCGTGCTGCGCGACGTTGATCAAACCG +TTAAATACCGCGCGGCCTTTGTCGCTGACGATAGTTTTGTGCAACTGTCGGCTGTTACAAAAACCTTTAT +TGTGTTCCAGCCAGGTACGGGTATCACACACCTCGTTTTTCACCGGCATCGCCAGGCTATTGATCCGCAG +CGTGCTGTTTTCGCCATTGAGTTGCGTACTGGTGTTGTGTCGTAACACTGCGCCACCCAGCAGGAAACTG +TGGCTAAATGCGGTGGCATCCTCAGCCAGCAACAAATCGTTATGAGCAAAGTGGTGACTGAGCGGGTTTT +CAAACGCCAGCTTGATATGCTGCAAGTGGGCATTCGCTGCGACGTTGATAGTGAACCGTGCCCCGGTAAA +ATGACGAGCATCATTCAGGCTGACAAAATGTTCGATCACCGTTGCTTCGGCACCTTCCGCCAGATCCAGA +TGATGTCGGTAATGGGCAGTGTTCACCTCTTCACCTGCCACGCCCTGGGTGATATGCATTAACAGCAATG +GCTTTGCCGGCCGTTGACCGCGCTTCACGGCGATATGCGTCACGCTTTGTGCCAGGCTTTCCGTCAAATG +CAGAAACACTTCCGCCTGAATAGCGTCGGGTAAACCCTGACGGTCGTCGTTAATGCTCACTTCATATCCG +CTGCCTTCAGTTGCATCGCTCAGTGCGGGCACGTAACGCCCATCGACAAACACCAGCCGCACGGAGTCTA +ACGTTAACGCTAAGGCATCACGCTGCTGTGGGGATATCTCTCCCGCAATGCTGACAAACTGGCTATTGAT +CAGCCCTTCCAGCGGCGTATATTTCCAGTTTTCATGTTTACGTGTCGGCAGTCCGGTACGCAGCAATTGT +TGTAAATGCTGCTGTGCTTGCGGGGAGCGTTTTGTCCCTTCAGCTTCAAACAAGTGATGCCACTGTTGCA +GCGCGTTACTGCTGTTCGGTAAGCCAGCCATAACCCTGCTCCTCCAGTTGTTTGACCAACGTGAAATCGC +CGGATTTCACAATTCGTCCCTGATATAGCACATGAACGTAATCAGGCTTGATGTAGTCGAGAATGCGTTG +GTAGTGCGTAACAATGATGAATGAGCGCTTGCCATCACGCAGCGAGTTCACGCCATCGGCGACCACTTTT +AATGCGTCAATATCCAGCCCGGAGTCCGACTCATCAAGAATGCATAACTCCGGTTCCAGCACCGCCATTT +GCAAAATATCGTTGCGCTTTTTCTCGCCGCCGGAAAAACCAACGTTTACCGAACGGGTTAATAAATCTTC +CGGCATCTTCAGGAGAGCGATTTTCTCTTCCATCAAATCCTGAAAATCAAAGCGGTCGAGCGTTTCCTGG +CCGCGATAGCTGCGCACCGCATTAAGTGCCGTTTGCAGGAAAAACTGGTTACTGACACCTGGAATCTCCA +CCGGATACTGGAAGGCCATAAAGATGCCTTCGCCCGCGCGATCTTCCGGCGACAGCGCAAGCAAATCTTT +GCCTTTGAACTCAACCGTGCCGCCCGTCACTTCATAATCTTCTCGCCCGGCAAGCGTTGCCGATAAGGTA +CTTTTGCCCGAACCGTTTGGCCCCATAATGGCGTGAACTTCGCCGGGATGAACGTCGAGGCTTAATCCGC +GCAGGATAGCTTTATCTTCCACGCTGACGTGTAAATCTTTAATACTTAACATGTTTATTCCTTATCCGAC +GCTGTGTTCAAGACTGATGGCGAGGAGTTTTTGTGCTTCAACGGCAAATTCCAACGGCAGCTCCGAGAAC +ACGTCTTTGCAGAAACCGTTAACAATCATCGAGATGGCGTCTTCTTCGCTGATCCCGCGTTGCAGGCAGT +AAAACAGTTGATCTTCACCAATACGTGATGTCGTTGCCTCGTGTTCCAGTTGCGCACTATTGTTACGACA +CTCAACATACGGGAAGGTATGCGCCCCACAATTAGCGCCAATCAGCATTGAGTCGCACTGAGTGAAATTG +CGCGCATTGGTTGCCGTCGGCATGATTTTCACTAAGCCGCGATAACTGTTCTGACTATGTCCGGCAGAGA +TCCCTTTCGAGATAATGGTCGATTTGGTGTTTTTACCGATGTGGATCATCTTGGTGCCGGTATCCGCTTG +CTGATGACCGCTGGTCAGCGCCACTGAGTAAAACTCACCAATGGAGTTATCGCCGCGCAAAATGCAGCTG +GGATATTTCCACGTAATCGCTGACCCGGTTTCTGATTGCGTCCATGACATTTTGCTGTTTTCGCCTTCGC +ACAAAGCACGCTTGGTGACGAAGTTGAGAATACCGCCGGTGTTGTTATCGCCAGGAAACCAGTTTTGTAC +CGTGGAATATTTCACCTCGGCGTTTTTATGGATGATGACTTCCACCACTGCCGCGTGTAACTGATAGCTG +TCACGCACCGGAGCGGAACAGCCTTCAATGTAGCTGACGTAGCTGTCTTCGTCGGCCACCAGAATGGTGC +GCTCAAACTGCCCGGTTTTTTCTGCGTTAATGCGAAAATAGGTGGAAAGTTCCATCGGGCAGCGCACGCC +TTTAGGCACATAAATAAACGTACCATCAGAGGCTACCGCCGCATTAAGCGCGGCAAAGAAGTTGTCATTC +CCCGGCACCACGGTGCCGAGATATTTACGCACCAGTTCCGGGTGATCGTGGATCGCCTCACCAAAGGAAC +AGAAAATAATTCCCTGCTCCGCCAGTTTTTCGCGATAAGTAGTGGCAACCGAAACTGAGTCGAAAATGGC +ATCCACCGCCACCTCTTTGCCTTCCCGCACGGGAACGCCCAACTGCTCAAACGCCGCCTCCACCTCTTTA +CTTAAAAAGGCGTTCGCGCCAGTTTGCTGCACCGCGCCAGGTTCAGACGCGCAAGTGTCGTCACAATTAC +CGCACGATGGTGCTGAGTAGTAGCTGTAATCCTGATAATTCAGCTTGTCGTAGTGCGCTTTCAACCAGTG +CGGTTCTTCCATCTCCAGCCATGCGCGATAGGCGTTTAGACGAAACTCCAGCATCCACTCCGGCTCATTA +CGCTTCGCCGAAATTGCGCGCACCACCTCTTCGTTTATCCCCTTTGCCAGCTCATCGGTGGCTAACTGGG +TGAAGAATCCTTCTTTATAATTCAGCGGGCCGCCGGTCCAGGTTTTGACATCGTCAGTTGCTTCAGTATT +ACGAGACATAGTACCGCCTATACCCCAAAGCTTTCGCCACAGCCACATTCATTCTGGGCTTTAGGGTTGT +GAAATTTGAATATCTGATTAAGTCCTTCACGAACGAAATCGACTTCCGTGCCATCAATAAACGGCATCGC +TTGCAGCGGGACAAACAGCTTCGCGCCGTCGTGTTCAAACAGCAGATCGTCTTTGTCCGGCTCGCTAACA +CTGTCGAGCACATAGCCAAAGCCCGCGCAGCCCGTTTGCTTCACGCCTAAGCGCACGCCGACCATACCCG +GCTGCTTTGCCACCAGCTCACGGATGTGTATCGCCGCTGCGGGTGTCAGCGTTAAGCCTTGCCAGGCGAA +ATCTTGTGGGTTAAAGGTTCCTGAATGCATGTCCATCGATTTACCTCACTTCATCGCTTTCAGCGTATAA +CAGCATGTTAGTGATAATGATTATCAGTTCAACCCAGCAAACGCAGGGGCTTTACCGTAAAACATGCTTT +TTGCCTGCTTTTAATAAGCATAGACCCTGATGTGTGGGTTAACAGGCACGCTAAGAATTAGGTATCTCAT +TGTTAGATAATGGTTATTATCTAAGGAGCATTAAGGCTGTGATGAAAAAGAAAAAGTTGTATTGAAAATG +ACTATTTAAGAGATAGGTAAAAAAGTGCAGCGTTCAGAAATAAGAAAACCCTTAAGTCTGTGCGACACAG +GCTTAAGGGTTTCTACCCCATCCGGCGCTTATCTCCGGCACTCTCAGTGGCTTAGCTCTTGAAGGGGCGA +TAAGAATAATCTCATAAAGCTAACCCGCCGTTTTAACACAAACTGCGATTAGTATTATTTTTGAACAATA +TCAGGCGGTAGATAAGCAGTATTAAGAAGGTCATCGAACCTGGACGGAGGTTAATCCAGGTCGATTTGGC +GAACTTGCGGCATTAAGTCAGGATCAATGCACGCCCAGACGCCAGGCAAAGTAGATTTCTTCTTTTAATT +CAGCAGAAGAGAGAGTAAGCAGGTCAGCAAATTCAAGTTCTAGTTGTTTCAGACGTTTGAGATATTGGGC +AGGTGAAAGATTGCTCTGGTCACGGCGTAAAAATTCAATGGCCAGCTGGGTGGGATCAAGTTGAGTAGAC +ATAGCATCCTCGCTTTTAGACAAGACCTGCACAGTATACCACCGTTTACTGTGCAGATAATGACCAAAAG +CAATATGCGTCACACTTTTCTGGTGACAACGTCACAAAATGGCGGTCGTCAATCGTGACGAACAGCACAA +ACGCCCTTTCTCATCGAAGATTTCAATCTGCCAGACCTGGTGACGCGAACCGAGATGCAACGGTTTGCAT +ACGCCGCGCACCCGCCCTTCTCGTGCCGAGCGGACGTGGTTAGCATTGATTTCCAGACCAACCACTTTTT +GCTCACCTTCGGTACATAAATAACCGGCAACGGAACCGATACTTTCGGCCAGTACCACGGATGCTCCTCC +ATGCAGCAACCCGAAAGGCTGCTTTGTCCGCGAGTCTACTGGCATTGTCGCTTCAAGGGTGTCATCACCA +ATATGTTCAAAGCGAATATCCAGGAACCCCACCATGTTTCCTTCACCCATAGCATTCAGTGCTTCCAGGG +TGATTTTCCGTTTCCATATCATTTAATAATCTCCAGTAAAGCCTGCACAGGATGGCGTACCCCCGTGCCT +TCAACCCGTTTTACCTGGCTACGGCAGGAATATCCGGTCGCCAGACAGCGGTTACGCGGCAGTCGCTGCA +TAGCCTGATGCCAGGATAACTCATAGATCCCGAGCGAATTTTCATGGTTTTTCGCTTCATGTCCGTAAGT +CCCTGCCATGCCGCAGCAACCCACGCTGACATTTTCCAGTTTCGCGCCAAAACGGGCAAATATCGCGGCC +CATTGTGCTGGCGCACCCGGCAAGGCGGTAACTTCGGTACAGTGACCAAAGAAATACCATGATTCACCGC +TGACTGTAGCCACTGGCTGTGACTCAAGTGCGCTTGCCAGCCATTCATTCGCCAGTAAGACGTTAAACTC +GCCACGCTCCTCGCCCAGCGCCAGTTTATATTCATCGCGATAACAAAGTACCAGCGCCGGATCGACGCCC +ACCATTGGCATACCCAGCTTCGCCATACGGTTGAGGAAATCCGCCGTCTTTTTCGCCGTCTTCGCAAAAC +GATTAAGAAAACCTTTAATATGCTGGGCTTTGCCATTTGGCGAAAATGGCAGTAACACAGGCTGGAAACC +TAATTTTTCGACCAGACGGACAAAATCCGCCACCACTTGCGCATCGTAATAGCTGGTAAAGGGGTCCTGC +ACCACCAACACTGTGCGCGCTTTCTGCTCTGCATTGAGAGATTCAAGCTGTTCCAGCGTCATGTTTGCCG +AGCGATGCCCCACCATTTGTTGTTGTAGCGAGGGGACCGACAGCAGCGGCAAATCAACCATGCCGATATG +TTTTTCCGAGAGTTTGCGCACCAGCGGCTGGTTAATGAAGAAGTTAAAGGTTTTCGGCGCGCGTGCCATC +AGCGGCGCGTAGCTCTCGACCGTAGCGACGAGGTGGTCGCGCAGCGGGCGTAAATAACGGGTGTGATAGA +GCTGCAGAAAACGAGAGCGAAACTCCGGCACATCAATTTTGATGGGGCACTGGGTCGAACACGCTTTACA +GGCCAGACAGCCCGACATCGCCTCTTTGACTTCGTGTGAGAAGTCATATTCGCCTTTATTCGCATGCCAG +CTATTGCGCGTGCGGGCAATTAACGTCCGCAAACTGACGCCGGATTCAGGCAGTTCTTGTTCCAGTTTGA +GTGGATCAACGCCGCGATCCGCCAACAAACGCAGCCATTCACGCACCAGCGTTGCGCGCCCTTTCGGTGA +ATGAATCCGGTTCTGGGTGATCTTCATCGACGGACACATCGGACTACGGGCATCAAAGTTGAAGCATAAA +CCGTTGCCGTTACACTCCATCGCACCGCGCCACTGCTGGCGTACCGCAATGGGGATCTGCCGATCGAATG +TACCGCGCTTCACCGCGTCCACTTTCATCATCGGCGCATCGAGACCTTCTGGCGGGCAAATCTTCCCTGG +GTTGAGTCGGTTATGCGGGTCAAATGCCGCTTTCACTTTGCGCAGTTCTGCAAAAAGTTCCTCACCGAAA +AACGCCGGGCTGTATTCAGCGCGAAAACCTTTGCCGTGCTCGCCCCACAACAAACCACCGTATTTCGCAG +TCAGCGCCACCACGTCATCAGAGATTTGCTTCATCAAAATCTCTTGTTGAGGATCGCACATATCCAGCGC +TGGACGGACGTGCAAGACACCTGCGTCGACGTGACCGAACATACCGTAGCTTAAGCCGTGGCTGTCGAGC +AGCGCGCGAAATTCAGCAATATAATCCGCCAGGTGTTCCGGCGGTACGCAGGTATCCTCAGCAAACGGAA +TTGGCTTAGCGGCACCTTTGGCATTGCCAAGCAGACCAACGGCTTTTTTGCGCATTGCATAGATACGTTC +AACCCCCGCCAGCTCACGGCACACCTGCCAGCCGATGACACCTGCTTGATGACTGGCGATCAGCTCATCC +AACCGCGCACAGAGTGCATTTACCCGCTCATCAATCAGCGCCTCATCATCACCAGCAAATTCCACAATGT +TCAGCCCGAGCATCTCTTGGTCAGGCACATCGGTAATCAACTCGCTGACGGAATGCCAGACAATATCTTC +CCGCGCCAGATTCAGCACTTTTGAGTCCACCGTCTCTACCGAAAGCGCCCGCGCCTCAACCATAAACGGC +GCGTTACGCAGCGCAGAGTCAAAAGAGTCATATTTGACGTTCACCAGACGGCGCACTTTAGGCAAGCGTG +TAATATCCAGCCGCGCTTCGGTAATAAAGGCCAGCGTCCCTTCTGAACCCGTCAGAATGCGCGTCAGGTC +GAACTCGGTCATCTCATCGTTAAAGACATGACGCAGATCGTAACCGGTAAGAAAGCGGTTAAGTTTGGGG +AAGTTGTCGATAATTAACTGGCGTTGCTGACGGCAACGTTGATAAACCGTGTTATAAATTCGCCCGATTG +TGGTATTGGATTTACCCAGCGTTTCCGCCAATTCGACGGGTAAAGGTTGCGTATCGAGAATATCGCCCCC +CAACAACACCGCGCGTACGCCAAGTACGTGATCTGACGTTTTGCCATAGACCAGCGATCCCTGACCGGAT +GCATCGGTATTGATCATCCCACCGAGCGTTGCCCGGTTGCTGGTCGAAAGTTCCGGCGCAAAAAAGTAGC +CGAACGGTTTCAGGTACTGATTGAGTTGATCTTTTATCACCCCGGCCTCAACGCGCACCCAGCCCTCTTC +AGGGTTAATTTCGATGATGCGGTTCATATGGCGGGACATATCAACAATAATCCCCTGGTTGAGCGCCTGA +CCGTTAGTGCCGGTGCCGCCGCCGCGGGGGGTAAAGATCAGCGATGAATAGCGTTCCTGCGCGGCAAGAC +GGGCGATCAGCGCCACATCTGCGGTTGAACGCGGAAATACCACCGCATCGGGGAGAAGTTGGTAAATACT +GTTGTCGGTCGACATTGTCAGACGATCGGCATAACTTGTCGCCGTATCGCCGGTAAAACCTTGTTGCTCC +AGCTCTTGCAAAAAATTAAGCACCAGTTGAACGACGCCGGGTGCCTGGGAAATCTGTGGAATCATTATAT +TGACCCTTTCCTGCGGTCTGTGATGTAGGTCGATACACTATTCTTTCAGGCTGCTGCAATAGCGCACTGA +AAGGTGATGTTTGTTTACTCTATGGATTTCGTGTTGCAGGAAGGCGGCAAGCGAGTGAACTCCAGGAGCT +TACAATAGTAAGTGACTGGGGTGAACGAACGTAGCCGCAGCACATGCAACTTGAAATACGACGAGTAAAT +CGTTTGCGTGTTGCCTGAGTTGTTGTACCACATTTTTTTCTAACACGCCCATCAGAATTAAGGGCAGAAT +CGGCCTGTTAAAAACCGCTGAAATTGCTCATCATTATGCAGGTGAGTTTCGCGTGTTCACGTCGCGTCGA +CGATTTGACGCACAAAAAAGGTGAAAAGTAGTTATGGTAAATGTTCGTCAGCCCAGGGATGTCGCACAAA +TTCTGCTTTCGGTGCTGTTTTTAGCCATCATGATTGTGGCATGTCTGTGGATTGTTCAACCCTTTATTCT +CGGCTTTGCATGGGCCGGTACGGTGGTTATCGCCACCTGGCCGGTATTGTTACGTTTGCAAAAGATCATG +TTTGGCCGCCGCTCTCTCGCCGTTCTGGTGATGACGCTGTTATTAGTGATGGTGTTTATCATCCCTATTG +CTTTGCTGGTTAACAGTATCGTCGACGGCAGCGGCCCGCTAATTAAAGCCATTTCCAGCGGTGACATGAC +GTTACCCGATCTGGCGTGGCTTAATACCATTCCGGTGATTGGCGCGAAGCTGTATGCAGGCTGGCACAAC +TTGCTGGATATGGGGGGGACGGCGATCATGGCGAAAGTCCGCCCTTATATTGGCACCACCACCACCTGGT +TCGTTGGGCAGGCGGCGCATATCGGGCGCTTTATGGTGCATTGTGCGCTGATGCTTCTCTTCAGTGCCCT +GCTGTACTGGCGCGGTGAACAGGTGGCACAAGGCATTCGCCATTTTGCAACCCGTCTGGCAGGCGTTCGC +GGAGATGCCGCCGTGCTGCTGGCGGCACAGGCTATCCGCGCGGTGGCGCTGGGTGTGGTGGTGACGGCGT +TAGTACAGGCAGTGCTTGGCGGTATCGGCCTCGCCGTATCCGGCGTACCTTATGCAACGTTGCTAACGGT +GTTAATGATCCTCTCCTGCCTTGTCCAGCTTGGCCCGTTGCCGGTACTGATTCCGGCGATTATCTGGCTC +TACTGGACTGGCGATACCACCTGGGGAACGGTATTGTTAGTGTGGAGCGGTGTGGTTGGCACGCTGGATA +ACGTCATCCGCCCAATGTTAATTCGCATGGGTGCCGATTTACCGCTGATCCTGATTCTCTCTGGCGTTAT +TGGTGGTTTGATTGCTTTCGGGATGATCGGTCTGTTTATTGGTCCGGTTCTGTTAGCCGTTTCCTGGCGT +CTGTTTGCCGCGTGGGTGGAAGAAGTCCCGCCGCCGACGGACCAACCGGAAGAAATTCTCGAAGAACTTG +GCGAAATCGAGAAACCGAATAAGTAATTTCTCATCAGGCGGCTCTGCCGCCTGATTGTTAACCACCGCTA +ATTGATATTTGCTTGCTCTTCCCCATATTTTCCTGCTTACCGCCATTCAGCTGGTAGTACCTGTCGCAAA +TTCTTTACAGTTTTTAAACTAATGAGACGAATCTGATCGACGCAAAAAGTCCGTATGCCTACTATTAGCT +CACGGTTATAAATCAACATATTGATTTATAAGCATGGAAATCCCCTGAGTGAAACAACGAATTGCTGTGT +GTAGTCTTTGCCCATCTCCCACGATGGGCTTTTTTTTAACATTTTTCCGCTTCGCTACCTCGCCCCTCAC +TCTTTCCAATAATGTTGCACAAGATACTGTGACTCTCTTCAAGCCGTCAGCAGGCTGATAATGTTATTTA +TATTTTATTGTTTATTTCATGCAGCCATTACACGATGAACGCTTATGAACTCCAGGCACTCCGCCATATT +TTTGCCATGACTATTGATGAATGCGCGACCTGGATTGCCCAGACCGGTGACAGTGAAAGCTGGCGTCAGT +GGGAAAATGGCAAGTGTGCCATTCCTGATCGTGTAGTCGAGCAACTGTTGGCTATGCGTCAGCAAAGAAA +AAAACATCTTCATGCCATCATAGAGAAAATAAATAACCGCATCGGCAACAACACCATGCGTTTTTTCCCC +GACTTAACCGCATTTCAACGAGTCTACCCTGATGGCAATTTTATTGACTGGAAGATCTATCAATCGGTAG +CTGCTGAATTATATGCACACGATCTGGAGCGGCTTTGTTAATTTTTCCACAGAAAGGAATTGTCGTTGTT +ACAACAATAATGAACGGATGCTGACACAACATCGCTTCACTTTTTAAAGCACCTTTGCTAAGTAGAACCT +ATGAAAAATCCCTATTTCCCTACCGCACTTGGGTTGTATTTTAATTACCTGGTGCATGGTATGGGCGTCC +TTTTGATGAGCCTGAATATGGCCTCGCTGGAGACACTTTGGCAGACTAATGCCGCGGGTGTCTCGATAGT +TATCTCATCGCTGGGCATTGGTCGATTAAGTGTCTTGCTTTTTGCAGGATTATTATCCGATCGCTTTGGT +CGCCGCCCTTTTATCATGCTCGGGATGTGCTGCTATATGGCCTTCTTTTTTGGCATCCTGCAGACCAATA +ACATCATTATCGCTTATGTTTTTGGCTTTCTGGCGGGAATGGCAAACAGTTTTCTCGATGCAGGCACTTA +TCCCAGTTTGATGGAAGCTTTTCCACGCTCACCTGGGACAGCCAATATTTTAATTAAAGCATTTGTTTCC +AGCGGACAATTTTTATTACCGCTAATCATTAGCCTGTTAGTGTGGGCTGAACTGTGGTTCGGTTGGTCCT +TTATGATTGCTGCAGGCATTATGTTTATTAACGCTCTGTTTTTATACCGTTGTACGTTCCCACCCCATCC +GGGTCGTCGCTTACCTGTCATAAAGAAAACCACCAGCTCTACGGAACATCGCTGTTCAATTATCGATTTA +GCCAGTTATACCTTATATGGCTATATCTCAATGGCAACGTTTTATCTGGTTAGCCAGTGGCTGGCACAGT +ACGGACAATTTGTTGCAGGCATGTCATACACTATGTCGATCAAACTACTCAGTATCTACACCGTGGGTTC +GCTGCTTTGTGTATTTATTACCGCTCCACTCATTCGTAATACCGTTCGCCCAACAACATTACTGATGCTG +TACACCTTTATCTCATTTATTGCTCTGTTTACCGTCTGCCTGCATCCCACATTTTATGTGGTGATAATAT +TTGCTTTTGTCATTGGTTTTACCTCTGCTGGAGGTGTTGTGCAAATTGGCCTGACGTTAATGGCTGAACG +TTTCCCTTACGCTAAAGGTAAAGCTACAGGGATCTATTACAGTGCGGGCAGTATTGCGACCTTTACTATT +CCGTTGATTACGGCTCATCTGTCCCAAAGAAGTATTGCCGATATTATGTGGTTCGATACCGCCATCGCTG +CCATCGGTTTTTTACTGGCACTGTTTATCGGCTTACGCAGCCGCAAAAAAACGCGGCATCACTCGCTAAA +GGAAAATGTCGCTCCGGGTGGGTAATGCAATATTCTTTTCAGGTCATGCAAGATCTTACGGATAAATAAC +TCTTTCTGCGCTAACTAAGGAAAATCGCGATCAAAAACAAACTATGACATGCAATATTCCTGGAAACATA +AACTTTATGCCATGTACCCAGGGAAAATCATCTTCAGTATAGTAATTATGTAAACCGTCGGAGAACAATA +CGTACGGTAACGAAATTATCTTTCAGCAAGGAGCTGTGAAAATGTCTCAAAATAAGGCTTTCAGCACGCC +ATTTATCCTGGCTGTTCTTTGTATTTACTTCAGCTACTTCCTGCACGGCATTAGTGTTATTACGCTTGCC +CAAAATATGTCATCTCTGGCGGAAAAGTTTTCCACTGACAACGCGGGCATTGCCTACTTAATTTCCGGTA +TCGGTTTGGGGCGATTGATCAGTATTTTATTCTTCGGTGTGATCTCCGATAAGTTTGGTCGTCGGGCGGT +GATATTAATGGCAGTAATAATGTATCTGCTATTCTTCTTTGGTATTCCCGCTTGCCCGAATTTAACTCTC +GCCTACGGTCTGGCAGTGTGCGTAGGTATCGCTAACTCAGCGCTGGATACGGGTGGCTACCCCGCGCTCA +TGGAATGCTTTCCGAAAGCCTCTGGTTCGGCGGTCATACTGGTTAAAGCGATGGTGTCATTTGGGCAAAT +GTTCTACCCAATGCTGGTGAGCTATATGTTGCTCAATAATATCTGGTACGGCTATGGGCTGATTATTCCG +GGTATTCTATTTGTACTGATCACGCTGATGCTGTTGAAAAGCAAATTCCCCAGCCAGTTGGTGGACGCCA +GCGTAACTAATGAATTACCGCAAATGAACAGCAAACCGTTAGTCTGGCTGGAAGGTGTTTCATCGGTACT +GTTCGGTGTAGCCGCATTCTCGACCTTTTATGTGATTGTGGTGTGGATGCCCAAATATGCGATGGCTTTT +GCTGGTATGTCAGAAGCTGAGGCATTAAAAACCATCTCTTATTACAGTATGGGCTCGTTGGTCTGTGTCT +TTATTTTTGCCGCACTACTGAAAAAAATGGTCCGGCCCATCTGGGCTAATGTATTTAACTCTGCACTGGC +AACAATAACAGCAGCCATTATCTACCTGTACCCTTCTCCACTGGTGTGCAATGCCGGAGCCTTTGTTATC +GGTTTCTCAGCAGCTGGCGGCATTTTACAGCTCGGCGTTTCGGTCATGTCAGAGTTTTTTCCCAAAAGCA +AAGCCAAAGTCACCAGTATTTATATGATGATGGGTGGACTGGCTAACTTTGTTATTCCACTGATTACCGG +TTATCTGTCGAACATCGGCCTGCAATATATCATTGTTCTCGATTTTACTTTCGCGCTGCTGGCCCTGATT +ACCGCAATTATTGTTTTTATCCGCTATTACCGCGTTTTCATTATTCCTGAAAATGATGTGCGGTTTGGCG +AGCGTAAATTTTGCACCCGGTTAAACACAATTAAGCATAGAGGTTAAAGGAGTTAATTATGGATGTTACC +GCAAAATACGAATTGATTGGGTTGATGGCCTATCCTATCCGCCACAGTTTATCGCCCGAAATGCAGAATA +AAGCCTTAGAAAAAGCGGGATTGCCATTTACCTATATGGCCTTCGAAGTGGATAACGATAGCTTTCCTGG +AGCAATTGAAGGATTAAAAGCCCTCAAAATGCGCGGAACTGGTGTATCGATGCCGAACAAACAACTGGCG +TGTGAATATGTTGATGAATTAACACCAGCTGCCAAACTGGTGGGGGCCATCAACACCATCGTTAATGATG +ATGGCTATCTGCGTGGCTATAACACCGACGGCACGGGCCATATTCGCGCCATTAAAGAGAGCGGTTTTGA +TATCAAAGGCAAAACGATGGTGCTGTTAGGGGCCGGTGGTGCCTCAACGGCAATTGGCGCGCAGGGGGCA +ATTGAAGGTTTAAAAGAAATTAAACTCTTTAACCGTCGGGATGAGTTCTTCGATAAAGCCCTCGCCTTCG +CGCAGCGGGTTAATGAAAACACCGATTGTGTCGTCACGGTCACCGATCTCGCCGATCAGCAAGCCTTTGC +TGAAGCCCTGGCTTCCGCCGACATTTTAACCAATGGCACAAAAGTGGGTATGAAACCCCTTGAGAATGAA +TCATTGGTTAATGATATCAGTCTGTTACATCCGGGACTTCTGGTCACTGAATGCGTGTATAACCCGCATA +TGACGAAGTTATTGCAGCAGGCGCAACAAGCTGGTTGCAAAACGATTGATGGATACGGCATGTTGTTGTG +GCAAGGGGCTGAACAGTTCACATTATGGACTGGCAAAGATTTCCCTCTGGAATATGTTAAACAGGTCATG +GGGTTCGGTGCCTGACAGGCTGACCGCGTGCAGAAAGGGTAAAAAATGAAAACCGTAACTGTAAAAGATC +TCGTCATTGGTACGGGCGCACCTAAAATCATCGTCTCGCTGATGGCGAAAGATATCGCCAGCGTGAAATC +CGAAGCTCTCGCCTATCGTGAAGCGGACTTTGATATTCTGGAATGGCGTGTGGACCACTATGCCGACCTC +TCCAATGTGGAGTCTGTCATGGCGGCAGCAAAAATTCTCCGTGAGACCATGCCAGAAAAACCGCTGCTGT +TTACCTTCCGCAGTGCCAAAGAAGGCGGCGAGCAGGCGATTTCCACCGAGGCTTATATTGCACTCAATCG +TGCAGCCATCGACAGCGGCCTGGTTGATATGATCGATCTGGAGTTATTTACCGGTGATGATCAGGTTAAA +GAAACCGTCGCCTACGCCCACGCGCATGATGTGAAAGTAGTCATGTCCAACCATGACTTCCATAAAACGC +CGGAAGCCGAAGAAATCATTGCCCGTCTGCGCAAAATGCAATCCTTCGACGCCGATATTCCTAAGATTGC +GCTGATGCCGCAAAGTACCAGCGATGTGCTGACGTTGCTTGCCGCGACCCTGGAGATGCAGGAGCAGTAT +GCCGATCGTCCAATTATCACGATGTCGATGGCAAAAACTGGCGTAATTTCTCGTCTGGCTGGTGAAGTAT +TTGGCTCGGCGGCAACTTTTGGTGCGGTAAAAAAAGCGTCTGCGCCAGGGCAAATCTCGGTAAATGATTT +GCGCACGGTATTAACTATTTTACACCAGGCATAAGCAATAATATTTCGGCGGGAACACCCTCCCCGCCGA +ACTAAAAAATATATTCAATCGTATTTAATAAAAATATTTCGTGAGTCTCTGTGCGCTAATTCTCCATTTG +GCGTAGGGAAAATCACATCTGAATCAGGAATTAACAATGAAACCTGTAAAACCACCTCGTATTAATGGAC +GAGTGCCGGTCCTGTCGGCACAGGAAGCGGTGAATTATATTCCCGACGAAGCAACACTTTGTGTGTTAGG +CGCTGGCGGCGGTATTCTGGAAGCCACCACGTTAATTACTGCTCTTGCTGATAAATATAAACAGACTCAA +ACACCACGTAATTTATCGATTATTAGTCCAACAGGGCTTGGCGATCGCGCCGACCGTGGTATTAGTCCTC +TGGCGCAAGAAGGTCTGGTGAAATGGGCATTATGTGGTCACTGGGGACAATCGCCGCGTATTTCTGAACT +CGCAGAACAAAATAAAATTATTGCTTATAACTACCCACAAGGTGTACTTACACAAACCTTACGCGCCGCC +GCAGCCCACCAGCCTGGTATTATTAGTGATATTGGCATCGGGACATTTGTCGATCCACGCCAGCAAGGCG +GCAAACTGAATGAAGTCACTAAAGAAGACCTGATTAAACTGGTCGAGTTTGATAACAAAGAATATCTCTA +TTACAAAGCGATTGCGCCAGATATTGCCTTCATTCGCGCTACCACCTGCGACAGTGAAGGCTACGCCACT +TTTGAAGATGAGGTGATGTATCTCGACGCATTGGTTATTGCCCAGGCGGTGCACAATAACGGCGGTATTG +TGATGATGCAGGTGCAGAAAATGGTTAAGAAAGCCACGCTGCATCCTAAATCTGTCCGTATTCCGGGTTA +TCTGGTGGATATTGTGGTGGTCGATCCGGATCAAACCCAACTGTATGGCGGTGCACCGGTTAACCGCTTT +ATTTCTGGTGACTTCACCCTTGATGACAGTACCAAACTTAGCCTGCCCCTAAACCAACGTAAATTAGTTG +CGCGGCGCGCATTATTCGAAATGCGTAAAGGCGCGGTGGGGAATGTCGGCGTCGGTATTGCTGACGGCAT +TGGCCTGGTCGCCCGAGAAGAAGGTTGTGCTGATGACTTTATTCTGACGGTAGAAACAGGTCCGATTGGC +GGAATTACTTCACAGGGGATCGCCTTTGGCGCGAACGTGAATACCCGTGCCATTCTGGATATGACGTCCC +AGTTTGATTTTTATCACGGTGGCGGTCTGGATGTTTGTTATTTGAGTTTTGCTGAAGTCGACCAGCACGG +TAACGTCGGCGTGCATAAATTCAATGGTAAAATCATGGGCACCGGTGGATTTATTGATATCAGTGCCACT +TCGAAGAAAATCATTTTCTGCGGCACATTAACTGCGGGCAGTTTAAAAACAGAAATTACCGACGGCAAAT +TAAATATCGTCCAGGAAGGACGGGTGAAGAAATTTATTCGGGAACTACCGGAAATTACTTTCAGCGGAAA +AATCGCTCTCGAGCGAGGGCTGGATGTTCGTTATATCACTGAGCGCGCAGTATTCACGCTGAAAGAAGAC +GGCCTGCATTTAATCGAAATCGCCCCTGGCGTCGATTTACAAAAAGATATTCTCGACAAAATGGATTTCA +CCCCAGTGATTTCGCCAGAACTCAAACTGATGGACGAAAGATTATTTATCGATGCGGCGATGGGTTTTGT +CCTGCCTGAAGCGGCTCATTAACAGGAGTATAATGATGGATTTTTCTTTAACTGAAGAACAAGAACTGCT +GCTGGCCAGTATTCGCGAACTGATTACGACTAACTTTCCGGAAGAGTATTTCCGCACCTGCGATCAAAAC +GGGACATATCCGCGTGAGTTTATGCGGGCGCTGGCGGATAACGGTATTTCCATGCTTGGCGTGCCGGAAG +AATTTGGTGGTATCCCTGCGGATTACGTCACCCAAATGCTGGCGCTGATGGAAGTGTCAAAATGCGGTGC +TCCGGCATTTTTAATTACCAACGGTCAATGTATTCACAGTATGCGCCGTTTCGGTTCTGCAGAGCAGCTA +CGTAAAACGGCAGAGAGCACCCTGGAAACGGGTGATCCCGCCTATGCCCTGGCGTTGACGGAACCAGGTG +CTGGCTCAGATAACAACAGTGCCACTACCACTTACACGCGTAAAAACGGCAAGGTCTACATCAACGGACA +AAAAACCTTTATTACCGGTGCGAAAGAGTACCCGTATATGCTGGTGCTGGCGCGCGATCCGCAACCGAAA +GATCCCAAAAAAGCCTTCACCCTGTGGTGGGTCGACTCCAGTAAGCCCGGCATTAAGATTAACCCGCTGC +ATAAAATCGGCTGGCATATGCTCAGCACCTGCGAAGTCTATCTCGACAACGTGGAGGTTGAAGAGAGCGA +CATGGTGGGCGAAGAAGGAATGGGTTTCCTCAATGTGATGTACAACTTTGAGATGGAGCGCCTGATCAAC +GCCGCGCGCAGCACCGGCTTTGCCGAATGCGCCTTTGAAGATGCCGCCCGCTATGCCAACCAACGTATCG +CTTTTGGTAAGCCCATTGGTCATAACCAGATGATCCAGGAAAAACTGGCGCTGATGGCGATTAAGATCGA +CAACATGCGCAACATGGTGCTGAAAGTGGCATGGCAAGCCGATCAGCATCAGTCACTGCGCACCAGCGCG +GCGCTGGCAAAACTGTACTGTGCACGTACCGCAATGGAAGTCATTGATGATGCGATTCAAATCATGGGCG +GTCTGGGCTATACCGATGAGGCGCGCGTCTCCCGCTTCTGGCGTGATGTCCGTTGTGAACGTATCGGCGG +CGGTACAGACGAAATTATGATTTACGTAGCAGGTCGGCAGATCCTGAAAGACTATCAGAACAAATAATCT +GCAGGCGGCGCAGCTTCTTAACAAACTGCGCCGCCAGATTTATCCAACAAGACTTACCGGTTGAGGAAAT +TCAGATAGGATTTCTTGTTCCGCAAAACAGTTTTTAAATTGTCTACGGTAATCGCTGGGCGAACAACCGA +CATGGCGCAAAAACAGTTTGGCAAAGTGATCGACATTTTCATAACCCACACGCCAGGAGATCTCTGCCTG +TGATAATTCAGTATTAGTGAGTGACCATTTTGCTTCCGTCATACGCCGTTGAATAACATAGTTAATAGGG +GAAATACGATACTCTTTGGTAAATTCATGGCAAATATAACTGACGCTGGCACGAAATTTTTTCGATAACT +GTTCTAAAGTGATTTTTTCGCGATAATTATTATTCAGATAGAAAAGAATATCTTTTATCAGAACATCTTT +TTTAATATACCCCTGCTCCGAACGATAAGCATTTTTAAAATTTTCGTAGTAAAGAATGGCTAACGTATAG +GCAAATGCATCCCATAACGAAGATGTTTGGCTATTTTTACTTTGCGGCAAAATCACACTTAGCTCATTAA +ATAAGGTTTTTATGACTTCTTTTCCCTGCCCCGCGGCAATTACCGGACAAGAATGCGGTTGCAGTAGCTG +ATTTTCCTCAGCCCCCTGAAACTGAAAGCCGTACAGCGCACAGGTACACGTCGTTGCCGGATCGTTAACG +TCAGAGGCCACCGCATGCAGCCTGCCGCGTTCTATCACCACAATGTCATCCGCATGTGCGACATATAACG +AAGAATCGATGGTAAACCTTGCAACCCCTTTCTTGACGTAAATCAACTCGGTTTCATTGTCATGAACGTG +ATGTCCGGACTCCCATTTTGGATCATCGCTAAATGCAAAACGTGAAAGCCGTGGCGTTTTACCGGCGACA +AACAGCGTTTCACTGGCGTTATCAAAACAGCGTTGATACATGACAACCTCCCTATTCCATGAGCAAGCAA +AAACAATATATGCCGGATAAAATACGGCGTGTATTGCGGTTATACAACCGCGTTTAGCGAGAGCTAAACA +AGATTATTTACACTGAATGCAAGATTGTACGGTCATGGAATAACTATATTGCCGCAAATTGCACTTTTGT +TTTAGCGATCGCATTTTTTTTGCAAGATTGTTGGCAAGGAAAACAGCTTGCTCCGTCGAAAACCCCGCAC +CGCTATCGCACACTATTTTCAGGCCATTTTTACCTTCCATCGGAGATGGTTCCGTATGCGACTCACAGGA +GAAATCATGAAAATAATAACCTGCTTTAAGCTGGTGCCTGAAGAACAGGACATTGTTGTCACTCCAGAAT +ACACCCTGAATTTCGACAATGCCGACGCCAAAATCAGCCAGTTCGATCTCAATGCCATTGAAGCTGCAAG +CCAGCTCGCAACAGATGACGATGAGATAGCCGCGCTGACCGTTGGCGGCTCATTGTTGCAGAACTCGAAA +GTGCGCAAAGACGTGCTATCCCGCGGGCCGCACAGCCTGTATTTGGTGCAGGATGCGCAACTTGAACATG +CACTGCCTCTCGATACCGCAAAAGCGCTGGCGGCAGCAATTGAAAAGATCGGCTTCGATTTACTGATCTT +TGGTGAAGGTTCCGGCGACCTTTATGCCCAGCAGGTTGGCTTGCTGGTCGGAGAAATTCTGCAACTTCCG +GTGATTAATGCAGTGAGTGCTATTCAGCGTCAGGGCAATACACTGGTGATTGAACGCACGCTTGAAGATG +ATGTTGAAGTTATTGAACTCTCTGTTCCAGCCGTGCTCTGCGTCACCTCCGATATTAACGTGCCACGCAT +TCCTTCGATGAAAGCCATTCTCGGCGCGGGTAAAAAACCGGTAAATCAGTGGCAGGCAAGTGATATTGAC +TGGAGCCAGAGCGCGCCACTTGCTGAACTGGTCGGCATTCGCGTACCGCCGCAAACAGAACGTAAGCACA +TCATTATCGATAACGATTCGCCGGAGGCCATTGCCGAGCTGGCGGAACATCTGAAGAAAGCCCTGAACTG +AAGCCTACGGAGAAGAAACGATGAGTCAATTAAACAGCGTCTGGGTCTTTAGCGATAATCCTGAACGTTA +TGCTGAACTGTTTGGCGGCGCTCAGCAATGGGGCCAACAGGTGTATGCCATTGTACAAAATACCGACCAG +GCGCAGGCAGTTATGCCTTATGGTCCAAAATGTCTTTATGTTCTTGCGCAAAACGACGCGCTGCAACGCA +CTGAAAATTACGCCGAAAGCATTGCTGCCCTGCTGAAAGATAAACACCCCGCTATGTTGCTGTTGGCCGC +GACGAAACGTGGTAAAGCGCTGGCAGCACGGTTAAGTGTGCAACTGAATGCGGCGCTGGTGAACGATGCC +ACGGCGGTGGATATTGTCGATGGTCACATTTGCGCCGAACACCGGATGTATGGCGGGTTAGCGTTCGCTC +AGGAAAAGATCAACAGCCCGCTGGCGATCATTACCCTTGCACCCGGTGTTCAGGAACCGTGCACCAGTGA +TACCTCTCATCAGTGCCCGACAGAAACGGTACCTTATGTTGCTCCGCGTCATGAAATTCTCTGTCGCGAA +CGCCGTGCGAAAGCCGCAAGCAGCGTGGACCTGAGCAAAGCAAAACGTGTGGTTGGCGTCGGTCGTGGAC +TGGCGGCGCAGGATGACCTAAAAATGGTCCACGAACTGGCGGCGGTGCTGAATGCTGAAGTCGGCTGTTC +ACGTCCAATTGCCGAAGGCGAGAACTGGATGGAGCGTGAACGTTATATCGGTGTCTCCGGCGTGTTGCTG +AAATCCGATCTCTACCTGACGCTGGGGATCTCCGGGCAGATCCAGCATATGGTTGGCGGCAACGGCGCAA +AAGTGATTGTCGCCATCAATAAAGATAAAAATGCGCCAATCTTCAACTATGCCGACTACGGTCTGGTGGG +CGATATCTACAAAGTCGTCCCTGCCCTGATTAGCCAGTTGAGCCGCTAATTCCCCTTTCAACCACATCTC +CCGCTGTAAACGCAGCGGGAAGGGAGCATAACGCATGTCGGATGACAAATTTGATGCCATTGTGGTCGGT +GCGGGCGTTGCTGGTAGCGTTGCCGCACTGGTCATGGCACGAGCCGGGCTGGATGTCCTGGTGATAGAAC +GCGGCGACAGTGCCGGATGTAAAAACATGACCGGCGGGCGTCTTTATGCCCACACACTTGAAGCAATCAT +TCCAGGCTTTGCAGTATCAGCGCCGGTAGAACGCAAGGTCACACGCGAGAAAATCTCCTTCTTAACCGAA +GAAAGCGCCGTTACCCTCGATTTTCACCGCGAGCAGCCAGATGTTCCGCAACACGCATCTTATACCGTAT +TGCGTAATCGTCTGGACCCGTGGTTGATGGAACAAGCCGAGCAGGCGGGCGCGCAGTTTATCCCAGGCGT +TCGCGTCGACGCGCTGGTTCGTGAAGGAAACAAGGTCACTGGCGTGCAGGCTGGGGATGATATTCTCGAA +GCGAATGTGGTGATTCTGGCTGATGGCGTTAACTCGATGCTTGGCCGCTCGCTGGGAATGGTTCCCGCTT +CCGATCCGCATCATTACGCTGTTGGTGTTAAAGAGGTTATTGGCCTCACACCAGAACAGATCAACGATCG +CTTTAATATTACGGGCGAGGAAGGTGCCGCCTGGCTGTTTGCCGGTTCCCCTTCTGACGGCCTGATGGGC +GGGGGATTTCTCTATACCAACAAGGATTCCATATCCTTGGGGCTGGTTTGTGGATTGGGTGATATCGCCC +ATGCGCAAAAAAGCGTGCCGCAAATGCTGGAAGATTTTAAACAACACCCCGCCATTCGCCCGCTGATTAG +CGGCGGCAAACTGCTTGAATATTCCGCGCATATGGTGCCGGAAGGCGGTCTGGCAATGGTGCCGCAACTG +GTTAACGAGGGCGTGATGATCGTTGGTGACGCCGCAGGCTTCTGCCTGAATTTGGGTTTTACGGTCCGCG +GCATGGATTTAGCCATTGCATCGGCTCAGGCTGCCGCCACAACGGTGATCGCCGCCAAAGAACGCGCGGA +TTTCTCCGCCAGCAGTCTGGCGCAATACAAACGTGAGCTGGAACAAAGCTGCGTCATGCGTGATATGCAG +CATTTTCGCAAGATCCCGGCGCTGATGGAAAACCCGCGCCTGTTTAGCCAATACCCACGAATGGTAGCCG +ACATCATGAACGAGATGTTCACCATCGACGGCAAACCAAACCAGCCGGTACGAAAAATGATCATGGGACA +TGCGAAGAAAATTGGGCTGATCAACTTGCTGAAAGATGGCATTAAGGGAGCAACCGCGCTATGAGCCAGA +ACGCTACGGTTAACGTCGACATCAAATTAGGCGTCAATAAATTCCATGTTGATGAGGGCCACCCGCATAT +CATTCTGGCGGAAAATCCCGATATCAATGAATTCCATAAATTAATGAAAGCCTGCCCTGCCGGACTTTAT +AAGCAGGATGACGCAGGAAACATTCATTTTGATTCCGCCGGTTGTCTGGAGTGCGGCACCTGTCGGGTGC +TGTGCGGTAACACTATTCTCGAACAGTGGCAATATCCCGCAGGCACCTTCGGTATTGATTTTCGCTACGG +CTAATCATGCATCCCACAGGCCCGCATCTCGGGCCTGATGTTCTGTTTCGAGAGTCCAACATGAAAGTGA +CATTAACGTTTAACGAACAACGTCGTGCGGCGTATCGTCAGCAAGGGTTATGGGGCGATGCTTCGCTGGC +CGATTACTGGCAGCAGACCGCTCGTGCGATGCCAGACAAAATTGCCGTGGTCGATAATCATGGTGCATCG +TACACCTATAGCGCGCTCGATCACGCCGCGAGCTGTCTGGCAAACTGGATGTTAGCGAAGGGTATTGAAT +CAGGCGATCGCATCGCATTTCAACTGCCTGGCTGGTGTGAATTTACCGTTATCTATCTTGCCTGCCTGAA +AATCGGTGCAGTTTCCGTGCCGCTGTTGCCTTCCTGGCGGGAAGCAGAACTGGTGTGGGTGCTCAATAAG +TGTCAGGCAAAAATGTTCTTTGCACCGACGTTGTTTAAACAAACGCGTCCGGTAGATTTAATCCTGCCGC +TGCAAAATCAGCTTCCACAACTACAACAAATTGTCGGCGTGGACAAACTGGCTCCCGCCACCTCTTCCCT +CTCATTAAGTCAGATTATCGCCGACAATACCTCACTGACCACGGCGATAACGACCCACGGCGATGAATTA +GCTGCGGTGCTGTTTACCTCCGGAACCGAGGGTCTGCCAAAGGGCGTGATGCTAACGCATAACAATATTC +TCGCCAGTGAGCGGGCTTATTGCGCGCGACTGAATCTGACCTGGCAGGATGTCTTTATGATGCCTGCGCC +ACTTGGTCACGCAACGGGCTTTCTGCATGGCGTAACGGCACCATTCTTAATTGGCGCTCGCAGCGTGTTG +TTAGATATTTTCACTCCTGATGCGTGTCTCGCGCTGCTTGAGCAGCAGCGTTGCACCTGTATGCTCGGCG +CAACGCCGTTTGTCTATGATCTTTTGAATGTACTAGAGAAACAACCCGCGGACCTTTCAGCGCTGCGTTT +CTTTCTTTGCGGCGGAACCACAATCCCCAAAAAAGTGGCGCGTGAATGCCAGCAGCGCGGCATTAAATTA +TTAAGTGTTTATGGTTCCACAGAAAGTTCGCCGCATGCGGTGGTGAATCTCGATGATCCTTTGTCGCGCT +TTATGCACACCGATGGTTACGCTGCCGCAGGTGTAGAGATTAAAGTGGTCGATGACGCACGCAAGACCTT +ACCGCCAGGTTGCGAAGGTGAAGAAGCCTCGCGTGGCCCCAATGTGTTTATGGGGTATTTTGATGAACCT +GAATTAACCGCCCGTGCCCTGGATGAAGAAGGCTGGTATTACAGCGGCGATCTCTGCCGTATGGATGAGG +CTGGCTATATAAAAATTACCGGACGCAAAAAAGATATTATTGTCCGCGGCGGCGAAAATATTAGCAGCCG +TGAAGTGGAAGATATTTTATTGCAGCATCCTAAAATTCACGATGCCTGTGTGGTTGCAATGTCCGATGAA +CGTTTAGGTGAACGATCATGCGCTTATGTCGTGCTGAAAGCGCCGCATCATTCATTATCGCTGGAAGAGG +TAGTGGCTTTTTTTAGCCGTAAACGGGTCGCAAAATATAAATATCCTGAACATATCGTGGTAATCGAAAA +ACTACCGCGAACTACCTCAGGTAAAATACAAAAGTTTTTGTTAAGAAAAGATATTATGCGGCGTTTAACG +CAGGATGTCTGTGAAGAGATTGAATAAGTTTCATCTTCGGGGATCACATAACCCCGGCGACTAAACGCCG +CCGGGGATTTATTTTATTTCTTCAGTTCAGCCAGGCTTAACCAGGTTTGCACCACGGTGTCCGGGTTCAG +AGACAGGCTATCGATCCCCTCTTCCATCAACCATGCGGCAAAGTCTTCGTGGTCGGACGGACCCTGACCG +CAAATCCCGACATATTTGCCCTGTTTCTTCGCGGCACGGATAGCCATCGACAGCAGTGCTTTCACCGCAT +CGTTGCGCTCATCGAACAATTCAGACACCACGCCGGAGTCACGGTCCAGACCGAGCGCCAGCTGCGTCAT +ATCGTTTGAGCCAATTGAGAAGCCGTCGAAATATTCGAGGAACTGCTCGGCCAGCAAGGCGTTGGACGGG +ATTTCACACATCATGATGATTTTCAGCCCGTTCTCGCCACGTTTCAGCCCCTGACGCGCCAGTTCTTCAA +CCACCGCTTTCGCCTGATCTACGGTACGCACGAACGGGATCATGATCTCAACGTTGGTCAGTCCCATGTC +GTTGCGCACACGTTTCACTGCTTCACACTCCAGCGCGAAACAGTCGCGGAAGCTGTCGGAAACATAGCGG +CCCGCGCCACGGAAGCCGAGCATCGGGTTCTCTTCATCTGGCTCGTAACGCTCACCACCGACCAGGTTGG +CATATTCGTTCGATTTAAAATCAGAGAGACGGACAATGACGCGCTTCGGATAAAACGCGGCACCCAGCGT +CGCGATCCCTTCAGTCAGACGACCAACGTAAAATTCACGCGGAGAATCAAAACCTTTCATCATCTCGCGG +ATTTCGTTTTGCAACTGCGGTTCCTGATCGTCAAACTCAAGCAGTGCGCGTGGGTGGACGCCAATCATAC +GGTTGATGATAAATTCCAGACGCGCAAGGCCCACGCCTTCGTTCGGTAGGCAGGCGAAGTCGAAAGCACG +GTCCGGGTTACCGACGTTCATCATCACTTTCAACGGCAGATCCGGCATCGTTTCTACGCTGGAGCTTTTC +ACGCTAAATTCCAGCAACTCCGCATAGACGTAACCGGTATCACCTTCGGCACAAGAAACAGTGACGTTCT +CACCGTCTTTCATCCGTTCTGTTGCATCTCCACAGCCCACTACCGCCGGAATGCCCAGTTCACGAGCGAT +GATCGCCGCGTGACAGGTACGACCGCCACGGTTGGTGACGATGGCAGATGCTTTCTTCATGATCGGTTCC +CAGTCCGGGTCGGTCATGTCAGTAACCAGCACGTCGCCAGGTTCGATGCGGTTCATTTCGCTGATGTCAT +GGATGACTTTCACCGGACCCGCACCGATGCGATGACCGATAGCACGGCCTTCGGCGATAATCTTACCCTG +TGAATGCAGCGTATAACGCTCCATGACCTGACCGCGTGAGCGCACGGTTTCCGGACGCGCCTGCACAATG +AACAGTTTACCGGTGTGGCCATCTTTCGCCCACTCAATATCCATCGGGCGACCGTAGTGTTTCTCAATTT +GTACGGCCTGTTTTGCCAGTTCCTGCACTTCTTCGTTGGTCAGCGAGAAGATGTCACGCTGTTCCTGCGG +TACGTCTTCGATTTTAACCTGCTTGCCGTGCTCCTGGGTCGGCGCGTAAACCATGCGGATTTTTTTCGAC +CCCATGGTGCGGCGCACGATAGCCGGGCGATTCGCCGCCAGTGTCGGTTTATGCACGTAAAACTCATCCG +GGTTAACCGCACCCTGCACGACCATCTCACCAAGGCCCCATGCGGAAGTGATAAACACCACCTGGTCAAA +GCCGGATTCGGTATCAATGGAGAACATCACGCCAGATGATGCGAGGTCAGAGCGCACCATCCGTTGAACA +CCGGCGGAGAGCGCCACACCACGGTGATCGTAACCCTGGTGCACACGATAAGAGATGGCGCGATCGTTAA +ACAGAGAAGCAAATACATGTTTCACTGCCACGAGAACGGCGTCAAAACCCTGAACGTTGAGGAAGGTTTC +CTGCTGACCGGCAAAAGAAGCGTCCGGCATATCTTCTGCGGTGGCGGAGGAGCGCACCGCAAAAGAGGCG +TTTTCGTCATCGGCGGAAAGCTGTGCATAGGCTTCGCGGATGGCGTTTTCCAGCTCAGGCTGGAAGGGAG +TGTCGATAATCCACTGGCGGATTTGCGCGCCCGCTTTCGCAAGCTGAGTAACATCGTCAATATCCGTTTT +ATCCAGCAGTTCATAAATGCGCTGGTTTACGCCGCTTTGGTCCAGAAACTGGTTAAACGCGTCGGCGGTT +GTGGCGAAACCATTCGGAACGGAAACACCCATTCCGGAAAGATTAGTAATCATTTCACCCAGGGAGGCAT +TTTTGCCCCCAACCCTGTCTACATCATTCATGCCGAGTTGGTTATACCAAAGCACCAGCGGTGACGAGCC +ATTGTTGGACATCGAACAATCCTTTTGTGATAAATGAACGGTTTGAGAAACACATTTCTGCGCATTTATC +TTTGCATATTTAACCGGATGAAAAAAACGGTGAATCGTTCAAGCAAATATATTTTTTTACTTTTTAAGAC +TGATCCCAGCGTTGCGCAAATCTGCTCTCTTCGACAATTTCCACATAAACCATCGGTATAAACGAAACCA +TAAAAATGAAATGCTGTTTTCATAAAAAATAAAATTGAAGGTTCATTTTATAAACCAGACATAACGTTCT +ACGCTTCTGTGCGTTTTTAATTTATGCTTTCATAGAATTATGTCTGCATCACGGGAAGAACAAAATGGAT +AATGCTGTTGATCGCCACGTTTTTTATATTTCTGATGGTACGGCAATAACTGCGGAGGTATTAGGACACG +CAGTAATGTCACAATTTCCCGTCACTATCAGCAGCATCACGCTGCCGTTTGTCGAAAATGAGAGCCGTGC +ACGGGCAGTGAAGGATCAGATTGACGCAATTTATCACCAGACAGGCGTGCGCCCGCTGGTCTTCTACTCC +ATCGTGTTGCCGGAGATTCGCGCCATCATCTTGCAAAGTGAAGGCTTTTGCCAGGATATCGTTCAGGCGC +TGGTTGCCCCGCTACAACAAGAGATGAAACTGGATCCAACGCCGATTGCTCATCGTACCCATGGCCTTAA +CCCTAATAATCTCAATAAATATGATGCGCGCATTGCGGCGATTGATTACACCCTCGCCCACGATGACGGC +ATTTCGTTGCGCAATCTGGACCAGGCTCAGGTGATCCTGCTCGGTGTTTCTCGCTGTGGTAAAACCCCCA +CCAGTCTGTATCTGGCAATGCAGTTTGGTATCCGCGCGGCAAACTACCCCTTTATTGCCGACGATATGGA +TAATCTGGTGCTACCCGCGTCGCTCAAACCGCTTCAGCATAAATTGTTCGGCCTGACTATCGACCCGGAA +CGTCTGGCGGCGATTCGCGAGGAACGTCGGGAGAACAGTCGCTATGCCTCGCTTCGTCAGTGCAGGATGG +AAGTCGCGGAAGTGGAAGCCTTGTACCGTAAAAATCAGATCCCGTGGATTAACAGTACCAATTATTCGGT +AGAAGAGATTGCCACCAAGATCCTCGATATCATGGGCCTTAGTCGCCGAATGTACTAGAGAACTAGTGCA +TTAGCTTATTTTTTTGTTATCATGCTAACCACCCGGCGAGGTGTGACACACCTCGCACTTGAAATCAGCA +GCGATTGGTTTATCGTGATGCGCATCACTTCCCGGCAGTCCTGCCGTAGAAGCAACAAATTTCTGAGACT +TGTAATGAACAGAACTGACGAACTCCGTACTGCGCGTATTGAGAGCCTGGTAACGCCCGCCGAACTCGCG +CTACGGTATCCCGTAACGCCTGGCGTCGCCACCCATGTCACCGACTCCCGCCGCAGAATTGAAAAAATAC +TGAATGGTGAAGATAAGCGACTGTTGGTCATTATTGGCCCCTGCTCGATCCACGATCTCACCGCTGCAAT +GGAGTACGCCACCCGTCTGCAGTCGCTGCGCAACCAGTACCAGTCACGGCTGGAAATCGTAATGCGCACC +TATTTTGAAAAACCACGAACTGTTGTCGGCTGGAAAGGACTAATCTCCGATCCAGATTTAAACGGCAGCT +ATCGGGTAAATCACGGTCTGGAGCTGGCGCGCAAATTACTTTTACAGGTAAATGAGCTGGGCGTCCCAAC +CGCGACCGAGTTCCTCGATATGGTGACCGGTCAGTTTATTGCTGATTTAATCAGTTGGGGCGCGATTGGC +GCACGTACTACCGAAAGTCAGATCCACCGCGAAATGGCTTCGGCACTCTCCTGTCCGGTAGGTTTTAAAA +ATGGTACCGATGGCAATACGCGGATTGCTGTGGATGCTATCCGCGCAGCCCGCGCCAGCCATATGTTCCT +CTCGCCAGACAAAAATGGTCAGATGACCATCTATCAGACCAGCGGCAACCCGTATGGCCACATTATTATG +CGTGGCGGCAAAAAACCGAATTATCATGCCGATGATATCGCCGCAGCCTGCGATACGCTGCACGAGTTTG +ATTTACCTGAACATCTGGTGGTGGATTTCAGCCACGGTAACTGCCAGAAGCAGCACCGTCGCCAGTTAGA +AGTTTGTGAGGATATTTGTCAGCAAATCCGCAATGGCTCTACGGCGATTGCTGGAATTATGGCGGAAAGT +TTCCTGCGCGAAGGAACGCAAAAAATCGTCGGCAGTCAGCCGCTCACTTACGGTCAATCCATTACCGACC +CGTGTCTGGGCTGGGAGGATACCGAACGCCTGGTCGAAAAACTCGCCTCTGCGGTAGATACCCGCTTCTG +AATGCGTGCCCATTCCTGACGGAATGGGCATTTCTGCGCAACTTGTTGTCTTCTCAACAAATTACTGCTT +GCTCTGGTCAGCCATAATATTGATAATAAGAATCATTGTTATATCAATTATTATTAATTTTTATGCGTTA +TACGGATAGCAGAAAACTCACGCCTGAAACGGATGCCAATCACAAGACCGCTTCCCCGCAGCCTATTCGG +CGAATTTCCAGCCAGACACTGTTAGGTCCGGATGGCAAACTGATTATCGATCATGACGGGCAAGAATATC +TGCTCCGTAAAACTCAGGCTGGCAAGCTGCTGTTGACCAAGTAGCCTTTAACTCGAGCAGCTGACTTCCA +GCCGTTTACCCCAGTCAGGTGGACGACTGACATAGTCATCATCTCTGTCGCTGAAAGGATTTCGCAACGC +CTCATGCAGGCGGTGCAATTCCGTCATATCACCCTTTTCTGCCGCTTCAATCGCCCGTTGCGCCAACCAG +TTGCGCAATACCAGAGCGGGGTTAACGCTTTGCATCAGTTGCTGACGCTCACTATCGCTAACCTCGTCTT +GTTGCAAACGCCCCCGATAACGGGCAAACCAGTCATCAAATGCCGCACGATCAATAAACTCATCACGTAG +CGGTGACGCCGCGCTGTGCTGCTCGGTCAGACTCAGCATGCGGAATGTGCGGGTATAATCGCTGCGCTCT +CGCGCCATCAGACTGAATAATTCATTCAGTAGCGCGTTATCCTCTTTTTGCTCCGTCATGAAGCCCAGTT +TCTGCCGCATCCGTTCTCCATAATGCGTCAACAAAACCTGCTGATAGCTGTCCAGGGCCTCATTCAGGGC +ATCTACGGCAACAAATGGCGACAATGTCTGCGCCAGACGCTGTAAATTCCACAACGCGACGGCAGGTTGA +TTATCAAAGCTGTAACGCCCTTGATGATCCGAGTGATTACAAATAAAACCGGGTTCGTAATCATCAAGAA +AACCAAACGGCCCGTAATCAAGCGTCAGCCCCAGCAGCGACATGTTGTCGGTATTCATCACCCCATGAGC +AAAGCCGACCGTCTGCCATTGGGCAATTAACGACGCGGTACGTGCGACAACATCGCTAAACCAGAGACGG +TATTTGTCCTCATCATCTGCAAGATGTGACCAGTAATGACGAATAGCAAAGTCAGCTAACTGACGAACCT +TTTCCGACTCGCGGCGGTAGTAAAAATGTTCGAAATGACCAAAGCGCAGATGACTTGGTGCCACACGCAT +CAGCATCGCGCCTGGCTCCGCCGTTTCCCGATACACTGGCGAATCGCTGGTGACGATACTTAACGCGCGG +GTCGTCGGAATGCCCAGATAATGCATCGCCTCACTGGCGAGACTTTCTCGTATCGTCGAACGTAAAACCG +CCCGTCCATCACCCATTCGCGAATAAGGCGTCAGGCCAGCACCTTTCAGATGCCAGTCCATTGTAGTGCC +ATCAGCAAGCAGTTGTTCGCCGAGTAAAATGCCGCGCCCATCACCCAGTTGGCCCGCCCAGACGCCGAAC +TGATGACCACTGTAAACCTGCGCCAGTGGTGACATACCAGGCAGTAGGGCTTCGCCGCCCCAGACACCTG +CGCCATTTTTAAACAGCGACGATGGAATACTCAGCGTGTTAGCCAGTTCGGTATTATGCCAAATCAGCCG +GGCATTATTTAAAGGCGTAGGGGAAAGTGCTGTATAGGTTTCTGGCAATTCATCGCGCCAGCGGGTAACA +AAAGACAGGGTCATAGATCCTCCTGTTTGATAGTGTAGACGGTTACTCTCGTCTTAAACACCAGCAAACA +GAAGGGTTATCGCTGAACCAACGTCGTTATCTGATTTATGGGAACGGCAGGCCACAGGCATCCCTGGAGA +GCATGGAAATCGAAGGGGGTAATCTGTGCCAATATTTCTGCCGTATCAATGCCTCCCGCAATGATGCAAT +TGCAACAAGGGGAAATTTGCGCCTGGATCGCACGAATAAACGGTTCGAAGGAGCGGTGCGTGATTTGTTG +CTGAATAAAACTTTTATCCAGCATGACGCGGGTGAAAAGACCATCAAAAACCGCTTTCATTGTGCTATTG +CCTGCTCCCAAATTACCTAACACAAGGGGATACACTTGCGATAAGGATAAAAGACCGCGATTATCTTTTC +CTTCATTGAGATGCGGGTAATTCTCATTAATCAACAGTTCAATAAACGGATATTTTAATAGTTCGCCTGC +GTAATTATCCCTCTCTAATAATAATGTAGCCACTTGTGGCGTTAAATTAAGCCAGGCAAAGAGTTTATGT +TGAATAAAAAAATGTTGGCATGATTTTAGTAATTCCAACTGCTCTGAAAATAATTGCCAATGTTGCTCCT +CGGTAAGTTGCGCTATAACCCGACTCGTCGGGATACGAACCGTACCATCTTCACTGGAGAAATGGGTAAT +TAACTCAACGCCGACAAGGACTTGCTGGTTGTCTCTTATCGGCAGGAAATAGCAATCAGAATGATAAAGA +TTCTCCAAAAAAATCTTCATGGTAACCGTCCCTCTCGAAGGATGTTTTTCAGTATCCGGCTAAAAGGGAT +GAGGCCATAAGACATAACAATTACAGAAGGAGTAACTTTCATTTGTTCCATGTTAACCACTTTTTCAGGG +GTCCTTTTTTTAGATTATCCTGATTATAAACGAATAATCCATTTACGGAATTTTTGTCTGCAAAATACTA +CTGTATTCAGGAGTAAATGGACGGCGATGTATCATCGCCGTCCATTTTTCGACATACTAGATTCGTCTCG +CCTGCCAGAAATTTTTCTGCCAATAGACATTATCAAGTGAGGAACGCATCACTCCCTTGCTGGTAGAGGC +GTGGATAAATTGGTTGTTGGTATCGTAAATACCTACATGCAAACCATTTTGTCCGGACCCCGTTTTGAAA +AAGACCAGGTCACCTGGCAGCAACTCGTCTTTATCAATTTGCGTGCCAATAGAGGCTTGTTGTTTGGTTT +CACGGGGCAGCTGCAAATCGAAACGATCGCGCATCGTCACAACCACAAATCCCGAACAGTCCACACCGCG +CCGCGTCATGCCACCATAACGATACGGCGTGCCATGCCAGCTTTGTAGCTGGTCGTTCAAACCGGCAATA +ACGGTAATCGAATCAGAAAGTCTGGCATTTGGCGGCGGTGCTTTATGGTGGCTACACCCGGCCAGAAGCA +GTGCTGTGATCAAAATAAGGCAGAAACGCATTCCGTACGGTTCCTCTGTTTTTTATTCTTGCATTAATTT +AGCGTCGTAATTACCCGATTTTCAAGATACTAATGAAATCAGATGGTCGAAATCAGCATTCTGTGACCTT +CGATATCCAGACGGCGAAAATTCATCCCATAGGCCTGCGCCAGATTTGGCGGCGTGAGCACCTCTTCCCT +GCGTCCACTGGCCAGCATTTTTCCACCTTTTAGCAACCACGCCCGATGCGCATGACGCAATGTGTGGTTG +AGATCGTGACTGCTCATCACAATCGCCAGTCCTTGCTGACACAGCGCGCTCAGAATTTTGTCTAACGCAC +TTTGTTGCGCAACATCAAGACTGTTCATCGGCTCATCAAGAAGCAGCAATTGGCCTGCGGGATTGGCTTG +TGGTGTGATTTGCAACACCACCGCAGCAAGACGTACGCGTTGCCATTCACCGCCGGAAAGTTGATTGGTG +CTACGTCCGAGTTTGTCATCAAGAGCCAGCGCCCCTGCGACATCATTCAGTAGTTCGGTACGCGTTTTAT +CGTGCTGATGCAGTGTCAGGTAGTGCCAGACCGGCGTTGCAAACGGCGGCGTCTGCTGTTGTGAAAGATA +GGCGCGATGCAGCGCGAGTTTTGTTGCGGACCATGCTTCCAGTGGTTGCCCCGCGAACTGAATGCTTCCC +TTACCGCTGGTCATTCCGGCCATTCGCGCCAGTAAGGTACTCTTACCCGCGCCATTCGGCCCCACCAGGT +GCAGGATCTCCCCAGCCCGAACCTCGCCAGAAAGCGGCCCCAGGCGGGTAGATTCCGCAACATCTTGTAA +CTGCATCACAATAGACATTATTTTGCCAACGCCAGTTTAATGCTTTCCATCACAATGGGATCTTCCGGCG +TCATATCCGGGGAAAAACGCTGGATGACTTTTCCGTCCCTGCCAACCAGGAATTTTTCAAAATTCCATAA +AATATCATCCGGGTACAGCGGTGCACGGCCTTTGCTGACCATACGGGCATAGAATCCGCTCTCTTCCGGC +GCGACTGCGGTCGGCGCTGCGGCAATCAATTTTTGATACAGCGGATGGCGTCCTTCGCCATTAACTTCAA +TCTTACTGAACATCGGGAACGTCACCCCCCATGTGGTGGTACAGTAAGTTTTAATCTCTTCATCGCTGCC +CGGTTCTTGTTCCAGAAACTGGTTGCACGGGAATCCCAGCACCATAAAACCTCGATCGACCCAGGCTTTC +TGAATATTCTCCAACTGCTCATATTGCGGCGTTAAGCCACACTTTGAGGCGACATTGACAATCAACAGCA +CATTACCGGCGAACTTCTCCAGCGTGGTCACTTCACCGTCGATATCTTTCACTACGGTCGTCAGAATGGA +ATCTTGCATCGTTTCTCCTGGGTGTGGTCAGTAAAAATCTTAGCTTTTAATCATAGACCGTCTTTTTGCG +GCTAACGTCCTGCTTTTAACAATAACCAGATAAACACCGGCGCACCTAACGTTGCGGTGACCACGCCAAT +AGGCAGCTCTGCGGCAGCTAATGCCAGGCGCGCTACAATATCGGCCAGCAGCAATGCGCTCGCCCCTGCC +AGCGCGCAGCCGGGAAGTAATACGCGATGATCGGTTAAACCACACAACCGGAGAATATGGGGGATCACCA +GACCAATAAAGCCGATAGCACCCGCCAGCGCCACACTGACGCCAACCATCCAGCCGGTCGCTGCCACCAG +CACATTGCGCCAGAACCACAGGGGTAAACCCAGTTGCCGCGCCGAGATCTCGCCAAGTGCTAACATATTC +ATCGGCCTGGACTGACAACAGATCCACAACAACACGGGGATCAATGCCAGCATCAGCCAGCTTTGCCGCC +AGTCTACGCCGCCAAAACCGCCCATCATCCAGTACATCAGCTGACGCAAATCAACTGAGGTGGAAAAGTA +GATAGCCCACGTCATTAGTGCGCTACAGATAATCCCTAATGCAACGCCAGCCAGCAATAACCGACTGGTC +GAAAGATGACGACGGGCGAAACGTAAGAGTATTAAAGTGATGATAAGCGCGCCAGCAATCGCACACAGCC +CTAGCGCCCAGTTGGGGAGTTGCCCTTGCCCAAGCAATACCGCGGCGATAAGCCCCACGCCTGCGCCGTT +AGAGACGCCAAGTAGTCCAGGTTCTGCCAGAGGATTTTCAAACAACGCCTGCATTACAGCGCCGGATATA +GCCAGCGCCGCACCAACCAGCAATACAGCCAGCGTACGTGGCAGGCGAATTTGCCAGACGAACAGTTCGC +CACGAGGAGTAAACCAGTCACCTGGCGAGATCCATTGTTCACCGGCGCAAAGGCTTAAGAGAAGCGCCAG +CAGCATCAAAACTGACAGGCATAATAACCAGCGAATATTTTGTCGCTGTTGTTGGCGGGCAAGTGTCAGC +ATGGTATCCGTTCTGCTGAAGTGTCATGGCGTTGATTTTACGGTGACTCTTCGACAGTGAAAAGAAAAAA +GGCCGCAGAGCGGCCTTTTTAGTTAGATCAGATTACTCGTCTTTGGGCGAAGCGTTTTCGACCCGGCTTT +TTAACTTCTGCCCGGGTCTGAAGGTCACCACGCGCCGTGCTGTAATGGGAATATCCTCGCCCGTTTTCGG +GTTACGTCCCGGGCGTTGATTCTTATCACGCAGATCGAAGTTACCAAAACCAGAGAGTTTCACCTGTTCG +CCGTTTTCCAGAGCGCGACGGATCTCTTCGAAAAACAGTTCAACCAGTTCTTTGGCATCCCGCTTGCTAA +GCCCAAGCTTATCAAACAGATATTCTGACATTTCAGCTTTTGTAAGCGCCATAGGTTCAATCCCTCAATG +ATGCCTGGAATCGCTCTTTTAATGCCTCTACACATTTGGCGACGGTAGCGGCAATCTCCTCTTCTTCGAG +TGTACGGCTGGTATCTTGCAGGATCAGGCTTATGGCGAGGCTCTTATACCCCTCCGCAACACCCTTACCG +CGGTACACGTCAAATAAGTTTACGCCAACTACCTGATTTACGCCAACTTTCTTACATTCGGATAAAATAT +CCGCTGCGGGAACGTTTTCTGCGACCACCACCGCGATGTCACGACGGTTCGCCGGGAAGCGAGAAATCTC +GCGCGCCTGAGGCACCACGCGGTCTGCGAGCTTGTTCCACTCCAGTTCGAACACCAGAGTGCGACCGTTA +AGATCCAGTTTACGTTCCAGTTCAGGATGAACAACCCCAACAAAACCAATACGTTCACCTTTCAGATAAA +TCGCTGCGGATTGCCCCGGATGCAGTGCCGGATTCGCTTCTGCACGGAACTCAACCTCATTCAGTTTACC +GGTCAGGTCGAGAACGGATTCAAGATCGCCTTTCAAATCATAGAAATCAACGGTCTCTTTTGCCAGGTTC +CAGTGCTCTTCGTAACGGTTACCGCAAATCACACCGGCTAACATCAGATCCTGACGAATGCCCAACGGTG +CCTGAGTATCTGGTACGAAACGCAGACCGCTTTCGAAAATGCGCACACGGTTCTGCTGACGGTTCTGGTT +GTACACCACGGTTGCCAGCAGGCCAGTCCACAGAGAAAGACGCATTGCTGACATTTCAACAGAGATCGGG +CTTGGCAGCAGTAAGGCTTCAACGCCTGGATGGATCATCTGCTGCACTTTCGGATCAACGAAGCTGTAGG +TGATCACTTCCTGATAGCCTTTGTCGTTGAGCAGCGTTTTCACGCGCTTGAGCGACAGGTCAGCTTCACG +GTGAGTACCCATAATCAGGCTTGCCTGTACCGGCTCATCCGGGATGTTGTTGTAGCCGTAAACACGCGCG +ACTTCTTCAACCAGATCTTCTTCAATCTCCATATCGAAACGCCAGCTCGGCGCAACTGCCTGCCATTCGT +CTTTGCCTTCGGTCACTTCGCAGCCGAGACGACGCAGAATGTCAGTTACCTGCTCATCCGCAATATGATG +GCCGATCAGGCGATCCAGTTTGCTACGACGTAGAGTGATGGTTGCACGCTTCGGCAGCGTTGCTTCGTTG +GTGATATCAATTACCGGGCCAGCCTCACCACCGCAGATGTCGATCAGCAGACGGGTCGCACGTTCCATCG +CTTTGTGCTGCAGTGCCGGATCAACGCCACGCTCATAACGGTGAGACGCATCGGTATGCAGGCCATGACG +ACGAGCACGACCGGTGATAGACAGCGGGCTAAAGAACGCGCATTCCAGCAGCACGTTTTGTGTTTCGTCA +TTCACGCCAGAGTGTTCGCCACCGAAGATGCCGCCCATCGCCAGCGCCTTGTTGTGGTCGGCGATGACCA +GAGTGTCAGCATTCAGCTTCGCTTCAGTACCGTCGAGCAGCACCAGCGTTTCGCCCTCTTTCGCCATCCG +CACCACAATGCCGCCTTCAATGCGATCTTTATCGAAAGCGTGCATCGGCTGGCCCAGTTCGAGCAGCACA +TAGTTGGTGACGTCAACAACTGCATCGATAGAACGGATCCCGCAACGACGCAGTTTTTCTTTCATCCACA +GCGGAGTTGGCGCTTTAACGTTAATGCCTTTTACCACACGGCCAAGATAACGCGGGCAGGCTTCCGGCGC +TTCGACTGTAATCGGCAGCGTGTCGTCGATGGTCGCACCAACCGGAACGATTTCCGGTTGAACCAGCGGC +AGCTGGTTCAGCACGGCAACGTCACGCGCAACACCAATGATGCCTAAGCAGTCGGCACGGTTTGGCGTCA +CGCTGATTTCGATGGTGTTGTCATCAAGTTTCAGGTATTCACGGATATCGGTGCCAATCGGCGCATCCGC +AGGCAGTTCGATAATGCCGCTGTGATCGTCAGAAATGCCCAGTTCAGAGAAGGAGCACAGCATCCCTTCA +GACGGTTCGCCACGCAGTTTCGCCGCTTTAATTTTGAAATCACCCGGCAGAACAGCACCAATGGTCGCTA +CCGCTACACGCAGGCCCTGACGGCAGTTTGGCGCACCGCAGACGATGTCCAGCAGGCGATCGCCGCCGAC +ATTCACTTTTGTCACACGCAGTTTGTCAGCGTTCGGATGCTGCGCACACTCAACCACTTCACCAACGACC +ACGCCGTGGAAGCTGCCGGCAACCGGTTCTACACCGTCAACTTCCAGGCCCGCCATAGTGATTTGATTTG +CCAGCGCATCGCTATCAATCGCCGGGTTCACCCATTCGCGTAACCACAGTTCACTGAATTTCATAATCTA +TTCCTGCCTTATTTAAACTGTTTGAGGAAACGCAGATCGTTTTCGAAGAATGAACGCAGGTCGGTGACGC +CGTAACGCAACATAGTCAGACGCTCCATCCCCATCCCGAAGGCGAAACCAGAGTAAACTTCCGGGTCGAT +GCCAACGTTACGCAACACGTTCGGATGCACCATCCCGCAGCCCAGCACTTCCAGCCATTTACCGTTTTTA +CCCATGACGTCCACTTCTGCAGAAGGTTCGGTAAACGGGAAGTAGGAAGGACGGAAGCGAATCTGCAAAT +CTTCCTCAAAGAAGTTACGCAGGAAGTCGTGCAGCGTGCCTTTCAGGTTGGTAAAGCTGATGTTGGTATC +AACAATCAGACCTTCCATCTGATGGAACATCGGCGTGTGAGTCTGGTCGTAGTCGTTACGATAAACACGG +CCAGGCGCGATGATACGAATCGGTGGCTGCTGGGCTTTCATGGTGCGGATCTGTACGCCAGAGGTCTGGG +TACGCAGCAGGCGGGTAGTGTCAAACCAGAAAGTGTCGTGGTCAGCGCGCGCCGGGTGGTGACCAGGAAT +GTTCAGAGCATCGAAGTTATGATAATCGTCTTCGATTTCCGGCCCGGTTGCCACGGTAAAGCCAAGCTCA +CCGAAGAAACTTTCGATACGGTCGATGGTACGGGTAACCGGATGCAGACCGCCGTTTTCAATGCGACGAC +CTGGCAGAGAGACATCAATCGTTTCCGCCGCCAGACGCGCATTCAGTGCAGCGCTTTCCAGTTCCGCTTT +ACGCGCATTCAGCGCCTGCTGAACCTGCTCTTTCGCTTCGTTGATAACCGCACCAGCTGCCGGACGCTCT +TCTGGCGGCAGCTCACGCAGGGTCGTCATCTGAAGGGTTAAGTGCCCTTTTTTACCCAAATATTCGACGC +GCACATTATCTAACGCGGCAACATCTGACGCCTGGCTAATGGCCGCCTTCGCACTGGCAACCAGTTCTGC +GAGATGTGACATGGTTTTCCTCATTGTGTCAGTGGTGACACTGGTTCGTTGGACTTAGAGCCTATCCCAT +CAGGCTATTTTACTTGCCATTTTGGTCCCGGGCTGTGCTCGAAATTCTCACGTACTTAAATACGCTCCGG +TTTCTCCGCGCTGGCCGTGTCCAGTCTGGCTGCGACAATTACACCTGATGAGACAGGCTTTTTATTTTTC +AAAACGCGCATACAAAAAAAGCCTCCACTGGGAGGCTTTCAGGCGCTGTTTTCCGTTTCTCTTCTCACGC +GCTAGCCTCCTGGATTCAGGTGCTAAAGTAAAAAAAGAAGCGGAAAATAGCAGCATTCATTGCTTGCGTT +ACCTTTTGGTACTCTTCAAAAGACCTTTATTGAAAAGGCTACGGCGATAAAAGTCAATGTTTTGATGGCG +TTGAAACGAAAAGAGGGAGACTAGCTCCCTCTTTCAACTGGCTTATGCCAGAGCTGCTTTCGCTTTTTCA +ACCAGAGCGGTGAACGCTACTTTGTCGAATACTGCGATATCAGCCAGGATCTTACGGTCGATTTCAACAG +AGGCTTTTTTCAGGCCATTGATGAATTTGCTGTAAGAAATACCGTTCTGACGTGCTGCTGCGTTGATACG +CGCAATCCACAGTTGACGGAACTGACGCTTACGTTGACGACGGTCACGGTAAGCATACTGACCAGCTTTG +ATAACAGCCTGGAAGGCAACGCGGTATACGCGAGAACGCGCACCGTAGTAGCCTTTAGCTTGTTTCAAAA +TTTTCTTGTGACGTGCACGTGCAATAACACCACGTTTTACGCGAGCCATATGTGCTCTCCTGTATCTATA +TTCTAATTAAAAAGTTAAAAACGTTAACGGCTTATGCGTACGGCAGGCACGCGATTACCAGGCCCAGATC +GCCTTTGGAAACCATGGCTTTCGGACGCAGGTGACGTTTACGTTTGGTCGCTTTTTTGGTCAGAATGTGA +CGCAGGTTAGCGTGCTTGTGCTTAAAACCACCTTTACCGGTTTTTTTGAAGCGCTTAGCAGCACCGCGTA +CGGTCTTAATTTTTGGCATTTTAATAACTTCCACTTCGCATTGTTAATAAACGAAACAAAGGCGAACAAA +GCCTGTGAAGCCCGAAGGCTCCACAGACAGTGCTACTTGAAGGCCTTACTGTTTCTTCTTAGGAGCGAGC +ACCATGATCATCTGGCGGCCTTCGATCTTCGTTGGGAAGGATTCGACCACTGCCAGTTCTTGCAAATCGT +CTTTCACGCGATTAAGCACTTCCATACCGATTTGCTGGTGCGCCATCTCACGACCGCGGAAACGCAGCGT +GATTTTGGCTTTATCACCCTCTTCGAGAAAGCGAATCAGGCTGCGGAGTTTTACCTGATAGTCGCCTTCA +TCTGTACCAGGACGGAATTTAATTTCCTTAACCTGGATAACTTTTTGCTTTTTCTTCTGTTCCTTAGAAG +ACTTGCTCTTTTCATAGAGGAATTTGCCGTAATCCATTATACGACAAACCGGCGGCTCGGCGTTAGGGCT +GATCTCGACTAAGTCTACTCCGGCTTCTTCTGCTTTCTCCAGAGCTTCTCTCAGACTCACAATACCAAGC +TGCTCGCCTTCCAGACCTGTTAAGCGAACTTCCTGGGCGCGAATTTCGCCATTGATACGGTTAGGGCGCG +CCGTTTGAACTCGTTTTCCGCCTTTAATACCTTATTCCTCCAATTGTTTAAGACTGCGGCTGCGAATCTC +TTGTTGCAGCTTCTCGATCACTTCATTTACGTCCATGCTTCCCAGGTCTTTACCACGGCGGGTGCGAACG +GCAACTTTGCCTGATTCCACCTCTTTATCACCACAGACCAGCATATATGGGACGCGACGCAAAGTGTGCT +CGCGGATTTTAAAGCCAATCTTCTCATTTCTCAAGTCTGCTTTAACACGAATGCCCGCATTTGATAGTTT +TTGCGTCAATTCGTTAACGTATTCAGACTGTGAATCGGTAATATTCATGATAACAACCTGAACCGGCGCA +AGCCAGGTCGGGAAGAAACCAGCGAACTCTTCGGTCAGGATACCGATGAAACGTTCCATCGACCCCAGAA +TTGCGCGGTGAATCATTACCGGTACTTTACGTTCATTGTCTTCGCCTACATAAGAAGCGCTCAGACGAGA +CGGCAAAGAGAAGTCCAGCTGTACTGTACCGCACTGCCATGCACGATCGAGGCAGTCATACAGGGTAAAT +TCAATTTTCGGACCGTAGAAAGCGCCTTCACCCAGTTGATATTCAAACGGGATGTTGTTTTCTTCCAGCG +CAACCGCCAGGTCCGCCTCAGCACGATCCCACATTTCGTCGCTGCCAATACGTTTTTCAGGACGAGTGGA +GAGTTTGACGACGATCTTCTCGAAGCCAAAAGTGCTGTACATATCATAGACTAAACGGATACATCCGTTA +ACTTCATCGCGAATTTGTTCTTCAGTACAGAAGATATGCGCGTCATCCTGGGTAAATCCACGCACGCGCA +TCAGGCCATGCAGCGAACCTGACGGCTCGTTACGGTGGCAGCTACCAAACTCGGCCATACGCAGCGGCAG +ATCGCGATAAGACTTCAGCCCCTGGTTGAAAATTTGTACGTGACCCGGGCAGTTCATCGGCTTAATGCAG +TATTCACGGTTCTCAGAAGATGTGGTGAACATTGCATCTTTGTAGTTGTCCCAGTGACCGGTTTTTTCCC +ACAGGACACGGTCCATCATGAACGGACCTTTAACTTCCTGATACTGGTACTCTTTCAGTTTAGAACGAAC +AAACACTTCCAGTTCACGGAAGATGGTCCAGCCGTCGTTGTGCCAGAATACCATACCCGGCGCTTCTTCC +TGCATATGGTACAGGTCGAGCTGTTTACCGATTTTACGGTGGTCGCGTTTCGCGGCTTCTTCCAGGCGCT +GCAGGTAAGCGTTAAGTGCTTTTTTGTCTGCCCACGCCGTACCGTAAATACGTTGCAACATTTTGTTGTT +GCTGTCGCCACGCCAGTAAGCCCCTGCCGTTTTCATTAGTTTGAAATGATGGCAGAAACGCATGTTCGGT +ACGTGCGGACCGCGGCACATATCGACATATTCTTCATGGAAGTACAGACCTGGCTTGTCATCATGGGCGA +TGTTTTCGTCAAGAATGGAGACTTTGTAGCTCTCCCCACGGTTGGCGAAAGTTTCACGCGCTTCGTGCCA +GCTGACTTTCTTCTTAATGACGTCGTAGTTTTTCTCAGCAAGCTCATGCATCCGCTTCTCGAGTGCTTCG +ACATCTTCCTGGGTTAACGTGCGGTCAAGATCAACGTCGTAATAAAAACCGTTGTCAATAACCGGGCCGA +TTGCCATTTTGGTATGCGGCCAAAGTTGTTTAATCGCGTGCCCTAACAGGTGCGCACAGGAGTGACGAAT +GATCTCCAGACCTTCTTCGTCTTTGGCGGTAATGATCGACAGTTGTGCGTCGTTTTCAATCAGATCGCAA +GCATCAACCAGTTCGCCATTAACGCGCCCTGCGATACAGGCTTTCGCCAGACCTGGACCAATGTCCAGCG +CAACATCCATGGGGCTTACAGCGTGATCGTAATGGCGTTGGCTGCCATCAGGAAGAGTTATAACAGGCAT +TTTATATCCTTATTTGCAGTGGTGACCCACACGAAAGATCACATACAAAGAAAAATTTGTTTATTAACAG +TTCATTGCGAAACCATCTAGCCAACAAATGCTAAATTGGTTCGCAATCAGGTACACAAATGAAAGACATT +AACCTCTCACCTTCCACCCGGTTGAGCGATGTTAACACTAAAAAAAGGGAGATTGTACCTTTCCGTTTCA +CATTGATTCGATTCGCAATTCGTTTGTAGTGAGTACACCAGCAAAACGCTTAAAGAACAACTGATAACAT +CACGGTGCGTCTGAAAGGTTTACTGCGAGCGGATTTACAGCAGCATAAACTGAATCCAGCAAAGTTCGTT +GCGTGATTTGGCGGTAGTATTTTAAACGCTCATGAGATTAATGACGAAGTGGTCATATCACAATGATAAA +AGTGACACAATTCTTATAACAATTTTTCGTGCACATTTCGTTCTGGCGATAATAATTAATCATCATCCTC +AAAACCTCCAGATATATATAAGGCGAACAGATTATGAGTCAAAACGATATCATTATCAGAACTCATTATA +AGTCTCCTCATAGATTGCACATCGATAGCGACATACCAACACCTTCATCAGAGCCTATTAATCAATTTGC +GCGCCAGCTCATCACCCTACTTGATACCTCTGACTTAAGTTCGATGCTGTCATACTGTGTTACTCAGGAA +TTTACCGCAAACTGTCGAAAAATATCACAAAATTGTTATTCCACTGCCCTTTTTACCATTAACTTTGCCA +CTTCACCCATCCATACAGAAAATATACTCATTACATTACACTATAAAAAAGAAATCATTTCCTTATTACT +GGAAACCACGCCTATTAAAGCTAACCATTTGCGAAGCATACTGGATTATATTGAACAGGAACAGTTAACT +GCTGAAGATCGTAACCATTGTATGAAACTGTCTAAAAAAATCCATAGAGAAAAAAACTATACACCCAACA +GTAAATCTCAATGGTAGTGCATGTTTTTTGCAATCTCCTTCTGACGCTATTTTTTGTCGCCATCTGTCAT +TGCAATACGCCCTTGATTCATTGAGAAATGGAAAAGGCAAAGTCAACCTGATTAAACATTACTCCTCCGT +TGAATCCATACAGCAGCATGTCCCCTTAGTCCGGGACGCGGAGTTCAGAGCATTACTTCGCCATCCTCCT +GCAGGGAGTCGCGTTATCGCGAGTAAGGATTTTGGCTTCGCTTTAGATATTTTCTTTTGTCGAATGATGG +CAAACAATGTCAGTCATATGTCCGCGATTTTATATATAGACAATCATACTTTGTCAGTAAGGCTACGAAT +AAAGCAGTCAGTGTATGGACAATTAAATTATGTTGTGTCCGTTTACGACCCGAACGATACCAACGTTGCC +GTCAGAGACACCCACAGGACAGCACGGGGCTTTCTTTCGCTTGATAAGTTCATCAGTTCAGGTCCCGATG +CTCAGACCTGGGCTGATAGATATGTTCGCAACTGTGCAATTGCTATTCTGCCCCTATTACCTGTGGGAGT +TCCAGGGGCTATTTTCGCGGGTATTGCATCACGAATGCCATTTGCCCCTATACATCCATCGGCAATGTTG +TTAATAATGGCTACAGGCCAGTCTCAACAGCTTATTACATTATTCAAACAGTTGCCCATACTCCCTGAAA +AAGAAATCATTGAAATAATAACTGCGCAGAATAGCGTTGGTACACCTGCTTTATTTTTGGCTATGATGAA +CGGACATACTGACAACGTGAAAATATTTATGCAAGAAATTCAGTCACTGGTAGATAATCACATCATTCAT +GAAGATAATCTGGTTAAATTACTGCAAACTAAAAGTGCTAACGAAACACCTGGACTTTATATCTCCATGT +TGTATGGATTCGATGAAATAATCGATATCTTTCTGAATGCATTAACCACTCCAATAGCACAAGAGCTTTT +AAACAAAAAACTGGTGATGAGTATTTTAGCCATGAAAATACATGATGGTGAGCCAGGATTATACGCCGCA +ATGGAAAATAATCACCCTTTGTGTGTCACACGGTTCCTCTCTAAAATTAATGGCATCGCCTTTAAATACA +AGTTGAGCAAAGCTAACATCATGGATTTATTAAAAGGAGCTACAGCACAGGGAACCCCTGCATTATACAT +CGCCATGAGCAAGGGTAATGAAGACGTCGTGTTATCTTATATATCGACGCTGGGTGCTTTTGCAAAAAAA +CATTCTTTTAGTCAACATCAGTTATTTACACTATTGGCCGCTAAAAATCATGACAACATGTCAGCTGTTC +ATATAGCCATTCATCATAAGCATTATAAAACTGTAGAAACATATTATGCTGCTATTAATGCAATCAGCCA +AAGCCTGAGTTTTAGTGCTGATGAAATAAAGACGTATTTATAACCAGCTATTTACGATATATATCGATAC +ATAATTTTATTTTTTTCATAAAACGCAGAAACAGTGACCATGTGCACAACGCCACCCGACGGCTGTAATA +ACAAAAAATCCCTTGATGCCTGTCCCTTTTGTTACACTCCGTTATCACGCACAAGAGATATGCAGGACAC +TGGTATGCCGACTAAACGCTTTGATAAAAAACACTGGAAGATGGTGGTGGTGCTACTGGCAATCTGTGGC +GCTATGTTGTTGCTACGTTGGGCAGCAATGATTTGGGGCTGAGCAGTGACAAACGAAGACAGCCAGACCG +CATAACACGGTCCGGCAGATAATTTTACATGCTGTAGCCCAGCGATAAGGTTGTCCGACGGTCGGTATGT +TCCGGTGCAGACTCTGGAGGTTCAGAGTTCCATGTGACGTTGTAAGCCACCTTCAGTCCAAAATGTTCAT +TAATAGCAACATTTAATGCGCTTTCGGAGTTCAGCGTTGTGTCTTCCGCGCCAAAGACCGAAACACCCTG +CGTAAATTTAGCGTTGTCAGTCAACTGCCATGCATAAGCCCCGGAGGCATAGCCCAGCGGCTGGGTTTCA +CTGGCATTGTCGGTATATTTGTCGTAACGCACACCTGGACCGAATTCAAAGCGGAAACTGTGTACCGGGC +CATTCAAAAACTGACGACCATAACCCGCGGTCAACACATCGCGCTCTCGATAGCCGTTATAACGGTCTGT +CAGCCAGCTTGCCTGACCAAATAAATAGTCATAATCAGTTAAATTAAAACGGCTACGCCCGCCCGCCGCA +TATTTTTCTGAAGAACGCTCATCATTAGAAGAAGTATTACTGGCGTTCCCCCACAGCGACCAGGCAGTGG +TGTGTCCATACCAGGTCATGGTGGTGTCAGCCGTAAGTGAGGAGCTTTTCGTATTGCCTGATTGTGCAAG +ATATCCTGCGTTCAGATTACCTTCGAAAGGTTTTTTAGCGCTGGCAGGATCATCCATGACAGTAAAAACG +GAATCATCGGCAGCTGCATTCAGTGACGCAAACATGCCCCCCGCCAACATAACGATGGCAGGAACTGTCT +TCAAAAGCTTCATTTATCAAGAGTCCGTACAACAAAAAAAGAGACCATCGCGGTCCCGGAAACTTTCTTA +AGGATCAAAGATTAGCGTCCCTGGAAAGGTAACGAATTATAAAAAGGCGCGAATAACTTAGCAATGTATT +CTTATTTCATTTTTTGAATAAGCATGTGGCGAAAACAGATTTTTATTTATATATATTTATCTGCAAAATT +TTAAATAAAGCTCCAATAAATCATATTGTTAATTTCTTCACTTTCCGCTGATTCGGTGCCAGACTGAAAT +CAGCCTATAGGAGGAAATGATGGTACGTATCTATACGTTGACACTTGCGCCCTCTCTCGATAGCGCAACA +ATTACCCCGCAAATTTATCCCGAAGGAAAACTGCGCTGTACCGCACCGGTGTTCGAACCCGGGGGCGGCG +GCATCAACGTCGCCCGCGCCATTGCCCATCTTGGAGGCAGTGCCACAGCGATCTTCCCGGCGGGTGGCGC +GACCGGCGAACACCTGGTTTCACTGTTGGCGGATGAAAATGTCCCCGTCGCTACTGTAGAAGCCAAAGAC +TGGACCCGGCAGAATTTACACGTACATGTGGAAGCAAGCGGTGAGCAGTATCGTTTTGTTATGCCAGGCG +CGGCATTAAATGAAGATGAGTTTCGCCAGCTTGAAGAGCAAGTTCTGGAAATTGAATCCGGGGCCATCCT +GGTCATAAGCGGAAGCCTGCCGCCAGGTGTGAAGCTGGAAAAATTAACCCAACTGATTTCCGCTGCGCAA +AAACAAGGGATCCGCTGCATCGTCGACAGTTCTGGCGAAGCGTTAAGTGCAGCACTGGCAATTGGTAACA +TCGAGTTGGTTAAGCCTAACCAAAAAGAACTCAGTGCGCTGGTGAATCGCGAACTCACCCAGCCGGACGA +TGTCCGCAAAGCCGCGCAGGAAATCGTTAATAGCGGCAAGGCCAAACGGGTTGTCGTTTCCCTGGGTCCA +CAAGGAGCGCTGGGTGTTGATAGTGAAAACTGTATTCAGGTGGTGCCACCACCGGTGAAAAGCCAGAGTA +CCGTTGGCGCTGGTGACAGCATGGTCGGCGCGATGACACTGAAACTGGCAGAAAATGCCTCTCTTGAAGA +GATGGTTCGTTTTGGCGTAGCTGCGGGGAGTGCAGCCACACTCAATCAGGGAACACGTCTGTGCTCCCAT +GACGATACGCAAAAAATTTACGCTTACCTTTCCCGCTAACAAAAACATTCCCCCAGCATTGGGGGAATCA +TCACCAACCTGTCGGCAACGCGTTTCTCCGACTATGCTCAAAAGTCATGTGATAACAAAGGGGTGAACTA +TGGCCAGTGGCGATCTTGTCCGTTATGTCATAACCGTCATGTTGCATGAGGATACATTGACTGAAATTAA +CGAGTTGAATAATTACCTGACTCGCGACGGTTTTTTGCTCACTATGACGGATGATGAGGGAAATATCCAT +GAGCTGGGAACTAACACTTTTGGACTTATCAGTACCCAAAGTGAAGAAGAAATTAGAGAACTGGTTTCGG +GGCTTACCCAAAGTGCAACCGGCAAAGATCCTGAAATCACCATCACGACCTGGGAGGAATGGAATAGCAA +CAGAAAATAAATGGTTTTTGGGCAATAATCAGTCTGTGGTGTGCGTTAGCTCGTGTTTTTACACCGCATT +CTTGCGCTAACCTTATGATCTGGCAGACAACATGGGAGAGACATCATGTGGCAGGCAATCAGTCGTCTTT +TGAGCGAGCAGTTAGGTGAAGGCGAAATCGAACTGCGTAATGAACTGCCTGGCGGAGAAGTCCATGCCGC +ATGGCATTTGCGCTATGCAGGACATGATTTTTTCGTCAAATGTGATGAAAGGGAACTGCTTCCCGGTTTT +ACCGCCGAAGCCGACCAACTGGAGTTACTGTCGCGTAGTAAAACCGTCACCGTGCCTAAGGTTTGGGCAG +TTGGCGCTGACCGTGACTACAGTTTTCTGGTGATGGATTATCTCCCACCTCGTCCGCTGGATGCGCATAG +CGCATTTATTCTTGGTCAGCAAATTGCGCGTTTACATCAATGGAGCGACCAACCACAATTTGGCCTTGAT +TTCGATAACGCGCTCTCCACAACTCCACAGCCCAACACCTGGCAACGTCGCTGGTCAACGTTTTTTGCTG +AACAACGGATTGGCTGGCAGTTGGAACTGGCTGCAGAAAAAGGGATCGCTTTCGGCAATATCGACGCCAT +CGTCGAGCATATTCAGCAGCGTCTGGCCTCACATCAACCGCAGCCTTCTCTGTTGCACGGCGATTTATGG +TCCGGCAACTGTGCACTGGGTCCGGATGGCCCGTACATTTTCGACCCGGCCTGCTACTGGGGTGACCGAG +AGTGCGACCTGGCGATGTTACCGCTGCATACTGAACAGCCGCCACAAATCTATGACGGCTATCAGTCAGT +ATCCCCGCTACCTGCCGATTTCCTTGAACGTCAACCGGTTTACCAACTCTACACGCTGTTAAATCGTGCA +AGGTTATTTGGCGGTCAGCATTTGGTTATTGCTCAGCAGTCATTGGATAGATTATTAGCAGCATGATATG +GGTTGAGGATAATGGCCGCTCCGTGCGGCCTTTTGATTAAATAAACCCAAGCAGAGAAAAGAACACATAA +CCTGCAGCAATACAAATAACCGGCAGGATATACAGTGAGAAAAACTGCAGGAAAATAGTATGGTGCGGAA +CAACAATACGGGACTCAATTTGTTCACGCGTTAGCCCCTCTTCCCCTTTGGCTTTTTCCAGAATGAGTTG +ATCTTCAACACCTTCCCGCAAGAAGCGCGCCTGGCGACTCATCCGGGCACCGGAATCCTGCAACGCCAGT +CCGACAAAAATCAGGATGAAAATCACCCAGAACATAACGTTCACGCCACCATTAAAATTGGGCGTCGGGG +AGTTATACCAGAATAGATTCAAAAAAGGCGTATTCGCCTGCATCATATCGATCATGACATGAGTAAAGTC +GAGCATGACCGCATTAATGCCTTCCTTGTTTTCCTGCCGGGTATTCATAAATTTCAGCAAAGAAATCAAT +GTAGAGATCAATGCAGGTATAAAAATCACCCAACCCAAAATCCTTTTCAAAACAGCAATGCGTCCAGCTT +GTTGATACGTCATGAGTTCTCCTTGATTAAGACGCGTCGTTTCACTTAGTTTACCTGTAGATATCTGTTT +TCGCCCATTCTTTAAAGGCGATATGATAGGCGCTTAATCATAAGCACGGCTTAATACCTTACACATAATG +CTCTAAAGGAGAGGTTGTAATGTCAACCCCGCGTCAGATTCTTGCTGCAATTTTTGATATGGATGGATTA +CTTATCGACTCAGAACCTTTATGGGATCGAGCCGAACTGGATGTGATGGCAAGCCTGGGGGTGGATATCT +CCCGTCGTAACGAGCTGCCGGACACCTTAGGTTTACGCATCGATATGGTGGTCGATCTTTGGTACGCCCG +GCAACCGTGGAATGGGCCAAGCCGTCAGGAAGTAGTAGAACGGGTTATTGCCCGTGCCATTTCACTGGTT +GAAGAGACACGTCCATTATTACCAGGCGTGCGCGAAGCCGTTGCGTTATGCAAAGAACAAGGTTTATTGG +TGGGACTGGCCTCCGCGTCACCACTACATATGCTGGAAAAAGTGTTGACCATGTTTGACTTACGCGACAG +TTTCGATGCCCTCGCCTCGGCCGAAAAACTGCCTTACAGCAAGCCGCATCCGCAAGTATATCTCGACTGC +GCAGCAAAACTGGGCGTTGACCCTCTGACCTGCGTAGCGCTGGAAGATTCGGTAAATGGCATGATCGCCT +CTAAAGCAGCCCGCATGCGTTCCATCGTCGTTCCTGCGCCAGAAGCGCAAAATGATCCACGTTTTGTATT +AGCAGACGTCAAACTTTCATCGCTGACAGAACTCACCGCAAAAGACCTTCTCGGTTAATGACCAGGGGCA +GTGATCTCGCTGCCCCTGGTTCTTTATCTGAAATTGCATTCAACTGACGGATTAATCGTCAATTTAAGAG +AAAGAGTTACACCGTCACCACTTCCGTGCACTGTATAAAAATCCTATACTGTACGTATCGACAGTTTAGT +GAGTTTTATCATGACGGCGGAAGGTCACCTTCTCTTTTCTATTGCTTGTGCGGTATTTGCCAAAAATGCC +GAGCTGACGCCCGTGCTGGCACAGGGTGACTGGTGGCATATTGTCCCTTCCGCAATCCTGACGTGTTTGT +TACCGGACATCGATCACCCAAAGTCGTTTCTTGGGCAGCGATTAAAATGGATATCAAAACCGATCGCCCG +CGCTTTTGGGCATCGTGGTTTTACCCACAGTCTGCTGGCGGTATTTGCGCTGCTGGCAACCTTTTACCTT +AAGGTTCCGGAAGGCTGGTTCATTCCGGCTGATGCGCTACAAGGAATGGTGCTGGGTTATTTGAGCCACA +TACTTGCCGATATGCTGACACCCGCCGGTGTTCCCCTGCTCTGGCCATGCCGCTGGCGTTTCCGCTTGCC +TATCCTGGTTCCCCAAAAGGGCAACCAACTGGAACGTTTTATCTGCATGGCATTATTTGTCTGGTCGGTA +TGGATGCCCCATTCATTACCCGAGAACAGCGCTGTTCGTTGGTCATCGCAAATGATCAATACCTTGCAGA +TCCAGTTTCATCGGCTTATTAAGCATCAGGTTGAATACTAAAAAGGCAAAAATCACCTTTCTGGAATAAG +CAATTCCATTTGAATATAAGAGCCAGCTCACAGTTCTGTTAATCTTGCGCCAACACTATGACTGCTACGC +AGTGATAGAAATAATAAGATCAGGAGAACGGGGATGAACTTTCCATTAATTGCGAACATCGTGGTGTTCG +TTGTACTGCTGTTTGCGCTGGCTCAGACCCGCCATAAACAGTGGAGTCTGGCGAAAAAAGTGCTGGTGGG +TCTGGTGATGGGTGTGGTTTTTGGCCTTGCCCTGCATACCATTTATGGTTCTGACAGCCAGGTACTTAAA +GATTCTGTACAGTGGTTTAACATCGTTGGTAACGGCTATGTTCAACTGCTGCAAATGATCGTTATGCCGT +TAGTCTTCGCCTCTATTCTGAGCGCGGTTGCCCGTCTGCATAACGCATCTCAGTTAGGCAAAATCAGTTT +TCTGACCATCGGTACGCTTTTGTTTACCACGCTGATTGCGGCGCTGGTCGGTGTGCTGGTCACCAACCTG +TTTGGTTTGACGGCTGAAGGTCTGGTTCAGGGTGGTGCAGAAACTGCACGTCTGAACGCCATTGAAAGTA +ACTATGTTGGTAAAGTCTCTGATCTGAGCGTTCCGCAGCTGGTCTTGTCCTTTATCCCGAAAAACCCGTT +TGCCGATCTTACCGGAGCCAATCCGACGTCAATTATCAGCGTGGTAATTTTTGCCGCATTCCTCGGCGTA +GCTGCATTGAAACTGCTGAAGGATGATGCGCCGAAAGGTGAACGCGTCTTAGCCGCTATCGATACCCTAC +AAAGCTGGGTGATGAAACTGGTTCGCCTGGTCATGCAGTTGACCCCTTACGGCGTTCTGGCTCTAATGAC +CAAAGTGGTTGCAGGTTCTAACTTGCAAGACATCATCAAACTGGGAAGTTTCGTTGTCGCGTCCTACCTC +GGTCTGCTGATTATGTTTGCAGTGCATGGCATTCTGCTGGGCATTAATGGCGTGAGTCCGCTGAAGTACT +TCCGTAAGGTATGGCCTGTGCTGACGTTTGCCTTTACCAGCCGTTCCAGTGCTGCGTCTATCCCACTGAA +TGTGGAAGCACAAACGCGTCGTCTGGGCGTTCCTGAATCCATCGCCAGTTTCGCCGCCTCTTTCGGTGCA +ACCATTGGTCAGAACGGCTGCGCCGGTTTGTATCCGGCAATGCTGGCGGTGATGGTTGCGCCTACGGTTG +GCATTAACCCGCTGGACCCGATGTGGATTGCGACGCTGGTCGGTATTGTTACCGTTAGTTCCGCAGGCGT +TGCCGGTGTCGGTGGTGGTGCAACTTTCGCCGCACTGATTGTACTGCCTGCGATGGGCCTGCCAGTAACC +CTGGTGGCGCTGTTAATCTCCGTTGAACCGCTTATCGACATGGGCCGTACGGCGTTAAACGTTAGTGGCT +CGATGACAGCTGGCACGCTGACCAGCCAGTGGCTGAAGCAAACCGATAAAGCCATTCTGGATAGCGAAGA +CGACGCCGAACTGGCACACCATTAATTCTTATGCTGGCAACGGTCCGTTTTGTATAGGGGCCGTTGCCTT +ACTTTTTAAATGTTCCATCGCGGCGATGCATACTGACTCATATTTAAACAGATCGTCAGCGAAAAAAATG +TCCAACTTATCAATACATTCCTGGCTCAATGAATGTGCCTGTAGCGAGAAGCTTAAAACCTCATACCCGA +GACGTTTTCTAAGTGAACTATCTGGAATACTCATAATATCTTCAAGCACACCACTTCCCATTCCCGGAAG +ATTTAGTGGATTAAAAAGAAGATTGATATTAAGCATTGATATTATCGAAGGAAACTTTAGGAGACTCTCA +TTTTTTTGAATCGCAGCAAAAATGCTCCCGACAGGATGTATATAATTTTGTTCATAGTATATAGTCCTTA +AATAGTGAATAACCAACCTGTTTTTTATACTGATCAAATTGGTCATTTTTTCTGGGCGAAATACAGAAGT +GACATCCATTCCAATAAAATCTTTATTTATACCTCTTATCCGAATTTCACTACCATAAAGATTATTAATT +ATTACTCTATATTTAACATTGTCCTGCAGATATGTATCAAAACTAAGTGCTGGCGCTCCTGGCTTTGAGG +CATCATAGTTAATGTTAGACATATAGGCAATCATATAATTAAAGTTTGATTCTGCTATTTCATCGCAGTC +ACATTGACCCGTTGATATAAAGAAAGTGAGTGCTGTCATAGTAGACTGCAGCCTTTCTTTAAAAGAGTCG +AAAGCCAGGCTTTTAATATTTAAATCACCATAATTACTCTGTATTAAGTTTGTAGAAAACATCTCCCGCC +TCATATTGTTAACAAAATTATTATCTCATTTAAATCTAAGTCATTTACAATATAAGTTTAAGAGCGACGC +CACAGGATGAACTATCAAAAATAGCTCATCATGATTAGCAAAACTTAACCATTTTAAAATAAATAAACAA +TTAAAGAAAAAAGATCACTTATTTATAGCAATAGATCGTCAAAGGCAGCTTTTTGTTACAGGTGGTTTGA +ATGAATGTAGCAACGAAATACAGAATTTCAGGTCATGTAACTCCCGGCAAAACCGGGAGGTATGTAATCC +TTACTCAGTCACTTCCCCTTCCTGGCGGATCTGATTTGCCCAACGTTGGGCAGATTCAGGCACAGTAAAC +GCCGGTGAGCGCAGAAATGACTCTCCCATCAGTACAAACGCAACATATTTGCCACGCAGCATCCAGACAT +CACGAAACGAATCCATCTTTATCGCATGTTCTGGCGGCGCGGGTTCCGTGCGTGGGACATAGCTAATAAT +CTGGCGGTTTTGCTGGCGGAGCGGTTTCTTCATTACTGGCTTCACTAAACGCATATTAAAAATCAGAAAA +ACTGTAGTTTAGCCGATTTAGCCCCTGTACGTCCCGCTTTGCGTGTATTTCATAACACCGTTTCCAGAAT +AGTCTCCGAAGCGGGATCTGGCTGGTGGTCTATAGTTAGAGAGTTTTTTGACCAAAACAGCGGCCCTTTC +AGTAATAAATTAAGGAGACGAGTTCAATGTCGCAACATAACGAAAAGAACCCACATCAGCACCAGTCACC +ACTACACGATTCCAGCGAAGCGAAACCGGGGATGGACTCACTGGCACCTGAGGACGGCTCTCATCGTCCA +GCGGCTGAACCAACACCGCCAGGTGCACAACCTACCGCCCCAGGGAGCCTGAAAGCCCCTGATACGCGTA +ACGAAAAACTTAATTCTCTGGAAGACGTACGCAAAGGCAGTGAAAATTATGCGCTGACCACTAATCAGGG +CGTGCGCATCGCCGACGATCAAAACTCACTGCGTGCCGGTAGCCGTGGTCCAACGCTGCTGGAAGATTTT +ATTCTGCGCGAGAAAATCACCCACTTTGACCATGAGCGCATTCCGGAACGTATTGTTCATGCACGCGGAT +CAGCCGCTCACGGTTATTTCCAGCCATATAAAAGCTTAAGCGATATTACCAAAGCGGATTTCCTCTCAGA +TCCGAACAAAATCACCCCAGTATTTGTACGTTTCTCTACCGTTCAGGGTGGTGCTGGCTCTGCTGATACC +GTGCGTGATATCCGTGGCTTTGCCACCAAGTTCTATACCGAAGAGGGTATTTTTGACCTCGTTGGCAATA +ACACGCCAATCTTCTTTATCCAGGATGCGCATAAATTCCCCGATTTTGTTCATGCGGTAAAACCAGAACC +GCACTGGGCAATTCCACAAGGGCAAAGTGCCCACGATACTTTCTGGGATTATGTTTCTCTGCAACCTGAA +ACTCTGCACAACGTGATGTGGGCGATGTCGGATCGCGGCATCCCCCGCAGTTACCGCACCATGGAAGGCT +TCGGTATTCACACCTTCCGCCTGATTAATGCCGAAGGGAAGGCAACGTTTGTACGTTTCCACTGGAAACC +ACTGGCAGGTAAAGCCTCACTCGTTTGGGATGAAGCACAAAAACTCACCGGACGTGACCCGGACTTCCAC +CGCCGCGAGTTGTGGGAAGCCATTGAAGCAGGCGATTTTCCGGAATACGAACTGGGCTTCCAGTTGATTC +CTGAAGAAGATGAATTCAAGTTCGACTTCGATCTTCTCGATCCAACCAAACTTATCCCGGAAGAACTGGT +GCCCGTTCAGCGTGTCGGCAAAATGGTGCTCAATCGCAACCCGGATAACTTCTTTGCTGAAAACGAACAG +GCGGCTTTCCATCCTGGGCATATCGTGCCGGGACTGGACTTCACCAACGATCCGCTGTTGCAGGGACGTT +TGTTCTCCTATACCGATACACAAATCAGTCGTCTTGGTGGGCCGAATTTCCATGAGATTCCGATTAACCG +TCCGACCTGCCCTTACCATAATTTCCAGCGTGACGGCATGCATCGCATGGGGATCGACACTAACCCGGCG +AATTACGAACCGAACTCGATTAACGATAACTGGCCGCGCGAAACACCGCCGGGGCCGAAACGCGGCGGTT +TTGAATCATACCAGGAGCGCGTGGAAGGCAATAAAGTTCGCGAGCGCAGCCCATCGTTTGGCGAATATTA +TTCCCATCCGCGTCTGTTCTGGCTAAGTCAGACGCCATTTGAGCAGCGCCATATTGTCGATGGTTTCAGT +TTTGAGTTAAGCAAAGTCGTTCGTCCGTATATTCGTGAGCGCGTTGTTGACCAGCTGGCGCATATTGATC +TCACTCTGGCCCAGGCGGTGGCGAAAAATCTCGGTATCGAACTGACTGACGACCAGCTGAATATCACCCC +ACCTCCGGACGTCAACGGTCTGAAAAAGGATCCATCCTTAAGTTTGTACGCCATTCCTGACGGTGATGTG +AAAGGTCGCGTGGTAGCGATTTTACTTAATGATGAAGTGAGATCGGCAGACCTTCTGGCCATTCTCAAGG +CGCTGAAGGCCAAAGGCGTTCATGCCAAACTGCTCTACTCCCGAATGGGTGAAGTGACTGCGGATGACGG +TACGGTGTTGCCTATAGCCGCTACCTTTGCCGGTGCACCTTCGCTGACGGTCGATGCGGTCATTGTCCCT +TGCGGCAATATCGCGGATATCGCTGACAACGGCGATGCCAACTACTACCTGATGGAAGCCTACAAACACC +TTAAACCGATTGCGCTGGCGGGTGACGCGCGCAAGTTTAAAGCAACAATCAAGATCGCTGACCAGGGTGA +AGAAGGGATTGTGGAAGCTGACAGCGCTGACGGTAGTTTTATGGATGAACTGCTAACGCTGATGGCAGCA +CACCGCGTGTGGTCACGCATTCCTAAGATTGACAAAATTCCTGCCTGATGGGAGGCGGCGCAATTGCGCC +GCCTCAAATGATTTACATAGTGCGCTTTGTTTATGCCGGATGCGGCGTGAACGCCTTATCCGGCCTACAA +AACTGTGCAAATTCAATATATTGCAGGAAACACGTAGGCCTGATAAGCGAAGCGCATCAGGCAGTTTTGC +GTTTGTCAGCAGTCTCAAGCGGCGCAGTTACGCCGCCTTTGTAGGAATTAATCGCCGGATGCAAGGTTCA +CGCCGCATCTGGCAAACATCCTCACTTACACATCCCGATAACTCCCCAACCGATAACCACGCTGAGCGAT +AGCACCTTTCAACGACGCTGATGTCAACACATCCAGCTCCGTTAAGCGTGGGAAACAGTAAGCACTCTGA +CGGATAGTATTATCGATAAACGCCGGATGACACATCACCTCCAGCGAACGATCACCCCGATGGCCTGCGT +CATCCAGCACTTGCAGGAACAGCGACTCACTGATCTCTTCACCGTAGAATGCACTGCTGAATCCCTGGGT +AGTGCGCAGGTTGACCGGCAAATCAAACGCCATCTGACGATCCGCCCGCAACGCAATGCCCTGCTCTGCC +GCAAACCTGGCAACAATCGGGAAAATCTGCGGGAACATATGCACATGATGATGGCTATCAAGATGCGTAG +GTTTGCGTCCAAATAGCTCAATGAAACGCAAATACTGACTGACAAGCTCCTGAGTAATTTCTTCCAGCGG +TAAAGCATCTTCTTCTGCCAACTGCCAGATCCATTTTCCCAGCACACCATCGCGGGTTAACCCCGGCATA +GCTGTCAGTGGCTTACCCATAGTAAGGACAAAGTGCATCCCTATGGCCAGACTCGGTTCATCACGACTCA +ACTGCACCGCATGGTCAATAGCCTGCCCATTCACCAGCGCCGTCGTCGACGTGACAATCCCATTGCGACA +GGCCTCGATAATGCCGTAGTTCTGACCTTTGCTTAAGCCAAAATCATCGGCATTAACAATCAGTAAGCGT +TCCATAATCAGCCTCGGTTAATGTGCTTTTTTAAGCTCTGCGATGCAGTCGGCAAAGTTTGGCAGCCATT +TCTCGTGCGCCAGAATCATCTCGCGTGCCAGCAGCTCAGCATCGCGATCGGAATGCACCAACGGACTAAG +GTTTAGCGCCAGTAACACATCGTTAAATTCTCCGCTAAGTGCGGCGTTACTGGCAGCAATCTCGAAGCCT +TTAATGGTGTGAATCAGCCCCATTACTTTATCATCGAAATGCGTAATGCGCGGATGTGGCGTCGCGCCAT +CGCGCCCCAGCTTACAGGTCATTTCTACTGCCCAGTCTGCCGGAATATTATCAATCTGCCCATGATGCGG +GATATTAACGTAATGTTCTGCTTGCTTGTCGTTGTAGATAGCGTTGATCACTTCGCATGCTGCATCAGAG +TAATAAGCCCCACCGCGCTGTTCCAGTTCTTTCGGCTTAACTTTCAGCTCAGGATTTTTATACAGCTCAA +AAAGTTGTTTCTCGACTTTCTGTACTACCTGCGCTCGTGCGCCGCCTTTGTAGTATTCGCCCATTTCAAT +AGCCAGCATCTCTTTCTGCTTGAAGTAATACAGCAGATAAGAACATGGCAGCAGATTCAACGAACGAATT +AAGCCCTCACTAAATGGCAGATCGAAAATATTTTTTACAGAGGACGCTTTTAACTGCCCTGACGCCACAC +CATCAAGCAATTCGGCAAAGCGCGACTTGCCATTTATCAGCACATCCTTAATGAACACCATATGGTTGAG +GCCGAACAAATCGATAGATAAATCATCGCTGTCTTTCAGCATCAGAACATCGCGAATAAACATCTTCATG +CCGATCGGAATATTACACACGCCGATAAAGCGTTTAAATCCGGTATGACGATAAACGGCTTCAGTGACCA +TTCCCGCCGGGTTAGTGAAGTTAATCACCCATGCATTCGGACAAAGTTCTTCGACATCTTTTACGATGTC +AAAAATCACCGGAATGGTACGCAGACCTTTAAACAAACCGCCCGCGCCGTTGGTTTCCTGACCAAGATAA +CCATGACTTAATGGAATACGTTCATCCAGTTCACGCGCCGGTAATTGGCCAACGCGCAGTTGGGTAGTAA +CGAAATCAGCATCTTTCAATGCTTCGCGGCGATCCAGCGTTTTATAAAGCTTCATCGGGACGCCAGCGTT +ATCAATCATCCGTTGGCAGAGATCGAAAATAATATCCAGTTTCGGTTTACCACCTTCGACATCCACCAGC +CATAATTCGCTGACCGGCAATTCGTGATAACGCTTAATAAATCCTTCCAGTAACTCCGGGGTATAGCTGC +TCCCGCCACCAATAGTGACGACTTTTAATTTCTGGCTCATAATTTCTCCCTTCAGTACAGAATACTGATA +TCTGGCATATCTGCCCCCCCGGACATAAATAATCCAGCAACAGGACAGATATGTGAATTGTCAGGTATAA +CGACTTACTGATTAAATTCAGTCAATTTCTTACGATAGCTCTTAGGCGTAAAGGACGTTAATTTCTTAAA +CGTTTTAATAAACAAACTCGGGCTACTATAACCGGCCTCAAACGCAATATCCGTCACTGAATAGTTGGTC +ATTTCCAGTTGTTTTTTGGCAAAATTAATACGGATTTCATTAATAATCTGCATTGGCGTTTTGCCATAAT +ATCGTTGAGTCGCTCGCGTCAAATATTCCTGTGATTTGGCTGACAACGCCACCATATTCTCCAGCGCCGA +TTCACTAAACTGCTCTTTATCATGCATCTTTTCTACCGTACTTTTCAGCCACTGCGGTACATCATCAATC +ACCTGTTCTTCGCGGTAATGACGTAAACGGTTAATGACATAAAAAGTAACCATCTCAACAAACTCTTCCA +GCCCTGTTTCGCGGAAATTCAATGAAGAAATCACTGTTTCCACATAGGTGAGAAAAGCGTTATTGGTCCG +GTATACCTGCGAAGCGACAAAGCAATAAGGCAACAATGGCAGGTAATGCTGCTCAAAAAAGCGTTTACTG +ATCCCAACGTTCAATATGCGCGTGGCACCAAACTCATAAAAACTTTGATGGTGCGAACCTAACGGAATAA +AAACAAAATCGCCCCGTTCCAGTAACACGCGCTTACCGTTAATCTCCTGGAAATAACGCCCGGTTAATAC +CAGAGTAAATTCATAATAGTCGTGCTGATGCAGTCCGCTGATACTCTCAGTTTTGTTATAGATAAACACA +TGGAAGTTTTTGCCATTAAACAACTGCTGTTCTCGGGCAGTGGCAATTTCCGGCGCGTTAATCACTGGCT +GCATCATCGACTCCTTATGCCTTCAGTTTTTCATGAAGCTCAATTAATTCAGTAATCAGTTCACGCGCAA +GCATGGACGTCATTAAATGATCCTGAGCGTGGACCAGCACCAGACTCACTTTCATCTTACCTTCGCCCGC +ATCGCCTTCAATCAGTTTCGTCTGTACCAGATGCGCTTCATTCAATGCCATCCGTGACTGATCCATCATG +GCTTTTGCTGCGGCAAAATCGCCCTGCTTCGCCTGTTTCAGTGCCGCATACGCCAGGCTGCGCGCTTGTC +CGGAGTTGATGATCAGCCCCATCACCACTTCTTCCAGCTCTTCAGCTTCCGTTTGCGTATCGGGAATGTT +ATCGAGATCCATCATACATCGTTCCTCTCTTTTCTTACCGGCACGATTACCCGTACCGGCATCGATTAAA +ATTTCAGGGCGTTAGCGATATCTTCTTCGCTCTCTTCTTTATCAATCGCATTTTGTGCTTTGTTAGCCAC +CACAACAAAGGGCAGATAAATTAACGTTGCGATGCCAAGGTTGAAGAGTGCGACCAGCAATGCGGCGACG +CTACCGTTGGTGTTAAAGAAGGCTCCCAGACCGGTTGGCATGGTCCACGGTGCAATATTGGTCACCGGAG +GAATAATGCCCATGTAGTACGCTGCGAGGGTGATTGCCGCCAGAATCGGTTGTACCAGTACAAACGGGAT +AAACATCACCGGGTTCATGATAATTGGCAGACCAAACAGAATCGGTTCGTTAATCTGGAAGATGCCGGAC +GGCAGCGCCAGTTTTGCCACCTGACGATAATCAGCACGGCGAGAGGCGATAAAGATAGCCAGGATCAGGC +CTAAAGTCGCACCACTGCCCCCAAGGAAAATAAAGGAGTCCAGCATCGGCTTGGCCCAGATATGGAAGGT +CTTACCGGCTGCCAGCGCCGCTTCGACGGAACCATATTGCTGATAGGTCGCGATATTTTCCAGTGCCCAC +GGCGTCATAATGCCGTTGTCCAGTGCGGTCAGCGCCAGCGCGCCATGAATACCGAAGAACCAGAGCAGTG +GAACAAAGATCACATAGGCCCAGCCCACCACGCTACCCAACGATGCCAGTGGGGTTGAGATGGTATCCAT +AATGATCTGATGGAAGTTGGTGCCCCAGGTATTCAACGCCCAGGCAATAATCCCCATCACGGAAAGAATA +ATAAAGCCGGGAATTAATGCCGAGAAGGAACGCGATACTGAAGCAGGTACGCTGTCGGGCAGTTTAATGA +CCCAATTGCGGCGGACAATAAAGGTAAACATTTCTGCCACCACCAGGCCAATAATAATCCCGGAGATGAT +ATTCGCCCCACCTAACCAGTTTGCACCAACCGCATAGGCCTCACCGACACTATATGGGGTGACGGTCATA +AATGCTGCAACGGATAACAACCCAGCCGCCAGCGCATCGACTTTACGCTCTTCTGCCAGCGCCATGCCAA +TAAAGAACGGTGCCATTAAAGACATTATTCCTAATGTTCCGTTATATACGTTGCCGCCAATACCTTTCAG +ACCATTAAGTGTTTCAATGGTTGAGGCGTCGAGGCGAATACCTAAGGAATAAAAAAACGACCCCTCCCCA +AAGCTTAGAAAAACGTTGTTAATTAATACAAACATGGCCCCCGCAAGGGTTAACGGCATTAAGCGAATAA +AGCCATTTTTGATTGCATTAACGTGTGGCTGCTTTCCTATTTTAACTGCAAAAGGGAGGAGTACCTTTTC +AAGCGATGCAATAACATTACTCATAGAAAAATACCCTTAAAAACCGCAATTTAAATATTGCGGTATTGAT +TTATGAAATAACTCTTTGACGGGAAAATTTAAAATAAATTAATTTGCTGCGGCTTTTTTAATCGCTGCAA +CCGCAGCCTTAAGCACGCCTAAACCATCGACTTTGCCATAAAGCAGCGAGTCAATTACTTCAACCGGTTT +GTTGGGTAACAAACGCTGGATTTCGGGCAACATATAAGCAATCTGCGGCCCTAATAACACGACATCGGCA +TTCTGACCTTTTTCACCAGCCAGTGTTTCCGGAAATGCTTCAATAATGACCGGAACTTCATATTTTTCTG +CCTGTGCGCGCATTTTTGATACCAGTAAAGAGGTAGACATGCCCGCAGAACAAAACAGATAAATGTGTTT +CTTTTCCATAAAACTGCCCTCATCGACGATTATCTGTCAGCCAGACACTCCGCAAGCCTTAACCTGCTTC +CATGCTCTGGGTAACTTGCGAAACCAACATGACTTTTTTTGTGGCTGAAAGGAGTATACGGTATAGACCT +GAGCAATAGTATTTCTTTGACCTTATAAATTGTTTCTCCTTGACCTGTGGTTATGACCCTCTTCACATTT +CGGGCAAATAATTCGCGAAGATAATTAAGAACTCAGGCCAAAAAAAACCGGCGCAATGGCCGGTTTCCGT +TGTTACTCAAGCTTTCAGACGAATTGATTACTTCGCAGCCTGTGGATCAGTGTCGTATTCAGCACAGGTC +TGATAACCGGAGTTGATGACATGTCCGGTATCATCTAACGCGACAAAGTAGGTTTCTGCTTTACCATCAC +GTTGACCCAGGATGTAGGTCTGGCAAGTACCGCGAGCATGGATCATGCTCACTTCAGACGAAGGTTTACC +CGCAATTTGTGCAACCTGCGCCCGGCTCATGCCTTTTTTGACGTCTTTCACCACAGGCTGTACAAACTGG +TCTTTGGTACGATCATAAGCCGTACAACCCGCCAGCATGGTTAATACCGCCGCTGCACTCAGAATTCCTG +CCATATTCTTGTTCATATTCCGTCCTCTTGTTTATCAGCGTGTTAGATAAGCCTGGAATACATTGGGCGC +TTTTTCAAGCCCGTGAACGAAACGGCTCCGCTTTCAGAGGATTCCTGTATGACGTTTTAACCACCATTCA +GCCCGCTGTCGCTTGTCGTTTCAGTAGCAACGGGTTAGCTTTAAGGAAGTTTTGTCTTTTCTGTCTGGAG +GGGTTCAATGACATTGCAACAACAAATAATAAAGGCGCTGGGCGCAAAACCGCAGATTAATGCTGAAGAG +GAAATTCGTCGTAGTGTCGATTTTCTGAAAAGCTACCTGCAAACTTATCCGTTCATTAAATCACTGGTGC +TCGGGATCAGCGGCGGTCAGGACTCCACGCTTGCCGGAAAGCTGTGCCAGATGGCGATTAATGAGCTGCG +CCTGGAAACCGGCAACGAATCACTGCAATTTATTGCCGTACGCCTGCCCTATGGTGTTCAGGCCGACGAA +CAAGATTGCCAGGATGCCATTGCCTTTATTCAACCGGATCGCGTATTAACCGTTAATATCAAGGGCGCGG +TATTGGCCAGCGAACAGGCATTGCGGGAAGCAGGCATTGAACTGAGCGATTTTGTCCGTGGCAATGAAAA +AGCGCGTGAGCGGATGAAAGCACAATATAGCATTGCGGGTATGACCAGCGGTGTCGTGGTGGGCACCGAT +CATGCAGCAGAAGCCATTACCGGATTCTTCACTAAATATGGTGACGGCGGTACGGACATTAATCCGCTGT +ATCGTCTCAACAAACGTCAGGGTAAACAGTTACTGGCGGCATTAGCTTGCCCGGAACACCTTTATAAGAA +AGCGCCAACGGCCGATCTGGAAGATGATCGCCCTTCTCTGCCAGATGAAGTGGCACTCGGCGTGACCTAT +GACAATATCGACGACTATCTGGAAGGGAAAAACGTACCTCAACAGGTCGCCAGAACAATAGAGAACTGGT +ATCTGAAAACCGAACATAAACGCCGTCCGCCAATTACCGTTTTCGATGATTTCTGGAAAAAGTAATAATT +TGCACATATTGGATTGTGCGAAAAAGAGTAATTTGTTCACGCCGGATGCGGCGTGAACGCCTTATTCGAC +CTATAAAACTATGCAAATTCAATACATTGCAGGAGTCGAATAGGCCTGACAGGCGTAGCACGTCAGACGG +TGTAACCTTTGTCATCGACCCGCCTCTTTTTTAATCGCTTCCCGCCTGTTACACTGGATAGATAACCAGC +ATTCGGAGTCAACAGTGGTACGGCGTTTAACTTCTCCGCGGCTCGAATTTGAAGCTGCGGCAATTTATGA +ATATCCCGAACATTTACGTTCATTCCTTAATGACTTACCCACCCGACCAGGGGTGTATCTGTTTCATGGT +GAAAGTGACACCATGCCGCTCTATATCGGCAAAAGCGTTAACATCCGCAGCCGCGTCCTTTCTCATTTAC +GTACCCCGGATGAAGCCGCCATGCTACGGCAATCCCGACGGATCAGCTGGATATGTACCGCCGGTGAAAT +CGGCGCTCTGCTCCTTGAAGCGCGATTAATCAAAGAACAACAGCCGCTGTTTAATAAACGGTTGCGCCGC +AATCGCCAGCTCTGTGCCCTGCAATTAAATGAAAAGCGCGTCGATGTGGTGTATGCCAAAGAGGTGGATT +TTTCACGAGCCCCCAACCTGTTTGGCCTGTTTGCCAATAGGCGCGCAGCTTTGCAAGCATTGCAGACCAT +CGCTGATGAACAAAAACTTTGTTATGGCCTGCTGGGACTGGAACCGTTAAGTCGCGGTCGTGCATGTTTT +CGTTCAGCGCTAAAACGTTGCGCCGGAGCATGCTGCGGTAAAGAGAGCCATGAGGAACATGCGCTACGCT +TGCGCCAGTCTCTGGAGCGTTTGCGGGTGGTGTGTTGGCCTTGGCAAGGGGCGGTGGCGCTGAAAGAACA +GCACCCGGAAATGACTCAATATCATATTATTCAAAACTGGCTGTGGCTGGGGGCGGTTAATTCGCTGGAA +GAAGCGACAACGTTAATTCGGACACCCGCCGGGTTTGATCACGACGGTTATAAAATTCTTTGTAAGCCGC +TGCTTTCCGGTAACTATGAAATTACTGAACTTGATCCGGCGAATGACCAGCGAGCCAGTTGATTTCACTG +AACAACAGTTTACCTTGCGGTTGTAAAAGCCGCAGGGTGTGCCTGCCATCGAACCAGCACGCGCCCTGGT +CGGTAGTGAGCAATTTATCGCCCAGTTGCCACGCCCCGTTAATCACAAACACCACCCCGCCGCGTGAGCC +AAAGGTAGTAAACGTACGTTCGGCAATTCTGACTTTCGCCTTACAGACATCCAGGCGTGTCATGATGTTG +AAATCCATCGACATCTGCCCTGCCGTCAGTTTCGCTTTTACCACCTGGTCCGCTGCAAAGGCAAAAGGCT +GGAACGGTTTTAAGGTATGGTTAAAGCGGTCTGCGCTTTCAAGGAGCATCTCGCCGCCTTCCAGCAACGT +CACTATCCTTTCCATGCCGGGAAACAAAGAAAACTCCCCATTCGCCGCGATGGATGCAATGCTGGCACGC +CAGTAAAAATCACGTTTTGCCGGTGGGAACGTGCAAATTTCGCGCGTTTCACCGGCAGCATTTCGCCACA +GATTCACCGACATTTTACGCATATCAAAGTATTCCATACTCGCTCCCGGCCCGTTCTTTTCATTGTTATC +GTTCAGGTAACCGTGGATGGTTATCGGCAACTCGGGTGATTTACGTTAGTGGTGATCAGGCTTTTTTTAC +AACTGTTTGAGAAGAGAAAAGAAAACCGCCGATCCTGTCCACCGCATTACTGCAAGGTAGTGGACAAGAC +CGGCGGTCTTAAGTTTTTTGGCTGAAAGATTATTCAGCAGTTGCAGGCATTTTACCTTTTGCCGCTGGAC +GTTCTGTCAGACGCTTCTCAAAATTAGCATTAAATTGCTTTTTCTGTTCCGGCGTCAGGATGTTGTAAAT +TTTGTTCTGGGTTTCCATGTGCGCCAGCATGTTAGCTTTGCGCTGTTCTTCCATTTTTGCGATCTGCGCT +TCAGCTTTTACTTTATCGAAGGTATCGCTGGCAATGATGTCATGCATTGCGCGGCGTTCTTCCAGCGGCG +GACGTTTCATCTGGTCACGCTGGCCTTTCATGATTTCGCGGATCTGCTGTTTCTGCGCGTCGGTCAGGTT +CAGGTCTTTGAACATCATGTCCTGATGCGGACCGAACTTGCCTTTGTGGTGCATCATCGGCTTCGCGTCA +GCCGGTGCTGCGGTAGTGGTGTCTGCGGCATGGGCCAGGTTAGCCGCGCCAAGAGCCAGGGTAGAGGCAA +CAAACAGTGCAGTTAATTTACGCATATTCTATATCCTTCCTTTCAGTTATTTATTACGGCTTTCTTAAGT +AGCGTGCCGTGTTGACGAGATTAACTTTACTGACTTTAGCGTCAATTAATCAGAGCAACGGTAAAACAAT +GAAAGTGTAAAAAACACTTTTGCGCCAATTATGGAGAAAAAAAGAAAATTTGATGGAGAGTGATGAGAGA +ATATTACAACACGATGATTTTGCAGAGATTATGAAGAACTATACCGGATGACTGGTGATAAATAAAGCAA +ATAACCAGGATTAATCTGTATTAATTTATAAGAAAGCAACTTAATACCCGCAGAATGATTTCTGCGGGTA +AGTATTAGCTTATTTTTTCGAGCATTAATCCCGCGCGTAATCCCAACGCTACCAACGGATTAGGGAATAA +CACATACTCTACATCATGGGTTACGGTAAAACGTTCCTCTCCGTCCTGCGCCAGCAATGTTCCTTTCTCA +AACGGCATAAAATTCAGCGTGTCACTTGCCATATGCATTTCGAAGGACGGCGAGTGGCGAGTAATTTGCG +AAACCACCCGATAACGGAGCGGCGGTGTTCTCACGATACCGACACTCTCACCAGATAGCAGCGCAGCAAT +TGCGCTGGCAGTTACTGCAAACTGGCGAAGATCGTTTTGCCCAAAGGGCAACGCTTTGCCAAGTTCCAGC +GTACAGGCCAGCGCGCCAAAATGTCTGGCGCTGAAATGGGTAAACGTACCACCAGGTTCCTGATGGAACA +CCAGCGCCTCCAGCCCCGCCGCACCCAGCCACGTCAGAAATTTCTCGTCCCAGGGAATGTCGCGTTGCGG +TAATACACCGAACTGCGGATGCAAGGAGCCACGAATTGCGGTATGTAGATCAAGGTGCCAGCGCACAGAT +TCTTTGCCCTGGTCATAAAAATCTTCCAGGCACTGTTCCAGTTCGCGCGCCCGACAGGTTTCTCCGCTTT +CAGCAAATAGCTGCCAACGACCGCCAAACATTCGATTCATATCGCTATGGCAATAACGTTTCCCTTGCTT +CAGCGCAGGAGGATTCCCGAGGATCACCAGCAACCGCCAACGTAACGGGATCTCGCCGTGAGATATCGCG +CCAAGCAACGCGTCCAGCATCTCCACAGGTGCCGTCTCATTACCGTGTATTCCCGCTGAAATCACCAGTG +CGCCTTGCGGTGGCGTTAATGGCGTCAGTTCCAGCACACCATCGCCCAGCCAGCGCCAGCGAACGCCGTT +GATTTCTCGCTCGGTGATAACCGGTTTTTTACCCGTTAAGGTCAGAGCAAGAAAATTATCCATTGCCCCC +TCCCTCGCGCTGGAACGGATAAACCGAACCGAGATTCAGTAATTGGCTCAATACATCCAGTGCTTCCCGC +CCTTCGCGCAGCAATTGCGGGTCGGCCAGATCGGCAGCAGTAAGGCGATCGCGGTAGTAACGATCCACCC +AGTCATTGAGCGCATTAAACAGCGTATCGTTCATCATCACCGCCGGATTCACCGCCCGGCGTTCTTCTTC +TGTCAATACCACCCGCAACCGCAGGCACGCCGGGCCGCCGCCATTCGCCATGCTTTCACGTAAATCAAAG +ACTTTTAGTTCGCTAATCGGGTTGTCAGCGGCAAGGAGTTCATTGAGATAACCCCATACTCCGGCGTGTT +CCCGACACTCCTGAGGCAGCACCAACATCATGGAACCATCATCGCGGCTCAGCAGTTGGCTGTTAAACAG +ATAGGTAGACACCGTATCAGACACGGAAACCTGAGTTGCCGGAACTTCTATCGCCATAAAACCATTGACC +CGCGCACGCAGGTTTGCCAGTAACTGTGACTGGCGAGCGAACGCCTGTTGGTGGCAAAACAGCACCTGGC +GGTTACTCACGGCAATCACGTCATTATGAAAAACGCCCTGGTCGATAACGTCCGGGTTTTGCTGGGCGAA +AATCACCTGTTGGGGATTCACCTGATTCAGCCTTGCCACCGCCTCGCTGGCTTCGCGAGTCTGTCGCGCC +GGATAACGGGAAGGCCGGGTATCATTGCCTTCTTCTCGCCCGTAGACAAAAAGTTGCATACCCGGTTCAC +CGTAATGACCGCCGAGACGATTGTGGTTTGCCGCCCCCTCATCACCGAGCAACGCTACCTGTGGCAACGC +CGAATGGACGCTAAATTTCTCTTCGTCGTTAAAAATCGCTTTTAACAGCGATTCAGTGACGGGCGCTTCC +AGCGAACGGTGAAATTTATTGTTCAGGTTGGCAACGGTGAGATGCACTTTGCCATCCAGCGTATCGGCAG +ATGGCGCGATCGTTGCCGCATTGGCTACCCACATTGGCGAAGCGGAACTGACGCTGGAAAGCCAGTGCGG +TGCCTGGCGTGCAACTTTTTCCAGTACCTGCTCATCGCTACCACTGAATCCCAACTGACGCAGCACCGGA +ATAAACGGACGCTCGTGCGGCGGGATCACGGCCTGGGGGAATCCCGCATCGGCAAGGGCTTTCATTTTCA +GTAAGCCCTGCTTCGCCGCCAGTCGCGGGTTAGACACCTGAAAACGGTGACGGGTAGAGGCTTCATTACC +AAACGACAGGCCCGCGTAATGATGCGTCAGCCCTACCAGCCCGTCGAAATTGACTTCCCAGGCGTTCATC +GCACCACCTCATCGGAAAAATCCAGCCCGGGGTTAAGCGTGGCGGGCAATGTTAACGAGTCCGACTCCAG +GCTCGCCATCGGCCATGCGCAGTAATCTGCGGCATACCAGGCGCTGGGGCGATGGTTACCGGAAGCACCA +ATGCCGCCGAATGGCGCGGTACTGGCAGCACCGGTAAGCGGTTTGTTCCAGTTAACAATCCCCGCCCGCG +CCTCCAGCAACAGTTGATCGAACTTTTCCCGCTCGGGGGAAACCAGACCGCAAGAGAGTCCGAAGCGAGT +GTTATTCGCCATTCGAATCGCTTCATCGAAAGTATCATAACGCCAGACGCGCAATAACGGTCCGAACACC +TCTTCATCTGGTACGCCAGCAACGCCTGTCATTTCAATGATCCCCGGCGTCAGCAACGATGTCCCTGCTT +GTAATAAGCGCGGCGCAAGCAGGGGTCGTCCGCCCATCGCTTCCAGTTGCTGCCATGCAGTAACCACCTG +CTGTGCGGCCTGTTCAGAAATCAGCCCGCCAATAAACGGCTGCGGTTCGTCATCCCAGTTGCCCGGCGTT +AATCGCTGGCTGACGGCAACCAGACGAGCAAGAAACGCATCGCCCTGCGCCCCGCTTTTCAGCAATAAAC +GGCGGGCGCAGGTGCAGCGTTGACCGGCTGTGACAAACGCCGACTGAATGGTCAGATGGACAGCCGCGTC +GATATCCGCCACCTCATCGATAATTAGCGGATTATTACCGCCCATCTCAAGGGCGAGAATTTTCTCCGGC +TGACCGGAGAGCTGGCGATGCAACTGGTAGCCTGTATTGGCGCTACCGGTAAACAGCAAACCGTCGAGAT +CCTCCAGCGCACTCAGCGCCTGACCCGTTTCACGCCCGCCCTGCACCAGGTTCAGCACGCCTGGCGGCAA +GCCAGCCTGCTGCCATAAACGCATTACCGCTTCGCCACTCCACGGTGTCAGTTCGCTGGGTTTAAAGATA +ATGGTGTTACCTGCCAGCAATGCCGGAACGATATGTCCGTTCGGCAAATGACCAGGGAAATTATACGGCC +CAAACACCGCCAGCACGCCGTGCGGGCGATGTCGCAGGCTCGCCGCGCCGTCCGGCATTTCACTACGCTG +CTCGCCGGTACGAACGTGATACGCCTTAATTGATATCGCGATTTTATTGATCATCGCCGTCACTTCGGTT +GCCGCTTCCCAGCGCGGCTTACCCGTTTCTCTGGCAATAATCGCGGTTAATTCGGCTTTATTGCTTTCCA +GCAGTGCGGCAAAGCGTTCGACAACGGCATGACGTTCAGCAAATGAAAGCCGCGCCCAGCGCGGAAACGC +CGCACGGGCTGCCCGACAAGCCTGCTCGACCTGAGCGGCATCGGCATCATTGCCTTGCCATAACACCTCG +CCCGATACCGGATTACGCTTCACACGCGATGCGCCCTGGCCCGTTATCCAGTCACCGTTAATCCATAAAG +TCATGCTGTTTTCTCCTCTGCGCACAGGCGCACCAGACGAACGCGATCCCCGGCGTGGCATTTGAGGGCA +TCCAGTTGTGCGGCGGTTAAAATCAAACGCTCGGTTGCCGGATCGGTACGCACCAGCACCACGCGGAAAT +GGTGATAATTTTCATTGGCGACCAGGCAGGCTGGGAAATCGCCCTGCGCAGGCTGCCCTTCTGCCACTTC +CACCAGCCGACTTTTACGGATGGCGCGCACGCGGTCGATGTCACACTCAAGCGTCGGCCCACCGTCAAAG +ATGTCGATATAGTTACGGTAGCGAAAACCTTCTTTCTCCAGCACCGCGCGGGCAGGCGCGGTTTGCGGAT +GTACCTGACCGATGACGTCCTGGGCTTCCTGGGATAAAAAGTGGGTATAGATCGGATGTTTCGGCATCAG +TTCTGCAATAAATGCCTTTTGCCCGGTGCCGCAGAGAAAATCGGCGCGGCTAAAATCCATCGAAAAGAAG +CGTTTACCGAGGCTTTGCCAGAACGGTGAATAGCCGTGTTCGTCAATCACCCCGCGCATTTCAGCAACCA +CTTTGTCATTAAACTTGTCGCGAAAAGCCGCCATAAACATAAAGCGCGATTTCGACAGCAAATAGCCGTT +GCCCTCTTTGCGCCAGTCCGGGTCGAGAAACAGCGTGCACAGCTCGCTGCTGCCGGTGTGATCGTTACTG +AGAAACAGCGTCGGCAATGCGTTATAGACATTCAGCTCTTTTGAGGCGTGAACCAACGTGCCGACGCGAT +AGTTGTACCAGGGATCGTTCAGCCCAACCGCCACCTCAATGGCACAAATCCCCGCCACGGTGCCTGTCTC +GCTATCTTCCAGCACGAACACATAGCCCTGCTCACTTTTGGGCAGTTCGCCTTGCCAGGTTTTGATTGCC +CTTTCGATACGCGCCGAAAGCGTGGCTTCATTGGCGGGAAGCGACGTCAGGCCGCCGCCCGTTTTGCTGG +CAAGCTGCATCAGCGCCGAGACATCTGATCGCTCAACGGGACGGATGACCATCATGATGAACCTCGGCTA +ACAAAGTGTTCGCAAGCAGCTGCAAAGCGATCCAGTCCGGTCGTCACCTCTTCTTCGCTGACATTGAGCG +CAGGCGCAAAACGCACCACGTTGCCACCCGCAATCAGTACCATCACGCCTGCTTTCGCCGCTTCCTGAGA +GATCTGTTTCGCTTGCCCGGCGTAATCGGCATTCAGTACACAGCCAATCAGCAAACCTAAGCCGCGAACT +TCACTGAACAAACCATAGCGGTGATTAATAGTATTAAGACGCTCAACAAACCAGTCGTGACGCTGTTTAA +CGCCATTAAGCATCTCTGGTGTGTTGATGAGCTCCAGCACTTTGCCTGCCACCGCCGAGGCCAGCGGATT +ACCGCCATAGGTGGTGCCATGAGTGCCAACGGTCATCACGCGGGCGCACTCTTCGGTTGCCAACAACGCA +CCGACCGGGAAACCGCCGCCCAGCGCTTTGGCGGTAGTTAACAGATCAGGCGTCACGCCGTAGTGCATAT +AGGCATACAGTTCCCCGGTGCGCCCGACGCCGGTTTGTACTTCATCAAAAATCAACAGCGCATTGTGGCG +GTTACACAATTCACGCAGACCTTGTAAAAACGCGTTGCTGGCTGGCACCACACCGCCTTCCCCCTGGATG +GGTTCGACAATCACCGCACAGGTAGAGTCGTCAATCAGCGCGCTGGCAGAGTTAATATCGTTATATGCAG +CATGACGAATATCCGCCGGCAGTGGCGCAAAATCCTGTGAATAGGCTGGCTGCCCACCCGCACTGACAGT +AAACAGCGTGCGACCATGAAACGCATTTTTGAACGCCACGATGCCGCTCTTATGGCTGCCGTAGCGGTCG +TGAGCGAATTTACGCGCCAGTTTTAGCGCCGCTTCGTTGGCTTCCGCACCGGAGTTACAAAAGAAGACGC +GATCGGCAAACGTGGCGTCGATCAATTTTTTCGCCAGTCGCAGTACCGGCTCGTTGGTGTAACCGTTGCC +GGTATGCCAGAACTTACTCGCCTGTTCGTTCAGCGCTTCACGCAGTTCCGGATGCGCATGGCCCAGCGCG +TTCACCGCAATGCCACCCGCGAAGTCGATATACTCTTTCCCCTGCTGATCCCACAAGCGCGAACCTTCGC +CACGTACCGGTATAAAGGGTGCCGGAGCGTAAACAGGTATCATCCATTCATCAAAGTTTTCACGCGTAAT +TGGCTGAGACATAGCGACCTCTACAGTAAATAATTCGTTATTTATATGTTAATAATAAGTAATGTTTGCG +CTGTAAATGTAGATTGCAGGGTTCGTGCCAGCCAGTGATAAAAGTGCATAAACGGCGGAGGCTAACTGGA +AATCAAGGAGTTATAACCAAACCATATGCATTTAAAGTGCATATAAAGTGAATACGTTTGCGATGTGGGT +GAATAAAAAGAATAAAAAACGCAATGTTATGCAGAAGTAAAATATAATTCTGGAATTGTGATCATTGACG +AAATTTACTGGAAATTACTGCGCCATTCTGACGCAGCGCGCACCAAAAGCGGGCATTTTTTGCGCCATCG +TTGACATCATTAACAACCATCGATCAAATCACTTAACAACAGGCGGTAAGCAACGCGAAATTCTGCTACC +ATCCACGCACTCTTTATCTGAATAAATGGCAGCGACTATGAAATTTGTCTCTTTTAATATCAACGGCCTG +CGCGCCAGACCTCACCAGCTTGAAGCCATCGTCGAAAAGCACCAACCGGATGTGATTGGCCTGCAGGAGA +CAAAAGTTCATGACGATATGTTTCCGCTCGAAGAGGTGGCGAAGCTCGGCTACAACGTGTTTTATCACGG +GCAGAAAGGCCATTATGGCGTGGCGCTGCTGACCAAAGAGACGCCGATTGCCGTGCGTCGCGGCTTTCCC +GGTGACGACGAAGAGGCGCAGCGGCGGATTATTATGGCGGAAATCCCCTCACTGCTGGGTAATGTCACCG +TGATCAACGGTTACTTCCCGCAGGGTGAAAGCCGCGACCATCCGATAAAATTCCCGGCAAAAGCGCAGTT +TTATCAGAATCTGCAAAACTACCTGGAAACCGAACTCAAACGTGATAATCCGGTACTGATTATGGGCGAT +ATGAATATCAGCCCTACAGATCTGGATATCGGCATTGGCGAAGAAAACCGTAAGCGCTGGCTGCGTACCG +GTAAATGCTCTTTCCTGCCGGAAGAGCGCGAATGGATGGACAGGCTGATGAGCTGGGGGTTGGTCGATAC +CTTCCGCCATGCGAATCCGCAAACAGCAGATCGTTTCTCATGGTTTGATTACCGCTCAAAAGGTTTTGAC +GATAACCGTGGTCTGCGCATCGACCTGCTGCTCGCCAGCCAACCGCTGGCAGAATGTTGCGTAGAAACCG +GCATCGACTATGAAATCCGCAGCATGGAAAAACCGTCCGATCACGCCCCCGTCTGGGCGACCTTCCGCCG +CTAATTTAGCAGCTCTCCTGGCTCAAACTGGGTCAGGAGAATTAACCTTGAGAAAAATCAACAAACTGTC +AGTAATGATTTGTTGCCTGCCGTCCTTTGTTATACCGTCTCTGCGTTTTTAGTTGTCTGACCACTTCTCT +ATTATCAAGTTTGATATAGGAAACTCCACGATGAACGCTGAGCGTAAATTTCTTTTTGCCTGTCTTATTT +TTGCGCTGGTCATTTACGCTATCCACGCTTTCGGTTTATTCGATCTGCTCACCGATTTACCCCACTTACA +GACACTCATCCGCCAGAGCGGATTTTTCGGCTATAGCCTCTATATTCTGTTATTCATCATTGCCACCCTC +TTGCTGTTACCAGGAAGCATACTGGTGATCGCGGGAGGAATAGTTTTTGGCCCGCTCTTAGGGACACTAC +TCTCATTAATTGCCGCCACGCTGGCCTCCTCGTGCTCATTCCTGCTGGCGCGCTGGCTGGGACGTGATTT +ACTGCTGAAATACGTTGGCCATAGCAATACCTTCCAGGCCATTGAAAAAGGCATTGCGCGTAACGGTATT +GATTTTCTTATTCTGACCCGCTTAATCCCGTTGTTTCCTTACAATATTCAAAATTACGCTTACGGATTAA +CCACAATCGCCTTCTGGCCTTATACCCTTATTTCGGCACTCACGACCCTACCCGGTATTGTTATTTATAC +CGTGATGGCAAGCGATCTCGCCAATGAAGGCATTACGCTGCGCTTTATTTTACAACTCTGTCTGGCGGGC +CTGGCGCTGTTTATTCTCGTCCAGCTCGCAAAACTCTACGCCCGACACAAACATGTGGATCTGTCTGCTT +CGCGCCGCAGCCCACTTACTCACCCAAAAAATGAAGGATAGAACGATGTTGCAACATTATTCAGTGTCAT +GGAAAAAAGGACTGGCTGCACTCTGTTTACTGGCTGTTGCTGGGCTTAGCGGCTGCGATCAACAAGAGAA +TGCGGCGGCAAAAGTGGAATACGACGGACTTTCGAACAGCCAACCGCTGCGTGTCGATGCCAATAACCAT +ACGGTAACCATGCTGGTGCAAATTAATGGTCGTTTCCTCACCGACGACACTCGTCACGGTATTGTGTTTA +AAGATGGCTCCAACGGACATAAATCGCTGTTTATGGGTTATGCGACCCCGAAAGCATTTTATGAAGCCCT +GAAAGAGGCAGGTGGTACGCCGGGCGAAAACATGACGATGGATAATAAAGAAACGACTCATGTCACAGGC +AGCAAACTGGATATTTCGGTCAACTGGCAAGGGGCGGCAAAAGCGTATTCCTTCGATGAAGTGATTGTTG +ACAGTAATGGCAAGAAACTGGACATGCGCTTTGGCGGTAATTTAACGGCAGCAGAAGAGAAGAAAACGGG +TTGCCTGGTGTGTCTGGATAGCTGCCCGGTCGGCATCGTCAGCAATGCAACATACACTTATGGTGCGGTT +GAAAAACGTGGTGAAGTTAAATTCAAAGGCAATGCCTCAGTTCTCCCGGCGGATAACACGCTGGCAACGG +TTACCTTTAAAATCGCCGAATAAAGCCAGGATAAAGGATGATGATGATGCAATCGCGAAAAATCTGGTAC +TACCGTATAACCCTCATCATCCTGTTGTTCGCTATGCTGCTGGCATGGGCGCTGCTTCCCGGCGTCCATG +AGTTTATCAATCGCAGCGTTGCGGCGTTTGCCGCCGTGGACCAACAGGGTATAGAACGCTTTATTCAGTC +TTACGGCGCACTGGCGGCAGTTGTCTCGTTCTTGTTGATGATTTTGCAGGCCATTGCTGCACCGCTACCT +GCGTTTTTGATCACCTTTGCCAATGCGTCGCTGTTTGGCGCGTTCTGGGGCGGCTTGCTGTCGTGGACCA +GTTCGATGGCCGGCGCGGCGCTGTGCTTTTTTATCGCCAGAGTGATGGGCCGCGAAGTGGTGGAAAAATT +AACCGGCAAAACCGTGCTTGACAGTATGGACGGCTTTTTCACTCGCTACGGCAAACACACCATTCTGGTC +TGTCGGTTATTGCCTTTTGTCCCTTTCGATCCAATCAGCTATGCTGCCGGTTTGACTTCAATACGTTTTC +GCTCGTTTTTTATCGCCACCGGGCTTGGTCAGTTACCGGCAACTATTGTTTATTCCTGGGCGGGCAGCAT +GTTAACAGGCGGTACTTTCTGGTTTGTCACCGGACTGTTTATTCTGTTTGCCCTGACCGTGGTGATTTTT +ATGGCGAAGAAAATATGGCTTGAACGCCAGAAGAGGAATGCCTGATGGGTTTACCGCCGCTTAGCAAAAT +TCCTTTAATTTTACGTCCACAGGCGTGGCTGCATCGTCGCCATTACGGCGAGGTGCTAAGCCCCATTCGC +TGGTGGGGGCGGATCCCGTTTATCTTTTATCTGGTGTCGATGTTTGTTGGCTGGCTGGAGCGCAAACGCT +CACCGCTCGATCCGGTAGTACGATCGCTTGTCAGCGCGCGCATTGCGCAAATGTGCCTGTGTGAGTTTTG +TGTGGATATCACCAGTATGAAAGTCGCCGAGCGCACCGGCAGCAGCGATAAACTGCTGGCAGTGGCTGAC +TGGCGGCAAAGCCCGCTCTTTAGCGATGAAGAACGGCTGGCGCTGGAGTACGCCGAAGCCGCAAGCGTAA +CGCCGCCAACGGTCGATGATGCCCTGCGTACCCGACTGGCTGCGCATTTTGACGCTCAGGCGCTCACCGA +ACTGACGGCATTGATCGGCCTGCAAAATCTGTCAGCCCGTTTTAATTCTGCCATGGACATTCCCGCTCAG +GGGCTGTGCCGTATTCCTGAAAAACGTTCTTAAGGAGAGATGATGCGCCATTGTGGGTGGTTGCTGGGAT +TGTTATCGCTGTTTTCTCTGGCAACACATGCCAGTGACTGGCAAGAAATTAAAAATGAGGCCAAAGGGCA +AACCGTCTGGTTTAACGCCTGGGGCGGCGATACCGCAATTAACCGCTATCTCGACTGGGTGAGCGGCGAG +ATGAAAACCCATTACGCTATAAACCTGAAGATTGTCCGTCTGGCGGATGCCGCAGACGCGGTGAAGCGCA +TTCAGACCGAAGCCGCAGCCGGACGTAAAACGGGCGGCTCGGTGGATCTGCTCTGGGTGAACGGCGAAAA +CTTCCGCACCTTAAAAGAGGCCAATTTATTACAAACGGGCTGGGCGGAGACTCTGCCCAACTGGCGCTAT +GTCGACACACAGCTGCCGGTGCGGGAAGATTTTTCTGTGCCGACACAAGGTGCGGAATCGCCCTGGGGCG +GCGCACAACTGACGTTTATCGCCCGCCGCGATGTTACGCCACAGCCACCACAAACGCCGCAAGCCTTACT +GGAGTTTGCTAAAGCCAATCCCGGCACGGTTACCTATCCGCGCCCACCGGACTTTACCGGCACGGCGTTT +CTTGAACAGTTGCTGATTATGCTGACGCCCGATCCCGCCGCATTAAAAGAAGCGCCGGACGATGCGACTT +TCGCCCGTGTCACTGCTCCCTTGTGGCAATATCTTGATGTGCTGCATCCGTATTTGTGGCGCGAAGGAAA +GGATTTCCCGCCTTCACCCGCGCGGATGGATGCTCTGCTGAAAGCCGGCACATTGCGCCTGTCGCTGACC +TTTAACCCCGCGCATGCGCAGCAAAAAATCGCCAGCGGCGATTTGCCTGCAAGCAGTTACAGTTTTGGCT +TTCGCGAGGGGATGATTGGCAACGTGCATTTCGTCACCATTCCTGCCAACGCGAATGCCAGTGCTGCGGC +GAAGGTAGTTGCCAATTTCCTGCTCTCACCCGATGCGCAACTGCGTAAAGCAGATCCCGCTGTCTGGGGC +GATCCTTCTGTTCTCGATCCGCAAAAACTGCCTGACGGGCAGCGCGAATCATTGCAATCAAGAATGCCGC +AGGATCTGCCGCCGGTACTGGCTGAACCGCACGCAGGTTGGGTAAATGCGCTGGAACAAGAATGGCTACA +CCGTTACGGTACGCATTAATCTTTTTGCTGTGGGCGATGGTGGCGGTGATTTATGCACCGCTGATCCCGG +CAGCTCTCACGCTGATATCGCCTGCTTTGTCGTTGACACACTGGCAGGCGTTATTTGCCGATCCACAGTT +ACCGCAGGCATTACTGGCAACGCTGGTGTCGACAACCATCGCGGCGGTCGGGGCATTGTTGATTGCCCTG +CTGGTGATTGTGGCGCTGTGGCCTGGGCCGAAATGGCAGCGTATGTGCGCCCGTCTGCCGTGGCTGCTCG +CCATTCCCCATGTGGCTTTTGCCACCAGCGCCCTTCTGCTCTTTGCTGACGGAGGGCTGCTTTATGACTA +TTTCCCGTATTTCACTCCGCCAATGGACCGATTTGGCATCGGTCTGGGCCTCACCCTTGCAGTGAAAGAA +AGCGCATTTCTGCTGTGGATCTTAGCAGCAGTATTGAGCGAAAAATGGCTGTTGCAGCAGGTCATTGTGC +TGGATTCGCTGGGCTACAGCCGCTGGCAATGCCTGAACTGGCTGCTGTTGCCCTCCGTCGCGCCTGCGCT +GGCAATGGCGATGCTGGCGATTGTTGCCTGGTCGCTGTCGGTCGTGGATGTGGCAATTATTCTCGGGCCA +GGTAATCCCCCGACGCTGGCGGTAATTAGCTGGCAGTGGTTAACCCAGGGCGACATTGACCAACAAACAA +AAGGCGCGCTTGCCAGCCTGCTGTTGATGCTGTTACTCGCCGCCTACGTTTTGCTGAGCTATCTGCTATG +GCGCAGCTGGCGGCGCACTATTCCCCGCGTAGATGGCGTTCGCAAGCCTGCCACGCCTTTATTGCCGGGC +AATACGCTGGCGATTTTTTTACCCTTAACCGGTGTGCTGTGTGTGGTTCTGCTGGCGATCCTCGCGGATC +AGTCGACGATCAATAGTGAAGCGCTCATCAACAGCCTGACAATGGGGCTGGTGGCGACATTCATCGCTTT +GCTCCTGTTACTGCTGTGGCTGGAATGGGGGCCACAGCGTCGCCAGTTGTGGCTATGGTTGCCCATTTTA +TTACCTGCTCTGCCACTGGTGGCGGGCCAGTACACGCTGGCGCTATGGCTGAAACTGGATGGAAGCTGGA +CGGCGGTGGTCTGGGGGCATCTGCTGTGGGTGATGCCGTGGATGCTGTTTATCCTGCAACCCGCCTGGCA +GCGCATTGATTCACGGTTAATTTTGATTGCGCAAACACTGGGCTGGTCGCGGGCCAAAATCTTCTTTTAC +GTGAAATGCCCACTCATGTTGCGCCCTGTGCTGATTGCCTTCGCGGTGGGATTTGCAGTCGGTATTGCGC +AGTATATGCCAACGCTGTGGCTGGGCGCGGGGCGTTTTCCGACGCTCACCACTGAGGCGGTGGCATTAAG +CAGCGGCGGCAGCAACGGTATTCTCGCCGCCCAGGCTTTATGGCAACTGCTATTACCGCTTATTATTTTT +GCCCTGACCGCGTTAGTCGCAAAATGGGTAGGTTATGTCAGACAAGGACTCCGCTAATGCTCTGCGTGAA +AAATGTTTCGCTACGTTTACCAGAAAGCCGCTTGCTGACAAACGTTAACTTTACGGTGGATAAAGGTGAC +ATTGTCACGTTAATGGGGCCGTCTGGCTGTGGAAAATCCACTCTGTTTTCATGGATGATTGGTGCACTGG +CCGAACAGTTTTCTTGTACAGGTGAGCTATGGCTCAATGAGCAACGGATTGACATCCTACCCACCGCACA +GCGTCAGATTGGCATTCTTTTTCAGGATGCACTGTTATTTGACCAGTTCAGTGTCGGGCAAAATTTACTG +CTGGCGCTACCGGCGACACTTAAAGGGAATGCCCGACGTAATGCCGTGAATGATGCACTTGAGCGTTCAG +GCCTTGAGGGAGCTTTCCATCAGGATCCTGCCACTTTGTCTGGCGGTCAGCGAGCGCGCGTTGCTCTACT +ACGCGCCCTTCTCGCCCAACCAAAAGCGTTACTCCTGGATGAGCCATTCAGCCGTCTTGATGTGGCTCTG +CGCGATAATTTTCGCCAGTGGGTGTTCAGCGAAGTTCGCGCCCTGGCGATCCCCGTCGTTCAGGTAACGC +ACGATCTCCAGGATGTTCCTGCTGATAGTTCTGTTCTGGATATGGCGCAGTGGTCAGAAAATTACAACAA +ACTGCGATAACGCAAAGTTTTTCTCAATGCGTCAGTTCAGAATGGCGCACTCAAAACTACAATGTCGGGA +TTTTCGATGAAACGTGTTTCTCAAATGACCGCGCTGGCAATGGCTTTAGGGCTGGCTTGCGCTTCTTCGT +GGGCCGCTGAACTGGCGAAGCCTCTTACACTTGACCAGCTTCAACAACAAAATGGCAAAGCGATAGATAC +TCGCCCCAGCGCGTTTTATAACGGCTGGCCACAAACCTTAAATGGCCCTTCTGGTCATGAACTTGCCGCC +TTAAACCTCTCTGCCAGCTGGCTTGACAAAATGAGCACCGAACAGCTCAACGCGTGGATCAAGCAACATA +ACCTGAAAACCGATGCTCCGGTGGCGCTGTACGGTAATGACAAAGATGTCGACGCCGTCAAAACGCGACT +GCAAAAAGCAGGTTTAACGCATATCTCCATCCTGAGTGACGCGCTAAGCGAACCTTCCCGTCTGCAAAAA +CTGCCGCATTTTGAGCAGCTGGTTTATCCGCAATGGCTGCACGACCTGCAACAAGGTAAAGAGGTTACGG +CGAAACCTGCCGGTGACTGGAAAGTCATTGAAGCGGCCTGGGGCGCTCCTAAGCTTTACCTTATCAGCCA +TATTCCCGGCGCTGACTACATCGATACCAACGAAGTGGAAAGTGAACCGCTGTGGAACAAAGTTTCTGAT +GAACAACTAAAAGCGATGCTGGCAAAACACGGCATTCGCCATGACACCACGGTCATTCTGTATGGGCGTG +ACGTATACGCTGCAGCGCGTGTGGCGCAGATTATGCTTTATGCTGGCGTGAAAGATGTGCGCCTGCTGGA +TGGCGGCTGGCAAACCTGGTCCGACGCGGGACTGCCTGTTGAGCGCGGAACGCCACCGAAAGTGAAAGCG +GAACCGGATTTCGGCGTGAAGATCCCGGCACAACCGCAGTTGATGCTCGATATGGAACAGGCCCGTGGAC +TGCTGCATCGCCAGGATGCATCGCTGGTGAGCATTCGTTCGTGGCCAGAATTTATCGGTACGACCAGCGG +TTACAGCTATATTAAACCAAAAGGTGAAATAGCCGGCGCACGTTGGGGACACGCTGGTAGCGACTCGACG +CATATGGAAGATTTTCATAACCCGGATGGCACCATGCGCAGCGCCGATGATATTACCGCTATGTGGAAAG +CGTGGAATATCAAACCAGAGCAGCAAGTTTCATTCTACTGCGGCACCGGCTGGCGCGCGTCCGAAACCTT +TATGTACGCACGCGCCATGGGTTGGAAGAATGTTTCCGTGTATGACGGCGGCTGGTACGAATGGAGCAGC +GATCCAAAAAATCCGGTAGCAACCGGTGAACGCGGCCCGGACAGTAGCAAATAACATTGCAATTACTGAC +GCTGGAGCGACTTCAGCGTCAGATACCCACTCCACACCCGCGTAAAGGTCGTCATCCAGCACAACGCACC +GAAGATCCACGCAAACCACGCAAACCATGCAGGGAATAAACATCCCAGCACAAACAGTAAGATCGTTTCT +GTGCCTTCGGTTAATCCCCCCAGATAGTAAAACGACTTATGTGCATAACCGGGGTTATCAATCTGATGTT +TTGCTGCCAGTGCAGCAAAGGCGAGAAAACTGCTGCCCGTGCCGATAAACGCAAACAACAACCAGCCGCC +TGCCAGCGCATTTTGCTCCGGTGCAGCAAGAATAAAGCCAAACGGCACCAGCGCGTAAAAGAGAAAATCG +AGAGAAATATCAAGAAAGCCGCCCGCGTCGGTAAGCTCTCTGCGCCGCGCCAGCGCACCGTCCAGACCAT +CAAGCAGCCTGTTCAACAAAATGACGACTAGCGCCGCCAGATACCAGCCCAGCGCCAGAAACGGCAGAGC +CAGCACGCCGATGGCAAATCCCACTAATGTTAAACCATCTGGCGTAATGCCCGGTTTATCAAGAACCCGC +ACGCACTGATGCAACAACGGTTTAATCCGGGGATGAAGATGGCGGTCTAGCACAGGCACTCCTTAAATAT +AAAGCCTTTCTGATTGAGCAACAGTGCGGATATTATGGCATTTTTCGCTTATCTGCCCGTGTGTAATTTA +TGAAAATGATTGAAGTTGTTGCCGCCATCATTGAACGTGATGGCAAAATTTTACTCGCGCAACGCCCCGC +CCAGAGCGATCAGGCGGGATTATGGGAGTTTGCCGGTGGTAAAGTCGAGCCGGATGAAAGTCAGCGGCAG +GCGCTGGTGCGTGAGTTACGCGAAGAACTGGGCATCGAAGCAACTGTGGGTGAATATGTTGCCAGCCATC +AGCGAGAAGTTTCGGGGCGGATTATCCATCTTCATGCCTGGCACGTACCCGACTTCCACGGGACGTTACA +GGCACATGAACATCAGGCGCTGGTCTGGTGCTCACCTGAAGAGGCGCTGCAATATCCGCTGGCCCCTGCT +GACATTCCATTATTAGAGGCGTTTATGGCTTTACGCGCCGCCAGACCAGCGGATTAGTGCTAAGGGTTTT +GTCATCACGCTGGCATTGCAGCAGTATTCCTTCGGCTTTAATTACCGCCCCTTCAGAATAATTTTGATCC +TGATAAACGCAGCACTGAGTACAGGGCTGCGCTGACTGCCCGCCTGAACTGAACACTTCTGGCGGTACGT +TTACCTCCACGTCCGGACGATAATGCGGGTTAGCCAGTGCAATTAATGGAAATGCTAATACTACGGCGAA +CAATGCTCGACTCACAGGGAACTCCTTAACGTTATTGTCTCTGCTACTGATAACGGTAGCCGGGTGGCAA +AACTTTAGCGTCTGAGTTATCGCATTTGGTTATGAGATTACTCTCGTTATTAATTTGCTTTCCTGGGTCA +TTTTTTTCTTGCTTACCGTCACATTCTTGATGGTATAGTCGAAAACTGCAAAAGCACATGACATAAACAA +CATAAGCACAATCGTATTAATATATAAGGGTTTTATATCTATGGATCAGACATATTCTCTGGAGTCATTC +CTCAACCATGTCCAAAAGCGCGACCCGAATCAAACCGAGTTCGCGCAAGCCGTTCGTGAAGTAATGACCA +CACTCTGGCCTTTTCTTGAACAAAATCCAAAATATCGCCAGATGTCATTACTGGAGCGTCTGGTTGAACC +GGAGCGCGTGATCCAGTTTCGCGTGGTATGGGTTGATGATCGCAACCAGATACAGGTCAACCGTGCATGG +CGTGTGCAGTTCAGCTCTGCCATCGGCCCGTACAAAGGCGGTATGCGCTTCCATCCGTCAGTTAACCTTT +CCATTCTCAAATTCCTCGGCTTTGAACAAACCTTCAAAAATGCCCTGACTACTCTGCCGATGGGCGGTGG +TAAAGGCGGCAGCGATTTCGATCCGAAAGGAAAAAGCGAAGGTGAAGTGATGCGTTTTTGCCAGGCGCTG +ATGACTGAACTGTATCGCCACCTGGGCGCGGATACCGACGTTCCGGCAGGTGATATCGGGGTTGGTGGTC +GTGAAGTCGGCTTTATGGCGGGGATGATGAAAAAGCTCTCCAACAATACCGCCTGCGTCTTCACCGGTAA +GGGCCTTTCATTTGGCGGCAGTCTTATTCGCCCGGAAGCTACCGGCTACGGTCTGGTTTATTTCACAGAA +GCAATGCTAAAACGCCACGGTATGGGTTTTGAAGGGATGCGCGTTTCCGTTTCTGGCTCCGGCAACGTCG +CCCAGTACGCTATCGAAAAAGCGATGGAATTTGGTGCTCGTGTGATCACTGCGTCAGACTCCAGCGGCAC +TGTAGTTGATGAAAGCGGATTCACGAAAGAGAAACTGGCACGTCTTATCGAAATCAAAGCCAGCCGCGAT +GGTCGAGTGGCAGATTACGCCAAAGAATTTGGTCTGGTCTATCTCGAAGGCCAACAGCCGTGGTCTCTAC +CGGTTGATATCGCCCTGCCTTGCGCCACCCAGAATGAACTGGATGTTGACGCCGCGCATCAGCTTATCGC +TAATGGCGTTAAAGCCGTCGCCGAAGGGGCAAATATGCCGACCACCATCGAAGCGACTGAACTGTTCCAG +CAGGCAGGCGTACTATTTGCACCGGGTAAAGCGGCTAATGCTGGTGGCGTCGCTACATCGGGCCTGGAAA +TGGCACAAAACGCTGCGCGCCTGGGCTGGAAAGCCGAGAAAGTTGACGCACGTTTGCATCACATCATGCT +GGATATCCACCATGCCTGTGTTGAGCATGGTGGTGAAGGTGAGCAAACCAACTACGTGCAGGGCGCGAAC +ATTGCCGGTTTTGTGAAGGTTGCCGATGCGATGCTGGCGCAGGGTGTGATTTAAGTTGTAAATGCCTGAT +GGCGCTACGCTTATCAGGCCTACAAATGGGCACAATTCATTGCAGTTACGCTCTAATGTAGGCCGGGCAA +GCGCAGCGCCCCCGGCAAAATTTCAGGCGTTTATGAGTATTTAACGGATGATGCTCCCCACGGAACATTT +CTTATGGGCCAACGGCATTTCTTACTGTAGTGCTCCCAAAACTGCTTGTCGTAACGATAACACGCTTCAA +GTTCAGCATCCGTTAACTTTCTGCGATAGCAGCAGATATGCCAGTAAAGAAATCCCATTTGACTATTTTT +TTGATAATCTTCTTCGCTTTCGAACAACTCGTGCGCCTTTCGAGAAGCAAGCATTATATAATGCCAGGCC +AGTTCTTCTTCAATTGTCCCGTTTTGAAAAGCTGTGCTTGATATCGAGATCATCCATGATAATTCCGCCG +CCCATATTAGCTTCGCCGAGGATTTACCGGAGCTATGATTAGCGCAATCAGAGATATAGTCTGAGGGAAA +AACAGCAAATTTATTCAACAAGGCGATAACCTGCTCTGGGGCTTCCTCCATGTTTGCTTTAAAGGTATTG +GCTCCATGGTCGCCAGAAAGAAAATGCTCCATTAAGGCACAATAACTTTCGCTATCTTCGATACCCCATT +GATCCTCTAAAGACTCGCGTCTTTTACTTATGATATCGATCGAGTCAAAAGGAAGCACATGATATTGGAA +GGTATCTTTGCCAGGTTCAGGCTTTCGCGGCCAGAACTCCAGCGTTTCAGACCATTGCTTATGATAGAAT +CGATAAGGTGCGATCAATTGTAGCGCCTGTAACTTCTCGATACTGAGCGGCTCAATACCTTTAGCCTGAT +AATAATGCAGTTGTTCTTTTTTTGCTTTAAAACCGGCCCGAACAATAAGCCCCATCATAATTAATAGATA +AAGAAAAGAGCATCCCGCGGTAATCAGGCCTCTTTCATTCAAACCGTTGGATGTTATCGCTGCGAACACA +AACATTACAGCGACAACACATGTTAAATAAAACCCCCACTTACAAAGCAGCATGGCCTTATTTTCTTTAA +TCATCCGTTCAAAATTACTATTAAATATTTCCCAGCCATTAAAAGAATACTTCTCGCTCCCAGGATGGTT +TTGTAATAAAACTTTTTTCATCACATTCCCTGTTATTACATACTTTAGAGGCGATAATTTTATCCATGCA +AAAAAAATATCCAACGAATTTTCTTGATCCGCTGGATATTTCAGAATATGACTCGAATAGCACGAAAGAT +TCACTCGCTTACGCTATCGCCCCGCTTCCGACTTCATCTGCTGGCGGACTTTTTTTCGCACTACGTTTAC +GCGGTGCAGCCTTTTTCTTATCAGCACTGCCACCACTGCCCGGAGCCACAATGCCGCGAAACTGCCGCAC +CGGCGTACGTTTGGCTTGATCAATAAGCTGATATAGCGTCCCCACCAGCGGCTGCATAAAGTCCTGATAG +CGACACTGCTTTTCGCTGATTTGCGTCAGCACCGATTCCCAGTGCGCGGTCATGTCCGGTCGCGTCGCCA +TCTCCGGCAGCGAATGGAATAGCGCTTTTCCGGCGTCGGTGGAGTGGATATAGCGCCCTTTTTTGGTCAG +GAAACCACGCTTGAACAACAGTTCAATAATCCCGGCACGCGTTGCCTCTGTCCCCAGACCATCGGTCGCA +CGGAGGATCTTTTTCAGATCTTTATCCTGCACAAAGCGCGCGATCCCGGTCATCGCCGAAAGCAGTGTTG +CATCGGTAAAATGGCGCGGCGGCTGGGTTTGCCGCTCTACCACTTCACCTTTTTCACACAGCAACTCATC +GCCTTTCGCCACCACAGGCAGTGGCGTGCCGTCGTTTTCTTCATCGCGCTCTTTGCTGCCTAACAGCGTG +CGCCAGCCTGCTTCAGCAAGAAAACGCGCTTTAGCGACAAATTTGCCTTTGGCAATGTCCAGTTCGATAA +CACACTTGCGGAACACCGCATCCGGGCAGAATTGCATCAGATACTGACGGGCAATCAGGTTATAGACCTT +CGCTTCGTTCTCCGTCAGGTTGATCGCAGAACTCCGTGCGGTCGGAATGATGGCGTGGTGCGCATCGACC +TTTTTGTCATCCCAACAGCGGTTGCGTATATCTGGATCTACCACTGGCTGCGGCAACAGATCCGGTGCAT +GAACACTGATGGCATTCATCACCGCGTGGCGTCCGGCAAAATGTTCTTCTGGCAAATAGCGACAATCAGA +ACGCGGATAAGTGATTAGCTTGTGCGTTTCGTACAGTTTCTGGCAGATATCAAGCACGTTCTGCGCACTC +AGACCAAAACGTTTTGCCGCTTCAATCTGCAACGCTGAAAGCGAAAAAGGCAGCGGCGCGGATTCTGATT +CCCGTTTATCGTTATAGCTGGTGACAATAGCCGGTTGACCACTAATGCGGTTAACCACATGCTCCGCCAG +TGGACGATGTAACAAGCGCCCTTCTTCATCCTGGTACGGTTCACACGCTTCGCTCGGTTGCCAGATAGCG +GTAAACCGCTCATCGGCAGGTGTCACGATATGTGCTTTGACTTCAAAGAAGTCTTTCGCCACGAAGTTTT +CAATCTCTTCATCGCGGCGCACCACCAGCCCAAGCACGGGCGTCTGCACGCGTCCCACGGAAAGTACGCC +CTGATAACCGGCATTGCGACCGAGAATGGTATACGCACGGGTCATATTGATGCCGTACAGCCAGTCGGCA +CGCGCTCGCGCCAGCGCAGAAACGCACAGCGGTACAAACTCACTGTTGGAACGAAGACGGTCGATCGCCC +GCTCAACCGCCTGCGGGTTCAGGTCGTTTATCAAGCAACGCTGTACCTGCTGGCGCTTTTCCGGTGCCAG +TTGCAGATAGTCCAGCACTTCATCCACCAGCAATTGCCCTTCACGATCCGGGTCCCCGGCGTGAACGATT +TCGCTGGCTTCATGCAGGAACCGTTTGATGACGTTAAGTTGTTTGGTCACGGAGGGTCGGGGCTGTAATT +GCCACTTTTCCGGGACAATCGGCAAATCCGCAAGATTCCAGCGCGCATAGCGGCTGTCGTAGGCGTCTGG +CTGCGCCTGCTCAAGCAGGTGACCGATACACCAGGTCACCACCTGACCATTACCGCACTCGATAAAGCCA +TCGCCTTTCCGGTGCGGTTTGGGCAGGACATCAGCAATGGCGCGCGCCAGACTCGGTTTTTCGGCAATAA +ACAACCGCATTGAATTAACGAATCTCAACCATGGCACGACCGCCGCGCGCTGGCACCAGTTCGCCAATTG +CCGTCAGTTCAATGCCAAACTCGGCGGCTGTAGCTTTGACCTCATTTTCTGCTTCCGGCATGACCGCCAG +CAGCAAACCGCCAGAAGTTTGCGGATCACACAGCAGATCGCGCACTTCACGCGGCATTTCACCCATCAGA +TGACCGTAGCTGGCAAAGTTACGTTCAGTGCCGCCAGGTACTGCGCCCAACTTAATGTACTCTTCAACAC +CGGGGAGTTTCGGGATCGCTTCATAGTCGACGCGTGCCTGCACACCAGCCCCCTGACACATTTCGCTCAA +GTGGCCCAGCAGACCAAAGCCCGTAACGTCGGTCATCGCTTTTACGCCTTCGATGTTGGCAAAGGACGCG +CCTGCGATGTTCATCCGGCACATCACTTCCGTCGCCAGTCCCTGATGTTCTGGTTTCAACAGTGATTTTT +TCTCAGCCGTGGTAAGAACGCCGATCCCCAGCGGTTTCGTCAGGAACAGTTTGCATCCGGCTTGTGCGGT +ACTGTTTTTCTTCACCCGCTCGGTCGGTACGATCCCCGTTACCGCCAGACCAAAAATCGGCTCCGGCGCA +TCGATGGAGTGACCGCCAGCCAGCGCAATACCCGCCTGACGACATGCATAGCGTCCACCTTCGGTCACTT +CGCGGGCAATTTCTGGGGAAAGTTTGTTAATCGGCCAGCCGAGGATCGCAATCGCCATAATCGGTTTGCC +CCCCATCGCGAAGATATCGCTGATGGCGTTAGTCGCCGCAATGCGGCCAAAATCGAAAGGATTATCAACG +ATCGGCATAAAGAAGTCGGTGGTACTGATAACGCTGGTGCCATTGCCCAGATCGTACACCGCCGCATCGT +CGCGGGTTTCATTACCCACAAGCAAATTCGGATCAACAAACTTCGCCTGCTCACTATGCAGGATGGTTTC +CAACACTTTTGGGGAAATTTTACAGCCGCAACCAGCTCCGTGGCTGTATTGGGTCAAACGAATCGAGTTC +TCGCTCATGGACATCTCCTGTCAATGCAATCCGGGTATGGTAACCCTCATTCCGTGAAGTGATAAGTGAG +AGTGTCTGAATTCCTGCGCCTTTGCTCACAATCCAGACAGTTTCGCGACAATTATCAGAAATAAGTTACA +AACGGCGTCGGGTCCGGGACGTTAATCGACGTAGATGCTTTCAGCTGCGGCGTACCGAGGTAGAGAAAAC +CGACAATTTTATCCTGCTCACGGCAACCGAATGCTTCACGCACTACCGGACTTTCAGTTAATGCGCCACT +GCGCCAGATGCCGCCAAACCCCTGGGCAACTGCTGCCATTTGCATCGCCATGACCGCGCATCCGGCAGAC +ATTTCCTGTTCCCAGCGCGGGACTTTATGATTCTCTTCGCATTTCGCCACCACCGTGATGATGAGCGGTG +CGCGGAACGGCGCATTACGGGCTTTGTCGATAGCTTTGTCATCACTACCGGCAGCAATCGCCCCCTGTTC +CAGTACGGCGCTGAAACGCTCGCGCCCTTCCCCTTCAATCACAAAAAAATGCCACGGTTGCATGGACTTA +TGGTCCGGCGCACGCATACCCGCACGCAGGATGTTTTGCAGTTGTTCACCCGTTGGCGCGGGTTCAGCCA +AGCGGGAGGCGCTACGGCGATTGATCAATAGTTCGAGTGCATCCATTTGATTAACTCCTGTCGTGATATT +TATTCACAAAATTAACACGAGAGTGGATTTTGTTACAGCACAGTCCGCAATTCCTGCTGACAAGTACCGG +TTGGGTCATTACGATAACCACATCTATTGCGCCTGTGACAGGTGTGACCTTAAGTTGGGAGAATACATGC +GAACCCTTTGGCGATTTATTGCCGGATTTTTTAAATGGACGTGGCGTCTGCTGAATTTCGTCCGTGAAAT +GGTACTTAACCTGTTCTTTATTTTCCTCGTACTGGTTGGTGTGGGGATTTGGATGCAGGTCAGTGGTGGT +GATTCGAAAGAAACGGCCAGTCGTGGCGCACTGCTGCTGGACATTTCTGGTGTGATCGTCGATAAACCCG +ACAGTTCTCAGCGGTTTAGTAAATTAAGCCGCCAGCTGCTTGGTGCCAGTTCCGATCGTCTGCAGGAAAA +CTCACTGTTTGATATCGTCAACACTATTCGCCAGGCGAAGGACGACCGCAATATCACCGGTATTGTGATG +GATCTGAAAAACTTCGCAGGCGGCGACCAACCGTCTATGCAGTACATCGGCAAAGCTCTGAAAGAGTTTC +GTGACAGCGGGAAACCGGTTTATGCCGTTGGCGAGAACTACAGCCAGGGGCAATATTATCTCGCCAGTTT +CGCCAATAAAATTTGGCTGTCTCCGCAAGGCGTGGTTGATCTGCACGGCTTTGCCACCAACGGTCTGTAC +TACAAATCGTTGCTGGATAAGCTGAAAGTTTCCACCCATGTGTTCCGCGTGGGTACGTATAAATCTGCCG +TTGAACCGTTTATTCGTGATGATATGTCACCGGCAGCCCGCGAAGCTGACAGCCGCTGGATTGGTGAGCT +GTGGCAAAACTATCTGAATACTGTTGCCGCTAACCGGCAGATCCCTGCTGAGCAGGTATTCCCTGGCGCG +CAAGGGTTGCTTGAGGGTTTAACCAAAACCGGTGGCGATACCGCGAAATATGCACTGGAAAACAAGCTGG +TCGATGCACTGGCATCGAGTGCGGAAATCGAAAAAGCACTGACCAAAGAATTCGGCTGGAGTAAGACTGA +TAAAAATTATCGCGCCATCAGTTATTACGATTACGCATTGAAAACGCCGGCAGATACCGGTGACAGCATC +GGTGTCGTCTTTGCTAATGGCGCAATTATGGATGGCGAGGAAACTCAGGGGAATGTTGGCGGTGATACCA +CTGCGGCACAAATCCGCGACGCTCGCCTTGACCCGAAAGTGAAAGCGATTGTCCTGCGTGTTAATAGCCC +AGGCGGCAGCGTTACCGCGTCTGAAGTGATTCGCGCTGAACTGGCAGCAGCCCGGGCAGCGGGTAAGCCT +GTGGTTGTATCGATGGGCGGCATGGCGGCATCTGGTGGTTACTGGATTTCCACGCCAGCTAATTACATTG +TGGCTAACCCCAGCACCCTGACCGGTTCTATCGGTATCTTCGGCGTGATCACCACCGTAGAAAATAGTCT +GGATTCGATTGGTGTTCATACTGATGGTGTCTCAACTTCACCGCTGGCGGATGTTTCTATCACCAGGGCA +CTGCCGCCGGAAGCGCAGCTGATGATGCAGTTAAGCATTGAGAATGGCTATAAACGCTTTATCACGCTGG +TTGCTGATGCGCGTCATTCGACGCCGGAGCAGATTGATAAAATTGCCCAGGGCCACGTCTGGACCGGTCA +GGATGCAAAAGCTAACGGGCTGGTCGATAGTCTCGGGGATTTCGATGATGCGGTCGCCAAAGCAGCAGAG +CTGGCAAAAGTGAAACAGTGGCATCTGGAATATTACGTTGATGAACCGACCTTCTTCGACAAAGTGATGG +ACAACATGTCTGGTTCTGTCCGGGCAATGTTGCCAGATGCGTTCCAGGCCATGTTACCTGCACCGCTGGC +CTCGGTAGCCTCTACCGTTAAAAGTGAAAGTGACAAGCTGGCCGCGTTTAATGACCCACAAAACCGTTAT +GCGTTTTGCCTGACCTGCGCCAACATGCGTTAAGTCTTGTACTGAGTGGCCGACAGATCGTCGGCCACAT +TATTTTTTACGTCGACGAATCCTCTTCCCGCTGTTTCGCCCCATATTTCCTTATCCGCATAGTATCAGGT +GCGCTCCCCCTGCCTCACGTATATACTTTTGCTCTTTCGATATCATTCATATCAATATCATGCAAAAGAA +ATCAATTTACGTTGCCTACACGGGCGGGACCATCGGGATGCAGCGTTCCGAGCAGGGTTATATACCGGTG +TCAGGTCATCTACAACGCCAACTGGCGCTGATGCCGGAATTCCATCGCCCGGAGATGCCAGATTTCACCA +TTCATGAATATACGCCGCTGATGGATTCTTCAGATATGACGCCGGAAGACTGGCAGCATATTGCTGAAGA +TATTAAAGCGCACTATGACGACTATGATGGTTTTGTCATTCTGCACGGCACCGACACGATGGCGTATACC +GCCTCTGCGCTGTCGTTCATGCTCGAGAATCTCGGTAAACCGGTCATTGTGACAGGGTCACAAATCCCGC +TGGCTGAGTTACGCTCTGACGGACAAATTAATCTGCTGAATGCGTTGTACGTTGCGGCGAATTATCCGAT +CAACGAAGTAACGCTCTTTTTCAATAACCGATTGTATCGCGGCAACCGCACTACCAAAGCCCATGCCGAT +GGTTTTGATGCGTTTGCCTCTCCAAACCTTCCTCCGTTACTGGAAGCAGGTATCCATATTCGTCGTTTGA +ATACGCCACCCGCCCCGCACGGTGAAGGGGAATTAATCGTTCATCCAATCACCCCACAACCAATTGGCGT +AGTGACGATTTATCCAGGGATTTCTGCTGACGTCGTGCGCAATTTTCTGCGCCAACCGGTGAAAGCATTG +ATTCTGCGCTCCTATGGCGTGGGTAATGCGCCACAAAACAAAGCCTTCCTGCAGGAATTACAAGAAGCCA +GCGATCGCGGTATTGTGGTGGTCAACCTGACACAATGTATGTCCGGTAAAGTGAACATGGGTGGTTATGC +CACCGGTAACGCCCTCGCCCATGCCGGCGTAATTGGCGGTGCAGATATGACTGTAGAAGCCACGCTAACC +AAACTGCATTACCTGCTTAGCCAGGAACTGGATACTGAAACCATTCGCAAGGCCATGAGCCAAAACCTGC +GCGGCGAACTGACGCCGGATGATTAAGGAGACTGTAATGCCCCCTCGCGCCCTGTTACTGGTCGATTTAC +AAAATGATTTCTGTGCTGGTGGCGCGCTCGCCGTGCCGGAAGGTGACAGTACGGTGGATGTCGCTAACCG +CCTGATTGACTGGTGCCAGTCGCGCGGTGAAGCGGTTATCGCCAGTCAGGACTGGCACCCGGCGAATCAC +GGCAGTTTTGCCAGTCAGCACGGTGTAGAGCCTTATACGCCAGGCCAACTCGACGGTTTGCCACAAACCT +TCTGGCCAGATCACTGTGTGCAGAACAGTGAAGGCGCACAATTACATCCGTTACTGCACCAAAAAGCGAT +CGCAGCGGTGTTCCATAAAGGCGAAAATCCTTTAGTTGACAGTTACAGTGCCTTTTTTGATAACGGCCGT +CGGCAGAAAACCTCTCTCGATGACTGGTTACGCGATCATGAAATCGATGAATTGATCGTTATGGGCCTGG +CTACTGACTATTGCGTGAAGTTTACCGTGCTGGACGCGTTACAGTTAGGTTATAAGGTAAACGTGATTAC +CGATGGTTGTCGTGGCGTGAATATCCAGCCCCAGGACAGTGCGCACGCGTTTATGGAGATGTCAGCAGCT +GGGGCAACGCTATATACGCTGGCAGACTGGGAAGAGACACAGGGGTAATTTTACGCTGGCCTACAATTCT +GTACTGGCATTGTAGGCCAAATAAAACACGTCAGTGGCACATCTGGCAATTGATGCCATCAACGAAAGAT +TTAATTCACCTCAGAAATCTCTTCCAACGACACCTTCCGCGTTTCGATGCCAAAAATGGAGAGAACCAGC +GCACAGAGCAATAACATAACACCAAGTACCATAAACACCGTGATCGACCCATAATGTGTTAATAATGCCG +CAACGCCATAGGGCGTGAAGACTGCGACGATCCGTCCGACGGCATTAACGAAACCCGAACCGCGCAGGCG +TAAATGCGTTGGCCAAAGCTCCGGGATATAAACCGCCGACGCGAAGCAAACATACATGTATAAAAAGAAG +ATCATCACCAGTCCATAGATTAAAATCGCCCACTCTGTAGTCTGAATTGAATAGATATAGCCTAACACGG +CAATAATAATAAGTAAGGTGGAGCCAAATAACCGACGAGGAAAATGATCAATAATTAATGCCGCAATAAA +TATTCCTACCGGAGCGCCAATCATAATAACAGCGGTCATTAATATTGATTTATCGACATCAATGCCGGAG +TTAACAAATATGGTCGGTATCCATACGGTGATGGTATAAAGCGAAATGTTCATTGCAATTAAAACAGTAA +TCGCGACTAATGTACGTCGTAACATTTCACCTTTAAACAGGAGCCAGAAAGTACCCTTGATTACTTTAAC +CTTGCTGTTGCTCTGATACGAAGTAAGCGGGGGTAAACGAATACTCTTCTCTCTTTCAATTTGCTGCTCT +ACTTCACGAAGTTGGCATTCTGCACCTGCGATTTGCCCTTTCCCTGCCAGCCATCGTGGCGACTCGATAA +AGTATTTACCTGAGAGAAACCAGGCTAACAGTATGCCAATACCACCCAGCAGAAACATTATTCGCCAACT +AAAAAAAGCGATAACCACCACGCCTATCGCCGCAGACAGCATGGGCGACCAGTTACCAACAAATGAGAGC +CGCGCGGACCATTTTCCACGCACCGTCGCGGGGATAAACTCCGTAAATGAGGCATAGCCAACCATAATCA +GCGCCCCCATTCCTGTTCCCATCAGGAAGCGAAAGAAGATGAGCCAGTACATATCAGGGACAAAAGCGGC +CCCTGTTGCAGCAATACCGACGATGAGAAGATTTATGCGAAACGCCCTGCGCCGCCCAAAGTAGTCACCA +ATAAACCCACCAGTAAGTGAGCCGATGAAATAACCAAACATTAATGCCGAGGTAAAGGCGGCATTGAGGA +AATTATTTGACCATCCATTGCTTACCAGCTTTGCTAAGACGACATTACCGGAGTAACTCAAAAACCCTGT +TAATAACAGACTAAAGCTTATAATACCAAATATACGATAATGAAACCGGGCCAAAGGCAAGCGGTCCAGT +CTTGCGCCAATTTGATCATATTGTTCCATTAGGTGCCTCGGATTTGCTAAAAAGGTAGCAATTGCGGCAA +ATTCACTTGCCGCATCTTTATCATCATTTTATTTCAAGGCGCAGGAACAAATAATATTGACAACGTGTGC +TTAAATTACCACACCAGCTGGATATTATTGTCTTTGCAAAATGCTATCCACTCTGCACCCGGTGATTTAT +CAGTTATTATGTAATTAATATGACTAAAATCAGCTAACTGGACAAAAGCTTTGCGATCAAACTTAGAGTG +ATCAACCAATAACGCAACTTCTGTCGCCTGACGGATCATTGTCTTTTTGATTTCAGCTTCCGCTTCATTA +GAGTCCAGCGCGCCGCTGTTAATATCAAGACCTTTACAACTCATTACCATGATATCGACATGATAGCGCC +TGATGATCTCTTTAGTAATTCTTCCTTGCAGTGAAAGTGTATTTTTGTTTAGTTCCCCACCCGTTGAAAC +GACTTTAATTTCTGACTGAGCCAGAACATGAATCGCTTCCGCCGAGTTGGTTAGCAACGTCAGGCCACTA +CGGTCCTGTAACAATTTGAGCAATTCCATTACGGTACTACTGGAATCGGCTGCCATGGTGGTTTTATTGT +CGATAAAGGGTAGTGCCTTGCGTGCAATAAGCTGCTTCTCTTCATAAAACGATGAAGCGCGCTTATAAAA +ATGGATATTCTCCGTCAACATCGCTGTATTTAAAACAGCACCACCATAGGTTCTGGTCAAAAAGCCTTCA +TCTTCCAGCTTCTCAAGATCGCGGCGAATGGTTTCTTCGGTTACCTGAAAAATCCCACTCAAATTTGAGA +CTGTCACCTTTTTATCGTTGGCAACCATTTGCTTAATTGCCTGAATCCTGTCTTTTGCCGCCACGATTAC +ACCCCTGTATCTTTTTACATCACATTAGCGCGATTATCGCATAACCGATGTTTACTTTCAAAATAACCTG +TTTGAATCACAGATTTTCATCACAGTTTTCACAGAAACAGAGGTGAATCGTGTTGAGTATTTAACGCTCC +AGGGCCTCTGCCATTTCCCTCATCAATGTTGCGTCTGCATCCGATAAGTTGATATTCAGTGCCGCGACAT +TTTCGCGTACCTGTTCCGGTGCAGTAGCCCCACTAAGAATGGAGATTAAATCACTCTGTTTTAATATCCA +CGCCAGTGCCAGAGTGGGAATTGTGCACTGATAACGAGCACAAAGTGGCTGCCACTGTTCAAGCATATCA +ATCACTTTCAGCATGTTTTCACGCTGGAACCAGACTTTATTTGCCCGAGCGCCGCCCGGAACGTAATCAC +GAGTGATGGTGCCGGTCAACAATCCCTGCTCTAGCGGGGAATAAACCTGAACCACAATGCCATTATCACG +ACATAGTGGCAGCAGTTCGTTTTCCATTGCCCGGTCGAGGATACTGTATTTCGCCTGAATAATATCCAGT +TCACCATATTGCAGATACTCGCGGATATGGTCAGCATCGACGTTAGCAGCGCCTATAGCGCGAATTTTCC +CTTCAGACTTTAACTCATTAAGCACTGCGACAGTTTCAGCGATCGGCGTAAAAAATGGCGGCACCGACTG +CCAGTGCGTCATGTAGATATCGATGTAATCAATACCCAGACGTTGCAAGCTCGCTGCTACCTCTTCGCGG +ATAGATTCCGGGGAAAGGTTTTTATACAACTGCCGATCGCCAACTTTGTTGAATAAACTTCCTTTTCGTT +CCCAGACAATGCCGCATTTGGTTTCTACTACAACCTGTTCACGGGGCAGTTTTTTTAACGCCTGACCGAC +GATAACTTCACTATTGCCAAAGTTATATCCTGGCGCAGTATCAATCAGATTAATGCCACAACGATGGGCT +TCAAGAATCGTATCAATACATATTTGCCGATCGAGATCGCCATTCCATGCAGGACCGCCGCCAATGGCCC +ATGTCCCCAACCCCATTCGCGAAAGCGTAATATCCGTTGTGCCTAAAGGTATCTTTTTCATTTGCCTTCA +TTATCCTTCGTATTCTTCCAGCAATTGTTCGACCAGCTTTCTGTTTTTTACGCCGGTGGTGGCACCGACG +CTTAGAACCGAGATAGCCGCCGTTGCATTGGCAAAGCGTGCGCATTCACGCAGATTTTTGCCTTCTAACA +GTGCCGCAATAAAACCTGAAGCAAAGTTATCGCCCGCGCCAATGGTGTCGATGGCGGTTATTCCTGCGAC +CGCCGGCACCTTCATCGTCATGTCACCACGCTTGATAAAGCAGCCGTCTTTACCCGTTTTAATCACCACC +GTTTTTACGCCGCACGCAAGAAAGCAGTCAGCAATTTCATCCAGTGTCTCTTTCCCGGTGAGTAATTTTG +CCTCGGCAAAATTAGGAAACAGATAATCGACATAACTCAATGCTTCGCAAATATCATCCAGCGTTTCATT +CAACCGCGGTTTGATCATATCGGCACAGATAATCATCTGCCGGGCTTTAGCTTGCGTAAAAATTTCTGTT +AGCGCTTTACCATCCAATAGTGGACTGTTGAAAATACTGGCCAGTGATAATAATTTCGCCTGAGAAAACC +GCGCAAAATCAACATCGTCAATATTCAATTTCCACAGACTGCCATTACGGTTTGTGACAAACGTCCGCTC +GCCATCCTCCGTCACCAGTCCAACGTTAATAGAGGTATCTATGCTGACGTCCTGCTTCAGGCTTTGAATA +TCAATATTCTCTTTGCGGCAATGGTCGAGAATAAATTGCCCTGCGGCATCTTTACCAATACGACTCATTA +ATGCTGTGCGATGGCCCAGACGAGAAATAATTGTTGCTTCATTTATTGCATCACCCCCGGTGGTCATTGC +GATTCTTTCAAGAGGATAAGAATCCACATCAAAGATATTTTTACTGACCGGTTGCAATGGAATATCAACA +ATAGCGGCACCTATACAAATAACGTCGAGATTATCCATATCATTATTCCGCTTTGCCATCAGAACCGAAC +AGTTTAATTTTTTCCAATGCCCGTTCTTTTACAGCTTTACGTACTTCACGTTCTAAATGCAGGAAAGGCT +GATCCTGGTTTTCTTTCACTGCAACCATTGCGGCCTGACAGAGCTCCGTATGAATGTTGATTTTCGCGAT +ACCCAACGAAATTGCAGTTTTAATGTCGGCATCACTGATCCCCGATGCACCGTGCAAAACCAGCGGAACA +GAAACGGCATCGCGTACGCGTTTGACGACCTCAAAGTTCAATTGTGGCTCTGACGTATAAACCCCATGCT +GGTTGCCGATGGCGACAGCCAATGAATCACAGCCCGTACGTTCAACAAATTCAGCCGCCTGGTCAGGATC +GGTATAGTGATAGCCCGCCAGCGCTTCCTCATAAACGGTTTCATTACCGACATGCCCTAATTCCGCCTCT +ACCGGAATACCCAGCGGATGGAAGAAATCGACAGCCTCTTTGGTTAAACGAATATTTTCTTCGAAATCAA +ACGCGGAAGCATCACGCATTAATGAATTCATACCATGAGTCCAGGCGTTATGAATAATCTCCATACTCCG +ACCATGATCCCAATGAGTTATTACCGGCACCGTTGCTTTTTGTGCCATTGATACCATCATGTGAGAGAAA +TCTTCAAATGAGGTGTTACCGACAAAACCTGTACCAAAAGAAATAATAACCGGGGATTTCGCTTCTTCGG +CTGCGTCGATAACGCCCATCAACATTTCTGCATTCCATACGTTAAAATGGGCAATTGCATAATGTTTATT +TGTGGCATCGTTTTCCCAATATCTGATATCTGCGAGCATGTTCTGTTCTCCCGTATTAATTAATCGCTAA +TTTTAATAACGCCTTTAATAATGTCGCGTTTGTTGTTAACTGACTCTTCAAATGCCTGTTGTACATCCCG +ATAATCGTAAATATGCGTCACCATCGATTTCACATCGAATCGCCCTGAAGAAATAGCTTCAATCGTGACC +GGATAACGATTGGCATAGCGGAATACCGTCTGGATAGTGACTTCGCGATTGATTTTGAGGAAATTGATTG +CCGAATCGCCGGGTACAGTACCAACAATCATAATTTTACCGCCGCGCATTACCAGATAAGGTGCCTGTTT +AACGGTGACCGCAGAACCCGCTGTTTCGAAAACAATATCTGCGCCCATGTCTTCGGTAAATTGCTGACAG +CGTGCAATAGTGTCTTCTTTTGCGCCGTTAATAACCACTGTCGCACCAAGCTGTTCCGCCATTGCCAGAC +GTTTTTCCAGCACATCAACGACGGCAATTTCCGTTGCTCCCAGGCATTTGCACGCTTGCAACGTCATCAA +ACCAATACAACCTGCTCCCAGAATAATTATCTTCTTACCCGGTTTAACATCTGCCAGCATCGCGGCATGC +ATCCCGACTGCGGCAGGCTCCACCAGCGCCCCTTCCATCGTGTCCATATTGTCGGGCAGTTTGTAAGTAA +AGCTCTCCGGATGACACAGATAGTGCGTTAATGCGCCGCGGTAGTTGGGTTGTGTCGCCATAAAATCAAC +GTCCGGGCAGATGTTATATTTGCCTTCCAGACAGTAACGACAGTGACCGCAAGGAACGCCAGGTTCGATA +TTTACCCGATCCCCCGGTTTAAATTTGCGCACGCGGCTTCCCACAGCCACAACCGTCCCGGCGCATTCAT +GACCCAGGCCAATTTCTTGATTTGGGTCTTTAGGCGGAATAAACGGGCCTGATTCAAAACCATGTACATC +TGAACCACAAATACCGACATATTCTACTTTAATCAAAACTTCATCTTCTTTAGGCACTGGTATTTCTGCT +GAAATAATTTTCATTGTGCCCGGCACCTGCAATATTGCTTTTGAATTTTTCATTTTGAATCCACCCGTAT +TATTTATTGGCTACTGCATCAATACTTAAACTTTCAACGGAGACACCTTTGGTTTCGATTCCAATGGTGG +CGATAGCAATTGCGACAATAATTGAAACCGCCCCCAGAAGAATAAAGACTCCCGTAACGCCATAACTACT +GAGCAGCACTGCAACGGCATAAGGTGCGGCAATACCACTGATTCGCCCTACCGCATTCGCCAGACCGGAG +CCACGGAGTTTGGCCTCTGTCGGCCAGATTTCAGGGACATACACTGCCGAGGCATAGCAAACGTACATAT +AGACGAAAGTAATCAGGAAGAAACCAATCAACGTTATGAGCAACATACTGGTTTGCAGTGAATAGATATA +TCCGAGCACCGCAATCAGGATTAATAGCCCCACACCCATTGTTTTACGCGGAATTTTATCCATCACCAGC +ATGGCAATAAAAATACCAAATGGCGCGCCAAACATACTCATGGTATTTAAAACAATCGAGTCTTTTAAAT +TAATCCCCTGGGTCATGAATATTGTTGGCAACCAGTTAATTAGTGTGTACTGCACAACGTTCATGGCAAT +CAGCACACAAGAGCCTAATATCACGCGTTTCAGTAATACTCCTGTCAGTAAGGCTGAATACGGCACCGCT +TGTGGCGCTTTACCGTCATCAGCAATAACCACAGGCGGCAAAGGTTTACCCGTCTGGCGTATGACGCCTT +CTTCTATACTCCGCATGACTTTCTCGGCTTCCTGATACCGTCCGCGCGATTCCAGCCAGCGCGGGGATTC +AGGAAAGTAGCGCCAGGCCAGCGCCGTAGCGATAAGCGACAATATTGCAGGGATAAGCAGTTGTACCCGC +CAGTTCCACTCTGCACTAATCAGCGGCGTGAGTCCCATCGCTATCAATGAACAGAGCGGATATGACCAGT +TGCCAATAAAGGAAACCCGACTTGACCACGTTCCACGATTTCTACCGGGCATATATTCGGTGAAACCAGC +AAACAGCGTAACCAGTAAAGCTCCCAGCCCAACTCCCATCACAAAACGGCAGGCAATAAGGAAATCCATA +TTCGGTGAGAAAGCACCGACAACCATCGAGGCAATATGAATGGCCTCATAGAGGATGAACGCATTTCTGC +GACCGGTTTTGTCGCCAATGATGCCGCCCACCAGCGCACCGAGAAACATTCCGGCGGTCGTGATTGCTGA +GAATGTGGCTGTGGTGGAATTATCTGTCCAGCCCAACGCTTTCAGCTGCGCGAGGATCAAGCCACCAACG +GCATTACTCCAGCAGACAAGCAAGCCAAACGCGACGATGGCAAACATTGATGAATGCCAGCGGCAATCCG +GTAAGCGATCCAGCCGTGCACCACAATGCGGTTTTGTTATCTGTTCCATGCGATAACGTTCCTTCAGGAG +AGTGGTTATTCATCAAAGTCGTAAGTCATGATCACTTTGATTGCGGTTTTATCGACCATCGCATCAAACC +CTTCGCGCCATTGCGACAGGCCGATACGATGCGTGATCATCGGTTTGACTTTGATAGCGCCGCTGGCTAA +TAGCCTGATAGCGTTACGCCATGAGGTGGAGTCATAGGCCATATGCCCAATGATGCTTTTGTTCCAGGCG +GTAATGTCATTAATCGAGAAATCAAGAGGTTTGAAGCCCATTCCAACGCGTACCACTTCCCCGTTCGGGC +GGAGCATTTCGATGGCTTGTTTCAGTGCGATATTGGCACCGGAGCATTCAATCACCAGTCCCAGATTGTC +TTTGCCACAAATTTGCTGGCAGCGCGCCACCACATCTTCGGTAGAACCATTTACTACTGCCGTCGCACCC +AGTTCTTTTGCAACCGGGAAGCGGACCGCCACATCTTCTTGCAGACCAACGACGACGATATTTACCGCCC +CCATAATTCGCGCCATTTGTACGGAGAACAGCCCGAGTGGGCCAGTGCCGATGACGACCACATCCTGACC +AGGAAGGAATTTCGATTGCTGCGCGATGGATTTGTAGGCATTACAGATAGGGTCAAGTACGGCTGCGTCC +TCATAATCAACACCATCAGGGATTTCCCACAACGCATGACGATGAATTTTGAGAATTTCACCAGGAACCA +GACAATATTTGGAAAAACCACCGCCCCAGGTATTATTATCCAGACCAAGGTTTACTTTTTCTGTACAACA +CAGAAAATCACCTTGTTCACAGGCCGGACAAACACCGCAAACGTGACCGCTGTTATCCGATACGACGCGT +TGCCCCACTTTCCAGTCTTTGACTTTTTCACCAACCTGCGCAATACAACCTGCGAACTCATGGCCGCGGA +TAGAGTTAAACTCATCAGAACCGCTATCGACATTGTAGTGCTTCATGTCTGCGCCGCAGATTGCCGCGGC +TTTAATTTCAATCACTACATCTTCCGGGCCACACATGGGTTGTGGGACATCAATCATCTTGTAGCCGCCA +AAGGCCTTGCCAAACCGAGCCAGTGCTTTCATTGCGTCATCCTCTGTGTTTAGTTTTGCTTAGATGGCCA +TCATACTTACCCACATGATTTTTGAGGTCAACATTAAATCTGTAAAACACAGATAATGATCTGCGTTTTA +CAACTCAGATCACAATTACGCAGAAAATGGCTGGGTCTGTTACAGGTTGATGGAAGGCGGGGCGCAAAAA +GAGCAAATTCGAGAGGGATTACCGGCCAAATAGGTCTGAGACTTAAGTTCAGGAGAAGTCATTCAGGTGT +GAACGGGACGGCAAGAGATCGGACTGGGACTTAGCCAGGTCATGGCGAGATAATTGAGATGAGTCGTGGG +GTCATTGTTGGCTATCCCCTTCATAGCCGAGGCAAAAAGGGGATGAACCACTTACTTAAACATGGCAATA +GGCTTTGCTGAGATACCAAAATCTTCTTTTAACTGCTGTTTGCTCTTCATGACCATCTGACCATTTGTGT +CAATTGTCATATGCTGTGCTTCGATATTATGGCGGGCTTGCCACAGCATCACCAGTTGCAGGCAGTTCTC +TTTTTGTTCCTCGGTCAACGCAACGCCATCAGGCCATTTCCCCAGTTCAACGGCGGTCGACAAACGCTGG +TATACCTCAGGCATCATGCTGTTGATAATGTCATCAAGATTCATAATTTTTCCGCTCCTGTGGAATAAGT +TGCTGAATCGTTTTTTCAACCGTTGATTTCTTCGCCGTTTTCGCCATCGGTAAAGCGTAAAGAGGCAGAG +TTAACACAATAACGTTCGCCCGTTGGCTGCGGCCCGTCGGGGAAGACATGCCCCAGATGGGCATCACAGT +TACCGCAACGAATTTCTATGCGCTGCATTCCATGTGACAAGTCTTTGATATAACGAATGGATTCTTCACT +TACCGGTTCGTAGAAACTGGGCCAGCCACAGCCGGAATCATACTTGGTTTGGGAATGAAACAGCGGGGCA +TCGCAGATCAAACAGTGATATACGCCGTCACGCTTGTTATGCAGTAAACGACCCGTAAATGGCGGCTCTG +TCCCATGATTCTGCGTCACGTAAAACTGCATCTCGGACAAATTTTTTTTCAGTTCTTCTGCCGAAGGTTT +ATTAGCCATTTGCTCACATCTCACTTTAATCGTGCTCACATTACGTGACTGATTCTAACAAAACATTAAC +ACCAACTGGCAAAATTTTGTCCTAAACTTGATCTCGACGAAATGGCTGCACCTAAATCGTGATGAAAATC +ACATTTTTATCGTAATTGCCCTTTAAAATTCGGGGCGCCGACCCCATGTGGTCTCAAGCCCAAAGGAAGA +GTGAGGCGAGTCAGTCGCGTAATGCTTAGGCACAGGATTGATTTGTCGCAATGATTGACACGATTCCGCT +TGACGCTGCGTAAGGTTTTTGTAATTTTACAGGCAACCTTTTATTCACTAACAAATAGCTGGTGGAATAT +ATGACTATCAAAGTAGGTATCAACGGTTTTGGCCGTATCGGTCGCATTGTTTTCCGTGCTGCTCAGAAAC +GTTCTGACATCGAGATCGTTGCAATCAACGACCTGTTAGACGCTGATTACATGGCATACATGCTGAAATA +TGACTCCACTCACGGCCGTTTCGACGGTACCGTTGAAGTGAAAGACGGTCATCTGATCGTTAACGGTAAA +AAAATCCGTGTTACCGCTGAACGTGATCCGGCTAACCTGAAATGGGACGAAGTTGGTGTTGACGTTGTCG +CTGAAGCAACTGGTCTGTTCCTGACTGACGAAACTGCTCGTAAACACATCACCGCTGGTGCGAAGAAAGT +GGTTATGACTGGTCCGTCTAAAGACAACACTCCGATGTTCGTTAAAGGCGCTAACTTCGACAAATATGCT +GGCCAGGACATCGTTTCCAACGCTTCCTGCACCACCAACTGCCTGGCTCCGCTGGCTAAAGTTATCAACG +ATAACTTCGGCATCATCGAAGGTCTGATGACCACCGTTCACGCTACTACCGCTACTCAGAAAACCGTTGA +TGGCCCGTCTCACAAAGACTGGCGCGGCGGCCGCGGCGCTTCCCAGAACATCATCCCGTCCTCTACCGGT +GCTGCTAAAGCTGTAGGTAAAGTACTGCCAGAACTGAATGGCAAACTGACTGGTATGGCGTTCCGCGTTC +CGACCCCGAACGTATCTGTAGTTGACCTGACCGTTCGTCTGGAAAAAGCTGCAACTTACGAGCAGATCAA +AGCTGCCGTTAAAGCTGCTGCTGAAGGCGAAATGAAAGGCGTTCTGGGCTACACCGAAGATGACGTAGTA +TCTACCGATTTCAACGGCGAAGTTTGCACTTCCGTGTTCGATGCTAAAGCTGGTATCGCTCTGAACGACA +ACTTCGTGAAACTGGTATCCTGGTACGACAACGAAACCGGTTACTCCAACAAAGTTCTGGACCTGATCGC +TCACATCTCCAAATAAGTTGAGATGACACTGTGATCTAAAAAGAGCGACTTCGGTCGCTCTTTTTTTTAC +CTGATAAAATGAAGTTAAAGGACTGCGTCATGATTAAGAAAATTTTTGCCCTTCCGGTCATCGAACAAAT +CTCCCCTGTCCTCTCCCGTCGTAAACTGGATGAACTGGACCTCATTGTGGTCGATCATCCCCAGGTAAAA +GCCTCTTTTGCATTACAGGGCGCACACCTTCTCTCGTGGAAACCTGCGGGTGAAGAAGAAGTTCTGTGGT +TGAGCAACAACACACCGTTCAAAAATGGCGTCGCTATTCGCGGTGGCGTACCGGTTTGCTGGCCGTGGTT +TGGTCCGGCGGCACAACAAGGTCTGCCTGCGCACGGTTTTGCCCGCAACCTGCCGTGGACGCTGAAATCA +CATCATGAAGATGCTGATGGCGTAGCGCTGACTTTTGAATTGACGCAAAGCGAAGAGACGAAAAAATTCT +GGCCGCACGACTTTACGCTGTTAGCGCATTTCCGCGTGGGTAAAACTTGTGAAATCGATCTTGAATCACA +TGGCGAATTTGAAACCACCTCTGCCCTGCATACCTACTTTAACGTGGGTGATATCGCTAAGGTAAGCGTC +AGTGGGCTGGGCGATCGCTTCATTGATAAAGTGAATGACGCGAAAGAAAATGTACTGACCGATGGTATTC +AGACCTTCCCTGACCGTACCGATCGCGTGTATCTGAATCCACAAGATTGCAGCGTGATTAATGATGAAGC +GCTGAATCGTATTATCGCCGTAGGCCACCAGCATCATCTGAACGTTGTCGGCTGGAACCCGGGACCGGCG +CTTTCAATTAGCATGGGCGATATGCCGGATGATGGCTACAAAACATTTGTTTGTGTAGAAACGGCTTACG +CTTCAGAAACGCAAAAAGTGACCAAAGAGAAACCTGCACATCTGGCGCAATCCATTCGCGTTGCGAAACG +TTAATTTACGTTAATGTTGTGTGCCGGGTGCAATGCATCCGGCACACAACATCACACCATATCCAGCGCA +GTTTTTCCTTTTGGTGCCGGATATGCCTTATCCAGCATAGCTAATTCCGCTGAAGAAAGTTCGACCTCAA +GCACAGCCGCATTTTGTTGGACATGGGCAATCGTGGCCGCTTTTGGAATCGCCATCACACCCTGATGACT +GATCACCCACGCCAACAATACTTGTGCCGCGCTGATATTGTGAGCATGTGCAATTTCGTTGACTACCGCG +TTTTTTAACAGTCCATTGCGCAACCGCCCGGCCTGGGCTAACGGACTGTAAGCCATCACCGGCATCTGCT +GTTGCTGGCACCAGGGGAGTAGATCGTACTCAATTCCTCGTGAACCGAGATGGTAAAGCACCTGATTAGT +GGCACACTGATTTCCCCCCGGCAGCTGCCAGAGTTCCTGCATATCAGCATAATCAAGGTTAGAAACGCCC +CAGCGGCGGATTTTTCCCTGGGCGATCAATTTTTCCATCGCTGCGACAGTCTCTTCAAAAGCGAAACTGC +CAGACCAGTGTAATAAGTAAAGATCGAGATAATCAGTATTGAGACGGCGTAAACTGGCTTCGCATGCATT +TATCGCTTTTTGCCCGCCAGCATTCCACGGATAGACTTTAGAGACGAGAAAGACCTTCTCTCGCAGACCG +GTTAATGCTTCCCCAACCACCTTTTCGGCACCGCCATCGGCATACATTTCGGCGGTATCAATGAGGGTTA +AACCGAGTTCAATGCCCGCGCGTAGTGCAGCAACTTCTGTTTTGCGCTGACTGGCATCTTCGCCCATATA +CCATGTTCCCTGCCCTACGGCTGGCAGTGAGACATCGCCACTAAATTGAATCATTTTTTGTTGCATTGTT +TCCTCCCAGGTATTGCACCACCGTAATGCAAAACAGGGCGTGACGCCCTGTTTTTATGCACAAAATGCCC +TGGAAAGATGCATTATCAGAATTTGTAGGTGATCCCGGTAGAAATCAGGCCAGTCCAGGATTTATCCACC +ATCGGGCTGTCAGTAACTTCATCAGACAGACGGGTGTAGCGTGCGGTACCGTAAACACTCCAGTCGCCGA +GGAAGTTGTAGCTGGCGCTCAGCTCCAGGTAAGGGCTCCAGCTGTCGTTCGGGTTATAGCCACGCAGACC +GCTGCGAGCGGACTCTTTGCGCGATACGCCATAATAGTATTCGTTCTGGTTTTCGCTGTTCCACTGCACA +CCAATACCCGGAGTCACGGTCAGGCCACCGTTGGTGTAACGATACAACCAGGCCATATCCCAGACGATGC +CGTTGCTGTTATCCAGGGTATCGCCAGCCAGGGTGGTACGCAGGTAACCGTACTGGGTAAAGTGAGCATA +AGACAGACCAGCCATCATGGTGCTCTTACGGTCATCCAGGTGACGCATTTGGTGATCGCCACTGTCTTTC +GCTTTGAAGTAAAGCGGCGACCAGTAAGCGGTAATTGAAAGTTTATCCGTTGCGTCATTCCACAGGTAGT +AACCACCACCTAAGCCACGGAACCAGAAGTTATCGCCTTCATAGTTGATTACCGGTACTGGGTAAACATC +GGTATCGTAATCTTTATATGGGTGTTCAACGACACCTACGCCTGCGCCCAGGGAAAATTTACCTTCAGCG +TGCGCTACGCCTGCAGACGTTGCGATAAGCACTCCAAGTGCCAGAAGTTTGAGTTTGGTCACAATTAATC +ATTCCTTAAACAAATGTTTAGCGGGCGACAAAGTTTACCCGTCAATACATCGAAACCCAACCTTTTTACG +TTTTCATTTTTTAAAGTAACTGTTTAATTTTCCTGACGCGGATGACACCGCGCTTACAGCCAAATGAATT +TAGCGTTACTGGCGAGCCTGGTCTTTACATTAATTATGCAAAATTTATGGATGAGTTGTTGATATGCCAT +TGAAATTAAGAAAGCCGTGCAGGCAAGTTTTCCATTTGCCATCTACGCTTAATTTTGAAGGTGTATCACC +GGGCACGTTGTTCTCATCGTCGATAAAATGGCATGAGAGTTGCTGTGTTTTAGCAAGAGACGTCGTTCAG +TTTACCTCTTCCGGGAGCCTCTACTATTCATATGAACGGCTCTTAACCTGTGCTAAAAAACGAAAGGACG +GCATACCATGAATATATTCGATCACTATCGCCAGCGATATGAAGCTGCCAAGGACGAAGAGTTCACACTG +CAGGAGTTTCTTACCACTTGTCGGCAAGATCGCAGTGCTTATGCCAACGCGGCTGAGCGGCTATTGATGG +CTATCGGTGAGCCTGTCATGGTCGATACAGCCCAGGAACCCAGACTTTCTCGACTCTTTTCTAACCGGGT +CATTGCACGTTATCCGGCGTTTGAAGAGTTTTACGGCATGGAAGACGCGATTGAACAGATTGTCTCTTAT +CTGAAACACGCGGCTCAGGGGCTGGAAGAGAAGAAACAAATCCTGTATCTGCTGGGGCCTGTGGGTGGGG +GTAAATCATCGCTTGCTGAGCGACTGAAATCATTAATGCAGCTCGTACCGATTTATGTATTGAGCGCGAA +CGGTGAGCGTAGCCCGGTCAACGATCATCCGTTCTGTCTTTTCAATCCGCAGGAAGATGCGCAGATTCTG +GAAAAAGAGTATGGCATTCCTCGCCGTTATCTCGGCACCATCATGTCGCCGTGGGCGGCAAAACGCCTGC +ATGAATTTGGTGGCGATATCACTAAGTTCCGGGTAGTGAAGGTCTGGCCGTCAATTCTGCAACAAATTGC +TATCGCCAAAACGGAACCCGGCGATGAGAACAACCAGGACATCTCCGCGCTGGTTGGGAAAGTCGATATT +CGTAAACTCGAACACTACGCGCAGAATGACCCGGACGCCTACGGCTATTCCGGTGCGCTGTGCCGCGCCA +ATCAGGGGATCATGGAATTCGTTGAGATGTTTAAAGCACCGATTAAAGTGCTGCATCCCTTGTTAACCGC +CACTCAGGAAGGTAACTACAACGGGACGGAAGGTATCTCCGCCCTGCCGTTCAACGGGATTATTCTCGCA +CACTCGAACGAGTCCGAATGGGTCACTTTCCGTAATAACAAAAACAACGAAGCCTTCCTCGATCGTGTTT +ACATCGTGAAGGTGCCGTATTGCTTGCGCATTTCCGAAGAGATCAAAATCTACGAGAAATTGCTTAATCA +CAGTGAATTGACTCACGCCCCATGCGCCCCTGGCACGCTCGAAACACTGTCACGTTTTTCCATTCTTTCG +CGCCTGAAAGAGCCAGAAAACTCCAGCATTTATTCAAAGATGCGGGTTTATGATGGCGAAAGTCTGAAAG +ACACCGATCCCAAAGCCAAGTCGTATCAGGAATATCGTGACTACGCCGGTGTCGATGAAGGGATGAACGG +TCTGTCGACGCGTTTTGCGTTTAAGATCCTCTCCCGCGTGTTCAACTTCGATCATGTAGAAGTGGCAGCA +AACCCGGTCCATCTGTTCTACGTCCTGGAACAGCAGATTGAGCGCGAGCAGTTCCCACAAGAGCAGGCAG +AACGCTATCTGGAGTTCCTGAAAGGTTATCTGATCCCGAAATATGCCGAGTTTATCGGCAAAGAGATCCA +GACGGCCTACCTTGAATCCTATTCCGAATATGGGCAAAACATTTTCGACCGTTATGTTACCTACGCGGAT +TTCTGGATTCAGGATCAGGAGTATCGCGATCCGGATACCGGGCAGCTGTTTGACCGCGAGTCTCTTAACG +CCGAGCTGGAGAAAATCGAGAAACCGGCGGGGATCAGTAATCCAAAAGATTTCCGCAACGAGATTGTTAA +CTTCGTACTGCGCGCCAGAGCGAATAACAGCGGACGCAATCCGAACTGGACCAGCTATGAAAAACTGCGC +ACGGTCATCGAGAAGAAAATGTTCTCCAATACCGAGGAGCTGTTGCCGGTTATCTCGTTTAACGCCAAAA +CGTCAACCGACGAGCAGAAGAAACACGACGACTTTGTCGACCGTATGATGGAAAAAGGCTACACCCGTAA +ACAGGTGCGTTTACTGTGCGAATGGTATTTGCGCGTACGTAAATCGTCTTAACAACCCTGGCCCGGTACA +CATGTTACCGGGCCTACAACGACAGCGAACCGTGGGCCTGAGAAGCGGCAACACAGGCGTAGCATACAGT +TGGCAAATGTAGTACGGGGGGCATATGACCTGGTTTATTGACCGGCGTCTGAACGGCAAAAACAAAAGCA +TGGTGAATCGCCAGCGTTTTTTACGCCGTTATAAAGCGCAAATTAAACAGTCGATCTCCGAGGCCATTAA +TAAGCGTTCGGTGACTGACGTCGACAGCGGCGAATCCGTATCCATTCCCACGGAAGATATTAGCGAACCG +ATGTTTCATCAGGGGCGTGGCGGTCTGCGCCACCGCGTGCATCCGGGCAATGACCATTTCGTCCAGAACG +ACCGAATTGAACGTCCCCAGGGTGGCGGCGGAGGTTCCGGCAGTGGTCAGGGCCAGGCCAGCCAGGATGG +TGAAGGTCAGGATGAATTTGTCTTTCAGATTTCGAAAGATGAGTATCTTGATCTGCTCTTTGAAGATTTG +GCCTTACCGAATCTGAAACAAAACCAACAACGCCAGCTGACCGAATATAAAACGCATCGGGCGGGTTATA +CCGCTAACGGCGTTCCGGCCAATATCAGCGTTGTGCGTTCATTGCAGAACTCACTGGCGCGACGCACAGC +CATGACGGCAGGCAAGCGGCGGGAACTTCATGCACTGGAAGAGAATTTGGCCATCATCAGCAACAGTGAA +CCTGCGCAACTGCTGGAAGAGGAACGTCTGCGCAAAGAAATTGCAGAATTACGTGCCAAAATTGAACGCG +TCCCTTTTATTGACACCTTCGATTTACGTTACAAGAACTACGAGAAGCGGCCCGATCCCTCCAGCCAGGC +AGTGATGTTTTGCCTGATGGACGTTTCCGGTTCAATGGATCAATCCACTAAAGATATGGCTAAGCGTTTT +TATATTCTGCTGTATCTGTTCCTCAGCAGAACGTATAAGAACGTGGAAGTCGTATACATCCGCCATCATA +CCCAGGCGAAAGAAGTCGATGAACATGAGTTTTTCTACTCGCAGGAAACAGGCGGCACCATTGTTTCCAG +CGCCCTGAAACTGATGGATGAGGTAGTGAAAGAGCGTTATAACCCGGCACAGTGGAATATTTACGCTGCA +CAAGCATCGGACGGCGATAACTGGGCCGATGACTCTCCGCTTTGCCATGAAATCCTGGCGAAAAAATTAT +TACCTGTTGTTCGTTATTACAGCTATATCGAAATTACCCGTCGTGCACATCAGACATTGTGGCGAGAATA +TGAGCATCTGCAATCTACTTTCGACAACTTTGCGATGCAGCACATCCGCGACCAGGATGATATTTATCCG +GTGTTCCGTGAACTGTTTCATAAACAAAATGCAACAGCTAAAGGCTAAAACTATCAGCCAGGTCATTATC +GCCTGGCTGATTTTTAGCTTACTGTAAATTATCTCATTTATTACATACATTAGCTTACAATCGCTTTAAA +TATGACAGCATAACCTTTACATAATTTAGTTCCAGAAAACAATCATTCGGAAAAATGATTCAGTCAACAC +GTATTTCCATGGGGTTATTCTTTAAATATTTTTTATCGTTAACGAAAATTGATCCTGGTCAAAACTATAT +ATCTCTGCCATCAATAAAATCCAGCACTCACATTGCTCTCCTTTTTATGGTTTCTATGGGTACACAAAAA +TTAAAAGCTCAAAGCTTTTTTATTTTCAGTTTATTGCTGACGTTAATTTTATTTTGCATTACTACCTTAT +ATAACGAAAACACAAATGTAAAACTCATCCCACAGATGAATTACCTGATGGTTGTTGTGGCTTTGTTTTT +CCTTAACGCCGTCATTTTTCTTTTCATGTTAATGAAATATTTCACTAACAAACAAATTTTACCAACACTC +ATTTTAAGCCTTGCATTTTTAAGTGGCCTTATCTATTTAGTTGAAACCATTGTAATTATCCATAAACCAA +TTAACGGCAGTACACTGATCCAGACAAAGTCGAATGATGTTTCTATTTTCTATATTTTCCGCCAACTCAG +TTTTATTTGTTTAACCTCGCTGGCGCTCTTTTGTTATGGAAAAGACAACATCCTTGACAACAATAAGAAA +AAAACGGGAATCCTGTTGCTGGCGCTGATCCCTTTTTTAGTTTTTCCCCTTCTGGCACACAATCTGAGCA +GTTATAACGCTGACTATTCTTTGTATGTCGTCGATTACTGTCCGGACAACCATACTGCGACCTGGGGAAT +CAACTATACAAAAATATTGGTTTGTCTGTGGGCATTTTTACTGTTCTTTATTATCATGCGCACACGATTA +GCCAGCGAACTATGGCCGTTAATAGCATTATTATGTCTGGCATCGCTATGCTGCAACTTACTTCTACTGA +CTCTGGATGAGTATAATTATACTATCTGGTATATCAGTCGCGGGATTGAAGTTTCCAGTAAACTGTTTGT +TGTGTCTTTTCTGATTTATAACATTTTTCAGGAGCTGCAACTCTCCAGCAAACTGGCAGTTCATGATGTG +CTGACCAATATTTATAATCGGCGCTACTTTTTCAACAGCGTAGAGTCATTATTGTCGCGACCTGTTGTTA +AGGACTTCTGTGTCATGCTGGTTGATATTAATCAGTTCAAACGCATCAATGCCCAATGGGGACATCGTGT +GGGTGATAAAGTGCTGGTTTCAATTGTCGATATTATCCAGCAAAGCATCCGCCCCGATGATATTTTAGCG +CGACTGGAGGGTGAGGTGTTTGGCTTGCTATTTACCGAACTCAATAGTGCCCAGGCAAAAATCATTGCGG +AACGTATGCGTAAAAATGTCGAACTCCTGACCGGCTTTAGTAACAGATATGATGTTCCTGAACAAATGAC +CATCAGTATTGGCACGGTTTTTTCAACGGGTGACACGCGTAATATCTCGCTTGTCATGACGGAAGCAGAT +AAAGCCTTACGCGAAGCGAAAAGCGAGGGGGGCAACAAAGTGATTATTCATCATATTTAAGTGCAAAAAT +ATTCAGAGCCATGCTTTTTGCGTGGCTTTTGCATACAATTTATTACTATTACCCCTAAATTTCCCCTCCC +CAGCGGCGCAGAGATGAGTATAATTAGCGCCCCTGTGCCAGGCCGCAATCGAACTTTATCTGGTTTTCTC +GTTTCACTAACCGAAGGAGTGCCATTTATCATGAAATTGCACCATAGAATGCTCCGGCATTTTATCGCCG +CAAGTGTCATTGTGCTGACATCTTCCTTCCTTATTTTTGAACTTGTCGCCAGCGACAGAGCAATGAGTGC +CTATCTGCGCTATATCGTGCAGAAAGCAGACTCCTCCTTTCTTTATGATAAGTATCAGAATCAGAGTATT +GCCGCGCATGTGATGCGCGCTCTCGCTGCTGAGCAGTCGGAAGTGTCGCCAGAACAGCGGCGCGCCATCT +GCGAGGCTTTTGAGTCTGCCAATAACACCCATGGCTTAAACCTGACTGCCCATAAATACCCGGGCTTACG +CGGCACACTACAAACCGCATCCACTGACTGCGACACAATTGTGGAAGCTGCAGCACTATTACCCGCTTTT +GATCAGGCAGTGGAAGGCAACCGCCACCAGGATGATTACGGTTCAGGTCTTGGGATGGCCGAAGAGAAAT +TTCACTATTATCTCGATCTCAATGACCGCTATGTCTATTTTTATGAGCCGGTTAATGTTGAATACTTTGC +GATGAATAACTGGTCCTTCCTGCAGTCAGGAAGTATTGGCATCGATCGCAAAGATATTGAAAAGGTATTT +ACCGGGCGTACCGTATTGTCGAGCATTTACCAGGATCAGCGTACTAAACAGAACGTGATGAGTTTGCTGA +CGCCGGTATATGTCGCAGGGCAGCTAAAAGGGATTGTGCTGCTGGATATTAACAAAAACAATCTGCGGAA +TATCTTTTATACTCATGACCGCCCTCTCCTCTGGCGTTTTCTCAATGTCACGCTAACCGATACCGATTCG +GGGCGCGACATTATCATCAACCAGAGCGAAGATAATCTGTTCCAGTATGTCAGTTACGTCCATGACTTAC +CGGGCGGCATTCGTGTCTCGTTATCCATTGATATTCTTTACTTTATCACGTCTTCGTGGAAAAGCGTTCT +GTTCTGGATTTTGACGGCGTTAATTTTGCTGAATATGGTGCGGATGCACTTCCGTTTATACCAAAATGTG +TCGCGAGAAAATATTAGTGATGCGATGACTGGACTGTATAATCGCAAAATTTTAACCCCTGAACTGGAGC +AGCGGTTGCAGAAACTGGTGCAATCCGGTTCTTCGGTGATGTTTATTGCTATTGACATGGACAAGTTAAA +GCAAATAAATGACACCCTCGGTCATCAGGAGGGGGATTTAGCGATTACGTTATTAGCTCAGGCGATTAAA +CAGTCGATTCGTAAAAGTGATTATGCCATCCGACTCGGTGGCGATGAATTCTGCATCATTCTTGTCGATT +CGACGCCGCAAATTGCAGCACAACTGCCTGAACGTATCGAAAAACGTCTGCAACATATCGCGCCGCAGAA +AGAGATCGGCTTCTCTTCCGGTATTTACGCGATGAAAGAAAACGATACGTTACATGATGCGTATAAAGCT +TCCGATGAGCGTTTATATGTCAATAAGCAGAACAAAAACAGCCGTTCATGATAACCTTCTGTGGTTGTTT +GCTTGTAATCTCAGGAGCGTGAAATGACTGAAATGGCTAAAGGAAGCGTGACGCATCAGCGGTTAATCGC +TTTATTATCACAAGAAGGTGCTGACTTCCGCGTCGTTACCCATGAAGCGGTAGGTAAATGTGAAGCGGTG +TCAGAAATTCGTGGCACCGCTCTAGGCCAGGGTGCTAAGGCACTGGTATGTAAAGTCAAAGGCAATGGCG +TAAATCAACATGTTCTGGCGATCCTCGCAGCCGATCAACAGGCCGATCTGAGCCAACTCGCCAGCCATAT +AGGCGGATTACGCGCTTCGTTGGCCAGCCCGGCGGAAGTCGATGAACTCACAGGCTGTGTCTTCGGCGCG +ATCCCCCCTTTCAGCTTCCATCCAAAACTCAAACTGGTTGCCGACCCTCTACTCTTCGAACGATTTGATG +AAATCGCCTTCAATGCAGGCATGCTGGATAAATCCGTTATTTTGAAAACCGCGGATTATTTGCGCATTGC +GCAACCAGAACTGGTCAATTTCCGCCGCACTGCGTAACTAGCCGGTCCGTTCGATAAGAAGAACGGACAA +AACCAGTACAACAGCAATGGCAAAAAACGATGACGTGATAATCAGTGTCTCGACAAACATTTGATCGTTC +ATAGCATGCCCCCGGGAGATAGCTGTTTTCACGTTATTGTTAGCGTGCACAAATGGCAGTTTGATGACAG +TTCGCCTGATTTTTTATGCAAAAAACGTAAAGATTTTCTACTTCCTTCCTGCAGCAAGCGTAAAGTAAGC +AGGCTTATTATTTTTTGGCAAGGAAACCACGATGTTTGATGTCACTTTGCTGATCCTGCTCGGGTTAGCT +GCGCTGGGCTTTATCAGTCATAACACCACTGTCGCCGTTTCAATTCTGGTGTTAATCATTGTCCGCGTCA +CACCGTTAAGCACCTTTTTTCCGTGGATTGAAAAACAGGGGCTAAGTATCGGGATAATCATTCTGACGAT +TGGCGTTATGGCCCCCATCGCCAGCGGGACGCTACCGCCCTCAACCTTGATTCACTCGTTTCTGAACTGG +AAATCACTGGTGGCGATTGCAGTAGGCGTGATTGTCTCCTGGCTGGGTGGGCGCGGCGTGACGTTAATGG +GCAGCCAGCCGCAACTGGTCGCCGGGCTGCTGGTAGGCACTGTTTTAGGCGTAGCGCTGTTTCGCGGCGT +ACCGGTTGGGCCGCTTATTGCCGCGGGTCTGGTTTCGCTGATTGTGGGGAAACAGTAGTTAATCTCGCAA +TATATCGGCCTGGCGTTTGCCCCAGGCCTTTCTTAAACATAGTAATAAAGGCCGTTGTTGAATCATACCC +CAGCGTATGAGCAACTTTCTGTACAGTATCGCCTTTCACTAATCCCTGAAGCGCCATAATCAGCTGTAAC +TGCTGACGCCACTGGCGAAAACTCAACCCCGTCTCTTTTACTATCAGTCGGGCAAGATTGCGTTCACTCA +TCGCAAAAAAGCCAGCCCATTGCCCCAATGCCCCCCACTCGACAGGCCCTTTCGCCATCATCTCCACCAT +CGTGCGGATTTTAGGATGAGAAGAAACGGGCAGGTGCAGCTGTTGTTGTGGCTGCTGAGGGAGTTCATCA +AACAGGACCTGAATTAATCTGCGGGTCATTGGCTCAGCACGCTGAGTCGTCGTCCTGTTTGCCAGGGTTA +AAATTAATTCCCGGCATAAGGGCGATATTTTCAATGTGCAACATGTTGTCGGCATTGTCACTGCGCTGGG +TTCGATAAACAGAAAACAGAGTTCAGCATTAGCTGTTACTTGATTGCTATGTTCCACCCCGCCCGGTATC +CAAACCGCATATTGTGGCGGCACCATCCACAAAGCATTTTCCACCGTACAGGTAATTGCACCATGTAGCG +CCAGTATCAGCTGTCCTTTGCGGTGCTGATGTACAGGACTGGTTAACTCATCCGTTCCGGCGTGAATACA +AAATGCGACCGCGGCTTCATGGTGTCGGTCGGGTTCATAGCCATTGAGATTCAACCTGTGCATCATTTTG +TCCGAACTTAGCGATAATTTGTCATTTTAGCTTGATTCAACATAACAATAAAAACGGTAAGGTACAGCCT +CGTTTGTAACAATGAGAAGCATATGACCTGTTCAACTTCATTAAGCGGCAAAAACAGGATTGTCCTTATC +GCTGGCATTCTGATGATTGCCACAACATTACGCGTCACCTTTACCGGCGCAGCACCGTTACTGGATACGA +TTCGTTCCGCTTACTCGCTGACGACAGCGCAAACCGGCTTATTGACCACCCTGCCATTATTGGCCTTTGC +GCTAATCTCACCTTTGGCTGCCCCGGTAGCGCGACGTTTTGGTATGGAACGTAGCCTGTTTGCCGCGTTA +CTTTTGATCTGTGCTGGTATCGCAATTCGCTCTCTCCCTTCGCCTTACTTATTATTTGGCGGTACAGCGG +TCATTGGCGGTGGGATTGCATTAGGCAATGTCTTACTGCCAGGATTAATTAAACGCGATTTCCCTCATTC +CGTCGCCAGACTTACCGGCGCATATTCCCTGACAATGGGAGCTGCAGCGGCACTGGGATCGGCTATGGTC +GTGCCGCTGGCTTTGAACGGTTTTGGCTGGCAAGGCGCGTTGCTCATGCTGATGTGTTTTCCTCTGCTGG +CTCTTTTTTTATGGCTGCCACAGTGGCGAAGTCAACAACATGCAAATTTGAGTACCTCGCGCGCCTTACA +TACTCGGGGTATCTGGCGTTCACCGCTTGCCTGGCAGGTCACATTGTTTCTTGGGATCAACTCACTGGTC +TATTACGTGATTATTGGCTGGCTTCCGGCGATCCTCATCAGTCACGGCTATAGCGAAGCACAGGCGGGTT +CACTGCATGGTTTGCTGCAACTAGCCACAGCAGCACCCGGTTTGCTGATCCCACTTTTCTTACATCATGT +GAAAGATCAGCGTGGTATTGCAGCGTTCGTTGCCTTGATGTGCGCAGTGGGCGCGGTTGGGCTCTGCTTT +ATGCCAGCGCACGCGATCACCTGGACTCTGCTTTTCGGTTTTGGTTCCGGCGCAACAATGATACTGGGGT +TGACGTTCATTGGTCTGCGGGCTAGTTCTGCGCATCAGGCGGCGGCACTCTCGGGGATGGCACAATCCGT +CGGGTATTTGTTGGCAGCCTGTGGGCCGCCGCTGATGGGTAAAATACACGATGCTAACGGTAACTGGTCT +GTACCACTTATGGGTGTTGCCATACTTTCACTACTGATGGCGATTTTCGGACTTTGCGCCGGGAGAGACA +AAGAAATTCGCTAATATCCGGTGCTATAGTGACGTAACAAATCATGCGTGAAAGGGAGAACAAACACGAT +GAATATTCAGTGCAAACGCGTTTATGATCCGGCTGAACAGAGCGATGGTTATCGCATACTGGTCGACCGC +CTCTGGCCGCGCGGTATCAAAAAAACCGATTTAGCCCTTGATGAGTGGGATAAAGAAATCACGCCGTCAA +CGGAACTGCGCAAAGCCTTTCACGGCGAAGTCGTCGATTATGCAACCTTTCGCGAGCAATATCTTGCAGA +ACTGGCGCAACACGAGCAAGAAGGAAAGCGGCTGGCGGACATCGCCAAAAAACAGCCGCTGACCCTGCTC +TACTCAGCAAAAAACACCACGCAGAACCATGCGCTGGTGCTGGCCGACTGGCTACGTAGCTTGTGATTTT +AGTACAGCATCCGGCGGTTATTTTTCACCAGCCGGATGGTCACGCCGCCACAATGCCCATTCATCAATCG +TTTCACCGCCCGGTAATTTGCAATTGTTGCTGACCCCTTGCGCTGTCTGCACTGGAATGAGCGTCCCGCC +CTTCTGCTGGCAATAGACCGACGCCGGATTTGCCATACCAATCTGCGGCGGTTTAGGTGCTTCTGGCTGA +GAAGGGGTTGAACAACCAGCCAGGACCAGCAAGCAAGGCAGAACAAAACTGATAATTTTCATTTATTGAT +CTCACATATTTATCCAAGATTAGAGTATCGCGGTATCGTTTTGTTTTGCAGCACTATTTTTATTACATTC +ACTCAAAACATATTACGTCTTGTTTCATCTTTGTTGATGATGTTTTATCATGCCTGCAAAGATTAAATAA +TCAGCATTTACCCGCCGTATCCTGGAGTTGTTCCGTGTCAGATCAGATTATCGCCCGCGTCTCGCAATCC +CTTGCCAAAGAACAGTCACTGGAAAGTCTGGTCCGACAGCTTCTGGAGATGCTGGAAATGGTCACTGATA +TGGAATCAACCTACCTGACCAAAGTGGATGTCGAAGCGCGCCTGCAGCATATTATGTTTGCCCGTAACAG +CCAGAAAATGTACATCCCGGAGAATTTTACCGTCTCGTGGGATTACTCGTTATGCAAACGCGCCATTGAT +GAAAACTGCTTTTTCAGCGATGAAGTCCCCGACCGTTGGGGTGACTGTATTGCGGCACGCAATCTTGGCA +TCACCACATTTCTGAGCACGCCAATTCACTTACCGGATGGATCATTCTATGGCACGCTTTGCGCCGCCAG +CAGTGAGAAGCGCCAGTGGAGTGAACGCGCGGAACAGGTTTTACAGTTATTCGCCGGACTGATTGCACAA +TATATTCAAAAAGAGGCACTGGTTGAACAGCTGCGCGAAGCCAATGCTGCGCTGATTGCGCAATCGTATA +CCGACTCGTTAACCGGGCTACCGAATCGGCGGGCGATTTTTGAAAATCTGACGACACTGTTTTCCCTCGC +CCGGCATCTTAACCATAAGATAATGATCGCGTTTATCGATCTGGATAACTTCAAATTAATCAATGATCGT +TTTGGTCATAATAGTGGCGATCTGTTTCTCATTCAGGTTGGCGAGCGCCTTAATACGCTCCAGCAAAATG +GCGAAGTTATTGGTCGTCTCGGCGGTGATGAGTTTTTAGTTGTTTCACTAAACAACGAGAATGCGGATAT +TTCGTCGCTGCGAGAACGCATTCAGCAGCAAATACGTGGAGAATATCACTTAGGTGATGTTGATTTGTAT +TATCCCGGTGCCAGTCTTGGCATAGTAGAAGTCGATCCTGAAACAACCGATGCAGACAGTGCCCTGCATG +CTGCCGATATTGCGATGTATCAGGAGAAAAAACACAAACAGAAAACACCTTTTGTCGCGCATCCAGCGCT +ACATTCCTGAGGCGTATTCACATCCTTTTGATTGGTGATAACATGCGAATCGGTATTATTTTTCCGGTTG +TAATCTTCATTACAGCGGTCGTATTTTTAGCATGGTTTTTTATTGGCGGCTATGCTGCCCCGGGAGCATA +AAGATGAAAAAAACAACGATTATTATGATGGGTGTGGCGATTATTGTCGTACTCGGCACTGAGCTGGGAT +GGTGGTAACGTCACCTCTAAAAAATAGCAAAGGCTGCCTGTGTGCAGCCTTTGTGCAATTTAAGCGTTAA +CTTTTAATCTTCCTGTAGATAAATAGCACGACAATCGCACCAATAACGGCAACCACGAAGCTGCCAAAAT +TGAAGCCATCGACTTTACCAAAGCCAAACAGCGTGCTGATCCATCCGCCGACTACGGCACCGACTATCCC +CAGCAGGATAGTCATAAAGAATCCACCTCCATCTTTACCTGGCATGATCCACTTCGCCAGAATACCGGCA +ATAAGCCCAAAAATAATCCATGACAGAATGCCCATTGTTTCCTCACTTATCTGTTTTGCATTAGCGGGTT +AGTCGCTGATAAAAAGCATAGCACAACATCGGGAGGGCAAGATTTGTGACGAGCATCACGGAGGTTTTTT +TTGCGATGGCGCAGAAATTGCGCCATCAACGATCAGTGATAATTACCAACCACAAACATCATGTTCGTTT +TCCGTGTCATAAGAACGTACGGTATTCACCAGATCTTTTATCACTTCAGCCGCCACTTCTGGCACCAGCA +AAGTCATCGGCGTCTCTGTTTCATAATCGACAGAAACGCCATTGCTGTTATTGGTGACGGTCACGGTATA +CGTTGCTTTGCCCATGATTCATTTCCCGTTATGAATGACTTTCCGTTGTTGCGCACCTTCCATCAGGACT +TCAGGAGCCACGAAGAAGTCAATGTTGAAATAAGTATCGTCAGTCATGGCTTCAATGTTGTGCCACTTTT +CTGGAGGGAACACCGCAAACTGCCCCGCTTCGATAAGGATCACCTGATCAGGCTCTGCACTGTGTTCATC +AGCGTAGCCGAGATATTTGACCGCCCCATGCATAACGGAAAGGCGTGGGTAAACCCCCGGGCGCGTTCCT +TTATCAAGATGACGTTCGAATATTCCGGCAGGTGCAGTTTGTTTATTCCAGAAAGGCGTTGAGCGCGTAT +GAATATAATTCTGTGGGATTTGAAGCATCCTTTTCCCTCCTTCGGTGAATGCGCTGAAAACGGTTTATTC +CAGCCGTTTCAGGGTACGCCTGATAATTTGCATTTTAAATACCATTTATTGGTTACTTTTTAGCACCATA +TCAGCGAAGAATCAGGGAGGATTATAGATGGGAAGCCCGCGACAACGCGGGCTGAAAGCATCAGGATTGC +AGCGTCGCCAGTCGGGCAGCGAAACCCACGAACATCAAACCAATCAGTGAGTTGCCAACTTTAGCCAGTT +TCTTTTTGGTACGTATGTACTGCGTGACAAAAGCACCAGATATAATCAGGAAGCTCAAATAGCAGAAACT +CACCAGTTCCAGCGTCGCCGCCAGAATAAAGAATGAAATTCCCGTATGTGGGGCATTAACATCGATAAAC +TGTACGAAAAACGACACATAGAACAAAATGGCTTTCGGATTAGTCAGGCTCAAAATTAACGCGCGTTTAA +AAATAGCACCGTATTGGGGCTCATCGGATTTGGCCTCGCTATTTTTACCCTTCAGGGTCGCGTAAAGAAT +TTTACTCCCCAGATAGAGCAAATAAAACGCACCAAGATAACGTACAATGTTGAATAATATCGGGGTGGTC +TTAATTAATGTCGCCACTCCAGCCCATGCCAGAAACATCAATACCGCATCGCCAATAAATACACCGCAGG +CCGCAAGATAACCGCCTTTCATACCGCTACTGACGCTATTTTTGAGTACAAACAGGGTATTTGGCCCTGG +CACCAACACAATAAAAATGGCCCCAACCAGATAGGTCCAGTAATTCAGAACCCCGTATTCAGCGAACACA +TTAACCTCTTTAATTATCTTTCGATCATGCGCGATTAAAGGTGAATATGCTAACCAATCTGTAGCGGCTT +AGAAAGGAGAAAATCAGGTTTTAACCTGATATCAACCCGATAATTGAATCATTAATCAGGCATGCTCCAG +TGAAAAATTCGGGTAGTGCTCGGCAAAATACTGGCGTAAAAATTCTACCGTTATCCGCACTTTCGCTGAC +GTCGCCAGCCTTGAAACATAAACGGCCCAGACGTTCGCTGGCTGGTAATATTCCGGTAGCACTTGCACTA +AATGACCACTGGCAATGTTTTCGCTAACATCCCACCAGGAACGCAGAGCAATCCCCTGCCCATCGAGACA +CCACTGATGGACAATTTCTCCATGATTAGACGACAGTGGGCCGGTGACTTTAATCGCATGGGGGCCTTCT +TTATTGCGTAATTGCCAGACACCAAAAGGATGATCGCGCTCTTTAATGACCAGGCACGGCAATGCAGAAA +GATCGGTTAAATGTTTCGGCGCGCCATGTTGCGCAATAAATTCCGGCGACGCGCAGAGAATACGGTAATT +GGTCGCCAGTTTGCGGGCGATTAAATTAGGGGCGATGTCATCGCCAATGCGAATATCGAGATCGACACCT +TCATTGACCAAATCGACCAGTCGGTCTTCCACATCAAAACGTAATTCCAGTTGCGGATACGCCTTCGCCA +GCGCTAATAACGCCGGAGCCACCACCTGTCGTCCAAAACCAAAGCTGCTGATAATACGCAGCATCCCCTG +CGGCACCTGACGCACGTCAGAAAGTTCGTCCATCATCTGACCGACATCCTGCAAAATCCGCTGCGCCCAT +TCATAAATCCGCTCTCCTTCTTCGGTAATGGTGACGCGGCGGGTGGTGCGGTGTAACAACACCACGTTTA +GCGTTTGCTCCAGCAAGGCGATGCGCTTGCTGACGAACGCCGGTGAAACGCCCAGTTCTTCCGCCACGGC +GGCAAAACCAGCCCGGCGAGCCACCAGCATAAAGACGCGCAAATCATTCAGCAGCGGTAAATTATTCATG +ATTCGTGTTTTATGTTTCACCAGTTACGGGGATTAATTCCTTTTCAGTCAATTATAGGATGGTGATGTTG +TCAATTTTGATGGTCAGGAAGTGAGAACCCAATGATGAAAACGATGCGTATTGCTGCGATCCCGGGAGAC +GGGATTGGCAAAGAAGTCCTTCCTGAAGGGATTCGCGTGTTACAGGCTGCCGCTGAGCGCTGGGGCTTCG +CCTTGAGTTTTGAGCAAATGGAGTGGGCGAGCTGCGAGTATTACAGCCATCACGGTAAAATGATGCCGGA +CGACTGGCATGAGCAACTTAGCCGTTTCGACGCCATCTATTTTGGTGCCGTCGGCTGGCCGGATACCGTT +CCGGACCATATTTCGTTGTGGGGTTCGCTGCTGAAATTTCGTCGTGAATTCGACCAGTACGTCAACCTGC +GCCCGGTTCGTCTCTTTCCTGGCGTTCCCTGCCCGCTGGCGGGAAAACAGCCTGGCGACATCGATTTTTA +CGTGGTCAGGGAAAACACCGAAGGCGAATATTCCTCGCTCGGCGGTAGAGTGAATGAAGGTACAGAGCAT +GAAGTCGTCATTCAGGAATCGGTATTTACCCGCCGTGGTGTCGATCGCATTTTGCGTTATGCCTTCGAAC +TTGCGCAAAGCCGTCCACGTAAGACACTAACTTCTGCCACTAAATCGAACGGTTTAGCCATCAGCATGCC +GTACTGGGATGAGCGAGTGGAAGCAATGGCCGAGAATTACCCGGAGATCCGCTGGGACAAGCAGCATATT +GATATTCTCTGCGCGCGTTTTGTGATGCAGCCGGAACGATTCGATGTGGTGGTGGCGTCCAATTTGTTTG +GCGATATCCTTTCCGATCTTGGCCCGGCCTGCACCGGCACCATTGGCATTGCCCCATCCGCCAACCTGAA +TCCGGAACGCACTTTCCCGTCGCTCTTCGAGCCTGTCCACGGTTCCGCGCCGGATATCTACGGGAAAAAT +ATTGCTAACCCTATCGCCACGATTTGGGCCGGGGCAATGATGCTCGATTTTCTCGGCAATGGCGATGAGC +GTTTCCAGCAAGCGCATAACGGTATTCTGGCAGCAATTGAAGAAGTGATTGCTCACGGGCCGAAAACACC +TGATATGAAAGGCAATGCCACCACGCCACAGGTTGCCGACGCGATTTGCAAAATTATTTTGCGTTAAGGT +CAAACCAGTTTATTTGAACCGCGTCACTGACGCGGTTTTTTTATTCGTTCTTTGCAGTAAATAACCTGCG +TCATTTCACCTTTTATTGTTTCCGTTTCGTGTTTTATGGCTTTCCGTATTCTTAATTGTTTAATTTATGT +AACATGCAAATTTTGTTACGCGTACGTTAGGTTCCGCCGTACAGGTATTGGTTTTGCTGGCAATGGGACT +GGTGATTTATTTAGCCACCAGTAAATACGGCAATATTCGTCTTGGCGAAGGAAAACCGGAATACAGCACG +CTCTCCTGGCTGTTTATGTTTATTTGTGCCGGTTTAGGTTCTTCTACGCTTTATTGGGGGGTTGCTGAAT +GGGCCTATTATTATCAAACACCTGGATTAAATATCGCACCGCGTTCACAACAGGCACTCGAATTTAGCGT +TCCCTACTCTTTCTTCCACTGGGGCATCAGCGCCTGGGCAACTTATACGCTGGCCTCATTAATCATGGCT +TATCACTTTCATGTGCGGAAAAACAAAGGTCTGAGCCTTTCCGGCATTATTGCTGCTATTACCGGCGTTC +GCCCGCAAGGCCCATGGGGAAAACTGGTCGATTTGATGTTCCTGATCGCCACTGTCGGCGCACTGACCAT +TTCCCTTGTTGTTACCGCAGCAACCTTTACCCGTGGGCTTTCCGCGCTGACCGGTTTACCCGATAACTTC +ACCGTGCAGGCATTTGTGATCCTGCTTTCCGGCGGCATTTTTTGCCTAAGCTCGTGGATTGGTATCAACA +ACGGTTTGCAACGTCTGAGCAAAATGGTTGGCTGGGGCGCGTTCCTGCTGCCATTACTGGTGCTGATTGT +CGGCCCAACCGAATTTATTACCAACAGCATCATCAATGCCATCGGCCTGACCACGCAAAACTTCCTGCAA +ATGAGCTTATTCACCGATCCGCTTGGCGATGGTTCATTTACCCGCAACTGGACCGTTTTCTACTGGCTGT +GGTGGATCTCATACACCCCTGGCGTAGCAATGTTTGTCACCCGCGTTTCCCGCGGTCGTAAGATTAAAGA +AGTTATCTGGGGACTGATCCTCGGCAGCACCGTCGGTTGCTGGTTCTTCTTTGGCGTAATGGAAAGCTAT +GCCATTCATCAGTTTATCAATGGCGTAATCAACGTCCCACAGGTGCTGGAAACACTGGGCGGCGAAACAG +CTGTACAGCAAGTTCTGATGTCGTTGCCAGCCGGTAAATTGTTCCTCGCCGCATACCTGGGCGTGATGAT +TATTTTCCTTGCCTCGCATATGGATGCAGTGGCCTACACCATGGCGGCGACCAGTACGCGTAATCTCCAG +GAAGGTGACGATCCTGACCGTGGGCTGCGTCTTTTCTGGTGCGTGGTGATCACTCTGATCCCGCTTTCCA +TCTTGTTTACCGGTGCTTCGCTGGAAACGATGAAAACCACCGTCGTGCTCACAGCCCTTCCCTTCCTCGT +CATTTTACTGGTGAAAGTCGGCGGGTTTATTCGCTGGCTGAAACAGGATTACGCCGACATTCCGGCTCAT +CAAGTTGAACATTATCTCCCGCAGACACCGGTTGAAGCCCTGGAAAAAACGCCAGTGCTCCCTGCGGGAA +CCGTATTCAAAGGCGACAACTGAGCGCCATCATCCTAACGATAAAGGTATCCCTATGAGCAATCTGAGCC +CTGACTTTGTACTACCCGAAAATTTTTGCGCTAACCCGCAAGAGGCGTGGACCATTCCTGCCCGTTTTTA +TACCGATCAGAACGCGTTTGAACACGAAAAAGAGAACGTCTTCGCCAAAAGCTGGATTTGCGTCGCTCAC +AGCAGCGAACTGGCGAATGCCAATGATTATGTGACGCGTGAGATCATTGGCGAAAGCATCGTGCTGGTAC +GCGGTCGTGATAAGGTTTTGCGCGCGTTCTATAACGTGTGTCCGCACCGTGGTCATCAGTTGTTGAGCGG +TGAAGGAAAAGCAAAAAATGTGATTACCTGCCCGTATCACGCATGGGCATTCAAACTCGATGGCAACCTG +GCCCATGCACGTAACTGCGAAAACGTCGCCAATTTCGATAGCGACAAAGCGCAACTGGTTCCGGTGCGTC +TGGAAGAATATGCCGGATTCGTCTTCATCAACATGGACCCCAACGCCACCAGCGTAGAAGATCAATTACC +CGGCCTGGGCGCGAAAGTGCTGGAAGCCTGCCCGGAAGTCCACGATCTGAAACTGGCGGCCCGCTTTACC +ACCCGCACGCCTGCCAACTGGAAGAACATTGTCGATAACTATCTCGAGTGCTATCACTGTGGTCCGGCGC +ATCCAGGTTTCTCCGACTCCGTACAGGTTGATCGTTACTGGCACACCATGCACGGTAACTGGACGCTGCA +ATACGGTTTCGCCAAACCGTCCGAACAGTCGTTTAAATTTGAAGAGGGTACGGATGCGGCATTCCACGGT +TTCTGGCTGTGGCCGTGCACGATGCTGAACGTCACCCCGATCAAAGGGATGATGACGGTCATTTATGAAT +TCCCGGTGGATTCTGAAACTACCCTGCAAAACTACGATATTTACTTCACCAATGAAGAGTTAACCGACGA +GCAAAAATCGCTGATTGAGTGGTATCGCGATGTGTTCCGTCCGGAAGATTTACGTCTGGTTGAAAGCGTA +CAGAAAGGGCTGAAATCGCGTGGCTATCGTGGTCAGGGGCGCATCATGGCCGACAGTAGCGGTAGTGGCA +TTTCCGAACATGGTATCGCCCATTTCCATAATCTGCTGGCGCAGGTGTTTAAGGACTAATGACATCGGCG +GCGGTATTTTCCGCCGCTGGGCTGATTTTTGATGGAGTACAGCAATGTCAGACTATCAAATGTTTGAAGT +ACAGGTGAGCCAGGTTGAACCCCTTACCGAACAGGTGAAACGCTTCACGCTGGTGGCAACCGATGGCAAA +CCATTACCTGCGTTTACCGGAGGAAGTCACGTCATTGTGCAGATGAGCGATGGTGATAACCAGTACAGCA +ATGCGTATTCACTACTGAGTTCGCCGCATGACACCTCTTGTTATCAGATTGCCGTTCGGCTGGAGGAAAA +CTCGCGCGGCGGTTCCCGCTTTTTGCATCAGCAGGTAAAAGTGGGCGATCGGTTAACGATTTCAACGCCT +AATAACCTGTTTGCGCTAATTCCCTCAGCCAGAAAGCATCTGTTTATCGCGGGCGGTATTGGTATCACCC +CTTTCCTGTCGCACATGGCAGAGCTGCAACACAGCGACGTCGACTGGCAGCTACATTACTGCTCGCGAAA +TCCAGAAAGTTGCGCATTTCGTGATGAGCTAGTCCAGCATCCGCAGGCTGAGAAAGTCCATTTGCATCAT +TCATCAACCGGAACACGACTGGAATTAGCGCGATTATTGGCGGATATCGAACCTGGCACACACGTTTATA +CCTGTGGCCCCGAGGCGCTAATTGAAGCGGTAAGAAGTGAAGCTGCGCGTCTGGACATCGCCGCCGATAC +GCTGCACTTTGAGCAATTTGCTATCGAAGACAAAACCGGCGATGCATTTACCCTGGTGCTTGCCCGTTCC +GGAAAAGAGTTTGTGGTGCCGGAAGAGATGACTATTTTGCAGGTTATTGAAAATAATAAAGCCGCGAAAG +TGGAATGTTTATGTCGTGAAGGGGTATGCGGAACCTGCGAAACAGCAATACTGGAAGGTGAAGCTGACCA +TCGGGATCAATATTTTAGCGATGAAGAGCGTGCCAGCCAGCAAAGTATGTTGATCTGTTGTTCGCGTGCG +AAGGGTAAACGCCTGGTGTTGGATTTGTAGTTTGCCGAAGCCGGATGTGGCGCTGAGCGCGCCCAGTCCG +GCTTCGGAAGATTTTACTGCGGATATTCCTGCAATAAATTGTGTAATGCTTCCGCCATCAGCTCACCACG +CCAGCCGGAAATCAGCTCCGGCAAATTGTTCTGCGGTTTCAGTTTCCAGTGCCAGTTCAGCAGTTGGTTG +ATTTGCCGACGCGATGCCAGCAATTCGGCGCTGATCTTATGCGTTTCGCTCACGTCAGTAATCAGCGACT +TAATCGCTTTAAACGCTTTACGATAACCCGGCATGTCCATCAGGTTAAGCATCGGCTGCGGTAAGGCATC +TTCCGGCAATGTCTGCGCTTTTTCCACCAGCGCTAGCAGCGTTTTACCGTGAAAGCGGATTTCGCTACCG +GATAAACCCAGGCTGTCCAGTTCGCCTAAACTTCCCGGCATATAACGCGCTACCGACCACAAATGCTCTT +CACGCACGACAAAGTTCACCGCCAGATCGCGCTCTCGCGCCTTGCGCAGTCGCCAGTCGGCTAACAGTTG +CAGACAGGCCAGTTGGCGTGTGCGTAATTGCCAGGCATTGGTGATATCACGCCAGGCATCTTCCGGCGCA +ACGACTTCCTGACGACGCATTTGCATCAGGCGGCATTCATCCAGCGCCGCAGGTAGCCAGCCGGAGGCCT +CCGTTTCTACCATAAGCTTGGCGGTGATCGGTAACAGATACCAGACATCCGCCGCTGCGTATTCACACTG +ACGTTCGGTCAGCGGTCTGGCCAGCCAGTCGGTGCGCGATTCACTCTTGTCCAGCGTAACGCCGGAATAC +TCTTCCACCATGGAAGCGAAACCCCATGACATCGGGCGTCCGCAGAAGGCAGCAAGGATTTGCGTGTCAA +TCAAGGGTTGTGGTAATTCGCCAAAGACATTGAGGAACACTTCCAGATCTTCACTGCCTGCATGGAGAAA +TTTTGTGATGGACGGATCGCGCAGGATCGCTTTCAGCGGTGACCAGTCGGTGATCCCGAGTGGATCGATT +AGCGCCAGATGCTCGCCATCGAAAAGTTGAATCAACCCCAGCTGCGGGTAATAAGTGCGCGTACGAACAA +ATTCAGTATCCAGGGCTATCGCCGGAAAGGCACGGACGGCTTCACACAAAGAAGCCAGCGCATCGTCCGT +GGTAATCATTTGGTAATTCAAATTGTTTTCTCTTTAGTGGGCGTCAAAAAAAACGCCGGATTAACCGGCG +TCTGACGACTGACTTAACGCTCAGGCTTTATTGTCCACTTTGCCGCGCGCTTCGTCACGTAATTCTCGTC +GCAAAATTTTTCCGACGTTAGATTTCGGTAACTCATCACGAAACTCCACCAGCTTCGGTACTTTGTATCC +CGTGAGCTGACGGCGGCAAAAAGTCACCAGTGACTCTTCGGTAAGCGATGGATCTTTTTTCACTACGAAG +ATTTTCACCGCTTCACCACTGGAGCCGGAAGGTACGCCAACAGCCGCGACTTCCTGTACGCCAGGATGCT +GCATGACGACATCTTCAATCTCGTTGGGATAGACGTTAAAACCGGAAACCAGAATCATGTCTTTTTTACG +ATCGACAATGCGCAGGAATCCTTCTTCATCCATTACCGCGATGTCGCCGGTGTGTAACCAGCCATTTTTG +ATGATTTCATCGGTAGCATCGGGACGCTGCCAGTAACCCAGCATCACCTGCGGTCCTTTGACACAAAGCT +CACCCGGTTGACCTGGTGGTACTTCATTATCATCATCATCCACCAGTTTGGCTTCCGTCGACGGCACCGG +CAAACCGATGCTACCACTATGATAATCAATATCATATGGGTTAACGCTGACCAGCGGCGCACACTCGGTA +AGGCCATAGCCTTCCAGCAGATACTGTCCGGTCAGTTTCACCCAACGCTCTGCCACCACTTGCTGCACTG +GCATCCCACCGCCTGCGGAAAGATGCAGACTGGAGAAATCCAGCTGCTGGAACTCTTTATTGTTCAGCAA +CGCATTGAACAAGGTGTTAACGCCCGTGATAGCGGTAAACGGATATTTCGCTAACTCTTTTACCAACCCT +GGAATATCGCGCGGGTTAGTGATAAGCAGGTTCTGCCCACCCAGTTCGATAAACAGCAGGCAGTTAATGG +TCAGGGCAAAAATGTGATACAGCGGCAGCGCCGTCACCACCAGCTCTTTGCCCGGATGCAACAGCGGACC +ATAGGTCGCGTTAACCTGTTCCAGGTTCGCCAGCATATTGCGGTGAGTCAGCATCGCGCCTTTCGCCACA +CCAGTGGTGCCGCCGGTGTATTGCAGAAAAGCTAAATCTTCCGGCACCAGTTCGGGTTTGACGTACTGCA +TCCGGTAGCCGTTATGCAGTGCGCTACGAAATGAAATGGCATCTGGCAGATGGTATTTCGGCACCAAACG +CTTGATGTATTTAACAACGAAATTGACTACCGTGCCTTTTGCCGTAGATAGCTGATCGCCCATACGGGTC +AGAATTACGTGCTGAACGGCGGTTTTATCAACCACTTTTTCCAGTGTGTGAGCAAAGTTAGACACGATAA +CAATCGCCGATGCGCCGCTATCGTTAAGCTGATGCTCAAGCTCACGCGGGGTATACAACGGGTTAACGTT +TACGACGATCATCCCGGCACGCAAAATGCCAAACAGCGCCACCGGATATTGCAATAAATTAGGCATCATC +AACGCAACGCGATCGCCTTTCTTCAGCCCCAACCCTTGTTGCAAATAAGCGGCAAACGCGCGACTGCGTT +CTTCCAGCTTGCGGAAGGTCATTACCTCCCCCATATTCACAAACGCAGGTTGATCGGCGTAGCGCGCGAC +CGACTGCTCAAACATATCTACCAGAGATTGATAACGGTCAGGGTTGATCTCCGTCGGAACGTCCGCGGGA +TAACGGTTAAGCCAAACCTTCTTCAATTCTTCACCTCTAAAATGCGTGTTCGTCGTCATCGCAACCCCAA +ATGATATACATGCCGTTAACATAATATTAACTCATCATACCAGCTTGATAATTACCCAACGAAAAGGTTG +CGAAGCGCGTCACTATTTATTTTTATCTTTACCGTAAGAATGCAGAAACAGCGGACCAGCCGCTGTTTCT +TTTTCTTTAAAAACAAGCAATTATTCAGTTACAACTGTTTGTACTCTCGCGGGGCCGGGATTATACCAGC +CCCATCCGCCGTAGCCATAGGGCCAGCCACGACCGCCATAAAACCATGGATCAATCGGCTGAGGCGGCAT +AATCACCTGCTGGGTTAAATGCCAACGTTTGTAACCCGTTACTTGCATCACCATAAATTTATAGGGCGTA +TTGCCGATTTTGCCGTCAACCGCACCAGTGATTGGCCCGACTACCGTAACCAGTTGTCCACGGAAATCCA +CCGGGTCCAGAAAACCGTTCACATCGGCATAAATGCGACCGCGAGAAGGTTCTCCCAGCGTCGGTCTGGC +TCCGCTGTCCAGCGGTACGGTAGCAATTTCCAGGCGAGTTTTCCCTTGCTGGTTTTGTACCGCAACCACT +TTGCCACCAAAGCGTGCCTCCTGACCAACGTACAGCTGCGGCGCACTCATCACCCGAACTAAATCTTGTT +GCGGCGTGGGACTGCTGCCTTTAATGGCGTCCGGCACAGTGACACAACCGCTCAGCATTAGCGCAAACGT +ACCTGCCAGTATGCCTTTGATAACATTCTTTTGAACCGCCATGGTGCGACTCCTTTTTTTCTCAGGGCAT +ACTCTTAAGATTCATTCTTTGCCCGGAAGTTTCTTCCATGCGACGTTGTTACGTAAATAAACCGGTTCGG +CATGTTCCACCGCCACCGTTTTACCCTCAGCAAACATCTGACACGCAATCGGCAGCATATCTTCAGCAGC +AGGCAGTAACACTTCGCCATCGCGCAAAACCAGCCCGCTCTCTTTACCGAGATCCGGCCAAGCTTGCCAG +CCCGTCCCTACCGTCACCCATTCGCCGGAAAGCTGTTGCATTCGTTCATGGACGATTTCGGGTTTGAGTA +CGGCTTCGGTTTCTTCACCGTGCCAGATACCGTTTTCATCACGCTGATATTCGGCCCAGTAAACTTCGCC +CATTCGCGCGTCAATGGCTGCCAGCACGCGGGTTGCGCCGTTTTTGCGCCACGCCCCTTGCGCCATCGTC +ATTAGCGTGGAGACGCCAATCATCGGTAATTCCGCGCCAAGCGCCAGCCCTTGCGCGATGCCAATACCAA +TGCGCACGCCAGTAAAGCTACCGGGGCCGCGCCCGTAAGCCAGAGCGTTAATATCAGTCAGGGAAGTTCC +GCTGGTGGTCAGGATATCCTGCACCATCGGTAAGATTCGTTGAGTATGTTCACGAGGGCAAAGCTCAAAA +TGAGCGTTGACAGTACCGTCGTTCCACAGGGCGACAGAGCAGGCCTCTGTCGCGGTATCGATAGCCAGAA +TTCGCATGGGTCTTCGTGCTTAGATCAATAAAAAGGCGCGCATCATACCATACTCCGTAACAAATTACCT +GGAGGATGGTATCGCAAGGAAACGAACCGCACGGGCAATGTCACGGGTGCGTGGCGCGGGCGGCAGACTG +GCGAGAAACGTCGCGCCGTAAGGACGCATCACCAGCCGATTGTCACAAATCACCAGCACGCCACGATCGT +CGGCGTCGCGAATCAGTCGCCCTACCCCCTGTTTGAGAGTAATGACGGCATCTGGTAGTTGCACTTCATC +GAACGGGTCGCCACCGCGCAAACGACAATCTTCCATGCGCGCTTTTAACAGTGGATCATCCGGCGAGGTA +AACGGCAATTTGTCGATAATTACCAATGACAATGTATCGCCACGCACGTCCACCCCTTCCCAGAAACTGC +TGGTTGCCACAAGAAGCGCATTACCGGCGCTGACAAATTGCTGCAACAGTTGCCCTTTGCTGGTTTCCCC +CTGCAACAATACAGGAAGCGTCATGGTAGCGCGGAACTGCTCGGCCAGATCGCGCATCATGGCGTGCGAG +GTACAAAGCATAAAACAACGACCGTTGTTAGCTTCGATGATCGGTCGCAGCATTGCCGCTAACTGGCGAG +CAGAACCTGGCTGGTTGGTTTGCGGCAGATTGCGCAGCACACAGAGTAACGCCTGGCGGCTGTAATCAAA +TGGGCTGGGCAACAGCAACGACTCGGCCTGTTCGATGCCAAGCCGCGAGGTGAAATGATGCAGATCGTCG +TTCACCGACAGCGTTGCTGAGGTGAAGATCCAGCTACCGGGTTTTTGCGCCATTAACTCTTTGAATTTAT +CCGCCACGCTGAGCGGCGTGAGAGCCAGAGTAAAATGGCGCGAAGTGCATTCGTACCAGTAGCTGTAGCC +CGGCTGATTGATCTCTTTTAGCCGCTTCAGCCGTGTGCGATACAACGTGGCGCGCTCAAATGCCGCATCC +AGCAAGGCGGAACGCCCCAGTGACAGTTTCGCCACGTCATAACAAAGTTCCAGGGTGTCATCGAGCAGTA +AAAATGCCCGCTGAATTTGCGGATTAGCTAACAGCTCACGCAGGTTACCGCGATAACCTGGCTCACCGAG +TTGCAGACGAAAATCCTGCGCACTCTGGGCAAGACGATCAGCGCACTTTTGTAACTGCTGGGTGTCTTTT +AATTCGGTGCGGTAGGCGATGGTGATGTCTTTTGCCAGGTCGAGCAGTTGTCGACTGGAGAGTGACTGAC +CAAAATACTGGCTGGCAATGTCCGGTAGCTGGTGGGCTTCGTCGAAGATCATGACGTCCGCTTCCGGGAT +CAGTTCGCCAAATCCACTCTCTTTAACCACCATATCCGCCAGAAAGAGATGATGGTTTACCACCACCACA +TCGGCGTCCATCGCTTTTTTACGTGCTTTGACCACAAAGCAATCTTTATACATCGGGCAGTCGCTGCCAA +GACAGTTGTCGTTGGTGCTGGTGACCAGCGGCCACGCCTGTGAATCTTCCGCCACGCTGACGCAGGTGCT +GATATCACCATCGACTGTTTGATTAGACCAGGAGCGCAGCAGGATCACATCGCTTAAGATTTGTACCGGC +AGATCGCCCCCCGCCAGCGCCTGCTGTTCGAGACGTTCGAGGCAGAGGTAGTTTGAGCGCCCTTTCAGCA +GCGCCACGTTGCCCGTATATTTCAATGCCTTTGAGACTGTTGGCAAATCGCGGCTGTAGAGCTGATCCTG +CAACGCTTTTGAGCCGGTCGAGATAATGACTTTCTTTTTCGCCCGCAGCGCAGGAGCCAGGTAAGCGTAG +GTTTTGCCCGTACCGGTTCCTGCTTCCACCACCAGCGGCTGGCCTTTTTCTATCGCCTGGGTGACGGCTA +CCGCCATCTGTCGCTGTGGTTCTCGCGGCTTAAAGCCTGGTATCGCTTTCGCCAGCTGACCGTCTGGTGC +AAAATCGTCCGTCACACTACCCCCTGTTGATTTGAACAGGGATTATGTCAGGATGAGGGCGCTTTCGCCA +GTTGAAGTGGTGACGGCGACCTCACATTGTGGCAGTCTTTGCAGCACGAAAATGGAAGTATAATGAGGAC +AAAATGATGACTATCGTTCGTATCGATGCTGAAGCCCGCTGGTCTGATGTAGTAATCCACAACAACACGC +TCTACTACACTGGTGTACCGGAAAACCTCGACGCCGATGCCTTTGAGCAAACCGCCAACACGCTGGCACA +GATTGACGCCGTGCTGGAAAAACAGGGCAGCAATAAATCGAGCATTCTGGATGCCACCATTTTCCTGGCC +GATAAAAACGACTTCGCGGCGATGAATAAAGCGTGGGATGCTTGGGTTGTCGCGGGTCATGCGCCGGTGC +GCTGCACGGTACAAGCGGGTTTGATGAACCCGAAGTATAAAGTTGAAATTAAGATTGTGGCTGCGGTGTA +AGCTTTATCGAAGCAAAATAAGTCAGACGATAATTTATCGATAATACTGGTCGGTTTTACATAAATCGAC +CAGAGAATAAGATATTACTGTTGATGCTTCTGCTAATTCATTATTTATATTTATAATTTCAATTTTATCT +ATAAAACTAACTATATAAATAAACATAAACATGCCGTTGTGTTCGCCCTTTGATTAGCAACTCTGGTTTT +CTTTCTTAGCTGAACAATCTGGTTATAGCGTGCGGACTGACCGTTAAATTTCTCCATCTTACTGGATAAC +ACACCATGAGCTGCTACCTTTAAAACACCTGAATGTCAACAGGTTAACTCGTGCCATATCGTTATAATCC +CTTTGATATTAGATGCAAATTAAGGTCATATATAGCCTTATCGATAACATGGTTAATTTTAAGGATAAGA +ATATGCCTGCTGTAATAGATAAAGCCCTGGATTTCATTGGTGCCATGGATGTATCAGCGCCAACACCAAG +TTCGATGAATGAAAGCACGGCGAAGGGAATCTTTAAATATTTAAAAGAACTGGGAGTACCCGCGAGTGCC +GCTGATATTACGGCGCGAGCTGACCAGGAAGGCTGGAACCCTGGGTTCACGGAAAAAATGGTTGGATGGG +CAAAAAAAATGGAGACAGGTGAACGTTCTGTGATTAAAAATCCTGAATACTTTTCAACATATATGCAGGA +AGAACTAAAAGCACTGGTCTGAGTTAAATTTATATCAGCATAAATGGGTCAGGACGCTTTTAATCACATA +TAAAAAGCGTCCTTTTTCTCACAATCAAATGATCATCGGCTTCTATAACGAAATCGATACGGATTAGTGT +GTTACTCGTCTTCATCCTCAAAACGCGCCACGATTCGCTCGCCGGAGTGGTTGGCACGCAGCTCTTCTGC +CACCAGCGCGATTGCCTGGCCGCTGCTCATCCCTTGTGCCATCAGTTCCTGGATCCGCTCGACAGCTTTT +TGCTGCTGTTCATGGGTGAGTGAAGGTAAACCTGCAAACATTGTTAACTCCTGCTAAATTGTTGGCGCTA +ATTATTTCATGCTACCCGGCACATAGCCAGTAGAGTCAGGACTGATGAAGACGTTATCTCCCGCTGTGAT +TACTTTACTCTGGCGTCAGGACGCCGCTGAATTTTATTTCTCCCGCTTAAGCCACCTGCCGTGGGCGATG +CTTTTACACTCCGGCTATGCCGATCATCCGTATAGCCGCTTTGATATTGTGGTCGCCGAGCCGATTTGCA +CTTTAACCACTTTCGGTAAAGAAACCGTTGTTAGTGAAAGCGAAAAACGCACAACGACCACTGATGACCC +GCTACAGGTGCTCCAGCAGGTGCTGGATCGCGCAGACATTCGCCCAACGCATAACGAAGATTTGCCATTT +CAGGGCGGCGCACTGGGGTTGTTTGGCTACGATCTGGGCCGCCGTTTTGAGTCACTGCCAGAAATTGCGG +AACAAGATATCGTTCTGCCGGATATGGCAGTGGGTATCTACGATTGGGCGCTCATTGTCGACCACCAGCG +TCATACAGTTTCTTTGCTGAGTCATAATGATGTCAATGCCCGTCGGGCCTGGCTGGAAAGCCAGCAATTC +TCGCCGCAGGAAGATTTCACGCTCACTTCCGACTGGCAATCCAATATGACCCGCGAGCAGTACGGCGAAA +AATTTCGCCAGGTACAGGAATATCTGCACAGCGGTGATTGCTATCAGGTGAATCTCGCCCAACGTTTTCA +TGCGACCTATTCTGGCGATGAATGGCAGGCATTCCTTCAGCTTAATCAGGCCAACCGCGCGCCATTTAGC +GCTTTTTTACGTCTTGAACAGGGTGCAATTTTAAGCCTTTCGCCAGAGCGGTTTATTCTTTGTGATAATA +GTGAAATCCAGACCCGCCCGATTAAAGGCACGCTACCACGCCTGCCCGATCCTCAGGAAGATAGCAAACA +AGCAGTAAAACTGGCGAACTCAGCGAAAGATCGTGCCGAAAATCTGATGATTGTCGATTTAATGCGTAAT +GATATCGGTCGTGTTGCCGTAGCAGGTTCGGTAAAAGTACCAGAGCTGTTCGTGGTGGAACCCTTCCCTG +CCGTGCATCATCTGGTCAGCACCATAACGGCGCAACTACCAGAACAGTTACACGCCAGCGATCTGCTGCG +CGCAGCTTTTCCTGGTGGCTCAATAACCGGGGCTCCGAAAGTACGGGCTATGGAAATTATCGACGAACTG +GAACCGCAGCGACGCAATGCCTGGTGCGGCAGCATTGGCTATTTGAGCTTTTGCGGCAACATGGATACCA +GTATTACTATCCGCACGCTGACTGCCATTAACGGACAAATTTTCTGCTCTGCGGGCGGTGGAATTGTCGC +CGATAGCCAGGAAGAAGCGGAATATCAGGAAACTTTTGATAAAGTTAATCGTATCCTGAAGCAACTGGAG +AAGTAAGACGTGGAATACCGTAGCCTGACGCTTGATGATTTTTTATCGCGCTTTCAACTTTTGCGCCCGC +AAATTAACCGGGAAACCCTAAATCATCGTCAGGCTGCTGTGTTAATCCCCATCGTCCGTCGACCGCAACC +GGGGTTGTTGCTGACTCAGCGTTCGATTCATCTGCGTAAACACGCTGGACAAGTGGCATTCCCTGGAGGT +GCAGTCGATGACACGGACGCATCAGCTATCGCCGCCGCGCTGCGCGAAGCTGAAGAAGAGGTCGCTATAC +CGCCTTCCGCCGTTGAAGTTATCGGCGTGCTGCCGCCCGTCGATAGCGTCACTGGCTACCAGGTAACCCC +AGTGGTCGGCATTATCCCGCCCGATCTGCCGTATCGCGCCAGTGAAGATGAAGTCTCGGCGGTGTTTGAA +ATGCCGCTCGCCCAGGCATTACATCTGGGTCGTTATCACCCTTTAGATATCTACCGCCGTGGTGATTCAC +ATCGGGTATGGCTGTCCTGGTACGAACAGTATTTTGTATGGGGAATGACCGCAGGCATAATTCGTGAGCT +GGCGCTGCAAATTGGTGTGAAACCCTGACTATACTTATCTTTACATCTACAAAACACTACTTGAGACAAT +CATCGCAATATTAGTTAAATCGCGGTTTTTGATTAGTTTAATTCATGTGAATAGTTAAGCCAGTCGCCGC +GTTCCCTCTTACACTATGCGCTGTTATTAGTTCGTTACTGGAAGTCCAGTCACCTTGTCAGGAGTATTAT +CGTGATTAGTCTATTCGACATGTTTAAGGTGGGGATTGGTCCCTCATCTTCCCATACCGTAGGGCCTATG +AAGGCAGGTAAACAGTTCGTCGATGATCTGGTCGAAAAAGGCTTACTGGATAGCGTTACTCGCGTTGCCG +TGGACGTTTATGGTTCACTGTCGCTGACGGGTAAAGGCCACCACACCGATATCGCCATTATTATGGGTCT +TGCAGGTAACGAACCTGCCACCGTGGATATCGACAGTATTCCCGGTTTTATTCGCGACGTAGAAGAGCGC +GAACGTCTGCTGCTGGCACAGGGACGGCATGAAGTGGATTTCCCGCGCGACAACGGGATGCGTTTTCATA +ACGGCAACCTGCCGCTGCATGAAAACGGTATGCAAATCCACGCCTATAACGGCGATGAAGTCGTCTACAG +CAAAACTTATTATTCCATCGGCGGCGGTTTTATCGTCGATGAAGAACACTTTGGTCAGGATGCTGCCAAC +GAAGTAAGCGTGCCGTATCCGTTCAAATCTGCCACCGAACTGCTCGCGTACTGTAATGAAACCGGCTATT +CGCTGTCTGGTCTCGCTATGCAGAACGAACTGGCGCTGCACAGCAAGAAAGAGATCGACGAGTATTTCGC +GCATGTCTGGCAAACCATGCAGGCATGTATCGATCGCGGGATGAACACCGAAGGTGTACTGCCAGGCCCG +CTGCGCGTGCCACGTCGTGCGTCTGCCCTGCGCCGGATGCTGGTTTCCAGCGATAAACTGTCTAACGATC +CGATGAATGTCATTGACTGGGTAAACATGTTTGCGCTGGCAGTTAACGAAGAAAACGCCGCCGGTGGTCG +TGTGGTAACTGCGCCAACCAACGGTGCCTGCGGTATCGTTCCGGCAGTGCTGGCTTACTATGACCACTTT +ATTGAATCGGTCAGCCCGGACATCTATACCCGTTACTTTATGGCAGCGGGCGCGATTGGTGCATTGTATA +AAATGAACGCCTCTATTTCCGGTGCGGAAGTTGGTTGCCAGGGCGAAGTGGGTGTTGCCTGTTCAATGGC +TGCTGCGGGTCTTGCAGAACTGCTGGGCGGTAGCCCGGAACAGGTTTGCGTGGCGGCGGAAATTGGCATG +GAACACAACCTTGGTTTAACCTGCGACCCGGTTGCAGGGCAGGTTCAGGTGCCGTGCATTGAGCGTAATG +CCATTGCCTCTGTGAAGGCGATTAACGCCGCGCGGATGGCTCTGCGCCGCACCAGTGCACCGCGCGTCTC +GCTGGATAAGGTCATCGAAACGATGTACGAAACCGGTAAGGACATGAACGCCAAATACCGCGAAACCTCA +CGCGGTGGTCTGGCAATCAAAGTCCAGTGTGACTAATACTTCTTACTCGCCCATCTGCAACGGATGGGCG +AATTTATACCCGCTTTCTCGTCTGCTGTAATATTCCCCACTACACTTCCACTGTTGCGTCAGGCGTTTGT +CGCCATACGCTTACAGGGTGGCCCGCATGCAAAAAGCACAACGGATCATTAAAACCTATCGTCGTAATCG +AATGATTGTTTGTACGATTTGCGCACTCGTTACGCTCGCTTCGACCCTGAGCGTGCGATTTATTTCACAG +CGTAACTTAAATCAACAACGGGTAGTACAATTCGCCAATCACGCTGTAGAGGAATTAGATAAAGTACTGC +TTCCCCTACAGGCAGGTAGCGAAGTCTTGCTTCCGCTGATTGGTCTGCCCTGCTCTGTCGCCCATTTGCC +ATTACGTAAACAGGCGGCAAAACTCCAAACTGTGCGATCCATTGGCCTGGTGCAAGACGGCACACTTTAT +TGCTCCAGCATTTTTGGTTATCGCAATGTGCCCGTCGTGGACATTCTGGCTGAACTTCCTGCACCGCAAC +CACTTTTACGCCTGACGATCGACCGTGCCCTGATTAAAGGCAGTCCGGTTTTGATTCAATGGACGCCTGC +AGCGGGCAGTAGCAATGCTGGGGTCATGGAGATGATTAACATCGACTTACTGACGGCAATGCTGCTTGAG +CCACAACTGCCGCAAATCAGTAGCGCCAGCCTGACGGTGGACAAACGGCATTTGCTCTATGGTAATGGGC +TGGTAGATTCCCTTCCGCAACCTGAAGACAATGAAAACTATCAGGTTTCTTCGCAACGCTTTCCTTTTAC +CATTAACGTTAATGGTCCGGGGGCTACGGCGCTGGCATGGCACTATCTTCCAACACAATTACCGCTGGCG +GTGCTGCTAAGTTTACTGGTGGGCTACATCGCCTGGCTGGCGACCGCTTACCGAATGAGCTTTTCCCGCG +AAATCAATCTGGGCCTGGCGCAACATGAGTTCGAATTGTTCTGTCAGCCTTTGCTTAATGCGCGCAGCCA +GCAATGTATTGGTGTAGAGATTTTGCTGCGCTGGAACAATCCGCGTCAGGGCTGGATTTCACCGGATGTG +TTTATTCCTATCGCGGAAGAACATCATTTAATTGTGCCACTGACCCGCTATGTGATGGCAGAAACCATTC +GTCAGCGCCATGTTTTCCCGATGAGTAGTCAGTTTCATGTTGGCATTAACGTCGCACCCAGCCATTTTCG +CCGTGGTGTGCTGATAAAAGATCTCAATCAGTACTGGTTTAGCGCTCACCCGATTCAGCAACTGATCCTC +GAAATCACCGAACGCGATGCCTTACTGGATGTTGATTATCGGATTGCCCGCGAGCTGCATCGTAAAAACG +TCAAACTGGCGATTGATGACTTCGGCACCGGCAACAGCTCGTTTTCCTGGCTTGAAACATTACGTCCTGA +CGTGCTGAAAATTGATAAGTCATTTACCGCAGCTATAGGTTCTGACGCGGTTAACTCGACGGTGACCGAT +ATCATCATCGCGCTGGGGCAAAGACTGAATATTGAACTGGTGGCGGAGGGCGTGGAAACGCAAGAACAGG +CGAAGTATTTGCGCCGTCATGGCGTGCATATTTTGCAAGGGTATTTGTACGCACAGCCGATGCCGCTACG +TGATTTTCCCAAATGGCTGGCGGGCAGCCAACCGCCGCCCGCCCGGCATAATGGACATATCACGCCCATT +ATGCCGTTACGTTAACGCTTACTCATCTTCATCGTGCGCCGGTTGCTCTTTAACAATGCGAACCAGATCA +ACACGATAATCATTGGCTTCAATGATGGTGATATGCAGTGGCCCTACATCAATCACATCGCCCACACGGG +GAATGTGACCATTTGCCGAGATCACGAGGCCCGCGACCGTCGCGATATCATCGTCATCGGCAAGGTGCTC +AACATCAAGCGCCTGCTGCAAGGCATGCAAATCTGTACCGCCTTTTACCAGCCAGCCGTCACCATCAGTA +ATGATTTCCGGCGTTTCGTCAGCGTCCGGGAATTCACCCGCAATGGCTTCCAGCACATCCAGCGGCGTGA +CCAGACCTTGTACCACACCAAACTCGTTGGTCACGATAACAAAGCTCCCGCGAGCACGACGCAGCACGCC +CAACAGGTTGATCGGATCGAGGGTTTCCGGGACGATAATCGCCGGAGACGCCGAAGCAATCGCCGCCACA +TCAACGCCCTCTTCCAGCGCCACCAGCAGTTCTTTAGCACGTACAATACCGATGATTTCATCCAGTTCAC +CGCGACATACCGGGAACAGACTGTGCGGTGAAGAGAGCAGTTGCTCGCGGATTTCATCGACCCCGAGATT +AGCGTCAACCCAGCTTATTTCACCGCGCGGCGTCATGATCCCGCGCAGAGAACGCGACGCCAGCGTCAGT +ACGCCGTTAATCATGTAACGTTCTTCTTCGGCAAATGCACCTTCCGGGATCGGCATCGGCATCGGGTTAT +CGGCATCGTGCTGAACATTGGCCTGACGTTTCCCGCCCATCAAACGCAGGATGGCATCGGCAGTACGCGC +TCGCAGCGGCAAAGTCGACTGGTGGCGAATAAAGTTGCGACGCGCAATCTGGTTAAACACTTCGATGATG +ATCGAGAAGCCAATCGCGGCATACAGGTAACCTTTCGGAATGTGGAAACCGAAACCTTCTGCCACCAGAC +TCAGACCAATCATTAACAGGAAGCTCAGACAGAGCACCACCACCGTGGGGTGCTGGTTAACGAATCGCGT +CAGCGGTTTGGATGCCAGCAACATAACCGCCATCGCAATCACTACCGCCGCCATCATCACCGGCAGATGG +TTAACCATCCCTACTGCAGTAATTACCGCATCCAACGAGAAGACGGCGTCAAGGATGACAATCTGTGTGA +CGACCACCCAGAAACTGGCGTAGCCTTTACCGTGGCCGGAATCATGATCGCGGTTTTCCAGCCGTTCATG +CAGTTCGGTTGTTGCTTTGAACAGCAAGAATATCCCCCCGAACAACATAATCAGGTCGCGTCCGGAGAAG +GAGAAATCCATGACGGTAAATAGCGGTTTGGTCAGCGTGACCATCCATGAAATCAGCGACAGCAGCCCCA +GACGCATAATCAGCGCCAGTGATAACCCCAGCAAACGCGCTTTATCGCGTTGTTTTGGCGGCAGTTTGTC +AGCAAGAATGGCGATGAAGACCAGGTTATCGATACCCAGCACAATTTCGAGAACAACAAGCGTGAGTAGC +CCCGCCCAAATTGAGGGGTCCATTAAGAATTCCATGACAAGCTCCTGCTTAAGGAATAGCTATTCGACGC +CAGAAATAATGCAGGCGTAACGACAAAATGCAAACGAAAGGTGCGGCATAGAGTGCCAGAAAGGCAGGCG +TTAAAAGGCCTGATGCTGAAATGACGTCGGTGACGATCCATACTGCGGGCTACTGCCCTATACTCCATGG +TTGTTAAACGGGAGTTAAACATATCAGAGACGCCTCTGATTTGGCAAAGATTTACCTTCCTTTGCAAACG +AATGTGACAAGGATATTTTACCTTTCGAAATTTCTGCTAATCGAAAGTTAAATTACGGATCTTCATCACA +TAAAATAATTTTTTCGATATCTAAAATAAATCGCGAAACGCAGGGGTTTTTGGTTGTAGCCCTTATCTGA +ATCGATTCGATTGTGGACGACGATTCAAAAATACATCTGGCACGTTGAGGTGTTAACGATAATAAAGGAG +GTAGCAAGTGACCATTGCTATTGTTATAGGCACACATGGTTGGGCTGCAGAGCAGTTGCTTAAAACGGCA +GAAATGCTGTTAGGCGAGCAGGAAAACGTCGGCTGGATCGATTTCGTTCCAGGTGAAAATGCCGAAACGC +TGATTGAAAAGTACAACGCTCAGTTGGCAAAACTCGACACCACTAAAGGCGTGCTGTTTCTCGTTGATAC +ATGGGGAGGCAGCCCGTTCAATGCTGCCAGCCGCATTGTCGTCGACAAAGAGCATTATGAAGTCATTGCA +GGCGTTAACATTCCAATGCTCGTGGAAACGTTAATGGCCCGTGATGATGACCCAAGCTTTGATGAACTGG +TGGCACTGGCAGTAGAAACAGGCCGTGAAGGCGTGAAAGCACTGAAAGCCAAACCGGTTGAAAAAGCCGC +GCCAGCACCCGCTGCCGCAGCACCAAAAGCGGCTCCAACTCCGGCAAAACCAATGGGGCCAAACGACTAC +ATGGTTATTGGCCTTGCGCGTATCGACGACCGTCTGATTCACGGTCAGGTCGCCACCCGCTGGACCAAAG +AAACCAATGTCTCCCGTATTATTGTTGTTAGTGATGAAGTGGCTGCGGATACCGTTCGTAAGACACTGCT +CACCCAGGTTGCACCTCCGGGCGTAACAGCACACGTAGTTGATGTTGCCAAAATGATTCGCGTCTACAAC +AACCCGAAATATGCTGGCGAACGCGTAATGCTGTTATTTACCAACCCAACAGATGTAGAGCGTCTCGTTG +AAGGCGGCGTGAAAATCACCTCTGTTAACGTCGGTGGTATGGCATTCCGTCAGGGTAAAACCCAGGTGAA +TAACGCGGTTTCGGTTGATGAAAAAGATATCGAGGCGTTCAAGAAACTGAATGCGCGCGGTATTGAGCTG +GAAGTCCGTAAGGTTTCCACCGATCCGAAACTGAAAATGATGGATCTGATCAGCAAAATCGATAAGTAAC +GTATTGTGTTGATTATCACTCAGTTTTCACACTTAAGTCTTACGTAAACAGGAGAAGTACAATGGAGATT +ACCACTCTTCAAATTGTGCTGGTATTTATCGTAGCCTGTATCGCAGGTATGGGATCAATCCTCGATGAAT +TTCAGTTTCACCGTCCGCTAATCGCGTGTACCCTGGTGGGTATCGTTCTTGGGGATATGAAAACCGGTAT +TATTATCGGTGGTACGCTGGAAATGATCGCGCTGGGCTGGATGAACATCGGTGCTGCAGTTGCGCCTGAC +GCCGCTCTGGCTTCTATCATTTCTACCATTCTGGTTATCGCAGGTCATCAGAGCATTGGTGCAGGTATCG +CACTGGCAATCCCTCTGGCCGCTGCGGGCCAGGTACTGACCATCATCGTTCGTACTATTACCGTTGCTTT +CCAGCACGCTGCGGATAAGGCTGCTGATAACGGCAACCTGACAGCGATTTCCTGGATCCACGTTTCTTCT +CTGTTCCTGCAAGCAATGCGTGTGGCTATTCCGGCCGTCATCGTTGCGCTGTCTGTTGGTACCAGCGAAG +TACAGAACATGCTGAATGCGATTCCGGAAGTGGTGACCAATGGTCTGAATATCGCCGGTGGCATGATCGT +GGTGGTTGGTTATGCGATGGTTATCAACATGATGCGTGCTGGCTACCTGATGCCGTTCTTCTACCTCGGC +TTCGTAACCGCAGCATTCACCAACTTTAACCTGGTTGCTCTGGGTGTGATTGGTACTGTTATGGCAGTGC +TCTACATCCAACTTAGCCCGAAATACAACCGCGTAGCCGGTGCGCCTGCTCAGGCAGCTGGTAACAACGA +TCTCGATAACGAACTGGACTAACAGGTGAGCGAAATGGTTGATACAACTCAAACTACCACCGAGAAAAAA +CTCACTCAAAGTGATATTCGTGGCGTCTTCCTGCGTTCTAACCTCTTCCAGGGTTCATGGAACTTCGAAC +GTATGCAGGCACTGGGTTTCTGCTTCTCTATGGTACCGGCAATTCGTCGCCTCTACCCTGAGAACAACGA +AGCTCGTAAACAAGCTATTCGCCGTCACCTGGAGTTCTTTAACACCCAGCCGTTCGTGGCTGCGCCGATT +CTCGGCGTAACCCTGGCGCTGGAAGAACAGCGTGCTAATGGCGCAGAGATCGACGACGGTGCTATCAACG +GTATCAAAGTCGGTTTGATGGGGCCACTGGCTGGTGTAGGCGACCCGATCTTCTGGGGAACCGTACGTCC +GGTATTTGCAGCACTGGGTGCCGGTATCGCGATGAGCGGCAGCCTGTTAGGTCCGCTGCTGTTCTTCATC +CTGTTTAACCTGGTGCGTCTGGCAACCCGTTACTACGGCGTAGCGTATGGTTACTCCAAAGGTATCGATA +TCGTTAAAGATATGGGTGGTGGCTTCCTGCAAAAACTGACGGAAGGGGCGTCTATCCTCGGCCTGTTTGT +CATGGGGGCATTGGTTAACAAGTGGACACATGTCAACATCCCGCTGGTTGTCTCTCGCATTACTGACCAG +ACGGGCAAAGAACACGTTACTACTGTCCAGACTATTCTGGACCAGTTAATGCCAGGCCTGGTACCACTGC +TGCTGACCTTTGCTTGTATGTGGCTACTGCGCAAAAAAGTTAACCCGCTGTGGATCATCGTTGGCTTCTT +CGTCATCGGTATCGCTGGTTACGCTTGCGGCCTGCTGGGACTGTAAGACTGTTGTACACTACCGGGGCCT +TTTGGCCCCGTTTTTTTATCTGGAGGATTAATGACAATCACGGACCTGGTACTGATTCTTTTCATCGCCG +CACTCCTGGCCTTCGCGATCTACGATCAGTTCATCATGCCCCGCCGTAACGGCCCCACCCTGCTGGCAAT +TCCTTTGCTCCGGCGTGGTCGCATCGATAGCGTTATCTTCGTCGGATTGATTGTCATTCTTATCTATAAC +AACGTCACGAATCATGGTGCGTTAATAACGACATGGTTATTAAGCGCACTGGCTCTGATGGGTTTTTATA +TATTCTGGATCCGCGTTCCGAAGATCATCTTTAAACAAAAAGGTTTTTTCTTCGCCAATGTCTGGATTGA +ATATAGCCGAATCAAAGCGATGAACTTGTCGGAAGATGGCGTGTTGGTGATGCAATTAGAACAGCGTCGG +CTGTTAATCCGCGTTCGAAATATCGACGATCTGGAAAAAATTTATAAGCTTCTCGTTTCAACTCAATAAG +TTATGAATTTAGCCAAAGCTATGTTTAGTGTATTTTTAATAATCAGACATAGCTTAGGCTATATTACCTC +TTCCCTTATTTGTTATTTATTTTAACGTTTCATTGATATATAAATCCAAATGAAAATCGTTATCAATAAA +GCAATGAAATAATATATTCCAACAGTTGTTTTATATTCTCAAAATATGTTAAGGTTGCGCCCTCATTTGG +GGAGTAGCCGATTTCCAGATTCCGGAAATGTACGTGTCAACATACTCGTTGCAAAACGTGGCACGTACGG +ACTGAATACTTTCAGTCAGGCGAGACCATATGCACATCAATCGCTATGCCTGCATGAACGCGAAAACCAT +CACGGCTTGTTGTTCATGTATGCATGTTTGCTGGGGGCGATGATGTGTTTTATGGATACCCCGGTCAGGA +CATTGTCATGAATATCACTGCTACTGTTCTTCTTGCGTTTGGTATGTCGATGGATGCATTTGCTGCATCA +ATCGGTAAAGGTGCCACCCTCCATAAACCGAAATTTTCTGAAGCATTGCGAACCGGCCTTATTTTTGGTG +CCGTCGAAACCCTGACGCCGCTGATCGGCTGGGGAATGGGCATGTTAGCCAGCCGGTTTGTCCTTGAATG +GAACCACTGGATTGCGTTTGTGCTGCTGATATTCCTCGGCGGGCGAATGATTATTGAGGGTTTTCGTGGC +GCAGATGATGAAGATGAAGAGCCGCGCCGTCGACACGGTTTCTGGCTACTGGTAACCACCGCGATTGCCA +CCAGCCTGGATGCCATGGCTGTGGGTGTTGGTCTTGCTTTCCTGCAGGTCAACATTATCGCGACCGCATT +GGCCATTGGTTGTGCAACCTTGATTATGTCAACATTAGGGATGATGGTTGGTCGCTTTATCGGCTCAATT +ATTGGGAAAAAAGCGGAAATTCTCGGCGGGCTGGTGCTGATCGGCATCGGCGTCCAGATCCTCTGGACGC +ACTTCCACGGTTAATAAGAACGCTGCCAGAGGTGAATATTAAAGTCCGTCTGGCAGTCGAACACTTCTTT +TGCTGCCAGTGTTTGCCAGACTTCTGGCTTCGCACGCCAGGCAAACGGCGTCATCTGCAATAATGCGACG +GCTTCATCACCGCGAAGACGCATCGGATAACACAACTCCGCACTCTGCTGTAATGTAAAACCTTCCAGTT +GTTCTGCATGAGGTGCATGAAGATGTACTTCATTGTAAATCAGCCCCTTCAGCTCCATCAAATGTCGCGG +TCCCGGCGTGGCAGTAATGACCCAGCCGCCGGGCTTCACTACTCGTGCTAATTCTTCTGCTTTACACGGC +GCGTAAATACGTATTATGGCGTCCATACTGGTATCGGAAAACGGCAAACGGTGGCTGGAAGCGACACAAA +AAGTGACCTGCGGATAGCGTTTCGCCGCCGCTTTTATCGCTACCTTCGAAACATCCAGACCAAACGTGGT +GATTTCGGGCAACGCATCGGCAAATGCGTGTGTGTAATACCCTTCACCACAGCCAATATCCAGCACCGCC +GTGGCCTTATCATCAAGCCGTTCCCTCAGTTGGGCGACAATTGCATCACGCAGCGGCTGATAATGTCCGG +CATCTAAGAATGCGCGGCGTGCTTGCATCATTTCCGCGCTGTCGCCCGGATCACGAGACCGTTTATGCTG +AACGGGCAGCAGATTGACATACCCTTCTTTCGCCATATCAAACTGATGTCGCTGGGGACAGATATAGCTG +TTTTTTTCACGCGAAAGAGGCTGATGGCAAAGTGGACAGGAAAAAGACATGACAACTCCGGCAGGATACT +AAAGGCCGCAAGTGTAACGCGAATCACGCGGCGGGCAAATATCCGAACGCCAGGAGCGAAGATAAAGCAT +AGTAAAAAGCCTCGCATTCGACGAGGCTTTATAGCGAGATTGAAGCGTATTCACACTTCAGATCAGTGGA +TTCGATCAGATAGCTGTTACGTTAACAGCTGCCGGACCTTTCTGGCCGTCCTGAATTTCGAACTCAACGT +TCTGACCTTCAGCCAGAGTTTTGAAGCCATTACCCTGGATAGCGGAGAAGTGTACGAACACATCTTTGCT +GCCATCAGCCGGAGTAATGAAGCCAAAACCTTTAGACTCGTTGAACCACTTAACCTGACCTTTAATCTTT +GCCATTTGAAAAATTCCTTAGATTGTTTTCTTCGCCCGCAGGCATAACATAGATAAAACTGACACATTAC +TGCATGAGGCACCAATATAAGGCTCGGCAGAGAAGCGGTATTCAACGTCAACGTGTTTACTCAGGACTTC +TTTACTGAAAATGCCACACATAAACAGAACTGTACCTCGTTTAACCCGAAATCTGTTATCACATACAACG +TTAATTATGGCAAGCCATTTTTAAACATGTCTCGATCAGACGCACAAATCTCGATACGTCTTCCACTTTT +TTTGCACACTTATGCAACGGAATACGCGCCGATATATCATTGTGCTTAACCTTGCCAGTTCAGGCAGATA +CTTAAACTGGCGTATTTTCTAACATAGTTCAATAAGTTCAGTTGTTCCAGGCCAGTGGGAGAAGTTATTA +CATAGTGCGTGCAATATCACATTTTTTGCTATGCAATGAATAAAAAGTTATATCACTTTTTCTCATAAAA +CAGTCAGTTAACGGCTATTAATTACCCTAAAGAGAAGTCAATCCCCAAAGGGATTGTAAATTTAAAATAA +GAAAAATTGATGAATGAGCAAAAAAATCAAGAGAGAAACGTTTCGCTAATAAATAATACCACGCTTAATC +ACAAATCCGATGTAAACATCCTAATAAATTAATGGGGTAAATATCTTTTTCTGATATCCCGTTACGCAAA +TAAATAATATGATAATTATTTGAAGTCAGACCAGAGTTTTAATTTGAAGCAGTTGCACCATGACAGTGCG +TATAATCAGGATGAATTGAGTAACCCTTCAACGACGGGGTTACTCAAGATTGAGGAAGGATTATCGTTCG +GCGACCAGACGAATAATATCTTCGTCTTCAACCGATTTTTGACTCTCAACGGTCTTTTTATCTGCTTTCT +CTGGTTCGTTTGCTTCGCACAAACGACGTAACAGTGCATTTTGACGTTTTTGCTGATCCAGCAACGCCTC +AAGCAGTTCAATCTGTTCGTTAGTCCGTGAACTGGCACGATTGATAAAAAACCACAAGATGAGCCCGATA +AGAAGAACCACCACCGATACAACCAAAGACGCAATGTTCATCACGCCTGAATTTACAACTTCGTTCATTT +CACCACCTCTGAGTAGAGGCGCTATTCTACCACTGCTGGAGAGGAAGAAAATCTAGTGCTGAAAAAATGA +TATCACCACGGGATAAACTGGTTAATGGCACAAATTCCGCTGAAAAATTGTACATCCTGATCGCACATCA +TGTTGAATACCTGCGCCCAAAGCAGCAAGCAAGCCAACACCACGACAACCAGAACGACCCATCGAAACTT +TTTCACTCCAATCTCCGTTTCACCTACCTTATGTCATTAAACTAGCATGCGTTAGTTAAACAGCGCCTAA +CTATGTCGATATTCGTGCTTTTTCGGAATGAGTCGCTTGCTTCAGCGCATATTGCCGCTACGATTAAGCG +AACATAAAAAGAGAAGAGGTTGTAATGCGATTCATCATTCGCACAGTTATGCTGATAGCACTGGTATGGA +TAGGATTATTACTCAGCGGATATGGCGTTTTGATTGGAAGCAAAGAGAATGCCGCAGGATTAGGTTTGCA +ATGTACCTATCTGACTGCCAGAGGCACCAGCACGGTACAATACTTGCACACTAAAAGTGGTTTTTTGGGG +ATAACAGATTGCCCGCTGTTACGCAAAAGCAATATCGTGGTCGATAATGGTTAAGGGCAATAAATAACCA +GATTCTCACTCCTGAGTAAAATACTCTTATAGCAAGCGCGTTTAATATAACGCCACCTTCAACTTTATTT +TTCTCATGCTAAATAAAGAACCTGTCTGTTTGATATTCCGACAGGTTCTTACTCTCATCAGAACGGATAG +TCGTGATAACCCATTTGGGCAGAAATTTTGCGCGCTGCGGTATGCAACATTGCGACATATTCCTGTAAAC +GCTCTTCAGAGAAACGCAACGTCGGGAAGGAGATGCTCAAACCGGCAATGACCACGCCAAAGCGATCAAA +TACCGGTACCGCAATGCATCGCAGCCCTTCTTCCTGCTCTTCATTATCTTCGCCATACCCCTGCTCGCGC +ACCTGGTCCAGAACGGGTAATAACGCTTCTGTACTGGTGATGGTCCGCTCGGTACTGCGTTTATACTCCA +CGCCCTCAAGAATTTGCTTCACTTCATCGCGATCGCGCCATGCCAGCAGTACCTTACCAATCGCGGTGCT +GTACAGCGGATTACGACGCCCAATCCGTGAATACATGCGCAAATTGTACATAGAGTCAATTTTGTGAATG +TAAACAATACTGTCTTCGTCCAGTGCGCCGAGGTGGATAGTTTCTTTGGTCAGGCGGGAGAGCTCACGCA +TCTGGATATCTGCGCTACGAATTAAATCGACGTTTTGTAACGCGCGAGCGCCCAGTTCAAACAATTTCAG +GGTCAGGGAATATTTCTCCGACTCCCCTTCCTGCGCCACATAACCTAAGGTTTTCATGGTCTGTAAAAAG +CGATAAACGGTGCTTTTTGACATCATGACGCGCTGCGACAGCTCGGTTATCCCTATTTCGCGCTCTTCAC +CCAGCGCCTGCAAAATGCCAAAAACTTTTAGCACGGAAGATACAGAATCAGGCTGTTTATCCAGATCTGC +GTTAGCCATTTATCACCTCATTGCGAGTGTTTTATAAAAATCAGAACTGTTTTTTATTATAATTTCGCAC +CAGGGTGGTCGCAATCCATCTTTTGCCGGTTAGTTACAATTCTGCGACATCCACCGTGAATATCAGTGCT +AGAATCATACCCCTGTTGATTATTCACCAAAGATATAAAATTCCTATGCCAAAAGTTCAGGCCGACGGCC +TGCCATTGCCCCAGCGATACGGTGCGATATTAACCATTGTGATTGGTATTTCGATGGCCGTCCTTGACGG +CGCAATCGCCAACGTCGCCCTGCCAACAATCGCCACGGACCTTCATGCCACGCCAGCCAGTTCCATCTGG +GTAGTGAACGCCTATCAAATCGCCATTGTCATCTCCCTGCTCTCGTTTTCGTTTCTGGGCGATATGTTTG +GCTATCGACGTATTTATAAATGCGGTCTGGTCGTTTTTCTGTTGTCTTCACTGTTCTGCGCCCTTTCTGA +TTCGCTGCAAATGCTCACCCTTGCGCGTGTCATACAAGGTTTCGGCGGTGCAGCGTTGATGAGCGTTAAT +ACCGCACTTATCCGCCTGATCTATCCACAACGTTTTCTGGGTAGAGGGATGGGCATAAACTCGTTTATTG +TTGCCGTCTCTTCTGCTGCCGGGCCGACAATTGCTGCAGCAATCCTCTCCATCGCATCCTGGAAATGGTT +ATTTTTAATCAACGTACCGTTAGGTATTATCGCCCTGCTTCTGGCGATGCGTTTTCTGCCACCCAATGGT +TCTCGCGCCAGTAAACCCCGTTTCGACCTGCCCAGCGCCGTGATGAACGCGTTAACCTTCGGCCTGCTTA +TCACTGCGTTGAGTGGTTTCGCTCAGGGGCAATCGCTGACGTTAATTGCTGCGGAACTGGTGGTAATGGT +TGTTGTTGGTATTTTCTTTATTCGCCGCCAGCTTTCTCTTCCCGTACCGCTGCTACCGGTGGATTTACTG +CGTATCCCGCTGTTTTCACTTTCTATTTGCACATCTGTTTGCTCTTTCTGCGCACAAATGCTGGCAATGG +TTTCCCTGCCCTTTTACCTGCAAACCGTGCTCGGGCGTAGTGAAGTCGAAACAGGTTTACTTCTGACACC +GTGGCCGTTAGCAACGATGGTGATGGCTCCGCTGGCAGGCTATTTGATTGAACGCGTACATGCAGGATTG +CTGGGGGCTTTAGGGTTGTTCATCATGGCTGCGGGGCTTTTTTCCCTGGTTCTGCTGCCCGCGTCACCTG +CGGATATCAATATTATCTGGCCGATGATCTTATGTGGTGCTGGATTTGGCTTATTCCAGTCACCCAATAA +CCACACCATTATTACCTCCGCGCCTCGCGAACGTAGCGGTGGAGCCAGTGGCATGTTAGGAACGGCTCGT +CTACTGGGTCAGAGTAGCGGCGCGGCGCTGGTGGCGCTGATGCTAAATCAGTTTGGAGATAATGGTACAC +ACGTCTCGCTGATGGCTGCGGCTATTCTGGCAGTGATTGCTGCCTGTGTCAGTGGTTTACGTATCACTCA +GCCACGATCCAGGGCATAAAAAAAGCGCGTCGATCAGGACGCGCTTTTTAGTATTTACTTCATATTACTT +CAGGTATTCACCCGTACGCAGAGCTTCAATTCGTTTATCCAGCGGCGGGTGGGTCATGAACAACTCACTG +AGCGATTTCGACTTACCGTTAATGCAGAGAGCCATCATGCTGGTTGCTTCTTGCGGTTCATAGCTGGTTT +TCAGGCGCTGCAGCGCGGCAATCATTTTCTCGCGACCAACCAGTTTTGCCGAACCGGCATCAGCATGGAA +TTCACGATGACGCGAGAACCACATGGTGATAATGCTCGCCAGAATACCAAACACCAGTTCCAGAACCGTT +GCAACCGCAAAGTAGATCAGCGGGTTGCCGTTGCTCTCTTCACCTTCATCACGATTTCCGCCCATAAAAC +CCGCGGCAAGCTGCGCCAGAATACGGGAAATAAAGATAACGAAGGTGTTCACCACGCCCTGAATCAGCGT +CATGGTGACCATATCACCATTGGCGATGTGGCTGATTTCGTGAGCAATTACCGCCTCGGCTTCATCCGGG +CTCATGTTCTGCAGCAAACCGGTGCTGACAGCAACCAGAGAGGCATCACGGCGCGCACCGGTTGCAAAAG +CGTTGATGTCCGGCGCATGGTAGATAGCCACTTGCGGCATAGCGATCCCCGCCTGACGAGCCTGGGTTGC +TACAGTATTGACCAGCCAACGTTCCCTTTCGTTACGCGGTTGCTCGATCACTTCCCCGCCAACAGATCGT +AATGCCATCCATTTGGACATCAGAAGCGAAACGAAGGAACCACCAAAACCGAACAGCAAGGCCATGATCA +TCAGCCCCTGAACGCTGCTCGACTGTATCCCTGTCAGGCTCAGTACCAGCCCGAAAACGACCATTACGGC +CAGGTTCGTTAGCAGGAAGAGCGCGATTCGCATCATAATTTTCTTTTTACCTCAGTTTAACAAAACGCAA +TATGCGATACCCACATCGTATGGGTTACGCGACTATTTTCAAGTCTGGATAGTGCGTAAGTCACCAGAAA +GACACAACTTTACATTTTGTAGCATCTGATTTACGGCATCTTGTCGCTGTTAAAAAATCAGGCACAATTT +CTTGTGCCTGATTGATATTACTTGACGGGAGCGGGTTGTTCCGCGGGTCTGGCTTTTTCAAGCTTCGCCA +GATCGAGTGCGATATTCACCGTCTCATCCAGATAAGGATCCGGCTCCTGGTAATCTTTCGGTAGATCATC +CAGTTTCTTCAACTCCGGTTTACCTTCGCGTTTAAAGCGTTCGTTCAAACGCGCCAGACGCGTCGCATCA +TCTTCATTATTCTCTTTCTCACGCACAGCGTAATTCAGAGAAACGATATTGCGCTTGTCCTTCATAGCGT +TGAAGCGCGCGATATCCTTCATGATGTTCTGGAACTCAGGATCTTTCGCGATACGCGCATTATGTTCCTT +CAGCAGCTCCGGTTCAAAGGCCGTTAAATCTCCTGATTTCACATAAGTCGCGGCATCAATGCTATCCCAC +GGCAGCGCGTTATCTTCGAATTTCTCACCCGTTTCCGTTTCTTCATTACCCGTCGGCATGATGATGTCTG +GCGTTACGCCTTTACGTTGCGTACTGCCGCCGTTAACGCGATAGAATTTCTGGATCGTGTACTGCACAGA +ACCCAGCGCTGGCCATTCAGGACGTAACATCTGATCGTAAATACGGTTCAATGAACGGTATTGCTGAACG +GTGCCTTTACCAAACGTCGGTTCACCCACAACCAGCGCACGACCGTAATCCTGCATTGCCGCGGCAAAGA +TTTCTGAAGCCGAAGCACTGAAGCGGTCAACCAGCACCACCAGCGGGCCTTTATAGAAAACCTGTCCGTC +GGTATCGCTATCTTCACGAACCTTGCCGTTGTTATCGCGGACCTGAACAATGGGACCCGCAGGAATAAAC +AGACCGGAGAGCGATACGGCTTCAGTTAACGCCCCACCGCCATTGCTACGCAGGTCGATGATGACGCTGC +TGACATTCTGTTTTTCCAGTTTCTGCAGTTGCACTTTGACATCGTCTGTCAAACCCACATAGAAGCCCGG +AATATCCAGCACGCCGACTTTCTCTTTACCGACGGTCTTCACCGACATTTTAACCGCGCGGTCTTCGAGA +CGAATACGTTCACGGGTCAACGTTACAGTACGGGTCTTGGTCCCTTTACCAGCAGGTAAAATTTCCAGAC +GAACTTTACTGCCCTTCGGCCCTTTAATTAAGGCAACCACATCATCAAGACGCCAGCCAATCACGTCAAC +CATCGGCTTGCCTGTTTGACCAACACCGACAATTTTGTCACCAACGCTGATAGCTTTACTCTTCGCTGCC +GGACCACCTGCCACCATCGAATTGATAACGGTGTAGTCATCATCCATTTGCAGCACTGCGCCAATACCTT +CCAGCGACAAACTCATTTCAGTGTTGAACTGTTCGGTATTACGCGGGGAAAGATAGTTGGTATGCGGGTC +GATTTCACGCGCAAACGCCGTCATTGCCAGCGAGAAAACATCTTCGCTGTTGGTTTGCGCCAGACGACGA +ATGGCAAATTTGTAGCGGCGAGTCAGGGTTTCACGAATTTCTTTATCCGTTTTTCCTGTCAGCTTCAGGC +TTAACTCGTCGAATTTGACTTTACTGTCCCACAGCGCGTTCAACTCAGCCTCGTTTTTCGGCCAGGGCGC +TTTGCTGCGGTCAAGGTTATAAGTGTCGTTGCCGGTGAAATCCATCGGCTTTTCCAGTACCGACAAAGCG +TACTGGTAACGCTCAAAACGGCGCTTTTGCGCCAGATTGTAGAGATCGTAGAAAACGTCGAGTTTGCCTG +AACGCAGTTCATCGCCTAACTCGGTTTTCTTTTTCGCGAACTGTTCAACATCGCTTGCCAGCAGCACGTT +GTGGCTGTAATCGAGCAGATTCAGGTAGCGGTCAAAGATTTTGGCCGAAAATGCCTGATCGAGGTCGAAC +TGGCGATAATGAGAACGGGTGAAGCGCGACGTTACGCGCTCACTTACCGTCGCATGCTGCGTCTCTTCCT +TTAATACCGGAATTTGATCAGCACGCGTGATATCTTCTACAGCGAAGGTCTGGCCTGCTATTGCAAGCAG +GCCAGCTAACGCGGTAAGCCTAAAAAACATGTTCATGCCTGGCCCGGCCTCCGTTTCAGAACACCAGGTG +TTCTGCGCGCACAATCAAAGACATACCCGAATTCAGCTGGACGCGGACGCCGTCTTTGGTGATTTCTAAT +ACGGTGGCATCCATCGCGTTTTGACCCGCTTTCACCTTCAGGGCTTGTCCGACAGTCAGAGCTGAAATGT +CAGAAACCGGGGTGTGCTGTTCTTCGCGAGGTGCTTTTACTGTTTTTGGCGCTTTCTCTACCGGCTTTTG +CGCACGAGGTTTACGTTCAGCGCCTTCTTTGCGGCGTGGCGTAGTCGGACGTGGCTTGCGTTCGCGGCGC +GGTGCGTCTTCTTTCTCACCAGCAGTTGCGGCAGCTTCGCGTTTTTTCGCTTGCTGTTCAGCACGCTGTG +CCTGAACACGCGCTTTCGCTTCTTCAAGCTGCTTGCGAGCATGCTCTACATGTTGCTCGTCCAGCTCACC +GCATGGGTTGCCGTCAAGATCGACACGCGTTGCGCCGGGTTTAACACCGTAAAGATAACGCCAGCTCGAA +GTGTAGAGACGTAAAGCGGATCGCAATTGCGTTTTGCTCAGGTTCATTTCCCCAGCAACACGATCGACCA +AATCCTGAAAAATACCGATTTTCAGCGGACGCGCTTCACCTTCCGCACTGAAACAGTGGGGAAAACGTTC +GGCCAGAAACGCGATTACTTCTTTACTGCTATTCAACTTAGGTTGATTTTCCATGAAATTTCCTGATTAC +AACGGACGTAGCCAACAAGCGCAGGCATGAACAGGCGTCATTATAATGACGCTATCAGTAAATGCTACGT +TATCCGTTGATTATCCTGCGACGCTCGCAAAGAATTTTTTGTAATCCGTCGTTGCAAGCACTTTTTCAAG +CTGTGCCACAAGCTGACGTAAGCCTTGCTCGTCCTCGTCTGTAAAGCGACCGAAGACGGTACTATCGATG +TCGAGAACACCAATAATCTGATTTTTCACCACCAGCGGCAGAACAATTTCAGAATTACTCGCCGCATCAC +AGGCAATATGCCCGTCAAACACATGAACATCCTCGATACGCTGCACTTGATTGCGGGCAACCGCAGTGCC +GCACACGCCGCGCCCGACGGGTATCCGGACACAGGCAATTTTGCCCTGAAATGGTCCGAGTACCAGTGTA +TCGTCCTCAAGCAAATAAAAACCTGCCCAGTTTATGTCAGTGAGACGCTCATATAACAACGCACTGGTGT +TCGCAAGCGTTGCCAGAAAACTGGTTTCTCCCGCCATCAGCGCGTTAAAGTCGCGATTTAAATCCGCGTA +AAATTCTGTTTTGTTCATTATATAATCACTTGGTTGTCTTACCTGGATCTGCCAGCCTATTAAAATAAGC +ATTAAATGCGTTAATGCTCAAGATCATTCCCATCATGGGTTAAGATTAATGTTAATTCTTATTACATTTG +GCACGTCATGGCTCTTAACACACCACAAATTACGCCGACAAAAAAGATAACAGTGAGGGCAATCGGCGAG +GAACTGCCGCGTGGTGATTACCAACGTTGCCCGCAATGTGACATGCTGTTTAGCCTGCCCGAGATAAATT +CTCATCAAAGTGCCTATTGTCCGCGCTGTCAGGCAAAAATTCGTGACGGGCGCGACTGGTCGCTAACGCG +CCTGGCGGCAATGGCCTTCACCATGCTGTTGCTTATGCCGTTTGCCTGGGGCGAACCGCTGTTGCATATC +TGGCTGTTAGGCATTCGTATTGACGCCAACGTTATGCAAGGCATCTGGCAAATGACCAAACAGGGCGATG +CGATAACGGGGTCGATGGTCTTTTTCTGCGTTATTGGTGCCCCGCTCATTCTGGTGACCTCCATAGCTTA +TTTATGGTTTGGTAACCGACTGGGAATGAATTTACGTCCGGTACTGCTGATGCTTGAGCGACTTAAAGAG +TGGGTAATGCTCGATATCTACCTGGTCGGCATTGGCGTTGCTTCTATAAAGGTACAGGATTATGCCCATA +TCCAGGCTGGTGTCGGCTTGTTCTCTTTTGTGGCGTTGGTGATTTTAACGACGGTGACGTTGTCACATCT +TAATGTCGAAGAACTGTGGGAGCGATTTTATCCGCAGCGCCCCGCTACGCGTAGGGACGAGAAACTTCGT +GTCTGTCTTGGGTGCCATTTTACCGGCTATCCAGATCAGCGTGGTCGCTGCCCGCGTTGCCATATCCCGC +TACGCCTGCGTCGCCGTCATAGTCTGCAAAAATGCTGGGCGGCGCTGTTAGCGTCAATCGTTTTATTGTT +ACCTGCCAACCTGTTGCCTATTTCTATCATTTATCTGAACGGAGGACGGCAGGAAGATACAATTCTTTCC +GGAATTATGTCGCTGGCAAGTAGCAACATTGCGGTTGCAGGAATCGTGTTTATCGCCAGTATTCTGGTAC +CGTTTACTAAAGTGATCGTCATGTTCACTTTACTGTTGAGCATTCATTTTAAATGCCAGCAAGGTTTACG +CACACGCATTCTGTTACTGCGGATGGTGACCTGGATTGGTCGCTGGTCGATGCTCGACCTGTTTGTCATA +TCTTTAACCATGTCGCTGATTAATCGCGATCAGATCCTCGCTTTTACTATGGGACCGGCTGCGTTTTATT +TCGGCGCAGCGGTAATTTTGACTATTCTTGCTGTGGAATGGCTGGACAGCCGCTTACTTTGGGATGCACA +TGAGTCAGGAAACGCCCGCTTCGACGACTGAAGCGCAGATTAAAAATAAACGCCGTATCTCACCTTTCTG +GCTGCTGCCGTTCATCGCGCTAATGATTGCCAGTTGGCTGATTTGGGACAGTTATCAGGACCGGGGTAAT +ACCGTCACCATCGACTTTATGTCGGCGGATGGTATTGTTCCAGGCCGTACGCCTGTTCGTTATCAGGGCG +TTGAAGTCGGAACAGTGCAGGATATCAGCCTCAGCGACGATCTTCGTAAGATTGAAGTCAAGGTCAGCAT +CAAGTCCGATATGAAAGATGCGCTGCGCGAAGAGACTCAGTTCTGGCTGGTGACGCCAAAAGCATCGTTG +GCAGGTGTCTCCGGGCTGGACGCCCTCGTCGGTGGGAACTATATCGGCATGATGCCGGGTAAAGGTAAAG +AGCAGGATCACTTTGTCGCACTCGATACCCAACCGAAATATCGGCTGGACAATGGCGATCTGATGATCCA +CCTGCAAGCCCCCGATCTCGGTTCGCTGAACAGCGGTTCATTGGTCTATTTCCGCAAGATCCCGGTGGGA +AAAGTCTACGACTATGCCATCAATCCCAACAAGCAAGGCGTGGTGATTGATGTCCTGATCGAGCGGCGTT +TTACCGATCTGGTGAAAAAAGGTAGCCGTTTCTGGAACGTTTCCGGCGTTGATGCCAACGTCAGTATCAG +TGGCGCGAAGGTGAAACTGGAAAGCCTGGCGGCACTGGTTAACGGTGCGATTGCCTTCGATTCACCAGAA +GAGTCGAAACCTGCCGAGGCGGAAGATACCTTTGGTCTGTATGAAGATCTGGCCCACAGCCAGCGTGGCG +TAATAATAAAACTGGAACTGCCGAGTGGGGCCGGATTAACCGCCGACTCGACGCCGTTAATGTATCAGGG +GCTGGAAGTCGGACAGCTGACTAAACTGGATTTAAATCCTGGTGGTAAAGTCACAGGGGAAATGACCGTT +GATCCCAGCGTCGTTACCCTGCTTCGTGAAAATACCCGCATCGAATTACGCAACCCGAAATTATCCCTTA +GCGATGCTAATCTCAGCGCCCTGCTGACCGGCAAAACCTTCGAGCTGGTGCCCGGCGATGGCGAGCCACG +CAAAGAGTTCGTTGTTGTGCCAGGCGAAAAAGCACTGCTGCATGAACCTGATGTTCTGACGCTGACCCTG +ACCGCGCCGGAAAGTTACGGTATTGATGCGGGTCAGCCGCTCATTCTTCACGGCGTGCAGGTAGGCCAGG +TTATCGATCGTAAACTCACCAGCAAAGGCGTCACCTTTACCGTCGCCATCGAGCCTCAGCATCGCGAACT +GGTAAAAGGCGATAGCAAATTTGTCGTCAACAGCCGTGTCGATGTGAAGGTGGGGCTGGATGGCGTTGAG +TTTCTCGGTGCCAGCGCCTCAGAATGGATCAATGGCGGGATACGTATTCTGCCGGGCGATAAAGGTGAGA +TGAAAGCCAGCTATCCACTGTATGCCAATTTGGAAAAAGCGCTGGAGAACAGCCTTAGCGATTTACCCAC +CACAACCGTGAGTTTGAGTGCAGAGACGCTGCCGGATGTGCAGGCAGGATCGGTAGTGCTGTACCGTAAA +TTTGAAGTTGGTGAAGTGATTACCGTGCGTCCGCGAGCTAACGCGTTTGATATCGATCTGCATATTAAGC +CGGAGTATCGCAACCTTCTGACCAGCAATAGCGTGTTCTGGGCAGAAGGCGGGGCGAAAGTTCAGCTGAA +TGGTAGTGGTCTGACCGTACAGGCATCCCCGCTCTCCAGAGCATTAAAGGGAGCCATTAGCTTCGACAAC +CTCAGCGGTGCCAGCGCCAGTCAGCGTAAAGGCGATAAGCGTATTCTGTATGCTTCCGAAACAGCGGCCC +GTGCGGTTGGCGGGCAGATTACGCTTCACGCTTTCGATGCCGGAAAACTGGCGGTCGGGATGCCAATTCG +CTATCTCGGTATTGATATCGGGCAAATCCAGACGCTGGATCTGATTACCGCACGCAATGAAGTACAGGCA +AAGGCGGTACTTTACCCGGAATATGTCCAGACCTTTGCTCGCGGTGGTACGCGCTTCTCAGTGGTCACAC +CGCAAATTTCGGCAGCTGGCGTTGAGCATCTTGATACTATCCTCCAGCCGTATATCAACGTCGAACCAGG +CCGGGGCAATCCTCGCCGCGACTTTGAATTACAAGAGGCCACCATTACTGATTCGCGTTACCTGGATGGC +TTAAGCATTATTGTTGAAGCGCCGGAAGCCGGTTCGTTAGGCATCGGTACGCCTGTGCTGTTCCGTGGTC +TGGAAGTCGGTACGGTTACAGGAATGACGCTGGGGACATTGTCAGATCGCGTGATGATTGCGATGCGCAT +CAGTAAACGCTATCAACACCTGGTGCGTAACAATTCCGTCTTCTGGTTGGCATCGGGTTACAGTCTGGAC +TTTGGTCTGACGGGCGGCGTAGTGAAAACCGGCACCTTTAACCAGTTTATCCGTGGCGGCATCGCCTTCG +CCACGCCTCCGGGTACGCCACTGGCACCGAAAGCCCAGGAAGGCAAACACTTCCTGTTGCAGGAAAGTGA +ACCGAAAGAGTGGCGTGAATGGGGAACTGCGCTTCCCAAATAATGCCCACTGCTCCGGCGTGCCTGCGCC +GGAGCGTTTATGCTAAACTGCGCGCCTGTTTTTTTGCCAGTGGTACATGCTCGTGGCCCAACACACCGTT +TATTTCCCGGACGCCTTTCTGACACAAATGCGCGAAGCGATGCCTTCGACGCTCTCATTTGATGATTTTC +TTGCCGCCTGTCAGCGCCCGTTGCGCCGCAGCATTCGCGTTAATACGCTGAAAATCTCCGTTGCTGATTT +CCTGCAATTAACCGCTCCTTATGGCTGGACGCTTACGCCAATTCCGTGGTGTGAAGAAGGTTTCTGGATT +GAACGCGACAATGAAGATGCATTGCCATTGGGTAGTACCGCCGAGCATTTAAGTGGCCTGTTTTATATTC +AGGAAGCCAGTTCAATGTTGCCTGTTGCCGCCTTGTTTGCTGACGGTAATGCACCACAGCGGGTGATGGA +TGTCGCTGCCGCGCCTGGCTCCAAAACGACGCAAATTTCCGCGCGGATGAATAACGAAGGGGCAATCCTT +GCCAATGAGTTTTCCGCCAGTCGGGTAAAAGTGTTACATGCCAATATCAGCCGCTGTGGTATCAGTAATG +TTGCGCTCACACATTTTGATGGCCGCGTGTTTGGTGCGGCAGTGCCAGAAATGTTCGATGCCATTTTGCT +GGACGCTCCCTGCTCTGGCGAAGGCGTGGTGCGTAAAGATCCCGATGCGCTAAAAAACTGGTCACCAGAA +AGCAATCAGGAAATCGCAGCTACACAACGGGAGCTTATCGACAGCGCCTTTCATGCATTACGTCCTGGTG +GTACGCTGGTTTACTCGACCTGTACCTTAAACCAGGAAGAAAACGAAGCCGTTTGCCTGTGGCTGAAAGA +GACTTACCCCGACGCAGTAGAGTTTTTACCACTTGGCGATCTCTTCCCTGGTGCAAACAAAGCGCTGACC +GAAGAAGGCTTTTTGCATGTTTTCCCACAAATTTACGACTGCGAAGGCTTCTTCGTTGCTCGTCTGCGTA +AAACTCAGGCGATTCCCGCCTTACCCGCCCCCAAATACAAAGTCGGTAATTTTCCGTTCAGCCCGGTGAA +AGATCGCGAAGCTGGACAAATTCGTCAGGCGGCTACAGGTGTTGGCTTAAACTGGGATGAAAACCTGCGC +CTCTGGCAGCGTGACAAAGAACTGTGGTTGTTCCCGGTGGGCATTGAAGCCCTGATCGGTAAAGTCCGAT +TTTCTCGGTTGGGGATTAAACTTGCCGAGACGCACAACAAAGGTTATCGCTGGCAGCATGAAGCGGTTAT +TGCTCTTGCCTCACCCGATAATATGAATGCATTCGAGCTGACACCGCAGGAAGCGGAGGAGTGGTATCGC +GGGCGCGATGTTTACCCGCAAGCCGCGCCAGTGGCGGATGATGTATTGGTTACTTTCCAGCATCAACCGA +TTGGTTTAGCCAAACGGATTGGTTCGCGATTGAAAAACAGCTATCCGCGTGAACTGGTGCGCGATGGGAA +ACTTTTTACCGGTAACGCCTGACAGCGCACAAAAAAAGCGCACTTTTTGACTGGCACATTCGGCTGCCTC +AACTAGGCTGAAAAATGGTGCGATCGGACTGGTCGTACCACAATCGGCAGCTAAATGGAGAGCACGAAGA +TGAAAACCAGTGTGCGCATAGGCGCTTTTGAAATCGACGACGGCGAATTACACGGTGAATCGCCAGGTGA +TCGAACGTTAACCATTCCTTGTAAATCTGACCCCGATTTATGTATGCAACTGGATGCCTGGGATGCTGAA +ACCAGTATCCCTGCCCTGCTAAATGGCGAACACTCTGTCCTTTACCGTACCCGTTACGATCAACAATCTG +ATGCCTGGATTATGCGTCTTGCCTGATCCAAAAAGAACCCGTCGGCATGGCGGGTTATTTGTCCTGGTTA +TTCCCCCGTTGTAAAATCTCTCCTAAACTTAACGGTACGGCACCACACTTCGGGGATGAAATGTTCGCGC +TGGTACTTTTTGTTTGCTACCTGGATGGCGGTTGTGAAGATATTGTTGTGGATGTCTACAACACGGAACA +GCAGTGTCTTTATTCTATGAGCGATCAACGGATCCGCCAGGGCGGTTGTTTTCCGATTGAGGATTTTATA +GATGGTTTCTGGCGACCTGCACAGGAGTACGGTGATTTTTAATTATTGCAATTGCACAAGAGTCAGTTCG +CCCCCAAAGACAGCACCGGTATCAATATAATGCAGGTTGCCAATATCCACGCGATGTCGCAACGGTGTAT +GACCAAACCAGAAATGATCAGCACCTGTAATTCCCTGCCCTTTTTGGCGTTCACCTAATCGCGAGCGGCT +CCACAAGACCTGATGCAAATCAACGTCCTTTTGCCATTCATAAACATCATCTGGATAATCGGCATGAGCA +ATAACATGCTTGCCGGTGCGACTGTGTACTTCAAGAATAAAGGGCAAATGCTGACATTTTTCCAGCGCCG +TTTTCGCTTGTTTCTGTTGATTATCTGCCAGCGCAATAAACCAGTCGCCGCCATTCATCAACCACAAAGA +CATCTGCTGGGATGCCAGCGCATCCATCGCCATCTGTTCATGATTGCCTCTTACCGCACAAACCCAATGT +TGTTCCAGTAACTGCAGACAACGTAAACTTTGCGGCCCACGATCGATAACGTCTCCCACTGAGATAAGTA +AATCTCGCCACGGATCAAAACGACAATGCCATAATTTGCGGCGCAACTGCTCAAGACAACCGTGTATATC +GCCAGAAAGCCAGATATGTCGCCATTGATGACCCGCAATTCTCTGATAAACGGGCGCAGGCTGTTTCATC +AATATTTTCCTCCCGCGCTAAAGATCACATAATCTTAACAAGAATGTTAAAAAACGCTGGACTCAGACAG +TAGAGTGTGTGTTATGGTTGACTATAAAGTCAGCGAAGGAAATGCTTCTGGCTTTTAACAGATAAAAAGA +GACCGAACACGATTCCTGTATTCGGTCCAGGGAAATGGCTCTTGGGAGAGAGCCGTGCGCTAAAAGTTGG +CATTAATGCAGGCTTAGTTGCCTTGCCCTTTAAGAATAGATGACGACGCCAGGTTTTCCAGTTTGCGTGC +AAAATGGTCAATAAAAAGCGTGGTGGTCATCAGCTGAAATGTTAAAAACCGCCCGTTCTGGTGAAAGAAC +TGAGGCGGTTTTTTTATTGGAAATCAAAAGGCTATTTTAGGTAATTAACAGAGTTTTTCAGCTCGTTCTA +TAAACGGTGCCAGACTCATTTTTTCGCCGGGATTGTTAGGATCATCAATCTGAATCACCGAAATGGGTTG +GGCATTGGTCTTCCCACTGGCAACTTCCTTTTGTGCGATATCGTTTAAAGGATACTGCACGAGGGTACTC +GGATTAATAACATACAAAGCATTACCCGGTCGGCAAGTCAGCATCACCTCTTCGCGATTAAACGCCCATT +TGTCTTTACCCACTTCAAAACGACTGACGGTAATCACCTGCGGTGCAGCCAGCGCCGCTGCAGAACTGGT +GAGTAACAGAAACGCCAGAATACTTTTTTTCATCATTTTCGTAATCCATCAAAAAGGTTCGAGAGTCGCA +AGCAGGCTGATGATCACCAGCACTACCGCACCTATCGCCCATTCGAGTTTAGTCATCCACACAAACCAGG +GTGCCGCACGATCTTCATCCTGCCTCATGCGCGGTACAAGAACATAACGATTAGCCAGCGCAATGACCAC +CATAATCATCACCAGGATGGCTTTGAGCAATAAGAGTTGGCCCCAGTAAGTCGTAAGCGTGGGGGGAAAT +CCGGTAATCAACAATGCATTAAGCACGCCGCTTGCCAGTACGCCGATCACCGCAAAATGCCCGCACCAGG +AAAAACGCATCAGCGCCTGAATAGCCTGGTGTCGCCAACGGCCTTTGATGAGTTGCATACACCAGAGCAC +CGGCAGTAATCCCCCAAACCACGCCGCCGCACAAATCAGGTGAATCGCGTGATTAGTCTGATGGATTTTC +GCTGTTACCCCTTCATTCAGCGTCGCATGCCCCACTCCCGCCAGCAGAATAAATTGCGCGGTAGTGAGCA +TAAACAGCAAACGTGGCATATTCCGCGGTTGCATAAGGGCGACGATCAACGTTACGAGGGCGAGAACAAT +TTGCCATAACCAGATGCCACCAAACTGCGTTTGCAAAACAGCCTGCCAAATGTTTGGCGAAAATACATCT +GTCCATCCCGTTCCCATCAACCCGCCCTGAACGGCGAGCATTGCAGTGGCACTGATCAAACTCCAGACGG +CAGCGTGCTGTTGTAAACGCAGAAAACGCTTCGCCAGCAAGCGACGAATCGTCAAGGGGGCCAGCCAGGC +ACCGTACATTGCGAAGCCAAAAACCAGCATCAGCGAGGTGAAATGGATAAATCGCAGCGCGATCCAGGTA +AACGCCAGCATGATTTATTTCACGCTAAAGGTGTAGTGTCCTTTCGTTTTATGCCCGTCCACCGAAACAA +CATGCCAGTCAACGGTGTAGGTTCCGGGTTTCAGCGAATCGGCCAGTGGAACAATCAGTTGCTTTTGGTC +CTGCTCATTTCGCTTCGCCGGTAATGTTTTAATATTTTCGTTTTTTGGCCCCGTGATTTTTGCACCACTG +AATCCTGTTTCAACACCTTCCGAGAAGTTTAAAGTGATTGCCTGCGGTGCAGCTGTCACTTGCGCGTTTG +CCGCAGGATACTGATGCGTTAAATGCGCATGTGCCCAGACGGAAGGTGTCACCAACGAAGTGGTCAGGAT +TGCCAGCGCGTAGCGAAGGGAGCGTGCAGTTGAAGCCATATTATCTATTCCTTTTTGTAATAACTTTTTT +ACAGAGCATAACCTTGTCTAATGTCTGAGTCGAGGATCATCAATTCCGGCTTGCCATCCTGGCTCACTCT +TAGTAACTTTTGCCCGCGAATGATGAGGAGATTAAGAATGCTGAAGAATCTGGCTAAACTGGATCAAACA +GAAATGGATAAAGTGAATGTCGATTTGGCGGCGGCCGGGGTGGCATTTAAAGAACGCTACAATATGCCGG +TGATCGCTGAAGCGGTTGAACGTGAACAGCCTGAACATTTGCGCAGCTGGTTTCGCGAGCGGCTTATTGC +CCACCGTTTGGCTTCGGTCAATCTGTCACGTTTACCTTACGAGCCCAAACTTAAATAAAACTTATACAGA +GTTACACTTTCTTACATAACGCCTGCTAAATTATGAGTATTTTCTAAACCGCACTCATAATTTGCAGTCA +TTTTGAAAAGGAAGTCATTATGTCGTTCTGGAAAGTTGCAGCAGCGCAATATGAGCCTCGTAAAACCTCA +CTCACCGAACAGGTAGCTCATCATCTGGAGTTTGTGAGGGCCGCCGCCAGGCAACAATGTCAGCTGTTAG +TTTTTCCATCGCTTTCTTTACTGGGGTGTGATTATTCGCGACGTGCCCTTCCTGCCCCACCCGATCTCTC +ACTGTTAGACCCGCTTTGTTATGCCGCAACGACCTGGCGAATGACCATCATTGCCGGCCTTCCCGTTGAA +TATAACGATCGCTTTATTCGTGGAATTGCGGTGTTCGCACCGTGGCGAAAAACGCCTGGGATCTACCATC +AGAGTCATGGTGCATGTCTGGGCCGTCGTTCCAGAACCATCACGGTGGTCGATGAACAACCGCAAGGTAT +GGATATGGACCCGACCTGTTCACTGTTTACTACAGGGCAATGTCTGGGAGAACCCGACCTGCTGGCGTCG +GCCCGTCGCTTACAATTTTTTTCACATCAGTACTCGATTGCCGTGCTGATGGCAAATGCCCGTGGTAACA +GTGCACTATGGGATGAATATGGTCGTCTCATCGTTCGCGCCGATCGTGGTTCATTATTGTTAGTCGGTCA +GCGTTCATCACAGGGTTGGCAAGGCGATATCATTCCATTACGCTAGGCTTTTTCGGCCTGGAGCATGCCA +TGTTGCGCATTATCGATACAGAAACCTGCGGTTTGCAGGGAGGGATCGTTGAGATTGCCTCTGTTGATGT +CATTGACGGAAAAATCGTCAACCCCATGAGCCACCTGGTGCGCCCCGATCGTCCTATTAGTCCACAAGCG +ATGGCGATTCATCGCATCACCGAAGCCATGGTCGCCGATAAACCGTGGATTGAAGATGTGATCCCACACT +ATTACGGTAGTGAATGGTATGTCGCGCATAACGCCAGCTTTGACCGCCGCGTACTGCCTGAGATGCCCGG +TGAGTGGATTTGCACTATGAAACTGGCCCGTCGTTTGTGGCCTGGGATCAAGTACAGCAATATGGCGTTA +TATAAAACACGCAAGCTCAATGTACAGACGCCGCCGGGCCTGCATCATCACCGCGCGTTGTATGACTGTT +ATATCACCGCCGCGTTGCTTATCGATATTATGAACACCTCCGGCTGGACGGCAGAACAGATGGCCGATAT +CACCGGACGTCCGTCGTTGATGACGACCTTCACCTTTGGCAAATACCGTGGCAAAGCGGTTTCCGACGTT +GCCGAACGCGATCCGGGCTATCTGCGCTGGTTATTTAATAACCTGGACAGCATGAGCCCGGAGCTGCGTT +TAACACTGAAACATTATCTGGAAAATACTTAGTCCGCAGGCGTAGCGGGTAATGTTCCCTGCGCCAGCGC +GACCAGAAAAGCATATTCCATCGCTACGCCTTCGTACGATTTAAAGCGACCAGATTTACCGCCATGGCCT +GAGTCCATGTCGGTACAGAGCAATAAAAGATGGTCATCGGTTTTCAGCTCGCGCAATTTAGCGACCCATT +TTGCCGGTTCCCAATATTGCACCTGAGAATCGTGCAAACCGGTCGTTACCAGTAAATGCGGATAAGCCTG +TGCGGTGACGTTGTCATACGGGCTGTAGCTTTTCATGTACTCGTAATATTGCGGATCCTGCGGGTTACCC +CACTCTTCAAACTCACCAGTGGTAAGAGGAATTGATTCATCAAGCATCGTTGTTACAACATCAACAAACG +GTACCTGGGCGATAACGCCGTGGAATAATTCCGGGCGTTGATTAATTGCAACGCCCATCAACATGCCCCC +CGCACTCCCGCCCATCGCATAACAAAGCGAAGGAGAGCCATAGCCCAGTTTTAACAATGCATCGCAGGCA +TCAAGATAATCATTAAACGTATTTTTCTTCTTCAGAAATTTTCCGTCTTCGTACCATTGTTGCCCCAGCT +CACCACCGCCGCGAACATGGACAATGGCGTAGACAAAGCCACGATCTAACAAACTCAAGCGGCTAAAACT +GAAATCGGCATCAATACTTGCGCCGTAAGAACCATAGCCATACACCAGCAACGGGTTGTGTCCTTTGCGA +AAATGTTTGCGATGGTAGACCAACGAAACCGGAACTTCGACGCCATCACGGGCGACTATCCACAGGTGTT +CACTGCGGTAATTCGCCGCATAAAAACCAGGAACTTCCGTTTGTTTTAATACACGACGCTCACCGGTATC +CATATCCAGTTCAAACAAAGTGTCTGGTGTAGTCATGGAAGAATAACCATAACGCAATCGCGCGGTTTCA +GGTTCTGGATTGTAGGCAATCCAGGTCACATAGGCCGGATCATCAAAGGCAATACCAATGACTTCCCGGG +TCTTGCGGTTAATTTGGCGCAAACTGGTTAACCCGCGCTGACGCTCTTCAACCACCAGCCAGTCGGTAAA +CAGCGTAAACCCTTCCAGCATGATGTTTTCGCGTGGCGGAATTAACTCTTCCCACTGTTGCTCATCACGC +ATACGGGTACGGTATAAGCCAAAGTTTTTGCCGTGGCGGTTGGAACGCAGATAAAAACGATGCTGGTAGT +GATCAAGGCTGTATTCGTGATCTTTGCGGCGCGGCAGAAAAACAAACGGCTCGGCATCGGCCATTTCCGC +GTCCAGCAGGCGAACTTCACTGGTGGTGGCGCTGGCCAAATGAATGACTACATAGTGCTTCGAGGTCGTT +TTATGCAGGCTGACGTAATAGGTATCGTCTTTTTCTTCGTAGATCAGTTTATCTTGCGATGCTGGCGTAC +CGATGGCGTGACGCCAGACCTGATAAGGCAGCAGCGTCACCGGATGCTTGCGAACATAGTAGAAAATCCA +GGAGTCATTTGCCCAGACAAAGCTGGGTTCAACGTTATCCAGCAGTTCCGGGTACCAGTTACCAGTTTCC +AGATTACGAAAACGAATGCCGTACTGGCGTCGGGAAAGAAAATCTTCTGCCAGCGCCATAATGGTGTTAT +CGGGCGTAATCGCCATTCCGCCCATCGAATAAAACTCACTATGAGCTGCGCGCTTATTGGCATCGAGCAA +TGTTTCCCACTCATCCCACTCTTCACTGAATGCCGATTGACGCTGGTAGATAGCATATTCACAGCCTGGT +TCATAAATATGCCGATAGCGGTAGCCATTTTTGATGTAGGGCGCAGAAACTTCTCGTTGCGGAATGCGGT +CGATGATTTCCTTTAAGATGCGATCCTGCAAGGCTTGTTGTGAGGCCATCACCCGATGACCGTAACTATT +TTCTTGTTGCAGGTAGTCCAGGACTTCTGGCTGAGAACGCGTATCGTCCCGCAGCCAGTAGTAATTATCG +ATGCGCGTATCGCCATGAAGCGTCATGGCGTGGGGAATGCGGGCGGCTTTTGGTAGCATGTTATTGTTCT +TTCTGGTTGAAACATCTTATAAGGGTGGCAAAACTCACCGGGGATGCAAGCGAAACAGGGGAGTCATTGC +TTAGATGATGACAGGTAATGGCGCGGATATCGAATGTTATGCAGACAGAGAAAATCAGCCTGTTCAAATG +GCTGTGCGATTCTGGATAGCCCGAAATAGTCAACTTCAGGCTATCCAGAGAGCGGAATTATTCCGCCAAA +GTGCGTTTTTGCTGTTCGAGATCGCGTTCAATGCCGTCACGAACATCCTGGGGGATTTTCAGCGCGTCAC +CCAGTGCATTCAGGTAACTGCGTTCCATAAAATGGTCAATATCAATAGCCGCGCAACTCAGGAAATAGAT +TTCCAGCGCCTCTTCTTCATTGCGGACCCCGGTAGCCAGGCGTTGTGGATCCAGCGGTTGTTCGATTGCC +TGCTCAATGAGTACACGCCCCTGCTCTTCCACGCCGGCTCCACGCAATTGCTGGTCGATTGCCGCACGTT +CTTTGGCATCAATATGACCATCACTTTTAGCGGCAAAGACCAGCGCAAGGATCAAACGTGCTGTACGCTC +ATCCAGCGGCGTACTTTGCGCGCCAAACTGCGGTTCGTCCTGATGCGCCGCGCGAATTTTATCTTTGTAT +TTATTCCACAGCACCGTACCCGCTACCGCTCCGCCGCCAACCAGTAACGCGTTGGTGCCATATTTCGTAA +GAAGTTTACGTGCTGATTTATTTGCGACCAGCAGCCCAGCCAGTCCGCCTAATGCGCCTGGCACTAACAG +TTTGACCAATCCCTGATCCGCAGACGAGGAGGTAGAAGAACTGCTTTGCCCAAGCAGGGATTGCAGTTGA +TTTAACCAGTTAGCCATATTTGCTCCTCAATAACCATTTTTAGTGCCTGTAGCATAGCGGATGAGGATGT +CAGAAAATGTATATCGAGACAAAAGATGCGCAAATAAGCGGGGCGGTAGGCCGTTATTCAAAGAAATTCG +CGCCAGGTAAGGTATTTACTGTATATCAGGTGATAAGGGTATTTTAGGTGAAAGTAGTTTGTCGTTTTGA +GTGGCATTGTTTGATGCTGATTGCCCGATGCGACGCTGTTGCGTCTTCTCAGGCCTACGATTGTGGTGCG +TTCTGGGGCGGACAAGGCACTCGCGCCGCATCCGCCAACAGTCAATCGAATTATCAGAAGCCATTAACGC +CGCTGATATTCCGCCATTCCCGCTTTGCAGTCCACGCTGACCTGGTAATGAATATCGGCACTTTTACCAC +GCACGGTTAGCGGTACTGACCATTTATCATCTTTACCCTGAATGTCCTGCAAACTGACCCAAGCCACGGG +ATCGGCCTGACCGACAATTTTTTGATCATCTGCCCAACGCGCCACGCGATTTTGTTGATAATCACGTTTT +ACGCTCGCGGCAATTCCGGCAGCATCCAGATCTTCACACTTTGGGAAAGTGACCGACTTGCTGGTTTCAT +TATTGGCAGCGAAAACTGATGCGCAGGCAGAAACCAACAACAGCCCTAAAAACGCCCCTCTTTTTTTCAT +GTTTTTCTCCATAGCACAATGATTCAGGAGAAAGCATGGTACAAATTGTCAGGAGCGCAAGTTGCTTCAG +GCCGCGTGTGAGGCATCTTCCTCTTCGGATTCAGCACCGACGACCTGTGGGGACGGTAATTTGCCGGTTT +TCAGAATGGTGCTCAGCACATCTTTTTGTTCTGCCAGCCATAGCGAAAGGGCTTCACGTTGCTCGTCTTC +CATTTGCACTGGAGAATTTGTCAGCCAGGTGTCAAGCAGATCCGCCGTATCAAGCATTTTGTCATAAGCA +TCGGCTTCCTTTTTGCTGGTAAACGACATTTTCTCTTCGCCCTCACGAATGACTACGTATTTAACTTCAA +CCGCCATTTGCAGCCTCTCATAATAACTGTGATTTTATACAGTATATTTCTTTTCGGTTGAGAAATCAAC +ATCAGCAATAAAGACACACGCAAACGTTTTCGTTTATACTGCGCGCGGAATTAATCAGGGGATATTCGTT +ATGACGTTATTAGGCACTGCGCTGCGTCCGGCAGCAACTCGCGTGATGTTATTAGGCTCCGGTGAACTGG +GTAAAGAAGTGGCAATCGAGTGTCAGCGTCTCGGCGTAGAGGTGATTGCCGTCGATCGCTATGCCGACGC +ACCAGCCATGCATGTCGCGCATCGCTCCCATGTCATTAATATGCTTGATGGTGATGCATTACGCCGTGTG +GTTGAACTGGAAAAACCACATTATATCGTGCCGGAGATCGAAGCTATTGCCACCGATATGCTGATCCAAC +TTGAAGAGGAAGGACTGAATGTTGTCCCCTGCGCTCGCGCAACGAAATTAACGATGAATCGCGAGGGTAT +CCGTCGCCTGGCGGCAGAAGAGCTGCAGCTGCCCACTTCCACTTATCGTTTTGCCGATAGCGAAAGCCTT +TTCCGCGAGGCGGTTGCTGACATTGGCTATCCCTGCATTGTAAAACCGGTGATGAGCTCTTCCGGCAAGG +GGCAGACGTTTATTCGTTCTGCAGAGCAACTTGCTCAGGCATGGAAGTACGCTCAGCAAGGCGGTCGCGC +CGGAGCGGGCCGCGTAATTGTTGAAGGCGTCGTTAAGTTTGACTTCGAAATTACCCTGCTAACCGTCAGC +GCGGTGGATGGCGTCCATTTCTGTGCACCAGTAGGTCATCGCCAGGAAGATGGCGACTACCGTGAATCCT +GGCAACCACAGCAAATGAGCCCGCTTGCCCTTGAACGTGCGCAGGAGATTGCCCGTAAAGTGGTGCTGGC +ACTGGGCGGTTATGGGTTGTTTGGTGTCGAGCTATTTGTCTGTGGTGATGAGGTGATTTTCAGTGAGGTC +TCCCCTCGTCCACATGATACCGGGATGGTGACGTTAATTTCTCAAGATCTCTCAGAGTTTGCCCTGCATG +TACGTGCCTTCCTCGGACTTCCGGTTGGCGGGATCCGTCAGTATGGTCCTGCAGCTTCTGCCGTTATTCT +GCCACAACTGACCAGTCAGAATGTCACGTTTGATAATGTGCAGAATGCCGTAGGCGCAGATTTGCAGATT +CGTTTATTTGGTAAGCCGGAAATTGATGGCAGCCGTCGTCTGGGGGTGGCACTGGCTACTGCAGAGAGTG +TTGTTGACGCCATTGAACGCGCGAAGCACGCCGCCGGACAGGTAAAAGTACAGGGTTAAACCCGGCAAAA +AAACGCTACAAAAATGCCCGATCCTCGATCGGGCATTTTGACTTTTACAGCTTAGCGCCTTCTACAGCTT +CACGCGCCAGCTTAGTAATGCGGTCGTAATCGCCCGCTTCCAGCGCATCTGCCGGAACCAGCCAGGAACC +ACCGATGCACAGCACGCTTTTCAGCGCCAGGTAGTCACGGTAGTTAGCCGGAGAAATACCACCCGTCGGG +CAGAAACGGACCTGGGAGAACGGACCCGCGATCGCCTGCAGGGCTTTCACGCCGCCGTTAGCTTCAGCCG +GGAAGAATTTGAACTCTTTCAAACCGTAGTCCATACCCAGCATCAGTTCGGAAACAGTGCTGATCCCCGG +AATCAGAGGAATAGTCCCTTCGGTAGCAGCTTTCAGCAGCGGCTCGGTCAGACCCGGGCTAATTGCGAAC +TGTGCACCCGCTTCAGTGACTTCTGCCAGCTGCTGTGGATTCAGCACCGTACCGGCACCCACAATCGCTT +CAGGCACTTCTTTGGCGATAGCACGGATAGCGTCAACTGCACACTCGGTACGCAGAGTCACTTCCAGAAC +GCGCACCCCACCAGCAACCAACGCTTTTGCCATCGGCACCGCGTGTTCCAGTTTTTTTACCACGATAACC +GGTACAACCGGGCCGGTGGTCAGGATTGATTCTGCACTTGTTTTCCAGTTTTTCATCAGAGTTTTCTCTC +GCCTGATTACAAATTTGTCGTCTTAAAAAGTGATACAGGTTGCGCCCTGTTCGGCACCGGACAGTTTTTC +ACGCAAGGCGCTGAATAATTCACGTCCTGTTCCCACGCGTGACGCGCTCAGGTCAGGAATGTGCGGTTCG +CGAGCAGCCAGTTCCGCTTCGTCTACCAGCAGCGTCAGTTCGCCTGTCTGTCCATTCACACGAATGATGT +CCCCGTCGCGCACTTTTGCCAGCAGCCCGCCATCGTAGGCTTCTGGTGTTACGTGGATAGCTGACGGCAC +TTTACCTGAAGCGCCGGAGAGTCGTCCATCGGTAACTAACGCAATTTTGAAACACCGGTCCAATAATACA +CCAAGTGGCGGCATGAGTTTATGTAATTCTGGCATTCCGTTCGCTTTTGGCCCCTGATGACGGACAACAA +CGACACAATCGCGGTCCAGCAAACCCGCTTCAAAGGCCGGCATAACGTCATGCTGGCTTTCAAAAACAAC +CGCTGGCGCTTCAATCACCTGGTTCTCAACCGGCACGGCAGAGGTTTTCATAACCGCACGGCCCAGGTTA +CCGCTTAACACTTTTGTCCCACCATGATGAGAGAAAGGTTGTTCGAAGGAAGCGATCACATTGCTGTCGA +GTGATTTTTCCGCCCCTTCCCGCCAGTCCAGTTCACCATTATTCAGCCATGGTTCAAGGGTATAACGAGA +CAGACCAAAACCTGCCACCGTATTGACATCTTCATGCAGCAGGCCTGCTTTGAGCAGTTCACGCACCAGA +ACCGGTACGCCACCTGCCGCCTGGAAGTGGTTAATATCGGCCGGACCGTTCGGGTAGAGACGTGCCATCA +GCGGTACAACATCAGAAAGGTCAGAGAAGTCATCCCAGTTAATCTGAATACCGGCCGCGCGCGCCATCGC +CACCAGGTGCATGGTGTGGTTAGTGGAACCACCGGTCGCCAGCAGTGCAACGATACCGTTCACCACCACT +TTCTCATCGATCATCTTACCGATCGGCATCCATTCATTACCATTACCGGTCATGCGTGTAACCTGACGCG +CAGCTGCGGCGGTCAAAGCATCGCGCAGCGGAGAATCCGGATGAACAAAAGAAGAGCCTGGCAACTGCAT +CCCCATAAACTCCACCACCATCTGGTTGGTGTTGGCAGTACCGTAGAAAGTACATGTTCCCGGCGCATGG +TAAGACGCGGCTTCTGACTCCAGTAAGGCCATGCGGTCCACTTTACCTTCGGCATAAAGCTGGCGAATAC +GCACTTTTTCTTTATTTGGCAAACCGCTTGCCATCGGTCCAGACGGCACAAACACCGCAGGCAAATGACC +AAACGACAGGGCTGCCATCGTCAGACCCGGGACAATCTTGTCGCACACACCGAGGAACAGAGCACCATCA +AACATGTTATGGGACAGCCCCACCGCCGCAGACATCGCTATCACTTCGCGGCTTAGCAGCGACAATTCCA +TTCCATCCTGCCCCTGGGTGACACCATCACACATCGCCGGAACACCGCCCGCAACCTGACCAACCGCATT +CGCTTCATGCAGGGCTTTACGAATGATTTCTGGATAGTGTTCATAAGGCTGGTGCGCGGAGAGCATGTCG +TTATAGGAGGTGATGATGGCGATATTGTTACGCAACATGCTTTTCAAAGAGGCTTTGTCTTCTGGCTGGC +AGGCAGCGAAACCGTGTGCCAGGTTACCGCATGCCAACTGCGAACGATGAACGGTCGAAGTTTTCGCTTG +TTCTATCCGGGCGAGATAAGCAGAGCGAGTCTCGCGCGAACGTTCAATGATTCGATTTGTTACGCGTAAC +AATTGTGGATTCATAAAGGCTCCTGAAATTGAGTTGTCAGAGCAGGATGATTCACAACGCGTTTCATTCA +GAGGATTTATGACTGAAACGCCTGTAACCGGAGCTCATAGGGCAAAAACGTTTCAGTCAGTGTAATAAAA +AAAGCCTCGTGGGTGAATCCGCACGAGGCCTGAAAGTGTAAAAATTGTTCTACAATCTGCGCAAGATCAT +GTTACCGGTAAAATAACCATAAAGGATAAGCGCAGATATTACTCAAACTCATTCCAGGAACGACCATCAC +GGGTAATCATCGCCACCGAGGCAACGGGTCCCCAGGTTCCGGCCTGATACGGTTTCGGCGCATCATTGTC +CATCGCCCACGCCTCAGTAATGGAGTCTACCCATTTCCAGGCTTCTTCCACTTCGTCGCGACGTACAAAC +AGTGCCTGAATACCACGCATGGTTTCCAGCAGCAAACGTTCATAGGCATCCGCCAGATGCGTCTGATTAA +AGGTTTCTGAATAGCTCAGATCCAGCTTGGTGATTTGCAGGTTATGTTTGTGGTCAAGGCCAGGAACTTT +ATTCAGTACCTGGATATCCACGCCTTCATCAGGTTGCAGACGGATAGTCAGTTTATTCTGCGGCAGATCC +TGCCACGATTCTTTAAACAGATTCAGTTCAGGTGTTTTGAAATAGACCACGACTTCAGAACATTTGGTCG +GCAGACGTTTACCAGTACGCAGGTAGAATGGCACACCGGCCCAGCGCCAGTTATCAATGTCGACGCGGAT +CGCCACGAAAGTTTCTGTATTGCTGCTCTTGTTCGCGCCCTCTTCTTCCAGATATCCCGGCACTTTTTTG +CCCTGGGCGAAGCCCGCAGTATATTGCCCGCGTACGGTTTTTTCGCGTACGTTGGAGCGGTCGATGCGGC +GCAGAGACTTCAGTACTTTCACTTTTTCATCGCGGATGCTGTCTGCGCTCAGGTCAGACGGCGGAGACAT +CGCAATCATGCAAAGAATTTGCAGCAGGTGGTTCTGGATCATGTCGCGCATCTGACCGGCTTTATCAAAA +TAGCCCCAGCGCCCTTCGATCCCCACTTCTTCTGCCACGGTAATCTCAACATGATCAATGGTGCGATTGT +CCCAGTTATTCACAAACAGGGAGTTAGCAAAACGCAGCGCCAACAGGTTCAGCACCGTTTCTTTACCAAG +ATAGTGGTCGATACGGTAAACCTGGCACTCCTCGAAGTATTCGCCAACCTGATCATTGATTTCCTGCGAG +GTCGCCAGCGACGTCCCCAGCGGTTTCTCCATGACTACGCGTGCCGGTTTAGCATTCAGTTTTGCCTCGC +CAAGCCCTTTGCAAATTGCGCCAAAAGTGCTGGGCGGCATGGCAAAGTAGTTAATGGTGATACGATTTTT +TTGATCCAGCATCGCGCCGAGACGGCTGAATGCAGCAGTGTCATTGACATCGAGATTACAAAAATCCAGA +CGTGCACTCAGGGTGTCCCATAAACCTTCATCAATGGTTTCTTTCATGAAAGTTTCGAGCGCCTCGCGGA +CAACTTTGGTATATGCCGCTTTATCCCAGTCAGCACGCCCTACGCCGATAATCCGGGTGTCCGGGTTGAG +CTGACCGGCTTTTTCCAGTTGATACAGGGAAGGCAGCAATTTACGACGCGCAAGGTCGCCTTTCGCGCCG +AAAATGACCAGGTCACAGGCCTGGGCTGTTTGCGTTACCGCCATGTCATTCTCCTTAAGTTAACTAACCC +GGTACTTAAGCCAGGGTATACTTGTAATTTTCTTACGGTGCACTGTACTGCTTTTACGAGCTTGCGAAAA +CTGTAAACGCTTATCCACCCGTGCGATTACGGGAAAAGCGCGCAAAGTGCGGCAAAACTGATAAAAAAAT +CATCGTTTTCCATTGGGTAAAAATCTGACACTGATCATGTTATGAAAAAAAATAACAACTTTTTTATCTG +CTTTTGTCATTAACACGGCACACAGGCGTAATATCTGACAAAACTGCATTTCGATTTCTTTCAGTGCGGA +AATCGTCATTACCCGTGAGTCTCTTTACATCATGAATATGCTGGAAAAAATCCAGTCTCAGCTGGAACAT +TTGAGCAAATCAGAGCGCAAAGTTGCCGAGGTCATTCTGGCTTCGCCCGATAACGCGATCCATTCGAGTA +TTGCTGCTATGGCACTGGAAGCCAATGTTAGCGAACCGACGGTGAATCGTTTCTGTCGCAGCATGGACAC +GCGCGGTTTTCCTGATTTTAAACTTCATCTGGCACAGAGTCTGGCGAATGGCACTCCCTATGTTAATCGC +AATGTCAATGAAGATGACAGCGTTGAATCATACACAGGGAAAATATTTGAGTCCGCAATGGCAACGCTTG +ATCATGTCCGTCATTCACTGGATAAATCTGCCATCAACCGCGCCGTCGACTTGCTCACTCAGGCAAAAAA +AATCGCCTTTTTCGGATTAGGCTCTTCAGCCGCCGTTGCCCACGATGCGATGAATAAGTTCTTTCGTTTT +AATGTTCCGGTGGTGTACTCCGATGATATCGTGCTGCAACGCATGAGTTGTATGAATTGTAGCGACGGAG +ACGTGGTGGTGCTGATTTCTCACACTGGAAGAACAAAAAATCTGGTCGAGCTGGCGCAGCTGGCACGCGA +AAACGACGCCATGGTGATTGCCCTCACCTCTGCGGGTACCCCGCTCGCCCGGGAAGCAACGCTGGCAATT +ACCCTCGACGTACCGGAAGATACTGACATTTATATGCCCATGGTTTCTCGACTTGCACAGCTGACCGTGA +TAGATGTGCTGGCGACAGGATTTACTTTGCGACGCGGTGCAAAATTCAGAGATAACTTGAAGCGGGTCAA +AGAAGCGCTGAAGGAATCGCGTTTTGATAAGCAGTTACTTAATTTAAGTGACGATCGCTAAAAACGACTG +TCACTGTCCTAATCTTATACGACATCCGAATGAGATTAATTTATCGCCATCGCGGCGTTATTTCATTCGG +ATTTCATGTTCAAGCAACACCTGGTTGTTTCAGTCAACGGAGTATTACATGTCCAGAAGGCTTCGCAGAA +CAAAAATCGTTACCACGTTAGGCCCAGCAACAGATCGCGATAATAATCTTGAAAAAGTTATCGCGGCGGG +TGCCAACGTTGTACGTATGAACTTTTCTCACGGCTCGCCTGAAGATCACAAAATGCGCGCGGATAAAGTT +CGTGAGATTGCCGCAAAACTGGGGCGTCATGTGGCTATTCTGGGTGACCTCCAGGGGCCCAAAATCCGTG +TATCCACCTTTAAAGAAGGCAAAGTTTTCCTCAATATTGGGGATAAATTCCTGCTCGACGCCAACCTGGG +TAAAGGTGAAGGCGACAAAGAAAAAGTCGGTATCGACTACAAAGGCCTGCCTGCTGACGTCGTGCCTGGT +GACATCCTGCTGCTGGACGATGGTCGCGTCCAGTTAAAAGTACTGGAAGTTCAGGGCATGAAAGTGTTCA +CCGAAGTCACCGTCGGTGGTCCCCTCTCCAACAATAAAGGTATCAACAAACTTGGCGGCGGTTTGTCGGC +TGAAGCGCTGACCGAAAAAGACAAAGCAGACATTAAGACTGCGGCGTTGATTGGCGTAGATTACCTGGCT +GTCTCCTTCCCACGCTGTGGCGAAGATCTGAACTATGCCCGTCGCCTGGCACGCGATGCAGGATGTGATG +CGAAAATTGTTGCCAAGGTTGAACGTGCGGAAGCCGTTTGCAGCCAGGATGCAATGGATGACATCATCCT +CGCCTCTGACGTGGTAATGGTTGCACGTGGCGACCTCGGTGTGGAAATTGGCGACCCGGAACTGGTCGGC +ATTCAGAAAGCGTTGATCCGTCGTGCGCGTCAGCTAAACCGAGCGGTAATCACGGCGACCCAGATGATGG +AGTCAATGATTACTAACCCGATGCCGACGCGTGCAGAAGTCATGGACGTAGCAAACGCCGTTCTGGATGG +TACTGACGCTGTGATGCTGTCTGCAGAAACTGCCGCTGGGCAGTATCCGTCAGAAACCGTTGCAGCCATG +GCGCGCGTTTGCCTGGGTGCGGAAAAAATCCCGAGCATCAACGTTTCTAAACACCGTCTGGACGTTCAGT +TCGACAATGTGGAAGAAGCTATTGCCATGTCAGCAATGTACGCAGCTAACCACCTGAAAGGCGTTACGGC +GATCATCACCATGACCGAATCGGGTCGTACCGCGCTGATGACCTCCCGTATCAGCTCTGGTCTGCCAATT +TTCGCCATGTCGCGCCATGAACGTACGCTGAACCTGACTGCTCTCTATCGTGGCGTTACGCCGGTGCACT +TTGATAGCGCTAATGACGGCGTAGCAGCTGCCAGCGAAGCGGTTAATCTGCTGCGCGATAAAGGTTACTT +GATGTCTGGTGACCTGGTGATTGTCACCCAGGGCGACGTGATGAGTACCGTGGGTTCTACTAATACCACG +CGTATTTTAACGGTAGAGTAAGTACGTTGCCGGATGCGGCGAAAACGCCACATCCGGCCTACAGTTCAAT +GATAGTTCAACAGATTTCGAATATTCTGAAGCAAACTTGAACTTATCATCAGGCGAAGGCCTCTCCTCGC +GAGAGGCTTTTTTATTTGATGGGATAAAGATCTTTGCGCTTATACGGCTGGATTTCGCCCGGTTTGCGAG +TTTTCAGCAATTTTAGTATCCAGGTGTATTGTTCTGGTCGCGGACCAACAAAAATCTCGACTTCTTCATT +CATCCGCCGCGCAATCGTATGATCATCCGCCTCTAACAGATCATCCATCGGTGGGCGCACCTGAATCGTC +AGACGATGCGTCTTGCCATCATAAATCGGAAACAGCGGTACAACGCGCGCACGGCACACTTTCATCAAAC +GACCAATCGCGGGCAACGTCGCTTTATAGGTGGCAAAGAAATCCACAAATTCGCTGTGCTCTGGGCCATG +ATCCTGATCGGGTAAATAATATCCCCAGTACCCCTGACGTACCGACTGGATGAATGGTTTAATACCGTCA +TTTCTCGCATGCAGACGACCGCCAAAGCGACGACGCACCGTGTTCCAGACATAATCAAAAACCGGGTTGC +CCTGATTATGGAACATCGCTGCCATTTTCTGCCCTTGCGAGGCCATCAGCATGGCAGGAATATCGACGGC +CCAACCGTGCGGCACCAGAAAGATAACTTTCTCGTTATTACGCCGCATCTCTTCGATGATCTCCAGCCCT +TGCCAGTCAACGCGCGGCTGAATTTTCTCCGGCCCGCGTATTGCCAACTCAGCCATCATTGCCATCGCTT +GCGGCGCGGTGGCAAACATCTCATCAACAATCGCTTCGCGTTCAGCTTCACTACGTTCTGGAAAGCAGAG +CGACAGATTGATTAACGCACGACGGCGTGAGCTTTTTCCCAGTCGTCCGGCAAAACGTCCCAGCCGTGCC +AGAATGGGATCACGGAACTTTGGCGGCGTTAAAGCGATACCCGCCATCGCTGCTACGCCCAGCCATGCTC +CCCAGTAGCGCGGGTGGCGAAAGGATTTATCAAACTCAGGAATGTATTCGCTATTATTTTTTTTCGTTTC +CATGCTTTTCCAGTTTCGGATAAGGCAAAAATCAATCTGGTGATAGTGTAGCGGCGCAACTTGCCCCGCA +CCAAATAAAAAAAGCCGGTACTGACTGCGTACCGGCTGCGAATGGATGTTAATTAATCAAACCGTAGCTG +CGGCACAATCTCTTTGGCCTGCGCCAGGAATTCGCGACGATCGGAGCCGGTCAGCCCTTCGGTACGCGGC +AGTTTTGCCGTCAGCGGGTTTACGGCCTGCTGGTTTATCCATACTTCATAGTGCAGATGCGGCCCGGTTG +AACGTCCGGTATTACCGGAAAGCGCGATACGGTCGCCACGTTTCACCTTCTGTCCCGGTTTCACCAGAAT +CTTGCGCAAGTGCATATAACGCGTGGTGTAGCTGCGACCATGACGAATAGCCACATAATAACCTGCTGCG +CCACTGCGTTTGGCAACCACCACTTCACCGTCACCCACTGAAAGCACTGGCGTACCCTGCGGCATGGCGA +AATCAACACCTCTGTGTGGTGCAACGCGACCGGTCACCGGATTAGTACGACGCGGGTTAAAATTAGACGA +GATACGGAACTGTTTCGCCGTCGGGAATCGCAAGAATCCTTTCGCCAGACCAGTACCGTTACGATCGTAG +AATTTGCCATCTTCAGCGCGGATAGCGTAATAATCTTTACCTTCTGAACGCAAACGTACGCCCAGCAGCT +GGCTTTGCTCACGTTTACCATCAAGCATTTCTCGAGACATTAACACCGCAAATTCATCGCCTTTTTTCAG +TTTGCGGAAATCCATTTGCCACTGCATGGCTTTAATCACTGCGCTCACTTCGGCGCTGGTTAAACCGGCG +TTTCTGGCGCTGGCAACAAAGCTTCCCCCGACGGTACCTTTCAGCAGATTGTTAACCCACTCTCCTTGCT +GCATTTCGCTGGTCATTTTAAAACCGTTAGCGGCAGTACGGTCATAGGTTCGGGTTTCACGACGAGACAC +TTCCCAGGTGAGGCGCTGCAGTTCGCCGTCCGCGGTTAATGTCCAGGAGAGTTGTTGACCGATTTTCAGG +TTACGCAATTCTTTGTCGGCCGCAGCCAGTTGGGTGATATCACCCATATCAATACCATACTGATTGAGAA +TGCTGCTTAGCGTATCGCCAGTGGAAACAACATATTCATGCACGCCCGCTTCACCGGCGATTTTGTCATC +CAGTTCGTCCTGGGGAATGGCTTCATCTTCTTGTGCAGCTTGATCAATCGGCTCACTGGCTTCAGGTAAG +AGCGAACGAATTTCGTTCTGTTCCAGCTCAATGGTTTTGACAATTGGCGTGGCATCACGGTGATAAACAT +AAGGCCGCCAGACAGCGACGGCCAGAGTAAGAACGGTGAGCGACCCCAACATAACGCGGTGTGGTCGCGG +TAAATTATTAAACGCCAGGGCGACAGAGCGGGCTATCTGTTGCACGTAATCACTTCCTCATTAATCTCCT +TTCAGGCAGCTCGCATACTGGTTGGCTAATTGACTCAGGAATTCTGAATAGCTTGTTTTACCCAGTTTGA +TATTCGTCCCCAGGGGATCCAACGTTCCCATACGAACGGATGTCCCTCGTGCGACGCTCTCAACGACCGC +TGGCCTGAACTGTGGCTCAGCAAAAACGCAGGTTGCTTTTTGCTCAACCAACTGTGTTCTTATTTCATGT +AAACGCTGCGCGCCAGGTTGAATCTCAGGGTTAACGGTAAAATGACCAAGCGGTGTCAGTCCAAACTGTT +TTTCGAAATAGCCGTAAGCATCGTGAAAAACGAAATAACCTTTCCCCTTGAGCGGCGCGAGCTCGTTACC +AACCTGCGTTTCGGTTGAGGCTAATTGTGCCTCAAAATCCTTCAGGTTGGCGTCAAGTTTGGCTCGACTT +TGCGGCATAAGTTCCACTAATTTTCCATGGATTGCAACCGCTGTAGCCCGCGCTATCTCTGGGGAAAGCC +AAAGATGCATGTTGAAATCGCCGTGATGGTGATCTTCGTCACTTTTTTCCGCGTGGTCGTGATCATCATC +ATCGCCGTGAATACTTTTCATCAGTAGCGGTTTCACATCTTCAAGCTGCGCAATCGTTACCTGCTTCGCT +CCTGGTAATTTGCTTACCGGTTTTTGCATAAACGCTTCCATCTCCGGGCCAACCCAAACGACTAAGTCCG +CGTTCTGTAAGCGTTTTACATCCGATGGGCGCAGTGAATAATCATGTTCTGAAGCGCCGTCAGGAAGTAA +AACCTCTGTTTCTGTTACCCCATCAGCAATGGCAGAAGCGATGAACCCAACGGGTTTAAGCGAAGCGACA +ACGGCGGCATCTGCGGCCTGTGTTGCACCTCCCCAGAGAGCGGCGGATAATGCTGCGAAAAGAAGCGTTT +TTTTATGTAACATAATGCGACCAATAATCGTAATGAATATGAGAAGTGTGATATTATAACATTTCATGAC +TACTGCAAGACTAAAATTAACATGACAAGTCTGGTTTCCCTGGAAAATGTCTCGGTTTCTTTTGGCCAAC +GCCGCGTCCTCTCTGATGTGTCGCTGGAACTTAAACCTGGAAAAATTTTGACTTTACTTGGGCCAAATGG +CGCAGGTAAGTCGACACTGGTACGGGTAGTGCTCGGGCTGGTAACACCCGATGAAGGGGTTATCAAGCGC +AACGGAAAACTGCGCATCGGCTATGTACCGCAGAAGCTGTATCTCGACACCACGTTGCCACTGACCGTAA +ACCGTTTTTTACGCTTACGCCCTGGTACACATAAAGAAGATATTTTGCCTGCACTGAAACGTGTCCAGGC +CGGGCACCTGATTAACGCACCGATGCAAAAGCTCTCTGGTGGCGAAACGCAGCGTGTACTATTAGCGCGA +GCATTGTTAAATCGCCCGCAATTATTAGTGCTGGATGAACCCACTCAAGGCGTGGATGTAAATGGCCAGG +TGGCGTTATATGACCTTATTGACCAACTGCGTCGTGAACTGGATTGTGGCGTTTTAATGGTTTCTCACGA +TCTGCATCTGGTGATGGCAAAAACCGATGAAGTGCTGTGCCTGAATCACCACATTTGTTGTTCCGGCACA +CCGGAAGTTGTTTCCCTGCATCCGGAGTTTATTTCAATGTTTGGTCCTCGTGGTGCTGAACAACTGGGTA +TCTATCGCCATCATCATAACCATCGTCACGATTTACAGGGACGAATTGTTTTGCGTCGGGGAAATGATCG +CTCATGATTGAATTATTATTTCCCGGTTGGTTAGCCGGGATCATGCTCGCCTGTGCCGCGGGTCCGCTGG +GTTCGTTTGTAGTCTGGCGTCGTATGTCTTATTTCGGTGATACGCTGGCTCATGCCTCATTACTTGGCGT +CGCGTTTGGTTTGTTGCTGGACGTGAATCCATTCTATGCGGTGATTGCCGTTACGCTGCTGCTGGCGGGC +GGTCTGGTATGGCTGGAGAAGCGTCCACAGCTGGCGATCGACACGTTATTAGGGATTATGGCGCACAGTG +CCCTGTCGCTGGGCCTGGTGGTCGTGAGTCTGATGTCTAATATTCGTGTTGATTTGATGGCTTACCTGTT +CGGTGATTTGCTGGCAGTGACGCCAGAAGATCTCATCTCTATTGCGATTGGCGTGGTCATCGTGGTGGCT +ATTTTGTTCTGGCAATGGCGCAATTTGCTGTCAATGACGATAAGCCCGGATCTGGCGTTTGTTGATGGTG +TGAAATTACAGCGAGTGAAATTGTTGTTGATGCTGGTGACGGCATTGACGATTGGTGTAGCGATGAAATT +TGTCGGTGCGTTGATTATTACTTCGTTGCTGATTATTCCTGCTGCTACTGCGCGTCGCTTTGCCCGCACG +CCGGAACAGATGGCTGGTGTCGCTGTTTTGGTGGGGATGGTGGCAGTGACTGGCGGTTTAACCTTTTCCG +CGGTTTACGATACGCCGGCGGGTCCGTCGGTGGTGCTATGTGCGGCACTGTTATTTATTCTCAGTATGAT +GAAAAAGCAGGCCAGCTAATCTATCGCTGAACACATTTGTCGGATGCGGCGCGAGCGCCTTATCCGACCT +ACGGTTCGGTATCTCTGGTAGTCCTGGTAAGACGCGAACAGCGTCGCATCAGGCATATTGCCAGTGCCGG +ATGCGGCGCGAGCGACCAATCCGACTTACGGCATTTCTGGCGGCGTTATGCCAAAGTGATTCCACGCCCG +CGTCGTCGCCATACGCCCACGCGGTGTACGCTGCAAAAAGCCTTGCTGAATCAAATAAGGTTCCAGCACA +TCCTCAATGGTTTCACGTTCTTCGCCAATGGCTGCCGCCAGGTTATCCAGACCTACAGGTCCACCAAAGA +ACTTATCGATTACCGCCAGCAACAATTTGCGGTCCATATAATCGAAACCTTCAGCATCGACATTCAACAT +ATCCAGCGCCTGAGCAGCGATATCTGCCGAGATGGTGCCATCGTGCTTCACTTCGGCGAAATCACGCACT +CGACGCAGCAGACGGTTGGCAATGCGCGGCGTACCGCGAGCGCGACGAGCAACTTCCAGCGCGCCGTCAT +CACTCATCTCAAGCCCCATAAAGCGTGCGCTGCGACTGACGATATATTGCAGATCCGGCACCTGATAAAA +CTCCAGACGTTGCACAATACCAAAACGGTCGCGCAACGGTGATGTCAGCGAACCTGCGCGCGTGGTTGCA +CCAATCAGGGTAAACGGCGGCAAATCAATTTTAATGGAGCGTGCCGCCGGACCTTCACCAATCATGATAT +CCAGTTGGTAGTCTTCCATTGCCGGGTACAGCACTTCTTCAACAACTGGCGATAGACGGTGGATCTCATC +AATAAACAGCACGTCATGCGGTTCAAGGTTAGTGAGCATCGCAGCCAAATCGCCCGCCTTTTCCAGCACC +GGACCAGAAGTCGTGCGTAAATTAACGCCCATTTCATTGGCGACAATGTTGGCAAGCGTAGTTTTACCCA +ACCCCGGAGGACCAAAAATCAACAAATGATCGAGGGCATCGCCGCGCAGTTTCGCTGCTTTGATGAAAAT +CTCCATCTGTGAACGAACCTGCGGCTGACCAACATACTCTTCCAGTAATTTGGGGCGAATGGCGCGATCT +GCTACATCTTCCGGCAAAGTGGTACCGGCAGAAATCAGACGGTCTGCTTCAATCATCCTTTACCTCATAA +CGCGGCGCGTAGGGCTTCGCGAATTAAAGTTTCACTGCTGGCGTCAGGGCGAGCGATTTTGCTCACCATG +CGGCTTGCTTCTTGTGGTTTATAGCCCAGCGCCACCAGCGCGGCAACCGCTTCTTGTTCAGCATCGTCGG +TCGCCGGGCTGGCAGGAGACGTGAGTACCAGGTCGGCGGCTGGCGTAAAGAGATCGCCATGCAAACCTTT +AAATCGGTCTTTCATTTCAACAATCAAGCGTTCGGCGGTTTTTTTGCCAATACCCGGCAGTTTCACCAGT +GCCCCCACTTCTTCACGCTCAACGGCATTAACGAACTGCTGCGCTGACATTCCGGAGAGGATCGCCAGCG +CCAACTTCGGGCCGACGCCGTTGGTTTTGATCAACTCTTTGAACAATGTGCGCTCTTGTTTATTGTTAAA +ACCGTACAGCAGTTGCGCGTCTTCACGCACCACAAAGTGGGTGAAAACGATCGCTTCCTGACCCGCTTCA +GGGAGTTCATAAAAACAGGTCATCGGCATATGCACTTCATAGCCTACGCCGCCCACTTCAATTAACACCA +GCGGGGGTTGTTTTTCAATGATGATGCCTCTGAGTCTGCCTATCACATGACGCTCCTGCGTAATGAATCA +AAGATAATGCTGTATGATAAAAAAATGCTGGATAGATATCCAGCGAAGGATGAAGAAAACTTGCGAGGTG +TCTCGATGAACTGAAAAATGGCACAGTATAATTTATTCTACAGGTTATATTGGAAGCAAATATTTTAATA +TTACATATTCAGTGAAGAAATGCGTAATAAAAATATACATTGCGCCTCCTGAAAAAATAAATTTTTTATG +CTATTACGTATATTTGTATCTATTTCAATGGAATGACAACGTGAATATTAATTACCCTGCTGAATATGAA +ATTGGAGATATCGTCTTTACATGTATAGGTGCTGCCTTATTTGGTCAAATATCAGCTGCATCAAATTGCT +GGAGTAATCACGTCGGGATCATTATCGGTCATAACGGTGAAGACTTCCTGGTTGCAGAAAGCCGGGTTCC +CCTTTCAACCATCACCACGCTATCTCGTTTTATTAAACGTTCGTCTAATCAACGCTATGCTATAAAGCGA +TTAGACGCTGGGCTGACAGAACGACAAAAACAACGAATTGTTGAACAGGTTCCCTCCCGGCTACGCAAAC +TTTACCACACCGGTTTTAAATACGAATCTTCGCGCCAGTTCTGTTCAAAATTTGTTTTTGATATTTATAA +AGAAGCGCTATGTATTCCGGTGGGTGAAATAGAGACGTTTGGAGAATTGTTAAATAGCAATCCGAATGCA +AAACTCACTTTCTGGAAATTCTGGTTCCTGGGTTCTATTCCGTGGGAGCGTAAAACCGTCACGCCAGCCA +GTTTGTGGCATCATCCGGGTTTGGTGTTGATTCATGCGGAGGGAGTGGAAACGCCTCAGCCGGAACTGAC +CGAGGCGGTATAACTTAACGCAGTCGCCCTCTCGCCAGGTTCAGCCGCGATTCGCTCATCTGCATCGCAT +TCTGACTAACGTGGCAGTGGGTGATAGCAATCGCCAGCGCATCGGCGGCATCCGCCTGTGGATTAGCGGG +CAGTTTCAGCAAGGTGCGGACCATATGCTGCACCTGGCTTTTTTCGGCACTGCCAATACCTACCACCGTT +TGCTTTACCTGACGTGCCGCGTATTCAAATACTGGCAACTCCTGATTCACCGCCGCCACAATCGCCACGC +CGCGCGCCTGGCCCAGTTTCAGGGCTGAGTCAGCGTTCTTTGCCATAAAGACTTGTTCAATGGCGAAATA +ATCAGGCTGGAACTGGGTGATGATTTCCGTCACGCCCGCATAGATGAGTTTCAGACGAGACGGTAAATCA +TCCACTTTGGTGCGGATGCATCCGCTACCCAGGTAGGACAGTTGCCTACCTACCTGGCGGATGACGCCGT +AGCCGGTCACGCGCGAACCCGGATCAATGCCGAGAATAATAGCCATCACGCGTCTCCGTTTTGCTGTTTA +GCAGGCCTCATCAGAGAGTCGCTGCGACCTCATCAGAGATTTCACCGTTATGGTAAACTTCCTGCACGTC +GTCGCAATCTTCCAGCATATCGATCAGACGCATCAGTTTCGGTGCGGTTTCTGCATCCATATCAGCTTTG +GTAGACGGGATCATGGAAACTTCCGCGCTGTCTGCTTTCAGACCTGCCGCTTCCAGAGCGTCGCGCACTT +TACCCATTTCTTCCCATGCAGTGTAGACATCAATCGCGCCGTCATCATAGGTCACAACGTCTTCAGCACC +TGCTTCCAGTGCTGCTTCCATGATGGTGTCTTCATCGCCTTTCTCGAAGGAGATCACGCCTTTTTTGCTG +AACAGATAGGCAACGGAACCATCAGTACCGAGGTTACCGCCACATTTGCTAAATGCATGACGCACTTCAG +CAACGGTACGGTTGCGGTTGTCAGACAGACATTCAATCATGATTGCCGTGCCGCCAGGACCGTAACCTTC +GTAGATGATGGTTTCCATGTTTGCATCATCATCACCGCCCACACCACGTGCAATTGCGCGGTTCAGTGTG +TCACGGGTCATGTTGTTAGACAGTGCTTTATCCACCGCCGCACGCAGACGCGGGTTAGCGTCCGGATCGC +CACCGCCCAGCTTAGCCGCGGTTACCAGCTCACGAATGATTTTAGTGAAGATTTTACCGCGCTTAGCATC +CTGCGCAGCTTTACGATGTCTGGTGTTGGCCCATTTACTATGACCTGCCATAAAAATATCTCCAGATAGC +CCTGCCTGTTCAGGCAGCGTTAATTACAAACTGTTCAATCGCCTGCCGGTTGCTCCAGGACTTAGTGAGC +GCCGCCGCAGCAGGCGCATCAAGCCACTTGTAAGCCAGATGTTCAGTGAAAACGATCTGCCGCTCGTGCG +GAAGCGCAAGACAGAACCATGATTCCGTATTACGCGTCACGCCCGGCGCATAGCGATGACGTAAATGTGA +AAAAATTTCAAACTCTACCGTGCGCTGACAGTCAATTAAGGTCAGTTGTTCAGCGACAACATCAATGGTG +ACCTCTTCCTTTACTTCGCGCATGGCAGCTTGCGGCGCGGTTTCACCCTCTTCCACGCTGCCGGTTACCG +ACTGCCAGAAATCGGGATCGTCACGCCGCTGCAACATCAGCACCCGTTTCGTATCTTGTGCGTAGATGAC +CACTAAGATCGAAACGGGACGCTTATACACTTTATCCTTCACGCTGCCTCTTCGTTGACTGCCTTCGCTC +ATCCCATTCACATAGTTATCTATGCTCATGGGAGTTCACTCAGTTGCCGCCTCGATGCAACGCGAATGAT +TTCGTGTATTTGAGTCATATCAGTTATTCTCAGCCTTCTTCACAACCTGAATGCTCAGCTCAGCCAGTGC +AGTCGGGTTAGCAAAGCTCGGTGCTTCAGTCATCAGACACGCTGCCGCCGTGGTTTTCGGGAAGGCGATA +ACGTCACGGATATTGTCGGTGCCGGTCAGCAGCATGGTCAGACGGTCAAGACCGAATGCCAGACCTGCGT +GCGGCGGAGTACCGTATTTCAGAGCGTCGAGCAGGAAGCCGAATTTCTCGCGCTGTTCCTCTTCGTTGAT +ACCCAGAATACCAAACACCGTCTGCTGCATATCACCATTATGGATACGTACTGAACCACCGCCCACTTCG +TAACCATTGATGACCATATCGTAAGCGTTCGCCACCGCATTTTCCGGTGCAGCTTTCAGTTCTGCAGCCG +TCATATCTTTCGGTGAGGTGAACGGATGGTGCATTGCCGTCAGGCCGCCTTCACCGTCGTCTTCAAACAT +CGGGAAGTCGATAACCCACAGCGGTGCCCATTTGCTTTCGTCGGTCAGACCAAGGTCTTTACCCACTTTC +AGGCGCAGTGCACCCATCGCGTCGGCAACAATTTTCTTGTTGTCGGCACCGAAGAAAATCATATCGCCAT +CTTGCGCGGCAGTACGATCCAGGATGTCTTCGATGATTTCTGCATTAAGGAACTTCGCTACCGGGCTGTT +GATACCTTCCAGACCTTTCGCGCGTTCGTTAACTTTGATGTAAGCCAGACCTTTCGCGCCGTAGATTTTA +ACGAAGTTACCGTATTCGTCGATCTGCTTACGGGTCAGCGATGCGCCGCCCGGAACGCGCAGAGCCGCTA +CGCGACCTTTCGGATCGTTCGCCGGACCTGCAAATACAGCAAACTCAACAGATTTCAGCAGATCAGCAAC +GTCAGTCAGTTCCATCGGGTTACGCAGATCCGGTTTATCAGAACCATAACGGCGTTCTGCTTCCGCAAAG +GTCATTACCGGGAAATCGCCCAGATCCACACCCTTCACTTCCAGCCACAGATGACGCACCAGCGCTTCCA +TCACTTCACGCACTTGCGGCGCGGTCATGAAAGAAGTTTCCACATCGATCTGAGTAAATTCAGGCTGACG +GTCAGCACGCAGGTCTTCGTCACGGAAGCATTTAACGATCTGATAGTAACGGTCAAAACCGGACATCATC +AGCAGCTGTTTGAACAACTGCGGGGATTGCGGCAGTGCGTAGAATTTACCTTTGTGCACACGAGAAGGCA +CCAGGTAGTCACGCGCGCCTTCCGGCGTGGCTTTGGTCAGCATCGGAGTTTCGATGTCGAGGAAGCCGTG +GTCATCCATAAAACGGCGCACCAGGCTGGTGATTTTAGCGCGGGTTTTCAGGCGCTGAGCCATTTCCGGA +CGACGCAGGTCGAGGTAGCGGTATTTCAGACGCGCTTCTTCGGTGTTGACGTGGTTAGAGTCAAGCGGCA +GAACATCTGCGCGGTTGATGATAGTCAGCGAGGACGCCAGCACTTCGATTTCGCCGGTCGCCATATCGCG +GTTAATATTTTTTTCGTCACGCGCACGTACGGTGCCCGTGACCTGAATGCAGAACTCATTACGCAGTTCA +GAGGCCAGCTTTAACGCGTCCGCACGATCCGGATCGAAAAATACCTGCACGATACCTTCGCGGTCGCGCA +TATCGATGAAGATCAGGCTACCAAGATCACGACGACGGTTGACCCAACCACACAGAGTCACCTGCTGCCC +CACGTGGGACAAACGGAGCTGTCCACAATATTCTGTACGCATGAGATATCCCTTAACTTAGCTGCCGGCG +GATGCCCCCTGCTGCGCAGGTGACCAAGTCGCAGCGTTAGCTGTATGTCACAACTGAATGAAAAAAGGCG +GCTATTATACTGGAAATTCTGCCGCACCGTAAGAGCCTGGCCCGCGCTGGAACGCCTCGTTACCACTTTA +TATCGGGCCTGAAATCAGACTCTACGCCAGTTTGCTATAAAGGTGTTGCCCGAACTCATAAAAATTAACA +AAATTTGTCGTTCCGCCATCGGCTAATCGCATTAAGGTGTGAGGCACGATTTTGTTTTTTCAGGAGTCAT +TATGCTTGAACTTAATGCTAAAACCACTGCGCTGGTGGTGATCGATTTACAAGAAGGCATCTTACCTTTT +GCCGGTGGTCCACATACTGCCGATGAGGTAGTTAATCGCGCCGGGAAGCTGGCGGCGAAATTTCGCGCCA +GCGGTCAGCCCGTGTTTCTGGTGCGCGTTGGCTGGTCTGCCGATTACGCTGAAGCATTAAAACAGCCGGT +CGATGCGCCCTCACCGGCTAAAGTGTTGCCCGAAAATTGGTGGCAACATCCTGCTGCATTAGGTGCAACC +GACAGCGATATCGAAATCATCAAACGTCAATGGGGTGCGTTTTACGGTACGGATCTGGAGTTGCAATTAC +GCCGCCGAGGTATCGATACAATAGTGTTATGTGGGATCTCGACCAATATCGGTGTTGAATCCACCGCCCG +CAATGCCTGGGAACTTGGCTTTAATCTGGTGATTGCCGAAGACGCCTGTAGTGCCGCCAGCGCCGAGCAG +CACAATAACAGTATCAACCATATCTACCCGCGCATCGCCCGTGTGCGTAGCGTGGAAGAGATCCTCAACG +CGTTATGATTTACATCGGTCTACCGCAATGGTCGCATCCTAAATGGGTGCGGTTGGGGATCACCAGCCTT +GAAGAGTATGCCCGCCACTTTAACTGCGTGGAGGGCAACACCACGCTTTACGCCCTGCCGAAACCCGAGG +TTGTCCTGCGCTGGCGTGAGCAGACCACAGATGACTTCCGCTTCTGTTTTAAGTTTCCGGCGACCATTTC +GCATCAGGCAGCATTACGGCATTGCGATGATTTAGTGACTGAATTTTTGACCCGCATGTCACCGTTGGCT +CCGCGCATTGGGCAATACTGGCTGCAACTGCCTGCCACATTCGGCCCACGGGAGCTGCCTGCGCTTTGGC +ATTTTCTCGATTCTCTTCCTGGCGAATTTAATTATGGCGTGGAAGTCCGCCATCCACAGTTTTTCGCCAA +AGGAGAAGAGGAACAAACGCTTAATCGCGGTTTACATCAGCGCGGCGTTAATCGGGTGATTTTAGACAGC +CGCCCGGTTCATGCAGCACGTCCACACAGTGAAGCTATTCGCGACGCTCAACGAAAAAAACCTAAAGTTC +CGGTACATGCTGTACTGACGGCGACAAATCCGCTGATCCGTTTTATCGGTAGTGATGATATGACGCAAAA +CCGGGAATTATTTCAGGTCTGGTTACAAAAATTAGCGCAGTGGCATCAGACCACTACGCCTTATCTTTTT +TTACATACGCCAGACATTGCCCAGGCACCGGAACTGGTACATACCCTGTGGGAAGACTTACGTAAAACGC +TTCCAGAGATCGGAGCAGTTCCGGCTATTCCACAGCAATCTTCTCTTTTCTGAATTTGCCACCTATCATA +GACAGGTGCCATCGGCCATTTTAAAGGGAGTTTGTATGGTAAGCGCGCTGTACGCCGTTTTAAGTGCGTT +GTTATTAATGAAGTTCTCTTTTGATGTCGTTCGCCTGCGAATGCAGTACCGCGTTGCCTATGGCGACGGC +GGTTTTAGCGAACTGCAAAGCGCTATTCGCATTCATGGTAACGCGGTGGAATATATTCCCATCGCGATTG +TGCTGATGCTGTTTATGGAAATGAATGGCGCAGAAACCTGGATGGTGCATATTTGCGGCATCGTTTTGCT +TGCTGGTCGTCTGATGCATTATTACGGTTTTCATCACCGTCTGTTCCGCTGGCGACGTTCCGGCATGAGC +GCCACCTGGTGTGCGCTGTTGCTGATGGTGCTGGCGAATCTTTGGTATATGCCCTGGGAGTTGGTTTTCT +CCCTGCGTTAGCGCACAATACGCCACTTTCTTTTTCCCGGATTTTTACGTTATGTCTCACCGCGACACGC +TATTTTCTGCCCCTATCGCCAGACTGGGCGACTGGACCTTTGATGAACGGGTAGCTGAAGTCTTCCCGGA +TATGATCCAGCGTTCCGTACCCGGCTATTCCAATATTATTTCCATGATTGGTATGTTAGCCGAGCGCTTC +GTTCAACCTGGTACGCAGGTTTACGATCTGGGTTGTTCTCTGGGCGCGGCGACGCTCTCGGTGCGTCGCA +ACATTCATCATGATAATTGCAAAATTATTGCCATCGACAACTCCCCGGCGATGATTGAACGCTGCCGTCG +TCATATTGACGCCTATAAAGCCCCTACGCCAGTAGACGTCATTGAAGGTGATATTCGCGATATCGCCATT +GAAAACGCATCGATGGTGGTGCTGAATTTTACCCTGCAATTCCTGGAACCTTCCGAGCGCCAGGCGTTAC +TGGATAAAATTTATCAAGGGCTGAACCCCGGCGGCGCGCTGGTGCTTTCGGAAAAATTCAGTTTCGAAGA +TGCCAAAGTTGGTGAACTGTTGTTCAACATGCACCACGACTTTAAACGTGCCAACGGTTACAGCGAACTG +GAGATCAGCCAGAAGCGCAGCATGCTGGAAAACGTGATGCTGACCGATTCCGTGGAAACCCATAAAGCAC +GCCTGCATAACGCCGGTTTTGAGCATAGTGAGCTGTGGTTCCAGTGCTTTAACTTTGGTTCACTGGTGGC +ATTAAAAGCAGAGGACGCTGCATGATCGACTTTGGTAACTTTTATTCTCTGATTGCCAAAAATCATCTTT +CACACTGGCTCGAAACGCTGCCCGCGCAGATTGCTAACTGGCAGCGCGAGCAGCAGCACGGGTTGTTTAA +GCAGTGGTCAAATGCGGTGGAGTTTCTACCTGAAATTAAACCGTATCGTCTTGATTTATTGCATAGCGTT +ACGGCAGAAAGCGAAGAGCCACTGAGCGCAGGGCAAATTAAACGCATTGAAACGCTGATGCGCAACCTGA +TGCCGTGGCGCAAAGGGCCGTTCTCACTGTATGGCGTCAACATCGATACCGAATGGCGTTCCGACTGGAA +ATGGGATCGTGTTCTGCCCCATCTTTCTGATTTAACCGGACGCACCATTCTGGATGTCGGCTGCGGCAGC +GGTTATCACATGTGGCGCATGATTGGCGCAGGCGCGCACCTCGCGGTGGGGATCGACCCTACGCAACTGT +TTCTGTGCCAGTTTGAAGCGGTGCGTAAACTACTGGGTAATGATCAGCGCGCGCATTTGTTACCGTTAGG +TATTGAACAACTTCCGGCACTGAAAGCCTTTGATACCGTCTTTTCGATGGGCGTGCTTTACCATCGCCGT +TCACCGCTGGAGCATCTATGGCAGTTGAAAGATCAACTGGTCAATGAAGGTGAACTGGTGCTGGAAACGC +TGGTTATTGATGGTGATGAGAACACGGTGCTGGTACCAGGCGATCGTTACGCGCAAATGCGTAATGTCTA +TTTCATCCCTTCCGCGCTGGCGCTGAAAAACTGGCTGAAGAAGTGTGGTTTTGTAGATATCCGCATTGCG +GATGTGAGCGTTACCACCACAGAAGAGCAGCGACGCACCGAATGGATGGTTACCGAATCGCTGGCCGATT +TCCTCGACCCACATGATCCGGGTAAAACGGTGGAAGGTTATCCGGCACCTAAACGCGCGGTGCTGATTGC +GCGCAAGCCGTAAAGGTCTGGTATTACTGCCGGATGCGGCGTGAACGCCTTATCCGGCCTACAAAACCTT +GCTAATTCAATATATTGCAGGGACTATGTAGGCCTGATAAGCATAGCGCATCAGGCAGCTTTACGTTTGC +ATAACCTCAGCGCCCGTTTCCGGGCGCTATTCACGTCTTACGCCTGAACAGCTGGCTGATCAAACGCCGT +TAACTTCGGTGCATTGCCCGTATATTTTTCGATATACACCAACGCTGAGTTACCGGCACAGGCATTTGCC +AGCTGCGAGCTGGGGATATCCGCCGTTAACACGTTCGCACTGCCGTTTTTACACAAGCCATTTTCCAGAT +CTGGCCATGCACCTTCATGCACGCATACCACGCCTTTTTTGATCCCGTCAGTCACCACCGCGCCTGTCAA +AATCTGACCACGTTTGTTCCAGACACGCACCAGATCGCCATTCGCAATACCAAAGCGTGCAGCATCTTCG +GTGTGAATAGTGATTGGTTCACGATCGGCGATCGCATATTTTTTACGCAGTTCCGCATAGTTAAGCTGAC +TGTGTAAACGGTGTGCCGGATGTGCGGTCAGAAGCTGTAACTGCTTCTCGTCGGCGGTACCTTTCCATTC +ATCAGGAGCCAGCCAGGTTGGGTGTGCCGGGCAATCCTTATAGCCAAATTTTTCCAACGTTTTTGAATAG +ATTTCAATTTTGCCGCTTGGCGTACCCAGCGCATTTTTCACCGGATCGGCGCGGAAATCACCATAACGAA +CGTACTGTTCGTTCTTCTCGCTGTGGCGCATTTCGATCAGTTTATTTTGCTGCCAGAAGGCATTAAACAT +TGGCATAGTGACGCGTTGCGCACGGGCACCTTTCTGAGCGGCATCATAGAAAAATTTCAGCCACGCCATT +TCATCTTTACCTTCGGTATAGATCTCTTTTCCGCCAGGTTTGAGTAATTCCGCAAGATCGGCAAACACGT +CAAAATCGTTACGCGCTTCAAATTGCGGAGCAACAGCCTGCTTCATCGGCACAATATGCTGGTTGCTGTA +ATCACCGGTCATCGTCAAGTCATTGCGCTCAAACGATGTGGTGATCGGTAATACGATATCTGCGTGTTTG +GCTGCTGCGGTCCAGTAGCATTCAGAAACGACGATCATCTCCGGTTTCTGCCATGCTTTAATCAGACGAT +TAGTATCCTGGTGATGGGTAAAGTTACCGCCACCCGCCCACCAGATCATTTTGATATTCGGATACGTTTG +TTCTTTACCGTTATGCTGATATTTGCCGCCAGGATTTTCCAGCGCATCGACGATACGGGCAACAGGAATC +GCCGTCATTCCGCCATCATCAGCGGCCTCGCTGGCATGTCCGGCAATCGCCGCAGACATTTCCGGCAGCA +CGCCGCCAACACGCGTCGGGTTGCCACCGTTGGAGTAATGATAAGAGAAACCAAAACCGCCGCCCGGTGT +ACCAATCTGCCCTAACATCGCCGCCAGCGTCACCAGCATCCAGTGTTTCTGTTCACCATATTGCTGGCGC +TGAATTCCCCAGCCTGCCATCAGCATTGTGCGATTCGCCGCCATCAGTTCAGCGAGTTTGACTATCTGCG +CTTCCGGTACGCCAGTAATTTCCGCCGCCCAGACCGCGCTCTTCGGCGTATTATCGCTCTTACCTGTCAG +ATACTCTTCAAACTGCGGATACCCGGTAGTGTATTTTTCAAGGAACACTTTATCGTGTTTGCCTTGTGTC +ATCAGGGTATGCGCAATCCCTAACATCAGTGCCACGTCGGTGCCCATATTCGGCGCGATCCAGGTGGCAT +TATCGTCAAAGAATTCGATGGTTTCGGAGCGGATAGGATCAATGGCAATCACTGGTTTGCCAGATTTTTT +CAGCTGATGGAAGTATTCCAGCCCTTGCTCATCGGTACTGCTCCAGGCAATTTTTAAGGTATTCAGCGGG +TTCATTCCCCACAGCACCACAACCTGGCTGTTTTCCAGAATCAGCGGCCAGGAGGTCTGCTGTTCATACA +CCTCTACAGAACCGACCACATGCGGCATGATCACCTGTGCTGCCCCGGTTGAATAATCGCCGCTATGCCC +GGAATAACCGCCCGCCAGGTTCATATAACGTTGCAGTAAGGTTTGCGCTTTATGCAACACGCCAGAAGAG +CGCCAGCCGTAAGATCCGGCAAAAATGGCCGATGGTCCGTTAGCTTTACGAATACGATCATGTTGCTCAT +GAATCAGTTTTAATGCCTGTTCCCAGCTCACCTGTACATAGGTATCTTCGCCACGACCTTTCGCCGGTTG +CAGTGGATTATCGAGATAGCTTTTTCTCACCATCGGATGCTGAATACGCGCCGTGGTGTGTACCTGATCC +GCCGCCGTAGACTGTAAGGAATTCGGTATGGTTTTCGCCAGCGCGCCTGTTGAAGAAACAATCTTGCCGT +CCTTCACTTCTACGTTCATCGCTCCCCAACGTCCCGCGGTGAGGATTTTACCGCCCTTCTCTTCTGCCCA +TGCGGGGAGCGGTGCTGCCGATGTCACCACCAGCGCTCCAGCGGCAATACCGCTGTGTTTAATAAATTCA +CGTCTTGTTAATGTCATAACTTCCTCCCTGATCAACGAGGATCACTGTTTCTCGGTAATATCTTTGGCGT +TGTACTGGAAATACCGCGTTAAAATGTCCAGTTCGTTTTCGCTCATGCTGGTTCGTGCCCCCATTCCTTT +GGCAATGGACGGCCACGCATTGACGGTGTAATGGTCGGCGGCAATAGGGGCATGACAACCAGCGCAATAG +GTATCGTCAAGTTTTTCAGCGTATTGCCATAGCGGTTTACGGTCCGCTAATGCGGGATCGGTAAGCGCAC +CCTGTAAAGACGCCTGACGCCATTGATTGCCGTATTCGTCAGCCTGCCATTCCCCGTTTACAGTGAGCGC +CTTGATACCTTCTTCACTTAATGTGGCTAGCGCCAGCCGTTGACCTGCCGCCAGGTAGAGCGTGTTTTCA +CTGCCCTGCATTTGATAACCCTGCAACAGAACGATCGGCTGTTTGCCACTGGCATCAACGACGGTGAGAT +CGGTTCCAGGATTCACGGTAGCCAGCTCGCCTATGTGAGAAGTTTTGAAAGGATAAATATGTGCGCCATT +AGTAACTGAAGTAGCGGCCTGACTTTCCAGCTCATGCGCCGCGTTGTCATCCATTTTTATTTCTGGCGGA +AAATGGGCAATGCCTTTATGACAATCGATACAGGTTTCGCTGTCCTTTTGTGCTTTGTTATGCATTTTCT +GCGCAGATTCACTTTGCGAGGCAATATCCATGGCATCAAAAGAATGGCAACTACGGCACGTTGCAGAGTC +AGTGGCTTTTAATTCTTTCCATACTGTTTCGGCCATTTCCTGGCGATGAGCTTCGAACTTATCGTCACTG +TCTATTTTGCCGCTAACAAATTCATGATAAATATCTTTAGATGCCTTTAATTTAGCAAATAAATAATCCA +TCCCTGACTTTGGAATATGGCAATCGGCACATTCCGCACGTATCCCTTTCTGGTTCGAAAAGTGGACAGT +TCCCTGATATTCCTCAAAAGGTTTACTCATCGAGTGGCAGGAAAGGCAAAATGCTGTATCCGACGTTTTA +TGTAAGACTTTTTGCGCCAGCAATAACCCGCCGCCACCAACCACAACCGCTATCAGCAAAAACAATAACC +CAATGCGTTTTTTCCCTCGCATAGATTCCTCTAATTAAATTACTGGACACCGAAATCATTGTATAATTAA +ATATACAACGAATTAACCGCTTGCATAATTAGGCACAACACTGCCTGAAACAATCGATAAAGAATATGAT +TTATTACAATGTAATCATTAATTGCTAAGGAATAACCCAGTTGCTATTTAGAATATATATTTATCAGTTT +TAGTAATTTAAATCCCATAATTAATGTGAATATATACAATATTTTTAGCACAACGCTATGCGCACTGTCA +CCCGCTCAACAGATCACGGTTATCGTTCGTTTTTTATACTGTTCAGGGATAAAAAAAGGCCCCTGTTGAA +ATTGCAGGGGCCTGGTACGAGCAAGCATCATATTGGGCGACATGATGCAACGGTAAAAATCATTTGGCCT +GATGGCGTTCAATGATTCCTTTCATTTCAGCAACCGCCGCCCCGTCTACGATATAACGCGAATACTCGTC +CGCGTGTTCATCTGATGACATGGACAATCCTTGATTACGATAACGCATCGGTGAGGCTTGCCACGCTCCC +GCGGAGCTATGGACTTCCAGCACTCCGGCATCGAGGAAGTGGTGCAGGTTTTCTGCACGGACTCCTGCTC +CGGCCATAATGATTGGAGCATCACGATGGGCAATAAGTTCCATAATTTTTGATAAACCTTGCAGTGCGTC +TGATTTTTGCCCTGATGTCAGTACCCGGGCAATGCCCAATTCCGCAAGATTATTGAGTGTATATAAAGGG +TTAGCGCACATATCGAAGGCGCGATGAAAAGTCACTGCCAGCGGACCGGCAGCAGCCATTATTTTTTCCA +TTCGTGGCATATCGACATTCCCGTCAACATCGAGAACGCCCGTCACCAGTCCAGGAAAACCTAATTCGCG +GACCGTGCGCACATCCTCAAGAATGGCGGCAAACTCACCGTCGCTGTAGCAAAAATCACCACCGCGTGGG +CGAATTATCGGATGCACAGGGATCGTCACCCGCTGGCGCACGGATTTCAGTACACCCAACGACGGCGTTA +AGCCCCCCTCTTTTGGGGCTGCGCATAATTCAACTCTGTCTGCGCCGTTTTGCTGCGCCGTTAGTGCACA +TTCCATGCTGTAACAGCAAATTTCCAGTAATGCCATTTTTACTCCTTAATTACGCCGACTGCTCGCTGGC +AACGATCTCTTCAATGGACCACGGATGAAACTTAATAGTTGTTTTGCCATCGGTGACCGCCAGCGTCGGA +TTCGGTAATCGCTCATGCTCACCTTTTGGCGAACTGGTTTTCACTGAGATCCCCGGTAGGCTGAGTCCTT +CATCAGAAAGCAATGCCAGCGCACGGGCATTCAGCGTTTCTGGATCACCCGGCAGAACGATTTCAATATG +TTCCCAACCTTCGTGTGGGTAACGTTTTTCCCCGGGCCACGGTAGCTCCACAATAGAAAACTGCCAGTGC +GCAACCTGTACCGGTTCATGCAATTTAAACAGACAAATCGGTCTGCCATTGATCATATTTTCTGACAAAA +GCTCGCCACACTGTTCAAACCCGCGACGCCAGCGTTCAGCAGTGGCGTTTTGATGGCAACGCAAAGAAAT +GTGATCGGCAGTCAGCGGAGTGATATTCAACCCCAGACGGCGGGAAAGTTCATCTAATGCGTGGATAAAT +CGCGGTAAATCCGATGCAATATCCTGCAGCTCGTCGATAGATTGCCAGTTCGCCATAATCACTCTTCGTC +TTTCAGTAAAAGCGTTAATTTACCCTGTTGCCCTGTGCCAACCAACCGCTGATTTCACGCCGCTTCTGAT +GCAATAGTGAAAACGGCAATACGCCACGCGCACGTTGCTGACGAAAACAGCCATTTGCAGTATACTCCCG +CCCTAATTTCTTTAACTGGTGCGGGCAATTTTTGCTCGCTTCATCAATGTAAGGTATTCCGGTGAATATT +CAGGCTCTTCTCTCAGAAAAAGTCCGTCAGGCCATGATTGCGGCAGGCGCGCCTGCGGATTGCGAACCGC +AGGTTCGTCAGTCAGCAAAAGTTCAGTTCGGCGACTATCAGGCTAACGGCATGATGGCAGTTGCTAAAAA +ACTGGGTATGGCACCGCGACAATTAGCAGAGCAGGTGCTGACTCATCTGGATCTTAACGGTATCGCCAGC +AAAGTTGAGATCGCCGGTCCAGGCTTTATCAACATTTTCCTTGATCCGGCATTCCTGGCTGAACATGTTC +AGCAGGCGCTGGCGTCCGATCGTCTCGGTGTTGCTACGCCAGAAAAACAGACCATTGTGGTTGACTACTC +TGCGCCAAACGTGGCGAAAGAGATGCATGTCGGTCACCTGCGCTCTACCATTATTGGTGACGCAGCAGTG +CGTACTCTGGAGTTCCTCGGTCACAAAGTGATTCGCGCAAACCACGTCGGCGACTGGGGCACTCAGTTCG +GTATGCTGATTGCATGGCTGGAAAAGCAGCAGCAGGAAAACGCCGGTGAAATGGAGCTGGCTGACCTTGA +AGGTTTCTACCGCGATGCGAAAAAGCATTACGATGAAGATGAAGAGTTCGCCGAGCGCGCACGTAACTAC +GTGGTAAAACTGCAAAGCGGTGACGAATATTTCCGCGAGATGTGGCGCAAACTGGTCGACATCACCATGA +CGCAGAACCAGATCACCTACGATCGTCTCAACGTGACGCTGACCCGTGATGACGTGATGGGCGAAAGCCT +CTACAACCCGATGCTGCCAGGAATTGTGGCGGATCTCAAAGCCAAAGGTCTGGCAGTAGAAAGCGAAGGG +GCGACCGTCGTATTCCTTGATGAGTTTAAAAACAAGGAAGGCGAACCGATGGGCGTGATCATTCAGAAGA +AAGATGGCGGCTATCTCTACACCACCACTGATATCGCCTGTGCGAAATATCGTTATGAAACACTGCATGC +CGATCGCGTGCTGTATTACATCGACTCCCGTCAGCATCAACACCTGATGCAGGCATGGGCGATCGTCCGT +AAAGCAGGCTATGTACCGGAATCCGTACCGCTGGAACACCACATGTTCGGCATGATGCTGGGTAAAGACG +GCAAACCGTTCAAAACCCGCGCGGGTGGTACAGTGAAACTGGCCGATCTGCTGGATGAAGCCCTGGAACG +TGCACGCCGTCTGGTGGCAGAAAAGAACCCGGATATGCCAGCCGACGAGCTGGAAAAACTGGCTAACGCG +GTTGGTATTGGTGCGGTGAAATATGCGGATCTCTCCAAAAACCGCACCACGGACTACATCTTCGACTGGG +ACAACATGCTGGCGTTTGAGGGTAATACCGCGCCATACATGCAGTATGCATACACGCGTGTATTGTCCGT +GTTCCGTAAAGCAGAAATTGACGAAGAGCAACTGGCTGCAGCTCCGGTTATCATCCGTGAAGATCGTGAA +GCGCAACTGGCAGCTCGCCTGCTGCAGTTTGAAGAAACCCTCACCGTGGTTGCCCGTGAAGGCACGCCGC +ATGTAATGTGTGCTTACCTGTACGATCTGGCCGGTCTGTTCTCTGGCTTCTACGAGCACTGCCCGATCCT +CAGCGCAGAAAACGAAGAAGTGCGTAACAGCCGTCTAAAACTGGCACAACTGACGGCGAAGACGCTGAAG +CTGGGTCTGGATACGCTGGGTATTGAGACTGTAGAGCGTATGTAATCGATTTTTCGTGAGAGTGAAGCCT +GATCAGGGTTAGCCGATCAGGCTTTTTTATTGCCATCTAAATGTATTCTGAAAATGGACATGCCATTGTT +TTCTCACTGTTGGATAAGAGGCCAGAAGCGTAATATCCGGCCCCAGGGAAACGATAACGGTTGAATTTAA +GGAATACCGCAGTGTTTAAATTTCTTGTATTAACATTAGGCATTATCTCTTGCCAGGCTTACGCAGAAGA +TACGGTTATAGTAAACGACCATGACATTTCAGCCATCAAAGATTGTTGGCAAAAAAATTCAGATGATGAT +ACTGACGTTAACGTGATCAAATCATGCCTGCGACAAGAATACAATCTCGTCGATGCGCAATTAAATAAAG +CCTATGGTGAAGCTTATCGTTATATAGAACAAGTGCCACGCACAGGTGTAAAAAAACCTGATACCGAACA +ACTTAACTTGCTTAAAAAATCACAGCGAGCCTGGCTGGATTTTAGGGACAAAGAATGTGAATTAATCCTT +TCAAATGAGGACGTTCAGGATTTAAGTGACCCTTATTCTGAATCAGAATGGCTCTCATGTATGATCATAC +AGACCAATACGCGAACTCGCCAGTTGCAGCTATACCGTAACTCTGAAGATTTTTATCCAAGCCCTTTGAC +AAGAGGATAATTCACATCTTTTTGGCATGTTTTGTTGCAAGCTATTCCTGATAAATAATTGCAACAAGAC +ATCGAGCCTTTTTCACTGAGTTATTAAACATACTCGCGAGCGCGTAATTTTTTTGTCCTTCAGCGATAAT +TCACAATCACTTCATTACGTTGTACCTTTAGCGGTGGAATTAACCGCCCACCGCCTGGCACTTCCCAGAT +AAATCGCAACGGTTCTGCTGCCGCTATACCGGAAAAGGCCACGGTGGTTCCGCTCTGCCCCTCTAATTCG +ACACAACGAGATTGCGAACACAAGCGAACCCGCAGTCCTGAAGGTGTCGGGCCGATAAGCTGATAACGCC +ACGCTACCAGCGTCATCAATCCTGAAGCAGGTTGTCGCGTAGAAAGAGGCGCAGACGACATCGACTCACC +GCGATGATTTAGCGTAATTCCTACACTACTTGCCTGCCACATCCCCTCCCCGGCGGCTTGCACCAGCAGC +GGAAACAATAATATTGCTAATAAGGTTCTCATTATTTGCCGCCAATTGTCGCCGTCATGCGGATATGTCG +GTTATCAGACAGTTCCAGATTCGACAGGACCACTAACTGCGGCAAGCTGCGGCGCAGGAAGCGAGACAAT +AATGGTCGCAGCGCGTGGTTCACCAACAATACTGGCGGCGCACCCAGCATCTCCTGACGGGATAGCGCTT +CCTGAGTTTGCGCCAGTAAACGATCCGCCAGCCCTGGCTCCAGTCCTCCCCCGCCCTGCAGCGCCTGTAG +TAACAAACGTTCCAGCGGTGTATCGAGGCCAATAACATGGACTTCATCTTTGCCAGGAAACCACTGCTGG +GTAATCGCCCGTCCCAACGCCACGCGCACGACGGCGGTTAATTCATGTGGATCGCTTTGGATGGGCGCAT +GTTCCGCCAGCGTTTCGAGAATGGTGCGCATATCGCGAATCGGTACTTTTTCATCGAGGAGATTTTGCAG +CACTTTATGCAGTGTGGTGAGCGTGACGACGCCAGGAACGAGATCTTCCGTCAGCTTTGGCATCTCCTGG +GCGACGCGATCCAACAGCTGTTGCGCCTCCTGACGACCAAACAGCTCTGCGGCATGCTGGCTAATGAGGT +GGTTAAGATGCGTTGCTACCACCGTGCTGGCCTCAACCACTGTGTACCCCTGAATCTGCGCCTGTTCTTT +TAGCGCACTTTCAATCCAGATAGCATTCAGGCCAAATGCCGGATCGACGGTCGCCTCACCAGGTAACGTC +CCGGCAGCGGTTCCAGGGTTAATCGCCAGCCAGCGCCCCGGATAAGCATCACCACTGCCAATCTCCACGC +CTTTCATCAAAATGCGATAGCGGGCAGGTTGCAGATCCATATTGTCGCGAATGTGCACCACTGGCGGCAG +AAATCCCATCTCCTGGGCAAATTTCTTGCGGATACTGCGTATACGGCCCAACAACTCACCATCCTGCTGG +AAATCGACCATCGGGATCAGTCGATAACCCACTTCCATTCCCAGAGAATCTTCCAGTTGTACATCGTTCC +ACGTCGCTTCGACAACGGTATTATTCTCTGCCATTTTTACCGGTTTGGGTTCGGCAGGCGCTTTTTGTTC +GCGTCCGCGTATCCACCAGGCCAGCCCGAGCAATCCGGCAGTGAACAGCAAAAATACCAGGTTCGGCATT +CCAGGCACCAGGCCGAGTAAACCGAGCACGGCGGCGCTTAACAACATAACGCTTGGGTTACTGAAAAGCT +GATTCACCATCTGCTCGCCAACATCCTGATCGGTGCTGACACGCGTAACGATGACCCCCGCGGCGGTAGA +AATCACCAGCGCCGGAATTTGTGCCACCAGACCGTCGCCAATGGTCAATAGCGTATAACTTTCCGCCGCG +TGTCCCATGCTCATGCCATGTTGCAGCACGCCGACCAGCAACCCGCCGACAATGTTAATGACCATGATGA +GGATCCCGGCGATGGCATCGCCGCGAACAAACTTACTTGCCCCGTCCATTGAGCCGTAAAAATCGGCTTC +CTGAGTCACTTCGGAGCGGCGTTTTTTCGCCTCATCTTCACCAATCAATCCGGCGTTAAGGTCGGCGTCA +ATCGCCATCTGCTTACCCGGCATACCATCGAGAACAAAGCGCGCACCCACTTCTGCGATACGCCCGGCAC +CTTTGGTAATGACCATAAAGTTGATGATCACGAGAATGACAAACACCACGATACCGATAGCGAAATTGCC +ACCAACGAGGAAGTGACCGAACGCTTCGACCACCTTCCCTGCCGCCGCCGCGCCGGTATGCCCTTCCATT +AAAATGATACGGGTTGAAGCCACGTTAAGTGCCAGACGCAACAGCGTGGTAAACAACAGAATGGTCGGAA +ACGCAGCAAACTCAAGCGTGCGCTGGGTAAACATCGCCACCAGCAACACCATGATCGACAAGGCAATATT +GAAGGTAAACAACAGGTCGAGTATGAATGCGGGCAGTGGCAGCACCATCATCGACAAGATCAACAGGATC +AAAATCGGTCCGGCAAGGATCTGCCATTGTGTCGATTTCAGGTTTGCGGGCAGGCGCAGCATCGCGGCCA +GATTACTCATGGGTCGGTTTCTCGTTAATAAAATCCAGGGCTTCCGGCACCGGAAGATGAGTAGGTTGTA +CAGGGCGCTGTCCACCAGCCAGACGCCAGCGTTTCAGTTGCCAGACCCAGGCCAGCACTTCCGCCACCGC +GGCGTACAGTTGACCCGGGATTTGTTGACCAATCTCCGCATGTCGATACAGCGCTCGCGCCAGCGGCGGC +GCTTCAAGCGTCGGGACGTTATTTTCAGCGCCAATTTCACGAATGCGCAGCGCGACCAGCCCTGCACCTT +TAGCGACCACTTTCGGTGCGCTCATTTTGTTTTCGTCATACTGCAACGCTACCGAATAGTGGGTCGGGTT +ATTGACAATGACATCCGCTTTCGGCACATCGGCCATCATCCGACGCCGTGCAGCAGCTCGCTGCATCTGA +CGGATCCGCCCTTTAACATGAGGGTCACCTTCGCTTTGTTTGAACTCATCACGAATATCCTGCCGTGACA +TACGCAGCTTTTTCAGGTGGCTGAATATTTGGAAAAAGACGTCAAATCCCACCATTGGAATGACACCAAG +CACCACCAGCAGTGCGCATAGCCCTACCAAATCCATCGCATTACCCATGGCGGTAATCGGAGACTCGGCC +ATCAAGCGCATCATCTGCGGCCAGTGATGCCAGAGAAAAAACCCCGTCACGCTGCCAACCAGGATGGTTT +TCAAAATTGCTTTAAGCAACTCCGCGCCAGTCTGAGCCGAGAACATCCGTTTAATGCCCGGTAGCGGGTT +GAGTTTGGAAAACTTCGGCTGCAAGGATTTGCCGCTAAATACCAGCCCTCCCAGCATGACCGGAGAAATG +AGCGCCACCAGCACCACGCCGCTAATCAGCGGCAGCAGCGCCAGCATGGCTTCTCTGATCAGCAGAATAA +TCTGCCCGAGGATCAGATTCGGGTCATTGATAATACTGTGATCAAAATGCAGCCCAGCGGAGAGCATGCC +CGACAATCGACGGGCCAGCGACACACCGCCAAACCAGATAACACTAACGCCCACCAGCAAAATCAGCAGT +GAGGTCAGTTCACGGGAACGCGGGATTTGCCCCTCTTCCCGCGCTTTTTCTAGTCGGTGAGGTGTGGGGG +CTTCTGTTTTGTCGTCGCTCTCGTCAGACACGTCGCCAATCCTGGAAAGAGTATTAAGCGTGAATGATGC +CAGAGCGCAAAGCGTTCAATGGTTTGAGTAAGGGGCAAAACAGGCGGGATTTAGGGCTTTTGCTGCCACA +CATCAAGCATAGTGTGCGTTTGTCGGATGCGGCGTCATCGCCTTATCAGACCGCCTGATATGACGTGGTC +ACGCCACATCAGGCAATACAAATCAAAATCCAAGACTATCCAACAAATCGTCCACCTGATCCTGACTGGC +TACCACACCGGCTTTGCTGGTATCGACCTGAGGTCCATTAAGCAAACTCTGGTTTTCACGTTTTGGACGC +GACTCCTGTTCCGGGATGTTTTCCAACAGCACCATCAGCAACTGGCGTTCGATCTCCTGAATGACATCCA +TCATCCGCTTAATGACCTGCCCGGTGAGATCCTGAAAATCCTGCGCCATCATGATTTCCAGCAGTTGCGC +GTTAGTAAAGCTGGTATGCGCGGGTACATCTGCCAGAAATTGTCGTGTATCTGTTACCAGTTCACGGGCG +TCGGCAAGGTCAATCGGATCGGCAAACCAGTCATCCCAACGTTGGGTTAACGCTTTTGCTGATTTCTCCA +TTTGATCCTGATGCGGTTGTGACGCCTCAACACTGTTCAGCGCCCGCTCCGCAGCCTGGGCGGTCATCTG +CACAACATAGTACAAACGATCGCGCGCATCGGGGATGGCTTCCGCCGCTTCGGCAATGGCCTGATCCAGC +CCCAGTTCCCGCAAACTGTCGCGCAGCATACGCGTCAGGCTGCCGATGCGCGCAATGATATCGCCAGCTG +AATGCTCGTCAGCAGGTTTGATTGATGGTTGCATCATAGTCGCATCCTCACATGCCCAGTTTCTCAAAGA +TTTTGTTGAGTTTTTCCTCCAGCGTCGCGGCGGTAAATGGCTTCACCACATAGCCACTGGCCCCCGCTTG +CGCCGCAGCAATGATGTTCTCTTTCTTCGCTTCTGCAGTCACCATTAACACTGGCAATGCCGACATCGCG +CCATCCGCACGAATTGTTTTCAGCAATTCCAGGCCATCCATATTGGGCATGTTCCAGTCGGAGATAACAA +ATCCATAACCGCCTGCCTGCAACTTATTGAGAGCGTCGACGCCATCTTCCGCTTCCTCAACATTATTGAA +TCCCAGCTCTTTCAGCAGGTTACGCACTATGCGTCGCATGGTGGAAAAGTCATCCACAACCAAAAATTTA +AGTTCTTTATCCGCCATTTCACACTCCTGATTTAAATACGTATCGCCTGTCCGGCACTAATTTTTGCCAA +CATTTGCTGGCTTACCTGGCTAAGATCGACCACTTCGCAGACACCACCCATATTGATGGCCTCGCGCGGC +ATGCCGAACACCACGCAACTTGCTTCGTTTTGCGCAAGGGTCCATGCCCCCGCCTGACGCATCGCCAACA +TTCCCGCCGCGCCGTCGTTGCCCATACCGGTCAGGATCACCCCAACCGCATTACGCCCCGCCTGTTTGGC +GACAGAATGGAACAACACATCTACCGAAGGCCGATGACGGTTAACCGCCGGGCCATCGTGAATTTTGATT +TGGTAATTTGCGCCACTACGCGACAGCTCCATATGCCGATCGCCCGGCGCAATATAGGCATGCCCCGGCA +AGACACGTTCTCCGTCTTCGGCTTCTTTAACCCCGATCTGGCAAAGCTTATTAAGTCTGTCGGCAAAAGA +GCGGGTGAAACCGGGCGGCATATGCTGGGTAATTAACAGTGCCGGGCTGGAAAGCGGCAACGGTTGCAGT +ACGTGACGAATTGCCTCAGTTCCACCCGTTGAAGCACCAATCGCAATCAGTTTTTCAGAACTCAACAACG +GCCCCGCCTTCAGCGTTGTCGGTGCCGACAATGGCTTATGTGCTGCAAGGCTCGCCTTTGCTGCCGTACG +CACCTTTTCAGCAATCATTTCGTTATACGCCAGCATACCTTCGCGAATACCCAGTTGCGGTTTGGTGACA +AAATCTATCGCCCCCAGCTCCAGCGCGCGCAGCGTGACTTCTGACCCTTTGCCGGTCAGGGAAGAAACCA +TCACAACGGGCATTGGACGCAAACGCATTAATTTTTCGAGGAAATCCAGTCCGTCCATCCGCGGCATTTC +AACATCCAGCGTCAGCACATCGGGATTGAATTTCTTAATCAAGTCACGCGCGACCAGCGGATCAGGCGCG +GTCGCCACCATTTCCATGTCGCTATGGCTGTTGATGATTTCTGTCATGATCTGGCGCATCAGTGCCGAAT +CATCGACAGATAACACCCTGATTTTGCTCATCGTTAATCCTTACTTAGCGCATACACCGTCTGACCACGC +AGCGTGAAGCGGCGCTCAAGGTGGCTAAAGTTTTCAGAGTGACCCGCAAACAGCAATCCGTCGGGTTTAA +GGAGCGGAACAAAGCGGCGCAAAATCTCCTGCTGGGTAGTTTGATCGAAGTAGATCATGACGTTACGACA +GAAGATCGCATCAAACGGCCCCGGCACGGTGTACTGTTTCGCCAGTAGATTCAGCGGGGCAAAATCAACA +TAGTTCGCCAGCTCCTGACGCACGCGTACCAGCCCTTCATGCGGCCCCGTCCCTCGCATGAAATACCGTT +GCAGTTGCTGCGGCGTCAGGTTTTTCAACTCTTCATGGCGATAGATACCGCTTCTGGCTTTTTCCAGCAC +TTCGGTGTCGATATCACTGGCAAACACTTTCCAGCGTCCGGGCGCGGTGCCCAATGTGTCAGCCAGCGTC +ATCGCAATGCTGTACGGCTCTTCGCCGGTCGAAGCCGCCGCGCTCCATACGCGATACTCGCCAGAACGGC +GACGTGCGTGATCCGCGAGCAGAGGGAAATGATGTGCCTCACGGAAAAATGCCGTCAGATTCGTGGTCAG +CGAATTGATAAACGCCTGCCACTCACCGCTGTGCTGATTAGATTCCAGCAAGTTCAGATAATGACCGAAA +TCCGTCAGTCCCAGCGAACGCAAACGACGAACCAGTCGGTTGTAAACCATGTCGCGTTTATGGTCAGCCA +GAACGATCCCGGCTCGTTGATAGATCAATTGACTTATCCGCCGAAAATGCGCGTCGGAAAGCGCCAGGCG +CTCGGTCATCTGTAACAATAAAGACGTTTGCCCACAGGGCAGAGATGAAGTCATAGCGCCTTCTCAATCA +CTTCAGGATACCACTGGCGCAATTTGTAACTGCACCGACTCATGTCGTGCTACTTCATGTTCTTCAAGGG +TAAATACCGCCACACGCGACGAAAGATGGTCGGCCTGATTCGCCAGTTGTTCCGTTGCCACCGCCGCTTC +TTCTACCAGCGAGGCGTTCTGCTGAGTCACCTGATCCATCTGGCTGACAGCCTGTGCAACCTGCTCAATC +CCCCGCTGTTGTTCTTCCGACGCAGAGGCAATTTCTCCCATAATGTCGTTCACGCGGGTCACCGAACTGA +CAATATCGATCATGGTCGCGGCGGCGTTATTCACCAGTTTCGAACCCTGCTGGACACGATTGACTGACTC +TTCGATCAGCCCTTTGATCTCTTTTGCTGCCTGCGCGCTACGGCTGGCAAGATTGCGCACTTCACCTGCC +ACTACCGCAAAACCACGCCCCTGCTCTCCGGCGCGAGCCGCTTCCACTGCCGCATTCAGGGCCAGAATAT +TGGTCTGGAAAGCAATTCCGTCGATAACGCTGATAATGTCGCCAATTTTTTGCGAGCTGGTGGCGATCTC +CTGCATGGTGTGAGTCATGGTACTGACCTGAACACCGCCCGCCTGCGCCGTTGTCGCGGCATTTTTTGCC +AGTTCCGACGCCTGTCGTGCGTTATCGGCGTTTTGCCCTACCGTGGCGGTTAATTGCTCCATACTGGCGG +CCGTTTGTGCCAGCGATGCCGCCTGCTGTTCGGTACGACTTGAGAGATCGTTATTGCCTGCGACAATCTC +CGCGATACCAATGTGCATCTCCTGGCTTCCCTTACGCACATCACTTACCGTCCCACGCAAAGCCTGCTGC +ATGGTCTTCAGACTGGCAAAAATGGCGGTGATCTCATTACGACCATATACCGCAATCGGACGCGCCAGAT +TACCCGCAGCAATGCTGTCAAAATGGCTACCGATAATGGCCAGTGGTTGAACAATCATCTTGCGCGTCCA +CCACAGCGCACTGCTGATGTAGATCGCCGCAACAATAATCATGCTGATAAACACCAGTGCCGAAATCTGA +TAGTTACGCTGGCTTTGCGCACTGGCGGCTTCCAGCACATGGTTGATCTCCAGCTGCCAGGCCTCAAAGT +TAACGTCAAACGCATTCTGTGATCCCTGCACCGGCGCAGTGAGGAAATCCGAAAGTTGATTACTTTCAAG +CCAGGTCGCCTGATGTTCGAGATCGTTGTGCCAGCGGGCAAAACTTTTCTCCGTCTCTTTTTGCAATCCC +CTGACGTGCTCGTTGCCCGCAGTCATCGCCATAAAACTTTTAAACAGCGTGGTGGATTGCGTCAGACTGG +CGCGCGCCGTCGTCATCAACGTTTTAATGTCATCCGCCGGATAGCTAAGTGCCGTCAGAGTGCCCGCTTT +GTTCAGCGCGGTACTGGCCTGTAACATTACCGCCCGAGTTTGCGCTAATGCCGCACGTTGCTGATTGCTC +TGCTCGACCTGATTCAGTCGTTGCAAATCGTCGCGAAATGCCCAAAAAGACATGCCGTTACTGCCAATCT +GCAAGATCCCGCAGAGAATCAAAATTAAAAACAGCGTGGTCGAAATTCGAATACGATTAAACATCAACGC +TCCCCATCAGGCGGCAATGACCGCGTTAGTAAATACTCGTCAAAATGTTTCCCAGTTTGGATCTTGTTCA +GCAATTCGCAGTCGTGGCTGAGCCGGTGGTTGCTCACTGGCAGGACGGGATGGTGTTTGCGGTTTATTGG +TGAGTGGGCTGGCTGCCAGACGGAACGCGGAAACTGCTTGCGTTAAACGACTCGCCTGTTCTTCCAGCGC +AGCGGCGGCGGCAGCTGATTCCTGCACCAGCGATGCGTTCTGTTGCGTGACGCGATCCATTTCCGAAACC +GCCAATGCGACTTGATCGATGCCACGGCTCTGTTCATCCGATGCCGATGCAATCTCGCCCATAATGTCAG +TCACGCGAGTGACAGCATTGACGATATTGTTCATTGTTTCCCCGGCGCTTTCGACCAGCACCGAACCGGT +ATCAACGCGTGAGACGGAGTCTTCAATGAGGGCTTTGATCTCTTTTGCCGCCTGGGCGCTGCGACTGGCA +AGATTACGCACTTCACCCGCCACCACGGCAAAACCACGGCCCTGTTCACCCGCACGCGCGGCTTCAACCG +CGGCATTCAGCGCGAGGATATTAGTCTGGAAGGCAATACCGTCGATAACGCTGATAATGTCGGCAATTTT +CTTCGAACTATCGGCGATCTCATGCATCGTTTTCACTACGCCATCCACCACTTTGCCGCCGTGCTGGGCG +GTGTCGGAGGCACTTTGCGCCAGTTGCGAGGCCTGGCGGGCGTTATCGGCGTTTTGCTTCACTGTCGCGG +TGAGCTGCTCCATGCTGGCGGCAGTTTCTTCCAGCGCGGATGCCTGCTGTTCAGTACGGGAGGAAAGATC +GGTGTTGCCCGCCGCAATTTCACGGGTACCGGCATAGATGGCATCTGAACCTTCGCGGACATGAGTGACG +GTGTCAGTCAAAGAGCGTTGCATATGTGAAACGCTCTGCGCCAGGTCGCCCATTTCACTGCGCCCGTCAA +TGGTCAGGGTATTCGCCAGGTTACCACCGGCGATTTCGCGAATGTGAGCAATAATTTTTGCCAGCGGAGT +AAGCAACATACGGCGAATGCCGTACCACGCCACCAGCAGAATCAATACCACCACCAGCGCGATAACCGCC +AGTTGCCACTGGGCAAATCGGTAATCATCTGCGTTGTCAGTGACGATATCGCGATACAGTTTTTCACTGC +TGAGGGCGTACTGAGCAAACGCTTCGCCCATTGCATTTTGCATTCCCTGGGTTGGCTGAGCGAAATAAGC +TCCAGTATTGCCATAATCTAGATAATCAATCAGTTCAGTTAACGCTGTGTAATAGTTTTTATATTTTTCA +TCAATATTACGACTGGTAGCGACCATTTCAGGTAACGGTGCCATGCTTTTGAATTTTTTATAATGCGTCG +CTGCCTGCGCCAATGTTTTCCTGGCGCTATCGAGCAATTCAACTTTGGCGTTACTTTGTTGATTGGAGGA +ATCCATCATCATCCGTACCGCTGAACGACTCAGGTTAATGCGCGTTTGCAGCATTAAATCCCAGGTTGAC +GTCAGCTCGCCCTGCTGTTCCCGTAATTGATTGGAAACCACAAAGCTCTTCTGGCTATGGTGAAGGGAAG +AAAAAAACAGACTGCCGGAAATAAGCTGTAACAGTGCGAATACCCCCAGCACCATTACCAACAGCGTGAC +TACGCGGATACGGTTAATCATAAGGCACCTTCCTGAAAACAAGTTGATCTCGTTATCGGCAAGGAGGGGG +GAAACTTTATTGCTGATGCCACCCGCCGCGAAATTGAAATAAAAAACCCGATGCGCAGATCATCGGGTTC +ATTTCAATTGAGGAAATCGGGAGAATTACGCCACTTCTGACGCCGCGCTATCTAACAGCGCCATCTCTTC +GCTGTTCAGCAGTTTTTCGATGTTCACCAGAATCAACATCCGGTCGCCCAGTGCGCCCAGTCCAGTGAGA +TATTCTGTTGAAAGCGTCACGGCAAATTCCGGTGCCGGACGAATTTGCTCCGCCGTCAATGAAAGCACGT +CTGAGACGCCGTCAACCACGATGCCGACCACCCGCTGTCCGAGATTCAGGACGATAACTACCGTGTTGTC +GTTATAGTCCACATCCACCTGGCTGAACTTAATTCGTAAGTCAACAATCGGCACAATAACGCCGCGCAGA +TTCGTGACGCCTTTGATAAACGCTGGCGTGTTCGCAATCCGTGTTACCTGATCGTAGCCACGGATCTCCT +GCACTTTCAGGATATCAATACCGTACTCTTCATCACCAAGGGTAAATACCAGAAATTCCTGGCCTGACGG +CTCGCTGGCCAGCTTTGTTACATTCGTCATACCGGTCATATTGTTACCTTTTTACTCATTCAGGCGGCGG +TGTTCGCCATACGTTGTTCGCGGTTTATCGCCTGCAAGGCGGAGACATCAACAATCAGTGCCACGCTGCC +GTCGCCAAGAATGGTCGCAGCAGAAATGCCGGGGACTTTGCGATAGTTACTTTCAAGGTTTTTAACCACA +ACCTGGTGTTGACCAATTAATTGATCCACCAGCAAGGCGTAGCGGCGACCGCCACTTTGTAAGATCACCA +CAATTCCCTGGGTGGCTTCGGTTTTCGCGCCCGCGACGTTGAACACTTTCCACAGTTCGACGATGGGCAG +ATATTCACCCCGCACTTCCAGCACCCGCTCGCCGCCGGCCAGTGGATGGAGATCGGCTTCACGGGGTTGC +AGTGATTCCATAACAGCATTCAGCGGCAGAATGAAAACTTCATCCGCAACGCGTACGGACATGCCGTCGA +GGATGGCCAGCGTCAGCGGCAGTAAAATGCGGATCGTAGTGCCAGTACCCTGCTTCGACTGGATTTCGAC +ATGACCGCCCATCTTCTGGATATTACGTTTAACGACGTCCATGCCGACGCCGCGCCCGGAGACGTCGGTG +ACCTGCTCTGCCGTGGAGAAGCCAGGTGCAAATATCAGCATCGCGACTTCGTCGTCGCTCATGTTTTCGC +TGACAGTCAAACCTTGCGAGGCCGCTTTTGCCAGAATTCGCTCACGGTTTAGCCCCGCCCCATCGTCGGT +CACTTCAATGCAAATGTTGCCGCCCTGATGTTCGGCAGACAGAATTAAATTTCCGACGCTGTTTTTACCT +GCGGCGAGCCGTTTTTCTGGCAGTTCAATACCGTGATCGAGGCTATTGCGTACCAGGTGGGTCAGCGGGT +CGATAATGCGTTCTATCAGGCTTTTGTCGAGTTCAGTAGAACTGCCCACCAGCGTCAGTTCTACCTGCTT +GCCGAGTTTTCCCGCCAGATCACGCACCAGCCGGGGATAGCGACTAAAAACATATTCCATCGGCATCATG +CGAATCGACATCACTGATTCCTGCAAATCACGGGCGTTACGTTGTAACTGCCCCATGCTGGTTATCAAAT +CACCATGATTAACCGGGTCCAGTTCGCTGGAACGCTGGGCAAGCATGGACTGGGTGATAACCAGCTCGCC +GACGAGGTTAATTAATTGATCAACCTTTTCTACCGCTACACGGATGCTGGTGGATTCATTGCTGCGCGTC +GTTTTTTCCCGCTCCACGCGGCCGGTTGGCGCTTGTTCGGCTGCCAGTTTAAGCACTGGTGGGGTGGATA +TTTTTGGCGAGACTTCTACTGTTTCAAAGGTAATCTGATCGGCTTCAATCACAAAACAGAGTACCGCTGT +GATGTCATCTTCGGCGATGTCGCCCGGTAATATTGCCGAGAGCGAATCCGCCCCTTTCACCACGTCAGTT +AACGTTGTCAGATGTCCCAGTTCTTCTTCCAGCAGGTCGACTTCCCCGGCCTTCAGGCGCGAAAGGATAA +TTCGTCGCGGCGACTGACTGCGACTCTGCTCATCTTGCGGTTCACTTTTGGCAACCACACTTAATCGGGT +CACTGCGGATGGCGTTTCGCCTTTCGCTTCTAATGCCAGTTGACGCAAGGCCTGGCAGATATAATCGAAG +CTGGCGGCATCCGGCTCTTGCGACTGTTTATAAGCGTCGAGCTGTTCTTGCATGATGTCCTTCGTTTCCA +AAAACAGATTGATAATGTCGGTGTTGAGTTGCATCTCACCTCGTCTGGCTTCATCGAGCAGGTTTTCCAT +CAGATGCGTGGTTTCCTGCAAAACGCTGAAGCCAAAAGTTCCTGCCCCTCCTTTGATCGAGTGGGCAGCC +CGAAAGATGGCATTCAATTGTTCGGCATCTGGCGCTTCCGGCTGCAAAACCAGCAAATGCTGCTCCATGT +CAGCCAACAGTTCGTCCGCTTCATCAAAAAATGTCTGATAAAAATCGCTTATATCCATGCTCACGCTGTC +ACCTCGGTTCGGCTGATGGCATTGTGGGAACACTGACCTGTGGTGCAACCTCAGGTTTTTCCAGGGCGCT +TACTGGCTCATTCTGGCTTTCGGCGTTTTCATGCAAAATGGCCTGTTCGGCTTGTTTGTTCAGTACCAGC +AGGCTGATGCGACGGTTGACGGCATCATCAGGTCCGCGATCGCTTAAGCGCATCGTTGCCGCCATGCCGA +CGACACGTAACACTTTGCCGCTATCCAACCCTCCGACCATCAGTTCGCGGCGGGATGCATTGGCCCGATC +GGCAGAAAGCTCCCAGTTGCTATATCCTTTCTCACCGCTGGCGTAGGGGAAATCATCGGTATGACCTGAA +AGGCTAATACGGTTGGGAATACCGTTCAGTACAGGCGCAATGGCGCGCAGAATGTCGCGCATATAGGGTT +CGACATCGGCACTGCCGGTTCTAAACATCGGGCGATTCTGGCTATCGATGATCTGAATACGTAGACCTTC +CTGGACCAGATCGATTTTGAGATGGGGACGTAACGCCCGCAGTTTCGGATCGGACTCTATCAACTGGTCG +AGATCACCCCGCAATTTCCGCAATCGACTTTGCTCCATGCGTTTTTTCAGCTCTTCGATGTTCGGCTGCT +TATTCACTTCCCCCTGGCTTTGGGTGTAATCATCACCACCGCCGGGAATTGGGCTTTCACTATTAGAAAT +GCGATCGCCGCCCGTAACCGCAGTCGCCAGTGGAGTCCGGAAGTACTCCGCAATCTGAATCAGCTCTTTT +GGGCTGGAGATGGAGATCAGCCACATCACCAGAAAAAAGGCCATCATCGCAGTCATAAAGTCGGCATAAG +CAATCTTCCACGATCCATGTGCTGCCCCGTGGCTTTTGGCTTTGCGTCGTTTGACGACAATAATCGGATG +CGCTTGATTCTTCATGCTTCCTCGGTTGTCGTCTGTTGTTGCGGATTTTTCACCGCACGCACATGCTCTT +CCAGTTCAATAAACGACGGACGTTCGCTGGAATAGAGCGTTTTGCGACCAAACTCAACGGCGATAGGCGG +TGCGTAACCGTTCAGATTAGAAAGCAGAGTGACTTTGACGCACTGCATCATTTTGCTGGTTTCGGCGCTT +TTCTGACGTAAAACAGTCGCTAATGGGGAAATAAATCCGTAAGCCAATAAAATGCCGAGGAAAGTCCCCA +CCATCGCATGTGCGATAAGCGCACCCAGCTCGGCGGCAGGACGATCGGCTGAACCTAACGCGTGAACGAC +CCCCATTACAGCCGCAACAATACCAAACGCCGGAAGTGAGTCCCCGACCAGCGCCAGACTGTTCGCCGGG +ACTTCTGCCTCGCTTTCGTGCGTCTCAATCTCTTCATCCATCAGAGCTTCGATTTCGAAGGTGTTCATGT +GACCGCTGATAATCAGGCGCAGATAATCGACGATAAAATCAAGCATGACGCTATCCGCGAGGATGCGTGG +GTAGCTGGCGAAGATCTCGCTCTCACGGGGATTTTCAATATCACGTTCCAGCGAAAACATCCCCATCTGC +CGCGATTTCGCCATCAACCGATAAAGCAGAGCCAGCAGATCCATATACATTGCTTTGGTGTATTTGGAGC +GACGAAACAGCAACGGCAGCGCCTTCAGCGTGCCTTTAATCGCTTTGCCATTATTGCCGACGATAAACGA +CCCAATCCCTGCACCGGCAATAATCACCAGTTCAGCGGGTTGATAGAGTGCTCCAAGGCTTCCACCGGTC +ATCAAATAACCGCCGAAAACTGTACCGAGAACAACCAGGTAACCTAATAAGATAAGCACGACATCATCCT +TCCACTGTTGACCATGACAGGATGTTCAGTCGTCAGGCGTTAACGCGCGATTGGGGCAAAAAAAAGCAGC +GGTACGTCGTTACCGCTGCTGGAATGTTGCGCCTCACCGTATCAGTTAAACAGCCTGTACTCTCTGTTCA +TCCAGCAGTTGTGGGATAATATCGGCAGGATTCTGGGAAAGTTTACGTCTTTTTACTGCCCGGGATGGCG +GTTGACATAAGCTGCAGGCAAAGCTGCCAACAGGCTGGTGAGCGTGGGTAATAAAATTGCCGCCGCAGCA +GTTGCAGCTGGAAAGTTGCAGTAATCCACTTTCAACAAACCGCACCAATGTCCAGGCACGGGTTAATGCC +AGCAGTGGTCCTTCTTCTGCTTGTGGGCACTGTTCAAGGTATAAACGGTAGGCTTTGATCACCGCATCGA +CGCCATTACACAAACCGGTTTTCAGTAAAAACTGCCATGCATTACAGAACATCGAAGCATGAACGTTTTG +TTCCCAGGTCATAAACCAGTCGGTTGAGAATGGCAGCATGCCTTTCGGCGGTGGGCTTCCGCGCAGTTCT +TTATAAAGTTTTATCAGGCGTCCGCGACTTAACTGTGTTTCGCTTTCCAGCATCTGCAAACGAGCGCCCA +GGGTGATCAATTCCATTGCCAGCTGAATATCCCGCGCTTCCTGAACAATGCTTTTTTCACTCATGATCAG +GCCCTTTTCTTGCGCAGCGCTTCTTCAGGCTGATTAACATCATTCAGCAAGCGTGTTGAGAGCATGATGC +CGGTATGAATTTGCTGGAGATCGTCAACGCGGGAATCTTGCGTCAACTGAGTAATCGTCTGGTGGCTGTC +AAAACGGAAGTGACAAACCAGTTGATTGGTTTCTGCCAGCTTAACCATTTGCGGAAGAGTCAGTGCCGCT +AACGTTGTCGCCATTTCTTCATTTATGCCGAGACGAAACATAGCGGACGCTTTGTCCTGAACAATCAAAC +GCTGTGCAAGTAGTAAATATGACAAGTTGATGTCATAAATGTGTTTCAGCAACTCGGAGGTATGCATTAT +TCCCACCCAGAATAACCAACTTTATTTTTATGCGGTTTCACCGCACCCCGTGATGTCGCCGGGAAGCCCC +GGTAAAAAATAATTAGCATTAGAATAGTTGCGATAAGCTGCAATAAGCAGAACCACCTTTTTGGTTTAAT +ATGTCCTTACAAATAGAAATGGGTCTTTACACTTATCTAAGATTTTTCCTAAATCGACGCAACTGTACTC +GTCACTACACGCACATACAACGGAGGGGGGCTGCGATTTTCAATAATGCGTGATGCAGATCACACAAAAC +ACTCAATTACTTAACATAAATGGGTAATGACTCCAACTTATTGATAGTGTTTTATGTTCAGATAATGCCC +GATGACTTTGTCATGCAGCTCCACCGATTTTGAGAACGACAGCGACTTCCGTCCCAGCCGTGCCAGGTGC +TGCCTCAGATTCAGGTTATGCCGCTCAATTCGCTGCGTATATCGCTTGCTGATTACGTGCAGCTTTCCCT +TCAGGCGGGATTCATACAGCGGCCAGCCATCCGTCATCCATATCACCACGTCAAAGGGTGACAGCAGGCT +CATAAGACGCCCCAGCGTCGCCATAGTGCGTTCACCGAATACGTGCGCAACAACCGTCTTCCGGAGACTG +TCATACGCGTAAAACAGCCAGCGCTGGCGCGATTTAGCCCCGACATAGCCCCACTGTTCGTCCATTTCCG +CGCAGACGATGACGTCACTGCCCGGCTGTATGCGCGAGGTTACCGACTGCGGCCTGAGTTTTTTAAGTGA +CGTAAAATCGTGTTGAGGCCAACGCCCATAATGCGGGCTGTTGCCCGGCATCCAACGCCATTCATGGCCA +TATCAATGATTTTCTGGTGCGTACCGGGTTGAGAAGCGGTGTAAGTGAACTGCAGTTGCCATGTTTTACG +GCAGTGAGAGCAGAGATAGCGCTGATGTCCGGCGGTGCTTTTGCCGTTACGCACCACCCCGTCAGTAGCT +GAACAGGAGGGACAGCTGATAGAAACAGAAGCCACTGGAGCACCTCAAAAACACCATCATACACTAAATC +AGTAAGTTGGCAGCATCACCCATAAATGTATAAGTCATACTTTTGTTTTGGGTGTATTTCAATCTGTTAA +AAAGTTTTTCGCTACGCTAGCAAGCAAAAATGAAACAGGAATAATCGAAATGGGATGTTGCGCACAGTCA +AAATAACTCACCGTAAATAATCATCTGCTATAAATAATCACTTTCATGCAATACCAGATAAGCTATTTTT +AAACAGACACTTACCGCACAACAAACTAATTAAATACAAAGAAAGGCAACAATCAACTTAATGTTAATGA +AATGTTTTACATATATTAACCACTTGTTTAATGCGGAGAATCAGTACACTATTTTCTTATAATTACATTT +GAAATTATATGATCACCGGGAGTGATTGATTAATTATCTTTACTAATAATCAGACTAATATTTACCTGTT +TGACCGAGTTGGGATTGCGTCGTTTCTCCATTAGGAGTAAAGCTTTAATGTCACCTGAAGTTCACAGAAT +AAGGAACAGGTTATGAGCTATAGCAATATTCTTGTCGCTGTTGCGGTTACACCGGAAAGTCAGCAACTGC +TGGCAAAAGCGGTATCTATCGCCAGGCCAGTAAAGGGACACATCAGTTTAATTACTCTCGCTTCCGACCC +GGAAATGTACAATCAATTAGCTGCGCCGATGCTTGAAGATTTACGCAGCGTGATGCATGAAGAAACGCAA +AGCTTTCTTGATAAGTTAATTCAGGATGCGGGGTATCCCGTTGACAAGACGTTTATTGCCTACGGTGAGT +TAAGCGAACATATTCTGGAAGTATGTCACAAGCATCATTTCGATTTGGTGATTTGCGGTAATCACAATCA +CAGTTTCTTTTCGCGAGCATCCTGCTCGGCGAAAAGAGTTATTGCCTCAAGTGAGGTCGATGTGCTGTTA +GTTCCACTTACGGGAGATTAACCGCTCCTACGCAAGCTTTGGAAAGGTAGCAACTTTATCGCGCTGCTGG +CTTTCCGCGCTTCGCGGAACTATCTGCTTTAGGTCGCTAATGAAGCACTCCTGCCAGTGGTTAATATCGT +TTTTCACGATAACGTCCAGCATTTCTGCATGACGGGAAATACGTTCCGCCAGCGACATAGTCAATGCACG +ATCCAGCGCAGCTGCAACTTCGTCACGATCGTAGGGGTTAACAATTAACGCCGACGTTAACTCGTTTGCC +GCTCCCGCAAATTGCGAAAGAACAAGAACGCCCGGATTGGCTGGGTCCTGAGCAGCAACATACTCTTTTG +CTACCAGGTTCATCCCGTCACGCAGTGGCGTCACTAAGCCCACGTCAGAGTAGCGGAATATTTTCATCAG +TAATTTACGGTCAAAATGCTGATTCAAATAATAAAGCGGCGTCCAGCCTAATTGCCCGTATTTACCATTA +ATTCGTCCAGCTTCATTTTCGAGCTGATGACGAATATCCTGATAGGCTTGCACATCACCACGCGACGTTG +GTGCAATCTGGGTATAACGAATTTTACCATGATGCTGCGGATATTTTTCCAGCAACGCTTCATAGGCGAG +AAAACGCTCTGGCAAACCTTTGGAATAATCCAGCCGTTCGACAGAAAAGATATTTTGTACGTTTTTCAGT +TCCGCTTTAAGTTGCGCCAGTTTTGGCGGCAGTGGCCCGGCAGCCTGTTTGGCTATTTCTTTCGGTTCAA +TGCCGATCGGGTAGACTTCTGTTCGAAATGCTTTGCCCCAGGCTGTATGGCTTTTTGCGCTACGTGTCGT +GACGCGGGTCAGGTTAGAAAGACAATCCAGGAACGCCAGACGATCGTTTTCTGTCTGGAAACCCAGCAAA +TCATAATCACAAAGCTGTTCAAGCAAGGTGTCATATGTCGGCAGCGCGTTGAAGATTTCCGGTGTCGGGA +AAGGAATATGCAGAAAGAAACCAATGCGATTATTCACTCCCCGTTTGCGTAATTCATGCGCAAATGGCAA +CAGGTGATAATCGTGGATCCAGATAATGTCATCGTCTTGCAACAGCGGCAGTAATTTATCTGCCAGCAAC +GCATTTACGCGTAGATAGCCGTCCCAGGCAGGACGCTGAAATTGCACCAGATCGAGCCGATAATGAAAAG +CGGGCCAGAGAACGGCATTGGAGAATTGGTTGTAGTATTCGTCAAGGTCCTGTTCGCTGAGGTTAAAAGA +GGCCCACGTAATGTTACCTTTTTTCACCTTTTTTAGCGGCTGATCCTCATTCCCTGTTTCACCACTCCAG +CCAAACCACAGTCCGCCTGCGGCTTTCAGTGCCCCCAGTATGCCAACGGCAAGGCCACCGGCACTGGCGG +CGTGCTCGTCTGGTGGTGCAATCCGGTTAGATACTACGACTAAACGACTCATAGTCATCACTCCTGTTAT +TTTCTCTTTTTTGTTGTAATGCGGTGGTTATCATTTCAAGCCAGCTCCAGACATCCGGCACACCCGCCAG +TCGCCATGATGCCTGAGTTGCACCTGTGCCAATTTTTACTGACATTCCGCCCAGTCGGTTAACGACTGCG +AAGCCAGATTCATCGGTTAAATCATCGCCCAGAAATACGGGCGTTCGCCCGATAAAGGGAGCTTCCTGCA +TAAAAGCTGCAATTGCCTCACCTTTACTGGTACCTCTCGGTTTGATCTCGACAACACACTTTCCCTGCTG +TAACGCCATTTGTGGCCAGATCTGAGTAATACGTTGCGCTAATGTCATTAATGCGTCTTCATGCTGCGGA +GCCTGACGATAATGCAGCGCAAAAGCCATCCCTTTCGCCTCCAGCTCCGCGCCGGGATACTGAGCGATGA +CTGTATGCAGTTGCACGCTAATATCACGCGCAATCGCATCCGGCAGATGAACGATATGTGTTTTACCATT +GATGTCACGGCGCTCCGCCCCATGCACGCCCGCTAACGGGAAGCGATAAGGTTTTGCCAGTGCGTCAAGC +TCCACCATTGAGCGCCCTGATATCAATGCCAATGCACCATCACTTGCGGTTGCCAGTAGCTGTAGTCCTT +GCAGAATATTGTCAGGCACGACGACCTGATCGGGATGCGGTTTGATTTCCGCCAGCGTTCCATCAAGATC +AAAAAACCAGGCATATTTCGCGGATAGTTCAGGGGTTTCGGTTAACGGTTCTGTCACCCGGTTCTCCTCC +TTCTCTTTTCTTATTGTGTTGCGCAGAACGCGCTTTACAGACATGTAAGTATAGACAGTGTGACGGGGGT +CGCCATTTGCAACGAAGAACAGCCAACCGTTATGGCGGTTGGCTATGGTGGGAAAAAACGCTAAATTGTT +GCAGAAAAAAGCATCAGACAGTGCGTTTCGCTTTTTGCTTGTAACGGTCGAAGATCACCGCTGCCAGCAG +GATTAAGCCGCGAACCACGTACTGCGCGAAAGGAGAAATATTAAGCAGGTTCATGGCGTTTTCCACGGTG +CCTAAAATTAAGATACCCGCCACCACATATGAGATTTTTCCGATGCCACCTTTCAGAGAAACGCCACCTA +AAACGCAGGCGGAGATAACAATCAGCTCATAACCAATCGACGTCATTGGCTGCCCACTGGTCATACGTGA +AGCCAGAATAATTCCGGCTATCGCTGATACCAGGCCTGAGAGAACAAAGATAATAATTTTGGTGCGAACA +ACCGGTACACCCGCCAGACGCGCGGCCTCTTCGTTCCCGCCAATCGCCAGGGTGTTACGACCAAAGGTGG +TTTTATTCAGCAGCAAACCAAAGATAATCAGACACGCGACGGTGAGCCAGATTGGCGCAGGCAGACCGAA +CCAGTTGGCGTAACCAAGGGCAAAGAAGCTTTCATCTTCGATACCGACCGCTTTACCGTCTGAAATGATG +TACGCCAGACCTCGAACAATCTGCATCGTTGCCAATGTCGTGATCAGAGCATTTATTTTCAGTTTGGCGA +TAACAAAGCCATTGACCAGGCCACAGAGAACGCCCAGCAACAACCCCGCTGCCACGCCAATCCACAGGCT +TTCAGTCAGGTTAATAACCACCGCCGTGGTGACACCCGCACAGGCAATTACGGAGGCGACAGAAAGGTCA +AAGTCACCGGAAGCGAGGCAGAACAACATGCCACAAGCCACCATCCCCGACATGGAAATTGCCAGGCCCA +ACCCTTTCATATTAATGAAGGTGGCAAAATTTGGGACAAAAATGGCACAGGCGATAAAGAGCACCGCAAA +CACCACCAGCATGCCGTACTGATCCCAGATACGCCCGAAGCTGAATGACGACTTAGGTGCGCCAGACCCC +GATGTAGAAACAGAAGACATCATACTCTCCTTACTCAGGCAACAGCCTGGCTGACTTTAGGCATCGCAAG +GCTCAGTGCCTGACGCTCATCTGCCTGCTCGTGTAACAATTCACCGGCGATTTCACCTTCCCGCATCACC +ACAATCCGGTCGGCAACGCCGAGGACTTCAGGTAAGTCGCTGGAGGCAAACAGCACCGCCACGCCCTGCG +CCGCCAGCGCATAAATTACGTTATATATTTCGTGCTTAGCGCCAACATCAATGCCGCGCGTAGGTTCATC +CAGCAAAATGACCTTCATCTCTTCCGATAACCAGCGGCCCAGAATGGCTTTTTGCTGATTTCCGCCTGAG +AGATTCATGATCAGTTGCTCCGCGCCCGGCGTTTTGATGTTGAGCGAACGAATGTGGTGATCGGCATTGT +TTTCTTCCCAACCGTTGTTGATTACACAACCGCCGAGCACATGTTTACGTCTGGCACTGATGTTGATATT +GTCGCGAACGGAGTGCACGGGAATAATGCCTTCCGCTTTGCGATCTTCCGGGCAGAGCATCATGCCTGCG +GCAATGGCGTGGCTCGGTTTACGAATATCGATCGGCTGTTGGTCGATATAAACCTGACCGGCGGTGATTT +GCGTCCCGCCAAACATGCCTTTCATTAATTCGCTACGCCCCGCCCCTACCAGACCAAACAGCCCAACAAT +TTCACCACTGCGAACCGCCAGACTTATTGGCGTACGCACGCCTGGTGCTTTCACAGCATCAAGACGTAGG +CGCTCCTCGCCATAACTACGCGGTTGCCAGCCGTAGATATCGCCAATGTCGCGCCCGACCATCGCCTGCA +CCAGCGCGTCGTGGTCAACCTGCTGCATATCGGTAAAGGTTTTGACATAACGTCCATCTTTAAAGACAGT +AATGGCATCGCTGAGGGCAAATATTTCTTCCATACGGTGAGAAACGTATAAGATTACCCGCCCCTCTTTT +CGCAGTTCACGAATAACGCGGAAAAGATTGTCGATTTCACGGGCAGAGAGGGAGCTGGTTGGCTCATCAA +AGGCGATAATTTTGGCGTTACGCGCCAGCGCTTTGGCGATTTCAACCATCTGCCACTGACCAATGGAGAG +ATATTTCAGCGGCGTGTCCGGGTCAATATCCATACCAAGATGTTTAAGTTGTAAACCCGCCTCATAATTC +AGCAATGAGCGATTCACAATGCCGCCTTTATGCGGCAGCTGGCCGAGATAGATGTTTTCCGCGACGGTCA +TTTCCGGCACGAGATGCAGTTCCTGGTAAATAATCGCCACGCCCGCGTTAAGTGCTGCGGTCGTGTCGGA +AAAGGACATTTCCTGCCCATTAATCACTACAGAACCCGTGGTTGGCGCATAGTTGCCGCTGAGGATTTTT +AAGAGAGTTGATTTTCCTGCGCCATTTTCACCCATCAACGCATGAACCTGACCGGCATAGCAGTCAAAAC +TAATATCCGTCAGCGCCTTAACGCCGGGAAACGTTTTACCGATGCCGCGAAATGAGAGATACGGGGTAGA +CTGTTGCATAACGTCTCCGTGAATCACTGGTCGTTCACACCCCCTCTGCATCATGCAGAGGGGAATTTTT +CCGGCAAATTACTTACCGCCTAAACCTTTTTTCTCCAGTTCTTCTTTAAAGTTGTCACGCGTGATCAGTA +CCACGTCGGTAACTTCGGTAAATTTTGGCGGTTCAACGTCTTTTGCTACCCAGTTGTAAAGCATTTCGCT +GGATTTATAGCCATGTACGTCCGGGCTTGGCAGCAGGGAACCGTAGAAGCCGGTTGCCTGTGCTTTAGAC +AGTTCGCTCACCGCATCCACACCGTTAATGCCAATGCCGATGATATCGGCCGCTTTAAAGCCCTGACCTT +CCGTCGCGCGTACGCCGCCCAGCACGGTGCTGTCGTTCATACCGACGATCAGCCAATGTTTAACTTCCGG +ATGTTGAACCAGCATTGAGTTGGCAGCGTCAAATGCCCCCGGGATGTCGTTAGATTTGGTAGGTACCTGA +TAAATTTGTTTTTCCGGGAATCCGGCCGCTTTCAGCGCATCCATAGATCCCGTAGTACGGCGGCGGGCGG +TATCCAGTTCGTTGGCGGTAATCGCCATCACCGCGCTTTCTTTGACATCCCAGCCACGTTTCTGCATCTC +TTTATACAGTTCCTGGCCCTGACGTTCGCCAATTTTAGTCGCCGCCATCATCACCAGCGGAACGGTATCC +ATTGGCTTACCTTTGGCGTTAACAAACTGGTCATCCACGGCAATGACTTTCATATCGTAGCCACGCGCTT +TCGCGACGATGGCAGAGCCGAGTTTGGGGTCCGGAGTACAAATAACGAAACCTTTTGCGCCACTGGCAGC +CAGGCTGTCGATCGCGTTCAATGTTTTTTCGCCATCCGGCACGGCAATCTTAATAACCTCAAACCCTAAA +TCCTTCCCGGCTTTATCGGCAAACTTCCATTCGGTCTGGAACCACGGCTCTTCCGGTTGCTTCACCAGAA +AACCGAGCTTCAGGTTCTCCGCCATAGCGGATTGTGACATAACGGCTGCCAGACCAATGGCTGCCAGGGC +TTTAGTAAATTTGTGCATGGTTCTCTCCAGCTTTAGTGTCGTTTTGTGTAGGGCAAAAACGAATGACATT +CGTTAAATTAATCGGAAAACAAAGCATTACCTTTTAACTAAAAGATAAGTGACTGTGTTGACATAGTTTT +AGCGAGAAATTAATTCTCCATAGGAGAGCAATATCACATCGCAGAATTACAGTGAGAACGTGCATAAATT +TAGCGGGAAAAGACATAAGGGAAAGCCAATTTGTCAGACAAATTGTCGAATGCACAGCAGATTAATCCAT +AAGATTAGCCTGGAAATCCTTGTTGTCTTTGGTACCCATGCGGGATGTCTTCTTTTTAACCAGTCAATAG +GCCGCATTACCTGGCGTTGAGTTTTTGAAATGGTGTAATAACCGCAACTCAAAGATGTGGAAAATGCACG +TCATTCATTTCGTCATTAATTATCACTGTGCTCATTAATTAACAGAACACGTATAATGAGAGCCATCTCG +CAAAAATGAAAAAACGTTTTATAAAATCATCACTTCATCATGAATTCAAATTCATTGATTAATATCAACA +AGATACAAAAAGCACTATCATTAAAATTCATTGCAGTTACATTGATTTCATCAATGAAATGTAAAAATAT +ATAAACTTGATGATTTAAGCATTTTCTTATACCCGTTCAGACGTTATTCTTATTTCAGATCATCGTCAGA +ATTGACTCCACGATCACATTTCGGACCGGCAGAAAGGAATTATTCTGCAAACAGTAATTATGGTGTTTTG +ATTTATCTTGCACCTCTCCACTTCTGGATATAAGGATATTAGGTATGGCAACCGCTGGAATGCTTCTCAA +ACTCAACTCTCAAATGAACCGCGAGTTTTACGCATCCAATCTCTACCTTCACCTGAGTAACTGGTGTTCT +GAACAGAGTCTGAACGGCACCGCCACTTTCCTTCGCGCCCAGGCACAGAGTAATGTGACCCAAATGATGC +GCATGTTTAACTTTATGAAGAGTGTCGGCGCTACCCCCATCGTTAAAGCCATTGATGTTCCCGGTGAAAA +ACTGAACTCTCTGGAAGAACTGTTCCAAAAAACGATGGAAGAATACGAGCAACGTTCTAGTACGTTGGCA +CAGTTAGCCGATGAAGCGAAAGAACTGAATGATGATTCAACCGTCAATTTCCTGCGCGATCTGGAAAAAG +AACAGCAGCATGATGGTCTGTTGCTGCAAACCATTCTTGATGAAGTGCGCAGTGCGAAACTTGCGGGTAT +GTGCCCTGTGCAGACCGACCAACATGTTCTGAATGTCGTGTCACACCAGCTGCATTGATCATCATCGGCG +CTAATGCATTGCGCCGATGAAGGTTTTGAGAAACCGCTGCCTCATCTGTTTGAAGCAGCGGTTTTTTTAA +TGGGATTCACCCTGTGGGGTAAACTTGAGTTCAATAAGCGCGATGGCTTTTTGGATTGCCCGCATGGTGA +CCGGGTCTGCGGCGGCGGGATGGTTAGTAAAGTCGATATTCTTCAGCTGACTGGACATTTTTTCACGAAC +TTCAACGGGCGCGATTACATCGAGAACATCCAGAATTTGTTTGATAACCAACTGGCAAGCAACCACATCA +GAAACCAATTCCTGATCGGCATTCAGCGGCTGGGACATCGTAAACTCCTGATAGCATTTTGAAAGCCGTT +ATAGTAGCGACTTCACATCTTCAGCGATAGTCACATCCACCGTCATCAGGACACAAAAAAACCTGCCGGA +GCAGGTTTTTTGTTATCGGAACATATTGCCTGGCGGTACGTCTTTGAACGTCTTGCAATAGTTATTGAAC +ATACTTTTCAGGATTTTGCGCAGTTTCATCGCGGCACTCCGACCATTTGTTATACAGGTGTTATTGTCTT +TGCGCTTATAATATGACAACCATCACAAAAATCAATCTTTATGTGATACAAATCACATAAATACCCCTTT +AATGTTATAAAAATGATAATCAAAAAACAGCCCCCCTATTTCTGACACCTACAGATGGCAAGAAATAGCG +CCTGCCAGGCGTCTTTTCCGGCCATTGTCGCAGCACTGTAACGCGTAAAATAGTGCTTTCTCTTACTCTT +CTGGCTGGACCATGAGACTTCTGATTCTGACTCTTTCATTAATAACGCTGGCGGGGTGTACGGTTACTCG +CCAAGCCCATGTGAGCGAAGTTGACGCGGCAACAGGTATTGTACGGTTAGTTTATGACCAGGCTTTTTTG +CAGCATGCCCATACCGATCGTTATGTCAGTCGCGGGATCGCCGATCGCGCATGCCAGCAGGAAGGCTATA +CCCACGCGGTCCCCTTTGGTCAGCCAGTAGGCAACTGTAGCCTTTTTGCGGGTTCCTTATGTTTGAATAC +GGAATTCACTTTGTCATATCAGTGCCATCATTCCGCCTTCCCTGTCTTTCTCTAAATATTTTAATCAGCG +AGGGGATCTTCGCTGATTAAAGAAATAGCGGTAATGCGTTTTATTCCCATTCGTATTTTTAATAATTGAA +GTTTATATTTTACCTTTTGCAAATAATAAAATAACAAATTATAGTGACGCCACAGCAACAAATATAACCT +TTGTGGAGCACTATCATGCTGAAACCAGAAATGATTGAAAAACTTAATGAGCAGATGAACCTGGAACTGT +ACTCTTCACTGCTTTATCAGCAAATGAGCGCCTGGTGCAGCTATCATACCTTCGAAGGTGCTGCCGCGTT +CCTGCGCCGTCACGCCCAGGAAGAGATGACGCATATGCAGCGTCTGTTTGATTACCTGACTGATACCGGC +AATTTACCGCGTATTAATACCGTTGAATCTCCGTTTGCTGAATATTCCTCACTTGATGAATTATTCCAGG +AAACCTATAAACACGAACAATTAATCACCCAGAAAATTAACGAACTGGCTCATGCTGCAATGACCAATCA +GGACTACCCAACATTTAATTTCCTGCAATGGTATGTTTCTGAGCAGCATGAAGAAGAGAAACTGTTCAAA +TCGATTATTGATAAATTAAGCCTGGCAGGCAAAAGCGGCGAAGGTCTGTATTTTATCGACAAAGAACTCT +CTACCCTCGACACACAAAACTAATGCTCTCCGGCGGCAGGTTTACTGCCGCCGTTTCAAATCAGTGACGG +CAAATCTTACTCTGATCGGTCGAAAAACCGTCTTTCGAAGGTATAAATTTGCCTTTTGCTGCCAGAAACG +CTACCAGCTCTCCCGCTGTCATCCCTTCTGCCGAGCAGGTGTGAAAACGTGCCTGTTCACCAAAACGCGC +TTTAATCGCAGCTTCCAGACTGGCATGCGTATATTGCTCGCCTGATTCAATCATCATATTTAACACTTCA +TGACCGTGAATAGAGTCCATCGTCCCTCCTCAAAAAAAGCCTAGCGTAGCGATTGCCGCTTATGAAGACT +TTGCGCCAGCGCAGGACTGAATGCTTTTTATTGTACATTTATATTTACACCATATGTAACGTCGGTTTGA +CGAAGCAGCCGTTATGCCTTAACCTGCGCCGCAGATATCACTCATAAAGATCGTCAGGACAGAAGAAAGC +GTGAAAAACAGAACCCTGGGAAGTGTTTTTATCGTGGCGGGAACCACAATTGGCGCAGGCATGCTGGCAA +TGCCGCTGGCTGCGGCCGGTGTTGGTTTTAGCGTTACGTTAATCTTGTTGATTGGGCTTTGGGCGTTGAT +GTGCTACACGGCGCTATTACTGCTGGAGGTGTACCAGCATGTTCCGGCAGATACCGGTCTGGGCACGCTG +GCAAAACGCTATCTGGGACGCTACGGTCAATGGCTGACGGGCTTCAGTATGATGTTCTTAATGTATGCTC +TGACTGCGGCATACATCAGCGGTGCCGGTGAATTGTTGGCCTCCAGCATCAGCGACTGGACAGGTATTTC +TATGTCGGCAACCGCTGGCGTGCTGTTGTTCACTTTTGTTGCCGGTGGCGTGGTTTGTGTCGGAACTTCA +CTGGTCGATTTATTTAACCGTTTTCTGTTCAGCGCCAAGATTATTTTTCTGGTGGTAATGCTGGTACTAC +TGCTGCCGCATATTCACAAAGTGAATCTTTTAACCCTGCCGTTGCAACAGGGGCTGGCTCTGTCTGCAAT +CCCGGTGATTTTTACGTCGTTTGGTTTTCACGGTAGCGTGCCGAGTATTGTCAGCTATATGGATGGCAAC +ATTCGTAAGCTACGCTGGGTGTTTATAATCGGTAGTGCGATCCCCCTGGTGGCATATATTTTCTGGCAGG +TGGCGACGCTTGGCAGCATTGATTCAACAACCTTTATGGGATTGCTGGCTAATCATGCTGGATTAAACGG +GCTGTTACAGGCGTTACGCGAAATGGTGGCCTCTCCGCATGTTGAGCTGGCAGTGCATTTATTTGCTGAT +TTAGCCCTCGCCACGTCATTTCTCGGCGTTGCGTTAGGCTTATTTGATTATCTGGCTGATTTATTTCAGC +GTTCAAATACCGTTGGTGGACGGTTGCAAACTGGTGCAATTACGTTTCTGCCGCCGTTGGCGTTTGCACT +GTTTTATCCACGAGGATTTGTGATGGCGCTGGGTTACGCCGGTGTGGCGCTGGCGGTACTGGCATTGATT +ATCCCTTCGCTGTTGACCTGGCAAAGCAGAAAGCACAATCCTCAGGCGGGTTACCGGGTCAAAGGTGGTC +GTCCGGCGCTGGTGGTGGTGTTTCTCTGTGGTATTGCTGTGATTGGCGTGCAATTTTTGATTGCGGCAGG +GTTGTTACCAGAAGTGGGGTGATCAGATAGCCTCAAATTCCTTATTGGGTGCCAGAATTAACGCTGACAC +CCAATTTGGCCTCTTAATGCAGGCAGCACTGCTTAAATTTCTTACCACTACCGCACGGGCAAGGATCGTT +ACGCCCCGGTTTCTCTTCTGCTTTGATCGGTTGCTGAACAGCTTTTTCCTGCGGATGCGCCATCCAGTAC +GCATGTAGATCAAGCGCCGCCAGTCGAATGGCATCTACGCTCTCTTCAAACGCTTCTGGCGACATCTTTT +CTACCCGCTCGAAGTTTTCCTCAGTACCGTGCAGCGCAATCGCCTCCAGCGCTGGTTTTAACGAATCGGG +CAACGTTGACCAGTCAGAAAGTGCCACGCCCCGCATATAGCCAAAGCACCACTCCTCAACAATCGTCAGC +TCGCTGCCATCAACTTCTCGCAAGCCGAATAACGGCTCAAACTGCTCCGGGAATTCGTTCAGACGCTCTG +CGGTATCGGCCATATGTTGAAAAGCCAGATTCATAAAGCGCGTCATCTCTTTCTCTGACGCCCAGCGCGG +CACATAGTCAGCCCCACCCCACACGGCAACCAGCCACTGTTCCGGTTCAATCTCTTGCGGAGAACTCAAC +ACCGCCGTCAATAAACCGTCCAGCTCCGCCACATCAAGGATGGCGTGGTCAGTGTTGTATTTGGTCAGAA +TATCGTCCAGCCATTCCAACTCACTTTCGTTTAACGGTCCCGTTTTCATACGCTTTTCCTTGTGGATCTC +AACTCGCCAGCACCTATCTTACATGCCGGTCCGTATCAGAGATACTTTTTGAGTGGCTTTGCTGGTGATT +AAAAATTAAGGAGGGTGTAACGACAAGTTGCAGGCACAAAAAAACCACCCGAAGGTGGTTTCACGACACT +GCTTATTGCTTTGATTTTATTCTTATCTTTCCCATGGTACCCGGAGCGGGACTTGAACCCGCACAGCGCG +AACGCCGAGGGATTTTAAATCCCTTGTGTCTACCGATTCCACCATCCGGGCTCGGGAAGAAAGTGGAGGC +GCGTTCCGGAGTCGAACCGGACTAGACGGATTTGCAATCCGCTACATAACCGCTTTGTTAACGCGCCAAA +TTCTTCAGGCCTTTCAGCCAGACATCCGCTTGACGCCGATGTCTTTTAAACTGGAGCGGGAAACGAGACT +CGAACTCGCGACCCCGACCTTGGCAAGGTCGTGCTCTACCAACTGAGCTATTCCCGCATTCATCAAGCAA +TCAGTTAATCACTTGATTTTATTATCGTCTGGCAATCAGTGCCGCCGTTCGATGCGTTGCATTCTACTTA +CCTGGCGCGATGAGTCAACGATATTTTTCACCACTTTTGATCGTTTGCTGAAAATTACGCCGAAACGATC +ACTGATCAAGCAAATCTGCACGCGCAGCGCTCAAATATTGCAACATTGACCACAGAGTCAGTACCGCAGC +CACAAAGAAAAGTGCAATACCGGCGTACTCAACCCAAATGTTCGGACGCCACAGCAGCCATGCCAACGCC +ACCATCTGGGCAGTGGTTTTCACTTTCCCAATCCAGGAGACGGCCACGCTACTGCGTTTACCCAACTCCG +CCATCCATTCGCGTAGCGCAGAAATAATAATTTCACGGGCGATCATCGTTGCCGCCGGTAATGTCACCCA +CCAGCTGTGATAATGCTCGGTTACCAGCACCATGGCGATAGCCACGAGAACTTTATCTGCCACAGGGTCA +AGGAAAGCACCAAACCGGGTACTCTGGTTCCAGCGGCGTGCCAGAAAACCATCGAACCAGTCAGTCACCG +CCGCGACGCAGAAAATGAGCGCGGCGGCAAACGGCGACCAGGTGACAGGCAGATAAAAGACCAATACAAA +GAATGGGATAAGGATGACACGGAACAGTGTAAGCAACGTAGGGATATTAAATTGCATAATGACGGGTAAC +TATCTGTTGTCAGTAAGATTACCCCTATGTTGCTACAGAGACATCAATGTTTCAACGACCAGAAGATCTT +TTCTGCCAGACCTTGCGAAATACCCGGCACTTTTGCAATTTCCTCGACGCTGGCGTTACGTAAACCTTGC +AAACCGCCCATATATTTCAACAACATTTGCCGACGTTTTGGCCCGACGCCTTCAATGGTTTCCAGGGAAC +TGGTATTTTTGACCTTCGCCCGTTTTTTACGGTGCCCGCCAATCGCGTGATCATGTGATTCATCGCGAAT +ATGCTGGATAACATGCAGCGCGGGTGAATCTGGCGGCAAACTAAATCCCTCACCTTCCGGCTCAAAGAAC +AGCGTTTCCAGTCCAGCCTTACGATCTGCTCCTTTGGCAACGCCAAGTAGCAGCGGATGATTTTTATCCC +ATGAGACATCCAGTTCGGCGAAGACATTTTTCGCCTGCGCAAGCTGGCCTTTGCCGCCGTCGATAAGGAT +CACATCCGGGATCTTACTGTCGTCAATGGCTTTACCATAACGCCGACGCAGCACCTGATTCATCGCCGCA +TAATCATCGCCCGGCGTGATGCCTGTAATGTTATAGCGCCGATACTCCGCACGCAGCGGGCCGTTAGCAT +CAAACACCACACAGGAAGCGACGGTTTGTTCGCCCATGGTATGGCTGATGTCAAAGCACTCCATCCGCTT +CACTTCCGGCAATTTCAACACGCTGGCAAGCGCGGTCAGTCGCTGGTGAACGGTAGATTGCTGCGAAAGT +TTGCTGGTTAAGGCCGTCGCCGCATTGGTGCGCGCGAGTTTCAGATAACGCGCCCTATCGCCGCGAGGTT +TGGTTTGAACATTAATCTTGCGTCCCGCCAGTTCTGAAAGGGAATCGGCGAGCAGCGTTTTATCGCTAAG +ATTAAAATCGAGCAGGATCTCACCCGGTAAGGTGCGCATCTGGCTGCCTTGTAAATAGAACTGGCCTACG +AAGGTTTCTACCACCTCGCTCAGTTCCGTACCGCCAGGCACTTTCGGGAAATAGCTGCGGCTGCCGAGCA +CTTTGCCCTGACGAATGAACAATACGTGGACACAAGCCATGCCCGCATCGAACGCCACACCAATAACGTC +GAGGTCGTCGCCGGTATTGGAAACGAATTGTTTTTCGGTGACGCGTCGCACCGCCTGAATTTGGTCGCGA +ATACGTGCAGCTTCTTCAAACTCCAGATTCTGGCTGGCAGTTTCCATACGACTAATGAGTTGCGTAAGCA +CCTGATCATCTTTGCCAGACAAAAACAGGCGCACATACTCGACCTGCTGAGCGTATTCTTCTTCACTCAC +CAGTCCTTCAACGCACGGTCCCAGACAGCGCCCTATCTGGTATTGCAGACACGGACGCGAGCGATTGCGA +TAAACACTATTTTCGCACTGGCGAATGGGGAAAATCTTTTGCAGTAGCGCCAGTGTTTCACGTACGGCAT +AGCCATTCGGGAACGGGCCGAAATATTCACCTTTGGCATGCTTCGCACCACGATGCATCGCCAGACGCGG +GTGGGTATCACCACTCAGGAAGATAAAAGGATATGATTTATCATCGCGTAGCAAAACGTTGTAACGCGGC +TGATAGAGTTTGATGTAGTTGTGTTCCAGCAACAGCGCTTCGGTTTCTGTGTGAGTAACCGTTACATCAA +TTTGCTGGATCTGGGCGACCAGCGCTTCGGTTTTGCGCGAAGCGAGGTTGCTACGGAAATAGCTGGAAAG +CCGTTTTTTCAGGTCTTTCGCTTTGCCGACATAGATAACCGTACCACCAGCATCGTACATGCGATAAACG +CCTGGCTGGCTGGTTACGGTTTTTAAAAACGCTTTTGCGTCAAACTGATCACTCACTGACTTGATAATGT +CTCCGCATTACACAGACCATGGCGAATTGCCAGGTGAGTCAGCTCAACATCGCCATGAATGTTTAGTTTA +CTGAACATACGATAGCGGTAGCTGTTCACCGTTTTCGGACTGAGATTGAGCTGTTCTGAGATCTCATTGA +CCTTCTGGCCCTTGGTGATCATCAGCATAATCTGCAATTCACGTTCAGACAAACTGGCAAATGGGCTTTC +TGTTTTTTCTGGTTCGATCTGGCTTAACGCCATTTGTTGAGCGATGTCAGAAGCAATGTAACGCTGCCCT +GAATAGACAGAACGAATCGCACTCACGACTTCCTGCGGAGCCGCGCCTTTGCTGAGGTAGCCCGCAGCAC +CGGCCTGCATGACTTTCGCTGGTAAAGGGTTTTCTGTATGGACGGTAAGCATGATGATTTTGACATCAGC +TGTGGAACGCGCGATTTTACGCGTCGCCTCAAGACCGCCAATGCCCGGCATACTCATGTCCATTAGCACC +ACGTCAACGGCATTTGTCCGGCACCACTTAACGGCGTCTTCACCGCACGATGCCTCACCGACGACTTTTA +TACCCTTTATATCTTCCAGAATGCGTCGTATCCCTGCGCGCACCAGTTCGTGGTCATCAACAAGTAGAAC +GTTGATCAAAGGAATATCTCCAGAAATAGGGATAACGCTACTGATAGTTAGTCATTCGTATATTAGCGGT +TTTTATTGCAACTTTGAAACGTTAAAAATGGTGGGTATTCGATTTTTCTCTCGTTTTTGTCAATTCGATT +GTCCACAGTTATGGTCACGCCCGTCACCAACGGCTTACCGGATCGTTTCACAGTAAGCCCTACGATGAAA +TGTGACAAAAATTGACTTTATTCAGCAAAAATGAAAATCAGCCCGCTGAATATGTAACATTAATTAACCC +GAACAATACGGGCAAAAAACATTCATGATAAAAATATTTATTGGTCATTATATTAACGTATTTTATAGCA +CTGCCGATATCACGCTCAAAAAACAACCACTGCTATTTTTAGCAAAGCTTATGGTATACTCCGCCGCCTT +AACATTTTTCACCGCAAATTTTCATTGCAACATGACGAGGAAAATAAATGAGTACGCCTGATTTTTCTAC +TGCCGAGAATAATCAAGAACTGGCAAATGAAGTCTCCTGCCTGAAAGCGATGCTGACGCTGATGCTGCAG +GCGATGGGACAAGCTGACGCGGGCCGCGTGATGTTAAAGATGGAAAAACAGCTTGCGCTGATCGAAGACG +AAACCCAGGCTGCAGTATTTTCCAAAACGGTTAAGCAAATTAAACAAGCCTACCGTCAGTAATATAAAAC +CGGCTGATAGCGTGCCTTTCAGCCGGTTTTTGCATCTGGCACGCAGGACAGAAAAGAGATCAAATTAAGC +CAGTAGCGGCCGCGTAACAGGCAACCTGGGTCTTATTTGGTGCATTAATTTTTTTCTGCATGTTTTTCTG +GTGGAAATTGACCGTATTCTCAGAGATTGACAAAATCATCGCTATCTCTGCTGATGTTTTCCCTTCCGCC +GTCCACCTCAGAATTTCTTTTTCGCGCTTGCTGAAATTCATCTCTGGCGTCATCACTATTTCATCATTTA +AACGCATCAGAGCCATCAGACTTTCGCGCACCAGTAACTGCATTTTTAATTGCAGTTCATCACTAAGAAT +GGGTATTTCGCGCGCGCTGCAACGGGAAAAGGACAAAAAGCCCAGCGCCCGGTTTGGCAGCATTAAATAC +TGAGTGACACCGCGGCGTAAACCATGTGCGCGCGCGGCTTCCCATAACGGCTGTGCTTCGCTGAATAAGT +CATCATTCCACATTAAATGGCCCTGACTAAAGTTTTCAGGGTTCAGCACCGGATCAATTGCGAGAAAGTT +TTTTGCCTGATAATAACTAACCCACGCCTCAGGGTAATTGGTGTAAAAAGCCACTTTAGGTCGAGTGAAT +GGTACCGGGTGGCGGACACATAACGAATAGTAATCGTACTCCAGCTGCTGAGCCTGAAGCTCAATTTCAT +GGTAGACCTCTTCTGCGGTCTCCATCCTCTGAAAACGCAACAGCATCGTGCGACGCCAGCTGAAAAAATC +CTTATCCTGCATAGTAAACCGCAACGCCCCTGAGAGTGAGTATCATTTATAATGATAATTCAAACTATCA +CATAAATAAGATTTATATATAATTTATATTATTCAGGCAATGAATTACTTTTGCAAGCCATCGCATTCTC +TTATGTTATTAATGAGTTATGCTGATTTGTTAAGCAGTTTTATCAGGCTTGAAATGGCGTCCAGCCCCGA +CAGGTGAATCGTCGGGGCTGATTTTTTCTTATTATTGCAGCAGAAACTTCTCGAGGAACTGGCGGGTGCG +AGGCTGCTCGGGGTCGGCAAATAACGCTTTTGCGGCCCCCTGCTCGACTATCCGCCCCTGGTCCATAAAG +ATCGCCCGGTCCGCAACATCCCGGGCAAAGCTCATTTCGTGCGTCACAATCACCATCGTGCGCTTTTCCT +GCGCCAGCTGACGGATGGTGTTCAGGACTTCACCCACCAGCTCTGGATCCAGCGCTGACGTTGGCTCGTC +AAACAAAATCACCTCAGGACGCATTGCCAGCGCACGCGCAATCGCAACACGCTGCTGTTGACCGCCAGAC +AAACGACGTGGATAGCTGGTTTCTTTACCTGCCAGCCCAACTTTTGCCAGCAGCTCGCGAGCGCGCGCCG +TGGCCTCTTCTTTCGGTTCACCTTTGACGATCACCGGCCCTTCAATAATGTTCTCCAGCACCGTACGATG +CGGAAACAAATTAAAGTTCTGGAAGACAAACCCGACGTGCTGACGCAACTGGCGAATCAGAGATTTTTGC +TGACTTAATGAACGTGCAGTATCAATAGTGATATCGCCAACGGTGATCGTTCCCGCTTCGGGTTGTTCCA +GCAGATTTATGCTGCGTAGCAACGTGGTTTTGCCGGAACCACTCGGACCGATAATTGCCACCACTTCGCC +AGGCTTTACCTCAAGGTCGATACCGTGCAGCACCGTCTGACCGTGGAATTTTTTCACCAGGTTCTTAACT +TCAATGGCACTCATTTTGGTTCTCTCTCCTGGCGATTAAGTTGATTCTCAAAATGGTTCTGCAACGTCGA +TAACACAGTCGCCATGATCCAGTAGATGAGCGAAGCCGCCAGATACATGGTGAACACCTCCAGCGTACGC +GAGGTAATCAACTGCGCCTGACGGAACAGCTCCGGCACCTGGATTGTCGCGGCCAGCGACGTATCTTTTA +CCAGGCTAATAAAGCTGTTCGACAGCGGCGGCAACGCCACACGCGCCGCCTGTGGCAAAATCGCGCGACG +CATGGTCTGCCACGGCGTCATACCAATACTGGCTGCCGCTTCCCACTGACCTTTATCAATAGAAGAAATG +GCGGCGCGCAGCGTTTCGGCAGCATAGGCGGCAGTGTTCAACGACAGACCAATCATTGCTGACGGAATGG +GATCTAATTCGATACCAAACTGCGGCAGGCCGTAATAGATCATAAACAGTTGTGCGATGAGCGGCGTACC +ACGAAAAATAGAGATATAAAAACGCGCCAGCCAGCGCACGGGCCAGATTGGCGACAGACGCATCAGCGCG +AGAATAAACCCGAGCAGTAAGCCAAAAAACATGCCGCCGATACTGAGTTGCAGCGTATACCCAGCCCCTT +TCAGCAGGAACGGCAAGGAATCAATAACCAGTTGTATACTTTCTTGCATGAGCGTTTCCGGAGCTAAACG +TGGGGATGATAGGCGAACAGCGCAGGCGCACCGCCGGTATGAATAAACAGAATCGGCCCTTCATCTTTGA +AGCGTTTCTGACTGATACCGTCAATCAGCCCCGCCATCGCTTTTCCGGTATACACAGGATCAAGCAGAAT +GCCTTCCAGCCGCGCCAGCAATTTCACTGCTTCCATGCCTTCGTCGTTCGGCACGCCGTAGCCAGGTGCA +AAATAGTCATCCCAGAGTAAAATTTCCGCTGATGCGGTCAGCTCCAGTTCTTTCGCAATCGCCTGTTGTA +GGTTAACCACTTTCGGCAATTGATCGGCAACGGAACGCGACACGGTCACGCCAATCAGTTCGCTTTCAGG +CATCAGGTGTTCCAGCCCAACAGCCAGTCCGGCGTGAGTTCCGGCACTGCCCGATGCGACTACCACCGAT +GAAATATTAACCGCCCCTTCACACTGTTGCGCGATTTCCAGCGCACTCTCCACATAACCTAGCGCGCCAA +GAGCATTAGAACCGCCAACCGGAATGACATACGGGCGAAAGCCTTGTGCTTCGACTCGCGTCGCCAGCTC +TTCCAGTTGGGCATTGGGATCGGTCAGTGCGTCGCACATTTCAATCTGGGTATTGAACAGATCCAGCAAC +AAGCGATTGCCGTTGGTTAAATAGTTTTCTGCGGTTGTGCCAATAGGATTTTCCAGCAGCGCCACGCAGT +GCAGACCGAGTTTGGCAGCGACTGCGGCAGTCTGCCGCACATGGTTAGACTGGATCGCCCCGGCAGTAAT +CAGCGTATCGGCACCTTCACGCAGAGCATCTGCCGCGAGAAATTCCAGCTTACGTAATTTATTGCCGCCC +ATTGCCATGGGGGTGACGTCATCCCGTTTGATGAAAATTTCCCGTCCTAGATAATCAGAAAAGCGCGGCA +GATATTCGAGCGGCGTTGGCGCGCCGATAAACTCCAGCCGTGGAAAACGGGTTAAATTATGCAGTGGCAT +AACAGCCTCCGATGTGTGTTGTTGTGATTTTCTTATTATGCACGCTGAAAACGCGTAAATAAAAAAGGCG +CTAGTGAAAGCGCCCTTTTTTGTCATTATGCTGATTATTTGGTCACATCAGCACCAAACCATTTTTCGGA +AAGGGCTTGCAGAGTGCCATCTTTTTGCATTTCCGCAATTGCATCATTCACTGCTTTCAGCAGGTCCTCA +TTTCCTTTACGCAGCGCCACGCCAGACTCCTGACGGGAGAATGCTTCACCGGTTACTGCCAGCGTATCGT +TGGTTTTCTTCACCAGATCCAGCGCCGCCAGACGATCAACGAGGATCGCATCGATACGCCCTACGCGCAG +ATCCTGATATTTGGTCGGGTCATCATCATAGGTACGCACATCGACGCCCTGAACATTCTGCCGCAGCCAC +TCTTCATAGTTGGTGCCCAGACCGACCCCCACTTTTTTGCCTTTCAGATCATCGGCTGTTTTAATGGTGC +CTTCGTTACCTTTTTTCACCAGCGCCTGAATACCAGAAATGGTGTACGGGGTTGAGAAATCGTATTTTTT +CTTGCGCTCATCAGAAATGGTGACCTGATTAATCACCACATCAATACGTTTAGAGTCCAGCGACGCCAGC +ATACCGTCCCATTTGGTCGGTTTTAGTGACGCCTCAACGCCAAGATGTTTTGCCAGCTGTTGGGCAAATT +CCACTTCAAAACCGGTTAATTTGCCGTCATCTCCCTGAAAACTGAACGGCGGATAAGTTCCTTCCAGCCC +TACCAGCAGCGTGCCGCGCTCTTTAACTTTATTAAGCAGACCTTCATCTGCAAAACTTTTAACGCTCATG +CCCGCAACCAGCGCCACGGCCATCACACCCATCAATGCCTGACGTCCCAGATGTGCTAATTTCATATTCA +CCCCGAATGTTGTTATGTCTGTTTGCAGTGTAGAGCCATTGTTTGTAAACACAAAAACAACTCCGCTACA +TCTTATTCTTATTTAATATATATCAGAAGAAGGCAGGCTGGAGGATTTCTGCACAAGTCTGGTACAGGTT +TGGCGCTGATAGTGTTGATACTTCCGTAACGCGATGCGGTAATTGTTGGTGCTGGTGGTGGGCAGCCACG +GGGCGAGGATTTCATCAAGGAAACCGTCCTGCAGCTGATCGAGGGAAATATTTTGCTCGTGTAGATGATT +CCCCAAACGGCGCAAACGAACGACATATTCACGCACCGTACCTGGGCTCATTTCAGTTTGCTCAAAAAGA +AATTGCTTAAAGCCGATAATATCGAAAAAATCACTCTGCGTTTTGCAATGTAAATCACCGCAAAATCGGC +ACAATGCCGCCCATGATTTTTGTTCCGTTTGCCAGCCATTTTCATCAAGCAGCGTGTCCAGGCGGGAAAT +CTCGATTTTATTCACTATTTTGCCGTCGCGAACTAAGGTAATGCGATCGAGTAATTTACGGCAATGCGCG +CAATGGGTCTGGCTGTGTTTAAAGTCTTTAAGATAGCGGCTTAATGGCCGTCTTTTCAGGTGCTGCACCA +TCATTAAGAACTCCTGGTAGTCAAAGTTAAAGTGCGGCATTTACTGACGTTATAACTTACCCAGTTTAGT +GCGTAACCGTTTAATAGCCTGGCTGTGTAACTGACTGACCCGCGATTCCCCGACCTCCAGCACCGCGCCA +ATCTCTTTGAGATTCAGCTCTTCCTGGTAATAGAGGGTTAATACCAGTTTTTCGCGCTCCGGCAACGTTT +CGATGGCTTCCATCACCCGCTGGCGCAGATTACTGTCCAGTAGTTGTTGTAGCGGGTTTTCTCGCTGATG +ATCATCAGTAACCAGTTCGATGCTATCGCCGTGCTCTTCGCGCCACTCATCGTAGGAGAAGAGCTGGCTG +TTATTGGTGTCGAGCAACATTTGGCGATAATCGGCAATATCGATCCCTAAACGTTCCGCTACCTCAGTTT +CCGTGGCGTTGCGGCCAAGTTCCTGCTCCAGTTGCCCTATTGCCTGTGCCACTTCACGCGCGTTGCGTCG +CACGCTGCGCGGCACCCAGTCACGGCTGCGAAGTTCATCCAGCATAGCGCCACGGATACGCTGCACTGCG +TAAGTTGTAAATGCCGTTCCTTGTAGGGCGTCATAGCGTTCGACGGCATTAAGTAACCCAATGCCGCCCG +CCTGTAGCAGATCGTCAAGTTCCACGCTCGCGGGCAGTCGAACCTGCAGGCGCAATGCTTCGTGACGCAC +CAGCGGGACATAACGCTGCCACAGCGAGTGTTTATCCATTACACCTTCAGCGGTATAGAGTGAATTCACG +ATAAACAGCCCTGCGTTATATGAGTTATCGGCATGATTATCCGTTTCTGCAGGGTTTTTAATCGGACGAT +TAGTGGGTGAAATGAGGGGTTATTTGGGGGTTACAGGTAAATTCCAGGCAGAAAAAAACCCCGCCGGTGG +CGGGGAAGCACGTTGCTGACAAATTGCGCTTTATGTTGCCGGATGCGGCGTAAACGCCTTATCCGGCCTA +CAAAAATGTGCAAATTCAATAAATTGCAATTCAACTTGTAGGCCTGATAAGCGCAGCGCATCAGGCAATT +TGGCGTTGCCGTCAGTCTCAGTTAATCAGGTTACAACGATTAACCCTGCAGCAGAGACAGAACCTGCTGC +GGTACCTGGTTAGCTTTTGCCAACACGGAGTTACCGGCCTGCTGGATGATCTGCGCTTTCGACATATTGG +ACACTTCGGTCGCATAGTCGGCGTCCTGAATACGGGACTGCGCTTCAGACAGGTTGGTAGTGGTGTTGTT +CAGGTTGGTAACCGCGGAATCCAGACGGTTTTGCACCGCACCGAGGGAAGAACGGAATTTGTCTACAGAT +GCGATAGCATCGTCCAGCGCTTTCAGCGGATCCGTGGTTTTACCATTTGCAACAGCAGTCAGAGCCTCAC +CACCAGCAGTCAAACCTGTTTGCAGATTACCGCCATTTAAATCGGCAGAATCGTATGTTTTACCATCAAT +ATCGACCACTTCTGTTTTGCCATCATCTCCGCCCAGTTTGACCGCGGTTGGAGAACTGGCGGCACCGGAA +GAGTCAGTATAGGTAATAGTTTTAACAGAAACAGCACCAGTAGTTTCATTCACATCCGCAGCGTAAAGAT +TGCCATTTGTATCTTTAAGCGCATATGTATCGGTATCATTACCCTTGGAATCCTGCAGTTTTACTAAGCT +AACAGCACCAAGGTTGGCAGTTGCGGAACCTGCAGTATTATCAATCTGAACAGGTGTACCGCCTGAAGTG +ATAGTTGTAGCTTTAGTAGTATTTGCATCAGTTACAGTTGCATTTGCCGTTGCTCCAGTCGCCATTGTCA +CTGTACCATCATTAGCAACTGTTACTGCGTAATACTTCCCATCGTTATCACCACCGGTGATTTTCGCATA +GTAATCATTACCATTATCAGTATAAACACCCTCAATTGAAGCTGGGTTAGTTCCGCCAGTATCAGTGGCT +GCTTCCGTAGAAAGGGTAATTCCAGTAAGTTTAATATTGTTTGTGGTGGTAGCACCAAAAGCAGTTACTG +GAGCACTAGTGGTAACTGTATCGTTATTTTTAACGCTAAAACCATCAAGGCCAAGAGTTTTAGCATCAAT +CTGCTTCAGATCGATAGTGATAGTCTGGTTATCATTTGCGCCAACCTGGATTTTCATGGAGCCATTTTTT +GCCAGCACGTTCACGCCGTTGAACTGGGTCTGACCAGATACGCGGTCAATTTCATCCAGACGGGATTTAA +TTTCGTCCTGGATAGAAGACAGATCAGACTCAGAGTTAGTACCGGTAGTGGCCTGTACCGTCAGTTCACG +CACACGCTGTAAGTTGTTGTTGATTTCGGACAGCGCGCCTTCGGTGGTCTGCGCAACGGAGATACCGTCG +TTGGCGTTACGGGCCGCCTGAGTCAGGCCTTTAATGTTAGAGGTGAAACGGTTAGCAATCGCCTGACCCG +CTGCGTCATCCTTCGCGCTGTTAATACGCAAGCCAGAAGACAGACGCTCGATAGAACTCGACAGCGCAGA +CTGGTTCTTGTTGATATTATTTTGAGTGATCAGCGAGAGGCTGTTGGTATTAATGACTTGTGCCATGATT +CGTTATCCTATATTGCAAGTCGTTGATTACGTATTGGGTTTCCACCCGTCGGCTCAATCGCCGTCAACCC +TGTTATCGTCTGTCGTAAAACAACCTTTAGAATTTTTTTCAAAAACAGCCATTTTTTGTTAGTCGCCGAA +ATACTCTTTTCTCTGCCCCTTATTCCCGCTATTAAAAAAAACAATTAAACGTAAACTTTGCGCAATTCAG +ACCGATAACCCCGGTATTCGTTTTACGTGTCGAAAGATAAAAGGAAATCGCATGGCAAGTATTTCATCGC +TGGGAGTCGGGTCAGGTCTGGATTTAAGTTCCATCCTTGATAGCCTCACCGCCGCGCAAAAAGCGACGCT +AACCCCCATTTCAAATCAGCAATCGTCGTTTACCGCTAAACTTAGCGCCTACGGTACGCTGAAAAGCGCG +CTGACGACTTTCCAGACCGCCAATACTGCATTGTCTAAAGCCGATCTTTTTTCCGCCACCAGCACCACCA +GCAGCACCACCGCGTTCAGTGCCACCACTGCGGGTAACGCCATCGCCGGGAAATACACCATCAGCGTCAC +CCATCTGGCGCAGGCGCAAACCCTGACCACGCGCACCACCAGAGACGATACGAAAACGGCGATCGCCACC +AGCGACAGTAAACTCACCATTCAACAAGGCGGCGACAAAGATCCGATTACCATTGATATCAGCGCGGCTA +ACTCATCGTTAAGCGGGATCCGTGATGCCATCAACAACGCAAAAGCAGGCGTAAGCGCAAGCATCATTAA +CGTGGGTAACGGTGAATATCGTCTGTCAGTCACATCAAATGACACCGGCCTTGATAATGCGATGACACTC +TCGGTCAGCGGTGATGATGCGCTACAAAGTTTTATGGGCTATGACGCCAGTGCCAGCAGCAACGGTATGG +AGGTCTCGGTTGCCGCCCAGAATGCGCAGCTGACAGTCAACAACGTCGCCATCGAGAACAGCAGCAACAC +CATCAGCGACGCGCTGGAAAACATCACCCTGAACCTGAACGATGTCACCACGGGCAACCAGACGCTAACC +ATCACTCAGGACACCTCCAAAGCGCAAACGGCGATTAAAGACTGGGTGAATGCCTACAACTCGCTAATAG +ATACCTTCAGCAGCCTGACCAAATACACCGCCGTAGATGCGGGAGCTGATAGCCAGAGTTCTAGCAATGG +TGCACTGCTCGGCGACTCCACGCTGCGGACGATTCAGACGCAGTTGAAATCGATGCTGAGTAATACCGTC +AGTTCTTCCAGCTATAAAACGTTGGCGCAGATTGGTATCACGACCGATCCCAGCGATGGCAAACTGGAAC +TGGATGCCGACAAACTCACCGCTGCACTGAAAAAAGATGCCAGCGGCGTAGGTGCATTGATTGTTGGCGA +TGGTAAAAAAACCGGCATCACGACCACCATCGGCAGCAACCTGACCAGTTGGCTTTCGACAACGGGCATT +ATTAAAGCCGCTACCGATGGCGTTAGTAAGACCCTGAATAAATTAACTAAAGACTACAACGCCGCCAGCG +ATCGCATTGATGCGCAGGTCGCTCGCTACAAAGAACAATTTACCCAACTGGACGTTTTAATGACCTCGTT +AAACAGCACCAGCAGCTACTTAACGCAGCAGTTCGAAAACAACAGTAATTCCAAGTAAGCAATATTCATC +GGGAGACAGGTCATGTACGCGGCAAAAGGCACCCAGGCCTATGCACAAATTGGCGTCGAAAGCGCCGTAA +TGAGCGCCAGCCAGCAGCAGCTGGTCACCATGCTATTTGATGGAGTGCTGAGCGCACTGGTTAGAGCGAG +CCTGTTTATGCAGGACAACAATCAGCAAGGCAAAGGCGTCTCTTTGTCAAAAGCGATCAACATCATTGAG +AACGGACTGCGGGTGAGTCTTGATGAAGAGAGCAAAGACGAACTAACCCAAAACTTGATTGCTCTTTATA +GCTATATGGTCAGGCGCTTGCTGCAAGCCAATTTACGCAACGATGTCTCCGCAGTCGAAGAAGTGGAAGC +ATTAATGCGCAATATTGCCGATGCCTGGAAAGAGTCGTTACTCTCCCCTTCTTTGATTCAGGACCCAGTC +TGATGAACCATGCACCGCATTTATATTTCGCCTGGCAACAACTCGTCGAAAAAAGCCAGCTCATGTTACG +CCTGGCAACGGAAGAACAATGGGACGAACTCATCGCCAGCGAAATGGCGTATGTGAATGCGGTGCAGGAG +ATTGCACATTTGACTGAAGAGGTTGACCCGTCCACCACGATGCAGGAGCAGCTCCGCCCGATGCTGCGCC +TGATTCTCGACAACGAAAGCAAGGTAAAGCAGTTATTACAGATTCGGATGGATGAACTGGCGAAACTGGT +CGGTCAGTCATCGGTGCAAAAATCGGTGTTAAGTGCCTATGGCGATCAGGGCGGCTTTGTGCTGGCTCCG +CAGGATAACCTCTTTTGAATCTGAATGAGTCGATGGCTCGCGAATAATCCGATTACGGCTACGCTTCTAA +TGTTCCCCTTGAATGGAGTCGAAGAATGCGTAATCCCACGCTGTTACAATGTTTTCACTGGTATTACCCG +GAAGGCGGTAAGCTCTGGCCTGAACTGGCCGAGCGCGCCGACGGTTTTAATGATATTGGTATCAATATGG +TCTGGTTGCCGCCCGCCTATAAAGGCGCATCGGGCGGGTATTCGGTCGGCTACGACTCCTATGATTTATT +TGATTTAGGCGAGTTTGATCAGAAAGGCAGCATCCCTACTAAATATGGCGATAAAGCACAACTGCTGGCC +GCCATTGATGCTCTGAAACGTAATGACATTGCGGTGCTGTTGGATGTGGTAGTCAACCACAAAATGGGCG +CGGATGAAAAAGAAGCTATTCGCGTGCAGCGTGTAAATGCTGATGACCGTACGCAAATTGACGAAGAAAT +CATTGAGTGTGAAGGCTGGACGCGTTACACCTTCCCCGCCCGTGCCGGGCAATACTCGCAGTTTATCTGG +GATTTCAAATGTTTTAGCGGTATCGACCATATCGAAAACCCTGACGAAGATGGCATTTTTAAAATTGTTA +ACGACTACACCGGCGAAGGCTGGAACGATCAGGTTGATGATGAATTAGGTAATTTCGATTATCTGATGGG +CGAGAATATCGATTTTCGCAATCATGCCGTGACGGAAGAGATTAAATACTGGGCGCGCTGGGTGATGGAA +CAAACGCAATGCGACGGTTTTCGTCTTGATGCGGTCAAACATATTCCAGCCTGGTTTTATAAAGAGTGGA +TCGAACACGTACAGGAAGTTGCGCCAAAGCCGCTGTTTATTGTGGCGGAGTACTGGTCGCATGAAGTTGA +TAAGCTGCAAACGTATATTGATCAGGTGGAAGGCAAAACCATGCTGTTTGATGCGCCGCTGCAGATGAAA +TTCCATGAAGCATCGCGCATGGGGCGCGACTACGACATGACGCAGATTTTCACGGGTACATTAGTGGAAG +CCGATCCTTTCCACGCCGTGACGCTCGTTGCCAATCACGACACCCAACCGTTGCAAGCCCTCGAAGCGCC +GGTCGAACCGTGGTTTAAACCGCTGGCGTATGCCTTAATTTTGTTGCGGGAAAATGGCGTTCCTTCGGTA +TTCTATCCGGACCTCTACGGTGCGCATTACGAAGATGTCGGTGGTGACGGGCAAACCTATCCGATAGATA +TGCCAATAATCGAACAGCTTGATGAGTTAATTCTCGCCCGTCAGCGTTTCGCCCACGGTGTACAGACGTT +ATTTTTCGACCATCCGAACTGCATTGCCTTTAGCCGCAGTGGCACCGACGAATTTCCCGGCTGCGTGGTG +GTCATGTCGAACGGGGATGATGGCGAAAAAACCATTCATCTGGGAGAGAATTACGGCAATAAAACCTGGC +GTGATTTTCTGGGGAACCGGCAAGAGAGAGTAGTGACCGACGAAAACGGCGAAGCAACCTTCTTTTGCAA +CGGCGGCAGCGTCAGCGTGTGGGTTATCGAAGAGGTGATTTAAATTCATCCCCGGCGGCAAGCCGGGGAG +ATTTCATTACGGCAGTGGCGTCGGTAACGGCGCTTTATCCAGCGCGGCGGCACACTCTGCTGTCGGGCGA +TCCACACGCTCCATCGTCATACCATCGTACTCAATGGTGTTACCGTCACGCTCAACCTCGTACAGCTCAC +GTTTTACGGTAACGTTAGTGAGATCATCAGACATCAATGTCAACTTACCCGGCACGGCAATCACCCGCTG +CCACTGACGGCAATCCAGGGTATCGCCCTCTTTAGTGACAATCAGGCTGCCTATCGCTTCCGGGCTGACC +AGCGCACGTTGCGGCCCTTTGGTCTGCCAGTAGCCCGCCAGCCAGTCCGGCGCGGGGGTTTTCACGACAT +TGTTATAGTTTTCGACTTCGGCACAGCCCGCCAGCAACAAGAGCGCGCCTGCAATTGCGAGTTTTTTCAT +CATTCGTCCTGCATGAGAAGAAAAGAGGATTGTGGCATTAAAGCCCTGATGTCGCCAGCCTTTCAAGGTT +CAGAGAGAAATTTGATCTAACTATTATTTTTGTGAATTATTACCCCGAAAATAAATTTGCATGGTGTATG +ATTCGCGACTCTTGTTTCAAACCTTCTGAGTTCAGAGGCTACATTCATGTCATGGCAGCAATTCAAACAC +GCCTGGTTGATTAAATTCTGGGCCCCCATCCCTGCGGTCATCGCGGCGGGTATTCTCTCTACTTACTATT +TTGGCATTACTGGCACCTTTTGGGCTGTCACGGGTGAATTTACCCGTTGGGGCGGCCAGCTCCTGCAACT +GTTCGGCGTCCATGCTGAAGAGTGGGGTTACTTTAAAATTATCCATCTGGAAGGATCGCCATTAACCCGC +ATCGACGGGATGATGATCCTCGGTATGTTTGGCGGCTGCTTTGCCGCAGCGCTGTGGGCCAACAATGTCA +AACTGCGAATGCCGCGCAGCCGTATCCGCATTATGCAGGCCATCATTGGCGGCATTATCGCCGGTTTTGG +CGCGCGTCTGGCAATGGGCTGTAACCTGGCGGCGTTCTTTACCGGTATTCCTCAGTTCTCGCTGCATGCC +TGGTTCTTTGCCATCGCCACTGCCATTGGTTCATGGTTTGGCGCGCGCTTTACCCTGCTGCCCATCTTCC +GTATTCCCGTGAAAATGCAGAAAGTTTCTGCCGCCTCACCGCTGACGCAAAAACCGGATCAGGCGCGGCG +TCGTTTTCGTCTCGGGATGCTGGTCTTTTTCGGCATGCTGGGCTGGGCGCTGCTCACAGCGATGAACCAA +CCCAAACTGGGGCTGGCAATGCTGTTTGGCGTCGGCTTTGGTTTACTGATTGAACGTGCGCAAATCTGCT +TTACTTCAGCGTTCCGCGATATGTGGATCACCGGACGTACCCATATGGCGAAAGCAATCATTATCGGTAT +GGCGGTGAGTGCCATCGGGATCTTCAGTTACGTACAGTTAGGCGTTGAACCCAAAATCATGTGGGCGGGA +CCAAACGCGGTAATTGGTGGTTTACTGTTTGGTTTTGGCATCGTGCTGGCTGGCGGCTGCGAAACCGGCT +GGATGTACCGCGCGGTAGAAGGCCAGGTGCACTACTGGTGGGTCGGTCTGGGCAATGTGATCGGCTCAAC +GATTCTGGCGTATTACTGGGATGATTTCGCTCCGGCGCTGGCCACCGACTGGGACAAAATCAACCTGCTG +AAAACCTTTGGTCCGATGGGTGGCCTGCTGGTGACATATTTGCTGTTGTTTGCTGCGCTGATGTTGATTA +TCGGCTGGGAAAAACGCTTCTTCCGCCGTGCGGCACCGCAGACTGCTAAGGAGATCGCATGAAAAATATC +GTTCCTGATTACCGCCTTGATATGGTGGGTGAACCCTGCCCTTATCCGGCAGTCGCAACCCTTGAGGCGA +TGCCGCAGTTAAAAAAAGGGGAAATCCTGGAAGTGGTGAGCGACTGTCCGCAGTCGATCAATAATATTCC +ACTGGATGCGCGTAATCACGGCTATACGGTGCTGGATATTCAGCAAGACGGGCCGACCATTCGTTATTTA +ATTCAGAAGTAATCCCTCATTCCCGCTGTGACCCACAGCGGGAACATCGTTACCTTTGTATCACATAGAT +TTTACCCGCCCCCACTCCTATTCTTTTCAGTATGATCTCAGGAGGTTTCTATGTGTGGACGCTTTGCCCA +ATCCCAAACGCGTGAAGATTACCTTGCGCTTCTCGCGGAAGATATTGAACGCGATATTCCCTATGATCCC +GAACCCATTGGCAGATACAACGTCGCGCCGGGAACCAAAGTCCTACTGCTCAGTGAACGTGATGAACACC +TTCATCTGGATCCGGTTTTCTGGGGATATGCTCCCGGATGGTGGGATAAACCGCCGCTGATTAACGCCCG +CGTAGAAACTGCGGCAACCAGTCGTATGTTTAAACCGCTCTGGCAACATGGTCGGGCAATCTGTTTTGCC +GATGGCTGGTTTGAGTGGAAAAAAGAAGGCGACAAAAAACAGCCTTTTTTTATCTATCGTGCTGATGGAC +AACCTATTTTTATGGCCGCGATAGGTAGCACACCATTTGAGCGTGGTGACGAAGCCGAAGGATTTTTGAT +CGTCACTGCTGCGGCAGATCAAGGTCTGGTAGATATTCATGACCGCCGCCCACTGGTACTGTCGCCAGAA +GCTGCGCGGGAATGGATGCGGCAAGAGATTAGCGGTAAAGAAGCCTCAGAAATCGCGGCCAGTGGCTGTG +TTCCAGCAAACCAGTTCTCCTGGCACCCGGTATCGCGCGCGGTGGGTAATGTTAAAAACCAGGGCGCGGA +GTTAATTCAACCTGTTTGATAAGCCTGGAGATTATTGATCAACAATACTGCGTCATAAGAAATCTCTATT +AGACAAAGATTTCATTACCTGTTGGCATATTGCAAAAATAACACCAATACGGAATCGTCATGTTCACGAT +TAAAACAGATGATCTCACCCATCCAGCAGTGCAAGCATTAGTGGCTTACCATATTTCCGGCATGCTGCAG +CAGTCTCCCCCCGAAAGCAGTCATGCTTTAGATGTGCAAAAATTACGTAACCCGACAGTGACATTCTGGT +CAGTATGGGAAGGCGAACAACTCGCAGGAATTGGTGCGCTGAAGTTGCTGGATGATAAACACGGCGAGCT +GAAATCAATGCGTACCGCGCCAAATTATTTACGTCGTGGTGTCGCCAGTCTGATTTTACGCCACATTTTG +CAGGTCGCCCAGGACAGATGCCTTCATCGCCTGAGCTTAGAAACGGGTACACAGGCTGGATTTACGGCCT +GCCATCAACTTTATTTGAAGCATGGTTTCGCTGATTGCGAACCGTTTGCTGATTATCGACTTGATCCACA +CAGTCGATTTTTATCATTGACGCTATGCGAAAATAATGAATTGCCATGAGCCAGACGCAGCACATTCTTG +CATTCGACGTGCTGCGCCTTTATTTATCACCAGCAGGAAACGCCTTGTCCATAGACGCCCCTTCCACATG +CGCCACAAGAAACCTCTATTCCAGTGACACAATTGCGCCTAATTAATTACATTTAATATTTAATTATGAG +TTCCTCACCATCTATTACATACTTTTTAACCATATCGGAATATTTATCATAATCAGCGGGATTCGTAACA +ATATATTTTCGCTGCGATCTTTCATAGCAAATCCCTGTCAAAGTCCATGATATAAAAATGTCTCTTCAAA +AGAATTACATTCTTTAAAAAGTAATTCTTTATTGCTATATATCGCAGAGACAACCTCAATATCACACTCC +ATACGTGCTTTCTCCAGATGATTTGGGAAGTATTGAATTTCTTTTATCTTATTATCGCCACAATTAAACA +GCTTAGTAGTCTCAGGCATTGCTGGTATTTACCATATTTTATTGCGATAAATAGAAATTGTCATAGCCTT +TGACGGAGATGAGTCAACACGCGATATCAGATTATTATCTACGGAGACCTGGGTAATTCCATCGGATACT +TTTGGAAATACCATATAATTATTGAAATCGAGCTCTAATTCTTTGCAGAATTTGGGAATTTGTATTGTGG +CAAGGCCATTATGACGAAGATAAAGCACCTCAATCCAGGATGGAAGAGGTGGCAAAGACCCCAAGTGAAG +ATCTGTTAAGTCAAGTTTACTATTGTGGAGTTCAACACATTTAAACAATCTCACCAATGCTATATCCACA +TTTTTTTTGAAGTCATTCGATGCGCCTTCTTTTACTGAATTAGCCCAGTCGCTGAAACCTTTGCAAAGTC +TGGAATCTGTAATTTTCGTAAAGTTGTCTAGAAACTCTGCAATATTAGTCGATATAAACTCTAATTTATG +CCGAATGGGTGGGTTACCAGTTCCCTGATTTTTTCTATCATGATAAAACCTATCTTATTATAAATCGAGA +AATCTTGAAACCAGAGACTATAATCACCCCATTCGAAATATTCTGAGTGCAATAACTTAAATTCTGACAG +CATATTAAATAATTTGCTGTCTTCACTAATTGGTGTAAACTTACCATTTCCAAGACAACTGACTAACTCA +CTTGATAATTCATTTATGATTGCATCATCAGATACTAACTCATGTTGTTTTATCGTAGATTCAGTATTAG +ATGTGACTTTATTTAATTGAACCGGCTGAGTTTTTAACGAAAGATCATTTAATGGAAACATTTACACTCC +TGTTTAATAAATTATATTGCCCAGGGCGCATTCTAAAACACAATAAAATTACCACTATCAAAAATCGCTC +ATATCCATCGCCCGGAATATGAATAAAAACATCAACAAAGATTAAATTATCCAGAGGTTACTGTTGCGTC +TGTGGTCGTAACAACATCCGACGTGGTGATGTGTCAAATGAGACGCTCTGATGTTCAGGGGGGTTATCGC +GTATACGGATCGTGGATGGCAGAAAACGTTCAGGATCAGGTATCCATTTTAAACCAGAAATTGAGTGAGT +TTGCCCCATCCATGCCCCACGCGGTGAGATCGGATGTAATTAACAACAGGTTACAAAACCTACACCTGCA +TGCTCATCACTTCCTGATACGCCGCCACCAGCTTATTACGCACCTGAATCCCCATTTGCATAGAAACTGA +GGCTTTTTGCATATCGGTCATCACATCGTTTAACGCCACGCCGGGTTCACCGAGAGTGAATTTTTCTGCC +TGCGTGCGGGCAGCTGTTTGTGTATCACTAATGCGATCGAGCGCGGCGTGCAGCTGCCCGGCAAAACTAA +TGGTCGGTTGCGGCAGTGATTCCTGCGCACGCGCACTCATCGCCGTAGCCTGTAACTGGCTGATAACCCC +TTCAATCCCCTGTATCGCTGACATTCTCGTCTCCCGGATAATTTCTGGTAGCAAAGCCTACCAGTAAGTC +AATAAGACAAAGGCGCTAAATAGCAACAAAAAAACGGGTTTATTGGCGGATAGAAAAAAACGAAAGCACA +AATAATGGGAGCGTCAATTTTTCGAGTTTGCTGACCCGGGAGTGAGTCTTGTTCCACTTTGCCAATAACG +CCGTCCATAATCAGCCACGAGGTGCGCGATGAATGCGACTGCAGCCCAGACAAAATCTCTTGAGTGGCTT +AATCGCCTGCGTGCGAATCCGAAAATTCCATTGATTGTTGCCGGTTCCGCGGCAGTGGCGGTCATGGTCG +CACTGATCCTGTGGGCGAAAGCCCCCGACTACCGCACATTATTCAGCAATCTTTCCGATCAGGATGGTGG +CGCAATTGTCAGCCAACTGACGCAAATGAATATTCCTTACCGCTTCAGCGAAGCCAGCGGCGCTATTGAA +GTTCCGGCAGATAAAGTTCACGAACTGCGTCTGCGCCTGGCACAACAAGGTTTGCCAAAAGGCGGCGCGG +TCGGTTTCGAACTGCTTGATCAGGAAAAGTTTGGTATCAGCCAGTTCAGCGAACAGGTGAATTATCAGCG +GGCGCTGGAAGGCGAGCTTTCTCGTACCATCGAAACTATCGGCCCGGTAAAAGGGGCGCGCGTACATCTG +GCAATGCCGAAACCGTCTTTATTCGTCCGTGAACAAAAATCCCCTTCTGCATCGGTGACGGTAAATCTGT +TACCCGGCCGCGCACTCGATGAAGGGCAAATTAGCGCCATTGTGCATCTGGTTTCCAGCGCCGTTGCTGG +TCTGCCGCCGGGAAACGTCACGCTGGTGGATCAGGGCGGACATCTGTTAACCCAGTCCAATACCAGCGGG +CGCGATCTTAATGACGCTCAGTTGAAATATGCCAGCGATGTCGAAGGCCGTATTCAGCGGCGTATTGAAG +CGATCCTGTCGCCTATTGTTGGTAACGGTAATATTCACGCCCAGGTTACGGCGCAGCTGGACTTCGCCAG +TAAAGAACAAACGGAAGAACAGTATCGCCCTAACGGTGATGAATCTCATGCGGCGCTTCGTTCACGCCAG +CTTAATGAGAGCGAGCAAAGCGGTTCCGGTTATCCGGGCGGCGTACCGGGGGCGTTGTCGAATCAACCGG +CACCTGCGAATAACGCGCCAATCAGCACGCCTCCGGCAAATCAAAATAACCGCCAGCAGCAGGCGAGCAC +CACCAGCAATAGTGGGCCGCGTAGCACACAGCGGAATGAAACCAGTAACTACGAAGTCGATCGCACCATT +CGTCATACCAAAATGAACGTGGGCGATGTGCAACGTCTGTCAGTCGCGGTCGTGGTGAATTACAAAACCT +TGCCAGATGGCAAACCGTTGCCTCTCAGCAACGAACAGATGAAGCAAATTGAAGATCTGACCCGCGAGGC +GATGGGCTTTTCTGAAAAACGCGGTGACTCGCTCAATGTCGTTAACTCGCCGTTCAATAGCAGTGACGAA +AGCGGCGGAGAACTGCCATTCTGGCAACAGCAAGCGTTTATCGATCAGTTACTTGCTGCCGGTCGCTGGT +TGCTGGTACTGCTGGTGGCGTGGCTGCTGTGGCGGAAAGCGGTACGTCCGCAGCTAACACGTCGCGCTGA +GGCGATGAAAGCTGTACAGCAACAGGCGCAGGCCCGCGAGGAAGTGGAAGATGCGGTGGAAGTCCGCCTG +AGCAAAGACGAACAACTACAACAACGGCGCGCTAACCAACGTCTGGGGGCAGAAGTCATGAGCCAGCGTA +TCCGTGAAATGTCTGATAACGATCCGCGCGTGGTGGCGCTGGTCATTCGCCAGTGGATAAATAACGATCA +TGAGTAACCTGACAGGCACCGATAAAAGCGTCATCCTGCTGATGACCATTGGCGAAGACCGGGCGGCAGA +GGTGTTCAAGCACCTCTCCCAGCGTGAAGTACAAACCCTGAGCGCTGCAATGGCGAACGTCACGCAGATC +TCCAACAAGCAGCTAACCGATGTGCTGGCGGAGTTTGAGCAAGAAGCTGAACAGTTTGCCGCACTGAATA +TCAACGCCAACGATTATCTGCGCTCGGTATTGGTCAAAGCTCTGGGTGAAGAACGTGCCGCCAGCCTGCT +GGAAGATATTCTCGAAACTCGCGATACCGCCAGCGGTATTGAAACGCTCAACTTTATGGAGCCACAGAGC +GCCGCCGATCTGATTCGCGATGAGCATCCGCAAATTATCGCCACCATTCTGGTGCATCTGAAGCGCGCCC +AAGCCGCCGATATTCTGGCGTTGTTCGATGAACGTCTGCGCCACGACGTGATGTTGCGTATCGCCACCTT +TGGCGGCGTGCAGCCAGCCGCGCTGGCGGAGCTGACCGAAGTACTGAATGGCTTGCTCGACGGTCAGAAT +CTCAAGCGCAGCAAAATGGGCGGCGTGAGAACGGCAGCCGAAATTATCAACCTGATGAAAACTCAGCAGG +AAGAAGCCGTTATTACCGCCGTGCGTGAATTCGACGGCGAGCTGGCGCAGAAAATCATCGACGAGATGTT +CCTGTTCGAGAATCTGGTGGATGTCGACGATCGCAGCATTCAGCGTCTGTTGCAGGAAGTGGATTCCGAA +TCGCTGTTGATCGCGCTGAAAGGAGCCGAGCAGCCACTGCGCGAGAAATTCTTGCGCAATATGTCGCAGC +GTGCCGCCGATATTCTGCGCGACGATCTCGCCAACCGTGGTCCGGTGCGTCTGTCGCAGGTGGAAAACGA +ACAGAAAGCGATTCTGCTGATTGTGCGCCGCCTTGCCGAAACTGGCGAGATGGTAATTGGCAGCGGCGAG +GATACCTATGTCTGATAATCTGCCGTGGAAAACCTGGACGCCGGACGATCTCGCGCCACCACAGGCAGAG +TTTGTGCCCATAGTCGAGCCGGAAGAAACCATCATTGAAGAGGCTGAACCCAGCCTTGAGCAGCAACTGG +CGCAACTGCAAATGCAGGCCCATGAGCAAGGTTATCAGGCGGGTATTGCCGAAGGTCGCCAGCAAGGTCA +TAAGCAGGGCTATCAGGAAGGACTGGCCCAGGGGCTGGAGCAAGGTCTGGCAGAGGCGAAGTCTCAACAA +GCGCCAATTCATGCCCGGATGCAGCAACTGGTCAGCGAATTTCAAACTACCCTTGATGCACTTGATAGTG +TGATAGCGTCGCGCCTGATGCAGATGGCGCTGGAGGCGGCACGTCAGGTCATCGGTCAGACGCCAACGGT +GGATAACTCGGCACTGATCAAACAGATCCAACAGTTGTTGCAGCAAGAACCGTTATTCAGCGGTAAACCA +CAGCTGCGCGTGCACCCGGATGATCTGCAACGTGTGGATGATATGCTCGGCGCTACCTTAAGTTTGCATG +GCTGGCGCTTGCGGGGCGATCCCACCCTCCATCCTGGCGGCTGTAAAGTCTCCGCCGATGAAGGCGATCT +CGACGCCAGTGTCGCCACTCGCTGGCAAGAACTCTGCCGTCTGGCAGCACCAGGAGTGGTGTAATGACCA +CGCGCCTGACTCGCTGGCTAACCACGCTGGATAACTTTGAAGCCAAAATGGCGCAGTTGCCTGCGGTACG +TCGCTACGGGCGATTAACCCGCGCTACCGGGCTGGTGCTGGAAGCCACCGGATTACAATTGCCGCTCGGC +GCAACCTGTGTCATTGAGCGCCAGAACGGCAGCGAAACGCACGAAGTAGAAAGCGAAGTCGTTGGCTTTA +ACGGTCAACGGCTGTTTTTAATGCCGCTGGAGGAAGTCGAAGGTGTCCTGCCCGGCGCGCGTGTTTATGC +CAAAAACATTTCGGCAGAAGGGCTGCAAAGCGGCAAGCAGTTGCCGCTCGGTCCGGCGTTATTAGGTCGC +GTTCTGGACGGCAGCGGTAAACCGCTCGATGGCCTGCCCTCCCCCGATACGACGGAAACCGGTGCGCTGA +TTACCCCGCCATTTAACCCGTTGCAACGTACACCGATTGAACATGTGCTGGACACCGGCGTGCGCCCAAT +CAATGCCCTGCTTACCGTTGGGCGTGGGCAGCGTATGGGGCTGTTTGCCGGGTCCGGCGTTGGTAAAAGT +GTGCTGCTGGGGATGATGGCACGTTACACCCGCGCCGATGTCATTGTCGTGGGTTTGATTGGTGAACGTG +GGCGCGAAGTAAAAGATTTTATTGAGAACATCCTCGGTGCCGAAGGGCGTGCACGCTCAGTGGTGATTGC +CGCTCCGGCGGATGTTTCTCCGCTCCTGCGAATGCAGGGTGCCGCCTATGCCACGCGCATTGCCGAAGAT +TTTCGCGATCGTGGTCAGCATGTGTTGCTGATTATGGACTCCCTCACCCGCTACGCGATGGCCCAGCGTG +AAATTGCGCTGGCGATTGGCGAACCCCCCGCCACCAAAGGTTATCCACCGTCGGTGTTTGCCAAATTACC +GGCACTGGTCGAGCGTGCCGGAAATGGCATTAGCGGCGGCGGCTCGATTACCGCGTTTTATACCGTGCTC +ACTGAAGGCGATGACCAGCAGGATCCGATTGCCGACTCCGCGCGGGCGATCCTCGACGGTCACATTGTGC +TGTCTCGCCGACTGGCGGAAGCCGGGCACTATCCGGCTATCGATATTGAAGCGTCGATCAGCCGCGCAAT +GACGGCGTTGATCAGTGAGCAACATTACGCGCGAGTGCGCACCTTCAAACAGCTGTTGTCGAGTTTTCAG +CGTAACCGCGATCTGGTTAGCGTCGGCGCGTATGCCAAAGGCAGCGATCCGATGCTCGATAAAGCCATCG +CCCTGTGGCCGCAGCTGGAGGGCTATTTGCAACAAGGCATTTTTGAACGCGCGGACTGGGAAGCGTCTCT +CCAGGGGCTGGAGCGTATTTTCCCGACAGTGTCATAACCCAGGAGATAACGGCAGATGGCAGAACATGGT +GCGCTGGCGACCCTGAAAGATCTGGCAGAAAAAGAGGTAGAGGATGCCGCGCGCCTGCTGGGTGAAATGC +GTCGCGGATGTCAGCAGGCGGAAGAACAGCTCAAAATGCTGATTGATTATCAGAATGAATATCGCAATAA +CCTCAACAGCGATATGAGTGCCGGGATAACCAGCAACCGCTGGATCAACTATCAGCAGTTTATCCAGACG +CTGGAAAAAGCCATTACTCAGCATCGCCAGCAACTTAATCAGTGGACGCAGAAAGTTGACATTGCCCTGA +ACAGTTGGCGAGAAAAAAAACAACGTTTGCAGGCCTGGCAGACACTGCAGGAACGGCAATCCACGGCGGC +ACTGCTTGCAGAAAACCGCCTCGATCAGAAAAAGATGGATGAGTTCGCCCAGCGCGCCGCCATGAGGAAA +CCTGAATGATTCGCTTAGCGCCCTTGATTACCGCCGACGTTGACACCACCACATTGCCTGGCGGCAAAGC +CAGCGATGCTGCACAAGATTTTCTCGCGTTGTTGAGCGAAGCATTAGCAGGCGAGACAACTACCGACAAA +GCGGCCCCCCAGTTGCTGGTGGCAACAGATAAGCCCACGACAAAAGGCGAGCCGCTGATCAGCGATATTG +TTTCCGACGCGCAACAAGCTAATTTACTGATCCCTGTGGATGAAACACCGCCTGTCATCAACGACGAACA +ATCCACATCAACACCGTTAACCACCGCTCAGACGATGGCGTTGGCTGCGGTGGCTGACAAAAATACGACA +AAAGACGAAAAAGCGGATGATCTGAATGAAGACGTCACCGCAAGCCTGAGCGCCCTTTTTGCGATGTTGC +CGGGTTTTGACAATACGCCCAAAGTGACTGATGCGCCGTCAACCGTGTTACCGACAGAGAAACCAACGCT +CTTCACAAAACTGACTTCTGAGCAACTCACAACAGCACAGCCTGATGACGCCCCCGGCACACCAGCTCAG +CCATTAACACCGCTGGTAGCAGAAGCCCAGAGTAAAGCGGAAGTCATCAGCACACCTTCACCGGTGACCG +CTGCCGCCAGCCCGCTAATCACTCCACACCAGACACAGCCACTGCCCACCGTCGCCGCACCTGTTTTGAG +TGCACCGCTGGGTTCTCACGAATGGCAACAATCATTAAGCCAGCATATTTCGCTGTTCACCCGCCAGGGG +CAACAAAGTGCAGAGTTGCGTCTGCACCCGCAGGATTTAGGTGAAGTGCAAATCTCCCTCAAAGTGGATG +ATAACCAGGCGCAAATCCAGATGGTTTCACCGCATCAGCATGTACGCGCCGCCCTGGAAGCAGCGCTGCC +GGTACTGCGCACGCAGCTGGCCGAAAGTGGCATTCAGTTAGGGCAAAGCAACATCAGTGGCGAAAGCTTT +AGTGGTCAGCAGCAGGCCGCTTCCCAGCAACAGCAAAGCCAACGCACAGCAAACCATGAACCTCTGGCGG +GGGAAGACGACGATACGCTTCCGGTTCCCGTCTCTTTACAAGGGCGTGTAACAGGCAACAGCGGCGTTGA +TATTTTCGCCTAACGTCAGAGGTAGCACCGTAATCCGCGTCTTTTCCCCGCTTTGTTGCGCTCAAGACGC +AGGATAATTAGCCGATAAGCAGTAGCGACACAGGAAGACCGCAACACATGACTGATTACGCGATAAGCAA +GAAAAGCAAGCGATCGCTTTGGATCCCGATTCTGGTATTCATTACCCTCGCGGCCTGTGCCAGCGCAGGT +TACAGCTACTGGCATTCGCATCAGGTTGCCGCTGACGACAAAGCGCAGCAACGCGTCGTGCCCTCACCGG +TCTTCTACGCGCTGGATACCTTCACGGTCAATTTGGGCGATGCGGATCGCGTACTTTATATCGGCATAAC +CCTGCGCCTGAAAGATGAAGCTACCCGCTCGCGGCTGAGTGAGTATTTGCCGGAAGTCCGTAGTCGCTTG +CTGTTACTGTTTTCGCGTCAGGATGCTGCCGTACTGGCGACAGAAGAAGGCAAGAAAAACCTGATTGCCG +AGATTAAAACCACACTTTCCACCCCGCTTGTTGCCGGGCAACCGAAACAGGATGTCACCGACGTGCTGTA +TACCGCTTTTATTCTGCGATAACGACATGGGCGATAGTATTCTTTCTCAAGCTGAAATTGATGCGCTGTT +GAATGGTGACAGCGAAGTCAAAGACGAACCGACAGCCAGTGTTAGCGGCGAAAGTGACATTCGTCCGTAC +GATCCGAATACCCAACGACGGGTTGTGCGCGAACGTTTGCAGGCGCTGGAAATCATTAATGAGCGCTTTG +CCCGCCATTTTCGTATGGGGCTGTTCAACCTGCTGCGTCGTAGCCCGGATATAACCGTCGGGGCCATCCG +CATTCAGCCGTACCATGAATTTGCCCGCAACCTGCCGGTGCCGACCAACCTGAACCTTATCCATCTGAAA +CCGCTGCGCGGCACTGGGCTGGTGGTGTTCTCACCGAGTCTGGTGTTTATCGCCGTGGATAACCTGTTTG +GCGGCGATGGACGCTTCCCGACCAAAGTGGAAGGTCGCGAGTTTACCCATACCGAACAGCGCGTCATCAA +CCGCATGTTGAAACTGGCGCTTGAAGGCTATAGCGACGCCTGGAAGGCGATTAATCCGCTGGAAGTTGAG +TACGTGCGTTCGGAAATGCAGGTGAAATTTACCAATATCACCACCTCGCCGAACGACATTGTGGTTAACA +CGCCGTTCCATGTGGAGATTGGCAACCTGACCGGCGAATTTAATATCTGCCTGCCATTCAGCATGATCGA +GCCGCTACGGGAATTGTTGGTTAACCCGCCGCTGGAAAACTCGCGTAATGAAGATCAGAACTGGCGCGAT +AACCTGGTGCGCCAGGTGCAGCATTCACAGCTGGAGCTGGTCGCCAACTTTGCCGATATCTCGCTACGCC +TGTCGCAGATTTTAAAACTGAACCCCGGCGACGTCCTGCCGATAGAAAAACCCGATCGCATCATCGCCCA +TGTTGACGGCGTCCCGGTGCTGACCAGTCAGTATGGCACCCTCAACGGTCAGTATGCGTTACGGATAGAA +CATTTGATTAACCCGATTTTAAATTCTCTGAACGAGGAACAGCCCAAATGAGTGACATGAATAATCCGGC +CGATGACAACAACGGCGCAATGGACGATCTGTGGGCTGAAGCGTTGAGCGAACAAAAATCAACCAGCAGC +AAAAGCGCTGCCGAGACGGTGTTCCAGCAATTTGGCGGTGGTGATGTCAGCGGAACGTTGCAGGATATCG +ACCTGATTATGGATATTCCGGTCAAGCTGACCGTCGAGCTGGGCCGTACGCGGATGACCATCAAAGAGCT +GTTGCGTCTGACGCAAGGGTCCGTCGTGGCGCTGGACGGTCTGGCGGGCGAACCACTGGATATTCTGATC +AACGGTTATTTAATCGCCCAGGGCGAAGTGGTGGTCGTTGCCGATAAATATGGCGTGCGGATCACCGATA +TCATTACTCCGTCTGAGCGAATGCGCCGCCTGAGCCGTTAGTGATGAATAACCACGCTACTGTGCAATCT +TCCGCGCCGGTTTCTGCTGCGCCACTGCTGCAGGTGAGCGGCGCACTCATCGCCATTATTGCCCTGATCC +TCGCTGCTGCCTGGCTGGTAAAACGGTTGGGATTTGCCCCTAAACGCACTGGCGTTAACGGTCTGAAAAT +TAGCGCCAGTGCTTCACTGGGCGCGCGTGAAAGGGTTGTGGTGGTCGATGTGGAAGATGCACGGCTGGTG +CTCGGCGTTACCGCAGGTCAAATCAATCTGCTGCATAAACTTCCCCCTTCTGCACCAACGGAAGAGATAC +CGCAGACCGATTTTCAGTCGGTCATGAAAAATTTGCTTAAGCGTAGCGGGAGATCCTGATGCGTCGTTTA +TTGTCTGTCGCACCTGTCCTTCTCTGGCTGATTACGCCCCTCGCCTTCGCGCAACTGCCGGGTATCACCA +GCCAGCCGCTGCCTGGCGGTGGACAAAGCTGGTCGCTCCCGGTGCAGACGCTGGTGTTCATCACCTCGTT +GACGTTTATTCCGGCAATTTTACTGATGATGACCAGTTTCACCCGCATCATCATTGTTTTTGGTTTATTG +CGTAACGCGCTGGGAACACCCTCCGCGCCACCTAACCAGGTATTGCTGGGGCTGGCACTGTTTTTGACCT +TTTTTATTATGTCACCGGTGATCGACAAAATTTATGTAGATGCGTACCAGCCATTCAGCGAAGAGAAAAT +ATCAATGCAGGAGGCGCTGGAAAAAGGGGCGCAGCCGCTGCGTGAGTTTATGCTGCGTCAGACCCGTGAG +GCAGATTTAGGGTTGTTTGCCAGACTGGCGAATACCGGCCCGTTGCAGGGACCTGAAGCCGTGCCGATGC +GCATTTTGCTCCCGGCCTACGTGACCAGCGAGTTGAAAACCGCATTTCAGATAGGCTTCACGATTTTCAT +CCCTTTTTTGATTATCGACCTGGTGATAGCCAGCGTGTTGATGGCATTGGGGATGATGATGGTTCCCCCA +GCCACCATTGCTCTGCCCTTTAAACTGATGCTGTTTGTACTGGTGGATGGCTGGCAATTGCTGGTCGGTT +CGCTGGCGCAGAGCTTTTACAGCTAGAGAGGCAAAATGACACCTGAATCGGTCATGATGATGGGGACTGA +AGCGATGAAAGTCGCGCTGGCACTGGCTGCCCCGCTATTGTTGGTAGCGTTGGTCACGGGCCTTATCATC +AGTATTTTGCAGGCCGCCACGCAGATTAACGAAATGACGCTGTCGTTTATTCCGAAAATCATCGCCGTAT +TTATCGCCATTATTATTGCCGGACCGTGGATGCTCAATCTGTTGCTGGATTACGTCCGCACCTTGTTCAC +TAACCTGCCGTATATCATCGGGTAGCCGTACTATGTTGCAGGTGACAAGCGAACAATGGCTATCCTGGTT +AAACCTGTACTTCTGGCCGTTACTGCGCGTGCTGGCGCTGATCTCCACCGCGCCGATTCTGAGCGAACGC +AGCGTACCGAAACGGGTAAAACTGGGTCTGGCAATGATGATCACGTTCGCCATTGCCCCATCATTACCTG +CCAACGATGTTCCTGTTTTTTCGTTCTTTGCTCTGTGGCTGGCCGTGCAGCAGATCCTGATCGGCATTGC +GCTTGGTTTTACCATGCAATTTGCCTTTGCCGCTGTGCGAACCGCTGGCGAAATTATCGGTCTGCAAATG +GGGCTGTCATTTGCGACGTTTGTCGATCCGGCCAGCCATCTTAATATGCCCGTTTTAGCGCGTATCATGG +ATATGCTGGCGTTACTGCTGTTCCTGACATTTAACGGTCATTTATGGTTGATTTCACTGCTGGTCGATAC +CTTTCACACCCTGCCGATTGGTGGCGAACCGTTGAACAGCAATGCGTTTCTGGCACTCACCAAAGCAGGG +AGTTTGATTTTCCTTAACGGGCTGATGCTGGCGTTACCGCTCATTACTCTGCTGCTGACACTGAATCTGG +CATTAGGTTTACTTAATCGTATGGCCCCGCAATTATCCATTTTTGTTATTGGATTTCCATTAACTCTGAC +TGTCGGCATCTCTTTAATGGCGGCATTAATGCCGTTAATTGCACCTTTTTGCGAACATTTATTCAGTGAA +ATTTTTAATTTGCTGGCTGATATTATTAGTGAATTGCCATTAATATAATTCCGTAACGTTTATCATGTTA +TCCTAAGGATTATCCGAAAAATAATACCTACGAACATCTTCCAGGATACTCCTGCAGCGAAATATTTGTT +TTAAGCTCACTCACATATCGCAACATTTACTTTACTTTAAGACAATTCCAGGCAAATTATACAACACTTT +ACGGGATAGTAAGTCCGCCTGAAAAATCGCGAGAGTGGCGCATTAGGTGACCCATGTTGTTCCGTTTAGT +CATGATGAAATATTCAGGTAAGGGGAATTATCGTTACGCATTGAGTGAGGGTATGCCATGTCAACGATTA +TTATGGATTTATGTAGTTACACCCGACTAGGTTTAACCGGGTATCTGTTGAGTAGAGGGGTTAAAAAAAG +AGAAATCAACGACATTGAAACCGTTGATGACCTTGCCATAGCTTGTGATTCACAGCGCCCTTCAGTGGTG +TTTATTAATGAGGACTGTTTCATCCACGATGCTTCTAACAGTCAGCGTATCAAGCTCATCATTAATCAAC +ATCCCAATACGTTATTTATCGTTTTTATGGCAATTGCCAATGTTCATTTTGATGAATATCTATTGGTCAG +AAAAAATTTATTGATCAGTTCTAAATCGATTAAACCGGAATCTCTCGACGATATCCTTGGCGATATTCTG +AAAAAAGAGACAACGATAACCTCGTTTTTAAATATGCCGACGTTATCATTGAGCCGAACCGAATCGAGTA +TGTTGCGAATGTGGATGGCAGGTCAGGGAACCATTCAAATCTCTGACCAAATGAATATCAAAGCCAAGAC +CGTTTCATCGCATAAAGGTAATATTAAACGTAAGATCAAAACGCATAATAAACAGGTTATCTACCATGTC +GTCCGACTGACGGATAATGTGACTAATGGTATTTTTGTCAACATGCGCTAACACATTCTGACTGGTGGTT +TCCCACCAGTCAGGCTGAATAAGATTACTCTGCTTTCTCCACAAAGATACCGTCCTGATGCCCTGCTTCA +TTAAAGAACCAGATGCCGAGCGGGTAGTCTTCCAGCGAAACCAGGTACATTGTGCCTTCACTAAACTCCT +CAACTGCCAGTACCACGCCAGGACGACGCGGACCGCCATCCGTTTTGACTGTTACCCGATCATTCACCTT +CATCGTTTTCCTCCTGTGGCTTTGTGCCAGTGTAGAACAATTTCGTTTTTCTGGCAGCGCCAGGCGCGCG +CGAGTGCTGATTTTCTCGACGGTCTATACTTAAGAGATGCCAGGCGGACTTAACGACTGGCGGCAACAAC +AGAGTAACGGTTGCGAGGAAAGATGATGAAAACCGCAAAAGAGTACAGCGATACCGCAAAACGTGAGGTC +AGCGTCGATGTCGATGCCCTGCTGGCGGCGATCAATGAAATTAGCGAAAGCGAAGTTCATCGCAGCCAGA +ACGATTCTGAACACGTTAGCGTCGATGGACGTGAATATCATACATGGCGTGAATTGGCGGATGCCTTCGA +ACTGGATATTCATGACTTCAGCGTCTCTGAAGTGAATCGTTGAATGCACAATAAAAAAATCCCGACCCTG +AGGGGGTCGGGATGAAACTTGCTTAAGCAAGAAGCACTTAAAAAATTCGTTACACCAGGAAATCTGATGT +GTTCATCACCTTATCCGCAATTTTTTTCGCTGACAAGAAAATATTCGCCATATGAATGATTAACGCTACT +TATGAATAGAAATGTGACGCACGTCACCCCTTGGTGGCTCTGGCGTCAGCGGGATCGCTCCCGAAAAAAT +CATCTTTGATAATTTGTGCGGTTTTGAGAATCATCCTGGTAAGAGGAGTACTGCGCGACTATGTTTTCAA +TTCAACAACCACTACTGGTTTTTAGCGATCTTGATGGCACCCTGCTGGACAGTCATAGTTATGACTGGCA +ACCGGCAGCCCCCTGGCTCACCCGTTTACGCGAAGCAAATGTTCCCGTCATTCTCTGTAGCAGTAAAACA +TCAGCGGAAATGCTGTACTTGCAAAAAACGTTGGGGCTACAAGGTTTACCGCTGATTGCCGAAAATGGCG +CAGTGATCCAGCTTGCTGAGCAATGGCAGGAGATAGACGGTTTTCCACGCATCATCTCAGGTATTAGCCA +TGGCGAAATCAGCCTGGTTTTAAATACGCTACGCGAGAAAGAACATTTTAAATTCACGACTTTTGATGAT +GTCGACGATGCAACCATCGCCGAATGGACGGGATTAAGCCGTAGCCAGGCGGCGCTGACGCAGCTTCATG +AGGCGTCGGTAACGCTAATCTGGCGCGACAGTGACGAGCGTATGGCACAATTTACCGCTCGTCTGAACGA +ACTGGGCTTACAGTTTATGCAGGGTGCGCGCTTCTGGCACGTACTGGATGCTTCTGCCGGAAAAGATCAG +GCTGCCAACTGGATTATCGCGACCTATCAACAATTGTCAGGCAAACGCCCAACCACACTTGGCCTGGGCG +ATGGGCCAAACGATGCGCCCTTACTGGAGGTAATGGATTACGCGGTGATTGTGAAAGGGCTAAATCGTGA +AGGGGTGCATCTGCATGATGAGGATCCGGCCCGCGTCTGGCGAACGCAGCGTGAAGGACCGGAAGGATGG +CGTGAAGGGCTGGACCATTTTTTCTCCGCCCGTTAAGCGTTATCGCTCGCGAATACCCGATTACGCCCAG +CCTGTTTAGCGAGATAAAGCCGACGGTCGGCCAGTGACTGGAGTTGTTCAAAATCATAATCACCGGTTTC +CTCGCTGCTGCTTACCCCCAGCGAGGCACTGATGCGTATCGTCGTACTCTTGGCGATCAACATCTCTTTT +TCATTTAATTTCAGTCGAATACGTTCTGCGACCTCCGCAGCCTCCGTCAGACTCGCGCCTGGCAGAATCA +CACAAAACTCCTCACCACCGACCCGCCCGGCAACGTCCTGCGCACGCAAGGAACTGCTAATTAATCCGGC +AGCATGAGAAAGAACACGGTCGCCCGCCTGATGACCAAAGCGGTCATTAATCGCTTTAAAATGGTCAAGA +TCGACCTGAATGACAGAAAAAGGATGTTGGTGCGTCTGACACAATTTAGCGAGCGGACGGGCTTTTTCGA +ACAGTGCGCCACGGTTATATAAACGCGTTAAGGTGTCGTGCCACGCCTGCCACTGCAACGAGCTTTGCAG +AACATACATGTTGCTAACCATCCGGCGAATCACATACCAGGAGATGAGTAACATGGTGGTAAAGAGCGCC +CACAGCAGGGTTAATGCAATGCTGATACTGCCGAAATCGCCGCGCACGCCTTCGCTTAACGTATGGACAC +GCACCAGCACACCGTCGAAATGGTCCAGACGTTCCCAGCTAACATAGCGACTGTCCATACGAATGCCGCC +CCGCGTGTCATGTTCCATTGCCTGCGCCAGCAAGGCCAGTTCACGAGGATCAAAAATATTCCCTGTTGGA +TGGTCAGGATTGGAAGAGGTCAAAAATCTCAGCTTACTGTCATAGAGCTGATACTCACCATCGAGGTTTT +TATCGATGGCGTTTCTTAAAAATTGCTGCATAGTACGCACGGGAATACTCATCCCCAGCACGCCATACCA +GTAGTTATTACTGTCTACCGGAACACTGACGGTAACCTGCGGTTCAGTATTGCTGGCGTGTTCCGGTTGC +GAAGTGAACCAGCGTACCGCGCGGTGACGATTTTCTCGTTGTGAATGGCCAATAAACCAGGGTTGGGTGA +CATAGCCGTAATAACGCGTTGGAACATTGCGCGTAAACAAGGTCGGCTGCGTCGAAACGTAAAATCCGGC +ACGCGAGACATACATCGCCTGTTCAACCATCGACGAGGAGTTGTGCGCTAGTCGCAGCAAGTAACCAACT +TCCAGTGCAGCGGTAATTTCATTGTCGAGGCTTTCATTTTCGCGAGACAGGAGATTCCCCTCGCTGACTA +ATGCATCCGACACACCATTAACTGGCAGAGTGCGTCGTCGGTTGAGTTCGATTTTCCAGGCGTGCTCGTC +GCGATGCTGTTCGAACTCGGTTACAGCATCACGCAGAGAGGTGAAATCCAGTGGCGCTACGAGAGCTTCG +CGCATGCCATTACGTAAAAAGATCAGTTTGTCGACGTTATACTGCAAATGCTTATCGAGCGCGTTGGCAA +CGTTTTCCAGATGATTACGCTGGCTGGAGATATAGGCATCTTCCAGCACCACCACTTCACGCCAGGTGAG +CAAGGTGGAAAAAAGCAATACCACGATAAAGCAGAGATTAACGACATGACCAGGCCCCAGGCGGCGTGCG +AGTTTTTTCAACCAGCTCTGGTTTTCCATTTTTGTCTCGTGCTGCACCCTGACGACTCCCAACCTGCTTT +TTTATGATTCTGGCATAACCTGGCGATAGCGTACCGCAAAACAGCGATAATTTTATAATGGTGGCATGAT +AAGACGCGACTATCATTCATTGCAGGCATTAGCACACCAGGCCGGATGTGATCCGGCCTGATGTTAATGA +TACCCTTTCACACTTCTTCCGCAGAACGACTCCCCTCCCCCGGAACAAGCTCGGTTTCATGAAAAGCTTC +CCGCTTGACCCCGTAACCGTCATACCAACGACACTCAACCATACCGCTGGAGTATCCAGTGACAATCATC +CGCGGGCCGCCCTCTTTAACCGTAACTTCCTCACTAACCATAAAGCTCATACTCGCCTCCTTTTTTCGAG +TGAAACTTGTTCACCTTAGTTGAAGATGGCGAATTTTGCATAATAGCCAGTGCGAGTATTAATGTGCCTG +ACCGCGCATTTTCTCTACGGCTTTCACTCCCAGCACCACGATGCCGCCGATGATAAATCCAAGAATCAGA +TTTAAAACAGTCGGTAATATCATCGCCACTACTGCACTTTGCTGCCCGGCGAAATGTTCAATGGCGTGAT +GCAGCGGCGCAATTCCATGTACCACAATCCCACCGCCGACGAGGAACATCGCCAGCGTGCCGACAATCGA +TAACGCTTTCATCAGCCAGGGCGCGATAATCAATAACCCTTTACCTAATGCCTGCATCAGCGCGCTGGAT +TTTTCCGCCAGCCAATACCCCAGGTCATCAATCTTAACGATAACCCCTACCAGACCGTAGACGCCCACGG +TCACTACCAGCGCGATGCCTGAAAGCACCAGCACCTGATTAAGCAACGGCGCTTCGGCCACAATCCCCAG +CGTGATGGCGACGATTTCCGCAGACAATATAAAATCGGTACGAATCGCCCCTTTTATTTTGTCCTTTTCA +AACTTCAGCGGATCCTGCGCCGCCAGCTTCTCCAGACGCTGCTGGCTCTGCGCCGGATCTTCTTTATGTT +TACGCGCCTCCAGCATATGCAGCACTTTCTCTACTCCTTCAAAGCAGAGAAACGCGCCACCAATCATCAA +CAGAGGCGTAATCGCCCACGGGATAAACGCACTGATGATCAGCGCCAGCGGCACCAGAATCACTTTATTA +ATCAGCGATCCTTTCGCCACGCCCCAGACCACGGGAAGTTCCCGGTTGGCCCGCACGCCTGAAACTTGTT +GCGCATTGAGCGATAAGTCATCCCCTAATACACCGGCGGTTTTCTTCGCCGCCAGTTTGCCCATCACGGA +GATATCGTCCAGTAGTGTGGCGATATCATCGAGCAACGTCAGTAAACTACTCCCGGCCAAAAGCATTCCC +TCTCATTTTTATTGTTGAAGGGTGTAAGTATGAAGCAAAAACGGCAGCTCTGATACTTGCTTCACAGGTC +AACATTTTTTTAACAATCAAGTGCAATTATATCTCTCGCCAGCAGAATGATTTTCACGTTTACTATGAAC +CACCTTTTTATTTCCACCGTGAGGGATTATGCGTTTCCGCCAGTTGTTACCGCTTTTTGGCGCGCTGTTT +GCGTTGTATATCATTTGGGGCTCAACCTATTTTGTCATTCGGATTGGCGTGGAAAGCTGGCCTCCGTTAA +TGATGGCGGGCGTTCGATTCCTGGCAGCCGGTATTTTATTGCTGGCATTTTTGCTACTGCGCGGACACAA +ACTCCCCCCGCTACGTCCGCTGCTCAATGCCGCGCTGATTGGCCTGTTATTGCTGGCTGTCGGTAATGGC +ATGGTGACGGTTGCCGAACATCAAAATGTTCCTTCCGGCATCGCCGCCGTAGTGGTTGCAACCGTGCCCC +TCTTTACCCTGTGCTTCAGCCGCCTGTTTGGCATTAAAACGCGCAAACTGGAATGGGTGGGTATTGCCAT +TGGGCTTGCCGGAATCATCATGCTCAATAGCGGTGGAAATTTAAGCGGCAATCCGTGGGGCGCGATTCTG +ATTTTAATCGGCTCGATTAGCTGGGCGTTTGGCTCAGTTTATGGCTCGCGCATTACCTTACCTGTAGGGA +TGATGGCGGGTGCGATTGAGATGCTGGCGGCAGGCGTGGTGTTAATGATCGCGTCGATGATTGCGGGTGA +AAAACTGACGGCGCTCCCTTCCCTTTCAGGCTTCCTTGCGGTCGGCTATCTGGCGCTGTTTGGTTCGATT +ATCGCCATCAACGCTTATATGTATTTAATCCGTAATGTCAGTCCGGCTCTCGCCACCAGCTACGCTTACG +TTAACCCGGTGGTCGCGGTCTTGCTGGGTACGGGACTGGGTGGAGAAACACTGTCGAAGATTGAATGGCT +GGCGCTCGGCGTAATTGTCTTCGCGGTGGTACTGGTCACGTTGGGAAAATATCTCTTCCCGGCAAAACCC +GTAGTTGCGCCAGTTATTCAGGACGCATCAAGCGAGTAAATGAATCCCCTGCGTGTCGATCTGCGCGCTG +GCACCTTCGCCGCAGATCCACTCTTCCAGACGCTCGGTAAGCGCTTCATCCGTCAGCTTCTCGCGCCCAC +GTAACGCGCACTCCCAGACAATCAATACGCGCCAGCCGAGTTCCTGCAAGCGACTGATATCGCGGCGATC +GCGCTCAACATTTTTACCTATCTTCTCCAGCCAGAACTCGGTTCGAGTCGCAGGCACTTTAAACAGATAG +CAGTGATGATGATGCCAGAAGCAGCCATGGGTAAATATCACGCAGCGATATTCATCAACGACAAAATCCG +GACGTCCGGGCAGACTGGCGTCCTGAACGCGAAATGCCAGGCCCTGCCCGGTTAACAGACTGGCGAGGCG +CTTCTCTATCGCCGTATCACGCGTGGCAATCGCGCGCATATTTTTGCTGCGAGTGGCCTTATCGTGAACG +TCGGCCATGTTGTGCCTCTTGCTGACGCAACGCCACCGCCTGTTTGATTTTTGGCTCAAGCAGTTTTGCC +ACCGCGGCAAAGACCGGCACGACCACCGAGTTACCGAACTGGCGATAGGCCTGAGTGTCCGAAACCGGAA +TACGGAATTTCGCTTCTCCCGGCGCTTCAAAACCCATTAAGCGCGCGCATTCCCGAGGCGTTAACCGACG +TGGACGATGTTGCTGATTCAGCGGATCGTCAAAGTCTTTCTCACCCGTGGCCATATCCCAGCCGCGATCG +ATTAAAATTTCCGCGCCATCTTTGTAATAACGCGCAGACAGCGTACGCGTGACGCTTTGCGGATTGTTCG +GATAAACCATTCCATAACCGAAGCCGTTACCGCGCGCCTGATGTTTTTTCGCATATCGATAGAGGTACTT +CCACAGCACCGGCGTCAGGATATATTTCGCCTCGACCATCGGGTCCAACAGCTGCGCCAGCGTCACTCGC +TGCGCAGGGAAACATTCGCTGATATCACGCAGGGTAAAATCGGCTTTCAGATTCAGATCGCGACGAAAAC +CCACCAGCACGATGCGTTCACGGTGCTGCGGCAGAAAATGTTTGCCGTCGATGATTTTCGGATCGTCTGG +CCCATTATCTTCTGCATCAGCCACGTCATAGCCCAGTTCGTCCAGCGTCTGCATGATGATGCGGAACGTT +TTACCCTGGTCGTGACTTTTCAGGTTTTTGACGTTTTCGAGCACAAACATCGCCGGACGACGCGCGTCGA +TAATGCGTACCACATCAAAAAACAGCGTGCCCTGGGTATCGCAGGCAAAACCGTGCGCCCGCCCGAGCGA +GTTCTTTTTCGATACGCCAGCCAGCGAAAATGGCTGACAAGGGAAACCGGCCAGTAAAACATCGTGTTCA +GGAATGTGTTGACGAATATGTTCCGCCGCCGCCTCATCACTCACGCCTTCTTTATGGCTGAGGGTGATGT +CGCGGATATCTTCATTAAAATGATGCGTCGCCGGATCGCAATAATGGTTGGCTTTATAAGTGCGTACCGC +ATGTTTGTTCCATTCGCTGGTAAACACGCACTGTCCGCCAATCGATTCAAAACCGCGACGGATGCCGCCA +ATTCCGGCGAATAGATCGATAAAGCGAAACGCATAATGCGGATGATGTGCCGGTGGTTTGGGTAATAACG +TTTGCAGATGGGCGAACTCTTTCTCACTTAAACGGTGCCATGCCGAGTCATTCGCCAGCGCACGTTTTAA +AATTGCCGCGCTCCAGTGATTCTCACCTACACCATTAAGCTGCGCCACCAACGTTTTAACATCATAAATT +TGCAGCAGTTTCTCCAGCATTGCCTGTGCGGCATTCCCGGTGCTGTATGAATCGGTTACTGATATATTTT +CCTGCATAGATTTCACCGGCCATCTGAGATGGCCGACAGGTTAACATAATTACAGCCATTTAGGGCCACG +CGCTCAGCCAGCGGATGAAAACGCATCTATCACCTTGTGATCGACACCTTCATTCTCCCCCGCCAGTTCG +GCACTGAGCTTCGCCATAAACTCGACTAAAAAATGCGCGTTGTGCTGCGCCAGCTGCTTGCCTCTTGCGG +TTTGCATGGTTTGCGGTAGCTTCAGCAACTTAGTCTGGAAATGATCCAGCGCGTAGCGTTTATCATCAAG +CGGGCGATGCTGTGCGAACGGATCTTCACCATCAAACAGCGCCACGCCCAATGCCCCTGAAACGGCAAAC +ACGCGCGCCAGGCCAATCGCCCCCAGGGCTTCCAGCCGATCCGCATCCTGGACAATTTTAGCTTCCGTTG +TTAAGGGGGCGATTTGCGCGCTGAAACTGTGAGCGGCAATGGCATGACAAACGGCCTCGATTTTCTCCGC +CGGAAATTGCTCGAACTCTTCACGGAGCAGGCGACGCGTCTCTTCTGCCGCCAGGATTGAAGAACGCTGC +CTTTGCGGATGATTTTTCGCCAGGCTCACAATATCGTGAAAATAACAGGCGGTTAAAATCACCAGCATAT +CGACATCGTCATCTGCCGCCAGCTTCTGTGCCGTAGCCCAGACGCGGCGAAAATGACACACGTCATGGGC +CGCGTCCTGGTGCTGATGATGGTTTTTCAACCAGTTTTCGAACTGTGCCTGCCAGTGTTGTAAGTCCATA +CGCGCTCCGTTGCCAAAGAGTCGCCACCTTAGCAGTTTTTATTCATAGCGTCTGCTACGTGCGGGACGAG +GTCGGGTGTACCAGGCAATGCTGCCTAACAATGCCCCGACCAGAGCCATAAATAAAAATCCGACCAGTGC +CCCTAACCACTTTCCCGCGGTAGAGCCTAAATCGCTTTCAAATCCCGACACGGGGGCATCGGGAATCCGG +CTCATCACCCAGATGTAACGCGCCATTGCCCAGACGAAATAGCCACACCATGTATAGAAAGCCCACAAAG +CCAGTTTGCCGCCAGGGCTGCGAGAGAGTCTCTCTTCCATCTTTGTCGAACCGTATTCCATTTTGAGATA +ACCCGGAAAATTCAGACTTAGTACTATTATGTGATAAAAGTCACATTTTTCCACATTGGATGAGCCAGTC +AAGACTCAATCATTTTTTGAACAAATAGATAAATTTTGCGCAACGGCAGTGAATACAGGAAAAATCGTTT +TGAGCGATTTTATTTATCTTTGATATCGGCTTTATTAATTCATTTAATCAATATATTAGCACTGATTACA +ATTATACCTTTTTATTATTCTGTGTCATGATGCTTCCGTTATTAGCCTTTTATCGTCTTGTTTATATTTT +TTGGGCCGGCATGATGCCGGCTTTTTTTTATGCCTTCATTAATGTGCGCCTGATCACACCAGCCGTTTGG +CGCAACAATCATTGATACCCCCTATGTTTCCGCTCAACTCATAACATATTGATATACATTTATAATTTTC +ATGAATATTTATATTTAGAATTCATAATTATGAATTATATTAAATAGATTAGAAACATTTTGATATCTTT +TAAATACATTTGTTACATGTAATCCTTAAAATAAAATGAACTTCATAGAATAGTATCCAAATGTGCTTTT +TTTTGGATAACGGCACTTATTGATATATTCATGAAGATTATAATCACAAGGGAATACATAATGAAAAGAA +AAGTTCTGGCAATGCTGGTCCCGGCGTTATTAGTTGCTGGCGCAGCAAATGCGGCTGAAGTCTATAATAA +AGATGGTAATAAACTGGATTTGTACGGAAAAGTAGTGGGTCTGCACTACTTCTCTGATGATTCTGGCAGC +GATGGCGACATGTCATATGCCCGTATCGGTTTCAAAGGTGAAACTCAGATCGCTGATCAATTCACTGGTT +ATGGTCAGTGGGAATTTAACATTGGCGCAAACGGTCCTGAAAGCGACAAGGGTAATACCGCAACGCGTCT +GGCATTTGCAGGTTTAGGCTTTGGTCAGAATGGTACTTTCGACTATGGTCGTAACTACGGTGTCGTATAT +GACGTAGAAGCATGGACCGATATGCTGCCAGAATTTGGTGGCGATACCTATGCTGGCGCTGACAACTTCA +TGAACGGTCGTGCTAATGGTGTTGCAACCTACCGTAACAATGGCTTCTTTGGTTAGGTCGATGGCTTGAA +CTTTGCTTTGCAATATCAGGGTAATAATGAAAGTGGTGGACCATTCGGGCAGGAAGGTTCCGGTAGTGGT +GATGGCCGTAGCCTTTCCAAAGAAAATGGTGATGGTTTCGGTATGTCAACATCCTACGACTTCGACTTCG +GTTTAAGTCTGGGTGCTGCATATCAAACTCTGATCGTTCAGATCGTCAGGTTGGAGTTGGTTTAAATGAT +CGTAACCATAGCAACAGAAATGCTGGTGGTGAAACCGCTGAAGCATGGACTGTTGGTGCAAAATATGATG +CTAATAATGTGTATTTAGCAGCTATGTACGCTGAAACTCGCAATATGACCCCATATGGTGGTGGCGAGTT +TGATAATGGTGAATCAAGATCAGCCATCGCTAACAAAACCCAAAACTTTGAAGTTGTTGCTCAGTATCAG +TTCGACTTTGGCCTGCGCCCGTCCATCGCTTACCTGCAATCTAAAGGTAAGGATTTAGGCGGTTGGGCTC +ATGACGGCAACGGCGACCCACGTTACACCAATAAAGATCTGGTTAAATACGTTGATATTGGTGCGACCTA +CTACTTCAACAAAAACATGTCCACCTATGTTGATTACAAAATCAACCTGCTGGACAACGACGATGACTTC +TACGAAGCAAACGGCATCGCTACCGATGATATCGTTGCTGTGGGCTTAGTCTACCAGTTCTAATCAGTCA +ACTCGCTGCGGCGTGTTACTGTAAAACTGAACACTAGCCTGAGTTCGTCCCTCATCGAACTCAGGCTTTT +TTATTGGCATTTCATCTCCATCTGCGGCACACGCAATTGCCGAAGCATATCGATACAGCACCTTACCCTG +CCCCTCCTGGCACAATAACATCAACCAGCTACTCTTCAAGCTAACACCCAAATGCATTTCTTTATGAATT +AATCCGTAACAAACACGCTTCCCATATAGAAATATTTGCAAAAATAGTGCATGAAATAAGCTTTTTCTCT +ACCAATCCGGGATATAAATATTCATCAGCACCACAATATTCCACAGCACTAAATCTCTCCCCGCCACCCC +GTACCTCTGATAATGGTCTAAAATCATTGAAGCCACTTGCGACGACGTTGCTCAATAAGGAAAATTTGGC +GTGAATAATATTCAACACCAGTGCAGCATCATCATTACATACTTACAGCCGCCGACTACCGCTTTCGATA +TATTGACTCAATTTTCCAGCCTGGTTAAAAATAGCGACCAGCTCAGTCGCAAATATAGTGACTACCCTAA +CTAAGCAACAATAAGGAATACACTATGACTGTTCAAACAAGTAAAAATCCGCAGGTCGATATTGCTGAAG +ATAATGCATTCTTCCCTTCAGAATATTCGCTTAGCCAATATACCAGTCCTGTCTCTGATCTTGATGGCGT +GGACTATCCAAAACCTTATCGCGGTAAACATAAAATTCTGGTGATCGCCGCGGACGAACGTTATTTGCCG +ACCGATAACGGAAAACTGTTCTCGACCGGTAACCATCCGATTGAAACGTTGCTGCCGTTGTATCATCTCC +ATGCTGCAGGTTTCGAATTCGAAGTGGCGACCATTTCCGGTCTGATGACCAAGTTTGAATACTGGGCTAT +GCCGCACAAAGATGAAAAAGTAATGCCATTCTTTGAGCAGCATAAATCGTTGTTCCGCAATCCGAAGAAA +CTCGCGGATGTTGTTGCCAGCCTCAACGCTGATAGCGAATATGCAGCAATCTTTGTTCCTGGTGGTCATG +GCGCACTTATTGGTTTACCTGAAAGCCAGGACGTGGCTGCCGCTTTACAGTGGGCAATCAAAAATGACCG +TTTTGTTATCTCCCTTTGCCACGGCCCGGCGGCTTTTCTGGCGCTTCGCCACGGCGATAACCCACTGAAT +GGTTATTCCATTTGCGCATTCCCAGACGCCGCAGACAAACAAACGCCAGAGATTGGCTATATGCCGGGTC +ATCTCACCTGGTACTTCGGCGAAGAACTGAAGAAAATGGGCATGAATATCATTAATGACGACATCACCGG +GCGAGTACATAAGGACCGTAAACTTCTCACCGGCGACAGTCCTTTTGCAGCGAATGCGTTGGGTAAACTG +GCGGCGCAGGAAATGCTGGCAGCTTACGCGGGTTAATCCCTGTTACGTTTGAATGTAAGCGCATAATCAA +TCGCGGCCGCGTTAGTACTCACGACGTGGCTGCGTTTTTTCACGGTTAATTTATGGCGTACTGAAGCCCT +ATGTTAATTTCTTTGCGGTAACGTAATCCGGAACACATTATGCTTATTGAGATAGTGATACGTAGCACTT +CCCCCATGCAATTCGGCAATCGCTTTGACTAAAGAAAGGCCTAGTCCCTGACCTACGGAATGACGCGAAT +TATCTCCCCGCCAAAATCTACGGAAGAGTTTTTCAGGCTCATTAATTTTCGTTCCAGGGCTGGCGATATC +AATATTAAGATAGCTGTTGGTATCAAGAAAACTGGTTATATGAATACGCGATTTTTCTGGCGAATATCTA +ATGGCATTAACAATAAGATTCGATAACATTCGTTGTAGTAAAATTTTATCCGCAAAGATTTGCTGATTGC +ACTCGACCTTAAAGCAAATCTCTTTCTCGTCTGAAAGGTATTCAAGATAGTCCAACAAATTTTCGACTTC +CTTATTGAGAGAAAGCGAGTCCAGTTTCACCAAAACATTGTTTTTATCTGCCCTGGCAAGAAACAGTATG +TTCTCTGTTAACCGCGAAATATTTTCCAGCTCTTCAATGTTTCCGGCAATTGTTTTTTGATATTCAGCGA +TACTTCTGGTTTGACTGAGCGTAACCTGATTCTGACCCAGTAATGCATTAATTGGCGTTCTAAGTTCATG +AGCGAGATCGTCAGCAAACTGACTTAGACGCTCAAAATCTTTGACTAAAGCATGATGCATTTTATTCAAC +GCCTGCCCAAGAGGTTTTAGTTCTCTCGGTAATGCGCTAACCTCAACAGGCTCTCGGCTATCGTTATAAT +TCAGCGCTTCCGTTACACCACTCAACTTTTTGATCTCTCGTAATCCCGTTCTGATTAACAGCGGACTTAA +TACTGAGCAAAGTACAATGGCGACAATGCAAATTATAATGCTATTAATTTTATACTGTTCAAGCATGTTA +TGTCTGGCTGAAGCCAATTTAGCCACAGTAACCGTTAATGATGGCGAAACTTCATCAATATTAATTCGTA +AAGCATCTATCTCTGTATCATTAATAATGCTTCTGTAAATGCCAGCTGCGCTGATTGTCTCACTAGCAGG +TATGTTATTTAACATGCCATCACTGACATTTGTCCGGTTAACAATTTTATTGATGCTATCACCATGAATA +ATCAAGATATCCTGACTAACATCCATCATCCGGTTAAAGTACACAGGTAACGTATCTGGATTTACCCCAT +CAATTAACAACTGCTTGATCTGCGCTGTCCGGTTAATGAGTGTTGTATCATCGCGCCATTTCAACTCACT +TGCCAGGCCATTATAGAGAGTCCAGACAATTCCGGCGCCAGCAACAGACAGTAGCAATATAAAAAGCAAG +GTTAAACGGACGGTTATAGATAGTCTTTTCATTATTTTTTTACCGCTACGAATGAATAGCCCATCCCCCG +GATTGTGGCAATTAGCTTTTCAGGAAAAGGATCATCAACTTTTGCGCGGAGCCTGCGAATGGCGACGTCC +ACCGTATTGGTATCACTATCAAAGTTGATTCCCCAAATTTCACTCGCAATAACCGTTCTGGGTATAATTT +CGCCAGCTCTGGAGGCCAGTAGCCAAAGTAACTGAAACTCCTTGCGCGTCAGTGTAATACTGATATTGTC +CCTGCTCACACTATGACTAACAGAGTCCATTCTTAAGCCGCTGATTTCTAATGTTGAATTCAAAGCGTGA +TGTTGCCTTAATTGTGCCCGAACCCTTGCCAGCAACTCAGAAAATGAAAAAGGTTTTACCAGATAATCAT +TTGCCCCACTGTCCAGCCCTCTGACTCTGTCATCGACAGAATCCCTTGCAGTAAGGCAAATAACAGGGGT +TTGCTTTGCTGTTCTTAACGTTTGTAAGATCTGCCAGCCATCCATACCCGGAAGCATAATATCCAGAATG +ATCAATGCATAATCATCCTTCAGCGCAAGATAAAGCCCATCTCTGCCATCAGAAACGGCATCGATGACAT +AACCCGCTTCGGAAAGCCCCTGCGTTACCCATTCCTGGGTCCTTTGATTATCTTCAATAAGTAGAATCTT +CATGAAAATAATATGCCATAAATCATATGTTATAGAAACAGCCTGGTTCATTACAAAATTGTAATGCTGC +TGTAAGGTTACCCTGGACGCTTTTTCGCTATCCTCAAAACTCATTCACATGACAAGGATATAAACATGTT +AAAGCGTTATTTAGTACTCTCGGTAGCAACGGCAGCATTTTCATTACCTTCTTTGGTTAATGCCGCACAA +CAAAACATTCTTAGCGTGCACATTTTGAACCAGCAAACAGGAAAACCCGCTGCTGACGTGACAGTCACTC +TTGAAAAGAAGGCGGATAACGGCTGGTTACAACTTAATACCGCCAAAACAGATAAGGATGGACGAATTAA +GGCACTGTGGCCCGAGCAAACTGCAACTACGGGCGATTACCGTGTCGTATTTAAAACCGGGGACTATTTC +AAGAAACAAAATCTTGAAAGTTTCTTCCCTGAGATCCCCGTTGAATTTCATATTAATAAAGTGAACGAGC +ATTATCATGTGCCTTTATTACTTAGCCAATATGGGTATTCAACCTATCGTGGCAGTTAATGCATAAATAT +GTAAAAGCAGATCTCTGCTACTGTTAGGGAGGACACTCCCTGACAGATTAACAGTAAACGGCTCTTGCTG +GCTAACGACAAAAAAGTGTGATGGCTTATGAAAAAGAATCAATTTTTAAAAGAATCAGATGTTACGGCCG +AGTCGGTATTCTTTATGAAGCGTCGGCAGGTGTTAAAAGCACTGGGCATCAGTGCAACTGCACTTTCTTT +GCCTCACGCTGCGCATGCCGATCTGCTTAGCTGGTTTAAAGGGAACGATCGCCCGCCCGCCCCCGCCGGA +AAAGCGCTGGAGTTCAGCAAGCCTGCCGCCTGGCAAAATAACCTGCCACTGACGCCAGCAGATAAAGTTT +CCGGTTATAATAACTTCTATGAATTCGGGCTGGATAAAGCCGATCCCGCCGCTAATGCTGGTAGCCTGAA +AACCGATCCATGGACACTGAAAATCAGCGGCGAAGTGGCAAAACCATTGACCCTCGATCATGATGACTTA +ACCCGTCGCTTCCCGCTGGAAGAGCGTATTTATCGTATGCGCTGCGTGGAAGCGTGGTCGATGGTGGTGC +CGTGGATTGGTTTTCCGCTGCACAAATTGCTGGCGCTTGCCGAACCTACCAGCAATGCGAAGTATGTCGC +TTTCGAAACAATTTATGCACCGGAACAGATGCCAGGCCAGCAGGACCGCTTTATCGGCGGTGGGCTGAAA +TATCCTTATGTCGAAGGATTGCGTCTCGACGAAGCAATGCATCCGCTCACACTGATGACCGTAGGTGTTT +ATGGCAAGGCGTTACCGCCACAAAATGGCGCGCCGGTGCGACTGATTGTGCCGTGGAAATATGGCTTTAA +AGGGATTAAATCGATAGTCAGTATTAAGCTGACCCGCGAGCGTCCGCCAACCACCTGGAATCTGGCAGCG +CCTGACGAATACGGTTTTTACGCCAACGTTAATCCGTATGTTGATCACCCGCGCTGGTCACAGGCTACCG +AACGATTTATTGGTTCAGGCGGCATCCTCGATGTACAGCGCCAGCCAACGCTACTGTTTAATGGTTACGC +CGCCCAGGTGGCATCGCTGTATCGTGGCCTGGATTTGCGGGAGAATTTCTAAATGCGTCTGACAGCAAAA +CAGGTGACATGGCTGAAAGTTTGCCTGCATCTTGCCGGATTGTTGCCGTTTCTCTGGCTGGTCTGGGCGA +TCAATCACGGTGGACTGGGTGCCGATCCGGTGAAAGATATTCAGCATTTTACTGGTCGCACTGCACTGAA +ATTTTTGCTGGCGACCTTGTTAATCACCCCTCTGGCACGCTACGCAAAACAGCCGTTATTGATACGCACT +CGCCGCCTGTTAGGATTATGGTGCTTTGCCTGGGCGACACTGCATTTAACAAGTTACGCATTGCTGGAGC +TGGGCGTGAATAATCTGGCGTTATTAGGTAAGGAGTTAATTACCCGGCCTTATTTAACGTTAGGTATTAT +CAGCTGGGTAATTTTGCTTGCTTTAGCGTTCACTTCAACCCAGGCGATGCAGCGAAAACTCGGCAAGCAC +TGGCAACAGTTGCATAATTTCGTCTATCTTGTCGCGATTCTGGCCCCAATACATTATCTGTGGTCCGTGA +AGATTATTTCACCGCAGCCGCTCATCTACGCTGGGCTGGCTGTACTGCTTTTAGCCTTACGGTATAAGAA +GTTGCGTTCCCTTTTTAACCGGTTACGCAAGCAGGTTCACAACAAATTATCTGTATAACTTCATATTGCC +GACAAAGTACGCGTTATCCCTGCCGGATGTGGCGCGAGCGCCCTATCCGGCATACACAGATCGCATCAGG +TTATGTTTCGTTTGTCATCAACCTCAAATCACCAAAATAATTTATTTTATTTCAATAAGATAGATAAGTA +GAACTGAGAAAGCCATGCTCTCGTTTCCTAAGAGTTGTTGCATTTTGCTATATGTTACAATATAACATTA +CACATCATATACATTAACTCTGGAGGAAACTGTTTTGGCGATTCGTCTTTACAAACTGGCTGTTGCTTTA +GGTGTCTTTATTGTTAGCGCTCCTGCCTTTTCGCATGGTCATCACTCACACGGCAAACCCTTAACAGAGG +TCGAACAAAAAGCTGCTAATGGTGTTTTTGATGATGCCAATGTACAAAACCGAACGCTCAGTGACTGGGA +TGGAGTCTGGCAATCCGTTTATCCTTTACTGCAAAGTGGCAAACTTGACCCCGTCTTTCAGAAGAAAGCG +GATGCAGATAAAACTAAAACATTTGCTGAAATTAAAGATTATTATCACAAAGGTTATGCAACAGATATCG +AGATGATTGGCATTGAGGACGGCATTGTTGAATTCCATAGAAATAATGAAACAACATCGTGTAAATATGA +TTACGATGGATACAAAATACTCACCTATAAATCAGGCAAGAAAGGCGTTCGTTACTTATTCGAATGTAAA +GATCCTGAAAGCAAAGCCCCTAAATATATACAATTTAGCGATCATATAATTGCACCACGAAAATCATCTC +ATTTTCACATTTTTATGGGTAATGATTCACAGCAATCTTTATTAAATGAAATGGAAAACTGGCCAACGTA +TTATCCATATCAGTTGAGTAGCGAAGAAGTGGTCGAGGAAATGATGTCTCATTGAGTATTCTCATGATAA +CGCCTCGATGCCGCTTTAGTAAGTTATCATAACTGCCACTGGTCCATCCACAAACGCCACTGAACGCAAG +CTAGCTACAGACACGCTCATCACTATGACGTGTCTGTATATTAATAAGCTAACCCGCATTGAGTTAACCA +ATAACGGATTCCATACACAATACGGCCAACAGAGAAAGATACCTGTGCTCACGCCATTGCTTATATTGGC +TGGTTACAATATGCACTATCAATTTTTTAAATAACAAATTATTAAAACCACATCTGTATAAGGAATTTTT +AAGGTTCGTGGGATAGCTTGACTGTGAAAATCACAGGAGCTACAAAAATGAACCGATTCTCAAAAACTCA +AATTTATTTACATTGGATAACGCTGCTTTTCGTTGCAATAACCTATGCCGCGATGGAACTCCGTGGCTGG +TTTCCTAAAGGTAGTAGTACTTATCTGCTGATGCGAGAAACACATTACAATGCGGGTATATTCGTTTGGG +TGTTAATGTTTTCACGCCTGATTATAAAACACCGTTATAGTGATCCTTCTATTGTGCCACCGCCACCTGC +CTGGCAAATGAAAGCGGCTTCGCTAATGCACATCATGCTTTATATAACCTTCCTTGCACTTCCTCTGCTG +GGGATTGCTTTGATGGCTTACAGTGGAAAATCGTGGAGTTTCCTTGGTTTCAATGTGTCTCCCTTTGTTA +CCCCAAACAGCGAAATTAAAGCACTGATAAAAAATATTCACGAAACCTGGGCAAATATAGGCTACTTTTT +AATCGCAGCTCACGCTGGCGCAGCACTCTTTCATCACTACATTCAGAAAGATAATACTCTGTTACGAATG +ATGCCTCGCCGCAAATAAGTCGATCCCCTTACAAGGAAATGTGAACCATGGACATCAACGCGTCATAAAT +GTTTACGCAAGTGCACAATGCACCCTTTCCACTATCAACAAGGAGGAGCAGAAACTGTGTAAATCGTACA +ATGGTAAGACTTATCAAAAATACAGGTTAATTTTGGTATTTAAACCTTTTTTACTTGTTAGTATGATACA +AAGGCTTTCAAAAAAGCTGCGAAATTCAACAACTCTTGGAAATTATGGACTTTGTCCCGCGGCTTTAATC +TGACGGCCGCGTTCCTTTTTTGACTCAATTATTGAACCCTTCTCTACGCAACTTCAGTTCCCACCACCAA +CTTTGCGGCAGTTTCATAGGATGAATGTCTAAAAGAATAATGGTGAGCGATAAGAAAACGACTGAATAAC +TGCACATTTTCGCTCGAAAGCTTCCTGTCAGATCCATAGCGAATCAAGTGCTGAATGTCACAGTATCGAA +CAGAAAACAGTGACGATCTAACCCTTCAAGAATATTCTACGATTGTTCTGTTTAGGAAAAGCAAGGCGGG +AAGTCGGGAGATAAGTCATTGATAAAGTGGCGGAGAGAGGGGGATTTGAACCCCCGGTAGAGTTGCCCCT +ACTCCGGTTTTCGAGACCGGTCCGTTCAGCCGCTCCGGCATCTCTCCGTTCAGATGGTTGCCATGATGCC +AGGAAATTTGGCATTTTAACAGTCCCTGTCCGTGCAATTTTGTTCAAGTGACGAGTTTGCGAGCAAAACG +ATGATTAAGTGGCCCTGGAAAGTACAAGAATCAGCACATCAAACTGCCCTTCCCTGGCAGGAAGCACTAT +CGATCCCCCTTTTAACGTGTCTGACGGAACAGGAACAAAGCAAATTAGTCACTCTTGCCGAACGTTTTTT +ACAGCAAAAGCGGCTTGTTCCTTTACAGGGCTTTGAACTGGATTCATTAAGAAGCTGCCGGATAGCACTT +CTATTTTGCCTACCCGTTCTGGAGTTAGGACTGGAATGGCTGGATGGTTTTCATGAAGTCTTAATTTATC +CTGCGCCATTTGTGGTCGATGATGAATGGGAAGACGATATCGGTCTGGTGCATAACCAACGTATTGTTCA +GTCAGGTCAGAGCTGGCAGCAAGGGCCTATCGTTTTGAACTGGTTGGATATACAAGATTCTTTTGATGCT +TCTGGTTTTAACCTGATTATTCATGAAGTCGCTCATAAGCTGGACACCCGTAACGGCGATCGCGCCAGCG +GAGTTCCCTTTATTCCGTTGCGTGAGGTTGCTGGCTGGGAACACGATCTTCATGCTGCAATGAACAACAT +TCAGGAAGAAATCGAATTGGTTGGCGAGAATGCGGCGAGCATTGATGCTTATGCAGCCAGCGATCCTGCT +GAATGTTTTGCCGTACTTTCTGAATATTTCTTTAGCGCCCCAGAACTTTTTGCTCCTCGTTTCCCTTCAT +TGTGGCAACGTTTCTGCCAATTTTATCAACAAGATCCTTTGCAGAGACTGCATCACGCTAATGATACAGA +CTCGTTTTCGGCGACGAATGTTCATTAATTAACAACTTTGCAGATTAATTAACCAATTGAAATGACTTAT +GAAATTTAGTGTTGACAGACAAGGTACCGCTAAGTAATATTCGCCCCGTTCACACGATTCCTCTGTAGTT +CAGTCGGTAGAACGGCGGACTGTTAATCCGTATGTCACTGGTTCGAGTCCAGTCAGAGGAGCCAAATTCT +AAAAATTCGCTTTTTTAGCGCAATGTCACTGACCTTAGTTGAACATTGTTTTTTAACGGATAGCGGGTTT +TTAACATCTTAAGCGCCCTCGACCTTTATGGTTGAGGGCGTTTTGCTATGAACGCCATCACCATTTTCCC +CTCGATTATAAAACTTGAGTTATTCAGTAGTCTCCCCTCTTGCAACTCACACCCAAAACTGCCTAACGAA +AAGTTATTAATTTTCAATCATATTGCTATCAGTATTTACATTTTTTCGCTGTGCTAGAAAGGGCGCATTT +ATGTTAGCTCGTTCAGGGAAGGTAAGCATGGCTACGAAGAAGAGAAGTGGAGAAGAAATAAATGACCGAC +AAATATTATGCGGGATGGGAATTAAACTACGCCGCTTAACTGCGGGTATCTGTCTGATAACTCAACTTGC +GTTCCCTATGGCTGCGGCAGCACAAGGTGTGGTAAACGCCGCAACCCAACAACCAGTTCCTGCACAAATT +GCCATTGCAAATGCCAATACGGTGCCCTACACCCTTGGAGCGTTGGAATCGGCCCAAAGCGTTGCCGAAC +GTTTCGGTATTTCGGTGGCTGAGTTACGCAAACTCAACCAGTTTCGTACGTTTGCTCGAGGTTTTGATAA +TGTCCGCCAGGGTGATGAACTGGATGTCCCGGCACAAGTTAGTGAAAAAAAATTAACCCCGCCGCCGGGT +AATAGCAGTGACAACCTCGAGCAACAGATAGCCAGTACTTCACAGCAAATCGGGTCTCTGCTCGCCGAAG +ATATGAACAGCGAGCAAGCGGCAAATATGGCGCGTGGATGGGCCTCTTCTCAGGCTTCAGGCGCAATGAC +AGACTGGTTAAGCCGCTTCGGTACCGCAAGAATCACGCTGGGCGTGGATGAAGATTTTAGCCTGAAGAAC +TCCCAGTTCGATTTTCTCCATCCGTGGTATGAAACGCCTGATAATCTCTTTTTCAGTCAGCATACTCTCC +ATCGTACTGACGAGCGTACGCAGATTAACAACGGCTTAGGTTGGCGTCATTTCACTCCCACATGGATGTC +GGGCATCAACTTCTTTTTCGACCACGATCTTAGCCGTTACCACTCCCGCGCCGGCATTGGCGCGGAGTAC +TGGCGCGACTATCTAAAATTAAGCAGTAACGGCTATTTGCGACTGACCAACTGGCGCAGCGCACCTGAAC +TGGACAACGATTATGAAGCACGCCCGGCCAATGGCTGGGATGTACGCGCAGAAAGCTGGCTACCCGCCTG +GCCGCACCTTGGCGGTAAACTGGTCTATGAACAGTATTATGGCGATGAAGTGGCCCTGTTCGATAAAGAC +GATCGGCAAAGTAATCCTCATGCCATAACCGCTGGACTTAACTATACCCCCTTCCCGCTGATGACCTTCA +GCGCGGAGCAACGCCAGGGTAAACAGGGCGAAAATGACACCCGTTTTGCCGTCGATTTTACCTGGCAACC +TGGCAGCGCAATGCAGAAACAGCTTGACCCGAATGAAGTCGCTGCACGGCGTAGCCTTGCAGGCAGCCGT +TATGATCTGGTGGATCGCAACAACAATATCGTTCTGGAATATCGCAAAAAAGAACTGGTTCGCCTGACCC +TGACAGACCCCGTGACAGGGAAGTCAGGAGAAGTGAAATCACTGGTTTCGTCGCTACAAACCAAATATGC +CCTGAAAGGCTATAACGTCGAAGCCACCGCACTGGAAGCTGCCGGTGGCAAAGTGGTCACAACGGGTAAA +GATATTCTGGTTACCCTGCCGGCTTACCGGTTCACCAGTACGCCAGAAACCGATAACACCTGGCCGATTG +AAGTCACCGCCGAAGATGTCAAAGGCAATTTGTCGAATCGTGAACAGAGCATGGTGGTCGTTCAGGCACC +TACGCTAAGCCAGAAAGATTCCTCGGTATCGTTAAGTACCCAAACATTGAACGCGGATTCCCATTCAACC +GCCACACTGACTTTTATTGCGCATGATGCAGCAGGTAATCCTGTTGTCGGGCTGGTGCTCTCGACGCGTC +ACGAAGGTGTTCAGGACATCACCCTTTCTGACTGGAAAGATAATGGTGACGGAAGCTATACCCAGATCCT +GACCACAGGAGCGATGTCTGGCACGCTGACGCTGATGCCACAGCTGAATGGTGTGGATGCGGCTAAAGCC +CCCGCCGTGGTGAATATCATTTCTGTTTCGTCATCCCGAACTCACTCGTCAATTAAGATTGATAAGGACC +GTTATCTCTCCGGCAATCCTATCGAGGTGACGGTAGAACTGAGAGATGAAAATGACAAACCTGTTAAGGA +ACAAAAACAGCAACTGAATAACGCAGTCAGCATCGACAACGTGAAACCAGGAGTCACTACAGACTGGAAA +GAAACCGCAGATGGCGTCTATAAGGCGACCTATACCGCCTATACCAAAGGCAGTGGACTTACTGCGAAGC +TATTAATGCAAAACTGGAATGAAGATTTGCATACCGCTGGATTTATCATCGACGCCAACCCGCAGTCAGC +GAAAATTGCGACATTATCTGCCAGCAATAATGGTGTGCTCGCCAATGAGAATGCAGCAAACACCGTCTCG +GTCAATGTCGCTGATGAAGGAAGCAACCCAATCAATGATCATACCGTCACGTTTGCGGTATTAAGCGGAT +CGGCAACTTCCTTCAACAATCAAAACACCGCAAAAACGGATGTTAATGGTCTGGCGACTTTTGATCTGAA +AAGTAGTAAGCAGGAAGACAACACGGTTGAAGTCACCCTTGAAAATGGCGTGAAACAAACGTTAATCGTC +AGTTTTGTCGGCGACTCGAGTACTGCGCAGGTTGATCTGCAGAAGTCGAAAAATGAAGTGGTTGCTGACG +GCAATGACAGCGTCACAATGACCGCGACCGTCCGGGATGCAAAAGGCAACCTGCTCAATGACGTCATGGT +CACTTTCAATGTTAATTCAGCAGAGGCGAAACTGAGCCAAACCGAAGTGAATAGCCACGACGGGATCGCC +ACAGCTACGCTGACCAGTTTGAAAAATGGTGATTATAGGGTTACGGCCTCTGTGAGCTCTGGTTCCCAGG +CTAATCAACAGGTGAATTTTATCGGTGATCAAAGTACTGCTGCCCTGACCCTCAGTGTGCCTTCAGGTGA +TATCACCGTCACCAACACAGCTCCGCAATATATGACTGCAACCTTGCAGGATAAAAATGGCAACCCACTA +AAAGATAAAGAAATCACCTTCTCTGTGCCAAACGACGTCGCAAGTAAGTTCTCGATTAGCAACGGAGGAA +AAGGCATGACGGATAGTAACGGGGTTGCAATCGCCTCCCTGACCGGCACGTTAGCGGGCACGCATATGAT +CATGGCTCGTCTGGCTAACAGCAATGTCAGCGATGCACAGCCAATGACGTTTGTGGCGGATAAAGACAGA +GCGGTTGTCGTTTTGCAAACATCGAAAGCGGAAATCATTGGGAATGGCGTGGATGAGACAACTCTGACAG +CAACAGTGAAAGATCCGTCGAATCATCCGGTGGCGGGGATAACGGTAAACTTCACCATGCCACAGGACGT +TGCGGCAAACTTTACCCTTGAAAATAACGGTATTGCCATCACTCAGGCCAATGGGGAAGCGCATGTCACG +CTGAAAGGTAAAAAAGCGGGCACGCATACGGTTACCGCAACGCTGGGTAATAACAATACCAGTGATTCGC +AGCCGGTAACATTTGTGGCGGACAAAGCCTCGGCTCAGGTTGTCCTGCAGATATCAAAAGATGAGATCAC +AGGTAATGGCGTCGATAGCGCAACGCTAACTGCAACGGTTAAAGATCAGTTCGACAATGAGGTGAATAAT +CTTCCGGTAACATTCAGCTCAGCCTCTTCAGGACTCACCCTGACCCCGGGAGTAAGTAATACCAACGAGT +CTGGCATCGCGCAGGCCACTCTCGCAGGCGTTGCCTTTGGTGAGAAGACGGTTACTGCATCACTGGCTAA +TAATGGTGCCAGCGACAACAAAACTGTGCATTTTATTGGCGACACAGCGGCGGCAAAAATTATCGAGTTG +GCGCCTGTCCCAGACAGCATAATCGCCGGTACCCCGCAGAACAGCTCCGGCAGCGTCATCACCGCCACAG +TCGTTGATAATAATGGCTTTCCGGTGAAAGGTGTGACTGTGAACTTCACCAGCAACGCAGCGACAGCCGA +AATGACGAACGGCGGTCAAGCCGTGACGAACGAACAGGGTAAGGCTACCGTCACTTATACCAATACCCGC +TCCTCGATAGAATCAGGAGCGAGACCGGATACCGTTGAGGCCAGTCTGGAAAATGGTAGCTCCACGCTTA +GCACATCAATTAATGTCAACGCTGATGCGTCTACGGCACATCTCACCTTGCTACAGGCACTTTTTGATAC +AGTCTCCGCAGGCGAGACAACCAGTCTGTATATTGAGGTGAAGGATAATTACGGCAACGGTGTCCCCCAG +CAGGAGGTAACCCTCAGCGTTTCACCAAGTGAAGGCGTGACCCCCAGTAATAACGCTATATATACTACCA +ACCACGACGGCAATTTTTACGCAAGCTTTACCGCTACAAAAGCCGGGGTTTATCAATTGACGGCAACCCT +CGAAAATGGCGATTCGATGCAACAAACAGTGACCTATGTGCCGAACGTCGCGAATGCTGAAATCACGCTG +GCAGCCTCGAAGGATCCGGTGATTGCCGACAATAACGATCTCACGACACTAACAGCAACAGTCGCTGATA +CAGAGGGCAATGCGATAGCCAACACTGAGGTAACATTTACTCTGCCGGAAGATGTGAAGGCGAACTTCAC +GCTGAGCGATGGCGGTAAAGTGATTACTGATGCTGAAGGCAAAGCGAAAGTCACGCTGAAAGGTACAAAA +GCAGGCGCTCATACTGTTACAGCATCGATGACTGGCGGTAAGAGTGAGCAGTTGGTGGTGAACTTTATTG +CGGATACGCTCACTGCGCAGGTTAATCTTAACGTTACCGAGGACAATTTTATCGCTAATAACGTCGGGAT +GACCAGGCTGCAGGCAACAGTGACTGATGGAAACGGCAACCCGTTAGCCAATGAGGCGGTGACATTCACG +CTACCGGCAGATGTGAGCGCAAGCTTTACTCTCGGACAAGGCGGTTCCGCCATTACTGATATCAACGGCA +AGGCTGAAGTTACACTGAGCGGTACAAAATCCGGCACCTACCCCGTGACAGTTAGCGTGAACAATTATGG +TGTCAGTGATACGAAACAGGTGACTTTGATTGCCGATGCTGGTACCGCAAAACTAGCCTCCTTAACCTCT +GTATACTCATTCGTCGTCAGCACGACCGAGGGCGCAACCATGACGGCAAGCGTCACTGACGCTAACGGCA +ACCCGGTAGAAGGCATAAAAGTTAATTTCCGCGGAACCTCCGTCACGCTAAGCAGCACCAGCGTTGAAAC +GGATGATCGGGGTTTCGCTGAAATTCTTGTGACAAGCACCGAGGTCGGACTGAAAACAGTTTCAGCCTCT +CTGGCAGATAAACCTACTGAAGTCATCTCGCGATTACTGAATGCCAGTGCAGATGTTAATTCTGCGACGA +TTACCAGTCTGGAGATACCGGAAGGTCAGGTAATGGTCGCACAAGACGTAGCAGTTAAAGCTCACGTTAA +CGACCAGTTTGGCAACCCGGTTGCGCATCAACCCGTGACATTCAGTGCAGAGCCATCCTCGCAAATGATC +ATCAGCCAGAATACGGTCTCTACTAATACGCAGGGTGTAGCCGAGGTCACCATGACGCCCGAAAGAAACG +GTTCGTATATGGTGAAAGCATCCCTGCCGAATGGAGCCTCACTTGAGAAACAACTGGAGGCTATTGATGA +AAAACTGACACTCACGGCGTCCAGTCCGCTTATCGGTGTCTATGCCCCTACAGGCGCTACTCTGACGGCA +ACGCTAACCTCTGCAAATGGCACTCCAGTGGAGGGTCAGGTCATCAACTTTAGCGTAACGCCAGAAGGGG +CGACGTTAAGTGGCGGAAAAGTGAGAACTAACTCTTCAGGTCAGGCTCCAGTCGTTTTGACCAGCAATAA +AGTCGGTACATATACGGTGACTGCATCTTTCCATAACGGCGTAACAATACAGACACAGACAACCGTGAAA +GTCACTGGCAACTCAAGCACCGCCCATGTTGCTAGCTTTATCGCTGATCCATCGACTATCGCCGCCACCA +ACACTGATTTAAGTACCTTAAAGGCAACGGTTGAGGATGGCAGTGGTAACCTGATCGAAGGTCTCACTGT +GTACTTCGCCTTAAAAAGCGGCTCTGCCACATTAACGTCATTAACAGCGGTGACCGATCAAAACGGAATC +GCGACAACAAGCGTGAAAGGAGCGATGACAGGTAGCGTCACGGTAAGCGCAGTCACGACCGCTGGTGGAA +TGCAAACAGTAGATATAACGCTGGTGGCTGGCCCGGCAGACACCTCGCAGTCCGTCCTTAAGAGCAATCG +GTCATCACTGAAAGGGGACTATACCGATAGTGCTGAATTACGTCTTGTTCTGCACGATATATCAGGCAAT +CCGATCAAAGTTTCTGAAGGGATGGAATTTGTGCAATCAGGTACTAACGTGCCCTATATAAAAATTAGCG +CAATTGATTACAGTCTAAATATCAACGGTGATTACAAAGCCACTGTTACAGGAGGCGGAGAGGGTATCGC +AACGCTGATCCCTGTATTGAATGGTGTTCATCAAGCTGGTCTGAGTACCACAATACAATTCACTCGCGCA +GAAGACAAAATAATGAGCGGTACAGTATCAGTCAATGGTACTGACCTACCGACAACTACATTCCCTTCGC +AGGGGTTCACCGGGGCGTATTATCAGTTGAATAATGACAACTTTGCCCCAGGAAAAACGGCGGCTGATTA +TGAGTTTTCAAGCTCTGCCTCCTGGGTCGATGTTGATGCTACCGGTAAAGTGACATTTAAAAATGTCGGC +AGCAATTCGGAAAGGATTACGGCGACGCCAAAATCAGGAGGCCCTAGCTATGTATACGAAATCCGTGTGA +AGAGTTGGTGGGTGAACGCCGGCGAGGCTTTCATGATATACAGCCTTGCTGAAAATTTTTGCAGCAGCAA +TGGCTACACGCTCCCCAGAGCAAACTATTTAAACCACTGTAGTTCCCGAGGCATCGGGTCACTGTACAGT +GAATGGGGAGATATGGGGCATTACACGACTGACGCTGGTTTTCAATCAAATATGTATTGGTCATCTAGTC +CCGCAAACTCAAGCGAACAATACGTAGTTTCCCTGGCAACAGGTGATCAAAGCGTATTTGAAAAGCTTGG +GTTTGCTTATGCGACATGTTATAAAAACCTGTGATTTTCCGTTATAATTTCTTAAAGAGTGTTCCATTCG +GGGCACTCTTTTTTACATTCCCTCTACAGAACTAGCCCTTCTCTCACAGAAAATGAATAAATAAAAATGC +GGCACCGCCAGAATCGCGTTCGATGTGACTATGATCATTTTCGGTGAGTACTGCTTTGATCTAAAGGCTG +GTTTTCTGTGATGATTGACCAGCCTCAGAGTATTGATGACACCACCGTTCATAACAGATCGGCATTACTA +TGCATAAGTACTGTCTCATATTCTCGCCAAAACACTTTTTAATGCCTTTGCGAATTCATCCAGACTTATA +TTGTCAATTTTTTGCCCAACGACGACTGACTCCGAGACATCGGCCATTGCGGGCCATCGCGTTTTGTAAT +CAGCATAAATTGCAACAACAGGGGTATTATAGGCACTTGCCATATGTAATATTGAGGTGTCAGGAGTTAT +TGCGATATAAGCATCTTTTATGATTGCTGCTGAACGTTTAATCGAGGGTGGTAAGGATAAACGGTAGACA +TTATTATAACAATCCACTAATGCCCTGGCTTTATCTTCACCTTTGGGTCCATGAACGATCACTATTGGTA +TATCTGTTTCACTTTAAATTTTTGCTATTAGATTTTCTGCAATCGATAATGAAAATGTACGTTCCTGCGA +GCTACCTTCTAAATTGAACGCAATGTAAGATCCTAACGATCGCATTTCCTCGCGCACCTCATCGAGTACA +TCCTCACTTAGTGGCAATTCATATATTGGCCTGACTGCTGGAAAACCCGCCTCACGCATCATAAATGCCC +ATGTCATAGGTACGGGAGCCCGGAGTTTCTGATCCATACTGGACGCGTTCTTGCACAAAGGGGAGAAGCA +ATTCATGGTTATACCAACAACCTGAAAATTCGTTTTTGCTTTCAACTGACTGATAAATAACATCGTTTTC +AGGTTCTTTTTACGCATCCCCTCAATGCAAAGATCCGGCGTACCGTATTGCTGTGTTATGTTCTTTGCTA +AATCTTTTATTTCTTTTAATGTTGCGTGATCCTGCATAGTCATTGTGACTAATGTTAATTTAGTCTGTTC +AAGTTTAAGCGCATTAAAGACTTCTAAATTAATTGTCGACGTTACAATTAAAAGATGCTTAATTTTATGC +AATTCAAGCGCCCGAATAACAGGAAAGATGGCCATAGCATCGCCAATCTGATCGGGAATATGGATGACAA +CAAAGTCTGTTTTTTCAATATTGAAATTATAAGCTTTATAATCGTAGTAACTAAATGCAATACGTCTCAA +CAATGATGCTAAAAACATACCTAACCTCGCCTCCCTACTGGTTATAATGCAATGCAGTCTATCAGACTCA +TCAGGGTGCCATTTTGTGCATATGCGGACTTTTATGTTTCATATCTCTAACCTGTGGGTCCTCTGCTTAA +TCCTTAAACAACACCAGCAACTCCTGCGCTTTCATCTTCCATCGAATTTTTCATGTTGCCGCTAATCAGC +CATAAAATCATTTGCAGATGCGCTCTGTCGAGGTAGTCTCATAAGGTTCGTTTATAGATCGACGGCAATG +TGAGTTACCTTTTCCATACTAATTATAAAAAGACAGTACAAACAGGATCATTATGGACTCCACGCTCATC +TCCACTCGTCCCGATGAAGGGACGCTTTCGTTAAGTCGCGCCCGACGAGCTGCGTTAGGCAGCTTCGCTG +GTGCCGTCGTCGACTGGTATGATTTTTTACTCTATGGCATCACCGCCGCACTGGTGTTTAATCGCGAGTT +TTTCCCGCAAGTAAGCCCGGCGATGGGAACGCTCGCCGCATTTGCTACCTTTGGCGTCGGATTTCTTTTC +CGTCCGCTCGGCGGTGTCATTTTCGGTCACTTTGGCGACCGACTGGGACGTAAGCGCATGTTAATGCTGA +CCGTCTGGATGATGGGCATCGCGACAGCCTTGATTGGTATTCTTCCTTCATTCTCGACCATTGGGTGGTG +GGCACCTATTTTGCTGGTGACACTGCGTGCCATTCAGGGATTTGCAGTCGGCGGCGAATGGGGAGGCGCG +GCGTTGCTTTCCGTTGAAAGTGCACCGAAAAATAAAAAAGCCTTTTACAGTAGCGGTGTACAAGTTGGCT +ACGGTGTAGGTTTACTGCTTTCAACCGGACTGGTTTCATTGATCAGTATGATGACGACTGACGAACAGTT +TTTAAGCTGGGGCTGGCGCATTCCTTTCCTGTTTAGCATCGTACTGGTACTGGGAGCATTGTGGGTGCGC +AATGGCATGGAGGAGTCCGCGGAATTTGAACAACAGCAACATTATCAAGCTGCCGCGAAAAAACGCATCC +CGGTTATCGAAGCGCTGTTACGACATCCCGGTGCTTTCCTGAAGATTATTGCGCTACGACTGTGCGAATT +GCTGACGATGTACATCGTTACTGCCTTTGCACTTAATTATTCAACCCAGAATATGGGGCTACCGCGCGAA +CTTTTCCTTAATATTGGTTTGCTGGTAGGTGGATTAAGCTGCCTGACAATTCCCTGTTTTGCCTGGCTTG +CCGATCGTTTTGGTCGCCGTAGGGTTTATATCACAGGTACGTTAATCGGAACGTTGAGCGCATTTCCTTT +CTTTATGGCGCTTGAAGCACAATCTATTTTCTGGATAGTTTTCTTCTCCATAATGCTGGCAAACATTGCG +CATGACATGGTGGTGTGTGTGCAACAACCGATGTTTACCGAAATGTTTGGTGCCAGTTATCGCTATAGTG +GCGCTGGAGTCGGTTATCAGGTTGCCAGTGTGGTTGGCGGTGGATTTACACCTTTTATTGCCGCTGCACT +CATCACTTACTTTGCCGGGAACTGGCATAGCGTCGCCATTTATTTGCTGGCTGGATGCCTGATTTCCGCA +ATGACCGCTTTGTTGATGAAAGACAGTCAACGCGCTTGATAGCCTGGCGAAGATCATCCGATCTTCGCCT +TACACTTTTGTTTCACATTTCTGTGACATACTATCGGATGTGCGGTAATTGTATGGAACAGGAGACACAC +ATGAATAATAAGGGCTCCGGTCTGACCCCAGCTCAGGCACTGGATAAACTCGACGCGCTGTATGAGCAAT +CTGTAGTCGCATTACGCAACGCCATTGGCAACTATATTACAAGTGGCGAATTACCTGATGAAAACGCCCG +CAAACAAGGTCTTTTTGTCTATCCATCACTGACCGTAACCTGGGACGGTAGCACAACCAATCCCCCCAAA +ACGCGCGCATTTGGTCGCTTTACCCACGCAGGCAGCTACACCACCACGATTACTCGCCCTACTCTCTTTC +GTTCGTATCTTAATGAACAACTTACGTTGCTGTATCAGGATTATGGTGCGCATATCTCAGTGCAACCCTC +GCAGCATGAAATCCCTTATCCTTATGTCATCGATGGCTCTGAATTGACACTTGATCGCTCAATGAGCGCT +GGGTTAACTCGCTACTTCCCGACAACAGAACTGGCGCAAATTGGCGATGAAACTGCAGACGGCATTTATC +ATCCAACTGAATTCTCCCCGCTATCGCATTTTGATGCGCGCCGCGTCGATTTTTCCCTCGCACGGTTGCG +CCATTATACCGGTACGCCAGTTGAACATTTTCAGCCGTTCGTCTTGTTTACCAACTACACACGTTATGTG +GATGAATTCGTTCGTTGGGGATGCAGCCAGATCCTCGATCCTGATAGTCCCTACATTGCCCTTTCTTGTG +CTGGCGGGAACTGGATCACCGCCGAAACCGAAGCGCCAGAAGAAGCCATTTCCGACCTTGCATGGAAAAA +ACATCAGATGCCAGCATGGCATTTAATTACCGCCGATGGTCAGGGTATTACTCTGGTGAATATTGGCGTG +GGACCGTCAAATGCTAAAACCATCTGCGATCATCTGGCAGTGCTACGCCCGGATGTCTGGTTGATGATTG +GTCACTGTGGCGGATTACGTGAAAGTCAGGCCATTGGCGATTATGTACTTGCACACGCTTATTTACGCGA +TGACCACGTTCTTGATGCGGTTCTGCCGCCCGATATTCCTATTCCGAGCATTGCTGAAGTGCAACGTGCG +CTTTATGACGCCACCAAGCTGGTGAGCGGCAGGCCCGGTGAGGAAGTCAAACAGCGGCTACGTACTGGTA +CTGTGGTAACCACAGATGACAGGAACTGGGAATTACGTTACTCAGCTTCTGCACTTCGTTTTAACTTAAG +CCGGGCCGTAGCAATTGATATGGAAAGTGCAACCATTGCCGCGCAAGGATATCGTTTCCGCGTGCCATAC +GGGACACTACTGTGTGTTTCAGATAAACCGTTGCATGGCGAGATTAAACTTCCCGGCCAGGCTAACCGTT +TTTATGAAGGCGCTATTTCCGAACATCTGCAAATTGGCATTCGGGCGATCGATTTGCTGCGCGCAGAAGG +CGACCGACTGCATTCGCGTAAATTACGAACCTTTAATGAGCCGCCGTTCCGATAATAAGTTCTGAACCTT +CTTATCAGAAATAGATGTGAAGGAGTAAGTAAGACACCTGGCAAATAGCCTGCAATAATCGTGGGCTGTT +TGCTTCCTTGGGCGGATACGAGTTTTATTATCGTCTTAATGATTTCCACATATTAAAAGCAAGTATGCTT +TCAAAACACAATTATAAAAAATCCCGCCAACAATATAAGTTTTTATAAAATTAAATATAAGATTATGGCT +TTAGAATATTTTTATTTCTAATAGACGAGATTTTTCCTGTTATGATATAATATGCTGAATTAACACATGT +TAACGATTTACCAGTAATGTAAATAAATTTTCGAGGAGATCATTCCAGTGGGACGTAAATGGGCCAATAT +TGTTGCTAAAAAAACGGCTAAAGACGGTGCAACGTCTAAAATTTATGCAAAATTCGGTGTAGAAATCTAT +GCTGCTGCTAAACAAGGTGAACCCGATCCAGAATTAAACACATCTTTAAAATTCGTTATTGAACGTGCAA +AGCAGGCACAAGTTCCAAAGCACGTTATTGATAAAGCAATTGATAAAGCCAAAGGCGGCGGAGATGAAAC +GTTCGTGCAGGGACGTTATGAAGGCTTTGGTCCTAATGGCTCAATGATTATCGCCGAGACATTGACTTCA +AATGTTAACCGTACGATTGCTAACGTTCGCACAATTTTCAATAAAAAAGGCGGCAATATCGGAGCGGCAG +GTTCTGTCAGCTATATGTTTGACAATACGGGTGTGATTGTATTTAAAGGGACAGACCCTGACCATATTTT +TGAAATTTTACTTGAAGCTGAAGTTGATGTTCGTGATGTGACTGAAGAAGAAGGTAACATTGTTATTTAT +ACTGAACCTACTGACCTTCATAAAGGAATCGCGGCTCTAAAAGCAGCTGGAATCACTGAGTTCTCAACAA +CAGAATTAGAAATGATTGCTCAATCTGAAGTTGAGCTTTCCCCAGAAGATTTAGAAATCTTTGAAGGGCT +TGTTGATGCCCTTGAAGATGACGACGATGTACAAAAAGTTTATCATAACGTCGCAAATCTCTAATTATCT +TTTAAAGAAATCTGTCTTTACGGCAGATTTCTTTAATCTCATATAATTCTTATAAAAAATATAATATTCA +ACTCGTCATATTGATTATACCCCCCCGTTCCCAGAGAAATAATATTTATTAAAATTCCAGTTCTTCTTTT +TCTGATTACAGAAGGCAAAGTGGCAATTACGCATAGTTTCCCGATAAAGACGCGATAGCGACATCCCGCA +TAAGGCATTTTTCTCTTTATCTTTGTACGGTACTTCATGGAACAGAGTTTTTGACCTTGCGAATCGTGAT +GTCTGTTGGGGAGGGACAATTTGCTCACTGAAGCGTGAGACTCGATTAAGCGCACGAAACACAGAAATCA +AAAAACCCGGTCACTTTTTTACAAGGTAACCGGGTAAAAATAATTTTTATTTTTTAACTGTTTTGAGACT +CATAGAGATGTCTCAAAACTAAAATTTGGCTCCTCTGACTGGACTCGAACCAGTGACATACGGATTAACA +GTCCGCCGTTCTACCGACTGAACTACAGAGGAATCGTGAGAACGAGGCGAATATTAGCGATGCCCACCCA +CAATGTCAAAGCCTGTTTTTTAAATTTGAAATCGTTTGCTGAAATAATCTGCATTTTGTCGTTTATTCCG +ACACAACTGGCTTTTTTTCACACTTTTGCGGCTCGGGTCGAGGGTATTTCCATAGCCAACGTCCAGTAAC +CATTCGCCAGTAAAACAGCACGGCCCGCACAGCCCAGTCGGCAAACATTCCCATCCAGACACCAACCACA +CCCCAGCCAAGCATGATTCCCAGCACATAACCGACTACAACCCGACAACCCCACATGCTCAACATCGAAA +CCCACATGGCGTAACGGGCATCACGAGCACCTTTAAATCCAGCGGGTAGCACCCATGAGGCGGACCAAAT +AGGCATAAATAAAGCATTTAGCCAAATCAGAATCACAACGACATGTTTAACCTGTGGATCCTGGGTGTAA +AACGATGCCATAACCCCGGCAAAGGGAGCCGTTAGCCAGGCGATGGCCGTTAATCCAAGAGTGGAAAGCC +AGAACACATGCCGCAACTGAATCTCTGCTTGCGCTATCTGCCCTACCCCCAACCTTCGGCCTGTAATGAT +CGTAGAAGCAGAGCCGAGCGCACTTCCGGGTAAGTTGATAAGAGCCGCAATTGAAAACGCGATAAAATTT +CCGGCAATAACACTGGTCCCCATCCCGGCAACGAACATTTGGGTTAATAACCGACCACTGGTAAATAACA +CTGATTCGACACTCGCGGGAATACCAATCCCCATGACTTCCCAGATAATGCTAAAATTCAGCGGTTTAAA +ATAGCTCTTTAACGAAATCCTTAGCGCAGGATTAAAACCAATCGCCAGCACCCACAAAATTGCAACTGCG +CCAATATAACGAGAAATGGTTAAACCCAGCCCTGCCCCGACAAATCCCAGTCCCGGCCAGGAGAAAAGGC +CGTAAATCAATATGCCGCTAATAATAATATTAAGAATATTCAGGCTACCGTTAATCAATAGCGGTATTTT +CGTATTCCCTGCACCACGAAGTGCCCCGCTACCAATAAGAGTGATGGCAGCTGCTGGATAACTGAGTACC +GTCAGCTCCAGATAAGTCAACGCCAGTGCTTTAACTTCTGTCGTGGCATCACCCGCGACGAAATCAATAA +TTTGTTCGCCAAAATGATGAATAAGCGTTGCCAACAGTACGGCAAACAACGTCATGATCACCAATGACTG +CCGCGTCGCCACCCTCGCTCGTCGTCGATCCCGCTTACCGAGACTAAATGCCACAACGACAGTAGTACCA +AGATCGATAGCAGCAAAAAAAGCCATAATGACCATATTGAAGCTGTCCGCCAATCCCACGCCGGCCATCG +CATCTTTTCCCAGCCAGCTGACCAGAAAAGTGCTCAGAACCCCCATCAACAGGACACAGGCATTCTCCAT +GAAGATAGGAACAGCAAGCGGGGTTATCTCGCGCCAGAACAACACTTTGTAGCTCTTGCGTTTAGCGTGC +CAGCGAGTGCCGTGAACAACCTGGCGTAAAGCAGAGGAGATATTCAAAGCCGACCTTAATTGCAGAAAGT +GAAACCACATTTCAAATAATGAGGGAGAATCAGCAAAGCTGCAAAGATTTTCGCCAACAAATTGTCTGCA +AATGCAACAAACTGTTGATAGAAACGGCAAACAGTTGGGGAATTTAAAAATCGGGTTTGACAAAAGATTT +TTCGCCGTTAAGATGTGCCTCAACAACGATTCCTCTGTAGTTCAGTCGGTAGAACGGCGGACTGTTAATC +CGTATGTCACTGGTTCGAGTCCAGTCAGAGGAGCCAAATTCCTGAAAAGCCCGCTTTTATAGCGGGATTT +TTGCTATATCTGATAATCAATTTCCTCTTCACTGCTTTCCATCACCTGCCGCTTGATATCCTCAACTGAC +AGTCCTGCATTACAAAGTTCCAGAAAGCGCCAGACATAGTTACGCTGAAGTTGTCCTCGCTTCAGTCCCA +ACCAGACAGTATTAGCATCAAAAAGATGCCGCGTATCCAGGCGGATTAAATTCTCTTCCTCTTGTTCGCC +ACTGGATTGCTCGGCAACTAATCCGATCCCAAGCCCAAGAGCAACATAGGTTTTAATGACATCAGAATCC +TGCGCACTTAATACAATATCTGCCAGCAAACCTTTGCGGGCAAATGCGTCATCAATACGTGAGCGCCCCG +TAATCCCCTGTCGGTAAGTGATTAACGGCCACTTCGCTATTGATTCCAGCGTCAATGGTGAAATTTGCGT +CAAGGGATGATCGTGTGGAACAAGCAAACTATGGTGCCAACGAAACCACGGGAAGGCGACGAGCTGCGGG +TCATTACTCAAACGCTCGCTGGCGATACCAATATCAGCTTCGCCATTTTGCAACAATGTCGCAATTTCCT +GTGGCGTCCCCTGGATTAGCTCGAGCCGAACCTCCGGGAAAAGTTCGCGAAAAGCTTTAATGACCTCTGG +CAAGCTATAACGTGCCTGAGTATGCGTCGTTGCAATAGTGAGAACGCCAGACGTATCGTTGGTAAACAGG +TCTGCAAGCCGACGAACATTACTGGCTTCATTCAGAATACGTTCTGCAATGACCAGTAATGCTTTGCCCG +GTTCAGTCATGCCCAGCAGTCGCTTACCTCGTCGAACAAATATTTCGATGCCAAGTTCATCCTCCAGTTC +CCGAATATGACGGCTGACGCCTGACTGTGAGGTAAAAAGCATATTCGCAACCTCTGTCAGGTTGTAATCC +TGACGTGCAGCCTCGCGGATTATCTTTAGTTGTTGGAAATTCACGGTAAACTCCGGGCAGTTCAGATTTC +CCGTTATTGTTAAAGTCTAATGCCCGGCATAACAAATAATAAAAACCCGCATCTTATTCCATCCCGATAT +AACACTTAGCTCACCAATTGCCACTGCCTTTTTTCCATCACTGGAGAACTAATCACTGACATTAACAACT +CTTTCACTGCCTGTGCCTGTGGCGATAAGTTCGCTCTGGCGGGTAAATTTAATGACAAAGAGAGACTCAT +GGAAGGAGTGGTAATGCGTGACATCCACCCATTTACTGCGCCACATAACGAACGCGCGGCCGATTCGGGT +AATACTGCAACGCCCATGCCGCTGGCAATCGCTGCGGTAAGCGTGGCAATAGACTCAATTTCACCAATAA +CTTTTGCCGTGAGTCGCCGTAGGGAAAAAGCCTCATCAACACGAAGTCTAATAGCACTGTAATCACTGGG +GAGAAAGAGGTTCATTTGCGCAATAGCATTCACATCAACGCTTTGCCCCGGGCAATCTTGAGTTCCTACC +AGAAAAAGATCTTCTTTCAGCAAAGCCTGACTGGATACACCAGCCACAGGGGAATGCTCATAAATCACCG +CCATATCGAGTTGGTGATTTATCAATTTTTCGTTAAGCACTGCACCACTATTTTCATGAAGATAGATAAC +GATCTCCGGAAATTCAGCGCGAACCGCCTGTAATAAGGGCATGGTGATGGATGACGCAGCGGTTCCTGGT +GCAAAGCCAATCGAGACTTGCCCCGATAATGCCTGACCAACGTTATGCACCGCCAGTTGGGCCTGTTCAC +ACTGACGTAAAATGGCCCGCGCATGGGTATAGAGAATTTTTCCGGCGTCTGTTGGTGTAACGCCCCGCTT +TGTACGGATCAAAAGTTGTTGATTTAACTCACCTTCCAGTGTGGCAACCTGCTGGCTGAGCGCTGGTTGT +GCGATATGCAATACTTCAGCAGCCTGGGTCAGGCTACCAATATCTACAATTTTTACGAAGTATTTCAGGC +GTCTGAAGTTCATGTTGCCTCCGGTTTTTAAGAATCGGCCCAAGTGCCGCCATTACTTACAACCAGATTG +CAAGATGCTTGCCAGTTTTATTTTGGTGTTGATGTACAAGCTAACCAACTGTCAAATAAGAGATTATGAT +AGATTCGTCATTTGCTCCTTTAATCAGCTGTCGCGTTCCCCTGCCCTATAAAAGGAGGGTATGCACCACG +ATGGTTCATTACCCAATAAGATTGAAAGCTCACCACTTTGTTGAAATTGACAGCAAACAAACAAAAAAAT +GCATTTCACCCTTTGACATCACCATGCACTGCCATTAATATGCGCCCCGTTCACACGATTCCTCTGTAGT +TCAGTCGGTAGAACGGCGGACTGTTAATCCGTATGTCACTGGTTCGAGTCCAGTCAGAGGAGCCAAATTC +AAAAAAGCCTGCTTTCTAGCAGGCTTTTTGCTTTCTAATTACCAACGCTCTTAAAACATCTGTCTTGAAC +CAGAACTAATTTGCACAGGCATTCCCGATCGACGTTGCAACGCAGCATTTGCGCGATTTACATCAACTTC +TTGCCCGTTGATAAACGCCCGCAAAGATGGGGTTACCGGCAATGGCACTTTTCGGTCAGACTCATATTCT +GCACGATTGCGCGACAATGGCTCATGAACTTCCAGCCAGTTCGAGCCATCTGGTTCAGTGGTGTATTTTA +CTGGCTGGTCGATAATTTGCACACGCGTCCCAACAGGAACATTATCAAACAGATATTTGATATCGTCATT +GCGCAGACGAATACAGCCCTGACTTACCCGGAGCCCAATACCAAAATTGGCATTGGTACCATGGATGGCA +TACAACCTGCCAATATAAATCGCGTACAGCCCCATGGGATTATCGGGGCCCGCAGGAACAAATGCGGGCA +AACTCTCCCCTCGTTTCGCATATTCGCGCCGAGTGTTCGGCGTTGGCGTCCAGGTTGGAGCTTCTTGTTT +ACGTTCAACGGTAGTCACCCAGTTACGCGGGGTTTCTCGCCCAGCCTGGCCGATACCAATAGGAAAGACT +TCCACAGTATTACTGTCTGGTGGGTAGTAATAAAGACGCATCTCAGCGACGTTAACAACAATCCCTTTAC +GAACAGTGTCGGGCAAAATCAGTTGCTGCGGAATGGTGAGTTGCGAGCCAGACTTCGGCAAAAAAACATC +AGCGCCCGGGTTCGCTTCCAGCATGTTACTTAACCCTTGCCCGTATTGTGCGGCAAAAGTCTCCAGCGGC +TGGGTATTGTGATCAGGAACAGTTACAGTAAACGACTGCCCCACTAAACGGCTACCCTCTGGAGGTAATG +GATAAGTTACCGCCAGGCTAGTATGGCTGGCAAAAAGCAGAGCAAATGAGCAAAGAATATTTACACGACG +CATCATGTCCCTTTCCTATGTCGCGAAAGCTATCCGTTAAGTATAGCTTTTATCAGACTTTTCGTTTTTA +ACTGTTCAAATCAGAAGTCGTATTCCCCGGTAGAACAATATTACTGGCAGCAAGTTCGCCCATGTTGTTG +TATATCGCACAGGCAGCTTCGATGATGGGCATCGCCAGAGCTGCGCCACTCCCCTCACCTAAACGCATCT +CCATATTGAGATAAGGCTCCAGCCCCAAATGCGAGAGCGCTATACGCGCGCCTTTTTCTGCCGACAGGTG +AGAAGGAATGAGATACGGTTTGATCGCAGGAGACATCTGGCAGGCTGCGAGCGCAGCAGCATAAGAAAGA +AATCCATCCAGCAACACGGGTAAACCGCAGGAAGCAGCACCTAACATCACTCCAGCTATTCCGACCAAAT +CAAATCCACCCACTTTTGCCAGGACATCAACACCATCCTGAGGATTTGGTTGATTCAACGTAATCGCCCG +ACGCACAACATCAATTTTATTAGCCAGTTTATCTGTCGGCAGGTTTGCGCCAATCCCAACCACTTCTTCA +GGATCCCGGCCAGTGATTGTGCTGACTATTGCTGCTGCCGGTGTCGTGTTTGCCATCCCCAGTTCACCTA +CACCAAACAGCGTGACACCGTTTTTTGCCAGCTCCTGCGTATAACATATGACGTCCAAAAGCAACTTTTC +AGCCTGACGGCGACTCATTGCCGGAGCTGAAGCAATATTGCCGCTACCTCGTGCGACACGCATGTTGATA +AGCCCGGGGATAGGCTCAGCAGTATCAATACCAACATCAATTACGTGGACGTTAGCGCCCGCTTGTTCTG +CCAGCACACACACGCCGGTTGTTCCACGGGTCATATTTTCAGCCTGTATGGCTGTCACTTCTTTTGGAGA +AATAGCGACCCCTTCCTCCCAGACGCCGTGATCGGCACACATAACCAGTACCGCTTTTTTGCCCACATGC +GGTATGCCATTCAACCCCGGCATTCCTGCCAGTTGTATGGCAAGCACCTCCAGCTTTCCCAGGCTACCAA +CAGGTTTGAGTAACCCGTCAATATGCCGTTGTGCACGCGACATAGCGGTAGAATCGATGGCTGGGATCGT +ATTCAGTAAATCGGCAAGTATTTGCATCTCACGTCTCTTTATAGCAGTGCCAGCAGGAAGACCAGTTCAC +CAAGCTCTATGGCTGCTCCCAGCGTATCGCCCGTTTGCCCGCCCAGCGTACGTTTGAGAAGCTGACCGAG +GATGAAAATCGCCACCATCGTCACCACCATAGCAGCCACACCATGCATACCCGGCAATAATACGGCAGCA +AAAATAGCGGCTAAGCCGAGTGTGACGCAGGTTTGTCGCCCATCAATTTTGCCAATGAACACATTGCCAA +GCCCTTCTTCCCGCGCATAACGATGACGATACATCAATAATGCGGCAGTCCCGCGGCTGACCGCACATGC +TGCCGCCAGCGATGCAAGGATCGATTCGCCACGCAGAGCCAACTCGCTTAACACCAGAATCTTTGCCAGT +ACCACAAAAATCAATGCCAGACCGCCGTGGGTGCCTAAACGGCTATCACGCATGATTTCCAACATGCGAT +CGCGGCTACGTGCAGAAAATACGCCATCACAGGTATCAGCGAGGCCGTCCAGATGGAATCCCCCGGTCAT +CAGCACCAGCACAAGTACGCTAAACAGTGCCGCCAGTGGTGCGCCACACCATGCCTGCAGCACCATGAAG +ACCAGCCCGCTAATCGCGCCAAGCAATAATCCAATCAAAGGAAAAGTAATAATACCGCGAGAATAATGCT +CGAAATCCAGTCCCTGGGACCAGCGACGCGGTACAGGCAGACGCGTAATAAATGAGAGCATCGCCCAAAA +TAATTTACTCATTTGATTTTTACTCCAATACCCGAAACCACCAGCCATACTTCATTTGCCGCAGCGGCCA +ACTGCTGATTTACCCGCCCGGCAATATCACGAAAATGTCGTGCCAGACGACTCTCCGGCACAATCCCCAT +TCCCACTTCGTTAGTCACTAATACAACCTTTGCGGGGCAACGTTGGCAGGCAGCAATCAACGACTGAATC +TCAGCATTAATCGCCTGTTCCATCGCCTGATAATCCCATTCATCAGGGTCTTTATCGCCGCCATAATCAA +ACAACAGATTAGTCACCATTGTGGTAACGCATTCAAGCAACACAACCTCATTCGGGTTAATGTCTGCATG +AATTAATTCATCAAGATGTTGCCAGCGCTCCACTGTGCGCCAGTGCTCCGGGCGGCCTTGCCGATGATGT +TCTATCCGTGCAGCCATCTCATCATCAAGGATTTGCGAGGTAGCGATATACAGAACCTGTGAAGAGTCCC +CAATAAGCGCCTCTGCGTGGCGACTCTTCCCGCTCCGTGCGCCCCCCGTCACCAAAATCATCATACCGAC +TCCTGATTCAAATGTATGATGGTATTCATTGAACAGAACAATGGATCCCCCACCGTTGCTGACCGCAAAA +CATTTACGCGATTAATACTGCGCGTAATATAATTAAAAATCCAGCATTCTCAATCCATTACGAAATAAGA +TGGCATTACGGAATAGCCAGACTTTCTCGTGTTAACGTCCGACAAAATGCGTCATTGACAGCGGTTTCTG +TGGATTGACACATTTCATTCAGATAATGAATTAATGCTACTGCCGGAACAACCAGCAAACGGGCATTGTG +TTCTGAAATCCAGGCTATTGATTCAACGTCAGCGACAGATCTGCGCTGTAAAAGAACTTGTAAAACAACG +TAATAGAATTATCCGGAATGGTGGCGACTATGCACTAGGGAAGGTGCGAATAAGTGGGGAAATTCTTCTC +GGCTGACTCAGTCATTTCATTTCTTCATGTTTGAGCCGATTTTTTCTCCCGTAAATGCCTTGAATCAGCC +TATTTAGACCGTTTCTTCGCCATTTAAGGCGTTATCCCCAGTTTTTAGTGAGATCTCTCCCACTGACGTA +TCATTTGGTCCGCCCGAAACAGGTTGGCCAGCGTGAATAACATCGCCAGTTGGTTATCGTTTTTCAGCAA +CCCCTTGTATCTGGCTTTCACGAAGCCGAACTGTCGCTTGATGATGCGAAATGGGTGCTCCACCTTGGCC +CGGATGCTGGCTTTCATGTATTCGATGTTGATGGCCGTTTTGTTCTTGCGTGGATGCTGTTTCAAGGTTC +TTACCTTGCCGGGGCGCTCGGCGATCAGCCAGTCCACATCCACCTCGGCCAGCTCCTCGCGCTGTGGCGC +CCCTTGGTAGCCGGCATCGGCTGAGACAAATTGCTCCTCTCCATGCAGCAGATTACCCAGCTGATTGAGG +TCATGCTCGTTGGCCGCGGTGGTGACTAGGCTGTGGGTCAGGCCGCTCTTGGCATCGACACCAATGTGGG +CCTTCATGCCAAAGTGCCACTGATTGCCTTTCTTGGTCTGATGCATCTCCGGATCGCGTTGCTGCTCTTT +GTTCTTGGTCGAGCTGGGTGCCTCAATGATGGTGGCATCGACCAAGGTGCCTTGAGTCATCATGACGCCT +GCTTCGGCCAGCCAGCGATTGATGGTCTTGAACAATTGGCGGGCCAGTTGATGCTGCTCCAGCAGGTGGC +GGAAATTCATGATGGTGGTGCGGTCCGGCAAGGCGCTATCCAGGGATAACCGGGCAAACAGACGCATGGA +GGCGATTTCGTACAGAGCATCTTCCATCGCGCCATCGCTCAGGTTGTACCAATGCTGCATGCAGTGAATG +CGTAGCATGGTTTCCAGCGGATAAGGTCGCCGGCCATTACCAGCCTTGGGGTAAAACGGCTCGATGACTT +CCACCATGTTTTGCCATGGCAGAATCTGCTCCATGCGGGACAAGAAAATCTCTTTTCTGGTCTGACGGCG +CTTACTGCTGAATTCACTGTCGGCGAAGGTAAGTTGATGACTCATGATGAACCCTGTTCCATGGCTCCAG +ATGACAAACATGATCTCATATCAGGGACTTGTTCGCACCTTCCCTAGAACACCACAATTTCGCTCTCTCG +GTAAGGCACTGTCACAGCATTCAACAGAATGTGACTTGCCAGATTTATTAGCGCCACCAGATGTTTAACC +GGGTAACCACGACCCAGTCGGGGATATATTCCATCTTCTCGCTGACATCATCAAGAATAAAAAGGTTTAT +CACACTCAGAGCAACGTTCTTCAGCAGGCGGGATAATTCTTCAACATTTAGAAGATGTGTTATTAAAGGC +ATACAAACTGGACGTATTGTATTTTCTTTTGGTGGTTGACCTAAGGTAGCAGTTTATCCTGATGCGCTGA +GATTTCTGTAATATCTACGTCAACATTCTCCTCGAATAGAAAATGCAGCCCCGGCAAGTGATTCACATTT +TTTAACAAAACGTTGTTAGCGTGCCATTTTCAGAAGCTCTCCAAGAAAGCGAATTCTTTTCTCAAATTCT +GCATTCTCAGACACAGCTTTCTACTCCATGGTAATGGCCCAAATACGAAGTTGCTCAGGATCATTAGTGG +TGCTGAGAAGTTAAATAACCATGCGGAGTACCACTCGTCATCACGTATTTATATATCATGAAGCTATTGT +TGTGTTTTGTACATCAGTAGATATATTCTGATATACTCCTTTTGCTAGACATAACCTTTCACCTGCTTGC +AAAGCTTCTGTGTTCTGACATTGCCAAATTGTTGCAATTCTGTATCCAGCCTTCTTTCAGTCATAGCTTC +GGGCCGCGATAAGACTCACTGATCTGACCCTGATTCCTCTTGCAGACTTTATAGACCAATTAAAATGCAG +TTTCTGCAGGTCAACGTCTGACCATCATTGTCATCACTCTGGCCATTAGAGTAACCTTCTGCATTCATCC +TTTTGTAAAAAGTTTATATTAGTATCAGCAATTAACCGGACCTGATACTGATATGAGTCTTACCGCATAT +ACGGTCAATTTCAGCAATTAATTACATTATCCACGCCAAAGTATTTGTCATCACAATGATGGTACCTTCT +TTCAGACACCATTTTTTCAACTCCGTTTTCCACGGACCGCACTCTTATGTCAAGAGTGCGGTCCGTGGAT +ACAACCAGAGACCGACTGACACGAGTCAGAGGAAACGACGGATATGTTCAGTCGTAAAATATCTATCAAA +AAACATGATTAAGGTCAAAAATGTTTGATATTTACAATTTATGAAGATGACAATAATTATAGATATATGA +GAACATAAATGAAAATAATTATCATTACAGTAATCATTTGTACTTTGTATTAATGAGGGATGAAATGTTA +TATAATATACCTTGTCGAATTTATATCCTTTCCACTCTGTCATTATGCATTTCTGGGATAGTTTCTACTG +CAACCGCAACTTCTTCAGAAACAAAAATCAGCAACGAAGAGACGCTCGTCGTGACCACGAATCGTTCGGC +AAGCAACCTTTGGGAAAGCCCGGCGACTATACAGGTTATTGACCAACAAACATTGCAGAACTCCACCAAT +GCCTCCATAGCCGATAATTTGCAGGACATCCCCGGAGTAGAGATAACAGACAACTCCTTGGCAGGCCGTA +AACAAATCCGCATTCGTGGCTGGATTTGCCCCTATATTTCCAGACATCTGTTATCACTTAACCCATTACA +AGCCCGCTGCCGCAGATATTCCCGTGGCGAGCGATAACCCAGCGCACTATGCGGATGCCATTCGTTATAA +TGCTCGAACGCCTCTGCAAGGTTCTTTGCTGCCGTTAACCCGTCTGGTTTGGGCATGATACTGATGTAGT +CACGCTTTATCGTTTTCACGAAGCTCTCTGCTATTCCGTTACTCTCCGGACTCCGCACCGCCGTGTTCTT +CGGTTCAAGTCCCAACATCCGGGCGAACTGGCGTGTTTCATTAGCCCGGTAGCATGAACCATTATCCGTC +AGCCACTCCACTGGAGACGACGGAAGATCGTTGCCGAAGCGGCGTTCCACCGCTCCCAGCATGACGTCCT +GTACTGTTTCACTGTTGAAGCCGCCGGTAGTGACCGCCCAGTGCAGTGCCTCACGATCACAGCAGTCCAG +CGCGAACGTGACACGCAGTCTCTCTCCGTTATCACAGCAGAACTCGAACCCGTCAGAGCACCATCGCTGA +TTGCTTTCTTTCACGGCCACTCTGCCTGTATGTGCCCGTTTCGATGGCGGTACAGCAGGTTTTCGCTCAA +GCAACAGCGCATTCTGGCGCATGATCCGGTAAACACGTTTGGCATTGATCGCAGGCATACCATCAAGTTC +TGCCTGTCTGCGAAGCAGCGCCCATACCCGACGATAACCATACGTTGGCAGCTCTCCGATAACATGGTGT +ATACGGAGAAGCACATCCGTATCATCAGTGTGACGACTGCGGCGGCCATCCATCCAGTCATCGGTTCGTC +TGAGAATGACGTGCAACTGCGCACGCGACACCCGGAGACAACGGCTGACTAAGCTTACTCCCCATCCCCG +GGCAATAAGGGCGCGTGCGCTATCCACTTTTTTGCCCGTCCATATTCAACGGCTTCTTTGAGGAGTTCAT +TTTCCATCGTTTTCTTGCCGAGCAGGCGCTGGAGTTCTTTAATCTGCTTCATGGCGGCAGCAAGTTCAGA +GGCAGGAACAACCTGTTCTCCGGCGGCGACAGCAGTAAGACTTCCTTCCTGGTATTGCTTACGCCAGAGA +AATAACTGGCTGGCTGCTACACCATGTTGCCGGGCAACGAGGGAGACCGTCATCCCCGGTTCAAAGCTCT +GCTGAACAATTGCGATCTTTTCCTGTGTGGTACGCCGTCTGCGTTTCTCCGGCCCTAAGACATCAATCAT +CTGTTCTCCAATGACTAGTCTAAAAACTAGTATTAAGACTATCACTTATTTAAGTGATATTGGTTGTCTG +GAGATTCAGGGGGCCAGTCTAGTGGCGAAGCATCCTCCCGTGTTTTAATTCTCATTGATGGTCAGGAGGT +AACTTATCAGCGCGCCGGAGATAATTATGGTGTGGGACTGTTGATAGATGAGTCTGCGCTGGAGCGTGTT +GAGGTAGTGAAAGGTCCATATTCCGTACTGTACGGTTCACAGGCAATTGGCGGTATTGTTAACTTCATCA +CCAAAAAGGGTGAATCTCCGGACTCCCTATATCACTTAAATTGATACAACTTTTTAGAGTAGTCATTAGT +GAACAGATAATTGATAACTCAGAACCAGTAAAATGCAAAAGACGCACCACGCTGGGAAAATCGCTGCTAT +TCAGCAGAGTTTTGTATCGAGAATGGTGGCCAGCCACTTATTGCTCTCGCGTAAGCGGGTACCGTGACAT +TCTGCCTGAACTTGACCTGGTACTGTGGCTGATTAAAGCCGATGACCGTGCCCTGTCTGTGGATGAGTAT +TTCTGGCGACACATCCTGCAGTGCGGACATCAGCAGGTGCTGTTTGTGGTGACGCAGGCCGACAAAACGG +AGCCCTGCCATGAATGGGATATGGCCGGTATTCAGCCTTCTCCTGCACAGGCACAGAATATTCGCGAAAA +AACGGAGGCGGTATTCCGTCTGTTCCGGCCCGTACATCCGGTTGTGGCCGTATCGGCCCGCACCGGCTGG +GAACTGGATACGCTGGTCAGTGCGCTCATGACAGCGCTTCCCGACCATGCCGCCAGTCCCCTGATGACCC +GACTGCAGGACGAGCTGCGCACGGAATCTGTCCGGTCTCAGGCCCGTGAACAGTTTACCGGTGCGGTGGA +CCGGATATTTGACACGGCGGAGAGCGTCTGTATTGCCTCTGTTGCACGCACGGTTCTGCGTGCCGTCCGT +GACACGGTGGTCTCTGTTGCCCGTGCGGTATGGAACTGGATTTTCTTCTGAACCTGTCGTGACTGATGCC +CTCCCTGACTCTGAGTCTGCTCACAAAAGCACTGTTTTCGTTACTGTCTCTCTTGTCCGTGCAATAGCTC +AATAATAGAATAAAACGATCAATATCTATTTTATCGATCGTTTATATCGATCGATAAGCTAATAATAACC +TTTGTCAGTAACATGCACAGATACGTACAGAAAGACATTCAGGGAACAACAGAACCACAATTCAGAAACT +CCCACAGCCGGACCTCCGGCACTGTAACCCTTTACCTGCCGGTATCCACGTTTGTGGGTACCGGCTTTTT +TATTCACCCTCAATCTAAGGAAAAGCTGATGAAACGACATCTGAATACCTGCTACAGGCTGGTATGGAAT +CACATGACGGGCGCTTTCGTGGTTGCCTCCGAACTGGCCCGCGCACGGGGTAAACGTGGCGGTGTGGCGG +TTGCACTGTCTCTTGCCGCAGTCACGTCACTCCCGGTGCTGGCTGCTGACATCGTTGTGCACCCGGGAGA +AACCGTGAACGGCGGAACACTGGCAAATCATGACAACCAGATTGTCTTCGGTACGACCAACGGAATGACC +ATCAGTACCGGGCTGGAGTATGGGCCGGATAACGAGGCCAATACCGGCGGGCAATGGGTACAGGATGGCG +GAACAGCCAACAAAACGACTGTCACCAGTGGTGGTCTTCAGAGAGTGAACCCCGGTGGAAGTGTCTCAGA +CACGGTTATCAGTGCCGGAGGCGGACAGAGCCTTCAGGGACGGGCTGTGAACACCACGCTGAATGGTGGC +GAACAGTGGATGCATGAGGGGGCGATAGCCACAGGAACCGTCATTAATGATAAGGGCTGGCAGGTCGTCA +AGCCCGGTACAGTGGCAACGGATACCGTTGTTAATACCGGGGCGGAAGGGGGACCGGATGCAGAAAACGG +TGATACCGGGCAGTTTGTTCGCGGGGATGCCGTACGCACAACCATCAATAAAAACGGTCGCCAGATTGTG +AGAGCTGAAGGAACGGCAAATACCACTGTGGTTTATGCCGGCGGCGACCAGACTGTACATGGTCACGCAC +TGGATACCACGCTGAATGGGGGATACCAGTATGTGCACAACGGCGGTACAGCGTCTGACACTGTTGTGAA +CAGTGACGGCTGGCAGATTGTCAAAAACGGGGGTGTGGCCGGGAATACCACCGTTAATCAGAAGGGCAGA +CTGCAGGTGGACGCCGGTGGTACAGCCACGAATGTCACCCTGAAGCAGGGCGGCGCACTGGTTACCAGTA +CGGCTGCAACCGTTACCGGCATAAACCGCCTGGGAGCATTCTCTGTTGTGGAGGGTAAAGCTGATAATGT +CGTACTGGAAAATGGCGGACGCCTGGATGTGCTGACCGGACACACAGCCACTAATACCCGCGTGGATGAT +GGCGGAACGCTGGATGTCCGCAACGGTGGCACCGCCACCACCGTATCCATGGGAAATGGCGGTGTACTGC +TGGCCGATTCCGGTGCCGCTGTCAGTGGTACCCGGAGCGACGGAAAGGCATTCAGTATCGGAGGCGGTCA +GGCGGATGCCCTGATGCTGGAAAAAGGCAGTTCATTCACGCTGAACGCCGGTGATACGGCCACGGATACC +ACGGTAAATGGCGGACTGTTCACCGCCAGGGGCGGCACACTGGCGGGCACCACCACGCTGAATAACGGCG +CCATACTTACCCTTTCCGGGAAGACGGTGAACAACGATACCCTGACCATCCGTGAAGGCGATGCACTCCT +GCAGGGAGGCTCTCTCACCGGTAACGGCAGCGTGGAAAAATCAGGAAGTGGCACACTCACTGTCAGCAAC +ACCACACTCACCCAGAAAGCCGTCAACCTGAATGAAGGCACGCTGACGCTGAACGACAGTACCGTCACCA +CGGATGTCATTGCTCAGCGCGGTACAGCCCTGAAGCTGACCGGCAGCACTGTGCTGAACGGTGCCATTGA +CCCCACGAATGTCACTCTCGCCTCCGGTGCCACCTGGAATATCCCCGATAACGCCACGGTGCAGTCGGTG +GTGGATGACCTCAGCCATGCCGGACAGATTCATTTCACCTCCACCCGCACAGGGAAGTTCGTACCGGCAA +CCCTGAAAGTGAAAAACCTGAACGGACAGAATGGCACCATCAGCCTGCGTGTACGCCCGGATATGGCACA +GAACAATGCTGACAGACTGGTCATTGACGGCGGCAGGGCAACCGGAAAAACCATCCTGAACCTGGTGAAC +GCCGGCAACAGTGCGTCGGGGCTGGCGACCAGCGGTAAGGGTATTCAGGTGGTGGAAGCCATTAACGGTG +CCACCACGGAGGAAGGGGCCTTTGTCCAGGGGAACAGGCTGCAGGCCGGTGCCTTTAACTACTCCCTCAA +CCGGGACAGTGATGAGAGCTGGTATCTGCGCAGTGAAAATGCTTATCGTGCAGAAGTCCCCCTGTATGCC +TCCATGCTGACACAGGCAATGGACTATGACCGGATTGTGGCAGGCTCCCGCAGCCATCAGACCGGTGTAA +ATGGTGAAAACAACAGCGTCCGTCTCAGCATTCAGGGCGGTCATCTCGGTCACGATAACAATGGCGGTAT +TGCCCGTGGGGCCACGCCGGAAAGCAGCGGCAGCTATGGATTCGTCCGTCTGGAGGGTGACCTGATGAGA +ACAGAGGTTGCCGGTATGTCTGTGACCGCGGGGGTATATGGTGCTGCTGGCCATTCTTCCGTTGATGTTA +AGGATGATGACGGCTCCCGTGCCGGCACGGTCCGGGATGATGCCGGCAGCCTGGGCGGATACCTGAATCT +GGTACACACGTCCTCCGGCCTGTGGGCTGACATTGTGGCACAGGGAACCCGCCACAGCATGAAAGCGTCA +TCGGACAATAACGACTTCCGCGCCCGGGGCTGGGGCTGGCTGGGCTCACTGGAAACCGGTCTGCCCTTCA +GTATCACTGACAACCTGATGCTGGAGCCACAACTGCAGTATACCTGGCAGGGACTTTCCCTGGATGACGG +TAAGGACAACGCCGGTTATGTGAAGTTCGGGCATGGCAGTGCACAACATGTGCGTGCCGGTTTCCGTCTG +GGCAGCCACAACGATATGACCTTTGGCGAAGGCACCTCATCCCGTGCCCCCCTGCGTGACAGTGCAAAAC +ACAGTGTGAGTGAATTACCGGTGAACTGGTGGGTACAGCCTTCTGTTATCCGCACCTTCAGCTCCCGGGG +AGATATGCGTGTGGGGACTTCCACTGCAGGCAGCGGGATGACGTTCTCTCCCTCACAGAATGGCACATCA +CTGGACCTGCAGGCCGGACTGGAAGCCCGTGTCCGGGAAAATATCACCCTGGGCGTTCAGGCCGGTTATG +CCCACAGCGTCAGCGGCAGCAGCGCTGAAGGGTATAACGGTCAGGCCACACTGAATGTGACCTTCTGACA +GAACCATCGCCTCTCTGTGGTCCCGGTCATCATGACCGGGACCCGGACCGGCGCAACGGATCTTCAACGC +CACATTCGCTGGCATTAACAATAACATGATATTCATCACGGAGTGACTATGTTACAGATAGTCGGCGCGC +TGATCCTGCTGATCGCAGGATTTGCCATTCTTCGCCTTTTGTTCAGAGCATTAATCAGCACGGCTTCTGC +GCTGGCAGGGCTCATATTGCTGTGTCTGTTCGGCCCGGCCTTACTGGCTGGCTATATCACCGAACGCATA +ACCCGGTTGTTCCATATTCGCTGGCTGGCAGGCGTATTTCTGACGATTGCCGGAATGATCATCAGCTTCA +TGTGGGGACTTGATGGTAAACATATCGCGCTGGAGGCTCACACCTTTGACTCTGTGAAATTTATTCTGAC +CACCGCTCTCGCCGGTGGTCTGCTGGCTGTTCCCCTGCAGATCAAAAACATTCAGCAGAACGGGATCACA +CCAGAAGATATCAGCAAGGAAATTAACGGGTATTACTGCTGTTTTTATACTGCCTTTTTCCTTATGGCGT +GTTCTGCATGCGCACCATTGATCGCGTTACAGTACGATATTTCACCGTCACTGATGTGGTGGGGCGGGTT +GTTGTACTGGCTGGCTGCATTAGTGACGCTGCTATGGGCGGCCAGCCAGATCCAGGCGCTGAAAAAACTG +ACCTGTGCCATCAGCCAGACACTGGAAGAACAACCGGTGCTCAACAGTAAATCGTGGCTGACCAGTTTGC +AAAACGATTACAGCCTTCCTGACTCACTGACGGAGCGCATCTGGCTGACGCTCATTTCTCAACGGATTTC +CCGGGGAGAGCTGAGGGAATTTGAACTGGCAGACGGAAACTGGTTACTGAACAATGCCTGGTATGAAAGA +AACATGGCAGGGTTTAACGAACAGTTGAAAGAGAACCTGTCATTCACACCTGATGAACTGAAAACGCTCT +TCCGGAACCGCCTGAATTTATCACCGGAAGCGAATGACGATTTTCTCGATCGTTGCCTGGACGGCGGTGA +CTGGTATCCCTTTTCAGAAGGTCGCCGTTTTGTATCATTCCATCACGTGGATGAGCTTCGTATCTGTGCC +TCCTGCGGGCTGACAGAAGTACATCATGCCCCGGAAAATCATAAGCCGGATCCGGAATGGTACTGCTCCT +CTCTTTGTCGCGAAACAGAAACACTGTGTCAGGAAATTTATGAACGCCCTTACAACAGCTTTATTTCCGA +TGCAACGGCGAATGGTCTGATTCTCATGAAACTGCCGGAAACCTGGAGTACAAATGAGAAAATGTTTGCT +TCCGGAGGGCAGGGACATGGGTTTGCCGCTGAACGGGGAAACCATATTGTCGACAGAGTCCGTCTGAAAA +ACGCACGGATCCTCGGTGATAATAATGCCAGAAATGGAGCAGACAGACTGGTCAGCGGAACAGAAATCCA +GACGAAATATTGTTCAACTGCAGCCCGTAGCGTCGGTGCGGCATTCGACGGACAAAACGGACAGTATCGT +TACATGGGAAATAATGGCCCCATGCAACTGGAAGTCCCCCGTGATCAGTATGCCGGCGCTGTTGAAACCA +TGAGGAATAAGATCCGCGAAGGTAAAGTAGAGGAGAGATGACGCCCGGCGAGCGCAGCCTCATTCAACGG +GCCCTGAAAACCCTGGACCGCCATCTTCATGAACCCGGCGTGGCCTTCACCTCCACCCGTGCAGCACGGG +AATGGCTGATTCTGAACATGGCGGGACTGGAGCGTGAAGAATTCCGGGTGCTGTATCTGAACAACCAGAA +TCAGCTGATTGCCGGTGAAACCCTCTTCACCGGCACCATCAACCGCACGGAAGTCCATCCCCGGGAAGTG +ATTAAACGCGCCCTGTACCACAATGCCGCTGCCGTGGTACTGGCACACAATCACCCGTCCGGTGAAGTCA +CACCCAGTAAGGCAGACCGGCTTATCACCGAACGTCTGGTACAGGCACTGGGCCTGGTGGATATCCGGGT +GCCGGACCATCTGATAGTCGGTGGCAACCAGGTTTTCTCCTTTGCCGAACATGGTCTGCTTTAACCCTTC +ACAACCACATCACACCTGTTTTCACTTTTATCTTCTGTCTTCAGAGGTATCCCATTATGAAAATTATCAC +CCGTGGTGAAGCCATGCGTATTCACCAACAACATCCGACATCCCGTCTTTTTCCGTTCTGTACCGGTAAA +TACCGCTGGCACGGCAGTGCTGAAGCGTATACCGGTCGTGAAGTGCAGGATATTCCCGGTGTGCTGGCCG +TGTTTGCTGAACGCCGTAAGGACAGTTTTGGTCCGTATGTCCGGCTGATGAGCGTCACCCTGAACTGAGT +GGGAATTCTGATGAGCAGAATTATCGCCACTACCGGACCATTCTTAGCCGATTTTCTGTAAGGATTTTAT +CGTGTCAGACACACTCCCCGGGACAACACTTCCCGACGACAATCACGACCGCCCCTGGTGGGGGCTGCCC +TGCACCGTGACGCCCTGTTTCGGGGCACGTCTGGTGCAGGAGGGTAACCGGTTGCATTACCTTGCCGACC +GCGCCGGTATCAGAGGCCTGTTCAGCGATGCAGATGCGTACCACCTGGACCAGGCCTTTCCGCTGCTGAT +GAAACAACTGGAACTCATGCTCACCAGCGGTGAACTGAATCCCCGCCATCAGCATACCGTCACGCTGTAT +GCAAAAGGGCTGACCTGCAAAGCCGATACCCTCAGCAGTTGTGATTACGTTTATCTGGCTGTTTATCCGA +CGCCCGAAATGAAAAATTAACTCTCCAGAATAGCCTTCTGCTACGGCCTGGTGTTTTCACCACGCCACTT +TTCCATTTTTATATCTGCATATCAGGAAAATCTTCAGTATGAAAACATTACCTGTATTACCCGGGCAGGC +GGCCAGTTCTCGCCCGTCTCCTGTTGAAATCTGGCAGATACTGCTGTCCCGACTGCTGGACCAGCACTAT +GGCCTCACACTGAATGACACACCTTTTGCCGATGAACGTGTGATTGAGCAGCATATTGAGGCAGGCATTT +CACTGTGTGATGCGGTGAACTTTCTCGTGGAAAAATACGCGCTGGTGCGTACCGACCAGCCGGGATTCAG +CGCCTGTACCCGCTCTCAGTTAATAAACAGCATCGATATCCTCCGGGCTCGCAGGGCGACCGGCCTGATG +ACCCGCGACAATTACAGAACGGTAAATAACATTACCCTGGGTAAGTATCCGGAGGCGAAATGATGACACT +GGAAGCCGACAGCGTTAACGTACAGGCGCTGGATATGGGGCACATTGTCGTTGACATTGATGGTGTTAAT +ATCACTGAACTGATTAATAAGGCCGCTGAAAACGGTTATTCACTCCGCGTGGTGGATGACCGTGACTCTA +CCGAAACACCGGCAACTTATGCCAGCCCTCACCAGTTGCTGTAAGACAATGCAGTGATACAGGGTATAGT +GCCATTAACCACAGAAACAGCACTGTTGTCCTGTATTAAGCAGGCAAGAGAAGATGTCCTTACCCTGCGC +CATCTGCAGCTTCTGCACCAGAACCGGTGAATCTCACTCAACAGGCTTCATTTCTCCTGACGCCAGCCTG +AATACAGCTGGCGTTTTCATTTATAAACAGAAAGGAAAACCGATAATAATGGAATGGACGCCCCGACCAT +GAAGCAACGGTAGGATATTACTGATAAACCTTCCAGTGGAGGTGCGTTATGGCCGTTTTAACGATTAGCA +TTGACCTGACAAAAAATGAATTCCAAATCCACGGTCTGGGTAGGAACAGAAAAATCTAAGCTCAGAAAAC +GGATTAAAGTAAGCGTCAACGGAGCACCGTATTGACGCTTATTTATTGGTGAGAACTACGTTCCATGGCA +GGAGTTCGTCAACACGGTTGGAGGGCCATTCCGGCAGTATGCTCAGAATATGGCGCAGATACGCTTCCGG +ATCGATACCGTTCAGACGGCAGGTGCCTGCTTTTCTGGCAACAAGCAGGAATCTCAGCGCTGAAGCAGGA +ATTAGAGGTAAAAACGCCCTACCGGGCCATGAATCACCCGGTCATTGGAGTAGTAACCAAAGCAGATTTA +GCCAGCATGGAACAAATATCTTTGGTGAAAAGTTGGTTACGGGAAGCTGGAGCGCACAACGTGTTAGTAA +CCAGTGCAGTTAATAACAATGGAGTTACAGAACTTTTTGCCTTGCTGCATACAGAAGAAGGCTGTTGTTA +ATTTCGATTGGTTCTCGGATGAGAATGATGACGGTGATACACAGATAAGAATCAATGAGCAATGAGGGTT +GCCGGGCAACCCTCATTGAATAAAACGGGAATTACTTCGCTTCGCCGTTTTTCATTTCGCCCATAGCTTT +CAGCTTTTTGGAGATATCGCGGCGTTCTTTGGAGAGCTCGGCATTTTTGATGATGTAATCGTCAACGCGA +TCTTCATAGTCACCTTTCATGCTGGCGATGATGCCCTGGATTGCTTCAACGCTCATCCCCGGCTTGATGT +AATCGCTCAGGTTGTCCAGCAGCAGGACGCGCTTCTGGTTGTCACGGATCTTTTTCTCAACGTCCTGAAT +TTCACGTTGCAGTTTGTTCTTACGACGGAACAGACGAACAAATTCCAGTACGTCCTGGAATGAAGGCTTG +GTAGTTTCCATTTTTATACCCCTGATAATGTGAGAGTCGGATTCGTTTAAGCAACCGCTATTCGTTAGGG +CCAACATTACTCATAGCTGCCGCAGATGACAATGCTTTTATCCCTTTTCACTATCATACCCTTTATCCTT +GCTGAATCGAAGCAGCAGCAAGATGATTCTGAAGTTCAGGAATTATTTGCGCAAGGCCCGGCAAATCAGA +TTCGATAGCAACTCAAGCTGATGCGCCGTTTCCATGTTCAGCCACACATAACCATAGATTGGTGTTTCCA +CAACCTTCAGGTCATGGTGGTTATTGAGCAACTGACGCAGCTCTTCCACAGCATCGTTCAATTTTTCCGT +ATTGGCAAAAACCGGCTGCGGATTACCTTCGTACAGCGCATGAACAAGGCTCAGCAGTATTTGCTGCATC +ATGTGCTGGGTATCACGAAGTTTTTGCGCGTTCAATAACACGAAATGGCTGGGGCGCGTGGCCCAGTATG +CATTGATTTGCAACTCCAGCATACAAACCAGATTGCGGTTAATGGTCTGGATACCTTCATATATCGATTT +TGGAATACGGGTTTCTTTGCTGGCGGGCGCAATCAGTCCACGCATTTTCACGGCATCGGTCAGGAGTTTT +TGTAGATGGCTTTCCAGACGTGGGCGTTCGAGTAAGTTCGGTGAGAATGCAGATTGATAGACCCGATTAT +ACTCGGTCAGACTTTTCGCCAGTTGAATGCGCCAGTGGATGAACGCCCGTTGTGGCCAGATACCGGTAAA +CAACATTGCCAGTAAAGAGCCGAGGATCACATCGCCGCTTCGCCATAACGCCGTATCAATTTCACCTGTC +GGGGAACCCACAACAATTGCCAGCGTCACCCCAATCAATAAACCTTGATACGGTTTCTTGCCCAGCGCCA +GCCAACCGCAAAGGAACATGGCCGCCGCGCACCAGACTAACATCAGCGGTAACGAGATTAACTCCAGTTG +CAGAGCGATAAGACCTAAAATCGAACCCAACACCGTACCGCCAATACGCTCAAAGGCGCGAGGGACAACG +TTACCCCAGAACGAGATTGGCCCCATAATCACCACCATGGTGACCAGCGGCCAGGTGCTTTCCGGGATAG +TAAACAGGCGGATAATGAGAAAAGTGAGCAGGAATGCCAGCGCGACCCGAGTACCATGCACAATGCGGTA +ATGGCGGTATACCCGGATTTCAAACGGGCTTAATGACTTATCGGCACGCACGCAGAAACTCCGTAATGAG +ATTAAAAGCGCTCATAACTCATCTGTCGGCCAGAAGGCGCGCCTCTGAATTATCCGACGGACAAACCGGG +AACAGTGTAATTTCCCGGCAGGAGCGAAAAAATTGAAAGGCGCATCTTACTCTTTTCGCTTTCAAAAAAA +AGAGTGGTCATCGCGTTAACACACCGCCCTGAGATGAATTAGTGATGTTTTGGCTGCACCGCAACATACA +TTTCGATATCCCAGTACCCATCTTCCGCGCCATTGTTCAAATAAACCTCGAAGCAGGGCTTTGGTAACAT +TTCATAAGCACTGTCCTGCAAGAGACTATTAAAGAACTGATACCAGGGTTTAGCAAAATCATCACCGACT +ACACGAGCTACCGCCACCGCATACTGACCACCTGTAATTTCTGTCAGAATGACGCCCTCACTGTTTTCGG +GAAGCGTAAAGTAACCCGGCACCGTCACGACGGTGTCGCAGCGTAATTTTTCGGCGGGTGTTTCATCTGG +ATTGTCGTAATAGACAGCAACCCACTCCTTCGGCACAATATTTTTGCTATCTACCCACATCATCAACTGC +TCAAAGCCTTTCTTTACCGTCTGTTCCCACGGGCCAACGAGATGGAAACCTGCAACGGTACGTTTCTCTT +CCTGCTTAATCTCGTAGTTCATGACGCCTCCATTGATACTGTTTTTATATACAGTATAGTTGCAAAATTA +AAACCACAAGGAATGAGTGTTGATTATGCGAGCAGACTCGCACTCCTGCCAGTCTGCTGCAAAAGAAAGG +TCAGGCCTTATGGTGGAAATAATCACTCAGGCGAGAAAACATGCTGCCTTCCCCGACAGATTCCAGGGTA +ACCAGCGGCCAGTGCGCCACCTGTTTATCACGGTCGTAAAGTTCAATTTCCCCTACCCGCTGATGGGCGC +TAATTGGCGCGGTGAGTTCTTTACCATCAAGGGTATATTTGGCTTTGATATGTGGAATTTCGGCTTTCGG +TAGCACCATCCAGAACTCTTGTTCCGTTCCCAGGTCGATATTTTCTTTATCGCCATACCAGATGCGTTCC +GTTCCGACCTTTTTCCCACGGTGCAAAATTTGCACCGTAGTAAAGTTTTGTTGCCCCCAACGCAGTAATT +TTCTTGCCTCTTCCTCACGACCTTTTGCACTGTCAGCCCCCATTACCACTGCAATGAGACGACGCTGCCC +ATCTACAGCCGAAGCAATGAGATTAAACCCGGCACCAGAAGTATGACCCGTTTTCAGGCCGTCAACATTC +ATGGTTTTATCCCACAACAACCCGTTACGGTTTTGCTGGGTGATACCGTTCCAGGTGAGACTTTTCTCAC +TGTACATATGATAAAACTCGGGCTCGCCGTGGATGATAGCACGAGAAAGCACAGCTAAATCATAAGCCGA +GCTATGCTGGCCAGGTGCATCCAGACCATGCACTGTTTCAAAATGCGTATCCTTGAGATGCAGCTTCTCG +GCATAGTTGTTCATCATTTCAACAAACTGCCGTTGCCCACCGGCAATATAGTCAGCCAGAGCAACACAAG +CGTCATTTCCGGAATCCACAATTAAACCACGGCTTAAATCACGTACCGATACGCGATCGCCCTCTTTCAA +AAACATCAGTGAAGAACCGACAAACACCGGATTATCTTTCGCCCACGCATCGCGCCCCACGGTGACAATA +TCGTCTGGCGTAATGCGATGACTATCGATAGCGCGATCCACGACATAACCCGTCATCAGCTTTGTCAGGC +TGGCGGGATTGCGCTGTTGATGCTCATTACCCGCGGTGAGGATCTGACCGGTGGTGTAATCCATCAATAC +CCAGGACCCGGCATGAATCTCTGGAGGCTGAGGTGAAAAAGGAATGTTTTCCGCCGCAAAACCAGACGAT +AAGTTAAAAACGAACAAAGAAGCAGCAATAATAAGACGGCGTTTCAACAGCAAACCCTCAGGAGTTTCAA +ATAGCTGTTCTTTTTACGGAAATACTTATGAACTGGCTGGAATAAAGTGCAAGAAAATGTGACTACCCTC +TCATTTTTATCTGACATGATCTGTTGCCACTCGCTGCCAAATTGTGGCGCTAAAGCTGATTAGCACGGTG +ATATTTGATACTCTGGCAGACAGCAGAAATAACGGATTTAACCTAATGATGAATGACGGTAAGCAACAAT +CTACCTTTTTGTTTCACGATTACGAAACCTTTGGCACGCACCCCGCGTTAGATCGCCCTGCACAGTTCGC +AGCCATTCGCACCGATAGCGAATTCAATGTCATCGGCGAACCCGAAGTCTTTTACTGCAAGCCCGCTGAT +GACTATTTACCCCAGCCAGGAGCCGTATTAATTACCGGTATTACCCCGCAGGAAGCACGGGCGAAAGGAG +AAAACGAAGCCGCGTTTGCCGCCCGTATTCACTCGCTTTTTACCGTACCGAAGACCTGTATTCTGGGCTA +CAACAATGTGCGTTTCGACGACGAAGTCACACGCAACATTTTTTATCGTAATTTCTACGATCCTTACGCC +TGGAGCTGGCAGCATGATAACTCGCGCTGGGATTTACTGGATGTTATGCGTGCCTGTTATGCCCTGCGCC +CGGAAGGAATAAACTGGCCTGAAAATGATGACGGTCTACCGAGCTTTCGCCTTGAGCATTTAACCAAAGC +GAATGGTATTGAACATAGCAACGCCCACGATGCGATGGCTGATGTGTACGCCACTATTGCGATGGCAAAG +CTGGTAAAAACGCGTCAGCCACGCCTGTTTGATTATCTCTTTACCCATCGTAATAAACACAAACTGATGG +CGTTGATTGATGTTCCGCAGATGAAACCCCTGGTGCACGTTTCCGGAATGTTTGGAGCATGGCGCGGCAA +TACCAGCTGGGTGGCACCGCTGGCGTGGCATCCTGAAAATCGCAATGCCGTAATTATGGTGGATTTGGCA +GGAGACATTTCGCCATTACTGGAACTGGATAGCGACACATTGCGCGAGCGTTTATATACCGCAAAAACCG +ATCTTGGCGATAACGCCGCCGTTCCGGTTAAGCTGGTGCATATCAATAAATGTCCGGTGCTGGCCCAGGC +GAATACGCTACGCCCGGAAGATGCCGACCGACTGGGAATTAATCGTCAGCATTGCCTCGATAACCTGAAA +ATTCTGCGTGAAAATCCGCAAGTGCGCGAAAAAGTGGTGGCGATATTCGCGGAAGCCGAACCGTTTACGC +CTTCAGATAACGTGGATGCACAGCTTTATAACGGCTTTTTCAGTGACGCAGATCGTGCAGCAATGAAAAT +TGTGCTGGAAACCGAGCCGCGTAATTTACCGGCACTGGATATCACTTTTGTTGATAAACGGATTGAAAAG +CTGTTGTTCAATTATCGGGCACGCAACTTCCCGGGGACGCTGGATTATGCCGAGCAGCAACGCTGGCTGG +AGCACCGTCGCCAGGTCTTCACGCCAGAGTTTTTGCAGGGTTATGCTGATGAATTGCAGATGCTGGTACA +ACAATATGCCGATGACAAAGAGAAAGTGGCGCTGTTAAAAGCACTTTGGCAGTACGCGGAAGAGATTGTC +TAATTTGAAGCCTCCGCCGCTGGTACGGCGGAGGACAATGTTGAGTCAGGCTTTTTGAACGGTGATGCTC +CACGCTGCATCGCCAATCTGCTGATAATCGGTGATGGCATGTCCTTCTTCTGCCGCCCACTGTGGGATTG +CTTCAGTTGCCTGGGTGCAATCAAACTCAATCACTAACTCATCGCCGCTGACCATTTCTGCCAGAGCTGC +TTTTGCTTCTATGAGTGGAAACGGACAGACCTGCGTCACCACATCCAGCTTTTTAATCACCATCTTTACA +CCTTACTTAATTTGCCGCAGCAGTTGCCAGTCGCGCCTTACGCTGCGGTCGAACATACACAAGCCAGGAC +GCAGTCCAGACTCCGAGAATCATAAATACAAGGCCAATCCAGCCCTGCCAGGTCATCATTGCAGTCATAA +CCAGTCCATTACCGATAGAGCAACCACCTGCAATACTGGCACCGAAGCCCATCAGTACACCACCTAACCC +GCTACGTAATGTTGTTTGTGCATCAGCTGCGCGAACGCGGAACTCACGGCTCGCTTTGGCTGCAATAAAT +GACCCCACGAAGATCCCTAACACCAGGAAAACGCCCCAGTTAATGTATTTCATGTCACCCGCGACCAGAA +ATTGCAGAATATTGGCCGTTGGGGAAGTGATTCCTAACCCAAACATGCGTCCGGTTGCTTCACTCAGGGG +CCAGGCTAAAAGCGCAATCAAACCGATGAGTACAGCTGTGACAAAGGGATGCCAGCGTTTTTCAAACAGA +ATATGAGCGATCCCGGTTCGGCGCGGCGGTAAGGTCGCGACTTTGAGTTTTGGCTTCTTCAACTCTTTCA +TCACCACCCAGAGCGTTATCACCAGCAAAACGGCAACCAACGGCCACACAGACAAATTAAAAGTCTCAGC +AATAGAGTTATGTTCAGTACTGTAGTGCTGCAAGGTTTGATTTAAACCACTGGCATGTGGAGAACGCATC +ACCGCACTCATCACCATATAAGTGAAAAGCGCGATCCAACTGCCGATCAATCCCTCACCCGCGCGATACC +AGGTCCCGGTGGCACATCCACCCGCCAGAACAATTCCCAGCCCGAAGATATACCCACCTATAACAGTACC +AAGCCACGGGAACGCCCCGGCTTCGTAAGTCAGTAGGCCCGCCTGAATTAACGCAAAAACCCCCACGCTT +TGTACCGAAATTGCAATCAGCAAGGCGTAAAACATGCGATTATTTTTCACGATATACATATCGCGAAAAC +CACCTGTCAGGCAAAAACGCCCACGCTGCATGACAAATCCCAGCAGAGCACCACAAATTAGCCCGCTTAA +TATCATTGAAAACATAAATTAATTAACCAGATGAATGTTAATGAGGAAATTATTCATGACTGGTGGAATG +CAGACCAATAACCAAATTCTCTAAATTAGAACAAATGGTTATTAATGAGGAGTTCGATACAAAAGAATAA +AAAAACCGGAGCCAAATGTTCATTCGACTCCGGTTTATTATTAGAAAAGATGATTATGCTACGTCTTCGT +ACTGCGGAACCGGATTACGGAAGCTCTTGGTGACGCAAGCCAGGTAAATCAGACCGATAGCAGCCCAGAT +CAGACCCAGAACCATTGAGCTTTCTTCCAGGTTAACCCACAGCGCACCAACGGTCAGCGCACCACACATC +GGCAGGAACAGATACTGGAAGTGATCTTTCAGCGTCTTGTTACGCTTCTCACGGATCCAGAACTGCGAGA +TGACCGACAGGTTAACGAAAGTGAACGCCACCAGCGCACCAAAGTTAATCAGCGCCGTTGCCATTACCAG +GTCGAAGTTGATTGCCAGCAGGGCAATCGCGCCAACCAGGATGATGTTCATCGCCGGAGTACGCCATTTC +GGGTGTACATAACCGAAGAAGCTTTTCGGGAATACGCCGTCACGACCCATTACGTACATCAGACGCGCTA +CGCCTGCATGCGCCGCCATACCGGACGCCAGTACGGTAATGGTGGAGAAGATCAGCGCGCCAACCTGGAA +CGCTTTACCCGCAACGTACAGCATGATTTCAGGCTGTGACGCATCCGGATCTTTAAAGCGAGAGATATCC +GGGAAGTACAGCTGCAGGAAGTAAGTTGCAAAGATGAAGATCATGCCGCCGATCAGCGCGGTCAGGAAAA +TCGCACGCGGGATCACGCGCTCTGCATCTTTGGTTTCTTCCGACAGGTTGCTGATGCCGTCAAAGCCGGT +AAAGGAGAAGCACAGGATTGTCGCCCCGGTAATCATCGGGATAACATGCGCATCGCCAGACCAGAATGGA +CGAGTGCTCGCCAGCGTACCAGCGCCTTCACCTTCAAATACGCCATAAACAACCATGCCCAGAATCACCG +CGATCAGCACTACCTGCAACACGACGATTACAGTGTTGAAGTTCGCTACGGATTTCAGACTACGCAGGTT +AAAGGCGGTCATAAAGGCCACCAGCGCCACCACAAACATCCACGATGGGATGGAAGGCACCAGAGCTTCA +AAATAGATTTTCGCCAGTAGAATGTTGATCATCGGCGCGAACAGATAGTCGAGCAGAGAAGACCAACCCA +CCATAAAGCCGACAGTCGGGCTAATGGATTTCTGGGCGTAAGTGTATGCAGAGCCAGCAGAAGGATAGCG +GCGAACCAGCTTCCCGTAGCTCAGAGCCGTAAACAGGATCGCAATCAATGCGAACGCATAGGCTGTCGGC +ACATGACCATCCGTGAGGCCTGAAACGATACCAAAAGTATCAAACAGCGTCATCGGCTGCATATAGGCAA +GACCCATCATTACAACCGGAACTAACGTAAGCGTTTTACGCAATTCCACGCGAGAGGTGTTTGGAGTAAC +GTTATGCGACATGGTCATTCTCCTTTACGGTGATAACCGTCGCGTAAGCAAAAAATTGCCCCATTTTTTT +GGATTCCTCAGCGACAACAACTGTCGATTTTTAGTAAATATCTATCCGGTACGAAGCCCGGCCTCTTGGT +ATGAATGATTGGTTTGAAGCAAAAAATAACCGACGCTGATGAAACGTCGGTTTTTAGTCATTTTTTGACA +GCGGCGCATTGTGCCTAAATGGGGGGGAAATGACAAGAGAATGAGAGGCTTGTCAGAATAATTTTTCTTT +AAATGGCTGATTTTCCGTCATCAGATTTTGCATAAACACCGGCGATCGCACTATTTGCTAAAATTTCATC +CCGCCACCAGCCACTGGCAAGTCCTGCGGTCTGTTCGTTCCAGCCAATCCAGACGGGTTCAAAGAGAGTT +TGGGCGACCACTTTCTTCTCGATTAACGCGCCACTATCGAGAAAACGTTGCGCCAGATAACGGGGTAAAT +AGCCGCAGCCGAGGCCGCTAATTTGCAGCTCCAGTTTGGTTTTAAAATCGAAAACGGTAATGGCTTCTTG +TTCGTCGAGAAGTTGTGATGCCGTAGAAGCGCCTGCCTGCGCAGTATCCCCCACCACAATCGCCCGATAT +CGCTTAATAATACGACGATTTAACGGCTCTTCTTCCAGGGCTAACGGATGATGAGGCGCGACCGCAAAGA +CTTGTTCCAGATCGCCCAACCGTGAAAAACCAAACTCACTGGAAGATGGTGGCTCATGCATCGCGCCAAC +AATAATATCCGCTCGCCCCTGAGTCAGGGCATCCCATGAACCACCGAGTACGCCATTGATAAACTTCAGG +CGCGTCACGCTATGATGTTGATAAAAAGCTTCAATGAGTGGCGCAAGCAGAGAAAAAGGAAACGTGTCGT +CCACGCCAATCACCAGCTCGTTTTCCCAGCCTTCATGCAGTTTGATCGCCTGCTTTTCCAGTTCCCGCAC +GGTATGCAGAACTTCCCGCCCTTTCTCTAATAACATTTTTCCGGTGCGGGTGAATTTAGCGCGGTGTCCG +CTACGATCAAGCAATTGAATATTAAGGTCGCTTTCCAGCTTGTGAACGGTGTAACTCAGAGCGGACGGCG +TCTTGTAGAGTTTGGCCGACGCCGCCGCAAAACTGCCTTCTTTTTCTAAGGCATCGAGGATCATCAACAC +ATCCAGCAGTGGTTTCATACACGCCCCCTTGCAGTGCATGCGGCGTCCTGCTGGCGTGATCGTTTACTCC +AGCGGCATTACCAGCGGATCGGGATACTGGTATTCAAATCCCAGTTCATTACAAATCCGACTGCCATCAA +TAATCTTACCTTTGCCGCTGTCCAGACTATTTCTGAACTGCGGAGGTTCCAGCCCCAGTAAACGGGCCAT +CTGCGGATAGAAAACATTACGCGCAGGGTGAGCTGGCGCACATATATTATAGATGTGTCCGCCTTTAGGT +GCCTGTAACAACAGAGTGATAGCGCCAATAACATCTTCTAAATGGACTAAATTAACACCATGTTCACCAT +CAGGCGCGGTTTTTCCGGCAAAGAAGCGTCCGGGATGACGTCCCGGTCCGACCAGGCCCGCAAGACGCAG +AATATCGACCGAAGTACCGGGTAAATTGTGCAGCCAGTCTTCGAGTTCTTCTAATACTCGTCCACTGTTG +GTTACTGGATTACGCGGGGTGGTTTCTTTCACCGTGCCTTGCGCGTCGCCATAGACAGATGTTGAGCTGG +TAAAAATAATGCGGGGAATACGATGGGCCAGCGCGCTATCCACTAACTCTTGTACCGCTTGTAAATAGAA +CTCATCGCCGGGGCCGCTACGACGTGCCGGAAGCGTAATGACCAGCGCATCGGCATCCATCAGGGCATCC +AGATCGTCAGAATCGCAAACTAGCTCAGGCTCCATGCGAAGCAGATAGCTATCAATGCCACTCATTCGGG +CCGCTTCGACACCATCTTGTGTGGTTTTACTCCCGGTGACTTGCCAGCCTCGCGCTGAAAGTGACATCGC +CAGCGGCATGCCTAACCACCCTAACCCGACAATTGCGACCTTTTTCATCCGTTATCTCCTGATACACCTT +AGATCTATAAGGCTACGCTAGCGTATCAAAACTGACAATTCATTCTATGAATGAATCTGTTCAATAATGA +TAACGACATGCTGCAATGAGCAGTGAATCGTCGGTAACCGCGTATACCAGACGGTGCTCCTCTGTAATGC +GTCGGGACCAGAAACCTGACAAATTATGTTTCAGGGGTTCTGGCTTCCCCTTACCTTCAAATGGCGTTCT +GCGGGTATCTTTGATAAGTTCATTGATCTTTTTAACAATTCGCTTATCTGTTTCCTGCCAGTACAGATAA +TCGTCCCATGATTCCTCAGACCAGATTAGTTTCACTCAATGATGTCCTTTTCCGTTCCTTTGCCTGATTT +CAGGCTATCGATTGAGTCCATCAATCTCCGGGCGTTAGCGGGGGAGCGCAGTAGATAAGCCGTCTCTTCC +AGCGAGTTGTATTCTTCGAGTGACATCAGAACACAAGCCTCTCCATTCTGACGAGTAATAAGGATCGGGG +CATGATCTTCAACGGCTTTCATCATTGTTGCCGACAAATTCTGACGCGCTTCGCTGTAGCTAATTGTACG +CATGTCAATCTCCTCTTTTGTACAGTTCATTGTACAATGATGAGCGTTAATTAACTATTTATTAATTAGT +TTGTAGATCAAGGTATTGTCAGTGAGACGAAAATCCAGGCTTCGCTATTTTTGGTGCCATCAGCTAAGAG +GACAGTCCTCTTAGCCCCCTCCTTTCCCCGCTCATTCATTAAACAAATCCATTGCCATAAAATATATAAA +AAAGCCCTTGCTTTCTAACGTGAAAGTGGTTTAGGTTAAAAGACATCAGTTGAATAAACATTCACAGAGA +CTTTTATGACACGCGTTCAATTTAAACACCACCATCATCACCATCATCCTGACTAGTCTTTCAGGCGATG +TGTGCTGGAAGACATTCAGATCTTCCAGTGGTGCATGAACGCATGAGAAAGCCCCCGGAAGATCACCTTC +CGGGGGCTTTTTTATTGCGCGGTTGATAACGGTTCAGACAGGTTTAAAGAGGAATAACAAAATGACAGAC +AACACTCGTTTACGCATAGCTATGCAGAAATCCGGCCGTTTAAGTGATGACTCACGCGAATTGCTGGCGC +GCTGTGGCATTAAAATTAATCTTCACACCCAGCGCCTGATCGCGATGGCAGAAAACATGCCGATTGATAT +TCTGCGCGTGCGTGACGACGACATTCCCGGTCTGGTAATGGATGGCGTGGTAGACCTTGGGATTATCGGC +GAAAACGTGCTGGAAGAAGAGCTGCTTAACCGCCGCGCCCAGGGTGAAGATCCACGCTACTTTACCCTGC +GTCGTCTGGATTTCGGCGGCTGTCGTCTTTCGCTGGCAACGCCGGTTGATGAAGCCTGGGACGGTCCGCT +CTCCTTAAACGGTAAACGTATCGCCACCTCTTATCCTCACCTGCTCAAGCGTTATCTCGACCAGAAAGGC +ATCTCTTTTAAATCCTGCTTACTGAACGGTTCTGTTGAAGTCGCCCCGCGTGCCGGACTGGCGGATGCGA +TTTGCGATCTGGTTTCCACCGGTGCCACGCTGGAAGCTAACGGCCTGCGCGAAGTCGAAGTTATCTATCG +CTCGAAAGCCTGCCTGATTCAACGCGATGGCGAAATGGAAGAATCCAAACAGCAACTGATCGACAAACTG +CTGACCCGTATTCAGGGTGTGATCCAGGCGCGCGAATCAAAATACATCATGATGCACGCACCGACCGAAC +GTCTGGATGAAGTCATCGCCCTGCTGCCAGGTGCCGAACGCCCAACTATTCTGCCGCTGGCGGGTGACCA +ACAGCGCGTAGCGATGCACATGGTCAGCAGCGAAACCCTGTTCTGGGAAACCATGGAAAAACTGAAAGCG +CTGGGTGCCAGTTCAATTCTGGTCCTGCCGATTGAGAAGATGATGGAGTGATCGCCATGAGCTTTAACAC +AATCATTGACTGGAATAGCTGTACTGCGGAGCAACAACGCCAGCTGTTAATGCGCCCGGCGATTTCCGCC +TCTGAAAGCATTACCCGCACTGTTAACGATATTCTCGATAACGTGAAAGCACGCGGCGATGAGGCCCTGC +GGGAATACAGCGCGAAGTTTGATAAAACCACGGTTACCGCGCTGAAGGTGTCTGCAGAGGAGATCGCCGC +CGCCAGCGAACGCCTGAGCGACGAGCTAAAACAGGCGATGGCGGTGGCAGTAAAGAATATTGAAACCTTC +CACACTGCGCAAAAACTGCCGCCGGTAGATGTAGAAACGCAGCCAGGCGTGCGTTGCCAGCAGGTCACGC +GTCCGGTAGCTTCAGTTGGGTTGTATATTCCTGGCGGCTCCGCCCCGCTCTTCTCAACGGTATTAATGCT +GGCGACTCCGGCGAGTATTGCGGGCTGTAAAAAAGTGGTGCTGTGCTCACCGCCGCCGATTGCCGATGAG +ATCCTTTATGCGGCGCAGCTGTGCGGTGTGCAGGACGTGTTTAACGTCGGCGGCGCACAGGCCATTGCCG +CACTGGCGTTTGGTACGGAATCTGTGCCAAAAGTGGACAAAATCTTCGGGCCGGGTAACGCCTTTGTCAC +CGAAGCGAAACGTCAGGTGAGCCAGCGTCTGGACGGTGCGGCGATCGATATGCCCGCAGGCCCGTCGGAA +GTGCTGGTGATTGCTGACAGCGGCGCTACGCCGGATTTCGTGGCTTCTGATTTGCTCTCTCAGGCTGAAC +ACGGCCCGGACTCACAGGTGATTTTACTGACGCCCGCTGCTGATATGGCGCGTCGCGTTGCCGAGGCCGT +CGAACGCCAACTGGCAGAACTGCCGCGTGCCGAAACCGCCCGCCAGGCACTGAACGCCAGCCGCCTGATC +GTGACTAAAGATTTAGCGCAGTGCGTGGAGATCTCCAACCAGTACGGCCCGGAGCACCTGATCATTCAGA +CCCGCAACGCCCGTGAACTGGTCGATAGCATCACCAGCGCCGGTTCGGTATTTCTTGGTGACTGGTCACC +GGAATCGGCAGGTGATTACGCCTCCGGCACCAACCACGTTCTACCGACTTACGGTTACACCGCCACCTGT +TCCAGCCTCGGGCTGGCAGATTTCCAGAAGCGCATGACCGTACAGGAACTGTCGAAAGAGGGGTTCTCCG +CGCTGGCTTCAACCATAGAAACACTGGCCGCCGCCGAGCGCCTGACCGCCCACAAAAATGCCGTTACTTT +GCGTGTTAACGCCCTTAAGGAGCAAGCATGAGCACCGTGACTATTACCGATTTAGCGCGTGAAAACGTCC +GCAACCTGACGCCGTATCAGTCGGCGCGTCGTCTGGGCGGTAACGGCGATGTCTGGCTGAACGCCAACGA +ATACCCCACTGCCGTGGAGTTTCAGCTTACTCAGCAAACGCTCAACCGCTACCCGGAATGCCAGCCGAAA +GCGGTGATTGAAAATTACGCGCAATATGCAGGCGTAAAACCGGAGCAGGTGCTGGTCAGCCGTGGCGCGG +ACGAAGGTATTGAACTGCTGATTCGCGCTTTTTGCGAACCGGGTAAAGACGCCATCCTCTACTGCCCGCC +AACGTACGGCATGTACAGCGTCAGCGCCGAAACGATTGGCGTCGAGTGCCGCACAGTGCCGACGCTGGAC +AACTGGCAACTGGACTTACAGGGCATTTCCGACAAGCTGGACGGCGTAAAAGTGGTTTATGTTTGCAGCC +CCAATAACCCGACCGGGCAACTGATCAATCCGCAGGATTTTCGCACCCTGCTGGAGTTAACCCGCGGTAA +GGCGATTGTGGTTGCCGATGAAGCCTATATCGAGTTTTGCCCGCAGGCATCGCTGGCTGGCTGGCTGGCG +GAATATCCGCACCTGGCTATTTTACGCACACTGTCGAAAGCTTTTGCTCTGGCGGGGCTTCGTTGCGGAT +TTACGCTGGCAAACGAAGAAGTCATCAACCTGCTGATGAAAGTGATCGCCCCCTACCCGCTCTCGACGCC +GGTTGCCGACATTGCGGCCCAGGCGTTAAGCCCACAGGGAATCGTCGCCATGCGCGAACGGGTAGCGCAA +ATTATTGCAGAACGCGAATACCTGATTGCCGCACTGAAAGAGATCCCCTGCGTAGAGCAGGTTTTCGACT +CTGAAACCAACTACATTCTGGCGCGCTTTAAAGCCTCCAGTGCGGTGTTTAAATCTTTGTGGGATCAGGG +CATTATCTTACGTGATCAGAATAAACAACCCTCTTTAAGCGGCTGCCTGCGAATTACCGTCGGAACCCGT +GAAGAAAGCCAGCGCGTCATTGACGCCTTACGTGCGGAGCAAGTTTGATGAGTCAGAAGTATCTTTTTAT +CGATCGCGATGGAACCCTGATTAGCGAACCGCCGAGTGATTTTCAGGTGGACCGTTTTGATAAACTCGCC +TTTGAACCGGGCGTGATCCCGGAACTGCTGAAGCTGCAAAAAGCGGGCTACAAGCTGGTGATGATCACTA +ATCAGGATGGTCTTGGAACACAAAGTTTCCCACAGGCGGATTTCGATGGCCCGCACAACCTGATGATGCA +GATCTTCACCTCGCAAGGCGTACAGTTTGATGAAGTGCTGATTTGTCCGCACCTGCCCGCCGATGAGTGC +GACTGCCGTAAGCCGAAAGTAAAACTGGTGGAACGTTATCTGGCTGAGCAAGCGATGGATCGCGCTAACA +GTTATGTGATTGGCGATCGCGCGACCGACATTCAACTGGCGGAAAACATGGGCATTACTGGTTTACGCTA +CGACCGCGAAACCCTGAACTGGCCAATGATTGGCGAGCAACTCACCAGACGTGACCGTTACGCTCACGTA +GTGCGTAATACCAAAGAGACGCAGATTGACGTTCAGGTGTGGCTGGATCGTGAAGGTGGCAGCAAGATTA +ACACCGGCGTTGGCTTCTTTGATCATATGCTGGATCAGATCGCTACCCACGGCGGTTTCCGCATGGAAAT +CAACGTCAAAGGCGACCTCTATATCGACGATCACCACACCGTCGAAGATACCGGCCTGGCGCTGGGCGAA +GCGCTAAAAATCGCCCTCGGAGACAAACGCGGTATTTGCCGCTTTGGTTTTGTGCTACCGATGGACGAAT +GCCTTGCCCGCTGCGCGCTGGATATCTCTGGTCGCCCGCACCTGGAATATAAAGCCGAGTTTACCTACCA +GCGCGTGGGCGATCTCAGCACCGAAATGATCGAGCACTTCTTCCGTTCGCTCTCATACACCATGGGCGTG +ACGCTACACCTGAAAACCAAAGGTAAAAACGATCATCACCGTGTAGAGAGTCTGTTCAAAGCCTTTGGTC +GCACCCTGCGCCAGGCCATCCGCGTGGAAGGCGATACCCTGCCCTCGTCGAAAGGAGTGCTGTAATGAAC +GTGGTGATCCTTGATACCGGCTGCGCCAACCTGAACTCGGTGAAGTCTGCCATTGCGCGTCACGGTTATG +AACCCAAAGTCAGCCGTGACCCGGACGTCGTGTTGCTGGCCGATAAACTGTTTTTACCCGGCGTTGGCAC +TGCGCAAGCGGCGATGGATCAGGTACGTGAGCGCGAGCTGTTTGATCTCATCAAAGCCTGTACCCAACCG +GTGCTGGGCATCTGCTTAGGGATGCAACTGCTGGGGCGGCGCAGCGAAGAGAGCAACGGCGTCGACTTGC +TGGGCATCATCGACGAAGACGTGCCGAAAATGACCGACTTTGGTCTGCCACTGCCACATATGGGCTGGAA +CCGCGTTTACCCGCAGGCAGGCAACCGCCTGTTTCAGGGGATTGAAGACGGCGCGTACTTTTACTTTGTT +CACAGCTACGCAATGCCGGTCAATCCGTGGACCATCGCCCAGTGTAATTACGGCGAACCGTTCACCGCGG +CGGTACAAAAAGATAACTTCTACGGCGTGCAGTTCCACCCGGAGCGTTCTGGTGCCGCTGGTGCTAAGTT +GCTGAAAAACTTCCTGGAGATGTGATGATTATTCCGGCATTAGATTTAATCGACGGCACTGTGGTGCGTC +TCCATCAGGGCGATTACGGCAAACAGCGCGATTACGGTAACGACCCGCTGCCGCGATTGCAGGATTACGC +CGCGCAGGGTGCCGAAGTGCTGCACCTGGTGGATCTGACCGGGGCAAAAGATCCGGCTAAACGTCAAATC +CCGCTGATTAAAACCCTGGTCGCGGGCGTTAACGTTCCGGTGCAGGTTGGCGGCGGCGTGCGTAGCGAAG +AAGATGTGGCGGCGTTACTGGAAGCGGGCGTTGCGCGCGTAGTGGTCGGCTCCACCGCGGTGAAATCACA +AGATATGGTGAAAGGCTGGTTTGAACGCTTCGGTGCCGATGCCTTAGTGCTGGCGCTGGATGTCCGTATT +GACGAGCAAGGCAACAAGCAGGTGGCAGTCAGCGGCTGGCAAGAGAACTCGGGCGTTTCACTGGAACAAC +TGGTGGAAACCTATCTGCCCGTCGGCCTGAAACATGTGCTGTGTACCGATATCTCGCGCGACGGCACGCT +GGCAGGCTCTAACGTCTCTTTATATGAAGAAGTGTGCGCCAGATATCCGCAGGTGGCATTTCAGTCCTCC +GGCGGTATTGGCGACATTGATGATGTGGCGGCCCTGCGTGGCACTGGTGTGCGCGGCGTAATAGTTGGTC +GGGCATTACTGGAAGGTAAATTCACCGTGAAGGAGGCCATCGCATGCTGGCAAAACGCATAATCCCATGT +CTCGACGTTCGTGATGGTCAGGTGGTGAAAGGCGTACAGTTTCGCAACCATGAAATCATTGGCGATATCG +TGCCGCTGGCAAAACGCTACGCTGAAGAAGGCGCTGACGAACTGGTGTTCTACGATATCACCGCTTCCAG +CGATGGCCGTGTGGTAGATAAAAGCTGGGTATCTCGCGTGGCGGAAGTGATCGACATTCCGTTTTGTGTG +GCGGGTGGGATTAAGTCTCTGGAAGATGCCGCGAAAATTCTTTCCTTTGGCGCGGATAAAATTTCCATCA +ACTCTCCTGCGCTGGCAGACCCAACATTAATTACTCGCCTGGCCGATCGCTTTGGCGTGCAGTGTATTGT +GGTCGGTATTGATACCTGGTACGACGCCGAAACCGGTAAATATCATGTGAATCAATATACCGGCGATGAA +AGCCGCACCCGCGTCACTCAATGGGAAACGCTCGACTGGGTACAGGAAGTGCAAAAACGCGGTGCCGGAG +AAATCGTCCTCAATATGATGAATCAGGACGGCGTGCGTAACGGTTACGACCTCGAACAACTGAAAAAAGT +GCGTGAAGTTTGCCACGTCCCGCTGATTGCCTCCGGTGGCGCGGGCACCATGGAACACTTCCTCGAAGCC +TTCCGCGATGCCGACGTTGACGGCGCGCTGGCAGCTTCCGTATTCCACAAACAAATAATCAATATTGGTG +AATTAAAAGCGTACCTGGCAACACAGGGCGTGGAGATCAGGATATGTTAACAGAACAACAACGTCGCGAA +CTGGACTGGGAAAAAACCGACGGACTTATGCCGGTGATTGTGCAACACGCGGTATCCGGCGAAGTGCTAA +TGCTGGGCTATATGAACCCGGAAGCCTTAGACAAAACCCTCGAAAGCGGCAAAGTCACCTTCTTCTCGCG +CACTAAACAGCGACTGTGGACCAAAGGCGAAACGTCGGGCAATTTCCTCAACGTAGTGAGTATTGCCCCG +GACTGCGACAACGACACGTTACTGGTGCTGGCGAATCCCATCGGCCCGACCTGCCACAAAGGCACCAGCA +GTTGCTTCGGCGACACCGCTCACCAGTGGCTGTTCCTGTATCAACTGGAACAACTGCTCGCCGAGCGCAA +ATCTGCCGATCCGGAAACCTCCTACACCGCCAAACTGTATGCCAGCGGCACCAAACGCATTGCGCAGAAA +GTGGGTGAAGAAGGCGTGGAAACCGCGCTGGCAGCAACGGTACATGACCGCTTTGAGCTGACCAACGAGG +CGTCTGATTTGATGTATCACCTGCTGGTGTTGTTGCAGGATCAGGGGCTGGATTTAACGACGGTAATTGA +GAACCTGCGTAAACGGCATCAGTGAGTTGCGGGGTAAGCGGATGCGATATTGTTGCCGCATCCGGCAAAA +AAACGGGCAAGGTGTCACCACCCTGCCCTTTTTCTTTAAAACCGAAAAGATTACTTCGCGTTGTAATTGC +GTAGAGCATTACGCCCCAGCACAATCCCCGCGCCAACCATGCCACCCAGCAGCACCGCCAGAATCAAGGT +AATTGCCTTTTTCGGGCTATCACGACGAATAGGTAACATCGGTTTCATCACATAACGGTAAGCATGAATA +TCAAGATCATCAACTTTTAAGCTTTCGATATCCAGCAGGTTTTGACGAGTCTGATAGTAGTTTGGCGAGA +ACACCAACGGACGGGTCGCCTCATGCTTAATCATCGACTCCAGCGCTTCGCTCCCCAAAAGGAACAACGT +ATCTTGTGTGATATCTTCGCCAGTCTGTTGAATCTGCGGTTTTGTCACCTGCGCCTGATTCGCATACTGC +AACGCTTCCTGAATCTGACGGATACGCAGATCTTTCTGCTCCTGCGCGACTACTTCCTGCGTTCTTAAAG +AGTCCTGCAAGTTTTTCCGTCCCAGAGCAATGTTGTCTTTGAGATCCTTTTCTAGCTCTTGATTCACTTT +ATCGTCAACTTGCTGAATGTATTGGGCCAACTTCATTTGTGCGCCCTCTGCAGTTTGCCCAACATAAGAA +ACAGTCAATGGTAATTGCTGGTTCTTAACAGAAGGTTCGATGGTAAGTTTTTCTCGTTCTTCCTGATTAT +CCAGCGTTTCTGCTAATGCAGAGAAGGCAGAACTGAAGCGACCAATTAACGTCTCCTGCAAATCCGATAC +TTTCGGTGCAGCCTGACCATAGATAACATTCATGGCATTGTTATAGCCAGCAATTTGCCCCACGTCGGGC +TGAGTGATAATTGCTGTTGACGTCCATTTCTCCTTCGCTACTGCCAAATATCCAATAGCCAGGGCAATAG +CCACAATGACGGAAATGATGATTGTCATCTTGCCACGCCACAACTGCACTAGTAAATCAATCAAATCAAT +CTGTTCCGGGTCATGGTTTTGCCCAGAAACATTATTATTTTCTACTCTCATCATTACCCTAACTGACGGA +AATTTCCAAGTCCGCATAGTTTAGCGATAATCCTCGTGAATGCTATAGGATAAGTGATAAAAATAATGAA +TTGTTGTGTAAGTAACAAAAGACAATCAGGGCGTAAATAGCCCTGATAACAAGATGTTAGTCGCTGCCAA +AGAGATCGCGGGTGTATACCTTATCTGCCACATCCTTAAGCTCTTCTGCCATTCGGTTAGAGATAATGAC +GTCGGCTTGTTGTTTGAAGGTGGCGAGATCACGTTCCAGGCGAGAGTTGAAGAATGAGTCTTCTTTCATC +ACTGGCTCGTAGATGATCACTTCAACACCTTTCGCCTTGATACGTTTCATAATCCCCTGAATAGAAGACG +CACGGAAGTTATCTGAACCGCTCTTCATAATCAGACGATAAATACCCACCACTTGCGGCTTGCGTGACAA +AATGGCATCGGCAATAAAATCTTTACGCGTGCGGTTAGCATCGACAATTGCCGAGATCAGGTTATTCGGC +ACAGACTGGTAGTTCGCCAGTAACTGCTTGGTATCTTTCGGCAGACAATAACCACCATAACCAAACGACG +GATTGTTGTAATGGTTGCCAATACGTGGGTCGAGACAAACGCCTTCGATTATTTGACGGGAATTCAGACC +TAAACTTTCTGCATAGCTATCCAGTTCGTTAAAGTACGCCACGCGCATCGCCAGGTAGGTGTTTGCAAAA +AGTTTAATCGCTTCTGCTTCAGTGGAGTCGGTAAACAGCATCGGGATATTTTGCTTAATCGCGCCTTCCT +GTAACAGAGCAGCGAAACGTTCTGCGCGTTCTGAACGCTCACCGATGACAATACGTGAAGGATGGAGATT +ATCGTAAAGGGCTTTACCCTCACGGAGAAATTCCGGGGAGAATATAATATTTTCAGTGCGATATTTCTTA +TGCATCGCTGCGGTAAAACCAACGGGAACCGTTGATTTGATGACCATAACCGCATAAGGATTTATCTCAA +CTACGTCTTTAATTACTGATTCTACACTGGATGTATTGAAATAATTAGTTTTAGGATCATAGTCGGTTGG +AGTGGCGATGATGACATAATCAGCATCCCGGTAGGCTTCATTTTTATCTAATGTGGCATTAAAGTGTATT +TTATCTGATTGCAAAAACTGCTGAATTTCCTTATCAACAATAGGAGATATCCGATCATTCAGCATAGCAA +CGCGTGACGGTAAAATATCTAATGCCACAACCTCATGATTTTGTGCGATTAGAAGCCCGTTTGACAAGCC +TACATAGCCAGTACCGGAAATGGTGATTTTCATTTCATGCTCTCAGAATTAACTTAACTGTGAATCATGA +TGTTTTTAGCATCCTGATAAGAGCTAAAAGTTTTAACGCTACGTTGTTCGATGGTCAACGCAACGAAAAA +CAATTCAGATTTTCTTTATAAGAATAGCTGATATTTATTAAGTTAATATTAAGCAGTGAAATTTAGTCTA +TAAGATATTTGGCAAAAAAAAGCCCGGTGCAATATACGCCGGGCCTCAATTTTATTGTTGGTTAAATCAG +ATTAATCCAGCCATTCGGTATGGAACACACCTTCTTTATCAATACGCTTATAAGTATGCGCACCAAAATA +GTCACGCTGTGCCTGGATCAGGTTCGCAGGCAGAACAGCAGCACGGTAGCTGTCGTAATAGGCAACCGCT +GCGGAGAAGGTCGGAACCGGAATACCGTTCTGTACTGCATAAGCAACGACATCACGCAGCGCCTGCTGGT +AGTCATCGGCAATTTGCTTGAAGTACGGAGCCAGCAACAGGTTAGCGATCTGTGGATTTTCGGCATAAGC +ATCGGTGATTTTCTGCAGGAACTGCGCACGGATGATGCAGCCAGCACGGAAAATCTTCGCGATTTCGCCG +TAGTTCAGATCCCAGTTGTACTCTTCAGACGCAGCACGCAGCTGAGAGAAGCCCTGGGCGTAAGAAACGA +TTTTGCCCAGATACAGCGCACGACGAACTTTTTCGATGAACTCAGCCTTGTCGCCTGCTGGCTGTGCTTG +CGGACCAGAGAGAACTTTAGATGCGGCAACACGCTGATCTTTCAGAGAAGAGATATAACGTGCAAACACA +GACTCGGTAATCAGCGACAGCGGTTCGCCGAGATCCAGCGCGCTCTGGCTGGTCCATTTACCGGTACCTT +TGTTAGCCGCTTCATCCAGGATCACATCAACCAGGTAGTTACCGTCTTCATCTTTTTTGGTGAAGATATC +TTTGGTGATGTCGATCAGGTAACTGCTCAGTTCACCGTTATTCCACTCGGTAAAGGTCTGCGCCAGTTCT +TCGTTGGTGAGGTTCAGGCCACCTTTAAGCAGAGAATAGGCTTCAGCAATCAGCTGCATATCGCCGTATT +CAATACCGTTGTGAACCATCTTCACATAGTGACCTGCGCCATCGGCACCAATATAGGTAACGCATGGTTC +ACCGTCTTCAGCTACGGCGGCGATTTTGGTCAGGATCGGTGCTACCAATTCATAGGCTTCTTTCTGGCCA +CCAGGCATAATAGAAGGACCTTTCAGCGCCCCCTCTTCACCGCCAGAAACACCGGTACCGATGAAGTTAA +AGCCCTCTGCTGAAAGCTCACGATTACGACGAATAGTGTCCTGGAAGAAGGTGTTACCACCATCAATGAT +GATGTCTCCTTTATCGAGATATGGTTTGAGGGAATCAATAGCAGCATCCGTGCCTGCACCTGCTTTCACC +ATTAACAGGATGCGACGAGGCGTTTCCAGAGATTCGACAAACTCTTTCACCGTATAGTAAGGAACCAGTT +TCTTGCCTGGATTTTCGGCAATCACTTCTTCCGTCTTCTCACGGGAACGGTTGAAAATAGAGACGGTATA +ACCACGGCTTTCGATGTTGAGCGCAAGGTTGCGTCCCATCACTGCCATACCGACTACGCCGATCTGTTGC +TTGGACATTACATACTCCTGTCAGGTGTGATCACCGCGCTGAATGCTCGCGGCCTGGAATGTTCGCAAAT +AAGTATACAAAGTACTTATTAAAGTATAAATAGCTTATCCATGCTTATATGCTTACGGCTTTATATTACG +GGTGAAAAACTGATGAAATTCGATCAAAGTTGCGATTTGATAAAATACGTTTTCTGGCTAAATATCTAAA +AGTACTTTTTAAGTGCCATCTGAAGGCTTTTGAAAAAAAACTTCGATTGTCATGATGAGCATAATGTATC +GCATGAAAAGCGGGAACATAATGAAGTCTGACACCAGCCAGGCTAAGCCTCAAGCACAGGTCAATATCTT +CACAGTACATAAAGTAACCTTGATCGAAGCCATTTACACGCACAAAATCTGAAAAACGTACCAGCATAAA +TGATCCTGCGCACCAATCAACAACCGTATCAGAATAGATACTTTCTTTAGGAATTTTTGTTTTATTAAGG +AAGGTGCGAATAAGCGGGGAAATTCTTCTCGGCTGACTCAGTCATTTCATTTCTTCATGTTTGAGCCGAT +TTTTTCTCCCGTAAATGCCTTGAATCAGCCTATTTAGACCGTTTCTTCGCCATTTAAGGCGTTATCCCCA +GTTTTTAGTGAGATCTCTCCCACTGACGTATCATTTGGTCCGCCCGAAACAGGTTGGCCAGCGTGAATAA +CATCGCCAGTTGGTTATCGTTTTTCAGCAACCCCTTGTATCTGGCTTTCACGAAGCCGAACTGTCGCTTG +ATGATGCGAAATGGGTGCTCCACCCTGGCCCGGATGCTGGCTTTCATGTATTCGATGTTGATGGCCGTTT +TGTTCTTGCGTGGATGCTGTTTCAAGGTTCTTACCTTGCCGGGGCGCTCGGCGATCAGCCAGTCCACATC +CACCTCGGCCAGCTCCTCGCGCTGTGGCGCCCCTTGGTAGCCGGCATCGGCTGAGACAAATTGCTCCTCT +CCATGCAGCAGATTACCCAGCTGATTGAGGTCATGCTCGTTGGCCGCGGTGGTGACCAGGCTGTGGGTCA +GGCCACTCTTGGCATCGACACCAATGTGGGCCTTCATGCCAAAGTGCCACTGATTGCCTTTCTTGGTCTG +ATGCATCTCCGGATCGCGTTGCTGCTCTTTGTTCTTGGTCGAGCTGGGTGCCTCAATGATGGTGGCATCG +ACCAAGGTGCCTTGAGTCATCATGACGCCTGCTTCGGCCAGCCAGCGATTGATGGTCTTGAACAATTGGC +GGGCCAGTTGATGCTGCTCCAGCAGGTGGCGGAAATTCATGATGGTGGTGCGGTCCGGCAAGGCGCTATC +CAGGGATAACCGGGCAAACAGACGCATGGAGGCGATTTCGTACAGAGCATCTTCCATCGCGCCATCGCTC +AGGTTGTACCAATGCTGCATGCAGTGAATGCGTAGCATGGTTTCCAGCGGATAAGGTCGCCGGCCATTAC +CAGCCTTGGGGTAAAACGGCTCGATGACTTCCACCATGTTTTGCCATGGCAGAATCTGCTCCATGCGGGA +CAAGAAAATCTCTTTTCTGGTCTGACGGCGCTTACTGCTGAATTCACTGTCGGCGAAGGTAAGTTGATGA +CTCATGATGAACCCTGTTCTATGGCTCCAGATGACAAACATGATCTCATATCAGGGACTTGTTCGCACCT +TCCTTAATCCCTAACATAAATGACACAATAAAATCAGAAAGCACAGGAAATTTTCTTACGGAATAATCAT +GTAAAGATTTCGCTTCATCTCGGAACAGGCATAATGTACTAAAAGCATAACGCTTACTTTCGACATATTT +AATATATGTCAGCAAATCATCATGCTTCATGATGATATCGGGATTCAAAAACAAAATGTAATCATCATCT +GCGGGTCTATATTTTTCCTTTACATACGCCACCGCAATATTATTATTATGACCAAAGCCGTATACACCTC +CACTAATATAGTCCAGGCCTGCATAATGCTGGCATATTTGTTTCAATAATAGAGAGTCTTTGTTGTCGCG +TACGATAATCTTGTAGTGCTCATCGTCAGCATTAAGATTTTCGAGTAATTTTTTGATGTAGTCTTCATGT +CCGTGGGAAACGATTATTATATATACCATTTCAATGTTCTTCAGTAATAAAATTAACTAGTTCATCAAAC +CCAACTAATACATTTTCATTACGATAAATGAAATTTGCATCAGAGATATCTTTTTTGAGGTTACCTTTTT +TGAAGTCAATAATAAGTTTAACTAACATGTCATCGTTATTAGAATCAAAAAAAGCTTTCTTTTCATAACT +ACCAAGAGTTTCTCTAGTAAATGGGAAATCTGATGCTAATACCCACTTACCTCGCTCTTTAGCTTCAGAC +AACGGCAATCCCCATGTTTCTAACCTAGAGGGAAAACAAACTATATCTGAAATATTATAACAATGATCGA +TTTTTTCTTTATCCAAGTACCCGAGGAAATGAACATTATCCAGTCCTTCTGCAAGACTGATAATATATTT +TGCATACGCATTTTCTGTACCACTGATAGTAAGCAGAAATTTAATATTGGATTGTTCTTTCAATTTCCTT +GCTGCACTAATAATAAGCTCGTAATTTTTAAATACTCGTGGAACAGCAGGGTAAAATATTGTCAACTCAG +AAGGGTTATTCTTAAATTGAGAATCATCATCAGTAAGTTGGCTTTTATCAGATAATTTAATTTCTGGCCG +ACTGACAATGATGTTATTTATAGAATATTTCTTGATAAATTTTTCTTTCATCCAGAATTGTTGAACAAAC +ACTGCAGTATTTTTTTTAATGTTTATTTTATATATCAGCCCGTATAGCATTTTAAATAAGAAAAAGCTAG +GCTCCATAAGAATTTCACGGAATAAAATTCCTTTATAAAAAGGTGCAGGGTTATGACAATACACATATCT +TTTTTTAGTGACGACATTGGCCGTAATATCATGCAGACAAATCCAATGCGTAGCATTCAGCTCTTTTGAA +AGTTTTTTACAAACTACATATTCAAAGTGCAAACGTTTTAGCCACGACCCTTTAACCTCAGGAAACTCAA +TGAATTTAACCCATGGATAACTTTCTTTTAACTCTTTAGCAGAATGGACTAATGCGATAAAACTGACATT +TTCTTTATTATTAGTTGCTGCCAAAAATTTTTTCAAAATGGTAAATGGACCGCCAGTGGTAAAATTGACC +GCAGAAACAACGACTATGCTTTTTCCCATAATTTGGTCTCATGATTGTATTTCTTTATGATTTTTGCTGG +TACTCCCGCAATGACAGTATTTTCGGGAATAGAACCTCTAACAACAGAATTGGCGCCGACTACGACTCCA +TTACCAATAATTGTTCCAGGCAAAACCGTCACATTCTCACCCAACCAAACCCTCTGGCCAATTACAACAG +CTGAAGATTCCAACGTGCGCATGTCTGGAGGTATATTTGGCGAACTCATTGGATCAGAGTGCTTAAAGGA +ACCGTGATTATGATCGGTAATAAATACTTTACTTGCAATAAGCGTATCCCGACCTATCGTAACGCTCTCA +ATTGAGGCGATATGAACATAGTCGTTAACTTGCACATTATCGGAAAAAAAAATCACGCCACGTCCAAATG +CATCCAGCCTGAGACCGACTCCACTTGTGAAATTTTCACCAAAATTAATGCTACCATCATTGCGAATATA +GCAGGGAAATCGAATAATTCTACAGTTCCGGTAAAATACACGAGTCAATAAGACATCTCTAACAAGCCGA +ATAAAACCACAGAGACCATATCGTTTAGCGAGTTTTAAGATCATCGATCACCTCTTCAAGAACATCCCTG +AAGTAACTTCCTGTTCGAATTTTCTGAGAAATAATTTTTGTATTCTCACTAATTTGCTTATAAGTTTCTA +TTGTCATGGAGTCAACAATCTCTTGCATTTCTTTGATTGATCCCACTGCATATCCTATTCTATTATCTAC +AATGAAATCCGCAAGGGCGGCTTTATCCCATATAAATACTGGAAGTTCCATTGAAAGATAAAGAGATGTC +TTATGAGGGTTATTAAACTTTAAATAGTCGCCAAAGGCACCACTACAGGTTTCGACAGAATCTCCATCCC +AAATGAGTCCAAATTGCATGCCTGGGAGGTTAATCTTTTCCGGAGATTGAGCATCAAAACTTCCAAGATA +TTTAGGATTATCTTTATTTTCATAGTTGACACCAAAGAGAGTAAAATCGCATCCTTCAGTATATATGAAA +GAACATTTATGCCTAGAAAGGTTGCCAGCATATATGACCCCTCGTTGCTTATCCGTAACATCTCGATGCT +CCACATCAGATGAGACGAGGTAATCAAATATTTTTATGTCTTTGATTTTATCCTGAGACATATATTTACT +AAGGTACTTTGTCATTTGTGGATTGTGACTTATGACCATATCACAGGTAGCAAGCCGCACAGAATCACTA +CCCCCTCCTCCTCTTAATTCATCAATATCATGAATCAGAGGTACTATTCTAAATTTTAGAAGGCGGTGAA +AGAATGACAATATATGCCAAAATGGTTTGGCCATCGGGAAATTGAAAATTAAAACATCTTTATTTTCAAG +ACCGCAGAGAAATGTACTAAGCTTAACAGAACTAATAATTCTCTGGACTACTCCACCCCATAGAGGAATG +TTAACAACAGAAATGTTTTCATAATCTGAAGCAATGTCCAGTGCATCTTTTCTTGCTTTAAATCCAGCAT +CGCGTCTAGAGAAATTTAAATCATTCAAAAAATACATTTTCACTTTATTTTCTGGGCCTTAAGAAATTGA +GAGAATACTATGATACAAAGAGTTATTTGTATCCAACTGCTAATATTAGTCATGAAGCTTTCATGATAAA +AAATGAAAGAAAAGGTATAAATAAAATATGAATAAAATATTTTCACAGATATGTAATTTCGAGACAATCT +CCATAAAACACCTGAAATACAGCCATGAATAACCATCATCAAATAGCTTAGCTCCGCGGAAATATAAACA +TAATCCGAAAAAGCAGTATAAACATTTGTTGGCAAACCCACCCACACAAATTCTTTATGCAACGACATAG +AGACTCCACCTGTTAATAGCCCCATCAGCCTTTCAAAAAACCAAAAGACATGAGAACTGGCAGAGTTAGA +TACTTGCTGAAAATAAAACTCCTGAAACGCGATTATAGGGCTGACCAAATACATGGATAGATAATATGCC +ATCCCCCCAGGCAGTCCACGTAAAAAGAGCATATACAAGGAGAATAGAACACCTACAGCTGTAATAAGAT +AAACATAATGTTTTACTCTATTAACACCTACGATGAATGCATAAGAGATGATAACCATAAAGACAATTTG +CTTACCAGTATTCAGTATAATTGCAAAGATGAATACAATAAAAACAAGTAAAGTAAATGTTTTACTTACC +TTTGTATTAGTAAATTTTTTAGACCAAATAAATAAAGCAAAAGTAGTTAGAATGATTGGCTGCATGTATG +CTGAGAAATTTCTTGATGTGTCTTCAACATCAGCATCTCTTATCAAATTCATATAGCTAAGTAAGCTAGT +CCCGAACTGGTAGTTACTTAACCTCATGCATATATATATCATCGAAAAAGAAATAACTAACAAGCCTACA +TTATGCACTTTCTTCGATGGTATGCTATAAATAGCATTATTGACTTTTCTGATATTTAGATCTAATACAC +TTTCCGTCAATAAACATGACAGGGTAAATGTCAAAACATTGCAAAGTAGAAAAATCAACGTAGCGTCATT +TAACTGAAAAGCATATATATCTGACGTTATTTCATATCCCAATAAGACCAGTGCGAAGATGATATTAACG +CATACGGCTGGATAAAATATATCCTTCTTAAGATATAAACAGATAAATGCTGTAATGAGAAAGACACTAA +TTACAAGATAGATCATTAATCCGTACTCATTATATTTTTCACTTGATAAAGAGCGGCAGATATCACTTGA +TGCATATCATAATATTTATACTCGGCCAAACGCCCGCCAAATATAACCTTGTCTTCTCTGCTAGCTAACT +CTCTATATTTCTTAAAAAGCTCCATGTTTTTATTATCATTAACTGGATAGTAGGGTTCGTCGCCAACTTT +CCACTCTAATGGATATTCTTTTGTAACAACCGTATGCTTTGTCTCAACATAGTCAAAATGTTTATGCTCA +ATTATTCTGGTATATGGTACATTAGCATCAGTGAAATTTATTACTGCATTCCCTTGGAAGTTTGGAAATT +CATGGCGTTCCGTCTCAAATTTTAAAGAGCGATATTCTAACGCTCCAAACCTATAGTCGAAGTACTGATC +AATGGGTCCAGTGTAGATGATTCTATGGGCTTTACTCGCTAGAGAATCTTTGTCTTTCAAAAAATCAATG +CCTAATTTTACGTCCACACCTTCAAGCATTTTTTCAATAAGCTTAGTGTAGCCTCCCACCGGAATACCTT +GATAGCGATCGGAAAAATAATTGTTATCAAACGTAAATCTCACTGGGATTCGCTTAATAATAAATGCAGG +CAATTCTTTTGCACTTCTTCCCCACTGCTTCTCCGTATAACCCTTTATCAATGCTTGGTATAAGTCCTCC +CCAACTAATGAAATCGCCTGCTCCTCCAAATTTTCAGGTACCTTGTCACCATACTTTTTTTTCTGAGCAT +TAATGATATTTTGAGCTTCTTGAGGATCTTTAACTCCCCACATTTGGTGGAAAGTATTCATATTAAAAGG +AAGGTTGAATAATTTGTCTTTATAAATCGCCAGTGGAGAATTAGTAAAACGATTAAATTCTACTAAATCA +TTAACGTAATCCCATATATATTTATCATTGGTATGAAAAATATGTGCACCATATTTATGAATCTGGATAC +CCTCACAGTCCTCTGTGTACGCATTTCCACCGATATGATTTCTTTTCTCAATCACTAAAACTTTTTTGTT +TAGCTTTTTTAACTCATTCGCACAAACGGCACCAAACAAACCAGAACCAACAATGATATAATCGTACATA +AAATCCTCAGCAAACCAGTAATTTATTATTTCTTACGAACATCAGCATGAGTGACGTAACTAAGCACTCT +GTTGCAAGCAATGTTATTGCTGCACCAATCTCTTTAAAAAGAGTTGTTAGCGGAAAAATCAACAACAAAC +TCAACAAACCCGCAGCGATTAAAATCTTACTGAATTCTTTCTTATAATTATGGGTCAGCATAACTTGAAT +GCCATAGACATTACTTAATGAAATAAGAAAAGGCAGAGGCGATATAATCATTAGCACAATCACTGCATTA +TCATATCCCGGCCCTATACTTATTTTTACTAGTATAGATGCACCCAAGAGCAGAATTAATGAAAAAGCAC +CACCAATCAAACTCAAGCAGGTCAATGATTTTTTAATTAAAATCACACCCTTCACACGATTAAGAACAAG +CGTACTTGATATTCTTGGGTATATTGCTTGGGTGATAGGATTTAATAGCCCTTGAAGCGCGTTTCTTATA +GTATTGGCCGCATTAAAATTCCCTACGGACGTTGGTCCAGATATAAATCCCAGGATAATAACTATTCCCG +TAGAATATAAACTAATAGCAGATGTGGAAATAAAAACATGAAAACCGTCTGCTAAAGATCGACGCACATT +ATGTAATGATAGCGTAACTTTACCAATCCAACCTTCATGAACAACGATAGCTAGTGCAATAATTCCAGCA +ACCAGATTTGCACTTGACTGAATAAAACCGGCAATTGCTATATCTGACTTTGTGTTCACAAAAATAAATG +TTAGAGGGATAATAGCCAAGCGGGATAAAATACTACTTAAAGTCAGCCATTTCATTTTTTCTTTTCCCTG +AAACAGCCAGATAGGGTAGATTAAATTCCCGACTAATGCAGGAACAAACGACCATATAATTACGGCATGC +TTGTTATATTCAGGAACAAGCAAGGTCATCGACGTTAAGAAAATCAATGTAATGACGATAAGAACTATTT +TTGAAAATATCACCGCCCAAAAAATAGACGTTACTTTATCTTTACTATCTGCTGCTTTGGCAATACTCTG +AGTTGCTGTGAGATTGAAACCATATTCAACAAACATTATCATATATAGCATAGTCGCTTGGCAAAAACCG +AATATACCGAAATTTTCAGGACCAAGTGTTCTTACAAGATATGGAAATGTAAGCAATGGTAAAAGATAAT +TGCTACCTTGAACGACAGCCAGATATATAACGTTTCTTCTTAAAGATAATTTATTCGTATTCATGCAATT +AATTTTAATCTGATAAGCTCATCTAACGTAAAGAGCCTTTCATCTTTTGGCGAAAGGATTAACCCTGATG +TTTGGGGCCAATCAATTGCAATGCGTTCATCATTCCAACATATTCCACAATCGCTTTCAGGATGATAATA +GTTTGTAGTTTTATATTGAAATTCAGCGATATCAGACAGAACCAAAAAGCCATGAGCAAACCCTTTTGGT +ATCCACAACTGCTGCTTATTATCAGCTGAAAGCAGAACACCAACCCATTTACCAAAGGATACCGAATTGG +GTCGAATATCAACAGCAACATCAAAAACTGCTCCATGAGTGCAGCGTACAAGTTTATCTTGTGCGTACTC +GCCGCGTTGAAAGTGAAGGCCTCTGAGTACATTTTTTGATGAACGTGAGTGATTGTCTTGAACAAAGCTG +ACCGGATAGCCTAGAATATGTTCAAATGCTGATTGATTAAAGCTCTCATAAAAGAAACCTCTATCATCAC +CAAATACTCTTGGCTCCAGAATTAGCACATCTTCAATTTCAGTTCTAATCACATTCATTAATTTGAATCC +TTCGTCATTTTATAAAGATACTGCCCATAATTATTCTTTATTAGTGGTACAGCTAATTTTCTTACTTGCT +CAACATCAATAAAACCTTTACGAAATGCAATCTCTTCAGGACAGGAAACCTTCAATCCCTGGCGCTCTTC +AATTGTCGCAATAAAATTACTTGCTTCTATCAGACTCTGATGAGTCCCCGTGTCCAGCCACGCGTAGCCA +CGCCCCATCATCGCGACAGACAGACGTCCCTGCTCAAGATAAATACGGTTAATATCTGTAATTTCTAACT +CACCACGTGCAGACGGCTTCAAGTTTTTCGCCATCTGAACCACGTCGTTATCATAAAAGTACAGACCTGT +AACGGCGTAATTACTCTTTGGTTCTAACGGTTTTTCTTCCAGACTGATTGCCGTACCGTTTTTATCAAAC +TCAACGACACCATAGCGTTCTGGATCATTAACGTGATAGGCAAATACCGTTGCACCACTTTCTTTGTTAA +CAGCGGCCTCCATTAGCTTCGGCAGATCGTGACCGTAAAAGATATTATCACCAAGAACCAAAGCACAATC +ATCACCACCAATAAACTCTTCACCGATGATAAATGCCTGCGCGAGGCCATCTGGGCTAGGTTGCACTTTG +TACTGAAGATTCAGGCCCCACTGGCTACCGTCACCCAGCAATTGTTGAAAACGAGGAGTATCCTGAGGTG +TACTGATAATCAAAATATCGCGAATACCCGCCAACATCAGTGTAGAGAGCGGGTAATAGATCATCGGTTT +ATCATAAATAGGTAATAGCTGTTTACTGACAGCCATAGTCACAGGATAAAGACGTGTACCAGAACCACCC +GCTAAAATAATACCTTTACGCATTTTCATTTCATCATTCCTTTTAATTCATCTTGCTCCACCATCACGAA +CAAGATGCAAAAACTATTAAATTGCTGTAGTCGTAAATAATTCATTGAGCATTCGTTTCACGCCAACCTG +CCAGTCAGGCAAGACAAGCGCAAAGTTCTGCTGAAATTTTTCTGTATTAAGGCGAGAGTTATGTGGACGA +CGAGCTGGTGTAGGATAGGCTGTTGTTGGTACTGCGTTGAGCTTGTTGAGTGCAAGGGGAATGCCTGCTT +TGCGCGCCTCTTCAAAAACCAGCGCAGCATAATCGTACCAGGTTGTGGTACCACTGGCTACCAAATGGTA +CAAGCCTGCGACATCCGGTTTATTCAGTGCGACACGAATGGCATGTGCTGTACAATCAGCCAGCAGTTCA +GCACCTGTTGGCGCACCAAACTGATCGTTAATAACCGCTAATTCTTCACGCTCTTTTGCCAGACGTAACA +TCGTTTTGGCGAAGTTATTTCCTTTTCCTGCATAGACCCAGCTGGTCCGGAAAATAAGATGCTTCGCGCA +ATATTCCTGTAACGCTTTTTCTCCGGCTAACTTGGTTTCACCGTAAACATTTAGTGGTGCGGTTGCATCC +GTCTCCAGCCATGGCATATCGCCATTTCCAGGGAAGACGTAATCAGTCGAGTAATGGATAACCCAGGCTC +CAACTTCATTTGCTGCTTTCGCAATCGCTTCGACACTTGTTGCGTTAATTAATTGTGCAAACTCCGGTTC +TGATTCTGCTTTGTCTACTGCGGTGTGAGCGGCTGCATTGACAATAATATCCGGCCGAATGCTTCTTACG +GTTTCAGCTACACCTTCAGGATTACTAAAATCACCGCAATAATCAGTAGAGTGAACATCAAAAGCAATCA +AATTACCCAAAGGTGCCAGAGCACGCTGTAGTTCCCAACCTACCTGCCCTGTTTTGCCAAAAAGGAGGAT +ATTCATTACTGGCGGCCCTCATAGTTCTGTTCAATCCACGATTGATAGGCACCACTTTTCACATTATCAA +CCCATTTTGTATTGGACAGGTACCATTCCACCGTTTTACGAATCCCGCTCTCAAACGTTTCCTGTGGTTT +CCATCCCAATGCGCGACCAATCTTCTCAGCATCAATAGCATAGCGGCGATCGTGTCCCGGACGATCAGCA +ACATAAGTGATTTGCTCACGATAAGATTTCTCTTTCGGTACAATCTCATCCAGCAAATCACAAATAGTGA +GCACTACATCGATGTTTTTCTTTTCGTTGTGCCCACCAATGTTATAAGTTTCACCCGCTTTACCTTCGGT +TACGACGGTATATAACGCACGCGCATGATCTTCAACATACAACCAGTCGCGGATCTGATCTCCTTTGCCA +TAAATAGGTAATGCCTTACCTTCCAGTGCATTAAGAATAACCAGTGGAATAAGCTTTTCCGGGAAATGAT +AAGGACCATAGTTGTTCGAGCAATTAGTCACAATTGTCGGTAAACCATATGTACGTTTCCACGCGCGGAC +TAAATGATCGCTGGATGCTTTGGATGCGGAATAAGGGCTGCTTGGCGCGTAAGCTGTCGTCTCAGTAAAT +AAGGGTAATTCTTCTGTATTATTTACTTCATCTGGATGAGGCAAATCACCATAGACTTCGTCAGTAGAAA +TATGATGAAAACGGAAGCTATTTTTCTTGTCGCTATCAAGAGCAGACCAGTAATTGCGAGCGGCTTCCAA +AAGGACATAAGTACCAACAATATTGGTTTCAATAAATGCCGCAGGGCCTGTAATTGAACGGTCAACATGG +CTTTCAGCAGCCAGGTGCATCACTGCATCCGGCTGATGCTGAGCAAAAATCCGTGCCATTGCAGGTGCAT +CGCAAATATCCGCATGTTCAAAAACATAGCGTTCAGAATCAGAAACATCAGCAAGTGATTCCCGGTTTCC +GGCGTACGTTAATTTATCGACATTAACAACACTATCCTGCGTATTATTTATAATGTGACGAACTACAGCT +GAACCAATAAATCCTGCGCCACCAGTAACAAGTATTTTCACTTAATTTATTCCATATTACTTCAGAGCAT +GCTGTGAAATAAGCGGCTCTCAGTTTGATTAATAGAGGTATTAATGCACGCTACCGCCCCTGGCTTTACA +GCTACCAGAGCACTGCATGCATGCCTATGATGTGACGAGCGTTACCCACTCGCGCTAAACCCGAAAAATT +CAAACGCTAATTGTCTTACCAATCCGCTCTGGAAACAAGGAAAATCCTGGAAAACTTTGAATAAAACCCT +ACTGCTAACTCGTTGTTATTCTGATGGTTTATATAAAACAACGGCAGGAAGATTCGCAACAAATTACTTT +TGCTGCGAATTTTCACTGCCGTTATAATTTTCTTATCAACCGTTACATCCGGTCAGATTTTCATTATTCG +CTTAACAGCTTCTCAATACCTTTACGGAACTTCGCCCCTTCTTTCAGGTTGCGTAGGCCATACTTCACAA +ACGCCTGCATATAGCCCATTTTTTTGCCGCAGTCGTAACTGTCGCCGGTCATCAGCATTGCATCAACGGA +TTGTTTTTTCGCCAGCTCGGCAATAGCATCAGTCAGCTGAATACGTCCCCATGCACCAGGCTGAGTACGT +TCCAGTTCCGGCCAAATATCGGCAGAAAGCACATAGCGACCTACGGCCATGATGTCTGAGTCCAGCGTCT +GCGGCTGATCCGGTTTTTCGATAAATTCAACAATGCGGCTGACTTTACCCTCACGGTCCAGCGGCTCTTT +AGTCTGGATGACGGAGTATTCAGAGAGGTCACCCGGCATACGTTTTGCCAGCACCTGGCTGCGGCCCGTT +TCGTTGAAACGTGCAATCATGGCAGCAAGGTTGTAACGTAGCGGGTCGGCGCTGGCATCGTCGATCACAA +CGTCTGGCAGTACCACGACAAATGGGTTGTCACCAATGGCAGGTCGCGCACACAAAATGGAGTGGCCTAA +ACCTAAAGGTTCGCCCTGACGCACGTTCATAATGGTCACGCCCGGCGGACAGATGGACTGTACTTCCGCC +AGCAGTTGACGCTTCACGCGCTGCTCAAGGAGTGATTCTAACTCATAAGAGGTGTCGAAGTGGTTTTCGA +CCGCGTTCTTGGACGCGTGAGTTACCAGGAGGATTTCTTTGATCCCTGCAGCCACAATCTCGTCAACAAT +GTACTGAATCATTGGCTTGTCGACGATTGGTAGCATCTCTTTGGGTATCGCCTTAGTGGCAGGCAACATA +TGCATCCCGAGACCCGCTACAGGAATAACTGCTTTTAAATTCGTCATTATTTCATCCACCTGTAAAATGG +TTGCTGAATTATAGCTTGTTCGATTTTTTTCGCCAGCATCAATTACCCTGAATTGATTACTGAATTACTT +GTGATGTTACGCCGCTTCGTTGTGGATTGCAGTAGCATTGTTCCTAAGTATGACTCCATTTTTCCAGGAA +TGGTCGCAAATCTACTCCCTCAGTTCCGGCAATCTAAAGTTAATCTTCTCCACATTAACAATATGGTGAT +TAATCCTGTCGATATCGACGGAGCTTTGTCCTTTTTCATTCACCGCATGAACATTTGCAAGAGACAGCAG +TGTTTCTTTTTTCGCCATAAAAACACCACGAACGTCTTTGCGCATGTCAAAGTTCATGCTCAATGCGGGT +CCAACTGAGGATTCCTGCATCACATTGATATTTCGCATAAAAAAATGTTGCGGTTTGTTGTGTAACTCCA +GCGACGCACGCTTCATCTCAATGTTAGTTAGCGCCACAAAGGAAACAGCATTCCCGGCGGAGATTTGAAT +GCCGCGCAATTTATAAGCAAGATGAGTATTATCCAGTTGAATATCATTCACCCGGAAATTTTGCGGTATC +GAGAGATATTTGCCTTTAATTACCCCATAGCCGATTAACATCCCGGCGCTATTAATCATTTCAATATTAT +CAATCACGAAATTGTCACAACCGTAAATAGCGACTGTCGCGTTATCAATGCCCGCTTTCTTACTGAAATC +CGGCGTGATATTGCGGGCTTTGATATTACGAATAACAAAATGTTTACCATTTTCAACATGTATCAACTGC +CGACAATCCGATCCCGTGATATTCGCCACGACAAAGTTTTTCACTGCCTGGTCTTCCGGGTAGTTGTTAT +CATAAGTGCTTCCCGCAAGGCCTATGCCGATGCCCCAGTTGATTTTGCCGTTGGTACAGTTGATGCGCTC +GATGACATGGTCAGATATCAAAATATCACGGTCGTTAATTGCCACGTTCCATTCAATGGCGTCGCCTTGT +AAGTCGCTGAACTTACAATTGGTGATGTTGGCACCGATAATCTGGTTATGAAATCCCTGGCGTAAGATGG +CGTAATTAGCGTGGCTAACGGTCAGGTTATCGATGATCAGGTTGCGCATGACCCGTTTGTTTTTGCCGCC +GATATAAATCTGCGTCACCGGGCCAAAGCCGCTCATAGTCAGCCCTTTGATGGTGCAGTCAGAACCACGC +ACATCCAGGGTGATGTTATGCATACTGCCGCCATCCTCCCCTGTCACCTGGCTGCCGTCCTGTAAGACAA +ATCGCCCTCTGCCGTTGCCGCGCAAGCTTCCAAGAATGTGTAACGTTTTACCGGGAGGGATAAAGATGCC +GGTGTTGATATTGTCACAAACCAATCCGGCAGGCACGACGACTGTTTGCCCTTCGCTGAAGGCTTGTTTA +AATGAGGCGATCCAGTCGTGTGGGTTGTAGTCGTTAATGTTAACGCTTTGTCGGGCGGGAAGCGCGCGGG +CGAAAGGGGTATGGAGGAAGGCAAGCGCCGAGCTTGCCGTCAGGAACGTGCGTCGGGAGAGTTTTTTAAA +TGGCATGCGTTCTCCTCTATAAAGCCTGCAGCAAGCTGGCGAGTTCTCGATTGATCACCTGCTGGTTAAA +ATCGTGTTCAACTTTTTCGCGCGCGCGTTTGACGACCGGAGCCAATTCGTCGGTGTCCAGTTGGCTAAAC +GCCGCCAGTCGTTGCGCCAGTGCGCGAGCATCGTTCTCAGGCACCAGCCAGCCGGATTTGTCAGCCTCCA +CCAGTTCCGGTATTCCACTATGCAGAGTAGAAACCACCGGAATACCGACCGCCATCGCTTCCATTAGCGC +CACCGGAATACCTTCCATATCACCATCCGCACCTGTAACCGATGGCAACAGGAAGACATCCGCGTCGTCG +AGCATCGCTTTCACTTCATGGCTCGGTTTAAAGCCCGGCATCTCCACCACATCTTCCAGTTGATATTGTT +CGATGAGGGTGCGCAGGCGTCTTTCCCACGGGCCAATGCCGAGGATGCGATAGCGAAATGCCACGCCCTG +CTCTTTCAACTGACGGCAGGCTTCGATCGCCACATGCAGGCCTTTTTTCTCGGTTAAGCGTGCGACGGAA +ATAATCTCCAGCGGCGTTGCGGGCGCTTTCACGGGACGCGGGCTAAAGCGCGTCATATCTACGCCCATGC +GCGATACGGCGATTTTTTCCCTCGGGCAGCCCATTTTTTGCAGCCTTCCGGCCCACAGATCGCTTATCGG +TAACATCAGGTCGCCACGGCGAAACAGTTGCTGATATTCGGGAGTGTAGTGGTTGAGCACTTCCCGACTG +GAGATATCAATACCGTGGAAGATAGTGGCAATTTTGCCGCGAATGACACCCAGTTCGCGGAGTTTTGCTG +CGGTTACCCCCGCGGGACCAAAATGAGCGATGAACACATCGGCGCGAAACGGTGTTGCGACCTGGCCGCA +AATGGCAGACAAAATCAGGTTCCGCGACTCGGCACCATAGCGTTTGAGGTTGAGCGCCTGCCAGGTATTT +TTACGATGAATGCCGCGCAAGGTCTGGCTGGCTCGGTGGCGCAGTTTCGCCACTTTGCCCGTAGGTTCGT +CCTGTAACCAGCGGGTTCTGGCAGCAAGGTTGTATTTCGTCCATGCCGCGTGGGTGTTTTGTGTGTCGCC +TTTTTGCAGCGCGAGAATCTCTACCTCAAATCCCATATCAATAAACGCGGTAATTTGGTTAAGGACGAAG +GTTTCTGACGACAGCGGGAATTTCAGTAAAAAGAAGCCGACCTTCATTTCACCTCCCCGATGCGCTCAAG +CACAGACTGCACCATCTGCATTCCTGTCTGACGCTCACGACTGACGGCTTCACTAAGTCGCGCATTCAGC +GCCGGAAGCTGGCCTAAGGTATCCGCAACCATCGCTTGCAGGCTGCCGTCTAATAAATGACGGATATCAA +TTGCCATCTCCGGTAGTCCCAGCTGCTGCATAATCCCGGCGGATTTATGTTCGTAGTTGATGGCAATTGC +CGGAGTGGCAAAATTCATCGAGATAATGGCAGAGTGCAGGCGCGTACCGACGGTGAGTTCACAGGCCCCC +AGAATTTTGCCCATTTCCAGATCGTTGAGTTCATCCATCACTACGTGGTAACGGGCAGGATCGCTGATGT +GCTGGCGCAGGTTGAGCGCCACCATGCGGTCGTCTTTGTTATAGCTGTCAATGCCCGTACAGGTGGAGAG +CGCAATCACCTGATACCCTTCATCGAGAATGCGATTGACCACCCCGGCAAAGGCTTTTTCATACGCTTGT +TGAGTGGTGCCGAGACGTTTGTCAAACGGTGCCAGTTCGCGCAGGGTAATGGCCACCGTTTTCTGTTGTG +CGGCAACGTCCAGCCAGTGTTGAACGGCATAGCTGGCGGTGAAGTCTTCTGTGTGGTGATCGACCAGCCA +CGCGGTATCGACGCCATGTTCCACTTTTGCGGTGGTGATATTGCTGCGTTTCATCAGATCAAAGCTGACC +GATTCGCGCAGGATCAGCGCGTCGCAGTGACCAAAAACGTAGTTCGCCAGTTGGTTAAATTGCTCATCCT +GGAACGGGCCAACACTGTGACCAATCATAAACAGCGGCTTTTTCGCCATAAACGTGCAAAGTGCATGTTC +AAACTGCGGCACGCCATAGAGATCGACAAAAAACGATCCGCCGACCTGGATAATGGCGTCGTAACCTGAC +AGCAGGCGCACGAAGTCGGTGAATCCCTGGGCGATGGCGATATTGCGCAGCTTGCCAGTGTCGGTGACGC +GTGAGAGCAATACCTGATGCTGGTAGCGGCGACGGAGGACTTTTTTAACGCGCCCGACAACGCCCGCCGC +GCTGTTGTGTTGTTTCATTTGCAGGAACAGCGGATCGCCCATTACCGGGCGGTTGAGCAGCCAGGAAGAA +CTGACCGGATAGCGGCTCATCACATCCACTTCGGCGTGTGGATTGAGAATGTTGATGGCATCAAGTAAGC +CGCGCAGGATGGCGCTGTCGCCACGATTGCCGCAAGTGTGGTTGCCCAGAATAAGTAATTTCATTTTTTC +CTCATAAATTTGATGCCAGGTGAGGCTGCGTTTGTTTTGTTCGTTGCCGCTTTTTGCCTGATGCGACGCT +GACGCGTCTTATCAGGCCTACAAGACCCGAGCACAGAACCGTAGGACGGATAAGGCGTTCACGCCGCATC +CGGCATTCAGTGCCTGATGCGACGCTGACGCGTCTTATCAGGCCTACAGGTCCCGAGCACAGAACCGTAG +GACGGATAAGGCGTTTTACGCCGCATCCGGCAACCGTTGTCGGAACCGAAAACAGCAACTCACCCCGCCC +GTAAAAGCATTTTCATTTTTTCGCTGCGACAAAACTGACGCTTCACTTCCACCACCAGCGGATGGCGCGA +CAGCACAATCATCACCACAAACGCCAGCACCCCCGTGGCTATTTGCACCGCCAGCAGCATCCCCAGCGCC +AGTTGCCCTTTCAGCACAATGCCCAGCGCATAACTGACCACCAGCGTCGGCAGCGAGAGATAAAACGGCA +GCCATAAACTCAGGATGTACTGGCGATAACTGGAACCAAGAACCGGTTTAATCATCACGAAGTAACTCAG +AATGGTGTTGATAATTTGCACCAGCAGGAAGCCAAGCGTGACGCCGATCGCGCCCGCCATCTGCCCACCT +ATAACAATCGCCGGAATAAACAGAAATGTTTTGAATACGTTGAATTTAAAGCTGATATCGACCCGCGCTT +TCGCCATCAGCAGCGAACCAATCGGGTTACCTACGGAGCGCAGCAGACCCACCACACACAGCAATTGCAG +CACCGGAATAATGCTGTTCCACTTCTCACCAAAGACCAGCGGTACAAAGTTATTCGACACCACCATTAGC +CCGAGCAGCGCCGGAAAGTTGATAATCCCCACTACCGACAGCAGCTTGTAGAAGTTAACACGCAGCTTTT +CGGTATCGTCCTGAATTTTGGCGAATGCCGGAAACAACACGCGGGTGATGATTGGGTTCAGCTTCATCGG +TGGCACAACGGCCACGTTGTACGCCAGGTTGTATCCCCCTGCCACGCCCGCGCCGAGAATACGCGCCAGC +ACGAGCGTTGAAAGGTTGGTATTGAGATAGTTGATGATGCTGTCCGCCGTCAGCCAGGCACCAAAGCGTA +AGTTCGGTGCCACCGACGCCAGCGAGAAATGCAGACCGGGGCGATAAATTTTGCGGCCAAAGTAGCCAAA +CAGCAGCGTTCTCACCGCACTATTGACCAGATAACCGAGGATCGCGGTCATCGCCAGCGGCCAGAAATGG +GCGCTAACCACCGTACAAGTGAAGCCCGCCAGCACCGCGCTGGTTTCGATCATGCCGATTTTGTTGAACT +CCAGCTCTTTTTGCATCAACGCGCGGAACTGTTGCCCGTGGGGGATTACCACAAACGCCAGCGATAATGT +TTTAATCAACGGTGCCAGGTCCGGGTTATTCAGCACGTCGCCGATGAGATCACTCAACAAAAACACCGCC +ACGCACACCACGATCCCCAGCCCGACGTTCAGCCAGTACAACGTGGTGAGTTCAAGGTGACTGATTTCTT +TTCGCTGAATAATCGAGTTAGCGATACCGAAGTCAGAAAGCGTATCTGCCAGCGCGATAATCACCAGCGA +CACGGTAAGCAGGCCGAACTGGTGGTTGTCGATAATCCGCGCCAGCACGGTCATCTGCACCAGCCCGAGG +CCGATGATGATCACCGTGGCAATCGCCGACCACTTCGCGCCGCTGATGGTTTTTTCACGTAAGCTCATAT +CAATATGCCGCTTTGTTAACGAAACCTTTGAACACCGTCAGGAAAACGATTTTGATATCGAACCAGACGC +TCCATTCGCGGATGTACTCAAGGTCGAACTCGACGCGTTTTTCCATTTTCTCCAGCGTGTCGGTTTCGCC +GCGCCAGCCGTTAATCTGCGCCCAGCCGGTAATGCCCGGTTTCACCTTATGGCGCAGCATGTAGCCTTCA +ATGAGCTGTCGATACTGTTCGTTATGCGCTACTGCGTGCGGACGTGGACCGACAATCGACATCCCCCCGG +TCAGCACATTGATAAACTGCGGCAATTCATCCAGCGAGGTACGGCGCAGAAAGTTCCCCACTTTGGTGAC +GCGCGGATCGTTCTGCGTCGCCTGGGTCACCACTTTGTCGTTCTCCATCACTTTCATGGAACGGAACTTC +CACACTTTGATCGGCTTGCCATCCATGCCGTAGCGAGTCTGGCGGAAAATAACCGGCCCTGGTGAACTGA +GTTTCACCGCCAGCGCAATACAGCACAGCACCGGGGAGATCAGCAGCAGAATAAGCGTCGCCAGCACAAT +GTCTTCCGCACGTTTGAGCAGGCGGTTAACCCCGGAAAGCGGCGTGTCGTAAAGCGGCACCACCGGTACG +CCGTTCATCTCTTCGAGGCGTGAATGGAGAATGTTGAAGGTAAAGACGTCGGGGATCAGCAGCACCGAAC +AGGTGGTGTCCGCCAGTTGATGGACCAGTTTTTTCACTCGCGCGCCGTCGCACATTTGCATCGCGATATA +GACGTTATGAATCTTGCCCGCTTTCGCGTCCTCGACCAGCTGTTGCAGGTTACCCGCCCAGTCGTTAGAA +ACGCCGCCCGGTTTCGGGTCGTGGTAAACGCCCACCACTTCAAACCCTAACCACGGCTGGTTACGGAAGC +TCTCCATCAGCATTTGCCCGGCGGCTAAATCCCCCGCCACCGCGACCATGCGCTTGTTATAGCCATGATT +ACGCAGCCAGCCCGCCCCAATGCGAATACACGAACGGCAAACCACCAGTCCGATGCTGGTCAGCGCATAC +CACGCCAGCCAGATTTTCAGTTGCGTGTCGAAATCATTGTTGAACGCCACCAGTCCGGCGCTGAAAATCA +CGCTTAAGGTCCAGTTTTGTAGCAACAGGGCAAATTCTGTCGCTGCCCGAACACCGCGCCATGAGCGATA +AAAATCGGTGATGCCGCCCAGCATCTGGAACACCACCAGCGTAATCAGCGCCACCAACAGGTGCATGTAG +AGGAATGACAGTCCGCTGACTTCGCAAACCAGCCATAGTCCGGCAAACATGATGGTGATATCTGAAAAGC +GTTGCACCATAGAGATTAACGATGCATTGGTTTTCGCTCGCTCGCGCTTTTTTAGATTTGTCATCGTTGT +TCCTGTTATTAGCCCCTTACCCGCAGTGGGGTAAGGGAAGATCCGACATTACTCGTTCAGCAACGTCAGC +AGAGTTCGCGTTCGCGCTTCCATCAGCGGCACATCACCGCGCGATTCCACATTCAGGCGCACCACCGGTT +CGGTATTGGAGGTGCGCAGGTTAAAGCGCCAGTCGGCAAAGGTCATGCTGATGCCATCGGTGCGATCCAC +CGCCAGCGCCTCACGGCTAAAATGCTGTTCCACGCGGTTAATCGCCTCAACGGGTTGCGCCAGTTTGCTG +TTGATCTCACCGCTTGCCGGAAACGCCGCCATCCGGTCGCGTACCAGTTCGCCCAGCGTTTTATCTTTCA +GGCACACCAGTTCGGCGACCAGCAGCCACGGGATCATGCCGCTGTCGCAGTAAGCGAAATCACGGAAGTA +ATGGTGGGCGCTCATTTCGCCACCATAGATGGCGTCTTCCTTGCGCATACGTTCTTTAATAAAGGCGTGT +CCGGTTTTCGACATTACCGGCGTGCCACCTGCGGCAGTCACCACATCAACGGTGTTCCAGGAGAGACGTG +GATCGTGGATGATCTTCGCGCCGGGATTTTTTTCGAGGAATGCTTCTGCCAACAGGCCGACAATGTAGTA +GCCCTCAATAAACTGCCCTTTTTCGTCAAACAGGAAACAGCGGTCAAAATCGCCATCAAAAGCAATGCCC +ATATCCGCGCCGTGTTTGATGACCGCATTGCGGGTGTCGTCGCGGCATTCCGGCAGTAGTGGGTTAGGAA +TACCGTTGGGGAAATTGCCGTCCGGCGTGTTGTGCACTTTGATTAATTCCACGGGCGCGCCGAGGGCTTT +AAAGCGGGCTTCAATGGCGTCCACCACCGGACCCGCTGCGCCGTTCCCGGAGTTGATCACCAGCTTGAGC +GGCGTGAGGTTTTTGACATTGATATAACCGAACAGGTGATCAACGTAAGCGTCACGCAGGTTGATTTGCT +GATAGCGACCGCGTTTGGTTTCATCGACGGGAGGAAAGTCGTTGGCTTCAGCCAGACGCTGGACGTCGCG +CAGTCCGGTATCTCCGCTGATCGGGCGAGCCCCCTCGCGAACCAGCTTCATGCCGTTATAATCCATCGGA +TTATGGCTGGCGGTAACTTCAATGCCGCCATCCACGCCGAGATGGAACGTGGCGAAATAGATCTCTTCGG +TGCCGGACATACCAATATCCAGCACGTCAACGCCCGCATCCTGTAAACCTTTCGCCAGCGCCAGTTTTAA +GGTTTCGCTGGTGAGGCGGACATCACCGCCTAACACAATGGTTTTCGGTTTGAGAAATTCGCCATAGGCG +CGACCAATGCGCCAGGCGATATCTTCATTCAGTTCTTCGCCTAATTTCCCGCGAATATCATAGGCTTTAA +AGCAGGTTAATTTTTTCATATCGTTACCCTTTTTCAGGCAATAGTTGGCCCTGACCGAAGCGGCCAATTT +TATTTTTGTCGTTATTTACACCGCGGTTTCGCATTCATTGCCTGATGCGACGTTTACACCCGTCCGTAGC +GATCCGCGAAACGCACCACATCATCCTCTTCGAGATAAGAGCCGGAGCGCACTTCAATTAAATCGAGCGG +AATTTTCCCCGGGTTTTCCAGGCAATGCGTCGCCCCCAGCGGAATATAAATGGACTCGTTTTCACCAAGC +AGTTTGATATCACCATCAATGGTGACTTTTGCCGTTCCCGCGACAACCACCCAGTGTTCCGCGCGGTGAT +GGTGCATCTGTACCGACAAGCCCTCGCCCGGTTTCACGGTGATGCGTTTCACCTGGTAGCGGTCGCCCGC +GTCGATAGAGTCATATTTGCCCCACGGACGATACACTTCGCGATGCACCCGATGCTCATGGCGACCATCG +GCTTTGATCTGCTCGACCACTTTTTTCACATCCTGTACCGCGTTACGGTCGGCAATCAGCACCGCATCTT +TGGTCTGCACCACTACCAGATCTTTCACCCCGACGGTGGTGACCAGGCCAGATTCAGCATACACATAGCT +GTTTTCAGTTTTGTGATTAATCACATCGCCGTGGCAAACGTTGCCCTCGGCGGTGTGGGCGCTGATCTCC +CATAATGAAGACCAGGAGCCAACATCGCTCCAGCCCGCATCCATCGGCACCACAACAGCATCTGCCGTAC +GTTCCATGACCGCGTAATCCACCGACTCTTCCGGGCAGGCGAGAAACGCTTCTTCATCCACGCGAATAAA +ATTGAGATCCGGATCGACGGCGCTCATCGCTTTTTCACAGGCATCGAGGATATCCGGGCGATATTTTTTC +AGTTCTTCGAGATAGCGTCCGGCGCGGAACAGGAACATACCGCTGTTCCAGTAATATTCGCCGCTTGCCA +CATAGGCCTGAGCGGTTTCCAGATTCGGTTTTTCGACAAACTGCGCCACTTCAAAGGCCACCATATCCTG +CTCACCCGCAGACACTTCACCGCGACGAATATAGCCATAACCGGTTTCTGGTAGATCCGGCACAATGCCG +AAGGTCACCAGCTTGCCCGCTTCGGCATATGGCATGGCATTACGCACGGCGGCACGGAACGCGTCTTCAT +CGGCAATCACATGATCCGCCGCCAATACCAGCATTAACGGGTCGCTCTCCGGGCTATGACGTTTTGCCGC +CAGCGCCGCCAGCGCAATGGCAGGTGCCGTGTTTCGCCCTGCCGGTTCGAGAATAATGTTCTCGGTAAGT +TTGTTCAGTTGACGCAGCTGTTCCGCGACAATAAAGCGGTGCTGCTCATTGCAAATCACCACCGGGCTTT +CGCACTCCACGCCGTTCAGGCGGCAGATGGTGGTTTGCAGCATGGTGAGATCGCCTTTCAGGCATAAAAA +CTGCTTGGGATAAAGTACGCGGGAAAGCGGCCATAAGCGGCTACCGGAGCCACCTGCCATCACAACTGGA +TAGAGTTTCGACTGCGCCATAATTATCCCCGAATATCATTTATAAATTGACGTAACACGTTCTCTTTATC +GAGCGTGCGTTCGGCATATTCACGTGCCACCGTGTTGTGTTTGGGCAGCAGGAGCGCCTGACGGATCCCC +GCCACCAGCGCCTCGACCGATTCCGGTTCAACGCAAACCGCAATGCCCGGAAAGGTTTCGCAAAGCTGCC +CCAGTTCTGTGTAGGCTTCAGCAGTAATCACCGCGTTACCGCCTACTGCCAGAATATTGGTCAGTTTCGA +CGGCAATACGGCATCTGCCGCGCCGCGTTTTTGCACCACCAGATGGCAATCGCCCATCTTCAGCAGTGCG +GGTAAAGCGTCATACGATTGCAGCGGGAAAAATTGCATGTTGCGCAGTCCACGCTGCTGCGCCATTTTTT +CCAGCCGCGCTTTGCCGCCGCCCTGCCCGACAATGGCAAAAATCAGCGGTTCATCGCGCAGACGATCGGC +AGCTTCAATAACGTTTTCCAGCCCCTGCTTTTCACCAATATTGCCGGAGTAAAGAATGATTTTTTTGTTA +TCCGGCAGGTCAAGCTGGTTACGAAGGGCATCAACATCGGCATCTGCAACATGCTGAAAACGGGCAATTT +CCGACCAGTTGGGGAAGAAGATGACGTTTTCCGCCGCCACGCCTTTTTCGATGGCTTTATTCATCATCGA +ACGCGAAATCGTGGAGACGTTATCGACGTTATGCAGTCCGCTACGTTCGAACGCCGTTGCCAGCTGTGCC +ACTTTGCCGCCTTTGCCTTTTCCGGCAAGGCCCAGCCCCAGCATGGCGTCCACTTCGTAATCCTGAATAT +GCAGCACGGTACGCGCACCAGAGAGTTTCGCCAGCAGGCGCATTCCCGGCGCGCAAAACAGCGTTGGCAC +CACGCCAATAATGCGATCCGGCTTCCAGCGACGTTGCGCCATCAGCGGAAAGAAACTGCTGACGGCAAAA +CTGCCCAGATGCAACAGGCGTTTCAGGGTGCTCGGCTGTTTTGGCACATACAGCGGGCAGCGCCACACCG +TGGCGGCCCCCTCTTCTCGTTTGTAGCGCCAGGCGGAATAGTTCTCGCCCACCTGCCATTGCGGGTAGTA +AGGCGGTGCGGTAATGACCCGCACCTCATGACCTTGTGCCGCCAGCCATTCCACCATCTCGCCGGTGTAT +TTGCCGATGCCGGTTAACTCCGGCGAGTAGTTAATGCCGTAGACCAGTATTTTCATAATCCGGGTACTCC +GGTACGCTTCTCAGCGAGAAAATAGGCGCGGCTGTTAGCATGAACATTATCACTGGCGAGCAGCGCGTCC +GACGTCAGCCAGCGGTAATCGTCATGCTGCTCATCCGGCAGTAACAGCTCTTCTTCCGATACTCTGAAGC +GAAAACCGAGCACCACATAGTGAGTGGTGAAATCCGTGCCAGAGAAGTTATCGTCATAAAAGTGCTGCCA +GACACCGTAAAACTGGCCTGCTGTTATCGGCAAACGCAGCCCCAGTTCCGCCATCGTCAGCCGCTCAAAT +GCGGCTTCCAGCGTTTCGTCTTTCTGCACGCGCCCTCCCGGCACAAACCAGTAACCCTGCGCCGGGCGGT +TGGTTCTTTTGCCAAGCAGAAACTCGCCGCGACTGTTCTCGACAATAAAGTCGAGAGAGACAAGCGGAGT +GGAGCGCACTACCGTGGCAAAGTCTTCCTGACGTAAAAACATCATTACCCCCGAAAGCGGTCTTGATTCT +CAAGGAACCACTGGTAAGTGCTGGCAAGCCCCGCTTCCAGTGAGATTTCGTGATACCAGCCAAGCTGATG +CAGGCGCGTCACATCCAGCAGTTTGCGCGGCGTGCCATCCGGTTTGCTGGCATCAAAAACCACCCGGCCT +TTGTAACCCACCACTTTGGCGATGGTTTGCGCCAGCTCGCGGATAGTGCAGTCAACGCCCGTGCCGACGT +TAATGTGCGACAACATCGGCTGGGTGTTCTCCAGCCAGACTTCATGCGCCAGCTCCATGACATGAATGCT +CGCCGCCGCCATATCATCGACGTGCAGAAATTCGCGCATCGGTGTACCGCTGCCCCATACCACCACGTCC +GGCGCATTCTGTGCCGTCGCCTCGTGGAAGCGACGCAGCAATGCTGGGATCACATGCGAATTACTCGGGT +GGAAGTTGTCGTGTGGCCCGTACAGGTTGGTCGGCATGACTGAGCGGTAATCGCGTCCGTACTGGCGGTT +GTATGATTCGCACAGTTTGATCCCGGCGATTTTGGCAATAGCATAAGGCTCGTTAGTCGGCTCCAGCGTG +CCCTGCAACAACTCGCTTTCTGCCATCGGCTGTTTTGCCAGTTTCGGGTAGATGCAGGACGATCCGAGAA +ACAGCAGTTTGTTCACGTCGTTCTGATGCGCGGCGTGAATGATGTTGCTCTCAATCATCATGTTCTGGTA +GATGAAATCCGCCGGATAGGTGTTGTTGGCAACAATGCCGCCCACTTTCGCCGCCGCCAGATAGACCTGG +TCAATACGTTCGCTGGCAAAGAAATCATGCACGGCGCGGCTGTCCAGCAGGTTCAGCTCGTCGCGGGTGC +GTAATACCAGTTCCACATCACCGCGCTGTTCGAGCTGCCGCCTGATGGCGGAACCGACCATCCCGCGATG +ACCAGCAATAAAAACTCGTTGTTTACTCATGCTTATGACTCCAGCGCGATCGCCACGTCGTAGCCGTGAG +ATTTCAGCAGAGAGTGTTTTTTCGCCGCTTCGAGGTCATTAGCCACCATTTCAGACACCATCTCTCTGAG +GGTGATTTCCGGTTTCCAGCCCAGTTTTTCGTGCGCTTTGGTCGGGTCGCCGAGCAGCGTTTCAACTTCA +GCCGGACGGAAGTAACGCGGGTCAACAGCGATAATCACATCACCCGGTTTAACGCCCGGCGCGTCATGCC +CGGTGACGGAAACCACAATGCCCTTCTCTTCAACGCCCGTGCCTTCAAAGCGCAGTTTGATGCCCAGCTG +TGCTGCCGCCATTTCCACGAACTGACGCACGGAGTACTGAACGCCGGTCGCGATAACGAAATCTTCCGGC +TGTTCCTGCTGCAGCATCATCCACTGCATTTTTACGTAGTCTTTGGCGTGGCCCCAGTCACGCAGGGAAT +CCATATTGCCGAGGTACAGGCACGACTCCAGCCCCTGGGCGATGTTGGCGATTGCGCGGGTGATTTTGCG +GGTAACGAAGGTTTCGCCGCGGCGCGGGGATTCATGGTTGAAGAGAATTCCGTTACAGGCGTACATGCCG +TAGGATTCACGGTAGTTAACGGTGATCCAGTAGGCGTACAGTTTGGCGACCGCATACGGAGATCGCGGGT +AGAACGGCGTGGTCTCTTTCTGCGGAATTTCCTGCACCAGACCATACAGTTCAGAGGTGGAAGCCTGATA +GAAACGAGTTTTCTTTTCCAGACCGAGGAAGCGGATCGCCTCCAGCAGGCGCAGCGTACCCATCGCGTCG +ACGTCAGCGGTATATTCTGGTGACTCAAAAGAGACCGCAACGTGGCTCATTGCGCCCAGGTTGTACACTT +CATCCGGCTGTACTTCACGCAAAATGCGCGTCAGGTTAGAGGTATCACTCAGGTCGCCATAATGCAGATG +GAATTTCGGGTTGCAGGTGTGCGGATCCTGATAAATGTGATCCACGCGCTCGGTGTTGAATGACGATGCG +CGACGCTTAATACCATGCACCTCGTAACCTTTTTCCAGCAGAAACTCTGCCAGGTAAGAACCGTCTTGTC +CGGTTACACCGGTGATGAGAGCGACTTTTGACATGTATTATTCCTCTGTATTTTTGAATTTATTCAGTTT +CAACGCGTTCGCGTATCACCACTGCGGGATTCCCCCGGCAAACCACATTTGCCGGAAGCGATTTAAAAAC +ACTGCTTCGTGCACCCACGACGGTGCCGTCGCCGATTGTGACGCCTGGGGCAACAAAGACATCGGTTGCC +AGCCAGCATTTCTCGCCAATCACAATAGGCGTGGCGTTAATGGTGAAATGTTGACTTGCATGGTCGTGGC +TACCGGTGCATAAATAACTTTTTTGCGATATCACCGAATGTGCGCCAATGGTTATTTCACCGAGGGTATA +TAAATTGACGTCATCGCCGACCCACGCGTAATCACCTAAGGTTAATTTCCACGGATAGGTAATTTTTACT +GACGGACGAATAACTACGTTTTTTCCTATTTTTGCTCCGAATAAACGTAATAAAAAAGCCCGCCAGCGAT +ACAATACTTGTGGCGACCAGGCAAATATTGTTGCCTGTACTGCCCACCATAATTGCACTTTAATAGCGTT +GCCGCCCCGGAACCCTTTCGGCACCGAGAAACCGCTTAAATCTTGCATTGGTTTTCCTTATATTCAGACT +TTGTTATATAAGGCTTTCGTCTTTGAGGTAGTACGTTGGCGTAAATGCCAGGATAATTCAGCCCAAAAGC +CAGGCACATGTAATATTTGTCGTTGGACTTTTTTCGCGTCAGCACACAATTCCATATTATTGGTGGTAGA +TACCCCACCCATGGAAAATTCAGACACCAGGCCATTGAGTTTTTTAAATGCATAACCGGCTTTATACATT +TTGGCTGCCAGCGCGTAGTCGGAAGAAACTTTATATTCCAGGTCATAACGCCATTTTTTCAAGCCGGATA +CAGGGAAAAATATCGCCTGATGACTGGCGGGCAGGCTGTGATAAATATACCAGCCCGGTTTGGCGCTACG +TTTAATTTTATGCCCGTCGCCAAAATCCAGCAGCGCATCGCCGGTGATCATCACGTTATCTTTTTGCATT +TTTAACTTACGGACAAAATTTGCGGCATTCTGATGAAAAATATCGCCCGAATTGAGAAACAACGCGAACT +TGCCTTGTGCCATCGCAATGCCTTTGTTCATGGCGTCGTAGATACCGTTATCTGGCTCGCTGACAAAGCG +TAGGTTAAAGATACCATTGAGATTTTCCAGATACTCACGGGTGCCGTCGTTGGAACCGCCATCGACAACA +ATCCATTCGAAGCTGATATCTTCCACCTGCGCCAGATGCGCCAGCGAGGCATGTGTTTTGACTATCCCTT +CGAGGTTACGAAACGCGACAGTGATTATGCTAAGCAACATGTTCTTATTCTTACCTCGTAATATTTAACG +CTTTTCGCAAAATAAACGGACAGACGATTAAAAATGCATATTCCGGGCTAAATATCGAACCGGTAAAAAA +CAGCGATACCGGAGTAAAAAGATATAATTGCACGCGAAAATTGCGGTTATCACCAAAAGCGTTGATCATC +ATTTTTATCACTTTCCCCATGTACCACAGTGATAAAAACACCGCGAACCAGGAAAAATAAATAATCAGCA +GATACAAACCATTGTCTATGGTTTTTCCGACATCCGCACCGTTAAATATTCCGAATGATGCGACATATTC +ATAAAGTGAGCCAAATCTGACTACACCGTCAATATGGGTCAAAGAATAACCGACCATCACCAGCGGACCG +ACAATACGATAATATGATGACGATCCTTCCGTACCTAAATCGCCCAGACGGGTGGAAATATAAGGAAACG +CGATTACCACACCAACCAGGAATACAGCCAGAGAAATCAATGCTAACGGTAACTTTTTCTTAATCGCCTC +TTTATTCAGATATTGAAATGCCCACTCCAGCAAATAAAACAGGATAAAGGTCATAACCCCTGAAAACGAT +CCGGATAATATTATCCCTGCGAGAATCATAGCATCTGTTTTAGGCGTTTTGATACCAAACTGTTTGATGC +TGAGCCAAATTGAGATTAATGCCAGAGCGAAAAATGCCGGTTCGAAATAAAGTGCTGTCGTGCGCTTGCC +GCCGAATTTAATGAAATTCAGCACATAGCTGTTGCTGTAAATCAGATATTTCGAAATCGACTCCATAATA +CTGCTGCCACCGGTGAGGATAATTTGTGCCATCTCCACCGCCGCCAGCGCCACCACCAGCCCGACCACCA +GATAAAAGAAACGTAATATCTTGCGATGGTTGTGTGGCGAAATTGTTTTAAAACGAATACTCCACACCAT +GCCAATAATGATCACAATATAGACAAACAGCATAGTTGAAGTGACGTATTTACTGGCATCCAGCGACTGA +CCAAACAGATAGTTAAACGCCGTGAGTCCCGCGCCAATCCCTAAGGCAATCATCAATTTTTTAACGCTGA +TGCGTTCTAAAAACAGCAGTAACAAGACAGGTAAAAAAGTGACGATGGTGATGGGGAAACTTTCGCCAAG +CTGGGCGATTTTGACGTTAACCAGCAGATAAATCAGCGGCAGCAACAGGTAGCTACAGATTCTGATAGAA +GTTGACATACTCCTCCAGCATCTGTTGTCCACTGTAGGCGGCGCGGCTGCGTTGGCTGAACTCAGCCAGC +GTGGTACCAAATATCGCCTGCGCGATTTCCGGTTTGCTTAACTGCACCAGTTGCAGCACCTCTTCTTCGC +TGACGGTTTTACCGCCGGATTTTTGCAACACTTCCCGCGCCGCATCGCTATGGGTGGCAATCACCGGCAC +GCCAATCGATAGCGCCTCACACAAAATCAGCGGGTAGTTATCGACGCGAGAACTGAATACCAGCGCATCC +ATCTGATTGAGCGCGCTCATCAGCTTACGTTTGTCGGTTTCAAAGCCGTGATTAACCACGTTGCCAGCGG +TGAACGGCGAGAACTTACCAAAGGTATGCAGTTCAATTTTGTCGCCCAGCGCCATCATCTCGCGTACCAG +TTGCTGGTTAGTTTTGCCGTCGTAACGCAGATCATGCGCCACCACCGCGATTTTCGGCTTGCCCTGGGTT +TCGCGCACCGGAGGCAAGTCCGCCAGAATCGCTTCAGTTGCCATATCAATGCCATTATTGATAATCCGGC +AACGCCCTGGACCGTACAGGCTATTGAAAGCGTCAGCCACATGCTGGCTGGGGGAAATAAACTGACAGCC +CAGCGCCAGCATCTCACGGAATAACTGGCGTTTGCCCGCCACCAGTTGGTGTGCGCGATCAATCTTCACC +GGCGGATAGTTATTTAAGGTCGGGCATTTCTGGCAGCCTGTTTTCCAGCCTTCGCAACCGTCGGTAAAGG +CGCAGCGTCCGGTAACACTCCAGTGGTCGTGCAGCGTCCAGACCAGAGTGACGTCCGGTTTATGGTTTTT +CACTTTTTCGCAAAAGCGCACCACGCTCTTAAGATTTAGCCAGTAGCTGTGCAGCACATGAAAATGCAGG +ACCACCGGACCCGCTGTGCGAGTAATGGTGCGATATAACTCATTGAAATTGCCAAACAGATCGCGATTAA +ACAGACGAAACAGAGCAATATTCGCCATCGCGGTCATCCGCGGCGTATGTTTGATGACCTGCGGATAGTT +CTGATGGCTGACGCTCTCTTTGCCGCCTTTGCCGTAACCGTAGACAAAATGTGACGCCAGCCCCTGTTGC +AGCGCACGCTGGTGGAGATCTAACGCCACACCTGCTGCCCCGCCTTCCGCCAGTCGCACATTAAATTGCA +AAATATTCATTTAATTACCTTCACTCGCGCTTTTTCTCCCACCACCAGCGCGTTGTCCGGGACAGAGTCG +AGCACCACGCTGCCCGCGCCCACGGTGACGTTGTTACCAAGCGTGATATCACCAAGAATAATGACGTTGG +CACCGAGTTCGACGCCGTTGCCAATGTGTGGACATGCCATGTTATCGGCACCACGATTGCCGATAGTGAC +GCCGTGGCGAATGGTAAAATCATCCCCCGCTACCACGTTTTTATTGATCACGACGGCGTAACCGTGATGG +ATAGTAAAGCGGCGGCCAATGGTCGCGGCAGCCTGGATTTCATAACCGAAAAAGCATTCGGTGATAATGC +GATACAGCACCAGCAGCGGGGCCGCCCACAGATTGTTGAGGACGTTCTTTTTGCGCCACACCGAACAAAA +ATGAGCAACACGATAGGCAAGAACCATGCAGCACGGGCGTAAACTCCAGCTGTTGGCGCGCAGATCTTCC +AGCATCTTTAGCGCCCCCGAATACCATCAGCCAGACGTTTGCCGTTACGCACCGACAGCAGCGTCAGCAA +AGTGCGCCAGGTCATACGTTTATTGCGGATCTGGTAGAGGGTAAACAGCTGATATTTTTTGCTGGCGCGG +TCGAATTTGTCTTTGTGCTTGCGGTAAAAGTGGAAGTACCCGGAGAATTTTTTCGGTGACGAGGTGATCT +GCATTTCACCGTGATTGATATGCAGGATCTGCGTCGCCTCTTCTACTTTCCACGGTTCGCCGTACTCCAC +CACCATCCGCAGGAAGATGTCGTAATCCTGTGCCGCTTTCAGTTCGGTATCGAACAAACACTCTTTGAAA +CGCCATGCCCAGGTAAAGACCTGGTTGCCAATGATATTGCGTTTGTAGAACAGGCGGCGTGAATACGGCG +ATTTGGGATACAGCGGCAAGCTTGCCGGTTGGGAATAGACTTCGCCCTGGCAAACGTAGTCGTTAGCGTA +CAAAAAGGCGTGTGTGACCAGTTGCTGTTTATGGGCGAGGAAGACGCTCAGACGGTTGGGTGTCCATTCG +TCATCGTCATCAATCCCGGTGATATATTCCCCTTGCGCCAGCATAATCGCCTGGTTACGTACCGCGCACG +CCCCGCTGTTAATGTCGTTGTGAATGTAAGTGATACGCGGATCGTTGAGGGCGGTGACGTACTGTTGCAG +TTGTTCCCAGGAGGTGGAGCAATCATCCACGATGATCATCTCCCAGTTGCTGTAGTCCTGGCGCAAAACC +GATTTTATTGCCCGAATCGCCAGTTGTTGGCGGTTCCAGGTCGGCATATAGATTGAGATCAGCGGATTGT +TTTTCATAGGTTGTTCTCCCGGCTTATGAGCTGGTTTGCTTGCCGGATGCGGCGTGAACGCCTTATCCGG +CCTACGGGGCGGTGCGAATGCAGGCGTCGTTATTTCGCATCCGACTTATATTCGTATTCGTAATAGCCAT +AATCCTGATACGCGCTGGCGCGGCGGAAGATGGAGTTCAGAATCACCCCTTTCACCGGAATACCGTTTTG +CTCAAAGCGGCTCAGACTGGTTTCCACTTCTTTCAATGTGTTGACCGCATAACGCGCCACCATTAACGTG +GTTCCGACATGACGACCAACAATTGCCGCATCGGTCACTGCCAGAATCGGCGGCGTATCAATCAACACCA +GGTCATAGTTTTTACTCGCCCAGTTCACCAGTTCGGCAAAGCGTTCGCTCATCAACAGTTCAGAAGGATT +TGGCGGCACCTGACCGCGCGGGATCAGGTCAAATTTGGCAATAGAGGTCGGTTTAGCAGCGGTAGTAATA +TCGCCCTGACCAATCAGAATTTCCGACAGGCCATTAACGTTATTAGTGCCCAACAGCTCGTGGGTGTAGC +CTTTGCGCATATCGCAGTCGATCAACAACACGCGTTTATTGGTCTGGCTGATCACCGCCGCCAGGTTGGC +GCAGACAAAGGTTTTACCAATTGACGGGCTAACCCCGGTCATCATCAACACATTGTTCTGTGCCTGCATC +ATCGCGAAGTGCAAACTGGTACGCAGACTACGGATGGCTTCAATCGCCAGATCGGTTGGATTCCCCACCG +CCAGTAGCTGGCTCTGTTTATAGCGTTTAATCCCTTTGATGGTTTTGACGCTATCACGCGCTTTCTGCCA +TTCCGACAGCGGGATGCTGGCATAGACGCTAATACCGTGTTCTTCCAGTACTTGCGGGCTTTCAATGCCG +CGATTAAACAACGAGCGCAGCAGCACACCCACGATAGAAAGCATCAGGCCAAGGATAATCGCGCCGAGGA +TAATCAGCCCTTTCTTCGGTTTCAGCACGCCAGGCTGAGTGATTGCCGGGTCAACAATGCGCACATCGCC +GACGGTGCTGGCCTCGGTGATTTTCAGCTCCTGCTCTTTATTCAGCAGTTGCATATAGACCTGCTGACCA +GACTCGACATCGCGGGTCAGACGGACAATCTCCTGCTGGGTTTTCGGCATCGCCGTTACGCGACCGTTAA +GTTTGGCTTTTTCGTCTTCCAGCGCCTGACGTTTCTCCAGCAGCGTGCGGTACGCCGGGTGAACTTTGGT +GTACAGCTTGGAGATTTCCGCCTCTTTAAAGGTCAGTTCGTTCAACTGCGCATCGATGTTCACCATCGAA +TCGAGCACCGCTTTTGCTTCCAGCGGCAGATCAACAGAATCTTTATCCTGACGGAAGGCATTCAGTTTGT +TTTCGGCAACATCCAAGCGGCTACGTACTTCCGGTAACTGTTGCGCGAGGAAGGCGAGGCTTTTCGACGC +TTCCGCCGATTTGCGCTCAATATTTTGTTCCTGATAGTTACGGGCGATGCTGTTAAGAATGTCGCGGATC +TGTTCACGATCTTCACCGGTATAAGTCAGGCTCAAAACGCCAGCGTCTTTGCCGTTCTCCGTTACCGTCA +GGCTGTTTTGCAGTTGGTTGATCATCCCCAGCGTGGAGTATTTGGTGACGGTAAACTCACTGCCCGGGCT +GGCGTGAATGGCTTCAACCATCAGCGTGACGCCTTCTTTTTTCAGCATCTGGCCCGCTTGCCCCCGGGCG +CTAAAGCCGCCGTCGCTGCTCAGGGTGTAGTTTTTGTTGTCCAGCACATTAAGCGTAAACACCTGATCCG +CCATCTCTTTCGGGCGGTTAAAGGTGGTCACTTTCACCGTCTCGTTCTGACGTCCCATCAGGCGATCCCA +GCCCGCACCGAAAATCGGGAACGTGTTTTTGCTCACTGCAATATCGAGGTCGAGATCGTCCACCGTTTTA +CCAAGCACCAGACGCGAACGAATCAACTGGATCTCGGCGTCCGATGCAGGCGGTTTGTTGGCTAATGCCG +AACCAATGTCCTGCACTAACGAATTGCCGCTGTTTTGCTCGATTTGTACCAGTGCGTCGGCACTATAAAT +CGGCGTGGCGAAGAAGGTGTAAACCACGGCACAGAGGGCGAATACGGTGGTGATGCCAATCACCCACCAG +CGCGCTTCAATGACGGTGCCGACCAGGCGACCAATATCGATTTCATCACTGCCCGTTACCGGAGCGGCAT +GTTGTTTTACTTTTTCTGTCATTCTTATACCTGCTCTGCGTTCAATGCCTGCGCCCACTGGCGGGCAGAC +CGTTCAAGTAATGTGTACACCGCTGCAAACGTTTCCCGGCTTTTGCGATACGGATCGGGGATTTCACATT +CGTTATCCCAGTGACCAAACAGCATCACTTTGCCGCGCATCTCCGGTGCCATCTCGCATAAGCGTTCGAT +ATGGCGCTTTTCCATGGTCAAAATCAGGTCGTAGTTGCGACACAGACGGCGGCTGATTTGACGGGCACAG +TGACCTTCCAGAGACAGTTGATGTTCTGCGGCGACGCTGATAGCGGTAGGATCAGCGCCCTTACCGACCA +GCGCGCCGAGTCCAGCGGACTCCACTTTCAGCTCCGGGTGATAACGTTGCAGTAAGCGTTCCGCCGTCGG +GGAACGGCAAATATTGCCGACACAGACAACTAAGATGTTGTTAAACATGACGATTACCAGTTATGAATGT +CGCTGGCTGTATCCGTCATGTAACGGACACCGCTAATAGTTGGCAGCAACTGATTGATCAGACGGTTCCA +GCGGGAAACCGGGGCGGTGGTGACATACACCACGTCATAAGGTTGCAGGCGGAATTCTGTCGCCATCACC +AGCGACGTGGCATCGGACATATCCAGCTGGTAGATATTGGCAATCTTGCCGTTACGCCCGCCCTCGCCTT +TCAGCGGACGAATGACAAAGATGCCGCTGGCGTTGGAGGTGGTCATGTCGATGCCTTCAGCATTGCCCAG +GGCTTCAGTCAGGGTCATGCCGCTAAAGTCCATTTTCAGGGTGCTCTGTTTCTTCACTTCACCCATCACA +AATACTTTCAGATCATCATTACGTGGCACGTAGAGAATATCGCCGGGGTAAAGCAGGCGATTCTGGTTGA +GGTCGCCGTTTTGCATCAGCGCCTGCAAAGAAATGCGCTCTTCACGACCATTGTGTGTTAGCACCACGTT +GCGCCAGTCAGCGGTGTCGGTCAGGCCACCTGCGGCGTTGATGGCGTCGAGAATAGTCAGTGGCACGTTG +GTGATCGCCTGTTGACCGGATTTATTCACCTGACCGGAGATATAGGCCTTTTGTGAGCGGAAGGCGGCGA +TATTAACGTCCACCTGCGGGTCAGCGATGTACGTCGCTAAGCGCCCGGTAATATCACTGCGGATTTCAGC +GAGCGTTTTCCCGACTACGTGGACCTTGCCGATATACGGGTAAAACATAGTGCCGTCAGGCTGTACCCAG +TTGCCGGTGTCGCTGGAGCTGCGGTACTGACCGGCTGGCGTGGTGAGTTCCGGGTGATCCCAGACGGTGA +CATTAAGAACGTCCCCCGGCCCGACGCGATACTGGTAATTCGCGATCTCACTTTCCAGCGTCATATTGGG +GCGCGCTACATTCGGGCGTGGGCGTAATTGGTCAATCAGGCGCGGGGTCAGCGGATAAACATTCACCATT +TTGTCGAGATCGAAATCAGCGTCCTGCTGTTTGATGACGTCTTTGCCCATCGTCGACATATTGCTGCCCG +GAAGTACTGTGCAACCGCTTATCAAGGTTACTGACACCAATAATGGCATCAATTTCATTTTGGATTTCAT +CATTGTTTATTTATCACTTTGGCAGAGTAATTATCCTGTGCACTATTAATAGCAATGTCGCCATGCACAT +TTACCTTGCAGTTAATTGAATAAAAATTTAACTGGCATCAGTCCTAAAAAAATTGATTTCATCCGCAGGC +TATTGACAGAATAATTCAGACTGGTCTTTCAGGCATCCAGACACGCTACCGCCCCTGGCTTTTTAGCTAC +CAATACACTGATTTAGTTTAATTTTTCACACCCTCTCAGCATGCAGTCGTTGATGAGAAAGGGTTATTAC +GGAAATTAACTTCCGAATATAAGGTGACATTATGGTAATTGAATATTGGCTTTCCAATAATGCAGGAGGA +AGTGTTACAGCTAACGGAATAGCAGGCAAGATAACAATTCGGTAATTGGCTATTTTTAAGAATTATATTA +AGTGTCATTCAATATGGTTTTTAGGAGTTTCTTTAGGTTGACAATATTTAATATAGTGTCTCCACATGCG +ATATTTCTTAAATAATGTTTTATTATTACCACTTTTAATTCAGGGATAATGTGAGGTTATTACCCTCAAA +TAATATGAGATAAATAGTGCTGCAACATTGCATTTTTGCCCCGATTTATCCATGATCGAATTGTGACATT +TGTCATACAACGAATAGGTTTTGTACTTACTATGGAATGGATTGCCGATCCGTCTATCTGGGCCGGGTTA +ATCACGCTGATTGTGATCGAACTGGTCCTCGGCATTGATAACCTGGTCTTTATTGCCATCCTCGCCGAAA +AACTACCGCCGAAGCAGCGTGACCGCGCACGGGTTACCGGGCTGCTGCTGGCAATGTTAATGCGCCTGTT +ACTGCTGGCGTCAATCTCCTGGCTGGTCACCCTGACTCAACCGCTGTTCAGCTTCCGCTCGTTTACCTTT +AGCGCCCGCGACTTAATCATGCTGTTTGGTGGTTTCTTCCTGTTGTTCAAAGCCACGATGGAGCTGAACG +AACGGCTGGAAGGGAAAGACAGCAATAATCCCACACAACGCAAAGGTGCGAAGTTCTGGGGCGTGGTGAC +GCAAATTGTGGTACTGGACGCCATTTTCTCACTCGACTCAGTGATTACCGCCGTCGGGATGGTCGACCAT +TTACTGGTCATGATGGCCGCCGTGGTTATCGCTATCAGCCTGATGTTGATGGCCAGCAAGCCGTTAACGC +AATTTGTTAACAGTCACCCGACGATCGTTATTCTCTGCTTAAGCTTCCTGTTGATGATTGGCTTTAGCCT +GGTGGCAGAAGGTTTCGGCTTCGTCATTCCGAAAGGCTACCTGTACGCTGCCATTGGTTTCTCGGTGATG +ATCGAGGCGCTCAATCAGTTGGCTATCTTTAACCGGCGACGTTTTCTTTCCGCTAACCAGACGCTGCGCC +AGCGGACTACCGAAGCGGTAATGCGCCTGCTTAGCGGGCAAAAAGAAGATGCGGAACTGGACGCCGAAAC +CGCGTCCATGCTGGTGGATCATGGTAACCAGCAGATCTTTAATCCGCAGGAACGGCGGATGATTGAGCGG +GTACTTAATCTTAACCAGCGTACCGTCAGCAGCATTATGACGTCGCGCCACGATATTGAGCATATCGATC +TCAACGCGCCGGAAGAAGAAATCCGCCAGTTGCTGGAGCGAAATCAGCATACGCGGCTGGTGGTTACCGA +CGGTGATGACGCAGAAGATTTGCTCGGTGTTGTTCACGTTATCGACCTGCTACAACAGTCTCTGCGCGGC +GAACCGCTCAACCTGCGGGTGTTGATTCGCCAGCCGCTGGTGTTCCCGGAAACCTTGCCGTTGTTACCTG +CCCTGGAGCAGTTCCGTAATGCCCGCACGCACTTTGCTTTTGTGGTGGATGAGTTTGGCTCGGTGGAAGG +GATTGTGACATTAAGTGACGTCACTGAAACCATTGCCGGTAACTTACCGAACGAAGTGGAAGAGATCGAC +GCCCGCCATGATATTCAGAAGAATGCGGACGGTTCCTGGACGGCGAATGGTCATATGCCGCTGGAGGATC +TGGTGCAATATGTGCCGCTGCCGCTGGATGAAAAACGTGAATATCACACCATTGCCGGGCTGTTGATGGA +GTATTTGCAGCGTATTCCAAAACCTGGCGAAGAAGTTCAGGTGGGGGATTATTTGCTTAAAACGTTGCAG +GTAGAAAGCCATCGCGTGCAGAAGGTGCAGATTATACCGCTGCGTAAGGATGGCGAGATGGAGTACGAGG +TGTGATGGTATCGGTCATTTTACCCAATAGCCGAAAGGAATAAGATGAGGGAACCGCGCCATCGGCGATT +TACCGCCGGGAGCCCGGGTTGCCAGGGTGGTGGAGATTGAGCCACCCTGGCACGTTCACCGGCTTGAGCG +TTCCATAGTAGCGAGGAACATCAAGTGAACGGAACAGCCTTCGATCTTACATATTCAGAATATAATGATG +CCGCCACGAACGCCTGATGCGACGCTTTACGCGTCTTATCAGGCCTACAGGACTGGTCACCTGGTAACCT +ACATCTTCTCCAGCAACTTCTTCACATCTTTGCCATTACGGGAATCTTTATTCCGCTCGGCCCAGTCATT +CAGGCGACGTTTCGCTTCGTCCTGTAGATGTTTGCGCAGTAACTGATCCACTTGCAGGCTGTAATTGAGT +TGCTGCCAGTTGCCATAAACCCGCAGCGGTACTGGCGTTTCTTTCAGGAAATCAATCAGTTTGCTTTCCC +CGTTCCAGCCACCCACGACCCGAATATCAAACTGGGTGTCGCAGGTTTGATCTGCCAGATTCAACATGCC +TTCCCCTGTCAGCGCCAGCACAGGCGATTGACCTTGCATGTCGTTTAACGTCACGACGCCATCCTTCAAC +GTCAAATCGGTGGTAAAGCGGTCAAGCCGCGTCACGTTATCAAAGTTTTCAGCGGCCTTCACATCACCGC +CATTACGCTCTACCGCTTGCTGAATCATCTGCTGGAAGTTCATCCCTTCCATGCGCGTGTCGGTCATTTC +GACATGTGCCTGTCCTTGCCAGTTGTGGCGGAATGCGTCGGCATCTATGTCAGCACCGGAGAAATCACCA +GCCAGTGACATTTTTCCGGTCAACGAAATCGGATAGTTAAACGCCTTCAGAATGGTACCAATCTCAACGT +TTTCCAGCCGTGGCTGGAAGTTTATCCGCGGATTTATTGATGTCGCGTCCAGCGTGCCCGGCAGTGAAAC +CTGTCCACCGTTAAGTTTGCCCTGCAGTTGAGTAATTTCCAGCAAACCCGACTTGTTGGTCATTTGCGTG +GCAACATCTGTAAAATTCATTCCGCGCCAGCGCACGTTACTGGCCTGCAACAAAATATCAGCCGTAAAGC +CTTGCAGTCCCTGATAGGCCGGTTCATCAATACGCGAAGAAATGACCGGGCGCGGCAACGTTGATTGGCT +CTGCCCCTGCTGCGCGGCACCGTTTTCACCATTCGCGGTTTCATTAAGCGGGATGAGGTTGTCAAGATTC +AGTTGCGGGAATTGCAGCCTCAGCTGCCATTCCGGTTTCTCTGTCAGCGTAACCTGTGCTTGCCCGCTTA +GCGTACTATCATTGGCGGTCAAACTAATTTGGTTAAATGAAAGGCGTTTATGTGACTCCTGCCACTGGGC +CTGGAAACTCCCCTGCCCCTGAATACCTTGTTTTGGTAAATCGGCACCCTGCAACTGCCAGTTAATTTGT +TCAATAGCCGCCGTTAAATCATGCGGATAATCAGAAGCATCTACCGTACCGTTAAGGGATATCGTGAGAT +CGCGCTGATCGCGATTAACCCGCCCGGAGAACTCAAATGAACCACGATGTTGGGGATCTTGTTCCATTTG +CAGGCGAATATTGCGGATTGTCACCTGCTCGTCATCTTCATGCTGGAACACCAGCACGCTGTCCGCCACC +TTAAGACTGGATATATCAAACGACCATCCGCGATCGTCTGACAGATCCGGCAAGGTATTGTCGCGCGGTG +CAACCGGAGCGTCTTCACTGCGCACCGCTTCCGTCTGCGGCGTCAGTTGGATCACTGCCCCTTTTAGCAT +CACCTGCTTAACGCTCAGTTGATGACTCAGTAGTGGTAAAAGCGCCACGTCCAGACGCATGTTGTCGGCG +CGAACCAGTGGCTGGCTTGCGCCCTGGGCGGTGAGAGACATTCGCCCGGAGAGGATACTAAGCTGCGGCC +AGACGTGCCAACGCAGTGGCCCGTCGAGCTGCAATTGATAACCGCTACGTGCAGCAACTTGCTTGACCAT +ATAGTCGCGGAAATCATTCGGATTCACCAGCAACACTAACGCAGATAACCCGGCCACCAGCACGACCAGG +AGTATCATCAGCGTCGTCAGAAATCGTCTCATGGTATCCTCAATGGGCCTGAATTAGTCTTTATCGATTC +GGCTGGCTACCGCGCCCTGCTGGTTGCGATATTTCGCATCTTCACGGCGGTTGTAAGGTCGCACCGCCGG +GCCGGAAAGCGGCTCAAAGCTCAGCGCACCAATTAACATGCCCGGACGCAGCGCCAGCGGCAGCTTACCG +GAGTTGTAGAACTCCAGCACAATGCAACCAGACCAGCCCGGATCGATGCGGTGCGCGGTGACGTGCACCA +TCAGCCCCAGACGCGCCAGTGAGGAACGCCCGTCCAGCCAGCCCACCAGATCGGCTGGCAGCGTCACCGA +CTCCAGCGTCACCGCCAGCGCCAGCTCTCCTGGGTGAAGATAGAACGCCTCGCCCTCGTCGAGAACGATC +TCATCGCTCATCACGCGGTCAAGCGCGGCGCTCACTTCATCTTTGGGACCGCTCAGATCGATAAACGCTG +CCGTGTGACCACGGAAGGTACGAAATTTATTGCCCAGGCGTACATCCACCGTCGCGCCGTTAATACGCTC +CACTGGCGGACGTGGGTTGATCGACAAACGGCCTTCATCAAGCCAGGCTTCAATATCTCGGTCACACAGA +CGCATGGCATTTTCTCCTTTCGCGCATCACTCCCTTAACGCCAATTACGTCAAGGGCATACTAGGTTATC +ACTGAACGGTACACAATTTATCAAGCTTATTCAAAGAACTGACTTATTTTCGCTTTCAATATATCGATCG +CGATGCGGTTTTTCCCGCCGCGCGGCACGATAATGTCCGCATATTGTTTAGAAGGCTCAATGAATTGCAG +GAACATCGGGCGCACGGTTTTTTGATATTGCGCCATCACTGAATCCATTGAACGCCCACGCTCGTTAACG +TCACGCTTGATGCGGCGCATCAGGCAGATATCCAGCGGGGTATCAACGAAAATGGAGAAGTTAAGTTCGT +CACGCAAACGCGCATCCGTCAGCAACAAAATGCCTTCGAGAATGATGACCTTCTTCGGCTCAACCGTCAC +CGTTTCTTTCATACGCGTATGTTCAACATAGCTGTAAACCGGCAGGTCAATTGCCGAGCCGCGTTTCAAC +GCTTGTAAATGCTCAAGCAGCAGACTGTGATCCATCGCGCTGGGATGGTCGTAGTTGGTCTTAACGCGTT +CTTCCATCGACAGATGGCTTTGATCTTTGTAATAGCAGTCTTCGGGAATTACGCCGATGTGTTCATCACC +GACTTGCTCACGCAATTCACGATAAAGGGTACTGGCAATAAGACTCTTGCCGGAAGCCGATGCGCCAGCG +ATACCGATAATGACGCACTGATGAGACTGATCAGTCATATATTTAGCGACCTGATTAACCTGGATGTTAG +GAAGGGGGCGACGAAGCGCCAAACGCGGCAATTATAGGGATTTCATCCGTCTGATACCAGTCGAATAGCG +TTGCCGCGCGCTCAGAGTTAATTGTTGACAAAGAATTCCCGGGGGCAAATTACGTTGATCAGTTTTATGT +AAGGTAAAAAATGTTAAACGCAGTTGCGCAAATTATCCGCCTTTACGTCACTTTATGAGCAATTCGCATA +TAAAATGTAAAACTTTTGTACTAGCATAAACACAGAAACGAATACTGGCGACCAGGTCTTGCGGATAAAG +CGGTAATGAGCAAACAATCACAGCATGTATTAATTGCCCTGCCCCACCCGCTGCTTCACCTGGTCAGTTT +AGGTTTAGTCTCGTTTATCTTTACCCTTTTCTCGCTTGAGCTTTCGCAGTTTGGCACCCAACTCGCCCCA +CTGTGGTTCCCGACGTCCATCATGATGGTGGCGTTTTATCGCCATGCCGGGCGCATGTGGCCGGGAATTG +CGCTGAGCTGTTCGCTGGGAAATATCGCCGCATCCATCCTGCTTTTTTCCACCAGCTCGCTGAACATGAC +CTGGACGACCATCAATATTGTTGAAGCCGTGGTCGGGGCAGTGCTGCTACGTAAATTGCTGCCGTGGTAT +AACCCCTTGCAAAATCTGGCTGACTGGCTGCGTCTGGCACTCGGCAGCGCCATTGTTCCGCCTCTGTTGG +GGGGTGTTCTGGTTGTCCTGCTGACGCCCGGAGACGATCCTCTCAGGGCATTTTTGATATGGGTACTGTC +AGAATCCATCGGCGCTCTGGCACTGGTGCCGCTGGGATTGTTATTTAAACCACACTATCTGCTGCGCCAT +CGCAACCCACGGTTGCTTTTTGAGTCGCTGCTCACGTTAGCCATCACACTGACGTTAAGCTGGCTTTCGA +TGCTGTATCTGCCGTGGCCTTTTACTTTCATTATTGTGCTGTTGATGTGGAGCGCCGTGCGTCTGCCACG +AATGGAAGCCTTTTTGATCTTCCTTACCACGGTGATGATGGTGTCGCTGATGATGGCCGCGGATCCCTCC +CTGCTTGCTACGCCGCGTACGTACCTGATGAGCCATATGCCGTGGCTACCGTTTTTGCTGATCCTGCTGC +CCGCCAACATCATGACCATGGTGATGTATGCCTTTCGTGCGGAACGCAAACACATTTCCGAAAGCGAAAC +CCACTTTCGGAACGCGATGGAATATTCCGCTATCGGTATGGCGTTAGTGGGCACCGAGGGACAATGGCTG +CAAACCAACAAAGCGCTCTGCCAGTTTCTCGGGTACAGTCAGGAAGAGCTGCGCGGACTCACCTTTCAGC +AACTGACCTGGCCGGAGGATCTCAATAAAGATCTCCAACAGGTTGAAAAGCTGATAAGCGGTGAAATAAA +CACCTATTCAATGGAAAAACGCTACTACAACCGCAATGGCGATGTTGTCTGGGCGTTGCTTGCCGTCTCA +CTGGTGCGCCACACGGATGGCACGCCGCTCTATTTTATCGCTCAGATTGAAGACATTAACGAGCTAAAAC +GCACCGAACAGGTCAATCAGCAACTGATGGAGCGCATCACTCTGGCTAACGAAGCGGGCGGGATTGGCAT +CTGGGAGTGGGAGTTGAAGCCGAATATTTTTAGCTGGGATAAGCGGATGTTCGAGCTGTATGAAATTCCT +CCACATATCAAACCGAACTGGCAGGTGTGGTACGAGTGCGTGCTGCCGGAAGATCGCCAGCATGCCGAAA +AAGTGATTCGTGATTCGTTGCAATCACGCTCGCCCTTTAAACTGGAATTTCGCATTACCGTAAAAGACGG +TATTCGCCATATCCGCGCCCTCGCCAACCGGGTACTGAATAAAGAAGGCGAAGTCGAACGTCTCCTCGGC +ATCAATATGGATATGACCGAAGTGAAACAGCTTAACGAGGCATTGTTTCAGGAAAAAGAGCGCCTGCACA +TTACGCTTGATTCCATCGGTGAAGCCGTGGTCTGTATTGATATGGCGATGAAAATTACCTTTATGAATCC +AGTGGCGGAGAAGATGAGCGGCTGGACGCAGGAAGAAGCGTTAGGTGTTCCGCTCCTGACGGTGTTGCAT +ATTACTTTTGGCGACAACGGACCATTAATGGAGAACATTTACAGTGCCGACACCTCACGTTCCGCGATCG +AGCAAGATGTGGTGTTGCACTGTCGGAGCGGCGGCAGTTACGACGTGCATTACAGTATTACGCCGTTAAG +TACTCTGGACGGCAGCAATATTGGTTCGGTTCTGGTGATTCAGGACGTTACCGAATCACGCAAAATGCTG +CGCCAGCTGAGCTACAGCGCCTCCCATGATGCACTGACGCATCTCGCCAACCGCGCCAGTTTTGAGAAAC +AACTGCGTATCCTGCTGCAAACGGTAAACAGTACACATCAGCGACATGCCCTGGTGTTTATCGATCTTGA +TCGCTTTAAAGCGGTGAATGACAGCGCCGGGCATGCGGCGGGTGACGCTTTGCTGCGCGAACTGGCGTCG +TTAATGCTGAGTATGCTGCGTTCCAGCGACGTGCTGGCGCGACTCGGTGGGGATGAATTTGGTCTGCTGC +TACCAGACTGTAATGTTGAAAGCGCGCGTTTTATCGCTACACGCATTATCAGTGCCGTGAATGACTATCA +CTTTATATGGGAAGGCCGTGTGCATCGGGTAGGTGCCAGTGCCGGGATTACCTTGATTGATGACAACAAT +CATCAGGCGGCAGAAGTGATGTCGCAGGCTGATATCGCCTGTTATGCCTCCAAAAATGGTGGCCGGGGCC +GGGTGACGGTTTACGAACCGCAGCAAGCTGCCGCACATAGCGAACGGGCGGCGATGTCGCTTGATGAACA +GTGGCGGATGATTAAAGAGAATCAGTTGATGATGCTCGCCCACGGTGTCGCTTCGCCACGGATCCCGGAA +GCGCGTAATTTGTGGCTGATTTCACTTAAGCTCTGGAGTTGCGAAGGCGAGATTATTGATGAACAAACAT +TTCGTCGTAGCTTCAGCGATCCGGCGCTTAGCCATGCTCTTGACCGCCGGGTATTCCACGAATTTTTCCA +GCAGGCCGCAAAAGCGGTTGCCAGTAAAGGCATAAGCATCTCCCTCCCCCTTTCCGTTGCCGGTTTGAGT +AGCGCCACGCTGGTGAATGATCTGCTTGAGCAGCTGGAAAATAGCCCTCTACCACCACGGTTATTACATC +TGATTATTCCGGCTGAAGCGATTTTAGATCACGCAGAAAGCGTGCAAAAACTGCGGCTGGCGGGATGTCG +GATAGTGCTCAGCCAGGTGGGCCGCGATCTGCAAATCTTCAACTCGCTGAAAGCGAATATGGCAGATTAC +CTGCTACTTGATGGTGAGTTATGCGCCAACGTGCAGGGTAATTTGATGGATGAGATGCTGATTACGATTA +TTCAGGGGCACGCTCAGCGACTCGGGATGAAAACCATCGCCGGGCCAGTCGTTTTACCCTTAGTGATGGA +TACGCTTTCTGGCATCGGCGTCGATCTGATTTATGGTGAGGTGATTGCCGATGCCCAACCGCTGGATTTG +CTGGTGAATAGTAGTTATTTCGCGATTAACTGAGGCGTGCTTCCCCATCGCCTGATGCGACGCTAACGCG +TCTTATCATGCCTACAAATCGCTCATTCCCCAGGCCGGATAAGGCGCTCGCACCGCATCCGGCGACCAAC +GTCATGCTTCGTCTGGTTGCCAGCCTTCCGTATACCAGATATGCAACAGCGCATAAGAACGCCAGGGCTT +CCAGCGCTCGGCATAACGGCGGATTTGCGCCGGTGTCATTCCCGGAAATCGCTGTTTAATCAGATAATCA +TCCGGCAGGAAAACATCTTTCGCCTGCCAGCCACGCAAAGCAAAATAATTCGCCGTCCAGCGCCCGATAC +CCGGAAAAGTTTGCAGCGTTTTCATCGCCTGCTCCACATCGCCCGGTATTGTCATTGGTAAGGTGCCCTC +CAGCGCCGCATTTGCCAGATGAATCAGCGCCTCTGCCCGTTTCAACGGCATACCTAACGCTTTTAATGCC +TGCGGGTCTGCTGCTGCCAGCCGCTGAGGCGTCGGGAAGCAGATATACTCCGGAAAATCATCCAGCCGTT +CGCCATAAAGCTGTGCCACTCTGGCGGTCAATTTTGCCGCCATCGCCACGCTCACCAGTTGGCCTAAAAT +CGCCCGCACGCCCTGCTCAAAAGCATCAACACAGCCGGGTAAACGCAATCCGGGCCGCGCCGCGCCTAAC +CTGCCCAACGCACCGTTAACAATTTGTGGGTTACATTGCAGATCAAACAGGCGGCTCATTTTCGCCAGAC +ACTCTGCGGCAACAGGTTCTAAACCTGCACTTAAATTTATGTGCAGAGTATGGCGGGCTATATCCGGAAT +AGCAGTCACCACGCCGCGATATTCGCCCACCGCCAGACTACGGGCATAATAACTGTCCGCGACCGTTTCC +ACACTGCTCACCGCACGGGCGGCGAGAAATCCCAACATCCACGACCAGTCATACGGCGGCTGCCAGTTCA +GGGTATACATCGCATCTCCTTATTCATCCGCTTTCAGCATAAACGTTATTCAGACGCTGCGCTTTGCTTT +CATATTCCGGTTGTCGCGACGGCAACATTTCGCTAAAGTCACGCCCCTTCTTCACCGGCATGGGGATTAT +TTCGTGTTTATTGGTTTTGATTACGGTACAGCAAACTGTTCAGTGGCGGTCATGCGTGACGGTAAACCGC +ATTTGCTAAAAATGGAAAACGACAGCACGCTGCTGCCTTCAATGCTTTGCGCGCCAACGCGTGAAGCGGT +AAGCGAATGGCTGTACCGCCATCATGATGTTCCGGCAGACGACGATGAAACGCAGGCGCTGTTACGTCGG +GCGATTCGTTATAACCGCGAAGAAGATATCGATGTTACGGCGAAAAGCGTGCAGTTCGGTCTTTCCTCAC +TGGCACAGTACATTGATGATCCAGAAGAAGTGTGGTTTGTGAAATCACCAAAATCGTTCCTCGGTGCCAG +CGGCTTAAAACCGCAGCAGGTAGCGCTGTTTGAGGATCTGGTCTGCGCAATGATGTTGCACATTCGCCAG +CAGGCGCAGGCACAGCTGCCAGAAGCGATTACTCAGGCGGTGATTGGTCGTCCGATCAACTTCCAGGGGC +TGGGCGGTGATGAAGCAAACACCCAGGCGCAAGGGATTCTGGAACGCGCGGCGAAGCGTGCCGGATTCAG +GGACGTGGTATTCCAGTACGAGCCGGTCGCGGCTGGGCTGGATTACGAAGCCACCTTGCAGGAAGAAAAA +CGGGTGCTGGTGGTGGATATCGGCGGTGGTACGACTGACTGTTCATTGCTGCTGATGGGGCCGCAGTGGC +GTTCGCGTCTCGATCGTGAAGCCAGCCTGCTGGGTCACAGTGGTTGCCGTATTGGCGGTAACGATCTGGA +TATCGCGCTGGCGTTTAAAAACCTGATGCCACTGCTGGGTATGGGTGGCGAAACCGAAAAAGGCATCGCC +CTGCCGATCCTGCCGTGGTGGAATGCGGTTGCCATCAACGACGTACCTGCGCAGAGTGATTTCTACAGTA +GTGCCAACGGTCGTCTGCTTAACGATCTGGTACGCGATGCCCGCGAACCGGAAAAAGTGGCCCTGTTACA +GAAAGTCTGGCGTCAGCGTTTAAGCTATCGCCTGGTGCGTAGCGCAGAAGAGTGCAAAATTGCTCTTTCA +AGCGTAGCGGAAACCCGCGCCTCACTGCCGTTTATCAGCAATGAACTGGCTACGCTGATTAGCCAGCGAG +GGCTGGAAAGCGCCCTCAGCCAGCCACTGACGCGGATTCTGGAACAGGTGCAACTGGCCCTGGATAACGC +CCAGGAAAAACCGGACGTTATCTACCTGACCGGCGGTAGCGCCCGTTCTCCGCTGATTAAAAAAGCGCTG +GCAGAACAGTTGCCGGGCATTCCGATTGCAGGCGGCGATGACTTTGGCTCCGTCACCGCCGGGCTGGCAC +GCTGGGCGGAAGTGGTGTTTCGTTAATTGAAAAATGGCTCAGCAGCGGCTTAAATCTGCCTGCGCCTGAG +CCAGTTTTTCTGCTGCCTGACGTAACGGTTCCATCAACGGCATGGTCCGTGCTGGAGCATGAAGGCGGAA +TCGCTGCAACTCTGTCGCGCCGACTGTCAACGCCGATTCCAGCCGATGTCGTTTGGCGGTCATTTTCGCC +ATTACCGCTTGTCTGTCTGCTGGCGTTATCGCTTCATTCGGCCTGAACACAAAACGGCGTTCACAGCTCG +CTTTCCAGTCGATAACCGCCTGGGTCAGATGGTCGCCAAACCCTTTCACTTGCTTAACGCCACGACGGGT +AACATCTGCGGCTGTTTCAATACCAAAAGACCGTAACGCCGCTTTACGCGCAGGGCCAACGCCGGGAATA +GAGGCAACATCAATAAAAAATCCCTCCAGAAACTTCTGCTTCTGCCGTTCCCTTGCAGTGTCATGAAGTG +CTGCCAGAGCGCGTTTCTCTTCTTCCGGTAACCCGAGAATTTCGTCCTTCATTTTTTCGAGCATCGTCCG +TTTGGCGATAAAACCTTCCAGGCCGCCTACCTGCTGGATCTGGCGGACTAAATGGTCATAGTCCATTTTC +GCACGATTAAATGCCTCACGGCGTTGCTGAACTTCTGCTTTGTACGCTTTGCTTGTCAGACTGCCAATAA +TCCAGATAGCCGCCAGCACAGGAACCAAAATAATATAACGCGGTTCTGCCTGAAGGCCGCAAAGCAGCAG +CGATAATGCTGACAGTGCGATCTCAAGCAGAATGATGTATTCGCGCCGTAACAGGCCTAAAGGAAGCGGC +CTGCCAGTCGGTTGGAAATGATCGGGTAATGGCAGTTGCAATGCTGGCGGTGCTACTGACGCCATCACCA +TCGCCCAGACTTTCGCCAGCACAAAATTCCCGCCGGTGGTAATGACCTCTTCGCCGAGATCAATAAAATA +GATAACACCTTGATTATCCAGCGCACACCACGGGCAGTCAGTCAAATGAGCGGGGTAAACATGCATTGCT +GAAACGATACATTTCTTTAACTGTTGGCGTAGAGAGTCCAGTGCCGCTACCCACGCTTTAGCCGTCGGAC +GCCCGGTTGCCACGCCACTTTCCGTGAATGCCTGCTGAAACATGGCTTCAACATCACTCGGTAACATCGA +TAGCGGAATAGATCGTGGCGGCGGTTTTAAACCACGTCGCTGATTATCTGACGCGTAGGCATAACGGAAA +TGGGTAATATCCGTCTCCAGCGCATTACCCGCATCAGAGATAAGCGGCACACCAGAATAAGGATGCCGCC +CACCAAACAAGACGTGAAAAATTAGCAACGCAAGGCCAAAATTATCGTGATTTTCTGTGCGTTCAAAACC +GACAAATGATGGCAAGGTTTGTAGCTCTGGCGGCGTAAAATGCGACACGCCGACTTCGCATAAATGCAGT +GTGCCATTGGCGTTAATTTGAAAGGAGTCGCTATCAATCAGTACCACTTTGCTGTCGCGACCTACCATAA +AACTGTTCTGGTTTACGTCACCCACGACGTGCCCGTGCTCGTGAACCGTAGCAAAAGATGAAGCAATATT +GCGCGCAACATAGAGTAGAAAATCCCACGCACAATGAGGGTAACTCTGGCGACGATGTGCCGGGCTATAG +ATCATATGAATCGGTTCTTTACCAGAAACTTTTGGCATCATAAAACCGATAACTTTTCCGCCTCGTCCAC +CGTGAAGCGTTGCCTGCGGCCAGGCGACATAATTCAACAACTGCGCGTCAGCTGTCGCAGCCATAAAGGC +AAGTTTGTCCTGTTTTAAGGCGGGTGGCGGCGTGTGATAAATCTTGGCGACGCTATCGACAAACTCCTCG +ATATCATAAACCGCGCCTTCACCACCTTTGCCCAGTTCACGGCCAAGAGTGGTCAATTCACCTGTCGATG +TAAATACTTTTATATTTGTTTTCATAATATTTCGCGGGTAGTTATATTATATTTCAATGAATAATAACAA +CTAACCATTAAAATTATTTCTATATGGGGAAAACCCACTCAAGAATAAAAATGATAATGCAATTTTATCA +GGATACAATTCAATTTCGGCCTGATAATGATTAACTTCCACAGGTTTTTGCTAACTTTGACTACAAAGGG +ATTCTGGAGAAAAAATGAAAAAGATATTACTTATGTTGAGTCTGCTATTTTTTACTACCGCGGGCTTTAG +TGAAGTTTCGGATACGTTAGTGACGGGAGGTTATGATAAACAAGCGATGTCTGACGCGATTAAACATGCG +CGGAAAGAAACCGATAAATTCATCGAGGTTATGAATAAAAAAGATGCCGATACTTTCGCAGTCAAAGCCC +CGATAACCGATCACGGAAGAACCGAGCATTTCTGGCTTACGGATGTCACTTATTCTAACGGCATGTTTAT +TGGCGTAATCAGCAATGACCCTGGTATTGTTACAAACGTAGAATATGGCCAGGAGTGGAAAATCAAGAAA +GAAGATATTTCAGACTGGATGTATACGCGCGGGGATAAAATTTACGGCGGTTATACCATTGATCCTTTAT +TGGTCACCTATCCAAAAGAAGAAGCCGACGAGCTAAGAGCAAAATTAGTTCGCTAATCAGCCGTTATATT +TATTGTTTAAACTGGCGGTTGAATTGTTGTCTTCAACCGCCATGAGAAACTCACTCTGCCCACAGCGCCA +GTGCCAACGTTTTATCATCATCCGTACGCTCGTTTACCGCCGGGCTGGACAAAAACTGCTTTAACAATTC +AGGTAATAAATCGAGTTGTTCCTGCGTTGCTGCCGCCAGTCCATTGAAAAACGGGGTAAAGAAAGGCACA +TGAGGAGAATTATCCAGCATATTTAACGCCAGTCGCTGGATACCATCCGTAAATGCTGCAACTTTGTGCG +CACGCCCAGTGCTGGTGAAAGTTTCCAGTCTGGAAACGGCATCTTCGTCGGTAATGAAGTGCGTCATGTT +GGCATATTCACCCGCCATCGGCGTGAGAGGCAATTGCAGACCGTGACCCAAATCTACCACCACGCCGCCA +TCGCCAATCTGCATAATCAAGGTGCCGTCAGGCGATGAAATCAGTCCCAGAAATGTGCAGGCAAAATCGC +GAACCGCTAATTCTTTGGCTTCCGCCTCGGCAAAAAGTCGTTGACGAATGGTCAGTACCATATTTGTGGC +GAGGACATCATTAAGCCCCAATTCCCCGCCCTGCACTTTTTGCGACATATAAGCCATCGCTTCATTGACG +GCGAGCATCGCGCCTTCGCCACCCTGCGAGACACTGCCTGCGCCATCAGCGACAAATACCGACAATAATG +GCTGCTGGTCATTTAACCAGGCAATCTGCATCTGGCAGGCATCCTGACAAGGCAAGTCCGCGCTGATGTG +CGACGTTCCAACGGTTGATGCATAGACCAGACGCCAGCTCACACTGACGTCCAGCCTTTTGGCGCTTCCA +GCACAACTTCCGTTCCCGGCGTGGAGCGGGAAACCGAACGCAGCGAACTGGATAACCAGCTAAACAGTTC +ACGGAATTGTAATCCTTGCAGAGGCAAAGGCTGACGAACGCTAATTTGTGCCAGCGTCTTCATATCCGCC +CCCTGAACACCGATGGAAAAGAAAGCAAACCTTTTATCTTCTTCCCCCCGAAACACTTTGTTGGCTGCAG +CCTGCCACTCATCGGTTGGTGCACCATCGGTAATCAGGAAAATCCACGGGCGATAATACGAAATACCATT +TGCACGATACTCACGTTTCCGCTCCTCTACCATATCCAGGGCTTTGGTAATGGCCGCACCCATTGGTGTA +TCGCCCTGGGCAAACAGGATGGGCGGAAAAAAATTAGCGGCGCTGGTAAAGGGTTGTTCCACATGCACCG +GGCCGAACGTCACAATGCCGAGTTCCACTCTTTTTAAAGCCAGCGGATCAGCAAGCAGTTCATCACGAAA +GGTAACCAATCCGGCGTTAAGTTCATTAATAGGTCTACCGTTCATAGAACCAGAAACATCCAGCAGCAAA +ATGCAGGGGCAACGTGGTTCCGGGTTACTGGCAAAATCGCTGGTGGCAAACGTGATTTGTTCGCTCATAA +GAAATCCTTTCTTAGAGAATTATCGAGGTCCGGTATCATACCGACTGCAATAATGAAATAAGAGCAAACG +AAGAAACTTTCAGAATTAGGCCCGGCGGCGCAGAAAATTTTGCTATTCGCCTCGCAAGAACGGAGAGCCG +TCGATTGACACTAAGGGCGGAGTGACATAATTTCAGGAGTGAGGGTTAGGGAGAGGTTTCCCCCTCCCCC +TGGTGTTCTTAGTAAGCCTGGAAGCTAATCACTAAGAGTATCACCAGTATGATGACGTGCTTCATCATAA +CCCTTTCCTTATTAAAAGCCCTCTTCTCCGGGAGAGGCTTTCCCGTTTCAGCGTCCCGCTGAAATCATCG +GCTTACCTCCTTTCGCCCTGAATGCAGTCTATCGCTAACGCGTGAATAAAATAGTTTCCTCTGTGATTAT +TGCGTAACGACTCGCAAAGAATATTTGCTGGCAGGATCGCAGACTACAAAGCCTGCGGATTGACAATCTT +ATCGTGAAGGCATACTTTCAGGAGTGAGGGTAGAGCGGGGTTTCCCCCGCCCTGGTAGTCTTAGTAAGCG +GGGAAGCTTATGACTAAGAGCACCACGATGATGAGTAGCTTCATCATGACCCTTTCCTTATTTATGGCCC +CTTCCTCGGGAGGGGCTTTCCCGTTTCAGCGTCCCGCTGAAATCGTCGGCTTACCTCCTTTCGCCATGCA +AGCAGTCTATCGCTAACGCGTAGATAAAATAGTTTCCTGTGTTATTACTGGATGCGTGCTCGCAAATGTG +CCCGTCATTCAGACGATTCCAGACAGTGTTTCATAATTCCTCCATTTTTCTCCCTTATTGGCTGGCTACA +CTAGTATCATTCCGCGAAACGTTTCAGGAAGAGAAACTCTTAACGATGAAAGGTAGTTATAAATCCCGTT +GGGTAATCGTAATCGTGGTGGTTATCGCCGCCATCGCCGCATTCTGGTTCTGGCAAGGCCGCAATGACTC +CCGGAGTGCAGCCCCAGGGGCGACGAAACAAGCGCAGCAATCGCCAGCGGGTGGTCGACGTGGTATGCGT +TCCGGCCCATTAGCCCCGGTTCAGGCGGCGACCGCCGTAGAACAGGCAGTTCCGCGTTACCTCACCGGGC +TTGGCACCATTACCGCCGCTAATACCGTTACGGTGCGCAGCCGCGTGGACGGCCAACTGATAGCGTTACA +TTTCCAGGAAGGCCAGCAGGTCAAAGCAGGCGATTTACTGGCAGAAATTGACCCCAGCCAGTTCAAAGTT +GCATTAGCACAAGCCCAGGGCCAACTGGCAAAAGATAAAGCCACGCTTGCCAACGCCCGCCGTGACCTGG +CGCGTTATCAACAACTGGCAAAAACCAATCTCGTTTCCCGCCAGGAGCTGGATGCCCAACAGGCGCTGGT +CAGTGAAACCGAAGGCACCATTAAGGCTGATGAAGCAAGCGTTGCCAGCGCGCAGCTGCAACTCGACTGG +AGCCGGATTACCGCACCAGTCGATGGTCGCGTTGGTCTCAAGCAGGTTGATGTTGGTAACCAAATCTCCA +GTGGTGATACCACCGGGATCGTGGTGATCACCCAGACGCATCCTATCGATTTAGTCTTTACCCTGCCGGA +AAGCGATATCGCTACCGTAGTGCAGGCGCAGAAAGCCGGAAAACCGCTGGTGGTAGAAGCCTGGGATCGC +ACCAACTCGAAGAAATTAAGTGAAGGCACGCTGTTAAGTCTAGATAACCAAATCGATGCCACTACCGGTA +CGATTAAAGTGAAAGCACGCTTTAATAATCAGGATGATGCGCTGTTTCCCAATCAGTTTGTTAACGCGCG +CATGTTAGTCGACACCGAACAAAACGCCGTAGTGATCCCAACAGCCGCCCTGCAAATGGGCAATGAAGGC +CATTTTGTCTGGGTGCTGAATAGCGAAAACAAGGTCAGCAAACATCTGGTGACGCCGGGCATTCAGGACA +GTCAGAAAGTGGTGATCCGTGCAGGTATTTCTGCGGGCGATCGCGTGGTGACAGACGGCATTGATCGCCT +GACCGAAGGGGCGAAAGTGGAAGTGGTGGAAGCCCAGAGCGCCACTACTCCGGAAGAGAAAGCCACCAGC +CGCGAATACGCGAAAAAAGGAGCACGCTCCTGATGCAGGTGTTACCCCCGAGCAGCACAGGCGGCCCGTC +GCGCCTGTTTATTATGCGTCCTGTGGCCACCACGCTGCTGATGGTGGCGATCTTACTCGCCGGGATTATC +GGTTATCGCGCCCTGCCCGTTTCGGCGCTGCCGGAAGTGGACTATCCGACCATTCAGGTGGTCACGCTCT +ACCCAGGTGCCAGCCCGGATGTCATGACCTCTGCCGTTACCGCGCCGCTAGAACGCCAGTTCGGGCAGAT +GTCTGGCCTGAAACAGATGTCGTCGCAAAGTTCCGGCGGTGCGTCAGTTATCACTTTGCAGTTCCAGCTA +ACATTACCGCTCGATGTCGCCGAGCAGGAAGTGCAGGCCGCGATTAACGCTGCGACCAACTTGTTGCCGA +GCGATCTGCCTAACCCGCCGGTTTACAGCAAAGTGAACCCGGCAGATCCGCCGATCATGACGCTCGCCGT +CACCTCAACCGCCATGCCGATGACGCAAGTGGAAGATATGGTGGAAACCCGCGTCGCGCAGAAAATCTCG +CAGATTTCCGGCGTCGGCCTGGTGACGCTTTCCGGCGGTCAGCGTCCGGCTGTTCGCGTCAAACTTAACG +CTCAGGCGATTGCCGCCCTCGGCCTGACCAGCGAAACCGTGCGCACCGCCATTACCGGCGCTAACGTTAA +CTCGGCAAAAGGTAGCCTCGACGGCCCTTCCCGTGCGGTCACGCTTTCCGCGAACGACCAGATGCAATCC +GCCGAAGAGTATCGCCAGCTAATCATCGCCTACCAGAACGGCGCGCCAATTCGTCTGGGCGATGTCGCAA +CTGTAGAGCAAGGTGCAGAAAACAGCTGGCTCGGCGCGTGGGCGAACAAAGAACAGGCCATTGTGATGAA +TGTTCAGCGCCAGCCCGGTGCTAACATTATCTCCACCGCCGACAGCATTCGGCAGATGCTGCCACAGCTC +ACTGAGAGTCTGCCGAAATCGGTGAAGGTGACAGTGCTTTCCGATCGCACCACCAATATCCGCGCATCCG +TCGATGATACTCAGTTTGAATTGATGATGGCTATCGCGCTGGTAGTCATGATTATCTACCTGTTTTTGCG +CAATATTCCGGCGACCATCATTCCCGGTGTTGCTGTACCGCTGTCGTTAATCGGCACTTTCGCGGTTATG +GTGTTTCTCGATTTTTCAATCAATAACCTGACACTGATGGCGTTAACTATCGCCACCGGATTCGTGGTCG +ATGACGCCATCGTGGTGATCGAAAACATTTCCCGCTATATCGAAAAAGGCGAAAAACCGTTGGCGGCGGC +GCTCAAGGGCGCAGGTGAAATCGGCTTTACCATTATCTCGCTGACCTTCTCACTGATTGCGGTGTTGATC +CCACTGCTGTTTATGGGCGATATCGTCGGGCGACTGTTCCGCGAATTTGCTATTACCCTGGCGGTAGCGA +TTTTGATCTCAGCGGTGGTGTCGCTGACCCTGACACCGATGATGTGCGCGCGGATGCTCAGCCAGGAGTC +GTTGCGTAAACAGAACCGCTTCTCCCGTGCCTCGGAAAAAATGTTCGACAGGATAATCGCCGCCTATGGT +CGTGGACTGGCGAAAGTGCTGAATCATCCGTGGCTGACCTTAAGCGTGGCACTCAGCACGCTGCTGCTTA +GCGTGCTGCTGTGGGTGTTCATTCCGAAAGGTTTCTTCCCGGTACAGGACAATGGCATTATTCAGGGCAC +TTTGCAGGCACCGCAATCCAGCTCCTTTGCCAATATGGCCCAGCGACAACGCCAGGTCGCGGACGTGATT +TTGCAGGATCCGGCAGTGCAAAGCCTGACCTCATTTGTTGGCGTTGATGGCACTAACCCGTCGCTGAACA +GTGCACGTTTACAAATCAACCTCAAACCGTTGGATGAACGTGATGATCGGGTGCAAAAAGTCATCGCCCG +TCTGCAAACGGCGGTAGATAAAGTGCCGGGCGTCGATCTCTTCCTGCAACCAACGCAGGATCTGACTATT +GATACTCAGGTCAGCCGCACCCAGTACCAGTTTACCTTGCAGGCCACGTCACTGGATGCGCTCAGTACCT +GGGTGCCACAGTTGATGGAAAAACTCCAGCAACTGCCACAGCTTTCTGATGTCTCCAGCGACTGGCAGGA +CAAAGGGCTGGTGGCGTATGTCAATGTTGATCGCGACAGCGCCAGCCGTCTGGGGATCAGCATGGCGGAT +GTCGATAACGCCCTGTACAACGCGTTTGGTCAGCGGCTGATTTCCACTATTTATACTCAGGCCAACCAGT +ATCGCGTGGTGCTGGAGCACAACACCGAAAATACCCCAGGCCTCGCGGCGCTGGATACCATTCGCCTGAC +CAGCAGCGACGGCGGCGTGGTGCCGCTAAGCTCAATTGCCAAAATTGAGCAGCGTTTTGCGCCGCTCTCC +ATCAACCATCTGGATCAGTTCCCGGTAACGACCATCTCCTTTAACGTGCCGGATAACTATTCGCTGGGCG +ATGCGGTGCAGGCGATTATGGACACCGAAAAGACGCTGAATCTGCCGGTGGATATCACCACGCAGTTCCA +GGGCAGCACCCTCGCCTTCCAGTCGGCGCTGGGCAGCACTGTCTGGCTGATTGTCGCGGCGGTGGTGGCG +ATGTATATCGTGCTCGGCATTCTGTACGAGAGCTTTATTCACCCGATCACCATTCTCTCGACGCTACCCA +CCGCAGGGGTTGGCGCACTGCTGGCGTTGCTGATTGCTGGTAGCGAACTGGATGTGATTGCGATTATCGG +CATTATTTTGCTGATCGGTATCGTGAAGAAGAACGCCATCATGATGATCGACTTCGCGCTGGCTGCTGAG +CGCGAGCAAGGCATGTCGCCGCGCGAGGCAATCTACCAGGCTTGTCTGTTGCGTTTTCGTCCGATCCTGA +TGACCACTCTGGCGGCTCTGCTTGGCGCGCTGCCGCTGATGTTGAGTACCGGGGTCGGCGCGGAACTGCG +TCGTCCGTTAGGTATCGGCATGGTCGGCGGTCTGATTGTCAGCCAGGTGCTGACGCTGTTTACCACGCCG +GTGATTTATTTGCTGTTCGACCGCCTGGCATTGTGGACCAAAAGCCGCTTTGCCCGTCATGAAGAGGAGG +CGTAAGTGAAGTTTTTTGCCCTCTTCATTTACCGCCCGGTGGCGACGATTTTACTGTCGGTTGCCATTAC +CCTGTGCGGCATACTGGGCTTCCGTATGCTGCCGGTCGCCCCGCTGCCGCAGGTCGATTTTCCGGTGATT +ATCGTCAGCGCCTCGCTGCCCGGTGCGTCACCAGAAACAATGGCGTCTTCCGTTGCCACGCCGCTGGAGC +GCTCACTTGGGCGCATTGCCGGAGTCAGTGAAATGACCTCCAGCAGTTCGCTCGGCAGCACGCGTATTAT +TTTGCAGTTTGATTTTGACCGGGATATCAACGGCGCAGCGCGTGATGTGCAGGCGGCGATCAACGCTGCA +CAAAGTTTGCTGCCCAGTGGGATGCCCAGCCGCCCGACCTATCGCAAAGCGAACCCGTCGGATGCGCCAA +TTATGATCCTCACGCTGACGTCCGATACTTATTCGCAGGGTGAACTGTACGATTTCGCCTCGACGCAGCT +GGCTCCGACGATTTCGCAAATCGACGGTGTTGGTGATGTCGATGTCGGAGGCAGCTCACTGCCCGCCGTA +CGCGTCGGGCTGAATCCGCAGGCGCTGTTTAATCAGGGCGTGTCGCTGGACGACGTACGCACCGCCGTCA +GCAATGCCAACGTGCGTAAACCGCAGGGCGCGCTGGAAGATGGCACTCACCGCTGGCAGATCCAGACCAA +TGATGAGCTAAAAACCGCCGCTGAATATCAGCCGTTGATTATTCACTACAACAACGGCGGCGCGGTTCGT +CTGGGCGATGTGGCGACGGTGACCGACTCAGTGCAGGATGTGCGCAACGCCGGGATGACCAACGCCAAAC +CGGCTATTTTACTGATGATCCGCAAACTGCCGGAAGCCAATATTATCCAGACGGTTGACAGCATCCGGGC +AAAATTACCGGAGTTGCAGGAAACCATTCCGGCGGCGATTGATCTGCAAATTGCCCAGGATCGCTCCCCC +ACCATTCGCGCCTCGCTGGAAGAAGTCGAGCAAACGCTGATTATCTCGGTGGCGCTGGTGATTCTGGTGG +TGTTTTTATTCCTGCGCTCGGGTCGCGCCACTATTATTCCCGCCGTTTCGGTGCCGGTTTCGCTGATTGG +TACGTTTGCGGCGATGTACCTGTGCGGATTCAGTCTCAATAACCTTTCGTTAATGGCGCTCACCATCGCT +ACTGGTTTCGTGGTGGATGACGCCATCGTGGTGCTGGAAAACATTGCACGTCATCTGGAAGCGGGAATGA +AACCGTTGCAAGCCGCACTGCAAGGTACTCGCGAAGTCGGTTTTACGGTGCTGTCGATGAGTCTGTCACT +GGTGGCGGTGTTCCTGCCGCTGCTGTTGATGGGCGGATTGCCGGGCCGACTGTTACGCGAATTTGCCGTG +ACGCTTTCTGTCGCCATTGGTATATCGTTGCTGGTTTCTCTGACATTAACGCCAATGATGTGTGGCTGGA +TGCTGAAAGCCAGCAAGCCGCGCGAGCAAAAGCGACTGCGTGGTTTTGGTCGCATGTTGGTAGCCCTGCA +ACAAGGCTACGGCAAGTCACTAAAATGGGTGCTCAATCATACCCGTCTGGTGGGCGTGGTGCTGCTTGGC +ACCATTGCGCTGAATATCTGGCTGTATATCTCGATCCCGAAAACCTTCTTCCCGGAGCAGGACACTGGCG +TGTTGATGGGCGGGATTCAGGCGGATCAGAGTATTTCGTTTCAGGCGATGCGCGGTAAGTTGCAGGATTT +CATGAAAATTATCCGTGACGATCCGGCAGTGGATAATGTCACCGGCTTTACAGGCGGTTCGCGAGTGAAC +AGCGGGATGATGTTTATCACCCTCAAGCCACGCGACGAACGCAGCGAAACGGCGCAGCAAATTATCGACC +GTCTGCGCGTAAAACTGGCGAAAGAACCGGGGGCGAATCTGTTCCTGATGGCGGTACAGGATATTCGCGT +TGGTGGGCGTCAGTCGAACGCCAGCTACCAGTACACGTTGTTATCCGACGACCTGGCGGCACTGCGAGAA +TGGGAGCCGAAAATCCGCAAAAAACTGGCGACGTTGCCGGAACTGGCGGACGTGAACTCCGATCAGCAGG +ATAACGGCGCGGAGATGAATCTGGTTTACGACCGCGACACCATGGCACGGCTGGGAATCGACGTACAAGC +CGCCAACAGTCTGTTAAATAACGCCTTCGGTCAGCGGCAAATCTCGACCATTTACCAGCCGATGAACCAG +TATAAAGTGGTGATGGAAGTGGATCCGCGCTATACCCAGGACATCAGTGCGCTGGAAAAAATGTTCGTTA +TCAATAACGAAGGCAAAGCGATCCCGCTGTCGTATTTCGCTAAATGGCAACCGGCGAATGCCCCACTATC +GGTGAATCATCAGGGATTATCGGCGGCCTCGACCATTTCGTTTAACCTGCCGACCGGAAAATCGCTCTCG +GACGCCAGTGCGGCGATCGATCGCGCAATGACCCAGCTTGGTGTGCCTTCGACGGTGCGCGGCAGTTTTG +CCGGCACGGCGCAGGTGTTCCAGGAGACGATGAACTCGCAGGTGATCCTGATTATCGCCGCCATCGCCAC +GGTGTATATCGTGCTGGGTATCCTTTACGAGAGTTACGTACATCCGCTGACGATTCTCTCCACCCTGCCC +TCGGCGGGCGTTGGAGCGCTGTTGGCGCTGGAGCTGTTCAATGCCCCGTTCAGCCTAATCGCCCTGATAG +GGATCATGCTATTAATCGGCATCGTGAAGAAAAACGCCATTATGATGGTCGATTTTGCGCTTGAAGCCCA +ACGGCACGGTAACCTGACGCCGCAGGAAGCTATTTTCCAGGCCTGTCTGCTGCGTTTTCGCCCGATTATG +ATGACTACCCTGGCGGCGCTGTTTGGTGCGCTGCCGCTGGTATTGTCGGGCGGCGACGGCTCGGAGCTGC +GGCAACCCCTGGGGATCACCATTGTCGGCGGACTGGTAATGAGCCAGCTCCTTACGCTGTATACCACGCC +GGTGGTGTATCTCTTTTTCGACCGTCTGCGGCTGCGTTTTTCGCGTAAACCTAAACAAACGGTAACCGAG +TAAATGACAGATCTTCCCGACAGCACCCGTTGGCAATTGTGGATTGTGGCTTTCGGCTTCTTTATGCAGT +CGCTGGACACCACCATCGTAAACACCGCCCTTCCCTCAATGGCGCAAAGCCTCGGGGAAAGTCCGTTGCA +TATGCACATGGTCATTGTCTCTTATGTGCTGACCGTGGCGGTGATGCTGCCCGCCAGCGGCTGGCTGGCG +GACAAAGTCGGCGTGCGCAATATTTTCTTTACCGCCATCGTGCTGTTTACTCTCGGTTCACTGTTTTGCG +CGCTTTCCGGCACGCTGAACGAACTGTTGCTGGCACGCGCGTTACAGGGCGTTGGCGGCGCGATGATGGT +GCCGGTCGGCAGATTGACGGTGATGAAAATCGTACCGCGCGAGCAATATATGGCGGCGATGACCTTTGTC +ACGTTACCCGGTCAGGTCGGTCCGCTGCTCGGTCCGGCGCTCGGCGGTCTGCTGGTGGAGTACGCATCGT +GGCACTGGATCTTTTTGATCAACATTCCGGTGGGGATTATCGGTGCGATCGCCACATTGCTGTTAATGCC +GAACTACACCATGCAGACGCGGCGCTTTGATCTCTCCGGATTTTTATTGCTGGCGGTTGGCATGGCGGTA +TTAACCCTGGCGCTGGACGGCAGTAAAGGTACAGGTTTATCGCCGCTGACGATTGCAGGCCTGGTCGCAG +TTGGCGTGGTGGCACTGGTGCTTTATCTGCTGCACGCCAGAAATAACAACCGTGCCCTGTTCAGTCTGAA +ACTGTTCCGTACTCGTACCTTTTCGCTGGGCCTGGCGGGGAGCTTTGCCGGACGTATTGGCAGTGGCATG +TTGCCCTTTATGACACCGGTTTTCCTGCAAATTGGCCTCGGTTTCTCGCCGTTTCATGCCGGACTGATGA +TGATCCCGATGGTGCTTGGCAGCATGGGAATGAAGCGAATTGTGGTACAGGTGGTGAATCGCTTTGGTTA +TCGTCGGGTACTGGTAGCGACCACGCTGGGTCTGTCGCTGGTCACCCTGTTGTTTATGACTACCGCCCTG +CTGGGCTGGTACTACGTTTTGCCGTTCGTCCTGTTTTTACAAGGGATGGTCAACTCGACGCGTTTCTCCT +CCATGAACACCCTGACGCTGAAAGATCTCCCGGACAATCTGGCGAGCAGCGGCAACAGCCTGCTGTCGAT +GATTATGCAATTGTCGATGAGTATCGGCGTCACTATCGCCGGGCTGTTGCTGGGACTTTTTGGTTCACAG +CATGTCAGCGTCGACAGCGGCACCACACAAACCGTCTTTATGTACACCTGGCTTAGCATGGCGTTGATCA +TCGCCCTTCCGGCGTTCATCTTTGCCAGAGTGCCGAACGATACGCATCAAAATGTAGCTATTTCGCGGCG +AAAAAGGAGCGCGCAATGAAGTTCTGGCGACCCGGTATTACCGGCAAACTGTTTCTGGCGATTTTCGCCA +CCTGCATTGTCTTGCTGATCAGTATGCACTGGGCGGTGCGTATCAGTTTTGAGCGTGGCTTTATTGATTA +CATCAAGCATGGTAATGAACAGCGATTACAACTGTTAAGTGATGCGCTTGGCGAGCAGTATGCGCAGCAT +GGCAACTGGCGCTTCCTGCGCAACAATGATCGCTTTGTCTTTCAGATCCTGCGTTCATTTGAACACGATA +ATTCGGAAGATAAACCCGGCCCGGGTATGCCACCGCACGGCTGGCGTACCCAGTTCTGGGTGGTTGATCA +AAACAACAAAGTGCTGGTTGGTCCGCGAGCGCCGATTCCACCTGACGGTACACGGCGACCCATTCTGGTC +AACGGTGCGGAAGTTGGCGCGGTGATCGCCTCCCCCGTTGAGCGGTTAACGCGCAATACTGATATCAATT +TCGATAAACAACAGCGGCAAACCAGCTGGTTGATTGTCGCCCTGGCAACGTTACTCGCGGCACTTGCCAC +TTTTCTGCTGGCGCGCGGTTTACTGGCACCGGTAAAACGACTTGTCGATGGCACGCACAAACTGGCGGCG +GGCGATTTCACTACCCGCGTAACGCCCACCAGTGAAGATGAACTGGGCAAACTGGCGCAAGACTTCAACC +AGCTTGCCAGCACACTGGAGAAAAACCAGCAAATGCGGCGCGATTTTATGGCCGATATTTCTCACGAACT +GCGTACGCCATTAGCGGTGCTGCGCGGTGAACTGGAAGCCATTCAGGATGGCGTGCGTAAATTCACGCCG +GAGACGGTGGCGTCTTTACAGGCGGAGGTCGGTACACTGACCAAACTGGTTGACGATCTCCATCAGTTGT +CGATGTCTGATGAAGGCGCTCTCGCCTATCAAAAAGCACCGGTAGATTTGATCCCACTGCTGGAAGTGGC +GGGCGGCGCATTTCGCGAACGATTCGCCAGTCGTGGCCTGAAACTGCAATTTTCCCTGCCAGACAGTATT +ACCGTATTTGGCGATCGCGACCGTTTAATGCAGTTATTCAATAACTTACTGGAAAACAGCCTGCGCTACA +CTGACAGCGGCGGCAGCCTGCAAATCTCTGCCGGGCAGCGCGACAAAACGGTGCGCCTGACCTTTGCCGA +CAGTGCGCCAGGTGTCAGTGACGATCAGCTACAAAAATTGTTTGAACGTTTTTATCGCACCGAAGGTTCC +CGCAACCGTGCCAGCGGCGGTTCCGGGCTGGGGCTGGCGATTTGCCTGAACATTGTTGAAGCACATAATG +GTCGCATTATTGCTGCCCATTCGCCTTTTGGCGGGGTAAGCATTACAGTAGAGTTACCGCTGGAACGGGA +TTTACAGAGAGAAGTATGACCGAGTTACCAATCGACGAAAACACACCGCGTATTTTGATCGTGGAAGATG +AACCGAAGCTGGGGCAGTTGCTCATTGATTATCTGCGTGCTGCGAGCTATGCGCCGACGCTTATCAGCCA +CGGCGATCAGGTACTGCCGTATGTGCGCCAGACACCACCGGATCTGATCCTGTTAGATCTGATGCTCCCT +GGCACCGATGGCCTGACGCTGTGCCGGGAAATTCGTCGTTTTTCTGACATTCCGATCGTGATGGTGACGG +CAAAAATCGAAGAGATCGATCGCCTGCTGGGGCTGGAGATTGGCGCAGATGATTATATCTGTAAGCCGTA +CAGCCCACGGGAAGTGGTAGCGCGCGTCAAAACCATTTTGCGCCGTTGCAAACCGCAGCGCGAGTTGCAG +CAACAGGATGCTGAAAGCCCGTTGATTATCGACGAAGGTCGTTTTCAGGCTTCATGGCGCGGTAAAATGC +TTGACCTGACGCCTGCGGAATTTCGTCTGCTGAAAACGCTCTCTCACGAACCAGGAAAAGTGTTCTCCCG +CGAGCAATTGCTCAATCATCTTTATGACGACTACCGCGTAGTAACCGACCGCACCATCGACAGCCACATT +AAAAACCTGCGCCGCAAGCTGGAATCTCTCGACGCCGAACAGTCATTTATCCGCGCCGTTTATGGCGTCG +GTTACCGCTGGGAAGCCGACGCCTGCCGCATCGTTTAGTTTTAGCGACATTATTTTGTTAGCCGGAGATG +GCGTTCAGACCAGATCCGGCAACATTATCCCACGCATGGTCAGCAAACTGACATTATCTCTCCGCCCTGG +CAGGCATCAGAAAATCGCTCATACTTTAATCGGTAAACAGCACCTTTAGATGCTGTTTTCGATACACAAT +TTCAATCAAGGAGTCATTATGGCTGGTTGGTTTGAACTCAGTAAGAGCAGTGATAATCAGTTCCGGTTTG +TGCTAAAAGCGGGCAATGGTGAGACTATCCTCACCAGCGAGCTTTATACCTCAAAAACCTCTGCGGAAAA +GGGCATCGCGTCGGTGCGTAGCAACAGCCCGCAAGAAGAACGCTATGAGAAAAAAACGGCAAGTAACGGC +AAATTCTATTTCAATCTGAAAGCCGCTAATCATCAAATTATCGGCTCCAGCCAGATGTACGCCACCGCGC +AATCTCGTGAAACCGGAATTGCCTCCGTTAAAGCCAATGGCACAAGCCAGACGGTGAAAGACAATACGTA +ATTACGATGCCGGGCGTGGGTTGTTGGCGTCCGGCGCTTTACCAGAGCCCCCCACAGCGCTACAATGCCC +GCCCTTAAAGTGGGGGCACTCCCCTAACCGCTTCATCAGGTGAAGCGGATCTGACCTGTCATCAGAACGA +GAGAATTATGTTTAAACCGGAACTCCTTTCCCCGGCGGGAACGCTGAAAAATATGCGTTACGCTTTCGCT +TATGGCGCAGATGCTGTTTATGCGGGCCAGCCGCGTTATTCCCTGCGTGTGCGCAACAACGAATTCAACC +ACGAAAATCTTCAGCTCGGCATCAATGAAGCCCACGCGCTGGGGAAAAAGTTTTATGTCGTGGTCAACAT +TGCACCGCACAACGCCAAGCTGAAAACCTTTATCCGTGACCTGAAACCGGTGGTGGAAATGGGGCCGGAT +GCGCTGATTATGTCCGATCCAGGGCTGATTATGCTGGTGCGTGAGCACTTCCCTGAAATGCCGATCCACC +TTTCGGTGCAGGCTAACGCCGTGAACTGGGCGACGGTGAAATTCTGGCAGCAAATGGGCCTGACCCGCGT +GATCCTCTCTCGCGAGCTGTCGCTGGAAGAGATTGAAGAGATCCGCAATCAGGTGCCGGATATGGAGATC +GAGATCTTCGTTCACGGCGCGCTGTGCATGGCCTACTCCGGTCGCTGCCTGCTCTCTGGCTATATCAACA +AGCGCGACCCGAACCAGGGCACCTGCACCAACGCCTGCCGCTGGGAGTACAACGTCCAGGAAGGGAAAGA +AGATGATGTTGGCAACATCGTACACAAGTACGAGCCGATTCCGGTGCAAAATGTTGAGCCGACGCTGGGT +ATCGGCGCACCAACCGACAAAGTGTTTATGATCGAAGAGGCCCAGCGTCCGGGCGAGTATATGACCGCGT +TTGAAGATGAGCACGGCACTTACATCATGAACTCGAAAGATCTGCGCGCCATCGCCCATGTAGAACGCCT +GACCAAAATGGGCGTGCATTCGCTGAAAATCGAAGGTCGTACCAAATCTTTCTACTATTGTGCACGCACC +GCACAGGTTTACCGCAAAGCTATCGATGACGCCGCTGCGGGAAAACCGTTCGATACCAGCCTGCTGGAAA +CTCTGGAAGGTCTGGCGCATCGTGGCTATACCGAAGGTTTCCTGCGTCGTCATACTCACGACGATTATCA +GAACTACGAATACGGTTATTCAGTTTCTGACCGCCAGCAGTTTGTTGGTGAGTTTACCGGTGAGCGCAAG +GGGGACCTCGCGGCGGTAGCGGTGAAAAATAAATTCTCCGTTGGCGACAGCCTTGAGCTGATGACGCCGC +AAGGCAACATTAATTTTACCCTTGAGCACATGGAAAACGCCAAAGGCGAAGCTATGCCGATAGCACCAGG +CGATGGTTATACTGTGTGGCTCCCGGTCCCGCAGGATCTTGAGCTCAATTACGCGCTGCTGATGCGTAAT +TTCTCCGGGGAAACCACGCGTAATCCCCACGGTAAGTGATTAATTTCGATTATTTTTCCCGGATGGAAAA +TTCTTAGAAACCGATCACATACAGCTGCATTTATTAAGGTTATCATCCGTTTCGCTGAAAAACATAACCC +ATAAAATGCTAGCTGTACCAGGAACCACCTCCTTAGCCTGTGTAATCTCCCTTACACGGGCTTATTTTTT +ACGCGTAATACAATGAAATAAAAGGATTTATTTCTGGTCACGTCCACACATTGACCACATCGACAAAAAA +GCCCCTCGACTGAGGGGCTTCCTGTTTCTAATTACATCCACATAATTTGCTGCCCTGACGGCAACGGGTG +CGGCCTTACGACGTGGACTTCTCCCGGCTTCACAATGTATCGCTGTACCGACTCATAAGTGATGAACGTG +GCGCTGCAATTCACGTTCTGACACTGGTGATAACGCTCTTTTGTCGTGTCAGTGATATAGCGGCTTGTAC +GCGCATGTGCGGCATGCTGGCATAAAGGACAATGAAACATCGCGAGCACCTCTTCCGGTTTTGTTGATGG +TGCCATTTTAGTTAATTTACCCTTACAAAACAAACAGATAAAATAAAAACATCACTCATTATCTTCTGTT +TCGTACCCCACATCAGAAAGCCTGACCTCAAGCTCTAATGACGTCGTGAAGCCGCTATTATTCAGAAAAT +GTGTCACCTTAGTGATTGTCCAGTCCTGCTCGTCTATGACGCGCTTAAAGCCAGACACTTTGACCGGTGT +TTCCGTGTAAATATCTGCCCGACCGGTAGCCAGGCTGATGGAGAACTCTGCTACACGGGCTTATTTTTTT +ATGCATAAGCCCTATCTCTGGTAACCGTCTTCCATTGACCACATCGATAGAATCCTCCTTCATAGCACGA +TGCCTTTCACTTATCGGCATCGTGCTCCCACAGGTTCCGGCTACGCACAGCCAGAACGCGCATATTTGAC +GCTTACCAAAAAATATTCTCACTCTCCACATTTGAATGTCAGACGAGCGACACCATGTAATCCTACACCT +TCTGTCTTCAGCTCAACTATTTGCATTTTTTTGCCCTGAGTAACACAGAAATGAGTTGCATCATTTTTTA +CTATATTTTCTGCACCAGATATTCTACCCCTGGCTAAAGAAGCTTCGGCTTCGGTGTAGTATTGGTTATC +GAGTTTACGCTGAATATTACTTTTATATGCAAGACCAAATTTACCGATACTTGTCTCATCATTATGCACA +GCACAACCAGACATAATAAAAATACTAATTAATGATATAGCAGCTATCTTTTTCATCTCACCTTCCCCCA +TTAAATACCAACGACACTCTCTAGTGTTTAAATATAATAATGGCATGATTATTATAATTGAATAGGATTA +TAATAAATGTTCTGTACAACATTTCCTACATAAGTAGGAATTACGGACATTGAGGCCCTTCAGGGTAACT +CCATGGGGGCTTTAATATATTATATTGAAGATGCCACTGTTTAGTTGAATATTAGGTATATGCTCTTTTT +TGAAATTTATCGGTGGCAGCCGTTAGTATTCGCTGTCCCCATTGCAAGCTCCTGGTGGTAACCACTGAAT +CCTCCATACTTGAACTGACTTTTTATCCTCCGACTTTCATCCTGTTCTGACTCCACCTTTTGTTTTCTGC +TCTACACTATCTACAGACCAATCATAAAGGCACATACGATCATGGCAGAATTTCCCGCCAGCTTACTGAT +TCTTAATGGCAAAAGTACTGACAATCTACCCTTGCGCGAAGCAATTATGCTGTTGCGTGAGGAAGGAATG +ACGATCCATGTGCGGGTCACCTGGGAGAAAGGCGATGCCGCACGATATGTAGAGGAGGCCCGGAAGTTTG +GCGTCGCAACGGTGATTGCCGGTGGTGGCGATGGCACCATTAATGAAGTTTCTACGGCGTTGATTCAGTG +TGAGGGGGATGACATACCCGCGCTGGGAATTTTGCCATTAGGAACCGCCAATGATTTTGCCACCAGTGTA +GGGATTCCTGAGGCACTGGATAAGGCGCTGAAACTGGCAATTGCCGGTGACGCCATTGCGATAGATATGG +CGCAGGTCAACAAACAAACCTGTTTTATTAATATGGCGACAGGCGGATTTGGGACGCGTATTACCACAGA +AACGCCGGAAAAATTAAAAGCCGCGCTGGGTAGCGTCTCTTACATCATTCATGGCTTAATGCGTATGGAT +ACTCTGCAACCGGACCGTTGTGAAATCCGCGGTGAAAACTTTCACTGGCAAGGTGACGCCCTGGTCATTG +GTATTGGTAACGGGCGTCAGGCCGGTGGCGGTCAGCAATTGTGTCCGAACGCGTTAATTAACGATGGCTT +GCTGCAACTGCGCATTTTTACCGGCGATGAAATACTTCCGGCTCTCGTATCAACCTTAAAATCTGACGAA +GATAACCCGAATATTATCGAAGGCGCTTCGTCGTGGTTTGATATTCAGGCACCACACGACATCACCTTTA +ATCTTGATGGCGAACCGTTGAGTGGGCAAAATTTTCATATTGAAATACTTCCGGCAGCGTTGCGTTGTCG +ATTACCACCAGATTGTCCACTGTTGCGTTAATCAAACTATTCTCTCTTGAACCAGGGAGAATCCGTAATG +CCGGATGCGGTGTAAACACCTTATCCGGCATACAGAACAATACTACACCGTAATTAATTTTACCCGCGTC +TTCTGCAATGCCAGTTTATCCACCTCTGACACAGCATCATCGGTAATAATAATGTCAATTTTTTCGATTG +GTAGTACCTGATTAAAACCGCGACGGTTAAATTTCGATGAATCGAGAACGGCAATCACTTTATTAGCGGC +TGTGACCATCGCACCGCTAATAGAATAACCTTCATTAAAGGTCGTAATACCATTAACCGCATCAATACCA +TCAGCACCGACAAACATTAAATCGGCATTAATATCCTGTAATGAACGCTCGGCAATGGAACCATGCATCG +AGCGCGTTTTATGGCGGACCGTGCCACCACAGACGACCAGAGTAATGTCTTTATTTTCGGAAAGGGCAAA +CGCTGCCGGGAGACTGTTGGTAATCACCGTGATATTTTTGGCGGTCATTAATCCTTCGGCGATAAGCATT +GTCGTACTTCCGCTGTCGAGAATAACGGTCTGATCTTACCCAGCAATAGTGGACACGCGGCTAAGTGAGT +AAACTCTCAGTCAGAGGTGACTCACATGACAAAAACAGTATCAACCAGTAAAAAACCCCGTAAACAGCAT +TCGCCTGAATTTCGCAGTGAAGCCCTGAAGCTTGCTGAACGCATCGGTGTTACTGCCGCAGCCCGTGAAC +TCAGCCTGTATGAATCACAACTCTACAACTGGCGCAGTAAACAGCAAAATCAGCAGACGTCTTCTGAACG +TGAACTGGAGATGTCTACCGAGATTGCACGTCTCAAACGCCAGCTGGCAGAACGGGATGAAGAGCTGGCT +ATCCTCCAAAAGGCCGCGACATACTTCGCGAAGCGCCTGAAATGAAGTATGTCTTTATTGAAAAACATCA +GGCTGAGTTCAGCATCAAAGCAATGTGCCGCGTGCTCCGGGTGGCCCGCAGCGGCTGGTATACGTGGTGT +CAGCGGCGGACAAGGATAAGCACGCGTCAGCAGTTCCGCCAACACTGCGACAGCGTTGTCCTCGCGGCTT +TTACCCGGTCAAAACAGCGTTACGGTGCCCCACGCCTGACGGATGAACTGCGTGCTCAGGGTTACCCCTT +TAACGTAAAAACCGTGGCGGCAAGCCTGCGCCGTCAGGGACTGAGGGCAAAGGCCTCCCGGAAGTTCAGC +CCGGTCAGCTACCGCGCACACGGCCTGCCTGTGTCAGAAAATCTGTTGGAGCAGGATTTTTACGCCAGTG +GCCCGAACCAGAAGTGGGCAGGAGACATCACGTACTTACGTACAGATGAAGGCTGGCTGTATCTGGCAGT +GGTCATTGACCTGTGGTCACGTGCCGTTATTGGCTGGTCAATGTCGCCACGCATGACGGCGCAACTGGCC +TGCGATGCCCTGCAGATGGCGCTGTGGCGGCGTAAGAGGCCCCGGAACGTTATCGTTCACACGGACCGTG +GAGGCCAGTACTGTTCAGCAGATTATCAGGCGCAACTGAAGCGGCATAATCTGCGTGGAAGTATGAGCGC +AAAAGGTTGCTGCTACGATAATGCCTGCGTGGAAAGCTTCTTTCATTCGCTGAAAGTGGAATGTATCCAT +GGAGAACACTTTATCAGCCGGGAAATAATGCGGGCAACGGTGTTTAATTATATCGAATGTGATTACAATC +GGTGGCGGCGGCACAGTTGGTGTGGCGGCCTCAGTCCGGAACAATTTGAAAACAAGAACCTCGCTTAGGC +CTGTGTCCATATTACGTGGGTAGGATCAGTCATCCCTTCGTGGATCATTTTGACTGCCGCCTGCGCTATT +CTGTTTTTTGGCGCGCTGGCGAGCTGAAATCGCTCTTTAAACCCGACTTCCTGGGTCTCGGTTTCACTAT +TACCAGACATTATTTTCGCCGCACCGCCATGAAAGCGCGTAACCACGCCTTTTTGTTCGAGAAAGCGCAA +ATCGGCACGGATTGTCGCTTCCGAGGCAGCAAATACTCCCGCCAGATCCTGAACAAGCACGGTTCCCTGT +TCATTCACTAATTGGATGATCTTATTCCTTCGCTCGAATGAATTCATCGTCATTTACCCATATTCAATTG +TGGCTAGTGTAAACGAAGGGGGACCATTGGTGAATGATCTGTTTTGCACAATACCGGGCCAGCATCACGC +TGGCCCGCGGTTTCAGGGAATGAGCAACACTTTGCCCGGCATAGCATTACGAGCGATGTCACGCACCGCC +TGGGCGAAGCTTTCAAAGCTTCCACGGTGAGCGATTAATGGCTCCAGGCTTAACTTACGTTCTGTCAGCA +ACCGGCTCGCCGTTTCCCACTCCTGCCCCGGCCAAGGGCTGGAGTAGTTCATCCAACTGCCGATAACCGT +CAGCTCTTTACGCAATATTTTGCCAAACGTTGCCGATGTTAAATGCAGATCCTGATGCAACGTGCCCACC +AGCGCCAGTTGGGCATGAGGACCGGCAATCTCTACCGCCAGTTCGACAGTTTGCGGTACGCCAGCCGTCT +CGAGGATAAGCTGATTAAAGCGCAGTTCGCGTAAAACGCTCTGCATTTGCGGCGCGCTCATTTCGCTACT +GTTAAATGTTTGCATCGCACCGAAAGATTTTGCCAGTGCCAGTTTTTCTGAACTAATGTCGATCGCCGTC +ACACTCTTTGCTCCCAGCGCGACAGCGCACTGAATGGCCAGCAGGCCAATGGTTCCGGCACCAATAATAA +TAACGTTTTTATTCTCACAACCTTGCGCTAAATGAAAAGCATGCAGACCAACGGTAATCGGCTCAATAAA +AGCCCCATCCTCAATAGGCATATCCGTGGGTAGAGCAAAGACATTTTTTCGCTTAACGACAATATATTCA +GCAAATCCACCATCACGCCGCGAGCCAATAAAATCATATTTTGCGCACTGGGAATAAAACCCTTTCAGAC +ACTCTGGACAAGTAAAACAGGGTAATAACGGCACACAGGCAACCGCATCGCCAGGGTGTAAATCATCAAC +ACCGGATCCCACCGCATCAATATAGCCGCTAAATTCATGGCCTAACGTTATTGGATAATAATGTGCACCA +TTTTTAAATATCCTGGGTAAATCGGAACCACATAAGCCCGAGCTGGCAATTTTTACCCGCACCTCATCCT +GATGTTTAATTTCAGGAATGACGCTTTCTGCAACGCGCACGATACCATCAGTATCATTCACCACTGATTT +CATAAAAACTCCTGATTGTTAAGGGGGATAACCTCCCCCTCAGGTAAAAATTATTCTGCGAGAACGACTT +TCTCTTGTTTAATAAAGCCACGCGCTCTACGCCAGGTCATGAAAATACCGGTCAGATAAATTGCACCGAT +AATAATGAAACCGGGAATATTTTGCGGGGAGAAAACCTGAATCAGTAACCAGGTAATGGGAGAACCGCCC +TGATCCATTGAAGCCACCATACCCCCGGCTTTTAACGCCCCAGCATTAGCCGCCAGTTGGGTGTGCAAAC +CAATAGTTTGCGTCGCGATCCACAGGGTGATGCTCATAATGATGACACCCGAGATTAAGGTGCGGAACAG +ATTTCCACGATGCACGGCGACCGCCATCGCCACGAAGAAGCCGATGGTGGCAAGATCGCCAAACGGCAGC +ACCTGATTACCCGGCACACAAACAGCAATTAAAATGGTGAGTGGGATAAAAATCAGGCTTGCCGATACCA +CCCCGCCGTATGTCCCAGCAGCAACGCCGGATCAAGGCCAATCAGGAACTCCTGACCGCCGAACTTCGCC +TGTAAACGACTACGAGCCTGCTTAGCGATGGGCGTTAAACCATCCATGATGGGTTTAATCACCCGTGGCA +TTAGCAGCATCACTGCCGCCGTTTTTACCGCCAGCTGCAATACACCTTTGACATCGTAACCCGCGAGGAT +GCCGATAATCAGCCCCATCACAAAACCCACGGTGACAGGCTCGCCAAATGGACCAAATTTGCGCTGAATA +TCGTCGGCGCTAAATTTAATTCGGTTAACGCCTGGGATTTTCTCGATGATAGCATCGACCAGCACCGCAA +TCGGCCCCATATACGCCGACGTACCGTGCGGAATAGCAATACCTTCCAGCTCAAAGAAATTTCGGGTATC +GCGGGCAAACCAGTCGCCGAGCTTATAAACAAACGCCGCGTGAATTACCACACCTGCCATCCCTATCATC +CATGAACCGGTTGCCAGATGCAGCAACGCGCCGGTGAAGGTCATATGCCAGATATTCCAGATATCAACAT +TTACCACCCGCGTCATACGGGTCAGTAACATCGCCACGTTAACCAGAATCGCAATCGGAATCGCCACCAG +CGCAATTTGCGACGCCCAGGTCATTGGTGAAGAGCCCGGCCAGCCAACATCGACCACATGCAGATTCAGG +TCGAAATTTTCCGCCATCGCTTTCGCCGCCGGGCCAATGGAATCCAGCATTAAGCCAATCACAAGGCCAA +TGCCAACAAAGCCAATCCCGATATGCAGACCCGCTTTAAAGCAATCGCCTGCCTTCATGCCTAATATTTT +AGAAAAAATAATGATGACAATCGGCAGCATCACCGTAGGGCCGAGGTCGAGAATATAACGCATGACTTCT +GAAAACATAGGTCACCCCTGTAAGATAGTCAGAATTTTATTTTGTAATGCTTCGATACCGATACCAGAAA +TAAAAGGCATGCCGTGAACTAACGGAATATCGCCAAAACTACGATCCACTTTGGCAGTGGTGCATATCAA +ATGCACACCATCCATATAGGTTTCTATTTCATTAACCCGACACTGGATTAATTCAACAGGAATATTATGA +TTCTGACACAACTCTTTAATTTCTTCCGCCGCCATCGTAGAGGTCGCAACCGCGCCTCCGCAAGCGACAA +TAATCTTGCGTTTCATAAATAGTCCTTTTTATTGTTACAGAGGGATTTATTCGTCTGAATCTAAAACATA +CTTTGTGAAGTATTCCTTTAACTGGGTTTCAGGAAGAGTGATTAGTGTCTCGACGATATCGGGCTGTTGT +AACTTGCCAAATAAACAGCGTAAAAGTTTCAATTGCTGCTGCGGATTTTCCACAATCAACGCAATAACCA +ACGATACCGCCACGTCGTTATCATCATCCGCTTGCTGAAAATGAACTTTATTTGTTGGCCTTAACAGATA +AATGGCTGACGACTTAGCATGAATCGCCTCACAATGCGGTATTGCAATAGCGTGCTGCTCAAGCATTATC +CCGGTAGGGAATTCTGCTTCTCTGGCAATTAATGCCTGTGGCCAGGTATCATGAACCACACCTTTGGCGA +GCATCTCATTACCGATATGGGTTAAAACTTCGCTACGATCGACAAAAGAAATTCCGCTACGAACAAACAG +GTTAGTCATATACCGTCCTTATTCCGCACAGCCGTAGCGATAGGCGCGCAAAACATCATAAATTTTATCC +ATAATCAGCTGATGCGGTATTGCTGATAATTCCCCGGACTGAATGCGTTCAAATTGTTTGGGAAGATACT +GACTAATCATGCCCAGTGGGATGTCCACGCCTTCAAGATTCACCATCATCGTTTCGACGCTATTTTTAAT +CCGACTATGCGGCCAGTAATAACGAATACGATCCGACAGGCTGTAACGAATATCCAGTAATGAATCGTTA +AAACCCGTACGATAATATTTTTTCCAGTATTGCGGTTCGTCGAGCATCACTTCTTCAATTACCGCCAGGC +AACCGCTGCGATTTTCAGGGGCGATAAGTTCCTGCTCAATTTGTGCCAGTGCAAATATCGCCTCGCGTAA +AGCAAAGGTTAATGCGGGACCGACTTTCAATATTGCAAAGTGATCGCGGACTAATTCCCAATAAGCCGTC +CGGGTCTGGTAATCGGTAGAATGTGCTTCATAAACCATTCGGGTGTTTTCTATCCATTGCGCCAGCGGCT +GCGCTTCCTGCGGCTGATAATGGATAATATTGCTGTGATCAAATTCCACACCCGGCTGCACCACGATGGC +AATCACACGTGTTAACGCCTCTGTCAGCCCACGGGCAATAAAGGCCTTTTGATGCGTACGTAAAGTATTG +GCGGCATCTTCAACATGGGTGATGTGTACTGACTGAATGGCGCTGGCCTCACCGCCCGGAACCGGAACTT +CGGTGCCAATGACATAGCTCAGTTGCTCACGCTGGCAATCTGTCGCCACACTTTCCGCAGCAAAGCAAAG +CACAGCAGCTCGTTCCGCAACCGTTTCTGGTGCTAACGGTATGGGATCCCCCGCGCAGGACATTGACGCA +TCAAGATGAATTTTACTGAAGCCGGCACGAACATATTCCTTTACCAGCTCGACGGATTTTTCCATCGCCG +CATCCGCATTTTCTTGCTGCCAGCAGTTTGGCCCCAGATGATCGCCGCCGAGAATAATGCGTTCGCGTGC +AAACCCAACTTTATCGGCAATCGTAAAAACAAATTCGCGAAAGTCTGCCGGTGTCATTCCGGTATAACCG +CCAAATTGATTGACCTGGTTTGACGTTGCTTCAATCAGCACTTTGCGCGTGCTGTTGCGATCAAATGCCA +GCGCCGCTTCGATAACCAACGGATGGGCAGAACAGACTGAACATATGCCGATATGTTCACCAGCTTTATG +CCGGGCAATTAACGTTTTCATGTTTTTTCCTTGTTAAATGGCAGGTGCGTTATGCCCTGCCCTCGCAGCC +ACAATCGGCAATCACTTTGCTCACCACATCGCGCATTGCGGATTTAGCCGACTGCAAATAATCCCGGGGA +TCGGTCGCTTCAGGGTGCTCGGTCAGGTAATTTTTTAACGCCTGCGAGAAGGCATTTTTCAGCTCCGTTG +CAACGTTGATTTTGCATATCCCCAGTTTGATGGTTTGCTGAATATCCTTAGTCGATAACCCTGACGCGCC +ATGCAGCACCAGCGGTAAGTTCACCCACTGGCGAATGTTCTCCAGTCTAGAAAAATCAAGCGCCGGTGCG +CTGGCATACATCCCATGAGCCGTGCCGATGGCGACCGCCAGGGAATCAATTCCGGTTGCCTCGGCAAATT +CACGCGCCTGAGCGGGGTTGGTGTACAACGCATCGGCTTCATTGACTTGCACATCATCTTCCTGGCCGCC +AAGTTGCCCCAGCTCCGCCTCGACGCTGACATCAAAGCGATGGCAAAAATCCACCACCTCTTTGACCCGT +GAAATATTTTGCGCAAAAGGCAAATGCGAGGCGTCAATCATGACTGAGCGCACGCCAGAACGAACCTTCT +GAGCGATATCGTCAAATTTCGTGTGATGGTCGAGATGAATTGCCAGTGGATGGTGATATTGCTTCGCCAT +CGCGCTGACCAGCGCCAACAGATTTTCTGTACCAGCATGAGTAAATGTGCCAGGCGTTCCGGCGATGATG +ACCGGCGCATGCAGGTTGGCAGCGGTTTCTACCACCACTTGCATCGTTTCGAGATTGTGAATATTGAATG +CCGGAACCGCATAACCGCCGCGCTGTGCGTTGTTCAGCATCTGCTTTGTCGATACCACGTACATTTTCAT +ATCCTGTCGTTTGTTTTCGATTTCAAAATATAATGAAATTATTTGTTTTTAAATATCGAGATAACGATCA +CAAAAACGACAATATGAAAATTATTCGAGGAGTGAAAGGCAAAAAAACGGCCTCCCGATAGGGAAGCCGT +AGCAAAGTGCGCGTGTTTTTATGCCGGATGCGGTGTAAACATACGTGGCAGTGCTATGTAGGCATGATAA +GACGCTTCAGCGTCGCATCAGGCATAGGTTGCCGGATGCAGCGTAAACGCCTTATCCGTCCTACGGGGTG +GTGTTGTTCGTATAAGGCGTATCAGGCGATAGTAATTTTGCTATCGAGATAAACGTCCTGCACGGCGTTA +ATCAGTTTCACGCCGTCAGCCATCGATTTCTTGAACGCTTTACGTCCAAGAATCAGCCCCATTCCGCCTG +CGCGTTTGTTGATAACCGCAGTACGCACTGCATCGCTGAGGTCAGTTTCACCGCCCGCAGCACCGCCGGA +GTTTATCAACCCAGCCCGACCCATATAGCAGTTAGCTAACTGATAACGCACCAGATCAATCGGGTTTTCG +CTGGTCAATTTGCTGTAAACACGATCGTCGGTGTAACCGTAATTAATTGCTTTATAGCCGCCGTTATTTT +CCGCCATTTTTTGTTTGACGATATCTGCACCGATGGTTGCCGCCAGATGGTTTGCCTGACCGGTCAGGTC +GGCGGAAACATGGTAATCAACGCCATCTTTCTTAAAGGCGGAGTTACGCAAATAGGCCCACAGCACTGTC +ACCATACCCAGCTCGTGCGCACGTTCAAAAGCCGCAGAAATTTCTTCAATCTGGCGACGTGACTCTTCCG +AGCCAAAATAGATAGTCGCACCAACCGCAACCGCGCCCATGTTGAACGCCTGCTCCACGCTGGCATACAG +CGTTTGATCGTAGGTATTCGGGTAACTTAGCGTCTCGTTGTGATTAAGTTTGACGAGGAATGGAATGCGA +TGCGCATAACGCCGCGATACCGACGCCAGCACGCCGTAAGTTGACGCCACACAGTTACAGCCCGCTTCGA +TCGCCAGTTCAACAATGTTTTTCGGGTCAAAGTAGAGCGGGTTAGCAGCAAATGAAGCTCCGGCAGAGTG +CTCAACGCCCTGGTCAACCGGCAGAATAGAAAGATATCCTGTGCCAGCCAGACGCCCGGTGTTGTACAAC +GTCTGCATATTACGTAACACCGCTGGCGGGCGATTATTGTCAATCATTACGCGGTCTACGTAGTCATGTC +CGGGGAGATAAAGCTGGTCAGAAGGAATTGTCATACAACGGTGCTGTAAAAGGTTGTCGGCGTCTTTGCC +AAGCAACTGCGCAATATCTGTCATTACTATGCTCCCGTAAATTCCGATTGGATATCGGCTATGGATTGTC +CTGGCCCGCCTTTTGCGGGCAATCATAATCCTGGTCGTTACGGGCGAGTTTTTCCATCTTTTGGATGTTT +TTTCAGCGTTTTCTGTTGGCTCGATTCATCAGAAAAAATGTTAGCGCGGTCAAGTTTTCACCGCAAAGGT +ATTTAAAAGGTATTATTAAGTGGTATTGTCATCGCGTACCTTACATTACCTGTCATGAAGGAATTAAAAG +ATGAAAACAACAGCAAAGCTGTCGTTCATGATGTTTGTTGAATGGTTTATCTGGGGCGCGTGGTTTGTGC +CATTGTGGTTGTGGTTAAGTAAAAGCGGTTTTAGTGCCGGAGAAATTGGCTGGTCGTATGCCTGTACCGC +CATTGCGGCGATCCTGTCGCCAATTCTGGTTGGCTCCATCACTGACCGCTTTTTCTCGGCGCAAAAAGTG +CTGGCGGTATTGATGTTCGCAGGCGCGCTGCTGATGTATTTCGCTGCGCAACAGACCACTTTTGCCGGGT +TCTTCCCGTTACTGCTGGCCTACTCGCTAACCTATATGCCGACCATTGCGCTGACTAACAGCATCGCTTT +TGCCAACGTGCCGGATGTTGAGCGTGATTTCCCGCGCATTCGTGTGATGGGCACTATCGGCTGGATTGCC +TCCGGTCTGGCATGTGGTTTCTTGCCGCAAATACTGGGGTATGCCGATATCTCACCGACTAACATCCCGC +TGCTGATTACCGCCGGAAGTTCTGCTCTGCTCGGTGTGTTTGCGTTTTTCCTGCCCGACACGCCACCAAA +AAGCACCGGCAAAATGGATATTAAAGTCATGCTCGGCCTGGATGCGCTGATCCTGCTGCGCGATAAAAAC +TTCCTCGTCTTTTTCTTCTGTTCATTCCTGTTTGCGATGCCACTAGCGTTCTATTACATCTTTGCCAACG +GTTATCTGACCGAAGTTGGCATGAAAAACGCCACCGGCTGGATGACGCTCGGCCAGTTCTCTGAAATCTT +CTTTATGCTGGCATTGCCGTTTTTCACTAAACGCTTTGGTATCAAAAAGGTATTATTGCTTGGTCTGGTC +ACCGCTGCGATCCGCTATGGCTTCTTTATTTACGGTAGTGCGGATGAATATTTCACCTACGCGTTACTGT +TCCTCGGTATTTTGCTTCACGGCGTAAGTTACGATTTTTACTACGTTACCGCTTACATCTATGTCGATAA +AAAAGCCCCCGTGCATATGCGTACCGCTGCGCAGGGGCTGATCACGCTCTGCTGCCAGGGCTTCGGCAGT +TTGCTCGGCTATCGTCTTGGCGGTGTGATGATGGAAAAGATGTTCGCTTATCAGGAACCGGTAAACGGAC +TGACTTTCAACTGGTCCGGGATGTGGACTTTCGGCGCGGTGATGATTGCCATTATCGCCGTGCTGTTCAT +GATTTTTTTCCGCGAATCCGACAACGAAATTACGGCTATCAAGGTCGATGATCGCGATATTGCGTTGACA +CAAGGGGAAGTTAAATGAAAACAGAACGTATTCTCGGTGCTCTTTATGGGCAGGCGTTAGGGGATGCGAT +GGGGATGCCCTCCGAGCTTTGGCCACGCAGCCGCGTTAAAGCACACTTTGGCTGGATTGACCGTTTTCTT +CCTGGACCAAAGGAGAATAACGCGGCCTGTTATTTTAACCGCGCCGAATTCACCGACGATACCTCGATGG +CGCTGTGTCTGGCGGATGCGTTACTGGAACGTGAAGGCAAGATCGATCCGGATCTGATTGGGCGTAATAT +TCTCGACTGGGCGCTGCGTTTCGACGCCTTTAACAAAAACGTACTAGGTCCGACCTCGAAGATTGCGCTT +AACGCCATTCGCGACGGTAAACCCGTTGCTGAACTGGAAAACAACGGCGTGACCAACGGCGCAGCGATGC +GCGTCTCGCCATTAGGTTGTTTGCTTCCGGCGCGTGATGTTGATTCCTTTATTGATGATGTAGCGCTGGC +GTCCAGCCCGACCCATAAATCCGATCTGGCGGTTGCAGGCGCGGTAGTCATCGCATGGGCGATTTCTCGT +GCCATTGACGGAGAAAGCTGGTCAGCGATTGTTGATTCCCTGCCTTCAATTGCGCGACATGCACAGCAAA +AACGCATCACTACGTTCAGCGCCTCACTGGCGGCGCGGCTGGAGATTGCGCTGAAAATTGTGCGCAATGC +CGACGGCACCGAATCCGCCAGCGAACAGCTTTACCAGGTCGTTGGCGCAGGTACCAGCACTATTGAGTCC +GTTCCGTGCGCCATTGCGCTGGTTGAACTGGCACAAACCGACCCGAATCGCTGCGCCGTCCTGTGCGCTA +ACCTTGGCGGCGACACAGACACCATCGGTGCTATGGCGACGGCAATTTGCGGCGCGTTGCATGGCGTTAA +CGCTATCGATCCTGCGTTAAAGGCGGAACTGGATGCGGTAAATCAGCTTGATTTCAACCGCTATGCCACA +GCGCTGGCGAAATATCGTCAACAACGGGAGGCGGTATGAGCGGCGCTCGATTACACACGCTGCTGCCTGA +ATTAACCACGCGTCAGTCGGTGATGGTCGTCGGCGCGGCGGTCATTGACGTGATCGCCGACGCTTATGCC +CTCCCCTGGCGTGGGTGCGATATCGAACTGAAACAGCAGAGCGTTAACGTTGGCGGCTGCGCACTGAATA +TTGCCGTGGCGTTAAAGCGCCTCGGCATCGAAGCGGGTAATGCCTTGCCGCTCGGTCAGGGCGTGTGGGC +GGAGATGATTCGCAACCGGATGGCAAAAGAGGGCTTAATCAGCCTGATCGATAACGCCGAAGGTGATAAC +GGCTGGTGTCTGGCGCTGGTTGAGCCGGATGGCGAACGCACTTTTATGTCATTCAGCGGTGTTGAAAATC +AGTGGAATCGCCAGTGGCTGGCGCGATTAACCGTTGCGCCTGGCAGCCTGCTCTATTTTTCCGGTTATCA +ACTGGCCTCGCCCTGCGGCGAATTGTTAGTGGAATGGCTGGAAGAGCTGCAAGACGTGACGCCGTTTATC +GATTTTGGCCCACGTATTGGCGATATCCCGGATGCATTACTGGCGCGGATCATGGCCTGTCGACCTTTAG +TGTCGCTCAATCGTCAAGAGGCTGAGATTGCCGCCGAACGTTTTGCTTTATCCGCAGAGATAACAACACT +TGGCAAGCAATGGCAGGAGAAATTTGCCGCGCCGTTGATCGTTCGTCTCGATAAAGAAGGCGCATGGTAT +TTCAGCAACGACGCTTCTGGCTGCATTCCGGCATTTCCAACGCAAGTTGTCGACACCATTGGGGCGGGCG +ACAGTCATGCCGGTGGCGTACTTGCCGGGCTGGCCTCTGGTCTGCCACTGGCGGATGCCGTATTACTGGG +CAATGCAGTGGCGTCGTGGGTTGTCGGGCATCGGGGCGGTGATTGTGCGCCAACGCGCGAGGAACTACTC +CTCGCACACAAAAACGTATAGATCGCTGCGACAGTGGCTAATGCTGTACTCAATAGGCCGTTGCTGTTGG +TCAAGCGCCACTTGCTTGATCACCAGCACCGGTATTTTGCTATCTAACTGAATATGTGACTGAAACTCGG +CATCCGGCATCCGGGCGCTAACGCGGGAACGCGTACGTTGTGGGTAAATGTGCTGGCTGCGGAAATAGTC +ATAAAGTGAAATCCCGATGGCATCAACATCATGAATTAAATGCGCCGGAACCCACGATTCCTCAATCGAT +ACCGCTTCTTCATCGACATAGCGAATACGCTTAAGCAAAAAGACATCACTTCCTGCTTCGACCGCCAGCT +GCTGCGCGACTTCTTCGGGACATTTCACGACACGCTTGTTAACCCATAGCGTATCGGGCTTTTTCCCGCG +CAATACCACCTGCTGAGAAAAACCTCGCGCTTCTTTCAACGAGTATTCGAAGATGTTGTTGATCTGCGTG +CCGTAACCGCGCGAACGCGTCACCACACCCTCTTCTTCCAGCGCCTGCATCGCCTTGCGCACCGTAATGC +GCGAAACGCCGGTTAACTGACTTAAATCACGCTCACCGGGCAAAATATTGCCATGCTCCAGCACCCCGCT +GCGCACGGCATTTTTTACCGTTTCGGCAAACTTAATATAAAGCGGCGTGTTATCCGCCGCTAAAATACGC +TCGTTCAGTTGGGCAATCAGCTGGGTATGCGCTTGTTCCATTTGTCTTTTTCCTGCCGGGGAGTCTGGTG +GGAGTATATCACTGCTTCTTATTTAAGGCGTTTCTTTAATCCCATCAACGAATGCCTGCAACTCCTCCAC +CGTGCCATTAAATACATTAAAATCCACCGGACCATTGATGCCATCTACCTGTCCACGGTCGGAATGCTGC +CAGAAGCGCCAGGCCATTCCGTCATTGTCCGGACGACGTTGATAGTAGTGAGCCACCCACCACGGATATT +CATTGAAATAGCCCGCCAGATTGGTGTGATAAAAAACGGCTCCTGAGTAAATAATCGGCTTTTTCCCCGT +ACTTTTTTCGACCATTTTTAGCCACTGACTTACCCGCTTGCGTAATTCTTTTGCCGATAATTTTCCCCGT +TCTTCTACGTCCAGCACGGCAGGGAAATCGCCTTGTGAGAAATCCACCGTTTGCAGAAATAATCTCGCCT +GAACTGAAGCGGATACCGACGGGGAGAAATAATGATACGCCCCACGCAGCAGGCCATTTTCGCGGCTTAG +TTGCCAGTTACGCGAAAAATAGGGGTCCACCAGCTTTTCGCCTTCCGTCGCCTTAATAAAAGCAAACTGT +AAGCGGATACCATTGTCGCGCATTTTTGCCACCCGCTGCCAGTCGATCCGCTCCTGCCAGCGCGAAACAT +CTATTCCGTGAATGGTGTAACTGGCAGGAATGCGAATAGCGAAAGATTTAACCGGGCGATAACCGTAGAA +GTGGATGTAGTCTGTAATCTGAACTGCTGTCGAATAGAAAAAATTCACCGTCTGACGCGGATAAATTGCA +ACGATGGAAATTAGCCCAAGAGCGCATAATAGAGAGGTGAGTTTTTTTCGACTGGTAATTCTTAGCTGCA +TTGGTTTCATCCCTGAATGTCAGTGCCAAAGGCTGACAATAACCAAAGCAGCTATAGTACGGTGCTCACC +ACCAGGCGTGGAAGTGGTGAACCGGACCAATACCGTGACCAACTTCCAGCGTGTCGGCCTGGGCTAACGC +CGATGAAAGCCAGCTTTTTGCCTCCTGTACGGTGTCAGCCCAGTTTGTATGGCGCGGGCGTAGTGCAGCC +AACGCCGCAGAGAGTGTACAACCAGTGCCGTGGGTGTTTTTGGTCATAATGCGCGGTGCGGTAAACCGTT +GTTCACCCTCGCGGGTAAACAGCCAGTCCGGGCTTTGCTCATCATCCAGATGACCACCTTTCATTAGCAC +TGCGCCACAGCCCATCGCCAACAGCGATCGCCCTTGTTCCAGCATTTCCTGTTCGGTGCGCGCGTGTGGC +GCGTCGAGCAAGGCGGCAGCTTCGGGCAAGTTTGGCGTTATTAATGAAACCTGTGGCAATAATCGACTGC +GCAGCGTAGCAACCGCCGAAGGTGAAAGCAGCGGGTCGCCGCTTTTTGCCAGCATAACGGTGTCGAGTAC +CACGTTTTGGATCTGATAACGTTGCAACCGTTCTGCCACCGCTTCAACAATATCGGTTTCCGCCAGCATA +CCGATTTTAGTGGTATCGATTCGCACATCGCTGAACACCGAATCGAGCTGGGCGGCGACAAAATCAGGCT +CAATGCGATACACCGACTGTACGCCACGGGTATTTTGCGCCACCAGTGCAGTAATAACTGAGCAACCATA +AGCGCCAAGTGCCGAGAAGGTTTTAAGATCGGCCTGAATCCCCGCACCACCACTCGGATCAGTACCGGCA +ATCGTCAGAGCGTTAATTCGTTTCATGCCTGCACCTCCTGCGTCAATTGCCAGAGCGCATCAAGGAAATG +TGGAACAAAACTGCCTGGCCCCTCGCTTCTGGCGACTGCGCGTTCTCCGGCTTGTTTCATCCAGTGACAG +GCAGATGCGACATTTTCCAGCGTATCGCCTGGTAACGCACAGCAGGCAGCGACAACCGCCGATAATGCAC +AGCCAGTTCCTACCACTTTGGTCATTAACGGATCACCACCGTGAATACCAATGATACGATGTCCATCGGT +AACATAATCCATCTCGCCAGTGACCACGACGATTGCGCCAGTTTCCCGTGCCAGTGTTTGTGCAGCGGGT +ATCGCGTTAGCTGCGGCGTCAGTGGTATCCACTCCCCGTCCGCCATTAGCAATGCCAGCTAATGCCATGA +TTTCCGAAGCATTACCACGTATCGCTGCCGGTTTAAAAGATAAAAGTTCATGACAAAAATGGCGGCGATA +ATCGAGCGCACCCACCGCTACTGGATCAAGCGTCCAGGGTGTTTGAGAGCTTTTTGCTTGCTCAACGGCA +GCACGCATCGCCTGAGCGCGTGGCTGCGTCAGTGTGCCAACGTTAATCAACAAGGCACTGGCGATAGCCG +CAAACTGACTGGCCTCTTCGGTTTCGATAACCATCGCTGGCGATGCACCGAGCGCCAGCAAGGTATTGGC +GGTAAAGGTTTGCACCACATCATTGGTCATGCAGTGCACAAGAGGGGAATGTTGGTGAAAAAGGTGTAAC +GCGTGCGCAGATTGCGCTGAACCCAGCAGGTCGACTTGCATAGTTTGCTCCTGCCATAACGTGAAGAAGC +AATGACCTGGTGGTCCGTGACTTCCCTACGCTGGCATTATCCAGATCAGGTGATACGGGTATTTCTCAGC +CTTCACGCAGAAGGGCACCCCGAGTCGTTTGGTTGCGATGATAAATCGCAGAGGAGGATGGTAATGTCCA +GCGCACGCGTTGTAAACGAGGAAAAACGGCAGTTTTACAATCGCGTTAATAAATTATTTGATATATGAAT +CCAGCACCTTCAGAACGACATCCAGATCTTCTTCACGTTTTAGCTCATCCCCCTGGTGAACGATGTGTTC +CGTCAGATGACCTTTAATCACTTCCCGCATCAGACCGTTTACCGCGCCACGGATAGCAGCAATCTGTTGT +AAAACTGCAGCGCATTCGTGCGGCTCGTCGAGCATTTTCTTGAGCGCCACGACCTGGCCCTGAATCTTAC +TGGCACGCGCTTTCAGTTTCTGTTTATCACGGATTGTATGAGACATGGCAACACCTGGTTAACAAGAATA +TGAAAAATCATAGCACTATTAATCTACTGGGGGGTAGTATCAGGTACTGGGGGGGAGTAGAATCAGATTG +CCGAATTAATACTAAGAATTATTATCATGACCGAATTTACAACTCTTCTTCAGCAAGGAAACGCCTGGTT +CTTCATCCCCAGCGCCATCTTACTTGGTGCGCTTCATGGCCTGGAACCAGGGCACTCAAAAACGATGATG +GCGGCGTTTATCATCGCCATCAAAGGCACCATTAAACAAGCGGTGATGCTCGGACTGGCAGCAACTATTT +CGCATACCGCAGTGGTCTGGTTAATTGCCTTTGGCGGGATGGTGATCAGCAAGCGCTTTACTGCTCAATC +AGCAGAACCGTGGCTCCAGCTGATTTCCGCAGTGATCATTATTAGCACCGCGTTCTGGATGTTCTGGCGT +ACCTGGCGCGGCGAACGCAACTGGCTGGAGAATATGCACGGGCATGATTATGAGCATCATCATCACGATC +ACGAACATCACCACGACCATGGACATCATCACCATCACGAACATGGCGAGTATCAGGATGCCCATGCACG +AGCCCATGCCAATGACATTAAACGACGCTTTGATGGTAGAGAGGTCACCAACTGGCAAATTTTGTTATTT +GGCTTAACCGGTGGCCTTATCCCCTGCCCGGCAGCAATTACCGTGCTGTTGATATGCATTCAGTTGAAAG +CCCTGACACTGGGCGCAACACTGGTCGTCAGTTTCAGCATTGGCCTGGCGTTAACGCTTGTCACCGTAGG +CGTTGGCGCAGCAATCAGCGTTCAGCAGGTCGCAAAACGCTGGAGCGGATTTAACACTCTCGCTAAACGC +GCCCCCTATTTTTCCAGTCTGTTGATTGGCTTAGTCGGTGTGTATATGGGCGTACATGGCTTCATGGGCA +TAATGCGATAACTCAATCCTTTAGGCTTGCATGTTATCTTCAGCCCAGGATGATTCTTAAATCAGCTATT +TCCGCTGACTCTCTGCTCGCTAAGGATGCTTTTAGGGCATCCTTTCATTTACACTTTTTACGAAATCATG +GGATCACTAACAAAATATCGCTTGTCAGTTATATTGTATGGCAGGAAAGATATGCGACTGATATTACAGA +TCCCCAAAGTGGAGAGTTTATGACCATTAAAAATAAGATGTTGCTGGGTGCGCTTTTGCTGGTTACCAGT +GCCGCCTGGGCCGCACCAGCCACCGCGGGTTCGACCAATACCTCGGGAATTTCTAAGTATGAGTTAAGTA +GTTTCATTGCTGACTTTAAGCATTTCAAACCAGGGGACACCGTACCAGAAATGTACCGTACCGATGAGTA +CAACATTAAGCAGTGGCAGTTGCGTAACCTGCCCGCGCCTGATGCCGGGACGCACTGGACCTATATGGGT +GGCGCGTACGTGTTGATCAGCGACACCGACGGTAAAATCATTAAAGCCTACGACGGTGAGATTTTTTATC +ATCGCTAAAAAAAGCCCCCTCATCATGAGGGGGAAATGCAGACACCTTGTTATTTTTTATTATTAGCCAC +TTGCTCGTCTTGCTTGTTATTAGTCGTATTTCACGTTGATTAATGCGGTTGCCTCCAGTGCGCCAGATTT +AACTTTGTTTGTATCGTAGACGTAGTAACTGGCTGTTATCGGAATTGAAACCGTTGTATCTGTAAGTTTT +GACTTCGCCGCAACTTCCTTTAAATTTGTATATCCTTTACTGCTGTTAGTGATATTTAAAAGTGTGACTG +GCGAACCATTACTTTCAAGAATAAATCCTACGCCATTATCTTCCGCACCTTTCAGTATTGTGTTGCTGTT +GGTTAACAAGTCAGAACTTGATAAATACACCTGCATTTTCCGTGATGTTTGATTTTGTTGACCTAATAAA +TTTTTACAACGCAGAATAATATCCCCTTGTTTACTATTTATTGTTGCTTTGTTACCTGTGGCTGGTAATT +GTGAAACGGGAATACTGTCTAAAGTAATTAATAAATCGTCCGGTTTGCAGGTTGTGGTTATCGGGTTGTA +TGACAATGTCAGATTAAAGGAATAGACACCTGCATTTTGTGCCAATGCATTTCTGTAGCTATTTACACAT +GCATCCCATGACTTGCCACCTAATAAACACAGTAGAAATTGTACTGCGGCACTCCCGCGTGTCGATGATG +AAGCACTGGATAATGTCGCAACACCATTAATCATCACTGAACCGCCGCCCCCCGCAGAAACATTCACTTT +TGCATTACTGGCCGCAGGTGTCACCGTAACTGAATAACCACTGGTGAAACTGGTCTGATTATTTGACAAC +GTGATGTTGTTTTTATTGGTCCATTCAAAATGTAAATTTAATTTTATGGTATCGTTATAAAGTCCAACAA +TAATATCCGACGGGCTCATAGGGGTGATAGTATTTGTACTTACGCATGACGAATCATTAAAATTATGCTC +ATATGTCGCCATTTGTGTTTGAGTAAGTGCAAAATCCCCCTGAACAACCAAGTTGTGCTGAACAGATAAC +TCACTATAACATGCCGCATAGCTCACAGGCATAACCATCATCATTAATATAAATAGCATTATGCGAATTT +CCATAGAACCACCTGACTATTACTGGCAAATATAATTTCTACTTTCATCAATCTCTTTACCGAAGGTGAT +TGTGCATGAAAGTCCTTGTTGCTTATCAATTGCCACATTAACCGATGGCGGTACTTCATTGGTGCGAATA +AATAACTGACTTCCCTGGCCGACAACGCCAATATTATGACCATGGATATCATTGACTTCATAACCAAACG +TTAATGATTGCCCATCTGCTCTTAACGCTTTTATAAACCATGGCTTGCGCTGATCGGTATCAAAATTAAC +CAGTACAACCGCGCCGCGATAAGGGGCGGCAATTTTCCGGTTGCCACGTAATTCTGCTTCGCTATCGCTT +TGCGACACATCCAGCATCAGGTGATTTTCCCGATAAGGTGTCATTCCGTCGTATATCACCACTCCATTAC +GGTTTGTTGTGCGATATTTTTGCCCATTGACATAAGCATCTTTAATTCCTGGCGCATTCATCACAGCAAA +CGTTTCGGAAAGACGGTTCGCCAGATTAACGCCACCCGACCAGGCGACAATGCCCCCTGAAACACTGGCT +CCAGCCTGTCGATAAGTACTCGACTGACTATAACTGCCATTCACTGTCGCAACCGGCGCGTTCCAGGTCA +AATTCGCCCCAGCTGTCGTTTCATTTCCCTGATGTTGATGACTCAGGTTGACACCATAATTGAACTGATC +CCGACTCCCTACTGTTCCTGATAATCCCGTATTATTTGAGGCAAACCCCTGATCATCAAACGTCGTTGAG +TTAGACATATATATTTGCCGACGAGGCGTCGAAACGTCATCACCCCAATCAAAGGGAATCGATATAAAAA +TATTAAAACGTTTCTCTTCATGATGATTCTCGTCATAAGCCTGGCTTGCCGCGAGGGTATAGCTTATCCG +TCGCAGGTTGTTGGAATAACTCAACTGATAATCCTTACTACTGCCGCTACGCCCCCAGTAATCTCGCCAT +AACGTACTTAATGACACAGACCCCCAACCTTCTGGCAATGACTGGCTCATATTGGCGGAAAAGCTATTTT +TGCGGCCAAAATCGTTCTGGTAATAATCGGCAATGTCATAGACATCGTTTTCATCACGGCGATAATTATC +TTTATTGTTTGCCCAAACGTGATCGTTAAATGTCCGGTAATCACGCGACGAATAACGCCAGGCCGCCAGA +CCAAAACGCGTCGACGTTTGGCTCACAAATTTGTTGTAGGCAATTTGATAACTTTGCCCGTCAAACACAT +CGCCGTTGTCTTGTTTACTATGCGACTTAGTGGCATCGACGGAAATGGCACCAATGCGTGTATTCCAGCC +AGCCCCCAAAGTAAACGCGTAATAATTATTCGCGACCATCGAGCCACCATACAGCGTCAATAAATTATTA +AAACCATACTGATAACCCGCCTGGACAAAATCACTTTGTTTGCTCGCCCCTTCAATATGGCTACGACCCG +CCGCTAAATCATATTTCGACACGCCGGGTTGCAGCATATTTGGCACCGCTGCATAAGGCACCAGATAGGT +GGTTACCGAGCCGTCCGCCTCTTTCACGCTGACATCAAGATCTGCTCCACCACCGGCCAACTGCAAATCT +GTAATCGCGAACGGGCCAGGAGGAACCTCTTTCTGATAAACCACAAAACCATTCTGTTCAATAGTTACCA +GCGCGTTACTCTGAGCAATCCCCTGCACCCGTGGCGTAAAATTTTGTTTCGAGTTAGGCAACATCTGCAT +ATCACGAAACAACCGCACACCTCTGAAGCGAACAGAATCAAAAATATCGCTTGATGTGTACATATCACCC +ACGCGAAGCGTGCCGAGAAGTTGGGCAAATCCACGTTCCAGATACAGGGTATTGCTTTTCCACACCCCTG +GATTGTTATTTGTTTTACTGAAACTGGCATCAGAATGCAGTTGCCACCCCAGTAAATTTAACCCGCTGTT +AAAACGTACATATGTACTCTTGTTATTACCCGACGCTTTATAGTCGCTGTAATACTGACTCAGATAATAA +GAGGTATAAAACGCATTAATACCCCGCTCCCAGTTTTCCGGTGGAACATAGCCACTTTCCAGTTCTTCCA +CCCAGGCCTGCGGGACACTGAAATCGAGACGAAAAACCCCGATATCCCAGGTATAGCTCCCACCCTGAAC +AAGTTGCTCAAATGTTAAACATTGCTTACCGCTGGCGAAGTTATCGCTATTAATGCCTAACCGCTTGATA +ACTTCTCTTGATAAACATGTTTCTTGCGGGTTGTCTTTAACAATAATCTCATATTTCCCGCGCCATTGCT +TATTGACATAAATATCGATGTCATACTGCCCCGGTAAGGGTTGATTATCATCAAGACGAATATTTGCAAC +CTGCTGGTCTTTCATTCCACCTATCATAAAATGGGTATCAAAGGTTTCTTCAGCTGCATAAGCTTCAATG +CCGAGCAATAACGCTACGATTGCTGATGCAAGTGGGGTCATTCTCAACATAGGCAGCTCCTGCAATTAAA +TTTTGTCACTAATATAGTTGCCATGGTCATCGATAATGGTCAGATGCCAGTTATTTGCATTATTACTTTT +GACATTAACACTCTGACTTTCTAAGGGGGCAATCATAATAGTTTCATAATTGACTTTGACATTATTAGCT +TTGACATCCGAAATCGTCACCCAATTAGCTGAGTCATTTTTTATCACCAAACCATTGCCACTGCGATTTA +CCAGCAATTTTTTAAATGTCGCTTTATTTACCGGAGCAATACCCGCTGGCCGGTAAAACAACTTAATTCT +GTTTTGCATCGCAAACTTCAGTGCATTCTTACCTTCTTGCTCTGGACTATTTGGTGGAATATCCAGAACA +TTCAGATAAAAAATGCTTTCTTTATTAGTGGGCAGTTTATTCGGCATAATTTTGATTTTTACTTGCTGCC +CGGAATTTGCCCCTATTTTTGCCACTGGTGGCGTTAACATGAAAGGAACCTGAATTTTTTCTGGTGGTAA +TGACGTATCGCCATCATCAATCCACGCCTGCAGCAGCGAAGAACGGTTTCCCTGGTTCATCAACTGCACC +ATCACTTCTTTATTTTCTGCCGGGTAAATAATGCGCGTCCCGTAGATAACAATTCCGGCATGTGCAGGAA +GGACCATAGAAAAAATGAGTAAAGATAATAATCCTTTCATTTTAATGCCTCTTAAATTAAAAGGCCGCCA +TGGGATAGCGGCCATGTTTATTACCTGGAGAAACTTACAATTTTATTTATTAATCCTGCGCCACACGCAT +AACCAGAGAAGATAACACATCACCTGATTGCACTGAGTTATCTGTCAGTTTCAGGTATTTTGCTTTAAAC +GGAATAGCATATTGACCTTCCGCTGTTTTATAACTCTCAATGTTAAAAGGTGCAGAAACATCCAGGACAT +CGCTGTTATCACCTAAATAGAGATAGTAACCCACGGTATCGTTGCTACTGGCTATCGCCTTATCGTTACC +GGTTATTTTATCGTTGGTAATCAACGAGAGTTTTACACCAGCAACTTCTTTCGGGCAGCTAATTTTTAAC +ATGCTGCTGGTTACACCGACTGCATCATCATAGGTAGAATATTTAGCTTTACCTTCAAAGACACTGGTTG +GTACAGTCGGCATATTAATACTTACTGAATCACCACCCGCTTCGAATTTACACGGAGATTCTGCAATATT +CCCCTTAATAGTTAATGTTCCGGTATCAACGTCTGCAGCAAATACTCCAGCGCTCATAAAAAAAGAAGAA +AAGACAGCGGCAGCAATAATTGAACGTTTCATAATATGTTCCTTAATAAAATTTATTTTTGGTTGTTAAG +AGTCTGTATCTCTTGGAAACAAATTTCTCACATCAAAAAAGTTGCCGCAATGTAAACACATTGTTTTATT +GATTTAAAACAAATTAACCATTGCAATATAAATACAAAAAATATTTAAGAGTATTAACTATTTATCGCAT +CTATCAATTAATGTAGATTTATGTAAATGGTATTGTTGATATCAATAAAAAAGCCGAAATCATTTATATA +AATGATTTCGGCTTTCTAAATGCAATTAAAATCAGGTTGCCAAATTAATCGTAGCGATTTAACACGATTC +GACGTTTGCTATCGCTACCTGCAACAACCACTTCTGTCGTTACACCTTTGACGGGCGAAGAAAACAGATG +ACGGGTGTCAACATTATACGTTAACTGACCACAATGCTGTTGAGGTTGACCATTAACCATAGCCATACTG +CATGTTGGGGGACTGATCCTGCCATTAATCGCTAATGTGGCAGTCTCTGAAGAGAATGCGGGAGAAGCCA +ATCCATAGGCAAGAAAAATAATTCCTGACAGCCAATACTTATTCATTGAACGTTATCCCTGTAGTAAAGG +TTATGCCTGGATAGAATGAGTGCATAACAAACTATAGCTGTACATCCACTACACAGCCACGAAGGATGAT +AATGAAGCATTGCCTGTATGATCAATCGACTTTGTAGAGTTTCGGACGAAGGTCCGCAGAATATTCGCAG +TATTAAATAAGTGTTCATTAATGCGGCAAAAACTAATACACCGCATCAATGTAACATCTCTGCGGTGTAT +GAAGAATAACCAGAATGGTTAATAGGCGTTAGACCGCGCGGAAGGAAATCTCGCCTGGAATGACTTCACC +CTGCCAGTAGAGCTGAGCTGCAACGCGGTCAGCCAGCTGGCGGTAGATAGCGGTAAATTCGCTCTCCGGA +CGGCTGATAACCGTTGGCGTACCTTTATCGAGATCCTCACGTAAGGAGATGTGTAACGGCATCTGCCCCA +GCAGCTGTGTATGGTATTTTTCAGCCAGTTTCTCTGCACCACCGGTACCGAAAATCGGTTCATGGTGACC +ACAGTTACTGCAAATATGCACACTCATGTTCTCGACAATACCGAGCACCGGAACCTCGACTTTCTCGAAC +ATCACAATGCCTTTTTTCGCATCGATCAGCGCGATGTCCTGCGGGGTGGTGACCACGACTGCACCGGTTA +CTGGAATGTTTTGCGCCAGCGTCAATTGAATGTCACCGGTGCCTGGCGGCATATCAAGCACCAGATAGTC +GAGATCCGGCCACAAGGTTTCCTGCAACATCTGCATTAACGCCTTGCTCGCCATCGGTCCACGCCACACC +ATCGCATTGTCGTCAGTGACCAGATAACCAATTGAATTGGTTGCCAGGCCATGAGACATAATCGGTGCCA +TATGGGTACCGTCCGGCGAAGTTGGACGCTGATTTTCTGCGCCCAACATTGTTGGGATTGATGGGCCGTA +GATATCGGCGTCCAGAATGCCGACTTTCGCCCCTTCTGCCGCCAGCGCCAGTGCCAGGTTTACCGCCGTG +GACGATTTACCCACGCCGCCTTTACCGGAACTCACCGCGATAATGTTCTTCACACCGTTAATTCCCGGCT +GATTCTTCACGCGTTTCAGAGTGGCTATGTTATGCGACAGTTTCCAGTCGATAGCTTTCGCCCCGGTGAT +GCGCAGCAGTTCGGCGCTACATTGCTCTTTTAACTCTTCGAACGCGCTATGCCAGACAAACGGCATAACC +AGTTCCACATGCAACGTGTCGTCCATCCAGGCGACATGGTGCAACGCTTTCAGCGTGGTGAGGTTATGCT +TCAGGGTTGGGTGCTGAAAATTGGCCAGTGTCCCGGCGACCATTGCGCGCAAGGCTTCTGGTGATTTGGC +CTGGGATTGTTCGTTCATCCCGACTCCTTTTTTGTATAGATAAACCATCAGCTGATAGTTTACCTGAAGA +ATATAGAGAAGTACTTACTTAACATTTTCCCATTTGGTACTATCTAACCCCTTTTCACTATTAAGAAGTA +ATGCCTACTATGACTCAAGTCGCGAAGAAAATTCTGGTGACGTGCGCACTGCCGTACGCTAACGGCTCAA +TCCACCTCGGCCATATGCTGGAGCACATCCAGGCTGATGTCTGGGTCCGTTACCAGCGAATGCGCGGCCA +CGAGGTCAACTTCATCTGCGCCGACGATGCCCACGGTACACCGATCATGCTGAAAGCTCAGCAGCTTGGT +ATCACCCCGGAGCAGATGATTGGCGAAATGAGTCAGGAGCATCAGACTGATTTCGCAGGCTTTAACATCA +GCTATGACAACTATCACTCGACGCACAGCGAAGAGAACCGCCAGTTGTCAGAACTTATCTACTCTCGCCT +GAAAGAAAACGGTTTTATTAAAAACCGCACCATCTCTCAGCTGTACGATCCGGAAAAAGGCATGTTCCTG +CCGGACCGTTTTGTGAAAGGCACCTGCCCGAAATGTAAATCCCCGGATCAATACGGCGATAACTGCGAAG +TCTGCGGCGCGACCTACAGCCCGACTGAACTGATCGAGCCGAAATCGGTGGTTTCTGGCGCTACGCCGGT +AATGCGTGATTCTGAACACTTCTTCTTTGATCTGCCCTCTTTCAGCGAAATGTTGCAGGCATGGACCCGC +AGCGGTGCGTTGCAGGAGCAGGTGGCAAATAAAATGCAGGAGTGGTTTGAATCTGGCCTGCAACAGTGGG +ATATCTCCCGCGACGCCCCTTACTTCGGTTTTGAAATTCCGAACGCGCCGGGCAAATATTTCTACGTCTG +GCTGGACGCACCGATTGGCTACATGGGTTCTTTCAAGAATCTGTGCGACAAGCGCGGCGACAGCGTAAGC +TTCGATGAATACTGGAAGAAAGACTCCACCGCCGAGCTGTACCACTTCATCGGTAAAGATATTGTTTACT +TCCACAGCCTGTTCTGGCCTGCCATGCTGGAAGGCAGCAACTTCCGCAAGCCGTCCAACCTGTTTGTTCA +TGGCTATGTGACGGTGAACGGCGCAAAGATGTCCAAGTCTCGCGGCACCTTTATTAAAGCCAGCACCTGG +CTGAATCATTTTGACGCAGACAGCCTGCGTTACTACTACACTGCGAAACTCTCTTCGCGCATTGATGATA +TCGATCTCAACCTGGAAGATTTCGTTCAGCGTGTGAATGCCGATATCGTTAACAAAGTGGTTAACCTGGC +CTCCCGTAATGCGGGCTTTATCAACAAGCGTTTTGACGGCGTGCTGGCAAGCGAACTGGCTGACCCGCAG +TTGTACAAAACCTTCACTGATGCCGCTGAAGTGATTGGTGAAGCGTGGGAAAGCCGTGAATTTGGTAAAG +CCGTGCGCGAAATCATGGCGCTGGCTGATCTGGCTAACCGCTATGTCGATGAACAGGCTCCGTGGGTGGT +GGCGAAACAGGAAGGCCGCGATGCCGACCTGCAGGCAATTTGCTCAATGGGCATCAACCTGTTCCGCGTG +CTGATGACTTACCTGAAGCCGGTACTGCCGAAACTGACCGAGCGTGCAGAAGCATTCCTCAATACGGAAC +TGACCTGGGATGGTATCCAGCAACCGCTGCTGGGCCACAAAGTGAATCCGTTCAAGGCGCTGTATAACCG +CATCGATATGAGGCAGGTTGAAGCACTGGTGGAAGCCTCTAAAGAAGAAGTAAAAGCCGCTGCCGCGCCG +GTAACTGGCCCGCTGGCAGATGATCCGATTCAGGAAACCATCACCTTTGACGACTTCGCTAAAGTTGACC +TGCGCGTGGCGCTGATTGAAAACGCAGAGTTTGTTGAAGGTTCTGACAAACTGCTGCGCCTGACGCTGGA +TCTCGGCGGTGAAAAACGCAATGTCTTCTCCGGTATTCGTTCTGCTTACCCGGATCCGCAGGCACTGATT +GGTCGTCACACCATTATGGTGGCTAACCTGGCACCACGTAAAATGCGCTTCGGTATCTCTGAAGGCATGG +TGATGGCTGCCGGTCCTGGCGGGAAAGATATTTTCCTGCTAAGCCCGGATGCCGGTGCTAAACCGGGTCA +TCAGGTGAAATAATCCCCCTTCAAGGCGCTGCATCGACAGCGCCTTTTCTTTATAAATTCCTAAAGTTGT +TTTCTTGCGATTTTGTCTCTCTCTAACCCGCATAAATACTGGTAGCATCTGCATTCAACTGGATAAAATT +ACAGGGATGCAGAATGAGACACTTTATCTATCAGGACGAAAAATCACATAAATTCAGGGCAGTTGAGCAA +CAGGGAAACGAGTTGCATATCAGTTGGGGAAAAGTTGGCACCAAAGGGCAAAGCCAGATAAAAAGTTTTT +CAGATGCTGCGGCAGCGGCAAAAGCGGAGCTTAAGCTGATTGCGGAGAAGGTGAAGAAGGGGTATGTGGA +GCAAGCGAAGGATAATTCTTTGCAACCTTCCCAAACGGTAACGGGCTCTCTCAAGGTAGCGGACTTATCC +ACCATTATTCAGGAACAACCCTCTTTCGTAGCAGAAACCCGTGCGCCTGACAAAAATACAGATGCTGTTT +TACCGTGGCTGGCGAAAGATATTGCTGTCGTTTTTCCGCCCGAAGTTGTACACACCACGTTAAGTCATCG +CCGCTTTCCCGGAGTTCCTGTTCAGCAAGCAGACAAATTGCCCCAATTACGTCGCTTAGCCTGTAGTGTG +TCGCAACGGGATAATAAAACAGCCACATTTGACTTCAGCGCCTGTTCTTTAGAATGGCAAAACACCGTCG +CCCAGGCGATCAGTCAGATCGACGGCCTGAAAACAACACAGTTACCATCACCAGTAATGGCTGTACTCAC +GGCACTTGAAATGAAATGCACAAGATATAAAGTGCGTGAGGATGTTATGGATCAGATCGTCCAGGAAGGC +GGTCTGGAATATGCTACTGATGTAATAATACACCTTCAACAGATTGATATTGAATGGGATTATGCGAATA +ATGTCATTATTATTCTGCCGTCTGGCATTGCACCTAGCTACTTGGAGCAATATTCCAGATTTGAATGACG +CCTACGTAAACATTTATCACTGACGGAAGAGTCTCTCTGGCAAAAATGTGCACAAAAACTTATTGCCGCA +ATTCCACATATTCCAGAATGGCGGCAACCATTAATTGCTTTGTTATTACCCGAAAAACCAGAAATTGCAC +ATGAAATTGCCCAGCGTCTACTGGGGCAAAAAAAATTACCCTCGCTTGAGTGGTTAAAAATAGTGGCGAC +TGATGAGCACATTCTTGCCTCATTAGAAAAATATCACGAACCATATGCCATTTTTGATGATTACTATTGT +GGTGCGATATGGTCAGCCACCGTATTACAGGAGCAAGGTGTTGCAGCCCTGCCCCGATTTGCTCCCTATG +CCGCAAGTGACTACTGCGCCGATGTGTTGCGTCATATCAATCATCCGTTCGCATTGACACTGCTTATACG +TGTAGCCGGGCAAACTAAACGCTGTCACGATCGGATGACGAAAGCCATTGCTGCGTTCCCACATGCAGCA +ATGGCGGCACTGACGGAACTTCTTGGGCAAAAAGAAGAGAACAGTTGGCGCATTATGCTAATGACAATGC +TTATCTCACAACCAGCACTGGCAGAACAGGTCATTCCCTGGCTCTCGACACCCGCAGTTGCCGTACTGAA +ATCATGCCAGCAACAACTGACACAGCCCTCAAACCATGCCAGCGCCGATCTACTGCCAGCCGTAGTAGTC +TCCCCTCCCTGGCTTTCGAAAAAGAAAAAATCGCCGATTCCGGTGCTGGATTTAGCGCCATTAGGCATTG +AGCCAATCTGTTATCTGACAGAAGAAATCAGTAATCAACTTTTGGCGAAATATATCTGGTATTCAAAACA +CATCACGGTTAGCCATGAAGAAAGTACTACCAACCTGTTGGCAAGGATGGGTTTTCAACGACGGATCGCT +GGTACATATATTAAAGCTCCCGAAGCGGTAGTTGAGGCATGGCTAAATGAAGATTATTCAACCTTACTAA +GTGAATTTAAGGTGTTTCATTCACCTACCGGGCATTATTGGCAGTTGGGGATTTTGACAACATTGCCGCT +GGAGAAAGCAGTAAAAGCATGGAATGCCCTTACCCTATCTCCACATACCGATACCGAATACTCCATGTTA +CATTTTGGACTCAAAGGGTTACCTGGGTTAGTAAACTCACTTGCACGCTATCCACAAGAAGCCTTGCCCA +TCACGAATTACTTCGCAGCGAGTGAGCTGGCTCCTGCCGTCGCCCGTGCCTTCAACAAACTGAAAACGCT +ACGCGAAAACGCCCGTAGCTGGCTGTTGAAATACCCGGAACATGCCCTTACCGGCCTGCTGCCTGCGGCG +CTCGGCAAAGCCGGTGAAGCACAGGATAACGCCCGCGCTGCCTTGCGTATGCTTACCGAAAACGGTCATC +AGCCATTACTGCAAGAAATCGCCCGACGTTATAACCAGCCGGAAGTAACCGATGCGGTGAACGCTCTGCT +TGCGCTCGATCCCTTAGATAATCACCCGACAAAAATCCCCACTCTTCCGGCCTTTTATCAGCCATCGCTC +TGGACGCGCCCGGTATTAAAAGCAAATGCCCAATCACTGCCAGATAGCGCCCTCCTCCACCTCGGTGAAA +TGCTCCGCTTCCCTCAGGAAGAGGCTCTGTATCCGGGATTATTGCAGGTGAAAGACGTCTGTTCCGCCGA +CTCACTGGCGGGATTTGCCTGGGATCTGTTTACCGCCTGGCAGACCGCTGGCGCGCCGTCGAAAGAGAGT +TGGGCGTTCACTGCGTTAGGCGTTCTCGGTAACGATGACACCGCCCGCAAACTGACGCCATTAATACGCG +CCTGGCCTGGTGAATCCCAGCATAAACGCGCCACCGTTGGGTTGGATATTCTCGCTGCTATCGGTAGTGA +TATCGCCCTTATGCAGCTTAACGGCATCGCCCAGAAACTGAAATTCAAAGCATTACAGGAGCGGGCAAAA +GAAAAAATTGCCGACATTGCCGAGAGCCGCGAACTCACGGTGGCGGAGCTTGAAGATCGGGTTAGCACCG +GATCTCGGTCTGGATGATAACGGTTCGCTGCTGCTGGATTTTGGCCCACGGCAGTTCACCGTCAGCTTTG +ATGAAACCTTAAAACCGTTTGTGCGTGATGTTTCCGGCAGCCGCCTGAAAGACCTGCCCAAACCGAACAA +AAGCGATGATGAAACGCGGGCGAACGATGCGGTTAACCGCTACAAATTGCTGAAAAAAGATGCGCGTACC +ATCGCCGCCCAGCAGGTAGCAAGGCTGGAATCCGCCATGTGCCTGCGCCGCCGCTGGTCGCTGGAAAACT +TCCAGCTCTTCCTGGTTGAGCATCCGCTGGTTCGTCACTTAACCCGCCGTCTGATTTGGGGCGTTTATAG +CGCCGAAAACCAGCTACTGGCTTGCTTTCGCGTAGCAGAAGATAACAGCTCCAGCACCGCTGACGATGAT +CTTTTCACCCTGCCGGAAGGCGATATCTCTATCGGCACTCCTCACGTTCTGGAAATATCACCAACGGATG +CTGCCGCCTTTGGTCAGCTTTTTGCCGACTACGAACTGCTACCACCGTTCCGCCAGCTCGACCGTAACAG +CTACGCCCTGACAGAAGCCGAGCGCAATGCCAGTGAACTGACCCGCTGGGCAGGCAGAAAATGCCCGAGT +GGTCGGGTCATGGGGCTGGCGAATAAAGGCTGGATAAAGGGCGAACCACAGGATGGAGGCTGGATCGGAT +GGATGATCAAACCTTTGGGTCGCTGGTCGTTAATCATGGAAATCGATGAAGGCTTTGCGGTAGGCATGTC +GCCAGCCGAACTCAGCGCTGAGCAGCTCTTAAGCAAGCTGTGGCTATGGGAAGGCAAAGCAGAAAGATAT +GGCTGGGGGAGTAATTCAACACAGGAAGCGCAGTTCTCCGTAATCGATGCCATCACCGCCAGCGAGCTAA +TTAACGATATTGAAGCCCTGTTTGAATAAGGAAAGAGCATGGACAAGGAATTACCGTGGCTGGCGGATAA +CGCCCAACTGGAACTGAAATATAAAAAAGGCAAAACGCCGCTCAGTCATCGTCGCTGGCCGGGCGAACCA +GTGTCCGTTATCACTGGAAGTCTCATCCAGACATTGGGTGATGAATTGCTACAAAAAGCTGAGAAGAAAA +AAAACATTGTCTGGCGTTATGAGAATTTTTCACTGGAGTGGCAGTCCGCCATCACGCAGGCCATCAACTT +GATCGGCGAACACAAACCCTCAATCCCGGCCCGGACAATGGCGGCGCTAGCCTGTATCGCGCAAAATGAC +AGCCAACAGTTGCTCGACGAAATCGTCCAACAAGAGGGGCTGGAATATGCGACTGAGGTGGTGATTGCAC +GCCAGTTTATTGCGCGGTGTTATGAGAGTGATCCTCTGGTAGTGACATTGCAGTATCAGGACGAGGATTA +TGGCTATGGTTATCGCTCAGAAACCTATAACGAATTCGATCTCCGACTGCGTAAGCATCTCTCTCTGGCA +GAGGAAAGCTGCTGGCAGCGTTGCGCCGACAAACTCATTGCCGCACTACCAGGAATAAACAAAGTTCGCC +GCCCTTTTATTGCGCTGATCCTCCCGGAAAAACCAGAAATAGCCAATGAGTTGGTAGGCCTTGAATGCCC +GCGAACTCATTTTCATTCTAAGGAGTGGTTAAAAGTTGTTGCTAATGACCCCACAGCGGTGAGAAAACTC +GAACACTACTGGAGCCAGGATATATTTAGCGATCGAGAAGCCAGCTACATGTCGCATGAAAACCACTTCG +GCTACGCGGCCTGCGCCGCCCTTTTGCGCGAACAAGGACTGGCAGCCATTCCGCGCCTCGCGATGTATGC +CCATAAAGAAGATTGCGGCAGTCTGCTGGTACAAATTAACCATCCGCAAGTCATCCGCACCTTGCTACTG +GTGGCTGATAAAAACAAACCCAGCCTGCAACGTGTAGCTAAATACCATAAAAACTTCCCCCATGCGACGC +TCGCCGCACTGGCAGAACTGCTGGCGTTAACAGAACCACCAGCCCGCCCTGGTTATCCAATCATCGAAGA +CAAAAAGCTGCCTGCACAGCAAAAAGCACGCGATGAATACTGGCGTACGCTGTTACAAACGCTGATGGCA +TCGCAGCCACAACTGGCAGCAGAAGTGATGCCGTGGTTAAGTACTCAACCCCAGTCAGTGCTGAAGAGTT +ATTTATCGGCACCGCCCAAACCGGTTATTGATGGCACCGATAACAGCAATCTGCCAGAAATCCTCGTTTC +ACCACCGTGGCGTAGTAAGAAAAAAATGACAGCTCCACGTCTTGATTTGGCACCGCTCGAATTAACTCCG +CAAGTTTACTGGCAACCAGGCGAACAAGAGAGGCTTGCCGCCACTGAGCCTGCCCGTTATTTCAGCACGG +AATCTCTTGCGCAACGCATGGAACAAAAAAGTGGACGAGTTGTATTACAGGAACTGGGTTTTGGGGATGA +TGTATGGCTGTTTCTGAATTATATACTCCCCGGAAAACTGGATGCTGCACGCAATTCACTCTTTGTTCAG +TGGCATTACTACCAGGGGCGGGTTGAAGAGATCCTGAATGGCTGGAACTCCCCGGAAGCACAATTAGCAG +AACAGGCGCTCCGCAGCGGTCACATAGAAGCGTTAATTAACATATGGGAAAATGACAACTACTCACATTA +TCGTCCGGAAAAGAGTGTCTGGAACCTGTATTTATTGGCACAGTTGCCGCGTGAGATGGCTTTGACCTTC +TGGCTGCGTATCAATGAGAAAAAGCATCTGTTCGCGGGTGAGGACTATTTTCTCAGTATCCTCGGATTGG +ATGCGCTACCAGGTCTGCTGTTGGCTTTTTCACATCGTCCAAAAGAAACATTTCCGTTAATTTTAAATTT +TGGCGCAACAGAACTGGCGCTGCCTGTTGCCCACGTCTGGCGACGTTTCGCGGCGCAGCGTGATCTGGCT +CGCCAGTGGATTTTACAATGGCCGGAACATACGGCTAGTGCACTTATCCCTCTTGTCTTTACCAAACCCA +GCGATAATAGCGAAGCCGCATTACTTGCCCTGCGTTTACTGTACGAACAGGGACATGGCGAATTGCTACA +AACCGTGGCAAACCGCTGGCAGCGTACAGATGTATGGTCTGCCCTGGAGCAGTTGCTTAAACAGGGTCCA +ATGGACATTTACCCGGCACGCATTCCAAAAGCCCCTGATTTCTGGCATCCGCAAATGTGGTCCAGGCCGC +GCCTTATCACTAATAATCAAACTGTTACCAATGACGCTCTGGAAATTATCGGCGAAATGCTGCGCTTTAC +CCAGGGGGGACGTTTTTATAGCGGGCTGGAACAACTGAAAACGTTCTGCCAGCCACAAACGCTGGCAGCT +TTTGCCTGGGATCTCTTCACTGCGTGGCAACAAGCTGGTGCCCCCGCAAAAGACAACTGGGCATTTCTGG +CGTTAAGTCTCTTTGGTGACGAAAGCACGGCACGGGATCTGACGACACAGATCCTCGCCTGGCCACAAGA +AGGCAAATCTGCCCGTGCTGTCAGCGGCCTGAACATCCTTACCCTGATGAATAATGATATGGCGCTGATA +CAGCTGCATCATATATCGCAACGGGCTAAATCCCGCCCCTTACGTGATAACGCGGCGGAATTTCTTCAGG +TGGTCGCAGAAAATCGCGGGCTAAGCCAGGAAGAGCTAGCGGACAGATTAGTCCCAACCCTGGGCCTTGA +TGATCCGCAGGCGTTGAGTTTTGATTTTGGTCCCCGGCAGTTTACCGTTCGCTTCGATGAAAATCTCAAC +CCGGTTATCTTTGATCAGCAAAACGTTCGCCAGAAAAGCGTTCCCCGTTTGCGCGCCGATGACGATCAAC +TGAAAGCGCCCGAGGCACTGGCCCGACTAAAAGGGCTAAAAAAAGATGCTACTCAGGTGAGCAAAAACCT +GCTCCCGCGTCTTGAAACGGCCCTACGTACCACCCGACGCTGGTCGCTGGCAGATTTTCATTCTCTGTTT +GTTAATCATCCCTTTACCCGTCTGGTTACCCAGCGATTAATATGGGGGGTTTATCCGGCAAATGAACCGC +GTTGTTTACTCAAAGCCTTTCGTGTGGCCGCAGAGGGGGAGTTCTGCAATGCGCAAGATGAGCCAATTGA +CCTGCCTGCGGACGCTCTGATTGGCATTGCCCACCCGTTAGAAATGACAGCAGAAATGCGCAGTGAATTT +GCACAGCTTTTTGCCGATTACGAAATTATGCCGCCTTTTCGCCAGTTGTCGCGCCGCACGGTGCTGCTCA +CACCTGACGAGTCAACCAGTAACAGCCTGACTCGCTGGGAAGGTAAATCCGCTACCGTTGGGCAACTTAT +GGGAATGCGATACAAAGGCTGGGAGTCAGGCTATGAGGACGCATTTGTCTATAACCTGGGTGAGTACCGG +CTGGTCCTTAAGTTTTCACCCGGTTTTAACCACTACAATGTTGATAGCAAAGCGCTAATGAGCTTCCGTT +CTCTTCGAGTGTACCGTGACAATAAATCCGTCACTTTTGCCGAACTTGATGTGTTTGATTTGAGTGAGGC +GTTAAGCGCACCTGACGTCATTTTCCATTAAAACACAGCGGGCAGTGATGCAACTGCCCGTTATCAACAC +GACTTACCAGCGGGGAAAGCGATGATCGTGCAAAAAGAGCTGGTTGCTATTTACGATTATGAGGTCCCTG +TACCTGAAGATCCGTTTTCCTTCAGACTTGAGATCCATAAATGCTCTGAATTATTTACAGGTTCCGTCTA +TCGACTGGAGCGATTCCGGCTACGTCCAACATTTCATCAACGTGATCGAGAAGATGCTGACCCGCTAATA +AATGATGCGTTGATTTATATAAGAGATGAGTGTATTGATGAGCGGAAATTACGAGGTGAATCACCTGAAA +CTGTAATAGCAATTTTTAATCGTGAACTACAGAATATATTCAACCAAGAAATAGAATAATATACTCTAAA +TAATTCAAATTGGTCCGATCCGGCGCAACGTCCCAATGGCCTGGATTATAAATCTCATTATCTTAATTGC +AACGGGGTCCAGCCGTGGTTATAATTCGTTCGTTGGAACACGATGTTGCACAGGCTGTGGTGTTAGGCCT +GAAAATAGTAAATAAAAGAACCTGCCTCACCAGCAGGTTTTTTTATTTACTGTGATCTGCTTTCCAGATA +TTTTTCGCTCAAACAACTAATGCGCCAAACATTTATTGCGCGTAAAATATCGTTTATTTCATTAATACAT +TTCAGGGATGAATATATGTCACCGCAGAATAATCATCTGCAGCGTCCGCCTGCTGCTGTGTTATACGCCG +ATGAACTGGCAAAATTAAAACAAAATGATAACGCACCTTGCCCGCCCGGTTGGCAGTTAAGTTTGCCTGC +GGCCCGTGCTTTTATCCTTGGCGACGAAGCGCAAAATATCAGCCGTAAAGTGGTGATTAGCCCCTCCGCT +GTCGAACGTATGTTAGTCACTCTTGCTACCGGCCGCGGTTTGATGTTGGTGGGGGAACCGGGTACCGCAA +AATCTCTTCTTTCTGAATTACTGGCAACCGCTATTAGCGGCGATGCCGGGTTAACCATCCAGGGCGGGGC +ATCTACCACCGAAGATCAAATCAAGTATGGCTGGAACTACGCCCTGCTTATCAATCATGGTCCGTCAACG +GAAGCGCTGGTCCCTGCCCCGCTTTATCAGGGAATGCGCGACGGCAAAATCGTCCGTTTCGAAGAGATAA +CGCGTACACCGCTGGAAGTGCAGGACTGTCTGTTAGGTATGCTTTCTGACAGGGTGATGACGGGGCCGGA +ACTCACTGGTGAAGCCAGTCAGCTCTATGCGCGAGAAGGCTTTAATATTATTGCCACTGCCAATACCCGC +GATCGCGGCGTCAATGAAATGAGTGCTGCGCTAAAGCGTCGCTTCGATTTTGAAACGGTTTTTCCGATTA +TGGATTTCGCCCAGGAGTTGGAACTGGTCGCCAGTGCTTCGGCGCGTTTGCTGGCCCATAGCGGTATTCC +GCATAAAGTGCCTGACGCGGTACTGGAATTACTGGTCCGCACCTTCCGCGATCTGCGTGCCAACGGCGAA +AAGAAAACGTCAATGGATACACTGACAGCGATTATGTCCACCGCTGAAGCCGTGAACGTGGCCCATGCTG +TGGGCGTCCGCGCCTGGTTTTTAGCGAATCGCGCGGGGGAGCCTGCCGACCTGGTGGAATGTATTGCCGG +AACCATCGTCAAAGATAACGAAGAAGATCGCGCGCGTCTGCGCCGTTACTTCGAACAGCGTGTCGCCACA +CATAAAGAAGCTCACTGGCAGGCTTATTATCAAGCCCGCCACCGCCTGCCGTGAGGAAAGATGCATGAGC +GAGCCGTTAATTGTCGGCATCCGGCATCATAGTCCGGCCTGCGCCCGGCTGGTGAAATCGTTAATCGAAA +GCCAGCGGCCACGATACGTGTTGATTGAAGGCCCGGCTGATTTTAATGACCGGGTAGACGAACTGTTTTT +AGCCCACCAGCTTCCGGTAGCTATTTACAGTTATTGCCAGTATCAGGACGGTGCAGCCCCCGGGCGTGGT +GCCTGGACGCCATTTGCTGAATTTTCGCCGGAGTGGCAGGCGCTACAAGCCGCACGTCGCATTCAGGCAC +AAACTTACTTCATCGATTTGCCTTGCTGGGCGCAGAGTGAAGAAGAGGACGATTCGCCTGATACGCAAGA +TGAAAGCCAGGCCTTACTGCTGCGTGCCACCCGCATGGATAACAGCGATACCCTGTGGGATCACTTGTTC +GAAGATGAAAGCCAGCAAACTGCATTACCCTCTGCGCTGGCGCACTATTTTGCCCAACTGCGGGGCGACG +CCTCCGGCGATGCGCTCAATCGTCAGCGCGAAGCCTTTATGGCCCGCTGGATTGGATGGGCGATGCAGCA +AAATAATGGCGACGTGTTAGTTGTCTGCGGTGGCTGGCACGCTCCGGCACTGGCAAAGATGTGGCGCGAA +TGCCCTCAGAAAATTAACAAGCCAGAATTGCCCTCGCTGGCAGATGCCGTTACAGGTTGTTATCTCACAC +CCTACAGTGAAAAGCGCCTTGATGTGCTGGCAGGATACCTTTCAGGAATGCCTGCCCCGGTATGGCAAAA +CTGGTGCTGGCAGTGGGGCTTGCAGAAGGCCGGTGAACAACTGCTAAAAACTATCCTTACCCGTTTGCGC +CAGCACAAATTGCCCGCTTCTACCGCGGATATGGCTGCCGCTCATCTGCATGCGATGGCGCTGGCACAGT +TGCGCGGTCATACACTACCGTTACGCACTGACTGGCTGGATGCCATAGCAGGCTCGCTGATTAAAGAAGC +CCTGAACGCGCCGTTGCCGTGGAGCTATCGCGGCGTTATTCATCCCGATACCGATCCGATTCTGCTAACG +TTGATAGACACATTAGCGGGTGACGGATTCGGTAAACTTGCCCCTTCTACGCCACAACCGCCTCTGCCAA +AAGATGTCACCTGCGAACTGGAACGTACCGCAATCTCCCTTCCGGCGGAGCTTACCTTAAATCGCTTTAC +CCCCGATGGGCTGGCGCAAAGTCAGGTGTTACATCGGCTGGCAATACTGGAGATCCCTGGGATTGTACGC +CAGCAGGGAAGTACACTGACACTTGCAGGCAACGGTGAAGAACGCTGGAAATTAACCCGCCCGCTTAGCC +AGCATGCGGCATTGATTGAGGCCGCCTGTTTTGGTGCCACACTCCAGGAAGCCGCACGCAATAAATTAGA +AGCCGATATGCTGGACGCGGGCGGAATCGGCAGTATCACCACATGTCTTAGCCAGGCGGCGTTAGCGGGT +CTGGCGTCCTTCAGTCAACAATTACTGGAGCAACTCACACTATTAATCGCCCAGGAAAATCAATTTGCCG +AAATGGGCCAGGCGCTGGAAGTGCTTTATGCCTTATGGCGGCTGGATGAAATTAGCGGTATGCAAGGCGC +GCAGATATTACAAACGACGTTATGCGCGACTATCGATCGCACGCTGTGGCTGTGTGAATCTAACGGCAGA +CCGGATGAAAAGGAGTTTCACGCTCACCTGCATAGCTGGCAAGCGCTTTGCCATATTCTGCGCGATCTAC +ATAGCGGCGTTAATTTACCCGGCGTTTCTCTTTCTGCGGCGGTAGCCTTACTGGAGCGACGCAGTCAGGC +AATTCATGCCCCGGCGCTGGATCGCGGCGCGGCTCTTGGCGCACTAATGCGTCTGGAACATCCCAACGCC +AGTGCCGAAGCGGCGCTGACGATGCTGGCGCAGTTATCCCCGGCACAATCTGGTGAGGCGCTGCACGGTT +TGCTGGCGCTGGCCCGCCATCAACTGGCCTGTCAGCCGGCATTTATCGCCGGTTTCAGCAGTCATTTAAA +TCAACTGAGTGAAGCCGATTTTATTAACGCCCTGCCCGATTTACGCGCGGCGATGGCCTGGCTACCACCA +CGAGAACGCGGGACGCTGGCGCATCAGGTGCTTGAGCATTATCAACTGGCGCAACTTCCCGTTTCGGCGC +TGCAAATGCCGTTGCATTGTCCACCACAGGCCATTGCACATCATCAACAACTCGAACAGCAGGCACTGGC +ATCGCTGCAAAACTGGGGAGTTTTCCATGTCTGAACTGAACGATCTTCTGACCACCCGTGAGCTACAACG +CTGGCGATTAATTCTTGGCGAAGCGGCAGAAACGACGCTTTGTGGGCTGGATGACAACGCCCGGCAGATA +GACCACGCGCTGGAGTGGCTGTATGGGCGCGATCCTGAACGGCTCCAGCGTGGTGAACGTTCCGGTGGAT +TAGGTGGCTCAAATCTCACCACCCCTGAGTGGATCAACAGTATTCACACGCTGTTTCCGCAGCAGGTGAT +TGAGCGGCTGGAAAGCGATGCCGTGCTGCGCTACGGCATTGAAGATGTGGTGACGAATCTCGACGTGCTG +GAACGTATGCAGCCTTCTGAAAGCCTGCTACGCGCTGTTTTGCACACCAAACATCTGATGAACCCCGAAG +TACTGGCTGCCGCCCGCCGGATAGTGTGCCAGGTTGTTGAAGAAATTATGGCTCGACTGGCAAAGGAAGT +TCGTCAGGCTTTTTCTGGTGTCCGCGATCGCCGTCGCCGTTCATTTATTCCACTGGCGCGAAACTTTGAT +TTCAAAAGTACTCTGCGCGCCAACCTGCAACACTGGCACCCGCAACACGGCAAGTTGTATATCGAATCCC +CCCGCTTTAACAGCCGCATTAAACGCCAAAGCGAACAATGGCAACTGGTCTTACTGGTTGATCAAAGCGG +ATCGATGGTCGATTCGGTGATCCACTCTGCGGTGATGGCGGCCTGTTTGTGGCAGTTACCCGGCATTCGT +ACCCATCTGGTGGCGTTTGACACAAGCGTCGTTGATCTCACGGCAGACGTTGCCGATCCGGTAGAGTTAT +TAATGAAAGTACAGTTGGGCGGCGGGACCAATATCGCCAGTGCCGTGGAGTATGGTCGGCAACTTATTGA +ACAACCAGCGAAAAGCGTCATTATCCTCGTGAGCGATTTTTACGAAGGGGGTTCATCATCATTACTGACG +CATCAGGTGAAAAAGTGTGTCCAGAGCGGCATCAAAGTGCTGGGACTGGCAGCGCTCGATAGCACCGCAA +CACCTTGCTATGACCGCGATACGGCCCAGGCGCTGGTTAATGTCGGCGCACAAATAGCCGCCATGACGCC +GGGCGAGCTGGCATCATGGCTTGCGGAGAATCTTCAGTCATGAATTCACTACGTCCGGAATTATTAGAAC +TGACACCGCAGGCCCTGACGGCGTTAAGCAATGCCGGTTTTGTTAAGCGCAGTCTTAAGGAACTGGAAAA +TGGCAACGTCCCGGAGATCAGCCATGAGAACGACGCTTTAATCGCCACCTTCAGTGACGGTGTCCGTACC +CAGCTGGCGAACGGCCAGGCACTGAAAGAGGCTCAGTGCAGTTGCGGGGCCAACGGTATGTGCCGTCATC +GCGTGATGCTGGTGTTAAGTTATCAACGACTTTGTGCCACCACTCAGTCTACGGAAAAAGAAGAAGAGTG +GGATCCGGCAATCTGGCTGGAAGAACTGGCTACCCTTCCCGATGCTACCCGCAAACGCGCACAGGCGCTG +GTCGCTAAAGGCATCACCATTGAGTTGTTCTGTGCGCCGGGTGAAATTCCCTCTGCCCGCTTACCGATGA +GCGATGTGCGTTTTTATTCCCGCAGCAGTATTCGTTTCGCCCGTTGTGATTGTATTGAAGGCACACTTTG +CGAACATGTCGTACTGGCGGTACAGGCCTTCGTCGAGGCCAAAGCGCAGCAAGCAGAATTTAACCATTTA +ATCTGGCAGATGCGCAGCGAACACGTCACATCATCTGACGATCCGTTTGCCAGCGAAGAAGGCAACGCGT +GTCGTCAATATGTTCAGCAATTAAGCCAGACATTATGGCTTGGCGGCATCAGCCAGCCGCTCATCCATTA +CGAGGCAGCATTCAACCGCGCATTGCAGGCGGCAGAGACCTGCAACTGGCGCTGGGTGAGTGAATCGCTA +CGGCAACTGCGCGCCAGCGTTGATGCCTTCCACGCCCGCGCCAGCCACTATAATGCCGGAGAATGCTTAC +ATCAGCTTGCGGCATTAAACAGTCGATTAAATTGCGCACAAGAGATGGCCCGGCGCGACAGTATTGGTGA +AGTTCCTCCTGTGCCGTGGCGCACGGTCGTTGGCTCTGGCATTGCCGGAGAAGCAAAGCTTGATCATCTG +CGGCTGGTGTCTTTAGGTATGCGTTGCTGGCAGGATATTGAGCATTATGGTTTACGCATCTGGTTTACCG +ATCCCGACACCGGCAGTATTTTGCACCTTTCGCGCAGTTGGCCGCGAAGTGAACAGGAAAACTCACCGGC +AGCTACGCGTCGGCTGTTTAGTTTTCAGGCTGGCGCACTGGCGGGCGGGCAAATTGTTTCACAAGCAGCA +AAACGCAGTGCCGATGGCGAGCTGCTGTTAGCTACCCGCAACCGCTTAAGCAGCGTTGTGCCGCTGTCGC +CTGATGCCTGGCAAATGTTGAGCGCGCCGTTACGCCAGCCGGGCATTGTGGCTTTGCGGGAATATTTACG +CCAGCGTCCCCCCGCCTGCATACGGCCTCTTAATCAGGTCGATAACTTATTTATTCTGCCGGTCGCTGAG +TGTATTTCGCTCGGTTGGGACAGCAGCCGCCAGACGCTGGATGCGCAGGTCATTAGCGGCGAAGGGGAAG +ATAATGTGCTGACGTTATCATTACCAGCCTCAGCCAGCGCACCTTATGCCGTTGAACGCATGGCGGCGCT +TTTGCAACAAACAGACGACCCCGTGTGTCTGGTTTCTGGCTTTGTCAGTTTTGTTGAAGGGCAATTGACA +CTGGAACCACGGGTGATGATGACAAAAACCCGTGCCTGGGCGCTGGACGCAGAAACTACGCCTGTGGCAC +CGCTACCTTCTGCCAGCGTTTTGCCTGTGCCGTCTACTGCTCATCAGTTGCTGATACGCTGCCAGGCGTT +ACTTATTCAACTGCTCCATAACGGCTGGCGCTATCAGGAACAGAGTGCTATTGGTCAGGCATAGTTGCTG +GCGAATGACCTCACCGCGGTGGGTTTTTATCGGCTGGCACATGTGTTGGGACAATTTCGTAATACAGAAA +GCGAGGCACGGGTAGAAGCAATGAATAACGGTGTTTTGCTTTGCGAACAATTATTCCCCATGCTTCAGCA +ACAAGGATGAAATAGTGCTTTTTACTAAGAGTTCTACTCCAGTTCCGGACTGCTCACGCCACGGTATTAG +GCATATCCTATATAGCCCCTGGTGAGAGTCACCAGTTCCTTGATTAAATAAAATGGAGTTTTACATGAAG +GCTTTCAATAAGCTGTTTTCCCTCGTTGTTGCATCTGTTCTGGTTTTCTCTCTTGCTGGCTGCGGTGACA +AAGAAGAATCGAAGAAATTCAGCGCCAATCTGAACGGCACTGAAATTGCCATTACCTATGTCTACAAAGG +TGACAAGGTGCTTAAGCAATCTTCTGAAACCAAAATTCAATTTGCCTCCATTGGTGCAACCACCAAAGAA +GATGCTGCCAAGACACTTGAGCCGTTAAGCGCCAAATACAAAAACATCGCGGGTGTTGAAGAAAAATTAA +CCTATACCGATACCTACGCGCAGGAAAACGTGACTATCGATATGGAAAAAGTGGATTTTAAAGCCCTGCA +GGGTATTTCAGGAATCAACGTTTCTGCTGAAGATGCCAAAAAAGGTATCACTATGGCGCAAATGGAACTG +GTGATGAAAGCCGCTGGTTTTAAAGAAGTGAAATAATCGGTTGGCGGTCATGCTCTAAACATGACCGCCA +ATTTTTTAGCCTTTTTTCACATGCTGGCGCGCTGCCAGTCCACGCAGAAAATAACGTAAAAATTGATCGC +CGCATTCGCGGAAGTTTTTATGATCCGGTGCGCGCATCATCGCTGTAATTTCCGGCATCGAAACGCGGAA +CTGCTGTTCGGTGAGGATAGCCAGAATGTCATCGGTTTTCAGCGAAAACGCGATGCGTAATTTTTTCAGC +ACGATGTTGTTATTAATGCGACGTTCCGGCTCCAGTGCCGGAGCAGACTCATCCTTGCCGCGTTTTTCAT +AAATCAGGCCATTGAGGAATGACGACAAAACAATGTCCGGACAACGCTGAAAACCCTCTTCGTCTTCTTT +ACGTAGCCAGACGGCGATCTGTTCCGCGGTGGCTTCGACATTACCCAGCGCCAGAATACGCACCAGGTCA +TTATTATTGGCTTTCAAAATGTAGCGCACGCTGCGCAGAATATCGTTACTTAGCATGAGGCCTTCAGGTG +TTGATGAGGCAAAAAGCCATTTTAGCAGTCTTTTACAGGCCAATCGCCTCTTTTAAGCTTTTCAGATAAC +GGCGGCTGACCGGCACGGTTAAGCCATTACGCAAAATCAACTCGGCCTGGCCGTTATCTTCCAGACGAAT +CTCCTGTAAATGCGCGAGGTTAACCAGATACTGACGATGGCAGCGCAGTAGTGGTGTACGACTTTCCAGG +GTACGTAATGTCAATTCGGTAAAGCCCTCTTTCCCTTCGTGGCTGGTAACGTAGACACCGCTCATCCGAC +TGCTGACAAATGCCACATCTTTCATTTGCAGCAAATAAATCCGACTATGCCCCGTACAAGGGATAAATTT +CAGCGCCTGTTGATTTTCCGGTAACAGCGAAACATCCTGCTTGCTGCGCTCCTGACGCAATCGCGCCAGC +GTTTTCTCCAGTCGCGCTTCATCAATTGGCTTCAGCAGATAATCAAAGGCATGTTCTTCAAAGGCTTTAA +TTGCGTATTCGTCAAACGCAGTGAGAAAAACAATATACGGGCGATGTTCCGGGTCAAGCATCCCCACCAT +TTCCAGACCACTGATGCGCGGCATCTGGATATCGAGAAACAGCACATCCGGGCGCAGTTTATGCACCGCG +CCGATCCCTTCCACGGCGTTTGAACACTCTCCAACGATTTCAATATCGCTCTGCTCCTGCAAAAATACAC +GCAGGTTCTCCCGTGCTAACGGTTCATCATCGACAATTAAGACTTTAATCATGCCTCGTCCCTCCATGGT +AGTCGTAACGTTATTCGGGTGTAACTATCAGGCTCACAGGCGACGCTTATTCCATAGTCATCGCCAAACC +GTTCACGTAAACGCTTATCCACCAGATTCATCCCCAGCCCACTGGCATTGGTTACCGGTTGATACAAACC +GGCATTGTCTTCGATCTCCAGCATCAAATGTTGCCCCTCACGTCGGGCGCTGATTGCCACTCGCCCTGTA +TCCAGCAGTTGTGATGTCCCATGTTTAATGGCGTTTTCCACTATCGGTTGCAGGGTAAACGCGGGCAATT +GCTGCTGGGATAATTCTTGCGGAATAGCAATGTTGACCTGCAACCGCGACTGGAAGCGCGCCTTTTCAAT +TTGCAGATAAGCATTCACATGTTCAATTTCGTCGGCGAGAGTAACAAACTCCGAAGGCCGCTTTAAGTTT +TTGCGGAAAAAAGTGGAAAGATACTGCACCAGCTGGCTGGCCTGTTCGCTGTCGCGGCGGATCACCGCTT +TAATGGTGTTAAGCGCATTAAACAAAAAATGGGGATTCACCTGGGCGTGAAGCAGTTTGATCTCTGACTG +GGTGAGCATCGCTTTTTGCCGCTCATATTGCCCGGCAAGGATCTGCGCCGAAAGCAATTGCGCAATCCCC +TCACCCAACGTGCGGTTGATTGAACTGAATAAACGGTTTTTGGCTTCATACAATTTGATGGTGCCCATCA +CCCGCTGATTTTCACCACGCAACGGAATTACCAGCGTCGACCCCAGTTTGCATTGCGGATGCAAAGAGCA +ACGGTAAGGTACTTCGTTGCCATCAGCGTAGACCACTTCACCGGTTTCAATCGCTTTTAAAGTATAAGTT +GAAGAAATCGGTTTGCCGGGTAAATGGTGGTCGTCACCAATTCCGGTAAAGGCCAGCAATTTCTCTCGAT +CGGTAATCGCGACTGCACCAATATCCAGTTCCTGATACAGCACCTGAGCCACTTTCATGCTGTTCACTTC +GTTAAACCCCTGGCGCAAAATGCCTTCCGTCGAGGCTGCCACTTTCAGCGCAGTGGCAGAAAAAGCCGAA +GTGTATTTTTCAAACATCGCGCGTTTATCGAGCAATATACGCATAAACAGCGCCGCGCCGACGGTATTGG +TGACCATCATTGGCGCAGCAATATTACTCACCAGACGCACCGCATCTTCATAAGGTCGGGCGATCGCAAG +GATGATCAGCATTTGCACCATTTCAGCGACGAACGTGACGGCACCGGCGGTAATGGGGTTAAAGACTTTA +TCAGTGCGCCCGCGGCGGATCAGGATGCTGTGTACCAGGCCACCGAGTAATCCTTCAACGATGGTCGAGA +TCATGCAACTTAACGCGGTCATGCCCCCCATCGAATATCGATGTAAGCCGCCGGTCAGCCCAACCAGCCC +ACCGACGACCGGACCGCCGAGTAAGCCGCCCATTACCGCGCCTATCGCACGGGTATTGGCAATAGAATCG +TCAATGTGCAACCCAAACCAGGTGCCCATGATGCAGAAGATGGAAAAGACGATGTAGCAGAGAAATTTAT +GCGGCAGACGAACCGTGACCTGCATTAACGGTATGAATAATGGCGTTTTACTCATTAACCATGCAATGAC +TAAAAAAACGCACATCTGCTGAAGCAGCAGCAACACCAGATTAAAATCGTACATACCCGCAAACCACACT +TCCCTTTAAAACGCGTAACATACATTGCCTGCGTTTAACTTTCTTTGAACTCTTGCAGAAAAATGAGAAT +TCGTGAGTACGATCACTCAAAATCGCCTGGCAAAAATAAAATCACCCTATAGATGCACAAAAAACGGGCA +AAACTACCTGGTTCGCAAAACTGCGTCTAAAGTTAAACCGGGACCTCGCGAGCAAGGGTGAGACGATGGC +GCTTTACACAATTGGTGAAGTGGCGTTGCTTTGTGATATTAATCCTGTCACGTTACGCGCGTGGCAGAGG +CGTTACGGATTGCTGAAACCGCAACGGACAGACGGCGGTCATCGGCTGTTCAACGATGCCGATATTGACC +GGATCCGCGAGATCAAACGCTGGATCGACAACGGCGTGCAGGTCAGCAAAGTTAAAATGCTGCTCAGTAA +TGAAAATGTTGATGTGCAGAACGGCTGGCGCGATCAGCAAGAAACATTACTGACTTACCTGCAAAGCGGC +AATCTACATAGCCTGCGAACGTGGATCAAAGAGCGCGGTCAGGATTACCCCGCCCAGACACTCACCACAC +ATCTGTTTATTCCTCTGCGCCGACGGCTTCAGTGCCAACAACCGACTCTCCAGGCGCTGCTGGCGATCCT +CGACGGCGTACTGATCAACTACATCGCCATTTGTCTGGCTTCGGCACGTAAAAAACAGGGTAAAGATGCG +CTGGTGGTTGGCTGGAATATTCAGGATACCACCCGTCTGTGGCTGGAGGGCTGGATTGCCAGTCAACAAG +GATGGCGCATTGATGTCCTCGCCCACTCGCTCAATCAACTACGCCCTGAACTATTCGAAGGCCGTACATT +GCTGGTGTGGTGCGGTGAAAATCGAACCTCCGCCCAACAGCAGCAACTCACCAGTTGGCAAGAACAAGGC +CATGATATTTTCCCACTCGGCATTTAATGATTCGTTAACAAATGCGCTTTACTGTACAATCCTTTCGTTA +ACATAAGGAGTGCATTATGCGCATAGCTAAAATTGGGGTCATCGCCCTGTTCCTGTTTATGGCGTTAGGC +GGAATTGGTGGCGTCATGCTCGCAGGTTATACCTTTATTTTGCGTGCTGGCTAAGCGCCTGCACCAGCCT +TTCAAACAGGCGGTCTGCGATGATCGCCGCCAGTGCCACCAGTAACGCCCCCTGGATCACATACGCGGTA +TTAAATCCGCTAAGCCCGATGATGATGGGCGTACCCAGCGTGCTGGCCCCTACCGTTGAGGCGATCGTCG +CCGTACCAATGTTGATAATCACCGAAGTTCGCACGCCCGCCAGAATCACCGGAGCCGCCAGCGGTAGCTC +GACCTTACGCACTCGCTGACCACGACTCATTCCCATACCTTTCGCAACTTCTGTCACGCTGGCATCAATC +GCTCCCAGCCCGGCAAGTGTCGCCTGCAGGACGGGCAGCACACCGTAAAGGATCAAGGCGATAATCGCTG +GTTGCAGACCAAAGCCGATCACCGGAACGGCGATCGCCAGCACTGCGACGGGCGGAAAAGTCTGTCCAAC +GGCGGCAATAGTTTCCACCAGTGGGCGAAATTCCGCGCCCCACGGGCGAGTGACAGCAATTCCGGCACCA +GTGCCAATGATCACCGCAAACAAACTCGAAATTCCCACCAGCCAGAAATGAGCCAGTGCCAGAGCTGCAA +AACTTTCTTGCTGATAAACGGGTCGTGGCAGTTGTGGGAACAAGGCAGCAAACAGCGGCTGGCTGTAAGG +CAGCCAGAAAATCAGCGCCACAAACAGAGCAATGAGCCAGAACAGCGGATCGCGCAACATCTTCATACGC +TTACGCCTCCACCAGCAGATCCTGAAAATGCAGCGTGCCGCAAGGCTGGCCCTGCATGTTCACCACCGGC +AGCACCTCGCATCCCCGCGCAACAAACAGAGAGAGCGCATCGCGTAGCGTCATCTCTTCTGCCAGTGCCT +CACCATCTGCTCGTTCTTCGCGACGCACGTAATCCGCCACACTACGTAACGAAAGCAGGCGCACACCCAG +TTCACTACGTCCAAAAAACTGGCGGACAAAATCATTCGCCGGACGAGTCAGCATCGTCAGCGGATTGCCC +TGCTGCACTACTTCACCGTGATCCATCAATACCAGATGTTCTGCCAGCCGTAGCGCCTCATCAATATCAT +GAGTGACCAGCACAATGGTACGCCCCAGCAAACGGTGAATGCGCGTCATCTCTTGTTGCAACGCGCCGCG +CGTTACCGGGTCCAGTGCGCCAAAAGGTTCATCCATTAGTAAGACTTGCGGATCGGCAGCCAGTGCACGC +GCCACTCCCACACGTTGCTGCTGACCACCGGAAAGCTGATGCGGATAACGCTCACGCAAATTTGACTCCA +GCCCCAGTAGCGCCATTAATTCGTCGATACGATCGTCAATCCGCGCCCGCGACCATTTTTGTAATTGCGG +CACGGTAGCGATGTTTTGCGCCACGCTCCAGTGGGGGAACAGGCCAATAGATTGAATGGCATAGCCCATC +CGGCGGCGCAACTCCAGTACTGGCAGCGAGCGAATTTCTTCTCCGGCAAAGCGGATCTCTCCGCTGTCAT +GCTCCACCAGGCGGTTAATCATTTTCAGGGTGGTGGATTTGCCGGAGCCAGATGTGCCAATCAGCACCGA +AAAACTCCCTTCCTGAAAATTGAGATTGAGATCGTTAACGGCTTTTTGTGCGCCGAACAGTTTGCTGACA +TGGCTAAATTCAATCATTACGTTTCACCTTCAGCAGTGCGATAAGCAAATCGAACAGCGCGTCGGTAAGC +ACCGCCAGAACAATTACCGGGATCACCCCCAGCAACACTAAATCAATGGCGCTGCTTAGCAGCCCCTGGA +AAACCAGCGCACCAAAACCGCCTGCGCCGATTAACGCCGCAATCACCGCCATACCTACAGTTTGCACCAT +CACCACCCGCAGGCTGCGCAGAAATACCGGTAACGCCAGCGGTAACTGAACATGCAGGAAACGCTGCGCC +CCGCTCATCCCCATCGCTCTGGCGCTTTCCAGCACATCGCGCGGGATCTGGTTCAAACCGACTACCACGC +CGCGCACCAGCGGCAGCAAGGCATAGAGCACCAGCGCAATCAGTGCGGGTGTCATTCCGGTTCCTGCTAT +GCCGAGCGTCCCCAGCCACGGAAAGGCCGTAACCAGCGCGGCAAGCGGCGCAATCAACAGGCCAAAGAGC +GCCACCGAAGGCACGGTCTGAATCACATTGAGCAGAGAAAAAATTGCCCCCTGCCGAGCAGTGGAAAAGT +AGCACCAGATGCCCAACGGCACACCAATCACTAACGCAGGCAGCACCGCACCAAACAGCAACGTCAGATG +TTGTGCCAGCGCGTCGTCAAACACATCCTGACGGTTGGCGTATTCTTTCATTAGTGAGAGATCGTTAAGC +GTGCCGGAGTACAGCAACCACAGCGGAATAATGGCAATCTGCATATGCAACAACCAGCGCCACAGCGGAT +GCGTGGAGATTCGGCGGATGGCATCGCTACAGGCCAGCAATGCCAGCGCCGCAGCCAGCCAGAAACCACT +GCCGAGGCTGGTACGCGCCAGCGCACTGCCATTTTGCGCCAGTTGGGTCGCCGCCTTTCCAGCTCCCCAC +ACCAGCAATACGAAGACGAATTGCGCCAGAATGAGTGCACAAATGCTGCCTTTTTTACCGGGAATAAAAC +AGGCCGTCAGCCAGGCGCAACCAACGCCCACCAGCATCCAGATCGTTTGCGGCCACAGCTGCCAGAGATG +ACGCCCCTCACCCGAAACTAAACGATTAGGCGCGTAACTGATAAACGGCAGCGCCGCTGCGATTGCCGTC +AGCAACAGCAGCAGCGCCAGAACAGGATTAATACGGAAATAAGTCACGGGAAATTACTTCGTCCACCCTT +TTTGTTTCAGGTAGTCGGCAGCCACTTTTTTGGCATCCAGTCCTTCCACAGCAATGCTGGCATTCAGTTG +CTGCAATGTTTTTGCATCGAGGCTGGCGAAGACTGGCTGTAGCCACTGTGCCATTTGCGGATACTCCCTC +AACACCGACTCACGCACCACTGGTGCAGGCGCGTAGATAGGTTGCACACCTTGCGGATCGCTTAAGGTTT +GCAGCCCCAGCGCCGCTACCGGGCCGTCAGTGCCGTAAGCCATTGCAGCATTAACGCCAGAGGTTTGCTG +GGCAGCGGCTTTGATCGTCACCGCCGTGTCGCCACCAGCCAGTGACAGCAACTGATCCTGACCGAGCTTA +AAGCCATAGGCTTTTTCAAACGCGGGTAACGCATCGGCGCGTTCGATAAACTCTGCCGAGGCTGCCAGTT +TGAAGGTGCCGCCCTCTTGCAGATAACGACTCAGGTCGGCAAGCGAAGTGAGTTTATTTTTCTCTGCCAC +ATCCTGACGCACGGCGATAGTCCAGGTGTTATTTGCAGGCGCGGGCGTCAGCCAGATTAACTTGTTGTGC +TCCGAATCGAGCTTTTTGACTTTCTCGTAACCTTGCTGCGCGTTTTTCCACGCTGCATCGTTTTCATCTT +TAAAGAAGAAAGCGCCATTGCCGGTATATTCCGGATAGATATCCAGTTCACCGGAAGTAATCGCCCCGCG +CACCACAGGAGTCGTTCCGAGTTGCACTTTATTCACCGTCGGTACGCCGTGGCTTTCCAGCACCTGCAAA +ATGATATTGCCGAGTAGCGCACCTTCGGTATCGATTTTTGAACCGACTTTAACGGGGGAAGCCGCCTGTA +GCGGCAGGCTCACGGCTGCCAACATAACCAGTGAACCTGCCCAGAGCTTTAAGAGTGGCATGATGCTTTC +CTCATTCTTTTACTGTTGTTTTCAGCGAATTAAGAGAAAAGCATAGTTGATAATGGCGGGGTTAGCTTGA +GCGGAAGGATTCAGTTGCAGAATCAGATAAATACTTAAGAGGCATATTCGGTCCGGCGTTTCCTGCCGGA +TGCGGCGCGAGCGCCTTATCCGGCCTACAAAGGGCGCAAACGTCGCGCCCTTACTAAAGCATTACAGCAA +CTCAAACTCGCCTTTCTTAACGCGTGCGGAATCAGTGCCGATAAAGACATTGAACTTGCCAGGCTCGGCG +TCATATTTCATCTGTTGATTCCAGAACTTCAGCGCCTCAATATCGATCGGGAAGCTGACAGTCTGAGTTT +CGCCCGGTTTCAGGGTGATTTTCTCAAAGCCTTTCAGCTGTTTCACAGGGCGACTCATGGAAGCCGTCAC +ATCCTGCAAGTACATCTGCACTACCGTGGCACCCTCGCGCTTACCGGTGTTCGTCACCTGCACGCTGGCA +GTCACTTTGCCGTCACGCTTCATGGTCGGCGCAGAAAGTTTCACATCAGAGACGGTGAAAGTGGTGTAGC +TCAGCCCATAGCCGAACGGATACAACGCCCCGTTAGCTTCATCAAAATAACGCGAAGTGTATTTGTTCGG +CTTGTCGGCATTATACGGGCGACCGGTATTCAGATGGCTGTAGTACACCGGGATCTGCCCGACAGAACGC +GGGAAGGACATTGGCAGCTTGCCGGACGGGTTGTAATCGCCAAACAATACATCGGCAATTGCATTACCGC +CTTCAGTCCCCGCAAACCAGGTTTCCAGAATCGCATCAGCCTGCTGATCTTCTTTCACCAGCGCCAGCGG +ACGCCCGTTCATCAGCACCAGCACCAGCGGTTTACCGGTGGCTTTCAGCGCCGCAATCAAGTCACGTTGG +CTTTGCGGAATAGTGATATCGGTCCGGCTGGAGGCTTCGTGCGCCATCCCCTGTGCTTCACCGACTACAG +CCACCACCACATCAGATTGTTTCGCCGTCTGCACCGCTTCATCAATCATCTCTTGCGGCGAACGCGGATC +GACTTTGACCGCTTCTTCATACTGATTCAGGAAATCGATAATGCCTTTGTCACTGGTAACGTTCGCCCCT +TTGGCATACAGCACTTTACCGTTTTCACCGACGGCATTTTTAATCCCGGTCAGTACGGTCACGGATTGAT +CGGCAACACCGGCTGCGGACCAGCTGCCCATCACGTCACGTTTACTGTCCGCCAGTGGCCCAACCACCGC +AATGGTGGCCGATTTTTTCAGCGGTAACGTTTCGAGACGGTTTTTCAGCAACACCAAGCTTTCGCGCGCC +ACTTCACGCGCTTCTTTACGGTGCAGGCGGCTTTCGGCATTGGTATCCACCGGGTCAGACTCTTTCGGCC +CCAAATGGCTGTATGGGTCGTTAAACAACCCCATATCATATTTAACGTTCAGTACATGGCGGGCAGCATC +GTCCAGCTCTGCCATCGTCACTTTGCCGGATTTAATCAACCCAGGCAGATACTTCGAGTAGTACTCGTCG +CTCATGCTCATGTTGATTCCGGATTTCAGCGCCACGCGCACCGCATCTTCCGGGTCTGCCGCCGTGCCAT +GTTTAATCAGCTCTTTGATTGCACCGTGATCGGAAACGGTGATGCCTTTAAAGCCCCACTGGTCGCGCAG +AACATCTTTCAGCAGCCAGGAATCGGAGGTGGCTGGCGTGCCGTTCAGCGAGTTCAGCGCCACCATCACC +GCGCCGCTGCCTGCGTCCAGCCCCGCTTTGTACGGCGGCATATAATCATTAAACAGGCGCTGCGGACTCA +TATCGACGGTGTTGTACTCTTTACCGCCTTCTACCGCGCCGTATGCGGCAAAGTGTTTGACGCTGGTCAT +CACCGAGTAGCGATCTGCCGGGCTTTTACCCTGCATCGCTTCCACCATGGTTTTACCCATTGTTGAGGTG +AGATACGTATCTTCGCCAAAACCTTCGGAAGCACGTCCCCAGCGCGGATCGCGCGAGACATCGACCATCG +GTGCCCAGGTCATATTCAGGCCATCATCTGCCGCTTCATAAGCAGAGACACGTCCGACCGTTTTCACTGC +ATCGAGGTTAAAAGACGAGGCCAGACCGAGGCTAATCGGGAACACCGTGCGCTGACCGTGCAGCACGTCG +TAAGCAAAGAAAAGAGGAATTTTCAGGCGGCTTAATTCCATCACCTGATCCTGCATGGCGCGGATATCCT +GACGGGTTACGGTGTTGAAAATCGCCCCAACCTGACCGTCTTTGATCATCTCGCGGATCGCCTCTTTCGG +GTTATCCGGGCCGACGCTGATTAAGCGCAGCTGACCAATTTTCTCATCAACTGTCATTTTCTTAAGCAGT +TCGGTGACGAACGCATCCCGCGCTTCGGGCGTTAATGGATGGTTGCCGAATAAATCATCCGCCAGTGCTG +GCTGCAGGGCCAGACTCACCGCGATTCCTACTGAACATAGCCATTTCATATGGATTTTTCTTCCTTTGTT +GCCCGACGTGGCAGCGAAAATGGTGCAAAAACCGTAGTTTGCCATAAGCATGATGGAGAGAGAAAAAGAA +TGCTCAGTTTATTGTCTGAATTTTCAAAATATTCACTCGCTGAATTGTTATACAAGGCGCTATTCTAGTT +TGTGATATTTTTTCGCCACCACAAGGAGTGGAAAATGTCTTCCATGACAACAACTGATAATAAAGCCTTT +TTGAATGAACTTGCTCGTCTGGTGGGTTCTTCACACCTGCTCACCGATCCCGCAAAAACGGCCCGCTATC +GCAAGGGCTTCCGTTCTGGTCAGGGCGACGCGCTGGCTGTCGTTTTCCCTGGCTCACTACTAGAATTGTG +GCGGGTGCTGAAAGCCTGCGTCACCGCCGACAAAATTATTCTGATGCAGGCCGCCAATACAGGCCTGACC +GAAGGATCGACGCCAAACGGTAACGATTATGATCGCGATGTCGTTATCATCAGCACCCTGCGTCTCGACA +AGCTGCACGTTCTTGGCAAGGGCGAACAGGTGCTGGCCTATCCGGGCACCACGCTCTATTCGCTGGAAAA +AGCCCTCAAACCGCTGGGACGCGAACCGCACTCAGTGATTGGATCATCGTGTATAGGCGCATCGGTCATC +GGCGGTATTTGTAACAACTCCGGCGGCTCGCTGGTGCAACGTGGCCCGGCGTATACCGAAATGTCGTTAT +TCGCGCGTATAAATGAAGACGGCAAACTGACGCTGGTGAACCATCTGGGGATTGATCTGGGCGAAACGCC +GGAGCAGATCCTTAGCAAGCTGGATGATGATCGCATCAAAGATGACGATGTGCGTCACGATGGTCGTCAC +GCCCACGATTATGACTATGTCCACCGCGTTCGTGATATTGAAGCCGACACGCCCGCACGTTATAACGCCG +ATCCTGATCGGTTATTTGAATCTTCTGGTTGCGCCGGGAAGCTGGCGGTCTTTGCAGTACGTCTTGATAC +CTTCGAAGCGGAAAAAAATCAGCAGGTGTTTTATATCGGCACCAACCAGCCGGAAGTGCTGACCGAAATC +CGCCGTCATATTCTGGCTAACTTCGAAAATCTGCCGGTTGCCGGGGAATATATGCACCGGGATATCTACG +ATATTGCGGAAAAATACGGCAAAGACACCTTCCTGATGATTGATAAGTTAGGCACCGACAAGATGCCGTT +CTTCTTTAATCTCAAGGGACGCACCGATGCGATGCTGGAGAAAGTGAAATTCTTCCGTCCGCATTTTACT +GACCGTGCGATGCAAAAATTCGGTCACCTGTTCCCCAGCCATTTACCGCCGCGCATGAAAAACTGGCGCG +ATAAATACGAGCATCATCTGCTGTTAAAAATGGCGGGCGATGGCGTGGGCGAAGCCAAATCGTGGCTGGT +GGATTATTTCAAACAGGCCGAAGGCGATTTCTTTGTCTGTACGCCGGAGGAAGGCAGCAAAGCGTTTTTA +CACCGTTTCGCCGCTGCGGGCGCAGCAATTCGTTATCAGGCGGTGCATTCCGATGAAGTCGAAGACATTC +TGGCGTTGGATATCGCTCTGCGGCGTAACGACACCGAGTGGTATGAGCATTTACCGCCGGAGATCGACAG +CCAGCTGGTGCACAAGCTCTATTACGGCCATTTTATGTGCTATGTCTTCCATCAGGATTACATAGTGAAA +AAAGGCGTGGATGTGCATGCGTTAAAAGAACAGATGCTGGAACTGCTACAGCAGCGCGGCGCGCAGTACC +CTGCCGAGCATAACGTCGGTCATTTGTATAAAGCACCGGAGACGTTGCAGAAGTTCTATCGCGAGAACGA +TCCGACCAACAGCATGAATCCGGGGATCGGTAAAACCAGTAAACGGAAAAACTGGCAGGAAGTGGAGTAA +AAATTACGGATGGCAGAGTATCGCCATCCGAATTCACTTAATCGTTCTGTGCCGTCTGCCCCGCCGCCGC +CATTTGGGCGGCTTTTTGTTTTTTATAGCTCAACGCTGCTGCCGGCACAGGCATCACTTTACCGGTTTCA +ATCCAGGTACGCAGGCGGCTGGCATCGGCAAAATGGGTATATTTGCCAAACGCGTCCATCACTACCAGCG +CCACCGGTTTATTATTGATAACCGTACGCATCACCAGACAATGGCCCGCCGCATTGGTAAAGCCGGTTTT +GGTTAACTGAATATTCCAGTTATCGCGATACACCAGATGATTAGTATTGCGGAACGGCAGCGTATACGTC +GGATTAGAGAAGGTTGCCATATCTTCCCGGGTAGTACTTAACTGCCCGATCAACGGATATTGTTTGCTGG +CAATGAGCAGTTTGGTTAAGTCACGGGCAGTTGAAACGTTATGCACCGACAATCCGGTAGGTTCAACAAA +GCGCGTGTTGTTCATTCCGAGCGATTTCGCTTTCGCATTCATTGCCTTAATAAAGGCTTTGTAACCACCG +GGATAATGGTGCGCAAGGCTTGCCGCCGCGCGGTTTTCTGAAGACATCAGCGCCAGCAACAGCATATCTT +TACGGCTGATTTCGCTATTCAGTCGTACGCGCGAATAGACCCCTTTCATCTCCGGCGTCTGGCTGATATC +CACTTTTAGTTTTTCATCCAGCGGCAGTCGTGCATCCAGCACAACCATCGCGGTCATTAATTTGCTGATA +GACGCAATCGGACGCACCAGATCCGGGTGGTTCGAATAGATCACTTTGTTGGTATTCAGATCAACAATCA +TCGCGCTACCGGAGGCAATTTCCGGTTGTGAAGCGGTGGTAGCGGCTGCCGTTTTCGCAACGGCCTGCGG +TGCAAAAGGCACAGCCAGCATCAGGGCCAGGCTAAATAAAGAAACTCGAAATTTCGGCATGATGAGCATT +CAGATAGTGGTTCACGCGCACGGGTTGCGCACCGCCGGAGTAAGGATTTACTGAGGCTAGCGACGCCATC +ATAACGAGCAAAAAGTGCGATCGTCAAAGGAGAATCGTGAGGAAATGCTGCATTGCTGACATTTACGCCA +GCAATGCAACGTCAAAGAACTTTCTAGAACAAACGATAACCGTAGCCCCATAGTATAACGGTTAGGGCGA +GCAGCACTTCCAGTACCAGCACGCCAATCGCCAGCGTCGAACTAGAGAAGCTAAGGCCTTCCTCTTTGTT +GATATTCAGGAAGCTCGGAATACCAAGGTAAAGCAGGTAGCCGGTGTAAAACAGCGCCACCGTGCCGACC +AGCGCACACAACCAGACCAGTGGATAAAGCGCCACCAGACCGCTTAAAAACAGCGGAGTTGCAACGTAGC +CCGCGAAGACCATGCAGTGCGCAAGTGACGGACGCTGCGGATAATTACGCGCCATCCACCAGATGACCCG +CCCCATCACCGCGACCCCAGCCAGCATAACGCCGTAAAACAAGACAGCCAGCGCCAGTCCGGTAAACCAG +GATAACTTCAGGATAGTGCCATCGCCAAAATTCCAGCCAATCTGTGTAGTGCCAATGAAGGCGCAAATCA +CCGGAATCGCCGCCATCAGCAAAACGTGGTGGGTGTAATGGTGAGAAATCGTTTCGTTTTCGCGATTAAT +CACCTGCATTTCACGATCGGGATGGGAAAACAGTCCCCAGACATGGCTCATACCGCCCCCTTGTTGTGAG +TTCATGAACCTGACAGTTCAAGTATAAGTCAGCTTGTGATTATTTTTTGTTCGCCCATGTAATTTTCACT +GTCTGATGAACGTCCTTTTTCAGCGTGAATGATTCACAGGGTGTATGCTTACTGGCAACCAAAGGGAGAC +AGACTGGCCTATGGATCTCAATACACTTATCTCACAATATGGTTATGCCGCGCTGGTGATCGGTAGCCTG +GCGGAAGGTGAAACCGTGACTTTGCTGGGAGGCGTTGCGGCGCATCAGGGGCTATTAAAGTTCCCGCTGG +TGGTACTTTCTGTGGCGCTTGGCGGCATGATTGGCGACCAGGTGCTCTATCTGTGCGGGCGGCGGTTTGG +CGGCAAGCTGTTACGCCGTTTCTCGAAACATCAGGATAAAATTGAGCGGGCGCAGAAACTTATCCAACGC +CATCCGTATCTGTTTGTCATTGGTACGCGCTTTATGTATGGCTTTCGGGTGATTGGCCCGACGCTGATTG +GTGCCAGCCAGCTGCCGCCGAAAATCTTTCTGCCGCTGAATATTCTCGGCGCATTTGCCTGGGCGTTGAT +TTTTACCACTATTGGTTACGCTGGTGGTCAGGTGATTGCGCCGTGGTTGCACAATCTCGACCAGCATTTG +AAGCACTGGGTCTGGTTGATTCTGGTCGTGGTTCTGGTGGTGGGCGTGCGCTGGTGGCTGAAACGACGCG +GGAAGAAAAAGCCGGATCATCAGGCGTAAAACCATTGCCCTGGATAAGGCGTTCGCGCCGCATCCGACAT +CCGGAGTACCATGCCTGATACGACGCTTGTGCGTCTTTTCATGCCGACCAAAATATTACCCAATGAAATA +TCCACGCACCTCACTGCGCTATTCTGGGTTGAACTGTGGATTCGCCAACATAAAGCCGCCATCCACTATC +AACGACTGCCCGGTGGTGTAATTTGCGCCCTCCGAACAAAGCCACACCACCAGGCTGGCAATCTCATGCG +TTGCGCCAAAACGCCGCAAGGGAATCGAAGGCTCCGCGTCGGGCTTCACGTCGCTGTCATCCATGCCATT +CATTGGCGTGGCGATCGCCCCAGGCGCGACTGCGTTCACCAAAATCTTATGCCTGACCAGCTCCAGCGCC +ATCGCTTTGGTTAACCCACCGAGCGCATGTTTAGCGGCTGTGTAGGCGCTGGCATCCGGCAGCGGCGTAT +GTTCATGTACCGACGTAATGTTGATGATGCGACCGCCCTGCCCTTGTTTCACCATCTGACGAGCCGCAAT +TTGCGAGCATAAGAATGCACCATCGACATCAACGGTAAAAATCTTGCGCCACTCATCAAAAGCCATATCA +AGAAACGGCGCTTTGGTCATTGCACCCGCATTATTCACCAGCACATCAATGCGCCCCAGCCGTTGAATGA +GTTTCTCCAGCGCCAGTGCCCCTTCTGGTAGATTGCCGAGATCCAGCTGCACGATCTCCGCACGTACGCC +GTGGCTAACTACCTCACGCGCGGTATCTTTTGCCCCTTCTTCATCTGAGTGCCAGGTAATACCAATATCA +AACCCCTGCTGCGCCAGTAATAACGCGCACTCTTTGCCGATCCCCGAATCGGAGGCGGTAATAATCGCAA +CCTGTGCCATCGAGTTCTCCACTTAACGCTGAATAAACGTTAAGTATAGAAGGCGCATATCATCAGCGTT +TGTACCCCCCGCCCAACGCACCAGTGAGTTGAATGGAGGCATCCAGCCACTGCCCTTGCAATAACAGGCC +ATTGGCCCGCTCACGCAGCGCGGGGATTCTGGCTTCGCTGACGCGGGAACCAGCAATGATGCCCGCGTTA +AAGCGCGCCTGCGCAAGACCTACCACACGCAAGGCATCGCGCTCAATTTGCGCCTGATGCTGGTTTTTCT +CCGCCAGTGTCTGAACCTGACTGGCTGCCCGCGCCACGTCATTCACCGCTTCAACCACCGCTTTGTTGTA +GCTGGCGATAGACAAGTTGCTTTCGGCTTTTGCGATATCGAGATTGGCGTTAAGACGACCACTATCGAAA +ATGGGTAGCGTCAGGCCTGCCGTAACGCCCATTTGCTGCGCGGAATGACGGAACAGATCGCTTAAGTGCA +ACGCATCCTGTTGCAGGAAGGCCATCAGGTTGATGTCAGGATAAAATGCCGCTTTTGCCGCATCAATGGT +GCTTAGCGATGACTCAACGTACCAGTGCGCCGCCTGCAAATCTGCCCGCCGGGCCAGTAAGGAGTACCCC +AGTTCATCAGGAAGCTGGCTTGCCACTTTCGGCAACGCGACCGGTTTAAGCTTCAATGACTTTGTCTGGT +TATTTGTAAGTGCGCTTAACCGTGCCTCAATAATTTTCATTTTCCCCGCGACATCGTTGAGCTGCTGCCG +GGTTTTGCTGGCATTAATATCGGTTTCCACACCTTCAACTGAAGAAGTAATCCCGTTCTGATATAGCTGG +CGATCGGTCGCGATAATGGTGTTCTGCTCTTTTTCTATTTGCTGCAAGACCGTGTTTAACGCCGCCTGGG +TTTGCCACTCCCAGTACAGGCGGGCTACGCTGCCAGCCAGCAATTGGCGGGTTTGCTCGCGTTCCGCCGC +CCGTGCTTTAACCGTACCCAGGCGGGCAGTAACCTCCGCCCGATTCTTTCCCCAGATATCGAGATGCCAG +CCCGCCGTTAAGCCAAAAGTACCGTTGGTGTACCACGGGCCGGTCGTACCTGCGGCCGGATCGTTCAGAG +CAAACGGCCCCATTAAGCCTTCTGCCGACATTTTTTGCCGCTCCATATCCGCCGAAAAGTCGATCTGCGG +ACCATCCTGAGTGGCAACTGCCTTCGCCTGGGCTTCAGCTAGCTGAATGCGCTGTTCAGCCACCTGCATA +TCCGGTGCGTTCTGTAGTGCATTGTTAATTAAGGAAGTGAGTTGATTATCGTGATACTCCAGCCACCATT +GGCTGTCTGGCCAACCATTTTCAGCGCCGTGGGTAATGCGGTGTCAACTTGTGCAGCGGGCGTTTGCTGG +CTTAACGCCTGGCGGGTTTCATGCATAGGCGCACACCCGGCCAGCATCAGTAACAGCGGAAAACAGGCGA +TGGCTGGATAAAAGGAATCACGATTCATGGGGGAATAATCAGGTAAGAAAAGGTGCGCGGAGATTACCGT +GTGTTGCGATATATTTTTTAGTTTCGCGTGGCAATACATCAGTGGCAATAAAACGACATATCCAGAAAAA +TATACACTAAGTGAATGATATCTTCCGATTTATCTTAATCGTTTATGGATAACGGCAAAGGGCTTCGTTT +TTTCCTATACTTATTCAGCACTCACAAATAAAGGAACGCCAATGAAAATTATACTCTGGGCTGTATTGAT +TATTTTCCTGATTGGGCTACTGGTGGTGACTGGCGTATTTAAGATGATATTTTAAAATTAATTAATGTCA +TCAGGTCCGAAAATAACGAGAATATTTCAGTCTCTCATCCTGTTGCGCTCCTGTCATGTGCATTGCTTCA +TATAATCACTGGCGCAAGGAGCGCGCAGGGGGCGGCCAATCGCCGCCGCCCCCTGCACCCCCGGGCTCTG +GCGAACAAAATCGCCGCTGCGCGGTGCCCTCGGCTTATCCCTTACGGCTACCGGGTCGGGCGCGAGGTAA +CATCCCTGTAAAACGCGCCCTCAGCCCACATCCATGTGGGCTGCCCCGGCCTTCAGGGAACGCCTCGGCA +ATTTTGACGCCACCAAACAACCGTGCGGCCTATTGATAAAGAGCTAACACATTGTCAAAAAACATCACTA +TGGTTTTTTAGAGTTTCTCGATATCAATTGCCTGAATAGCCCTTGCAATATCAGGGGAATTATTCAACAC +CCGAACATGCTGAAATAATTCCGTTGCTTCATCGTATTCTTTACGCAAATAACTCAACCACTGTTTAATC +CGCGCAACGTGATATAACCCGGTATCGCCCTGCTTTTCCAGACGGGTATATTTTTGCAGCAAAGCAACCA +CCTCCGGCCACGGCATTCGCGGTTCGTTATATTTTACCACCCGGCTCAGGTTGGGAATATTGAGCGCCCC +GCGACCAATCATCACTGCGTCGCAGCCGCTGATCGCCATGCATTGTTGCGCGCTCTGCCAGTCCCAGATT +TCACCGTTGGCAATCACCGGAATATTCAGCCGCTGGCGAATATCGCCAATCGCCTGCCAGTCAATATGCT +CCGCGCGGTAACCCTGCTCTTTCGTCCGCCCATGCACCACCAGCTCCGTAGCGCCAGCCTGTTGAACCGC +ATCGGCGATTTCAAATTTCTTCTCACCGCTGTCCCAGCCCAGACGCACTTTCACGCTGACGGGCAAATGC +GCCGGTACAGCTTCACGCATCGCTTTTGCACCCTGGTAGATGAGTTCAGGATCTTTGAGTAACGTCGCCC +CGCCGCCGCTACCGTTAACCGTTTTCGACGGGCAGCCGCAATTGAGATCCACGCCCCAGGAACCTAACTC +CACCGCACGGGCGGCGTTCTCTGCCAGCCATTGTGGGAACTGACCTAACAACTGCACGCGCACCAGCGTA +CCAGATGGTGTCCGGCTGGCGTTTTGTAGCTCAGGGCAAATGCGATGAAAGACTTTTACCGGCAGCAGTT +GATCCACCACGCGGACAAACTCGGTGATGCACAGATCGTAGTCGTTAACTTCGGTCAGCAATTCACGCAC +CAGAGAGTCAAGCACTCCCTCCATCGGTGCCAGTAACACACGCATATCATCACCCGCAAAAAAATGAGGC +GCTATGTTAGCGCCTATGGTCAGCGGATTAAAGGTCTGCAAAGAGGGATTGCTGCAAACTGCAATCCCTC +TCTATGCTTGATGTATGCCTGAGTTCGCTGCGCATTGCGTAATGCCGGGGAGCGAAAAAATAAGCGCTGA +TTTCTTAATGTGATCGGTAGCACGTTTTACGAATTAATTGTATGATGAATCCATCTCATCTGGGGTGTTG +ATTATGAGTAAGACACTGAACATTATCTGGCAATATTTACGCGCTTTCGTCCTGATTTATGCCTGCCTGT +ATGCAGGCATTTTCATTGCTTCCCTGCTACCGGTAACCATTCCGGGCAGCATCATCGGGATGCTGATCCT +GTTTGTCCTGCTGGCCTTGCAAATTCTTCCGGCAAAATGGGTCAATCCGGGGTGCTACGTACTGATTCGC +TATATGGCGCTATTGTTTGTGCCGATTGGCGTAGGCGTCATGCAATATTTTGATTTGCTCCGCGCACAGT +TTGGCCCGGTAGTGGTTTCCTGTGCAGTCAGTACGCTGGTGGTTTTTCTGGTGGTGAGCTGGAGTTCGCA +ACTGGTACACGGTGAACGTAAAGTCGTAGGTCAGAAAGGATCAGAAGAATGATGGCGAATATCTGGTGGT +CATTACCGCTGACATTGATTGTCTTTTTTGCCGCCCGCAAACTGGCGGCACGGTATAAGTTTCCCTTGCT +TAACCCGTTGCTGGTAGCAATGGTGGTGATCATTCCTTTTTTAATGCTGACTGGCATCTCTTACGACAGC +TACTTTAAAGGTAGCGAAGTGCTAAACGATCTGCTGCAACCGGCGGTCGTCGCGCTGGCCTATCCTTTAT +ATGAGCAGCTACACCAGATCCGCGCGCGCTGGAAATCGATCATCACCATCTGTTTTATCGGCAGCGTGGT +TGCGATGGTGACGGGGACTTCCGTGGCATTGTTGATGGGCGCTTCACCGGAAATCGCCGCGTCAATCCTG +CCGAAATCAGTCACCACGCCTATTGCAATGGCGGTTGGCGGCAGTATTGGCGGTATTCCGGCAATCAGCG +CAGTTTGCGTGATTTTCGTCGGCATCCTCGGCGCGGTATTTGGCCATACATTGCTTAATGCGATGCGTAT +TCGTACCAAAGCTGCGCGCGGTCTGGCAATGGGGACTGCCTCGCACGCCCTCGGTACGGCGCGCTGCGCC +GAGCTGGATTATCAGGAAGGTGCATTTAGTTCGCTAGCGCTGGTGTTATGCGGGATAATTACTTCGCTGA +TCGCACCGTTCCTTTTCCCGATTATTCTGGCAGTAATGGGCTAAAATTTGCGATGCGTCGCGCATTTTTG +ATGTATGTTTCACGCGTTGCATAATTAATGAGATTCAGATCACATATAAAGCCACAACGGGTTCGTAAAC +TGTTATCCCATTACATGATTATGAGGCAACGCCATGCATCCACGTTTTCAAACCGCTTTTGCCCAACTTG +CGGATAACTTGCAATCTGCACTGGAACCTATTCTGGCAGACAAGTACTTCCCCGCTTTGTTGACCGGGGA +GCAAGTCTCATCGCTGAAGAGCGCAACGGGGCTGGACGAAGACGCGCTGGCATTCGCACTACTTCCGCTG +GCGGCGGCCTGTGCGCGTACGCCATTGTCGAATTTTAATGTTGGCGCAATTGCGCGCGGTGTGAGCGGAA +CCTGGTATTTCGGTGCCAATATGGAATTTATTGGTGCGACAATGCAGCAAACCGTTCATGCCGAACAAAG +CGCGATCAGCCACGCCTGGTTGAGTGGTGAAAAAGCGCTTGCAGCCATCACCGTTAACTACACGCCTTGT +GGTCACTGCCGTCAGTTTATGAATGAACTGAACAGCGGTCTGGATCTGCGTATTCATCTGCCGGGCCGCG +AGGCACACGCGCTGCGTGACTATCTGCCAGATGCCTTTGGGCCGAAAGATCTGGAGATTAAAACGCTGCT +GATGGACGAACAGGATCACGGCTATGCGCTGACGGGTGATGCGCTTTCTCAGGCAGCGATTGCGGCGGCA +AACCGTTCGCACATGCCTTACAGTAAGTCGCCAAGCGGTGTCGCGCTGGAATGTAAAGACGGTCGTATTT +TCAGTGGCAGCTACGCTGAAAACGCCGCATTCAACCCGACTCTGCCACCGTTGCAGGGAGCGTTAATTCT +GTTGAATCTCAAGGGTTATGATTACCCGGATATCCAGCGCGCGGTTCTGGCAGAAAAAGCCGATGCGCCG +TTGATTCAGTGGGATGCCACCTCCGCAACGCTGAAAGCTCTCGGCTGTCACAGTATCGACCGAGTGCTTC +TCGCTTAAGCCTGGTGCCGGATGCGGCGTGAACGCCTTGTCCGGCTTGCCAGCCCTCTCCTGGTGTCGAA +ATTCCCGGCAAACAGTTTGCCGTTTCTTGCGCAAAACCAGCGGGTAAAGTAGCCTGATGGAAATTTTCCT +TAGATCGAGTCTCCTGCATGTTAAAGCGCGTGTTCCTCAGCCTGTTAGTCCTGATCGGCTTGCTGCTGTT +GACTGTGCTCGGCCTCGATCGCTGGATGAGCTGGAAAACCGCGCCTTATATCTACGACGAATTGCAGGAT +CTCCCCTACCGCCAGGTCGGTGTGGTGCTCGGAACAGCAAAATATTATCGTACTGGCGTAATTAATCAGT +ATTATCGCTACCGCATTCAAGGAGCGATTAATGCCTATAACAGCGGTAAGGTAAATTATCTATTACTGAG +CGGCGATAACGCATTGCAAAGTTATAATGAGCCGATGACCATGCGCAAAGATTTAATCGCTGCTGGTGTC +GACCCATCAGATATTGTTCTCGATTACGCAGGCTTTCGTACGCTGGATTCCATCGTGCGTACACGCAAAG +TTTTCGATACTAATGATTTCATTATTATCACCCAACGTTTCCACTGTGAGCGAGCATTATTTATTGCGCT +GCATATGGGGATTCAGGCTCAGTGTTATGCCGTACCGTCACCGAAAGATATGCTGTCAGTACGTATTCGT +GAATTTGCCGCCCGTTTCGGTGCGCTGGCTGACCTTTATATTTTTAAACGTGAACCGCGTTTTTTAGGGC +CGCTGGTCCCTATTCCGGCTATGCACCAGGTACCGGAAGATGCGCAGGGGTATCCCGCCGTCACACCCGA +ACAGTTACTTGAATTACAAAAGAAACAAGGAAAGTAGTTATGGATGTACAGCAGTTTTTTGTCGTTGCCG +TTTTTTTCCTTATCCCGATATTTTGTTTCCGCGAAGCATGGAAAGGCTGGCGCGCAGGCGCGATTGATAA +ACGGGTTAAAAATGCACCGGAACCGGTGTATGTCTGGCGAGCAAAAAATCCCGGACTCTTTTTCGCTTAT +ATGGTGGCATATATCGGCTTCGGAATTTTATCTATCGGCATGATTGTTTATCTTATTTTCTATCGTTAAT +ATTCCCCTCTCCAGTTAATTATTGAGAATAATTATTACTTCACCTGATAAGCTGCGGATATCACATTCCT +AACCGCAGCTATTTGTGAATCTTTTCACAGTTTAAATTCCCCCGCACGCTTAGCCTTAATATCAGTACAT +TATTATTTACTAAACGCTCGCCTTAATTACCTATAGCATTAAGGAAGATCACATGCCGCAACAAAATTAT +CTGGATGAACTCACTCCGGCTTTTACGTCTTTACTGGCGATTAAAGAAGCCTCTCGCTGTTTATTATGTC +ACGACGCTCCCTGTAGTCAGGCTTGCCCGGCACAGACCGATCCGGGGAAATTTATTCGCTCAATCTACTT +TCGTAATTTTAAAGGCGCTGCCGAGACAATTCGCGAAAATAATGCCCTCGGTGCCGTTTGTGCCAGAGTG +TGCCCGACGGAGAAATTATGCCAAAGCGGTTGTACCCGTGCCGGTGTTGATGCTCCCATTGATATCGGCC +GCTTACAGCGTTTTGTTACTGATTTTGAACAACAAACCGGAATGGAAATTTATCAGCCCGGTACTAAAAC +GCTCGGCAAAGTCGCGATTATTGGCGCAGGTCCTGCCGGATTGCAGGCCAGTGTGACACTGACAAACCAG +GGTTATGACGTCACGATTTATGAGAAAGAAGCGCACCCCGGTGGCTGGTTGCGTAACGGTATTCCGCAAT +TCCGGTTACCGCAATCAGTGCTGGATGCAGAGATCGCCCGTATTGAAAAAATGGGCGTGACCATTAAGTG +CAACAACGAAGTCGGTAACACACTCACCCTTGAGCAGCTGAAAGCAGAAAACCGCGCGGTACTGGTCACC +GTGGGGTTATCAAGCGGTTCCGGGCTACCGCTGTTTGAGCATAGTGACGTTGAGATTGCCGTCGACTTCT +TGCAACGTGCACGACAGGCGCAAGGCGATATCAGCATTCCACAAAGCGCATTAATTATCGGCGGCGGTGA +TGTCGCGATGGACGTAGCCAGCACGCTGAAAGTTCTCGGCTGTCAGGCGGTAACTTGCGTAGCGCGTGAA +GAGTTAGATGAGTTTCCGGCAAGCGAAAAAGAGTTTACCAGCGCCCGGGAGCTGGGCGTTTCGATCATCG +ATGGATTCACGCCAGTAGCCGTGGAAGGCAATAAAGTCACGTTTAAGCATGTACGGTTATCGGGCGAACT +GACGATGGCGGCAGATAAAATTATTCTCGCCGTCGGTCAGCATGCCAGACTAGATGCCTTTGCGGAGTTA +GAGCCGCAGCGTAACACCATCAAAACACAAAATTACCAGACCCGCGACCCGCAAGTCTTTGCTGCTGGCG +ATATTGTTGAGGGTGACAAAACCGTGGTCTATGCCGTGAAAACCGGGAAAGAAGCCGCCGAGGCGATTCA +TCACTATTTAGAGGGAGCTTGCTCATGTTAACGAAAGATCTTTCGATTACTTTTTGCGGCGTGAAGTTTC +CCAACCCGTTCTGCCTCTCTTCTTCGCCGGTAGGCAACTGCTATGAGATGTGTGCCAAAGCCTACGACAC +AGGTTGGGGCGGTGTGGTGTTTAAAACGATCGGCTTTTTTATCGCCAACGAAGTCTCGCCGCGTTTTGAT +CATCTGGTGAAAGAAGATACCGGTTTTATCGGCTTCAAAAATATGGAGCAGATTGCTGAACATCCGTTGG +AAGAGAATCTGGCCGCCCTGCGTCGGCTGAAGGAAGATTACCCGGACAAAGTATTGATCGCTTCGATCAT +GGGGGAAAATGAGCAGCAATGGGAGGAGCTGGCGCGCCTGGTGCAAGAAGCTGGCGCGGATATGATCGAG +TGTAACTTCTCCTGTCCGCAAATGACTTCTCATGCGATGGGTAGCGATGTCGGGCAAAGCCCGGAGCTGG +TAGAAAAATATTGTCGGGCAGTGAAACGGGGTTCCACGCTGCCAATGCTGGCGAAGATGACGCCGAATAT +CGGTGATATGTGCGAAGTGGCGCTGGCGGCGAAGCGCGGCGGCGCAGATGGCATTGCGGCGATTAACACC +GTTAAATCCATCACCAATATCGATCTTAATCAGAAAATCGGTATGCCGATCGTTAACGGAAAATCGAGTA +TTTCCGGATATTCCGGTAAAGCGGTAAAACCGATCGCCCTGCGCTTCATTCAGCAAATGCGCACCCATCC +AGAACTGCGCGATTTCCCAATCAGCGGTATCGGCGGCATTGAAACCTGGGAGGATGCGGCTGAGTTTTTA +TTGCTCGGCGCAGCAACGTTACAGGTGACCACCGGCATCATGCAGTACGGGTATCGGATAGTGGAAGATA +TGGCAAGCGGGTTGTCGCATTATCTCGCCGATCAGGGATTTGATTCGCTGCAGGAGATGGTAGGTCTGGC +GAATAACAATATTGTCCCGGCGGAAGATTTAGACCGCAGTTATATTGTCTATCCCCGTATCAATCTTGAT +AAATGTGTTGGCTGTGGACGCTGTTATATTTCCTGTTACGACGGCGGTCACCAGGCGATGGAATGGAGCG +AGAAAACCCGCACACCGCATTGTAATACCGAGAAATGTGTGGGTTGTCTGCTTTGTGGTCACGTCTGCCC +GGTGGGTTGTATTGAGCTCGGGGAAGTGAAGTTTAAGAAAGGCGAGAAAGAACACCCGGTAACGTTGTAA +AACCAGAGACGCATCCGGCATTTGGTTCCTGTCGCCGGATGCGGCTTGAACGCCTTATCCGGCCTACAAA +ACCATACAAATCAGTATGTTGAGCTTATTGTAGGCCGGATAAAACGCGCCAGCGTTGCATCCGGCATTTG +GCTCCTGTTGCCGGATGCGGCGTGAACGCCTTATCCGGCCTACAAAACCACACAGATCATGATGTTATGT +GCGTTTATGACCGAATGCGGACCACATTCACATCATTTCTTACGCGCGTATTTCAGTGAATCCAGCGCTA +CGGCGAAGATAATAATCGCCCCTTTGATGATGTACTGCCAGTATGGGTTTACGCCGATATACGTCAGGCC +ATAGTTGATGACGGTAAAAATAATTACCCCGGTCACCACGCCAATCACCGTCCCCACACCGCCGCTGAAC +GATACACCGCCTACCACGCACGCCGCGATAGCATCCAGCTCATACATAAAGCCGAGGTTGTTGGTGGCAG +AGCCGATACGTCCGGCTTCTAACATCCCGCCAAAGGCATAGAACACGCCAGACAACGCGTAGATCATCAG +CAGGTTCAGGCCGACGTTGACACCAGATACTTTTGCCGCTTCCGGGTTACCGCCAATGGCAAAAATGTTC +TTACCGAAGCGGGTTTTGTTCCACAACACCCAGACGAACGCCACCGCAATCAACGCGTAGAAGGTGATGT +AAGAGAGACGGAAACTCCCCAGCGCGACAAAGCCCTGAGCAAAGGTAGAGAAGCCACTGTCAAAACCAGA +AATTGGCGACGCCCCGACAAAGTCGTAATAGAGCGAGTTGATGCCATAGACGATGATCATCGTGCCGAGC +GTGGTAATGAACGGCGTCACGTTGAGATAAGCGATAATCAGACCGTTGATCAAACCGATCACCGCACCAA +TGGCACAGACAATCAGAATAACCAGCGCAATCGGCATCGTCGCCATTTCCGGGAACACTTTGTTGGCGTT +ATCCATGGACTGCAATAATGTCGCAGCCACCACTGCCGCCAGCCCTACCTGACGACCAGCAGAAAGATCG +GTCCCCTGGGTGACAATTAACCCTGCCACACCGAGCGCGATAATAATACGCACCGATGACTGGGTGAGAA +TATTACTTAAGTTCAACAGACTTAAAAATGTTGGGTCCTGGAAAATAATAATCGCCAGCAAAACTAAAAG +AACGACGTAAATACCGCCCTCTTTCAGGTAAGTAAGAAAACTTTTCTTATTTAACGCACTCATGGGAAGC +CCCTAATCTTAAAGGTGCAAAGACGCAAGACGCAGAATTTCGTTTTGCGTTGTTGTTTTTGTATCGACAA +TTCCGGAAACGAGACCATTGCTCATGACCAGAATACGGTCTGTTATCCCTAACAACTCAGGCATTTCAGA +GGAGATAATAATAATCCCCTTGCCTTTCTTCGCCAGTTCGGCAATTAACTGATAAATTTCAAACTTCGCC +CCGACATCAATACCGCGCGTCGGTTCATCGAGCATTAATATTTCTGGTTGCGTTAGTAGCCAGCGACCAA +TAATCACCTTTTGCTGATTACCACCGGAGAGCGAACCAATTTGCGTCCGATGACCCGGCGTTTTTACCCG +CATCGAATCAATCACCCACTGGGTATCGCTTTTCATCCGCGAGTTATCCAGTAAACCAACTTTATTTTTG +TAGTTGCGAATATTGGAAATTAACGAGTTAAAACCAATATCCAGATAGGCATAAATTCCCGTTGAGCGGC +GCTCCTCAGTTACCAGTGCAAATCCATGGTTTATGGCTTCGTTGGCATTATGGTTATTGATCTGTTTGCC +GTGCAACGTTATGGTGCCAGCCGATTTCTCGCGAATACCAAATAACGTCTCAACAATATCGGTACGTTTC +GCCCCCACCAGACCGGCAATACCGAGGATCTCCCCTTTATGCAGATCAAACGAGACATCGCGAATCGACG +GCTGGCGCAGTGACGTCAGGTTACGTACCTCGAGGATGACTTCGCCCGGTTTGTTTTCTTTGTCAGGGAA +ACGCTGGTTAAGAGAACGCCCAACCATCATGGCGATGATCTTGTCCATCGTCAGTCCTGCCAGCGGTTCG +GTGGCGATCCACTGACCGTCGCGCAATACGGTAACTTCATCACATAACTGGAAGATTTCTTCCATTTTAT +GCGAGATATAAACAATACCGCAGCCGCGCTCTTTTAATTTACGAATAATAGTGAACAGATGATTGACCTC +TTTTTCGGTTAACGAAGAAGTCGGTTCATCCATAATCACAATTTTCGCGTTATAGGAAAACGCTTTGGCG +ATTTCGATCATCTGCATTTGCGAAACGGATAATGTGCCGACGCGCGCACGCGGATCGATATCAATATCCA +GTTCGTCAAAAATCGCTTTGGTTTCGCGGTACATTTTGTCCTGATCGACAAACATGCCTTTGGTGGGATA +TCGCCCCAGCCACATGTTATCCATCACCGAACGTTGTAATACCAGGTTTAACTCCTGGTGTACCATCGAA +ATACCATTTTCCAGGGCTTCTTTTGCAGAATGGAAATCGATCTCTTTACCCTGGAATAAAATGGTGCCGG +AGTCTTTTTGATAAATACCAAACAGGCATTTTAATAATGTCGATTTTCCTGCACCGTTTTCCCCCATTAA +TGCATGGATAGAATGTGGCCGGACTTTTAAATTAACGTTATCAAGTGCCTTAACACCAGGAAAGGACTTG +TTGATACCGCTCATTTCCAACAAGTATTCCCCGGAGGACGGAGTCGTTGAGCTGACCATATAATTTTACC +TTGTTGGCCATACAATAAGGGCGCAGTAATAGACTGCGCCCAATCAGTCTTATTTCTTGCTGAATTCAGC +CAGGTTGTCTTTATCTACGCCAACATAAGGTACGCGGACCACTTTGTTGTCGATTTTCCAGTTGGTGCCA +TCAGCCGCACCTTTACCATCGGCCAGGTTTTTCGCCAGATCAAAGGTCGCTTTCGCCTGGTTGTTAGCAT +CGTTCAGTACGGTGCCCGCCAGTGCACCGGATTTCACCAGCGCCAGCGCTTCTGGCAGCGCATCGACGCC +AAACACCGGAATGCTGGACTTGTTGTGTGCTTTCAGCGCTTCAACCGCGCCCATTGCCATCGCATCGTTG +TTGGCGATAACCACTTCGATTTTGTTGGCGTTCGGGCCAGACAGCCAGGCGTCCATCTTATCTTTCGCCT +GAGCGGTGTCCCACATTGCGGTATCTAACTGTAACTGTTCAGTTTTGATGCCTTTATCGTTCAATTCTTT +AATCACGTAAGTGGTACGTGCTTCTGCATCCGGATGGCCCGGTTCACCTTTCAGCAGTACGAACTGAATC +TGACCGTCTTTGTTCAGATCCCAACCCTGATTCGCCGCCCAGTGTTTAGCAATCAAATCGCCTTGAATAA +TGCCGGACTCTTTGGAGTCAGTGCCAACGTAGTAGGCTTTGTCGTAGCTATCCAGCGCCTTACGAGACGG +TTCTTTGTTGAAGAAAACCACCGGCACGTTTTGCCCACGCGCTTTCTCAATCACCGTACCCGCAGCTGCC +GGGTCAACCAGGTTGATTGCCAGTGCCTTCACCCCTTTCGCCAGCAATACGTCGATCTGATCGTTCTGCT +TGGACTGGTCATTCTGAGAATCATTCATCAGCAGCTGAACATCTGGCGCGGCTTTCGCATCTTGCTCAAT +AGCCTTGCGCACTACAGACATAAAGTTATCGTCGTACTTATAGATTGTTACACCAATGCGAGTATCAGCA +GCGTGTGCAGCGGCACCGAATAACATGCTGGCCATCACAGCAGACAGGGTTAACACCTTCTTATTCATGG +TATCTCCGGTTTTTCTTATGCAGGGTAGTGCTTGAGATAAATGCTCGGCGGGGCAGTAGAGTTAATGAAG +TGTTACTGAACGCCGAAGCTCACTTTTTAAAATTCGTTCTTCCATGCCCGGTAACGCTCCAGAAAACGGC +TTTAATTGTTGTTATGACGCTGTTACCTCGGCAAAAGTGATTATTCACTGTTACATACGGGTTACAACGT +TAAAACGGTGCAATCATAGCTATCACATTGTTAAGATACTGTGAAATCACTCACAGATTGAAAGCGGTTA +CATCGCCTGATTTGTTGAGTTAGTGATCGCCGCCGCATTCTGGCGTGTTGCGACAGAATGGCGACGCACT +AACGTCGGCATAAAACAGTGGCTGGCACGAGGATCAATATTGCCTGCTGCCCCCTGCAAGGCCAGTTCGG +TGGCTAATTTCGCCATTGAAGCAATGGGATAACGCACGGTCGTTAATTGCGGGTCGGTGTAACGGGCGAT +GGGAATATCATCGAAACCGATGATTGAGAGATGTAACGGAATCGCAATGCCATTATCTTTTAATGCTGTC +AGTGCGCCAGCGGCCATATTGTCGTTATAAGCAAATACAGCGGTAAGTTGTAGATTGCGCCCCAGCAGTT +CAACCATCGCCGCCTCACCGCCCGGCATGTCCGGCGTACCAGCGCCAATCCAGCTTTCCGGCGGAATAAT +ATCCTGCTCTTTCAACGCACTCATCCAGCCTGCTTTACGCATGGCGTCATCTTCAATGCCGTGGCTGGAA +GAAAGATAACCAATACGTTGATGACCGTTATTCAGCAACATGCGCGTCGCCATTCGGGCACCGCTGAGAT +TATCCAGGCAAACGCAACGATGGGCGTACCCCGGCACAACGCGGTTGATTAACACCATACCGGGAATGTT +ATCCATAAATTGCGCCAGTTCATCGTCACTCAATGCTTTTGAGTGAACAATCAACGCATTACAACGCTGG +CGAATTAACACCTCAATGGCGTGACGCTCTTTTTCCGCTTCATGATAGCTATTGCCGATTAGCACGTATT +TCTGATGCTGCTGAGCGACCAGATCCACCGCTTTTACCAGCGCGCCGAAAAACGCATCAGAAACGTCCAT +CACCACCACGCCAATGGTGTCGCTAACCTGAGTTGCCAGCGCCTGGGCATTGGCGTTTGGCCGATAATCC +AGCTCACTCACGGCTTTCATTACTGCTTCACGCGTGTCGGCACTGACCAGCGTGCTGTTATTGAGCACCC +GGGAAACCGTTGCCACAGAGACGCCAGCCTGACGCGCTACATCACGAATGGTGATCATATTCACTACCTG +TTATGAGATTGCAGTAAATGACTGCTTGCTGGCGGCTATTTTGTCAGCACTGAATACAGGACTTCGTGAA +TCGAGTCACAGCAATGGAAACGGTTACAGCCGTTTTGTTAACGAATGTGATCCAGATCGTTATCTTGATG +TTTTAGATATTGCCGGTCCGGCAGCACGCAAAGTTAACTGACGCCAGAGCCATTCCACCGGCCCCTGGCG +GAAGTAACGCAGCCAGATAACAGAGAAGAGGATATTCGCCAGCCATACCGGAATAACAAACGCCAGCAGC +TCCAGGCGGTCAAAATGCATAAACAAACCGAGGTGGTAAAAAAGCGTGGTACAAATCAGCGTTTGCAATA +GATAGTTGGTCAGCGCCATCCGTCCGACGCAGGCGATCGCAAGCACCAGCTTAAAGCGGCTCAATTGCGG +CCAGAAGCCATAAAACAGCGACGCATAGCCAATCGCCTGAAACGGCGCACTCAGTTCCCGCGGCATTTGA +AGTAAGAAGGCACACCAGCGATACGCCCAGTCCAGCTGCCATTGCAGGGCGATGGCAGGAAGGTTAATGG +TCACCCCAATCGCCACCAGCACAAAACCAGTACGACGATAGTGACGTAAGCTGAACTGCCCTTTCAGCCA +GCCGCTGCGCATCAGCGCCGCACCAATGAGCATCATCCCTGCCAGTTGCCAGCCATACTGTGCGCCCAGT +GCCAGTAAACTGTTGCCAACACCATCGGCACGATTACTGATCGCTTCAACGCCGCCGTGAAGCTTCCAGT +ATTTTTCATACAAAATAGCCGATGCATCCGGCGTCCAGGCGCGGCTGGTCTGGCTGTCGGAAATCAGCCC +CAATAACAGCAAAACGCCAAGCCCCACCAGATAAAGCATGACGCCTGTATTAAACAGGCTTTTTACCGAT +GGCGCATCGCGCACCAGCCGCCAGCAGATTAAGCCCACCAGCCCGTAAGCCAGCAAAATATCGCCGTCCC +AGAACAATAAACCGTGAATAAAGCCCAACAAGACTAACAGCGTTAACCGCGACTGGATCCAGCGTCTGCC +ACGGGGCAGCAACATTTGCAGGCCCGCACCAAACAGTAGCGCAAAAAGCGTGAGGAATTTCACCTGGCCG +ATGAGATCAAGAAATGCCCAAGTCCATGCATCCCGCGGCGTAATAGCACCGTACCAGGCGGGATTGAGAT +AAGCCGCCTTTGGTAGCCCAAAGGCGCTGATGTTTAATAGCAGGATCCCCAGAATGGCGACGCCGCGAAC +AAAATCGAGCGTGACGTTGCGCTCCATGGTTCCTGCCTTTTAATCAGTTGTGATGACGCACAGCGCGCAG +AAACTCGTGGCGCGTATTCTGACTGGATTTGAACAATCCACCAAGAGAGGTCGTTGTCGTGGCACTGGTT +GCATCGCGGATGCCACGCGCCTTCACGCAGTAATGCACCGCGTCGATCGAGACAGCCACGTTATTGGTGC +CCAGCAGCGTTTGTAGCGCAATAAGAATTTGCTGCGTCAGACGTTCCTGCACCTGCGGACGCTGGGCAAA +GAACTGCACAATGCGGTTAATTTTTGACAGACCGATCACCGAATCTTTCGGGATATAGGCCACCGTCGCT +TTGCCATCGATGGTAACAAAATGGTGTTCACAGGTGCTGGTCAGAGTGATATCGCGCACGGTGACCATTT +CATCGACCTTCATTTTGTTTTCAATGAGGGTGATTTTCGGGAAATTGGCGTAATCCAGACCGGAGAAAAT +TTCATCGACATACATTTTAGCGATGCGATGCGGCGTTTCCATCAAACTGTCATCAGCCAGGTCGAGATTC +AGCAGCTGCATGATTTCGGTCATATGACCAGCAATAAGGCTTTTGCGCGTTTCGTTATCCATTTCATGCA +CGGGCGGGCGCAGCGGTGTTTCCAGTCCTCGCGCAACTAACGCTTCATGAACCAGGGCCGCTTCTTTACT +GAGTGATGGCATTTATGATTTCTCCTGCAGGTGTGACGCCTCCGCCCTGCGTGGGGGCAAAGTTATTAAG +CTGATTTACAGCCTGATTATTGTGCGTGAGGCGGCGCACATAATCCAGTATTCACAGCGATAATTATTGT +AATTGCCGCTGCCTTTCATCAGCAGATGTTAAAACATCGTTATGCAAATACGGAAGTGAAAGTTACTCAC +AGCACATTGAATAAACGGTATGATGAAGAAATTGCAAACAACACAACAAGGAGCCACGCATGGAAATGCT +CGAAGAGCACCGCTGTTTTGAAGGCTGGCAGCAACGCTGGCGACACGACTCCAGTACCTTAAACTGCCCG +ATGACGTTCAGTATCTTTCTCCCTCCACCTCGTGATCACACTCCGCCACCAGTGCTGTACTGGCTTTCCG +GATTAACCTGCAATGACGAGAACTTCACCACCAAGGCGGGTGCCCAGCGGGTAGCGGCGGAACTGGGGAT +TGTACTGGTGATGCCAGACACCAGCCCGCGCGGCGAAAAGGTTGCCAACGACGATGGCTACGATTTAGGC +CAGGGCGCAGGCTTTTATCTTAATGCCACGCAACCGCCGTGGGCGACGCATTACCGGATGTATGATTATC +TGCGCGATGAATTACCGGCGCTGGTTCAGTCGCAATTTAATGTCAGCGACCGCTGCGCCATTAGCGGTCA +CTCAATGGGTGGTCACGGTGCGCTGATTATGGCGCTGAAAAATCCGGGTAAATACACCAGCGTTTCGGCC +TTTGCGCCAATTGTGAATCCGTGCAGCGTCCCGTGGGGAATCAAAGCGTTTAGCAGCTATTTAGGTGAGG +ACAAAAATGCATGGCTGGAATGGGACAGTTGCGCACTGATGTATGCCAGTAACGCGCAGGATGCGATCCC +GACGCTTATCGATCAGGGCGATAATGATCAGTTTCTTGCCGACCAGTTGCAACCTGCGGTACTGGCAGAA +GCCGCGCGCCAGAAAGCGTGGCCGATGACGCTGCGTATTCAGCCGGGATATGATCACAGTTACTACTTCA +TCGCCTCTTTTATAGAGGATCACCTGCGCTTCCATGCGCAGTATTTACTGAAGTGAAAGTCCGCCCGGTT +CGCCGGGCATCTTCTCATCAGAAGCGATAATCCACTGCCATAAAGTAACGACGTCCGTCTTCGTTATAGC +TGTAGTCGTCACGACTGAGATCCTTGTCGCCAAGGTTCAGCACGCCTGCGCGCAGTTTGACGTCTTTAGT +CACCTGCCAGGCCGCGCCGGTATTCCAGATGGTATAACCGCCCGGTGTTTTAGCCGTCGCGCTGTCGGCG +CGTTTCTGCCCGGTATAGTGCCCAGAAACATAGAATGACCAGTCTTCCAGCGCCAGCGGTTTCCAGTCCA +GCGTACCGTTAGCAGTATGGAACGGCAGATCGGATAGCGGTTTGTTTTCGCCGTTGCTGACATCACGACC +ATCGTTGTAGGTGTAGTTGATCGACAGTTTCCATTCATCGTTGAACGGAATTTTCAGTTCGGTTTCCACG +CCCTGAATACGAGCTTTGTTAACGTTGTAGTAGCTAAATACCGGTATGCGCCGTCCGTTAGCGCCCGTCT +CAAAACCAACAAAGTTTTGGTAGCCCGGTGCAGCGTTGACGTCAGACGTACGGCTGATGCTGATACGATC +TTTCACATCGTTACGGAAAACGGTAACGCTGGATTCAACCCCTTCCAGCCAGCCTTCTTCACCCATGTAG +TAAAGCCCCAGCTCCCAACTTTCGCTGGTTTCTGGTTTCAGATCCGGGCTACCCACAATCTTACATGCGC +CACGGCAGGAATTGCTCGTCCAGTCAGGGCTAAGTTGCAACAGAGAAGGTGCTTTAAATGCCGTCGCCCA +GCCCCCTTTCACCGTTACGGTGTCGGTGGCGTTATAAACCAGGTAGGCACGCGGACTCCAGTGTTCACCG +TAGGTTTCGTGATCGTCCATACGCACGCCGGTCGTCAGCGCCAGCGGCTCGAAGATCCGCCATTCATCTT +CCACAAACAGCGCGTACTGGCTGGCAGACGTTTTGGAGCTGGTTCCCCCGGTCAGGTTCACCGCATCGCT +AAGTTTGTCGTGACGCCATTCACCGCCAACCGTGAGAAACTGATTAATCGCCGTCAGCGGCAACGTGTAT +TTGCCGTCGACCGTATTGCTTTCGGAAGTTATCGGGCTGCTGTTGCCAGGGTTTTTGTTCTCGACTTTCT +CACCGTAGTATTTCAGTTCGCTGGTGCCGTAATCCCAACGCCCATTATGGCTGACGGAGTAGTTCTGGCG +TTCCAGGCGGTTTTTGTCCAGCGAGTCGGAATCACGATCCTGACGGTCGAAACCGTATCCGGCAGTAAAA +TCGTGATTTTGATTCGGTGTCCAGGCAAATTCGACATTGCCGTCGCGGCTGGAGAATCCTTCAATACGCG +GCGTTTCTCCGGTATCGGTGGTCGTTGAGTTTTGCGGGTCATCCTTTTCACGTTTTGCCAGGCTGCCGTA +AGCTTTCATTCCCAGCACACCATCAATTAATGGTCCACTGGTAAAGAACTGACCGTTATAGGTGTCACCG +CGATCGCGATGTTCCTGAATGGTGGTATCGACGGTAACGGTACCCGACCATTTCTGACCGATTTTTTTGG +TGATGATATTCACTACACCGCCGAGCGCATCGGAACCGTACAGCGACGACATCGGGCCACGGACCACTTC +AATACGTTCGATGGAATCGACCGGGATCCAGTTCAGATCGAAATCATTGTGGCGGAAGACGGCATTGCGG +GAGTTCACGCGTTTACCGTCGACGAGAATCAGGGTATAGCTGCTGTCCAGACCACGAATACTAACGCCCT +TACGGTTATCCCCTTCGTTCGTCAGTTGTACGCCAGGCACTTCTTTGAGGACATCCTTCAGATTCTGTAC +CGGTTTTCGCTGCAGGTCTTCCTGGGTAATGACGCTGATACTGGCAGGTGCATCTTTAAGATTTTGTTCC +ACGGAAGATGCAGTGACAACCATCGTTTCGCCATCATCATCGACCGCTAACACAGGCCATGCACAAGAAA +TAGCGGACAAACACAGCCCGACCCGTACGAAAGGGTTCAACCTAAACATTCCATATCTCCATGAGGTAAC +TACGAAAATAAAATGGGTTATCGCTCACATCTTCTTCACGTCCCCTTGCGTACGGCAGCATCGCGGTGGA +CTTATTTTTTATGCAGGTGATCATCCCAGAAAGCCGGAACAGCCTCTGATTTGTCAGCCTTTTTTGATTG +CGGCGTAACGATAATGCAAACGATAACAATTATCAATCCAAATGTTAAATTTTATATCCGCATGATTTGT +CAGGGAAATGGAATTGAAAAAGCCCTCTCGGTTGAGAGGGCTTAGCAAGGAAGGGAGGAAACTTATTTCT +TATCGTTCTGCGGGAACTTCATTTCGCTGTAGCGTACGAAGTGAGTTCCTTTAATCAGCTTGTAGCCGAA +CCAAATAATCAGGAACAGCGGGATACCAATATACGTTGCCGCTACGCCGCCCCAGTCAATAGTATCTTTC +AGGAACGCTTCGTAGTTCTGGCCCAAAGTGATAATCAGACACAGAATGAATGCGAAGATCGGCCCCAGTG +GGAAGAAACCTGAACGGTACGGCAGATCGTTAATGTCGTGTCCCTGCAATACGTAACCGCGACGGAAGCG +ATAGTGGCTAATGGCAATCCCCAGCCAGGCGATAAAACCCGTCATCCCGGAGGTGTTCAGCAGCCACAGG +TATACCGTCTGGTTGCCAAACATGGAGGTCAGGAAGCACAGACCGGCAATCACCGTCGTCGCATACAGCG +CATTACGCGGCACGCCACCACGCGACAGTTTAGCGAAAATGCGCGGCGCTTTACCGTCACACGCCAGGGT +GTACAGCATACGAGTAGACGCATACATACCGGAGTTACCCGCTGACAGCACCGCCGTCAGAATAACTGCG +TTCATCACCGCCGCCGCAGAGAGCAGACCCGCGTGCTGGAACACCAGGGTGAACGGACTAACGCTGATGT +CTTTAACATCGTTACGCAGCAGGCTCGGATCGGTGTACGGAATAATCAGGCTGATAATCAGGATCGCGAA +CACATAGAACAACAGGATTCGCCAGAACACCTGACGTACCGCGCGTGGAATGTTTTTCGCCGGATCTTCG +GACTCGCCTGCAGCAATACCGATCAGCTCGGTTCCCTGGAAAGAGAAGCCGACAATCATAGCTACGCCGA +TCATCGCCGCAAAACCACCAGCAAACGGCGCTTCGCCGATTGTCCAGTTGCTCCAGCCCGCAGGCTGCGC +GCCTTTGAAGATACCGATAATCATCAGCACGCCAACGATGATAAAGACAATAACTGTCGTGACTTTGATC +AGTGAGAACCAGTATTCCGCTTCACCAAAGCCACGAACTGAGATGTAGTTCAGCAGGAAGATAACGCCGA +GGAACAACGCACTCCAGATCCAGCCCGGTGTATCCGGGAACCACCAGCTCATGACCAGCTGAGCTGCAAC +CAGGTCAACGGCGATAGTCACCGCCCAGTTGTACCAGTAGTTCCAGCCCAGCGCGAAGCCAAAGCCTTCT +TCAACATAGTTCTGACCGTAAGTGGCAAACGAACCGGAAACCGGCATATATGCAGCCAGTTCACCGAGAC +TGGTCATCAGGAAGTAAACCATCAGGCCAATCAGCATATACGAGAGCAATGCCCCGCCCGGACCTGCCTG +AGAAATCGTTGCGCCAGAGGCAACAAAAAGACCTGTACCGATGGAACCGCCAATGGCAATCATCGTCAGG +TGACGCGCCTTTAATTCACGGCGTAAGCCCGGCGCTTCTGTGGTTTTAGTTTCGGAAACCATACAAAAAT +GCTATCCATCTTAAAAATGAGGCGCGATTGTAGCAGACGATTGGCAATCCTTCCGGCAGAAATACACGGT +TATAAGACACCTTCATGATCGCCCAGGGATTATAAGTAAAGCAGCCAATCTCTTTTCTGGCGAATGCATG +CTGAAGGCGCTGCGTCACGAAATCGACACAGCACCAGCATGTTCTTGTACAGCAACTTAACGCGGCACAT +TTGCGGGATCGCAATAGTCCAGAAAGCGCCGTAGCGCGTTGGAAAGGTGTTTTTGCCGATGATGTATACG +CCACAACGTACGCATCAGGCGCGGCAGAGGGACCGCAACTTCACTTAATGTGCCTGCCTGCAATTGATCT +TCAATCACACGTCGCGACAGGCAACTAATTCCCAACCCATGACGCACCGCATGTTTGATTGCCTCGGAGT +TACCTAATTCCATCGCCATCTCAAACTTCGGTAAATGTGACAGCAACAGATAATCGACAATCTCCCGCGT +GCCGGAACCGCGTTCACGCAGGATCCACGGCGCAGCGGCCAGCTGTTCTAAGGTGACCGGACCACGGGCC +AACGGCGAAGTCGGCGCGGCGAAAACCACCAGCTCGTCTTCCAGCCACGGTTCAGAAATGATTTCAGTGC +TGTGGCACGGTCCTTCAATAAAGCCAATATCAACGCGGAAATCCAGCACCGCTTGCATCACGTCCTGGCT +ATTCCCAACGCTAAGTTCAATCGGCAACTGCGGATAATCATGGCGATAACGGGCGATAACTGCAGGCAGA +ATGTAGTTACCGATGGTACTACTGGCATAGATACGAATCGCGCCGTTGTCTTCGCGAAACAGTTGTTCGA +TTTCAACCGCCTGTTCAAGCAATGCCAACGCACGCGGATAGAGCAGCCGCCCGTGTTCATTAACAACCAG +TCTTTTCCCCACGCGATCAAACAGTTGCACGCCAAGCTGCCCTTCCAGGTCGGTCAAGGCTGCGCTCACT +GCTGATTGCGACAACGCCAGCATCACCGACGCCTGGGTGGTTGATCCACTTTTCAATACTTCTGCAAAAA +CTTCCAACTGCCGGAGGGTGATGTGCATAGTCGCTTACCACTTATAAAGATTAATTATAAATATATAATC +AATTTTATTTTTAAACCAGTTAGTCGTAACCTTATGCCCGGTTAAAGGAGAGGGTTATGACGAATATCAC +CTTACAGAAACAACATCGTACACTGTGGCATTTTATTCCGGGGTTAGCCCTGAGTGCAGTTATCACCGGG +GTCGCCCTGTGGGGTGGTTCCATTCCCGCGGTTGCGGGTGCCGGGTTTAGTGCCCTCACCCTCGCAATCT +TGTTGGGGATGGTTTTAGGCAACACCATCTATCCGCACATCTGGAAAAGCTGTGACGGTGGTGTGCTGTT +TGCCAAGCAATATTTATTACGTCTGGGTATCATTCTTTATGGCTTCCGTCTGACGTTCTCGCAAATTGCC +GATGTCGGTATCAGTGGGATCATCATTGACGTGTTGACGCTGTCCAGTACCTTCCTGCTGGCTTGCTTCC +TGGGGCAGAAAGTGTTTGGTCTGGATAAGCACACCAGCTGGTTGATCGGTGCCGGTAGCAGTATCTGTGG +TGCTGCCGCGGTACTGGCGACTGAGCCGGTAGTGAAAGCGGAAGCCAGTAAAGTAACCGTGGCTGTTGCA +ACCGTTGTTATCTTCGGGACCGTCGCGATTTTCCTCTACCCGGCGATATATCCGCTGATGTCTCAATGGT +TTAGTCCGGAAACTTTCGGTATCTACATTGGTTCTACTGTGCACGAAGTGGCGCAGGTGGTGGCGGCAGG +TCATGCCATCAGCCCGGATGCGGAAAACGCAGCAGTTATTTCCAAAATGCTGCGCGTGATGATGCTGGCT +CCGTTCCTCATCCTGCTGGCGGCGCGTGTTAAACAGCTGTCTGGGGCGAACAGCGGCGAGAAAAGCAAAA +TCACTATTCCGTGGTTTGCCATCTTGTTCATCGTAGTTGCCATCTTTAACTCGTTCCACCTGTTACCGCA +GAGCGTGGTGAACATGCTGGTAACGCTGGATACCTTCCTGCTGGCAATGGCGATGGCGGCGCTGGGTCTG +ACCACTCACGTCAGCGCGCTGAAAAAAGCTGGGGCGAAACCTCTGCTGATGGCACTGGTACTGTTTGCCT +GGCTGATTGTTGGTGGTGGTGCGATTAACTATGTGATTCAAAGCGTCATCGCATAAACCACTACATCTTG +CTCCTGTTAACCCGCTATCATTACCGTTTTCCTCCAGCGGGTTTAACAGGAGTCCTCGCATGAAATACAT +TGGAGCGCACGTTAGTGCTGCTGGCGGTCTGGCAAATGCCGCAATTCGCGCCGCCGAAATCGACGCAACC +GCGTTTGCCTTGTTCACCAAAAACCAACGTCAGTGGCGTGCCGCACCGCTCACGACGCAAACCATCGATG +AATTCAAAGCCGCCTGTGAAAAATATCACTACACATCGGCGCAAATTCTTCCCCACGACAGTTATCTGAT +TAACCTCGGACATCCGGTCACTGAAGCTCTGGAAAAATCGCGCGATGCCTTTATAGATGAAATGCAGCGT +TGCGAACAGCTGGGGCTTTCTTTGCTCAACTTCCACCCTGGCAGCCATCTGATGCAGATTTCAGAAGAGG +ATTGCCTTGCGCGTATTGCCGAATCCATCAACATTGCGCTGGATAAAACTCAAGGTGTGACAGCGGTGAT +AGAAAACACCGCCGGTCAGGGCAGTAACTTAGGGTTTAAATTCGAACATCTCGCGGCGATTATCGACGGC +GTGGAAGATAAATCCCGCGTCGGCGTCTGCATTGATACCTGCCATGCTTTCGCTGCCGGGTATGATTTGC +GTACTCCAGCCGAATGCGAGAAAACATTCGCGGATTTTGCCCGTACTGTCGGCTTTAAGTATCTGCGCGG +GATGCACCTTAACGATGCGAAAAGCACCTTTGGCAGCCGCGTTGACCGCCATCATAGCCTCGGTGAAGGC +AATATCGGTCATGATGCGTTCCGCTGGATCATGCAGGACGACCGTTTCGACGGCATTCCGCTGATCCTCG +AAACCATCAACCCGGATATCTGGGCAGAAGAGATCGCCTGGCTGAAAGCGCAACAAACTGAAAAAGCGGT +AGCCTGAAGATGAATAACCGGGAAAAGGAGATCCTTGCAATTTTACGGCGTAACCCGCTGATTCAGCAGA +ACGAAATTGCGGACATGCTGCAAATCAGCCGTTCGCGCGTTGCGGCGCATATTATGGATTTAATGCGCAA +AGGCCGGATTAAAGGCAAAGGTTACATTCTCACCGAGCAGGAATACTGCGTAGTGGTGGGGACAATCAAT +ATGGATATTCGCGGGATGGCGGATATCCGTTACCCGCAATCGGCTTCTCATCCCGGTACAATTCATTGCT +CAGCGGGCGGCGTGGGACGCAACATCGCCCACAATCTGGCGCTGTTAGGCCGTGACGTCCATTTGCTTTC +AGTGATTGGCGATGACTTTTATGGCGAAATGCTCCTGGAAGAAACGCGCCGTGCCGGCGTGAATGTCTCC +GGCTGCGTTCGTTTGCATGGTCAAAGCACATCGACGTATCTGGCAATTGCCAATCGAGACGATCAAACCG +TGCTGGCGATTAACGATACCCATCTGCTGGAACAGTTGACACCGCAACTACTGAACGGGTCGCGCGATTT +ACTTCGTCATGCGGGCGTGGTACTGGCTGATTGCAACCTGACAGCCGAGGCGCTGGAATGGGTCTTTACC +CTCGCTGATGAAATCCCGGTGTTTGTCGATACCGTTTCAGAATTCAAAGCGGGCAAAATCAAACACTGGC +TGGCGCATATTCACACCCTGAAACCCACTTTACCGGAGCTGGAAATTTTATGGGGACAGGCGATCACCAG +CGATGCTGACCGTAATACCGCAGTGAATGCATTGCATCAGCAAGGTGTTCAGCAACTGTTTGTTTATTTG +CCCGATGAGTCAGTTTATTGCAGCGAAAAGGATGGAGAACAATTTTTGCTGACCGCGCCAGCGCATACGA +CAGTAGACAGTTTTGGTGCTGACGATGGTTTTATGGCGGGCCTGGTATATAGCTTTCTTGAAGGATACAG +TTTCCGCGACAGCGCCCGTTTTGCGGTAGCCTGCGCGGCAATTTCGCGCGCCAGCGGCAGCTTAAACAAC +CCTACCCTGTCTGCCGATAACGCGCTTTCATTAGTGCCAATGGTGTAACAATGTTGCCGGATGCGACGCT +TAACGCGTCTTATCCGGCCTACAAATCAGGCAATTTCAGCAAGTAAATGTAGGCCTGATAAGCTTGCGCA +TCAGGCAATGACACTCAAGCTAAACCAATAAAGAACCCGGCAATGGTCGCACTCATCAAGTTGGAAAGCG +TCGCCGCCGCCAGCGCCCGTAAACCAAGCTGGGCGATTTCCGGCGCACGGTGTGGCGCAACCGCAGAAAA +CGCCCCCACCACCACCCCGATAGAACCAAAGTTAGCGAAACCGCACAACGCGAAGGAAATAATCGCCACA +GTTTTAGCATCGAGAGTGCCAGCCGTTTGCAGATAGGGTGAGAAATTGAGATAAGCGACAAATTCATTTA +TTGCCAGTTTCTGTCCAATCAAACTCCCGGCAAGATTCGCATCACTCCAGTCCACACCCATCACCCACGC +CAGTGGAGCCAGCAGGTAACCTAAAATGGACTCCAGCGAGGCATGTTCAAAACCAAACCAGCCACCAACG +CCGCCGATAATACCGTTAATCAACGCAATTATTGCAACAAATGCCATCACCACTGTTGCCACACCTGCGG +CGATTTTCAGCCCGGTCATTGCCCCTGTCGCAGCGGCTTCAATAATGCTTTTTGGCGGTGTTTCGGTGAA +AGAGAGGTTATTAAAGGAAACCTGCGAAGATTCCGTTGCCGGGCTTAACAGGCGGGCAAACAAGATCCCG +CCAGGGATCGCCATTAATGATGCCGCCAGCAGATATTCCACAGGCACGCCCAGTGCGGCGTAACCAATCA +TTGTCGAACCAGCAATCGAGGCCATGCCACTACAAATCGCTGTAAATAATTCATTGCGATTCAGACGATC +GATAAAGGGTTTGACGATTGCCGGAATTTCGTTTTGCCCGAGGAAAATGGTGGTGACCGCGACGAATGAC +TCGATCTTGCTGATATTTAATGCTTTCTGGAAGATACCGCCGAGAATTCGAATTAAAATCCCCATCACAC +CGATGTAGTAGAGAATACTCACCAGCGCGGTGACGAAGATAATTGCCGGTAACACCCTGAAACCAAAGAT +AAATCCTGCACCATCAAATAAGGTATCCATTTTCGGTCCGACCAGAGAACCGAAGATAAATGCGCTACCC +GCGTCGCTGTACGCCATCACTTTATGCACGCCAAAAGCGACTTTTTCAGCGACCCAACGCCCTGGCGGTA +ACCAAAGCATAATGCCGCCAATCACGACCTGTAACACTAACGCCGCGCCAACGGTACGCAGGCTGATCTT +CTTCTTGTTTACTGACAGTAAAAACGCAATCGTCAGCAATACCACCATTCCCAGAACACTTCTCATGACA +TCCATAGTGATTATCTCTTCATGTCATATTGGGCGACGGCTTTCTGCCCATCAGAAATAGCCAGGCCTGC +ATCTTGCGATACCGGCCCGGCTTGTTATCAACACTTAATGGGTTTTGATGTAGCCGCGCACGCACTCTTC +GACTAATCCCCAGAACCAGTCTGTATCAATAGTGATGCCGACTTTGGTATTGGCGGGCTTGCCAAGAACG +CCCAGCTCGTCGCAGACGGTACGCCCATAGCAAGGGCCACTGTTGACGTCCACTTCGACGTACATCTCCT +GGGTTTTAATGCCATCAGGGTTAATCAGATAACCGATGCAGGTGGCGTCGTGCACCGGGCCGCCAGCAAG +GCCGTAGTTTTCGAACTGCGTTTTGAGAGTGAAGTTCATGATGTCGCTGAACAGCTCTCCGGCGGGGCCG +CCTGCCCTTTCCATCCGAGCAATCACGTCCGGGGTGCAAACGGTCTGGTTGGTGAGATCGAGGCCCATCA +TCACTAATGGAACGCCGGAGGTGAACACTACGCGTGCGGCTTCCGGGTCGGCAAAGATGTTGAACTCGGC +AGATGGCGTGAAGTTGCCTGTACCGTAAGCGCCGCCCATTAGCACAATTTCACGGATTTTGGGCAGGATC +GCGGGTTGCATACGCATTGCCACCGCGATATTTGAAAGCGGACCAACCGGCACCAGAGTGATATCGCCAT +CGCTTGCCATCAGGGTATCAATGATATATTTCACCGCATGAGTGCTTTCTGCCTGGCGGGTCAGCGGCTC +GAATACCGGGCCATCCAGTCCGGTTTCACCGTGAATATTATCGGCAACGATTTGTTGACGCATAATGGGC +TGCGGCATCCCCGCATAAACCGGAACATTAATCTCCAGTTTCTGGCAAACATTCAGGCCATTAATTAATG +TTTTATCAAGCGTCTGATTACCCGCTACAATAGTGATGCCTAATAAATCTATTGCCGGATGTTTCGCCGC +CATCATTATAGCAATAGCATCATCATGACCCGGATCACAATCCAGAATAATTTTTCTCTTTTCCATTGTT +TATTTCCTCTGTTTCCAGTTGCGTTATTTTTTCTACAGCAAAGAAAATTCGACCGGGCCGATGATTGAAT +CTTAACAACAGCGTACGTATGCTAAATATGAGAAATCTCATAGCGGATAAACATCGTGAAAGAAATCCAC +AATAATGATCTTAAGCAGCAATTGATGAGTGAATCCGCGTTTAAGGATTGCTTTTTAACGGATGTTTCAG +CCGATACGCGGCTGTTTCATTTTTTAGCGCGTGACTACATTGTGCAGGAAGGGCAACAGCCGTCCTGGCT +GTTTTACCTGACGCGAGGCCGCGCCAGGCTTTACGCCACGCTAGCTAATGGTCGCGTGTCGCTGATCGAT +TTCTTTGCCGCCCCCTGTTTTATTGGCGAGATTGAGTTAATCGATAAAGACCATGAACCGCGTGCGGTGC +AGGCTATTGAAGAGTGTTGGTGCCTTGCGCTCCCTATGAAACATTACCGTCCGCTGTTATTAAACGACAC +GCTATTTTTACGAAAACTCTGCGTCACCTTAAGTCATAAAAATTATCGTAATATTGTTTCTTTAACTCAG +AATCAATCATTTCCGTTAGTGAATCGCCTGGCAGCATTTATATTACTCTCGCAGGAAGGTGATCTTTATC +ACGAAAAGCATACGCAAGCGGCAGAGTATTTAGGCGTTTCTTATCGACATCTTTTATATGTTCTCGCGCA +GTTCATTCACGACGGTTTATTAATTAAAAGCAAGAAAGGGTATCTCATTAAAAACAGAAAGCAGTTGTCA +GGACTGGCGCTGGAGATGGACCCGGAGAATAAATTCTCCGGGATGATGCAGTAAAAATTATTTTCAATAG +CGCGATTGCCGGATGCAACGCTTAATACGTTTTATCCGGTCTACAAATCGAGCATTACGCCAGACCAATA +AAGAACCCGGCAATAGTCGCACTCATCAGGTTGGAAAGCGTTGCTGCTGCCAGCGCCCGTAAACCAAGCT +GGGCGATTTCCGGCGCGCGTTTTGGCGAAATAGCCGAAAATGCGCCAACGACAACACCGATAGAACCAAA +GTTAGCAAAACCACAAAGCGCAAAGGAGATAATCGCAATGGTTTTCACTTCCAGCGTGCCGCCCGTTTGC +AGGTATGGGGAGAAACTCAGGTAAGCGACGAATTCGTTAATCGCCAGTTTCTGCCCAATCAGGCTACCCG +CAAGATTGGCATCACTCCAGTCCACACCCATGATCCACGCCAGCGGTGCCAGCACATAGCCAAAAATACT +TTCCAGAGAGGCATTGGCGAAACCAAACCAGCCGCCAATTCCGCCGATAATGCCGTTGATCAGCGCAATA +ATTGCGACAAACGCCATTACCACCGTCGCCACACCAGCGGCGATTTTTAGCCCGGTCATCGCACCGCTCG +CCGCCGCTTCGATAAAGCTTTTTGGCGGCGTTTCGCTGAACGACAGATTTTCAAATGTGACCTGCGAAGG +CTCGGTTGCCGGGCTAAGAATACGTGCAAACAAAATCCCGCCAGGGATCGCCATCAGCGATGCCGCTAAC +AGGTAGTCAATTGGTACGCCCATTCCGGCATAACCAATCATCATCGAACCAGCAATGGACGCCATCCCGC +TACAAATTGCGGTAAACAACTCGTTGCGATTCATGCGATCGATAAACGGTTTAACGATCGCCGGGATCTC +ATTTTGCCCGAGGAAAATAGTAGTAACCGCAACAAAAGATTCGATTTTGCTGATGTTGAGGGCTTTCTGG +AAAATGCTGCCAAGGATGCGAATCAGCAGCCCCATCACGCCAATGTAGTACAGCAGACTGATGAGCGCAG +TAACGAAAATAATCGCCGGAAGTACGCGAAAGGCGAAGATAAAACCCGCACCGTCAAACAGGACATCCAT +TTTCGGCCCAACCAGCGAACCAAAAATGAAGGCGCTACCGGCATCACTGTAAGACATCACTTTATGAACG +CCTAATGCCGCCTGTTCTACTGCCCATTTTCCCGGTGGGAAGTAGAGCATGATGCCACCAATAGCGATTT +GCAGCAGCAGTGCGGCTCCAACCGTGCGCAAACTGATGCTCTTTTTATTCACTGACAACAGAAATGCTAT +TGCCAGTAACACCACCATCCCCACAACACTTCTCATTATATCCATAATGATTTTCCCTTCATGCCGGTAA +ACCCGGCGTCAGCGCCAGGTTTTGGTATGCTTGATGAGTACGGGCGACGGCTTTCTGCCCGTCAGAAATT +AACCCGCGAGACGCTGATATTCTTTGGCAATTTCGCTCGCCAGAATGGCGTTGTTGAACACCAGCTGGAT +GTTGGATTTCAGGCTGTCACCGCCGGTCAGTTCAGCAACGCGCGCCAGCAGGAATGGCGTACTTTCTTTA +CCAATGACTCCCTGAGCTTCAGCTTCAGCTACCGCCTGATCGATCGCCGCATTGATAGTGTGTTCCGGCA +TAGCAAACTGTTCCGGGATCGGGTTCGCTACCACGAGGCCACCGTTCAGACCGCTTTGCCATTTCACCAC +CATTGCACGGGCAATTTCGCTGGCGCTGTCGAGACGAATGCTGACGTCAAACGGGCTGGTGCGGCAGAAA +AACGCAGGCAGCGCTTTAGTCTGATAGCCAATTAACGGCACACCGAAGGTTTCTAAATACTCAGTGGTTA +ATCCTAAATCGAGAATAGATTTCGCCCCGGCACAAACAACGGTGACATTAGTATTTGCCAGTTCTTGCAA +ATCGGCAGAAATATCGAAGGTATGTTCCGCCCCGCGATGCACACCACCAATTCCCCCGGTGGCAAATACT +TTAATTCCGGCAAGCGCCGCAATAATCATCGTTGAAGCCACAGTGGTTGCGCCATTTTTTCCGGCGGCAA +CAACAAAAGGTAAATCGCGACGACTAACTTTGGTCACGTTATGCCCTTCACGACCCAGTAATTCAATTTC +TTCTTTGCTTAACCCCACTTTCATCACGCCGCCAATAATGGCGATCGTGGCAGGTACAGCGCCCTGTTTA +CGAATAGTTTCTTCAACTTCAATTGCGGTCTGGGCATTTTGTGGGAACGGCATCCCGTGAGAAATAATGG +TCGATTCCAGCGCCACAACCGGTTTTTTGTTTTTTAAAGCGTCCTGCACTTCCGGGGAAATTTGTAATAA +TTCAGGGGAAATTTTTAATTCAGACATTCTGCGTTCTCCACTAACGATATAACGTTGGCAATCGATAAAT +CGGGGTTATTGGTGTATTCACAGGAGAGCGCCATTGACGAACATCCCTGTGCGAAACGAACAGATTCGGC +AAACGGCATTCCGTCTACCCAACACGAAGCAAGTCCCGCCATCATGGCATCGCCCGCTCCGGTAACATTA +ATAACATTGGTTTTGATCGGCGCAGACCAGCCACTTTCACCGCTGATATCGCTGTAATAAACGCCGTCGC +CGCCCATGCTCAATACCAGTCGGTTCAGGCCATGTTGATGGAACCAGGCAGCAACTTTTGCCACATCTTC +ACGCCCTGACAGCGCAATCCCACTCAGGGTTTCCGCTTCAAGGCGGTTTGGCTTGAGAGTGTGGATCTGA +TTTAGACGGTCGCGCACTTTGACACATTTCCATGCCGAAACCGGATCGACAAATACGGGTACGTTGGCGG +CATTATCCAGAATCCATGCCAGTGCCTCTTCACTGATATTACAGTCCGCGACAATGACCTTTGCCCTCTG +AATAAATTCACCGTGCTGTGCGAGATATTCAGCTGTAATAGCGTTGCTAATATTCATGTCATTTATAGCA +ACCAGCATTTCACCGGTATTATCGAGTAATGATAAATAACTCGACGTATTTTCTCCCGGCACAATCAGGC +ATTTATCGACATAAACGCCAGATTGATTGGTTTGCGTTAGCAGCGATTGACCATAAAAATCACTGCCTAC +GGCGCTCAGTAGCCAGGCTTTGTTACCCAGCAACGCCAGGTTTTGTGCAATATTGCGCCCTACTCCACCA +GGCGTAAATTTTATTTTACCTGGATTTGAATCCGCATAATTTAATGATTCATGTGAATATCCGGCGACAT +CAATATTCGCCGAACCTATAATTACGACATAATCCTTTTCGCGCATAGCACGTCCTCTGGTAAAAAATTA +CCAACCCTGTCAATCCACAAGAATATAGATACTGCAAAGACGGTTTAAACATGTGTTCATATTTAAACAT +GTGCTCATAGTATGCATGTTTTACGTAAAGTAAATTACCGCCAGAGAGGCAAAATGGGCAGATTTGAGCA +GGCTCACAAAATGCGATTAAATGCCTGAATTACAAAAGCGAGGAATTTGTGACGGGATGCACAGAACAGA +ACAATAAAAAAGGGCAGAAAATAATCTGCCCTTGAGGAAATAACCTGAGTGTTTGATGAACGTTTGAAGT +TTCTACTGAAAGATAAAACCATTTAAATTCATAAAATTACATTCACAAACCGGTCATTCTCTTTGCGCTC +ATCAAATGTTACAGGACAGGAAATTTCTGCCCTGTAACACACCTTTTATTACGCTGCTTTCGCTACTGCG +TCCACTTCCGGACGTTTCAGGAAGGCATAGGCCAAACCCGCCACCAGCGTACCGGCAATAATTGCTACCA +GGTAACCCAATACCGGCGTAATAGCGCCAGGGATCAGCAGAACAAACAGACCACCGTGCGGTGCCATCAG +TTTCGCACCAATCGCCATTGAGATTGCGCCAGTCAGCGCCCCACCCACGATACAGCACGGCAGCACACGC +ATCGGATCACGAGCAGCAAACGGAATTGCACCTTCCGAAATGAAGCACAGTCCCAATACCAGAGCGGCTT +TGCCACCTTCCTGCTGCGCTTTGTCGAATTTGCGACGCGCCACCATTGTTGCCAGACCCATTGCCAGCGG +TGGCACCATACCTGCCGCCATAATCGCCGCCATCGGGCCATAGGTTTGAGTACTCAGCAGACCCACACCG +AATGCGTACGCTGCTTTGTTTACCGGACCGCCCATGTCAGTACACATCATGCCACCGAGGATCGCCCCCA +GCAGAACCGCATTCGCAGTCCCCATGGTCTGCAGCCAGTGAGTCAGCCCTTCGAGAATGCCAGCAACTGG +TTTACCGATCAGGTAGATCATCGCCAGACCGACCACCAGACTGGAAATTAGCGGAATGATCAGGATCGGT +TTCAGCGCCTCCATACTCTGTGGCAGTTTCAATTGCGTACTGATTAACTTCGCAATGTAACCAGCCAGGA +AGCCCGCAATAATACCACCAATGAAGCCAGAACCGGTGCTGACCGCCAGCATACCGCCAATCAGACCCGG +AGTGAGGCCCGGACGATCGGCAATGGAAAAGGCAATATAACCTGCCAGTACCGGCACCATCAGCGCAAAG +GCTGAACCACCACCAATCTGCATCAGCGCCGCAGCCAACGTACCCGGCTCTTTAAACGCTTCGATACCAA +AAGCAAAAGAAAGCGCGATACACAGACCACCTGCAACGACCATCGGCAGCATGTAAGAAACGCCCGTCAG +CAAGTGACGGTATGCGCCTGCACTCTCTTTCTTACTTTCAGTGGTCGCCGTTTGAGCTTTGCCCGCCGGT +TCATACGGCGTTGCTTCAGCAACCGCTTTATCCAGTTCCTGCGCGGTTTTCTTCAGCGCCAGACCGGTAG +AGGTACGATACATCGGTTTACCAGCAAATTTCGCCAGATCCACTTCGATATCTGCCGCCACAATCACCAG +ATCCGCTGCTGCGACTTCTTCGGGAGTGATTGCATTACCCGCGCCAACAGAACCACGGGTTTCAACTTTC +ACCCACCAGCCACGTTTTTTCGCTTCGGTTTCAATGGCTTCAGCCGCCATAAAGGTGTGTGCTACGCCAG +TCGGGCAAGCAGTCACCGCAACTACGCGTTTCGGACCGCTGGCGGCAACTGGTGCTGTCGCAGCGACCGG +CGCAGTGTAAGGTTTCGCATGGCCTTTGGCTTCACTCAGGAACAGCTCAGGGTGCGCAACTGCCCGGGAA +ATATCGCCCAGCCAGACATTTTTACCGTTCAGCGCGCTGTCGTTCGGGATGGAATCACCGAGAACAATCG +CCATTTCAGCGTCGTTCGGATTGTCGATGATTTCCAGTTTTGCTTTTCGCGCCGCCGCGCCCAGCAGGGT +CTTCGCCATATAGGCGCGTGCCTGACCGAGATTAGCGTCAATAATCAGCAGCGTTTTCATTATGCCTCTC +CTGCTGTCAGTTAAAAGGTTGTAAGTCGACGCGCGCCATCATTGCGGCCAACTGCGGACGATCGGTAATA +CCCACATTGCTTTGACTTACCGCCAGGGCTGCAACAGCTGTCGCCAGACGCAGTGTGTGTTCACTGGATT +CACGCATCAGCAAGCCATAAATCAGGCCACCAACCATAGAATCCCCTGCGCCAACGGTGCTTACGACATC +GACTGACGGTGGTTTGGCGATCCATTCGCCGGAGGCATTAACCCAAAGCGCGCCTTCGGCACCCAGTGAA +ATAACAACATGCGCGATGCCTTGTTCACGTAGCGCATGTGCAGCTTCAATCACATCTTTCATTTCAGGCA +GTTTACGGCCTGCCCAGATTTCCAGCTCGCGGCGGTTAGGTTTCACCAGCCACGGTGCCGCTTTCAAACC +TGCTACTAACGCTTCACGGCTACTATCAAAGATAATGCAAGGACACTGACTACGCAGGCGAGTCATCCAG +TCGGTGAACGCTTCCGGGCTGACGCCTGACGGTAAGCTTCCGCTGACACAGACCATATCGAACTGACCGA +GCCAGCTCAGAGAATCAGTCACAAAGCGTTCCCAGTCGGCGGGGGTGACTTCAAAACCCGAGAAGTTGAA +GTCGGTCACTTCGCCGTCTTTTTCCGTCAGCTTAACGTTAATTCGGGTGCGCCCCTGTACAACCTGGAAA +CGGTTGGCAATGCCCAGCTCGCTGAACAGTTGCTGAAAACCATCCTGATTGTCTTTACCCAGGAAGCCGC +CAACGGTGACATCAATTCCCAGGTCTTTTAATACTTTGGCCACGTTGATGCCTTTACCCGCCGCATGCAG +ACCGGTGGTTTTCACCAGGTTCACTTCGCCGCGTTCAATTTCCGGGCAGAAACCAACAAGGTCATAAGCC +GGATTAAGGGTGATAGTAGCAACACGTCTGCTCATTATGCGCCCTCCCCAAGACCAGCAGCGATAGCGTC +GCCGATTGCTTTCAGCGCCTGTTCAGCATCTGCACCCTGGGCGGTAAAGCGTAGGCGATGACCTTTCTTA +ACGCCAAGTGCCACAACTTTCATCAGACTACGTCCGTTTGCCGGTTTGCCGGTACCATCAAGGTTTGTCA +CGGTAATATCACTGTTAAATTGTTTAATGGTATTGACCAGCATGGTACCTGGACGAGCATGCAGGCCGTG +TTCATTGCGCACCACAAACTCCGCGCTTAACACGTCGTCGGTCGGCGCATCATCGCTGGTCAGCAGCGCC +AGCAACGTTGCCGCATCCGCTTTCAGCAAGCGGTCAGCTTTATTGTCGAGCAATAAATCAGCGAGACGCT +TAAGAACCGCGATGGGCTGATCGTCATTCATCGCCACACTCACCAGCATGGCTGCCGTTTCGCCGTCCAC +ATCAAAAGCATTTGCCGCACGGCTTACCGCAATCGCGCTACGCAGATTGCCTTCGGCGCTATCGCTCAGC +CAGATACCCTGTCCGAGATTCAGCGGTTGTTCATTGATGGCTTTGGTGACGAAAGTGGCGTCAACTGCCC +CCGCCTCTTTCAGACGCGCAGCGTTCAGCGCCTGAAGAGTCAGCAGATCGCTGGCGACGATATCCAGTGT +CAGCATTTCGTTGTCGAGCTTCAGCTGCTCACTCTGCTTTTCGCCCATCAGTAATGCGCGAAGTTCTTCT +GCTGTTGTTGCTGACTTCAGTTGTTCAGCAACGGAATCATCGCTCAGTACGTGGGTCAGCTGGCGTAGCA +GGCCCAGATGTTCATCCGAGCTGGCAGCAATACCGATTGCCACGTACGCTACCTGACCGTCACCCCAGGT +GACGCCTTCCGGGAACTGAAATACCTGAACGCCGGTTTTCAGCACCTGATCGCGGGTGTCGGTAGTGCCG +TGTGGAATAGCAATACCATTGCCGAGGAACGTTGAGGTTTGCTGTTCGCGCGCCAGCATGCCATTGACGT +AGCCTTCTGCTACATTACCGGCCTGCACCAGCGCCGCAGCGACCTGGCGAATCGCCTCTTCTTTGTCTCC +GGCCTTTTCGCCCGGATGGATGTCCTGTACGGATAACTGGAACATAGTTCTCCTCTCTTGCTGAATTGAA +ACGATTCAGCCTCTATGAGAAAAAAAGCGCCAACCTGGCTTAGGGTTAAAGACAAGATCGCGCTGAAACG +TTTCAAGAAAGCATAATACTTCTGTTTCAGCACGCAAGGAAAGCCGTAAAGTTATGAGCAAAAGTTTGAT +GTGCTGCACAATTTTTTGCCATTTTTCCTAATTGCTGATGGGAAAATCCGTTATCAGCAATTTCATTTCA +GCAGCGTCAGCAGCCAATCAGCAACAGTGAAATGGCATTTTGACTATTCGTGGCGCTTTTGATTTCGCTG +TCTGTTTATTTTCTGACAAGCAGCGTAAACTCCGCGTCTTCCTCTTCCAGTGATCGACCAGCATGCATAA +CTCCCCCGCAGTCTCCAGCGCGAAATCGTTTGACCTGACCTCGACGGCGTTTTTAATCGTTGCCTTTCTC +ACCGGTATTGCGGGCGCTCTGCAAACCCCGACACTCAGTATTTTTCTTACCGATGAAGTACATGCCCGTC +CGGCGATGGTGGGATTCTTCTTTACCGGCAGCGCTGTCATTGGGATTCTGGTAAGTCAGTTTCTCGCCGG +GCGCTCTGATAAGCGCGGCGATCGCAAATCGCTGATTGTCTTTTGCTGCCTGTTAGGCGTGCTGGCCTGC +ACCCTTTTTGCCTGGAATCGCAACTACTTTGTTTTGCTATTCGTTGGCGTCTTTCTTAGCAGCTTTGGCT +CGACCGCTAACCCGCAAATGTTTGCCCTTGCCCGTGAACATGCCGACAAAACCGGACGTGAGGCGGTGAT +GTTCAGCTCTTTTTTACGCGCTCAGGTTTCACTGGCATGGGTCATTGGCCCACCGCTGGCTTATGCCTTA +GCGATGGGTTTCAGCTTTACGGTAATGTATCTGAGCGCAGCGGTAGCGTTTATTGTTTGCGGTGTGATGG +TGTGGCTGTTTTTACCGTCGATGCGAAAAGAGCTTCCGCTGGCGACCGGCACGATCGAAGCGCCGCGCCG +TAACCGTCGCGATACGCTGCTGCTGTTTGTCATTTGTACATTGATGTGGGGCTCGAACAGCCTGTACATC +ATCAACATGCCGCTATTTATTATCAACGAACTGCATCTTCCCGAGAAACTGGCCGGTGTGATGATGGGGA +CCGCCGCCGGGCTGGAAATCCCGACGATGTTGATTGCCGGATATTTCGCCAAACGTCTGGGTAAGCGTTT +CTTAATGCGCGTTGCTGCCGTGGGTGGCGTCTGTTTTTACGCAGGAATGCTGATGGCGCATTCACCTGTC +ATTCTGTTGGGCTTGCAGCTGCTAAATGCTATTTTTATTGGCATTCTGGGCGGCATCGGGATGCTCTATT +TTCAGGATCTGATGCCCGGTCAGGCGGGTTCAGCCACCACGCTCTATACCAACACTTCGCGCGTGGGCTG +GATCATCGCAGGATCAGTGGCGGGCATCGTCGCCGAGATCTGGAATTATCACGCTGTGTTCTGGTTTGCG +ATGGTGATGATTATCGCCACTCTGTTTTGCTTACTGCGGATTAAAGATGTTTAAGGCGCGGTCAGCATTT +CCAGATCGATAAGCCAGGTCATGGCCTGCTGACGCGAGTTACCGCACATTTCAGCGCTGGCTTGTAAGCC +TGCACAGACTTTCGGTCGCAGTGGCGAGGTGAAAATTTTACAGCGTTGCTGTTCATCAAGCTGAATGCAG +GGCGTATTGGCGGGCTTGCCATCTGGCATACCGGGAATAGGGCTGGAAATTGAAGGGGCAGTGCAACACG +CCCCGCAACCCGGACGGCATTCCATACGTTGTTCTCTTAAGGTTAACCACCGGATTGATGAGCGCGCACA +GTACCACCTTTTTTGCACCAGCAAAAGTGCGAATACCACTTGCCCGAAAGGCCCGTCGCGAGTACTTTGT +CGCGATATTTTTGACATTTTCGACTACAGGAATTTTTCGATGCCAAGAGCGAACGAAATTAAAAAAGGTA +TGGTACTGAATTACAACGGCAAACTGCTGCTGGTTAAGGATATTGATATTCAGTCGCCCACTGCCCGCGG +TGCCGCTACGCTGTACAAAATGCGTTTTTCTGATGTCCGTACCGGGCTGAAAGTAGAAGAGCGTTTCAAA +GGTGATGATATCGTTGACACCGTGACGCTGACCCGCCGTTACGTTGACTTCTCCTATGTCGATGGCAACG +AATATGTCTTTATGGATAAAGAAGACTATACCCCGTATACCTTCACCAAAGATCAGATTGAAGAAGAGTT +GCTGTTTATGCCAGAGGGCGGCATGCCGGACATGCAGGTGCTGACCTGGGACGGTCAACTGCTGGCGCTT +GAGCTGCCGCAGACCGTTGATCTGGAAATCGTTGAAACCGCACCAGGCATCAAAGGGGCATCTGCCAGCG +CCCGTAACAAACCGGCGACATTGAGCACTGGTCTGGTGATTCAGGTACCAGAATACTTAAGCCCGGGCGA +AAAAATTCGTATCCATATCGAAGAACGCCGTTATATGGGGCGTGCTGACTAACTTCAGCCGCATGCAGAA +AAGGGATAGCTCAGGCTGTCCCTTTTTTAATTTATTATACCAATCTTCTATTTTGCGCTTCCTGAACACC +TTACGCCCTCAATTTTCACTCGTTGATTGATCGCCCTCACACTTCATCGCATTAACAATCCAGACCAATT +TCAATTGCTGTCATATAACTTTACACTGTCGTTGTTAATTAATCGTTACTAAGACGTGACTCCTATGAAT +ACAATCGCCTCCGTTACGCTCCCGCATCATGTACACGCTCCACGCTATGATCGCCAGCAGTTGCAATCAC +GTATCGTTCATTTTGGCTTTGGAGCCTTTCACCGCGCTCATCAGGCGTTACTGACCGATCGTGTGCTGAA +TGCCCAGGGCGGCGACTGGGGGATCTGTGAAATCAGCTTGTTCAGCGGTGATCAACTGATGAGCCAGCTC +CGCGCACAGAACCATTTATATACCGTGCTGGAGAAAGGTGCGGACGGCAATCAGGTGATAATTGTCGGTG +CCGTTCACGAATGCCTTAATGCAAAACTGGATTCCTTAGCGGCAATTATTGAGAAATTTTGCGAGCCACA +GGTGGCAATTGTTTCCCTGACGATTACCGAAAAAGGCTATTGTATTGACCCGGCCACCGGTGCACTCGAC +ACCAGTAATCCGCGGATTATTCACGATCTACAAACCCCTGAAGAACCTCACTCCGCACCGGGTATTCTCG +TCGAAGCACTGAAACGCCGCCGTGAGCGCGGCCTTACACCGTTTACCGTGCTCTCCTGCGACAATATTCC +CGACAATGGTCATGTGGTGAAAAACGCGGTGCTGGGAATGGCAGAAAAACGTTCGCCAGAACTCGCCGGG +TGGATAAAAGAGCACGTCAGTTTTCCGGGAACCATGGTCGACCGCATTGTTCCGGCTGCAACCGACGAAT +CACTGGTGGAAATCAGCCAGCATCTGGGGGTGAATGATCCCTGCGCGATTAGCTGCGAACCGTTTATCCA +GTGGGTGGTGGAAGATAACTTCGTCGCTGGGCGTCCTGCCTGGGAAGTCGCAGGTGTACAAATGGTGAAT +GATGTCCTGCCATGGGAAGAGATGAAACTGCGGATGCTTAATGGCAGCCACTCTTTTCTCGCTTATCTGG +GTTACCTCTCAGGATTCGCCCATATCAGTGATTGCATGCAGGATCGCGCATTTCGCCATGCCGCCAGAAC +ATTAATGCTGGATGAGCAAGCGCCGACACTGCAAATTAAAGATGTCGATTTAACACAATATGCGGATAAG +TTAATTGCACGTTTTGCTAATCCGGCGCTGAAACATAAGACCTGGCAAATCGCGATGGATGGCAGCCAGA +AATTACCGCAACGCATGCTGGCAGGTATTCGCATACATCAGGGGCGCGAAACGGACTGGTCGTTGCTGGC +ATTAGGCGTTGCAGGCTGGATGCGTTACGTCAGCGGCGTTGATGATGCCGGAAATGCCATTGATGTTCGC +GATCCGCTTAGCGATAAAATTCGCGAACTTGTTGCGGGCAGCAGCAGTGAACAACGCGTAACCGCCCTGC +TTTCCCTGCGTGAAGTTTTCGGTGATGATCTGCCAGATAACCCGCATTTTGTGCAGGCCATCGAACAAGC +CTGGCAACAAATCGTACAATTCGGCGCACATCAGGCGCTATTAAACACCCTCAAAATTTAACGATTTCTG +CGGTTAAAGCGGATGAAGCTCACCTTCGTCCGCTCTCCCCTTCTCTTTTCTGCCTTTTTTAGCCAGGATT +AACGCTCAGTTAACTTACCAGAGTATTGCGGAGCCGTTGTGACCAGGACCAACCTCATCACCGGTTTTCT +CGGCAGCGGGAAAACCACGTCGATTCTTCATCTGTTAGCCCATAAAGATCCCAACGAAAAATGGGCGGTA +CTGGTTAATGAATTTGGGGAAGTCGGAATTGATGGTGCTTTGCTCGCCGATAGCGGCGCATTGCTGAAAG +AGATCCCCGGCGGCTGCATGTGCTGCGTTAATGGTTTACCCATGCAGGTAGGGTTGAATACCTTACTGCG +TCAGGGAAAACCAGACCGCTTGTTGATAGAGCCGACCGGGCTGGGCCATCCGAAACAGATCCTCGATCTG +TTAACCGCACCAGTCTATGAACCGTGGATAGATCTGCGCGCCACCTTGTGCATTCTCGATCCGCGCTTGC +TGCTGGACGAAAAAAGCGCCAGCAATGAAAACTTCCGTGACCAGCTGGCTGCCGCAGACATCATTGTCGC +CAATAAATCCGACCGTACGACGCCCGAAAGTGAGCAAGCGCTACAGCGTTGGTGGCAGCAAAATGGTGGC +GATCGACAATTAATTCACAGTGAGCATGGGAAAGTTGACGGTCATCTTCTGGATTTGCCGCGTCGCAATT +TAGCCGAGTTGCCCGCCAGCGCCGCGCATTCTCATCAGCATGTCGTGAAAAAAGGGTTAGCAGCGTTAAG +CCTGCCAGAGCATCAACGCTGGCGTCGCAGTCTGAACAGCGGGCAAGGATATCAGGCCTGCGGCTGGATA +TTCGACGCTGATACGGTATTCGACACCATTGGCATTCTGGAATGGGCGCGACTTGCACCGGTGGAACGCG +TCAAAGGCGTGCTGCGTATTCCCGAAGGGCTGGTGCGAATCAACCGTCAGGGCGATGACCTGCACATTGA +AACGCAAAACGTTGCGCCACCGGACAGCCGTATTGAGCTGATTTCCAGCAGCGAAGCTGACTGGAATGCC +TTGCAGAGCGCGCTGTTGAAGCTTCGTTTAGCGACTACCGCGTAAGGTTGCCTGCGTTTTTCAGTAAGAT +AATTAGAGAAAATATGATTAAAAATTTGCCGCAAATAGTGTTGTTGAATATTGTCGGCCTCGCGCTGTTT +CTTTCCTGGTATATCCCCGTTAATCATGGATTCTGGTTGCCGATTGATGCGGATATTTTTTATTTCTTTA +ATCAGAAACTGGTCGAAAGTAAGGCCTTTTTGTGGCTGGTTGCATTGACCAACAATCGCGCCTTCGACGG +TTGTTCACTGCTGGCGATGGGTATGTTGATGCTGAGTTTCTGGCTGAAAGAAAACGCCCCTGGCAGACGA +CGTATCGTGATTATTGGTCTGGTCATGCTATTAACTGCAGTGGTATTAAACCAGCTGGGTCAGGCATTAA +TTCCTGTAAAACGGGCCAGCCCAACATTGACTTTTACCGATATTAACCGCGTCAGCGAACTGCTCTCTGT +TCCCACGAAAGATGCCTCACGAGATAGCTTTCCCGGCGATCACGGCATGATGCTGCTTATTTTTTCGGCA +TTCATGTGGCGTTATTTCGGCAAAGTTGCAGGCCTTATCGCCCTTATTATTTTTGTGGTTTTTGCATTTC +CCAGAGTAATGATTGGCGCACACTGGTTTACTGACATCATTGTCGGTTCGATGACCGTGATATTGATCGG +TTTGCCCTGGGTGTTGCTGACGCCATTAAGTGATCGATTAATCACCTTTTTTGACAAATCACTACCAGGA +AAAAACAAACATTTCCAAAACAAATAACTCACAGTAATTAACATCATCAGGGTTATTTTTATAGTGAGGA +TAATCCTGATGATGCGCACCGTGCTTTCATCTATCGAACGCAAAAATCATTCTCTAAGTAAATGAATGGA +TTGCATGCGTTTCACTCAATTGTACTTTAATTGACCAACCCCGCTTATTAACTTTCTGTATCACTTTTTC +TTATAAAAAATCATGTAAAACCGCTCGCCAAGACCGCACCAATCGGGTAATCTCGAACTCGTTTTGCCTC +GGCGGTAGATTATCCTCACAGCATATAATTTTGTGCGTTAGTCCACAGATTTGGCCTTAAGGAATTGTTT +CAACATGCCCAGGTAATTAGTCTCGTGTCGCTTGGCATTTTTTTATAACGATATTTGTCGTTAAGGACTT +CAAGGGAAAACAAACAACATGGTCAAATCTCAACCGATTTTGAGATATATCTTGCGCGGGATTCCCGCGA +TTGCAGTAGCGGTTCTGCTTTCTGCATGTAGTGCAAATAACACCGCAAAGAATATGCATCCTGAGACACG +TGCAGTGGGTAGTGAAACATCATCACTGCAAGCTTCTCAGGATGAATTTGAAAACCTGGTTCGTAATGTC +GACGTAAAATCGCGAATTATGGATCAGTATGCTGACTGGAAAGGCGTACGTTATCGTCTGGGCGGCAGCA +CTAAAAAAGGTATCGATTGTTCTGGTTTCGTACAGCGTACATTCCGTGAGCAATTTGGCTTAGAACTTCC +GCGTTCGACTTACGAACAGCAGGAAATGGGTAAATCTGTTTCCCGCAGTAATTTGCGTACGGGTGATTTA +GTTCTGTTCCGTGCCGGTTCAACGGGACGCCATGTCGGTATTTATATCGGCAACAATCAGTTTGTCCATG +CTTCCACCAGCAGTGGTGTTATTATTTCCAGCATGAATGAACCGTACTGGAAGAAGCGTTACAACGAAGC +ACGCCGGGTTCTCAGCCGCAGCTAATAAACCGTTTGGATGCAATCCCTTGGCTATCCTGACGAGTTAACT +GAAAGCACTGCTTAGGCAGTGCTTTTTTGTTTTCATTCATCAGAGAAAATGATGTTTCCGCGTCTTGATC +CAGGCTATAGTCCGGTCATTGTTATCTTTTAAATGTTGTCGTAATTTCAGGAAATTAACGGAATCATGTT +CATACGCGCTCCCAATTTTGGACGTAAGCTCCTGCTTACCTGCATTGTTGCAGGCGTAATGATTGCGATA +CTGGTGAGTTGCCTTCAGTTTTTAGTGGCCTGGCATAAGCACGAAGTCAAATACGACACACTGATTACCG +ACGTACAAAAGTATCTCGATACCTATTTTGCCGACCTGAAATCCACTACTGACCGGCTCCAGCCGCTGAC +CTTAGATACCTGCCAGCAAGCTAACCCCGAACTGACCGCCCGCGCAGCGTTTAGCATGAATGTCCGAACG +TTTGTGCTGGTGAAAGATAAAAAAACATTCTGTTCATCTGCGACCGGTGAGATGGACATTCCACTCAATG +AATTGATTCCGGCGCTCGACATTAATAAAAACGTCGATATGGCGATCTTACCCGGCACGCCGATGGTGCC +GAACAAACCCGCAATCGTCATCTGGTATCGCAACCCTTTGCTGAAAAATAGCGGCGTCTTTGCCGCTCTG +AATCTCAACCTGACGCCTTCACTCTTTTATAGTTCACGGCAGGAAGATTACGATGGCGTCGCCCTCATTA +TTGGCAATACTGCGCTATCTACCTTTTCTTCACGTTTGATGAACGTTAACGAATTAACCGACATGCCAGT +CCGTGAAACTAAAATTGCGGGCATTCCTCTGACCGTTCGGCTTTATGCAGATGACTGGACATGGAACGAT +GTGTGGTACGCATTTTTACTGGGCGGCATGAGTGGAACTGTCGTTGGCCTGCTCTGCTATTACCTGATGA +GCGTACGTATGCGCCCCGGCAGAGAAATCATGACCGCCATCAAGCGCGAACAATTTTACGTGGCGTATCA +ACCGGTGGTGGATACACAAGCTTTGCGAGTAACGGGCCTGGAAGTACTGCTACGCTGGCGGCATCCTGTC +GCGGGAGAAATTCCCCCGGATGCCTTCATTAACTTTGCCGAATCGCAAAAGATGATTGTGCCGCTGACTC +AGCACCTGTTTGAGTTAATTGCCCGCGATGCCGCAGAATTAGAAAAAGTGCTGCCGGTAGGCGTCAAATT +TGGTATTAACATTGCGCCGGACCATCTGCACAGCGAAAGCTTTAAAGCAGATATCCAGAAACTGCTCACT +TCCCTGCCCGCACACCATTTCCAGATTGTGCTGGAAATTACCGAGCGCGATATGTTGAAAGAGCAAGAAG +CCACACAACTCTTCGCCTGGCTGCACTCGGTCGGCGTAGAAATTGCTATTGATGACTTCGGCACCGGGCA +CAGCGCGCTTATCTATCTTGAGCGTTTTACGCTCGATTATCTGAAAATTGACCGTGGATTTATCAACGCC +ATCGGTACGGAAACGATCACTTCCCCCGTACTTGACGCGGTGCTGACGCTGGCGAAACGCCTCAATATGC +TGACGGTTGCTGAAGGGGTCGAAACGCCGGAACAGGCGCGATGGCTAAGCGAACGCGGCGTTAATTTCAT +GCAAGGCTACTGGATTAGCCGCCCGTTACCGCTGGACGATTTTGTTCGCTGGCTAAAGAAACCGTATACG +CCGCAGTGGTAAGGTGTGCTTACGTCCCTTATTATTCATAGTGAAAGCATGCCGGATTGCGGCTAATGAT +GAGTAAAAGGAAATCCGTTGCAGATGATTGTGCGCATACTGCTGCTGTTTATCGCTCTGTTCACCTTTGG +TGTGCAGGCGCAGGCTATCAAGGAAAGCTATGCCTTTGCCGTGCTGGGCGAACCCCGGTACGCGTTTAAT +TTCAACCATTTTGATTATGTGAACCCCGCCGCGCCAAAAGGTGGGCAGATAACGTTGTCAGCCCTCGGCA +CCTTCGATAATTTCAACCGCTATGCACTGCGCGGCAACCCGGGCGCACGCACCGAGCAGCTGTACGACAC +GCTATTTACGACTTCCGATGACGAACCAGGCAGTTATTACCCGCTGATTGCTGAAAGCGCACGCTATGCT +GACGATTATTCCTGGGTGGAGGTCGCTATTAATCCGCGCGCCCGTTTTCATGATGGTTCGCCCATTACTG +CCCGCGATGTAGAGTTTACTTTTCAAAAATTTATGACCGAAGGCGTGCCGCAATTTCGTCTGGTCTACAA +AGGCACCACCGTCAAAGCCATTGCACCGTTAACCGTGCGCATTGAGTTAGCTAAACCCGGCAAAGAAGAT +ATGCTGAGTCTGTTTTCGCTGCCGGTATTTCCAGAAAAGTACTGGAAGGATCACAAACTTAGCGACCCGC +TCGCCACGCCTCCGCTTGCCAGTGGTCCGTACCGCGTTACGTCCTGGAAAATGGGGCAAAATATTGTCTA +TTCCCGTGTGAAAGATTACTGGGCAGCAAACTTACCGGTAAACCGTGGACGCTGGAATTTCGACACCATT +CGCTACGATTATTACCTCGATGATAATGTCGCCTTTGAAGCGTTTAAAGCAGGTGCCTTTGATTTGCGTA +TGGAAAACGACGCCAAAAACTGGGCCACGCGTTATACCGGTAAAAATTTCGATAAAAAATACATCATCAA +AGATGAGCAAAAGAACGAATCAGCCCAGGATACGCGTTGGCTGGCGTTTAATATCCAACGTCCGGTATTC +AGCGATCGCCGGGTCCGGGAAGCTATCACTCTCGCCTTTGACTTTGAATGGATGAACAAGGCGTTGTTTT +ACAATGCCTGGAGTCGCACGAACAGTTATTTTCAGAATACCGAATACGCGGCCAGAAATTACCCCGACGC +CGCGGAGCTGGTGCTTCTGGCACCAATGAAAAAAGATCTACCGTCAGAAGTCTTCACACAAATCTACCAG +CCGCCGGTATCCAAAGGCGATGGCTACGATCGTGACAACCTGTTAAAAGCCGACAAACTTCTCAACGAAG +CGGGCTGGGTGCTGAAGGGTCAGCAACGCGTTAATGCCACAACGGGTCAGCCACTCAGCTTTGAATTATT +GCTTCCCGCAAGCAGCAATAGTCAGTGGGTATTGCCGTTCCAGCACAGCCTGCAACGGCTGGGTATCAAC +ATGGACATTCGCAAGGTGGATAACTCGCAAATCACTAACCGCATGCGCAGTCGCGACTATGACATGATGC +CGCGCGTATGGCGGGCGATGCCGTGGCCCAGTTCCGATTTACAGATTTCCTGGTCATCGGAATATATCAA +TTCCACTTATAATGCCCCCGGCGTGCAAAGCCCGGTTATCGACTCGCTGATCAACCAAATTATTGCCGCG +CAGGGAAATAAAGAAAAATTACTGCCGTTGGGGCGAGCACTGGATCGCGTATTAACGTGGAATTATTACA +TGCTGCCAATGTGGTACATGGCGGAAGACCGTCTCGCCTGGTGGGATAAATTCTCCCAGCCGGCCGTGCG +CCCCATCTATAGCCTCGGTATCGATACCTGGTGGTATGACGTCAATAAAGCGGCCAAACTGCCGTCCGCC +AGCAAACAGGGAGAGTAGATGGGCGCTTACCTGATTCGCCGTCTGTTGCTGGTGATCCCAACATTATGGG +CGATTATCACCATCAACTTTTTCATCGTGCAAATTGCGCCTGGCGGTCCGGTCGACCAGGCCATCGCCGC +CATTGAGTTTGGTAATGCCGGAGTATTACCCGGCGCAGGCGGTGAAGGTGTTCGTGCCAGCCATGCGCAA +ACGGGTGTCGGCAATATCAGCGACAGTAATTACCGTGGCGGACGCGGATTAGATCCAGAAGTGATCGCTG +AGATCACTCATCGCTACGGTTTTGATAAGCCGATCCACGAACGTTACTTCAAAATGCTCTGGGACTACAT +CCGCTTTGATTTTGGCGATAGCCTGTTTCGCAGCGCCTCGGTGCTGACGCTGATTAAAGACAGTCTGCCG +GTTTCCATCACCCTCGGATTGTGGAGCACGCTGATTATCTATCTGGTGTCGATTCCGTTAGGCATTCGCA +AAGCTGTTTATAATGGGAGCCGCTTTGACGTCTGGAGTAGCGCATTTATCATCATCGGCTACGCCATTCC +GGCCTTTTTGTTTGCCATCCTGCTGATTGTCTTCTTCGCGGGCGGCAGCTATTTCGACCTGTTCCCTCTA +CGCGGCCTGGTTTCCGCTAACTTTGATTCGCTGCCGTGGTATCAGAAAATCACCGATTATCTGTGGCATA +TCACGCTGCCGGTGCTGGCGACAGTGATTGGTGGCTTTGCGGCGCTGACCATGCTGACAAAAAACTCATT +CCTTGATGAAGTGCGCAAGCAATACGTGGTGACCGCGCGTGCGAAAGGGGTAAGTGAAAAAAATATTCTC +TGGAAACATGTGTTCCGCAACGCCATGCTGCTGGTGATTGCCGGTTTTCCGGCGACGTTTATCAGCATGT +TTTTTACCGGCTCGCTGCTGATTGAGGTGATGTTTTCACTCAATGGTCTGGGCTTACTGGGCTACGAAGC +GACCGTCTCGCGCGATTATCCTGTAATGTTTGGTACCTTGTATATTTTCACCCTGATTGGCCTGCTGCTG +AATATTGTCAGTGATATCAGCTATACGCTGGTTGATCCGCGTATTGATTTTGAGGGACGTTAATGTCGCG +ACTCAGCCCCGTCAATCAGGCCCGTTGGGCGCGTTTTCGTCATAACCGTCGCGGCTACTGGTCGTTATGG +ATTTTCCTCGTCTTGTTTGGTTTGAGTTTGTGTTCTGAACTTATCGCCAACGATAAACCGTTGCTGGTGC +GTTATGACGGCAGTTGGTATTTCCCGTTATTGAAAAACTACAGCGAAAGCGATTTTGGCGGCCCGCTGGC +AAGTCAGGCTGATTATCAGGACCCGTGGCTGAAACAACGGCTGGAAAATAACGGCTGGGTACTGTGGGCA +CCGATTCGCTTTGGTGCTACCAGTATCAACTTTGCTACCAATAAGCCCTTCCCTTCTCCACCCTCCCGGC +AAAACTGGCTGGGAACGGATGCCAACGGCGGCGATGTGCTGGCACGCATTCTCTATGGCACGCGGATCTC +GGTTCTGTTTGGCCTGATGCTGACTCTCTGTTCCAGCGTGATGGGCGTGCTGGCGGGGGCGCTACAAGGC +TATTACGGCGGTAAAGTCGATCTCTGGGGACAACGCTTTATTGAAGTATGGTCGGGGATGCCGACGCTGT +TTTTGATTATTTTACTTTCCAGCGTCGTACAGCCTAACTTCTGGTGGCTGCTGGCAATTACTGTCTTGTT +TGGCTGGATGAGTCTGGTCGGCGTGGTGCGGGCGGAGTTTTTACGTACTCGTAATTTCGACTACATTCGT +GCGGCACAGGCGCTTGGCGTCAGCGATCGCAGTATCATCCTGCGTCATATGTTGCCTAATGCCATGGTCG +CGACCCTCACCTTTTTACCGTTTATTTTATGTAGTTCGATAACCACCCTGACCTCGCTCGATTTCCTCGG +CTTCGGTCTACCGCTCGGTTCACCGTCACTCGGTGAACTGCTGTTACAAGGGAAAAATAACCTTCAGGCC +CCGTGGCTTGGGATCACCGCCTTCTTGTCGGTGGCGATATTATTGTCTTTGCTGATCTTTATTGGTGAAG +CCGTCCGCGACGCATTTGATCCTAATAAGGCGGTGTAGCATGACGCAAACTCTGTTAGCGATTGAAAATT +TGTCGGTGGGTTTTCGCCATCAGCAAACCGTACGTACAGTAGTCAATGATGTTTCACTACAGATTGAGGC +TGGCGAAACGCTGGCGCTGGTGGGTGAGTCAGGTTCAGGCAAAAGCGTTACCGCGCTGTCAATTTTACGC +CTGCTCCCTTCCCCGCCGGTTGAATATCTCTCCGGCGATATTCGTTTTCATGGCGAATCGCTGCTTCACG +CCAGCGATCAAACGTTGCGCGGTGTACGCGGTAATAAGATCGCCATGATTTTTCAGGAACCGATGGTGTC +GTTAAATCCATTGCATACCCTGGAAAAACAGCTTTATGAAGTGCTTTCACTCCACCGCGGGATGCGTCGG +GAAGCGGCTCGTGGCGAAATTCTTAACTGCCTTGATCGCGTTGGTATCCGCCAGGCGGCAAAACGGCTGA +CAGATTATCCGCATCAGCTCTCCGGCGGCGAACGGCAGCGGGTGATGATTGCGATGGCGCTGTTAACGCG +ACCGGAATTATTAATTGCCGATGAACCGACCACCGCACTGGACGTCTCTGTCCAGGCGCAGATTTTACAG +CTGTTGCGCGAACTGCAAGGCGAGCTGAATATGGGCATGCTGTTTATTACTCATAACCTCAGCATTGTCA +GAAAACTGGCCCACCGCGTGGCGGTAATGCAAAACGGTCGCTGTGTCGAGCAAAATTACGCCGCTACGCT +ATTTGCATCACCCACTCATCCTTACACACAAAAGCTACTCAACAGTGAACCGTCAGGCGATCCAGTGCCG +TTGCCAGAACCTGCCTCAACGTTGCTGGATGTTGAACAGCTTCAGGTTGCCTTCCCCATTCGCAAAGGGA +TTTTGAAGCGCATTGTGGATCATAATGTGGTGGTGAAAAACATCAGTTTTACGCTACGAGCGGGTGAAAC +ACTGGGTTTAGTGGGCGAGTCCGGTTCCGGGAAAAGTACGACGGGACTGGCGCTGCTGCGACTGATTAAT +TCTCAGGGCAGCATCATCTTTGACGGTCAGCCACTGCAAAATTTAAATCGCCGCCAGCTGTTACCTATTC +GTCATCGCATTCAGGTGGTATTTCAGGATCCAAACTCCTCGCTCAACCCACGACTCAACGTTTTGCAGAT +TATTGAGGAAGGCTTACGGGTTCACCAGCCGACGCTTTCTGCCGCACAACGCGAACAACAAGTGATAGCC +GTGATGCATGAAGTGGGATTAGATCCTGAAACACGCCACCGTTATCCGGCGGAGTTCTCTGGTGGTCAGC +GACAACGTATTGCGATTGCCAGGGCATTAATTCTTAAGCCCTCGCTGATCATACTTGATGAACCGACATC +ATCACTCGACAAAACGGTACAGGCGCAAATATTGACGCTATTGAAATCATTGCAACAAAAGCATCAACTG +GCCTATTTGTTTATCAGCCACGATTTGCACGTTGTCCGCGCGTTATGTCATCAGGTTATCATACTGCGAC +AAGGGGAAGTAGTGGAACAAGGACCGTGCGCGCGCGTGTTTGCCACACCGCAGCAGGAGTATACGCGTCA +GCTACTGGCGTTGAGCTGACGCTTAAAAAGGATTGTAGTTTGAAAAGGGTTCGGCAATTGCCACACCAAA +ATTTTTCAATCGGCATGTTGCAGCAAACTCGTCCTGGCGATTTACAAACAGGCACGGCTCACCTTCACAC +TCCAGCACCGAACATGGAACTTCGATGTCGCTTAACGCCTGGCTTAGTTTATACATCACCGACCATGCAT +TATCACCATCCGGGCTAAGCAATTTAAGCGCCACCAGGCTGTTGTCACCGCACGGTCCATTTTGCGGAAT +CGGTTCAACCTTCGAACCTGCGAAACCAGCAGACCAGCGATAGTTCTGCGGCAGTCGATGGACGATTGAG +AGTTGTAATGAAGTCACTTATTTTCCCCGGAAGCACATTCACTTCACAATTTGTTTACATCAATTTTAAC +ACATCATCAACAATCCGTCTTTATACAGATCGTAAAGATTGATGCCTCGCCTGCGTGGCCTCTATGGCTC +TGATTTAAGTAATATCTGCGGGCGTGGTCACGTTTGCGGGGCTATATGTACCCGTTTCTGCGATCTAACT +CAACCTTTTTAACTACAATGATGTGACTTTTTACATAAATTGATTTTACATAAAATAAACATATATCGGG +GGAATGATAGATTTGTGGTTGACATGCATCAACAAAGGAAGCCTTTTAGCTTCCTCGTTGTGCAATAGAT +CACCGTTTTTTCGGCCGACTGGCGTACAGACAGAAGAGAATGGAGCTGGTTGCGCAGAATGCAATTGACC +AAATCATCGGCCATGCAGAGTTAAAGGTCGCAAGAGAAAGCAATGCGCCAACAATTGCCCCTATGCCAAA +ACGGAAGGTTCCTGCCAGCGAAGATGCCGTTCCCGCCATATGGGGAAACTCATCAAGAATGACCGCCATC +GCATTGGATGACACCATCGACACGCAGCCCACAAACGCCGCAACGCCAACCACCAGCGACCAAAATCCCA +GCCCCAGCAGCGCACTGATGACCATCCACGCTGCCATAATAAATTGTATCCACAACCCCGAGCGGAACAT +ATTTAACGCGCCAATGCGGCGGACGAAGCGGCTGTTAAAGATGGTCATCACGAACAGAAAAACAATGTTT +AGCGCAAAGTAATAACCAAAGTTTTCCGGCGCGACGTGGTTAATTTCAATATAAACAAACGGTCCGGCGC +TTAAGAATGAGAACATCCCGGCAAAGCTGAAACCACTGGCAAGCATGTAGCTCAGGACACGTTTATGGCG +GAACAGCGCCGCAAAGTTACCAATAGTGGTACGAATGTGAAATGGCTGACGACGCTCCGGTGGTAAGGTT +TCTTTAATCAGGAAGAAAATCATTGCCGAAGCCAGAATCGCCGCTAATGCCAGGATCCAGAAGATGTAAT +GCCAGCTCAGCCACACCAGCACCCAGCCGCCAACTATCGGTGCCATCAGCGGTGCAATGGTTGTCACCAG +CATGACAAACGACATCATCCGCGAGAACTCTTCTTTCGGGTAAATATCGCGCATCAGGGCGTTAATGACC +ACGCTGGCCGCAGCCGCAGCCAGCCCGTGGAAGAAACGCATCACAATCAGCTGATCGATGGTGTTTGCCA +ACGCACACGCCACCGCGGCGGCGGCAAACACCAGCGTACCGCCGAGCACCACCGGCTTACGCCCGAAGCT +GTCTGCCATCGGCCCGTAGATTAACTGCCCCAACGCAAAGCCCAGAATATAAGTACTGAGGGTCATCTGC +GTACTGCCCGCCGGTACGCCAAACTGCGCTGAAATTACCGGTAGCGCGGGCAGATACATATCAATCGACA +GCGGCATCAACATGGCCAGCAGGCCAAGGATAAAAACAATAGCAAACGACGAATGCTGTCGGGTGGTCAC +AACGGGCTCCTGAAAGTCATTGAAAAGTTAGACGACGCTGGCAATTTCTTCTTCAGTTAACGGACGATAT +TCACCGGGGGCTAAATCAGCATCCAGCGTAATACCGCCAATACGTTCACGATGCAGCTCAACCACGTGGT +TACCCACGGCGGCGAACATGCGTTTCACCTGATGATAACGCCCTTCGCTGATGGTCAGACGAACCTGCGT +TGGGGTAATCACTTCCAGCACCGCAGGCTTAGTGAGATCTTTTTCGTTATGCAGCTGCACGCCTTTAGCA +AATTGCTCTGCCGTATCGTCAGCTACAGGTGATTCCAGTGTCACCAGATAGGTCTTCTCGCAATGATGGC +GCGGAGAAGTAATGCGGTGCGACCACTGACCATCATCAGTCATCAGCACCAGACCGGTGGTATCAATATC +CAACCGCCCCGCCGCATGCAGTTTCCACGCTACCGGTTCATCAAGAAAATAGAGCACCGTTGGGTGATCA +GGGTCGTCCGTGGAGCAAACATAGCCCTGAGGCTTATTGAGCATGAAGTAACGTGGACCGTGTTGCTGCG +CCAGCGGGTTGCCATCGTAAGCGACATCATGTTCAGGAAGCAGTTTGAACGCTGCATTACGGACGATTTC +GCCATCGACGGTGACACGATTGCCGCGGATTTCACGCCCGGCAATAGCACGGCTAACGCCGAGTTGCTGT +GCGATAAATTTATCAAGTCGCATGTGTGTGATTTTGCCTGTAAAAACGGAGGTCGGGCATTGACCCGAAA +ATCTGAACTGTTGTCTGCCCAGTATAGCGGTCTAATAACATCCCTCAAGGGAAAAAGATCCATGGCATAC +TATTAGCAGAATAATCTACCTACGCGAGACCATGATTTTTACACTTCGCCCATATCAGCAAGAAGCCGTG +GATGCCACGCTCAACCATTTTCGTCGTCATAAAACCCCTGCCGTTATCGTGCTGCCCACCGGCGCAGGTA +AAAGCCTGGTGATAGCGGAACTGGCACGGCTGGCTCGTGGTCGCGTGCTGGTGCTGGCACACGTTAAAGA +ACTGGTGGCGCAAAACCATGCAAAGTATCAGGCGCTGGGGCTGGAAGCCGATATTTTTGCCGCCGGGCTA +AAGCGCAAAGAGAGCCACGGTAAAGTGGTATTTGGCAGCGTGCAGTCTGTCGCCCGTAATCTTGATGCCT +TTCAGGGTGAATTTTCGCTGTTGATTGTCGATGAATGTCACCGTATTGGTGACGATGAAGAGAGCCAGTA +TCAGCAAATCCTCACTCACCTGACAAAAGTGAATCCCCACTTACGCCTGCTGGGGCTGACTGCCACGCCT +TTTCGATTGGGCAAAGGCTGGATCTACCAGTTTCATTATCACGGCATGGTACGCGGCGATGAGAAAGCCC +TTTTCCGTGACTGCATTTATGAGCTGCCGCTGCGTTATATGATTAAACACGGCTATCTGACGCCGCCAGA +ACGACTGGATATGCCAGTAGTGCAATACGATTTCAGCCGCTTGCAGGCACAGAGTAACGGGCTGTTCAGC +GAAGCCGATCTCAACCGTGAGCTGAAAAAACAACAACGTATTACCCCGCACATCATCAGCCAGATTATGG +AGTTTGCTGCAACGCGCAAAGGGGTGATGATTTTTGCCGCGACGGTTGAACACGCAAAAGAGATTGTGGG +ATTACTGCCTGCCGAAGATGCAGCACTGATTACTGGCGACACCCCCGGCGCTGAGCGCGATGTGTTAATT +GAAAATTTTAAAGCCCAGCGTTTTCGCTATCTGGTCAACGTCGCGGTACTGACCACCGGATTTGACGCCC +CGCACGTCGATCTTATCGCCATTCTGCGCCCTACCGAATCAGTGAGTCTTTACCAACAAATTGTCGGGCG +CGGTCTGCGTCTCGCTCCGGGCAAGACTGATTGCTTAATTCTTGATTATGCGGGTAATCCTCACGATCTC +TACGCGCCGGAAGTTGGTACACCAAAAGGCAAAAGTGACAACGTTCCGGTACAGGTTTTCTGCCCTGCCT +GCGGTTTTGCCAACACCTTTTGGGGGAAAACGACCGCCGACGGGACATTGATTGAACACTTTGGTCGTCG +CTGTCAGGGATGGTTTGAAGATGACGACGGTCATCGCGAACAATGTGACTTCCGTTTCCGTTTTAAAAAT +TGCCCGCAATGTAACGCGGAAAACGATATTGCCGCCCGCCGCTGCCGCGAATGTGACACCGTACTGGTTG +ATCCGGACGATATGTTAAAAGCGGCGCTACGACTGAAAGACGCGCTGGTATTACGCTGTAGCGGCATGTC +TTTGCAACATGGGCACGACGAGAAAGGCGAATGGTTGAAAATCACCTATTACGATGAAGACGGCGCGGAT +GTGAGTGAGCGTTTCCGTCTGCAAACACCTGCCCAGCGTACCGCCTTCGAGCAGCTTTTTATCCGCCCGC +ATACGCGCACACCGGGCATCCCGCTGCGCTGGATCACCGCCGCCGATATCCTCGCCCAGCAAGCCTTATT +GCGACACCCGGATTTTGTCGTCGCCCGCATGAAAGGCCAGTACTGGCAGGTGCGTGAAAAAGTGTTCGAT +TACGAAGGTCGTTTTCGTCTGGCGCACGAATTACGCGGTTAATGGTAGTTTTGATTGATGTATAAGGCGA +TTGAGTATAGAATCTCGCCCGCTTTTGCATACGCAAAGCAGATCACTTACCTGTTGCTGGGTCGCCTGTA +GCAGGATTAATTTAAGAGAGAAAGAAATGTTTACTATCAACGCAGAAGTACGTAAAGAGCAGGGTAAGGG +TGCGAGCCGCCGCCTGCGTGCCGCTAACAAGTTCCCGGCAATCATCTACGGTGGCAAAGAAGCGCCGCTG +GCTATCGAGCTGGATCACGACAAAGTCATGAACATGCAAGCTAAAGCTGAATTCTACAGCGAAGTTCTGA +CCATCGTTGTTGACGGTAAAGAAATCAAAGTTAAAGCTCAGGACGTACAGCGTCACCCGTACAAACCGAA +GCTGCAGCACATCGACTTCGTTCGCGCTTAATTGCTGAATAAGTTGTAAAAAACCCCGCTCCGGCGGGGT +TTTTTGTATCTGCAGATTATGCCTGATTACGGTATTGCTATTTTTTGCAGGCCAGATAAGGCGTTCACGC +CGCATCTGGCATTCAGAACACAAAACCGATTAATTGCCGCCAGACGTCCGGCGCTGCAATTGGTCGCGCA +AATTCGGCGGCGTGCCTTTAATGGTCAAGGTATCGGTTGCTGGATCCCAGAAGATGCGTTCACCTAACAG +CATCGCATCAAAGTTAATAGTCAAGCCACCGCCGCTACCGGCAAACTTCGTCAACTGACGCAGTGTGCTA +CGGTCTGCCGGGAAGCTCTCTTCCAGTTCGTAGCCTTTTTCAGCCGCAAACTCCGTGAAGCTCACTTCGC +TTACGCCTGCCAGCTCTTTCGACAGCGATTTCAGTTCGATCTCTTCGCCTGCCTGCAGCTGCTCATTACA +GTAGCTATAAACCTGCTGGCGCACGTTCTGTCGCTCTGCTTTATCCAGTTGTGCTTCGGCAGTGAAATCA +TCAACCGCTTGCAACAGCCCACGGTTTTGCGCTTTCGCGTTTAACCCTTCGCTGGCCCCGAGGAAATCCA +TAAAGAAATCCGCCACTTTGCGCCCTACTCGCCCTTTCAGGAAAGTGAGATAGCGGGTGGACTCTGGATT +GGTTTCCCATTCGGTTAAATCGATACGCGCAACAATATCCGCATGATTGATATCAAGATAATGGGTTGGG +TTGATGTCGAGATTTTCGTTAACGCGCATACTGCTCAGGTTGCTCAGAACTGCCACCAGCAAATACTCCA +CCGCCAGATAGCGATAGTGGCAAAACAGCACGAATCCACCGTCAGCAAAAGGATATTTCGCTAATTCGTC +ACGCAGGCGGCCGGTTGCCGCGCGGCTAAATGCCAGGAAGTCCTCTTCGCCCTGACGCTGTAAGCGCAGC +GTCTGCGCCAGTTCACTCTCTTCGCTAAACAAGCCGTAAGCTTTATTTTTGGCGCTATAGACCCGATGCA +GTTCTGCCACCATCTCAACGACGGTTTCTGTCGGTTCCAGCAATGAATCGCGCAACACCAGCTCAAGGTT +CTGCTCATCACGCTTGATAAGCTGGTGCAGAGCAATCTGGTTGATATCCAGACTCATGATAAACTCTCCT +TTAAGACCGGGCGGTATTCAACCACCGCCGGTTAAGCGACGCAATAAAAGATGGCGGTCATTTTACAGAA +GGCAGCGTAACGAGAATGATTTAACGCATAAAAAAGCAGAAAAAAAACCGTTGCTACGGTAATATGTTGC +CCTTTCATCAACTAACTGATTTCGATTTATGCCACAAATTTCCCGCTACAGTGATGAACAGGTTGAACAA +TTGCTCGCAGAGCTGCTCAACGTACTGGAAAAACATAAGGCTCCGACCGACCTTTCCCTGATGGTGTTAG +GCAACATGGTCACTAACCTTATCAACACCAGCATTGCCCCGGCCCAACGCCAGGCAATTGCCAACTCTTT +TGCCCGCGCCTTACAGTCCTCTATCAACGAAGACAAAGCGCACTAAGGGAAACAGATAACAGGTTATGGT +AACTCATCGTCAGCGCTACCGTGAAAAAGTCTCCCAGATGGTCAGTTGGGGGCACTGGTTTGCACTGTTC +AATATTCTGCTTTCGCTCGTCATTGGCAGCCGTTACCTGTTTATCGCCGACTGGCCGACAACGCTTGCTG +GTCGCATTTATTCCTACGTAAGCATTATCGGCCATTTCAGCTTCCTGGTGTTCGCCACCTACTTGCTGAT +CCTCTTCCCGCTGACCTTTATCGTCGGCTCCCAGAGGCTGATGAGGTTTTTGTCCGTCATTCTGGCAACG +GCGGGAATGACGCTATTACTGATCGATAGCGAAGTCTTTACTCGTTTCCATCTCCATCTTAATCCCATCG +TCTGGCAACTGGTTATCAACCCAGACGAAAATGAGATGGCGCGCGACTGGCAGCTGATGTTCATCAGCGT +GCCGGTTATTTTATTGCTTGAACTGGTGTTTGCGACGTGGAGCTGGCAAAAGCTGCGCAGCCTGACGCGT +CGTCGACGCTTCGCGCGCCCGCTGGCCGCATTCTTATTTATCGCCTTTATCGCCTCGCATGTGGTGTATA +TCTGGGCCGATGCCAACTTCTATCGCCCGATCACCATGCAGCGCGCTAACCTGCCGCTTTCGTACCCGAT +GACGGCGCGACGTTTTCTTGAGAAGCATGGTCTGCTTGATGCGCAGGAGTATCAACGCCGTCTTATTGAG +CAAGGTAATCCAGACGCCGTTTCCGTTCAGTATCCGTTAAGCGAACTGCGCTATCGCGATATGGGCACCG +GGCAGAATGTGCTGTTGATTACTGTCGATGGCCTGAACTACTCACGCTTCGAGAAGCAGATGCCTGCGCT +GGCAGGTTTTGCTGAGCAAAATATTTCGTTCACGCGCCATATGAGCTCCGGCAACACTACAGACAACGGC +ATCTTTGGCCTGTTCTATGGCATCTCGCCGAGCTATATGGACGGCATTCTGTCGACCCGTACGCCTGCGG +CATTAATTACTGCGCTTAATCAGCAAGGCTATCAGCTGGGGTTATTCTCATCAGATGGCTTTACCAGCCC +GCTGTATCGCCAGGCATTGTTGTCAGATTTCTCGATGCCGAGCGTACGCACCCAATCCGACGAGCAGACC +GCCACGCAGTGGATCAACTGGCTGGGACGCTACGCACAAGAAGATAACCGCTGGTTCTCGTGGGTTTCTT +TCAATGGTACTAACATTGACGACAGCAATCAGCAGGCATTTGCACGGAAATATAGCCGGGCGGCAGGCAA +TGTCGATGACCAGATCAACCGCGTGCTCAATGCACTGCGTGATTCTGGCAAACTGGACAATACGGTGGTG +ATTATCACTGCCGGTCGGGGTATTCCACTGAGCGAAGAGGAAGAAACCTTTGACTGGTCCCACGGTCATC +TGCAGGTGCCATTAGTGATTCACTGGCCAGGCACGCCGGCGCAGCGTATTAATGCTCTGACTGATCATAC +CGATCTGATGACGACGCTGATGCAACGCCTGCTACATGTCAGCACACCTGCCAGCGAATATTCGCAAGGT +CAGGATTTGTTCAACCCTCAACGCCGTCATTACTGGGTTACCGCAGCGGATAACGATACGCTGGCAATTA +CCACCCCGAAAAAGACGCTGGTACTGAACAATAACGGTAAATACCGCACTTACAACTTACGTGGTGAAAG +AGTGAAAGATGAAAAACCACAGTTAAGTTTGTTATTGCAAGTGCTGACAGACGAGAAGCGTTTTATCGCT +AACTGATTAATTATAAATCAGTTAGCGAAATATCTTACTTGCAATCGGTGTGGAAAACGGTAGTATTAGC +AGCCACGAGTCGGCACGTAGCGCAGCCTGGTAGCGCACCGTCATGGGGTGTCGGGGGTCGGAGGTTCAAA +TCCTCTCGTGCCGACCAAAAATCCCAAGAAAAAACCAACCCTTACGGTTGGTTTTTTTATATCTGCAATT +AATTCGATAAACAGACCGTGACACATCACAGCCTGTTTATTTTCTGTTATCAGAACGTCCAGACCACACC +CGCCTGAGTATTCCACGGCGATTCTACCCCTGCGCCATTGCCATAGCTGACTGACAAATGACCGCTTAAC +GTCGGGGTAAACGATGACCTTATACCAGCCTGATAAACGCCACTGGTTCCAGCCACATCATTATTAAATT +TGCCATCGTCATTAACTTTCACCTGGTTAGAATCGGCGTATTCCTGACGCACGGCCGCTTTCAGCCAGGG +TTCCAGCGTCGTACCGTTTTGCAGGTCCATGTGATAGCTTACCGCCGTTCCCGCTTCAGCGCGTAATATC +CGGGTATTTCCCACATCCGCGCGCATGCCGTTTGATAACGTGTAGTCCTGACCATCTGTGGTAAAGCCGG +TAAAGGCCAGATAGGGTCTAACACTCCACAATCCGTCAACCCAACGGAACCCGCTCTCAACATGAGCACC +CGCGCCGTTACTATTGTAATCGCCAAACGCTGTTGCCCCATTACTCATCTTGCCATGGATGGTGTTGGCA +AAACGGTCAACTTTCACCACCCCATCAACATAGGCACCGTTCTGATGCTCCCAACCGGCATAAGCCCCCA +GGGTATAGCTATCGATATTACCTTTGCCGCCGCGATCAAAACCAATATCAGAATGAGAGTAACCAAAGAT +CAAGCCGCGAATTGTACTGCTTTCTTCACGGGAGAAACGGCTATCGATACCGAGCGTCAGGCCCGTCAAT +GTTTGCTCAAAACCAGCTCCCGCATCAGTGGTCACGTTGTTGCGGGTGTTAATTGCCGAACTCCACATCG +CCGTATCGTAACTAACGCCTTTTACGCTACCAAGACGCTCACGCACGGTGTCCAGTTCTGCATCAAATAC +CAGCGGTTGTGCGGCCGCCATATTCAGCACATCAGTGGTTGAAGGGGTAATTTGCGCGCGATTCTCTGCC +AGACTCCAGCTATGGTTGCCATTATCCAGCAAGGTATATTCATACGTACCGATATCAACAACGCCTCCGG +CATTGCCCAACGTAAATGCAGCATCACCGCCGCCCGTTGTTACCAGTGTAAGGCTATCTCCTGCTGCCGG +GCTGGCACCGGTGTCCGTCACGAATATTTTGAAATCACCTGTTGCCTGACCGGTGACGTTGAGCTGATCG +CTCTGATGATTAGCCATATCGGTACGCATATAAAAATTGCCGTTTCCCGACAGGGTATTGGTGGTCAACG +TAATGAAATTTTCCGCACTTGCCGTCACTGATGAACGAGTCACTGGCTCATCCATCATAATCACATTTGC +GTCAGACATCGCAAGGTTGGCTAAGTTGAGGAGGGTGTTTTGGTTCGTCGTAGTGATATCGGCAATGATG +GTCCATACGCTATTTTCGAGCGAAACGTCCGCTTTGCTGGTATCCACGGCACCATGCGTTCTAAAAGAAG +CGCCCTCAGAAACCACTACCTTACCCACCAACATTGCGGGTGCATAATTTATTTGCGGCTTCATGACCTC +AAGAATGCCATCATTCCCTCTGACTGAAACGTTAACCATTGTGCCAGCCCAGACGTTAGCGCGGCCATTG +TTGATAACCATATTTTCAGAGATGGCTTTTGAGGAATACGTGATACTTCCATTCTGATATGATCGACCGA +GATCATATACCGCATTTGCCTGCACTTTCGTACCAGTATCCTTTCCCAGCGATTGCATAGTGGCATGCTT +ATCAAGGATAGTATCAATGGCCTGCGTGTCCTCCATAACAATGAGCCCGGAACCATCATCCAGTTCATAA +TTTTTTGACACACCATCTTTTATACTAAATTGGCCTTTACTGTTTGGACCACTCACTTCCAGCGCATTCG +TTGAGACAATTAATTTTCCGCCTGCTTTTTTATCAACGCCAGTTACAGTCCCGCCATCCATAACCTCCAG +TAAGCCGCCACTATCTACAGTGGTATTATAAGCGAAGTCATTTTCTTCAACTCGCAAACTTCCGCCGTTT +TCCAACAACATATTATTAGCAATACCATTCTTGATATCGAACTGACCGAGACGGTTTGTTCCGAATACCT +CCATGGCCCGCGTGGTTGTTTTAATAGCACCGCCTGCTTTCTGATCTACCGCAAATGCAAATCCCCCCTC +TTTAACCTCCAGTAGTCCTCCCTTTTCGATAGCGACAAAGACGGCCCCCCCATCTTTTTCAACGATTAAG +CGCCCGCCTTTAATCGTGGTATCATTCGCTGCGCCATAAACCTGTAGCACACCATTATTGAGCGTAGTCT +GGTTTGCCGCGCCACCCATTTGAACAATTTGATAACCGTCATTTAATACTGAGTATTCTGCGGCGCCATT +CATTTCAATGTACTGATACCCTCCGTTAATTTCAGTATTATTACTTACACCAAATTCTTTTATATGCTGT +TCTCCGCCAGGATTGATTTTCGTATTATTGGCGGTCCCATAAACCAGCTGGATATCTTTTTCCAGGACAA +CACCATCAACTGTCTCACCATACTCAACAGTTGATGCCAATGCTATGGGTGAATATAAGGAAGGTGCGAA +TAAGCGGGGAAATTCTTCTCGGCTGACTCAGTCATTTCATTTCTTCATGTTTGAGCCGATTTTTTCTCCC +GTAAATGCCTTGAATCAGCCTATTTAGACCGTTTCTTCGCCATTTAAGGCGTTATCCCCAGTTTTTAGTG +AGATCTCTCCCACTGACGTATCATTTGGTCCGCCCGAAACAGGTTGGCCAGCGTGAATAACATCGCCAGT +TGGTTATCGTTTTTCAGCAACCCCTTGTATCTGGCTTTCACGAAGCCGAACTGTCGCTTGATGATGCGAA +ATGGGTGCTCCACCCTGGCCCGGATGCTGGCTTTCATGTATTCGATGTTGATGGCCGTTTTGTTCTTGCG +TGGATGCTGTTTCAAGGTTCTTACCTTGCCGGGGCGCTCGGCGATCAGCCAGTCCACATCCACCTCGGCC +AGCTCCTCGCGCTGTGGCGCCCCTTGGTAGCCGGCATCGGCTGAGACAAATTGCTCCTCTCCATGCAGCA +GATTACCCAGCTGATTGAGGTCATGCTCGTTGGCCGCGGTGGTGACCAGGCTGTGGGTCAGGCCACTCTT +GGCATCGACACCAATGTGGGCCTTCATGCCAAAGTGCCACTGATTGCCTTTCTTGGTCTGATGCATCTCC +GGATCGCGTTGCTGCTCTTTGTTCTTGGTCGAGCTGGGTGCCTCAATGATGGTGGCATCGACCAAGGTGC +CTTGAGTCATCATGACGCCTGCTTCGGCCAGCCAGCGATTGATGGTCTTGAACAATTGGCGGGCCAGTTG +ATGCTGCTCCAGCAGGTGGCGGAAATTCATGATGGTGGTGCGGTCCGGCAAGGCGCTATCCAGGGATAAC +CGGGCAAACAGACGCATGGAGGCGATTTCGTACAGAGCATCTTCCATCGCGCCATCGCTCAGGTTGTACC +AATGCTGCATGCAGTGAATGCGTAGCATGGTTTCCAGCGGATAAGGTCGCCGGCCATTACCAGCCTTGGG +GTAAAACGGCTCGATGACTTCCACCATGTTTTGCCATGGCAGAATCTGCTCCATGCGGGACAAGAAAATC +TCTTTTCTGGTCTGACGGCGCTTACTGCTGAATTCACTGTCGGCGAAGGTAAGTTGATGACTCATGATGA +ACCCTGTTCTATGGCTCCAGATGACAAACATGATCTCATATCAGGGACTTGTTCGCACCTTCCATAACGC +TGTAGCCACCAGAACAGATATTGCGGAACGACAAAGAGAAACAGAACCAGATTGATGCATTGAGCTTTCA +TCCTATGAAATTAATTGCTGTTAAAAGCATTGGGTACAGAAAATACCCATAGCTCCATACCCGGAGTCAG +TTTTTAAAAACTGTTTAAAGAAATGCACAAGTATTGTGATTGATTTTTTAGTTGTTTTTCTTGATGAGAA +GCTGATGCAAAATTCCGTCTTTATAATGAAAATGATGCCAAAGCGAACGACAAGGTTGTAGTTTTCACTA +CATGTCCATACATAAAATGGGGTAACATTCACGCGCCTGGTAGCGTTACCAACGCTACGCTCAAACATAA +TGATTCTAATAAAACCTCAGGAGACTACTATGCCTGAAGCAACACCTTTTCAGGTGATGATTGTGGATGA +TCATCCACTTATGCGACGCGGTGTTCGTCAGTTACTGGAGCTTGATCCTGGCTCTGAAGTGGTCGCCGAA +GCGGGCGACGGCGCGAGCGCTATCGATCTGGCGAATAGACTGGATATCGACGTGATCTTGCTGGATCTCA +ATATGAAAGGTATGAGTGGCCTGGATACTCTCAATGCCTTGCGCAGGGATGGCGTTACCGCGCAAATTAT +TATCCTGACCGTATCCGATGCCTCCAGCGATGTCTTTGCGCTGATAGACGCAGGCGCAGACGGTTATCTG +TTGAAAGACAGCGACCCGGAAGTATTGCTGGAAGCGATTCGTGCCGGAGCGAAAGGCAGCAAAGTCTTTA +GCGAACGCGTCAATCAGTACTTACGTGAACGTGAAATGTTTGGCGCGGAAGAAGATCCCTTCAGCGTGCT +GACGGAGCGCGAGCTGGATGTTCTGCACGAGCTGGCACAGGGGCTGTCAAATAAACAGATTGCCTCGGTG +TTGAATATTTCCGAGCAGACAGTAAAAGTACATATTCGCAATCTGCTGCGTAAACTCAATGTCCGCTCAC +GCGTGGCGGCCACCATTCTGTTCCTGCAACAACGCGGGGCACAATAAAAATAGCCCGATGGATTTATCAT +CGGGCTGAGATTTATGACAAACGCAAAACTGCCTGATGCGCTACGCTTATCAGGCCTACGTGGATCGATC +AATTTATTGAATTTACACAATTTTGTAGGCCGGATAAGGCGTTCACGCCGCATCCGGCATAAACTAAGCG +CACTTTGTCAACAGTCTAGCCCGATGGCATCACCATCGGGCCTCTTTTTATTTACTCTCCTGCGGCGACA +AATGTTGCATCGCCTGCGCGATACTACGTTCAATCACCGCACGGCGAGTATCGTTGGCAGGTAAGAGTTT +CAACATCATCTCCCACGCGGCAACGGCTTCGCCAAATCGCTGCTGCTCAAAGGCATTAAACGCATACATG +CTTAGCACACGGATATTGCTATGGTCCGTTCTCACCAGCTGACGTAGCAGTTCACCGCCGAGGCGGTTGT +CGTTGGGATCAGATGAACGAGTCAACGCTTCAGCGTATCCCAGTGCAGCATCACTGTTTTTCGGATCGAG +GCGATACGCAGTGGCGTATGCATCGGTGGCGATACTGGCGTTACCCAGCGCCATGCCAACGCGGCCCAAC +ATAATCCAGCCTTCTATATCTCCCGGATTTTTTTGCAGTTGAGTACGCATCCCCAGCGCAAGACGCGACA +TCTCTTCTTCGTTGAGCGGATCGGCTTTCGGATCCAGCGCCCTGTCCAGCAACGCCGGAGCCTGTGCCGT +GGCCTGCTGCCAGATTTTCACCTGCTGATAATTGCCAGTCTGGTAGTAGCTGACGCCAGCCACAATTAAC +GCCACCACAATACCCGGCAGATAAACAACATATCCGGCACGCTTACCTTCCGGCACGCTTTGTTCAGGAA +ACGCTTCCGGCACCACGCGTACCCGACGCCGCGAGCGGGCGTATATGACCCAACCGCCAATGCCAATAGC +CACTACTGGCAGCACCCACAGCAGCACGGTCAGCGGCGTTAACGGCGGATCGTAAGTGACGAAGTTGCCG +TAACGCGCCACCATATAATCGACAATCTCTTTTTTACTTTTACCTTCCTGCATCAGTTCATACACTTTCT +GACGCAGGTCGGTGGCAATCATCGAGTTGGAATCGGCAATGCTGTTGTTCTGGCATTTCGGGCAGCGCAG +TTCTTCAGTGAGCTGACGGAACTGTTGTTCCTGTGCTTCATCTTTAAACTGCAACACATCGATGGTCGCC +AGCGCTGAGCCGGAGATCATCAGCATCAGCACGCCCAATAAAAACCTCATTGTGCGGCCTCCTTACTGTA +TTTCTCCCACAGCGGCTTGATCTCTTCTTCCCAGACGCGAGGATTCAGATCGCCCGCATGGCGATAGCGA +ATGATGCCGTTGCCGTCAATAAGAAACGTTTCTGGCGCGCCATAGACACCGAGATCCAGCCCTAACATGC +CATCGCCATCAAACAGGCTTAGCGCGTAAGGATTGCCCAGCTCTTTCAGCCAGCTGATTGCCTTCTGGCG +ATCGTCTTTATAGTTCATGCCGACCACGCGGATGCCCTGCGCAGAAAGCTGATTCAGATATTGATGTTCC +GCACGGCAGGTCGGACACCAGGTCGCCCAGACGTTAAGCAGTACTGGTTTGCCCTGAGTCAGCACATCCG +CCTGATAAAACTGCCCCGGATTGTCCAGTGATTCGAGACGAAACTTCGGCACAGGCTTGCCAATGAGCGC +CGATTCCAGATTGGTCGGATCATCCCCTTCGGCATTACGCGCCAGCTGCCACAGCAGCGCCGCGGCAATC +GCCAGGAAGATAATCAACGGAATTAACAATACTTTGCGCTTCATACGGCCTCCGGCGCAGTTTTTTGCGG +ACTCACGCGCTTACGATAGCGAGGATCAAACAGACACAGCAGTCCGCCCAACGCCATCATCAGCCCGCCC +GCCCAAATCCAGCGAACAAATGGTTTGTAGTAAAGACGCACGGCCCACGCGCCGTTTTCCAGCTCTTCAC +CGAGGGCCGCGTACAGGTCACGCGTGATGCCGCCGTCAATTGCCGCTTCGGTCATCATCGACCCGGCAGT +GTTGTAATAACGTTTTTCCGCATACAGCACCGTTTCCGGCTTGCCATCGCGCGTTACGCCGATAGTCGCC +ACACCGCCACGCCAGTTCGGGCCAGTCACCTCTTTGACATCACGGAAGGTGAAGCGATATTCATGAATAT +CGACGCTATCGCCGGACTTCATGCGCACATCACGCTCAACGCTATAGTTCTGGCTAAAGGCAATGCCAAC +AATTGTCACTGCCAGCCCAAGGTGAGCCGCCACCATCCCCCAATAACTGAAGGTGGTTTTCGTGCCGCGT +GAAATACGTAGCGCAGCTTCCGCAATTGCCAGCACCGCAATCCAGCAGGCCATTGCCAGGCCGAGCACCG +TCATCGCCACAACTTTGCTTTCGAACAGCCACGGCAACAGCAGCGACAGCACCAGCGTAGAGATGAAGGC +GATAATCAATAAATTGCGGATCTTACGCGGGCGATCCCGCCCCCAGCGCACCAGAGGACCGACACCAAGC +AGTAGCGCAAACGGCACCATCAGCCAGGTAAACATGGTGTTGAAGAACGGTTCGCCAATCGAAATACTGC +CCAGTCCCAGTTGCTTATGCACCAACGGCAGCAGCGTCCCCAGCAACACCACCAGCATCGCAGCGACCAG +CAAAACATTGTTCGCTAACAGCAAAGATTCCCGCGACCACAGCGCATTGTTTACGCGTGAGCGAACTTTG +TGTCCACGCGCGGCAAACAGCAGCAGCGAACCGCCAATCACCAGCACCATAAAGGCGAGGATAAACATAC +CGCGCGCCGGATCAGACGCAAACGCGTGTACCGATACCAGCACGCCGGAACGCACGAGGAAAGTCCCCAA +CAGACACAACGAGAAGGCACTGATTGCCAGCAGTAATGTCCACGCTTTGAAGCTGGCGCGTTGTTCAGTG +ACCGCCAGTGAGTGCATCAGCGCAGTCCCCACCAGCCACGGCATAAACGAGGCGTTTTCTACCGGATCCC +AGAACCACCAGCCACCCCAGCCGAGTTCGTAATAGGCCCATGCGGAACCGAGCACGATGCCGAGCGTCAG +GAAGATCCACGCTGCCAGCGTCCACGGACGAGTAAAACGCGCATAAGTGCTGTCCAGACGCCCGCTCAGC +AAAGAAGCAATGGCAAAAGCAAACGCCACCGAGAAACCCACGTACCCCATATAAAGCAGAGGCGGATGGA +AGATCAGCCCCGGATCCTGCAATAGCGGGTTAAGATCGCGACCTTCAATCGGGAAGTTCGGCAACGTGCG +AGAGAACGGGTTAGAGGTAAAGAGAATGAACAGCAAAAAGCCGACACTGACCATCCCCATTATCGCCAGT +ACACGGGCCACAATATCCAGCGGAATACGCTGACTAAAAATCGCCACCGCAAAGGTCCAGCCGCTCATCA +GCAGCACCCACAGCAGTAGCGAGCCTTCATGCGCGCCCCAGGTAGCCGCCACGCGATACCACACCGGAAG +CTGGGTATTGGAGTTGCTGGCAACATAGGTGACGGTGAAGTCGTTGACCACGAAAGCATTGACCAGCACC +AGAAATGCGCCAGCCACAGACATAAACAGCAGCCAGGCAAACAAGCGGGAAGACGCCATCATGCGCGCAT +CTCCGCGCGCCACGCCCCATAGCGGATACACGGACAGCAGCAGCGCAATTCCCAGCGCCAGGCACAGCAG +TCCGTTACCAATTTCTGGCATCATGATGCTGGGTCCTTATAAACACTCGCCGGGCGACGGTGGTTAGCTT +CCATCGCTTTCTCAACTTCTGGCGGCGTATAGTTTTCATCGTGTTTCGCCAGCACTTCTTTCGCGAGGAT +ATGATTGCCTTTTTCCAGTTCGCCCTGCACCACAACGCCCTGCCCTTCACGGAACAGATCCGGCAAAATG +CCTTCGTAAGAGACATCCACTGAGCCTTCAGCATCGTAAATGGTGAAGGTCACTTTCAGCGAATTGGGAT +CGCGCTGCACACTACCCGGCATCACCATCCCGCCAACGCGCAGACGCTGACCGACTTCCGGCATTTGCTG +AGTTTCACGCTTGCCGTAGAGAATTTCCCCCGGCGTATAAAAGAGATCGATATTCGAGCGCAGCGCATAT +AGCACCAGACCGATAGTCAGCGCCAGCCCTGCCAACACGGCACAGGCAATCCACAAGCGGTTTTTACGGC +GAATATTCATGCAGCCTCCTGCTGTTGCGCAGCACGTAAACGCGCCTCACGCGCCCGCTGTTGCGCCACG +CCACGCAGAATTGCGCGATGTTGCATCACCGAGTGCACGACCAAAACCACCAGCGGAATAACGGTCATCA +CCACCGCCAGCCAGACAAAAAAGGCGTAACCGCCCATTGCGAAAAATTCATTCCAGGAAGCAAATGCAGG +GGTCATTTACGGCCTCTTTTCAGTATCAGTTCACTCACCCACGGACGGCGTTTTTCCATCAGCAAAATCA +AATTACGCATCCGCATCAGCGTCAGCGTGGCAGACAGGAGCAGGAAGCCAAAAATCGACCAGCGCAGCGG +CGAACGCATCGCCGGATCGATACTTTGCTGCATCCGCGTTGATCCCTGATGCAGGGTGTTCCACCACTCC +ACGGAGTAATGAATAATCGGCAGATTCACCACGCCAATCAGCACCAGGATACCTGCCGCACGGCCCGCCA +GACGGCGGTCGTCGAAGGCGTGCCACAGGGCAATCACACCCACATACAAAAACAGCAGCACCAGTTCAGA +AGTCAGACGTGCATCCCATACCCACCAGGTGCCCCACATCGGTTTTCCCCATGCAGAGCCGGTAACCAGG +GCAATAAAGGTAAACACGGCACCAATGGGGGCCATCGCCGCCACCGCCAGGTTGGCCATTTTCATCTGCC +AGACAAGGCCAATAAACGCTGCCACTGCCATTGATGCATAAATGCCCATCGACCAGATCGCCGCAGGCAC +ATGCAGGTAGATAATGCGGTAGCTATTTCCCTGCTGATAATCAGCCGGAGCAAAGCCGAATCCCCAGATC +CAGCCGACGGTAAGCACGACCACACTGGCAATTGCCAGCCACGGTATAAACCAGCCACAGATTTGATACA +GCCGTGGTGGGATCGCCAGTTGATGCAGTGTTTTCCACATAGTTTCGATACCAGACTCGAACAAAAATCA +GTAATCCAGCGTTATTGAATGCTGATTCGTAACGCTGCCGCCGTCGCAAAAGGACTTAATGTCGCGGTGC +CTGCCAGCAACGCGCCTAAAATTGCCAGATACCCGTCAACGGGCAAATGCATAGAAGCCGCGTCCATCGC +GGCGGTGGCAAAGATGAGTAATGGGATAGTCAGCGGTAACACCAGTATGCTGAGCAGCACACCACCGCGC +TTAAGTCCCACTGTCAGCGCCACGCCCGGTGCACCGAGAAAGCCAAGCGTAGGCGTTCCCAGCAGCAGCG +TCAGCGCCATCACTTGCCAGCCATAAACATCCATTCCCAGTAGCATTGCTACCAGTGGCGAAAGGATGAG +TAACGGCAGACCGGTTACCATCCAGTGCGCCATCACCTTCGCCAGCACAACGGCGGGCAAGGGTAACGGC +AACAACATCAATTGTTCAAGACTGCCGTCCTGCAAATCGTCACGGAACAGTCGTTCCAGCGCCAGCAAGG +ATGAAAGCAGCGCAGCAACCCAGATAATGCCCGGTGCAATACGCGCCAGCAGTTGCGGCTCCGGACCGAT +ACTGAGCGGAAAAAGGGTAATTACAATCAGGAAGAACCACAGCGGGTTGGCGATTTCGGCGCTATGGCGA +AACGCTACACGCAGCTCAAGACGGAAAATGCGCCAGAACATCATGCGGCCCTCGTTTGCGTCAGTGAAAT +GCGGCGAATTTTACTTTCAGCAACGTTGAGCGGCTGGTGGGTAGTCAGAATCACAATCCCCCCCTGCTCC +GTATGCTGCGCCATACGCTGGGTCAGACGATCGACACCGTTAACGTCAATCGCGGTAAAAGGCTCGTCGA +GGATCCATAACGTGGCACGGGTCAGCCACAGACGCGCTAAAGCGACGCGGCGTTGTTGCCCGGCCGAGAG +CTGATTTACAGGAATATCTTCGAATCCGGCAAGCCCGGCCTGCGCCAGGGCTTCCAGACATTGTGCGGTA +TCGCCATCGCGATGATAAAAGTGCAGATTTTCTAACGCCGTCAGCCGGGTTTTGATCCCCGGCTGATGGC +CTATCCATAACAGGTTTTGATGGTAGCTGTCGCGTACCTGATGCAAGGGCTGCCCTTGCCAGAGAACCTC +GCCTGCGTCAGGGCGAGACAACCCCGTCAGCAAACGGAGAAGCGTTGTCTTCCCCGCGCCGTTGCTACCG +GTGATTTGTACCCACTCTCCTGCGTTCAGCGTAAATGACAAGCCACTAAATAAGGTTCGTTCATCCCGCT +CACAAAGTAACTCTCTGGCTTCAAGCATACCCACGCAATAACCCTGTTAAAAACCTGGCTCGACTTCACG +CATATCGGGCAGCTTGTGCGCTATCCCTTTATGGCAATCAATACAGGTTTGCCCATCTTTCACCGCCTGG +TCATGCATCTTCGCGGCAACCGATTTCTGGGCGGTTGTATCCATATACTCGAAGTTGTGACAGTTACGGC +ACTCCTGCGAGTTATTGTCCTTCATGCGCCGCCACTCATTCTGTGCCATCGTCAGACGATGAGCTTCAAA +TTTCTGCGGCGTGTCAATAACGCCAAAAATTTTACCATACAGCTCTTTACTTGCTTTGAGCTTGCGTATC +ATCTTCGGCACAAACTCGTGCGGAACGTGACAATCCGGACAGGTCGCACGGACGCCGCTACGGTTGTTGT +AGTGCACGGAATCCATGTATTCCTGATACACCGTGTTGCGCATTTCGTGGCAGCTAATGCAGAACTCTTC +GGTATTGGCTTTTTCCATCCCGGTGTTAAAGCCACCCCAGAAGACGATGCCGCCAACAAAACCGATCAAC +AGCAGCGTCCCCAGCGCCAGACGGCTGGGGGTACGCCACCATTTCCACAGGCGCTTAATCAGACCAGGCT +TACGGTCAGAATTTCCCATAATAACCTCTTATTTCCCGTAACCTTTTGATGGGGTAAAGGTATTCCCCAC +GATTGGCGCGGTATCGGCCTGCGGTACGTGACATTGCAGACAGAAATAACGACGCGGAGCCACTTCCGCG +CCCACTTTGCCGTCGCTGTCCATAAAGTGAGTAGGACTGATACGCGGCGCGCCAGTGGTGCGATAGCTTT +CGACACCGTGGCACTGCAAGCAGCGATTGGTATTGGTCGTTACCTGATAACCTTCAACGCTATGCGGGAT +CATTGGCGGCTGATTCACATAGTTCAGCGGCATCCGATCCTGCTCTTTTGGCATCCGAATGGCCCCTTCC +TGTGTCCCGGATACTTCCGGCGACTGGCTAAAATCGACGCCATTAGCCGCCCAAACCGCGCCGCTTACCA +CCAGGGCCAGCATCGCCGTCCATTGACACAGCGCTTTCTTCAGGTCATGGCTTTTCATGATTTCGCTCCC +GAACTCCATCGTGTAGTTATTGTAAATACATCCTCAGAACAGACATCCACGCAGCGACCGCACGTCATGC +AATCGCGGCTGGTGACCTGCACCGGGCTTTGTTCATCCAGCACCGGGGCACGTAGCACATGCGGTTCCGG +GCAAACATGAAAACAATCCATACAGCGGTTACATTTCTGCCGATCGGTGGCCGCAACGGTAATCACACCT +TTGCTACCCAGCACGCCATACAGCGCGCCAACCGGACAAATGTGCCCGCACCAGCCGTGTTCAACGACCA +GTAGATCAAATAAAAACAGCGCGAGAATAAGCAGCGCGCCGCTGCCGAAGCCCATTACCAGGCTACGCCC +CATCAGAGAAACGGGGTTGATCCATTCCCAAATGAGCGTGCCAGTTAAGGCTGATCCCACCAGAATGACC +ACCAACAGCACGTAGCGAATGTGGCGAGGGATCGTCGCAGACTGATTGAGGTCAAAGCGCCTGCGTAACC +AGTTCGCTAAGTCGGTAATCGGGTTCAGCGGGCAGACCCAGCTGCAAAATAATCGCTTTCCCGCCAGGGC +GTAGAGCACGGTGATAATCACCGCACCGGTCAACGCCACCGTGGCAGGCAGATGACCACTGGCAAGACTT +TGCAGCGTCATCAGCGGATCGGTCAGCGGAACGGTGTCGAATAACAGGCTACTGCTGTAGTTGCCGTGCA +AGATCCACACACCAAACCATGGACCGCTCAAAAACATCCCCAGCACGAAGAACTGACAAAGGCGACGTAA +CACCAGCCAACGGTGACTGCGCCACCAGCCTTTTTTCTCCAGCGCCTCGCGCCCGGCGTCACGTTTACGA +TTTGCCATTGTTCCCCTCCAGCCAGCCGAAGCGGTAATGGTGACCTAACTCCCCTTTCGCCAGTGACAGC +GGTAACACCTTGATTGCCGGTTGTTCCAGCACGCATACTTTTTCGCACTTACCGCAACCGGTACAGGCGT +CGCTGTGAACCGTCGGCAGAAAGCGGGCGTGCTTACCGGTACGCGTGTTGCGCTCCAGCTCCAGGGTGAT +GGCCTCATCAATTTTCGGGCATTCGCGATAACAAACATCGCAGCGCAGCCCCTGAAAGTTGAGACAGTTT +TCCTGGTCCACCAGTACCGCCAGCCCCATCCGCGCGTCGTCGATCGATTCAATCTCACGATCCAGCGCAC +CGCTTGGGCACACTTTGGCGCACGGAATGTCCTCACACATTTCGCAAGGAATATCCCGTGCGACAAAATA +TGGCGTGCCCGCCGACAGACCAGAGGCCAGCGTCGCCAGTTTTAAGGTGTCGTAAGGGCAAGCCTGAACA +CACTGACCGCAACGCACACAGGCACTGGCAAAGGCGTTCTCGTTTATGGCTCCGGGCGGGCGCAACCGCA +CGCCAGATGCGCGTGCGGTTTGCTGTTGTAACCCCAGCGCCACACCCACGGCAGCCAGCCCGCCTGCTGT +GCGAACGACATCGCGCAGAAAGCGGCGGCGACCATTTTGAGGTTTCGCTGACCGGGACATAATGGCTTAC +ACCTTCTCCAGTTTGACCGCGCACTTCTTGAAGTCCGTCTCTTTCGAGAGCGGATCGGTCGCATCCAGCG +TCAGTTTGTTAACCAACTGTGCGGCGTCGAAGAACGGCATGTACACCAGGCCCTGTGGCGGACGGTTACG +ACCGCGCGTTTCAACAATCGAGATCACTTCGCCACGGCGAGAAACCACTTTCACTTTGTCGCCACGGCGC +AGATCGCGCGCTTTCGCATCCAGCGGGTGAATAAACAGGACCGCTTCCGGGAAGGCGCGGTGCAGTTCTG +GTACACGGCGAGTCATACTGCCGGTGTGCCAGTGCTCCAGAACGCGTCCGGTAGAGAGCCACAGGTCGTA +CTCTTCATCCGGTGCTTCCGCCGCCGGTTCGAATGGCAGTGCGAAGATCACCGCTTTGCCATCCGGTTTA +CCGTAGAACTTATAGCCTTCGCCCGCTTTCACGTACGGGTCGTTACCTTCGCTGTAACGCCACTGCGTTT +CTTTACCGTTCACCACCGGCCAGCGCAGACCGCGCGCTTTGTGGTAGTCATCGAACGGTGCCAGATCGTG +ACCGTGACCGCGACCAAACCATGCGTACTCTTCGAACAGCCCTTTTTGCAGATAGAAGCCCAGCTCGCGG +GATTCATCGTTCAGCTGATCTTCCGCCAGTTCGGATACCGGGAATTTGCTCACTTCCGGTGTGGCATACA +GCACTTCGTACAGCGTTTTGCCACGCAGTTCCGGTTTCTTCGCCAGCAGATCTTCCGGCCATACTTCTTC +AGTTTTGAAGCGGCGGGAGAACTGGACTAACTGCCAGAGATCCGATTTCGCTTCGCCCGGTGCCTGTACC +TGTTGACGCCAGAACTGAGTACGGCGTTCGGCGTTACCGTAAGCGCCCTCTTTCTCTACCCACATTGCGG +TCGGCAGGATCAAGTCGGCGGCCAGCGCACTGACTGTCGGATACGGATCGGAGACGATGATGAAGTTGCG +CGGATCGCGCCAGCCCGGCATACGCTCTTCATTGATGTTCGGCCCGGCCTGCATGTTGTTGGTACACATG +GTCCAGTAAACATTCAGTTTGCCGTCTTTCAGCGCACGGTCTTGTGCCACCGCGTGCAGACCGATTTTCG +CCGGAATGGTGCCGCTCGGGATATTCCACTTCTTCTCGCAGATATCACGGTGTTTCTCGTTGGTCACCAC +CATGTCCGCAGGCAGACGGTGAGCAAAGGTGCCCACTTCACGCGCAGTACCACACGCAGAAGGTTGCCCG +GTCAGGGAGAACGGACCGCAACCCGGCTGGGAAATTTTGCCGGTCAGCAGGTGCAGGTTGTAGACCAGGT +TGTTAGCCCACACGCCACGAGTATGCTGGTTGAAGCCCATCGTCCAGTAGGAGATGACTTTCTTGTTCGG +ATCGGCATACAGCTGCGCCAGTTGTTCTAACTGGTCTTTCGGCACGCCGGTCATTTCGGCAGTTTTTTCC +AGCGTATACTCGGCAACGAAGGCTTTGTAATCTTCAAAGCTCATCGGTTCGGAGGCGTCAGAACCCGGAT +TCTTCGCTGCTTTTTCCAGCGGATGGGTCGGACGTAAACCGTAGCCGATGTCCGTCGCCCCTTTGCGCAG +GTTAACGTGCTTGCTGAAGAAGTCCTGATTTATCGCATTGTTTTGAATGATATAGTTGGCGATGTAGTTC +AGGATCACCAGGTCAGATTGCGGCGTAAAGATGATGCCGTTATCCGCCAGCTCGAAGCTACGATGCTGGT +AGGTAGAAAGCACCGCCACGGTGACGTTCTGGTTAGAGAGACGACGGTTAGTGATGCGCGACCAGAGGAT +CGGGTGCATTTCCGCCATGTTTGCGCCCCACAGCACAAACGCGTCAGCCTGCTCGATGTCGTCATAGCAG +CCCATCGGCTCATCCATACCAAAGGTACGCATAAAGCCAACTACTGCCGACGCCATACAGTGACGCGCGT +TCGGGTCGATGTTGTTCGAACGGAAGCCCGCTTTAAACAGCTTGGACGCGGCATAACCTTCCCAGATAGT +CCACTGACCAGAACCGAACATACCGATCGATTCCGGCCCTTTTTCTTTCAGGGCGGTTTTGAATTTCTCT +TCCATCACATCGAAGGCCTGATCCCAGGTGATTGGGGTAAATTCGCCTTCTTTGTCATATTTACCGTTTT +TCATACGCAGCAGCGGCTGCGTCAAACGGTCTTTACCGTACATGATTTTGGGCAGGAAATAGCCCTTAAT +GCAGTTCAGGCCACGGTTAACCGGTGCGTCCGGGTCGCCCTGACAGGCCACCACACGTCCCTGCTGCGTT +CCGACCAGAACGCCGCAACCAGTACCGCAGAAACGGCACGGCGCTTTATCCCATTTGATGGCTTCCTGCT +GACCAACAACGGCGCGGGCAACGCCCGGCACGCTGAGACCGGCAGCCGCCGCAGCGGCCGCAACGGCGTT +AGCTTTCATAAAGCTACGACGACTGAGTTTCATGGTGTTTCCTCACCTTGCTCTTCCTGCTGGTGATAAA +CCAGCGACACCGCCAGCACGCCCTCTACGTTGCGTACTGACTCAATGGTTTGGATCAGCGTTTCGCTGTC +TTCTGCTTCCACCACCACAATCAACTGACCGCTCGGCGCGTCGCTGACAGCAACTTCACAGCCGGGAAAG +GCGTTCAGTTGGGTGCTGATGTCTGAAATTCGTTCGCTTTTGGCCTGCACGACCAGGCTGCAAACTTGCC +AGTTAGTGTGCATGGAGATACTCCGCAGTTATGGCTGATACCGGACAGCTGGCTGCACATGCTCCACATC +CGTTGCAAAGTTGGCTATTAAGTTGCGGCTGGTAGATCCCGGAGAGCGTCGGGCGAAAGATAATTGCCAT +TGGCTCACAGCTATCCTGACAGCGGCGGCATTCAACTGACTGATACGCCAGGCACGCGTCCCCGATGGTG +AACTGCAAATCCCAGGCCCTGGTGTGGCGCGGAGAAAATAGCGATTCGGGGCAAGCCTGCGCGCAGGCGT +AACAGAAGCTGCACTCGTTATTTTTGAAATTAACGCTCGGATAGCCGCCCGCGCCGCGTTGCAGAATGTT +GTTTTCACAAGCATTAATACAGGCGTCGCAGCGGGTGCAATGGGTCAGAAAATGAGATTCATCACCGGAC +CAGGGCGGACGGATACCGTTACTGGCTTTGCGCCAGCGACCAGTGAGTATGCCCCGACGGGATGCATCAA +TCTTCACATTGACCTTCCATCATTAACGCGCTCTGAAAATTGAGAGCGACCAAATAAACCGCATAATTAA +TAAGCCATTTTTATAGCCGCTAAGATATTAAAGGATGTGTCAAAGATGCATACCCCGATCGGGGTAAAAC +CTGTAGCAGGATCAAAAGAGTGGCGGGAAGCGTGGCAAAAACGGGCTTTTGCTCACATTTCAAATGGTTA +TAAATATATTTATATAGCGATTGATTCACCAGAGATATTTCTGCTGGTTTGCTCTCTCATTAGAATTTAA +CACTAAAAGAGCAGGTAAAATTGTCTGAATGTTCTTTAAGTTATTCATAAAGCAAATTAATAAATCTGAT +GAATATGTTAACCTTCAGCGACATCATCGGTGAAAACCTATAAATGAAGAAGGAAAGCAAAAAAATGAAG +ACCATTCTACCTGCAGTATTGTTTGCCGCTTTCGCTACCACTTCCGCCTGGGCGGCAGAAAGCGTCCAGC +CACTGGAAAAAATCGCGCCTTATCCACAAGCTGAAAAAGGGATGAAGCGTCAGGTGATTCAGTTAACCCC +GCAAGAAGATGAATCTACCCTGAAAGTAGAACTGTTAATCGGTCAGACGCTGGAAGTCGATTGCAATTTG +CATCGTCTCGGCGGGAAGCTGGAAAACAAAACGCTGGAAGGCTGGGGCTATGATTATTATGTCTTTGATA +AAGTCAGTTCCCCGGTTTCAACGATGATGGCCTGCCCGGATGGCAAGAAAGAGAAGAAATTTGTCACCGC +GTATCTGGGCGATGCTGGAATGCTGCGTTACAACAGCAAGCTGCCGATCGTGGTGTATACGCCAGACAAT +GTAGATGTGAAGTACCGCGTCTGGAAGGCGGAAGAGAAAATTGACAACGCGGTAGTTCGCTAAACTGCCG +TGAAGTGCGGCACCCCGTAGGTCAGACAAGGCGGTCACGCCGCATCCGACATCCAACGCCCGAGCCGGTT +GCCTGATGCGACGCTGGCGCGTCTTATCAGGCCTACACCGCTGTGAAGTGCGGCACCCCGTAGGTCAGAC +AAGGCGGTCACGCCGCATCCGACATCCAACGCCCGAGCCGGTTGCCTGATGCGACGCTGGCGCGTCTTAT +CAGGCCTACACCGCTGTGAAGTGCTCCACCCCGTAGGTCGGATAAGGCGGTTACGCCGCATCCGACATCT +AACGCCCAAGCCGGTTGCCTGATGCGACGCTGGCGCGTCTTATCAGGCCTACACCGCTGTGAAGTGCTCC +ACCCCGTAGGTTGGATAAGGCGGTTACGCCGCATCCGACATCCAACGTCCGAGCCGGTTGCCTGATGCGA +CGCTGGCGCGTCTTATCAGGCCTACACCGCTGTGAAGTGCTCCACCCCGTAGGTCGGATAAGGCGGTTAC +GCCGCATCCGACATCTAACGCCCAAGCCGGTTGCCTGATGCGACGCTGGCGCGTCTTATCAGGCCTACAC +CGCTGTGAAGTGCTCCACCCCGTAGGTTGGATAAGGCGGTTACGCCGCATCCAACATCTAACGCCCGAGC +CGGTTGCCTGATGCGACGCTGGCGCGTCTTATCAGCATACGCCACATCCGGCATACCATGCCGGATGTGG +CGTATCATTACAACGCAATATCCGCCACTTCTTTTTGAACGGGTTGCGGTTTCAACTGCGGTTTCGGCGT +ACTATCTGCTGCCTGCGGCTTGTCGTAGTTCAACCCCAGCACTTCGCTGGTGTACTGCAACTCGCGTTCT +GTTGCCGCTACATCACCGTTCAGCTTGCGTCCATAAGACGGAACGATCGCTTTCAACGTAGCCTGCCATT +GCGGGCTGGAAACACGATCGCCAAATACTTTTTCCAGCAGATTCAACATAATCGGCGCGGCGGTTGACGC +CCCTGGCGATGCCCCCAGGAGCGCGGCAATGGTTCCTTGCTGGTCACTGACGACTTCAGTACCCAGACGC +AGTACGCCACCTTTCTCGGCATCACGCTTGATAATCTGCACGCGCTGCCCCGCTTGCCACAAACGCCAGT +CCTCTTTTTTCGCCTGCGGATAGTACTCTTTCAACGCTTCAAAACGATCCTCTTCACTCAACATCACCTG +ACTCACCAGATATTTCACCAGATCGAAATTATCCAGCCCGACGTGCATCATCGGCATCACGTTAGAGGTG +GTGGTGGAACTCATTAGATCCCACAATGAACCGTTTTTGAGGAATTTGGTTGAGAAGGTGGCAAATGGCC +CAAACAGCACTACGCGTTTACCGTCCAGAACGCGGGTATCGATATGCGGAACCGACATCGGTGGTGCGCC +AACGGATGCTTTACCGTAAACCTTCGCCAGATGGTGATTAACCACGTCCGGGTTTTCCGAAACAAGGAAC +TGTCCGCCCACCGGGAAACCGGCGTAGTCTTTCGCTTCCGGAATCCCCGATTCCTGTAACAGCTTCAGCG +CCGCACCGCCCGCGCCGATAAAGACAAATTTGGCACGAATGTTCTGTGCAGTGCCATTTTTCAGATCGGC +AACGGTAACGGTCCAGGTGTTATCGTCATTACGCTTTAGGGCGCGGACTTCGCTGCTGAGTTGCAGCGAG +AAGTTAGATTTCTTCTGCAAGGAAGCAATTAACTGGCGGGTGATCTCGCCGTAGTTCACATCGGTACCAA +TTTCCGTACGCGTGGCTGCCACTTTCTGTTGCGGATCGCGCCCTTCCATCACTAACGGTGCCCACTCTTT +GATCTGCGCGTGATCTTCAGAGTAACGCATACCGCGAAACAGCGAGCTTTGTTGCAACGCGGCGTAACGG +GCGCGCAGGAAATTGACGTTATCCTCGCCCCAGACAAAGCTCATATGCGGAACGGTATTGATAAATGAAC +GCGGAGTACGCAGCACGCCGCGCTCAACCTGGTGCGCCCAGAACTGGCGGGAAATCTGAAATGCTTCGTT +AATGGCGACTGCTTTTTCAATACTGATGCTGCCATCGGCGTTTTGCGGGGTGTAGTTCAGTTCCATCAGT +GCAGAATGCCCGGTTCCGGCGTTATTCCAGCCGTTCGAACTCTCCTGCGCGACACCCTCCAGGCGCTCCA +CCATGGTCATCGACCATTCAGGCTCCAGCTCGCGTAAATAGGTCCCCAACGTGGCGCTCATAATGCCGCC +GCCAATCAACAGTACATCAGTTTCCTGCTCCTCGGACGCTTTCGCTTTTGCCGCCATCGAAACGGCATTA +AGCCCCACGGCCATCGAGAAGAGCATGGCAGTCACTTTTTTCATCTTGTTAATGCCTTACTTTTAGTCGC +TTTATTGCAGGTGAGATTTGCGCGGCATCAACGGTAACACTTAAGTAACAACATTTAAATAATGTTTATA +AATTATATTCTAATTTTAGAAACATTATAATTTCGTTGATTAATTATAGGGTTATTAGAAATGAAGGGAT +TTTTAGCATATTGACCTGACGGCAGCAGTCCGCCAGGTCAGCGTCGTAATATTATGCCGTCCGGGCAACG +GCATCACGCGAAGCGGCATCGCGCTCTTCGCCCGTCAGCTCGCTAAGTTGCCCATTGCGCATTTCCAGCA +GGCGGTCGGCGTGGATAAAGTAATGATCATCATGACTGATAGCGAAAATAGTTTTACCCATCTCCTGCAT +CAGCGGCAGCAACACCTGATAAAACTCACGACGGAAGTGTGGATCCTGATCCGCCGCCCATTCATCCAGC +AGGATAATATCGCGTTCTTCTGCCAGCGCCAGCAACAGCGCCACGCGTTTTTTCTGCCCTTTTGATAACT +TCAGGTTAACAATACGCCCGTTGCTTAACTCAAGCTTATGAGCCATTTTCAGCTGCGCCAGCCACTTCTC +AACCAGTTGCGGGTTAGCGGGTTTACCCTCCGGCCCCAGCAGTTGATCAAACAGCCAGACATCGGTAAAC +ACTGCCGAAAACAGTTTGCGATAATCTTCCGGTTGTTCGCCGCTGACAGGTTTGCCATCCAGCAAGATTT +CGCCGCTTTGTGGCTGATACAAGCCCGTCAACAACATCGCCAGCGTCGATTTTCCGCTACCGTTGCCGCC +AATCAGAAACAGCAGCTCGCCACGTTTGATGGTGAGATTAATCGGACCAACGGAAAACGCGTTATCCTGA +TAAGCAAACGTCACGTTACGCAGCTCCAGCGTTTGCCAGTTGGGAAACGCCTGCGGGCGCGGAAACTCTG +CTTTGAAAGGCGCGAGCGCGAATTTGTTCAGCTTGTTAAACGCCACCTGCGCCGTCAGCAGCGTCGGCAA +TGCGCCAACCGCCGAAAGCAGCGGCGTACGCAGGAATAAAAGCGTCAACGAATAGGTCGCGGCAACGTTG +GTATCAGCCCAACCGAGGCTGTTCGCCATCCAGAACACCAGGCCGATTGCGCCCAGCATCATGATGTTTG +ACCAGTTCACGGCACTAAGATGGAAGGTGTCTGCGCGAATAATATGGTGGCGATACTCTTGCGCATCAGG +AATGTAGAGGTTGTTAAACACATACTCGGCGCGTTCCCGGTTCAGAGTCAGCTCTTTGCGCCCTTCAAGT +ACAGTTTGAAAATCCGTGTACAGCTTGTCTTCGGTTTCACGCAGGGTCGCCATATGTTTGTACACCCGCG +CCACCAGCACAAAACCGCCCCAGATGGTGATCGCCATCCAGATAGCCGTTACCAGCAACATTTTGCCCGA +CAGCATCCACAGATACGCCGCTGAACCGATAGTGAGAATGATCCCCTGCACCAGTTCCGGCAGACGCACA +AAAGCAATGGTGATATTGCGCACATCGCTGGTTAACCCCGCCAGCAACGAGGCGCTACCGAGTTGTTCAA +TGCGCTCGACGTGAGTATCCAGAATCCGCTTGATAAATTCACTACGCAGTCGGTAAACGAAGTGATGCCC +CAAAGTGGTGAGCGCCAGTTGCGATCCGAGAGTGACTGCCATCAACAGCAGCAATAATCCCAGAAACTCC +GGCAACACCAGCAGACTGGTATCCGCCGTTTCGATAAGGCGCTGATTGATAAAAGCAATTAAGCCAATGC +CTAATGCCGCACTGGCGAGGCTTAGCGCCATCACACTGATAAATGGCCAGCGATACTGCCGCCAGACAAG +TACAAGAAGTTCCATGCAGAAAACCCGGACAATGAATTACAGCCCGCAGTTTAAACATCTTCGCGCGCAC +AGCAATAATAATTCTTATTTTTATTCTTTTTTACCTGCCTGACGGAATGTCAGGTTGTAGCGGCAGTCGA +TGGTGAGTGGATGAAACCCCGCTTTCAACGGTTGAATACCGTGATAAAACAGCCGCGATTCACCGCCCCA +TACCACCACATCGCCATGTTCCAACAACAAACGTTTGAGCGGATCATTTCGTTTCAGGCCGCCAAATTGA +AAAATCGCGGGTAAGCCCAGAGAAACAGAAACAATTGGCGCGCGCAGATCCGGTTCGTCTTTATCCTGAT +GCAGCGACAGTTTCGCGCCAGGAGCGTAGCGGTTGATAAGACAAGCATCTGGCTGGAAATCTGGATAGCC +CGCCGCCGTAGCCGCACGTTGACATAAATTATGAAAACTCTGTGGCATGGCGGGCCACGGTTTATTTGTT +TGCGGATCAATGGGCGAATAGAGATAACCTTGCCGATGGGTCGTCCAGCCCAGATGCCCACAGTTGGTCA +TCGCCACCGACATGGTATATCCCCCGGGGGTGACCATCTGGCGAAACGGCGACTGGCTGGCAACGTCATT +AATATCGCGGATCAGTTGCTCCGCAGCGTTAAAAGCAAAACGCCGTAAAATTACCGCACCAGCCGCCAGT +GGCTCTTGCCACGGTTCAGCATCGGCAAACAGATCCAACATTACCTCTCCTCATTTTCAGCTTCGCGGCG +CAGCAGTTGCGCTTTACGCGACACGCCCCAGCGGTAACCGGAAAGTGTGCCATCACCACGGACCACCCGA +TGACAGGGTATTATGATAGCCAGCTTGTTGGCGGCACAGGCGCTGGCAACGGCCCGTACCGCTTTCGGTT +TGCCGATGGCGTTAGCCAGTTGCTGATAACTGACGGTTTCACCGCAAGGTATCGTGCGCAGTGCCTGCCA +GACTTGTTGCTGAAAAGCAGTGCCGCGAATGTCCAGCGGTAACGTCAGCGGCGTATCGCGTTGATTGAGG +CTGGCGATCACTTCACGCACATGTTGCTGAAACATCAGATCGGCAGGCGCGTTGTCGGCAGCGGGAAACA +TCTGCTGCAACTCGCTGATTAGTGTCGCGTCATCATCGCCCAGCAATATCGCGCAAATCCCCCGCTCGCT +TTCTGCCACCAGGCAACGACCCAGCTCACAATCAGCCAGCGCGTAACGCACCGCCAGATTTTCGCCACCG +TGACGGAATTGTTTAGCCGTCATGCCCAGCGTTTCGTCAGCTTTGCGATAGTAACTGCTGCTGTCGGGGA +ATCCGGCGTTAAGAATAGACGTCGTCACGCTCTCCCCTTTCGCCAGCGATTCGCGCAAACGGCGAGCGCG +CCAGGCCTGTTGCCAGGCTTTAGGCGTCATTCCGGTAGTCGCTTTAAACAACCGATGTAGATGAAATGGA +CTCATCGCCACCTGGTCGGCTAAGGCTTCCAGCGTTACAGGCGTTTCCTGTTCCAGCAGTCGACACGCGT +GGGTGATTTTATCCAACCGATGTTGCTGGGCATTGGCTTTTTCTGGCTGACAACGTTTGCAGGGGCGAAA +GCCAGCGGCGAGTGCCTCGCTGGCATTTGCGTAGAAGGAGACGTTTTCCCGCAAAGCATGTCTGGCGCGG +CAAGACGGACGGCAAAAGATGCCTGTGGTACGCACGGCGAAAACGAATTCGCCGTCGGCATTCGGGTCGC +GGGCTAAGACAGATTGCCAGCGTTGATCGTCAGTTAAGCATGTGGCTTTTTTCATAATCAGCTCCCTGGT +TAAGGATAGCCTTTAGGCTGCCCGGTCACCATCACGCAAAAACCAACAATCTTGCGCTTTAATTTTTTTC +GCTGACAAGGAAGCTTTTAAACTGTGGTGACATCCAGGTTTTAAAGCTATCGCCTTCTTTGGTGATCATA +TAAACCGCCAGCCCTTCCCGGCGAACAACCTCTTTAGCTTTCTCCGGCCCGAGTACCATCAAGCCAGTAT +CCCAGGCATCGGCTTCCAGCGCCGTCGGAGCAATCACCGTCACGGATACCAGATTGTGTTCGATGGGACG +CCCGGTTTGCGGATCGATAACATGGGAAAGACGTTTGCCGTCCAGTTCGTAATAGTTACGGTAGCTGCCA +GAGGTGCTAATCCCATGACCGTTGATATCCACCACAGCCTGAACCGCGTTTTCTTTATCGGTTGGTTTTT +GAATCGCTACCCGCCACGGCAGGCCTTCACCGTTCATACCACGGCTGTTCAGCGCGCCGCCCACCGACAC +CAGATAGCGGGAAATCCCTTCCTGCTCCATCAAGCGTGCCAAATGATCGGCCGCATAGCCTTCGCCGACG +GTGGAGAGATCGACATATAAATCCGGCAGGTCTTTTTGCAGATATTGCTGATGCGACTGATTGATGACCG +TCAGGTGCTGTAAGCCGGTTTTGGCTTTCATCGCATCGATCTGTTCCTGGCTCGGAATTTGAACCGGCTG +TTGTTCCGGGCCAAAGCCCCACAGATTCACCAGCGGCCCGACGGTTATATCCATCGCGCCATCGGTCTTC +GCGCCAATGCGCAGCGAGGTGGTGACGATATCGGCCATCGCTTCACTTACCGGCCACGGCGATAAACTTT +GCGAGTCGTTAAAGCGCATCAGCGCGGAATCTTTTTTATAGGTCGAAAGCAGCTGATCGTCGGCGTCCAG +TTGGGTCTGAATCTTTTCTTTAAGTTCGGCGCTGCGTTTGGCGTCAATGCCCGGGATGCTGGCACGCCAG +AAGGTACCCATAGTTTTGCCTTCAAGAACGGTAACTTCAGTAGCGTGGGTTTTGGCGGGTTGTGGTTTTT +GATCGCAACCAACAAAGAAGAGCGCGGCAGCCAGCAGTGCCACGCGGGTAAAGCTTATTTCCATACGTGA +TTATCCTCATGCGAACGGTCGCAAGAGTACACCAAAAAACTGAGTTTGTACGCTGAAAACAATGAAAAAA +GGGCCCGCAGGCCCTTTGTTCGATATCAATCGAGATTAGAACTGGTAAACCAGACCCAGAGCTACGATGT +TATCAGTGTTGATGCCAGCGTCACGAGTGAACTGGTTGTCGTCCAGCAGGTTGATTTTGTAGTCAACGTA +GGTGGACATGTTTTTGTTGAAGTAGTAGGTAGCACCAACATCAACATATTTCAGGATATCTTCGTCGTCG +TAGCCACGACCCAGGTTTTTACCTTTAGACTGCAGGTAAGCCAGGGACGGACGCAGACCGAAGTCGAACT +GGTACTGAGCAACAGCTTCGAAGTTCTGTGCTTTGTTCGCCCAACCCAGGGAACCTACGCGAGTTGCGTT +GTAGGTCTGGGTGTACTGAGCAGCCAGGTAGATGTTGTTAGCGTCGTATTTCAGACCACCAGTGTAGGTT +TCAGCACGGTCGCCGTTACCGATGTAAGCAGCGGTGTTCTGAGCATCAGTACGTTTGGAGCTGGAGATCG +CACCACCGATACCGAAACCTTCGTAATCATAAGTGATAGAACCGCCGACGCCGTCGCCGTTTTGACGCAG +TGCGTCACGACCGTTGTTAGTTACGCCACTAGTAAAGCCTTCACCAGATGGGTTGCCGTTTTTACCCTGG +TACTGAACAGCAAAGTTCAGGCCGTCAACCAGACCGAAGAAGTCAGTGTTACGGTAGGTCGCGAAGCCGT +TACCACGCTGCTGCATGAAGTTGTCAGAACCGTAGGTGTCACCACCGAATTCTGGCAGTACGTCGGTCCA +GGAAGTTACGTCATAAACAACGCCGTAGTTACGACCGTAGTCGAAAGAACCCACATCCTGGAATTTCAGA +CCTGCGAATGCCACACGGGTCCAGGAGTTGTTTTCGTTTTCAGCGCTGTTGCCCTGGATCTGATATTCCC +ACTGGCCGTAACCGGTCAGCTGGTCAGTAACCTGAGTTTCACCTTTGAAGCCAAGACGCATGTAGGTCTG +GTCGCCATCTACATCTTTGTTGTCAGAGAAATAGTGCAGGCCGTCTACTTTACCGTACAGATCTAATTTG +TTGCCGTCTTTGTTGTAAACTTCAGCAGCGTTTGCTGCGCCTGCTACCAGCAGAGCTGGGACCAGGAGGG +ACAGTACTTTAACTTTCATGTTATTAACCCTCTGTTATATGCCTTTATTTGCTTTTTTATGCCACTGCAT +ACTGATTAACCCTCATTAATCAGTCGGCAAGTCCATTCTCCCCAAAAATGCAGAATAATCCAACACGAAT +ATGATACTAAAACTTTTAAGATGTTTCATTTATCGCTATAGATGTTTCAAAATGTAAATGCAAGGGAACT +TTTTAAGATTATTGCGGAATGGCGAAATAAGCACCTAACATCAAGCAATAATAATTCAAGGTTAAAATCA +ATAACTTATTCTTAAGTATTTGACAGCACTGAATGTCAAAACAAAACCTTCACTCGCAACTAGAATAACT +CCCGCTATCATCATTAACTTTATTTATTACCGTCATTCATTTCTGAATGTCTGTTTACCCCTATTTCAAC +CGGATGCCTCGCATTCGGTTTTTTTTACCCTTCTTTACACACTTTTCATTATTCTGTGCTACCACAGAAA +AACTATAACGCTTGTTAACTATTTCACAAATAATTAACATCCGCATAATTTCCAGCAATCTTTGTTTATT +TGCAATTATTTTTGTTGGGCTTTTTGTAGGTTATTTGTACAGCAAAATGGCGCTTGTACATCTATTTCCC +CCAATGCAGGATGATAAATATCACGGGAGAATAGAGAATCATCAATCAGGTAAGAGTCTGGAATTTCACA +CTGTACCCTTTATACTGCCCTATCACTTCGCGAAGTTTTAACAGGTCATAAACACGAATGCGTCAGAAAG +AGACAACGGCCACGACCCGCTTTTCACTCCTACCGGGGAGCATTACCCGCTTCTTTTTACTGTTGATCAT +TGTGTTACTGGTGACGATGGGTGTAATGGTACAAAGCGCCGTTAACGCCTGGCTGAAAGATAAAAGTTAC +CAGATTGTCGACATTACCCATGCTATCCAAAAGCGCGTCGATAACTGGCGTTACGTGACCTGGCAGATCT +ACGACAACATTGCCGCGACGACCTCCCCCTCCTCCGGCGAAGGTTTACAAGAGACGCGCCTGAAACAGGA +TGTCTACTATCTGGAGAAACCACGCCGCAAAACGGAAGCGTTAATCTTTGGCTCTCACGACAACTCAACG +CTTGAGATGACTCAGCGGATGTCCACTTATCTGGATACATTGTGGGGCGCAGAAAATGTACCGTGGTCGA +TGTATTACCTGAATGGTCAGGATAACAGTCTGGTGCTGATCTCAACCCTACCCCTTAAAGATCTCACCTC +CGGATTTAAAGAATCGACCGTCAGCGACATTGTTGATTCACGTCGTGCAGAGATGTTGCAACAGGCCAAC +GCCCTCGATGAACGCGAAAGCTTTTCTAACATGCGCCGCCTGGCCTGGCAGAACGGTCATTACTTTACAT +TGCGTACTACCTTTAACCAGCCAGGACATCTGGCAACGGTCGTGGCTTTTGATCTGCCGATTAATGATTT +GATCCCACCGGGTATGCCGCTGGACAGTTTCCGCCTTGAGCCAGACGCGACGGCAACGGGAAACAATGAT +AATGAGAAAGAAGGGACGGATAGCGTCAGTATCCACTTTAACAGTACGAAGATTGAAATCTCCTCGGCAC +TCAACTCTACCGATATGCGCCTGGTCTGGCAGGTTCCTTATGGCACCTTATTGCTGGATACGTTGCAAAA +CATTCTGCTGCCACTGCTGCTGAACATCGGTTTGCTGGCGCTGGCGTTATTTGGCTATACCACATTCCGC +CATTTCTCCAGCCGCAGTACAGAAAACGTCCCCAGCACGGCGGTCAATAACGAATTGCGCATTTTACGGG +CAATCAATGAAGAGATAGTCTCACTGCTGCCGCTCGGCCTGCTGGTTCACGATCAGGAATCGAACCGCAC +TGTCATAAGTAACAAAATTGCCGATCATTTGCTGCCGCATTTGAATCTGCAAAACATCACCACCATGGCG +GAACAGCATCAGGGGATTATTCAGGCGACGATCAATAACGAGCTGTATGAGATCCGCATGTTCCGCAGCC +AGGTCGCGCCGCGCACACAAATTTTCATTATTCGCGATCAGGATCGCGAAGTGCTGGTAAACAAGAAACT +CAAGCAGGCGCAGCGTCTGTATGAGAAAAACCAGCAGGGGCGGATGATCTTTATGAAAAACATTGGCGAT +GCGCTGAAAGAACCCGCACAGTCCCTGGCGGAGAGCGCGGCTAAACTCAACGCCCCGGAAAGCAAACAAC +TGGCGAATCAGGCAGATGTGCTGGTGCGGCTGGTTGATGAAATACAGTTAGCGAACATGCTTGCGGATGA +TAGCTGGAAAAGTGAGACGGTGCTGTTCTCCGTGCAGGATTTAATTGATGAAGTTGTGCCTTCAGTGTTG +CCTGCCATCAAGCGTAAAGGTCTGCAACTGCTGATTAACAATCATCTGAAAGCACACGATATGCGCCGCG +GCGATCGCGATGCCTTACGACGTATTTTGCTGCTACTGATGCAATATGCCGTGACCTCAACGCAATTGGG +AAAAATCACCCTTGAGGTTGATCAGGATGAGTCCTCCGAAGACCGCCTGACGTTCCGCATTCTGGACACG +GGAGAAGGCGTAAGTATTCATGAAATGGATAATTTGCACTTCCCGTTTATCAACCAGACCCAAAACGATC +GCTATGGCAAGGCGGACCCGCTGGCATTCTGGCTGAGCGATCAACTGGCACGTAAACTGGGCGGTCATTT +AAACATCAAAACGCGGGATGGGCTTGGTACACGCTACTCTGTGCATATCAAAATGCTCGCAGCTGACCCG +GAAGTTGAAGAGGAAGAAGAGCGTTTACTGGATGATGTCTGCGTAATGGTGGATGTTACTTCGGCAGAAA +TTCGGAATATTGTCACTCGCCAGTTAGAAAATTGGGGTGCAACCTGTATCACACCCGATGAAAGATTAAT +TAGTCAAGATTATGATATCTTTTTAACGGATAATCCGTCTAATCTTACTGCCTCTGGCTTGCTTTTAAGC +GATGATGAGTCTGGCGTACGGGAAATTGGGCCTGGTCAATTGTGCGTCAACTTCAATATGAGCAACGCTA +TGCAGGAAGCGGTCTTACAATTAATTGAAGTGCAACTGGCGCAGGAAGAGGTGACAGAATCGCCTCTGGG +CGGAGATGAAAATGCGCAACTCCATGCCAGCGGCTATTATGCGCTCTTTGTAGACACAGTACCGGATGAT +GTTAAGAGGCTGTATACTGAAGCAGCAACCAGTGACTTTGCTGCGTTAGCCCAAACGGCTCATCGTCTTA +AAGGCGTATTTGCCATGCTAAATCTGGTACCCGGCAAGCAGTTATGTGAAACGCTGGAACATCTGATTCG +TGAGAAGGATGTTCCAGGAATAGAAAAATACATCAGCGACATTGACAGTTATGTCAAGAGCTTGCTGTAG +CAAGGTAGCCTATTACATGAACAATATGAACGTAATTATTGCCGATGACCATCCGATAGTCTTGTTCGGT +ATTCGCAAATCACTTGAGCAAATTGAGTGGGTGAATGTTGTCGGCGAATTTGAAGACTCTACAGCACTGA +TCAACAACCTGCCGAAACTGGATGCGCATGTGTTGATTACCGATCTCTCCATGCCTGGCGATAAGTACGG +CGATGGCATTACCTTAATCAAGTACATCAAGCGCCATTTCCCAAGCCTGTCGATCATTGTTCTGACTATG +AACAACAACCCGGCGATTCTTAGTGCGGTATTGGATCTGGATATCGAAGGGATCGTGCTGAAACAAGGTG +CACCGACCGATCTGCCGAAAGCTCTCGCCGCGCTGCAGAAAGGGAAGAAATTTACCCCGGAAAGCGTTTC +TCGCCTGTTGGAAAAAATCAGTGCTGGTGGTTACGGTGACAAGCGTCTCTCGCCAAAAGAGAGTGAAGTT +CTGCGCCTGTTTGCGGAAGGCTTCCTGGTGACCGAGATCGCTAAAAAGCTGAACCGCAGTATTAAAACCA +TCAGTAGCCAGAAGAAATCTGCGATGATGAAGCTGGGTGTCGAGAACGATATCGCCCTGCTGAATTATCT +CTCTTCAGTGACCTTAAGTCCGGCAGATAAAGACTAATCACCTGTAGGCCAGATAAGACGCGTTAGTGTC +TTATCTGGCATTTGCACCGATTGCCGGATGCGGCGTAAACGCCTTATCCGGCCTACGATTCCCATTATTT +CAACAAATTACATTAAAGTAGGCCAGATAAGACGCGTCAGCGTCGCATCTGGCATTTGCACTGAATGCCG +GATGCGGCGTAAACGCCTTATCCGTCCTACGAATCCCGCGATTTCCTGACCCTCTCGGCATATAACGTCA +GCGTCTGTTTTATCACATCCAGCGTTACCGGCTTCGACAGGCAGCTGTCCATACCGGACTCCAGACACCG +CTGCTTCTCTTCAGCCAACGCATTAGCAGTTACTCCGATTACCGGCAACGTCAGTCCCAACTGACGAATG +CGTTGCGTCAAGCGGTAACCATCCATATTTGGCATGTTGACGTCGCTAAGCACGATATCAATATGATTCT +TGCTAAGTACATTAAGCGCATCGACGCCATCATTCGCGGTTTTACATTGATAGCCCAACGATCCCAACTG +ATCTGCCAGCAAACGCCGGTTAATCGGATGATCATCCACGACCAGAATCATCATATCGTCATTATCGCTG +ACCGCTTTGTCCGTTGACGGCAGAGCGTTAGCAGGATCGTCGCTCTCCATCTCGATCAAATAAATACGCG +CCAACAATGCCGGTAGCTCATGCGGAGCAGCCACACTGTGTACCCACTCCCCTGGCGCTTTCTCCAGCGG +AATACCAATATGGCGACGACAGAAGGTCACTACCGCTCTGCCCTGCCATTTTTTACTCACTACCTCGTCA +GTGATCAACACATCTTCGGGAGTCGGTTCCTGCCCTTCGTATGTTGTAACGACGATGCCGCTGCGCTGCA +AACTGGTTTCCAGGAACTGACAGAGCGACGCATTGCGGACCGCCAGCCAGCAGCGTTTACCACTCAACCC +TTCCACGCCTTTTTTCTGCGGGTACTGAGCGCCGTACAACGGAATACGCACGGTAAACTGGCTGCCCATT +CCCGGTTCTGAATCTACCGAGATATCGCCGTCCATCATGCTGATCAGTTTTTCACAAATCGCCAGACCCA +GACCGGTCCCCTGGAAATTACGCTGTACGCCCGTTCCGACCTGGAAGAAGGGATCAAACAAGCGCACCAC +TTCTTTCGCCGGTATCCCCACGCCGGTATCGCGAACACGGATAGAGAGATAATCGCCATCCGCGCGAACA +TGCAAAACTATACAGCCGGTATCGGTGAATTTTATGGCGTTACTCAACAGGTTGGAGATGACCTGCTGTA +AACGCATCGGGTCGCCATTTAAGGCCACTGGCACATCCGGTTCAATAAAGCAGTACAAGCCTAACTGCTT +GCGTACCACCAGCGGTAAATAGTTGGCGGTGATGTGGTTCATCACTTCACGCGGTGAAAACTCACGCGGT +TCGATCTTCAACTGTTCCGATTCAATCTTCGAGAAATCGAGAATATCGCTGATAATTTTCAACAACAGGC +TGGAAGAGTTGTTCATTGCCGTCACCAGCCGATCGACGCCTTTCGGTAACTCTTTGGTTTGCAACAGATC +CAGGTTACCGATAATGCCATACAGCGGCGTTCGCAGCTCATGACTGACGGTGGCAAGGAACATCGATTTT +GACTGGCTCGCCTGTTCCGCTGCTTGTGCCATCTCCTGCAACGACTCTTCCATCTTCACGCGCGAAGAAA +CATCCACCAGCACACAAATGGCCACGTTTTCATTACGATAGCGCGAATGGACGAAGCTGATTTGCAGATT +GGTATTGTTGCTGGTCAGGACATCAACAAAATTGACCTGCTGCCCACAGATAATTTGCGTCAGTCGTTGG +CGGTCCTCATGCGTAAGCATATTGAGATAGGTATGCGCCAGTTCGTTACTTAAAATATTGACGCCATCAG +CGGTACGCAAAATGCAGATACCCACTGGCGCGGAGGCGACAATCTTGCGATTGAACTGCTCATGTTCTTC +CAGTCGCAGGGCGTCGCTTTCCGCCGGAATGAAAATACGTCGCTCGTACATCCGTGCGAGAGTAAACAAT +GCAGCTCCGGCAAGCACATTCAGCAAAATTGCGTTAAGGATCAACATGCGAATGCGTTCCAGCACCTTAT +CAACCGGCACCGAATACACGATGCTTAGCGATGAGGGTGGCAGATTTTTCTTCAGCACCAGCTCCCGGAA +CCCTTCCGTATAGCCAAACCAGGAGCGTTCCTGCATCCAGCGAGGATCGCCCTTAATTTTACTTTCTGGT +CCGGTAAGCGAAATCAGGGTATGACCATTTTCATCAAGAATGGTAACCCCCATCGGCAACGTACCCGGTA +AGAAAAAGTTCTCCATCCGGATGGTCTGCTCGACACCCAAAAGCGCCTGCAACCGGTTCGCCAGATAAAC +TGGCGTCAACGCGTAAAAATACCCGACGCCAGGGCGCGGACCTTCGCTGATCCAGTAGAGGTTACTGCCG +CTATCATCTTGTGGTGCATTTCGATATTTATTGATGCGTTCATGCAAAGCTTTCAACGCGGTATCGCGTT +CCACTGGCATATCACGCAGACCGAAATTGGCCATGCAGAGGTTATCGCTGCCGATTAAAAATACCCGGTT +TAGATCGTAAGCCGCAGAAAAATTATCGCGCCAGTAGCGCATAAACCACGCCAATGACTCCAGAGAACCT +CGCCAGGTGTTACTCATTGCGGAACAATCGGAGTCGGCAAACAGCGGTTCAAACGCAGGCACATCCGCCT +GCGTTTCTCGTCCACGCGGGGAAAGCACACCGTTTTCTGCCGATAAGCGATTTTCGGCGATGTACTTCAG +CTCTTTCATCACATCAGAGGTGCGTTGAATAAAGCGCTGAGCCTGATCGGAACTCAGATTAAATTCCTGA +CGAATTTCCGATTCTCGCTGATGTAACGCATTAACGATGTAAAAAACGGATGAAAAAGCAATCAACAGCC +AGAGCACTAACGCCAATGCTCTGAACATGTAGCGCGAGGCTTTCAGGGTTGTACGAAAAGAAGCAAGGTA +TTTCAAAGGGGCGAAGCTCCGCCTCAGGTGACCGATGGAGTGTGGTTAAGGTAGCGGTAAAAGCGTGTTA +CCGCAATGTTCTCTCTTCTCTGGAATATGATACACCGCCGAGAAATCATCACCTTAACCTCTGATAATCG +TCATATACCGGACAAGACTAGTGGATTTCAGCATGCATTATATGAAGTGGATTTATCCACGCCGCTTACG +CAATCAAATGATCCTGATGGCAATCCTGATGGTCATTGTCCCAACGCTTACTATTGGTTATATCGTAGAA +ACGGAAGGACGTTCAGCAGTCTTATCTGAAAAAGAGAAAAAACTTTCTGCCGTGGTCAACCTGCTTAATC +AGGCACTAGGCGATCGCTATGATCTCTACATCGACTTACCACGTGAGGAGCGTATCCGCGCATTAAATGC +AGAACTTGCCCCCATTACCGAAAATATCACTCACGCCTTCCCTGGCATCGGTGCTGGTTATTACAACAAA +ATGCTGGATGCGATAATCACCTACGCGCCTTCAGCGCTATATCAGAATAATGTCGGCGTTACCATTGCCG +CAGATCACCCTGGTCGCGAAGTGATGCGTACAAATACCCCTTTAGTTTATTCAGGCAGGCAGGTGCGCGG +CGATATTTTGAATTCAATGCTCCCCATTGAGCGTAATGGTGAAATCCTCGGCTATATCTGGGCCAATGAA +TTAACCGAAGATATTCGCCGCCAGGCCTGGAAAATGGATGTGAGGATTATCATTGTGCTCACCGCTGGTT +TGCTGATAAGCCTGCTGTTGATTGTCCTTTTCTCCCGTCGCCTGAGCGCCAATATTGATATCATCACCGA +TGGCCTCTCGACTCTGGCACAAAATATTCCCACTCGATTACCACAATTGCCCGGTGAAATGGGGCAAATC +AGTCAGAGTGTTAATAACCTCGCCCAGGCACTGCGTGAAACGCGGACACTTAACGATCTGATTATTGAAA +ACGCTGCCGATGGCGTCATTGCCATTGACCGCCAGGGTGATGTAACCACCATGAACCCAGCAGCAGAAGT +TATCACTGGCTATCAACGCCATGAACTGGTAGGGCAGCCTTACTCCATGTTGTTCGACAATACTCAGTTC +TACAGTCCAGTACTGGATACGCTGGAACATGGCACCGAACATGTGGCGCTGGAGATCAGTTTTCCAGGTC +GTGACCGCACCATTGAACTCAGTGTCACTACCAGTCGTATTCATAACACGCACGGTGAAATGATAGGTGC +TTTGGTGATTTTCTCTGATTTAACTGCCCGCAAAGAAACCCAGCGCCGCATGGCGCAAGCAGAACGCCTC +GCCACACTGGGTGAGCTGATGGCTGGCGTCGCGCATGAAGTACGTAATCCGTTAACGGCTATTCGTGGTT +ATGTACAGATCTTGCGCCAACAAACCAGTGACCCAATACATCAGGAATATCTGTCCGTAGTACTCAAAGA +AATCGATTCAATTAACAAAGTTATTCAGCAATTGCTCGAATTTTCACGTCCACGCCACAGTCAATGGCAA +CAAGTCAGCCTCAATGCATTGGTTGAAGAAACTCTGGTACTGGTACAAACCGCCGGCGTACAAGCGCGGG +TCGACTTCATAAGCGAACTGGATAATGAATTAAGCCCGATTAACGCCGATCGTGAACTGCTCAAACAGGT +ACTACTGAATATCCTGATCAATGCCGTCCAGGCTATCAGCGCACGAGGGAAAATTCGCATTCAAACCTGG +CAATACAGCGACTCACAACAGGCCATTTCGATAGAGGACAACGGCTGTGGCATTGATCTCTCGCTGCAAA +AAAAGATCTTCGATCCCTTTTTCACCACCAAAGCCTCAGGAACCGGGCTTGGTCTGGCGTTAAGTCAACG +CATCATTAATGCCCATCAGGGTGATATTCGCGTCGCCAGTTTGCCGGGCTACGGCGCAACCTTCACGCTT +ATTTTACCGATCAACCCGCAGGGAAATCAGACTGTATGACTGCTATTAATCGCATCCTTATTGTGGATGA +TGAAGATAATGTTCGCCGTATGCTGAGCACCGCTTTTGCACTACAAGGATTCGAAACACATTGTGCGAAC +AACGGACGCACAGCATTACACCTGTTTGCCGATATTCACCCTGATGTGGTGTTGATGGATATCCGCATGC +CAGAGATGGACGGCATCAAGGCACTAAAGGAGATGCGCAGCCATGAGACCCGGACACCCGTTATTCTGAT +GACGGCCTATGCGGAAGTGGAAACCGCCGTCGAAGCGCTACGCTGCGGAGCCTTCGACTATGTTATTAAA +CCGTTTGATCTCGATGAGTTGAATTTAATCGTTCAGCGCGCTTTACAACTCCAGTCAATGAAAAAAGAGA +TCCGTCATCTGCACCAGGCACTGAGCACCAGCTGGCAATGGGGGCACATTCTCACCAACAGCCCGGCGAT +GATGGACATCTGCAAAGACACCGCCAAAATTGCCCTTTCTCAGGCCAGCGTCTTGATTAGCGGTGAAAGC +GGCACCGGGAAAGAGTTGATTGCCAGAGCGATTCACTACAATTCGCGGCGGGCAAAGGGGCCGTTCATTA +AAGTCAACTGCGCGGCGCTGCCGGAATCGTTGCTCGAAAGTGAACTGTTTGGTCATGAAAAAGGTGCATT +TACTGGTGCACAAACCTTGCGTCAGGGATTATTTGAACGAGCCAACGAAGGTACTCTGCTCCTCGACGAA +ATTGGCGAAATGCCGCTGGTACTACAAGCCAAATTACTACGCATTCTACAGGAACGGGAATTTGAACGGA +TTGGCGGCCATCAGACCATAAAAGTTGATATCCGCATCATTGCTGCCACCAACCGCGACTTGCAGGCAAT +GGTAAAAGAAGGCACCTTCCGTGAAGATCTCTTTTATCGCCTTAACGTTATTCATTTAATACTGCCGCCT +CTGCGCGATCGCCGGGAAGATATTTCCCTGTTAGCTAATCACTTTTTGCAAAAATTCAGTAGTGAGAATC +AGCGCGATATTATCGACATCGATCCGATGGCAATGTCACTGCTTACCGCCTGGTCATGGCCGGGAAATAT +TCGAGAGCTTTCCAACGTTATTGAACGCGCCGTCGTGATGAATTCAGGCCCGATCATTTTTTCTGAGGAT +CTTCCGCCACAGATTCGTCAGCCAGTCTGTAATGCTGGCGAGGTAAAAACAGCCCCTGTCGGTGAGCGTA +ATTTAAAAGAGGAAATTAAACGCGTCGAAAAACGCATCATTATGGAAGTGCTGGAACAACAAGAAGGAAA +CCGAACCCGCACTGCTTTAATGCTGGGCATCAGTCGCCGTGCATTGATGTATAAACTCCAGGAATACGGT +ATCGATCCGGCGGATGTATAACACCAAAACTTGCTATGCAGAAATTTGCACAGTGCGCAATTTTCTGCAT +AGCCGCTCATTCTCCTTATAAATCCCCATCCAATTTATCCCTTCATATTCAATTAGTTAAATAACTAAAT +CCAATAATCTCATTCTGGCACTCCCCTTGCTATTGCCTGACTGTACCCACAACGGTGTATGCAAGAGGGA +TAAAAAATGAAAACAAAATTGATGACATTACAAGACGCCACCGGCTTCTTTCGTGACGGCATGACCATCA +TGGTGGGCGGATTTATGGGGATTGGCACTCCATCCCGCCTGGTTGAAGCATTACTGGAATCTGGTGTTCG +CGACCTGACATTGATAGCCAATGATACCGCGTTTGTTGATACCGGCATCGGTCCGCTCATCGTCAATGGT +CGAGTCCGCAAAGTGATTGCTTCACATATCGGCACCAACCCGGAAACAGGTCGGCGCATGATATCTGGTG +AGATGGACGTCGTTCTGGTGCCGCAAGGTACGCTAATCGAGCAAATTCGCTGTGGTGGAGCTGGACTTGG +TGGTTTTCTCACCCCAACGGGTGTCGGCACCGTCGTAGAGGAAGGCAAACAGACACTGACACTCGACGGT +AAAACCTGGCTGCTCGAACGCCCACTGCGCGCCGACCTGGCGCTAATTCGCGCTCATCGTTGCGACACAC +TTGGCAACCTGACCTATCAACTTAGCGCCCGCAACTTTAACCCCCTGATAGCCCTTGCGGCTGATATCAC +GCTGGTAGAGCCAGATGAACTGGTCGAAACCGGCGAGCTGCAACCTGACCATATTGTCACCCCTGGTGCC +GTTATCGACCACATCATCGTTTCACAGGAGAGCAAATAATGGATGCGAAACAACGTATTGCGCGCCGTGT +GGCGCAAGAGCTTCGTGATGGTGACATCGTTAACTTAGGGATCGGTTTACCCACAATGGTCGCCAATTAT +TTACCGGAGGGTATTCATATCACTCTGCAATCGGAAAACGGCTTCCTCGGTTTAGGCCCGGTCACGACAG +CGCATCCAGATCTGGTGAACGCTGGCGGGCAACCGTGCGGTGTTTTACCCGGTGCAGCCATGTTTGATAG +CGCCATGTCATTTGCGCTAATCCGTGGCGGTCATATTGATGCCTGCGTGCTCGGCGGTTTGCAAGTAGAC +GAAGAAGCAAACCTCGCGAACTGGGTAGTGCCTGGGAAAATGGTGCCCGGTATGGGTGGCGCGATGGATC +TGGTGACCGGGTCGCGCAAAGTGATCATCGCCATGGAACATTGCGCCAAAGATGGTTCAGCAAAAATTTT +GCGCCGCTGCACCATGCCACTCACTGCGCAACATGCGGTGCATATGCTGGTTACTGAACTGGCTGTCTTT +CGTTTTATTGACGGCAAAATGTGGCTCACCGAAATTGCCGACGGGTGTGATTTAGCCACCGTGCGTGCCA +AAACAGAAGCTCGGTTTGAAGTCGCCGCCGATCTGAATACGCAACGGGGTGATTTATGATTGGTCGCATA +TCGCGTTTTATGACGCGTTTTGTCAGCCGGTGGCTTCCCGATCCACTGATCTTTGCCATGTTGCTGACAT +TGCTAACATTCGTGATCGCGCTTTGGTTAACACCACAAACGCCGATCAGCATGGTGAAAATGTGGGGTGA +CGGTTTCTGGAACTTGCTGGCGTTTGGTATGCAGATGGCGCTTATCATCGTTACCGGTCATGCCCTTGCC +AGCTCTGCTCCGGTGAAAAGTTTGCTGCGTACTGCCGCCTCCGCCGCAAAGACGCCCGTACAGGGCGTCA +TGCTGGTCACTTTCTTCGGTTCAGTCGCTTGTGTCATCAACTGGGGATTTGGTTTGGTTGTCGGCGCAAT +GTTTGCCCGTGAAGTCGCCCGGCGAGTCCCCGGTTCTGATTATCCGTTGCTCATTGCCTGCGCCTACATT +GGTTTTCTCACCTGGGGTGGCGGCTTCTCTGGATCAATGCCTCTGTTGGCTGCAACACCGGGCAACCCGG +TTGAGCATATCGCCGGGCTGATCCCGGTGGGCGATACTCTGTTCAGTGGTTTTAACATTTTCATCACTGT +GGCGTTGATTGTGGTGATGCCATTTATCACCCGCATGATGATGCCAAAACCGTCTGACGTGGTGAGTATC +GATCCAAAACTACTCATGGAAGAGGCTGATTTTCAAAAGCAGCTACCGAAAGATGCCCCACCATCCGAGC +GACTGGAAGAAAGCCGCATTCTGACGTTGATCATCGGCGCACTCGGTATCGCTTACCTTGCGATGTACTT +CAGCGAACATGGCTTCAACATCACCATCAATACCGTCAACCTGATGTTTATGATTGCGGGTCTGCTGCTA +CATAAAACGCCAATGGCTTATATGCGTGCTATCAGCGCGGCAGCACGCAGTACTGCCGGTATTCTGGTGC +AATTCCCCTTCTACGCTGGGATCCAACTGATGATGGAGCATTCCGGTCTGGGCGGACTCATTACCGAATT +CTTCATCAATGTTGCGAACAAAGACACCTTCCCGGTAATGACCTTTTTTAGTTCTGCACTGATTAACTTC +GCCGTTCCGTCTGGCGGCGGTCACTGGGTTATTCAGGGACCTTTCGTGATACCCGCAGCCCAGGCGCTGG +GCGCTGATCTCGGTAAATCGGTAATGGCGATCGCCTACGGCGAGCAATGGATGAACATGGCACAACCATT +CTGGGCGCTGCCAGCACTGGCAATCGCCGGACTCGGTGTCCGCGACATCATGGGCTACTGCATCACTGCC +CTGCTCTTCTCCGGTGTCATTTTCGTCATTGGTTTAACGCTGTTCTGACGGCACCCCTACAAACAGAAGG +AATATAAAATGAAAAATTGTGTCATCGTCAGTGCGGTACGTACTGCTATCGGTAGTTTTAACGGTTCACT +CGCTTCCACCAGCGCCATCGACCTGGGGGCGACAGTAATTAAAGCCGCCATTGAACGTGCAAAAATCGAT +TCACAACACGTTGATGAAGTGATTATGGGTAACGTGTTACAAGCCGGGCTGGGGCAAAATCCGGCGCGTC +AGGCACTGTTAAAAAGCGGGCTGGCAGAAACGGTGTGCGGATTCACGGTCAATAAAGTATGTGGTTCGGG +TCTTAAAAGTGTGGCGCTTGCCGCCCAGGCCATTCAGGCAGGTCAGGCGCAGAGCATTGTGGCGGGGGGT +ATGGAAAATATGAGTTTAGCCCCCTACTTACTCGATGCAAAAGCACGCTCTGGTTATCGTCTTGGAGACG +GACAGGTTTATGACGTAATCCTGCGCGATGGCCTGATGTGCGCCACCCATGGTTATCATATGGGGATTAC +CGCCGAAAACGTGGCTAAAGAGTACGGAATTACCCGTGAAATGCAGGATGAACTGGCGCTACATTCACAG +CGTAAAGCGGCAGCCGCAATTGAGTCCGGTGCTTTTACAGCCGAAATCGTCCCGGTAAATGTTGTCACTC +GAAAGAAAACCTTCGTCTTCAGTCAAGACGAATTCCCGAAAGCGAATTCAACGGCTGAAGCGTTAGGTGC +ATTGCGCCCGGCCTTCGATAAAGCAGGAACAGTCACCGCTGGGAACGCGTCTGGTATTAACGACGGTGCT +GCCGCTCTGGTGATTATGGAAGAATCTGCGGCGCTGGCAGCAGGCCTTACCCCCCTGGCTCGCATTAAAA +GTTATGCCAGCGGTGGCGTGCCCCCCGCATTGATGGGTATGGGGCCAGTACCTGCCACGCAAAAAGCGTT +ACAACTGGCGGGGCTGCAACTGGCGGATATTGATCTCATTGAGGCTAATGAAGCATTTGCTGCACAGTTC +CTTGCCGTTGGGAAAAACCTGGGCTTTGATTCTGAGAAAGTGAATGTCAACGGCGGGGCCATCGCGCTCG +GGCATCCTATCGGTGCCAGTGGTGCTCGTATTCTGGTCACACTATTACATGCCATGCAGGCACGCGATAA +AACGCTGGGGCTGGCAACACTGTGCATTGGCGGCGGTCAGGGAATTGCGATGGTGATTGAACGGTTGAAT +TAATCAATAAAAACACCCGATAGCGAAAGTTATCGGGTGTTTTCTTGAACATCGACGGCGAAGGTAACCC +CATTAATCACCAGTCAAAACTTTTCACCAGCGTCAGCTCGCCAGCATTACGCATCGGTACAATAAATGTT +TCCTGTTTCTCATTGACCGATCCTTCATCGGTGATCAGCGTCAGTTGGGCGGTGGTTAATTCCGTTTCGC +TGCGCCCACCATAGTAGTTGATATACACCTGATAGCGCCCGTGAATTGGCGCGGGCATGGCGAAAATCTC +GGGTCCGTACCCCGTCGTGACATCCATATCCAGTGCACCACTGTTTTTCAGCACGGTGTTACCGTACCAG +GCGTGTTCGCCATCGGGCGTAACAACGTGAAGGTCGAGGTCGGTATTGTCCGTATCCCACGAGAGAACCA +GCCGTAAACGTGCACGAATCGTTCCTGTACCCGGCGTTGAGTAAAACTGCATTTTTTGTCGGCTTTGCCC +ATCCGGGCTGATGACCTGCACGCTGTTGCTGCCTTCAGTGAAAATATAAGGGCGTGCAAATGAACCATCG +GATTCAATTCTCTGCGGCATACTGGCACCGTTGACCACCAGCCGGCCCTGCTGAACTTTACCCGCCGCAG +CATAATTCTTTATTTTGCCGCGGATCTGCGCTGAGATATTTTGATCATCTGCCATGTTGACGGACGACGC +CGGGTAATTGATCGATTGTGAAAAACTGGCATCTTCGCCCTCTGCCGGATGCCAGCCTGAGAGCGGTGCA +TCAATCTCGACTTCCTGCACACCTTCACTGTGAGCGACAGGCGAAAGCGCCACCAGTAACAACGGAAGAA +AAATCTTTCGCATAGCATTAGTCCATTAATAATTGTCGGGTCAGCGTTTCGATATAGTTCTCATCAAGCC +CGGTGGGATAACCATCAAAGGCCAGGTGCAGATACTCATGGGTTAAATCCAGCCGATCCTGAAGCGTAAA +GAAGTTACGAATAAACAGCCGTTTCTGCTGCCGATCGGTATAGGGGAAACCTGAGACTAAACGGCAAACC +GCAAACACGTCTGGTTCGTTGTACCCCGTCTCAGCTTGTAATATACGCCGCCACTGCGGCATTTTTTTCG +CCAGCCAGGCTTTCGCTTTGGGTAATAACTGGCAGGTTGAGCGTGGCGCTCCCCAGCGGCTAAGACTGTT +GTCGGGATAAGCAAACGCGAGTATCTGATCGTAACGCTCTCCCTGCCCCGCCTGGGCCGTGGCTTGCCGC +CAGGAAAGTGTCCCTTCGGTAGCGCGACTGCCATGATAATGAACCGGATCGCCTGCATAGATGAGATCCT +GCGTCCAGGCGGTCATCGTTCGCGCCCCCGTGGTCGCTGGCGAAGCAGAAACACGCTGCGTGGCGCTGCT +GTCGGGGATGGTCAGGCAATCGCCTTCCCGATTGGCGTTTTGCTGTAAAAAAGTGCGAATCGCCACGGTC +ATGGCTTTCGCTGCCTCAGGGGGCGTACTTTTCGCCTCGCGATCCAGAACTCTGGCAACGTACTCTTCAC +GATCGAGATGCGACTGCAATTTCAGTTTGCCCTTTTCGCTCAGTAAGGTCGTCTCACCGTGGCTGACAAA +CGTAATGTGGTTACCATTAGTAAACGTCACACGATAGCGCCCATTAAGTACGCCGGGATTTACTGCCGTC +GTACTCTTTTCCGCTGTGATTTTCTTCAGCGGATAGCGGGCAAACAGCTCCACCTCTACACATTGCCCAC +TGGCAACCTGCGTCGGCACTGGCAAAACCCGATTAAGCACCGTCGCATAACGGGTTAGTACCGTTTTGCT +GGTGCCACTGCCAGTAACCCACAGCGGTGTACCATCGGTTAACCAGCCAGCAAAACCACCCTGACGGATT +TCCTGTTTATCATCGGCAAACCAGCTCCAGGTTTTCACCCGTACCCGACTACCGAGCATGGATGCGACAC +CGATTTTCGCCTCGTCCAGCACCACATCCAGTAAGACTTCCTGAGCTTTGTTTTGCGCGGGTAACGTCGC +TAATGAATCAAGCAGCGATTTAACCGTTACCGAGGTTTCTGGCTTCAGCGTAGTCAGAGACGCTAACCAC +GCAGGTGCCTGACGCTGTTGCCAGTATTGCCCCCACACATCTGCGCCAATATGCAACCGCTGCGGCGCAA +AATAGAGCCCACAGGAACGTACCAGCGCGGTATCGCGCGTTATGCTCTCCCCAGCCTGACAACAATAAAC +CTCTTCCGGGGAGTTTCCGCGACACTGGTAGGGCTGCTCCGGTTGATGGGTATCCTCCAGCCAGGCGTAA +ACATACAGTTTCCACAAACTCCCTAACGGCGTGGTGAGCGAGTCAGGTAATGCTGAGACTTTGGTCACGC +CTGATGACGACAGCTGATACAGTTGATCGTGCTGCGCACCGCGCAGCACCAGTTGTAACGGCGTCTCCTC +CGCAAGTGTTGGCAGAGTAACCAACGCCAATAGCCAGACGATTCTGCGCCAGTTCACTTATTTCACCTGC +ATCCCGGTCCATTCACTCCCTGCCGCAACACTTTGCTGCGCAGGTGCATAGGAACGCACATAACGAGCAG +GAGGCAGAACGAATTGCCCTTTTTGCGAGAAGCGCAGCAAATGGCGGAAAGTGACCGTTCCCGTCAGTTC +TTTCACCGGCACCATATAGGCCAGTTCGCCCATTTCATTTCGCGCTTTTTCCAGCAATTGCCCCTGCTGT +TTCGCGGCGTTGGGTTTATTGACCGAAATGCCCCATGTTGTGCGCTCAACGTCGGCTCCCGGTGGCAGCG +GTACTTCCACCTGACCGTAGCGCAGAACTGCATCCTGCTCGCTGGTAAGCGTGATTTCATCGAGATACAG +CGCATCGCTGTCAATCTCATTGCTGGTCACCGGTTGCAGAATAAAGCTCATCTCTTCTTCACCAGGGATA +AGCCGATACAACTGGCGTTCAACGGTCACCGGAATGTTACTTTGTTGAGCCATTTTTGCCGGCTCACGTC +AGCGGACCTGCACATTTTGCGGCGATAATTCGTCACCAAAAGAGAGAATGTCCGGCACGCCCTGACCAAC +CCAACGCCAGTCTTCGCCCCCTCCAGTTAACTTATGTTTAGCCCATGCGCCCGCAGGCGCAGGCAAAACA +ACTGGAGGCATTGTCGCCATATATTTCGCCAGCCAGTTCATGGCCAGCGCGCGCTCAATAGTGGATTGCT +CAGCGGTCAAACCACTTAAAATAGCGGCCGTCTGGGTAGCGTCGCCACCGCTATTAAGCAGCACAACCGT +GTGCGCCAGCGGCTGATTGCTGTTTGCCGCTTTATCCCACGCATATTGCTGAACCTGTGGCATCACCGTG +GACTTCAACTGCGCTTTTTTCAGCAACGTCATGGTTAAGACGTTTGCCACCGCATCTGCCAGTGGAGACT +CCGGTGTATCGAGGATCAGGCTATCATTGATATCGCGGGTGTCTTCCTCAGAGAAATCTTCAGTTTTAGT +TCCGCGCCGGGCGATAGCTTCATCCAACCCTTTCAACAACGTTTTGCACGGCAAATTCATCTCCTGCGCC +CATGCCAGCACCAGCGCCCGATGCAATAACGGCATGTTATCTGCCTGCTCCGCGTAGCTGTCGAGCATAT +GCTGCCAGTATTCCGGTTGTTGCGTTACGCCGATCGCCTGGCTGGCCTGCCAGTCGGCGTACCATGCCCA +TGCCGTAAGGAAGGCGTCACCATTGCCATCTTCACCCCACCAGGTAAAGCGCGCTCCGGGCCCCGCCAGT +TGCATCAGCCGCAGACGGTTATCCTGAATCATCTGACGAATGTCGTTAGCGGCGGCACTTTGATGATCGG +CAAGCGAACGCCAGGCGAGACTGAGCGGGATCAGACGGCTACCGGTGTTGATTACGCCACCCCACGGTTC +ATCGACTAACGCATCAAGATTGTTGCGGAAAATCTCCTGCGGCGTTTCACTACTTTGTAGCCGGATATTG +CTCGCCTGCTCGGGCAACATCAGCGCGTTATCGCCACCACCGAGCATGACATTTTTCTGCTGTTCAACGG +GCCAGCTGTTATCCACAAAAGACAGTTTTGTGCTAATGCTGTCCTGCACTTGCCCATTTTGTTGCAGTTC +TGCACTTAACAAGCCAGATTGCTGAATATTCTGCGTCAGCGAAATATAATTCGCCCCTTTGTGCAGCGTC +AGCGTCTGGCGCATCTCAGCGCCTGCAAATTTAGTCACCAGCGCCACCGGTTCGTTATCCTGCTGACTGA +AGATAAACAGTCCTGCCGCCGGTTTGTCGCCCACGCGATACACCGTTGGCATACTCCACTTCATGTAGAG +ATTTTTTTCCGAACGCAGATAAGCACGCCCCTGCCCGACCAGCCCGTCGCCGTTCATCCCACGCGCGGTG +ATACGCCAGCGGGTTAACGAATCAGGCATCAGGAACGTGAAATACGCTTTGCCTTGTTTATCGGTTGTGA +GTGACGGCATCCATGCCGCGGTATCCACCTCTTCACGCCGTGGACGTTCAAGCATTTTTACTCGCCGCTC +GCTGCGGTTAGTTGCGCCAGGCGCAACCGGCTCGCTGGAGAGCGCCTGGTCGTAGCTGATAAACGACAGA +CTGGAGCTGGTACGCACATTGTTACGCCCCAGCGGATAGAAAAATTTGCCGATATTCGGCGCGATTTCTG +GTTGCAGCGCGTAGATCATTTCATCGACCACGCCTACCGTTAGCTGCGCAGAAACAGGTTTACCTTTCAG +CGACGAGGTTAATTCGACATTGACCAGTTCACCAGGCTGGTAATGGGTTTTGTCCGTTTTCACCCGGATA +TCCAGCTGGGGAACGGCAACTTTGATCCCGGCGTTCTGAAAACTGTACTGACCGTTACGGGTATACAGCA +CCGAAAAAGTGATGTTAGGCGCAAAGGAATTGCTCACTGGAACCCGGGCTTCATACTGGGTATCGTTTAA +ACGTTGTAGCGTTAGCCAGTTTGCCGGATGCGAAAGCAGCGACTGCTGTTCCACGCGATCGCGTTCCAGC +GTCAATAATGCTTCATCAATTGGCTCCGGAAAGGTAATCAGCATCTTCGCGGTTTCGCCTGGCTGGTACA +GCGTTTTATCCGCCACGATATCTACCGTACCAGTATGCGCCGTGCTGCCCTTACCGCTGACGGCATGACT +TAACCCAGCGAGAATTAAGCCGTCTTTATCGCGTAATGTCAGATTGTAGTTGCCAGGTTTAGCGAAATTG +ACGGTAAAGGATTTGCCGCCTGACGGTAGCTCTCCGCTATGGCTCGTGCGGTCTTCGAGACGCAACCATT +CATACGTAACAGGAACCTGTTTTGAAGATTCCAGCGCGGCATAACGGAACACAACCGACTCGCCGCTATT +ACTGTATTGTGCGGCAGTACTTAATGAGTAATGCGCCAGACCGCGTTCAATGAGGATCTCTTTGGTGGTG +GTGACGCGATACGCCGCGCCGTCACTGGCGGAGACGGTTAACAAATAGCGGCTCGGTTTATCGGCGGCGG +GGAGATTTAACGCCACATGACCGCTGGCGTCGGACACCGTTTCGCTGCCTTCCAGCGACACGGGGAAACG +TCCGGCATAACGCAAATCGTTACCGACCATTGATAATTGCTGAGCGCGCAAACTTAACTGCACGCGGGCA +TTTTTTACCGGCTCGCCATCCGGGTAGAGCAGTTGCAGTTTGCCGCTGACCGCTTCGCCAGTTTTGAACT +CTTTTTTGGCGAGAGCTAAACCAATCTCGAAATGTGGCTTGATGTAGTTTGCCACGCGAAAACTGCTGCT +ATAGACCTGATTGCGGTAAGCAAGACGTAACTCATAACCTCCGGCTACGGCATTTTCTGGCAGGCGGAAA +CTTCCCTGCCCGCCATTGCGCGCATCCAGCGTGACATTGACGGTTTGCAACAGACTGCCGTTGGCGTCCA +GCACCGAAAGCTTCGCCGGGGCGCTGACGATGGGGGATGAATGCAACGGATCGTGGAACTCGCGGCCGAT +CACTTTAACATCGACACGATCGCCTGCGCGATATAGCGGGCGATCGGTAAAAATATACAAGCGGGTGTTG +TAGATTTCGCTTTCGTAGAAGAAGTTCTCGGAGACAAAAACGCCGCCTTCAGCATCCTTACCCAGAATGT +ATGAACGTTCTGGCGATATATGTTGTAACTGCAAGGTACCGCTGTCATCGGTCACACCGCGGGTCATCAC +GCCAAGACCGTCAGTCCACAAGATCTCTGAGCCGGGCTTCGCTTCACCCTGTTTTTTACCCGCGGTCCAC +ACCAGAAGCTCTTTGCCTGACACTTTGCTAAGCGCCACGGTATCGGAAACAAACACCACCGTCGTCGCCC +GATACCCACCAACCATCGCCTCGACGAGGTACAGTCCCGGCTCTTGTTGGCCGAGAGGAATATAAATGTT +ACCCGGCTGCGGCGAGATGAAATTGCTGGATGCGCCTTCCAGTTTTACCCCTTGCTGCGGCTCGAACGGT +TTAGCCTGCCATAGTGGATAACGGAACTGTTTCACCAGGGGATATTTTTTCAGCGGGGAAAACTGGTTGT +TCTGTACATAACGGGAAGGTTTAATAATGGCATTGCCGAGCTGTAATTCGGGTAACGCCTGAGTCACATT +CTGCCGTGACTGAGAAGAGAAAGTACGCTGCATCACGCGGCGAGATTTGCCGTACCAGTTATCCCACAGC +CAGGTTAGCGTATTGTTCAGCCCGTCGCCCAGATATTGCGGTTGCACCACAATGCGATGCAGGTTTTTCT +GCTGGCGCAAAAATGCCATCGGGTCAGGAATACGATACAGGCGAACGTCCACGCCGCCGTACTCTTCCAT +CTGATAGCGCCGATAATCACGCCCCGGCGCTTCCAGTCGCACTTTCGCCTCTTCACTGCTGCTAAAACTG +CTGTCAGCAAGCAAAAAGAATGTTCCCCCGGCAGGCGGCGCATAGTTGCTGGAAGGAAGCGAATCATCAG +CATTAGCAAGCCCTGTTCCCACAAGAGACAGGGACAAGCACGCTGCTATCGCGCCAGAAAATTTAAACGA +TAAATGCCAATGAAATTGGGATTGGAATCGTTGGGTATCCATCGGGTGTCCTTCCATGTCATAAGTTGTT +GCAGACTGACTGCGCGCATTCCGTTGTCAGTTTTCGTGGCGCTTCCGGTGTGGTAGATGACGTAACGCCC +CATCCAGACCATTAAGTGCTGGGCATCGCCCTGATCGAAAAAAATCATATCGCCAGGCAGCGCCTGGTTT +ATGTCCTGGCCAATAAACTGGCTGTTGTACTGAATCAAATTAATCGCGGTCACATAGGGGCCGGTTTTCC +CGTTCCCCTGATTCCAGTTTTGCGCCAGTTGACGCTGTTCAGGTGTTAGCGTCATCTCTGGCGGCAAATA +CTGGCTAGATAAACCGTTACTTTTTAGCCATTTACTGTCGTGAACTTTCAGCGTCTCGTTCGCCGCAAAT +CGCACCAGGCCCGCACAATCCTGCTGATACCAGCGTGGACTTGGCCCCTGGCGGAGCTGTTCTTGTGCAA +TGCGTACAAACCAGGCGCGAAACAGCCCGGATTGTTCGACATTCAGCATTTCGCTATGGGCAACAACACA +ACACAGCCAGCAAATCAGCGCCAGCAGCCCGTGCCTCATAGCGGCTGCCAGGTTATGGGTAGCCACTGCC +AGGCGGCACCGGGTTCCATCTGGGCCAGCTTCATGACATAACGCGGTTGTTGAGATAAAGCGTCCAGCTT +CGGCATTAATAAAGTTTGTGCGGCGTTATAAAAAACCGGTTCGAGATTCTTCGGCAGACTGGTCAACGTT +TCGTTACGCAGCAGTTTCGCTATTCCTTGTGGATTGATATAGAGCGGAACGATGCCATCAGTGGGTATTA +CATCCACCATTGCCGGGCGGGTTTTATTCAGTGTTTGCAGCGCGTTATTAACCAGCGTGTCATCGAGGGA +GAAAAGCAGCGTTTTGTTTTGCATCGCCAGCGACACACGGAAAAAATAATCCGACATTAATTGATCGGGT +TGCGCCGCCTGCGCTTTCGGATACTGGCCGTATCGGGAACTCACTTCGCGACGCCAGATTTGCGCTTCGC +CCTGCTGAGTCTGGCTTACCGGCAAAACACCTTCTGGCGCTTTGCTTTCGTGCGCACCAATATTTTGCGT +AAACAGTTTCCCTGGCAATTGCGCCTGTTCGGCAGTGCCATCAAACTGACCGACAAACAGCGGGGTTTGC +AATTTTGAGTCTTCATACCAGCACAGCCCCGCGGCACCGTCTAACGCCCCATTCAGCTTGTCGTTTTCCT +GGCTGATGTGCGAAAGCATCTCTTCGGCAATACCGTGTGAATACGGCACCGCCACACAGAAGCTGGCTCC +GGCAGGCATACTGTTCCATACCGGCGTAAAATCGAAACTGGCATCTACGCTGGCGGATTCATCATTTAAC +GCCACAAAACTGTGCCAGCCGTCGTTACCCATTTCGAAGCGTACGCCAGCAAAAGAAGGCATTAACCGCT +GGTAGCCAAACCCCAGCCACCTGGCGCTGACTACGATGCGCTGGCGTACTGGCGTTTTTTCGGCAGTACG +CTCTTCCAGGCCAAAGCTTGCTTGCCAGCGTTTTTTGCCGCTCAACAAATCACCTGCGATCGCCGTGGCT +TCGGTATCCTGCTGATCATCTTTAAACAACATATCCGTGCTGGAAAACACCAGCATCTTGTCCTGATAAG +TCGCGAACATCAGGGCGTTATTGCCGTTATAGCGCAACTGATAAACAGGAACAGTTTCACTATTTATCTT +GATGCTACTGATTTCCGTTTTGCTTAACTGGCTGTCGCTGGTAGCGGCAAACAACAATGGCTCCAGCAGT +TTGCTTAAACCACTGCGCTGGATCAGCACCATATAATGTGAAAGATGGCCTTGTTTATCGTGCCACAGCG +CTGCCTGCGCGGGCTGATCTAAGAGTGACGAAAAGAGCTTATCTTTCAGCGTGAGATCGTGTTCATAGAC +AATACGACGAATGCTGCCTTCAATGCCCAGACGATCGGCATGATTCTGATAATAGAAAACGAAATCTTCG +CTCAGAACATCGTGGAGAAACGGAATGGTGAGGAGATCTTTGGGAAGCTGGCTCAGAGAGTCGCTGTCGA +GAAAGAGGTCCGGCTCATTGAGATCGATTTGCAGATTGTTGTGCACCACCAGCGGCGACAACGTTTTTTC +TGGCCCACTGCCAGCATATTGCAACGCCCAGACGCCAGCGGAAAGCAGTGCTATTGCGCCAAAACCTACA +AGACCATAGAACCGCCAGCCTTTCGCCTTTTTTTCACCACTCATTGCCACATTCCTTGTGTATAGCCAGC +CATTTTTTACGGGCACAGCCAAACTTTACCGTGCCCTAATACGACAAAAGCCCAGACTTTGCAGCCTGGA +CTTTTCAATTCAAACAAGGGAGATAGCTCCCTTTTGGCATGAAGAAGTAAAATTATTCTTCTTCTGGCTC +GTCGTCAACGTCCACTTCCGGAGCGATTTCATCGTCCCCTTCCGCGGCACTGCCGTCGATGGTATCCAGA +TCTTCCTCGTCAACCGGTTCAGCAACACGTTGCAGACCCACTACGTTTTCATCTTCCGCAGTACGGATGA +GGATCACGCCCTGGGTGTTACGGCCCACGATGCTGATTTCCGAAACGCGAGTACGTACCAGCGTACCGGC +ATCGGTGATCATCATGATCTGGTCGCAGTCATCTACCTGTACCGCGCCAACAACTAAACCGTTACGTTCG +GTAACCTTGATGGAGATAACCCCTTTCGTCGCACGCGACTTGGTTGGGTATTCCGCCACTGCGGTACGTT +TACCGTAACCGTTTTGCGTTGCGGTGAGGATTGCGCCATCGCCACGAGGCACGATCAGAGAGACGACTTT +ATCGCCTTCACCTAAGCGAATACCGCGAACACCGGTGGTGTTGCAGCCCATCGCACGGACAGAAGACTCT +TTAAAGCGCACCACTTTACCTTCAGCGGAGAACAGCATTACTTCGTCTTCGCCGCTGGTCAGGTCAACGC +CGATCAGCTCATCGCCGTCAACCAGTTTGATCGCCACTTTACCGGCGGTACGCAGACGGTTGAACTCGGT +GAGGACAGTTTTCTTCACGGTACCGTTAGCGGTCGCCATGAAGACTTTCACGCCTTCTTCAAACTCGGTC +ACTGGCAGGATCGCAGTGATACGTTCGTCCTGCTCCAGCGGCAGCAGGTTGACGATCGGACGACCGCGCG +CGCCACGAGTGGCTTCCGGCAACTGATAAACTTTCATCGAATAGACGCGACCACGGCTGGAGAAGCACAG +AATATGGTCGTGAGTGTTCGCCACCAGCAGTCGGTCGATAAAGTCTTCTTCTTTAATACGTGCGGCAGAT +TTACCTTTCCCGCCACGACGCTGCGCTTCGTATTCAGAAAGCGGCTGATACTTAACGTAGCCCTGGTGAG +AGAGCGTCACGACCACATCTTCCTGGGTGATCAGATCTTCCAGGTTGATGTCTGCGCTGTTGGCGGTGAT +TTCAGTACGACGTTTGTCACCGAACTGTTCACGAACCAGCTCCAGCTCTTCACGGATCACTTCCATCAGA +CGATCGGCGCTACCAAGAATACGCAACAGTTCCGCGATCTGATCCAGCAGCTCTTTGTATTCGTCGAGCA +GTTTTTCGTGCTCAAGACCGGTCAGTTTCTGCAAACGCAGATCCAGAATCGCCTGAGCTTGCTGTTCGGT +CAGGTAGTACAGACCATCACGCACGCCGAACTCTGGCTCCAGCCATTCCGGACGCGCAGCATCGTCGCCA +GCACGTTCGAGCATCGCGGCAACGTTGCCCAGCTGCCACGGATTAGCAACCAGCGCAGTTTTCGCTTCTG +CAGGCGTCGGCGCATGACGGATCAGTTCGATGATCGGGTCGATGTTCGCCAGCGCCACGGCTAATGCTTC +AAGGATATGAGCACGATCGCGAGCTTTACGCAGTTCGAAAATAGTACGACGGGTCACCACTTCACGGCGG +TGACGAACAAACGCCGCGATGATGTCTTTCAGGTTCATGATCTTCGGCTGACCATGGTGCAATGCCACCA +TGTTGATACCGAAAGAAACCTGCAACTGGGTCTGGGAGTAGAGGTTGTTGAGCACAACTTCACCGACCGC +ATCGCGTTTCACTTCAATCACGATGCGCATACCGTCTTTGTCAGACTCGTCACGCAGCGCGCTGATGCCT +TCCACGCGTTTTTCTTTTACCAGTTCCGCAATCTTCTCGATCAGGCGCGCTTTGTTTACCTGATACGGAA +TTTCGTGGACGATAATGGTTTCACGACCGGTTTTGGCGTCAACTTCCACTTCTGCGCGAGCGCGGATATA +CACCTTGCCGCGACCGGTACGGTAAGCTTCTTCAATACCGCGACGACCGTTAATGATTGCCGCCGTCGGG +AAGTCCGGCCCCGGGATGTGTTCCATCAGCCCTTCAATGCTGATGTCTTCATCATCAATATACGCCAGAC +AACCGTTGATGACTTCCGTCAGGTTGTGCGGCGGGATGTTGGTTGCCATACCTACGGCGATACCGGAAGA +ACCGTTCACCAGCAGGTTAGGAATTTTGGTTGGCATGACGTCCGGAATTTTTTCCGTGCCGTCATAGTTA +TCAACGAAATCGACCGTCTCTTTTTCGAGATCGGCCATCAGTTCATGGGCAATTTTCGCCAGACGGATTT +CCGTATAACGCATTGCCGCCGCAGAGTCGCCGTCGATAGAACCGAAGTTACCCTGACCGTCTACCAGCAT +ATAACGCAGCGAGAATGGCTGCGCCATGCGGACGATCGTGTCATAGACCGCCGAGTCACCATGGGGATGG +TATTTACCGATTACGTCACCAACGACACGGGCAGATTTTTTATAGGCTTTGTTCCAGTCATTGCCTAGTA +CGTTCATGGCGTAAAGTACGCGACGGTGTACCGGCTTCAGGCCATCTCGGACATCTGGCAGCGCACGGCC +AACAATGACCGACATCGCATAATCCAGATAGGAGCTCTTCAGCTCTTCCTCAATGTTGACCGGTGTAATT +TCTCTCGCAAGGTCGCTCATCTAACCGCTATCCCTCTACTGTATCCCGGATTCAAAGGTCGCAAATTATA +ACACAGCCGCGCAGTTTGAGGTAAACCTATACGCTTTATTCACATCCAATGCCTGATATACTCGTTTGTC +TTGCCAATTACGGAGTAGAAGTGCCAATGAATGCCGAAAAATCGCCGGTAAACCATAACGTAGACCACGA +AGAGATCGCTAAATTTGAAGCCGTCGCCTCCCGCTGGTGGGATCTGGAAGGTGAGTTCAAACCGCTGCAC +CGCATTAACCCGCTGCGTCTGGGCTATATTGCCGAGCGTGCTGGCGGTTTATTTGGCAAAAAGGTGCTCG +ATGTCGGTTGTGGCGGCGGCATTCTGGCCGAGAGTATGGCGCGCGAAGGCGCGACGGTGACCGGTCTGGA +TATGGGCTTTGAGCCATTGCAGGTGGCAAAACTGCACGCACTGGAAAGCGGCATTCAGGTGGATTACGTG +CAGGAAACCGTGGAAGAGCACGCGGCAAAACATGCCGGGCAGTATGATGTGGTGACCTGCATGGAGATGC +TGGAGCACGTCCCCGATCCGCAGTCAGTGGTCAGAGCCTGTGCGCAACTGGTGAAACCAGGCGGCGATGT +CTTTTTCTCGACACTTAACCGCAACGGCAAGTCATGGCTGATGGCGGTGGTTGGTGCGGAATATATTTTG +CGCATGGTGCCCAAAGGCACGCATGATGTGAAGAAGTTTATTAAACCGGCAGAATTGCTGGGCTGGGTGG +ATCAGACCAGTTTAAAAGAGCGGCATATCACTGGGCTGCATTACAACCCGATCACTAATACTTTTAAACT +CGGCCCCGGCGTGGATGTGAACTATATGCTGCACACGCAGAATAAGTGAGGTTGATGTTTGGCCGCGCCA +ATGCCTGATGCGACGCTTGCCGCGTCTTATCAGGCCTACAAATGCTCCCCGTAGGCCGGATAAGGCGTTT +ACGCCGCATCCGGCAACCGTGCCGACTAGACAGTGATTACCATTTCACCGTCATCGACAAAAACCCTGCC +GTCTGGGCAAAATCATCACTCCCTTTCTGCCACGCCACGCTGCCGCGCAGGGACACTCGCTGACTGATAT +TGCCCGTGACTCCCACTTTTATTTCACCCCGTTGCTTCACCGCATCGTCACTGATAGTGCTGCCATCCTC +TTCAATTTCCGTCGAATGGGGATCGTGATAATAATTCAGATCTAATGTTGGTATGACATGAACAGCGGTA +CGCCATTCGCTGTGTAAACCCAGCCGCGTCTGAATATCATCACCCTGCGATTGTGACACGCGCGCACGGT +TAGCGGCGGTAAAATCATCCTGCTGCACGCCCTGATAAATCACCTGCGCCTGCGGTTCAATCACCACACC +ACGCCCCGGTAACCACTGATACCCCGCCTCCAGCGAGGCGATAATCCCCGACGAGTGGTAATGATCTGTG +CCATCTTCTTGTTCGGAAACATCATTGCTAAACCACGCGTATTGCAGCCAGCTATCCAGCCAGGCCCCTT +GCTTCTGATTACCGTGCTGAAACCAGCTTGATGTCAGCCCAACGGCATAACCGTGGTTCTGGTTATCGGC +GCGAGTTCCGGTCATATTCGAGCGGCTGTCGCCCTGGTTATCGCTGTAGCCACCAACAATCCCAAGCATC +CACTCGCCATCCGTGCCCCAGCGCCCGCTAAACAGATCGCCGCTAAGTTGCACCGTAGAAGTGTCTTCAT +GTTGAGCCAGTTGCCCCGCTGCTGTGTAATGATAATCTCCGCCGATAACACGTAAATTCAGCGTCTGACC +ATCGCCACCTGCGTGATCGCGTCGCTCCATCATAAACGCCTGATTTGCCGCCCGCAGGTTATTAAGATAA +CCGCCAACTTTGGCATTCAACACCGGCTGGTAAGCAGGCGTAGGTTCCGGGTCGGGTGTTGGATCAGGAT +CCGGCGTGGGATCAGGATCGGGAGTCGGGTCTGGATCAGGTGGCGATGGCGGCGTTACTTCTTGCGATCG +CAGATACCAGTCGTTGTTATCTTCCACCAGCGTGTAGTCATACGCTCCCATATTGACGTAGCCGCTGCCT +GCCAGACTGAACTGCGCATTGTTTTGAAACTGCGTGGGATCAGCTGCGAAATCAACCACTTTAATGCCTG +TCGATGTCGGCTCACCAATCCCTGTAATGGAGTTAACCACCACAGTTGTGTTGCCAGCAGTATTACCGTT +CATCACCAATTGATCGCTTACCGAGTCATCGCCGTTTAATTCGCTATCGAGCAGTAGCGTACCGCCGCCG +GTATAATCACCGTTTACCGTCAGCGTATCGCCAGCGACGCCATTTTGCAGGCTAACCGCACCGGACGTAT +TGGTCAGATTGCCATTAACCGTCACGTTGGAAAGATAAGTCAGGCTGTCAGTTTCAAGGTTGGTATTAAG +CTCACCTGTCAACGTCACACCATCGGTGGCATTCACCAGCGTCCCATCGCCGTTAAATAGTGAGGCATTA +AGGGCGACGGAAGTATCCTGCCCGGTCAGGCGCAAAACCGTACCATCGCTGATGTCGATAGTGCCGCTGG +AAATAGCATCAATTGACTGAATATCCTGATCCGCGCCAGTAACGAACGTTGCCCCATCACCAACCCACAG +TGACGAAGCATAAGGAAGGATATCAGCAACATCACCTTTCAGGGTGCCTTCTTCGACACGTACCGCCGAC +TGCGTTGTACCGCTGGCGGTCAGCTCCAGTGTACCAGCCCCCGTTTTAGTCAATGTGCTACCCTCATCCT +GATGCTGCCCGCTGCTGTCAGCCATCAGTGCGCCCCACTGCGTGTCTACCCCCGCATCAACTGCCACTTC +ACCGTCGGCGCGCATTTCAATATCACGTCCGTGGCCTGCCGCATCTGAACGCGTGTCAACGTCGGAGGTA +ATCTCCATCACGCTTTCTTGTTGCTTATCGGTAAAGATAACCTGGCGGTTATAGTGGGTATCTCCAAGCT +GCGAGTTGTCGCTCACCATCAGCGTACCGGAGGCGATTTGTGTTGTGCCCAAATAACTATTATTGTTTGC +CAGACTTACCTGCCCGTCGCTCGCATCGACCACCACGTAGACGCCATCTTTCCCGTCGCCGCCGATATGC +AAATTGTCGCCACCTGCAAGATCTACCACATCCTGACTGCCGATAACCGTTCCGCTGCTGCCACTGACTT +CAAGGCCATCGTTGTATGATGTGCCGCTCTGCCAGGTGGAGAAATCAGAGAGATCGAGCACACCGCCGTT +TAACACGATCGACTGCGGATCGTCCTGGAGAGCGGTAAGATCTGCCGCGTCGCCTTCCAGCGAAAGCACC +GCACCATCATCAACGACTATATCGCCGGTTAGCGCCATCGACTGCGCCCCTGCCAGCACGTAGCTGCCGT +TTTGCGCAATGGTGAGCTGACCAGCACCTTCGATGATGCCAGCAAAACTGCCCTGATTAACAGTAACGTT +GCCACCAGCATCGATATTTAAAGTGCCATTCTGAAAGCCCGTCAATGCGTGCACAAAAGTTTGTTGGGTC +GAGCCAACGTTTAGCTCAGCCTGATTCTGATACTGATCAATACTCCCTATCGTCAGACCGTAGCAGTCTT +GCGGATCGTCCTGGCAATGCGTATCGCCGACATTCATCAGGGAGTTGCTGCGGCCCAGGGTAACTTCACC +GTTTTCAATCTGCATCTCACCAGTAAAGTCATTGTTATCTGCATTAAGTACCAGATCGCCGGAACCTGTT +TTGGTGATTAACCCGGTACCAGCAATAGAGTCAACAGCTCCGTCATTCTCTGTATTGCCAATAACCAGCG +TTTTTCCGTCGGCAATATCAAAGGTAACTTCACTTAAGCCGAGATACATAAAGCCACCCGCCGCAGAGGA +AGGACCATCTCCATAGCCTGCTGCGCTATTGTTCTCATCGACTAACACGCCTCCGTTCTGGCTGTAGCTG +TCATCAACAGAAATATCAATAAGATAGGGAGCCGTCACGCTATTGGTATATATCGCCCCGCCATAACCTT +CGGCAGTGTTATTTGTAAAGGCAGTGTTATTTACTATCGTATAACCTGAAGGATGCTTGCTGTCGCTATT +ATTATCGGTAACATCGATTGCCCCGCCATCGCCATCACTGTAACTTGTTGATGTATATGCCTGGTTGTTA +TCAAAAATAACATCACTTAAATAAACGTCATTATTAATGGTATAAATTGCGCCACCTTTGCCATCATTAG +CGATGTTATTGCGAAACATGGCGTTAGTGACACGTAAATCGACGGCACCAGTATCGTTAGTACCAGAAGA +ATAGATTGCGCCACCATAGCCGCCTGCGACGTTACCGGAAAAAATAACATCAGTAAGATTCAGCGTTGAG +TTTTCTTTAGCAAATATGGCCCCGCCGTTATTATATTCTCCTGTAACGGTGTTATTGGCAAACAGAGTCA +TTCCAGTTTCATTTTCTGGTAATAGTGAAAATTCCGCTCCTTGTTGCAAAAATACGGCCCCACCGCTGGC +GTTATTGGTCATATCCGAAAAAACCAGCCATTGCCCATCAGCGATACTCCAGTCCTGCGTAATGCCTGAA +AGGCTTTGCCTGCTGGCCTGACAACTCGCTTTGACATCATATCCCTGGCATGAATCAGTGACCGCCGCGA +CACCGTTAGCAGAGAAAAGAGATGCAATCATTGACGGGAGTAAAGATAAATACTCCTTGCGTAGAAAGAT +AATCCGCATATTAATCTAACCATCATTTTCTATAAGACGGCGTATTTAATCGCATTATACGATATGGAAT +ATCTTTCTTTTGTAAATTGTTCAACCCGGTGCAATGGCTATTTTGTTATTATTTGATGAATAATATCAGT +GCGTCATAATTCAAGTTAATAACCTTCAGGGATATCAGTTATATTTAAACTAAATTAAAGTCATGAATAA +TTTTCTTATAATATAAGGTAAATTAACAAAATGGCTTAGCATTTAACAATAACCGAATAGAAAACAACCA +TTTCGCCATCAACAATCTCTTACATTCGCTTATATATTGACCACAACTGATACATCAGATTATGTGATGA +CTCGTGCTTAGATCAATTTTTGCAATCATTAGCAAAAAGATTAATAAGCCATCTATATCAATTTATCTAA +CCTATTATGCCGTTCAAGAAATCGCCGAACAGTTATTTTTAACAAATTTTTCTCTTCCCATTGACTTTCC +CGGACACCTTGTCTGACCTAAGGTGCGCGAAAGCCACTTTTTCCTTCCTGAGTTATCCACAAAGTTATGC +ACTTGCAAGAGGGTCATTTTCACACTATCTTGCAGTGAATCCCAAACATACCCCCTATATATAGTGTTCT +AAGCAGCTTCCCGTACTACAGGTAGTCTGCATGAAACTATTGCGGAAAGAATTCCAAAAACAGGTACGAC +ATACATGAATCAGAATCTGCTGGTGACAAAGCGCGACGGTAGCACAGAGCGCATCAATCTCGACAAAATC +CATCGCGTTCTGGATTGGGCGGCAGAAGGACTGCATAACGTTTCGATTTCCCAGGTCGAGCTGCGCTCCC +ACATTCAGTTTTATGACGGTATCAAGACCTCTGACATCCACGAAACCATTATCAAGGCTGCCGCAGACCT +GATCTCCCGTGATGCGCCGGATTATCAGTATCTCGCCGCGCGCCTGGCGATCTTCCACCTGCGTAAAAAA +GCCTACGGCCAGTTTGAGCCGCCTGCGCTGTACGACCACGTGGTGAAAATGGTCGAGATGGGCAAATACG +ATAATCATCTGCTGGAAGACTACACGGAAGAAGAGTTCAAGCAGATGGACACCTTTATCGATCACGACCG +TGATATGACCTTCTCTTATGCTGCCGTTAAGCAGCTGGAAGGCAAATATCTGGTACAGAACCGCGTGACC +GGCGAAATCTATGAGAGCGCCCAGTTCCTTTATATTCTAGTTGCCGCGTGCTTGTTCTCGAACTACCCGC +GTGAAACGCGCCTGCAATATGTGAAGCGTTTTTACGACGCGGTTTCCACATTTAAAATTTCGCTGCCGAC +GCCAATCATGTCCGGCGTGCGTACCCCGACTCGTCAGTTCAGCTCCTGCGTACTGATCGAGTGCGGTGAC +AGCCTGGATTCCATCAACGCCACCTCCAGCGCGATTGTTAAATACGTTTCCCAGCGTGCCGGGATCGGCA +TCAACGCCGGGCGTATTCGTGCGCTGGGTAGCCCGATTCGCGGTGGTGAAGCGTTCCATACCGGCTGCAT +TCCGTTCTACAAACATTTCCAGACAGCGGTGAAATCCTGCTCTCAGGGCGGTGTGCGCGGCGGTGCGGCA +ACGCTGTTCTACCCGATGTGGCATCTGGAAGTGGAAAGCCTGCTGGTGTTGAAAAACAACCGTGGTGTGG +AAGGCAACCGCGTGCGTCATATGGACTACGGGGTACAAATCAACAAACTGATGTATACCCGTCTGCTGAA +AGGTGAAGATATCACCCTGTTCAGCCCGTCCGACGTACCGGGGCTGTACGACGCGTTCTTCGCCGATCAG +GAAGAGTTTGAACGTCTGTATACCAAATATGAGAAAGACGACAGCATCCGCAAGCAGCGTGTGAAAGCCG +TTGAGCTGTTCTCGCTGATGATGCAGGAACGTGCGTCTACCGGTCGTATCTATATTCAGAACGTTGACCA +CTGCAATACCCATAGCCCGTTTGATCCGGCCATCGCGCCAGTGCGTCAGTCTAACCTGTGCCTGGAGATA +GCCCTGCCGACCAAACCGCTGAACGACGTCAACGACGAGAACGGTGAAATCGCGCTGTGTACGCTGTCTG +CTTTCAACCTGGGCGCAATTAATAACCTGGATGAACTGGAAGAGCTGGCAATTCTGGCGGTTCGTGCACT +TGACGCGCTGCTGGATTATCAGGATTACCCGATCCCGGCCGCCAAACGTGGAGCGATGGGTCGTCGTACG +CTGGGTATTGGTGTGATCAACTTCGCTTACTACCTGGCGAAGCACGGTAAACGCTACTCCGACGGCAGCG +CCAACAACCTGACGCATAAAACCTTCGAAGCCATTCAGTATTACCTGCTGAAAGCCTCTAATGAGCTGGC +GAAAGAGCAAGGCGCGTGCCCGTGGTTTAACGAAACCACTTACGCGAAAGGGATCCTGCCGATCGATACC +TATAAGAAAGATCTGGATACCATCGCTAATGAGCCGCTGCATTACGACTGGGAAGCTCTGCGTGAGTCAA +TCAAAACGCACGGTCTGCGTAACTCCACGCTTTCTGCTCTGATGCCGTCCGAGACTTCTTCGCAGATCTC +TAACGCCACTAACGGTATTGAACCGCCGCGCGGTTACGTCAGCATCAAAGCGTCGAAAGACGGTATTTTG +CGCCAGGTGGTGCCGGACTACGAGCACCTGCACGACGCCTATGAGCTGCTGTGGGAAATGCCGGGTAACG +ATGGTTATCTGCAACTGGTGGGTATCATGCAGAAATTTATCGATCAGTCGATCTCTGCCAACACCAACTA +CGATCCGTCACGCTTCCCGTCAGGAAAAGTGCCGATGCAGCAGTTGCTGAAAGACCTGCTCACCGCCTAC +AAATTCGGGGTCAAAACACTGTATTATCAGAACACCCGTGACGGCGCTGAAGACGCACAAGACGATCTGG +TGCCGTCAATCCAGGACGATGGCTGCGAAAGCGGCGCATGTAAGATCTGATATTGAGATGCCGGATGCGG +CGTAAACGCCTTATCCGGCCTACGGCTCGGTTTGTAGGCCTGATAAGACGCGCCAGCGTCGCATCAGGCT +CCGGGTGCCGGATGCAGCGTGAACGCCTTATCCGGCCTACGGCTCGGATTTGTAGGCCTGATAAGACGCG +CCAGCGTCGCATCAGGCACAGGATGCGGCGTAAAATGCCTTATCCGGCATTAAACTCCCAACAGGACACA +CTCATGGCATATACCACCTTTTCACAGACGAAAAATGATCAGCTCAAAGAACCGATGTTCTTTGGTCAGC +CGGTCAACGTGGCTCGCTACGATCAGCAAAAATATGACATCTTCGAAAAGCTGATCGAAAAGCAGCTCTC +TTTCTTCTGGCGTCCGGAAGAAGTTGACGTCTCCCGCGACCGTATAGATTACCAGGCGCTGCCGGAGCAC +GAAAAACACATCTTTATCAGCAACCTGAAATATCAGACGCTGCTGGATTCCATTCAGGGTCGTAGCCCGA +ACGTGGCGCTATTGCCGCTTATTTCTATTCCGGAACTGGAAACCTGGGTCGAAACCTGGGCGTTCTCAGA +AACGATTCATTCCCGTTCCTATACTCATATCATTCGTAATATCGTTAACGATCCGTCTGTTGTGTTTGAC +GATATCGTCACCAACGAGCAGATCCAGAAACGTGCGGAAGGGATCTCCAGCTATTACGATGAGCTGATCG +AAATGACCAGCTACTGGCATCTGCTGGGCGAAGGTACCCACACCGTTAACGGTAAAACTGTGACCGTTAG +CCTGCGCGAGCTGAAGAAAAAACTGTATCTCTGCCTGATGAGCGTTAACGCGCTGGAAGCGATTCGTTTC +TACGTCAGCTTTGCTTGTTCCTTCGCATTTGCAGAACGCGAATTGATGGAAGGCAACGCCAAAATTATTC +GCCTGATTGCCCGCGACGAAGCCCTGCACCTGACCGGCACCCAGCATATGCTGAATCTGCTGCGCAGCGG +CGCGGACGATCCTGAGATGGCGGAAATTGCCGAAGAGTGTAAGCAGGAGTGCTATGACCTGTTTGTTCAG +GCAGCTCAACAGGAGAAAGACTGGGCGGATTATCTGTTCCGCGACGGTTCGATGATTGGTCTGAATAAAG +ACATTCTCTGCCAGTACGTTGAATACATCACCAATATCCGTATGCAGGCAGTCGGTTTGGATCTGCCGTT +CCAGACGCGCTCCAACCCGATCCCGTGGATCAACACTTGGCTGGTGTCTGATAACGTGCAGGTTGCTCCG +CAGGAAGTGGAAGTCAGTTCTTATCTGGTCGGGCAGATTGACTCGGAAGTGGACACCGACGATTTGAGTA +ACTTCCAGCTCTGATGGCCCGCGTTACCCTGCGCATCACTGGCACACAACTGCTGTGCCAGGATGAACAC +CCTTCCCTTCTGGCGGCGCTGGAATCCCACAATGTGGCGGTTGAGTACCAGTGTCGCGAAGGTTACTGCG +GCTCCTGTCGCACACGCCTGGTTGCAGGTCAAGTTGACTGGATTGCCGAACCGTTAGCCTTTATTCAGCC +GGGGGAAATTTTGCCCTGTTGTTGCCGGGCAAAAGGCGATATTGAAATCGAGATGTGAATTGGTTGTAGT +GCCAGATACAACGCTTATGCGTCTTATCTGGCCTACAACGATTACATGGCGTAGTAATACGCTTTCACCT +GCTCCCAGTCCGCTTTGGGGATTGGCTCCAGATATTTTTCCAGCTGGCGGAAGTCATGATTAATCGCTTT +ATCGCGACGCAAGCGGCGACGACTTTTCTCCAGGTCAAGAAAACCAGCTTCTGCATTACCTTCTGTTTTC +ACATAGATATGGCGAACATAACAACAGCCATGCTGACGATTAATGCTATGCATTTTCTTAAACGCCAGCG +CCACTGCTTTCAACATGGCTTGCCGTACTTCGTCAGAATAAGGCGATACTGCATGCTGGGCATACCAGTC +AGCAATGCTGATGAACCCCGCCATATCTTCAGTCACCAGCAACGCTCGCCATTCACCCTCAATTTTCACC +GCTTCACCAAAAACGATCTTCGGCACGATGACACCGGCCCGTTCCAGTTCTTTAATTACCGCAACCTCAC +GGACAATCGTTGGTCGGCCGAACGGATAACGTACGGAATGAAACAGATGATGCGTCATGCGCTTTACATA +CAGCTTTTTGCCGTTGCGCTCGACGCATTGCACCCCGCTCATACCATTACGGCGATAGTTAGGCTCTTCA +ACCCAGTCGCCCTCTGTTGCCCACCAGTGATTAAATTCGTCGTACTTTGCTGAAACTGCCATACCCTATC +GCCTGTCATTTTTATTAACGACAATGACTATAGGTGGTTACCTGAGGAAAATCTTAATGAAACGTGTCGT +ATTAATGAATTTCTTTTGCCACTACTAGCTTGACACCGCTTTTACCCTTCATTTGCAGCGCATAGATTCC +ACCAGCCACTACCACTAATAGTGCGCCCAGCAGATAAAATGTGAATTTAATCAGGCGGATACAGCGATGA +ATTTTATTCGACAGGGATTAGGCATCGCCTTACAACCAGAGTTAACGCTGAAAAGCATTGCAGGTGAATT +GTGTTCCGTTCCTCTCGAACCAACTTTCTATCGACAGATTTCGTTGCTGGCTAAAGAAAAGCCGGTAGAA +GGCAGTCCACTGTTTTTACTACAAATGTGCATGGAACAATTAGTGGCGATTGGAAAAATTTGATATGAGA +CAGGATGGCGCATGAACGCCATCCTGCAGTAACATTACTCTTTATTAAGAAATTTTACTGCCTTATCAGG +GAAATCAGTAAACAGCCCATTTACACCCGCTTTGTTATACAGAGCATCATATAACTGATTCACATCAGGA +GTGTATTCAGGCAGTTTATCTGACCGCACGGTATAAGGATGCACTACCAGTTTATTCTGCTGAGCATCTT +GCACCATGCCAGTGAGTTTGATATTACCCGGCTGCGATGTCTCCTCAATCAACATATGGTAATCCGGACC +AATACCATCTGCATATTCCGCCACCTGTTTCATGGCACCCGGCTTAAACATCCAGTCGTAGTTGTAATTA +ACCCAGCTTCCATCCGGCTGTTTCTGCTGCGTTTCATTCCAGTCGGTATAGGCAATCAGCTGTACCAGAT +TGAGCTCCATGCCCATTTTGGGTTCCAGCTCATTCTTAATACGCTTCAGCTCATCAGCATCAAAACATTG +CAAATAAACTTTATCGTCTTTACCGGTGTAACCATATTTCTTCAGCACTTCCAGCGTTTTTGCCGCAATA +TCCTTCCCTTCCTGATGATGGAACCACGGCGCTTTGATTTCTGGATAAATACCGATATTTTTCCCGGTAG +AGTGATTTAACCCCTGAACAAATTCAATCTCTTCTTCAAAGGTGTGCACCCGGAAGTCGGACTTACCCAT +TGGGAAACGCCCCGGATAAGTCTGCACTTTTTTACCGTTTTCAATATCGAAACCTTCGGTAAATTTCAAC +GACTTAATTTCATCCAGCGTGAAATCTATCGCGTAGTAACGACCGTCTTTGCGCGCCCGATCCGGGAAAC +GATCGGCAACATCAGTAACACGATCGAGGTAATGGTCATGCAGAACAACCAGATTGTCGTCTTTGGTCAT +CACCAAATCCTGTTCCAGATAATCCGCTCCCTGCGCATACGCCATCGCTTTTGCTGGCAGCGTATGCTCC +GGCAAATATCCACTGGCACCGCGATGGGCGATGACTATTTTTTCGTTGCTGTCCGCCGCCATTGCACTGC +TTCCCATGACTATAGTGCTCATCATGATCGCCATGCTAAGGTTTTTCAGCGTCAATTTCATGCCATTAGC +CTCCGTTGCGTTCTTGCAGTAATTGTTCATGGCGACGTTTTTCGCCAATCATCACAACAATCAACAAGAT +AACCGCCAGAATGCTGCCGCCAATCATTACCATAAAGCCGCCATCCCAGCCGAAGAAGTCCACGGTGTAG +CCAACAATCGCGCTCGCCGCCACCGAACCGCCCAGGTAACCAAACAGCCCGGTAAAGCCCGCTGCCGTAC +CTGCCGCTTTTTTCGGTGCCAGTTCCAGCGCATGCAGACCGATCAGCATCACAGGACCGTAGATCAGGAA +GCCGATAACAATCATACAAATCATATCGACGGTTGGGTTACCTGCCGGGTTCATCCAGTAAACGATAGTC +GCGATGGTCACCAGTGTCATAAAGAAAACGCCGGTTGCCCCACGGTTGCCACGGAAGACTTTATCCGACA +TCCAGCCGCACAGCAGAGTGCCCGGAATACCTGCATATTCATAAAGGAAGTAGGCCCAGGAGGATTTATC +TAGCGCGAAATGCTTAACCTCTTTCAGATAAGTCGGTGACCAGTCGAGGATGCCGTAACGCAGCAGATAA +ACGAACACGTTGGCGATGGCGATATACCACAGCAGTTTGTTCGGCAGTACGTACTGCATGAAGATTTGCT +TCGCCGTCAGCTCCTGTTCCGCTTTTTCGTTATAGTCGTCCGGATAATCATTTTTGTACTCTTCGATCGG +CGGCAAGCCACAGGATTGCGGGGTATCGCGCATCATCGCAAAGGCGAATAATGCCACCAGAATGGCGCAG +AAAGCAGGCATATAGAGCGCCGCATGCCAGTCATTGAACCAGGCCATCCCCAGCAGGAACAGCAGCGGCG +GAATACCACCACCGACGTTGTGCGCACAGTTCCACACTGACACAATGCCGCCACGTTCTTTCTGCGACCA +CCAGTGCACCATAGTACGACCACACGGCGGCCACCCCATCCCCTGGAACCAACCGCAGAGGAACAACAGT +ACAAACATCACCGCAATGCTCGACGTCGCCCATGGCACAAAGCCCATAAACAACATCACTGCCGCCGCCA +GAATCAAACCTGCGGGCAGGAAAACGCGCGGATTCGAGCGATCCGATACCGAACCCATGATGAATTTCGA +AAATCCATAAGCAATCGAGATCCCCGAAAGGGCAAAACCTAAATCACCGCGTGAGAATCCCTGCTCAACC +AGATAAGGCATAGCAAGCGCAAAGTTCTTACGAACCAAATAGTAAGCCGCATAGCCAAAGAATATCCCCA +GGAAAATTTGCCAGCGCAATCGACGATAAGTCGGATCGATCTCCGCGGCAGGTAAGCGCGCTTTGTGTGG +CGCTGGTTTAAAAATACTCAACATTGATAGCCTCCGTGGCCCGTGGTCTTATTTATGATTAACAGCCTGA +TTCAGTGAGAGAACCTGCCGTTTCTTGAGTTGCCGCGATGTTAAGAAAACATTCATAAATTAAATGTGAA +TTGCCGCACACATTATTAAATAAGATTTACAAAATGTTCAAAATGACGCATGAAATCACGTTTCACTTTC +GAATTATGAGCGAATATGCGCGAAATCAAACAATTCATGTTTTTACTATGGCTAAATGGTAAAAAACGAA +CTTCAGAGGGATAACAATGAAAACTCGCGACTCGCAATCAAGTGACGTGATTATCATTGGCGGCGGCGCA +ACGGGAGCCGGGATTGCCCGCGACTGTGCCCTGCGCGGGCTGCGCGTGATTTTGGTTGAGCGCCACGACA +TCGCAACCGGTGCCACCGGGCGTAACCACGGCCTGCTGCACAGCGGTGCGCGCTATGCGGTAACCGATGC +GGAATCGGCCCGCGAATGCATTAGTGAAAACCAGATCCTGAAACGCATTGCACGTCACTGCGTTGAACCA +ACCAACGGCCTGTTTATCACCCTGCCGGAAGATGACCTCTCCTTCCAGGCCACTTTTATTCGCGCCTGCG +AAGAAGCAGGGATCAGCGCAGAAGCTATAGACCCGCAGCAAGCGCGCATTATCGAACCTGCCGTTAACCC +GGCACTGATTGGCGCGGTGAAAGTTCCGGATGGCACCGTTGATCCATTTCGTCTGACCGCAGCAAACATG +CTGGATGCCAAAGAACACGGTGCCGTTATCCTTACCGCTCATGAAGTCACGGGGCTGATTCGTGAAGGCG +CGACGGTGTGCGGTGTTCGTGTACGTAACCATCTCACCGGCGAAACTCAGGCCCTTCATGCACCTGTCGT +GGTTAATGCCGCTGGGATCTGGGGGCAACACATTGCCGAATATGCCGATCTGCGCATTCGCATGTTCCCG +GCGAAAGGATCGCTGCTGATCATGGATCACCGCATTAACCAGCATGTGATCAACCGCTGCCGTAAACCTT +CCGACGCCGATATTCTGGTGCCTGGCGATACCATTTCGCTGATTGGTACCACCTCTTTACGTATTGATTA +CAACGAGATTGACGATAATCGAGTGACGGCAGAAGAGGTTGATATTCTGCTGCGTGAAGGGGAAAAACTG +GCCCCCGTGATGGCGAAAACGCGCATTTTGCGGGCCTATTCTGGCGTGCGCCCGCTGGTTGCCAGCGATG +ACGACCCGAGCGGACGTAACGTCAGCCGTGGCATCGTGCTGCTCGACCATGCTGAACGCGATGGTCTGGA +CGGATTTATCACCATCACCGGTGGCAAACTGATGACCTATCGGCTGATGGCTGAATGGGCTACCGACGCG +GTATGCCGCAAACTGGGCAACACGCGCCCCTGTACGACTGCCGATCTGGCACTGCCTGGTTCACAAGAAC +CCGCTGAAGTTACCTTGCGTAAAGTCATCTCCCTGCCTGCCCCGCTGCGCGGTTCTGCGGTTTATCGTCA +TGGCGATCGCACGCCTGCCTGGCTGAGCGAAGGCCGTCTGCACCGTAGCCTGGTATGTGAGTGCGAAGCG +GTAACTGCGGGTGAAGTGCAGTACGCGGTAGAAAATTTAAACGTTAATAGCCTGCTGGATTTACGCCGTC +GTACCCGTGTGGGGATGGGCACCTGCCAGGGCGAACTCTGCGCCTGCCGCGCTGCCGGACTGCTGCAACG +TTTTAACGTCACGACGTCCGCGCAATCTATCGAGCAACTTTCCACCTTCCTTAACGAACGCTGGAAAGGC +GTGCAACCCATCGCCTGGGGAGATGCACTGCGCGAAAGCGAATTTACCCGCTGGGTTTATCAGGGATTGT +GTGGTCTGGAGAAGGAGCAGAAAGATGCGCTTTGATACTGTCATTATGGGCGGCGGCCTCGCCGGATTAC +TCTGTGGCCTGCAACTGCAAAAACACGGCCTGCGCTGTGCCATTGTCACTCGTGGTCAAAGCGCACTGCA +TTTCTCATCCGGATCGCTGGATTTGCTGAGCCATCTGCCAGATGGTCAACCGGTGACAGACATTCACAGT +GGACTGGAATCTTTGCGTCAGCAGGCACCAGCCCATCCTTACTCCCTTCTCGAGCCACAACGCGTGCTCG +ATCTCGCTTGCCAGGCGCAGGCATTAATCGCTGAAAGCGGTGCGCAATTGCAGGGCAGCGTAGAACTTGC +TCACCAGCGGGTTACGCCGCTCGGCACTCTGCGCTCTACCTGGCTAAGTTCGCCAGAAGTCCCCGTCTGG +CCGCTGCCCGCGAAGAAAATATGTGTAGTGGGAATTAGCGGCCTGATGGATTTTCAGGCGCACCTTGCGG +CAGCTTCGTTGCGTGAACTCGGCCTTGCCGTTGAAACCGCAGAAATAGAGCTGCCGGAACTGGATGTGCT +GCGCAATAACGCCACCGAATTTCGCGCGGTGAATATCGCCCGTTTCCTTGATAATGAAGAAAACTGGCCG +CTGTTACTTGATGCGCTTATTCCTGTCGCCAATACCTGCGAAATGATCCTGATGCCCGCCTGCTTCGGTC +TGGCCGATGACAAACTGTGGCGTTGGTTGAATGAAAAACTACCTTGTTCACTGATGCTTTTGCCAACGCT +GCCGCCTTCCGTGCTGGGCATTCGTCTGCAAAACCAGTTACAGCGCCAGTTTGTGCGCCAGGGTGGCGTG +TGGATGCCGGGCGATGAAGTGAAAAAAGTGACCTGTAAAAATGGCGTAGTGAACGAAATCTGGACCCGCA +ATCACGCCGATATTCCGCTACGTCCACGTTTCGCGGTTCTCGCCAGCGGCAGTTTCTTTAGTGGCGGACT +GGTAGCGGAACGTAACGGCATTCGAGAGCCGATTCTCGGCCTTGATGTGCTACAAACCGCCACGCGGGGT +GAATGGTATAAGGGAGATTTTTTTGCGCCGCAACCGTGGCAGCAGTTCGGTGTAACCACTGATGAGACGC +TACGCCCGTCACAGGCAGGGCAAACCATTGAAAACCTGTTTGCCATCGGTTCGGTGCTGGGCGGATTTGA +TCCCATCGCCCAGGGATGCGGCGGCGGTGTTTGTGCCGTCAGTGCTTTACATGCCGCTCAACAGATTGCC +CAACGCGCAGGAGGCCAACAATGAATGACACCAGCTTCGAAAACTGCATTAAGTGCACCGTCTGCACCAC +CGCCTGCCCGGTGAGCCGGGTGAATCCCGGTTATCCAGGGCCAAAACAAGCCGGGCCGGATGGCGAGCGT +CTGCGTTTGAAAGATGGCGCACTGTATGACGAGGCGCTGAAATATTGCATCAACTGCAAACGTTGTGAAG +TCGCCTGCCCGTCCGATGTGAAGATTGGCGATATTATCCAGCGCGCGCGGGCGAAATATGACACCACGCG +CCCGTCGCTGCGTAATTTTGTGTTGAGTCATACCGACCTGATGGGTAGCGTTTCCACGCCGTTCGCACCA +ATCGTCAACACCGCTACCTCGCTGAAACCGGTGCGGCAGCTGCTTGATGCGGCGTTAAAAATCGATCATC +GCCGCACGCTACCGAAATACTCCTTCGGCACGTTCCGTCGCTGGTATCGCAGCGTGGCGGCTCAGCAAGC +ACAATATAAAGACCAGGTCGCTTTCTTTCACGGCTGCTTCGTTAACTACAACCATCCGCAGTTAGGTAAA +GATTTAATTAAAGTGCTCAACGCAATGGGTACCGGTGTACAACTGCTCAGCAAAGAAAAATGCTGCGGCG +TACCGCTAATCGCCAACGGCTTTACCGATAAAGCACGCAAACAGGCAATTACGAATGTAGAGTCGATCCG +CGAAGCTGTGGGAGTAAAAGGCATTCCGGTGATTGCCACCTCCTCAACCTGTACATTTGCCCTGCGCGAC +GAATACCCGGAAGTGCTGAATGTCGACAACAAAGGCTTGCGCGATCATATCGAACTGGCAACCCGCTGGC +TGTGGCGCAAGCTGGACGAAGGCAAAACGTTACCGCTGAAACCGCTGCCGCTGAAAGTGGTTTATCACAC +TCCGTGCCATATGGAAAAAATGGGCTGGACGCTCTACACCCTGGAGCTGTTGCGTAACATCCCGGGGCTT +GAGTTAACGGTGCTGGATTCCCAGTGCTGCGGTATTGCGGGTACTTACGGTTTCAAAAAAGAGAACTACC +CCACCTCACAAGCCATCGGCGCACCACTGTTCCGCCAGATAGAAGAAAGCGGCGCAGATCTGGTGGTCAC +CGACTGCGAAACCTGTAAATGGCAGATTGAGATGTCCACAAGTCTTCGCTGCGAACATCCGATTACGCTA +CTGGCCCAGGCGCTGGCTTAAACTCCTTTCTGATGCCCGGTAAGCATGTGGTTACCGGGCATTTTTGCGT +ACACGATTCCGTGCCCAATGTATGCGTTGCAACGCAGTGAAAATTCCTCTGAAAACGTCTCGCAAAGGCT +GAAACTGGCAGATGTCAAAGGCCTGGGATAACCGTAATGTCGCGTCATCATAAATATCAGGTGACGGACA +ACCATGACCGAATCAACAACCTCCTCCCCGCATGATGCGGTATTTAAAACCTTTATGTTCACACCCGAAA +CCGCACGGGATTTTCTCGAAATACATTTACCAGAACCACTGCGCAAGCTTTGCAACCTGCAAACCTTACG +CCTGGAACCCACTAGTTTTATTGAAAAAAGTTTACGCGCTTACTACTCGGATGTTTTGTGGTCCGTGGAA +ACCAGCGACGGTGACGGCTATATCTACTGCGTGATTGAACATCAAAGCTCTGCAGAAAAGAATATGGCTT +TTCGGCTAATGCGCTATGCCACTGCCGCCATGCAGCGTCACCAGGACAAAGGCTATGACAGAGTCCCGCT +GGTGGTGCCGTTGCTGTTTTATCATGGCGAAACCTCGCCTTACCCGTACTCACTCAACTGGCTGGATGAG +TTTGACGATCCGCAACTTGCCCGGCAGTTGTACACCGAAGCTTTTCTGTTGGTGGATATCACCATCGTAC +CTGACGATGAGATCATGCAACATCGGCGTATAGCTCTGCTGGAACTGATTCAAAAGCATATTCGCGACCG +CGATTTAATCGGCATGGTCGACAGGATCACCACGCTTTTGGTTAGAGGCTTCACTAATGACAGCCAGCTA +CAAACACTGTTTAATTATCTGCTGCAATGCGGCGATACCTCCCGTTTCACCCGTTTTATTGAGGAGATTG +CCGAACGTTCACCACTACAAAAGGAGAGATTAATGACTATTGCTGAACGGCTACGGCAGGAAGGGCATCA +AATTGGCTGGCAGGAAGGTATGCATGAACAAGCCATTAAAATTGCTTTGCGCATGCTGGAGCAGGGCTTT +GAACGTGAGATTGTGCTGGCGACAACCCAACTCACTGATGCTGATATTCCGAACTGTCATTAAAAGGAGA +GATTAATGACTATTGCTGAACGGCTGCGGCAGGAAGGACATCAAATTGGCTGGCAGGAAGGTAAATTAGA +AGGTTTGCATGAACAAGCCATTAAAATTGCTTTGCGCATGCTGGAACAGGGCTTTGATCGTGACCAGGTG +CTCGCGGCCACCCAGCTAAGCGAAGCCGATCTGGCAGCGAATAACCACTAATTAACACAGGCCCACAGCC +GATCCCCATGGGCCTTTGATATCAATAACTACCTTTTATGCGTGGCCCATTTTTGCCTGATTTAAACATC +GCCAGTCGTTGATCCAGGGCATCGCTGTAGAGCATCGTGTCAACGCCAACAGCGACAAAGTTCGCTCCCC +ACGCCAGGCATTGCTGCGCCATATCAGGAGCCACAGCCAGAAAACCAGCCGCTTTACCCGCAGCACGGAT +CCGCCGAATACTGGTTTCAATAATTCGCTGCACTTCCGGGTGCCCGGCGTTATCCGGGTAGCCCAACGAC +GCAGAAAGATCCGCAGGTCCAATAAACACGCCATCAATCCCTTCGACGTCGAGGATTTCGTCCAGGTTAT +CCAGTGCCGTTTTACTTTCCACCTGCACCAACAGACAAAGCGAATCGTTAACTTGCGCCATGTAATTCTC +AATGCGTCCCCAGCGCGCAGCCCGTGCCACACTGGCCCCGACACCACGCTCACCGTAGGGAGGATAGCGC +GTGGCAGACACCACCTGACGTGCCTGTTCGGCAGTATCGACCATCGGGATCAGTAGAGTTTGCGCGCCAA +TATCCAGGACTTGTTTAATCAGCGGTTTACTGCCTTCCACCGGACGGATCACGGGTTGGCTGGCATAGGG +CGCTACCGCCTGTAGCTGATGATAAAGATCCTGAATGGTGTTTGGCGCGTGCTCCCCGTCAATCAGCAAC +CAGTCATAACCAGAAGTGGCGGCAATTTCTGCCATATAGGCAGTCGTTGAGCTTAACCACAGACCAATTT +GCACTTCGCCCTTGCGTAAACGTTCTTTAAAGGGATTGCTTAATAATGCGTTCATCGTGTTCCTTAACCT +ATTTAATGATGTGCCACGTCGGTCTGCGCAACAGTGCGATTTACACGCAGAGTGAAAATAATCAGCGAAC +CGATGACCGCCACCGCTGCCAGCGTCAGTAATCCCGCCGCATCGCTGGCAAATAACGTTTCTGCTTTCAC +GCGCAGGATCGGGGCAATAAACCCGCCCACTGCACCAAACAGGTTTACAAAACCAATTCCCGCAGCCAGC +GCCGTACCGGAAAGCAGTTGTGTCGGCATCGTCCAGAACACTGGCTGCACGGCAATAAACCCGATAGCTG +CAACACACAGCGCTACGATCGCCATTACTGGAGAAAGCAGCCCGGACAGACCAATACCAATGCCCGCCGC +CAGTAATGTCAGCGCTGCGACATTACGCCGTTCGCCGGTTTTATCGGAATAGCGCGGAATAAGCCAGGTC +CCAAACAAGGCCGCAACCCACGGAATGGCGGTGACCACCGACGCTGTAAAGCCCACTTTTGTTCCCAGCA +ATGCCGCAACCTGGGTCGGCAGGAAGAAAATTAATCCGTAAACCGCCACCTGAATGGTCAGGTAGATAAT +CGCTAGTTGCCAGACTCGGCCATTACGCAGCGCATCGCTCAGCCGAGAAGTCACTTTCTGTTGTTCTTCA +CTTGCCAGTTGATTGATAAGCAACGTTTTTTCTTGTTTACTCAGAAAACGTGCCTGCTCCGGTGTGTCAT +CAAGCCAAAAGAATGTGAATACCCCAGCACCGACTGCCAACAATCCTTCAATCACAAACATCCAGAACCA +GCCGGGATGCCCCATAAATCCATGCATCTCCAACAGCGCGCCGGAAAGCGGTGATCCCAGTGTTAACGCC +AGCGGTGCGCCCATATAGAACAGCCCCATAATGCTGGCGCGATTACGCTGCGGAAACCATTGCGAGGTGA +GATAAATCATACCAGGGAAAAATCCGGCCTCCGCAGCACGAAGCAGAGTGCGAACTATCAGAAATTTCGC +TTCAGTATCGGCCCATGCCATGGCTGCCGAAAGAAATCCCCACAGCAGTGTTGTCGTACCAATCCAGGTT +CTGGCCCCCAGTTTGCGCATCAAAAGATTCGCCGGAACACCCAGAAACGCATATACCACAAAGAAAATGC +CTGCTCCCAGCGCATAAGCTTCATTACTCAACCCGGTATCAATCTGGTAGGTCTGTTTGGCAAAACCGAT +ATTCGAACGGTCGAGAAACGCCAGCACATACAGCGCCAACATAAACGGAATTAAACGCACACGGTTTTTC +TTCACCACGGCGTCAAGCAAAGCGGTGCTCATAAAAAGCTCCTTAGAATATGTGGGCGTTACCGTTGTCA +CAGCAACGCCCGGAGTGATTAGTGGCTGTAGGGGCGTTTCAAATTGCAGTCACGATTGAGTTCGACGCCA +AAACCGGGTTTATCAAGCACTGATTTATGAATACGACCATTCACCGGAACCGGCTCATTGAGCAGAATCG +GGTCAAACTGCGGACGCATCGTTGAACAATCCGGGCTGGTCATCAGGAATTCGCTGAATGGCGTATTGGT +GAAGGTGATCACCGCATGGTGAGAGTAAACAGACGAACCGTGCGGCACCACCAGTTGCCCCCTGGATTTG +GCGATTGCGGCAATTTCCACCAGCGTGGTTAAACCACCGCACCAGCCAACATCCGGCTGCATAATGTCGA +TACCGGTTTCTGAAAGCGTACGAAAAGATTGCAGTGTGCCGTGGTGCTCACCGCTGGTGACCATCATTCC +GACTGGCGCGTTGCGTTTCAGTTCGCGATAACTTTCATACTGCTGTGGCGGCAGGCACTCTTCGATCCAT +TTCAGGTTATAGGGCGCGCAAGCGTGGGCCAGTTTGGTCGCATAGTTCACGTCCTGACTCATCCAGCAGT +CGAGCATTAACCAGAAATCCTCACCGCATTTTTCACGCATATCCGCGACCATAGCGGCATCTTTGCGGAT +CCCCGCATCGCCATCATGTGGCCCCCAGTGCGTCGGCATTTTGCCACCGATAAAGCCCATCTCTTTTGCC +AGATCCGGACGCGCACCTGTGGCGTAGAACTGAATCTCATCACGAACAGCGCCGCCTAAAAGTTTATAAA +CCGGAAGCCCGACCACTTTGCCGAACAGATCCCACAGAGCCAGATCGACACAAGAAATCGTATTCATCAC +CAGGCCACCAGAGCCGGAGTAATACAGGGTGGCACTGAGCATTTGATCGTGGATCAGTTTGATATCACTG +ACACATTTACCCTCAATGAAACGGTTAAGATGTTTTTCGACAATAAAACAGCCCATTTCACCGGCTGTCG +AAACGGCGAATCCGGTCTGGCCGTTTTCTGCTTCGACTTCAACAACCAACGTGCCAAGAACGTTAATGCC +AAATGACTGGCGTGACTGCTCGTAATCGCGGTATTTACTCATCGGGGTGGCAATATGATCGTCTATCCAG +TGATTCGCCCCCTGGTCGTGATAATCACCGCCGCCAGCGCCTTTTTCTGCTGTCGCACCGCCAGTAAACC +AGGCGCGAACCTGTTTAATTTTTGGTAGGGTCATGATGTTCTCCATTGTTATGAGGCTTGTAAGTCAAAG +GGACTTTTCCATCCCAACAGACGTGAAATATCCCTGGCGCAGGCAATGGCCTTGCCCGCCAGATAATCAC +GGTATTCTTCATTGATTTGTAAGCGGGTACCGACCACCGAGATCGCAGCGGTAAGCTCGTTATTGGCGTT +AAACACCGGCGCAGCGACACAACGGACATCGGCGTAATCTTCGCCGTTGTCATAGCTCCAGCCCTGACGG +CGAATACGCGCCAGTTCTTCGTGAAGTTGCTGTGGATGAGTAATCGTTGTGGGTGTCGCCTGCTCCCAGA +CCAGCCCTTCGATAATACTTTGCTGTACCGCTGCAGGTTGCCAGGCAAGCAGGCATTTACCTATTCCGGA +GCGATAAAGCGAAAGGCTTTTTCCTTCATGGGAACGCACGCTGATAGTGGCTGATGACTCCACTTTCAAA +ATGTAATAAGCGCTGCCGTTATCAATAATCCCCAGGTGACATAACAGCCCGGTGGTATCCATCAGTTGCG +TCAAACGCGGTCGAGCCAGTTCCCGGAGATCCATCTTGCTTAACGCATGACCGGAAAGCTCCACCAGCCT +GGTCCACAAACAAAAATTTTCCTGGTGATCAAGGCTAAGAAAACGCTGACGCCTGAGTTCATTAAGCAGC +AAATAGGCCGTGCTTTTAGGGATTCCCAATGTGTCAATGATCGTCGCAGCACTACAGGGGCCAATGCGGG +CAATCAAATTGAGAATATCAATAGCCCGTGTCAGGGCGGGAACTTTGCTTGATTCCAACATACTGGACTC +CAGTCTTAGATACTGGAATCAGTCTCGTTGCTCAGGGGGAGTAAAATTGTGAAGCGCATCAAATCCCGCT +CCTCGTCCAGCAGACTGGAGAAATTACGCACAAATTTGTGAATCAGCGCACGGATTTTTTCTTATTGAGT +ACAACAGGTTGGACAAATTTTGCCGGAGGGGGAATGTGCCGGTGCAGTAAACCGGCACAGAGTGGCGGAA +TCAGACAGATAAGGTCATGGACTCAACAACCTCAATCCAGCCATGCTCACTGGCGATATCCTGGCCGTTT +AACCAACGGCGCAGCATATTCAGTGCCATCATTGCGCACACTTCCTGACGGATAGCCAGGCTGTAGCGCG +TAGTGCTGAAACGCACACGCAGAGCGAAAGTGCCGTCTGGCGTGGCTAGCGCAAAGTTGAGATGCTCGTT +CTCGAAACCCGAAACAGCCAGTGCCAGCCCGGCAAAATGGTTGGCCCGCCGTTCTGTAATCCAGTGCGCA +GTTTGCGCCAGGGTTTCCTCCTGTGAAGGAACCACTTCACACGCCAGCAATGGAGCACCTGCGCGAGAAA +GTTGCAAAGCCAATAAACCACCGGTGAATTGCTCGCTCAACGTCAGGCTGAACTGGCGGTTTTGCAATTC +GCGACTGATCTGCGCGGGCAGTCCTTCAGTGCCTTCGAAAATCACGCTCTGTCCGGCAACACGTTTAACA +TCCAGCCACAGTTTTTCCATCGCCTGTTGCTCGCTTGCCGGTCCGGTGAGTTTCAGTTCGATGATAGGCA +TTGAGGAGCGATAGCCCATTGTTACGCCCGGCGGCAGTTGTAGAGTGTCCAGGCTTTGTGCCAGATCGCT +TTCCGAACGACCAAAAGTAGTCAAACGCAGACAAACCGGCGGCTGCGGTAAAGAAAAACGCTCGCGCAGG +CGCGGCAGGATTTCGTGCTCGACCATCACCTTAAATTCTGACGGTACGCCGGGAGTAAAGAACATCAGGC +AACGATTAAGCTGCACGGCAAAACCACAGGCGGTGCCTACCGGGTTATTGATAAATTCAGCACTGGCAGG +CAGCTCCGCTTGTTTACGGTTGCTCGGTGCCATTACTCGTCCACGTTCGTGGAAATAGCGTTCCATCTCT +TTGAGCCAGGCTTCATGCAGCACCAGGCCTTCACCTTTTGCTGTCGCAGCGGCGAGTGCGCTTAAATCAT +CGCTGGTCGGTCCCAGCCCGCCGTTAACGATCAGCACATCGGCGTGCTGACTACGTTCGCGAAGAATGGT +GACTAAGTCATCAAGGTTATCCCCCACCGTATTGCGGCGAGATAATGGCAACCCCTGATGAAAGAAAAAA +TCGGCCAGCCAGGCAGCGTTAGTGTCAACGATTTGCCCGTGTAACACTTCATCCCCGGTGGATAACATTT +CCACTTTTAACATGGTTATCTCCTGCTTTTGTTATCGAATCACTATAACGCAAAGGGAGATAAGGCGTAG +TAAGAAACTGAATGGCGCGACAGAATGCCGCGCCGGAAGGGATCAGAAACTGGCGTTAACCCCAACATAC +GGGCCGTCAGCCACGGCGTTGTCGCGGTTACCGTCTTTACCCGACAGATTCAGGTAGCGATAACCCGCCT +CAATACTGACTGGACGCATAATGGTGTAACGCGCGCCAGCATTCGCTTCTTCATAACTTTGAATACCGCT +GGAGAGCGAATCCGGAGAGTAGTAATACTCGCCAAACAAACGGAAGCTGTTGCCAATTTTCCACTGCAAA +CCACCTCCTACCGCTGCGGCATAACCTTCATCGCCGTAATTCGGGTTGGTGTAAACGCCTTTTCCGCCAA +CGGTCGCCATTAACGGCCCGAGAGGCAGATTCAACCCCAGCCCCACGCCAGCGACATCACCGTCGTCGTC +GTTATGTGTCCAGTTACCGCTTAACGCCAGGCCCGTCGTTTCAGTCCCAAAACCGACACCAATATTGGTG +TATTCTTTACCCGCCTGACCGCTGATGCTCATTGCATTGACCGATGCAGAAACCAACAGCATTCCGGCCA +GACCTGCTAGCGCAATTTTTTTCATTATCCCCTTTCCCACAAGCAATTAATCAAAATTCCCAAAGCTGCG +GGATTGTACTGCCTGGCACAGAGGATTCAATGAGCGAAAAAAAGGATCTAGTCACTTATTGTAACTAAAT +ACTTCTTAAATAATTAAATGCCGAAAAAATAAACACACTTTATCGATACACACAAAAATAATAATAAGTA +CAGTTATCATCGCAAAAGAGATTACTGTCACTTTCACATATTTGTGAGTTACCGTATTCTCATGGTTTCT +TTTTATTTATAAGGAATATCCCTGTGCGACAACGGACTATTGTATGCCCTTTGATTCAAAATGATGGTGC +TTATTTGCTGTGTAAAATGGCCGACGATCGCGGCGTTTTCCCCGGTCAATGGGCGATTTCGGGTGGCGGC +GTGGAGCCTGGCGAACGAATTGAAGAGGCACTACGCCGCGAAATTCGCGAAGAACTGGGAGAACAGCTGC +TTTTGACAGAAATCACGCCGTGGACCTTCAGCGATGATATTCGCACCAAGACGTATGCAGATGGTCGCAA +GGAAGAGATTTATATGATTTACCTGATTTTTGACTGCGTTTCTGCCAACCGAGAAGTGAAAATAAACGAA +GAGTTTCAGGACTACGCGTGGGTAAAACCTGAAGATCTGGTGCATTATGATTTGAATGTCGCCACCCGAA +AAACGTTACGTTTGAAAGGTCTTCTGTAACAATGATGACAGCCATTACTGGCTGTCAGATTGAAAATTTA +GTGGTTAACGAATTCCCCATCCAGATAAACTTTGCCTTTTTCCACATGCATGACTAAACCATCCAGATAA +TCAGGTTTAAATGTCGCGTCACGCTTATCTTTAGCAATATATGTCAGGCAATGATTATGGGTGAAAATAA +CGATATTTTTATCAGGCGCTTTGCTTTGTAAGTCCTTAATTGCACTATAAATCTCATTACCGCACTGAAG +AAGTCGTTTATCTACCGTCAATTTTTTACCCGCTGAAAACCAGGTAGCCGACTGAATGGTCCGGACGGTA +TTACTGGAATAAAGATCGAAATCAGGGATATCAGCACTAAAAGCGTTGCCCAGTTCACGGGCATCCTGGG +TACCTTTAACCGTAATACCTGTTTTATCTGACAAGCATTGATTGGTTGAACGGTCGCAACGTTCAGCATG +ACGAAACAAAACGACAACCGGGTGCTGCTGTGCCAGTCTGGCCAGTGTTTTATTGTCGATACGTGGCAAA +CCATTGCTACTCCAGGCGGCATGAGTACCCAGTCCGGCAATTGCAGCGAGCGCCAGTAAAATGATGATAT +ATTTTTTTGACTTCAACGAAGAGCGGCAAAAAGCTAACACGTAAACTCCACCTATAGACAAGCGCAACCA +GACAATTACCGTGAAATTGAGCTACATTTCTGGCGATAATTCGCAGTTGGTGTAATATTAAAAATCCTAC +GATGTCGGCAAAATGCCTCAAAATTTTGCCAAATGCAAAGCCTAAATAAGAAAAAATATAAAAATTTCAA +TATTTACGTCTAATATTAGTTTCTTAAGGTTAAGTTAATATTCTATCCTTAAAATTTCGCTCCAAATGGC +AAAATATACACAACACTCTTTATAGCAAATATAAGTGGACAGGTATTCAATGGCGGAAGGAAAAGCAATG +TCAGAATTTTTGCCTTTTTCGCGACCAGCAATGGGCGTGGAGGAACTCGCTGCAGTTAAAGAGGTTCTCG +AATCCGGTTGGATCACAACCGGTCCGAAGAATCAGGCGCTTGAGCAAGCTTTTTGCCAGTTGACGGGAAA +TCAGCATGCCATCGCGGTCAGTTCAGCCACCGCCGGAATGCATATCACGCTAATGGCGTTGAAAATTGGC +AAGGGCGATGAAGTGATTACGCCTTCCCTGACCTGGGTTTCAACCCTCAATATGATTTCCTTGTTGGGTG +CAACGCCGGTAATGGTGGATGTCGACCGCGATACGCTGATGGTCACGCCTGAAGCTATCGAGTCAGCCAT +TACGCCACGCACTAAAGCCATCATTCCGGTGCATTATGCCGGTGCGCCAGCAGATATTGACGCCATTCGC +GCCATTGGCGAACGTTACGGCATCGCAGTTATCGAAGATGCTGCCCATGCCGTCGGTACGTATTACAAAG +GGCGACATATTGGCGCAAAAGGTACCGCTATTTTTTCATTTCATGCCATTAAAAATATTACCTGTGCTGA +AGGTGGCCTGATTGTAACTGATAATGAAAACCTTGCCCGCCAGCTACGGATGCTGAAATTTCACGGTCTG +GGTGTCGATGCCTATGACAGACAAACCTGGGGCCGTGCACCGCAGGCTGAAGTCTTAACACCGGGCTATA +AGTACAATCTGACCGATATTAACGCCGCGATTGCCCTGACACAGTTAGTCAAATTAGAGCACCTCAACAC +CCGTCGGCGCGAAATTGCCCAGCAATATCAGCAAGCACTGGCAGCTCTCCCCTTTCAGCCATTAAGCCTT +CCCGCCTGGCCGCACGTTCACGCCTGGCATCTGTTTATTATTCGTGTCGATGAACAACGTTGTGGTATCA +GTCGCGATGCGTTGATGGAAGCGTTAAAAGAAAGAGGCATTGGTACCGGGTTACATTTCCGCGCCGCTCA +CACACAAAAATATTATCGCGAGCGTTTTCCCACGCTGTCGTTACCGAATACCGAATGGAATAGCGAACGC +ATCTGTTCTTTGCCGCTGTTCCCGGATATGACTACCGCCGATGCCGACCATGTCATCACAGCCCTTCAGC +AACTCGCAGGACAATAAGCCATGTTTGAAATCCACCCTGTTAAGAAAGTCTCGGTGGTTATTCCCGTTTA +TAACGAGCAGGAAAGCTTACCGGAATTAATCAGGCGCACCACCACAGCCTGTGAATCGTTGGGGAAAGAG +TATGAGATCCTGCTGATTGATGACGGCAGTAGCGATAATTCCGCGCATATGCTGGTCGAAGCCTCACAAG +CGGAGAACAGCCATATTGTGTCTATTTTGCTTAACCGCAATTACGGGCAACATTCAGCGATTATGGCGGG +ATTCAGTCACGTTACTGGCGACTTAATTATTACCCTTGATGCCGATCTCCAGAATCCGCCAGAAGAAATC +CCCCGCCTGGTGGCAAAAGCCGATGAAGGTTACGACGTGGTAGGGACTGTACGCCAGAACCGCCAGGACA +GCTGGTTTCGTAAAACCGCTTCGAAGATGATTAACCGGCTTATTCAGCGCACCACTGGCAAAGCGATGGG +TGATTACGGTTGTATGCTGCGCGCCTATCGCCGTCATATTGTCGATGCGATGTTGCACTGCCATGAACGC +AGCACCTTTATCCCGATTCTGGCGAATATCTTCGCCCGCCGTGCCATTGAAATTCCAGTACATCATGCCG +AGCGTGAGTTTGGTGAATCCAAATACAGTTTTATGCGCCTGATTAATTTGATGTACGACCTGGTGACCTG +CCTTACCACAACGCCGCTACGTATGCTGAGTCTGCTCGGCAGCATTATTGCGATTGGAGGTTTTAGCATT +GCGGTGCTGCTGGTGATTTTACGCCTGACCTTCGGACCACAATGGGCGGCAGAAGGCGTCTTTATGCTAT +TTGCCGTGCTGTTTACTTTTATTGGCGCTCAGTTTATCGGCATGGGATTACTCGGTGAATATATCGGCAG +GATCTACACCGATGTCCGCGCCCGCCCCCGCTATTTTGTTCAGCAAGTTATCCGTCCATCCAGCAAGGAA +AATGAATAATGAAAACCGTCGTTTTTGCCTACCACGATATGGGATGCCTCGGTATTGAAGCCCTGCTGGC +TGCCGGTTACGAAATTAGCGCCATTTTTACCCATACTGATAATCCCGGTGAAAAAGCCTTTTATGGTTCG +GTGGCTCGTCTGGCGGCGGAAAGAGGCATTCCGGTTTATGCGCCGGATAACGTTAATCATCCGCTGTGGG +TGGAACGCATTGCCCAACTGTCGCCAGATGTGATTTTCTCTTTTTATTATCGCCATCTTATTTACGACGA +AATTTTGCAGCTCGCTCCCGCAGGTGCATTTAATCTGCATGGTTCGCTGTTACCAAAATATCGTGGTCGC +GCGCCGCTGAACTGGGTGCTGGTCAACGGTGAAACGGAAACTGGCGTTACATTGCACCGAATGGTGAAAC +GTGCCGATGCCGGGGCCATTGTGGCGCAACTGCGCATTGCCATTGCGCCAGACGATATCGCTATTACGCT +GCATCATAAATTGTGCCATGCCGCGCGCCAGCTACTGGAACAGACATTACCCGCCATTAAACACGGTAAT +ATTCTGGAAATCGCCCAGCGCGAAAACGAAGCCACCTGTTTTGGTCGCAGAACGCCGGATGACAGTTTCC +TTGAATGGCATAAACCGGCATCCGTACTGCACAACATGGTACGTGCCGTTGCCGATCCGTGGCCGGGTGC +CTTCAGCTATGTTGGCAATCAGAAATTCACCGTCTGGTCGTCGCGTGTTCATCCTCATGCCAGCAAAGCA +CAGCCGGGGAGCGTGATTTCTGTTGCGCCACTGCTGATTGCCTGTGGCGATGGCGCGCTGGAAATCGTCA +CCGGACAGGCGGGCGACGGCATTACTATGCAGGGCTCGCAATTAGCGCAGACGCTGGGCCTGGTGCAAGG +TTCACGCTTGAATAGCCAGCCTGCCTGCACCGCCCGACGCCGTACCCGGGTACTCATCCTCGGGGTGAAT +GGCTTTATTGGCAACCATCTGACAGAACGCCTGCTGCGCGAAGATCATTATGAAGTTTACGGTCTGGATA +TTGGCAGCGATGCGATAAGCCGTTTTCTGAATCATCCGCATTTTCACTTTGTTGAAGGCGATATCAGTAT +TCATTCCGAATGGATTGAGTATCATGTCAAAAAATGTGATGTCGTCTTGCCGCTGGTGGCGATAGCCACG +CCGATTGAATATACCCGCAACCCGCTGCGCGTATTTGAACTCGATTTTGAAGAGAATCTGCGCATTATCC +GCTACTGCGTGAAGTACCGTAAGCGAATCATCTTCCCGTCAACTTCAGAAGTTTATGGGATGTGTAGCGA +TAAATACTTCGATGAGGACCATTCTAATTTAATCGTCGGCCCGGTGAATAAACCACGCTGGATTTATTCG +GTATCAAAACAATTACTTGATCGGGTGATCTGGGCCTATGGCGAAAAAGAGGGTTTACAGTTCACCCTCT +TCCGCCCGTTTAACTGGATGGGACCACGACTGGATAACCTTAATGCAGCGCGAATTGGCAGCTCCCGCGC +TATTACGCAACTCATTCTCAATCTGGTAGAAGGTTCACCGATTAAGCTGATTGATGGCGGAAAACAAAAA +CGCTGCTTTACTGATATTCGCGATGGTATCGAGGCGTTATACCGCATTATCGAAAATGCGGGAAATCGCT +GCGACGGTGAAATTATCAACATTGGCAATCCTGAGAACGAAGCGAGCATTGAGGAACTGGGCGAGATGCT +GCTGGCGAGCTTCGAAAAACATCCGCTGCGCCATCATTTCCCACCGTTTGCGGGCTTTCGCGTTGTCGAA +AGTAGCAGCTACTACGGCAAAGGATATCAGGACGTAGAGCATCGTAAACCGAGCATCCGCAATGCCCACC +GCTGCCTGGACTGGGAGCCGAAAATTGATATGCAGGAAACCATCGACGAAACGCTGGATTTCTTCCTGCG +CACCGTTGATCTTACGGATAAACCATCATGACCAAAGTAGGCTTACGCATTGATGTCGATACCTTTCGTG +GCACCCGTGAAGGCGTGCCGCGTCTGCTGGAAATCTTGAGTAAGCATAATATTCAGGCCAGCATTTTTTT +CAGCGTCGGCCCGGACAATATGGGCCGCCATCTCTGGCGACTGGTGAAGCCACAGTTTTTGTGGAAGATG +CTGCGCTCAAACGCGGCATCGCTTTATGGCTGGGATATTTTACTGGCAGGTACGGCCTGGCCAGGTAAAG +AGATTGGTCATGCCAATGCCGATATCATTCGTGAAGCGGCTAAACATCACGAAGTCGGCCTGCACGCCTG +GGATCACCATGCCTGGCAAGCCCGTAGCGGTAACTGGGATCGGCAAACAATGATCGACGATATTGCACGC +GGTCTTCGCACTCTGGAAGAGATTATCGGTCAACCGGTAACCTGTTCTGCCGCTGCGGGCTGGCGTGCCG +ACCAGAAGGTGATCGAAGCAAAAGAAGCGTTCCATTTGCGCTACAACAGCGATTGTCGTGGGGCCATGCC +GTTCCGTCCATTGCTCGAATCAGGAAACCCTGGCACTGCGCAAATTCCGGTGACCTTACCCACCTGGGAT +GAAGTGATTGGTCGGGATGTGAAAGCAGAAGATTTTAACGGTTGGTTACTCAACCGCATCCTGCGAGATA +AAGGCACGCCGGTTTATACCATTCATGCAGAAGTTGAAGGCTGCGCTTATCAGCATAATTTTGTGGATCT +CCTCAAACGCGCAGCTCAGGAAGGCGTGACATTTTGCCCTTTAAGCGAACTGTTATCAGAGACGTTGCCG +CTCGGACAAGTTGTTCGCGGAAATATTGCCGGACGTGAAGGCTGGCTGGGTTGCCAACAAATTGCGGGTA +GTCGCTGATGAAATCGGTACGTTACCTTATCGGCCTCTTCGCGTTTATTGCCTGCTATTACCTGTTACCG +ATCAGCACGCGTCTGCTCTGGCAACCCGATGAAACGCGTTATGCGGAAATCAGTCGAGAAATGCTGGCAT +CCGGCGACTGGATTGTGCCCCATCTGTTAGGGCTACGTTATTTCGAAAAACCCATTGCCGGATACTGGAT +TAACAGCATTGGGCAATGGCTATTTGGCGCGAATAACTTTGGTGTGCGGGCAGGCGTTATCTTTGCGACC +CTGTTAACTGCCGCGCTGGTGACCTGGTTTACTCTGCGCTTATGGCGCGATAAACGTCTGGCTCTACTCG +CCACAGTAATTTATCTCTCATTGTTTATTGTCTATGCCATCGGCACTTATGCCGTGCTCGATCCGTTTAT +TGCATTCTGGCTGGTGGCGGGAATGTGCAGCTTCTGGCTGGCAATGCAGGCACAGACGTGGAAAGGCAAA +AGCGCAGGATTTTTACTGCTGGGAATCACCTGCGGCATGGGGGTGATGACCAAAGGTTTTCTCGCCCTTG +CCGTGCCGGTATTAAGCGTGCTGCCATGGGTAGCGACGCAAAAACGCTGGAAAGATCTCTTTATTTACGG +CTGGCTGGCGGTTATCAGTTGCGTACTGACGGTTCTCCCTTGGGGACTGGCGATAGCGCAGCGGGAGCCT +AACTTCTGGCACTATTTTTTCTGGGTTGAGCATATTCAACGCTTTGCACTGGATGATGCCCAACATAGAG +CTCCGTTCTGGTACTACGTGCCGGTCATCATTGCCGGTAGCCTGCCGTGGCTGGGATTACTCCCCGGTGC +ACTGTACACAGGCTGGAAAAACCGCAAGCATTCCGCAACCGTCTATTTGTTGAGCTGGACGATAATGCCG +CTGCTGTTTTTCTCCGTCGCTAAAGGTAAATTGCCCACCTATATTCTTTCCTGCTTTGCATCTCTGGCAA +TGCTGATGGCGCATTACGCTTTGCTGGCAGCAAAAAATAATCCTCTGGCGCTGCGGATTAATGGCTGGAT +TAACATCGCTTTTGGCGTCACTGGCATTATTGCCACATTTGTGGTCTCCCCGTGGGGACCAATGAACACG +CCGGTGTGGCAAACCTTCGAGAGCTATAAAGTCTTTTGTGCCTGGTCGATTTTTTCGCTATGGGCATTTT +TCGGCTGGTACACCTTAACAAACGTCGAAAAGACCTGGCCTTTTGCCGCGCTTTGCCCGCTGGGGCTGGC +GTTGCTGGTAGGATTTTCAATTCCTGACAGAGTTATGGAAGGAAAACATCCGCAATTTTTTGTCGAGATG +ACACAAGAATCACTTCAGCCAAGCCGCTATATTCTTACTGATAGCGTCGGTGTTGCCGCAGGTCTGGCAT +GGAGCCTGCAACGCGATGACATCATCATGTATCGCCAGACAGGTGAGTTGAAATACGGCCTTAATTATCC +GGATGCGAAAGGGAGATTTGTCAGCGGTGATGAGTTCGCAAACTGGCTTAATCAACATCGTCAGGAGGGG +ATTATTACTCTCGTGCTTTCGGTTGACCGCGATGAAGATATCAACAGTCTCGCCATTCCGCCCGCAGATG +CCATCGATCGTCAGGAGCGTCTGGTGCTGATTCAGTATCGTCCCAAATGATCTGGCTAACATTAGTCTTT +GCCAGCTTGCTTAGCGTTGCCGGGCAGTTGTGTCAGAAACAGGCAACCTGCTTTGTGGCGATAAACAAAC +GGCGCAAACATATCGTGCTGTGGCTGGGACTGGCGCTGGCTTGTCTTGGTCTTGCCATGGTGCTCTGGCT +GCTGGTCTTGCAGAACGTACCGGTAGGCATTGCTTACCCGATGTTAAGTCTGAATTTTGTCTGGGTGACG +CTGGCTGCAGTAAAACTGTGGCACGAACCGGTATCGCCGCGTCACTGGTGTGGGGTGGCGTTCATTATTG +GCGGCATTGTGATCCTCGGGAGTACGGTGTAATGGGCCTGATGTGGGGATTATTCAGCGTCATTATTGCC +TCAGTTGCGCAATTAAGCCTGGGTTTTGCGGCGAGTCATCTGCCGCCGATGACGCACTTATGGGATTTTA +TCGCGGCTCTGTTAGCTTTTGGCCTGGATGCCCGGATACTGTTACTCGGGCTGCTGGGTTATCTGCTTTC +CGTTTTTTGTTGGTATAAAACGCTTCATAAACTTGCGCTAAGCAAAGCCTATGCCTTGCTCAGTATGAGT +TATGTGCTGGTATGGATTGCTTCAATGGTACTTCCCGGCTGGGAAGGGACTTTTTCGCTGAAAGCACTAC +TGGGAGTAGCCTGTATTATGAGCGGGTTGATGCTGATTTTCCTGCCCACGACAAAACAACGTTACTGAGT +TTTCCCTGCCACTTTACACTGCCGTTCCCACTCATCGGGGCTATAACTGCTTGCCGAGAGGACTTTCACC +GTATGCAGCTTTTCACGATTAATACAATAAAGCGCATTCTGCAAAGGCGAGAGTAAATCCCCCACTTTCA +CGGCGAAGTCACTCTTCACTTCGGCGATCATTTTTATCGCGCCGCCAGCATCGCAGAGCATAAGTACATG +TCTGTTATCTTGTTTATTGCAGCACGATTTTTTGACCAGCCATTCCATTGCATTATCCTGTTTGCTAAGA +GTTTTCACATCAATTTACAGATTAACAGATAAACTCTTTATCAACGGCAATGGAATGGCAGAAATGAGAA +GTGAAACGGAGGGTTAATTATTGCTGACGTTGCACCCACTCTTTTAGCGCCTGACGTGAAATTTTAATAC +CGCCGTTTTTCAGCTCCGGCGGCAGAGTTAGCCAGCGCACCGGTTGTTGAAAACGGGCCAGCTTATCTTT +CACCCATTCACTAAGATCAACGCTCTCGTGGTCATACTCCATCACCGCCACCGGTCGATGACCAAACTCC +TTGTCGGCAACGGGGACGATAAACACCTGCAAAACCGCAGGATGTGCAGCAATTACGCGCTCGACTTCTT +CCGGCTGAATACCCTCTCCGCCACTGAAGAATAGATTGTCTAAACGTCCGACAATGGTCAGCTTGCCATT +ATGCATCTCACCGCGATCGCGCGTAGCGTACCAGCCTTCGTCATTAACCAGTGAAACCAGTTGCCCGTTA +CGCCAGTAACCTTCTGCCATACTGGCAGCCCGCAGCCACACTTCATTATTAACGATTTTCACTTCCCGAC +CCGGCAGCGGCGAACCAACGTCTGCCAGGCCGTCGGCTTCTTTCGCACACACCGTGGAGGCAAACTCGGT +CAGACCATAGCCGCAAAAGCAACGAATCCCCTGCTCGCGCGCCTGTTCCGTCAACTCGACCGGGATAGCC +GCGCCGCCAAGTAACACCGCTTTCAGGGAAACGGAACTACGGTTAACCAGCAAACGCCAGAGTTGTGTTG +GCACCAGTGAAGCGTGAGTACAGCCTGCCAGCATTTGCTCCAATGGCTGTTTATCACGTACCGTCATCCG +CGCACCAGCGTATAACCAGCGCCACATAATTCCCTGACCGGAGACGTGAAACAGCGGTAAAGAGAGCAAC +CAATCATCGTGATCGCCAAACGGAATCAGCGATAACACACCTTGCGCACTGGCAAGATGGGCCTGATAAG +TATGGACAGCGGCTTTCGGCAAACCGGTAGAACCCGAGGTCAACGTCATTGAGCACAGACGCGTCGGCTG +CCACGTAGCGGCATGTGCGCCTTCAACCAGCTGAATGTGCAGCGACGTTAATGCCGGAAACGTGTTTTCC +CCATCCGGCACCAGAGCAAATTGCAGCGTCAGATTGGGCAGCAATTCTTCAAGCAACGGTTGCGGCAGCT +GAGGGTTCACGGGCAACACCCGCGCCCCGCATTGCAGTAACGCCAGCCAGGCGAGCAGCGTTTGCGGCGT +ATTCCACGCCCGCAACATCACGCCGCTGCCCTCAACCACCCCCTGCACCGCAAATCCGGAGGCTAATTCA +TCGACGCGAGCACAAAGCTCGCGCCAGTTGAGTTGCTCGTCATTAAGACGTAAGGCGATGGTTTCTCCCC +GCACTTGCCGCCAGTGACGCCACGGCCAGTCAGAGAAGATCATAACAACCGCTCCAGTGCATCAACTTCC +ACGACAGGCAGCGTGCTACCCGGCCAGCGACGTACCTGCTGCGCCTGCATCAGATCCAGCGTGTCCAGCC +CTGGAATGGTGTCCGGCGTTAACCAGGCGGCAATCCGCGCCAGTTGCGTTAAGCCTAAGCTCGATTCAAT +GGAAGAACTGATCACCGCCGTCAGCCCCAGCGCGTGCGCCGCCTGTACCTGCTCGCGTACTTTTTCCAGA +CTGCCCGTGAGCGTGGGTTTGATAACTACCGCGCGCACGCCCTCTTCAGCCACAAAGGCAAAATCCGGCT +CGCGCAGGCTTTCATCCCAGGCAATGGCAATGCCGGTTTCACGGGCAAACGCTCGCGAATCATCGCGGGT +TTTGCACGGCTCTTCGAGAAACGCGATGCGGTCGCGATAATCCGGGTTAACGTATTTGGCAAACTGCTGA +CCTTTCAGCGGTGTCCAGGCGCGATTTGCGTCAAGACGCAAATGCAGATCCGGAATTGCCTCCAGCAACA +GATTCACCACCATGCCGTCGCGCACCGCTTCGTACAATCCCACTTTGACCTTCGCCACTTTCTCGCCTGG +CATATCTGCAAGTTTGAGGATCAGATCGTCCGGATCGCCATTACACAGCGGTGCCGCACGGTAGTTGGCT +GCTTGCGGCAACGTATCTGTCAGTTCTGCCAATGCACAGCTTACGCCAAAGGCCACGGAAGGCATCTGCG +GTAGCTCGCAATCGCCTGCCAGCCAGTTATTTACCCAGGCAAGCAGCACACTTTGCGCCTCTTCCCAGGT +TTCCTGACTGAAGCCCGGCAGTGGGGAGATCTCCCCCCACCCTTCGCGCTCGCCTTCACGCAGGCAAACA +TACAGCCCGTCGCGGGTTTTTAACCGCCTGTCGCGCAGAACCACCCCCGCGTCCATGGGGATCTGCCAGC +GGTATACCTGCGCGCTACGCATTACGGATTCCGTTTGAATTTGCTGAAGTCAGGCTGACGTTTCTGGTTG +AAGGCGTTGCGACCTTCCTGACCTTCTTCCGTCATGTAGAACAGCATGGTGGCGTTGCCCGCCAGCTCCT +GCAGCCCCGCCTGCCCGTCACAGTCGGCGTTCAGTGCAGCTTTCAGGCAGCGCAGCGCCATCGGGCTGTT +TTGCAGCATTTCGCGGCACCAACGGACGGTTTCTTTTTCCAGATCCGCCAGCGGTACCACGGTGTTCACA +AGGCCCATATCCAGCGCCTGTTTTGCGTCGTACTGACGGCACAGGAACCAGATTTCACGCGCTTTTTTCT +GCCCGACGATGCGAGCCATGTAGGAAGCGCCCCAGCCGCCGTCGAAGGAACCGACTTTCGGGCCAGTCTG +ACCGAAGATGGCATTATCTGCCGCGATAGTCAGGTCGCACATCATGTGCAGAACGTGACCGCCGCCGATG +GAGTAGCCAGCCACCATCGCGACAACCGGTTTCGGACAGGTACGGATCTGACGCTGGAAGTCCAGCACAT +TCAGGTGATGTACGCCGGAATCATCTTTATAGCCGCCGTAATCACCACGCACTTTCTGGTCACCACCGGA +GCAGAACGCTTTATCGCCTGCACCAGTCAGAATGATCACGCCGATGTTGTCGTCATAACGCGCATCTGCC +AGCGCCTGGATCATCTCTTTTACCGTCAGAGGACGGAAGGCATTGCGCACCTGCGGACGATTAATGGTGA +TTTTTGCGATACCGTCGGTGGATTTTTCATAACGAATGTCCTCGAAACCTTCGGAGCAGTCGTGCCATTC +AACCGGTGCGTAAAGCATTGCTTCATCAGGATAAATCATATTGTGTCCTTTAGTCAGAAACGCAAGATCT +GCGCCAGACTTGCGATTACGCCAGCGGGATTTTCCCGATGCGCGTTATGTCCGGCGCGAGGAATGACATG +GCAGTCGGCAGCCAGTTCCGCCGCCAGGGCGCGGAATTTGCTGTCACGTTCACCACATAAATAATAAAAC +GCAAATGTGCGGGCGCTAAGGTTAGCACGTAAATCAGGCTGGACGGCGAGAGAAGTCGCCTCCAGCATGG +CGGCAAGCGTTGCGCCATTATTGTTGCTGCGCAGCGCCACCAGCTCCCGGCGTTGATCGTCATTGAGTGA +GGCAAAAACAGGCTGTTGATACCAGTCGGCAAATACCGCCGTTAACGGTTCTGTGAGAAAACGCTGCACC +CATTGGCGATCGGAACGCTGACGTTCCGCACGTTGTTCAGCATTTTGCAGCCCCGGATGCCCGCCTTCGA +CAATAACCCCACAAAGCCCCGCCAGCCCCTGGCAAGCCGCCATCATCGCCACCCGTCCACCAAGCGAGTA +CCCCACCAGCCAGAAGTCAAGGATGTTGTAACTAACCAAGGTTTTACGCAGTAAGTCGGTGACATCATCA +AATCCATCGACGCTAATCGCCGCCGAACCACCGTGACCTGGGAGATCAACATACAACCGTGAGTAGTCGG +CAAACGCCTCGCCCACTTCTTGCCATTCGTGGCAATCGCCGGAAAAACCGTGCAAAAACACCAGCCAGGG +TAAACCTGGTTTTCCGTGTTTTGCCTGCGCGTGCAGGATCATAAATGGCTTACCTGCGCCAGAAGTTGCT +GGAGCGTTTGCGCACCATCGGTGTCGTTAACCACCATTTCAATCACCGTGGTGGTTGGCGTGCGCCAGGC +GTCGGCAAATGCCGTTTCAAGTTCCTGCCAGTTTTGCGGACGATGATATTTCAGCTCGAACATCGCGGCG +GCGTGCTCAAAATGGACGTTTTGCGGCATCAGATAGAAACGCTCACGCTCGCTTTGCGGCGTTGGCAACA +GCGAGAAAATTTGCCCGCCGTTGTTGTTCACCACAATTAATACCAGCGGCGCAGAAACCTGACGCAATAA +CGCCAGCGCGTTGAGATCGTAAAGTGCGGAGAGATCGCCCACAATCGCCAGCGTCGGTTTGCCGCTTGCC +CGCTGAACGCCGGCGGCGGTCGAAAGCAGCCCGTCGATACCGCTGGCCCCACGGTTGCTGTACACCGGGT +AACCTGCCGGAAGTTGCGAAAGCGCATCAATCAGACGTACCACCAGGCTGTTACCAACAAACAATTGCCC +CTGTTCAGGCAGATAGTCGCAGATGCGATGCGCCAGTTGCGCTTCGCCAAACGCATCACGGCGGGCAATA +ACCGCCTGCATTGCCTGTTCCGCCAGGCGCGGGATTTCAACGCACCAGGGCTGGCGTTTTTCTGCCGGAT +GCAGCTCCAGCCAGTCGGCAATATTGGCAATTAAGCGACGTCCGCGATGGTGTGCCGGATCAAGTCGCCC +TTCAATGTCATCAACAATCCAGTACTCTTCTGGTTCACAGCTTGCCTGCCATTGCAGGAGCCGTTTCCCC +GTCAGGCTGCTTCCCAGTTGCACCACAATTTGCGCCTGCTGCAGCTCGCTGGTCGCTTTGGCATTGCCTA +ACCAAAGATCGGCACACGGCAGCGGCTGCCCGGTTTGTGACAGCACATCGCCAATCAGCGGCCAGCCAAG +AGTTTGCGCCCACAGGGCAACTTTTTTGCCCTCTTCCGCACTCATGCGCCCGGCAACCACCACGCCGCGC +TTTTGTCGCCAGAAGAACCAGTCGCGCTGTTTTTCACTTTCCAGACGAGGCGCTTCACGCAGCCACGGTT +TGTCGTCCTGCCACCAGTCACCCAGACGCTGTTGCCAGCTAAGCCCGGTATCGTCCATTTCGCCATACAG +CGGTTCAGCAAACGGGCAGTTGATATGGACTCCCCCCGCATGAAGCGTACCGAGAGCGTGGTCGATGGTA +GAAACCAGCCAACGTGCGGGGATATCCTGGGTCGGGCGCGGCAATGAAATACTGTGCGTGGGGTGAGAGG +CGAACATTCCCGGCTGGCGAATTGCCTGATTCGCGCCGCAGTCAATTAGCTCCGGCGGGCGATCGGCGGT +TAAGAGAATCAGTTTTTCTCCGGTTAACCCGGCTTCAATCAGTGCCGGATAGAGATTTGCCACCGCCGTG +CCGGAGGTCACAATCACCGCCACCGGCTGCTTGCTGACTTTCGCCAGCCCCAGCGCCAGATGCCCCAACC +CACGCTCATCGAAATGGGTGTGGTGAATGAATGCGGAATTCTCCGCCGCCGCTAACGTTAACGGTGTAGA +ACGCGAGCCTGGGGCGATACAGATGTGTCTGACGCCGTGACGCGTTAATGCTTCCAGAATGACCGCCGCC +CAGCGTCGGTTAAATGCGCTTACTGACATGAGTTTGTCCGGTATCAATATTGCGGCTAAGTATAAGGAGC +TACAAAAATAGATTATTGATATGAATCGGTAATGATGCGACTCATTACTATTCCATTTGTAATAAAGTAC +GCAGCCCTGCCGCTTTGTTGTCGATTTCCTGCCACTCTTGCTCGGGGTCGGAACCACGGACAATGCCCGC +GCCAGCATATAATCGCACGACATTGCCGCTAATTTTTGCTGAGCGCAGGGAAACGCAGAATTCGCTTTGT +TGTAATGAGAGATAGCCCGCAGAACCGGCGTACCATTCTCGGGTGAACGGTTCGTGACGGGCGATAAACT +GTCGCGCCAGATCGCGCGGTAAGCCAGCAACTGCTGCCGTTGGCTGCAACTGATGTAAACAGATCACATC +ATCCGCTTTGTTGAGTGAAGTCCAGATACAGCGGCGAAGATGCTGCACTTTACGCAGACGCAGTACCTGC +GGCGGTAAAACATCCAGCGTCTGGGTATCGGCCTGTAATCGTTGACAGATATCTTCCACCACCAGCATGT +TCTCGCGCTGGTTTTTATCATCCGCCATCAGCCACTCTCCTAACTGCTGCGCCTGCTTATCATCAGGATT +ATTTGCTACTGTTCCCGCCAGCGCTTCAGTACGCAGCGCTTTGTCACGCCGCCGCCATAACCGTTCCGGT +GAAGAGCCAAGAAAAGCATTTTCGCCATCAAAGGCCATGTAAAAATGGTAGCAATTCAGATTCAGTCGAC +GACTGGCAGCCATCATCGCCGCCGCGTTGACCGGACTTGCGAAATGCAGGTCAGTTGCCCGAGCGAGCAC +CACTTTGTCGAGCTCACCTTCGGCGATGGTTTTCGTTGCCAGTTCGATTAATTGCGTCCAGCCCGTTTTG +TCCGGCCAGTGTTGTTCTCGCGTGGTGGTTAAATGTAACCCAGGCAAGGGCTTGATACTCACCAGTGTGG +CGATAAATTCTTTTGCCTGAATCGCATCGTGCTGAAGGGAGCTTTCGCTGAATAGCGTCAGCCGCAGCGT +GGCTTTACCGCCACAGCGTCGCCATTCCAGGCGGGGTAAAAGTAAATTGCCCTGCGACGGGTCAAAAGCA +TTCAGCCCCCAAATGCGTAAGTCGGCGTGTTCCGGGTGCTGGCGAAGAAAACGTTGTGCCTGGTCCAACG +ACGTAAAACGGGTAATCGCGCCCAGGACGACAGCTTCTTCATCACCATTACGTTGTTGCCAGTAGAATTG +CGGGTATGTTTGCTGACTGGCCAGCCAGCTCAAGGCATCAAAAGCGTCTTTGAGAGGGAAAGGAATATCG +ATAACCCGAATGCCGGGTGTCGCCGGAATCTCTTGCGACAAATGGCGCAGTAGATTTTCCAGCGCCGTAG +TAAGTGATTGCACGCGGACCTCTCCCTGTTAAAAGCCTCACATTATACGGGGTACTACAAAAAAAATGCA +GTACCCCGGTGTAGGGAGGTTTTAACGGCGTGCCAGCAACAGTCCTAGTACCAGCCCAACGGCCGCGCCC +ACACCAATTCCTTGCCAGGGTTTTTCGTGGACGTAGTCATCAGCACGATAAACTGCCTGCTTCGCCCGAT +AGTAATAACTGTCTGAAGCCTGGCTAACCCGTTTTTTCACATCATCCAGCGCTTTTTCTGCACGCGCTTT +CAGCTCAACATATTTCTGATCGGCGGGATCGCCAGAGGAGCGGAGCACCTCTTCCAGTGTTTCACTAAGC +AGCGTCAGGTCGTCATCGATACGTGTATCACCAAACTGATTAGACATTCTCGTTCTCCATTTGCGTAAAA +CCTGTCACTAACTATAGACAAGGGTTGTTGATTACGCCTGAATTACCTCGCGTGCCATCCCAATGTGTGG +GATACCATCTTCTTCATAGACCTCCGTCACAGGGATAAAACCGAAACTCTGGTAGAAGTTTTGCAGATGC +GCCTGCGCCCCGAGGTAAACAGGCTTATCAGGCCAGTGATGCGTACATGTTTCGAGTGTTTTACTCATCA +GCTGCTGCCCCACTTTTTCGCCACGCAACGCTTCACTGACAATCACCCGACCTATAACGACCGGCTCAAG +ATCATCATCACTTTTCAGAATCCTCGCATACGCCACCAGTTCATCATTTTTCCAACCGAGAATATGGCGA +TTATCCCCCGTCAAATCATCACCATCGATATCCTGATAAGGGCAATTCTGCTCGACAACAAACACCGCGC +AACGCAGTTGTAATAAGGCATAAAGCTGGGAAACCGATAATTCAGAGTGATGCAGATCTTGCCATTCAAT +CATAATGCTCTCCTTTTAGATGTATGCCTTATACTAGCCGGAATATTTTTTGAAACGTGATGAACTCATG +GAATTAATTTTTTTAGGTACTTCAGCCGGTGTGCCAACCCGCACGCGCAATGTCACGGCAATATTGCTTA +ACCTGCAACATCCGACCCAGAGCGGACTTTGGTTGTTTGACTGCGGTGAAGGCACCCAGCATCAGCTACT +GCATACCGCCTTTAACCCTGGAAAACTGGACAAGATTTTTATCAGTCACCTTCATGGCGATCATCTTTTT +GGTTTACCCGGCTTGCTGTGCAGTCGTTCTATGTCAGGCATTATCCAACCCTTAACGATTTATGGTCCGC +AAGGTATCCGTGAATTTGTGGAAACCGCGCTGCGGATTAGCGGCTCATGGACCGATTATCCGCTGGAAAT +TGTCGAAATTGGCGCTGGCGAAATTCTCGATGATGGCCTGCGCAAAGTAACCGCTTATCCGCTGGAACAC +CCACTGGAATGTTATGGCTATCGTATTGAAGAACATGATAAACCGGGTGCATTAAATGCCCAGGCATTAA +AAGCTGCTGGCGTGCCGCCTGGCCCACTGTTTCAGGAATTAAAAGCGGGCAAAACAATCACGCTGGAAGA +TGGAAGGCAGATTAACGGCGCAGATTACTTAGCTGCTCCAGTGCCAGGTAAAGCGCTCGCTATTTTCGGC +GATACCGGCCCCTGCGATGCCGCACTTGACCTGGCTAAAGGTGTCGATGTCATGGTGCACGAAGCGACGC +TGGATATAACCATGGAAGCCAAAGCCAATAGTCGCGGCCATAGCTCTACACGCCAGGCTGCGACACTAGC +CCGTGAGGCTGGAGTCGGCAAGCTAATCATTACCCACGTCAGCTCGCGCTATGATGACAAAGGTTGTCAG +CACCTGTTACGTGAATGCAGGTCAATTTTCCCGGCGACTGAACTGGCGAATGATTTCACCGTGTTTAACG +TTTAACTCTGCTTATTATTAAAAACAGGGCGAAACTTGCCCTGTTATCGCAACCCGCGCTACATATATCC +ACCCACACAGGCATATTGAGCGATTTTTGATATTTATTCATCTCCTTACGCACTATATTCAGAGCAATAA +GTTGCCTCTTTTCATCTTGATTCAGCACAACCTTTGCAACTAAAAGGAGCCCATGATGGTTACAGTTGTC +AGCAATTATTGTCAATTATCTCAAACGCAACTCAGTCAGACATTTGCAGAAAAATTTACTGTGACCGAGG +AATTACTGCAGTCTTTAAAAAAAACAGCGTTATCCGGAGATGAAGAAAGCATTGAGTTACTGCATAATAT +TGCGTTAGGTTATGATAAATTTGGGAAAGAAGCTGAAGATATTCTTTACCATATTGTTAGAACCCCAACA +AATGAGACCCTATCGATTATCCGACTTATCAAAAATGCTTGTTTAAAATTATATAATCTGGCACATATCG +CAACCAACTCCCCCCTCAAATCACATGATTCAGATGATCTCCTGTTCAAAAAACTATTCTCCCCTTCGAA +ATTAATGACAATTATCGGTGATGAAATTCCTCTTATATCTGAAAAACAGTCGCTTTCAAAGGTGCTTTTA +AATGATGAGAATAATGAACTGAGTGATGGTACAAACTTCTGGGATAAAAATCGTCAATTAACCACAGATG +AAATAGCTTGCTATCTTCAGAAGATCGCCGCTAATGCAAAAAATACTCAAGTCAATTATCCTACTGGTCT +CTACGTCCCCTACTCCACCAGAACTCACCTGGAAGACGCTCTCAATGAAAATATTAAGAGCGATCCATCA +TGGCCGAATGAAGTCCAGTTATTCCCCATAAATACTGGCGGACACTGGATATTAGTTTCGCTACAGAAAA +TAGTAAATAAAAAAAATAATAAACTACAAATAAAATGCGTCATATTCAACTCATTGCGTGCACTAGGCTA +TGATAAAGAAAATTCACTTAAGCGTGTCATTAATAGTTTTAATTCTGAACTCATGGGAGAAATGTCGAAT +AATAATATAAAAGTTCATTTAAATGAACCAGAGATAATATTTTTACATGCCGATCTTCAGCAATACTTAA +GCCAAAGTTGCGGTGCATTTGTGTGCATGGCAGCCCAGGAAGTGATTGAACAAAGGGAAAGCAATTCTGA +CAGCGCCCCCTATACGTTATTAAAAAACCATGCTGACAGATTTAAAAAATATTCAGCAGAAGAGCAGTAC +GAAATTGATTTTCAACATCGACTGGCAAACAGAAATTGTTATTTAGATAAATATGGCGATGCAAATATCA +ATCATTATTATAGAAACTTAGAAATAAAACACTCACAACCCAAAAATAGAGCATCCGGCAAAAGAGTGAG +TTAACATCATTGTTAATTAATTCGACCAGTCAGCAAATATGCTGACTGGTCGAACATAGTTTGCTAAACA +GTCATCACTGACTGATGTCAGTCACACCATCCGCCAGTTCAATCAGGCGAATAAATTCCGCCCTGTAACC +CTGTGGATCTTCCCCTTTTGCCTGCTGAGCCCACTGTTTGATCTGCTGCCAGGAGGTATTGTTCAGGTAT +TCAGAACCGCGTAACTTTTGCCCATATGCAGCTACTGCTGCGCGAAAACGCATATCTTCAGAGGGCGCGT +TTATTGTTGGCCCCAGCGGGAATTCAACTAACTGACTTTCTTTTCCCTGCGGGTATTTCCAGCGAATTTT +TAACCAGGCCAGTTCTTTCGTTTTGTCCGATTTCGCTAATTTGTTATCCGGGGCATAGCGTAACTTATCA +ATTGATGCTTTTTGCCCGTTCAGCGTTAATTCGAATAACAACGTTATATGTTTGCCTGCGCCTATATCCC +CTGCATCAACGTTGTCGTTATTAAAATGTTCCACCCGAAGTTGGCGCTTTTCATAACCAATCTGACGGTA +TTCCGTTACCCACGCGGGGTTAAACTCAATTTGCGCTTTGACATCTTTTGCTACGGTAATCAACATCTGC +CGCATTTCACTATTCAATACTTTCTGCGCTTCAGAGAGGGTATCAATGTAGCTGTAGTTGCCGTTACCAA +CATCGGCAATTCGCACCATCATTGCCTCGTTGTAATTGCTATTCCCCACGCCAAACGTCGACAGAGTAAC +ACCAGACTCCCGCTGTTTTTTGACCATTGATTCAATCGATTTTGGATCGTCAATGCCAACGTTAAAGTCA +CCGTCAGTGGCTAATAAAATGCGATTGATGCCGCCCTTAATAAACCCCTTCGTCGCCTGCTGATAAGCCA +GTTCCAGCCCGGCACCGCCATTGGTACTGCCTTCGGCATCCAGCGAATCAATTGCGGCATTAATTTCCGC +CTTATGACTCCCGGAGATAGAAGGCAATGCAATACGGGAGTCGCCAGCGTAGGTCACGATGGCAATGTTA +TCCTGCTCACGAAGTTCTTTGACCAATAATTTCAACGAAGACTGGATAAGTGGCAAACGTTCATCAGAAA +TCATTGAACCAGAAGTGTCGATAAGAAAGACCAGATTAGAAGCTGGTAACTCTTCACTTTTGCGATCTTT +CGCCAGGATATCAACTTTCAGCAATGTTCGCTGTTCATTCCATGGTGCAGGTGCCAATTCGTAGCGCATA +GCGAAAGGTATTGGCTTAGAGGCCGGAATAGATTGTTTGTCTTTGATATCCCAATCAGACGGGAAATAAT +TGACTATCTCCTCCACCCGCACAGCGTCTGGCGGAGGTAACAGCCCTTGATTGAGGAAACGCCTTACATT +CGCATAACTGCCAGTGTCAACGTCAAGACTAAACGTCGCCAACGGATTTTGCGCTACCTGCTTAACCGGA +TTATCATCGAACTGCTGGTAGCGAGCGGTTCCTGGATTTGCGATATGTGTAGCTTTTGCTTTAGCCGCTC +TTGCAAATGTTGGCGCTTCCTGCAATCGCCCCTGTAAAGCCTGTTTGTCTGAATATTGTTGCACTTCTTG +CTGGGCCAAGGCTTTCGCGGCGGCGGCGCTTTGCTCAGCCTCTTTTATTGCAGCTTGCTGCGCGGCAAGC +ACTTGCTGCTCTGTGGGAGTACTGGGTTGTTGTTGCTGACTTTCCTTATTCTCAGGTTGCGGCCCACATC +CTGACAAAATCAAACTACTCATAAGCAACATGATTATATTTTTATTTCGCATATAAAATCCTTTTAAATA +AACTCAGGCACCAGACATAAAATATACTCTTTGTATAATCCTGCTAATCTTAATAAAATACAATATCGAA +ACCCATAGCAAATAATGATTCAACAACGCAACCCATTAATAATTTGCATATGAAAAAAATAATCTTTGCT +TTTATTATATTATTTGTGTTTTTACTCCCTATGATTATTTTTTACCAACCCTGGGTCAATGCATTACCGT +CAACGCCCCGACACGCAAGTCCTGAGCAATTAGAAAAAACAGTTCGTTATCTTACACAAACTGTGCATCC +ACGTAGTGCCGACAATATTGATAATCTGAATAGGTCCGCAGAATATATAAAAGAGGTCTTTGTCAGTAGC +GGTGCCAGAGTTACCTCGCAGGACGTCCCCATTACGGGTGGCCCCTACAAAAACATTGTTGCTGATTATG +GTCCTGCCGATGGACCGCTGATTATTATTGGTGCGCATTATGACTCTGCCAGCAGTTATGAAAACGATCA +ATTGACCTATACGCCGGGCGCGGATGATAACGCCAGCGGTGTGGCAGGATTACTCGAACTGGCACGTTTG +TTACATCAGCAAGTACCGAAAACAGGCGTGCAGCTGGTCGCCTATGCGTCGGAAGAACCGCCCTTCTTTC +GTAGCGATGAAATGGGGAGCGCGGTGCATGCAGCTTCGCTTGAGCGTCCAGTGAAATTAATGATAGCACT +GGAGATGATTGGCTATTACGACTCTGCGCCTGGAAGCCAGAATTACCCTTACCCGGCAATGTCCTGGCTT +TATCCCGATCGGGGAGACTTTATTGCCGTGGTCGGCAGAATACAGGATATCAACGCCGTTCGTCAGGTAA +AAGCGGCATTGTTGTCATCTCAGGATTTATCTGTTTATTCTATGAATACCCCAGGGTTTATTCCCGGTAT +TGATTTCTCTGACCACCTGAATTATTGGCAACACGATATTCCCGCCATAATGATTACTGACACCGCTTTT +TATCGTAATAAACAATACCACTTGCCCGGTGATACCGCAGACAGATTGAATTATCAGAAAATGGCTCAGG +TAGTGGATGGTGTTATAACTTTGTTATACAACAGTAAATAATAAAAATTTCTCGAGGCGGGTCCAGAAAA +AGCGACATGCACATTTTATTTTCCCTCATCTGTTTTAAGATGCGAAACATGAAATTCAACGGAGGAAAAA +TAAATGGGAATGATTGGCTATTTTGCAGAAATTGACTCAGAAAAGATTAACCAACTGCTTGAGTCTACTG +AAAAACCTTTGATGGATAATATACATGACACGCTTTCAGGATTACGCCGACTGGATATTGATAAACGCTG +GGATTTTTTACACTTTGGGCTGACAGGCACCTCTGCTTTTGATCCCGCGAAGAATGATCCGCTGAGTCGT +GCCGTGCTTGGTGAACACAGCCTCGAAGATGGCATAGATGGCTTCCTTGGATTGACCTGGAATCAGGAGT +TAGCCGCGACAATCGACCGACTGGAATCACTGGATCGAAATGAACTGCGTAAACAGTTTTCCATTAAGCG +ACTCAATGAAATGGAGATTTATCCGGGAGTGACCTTTTCAGAAGAGTTAGAGGGGCAACTCTTTGCCTCG +ATCATGCTTGATATGGAAAAGCTGATTAGCGCGTATCGACGTATGCTGCGACAAGGGAATCATGCGCTGA +CGGTTATTGTTGGGTGATATAGCTTGATGCCTGGGGGAGAAAGACCCATTAGTTAAGATTTACGCCAGGA +TCATCTTGAAAAAATCTTTAACCATGGTCCGGTTTTTATCCCCTTGTATAAATATTACTAAATGCTTGCT +TAGTCGCATTGTTAAATGCAATACCGTATATTCGGTATGTAACAGCGATATCCTCTGTGCTGGCAACGAT +CTGTCATGCTTGATGAAAACGGAATTGAACCTGTCATTACCAGGTAGATAAAAAGCCTGTTCAATTTTGG +GATTATTTTTTATAACTCGTGTCTGTTATGGCGACACGGGAAAACATCAATATTGTCCTTCACAAATTGC +AGTAATATAGAATCAACCTCTCTTGCAAGTTGGTCACAATGTATTATAAGCATTTTGAATATGTCATCCT +CTGTAATCTCGTGAAAATTTTCGGCCTTGTCTTTTAGCTCATCATATCGGATTCTTGCAGTAACCATTTT +TTGGGCGAGTTCTAATAACCCCAAAGCTTGCAATTGCTGGTGAGTATGATCACTTTCAAAAAATATCCCA +CACTCCATTCCTTCCCAACCAACATATTCATGCCATTCATAAACCAGCATAAATGTTTGTAAAACTGGCG +GTAATAATTGGATATCTGCAAAACCAAACCAAAACTTACGCTTGAGATCCCACTCATATTCAATCGCCAA +TGCTATATTGTTTAAGGCATCTCCGGCATCCTTATTTTTACGCAAAATCAATTCCGTCAGTGTATAGCGT +TGTTCATCAATACGCCGAAGAGCTTCTGCAATATCATAGTTTGTAGCCAACAAAACATTCTCTGCTTCCT +GATGAGTGACGTCTGCTTTTGCCGTCAATATATTGATTTGGTCAATATGAAACAACTTGATGGCTTCATC +AACATCACCGCCAGTCCTCTCTAACAAACGTCTGGCAACCTGGATACCGACAGGTACGTTCTTCCGAAGT +TTACGAATTTCACTTAACCATTCCATGTCAAACCCCTTTAAATATTTATGATATTAAATATAACAACGTC +TGGATAACGACCCGGCCTGACTGAATATCTCACGTTTTCCTGCTTAACATTCATGTTATGATGCTCTTGA +AACTAATAATACGTATGGAATTGTCACTATTTATCTGCTAATGAATTCAAACAATGTCATTCGTTTGATG +AATATATTATTTCAGGGAATAATTATGACACCTTTAGAACGCATTACCCAACTTGTTAATATCAATGGTG +ATGTTAATAATCCTGATACTCCTCGTCCATTGTTATCTCTTGAGGATTTTTTTATTGACAATAATATCCA +TGGTTCAATATGTTGCAATGTGATTCCAGAACAATCTCCGCAAGCTATCTATCACCATTTTCTGAAAATA +CGTGAGCGTAACAATGTTAGTGATGTTTTGGTAGAAATTACGATGTTCGATGACCCAGACTGGCCCTTTA +GTGAAAGTATTTTAGTTATCACCACTGCTTCACCAGAAGAAGTTCAGAGCTGGTTTGTAGAAGAAATTGC +CCCTGATGAGTGCTGGGAAGGATGGTCAGAAGATACGGAGCATGGATGGGTTGAAGTCCCTGTGGGTATG +CATCCGGTTACTTGTTGGTGGGATTAAAACATTTATATAAACAGATAAGCGGATGTTTACATAAATTTTT +ATGTGAAGGAACATGATGAAACTTATTCCTCGCAGTAGTGATATTTCACCTGGCATTGATGGAATTTGCC +CGGGGCCTTTTCCTCCGAACGGATTTACCGTACTTACAGATGCAGCATATGGTAACGGAGACTGTTTCGG +TTTGTACTGGCCTATTGGTCAGGAGCATAAACTACCTATAGTGTGCGAAACGTACCATGACGAATGGCGA +ATCGTACCTGCCTTTTCCAGCATTAAGAAGTTCGAAGAATGGCTGGAAGTGAATGATGATGATCCCCATG +AAAATGGCATCAGCATCGAAGATCAAGACTTTGCAGCAAATCTCTTCCGTGTTGCTCGGAAATGTCTTTC +AACGGGAAGGCTTGATGACGCACTGCCACTGTTACAGCGAGCAACAGAACAATTGCCTGAAGTCAGCGAA +TATTGGTTAGCACTGGCAATCCAGTATCGCCGATGTAAAAAAACAGAAGCTGCAGCACAGGCTGCGCTTA +ATGCTTATCTTGGCAATTGGGCATTTGGTGTTCCTGACAATAAAGTCATTCATTTGCTGTCACAGGCCGC +AGATGTCCCGAATTTCCAGGATGATCCTGTGATTCAGTGCATTAAAGAACAAGGATTAGATCTTAGCTTT +GGAGGAACAAAGGAAAATAATAATTACCCCTTGATGCAGATGTGTGTTGATACTTATTTTGCGCAGAGAA +AACCGCTTCAGGCATTAACCCTGTTACATAATTATGCCTGGATAATGTCCAGTGAAACGACTGCATTTCA +GGAACGCTATGATTTTAATATCGATGAATGGCGGGCAAAATTCAGGCAGTTATGTTTAGAGTATTTTGGC +GATAGTCGTACACAGTTCACTTAACGCTCTGCGTCTATCTACTATCCCTTCTTTTTCAGAAAAACCGCCG +AGCATGTCGGCGGCTTTCTGACTTACAAAGTAACAGATTACATCAGCGGCATTGCCAAACGCACAATGCT +AATCAGCGGTTGTGGCCATACACCCAGCACCAGTACCAACAGTGCAGAGATCAGCACAACGATACCGCCC +GCGCTGTACTGCCAGTTTGATGGTGCATCGCGACCCGGTTGTTCCGGGGCGTGAAGATACAGGCTCACCG +CCACGCGCAGGTAGTAGTAGAGGCCGATTGCCGAACCGACAACCACGGCACCCACCAGCCACCACAAGTG +TGCCTGGACACCGACCGCCAGCACGTAGAACTTACCGATAAAGCCCAGCGTCATCGGGATACCGGCCAGA +GACAGCATCATCACCGTCATCACTGCCGCGAGGATCGGACGATGCCAGAACAGACCGCGGTAAGAGAACA +GGGAATCAGCATCCGGGCCACGATACGGGCTGGACATCAGGCTGACCACGCCGAACGCGCCGAGGCTGCT +GAACAGATAACCGGCCAGGTAAACCCCTACCGCTTCCATCGACATCTCGCCGGTTTGCAGCGCAATCAGC +GCTACCAGCAGATAGCCGAGGTGAGAGATAGATGAGTAACCGAGCAGACGTTTGATATTGGTCTGGCTCA +GCGCCATCAGGTTACCGAAGATGATGGAGGCAAAGGCGATAATCGCCAGCACCACGCGAATCGCTTCGCT +GTCACCCACCGGTGCGTAGAGGAACAGACGCATCACCACACCGAAGATAGCGATTTTGCTCGCCGTCGCC +AGGAAAGTGGAAACCGGCGCAGGCGCGCCCTGGTATACGTCTGGCGTCCACAGGTGGAACGGCACCAGAG +AGAGTTTGAAGCCGAGGCCAACAATCATCAGGCCGAAACCTGCCAGCAACAGCGGCTCGTTGAGCATACC +GTCGCCAAGGTTTTTACCCAACGCGACAAACGACAGGTCGCCAGACTGCGCATACACCAGCGCCATACCA +AACAGCAGGAAAGAAGACGCTGCGGCAGAAAGGATGGTGTATTTGATACTGGCTTCCAGTGAACGTTTCT +GGCGGAAAGCGTAACCGACCAGGCCAAACAGCGGCAAAGAGATCAGTTCGATACCGAGGAACAGAGACGC +CAGATGGTTGGCATTCGCCAGCAGGATCCCGCCCAGCGCGGCAATTAACACCAACAGGTAGAACTCATCC +TTGTTGTCGTTATAGCCTTCAAGCCACGGGTAGGCGAAAGTACAGGTGGCGAGGCTCGCCAACAATACCA +GCCCGGTGTAAAGCATGGCGAAACCATCAACGCGCATCAGCGGCGTAACGTCCATAGCGCCCGCCTGGCC +AACAAACCAGAGCGAAACCAGCGCCGCGTTAAGCCCAATAACCGAGAGCGTAGCGTTGAGGAAATGATTG +CGTCGCCACGCAATGGAGAGCATCACAACCACCACCGTCAAGCCGACGATCAGCAACGGTAGCAGTGCGA +TCAGGTTTTGTGGAGTTATTGTCATGGCGATTTACGGCCTTGTAGTAGTAACGGAATTAACAAACCACTG +CTGGATATTGCCAATCGCGGAGTGCGAGGTATCCAGAATCGGCTGCGGATAGAAGCCCAGCAGTACCAGC +AGCACCACCAGCAACAGGATCATAAACAGCTCACGCAGCGACATCCCTGGCAGTTCCTGGCTGGCAATCT +GGCTTTTCGCTTTACCGAAGTAAGCGCGATGTAACATCGCCAGCGAATAAACAGATGCAAAGACCAGCCC +AAAGGTAGAGATAACGGTAATCACCGGTACAACCTGGAAGCTGCCGAACAGAATCATAAATTCGCCGACG +AAGTTACCGGTGCCAGGCATCCCAAGCGTTGCCACCGCAAAGAACAGCGACAGTGCTGGCAGCCATTTCA +TCTTGCTCCACAGACCGCCCATCATGCGCATGTCGCGGGTATGGATACGTTCATAAAGCTGACCACAAAG +AATAAACAGACCCGCCGCCGACAAACCGTGCGCAATCATCTGGATTACCGCGCCCTGGTAGGCCAACTGG +CTGCCGGTGTAGATAGCAATCAGCACGAAGCCCATGTGGGAAACCGAGGTGTAGGCGATCAGACGTTTGA +TATCGGTCTGGGCGAAGGCCATCCACGCACCGTAGAAGATGCCGATAACACCCAGCCACATAGCAATTGG +CGCGAACTCTGCCGACGCGTTCGGGAACAGCGGCAGGGAGAAACGCAGCAAACCGTAAGCGGCAGTTTTC +AGCAAGATCCCCGCGAGGTCAACGGAACCGGCGGTCGGAGCCTGGGAGTGCGCATCCGGCAGCCAGCCAT +GCAGCGGAACCACCGGCATTTTGACTGCGAAGGCGATGAAGAAGCCCAGCATTAACAGGTATTCCACACC +ACTGGACATTGGCGTATTCAGCAGCTCTTCATAGTTGAAGGTCCAGACGCCGGTCGCATTGTAGTGAACA +AAAACCAGCGCCAGGATGGCAATCAACATCACCAGGCCACTCGCCTGGGTGTAAATGAAGAACTTGGTTG +CCGCCGTGATACGCGTTTTACCGTCAGAGGCTTTATGCCCCCACAGTGCGATCAGGAAGTACATCGGCAC +CAGCATCATTTCCCAGAAGAAGAAGAACAGGAACATGTCGATGGCAAGGAACACGCCGATAACGCCGCCC +AGGATCCACATCAGGTTGAGGTGGAAGAAGCCCTGATATTTTTCGATCTCTTTCCACGAACATAGTACCG +CCAGCACACCGAGCAGACCGGTCAGCACGACCATCAGCAGCGACAGCCCGTCAATGGCGAGATGAATAGA +GATACCAAAACGCGGGATCCACGGCATGTCGAATTCAGACTGCCACTGCGGAATTCCGGCGGATTGCGTC +AGTGAATAACCGCCCTGCAACCACAGTTGCAGCGACAGCGCCAGCGTCAATCCCATGGTGATCAGCGCGA +TCCAGCGTGGCACCTTGACGCCAAAGCGTTCGGTCTGCCAGCACAGGAAGCCGCCAATAAAGGGAATTAA +TATTAGCCAGGGTAGTAACATGGCGATCTTTATTCCTTGTAAAAGTCCCGTCAGGACCGGATTTTCAACG +AATTCTCACGACAGAAAATTCTCTTCGGACTGGGGGTAGTGTCGGATGCACCGCGAAGGCGGCTTATCCG +ACCTACGTTCTTATATGCCCAGGGGCAATCCCACAATCCTTAACTCAACGCAGTACCATCAACAGTGCCA +GCACCACGACCGCACCGATGCTCATGGATGCCACATACCAGCGCAGATAGCCGTTCTCACTTAACAGCAG +ACCTTTACCTGCAAAGCGGGAAAGGACAGCCGGGATGTTCATCATTGAGTTCAGCGGATCGCGTTTCAGC +AACCAGGCAATACCCAGGAACGGCTTGACGAACACTTTGTCATACAGCCAGTCAAATCCCCAGGCGTTGT +ACCACCAGGTGCCCAGCAGACGGCCCGGCGCACTGTTGGCGATGGAGGTCACCAGAGTACGTTTACCCAG +CCACAGCCAGGCTGCCAGCAGAATGCCGACCACCGCGACCACGCCAGAGGTAATTTCCAGGGTCAACATG +CTGCCGTGCGCCAGTTCCGTCGTTTGCGGAAGCACGCCCTGCAGCGGCGGTACAATCAGTGCGCCAACGA +AGGTGGAAAGGATCAGCAGCACAATCAGCGGCAGGCTGTGAGTTACCCCTTTCACGGCGTGAGCGTGAAT +TTGTTCTTTTCCGTGGAAGACGATGAAAATCATACGGAAGGTGTAGAGCGAGGTCATAAACGCACCGACC +AGACCTGCCACCATCAGATTGATATGACCATTCGCCATCGCACCCGCGAGGATCTCATCCTTACTGAAGA +AGCCCGCAGTGACCAGCGGTAGTGCCGACAGTGCTGCGCCGCCCACCAGGAAGCAGAGATAAACCAGCGG +AATAGATTTACGCAGACCGCCCATCTTGAAGATGTTCTGTTCGTGATGGCAGGCCAGAATGACGGAACCG +GATGCCAGGAACAGCAGCGCTTTAAAGAACGCGTGGGTCATCAAGTGGAAAATCGCCGCATCCCATGCCT +GCACGCCAAGCGCGAGGAACATGTAGCCAATCTGGCTCATGGTAGAGTAAGCGAGAACACGTTTGATGTC +GGTCTGTACCAGCGCGGCAAAACCGGCCAGCAGCAGCGTAACCGCCCCGACAATACCCACCAGATGCAGA +ACTTCCGGCGTCATCAGGAACAGGCCGTGGGTACGGGCGATCAGGTAGACACCCGCGGTTACCATGGTTG +CGGCGTGGATCAGCGCGGAGACAGGCGTCGGGCCCGCCATCGCGTCGGCAAGCCATGTCTGCAACGGCAA +CTGCGCAGATTTACCGACCGCACCGCCCAGCAGCATCAGCGTCGCCCACATCAGCATGTTATTGCCGTCA +GCAAAGTGCGCTGGTGCCAGTTCCACCATTTCGCGGAAGTTCAGGGTGCCCAGTTCGTTGTAAAGAATGA +ACAGTGCGAAAGCGAGGAACACGTCACCCACACGGGTCACGACGAACGCTTTCATTGCCGCTGCGCCATT +CTTCGGATCGGTGTAATAGAACCCGATCAGCAGATAGGAGCACAGGCCCACGCCTTCCCAGCCGAGGTAC +ATCAGCAGCAGGTTGTCGGCAAGCACCAGAACCACCATGCTGGCGATGAACAGGTTGGTGTAAGCGAAGA +AGCGAGAGTAGCCCTCTTCACCGCGCATATACCAGGAGGCGTACATGTGAATAAGGAAACCCACACCAGT +GACCACCGAGAGCATGGTCAGCGACAGGCCGTCCAGCACCAGGTTAAAACCGATGTTAAAGTCGCCTACC +GACATCCACGTCCACAGCGGCTGGCTGTATGTCTGCTCGCCGTTAGCGAAGAAATCAACGCCGATAAAGG +CGGTTACCAGCGCCGCCAGGCCCACAGAGCCTACGCCGACGATCGCCGAGACGTTTTCAGACCAGCGCCC +ACGGGAGAATGCCAGCAGGACGAAGCCAATCAATGGCAAAATAATGGTTAAGGCAAGCATGTTCATCCGC +GCATCTCACTTACTGAATCGATGTTCAGGTTCTGGCGACGACGGTGAAGTTGCAGCAGCAGCGCAAGGCC +GATACTCGCTTCTGCCGCCGCGAGGCTGATGGCGAGAATGTACATCACCTGACCGTCGGTCTGGCCCCAG +TAGCTTCCGGCGACCACGAAGGCCAGCGCGGAGGCGTTAATCATGATTTCCAGACCAATCAACATAAACA +GCAGATTGCGACGGATAACCAGACCGGTTAAGCCAAGAACGAATAAGATTGCCGCGAGGATCAGTCCATG +TTGTAAGGGGATCATGCGTGCTCCTCCGTTTTTCTTTTCGCGCTGTCGTCTTTACGATTGCTCAGCACTT +CACCCGCACGCTCTTCACGACCGACGTGGAAGGCCACAACCAGACCTGCGAGCAGCAGCATAGAAGCCAG +TTCCACCGCCAGTACGTAAGGCCCGAACAGCGTAATACCCACTGCTTTAGCACTGATTGGCGTACCGTCG +ATACCCTGATCGTTAACACCGAGGATGGCGTAAACAATCACCACCAGCATGATGGCCGACAAAATTGCCG +GACCAATCCACACCTGCGGTTTCAGCCACTGGCGTTCCTGTTCGATTTCTGAACCGCCCAGGTTGAGCAT +CATCACCACGAACACGAACAGCACCATAATGGCACCCGCGTAGACGATAATTTCCAGCGCACCGGCGAAG +TAAGCGCCCAGTGAGAAGAACACCCCGGAAATCGCCAGCAGCGAAATAATCAGGTACAGCAGTGCGTGTA +CCGGATTGGTATGGGTGATCACTCGCAAGGTCGCAAGTATGGCTATCAGGCCACAGATATAAAAAGCGAA +CTCCATTGCCCCTCTCCTTACGGTAACAGGCTCTTGACGTCGATAGGCTTGGCTTCGTTCTCTGCTTCGC +CCTTATCTTTGCCGTCGATTGCCATACCTGCCATCCGGTAGAAGTTATATTCCGGGTATTTGCCCGGACC +GGAGATCAGCAGATCCTCTTTCTCGTAAACCAGATCCTGGCGCTTGTATTCCCCCATTTCGAAATCCGGG +GTTAACTGAATCGCCGTGGTCGGACAGGCTTCTTCGCACAGACCACAGAAAATGCAGCGTGAGAAGTTGA +TGCGGAAAAATTCCGGGTACCAGCGACCGTCTTTGGTTTCTGCTTTTTGCAGCGAGATACAGCCGACCGG +GCAGGCTACCGCGCAGAGGTTACAGGCTACGCAACGCTCTTCGCCGTCCGGGTCGCGGGTCAGAACGATA +CGACCACGATAACGGGGCGGCAGATAGACCGGCTCTTCCGGGTACATTCGCGTTTCGCGTTTGGCGAACG +CGTGCAGGCCGATCATCCAGATACTACGAACCTGGGTGCCGAAACCTACTAACAATTCTTTTAAGGTCAT +GGTCTTATTGCCCCTTATTGCGCCTGCCAGAGAATGACAGCCGCCGTTACCAGCAAGTTGATCAGCGTCA +GCGGCAGGCAGATTTTCCAGCCGAAGGACATTACCTGGTCATAACGCGGACGCGGTAACGACGCACGAAT +CAAAATGAACATCATCATAAAGAACGCGGTTTTCAGCGCGAACCAGATGAATGGCGGTAACAACGGGCCT +TGCCAGCCACCGAAGAACAGCGTCACCATCAATGCAGAGATGGTCACAATCCCGATGTACTCACCCACGA +AGAACAGACCGAACTTCATACCGGAATATTCAATGTGGTAACCATCCGCCAGTTCCTGCTCGGCTTCCGG +CTGGTCAAACGGGTGACGGTGACATACCGCCACGCCCGCGATGGCAAAGGTAATAAAACCAAAGAATTGC +GGGATAACGTTCCACACATGCGCCTGGCTGTTGACGATGTCGGTCATGTTGAATGAACCGGCCTGCGCCA +CCACGCCCATCAAGGAAAGCCCGAGGAACACTTCGTAGCTCAGGGTCTGCGCAGAAGCACGCATCGCACC +CAGCAACGAGTATTTGTTGTTACTTGACCAGCCCGCAAACAGCACCGCGTAAACCGCCAGACCTGCCATC +ATCAGGAAGAACAAAATCCCGATGTTCAGGTCGGCAACCACCCAACCCGGACTGACTGGCACAATCGCAA +AGGCCAGCAGCAGCGAGGTAAAGGCAATCATCGGTGCCAGGGTAAAGATGACGCGATCCGAGAATTTCGG +GATCCAGTCTTCTTTAAAGAACATTTTGATCATGTCCGCAACCAGCTGGAGCGAACCGCCCCAGCCAACA +CGGTTAGGTCCGTAACGGTTCTGGAACAGACCCAGCAGGCGACGTTCGCCAAAGCTCATGAATGCCCCGC +AGGTGACAACCACCAGCAGGATCACCACCGCTTTGAGGATGGTCAGCAGGATCTCAATCAGTTCCGGTGA +TATCCAACTCATTGTTGTGCCTCCTTGAGATCCTCAAGATGCGCGCCAGCCAGCACCGGAGCAATGCCGG +ACATACCCATCGGCAAGCCCACCTGCCCTGCCGTCAGTCCTTCGGCGATTTCAACCGGCAGCGTGACCGT +GTTGCCATCGTAACTAAAGGAGACGCGTGTACCTGCGTTCACACCCAACTTCGCGGCATCCGCTGGGTTG +AGTTTGATGTACGGCTGCGGCATACGGCTCTGGAAGACCGGAGCACGCTGTGACAATTCATCGCTGCCAA +ACAGGTGGTAATACGGCGCGATACGCCATTTCCCGTCCTGCGGCTGGAAGCGTGCCGGTACGCTGGTGAA +GTAATCCAGACCATTTTCGCTGGTTTCAAACAGACGCACGCCCGGATCGCCAAAGCGCAGTTTGCCGCCC +ACTTCGTCCTGGAATTTGTTCCACGCCTGCGGGGAGTTCCAGCCCGGCGCCCAGGCAAACGGCACTTGCG +AACGGTGCGCAGTCGGCTGGTTGTTACCTTCCATCGAGAAGGTGAACATGGTGTCAATATCCTGCGGCTG +ACGCGGCTCATGAACGCTGATATTGGCGCGCATGGCGGTACGACCGCTGTAACGGTGCGGTTCACGGGCC +AGTTTCTGCCCACGAATACGGAATGTCGCATCCGGCGCAGCATCTTTGATACCTGCCAGTTCCGGGATTT +TCGCCACAACAGCGTCAATCACATGGTCGAGCTGCGTCCAGTCCACTTCACGGCTCAGCAGGGTGCTGTG +CAGCGAGTGTAACCAGCGCCAGCTTTCCAGCATGACAGTTTTGCTGTCGTAATAAGCAGGATCGTAAACC +TGGAAGAAACGTTGGGCGCGGCCTTCGTTGTTGATCACCGTACCGTCGCTTTCAGCAAAGCTGGCAGCAG +AAAGTACCAGATGGGCGTTTTCCATAATCGCTGTGCGTTGATGATCAACCACCATCACCAGCGGTGCTTT +AGCCAGCGCAGCATTCACGCGGATAGCAGAAGCGTGACGATGCAGATCGTTTTCCAACACCACCACCGCG +TCGGCGCGTCCGGTTTCCAGTTCGGTTAACGCTTCTTCAAGCGAACCGCCACCCATAATGCCCAGCCCCA +TGCTGTTGACGGAACGGGCAATCATGGTGATACCGACGTCAGCGCCGCGACCTTTCAGGGCTTTCGCGAC +GTTAGCCGCCGCCTGAATCACCTCTAAGCTACCGGCGTTCGTCCCGGAGATAATCAACGGTTTCTTCGCA +CCTGCCAGTGCCTGCACGATGACGTCGATTTTGCTTTGCAGCTCAGGTTCGATACCGTCAACCGCTGGTG +CAGAGTTATCCAGCGCATGGGCGATGGCAAAACCTAAACGCGCCTGATCTTCAACCGGTGCGCGGTAAGT +CCACGCCGCGATATCATCCAGACGGGTGTCATCAACGTTGGTAACAAACAGCGGATGCTTCGCACGTTGA +CCGATGTTGAGGATTGCCGCAATCTGCCAGTCAGCCACTTTCTGTGCTGCCGCCATTTCGCGCGCTTTAC +CTTTCACAGCCTGACGCACTGCCAGCGCGACGCGCGCGCCGGTCTGGGTAACGTCTTCGCCCAGCACCAG +TACCGCATCGTAAGATTCGATTTCGCGCAGAGCCGGAGTATAAATGCCGCCTTCACGCAGCACTTTCAGC +GCCAGTTGCAGACGTTCCTGCTCACCGTGAGCGATACCGGTGTAGAAGTTTTCTTCGCCCACCAGTTCAC +GCAGCGCAAAGTTGCTTTCCACGCTGGCACGCGGAGAACCAATACCGATCACTTTCTTCGACTGACGCAG +AATATCTGCCGCGCCCTGCATTGCCTGTTCGGCGTTGAGGGTAATGAAATCATCGCCACGACGCTGTACT +GGCTGACGCGGACGATCCTTCAGGTTGACGTAACCGTAACCGAAACGACCACGGTCGCAGAGGAAGTAGT +GGTTTACCGTACCGTTGTAACGGTTTTCGATACGACGCAGTTCGCCGTAACGTTCACCGGGGCTGATGTT +ACAGCCGATGGAACATTGCTGGCAGATGCTCGGCGCAAACTGCATATCCCATTTACGGTTGTAACGCTCG +GAGTGCGTTTTGTCGGTAAATACGCCGGTCGGGCAAATTTCGACCAGGTTACCGGAAAATTCGCTTTCCA +GCGTGCCGTCTTCCGGGCGACCGAAGTAGACGTTGTCGTGCGCACCGTAAACGCCCAGATCTGTACCGTC +AGCGTAATCTTTGTAGTAACGCACACAGCGGTAGCAGGCGATGCAGCGGTTCATTTCGTGAGAGATGAAT +GGCCCCAAATCCTGATTACGGTGGGTACGTTTGGTGAAACGGTAGCGACGGAAGCTGTGTCCGGTCATCA +CAGTCATATCCTGAAGATGGCAGTTACCGCCCTCTTCACATACCGGACAGTCGTGCGGGTGGTTGGTCAT +CAACCACTCGACCACGCTTTCACGGAACTGTTTCGCTTCTTCGTCGTCAATGGAAATAAAGGTGCCATCG +GAAGCCGGTGTCATACAGGACATCACCAGGCGACCACGCGTGTCTTCCGCGTTTTGGTATTGCTTCACCG +CACACTGGCGGCAAGCACCGACACTTCCCAGCGCCGGATGCCAGCAAAAGTAAGGAATATCAAGGCCCAG +AGACAGACAAGCTTCCAGCAGGTTGTCCGCTCCGTTGACCTCGTATTCTTTGCCGTCTACATGAATTGTA +GCCATTAGCATGCTTCCAGTTTTCTCAGTCAGAGACTGAGCGTTAATCGAAATTCGGTTACCAGCGCTCT +TTCAGCAGGTTCGGCTGAATCCCATTAATCAAATGGGTATTGCTGAACGGCTGTTTGATTCCCGCCTCAA +ATTCTTCGCGGAAATATTTGATGGCGCTCTGTAACGGCTCCACTGCACCAGGTGCGTGGGCACAGAAAGT +TTTACCCGGGCCTAAGAATCGACACAGTTGCTCAAGTGTTTCGATATCGCCCGGCTGACCTTCACCACGC +TCCAGCGCACGCAGAATTTTCACGCTCCACGGCAGACCGTCGCGGCACGGCGTACACCAGCCGCAGGACT +CACGGGCGAAAAACTCTTCCAGGTTACGCACCAGCGACACCATGTTGATCTCATGGTCAACCGCCATCGC +CAGCGCCGTACCCAGACGGCTGCCCGCTTTACCGATACTTTCGAATTCCATCGGCAGATCAAGGTGCGCT +TCGGTCAGGAAGTCAGTCCCCGCGCCGCCTGGCTGCCAGGCTTTAAATTTCAGACCATCACGCATACCAC +CGGCGTAATCTTCGAGGATCTCGCGTGCGGTGGTGCCGAACGGCAGTTCCCACAGTCCCGGATTTTTCAC +CCGACCGGAGAAGCCCATCAGCTTGGTGCCAGCATCTTTACTTTTCGAGATGTTCTGATACCACTCCACG +CCGTTAGCGAGGATCGCCGGAACGTTACACAGGGTTTCGACGTTGTTGACACAGGTCGGTTTACCCCATG +CGCCGGAGGTTGCCGGGAAGGGTGGCTTCGAGCGTGGGTTAGCACGACGTCCTTCCAGGGAGTTGATTAA +CGCTGTTTCTTCCCCGCAGATGTAGCGCCCTGCCCCGGTATGGACGAACAGTTCGAAATCGAAACCTGTT +CCCATAATGTTTTTGCCAAGCAGACCCGCTTCGGTGGCTTCGGCAATGGCACGGCGCAGATTAACTGCCG +CTTCGATATATTCGCCACGCAGGAAGATGTAGCCACGGTAAGCTTTCAGCGCAAACGCGGAGATGAGCAT +ACCTTCCACCAGCAGGTGCGGCAGTTGCTCCATCAACAGGCGGTCTTTATAGGTGCCCGGCTCCATTTCA +TCGGCATTACACAGCAGGTAACGGATGTTCATGGATTCGTCTTTCGGCATCAGGCTCCATTTCAGGCCAG +TCGAGAAGCCCGCGCCGCCGCGCCCTTTCAGACCAGCGTCTTTTACCTGATTAACGATTTCGTCCGGAGA +CAGCCCGGTCAGCGCCTTACGCGCGCCTTCGTAACCGTTTTTGCTGCGGTATTCGTCCAGCCACACTGGC +TGTTTGTCATCGCGCAGACGCCAGGTCAGCGGATGCGTTTCGGGAGTACGGATAATGTTTTTCATTTATA +CCGCTCCAGCAGTTCAGGGATCGCTTCCGGGGTCAGATGCGCGTGAGTGTCCTCATCGATCATCATGTTT +GGCCCTTTATCACAGTTCCCCAGGCAGCAAGTTGGCAGCAGCGTAAAGCGGCCATCAAATGTCGTTTGCC +CTGGTTTGATGTTCAGCTTTTTCTCGAGCGCCGCCTGAATACCCTGATAACCGTTGATATGACAGACCAC +GCTGTCACAATAACGGATCACATGGCGACCAACCGGCTGGCGGAAGATCTGACTGTAGAACGTTGCCACA +CCTTCGACGTCGCTTGCCGGAATACCCAGCACATCGGCGATCGCGTGGATCGCACCATCCGGCACCCAGC +CACGCTGCTTCTGAACGATTTTCAGCGCTTCAATGGACGCCGCACGCGGGTCTTCGTAGTGGTGCATCTC +GTGCTCGATCGCTTCACGCTCTGCCGCACTCAGCTCAAAAGCCTCGGTTTGTGGTTGTTGATTCTCGTGC +ATAATTAGCGGTCCACATCTGACATAACAAAATCGATACTGCCCAGATAAACAATCAGGTCAGACACCAG +GCTGCCGCGGATCGCCGCCGGAATTTGCTGCAAATGCGCAAAGCTCGGGGTACGAACACGGGTGCGGTAA +CTCATGGTGCTGCCGTCGCTGGTCAGGTAGTAACTGTTGATCCCTTTGGTCGCCTCAATCATCTGGAAAG +ATTCATTGGCAGGCATCACCGGACCCCACGACACTTGCAGGAAGTGGGTGATCAGGGTTTCGATATGTTG +CAGCGTGCGCTCTTTCGGCGGCGGCGTGGTCAGCGGGTGATCCGCTTTGAACGGGCCTTCCGGCATGTTG +TTGAGGCACTGCTCAAGAATGCGCAGACTCTGGCGCAGCTCTTCCACTTTAAGCATTACGCGGGTGTAGC +AGTCAGAAACGCCACCACCCACCGGGATTTCAAAGTCGAAGTTTTCATAGCCAGAATAAGGACGCGCCTT +ACGCACGTCGAAGTCGATCCCGGTAGCACGCAGGCCCGCGCCAGTGGTGCCCCACTCCAGCGCCTCTTTC +GCGCCATAGGCGGCAACGCCCTGGGAACGACCTTTCAGAATGGTGTTTTGCAGCGCCGCTTTCTCGTAAG +ACGCCAGACGTTTCGGCATCCAGTCGAGGAACTCACGCAGCAGGCGATCCCAGCCGCGCGGCAGGTCGTG +CGCTACGCCGCCAATACGGAACCACGCCGGGTGCATACGGAAACCAGTGATTGCTTCCACCAGATCGTAA +ATTTTCTGACGATCGGTAAAGGCGAAGAACACTGGCGTCATTGCGCCGACGTCCTGAATAAAGGTCGAGA +TATACAGCAGGTGACTGTTGATGCGGAACAGTTCGGAGAGCATAACGCGAATGACGTTAACGCGATCCGG +CACGGTGATCCCGGCCAGTTTCTCTACCGCCAGCACGTAAGGCATTTCGTTAACGCAGCCGCCGAGGTAT +TCGATACGGTCAGTATACGGAATGTAGCTGTGCCAGGACTGGCGTTCGCCCATTTTCTCCGCACCACGGT +GGTGGTAACCGATGTCTGGTACGCAGTCGACAATCTCTTCGCCATCGAGTTGCAAAACGATACGGAAAGC +CCCGTGCGCCGACGGGTGGTTCGGACCGAGGTTGAGGAACATGAAGTCCTCGTTTTCGGTGCCGCGCTTC +ATCCCCCACTCTTCCGGTTTGAAGGTCAGGGCTTCCATCTCCAGATCCTGTTTGGCTTTGGTCAGCTCAA +ACGGCGAGAATTCGGTAGCGCGCGCCGGATAATCTTTACGCAGCGGGTGACCTTTCCAGGTTTGCGGCAT +CATGATGCGTCGCAGGTTCGGGTGACCGTCGAAAGTAATGCCAAACAGATCCCAGGTTTCACGCTCATAC +CAGTTAGCGTTCGGGAACAGTTTGGTGAAGGTCGGTACGTGCAGGTCGTTTTCTGCCAGCGCCACCTTCA +GCATGATGTCGCGGTTACGATCGATAGAAATCAGATGGTAGAAAACGGAAAAATCCGCGGCAGGTAACCC +TTCGCGGTGTGTGCGCAGACGTTCGTCCATGCCGTGTAAGTCAAACAGCATGACGTAAGGTTTCGGCAGT +TTCTTTAAGAAATCGCCAACTTCCAGTAATTGTTCACGCTTGATCCACACAACGGGAACCCCGGTGCGAG +TCGCCTGAACAGTAAAGGCATCCGGCCCAAAACGGTTGCGCAGTTCGCCAATCACCGGATCATCAAGATG +ATCGCGGGTCTGCCAGGCGGGTTCTTGCGCGGTTAAGTCGGTCATATTGTTCACCATTGCAAATGGTCCG +TGGTGACTGTCGGCGCAGTAAGCTTCGCGAAATAGATTTAGGAATAAGCGAAGAAAAATCCCTTTGCCGA +CAGGCGCAAATTAAATCTCGTCAGGTGTACGCAGGTTAGTTACGGCAATGCGTTCACCGCGCTTGCGTTC +GCGCTCTGATTGCATATTGGCGCGATAAACGCCCTGATCGCCAACCACCCAGGAGAGCGGACGACGTTCT +TTGCCGATAGATTCCTGCAACAGCATCAGTGCCTGCATGTACGCTTCAGGACGCGGCGGGCAGCCCGGGA +TATACACATCAACCGGGATGAATTTATCGACGCCCTGCACAACGGAATAAATATCGTACATACCACCAGA +GTTGGCACAGGCACCCATTGAGATAACCCATTTTGGTTCCAGCATCTGGTCATACAGACGCTGAATAACC +GGTGCCATTTTGGTAAAGCAGGTTCCTGCAACCACCATCAGGTCAGCCTGACGCGGCGAAGCACGCAATA +CTTCTGCGCCAAAACGCGCCACGTCATGCACCGCGGTAAACGAAGTCACCATCTCAACGTAACAGCAGGA +AAGACCGAAGTTATACGGCCAAATTGAGTTTTTACGACCCCAGTTAACCATGTCATTGAGCTTGCCCATA +AACACGTTTTTGTTAACTTCTTGCTCCAGAGGGTCGGTTACGATCTCCTGCTTTTGCAGGGGGTAACGGT +CGTTCTCACCGTTGGGATCTATGCGGGTGAGCGTATAATCCATCTTAATGCCTCGCGGTTAGCGTTGACG +ATTAGCGATACTGTTCGTTTCCGGGTTCATACGCTCGCGGCGTGAACGCGCGGGCGTCCAGTCCAGCGCG +CCAATACGCACCAGATAAACCAGACCTGCCAGTAACACAAAAATAAAAATTGCAGCTTCCACAAAGCCTA +CCCAGCCGCTTTCGCGGATAGAGGTTGACCATGCGAACAGATACAGCGCTTCAACGTCGAAGATAACGAA +GAACATGGCCACCAGATAAAACTTGGCGGACAGGCGTAAGCGGGCGGAGCCGACCGAGTCGATACCGGAT +TCAAACGGCACGTTTTTCGACCTCGCGCGTGCGCGACCGCCTAAAAACCAACCGCCTACCAGCATCAGGC +AACACAGGCCAATGGCAACGATAAGAAAGATAGCGAATGCCCAGTGATGAGCGATGACTTCAGTGGATGT +TGACATACTCATTGCTTACTCATCAAAAGTAGCGCCAGATTCACTGCTCTTCACGGCAGATGGACGCCAC +ATCGATTCATGGGGAGGAATAAAAAAAACCTTACAATCACTGTAGAAATTCTTTTATACAGCTAATTGAT +GTGGTTTTTTACTCCTTTCTATAACCTTTTGTCAACTTTAACAAAAGTTTCTTCACATTAGTTTACATAA +TATCAACACCATTAGCATTTAATGCCCTTTCACCCCAGATCCTTGACGACTCCAGGATAATTAGATGTTG +TTGAATCGTGTCCGTTGTGAAGCAATGGAAAAAATACGGGTCTATTTTGACAGGAATTTGTGTCGATTCC +TCCCCCCAAAAGAGAGTATTTTCTTGATCTGTGACACGCTTTTGTCATTCCATAACAAAAACGCAGCAAC +AAATTTACGTATTTTTTAACATCATTGTAGCAGGTGATTTTTTTCAGGCGATTATTTGTGCGTTCGGGAC +GTGAATCTCTGGTGGTTGAAAAATGAACAGTTTTGTACGTTCTGCACTATGCGATGAAGGATTTTTACTA +AAAAAAAGCCGCTGGGGTTTAAAACACCCCCAGCGGCTCGTTTTTTACACTATTGTCTCAGGAATTATCT +ATCGTCCGTCGATTACTCGATATCCCTTTCAATCAACAATGAATCATCCCCTTCCGGAGCAGACATTGGG +CTGTATTGCCACGGATTATGGTAGCTCTCCATCGCCTGATAGATCACCTGGGCCAGCTCATTATTACTGG +ACGGATCATAGCACAGCAAATATTCGGTATCAGGTAGCGGCGGTAAGCCATCTACTCCACTCAGCACACG +CAGGTCCGGGCTCATCATCTCAACCGGCCTTGCCGTCACGCCAAGACCGGCTTTCACTGCCGCACGAACG +GCCGGAAGCGTCGAGGCGACATAAGCCAGTCGCCATGGAATATCTGCTTTATTAAGCGTCGCCAGCACCA +TATCGCGAAACGGGCTAGGATCATCCAGCAATACAAGAGGGATCGGCTCGCCTTTTTGCAATATGTATTC +CGCTGCGCAGTACCAGTGTGTTGGCGAGGTACGCAGGTTCAATGCCTTAAACGCTGAAGGACGATGGGTG +GTTACCATCAAATCCACTTCCTGGGATTCCAGCATTTCTGCCATATAGGCATTACGTTTAACGCGGACAT +CCAGCGCTAATTTCGGATAAACCGAACTCACGCGATTTAACAGGAAAGGTAAGATCGTATCGGCAGATTC +ATCTGAAGCACCGATAGTTAATACGCCCTGAAGATTACTGAACATTAATGATGAGCAGGCCTCATCATTA +AAACGCAGGATTTTCCTGGCGTAACCAAGAAGTTGAATGCCATGTTCAGTTAACAGTTTGTTGCGACCGT +GACGAGCGAACAGTTCTTTCCCAACGAGTTGTTCCAGACGCTGCATTTGCTGACTTACGGCGGACTGAGT +ACGACACACAGCGGCAGCTGCGGCAGCAAAAGTGTTCAGATCGGCAACAGCAACAAATGTTCTCAGCAGA +TCGAGGTCGAGGTTAATTATCGGACGATTTGCACTTATCATATATTATCACTTACTGGCGGCTCATACTG +AGCTGGTTAATGCTGTGCACACACAAACAAGCAATTCCATTTGTAATGTGCCTCCCTGGCAGTTTCATCC +GGAACCCGGACGAAAGTAAAAATGCATATGAGTTGCACTAAAAAAGCGACTCACATTGTTCCGTTATAAT +GCCTGAAGTAGATCACAGAATATATCTTCAGGGATCGCATATCTATTAAGTTACTCACTCTTTTCTATTT +ATGACATGCGCGTGTTTGTATAAATGTAAATGTGAGTCCTTGTTCCACTCTCGTGCAGCATCGCTGGTCA +TACGCGAACACGTACCAACAGCAATGGTGAGGCGGCATCAAGAGCAGGGATCCGTCATTTATCCGAGCAT +TTTACCCCAAAAACCTTTTATTTATAAGGGTCATTGCGAATTATCTGATGCAAAGTTATGTTATGTTAGG +CAAAGTAATCTTCTATTATTAATAAGCACATCAAAACCTTTTTGAATATTAAATAATAATTAATTAGCAT +CATCCTCATTCATTAATTCCGCTTAACAATAGTTTCACACCTTGCCCCCATTGCGACACCTCGGAAATCA +TCACGCAGTTAAACTCTCCGTAATGAGGAAATATCATCATCGCGTTTCATTAGTGAATTCTTAAATGAGG +CATTTTCACACAATTATCTTACAGATAAAAAAACCAGACTTACAATTAAGAATCAGAACAATTCACTATA +TAACATTGCATGTAAAGCATATACACCTCATTATTTTGTCATTATTAAGTTATTAACAGCACAATCGAGC +CTTCCCCTCTGGCAAAATCTTATTCTGCAGACCTTCAAAACACCGTCCTGGGGGAGTACATTGTTCTAAG +CTGACTTCCACGGCAGGGAGTGGCGATAACAGCAAAAAAGGTCAAGATTCATGTCCCCCATTGAAAAATC +CAGCAAATTAGAGAATGTCTGTTATGACATCCGTGGTCCGGTGCTGAAAGAAGCAAAACGCCTGGAAGAA +GAAGGTAACAAGGTACTGAAACTGAACATCGGCAACCCAGCCCCGTTCGGTTTTGACGCGCCAGATGAAA +TCCTCGTTGACGTGATACGCAACCTGCCTACCGCTCAAGGGTATTGCGATTCCAAAGGTCTTTACTCCGC +GCGTAAAGCCATCATGCAGCACTACCAGGCTCGTGGCATGCGTGATGTTACCGTGGAAGATATTTACATC +GGCAATGGTGTATCGGAGCTTATCGTTCAGGCAATGCAGGCATTGCTGAACAGCGGGGACGAAATGTTGG +TTCCTGCACCAGATTACCCACTCTGGACCGCGGCGGTTTCGCTTTCCAGCGGTAAAGCGGTGCATTATCT +TTGCGATGAATCCTCTGACTGGTTCCCGGACCTCGATGATATTCGCGCTAAAATTACGCCTCGTACGCGT +GGGATCGTTATTATCAACCCAAATAACCCAACCGGCGCGGTATATTCCAAAGAGCTTTTAATGGAGATTG +TGGAGATTGCACGTCAGCATAATCTCATTATCTTCGCCGATGAAATTTATGACAAAATTCTCTACGACGA +CGCTGAGCATCACTCAATTGCGCCGCTGGCACCTGACCTGCTGACCATTACCTTTAACGGACTGTCGAAA +ACGTACCGCGTTGCAGGCTTCCGTCAGGGGTGGATGGTGTTGAACGGGCCGAAAAAACACGCCAAAGGCT +ACATCGAAGGTCTGGAAATGCTGGCTTCAATGCGCCTGTGTGCTAACGTTCCTGCGCAACACGCCATTCA +GACCGCGCTAGGTGGTTATCAGAGCATCAGTGAATTTATTACCCCTGGCGGTCGTCTTTATGAGCAGCGT +AACCGCGCGTGGGAACTGATCAACGATATTCCGGGCGTTTCCTGCGTGAAACCTCGTGGTGCGCTGTATA +TGTTCCCGAAAATCGACGCCAAACGCTTTAACATTCACGACGATCAGAAAATGGTGTTGGATTTCCTGTT +GCAGGAAAAAGTTCTGTTGGTGCAAGGGACGGCATTCAACTGGCCGTGGCCGGATCACTTCCGCATTGTC +ACGCTACCGCGTGTCGATGATATCGAGCTGTCTTTGAGCAAGTTCGCGCGTTTCCTTTCTGGTTATCATC +AGCTGTAATCTTAATTTCACTGCCGGAGATTGCATCCGGCAGCGTTATCCCGCCACAATGACCTGATGAT +GTCATCATACGTAAGGTCACTATGAAACAGAGCCATTTTTTTGCCCATCTCTCCCGCCTGAAACTCATTA +ACCGCTGGCCGCTCATGCGCAACGTGCGGACGGAAAATGTGTCCGAACACAGTTTGCAGGTAGCGATGGT +CGCCCATGCGCTGGCAGCTATCAAAAATCGAAAATTTGGCGGTAATGTCAACGCCGAACGTATCGCTTTA +CTGGCGATGTACCACGATGCCTCAGAAGTGCTCACCGGCGATCTCCCTACTCCGGTGAAATACTTCAATT +CGCAAATCGCTCAGGAGTACAAGGCTATTGAAAAAATCGCTCAGCAAAAACTGGTCGATATGGTTCCGGA +AGAGCTGCGGGATATCTTTGCGCCGTTAATTGACGAGCATGCATATAGCGATGAAGAAAAATCGCTGGTG +AAACAGGCAGATGCACTGTGTGCATATCTGAAATGTCTGGAAGAACTCGCGGCCGGAAATAATGAATTCT +TGCTGGCAAAAACGCGACTGGAAGCGACGCTTGAAGCGCGTCGCAGCCAGGAGATGGACTACTTCATGGA +AATATTTGTTCCCAGCTTCCATCTTTCGCTCGATGAGATTAGCCAGGATTCACCGCTGTAAGCAGCCGGA +GTCTGCGTCGCATCAGGCAATAAGCGCCGGATGCGACATCAGGCTCTTGTCAAAACGGAAACAGCATCGG +GATCATCACCACACAAACCGCCATCACGATAATGGTGAACGGTACCCCCAACTTCACAAAGTCACTGAAG +CTGTAATTTCCCGGACCTAAAACCAGTGTGTTAACAGGTGAAGAAACCGGTGTCATAAAGGCGGCGGATG +CTGCCATCGCCACGACCATCGCGAATGGATAAGGCGACACCCCCATCGTTTTGGCAGCAGCCAGCGCAAT +CGGAGCCATCAACACCGCCGTCGCGGTATTAGAGATAAATAGCCCAATAACCGCCGACAAGACAAACAAA +CACCCCAGCATCATATGTGGCCCGTAACCACCGCCAATGTCCATCAGCCCTTTCACCGCCAGCGCGACAC +CTCCCGTTTTCTGTAATGCCACAGCAAACGGCATCATCCCAACGATCAAAATAATGCTCGGCCAGTGAAT +GGATTTATAGGCGCTTTCAGCATCTATACAGCGGAATTTCCCCATCAGCAGGCAGGCGATGATAGCGGCA +ACAGGATTAGGAATTTCATCTGTCAGCATTAACGCCACCATTAGCACCAGACAGAAAATGGCATGGGGTG +CCTGGCTGTGCGCGGGTGATGCTTCACTCACCTCTTCCGGTAAGTTCAGCGCTACGAAGTCGCGGCCCTG +TTTGGCCAGCATACCGATCAGTTTCCAGTTACCCACAACCAGGATGATATCGCCCAGCAGCAGAGGCTCA +TCCGCCAGCGAACCTTCCAGCGCCACGCCATTGCGCTTTAGCCCCACCACATTCAGTCCGTAGCGGGTAC +GAAAACCAATTTCGCGCACCGATTTACCAATCAGTTCTGACTCAGGAATTAATGAAATCTCTGCCATGCC +CACATCAAGGGCCTGGTCAGAAAAATACTCGCCGCGCAGTACCATCGGCTCCAGCAATTGCTCACTACAA +AATTGCCGGAGATCGACATCAGCCGCAGACATATCAATAAGCAAAACGTCACGCGCGCGAAATTCAGAAA +CCCCATTAACGTTCACGATAACGCGACGAAAACGCCGCCAGCGTTCAACACCGATGACGTTAGCGCCATA +ACGCTCACGTAATTTGAGATCATCCAGCCGTTGACCAATCATTGGCGATCCGGGGCGAATAGCCAGACGT +CGCGCACGCCCGGTCAGTCGATATTCACGGATAAGATCGCGAAAGGTTCGACGCGTCCAGCCTTCGCGCT +GCGGGGTCTGGGTATCCCCTTTCAGCATGAAACGCATCACTAACATATACAAAATACCCAGCACCAGCAC +GACCAGGCCAATAGGTGTTACGCTAAAGAAACTGAAGCCGTGATAGCCTTCACGCAGCAATTCACTGTTG +ACTACCAGGTTCGGCGGCGTCGCCACCAGCGTCATCATGCCGCTAATCAGCCCGGCAAAACTTAACGGCA +TCATCAGACGTGACGGCGACGTTTGCATACGCATGGCAACGCTTAACACCACGGGAATAAAGATAGCGAC +AACGCCGGTTGAACTCATAAACGCGCCAAGCCCCGCGACGGTCAGCATCAACAAAACCAACATTTTGATT +TCACTATTGCCCGCAACTTTGACCAGCCATGTTCCCATTACGGTGGCAACACCGGTACGGACCAAACCAT +CGCCAATAATAAACAAGGCGGCAATCAGGACAACGTTAGGATCAGAAAAGCCGGAAAATACTTCTGGGAC +TGTCAGCGTTCCGCTTAATGCAAACGCGACAATAACAAACAAAGCGACCGCATCCATACGCACTCTGCCC +GTCGCAAACAAGACGATGGCAACGGCCAGTAATGAAAGAACCCAAATCAATTCACCGTTCACAACTTATC +CTTGTTAATTGAGGGGGATGACTTGATTCTGCCATAAAAAAGCCCCGACGAGACGGGGCTAAATCATGAT +CAGGTGTTTCACTGAATAATAACATCGCCATTTGGCTGTTTGGTCACAGTAATTTGCTCCAGACTGTGGA +GGACCAAATCGACCTCATTCAGGCGCGGGGTATCTGCCGGAGCGTTAACCGCAATGACATGACAACCCGC +CGCCAGGCCAGAAAGCACGCCAGCGGGAGCATCTTCCACCACCACACACTCCTGCGGCGCAAGCCCCAGC +AGCTGCGCGCCTAACAGATACGCATCAGGTTCTGGTTTTCCGCGCTTCACTCGCTCAGCGGTTACAAACA +CCTCTGGTGCGGGAAGCCCAGCTATTTTATGGCGCGCTCGCGCTACCGGCATGGAGCCAGAAGTCACAAT +GGCCCACGGAATACCTGCTTTATTCAAATGACTGAGTAAGGCGATTGCCCCCGGAAGCGCGGTAATACCT +TCGGTTTCCGTGGCCTCGATGTGCTCCAGACGCGTAAACTCGGCGGCAATATCAGCCTCGGATTTGCCCG +CCATAAAATGGCGCAGAGAGGTGATCGCCTGTTTACCGTGAATGAAAGCCAGCACCTCTTCCGGCGCTAA +CCCATGACGTCTGGCCCAGTTGCTCCACGCCCGTTCTACCGCAGGCAGGGAATCCACCAGCGTTCCATCA +AGATCAAACAGAAAACCTTTGCACCGCACGCGGGCCTCCTCAGGCATTGATAATTTGATTAATTTCGTTG +GCGCTCAAATGGTACTGACGCGGGCAGGCATGCCACACATTAAGCATGCGCTGATATTTTTCCCACATTG +GCGTCTGGGCGTTAAAACCGTGAGTTCCGGCGTCAAAATGGGTATAGCGCCCTTCCACATTAACCATAAA +GCGGACATAACCGAGGTAACGTGCTTCAGTGGCGGCGTCAAAGCCGAGGAAGGTGACACGACGTTCATCG +ATGGATTGCTGGTCCTGCAAATTAGACCAGGAAACATGCAACGCATGATACATCTCCATAATGTCGATGA +TAGTGCGGCAGGTTTCTTCTTTCAGCTCGCCAAACTCGCGATCCAATTCACGCATCTGTAATCCGTAACC +ACGCTCAATAATTGTTTGCAGGCGACGGTAACGTTCAGCATTTGCCGGATCGAGCATAGTCATCATCTTG +TACTGATTAGACAAAATAAGACGTTGCGCGTTGGTCATTTCCATTGTTGACTCCTGTATCACTCTACTAC +GGTGAAAAAAAAGAAGGCTGAGTATGCCTTCTTTTATATGCGTAATCAGGGGTCAATTACAAATCATCAA +GGAAAGTTTTATCCAGTTGTTTGAAGGCGCGCTTAAGCGTGTCAGCTAATGCCTGGTAATCAGGCTTGCC +TTCAACGGGTGCCAACACCTGTCCAGACTCCTGCAATTTACCGCGAACTTCATAAAACCAGTTAAGGATT +GCAGGGGGTAATGGCGTGACAGAACGCTTGCCCAGCCACCACAATCCCTGCATGGGTAAACTTAAGGCGA +ACAGGGCAGTGGCAACTGCCGGCCCAAGCTGACCGCCCAGGGCAATCTGCCAGCAGAGAGTAAATACGGC +GATCGGCGGCATAAAACGGATCGCATAACGCGTCATCTTGATAACGCGATTTTCGACAAAGACCGGGGCA +AGGCGTTTTTCCAGCGGCCACGTCTTTGAGTAATGCTGTCCCCGGCGAAACAAGCTAAAAAAATTAACAG +AACGATTATCCGGCGTTGACATGCTTCACCTCAACTTCACATATAAAGATTCAAAAATTTGTGCAAATTC +ACAACTCAGCGGGACAACGTTCAAAACATTTTGTCTTCCATACCCACTATCAGGTATCCTTTAGCAGCCT +GAAGGCCTAAGTAGTACATATTCATTGAGTCGTCAAATTCATATACATTATGCCATTGGCTGAAAATTAC +GCAAAATGGCATAGACTCAAGATATTTCTTCCATCATGCAAAAAAAATTTGCAGTGCATGATGTTAATCA +TAAATGTCGGTGTCATCATGCGCTACGCTCTATGGCTCCCTGACGTTTTTTTAGCCACGTATCAATTATA +GGTACTTCCATGTCGAGTAAGTTAGTACTGGTTCTGAACTGCGGTAGTTCTTCACTGAAATTTGCCATCA +TCGATGCAGTAAATGGTGAAGAGTACCTTTCTGGTTTAGCCGAATGTTTCCACCTGCCCGAAGCACGTAT +CAAATGGAAAATGGACGGCAATAAACAGGAAGCGGCTTTAGGTGCAGGCGCCGCTCACAGCGAAGCGCTC +AACTTTATCGTTAATACTATTCTGGCACAAAAACCAGAACTGTCTGCGCAGCTGACTGCTATCGGTCACC +GTATCGTACACGGCGGCGAAAAGTATACCAGCTCCGTAGTGATCGATGAGTCTGTTATTCAGGGTATCAA +AGATGCAGCTTCTTTTGCACCGCTGCACAACCCGGCTCACCTGATCGGTATCGAAGAAGCTCTGAAATCT +TTCCCACAGCTGAAAGACAAAAACGTTGCTGTATTTGACACCGCGTTCCACCAGACTATGCCGGAAGAGT +CTTACCTCTACGCCCTGCCTTACAACCTGTACAAAGAGCACGGCATCCGTCGTTACGGCGCGCACGGCAC +CAGCCACTTCTATGTAACCCAGGAAGCGGCAAAAATGCTGAACAAACCGGTAGAAGAACTGAACATCATC +ACCTGCCACCTGGGCAACGGTGGTTCCGTTTCTGCTATCCGCAACGGTAAATGCGTTGACACCTCTATGG +GCCTGACCCCGCTGGAAGGTCTGGTCATGGGTACCCGTTCTGGTGATATCGATCCGGCGATCATCTTCCA +CCTGCACGACACCCTGGGCATGAGCGTTGACGCAATCAACAAACTGCTGACCAAAGAGTCTGGCCTGCTG +GGTCTGACCGAAGTGACCAGCGACTGCCGCTATGTTGAAGACAACTACGCGACGAAAGAAGACGCGAAGC +GCGCAATGGACGTTTACTGCCACCGCCTGGCGAAATACATCGGTGCCTACACTGCGCTGATGGATGGTCG +TCTGGACGCTGTTGTATTCACTGGTGGTATCGGTGAAAATGCCGCAATGGTTCGTGAACTGTCTCTGGGC +AAACTGGGCGTGCTGGGCTTTGAAGTTGATCATGAACGCAACCTGGCTGCACGTTTCGGCAAATCTGGTT +TCATCAACAAAGAAGGTACCCGTCCTGCGGTGGTTATCCCAACCAACGAAGAACTGGTTATCGCGCAAGA +CGCGAGCCGCCTGACTGCCTGATTTCACACCGCCAGCTCAGCTGGCGGTGCTGTTTTGTAACCCGCCAAA +TCGGCGGTAACGAAAGAGGATAAACCGTGTCCCGTATTATTATGCTGATCCCTACCGGAACCAGCGTCGG +TCTGACCAGCGTCAGCCTTGGCGTGATCCGTGCAATGGAACGCAAAGGCGTTCGTCTGAGCGTTTTCAAA +CCTATCGCTCAGCCGCGTACCGGTGGCGATGCGCCCGATCAGACTACGACTATCGTGCGTGCGAACTCTT +CCACCACGACGGCCGCTGAACCGCTGAAAATGAGCTACGTTGAAGGTCTGCTTTCCAGCAATCAGAAAGA +TGTGCTGATGGAAGAGATCGTCGCAAACTACCACGCTAACACCAAAGACGCTGAAGTCGTTCTGGTTGAA +GGTCTGGTCCCGACACGTAAGCACCAGTTTGCCCAGTCTCTGAACTACGAAATCGCTAAAACGCTGAATG +CGGAAATCGTCTTCGTTATGTCTCAGGGCACTGACACCCCGGAACAGCTGAAAGAGCGTATCGAACTGAC +CCGCAACAGCTTCGGCGGTGCCAAAAACACCAACATCACCGGCGTTATCGTTAACAAACTGAACGCACCG +GTTGATGAACAGGGTCGTACTCGCCCGGATCTGTCCGAGATTTTCGACGACTCTTCCAAAGCTAAAGTAA +ACAATGTTGATCCGGCGAAGCTGCAAGAATCCAGCCCGCTGCCGGTTCTCGGCGCTGTGCCGTGGAGCTT +TGACCTGATCGCGACTCGTGCGATCGATATGGCTCGCCACCTGAATGCGACCATCATCAACGAAGGCGAC +ATCAATACTCGCCGCGTTAAATCCGTCACTTTCTGCGCACGCAGCATTCCGCACATGCTGGAGCACTTCC +GTGCCGGTTCTCTGCTGGTGACTTCCGCAGACCGTCCTGACGTGCTGGTGGCCGCTTGCCTGGCAGCCAT +GAACGGCGTAGAAATCGGTGCCCTGCTGCTGACTGGCGGTTACGAAATGGACGCGCGCATTTCTAAACTG +TGCGAACGTGCTTTCGCTACCGGCCTGCCGGTATTTATGGTGAACACCAACACCTGGCAGACCTCTCTGA +GCCTGCAGAGCTTCAACCTGGAAGTTCCGGTTGACGATCACGAACGTATCGAGAAAGTTCAGGAATACGT +TGCTAACTACATCAACGCTGACTGGATCGAATCTCTGACTGCCACTTCTGAGCGCAGCCGTCGTCTGTCT +CCGCCTGCGTTCCGTTATCAGCTGACTGAACTTGCGCGCAAAGCGGGCAAACGTATCGTACTGCCGGAAG +GTGACGAACCGCGTACCGTTAAAGCAGCCGCTATCTGTGCTGAACGTGGTATCGCAACTTGCGTACTGCT +GGGTAATCCGGCAGAGATCAACCGTGTTGCAGCGTCTCAGGGTGTAGAACTGGGTGCAGGGATTGAAATC +GTTGATCCAGAAGTGGTTCGCGAAAGCTATGTTGGTCGTCTGGTCGAACTGCGTAAGAACAAAGGCATGA +CCGAAACCGTTGCCCGCGAACAGCTGGAAGACAACGTGGTGCTCGGTACGCTGATGCTGGAACAGGATGA +AGTTGATGGTCTGGTTTCCGGTGCTGTTCACACTACCGCAAACACCATCCGTCCGCCGCTGCAGCTGATC +AAAACTGCACCGGGCAGCTCCCTGGTATCTTCCGTGTTCTTCATGCTGCTGCCGGAACAGGTTTACGTTT +ACGGTGACTGTGCGATCAACCCGGATCCGACCGCTGAACAGCTGGCAGAAATCGCGATTCAGTCCGCTGA +TTCCGCTGCGGCCTTCGGTATCGAACCGCGCGTTGCTATGCTCTCCTACTCCACCGGTACTTCTGGTGCA +GGTAGCGACGTAGAAAAAGTTCGCGAAGCAACTCGTCTGGCGCAGGAAAAACGTCCTGACCTGATGATCG +ACGGTCCGCTGCAGTACGACGCTGCGGTAATGGCTGACGTTGCGAAATCCAAAGCGCCGAACTCTCCGGT +TGCAGGTCGCGCTACCGTGTTCATCTTCCCGGATCTGAACACCGGTAACACCACCTACAAAGCGGTACAG +CGTTCTGCCGACCTGATCTCCATCGGGCCGATGCTGCAGGGTATGCGCAAGCCGGTTAACGACCTGTCCC +GTGGCGCACTGGTTGACGATATCGTCTACACCATCGCGCTGACTGCGATTCAGTCTGCACAGCAGCAGTA +ATCTCGTCATCATCCGCAGCTTTGCGCTGCGGATATCTGAACCGGAAATAATCACTATTTCCGGTTTTTT +ATTCTCTTAATTTGCATTAATCCTTTCTGATTATCTTGCTTAACTGCGCTGCATCAATGAATTGCGCCAT +CCCACTTTGCATACTTACCACTTTGTTTTGTGCAAGGGAATATTTGCGCTATGTCCGCAATCACTGAATC +CAAACCAACAAGAAGATGGGCAATGCCCGATACGTTGGTGATTATCTTTTTTGTTGCTATTTTAACCAGC +CTTGCCACCTGGGTAGTTCCGGTGGGGATGTTTGACAGTCAGGAAGTGCAGTATCAGGTTGATGGTCAAA +CAAAAACACGCAAAGTCGTAGATCCACACTCATTTCGCATTCTGACTAACGAAGCAGGCGAACCTGAGTA +TCACCGCGTACAGCTGTTCACGACGGGCGATGAACGCCCGGGCCTGATGAACTTCCCGTTTGAAGGATTA +ACCTCAGGATCGAAATACGGGACAGCCGTTGGCATCATCATGTTTATGCTGGTGATTGGCGGCGCGTTTG +GCATTGTGATGCGTACAGGAACCATTGATAACGGTATCCTGGCGCTTATTCGCCATACCCGCGGGAATGA +AATTCTCTTTATTCCTGCGCTGTTTATTCTGTTTTCACTTGGCGGCGCGGTATTTGGTATGGGAGAAGAG +GCCGTCGCCTTTGCCATTATCATCGCACCGCTAATGGTCCGGCTGGGCTATGACAGTATTACCACCGTCC +TGGTGACCTATATTGCCACGCAAATCGGTTTTGCCAGTTCGTGGATGAACCCGTTTTGTGTGGTCGTTGC +TCAGGGGATTGCCGGCGTTCCGGTGCTTTCTGGCTCCGGGTTGCGCATCGTGGTGTGGGTTATCGCCACT +CTGATTGGCCTGATCTTTACCATGGTGTACGCCTCACGAGTGAAAAAGAATCCTCTTCTGTCACGCGTGC +ATGAGTCCGACCGCTTCTTTCGTGAAAAGCAGGCTGATGTTGAACAACGTCCGTTTACCTTTGGTGACTG +GCTGGTATTGATTGTCCTGACCGCCGTAATGGTCTGGGTGATTTGGGGCGTGATCGTTAATGCCTGGTTT +ATTCCAGAAATTGCCAGCCAGTTCTTCACCATGGGTCTGGTGATTGGCATCATCGGCGTTGTTTTCCGCC +TTAACGGCATGACGGTTAATACCATGGCTTCATCCTTTACCGAAGGGGCGCGAATGATGATCGCCCCTGC +CCTGCTGGTGGGTTTCGCCAAAGGGATTTTGCTGCTGGTCGGTAATGGTGAAGCGGGTGATGCCAGCGTG +TTAAATACCATCCTCAACAGCATTGCCAATGCCATTAGCGGTCTGGACAACGCGGTCGCGGCCTGGTTTA +TGTTGCTCTTCCAGGCGGTATTTAATTTCTTCGTGACGTCCGGTTCTGGTCAGGCGGCGTTAACCATGCC +GTTACTGGCACCGCTTGGCGATCTGGTCGGTGTTAACCGTCAGGTTACCGTGCTGGCGTTCCAGTTTGGT +GATGGCTTCAGTCACATCATTTACCCAACCTCAGCGTCGTTAATGGCAACGCTCGGTGTGTGCAGGGTGG +ACTTCCGTAACTGGCTGAAGGTGGGCGCGACCCTACTTGGACTGCTGTTTATTATGTCCAGCGTCGTAGT +GATCGGCGCTCAGTTGATGGGCTACCACTAAAAATGTTAAGAGCCGCAATTGCGGCTCTTTTTTCATTCT +GCCGTTTCAGTCTCTACGGCTTCATTTTTGGCATTGCGCTTCATCCACAACGCTAGCGCTTTCAGCGAGT +CTGGAGTGAACTCATCGCAGCGTGCGGTGATTTCTTCCGGCGTCAGCCAGCAAACTTCACTGACTTCATC +TTCCTGTAGTGCGAAGGGACCGTGAGAGACGCAGCTGAACAATGCGCCCCAGACACGGCAATTTTTATCT +TCGAAATAGAACTGCCCGTGCTCGGCAAAGGGGACACCGGCAATGCCCAACTCTTCTTCCGCTTCGCGAC +GCGCGGATTCCAGCAGTTGCTCATCGGCCTGGACTACACCGCCTGCGGTCGCATCTAACATGCCGGGTAA +AAAGTCTTTTGTCTCGGTACGACGCTGGACCAGAATTTTGCCCATGCCATCATGCACGACGATGTAAGTT +GCACGATGACGCAGACACTGTGCCCGCATTTGTTCCCGGCTGGCTTGTGCAATGACTTCGTTCTCTTCAT +TGACAATATCCACCCATTCAGTACTTGCCAAACGACGCTGTTCCATTATCAGGAAACCTTCTTTTTCTGG +CGCTCTTACGGCGCATTTTGAGTTGTGGGTAAATTACGGATTAATCGCGACCTGCGCAATGATACTTTGA +TCATTGAGTGCGATTACACTAAGTACGTCATTATCCAGCATGCCATAACTCGCCGGATTACCGCCTTTCG +GAATACTCACCGAGCCGGGGTTGAAGTGGAAAATCTCCCCCCGCTGTTCTGCCACTGGCAGATGGGTATG +ACCGTACACCAGCACATCGTTCTGGTTTAAAGCAGGCAGATTTTCCGGGCCAAAAAGATGACCATGCGTC +AAAAACAGACGTTGTTTTTCCAGTAATACCTGTTGCCACGGCGCGGTTATCGGGAAATGCAGCAGCATTT +GATCCACTTCGCTGTCGCAGTTGCCGCGCACAGCGATAACCTTATGTGCCACTTCATTAAGCCGTTCAGC +GACTTTGGCTGGCGCGTAACCCTCCGGTAAAGCATTACGCGGGCCGTGATTCAACACGTCGCCAAGGATC +ACCAGCCACTGGGCACCGCTTTGGGCAAACAACTCCAGAACACGTTCCGTCGCCGGTAACGACCCATGAA +TGTCCGATGCAAACATCAGTTTCATCACTCACTCCTCGTCGAAAAAACGTAAGCTATGATACTGGATTCT +GTCGTTGCTATCAGCCAGATTGCTTCGCCGAAAGTGCAATAAAACGCTGGACAGACGCTCGCTGCCACTG +GAATGTTGCATAATCCACCAGGCGTTCTGGCACCTCATCGCCATGTAGTACCAGGCGGTTAATCATTAGC +GCCAGATCAGTATCAGCAATGCACCATTCACCAAATAAATTCGGCTGACCCAGTACTAACAAATGTTCTG +CCATCGCGAACAGTTTCTCTGCACTGGCTTTTCCCTCGGCCGTTAGTGGCGCTTTTTTCGCCCCCGCAAA +GACAACATCCGTCGGACGCTCTTCGCGGATGGGCATCAGATCGCTGCGCAGCCAGGCCTGAATCTGTCGT +GCACGCGCACGATTTTCTAAATCAAGCGGATAAATACGTTCCCAGGTCGGTGGCGCAAATCGATCTTCCA +GATACTCCGCAATGGCAGAAGATTCACTCAACTCAAAATCATCGATTTGTAATAACGGCACACGGCGTGT +CTGACCGTAACCTTGCCACGTCGGCTGCAAATGTTCACCGCTGTCGAGGTCGATGGTCTTGATATGAAAC +GACAGGCCTTTTTCCTGCAACGCCACCCAGGCGGATAACACATAAGGGGAGAAAAAGTGGGCATCTGACC +AAAGCGTGATAGCGGGTTTACTCATTATGTCCTCGGCAATAAAGGGGGCTGGCTATCAAACTATAGAGCC +TTTTTGTCACTGTCACGTGACGAATACTCACGTAAGTCGCCGCGCTTTCTATACTTGTGGTGTTCAGATG +ATTAAACAACCGGAGCTGCAATGATCGATCTCTATTTCGCCCCGACACCCAATGGTCACAAAATTACGCT +GTTTCTCGAAGAAGCAGAGCTGGATTATCGCTTGATTAAGGTAGACCTGGGGAAAGGCGGTCAGTTTCGT +CCGGAATTTTTGCGCATTTCGCCCAACAACAAAATTCCGGCAATTGTTGATCATTCTCCTGCCGATGGCG +GCGAACCGCTAAGCCTCTTTGAGTCTGGTGCCATTTTGTTGTATCTGGCTGAGAAAACAGGACTCTTTTT +GAGTCATGAAACGCGTGAGCGCGCCGCCACATTACAGTGGTTATTCTGGCAGGTAGGCGGACTGGGGCCG +ATGCTTGGGCAAAATCATCATTTTAATCACGCAGCCCCCCAAACCATTCCTTACGCTATTGAACGTTATC +AGGTTGAAACTCAGCGTCTTTACCATGTACTGAACAAGCGGCTGGAAAACTCGCCCTGGCTGGGAGGCGA +GAACTACAGCATTGCGGATATTGCCTGCTGGCCGTGGGTTAATGCCTGGACTCGCCAGCGAATTGACCTA +GCAATGTATCCGGCAGTCAAGAACTGGCATGAGCGGATCCGTTCGCGCCCTGCCACCGGGCAGGCACTGC +TAAAAGCACAACTCGGTGATGAGCGTTCGGATAGTTAACAGAAACAGGTTCTCGTGTATTATTTCATCCT +AAGTAAAACAACGGAGAACCTGCAATGGCACAACCTGCCGCTATTATTCGTATAAAGAACCTTCGTTTGC +GTACGTTTATCGGAATTAAGGAAGAAGAAATTAACAACCGTCAGGATATTGTTATCAATGTGACGATCCA +CTACCCCGCCGATAAAGCGCGCACTAGCGAAGATATCAACGATGCGCTGAATTATCGCACCGTAACGAAA +AACATTATTCAGCATGTAGAGAATAACCGTTTCTCTTTGCTGGAAAAATTAACTCAGGATGTGCTCGATA +TCGCACGTGAACATCACTGGGTGACGTATGCTGAAGTGGAGATCGATAAACTGCACGCGCTGCGCTACGC +CGATTCGGTATCCATGACCTTAAGCTGGCAGCGTTAATCGCCATATCGGGAGGCTGCATGAACATAGTGA +TCACCGGAGGGACAGGATTAATTGGTCGCCATTTGATTCCGCGTTTGCTGGAGCTGGGCCATCAAATTAC +GGTAGTGACGCGTAACCCGCAGAAAGCCAGTTCCGTTCTCGGCCCTCGGGTGACACTATGGCAAGGGCTT +GCCGATCAAAGCAACCTCAACGGCGTTGATGCGGTAATCAACCTGGCCGGAGAACCGATTGCTGATAAAC +GCTGGACTCACGAGCAAAAAGAGCGTCTCTGCCAAAGCCGCTGGAATATCACGCAAAAACTGGTCGATTT +GATTAATGCCAGCGACACGCCACCGTCGGTACTCATTTCCGGCTCGGCAACGGGCTATTATGGTGACTTA +GGTGAAGTGGTGGTTACCGAAGAGGAACCGCCGCATAACGAATTTACCCATAAACTCTGCGCTCGCTGGG +AAGAAATTGCCTGCCGGGCGCAAAGTGACAAAACGCGAGTGTGCCTGCTGCGTACCGGTGTAGTGCTGGC +ACCGGATGGCGGTATTCTCGGTAAAATGCTGCCGCCGTTTCGTCTTGGCCTGGGCGGGCCGATTGGCTCT +GGTCGGCAGTATCTGGCCTGGATTCATATTGATGATATGGTCAACGGTATTCTCTGGCTGCTGGATAACG +AGCTGCGCGGGCCATTTAATATGGTTTCGCCCTACCCGGTACGCAATGAACAATTTGCCCATGCGCTCGG +TCATGCGCTGCATCGCCCGGCCATTTTGCGCGTCCCCGCGACCGCCATTCGACTGTTAATGGGCGAATCT +TCAGTACTGGTATTAGGTGGACAACGCGCGCTGCCTAAACGGCTGGAAGAAGCGGGTTTTGCGTTTCGCT +GGTACGATTTAGAAGAGGCGCTGGCGGATGTCGTTCGCTGATGTGGTTTACAGCAAACATCCGCCAGTTA +ACTCCCGGTGTTACAGGATTAGTGGCTTTGCGCGATAAGATCGTCTGGTGAAAGTCGGGTCACCATCATA +ACTAACTCTCTGTCTAAACCTCTATCCAGCATCTCCTGAGCAATACGCAGGGCTTCTTCGTGTTTGCCCT +GCATTGCGCCTTCTTCACGTAATCTGTCAGCAATGGTCATCAGTTTCTCCTTTTCTTGTGGTGCGCGTTC +CGCTATCTCACCAATAAATGCACGAAAACGCTGGGCATCCCCTGTTTGTAATACGTAATTAAACAGGGCT +TTTAGCTGTCTGTCATTAGTGTTCCCTGTAACTAGCAGCGAAACAATTTGGTCGACTAATCCCAACAGAT +CGCGCTGACGAATATGTTTCTGAATTAACTCCAACAGCGCCATTTTGCGGTGTTGCATAATCTCGTCATC +CGGCACCACGGTAATATCCACCAACGGAAAAGCCGATGAATATATTTTGCGGGCTATAGCAGGCTCGGCA +AATTCATCAAGCCAGCAGAGTGAATAAGGATAAGGACTTCTGCAACCATGATAAAACAGCATCGGGAGCA +CCAATGGAAGCTCTTTATAGCCCGCATCAAGATGGTTTTGCATTGCCGCAATGGAATAACGCATCATGCG +AAAAGCCATTAATTCTTCCGGCTTACTTTGGTGCTCTATCACTACATAAATATAACCCACTCCCTCCTGC +GTTTTCACAGACCACAAGAGGTCGGAATAATATTGCCGCAGGTCTTCATCAATAAAACTGTTTGGTTCCA +GTTTAAGCGTCGTTAAATCACACAGTTTGCGCAGCGGCGCGGGAAGATGAATATCAATAAAATCCCGCGC +GGTGTCTGGATGGCGTAAAAAAGATTTAAATACCGCATCATGCGGCGTGGAAGTTGTCGATATTGTCATG +GCGTTCCGTCACCCCTCAAATTTAAGATGACGCGACAATAACCACGATTAACACCCAATGCAGCAGGCAG +TTTTTATCTTTGGACAGCGAATTCAGAAGTATTTTTAGCGGACTGTAACTTTTACATTTCAGCGGAAGCT +GACTCGCAAATTCCCCATGAAAATACTCCGGCAGCGTTAGCCACCGGAGAGGAAATTATTTCAGCGATCC +CTTAAGGAACCGTTGCAGACGAGGGCTTTGCGGGTTGCCAAATAACTGCTCCGGCGCGCCCTCTTCTTCT +ATTTTCCCCTGATGGAGGAAAATGACATGAGTAGAAACATGGCGAGCAAAGCCCATTTCGTGAGTCACTA +CCACCATGGTTTTCCCCTCTTCTGCCAGTTGCTGCATAATACGCAACACTTCGCCTACCAGTTCAGGATC +GAGCGCCGAGGTAGGTTCATCAAACAGTAAAACTTCCGGTTCCATCGCCAGCGCCCGCGCGATAGAAACA +CGCTGTTGCTGACCGCCGGAAAGATGCACCGGATATTTCCCCTGCGCACGTTCGTCTATCCCGACTTTTG +CCAGATACTTCACCGCCCGCTCGCGCGCTTCCTGCTTGCTCAGGCCCAACACCTGAATCGGCGCTTCCAT +GACGTTTTCCAGCACCGTCATATGGCTCCAGAGATTGAAGTGCTGGAATACCATCGTCAGGCGTGTGCGC +AGTAAGCGCAGTTGATTTTTATCGGCGACTTTGAGTTGACCGTCTTTGTCGCGCACCAGATTGATCGTCT +GGCCATTGACCACGATCGACCCTTCACTCGGTTTTTCGAGGAAGTTAATGCAGCGCAGAAAGGTACTTTT +CCCCGATCCCGACGATCCGATGATGCTTATTACATCTCCGGCATTCGCTTGCAGTGATACCCCTTTCAGC +ACTTCATGTTCGCCGTAGCGTTTGTGCAAATCGATAACGTTTAATTTATTCTCGGACATCGTATTCTCAG +TGCGTTGAAGAAGGTTTCACATGCTGCAACCAGCGTTTTTCCGCTCTGCGAAAGAGGCTGATCAGGACAT +AAGAGATGATTAAATAGAGCACCGCGGCAATGCCGAAGGCGGTAAAAGGTTGATACGTGGCGGCGTTAAT +ATCGCGGGCTATTTTCAGCAGATCCGGCACCGTGGCAGTAAATGCCAACGCAGTAGAGTGCAGCATCAGG +ATCACTTCGTTGCTGTATGCCGGTAACGCAATACGCAGCGCAGAAGGCAAAATAATGCAGCGATACATTT +TAAAAGTCGAGAAGCCATAGGCTCTGGCGGCTTCAATTTCCCCATGCGGAACCGAACGGATTGCCCCAGC +AAAAATCTCGGTAGTGTAAGCGCAGGTGTTAAGCGTCAGCGCCAGCACGGTACAGTTCAGGCCACTGCGG +AAGAAAGCGTTAAGGAATTCGGTTCCCTTAACAATCTCAAGCGTGTACATGCCGGAATAGAACACCAGCA +ACTGAACATACAGCGGCGTACCGCGAAAAATATAGGTAAATAACCAGATTGGAAACTGGATGTATTTATT +ACTGGAGACACGACCAATCGCCAGAAACAGCGCCAGGACTCCGCCTATCACTACCGACAAAATAAGCAGC +CACAGAGTGATCGCCACACCAGTAAAGCGATAACCGTCGGTCCACAGCAGCGGTTTCCAGTATTCATGTA +AGATTTCGATCACAGGTCAGCCCTCTTCACACCCACGGAGTAGCGGCGCTCAAGGAACAGCAGCACACCA +TTGGAAACAGTGGTGAAAACCAGGTAAATCACGCCACAGACGATGGCGAAATAGAACGGTTCCCAGGTAC +TTTTGCCTGCCAGTTGGGTGGCTTTGACCACATCTTCCAGGCCGAGTAACGAAACCAGTGCGGTAGATTT +GAGGATCACCTGCCAGTTGTTGCCAATGCCTGGCAGGGCGTAACGCATCATCGACGGAAACATGATCCGC +CGAAACACTTGCCCACGAGTAAAACCGAACGCCGTCGCCGCCTCTATATGTCCTTTCGGCACTGCCATAA +AAGCACCACGGAACGTTTCGGTAAAATAAGCACCGTAGATAAAACCGAGAGTGATAATACCAGCGACCAT +CGGATCGATATCAATCTGCCCGACGCCCATCGCCTCCGTCACCGTGTTTAGCGCAATCTGCAAACCGTAG +AAAATCAGCAGCATCAACACTAAGTCCGGCACGCCACGAATCAGCGTGGTGTACCCTTCGAAAATCAGCC +CCGAAAGCCGATTTTGCGAGAGCTTACCGCCAGCGCCAATTAAACCGATGATTACAGCGAGCACTACAGA +GCTGATAGCCAGCTCCAGCGTGACGAGCGCACCCTGTAAAATAACACCTGAAAACCCATACAACATGCTG +CCTGTCCTGTCGTGTGTGGTGAATTACCGCCTCTTGTCTCCCTCCGGTTACCCGAAGGGAGCGGGCTTTC +TTTCACCGATGGCGATTAGCCACCATAAACATCAAAATCGAAGTACTTTTTCGCTAATTTCTCGTAAGTA +CCGTCAGCGCGCATTTCGGCAAAGGCTTTGTTCAGTGCTTCGCGCAGTTCGTTATCTTCTTTACGCAGGC +CCATGCCGGTCCCTACGCCAAACAGTTTTTCATCTTTAACAGACGGGCCACCGAATTTGTAATCTTTACC +GACAGGTTGTTTGAGGAAACCTTCGCTGGCAGCGACCTCATCCTGGAACGCGGCATCAATACGTCCGGCA +GTCAGGTCAGAATAAATGTTGTCCTGCCCCTGATACGAGACGATTTCAATGCCTTTTGGTGCCCAATGTT +CATTACCGAACGTCTCCTGGGTGGTGCCCTGCAATACGCCTACCCGTTTGCCTTTCAGCGACTCGACTGT +CGGCTGAATGTCAGAATTTTTCGCCACCACCAAACGAGAATCGGCAGCGTACAGTTTGTCGGTGAAGGCT +ATTTCTTGCTGACGTTTTTCCGTAATGGAAAGCGATGACATGATGGCGTCAATCTTCTTCGCTTTTAAGG +ACGGGATTAACGCATCCAGCGGATTTTCGACAAACGTACATTGCGTATTGATGCGTTTGCATAATTCCTT +TGCCAGATCGATATCGAAGCCAACCAGTTCGCCTTGTGAATTTTTTGATTCAAATGGCGCATAGGTCGGG +TCGGTACCGATGCGGATGTTTTGCGGAATCGCAGCAAACGCCGCAGTTGCGCTGGAGAAGGCCAGAACCA +GAGAGAGCGATAGCACCAGTTTTTTCATAATGTCCTCAACTGACAGTCTTTTTATAGGGAATATTTACAG +GTTTGTTACACTTATCGTGCCATAAAATTGACCATCAAGGCAAAATATCCCGCCCCGTTAGACGTATTAT +TTTTCATTAAAAATGCTTAAGTATGCATTTCAATGCACCACGATAGTGCAACAAACCTGGCGTGCACCAT +GATGATCATTCCATCAGGTACAGCTTCCCAGCGACGTATCAGTCACCGTAGACATTAAAGTCGAAATACT +TTTTCGCCATCTTGTCGTAGGTGCCGTCCTGACGCAGCTCGCCAAGCGCCTTATTGAAGGCAGCCGTCAG +TTCAGCATCATCTTTACGTAGCCCTACACCGGTGCCATCACCGAAGTATTTTTTGTCTTTTACTGATGAG +CCAGCAAAGGCGAAATCTTTACCAGCAGGTTGCTTGAGGAATCCTTCGCTGGCAGCAACTTCATCTTGTA +ACGCAGCATCCAGACGTCCTGCAGCCAGATCGGAATAGACCAAATCCTGGTTGGCATAGGCCACCACATC +CACGCCTTTACTACGCCAGGTCTCGTTAGCGTAAGCTTCCTGGGTTGATCCCTGCAGCACACCAACATGT +TTACCTTTCAGTGAATCCAGCGTTGGCTGAATCGGTGAACCTTTGGCCGCAATCAAACGAGAATCTGCGG +CGTACAGCTTGTCGGAGAAGGCAATCTCCTGCTGACGTTTATCGGTAATGGAAAGCGACGAAATAATAGC +GTCGATTTTTTTCGCTTTCAGTGAGGGGATCAGCGCGTCAAAGTCACTGGCAACCCAGGTACATTTCACC +TGCATCCGTTTGCACATCTCGTTACCGAGATCGATATCAAAGCCAACAAAATCACCTTTAGCATCTTTCG +ATGAGAACGGTGCGTAGGTGGTATCGGTTCCGATACGTACCGTCTCCGGTAGCGCCGCATAGCTGGAAGC +CGCTGTGGAGAGACCGACTAACAAAGACAGAGCGAGAATCGACTTCTTCATACATAACCCTCAAGTGAAA +ATGGCTTTTTTATGTTGTGTATTGTGTTGTGTGTTTGCAGGCTCTTTCATGCAGGTCTTATGCCATCTTG +ACGACAACAGTAACATTCAACGTTAAATATGTTAATAAGACGTTGCATTATTGTCCTGAAGTTGAAGATA +GCAGGTATAGCGGTTGAATCGCAGCGTTTCGATTGAATGGCAGAAACAAAATGTCGAGGATTTGATCGCG +GTTGCAAAATTGCCCTGAAACAGGGCAACAGCGGAGTTATGCGCCCTGCCAGCGGGCAAAGAGATCTTCA +GGAAGGGTTATCGCAAACTGGTCAAGAACACGATTAACCGTCTGATTTATCACATCATCAAGGGATTGCG +GGCGATGATAAAACGCCGGAACGGGAGGCATAATCACCGCACCGATTTCTGCCGCCTGAGTCATTAAACG +CAGATGGCCTAAGTGCAATGGTGTTTCACGCACGCAGAGCACCAACGGGCGACGCTCTTTCAGCACCACA +TCTGCCGCACGGGTCAGTAAGCCATCAGTATAGCTATGGACAATGCCGGAAAGGGTTTTGATTGAACAGG +GTAAAATCACCATCCCCAGCGTCTGGAAAGAACCGGAAGAGATGCTGGCGGCAATATCGCGCGCATCGTG +CGTGACATCGGCTAATGCCTGCACTTCGCGCAGAGAAAAATCCGTTTCGAGGGATAAGGTCTGGCGCGCT +GCCTGGCTCATCACCAGATGCGTTTCGATATCTGTGACATCGCGCAGAACCTGTAATAAGCGCACGCCAT +AAATCGCGCCGCTGGCACCGCTGATGCCTACAATGAGTCGTTTCATAAATAGTTGCCCTGTCAGACTTGC +AGGCAGACTTTGCAGGATTTCGGCGGGAGTTGCAAGTCAGGGTGCCAGACCGGCACCCTCAGCGAAGGCA +TCATCCTTCGTTATGCATTTCGAGATTTTCCACTTCGTTCTGACGTTGCACTGCTTTGGCGTCATCATTA +CGTAACGTATCGAGGAAATCGAGGTAGCCCTGATCAACATCTTTGGTGACGTAGACGCCGTTGAACACCG +AGCATTCAAACTGCTGGATATCCGGATTTTCAGCGCGAACGGCGTCGATCAGATCGTTCAGATCCTGGAA +AATCAACCCGTCAGCACCGATGATCTGGCGAATTTCATCAACTTCGCGACCGTGAGCGATCAGTTCCGTG +GCGCTCGGCATATCAATACCATAAACGTTCGGGAAGCGAATTTCCGGTGCCGCAGAAGCGAGGTACACTT +TCTTCGCTCCGGCTTCGCGTGCCATCTCGATAATCTGCTCAGAAGTGGTGCCACGGACGATGGAGTCGTC +GACCAGCAGGACGTTTTTATCGCGGAACTCGGCGCGGTTGGCATTCAGTTTACGGCGCACGGACTTACGA +CGCAGCTGCTGGCCCGGCATGATAAAGGTGCGGCCAACATAGCGGTTTTTAACGAAGCCCTGGCGGTACG +GTTTGCCCAGAATACGAGCAATTTCCAGCGCGATATCACACGAGGTTTCTGGGATCGGGATCACCACGTC +GATATCCAGATCTTCCCATTCGCGGGCAATTTTCTCGCCCAGTTTCGTGCCCATATTCACACGCGCGCTG +TAAACGGAAATTTTGTCGATAAACGAGTCCGGGCGGGCAAAGTATACATACTCAAACAGGCACGGATTGC +TGACCGGATTGTCAGCACATTGACGGGTAAACAACTGCCCTTCTTCAGTGATGTAAATCGCTTCGCCCGG +CGCGACGTCACGCAGGAAATCAAAGCCCAGCGTATCGAGCGCTACGCTTTCGGAAGCGACCATATATTCT +GTACGGTTCTCGTCAATATCACGTTTTCCCAGTACCAGCGGACGAATCCCGTTTGGATCGCGGAAAGCAA +CCATACCGTGGCCGATAATCATCGCCACACAGGCATACGCGCCGCGGATTAAGCGGTTTGTGGCAGCAAT +GGCAGCGAAAATATTGTCGGCTTCCAGCGGGTAGTGGCGGAAGTTGTCCAGCTCGCTGGCGAAGATATTA +AGCAGAATTTCCGAGTCGGAAGTGGTGTTGATGTGGCGGCGTTTTTCTTCAAACAGTTTTTTACGCAACT +CGTGAGCGTTGGTCAGATTGCCGTTGTGGGCAAGCGTAATGCCATACGGGGAGTTAACGTAAAACGGCTG +CGCTTCAGAGGCGCTGGAGCTGCCAGCCGTGGGGTAACGCACATGACCAATGCCCATATTGCCCTGCAAA +CGCTGCATATGGCGAGCTTCAAATACATCGCTCACCAGCCCGTTCGCTTTACGCAAACGGAAGCAGTTAT +TGGCATCTATGGTGATGATGCCGGCGGCATCCTGACCGCGATGCTGAAGCACCGTTAAGGCATCATAAAT +CGACTGGTTAACCGGCATAACACCGGCGATACCGACAATACCGCACATACGTCTTTTTCCTCGTTAAGCC +ACATCTCAGAGCACTTACGCTCTGGGCAAGAAACTTGACGAGCTTTGCAGATAATCAAAAAAACATCTGA +TGATAAAACTGAATTGCGGGATCAGCTGTGATTTGCTCCAGTCTTCGCTTTTCGACACCCCGGTAAAGGA +GTCGAGAAAGAAGAGAATGGCAGCAACAATCAACACACCGCGCAACGCACCGAAACAGACGCCCAGCACC +CGATCGGTGCCTGACAACCCCGTTTTCTCCACCAACTGGCCTATCACGAAGTTCACGATAGCACCAACGA +TCAGGGTAGCGATAAACAGTACCGCGATGGCAATCCCATTTCGAACCAGTTCGTCTTCAAAGCCCGTAAA +CCAGACTGACAGGTAAGTGTAGTAATGACTGGCAACAAAGAAAGCACAACCCCATGTCACCAGCGATAAC +GCTTCACGAACAAAGCCGCGGATCAGGCTAACCAGAGAGGAAAAAGCAATCACCGCGATTATGGCGTAAT +CAATCCAGACCATATGTGTCCCACGATTTTACGCCCTGTCATCCTGTTCGGGGCGCATTCTAACAGAAAA +AGAAAACGTTTGCGTAGGGATTTCCTTCCCGCGCATCAATAAAAATGGCGCTGAAAAAATATTCAACGCC +ATCGACTTTTTATGCCTTTGCGGCATCGGGCAATGCGTGTCGGATGCGGCGTAAACGCCTTATCCGACCT +ACGGTTCTACCCCTGCGTAGGCCTGATAAGACGCGCCAGCGTCGCATCAGGCAAGACCGTATTAATTCGG +CGTATAGCCCATTACCACGCCACTTAAGCCAGAAAGTTGCTTCAACTCACCCAGCGAACCTTTCAGCTTA +TCTTTCGAGGCATCCGGCCCAACCAGAATACGGGTAATTTTACCCTGCACTGGCGTGGATGGCGACGTAT +AAACCCGATAACCGGCACCGCGCAGCTTACCGACAATCTCATTCACTTTATCGGCATTTTTCAGCGCACC +CAGTTGCACAACATAGGCTTTACCCGTCGGTGCAGCTTTTTCTTCCACGACCGGCTTCGGTTCTGGCTTC +GGCGCAGGTGGTGCTTCAACCTTTGGTTTAGGCGGCTCCACCGGTTTCGGCTTCGGTGGGGCGACCGGTG +CAGGTTCCGGTTCAAACTCGGTGTTATTGGCTGCAATAGTGGCCGGATCGAGCGACGGTGCTGCGGCATC +ACCTGCCCGCACCTCTTCCGCTGCGCCTTCCGGCGGCTGCGTCGGTAACGCCTGGGTGGCGGCTGGCATC +ATATCAGGCTCATCACGATCGCCCGCTTTCGGCACCAGCGGGATAGCCGCGAACTCATCCTGATAATGTT +TTTTCTGCCCGTCCAGCAGCCCTGGAAGTACAATCACCCCCAGCGCCACCAGCACGATCGTGCCCACTAA +CCGATTCTGAAACTTACTTGCCACCGCTTCTCCTCGCGTCAATCACTTCCATGACATGTGCGACCGTGTG +GAAAGAACCACACACCAGCACGGTGTCTTCCGCTTTAGCGTCCGCCATTGCGGCATCCCATGCCTGCGCA +ACGCTATCAAATGATTTGCCGTTACCCAAATGCTCAAGCAGTTGTTCTGCCGTGGCACCGCGCGGCCCTT +CCAGTGGCGCACAATACCAGTCATCAACCACGCTTTTCAACCAGGCCAGAGTTCCGGCAATATCTTTATC +ATGTAGCATACCGATAACCGCCAGCACGCGCCCGTTTTTCGGTAGCGCTTTCATACGCCCGGTGAGATAT +TCCGCCGCATGTGGATTATGCGCGACATCAAAAATAACGCGTGGCGACTCGCTCACAATCTGGAAACGTC +CCGGCAAAATTGCGCTGGCAATCCCGTCGCGAATGGCATTTTCACTGACTTCCAGCCCGCTGGCACGCAG +TGCCGCCAGCGCTGTTGCGGCATTCGGTTGCGGGACAAGCGGCAACGGCAGATTTTCCAGCGTGCCGTGA +GCATCGCTAAACGCCCAGTCATGATCGGTGACGGAATAGTTCCACTCAACGCCCCGACGTTGTAACAGTG +CACCTTTTTCCTGCGCCACATCAGCAATGGTAGAAGGCATTTCCGGCTCACCGACAATTGCCGGTTTTTC +GCTGCGGAAGATGCCTGCTTTCTCGCGACCAATACTTTCGCGATCTGGACCCAGCCAGTCGGTATGATCC +AGCGCAATACTGGTTACTACCGCGACATCGGCGTCGACAATATTGGTTGCGTCCAGACGACCGCCCAGCC +CTACTTCCAGAATCACCACGTCAAGTTGTGCCTGCTTGAACAGCCACAACGCCGACAGCGTACCGTACTC +GAAATAGGTCAGGGAAATATCACCGCGTGCCGATTCAATCTCCGCAAAAGAGGCGGTGTGGGCCGATTCC +GGCAATTCCTGGCCCTGCACACGTACGCGCTCGGTATAACGCACCAGATGAGGCGAACTGTAGACGCCCA +CTTTGTACCCTGCCGCCATCAGAATCGACTCCAGCGTACGGCAGGTGGTGCCTTTGCCATTCGTACCCGC +AACGGTAAACACAAATGGCGCTGGTTTCAGGACGCCAAGACGCGCCGCGACCAGGCTCACGCGCTCAAGG +CCGAGATCGATAGTTTTACTGTGCAGGTTTTCCAGATAAGAAAGCCACGAAGCCAGAGGCGACGCGGCTT +GAGGAGTGCGTTTGATAATCATGGTATCCGCTGATTCGTTACGGTGAGAATAGCAAAAGGGCAGAGCCAG +TGGCCCTGCCCTTATCAGTTATCAGGCCTCAGGTTCCTGATCCGGTACCGGGGGTACCACTACGCCTTCA +CGCGGCGCTTCAGGATTCGGCGCTGGCAGATTCATCAACTTCGCCAGAATGCTCGCCAGTTTCAGGCGCA +TTTCCGGACGACGGACGATCATGTCGATCGCGCCTTTCTCGATCAGGAATTCACTGCGCTGGAATCCAGG +CGGCAGTTTTTCGCGAACGGTCTGTTCGATAACACGCGGACCGGCAAAGCCGATTAACGCTTTCGGTTCA +GCGATGTTGAGATCGCCCAGCATGGCGAAACTTGCAGAAACACCGCCCATCGTCGGGTCGGTCAGCACGG +AGATGTACGGCAAGCCGCGCTCCTGCATTTTTGCCAGTGCCGCAGAGGTTTTCGCCATCTGCATCAGCGA +CATCAGTGCTTCCTGCATACGTGCGCCACCAGAGGCGGAGAAGCAGATCAGCGGGCAGTTATCTTCCAGC +GCCTGCTCAACGGCACGCACGAAACGTGCACCCACAACAGACCCCATTGAACCGCCCATAAAGGCGAACT +CGAATGCCGCAGCGACAACCGGCATTCCATACAGAGTGCCTTTCATCACCACCAGCGCATCTTTTTCGCC +GGTTTCTTTCTGCGCAGATGCCAGACGGTCTTTATACTTCTTGGAGTCACGAAACTTCAGCACATCTTTC +GGCTCAAGCTCGCTACCCAGCTCCACAAGGCTTCCTTCATCTAACAGGCTATGCAGGCGATTACGCGCTG +TCATACGCATGTGATGGTCACACTTCGGACAGACCTCAAGATTACGTTCCAGCTCAGCGCGGTATAAAAC +CTGACCGCAGCTATCACACTTAGTCCACACCCCTTCAGGAATGCTCGCCTTGCGGGTGGGAGTAATGTTG +CTTTTAATTCGTTCAATCCAGCTCATTAGGGACCTTTCTGTCTGAACCTGGTTCGATGCCAGTTTTATCT +TTGGGGACGCATAATGCCATTTTTGCCCCCAACAGACCATGAATGTTGCACATTAAAACATAACAGCCCG +AAACTTTGGATAAAAAAGTGGTCGAACCGCGGAGTTACTTTTTATTTTGCGGCGCGTGCCGCAGCGCGTT +TGTGACGGATTATTTCGATGACGCCCGGCAAAATAGAAACCACAATAATCCCGACGATCAGCAGCTTAAG +GTTATCCTGAACCATCGGGATTGTACCGAAGAAATAGCCTGCGTAGGTAAAAAGCAGTACCCACAACAGT +GCGCCGATCACGTTATAAGCGGCGAAATGACGGTACGACATGTGGCCCATTCCCGCAACAAACGGGGCGA +ACGTTCTGACGATCGGCACAAAACGGGCGAGAATAATCGTTTTGCCGCCATGTTTCTCATAAAACTGATG +GGTTTTGTCGAGATAACTGCGACGGAAAATTTTCGAATTGGGATTACTGAACAACTTTTCACCGAACAAC +CGCCCGATAGTGTAATTGACCGCGTCACCCACAATCGCGGCGATCAGCATCAGCACCACCATCATATGGA +CGTTGAGATCGTTGGTTTCCAGTGATGCCAACGCTCCGGCAACAAACAGCAATGAATCACCCGGTAAAAA +CGGCGTTACCACCAGACCGGTTTCACAGAACAAAATTAAGAACAAAATGGCATAAACCCAGACGCCGTAC +TCCGCGACCAGCTCTGCCAGATGCACGTCAATGTGCAGGATAAAATCGATGAGGAAATAAATCAGGTCCA +TATTTGCCTATGCCTTGTACTCGTCATCTTTCAGGCTGTAACTACGTTGGCTACAGCCTGAAATGTTCCG +AGCATTATTCTCGTTAGTCCGCCAGAAATAGCGGGCCCATTGGCGGTTTTGGAAGATCATACCGGTCAGG +GTAATCCACCGCGACCAGATACAGCCCTTCCGCTTTTGCCGTTGCTGCCGCCAGCGTTCTGTCCTTTGCC +GCCAGCAACTCTGCTATCCAGCTCTCCGGCTGGTTGTGGGCACCGACTTCCATCAGGCTGCCGACAATAT +TCCTGACCATATGATGTACAAAAGCATTCGCTTTAATATCTACCACCACATAAGGACCGTGACGCGTGAC +ATTAATATGCATAACGTTGCGCCACGGGGTTCGGGACTGGCACTGCACCGCACGGAACGAGGTGAAATCA +TTCTCGCCCAGCAAGCATTGCGCAGCCCGATGCATCCGTTCAGCGTCCAGCGGTTCGTAAAAATGGGTTA +CCCCTTTACTCAGTACCGCCGGGCGCAGCCGATGATTGTAGATGATGTAGCGATAACGGCGAGCCGTGGC +GCTAAATCGGGCATGAAAATCATCAGGTACAGTTTTAACCCAACGCACAGCGATGTCACCAGGTAAATTC +GCATTTACGCCCAAGGTCCACGCCGCGTCTTTGCGCAGCGCGGTTGTTTCGAAATGCACAACCTGCCCGG +TACCGTGTACCCCTGCGTCAGTACGCCCGGCGCAGAAGACGGTGATGGGTTCGTTCGCCACCTGGGAGAG +CGCCTTTTCCAGCTTCTCCTGCACACTGCGGACTTCGTTCTGCCGTTGCCAGCCGTAATACTTACTGCCG +TCGTACTCAATGCCCAGCGCAATTTTATAAACTGGCGGTTGTTGCTGGTCGGACATTAGTACAGATACTC +CTGCACCAGTTTCTCGGCGATTTTTACTGCCATCAGCGCGCCGCCAAAGCGAACGTTATCGGCCACCGAC +CAGAACTGGACTTGCTCCGGCATACCGTAGTCATTACGCACGCAGCCAACAGAAAGATGCGGCGTACCCG +AAGCATCACCTACCTGAGTTGGGAATTCGTTCTCTTCAGAGAGCACAATATCTTCGCCTTGAACAAACGC +ATCACGCGCTTCTTCTGCTGCCAGTGGACGCAGAGCTTCAAAGTTGACCATCTGGGCATGACCGTAGAAT +ACCGGTGCCTGGACGACGCTAGCCGAAATCATCAGCCCTTCGTCCTGCAGGATTTTGCGTACTTCGTCAA +CGATACGACGTTCTTCACGCACGCTACCTTCGCTATCCGGCAGTAACGGCAGCATGTTGAACGCCAGCTG +ACGCCCGAAGAAATCTTCTTCGTCAATCGGAATGCCGTTGAGCAATTTCGCACTCTGCCCCGCTAACGCA +TCGACCGCTTTTTTGCCCTGGGCGGAGGCTGAAATCAGGCTGGTAACGCTGATACGTGATAAACCGCCCT +GATCGATTAACGGTTTCAGTGCCGCCAGCAGCTGGCTGGTCAGACTGTCTGGTACGGCGATGACATTCCG +GTTCCGGTAATCTGTCAGTACAAACGGGTTTACTTCCGGCACCACCAGCGGTACGTCGGGTTCGAGAGCA +AACAATCCACTGCTGTCGATCACCAGGCAACCTGAGTTGGTCGCTTCTTCAACCCAGGCAGCGGTAGCTT +CTTTGCCTGCGACAAAAAATGCCAGCTGCGCCTGCGTCCAGTCGAATTCAGCGGCATCCTGCACGGTGAT +TGTCTTACCACCAAAGCGCAGTTGTTCGCCTGCGCTTTCGTTACGTGCCAGTGCATAAATTTCCCCAACC +GGGAACTGACGTTCAGCCAGCGTTTCAAGCAGGGCTTCGCCCACAGCGCCAGTTGCGCCCAGGACGGCAA +TGTTCCAGCCTTCAGACATGGTGGTTTACTCCAGAAATAGCAAAGCTCCCTGCCAATGTTACAGCAGAGA +GCATGAAGAAGAGATTAACGTGCCGGATGATGAACGGCGTTAAAACCCAGTTTACACAGCAATGATGCCG +CACTGGCGTCATCACAAATTACATACAGAGATGACCATTCACGGCGCTCAAGATAGTTTTTGCGCAGTTT +ATCGAACTCACCCGGTATCCCGGCGACTTTACGCAGCGGTGCGTCATCGCGGCGCACATCATACACCAAA +TGCACCAGCCTTTTCAGCGTCGGTTGATCGAGCGGGCCATGCAGCGTAATGCGACCAAACTCTGGCGCAG +GCAGTAATGTATCCAGCGCAACGTGCTGTTCATGCCCAATAAACTTGCTATAAGCTTCAAACACTTGCGT +AGTACCGCGTGCTTTACCTTCCAGGGTATAGCCTGCGATATGCGACGTGCCGATATCCACTTTTTTCAGC +AGCTCGACGTTGAGTTCCGGTTCGCCTTCCCAGACATCCAGCACTACGCTTAACTTCTGGCCTTCATTCA +GGCAGGTCAGCAACGCAGTATTATCGACGACTGCGCCACGGCAGGCGTTAATCAGAATCGCTCCGGGCTT +CAGGCTACGGATCAGTTTTTCATCCGCCAGATGTAGCGTTTTGTACGGACCATCTTTAAAGAGTGGCGTA +TGGAAAGTCAGAATATCCGCGCGCTGGACTAACTCATCCAGCGAGCGGAAATCACCCTCATCCCCACGGT +CGGCGCGAGGCGGATCGCAAAGTAAGGTTTTAATCCCTAACGCTTCCAGTCGCGCCTGCAATCGACGTCC +AACGTTACCAACGCCCACGATCCCCACCGTACGGTCGTACAGTGAAAATCCATCGCGTTCGGCAAGCATC +AGCAGGGAGGAGAAAACATATTCCACCACCGCAATCGCATTACAGCCAGGTGCAGCGGAAAAACCAATTC +CCGCCTGCTTCAACCATGCTTCATCGACATGGTCGGTCCCCGCAGTGGCAGTGCCAACAAATTTAATGGG +TTTTCCTGCCAGCAAAGATTCATTCACTTTCGTGACCGAACGCACCATCAGCGCATCCGCGTCTGCCAGT +TGAGCGACGGGGATTGGACGCCCGGGAACCGCGGTCACCTCACCCAAACGGCTAAATAAGTCGCGGGCAT +AAGGCATATTTTCATCAACAAGGATTTTCACGTTTGTGTTACCTGTATGAGACGAGAGTTAACCGGACAA +GTGTGCCATAATCTCGCGGCCAGGCATACTTGCGAAGATTTCAGGTATAAGGATACGTAATGATACAACC +TATTTCCGGCCCTCCTCCTGGGCAACCACCAGGTCAGGGAGATAATCTGCCGTCTGGCACGGGCAATCAG +CCTTTATCCAGTCAGCAACGTACTTCGCTGGAAAGCTTAATGACGAAAGTGACCTCACTGACGCAACAGC +AAAGAGCAGAACTGTGGGCGGGTATCAGGCACGATATTGGTCTGTCGGGAGATTCACCGCTGCTTTCGCG +TCACTTCCCTGCCGCTGAGCATAATCTGGCGCAACGTCTGCTGGCCGCGCAAAAAAGCCATTCTGCCCGC +CAGCTTTTAGCGCAATTAGGGGAGTATTTACGTCTGGGGAATAATCGTCAGGCGGTCACGGATTATATCC +GTCATAACTTTGGTCAGACGCCGCTGAATCAGCTCTCACCGGAGCAATTAAAAACCATTCTCACCCTGTT +GCAGGAAGGGAAGATGGTTATTCCGCAACCACAGCAGCGCGAGGCGACCGACCGTCCTTTATTACCGGCG +GAGCACAATGCGCTAAAACAGCTGGTGACCAAACTTGCGGCGGCAACGGGGGAACCCAGCAAACAGATCT +GGCAATCGATGCTGGAACTTTCCGGGGTGAAAGATGGCGAGTTAATTCCAGCGAAACTGTTTAACCATCT +GGTGACCTGGCTACAGGCGCGTCAGACGCTAAGCCAGCAAAATACGCCGACGCTGGAATCACTACAGATG +ACGCTAAAACAACCTTTAGATGCCAGTGAACTGGCGGCGTTATCGGCATATATCCAGCAAAAATATGGTC +TTTCTGCGCAATCATCGCTTTCTTCTGCCCAGGCCGAGGATATTCTTAATCAGCTTTATCAACGGCGGGT +TAAAGGGATTGATCCGCGTGTTATGCAACCGCTGCTTAATCCTTTTCCACCGATGATGGACACGTTGCAA +AATATGGCAACGCGTCCCGCGCTGTGGATACTGTTAGTCGCGATTATCCTGATGCTGGTCTGGCTGGTTC +GTTAACCCCGACGAAATGACAGTATCGTGACAATAATACCCAGCACCGCAGAGATCGCCCCGGCAAGAAA +TACCGAAGAGTAACCAAACGTGGTCGCCAGCATTCCCGCCAGCGGCCCGGAGACGCCGAGGGCGATATCC +TGAAACGCGGCGTAACCGCCCAGTGCGGTGCCGCGAACTTGTGAGGGGACGCGTTTAACCACCTCCACGC +CCAGCGCAGGAAAGATAAGCGAACATCCGGCTCCGGTTAACGCCGCGCCCGCTAATGCGACCCATGCACC +TGGGGCTTGCCAGAGCAGCAACAAGCCCACCGTTTCTACAAGCAGAGAGACAATCGCCACTTTCACGCCG +CCAAAACGGTCCGGCATCCAGCCAAACATGACGCGCATCACGACAAATGCGCCGCCAAACGCGGTAAGAG +TAAAGCCCGCCATCGCCCATCCTTTGCTGGCAAAGTAGAGCGAAACGAAAGTCCCGATAACAGCAAAACC +AACGCCTTGTAGTGCCAGACCTAACCCTGGTTTCCAGATAAGCCCGACAACGCTCCACAGCGATGGACGT +TCTCCCGCCAGGGCCGGTACTTTGCGCACTGTGCCGTTACAGGCCCACGCCAGTACGGGTAATACCATTG +TGGTGATCGCCAGTGCGGCAAAACCGTAATGGCTATGAATCAACAGGCCAAGCGGAGCACCAACAGCGAG +GGCACCGTAAATCGCCATTCCGTTCCATGACATCACTTTGCCAGAGTGTTTTGGCCCTACGATGCCTAGT +CCCCAGGTCAGAGCGCCTGTCAGTAACTGGCTTTCACCAAAGCCAAGAATCAAACGCCCGACGACCAACA +GAGCAAATTTGAACGGTGCGGAGACAGGCAAAATCGCCGCCAGCAGCAACGCGCCGCCAGCCAGACCACA +AGCTAACATTCCCTGAAGCGCCGAACGTTTTGCACCATATTGATCGGCCAGTCGCCCGGCGTAACCACGC +GTCAGCACCGTAGCCAGAAACTGAATCCCGACGGCAATGCCGACCATGGTATTGCCATAGCCCAGTTCAT +GATGAACAAACAGCGGGATAACCGGCAACGGCAACCCTACGGTCATGTAGGTGAGAAAAACCGCAAAAGC +GATGCGGAAGAGCGAAAAATTGGCAGAAGATCGTGTTTCGGTTTGGCTTACAGCAGTCATGCATTACTCC +AGAATGCAGCGCAAGGCGAGGAGTATCCCCGTCTCATCTCTCTGGTTTCAGGGTTACGGTGCGTTGGCAG +GATTTAACGCGTACGTCTTTTCAGAAGGAAATCGACAAAGCGGGAAGTTTGCCTGGAACTGGCGGCGATT +GTCAATGATGTGAAAAAGGGAACCATCAGGTTCCCTTTTGCGTTAGTGCCGGAGGCCGCATTGGCGCGTA +ACGTCGGATGCGACGCTGGCGCGTCTACTCCGACCTACTGCGAATTAATCTTTCAGCTTGCGCATTACCA +GCGTGGCGTTGGTGCCGCCGAAGCCGAAGCTGTTAGACATAACGGTGGTCAGTTCGCGATCGGTCGTTTC +GGTCACGATGTTCAGACCCGCAGCCTGCTCGTCCAGCTCTTCAATGTTGATGCTCGGGGCGATAAAGCCG +TGTTCCAGCATCAGCAGAGAGTAGATAGCTTCCTGTACGCCAGCAGCGCCCAGAGAGTGACCGGTCATGG +CTTTGGTTGCAGAAATCGCCGGGCTCTTATCGCCGAACACTTCACGGATAGCTGCCAGCTCTTTCACGTC +GCCAACCGGAGTCGAAGTACCGTGGGAGTTCAGGTAATCGATTGGGGTATCAACGCCATGCATCGCCATC +TTCATGCAGCGTACTGCGCCTTCGCCAGACGGAGCAACCATGTCTGCACCATCAGAGGTTGCGCCGTAGC +CAACGATTTCAGCATAGATGTGAGCACCACGCGCCAGCGCGTGTTCCAGCTCTTCAACCACTACCATACC +GCCGCCGCCAGCGATAACGAAACCGTCACGGTGAGCGTCGTAAGTACGGGAGGCTTTTTCCGGGGTGTCG +TTGTATTTAGTAGACAGCGCACCCATTGCGTCGAATTCGCAAGCCATTTCCCAGCACAGCTCTTCGCCGC +CGCCAGCAAACACGATGTCCTGTTTGCCCAGTTGGATCTGCTCTACTGCGTTACCGATACAGTGTGCGGA +AGTCGCACACGCGGAGCTGATGGAGTAGTTAACGCCATGAATTTTAAACGGGGTGGCGAGGCAGGCAGAA +ACGCCGGATGCCATCGCTTTGGTGACCACATACGGGCCAACCGCTTTCAGGCCGCGCGGGCCGCGCATTG +CGTCAGCGCCGAACACCTGGAAACGCGGGGAGCCGCCGCCGGAACCTGCAATCAGGCCAACGCGCGGGTT +ATTCTGGTAAGCTTCCGGAGAGAGGCCCGCATCAGCGATTGCCTGCTCCATAGAAAGGAATGCATAAATG +GATGCGTCGCTCATAAAGCGCACAACTTTGCGGTCAATGAGGCCAGTGGTATCCAGTTTTACGTTGCCCC +AGACGTGGCTACGCATGCCGGAATCCTTCAGCTCCTGAGAGAAAGTGATCCCTGAACGTCCTTCACGCAG +AGATGCCAGGACTTCCTGCTGGTTATTACCGATGCTGGAAACAATGCCCAGGCCAGTAATCACTGCACGT +TTCATTCAATACCTCTGTAAGTCGCACATAGAGTAAGTTTCGAATGCACAATAGCGTACACTTGTACGCC +GAACAAGTCCGATCAGCCATTTAATAGAGAAATTTGCGCAGCCTTACACACATCGCTAAGATCGAGCCAC +CGCCTGTAAGACGAGTAACTTACGTGAAACACTACTCCATACAACCTGCCAACCTCGAATTTAATGCTGA +GGGTACACCTGTTTCCCGAGATTTTGACGATGTCTATTTTTCCAACGATAACGGGCTGGAAGAGACGCGT +TATGTTTTTCTGGGAGGCAACCAATTAGAGGTACGCTTTCCTGAGCATCCACATCCTCTGTTTGTGGTAG +CAGAGAGCGGCTTCGGCACCGGATTAAACTTCCTGACGCTATGGCAGGCATTTGATCAGTTTCGCGAAGC +GCATCCGCAAGCGCAATTACAACGCTTACATTTCATTAGTTTTGAGAAATTTCCCCTCACCCGTGCGGAT +TTAGCCTTAGCGCATCAACACTGGCCGGAACTGGCTCCGTGGGCAGAACAACTTCAGGCGCAGTGGCCAA +TGCCCTTGCCCGGTTGCCATCGTTTATTGCTCGATGAAGGCCGCGTGACGCTGGATTTATGGTTTGGCGA +TATTAACGAACTGACCAGCCAACTGGACGATTCGCTAAATCAAAAAGTAGATGCCTGGTTTCTGGACGGC +TTTGCGCCAGCGAAAAACCCGGATATGTGGACGCAAAATCTGTTTAACGCCATGGCAAGGTTGGCGCGTC +CGGGCGGCACGCTGGCGACATTTACGTCTGCCGGTTTTGTCCGCCGCGGTTTGCAGGACGCCGGATTCAC +GATGCAAAAACGTAAGGGCTTTGGGCGCAAACGGGAAATGCTTTGCGGGGTGATGGAACAGACATTACCG +CTCCCCTGCTCCGCGCCGTGGTTTAACCGCACGGGCAGCAGCAAACGGGAAGCGGCGATTATCGGCGGTG +GTATTGCCAGCGCGTTGTTGTCGCTGGCGCTATTACGGCGCGGCTGGCAGGTAACGCTTTATTGCGCGGA +TGAGGCCCCCGCACTGGGTGCTTCCGGCAATCGCCAGGGGGCGCTGTATCCGTTATTAAGCAAACACGAT +GAGGCGCTAAACCGCTTTTTCTCTAATGCGTTTACTTTTGCTCGTCGGTTTTACGACCAATTACCCGTTA +AATTTGATCATGACTGGTGCGGCGTCACGCAGTTAGGCTGGGATGAGAAAAGCCAGCATAAAATCGCACA +GATGTTGTCAATGGATTTACCCGCAGAACTGGCTGTAGCCGTTGAGGCAAATGCGGTTGAACAAATTACG +GGCGTTGCGACAAATTGCAGCGGCATTACTTATCCGCAAGGTGGTTGGCTGTGCCCAGCAGAACTGACCC +GTAATGTGCTGGAACTGGCGCAACAGCAGGGTTTGCAGATTTATTATCAATATCAGTTACAGAATTTATC +CCGTAAGGATGACTGTTGGTTGTTGAATTTTGCAGGAGATCAGCAAGCAACACACAGCGTAGTGGTACTG +GCGAACGGGCATCAAATCAGCCGATTCAGCCAAACGTCGACTCTCCCGGTGTATTCGGTTGCCGGGCAGG +TCAGCCATATTCCGACAACGCCGGAATTGGCAGAGCTGAAGCAGGTGCTGTGCTATGACGGTTATCTCAC +GCCACAAAATCCGGCGAATCAACATCATTGTATTGGTGCCAGTTATCATCGCGGCAGCGAAGATACGGCG +TACAGTGAGGACGATCAGCAGCAGAATCGCCAGCGGTTGATTGATTGTTTCCCGCAGGCACAGTGGGCAA +AAGAGGTTGATGTCAGTGATAAAGAGGCGCGCTGCGGTGTGCGTTGTGCCACCCGCGATCATCTGCCAAT +GGTAGGCAATGTTCCCGATTATGAGGCAACACTCGTGGAATATGCGTCGTTGGCGGAGCAGAAAGATGAG +GCGGTAAGCGCGCCGGTTTTTGACGATCTCTTTATGTTTGCGGCTTTAGGTTCTCGCGGTTTGTGTTCTG +CCCCGCTGTGTGCCGAGATTCTGGCGGCGCAGATGAGCGACGAACCGATTCCGATGGATGCCAGTACGCT +GGCGGCGTTAAACCCGAATCGGTTATGGGTGCGGAAATTGTTGAAGGGTAAAGCGGTTAAGGCGGGGTAA +TCTGCTCTCGCAGTGTTTGCCGGATGCGGCGTGAACGCCTTATCCGACCTACGTGTGACGTGTAGGCCTG +ATAAGACGCGATAAGCGTCGCATCAGGCATGCTGCTCCAGACGCCGCAACTTACTGCTGTGACGCCTGCT +GAAACAGGTTTTCCCACATATCGGTCACCAGCGCCTGGTCACGCGGCGACAATTCACCAGCACCAATGGC +TTTTTCCAGACTCTGGCTAACGGTCGTATGCACCGCCTGAGCGGAGTGGTCATCACCACTTTCCAGTTCT +GCGATGGCTAATGTCAGGTGGCCACGCAAATACCCACTGGCAAACAACTCATCATCACTGGCATGGTCAA +CCATACCGTCGATTAATGCCAGAATGCGTGATTCAAACTCCGCGATCATCTTCTTTCCTCATTGTAAAAC +GTGGCGCTGGCTTCAGTTGAGCGCTTCCGGCCACGGGAACTGTTCCGCCGTAAGTTCCGGCGTGTGATAA +TAATTTTGTAGTGCTTTAATGAAGCGTGCCGGACGTTCCGGAATGCCATTTGTCAGATAATCCATCACCT +GCGCATGTACTCGCCGTTGAAACACCACACGATCCGGTTCGAAATCCCCTTCCAGATTGTCGCAACTGAC +GTTAAACGGATATCCCGCCGCCACACAGAACAACCAGTCGAGCGCCTGCGGCTTCACTTCAACATCTTCA +AACTGGCTTTGCGTTTGGGCATCGCGTCCGTCCGGGCAATACCAGTAGCCGAAATCAACCAGCTCACGGC +GCGCTTTCCCGGCAATACACCAGTGCGAAATCTCATGAATTGCGCTGGCATAAAAGCCATGAGCAAAGAC +GATTCGGTTATACGGTACTTCCGCATCAGCAGGAAGATAGATCGGTTCGTCGTCGCCTTTAATCAGACGG +GTATTAAAATCATCGGCAAAGCAGCTATTAAAAATTTCAATCAACTGCTCGTAGTGGTGTGTACTGTTCA +TTAGTTCATCCCCAACCAGTGGAGGATCTCCTGTCCGTGGCTGTCGTAAAGTAATTTGGCACTCATCACC +GCCGAGACGATAACAATCATCGGGCGGATCAGCTTTTGTCCTTTGCTCAACACCAGTCGTGAACCCATGC +GCGCGCCGAGGAACTGCCCCACCAGCATGACAAAGCCCGTCGCCCAAATCACTTTGCCGCCGAGAATAAA +CAGCAGTAAACCGCCGATGTTTGACGTTGCGTTGAGTAATTTGGCGTGAGCCGTGGCTTTGGCGAGGTTA +AATCCGCACAGCGTAACGAAGGCCAGCGCGTAAAACGACCCGGCAGCCGGGCCAAAGAATCCATCATAAA +AACCGACGCAGCCACCGGCTATTAACGCGAAGGGTAAACCGTACATCCGGCGCTGGCGGTCTTCTTCACC +TAGCTTTGGCATCAGCAAGAAATAGAGGCCGATACAAATTACCAGAATGGGCAAAATCTGCCGTAAGACA +TCAGCCTGAACGTATTGCACCAGCAGTGCGCCGCTCATTGAGCCGACAAAGGTCATGGCGATATTGAGTT +TCTGATCGCTTAAACTAACCACTTTGCGGCGAATAAAGTAGATAGTAGCGGAAATAGAGCCGCCGCAGGC +TTGCAGTTTATTGGTTGCCAGCGCATTAGCGGGAGACATCCCCGCTGCCATCAATGCCGGAATGGTGAGT +AACCCACCGCCACCGGCAATCGAGTCGATAAATCCCGCCAGCATGGCGACAAAAAAGAGAACTCCCAGCA +ACAGCGGGGAAACCATAAACAGGCTATTAAACGTTTCCATTAGATCACGTGCTCATCCAGTAGCGCCTGG +CAGGAAGGCGGCAACGGAGGCGGTGTCTTCTTCTCAGGCTTTGTTGTTCCCGGTTTTGGAGGTTCAAACC +AGCTTTGCAGTTCTGCCCCGCAACCATCGCCTGATGGCGGTAAAGGTTGATCTTCACACTCCAGACTATC +GGCAGGGCAACGTAATCGTACATGCATATGCGCGCGATGCTGGAACCAGGGTCGCACTTTGCGCAACCAG +TCGCGATCGGTGCCCGCATCAAGGCAAAGTTGTTGTTTAATCGCCGGATTAACAAAAATGCGCGTGACGT +CTTTGTCCTGGGCGGCGAGTTTGATCAAGCTGAAAATTTCTGGCTTCCACAGCGTGGAGACAACGTGTTT +ACCGTCGCGGGAAACTAAGTCCAGTGCTTGCGGGCGCAAGAGCTGCGCGGAGGTCCAGCGAGTTTTCGGC +AGTTGCAGAAAGATATCGACATCCAGTCCGGTCTGGTGGCTGGCATGACCGCCGTTGAAACGCCCACCAG +CGGGCATCCCCATATCGCCAATCAGCACCGTACCCATGCCCAGATTGCTCACCTGGCTACTCAGACGCTG +GATAAACATCACCAGATCCGGGTGACCGAAATAGCGACGCTGATCGGTACGCATGACCTGATAATGTTCG +GACTGTATCGGCAGCGTGTCAGCGCCGACAATACAGCCATTAGAAAAACTGCCTATCGATTGTGCGCTAC +CCGGCACAGGTTGGGTTATTTTTTGCCACGGCGTCGCTGCCAGGCTGGCGCTACTGGCAAGCAGAGCCAG +CAGCGCAATCGCGGTTTTATTCATTTTTTACCAGCGTGGAATATCAGTCTTCACATCGGCATTTTGCGCC +CGTTGCCGTAACAGGTGATCCATTAAAACGATCGCCAGCATCGCTTCTGCGATCGGCACTGCGCGGATCC +CGACACAGGGATCGTGACGGCCTTTGGTGATCATCTCAACTTCTTCGCCAAAGCGGTTAATGGTACGACC +CGGCACGGTAATGCTGGAGGTCGGTTTCAGCGCCATATGGGCAATGATTTGCTGCCCGCTGCTGATACCG +CCGAGAATGCCGCCCGCATGGTTGCTCTGGAAACCGTCTTTGGTGATTTCATCGCGGTTCTGGCTGCCGC +GCAGCGCCACCACGTCAAAGCCGTCGCCAATTTCCACGCCTTTCACCGCGTTGATGCTCATCAGCGCATG +GGCGATGTCAGCATCCAGGCGGTCAAAGACCGGCTCGCCAAGTCCGGCAGGAACGCCACTGGCAACAACG +GTGACTTTAGCGCCGATGGAGTCGCCCTCTTTTTTCAGCGCACGCATCAACTCGTCTAACGCGTCGATTT +TGTCGGGGTCCGGGCAAAAAAACGGATTTTGCTCGACCTGCGACCAGTCTTTGATATCCAGCGGAATGTC +GCCCATCTGGGTCAGGCAGCCACGGATTTCAATACCAAATTTCTCGGCGAGATATTTTTTGGCAATAGCT +CCTGCCGCCACGCGCATGGCGGTTTCGCGGGCGGAAGAACGTCCACCGCCGCGATAATCGCGCAGACCGT +ATTTTTGTTCGTAGGTGTAATCGGCATGGCCTGGACGGAAAACGTCCTTAATCGCACTGTAATCCTGAGA +GCGCTGGTCAGTGTTTTCGATCAACAAGCCAATGCTGGTGCCGGTAGTAACGCCTTCAAAAACACCGGAG +AGAATTTTGACCTGATCCGGCTCGCGGCGCTGGGTGGTATAGCGCGATGTCCCAGGGCGACGACGGTCGA +GGTCATGTTGCAGGTCCGCTTCCGTCAGCGGAATGCCTGGCGGAACACCATCGACGATGCAGCCGAGCGC +CAGCCCGTGCGATTCGCCGAAGGTGGTTACGCGAAAGAGTTGTCCAATTGTGTTTCCAGCCATCACGGCT +CCGTTATTGTTGTGTTTGCGTGTTTACTTAATCTTTATAAATCGCGAAATGTTCTCGTGCGGCAATAAGC +TGCTCTTTGGTGAGCATAAACACACCATCGCCGCCGTTATCAAACTCCAGCCAGGTGAACGGAACATCCG +GATATTGTTCCATAAGATGTACCATGCTGTTGCCGACTTCACAAATCAACACGCCATCATCAGCAAGGTA +ATCTGCCGCGTTACCGAGAATGCGACGCGTCAGTTTCAGGCCGTCAGTGCCAGATGCCAGGCCCAGTTCC +GGCTCGTGGCGGTATTCGTTTGGCAGGTCGGACATATCTTCCGCATCGACATACGGCGGGTTAGTGACAA +TCAGGTCGTACTGCACTTTCGGCAAGTCGCGGAACAGATCGGAACGAATCGGAATGACGTTGTGGATCAG +ACCGTGTTCTTCGATGTTCTGTTCAGCAACCGCCAGCGCGTCTGGAGAGATATCCACCGCGTCGACTTCT +GCATCCGGGAAGGCATAAGCACAGGCAATGGCGATGCAGCCGCTACCAGTACACATATCTAAAATATGCT +GCGGTTGCTTGCTGATAAGTCCGGCAAATTTATTGTTGATCAGTTCACCAATCGGCGAGCGCGGCACCAG +CACGCGTTCATCGACGTAAAATTCATGGCCGCAGAACCACGCTTTGTTGGTCAGGTAAGCCACCGGAATG +CGTTCATTGACGCGGCGGATCACGCGTTCAACAATACGGTGTTTTTCGCTGGAGGTCAGACGCGCGGTGC +GCATATCTTCCGGAATATCCAGCGGCAGGTAGAGCGAAGGCAACACCAGCTGTACGGCTTCATCCCACGG +GTTATCGGTACCGTGACCGTACCAGATATTTGCCGCGCTGAAGCGGCTCACCGACCAGCGCAACATGTCC +TGAATGGTTTGCAGCTCATTTACTGCTTCATCAACGAAAATTTTATCCACGTATTCCTCCAGGGCATGAT +CGCAATAATTTCGGCGGCTAGTTTGCCATGAAGATGACGATAAATCAGCATTCACGCGCGGTGAGTGAGG +AAAAATACGTTTAAAACGATCGATTGCGCTACGAGTCGGGTAAACTGTAGGAAAATTAGAAATAGAGACA +GATAAATGAAAAAGAAAACAACACTTAGCGAGGAGGACCAGGCTCTGTTTCGCCAGTTGATGGCGGGGAC +TCGCAAGATTAAGCAGGACACGATTGTCCACCGACCGCAGCGTAAAAAAATCAGCGAAGTGCCGGTGAAA +CGCTTGATCCAGGAGCAGGCTGATGCCAGCCATTATTTCTCCGATGAGTTTCAGCCGTTATTAAATACCG +AAGGTCCGGTGAAATATGTTCGCCCGGATGTCAGCCATTTTGAGGCGAAGAAACTGCGCCGTGGCGATTA +TTCGCCGGAGTTGTTTTTGGATTTACACGGTCTGACGCAGCTGCAGGCCAAGCAGGAACTGGGGGCGTTG +ATTGCCGCCTGCCGCCGTGAACATGTGTTTTGCGCCTGCGTGATGCATGGGCACGGGAAGCATATTTTGA +AGCAACAAACACCGCTGTGGCTGGCACAACATCCGCATGTGATGGCCTTTCATCAGGCACCAAAAGAGTA +TGGCGGTGATGCGGCGTTGTTGGTGTTGATTGAAGTCGAAGAGTGGCTGCCGCCGGAGTTGCCCTGAGGA +GTTGAGCGCGTTGCGCCAGGTACGGGTAATGGCAGGGGCGAATGCCCCTGCCTGGTGTATCTAAGGGCTA +CAACTCATTCAGTATGTACTGGAACCGGCAAGTAGAATCGATTGGCTGCATACTGCTGGTATCAACACGC +ACGACCATATCGTGTAACTGTTTGTCCGTTATAGGGTGTCGATTTGGCGTGACCGAGACTTCCGCCTTGT +CACATCCCGACGCGGTAAAAGTTATCATCTGTGCAACCCAGCGGCAGTAACCACCTGTTTCATTCATCTG +CGTACTGTCGCACAACTTCCCATCTTTCATCAAATACGTTGAAAGCGTTTTCTCAACCACACCGCCCGTC +GACTGCAGGGTGAGCAGTTTTGACTTACTGACATAATTCTCATTCCATGAAACGTCATAAGGTTGAACAG +AAACGGATGGACAAATCGTGTCGTGACTATCAGGCCCCTGATACGTCACGCCCCCTGGAGAGGCTTCAGA +GTCATTCATAATAACCAACCATGGACAAGAAAAGTAAGATTCAATCTCTGCAGAGACAATAACCTCAAAT +GTATAATACCCGCAGTTCCACCCAGACGGTAATCCAGGACAACTTGCTTTGTTGATATTTTGATGGTAGC +CAATCAGCTTAACCGAAGGGGCAGGAGGAGGACCACTCCAGCTCACATTTTGCAATATTTCCCCAGTCAT +GAGCCATTGACTACTTTTATATTCACCAACGTACACTGCGGATGGCATCATTATTTTTAAATTAAAAGTC +GCAATATTACGCGAATCACCGTTGTAACCGTAGTAAACGTCAACGCTATGCCCGGCAGCCATAGCTTCTG +TAGTAGCAATAAGCATGACCAGAGCGAACAACCATCGTAGTATTTTCATTTTAAATATACTCAAATGTCG +CAGTTAAAGAGGCGGTAAATTCACCGATCGTCACATCACGGCCGCTTTTCGCCTGTAGCCAGGCTCTGAA +ATTGATATCGTTATTGCCATTGGTTAGCGCAAAGGTCGCCCCATTTGTATTGTTGATGGCAACCTGCATT +CCGTCGGTTTTTTCCATGCCAATTCCCACTCCCTGAGCGGTTGATGACGTATCCAGTGCCAGAAAACCGG +GTTGTTCGCTGTCTTCTACCCCCGTGAGCGTGACTTTTACGTTGTATCCCGCCGGCCCTTTGCAATCTTT +CAGCTTAAAGACTACGGGTACACGAGCGGACTGGCCTGCAACGTTCAAATCCTGACGACTGACCGTGGGA +AAGCGCACCTCTGCCAGATATTGGCCATCCACCACCAGCGCACAGGATTTACTTAATAAATTACCGGAGA +AATGCAGATTATTATCTGCCGCGAATAACGTGCTACTCATTGCCAATATCAGCCCCGCTAACAGGACGTA +ACCACCGGACTGAATCATTGATTTATTCATTGATAATCCACCCGTAATGTTGCGTAAGCCGAAAAATTCG +TATCGCTTAACACAGCATCACTCGCTTTTACCGGTACGGCCTCCAGCTTCGGCTTTTGCGTAAAATCAGT +GGCGTTGATAGCAAGCGGAGTATTGAGTTTAAAACGCTGACCATCGTGCTGAAGCTCGATACCAAAACCG +GGTACATCAGTTTCAATTGCTGCATCATTAAAACTGGTTTGTGTACCAGTCCAGGTGAGGGTCATCTCCC +AATCTGGATGACGGGTCGTCGAGTCACAAGTGAGTTCATATGGCACCTCTTTACGACCATAGTTGCCGTT +GATGTCGTCGATAATGAGATCGCGAAATTCGACTTCAATGGTTTTACCACCGCTGATGCTACAGGTTGGC +GGTGACAATAATGTCCCGTGAAAGGTGATGTCTTCATCAGCAGCATGAGCTATGGCGCTACTGACACAAA +GCAGGGTTAAGAAAGTCTTTCTCATTGATAGTCCACCACCATGGTCAAACTGGCGTTAAACTCGCCCGCA +GCAAGTTGCGCCCCGCTTGCCTTCACAGGTACAGCCTTCAACTGTGGCTGGTTATTGATATTAAATGGCG +TCCAGCTATTTTCACCGACGGCAAACAATGAGTTATCGGCGCTATTTTCTATCCGAATGCCCAGCCCGGT +GATATTGGTACTGAGTACCGTTTCGCCGTTAATCGTTGAGGTATTGCCCTTAAGTTGCATCCGCAAGTCG +TTAGCAAGACTGTTTGTGCAGTTCAACGTGTATTTCGCATCTTGCCGATAATTGGTGCCATCAACGTTAT +CAGCAATCATATTGCCGAACTCTACCTGGCTGCCCTTGATTGAACAGGGTGGCGGAGCATCGACCAACAC +GCGCAGAATTAAATCCACGGGTTTACTACCAGCCATAGCAGATAAACTACAGACACTGCATACCAGCAGC +CCTGCGCCCACTACAAACTTTTGACTCATAACTCCCCCCGTCATCAGCCTTTGCGGCTCTGCTCTTCATC +CACCTGGCAGCTGTTGCCATTGCACTGGAAGAACAGCGGCATCCGTGCGCCAAAGTCGTTGACGTAAGTC +AGCACCGGTACGCTATCCATTTTCACATTCAGCGGTACCGTGGTTTTCGGCTCAATGACCAGAGGCGAGA +ACCCTGCAGCTGGATTACCGTTTTTCTGCGCACTGGCGTTGCTGATAATCACGTAGTACGGCGTTGGGTT +ATTGACGGTAAATGCCTGACCGCTGCGGGTGAGCGTCACCTTGTGCTGCCACGGACTTTTCATACTGACC +TTTTCCAGCGCCTTTGGTCGCCAGAACAACTTGATACGCGTTTGCAGCGCGATTTGCAGGGTATTGGGTT +TGTTTGATTTTGGCGGGATCTCGCGCACGTTAAAGTAGAACATGCTTTCACGATCGGCTGGCAATTTGTT +GATATCCGGCATTCCCTGCACTTTTACCTGCCCGTTCATCATTGAATCGATGCGTTGCACTGGCGGCAGC +ACAGTTAACGGCGAGGTGATCTTGTTACCCTTTTCATCTTCAATCCAGCTTTGAGCCAGATAAGGGAGTT +TCGGATCGTTATTACGCAGCGTCACGCTGATTGATTTGTCGCTTTCATTAAATATCAAACGGGTACGATC +TGGCGTTACAGACGCCAGGGCAGACAAACTGGTAGCGCTAAGCAGTAACGCCAGCGTCATAGCACCCAAT +TTGGCAGAGCAAAGTAAATCAGACATGGATCATTCCTTAATCACGTTATTGGTTAGCTGAAACAGAAACA +GGGGGATCGGTGGGTGTCACCTGTTGCGTCTGCTCCTGAATGACAGGCTTTATGTCATCAGGAACAACCG +GCGCGACGTTGCCTTTATGCTGGCATGGCAGTAACAAGCCGTTAAACAGATCGGCAGGCAGCGGGTCCGG +CAGGTTGATATCGCAATGCGCAACACCACTCCAGAACACACTCATATGTTCGCCAGGTTTCACCCCAGCC +AGATAGACACTACCGTCATCATCGACAAGGCCCACTGTCTGCTCGTTATCATTTTTTACTTCTGCGCCAA +ACGGTGGATGGCTGCCATCTTGTAAACGCAGCACCGCCATCGCTTTTTGACCACTGATGACGGCAAATTT +GCGGTAGCCAATGGCTCCTTCAGTTAGCGTGGCTTGCACCACCGACTGGGTTGCTTCGGCGTTTTCCGGC +AATTTGTTGAGGTCGATATACGCCTGATTGCGATAATAATTGTTAACGTCAGAAACGACGGCTTTACCAA +ACATATTGGTATAAACAGCAGCCCCGTTACCTTCCACCGGAACATCGGCAACGCCATCGGCATCAATCAG +CAGGCGTGTCCCGCCCATATTCTGGGTACGGTGAAGTGCGCCGCCGTGGGTAGTAAGCGTTGCGCCGCCC +TGTAACGACAAGCCCGCAGAGGTGTATTGCCCTTCATGGTAGTTCGCACTGAGGTCAACCTGCGCCAGCG +AACCATCATGGCTGTAGTAGCCATCAACGCTGGTGTGTTTGTCACTGGTGCCGATGTTCAACTGATAGTG +AGTCGCGTCATCGACACGGCTAAAATAACCGACCTGGCTGCTGTCCGTCCCACTGCCATAGTTGCCGTTA +TAGCTAACGGTACTGTTGTCGCCCCACGGCATACTGAGCGAAATCTACATGCCCTTATCCGCCCGGTTGT +CATACTCGTAGCGGTAGCCAGTCAGGGAAACGCTCATATTACGAATGCTGCCCATATTGAAATAGTGGGA +GAGCATGATGTTGTAGTTTGTCTGCTCCTCACGATCCCAGTAGGTATGGCGGGTATAGTTGAGATAAACC +GAAACACCCGCATCGCGGAAGTTCTGGTTATAAGTGGCGGTGTACATCTCTTTGTCGTTGCCCGTACGGA +CCATTTCGCTGTCACTGGCATCCAGATACTCGCTCATGGTCATAAAGTTCTCTTCCGAGAAGCGATATCC +AGCGAAAGTGACGCGGCTGTTGAGCTGGTCAAAGTCTTTGGAATAACTCACACGGAAGGAGTTACCGTCC +AGCGAACCTTTGCCATAAGCGGTGTCTTTATCCAGTTTGGTATGCGAATGAGTAACATCAAACGCGACCG +CGCCGAAGGTAGACAAATCGCGACCGACGCCCAGCGCCGCAGACTGATAGTTTTCATCACCCAGCGCACC +GCCATATAACGACCAGCCGTTAGCGATGCCCCAGGAGGCTTCAGCACCAGAGAAAAATCCCCCCTCGACA +TGGTGGCCCCACTCTTGCGGACGTCCCATCATGATCTTATAGCGAACCTGGCCTGGGCGAGTGAGGTATG +GCATCGAGGCGGTGCTGATGTCATATTCCTGCACCTGGCCGTTCTGTTCTTCAATGCGAATATGCAACGT +ACCGGAGACGGAATCACCAAGATCCTGAATACGAAACGGTCCAGCCGGAACCTGCGTTTCGTAAATCACA +CGCCCCATCTGGCTGACGGTCACTTTTGCTGTGGTGTGTGCCACGCCGGAAATGTCTGGCGCGTAGCCGC +GCAGATTGGGAGGCAACATTTGATCGTCAGTGCTGACACTGCCACCAACATAATTAAAACCGTCGAAAAT +ATCGGAATTGAGGTAATCTTCGCCCAGCGCCAGTTTGGCTTTTAATGACGGTAACGCCCGCCAGGCATAA +TAGCGACTCCACTCCCATTTTTTTTGTGTGTCATCGCCGCCAAATTCATCGTCATCATCATTACTGCGCG +TATGTTGATAGTTGGTCTGCCAGTCAGCGCGCATACGCCATGGCCCCAGGTTAACCCCGACCGTCCCGTT +GCCGCTGATCTCGTTACTGTCATCGCCGCCATTTTCTTCGTGTCGTGTTTGCGCAGTGATGCTGTAGTCC +GCAATGATCCCGGAGATGCCATCATCCCAACGAGAAGGTGGATCCCAGTCGGGCCAGGTATATTCGAGGT +AAGCCTGCGGTAGTGAAATGACTAATGCGGACTGGCTTAAATCAGCCTTAATTTCCACGCCTTCCAGTTG +ACCGGGCTTCAGGCATTTACCATCGTGGCTCCATTGCAGATTTTTCGCCACGTCTTCTTTTAAACCAAAC +TGCGCCACCAGTTCCGGTGTCAGACAAGCATAGCTTTTGCTAACGTCATCTTCACCAGCATACCAGTAAA +TATCGTACTCTTCCGCCAATGGCTGTTTATTTAGTTGAACCTGTAAATTGTATTTTCCGGGCTCAACATA +CCCCTGGCTGGAAAAACGCTTCAGATCAATTTTTGTGTCGCCTTTTAATTCCAGAAAACGGGAATCAAAC +TGAATGTCGTCTTCAGCCCAGACACTGCTATAACTCCCTGACATTGCCAGCGCAATGCACCACGGAAGAA +TCCGTAATCGAAAAAGAGAATGGTCAGGCATACACGTTTTTATCCGTTTTTATTCTTGTTCGGTCAAAAT +CCATTTAAATACCCCATAGCAGTGTCGCTATGGGGGTATGCCTTACAGGTAAGTAATCTGGAAGGTGGTA +TTTGCTTCGAAATTACCCAGATCTGGCGCATCAGCTGCGCCGACCAGCCAGGCTTTAAAGTTCAGAGTCT +GCTTCGCTTTGCCTTTATTAGTGGCAGTATCTTTCACGATTTTCTGGTCAATACCCATGCCGCTTTTGTA +AGAGGTACCCAGAGAGTCACCGATCGCCAGGCTAACATTGTTAAATGCCGCACCGGTATCGGTATTGAAA +ATGGTGTAATAATTGCCGCTATTTGCAGAAGAAACGGTACCAGTAAAGGTAGTGGTCATTGTTTCCTGAG +TATCAAATACGCAATCTTGCAGGCGAATCTGGAAATTTTTCGGCGTGGTGGTGCCGTTATTTTTCAGTTT +TTCGGCACCGATATCACCCATATCAACTTCCAGTTTGTGATCGTCCGGAACGATAGAACACACTGAGTCT +TCAATGGTGCCGTAAAAACGTGCAGTACCGTTGTTACCCGCAGCGATTGTTGCCGTAGAGGTGAACGCGC +CCATCACCATTGCCGCAGCAATAGCTGTTTTAACAAACTTACTCATTATTTGTCCTTAAACTATAAATAA +TTAAAATATAAACATTGCAATACATTGATTCAGTCAATAGCCAATGTTTATACCCAGCCATTGAATACGG +CATGCGATCCAAAAAAACAGGTCGTAAAAAATGTATTCGTTGGTGTGGGGTCGAATAGTGATGTTTTCAC +TCCCCTGATTCAATTTAATTTTACTAATGAGTAAATGTAGATTTAATTAATATATTGATAGGGGAAAGAT +TATCTTAAGGATCTTCTAAAAAAACACGAAATATATATTTAGAAAAAACAGGAAGCATATCAACAATGAA +TGCCAATAGCTTAAAAAACAAACAATGAACATATAATGCGATTGGCATTAACCCGCTTTTGTCGATATAA +TATATAAACACTATAGCCAGAATTTAATCAAGTTTCAATTACGTCCTGCCTGATTATTCAACTCTATTTT +CTCCATTATCTGTATTAATAAATGATAATGAGTGTCAAACAGACATTATTCATTTCAACATGTAACTTTG +GGCAAAATCAAGATACGCGCAGAAGAATACTTTCCGAATGAAAGTTAAAGGTGTTTTATTTATAGATGGG +GAGAGTCTTCGATAGTAGTGAGGTTGACAGATATCCGCTGCCTGATGAGCAATTATGCCCAATGAATCTA +CCTCATTGGGCATAATTTGGAACTCATCAGATAGCTTTTGCCATCTTCAGATTACACGGGCTCATCTGCC +AGTTGAATGTGCCGTTTCCGCTTTCATCAAGCGTTACGCTGGCAATGGCCGAGGTGGTAAACATAGGCGG +CGTTTCGCCCGGACATAACTCGGCAACCAGATACCCGACTAACGGTAAGTGAGAGATCACCAGTACCGAA +GCAACACCTTCATTGGTCAACGCCTGCAAATAGGCACTGACCAGACCAACATCGCCGCAGGGCGTTAACT +CCGGCAGAACTTCTGCACTGGAAGGCAGGTTCAGACAATCCCCTACTTCTTCCAGTGTTTGCTCGGCTCG +CAGGAACGGGCTCACCAGAACGCGTTCGATTTCCACTTTTTGACCTTTCAGCCAGTTCGCCATCAGGCGA +GATTCGTCACAACCATTAGTGGTCAGAGGACGAACGGAATCACTGGCGGCATCGAGGGCTGCGTCGCCGT +GACGCATGATAAAAACTTGCATATTGCACCGCTTTTGTTAACCAGATTCGCCCGTTTTCTTTCATCTGAA +ACCAGAGAAAGAAAACGGTGGCCGGCATTGTGCCTTATCCATTCACCGAATGAAACGCTGTTTTTTACCT +CAATGGCGTAAGTATAGTCAATATGCGTTTACATTTTGACCAACACTCCGCCATTCAGCGCGGATTCATA +TAGCTTTGACCTTCTTATTGCAGGTCAGTTGCAGTTGTTTTCCAAAAACTTTCCCCACGCGCGCCCATCT +CGACCAAACGCTCGCAAGGGGTAAAACGGGAACCATACTGCGTGGCAAGTCGTTGCATTATTGCAACCAC +TTCGCCCGCGCCGAGAGAATCGATATAGCGGAACGGTCCACCGAGAAATGGCGGAAAACCAATGCCAAAT +ACCGCGCCAATATCCCCGTCACGCACGCTACGGATAACCTGCTCATCAACACAACGTACTGCTTCATTCA +GCATCAACATCACACACCGTTCAGCAACCTGCGGTGCGGAGATTCGCCCCTGCCCTTGTGTGCCAATCAG +CGGGTAAATGGCGGGATCGACCTGTTTTTTGCTTTTACGCCCTTTCTGACCATAAAGATAGAAACCCCGG +CCATTTTTTCTGCCTTTGCGATCGTCGTTCAAAATTGAAGAAACAACATTTGCAGGCGCGCTAAAACGTT +CTCCATAAGCGGCTTCCAGTACAGGAATAATTTTAGTCCCGGTGTCGATTCCTACCTCATCCAAAAGTTG +GATTGGGCCTACCGGAAAACCAAATTTCACTAGCGCGGCATCAATGTGCTCTACCCGTTCACCTTGGGTC +AACATGCGGATAGCTTCATTAATGTAAGGCGCTAAGATGCGATTGACGTAAAAACCGGCTTTGTCACGCA +CGACAATTGGCGTTTTACCCTGTTTTTTCGCCAGTTTTACTGTGGTAGCGATGGTTTGCGCCGATGTCCC +CGCATGAGGAATAATCTCCACCAGCGGCATTTTTTCCACCGGACTGAAGAAATGCAGGCCGATAACTTGC +TCAGGTCGCGTGGCGTGAGCGGCGATATCACCAATCGGTAAAGATGACGTATTCGAAGCAAAGATGGTAT +GAGCGGCGCAATTTTGCTCAACTTCCGCCACCATCTGTTGTTTCAATTCGAGATTTTCAAACACCGCTTC +AATAATCAGATCGCGATGGGCAAAGCCGCGATAGTCCGTCGTTCCGGAGATTAATGCCAGCTGTTTGTCA +CGTTCGCTGGCTTTGAGATGACGACGGCGAACTTTGCCCTCCAGCTGATCCCAACTGTACTTCAGCGCAT +GATTTATGCCCTGCGGGTTGATATCTTTAATTCTGACCGGAATCCCCGCTTTACAAGCAGTGACATAAGC +AATACCGCCGCCCATCAAGCCACCACCTAAAATCCCCACGCTGTTTAATGGCGCAGGCGGCGCATCACTG +CCGGGATCTTTCTTCACGTCCGTACTGGCAAAAAAGATACTACGCAGCGCCTGCGATTGTGGCGTCATCG +CCAGTTCGCCAAACGCCCGAGCTTCGGCGTCATAACCGCTGCTGGTGCCCTGCGCTAATCCCGTTTCAAC +AACCTCCAGGATGCGTTCTGTCGCCGGATAATTGCCTTGAGTTTTGTGTTCTGTTTTCTTGCCGACCATT +TTGAACAGCAGCGCACGACCTAACGGCCCCGCCAGAATACGCTCGCGTACAGGTAGAGGGCGGGAAGATG +GGCGCTCCTTCTTTGCCAGCTCAACAGCGGCTTCCAGCAGAATGGAGTGCGGAACAACGTCATCCACCAG +CCCCAGCTTTAATGCCTGTTTCGCCCGAAGTTGTTTTCCGGTGAGGATCATCTCTAATGCTGTGCTGACG +CCTATCAGACGCGGTAAACGCTGGGTGCCGCCTGAACCGGGTAACAATCCAAGTTGTACTTCAGGCAAAC +CGAGCACCGTTTTAGGATCGTCAGTACAAACGCGACCGTGGCACGCCAGCGCCAACTCCAGCCCACCACC +CAGGCAAGCGCCATGAATAGCCGCGATAACCTGAATGGGCAAAGCATGAATCTCCGCCATCAACTGTTGG +CCCTGCCGCGCCAGAGCTTCCGCTTCTTGCGCCGTTTTGCAGTTGCCGATCATGTTGATGTCTGCGCCAG +CAATGAAGTTGTCCGGTTTAGCGGAGACAAACACCACGCCTCGCAACTCTTTGTTTTCACGGAGTTGCTT +AATAATGGCGCGCACCTGCGAGGCAAACTCCGCCTTCAGGGTATTCATTTTCTCACCCGGTACGTCGATG +GTGATAACGGCAATGTTGTCCAGACGAACATTAAGGGTAAACGCTGATGTCATTTCCATTATTCCGCCTC +CAGAACCATTGCCGCGCCAAGCCCACCGGCAGCACAGGCGGTAACTAAACCAAATCCACCGCCGCGACGG +CGAAGTTCATGCAATGTCTGGGTAATCATCCGCGCGCCGGTCGCCGCGAAGGGATGCCCGTAAGCAATCG +AACCGCCAAGCACGTTAAATTTGCTATCGTCCACTTCGCCAGTGGCATGTGCACGCCCCAGTGCTTCACG +AGCAAAACGTTCACTACCCAGCAACTGAATATTCGCCAGCGTCTGAGCTGCAAAGGCTTCGTGCATATCG +ATCAATGTCAGATCGCTCATCGTCAAACCGGCACGCTCCAGCGCCAGCGGTGTTGACCAGGCTGGACCGA +GCAACATGTCCTGCCAGACATCAATCGCAGTAAATGCGTAGCTGCGCAGATACCCCAGCGGCACCAGCCC +TAATTCTTTCGCCCGGGATTCAGTCATCAGGATCACCGCTGCCGCGCCATCGGTCAGCGGCGTACTGTTT +GCCGCCGTTACCGTTCCGTGTTTGCGATCAAACGCCGGGCGCAGCTTTGCGTAATCGGCAAGCGAGGAAT +TACCGCGAATATTGTTGTCTTCGACAAGCGGTTGTTTATAAGGAGGGATAAAGGCAGTCATCACCTCTTC +TTTGAGTTTTCCGTCTGACCATGCCTGAGCGGCACGCTGATGCGAACGGTGCGCTAATGCATCTTGCTGT +TCTCGGGTGATGCCGTAGGTTTTCGCCATTTGCTCTGCGGTGTCGCCCATCCGCAAGCCGGTAGAATATT +CTGCTACCGCAGGTGGTACGGGCATTAAGTCGCGCAAACGCAGGCGAGAGAAGAGTTTCAGTCGCTGGCT +CATGGTACGAGCTTTGTTGACATCAACCAGCACGCGCGCCAGTTTTTTACTGACGCCAATTGGCAATACC +GAAGAGGAATCTGCCCCACCGGCAATCCCCGCTCGAATAGTTCCCGCCATCAGGCTTTCTGCGACGTTTG +CAACTGCCTGGAAACTGGTAGCGCAAGCGCGGCTGACGCTGTAAGCATCGGTATGTACATTCATTCCCGT +ACCGAGAACAATTTCACGCGCAATGTTGGGGGCTTCAGGCATTTGTACGACCTGACCAAAGACCAGTTGT +TCAATCACTTCGGCGGGGATCTCGCTGCGTGCCAGCAGTTCGCCTACCACCATCTTCCCTAAATCAACCG +CGGGAATGCCATGAAAAGCCGTCGCCTGACGGGCAAAAGGCGTACGTAAACCGCTAACAATGGCGATACG +ATCGCCCTGGCGGGTAACCAGCGGTAAAACCTGACCCATAACACTCCCCTGTAAAAAAATAAATAAAGTG +GTCTGACCTGATCATAGTCTTAACCATTTTTTTACATTTAGCCAAGTGGAGAAAAGGGAAAGTGGGAGCT +ATGACACAGAGAGAAAAGAAGAAGAGAAAAGAAAACGCCCCTGCCAGCAACTGACAGGGGCGTACGTACC +CGAGAGGAATTAACGCAGACCCAGCTGGAAAATCAGCATTTCAGCTTCGCAGGCAAAAGTGAAATCGATA +TCCAGGCGCACACCGTCAGACTCTTCAGTGAAAGTCGGGGTGATTTTGCAAGGTTCAGATTCCACGCTAC +GGGCTTTTTCAGTCAGCGCCGCCAGCGTTTGCTCTGCTTCTGCGCGGTTTGCAAACACGCGGCTGTAAGA +CGCGGTGCAGTCGGAGTTGTCCATAATGGTGCCAACATCCATACAGCAGCAAACCGGGGTTTCATCAGCA +CTACATTTACTCATCGTTGATTTCCTCTGTATGTGCACCCAAGGTGCCAGATAAACGTTGTGGATATTTT +ACGCTTCCGGAAAGTGCTGCTCCAGTTGTTAATTCTGCAAAATCGGATAAGTGACCGAAATCACACTTAA +AAATGATCTAAAACAAAATTCACCCGAATCCATGAGTGCGCCACCTCCAAATTTTGCCAGCTGGATCGCG +TTTCTTAGATCATATTTGAAAAAAGATAGAAACATACTTGCAACATTCCAGCTGGTCCGACCTATACTCT +CGCCACTGGTCTGATTTCTAAGATGTACCTCAGACCCTACACTTCGCGCTCCTGTTACAGCACGTAACAT +AGTTTGTATAAAAATAAATCATTGAGGTTATGGTCATGAGCCAGAAAACCCTGTTTACAAAGTCTGCTCT +CGCAGTCGCAGTGGCACTTATCTCCACCCAGGCCTGGTCGGCAGGCTTTCAGTTAAACGAATTTTCTTCC +TCTGGCCTGGGCCGGGCTTATTCAGGGGAAGGCGCAATTGCCGATGATGCAGGTAACGTCAGCCGTAACC +CCGCATTGATTACTATGTTTGACCGCCCGACATTTTCTGCGGGTGCGGTTTATATTGACCCGGATGTAAA +TATCAGCGGAACGTCTCCATCTGGTCGTAGCCTGAAAGCCGATAACATCGCGCCTACGGCATGGGTTCCG +AACATGCACTTTGTTGCACCGATTAACGACCAATTTGGTTGGGGCGCTTCTATTACCTCTAACTATGGTC +TGGCTACAGAGTTTAACGATACTTATGCAGGCGGCTCTGTCGGGGGTACAACCGACCTTGAAACCATGAA +CCTGAACTTAAGCGGTGCGTATCGCTTAAATAATGCATGGAGCTTTGGTCTTGGTTTCAACGCCGTCTAC +GCTCGCGCGAAAATTGAACGTTTCGCAGGCGATCTGGGGCAGTTGGTTGCTGGCCAAATTATGCAATCTC +CTGCTGGCCAAACTCAGCAAGGGCAAGCATTGGCAGCTACCGCCAACGGTATTGACAGTAATACCAAAAT +CGCTCATCTGAACGGTAACCAGTGGGGCTTTGGCTGGAACGCCGGAATCCTGTATGAACTGGATAAAAAT +AACCGCTATGCACTGACCTACCGTTCTGAAGTGAAAATTGACTTCAAAGGTAACTACAGCAGCGATCTTA +ATCGTGCGTTTAATAACTACGGTTTGCCAATTCCTACCGCGACAGGTGGCGCAACGCAATCGGGTTATCT +GACGCTGAACCTGCCTGAAATGTGGGAAGTGTCAGGTTATAACCGTGTTGATCCACAGTGGGCGATTCAC +TATAGCCTGGCTTACACCAGCTGGAGTCAGTTCCAGCAGCTGAAAGCGACCTCAACCAGTGGCGACACGC +TGTTCCAGAAACATGAAGGCTTTAAAGATGCTTACCGCATCGCGTTGGGTACCACTTATTACTACGATGA +TAACTGGACCTTCCGTACCGGTATCGCCTTTGATGACAGCCCAGTTCCTGCACAGAATCGTTCTATCTCC +ATTCCGGACCAGGACCGTTTCTGGCTGAGTGCAGGTACGACTTACGCATTTAATAAAGATGCTTCAGTCG +ACGTTGGTGTTTCTTATATGCACGGTCAGAGCGTGAAAATTAACGAAGGCCCATACCAGTTCGAGTCTGA +AGGTAAAGCCTGGCTGTTCGGTACTAACTTTAACTACGCGTTCTGATAACGCGTTCGCCTGGATAAAGTC +ACCTGCATAGCAGGTGACTTTAACTCCCCCACTTCACCGAAAGTAGTGTCCTCATTGCTTACCTCCTGAG +TTTTGCAAACAGCCTGTTGGCAGCTTGCCCTTTCAAATCAATAAGCGGTATCCACAGACAAACCTGAAGG +GAAAGGCATATTTTCAGGCGTTCTGCTCGTCCTTCTCAAAGAGTTTACTTTTCTGCATTTCCAGGATACT +CCCCCCCCCTGGCTATTGTGCGCTCATACACTCAAATTAAAGATAGGTTCTAAATAAATGAGCGTTTTTT +GATAGTCTATTTCATTAGGTAATATATATTTGTAACAAATCAATCAAAATGGAATAAAATCATGCTACCA +TCTATTTCAATCAACAATACCAGCGCAGCTTACCCAGAATCCATCAATGAAAATAACAATGATGAAGTTA +ATGGATTAGTACAAGAGTTCAAAAACCTTTTTAATGGTAAGGAAGGAATAAGCACCTGTATTAAACATCT +ACTTGAGCTTATAAAAAACGCCATACGAGTAAACGACGATCCTTATAGATTTAATATTAATAATTCCTCA +GTTACTTATATTGATATTGACTCCAATGATACAGACCATATTACTATTGGTATCGACAACCAAGAACCAA +TAGAATTACCTGCGAACTATAAAGACAAAGAACTCGTCCGTACTATCATTAATGACAACATAGTTGAGAA +GACTCATGATATCAATAACAAGGAAATGATCTTCAGCGCATTAAAAGAAATATATGATGGAGATCCTGGT +TTTATCTTCGATAAGATATCACACAAACTCAGACATACGGTAACGGAATTTGATGAGAGCGGGAAAAGCG +AACCAACGGACTTATTTACCTGGTACGGTAAAGATAAAAAAGGCGACTCTCTCGCTATTGTAATTAAAAA +TAAAAACGGAAATGATTACTTATCTCTCGGTTACTACGATCAGGACGACTACCACATTCAAAGAGGAATT +CGTATTAATGGTGATAGTCTCACCCAATATTGTAGTGAAAACGCCAGGAGTGCTTCAGCGTGGTTTGAAA +GCAGTAAAGCTATCATGGCAGAATCATTTGCAACTGGTTCCGATCATCAGGTTGTAAACGAGCTCAACGG +GGAAAGACTGAGAGAACCAAACGACGTTTTTAAACGTTATGGTCGAGCAATAAGATATGATTTTCAAGTG +GACGATGCAAAATATAAATGCGACCATCTAAAAGAAATAGTTTCTACTTTAGTCGGTAACAAAATTAACG +TTGGCCATTCTCAAAAAATATATAAGCATTTTAAGGATCTCGAAGGTAAAATTGAAGAAAGGCTTCAAAA +TCGCCAGGCTGAATATCAAAATGAAATTAATCAACCATCTGCGCCAGGTGTTAATTTTGATGATATTTAA +AATTATTTTTCCAGTTTTTTGATTTTTCAACAGCTGAATATCGGAAATAGTCAGTGACGAACATCAGTAT +TTTTACATAATTACGTCTAGGTCATTGTCGGTTTATCTCCTTTTACTTGTGGTAATTGAGGGATAACAAC +AAAAAAGGTGAGTTTTGCGACTCACCTTTTTTATTTGTTTCTTATTCAGAATCAATATCTTTTAAATCAT +CCTGAATCGCTTGTGCGTTCGGATTTTCCTGCGGTTTGAGTTCGCCGCCATTAGCGATGAAATCATGACG +CTGGAAGTACGCTTCGCGCACCATAATATAAGGATCGGACGACTGACGCAGCAGACCATCGGAATCCAGC +AGCTGAGCGCGGGTTTCGATCCCTTCAAGCGTCCATTTACCCACAGACATCGGCCAGGTCAGCCAGGAAA +GAACCGGGTAAAAACCATCCGCCATATCACCACCGTCATCACGCAGCGTGAAGCTACCGTAGAACGGTAA +CTGAACGTAAGGCCCATAACCCACGCCATAATGACCAAGCGTACTACCGAAGCGGTGAGGTTCAGTCCGT +TGCAGTTTCGGGTTCGCCATCCCTGCAACATCAATAAAACCGCCCATCCCCAAAATGGTGTTCAGGAAAA +AGCGGGTAAAGTGGACCATCCCCTGATAAGGGTCGCCCTGCAAGAAGTAGTTAACCATCACCGCAGGTTC +TTCAAGGTTGCCAGTAAAGTTGCTCAAACCGTTACGCGCCGGTTGCGGAACATAATCACGCCAGGCGACA +GCGACCGGTCGAACAATATACGGGTCTAATACATTGAAGTTGAAGTTGTACATGGTGCGGTTGAACCCTT +CTAACGGGTCAGAACGCCCTTGCTGATCTGTACCGGAACTCGCACACCCCACCAGAAGCGTAGTTCCCAG +AGCAAGCGCCGACAGGCGAAGCTTCATAAATGTCTCCCTGTTTTTTTATGGCTTATGCAGTTTGCCATCC +ATGACGGAACGATACCGTATCCGCCTGTTTAGGTGTGGGCGATTGTAACAGCACGTCAACTGATGTCCAG +ACGCCCTGATTTGCTGATTTGATCATAGCCTGGTAATCGCCGCCCTGTAGGCTACTTGATTCTATAGAAA +CAGAAAAAGGCAAACGCAGCCTTTTCTACATTTTCAGAGTAACTCCCGTCAGTTGCGAGCAAAAAAGCCG +CTACGCTTTAGCTATACGTGCTAATTCAAGAGAAGAGACCATGGACAACGACAAAATTGATCAACACAGC +GACGAAATTGAAGTTGAGAGCGAAGAAAAAGAGCGCGGCAAAAAAATAGAAATAGATGAAGACCGACTCC +CCTCCCGGGCGATGGCAATTCATGAGCATATCCGCCAGGATGGTGAAAAAGAGCTGGAACGCGACGCAAT +GGCGCTACTGTGGTCAGCCATTGCGGCGGGTCTGTCGATGGGCGCTTCGTTACTGGCAAAAGGGATATTT +CAAGTCGAACTGGAAGGTGTGCCGGGCAGCTTCTTGCTGGAGAATCTCGGTTATACCTTTGGTTTTATTA +TCGTCATTATGGCCCGCCAGCAATTATTTACCGAAAATACCGTGACTGCGGTACTACCCGTCATGCAAAA +ACCGACAATGAGCAACGTCGGCTTACTTATACGGTTATGGGGCGTCGTGCTGCTGGGTAATATTCTCGGG +ACAGGTATTGCGGCGTGGGCATTTGAATATATGCCTATCTTCAATGAAGAAACTCGCGATGCATTTGTCA +AAATCGGCATGGATGTGATGAAGAACACCCCCAGCGAGATGTTTGCCAACGCGATCATTTCCGGCTGGCT +GATCGCCACTATGGTTTGGATGTTTCCTGCAGCGGGTGCGGCAAAGATTGTGGTGATTATATTGATGACC +TGGCTTATTGCCCTGGGTGACACCACCCATATCGTGGTCGGTTCTGTTGAAATCCTCTATCTGGTGTTTA +ACGGTACGCTGCACTGGAGCGATTTCATCTGGCCCTTCGCACTACCTACTTTAGCGGGGAACATCTGCGG +CGGCACCTTTATCTTCGCGTTAATGAGTCATGCACAGATTCGTAACGACATGAGCAATAAGCGTAAAGCA +GAAGCACGCCAAAAAGCAGAACGTGCGGAAAACATTAAGAAAAATTATAAAAACCCGGCATAAATGGCGA +GGGTTTAAGCAATCGAGCGGCAGCGTACTTACCCCGCACTCCATTAGCGGGTATACTCATGCCGCATTGT +CCTCTTAGTTAAATGGATATAACGAGCCCCTCCTAAGGGCTAATTGCAGGTTCGATTCCTGCAGGGGACA +CCATTTATCAGTTCGCTCCCATCCGTACCAGTCCGCAAAATCCCCTGAATATCAAGCATTCCGTAGATTT +ACAGTTCGTCATGGTTCGCTTCAGATCGTTGACAGCCGCACTCCATGACGGGTAAAAAGTGGATAAAATA +ATTTTACCCACCGGATTTTTACCCATGCTCACCGTTAAGCAGATTGAAGCAGCAAAGCCGAAAGAAAAAC +CATACCGCCTTCTCGATGGTAATGGCCTGTACCTTTATGTCCCTGTGTCAGGGAAAAAGGTATGGCAGCT +TCGCTACAAGATTGACGGTAAGGAGAAAATCCTGACCGTCGGAAAATATCCGCTTATGACTTTGCAGGAG +GCAAGGGATAAAGCATGGACTGCGAGGAAAGACATCTCGGTTGGCATCGATCCTGTAAAGGCGAAAAAGG +CTTCGTCTAACAACAATTCCTTTAGTGCGATTTACAAGGAATGGTACGAGCACAAGAAGCAAGTATGGTC +AGTAGGGTATGCAACTGAACTTGCCAAAATGTTTGACGACGACATTTTACCTATCATTGGCGGCCTTGAA +ATTCAGGATATTGAGCCGATGCAACTGCTGGAAGTAATCCGCAGGTTTGAAGATCGCGGTGCAATGGAAC +GAGCCAACAAAGCACGCAGAAGATGCGGCGAGGTTTTCCGTTACGCTATTGTCACCGGAAGGGCTAAATA +TAACCCGGCACCTGACCTTGCTGACGCCATGAAGGGATACCGCAAGAAGAACTTCCCGTTTCTTCCTGCA +GACCAGATCCCGGCATTCAACAAAGCACTGGCAACATTTTCAGGAAGTATCGTATCGCTCATTGCGACCA +AAGTTTTACGCTACACAGCCCTAAGAACGAAAGAGCTTCGTTCCATGCTATGGAAGAACGTCGATTTTGA +AAATAGGATTATCACCATCGACGCCAGTGTGATGAAAGGACGCAAAATTCATGTGGTTCCTATGTCAGAC +CAGGTAGTTGAACTTCTCACTACGCTAAGCTCCATCACCAAACCAGTCTCAGAGTTTGTTTTTGCCGGGC +GCAACGATAAGAAGAAGCCAATCTGCGAGAACGCGGTACTGCTTGTGATCAAACAAATCGGCTATGAGGG +TCTGGAAAGCGGTCACGGATTCAGGCATGAATTCAGCACGATTATGAACGAGCACGAATGGCCTGCTGAC +GCTATTGAAGTGCAACTGGCACATGCAAACGGCGGATCTGTGCGTGGGATTTACAACCATGCTCAGTATC +TCGATAAACGCAGAGAAATGATGCAATGGTGGGCGGACTGGCTTGATGAGAAGGTGGAGTGAGCGACCTT +AACAACTATCGAATAGCACAAAGTCTTGCAATCCAGTGCAAAGCTTTGTGTGTATAAGTTTTGTCTCATC +AACCACAGCAAGTATCGATCGATTAAGACTTGGATGATAGACTTCATTCCTTTGATTATTAGCTGATAGA +AGAAATGTTAAAGCTATTTGCAAAGTACACCTCTATTGGTGTGCTGAACACCCTTATACACTGGGTGGTT +TTTGGTGTTTGTATCTATGTCGCGCATACAAACCAAGCTCTTGCAAACTTCGCAGGTTTCGTTGTGGCTG +TGAGCTTTAGCTTCTTCGCGAATGCAAAATTCACATTCAAGGCATCGACTACAACGATGCGCTACATGCT +ATATGTTGGGTTCATGGGGACACTGAGTGCTACTGTTGGATGGGCTGCTGATAGATGCGCACTTCCCCCG +ATGATAACTCTTGTCACCTTCTCCGCCATCAGCCTGGTGTGCGGTTTCGTCTATTCAAAGTTCATTGTCT +TTAGGGATGCGAAATGAAGATATCTCTTGTAGTTCCTGTCTTCAATGAAGAAGAAGCGATACCAATTTTT +TATAAAACGGTACGTGAATTCGAAGAATTGAAGTCATATGAAGTGGAAATCGTTTTCATAAATGACGGCA +GCAAAGACGCTACGGAGTCAATCATTAATGCTCTGGCTGTTTCAGATCCTCTAGTTGTTCCGCTGTCATT +TACACGCAACTTTGGTAAAGAACCAGCATTGTTTGCAGGGTTAGACCATGCAACCGGGGATGCGATAATC +CCAATTGATGTTGACCTGCAAGACCCGATTGAGGTTATTCCTCATCTTATTGAAAAATGGCAAGCAGGTG +CTGATATGGTTCTTGCTAAAAGATCTGACCGCTCAACTGATGGACGCCTGAAGCGAAAAACGGCTGAGTG +GTTCTATAAGCTCCACAATAAAATAAGCAATCCTAAAATTGAAGAGAATGTTGGTGATTTCAGGCTGATG +AGCCGTGATGTTGTCGAAAATATTAAACTTATGCCAGAACGAAACCTTTTCATGAAAGGTATTCTGAGCT +GGGTAGGAGGAAAGACAGATATTGTTGAATACGTGCGAGCGGAAAGAATTGCTGGAGATACAAAATTTAA +TGGATGGAAACTTTGGAATTTAGCACTTGAGGGTATTACAAGCTTTTCCACATTCCCTCTTCGCATCTGG +ACATACATAGGGTTAGTGGTAGCCAGTGTAGCATTTATTTATGGGGCGTGGATGATTTTAGATACTATCA +TATTTGGAAATGCTGTTAGGGGATATCCTTCACTACTTGTTTCAATACTGTTTTTAGGTGGAATTCAGAT +GATTGGAATAGGAGTATTAGGTGAATATATTGGACGCACATACATTGAAACCAAAAAACGCCCGAAATAC +ATCATCAAGAGAGTCAAAAAATGAATAAAGCAATAAAAGTATCATTGTATATATCTTTTGTTTTGATTAT +TTGCGCCTTATCTAAAAACATAATGATGTTAAATACATCTGATTTCGGAAGAGCCATTAAGCCATTAATT +GAAGACATACCAGCATTTACATATGACTTACCTTTATTGTATAAATTGAAAGGTCATATTGATTCAATTG +ATAGCTATGAGTATATAAGTTCATATAGTTATATTTTGTATACATACGTCCTGTTTATTAGCATTTTTAC +TGAATATCTTGATGCTAGGGTGTTATCGTTATTTCTAAAAGTAATATATATTTATTCATTATATGCGATA +TTTACTTCATATATAAAAACAGAAAGGTATGTAACTTTATTTACATTCTTTATTTTAGCTTTTCTTATGT +GTTCTTCATCAACACTGTCAATGTTTGCATCATTCTATCAAGAGCAAATAGTTATAATTTTCCTTCCATT +TTTGGTGTATTCATTAACATGCAAAAACAATAAATCTATGCTTTTGCTATTTTTTTCGTTGCTAATAATA +TCTACTGCTAAAAATCAATTTATATTAACCCCACTAATAGTGTATTCATATTATATTTTTTTTGATAGAC +ACAAACTAATTATTAAATCTGTAATATGCGTGGTGTGCTTGCTTGCGTCAATATTTGCAATATCTTATTC +AAAAGGTGTTGTTGAATTAAATAAGTACCATGCAACATACTTCGGTAGTTATCTTTATATGAAAAACAAC +GGGTATAAAATGCCATCGTATGTTGATGATAAGTGTGTTGGGTTAGATGCCTGGGGTAATAAATTCGACA +TATCATTTGGCGCAACCCCAACAGAAGTTGGAACGGAATGTTTCGAATCTCATAAAGATGAAACGTTTTC +GAATGCACTCTTTTTATTGGTTAGCAAACCAAGCACCATCTTCAAACTTCCATTTGATGATGGTGTGATG +TCTCAGTATAAAGAAAATTATTTCCATGTATATAAAAAACTACACGTAATATATGGAGAATCAAACATAC +TAACGACTATTACTAACATAAAAGACAATATATTTAAAAACATTAGATTTATATCATTGTTATTATTTTT +TATTGCTTCTATTTTTATTAGAAATAATAAAATAAAGGCATCTTTATTTGTAGTATCTCTTTTTGGAATA +TCTCAATTTTATGTGTCATTTTTCGGGGAAGGATATAGAGATTTAAGCAAGCATTTATTTGGAATGTATT +TTTCGTTCGACCTTTGCTTATACATAACAGTCGTTTTTTTAATTTATAAAATAATTCAAAGAAATCAAGA +CAATAGCGATGTAAAGCACTAAGTTTAAATTGCGCGCCAATCATGGCGCGCACAAGCTATAATACCAACC +TAATTTCTCCTCCTCTTAGAGTGACTATATCTCCTGATAGAATTGCGGTATTGACTATCAAATGCCCTGA +TTCGTTGTTTATTGTAATATCTCCTCTATCTGCAGACGATAACTTAAATGCATCATTGCCCACAACAAAC +CCCCTCCAGAACCAAGTGCTGATATTATCATCAACAGTGATAGATACATATACTAACTGATTATCGTTAT +AAGTGATTCCTGTCTTATACTTAACATAAGGACTTCCACTTTGATTCTCGATAGACACATAACATCCAGG +GGTTATGTTTGTATGCGTCCCGCGACTATCGCCCCATTAACGCCATACGATAAATGGGATGGTGAGAAAT +GGGTGACGGATACCGAGGCACAGCATAGCGTCGCAGTAGATGCAGCAGAAGCACAGCGCCAGTCGCTGAT +TGATACTGCAATGGCTTCCATTAGTCTGATTCAACTGAAATTACAGGCTGGGCGGAAGCTGATGCAGGCA +GAGACCTCCCGACTTAACACTGTGCTGGATTACATTGACGCGGTGACGGCAACAGATACCAGCACCGCGC +CGGATGTCATCTGGCCTGAACTGCCGGAGGAGTAGGCCATTCAATATCTGGCGCACTGGAAGTATCGACC +AGCTCCAGTGCGTCCAGATAATCCAGCCACAAATTATATTGCGCCAGTTCCTCACCTTTCAGACGACCAA +TAGCCGCTTTACCAGCCCATTGTTTACTGTTCATATAATCGTTGGCCTGATTAATCAATTGCTGCTTTTT +CAGTTCGGCTGCAGCAATCTGTTCCTCATGTGTTGGTGGTGGAATTTCAGACCATGCAGGAAAACCATTT +TCTCCAGCGATACGGATTTTTCCTTTCGGCGGTAATCCGGAAAACTCAATATACACTTGCTCATCAACTT +CAACAGCATCATCTGGCCATGAGCCAGCTTGCGTGTAATCCTCTTTCATCTCCAAGGGATAGAAAGAGTT +TGTAGTCGCGGAATATATGTAATTCATTTTTCACTCCATAAAGTTAAAAGAAATTAACACCCTAATGCGA +AAAATGAAGCACCGATACCGGGTACGCCTGCTCTGGAAATAAATTTCACCGGGTCCTGGTTATAACCGGC +ACAAGCTATATAGCCAACATTTGCACTGCCGGGAGTGTAATCCTGAGTCGCAAATACCCGCAGACATCTA +TTCGGAAATGCAATCGGAAAATAGGTTACTGTGTCCTGAGACGTCAGCGGAACATCAATTGGCCCCCATT +GAATAATTAAACCGGATGGCAATTTTTGATATCCAGGAACTGAAGCAGAAAGCATAAAACTACCCATATC +AGGTATCTGATTCGCCCCTGTCCCTACATTTCTTTTAGCCGCTTCTCCCAAACCAAGGTTTTCGAGAGCC +TTTTGCACCGTGCCGTCCAATTTGATATCGCCAAACGGATTCTTGCGGCTTAACAGCAGCGCACGAAGCG +CGGTAAGCAGCTGGTCATGCCGCCCCTTCTCCAGGCTGGCACCGGAGGCCTCCACAACGCTGCAAAGCTC +CTCCTGCAACATGTCAAAGTAGTCATCATCCAGATCGGTGGCAGGCGTGCCGGTCTGGGGGTTACCACGG +GTACGGGGGATTACCAAAGGCAGCACCTTTAAGCTCCGCAAGACGTTCTGACCAGTCATGCGCCAGCGCG +TTGTCTTCCGCAGTGTAATACGCGGCACATTTGGCGTTATCACCATCAGTAAACAGATCCAGAACAAACG +GGCCAAACAGGGTGTTAATTCCCCAGAAAATGTTGTCCGGCGTGCGCCACTGATCGCCCACTTCCTTCAG +TTCATGGGCTGGTTTGTTCCGCAGCTCCACCAGCGCCTGGCAATATTTATTACTCATTAAGCCCCCACGT +AATTCCCTGAGAGATACCACTCTTCACCTGATGCAGCCCGCTTACTGCTTTTCCGTAAACACCGTTCACG +ACGCGCCAGAAAATTGTTTCGTTCTGGCTGGGAGTGGCTTTCACGGAATGCCGCCATCCACACCGTTGCA +GCACGACGGTATAAGCCCCTGGACTCCAGTTCTTCCGCCTGGCGGGTCAGGCACAAAATCACCCGCGGGT +CGTTAGTGCCGACATAGAAATTGCGCACAGGTCTGGTTTCACGAACTGGTTGTGGTTCCGGATCCTGCGC +TCTCTCAGTCAGGCGCGGGAAATGTCTGTGTGTATCTCCTTCACAACGGTGAGCCACACGCCCACTCTGA +CGTAACTTGCTTGCTGACTGCAGAACGCGCTGCCGTGAGTAACCTGCAAAAGCATCCGCAATGTCTCCGG +AAGTACAGCCCGGATGGGCTTCAATGAATTTCTGAACGTCATTCAAAAGACTCATGCTCACCCCCTGAAT +CCTGCCGGGATCTGGCTGTAGTCCACATTGTCGTAACTGGCTTTGAAGTACGGGTCTTCGCGTTTTTCTG +TGTACGTGCTGACGGACGGCGATAAGCGCAGGGAAAGCTCATCCCATTTTTCCCGCAGCTTCGACGGGCT +GAGCACGTTACGGCACCAGAACGGATCGCGGCTGACGCGGCTGTACATCTCGCAGATTTGTTTGTGAGTA +CGACCATCCTGCACACACATCAGGCGAATTTCGTTTGCCCAGGCTGTCCAGTTCGGTTCTTTGGGACGAA +CCACCTCGCCGTCACATTCGGCGGCCTGCTCGTACAGGGCGATGATTTTTTTCCAGAGCCACTGTGCGCA +GGTCAAATCATCCTGCGTTCCCCACTGGCGCTTTTTAGGGCTGAATACAACCGCATCAGGATGGCGAGTT +AAAAAATCCTGTTCATCCGTCTGCGTGTCCGGTTGCGAAGCGTCCGGACGAGAAGGTTTTTTATCTGACG +GATCATGTTTTGATTTTACTGACGGATCCCCGCCAGATTCTGACGGGTGAAAACCCGATTTTTTGCCAGA +TTTCGACGCATCAAATTTTGACGGGTCAGATTTTGATGCGTCAGATTTTGACGGGTCAGAGTCTGACAGT +TGAGAAAATGCCGCTGCCTGAAGCTTCGCAACGTTAAGCTGATAAACATTCGACGCATTGCGGTTATGAT +GAGGAGCAGCAAAATGGCTAGCGAACGCAGTACTGATGTGCAGGCATTTATCGGGGAGCTGGACGGCGGC +GTATTTGAAACCAAAATCGGCGCAGTTCTCAGTGAAGTCGCTTCCGGTGTGATGAACACGAAAACCAAAG +GTAAGGTCTCACTCAACCTGGAAATCGAACCATTTGATGAGAACCGTCTGAAAATCAAACACAAACTCTC +ATATGTTCGCCCGACTAACCGTGGGAAAATTTCCGAAGAAGACACCACCGAAACGCCGATGTATGTCAAT +CGCGGTGGTCGCCTGACTATTCTGCAGGAAGACCAGGGACAATTACTGACTCTTGCCGGTGAGCCTGACG +GAAAACTCCGCGCAGCAGGTCATTAATATCATTCTTAATTAACTAATTATTTATCTCATCACTGAATATC +TTAATATAGTGAGGACTTATTATGTCTCAGAACTTAGACGCAACCGCAATTAATCAAATCCATGCCCTTA +TTTCTGCTCAGGGTGTTAATGAAATTATCAGTAAGATTGGTGCCGATGCTGTGGCATTGCCTGAGAATTT +CCGCATTCATGATCTGGAAAAATTTAATTTAAATCGCTTCCGTTTCCGTGGTGCGCTTTCCACTGCCAGC +ATCGATGACTTTACCCGTTATTCTAAAGATCTTGCAGATGAAGGCACCCGCTGCTTTATCGATGCTGATA +ATATGCGTGCCGTCAGTGTGCTTAACCTGGGTACTATTGATGAACCAGGTCACGCAGATAACACCGCCAC +TCTCAAACTGAAAAAGACAGCACCGTTCTCTGCCCTGTTGTCTGTTAACGGCGAGCGTAACTCCCAGAAA +TCACTGGCAGAATGGATTGAAGACTGGGCCGACTACCTTGTGGGCTTTGATGCTAATGGTGACGCCATTC +AGGCAACAAAAGCGGCTGCGGCAATCCGTAAAATCACGATTGAAGCAAACCAGACCGCTGATTTTGAAGA +TAATGACTTCAGCGGCAAACGCTCCCTGATGGAATCTGTCGAAGCGAAGACCAAAGACATTATGCCAGTG +GCATTTGAATTTAAATGCGTTCCGTTTGAAGGTCTGAAAGAACGTCCGTTTAAATTACGCCTCAGCATTA +TCACTGGCGATCGTCCTGTACTGGTTCTGCGCATTATTCAGCTGGAAGCGGTGCAGGAAGATATGGCTAA +CGAATTTCGTGATCTGCTTGTTGAGAAATTCAAAGACAGCAAAGTAGAAACCTTTATTGGTACTTTCACC +GCCTGATTTCATTACTGCAAATGCCCCTGCGGGGGCATTTATGGAAACGTAATTAACTCAATAATCACCG +GATGGTGAGGGCTTCCTTTTACCCAAACTCAGCGCGGTGCAGCGCATATACGTGGAGAACAAAATGTCAT +TTATTAAAACTTTTTCCGGGAAGCATTTTTATTATGACAAGATAAATAAAGACGACATCGTGATTAACGA +TATCGCGGTTTCCCTTTCAAATATCTGCCGCTTTGCCGGTCATCTTTCTCACTTCTACAGTGTCGCCCAA +CATGCGGTGCTTTGCAGCCAGCTGGTGCCGCAGGAATTTGCTTTTGAAGCATTAATGCATGATGCAACAG +AAGCGTATTGCCAGGACATCCCCGCACCACTGAAACGCCTTCTTCCTGACTATAAACGGATGGAAGAAAA +AATAGATGCAGTAATCCGTGAGAAATACGGGTTACCTCCTGTTATGAGCACGCCAGTGAAATATGCCGAT +CTCATTATGCTGGCAACCGAACGCCGTGATCTCGGGCTTGATGATGGCTCTTTCTGGCCTGTACTGGAAG +GCATCCCGGCAACAGAGATGTTCAACGTGATTCCACTGGCACCGGGTCATGCCTACGGGATGTTTATGGA +ACGTTTTAACGATTTATCGGAGTTACGCAAATGCGCATGAATGTTTTCGAAATGGAAGGGTTTCTTCGCG +GGAAATGTGTACCGCGAGATCTGAAAGTGAACGAAACAAATGCTGAGTACCTGGTACGTAAATTCGACGC +GCTTGAAGCTAAATGTGCGGCACTGGAAAACAAAATAATACCAGTGTCAGCTGAACTGCCACCAGCAAAT +GAAAGTGTTCTGTTATTTGATGCTAACGGAGAAGGCTGGCTGATTGGCTGGCGTTCTCTCTGGTACACCT +GGGGACAAAAAGAAACCGGAGAATGGCAGTGGACATTTCAGGTTGGGGACCTTGAAAACGTCAATATCAC +TCACTGGGCAGTAATGCCAAAAGCACCGGAGGCTGGAGCATAATGACCACATTTACCAATAAAGAACTGA +TTAAAGAAATCAAAGAACGAATCAGCAGCCTAGAGGTTCGAGACGATATTGAGCGCCGTGCTTATGAAAT +CGCACTCGTATCTCTGGAAGTAGAGCCAGATGAACGCGAAGCCTATGAATTATTCATGGAAAAGCGTTTC +GGTGACTTAGTAGATCGTCGGAGAGCAAAAAACGGCGATAACGAATACATGGCATGGGATATGACTCTCG +GTTGGATCATCTGGCAGCAACGAGCTGGTATCCATTTTTCAACAATGTCACAACAAGAGGTGAAATAATA +GAGCCATACAGCCTCACACTCGATGAGGCCTGTCAGTTTCTTAAAATATCCTGATCTACCATCGCCGTCA +TAGAGCGTATTTTTATTACCTGATTTGCAGGTTCGATTCCCTATTCGGAGATAGCACTCATGCAACACGA +ACTACAGCCTGATTCACTGGTTGATTTGAAATTCATCATGGCTGATACTGGCTTTGGTAAAACCTTCATC +TATGACCGGATTAAGTCAGGCGACCTGCCAAAAGCCAAAGTTATCCACGGGCGAGCAAGATGGTTATATC +GTGACCATTGTGAATTCAAAAATAAGCTCTTAAGCCGCGCCAATGGGTAAAATAGCGGGTAAAATATTTC +TCACATCTAAAAAACACCATTCCAATCAATCCCCTGCTGCTTCAAGTAGATGTCTGCAGGGGACACCATC +CTTGTGTTTATCCCTAAAACCACATAAAAACCGTAAATTAAATTCGAACTAGCAGGCCGAATAAGGCACA +CCAGGAACTCGTGGTTTTATTCATTATGAAGTGGTTTTTACCTGTTCTCTTAGCCAGATAATAAACGCTT +CAATTTTTGGCCACTGCCTGCCCGGTAATGTGGTGATGTAATAATGCTGATGGCATTTCACCGTCATATC +GCCAAACGGCGCGACGAGCTCACCACTGGCAAGCCTTTTTTGTACCAGGCGTTTTCTTCCCATCGCCACC +CCAATATGATTCATCGCGGCAATAACAGCTAAATCAGAACGATCAAAGCCAATTCCAGAAGATGTCGGCA +AATTAACCGCATAATGTTGCGCCCAACTATGCCATTCATCCGTACCGGAGTCGTTGCTCCATGCCTGTCT +GTCATGGAGCAACGTACAGTGACACAGGTTAATTACCGTGTTGGTTAAAGCATGTCTTTGAGCGTATTCC +GGGCTACATACTGGCAGGATTTCTTCATCCATCAGAAAGTGATGAGTGAGTTGCGCTGACGGCGCATCAT +CAAAGTAGATCGCCAAATCGATTCCGGCACGTTGCAGATTGACGTTGTCATTACCAGTGAGCACGGTGAG +CGAAATAGACGGATACCGGCGTGTAAAGTCACCTAATGCGGGCACCAACCAGCATTGGGCGATAGAGGGC +CGGGAATACAGAGTTAACGTTCCCGATAACTCCTGATTTTTGATATCAAGAATTTCCTGGTTCAGGGTAT +CCAGCGACGATTTTAGCGCCCAATAAACACGTTTCCCCTCGTGCGTTAATTCCACTTTGCGATGGGAACG +AACAAACAACTGAATGCCCAATTCTTCTTCCAGCTGATTGATACGGTGACTTACCGCACTGGGGCTCAGC +GACAATTCCTCTGCCGCCAGGGCGAAGGACTGATGCCTGGCAGCCACTTCAAAAGTATGCATTTTTGATA +ATTGCCAGCCGTTAAGCAGCCGATTTCTTATTTCACGAAGGGGTTCCATAATCACCTCATTTTTCGCTTA +AGTGTAAAAAAATAGCGGCAAAATTTCAGCTATGAGATGAGCTAAAGTGAACCATATCTCAATTCACCTT +CATTTTTAGATGTAAATCACTCCATTGATGCAATTTACCTCATGTGAAAGGCAAATTTTATCGTTTGTCA +GCCTGCGTTGTTTTTTTGTCCAATATCATCAGGTTAATCACAGGGGAAGGTGAGATATGCACTCTCAAAT +CTGGGTTGTGAGCACGCTGCTTATCAGCATCGTGTTAATTGTACTGACCATCGTGAAGTTCAAATTCCAC +CCGTTTCTGGCGCTGTTGCTGGCCAGCTTCTTCGTGGGAACGATGATGGGCATGGGGCCACTGGATATGG +TAAATGCTATTGAAAGTGGAATTGGCGGAACGCTGGGGTTCCTCGCAGCGGTTATCGGCCTTGGCACGAT +ACTGGGAAAAATGATGGAAGTATCCGGGGCCGCAGAAAGAATTGGTCTGACACTTCAACGCTGCCGCTGG +CTTTCAGTTGATGTCATTATGGTGCTGGTTGGCCTGATTTGTGGCATCACGCTGTTTGTTGAAGTGGGCG +TCGTGCTATTGATTCCTCTGGCTTTTTCAATTGCCAAAAAAACCAATACCTCATTATTAAAGCTTGCCAT +TCCGCTATGTACCGCATTGATGGCAGTGCACTGCGTGGTTCCTCCACATCCGGCTGCTTTATATGTTGCC +AATAAGCTGGGCGCAGATATCGGTTCGGTGATCGTCTACGGTTTGCTGGTTGGGCTGATGGCATCACTGA +TCGGTGGCCCACTTTTCCTTAAATTTCTGGGTCAACGACTGCCCTTTAAACCTGTACCCACAGAGTTTGC +AGATCTCAAAGTTCGCGATGAAAAAACACTACCGTCATTAGGCGCAACGTTATTCACCATACTGCTACCC +ATTGCGCTGATGTTGGTTAAAACGATTGCCGAATTGAATATGGCGCGTGAGAGTGGTTTGTATATCTTGG +TTGAGTTTATTGGCAACCCTATCACTGCCATGTTTATCGCCGTGTTTGTCGCCTATTATGTGTTGGGTAT +ACGCCAGCATATGAGCATGGGGACGATGCTCACACATACGGAAAATGGCTTCGGTTCTATTGCTAATATT +TTGCTGATTATCGGGGCCGGAGGCGCATTCAACGCCATTTTAAAAAGCAGCAGTCTCGCTGATACGCTGG +CAGTTATTCTCTCCAATATGCATATGCACCCGATTCTTCTGGCCTGGTTAGTGGCTCTTATTCTGCATGC +GGCAGTGGGCTCCGCTACCGTGGCAATGATGGGGGCAACGGCAATTGTTGCACCCATGCTGCCGCTGTAT +CCCGACATCAGCCCGGAAATTATTGCGATTGCTATCGGTTCAGGTGCAATTGGCTGCACTATCGTTACGG +ACTCGCTTTTCTGGCTAGTGAAGCAATATTGCGGCGCTACGCTCAATGAAACATTTAAATACTATACGAC +AGCGACATTTATCGCTTCAGTCGTCGCTCTGGCGGGCACATTCCTGCTGTCATTTATCATCTAAGCGCAA +AGAGACGTACTATGGAAAACGCTAAAATGAACTCGCTCATCGCCCAGTATCCGTTGGTAAAGGATCTGGT +TGCTCTTAAAGAAACCACCTGGTTTAATCCTGGCACGACCTCATTGGCTGAAGGTTTACCTTATGTTGGC +CTGACCGAACAGGATGTTCAGGACGCCCATGCGCGCTTATCCCGTTTTGCACCCTATCTGGCAAAAGCAT +TTCCTGAAACTGCTGCCACTGGGGGGATTATTGAATCAGAACTGGTTGCCATTCCAGCTATGCAAAAACG +GCTGGAAAAAGAATATCAGCAACCGATCAGCGGGCAACTGTTACTGAAAAAAGATAGCCATTTGCCCATT +TCCGGCTCCATAAAAGCACGCGGCGGGATTTATGAAGTCCTGGCACACGCAGAAAAACTGGCTCTGGAAG +CGGGGTTGCTGACGCTTGATGATGACTACAGCAAACTGCTTTCTCCGGAGTTTAAACAGTTCTTTAGCCA +ATACAGCATTGCTGTGGGCTCAACCGGAAATCTGGGGTTATCAATCGGCATTATGAGCGCCCGCATTGGC +TTTAAGGTGACAGTTCATATGTCTGCTGATGCCCGGGCATGGAAAAAAGCGAAACTGCGCAGCCATGGCG +TTACGGTCGTGGAATATGAGCAAGATTATGGTGTTGCCGTCGAGGAAGGACGTAAAGCAGCGCAGTCTGA +CCCGAACTGTTTCTTTATTGATGACGAAAATTCCCGCACGTTGTTCCTTGGGTATTCCGTCGCTGGCCAG +CGTCTTAAAGCGCAATTTGCCCAGCAAGGCCGTATCGTCGATGCTGATAACCCTCTGTTTGTCTATCTGC +CGTGTGGTGTTGGCGGTGGTCCTGGTGGCGTCGCATTCGGGCTTAAACTGGCGTTTGGCGATCATGTTCA +CTGCTTTTTTGCCGAACCAACGCACTCCCCTTGTATGTTGTTAGGCGTCCATACAGGATTACACGATCAG +ATTTCTGTTCAGGATATTGGTATCGACAACCTTACCGCAGCGGATGGCCTTGCAGTTGGTCGCGCATCAG +GCTTTGTCGGGCGGGCAATGGAGCGTCTGCTGGATGGCTTCTATACCCTTAGCGATCAAACCATGTATGA +CATGCTTGGCTGGCTGGCGCAGGAAGAAGGTATTCGTCTTGAACCTTCGGCACTGGCGGGTATGGCCGGA +CCTCAGCGCGTGTGTGCATCAGTAAGTTACCAACAGATGCACGGTTTCAGCGCAGAACAACTGCGTAATA +CCACTCATCTGGTGTGGGCGACGGGAGGTGGAATGGTGCCGGAAGAAGAGATGAATCAATATCTGGCAAA +AGGCCGTTAATAACGTTTCAACGCAGCATCGCAATCCTTTCCCTGGGTGAGCGATGCTGCCGATGGCGCA +GACTTAAGATCCCCGGTCTTACCCGCTATAACCCCCTCCTTTTATCATCACCCAACGCCTTTCGCTGTAA +ACGGCGGTTTCGCAAACCAAACCAAAACCGTAAGTAAGATAAAAGCAATAGCCGCCATACGGAAAATCTC +ATTTGCAGAAATAGAAAGTGACTGCTGGGTTATTTCATTATTAATTTCATTAAGAACTCCTGAAAGCGAA +CCATAATATTTATCCATAATTTGTGACGATGAATTAAACACGGGGTTAAATTGATCGATGGTTGCTGTCA +ACTGACTATGGTGTAACGATTCGCGTCGTCCCCACAGCGTCATTGTCAACGACGTACCAACTGATCCTGA +CAAGGTACGAAAAAAATTACTCATACTCGAGGCATTGGCAAATTTATTATCTGGCAAGCCTGAAAACGAA +ATCGTTGTTAAGGGTAAAAAGAAACAGGCAACGGCGAATCCCTGAAAAAACTGCGGCAAAATGATGCCTG +TAAAATCAATCGTTGGCATAAATGTCACAGAACGCCAGTAATAGCAAACCGCATACATCAAAAAACTAAA +TGTCACTAACAACCGCATGTCTATTTTGTTGCCATAACGTCCTATCAAAGGTGAAATTAATAGTGGCATG +ATGCCGATGGGCGCATAAGCAAGTCCGGCCCATATCGCATTATACCCCATCGTTTCCTGGAGTAACTGCG +GCATAAGGACGATCGCTCCAGAGTAAAATAAATACGCGCATGTGATACTCACAATACCAATGGTGAAGTT +ACGGGACTTAAACAAACTGAGATCAAGAATCGGGTTCTCTGAGGTCGACTCCCAAATGACTAAAGAGATC +AGAGAAATAACTGATACTACTGTTAATATTATTATTGTACTCGAGTTGAACCAATCCAGATCGCGCCCTT +TATCAAGCATAATTTGCAAGCCACCAACACCGAGCACTAACAGGGTCAGTCCTGGTAGATTCATTTTGAC +CGGTGAAGTCTCAGTTTCTCTTCCTTTAAGTAAGGTTAAGCATAATGTCAGGACGATAATCCCCATAGGG +ACATTGATTAAAAATATCCAACCCCAGCTAAAGTTATCACAAATATAACCGCCCAATATCGGCCCACATA +TCGGAGCGATAATCACGGTCATTGACCATAATGCCAGAGCAAATGTTCTTTTTTCTGGCGGATAATTCCT +TAATAATAAACTCTGTGACAGTGGAATTAACGGCCCCGCCATTAACCCCTGAACGACTCTAAAAAATATC +AGCACATCAAGATTGGTCGATAGGCTACACATTAATGAAGACAGCGAAAAAAAAGTGACTGAAAGTAAAA +ATAATCTTAATTCGCCTATTCTTTGTGCCAACCTGCCAGTAACAGGGATCGCAATGGCATTTGCTACACC +AAACGAGGTGATAACCCAGGTGCCTTCGTCTGTTGATGCTCCCAGAAAGCCAGATATTGTCGGTATTGCG +ACGTTAGAAATAGTGGAATCCAACATTTGCATAAATGTCGCTAATGACAATGCAATAGTGACGCACCATA +ACGTCCCACCGGTTAATGGTGCCGGAGTTGATTTAGTGATTGCCATTAAAGTTGTCCATTATGCGAAATA +ATGTTGCTAATTTCTTTTTCTATCGGACTGGTATCGATAACTAAAGCCTTACTGGTATAAGCCGGCATGG +AGGTCACGGTTGAAGCCAGCTCAGGCATCTCGGCAATGTCTTCGTTCTTCGTATCAATAGTTGCTGTCAT +CGATAAACCAATACGCAAGGGGTGTTCCATGAGTTCTTTTGGATCAAGAGAAACTTCAACCGGTACACGC +TGAACGATTTTGATCCAGTTCCCTGTCGCATTTTGTGCAGGTAATAAGGAGAACGCATTGCCGGTTCCCA +TATTGATCCCTGTCACCCGACCATGAAACACAACATTTTCACCATAAAGATCGCTGATAATATTGACCGA +TTGACCAATCCGTACATCCGTGAGTTGTGTTTCTTTAAAGTTGGCATTAACCCACATTTGACGTGCCGGT +ACGACAGCCATTAACGATTGTCCGGGGCTCACTGTTTCGCCGACCTGAACACTTCTCTGGGCAATATAGC +CGGTAACCGGACTCTTAATATCCGTACGTTTAAGCGCCAACCAGGCTTCTTTAGTTGCATCCGCCGCTTC +AACGACTTGTGGCTGACGGTTTAATGGTGTGTTCATTACTAAAGCTTTATTCGCTTTATAAGCCTGGATA +GCGGCATTCAATGCCGCTTTGCTACTTATTAACGTATCTTTGGTATGCTCCAGCGTTTCTTTTGAAATAA +CCCCCTGCTTCGCTAACGGCACTCGACGGTTATAATCTTCTAAAGATTGTTGATACTGAATACGTGCTGA +AGCGACTTCGGCACTGTATTGTTTATCCTGTAAGTATAGTTTATTCGTTTGCCGAACAATATTTGCCAGA +TTATTTTTAGCTTTATTGAGTGCGATAGTGGCATCAGTTTTATCCAGTGAAACTAAAATGTCACCTTGTC +GAACGTAGTTCGTATCTTTATGATTAACGACAGTGACACTACCTGAGACTTGTGCAGAAATTGGATCTGC +ATTCCCCGTGACATAGGCGTCATCTGTACTAATCATGTCTTCTAATTCCATTGACCAATAGGCATAGGCA +CCTGAAAACGCAATAAATAAAACTACCGCCAATAAAGAAAAGTATTTTCTTCTGTTAGAATGTTTTTTAT +TTGAATTAATCTGTTCCACTATTATCTCTCATTTCTCATAGATGAAATTTATGAATTGAATGAAAAGAGC +ATTCATTCTTCATATCAAACACAGTGCATGTGTTGCACATTATCCCAGGAACGTTGGAGGCCTAATTTAA +ATGAGGTGCAAAAAAAACAACAGAGGACTAAACCGTGGCTTTTGCAATACAATTCTTACGCCTGTAGGAT +TAGTAAGAAGACTTATAGTGCCAACTTGAAACTATAAATCATCGGTACAATCCCTGATTTTATTGTTGAC +ATTTCATTTATGCCGACTATTTATATGGTATACTTGTCGAATTATCTTAAAGGAAGCTCAGATTTTCTTA +TTTTTATTGAGAAAATGAGATGACGCCTTATGTCTGTATTACTACAGGGAGAAGGGAGATGCTTCATTGC +AAAGGGAATAATCTATGAACGCAATAATTATTGATGACCATCCTCTTGCTATCGCAGCAATTCGTAATTT +ATTGATCAAAAACGATATTGAAATCTTAGCAGAGTTGACTGAAGGCGGAAGTGCCGTTCAGCGGGTGGAA +ACACTTAAGCCTGATATCGTCATCATTGATGTCGATATCCCCGGAGTTAACGGTATCCAGGTGTTAGAAA +CGCTGAGGAAGCGCCAATATAGCGGAATTATTATTATCGTCTCCGCTAAAAATGACCATTTTTACGGGAA +ACATTGTGCTGATGCTGGCGCTAATGGTTTCGTGAGTAAAAAAGAAGGCATGAACAATATCATTGCGGCT +ATTGAAGCTGCAAAAAATGGCTACTGCTATTTCCCCTTCTCTCTCAACCGGTTTGTTGGAAGTTTAACGT +CCGACCAGCAAAAACTCGACTCCTTATCGAAACAAGAAATTAGTGTCATGCGGTATATTCTTGATGGCAA +GGATAATAATGACATTGCTGAAAAAATGTTCATCAGCAACAAAACTGTCAGCACTTATAAAAGTCGCCTG +ATGGAAAAATTAGAATGTAAATCACTGATGGATCTTTACACATTCGCACAACGTAACAAAATCGGCTAAC +CACATGAAGTTTTTACCCTATATTTTTCTTCTCTGTTGTGGTCTTTGGTCGACCATAAGTTTCGCAGACG +AAGATTACATCGAATATCGTGGCATCAGTAGTAACAACCGTGTCACACTTGATCCACTACGTCTGAGCAA +CAAGGAATTACGTTGGTTAGCGAGCAAAAAAAATCTTGTGATTGCAGTACATAAGTCCCAAACGGCTACG +TTGTTGCATACCGATTCGCAGCAACGGGTTCGTGGTATTAATGCTGATTATTTAAATCTTTTAAAAAGAG +CGTTAAATATCAAATTAACACTCCGGGAATACGCAGATCATCAAAAAGCAATGGACGCGCTTGCAGAAGG +TGAAGTCGATATAGTGTTATCACATTTAGTTACTTCGCCGCCTCTTAATAATGACATTGCTGCAACCAAA +CCATTGATAATTACCTTTCCGGCGCTGGTAACCACCCTTCACGACTCAATGCGACCGCTTACCTCACCAA +AACCAGTAAATATTGCTCGGGTAGCAAATTACCCCCCAGACGAGGTAATTCATCAATCATTTCCAAAAGC +AACAATTATCTCTTTTACAAATTTATATCAGGCATTAGCATCCGTCTCAGCTGGGCACAATGATTACTTT +ATTGGTAGTAACATCATTACCAGCAGTATGATTTCCCGCTATTTCACTCACTCCTTAAATGTAGTGAAAT +ATTATAACTCGCCGCGTCAATATAATTTTTTCTTGACCAGAAAAGAATCTGTCATTCTTAATGAAGTACT +CAATAGATTTGTTGATGCTTTAACAAATGAAGTTCGCTATGAAGTATCACAAAATTGGCTTGATACAGGA +AACCTGGCCTTTCTGAACAAACCATTAGAACTCACTGAACATGAAAAACAGTGGATTAAGCAGCATCCCA +ATTTAAAGGTGCTGGAAAATCCTTACTCGCCCCCCTATTCTATGACGGATGAAAATGGCTCGGTTCGGGG +CGTTATGGGGGACATTCTTAATATTATTACCTTGCAAACAGGTTTAAATTTTTCTCCGATCACCGTTTCA +CACAATATCCATGCTGGAACACAGCTTAGCCCCGGAGGATGGGATATAATACCTGGCGCTATTTATAGTG +AAGATCGAGAAAATAATGTTTTATTTGCTGAAGCCTTCATAACAACGCCTTACGTTTTTGTCATGCAAAA +AGCGCCTGACAGTGAACAAACATTAAAAAAAGGAATGAAAGTTGCCATTCCATATTATTATGAGCTGCAT +TCGCAATTAAAAGAGATGTATCCGGAGGTTGAATGGATACAGGTCGATAATGCCAGCGCTGCATTTCACA +AGGTTAAGGAAGGTGAACTTGATGCTCTGGTCGCGACACAGCTAAATTCGCGTTACATGATCGATCATTA +CTATCCTAATGAACTTTATCATTTTCTTATTCCTGGCGTTCCGAATGCATCGCTTTCGTTCGCTTTTCCT +CGCGGAGAACCGGAACTTAAGGATATTATTAATAAAGCACTGAATGCAATTCCCCCAAGCGAAGTTCTGC +GCCTGACGGAAAAATGGATTAAAATGCCCAATGTGACCATTGACACATGGGACCTATATAGCGAGCAATT +TTATATTGTTACGACATTATCCGTTTTATTAGTTGGCAGTAGCCTTTTATGGGGATTCTACCTGTTACGC +TCAGTTCGTCGTCGTAAAGTCATTCAGGGTGATTTAGAAAACCAAATATCATTCCGAAAAGCACTCTCGG +ATTCCTTACCGAATCCAACTTATGTTGTAAACTGGCAAGGTAATGTCATTAGTCATAATAGTGCTTTTGA +ACATTATTTCACTGCGGATTACTACAAAAATGCAATGTTACCATTAGAAAACAGTGACTCACCCTTTAAA +GATGTTTTTTCTAATGCGCATGAAGTCACAGCAGAAACGAAAGAAAATCGAACAATATACACACAGGTAT +TTGAAATTGATAATGGCATCGAGAAAAGATGCATTAATCACTGGCATACATTATGCAATCTTCCTGCAAG +TGACAATGCAGTATATATTTGTGGTTGGCAAGATATTACTGAAACGCGTGATCTAATTAATGCACTCGAG +GTAGAAAAAAATAAAGCGATAAAGGCTACCGTAGCAAAAAGTCAGTTTCTGGCAACGATGAGTCACGAAA +TAAGAACACCAATAAGCTCTATTATGGGCTTCCTGGAACTTCTGTCGGGTTCTGGTCTTAGCAAGGAGCA +ACGGGTGGAGGCGATTTCACTTGCCTACGCCACCGGACAATCACTCCTCGGCTTAATTGGTGAAATCCTT +GATGTCGACAAAATTGAATCGGGTAACTATCAACTTCAACCACAATGGGTCGATATCCCTACTTTAGTCC +AGAACACTTGTCACTCTTTCGGTGCGATTGCTGCAAGCAAATCGATCGCATTAAGTTGCAGCAGTACGTT +TCCTGAACATTACCTGGTTAAGATCGACCCTCAGGCGTTTAAGCAGGTCTTATCAAATTTACTGAGTAAT +GCTCTCAAATTTACCACCGAGGGGGCAGTAAAAATTACGACCTCCCTGGGTCACATTGATGACAACCACG +CTGTTATCAAAATGACGATTATGGATTCTGGAAGTGGATTATCGCAGGAAGAACAACAACAACTGTTTAA +ACGCTACAGCCAAACAAGTGCAGGTCGTCAGCAAACAGGTTCTGGTTTAGGCTTAATGATCTGCAAAGAA +TTAATTAAAAATATGCAGGGCGATTTGTCATTAGAAAGTCATCCAGGCATAGGAACAACATTTACGATCA +CAATCCCGGTAGAAATTAGCCAGCAAGTGGCGACTGTCGAGGCAAAAGCAGAACAACCCATCACACTACC +TGAAAAGTTGAGCATATTAATCGCGGATGATCATCCGACCAACAGGCTATTACTCAAACGCCAGCTAAAT +CTATTAGGATATGATGTTGATGAAGCCACTGATGGTGTGCAAGCGCTACACAAAGTCAGTATGCAACATT +ATGATCTGCTTATTACTGACGTTAATATGCCGAATATGGATGGTTTTGAGTTGACTCGCAAACTCCGTGA +GCAAAATTCTTCCTTACCCATCTGGGGGCTTACAGCCAACGCACAGGCTAACGAACGTGAAAAAGGGTTA +AGTTGCGGCATGAACTTATGTTTGTTCAAACCGTTGACCCTGGATGTACTGAAAACACATTTAAGTCAGT +TACACCAAGTTGCGCATATTGCACCTCAGTATCGCCACCTTGATATCGAAGCCCTGAAAAATAATACGGC +GAACGATCTACAACTGATGCAGGAGATTCTCATGACTTTCCAGCATGAAACGCATAAAGATCTACCCGCT +GCGTTTCAAGCACTAGAAGCTGGCGATAACAGAACTTTCCATCAGTGTATTCATCGCATCCACGGTGCGG +CTAACATCCTGAATTTGCAAAAGTTGATTAATATTAGCCATCAGTTAGAAATAACACCTGTTTCAGATGA +CAGTAAGCCTGAAATTCTTCAGTTGCTGAACTCTGTAAAAGAACACATTGCAGAGCTGGACCAGGAGATT +GCTGTTTTCTGTCAGAAAAATGACTAAATAGCGGCTCCCACAATGTTCAAATGTGGGAGCTATTTACCAG +CACATCTTACATTTATGATGAGAACTCCTGGCGAATTTGTTCCCCATGCTGGTCGAGCGTTGCCGCTCCC +GGCATAACATGCGGGTCCGCGCAGCCGCTGATTTTTATCGGATTACCCGGCATCATTATTCCCCCGGCTT +CAATCAACATATTTCTCGCCTGAGTTTGTGGCAATTTAATGGCCTCAGCCACACTTAATAACGGCGCGAC +GGGTACACCAACTTCATGTATTCTGGCTAACCAAACTTCAGCTGCCTGCGTTTTTAACGTCCGCTCAATA +TATTGTTTAAGAATAGCCTGGTTTTGTACGCGTAAAATATTGCTGCTAAATCGGGGATCATTAACCAGTT +CCGTAAGCTCCAGTGCCTGGCATAACGCAGAAAAAAGCTTGTCATTACCACAACAAATCGTAATCGGCTT +ATCCTGAGTATTGAAAACATCAAAAGGTGCCATGTAGGGATGGCGATTTCCCAGACGTTGTGGTGACTTC +CCAGTTGCGATATATGCCATCAGACCATGCTCCAGAAAACTCAGCGTGGCATCAAACATCGCTATATCGA +CATGCGCCCCTCTCTGGCTCTTTTCGCGGCCATAAAGTGCACTCACTATTCCGCTGAATAAATAGACACC +GCCGCATAGATCCGCAAGAGATGTACCAACGCGCACTGGCGGAGCATCAGGATATCCTGTTTCCATCATT +ATCCCGCTCATTGCCTGAATGATGGTATCGTAGGCAGGAGCATCTTTTAGCGGACCGGTATGTCCGAAAC +CTGACGATGAAGCATATATGAGGCGCGGGTTGATTTCTTGAAGCGTTTCCCATGAAAACCCCAGTTTTTC +CATTGTACCTGGGCGAAAATTCTCAGCTAATACATCAGCTTGTTTGAGCATATTTATAAATATACTTTTA +TCGTGATCATTCTTTAAATCAAGAACCACACTCTCTTTGCCATGATTAATAAAACTGTAATAGAGTGACT +GTCCATCCACATAGGGACCAAATGTGCGGGTATCATCACCATGACCCGGCGGCTCAACTTTAATTACCCT +TGCGCCCATATTACAAAGAAGTTGAGTTCCGAAAGGTCCATTAAGGACATGTGTCATATCGATAACTAAT +AAGCCTTCAAACGGCCCTTTGCTTTCATTATTTGTCATTTGCTTATGCCTTGAAAAAAGCCGAAGGTGAA +AAGACACTTCGGCATTTATGTAAAATCAATAACATGATTAATTATGAAACCAGTCGACTGACATAAATCC +ACAAGGGAGCCGTGACGACAAAGCCCAGTACGCTCACAGCCAATGACGCTGTACCAGTACGGGTGTAGAC +ATTAAACCGGCTGGCAATAATGATTCCGGAGAATGCCGGCGGTAATGCGCCTGCCAGTACCATCATCTGC +AGATGTTCGCTGTTCAAATGACATGCCATACCAACGAGAAGCAGTGCCAGTGGCATCAGAATCAGCTTCA +GGAAGGTGTTATAAGCAATTTCGGCACTGAACTCGAATTTATGTGCAGCCAGAGTCAACCCCGCAGCGAA +TACCGCTACCCCTGAGTTAGCCTTCGCAATCAGATTAAAGGTTGGGTCCCATGCTGCCGGAATTTTTACC +CCAACCAACACCAGGATCGTTGCCAGAACAGGTGCCCATACTACTGGCTCCTTTGCCGCAGAAATTAATG +CGCTCAGATTACTATTCTTCTTACCATCCGCTCCTGAAGAAGGATTCAGCAAATACAGACCAATAGGAAT +AGTAATTGCGTTAACAATAATAGAAATAATTGCTACCACTAAACCTGTTGATACGGAATCACCATAAATA +GGATCGAGAACTGCAAACCCCAGGAATCCAATGGTAGGTGAACCTGCAATTAATGCACATACAGCTGCTT +CTGCATGGGTACGTTTAAAAAATTTGTAGCAACCGAACCAGGAGAAAAAGAAACATCCGACAATAACCAC +AAGTGATACAAGGGTCAGACGAGTGTCCGCAAAAATCATTTCCCTGTTTGCCCGAGTAATAGATACAAAT +AGAGCCGCAGGAAGCGCGTAGTTTAATACCAGTTTATTAAATGCCCGAGCTTGATCTTCTGAAAATGTTT +CTCGTCTGCCGCTAAAATAACCCAACAGCATGATTACGATAATAGGCAATAAATCGCCAATAAAAAATGT +TAGCATAATAGTATTTCCGATAAGGGTCCCCTCACCATCGCATAATGAGTTGGCAAGAGGAGACGATGTC +AGTATTTAATTACCAGCGACTTGTTTTGGGTTAAGTTTGGTAATATGGCCACTTTCAGTTCCTGCTGCAG +GGTCGATGACCACATTAATAATGGTCGGTTTGCGCGACTGAATACCGGTGGTTAAAGCATGACGAAGTTC +ATCTGTCGTGGTGACGTTATAGCCAACGCCACGAAACGCATCCATTAATTTGTCATACCTTGCATGGTGC +AACAGATCCGTTGGTGATGGTGCACCAGCGCCACTGAGATCAACACCGTCTCCTCTGTAGATGCCGCCAT +TATTAAAAATAACGATCGTCACCGGCAGGTTATATCGACAAATCGTTTCAATTTCCATCCCACTGAAACC +AAAAGCACTATCACCTTCAATGGCGACAACCGGAGAACCAGAAGTCACGCTAGCACCGATGGCATAGCCC +ATACCGATGCCCATGACACCCCAGGTACCACAATCCAGACGACGACGTGGTTTATACATATCAATAATAT +TTCGTGCATTATCCAGGGTATTTGCACCTTCATTAACTAAATAAATATCCTGGTTCTCGCGCAATACGTC +GCGCACAGCACTTAATGCATTAAAGTAATTTAATGGTTGAGTATCTGTACTTAATTTTTCATGCATTTTT +TGTGCATTTTGCTGCTTGTGGATATTTAAAATATCGCGCCATACCAGTGGAGTCGTAAATGTGTTTTGTT +TCAGTTCTGCCAGCATACCTTGCATACTGGATGCAATATCACCAACGACTGGCACAGCAATGGGGCGGTT +GCTGTCAATTTCCTGCGGTTCAATATCCAGTTGAATAAACTGTGTATCTGCCGCCCATCCTTTTTTACCG +TGTGCCAATAACCAATTCAGTCGTGCACCAACAAGCATGACAACGTCAGCATTTGCCAGGGCAAACGAAC +GCGCAGCTGCCGCAGAAAGTGGATGCGTATCTTCAAGGATCCCTTTCGCCATAGACATTGGCAGGAATGG +AATCTGAGCACTTTCAATAAATTCACGAAGCTGTTCATCAGCTTGTGAATACGCCGCGCCTTTGCCAAGG +ATAATTAATGGCCGTTCAGCTTTTGCTAAAAGCGAAATTGCGCTAGTGACTGACTTCGGGCATGGCAATA +ATGCTGGCGACGGATTTTCAACTTTAACAATCGTGGTTAACGCTTCGTCTTTTTCCATCGTCGCGGCCAG +GACATTTGCTGGCAAATCAAGATAAACTCCGCCAGGGCGACCCGATACAGAGACCCGGATAGCGCGTGCC +AATGCAATGCCAAGATCCTGCGGCTGATTAACGCGAAATGCTGCTTTGGCATACGGTTTTGCCGCATTCA +TTTGGTCCAGCTCTTCATAATCACCTTGCTGTAGGTCGACGATCGCGCGGTCGCTGGAGCCGCTAATCAT +GATCATCGGAAAACCATTTACCGTTGCGTTGGCCAATGCGGTCAAACCATTGAGGAATCCTGGCGCAGAA +ACTGTCAGGCAGATCCCCGGTTTTTGGGTAAGAAAACCGCTTGCCGCAGCGGCATAGCCTGCCGACTGCT +CATGACGAAAACCAATATAACGAATGCCTTCCGCCTGGGCATGGCGTGCCATATCCGTCACAGGAATACC +TACAACACCATAAATAGTGTCAATATTATTCTGTTTTAATGCTTCAACGATGATATGCATACCATCTGTC +ATTTGAAGTTGATCTGACATGATTAATAACCTCGAAATTTTTATAAATTGGGAGCCAGAAGCCCCCGTTA +ATATCAGATGGCGTGGTTTTGCTTCATTGCAGCAATTTCATCGTCGCTATAACCCAGCTCCTGCAATACA +GCAGCGGTATGTTCACCTAATAGCGGCGCAGCTTTAATATCCGGCGTAAAGGCAGAGAATTTCATTGGAC +AACCAACGGTCAGATATTTTCCACGCAACGGTTGTTCCACTTCAACAACACTGCCACTTTGGCGCAAAGA +GGGATCAAGTGAAATTTCTTTCATACTTAAAACCGGTGCACAAGGAATATCAAACTGAGTCAAATAGGCC +ACCGCTTCATGTTTATCAATAGTGACAGTGTATTTTTCGATTTCAGCAAAAATATCGAAAATATGTGGCT +GTCGTGCATGGGCTGTACTGTATGCCGGATCGGTAATCCATTCTGGTTTGCCGATGGCTTTACAGGTGTT +TTCCCAGTTTTGCTCCTGAATAGTGAAATAAATATAGGCGTTAGGATCGGTTTCCCAGCCTTTACATTTC +AGGATCCAGCCAGGCTGACCGCCACCACCTGCATTACCACCGCGGGGAACTGCATCACCAAATGTACCAT +TCGGATACTGCGGGTATTCTTCCAGATAACCCAATTTATCGAGACGCTGCTGGTCACGTAATTTCACGCG +GCAAAGGTTCAATACGGCATCCTGCATTGACATGGTGACTCGTTGCCCACGCCCCGTTTTTTCGCGATGC +AGCAAAGCAGCAAGTAAACCGATCAGCAAATGCATTCCGGTGTTGCTGTCACCCAACGCTGCAGCGCTTA +CCAGCGGCGGACCATCCCAAAAACCCGTAGTGGATGCCGCGCCACCCGCTGCCTGAGCAACGTTTTCATA +GGCTTTTACATTCACATAAGGCGAACACTCATCAAACCCTTTGATCGAACCAAAAATCAGACGTGGATTG +ATTTCTTGAATATGCTCCCAGGTGAAGCCCATGTGATCAATGGCCCCTGGATGAAAGTTCTCGACTAAGA +TATCAGCTTCGCGGATCAGCTTTTCCATTACCTCTTTGCCTTCCGCTGTTTTGGTATTTAACTCAATAGA +ACGTTTGTTACTGTTAAGCATGGTGAAGTAAAGCGCATCGATATCAGGAATATCTCGCAGCTGGTGACGC +GTTACGTCACCAACGCCGGGACGTTCAATTTTAATAACGTCAGCGCCAAACCAGGCCAGCATTTGAGTAC +AAGATGGGCCAGATTGCACACCGGTGAAATCGAGAACTTTAATTCCTTGAAGTGGAGTTGACATAGCAAT +ACCTATTAGTTAATTAAATATGTGTTAATTTAGCGTTTATTTAAGGCGTAATATCTTCTATAAATAACCC +GCAAAATATCGTCGTAGCTGCACTCGATATTTTTAAAATCCTGTATCAAGTGCTGAAAATCATTTCATCG +CCACTTCCAATTCCTTTCTGCATGGTAAGTAGTGAGGACGAAAAGAAGAATATGATAAATATTGATTCGT +GGTAATCAGAGAGAGTCGCGACATTTGTGATGTTATTCTTACAACTGTAAGAAGCGCCGGTGATTTACAA +GCAAGGGTATGATTACGCTTTTTAAAGCGTACCATAAAACATAACATAATAAATGATTTGTGATGACACG +GGATTATTGCGGTTTACTTTGAGGAATATAAAATGCGAGTTTATAGCACCGCGAGCGCCAAATAATTTTA +TGACCACAACCTGTCGTATTGTGGTCATAAAAAATTGTCGGCTGGAGGGAGTTAAATCCTTTACCTCAAT +ATACTGCCTGTCAGCATTAGTTCACAAACAGTGCTTCGCTATCGACGATGATTCCATCTTCCGCACCTTT +AAGCGCCAGGTTTGCCTCGTAGTATTGCTTTTTATCAAGCAGTTTCTGCGCATCAGCAAGTGCATTACGA +GTCTGTTTAAGTGGCATCAGATATTGGTTTTCCATTACGCCAACACCGGCCAGGCGAAGCTCTTCCATTG +CGCCCTTTTTATCCCCTTTCGCCATTTTTTCATTGGCAATTTTTATCGCGGCTTCTTTTTCGGGAGTTGC +TACATAACTCTCAGAAATTCCGACAGATGCATTAATGACAATATATTGGTCATCATTGAGATTGGTCTTT +TTACCTGGCTTAGCGAACTTTGCCCATTCGGTACTGTCATCTGACAGCAAAGCGGAAGCTTCATTGGTCA +GTTCTTTTGCCTTTTCTGGATCGCCATGAAACAGAGCCAGGCGCGCTACCTGCACGTCACGCATCGCATA +TAAACCTTGTTCAGAGATACGCTCTGCTGCCGCTGCCGTTTTCTGGGTTTGCTGAACTTGCTGAGTTTGC +TGTTGTGCCGCTACCGGAGCATTATCAGCAGCCCATACAGTTGAAGATGCCAGAATTGCTGTGACCATCG +TGGCCATAATTAAACGTTTCATACTTACCTCATTCTTTAACAGTTTTAGAAAACGCCGCCATCATATTGG +GTGAGCATGAAATGAGAAATCAGAGAGCAACGGTCATTTTGAAAGGGTTATCTTACAGTTGTAGTTATTA +TCGCAAGAAGTATTTTAGTCTTACAATTGTAGGAATATGCTTCCTGTCGCAGAGAACTATTCTTATATAC +CACAAAGAGATGTCATTTATTATATCGATGTAAATACTGATTAATTAAATGTAAATACAGCCATAACATC +GTAGGTTCTCAGTGAACCATTTTCAGGATAACTTTCTATGAAAGTAAACTTAATACTTTTCAGCTTATTT +TTATTGGTCTCTATTATGGCATGCAATGTTTTTGCATTTTCCATTTCGGGTGGTGGAAGTGAGAGGAGCT +ATAAAGAGACTGAAAAAACATCAGCGATGACGACCACACACTCTACAAAACTTCAGCCATCACAGGCGAT +TTTGTTTAAGATGAGAGAAGATGCGCCACCATTAAACCTCACAGAAGAAATGCCGCCCCCTTTTCCGACA +AAGGCGAATTATCTTATTCATCCTGTGCGATAGCGTCTTTCACATGGCAGGTGAACAATCATGTCTGATG +CTGATGTGAACACCTGCCCAAATGAGCCATCCTGACCCACTACCGCCTGCCATACCCCACCATAAAGCGA +ATCATCAAGCCACAAGCCGGGGCAAGAAACATAAATATCCCCGTCACTAGTTCATTACCGCCAGTTAACC +ACATGGTGAAGTAATAAATGAGTGCAGCGAGGATCACCATGCCGAAGAAAGAAGAGACCGCCGATACCAC +GTTCAGTACCTGACCGATGTAGCCGCTTACGCAGACAATACACAGGGCGAGAAACATCCATAAATTAATC +ATAGCTCAACCTCCTGCCGCGCTAAAAAACCTGTAACTTCAGTCACTTTAATAGTAAGACAATCCTTAAC +CTCTGGCAATTTTTGCTAAGCATCAATGAAAACAGCATGTTAAATGCAAGACTGTTGTGTACGGAAAAAT +ATTTACTTTGCACGATTAATAATCAGTAGCTGAAAGCAGTCAGCGAGTGATAAAGTACAGATACCGCATT +CATGCTCCTCGTGGTTATGTCCTGACTAGTCTTTACACTCTTTACAGGAACCATTGTCGTACATGATGGC +CCAACCAATTGAGTGTACCGCTGTCGACATGGAATCTTCTGCGATACAACAATTCGTATCTACAGAAGGT +AACTATGTTTCCACAATGCAAATTTTCCCGCGAGTTTCTACATCCTCGCTACTGGCTCACATGGTTTGGG +CTTGGTGTACTCTGGCTTTGGGTACAGCTTCCTTATCCTGTTCTCTGCTTTCTCGGCACGCGTATTGGCG +CAATGGCGCGACCATTCCTGAAACGTCGTGAATCTATCGCCCGTAAAAACCTGGAACTTTGTTTCCCGCA +GCATTCTGCGGAAGAACGCGAGAAGATGATTGCCGAAAACTTTCGTTCACTCGGCATGGCGCTGGTAGAA +ACCGGCATGGCATGGTTCTGGCCCGACAGTCGCGTACGTAAATGGTTTGATGTTGAAGGGTTGGATAACC +TTAAACGCGCACAAATGCAAAATCGCGGCGTAATGGTTGTCGGCGTCCATTTTATGTCGCTGGAACTGGG +CGGCCGCGTGATGGGACTGTGCCAACCAATGATGGCTACCTATCGTCCACATAATAATCAGCTGATGGAA +TGGGTGCAGACCCGTGGGCGCATGCGCTCTAACAAAGCGATGATCGGCAGAAATAATCTGCGCGGCATTG +TCGGTGCACTGAAGAAAGGTGAAGCGGTATGGTTTGCTCCCGATCAGGATTATGGTCGTAAAGGCAGCTC +CTTCGCGCCGTTCTTTGCGGTGGAAAATGTCGCCACAACCAATGGCACCTATGTTCTCTCCCGTCTCTCT +GGCGCAGCCATGTTGACCGTAACGATGGTAAGAAAAGCGGATTACAGCGGATATCGTTTGTTCATCACCC +CAGAGATGGAAGGCTACCCGACAGATGAAAATCAAGCCGCTGCCTATATGAACAAGATTATCGAGAAAGA +GATCATGCGCGCACCGGAGCAGTACCTCTGGATCCACCGTCGCTTTAAAACGCGCCCGGTGGGAGAATCG +TCGTTGTACATTTAACAAACTGCTCTTACTCTTTCCCTCCTCAAATCGGCCATAATAACCTCATGGTTTT +TATGGCTTTTTTCTTAAGGTTTTTTCCTTCGCTGAATATCTAATTATTACCGTCAGAAATTAAACTGTCG +CCGATATGAGACACTTGTAAGTTACTAAAAGTAAATAAGAAAATGCCTCTTGTCTCGTTTCAGTTTTAGG +CGTACATTAGCGCCGTCTCGAGCAGTTTAGCTCAGAATTCTGGGGTGATGCCCACGGTAAAATACAGGGC +TTTTAAGGTCGCTTTGCCCGGTGTCAACTCACTGTATCAGGTGTAATGAAGTCATTCAGGCGTAACAGTA +ATTACGCGGAGAGATGTAAAGTGAAATATTTCTTTATGGGCATTTCTTTTATGGTCATCGTTTGGGCCGG +TACTTTTGCCCTGATGATCTAAAAGCAAACTGTGCAATGAAAAACAGGAGCCATCAGGCTCCTGTTTGCA +TTTCTGACGACGGTGTTTATTCCGCGTTTTCGTGAATATGTTTGCTGCTGGCGGGTAGTAAACCGTCGGC +ACGGAACATCGCTTTAATCCCTCTGATGGCCTGACGAATACGGTCGCGGTTTTCAATCAGTGCAAAGCGA +ACATGCGTATCACCATAGTCGCCAAAGCCAATCCCCGGCGAGACACAAACCTTCGCTTCGTTAAGGAGCT +TCTTGGCAAATTCCAGCGATCCCATGGCCGCATATGGTTCCGGGATTTTCGCCCAGACATACATCGAAGC +CTTCGGCATTTCAACCATCCAGCCCGCTTCATGCAGCCCTTTAACCAATACATCACGGCGGCGTTTGTAC +TGTTCGGCAATGTCGCGCACGCACTGTTGATCGCCCTCCAGCGCCGCAATCGCCGCCACCTGCAACGGCG +TAAAGGTGCCGTAATCGTGATAGCTTTTAATACGAGCCAGGGCGCTGACCAGCGTTTTGTTGCCAACCAT +AAAGCCGATACGCCAGCCCGCCATGTTGTAGCTTTTCGACAGCGTAAAGAACTCGACTGCCACATCGCGT +GCACCCGGTACCTGCATAATTGACGGCGCTTTCCAGCCATCGTAGACGATATCGGCATAGGCCAGGTCAT +GGACCACCAGCACATCGTAGCGTTTCGCCAGCGCCACTACTTTTTCGAAGAACTCCAGTTCCACGCATTG +CGCGGTTGGGTTTGACGGGAAGCCGAGGATCATCATCTTCGGTTTCGGATAACTTTCACGAATGGCTCGC +TCCAGTTCGTTGAAGAAATCGACACCTTCCACCAGCGGCACTGAGCGTACCTGCGCCCCGGCAATCACCG +CGCCATAAATATGGATCGGGTAACTTGGATTCGGCACCAGCACCGTGTCACCATGATCCAGCGTCGCCAG +CATCAGATGCGCCAGGCCCTCTTTCGAACCAATAGTGACGATGGCTTCTGATTCCGGGTCGATTTCAACG +TCGTAGCGATCCTGATACCAGCGGGAAATGGCGCGACGTAACCGCGGAATGCCGCGTGAAGTGGAGTAAC +CATGCGTGTCCGGGCGCTGGGCCACAGTACATAATTTTTCGACGATATGCGGCGGAGTCGCACCGTCCGG +GTTACCCATGCTGAAATCGATAATATCTTCGCCGCGCCGACGCGCAGCCATTTTCAGTTCAGCGGTGATG +TTAAAAACGTAGGGCGGGAGACGATCAATGCGCGTAAAGCGACGTTCAGGGCGAGTGTCAGCCATAATTT +CCTCAGATTAACGTTAGCGCCCGGACCGTCCGAGCGACGCTGCCACGATGGTGGCTGTTTTGAAAATAGC +CTGATTAATTTCTGTCTGTCCAGCGTTTTAGAACATTTTATTAATGACGTTAAATGAGGAACTCTGCTTT +AAAAACAGGAAATTTATCTGCGCTAACAAGAAAATTACCACTCATTTTATTAACATAATAATTTCAATAA +ATTTACTAACCAGAAGTGCATTATCAAGAGATGCATTGCTAATACACCATTTATCTATCAATCCCCTTTT +AAAATTGTGGTTTTTCCTCAAAAACGGCCTGCTGGTCATCAGCCTTCAGGTTACCTATCATAGAGGTTTA +ATCCTTATTCAGAGTCACCCGTGCACGAAATATTCAACATGCTGCTGGCGGTCTTCGATCGGGCAGCGTT +AATGCTTATCTGCCTGTTCTTTCTCATCCGTATCCGCCTGTTTCGCGAACTGTTGCACAAGTCGGCGCAC +TCCCCAAAAGAATTGCTCGCCGTTACCGCCATTTTCTCGCTGTTCGCCCTGTTCAGCACCTGGTCCGGCG +TTCCCGTAGAAGGCTCGCTGGTGAACGTACGTATTATCGCGGTGATGTCCGGCGGGATTCTGTTTGGCCC +GTGGGTAGGCATCATTACCGGCGTGATTGCGGGTATTCACCGGTATTTAATTGATATCGGCGGCGTGACG +GCGATCCCCTGCTTTATCACCAGCATTCTGGCGGGTTGTATATCGGGCTGGATCAACCTGAAAATCCCCA +AAGCACAGCGCTGGCGCGTCGGTATTCTCGGCGGCATGTTGTGTGAGACGTTGACCATGATTCTGGTAAT +TGTCTGGGCACCAACTACCGCGTTGGGGATCGATATCGTCTCTAAAATCGGCATTCCAATGATCCTCGGT +AGCGTCTGTATCGGCTTTATTGTGCTTCTGGTGCAAAGCGTTGAGGGCGAAAAAGAGGCCAGCGCCGCGC +GGCAGGCCAAGCTGGCGCTGGATATCGCCAACAAAACGCTACCGCTGTTTCGCCATGTCAATAGCGAGTC +ATTACGCAAGGTCTGCGAAATTATCCGCGATGACATTCACGCCGATGCGGTGGCGATTACTAATACCGAT +CATGTGCTGGCCTATGTTGGCGTGGGTGAACATAACTATCAGAATGGCGATGACTTCATTAGCCCGACTA +CCCGTCAGGCGATGAATTACGGAAAAATCATCATTAAAAACAATGATGAAGCCCACCGCACACCAGAGAT +TCATTCCATGCTGGTGATCCCATTGTGGGAGAAAGGGGTCGTGACCGGAACGCTGAAAATTTACTACTGC +CACGCGCATCAGATCACCTCGTCATTACAGGAAATGGCGGTCGGTCTGTCGCAAATCATCTCCACGCAAC +TGGAGGTTTCACGCGCCGAGCAGCTACGTGAAATGGCAAATAAGGCAGAGCTTCGCGCCCTGCAAAGCAA +AATTAATCCCCATTTTCTGTTTAACGCTCTGAACGCTATTTCATCGTCAATCCGTCTGAATCCGGATACC +GCTCGCCAGTTGATCTTTAATCTGTCGCGTTATCTGCGCTATAACATTGAATTAAAAGACGATGAGCAAA +TCGATATCAAAAAAGAGCTGTATCAAATTAAAGACTATATTGCCATTGAGCAGGCCCGCTTTGGTGACAA +GCTGACGGTTATCTATGATATTGATGAAGAGGTGAATTGCTGCATTCCCAGCCTGCTGATCCAGCCGTTG +GTGGAGAACGCCATTGTCCACGGTATTCAGCCTTGCAAAGGTAAAGGCGTTGTCACCATCAGCGTTGCAG +AGTGCGGAAATCGGGTACGCATTGCGGTGCGAGATACCGGGCACGGCATCGATCCAAAGGTGATTGAGCG +GGTCGAAGCGAATGAAATGCCGGGCAATAAAATTGGCCTGCTGAATGTCCATCATCGCGTGAAGTTATTG +TATGGCGAGGGGCTGCATATCCGCCGCCTGGAGCCGGGGACGGAAATTGCGTTTTACATTCCTAACCAAC +GCACCCCAGTCGCCTCACAGGCTACGTTATTGCTTTGAGCCGGAGTGATATTGTGAAAGTCATCATTGTT +GAAGACGAATTCCTGGCACAACAGGAACTGAGCTGGCTAATTAAAGAGCACAGCCAGATGGAGATTGTCG +GCACCTTTGACGACGGTCTGGACGTGTTGAAGTTTTTGCAGCATAACCGCGTCGACGCCATTTTTCTGGA +TATCAATATTCCGTCGCTGGATGGCGTGTTGCTGGCGCAAAACATCAGCCAGTTCGCCCATAAACCGTTT +ATTGTGTTCATCACCGCGTGGAAAGAACATGCGGTAGAAGCGTTTGAACTGGAGGCGTTTGACTACATTC +TCAAACCGTATCAGGAGTCACGTATTACCGGGATGCTGCAAAAACTGGAAGCGGCCTGGCAACAACAGCA +GACCAGCAGTACGCCTGCCGCGACGGTAACGCGTGAGAATGACACCATTAATCTGGTGAAAGATGAGCGA +ATAATCGTCACGCCAATTAACGATATCTATTACGCCGAAGCGCACGAGAAAATGACCTTTGTCTATACGC +GGCGTGAATCCTACGTAATGCCGATGAACATTACCGAATTTTGCAGCAAACTGCCGCCGTCGCATTTTTT +CCGCTGCCATCGCTCATTTTGTGTCAATCTGAACAAAATACGCGAAATCGAACCGTGGTTTAATAACACC +TACATTCTGCGACTGAAAGATCTGGATTTTGAAGTGCCGGTCAGCCGCAGCAAAGTGAAAGAATTTCGCC +AGTTAATGCATCTTTAATCGGGAACTTTCATGAAAGCACCAGGCTTGCCCGCCGATCAACAATTTTTCGC +CGATCTGTTCAGCGGCCTGGTGCTTAACCCGCAACTACTGGGGCGCGTCTGGTTTGCCAGCCAGCCTGCC +TCGTTGCCGGTGGGCAGTTTATGTATTGATTTTCCCCGTCTGGATATCGTGCTGCGCGGCGAATACGGCA +ATCTGCTGGAAGCAAAGCAGCAACGTTTGGTGGAAGGAGAAATGCTGTTTATTCCGGCGCGCGCGGCTAA +TTTACCGGTCAACAACAAACCGGTGATGCTGTTAAGCCTGGTGTTCGCTCCGACCTGGCTTGGGTTATCG +TTTTACGATAGCCGCACCACGTCGTTGTTGCATCCTGCTCGCCAGATCCAGCTTCCCAGCCTGCAACGCG +GTGAAGGTGAAGCGATGCTTACCGCCCTCACCCATCTTAGCCGTTCGCCGCTGGAGCAAAATATCATTCA +GCCGCTGGTGTTAAGTTTGCTGCATCTTTGCCGTAGCGTGGTGAATATGCCGCCGGGCAATTCGCAGCCG +CGCGGCGATTTTCTCTATCACAGCATTTGTAACTGGGTTCAGGATAATTATGCCCAGCCGCTCACCCGCG +AGAGCGTGGCGCAGTTTTTTAATATCACGCCCAATCATCTGTCAAAACTGTTTGCTCAGCATGGAACGAT +GCGTTTTATCGAGTATGTGCGTTGGGTGCGAATGGCGAAGGCGAGGATGATTTTGCAGAAATATCATCTG +TCAATTCATGAAGTGGCACAGCGTTGCGGTTTTCCGGATAGCGACTATTTTTGTCGCGTTTTCCGGCGTC +AGTTTGGTCTGACGCCGGGAGAGTACAGCGCCCGTTTTCAGGGCTAACGTCAGAAGGTTAATTCTGTTTC +CAGCAGCGTCAGGATACTTTGTGCATCTTGCGCGGCAAACAACGACTGGCGGAAGTTTTTATTCACCAGT +TTACGCGCCAGCTGCGAGAAGACTTTCACATGATTCATCCCTTCGTTAGCACCCAGCGTCAGCATGATCA +CCAGTTCGACTTCGCCCATTTCTGACTGCCAGCCAATCGGTTTCGCCAGCCGGGCAATGCTGATACTGGA +ATGACGGATCCACTGAGATTTGGTGTGCGGGATCGCTACGCCAAAACCAACGCCGGTGGTAACAATCTCT +TCCCGCTGCCAGACATCTTCTTCCAGCTCAAACGGATGTTCAGTGCGCCCGTTAACGCCGAGGTTGCCGC +ACAGGAACTGGATCGCCTGCTCTTTATTGCTAAAATCCTGATCAACAAAGATATTCTCCAGCGCCAGCAG +TGGGCGAACGTCTTCTTCCGGCGTAAAGGCGGTGAGTAACGCTTCAATTTCCTGCGCACTGCGGCATTCA +CATGCCTGACGCGCCAGTTCCCGACACGCCTCGCTATCCAGTTGACGAAGCTGGCTTTTCACCGCCGGAA +TACGCGGGCTACTCATACTCAGCTCATCCAGGCCCAGCCCAAGCAGTAGCGGCAGATAACGGCTTTCACC +GCCCAGTTCACCGCAAATGCCTACCCATTTGCCCCGCTGATGCGCAGTGGTAACTATTTGCTGCAACATG +CGCAGGAACGATGGCGTAATCGGGTTATATAGCGGCGATACGCGCGGGTTATTACGATCGACCGCATACA +GATACTGGGTCATATCGTTGGAGCCGATACTGAAGAAATCGACCTCATCGCAGAAGTGGTCGATGATGTA +GCACACCGACGGAACTTCCACCATGATCCCAAGCGTAATCGTCTCTGCATGACGCAGGCCATCGCGCTTA +AGCTCAACGATCGCTTTTTGGATCTCGCCTTTCACCCATAAGATCTGATCGAGGCTGTGAACCATCGGGA +TCATCAACTGGGCGTTGCCGAAACTGGCGGCGCGCAAAATGGCCCGCAGTTGAGTGCGGAACAGGCCAGC +AAATTCCGGGTAAATACGTACCGCGCGATAGCCGAGGAACGGGTTCTCTTCCTGGGGAATATTCAGATAA +GGAATGCTTTTATCGCCGCCGATGTCCATCGTGCGGAAGATAATCGGCTTGTCGCCCGCCGCCAGTAGCA +CCTGCTGGTAGGCTTCAAATTGCTCCTGCTCGTCCGGCGCGCTGTCGCGATCCATATAGAGCATTTCGGT +ACGGAACAGCCCGACACCTTCCGCGCCGTTGGCAAACGCGCCTGGCGCTTCCAGAGCGGTGCCGATATTC +GCCGCAATATCAATACGCTTGTTATCACGGGAATAGGCCAGCTGCGCGGCAGCCTGCGCCTGTTGTTTTT +GGCGTTTATCCGCCAGCGTCTGCGCGACCTGATAATAACCGCTCACCGCGTCATTCGGGTTAATCGCCAG +CACGCCGCACTGGGCGTCAAGCACTGCAGGTTGCCCGGCATAACGGGCAATCGCATCCAGCGGCAAGCCA +CTCAGTACCGGGATCGCCGAGGCACGGGCCAGAATCAGTGTATGCGAGGTGCGCCCGGTTTTCTCCAGAA +TCATGCCCGCAAGATTTTTCAAATCAAGGCTCAAAAACTGGCTTGGGGTTAAATCTTCAGCCACCAGAAT +GGTCGGTTTTTCAAGCACCAGCTTGTTGCGCGGCTTCAGTTCCGGCCAGGTGATATGCAGCAACTGTTCG +CTGATATCGCGAATGTCGCTAACACGTTCGCGCAGATAATCGCTGGCAGAGGCAGAAAGTTTGGCGCAAA +CCTGCTCCATATTGCTGATGATCGCCGCCCCCAGCCCCTGATGCTGTTCTGTCATCAGGCGACGGATATT +GCCTGCAAATTCATCATCCTGAATCAGCGACAAATGGGCGCTGAGGATAGTTTTGCTTTCGCCGTCACGC +TCACGCAATTGCTGGTTCAGTTGCTCGGCAAGCGTTGCCAGGCTGTGCTCCAGCCGGGTGGAATCTTGCG +CACTGGCGGGGATTGCCCGATAACTGTCGAGGCTGTCGCTTTGTAACAGGGTCAGCGTACCCACGCCGAC +GCCGCTTGCCAGCACATTGCCGTACAGTAAATCCGGGTTAAGGCGGCTTAATGAACGCGGCAGCGGATGC +GCCGTCAGTTCTGCCTGCGTAGGCTGAACGCTGTCGCTGTCGATAAAGCGCACCTGGATGTACTCTTCCA +GCACGCGCCGCGCCTGCTCTTCATCGCTGCCGCTAATGTTCAGGCTGCAACTGTCATTAAATAGGGTGCC +GGTGCCAATCAGCGCCAGCGAGCTTTTCGCATCTGCCTTTGCGTTCTGGCGATGGTTAATAAAAGTGATT +TCGCTTTGCCACTGGCTGCACTGTTCTTTAAGTTCCCACGCCGGACGAGCATGTAGACCGTTAGGCAAAG +GACAGAGAAATTGAATCGTTAACATAACCGCTCCGGGTTAATCAGGAGATCATCTGAAATCCGTCAGTTG +AACAACCGTCTCACGCGTAAGACGTTGAATAAGGGCAGATAAAAGTTGCTGCATCTGCAAAATGTCGCGG +CAATCGGCAATCGATGCGGCGCAATGTCCATGGCGGGTTGCTGGCCCCATCACCACTGTGGGCACGCCGG +TGCCGGTTAAGTGCACCGCCCCGCCGTCCGTGCCGCCGTTGCTGAACATATCTGCCTGCAACGGCACGCC +AATTTCTGCCGCCACGGTTTCGACCCAGGCGGTAAGTTTTGGCGGCGCAATCAGCGACTTGTCGCTTAAC +ACCAGCATCGGCCCGTTACCAATCTGGCGATGGTTAGCCGCGCCATAATCAAAGTTTTTCGCCCAGCAGG +CGGTATCAAGCACAATGGCGACGTCCGGCGACACCGCGCGGGTGGCAGTTTGCCCGCCGCGTAATCCCAC +CTCTTCGCTGGAACTTGCCACCAGCCACACTTCCGCAGGTAGTTCGGCGTCGTGCAGTTCGCGCAGTAAC +GTCACCAGCAGATAGCAACCGAGGCGGTCATCAAAGGCTTTCCCCATCACTCGCTGGTGAGGGAGAACCT +GAAAAGTGGTATCAAACGTGACGCGATCGCCGGGACGAATTCCCGCCTGCATCACTTCGTCATAGGAGCG +CGCACCAATGTCCACGCGCATGGCGCTGACGTCATTCCCCTGCCGGTCGCCGTCAAGCAGGCCTGGAATT +TTGCACTCTTCACGGGTGGTGATGCGCACCGGCTGCAGCTGGCGGGCAGCCATGCGTACGTTGCCAACCG +GCAGCACATCAATCGCCCCTTCGCGGGAGATGCTGCGCACCATAAATCCCACTTCGTCCATATGCGCACA +GATCATCACCTTCGGACCTGTCGATTCATTCAGGCGGATCAGCACCGATCCCAGACCATCAAATCGCACT +TCTTTTTGCAGGCGATCCGCTTCTTCCAGCAGGATCTGCCGCACTTCCTGTTCCGAGGAGGCGATCGCAT +CTGCCTCGCTCAACGCTTTTAATAGCGATAAATCCATTATGCCTCTCCCGTGAGCAACACTGTTTTCGGC +ATGGCGTAGAGCACTTCTGCGCCTTGCGGGGTAACCAGCACAACATCTTCGATGCGCACGCCCCCTTGCC +CTGGCAAATAAATCCCCGGCTCCACGGTCAGTAACATGCCTGGCTGTAGCGTCGTGGTGTCCCGCGGTGA +AAAACGCGGATCTTCATGAACTTCAATGCCGATAGCGTGACCGGTGTTATGACCGAAATAGTCGCCATAA +CCTGCTTCTGTAATGACCCGGCGCGCGGCATCGTCAACCTGCTGGCAGCGCACGCCGGGGCGAATCGCGG +AGATTGCTGCGAGCTGTGCCTGCAGGACAATTTGATAGACGTTAAACAGCAGGTGAGATTCGGCGCTCAC +CCCTTCGCCATTCACCAGCAAGGTGCGCGTCATATCAGAGCAGTAGCCCTGATACAGCGCACCGAAATCG +AGAGTGACAAACTCGCCCGCTGCAACAATCTTGTCGCTGGCTTTGCCGTGCGGCAGCGCCCCACGCCAGC +CACTGGCGACAATGGTGTCAAAAGAGGCTTTTTCTGCGCCCTGCTGGCGCATAAACCACTCCAGTTCAGC +GGCTATCTCGCGCTCGCTCATCCCCGCCTGAATAAAGCGGCGAATATGCTCTGCACCGCGATCAGCAATC +CCACAGGCGAGGCGGATTTTCTCCACCTCCTCTGGCGTTTTGATTTGCCGCAGCACATCCGGCGTGGCGC +TAACCAGTTTCGCATTGAGTTCAGACTGCCAGCGGTGCGCGGTTTCCCAACTCACCTGCTGGCCCTCAAA +ACCGAGCGTTTGCAACTGTTCATCGGCAATGATTTGATTGACGATAGTGGTAAGCGTGTTCGTCGCGTCA +AGCAAATGCAGCTGGTAGCCTTGCGCACGGGCTTCCACCTCAACGTAATAGCGCGAATCCACCAGAATGT +GCGCACTTTCACGGCTAATCACCACATAACCTGATCCGGTGGAGATCCCCAGATGCGGCTGTTTGTTCTG +CCGTGAGGAGAGAAGCACTGCATCCAGTTGTTGCGCCTTAAGCCAGTCGCGCAGCGAAGCGAGTAATGTC +ATCTGGATTTTCCTTCTTACAGGCTATCGATTAACAATTTGCCTTTACGGAACATCATCAGACGCAGGAA +CACCACCATCAGCGCAGTTATGACTGCCCCCAGCGCGATCCCCGCCATATAGACGCCCAGGTTAGTGACC +AGCGGCCATGCCCAGATAGCGGACTCCGGGAACCATTGCACTGCGCCCAGCCAGACAGCGGCGGTTGAGC +CGACAATAGCGCCGACCATATACGACGGAATGGCGGTGATGGGGCTTTCCAGCGCAAACGGAATCGCACC +CTCACTGATCCCCATAAACGCCAGGAACATGGCGGTCTTACCCTGCGGATAAAGTTGAGCGTTGAACAGG +CGTTTGCCGGTTAAACGACGGTCGATAATGGTCGCCAGCCCCAGACCAATCGGCGGAATAACGATAGCGA +TAGAACGAGCGGTGACCGGTAATACGTGGTCAGTGGTAAAGCTGAAGGCAACAAAACCTGCGGCTTTGTT +GATCGGGCCACCAAGGTCGATTGCTGTCGCCGCGGCGATCCCCATTGCGTACATCAGCGCGCCCTTCTCA +CCTGCGGCAGTCAGCACAGTACGGATACCGCCGTTGATCCAGCCACCAAAGGGGGTGATGACGTAGTACA +TCGCCAGCATGACAAAAATGGCGGAAAGAATCGGGAGCAAAAATGTGGTTTTGAACGCTAACAGGAAATC +CGGTAACTGGATTTTCTGGTTCATCCACTTCACAAGGTAACCGGCAACGATAGAAATAATCAGCGCACCA +ATGAAGGTGGACGGCACCGGCGAAGAGGTCGCCCATTGCATAGTGCTGGGATCGAAGTTCAGCAGTTGCG +TCGGCTGGGTAGACATCAACCCGCCGATAAAACCAGCCGGGAACGCCAGTTTGCCACCGATAGAGTTCGC +CACAAAAGCAGCAAACATCGGAATGGCAAAACCAAACAACACGCCGCCGAAGGACTGCGACAGCCAGGCA +AATTTAAGTAAGGAGAGGTCGAAACCGGAGAATTTCCCGCTATTAAGAGCATCCATGATGCCGATCTCAG +CAGGAATTTTAAGCCAGCTATAAGCAATCAGCTGGCTGAAAGCGAGGATCACACCGCCCATAATTAAGGT +CGGCACCATGCGTGAAATCCCTGACATCACATGCTGCGGGAGTTCACCCCAGAAGCTGGTTTTAGAGGCC +TGCGGATTCTTAACTGCCGCTGCCGCACCGGATGCGCCAGGCACAACGGTTGCACTGCGTTTTTTAATGG +CCATAACAATTATCCCTGTCGAATATTACTGTTGTTCAGAGGCAATCATCTCTTCGATTTCTTTGATGAT +GCCCGCAGCGTTTTTAATTGCGTCCTGCAAAGTGATTTCATAAACGTCGCGTGATTCGAAACGTTCGTTA +TCTTCCGGGGTAACTGCCACGGAGTGGATGATGATGGTCGCTTCGGCGATATCCTGCGCCGTCAGGCGAT +TCTGGATACCGTCCGCGCCCTGGGTTTCAATTTTCACTTCATAACCGGCTTCTACCGCCGCTTCTTCCAG +CGCCTGAGCGGCCATAAAGGTGTGAGCCAGGCCCATCGGGCAGGCACATAAGGCAATCAGTTTCTTACTC +ATCGTTAATTCCTCGTTCAGTGATAGTTGACGAGTGAAATTATGAACGTGCAAAACAAATCGCCGTTACC +AGACAAATAATGCATTTACTGGAGAATTAATCCCGCTGTACGGAAGTGTGACGCAGGTCGACCTTGTGAG +GGGACACAAAGAAAAATTGAATAAACTGTATGATTTAAAAGATTATCGGGAGAGTTACCTCCCGATATAA +AAGGAAGGATTTACAGAATGTGACCTAAGGTCTGGCGTAAATGTGCACCGGAACCGAGAAGGCCCGGATT +GTCATGGACGATGAGATACACCGGAATATCATGGACATATTCTTTAAAGCGCCCTTTATCTTCAAATGCG +GCACGGAAACCGGAGGCTTTGAAGAACTCAAGGAAGCGCGGCACGATACCGCCCGCAATAAACACGCCGC +CAAATGTCCCGAGATTGAGCGCCAGATTGCCGCCAAAACGGCCCATAATGACGCAAAACAGCGACAATGC +GCGGCGGCAATCGGTGCAGCTGTCAGCCAGCGCGCGTTCGGTAATATCTTTTGGCTTGAGATTTTCTGGC +AGGCGGTTGTCAGCTTTCACAATTGCGCGATACAAATTCACCAGCCCAGGGCCAGAAAGCACGCGCTCCG +CCGAAACATGACCAATTTCCGCACGCAATATTTCGAGGATAATGGCCTCTTCTTCACTATTCGGCGCAAA +ATCAACGTGACCGCCTTCGCCTGGCAAGCTTACCCAACGCTTATCGACATGGACCAGATGCGCAACCCCA +AGCCCCGTTCCGGCACCGTAAACCGCAATAGGCTTACCTTCGACCGGTTCTGCGCCACCAAACTGAATCA +GATGCTCTTTTTTCAGCATCGGGATCGCCATCGATACAGCGGTAAAATCGTTAATAATTTCCAGATGGCT +AAAACCGAGATTCTTTTTCATTTCGGCAATTGAGAACGCCCAGGTATGGTTGGTCATCGCCACCCAGTCA +CCGGTAATTGGGCAAGCGATGGCAATACAGCCGTCTTTCACCTCGACCTTATGTTCTTCAAGATAAACGC +GAATGACCGCTTCGAGGCTGGGGTAATCAAGCCCTGAATAGGTCTTAGCCTGCGAGATTTCACCACTGGC +AATATCACACAGAGCAAGACGTGCGTTGGTGCCGCCCACATCACCGACTAATGCATACTTTGTCATTCTT +CAACTGCTCCGCTAAAGTCAAAATAATTCTTTCTCACACTGTAAATACCTGGGGGCATAACAACAACGCC +GGAAAGGCAGGCTCCCTGTAAATATCGATCTGGGTCACACAATTACTTTATCGTTTCAGCACCAATTGCA +GCGATGCCTTTTTGCAAGCTGGGCAAACTAAGTATCTGACCCCGCATAAGGAATAGAACATGCTCCATCC +GCGAGCCAGAACCATGTTGTTATTATCGCTCCCCGCCGTGGCAATTGGGATTGCGTCCAGTCTTATTCTG +ATTGTGGTGATGAAAATCGCCTCGGTATTACAGAATTTGCTCTGGCAACGACTGCCGGGAACTCTGGGGA +TAGCCCAGGATTCACCCCTCTGGATCATCGGTGTATTAACGCTAACGGGTATTGCGGTGGGGTTGGTTAT +CCGTTTCAGCCAGGGTCATGCCGGACCAGACCCCGCCTGTGAACCGCTGATCGGCGCACCGGTTCCGCCC +TCTGCGCTACCTGGACTTATCGTAGCATTAATTCTCGGTCTTGCTGGCGGCGTCAGCCTGGGGCCGGAAC +ATCCGATCATGACCGTCAATATCGCCCTTGCGGTTGCCATTGGCGCTCGTCTGTTACCGCGCGTCAACCG +AATGGAGTGGACTATTTTAGCCTCTGCCGGAACCATCGGCGCACTGTTTGGCACTCCTGTTGCGGCGGCG +TTGATATTTTCGCAAACCTTAAATGGCAGTAGTGAAGTTCCGCTATGGGATCGTCTCTTTGCGCCGTTAA +TGGCGGCAGCAGCTGGTGCACTTACTACCGGATTATTTTTCCATCCTCATTTTTCACTGCCCATTGCTCA +TTACGGACAGATGGAAATGACCGATATTCTCAGCGGTGCAATTGTCGCGGCGATTGCCATCGCAGCAGGG +ATGGTCGCCGTATGGTGCTTACCACGGTTGCACGCGATGATGCATCAAATGAAAAATCCGGTGCTCGTGC +TGGGTATTGGCGGATTTATTCTCGGTATTCTGGGGGTTATTGGTGGACCAGTTTCGCTGTTTAAAGGGCT +GGATGAGATGCAGCAGATGGTGGCAAATCAGGCTTTCAGCACCAGCGATTACTTTTTGCTGGCGGTAATT +AAACTTGCCGCCCTGGTCGTTGCTGCCGCCAGTGGCTTTCGCGGTGGGCGAATCTTCCCGGCAGTGTTTG +TCGGCGTGGCATTAGGGTTGATGCTGCATGAGCACGTTCCCGCCGTACCAGCGGCAATAACCGTTTCTTG +CGCTATTCTCGGCATCGTGCTGGTGGTAACACGCGATGGCTGGTTAAGTCTTTTTATGGCGGCAGTCGTT +GTACCCAATACCACATTGCTACCGCTGCTCTGTATCGTCATGCTTCCGGCATGGCTGTTATTAGCAGGTA +AGCCGATGATGATGGTCAATCGTCCGAAGCAACAGCCACCCCACGATAACGTTTAGCAAAAAATGCTCTC +CTTTATGATTTAAGAGTTATGGCGATGATACGGGGCTTTACCTCCCCGTAATATTGCGTTAACAGGCCGC +TGACGGCTTCGAGCGTGAAGGAGAATAACAATGTTCAGGTCACTGTTTCTGGCGGCCGCCCTGATGGCAT +TTACCCCGCTTGCAGCAAACGCAGGTGAAATCACCCTACTGCCATCAATCAAATTACAAATTGGCGATCG +CGATCATTACGGTAATTACTGGGACGGTGGTCACTGGCGCGACCGTGACTACTGGCATCGCAATTATGAG +TGGCGCAAAAACCGTTGGTGGCGTCATGATAATGGCTACCACCGTGGCTGGGATAAGCGTAAAGCGTATG +AGCGTGGCTATCGTGAAGGCTGGCGCGATCGTGACGATCATCGCGGAAAAGGCCGGGGTCATGGGCACCG +CCATTAAACGCGTCCGCCAATGGAGCACAATGCCTGATGCGACGCTAGTGCGTCTTATCAGGCCTACAAA +CCGGCTCTTTAACGCGTAGGGCGGATAAGGCGTTTACGCCGCATCCGCCAATAGTGCCAGATGCGACGCT +CATTCAACTACAATCCCAGCGCCGTCCCCACCAACAACCAGATATTCAGCGCCACGACCAGCACCACAAT +CACCCAGCCTGTCTGTTTTACGCGTTTGCTGTTCACCAGATCGCCCATCAACTTGCTGTCACTGGTGAAA +ATCAGCAGTGGAACCAGCGCCAGAGCGATACCAAAACTTAACAGTACCTGACTCATAACCAGAATCCGTG +TCGGATCTAATCCCATCAGAATGACAATAAATGACGGCAACATGGTGACTGTACGACGCACCCACAGCGG +GATATGAAAGCGAATGAAGCCCTGCATCACCACCTGCCCCGCCAGTGTCCCCACCACCGTTGAAGACAGC +CCCGCAGCAACCAGGCTTAATCCAAAGACCGTTGCCGCAGCGTGGCTTAACAGCGGTTGCAGCGTCAGAT +AAGCCTCATCAAGATCGGCAACACCAGTATGACCGGAAAAGTGGAACGCCGCCGCAGCTGTAGCCATCAT +CGCCAGATTGACAAAACCGGCAATAGTCATGGCGATAGCCACATCCCATTTGGTGGCGGAATAACGTTGT +TGACGCGAACCGCCATGTAAATGCTGAGTGAGCGAGGAGTGCAAATAAATCACATGCGGCATAATCGTCG +CCCCTAACACGCCTGCTGCCAGGAAGACCGCTTCCGAAGTAGGTAAACTCGGGATCACCATTCCTTTACC +CAGCTGCGCCAGGTTAGGCTGGGAGAAAATCAACTCGACAATGTAAGCCGCGGCAACAAACAACAGTAAC +CCGCCAATCACTTTCTCCAGCGGTTTTTGCCCGCGACGTTGCAGCATTAAAATCAGGAAAGTCGCGATCC +CCGTCAGCACCGCGCCCTGCAACAACGAAACACCAAGAATGAGTTTAAAACCGATCGCCGCACCAATAAA +TTCCGCCAGGTCGGTTGCCATCGCAATAATTTCTGCCTGAACCCAATAGAACCACACTACGGGACGCGGA +TAGTGATCGCGAATCTGCTCCGCCAGATTTTTACCGGTGGCAATCCCTAGTTTGGCAGAGAGGATCTGAA +TCAGCATCGCCATCAGGTTGGCCCAAACGACAACCCACAGTAGCTGATAGCCGAAGCTAGCACCCGCCTG +AATATTGGTCGCAAAGTTACCGGGATCGATATAACCAATCGCCGCAATGAACGCAGGTCCCATTAATGCG +AGCCTCATCTTGCGCGCCGCCCGTCCGCTGCTACTCTCAACGCGATAGTTCGTCATCTTGTGCCTCTAAA +ACATAGCCTTTGCTATGTTTCATGCTATGCCAAACGAGAATGATTATCAAATTCATTTAAATGGATTGTG +GTGATTTCTCTGATAGACCAGGATTATGACTACGAAAAGATTGATGACTTGAATGTTATGGTTATGTTTA +ATGTTAGCACATTTACATAACTTTCAGCTTCCATACACAACATAGCAGAAATGTATGACAGATCACTATT +TTTGAAGCCTGTCACAGGACGTCATTATAGTGTGTGTCAGATCTCGTTTTCCTTAACCATGTTACATAGA +ATGTGCACGGAAATTTAACCTGCCTCATATTTGGAGCAAATATGGACCGCGTCCTTCATTTTGTACTGGC +ACTTGCCGTTGTTGCGATTCTCGCACTGCTGGTAAGCAGCGACCGCAAAAAAATTCGTATCCGTTATGTT +ATTCAACTGCTTGTTATCGAAGTGTTACTGGCGTGGTTCTTCCTGAACTCCGACGTTGGTTTAGGCTTCG +TGAAAGGCTTCTCCGAAATGTTCGAAAAACTGCTCGGATTTGCCAACGAAGGGACTAACTTCGTCTTTGG +TAGCATGAATGATCAAGGCCTGGCATTCTTCTTCCTGAAAGTGCTGTGCCCAATCGTCTTTATCTCTGCA +CTGATCGGTATTCTCCAGCACATTCGCGTGTTGCCGGTGATCATCCGCGCAATTGGTTTCCTGCTCTCCA +AAGTCAACGGCATGGGCAAACTGGAATCCTTTAACGCCGTCAGCTCCCTGATTCTGGGTCAGTCTGAAAA +CTTTATTGCCTATAAAGATATCCTCGGCAAAATCTCCCGTAATCGTATGTACACCATGGCTGCCACGGCA +ATGTCCACCGTGTCGATGTCCATCGTTGGTGCATACATGACCATGCTGGAACCGAAATACGTCGTTGCTG +CGCTGGTACTGAACATGTTCAGCACCTTTATCGTGCTGTCGCTGATCAATCCTTACCGTGTTGATGCCAG +TGAAGAAAACATCCAGATGTCCAACCTGCACGAAGGTCAGAGCTTCTTCGAAATGCTGGGTGAATACATT +CTGGCAGGTTTCAAAGTTGCCATTATCGTTGCCGCGATGCTGATTGGCTTTATCGCCCTGATCGCCGCGC +TGAACGCACTGTTTGCCACCGTTACTGGCTGGTTTGGCTACAGCATCTCCTTCCAGGGCATCCTGGGCTA +CATCTTCTATCCGATTGCATGGGTGATGGGTGTTCCTTCCAGTGAAGCACTGCAAGTGGGCAGTATCATG +GCGACCAAACTGGTTTCCAACGAGTTCGTTGCGATGATGGATCTGCAGAAAATTGCTTCCACGCTCTCTC +CGCGTGCTGAAGGCATCATCTCTGTGTTCCTGGTTTCCTTCGCTAACTTCTCTTCAATCGGGATTATCGC +AGGTGCAGTTAAAGGCCTGAATGAAGAGCAAGGTAACGTGGTTTCTCGCTTCGGTCTGAAGCTGGTTTAC +GGCTCTACCCTGGTGAGTGTGCTGTCTGCGTCAATCGCAGCACTGGTGCTGTAAGACCATACATAAAAAA +GCCGGGGATAATTCCCATAAGCGCTAACTTAAGGGTTGTGGTATTACGCCTGATATGATTTAACGTGCCG +ATGAATTACTCTCACGATAACTGGTCAGCAATTCTGGCCCATATTGGTAAGCCCGAAGAACTGGATACTT +CGGCACGTAATGCCGGGGCTCTAACCCGCCGCCGCGAAATTCGTGATGCTGCAACTCTGCTACGTCTGGG +GCTGGCTTACGGCCCCGGGGGGATGTCATTACGTGAAGTCACTGCATGGGCTCAGCTCCATGACGTTGCA +ACATTATCTGACGTGGCTCTCCTGAAGCGGCTGCGGAATGCCGCCGACTGGTTTGGCATACTTGCCGCAC +AAACACTTGCTGTACGCGCCGCAGTTACGGGTTGTACAAGCGGAAAGAGATTGCGTCTTGTCGATGGAAC +AGCAATCAGTGCGCCCGGGGGCGGCAGCGCTGAATGGCGACTACATATGGGATATGATCCTCATACCTGT +CAGTTCACTGATTTTGAGCTAACCGACAGCAGAGACGCTGAACGGCTGGACCGATTTGCGCAAACGGCAG +ACGAGATACGCATTGCTGACCGGGGATTCGGTTCGCGTCCCGAATGTATCCGCTCACTTGCTTTTGGAGA +AGCTGATTATATCGTCCGGGTTCACTGGCGAGGATTGCGCTGGTTAACTGCAGAAGGAATGCGCTTTGAC +ATGATGGGTTTTCTGCGCGGGCTGGATTGCGGTAAGAACGGTGAAACCACTGTAATGATAGGCAATTCAG +GTAATAAAAAAGCCGGAGCTCCCTTTCCGGCACGTCTCATTGCCGTATCACTTCCTCCCGAAAAAGCATT +AATCAGTAAAACCCGACTGCTCAGCGAGAATCGTCGAAAAGGACGAGTAGTTCAGGCGGAAACGCTGGAA +GCAGCGGGCCATGTGCTATTGCTAACATCATTACCGGAAGATGAATATTCAGCAGAGCAAGTGGCTGATT +GTTACCGTCTGCGATGGCAAATTGAACTGGCTTTTAAGCGGCTCAAAAGTTTGCTGCACCTGGATGCTTT +GCGTGCAAAGGAACCTGAACTCGCGAAAGCGTGGATATTTGCTAATCTACTCGCCGCATTTTTAATTGAC +GACATAATCCAGCCATCGCTGGATTTCCCCCCCAGAAGTGCCGGATCCGAAAAGAAGAACTAACTCGTTG +TGGAGAATAACAAAAATGGTCATCTGGAGCTTACAGGTGGCCATTCGTGGGACAGTATCCCTGACAGCCT +ACAAAACGCAATTGAAGAACGCGAGGCATCGTCTTAACGAGGCACCGAGGCGTCGCATTCTTCAGATGGT +TCAACCCTTAAGTTAGCGCTTATGGGATAATTCCCCGGTTTTTTTACGCCTGTTAATCAGCTAATGGCTG +CGGGCGACCAATCAAATACCCTTGCAGATATTGCACCCCGAGCTTATGCAATAGCGCCTGCTGCTGTTGC +GTCTCGACAAACTCCGCGACCACACTCAATGACTTCGCTTTCGCCAGATCGGTAATTGATCTCACAATCA +TCGCATCCAGCGTGTTCGTGACAATATCTTTCACAAAGACGCCATCAATTTTGATGATATCAGCCTGCAA +ACGCTTTAACCGTTCGTAGTTGGCATATCCGGTGCCAAAGTCATCAATCGCAATCCGGAAACCAAACTTA +TGCAGCTGCTCGATGTTGTACATGCTGCTTTCTGCGTTAGAAAACGCCTGCTCCTCGGTGATCTCAAGAA +TGACCGCCTGCGGGGAGATGTGATAACGCTTAAACAGACGAATAATCCGCCCGGCAATATTCTTTTGCAG +CAGCGTGAGCGGCATTAAATTGACTGAAAAGCGCGGTCCTTTTTTGTCGCAAGGGTGTGTTGCCAGCCAC +TTCAACAAGGATTCCAGCACTTGCAAATCAAAACGCGCGCTAAGGTTAAACTGAGCAATAAGGGGCAGAA +ACTTATCCGGGGTCATAATGCCGCCGTCATATTTCAGTCGCGCGAGGATCTCATCATAACCTTCACCCTC +TTTGTTGCGAATTGGCTGGGCGTAGAGCAGCAAATCACCCTGATCTAACGCCGTGCGAATGGTATTCAGC +AATAGCACCTGTTTAGTGGTCTGCCCGGAAACCATCTCCTCTCTGCTATCCAGCGCCAGCACATGATGAT +GTGCGCAGGATTGCTCCGCCAGCCAGCTTAACTGCCCCAACAAGGGTTGCAGGGTTTCCTGATTTCCATC +AAAACGCCCCCAGGCAGCACCATAGCCCATATCCAGCCCGGTATTGTTCCAGTGAATTTGCCGACTATTC +AGGATGTTAACCATATGCTGGAGTCGCCCTTCCGTTTCCGGCCCGCTCAGCACTAACAGCAGTTCACTAC +CCGGCAATTGATACAACTTTTCGTTTTCCTGCATCAACGGCAGCAGCGTACGGCAAATTGAGCGGATACA +GTGAACGCGCATCATTAAGCCGTAATGACGACTCATAAACTCAAGATTATCAATGCGCAGGCAGCAAAAA +CTCTTGCCCGCCTCTTGCTCCGGCGCTTGTTCCAACGCACGAAAGTTGGGTAGGAGCGTTAACGGATCTG +TCAGCGCCTGCAAATGCCAGCGGCGATTAAGCCATTCACTGCGATGATAAATGCGCACCATATAGAGCAG +GCAAACGCTAAAGGAAATCAGCACCGCAAGAATAAATGCCAGCGAATATTCGGTTTCCACCCCTTGCAAA +AAGTTCTGGTTGTAATTCAGAAGGCAAAGCGTTGAAACAGCCCAGGTGAGATTTAAAAACGGATAGCGAA +GCTTACCGACCCCGAGGGTAAAGATGATGAAGAAAACGGGTACCAGGTAACCGGCAATAAAGTCGTTTTC +ATAAGGTGTGCACAACAGAAGTAGCAGCACGCTTAACGCTGCCAGCCAGCTTAAGGTAAATGCGCGTTTC +TCTTTGCCCAACGACGGAGCGATATCCCTGCGCCACAATATCTGCGCAAAGTGGGGACTTACAATCATGC +GAGTGAGATAGTAGAAAAGCATGTTGTAAATCAGCACAGCGGTGAAAAGGCTTAGCAAATCAACGACCGT +GAAAATGGCATCCGCATCGCCGAAAAAGGTGGATATCTTTAGCGGGAAATCAAAGAAGCTCCCCACAAGA +TACATGCTGCATTTGATGCCGATCGGCGTCACCAAACCAAGCCAGAACAGACGTTGCCAGACATATCGGC +TGGTCAATCCATAACGCCAACGCGTCCCCAGCTGCCAGCGTAATATTGCGCAGGCACACAACACGACAAA +CGTCTGGCTACCGAGCATGACCGCAGTCTGTAAAAAAGAGAGATGAAAGTTCCACAGATTGGTGCAAAAC +ATCCCGCATAAAACGGGAACGACACCGCGCCAGCCAAAGATAAACAAGATTGACAGCATTACGCACAGTG +GCATCCACGCCAGAAAGATATAACTGGAATGGATAATGGCAAGTGGCGAAATAAAACGGGATAGCTGAAT +AAGTACCACGGTGAGCGTAAACGCTAGTGTGAATATCTTGATATTTTTTATCAGGTTATGCTCCACAAAC +ATGAGTACACTACTCTCACTGATCGGGGTTTTCAGGCACACAAATAATAAGTTTATTCGCATCGCGAAGC +AAACAGGGGGCCAGCCTGTTGCCGATTTTTCATCCAATGATGCTTTCACCAGGCGGCACTAACCCGGACG +TAGACTGTATTACAAAAGCGGCAAAAAGCAGAGACAAAAAACCCCCGCTTTGCAGCGAGGGTTGGAAATT +TGGTGGAGCTAAGCGGGATCGAACCGCTGACCTCTTGCATGCCATGCAAGCGCTCTCCCAGCTGAGCTAT +AGCCCCACGATGCGTTTACGTACCAAGTTTGCTGGGTGCAAAATTTGGTGGAGCTAAGCGGGATCGAACC +GCTGACCTCTTGCATGCCATGCAAGCGCTCTCCCAGCTGAGCTATAGCCCCGTCACGTAAAGCTTGTCGA +GTTGACGGGCGGCATCATATGAATTCCGCCCGAATGTGTCAACGGCAAATTGCAACGTGTAGTTTCAATC +GCTGAAAAATCAGGCAAATGAACAATTTTGGAAAACCGCTCGCATTCAGTAGTTATTCATGTCACGGTTT +CCTGTAAAGTGGTGTTATAAAATGAACTACTAATAGACCCACATACATTCAGGGAATTGTTATGTTCAAG +GAGAGGATGACACCAGATGAACTTGCCAGACTGACCGGCTATAGCCGCCAGACCATTAATAAATGGGTAC +GCAAGGAAGGCTGGACAACGTCACCAAAACCTGGCGTCCAGGGTGGCAAAGCCCGACTGGTTCACGTCAA +TGAACAGGTTCGTGAATATATTCGCAATGCTGAACGTCCAGAAGGTCAGGGAGAAGCGCCTGCCCTTTCT +GGTGATGCGCCGCTTGAAGTATTGCTGGTGACACTGGCGAAAGAGATGACGCCAGTTGAACAAAAACAGT +TTACATCCTTGCTTCTGCGGGAAGGGATTATCGGATTGTTACAACGCTTAGGGATTCGCGATAGCAAATA +ATATGAAAAGATTACGCAATAAAATGACCACCGAAGAACTGGCTGAATGCCTCGGTGTGGCTAAACAAAC +TGTTAACCGTTGGATCAGAGAAAAAGGCTGGAAAACGGAAAAATTTCCCGGCGTGAAAGGCGGTCGTGCC +AGACTTATTCTGGTCGATACGCAAGTTTGCGAGTTTATTCAGAACACGCCAGCCTTCCATAACACACCAA +TGTTGATGGAAGCTGAAGAGAGAATTGCTGAATACGCTCCTGGAGCACGCGCCCCGGCGTATCGACAAAT +CATCAACGCGATAGATAATATGACAGACATTGAGCAGGAAAAAGTCGCGCAATTTTTGTCACGTGAAGGA +ATTCGCAATTTCCTCGCCCGTCTCGATATTGACGAATCAGCATAAATAAAAAACGGCAGGATATTATCTC +CTGCCGTTTATCTTTTTACACGCTAATTACTGCTGATTTTCGCGTTCAGCAATAAAATCCAGCGCTTTGT +TGATACGCTCGATACTGCGGGTCTTACCAATTGCGTGAACGGTAACATCCAGTGCTGGAGACTGCCCCGC +ACCGGTTACGGCGACACGCAGCGGCATACCAACTTTACCCATACCCACTTCCAGCTCATCCGCCGTCGCC +TGAATAGCGTGATGAACGTTTTCAGCGGTCCAGTCAGTAATCGCGGCCAGTTTGTCACGAACCACTTCCA +GCGGCTGACGCGCTACCGGACGCAGATGTTTTTTCGCGGCGTCGGCATCGAACTCAGCAAAATCTTCGTA +GAAATAACGGCAGCTCTGTGCCATCTCTTTCAGCGTCTTGCAGCGTTCGCCCAGCAGTTTCACCAGATCA +GCCAGCTGCGGGCCGTTACGGGTATCGATATTTTCCTGCTCAATGTGCCACTGTAAGTGAGTAGCAACAT +ACTCCGGCGGCAGCGCGTTAATGTAGTGATGGTTCAGCCACAGCAGCTTGTCGGTGTTGAACGCACTGGC +AGATTTGCTGACGGCATTCAAAGTGAAGTATTTGATCATCTCTTCACGAGTGAAGATTTCCTGATCGCCG +TGGGACCAGCCCAGACGCACCAGATAGTTCAGCAGTGCTTCTGGCAAATAACCGTCATCACGATACTGCA +TTACGCTGACTGCCCCGTGACGTTTGGACAGTTTTTTACCGTCATCGCCATTGATCATAGAAACGTGCGC +GTAAACCGGCACCGGCGCTTTCAGGGCCTTAAGAATGTTGATCTGGCGTGGCGTGTTGTTGATATGGTCT +TCGCCACGGATAACGTGGGTGATTTCCATATCCCAGTCATCGACAACCACACAGAAGTTATAGGTTGGGG +AACCATCGGTACGGCGGATAATAAGATCGTCCAGTTCCTGGTTGCTGAACTCGATCGGACCACGGATCTG +ATCGTCAAAAACAACAGAACCTTCCTGCGGGTTAGCAAAACGTACAACACACGGTTCATCATCAGCATGA +TGCTCATGGCTGTGGCGGCAGCGACCGTCATAACGCGGCTTCTCACCTTTCGCCATTTGCTCTTCGCGCA +GCGCTTCCAGGCGCTCTTTAGAGCAATAGCATTTATAAGCAGTGCCCTCTTCCAGCATCTGATCGATCAC +CGCGTTGTAGCGATCAAAACGTTTGGTCTGGTAGTACGGACCTTCATCCCACTCCAGGCTCAGCCAGTTC +ATGCCATCCATAATGGCTTCGATAGCTTCCGGCGTGGAACGCTCAAGATCGGTGTCTTCAATACGCAGCA +CGAACTCACCGCCGTGGTTACGTGCAAAAAGCCAGGAGTAAAGAGCAGTACGCGCGCCGCCAACGTGCAG +ATAGCCTGTTGGGCTTGGCGCGAAGCGAGTTTTGATTTTCATGAAATGGCCTTACGTTTAGAAAGATGCC +GACAACCGGCAAATCCTGGAAAAATTAAGTGGGCGATATTCTATCACTCCCGCCTGATTCCTCAATGTAG +TTCGGGTTTCTACCTTACGCATTATTGTTTTCGTTGACAAATTGCGCAACACGGTCTGTTTTGCGATCAT +CTTGCTTAAATTTACGACGAACGAACAATTTCTTTAGAAAATGCGTTGACTCATTTTGAACTCTCCCTAT +AATGCGACTCCACACAGCGGGGGTGATTAGCTCAGCTGGGAGAGCACCTCCCTTACAAGGAGGGGGTCGG +CGGTTCGATCCCGTCATCACCCACCAACTACTTTATGTAGTCTCCGCCGTGTAGCAAGAAATTGAGAAGT +GGGTGATTAGCTCAGCTGGGAGAGCACCTCCCTTACAAGGAGGGGGTCGGCGGTTCGATCCCGTCATCAC +CCACCACTTTCTCGCCAGCTAAATTTCTTGTAAAAATGTGAAGTACCGAAGTGGGTGATTAGCTCAGCTG +GGAGAGCACCTCCCTTACAAGGAGGGGGTCGGCGGTTCGATCCCGTCATCACCCACCACTTCGGGTCGTT +AGCTCAGTTGGTAGAGCAGTTGACTTTTAATCAATTGGTCGCAGGTTCGAATCCTGCACGACCCACCAAT +GTAAAAAAGCGCCCTAAAGGCGCTTTTTTACTATCTGCGATACTCAAAGATTCGAACCTGCAGCAGGTTT +GAGTTGAGCGCAGCGAAACAACGGAGCCGCTCGCGGCGACGGCCCGAAGGGCGAGCGAAGCGAGTCATCC +TGCACGACCCACCAATGTAAAAAAGCGCCCTAAAGGCGCTTTTTTGCTATCTGCGATTTGCGAAATTGCC +TGATGCGCTTCACTTAGCAGACTACTATTTCCGGCAATTCCTGTCTCCTCACCTACTGTGTCAATGCAGC +CAACAGCTTAACCATCGCGGGCGTCACCTGCTGTGTTTCATAAACAATATATAAATCTGCAGGGATGCGC +TGTTTGAGCGGACGGAAAATGACACCTGGCCAGTTCATTTGTGCGTAGCTGTCCGCTATCAATGTGATAC +CAATGCCCATACTGACCATAGCGAGTACCGTTTGCGGTTCATTAACTTCGCGAATAACAACCGGTGAAAA +TCCCACCTGCTGGCAAACTCGCTGCAAAAAATCCCAGTCAGTGTAAACGGGCGGCATTGTAACAAAATAC +TCGTCACGTAGCGCTTCCAGCGGGACGGTGGAAAATGATGAGAGATGATGCTCTTCAGGCATCGCCACCA +GAAACGCCGATTCATGCAACCGTAAGCTGGTAAAACCAGTCGGTGGTTCTGTCGCCATTCGCCAGATCCC +GGCATCAAGTTCGCGGCGTTCCAGCAAGGCCATTTGCATCGCGGGCATCTTTTCGCGAAAAAGAACGTCA +ACGTTAGGATTTTCCCTGAGGAATCGCCGCATAACCGGGCGCATCCGTCCCCACATTGCCGTTCCCACTA +CGCCGAGTTCAATCCGCCCTGCTTCTCCCCGACCTATTTGTTCAATCCGAGCCAATACATTATTAGCATT +CACCAGCAATCGACGCGATTCTTCCATCAAGATTTTGCCCGCGTGTGTCAGTACGACGCTGCGCGAATGG +CGAATAAAAAGCTGCGTGCCGAGTTGATTTTCCAGCTCTTTAATATGAATGCTGAGCGGAGGCTGAGACA +TATTTAAACGCGCTGCTGCGCGGCCAAAATGCAACTCTTCCGCTACGGCAAGAAAATAACGGAGCAACTT +AAGATCTGTTCTGTATACGCGTTCCATAATTAAGTGCTCCATATAATAAATACATCGTATTAAATTATCA +TGGCATAAAGTATTTCACCACCAGATATCCGACATACATAAACACAATGGATAATATACCCGGTAATACA +TTTGGTACAGGAATAGGCAAGCGCACGATTGTAAACAAAGCACCAATACCAAAACCAACGCCGGAAGAAA +ATAAAATATCTTTCACTAATTAACCTTTATCATAAAAGCAGCTCTGAAGAGCAGAGCCGCGAATCCTTTT +AATGAGTCACCGCTCGATGCTTTATCTTTTCAGGGTCATGATTATATTTAAACCCAAAGAAAAATATCAC +TGCGAGAAAAAGAGCATATCCTGCAAACACCAGCCAGATAGTTTGCCAGTCTTTTACGCCATCCACCGAA +AAGTAATCTACTGCCATGCCACTCAGAATCGAGCCAACCCATGCGCCGACACCATTTACCATGGTCATAA +AGAGCCCCTGCGCGCTGGCACGAATGCTGGAATCAACTTCCTGTTCGACAAATACCGAACCAGAAATATT +GAAGAAATCGAATGCACAGCCATAAACAATCATCGACAGCAGCAGCAAAATAAATCCGGTTGTTGACGGA +TCGCCATAGGCGAAGAAGCCAAAGCGCAGCGTCCAGGCCACCATACTCATCAGCATGACGGTTTTAATGC +CAAATCGCTTTAAAAAGAATGGGATAGTCAGTATAAAGCCCACTTCTGCCATCTGTGAAACTGACAGTAA +AATGGAGGGATATTTCACCACAAAACTGTCAGCAAACTCCGGGTTACGGGCGAAATCATGTAGGAACGGA +TTACCAAAAACGTTGGTAATTTGCAGTACCGCACCCAGCATCATGGCAAAGAGGAAAAAGATGGCCATGC +GTGGATTTTTAAACAGCACGAAGGCATCCAGACCCAGCTTGCTGGCAAGCGATGTGGTCGCTTTTTTCTC +CGCAACCGGAATCTTCGGCAAAGTCAGCGCATAAGCCGACAGCAGCAATGACGCACCGGACGCGATATAC +AGCTGCAGACTACTCAATTCCAGATGCAGCAGGCTTACTGCCCACATCGCGACAATGAACCCCACCGTAC +CAAAAACGCGAATGGGCGGGAAAGCGGTCACCGGGTCAAGCCCTGCCTGGGCAAGACAGGAATAAGAGAC +GCTGTTCGATAACGCAATAGTCGGCATAAACGCCATCGCATTGACTAACATCACCCAAAACATCATATCC +GGATCAGTTACGGATGCCGCATAAAAAAGTACGCCCGCACACACCAGGTGACACAGCATGTATGCACGTT +CTGCGCGCAGCCATTTGTCTGCGATGATCCCCATTATACCAGGCATAATAATCGCGGCGATCCCTTTGGA +ACTGTAAACCATGCCAACATTAGCGCCGGTGAAATGAAGAGTATTAATCATGTAAGAGCCGAGGGTAACC +AGCCAGCTCCCCCAGATAAAATATTGCAAAAAGGACATTACCTTTAAGCGCATCGCGATGCTCATAATCG +TTTCCTTGTCGCATCATTTGGCCTCACCCGCGAGGCCGTTTCTTATTGTTTTTCTCAGGCAATTTTGCGC +AGAAAGCCACAAATAAGGTTGATGAAGTTCTGCTTAGAGAGCTCCGCAGCCGCCAGCGTTTGCGCATGTG +ACAATTTCACATCGCTTAAACCTTCCGCCATATTGGTAATCGCAGAGACCGCAACGACTTTAAGGTCGCA +ATGGCGAGCTGAAATAACCTCAGGCACCACAGACATACCAACAACATCCCCACCAATAATTTGCATCATG +CGAATTTCCGCCGCAGTCTCGAAATTCGGCCCCGGATACGAGACGAACACGCCCTCCGTCAGAGGGAAAC +CCTCTTCTTTCGCCACTTTTTGTAACAGTGCGCGGTATTCCGCATCGTAGGCATTTGCCAGTGAGAAGAA +GCGCTCTCCAAAACGATCATCGTTAAGACCCACCATCGGCGTACCGGGCATGGTGTTGATATGATCTTTC +AATGCGACCAGGCTGCCTGCCCCCACTTCCGGACGCAGCGAGCCTGCCGCATTGGTGCAGAACAGTAGCT +CGCAGCCCAGCAGCTTAAAGGTACGAATTGCGTCAGTCATAATGGTCATTCCACGACCTTCGTAGAAATG +TCCGCGACCTTTCATACATACCACCGGTACGCCCTGGAGATGGCCCAGCACTAACTCCCCCGCATGACCA +TGTACCGTACTTACCGGGAAGCCCGGCAGCTTTTCGTAGGAAATTGCGACAGCGTTCTCAATCTGATCGG +CCAGCGCGCCGAGCCCGGAACCTAAAATAAAGGCCACTCGTGGCGTGAAATCAGGTTTATAAGTCTTGAT +AATATCTATGCAAAACAGCGGGTTATGAGAAAATTGAACCTGAGACATACATATCCTTTTTCTGTAGGGT +GGAATCTAACGCCTTTTTATAGCGAGGTTGTCCCGGCTCTTACCAATACACTTTTCTCACGCATTCAATA +GCGATTCGATATCGATGGATTTATATCTTTTCTCTATTAATCCACGGTAAAAACTGTATTGGCGATATTA +ATTCCTTTGCATTAACAATATGTCGTTTTTAGCAAACCACTTTATTAAGCAATCTACTAATAACGATCGG +CATAGGGAATTATGCTATGAAAAAACATCTTTTAACTCTGACACTTTCCTCTATATTAGCGATACCTGTT +GTATCTCATGCAGAATTTAAAGGCGGTTTTGCAGATATCGGCGTGCATTATCTGGACTGGACCAGCCGGA +CTACCGAAAAATCGTCGACCAAATCACACAAAGATGATTTTGGTTATCTTGAATTTGAAGGTGGCGCTAA +CTTTAGTTGGGGAGAAATGTACGGGTTCTTCGACTGGGAAAACTTCTATAACGGTCGCCATAATAAACCA +GGTAGCGAGCAGCGTTATACCTTTAAAAATACCAACCGTATTTACCTGGGTGACACCGGATTTAATCTCT +ACTTGCATGCGTATGGCACCTACGGTTCTGCGAATCGCGTGAATTTCCACGACGATATGTTCCTGTACGG +TATCGGCTACAATTTCACCGGCAGCGGTTGGTGGTTCAAACCGTTCTTTGCTAAGCGTTATACAGATCAA +ACCTATTACACTGGCGACAACGGCTATGTCGCCGGCTGGGTTGCAGGTTACAACTTTATGCTGGGCAGCG +AGAAATTCACTCTTACCAACTGGAACGAGTACGAGTTTGACCGTGACGCTACCTATGCAGCGGGTAATGG +CGGTAAAGAAGGGCTGAATGGCGCAGTTGCACTGTGGTGGAATGCAACATCACACATTACTACGGGGATT +CAGTATCGATATGCGGATGACAAACTGGGCGAAGATTTTTACCAGGATGCGATAATCTACTCCATCAAAT +TTAACTTCTGATTGATTACTGCCGGGGCTCCCGGCAGTATGAATTCACTCTATATCTGATACAACGGATC +CCCTTCCCGCCCAGCCATTAGCGCATTGCCCTGGTCTCGTACCACGTCCCATAAAGCTTCAGCGGCGGTG +GAAAGTGAACGGTTCTTCCTGCGCACCAGCATCAACTGGCGTTCAACAACCGGCGTAATGCGCTTTACCA +CCAGTGGGCTACCTTCAGGCAATGGTAGCGCCAGTGCGGGAAGAATACTGATGCCGATGCCTGCGGCTAC +CATCGGGAACAGCGTCGCCGGATGTCCAATCTCCTGCACAATATTCGCCTGAATACCATTGCGCGCCAGC +GCTGCGTCAATCAGCGGTCGGCTGCCTGACGCGTAATCCTGCAACACCAATTTCGCTCCCTGTAATGCCT +GCCAGGGTACATAATCTTCCACGGCCAAAGCGCTATCGCGATGGCAAAGCAGAAAGAAAGGCTCGGAAAG +AATCGCTTCACATTGCAGATCGCCCACTGGGCCTGGATCGATGACGATGCCAAAATCGACATCTCCCTGG +CGAATACTTTCCATTACCCACTGCTGCGGACGATCGTGCAGGACAAACTGAATATCTGGATAGCGGCGAT +GGCTTTCAGCAATGCATTGCGGAATAAGATGCGCGGAAATGGTCTGGCTGGCAGCGACCCGAACTTTTCC +GCTCAGTTGTTGCCCCATACGCCCGGTATCGCGCAACGTGCTGTTCAGTTCATCCAGCAGTCGCTCAAGA +CGCAAAGCCAGCTGCTGCCCTGCATCTGTAAGCACCACTTCACGCGTGGTTCTGTCCAGCAGGCGAACAC +CAGTATGATTTTCCAGTTCCTTCACACTGTGACTCACTGCCGACTGGCTCAGGCCGATACGCTCTCCTGC +ACGACTAAAACTTTTCTCCTGCGCTACTGTGACGAAAACCTTTAATTGTTTTAAAGAATAATTCATCTGT +TTTCTTCATGAATGGATGCAATAAATCAATTTTATTTCTCAAACTGGAAGAAGCACAATAGAACCATCGA +TCATCTGGAGTCTTTATGAAACTTTTTCGTATCCTCGATCCTTTCACCTTAACCCTGATCACGGTGGTGT +TGCTGGCCTCTTTCTTTCCGGCCAGAGGCGATTTCGTCCCCTTCTTTGAAAATCTGACCACCGCAGCTAT +TGCCCTGCTGTTCTTTATGCACGGCGCGAAGTTGTCGCGTGAGGCGATTATTGCTGGCGGTGGTCACTGG +CGACTGCATTTGTGGGTAATGTGCAGCACCTTCGTGCTGTTTCCGATTCTGGGTGTACTGTTTGCCTGGT +GGAAACCGGTAAATGTCGACCCGATGCTCTACTCCGGTTTTCTCTACTTGTGCATTCTCCCGGCTACCGT +GCAGTCTGCAATCGCCTTCACGTCAATGGCGGGCGGTAACGTCGCGGCAGCGGTTTGTTCTGCGTCGGCA +TCCAGCCTGCTGGGGATTTTCCTTTCACCATTGCTGGTTGGTCTGGTGATGAATGTTCACGGTGCAGGGG +GCAGCCTTGAGCAGGTCGGTAAAATTATGCTGCAACTGCTGCTGCCGTTTGTGTTGGGGCATCTTTCCCG +GCCGTGGATTGGTGACTGGGTGTCGCGCAATAAAAAATGGATTGCGAAAACTGACCAGACGTCCATTCTG +TTGGTGGTTTATACAGCGTTCAGCGAAGCCGTCGTTAATGGTATCTGGCATAAAGTTGGCTGGGGATCAT +TGCTGTTTATCGTGGTGGTCAGCTGCGTTCTTCTGGCTATCGTGATTGTAGTTAACGTCTTTATGGCACG +CCGACTGAGCTTCAATAAGGCAGATGAAATTACTATCGTCTTTTGTGGTTCGAAAAAGAGTCTGGCAAAT +GGCATCCCGATGGCAAACATTCTGTTCCCCACATCGGTGATCGGTATGATGGTGCTGCCCCTGATGATTT +TCCATCAGATCCAATTGATGGTCTGTGCGGTGCTGGCGCGTCGATACAAACGCCAGACCGAACAGTTACA +GGCGCAGCAGGAAAGCAGCGCCGATAAAGCTTAAAGCGGACGCTTCAGGGGCTGGACCAGTTGCGTCAGC +CCCTCGGTTTTAATCAGCAGCGTGATTTGCATTAGCTCACCGAGCTTCCCTGCCGGGAACTCATCTTTGC +GGGCAAACCACAGCAGATACTCCTCCGGCAGGTCGATTAAGCGACGCCCTTTGTATTTGCCAAACGGCAT +TATCGTATTGGCTATTTCAATCAGCTGCTCTTTTTCCATCTCAGCTACCCAGCAAACGCAGCATTTCCGC +TTCGTCGATGACTTCAATGCCCAGTTCCTGCGCCTTCGCCAGTTTAGATCCTGCAGCTTCACCCGCTATC +ACCAGATCGGTTTTCTTCGACACGCTGCCCGCGACTTTCGCGCCCAGTTCGACCAGTCGAGCTTTAGCGT +CATCACGCGACATCTGGCTTAAGCTGCCCGTAAGCACCACGGTTTTACCAGCAAACGGGCTGTCAATCTC +TTCCGCGTTGATAACGATCGGCGCAGGCCAGTGAACACCTTCCGCCAACAGCTCGCTGATGACATTGCGG +TTGCTTTCTTCGGCAAAGAAGTTGTGAACGTGGGATGCAACGACAATGCCAACATCAGGCACCTTTTGCA +GCTCTTCAATCGAAGCGGCTTCCAGCGCTTCCAGCGTGCCGAAATATGCCGCCAGACCTGCTGCGGTGGC +CTCGCCGACTTCACGGATGCCAAGTGCATAGAGGAAGCGAGCAAAGGTGGTTTCTTTCGCTTTTTCCAGC +GCGTTAACCACGTTTTGTGCCGATTTTGGCCCCATACGCTCCAGTCCGGTCAGTTTGCCTGCGGTGAGTT +TGAACAGATCTGCCGGAGTATGGACATATTCTTTTTCAACCAGCTGATCGATGATTTTGTCGCCCATTCC +GTCAACATCCATCGCACGGCGGGAAACAAAGTGTTTCAGCGACTCTTTACGCTGCGCACCGCAAATCAGG +CCACCGGTACAGCGGGCAACCGCTTCACCTTCCACACGCTCAACGTCAGAACCACATACCGGACAATGCG +TCGGGAATACAACCTCACGGGTATCTTCCGGGCGTTCAGAAAGCACGACGTTAACCACCTGCGGGATCAC +GTCGCCAGCGCGGCGAATCACCACTTTATCGCCAATGCGTAAACCAAGACGTTCGATTTCATCCGCATTG +TGTAAGGTTGCGTTACTCACCAGCACGCCTGCAACATGGACAGGTTCCAGACGCGCAACAGGCGTAATCG +CGCCAGTACGCCCAACCTGAAACTCGACGTCACGCACAAAGGTCATCTGCTCCTGCGCCGGGAATTTAAA +CGCTACCGCCCAGCGCGGGGCACGCGCGACAAAGCCAAGCTGCTCCTGCTGTGCCAGTGAGTTGACCTTA +ATCACCACGCCGTCGATATCAAAGCCCAGCGTCGGGCGGTCTTCTTCCACTTTGTGATAGAACGCCAGCA +CTTCTTCCGCCGATTCACAAAGCGTTACCCGATCGCTGACCGGCAACCCCCACTTTTTAAATTGCAGTAA +ACGGCCAAGATGAGTATCCGGCAGCTCGCCACCTTCCAGAACACCAACGCCATAGCAGAAAAAAGTGAGC +GGTCGCTTCGCTGTAATACGCGGATCAAGCTGACGCAGTGAACCAGCTGCCGCATTACGTGGGTTAGCAA +ACACTTTCCCGCCCGTGCGTCGCGCATCTTCGTTAATCTTTTCGAACCCCGCCTGCGGCAGGAACACTTC +ACCACGCACTTCCAGACGCGCCGGGATATTCTCTCCGTGCAGCTTCAGCGGAATGGCGCGAATAGTACGC +ACATTAGACGTGATATCTTCCCCGGTGGTGCCATCGCCACGGGTCGCGGCACTGACTAAAACGCCATTTT +CATACAGAATACTGACGGCAAGACCATCCAGCTTCAGCTCACAGCACCAGGTGACTTTCTCGTTGTTTTT +CAGACGGTCCTGCACACGTTTGTTGAAAGCAAGAAAGCTTTCTTCATCAAAAACGTTATCCAGTGACAGC +ATTGGTACTTCATGGCGTATCTGGCTGAAAGCCGCCAGCGGCGCAGCGCCTACACGTTGAGTAGGCGAAT +CAGGCGTAATCAGTTCTGGATGTTTGGTTTCCAGCTCGCGCAGTTCGCGCATCAGCCTGTCGTATTCAGC +GTCGGGAATTTCCGGCGCATCCATCACATGATAAAGATATTCATGATGGCGAAGCGTCGTTCGCAGTTCT +GTCAGTTGTTGTTCGATTGATTCCATATCGCACCATCAATGCTAAAAACCCCCGACAAGCGGGGGTTCGA +AGAGGAGTTAATTTGCCTTAAGTGTATCAGGCGTTGGCGTCTTTGACTTCGCGGATGATGTCCTGGTACT +CGCGCAATTTCTGCGGAGTCATCATACGGCGCTGATCGTCAAGCACGACACCGCCCACTTCATCGGCAAT +ATGCTGCGCAGATTGCAGCATCAGCTTGAAGTTCTGCAGCTCGTCACCGTAAGACGGTACCTGCATAAAG +ATAGTGACACCCGGAGTAGTGAAATCCTTCATTTCAGGATCAAAGGTTCCCGGTTTCACCATATTCGCCA +GGCTGAATAACGCCGGGCCGCTGCCATCCGGGCTAAGATGACGATGGTAAATATTCATATCGCCAAAAAT +GAAGCCCGCTTGTTGAATGCTGTTAAGAAGCAGTTCACCGTTTAGCTCGCTACCGTGATGCGCCGCGACG +TTCATGATAATCACCGCTTCTTTGCGCTTCGGTTTATCCATAACTGGAGCAGGTTCCGCTACAGGCTCAG +GCTGTGGTGCCGCTACGGGTTCTGCAGGCTGGAAAGCCTGTTGTGCCGGTTGCGGTGCTGAATGCACAGG +CTGCGGCGCTGGCGCGACCTGTGGCGAAACTGGCTGCTGCAACGGCTGTTCAGGCTGCGGCTGATAGGCA +GGCTGCTGCACCGGCTGCGCTGGATGCGGAGCATGTTGCGGCGGTACCTGCGCTTCAGGCGGCTGCTGGA +CCGGTTGACGCGGCTGCGCAGACGCATAAGGCGGTTGGTACTGGTGTTGCGGCGACGGACGAGCAGCCTC +ATGCTCCTGAGCGTTAGCCGGGGCATGATTCACGCGGTGAACACGAACCTCACCAACGCCCTCATCATCT +TCGACATCCTCGTCATAAGAATCGTCGTCACGTTTTGACTTCATTCGTTTTAATGGCCGATCGCGGAACA +TAGAAGATCGTTCTTTACGGCTGGTCCAGAAACCATGTACCAGTAAAGCGATTATGGCGATCGCGCCAAC +AATGATTAATATCAGACGCAAATCCTGCATCATTATATTCTCTGTTGTTCTAACACCTTGCCACCACGGC +AAACATTTACTCACTAAGAGTATTTGCCGATTACCTCAAGTGCAAGTGCACTATTAACTTTCACAGCACA +AAGATAGATGAAATCGTGCTTTTTGCTGTTTTTTCGAACATATCCTAACTGTCCATTGCGCAATTACCCG +GTAAAATACGCAGAATTTTCCTGGGATTGGTCAAAAGGAGCTCATCCTGATTATGGTTTCATCATTCACA +TCTGCCCCACGCAGCGGTTTTTACTATTTTGCGCAAGGCTGGAAGCTCGTCTCGCAACCTGGGATTCGGC +GTTTCGTTATTTTACCGCTGCTGGTCAATATTTTGTTGATGGGGGGCGCATTCTGGTGGCTCTTTACACA +GCTCGATGTCTGGATCCCGACTCTCATGAGTTACGTTCCGGACTGGCTACAATGGCTGAGTTATCTGTTG +TGGCCTCTGGCTGTCATCTCTGTGCTGTTAGTGTTTGGCTATTTCTTCTCCACGATTGCTAACTGGATTG +CCGCTCCGTTTAACGGTTTATTGGCTGAACAACTGGAAGCACGATTGACTGGCGCTACACCGCCAGATAC +CGGGATTTTCGGTATCATGAAAGATGTGCCGCGAATCATGAAACGCGAATGGCAAAAATTTGCCTGGTAT +CTGCCGCGCGCAATTGTATTACTAATTCTTTACTTCATCCCTGGTATTGGGCAAACCGTCGCGCCGGTAC +TGTGGTTCCTGTTTAGCGCCTGGATGTTAGCCATCCAGTATTGCGATTACCCCTTCGATAACCACAAAGT +GCCGTTTAAAGAGATGCGCACCGCCCTGCGCACACGCAAAATCACCAATATGCAGTTTGGTGCTTTAACC +AGCCTGTTTACGATGATCCCGCTGCTTAATCTGTTCATCATGCCCGTTGCCGTTTGTGGCGCGACGGCGA +TGTGGGTCGATTGCTATCGCGATAAACACGCGATGTGGCGGTAACAATCTACCGGTTATTTTGTAAACCG +TTTGTGTGAAACAGGGGTGGCTTATGCCGCCCCTTATTCCATCTTGCATGTCATTATTTCCCTTCTGTAT +ATAGATATGCTAAATCCTTACTTCCGCATATTCTCTGAGCGGGTATGCTACCTGTTGTATCCCAATTTCA +TACAGTTAAGGACAGGCCATGAGTAAGATTTTTGAAGATAACTCGCTGACTATCGGTCACACGCCGCTGG +TTCGCCTGAATCGCATCGGTAACGGACGCATTCTGGCGAAGGTGGAATCTCGTAACCCCAGCTTCAGCGT +TAAGTGCCGTATCGGTGCCAACATGATTTGGGATGCCGAAAAGCGCGGCGTGCTGAAACCAGGCGTTGAA +CTGGTTGAACCGACCAGCGGTAATACCGGGATTGCACTGGCCTATGTAGCTGCCGCTCGCGGTTACAAAC +TCACCCTGACCATGCCAGAAACCATGAGTATTGAACGCCGCAAGCTGCTGAAAGCGTTAGGTGCAAACCT +GGTGCTGACGGAAGGTGCTAAAGGCATGAAAGGCGCAATCCAAAAAGCAGAAGAAATTGTCGCCAGCAAT +CCAGAGAAATACCTGCTGCTGCAACAATTCAGCAATCCGGCAAACCCTGAAATTCACGAAAAGACCACCG +GTCCGGAGATATGGGAAGATACCGACGGTCAGGTTGATGTATTTATTGCTGGCGTTGGGACTGGCGGTAC +GCTGACTGGCGTCAGCCGCTACATTAAAGGCACCAAAGGCAAGACCGATCTTATCTCTGTCGCCGTTGAG +CCAACCGATTCTCCAGTTATCGCCCAGGCGCTGGCAGGTGAAGAGATTAAACCTGGCCCGCATAAAATTC +AGGGTATTGGCGCTGGTTTTATCCCGGCTAACCTCGATCTCAAGCTGGTCGATAAAGTCATTGGCATCAC +CAATGAAGAAGCGATTTCTACCGCGCGTCGTCTGATGGAAGAAGAAGGTATTCTTGCAGGTATCTCTTCT +GGAGCAGCTGTTGCCGCGGCGTTGAAACTACAAGAAGATGAAAGCTTTACCAACAAGAATATTGTGGTTA +TTCTACCATCATCGGGTGAGCGTTATTTAAGCACCGCATTGTTTGCCGATCTCTTCACTGAGAAAGAATT +GCAACAGTAATGCCAGCTTGTTAAAAATGCGTAAAAAAGCACCTTTTTAGGTGCTTTTTTGTGGCCTGCT +TCAAACTTTCGCCCCTCCTGGCATTGATTCAGCCTGTCGGAACTGGTATTTAACCAGACTAATTATTTTG +ATGCGCGAAATTAATCGTTACAGGAAAAGCCAAAGCTGAATCGATTTTATGATTTGGTTCAATTCTTCCT +TTAGCGGCATAATGTTTAATGACGTACGAAACGTCAGCGGTCAACACCCGCCAGCAATGGACTGTATTGC +GCTCTTCGTGCGTCGCGTCTGTTAAAAACTGGCGCTAACAATACAGGCTAAAGTCGAACCGCCAGGCTAG +ACTTTAGTTCCACAACACTAAACCTATAAGTTGGGGAAATACAATGTTCCAGCAAGAAGTTACCATTACC +GCTCCGAACGGTCTGCACACCCGCCCTGCTGCCCAGTTTGTAAAAGAAGCTAAGGGCTTCACTTCTGAAA +TTACTGTGACTTCCAACGGCAAAAGCGCCAGCGCGAAAAGCCTGTTTAAACTGCAGACTCTGGGCCTGAC +TCAAGGTACCGTTGTGACTATCTCCGCAGAAGGCGAAGACGAGCAGAAAGCGGTTGAACATCTGGTTAAA +CTGATGGCGGAACTCGAGTAATTTCCCGGGTTCTTTTAAAAATCAGTCACAAGTAAGGTAGGGTTATGAT +TTCAGGCATTTTAGCATCCCCGGGTATCGCTTTCGGTAAAGCTCTGCTTCTGAAAGAAGACGAAATTGTC +ATTGACCGGAAAAAAATTTCTGCCGACCAGGTTGATCAGGAAGTTGAACGTTTTCTGAGCGGTCGTGCCA +AGGCATCAGCCCAGCTGGAAACGATCAAAACGAAAGCTGGTGAAACGTTCGGTGAAGAAAAAGAAGCCAT +CTTTGAAGGGCATATTATGCTGCTCGAAGATGAGGAGCTGGAGCAGGAAATCATAGCCCTGATTAAAGAT +AAGCACATGACAGCTGACGCAGCTGCTCATGAAGTTATCGAAGGTCAGGCTTCTGCCCTGGAAGAGCTGG +ATGATGAATACCTGAAAGAACGTGCGGCTGACGTACGTGATATCGGTAAGCGCCTGCTGCGCAACATCCT +GGGCCTGAAGATTATCGACCTGAGCGCCATTCAGGATGAAGTCATTCTGGTTGCCGCTGACCTGACGCCG +TCCGAAACCGCACAGCTGAACCTGAAGAAGGTGCTGGGTTTCATCACCGACGCGGGTGGCCGTACTTCCC +ACACCTCTATCATGGCGCGTTCTCTGGAACTACCTGCTATCGTGGGTACCGGTAGCGTCACCTCTCAGGT +GAAAAATGACGACTATCTGATTCTGGATGCCGTAAATAATCAGGTTTACGTCAATCCAACCAACGAAGTT +ATTGATAAAATGCGCGCTGTTCAGGAGCAAGTGGCTTCTGAAAAAGCAGAGCTTGCTAAACTGAAAGATC +TGCCAGCTATTACGCTGGACGGTCACCAGGTAGAAGTATGCGCTAACATTGGTACGGTTCGTGACGTTGA +AGGTGCAGAGCGTAACGGCGCTGAAGGCGTTGGTCTGTATCGTACTGAGTTCCTGTTCATGGACCGCGAC +GCACTGCCCACTGAAGAAGAACAGTTTGCTGCTTACAAAGCAGTGGCTGAAGCGTGTGGCTCGCAAGCGG +TTATCGTTCGTACCATGGACATCGGCGGCGACAAAGAGCTGCCATACATGAACTTCCCGAAAGAAGAGAA +CCCGTTCCTCGGCTGGCGCGCTATCCGTATCGCGATGGATCGTAGAGAGATCCTGCGCGATCAGCTCCGC +GCTATCCTGCGTGCCTCGGCTTTCGGTAAATTGCGCATTATGTTCCCGATGATCATCTCTGTTGAAGAAG +TGCGTGCACTGCGCAAAGAGATCGAAATCTACAAACAGGAACTGCGCGACGAAGGTAAAGCGTTTGACGA +GTCAATTGAAATCGGCGTAATGGTGGAAACACCGGCTGCCGCAACAATTGCACGTCATTTAGCCAAAGAA +GTTGATTTCTTTAGTATCGGCACCAATGATTTAACGCAGTACACTCTGGCAGTTGACCGTGGTAATGATA +TGATTTCACACCTTTACCAGCCAATGTCACCGTCCGTGCTGAACTTGATCAAGCAAGTTATTGATGCTTC +TCATGCTGAAGGCAAATGGACTGGCATGTGTGGTGAGCTTGCTGGCGATGAACGTGCTACACTTCTGTTG +CTGGGGATGGGTCTGGACGAATTCTCTATGAGCGCCATTTCTATCCCGCGCATTAAGAAGATTATCCGTA +ACACGAACTTCGAAGATGCGAAGGTGTTAGCAGAGCAGGCTCTTGCTCAACCGACAACGGACGAGTTAAT +GACGCTGGTTAACAAGTTCATTGAAGAAAAAACAATCTGCTAATCCACGAGATGCGGCCCAATTTACTGC +TTAGGAGAAGATCATGGGTTTGTTCGATAAACTGAAATCTCTGGTTTCCGACGACAAGAAGGATACCGGA +ACTATTGAGATCATTGCTCCGCTCTCTGGCGAGATCGTCAATATCGAAGACGTGCCGGATGTCGTTTTTG +CGGAAAAAATCGTTGGTGATGGTATTGCTATCAAACCAACGGGTAACAAAATGGTCGCGCCAGTAGACGG +CACCATTGGTAAAATCTTTGAAACCAACCACGCATTCTCTATCGAATCTGATAGCGGCGTTGAACTGTTC +GTCCACTTCGGTATCGACACCGTTGAACTGAAAGGCGAAGGCTTCAAGCGTATTGCTGAAGAAGGTCAGC +GCGTGAAAGTTGGCGATACTGTCATTGAATTTGATCTGCCGCTGCTGGAAGAGAAAGCCAAGTCTACCCT +GACTCCGGTTGTTATCTCCAACATGGACGAAATCAAAGAACTGATCAAACTGTCCGGTAGCGTAACCGTG +GGTGAAACCCCGGTTATCCGCATCAAGAAGTAATTCTTGCCGCAGTGAAAAATGGCGCCCATCGGCGCCA +TTTTTTTATGCTTCCGCCAGCGGCGGCAAAATCAATTCATCGCTCTCATGCTGCTGGGTGTAGCGCATCA +CTTCCAGTACGCGCAACCCCGCTCGGTGCACTGCATCGGTTAACGCCTTCCCTTTCAGCAAGCCACTGAT +GAGCTGAGCACAAAACAGGTCGCCAGTCCCTTTCAGGTCGGTTTTTACCCGTGAATGGGAAATGACATTC +ACGCTGTCGGCAGTGACCACCACAACCTGCATCTCCTGATTTTCTTCATTACCGGAGGCGCTGGTAACCA +CCACCCATTTTAATGTGTCTGAAAGCAGACTTTTTGCGGCAGCAATGGCACTGTCGAGATCGCGGCAATT +TTTACCGGTCAGGATTTCCAACTCAAAGATATTGGGGGTAATTCCCTGCGCCAGCGGCAGTAAATATTGT +CGATACGCTTCGGGAAGGTCAGGTTTGACATAAATTCCGCTATCAATATCGCCAATCACCGGATCGACCA +TGATCAATAGGTCAGGATGGTCTTTGCGTAGCGCAGTCAGCCACTCGGCAAGGATTTTGATTTGCGATGC +CGTTCCCATATAGCCCGTGGTTACAGCACGAAGTTGGCGCAGCGCATCACGCTCCTGAAGCGCACGCAAA +TAGCCGCTAAACCATTCGTCCGGAATCGCACCACCGTAGAAAGTGTCATAATGCGGCGTATTGCTCAGCA +ATACCGTCGGCACGGCAAAGACATTCAGGCCGTTCTGTTTGATAGCAGGCACGGCAATGCTGTTGCCCAC +GCTGCCGTAAACCACCTGCGACTGCACGGCGACGATATCCGCCTGCAGTGCCCTACTCTTATCGTTAAAC +AACAACAAACTACTCATTTAATTTTTTCTCCTTGCCGATGATCCTCATCGTAATCCAACCGAAACTTTAC +CTGATTCTGGCAGTCAAATCGGCTATCACAAAACAAGGATAAGGTAATTCAATGAAGAAAATCATTTGTC +TGGTCATTACACTACTAATGACACTCCCCGTTTACGCGAAGTTAACTGCCCATGAAGAAGCCCGCATCAA +CGCCATGCTGGAGGGATTAGCACAGAAAAAGGATTTGATATTTGTGCGCAACGGTGATGAACATACCTGC +TATGAAGCGGTTTCTCATCTGCGTCTGAAGCTCGGCAATACCCGTAACCGCATTGACACTGCCGAGCAGT +TTATTGATAAGGTTGCTTCGTCGTCATCGATTACTGGGAAGCCGTATATTGTGAAGATCCCCGGTAAGAG +CGATGAGAACGCACAGCCTTTTTTACATGCGTTAATTGCGCAGACGGATAAAACGGTGCCTGCGGAAGGA +AATTAATCCGCTTTGGGAAGGCATTTACAGGAGGTAACATGAAAAAACGCTTTATTTATCACGATGAAAA +ATCGAATAAATTTTGGTGGATAGATTACGAAGGGGATAGTTTAGCTGTCAACTATGGCAAGGTAGGTAGT +ATTGGTAAATTCCAGACAAAAGAGTTCGATAATGAAGAACAGTGTCTGAAAGAAGCCAGTAAATTGATTG +CCGCAAAAATGAAGAAAGGCTATCAAGAAGATCCAAAGTTTAACTTCATGGATCGCTACTATTTTGATGA +TGAAGAAATTGGGTTACATGTTAAAACGTCACACCCAAACTTCCAGTGCCATTTTACTGATCCACTTTAT +ATGTGTTGCTGGGATGAAGAATCTCCTTTTGGCAGCGATGAAGGTGCTGATGCTCTAAACGTTCTTGAAA +ATAGCCTCCGTAAAGAGCCGGATCTGGACTGTGCTGATTTCCCTCAAATGTTAATTGAAACTATGTGGGG +TATGAAATACATCGCTATGGACAGTATTCTTGAAGAGGATGTTCGTGCGCAATTACTAGTCGATGAAATG +AGCACTATCCAGAGCAATATGATTACCTACGCAACTGCATTCGGTCAGATTAAAGTCATGGGTAAAATCT +CCCATAAACTTAAAAAGATGGGACTCAATGCACTAGCGCGTCATCAGCTTACCGCAAAAATTCTTCAATG +GGGTGACGGTCAGGACTCACCAATACTTCAAAAAATGATTGATGACCTTACGGCGTTTCCTCACGAAAAT +TAAATACTGCATTTGTCGGCAGCAACAACTGTTAAAAAAGTGCGCTTTGTTTATGCCGGATGCGGCGTAA +ACGCCTTATCCGGCCTACAAAATCGTGCTAATTCAATATATTGCAGAAACCTTGTAGGCCTGATAAGCGT +AGCGCATCAGGCAGTTTTGCGTTTGTCATCAGTCTCCGATGCTATTAATCCTTAAATCCCCGCCCCCTGG +CTAAAATGCTCTTCCCCAAACACCCCGGTAGAAAGGTAGCGATCGCCACGATCGCAGATGATCGCCACCA +CCACCGCGTCAGGGTTAGCTTTTGCCACCCGCAGTGCTCCGGCAACCGCGCCGCCGGAGCTGACGCCACA +GAATATTCCTTCCCGCACCGCCAGTTCGCGCATGGTGTTTTCCGCATCGCGCTGATGAATATCCAGCACC +TCATCCACCAGAGAAGCGTTGAAAATCCCCGGCAGATATTCCGTAGGCCAGCGGCGAATGCCGGGAATGC +TGCTGCCCTCTTCCGGTTGCAGGCCGACAATGGTCACCGGTTTGGATTGTTCGCGCATAAAGCGTGAGAC +GCCGGTGATAGTGCCGGTCGTCCCCATGCTGGAGACAAAATGAGTGATGCGCCCGCCGGTTTGCTGCCAG +ATTTCCGGCCCAGTGGTGGTGTAATGCGCATAAGGGTTATCGGGATTATTGAACTGATCGAGCAGCTTTC +CTTCGCCACGATTCGCCATCTCCAGCGCCAGATCGCGCGCACCTTCCATGCCCTGCTCTTTGGTGACAAG +AATCAGTTCCGCACCATAAGCACGCATCGCCGCACGGCGTTCCTGGCTCATGTTGTCGGGCATCAGCAAT +TTCATGCGATAGCCTTTCAGCGCGGCAATCATTGCCAGCGCAATGCCGGTGTTACCACTGGTGGCTTCGA +TTAAGACATCACCCGGTTTAATTTCCCCGCGCTTTTCCGCCTCGACGATCATCGAAAGTGCCGCACGATC +TTTCACCGAACCTGCCGGGTTATTGCCTTCCAGTTTTAACCACACTTCACTGCCGTTATCCGGCCCCATT +CGCTGCAACTTCACCAGAGGCGTATTGCCTATTGTTTGTTCTAATGTACTCACGATCTCTATCCATACGT +GGTGTTGCCTGATGCGACGCTTGCGCGTCTTATCAGGTCTACAGGTTACAAACCTTGCCATTAAAAAGCC +CGGATCGCGGGAAGCGCCTCCGGGCGTTTAACATTCACTCAACCTATCAGGCGCTTTGTGCGAGAGCAAG +TTCCTCATCGCGGGTTTCGATACGCTCGTCGCCGTTATACAGCCGCGCATGTTGCAGACCAACGAATAAA +CGCTCGCCACGCTGCGGGGCATCGTCGCCATGCATCACGACCGTCAGCGGTTCGTTGTACCACCCCAGCG +GCTGCACCACTAATTGGGTGTAGTGACCTTTCGGGCTGGCTTCCAGTACCTGTACCGGCAGCGGCGAATC +GAGGCTGGTACGGCGGCTGATATCCACTTCCCAAGGGCGCAGGAAGAGATCCACCGGCCCCTGATACGCA +GGTGTGTAGCCCAGCGGCCAGCGATGCGCGCCAACATGGAACTGCCCGCCGCGAATGGTTCCCTGCAGGC +GGTTCACTTCGCCCATAAATTCGAGCACAAAACGGGTCGCCGGTTCGCGCCATACCTGATCCGGCGCGTC +AGCCTGTTCAATATTGCCCTGGCTCATCACAACTACACGATCAGCTACTTCGGTCGCTTCTTCCTGATCG +TGGGTCACAAAAACGCTGGTGAATTTTAGTTCTTCATGGAGTTGACGCAGCCAGCGACGCAGCTCTTTAC +GCACCTGCGCATCCAGCGCGCCAAACGGTTCATCAAGCAGCAGAATTTGCGGTTCCACAGCCAGCGCGCG +CGCCAGCGCCACGCGCTGTTTCTGGCCGCCGGAAAGCTGCGCCGGATAACGATCCGCCAGATGGGCAAGC +TGGACCATTTCCAGCAATTTTGTCACTTTCGCTTTGATGGCTGCGGCATTCGGGCGCTCGCGACGCGGCA +GCACCGTCAGGCCAAAAGCGATATTGTCGAACACCGTCATATGGCGGAACAGCGCGTAATGCTGGAACAC +GAAACCGACTTTACGATCACGTGCGTGCAGGCGGCTCACGTCGGTGCCGTGGAAGCGAATATGCCCGCTG +GTTTGATGCTCCAGCCCGGCGATAATGCGCAGCAGCGTGGTTTTCCCGGAACCGGACGGCCCCAGCAACG +CGACCATCTGACCTGAAGGAATATCCAGTGAGATATCGTTCAGCACCTGGGTGCGACCAAACGACTTCTT +AATATTGGCAATCTCAATGCTCATGATGTTCCTCCTGCTGTGCGCGTTTTTCCTGATTCTCCAGGCGCCA +CTGCAACATACTTTTTAAAAACAGGGTGATAATCGCCATCAGCGTTAACAGCGCCGCAGCGGTAAAGGAG +CCGACGGTGTTGTAGTCCTGCTCCAGCAATTCAATCTGTAACGGCAGCGACAGGGTTTCGCCGCGAATCG +AGCCGGAAACCACCGACACCGCGCCAAACTCGCCAATTGCGCGGGCGTTGGTCAACACCACGCCATAAAG +CAGCGCCCAGCGGATGTTCGGTAATGTGACGCGACGGAACATCTGCCAGCCGGACGCGCCAAGCAAAATC +GCCGCTTCGTCTTCCTGGCTGCCCTGGCTTAACATCACCGGCACCAGTTCGCGCACCACAAACGGACACG +TCACGAAGATGGTGACCAGCACCATTCCCGGCCAGGAGAACATAATTTGCAGGTTATGCTCGTCGAGCCA +ACCGCCGAGCGGGCCGTTAGAGCCGTAGAACAGCAAATACACCAGACCGGCAACCACCGGCGATACGGCA +AACGGAATGTCCAGTAGCGTCAGCAGTAACTGGCGTCCAGGGAAGTTAAAGCGCGTCACCAGCCAGGCCA +GCAGAATGCCGAACACCAGGTTTACCGGTACGGCAATCAGCGCGATCATCACCGTCAGCCAGATGGCGTG +CAGCATGTCCGGATCGGCCAGATTCTGTAAAACCGGCATCAGCCCCTTGCTGAATGCCTGCACGAAGATG +TAAATCATCGGCACCAGCAGGATGAACGCCGAAACCAGCATCCCGATGCCAATCAGAAACCATTTGCCCC +AGTTAATCGGGCGCGCGTCATAACGCTTCAATTGGGTAACTTCCGCCATTAATGACCTACCACACGCCGA +CCAAAGCGACTTTGCAGAGTGTTAATTGAGAACAGCAGCAGCAGAGATGCCGCGAGGATCACCGAAGCAA +TCGCGCTCGCTGCCGGGTAATCAAACTCCTGTAAGCGCACAAAAATCATCAGCGACGTCACTTCCGTCTT +CCACGCGATATTTCCGGCGATAAAAATCACCGCGCCAAATTCACCAAGACTACGGGTAAACGACAGCGCC +ACGCCCGCCACCAGCGCCGGAGAAAGCTCCGGCAGCACCACTTTGCAGAAACTCTGCCAGCGCGTTGCAC +CAAGCGTTTCCGCCGCTTCTTCATATTCCGGGCCTAACTCTTCCAGCACCGGCTGCACGGTACGCACCAC +AAACGGAATGCTGGTAAAGGCCATAGCCACCGCAATCCCCAGCCATGTATAGGTGACTTTGATATCAAAC +TTCGCCAGCCATTCACCGTAAAAACCGTTTACGGAAAAGAGCGAGGCCAGCGTTAAACCGGCGACAGCCG +TTGGCAGCGCAAAGGGTAAATCCATCAGCGCATCAAGCAGCGTGCGGCCTGGGAAGCGATAGCGGGTTAG +GATCCACGCCATCAGCAGACCGAAAACGCCGTTAAAAATCGATGCCACAAACGCCGACAGCAGCGTTACT +TTGTAGGCCGCGACCACCTGCGGGTTGGTGATCACCTCCCAGTACTGCGCCCAGCTCATCTGGGCCAGTT +GCATCACCAGCGCGGAGAGCGGCAGCAGCAAAATCAGGCACACAAACAGCAGACTGGTGCCGAGGCTTAA +GGTAAAGCCCGGCAGCACGCGTCTGGAGGAGACAGCAAACATCAGTTACGCCCCGCCGCTAACAGCTTGT +CTAACTCGCCGCCGCTGGTGAAGTGGGTTTTCATCACTTCCGGCCAGGAGCCAAATTTGTCTTCCACGCG +GAACAGCTCGGTCTGCGGGAATTTGTCTTTCAGTTTGTCCATCACCTCCGGGTTATTCACGCGGTAGTAA +TAGTCGGTGATGATGGTTTGCGCCTGCGGGCTATAGAGCCAGTTCAGATAGGCTTTGGCGGCTTTTTCCG +TACCGTTGGCCTGCACGTTTTTATCAACCCACGCCACCGGGAATTCCGCCAGAATGTTGGTTTTCGGAAT +CACCACTTCAAAGCCCTGCGCTTCATACTGTTTACGGATGTTGTTCACTTCCGATTCGAAGCTAATCAGC +ACATCGCCCAGGCCGCGCTCGGCAAAAGTGGTGGTCGCGCCACGACCGCCAGTATCGAACACTTCAACGT +TTTTCAGGAACTGGGTCATAAACTGTTCGGTTTTGCCTTTGTCACCACCGTCAGCTTTATCCGCTGCGCC +CCATGCCGCCAGATAGGTATAACGCGCGTTACCCGACGTTTTCGGGTTCGGGAAAATCAGCTTCACGTCG +GAGCGCACCAGGTCGTTCCAATCGTGGATATTCTTCGGGTTACCCTTACGCACCAGGAAGCCCATGGTGG +AGTAGAACGGCGAGCTATTATTCGGCAGGCGCGACTGCCAGTCGGCCGGGATCAGCTTGCCTTTATCGTG +CAGGATTTGTACGTCGGTCACCTGGTTATAAGTGACAACGTCGGCTTTTAAGCCCTGTAAAATCGCCAGC +GCCTGTTTTGATGACCCGGCATGAGATTGTTTTATCGTCAGTTTGTCGCCGCCGTTATCTTTTGCCCATT +GTTGCTCAAACGGCGGATTCAGGGCGGCAAACAGCTCGCGGGAGACGTCATAAGAACTGTTCAGCAGTTC +CGTTGCCTGTACATGGCCCGCCAGCAGCAGAGAAGCGACCAGCGCGAGTGAGTTCTTTTTCAGTAAGTTA +ACGGCCATTGCGCACCCTTATAAATTTAATGACTTTCTAATAGCCATCATATTTATAACGGACGTGAAAG +GAGTAACGGTTTTATATACCGTTTGGTGATTTGGAAGTTGAAAAGGGAATAAGAACTTGGTTCAACAGGC +GTAATTGTTGCAGTCAGTTTGGACACGAACAGCGCGGAGAAACCGGAGCGTACACATAGTACGTGAGGAT +TTCGAGCACTGCCCGGGGCCAAAATGACAAATAAAATAGCCTGGTGAACTTAGTTCAAGACGAAATCCTC +CCCACAAATGCAGGGAGGAAACAGAGGTGAATCAGATACCGACGCTAACCGTCTCCGGCAGTGTGCTGCC +GCCATCAATCACATTCTGTGTACCGGTTAAATAGCTGGATTCATCCGATGCGAGGAAGGCCGCCAGTTCG +CCGACTTCCAGCGGATCGGCGAGGCGACGCATCGGGATTGCTTTCGCCATTTCAGTCAGCACCGACTCTG +GATCTTCCGGGTTCGACTGGCGGGCAATGCTTTCCGCCATTGGTGTGCGCACGTATCCCGGGCAAATGGC +GTTAACGCGAATACCAGACTGCGCGTACTCCACCGCCAGCGATTTTGTCAGGCCAACAATCGCCGCTTTC +GTTAAGGCGTACGCCGTTTCGCCAGGATCGGCCACCATATCACCAGTGACTGAAGACATCATCACAATGC +GACCATCTTTGCGGGCAATCATCTCCGGCAGCACCGCCTTCGTGACGTTCCATACGCCTTTAATATTGAT +GTCAATATGGAAATCGCGATCGTCATCGCTCATATCGAGGAAACTGCCCAGACGACAAACGCCTGCGTTA +TTCACCAGGATATCAATGCGCCCTTCTTTTTCCTTCGCGCGTTTGATAGCTGCGGCTACCGACGCCGGGT +CACGCACATCGGCGACAACCGCCGTACAGCGATGACCACGACCACACAGTTCGTCCGCCAGCTTTTCGAT +CTCAGGGGAGATATCCAGCAAGATTAGGTTCGCGCCATGACGTGCAAAAGTTCTGGCAATTCCTTCGCCA +ATTCCCTGCAATGCGCCCGTAATCAGTGCTGTCTTGCCCGTGAGTTTACCCATTTTAATGCTCTCCTTGT +TAATACAGAGCGTTACACTCCATTCCCTCTGAAAATACAGGATAAACAAAATATTGCTGCGGATCAGCTC +ACTAATTCAGGAAAATCTCAATCCAGTCGCTGCTTTATGCATCATTTCAGGCGTTGTGTTAGCTCACTGC +TGCGCTGAATCATTTTCAATGACTCCACATCATTGAGTTGCACAAGGCCAACAAACAGTAAATCGGTAAC +AGAATTTTGCGCCGTGCGGGTAGACATCGACGAGCTACGCCATTCGGTTTCTCCGGAAACGGTATCGAGG +GTGAAATGCGCCAGCCGCCGCAGCGGAGAGTCAGTCAGAGAAGTAATGGCAATCACCGTTGCCCCCTGCT +TTCGTGCCGCTTCTGCGCACAAGACAATCTCTTTTTTACTGCCGCTGTAAGAGATAGCGATTTGTACATC +GCCTTTTTTCAACGCCTGAGAAACGGTGGCTTGTACGTGCGTGTCGGCTTCGCAGGCCACGCGATAGCCA +ATTTTCATCAGTTTGAACGACAGATCGCGCCCCACCAGCGCCGATCCGCCCAGGCCCGTTATCTGGATAA +ACGGTGCTTTACTGATGACCTCAATGATTTTTTGCAGCCGCGCGTAATCGAGCAACGCGCAGGTTTGCTC +CAGCGCCAGCTCTTTTTCGCGATTCAGTTTGCGCGCGATCACTTCCAGCGAATCATCACTGGTAATCGAA +CTGTGCAGGTGCAGTGCCGTGGCATTCGTTTTCTCCCGGCTGGCACTGTATTCGCCTATTAACGCCATAC +GCAATTCAGTAAATCCTTGCGCGCCGAGTTTTTGGGCAAATTTCACTATGCTCGACTGGCTAATGCCGAG +CTGTTTCGCCATCTGCCGTGAAGAAACGGATTGCAGCTCACTCACGTTGGCCTGCAGAAAGTCAGCGATT +TTTTGCTCGTTTTCGGTGAATTCACTCCCCGCATTGCTTATTTTCGTCAGGTACAACATCTTCCACTCTC +CTGGGCTGGCAGCATAAATTCCGCTTAAGTTCTTATGACGCTCTTCACACTCTGCGAGTGTAGACTCAAT +GATTCCTTTAAGCCTGTCAATTCGGGATATATGATTCCATACATCTGCAATTATTTGATCGTAAATAGTA +AGGTCACCACCGATGCAATTTGAAAAGATGATTACTGAAGGCTCGAACACCGCCTCGGCTGAAATTGACC +GCGTATCGACGCTGGAAATGTGCCGGATTATCAACGATGAAGATAAAACCGTACCGCTTGCCGTTGAGCG +CGTACTGCCGGATATCGCCGCGGCGATCGATGTTATCCACGCCCAGGTAAGCGGCGGCGGGCGTCTGATT +TACCTCGGTGCGGGAACATCCGGTCGTCTGGGGATTCTGGATGCCAGCGAATGTCCGCCCACCTACGGCG +TGAAACCGGGTCTGGTGGTTGGTTTGATTGCTGGCGGCGAATATGCCATTCAGCACGCGGTGGAAGGCGC +GGAAGATAGCCGGGAAGGCGGTGTTAATGATCTGAAAAATATTAATTTAACGGCACAGGATGTGGTGGTT +GGCATTGCTGCCAGCGGTCGCACGCCGTATGTGATTGCCGGACTGGAATACGCACGCCAGCTCGGCTGCC +GCACAGTGGGAATTTCCTGTAATCCGGGGAGCGCCGTTTCAACCACCGCTGAGTTTGCCATTACACCGAT +TGTAGGTGCCGAAGTTGTTACCGGTTCTTCGCGGATGAAAGCAGGTACAGCGCAGAAACTGGTGCTCAAT +ATGCTTTCCACCGGGCTGATGATTAAATCCGGCAAAGTGTTCGGCAACCTGATGGTCGATGTGGTCGCCA +CCAACGAAAAACTGCATGTGCGACAGGTCAATATTGTTAAAAACGCCACCGGATGTAGCGCAGAGCAAGC +GGAAGCGGCGTTAATTGCTTGCGAGCGCAACTGTAAAACGGCCATTGTGATGGTGCTGAAAAATCTCGAT +GCCGCAGAAGCTAAAAAACGCCTGGATCAACACGGCGGCTTTATTCGTCAGGTTTTAGACAAGGAATAAC +CCATGGCCAAAGAGATCAGCAGTGAACTTCTGAACACCATTCTTACCCGTGTCGGCGGACCGGGAAATAT +CGCCAGTTGTGGTAACTGTATGACGCGCCTGCGTCTGGGTGTACATGACAGTTCACTGGTTGATCCCAAT +ATCAAAACGCTGGAAGGCGTGAAGGGCGTCATTTTGACCAGCGACCAGGTGCAGGTCGTTTTTGGGCCTG +GTAAAGCGCATCGTGCCGCAAAAGCGATGAGCGAGCTGCTGGGAGAAGCACCGGTACAGGATGCCGCAGA +AATCGCCGCCCAGAACAAACGTCAGTTAAAAGCCAAACAAACCTCCGGCGTGCAACAATTTCTCGCCAAA +TTCGCCACCATCTTCACGCCGCTGATCCCCGGTTTTATTGCCGCCGGTCTGCTGCTGGGGATAGCGACGT +TAATTGCCACGGTGATGCACGTTCCGGCAGATGCTCAGGGAACACTACCCGATGCGCTGAATTTTATGAA +GGTGTTCAGCAAAGGTTTGTTCACTTTCCTGGTGATTCTGGTGGGCTATAACGCCGCCCAGGCATTTGGC +GGCACGGGCGTAAATGGCGCAATTATCGCCGCGCTCTTTTTGCTCGGTTATAACCCCGCAGCGACCACCG +GTTACTACGCCGGTTTTCACGATTTCTTTGGTCTGCCCATCGATCCGCGCGGCAATATTATCGGCGTGCT +GATTGCCGCGTGGGCCTGCGCCCGCATTGAAGGCATGGTGCGCCGCTTTATGCCGGACGATCTCGACATG +CTGCTGACCTCGTTAATCACCCTGCTGATCACCGCTACGCTTGCGTACCTGATCATTATGCCGCTGGGTG +GCTGGTTATTCGAAGGTATGTCATGGCTGTTTATGCACCTGAACAGTAATCCGTTCGGTTGTGCGGTTTT +AGCCGGGCTGTTCCTGATCGCCGTGGTATTTGGCGTGCATCAGGGCTTTATTCCTGTTTACCTCGCGTTA +ATGGACAGCCAGGGATTCAACAGCTTATTTCCCATCCTTTCAATGGCAGGCGCGGGCCAGGTGGGCGCGG +CGCTGGCACTCTACTGGCGGGCGCAACCGCACAGTGCGCTACGCAGTCAGGTACGCGGGGCGATTATTCC +CGGCCTGCTGGGCGTTGGTGAACCGCTGATTTACGGTGTCACCCTGCCCCGCATGAAGCCGTTTGTTACC +GCCTGTTTAGGCGGCGCGGCGGGCGGTTTGTTTATCGGCCTGATAGCCTGGTGGGGTCTGCCGATGGGCT +TAAACAGCGCCTTTGGGCCGTCTGGTCTGGTAGCGCTGCCGCTGATGACTTCCGCACAAGGCATCCTTCC +GGCCATGGCGGTTTATGCTGGCGGGATTCTGGTGGCATGGGTTTGCGGGTTTATTTTCACCACGCTCTTT +GGCTGCCGTAACGTCAATCTGGACTGATATCATGAAACGGACAATGCTCTATCTTTCTCTGCTGGCTGTT +AGTTGTAGCGTCAGCGCCGCAAAATACCCTGTTCTGACAGAAAGCTCGCCAGAGAAAGCAGGGTTTAACG +TCGAACGGCTTAACCAGATGGATCGCTGGATTAGCCAGCAAGTTGATGTCGGTTATCCCAGCGTAAACCT +GCTGATCATTAAAGATAATCAGATTGTGTATCGCAAAGCCTGGGGAGCGGCGAAAAAGTACGATGGCAGC +GTGTTGATGGAACAGCCTGTCAAAGCCACCACCGGGACGCTGTATGACCTGGCCTCAAACACCAAAATGT +ACGCCACGAACTTCGCCCTGCAAAAGCTGATGAGCGAAGGCAAACTGCATCCTGACGATCGGATTGCGAA +ATATATTCCGGGGTTTGCCGATAGTCCAAATGACACCATTAAAGGCAAAAACACCCTGCGGATTTCTGAC +CTGCTGCATCACAGCGGCGGTTTCCCGGCAGATCCGCAATACCCGAATAAAGCGGTCGCGGGCGCGTTAT +ATTCCCAGGATAAAGGCCAGACGCTGGAGATGATCAAGCGCACGCCGCTGGAATATCAGCCCGGCAGCAA +ACATATCTACAGCGATGTCGATTATATGCTGCTTGGATTTATCGTCGAGTCGGTTACCGGTCAGCCGCTT +GACCGCTATGTTGAAGAGTCGATTTATCGCCCGCTCGGCCTGACACATACGGTATTTAACCCGCTGCTGA +AAGGCTTTAAACCGCAACAAATTGCCGCCACGGAATTGAACGGCAATACCCGCGATGGCGTGATCCATTT +CCCGAATATCCGCACCTCCACTCTCTGGGGTCAGGTGCACGATGAAAAAGCCTTTTATTCGATGGGCGGC +GTTTCCGGGCACGCAGGTTTGTTTTCCAATACCGGCGATATTGCGGTGTTAATGCAAACGATGCTGAACG +GCGGGGGCTATGGTGATGTGCAGCTGTTCAATGCGGAAACGGTGAAGATGTTCACCACCAGCTCTAAGGA +AGATGCCACTTTTGGCCTCGGCTGGCGCGTGAATGGTAATGCCACCATGACGCCGACGTTTGGCACGCTG +GCAAGCCCGCAAACCTACGGTCACACTGGCTGGACCGGAACGGTGACCGTTATCGATCCGGTGAATCATA +TGACGATTGTGATGTTAAGCAACAAGCCACATTCGCCGGTTGCCGATCCGCAAAAGAATCCCAATATGTT +CGAAAGCGGTCAGTTGCCGATTGCAACTTATGGTTGGGTAGTTGATCAGGTGTATGCGGCGTTAAAGCAG +AAGTAATAAAAAGGCCAGTCAGTAATGTTACTGGCTGGTCTGAGAGTGCTGACAAACGCAAAACTGCCTG +ATGCGCTACGCTTATCAGGCCTACGTGGAGCCCACAATATATTGAATTAGCACGATTTCGTAGGCCGGAT +AAGGCGTTCACGCCGCATCCGGCGTGTACAACGCGCACTTGGTCAACAATCTGAGGCCAGTCAGTAATGT +TACTGCCTGGCCTTTAATCAATGAATCAGAAACGCTTACAGCGCCATCAACTTGTCCAGCGACGGTGCGA +AATAATAGCCGCCGGTTACCGGTTTGGTGAAACGCAACATCGCATCACGCTTACCATCGGTATCGCCAAA +CATGCTCAGCAGTTGCTGCTCAATGTTATGCAGACGCGCGCAGTAGGCGCAGAAGTACAGACCGTGAGTG +CCACTGGCAGTGCCGTACGGCAGGCTCTGGCGAACAATCTTCAGCCCTTTGCCATCTTCTTTCAGATCAA +CGCGGGTGAGGTGAGAGGTTTCCGGACGTTCGTCGCCGTCGATCTCTTCGTTGGCCTCTTTGGTGCGCCC +GATCACCATCTCCTGATCGTGAACGCTCATCCGGTTGAGCTGCTTCAGGTTGTGTTCCCAACGCTGGACA +AACACATAGCTGCCGCCCGCATCCACGCCGTCTTTGATAACCGCCACTTCGCGACGCGTCTCTTCACCCG +CCGGGTTTTCCGTACCGTCAACAAAGCCGCTCAGGTCACGCTCTTCAACCCAACGGAAGCCGTGGATCTC +TTCTTTCACTTCAATGCAGTCACCAAAGGCTTCCATCGCCGCCTGGGCGACAGAGAAGTTTACGTCGTGA +CGCAGAGAAAGAATGTGGATCAACACATCGAACTGGGTCGTCGGCGCAAGGCCTTTACCGTAGCCCGGAA +AATCTTTCAGCTCTTCTGCCCCAACGCCGCCGCTCAGAGCGCGCCAGGTGTTGTTACCAAAGGCAACCAC +CGCACCAAGATGCGCGTCCGGGAATTTCGCTTCAAAAGTTGCCAGTTTGTCGGCAAATGTTTTACTGGCC +GCACGCAGGGCGTCAACTTCCCCTTTCACGTTGGCTTCGATCCAAATCGCCGCGCGGCAATGTTCTGGCA +AAATGCCACTCTGAACCTGAGACATTGTTCCTCCTGAAAATAATAATGCCACGCAATCCGTGGCATTGTT +GAGCGCTATTTTACGTGTTTTTTCGCGGCGGCGGTTTGTTCAGACGCAAATTAACGCCGCCAGATAATTT +TACTGACTTTCCAGTTTTTCAGGGTATCGTCCGAAGGCATTAACCCTTCAGGACCACGCCATTCCCCGCT +GAACTGGTAGCTAATATGTTGACTGCCTTCGGCTTTACATTCGACGGCACGATTATCATCACCATCAGCT +TTTTGGCAATTGCCAAATGCTTTGCTGTAAAGGTCGCTAAACGGTGTACCGATTTTAACACCGGTGTCAG +CAGGAATATCGCTATCCAGCACGTCAATGCGACTGATCGTGCCTTGATCGCCGTTAATCACCATCGCCAC +GTTGTCGCCCTTCATCACTTCAAAAAAGCGCACCACGTTGCCGTTCGCGGTTTTCATTCCGCTGCGCAGG +CGATAATCGCCATCAAGCGCATCGGCAATGGCTTGTTCTTGCAGTGGTGTGGACGCCGTTAATTCACCCA +CGCCCTGCTCGCTCACTTTGGTGGACGACCCAAACCAGTTCCACGGGTTAGCGGCAGACCAGTTAACTGA +CGACATCGTGGAACAGCCGGTCAGCATCAATGGCATAGCGCATAACATTAAACGCAGCGATTTCATGTCA +CTTCCTTTGGTTATTCAATAACGTTGCTTGGAGTGCAAATTCACCAAAAAGTGCCGTTATTCTTTTACTT +CATAAAAACAAGCGCGTAAACGTCGATTGGTCAGCAGCCAGATTAACGCCACAATATCCGCCACTACCAG +CGCCAGACCGATACCGCTAACGGATTCACCGTTCAGCCACAGCCACGGTTGCCAGCAAAGTAAAACCACC +TGCGCCAACAGCAACAGAAAATAGAGTACACGCCAGGTGCGAGGAAACGTAGCCCGCCGACCGCTCAACA +AAAACGCCAGCACCGCCGGAATGCCAGGAATCAGCCCCAGCCAGAAATTATCGTGATCGGGATAAAACAG +ATTTAGCAGCGCAGTACCCTGCTCGCGCGACGCACCGGCAATGACAAACAGCACCCAGGTTCGCGCCTGA +AGCAATAGCACAAGCCAGAAGAGCAAGGGTAAACGCAGGCGACCGTGCGCATCATAATGGACAGGATGAA +ACTCAGTACTCTTCATCTTCAATCAAACGCTTACCCAGACTCAGCACGTCGGCGTGTTCATATCCCAGGC +GTTCATACATTCCGAGCACCATGTCGTTATCTTCCGGCACATTGATCTGAATTTTCGGGCAGCCACGAGC +AATCAGCTTTTTCTCCAGCCGATTAAGCAACGCATTGGCAATCCCACGCCCACGAAACTCTGGATGCACG +CCAAGATAATAAGCAGACCCGCGATGCCCGTCATAACCGCCCATCACCGTTCCGACCACGTCACCGTTTA +CCTCAGCGACCAAAAACAAACTGACGTCATGGTTCATCTTACGCTCGATGTCCATTTCCGGATCGTTCCA +CGGACGCAGCAAGTCGCAACGCTCCCAAAGGGTGATGACCTCTTCGAAATCTTCCTGGCGAAATACGCGT +ATCTCCATGGTATTCGTTACCTTTTTGCGGGTTAAAAGGCTGATTATGGCGTGAACGGTCGAATTAGCCA +ATATCTGACGAAAATCGGTTGAAAAAGTGGCATAATGGGGAGTTGTCAACTATTGAAATGAAAAGTAAAA +CAATTCTCAACAGCAAACCGTCGTAACGGATTACGCGATACGATATAACATCTGGAACTTTATTATTACA +ACTCAGGCCGTATGAGCACTTTTAAACCACTAAAAACACTCACTTCGCGCCGCCAGGTGCTGAAAGCCGG +TTTGGCTGCCCTGACGTTGTCAGGAATGTCGCAAGCCATCGCCAAAGACGAACTTTTAAAAACCAGCAAC +GGACACAGCAAGCCGAAAGCCAAAAAATCTGGCGGCAAACGTGTCGTTGTTCTCGATCCAGGTCACGGCG +GAATTGATACCGGAGCGATCGGACGCAACGGTTCGAAAGAAAAACATGTGGTGCTGGCGATTGCTAAAAA +CGTCCGTTCCATTTTGCGTAATCATGGGATTGATGCGCGTTTAACGCGTTCTGGCGATACGTTTATCCCA +CTTTACGATCGCGTTGAAATCGCCCATAAACATGGCGCAGATCTGTTTATGTCAATTCATGCCGATGGCT +TTACCAACCCGAAAGCTGCCGGTGCTTCGGTATTTGCCCTCTCTAACCGTGGGGCAAGTAGCGCAATGGC +GAAATACCTGTCTGAACGCGAAAACCGCGCCGATGAAGTTGCCGGTAAAAAGGCGACTGACAAGGATCAC +CTATTGCAACAAGTGCTGTTTGATCTGGTGCAAACAGATACCATTAAAAATAGTCTGACGCTCGGCTCGC +ATATTCTGAAGAAGATTAAGCCGGTGCATAAACTGCACAGCCGCAACACCGAACAAGCGGCATTTGTGGT +GTTGAAATCACCGTCGGTTCCTTCGGTGCTGGTGGAAACCTCGTTTATCACCAACCCGGAAGAAGAACGG +CTGTTAGGCACGGCGGCGTTTCGTCAGAAAATCGCCACAGCGATTGCTGAAGGCGTGATCAGTTATTTCC +ACTGGTTCGACAACCAGAAAGCACATTCGAAAAAGCGATAAGTTATGAAACCCGACGCACACCAGGTTAA +ACAGTTTCTGCTCAACCTTCAGGATACGATTTGTCAGCAGCTGACCGCCGTCGATGGCGCAGAATTTGTC +GAAGATAGTTGGCAGCGCGAAGCTGGCGGCGGCGGGCGTAGTCGGGTGTTGCGTAATGGTGGTGTTTTCG +AACAGGCAGGCGTCAACTTTTCGCATGTCCACGGTGAGGCGATGCCTGCTTCCGCCACCGCTCATCGCCC +GGAACTTGCCGGGCGCAGTTTCGAGGCGATGGGCGTTTCACTGGTAGTGCATCCGCATAACCCGTATGTT +CCCACCAGCCACGCGAATGTGCGGTTTTTTATTGCCGAAAAACCGGGTGCCGATCCCGTCTGGTGGTTTG +GCGGTGGCTTCGACTTAACCCCATTCTATGGTTTTGAAGAAGATGCTATTCACTGGCATCGCACCGCCCG +TGACCTGTGCCTGCCATTTGGCGAAGACGTTTATCCCCGTTACAAAAAGTGGTGCGACGAATACTTCTAC +CTCAAACATCGCAACGAACAGCGCGGTATTGGCGGGCTGTTCTTTGATGACCTGAACACGCCAGATTTCG +ACCGCTGTTTTGCCTTTATGCAGGCGGTAGGCAAAGGCTACACCGACGCTTATTTACCAATTGTCGAGCG +ACGGAAAGCGATGGCCTACGGCGAGCGCGAGCGCAATTTCCAGTTATATCGTCGCGGTCGTTATGTCGAG +TTCAATCTGGTCTGGGATCGCGGCACGCTGTTTGGCCTGCAAACTGGCGGGCGCACCGAGTCTATCCTGA +TGTCAATGCCGCCACTGGTACGCTGGGAATATGATTATCAGCCAAAAGATGGCAGCCCAGAAGCGGCGTT +AAGTGAGTTTATTAAGGTCAGGGATTGGGTGTAACTCCCTCACCCCCACTCCCGCATCCGCTGATGCAGC +GTCAGTGACGGCTTCTCGGAAAACAGCTGCTGGTAATCCGTGGCAAATTGCCCCAGATGCCAGAATCCCC +ACTGCATGGCGGCGTCTTTTACCGTCATACTTTGCGACCACGGACTTATCAGTTCGCGGCGTACGGCGTT +CAGGCGAATGCGTTTCAGCCACGCGTTCGGGCCAATGCCTAAAATAGCGTGAAACGCGTTTTGTAGCGTG +CGGCGGCTGACATGCAGTTGATTACACAAATCCAGCACCGTCACCGGTTCGGACATGTTTTCCAGCACAT +ATTCACGGGCGCGGGAAAGCAATCGACGGTAACTCTGATGACTGATGCTTTCCGCCGTCACCATTGGTTG +CGCTTCTTCCAGCATGGCCCCCATCGCCATTAGCAAATTATCCCCCAGCACTTTTCGCACTGCAGGCTGA +TGGAGATTTTCCGGATTCTCGCAAAACGTCGCCAGCGCCTGTTGGACAAAGCCCCACAGCGCGGCTTTAT +GCTGCTCTTTCACTTCCAGCGCCGACTGGTTACGCAACATATGTAATACCCGATCCGGGTTATGCAAAAA +GTTAGCCTGCCGGGTGATGACATCTTCAGAAAGCACCACGCCCAGGATCGTGTAATCATCCGGCGTGCTC +AGTTCAAATTCAGTGCCACCAGGGCGGGTGGCGATTTCCGCGCTTCCCAGACATTGCGAACCGATAAATC +CCTGCTCACCGCGCGTCGCCGGAATGCCAAACCAGAACGAGTTCGGCCAGACCAGGCACGACTGACGCAG +CGCCAGACCGGTGTATTCACGAAAAACCTGAATATCATCGAGTAGAATTTCCGTAAATTCACCATGAAAC +TTGCCCGGATGCAGCTGATCGTAAATCTGCTGCCAGGCGGTAATCGTTAAAGCATGTTCATAGACATCCG +TTGTCTGTCGTTGATGAACATTATCCACTTCGACCTTCGGCGTGAGCTTCAGGTTTTCGGGTAAGGGTTC +ATGATAAAGATGGTGCAAATTGGCTGTACGGGTCTTTTTCATGATGTTAATGCCGGGTGTTGTAGGACAC +CCGGCACCTCCGACAGGTTAATGGGGCTTGAGACGATAACGACTACTGCGTTTACGTAACGTCCCGGCAG +AAAAGAGCTGTTCGAGCGCATTTCTGGCTTTTTCCAGCGGCCAGCCAAAGTGGGCAGCCACTTCTCCTGC +CGTCATTCCCTGACGTACTGATGTTAACAGCGCCAACAACTCGTCAGCAGATTCCGCGACGATAACTGGC +GCGTCGGGTTCCCTTACGGGTTGCTTCGGCTGGCGGTTAAAGCCAGTAACCAGCCACTGGGTGTCATCGT +CTGGCCGACCGATCTCCTTGCGGCTGATGACACGCCCGGTACGCATCGCGGCAGCACAACCTGCGTCCAG +CGCCGCACGACACGCCGCCAGATCGCCTTCCACCACCAGCGTTAAGCGACCAGGGTCAAGCACTTCGTGA +CTGAGCAGACGAACGTTAGCTGCTTTGAGCATGGCATCCGCTGCATCTATCGCGGCGACCATGCCGTCCA +CTTCCAGCAATCCCAGTGCATTGATCATCGGCAACCTCCGTTACGCACGCTGGATTGGATTACGCGCGAT +TTCCAGCACTGCATCGGTAAAGGCGTTACAGGCTGCTTTACACGCTGCCTGGCTACCGGTTAAAAATGCT +GCCGAGTAGTTGGTTTCAGACGGTGGCGGGACATAGGTCGCCAGCTGTACGTCGGCAGACTTCAGGGCTG +CATCAATGCCATAGGTCGCTTCCAGCGGCGGTGCCACCAGATACGCCATCGGATCGCCAAGCGTGATCCC +GGCGGTTGATGAGAGATAAGAACCGGTACGCGAAACTACATGTGCCAGGAATGCCGTATCTTGCGCGTCA +TTAGCCCACTGGAAAGCTGCGCCATTTTCAATATGCGCAATCATCGCATCCAGACCTGCACGCACTTCCG +CCGGGTTTGGCCCACCAAGCATAATCAGCACTTCACCGGCAGTCGGTGACGGGCCGTGTGCAGCGCCCGC +ATATAGCGAGCGGCCATACACCACTTCCACCATCGCCTGCTTGGTCGCTTCATCAGCGGCAATGTAGGTG +ACGTCATCGGAGTCGGCAGAAATCAGACCGAGGCTACGAATATGCGGCGGCAATTTCAGTTCACGCGCAA +AATCGGCGTTAACGGAGGCAATCACCCGCATAGCGGTGACAGACGGTCGAATCAAATCTAAAGCTGGCAT +GATGCCTCCTTATCGGGTCATGTTGATGCCGGATGCTTTCTGCTCCAGCATACGTTTCGCCAAATCCACA +ATGACGGCTGCGGCTTCAACCGGCGGCGTGCCGCCCTGGTGAATGTTAGAGATACAGGTGCGATCGGCCT +CAACGGTGGTCGCCATACGCGGCGAGTAAACGGCGTAGCAGGAGAGGCTTTCTGACTGACCCAACCCCGG +ACGTTCGCCCACCAGCAGGATCACTACTTTCGCGCCGAGGATCTCACCGATCTGATCTTCAATCTTCACG +CGACCATAACGAACAAAGAATGGTGTACCGACTTTCAGCCCGGCCTGTTTCAGGCCCGCCATCAGCGGTG +GCAGGATCTCTTCGTAGTTCACGGTGATCGCATCAGTTGACAGGCCATCAGAAATAACGACCTGTACGTC +CGGATTGGCAACACACTGCGCTTTCAGCGCTTCAACAGCTTCTGCACACAGGCGGCGGCCCATATCCGGG +CGAGTCAGGTAGAGATTTTTGTCGCTAATTTCAGAGCGTACTTCCAGCAAGCCCTGCGCTTTCACCCACT +CTTCCGGCACTTCTTTCAGTACGGTATCTTTCGAACGAGAGTGATCGGCCAGGAAACGCAGCAGCGCCTG +CGTACGTGGACGCGGACCGGCACGACCGGTACAAACGCGGGCCACGGTGCTGCGGCGCAGTTCTGTTAAT +ACGTCTGCGCGATGCGGATTTTCAACACCAATCCACGCTTTTGCTTCAGCGGAACCTAAATCCAGCGCAC +AGCTTTCCGAGGTCACCGGTGCCGCACAGTTGGTGGTGGCGCACTTTGCTTCTGACGGCGCGGGGGCCGC +TTGTCCCATTGACGCCATCACGCTGCGTACAATTTCTTCAATCTGTTTTTGATCCATGATATGTTATCTC +CGCGTCATCAGAAGAACAGTGACGGATCGCCCGCCCGTTTGGTCAGGCGACCGTTTGCCATAATGCCCAT +GCTTTCCAGCCAGCGTTCAAACTCCGGTGACGGGCGCAGGTTGAGTAACTGACGCACAGTGGCGGTATCG +TGGAATGCGGTGGTCTGGTAGTTGAGCATGATGTCATCACCCAGCGGCATCCCCATGATGTAGTTGCAGC +CTGCGGTGGCGAGCAGGATCATCAGGTTTTCGTTGAGGTTCTGGTCAGCGTCAGCGTGGTTGGTATAACA +GCAGTCACAGCCCATAGAGATGCCGCTCAGCTTGCCCATAAAGTGATCTTCTAAGCCAGCACGGATAATC +TGGCGGTCGTTGTAGAGATACTCCGGCCCAATAAAGCCGACCACGGTGTTGACGATAAACGGATCGTAAT +GACGCGCCAGCCCGTAGTTACGTGCTTCCATCGTTACCTGGTCTGCGCCGAAGTTAGCGCCAGCGGATAG +CGCAGAGCCTTGTCCGGTTTCGAAGTAGAGGCAGTTTTCCCCGGCGATACGGTTGAACTCCGCGCCCACT +GCGCGCGCTTCGTCGAGCATCGCCAGCTCCACGCCAAACTCTTTCAGCCCTTTTTCGCTGCCACAGATAC +TCTGGAAAATCAGCCCGCCCGGTGCGCCACGACGGATCGCTTCGATCTGGGTGGTGACGTGCGCCAGTAC +ACAGCCCTGAGTTGGGATGTTGAATTTGTCGATCACGCCATAGATGGTATCCAACACGCGGCTTAAGTTT +TCCACGTCGTCAGTCACCGGGTTAACGCCGATCACCGCATCGCCCACCCCGAAGGAAAGCCCTTCGTAGA +TTTGCGCGGCGATACTTTGCACGTCGTCACGGGTGTCATTTGGCTGCAAACGGGCGCTAAAGGTGCCCGG +AATACCGATGGTGGTATTGGCCTTTTTGATTACCGGCATTTTCTTCGCGCCGTAGATCAGGTCCGCGTTG +GAGCAAATCTTCGCTACCGCCGCGACCACTTCCGAGGTCAGCCCTTTGCGGGTAAAGGCAATGTCGTCCA +CGCTGGTTTCATCGCTCAGCACATACTCACGCAGTTCGCTGATGCTCCAGTTTTTAATCTGGTTGTAGGC +CGTTTCGTTAACATCGTCCTGAATCAGCCGCGTCACGCAGTCATCTTCATAGGCAATCACCGGATTATTG +CGGATGTCCGCTACGGTCATTTCCGACAACACCTGCTTTGCCGCCACGCGCTCCTGTGAGCTTGCCGCTG +CGACGCCCGCCAGCACATCCCCCGAACGCAGTTCGTTGGCTTTAGCCAGCACCTCTTTTACATCCTTAAA +CTGATATACATTGCCGAACAATGTGGTCTTTAGTTTCATAAGTCGTTCCCTCAGGAAGAATCGATGATTG +GCATTTTTCACAGCATTCTAACAATCACGTTTCATCGTCAGCCCTTGTCGTGTAAGGTGGTTGCCTAAAC +ACGCCCGTTATTCATCACGCCGAACGCGCCGGATACATGATCGGGGTTATCCAGTCGTTAAATCAAGGTA +TCCGGTTTTGAGCAAGACACCACTCACAGCAAAGGCCATAGACGCCGCACAGCCGCAGGACAAGCCCTAT +AAACTCACCGATTCACTGACGCCGGGGCTGTTTTTGCTGGTGCATCCCAACGGTTCGAAATACTGGCGAT +TCAGGTATTGGCTGAATAAACGAGAGTTTTTGCAGGCCATTGGAGTTTACCCGCTAATCACACTCAAAGA +AGCACGCAGGCGCGCCACGGAGAGCAGATCCCTTATTGCCAATGGAATTAACCCAGTGGAACAAGCCCGC +AAGGAAAAAGCCATTGATGCGCTCAACATGGCGGCAGGATTTAAGAAGGTGGCGGAAGACTGGTTTGCTA +CCAGGGTTGGAGGGTGGTCGGAATCCTATGCAAAACAGGTCAGATCGGCACTAGAAAAAGACGTCTATCC +GGTACTTGGCAAGCGGTCGATTGTCGATATAACCGCCCGTGACGTGCTGGCATTACTCCAGAAGAAAGAA +CGTACCGCACCGGAGCAGGCCCGCAAGCTACGCCGGCGCATCGGTGAGATCTTCAAGTTTGCCGTTATCA +CCGAACTGGTAACGAGGAATCCGGTTGCAGATCTTGATACGGCACTGAAGGCCCGCCGACCTGGTCACAA +CGCGTGGATACCGATTAGTGAAATTCCGGCCTTCTACAAAGCCCTTGAGAGGGCCGGGAGCGTCCAGATT +CAGACGGCAATACGTTTGCTTATATTAACGGCATTAAGGACCGCAGAACTGCGTTTGTGCCGTTGGGAAT +GGATAAACCTGGAGGACGCAACAATCACATTGCCCGCTGAAGTCATGAAGGCCCGCCGCCCGCATGTGGT +CCCGCTATCACGGCAGGCGGTCGAGCTATTGCAGGACCAGTTCACACGCAGCGGATACAGTGCTTTCGTC +TTTCCAGGCCGATTCATGGATAAACCCTTGTCAGCCAGCGCGATACTTAAAGCGCTTGAGCGTATCGGGT +ACAAGTCGATAGCCACAGGCCACGGCTGGCGCACAACGTTCAGCACCGCACTTAACGAATCAGGCAGATA +CTCGCCGGATTGGATTGAGATCCAACTAGCCCACGTCCCGAAGGGAATAAGGGGCGTTTATAACCAGGCT +GCCTACCTGAAGCAACGGCGAGCAATGATGCAGGATTACGCCGACGCTATTGATTCAATATTGGCAGGTA +ACGGCAATCCTCTAGAACCGGAATGAATAATTAAGCGGCTTTTTTGCAAAGCGCAATTTTGCATTTTGTA +TAAGTATTTGTTTTGTGTGGTTTAACTATCACCTGATAAGAAACCTGTATTCAATTTGCCGGATTCGTCC +GGCTTTTCTTTTTCGCTAATTATTCCATTATTCCAATTAAGTGGAATAAATTATTCAATATCAAGAACTT +AAATCCATGTTTGCAACGAAAGATCCAGAGTTCGAAAATAGGATCAACACAAATAAAAGCCCCCGGAATG +CTGCAACATGCCGGGGGCGGTATGAGAAACAAGCTAAAGGAGAATTTCTCATGTCTGATATGCTAGCAGT +AGAACAAGAAACAAACAATGATGTTCGTCAATTTTTAAACAAAATTAACGAGTTACGGAATAAAGCACCC +AAAAACGAAGAGACTAAACACGAAGAACACACGCCAGATAATCACGAGGAAACAGATCATCACGAGGCAA +AACAGCAGGAGCAAGCCTGGCGTGGCAACCTGCGCTACCTGGACACATTAAACCGACTTGATGAAGTATT +GCCCCGCAAACTGTACGAAAGATGGGAGAAAGAACATACAGTCAACGACGAGGCTGTGCTACGTGCTCTT +TGTTACTTCGCTGGTACTGGCAAAAACTCACAGTTGGGATGGTGCAGGGTTGGTAGGGGAACAATCGACA +AACGAGCCAGGCTATCAAAAAACACGGTTAAAAAATGCCTCGATCGTCTGGTCAACCACTTCAAACTTGT +TGAGCGTACTGAAGGCTATATACCAGGATCGGCAGAAAGGGAGTGCAACGAATACCAGTTATTATTCAAG +CCGTACAACATGAAATAACGGAATCAGGCGGGCAATGTTCCCGCCTTTTCTTTGCCTTAATTCCATGAAT +TCAGGTGGGTCAAAAGTTGCCGTTAGTGGTGGGTCAAAAGTTGCCGTTAAGGTGGGTCAAAAGTTGCCGT +TAAGGTGGGTCAAAAGTTGCCGAGTAAGAATTCTACTATTAAGAATTCTAGGCGACGGGAGTTTTTTAGC +CTCCCGGTCGGTCATAGAGAGTCGCCTAGAGTTAAACAGAAGAATTATTTCGCCGCCTGATAGGTCGGCT +GGTTGCGAGCATTAACCATGCTGATTAGCGCAATCATTTCCAGCAAGCTGGAAACGCCCATTCACTCACG +CACAACCTGAACAGCAGACCAACAAACCATCATGGCATTCGTTCATGGGGAGCGCGGTATATCTCAAAGG +GTGATTTCTTATTGGTGGGCCTTCGGAAGGCTTCGAGCAATTGCCAGCTTAAAAGACGGGCTTAGCAGTG +ATGGTTATCCGCCACGAATGTCCGTCATATTGCATTGCGCAGAAACGCGTGGCACTGAGGGAGTTTTCCG +AATTAGTTTTGGGGACCCTTTCCCTGCTTCTGGAGCAAAAGACGAACGGCAAATGCAGTGCTTCCTTGTA +CGACTGCAGCGAAGAAGAAAAGCTGTTTGTTAAGCGCCTGAAGTTAATCAAAGCGGATATCCACGCCCAG +CTGAAGGCCTGTGATTGCGATATTTCTGAATGACAGGTGGAATCATGAAACACGTTTTTAAATATCTTGA +TTTTGCAGAAGACCGCGAACACGCAGAATCAGTGGCGACCAAAGAGTTAAAACTGGACCACGTAGAAAAA +TTCGCTATCCGCGATCTAGCCAATGATATCAAAGAGCGTGGGTGTGTTGAGCTTGTCCAGCCTGGTGGAT +TCGATGAGCTGGTTCAGATCTATGAGGCCGGAGGCGATGGAATAGAGCCACTCAATTGTGGAATCGAATC +AAGGAAGGTGGCAATTGCTGCCCTGCTTCGCGTCATGCGTGAACCAGACTTTCAATGCCTGGAAATGGTT +CACGAAATCATAAGAATTGCTAGAGATTTGGAAGCGCCAGTTGACGCTCCGTTAGATTGCTAACGCCAAA +ATTAGCGCTGAATTAATGGGTAATTATTGCGGTTTTTGTCAATTTTCAACCTCAATTCTTGCGAAAAATG +GCAAAAATAACGGTATTTTTCATCATTTATTGGGGGTTTTATGGAAGGCGAACTGATAGAAAACAATGGG +TTAGACATTTATGACACCAGCGAAACACCGAAAAAGCGCGGTCGGCCAGCTAAATATAATGAAAAAATAG +CAACGCAAATCGTCCTATTGGTAAGCGAAGGTTATAGTTTGCGCAAGATCAGCATGATGCCAGGGATGCC +GAGCCACCGTCAGATGATGCGCTGGCAACTGGAGCATATGGACTTCAGGGAAGGGATAGCCTGGATGTCG +TGGCTATGGTGCGCTGAAGCTGGCCGACGTGCCGTCGAGATAATCGACGAGGTTGATATAAACGCAGAGG +ATGGGCCGAAGCAGTTGCGCAAAGCAGAAGCAAAGGCAAAGGCACTACTGGCAGCAGCCAAGCTGAATAG +TTTGAAACATTCACCATTTGGAGATGACAAACAATGAGCCTGATCCGCACTGAAACCAGAGACACAAAAC +GCGCAGCTGACCCACTGCACGACCTGCGTAGCAAGCCGTTTTCTGAGTGGGGCGAAGATGAAATCAGGCG +TTTTAATCTGATAGACGCGCTTCTTGAGTTTGTCTACACAGACACATCCAGCCCGTTCGGTATCGGCATG +ACCTTCGATTACACGGAGTGCTGGGAAATTGGTGTTCGTGACGACTGCCTGGTAATGACACGCGTTAAGC +CGGTGCATCCAGAATATGCGAAGCACTGGAACATGAAAGGCGTCATGAATGACAAAACCCGCTTCCACGC +CGACAAGTGGGTAGGGTACAGCAAGGTGCTTGCCTGGGTGAGCTTATCGCACAAAGACACCTTCACGGGT +GCGAAACGGTTTCAATACTTCCAAACGATGTACGACATGGAACGGCAAATCAACGCAAACCTGCCGGTTG +GCGGCCTTCCCAACGTTGACACAGAGCGAACTGGCAAACTGTTCCAACGCGATGACTTTTCTGAGGATAG +CCATGCCAACGATCCGAAGTTGGTTGGTGATGATTACGTCCCCCAGGCACCGGAGCAAATCAACTGAATT +TTCGGACAAACGCGCGCGTAGCCGACGTCAGCGGCAAGACTGGCGGTCATTTCCCCGCTCCTACGCGAAA +AATCCCTCACAACTACCCTGCAAATTTTCCAGATTTCACGTACACGCGCCAAAAATAAAGGCCCAGGCAG +TTAGCAACCTACCCGGGCCTTTCTCACAATCCCCGCTGACATTATATCACCCATCTTTCCGTTTTCAGGT +GGGAGACTGATGGCCGCCGACGTTGCACAATTGATTAATTTCTGAACATTCAAATCAACTCCCACCAAAG +CCAACAAGATGGGAGGTGAATTTTGTGATGCAGATCGCTTTTTCCCTTCAGGCATTTTTGTTTAATTCAA +TCAACGAAAGGCAGTTCCCAACAACAAAATAAAGATGGGAGGTAAAAATGAAACGGTGGGAAGTGGCTTT +ACTGGTGATGGTAATGTTGGTTTGCTGTATTGAACTGTGAAGGAGGACGCCATGAAACTTTTAATCGCAA +TCATCCTGATGGTGCTGACTGGTGTTTGCTTTGCAGATGTTGGTGATTACAGGCTGAACGGGGAGGATAA +CGCAAGAATTGAATCAGTCGTTACTGATAACTGTGAAAAAACAGCCGTATTGGTAGGCGGTGACAGGCTT +GCGAGGGTTGAGATCGAATATATAGCGACATTGTGCAAGCCGGTGGCTTTGGTGATTATTTACGACAGAT +TTGACGATATAGCGGCAATCCCTCTTAAGGTGACGTTGAAAAAGGTATTGAAAGAGAATAGCGATGAAAA +GATTAACCTATTGAACAAGATGGGGGATCTGGCTGGTCGTATCGTTGCAGAGCAGTATTTAGGCATGAGT +TTTGAGTAAGGAGGCAATCATGAAAGTGTTAGGTAATATTTTATGGTGGGCTTTTGTTGGTTTCATGGCT +TACGCCACTTTGATTAAGCCGGACAACACTGATCCAGCTGTTGTGAACTATGAAGAGCCTTTGCCTATGG +AGCTTGCCAACTATGGCGAACCAGGTGAAGGGGCGAAAATCATGAATGCCGCAAAAATAATGGGTCGCGA +CTACGCATGGAAACATGTAAAAGAAGACAGGTTGCCATGTCTGTTTGCCGCCGGGGTTGTTGCTGATAAC +ATCCTGGTAAAATACCATTTCAGCAATGAAACTGAGTTCAAACTTAAAGCGGCAGCGGTCAGAGAATGCG +CCAACGTAGCAGAAAACAACGGCTTTGTTTTGGTAGGTAGAGTATTTGAAAAACGTAATTGATTGCGAAT +AGCAACAACTAAACAACCAATACACCCGGCCCCTCGCCGGGTTTTTTGTGATCTGCGTCAATATTCCCTT +CCGTTACGCTTACCCTCCACCAATACGCGTGTTAACCTCCCAATGGATTCTATGAGATGGGAGATAAAAA +TCATGAGTTACGAAATCAAAATTTGCGACATCCTCAAAGGCGCTGCGATGGAAGGACAATATAAGGGCGC +TCAACGTGGGGCCAAATGCGAGGAGATCGCAAACGAGTTAACTCGCCGGGGAGTTAAAAACAACAAGGGA +GAGGTTATTACTAAGGGCGGCGTTAGCCATTGGCTGGAAGGTAGACGGGAGCCAAATTTCGACACTCTGG +CTGAACTGTGCGACATGTTCGGCGTTTATGCCCTGATGCCGATGCGTGGCGGTAAATGGATTCGAGTTCA +CCCGGAAGACCGTGGAGAAATGGAATTACGCGAGGCTGTAGCTGAACGAGATGCTATTATCGACGACCTG +AAGGCCCGTATCGCTGAGCTTGAGGCGGCACTAGCAAATAAACAAGTCCCAGCAGAAGCGGAAGAGATGG +GAGGTGAAAAAGTGGAAGAAGTGGCAGCAGAGCAAGCGCCCAACGATGAAAAAGAGATGGGAGCTAAGGA +GTGGGTTAACCCGAACCCGAAAAAATACAGCGTCGGCATGTTGTGTCAGGTACTGGCTGCAATGGGCGGC +GAATACCTGGGCAACAACGCAGGGTTACAGCAGAAGATCACTGTGTTGGATAACGACGGCAACCGGAAGC +CAATCAGTAACGGCGCGTTTTATCGACTGATTGAGCAGGCCAAAGGGAGAGGATTGATTAGCGTTGAACA +GGAAATCAAACACAAGAAAGACGAAAACGGCAACCAGATCGGCAAAGGCAAGAAAGGTGACAAGCTGATA +ACTTTGCTTCCCAACTGGATTGATAAGCTGGGAGACGAATAAACCAGCCTTCAACCCCATCTCATCAATC +AACGCCCGGCCCCGCTGCCGGGTTTTTGCTATGCACCACAATTACCCCAACCGGATACACAGCCGGATAC +AATTCCACCAGCACCCAGCCACCCAGCGCCACCGCTGGCGAATACCGCATTCAGGAAGGAAATGCGAGTG +ATTTCACCGTCACCGGCACAACCGATCCGCCAAAAAGAGGCGTACCAATGTCGATATAGTCCCCCGCGCG +GACAATCACTTCGTCAATGACTGCCAACGGGAGTTGTTGTAGCTGTGGGCGCAACAACATGCCCAGAGCT +TTACCAAAGTCCTGCCCGGCCACCACCAGCAGGGGATGCGGATTCGGAAAACGCGCGACGAAATCGACCA +ACGCGTTGATGACCGTCAGTACCGCGGCGTAACGCACAGGCAGCGAGGCGGGAAGCGCCAGCACGTACGC +GTCAGTTTTGGGATCAAGATCCAGCTGAATCAGCGCCTGTTGCCAGGCCCCCACCAGATCCGTTTCATCA +ATCGGGATCGCCACCGGCAAATTGCGCAGCGGCAGTTGTACGCCCTCAAGCCAGATTGTGCTGCCAGAGA +GCGAAAGGGTATGCGCGCCCGCGCCAATCACCGTGGCGCGCACGGTTTGCGCCGGAAACTGTACGTTCAT +CTCACGCAGGCGCGGATGGTCATGCAGCGCAGTTGCCAGCAGCGGGCCAATATCGGCAAAACAGAACGGG +TCGGCGGGCTGGTGGCGATAACATTCGCCCACGCCGCCAGAAAGCGTAATGATTTCGGGCGTAACACCTG +CGGGCAGCAAACCGGTTTGCATCAATGCCTGCGCGAGCGGTGAGAGCGTTCCGTCAATCACTTCGACAAT +CAGTTCTGCCATCCGCCGGGTCACCTGCACCAGCTGCGCGCCGGTCAGCGAACGGGCGTCGGTGCCTGCA +CCGAAGCACTCATCCACAATCATCTGCCCCGGTTTATGAGCGTAAACCACGCGCCCGTGGCTGTCGGTTT +CCAGCAGGCGACCACCGACGTTGAGGCAGGCAGTGCCGCTGATTTTTCCGGCATCGAACAGGGCGTAGTT +CGCGGTGCCACCGCCGATGTCGATATTCAGTACCCGACACAGCCGTTGTTCAGAAAGGGTTTGTGCCCCG +GCTCCGTGACCGGCGATCACGGATTCGAGGTGCGGCCCGGCGCTGGCAACGACAAAATCGCCCAGCGACT +GAGAGAGCGCCATCACCGCCGGGCGAGCATTGCGGGTTTTCGCGCTTTCACCGGTGATGATGATGGCACC +AGAATCAACGCTTTCCGGCTCAATACCCGCAGCATGATATTGCTCGAGTATTAAGGTTTTCAGTTCCGCT +TCTTTTAAACCGCCCTGTTTATCGACAGGGGTAAAGAACACCGGACTTTGCCAGCTAATTTCGCGTTTAA +TGAATTCGTAGCGCGGCACCTGCGACACCGCCGCACGGTTAACCAGCTCCAGCCGGGAGAAAATCACCTG +GGTGGTGGTGGTGCCGATATCGATACCGACGCTCAATAGCTGGCGAGTGTTCACGATTGTGCCTCCGCTT +CGGTTTTAGTCGCGGTCGCGTCTTCTTTTGGCACCAGCATCATCGCCACGCCAATCGCCGTTACGCCGCC +GATCAACTTGCCGACAATCATCGGGAAGATCATGGCGTTCATGTTGGCAGCGGCGAAGCCTAAGTGGTCG +CCCAGGGCGAAAGCAGCGGAAACGGCGAAGGCGCAGTTGATGACTTTGCCGCGGGTATCCATCTGCTTCA +TCATGCCGAACATCGGGATGTTGTTGGCAAGCGTTGCCACCATGCCGGCTGCCGCGATGTTGTTCATATT +CAGTACTTTACCGACGCTCATCAGCGGTTTTTCAAACCAGCGAGTCAGCAGCAGCACCATCGGATACGCC +CCTAACAGAACGCAGGAGATAGAACCGATAACTTCAATGGCGCGCATCACCTCACCGGGTTTATCGCCAG +GGGCCATAAAGATAGGATCCAGACCGGGGATCAGTTCCCAGCCAAGCAGGAATTTCACTACCGCAGCGGC +AAGACCGAGGGTGATCAATGCAACGAGGAATTTGGCGAAGATCTGGAAGCCGTTGATCATTTTTTCCGGG +ATGAATTTCAGCCCCAGCGCCACCAGAATCGCAACAATGATCACCGGGATCATGTTCATCAGGATCAGGG +CGAAAGTGAATTCCACCGGCTGGCCGTTGATCTGCACACCGGAGTACATAGCAACCAGACCACCAGCGAT +ACAACCAATCGGAATGGTCACAATGCCCGCCAGCACGCCGAGCGCCAGATAACGACGGTCAGAAGGTTCG +ATAATGCCGAGCGCCACCGGAATGGAAAACACAATCGTTGGCCCCATCATCGACCCGAGAATTAACCCAG +AGTATAGCCACGCGGCTACGTCGCCGCCCGCCAGCTCTTTGGCGAGGAAGAAGCCGCCCATATCGCACGC +CAGCAGTGTTCCGGCGAACATCGATGGGTTAGCGCCGAGCATTTCGTAAACCGGAATAATTACCGGCCCG +AGAACGTGAGCCAGTACCGGTGCCAGCGCGGTCATACCGACCATCGCCAGGCCCAGTGCGCCCATTGCCA +TAAAGCCTTCTTCGAACTGACCGCCTGATCCTTCGATACTTTTACCGAACTTACCGAGGAAACGAGCAGA +ACCGCCGAACTGCGACAGGATCCTGTCTACGGCAGCTATCAGCATAAAGAACATCATGATGTACATGATG +ATTTCGTTAATTCCCATCGCCTTTACTCCCTGTTAGTTGTTATTTATTGGCGGATGCGGCGTAAACGCCT +TATCCGCCCTACATGTGCAATCCCGTAGGCTGGATAAGACGCGGCAAGCGTCGCATCCGGCAATTGCACC +GCGCCACTGGCGGATGCGGCGTGAACGCCTTATCCGCCCTACATGTGCAATCCCGTAGGCTGGATAAGAT +GCGGCAAGCGTCGCATCCGGCATTTATTGCGCCGCTGCGTACAGGCCGACAATCTGCTCCAGGCTGGCGG +TACGCGGGTTACTGCGCAGACAAATATCTTCCAGCGCGGCCTGCGCCCATGCGCCGTAATGCGCAGATGT +CGCACCAACATCGCCCAGTCGTTTACCAATCCCAACTTCCGCAATCAGCTCACTTACCGCGTTAATAGCG +TCACGATCGTCGGATTTTTTAGTTCGCAGTGCCCGACCAATCTGACTAAAGCGTTCACGACAAACCATCC +GGTTAAATTCCATCACCGTTGGCAGCAACATGGCGTTCGCGAGACCGTGCGGAATATGCAGCGCCGCGCC +CGGCTGATGCGCCATCGCGTGGCACAACCCAAGACCCGCACTGGAAAACGCCATTCCCGCCATACATGAA +GCCAGCAACATGCTCTCGCGCGCGGCAAGGTCGTGACCGTAGCCCACCGCTTTCGGCAGCGATTTGCCAA +TCATCGCAATGGCACCAATCGCCAGACTGTCGGTAAACGGTGTAGCGTTCAGGGCGCTGTATGCTTCAAT +GGCATGGGTTAACGCATCAATGCCGGTCATCGCCGTGACATGCGACGGCACACCTTCGGTCAATGCGGCG +TCGAGGATCGCCACATCCGGCATCAGCGAGGCATGGGCTAACACCTGCTTGCGCCCGCTCACCGCGTCGA +TAATCACCGTTACATTGGTGGTTTCAGAGCCGGTTCCGGCGGTAGTTGGAATGGCAATCAGCGGCAAGCG +CGGTTGCAGAACGCTGGTTTCTGACATCTCTGCCAGCGTGCTATCCGGGTTCGTCACCAGCAACGTCACG +GCTTTCGCCGCATCCAGCACCGAGCCGCCGCCAAACGCGATCACCCCATCACAGCCTGACTCACGCAACT +GCGCCACGGCTGCACACACGTCGGTAATGCACGGTTCGCCCACCGGACATGGCCAGAGCGTCATGGCGAT +ACCTTTAACGGTCAGGCTACGCGTCAGCCCGGCGGTCATCCCTGCCTGATGCAAAAAGCTGTCTGCCATC +ACGAACAGATGTTTCAGCCCACGCGTTTGCGCTTGCTGTCCGCAACTGCTCACCGAGCCCGGACCGCAAA +GCGTCACCGGTGGAACGCTAAATGTTTTTACCCGTTGCAGATTCAGGGTATCGAACGCCTGAAAGAGCGC +GGTCTGCAATTCATTTTGCATATAGCCCCTCCGCTTTCTCTCGCCCACTACTGGCGATCGCCAGCGGGGT +CATAAACAAACTGTGCTGCGGTAAATGCACCTGTAACGCCGGGAATTGTTTGCGAAACAGTTCCGCCACG +CCCGGTTGCATACAAGAGCCGCCCGCCAGCCATAAATCAGTAATGCCCTGCCCTTCAATATGCCGGGCGA +CAATGTCCGCCATTTTTTCGTACACCGGTTTCACCGCAGGCCAAATCTCTTCACCGTGACCGCGCTTGTA +CTGCTCCGCCTCTTCCAGCGAAATACGGCGATTTCCGGCGAGAGTCAGAGAGATGTGATGTCCGCCGGTG +GCTTCATCCGCCGAGTACGTCACCTTGCCCTTTTTCACGATGGCAATGCCGGTAGTGCCGCCGCCGATAT +CCACTACACCGGCGTTGTCCAGTTGCAGCAGATCCGCAACTGCGGTTGGCTCATCCAGCACATGGCTCAC +TTCCAGTCCGGCAGATTCCAGCACGTTGATGGAAATACGCGGGTCCGTACCTGGAGGAAATGAAGTCGCC +GCATGGCTAAAACGACGACCGAATTGCTGCTCGAGCGTGTCGAGATGGCGACGAACAATGGTGACAGCGC +CGAAGAAATCCCAGACGATGCCGTCGCGAACCACATCGGCCCAGTCGAGGCATACCGCCACTGGCTGACC +GTCGCGGTCGACAACCATCGACACCACATCGCAGGTGCCCAGATCCACCCCCAGCCACAGCGGAGATTCC +GTCGCGGCGGGCGTCTGGTTACACAGCGTTGCCGCCGTTTGCAGACGTGGGGTGAGCCATTGTTCGTCGT +GCGCCATCTGTTACTCCTTAAACAATGCGAAACGCATCGACTAATACACAGCGACGCAGACGGACAAACG +TACGCGCGCTGGTTACCCCTTCACCGGTTGGCGTGGTGATGGTCATGGTGGTCCAGCCTTCCCCGCCCAG +CCCCAGCCCGGCAATGCACGGTCCGTTCTTAACGAAAATGCTGGTATCAATAGCATTCGCCATCTGGTTC +ATGTTTTCGATGTTGCGCGAGTGCATTGCCGCCGTGTGGTGGCAACCGCCTTCCAGTTTCACCGCTAGCG +CAATGGCATCCGCCACGTTGGCGACGCGCACGACGGGCAACACCGGCATCATCAGTTCAGTCACGGCAAA +CGGATGTTCTGCGGTGGTTTCCACAAACAGCAGGCGCGTTTCTTGCGGAACTTTAAGGCCGATTGCCGCC +GCGATTTTGCCTGCGTCGCGACCAACCCAGTCACGGCTGACGGTGCCTTTTCCGCGCTCGTCGATATTTT +TCAGCAACACCGGTTGCAGCTGCTGCGCCTGTTCTGCGGTCAGTTTCACCGCGTGCTGGCCTTCCATCAG +ACGCATCAGTTCATCGGCTACGCTATCAACAACAATCAGTACCTTTTCGTCGGCACAAATGATGTTGTTA +TCGAAAGAAGCGCCTTTGACGATGGACTGAGCGGCACGGGCGAGGTCGGCGGTTTCATCCACCACTACCG +GCGGGTTGCCAGCGCCTGCGGCAATCAGACGTTTATTGGTGTGTTTACGCGCCGCTTCTACTACCGCTTC +GCCGCCGGTTACCACCAGCAGGCCGATACCCGGAAACTTGAACAAGCGTTGCGCGGTTTCGATATCCGGA +TTTGCCACAGTAACCAGTAAGTTTTCCGGCCCACCTGCGGCAACAATCGCCTGGTTGAGCAGCGTAATCG +CCCGCTGGGAGACTTTTTTCGCCGCCGGATGCGGGGCAAAAATGACGCTGTTGCCCGCGGCAATCAGGCT +GATGGCGTTGTTAATTACGGTTGCCGCCGGGTTAGTGGAAGGCGTCACCGAAGCCACCACGCCCCAGGGT +GCGTTTTCAATTAGGGTCAGGCCGTTGTCGCCAGTCAGCACTTGCGGAGAGAGGCACTCAACGCCTGGTG +TGCCGCGCGCCTGAGCGACGTTTTTTGCAAATTTATCTTCAACGCGCCCCATGCCGGTTTCACTGACGGC +AAGTTCCGCTAAATCTCTGGCGTGTTTTTCGCCTGCTTCACGAATGGCAGCAATGGCTAACTGGCGCATT +GCCACGCTTTTTAACCCTTGCTGGGCGACTTTGGCTGCCGCAACGGCGTCATCCAGGGACGCGAAAACGC +CCATCTCATGAACGGCGGCGGACGGCGTGTCACTGCTTTGCATTTTCAGCAGTACCGCTTTCACCACCTG +TTCAATATCCTGTTGATTCATGATGTTCTGCCTTATTTGTGGAAAATTACCTGACCGCCAGACACCACCT +CATCGACAATGCCAATCACGCACAGATCGACCGGTGACGTTTCGCTTTTATGCGCCTGGCGGGCGGAACT +GCCACTCACCAGTAACACCCACTCCCCGGTTCCCGCGCCAATATTGTCGATGGCGACGGCGCATTGCCCG +TCAGGATTACCTTGTGGATCAATCATTTCCACCATCAGCAATTTGTCATGCGCCAGTCCGTGATGGCGTA +CGGTACAAACAATTTGTCCAGTGACGACTGCCAGTTTCATACCCGCCTCCGTGGCGTATTTCAGGTAAAA +GCTCCCCCTACCCTCCGCAGAAGGTAAAATGAAAAAGGAGAGAGCGTGACGCCCGAATCGACGTCACACA +GGGTGATTACAGGTTGCTGCTATCGCCTTTCAGGCCGATCGGGAAGACTTCTTCCAGGTCGCCGTGCGGA +CGCGGGATAACGTGTACAGATACCAGCTCGCCGATACGCTGTGCCGCTGCGGCACCTGCATCGGTCGCGG +CTTTACAGGCTGCAACATCACCACGAACCATGGCAGTACACAGGCCGCCGCCAATCTGCTTAACACCAAC +CAGCTTGACGCGCGCAGCTTTCACCATCGCGTCAGAAGCCTCAATCAGTGCAACCAGGCCCCGGGTTTCG +ATCATTCCTAATGCTTCCATTGTGCTTTCCTCTTTATCAGGGTCCAGAACGGGACCGTTCATTCAACCAG +TGTTTGTAAACTGCTTTCGCGGTTCACTTCTGTCTGACGCGGCACAGCTGCCACCAGCGCCAGCTCGATA +ATTTCCTGCACGCTACAACCACGAGAGAGATCGTGCATCGGCGCGGCAAGTCCTTGTATCAGTGGCCCGA +CGGCACGATATCCGCCGAGTCGTTGTGCGATTTTGTAACCAATATTTCCGGCTTCCAGCGACGGAAAAAC +CATCACATTGGCCTTGCCCTGTAGCGGGCTGGCAGGCGCTTTTTGCGCCGCCACTTCCGGCACGAAGGCG +GCGTCAAACTGTAACTCGCCATCCACCACCAGCTTTGGTGCGCGCTCACGGACGATTTCTGTCGCCTGCT +GGACGTTAGCAACACAGGGGTGACGGGCGCTACCATTGCTGGAAAACGACAGCATCGCCACGCGCGGCTC +TTCTCCGGTGATGGCGCGCCAGGTTTCGGCACTGGCAAGCGCGATATCCGCCAGCTGCGCCGCCGTCGGC +TGTGGCACCACGCTGCAATCGGCAAAGCCCAACGCCGGGCCGCTGTACTGTGGCAACATCAGGAAAATGG +AAGAGAGCGTTTTACAGCCTGGCTGCAAGCCGATAATGCGTAATCCGGCACGCAGCACATTTGCCGTGGA +AGAGAGGTTGCCCGCGATACAGACATCCGCTTTACCGGCGCTGACCATTGCTGCGGCGAACATCAGAGGG +TCGGTAAGTTTTTCCAGCGCATCCGGCGGCGTTTTTTCGCCCGCGCGGGCCAGCCAGCGATGAGCAAATT +CTTCCCGCATTGCGAGGTTGCCATGCGGATCAATCACCTGTAGCCCGTCCATCGCCACGCCGTGACTGAG +CGCAAACTGACGAAGTTCAAACGGATTGGCGACCAGAATGGGCGTTGCCAGACCTTGTTGATGTAAATAT +TGCGCGGCTTTCAGCACACGTTGGTCTAACGCATCCGGAAAAACCACTCTGGCGGGCGCTCGCAACGCCA +GTTCACGACAACGTTCAATAATCATTGCGTTTCCCCCAGTCGTTGTTGGATCTGCTTCACCGTTAGCGGC +TGCTTCGTTACGCTCAGGATCATCATCACGTAGACCGTGCTCGAAAGGCGGTTCAGCGCCTGCAAAATGT +CCGGGCGTAATACTTCAAAGCTGCGGGTGATAAAGACCTGCGCCGCTACGGTTTCGGTTTCCCGCACTTT +GGTGCGTAGCAGATTGAGCAACGCAGCATCGCGCCCGTGGCTGGCTTCCGGCACCAGATGATCGTGGTCG +AGATAGCGCAGCGGCTGATGAGAAAGCCGATGCAGATCTTCGTCAGAAAGCCCGACAATCGCCTGGCAGC +CCAGCGGTTCCCCCAGCGCATCGGCGCGCATAATGTTGCCAAGACGCGAACGGATATCCGCCAGCCACGG +CTGCCACGGTTCCGCCAGTTCAATTTGCAGCCACACTGCCAGCGCAATGGTGCTGTCGAGAACCGCGCGA +AAACCCAGACGCGGATCGCTTTTGGCGACCATTTTTTCCGCCGACAGGTGAGTCAGCGTATCCGGCTTTT +TTGCCACCGGCTGGCGACACAGTTCGCAGCACGCCTGCGGATGTTCATCGCTACTGGTCAGCCCATGAAC +GGGCTGCGGCTGCTGCTGTTCATCGTCAACAAACAGGCGGCCCTGCTCGTCAATAAACTTGATGCGCAGA +TGGCGGCTTTCCAGCAACTCCCGGGCAGAGGGCGTCAGGCGACTGTCCGCAGGGAGATGGATCTCTGCGC +CTTCGCTGAGCGTATGGTTCGCTCTTAGCCATGCTTCGGTGATGAAATCTTTCATAGGGATTGCCAGTTA +GCCGGCCAGGCGACATACAGGAATTTCACGCTGGATGTCGTACCAAATTCGATGCTGGAGCCTTTCGGGA +TAAACATCACGTCGCCTGCTTTGGCGATCATGGTTTGGCCTTCGTGGCGAACATGCAGCTCCCCTTCCAG +CACCATGTCGATTTCGTCGTAGTTCAGGGTCCACGGGAAGAATGCGTTCTCCCACTGCATAAAACCGGCG +GCCATGCTGCTGCCGTCGTCTCCGGTCACAAGATCAGTCAAGCCCACGCAATGCGGCTCTGCGCCGTCGA +AACGACCAAACTTGACGCTACTGCCATCAATCACTTTGATGCCGCCTTTGCCGGTCACCGATTTGAAGCT +CGGCTGCATTGCGCCCTGCTCCAGCGACTGTTTTTCCTTCATCACTTTTTCCATCAGCTGTGCGACCAGG +CTTTCGGTAAACTGGCCTTCCGGCAGCTGGGCAATGATGGTTTCGCGGATGCGCTGGCTTTCGGTTTTGT +CGGCTGGCACGCTGGCGGGCACGGACGCCGTTACCGGGATCGATTCATCACATTCGGTGATGGTAAAACC +CAGTAGATCCGCCACTTCACGGGCTTCCGGGGTAATAATGCTGGCGCGCAGAACCACGGACATTGCCTGT +TCGCCGCGCGCGTGTGCTTCACGAATATCATTCGCTGTGATGAGTTTTTTCACCTGCTTCCTCCTGTTTG +GTGAGAGATGCCAGATAATCCACCAGTTGCTGCACGCTTTGCGGGTCGTGGCTGTTTAGCTCGAACATCG +GCTCTTCGAAACCCGTCTCAAGCAATAACTTTCGCGTTGCGGCGACGTCAGCATCTGGCATGTCCGTTTT +ACTGATGACGGCGATTTGCCGTTTGCTGACGCCAATATCCAGCAACCCGGCAGGCAACCGACTTTCCGGG +TCATTTGCGCCATGGACATAGATCAGCATGTCTACATCCTGTAGCGTGGTAATTAAGGCGTGATACCAGC +GGGGATGGTTAAAATATTCACCCGGCGTATCAATATCGCCCTTATCATTAAATTCCACGGCCTGTGTTTT +TCTGGCGAGGGTATAATTCCCCTGCAACGCATTAAATAACGTTGTTTTTCCTGCCCCGACGCTACCCACA +AACGCAATTCGTTTCATGAATGCCTCGTATTAACTTTTGGTCATTTCACAAAGCGTATAATTTAATAAGC +GACCTAAACCGCTGACGGTTTGTGATAACGCTTCTTCTACTGCGCCCACCGAGCCATAAATCACCAATGC +ACCGCTGAATCGGTCGAGAAAACCGATATGCACATCAGCGGCTTTCAGCGCTAAATCACCGGCGATCATC +GCCGTTTCGCCGGGAGTTAGCGTCATAATGCCAATTGCGCCCGCATCCGGAACGCCGATTTTCTTCGCCA +GTTCCTCACCGGGATGCGCGATGAGATGCGCCAGTGTGACCTGTTTGCCGGGCACAAATTCCTGAATGAT +GCGTTCTTTATCCATGAGTCGCCGCCTGTGAAAAACTTTCGTGTATCGTGACAATTTTTCGTCAGAGTAA +ATAACAAAATTCGGCAAGCGCGTTTAAAAGGTGAGGTAGATCACTAAGAATGGAGAGATATTCGCTGTGG +TGCATAAACTTTCATATGCAACGCATGAATATAAATAAAATAATATCGAGATATTATATAGACTGCTTTT +TTTTATTATTCGCAAACTCAGTAATAAGCTTTACTAATATATTGCAGCTAAACTGCTTACCCTGAATATT +CAGGGTAAGCGTGAGAGTTAAAAAAAATTACAGCGGTTGGGTTTGCGCTTCTACCACGGCCAGCGCCACC +ATGTTGACGATACGACGCACCGATGCGATCGGCGTTAACACGTGAACCGGTTTCGCCACACCCATCAGCA +CCGGGCCGACAGTCACACCTTCCGAGCTGGAAACACGCAGTAAGTTGTAACTAATGCGGGCAGCTTCCAT +GTTCGGCATCACCAGAATATTGGCGGAACCTTTCAAAGAGCTGTCCGGCATACGGTCGTTGCGAATCGCT +TCCACCAGCGCTGCATCGCCGTGCATTTCACCATCAATCATCAGTTCTGGTGCACGTTCCCTGACCAGTT +CCAGCGCCTGACGCATTTTGCTCGACGACGGGCAGTCAGAAGAACCAAAGTTGGAGTGCGACAACAAAGC +AACGCGCGGCTCAATACCAAAACGACGGACAGTTTCTGCCGCCATCAAGGTGATCTCCGCCAGCTCTTCT +GCATCCGGTTCATCATTAACATATGTATCGGCAATAAAGGTGTTACCACTCGGCAGCAGCAGCGCGTTCA +TGGCACCTGCGGTGTGAACGCCATCGCGATAACCAAAGACATTTTTCACCACGCTAAAATGTTCATGATA +ATCACCCACCGTACCGCAAATCATTGCATCGGCTTCCCCACGCTGAACCATGATCGCGCCGATCACTGTC +GGGTTACTGATCAGCGCCCGCTGCGCCTGTTCCTGAGTGACGCCGCGACGCTTCATGATCTGGAAGTATT +CGGTCCAGTACTCTTTAAAGCGCGGATCGGATTCGTTATTGACGATCTCAAAATCAACGCCCGCTTTGAT +CTGCAAGCCCAGTTTCTGAATGCGCATTTCGATCACGTTCGGACGACCGATAAGGATCGGTTTCGCCAGT +CCCAGCGTTACCAGTTCCTGAGTGGCATGCAGAACGCGCGCCTCTTCCCCTTCCGGCAGAACAACGCGCT +TCGGCGCTTTGCGAGCCTGGGAGAAAATCGGCTTCATAAACAGGTTGGTTTTGTAAACGAACTCAGTCAG +CTTGTCGATGTAGACGTCGAAATCAGCAATCGGACGAGTCGCCACGCCCGACTCCATCGCGGCTTTAGCG +ACCGCAGGAGCGATCTTAACGATCAAGCGCGGATCAAACGGTTTTGGAATGATGTATTCCGGACCAAAGC +TCAGATCCTGATCGCCATACGCTGAAGCCACCACTTCGCTCTGTTCCGCATGGGCGAGTTCTGCAATCGC +ACGTACCGCCGCCAGTTTCATCTCTTCGTTGATGGCGGTTGCGCCAACGTCCAGCGCGCCACGGAAGATG +AACGGGAAGCACAGGACGTTGTTCACCTGGTTCGGATAGTCAGAACGACCGGTGCAAATGATGGCATCCG +GACGCACTTCTTTCGCCAGCGGCGGCAGAATTTCCGGTTCCGGGTTCGCCAGCGCCAGGATCATTGGCGC +ACGAGCCATTTTCTTCACCATTTCCTGGGTCAGCACTTTCGGGCCGGAACAGCCCAGGAAAATATCCGCG +CCTTCAATCACATCATCGAGGGTACGTTTGCCGTCATCCACCACCGCATATGCGGCTTTGGTTTCCGCCA +TGTTTGGCTCACGGCCCTGATAGATAACGCCTTTTGAATCGCAAACCACGATGTTATGTTTTTGCAGACC +CAGCGCTACCAGCAGGTTCATACAGGCGATTGCTGCGGCACCCGCGCCGGAAACCACCATCCGCACGTCG +GAGATGTTTTTCTCCACCACGCGCAAGCCGTTGAGGATGGCGGCAGTGCTGATAATTGCCGTGCCGTGCT +GATCGTCGTGGAATACCGGAATATTCATCCGCTCGCGCAGTTTCTGTTCAATATAGAAACATTCTGGCGC +TTTAATGTCTTCGAGGTTGATGCCGCCGAAGGTTGGTTCGAGCGCGGCGACAACTTCAATAAATTTGTCC +GGGTCGAGTTCGTCAACTTCAATGTCAAATACATCAATCCCGGCGAATTTCTTAAACAGAACGCCCTTGC +CTTCCATCACCGGTTTGCCTGCCAGCGCGCCAATGTTGCCTAACCCCAGCACCGCCGTACCGTTAGAGAT +CACCGCCACCAGGTTACCTCGGGCGGTATATTTGTAGGCTTTTAACGGGTCTTTTTCGATTTCAAGACAA +GGTGCGGCAACGCCTGGTGAGTAGGCCAGCGCCAGATCGCGCTGTGTTGCCAGAGGCTTGGTTGGAGAAA +CCTGGATTTTCCCTGGAACTGGAAATTCATGGAAATCAAGTGCACTTTGTTTTAACTGGTCATCCATTTG +GTTGTTCCTTTCACGTAACGTTCACAAATAAAGTGTGTGGGCAACAGCCCCTGCCCACAACGTGGCGCAC +ATTATTACCCTGCCGGAGTCTACAGACTTTGAGCAAGTCCAAACTCTCACCATTAATATAATGTTTTGGT +AATAATCCTATAACACTGATGTTACCTGCTTAATCCAGCAATACCATGCCTGTCTGCTATGCTTTTTTGA +TGCGTTTAGCGAAATTTCTCAGAAGTGTGAATTAACGCACTCATCTAACACTTTACTTTTCAAGGAGTAT +TTCCTATGAACGAGTTAGACGGCATCAAACAGTTCACCACTGTCGTGGCAGACAGCGGCGATATTGAGTC +CATTCGCCATTATCATCCCCAGGATGCCACCACCAATCCTTCGCTGTTACTCAAAGCTGCCGGATTATCA +CAATATGAGCATTTAATAGACGATGCTATCGCCTGGGGTAAAAAAAATGGCAAGACCCAGGAACAACAGG +TGGTCGCAGCGTGTGACAAACTGGCGGTCAATTTCGGTGCTGAAATCCTCAAAATCGTACCCGGTCGCGT +GTCAACAGAAGTTGATGCACGCCTCTCTTTTGATAAAGAAAAGAGTATTGAGAAGGCGCGCCATCTGGTG +GACTTGTATCAGCAACAAGGCGTTGAGAAATCACGCATTCTGATCAAGCTGGCTTCGACCTGGGAAGGAA +TTCGCGCGGCAGAAGAGCTGGAAAAAGAAGGTATTAACTGCAACCTGACGCTGCTGTTTTCTTTTGCACA +GGCACGGGCCTGTGCGGAAGCAGGCGTTTTTCTGATTTCGCCGTTTGTCGGGCGTATTTATGACTGGTAT +CAGGCACGCAAGCCGATGGACCCGTATGTGGTGGAAGAAGATCCGGGCGTTAAATCGGTGCGCAATATCT +ACGACTACTATAAGCAACACCACTATGAAACCATTGTGATGGGCGCGAGCTTCCGTCGCACCGAACAAAT +CCTCGCCTTAACCGGCTGCGATCGACTGACTATCGCACCGAATTTACTGAAGGAGCTGCAGGAAAAAGTT +TCGCCAGTGGTACGTAAATTAATCCCACCTTCTCAGACGTTCCCACGCCCAGCTCCCATGAGCGAAGCGG +AGTTCCGTTGGGAGCACAATCAGGATGCGATGGCGGTAGAAAAACTGTCTGAAGGCATTCGTCTGTTCGC +CGTTGATCAACGCAAACTGGAAGATCTTCTTGCCGCCAAACTATAAACCAGCCACGGAGTGTTATATGTC +CCGAAAAGACCTTGCCAATGCGATTCGCGCACTCAGTATGGATGCGGTACAAAAAGCCAACTCTGGTCAT +CCCGGCGCGCCGATGGGCATGGCTGATATTGCCGAAGTGCTGTGGAACGATTTTCTTAAACATAACCCTA +CCGACCCAACCTGGTATGATCGCGACCGCTTTATTCTTTCCAACGGTCACGCGTCGATGCTGCTCTACAG +TTTGCTACATCTGACCGGTTACGACCTGCCGCTGGAAGAACTGAAGAACTTCCGTCAGTTGCATTCGAAA +ACCCCAGGCCACCCGGAGATTGGCTATACGCCAGGCGTTGAAACCACCACCGGCCCGCTTGGACAAGGTT +TGGCGAACGCCGTCGGGCTGGCGATAGCAGAGCGTACACTGGCGGCGCAGTTTAACCAGCCAGACCATGA +GATCGTCGATCACTTCACCTATGTGTTTATGGGCGACGGCTGCCTGATGGAAGGTATTTCCCACGAAGTC +TGTTCGCTGGCAGGCACGCTGGGACTGGGCAAGCTGATTGGTTTTTACGATCACAACGGTATTTCCATCG +ACGGTGAAACAGAAGGCTGGTTTACCGACGATACGGCAAAACGTTTTGAAGCCTATCACTGGCATGTGAT +CCATGAAATCGACGGTCACGATCCGCAGGCGGTGAAGGAAGCGATCCTTGAAGCGCAAAGCGTGAAAGAT +AAGCCGTCGCTGATTATCTGCCGTACGGTGATTGGCTTTGGTTCGCCGAATAAAGCAGGTAAGGAAGAGG +CGCACGGCGCACCACTGGGGGAAGAAGAAGTGGCGCTGGCACGGCAAAAACTGGGCTGGCACCATCCGCC +ATTTGAGATCCCTAAAGAGATTTATCACGCCTGGGATGCCCGTGAAAAAGGCGAAAAAGCGCAGCAGAGC +TGGAATGAGAAGTTTGCCGCCTATAAAAAGGCTCATCCGCAACTGGCAGAAGAGTTTACCCGACGGATGA +GCGGTGGTTTACCGAAGGACTGGGAGAAAACGACTCAGAAATATATCAATGAGTTACAGGCAAATCCGGC +GAAAATCGCTACCCGTAAGGCTTCGCAAAATACGCTTAACGCTTACGGGCCGATGCTGCCTGAGTTGCTC +GGCGGTTCGGCGGATCTGGCTCCCAGCAACCTGACCATCTGGAAAGGTTCTGTTTCGCTGAAGGAAGATC +CAGCGGGCAACTACATTCACTACGGGGTGCGTGAATTTGGCATGACCGCTATCGCCAACGGCATCGCGCA +CCACGGCGGCTTTGTGCCGTATACCGCGACGTTCCTGATGTTTGTTGAATACGCCCGTAACGCCGCGCGG +ATGGCGGCACTGATGAAAGCGCGGCAGATTATGGTTTATACCCACGACTCAATTGGCCTGGGCGAAGATG +GTCCGACGCACCAGGCTGTTGAGCAACTGGCCAGCCTGCGCTTAACGCCAAATTTCAGCACCTGGCGACC +GTGCGATCAGGTGGAAGCGGCGGTGGGCTGGAAGCTGGCGGTTGAGCGCCACAACGGACCGACGGCACTG +ATCCTCTCAAGGCAGAATCTGGCCCAGGTGGAACGTACGCCGGATCAGGTTAAAGAGATTGCTCGTGGCG +GTTATGTGCTGAAAGACAGCGGCGGTAAGCCAGATATTATTCTGATTGCCACCGGTTCAGAGATGGAAAT +TACCCTGCAAGCGGCAGAGAAATTAGCAGGAGAAGGTCGCAATGTACGCGTAGTTTCCCTGCCCTCGACC +GATATTTTCGACGCCCAGGATGAGGAATATCGGGAGTCGGTGTTGCCTTCTAACGTTGCGGCTCGCGTGG +CGGTGGAAGCAGGTATTGCCGATTACTGGTACAAGTATGTTGGTCTGAAAGGGGCAATTGTCGGGATGAC +GGGTTACGGGGAATCTGCTCCGGCGGATAAGCTGTTCCCGTTCTTTGGCTTTACCGCCGAGAATATTGTG +GCAAAAGCGCATAAGGTGCTGGGAGTGAAAGGTGCCTGATGGTGATTGCCGGATGCTGATTGCCGGATGC +GACGCTGACGCGTCTTATCCGGCCTACAGCGTCTTATCCGGCCTACATGTCCCGCCATTTTGTTTAACGG +GTGATCCACAACGTGGGCCAGGCGTCTGGCCCATGCCAGTTATCGCAGGTGGGTTCTGCGGCGTAACGCA +CCAGGCGAAAACGCTGACCGTCAAAGCGCCAGCGCGCCTGAATGCCACAATCGCTTAATCCGCGCCCTTT +CGCTAAGGTCACCAGTTCACGCGATTTCTCATCAAATGTTGCGTTCATCAGTTCCAGTTCATTCGTCTCC +TGACCGTTGTTGAACGGCAAACGCAACCGAACCGGGCGCGAAGCTAGTGGCTTTTTACGCGACACAATCC +ATGCCAAATCAATGGTGTTATAGGCCCCTGCCTCACAGCTAATCATCATCAGCGCTTTATCATCAGTCAG +CGCAGTGACATTCACCTCACGACGCAATGGATCAAGCGAGCAGCGCAGACCATTCATCCGCCAGTTTCCA +TAATCCAGCAAATCGTTGCGTTCTTCGAGTGAGAGTGGCGTCGGCGTTGGGTTAACCACCGCGACCTCTT +TCAGCGCAGGCGCGGGCGGTACGCTGAGCGGCGGTTCGTCCCCTTTCTTGATCCACGCGGTTTCACTGCC +AACGCGCTTTTGCTGAGCATCAATAAACAACAACGCTGCTTTTAAGCCACTCAGAGAAATGGTCTGATCG +CCATCGCGTAAGGTGATTGCCTTCCCTTCCTGAATCATCTGCAAAAACGCGGTGATGGTTGCCGTATCAT +CGGTTACTAATAACCATGGTGAAATCCGCCACTTGTCACCACTTAACGCCAACGGCTCGCCATCTAACAG +CAGCCGTGGCGCTATCTCCCCTTCTGACGCCTCCGGCGACTTCAATCCGCCGCGCTCAATACGTAAAACG +GCATCGGTATGCGCCCCGGCGCTGCGGCTCAGGGTCATCACCAGTCCATTATGATCGCCCGTATTACGCG +CCACGCAGAAATTTTGGTTATTACAGGTGACCTGCCAGTCGGAAAACGCCCGTTGCGCTGGTGCCGCCCA +CACCAAAGACGTCGGCAACAAAGCGAAAAAAAAGAGAAGGAAAATGCGATAGCGCATGGACGGTACGACC +CCAGAAGTTCAAACAAACAGCACAAGTCGTATCTTCGTTGCGCAGGTAGCGCGGCTCAATCGGATTTGTC +GGATTGAGCCAATAATAAACAACGAAATATTATTGTTATTTTTCAGTCCATTAAATGTGACGTTTGCAAA +TAGTTAAGCAATAACACCGTCTTACCGTCACGTATCTCGCCGGTTTTGATCATCTCCAGCGCCTGGCTGA +ACGGCAGCTCGAGCACTTCAATATCTTCATCTTCGACACCGCCACCGGCGTTAGCGCGCTGATTGTCACT +GTATTCGGCGATAAAAAAGTGGATTAGCTCAGTCACACCGCCTGGCGACATATACAGTTCAAATAATTTG +CGCACTTCACCCACTTCATAGCCCGTCTCTTCAATCGCTTCTTTGCGAATACACACTTCCGGTTCGTCGT +TATCCAGCAGCCCGGCGCAGCTTTCAATCAGCTGCCCGCTTTCATTGCCATTAACCCAGGTAGCGACACG +GAACTGACGAATCAGAACCACGGTCTTTTTCTTCGTGTTGTACAGGAGGATCGTCGCACCATTGCCGCGA +TCGTACACTTCACGTTTATGGCGGATAACTTCGCCGTCTTTGCGCGTGAGATCGTAAGTAATGTTGTGCA +GGGTGAAATAGTTATCGGAGAGAATTTTGTCTTTAATGAGGGTGATTTGTTGCGTCATACCGACTCCACA +GCGCGAAATGAACAATTATCTTACGCTGTGAAGTCGGGTTTGTCTGCGCAGGCTATCAGTGAGATTTGAC +TGATTTTACCCCCAGCCAGTCAATAATCCCCTGTGCCGCATGACGTCCTTCTGCCATTGCGGTAACCACC +AGATCCGCACCACGCACGGCGTCACCACCAGCGAAGATTTTCGGATTGGTGGTCTGGTAACGGTACTGGC +TTTCCACATCCGCGATGATGCGGCCCCATTTGTCTACCGTTACACCGTGCGACTCCAGCCACGGCATCCC +GTGCGGATTGAAGCCAAACGCCATAATCACCGCGTCGGCTGGCATGACAAATTCACTGCCTTCCACCGGC +ACTGGACGCCGACGCCCCTGGGCATCCGGCTCTCCAAGACGCGTGCGCAGGAAACGAATCCCGCAGACGT +GACCTTGTTCATTCAGCTCAAGCGCCACCGGCTGGACGTTAAATTCGAAGTTGGCCCCCTCTTCGCGGGC +GTTCTTCACTTCTTTCTTCGAGCCTGGCATGTTAGCTTCATCACGACGATAAGCGCAGGTGACGTTACTC +GCGCCGTGGCGCAGTGCGGTACGCACACAGTCCATCGCGGTGTCGCCGCCGCCCAGTACCACGACGTTAA +GTCCGGCGGTATTGATAAACGGCTCTTCCGGTAGCTCTTCGAGCCCCATCACCTGTTTAGTGTTGGCAAT +GAGGAACGGCAGCGCGTCATAAACGCCCGGCGCATCTTCATTGGGTAAACCCGCTTTCATGGAACGGTAA +GTGCCTACGCCAACGAAGACCGCGTCGTATTGTTCCAAAAGCGAATCCAAAGAGACATCTTTACCCACTT +CACAATTGAGTTCGAAGTGAATCCCCATCGCGCTGAAGATTTCCCGACGGCGTGCCAGCAGGGATTTATC +CAGTTTGAAAGAAGGAATGCCGAAAGTGAGCAAGCCACCGATTTCTGGATGGCGATCGTACACCGTCACC +CCCACGCCATTGCGGGTCAGAACATCCGCACAGGCCAGCCCTGCCGGACCTGCACCGATAATCGCCACCC +GCTTGTCCACTTTGGTGACATGGCTTAAGTCAGGACGCCAACCTTTCGCCAACGCCTGATCTGAAATGTA +GCGTTCAATGTTGCCGATAGTTACCGCGCCGTGCTCATCGCGAATAGTACAGGCACCTTCACACAAACGG +TCTTGCGGACAAACGCGTCCGGTAATTTCCGGCAGGGTGTTGGTCTGGTGAGAAAGCTCGACGGCGGCGT +CGATGTTTCCGGCTTTCACCAGTTCAATCCACTGCGGTATATGGTTATGCAGCGGGCAGGTCCATTCACA +AACGCTGTGCTCGCCGCACTTAAGGCAGCGCGAGGCTTCCCGTTGTGCCTGGTCGGCGCGAAATGGCAGA +TAAATTTCATCAAAACCGGTTTTGCGCGCTTCAATCGCCAGTTTATCCGGCTCGCCACGCGCGGGCGTTG +CCTGCATTTGTTCGACTTTACTCATTACCGGCATTTCTTGCGCCGCGGTACTGGCATGCCACGGTTGATG +TTCCTGACGCGCGGTGCGCAAGCGGCGGGATTTCGCCATGCCGGAGAGTGCGACGTCAGTGACCAGTTGC +AGCGCGTCCGCCGGGCAATTCTCAACACAGGCAGGACCGTTTTCGCGCCCCGCACAAAGGTCGCATTTAT +GCGCCGTGGCTTTTACTTTTCCTGCCGCGACGGGTGTCAGGACGATTTGCATCGTACCAAAAGGACAGGC +CACCACGCAGGATTTACAGCCAATACACTTTTGCTGATTGACCTGAATGCTGTCATCAACGTGGCTGATT +GCGCCATTAGGGCAGCTACGGGCGCAGGGCGCATCTTCACAATGGTGACAGGTCACTGCACTACGTTGCT +GTTGATGTTTGATAACCGTAATTCGGGGATGAAAATGGTGTTGGCTCAGGACATGTTGCTCATCATTGTG +AGCCATGACACAGGCGATTTCACAAGCATGACAACCCAGACATTGCTGACTGTTGGCCATAATAAAACGA +TTCATAACGACCTTCTTTTTTGGTTGTAAAAACCTTATTCTTTATATGAGTGTTGTTATTACCCGACTTA +CAGGGGAATCGGCAATGTTCATGTGCCCAGAATAAGTAACTATTTCGCTATAAACTGTGGCAGATCAAAT +AATCCCATCACTGACTAAATTGCGTTTCAGCGAACTGGAACATTAATGATTTTTTGTGGAGAAGACGCGT +GTGATTGTTAAACGACCCGTCTCGGCCAGTCTGGCCCGGGCCTTTTTTTACATTGTGCTGCTGTCGATTC +TTTCCACGGGTATCGCTCTGCTAACTCTGGCGAGCAGTTTGCGCGACGCTGAGGCTATCAATATTGCCGG +ATCGCTGCGTATGCAGAGTTACCGCCTGGGCTACGACTTGCAAAGTGGCAGTCCACAACTCAATGCACAT +CGCCAGTTATTTCAGCAGGCACTGCATTCACCGGTATTAACCAACCTCAACGTCTGGTATGTGCCAGAAG +CAGTAAAAACTCGCTATGCGCATCTGAATGCCAACTGGCTGGAGATGAATAATCGGCTCAGCAAGGGCGA +TTTGCCGTGGTATCAGGCCAATATTAATAATTATGTTAATCAGATAGACCTGTTCGTACTGGCTTTACAG +CACTACGCTGAACGCAAAATGCTGCTGGTGGTGGCGATTTCCCTGGCTGGCGGCATCGGTATTTTCACGC +TGGTCTTTTTTACTTTGCGCCGCATACGCCATCAGGTGGTTGCCCCGCTGAATCAGCTGGTTACCGCCAG +TCAGCGTATTGAACACGGGCAGTTCGACTCGCCGCCGCTGGATACCAACCTGCCGAATGAGCTTGGTCTG +CTTGCAAAAACCTTTAACCAGATGTCGAGCGAGCTGCATAAATTGTACCGTTCGCTGGAAGCGTCAGTAG +AAGAAAAGACCCGCGATCTCCACGAGGCCAAGCGTCGTCTGGAGGTGTTGTATCAGTGTTCGCAGGCGCT +GAACACTAGCCAGATTGATGTGCATTGTTTCCGCCATATTTTGCAGATTGTTCGCGACAATGAAGCGGCT +GAATATCTGGAGTTAAATGTCGGTGAAAACTGGCGGATTAGCGAAGGGCAACCAAACCCGGAATTGCCGA +TGCAGATTTTACCGGTGACAATGCAAGAGACGGTTTACGGCGAACTGCACTGGCAAAATAGTCACGTTTC +ATCATCAGAACCGCTGCTTAACAGCGTTTCGTCGATGCTGGGACGCGGTTTGTACTTTAATCAGGCGCAG +AAGCATTTTCAGCAATTATTGTTGATGGAAGAACGTGCGACCATCGCCCGCGAATTGCACGACTCGCTGG +CTCAGGTACTTTCTTACTTACGTATCCAGTTGACGTTACTGAAGCGTTCGATACCGGAAGATAACGCCAC +CGCACAAAGTATCATGGCCGATTTTTCCCAGGCGTTGAATGATGCTTATCGGCAGTTACGCGAGCTGTTG +ACTACTTTCCGCCTGACGCTGCAGCAGGCGGATCTCCCCTCCGCATTGAGGGAAATGCTGGATACGTTAC +AAAATCAAACCAGCGCCAAACTGACCCTCGACTGCCGTCTGCCAACCCTGGCACTGGATGCGCAAATGCA +GGTGCATTTGTTGCAAATTATTCGCGAAGCGGTGCTGAATGCGATGAAGCACGCCAACGCCAGCGAAATC +GCCGTCAGTTGCGTCACCGCGCCGGACGGCAATCACACGGTTTATATCCGTGATAACGGGATTGGTATCG +GTGAACCGAAAGAACCCGAAGGTCATTATGGTCTGAATATCATGCGCGAACGCGCGGAACGGCTAGGTGG +GACGCTGACTTTTTCACAACCTTCCGGCGGCGGCACGTTAGTGAGTATTAGCTTTCGCTCTGCGGAGGGT +GAGGAAAGTCAGTTAATGTAATGCCTCCTACTGACCAAAGAATACTTGCACTTAAGGTTCAGTATAAAAG +GGCATGATAATTTACATTAACTCCTTTTTTTCTCCACGATTGGCTCGTACCTTGCCGCTACAGTGAAGCA +AGTCAAGCCTACAACGATACGCAGAAACACGAGGTCCTCTTTTAATGGCGAATTTCTTTATTGATCGCCC +CATTTTTGCCTGGGTGCTGGCAATCCTGTTGTGTCTGACAGGTACCCTGGCGATTTTTTCATTGCCCGTT +GAACAATACCCCGATCTCGCGCCACCGAATGTGCGAGTGACCGCTAACTATCCCGGCGCATCGGCCCAGA +CGCTGGAAAACACCGTGACCCAGGTTATCGAGCAAAATATGACCGGCCTCGATAATCTCATGTATATGTC +ATCTCAGAGCAGTGGCACCGGTCAGGCATCTGTCACTTTAAGTTTTAAAGCAGGCACCGATCCGGACGAA +GCCGTGCAGCAAGTACAAAACCAGCTGCAATCAGCCATGCGAAAGTTACCGCAGGCGGTGCAAAATCAGG +GCGTGACGGTGCGTAAAACCGGCGATACCAACATTCTGACCATTGCCTTCGTCTCTACCGATGGTTCGAT +GGATAAACAGGATATTGCTGATTATGTTGCCAGTAATATTCAGGACCCGTTAAGCCGCGTGAATGGCGTC +GGGGATATCGATGCCTATGGTTCGCAATATTCCATGCGTATCTGGCTGGACCCGGCGAAACTCAACAGTT +TCCAGATGACGGCTAAAGATGTCACTGATGCCATTGAGTCACAGAACGCGCAGATTGCGGTTGGGCAACT +TGGTGGTACACCTTCCGTCGATAAGCAGGCGCTCAACGCCACCATTAACGCCCAGTCACTGCTGCAAACA +CCAGAACAGTTCCGCGATATCACCTTGCGGGTCAATCAGGACGGCTCAGAGGTAAGGCTGGGCGATGTCG +CCACCGTCGAAATGGGGGCGGAGAAATACGATTATCTTAGCCGCTTCAATGGTAAGCCAGCCTCCGGGCT +GGGGGTAAAACTGGCCTCCGGCGCTAACGAAATGGCGACAGCGGAGCTGGTGCTCAATCGTCTCGACGAG +CTGGCGCAGTATTTCCCGCATGGACTGGAATACAAGGTGGCGTATGAAACCACCTCGTTTGTTAAAGCCT +CCATTGAAGACGTGGTGAAAACGCTGCTGGAAGCTATCGCTCTGGTTTTCCTCGTTATGTATCTGTTCCT +GCAAAACTTCCGCGCCACGCTGATACCCACTATCGCCGTGCCGGTGGTGTTGATGGGAACCTTCTCCGTA +CTTTACGCCTTCGGTTACAGCGTCAACACCTTAACCATGTTCGCGATGGTGCTGGCGATCGGTCTGCTGG +TGGATGACGCCATCGTGGTGGTGGAAAACGTCGAACGTATTATGAGTGAGGAAGGACTCACTCCTCGCGA +AGCCACACGTAAATCGATGGGGCAGATCCAGGGGGCACTGGTCGGGATTGCGATGGTTCTTTCGGCGGTA +TTTGTACCAATGGCCTTCTTCGGCGGCACCACCGGTGCCATCTATCGCCAGTTCTCTATTACCATTGTTG +CGGCGATGGTGCTGTCAGTACTGGTAGCGATGATCCTCACTCCGGCTCTGTGTGCCACACTACTTAAGCC +ACTGAAAAAAGGTGAGCATCATGGGCAAAAAGGCTTTTTTGCCTGGTTTAACCAGATGTTTAACCGCAAC +GCCGAACGCTACGAAAAAGGGGTGGCGAAAATTCTCCACCGTAGCCTGCGCTGGATTGTGATTTATGTCC +TGCTGCTTGGCGGCATGGTGTTCCTGTTCCTGCGTTTGCCGACGTCGTTCTTACCGCTGGAAGACCGTGG +CATGTTTACTACCTCGGTACAGTTGCCCAGCGGTTCAACGCAACAACAGACCCTGAAAGTCGTTGAGCAA +ATCGAGAAATACTACTTCACCCATGAAAAAGACAACATCATGTCGGTGTTTGCCACCGTTGGTTCTGGCC +CTGGGGGTAACGGGCAAAACGTGGCGCGAATGTTTATCCGCCTGAAAGACTGGAGCGAACGCGACAGTAA +GACCGGCACCTCGTTTGCCATTATCGAGCGTGCAACGAAGGCGTTTAACCAAATTAAAGAAGCTCGCGTT +ATCGCCAGCAGCCCGCCAGCAATTAGCGGTCTTGGTAGTTCTGCAGGTTTTGATATGGAGTTGCAGGACC +ACGCTGGAGCGGGTCACGATGCGCTGATGGCAGCACGTAATCAGTTGCTGGCGCTGGCGGCGGAAAACCC +GGAGCTAACCCGTGTGCGCCATAACGGCCTCGACGACAGTCCGCAGTTGCAGATTGATATCGACCAGCGT +AAAGCTCAGGCGCTGGGCGTTGCTATCGACGATATTAACGACACACTGCAAACCGCCTGGGGTTCGAGCT +ATGTGAATGACTTTATGGATCGCGGTCGCGTGAAGAAAGTCTATGTGCAGGCAGCTGCGCCGTATCGCAT +GCTGCCAGATGACATCAATCTCTGGTATGTCCGAAATAAAGATGGCGGCATGGTGCCCTTCTCTGCTTTC +GCGACCTCACGCTGGGAAACAGGCTCGCCGCGTCTGGAACGCTATAACGGTTATTCTGCGGTTGAGATTG +TTGGGGAAGCCGCACCGGGGGTCAGTACCGGTACGGCGATGGATATTATGGAATCGTTAGTGAAGCAGCT +GCCAAACGGCTTTGGTCTGGAGTGGACGGCGATGTCGTATCAGGAGCGGCTTTCCGGCGCGCAGGCTCCG +GCGCTGTACGCCATTTCCTTGCTGGTGGTATTCCTGTGTCTGGCTGCGTTGTATGAAAGCTGGTCGGTGC +CGTTCTCGGTAATGCTGGTCGTGCCGCTGGGGGTAATCGGCGCGCTGCTGGCAACCTGGATGCGCGGGCT +GGAAAACGACGTTTACTTCCAGGTGGGCCTGTTAACGGTCATTGGTTTATCGGCGAAAAACGCCATCCTG +ATCGTCGAGTTTGCTAACGAGATGAACCAAAAAGGCCACGACCTGTTTGAAGCGACGCTCCACGCCTGCC +GTCAGCGTTTACGCCCGATTCTGATGACCTCGCTGGCATTTATCTTCGGCGTATTGCCAATGGCAACCAG +CACGGGTGCCGGTTCCGGTGGTCAGCATGCGGTGGGTACTGGCGTAATGGGCGGGATGATTTCGGCCACT +ATTCTGGCTATTTACTTCGTGCCGCTGTTCTTTGTGCTGGTGCGCCGCCGCTTCCCGCTGAAGCCGCGCC +CGGAATAAGCAATAAAAAAGGCGACATGCCAATGTGTCGCCTTTTTCAACTTTCCGATTAAGAACCTGCT +CAGCGGGTTCTTGCTGTTTGTACTTTGTCTCAGGAATTACTTACGAAGCATAACTTCGATAAAGTCTTTC +CAGTTCCCCAGTTCACGTTCAATCATAACAACCTCTCTTATAATTATGGGTATTCTACGGAAACAATATA +CCGTGGTGAAGCTAATTTACTCGATTGCTGCGATGACTACCTCCGGGGGACAAATCTTATGTAAATACTA +TGGTCCTGCGGTGATGATTTGTATGTGATACACAGCAACATTTCGAGATATTCATACGGCATCTAATACT +GATTTAATTCTGGTTAAAATACAGACAGATAACAAGATGAATATTCTTAATGTTTACGTTAAAAATGTTT +AATATTATTTAATAGTTGTTAATTTGAATACTTCGATAATGTTATATTTCCTGATAATCATTTGCAGGCA +AAATGTTTTCACCCTTAAATGAGTATTTATTCTCATAAATCGAAAAAGGATTCATTATGGTTACACTTTA +CGGTATCAAAAATTGTGACACCATTAAAAAGGCTCGCCGTTGGCTGGAAGCCAATAACATCGACTATCGT +TTTCATGATTACCGCGTCGATGGGCTGGACAGCGAATTATTGAACGATTTTATCAACGAATTAGGCTGGG +AAGCGTTACTCAACACCCGTGGTACAACCTGGCGTAAACTGGACGAAACCACCCGCAATAAAATCACCGA +TGCGGCCTCTGCGGCGGCATTAATGACTGAAATGCCTGCAATTATCAAACGTCCATTGCTCTGCGTGCCC +GGTAAGCCTATGCTGCTGGGTTTCAGTGATTCCAGTTATCAGCAATTTTTCCATGAGGTGTAGTCTATGT +CGTGCCCGGTTATTGAGCTGACACAACAGCTTATTCGCCGCCCTTCCCTGAGTCCTGATGATGCAGGATG +CCAGGCTTTGTTGATTGAACGTTTGCAGGCGATCGGTTTTACCGTTGAACGCATGGACTTTGCCGATACG +CAGAATTTTTGGGCATGGCGTGGGCAGGGTGAAACGTTAGCCTTTGCCGGGCATACCGACGTGGTGCCGC +CTGGCGACGCCGATCGTTGGATCAATCCCCCGTTTGAACCCACCATTCGTGACGGCATGTTATTCGGGCG +CGGTGCGGCAGATATGAAAGGCTCGCTGGCGGCGATGGTGGTGGCGGCAGAACGTTTTGTCGCACAACAT +CCCAACCATACGGGGCGACTGGCATTTCTGATCACCTCTGATGAAGAAGCCAGTGCCCACAACGGTACGG +TAAAAGTCGTCGAAGCGTTAATGGCACGTAATGAGCGTCTCGATTACTGCCTGGTTGGCGAACCGTCGAG +TATCGAAGTGGTAGGTGATGTGGTGAAAAATGGTCGTCGCGGATCATTAACCTGCAACCTTACCATTCAT +GGCGTTCAGGGGCATGTTGCCTACCCACATCTGGCTGACAATCCGGTACATCGCGCAGCACCTTTCCTTA +ATGAATTAGTGGCTATTGAGTGGGATCAGGGCAATGAATTCTTCCCGGCGACCAGTATGCAGATTGCCAA +TATTCAGGCGGGAACGGGCAGTAACAACGTTATTCCGGGTGAACTGTTTGTGCAGTTTAACTTCCGCTTC +AGCACCGAACTGACTGATGAGATGATCAAAGCGCAGGTGCTTGCCCTGCTTGAAAAACATCAACTGCGCT +ATACGGTGGATTGGTGGCTTTCCGGGCAGCCATTTTTGACCGCGCGCGGTAAACTGGTGGATGCGGTCGT +TAACGCGGTTGAGCACTATAATGAAATTAAACCGCAGCTACTGACCACAGGCGGAACGTCCGACGGGCGC +TTTATTGCCCGCATGGGGGCGCAGGTGGTGGAACTCGGGCCGGTCAATGCCACTATTCATAAAATTAATG +AATGTGTGAACGCTGCCGACCTGCAGCTACTTGCCCGTATGTATCAACGTATCATGGAACAGCTCGTCGC +CTGATGAGTGGTTCTGCAAGAGGAAATAAGCATGGACTGGCTGGCTAAATATTGGTGGATTCTGGTGATT +GTCTTTTTGGTAGGCGTCCTGCTGAACGTGATTAAAGATCTCAAGCGCGTCGACCATAAGAAATTTCTCG +CCAACAAGCCGGAGCTTCCCCCGCATCGTGATTTCAACGATAAGTGGGACGATGACGACGACTGGCCGAA +AAAGGATCAACCGAAGAAGTAAGCTGAGTGCTCAACCGTAGGCCGGATAAGGCGTTAACGCCGCATCCGG +CAATGGTGAACGATGCCTGATGCGACGCTCACGCGTCTTATCAGGCCAGGTAATCTGTCTTTTACATCAT +TTCAATCACATCATCATCGCCAGGCTTACCGCCACTTAGCGCTTCGTCGAAATAATGTTTCGGAATGGTA +TAACGCAAGTGATCCAGGGCAAATTGCATACTGCGATTGTCGATCGCATGGCCTAAATCCTCCACGATAT +CCAGCGTCACGTCACCACCGGCACTGATTAACGCTTCCTGCGCCGCAACCGCATGCGCCAGATCGATAAC +CGGATCTTCACCGCCATGAATCAGGTGAATTGTCGTGGCTGTAGACGCAGTTTCCGGCAGGCTCGCATAG +CGTCCGTTAAAAGCAATGACGCGTGAAGCAAGGCCCGGTTCGGCTTTAATGCTCTCCAGCACCATAATCG +CGCCTTGAGAGAAACCGATGAGCGCCGTGGCGTTAGCCCCTACTCCGCTCTGTTTCTGCCAGTAGCGCAC +CGTTTCAATAAACGTCGGCATGATCGCATCCACACGCGCCTGGCGATTATCTTCCGTAATACCCTGCACC +GAAAACCACTGACGCCCCGCCGGATTACCGCTCGGCTCCGCGCCACCGACACTCACCACCAGCGCATCAG +GAAACAGCGGTGCAAACCAGTTGCCTATTTCCCCCATTGCCACCGGGTTATCCCCGACACCGTGGAAAAG +CAGTAACAACTGTTGCGCAGGTTTATCCGGGCTTTGAACAACAAAATGGTCATGTTTCATGGCGAACTCC +TTAACTGATGTCATTAATTTTACGCCGCTGACTCACAATGACCATGAGATAAAATTGAAGGAGTCAGTGA +AATAATTGCCATTGCGTTATGCGATCGCGCAGACGCTCAGTGCGAACATCATTAAGTGCGAACAGCGCCT +GCGCGGCCTCTTCCCGCTGACGGACCAGTAACATCTTGCGGCCTGAAAGTTTAAGTGTGGTACATAACTG +CGCATCACTGGCGTTTTTCTGTAAACGCCCACGCAGCGCCGGTAATGCCAGTTCACTGGTTTGTAACAGA +CGCAATAAGCAACCTAACGACGTTAATAGCGGACGATGAGCGAAAGCAAAACCGGCCAGTTCAAGCCAGT +CGTCGTCAGAAAGGACGGCATCGTTTAGTGGATCAACAGGAAGCGTTTCGCCATTCCACTGCGCGAGAGC +TTGCGCATCGCGACGTAAACGGTAATGCTCACGTTCAGCCAGCTGTTTACCCGCATCACTCATCGGTAAC +AGCGCCATCGCCGTATAGCAACCGCTGCTGGCTTCCCGATGATTACCCATCCGCACCAGCACAAAACCGC +AGCGTTGCCAGAAACGCCATAACTCCCCGGTGTAACCAAAACTCACCGAAAGATAGTCGAGGTCTTGCGT +ATATTGCAAAGCACCAGCAATAAGTTGCCGCCCTGTGCCTTCCCGCTGACGAGCCGGATGAACTGCTATC +CGGCTGACCCGCCGTCCACGCAATGTCGCCGCCAGTGGATTGTTGCCGTGCGCCGCCAGCGACTGGGCCA +CCAGATTACCCCGCGGGCGACGAAAACCTGCCCATACCGCCTGACTGAGTTGTTGAGATAATCCACCCTC +ATCCACCAGCCACAGCGCCCCGGCAATCTCGTTTTCGCCAGCCGCCTGTAAAAAATGTTGCCCTGGTGCA +TCCATCATCCGGCGTAAATCCAGCGGCGAAGTCCGATAGTGCGCACCAGACAAGAGCTGATAAACCTTTA +ACGGCGTTTCTGGATCGCTTTGCCATAACGTCTGTTCAAATGCGGAAATGACAATATTGCCTTGTGGTGT +ATGGGTGAAGTTTTCATCGTCAAAAACCAGTGCCTCGCTGACCATTTTTTCCAGCGGGCATCCCTGCGCC +CAGCGGATCGGCTGTTGCAGTTCAAAACGGTGTAAATGCGGAAAGCGAGCGCAAAATTTCAGCAAAAAAC +CACGTCCGGTGCCTTCGTAGCCCTGCACCGTAGTGGTTAACAACGTTCGAGGAAAACGCGATACCAGTTG +ATGCAACAATGGCGCAGGTATGGCTGCGGCTTCATCGACCACCAGCCAGTCGGCTTGCTCATCGCTGGCT +AACAAGGCATCCGGCGCAATAAAGCGAAACTTCTCGCCCGCAAATTGTGCCAGTACATCCGTTGACGCTT +TTGCGGGCGCGGTGACAATCGCTCTGCCCGCAATACGAGAAATGAGTTGCCCTGCCAACGCCGACTTACC +GCGCCCACGCGCAGCCGTTACCGCTGCCACGCCCGGCGGCATGGTCATTAGCTGCTTTAAGAGTTGCTGT +TGTTCTGGTTGTGGTGCGCCAGTCGCGGGGTACCAGTCAGTACGGGGAGTAAAATGCGCCAACGAGAATG +GCTGGTTTTGCCGCCAGAGGATAGCCTCGTTATCCGCCGTAAGTACGCGTTTGAGATGCTGGACAAAATG +CGGCGTCGCAATAGGGTCAGGGCAATCACTCCAGCGCAGCGAGTCGGCATCAGGTTGGTTTTCCCACTCT +TCCCATACAGGGAGTAACAAAACCAGCCAGCTTCCCGCTTTCAACGTTCCGCTAAGTGCGGCAAAGGCAG +CGGCATCAAAGCCGTGGCGGGCGTCGAATACCGCATGCCGGAACTCGCGCCCAAGTAAAGTTTGTAGTGC +CGAGGGAGAACAGTGGTTTTCAGCATCTGGCCGCGGCGAAATCCACAGCCAGTCGCCAGGTAAGGCATCA +CGCAACTTAAGAGTATGCTCAAAACACCAACCCTCTTCCCCGCTCAACACCAGCAAGCGGCGGATCCCTT +CACGTTTCATTTGCGCTGTTAATGTGTGAAGCGCAGTCAGTTCAGCCATCCCTGCCCCGGAAGTTAAATG +CTTTTACCAAAAGTATTGCATTGTGCCGGATCGCCGCTGTCGAAACCACGTTTAAACCAGCTGTAGCGTT +GCTGAGAAGTGCCATGAGTGAAACTGTCTGGTACTACTCGCCCCTGACTTTGCTGTTGTAAACGGTCATC +GCCGATGGCCTGCGCCGCGTTCAGCGCCTCTTCCAGATCGCCGGTTTCCAGAACGCCTTGCTGCTGCATA +CTATGCCCCCAGACACCGGCAAAACAGTCGGCCTGGAGTTCCATACGCACAGATAAGCGGTTTACTTCCG +CCTGCGTCGCGTTTTGTTGCAGTTGACGAACTTTCGGCTCGATGCCTAACAGTTTCTGCACATGATGACC +GACTTCATGGGCGATAACGTACCCCTGGGCAAAATCGCCATCCGCGCCAAGTTTGTCTTTCATGTCATCA +TAGAAGGAGAGATCGATATAAACCGTGCCATCCGCCGGGCAATAGAACGGCCCCATTATGGACTGGCCCG +CCCCGCAGCCGGTACGCGTCATTCCACGGTACATGACCAGCTTCGGTTGCTGATAGGTCTTACCCATCTT +CTCGAACTGTTGTCCCCAGGTGTCTTCCGTGGTTGCCAGAATCACCGAGGTGAATTTTGCGGCTTCGTCT +TCATTTGGGCTAATTGACCGCGTTGATTGTTGTTGGGAAACCGGCTGCCCGGTCATCAACCCGGTTAAAT +CAACACCATAGTAGCCTGCAACCAGCACGACTATCAGTAAAATCAGCCCGCCTTTACCGCTTGGCAGGCG +AAAACCGGGACCGCCCATAGATGGACCACCAGAGCTGTTGCGCCTGTCTTCAACATTGTCACTTTCACGT +CGCCCTTGCCAACGCATAGATACCTCAACAATATATTCATTATAGAAATGATCGTAGGTGGTTCAGAGGA +AGATTACCACAGGAAAGCGGGATGAAATGGCGGAGGAATGAGCGTTCAATGCATATATTCCGAGAGCGGT +TGTCTTGCCGTGCCAGCTGCACGGCAAGATGATGAACAGAAAAATCAGTCCAGCTGTACACCCAGGCGGC +GGGCGACGGCTTCATAGGCTTCGATCAGGCCACCGAGGCTCTGGCGGAAACGGTCTTTGTCCATTTTCTC +CAGCGTTTCTTTGTCCCACAGGCGGCTACCGTCCGGGGAGAACTCATCACCCAGTACCACTTCGCCTTTG +TACAGACCAAATTCCAGCTTGAAGTCGACCAGAATCAGACCAGCATCATCGAACAGTTTTTTCAGCACGT +CGTTCGCTTTGTAGGTCAGCTCTTTCATACGCGCCAGGTTCTCTTTGCTCACCCAGCCAAAGGTTTCGCA +GTAAGATTCGTTGACCATCGGATCGTGCATGGCGTCGTTTTTCAGGAACAGATCGAACAGCGGCGGGTTC +AGCTCAATACCTTCTTCGATTCCAAGACGTTTCACCAGAGAGCCAGCAGCACGGTTACGCACGACACACT +CAACCGGCACCATATCCAGCTTTTTCACCAGACATTCGGTATCGGAGAGCAGACGCTCCATTTGAGTCGG +GATACCCGCTTCAGCCAGTTTGCTCATAATGAAGTAGTTGAACTTGTTGTTCACCATACCTTTGCGATCA +AACTGCTCAATGCGCGCGCCATCCCCTGCTGACGTATCATTGCGGAATTCGAGCACCAACAGGTCCGGGT +TTTCCGTGCTGTATACGGTTTTCGCTTTACCACGATACAACTCAGCTTGCTTTTGCATCTTTATCACTCC +TGGGTGTGAATTAACGTTTTAAAATCTTTTGCTGTCTGGTGTGCCGGATGTTTTGTCGGATGCGGCGTGA +ACGCCTTATCCGAACTACGTCCGACAAACAAATTTCGTGCGAATTACCGCTAAAATCGCGTTTTCCTGCA +GACGCACACGTTTGCGTATCATATCAGAAAAAAGGGCCGGATGATTCCAGCCCTGTATTTTTACTTGCTA +AACGCAGCCTGGAAGACAGCTACCAGCGCGTCGTTCTGACTCTGAGTCAGAGTATGACCTTTCGGATCGA +TGAACTGTAGGCTGCTGCGGTTATCTAAATCGCCAACCTGCAGTTTATAGTCACCGGATGCCAGGCCTGG +ATCGCTCGCGCCCAGTTCCTGCCAGTCGCTGTCAGACAGCGGCTTATAAGTTACGGCCATGTTGCCCTGC +GAACGGGTGCTGTCGGTCACTTTCATGCCCACTTTTTCCAGCGCCGCTGGCAGACGTTGCCAAACCACAT +TGAACGGCCCGCGTACGACCAGCATTGGTAAACCGGTGTCATCAGCTGCACTTTGTACGTCCATAGTGGT +GGAGGCACGATTTTGCGCAGCGTTCGCGGCGTCAGTGGCAGATTTATCCAGACCGGCGGAAATAACGTTC +ATCATCTCCGTGCTGTAACGCTGCATGGAAGCCGCGTCTGCAACCGGTTTGCCCGCCTGTTCCAGGTTCA +GCAGTTTAACCGTAACCGCCTGCTGATAACCCTGCGGCTTAACAGAGATTTGATAACGACCACGATACTG +CTCGTCTTCGTCCAGACGGTTCCATTGTACCCAATCGGTGGTCAGTGTCTGACCAGCATCATCACGTTGG +GTGATGGTGTAGTTTTTCGCCTGCAGCACGCTAACCACCTGCGGCCACAGAGTATTGCCACGACCATTTT +CCACCAGCAATGAAGCGGTATCGCCCGTGAACTGGGTACGCGCGCCAGAAACCAGTGCCAGCGGCTGGGC +TGGTGGACGAATGTCCAGCGCCTTACCGACAGCACCACTACCGTTGGTCACCGGGATTGCATAATCACCG +GAGGTCACCGGCAAAATCATTCCAGCCGGGGCATGAAGCTCCGCAAGCGGTGCCGCTTCCAGGTAGGCTT +CATCACCACTGACCTGACGCTTATAGCGTGAGTCAGAACTACAGGCAGCGAGTAATAAAACAAGCGAAAC +ACCCGCAACCTTTGCCAGGCGCGACTTTTGAACAGAGTAAGCCATCAAATCTCCCTAAACTTTACAGCAA +ACCGGCATGCTTAAGCGCCGCTCTGACCGTCTCACGACCACTGTCGGTGATTGGTGTCATTGGCAGGCGC +AGCGTATCGGTCGCCACAAGACCCAGTTCCTTACATGCCCATTTCACCGGGATTGGATTGGGTTCGACAA +ATAGTTTGTTGTGTAATGGCATCAGACGCTGATTAATAACGCGTGCCTCGGCAAAATGCCCTTCTGCTGC +CAGTTTGCACATCTGGGCCATATCACGCGCTGCGACGTTAGCCGTAACGGAAATAACCCCATGACCGCCC +AATTGCATGAAGTCCAGCGCGCTCGCATCATCGCCGCTCAGCAGAACAAAATCATCTGAAACCAGCTCTT +TGATCTGGTTTACACGCGTTAAGTTCCCTGTTGCCTCTTTGATTCCGATAATATTTTTTACTTTCGCCAG +ACGGCCCACCGTTTCCGGGAGCAGATCGCAGCCAGTACGGGACGGCACATTATACAGAATTTGCGGCAGG +TCAGTATGCTCAGCGATGGCTTTGAAATGCTGATACAAACCTTCTTGCGACGGACGATTGTAGTAAGGGG +TTACCGTCAGGCAGCCGACGATACCACTGTCATTGAAGCGCTGCGTCAGGCTAATGGCTTCCGCAGTAGC +GTTAGCGCCGGTCCCGGCAATTACCGGAATGCGCCCATCAGCCAGATCCAGCGTCATCATCACCACATCA +GCATGTTCGTCATGATTTAAGGTAGCGGACTCGCCAGTGGTGCCAACAGAAACGATCGCCGAAGTACCGC +TGGCGACATGATAATCAATCAGTTTTTTCAAGCTAGCCCGACAGACATTACCTTTTTCATCCATCGGAGT +AACAATCGCGACAATACTTCCCGTGAACATGGGCCATCCTCTGTGCAAACAAGTGTCTCAATGGTACGTT +TGGTATGGCATTAAAAGCAAGCAGACAGAACCGTTCTGATTGTTGTATGCATGTTTTTTTTATGCTTTCC +TTAAGAACAACTCACCCCTTAAAGGAATAACCAGTTTGACACTGTCATCGCAACATTATCTGGTGATCAC +TGCGTTGGGTGCCGATCGCCCTGGAATTGTGAACACCATCACCCGTCATGTCAGTAGTTGCGGCTGTAAT +ATTGAAGACAGTCGCCTGGCGATGCTGGGAGAAGAGTTCACGTTTATTATGCTGCTTTCCGGTTCATGGA +ATGCCATTACTCTGATTGAATCAACGTTACCGTTGAAAGGTGCCGAACTGGATCTTTTAATCGTGATGAA +GCGCACGACGGCGCGTCCGCGTCCGCCAATGCCAGCATCTGTCTGGGTTCAGGTCGATGTGGCAGACTCC +CCGCATTTAATTGAACGCTTCACAGCACTTTTCGACGCGCATCATATGAACATTGCGGAGCTGGTGTCGC +GCACGCAACCTGCTGAAAATGAACGGGCTGCGCAGTTGCATATTCAGATAACCGCCCACAGCCCCGCATC +TGCGGACGCAGCAAATATTGAGCAAGCGTTCAAAGCCCTATGTACAGAACTCAATGCACAAGGCAGTATT +AACGTCGTCAATTATTCCCAACATGATGAACAGGATGGAGTTAAGTAATGAATCCACTGAAAGCCGGTGA +TATCGCACCGAAATTTAGCTTGCCGGATCAAGACGGAGAACAAGTTAATTTGACCGACTTCCAGGGACAG +CGTGTTCTGGTTTATTTCTACCCGAAAGCCATGACCCCCGGCTGTACCGTACAGGCCTGCGGCTTACGCG +ATAACATGGATGAGTTGAAAAAAGCGGGCGTTGATGTGCTGGGTATCAGCACCGATAAACCCGAAAAACT +CTCCCGTTTTGCGGAAAAAGAGCTGCTTAACTTTACGCTCCTGTCTGATGAGGACCACCAGGTGTGCGAA +CAATTCGGCGTCTGGGGTGAAAAGTCCTTCATGGGCAAAACCTACGATGGCATTCATCGCATCAGCTTCC +TGATTGACGCTGATGGCAAAATCGAACATGTCTTTGACGATTTCAAAACCAGCAATCACCACGACGTTGT +GCTGAACTGGCTGAAAGAACACGCCTGATTACTTTGCTCCATTCCGTGCTGGCTGCGCTTGCGGCCAGCA +TACCTCACTTCTCGTGATCAAGATCACATTCTCGCTTTCCCCTGCGACACGGGTGTCGAATCCATTTTTT +GCTGAACGTTAATGACCATCATTTTTGTACCGTTCAGAATCCAGTTAATACATAACTTATTGAATATATT +GAGTTAATCAGAATGGCATCCTTTATGCAATATGAAATGCAATGTTTCATATCATTTTCAAGGAGCCGAC +ATGAACCGCTTTGTGGTGGCCGAACCACTGTGGTGTACAGGATGTAATACCTGTCTCGCTGCCTGTTCGG +ACGTGCATAAAACGCAAGGTTTACAGCAACACCCGCGCCTGGCCCTGGCGAAGACGTCAACAATCACTGC +CCCTGTCGTGTGTCATCACTGTGAGGAAGCCCCTTGCCTGCAGGTCTGCCCGGTCAATGCCATCTCTCAG +AGGGATGATGCGATCCAACTCAACGAAAGCCTCTGTATTGGCTGCAAGCTTTGCGCCGTGGTCTGCCCAT +TTGGCGCAATCAGCGCTTCAGGAAGCCGTCCGGTGAATGCCCATGCGCAATATGTTTTTCAGGCTGAAGG +CTCACTCAAAGACGGCGAAGAAAACGCGCCAACACAACATGCTTTGCTGCGCTGGGAACCTGGTGTCCAG +ACCGTCGCGGTGAAATGCGACCTGTGTGATTTCTTGCCAGAAGGTCCGGCCTGCGTTCGCGCTTGCCCGA +ATCAGGCGTTACGGCTGATCACCGGTGATAGCCTGCAACGTCAGATGAAAGAAAAACAGCGCCTTGCCGC +AAGCTGGTTTGCCAATGGCGGGGAGGATCCCCTTTCCCTCACTCAGGAGCAACGCTAATGGATGCCCTGC +AATTATTAACCTGGTCGCTGATTCTCTATCTGTTTGCTAGTCTGGCTTCGCTGTTTTTACTCGGTCTGGA +CAGACTGGCTATTAAGCTTTCCGGCATCACATCGCTGGTGGGCGGCGTGATTGGCATCATCAGCGGAATT +ACGCAATTACATGCTGGTGTAACTTTAGTCGCCCGTTTTGCCCCCCCTTTTGAATTTGCCGATTTAACCC +TGCGAATGGATAGCCTCTCGGCATTTATGGTGCTGGTTATCTCCTTGCTGGTGGTGGTTTGTTCTCTCTA +TTCATTGACTTATATGCGCGAATACGAGGGCAAAGGCGCGGCGGCGATGGGCTTCTTTATGAATATTTTC +ATCGCATCGATGGTTGCCCTGCTGGTGATGGACAACGCTTTTTGGTTCATCGTGCTGTTTGAAATGATGT +CGCTGTCTTCCTGGTTTCTGGTCATTGCCAGGCAGGATAAAACGTCGATCAACGCTGGCATGCTCTACTT +TTTTATCGCCCACGCCGGATCGGTGCTGATAATGATCGCCTTCTTGCTGATGGGGCGCGAAAGCGGCAGC +CTCGATTTTGCCAGTTTCCGCACGCTTTCACTTTCTCCGGGGCTGGCGTCGGCGGTGTTCCTGCTGGCCT +TTTTCGGTTTTGGCGCGAAAGCCGGGATGATGCCGTTGCACAGCTGGTTGCCGCGCGCTCACCCTGCCGC +ACCATCGCACGCTTCGGCGTTGATGTCTGGCGTAATGGTCAAAATAGGTATTTTCGGCATCCTGAAAGTA +GCGATGGATCTGCTGGCGCAAACGGGTTTGCCTCTGTGGTGGGGCATTCTGGTGATGGCGATCGGCGCAA +TCTCCGCGCTCCTGGGCGTGCTATATGCGCTGGCGGAACAGGATATCAAACGGCTGCTGGCCTGGAGTAC +CGTCGAAAACGTCGGCATTATTTTGCTGGCAGTCGGTGTGGCGATGGTCGGTCTGTCACTGCACGACCCG +CTGCTCACCGTGGTTGGACTGCTCGGCGCACTGTTTCATCTGCTCAACCATGCGCTGTTCAAAGGGCTGC +TATTTCTCGGCGCGGGAGCGATTATTTCGCGTTTGCATACCCACGACATGGAAAAAATGGGGGCACTAGC +GAAACGGATGCCGTGGACAGCCGCAGCATGCCTGATTGGTTGCCTCGCGATATCAGCCATTCCTCCGCTG +AATGGTTTTATCAGCGAATGGTACACCTGGCAGTCGCTGTTCTCACTAAGTCGTGTGGAAGCCGTAGCGC +TACAACTTGCGGGTCCTATTGCTATGGTAATGCTGGCAGTCACTGGTGGGCTGGCAGTAATGTGCTTCGT +AAAAATGTACGGTATTACTTTCTGTGGTGCGCCGCGCAGTACACACGCTGAAGAGGCACAGGAAGTGCCA +AATACGATGATCGTCGCCATGCTACTGCTCGCGGCACTCTGCGTATTAATTGCGCTTAGTGCCAGTTGGC +TGGCACCGAAGATAATGCATATTGCCCATGCGTTTACCAATACCCCTCCCGCCACTGTCGCCAGCGGAAT +AGCACTTGTACCCGGCACGTTTCATACACAGGTCACCCCCTCATTACTGTTGCTGTTACTACTGGCGATG +CCTTTGCTGCCTGGCCTTTACTGGCTGTGGTGTCGTTCGCGCCGCGCAGCGTTTCGTCGCACAGGAGATG +CCTGGGCATGCGGCTACGGCTGGGAAAATGCGATGGCCCCGTCAGGCAATGGCGTGATGCAGCCGCTGCG +TGTGGTCTTTTCTGCGCTATTTCGTCTACGACAACAGCTCGACCCTACGCTGAGGCTAAATAAAGGTCTT +GCGCACGTCACCGCCAGGGCTCAGAGCACAGAACCCTTCTGGGATGAGCGGGTGATCCGCCCCATCGTGA +GCGCCACCCAACGGCTGGCCAAAGAAATACAGCATCTGCAAAGCGGCGACTTTCGTCTCTATTGCCTGTA +TGTGGTCGCCGCACTGGTTGTGCTGCTAATCGCTATTGCCGTCTAAGGAAATCACCATGAGACAAACTCT +TTGCGACGGATATCTGGTCATTTTTGCGTTAGCACAGGCCGTGATTCTGCTGATGCTAACCCCACTTTTT +ACGGGTATTTCCCGGCAGATACGCGCGCGTATGCACTCCCGCCGCGGGCCGGGGATCTGGCAGGATTATC +GCGATATCCACAAACTGTTTAAACGCCAGGAAGTTGCGCCGACATCTTCAGGTCTGATGTTCCGCCTGAT +GCCGTGGGTATTAATCAGCAGCATGCTGGTGCTGGCGATGGCCTTACCACTGTTTATTACCGTTTCCCCT +TTTGCGGGCGGCGGCGATCTGATCACCCTTATCTATCTTCTTGCCCTGTTTCGTTTTTTCTTTGCTCTTT +CCGGGCTGGATACCGGAAGTCCGTTTGCGGGAGTCGGTGCCAGTCGCGAGTTGACGCTCGGCATTCTGGT +CGAACCAATGCTTATTCTCTCACTGCTGGTATTGGCGCTGATAGCAGGTTCCACGCATATCGAGATGATC +AGCAATACGCTGGCGATGGGCTGGAACTCGCCGCTAACCACCGTACTGGCGTTACTGGCCTGTGGTTTTG +CCTGCTTCATTGAGATGGGAAAAATTCCCTTTGATGTTGCTGAAGCAGAACAGGAATTACAGGAAGGCCC +GCTGACCGAATATTCCGGTGCCGGGCTGGCGCTAGCGAAATGGGGGCTGGGGCTGAAACAGGTCGTGATG +GCATCACTGTTTGTGGCCCTGTTTCTGCCCTTTGGGCGCGCGCAAGAACTTTCTCTCGCCTGCCTGCTGA +CTTCACTTGTCGTTACGCTGCTCAAGGTTTTGCTGATTTTTGTACTGGCCTCAATCGCAGAAAACACGCT +GGCACGCGGGCGTTTTTTACTCATTCACCATGTGACCTGGCTTGGCTTCAGCCTTGCTGCGCTTGCATGG +GTCTTCTGGTTAACCGGTCTGTAAGGAGCACTGACGGAATATGGAAAATCTTGCTCTGACGACGTTATTG +CTGCCTTTTATCGGCGCACTGGTCGTTTCGTTTTCGCCACAACGTCGGGCCGCCGAATGGGGGGTTTTGT +TCGCCGCGCTGACCACGCTGTGCATGTTGTCACTGATCTCCGCGTTTTATCAGGCCGATAAAGTTGCCGT +CACGTTGACGTTGGTCAACGTGGGGGATGTGGCGTTGTTTGGCCTGGTCATTGATCGCGTGAGTACGCTG +ATTCTGTTTGTGGTGGTGTTTCTCGGTTTGCTGGTCACGATCTACTCCACGGGTTATCTGACGGATAAAA +ATCGCGAACACCCGCATAACGGCACGAATCGTTATTACGCATTTTTACTGGTGTTTATCGGCGCGATGGC +GGGACTGGTACTCTCCTCGACGCTGCTCGGTCAGTTGTTGTTTTTTGAAATTACAGGCGGCTGCTCCTGG +GCGTTGATCAGTTATTACCAGAGCGATAAAGCGCAGCGTTCAGCACTAAAAGCGTTACTTATCACTCATA +TCGGCTCGTTGGGGTTGTATCTTGCCGCCGCCACGCTGTTTTTGCAGACCGGAACGTTTGCGCTTAGCGC +GATGAGCGAGTTACACGGCGACGCACGTTATCTGGTTTATGGCGGCATCCTGTTTGCCGCGTGGGGGAAA +TCGGCCCAGCTACCGATGCAAGCGTGGCTACCGGACGCAATGGAAGCGCCAACACCGATCAGCGCCTATC +TCCACGCCGCATCGATGGTGAAAGTGGGCGTTTACATTTTTGCCCGCGCTATTATCGACGGCGGCAATAT +CCCGCATGTGATTGGCGGCGTTGGCATGGTCATGGCACTGGTCACCATTCTTTATGGCTTTCTGATGTAT +TTGCCACAGCAGGATATGAAGCGGTTGCTAGCCTGGTCGACCATCACTCAACTTGGCTGGATGTTCTTCG +GCTTGTCGCTCTCCATCTTCGGCTCGCGGCTGGCGCTGGAGGGCAGCATCGCCTACATCGTCAACCACGC +GTTCGCTAAAAGCCTGTTTTTCCTTGTAGCAGGTGCGCTGAGTTACAGCTGCGGCACGCGCTTGTTGCCG +CGTCTGCGTGGCGTATTGCACACCCTGCCGTTGCCAGGCGTGGGTTTCTGCGTGGCAGCGCTGGCGATTA +CCGGCGTGCCGCCGTTCAACGGCTTCTTCAGTAAATTCCCGCTGTTTGCTGCCGGTTTTGCGTTGTCAGT +GGAGTACTGGATCCTGCTGCCCGCCATGATTCTTCTGATGATTGAATCGGTCGCCAGTTTCGCCTGGTTT +ATTCGCTGGTTTGGTCGCGTTGTGCCTGGCAAACCGAGCGAGGCCGTCGCCGATGCCGCACCGCTGCCAG +GATCAATGCGCCTGGTGTTGATTGTACTGATTGTGATGTCGCTGATTTCCAGCGTAATCGCCGCGACCTG +GTTGCAGTAAGGAGATGATGAATGACCGGTTCTATGATCGTAAATAATCTGGCGGGACTGATGATGCTGA +CATCGCTGTTTGTGATTAGCGTCAAAAGCTATCGCCTGTCATGCGGATTTTACGCCTGCCAGTCACTGGT +GCTGGTGTCTATTTTCGCCACTCTCTCGTGCCTGTTCGCCGCAGAGCAACTGCTGATCTGGTCCGCCAGC +GCCTTTATCACCAAAGTGCTGCTGGTACCGTTAATCATGACTTACGCTGCACGAAATATTCCCCAGAACA +TCCCGGAAAAAGCGTTATTCGGTCCGGCAATGATGGCACTGCTCGCGGCGTTAATTGTCCTGCTTTGCGC +ATTTGTCGTTCAGCCCGTGAAGCTACCGATGGCTACCGGGCTGAAACCGGCGCTGGCGGTAGCGTTAGGT +CATTTTCTGCTTGGCCTGCTGTGCATTGTCAGCCAGCGCAATATCCTGCGGCAAATTTTTGGTTACTGCC +TGATGGAAAACGGCTCCCATCTGGTGCTGGCGCTTCTTGCCTGGCGAGCACCGGAACTGGTGGAAATAGG +TATCGCTACCGACGCCATCTTCGCCGTCATTGTGATGGTGTTACTGGCAAGAAAAATATGGCGTACCCAC +GGCACGCTGGACGTGAACAACTTGACCGCGCTGAAGGGATAATGAGATGAGTTATTCTGTGATGTTCGCT +TTACTCCTGCTCACGCCGCTGCTTTTTTCGCTGCTCTGTTTTGCCTGCCGGAAACGGAGACTTTCTGCGA +CTCGCACGGTGACCGTATTACATAGCTTAGGGATCACACTGCTGCTGATTCTGGCACTCTGGGTGGTCCA +AACTGCCGCTGATGCAGGAGAAATATTCGCTGCGGGACTGTGGCTTCATATTGATGGTCTGGGCGGTTTG +TTCCTCGCCATTCTTGGTGTGATTGGCTTTCTCACCGGTATTTACTCGATTGGCTACATGCGTCATGAAG +TGGCACACGGCGAGCTTTCACCCGTTACGCTGTGCGATTACTACGGTTTCTTCCATCTGTTTTTGTTCAC +CATGCTGCTGGTTGTTACCAGCAATAACCTGATTGTGATGTGGGCGGCGATCGAAGCCACCACCTTAAGC +TCGGCGTTTCTGGTAGGCATTTACGGTCAGCGTTCATCGCTGGAAGCTGCATGGAAGTACATCATTATTT +GTACTGTTGGTGTCGCTTTTGGTCTGTTCGGTACCGTGCTGGTATACGCCAACGCCGCCAGCGTTATGCC +GCAGGCAGAAATGGCGATATTCTGGAGCGAGGTTCTTAAGCAATCGTCCTTGCTTGACCCAACATTAATG +CTGTTGGCCTTTGTGTTTTTGCTAATTGGCTTTGGTACCAAAACCGGGCTATTTCCCATGCACGCCTGGC +TGCCGGATGCTCACAGTGAAGCGCCGAGTCCGGTCAGCGCCCTGCTCTCCGCCGTATTGCTGAACTGCGC +GCTGTTGGTGCTGATTCGCTATTACATCATTATTTGCCAAGCCATCGGCAGCGATTTCCCCAACCGGTTG +TTGCTCATCTTCGGCATGTTGTCGGTTGCCGTGGCGGCATTTTTCATTCTGGTACAGCGGGACATTAAGC +GTCTGCTGGCGTACTCCAGCGTGGAGAACATGGGGCTGGTCGCGGTGGAGCTAGGCATTGGCGGGCCGCT +GGGAATTTTTGCCGCGCTGCTGCACATCTTAAACCACAGTCTGGCAAAAACGCTGCTGTTCTGCGGTTCC +GGCAATGTACTGCTCAAGTACGGCACGCGCGATCTCAACGTCGTCTGTGGGATGCTCAAAATCATGCCAT +TTACCGCCGTGCTGTTTGGCGGCGGTGCGCTGGCGCTGGCAGGGATGCCGCCCTTCAACATTTTTCTTAG +CGAATTTATGACCATTACCGCCGGACTGGCACGTAATCACCTGCTGATTATCGTCCTGCTGTTATTGCTG +TTAACGCTGGTGCTGGCGGGCCTGGTACGGATGGCTGCGCGGGTGTTAATGGCGAAACCGCCGCAGGCCG +TTAACCGGGGTGATCTCGGCTGGTTGACCACCTCGCCAATGGTGATTCTGCTGGTCATGATGCTGGCGAT +GGGAACGCATATTCCACAACCTGTCATCAGGATCCTGGCGGGCGCTTCCACTATAGTCCTCTCAGGGACG +CACGATCTGCCTGCACAACGTAGCACCTGGCATGATTTTTTGCCTTCAGGCACCGCATCTGTTTCGGAGA +AACACAGTGAACGTTAATTCATCGTCAAATCGTGGCGAAGCGATTCTCGCCGCCCTGAAAACGCAGTTCC +CCGGCGCGGTGCTGGATGAAGAGCGACAAACGCCTGAACAGGTCACCATTACGGTGAAAATCAATCTGCT +GCCTGACGTTGTACAGTATCTTTATTATCAACATGATGGCTGGCTTCCGGTCCTGTTTGGCAACGACGAG +CGGACACTTAACGGTCATTACGCGGTTTATTATGCCCTTTCAATGGAAGGGGCCGAAAAATGCTGGATTG +TGGTGAAGGCGCTGGTCGATGCCGACAGTCGGGAGTTTCCGTCAGTCACACCGCGCGTCCCTGCCGCGGT +CTGGGGCGAGCGAGAAATTCGCGATATGTACGGGCTGATTCCGGTTGGCCTGCCGGATCAGCGTCGCCTG +GTGTTGCCCGATGACTGGCCGGAAGATATGCATCCGCTGCGCAAAGATGCGATGGATTATCGACTGCGCC +CTGAACCGACGACTGATTCCGAAACGTATCCGTTTATCAATGAGGGCAACAGCGATGCGCGGGTGATCCC +TGTCGGCCCGCTGCATATCACCTCCGATGAACCGGGTCACTTCCGCTTGTTTGTGGATGGCGAGCAAATT +GTCGATGCTGATTACCGCCTGTTTTATGTCCATCGCGGCATGGAGAAACTGGCAGAAACGCGGATGGGCT +ACAACGAAGTGACCTTCTTATCGGACCGCGTGTGTGGGATTTGCGGTTTTGCCCACAGTGTGGCCTATAC +CAATTCGGTTGAAAATGCACTGGGGATTGAGGTGCCGCAACGAGCACATACTATTCGCTCGATTCTGCTG +GAAGTCGAACGGCTACACAGTCATTTGCTTAACCTTGGCCTCTCCTGCCATTTCGTTGGTTTTGATACCG +GCTTTATGCAATTTTTCCGCGTGCGGGAAAAGTCGATGACGATGGCGGAATTGCTGATCGGGTCGCGTAA +AACCTACGGTCTGAATCTGATTGGTGGTGTTCGCCGCGATATTCTCAAAGAGCAACGTCTGCAAACGCTG +AAACTGGTGCGCGAGATGCGCGCCGACGTGTCGGAGCTGGTAGAGATGCTGCTTGCTACGCCGAATATGG +AACAACGCACTCAGGGCATTGGCATTCTCGACCGACAAATCGCCCGTGATTTGCGCTTTGATCACCCCTA +CGCCGACTACGGCAATATTCCAAAAACACTGTTTACCTTTACCGGCGGCGATGTTTTCTCCCGCGTGATG +GTCCGTGTCAAAGAGACGTTTGATTCGCTGGCAATGCTGGAATTTGCCCTCGACAACATGCCGGATACCC +CACTGCTGACCGAAGGCTTTAGCTATAAACCTCACGCATTCGCGCTGGGCTTTGTTGAAGCGCCACGCGG +TGAAGACGTGCACTGGAGCATGCTCGGTGATAACCAAAAATTGTTCCGCTGGCGCTGCCGTGCCGCCACC +TACGCCAACTGGCCGGTGTTGCGTTACATGCTGCGCGGCAATACCGTTTCTGACGCACCGCTGATTATCG +GTAGCCTTGATCCCTGCTACTCCTGTACCGACCGTGTGACGCTGGTAGATGTGCGCAAGCGCCAGTCAAA +AACCGTGCCGTATAAAGAGATCGAACGCTACGGCATTGATCGTAACCGTTCGCCGCTGAAGTAAGGACAG +AAGATGCTGAAGTTACTGAAAACTATTATGCGCGCCGGAACCGCGACGGTGAAATATCCCTTCGCGCCAC +TGGAGGTCAGCCCTGGCTTTCGCGGAAAACCGGACCTGATGCCCAGCCAATGTATTGCCTGCGGTGCCTG +CGCCTGTGCTTGTCCGGCAAATGCGCTGACTATCCAGACCGACGACCAGCAAAATTCGCGCACCTGGCAG +CTCTATCTGGGGCGTTGTATTTACTGCGGACGTTGTGAAGAAGTGTGCCCGACCAGAGCCATCCAGCTTA +CCAATAACTTTGAACTGACCGTCACCAATAAAGCCGATCTCTATACCCGCGCGACGTTCCATCTACAACG +TTGCAGCCGTTGCGAACGCCCGTTTGCCCCGCAAAAAACCATCGCACTGGCTGCTGAATTGTTAGCACAG +CAACAAAATGCGCCACAAAACCGCGAAATGTTGTGGGCGCAAGCGAGCGTCTGCCCGGAATGCAAACAAC +GCGCGACGCTGATCAACGACGATACAGATGTACTGCTGGTGGCTAAGGAGCAGCTATGAGTCCAGTGCTT +ACACAACATGTCAGCCAGCCCATCACGCTGGACGAGCAAACGCAAAAGATGAAGCGGCATTTGCTACAGG +ATATCCGTCGCTCGGCTTACGTTTATCGCGTCGATTGCGGCGGCTGCAACGCCTGTGAAATCGAAATTTT +TGCTGCCATTACACCAGTATTCGACGCAGAACGTTTTGGCATTAAGGTTGTTTCATCACCGCGTCACGCC +GATATTTTGTTATTTACTGGCGCAGTCACCCGGGCGATGCGTATGCCTGCACTTCGGGCGTATGAGTCTG +CCCCCGATCATAAAATTTGTGTTTCCTACGGCGCGTGCGGTGTCGGCGGCGGTATTTTCCACGATCTCTA +CAGCGTCTGGGGCGGTAGCGACACCATTGTCCCCATTGATGTTTGGATCCCCGGCTGCCCGCCAACACCG +GCCGCCACCATTCACGGTTTCGCCGTGGCGCTCGGTTTGCTGCAACAGAAGATTCACGCTGTGGATTATC +GCGATCCCACCGGGGTGACTATGCAACCGTTGTGGCCGCAGATCCCGCCATCACAGCGTATCGCCATTGA +GCGAGAAGCGCGGCGGCTGGCGGGCTATCGTCAGGGGCGAGAAATTTGCGATCGGCTCCTGCGCCATTTA +AGCGACGATCCTACAGGAAATCGGGTTAACACCTGGTTGCGCGATGCCGACGATCCACGTCTCAATAGTA +TCGTTCAGCAACTCTTTCGCGTACTCCGGGGGTTACATGACTGAAGAGTGCGGGGAAATTGTTTTCTGGA +CGCTGCGAAAAAAGTTTGTCGCCAGTAGCGACGAGATGCCGGAACACAGCTCTCAGGTAATGTATTACTC +GCTAGCTATCGGCCATCACGTTGGCGTGATTGATTGTCTGAATGTCGCCTTCCGCTGCCCACTGACGGAA +TACGAAGATTGGCTTGCACTGGTCGAAGAGGAGCAAGCCCGACGTAAGATGCTGGGGGTGATGACTTTTG +GTGAGATTGTTATTGACGCCAGCCACACCGCCCTGTTGACCCGGGCATTCGCGCCACTGGCGGATGACGC +GACGTCTGTGTGGCAGGCGCGTAGCATTCAATTCATTCATCTGTTGGATGAAATTGTGCAGGAACCGGCC +ATCTATCTGATGGCCAGAAAAATTGCGTGAGAAGGATTTCTCATTAATAAGGACTGTTGATGGCTATGTC +AGACGAGGCGATGTTTGCCCCGCCACAAGGAATAACAATTGAAGCGGTAAACGGAATGCTCGCGGAGCGG +TTAGCACAGAAACACGGCAAGGCGTCTTTATTACGCGCCTTCATCCCGCTGCCGCCGCCGTTCAGCCCGG +TACAACTTATTGAACTGCATGTTCTCAAAAGCAACTTCTATTACCGCTACCATGATGATGGCAGCGATGT +GACGGCAACAACAGAGTATCAGGGCGAGATGGTCGATTATTCGCGTCACGCCGTCCTTCTCGGCAGTAGT +GGAATGGCGGAGCTACGCTTTATTCGCACCCACGGCAGTCGTTTTACTTCCCAGGATTGCACACTGTTTA +ACTGGCTGGCGCGGATAATCACCCCGGTTCTGCAATCATGGCTCAATGATGAAGAACAGCAGGTGGCGCT +GCGTTTGCTGGAGAAAGATCGCGATCATCATCGGGTACTGGTTGATATTACTAATGCAGTGCTGTCACAT +CTTGATCTCGACGATCTGATCGCTGACGTCGCTCGTGAGATCCATCATTTTTTCGGTCTGGCTTCAGTCA +GTATGGTACTGGGCGATCATCGAAAGAACGAGAAGTTCAGCCTGTGGTGCAGCGATCTTTCTGCCTCACA +TTGTGCGTGTCTGCCACGCTGTATGCCTGGCGAAAGTGTATTGCTGACACAAACGCTACAAACCCGACAA +CCGACCTTGACGCACCGTGCAGATGATCTGTTTCTCTGGCAACGCGACCCGTTATTACTCTTACTTGCAT +CTAACGGCTGCGAATCTGCGCTCCTTATACCGCTTACCTTTGGCAACCATACACCGGGTGCATTGTTGCT +GGCGCATACCTCTTCCACTCTCTTTAGTGAGGAAAACTGCCAGCTACTACAACACATAGCCGATCGCATC +GCTATTGCCGTTGGCAATGCCGATGCCTGGCGTAGCATGACCGATTTGCAGGAAAGTTTGCAGCAAGAAA +ACCACCAGCTTAGCGAGCAGCTCCTTTCGAATCTGGGCATCGGTGACATTATCTATCAAAGCCAGGCAAT +GGAAGACCTGCTCCAGCAGGTAGATATTGTGGCGAAGAGCGACAGTACGGTGTTGATTTGTGGTGAAACC +GGAACTGGCAAAGAGGTGATCGCCAGAGCGATCCATCAACTTAGCCCGCGACGCGACAAGCCGCTGGTCA +AAATCAACTGCGCTGCCATCCCCGCCAGTCTTCTGGAAAGTGAGTTATTCGGTCATGACAAAGGGGCGTT +TACTGGTGCGATTAATACCCATCGTGGTCGTTTTGAAATTGCCGATGGCGGCACGTTGTTTCTCGATGAA +ATTGGCGATCTGCCGTTAGAACTTCAGCCTAAACTGCTGCGCGTATTGCAGGAGCGGGAGATTGAGCGTC +TCGGCGGGAGTAGAACGATCCCGGTGAATGTCAGAGTCATTGCCGCCACCAACCGTGATTTGTGGCAAAT +GGTTGAAGATCGCCAGTTTCGCAGCGATCTCTTTTATCGCCTGAATGTCTTCCCACTGGAATTGCCGCCG +CTACGCGACCGTCCGGAAGATATCCCTCTTTTAGCAAAACATTTCACGCAAAAAATGGCGCGCCATATGA +ATCGCGCAATTGACGCCATCCCGACCGAGGCACTACGCCAGTTGATGTCGTGGGATTGGCCGGGCAACGT +GCGCGAGCTGGAAAACGTGATTGAGCGGGCGGTACTGTTGACTCGTGGTAACAGTCTGAATTTACATCTA +AATGTCCGACAAAGCCGTTTACTGCCGACGCTAAATGAAGATTCAGCGCTTCGCAGTTCAATGGCGCAGT +TACTGCACCCGACGACGCCAGAGAATGACGAAGAAGAACGTCAGCGCATTGTTCAGGTATTGCGAGAAAC +CAATGGCATTGTTGCCGGGCCCCGTGGCGCAGCGACGCGATTAGGGATGAAGCGCACCACGCTGCTGTCA +CGAATGCAGCGGCTGGGGATCTCGGTTCGCGAGGTGTTGTAATCTGCTTTTGCAGGAGTATGCATGAGAA +ACAAACTCTCTTTCGACTTGCAGTTGAGCGCCAGAAAAGCGGCAATCGCTGAACGGATTGCCGCCCATAA +AATTGCCCGCAGTAAAGTGTCGGTCTTTTTAATGGCGATGTCCGCTGGCGTGTTTATGGCGATCGGATTT +ACTTTTTACCTTTCCGTTATCGCCGATGCCCCGTCTTCACAGGCATTAACCCATCTGGTGGGCGGCCTTT +GCTTTACACTCGGCTTTATTTTGCTGGCGGTTTGCGGCACCAGCCTGTTCACCTCGTCGGTAATGACGGT +GATGGCAAAAAGTCGGGGCGTTATTAGTTGGCGAACTTGGCTGATTAACGCACTTCTGGTGGCCTGCGGT +AATCTGGCAGGTATTGCCTGTTTCAGTTTGTTAATCTGGTTTTCCGGGCTGGTGATGAGTGAAAACGCGA +TGTGGGGAGTCGCGGTTTTACACTGCGCCGAGGGCAAAATGCATCATACATTTACTGAATCTGTCAGCCT +CGGCATTATGTGCAATCTGATGGTTTGCCTGGCGCTGTGGATGAGTTATTGCGGGCGTTCGTTATGCGAC +AAAATCGTCGCCATGATTTTGCCCATCACCCTGTTTGTCGCCAGTGGCTTTGAGCACTGTATCGCCAATT +TGTTTGTGATTCCGTTCGCCATTGCCATTCGCCATTTCGCCCCTCCCCCCTTCTGGCAGCTGGCGCACAG +TAGCGCAGACAATTTTCCGGCACTGACGGTCAGCCATTTTATTACCGCCAATCTGCTCCCGGTGATGCTG +GGTAATATTATCGGCGGTGCGGTGCTGGTGAGTATGTGTTATCGGGCTATTTATTTACGTCAGGAACCCT +GAAAAATCAGCCCGGCGAAACAGTTCGTCGGGCTGAAGATTATTCTTGCGCGATTTGCCCATCGGGCCAG +GCATGAATCACGGCTTTGATCAGCGTCGCCAACGGAATGGCGAAGAATACGCCCCAGAATCCCCACAAAC +CACCGAAGATCACCACCGATAAAATAATCACCAGCGGATGCAGGTTAACCGCTTCGGAGAACAACACCGG +CACTAACAGGTTGCCGTCCAGCGCCTGAATAATCAGATACACCGCGAAGCAGCTCCAGAATTCAGTACCT +GCGCCAAACTGGAATAGCGCCACGCCAACCACCGGAATGGTCACCACAAATGCGCCAATGTACGGAATAA +GAACCGAGAAGCCGACCAGCACTGCCAGCAGCAGCGAATAGTTCAGCCCGAAGAGCAAGAACCCCAGCCA +GGTGGCGATCCCCACCACGATCATCTCCAGCACTTTGCCGCGGATATAGTTGGTGATTTGTTGATTCATC +TCCTTCCACACCTGTCCTGCCAGCCCACGGTTACGCGGCAGCACCCGGCGAACGGCGTTCAGCATCTGCT +CTTTGTCTTTCAGCAGGAAGAAGACCATCAATGGCACCAGCACCAGATAGACGGCTATGGTCAGCAAACC +GACCAGCGAGGCGAGGGAAATTTTCACCACCGAATCGCCCATGGTCAGCATCCGACTGCGCATATTTTCG +GCCATTGCATCAATAATGCCCGCGTCCATTAACGCCGGATAGCGGCGCGGCAACGTGGCGGCAAAGTCAG +AAAGCTTATTGAGCATCCCCGGCATATCGCGGATTAAGTAGATGCCCTGTTGCCAGGCGATAGGCAGTAC +CACGAACGCCATCAGTAGCAATATACCGACGAAAACCACCAATACAATCGACGTCGCCCAGCGGCGGGAG +CAGCCAATAGATTGCAGACGCACGGTTGGCCATTCCAGCAAATAGGCCAGCACAATAGCCACCAGCAACG +GAGCAAGCAGGCCACTAAAGAAAAAGATAATGCCAAATCCGGCAACTAAAATAACCAGCAAGGCAATCGC +TTCCGGGTCGCTAAAACGGCGGCGATACCATTGCATCAACATTTCGAGCATAAAGACCTTCCCTGAACCT +CAAGAGCGGGATTGCGATCCGCAATTGTATCGAAATGTCACAAAAAAGACTTCGCTTTTTATGACGGATT +CAGGAAACTGAAAAGTCATTTGAGTGGGCTAATCTTCGCCGTTACACTCAAAGGCGGCGCGGTGGGAACG +ATATTTCACAGTATCGGTCAAATGACTATCTCCAGAAATACAGGATAGAGGTTATGTTCAGGCAGTTGAA +AAAAAACCTGGTTGCAACCCTCATTGCTGCTATGACCATTGGTCAGGTAGCCCCGGCGTTTGCCGACAGC +GCAGACACCTTGCCGGATATGGGAACCTCCGCAGGAAGCACGCTTTCCATTGGTCAGGAAATGCAGATGG +GCGACTATTATGTCCGCCAGCTACGCGGCAGCGCGCCGTTAATTAATGACCCGCTGTTAACGCAATATAT +TAATTCGCTGGGGATGCGTCTGGTTTCGCATGCCAATTCGGTTAAGACACCGTTTCATTTTTTTCTGATC +AACAACGACGAAATTAACGCCTTTGCTTTCTTTGGCGGCAACGTGGTGCTGCACTCTGCCCTGTTCCGTT +ATTCCGATAACGAAAGTCAACTGGCTTCAGTTATGGCGCACGAAATCTCCCACGTCACCCAACGTCACCT +GGCGCGAGCGATGGAAGATCAGCAGCGCAGCGCGCCGCTGACCTGGGTCGGCGCGTTAGGTTCTATTTTA +CTGGCGATGGCCAGTCCGCAGGCGGGGATGGCGGCGCTGACCGGTACACTGGCGGGAACGCGTCAGGGGA +TGATCAGTTTCACCCAGCAAAATGAACAGGAAGCGGACCGCATTGGTATTCAGGTGCTGCAACGCTCGGG +ATTCGATCCGCAGGCGATGCCAACCTTCCTCGAAAAATTACTCGATCAGGCGCGTTACTCCTCGCGCCCG +CCGGAAATTTTATTGACTCACCCGTTGCCGGAAAGTCGTCTGGCAGATGCCCGCAACCGTGCTAATCAGA +TGCGCCCGATGGTGGTGCAGTCGTCGGAAGATTTCTATCTGGCGAAAGCGCGCACACTGGGGATGTATAA +TTCCGGACGTAACCAGCTCACCAGTGATTTGCTGGATGAATGGGCGAAAGGAAACGTTCGTCAGCAACGA +GCAGCACAATATGGTCGTGCTTTACAGGCGATGGAAGCCAATAAATACGACGAGGCGCGTAAAACGCTGC +AACCGTTACTGGCGGCAGAACCTGGCAACGCATGGTATCTCGATCTGGCTACTGATATCGATCTTGGGCA +AAACAAAGCCAATGAGGCGATCAATCGTCTGAAAAATGCCCGCGATTTACGCACCAATCCGGTGTTGCAG +CTCAACCTGGCGAACGCTTATTTGCAAGGCGGTCAACCACAAGAAGCGGCCAATATTCTGAATCGCTACA +CCTTTAATAATAAAGATGACAGCAACGGCTGGGATTTGCTGGCACAGGCGGAAGCCGCGCTAAATAACCG +CGATCAGGAGCTGGCTGCGCGAGCAGAAGGTTATGCGCTCGCCGGACGACTCGATCAGGCCATTTCGCTG +TTGAGTAGCGCCAGTTCGCAGGTGAAATTAGGCAGCCTGCAACAAGCGCGTTACGATGCGCGCATCGACC +AGTTGCGCCAGCTGCAGGAACGCTTTAAGCCTTATACCAAGATGTAATTCGCATTAAAGGAAGAACAATG +ACCAAACAGGTAAAAATCTACCATAACCCACGCTGTTCAAAGAGCCGGGAAACGCTGAACCTGCTGAAAG +AAAACGGCGTGGAGCCAGAAGTGGTGCTCTACCTTGAGACACCCGCCGATGCGGCAACGCTGCGCGATTT +GCTGAAAATACTGGGGATGAATAGCGCCCGTGAATTGATGCGCCAGAAAGAGGATCTTTATAAAGAACTG +AACCTGGCTGACAGTTCGCTTAGCGAAGAGGCGCTGATTCAGGCAATGGTGGATAATCCGAAGCTGATGG +AGCGCCCGATTGTGGTCGCGAATGGCAAAGCGCGGATTGGTCGTCCACCGGAGCAGGTACTGGAAATCGT +GGGTTAAGATGTGCTCCATCGCTAGTTGAAGCACATTGCCGGATGCGACGCTTGCCACGTCTTATCCGGC +CTACGAATACTATGGATTAACTTCGCGTAGTTCGGATAAGGCGTTCGCGCCGCATCCGACAATAAACACC +TTATCTACAACTTCAGAATTTCTTTCACAAACGGAATGGTCAGCTTACGTTGCGCGGTAATCGACGCACG +ATCCAACTGATCCAACGTCATAAATAGCGTGCGCATTTCTCTGTCGAGCCGCTTCAGCAAGAAACGCCCC +ACATCTTCCGGCAGTTCAAAACCACGCAAACGCGCGCGTAACTGTAGCGCCTGCAACTTATCTTCATCAG +AAAGTGGCTGCAATTTGTAGATCTGCCCCCAGTCGAGTCGCGACGCGAGATCCGGTAATCCCAGATTCAA +CTGCCGCGGTGGACGATCGCCGGTGATCAACAACCGTGTTTTGCCCGATTCCAGAATTCGATTGTAGAGA +TCGAAAATCGCCATCTCCCACAACTCATCGCCTGCAATACACTCAATGTTGTCGATACAGACCAGCGACA +AATGCTCCATACCGTCGAGCACTTCCGGAACAAACCAGGTGCGTTTATCCAGCGGGACATAGCCCACCGC +ATCGCCACGCTGCGACAATTCCGCGCAAGCCGCGTGCAGCAGATGGCTGCGCCCCGCGCCTTCGCGTGCC +CAGAGATAGATGTAACCGCTATGTTCCTGACGCAGCACGTTTTGCAGCGCGGCCAGTAAAGAGGAGTTAT +CCCCCGGCCAGAAACTTGCAAAGGTTTCGTCGTCAGGAAGATAAAGTGGCAAAGAGAGCTGTGCCGGTGT +GTTCAGAGATACCTCAACCAGGATTTCACAAAATCGCGAGAAGTTTACCACAGAATCCCATGATGTTTGA +ACCGGGCAGCAACACTGCCCGGTCGGTACATTATTTGTCTGTTATATCCGCGTCTTCTGCGTCCAGCACC +ACTTCTTCAGGGCGCAGCACACTGATCAGTTTGAAGATCAAACTTAAGCCGATACCGACGATGGTCGCCA +GCGCCATACCTTTTAACTCCGCCGCGCCGATGTTTACCTTCGCGCCACTGACGCCGATGATCAAAATCAC +GGAAGTCAGGATCAGGTTCTGTGCTTTGTTGTAATCCACTTTCGATTCGATCAAAACACGAATACCGGAA +GCACCGATGACACCATAAAGCAGCAGCGAAACGCCGCCCATCACCGGCAATGGGATCATCTGGATAGCGG +CAGCCAGTTTACCGACGCAGGAAAGCAGGATAGCGAAAATCGCCGCCCCGCCGATAACCCAGGTACTGTA +AACACGGGTGATCGCCATCACGCCAATGTTTTCTCCGTAAGTAGTATTTGGCGTAGAGCCAAAGAAGCCG +GAAATCACGGTCGACAAGCCATTAGCAAACATCGAACGGTGCAGACCTGGATCGCGCAGCAGATCTTTTT +TGACGATATTAGCCGTTACTACCAGGTGCCCTACGTGTTCGGCAATAACCACTAACGCCGCTGGCAGAAT +AGTCAGAATGGCAAACCACTCGAAGCGCGGCGTATAGAGGGTTGGCAGCGCAAACCAGTGAGCATTAATA +ATCGGCGTGGTATCGACAATTCCCATTGCGAAAGAGAGCGCGTACCCCACCAGCACGCCAATTAAAATCG +GGATAATTGCCAGGAAACCACGAAACAGCACGGAACCTAAAACCGTGACCGCCAGGGTGGTAATAGAGAT +GATGATGGTTTTGGAGTCTGGCGTTTGCCCTTCAGCCGGGAGTAAACCCGCCATACCGGCAGCTACGCCC +GCCAGCTCCAGACCGATGACGGCAACGATTGCGCCCATTGCCGCAGGTGGAAACAGCACGTCCAGCCAGC +CGGTCCCCGCTTTCTTCACGATAAAAGAAACCAGGCAGAACAGCACGCCGCACATAATAAAGCCGCCCAG +CGCGACTTCATACCCTAACGGCAACAGTAACAATACCGGTGAAATAAAGGCAAAGCTGGAACCAAGATAA +GCCGGAATTTTCCCTTTACAGATGAAGAGATACAGCAGCGTTCCAATACCGTTAAATAACAGTACAGTCG +CCGGGTTAATATGAAATAAGACGGGCACCAGGACGGTTGCACCAAACATGGCGAACAAATGTTGCAAACT +AAGCGGGATTGTCTGTAAAAGTGGCGGTCTTTCACTCACCCCGATAGCACGGCGCGTCATAGTATTATCC +TCTGTATTATGTGTTATAGGCGCTTTACTCAAAAAAAAGCCGACTCTTAAAGTCGGCTTTAATTATTTTT +ATTCTTTATTTCGTACCAAAGATTTTGTCACCGGCATCGCCGAGGCCCGGAATAATGTATCCGTGCTCGT +TCAGTCCCTGATCAATCGATGCGGTATACAGTTCGACGTCCGGGTGCGCTTTTTCCAGCGCAGCGATACC +TTCTGGCGCAGCTACCAGCACCAGAACTTTGATGCTGCTGCAGCCCGCTTTTTTCAGCAGGTCGATGGTC +GCGATAACGGAACCACCGGTTGCCAGCATTGGGTCAACGATCAGCGCCATACGCTCATCGATGTTAGAAA +CCAGTTTCTGGAAGTACGGTACCGGCTCCAGCGTTTCTTCATTACGGTACATACCGACAACGCTGATGCG +CGCGCTCGGAACGTTTTCCAGCACACCGTCCATCATACCAAGACCCGCACGCAGAATTGGCACAACGGTA +ATTTTCTTACCTTTGATCTGGTCGATTTCTACCGGGCCGTTCCAGCCTTCGATAGTTACTTTTTCCGTTT +CGAGGTCGGCGGTCGCTTCGTAAGTCAGCAGGCTACCCACTTCGGAAGCGAGTTCGCGAAAGCGCTTGGT +GCTGATATCTTGCTCACGCATCAGTCCCAGCTTGTGTTTGACGAGTGGGTGTTTGACTTCCACGATCTTC +ATACTCTTTCTCCTTTGAGGGGCAGCCACAAAAAAAATCGACGGATTATACCTCCTTTCTTCAAGGCGGC +AATATTCTTTTCGTTGACTTTAGTCAAAATGATAACGGTTTGAGATAAAGTTATTTTATATTCAGATGGT +TATGAAAGAAGATTATTCCATCCGAAAACTAACCTTTACCCTGGCACAAGTCTTCTTTCGCCGCGCGCCT +GGGGAAAAGACGTGCAAAAAGGTTGTGTAAAGCAGTCTCGCAAACGTTTGCTTTCCCTGTTAGAATTGCG +CCGAATTTTATTTTTCTACCGCAAGTAACGCGTGGGGACCCAAGCAGTGACCGATAAAACCTCTCTTAGC +TACAAAGATGCCGGTGTTGATATTGACGCGGGTAATGCTCTGGTTGGAAGAATCAAAGGCGTAGTGAAGA +AAACGCGTCGTCCGGAAGTGATGGGCGGTCTGGGCGGCTTCGGTGCGCTGTGTGCATTGCCGCAAAAATA +TCGTGAACCCGTGCTGGTTTCTGGCACTGACGGCGTAGGTACCAAGCTGCGTCTGGCAATGGACTTAAAA +CGTCACGACACCATTGGTATTGATCTGGTCGCCATGTGCGTTAATGACCTGGTGGTGCAAGGTGCAGAGC +CGCTGTTTTTCCTCGACTATTACGCAACCGGAAAACTGGATGTTGATACCGCTTCAGCGGTGATCAGCGG +CATTGCGGAAGGTTGTCTGCAATCAGGCTGTTCACTGGTGGGTGGCGAAACGGCAGAAATGCCGGGGATG +TATCACGGTGAGGATTACGATGTCGCGGGTTTCTGCGTTGGCGTGGTAGAAAAATCAGAAATCATCGACG +GCTCTAAAGTCAGCGACGGCGATGTGCTGATTGCACTCGGTTCCAGCGGTCCACACTCGAACGGCTATTC +GCTGGTGCGCAAAATTCTTGAAGTCAGCGGTTGTGATCCGCAAACCACCGAACTTGATGGTAAGCCATTA +GCCGATCATCTGCTGGCACCGACCCGCATTTACGTGAAGTCAGTGCTGGAGTTGATTGAAAAGGTCGATG +TGCATGCCATTGCGCACCTGACCGGCGGCGGCTTCTGGGAAAACATTCCGCGCGTATTGCCAGATAATAC +TCAGGCAGTGATTGATGAATCTTCCTGGCAGTGGCCGGAAGTGTTCAACTGGCTGCAAACGGCAGGTAAC +GTTGAGCACCATGAAATGTATCGCACCTTCAACTGCGGCGTCGGGATGATTATTGCCCTGCCTGCTCCGG +AAGTGGACAAAGCCCTCGCCCTGCTCAATGCCAACGGTGAAAACGCGTGGAAAATCGGTATCATCAAAGC +CTCTGATTCCGAACAACGCGTGGTTATCGAATAATGAATATTGTGGTGCTTATTTCCGGCAACGGAAGTA +ATTTACAGGCAATTATTGACGCCTGTAAAACCAACAAAATTAAAGGCACCGTACGGGCAGTTTTCAGCAA +TAAGGCCGACGCGTTCGGCCTTGAACGCGCCCGCCAGGCGGGTATTGCAACGCATACGCTCATCGCCAGC +GCGTTTGACAGTCGTGAAGCCTATGACCGGGAGTTGATTCATGAAATCGACATGTACGCACCCGATGTGG +TCGTGCTGGCTGGTTTTATGCGCATTCTCAGCCCGGCGTTTGTCTCCCACTATGCCGGGCGTTTGCTGAA +CATTCACCCTTCTCTGCTGCCGAAATATCCCGGATTACACACCCATCGTCAGGCGCTGGAAAATGGCGAT +GAAGAGCACGGTACATCGGTGCATTTCGTCACCGATGAACTGGACGGTGGCCCGGTTATTTTACAGGCGA +AAGTCCCGGTATTTGCTGGTGATTCGGAAGATGACATCACCGCCCGCGTGCAAACCCAGGAACACGCCAT +TTATCCACTGGTGATTAGCTGGTTTGCCGATGGTCGTCTGAAAATGCACGAAAACGCCGCGTGGCTGGAT +GGTCAACGTCTGCCGCCGCAGGGCTACGCTGCCGACGAGTAATACCCCCGTAATTAAAGCGCCAGCTCTG +CCGCTGGCGTTTTTCAATTCACCTGTAAATCGCAAGCTCCAGCAGTTTTTTTCCCCCTTTTCTGGCATAG +TTGGACATCTGCCAATATTGCTCGCCATAATATCCAGGCAGTGTCCCGTGAATAAAACGGAGTAAAAGTG +GTAATGGGTCAGGAAAAGCTATACATCGAAAAAGAGCTCAGTTGGTTATCGTTCAATGAACGCGTGCTTC +AGGAAGCGGCGGACAAATCTAACCCGCTGATTGAAAGGATGCGTTTCCTGGGGATCTATTCCAATAACCT +TGATGAGTTCTATAAAGTCCGCTTCGCTGAACTGAAGCGACGCATCATTATTAGCGAAGAACAAGGCTCC +AACTCTCATTCCCGCCATTTACTGGGCAAAATTCAGTCCCGGGTGCTGAAAGCCGATCAGGAATTCGACG +GCCTCTACAACGAGCTATTGCTGGAGATGGCGCGCAACCAGATCTTCCTGATTAATGAACGCCAGCTCTC +CGTCAATCAACAAAACTGGCTGCGTCATTATTTTAAGCAGTATCTGCGTCAGCACATTACGCCGATTTTA +ATCAATCCTGACACTGACTTAGTGCAGTTCCTGAAAGATGATTACACCTATCTGGCGGTGGAAATTATCC +GTGGCGATACCATCCGTTACGCGCTGCTGGAGATCCCATCAGATAAAGTGCCGCGCTTTGTGAATTTACC +GCCAGAAGCGCCGCGTCGACGCAAGCCGATGATTCTTCTGGATAACATTCTGCGTTACTGCCTTGATGAT +ATTTTCAAAGGCTTCTTTGATTATGACGCGCTGAATGCCTATTCAATGAAGATGACCCGCGATGCCGAAT +ACGATTTAGTGCATGAGATGGAAGCCAGCCTGATGGAGTTGATGTCTTCCAGTCTCAAGCAGCGTTTAAC +TGCTGAGCCGGTGCGTTTTGTTTATCAGCGCGATATGCCCAATGCGCTGGTTGAAGTGTTACGCGAAAAA +CTGACTATTTCCCGCTACGACTCCATCGTCCCCGGCGGTCGTTATCATAATTTTAAAGACTTTATTAATT +TCCCCAATGTCGGCAAAGCCAATCTGGTGAACAAACCACTGCCGCGTTTACGCCATATTTGGTTTGATAA +AGCCCAGTTCCGCAATGGTTTTGATGCCATTCGCGAACGCGATGTGTTGCTCTATTATCCTTATCACACC +TTTGAGCATGTGCTGGAACTGCTGCGTCAGGCTTCGTTCGACCCGAGCGTACTGGCGATTAAAATTAACA +TTTACCGCGTGGCGAAAGATTCACGCATCATCGACTCGATGATCCACGCCGCACATAACGGTAAGAAAGT +CACCGTGGTGGTTGAGTTACAGGCGCGTTTCGACGAAGAAGCCAACATTCACTGGGCGAAGCGCCTGACC +GAAGCAGGCGTGCACGTTATCTTCTCTGCGCCGGGGCTGAAAATTCACGCCAAACTGTTCCTGATTTCAC +GTAAAGAAAACGGTGAAGTGGTGCGTTATGCACACATCGGGACCGGGAACTTTAACGAAAAAACCGCGCG +TCTTTATACTGACTATTCGTTGCTGACCGCCGATGCGCGCATCACCAACGAAGTACGGCGGGTATTTAAC +TTTATTGAAAACCCATACCGTCCGGTGACATTTGATTATTTAATGGTATCGCCGCAAAACTCCCGCCGCC +TATTGTATGAAATGGTGGACCGCGAGATCGCCAACGCGCAGCAAGGGCTGCCCAGTGGTATCACCCTGAA +GCTAAATAACCTTGTCGATAAAGGCCTGGTTGATCGTCTGTATGCGGCCTCCAGCTCCGGCGTACCGGTT +AATCTGCTGGTTCGCGGAATGTGTTCGCTGATCCCCAATCTGGAAGGCATTAGCGACAACATTCGTGCCA +TCAGTATTGTTGACCGTTACCTTGAACATGACCGGGTTTATATTTTTGAAAATGGCGGCGATAAAAAGGT +CTACCTTTCTTCCGCCGACTGGATGACGCGCAATATTGATTATCGTATTGAAGTGGCGACGCCGCTGCTC +GATCCGCGCCTGAAGCAGCGGGTACTGGACATCATCGACATATTGTTCAGCGATACGGTCAAAGCACGTT +ATATCGATAAAGAACTCAGTAATCGCTACGTTCCCCGCGGCAATCGCCGCAAAGTACGGGCGCAGTTGGC +GATTTATGACTACATCAAATCACTCGAACAACCTGAATAACCCTATGCCAATACACGATAAATCCCCTCG +TCCGCAGGAGTTTGCTGCGGTCGATCTTGGTTCAAACAGTTTTCACATGGTCATAGCCCGTGTGGTAGAT +GGTGCCATGCAGATTATTGGCCGCCTGAAACAGCGGGTGCATCTGGCGGACGGCCTGGGGCCAGATAATA +TGTTGAGTGAAGAGGCAATGACGCGCGGTTTAAACTGTCTGTCGCTGTTTGCCGAACGGCTACAAGGGTT +TTCTCCTGCCAGCGTCTGTATAGTTGGTACCCATACGCTGCGTCAGGCGCTGAACGCCACTGACTTTCTG +AAACGCGCGGAAAAGGTCATTCCCTACCCGATTGAAATTATTTCCGGTAATGAAGAAGCCCGTCTGATTT +TTATGGGCGTGGAACATACCCAACCGGAAAAAGGTCGCAAACTGGTTATTGATATTGGCGGCGGATCTAC +GGAACTGGTGATTGGTGAAAATTTCGAACCTATTCTCGTTGAAAGCCGCCGGATGGGTTGTGTCAGCTTT +GCCCAGCTTTATTTTCCTGGCGGGGTCATCAATAAAGAGAATTTTCAGCGCGCTCGCATGGCGGCAGCAC +AAAAACTGGAAACTTTAACCTGGCAATTCCGTATTCAGGGCTGGAACGTTGCAATGGGCGCTTCCGGTAC +CATAAAAGCCGCCCATGAAGTGTTAATGGAAATGGGCGAGAAAGACGGGATAATTACCCCGGAACGTCTG +GAAAAACTGGTAAAAGAAGTTTTACGTCACCGTAATTTCGCATCGCTGAGTTTACCGGGTCTTTCCGAAG +AGCGGAAAACAGTCTTCGTTCCGGGACTGGCGATTTTATGCGGTGTGTTTGATGCTTTAGCCATCCGTGA +ACTGCGCCTTTCTGACGGGGCGTTACGCGAAGGCGTACTGTATGAAATGGAAGGACGTTTCCGTCATCAG +GATGTGCGTAGTCGCACCGCCAGCAGCCTCGCCAACCAGTATCACATCGACAGCGAACAGGCCCGACGGG +TGCTGGATACCACTATGCAAATGTACGAACAGTGGCGGGAACAGCAACCGAAGCTGGCGCATCCGCAACT +GGAGGCGCTACTGCGATGGGCCGCCATGCTGCATGAGGTCGGGTTGAATATCAACCACAGCGGTTTGCAT +CGCCACTCCGCTTATATTCTGCAAAACAGTGACTTGCCGGGTTTTAATCAGGAACAGCAGCTGATGATGG +CGACACTGGTGCGCTATCACCGTAAAGCGATTAAGCTCGACGATCTACCGCGCTTTACCTTGTTTAAGAA +GAAACAGTTCCTGCCACTGATACAGCTATTGCGCCTTGGCGTATTACTCAACAATCAACGTCAGGCAACC +ACCACACCGCCAACATTGACGCTGATTACTGATGACAGTCACTGGACACTGCGTTTCCCGCATGACTGGT +TTAGTCAGAATGCGCTGGTACTGCTTGATCTGGAAAAGGAGCAAGAATACTGGGAAGGCGTGGCTGGCTG +GCGGTTGAAAATTGAAGAAGAAAGTACACCAGAAATCGCCGCTTAATACTTTGCGGGCCGACGAGAAATG +TCGGCCCGCATTATTCAGGCACTTTCGCGAATGGGTTCGATTTCATTCAGCGTATCAATTAACGGCTGCG +GCTTACCAATAAGATAACCCTGCATATAATCGATCCCCAAAGAGAGCACCGCCTCGCGGATCTCTTCGTT +TTCAACGTACTCTGCCACTACCAGCATTTTCTTCATTCGCGCCAGGTGGCAAATCGATGCCACTATCTGA +TAATCCAGACTATTTGACACAATATTGCGGATAAAACTGCCGTCAATTTTAAGCAGATCGGCATTCACAT +TTTTAAGCCGCGCATAGCTGGCGTAGCCGGTGCCGAAATCATCAATCGCAATCTGGCAGCCTAATTCCTG +AAGATGCTGCAAGGTGATTTGCGCCTGCTTAACATTGGTCAGAGCATTACTTTCGGTGACTTCAAAAATA +AGTTGCCACGCTTCAATCTGATATTTAGCCAGCAACTGACTGACTTCAACAGGAAAACGAGCCTGACATA +CCGAGGTTGGAGACAGATTAATAGCAAAACGGTGAGCGGGCATCTTCGCTCTGTTTTCAGCCATAAATTG +CAGCGTATGCTCAATGACCCACATGTCGATACTCGACGATAAACCAAATTCGTGCGCGACCGGCAAGAAG +CTATCGGGGCTGATCAGTTCATCATTCTCACCTTTCATGCGCAGAAGAATTTCATGGTAAACATCACCAC +GCATACCGGTAATCGGCTGGGCCATCAGGAAAAAATGGTTGTGTTCCAGCGCCTGCTGTAGTCGATTCAT +CATCGCGACTTTATCTTTCAATTCGCGTTGCAAATACATTGCCCCGCGACGCTGCATATTTTCCGGGGCG +TTGGTCACGATGGAAAGTTCGGCGACCGTATTTAGCTCTCCCAGCAGCAGGTAGATATGATTCACTGGCG +AGCGCACATAGCAGTAACTGACGCCAATCTGCGGTTGCATCGGCATGCCATCCCAAAAGAAACGAAATTG +CTTGAGATGGCTATCCAGTGCGGTAATGCGCTCCTGGTGCGATTCTGTATTCAGTCGCAGCGCGAGATCG +TTACCCGAAAGCTGATAAACATCTTCACCCGGTTCCAGCAAGGGTGACAGCCAGTGAGAAAGTTTTTGCT +TGTATTGAATCCGCAGCATGATGCCATAGTTCTTAACCAGCATTTCCATGCCAGGGATGCGTAAATAACA +AAGCGCAGACCAGGGGGCATCACGCAACGCGCGATTCAGGGCGCGAACATTTGGCAGATGAACCACCGGG +TCCACATACGCAAGCCGCTGAATGCGTCTGACTACCGCTCTCTGACGGGTTGCCAGTACAGCCATATAAT +TGACAATAAAAGAGAATACCAGATAACTGGAGGAGGTTATGGTCAGCTGCGTGGTATAGCCAGGATAAAT +GGGAATGTAATTTTGATAGCTGTGGATGCTGATCATCAACACGACCGCCCAGAGCAGCGAAATCAGCTTA +TAACCATAGCGCATCGCTCCCCACATCATCAGGGGCAGCAATAATGACAAGGTATAATTGGTGCTAAAAA +TTGTGCTTTTTTCATTTAACGGCATGCATAACAGCAACAATAAAGCACCTAATGCCAGTAGCCAGAGCGC +GAACTCTTTTTTGGTGACTTTGGCATCAACCTGCTGTTTTAATTGCGAATAATAGCTACGTAAATAAAAT +GGATTTCGCACTACCCGAATGATGAAGTAGCACAGCGGGACACCGATCAGATTACCCACCAGTAAGGCCT +GATAATTGATTAAAGTCCCGAGGTTAAAAGGCATGACACCGACCAGATTTTCTCTGCTCGCCAGTAATCC +TACAAATGCAGCAAACTGGAAAAGTATCAGAAACAGCGTTGCAGGAAACACAATCTGCCAGAATATACGC +TGGGAAATTAAACGGGTATCACCATGTGAAACGTTGTTACGCCGGGGAGTAAAGACCCTGTAACCGCCCC +AACAGAGAATGATAATGATAATAAAATTAGCCGTTAATGATAGCGTTTCGTAAAAACCCAGCTCTGCATA +TTTGCGGACAAAAATCCCTAAGGCGATCCCTGGCAATGCCGCCCAGCTGAAAAACATCATCATGCTGATC +ATCAGTGCCAGAGGCAGATAAAAGAGAAAAACCTCACCGGAAGAAATATGCGCGAAAGTATTAATGTGGG +CGAAAATGGGCAAGATTAAAGAAGGCAGGAACAGCGGAAGCCCCCACCATTTATCACGTATTTTTATATA +AGTTGCATTCAGTTTCATAGATGCTCAGCAGAATCCCCCACATCCTGAAGGAGGTGTATTCAGACAGGCA +TCCCACCTGACTTCGAATGATGATTATTCATCACTATAGAGAGCATTGATTCTAAGTGTCATATGAAAGT +ACCAATTGATATATATCAAACAAAATAACCCTGATTAATGAATTATTACGTTTATCATGTTAATTCATCA +TTATTACATCATCATTGTAAATAATTAAATTAACTTCCATAACATTAAAATATGTATCCACTGACGCTTT +TTTACATAACGAAGAATTGACCATTTTGTCCTGTTGTGCCTTAATGTAAGTACCGTCCACAGCGTGGGAC +ATACTTCAAGGAACCTTTTGTGAGTCAGGCAACCAGTATGCGAAAACGACACCGATTTAACAGTCGCATG +ACCCGTATCGTACTGCTCATCAGCTTTATCTTCTTCTTTGGCCGTTTTATCTACTCGTCCGTCGGTGCCT +GGCAGCACCATCAGAGCAAAAAAGAAGCTCAGCAATCCACACTCTCCGTCGAATCACCGGTACAACGTTA +GCGGTTACCTTCTCCACTTTCACAGAACATAACGGCACTTCGCTGTCGGATGCTTTTGCTGTTTGGGATT +ATCAAAGCGGCAGATATTCTTTCATCTTAAATTTTACGTCTTTATCCTGACTGATGTTTATCCTGTTTGG +CTGCGAAATAAATATAAAATTAATATATATGTTGTAATGATATATTTTTATAAATTATTCCCTGCGTGAA +TTTTAATAAATTTAATCTATCCCTTTATACGCAATACATTTACTTTCCTCTTTTGATGATCTTAAATGTC +TTATTTTTCGTAATGTGTATAACAAGGAATAGTGATGAAATTTAAAAAATGTCTTCTGCCTGTGGCAATG +TTAGCGTCATTCACTCTGGCAGGATGCCAGTCAAATGCTGACGATCATGCTGCCGATGTTTATCAAACCG +ATCAACTGAATACCAAACAAGAAACTAAAACCGTTAATATTATTTCCATTCTTCCCGCAAAAGTTGCCGT +AGACAACTCCCAAAATAAACGGAACGCACAAGCCTTCGGCGCGCTTATTGGCGCAGTCGCTGGCGGTGTT +ATCGGCCACAACGTCGGGTCTGGCAGCAATTCCGGAACGACGGCAGGTGCAGTTGGCGGCGGAGCTGTAG +GCGCGGCAGCGGGTTCTATGGTGAATGATAAAACCTTAGTGGAAGGTGTTTCTTTAACCTATAAGGAAGG +CACCAAAGTGTATACCTCTACCCAGGTGGGTAAAGAGTGCCAGTTTACGACAGGTTTAGCCGTTGTTATT +ACCACGACGTATAACGAAACGCGTATTCAGCCAAATACCAAATGTCCTGAAAAGAGCTAATAATCAGGAG +GAGTCATGAAGAAAGTTTTTCTTTGCGCCATCTTAGCCTCCTTAAGCTATCCGGCTATCGCCTCATCATT +GCAGGATCAACTCTCTGCTGTCGCAGAAGCGGAACAGCAAGGTAAAAATGAAGAGCAAAGGCAGCATGAC +GAATGGGTCGCGGAGCGCAACAGGGAAATCCAGCAAGAGAAGCAACGTCGCGCAAATGCCCAGGCCGCCG +CTAACAAAAGAGCGGCAACGGCAGCGGCAAATAAGAAAGCTCGTCAGGATAAACTGGACGCCGAAGCCTC +TGCGGACAAAAAACGCGATCAAAGTTATGAAGATGAGCTACGCAGCTTAGAGATTCAGAAACAAAAACTG +GCGCTGGCGAAAGAAGAAGCCCGCGTTAAGCGAGAAAACGAATTTATCGATCAGGAACTGAAGCACAAAG +CTGCGCAAACCGATGTGGTGCAATCTGAAGCTGACGCCAACAGAAATATGACTGAAGGCGGTCGCGATCT +GATGAAAAGCGTGGGCAAAGCAGAAGAGAACAAATCGGACAGCTGGTTTAATTAATCGATGTTAGTAACT +TCAATCCTATAATTCTTGAAGATAAAAAACCCTCTGTAGTAACAGAGGGTTTTGTTCATTCATAGTGCAG +GGTCAAATCATTCCCACTCAATGGTAGCTGGCGGCTTGCCGCTGATGTCATACACCACGCGGGAAATACC +GTTCACTTCATTGATAATGCGGTTGGAAACGCGACCGAGGAAATCGTACGGCAGATGCGCCCAGTGTGCG +GTCATAAAGTCGATGGTTTCGACAGCACGCAGAGAGACAACCCAGTCATACTTACGACCATCGCCCATTA +CGCCAACGGAACGTACCGGCAGGAACACAGTGAACGCCTGGCTGACTTTGTCGTACAGGTCCGCTTTACG +CAGTTCTTCAATGAAGATGGCGTCAGCACGGCGCAGCAGGTCACAGTACTCTTTCTTCACTTCACCCAGA +ACACGAACGCCAAGGCCTGGTCCCGGGAACGGGTGACGGTACAGCATGTCGTACGGCAGGCCCAGCTCCA +GACCAATCTTACGCACTTCGTCTTTGAACAGCTCTTTCAGCGGTTCAACCAGGCCCATCTTCATCTCTTT +CGGCAGGCCGCCCACGTTGTGGTGAGATTTGATGACGTGTGCTTTACCGGTTGCAGACGCCGCAGATTCG +ATAACGTCAGGGTAGATGGTGCCCTGCGCCAGCCACTTCACGTCTTCCAGTTTCAGCGCTTCTTCATCGA +ATACTTCAACGAAAACGCGACCGATGATTTTACGTTTTGCTTCCGGATCGTTTTCGCCAGCCAGCGCTGA +CAGGAAGCGATCTTCTGCCGGTACGTGAACAATGTTAAGACCAAAGTGATCGCCAAACATATCCAGAACC +TGCTCTGCTTCGTTGAGGCGCAGCAGGCCGTTGTCGACGAATACGCAAGTCAGGTTTTTACCGATAGCGC +GGTGCAGCAGCATTGCGGTTACGGAGGAATCCACACCACCAGAGAGGCCGAGGATGACTTTATCGTCGCC +TACCTGCTCGCGGATGCGAGCTACAGCATCGTCGATAATTTTCGCTGGCGTCCACAGGGCTTCACACTGG +CAGATATCACGCACAAAACGCTCCAGCATGCGCATACCCTGGCGGGTATGAGTCACTTCCGGGTGGAACT +GTACGCCATAGAAGCGTTTTTCTTCGTTAGCCATAATGGCAAACGGGCAGCTTTCGGTGCTGGCTACGGT +GATGAAGTCGGACGGAATAGCGGTAACTTTATCGCCGTGGCTCATCCAGACATCGAGCAGCGGTTTACCG +TCTGCGGTCAGCGCATCTTCGATACCGCGAACCAGTGCGCTGTCGTTTACGACTTCAACCTGCGCGTAGC +CAAATTCACGTTCGTTAGAGGCTTCAACGTGACCGCCCAACTGCATTGCCATGGTCTGCATGCCATAGCA +AACGCCGAATACCGGTACGCCTGCTTCAAAGACATACTGCGGCGCACGCGGACTGTTTTCTTCAGTAGTA +CTTTCCGGGCCGCCGGAAAGAATAATGCCGCTTGGATTGAAGTCACGAATTTGTGCTTCTGTCACATCCC +ACGCCCACAGTTCGCAGTAAACACCCAGCTCACGCACGCGGCGCGCAACCAGTTGAGTGTACTGAGAACC +GAAGTCCAGAATGAGGATGCGATGCTTATGAATGTTTTCCGTCATTGACGCTTATTCCGAGGCAAGTGAA +ACAGATAATATAAATCGCCCGACATGAAGTCGGGCGAAGAGAATCAGGAGCCCAGACGGTAGTTCGGGGA +CTCTTTAGTAATGGTCACGTCGTGAACGTGGCTTTCCTGAATGCCCGCACCGCTGATACGTACAAACTCC +GCTTTAGTACGCAGTTCGTCGATAGTACCACAGCCGGTCAGACCCATACAGGAGCGCAGGCCGCCCATCT +GCTGGTGAATGATCTCTTTCAGGCGACCTTTATAGGCTACGCGACCTTCGATACCTTCCGGCACCAGTTT +GTCGGCAGCGTTATCGCTCTGGAAATAACGGTCAGAGGAACCTTTGGACATCGCGCCCAGGGAACCCATA +CCACGGTAAGATTTGTAAGAACGGCCCTGGTAGAGTTCGATTTCACCCGGAGATTCTTCAGTACCCGCCA +GCATGGAACCTACCATCACCGCGCTTGCGCCAGCGGCGATAGCTTTGGCGATGTCGCCGGAGAAGCGAAT +ACCGCCATCAGCGATAACCGGAATACCGGTGCCTTCCAGGGCTTCTACTGCGTCAGCAACAGCGGTAATC +TGCGGAACACCGACGCCAGTCACGATACGAGTTGTACAGATAGAGCCAGGGCCAATGCCGACTTTAACCG +CACTGCAACCAGCTTCTGCCAGAGCGCGTGCACCTGCAGCTGTTGCCACGTTGCCGCCGATAATTTGCAG +ATCCGGATATTTAGCACGGGTTTCACGGATACGTTGCAGTACACCTTCTGAGTGACCGTGGGAGGAGTCG +ATCAGCAGAACGTCAACGCCTGCGGCAACCAGCGCGTCAACACGCTCTTCGTTACCCGCACCTGCGCCAA +CCGCTGCACCAACACGCAGACGGCCTTGCTCGTCTTTACAGGCGTTCGGTTTACGTTCCGCTTTCTGGAA +GTCTTTCACGGTGATCATGCCGATCAGGTGGAATTCGTCATCAACCACCAGCGCTTTTTCAACGCGTTTT +TCGTGCATTTTTGCCAGCACCACTTCACGGGCTTCACCTTCACGCACGGTGACCAGACGCTCTTTCGGCG +TCATGTAAACGCTAACCGGCTGGTTCAGGTCGGTAACAAAACGCACGTCACGACCGGTGATAATACCCAC +CAGTTCGTTTTCTTCGGTAACGACCGGATAGCCCGCAAAACCGTTACGCTCGGTCAGTTCTTTCACTTCG +CGCAGCGTCGTGGTTGGCAGAACAGTCTGCGGATCAGTCACCACACCAGATTCGTGTTTTTTCACACGGC +GAACTTCTTCTGCCTGGCGTTCAATGGACATGTTTTTGTGGATAAAGCCGATACCGCCTTCCTGAGCCAG +AGCAATAGCCAGGCGCGCTTCCGTTACGGTATCCATTGCTGCGGAAAGCATAGGGATATTCAGACGAATA +GTTTTCGTCAGCTGGGTGCTGAGGTCAGCAGTATTCGGCAGAACGGTAGAGTGAGCAGGAACGAGGAGAA +CGTCGTCAAACGTCAGAGCTTCTTTAGCGATACGTAGCATGGGCAATATCTCGACCAGAGTGGTTAATAA +ATATTGCCGCGGCATTATACAGAGCGTAACCGATTGCATCTACCCCTTTTTGCAAAAAATGCTTGCTATC +CCCGAAGGGCGGGTTACTATCGACTGAATAACCTGCTGATTTAGAATTTGATCTCGCTCACATGTTACCT +TCTCAATCCCCTGCAATTTTTACCGTTAGTCGCCTGAATCAAACGGTTCGTCTGCTGCTTGAGCATGAGA +TGGGACAGGTTTGGATCAGCGGCGAAATTTCTAATTTCACGCAACCAGCTTCCGGTCACTGGTACTTTAC +ACTCAAAGACGACACCGCCCAGGTACGCTGCGCGATGTTCCGCAACAGCAACCGCCGGGTGACCTTCCGC +CCACAGCATGGGCAACAAGTTTTAGTTCGCGCCAATATTACGCTCTACGAGCCGCGCGGCGACTACCAGA +TAATCGTTGAGAGTATGCAGCCGGCCGGTGAAGGGCTGCTGCAACAGAAGTACGAACAGCTCAAAGCGAA +GTTGCAGGCTGAAGGTTTGTTCGATCAGCAATACAAAAAACCACTTCCCTCCCCTGCGCATTGCGTTGGT +GTGATCACCTCAAAAACCGGTGCTGCGCTACATGATATTTTGCATGTGTTAAAACGTCGCGATCCTTCTC +TGCCGGTGATCATCTACCCTGCCGCCGTTCAGGGCGATGACGCGCCGGGGCAAATTGTTCGCGCCATTGA +ACTGGCGAATCAGCGCAATGAGTGCGACGTATTGATCGTCGGGCGCGGCGGCGGTTCGCTGGAAGATTTA +TGGAGTTTTAACGACGAACGCGTAGCGCGGGCGATTTTTACCAGCCGCATTCCGGTTGTCAGCGCCGTCG +GGCATGAGACGGATGTGACCATTGCCGATTTTGTTGCCGATCTGCGTGCGCCAACGCCGTCTGCCGCCGC +TGAAGTAGTGAGCCGTAATCAGCAAGAGTTACTGCGCCAGGTGCAATCGACCCGTCAACGGCTGGAGATG +GCGATGGATTATTATCTCGCCAACCGCACACGTCGCTTTACGCAAATTCATCACCGATTACAGCAACAGC +ATCCGCAGCTCCGGCTGGCACGCCAGCAAACCATGCTTGAGCGCCTGCAAAAGCGAATGAGCTTTGCGCT +GGAAAATCAACTTAAGCGTACCGGGCAACAGCAGCAGCGGTTAACACAGCGGCTGAATCAGCAAAATCCA +CAGCCGAAGATTCATCGCGCGCAAACGCGCATTCAGCAACTGGAATATCGTTTAGCAGAAACCCTGCGCG +CACAGCTTAGCGCCACGCGTGAACGTTTCGGTAATGCAGTAACGCACCTCGAAGCCGTAAGCCCACTGTC +AACGCTGGCGCGTGGATACAGCGTTACTACTGCTACTGACGGCAATGTACTGAAAAAAGTGAAGCAAGTT +AAAGCGGGTGAAATGCTAACCACACGTCTGGAAGACGGCTGGATAGAAAGTGAAGTAAAAAACATCCAGC +CAGTAAAAAAATCGCGTAAAAAGGTGCATTAAGCCAGCACGAATTCAACGCGTTTTTTCGATATCAAGCC +ATGCCCGTGCTGACAGAAGTAATCTACTGCACCACAGGCTTTTAACACCTGCAACGGTTGATGGCAGTCT +GGACAAAGAGCTTTCATTTCAATAAATTCCCCGCAGGATCGGCAACGCGCATGGCCGTTATCCTGATCAA +GCACATGCTGACATTGTGGACAATGCAGTTCCATATGAATTCCTCCGGTAGCCATTCCCTCTACATTCAT +AGAGGGAATGGCAGATAAAATACTTACGGATAATTATTTATTTTTCTTGATGTGCTTCATCAGACGCTTA +CGTTTACGCATCTGGGTTGGCGTCAGGGTGTTACGCTTATTCGCATACGGGTTTTCCCCTTCTTTGAACT +GAATACGAATCGGCGATCCCATTACGTCCAGCGATTTGCGGAAGTAGTTCATCAAGTAGCGCTTGTAGGA +ATCAGGCAGGTCTTTCACCTGATTACCGTGAATCACCACAATCGGCGGGTTATAACCACCGGCGTGGGCA +TATTTCAGCTTCACACGACGACCGCGTACCAGCGGCGGTTGGTGATCTTCAACAGCCATCGTCATGATGC +GCGTCAGCATAGAGGTCCCCACACGACGGGTGGAGCTGTCATACGCTTCACGTACTGATTCAAACAAGTT +ACCAACACCACTGCCGTGCAAGGCAGAGATAAAGTGCACACGAGCAAAATCGATAAAGCCCAGACGGAAG +TCCAGCGTTTCTTTCACCTGCTCTTTCACTTCCTGACTCAGGCCATCCCACTTATTCACCACAATGACAA +GTGAGCGCCCACTATTGAGAATAAAGCCCAGCAGCGAGAGATCCTGATCGGAAATACCTTCGCGCGCATC +AATCACTAACATCACCACGTTGGCGTCTTCAATGGCCTGCAACGTTTTGATTACGGAGAATTTCTCTACA +GCATCGGTGATTTTGCCGCGTTTACGTACGCCAGCGGTGTCAATGAGCACATACTCACGTCCATCGCGTT +CCATTGGGATGTAGATGCTGTCACGCGTCGTGCCAGGCATGTCGTAAACAACAACGCGCTCTTCACCAAG +AATACGGTTAGTGAGTGTAGACTTACCTACGTTCGGACGACCCACAATCGCCAGTTTGATCGGCAGACTT +TGCGGGTCGAAGTCGTCTTCCTCTTCTTCTTCGCCGTTCTCTTCCGCTTCAAATTGCGCCCAGTATTCAG +CGTCTTCGTCGACTTCCTCTTGCGGTGCGAGATCTTCCATCCACGGCAGCAGCACATGCTCCAGCAGACT +TAATACGCCACGACCGTGAGACGCGGCGATCGGGTAGATTTCACCTAAACCAAGCGAGTAGAAATCAACC +ACTGCCTGATCGGGATCCAGACCGTCAGTTTTGTTTGCCACCAGGAAGGTCGGTTTTTCACGGGAGCGCA +GATGTTTGGCAATCGCTTCATCTGCCGGCATCAGGCCCGCGCGCGCATCCACCATAAACAGTACGACGTC +CGCTTCTTCAATCGCCAGCAGCGACTGTTCCGCCATGCGGGTTTCTACACCGTCTTCTGTGCCATCAATC +CCGCCGGTATCAATACAGATAAACTCACGGCCTTCAATTTCCGCACGACCGTACTTACGGTCACGAGTCA +GACCCGGGAAATCCGCAACCAGCGCATCTCGGGTGCGAGTTAGACGGTTAAATAACGTGGATTTTCCTAC +GTTAGGGCGCCCGACAAGCGCGACCACAGGTACCATGTTTAAAGCCTCATTTTTATAAATCATCAGACAA +CGCACGCTATATTCGCGTCGTTGTTAAAAACAGGAAAACGGCCCCTGTCCAGGAGCCGTTTTCAAAGTGA +ACGACAGAGACGATTAACGTGTAATAGAGTACACGGTTCCGTCTTTTGCCTGGATCAGCAGTTTGCCGTC +AGCGGCAACCGGTTCAGTCTGGAAACCGGAACTATCAACTTTTTGCTGGGCAACGAAACGACCATCTTCG +ACGTTAATCCAGTGCAGATAACCTTCACTGTCACCGACCACCAGGTTGCCATTATACAGCACCGGAGAAG +TCAGCAGGCGATGCAGCAGATCGCTTTGTGTCCACAGCGTAACGCCGCCATCAATGGTCAACGCCATCAC +CCGGTCATTTTGATCGACCAGATAGATGCGATTGCCGTCGACGATGAAATCATTCACCGAACCCAGTTCG +CGTTTCCACATAATCTGACCACTGCGCAGATCAAGCGCCGTCAGGTTACCATTATAGGCCAGCGCGAAAA +CAACGCCGTTAACAACGACGGGAGTCGTGTCAACATCGCTCAGACGGTCAATTTCGGTAGAACCGGTCGC +CTGGGAAATACGCTGCTGCCAAATCATCTGGCCCTGTTCCATCAGCACTGCGCTGACGCGACCATTATCG +CCCCCCACGACGGCCGCACCAAAAGCCGTTGTCGGCGCAGACTCGCCACGCAAAGAGAGCGAAGGCATAT +CGAGGTTAACTGTCCATTTGACAGCGCCGTCAGCTTCGTTCAGCGCTTGTAACTGACCGTTACTGGTGTG +GATTAACACCAGACCGTCGCTGACCACCGGGCGCGAAAGTGCTTCACCCGCGACTTTAGTTTGCCATGCC +ACAGTACCATCGCTGGTATTCAGCGCGTAAACCTGCGCCTTTTCGCTGCCAATGTAGACATGCCCACCAG +ACACGGTCACACCGCCAGAAAGTAATGCAGGCTCTTTAGAGAACCAGCCATCTTTCTCGGCCAGGCTGAC +AGACCAGATTTCTTTGCCATCATCCGCATTCAGCGCTTTTACTAAACCAGCGCGGTCCGCTGCATAGACA +ACGTTGTCCGCCAGTGCCGGATGAAGATTGGAATAGAAGTTGCCAATGCCGCTACCAACGGAAGTGCTCC +ACGCCGTGGTCGGCGTAAACTGGTTTTCAACGGTTGGCAATGGGGACATCTTTACCACATCTTCTTCGCT +GTTAAACAGCGAACAGCCGCTTAAAAGGGTAACGGAAAGCAGTCCTGGCAGCAGTAATTTACGCAATTGC +ATCGGGTCCCTCTCAGATGGACAAATTATTAATTTTCATCTGCATCATTTCGCTCAGTGCCGGAGTAACA +TCGCTTTTCACGCCTGCTTCCCATGCACTACGCGCACCTTGCTTATCACCTTTGCTCAGCAATGCTTCAC +CACGCAGGTCGGCAACAATGGCAGCCCACCCTTCACCTTTGATGGTATCAAGGGTTTTCAGCGCGGCATC +AGCCTGCTTGAGCTGTACCTGAACGCGAGCAAGACGCAGATTTATCACGGCTTTGAGATTTTCATCGCTC +GTGTCTGCCAGCCCCTGTTGTAACTGGGCGGCAGCTTTCTCTAGTTCATTTTTGTCAACAAATTGCTGCG +CAAGTTCCAAAGAAGCCAGCGCACCATAAGTATTTTTATTTTCAGCAGCAAATTTTTCCGCCGCCGGGAT +GCTATCCGGTTTGCCTTCGCTCACTGCGGTAACCGCATTTTGATAGGCAAGAGAAGCGGAGCGTGCAGAA +TCAACCTGATGGCTGTTCCAGTAGCGCCAGCCAATCAGTGCGCCAACGCCCAAAATCACCCCAACAGCCA +GTGCTTTGCCATTTTCAGCAAAAAAGCGTTTAACCGCTTCTACCTGGTCGTTTTCGTTCTCGTAAATTTC +CACGCTGTCCTTCTCCTTCCTTAACCCAGTAACGTGCGCAAATGCGCGGCTACGCTATCCTGCGCAACTG +CCGTTTGCTCACCAGAGCGCAAATCCTTCACTACTGCTGTGCCGTTAGCCACTTCAGACTCACCCAGCAC +CACAGCAACGCGGGCACCCCATTTATCAGCACGGGCAAACTGTTTCTTAAAGTTGCCGCCGCCGTGGTTG +GTCATCAATTTCACGCCCGGTAATTCATCACGCAGACGCTCAGCTAATGCCATAGCCGCAGATTGTGTAT +CAGCACCTGAAGCCACCAGGTATATATCGACAACAGGATCGGCTTTAAATTCCGGATTAACGGCCTGTAC +TAACAATACAAGACGTTCGAGGCCCATAGCAAAACCGACAGCCGGTGTTGCACGACCGCCCAGTTGTTCC +ACAAGACCGTCATAACGACCGCCTGCACACACGGTGCCCTGGGAGCCGAGACTGTTAGTCACCCACTCGA +AAACGGTACGGTTGTAGTAATCCAGACCACGCACCAGACGCTGGTTTACGGTGTAAGCGATCCCCGCGCT +CTCCAGCAGTTTGCACAGACCGGCAAAATGCTCACGAGATTCCTCGTCCAGATAGTCACCTAATGCCGGA +GCGTCGTTGAGAAGCGCCTGCACTTCCGGATTTTTTGAATCCAGCACGCGCAGCGGGTTAGTGTACATGC +GGCGTTTGCAGTCTTCGTCCAGCTTTTCTTTATGCTGCTCAAGGAATGCCACCAGCGCATCGCGGTAATT +GGCGCGTGCTTCCAGCGAACCGATAGAGTTCAGCTCAAGAGTTACGTGCTCGGAAATACCCAGCGCGCGC +CACCAGCGGGCAGTGAGCATAATCAGTTCAGCGTCGATATCCGGACCTTGCAGACCGAAAACTTCGCAGC +CCAACTGATGGAACTGACGATAACGCCCTTTCTGCGGACGCTCGTGACGGAACATCGGCCCGATATACCA +CAGACGCTGTTCCTGATTGTACAGAAGACCATGCTCGATGCCGGCGCGTACACAGCCCGCCGTCCCTTCA +GGGCGCAGAGTCAGGCTGTCGCCATTGCGATCCTCAAAGGTGTACATCTCTTTTTCAACCACGTCGGTGA +CTTCACCAATCGCACGTTTGAATAGCGGGGTCTGCTCTACAATCGGCAAGCGGATTTCACTGTAACCGTA +GCTGCCGAGCACGTTTTTCAGTGTGCCTTCAATGCGCTGCCAGATGGCCGTTTCGCCAGGCAGGTAATCG +TTCATGCCGCGAATGGCTTGAATGTTTTTTGCCACGTTTATTCTCTTTCTGAATATAAAAATGAACCCTC +AACGCTTCCCTCAATGTTTCGGGAGCCATGCGGGTTCAATCATACACGGGAAGCGAGGCGCTTCCCATCA +CGTTATTATTTTTCAACCTGCTGAACGTCAATTCGACGCGCTTCGTCCAGCTGACTGGCTTTCGCACGAA +TGCGTGCTTCCAGCTGGTCGATCATATCGTTGTTGTCCAGACGGTCTTTGCGCACGCCATCTTCATAGAG +GCCGCTTTTCTTGTTGCCGCCGGTGACGCCGAGTGTAGAAACCAGCGCCTCACCTGGGCCATTCACCACG +CAGCCGATAATCGAAACGTCCATCGGAGTGATGATATCTTCCAGGCGTTGCTCCAGCGCGTTAACCGTAC +CGATAACATCAAATTCCTGACGCGAACAGGTCGGGCAGGCGATGAAGTTGATCCCTCGCGAACGGATACG +CAGCGATTTCAAAATATCGAAACCGACTTTGATCTCTTCGACCGGATCGGCCGCCAGCGATACGCGCAGC +GTGTCGCCGATGCCTTCAGACAGCAGCAGACCTAAACCAATGGCGGATTTTACTGCCCCGCTGCGCGCAC +CACCGGCTTCGGTGATCCCCAGATGCAACGGCTGATCGATCTGTTTTGCCAGCAAACGATAAGACTCAAC +AGCGAGGAAGACGTCAGACGCTTTCACGCTGACTTTGAACTGATCGAAGTTCAGGCGATCGAGATGATCA +ACATGACGCATGGCAGATTCCAGCAACGCCTGCGGCGTCGGTTCGCCATACTTTTCTTGCAGATCTTTTT +CCAGCGATCCGGCGTTAACGCCAATACGGATCGGAATGTTTTTATCGCGCGCACAGTCAACCACCATGCG +AATACGCTCTTCATTACCGATATTGCCAGGGTTAATACGCAGACAATCGACGCCGTATTCCGCTACTTTC +AGCGCAATGCGATAGTCGAAGTGGATGTCAGCCACCAGCGGCACGTTAACCTGCTGTTTGATGAGTTTGA +ACGCTTCTGCCGCGTCCATCGTCGGTACGGATACACGGACGATATCAGCGCCAACGCGTTCCAGCGCCTT +GATTTGATTGACCGTTGCTTCGACGTCTGTCGTACGCGTATTGGTCATGGACTGTACGGCGATGGGAGCA +CCATCGCCAATCGGCACATTCCCAACGTAAATACGTGTTGATTTTCTACGTTGAATTGGAGCCTGGTTAT +GCATGAAAAATCTCCCGCGTTACCCGTCTGTTACTGCGCCGGTGATTGTTCGGCATTGAGGGTCAGACGC +GCAACCTGGTTAGTTCTGATAAAACGACTCAGATCGACAGGTTTCCCTTGATACTGGATCTGTACTGCGG +CTGGCGCACCAATTTTCAGTTTGTACGGTGCCTGGCCGGTTAAGTTCAAATTACCGTCTTTACGCTGCAT +ACCGCTAAACAATTTTTTACCGGTAGCATCAGTGACCTCCAGCCAGCAATCGGCAGTAAAGTTCATCACC +AGCGCATTCGGATCAGCCACCGGCGTGGTCACGCCAGCCTGATCGGTTGGCAACGGCGCAGCACCATCTG +GCGTTGTTGCTGCCGTTGGTGCCGGGGTCGCGGCGGTATCAACATTTGCCTGCGAAGGCGAAACAACCGC +ATTCTGTTGCGGATCAACAGCTGGTGCTGGCGCAGTTACGGCAGGTGTTTGCGTGTTGGTTGCGGTAGTA +TCCACAGACGCTGGCGGCGTGGACGTTGTAGCCGGGTCTGTAGTTGTCGACGTATTTAATGGAACACTCT +GCCCCTGCTCGCTATTACTGCTCAGTTCCGCCGAAGATTGATCGGCCATAGTGGTGATCTCTTCCTGCTG +AGCTTTGCGGTCTTGCCACCACCAGGCACCGCTCAGGCCGATAACCACAAACAACACCAGCCAAGTGAAG +GTCATCAGCCAGCCGTCGCGTTTTTTGCGGCGTTTACCGAGGGAAAAACTCTGCATCGGCGCAACTTTTG +CAGCCCGAAGTGGAGCCTGCTTTTCCAGCCCTGGCAGCAGTTCTTCTTCTGGAATATGTACCAGACGCGC +ATAAGAGCGGATATATCCGCGCAGGAATGTTGAAGCAAGATCGGCGGGTGCCTTATCTTCTTCAATGTCG +CGTACCGTGGAAACCTTCAGGCAAAGTCGCTCGGCAACGGCCTGCTGACTAAGTCCTAGTTGTTCGCGAG +CATTACGCAGGCGAGCGCCGGTAGTAAGTGCTTCATTTTGGTCGTGCGTGGCTTCAGTATTCATTCGCTG +CAGGTACGTTTAAATGAGAATTGAGATGCCGGTGAACCATCATGCTCACCCACACCGCGAAACATCCGTT +AAGTTAACCGTTATCATACAGTATAAGACCGTCTGTGTGCTCGTGACAAAGCCCACATTCACTAAGGCTA +ACTTACTGTTGCATCGTTACATACTGCCTTAAAGTCAGCAAAAACGCACCGTTAATATTGACCAGACAAT +TGCAACTTAATACTTCATTCATAAAACATTACGCCACGGTACATAAAGTAACCGTGGCGTAATGGCTATC +AGACCGCTTTAATGTCGATGGCTTCACCCTGCATCCGTTTACGCAGGGTACGTTTCGTACGGTCGATAAC +ATCGCCCGCCAACTGACCACAGGCAGCATCGATATCATCACCACGAGTTTTACGCACAATAGTGGTGAAA +CCGTAGCTCATCAGCACTTTTGAGAAACGGTCGATACGGCTGTTCGAGCTGCGTCCATACGGCGCACCCG +GGAACGGGTTCCACGGGATCAGGTTGATCTTACACGGCGTATCTTTCAGCAGTTCCGCCAGTTGGTGCGC +GTGTTCAGTGCCGTCGTTAACGTGGTCAAGCATCACGTATTCAATAGTGACTCGGCCCTGATTGGCGTTG +GATTTCTCCAGATAACGGCGCACCGCAGCAAGGAACGTTTCGATATTGTACTTTTTGTTGATCGGCACAA +TTTCGTCACGAATTTCGTCGTTCGGCGCGTGCAGGGAAATTGCCAGTGCAACGTCGATCATATCGCCCAG +TTTATCCAGCGCCGGAACTACACCGGAAGTGGAAAGCGTGACGCGACGTTTAGACAGGCCAAAACCGAAA +TCATCAAGCATGATTTCCATCGCCGGAACGACGTTGTTCAGGTTGAGCAGCGGCTCGCCCATGCCCATCA +TCACTACGTTAGTGATCGGACGCTGACCGGTGACTTTTGCTGCGCCGACGATTTTCGCCGCACGCCACAC +CTGGCCGATAATTTCCGACACCCGCAGGTTGCGGTTAAAGCCCTGCTGGGCGGTGGAACAGAATTTACAC +TCCAGCGCACACCCCACCTGCGAAGAGACGCAGAGCGTGGCACGGTCGTCTTCCGGGATATACACCGTTT +CGACGCGCTGATCGCCAACGGCGATCGCCCATTTAATGGTGCCGTCAGATGAACGCTGTTCTTCAACCAC +TTCCGGTGCGCGGATTTCCGCCACCTCTTTCAGTTTGCCGCGCAACACTTTGTTGATGTCGGTCATCTCA +TCAAAGTTGTCGCAGCAATAGTGATACATCCACTTCATCACCTGATCGGCGCGGAAGGGTTTTTCACCTA +AATCTTTAAAAAACTCCCGCATCTGCTGACGGTTGAGATCCAGCAGGTTGATTTTTCCATCTTTCGTGGT +GACGTTTTCAGGTGTGACTAATTGTTCAGACATATGCTATTCCGGCCTCGTTATTACACGTTATGGCCCC +TGGAGGGTTGAAAAAAGAAACGCCCCGGTGAGCGGCTGCTCGTCCGGGGGCGCTGCATTGTACAAATTCT +GGCGCACGGATGCCACGTTTGCACGCGGCATTTACGAAATTATTAACGGGTGCGCGGGCACACTTCGCCT +TCGCCAAAGAAATAAGCGATTTCGCGAGCGGCAGATTCGACGGAATCAGAACCGTGGGTACCGTTTTCGG +TCAGGCTGTCAGCGTAATCAGCGCGCAGAGTACCAGCCAGTGCGTTTGCCGGATTGGTCGCGCCCAGCAG +ATCGCGGTGACGCTGAACGGCGTTTTCACCTTCCAGCACGGAAACCACGATCGGGCCAGAGGTCATGAAT +TCAACCAGACCATCAAAGAACGGTTTTCCATCGTGTTCAGCATAAAAGCCACGTGCCTGTTCAACGGTCA +GGTGCAGCATTTTGGTGCCAACAATTTTGAACCCTGCAGCTTCAAAGCGCGCAAAGATATTACCAATGAC +GTTTTTTGCTACCGCGTTCGGTTTGATGATGGAAAAAGTACGTTCAATAGCCATTTTTACCTCTGTAAAT +TGTTCTGTTGTTGTCTGTACCAGCGTACGAGATGGCGCGGATTATAATGAGCAACAGGGCCGTTGACTAT +TGATGAAGGTAACATTTTTTTAAAATAAAATGAGTTTTAGCAACAATCAGGGACAAAACAGACTATTGCA +TGACAAATTTCACTGTCGCGATTTGCCCCACGTCATCCATCACCAGCAATTGATAATCACCTTTATCCGT +CAAATGCAGGGTCACGTTGCGCCCGCGTTCAGTTAACGGTTCGCCATTCAGAAACCACCAGCGTTCACCT +GCCCCTCCACTTGATTGCAACGGCAAAGTCGCTTCCGCTGCGCCCGGTAAACGTTTAATAATCGCGCCAT +CGCGAACGCCTGTCAGCTGCAGCGGGAGCTGGGCATCGTGACCGTATGGCGGGCAACTTGTCGAGGCCGG +TGGTAAGCGCACAGCGCGACGTTCTGATGCGGGCAGCCAGGGTTCCAGCGGTAGCGGCCAGACATTTATC +ATTTCTTGTCGCGCTTGCGGGCAATCAGCGGCAACACGTTTGCCATTTTCATCCAGCCAGATGGGGAAAC +GAATGCCATTAATGCCTTCCTGCTCCGGCAGTAATAGAGTTGGCGGCTGACTCCCGTCCAGCAGCCAGGT +TGCCAGGCGGCGGCGACAGTTACCGTCACCTTCCGGCAAAGACTGTCCGCCCGGCCAGCAGATAACGCCA +CGAGTGACTGAGTTCGGGCGCGGGTCTTCCGGCAGATTCGCACTGCGCGACAGTAAGATATTATTGACCT +GATTCAACAATGGTACGGCACTGGCAAAGCCAAACTGACCAACAACGGGCGTGCCGTCCGGTCTGCCAGT +CCAGATCCCAATGACATAGCGAGCGTTAACCCCAATCGCCCAGGCGTCACGATAGCCATAGCTGGTGCCC +GTTTTCCATGCCAGTGGGGCGACGCGCGGCAAGGCACTATCCGGCAAGGGTTGCGCTTCATCAGCCATAA +TCCGGCGAATGATCCACGCCGCCCCCGACGACATTAAAGGCCGTTCAAGCAGCGGATCGTCAGGCTGTAA +GCGCAATTTGCCTGCCTTGCCGTGGCGAGCAAACGCGGTATACGCTGCCGCCATATCTTCCAGTTTTGCA +CCAGCGCCGCCGAGAATGAGTGAAAGATTCGGCGCAGCACCGTTGGGCAAATATAACGGCAATCCAACAT +TGCGTAACTTTGCCGCAAACCGTTTCGGTCCATAGGCTTCCAGCACCTGCACAGCAGGTAAGTTCAGCGA +GCGCACCAGCGCCTCGCTCATGCTGATCGGGCCATGAAAACCGCTATCAAAGTTACCTGGTCGATAATCA +CCGGTGCGCCGGGGGACGTCTTGCAGCAGTGATGCCGGGTGGATCAAGCCTTCATCCAGCGCCAGACCAT +AAACAAACGGTTTGAGCACTGATCCTGGCGATCGGATCGAATTGACCATATCAACATGACCAAAGCGTGA +ATCATCGTTGAGATCAACCGATCCCACCCAGCCGCGAACACGCATATCGGTATGATCAACCACGATCATC +GCCAGTGAGCTGCGCGGTGGCAACCGCCCTTTCCAGTTTTGCGCCAGTTCTTCCAGACGTCGTTGAAGAC +CGGCATCCAACGTAGTAGTGATTTTGTCGCTTTTGCTTTTACCGAGCATCATGCGCGAAAACAGCGGTGC +CAGTTGCGGCATTTGTCGGGGGGCCAGCCAGATGGGTTCTTCCCTTGACTCTTTTACCTGCTCACGGGAC +CACACACCTTGCACGGCCATCCGTTCGAGCACTTTATTACGCGCGGCTTCGGCACGCTCCGGCCAACGAT +CCGGGCGAAGACGGCTGGGCGCTTGCGGCAAAACCGCCAGCATTGCCGCCTCGGAATAGCTTAAATTCGC +AGGCGATTTTCCGAGATAAGCCCAACTTGCCGCACCGATCCCCTGCAACGTACCGCCAAACGGAGCGCGG +TTAAGATACAAGGTCAGAATTTCACGCTTAGACAGATGCCATTCCAGTTGCAACGCGCGCCAGAGCTGGC +GAATTTTGCCGCCAAATGTTTTGGGGTGAGGATCAAGCAGACGAGCAACCTGCATAGTGAGCGTGCTGCC +ACCGGAAATAACCCGTCCCGAAGTGAGATCTTGCCATGCTGCGCGCGCCACCGAGAATGGATTCACCCCC +GGATGCTTCCAGAACCAGCGATCTTCATAATTGATCAGCGCTTCAAGGTAACGTGGAGAAACATCTTCGA +TTGTTACCGGATAACGCCAGATGCCGTCAGCATCGGCGAAGCGCCAGAGCGGCGTACCATCCTGCGCCAC +GACCACTCGTGCGGGATTGACTTCATGCAGCGGTAGAGGCCAGAGTTTATCTGCTCCCCACGCTGCAAGA +AAAAGGAGAAAGGGCGCGGCTGCCAACGTTATCCAGCAGCCGCGTTTGGTTAACAAGCGAGGCATTTACG +GTCTGACAATCAGCAGATCTTCAGCCGCGCCGGTCGCCCGCCATTGGGGAACATACATTGATTCCACCAT +CGGTTGCGGTACCTGATACGTTCCCGGCGTCACCGCCCGCGCCAGATACACCAGCGTTACCGGTTGGTAT +TCATCAACGGCAACCGCCGCCACAAAGCGATCGTCACGGAACTCAATGTGCTTAATGCTCGCCTGCTGCA +TCTGGTTCAGTAAGTTCTGCACTTCGCCACCACTTTGCTCCAGGCTGGCGCTACCGTTCGCCAGATTCTG +GTTTTCCAGTTCCAGACCCGCAGGCAGCAGATCCACGACTAACGCATCCGGCACGCTGTTACTGGCTTTT +ACCTGCAACCACACCAGCACCAGATCGCCGCTACGTAACGAGTCCAGCGATTTGCTCTTACCATCAGTAC +CAAGAATATGACGCTCGATTTGCAGCACATTGTTCGCCGGTAAAGGTGCGGATTGCGGATAACCGCTGGC +ATCCATACGCAACCATAACGGCTGATCGCCACTGTTGCTCACCTGCAAGGTGACAAGTTGATCGCTATTC +AGATTGCTGTTTTGCGCTTTCTCGCCTGTCAGCTGCTCAGCTGAGAAAGAGGTTTGCGCCTGCCATTTAC +CGGGTAAATCCTGAATCGTACGGGCAGCCAGGAACAACGCGTTACTTTCCTGCGTCGATAGCCAGCGTTC +ACCAAACGCCTGCTGCGAAAGTGTGTTCAGCAAAGTGTACTGCTCATCGGGTAGCAGTTTATTTTCTTCC +AGCAAGGAGAGCATTAACGCGTTGTCGCGCAGTGAACTACCGTAATCACCCAGCCATATCCGCTCATCAC +TATTACGCGGCGTTTTCAGCGCCAGCGCAATCGCTTCTTCACCACGCGTCGCATCACCCATGGTTTTCAG +CGCAACGCCAAGTTGCAGCAGCGGTAAACCAGAAGCGGCATCTGCACGATGCTCCCAGATTTCACGCAGC +GCACCCAGCGGAGCCTTTTGCTGACGGGCCAACACCAGCGCAGCGTAAGACTGTACGGCGAATTTACTGG +CTTTGAGATTATCCGCGTACGGGATCGACATCATGCCCGGATCTTGTAAATAGCGCAGCAGACGCTCATT +ACCCCGGTTAATGGCGTCTGTCGGCACGCTGTAACCCTGTTCGCCTGCGCGGACCAGGAAATCCATCACG +TAAGCCGTCAGCCAGTACTCTTCGTCACCGTTTTTATCCCACAGCGCAAAGCCGCCGTTATCACGTTGCA +TTTGCAGCAAACGGGAAATGCCGATATCGACCGATGCACGGCGTTTCTCATCACTGTCGCCTTTGATGCC +CAACGCCTGCAGTTGGGCTGCGTTGGTATAAAGTGACGGAAACAGGCCGCTGGCGGTTTGCTCAAGACAG +CCGTACGGATACGCTTTTAACTCTTTGATATAACGTGCGATGTTCAGCGGTGGTTTGCCGCTCAACAACA +ATTGCCCTTCCAGCGTAACAGGCGAGAAGTTTTGCAATCCATCCGCCGGAATCGCCCATGTCTCACCAGG +CTGTAACGCCGTACCGTAATTAACCGTTTGTGCCGGGAACGCCGGACGGACGCCGATTTTCCACTGCTTA +TGCTGATCGGCAACGGTTTCACCCGGTAACGCTAACCCGCTAATGGTGGCCTGAATTTCTCCATCGCCAT +AACCCGGCAATGCTCGCACCGGGATAAACAGCGTAGTACGCACACCTGGCGCTAATTCAACGGCTGCGGG +TGAATCGCTGACCAGTTCAAGCAAACCACTGGCGGTCAGGGCAACGTTCAGTTTTTGCGGTTTATCGGTA +AGATTAGTGATATCCAGCGTCAGACGCGAGGTATCGCCACTCGCCATAAAGCGCGGCATGTTCAGTTCAG +CAATCACCGGTGCGGCAACTATCACTTTACTTTCGTTGCTACCGAAGTCATCTGCCGTCCAGGCTTGCGC +CATGACGCGCAATTCACCGTTAAAATCGCCAATCGGCAGTGTAACCGAGCCTTCGCCCTGTTCGTTGAGC +GTTACCGGCAGCGCCTGCTGCACGACAATATTGACGTGATTGACCGGCGGTTTACCACCACGTTTCAGCT +CATCACCATCGCCACCGAAACGCAGAGCTGCCAGACGCCCCTGACCTTCAATAACCTGACCGTAAATATC +GTAAATGTCTGCGCCATAGCGTTTCTGACCAAAGAACGCCTGCCACGGATCTGGCGTGACGTAGTCAGTA +ATATTCAGCACACCACTATCAACGGCAGACACCAGCACATTCACCTGTTTAGGCTTCTCGCCATTTTTAG +TGCTGGCTTTAATTTTCACGGTTAATGGTTGATTGGGACGCATTTTTGCTGGTGTTTCCAGCGCCAGATC +GAGGCGACGGTTTTCATCGCCAAGCGGCAGATGCAACACACCAACCGCGCGTTTTGGCGTCGCGGAGCGA +GATTTATCGCCAGGACGTACCACCAGCGTACTTAAATACAGATCATGACGATTCCAGGTTTTATCGACCG +GAATCGTCAGATCCAGCCCTTGAGCCCGAACATCAATCTCTTGCCACCACAGCGGCCCTTCACTGGACTC +GACCATCGCATAACCTTTACCCGCCGTTGGCGCGGCGATATGCAACTTAATGGTGTCGCCAGGGCGATAA +CTGGCTTTATCCAGTTTCAGCGTGACACGGTCGGGTCGCACTGCGCCGCTACCGTCGCTGTTGTCCTGCC +AGCTATAGCCAGCCCAGAAACGAACACTACTGACCGCTTCATTCGGCGCTTTGACTTCCAGACGATAAGC +GCCCCACTCTACCGGAAAACTGACCTTGCCGGTTTCGTCCGCTTTCAGATCCAGAGTTTGTTCATTTTCG +ATCAGATCTTTTTGATCAAACTGTGACTGCCAGCCTTCATCTTCTGACCAGTTCCAGTAGTAATCGCGGC +GTTCGCGAATCAGGCGCACCTGCAAGCCCGACACGGCTTTTTTCACGCCTTGCGCATCGCTATAAACGAT +GTCAAAAGCGGCGTTACTGCCTTCATCAACAATGGGCTGTTTCACCGTGCTGTCAGTACGATAATCGTAA +ACCGATTTCGAGGCGAACTGCGGACGGATCCCCGGCAATGCATCGGCAGGCCAGATAGCCTGCTCAGCGC +GGCGCGTCACCGGGCGACCGCCCGATTCCAGCAAACTACCCTGGAAAATAACCTGTAATGGGGAATGCGT +TTCCTTCCACTGGCTTTCTGTAGAAACTTCGCCGCGCCCTTTATCATCCAGCGTCAACTGAACTTCATCC +AGCGTGCGGGAAAGATTTTCGGCAGCTATATCGCCGAATTCAAAACCAGGTAAGGCTGACACAGCTTCAC +GCAGTGGGCGCAGGAAAAGTTGCCCTTGCAAAGTATTACCATTAGCAGGTGCACCATACAGGTAGTACCC +CACCACGGAGAATTTCACTTCATCTTTCGGCGTTAGCGGGGTTTTCTCACCGGTCAGATTCAGCGCCATG +CGCTCTGGCATAAAATCTTCGACGTGGAAATCCCACATCCGATACTGATTATCGCCCGTGTTAGCGCGAA +TATGCCACATACCGGTTGCCGCATTGCTATCGAGTGGCCAGGTAAAGTGGTAGAGGCCATTCTCCGGCTG +ACTAACGACGCTCCTGAGTACCTGCCCATCGGGTTTAATCACGTCTAACTTGATGGGTTGATTGGGCAAC +GCTTTACCGTCTGCATCACGCAGCAAACCATTGAGGATTACCGTTTCACCTGGGCGATAAAGATCGCGTG +GGCCAAACATGAAAAACTGTTTGCTATAGCCTGGCGCGCCAGCAATGTTAAATTCTGCTAAGTCCAGCGC +CGGAAGTTTTAAATCGAGTAGCGTTGTCTGACCGTCTTTACGCGCCAACAGTAATGCCGCGTTTTTATCA +TTTTCCAGCTGCACATGCCCCTGAGCGTCACTGGTTGCCTGAGTCAGAGTCTGCCCTTTCTCATTTAATA +AAGAGACTTCAATTCCTTGCTGGGCCGCGCCGTTTTCCAGACTTTGGGTAAAGATATCCAGACGATTGTG +ATAACGGTGAGCTGAAACGCCGATATCACTTAACGTAAACAGCGTCGCGGGATTACTGTAATCGTAACGT +CCAGCCTGATTCATCACAGCCAGATACACGCCCGCCTGCTGAAGCGGTTTGATATCGCCCAGCGGCAGCA +ATAATTTTTCACGGGTGTTACGCGCAGGATTGAGATCAAACCGTCCGGTGTAGACCAGATCCGCCATCTG +CAGCAGTTTGTCTGACTGCCAGTTCGCCAGCGAATTGCGGTATTCCCATTGGCTAATGAATGCTGGCAGA +GATTCTGGCTTAACGCGGAAGAAGTTAACATCGACATTATTAACGTTGAGCGCCATTACCGGCAGCCCTT +CAACGACTTTGCCAGGCAGCAGCGAACCACGGCTGGCAAAACCGACGCTGGGTTGGATGTCGCGGGTAGT +TATAGTTTTTTCGTAATCTTTACTGAAGGTTGCGTTGTTGAGTGCTTTGACCTCCTTGCCAATAGTAACG +ATCAAATCACGTTTCGGTTCGAGGTGGCGTAAACGTAACTCTTTAAGATTATCTGACAGCTCCCAGGCAC +CATCCACTTTGCCGCTTTTTTTATCGACGACATGAATAACGCGTGAGAAATCCTGATCCGGGTCGAGAGG +GATGGAGAACGTCAGCACCAGCGTGGCTGCACCATCAAGTTGGACTTCAGAGAGATCCAGCAATGTCAGC +ACCTTACCGGCACTCTGTTGGGCCAGTTTTTGTCTCTCCGGCACGGAGAGTTTTGCTGAACTCGCGTTTT +CTGAAGAGGCCGCTTTAGTAACTTCAGAAGGCGCATCTTTTTTCACCGCTGTTGGCGCGTTATCGTTGTT +GTCGCACCCTGCCAGCGCCAGCATTAGCATGCAGGCGGCTACGCGTAACTTTTTCATTTTTCATCCCTGC +CACAATGGCCCGTTAGCAACGTCGAATAATTATTATGCGTGAGAATTTACGTTATGTAATTCAGTATCAC +GCCCATACAATCCGAATTTTAGTGAGAATTGTGGCTCAGACAGCCAAATCAGCCTCTTTTGCTTGTCGCT +TTTCACTAAACATCCGACAATTTAGCCTAACCCCGGCAAAAATGGAGATGCCTATGTCCACGACATGGTT +TGTAGGAGCCGACTGGCTCGCCGAACATATTGATGACCCGGAAATTCAGATTATCGATGCCCGCATGGCG +TCGCCTGGACAGGAGGATCGTAACGTTGCTCAGGAGTATCTGAATGGACATATTCCCGGCGCAGTGTTTT +TTGATATCGAAGCGCTTTCTGATCACACTTCCCCGCTTCCGCACATGCTGCCGCGCCCGGAAACGTTCGC +CGTGGCGATGCGTGAATTAGGCGTTAACCAGGATAAGCACCTGATTGTCTATGACGAAGGTAATCTTTTC +TCAGCCCCACGAGCATGGTGGATGCTGCGCACCTTTGGTGTAGAGAAAGTGTCGATTCTGGGGGGTGGAC +TTGCAGGCTGGCAGCGCGATGATCTGCTGTTAGAAGAAGGTGCAGTAGAGCTGCCGGAAGGAGAGTTTAA +CGCCGCGTTTAATCCTGAAGCCGTGGTGAAAGTAACCGATGTATTATTGGCAAGCCATGAAAATACGGCG +CAAATTATTGATGCCCGCCCGGCTGCACGTTTTAACGCAGAAGTTGATGAACCTCGCCCAGGTTTACGTC +GCGGACATATTCCCGGAGCACTGAATGTTCCGTGGACGGAACTGGTGCGCGAAGGCGAACTAAAAACGAC +CGATGAACTGGATGCGATATTTTTTGGTCGCGGCGTCAGCTACGACAAACCAATTATCGTCAGCTGCGGC +TCTGGTGTAACGGCAGCCGTGGTTTTGTTAGCACTCGCGACGCTGGATGTGCCAAACGTGAAACTGTACG +ACGGCGCATGGAGTGAATGGGGCGCGCGGGCAGATTTACCGGTTGAGCCAGTGAAATAAGTATTTTACAG +GCAATAAAAAACCGCCGAATTTGGCGGTTTTTTATTGCTAGTCTGGTTCGCGGCCTTTCCAGCAGGTTGA +CTTGTGTTACATGAGCAACGCAGGTGCTTCACAGCAAAACAATACTCACCAGTAACTCTCTTTTTGTCAA +GCAAAAGAGAGTAATTATTGTTTATTTAGCGTATTATCGACACCGGCCCTTTCCGCCGTGTTCGGTAATA +AAATAACCTGGCTTATTAGTCCGAATTCAGACAAATATAAATAAATCCTGCTCAAAATTAAAAATTCTAA +CCGGTAAAAGATATTACTTAAACATGTAAATTCACTTTCCTTTAAAAAACAAAAAACCGCCAAAATCAGG +CGGTTTTTTGTTGCTGGTCCGGTTCGCGGCCTTTCCAGCAGGTTGTATTACCGTAGTAATGCAAGCGCGT +CTCAGCGGAGACAATACTCGCCAGTAACTCTCTTTTTGTCAAGCAAAAGAGAGTTATTATTGTTCTGTTA +GTGTATTATCCACTGCGGCCCTTTCCGCCGTCTCGCAAACGGGCGCTGGCTTTAGGAAAGGATGTTCCGT +GGCCGTAAATGCAGGTGTTTCACAGCGCTTGCTATCGCGGCAATATCGCCAGTGGTGCTGTCGTGATGCG +GTCTTCGCATGGACCGCACAATGAAGATACGGTGCTTTTGTATCGTACTTATTGTTTCTGGTGCGCTGTT +AACCGAGGTAAATAATAACCGGAGTCTCTCCGGCGACAATTTACTGGTGGTTAACAACCTTCAGAGCAGC +AAGTAAGCCCGAATGCCGCCCTTTGGGCGGCATATTTTAGATTATCCGATTCTGTTTAAAGTCACGCAAA +AAACCACCCCAGCGACGTTCATAGAATGGCGCAATATGTTCGGTAATAAAGTGGCTAATTCCTTTTTCCC +CTTTTTTCACCTGACAAATATCGATTGGTTCATCGCCAGGTAATGTATCGGTCGCTACACTTCCCGTCGC +CTGAATAATTTCTTCGATATCACCATCGGCTTCAATGCCAATAAGTAAATTAGGCTGTGCCTCTTCGTTC +TCTTTAATTGAACAAATAAAAGCACGCTTCACCGGCTTAATGGTTTTAAATAAGGTGGTGAGTGAATCAA +TCATTTGTGCTGGCGGCTCTGCGACTTCCGATAATATCAGCGATTCACCGCCTTCCAGGATTTCCTGGCT +GCTCAGCGGATTTCCCTCTTCACCAATCAACAAACTGATTTCACGCGGCATAAATTCTTTACCGGTTGGC +AGTTTGGCATTAAGGAAGAGCGTTTCGCCAAGTGTCATCTCAAACAGCGTGCGAACGGGCATTACGACAA +ATGCCTGTTCGTCTTCAACCGCCTGTTGAAGTGCTTCTAACGAGGTGAAAAAAGGAATGACGCTGGTGCC +GTCTTCTTTTTCCCAGTGCTGTAAATCAAGCGCGCTATCTTCAACCACAGCCTCGCCCTGCGCCGCCGTA +CCAGGCACCCAGACGGTGGATTCCAGTAGAGTACGGAAAAAGGCCGGGCGGTGCGCCGGTTCAGTTGCTG +CTTTTTCCAGCAGGTCTTCAAGTTCGTTTTTTGTTTCGGACATAAGAACCACAATTCATTCAACGTTCGG +GGCGCAAATGCCTGATGCGCTACGCTTATCAGGCCTACAAGGGATTCGCAATTTGTTGAATTTGCAGAAT +TTGTAGGCCGGATAAGGCGTTTACGCCGCATCCGGCATATTAGTTTACGCCGTTAACAGATTAGCTATCG +TGCGCACACCAAGTCCCGTAGCGCCCGCAGACCACTGTTCAACCGGCGCTTTACGGTAAGTCGCCGAGCA +GTCGATATGCAGCCAGCCTTGCTGATAGTTCTCAACAAAGTGCGACAGGAAGCCCGCCGCCGTGCTCGCG +CCTGCCGGATACGCCGCGCTTCCGGTATTGTTCAGTTCGGCAAAGTTAGACGGCAGCTGGCTGCGGTGGA +ACTCCGCCAGCGGCAGACGCCAGAACGGTTCGTTCTCCTGCGCGGCACTCGCCAGCAAGCGACCGGCCAG +CGCATCGTCAAAACTGAACAGCGCGTGATAATCATTACCCAGCGCAGTTTTCGCCGCCCCGGTGAGGGTC +GCCGCATCAATGATCATTTCCGGTTTCTGCGCACTGGCATCAATCAGACCATCGGCAAGCACCAGACGCC +CTTCGGCATCAGTGTTCATCACTTCAACTTTTTTACCGTTGCGATAGGTGATGATATCGCCCAGCTTGAA +CGCATTGCCGCTAATCAGGTTATCCGCACAGCAGAGGAACAGCTTCACGCGCTTGTTCAGTCCGCGCGTA +ATGGCAAATGCCAGCGCCCCGGTAACCGTTGCCGCGCCGCCCATGTCCGACTTCATCGAGTCCATAAACG +CAGTCTGTTTGATGCTGTAGCCGCCGGAGTCAAAAGTGATACCTTTACCTACCAGGCACGCGTACACTGG +CGCTTCTTTATCGCCAGTTGGGTTGTAATCCAGCGCCAGCAATACCGGAGAACGTTCTGAACCGCGTCCG +ACTGTGTGCAGCCCCATATAACCTTGCTCACGCAGATCTTCGCCTTTGGTGATCCGATAAGTCACACGAT +CGCCCGCGACGTTGCTGATCAGATCAACAGCACGCTGTGCCAGTTGCGATGGTCCCAATTCTTCTGCCGG +TGCGTTGATGGTGTCACGCACCCAGTCGATGATCATCAGGCGGTTATCCAGTTCCTGGCGCTGGGCATCG +TCCAGATCCGGCCACACCACTTTACGCGTGCCTTTCGGGGCTTTGTAACCTTGCCAGAATGCCCAGCAGC +GATCCGCATCCCAGCCTTCACCGCTTAACTGAACATGCTTGATGCCCAGACCGTCAATCTTGCGCGCCGC +ACGCTGGATCAGCCCCAGATCGTCTGCCCCGTTCAAATGCAGGGTAATGCCGTCATTATTAATGCTGTAA +GTTGCTTTTTCTCCCCAGCGCGCGTCGGCAGGTTGGGTAGAGAGGGTAATCTTCATCGCTTCTGTCATTT +TAGTTATCCTTCTTTGTAAAAGGGCCGCCAGTTGGCAGCCCCAGGATTTTTCCGCTAAATGATTCGCGTT +GCAGGAAGGCGGCAAGTGAGTGAAGCCCCAGGAGCATAGATAACTATGTGACTGGGGTGAACGAGCGCAG +CCAACGCATCTGCGGCGTGAAGCATGACGCGGAAATTATTCGGCCTCGTCCAGCCAGACTAACAAAATCG +CTTCGAGGATTTTCTCGTTGGATGCCTGCGGGTCGTCGTCGAAATCTTCCAGATCGCAAATCCACTGATG +CATATCGGTGAATCGAACCGTTTTCGGATCAAGATCGGGATACGCATCGTACAGTGCTTCGCCAATTTCG +CGGCTATCGGTCCACTTAAGTCCCATACTAACCTCTGTTAATGCTCACGCGCATGGTTGATAGTGTAACG +CGGGATTTCGACTACTAAATCTTCGTCGGTAACGCGCGCCTGGCAGCTTAAACGGCTTTCCGGCTCCAGT +CCCCAGGCTTTGTCCAGCATGTCGTCTTCCTGCTCTGAGCTTTCCGGCAGTGAGTCAAAACCTTCACGAA +CGATGCAGTGGCAGGTGGTGCAAGCACAGGATTTTTCACAGGCGTGTTCAATCTCGATACCGTTACGCAG +AGCTGCGTCGAGAATGGTTTCACCGCTATTAGCTTCCAGAACAGCGCCATCAGGGCAGAGATCCTGATGA +GGCAAAATAACAATCTTTGGCATATTAAACCTCGTCCACGGAATGGCCTTTCAGCGCACGACGAACCGAC +TGGTCCATGCGGCGAGCGGCGAAATCCTGGGTTTGTTTGTCTACGTTTTTAATCGCTTGTTCGATGGCGT +CAACATCATCGCCCTGCGCCACTTCACTCAGGTGAGCGGCAGCATCGTCAATGACCTGACGTTCTGCGGC +GCTTAACAGCGCGGCATCAGCAGCCAGCGCGCCGTGCAGACTTTCCAGCACACGCGCCGCTTCTACTTTT +TGTTCTGCCAGCATTCGGGCTTTTACGTCCTGCTCGGCATAGCTCATTGAGTCTTTGATCATCGAAGCGA +TTTCGCTATCGGTCAGACCGTAAGACGGTTTGACCTGAATAGACGCCTCAACGCCGGTGGATTTCTCCAT +CGCCGTCACGCTCAAAAGACCGTCGGCATCGACCTGGAACGTCACGCGAATATGCGCACCGCCAGCCGGT +AGCGCCGGAATACCACGCAGCGCAAAACGCGCCAGTGAGCGGCAGTCCTGCACCAGTTCGCGCTCACCCT +GCATTACATGGATAGACATCGCCGTCTGACCATCTTTAAAGGTGGTGAAATCCTGAGCGCGGGCCACCGG +AATAGTGGTATTACGCGGAATCACTTTCTCCACCAGGCCGCCCATCGTTTCGAGGCCCAGCGACAGTGGG +ATCACATCAAGCAACAGCATTTCGCTGTCTGGCTTGTTACCCACCAGAATATCCGCCTGAATCGCCGCGC +CAATAGCGACGACTTTATCCGGGTCGATGGAAGTCAGCGGTGGACGACCGAAAAATTCGCCTACCCGTTC +ACGCACCAGCGGCACGCGAGTAGAACCGCCCACCATCACCACTTCCAGCACTTCATCAGCTTCTACACCC +GCGTCTTTCAGCGCGCGACGACAAGCCAGTAAGGTTCGTTTTACCAGTGGCGCGATCAGTTCATTGAATT +GTTCACGGCTGATTTCGCCCTGCCAGCCCGCAACGTTAACGGTCACGGAGTCCGCATCGCTCAGCGCGAT +TTTGGCTGCAATGGCGGCATCCAGCAGTTCACGCTGAACGCGGTTATCGCTACGATCAGGAATGCCCGCC +TGCTCGCGAATGTAATCCGCCAGCAGATGGTCGAAATCATCGCCGCCGAGCGCGGAATCACCGCCGGTTG +CCAGCACTTCAAACACGCCGCGACTTAAGCGCAGAATGGAAATATCAAACGTCCCGCCACCGAGGTCATA +AACGGCGATCACGCCTTCCTGACCGGAATCCAGCCCGTAGGCGATAGCCGCAGCGGTCGGTTCGTTAAGT +AAGCGCAGGACGTGAAGGCCCGCCAGACGCGCCGCGTCTTTGGTGCCCTGACGCTGGGCATCGTCAAAGT +ACGCCGGAACGGTGATAACTACACCATCCAGCTCGCCTGCCAGGGCTTCAGTTGCCCGCGCCGCCAGTGC +TTTGAGGATGTCCGCAGAAACGCGCACCGGGTTCAGCAGCCCCGCCGCCGTTTCAATCATCGGCAGGCCG +TTTTCGCTGGCCTGGAATTGATAAGGCAGATGCGGATAGCGTTGCTGGATATCAGCCAGCGAGCGTCCCA +TCAGGCGTTTAACAGAACTAATTGTGTTGGCGGTATCGAGCGCTGCATTAGTACGCGCGTCATAACCCAC +CGAATGCCCTTGCTGTTGATAGTGAACAACAGATGGCAGCAGGTGACGGCCTTCATGATCGGCTAACGTT +TCGGCCTGACCGCTGCGCACTGTCGCCACCAGCGAGTTGGTTGTGCCCAGGTCAATACCGGCCGCCAGAC +GACGCTGATGCGGCGCAGCACTCAAACCAGGTTCACTAATTTGTAATAAGGCCATGTTTAGCTTCCAGAA +ATTAAAAATCGAGCAGTTTTTCTTCGAGTTGTTCGGCACTGCTTCGCAGTTTATCGAGAAAACGCAGCTT +ACGCACGGTATCCGCCGCCGCGTCCCACGTCTCGTTGTCTAACTGTTCAACCATCAACTGATGGCGGGTA +TCAAACATCTTTTTCACACGTTTGATAAAGCTTTCCAGCCGCGCTTCATCTTTCGCCTGTTCGATCTCGT +CCAGCTCTTCGCGCAGCTCCAACTGTTCCATCAGGAACGCGGTGTCGCGCACAGTATGCTGCTCGCTGGC +GAGATCAAAGCCGTGCAAAGAAAGCAAATATTCCGCGCGCATTAACGGATGACGCAGCGTTTGCCAGGCC +TGGTTAATGGTTGCAGATTGCTGTACGGCGGCGAGTTGTTCCGCCTGGCTTCCGCTGGCGAATTTATCAG +GATGATACTGACGTTGTAGATCCTGAAAACGCAGGCTCAGCGCCTGGGTATCGAGTTGATAGCGGGCAGG +CAAGCCAAAGAGGGTGAAGTAATCCATAACATTCTCAGGGCTGCGATCCGCCGCGATAACGGCGAATCAG +GTAAAACAAACCCCACGCGCAGGCGACCACGGTGGGGTTATCGGTATGCGCATCAAACGTGGAAGCTTTC +GCCGCAACCACACTCATCTTTGACGTTCGGGTTGGTGAATTTAAACCCTTCGTTCAGGCCTTCTTTTACG +AAGTCCAGCTGCGTACCGTCCAGAAATTGCAGGCTCTTGCCATCGACCACGACTTTCACGCCTTTGTCTT +CAAACACGATGTCTTCCGGCGTCGGTTCGTCAACAAATTCCAGTACATAAGCCATACCTGAACACCCGGA +GGTTCTCACGCCCAGACGCAGGCCAAACCCTTTACCGCGGTTAGCCAGAAAGGTATTTACTCGCGCTGCT +GCACTGTCGCTCAGTGTAATCGACATAACCAAACCTCAACTCTTATTTTGCTTCACGTTTGCTTTTATAG +TCCGCAATGGCGGCTTTGATCGCGTCTTCTGCCAGAATAGAACAGTGAATTTTCACCGGCGGCAGTTCAA +GTTCTTCAGCAATATCGGTGTTTTTGATCGCCTGCGCTTCGTCGAGAGACTTCCCTTTCACCCATTCGGT +GACCAGGGAGCTGGAAGCGATAGCGGAACCGCAGCCGTAAGTTTTAAAACGCGCGTCTTCAATGATACCT +TCATCGTTGACTTTAATCTGCAACTTCATCACGTCGCCACAGGCCGGTGCCCCCACCATGCCGCTGCCGA +CGTTCTCGTCGTTGTTGTCAAAGGAACCCACGTTACGCGGATTCTCGTAATGGTCGATAACTTTTTCGCT +GTAAGCCATTATAAATTCTCCTGATTCCGATACCGATTAATGATGAGCCCATTCGATGCTGTTCAGATCC +ACGCCCTGCTTGTACATTTCCCACAGCGGAGAAAGGTCACGCAGACGACCGATGGATTTACGAACTAACT +CGATGGTGTAGTCGATCTCTTCTTCAGTAGTAAAACGACCTAAAGAGAAACGGATAGAGCTATGTGCCAG +CTCGTCGTTCAGCCCCAGCGCGCGCAGCACGTAGGACGGTTCGAGGCTTGCTGACGTACAGGCGGAACCT +GAAGAAACTGCGAGGTCTTTCAGCGCCATAATCAGCGACTCACCTTCAACGTAGTTGAAGCTGACGTTGA +GAATGTTCGGCGCACCGTGTTCCAGGTCACCGTTCAGGTAAACTTCTTCGATATCTTTGATGCCGTTCCA +CAGACGGTTACGCAGGCCGCGCAGACGTTCCATCTCGGTCGCCATCTCTTCTTTTGCGATGCGATAGGCC +TCGCCCATTCCGACGATCTGGTGAACAGGCAGAGTGCCGGAACGCATACCGCGCTCGTGACCGCCGCCGT +GCATTTGCGCTTCGATGCGTACGCGCGGTTTACGACGTACATACAGCGCACCGATACCTTTCGGGCCATA +GATTTTGTGACCGGAGAAAGACATCAGGTCAACTTTCAACTGGCTCAGGTCGATAGGCAGTTTACCCACG +CTCTGGGTTGCATCAACGTGATAGATAATGCCACGAGCACGGCACATTTCGCCGATAGCCGCGATATCCT +GCACCACGCCGATTTCGTTATTTACGTGCATGATGGACACGAGGATGGTGTCGTCACGCATCGCTGCTTC +AAGTTCTTTCAGGTCGATAATGCCGTTACGCTGCGGTGCCAGGTAGGTGACTTCAAAACCTTCGCGCTCC +AGCTGACGGCAGGTATCCAGTACCGCTTTGTGTTCGGTTTTGCTGGTGATGATGTGCTTGCCTTTTTTCT +GATAAAAGTTGGCTGCACCTTTGATCGCCAGGTTGTCAGATTCGGTTGCACCAGAGGTAAAGACGATTTC +ACGCGGATCAGCGCCGACCAGATCGGCAATCTGATTACGGGCGATATCTACCGCTTCTTCAGCCTGCCAG +CCGAAACGGTGAGAACGGGAGGCCGGGTTACCAAAGGTTCCGTCCATCGTCATAAACTGCATCATTTTCT +CGGCAACACGCGGGTCCACCGGCGTGGTTGCGGAGTAGTCGAGATAAATCGGTAATTTCATTGCTCTATA +AACTCCGTACATCACTCAATGCAAGGAATCAGGCTACCGGCTGGATGTACGACCGTGTTTACGGAGTATT +TAGCACTCCGGCCTGATTCTGAATTCTTTTTATTAAGCGCGTAACTTAACGTCGATCGCGTCTTGTGTGC +GGGTGCGTGGCGCGTCGTGAGTATGCTGACGACCAGACACATCCAGCACTTCCTGGTTATTAACCAGTTC +GCCTAAAGTAATGTTGTTGAGAAAACCGGTGAGACGGTCGCTCAAATCACGCCACAGCGCGTGGGTCAGG +CATTTATCGCCGCCCTGGCAGCCGCCTTTACCCTGACAACGGGTGGCATCTACAGATTCGTCAACGGCGC +TAATTACTTCGCCAACGGCGATGCTGCTGGCATCTTTGCCTAACAGATAACCACCGCCTGGTCCACGTAC +GCTGGAAACCAGACCATTTTTACGCAGACGGGAAAACAGTTGTTCCAGATAAGAAAGGGAAATTCCCTGA +CGTTCGGAAATATCAGCCAACGGTACCGGGCCCGCTTCAGAGTTGAGCGCAACGTCAAGCATTGCGGTCA +CGGCATAGCGCCCTTTAGATGTCAGTCTCATGTCTTACTTCACCTCAAACTCGCCCCTGCCCGGGGTTTT +TTATTGTAAAAGTGGGGGTATTGCATAGCAGGGTCAAGTCTGACATTCCCGAGTAAATTGGTCAACTATT +TACTTGACTGATTTAGTCGGGTATTTAACCTTCAGTGCCATTTTTTTATCGTGGCGTTTGTACCTGTTGT +CGGATGCGGCGTGAACGCCATATCCGCCCTGGGGTTCTGTACACTGTAGGCCTGATAAGACGCATTACGC +GTCGCATCAGGCAACGGCTGTCGGATGCGGCGTGAACGCCTTATCCGACCTACGGTTCTGTTCACTGTAG +GCCTGATAAGACGCATTACGCGTCGCATCAGGCAACGGCTGTCGGATGCGGCGTGAACGCCTTATCCGAC +CTACGGTTCTGTTCACTGTAGGCCTGATAAGACGCATTACGCGTCGCATCAGGCAACGGCTGTTATTCGG +CCTTGTTACCTTTATTCTGCTGCTCAATAGAAGCCAGAATCCCGCGCAGGATATTCAACTCCTGGCTTTC +CGGGCGCGCACGGGTAAACAGACGGCGCAATTTATTCATCACCTGCCCCGGATGGTTTTCACGGATAAAA +CCGGTTGCCAGCAGCGTTTGTTCCAGATGACCATAAAAACGCTCCAGATCATCGACCAGCGGATACGGCG +TCTCTTCATGCTCGACCTGCTCGCCGTTTTCCTGAGTTGCCAGCCAGGCCATGCGCACTTCATAGGCAAT +AACCTGAACCGCCATCGCCAGGTTCAGCGAGCTGTATTCCGGGTTAGCCGCAATCGCGACATGATAATGG +CATTTCTGCAACTCTTCATTGGTCAAGCCGACGCGCTCGCGACCAAACACCAGCGCCACCGGGGTATTTG +CCGCTTCAGCGACGCTTTTCAGGCCGCATTCGCGCGGGTCGAGCATCGGCCATGGCAGCGTGCGGGAACG +TGCGCTGGTGCCCACCACCAGGCTACAACCGGCTAACGCTTCGTCGAGCGTATCGACGATGTGAGCATTA +CCAATCACATCGCTGGCCCCTGCTGCCAGGGCAATCGCCTGGGAGTCGGGTTTCACCAGTGGATTAACCA +GCCACAGATTGGTTAATCCCATTGTTTTCATGGCACGGGCAACAGAACCCATATTGCCGGTGTGTGACGT +CTCCACCAGCACAATTCGAATATTTTGCAGCATTGTCTTTCTTCATCTAAAGATTATTCACGCATCTTAT +CATAAAACGAAGACAGATGCCGATCTCGCTGCTATACTCTGCGCCGTTTTCCCGTTCTTTAACATCCAGT +GAGAGAGACCGATGCATCCGATGCTGAACATCGCCGTGCGCGCAGCGCGCAAGGCGGGTAATTTAATTGC +CAAAAACTATGAAACCCCGGACGCTGTAGAAGCGAGCCAGAAAGGCAGTAACGATTTCGTGACCAACGTA +GATAAAGCTGCCGAAGCGGTGATTATCGACACGATTCGTAAATCTTACCCACAGCACACCATCATCACCG +AAGAAAGCGGTGAACTTGAAGGTACTGATCAGGATGTTCAATGGGTTATCGATCCACTGGATGGCACTAC +CAACTTTATCAAACGTCTGCCGCACTTCGCGGTATCTATCGCTGTTCGTATCAAAGGCCGCACCGAAGTT +GCTGTGGTATACGATCCTATGCGTAACGAACTGTTCACCGCCACTCGCGGTCAGGGCGCACAGCTGAACG +GCTACCGACTGCGCGGCAGCACCGCTCGCGATCTCGACGGTACTATTCTGGCGACCGGCTTCCCGTTCAA +AGCAAAACAGTACGCCACTACCTACATCAACATCGTCGGCAAACTGTTCAACGAATGTGCAGACTTCCGT +CGTACCGGTTCTGCGGCGCTGGATCTGGCTTACGTCGCTGCGGGTCGTGTTGACGGTTTCTTTGAAATCG +GTCTGCGCCCGTGGGACTTCGCCGCAGGCGAGCTGCTGGTTCGTGAAGCGGGCGGCATCGTCAGCGACTT +CACCGGTGGTCATAACTACATGCTGACCGGTAACATCGTTGCTGGTAACCCGCGCGTTGTTAAAGCCATG +CTGGCGAACATGCGTGACGAGTTAAGCGACGCTCTGAAGCGTTAATGACTCAGGCGGGTGATATCACTCA +CCCGCCCTCGCCTTTCAGGCGCTATTCCGAAATACTTCCTCACTGCTTTACTTTCTTTCGTCACTCTCCC +ACCATCTTTCCCCGATTAATGGATGATAAAGAAGTCGCAAGGAAAGGTTATGGCACTGCCAGTGAACAAA +CGCGTTCCCAAAATTCTGTTTATTCTCTTTGTTGTTGCCTTCTGCGTTTATTTAGTGCCGCGCGTTGCCA +TCAACTTCTTCTATTATCCCGACGATAAAATTTACGGTCCCGATCCCTGGTCGGCGGAATCCGTCGAATT +TACGGCTAAGGACGGTACTCGTCTGCAAGGCTGGTTTATCCCTTCTTCGACGGGCCCTGCTGACAACGCC +ATCGCAACCATCATTCATGCTCACGGCAATGCCGGAAATATGTCCGCCCACTGGCCGCTGGTCAGTTGGT +TACCCGAGCGTAATTTCAACGTTTTTATGTTTGATTATCGCGGGTTTGGTAAATCAAAAGGCACGCCGTC +CCAGGCCGGATTGCTGGACGATACGCAAAGTGCCATCAATGTGGTGCGCCATCGCAGTGATGTAAACCCA +CAACGTCTGGTGCTGTTCGGGCAGAGTATTGGCGGGGCGAATATTCTGGATGTTATTGGTCGGGGTGATC +GTGAAGGCATACGTGCGGTGATCCTCGACTCCACATTTGCCTCTTATGCAACCATCGCCAACCAAATGAT +CCCCGGCAGTGGCTACTTACTTGATGAGAGTTACAGCGGCGAAAATTATATCGCCAGCGTCAGCCCGATC +CCGCTTTTACTCATTCACGGTAAAGCTGATCACGTTATCCCATGGCAGCACAGCGAAAAGTTGTATAGCC +TGGCAAAAGAGCCAAAACGGTTGATCCTAATCCCGGATGGCGAACACATTGATGCTTTTTCCGATCGTCA +CGGCGATGTTTATCGCGAACAGATGGTGGACTTTATCCTTAGCGCGTTGAATCCGCAGAACTAACCCATG +ATCGCTAGCACGATAATCATTCACAAAACCACCTTAAGACATGCTAATCCACTGGTCAGAACAGTTTAAG +ATGAGAAAAATTCTGTGACGCTTGCCAACATTTCTGATGATTAGCATTCCCTTCGCCATTTCCTTGAGCA +AACTTTAGCTATTCTTATCAATTATGCTTATGGGAGATCTACAGATGATGCCTACGCTTGCTCCACCATC +TGTCCTTTCGGCTCCCCAGCGCCGCTGCCAGATCTTGCTGACGCTCTTTCAGCCGGGGTTGACCGCCACC +ATGGCAACCTTCAGCGAGCTTAATGGTGTGGATGATGATATTGCCAGTCTTGATATCAGCGAAACAGGAC +GGGAGATCCTGCGCTATCATCAACTCACACTGACGACTGGTTATGACGGTAGCTACCGGGTTGAAGGTAC +AGTGCTTAACCAACGTTTGTGTTTATTTCACTGGCTACGACGTGGTTTCCGTCTGTGTCCGTCATTTATT +ACCAGCCAATTCACCCCCGCCCTGAAGAGTGAACTGAAGCGGCGCGGAATTGCGCGTAACTTTTACGACG +ATACCAATCTACAAGCGTTAGTGAATCTCTGCTCCCGACGGCTGCAAAAACGCTTTGAATCGCGCGATAT +TCATTTCCTGTGTCTGTATCTGCAATATTGTTTGCTGCAGCACCACGCTGGAATTACGCCTCAGTTTAAT +CCGCTCCAACGTCGCTGGGCGGAATCCTGCCTTGAATTTCAGGTAGCGCAGGAAATTGGACGCCACTGGC +AGCGTCGGGCGCTCCAGCCTGTACCACCTGATGAGCCACTGTTTATGGCACTACTTTTTTCCATGTTGCG +GGTTCCCGATCCATTGCGGGATGCGCATCAGCGGGACAGACAATTGCGTCAGTCTATCAAACGTCTGGTA +AACCATTTTCGTGAGCTGGGAAATGTTCGTTTTTATGATGAACAGGGGTTATGTGATCAGCTTTATACCC +ACCTCGCCCAGGCGTTAAATCGCAGTTTGTTTGCCATCGGTATTGATAATACCCTGCCGGAAGAGTTCGC +CAGACTGTACCCACGCCTGGTGCGCACCACCCGCGCGGCGCTGGCCGGATTTGAAAGTGAATACGGCGTC +CATCTTTCTGATGAGGAAAGTGGTCTGGTCGCGGTGATTTTCGGTGCCTGGCTAATGCAGGAAAACGATC +TGCATGAAAAACAGATTATTCTTCTTACCGGGAATGATAGCGAGCGAGAAGCGCAGATTGAGCAGCAGTT +ACGCGAACTAACGTTACTGCCGCTCAACATTAAGCATATGTCGGTAAAGGCATTTTTGCAGACAGGCGCT +CCGCGTGGCGCGGCACTGATTATTGCGCCTTATACCATGCCATTACCGCTCTTTTCACCACCGCTGATCT +ATACGGACCTGACGCTGACAACACATCAACAGGAGCAGATCCGCAAAATGCTCGAATCAGCATGAGGGAA +CAACTTTCGGGCGCAAAAACATTGCCGGAAGCGCCACCAGCGCCATTACCCAGAACACGCCGTGGCCCAG +ATATTGATACAGGAAACCGGCGAAAACGGTCATGATAGCGATACTGCCGCCCATCGCGACGGCAGAGTAA +ACCGCCTGTAAACGGATGACTTCGCTACCCTGGCGAGCAGCAATATAACGCATGGCGGCCAGGTGGCAGA +CCGTGAAGGTGCCGCAATGCAGAATTTGCACCACTATCAACCACGGCAACGCCGTAGTTGCTCCCATAAT +GCCCCAGCGCACTACGCCGCAAATCGCCGAGATCAACAGCATATCGCGTGCACTACAACGGCGGAAAAGT +TTATTACTCAGCGCAAAGATAATGACTTCCGCCACCACGCCCAGCGACCACAAATACCCCACCGCCGAGG +CCGAGTAGCCAGCTGCCTGCCAGTAAATGGCGCTAAAACCGTAATAGGCCGCATGTGCCCCCTGCAATAA +ACAAACGCAGGCCAGAAAGCGCCAGTTCTGGCGAACCAGCGCCAACCACGCAGACCAACCGGTGCTCTCC +TGCTGGCGACTTGCCCCTTGTGGCTGAATCGTCGGACGGATGAGAAAGCCGAGCAGCATGGATGCCACGC +CCAACGTCAACAGCGCGAGGATCACCCGATAATCAAACATAGTGACCAGTTTGCCCGTCAGCGCCGAGCC +AATGACAAACGCCACCGAGCCCCACAGTCGCACTTTGCCGTAATCAAGCGGGAACTGCTTTTGCCACGTA +TTCGCCAGTGCATCGGTCAACGGTACCAGTGGTGAGAAAAAGAGGTTAAAGCCAATCATCACCAGCATCA +GCCACGCTACGTGCGCCCCCGCCCAGAAGGCGACAGCAAAGAGAAGTGTCAGCAGTGCCAGCACGCGCAA +GGCGGAAATCAGGCGGGAAGGATCGCTGACGCGGGGCGCGATGAGCAAACTCCCGAGGAAACGGGCAACC +AGACCTGCCCCCAATAACAGGCCGATGGTTTCTGGCGTTAAACCAATCCCTTTAAGCCAGACGCTCCAGA +AAGGTAGAAAAATGCCGTAACTAAAAAAGTATGTGAAATAGCCGAGCGCCAACCAGCGCGTGGATTGCAA +AACCATGAGTCCCTCCCGTCAGGAGGCGTTAGTCTGGGGTTAATCGAATGTTGGTGCAAGTTGAAAAATA +AGAATATTCGAGCCTGCTTCCCGATGTCTGTAACGCCAGTTCACAAGCACTAAAAAACTGAGATCCGCGA +CGCATGTTGCAAAAATAATGCGTAATTATGCCGTTACGCTTGCCAAACGTTCCTGCACAATGGCGATGAA +ATCGCGTAATGCCGGCTTCATCTCCCCTTTCTTCCACGCCATCAGTAAAGCAATGGAAGGCACATTTCCG +GCAATGGGACGAAAAACAACCTGTCCGGTATTAAAATTATTCATATAACCGGGTATCAAAGTGACGCCCA +GCCCCATGCCCACCAGATTCATGGTCACCAGAATATTCGTTGCCACCTGGACGATATTTGGCTGGCTGTT +TTCTTGCGCAAACCACGCTTTAACGATCGGCGCAAGCGAACCGGAATACACCGGATCGGTACTGACGAAA +TTCACGCCATCCAGTTGCGCGGCGGTGATCTCTTTTTCATGTGCTAAAGGGTGATCAACCGGTAACACAA +CCACTAATGGTTCGTCAAAAAGCTCCAGATAATCAATCTCCGGGCTATAAACAGGATGGCGCATTAAGCC +GACGTCGAGTTCACCACGGCGAATTTTTTCCTCCTGTTGCGTGGTGATTAAACTCACCAGCTCAATCAAG +GTGTCTGGCTGTCTGAGACGAAACATCGGTAATACTTTTGGCAGTAAATTCACTTCCGCCGATGGCACAA +AGCCAATGGTTAATTGTCTGTCTTCCTGAACAATTTTCCGCGCCCGTAATTTGGCATTTTCCGCTTGTTC +GAGGATTGCCAGCGCGTCCTGGAGAAAACATTCTCCCGCCGCCGTCAACGCGACTTTGCGCTTATCCCTC +ACCAGTAACGGAACACCGACACAGTTTTCAAGATCGCGGATCTGGCTGCTTAACGAAGGCTGTGAGGTAT +GCAGTTTTTCCGCCGCACGGGTAAAGTTCAGTGCCTGCGCCACTGCGACGAAATAGCGTAAATGCCGTAG +TTCCATCACCTTCCCCTTGTTATCGAAAAAACGTCTCAGCTGGTAGAAATTAACTATTTCACATATTAGC +AACCAACCAGCAACATCCTTATGGCACAAAAATAGAAGGTCAATACATCTTATCTTTCAGGATTAAAAAA +TATGACCACACCCTCAGATTTGAACATTTACCAACTGATTGACACCCAAAATGGTCGGGTCACTCCGCGT +ATTTATACCGACCCGGATATTTACCAACTGGAGCTTGAGCGTATTTTCGGTCGTTGCTGGCTATTTCTCG +CCCACGAAAGCCAGATCCCAAAACCCGGTGATTTCTTTAACACCTACATGGGAGAAGATGCGGTTGTCGT +AGTGCGTCAGAAAGACGGCAGCATCAAGGCGTTTCTCAACCAATGCCGCCACCGGGCCATGCGTGTGAGT +TATGCAGATTGCGGCAACACTCGCGCCTTTACCTGCCCGTATCACGGCTGGTCTTATGGCATTAACGGCG +AGTTGATCGATGTACCGCTGGAACCTCGCGCCTACCCACAAGGGTTGTGTAAATCCCACTGGGGACTAAA +CGAAGTTCCTTGTGTGGAGAGTTATAAAGGGCTAATTTTTGGCAACTGGGATACCAGCGCACCGGGCCTG +CGTGATTACCTGGGTGACATTGCCTGGTATCTGGATGGCATGCTGGATCGTCGCGAAGGCGGCACCGAAA +TTGTCGGCGGCGTACAAAAGTGGGTGATCAACTGTAACTGGAAATTCCCGGCAGAGCAGTTCGCCAGTGA +CCAGTATCATGCTCTGTTCAGCCATGCTTCTGCCGTTCAGGTATTAGGGGCGAAAGATGATGGCAGCGAT +AAGCGCCTCGGTGATGGACAAACCGCCCGCCCGGTGTGGGAAACCGCCAAAGATGCGCTGCAATTTGGTC +AGGACGGTCACGGTAGCGGTTTCTTCTTTACTGAAAAACCGGATGCTAATGTCTGGGTCGATGGCGCAGT +TTCAAGCTATTACCGCGAAACCTATGCCGAAGCAGAACAACGTTTAGGTGAAGTTCGCGCCCTGCGCCTG +GCGGGTCATAACAATATTTTCCCCACGCTTTCATGGCTAAACGGCACTGCCACACTCCGCGTCTGGCATC +CGCGCGGCCCTGATCAAGTTGAAGTGTGGGCGTTCTGTATTACTGACAAAGCCGCCTCCGATGAAGTTAA +AGCCGCTTTTGAAAACAGCGCCACTCGTGCTTTTGGTCCTGCTGGTTTTCTCGAGCAGGATGACTCGGAG +AACTGGTGTGAAATCCAGAAATTGCTTAAAGGCCACCGCGCCCGCAACAGCAAACTGTGTCTGGAAATGG +GGCTTGGTCAGGAAAAGCGCCGCGACGACGGCATTCCTGGCATTACTAACTATATCTTTTCAGAAACTGC +CGCTCGTGGAATGTACCAACGCTGGGCCGATCTTCTGAGTAGCGAAAGCTGGCAGGAAGTGCTCGATAAA +ACCGCCGCTTACCAGCAGGAGGTGATGAAATGAGTGCGCAAGTTTCACTAGAGTTACATCACCGCATTAG +CCAGTTTCTCTTTCACGAAGCCAGCTTACTGGACGACTGGAAATTTCGTGACTGGCTGGCGCAGCTCGAC +GAAGAGATTCGTTACACCATGCGCACCACAGTTAACGCGCAAACACGCGACCGCCGCAAAGGCGTCCAGC +CACCGACAACCTGGATTTTTAATGACACCAAAGACCAGCTGGAGCGGCGAATCGCCCGTCTGGAAACGGG +CATGGCCTGGGCAGAAGAGCCGCCGTCACGCACCCGTCACTTAATCAGCAACTGCCAGATAAGCGAAACC +GACATCCCAAACGTATTTGCTGTGCGGGTAAATTATCTGCTTTATCGGGCACAAAAAGAGCGCGATGAAA +CATTCTATGTTGGAACGCGTTTCGACAAAGTTCGCCGTCTGGAAGATGACAACTGGCGCTTGCTGGAACG +GGATATCGTCCTGGATCAAGCGGTAATCACTTCCCATAACCTGAGTGTACTGTTCTGATGAATCGAATTT +ATGCGTGTCCCGTTGCGGATGTGCCGGAGGGTGAGGCTCTCCGGATCGATACCTCGCCCGTCATCGCCCT +GTTCAACGTTGGCGGCGAGTTTTATGCCATTAACGATCGTTGCAGCCATGGTAATGCGTCAATGTCAGAA +GGGTATCTGGAAGATGACGCCACGGTGGAGTGCCCGCTACACGCCGCCAGTTTTTGCCTGAAAACGGGGA +AAGCGTTATGCCTGCCCGCCACCGATCCGCTCACCACTTATCCAGTACACGTTGAAGGTGGTGACATTTT +CATCGACTTACCGGAGGCGCAGCCATGAGCGATCTGCATAACGAGTCCATTTTTATTACCGGCGGCGGAT +CGGGATTAGGGCTGGCGCTGGTCGAGCGATTTATCGAAGAAGGCGCGCAGGTTGCCACGCTGGAACTGTC +GGCGGCAAAAGTCGCCAGTCTGCGTCAGCGATTTGGCGAACATATTCTGGCGGTGGAAGGTAACGTGACC +TGTTATGCCGATTATCAACGCGCGGTCGATCAGATCCTGACTCGTTCCGGCAAGCTGGATTGTTTTATCG +GCAATGCAGGCATCTGGGATCACAATGCCTCACTGGTTAATACTCCCGCAGAGACGCTCGAAACCGGCTT +CCACGAGCTGTTTAACGTCAATGTTCTCGGTTACCTGCTGGGCGCAAAAGCCTGCGCTCCGGCGTTAATC +GCCAGTGAAGGCAGCATGATTTTCACACTGTCAAATGCCGCCTGGTATCCTGGCGGCGGTGGCCCGCTGT +ACACCGCCAGTAAACATGCCGCAACCGGACTTATTCGCCAACTGGCTTATGAACTGGCACCGAAAGTGCG +GGTGAATGGCGTCGGCCCGTGTGGTATGGCCAGCGACCTGCGCGGCCCACAGGCGCTCGGGCAAAGTGAA +ACCTCGATAATGCAGTCTCTGACGCCGGAGAAAATTGCCGCCATTTTACCGCTGCAATTTTTCCCGCAAC +CGGCGGATTTTACGGGGCCGTATGTGATGTTGACATCGCGGCGCAATAATCGCGCATTAAGCGGTGTGAT +GATCAACGCTGATGCGGGTTTAGCGATTCGCGGCATTCGCCACGTAGCGGCTGGGCTGGATCTTTAAGGA +AGCACGATGAAAGAAAAAACGATCATTATTGTCGGTGGCGGGCAAGCGGCGGCAATGGCTGCGGCCTCGC +TACGCCAGCAAGGGTTCACCGGTGAGCTGCATCTGTTTTCCGATGAGCGACATCTTCCTTATGAACGACC +TCCACTCTCGAAATCCATGTTGCTGGAAGATTCCCCGCAGTTACAGCAGGTGTTACCCGCTAACTGGTGG +CAGGAAAACAATGTTCATCTGCATTCCGGTGTAACCATCAAAACGCTGGGTCGCGACACACGAGAGTTAG +TGTTAACCAACGGCGAAAGCTGGCACTGGGATCAGCTTTTTATAGCAACCGGCGCGGCAGCTCGACCGCT +GCCGTTGCTTGATGCACTGGGAGAACGCTGCTTTACCCTACGCCATGCCGGTGATGCCGCCAGACTGCGA +GAAGTTCTGCAGCCCGAACGGTCAGTCGTGATTATCGGTGCCGGAACTATTGGTCTGGAACTGGCTGCCA +GCGCCACGCAGCGCAGATGTAAGGTGACAGTGATTGAACTGGCGGCAACCGTCATGGGCCGTAATGCACC +ACCGCCCGTGCAACGCTATCTTTTACAGCGCCACCAGCAGGCTGGTGTGCGCATTCTGCTCAATAATGCC +ATTGAACATGTGGTCGATGGTGAAAAAGTAGAACTGACGCTGCAAAGTGGGGAAACGCTTCAGGCTGATG +TGGTGATTTACGGTATTGGTATCAGCGCCAACGAGCAACTGGCTCGCGAGGCCAACCTTGATACTGCCAA +TGGCATTGTCATTGATGAGGCTTGCCGCACCTGCGATCCCGCGATCTTTGCCGGTGGCGATGTGGCAATC +ACTCGTCTTGATAATGGTGCACTACACCGCTGCGAAAGCTGGGAAAACGCCAATAACCAGGCGCAAATTG +CCGCTGCCGCAATGTTAGGGCTACCGCTACCGCTACTGCCGCCGCCGTGGTTCTGGAGCGATCAGTACAG +TGATAACTTACAGTTTATTGGCGATATGCGTGGCGATGACTGGCTTTGTCGTGGCAACCCGGAAACTCAG +AAGGCGATTTGGTTTAATCTGCAAAACGGCGTGCTTATCGGTGCGGTCACGCTGAATCAGGGGCGTGAGA +TTCGCCCAATTCGCAAATGGATCCAGAGCGGCAAAACGTTTGATGCGAAACTGCTGATAGATGAGAACAT +CGCGCTTAAATCACTGTAACCAGGATAATTAGCGAATATCTCAATGCCTGGGGCGTGGCGAGGTGCAAGA +GTGTGTATTACGTTTAAATCACATTATCTTGCAAAGGGATTGGTTATGAACACACTACGTTATTTTGATT +TTGGAGCTGCCCGCCCCGTTTTGTTATTAATTGCCCGTATCGCCGTGGTCTTAATTTTCATTATTTTTGG +TTTTCCCAAAATGATGGGCTTTGACGGTACGGTCCAATATATGGCCTCGTTGGGCGCGCCAATGCCGATG +CTGGCAGCGATTATTGCGGTAGTTATGGAAGTGCCCGCCGCGATATTAATCGTGCTTGGCTTTTTCACCC +GTCCGCTGGCGGTGCTGTTTATTTTCTACACGCTGGGTACGGCGGTGATTGGTCACCATTACTGGGATAT +GACCGGCGATGCGGTTGGGCCAAATATGATTAATTTCTGGAAGAATGTCAGTATCGCTGGCGCGTTCTTG +CTATTGGCAATTACCGGGCCGGGGGCAATTTCTCTCGATCGGCGTTAGGAAAGATGCCGGATGCGGCGTG +AACGCCTTATCCGGCATTTAATAAATTACAGCCACTCTACCCGCAACGACATCTCTGAAGTTGTTGATTC +CCCTGGTGCTAGCGCAATGAGATCACCCCCTTCCGGGCGATGATGATCATCCGGCGCATGGCTCATCGGT +TCCAGACAGAAGAAATCAAACGCATATCCTTTATCAAACGCAGGGTCGGAAACAAAGATGAAATAACACG +GTGCAGGTGGCGTCGTTTCCATGATGATGGCATAACCTTCCTGCGGCTGCTCGATGCGGGCCTGACCATT +CCATCCGGCAAAACCATTGTTCACCCACTGGCGCGGCAACGGCGCGGGCTGGTTAAAATCCAGTTCCTGC +GGTAGCTGCTCGCAAAACTCACCCGCCAGCCACTGCTCCCGCTCCAGCCAGTAACCGCTCGCCTGTGCCT +GAATCCGCGTTTGCGGCGACAACGGAAAATAAGGATGCCAGCCGGTACCAAATGGCAGCGTCTCTGCCCC +TTGATTGGTGACAGAGAGCGTCACCGTCAGCGTATCCGCCGTTAAATGAAACGCCTGACTTACCCGATAG +TGATAGACACCGCTGCGATGTTCATACACCAGACACAAACTATCATCGCTGTGCGAGACACATTGCCACT +CGCCCAGCCAGCCATCGCCGTGTAGATAGTGCGCATCCCACTCAACATTCGGTTGCAGTTGATACTCACG +CCCCTGCCAGACAAAACGATTGCCGCTCACCCGGTTTGCAAATGGCACCAGCGGAAAACATGAGGCATCG +GTTGCCACACCGCTTTTTTTACCAGGACGTAAGAGCGGCGTCGTATCGCGCCAGAAGCCTTCGATTACGC +CGCCCTGGTCAGAAACGTCCAGCTTTAGCGACCCGTGGGATAAGGTATAGATGGTCATCCGCTAACTCCT +TAATCCGGGAAGTTAATCACAACTTTCCCGCATTTGCCGCTCGCCATCAGCGCATAGGCATCACCTGCCT +GTTCCAGCGAGAAGCGATGGGTAATGGCGTTACGCGGCCACAGCTTCCAGTCCGTCAGATCATGGGCGCA +TTTTTCCATATGGAACAGACTGGTCACCCAGGAGCCGATAATCCGCCGTTGATGGTGCATCAGATCGGCG +CTGACCTCGAATTCCACTTTTCCGGTTTCACCAATGTAAACCACCCGTCCCCAGTCAGCGGTGGATTGCA +GTGCCAGCAAGCGACCTGCGGCATTACCGGAACAATCGAGCGCAACATCCGCGCCACCGTGGGTGAGTTC +GGCGATAATCTGCGGCAGACCTTCGGTGGTTGCTAAATAGCCGTGATCCATCACCCCTAACTGTTTTGCC +ATCGCCAGACGTTCCGGCAGCATATCAACGCCGATGATCCGTTTTGCACCGCGACCTTTCGCCAGCATCA +TCGCCATCATGCCGACTGGCCCCAGACCGACCACCAGCACGTTATCACTGCCGGAAACTTCGCCGCGCAA +AATTCCTTCATACGCTGTACCAACGCCGCAACTGATAAACGCACCATCTTCGTAGCTCAGCGCATCCGGC +AGGAGGATCAGATCTTTTTCTTCCGCCAGCAAGTATTCGGCATGACCGCCGTCACGCTGCCAGCCGTAAG +CCGCTTTTCCTTCGCCAGTACAAGAAATAGGAAAACCGCGACGGCAGTTCGGGCAAAAACCACAGCCAGA +AATGTGATACACCAGCACGCGGTCGCCCTCTTTAAAATGGCGGCAGCCTTGCCCCATCGCCACAATCTGC +CCGCACGGTTCATGACCGTTGATAAAGCCCTGGTATAACGGTTTATCGGGTGCCGCCGCTGTGGCACGGT +GTTGATGATAGATATAGTGGACATCGCTTCCGCAAATCCCGGAGGATTTCATTTTGATCAGTACCTGGTT +AATCCCCGGCGTCGGCACCGCAACTTCCCGCAGATCGACGGTCGAATTTCCTGGTAAATAAGCTGCCAGC +ATCGTTTTCATAAATCCCTCATTAACAATACGATTAATTTTCATCCCTGCCGCACCCGCGCCAGGGGCGT +TAAGGTTTAGCGTTTCGCTTTACTGCTTCGCTGGGTCAGCAAGATATTCGCCAGCACCGCCACCACGATG +ATGACGCCGCGTACCACCTGCTGGAAAAAGGAGTTAATACCGAGCAGCACCAGACCGTTACCGATTAGCG +TAATCACCAGCACACCAAGCAATGTACCGAACAGGGAACCGCGACCGCCGGAAAGTGCCGTACCGCCGAC +CACGACCGCGGCGATGACGTCAAACTCCAGACCGTTTGCGGCACCTGCGTTACCAGAACCGAGGCGCGCC +GCCAACAAAATGCCGGTCACCGCCGCTAATAATCCCGAAAGGGTAAAGATAAGAATGCGCACCCGACGAA +CGTTGATGCCGCACAACTGCGCCGCCGTAGCATTACCGCCAACGGCAAAAACCGAGCGCCCGAAGGCGGT +TTTGCGGCTGATGAACACAAACAGCGCAAACAACACAATCATGATCAGCGCGGATACCGGCACACCGAGA +AATTGTCCGCCCAGCCAGTCCAGCACCTCGTTTTCATCAATCGGCACTGGCAGTGCGTTCGTCATAAACA +GCCCCATTCCGCGCAGGGCGCTCCACAGCCCCAGTGTGGCAACGAAACTTGGTACATTAAACACGCCGCG +CAGCACCCCGGCCAGCGTTCCCATCAGCGCGCCTAACAGCAACACCAGCAGGCACGCCACCGCCAGCGGA +ACTTCAAATTGCAGCAAAAATGCCAGGCACACCGAGACAAAAGCCACCATCGGCCCAACGCTGACATCAA +TTTCACCGGAGATAATAATCAGCGTCATCGCCCAGGCGGCAATCCCAATGGTGGCGGCATCGCGCAGCAC +GTTCATCTGGTTATTCAATGAGATAAAGCCAGGCGCGTTCAGGGAGAAGACCAGATAAAGAATGGCAATC +ACCACCAGCAAACCGATCTCATTAATATGGCGACTGACAAATTGTTTGAGCGAGACGCTCTTGCCCTGCG +GCAATGGTAATGACGAAGCAGACATCTTCAGGTTCCTCGGTAAAATTCATCAGTGCACAGACAGAATGGC +GGACATCAGCTCATCCACATTGACCGGAGCGTGAAACTCCTGCGAGAACGTGCCGTGCTGTAATAACAGG +ATGCGGTCACACACCAGCGGCAACTCCTCCACTTCACTGGAGATAAACACCACGCTTTTTCCTTCGGCAG +CCAGCTCACGGACAATACGGTAAATCTGCTGTTTGGCTTCGATATCGACGCCGCGCGTTGGCTCGTCGAG +CAACAAAATCTGGCTGGCAGCATAGACCCAACGACCGATCACCACTTTTTGCTGATTGCCACCAGAAAGC +GTGCCGATGGGTGTTTCGCTACTGGCGGCCTTGACCGTCATCCGCTGCATCACCTCTTCGGTCAGGCGGC +GGATGGTGGACCATTGCAGCACACCGTTGGCGCTGATTTTTTGCCGATTGGTCAGCACTGTATTTTCGTC +AACGCCCAACCAGGGAATGATCCCCGCTTCTTTGCGGTTTTCTGGCGTATAGCCAATGCCGCGTTTCAGC +ATGTCGCCGTAATCGGGGCGCGTGATTTTCTCGCCGTTGATAACAATTTCGCCCTGTTCATACTCCTCCA +GCCCAACAATCGCCTTCAGCAATTCACTGCGCCCTGCCCCCAGCAGACCAGCAATGCCGAGCACTTCGCC +ACGACGTAGCGTAAAACTGATATCCTCCAGCTTGGGCTTATGGCGTAACGCACGGACTTCCAGCACGGCC +TGATCCACAATTTCCTGAGGGGCTACCGGCGCAATATCAACGTGATCGCGCCCGAGCATCAGCGACACAA +TATGATGCGTGGAGGTGTTTTCGAGCATCACATCGCCCGCCACCTGACCATCGCGCATAACGGTGGCACA +GGAGGCAATGCGGCGAATTTCTTCCATCCGGTGGCTGACATAAATCACCGCCACGCCCAGTGCCGACATC +TTTTTCACCGCGCTGATCACCAGTTCAACTTCCGCACTCGCAAGCGAACTGGTAGGTTCATCAAGAATGA +CCACGCGCGGCTCGCCCTTCATCACCCGCGCAATTTCCACCAGCTGCTTTTGCGCCGGGCTTAGCGTTGA +AACAAGTTGTTCAGGACTAACGTCAACGCCCAGCGCCTGTAAGCAACGTTGGGCATCCTGCGCCATTTGC +AGGTAATCAATCATGCCGTTGCGGCGGGGCCACTGACCGAGGCAGAGGTTTTCCGCCACTGTCAGCCCTT +CCACCAGACTTAACTCCTGATAAACCGCGCGCACCCCCAGTTCAGCGGCACGGCGAGTCAGCGTAGCTTC +GTCACCTTCCAGTCGCGTCTCGCCAATCCAGATATCACCGCTATCCGGGCGTTCGCTGCCGGTAAGCATT +CGAATGAGAGTCGATTTGCCCGCGCCGTTTTTACCTAACAGCGCACGAACTTCGCCTTTATTGAGCGTGA +AGTTAACGTTATCCAGCGCAACGACGCCGGGATAACGCTTATTTCCTGCCACCACTTTTGCTACCGGGAC +TGCCTCTGTTGCCGTGAACATAGGGACCTCTGCGAATCAGCGATTAGGGCAGACCATCAACGTGCGTTGC +CAGCCACTGTTTACCGTCTTCCGTTTTGGTATAGAGATCGATAGGCACCTGAATCACTTTTTCACCGTCG +GCTTGTTTATTGATAACCTTCAATGTTTGCGCGAAAACAGCATTGCCCATTTTCTTACCGGAAATATCCA +CTACCGCTTTCAGCACCTGATTGTTTTCCAGCTCCTGAGCAATTTCGGTTGTCATATCCGAACCGAAAAC +AGCAATTTTTCCGGCCTGATTTTGATTACGTACCGCTTTTACCGCGCCGAGTGTCGCACCGCCCGATTCC +CCCATAATGGCGTTGAGATCCGGCGTGGAGATAATTAGTTTTTCACCAACGGAAATCGCTTTATCTAAAA +CAGTCCCTTCCTGATTAGCGACAATTTGCGCGCCGGGAACGCGGGATTTTAAAACTTCTTCAAATCCTTT +ACGTCGCTGCACACAAACTTCAAAGGCTTCGCAATTGATGACGGCAATTTTCGGCTGGTCAATTTTATTG +GCAATAAAATAATCAGCGGCAGCGTTACCCAGTTTTTTACCAAATTCCAGCGGATCGCCGACCAGATACG +CCGAGACATATTTATCGACCCCCTTTTGATTAATACAGGTGTTGTAGCAAATCACCGGAATGCCCGCTTC +ACTGGCGCGACGAACGGTACGGCTACTGCCATTTTCAGACACTGCCGATAAAATAATGGCATCGACATTA +CGCGCCACGAGGGTATCAACAAAGGTACTTTCTTTCGAAATATCACCCTGGGCGTTAGTTTCTATTAACT +GAACTTGTACTGAGGAATCTTTTGCCGCATCCTGAACGCCCTGACGCACTCCAGCGTAGTATCCCTGAGT +ATCAAGGTATATTGCGCCAATGGTCATTTCTTTTTCCGCAGCCCTGGCAAATAGTGCGCTACCTAATAGC +GTAGCCATTAATAATAGATTACGGGTTGTTCTCATTTTTGTAGGCATAGAGCCTCCTGTAGGGTTTTTAT +TAACAACGGCTTATTCTAATTATTTTGTGATGAGCGGCAGCGCGTGCCGCTCAAATATTACAGTTAATAG +GGTTTAGTGAACGCGGTTAAAAATAAAAGGCATCACGGTGGTGAATAATGCCGCTTTCGGCCAAGCCGGA +TTAATCGCCGTCAATTCAGCGCGAGCAGACTCATATTGCGCAACCTCCCCGAGTCCCGCGGACGCCAGCA +TCGCCACCATCAGGCATTTTTCTTTATGCTGCTGTTGTAAATCGCCATACAGCGACAACAAGTCAGGTTG +CGAGACGGCAAAGAAATCCGCTTCGATACTGGTTTTCGCCATCTCTTGCGCCCACTGTTTCATTTCACTA +AACAGTTGCTGTGCGGTTTGTTGTTCGCCCAGCAGTCGCAGCGCCATCCCTTGCCAGAAGAGATAATCAA +CCGGCTGATCGTTGTAATAACTGTGAATGTTAATAGTGCGATCGCCGGTCGCCGCCAGACGTAAACAACG +CGTCGCTTCAGTTTCATCGCCCTGCGCGTTGGCGCATATCGCCTGCCAGAACCAGATGTCGTTATCAGTT +TGCCCCGGTAAACGGCCTTCGCTTAAATTCTCCGGATAATGCAGCGCGGCATGAAGCAGTTCGCAGGCCT +GCTGCGGCTGTCTGGCATCAAGATGCTGCCAGGCGCGTAATAACTGGTTGAGGATAAACTGACTGGTGAC +CTTCCCTTCCCCGCCTTCCCACGGGTGGAATTTGCGCGTGGCGAGAATGTCCGCCGCTTTGTCTGCCTGA +CCCGTGAGATGCCACAAATTGAGCAGTTCTGCGGTCATGTCGTCGCGTTTCAGCGCAATTTCCAGATTAT +TTTCCAGACGCGCCAGTCGTTTCTCCGGTGTGGCTCCACTTAACTTATCCAGCAAATCCCGTTCGAAAAG +CAGACGTGCATCCTGCGGCGCAAGCTGATAAGCATTATCAAGATAACGCGCGGCCAGCTCATAATCGTGT +TGCTTATTCCACGCATGGATCGCTAACCCGCGCCAGCCGTCGGCAAACTCCGGCGACATCTCTACGCAAC +GTTGCCAAAAGGCAATGGCTTTGTTGTAGCTACGTTTGTTGTAGTAGAAGCAAGCTAGTAAATGGCGAGC +AAACCAGCACTCTTCAATACTCTCCAGCGCCGCCACTTCTTCCAGCGTATTCGGGAAACGGACAAACTGC +GGGAAGACATCAATGGCTTTTGCGACCAGTTCGCCACGTTCGGCTTTCGGCAGCAAGCTGGCTTGCAGGT +AAAGCGGCAGCGTGCGCTGGCAGTCCAGTGCGTTCAGCATCTCTGCCGCCAGGGTGGGCATTCCCCAGTT +AATCAGTTGCCCGGCGGTCATCAGGGCGTTAACGTCGCGTCCCTGACACAGACCGCGCCACTGCGCGAGA +GCTGATTCGCTACGACCATCGAACCAGTTCAGCCACCACAGAGTGGCGTTCAGCGGATAATCGCGCAGCA +GTTTCTCGCGCTGCACACGCGCGTTGTCCTGACGACCACTTAACACCAGCAGCAGATTATGCAGGCAAAG +CACTTCCTGATTGGTTGGGCAGGCGCGAAGACTTTGTTGGCAAAAATCCAGACCAGCGTCGAAGTTACCA +TTACGCGCCGCCAGTCGTGCCAGGCCATAATAGCCACCGGCTTTGCTGTTGCCGCTCCAGACCGCACGCC +AGAAATCCTCTTCGGCTTGTTGATATTGTCCCTGACGTTCGTAAGCACTGGCGCGAATCAAACTCGCCTG +TCCGCACTGCGGATTTTTGTTCAGCGCATGTGCGCGTTTCAGAGCCTGAGTGGCATACGCCACCGCTTGC +GGGAAATCTGCGCGGTTATATTCCAGCATCGCCAGCGCCAGGTTACAGCGATAATCCAGCGGGTCCAGCG +CCACGCCGCGCAGGTAGTAATCGAACGGTGAACGGCTGGCGTGATGATATTGCTCCAGATGCTGACCGAT +AAACCAGGCTTCATCTGTACTGGTAATGTCTTGTGCTGCCAGTGGCGCTTTGGCGACGTCCGGTAACGGC +AACGCTTGCGGCTGATGTTCCTGATAACTCAGTACAATATTGCCGTCGGCATCGGAGAGCTCAATGGTCA +GCCTTTCAGGATTGATACCGTGCAACACGCCCTGGATGGCGGTCGCAGGCATCAGTGCCACGGCATCATC +AAGTAACGCGTTGCATTTACCGATTTCGCGGATCGCCAGGCGGTATCCGTTCAACGGAGAGATGGCATAC +AGCCCCCACTCAATCCCCCGCTTACTACGCTGGAGTTTTATCACCGCATCGCGGGAGGCATTTTGCACCA +TGCCCAAAGAATGATAAGGCAGGAAATACTGCTCAAAACGCTTCTCTTCGTAAGCATCAAGCCAGGTAAA +ATCGGGCTGGTTATCGGCAAAAATACCGGTCATCAGTTCGATATACGGGCCGTTATTGTCGGTCAGACTC +TTATCCCACGCCTGGCCAAATTCACTGTGTCCCCAACTCCACTGTTTTTTACCTGGCGCAATATGGTGGT +TGGCAACGTGCAGCAAACCGCCATCTTCATCGTGACACCACGCGCCGACAAAATCGTACTGCGATTTTTC +GGCCATATATGAGGTTGGAACAGGCACATTTTTATAGCGAGAAATGTCCACTCCAGCGGAGTAGTCCACT +TTGTAGTAAGTGCCGGTAGCGATGGGGAAAGCGGAGACGGCCCGTTTGCCGTGATCAAACACCGCCGTTA +CATCCGGCGGGAAGACGCTCTGATGCCCTTCCCCCCCTTTCACTGCCGGGTTGGCCCACCACAAGAAATG +ACGCGGCGTGGCGTTCCCGTTATAGACGCGGCTGGCGATTTCCAGCGCCGCCCGGTCAGGGCGCAGGGTG +AAACCTGTCATCACCTGTAAACCATGCATCGGCTCCGTTTCGCCTACCCACACCGTCTGTGCACCGTCTT +CATGGGCTTCGAGGGTGAAATCAACGGGCATAAAGGTGGTCGGGCGATGATGTTGCGGCCAGTTAAACTC +AATCCCACCGGAAATCCACGGCCCCAGCAGCCCCACCAGCGCAGGTTTAATGACTTCATTGTGATAAACA +AAATCGCGCTGTTTCACTTTATCCCACGCGCGATGCACCCGACCGCCCAGTTCCGGCAGGATCATCACTT +TGATGTAGTCGTTTTCCAGCCACACCGCCTGCCAGGATTTCAGGGTTTTCTGCTCGCTCAGCGTATCGGT +CACGCCGTAGGGATAAACCGCGCCGGACGATCCCTGATAAACGCGATTTTCCAGGAACATGGGATGTATA +TCCTGCGGCCCGGTTTCATAGGTCGGGATCTCAACGCGCTCTTGCCACACTTTTACTGGAGTCATGGTGC +CCTCAATATTAACAAGACATACTGAATTAAAAGATTTGTGGCAGTGTATTGAACAATCTGGCAATGTTTT +CGCGGAATAATCACGCAATTAACTAAACAAGGTTTAGTGAAGATGAGAGCCTGCATTAATAATCAACAGA +TTCGCCACCATAACAAATGCGTGATTCTGGAACTGCTGTACCGGCAAAAGCGCGCCAATAAATCAACGCT +GGCCCGGCTGGCGCAAATTTCGATTCCGGCAGTCAGTAATATTTTGCAGGAACTGGAAAGCGAAAAACGG +GTGGTGAATATTGACGATGAAAGCCAGACGCGCGGGCATAGTAGCGGTACATGGCTGATTGCGCCGGAAG +GTGACTGGACGCTGTGCCTGAACGTGACGCCCACCAGTATTGAGTGTCAGGTTGCTAATGCTTGTTTAAG +TCCGAAAGGTGAATTTGAGTATTTACAGATTGATGCACCGACGCCGCAGGCGCTGCTGTCCGAAATCGAA +AAATGCTGGCATCGCCACCGTAAATTGTGGCCGGACCATACCATCAACCTGGCGTTGGCAATCCACGGTC +AGGTTGATCCTGTGACCGGCGTGTCGCAAACCATGCCGCAAGCGCCGTGGACAACGCCGGTGGAGGTGAA +ATATCTGCTGGAAGAGAAGCTCGGCATTCGGGTGATGGTCGATAATGACTGCGTGATGCTGGCGCTGGCG +GAGAAATGGCAAAATAATTCGCAGGAACGGGATTTCTGCGTGATCAACGTTGATTACGGCATTGGCTCGT +CGTTCGTGATTAACGAGCAAATTTATCGCGGCAGTTTGTATGGTAGCGGACAGATTGGTCACACCATCGT +TAATCCGGATGGCGTCGTCTGCGACTGTGGACGTTATGGCTGCCTGGAAACTGTCGCCTCGTTAAGCGCA +TTAAAAAAACAGGCGCGGGTATGGCTAAAATCACAACCGGTTAGTACTCAACTTGATCCTGAAAAACTGA +CTACAGCGCAGTTAATCGCTGCCTGGCAAAGTGGAGAACCGTGGATCACCAGCTGGGTTGATCGCTCTGC +CAATGCCATTGGTTTGAGTCTGTATAACTTCCTCAACATCCTCAATATTAATCAGATTTGGTTGTACGGT +CGCAGTTGTGCCTTTGGTGAGAACTGGCTTAATACTATTATTCGCCAGACAGGATTTAACCCGTTCGACC +GCGACGAAGGACCGAGCGTGAAAGCGACGCAAATTGGCTTTGGGCAATTAAGCCGCGCACAACAGGTGCT +GGGAATTGGCTATTTGTATGTTGAGGCGCAGTTACGACAGATTTGATGGCGCGATAACGTAGAAAGGCTT +CCCGAAGGAAGCCTTGATGATCATAAACGAAAAATTGCCTGATGCGCTACGCTTATCAGGCCTACACGGA +GATTGCAATATATTGAATTTGCAAAGTTTTGTAGGCCGGATAAGGCGTTCACGCCGCATCCGGCATGAAC +AACGAGCACATTGACAGCAAATCACCGTTTCGCTTATGCGTAAACCGGGTAACGTGCGCAGATGTCGAGA +ACTTTACCTTTGATGCGCTCGATAACGGCTTCATCATTGATGCTGTCCAGCACGTCACACATCCAGCCAG +CCAGTTCTTTCGCTTCGGCTTCTTTAAAGCCGCGACGGGTAATCGCCGGAGTACCTACACGAATACCGGA +GGTCACAAACGGGCTCTTCGGATCGTTCGGTACGCTGTTTTTGTTGACGGTGATGTTAGCACGGCCCAGA +GCGGCGTCTGCTTCTTTACCGGTCAGGTTTTTATCAACCAGATCAACCAGGAACAGGTGGTTATCAGTGC +CGCCGGAAACCACTTTGTAGCCGCGCTCGAGGAACACTTCTACCATCGCTTTAGCGTTTTTAGCGACCTG +CTGCTGGTAAGTTTTGAACTCAGGCTCCATCGCTTCTTTCAGAGCAACCGCTTTACCGGCGATTACGTGC +ATCAACGGACCGCCCTGACCACCAGGGAAAACGGCAGAGTTCAGTTTTTTGTACAGCTCTTCGCTACCAC +CTTTCGCCAGGATCAGGCCGCCGCGCGGACCCGCCAGGGTTTTGTGAGTGGTGGTAGTAACAACGTGAGC +ATGAGGAACCGGGTTCGGGTAGACGCCAGCAGCAACCAGGCCCGCAACGTGCGCCATATCAACGAACAGG +TAAGCACCGATGCTGTCAGCGATTTCACGCATTTTCGCCCAGTCCACCACGCCGGAATATGCAGAGAAAC +CACCGATAATCATTTTCGGCTTGTGTTCTTTGGCTTGTTTTTCCAGATCGGCGTAGTCGATATGACCGGT +AGCATCGATACCGTAAGGAACGATGTTGTACAGTTTACCGGAGAAGTTAACCGGAGAACCGTGAGTCAGG +TGACCGCCATGCGCCAGGTTCATACCCAGAACGGTATCACCTGGTTCCAGCAGCGCGGTGTAGACCGCAA +AGTTAGCCTGGGAGCCGGAGTGCGGCTGGACGTTAGCGTAGTCAGCGCCGAACAGTTCTTTCGCACGATC +GATCGCCAGTTGTTCAACGATATCAACATACTCGCAACCGCCGTAGTAGCGTTTGCCCGGATAACCTTCA +GCATATTTGTTGGTCAGCTGAGAACCCTGCGCCTGCATTACGCGCGGGCTGGTGTAGTTTTCGGAGGCGA +TCAGTTCGATGTGCTCTTCCTGACGTACTTTTTCCTGCTCCATAGCCTGCCACAGTTCGGCATCATAATC +GGCAATGTTCATTTCACGCTTTAACATCCGCATCTCCTGACTCAGCTAACAATAAAATTTTTGGCCTTTA +TAGGCGGTCCTGTTGGACAACGGCGAACAGTATAACCGAATCATTGTGCGATAACAGGTCTTGACAAAGG +AATTTACGCAAACGATTACCTTCAGGCTACGCAAGGCTTTGGAGAATAAAGAGCTTGCAACCGGAAACGG +ATTTCTTTTCAGGTTTGTGATGCAAATTTTTCACTTCATCACATTCTTTCTGAAAAACACCAAAGAACCA +TTTACATTGCAGGGCTATTTTTTATAAGATGCATTTGAGATACATCAATTAAGATGCAAAAAAAGGAAGA +CCATATGCTTGACGCTCAAACCATCGCTACAGTAAAAGCCACCATCCCTTTACTGGTGGAAACGGGGCCA +AAGTTAACCGCCCATTTCTACGACCGTATGTTTACTCATAACCCAGAACTCAAAGAAATTTTTAACATGA +GTAACCAGCGTAATGGCGATCAACGTGAAGCCCTGTTTAACGCTATTGCCGCCTACGCCAGTAATATTGA +AAACCTGCCTGCGCTGCTGCCAGCGGTAGAAAAAATCGCGCAGAAGCACACCAGCTTCCAGATCAAACCG +GAACAGTACAACATCGTCGGTGAACACCTGTTGGCAACGCTGGACGAAATGTTCAGCCCGGGGCAGGAAG +TGCTGGACGCGTGGGGTAAAGCCTATGGTGTACTGGCTAATGTATTTATCAATCGCGAGGCGGAAATCTA +TAACGAAAACGCCAGCAAAGCCGGTGGTTGGGAAGGTACTCGCGATTTCCGCATTGTGGCTAAAACACCG +CGCAGCGCGCTTATCACCAGCTTCGAACTGGAGCCGGTCGACGGTGGCGCAGTGGCAGAATACCGTCCGG +GGCAATATCTCGGCGTCTGGCTGAAGCCGGAAGGTTTCCCACATCAGGAAATTCGTCAGTACTCTTTGAC +TCGCAAACCGGATGGCAAAGGCTATCGTATTGCGGTGAAACGCGAAGAGGGTGGGCAGGTATCCAACTGG +TTGCACAATCACGCCAATGTTGGCGATGTCGTGAAACTGGTCGCTCCGGCAGGTGATTTCTTTATGGCTG +TCGCAGATGACACACCAGTGACGTTAATCTCTGCCGGTGTTGGTCAAACGCCAATGCTGGCAATGCTCGA +CACGCTGGCAAAAGCAGGCCACACAGCACAAGTGAACTGGTTCCATGCGGCAGAAAATGGCGATGTTCAC +GCCTTTGCCGATGAAGTTAAGGAACTGGGGCAGTCACTGCCGCGCTTTACCGCGCACACCTGGTATCGTC +AGCCGAGCGAAGCCGATCGCGCTAAAGGTCAGTTTGATAGCGAAGGTCTGATGGATTTGAGCAAACTGGA +AGGTGCGTTCAGCGATCCGACAATGCAGTTCTATCTCTGCGGCCCGGTTGGCTTCATGCAGTTTACCGCG +AAACAGTTAGTGGATCTGGGCGTGAAGCAGGAAAACATTCATTACGAATGCTTTGGCCCGCATAAGGTGC +TGTAATTTGATGTTGCCGGATGGAAACATCCGGCAACCCTTGACGCGGTTTAAATTGCCGCGTCGTCCTC +TTCACCGGTACGGATGCGAATGACCCGTGCCACGTCAAAGACGAAGATTTTACCGTCACCGATTTTGCCG +GTTTGCGCCGTGCGAATAATGGTATCGACACAGGTATCGACAATGTCGTCCGGTACGACAATCTCAATTT +TCACTTTCGGCAGAAAATCCACCATATACTCCGCGCCGCGGTACAGCTCGGTATGGCCTTTCTGGCGACC +AAAGCCTTTCACTTCGGTCACCGTCATGCCGGTAATACCGACTTCGGCCAGTGCTTCGCGGACATCGTCC +AGCTTGAAGGGTTTTATAATCGCATCAATCTTTTTCATGCTATTCCTTGAAAAGGTCGCCTGTCTTTTGA +TCTGCTAAACGTAACACATAACGCCAATTCATTCCTTGAAATCGTTTGCATCCAGCTCGTGTCGGGAAAG +CAGTTTATAAAATTCTGTCCGGTTGCGCCCCGCCATTCTCGCCGCGTGGGTGACGTTGCCTTTGGTGATT +TGCAGCAGCTTACGCAAATAGTTGAGTTCAAACTGATTACGTGCCTCAACAAAGGTTGGCAGCGCCGTAT +TTTCACCCTCCAGCGCCTGCTCCACCAGCGCATCACTAATCACCGGAGATGAGGTCAGCGCCACGCACTG +TTCAATCACGTTGACCAACTGGCGCACATTACCCGGCCAGCTCGCGGTCATCAGGCGTTTCATCGCATCG +GTAGAGAACGCGCGGACAAACGGTTTATGTCGCTCTGCCGCCTGGCGCAACAGGTGATTTGCCAGTAGCG +GAATGTCTTCTGTGCGCTCCGCCAGTGCCGGAATTTTCAGGCTGACAACGTTGAGGCGGTAATAGAGATC +TTCGCGGAATTCCCCGCGCGCCATCGCTTTTGGCAGATCACGGTGAGTGGCAGAAATAATCCGCACATTG +ATATCAATATCGCGGTTACTGCCCAGCGGGCGCACTTTACGCTCCTGCAACACGCGCAGCAGTTTGACCT +GTAACGGCGCAGGCATATCGCCAATTTCATCGAGAAATAGCGTTCCGCCTTCCGCCGCCTGGAATAAACC +TTCGCGATTGCTGACAGCGCCAGTAAACGCGCCACGCGCATGACCAAACAGCTCCGACTCCAGCAATTGC +TCGGGCAATGCGCCACAGTTAATAGCAATAAATGGTTTGCTGTTGCGCGGGCTGGCGTTGTGGATAGCCT +GGGCGAAAATCTCTTTCCCGGTGCCGCTCTGACCGTTAATCAAAACGCTGACGTCTGATTGCGCCACCAG +CCGCGCCTGTTCCAGCAAACGCAGCATCAGCGGGCTGCGGGTGACAATTGCCTCGCGCCAGCGTTCATCG +GTGGCTGGCGCGGATTGCTCCAGCGCATCGTCAATTGCCTGATATAGCGCGTCTTTGTCGACAGGCTTGG +TGAGGAAACTAAAAACGCCCTGCTGTGTTGCAGCAACGGCATCGGGAATAGAACCATGCGCGGTAAGAAT +AATTACCGGCATTCCCGGCTGCACTTTCTGGATTTCAGCAAACAGCTGCATACCGTCCATTTCATCCATC +CGCAGGTCGCTGATGACTAAATCTACTTTTTCGCGATTCAGTACCCGTAATCCTTCAGCGCCACTTTCCG +CCGTGACCACACTGTAGCCTTCGCTGGTCAGGCGCAGGCCAAGCAGTTTCAGCAATCCCGGATCGTCATC +GACCAATAATAAATGCGCAGGTTTATGGCTCATCAGGAGTGACCTCATGGGTGGATGGCGCGGGCTTTTC +ACTCTCGTGCGGCGTATCCGGCGAGAAATTTCCAGCCGGTTTGCGGGTCGAGAGCTGGCGTTCAATATCG +GTCAGGTTTTCCAGCTTGCGGGTGGTGAGTTCCAGTTGCTGCTGTAGAACGTGATGTTGCTGGCGCAATG +TATCCAGCTCGCTGTCGCTGGACTGCTGGAGTTTACTGTAACGTTGGCGCTCTTCCGCCAGTTGCAGTTG +CAGCGCCTGACCATCGCGCCAGAGTTGATACAGTGGGCGAACCTGTGCCGGGATCTCGGTACTTAACGCT +TCAATACGCGCGACCAGCTGGCGGCGCTCATACGGCGTAATTTTGGCGTCGGCGAGCAAAATCCCTTGTT +TAAAGGTATTTTGCCAGCTGCCGTCGTCATATTGGCGAGCTTGCTGACGCGACTGCGCAGGCATTAAACG +ATCAGCACAATCCATCGCCCGCAGCCAGTAAAGCGGATTGGTTTCGGTTGATTTACCTTGCAGCGCCCAG +ATGTCGCTACATTCAGTAGAAAGATAGTCAGCCAGTTGATAAACCGGAATTTTTTCTTCTGCTGGCGTAT +CAATGGCTGGCTTATTGTGATTCTGCACGCAACCCAGCAATGCCAGACATGGCAGCCCTGCCAGCCACAG +CCGTCGGGGCAATAATCGTTGAAAAATGTGTCGCATATTCACCAGACTTAAAGCCTATCCCAGTGGGCGT +AATTGTTGCAGACAGTCTGGACATGGACAGCGCGGAGAAACCGGAGCGTACATATCGTACGTGAAGATTT +CGAGCACTGCCCGGGGCCGAACTGACAAATAAAATAGCCTGATAGGATAGGCTGTTAGCATTATTTCGTG +TTTTTCGACGACGGTAATTCAATGCGGAAACAAACGTCTTGCCCGCTCTCGTCGACCAGATACAGTTCCC +CTTGCATACGGCGAATACAATCCCTGGCAATGCTTAATCCCAGACCGCTGCCCTTCACCGCCCCTTTTCG +CTGGTGGCTTCCCTGAAAAAAGGGTTCGAAGATCATGGCGCGTTCCTCTTGCGGAATGGGCGTGCCTGTA +TTGATGACATCAATATAAACCCGCGCACCATGTAAACTGCTGCGAAGGCAAATGTTACCGGATTCAGCCC +CGTAGTGCACCGCATTGGAGTAAAGATTATCCAGTACGCTCATCAGCAGCATTGGCTCCGCCAGGCAAGC +TGTTGCTTTGAGATCGACGTCGGTATGCATCATTTTAGCCCGTGCGGGCAGGCTATGAGCAGAAACCACT +GTCTCCACCAGCGGTGCTAACTCAACATTCTCCAGTTCCACCGCACTGTCCGCCTGTTTACGGTTGTAAT +CAAGCAGTTGTTCGATCAGTTTTTGCAAATTGCGGCTGCTGCTATCAAGAATGCTCACCACCTCTTTTTG +CTCTGGCGTAAGCGGCCCGACAACCTGGTCAGCCAGTAATTCAGTGCCCTCGCGCATACTCGCCAGTGGC +GTTTTTAATTCATGAGATAAATGTCTTAAAAATTGATGGCGTTGGGATTCCAGCCATGACAGGCGCTCAC +TTAACCAAAGAATACGTTGCCCAACCGAGCGTAACTCGCTCGGTCCACTGAACGAGACGCTATTGCCCAG +AGAACGCCCTTCCCCCAGACGGTTGATCATGCGCTCGATATTTTTCACCGGCCCGATAATCATCCGCGTG +AAAAGCAGTACCATTACCAGACTCACCAGAAATAGCACCAGCGATTGCCAACCAAAATATTGCCCACGTT +CGGCGATTTCACGCTGAAGCTGCTGCCCACGAGAGAACACCACTGTGCGCGTGGCCTGTACCATTTCGGT +ATTGGCACTGGCAAAGGCTTCAAGACGTGCGGCGGCGGCAGCATCGGGACCGCTGTTGTTACACTGAAGT +TGAGCCAGATTGTGCAAATCCTGACGTAATGCCTGGTAGAGTTTATCGTCCGGCAGCACGCCTGCGTGGG +CATCGAGCATTTCGCTGTAACGCTTGCGCTGGCTTTGATAAACCTTCGCCAGGGTTGGGTCGTCCAGCAC +GCAATACTGACGGTAACTACGCTCCATCTCCAGCGCCGCGTTGGTCATCGCTTCACTGCGCCGGGCATCA +ATAAGCGTAGTGCGGTTAACCAGCGCCGCCTGATCGCTAAGCGCATTCAGGCTTTGCCAGGCTTGCCATG +CCAGCACCAACAGGGGCAGCAGAATCAGCAAAAATGCCAGCATTACCAGTTGTCGTAATGAGCGGGGAAA +AACGGGCCAGCGTTTCAAGGTGTTACTCTCGTCAGACGCGAATAGCCTGATGCTAACCGAGGGGAAGTTC +AGATACAACAAAGCCGGGAATTACCCGGCTTTGTTATGGAATAAGGCGGTGCCTAACTCGACGTTTCGCC +CGATGGTTGATATAGCTACGCTGATATCAGAAGTTGGACGGCAGGCACCTTGTTGTGCGTCATTCGTATT +TTATGTAGCACGTCCCGAAGGGGCTGACATAAGTCGGTGAATGAGCCACTGGTTACTATTATGCAGTAAC +TGTGCCAATAAAGAAAATAGTTTGGTAACGTACTGATTATACGTTGCTTTGAGGGGTTTATGTCTCCTCC +GCTGTTTGAATGTAAATCAGCCACTGTGTCGCTAAAAAGAGACAACTTAAGATAAACTTATTAGATAATA +TTAAAATCAATGAGTTAAGTGTCGCCAGAAAGCGACACGGCAAACCACCCATTGTCGTGATTTACAGACA +CAAAAAAGCTCCCGGAGTTGGGAGCTTATGATAGTGGTTGGTGCTTAATGCCGCATCCGGGCTGCAAAAC +CAATGGGCTGACGACTTACCCCAACTGCTTACGCGCATTGCGGAAAATGCGCATCCATGGGCCATCCTCG +CCCCAGTTTTCCGGATGCCAGGAGTTGCTGACAGTACGGAAAACACGTTCCGGGTGCGGCATCATAATGG +TGACTCGACCACTTTCAGTCGTGACTGCCGTAATACCGTTCGGTGAACCGTTCGGGTTAGCCGGGTAGGT +TTCAGTGACTTTGCCGAAGTTATCGACATAGCGCAGTGCCACCAGCCCTTTGCTTTCCAGTGCCGCCAGA +TGCGCCGCATCACGCACTTCCACGCGCCCTTCACCATGAGAGACAGCAATCGGCATTTGCGAGCCCACCA +TCCCCTGCAACAGCAGAGACGGGCTTTGGGTTACTTCAACCAGGCTGAAACGCGCTTCAAAGCGATCGGA +GGTATTGCGCACAAAACGTGGCCACAACTCACTACCTGGGATCAGTTCACGCAGATTAGACATCATCTGG +CAACCGTTACATACCCCCAGCGCCAGCGTTTGCGGACGGTGGAAGAAGGTTGCAAACTCATCGCGTACAC +GGTCATTGAACAGGATTGACTTCGCCCAACCTTCACCGGCACCCAGCACATCACCGTAGGAGAAACCACC +GCACGCGACCAGGGCGTGGAAATCTTCCAGGCCCGTGCGTCCGGTCAGCAGGTCACTCATATGCACGTCG +ATAGCATCAAAGCCTGCACGGTGGAAAGCTGCCGCCATTTCAACATGCGAGTTCACGCCCTGCTCACGCA +GTACGGCAACTTTCGGACGTGCGCCAGTGGCAATATACGGTGCTGCCACATCTTCGTTGATATCGAACGA +CAGTTTTACATTCAGGCCCGGATCGGCGTCGTTAGATTTCGCCTGATGCTCCTGATCGGCACACTCCGGG +TTGTCACGCAGGCGCTGCATCTGCCAGGTAGTTTCTGCCCACCAGACACGCAACGTGGTGCGGCTTTCGC +TGAATACAGTCTGCCCGTTGGCGGTAATCACAAAACGGTCACCGGAAACCGCCTGCCCTACATAATGGAC +ACAATCAGCAAGCCCATGCTGTGCCAGTACGGACTCGACCGCTTCACGGTCAGCGGCACGAACCTGAATC +ACCGCACCCAGTTCTTCGTTAAACAACGCCGCCAGGCGATCGTCACCCAGAGTGGCGATATCCGCGTCAA +TGCCACAATGACCAGCAAAGGCCATTTCCGCCAGCGTTACCAGCAGGCCGCCATCAGAGCGGTCGTGATA +CGCCAGCAGCTTACGCTGTGCAACCAGCGCCTGAATCGCGTCATAGAAGCCTTTCAGTTGCGCGACATCG +CGTACATCTGCCGGTTTGTCGCCAAGCTGACGATAAACCTGCGCCAGCGCCGTTGCGCCCAGCGCGTTAT +TGCCTTTGCCCAAATCAATCAGCAGCAGTGCGTTATCTTCGGTAGAAAGCTGCGGCGTGATGGTGTGACG +TACATCTTCCACGCGGGCAAATGCAGAAATCACCAGCGACAGCGGCGACGTCATTTCGCGCTCTTCGTTA +CCTTCCTGCCAGCGGGTTTTCATCGACATGGAGTCTTTACCCACCGGGATCGTCAGGCCCAGCGCCGGAC +AAAGCTCTTCGCCCACGGCTTTAACGGCTTCATACAGGCCCGCATCTTCACCAGGGTGGCCTGCCGCCGC +CATCCAGTTGGCGGAAAGTTTGATGCGTTTGATATCGCCAATTTGTGTTGCGGCGATGTTGGTTAACGCT +TCACCGACCGCCAGACGGGCAGAGGCGGCGAAATCCAGCAGCGCAACCGGCGCACGCTCGCCAATCGCCA +TCGCTTCACCGTAGTAGCTGTCGAGGCTGGCGGTAGTGACCGCGCAGTTAGCGACCGGCACCTGCCACGG +CCCCACCATCTGATCGCGCGCTACCATGCCGGTTACGCTGCGGTCGCCAATGGTCACCAGGAAGGTTTTT +TCCGCCACAGTCGGCAGATGCAGCACACGTTTCACCGCGTCTGCAATGGTGATCCCTTCACGGGCCAGCG +CGTCGCCTTTCGCTTTCAGCGTTTGTACATCGCGGGTCATCTTCGGCGTTTTACCAAGCAGGACGTCCAG +CGGCAGATCGATCGGCTGATTATCAAAATGACGATCGTGCAGAGAAAGATGCAGTTCTTCGGTCGCTTCA +CCAATCACCGCGTAGGGTGCGCGCTCACGCTTACACAGTTCGTCAAACAGCGGTAATTGATCGGCAGCAA +CCGCCAGCACGTAGCGTTCCTGGGATTCGTTACACCAGATTTCCAGCGGGCTCATGCCCGGTTCGTCGCT +TAGAATCTCGCGCAGTTCAAATTTACCGCCGCGCCCGCCGTCGCTCACCAGTTCCGGCATGGCGTTAGAA +AGACCGCCAGCGCCAACGTCGTGGATAAACAGGATTGGGTTGGCATCACCAAGCTGCCAGCAACGGTCGA +TCACTTCCTGGCAGCGACGCTCCATCTCCGGGTTGTCGCGCTGTACGGAAGCAAAGTCGAGGTCGGCATC +AGACTGACCAGACGCCATAGAAGACGCTGCACCACCGCCAAGACCGATGTTCATTGCCGGGCCGCCGAGA +ACGACCAGCTTCGCACCGACGTTGATCTCGCCTTTTTGTACGTGATCGGCGCGAATGTTGCCGATCCCGC +CCGCCAGCATGATCGGTTTGTGATAACCGCGCAGCTCTTCGCCGTTGTGGCTGTTCACTTTTTCTTCATA +AGTACGGAAGTAGCCGTTCAGTGCCGGACGACCAAATTCGTTGTTAAACGCCGCGCCGCCCAGCGGGCCT +TCGGTCATGATGTCCAGCGCGGTGACAATGCGCTCAGGCTTACCGAAATCTTCTTCCCACGGCTGTTCGA +AGCCAGGAATTCGCAGGTTGGAAACGGAGAAACCAACCAGACCCGCTTTCGGCTTTGCGCCGCGCCCGGT +GGCACCTTCATCGCGGATTTCACCGCCGGAACCGGTCGCCGCGCCCGGCCACGGAGAAATCGCCGTCGGG +TGGTTGTGAGTTTCGACTTTCATCAGAATATGCGCCGGTTCCTGATGGAAATCGTAGCGGCCCGTTTCGT +GGTCAGCAAAGTAGCGGCCCACTTCAGAACCTTCCATTACGGCGGCGTTATCTTTATAAGCAGAGAGAAC +GTGATCTGGCGTGGTTTCGAAAGTATTTTTGATCATCTTGAACAGCGATTTCGGCTGCTGTTCACCATCG +ATAACCCAGTCGGCGTTAAAAATTTTGTGGCGGCAGTGCTCGGAGTTCGCCTGGGCAAACATATACAGTT +CGATGTCGTTCGGGTTACGACCAAGCTTTGTGAAAGCATCCTGCAGATAGTCAATTTCATCTTCCGCCAG +AGCCAAGCCAAGACGCAGGTTAGCGTCGATCAGCGCCTGACGGCCCTGCCCCAGCAAATCAACGCTGGTA +ACCGGAGTCGGTTGATGGTGGGCAAACAACTGCTCTGCATCATCTAAAGCAAAAAAGACCGTTTCCATCA +TGCGGTCGTGCAGTTCAGCGGTAACCTGCTGCCATTGTTCATTGGTCAGCGTACCGGCTTCTATATAGTA +AGCAACGCCGCGCTCAAGGCGGTTTACCTGTTGTAGCCCGCAGTTATGGGCAATATCGGTCGCTTTCGAA +GACCAGGGAGAGATGGTGCCAGGACGCGGGGTCACCAGCAGGAGTTTGCCTTGCGGGGCGTGGCTGGCGA +GTGCCGGGCCATATTTCAGCAGGCGTTCAAGTTGTGCGTGCTCATCATCGTTTAACGGCGCATTGAGGTC +AGCAAAATGGACATACTCGGCGTAAATATTGTGAACCGGGAGCCTGGCAGCCTGAAAACGTGCCAGCAGT +TTGTTGATTCGGAATGCCGACAGTGCAGGCGAACCACGCAGAATTTCCATCATAAGTCTCTCGTCTTCTA +AGCTTTCGGTGTACCCAAGGGGGGGAAACGGGCGTCATTATAAAGAATCTGATGCGCTGACGAAACCGTT +TGCGTGGAAATAAAATCACCATCGTGAATTAGCAACGCGTGCCGCCAATGGCTGTAATAAGTTGCCATCT +GGCGCAGGTTTACGCAAAATGCCGCTCATTTATGAGTAAACCTTTCACTATTATTACGTTTTTTCAAGCT +GGGACGCGCACGACACAGAGAATTAACTAATTGAAAAAATTAAAGATTAATTATCTGTTCATCGGCATTC +TGGCACTGCTGCTCGCGGTCGCTCTCTGGCCATCCATTCCCTGGTTTGGTAAAGCCGACAACCGTATCGC +CGCCATTCAAGCGCGGGGAGAGTTGCGTGTGAGCACCATTCATACTCCCCTGACTTATAACGAAATCAAC +GGGAAACCTTTTGGCCTGGATTACGAACTGGCGAAACAGTTTGCCGATTACCTCGGCGTAAAACTGAAAG +TGACCGTGCGGCAGAATATCAGCCAGCTGTTTGACGACCTTGATAATGGTAACGCCGACCTGCTGGCGGC +AGGACTTGTCTATAACAGTGAGCGGGTAAAAAATTATCAGCCTGGCCCTACCTATTATTCCGTGTCACAA +CAACTGGTTTATAAAGTGGGTCAGTATCGCCCACGTACGCTGGGCAACCTGACGGCGGAGCAACTCACCG +TTGCACCGGGTCATGTGGTGGTTAACGATCTCCAGACCCTGAAAGAAACAAAATTCCCGGAATTAAGCTG +GAAGGTAGACGACAAAAAAGGCTCTGCGGAATTAATGGAAGATGTCATCGAAGGAAAACTCGATTACACC +ATTGCTGATTCTGTCGCCATCAGCCTGTTTCAGCGCGTTCACCCGGAGCTCGCCGTAGCGCTCGATATCA +CCGATGAACAACCGGTGACTTGGTTTAGCCCGTTAGATGGCGATAATACCCTTTCCGCCGCCCTGCTCGA +CTTCTTCAACGAAATGAATGAAGACGGTACGCTGGCACGCATTGAAGAGAAATACCTGGGGCATGGCGAT +GATTTTGATTACGTCGATACGCGCACATTTTTACGCGCCGTCGATGCGGTACTGCCGCAGTTAAAGCCCC +TGTTTGAGAAATACGCCGAAGAAATTGACTGGCGTTTGCTGGCCGCTATTGCTTATCAGGAATCGCACTG +GGATGCACAGGCCACTTCACCGACGGGTGTGCGCGGCATGATGATGTTAACCAAAAATACCGCGCAAAGC +CTCGGCATTACGGATCGTACCGATGCCGAACAGAGCATCAGCGGTGGCGTGCGTTATTTGCAGGATATGA +TGAGTAAAGTGCCGGAAAGTGTGCCGGAGAACGAGCGGATCTGGTTTGCCCTCGCTGCGTACAATATGGG +CTATGCGCATATGCTGGATGCCCGCGCCCTGACGGCAAAAACCAAAGGGAATCCTGACAGTTGGGCTGAC +GTAAAACAGCGTCTGCCTTTACTTAGCCAGAAACCCTATTACAGCAAGCTGACTTACGGCTACGCTCGTG +GACATGAAGCCTACGCTTATGTCGAAAATATTCGTAAGTATCAGATTAGCCTGGTGGGTTATCTGCAAGA +GAAAGAGAAGCAGGCTACAGAAGCGGCGATGCAACTGGCGCAGGATTATCCGGCGGTATCGCCTACGGAG +TTGGGCAAAGAGAAATTTCCTTTTCTCTCGTTTCTTTCCCAGTCGTCATCAAACTATTTGACCCATTCTC +CCTCTCTGCTGTTTTCCAGGAAAGGGAGTGAAGAGAAACAAAATTAATCCGTCGAGGATTGCGCTTTTTT +CTGCGCTTTAATTTCCTGGCGGCGCATGCGAAAGAAGTCACTGAGCAACGCCGCGCACTCATCCGCCAGT +ATTCCTTCCGTAATTTCCACTCGGTGATTCATACCCGGATGATGCAGCACATCCATTAAAGATCCCGCAG +CGCCAGTTTTCGCGTCACGCGCACCAAAGACCACGCGACCAATGCGACTGTGGATCATCGCTCCGGCACA +CATTACACATGGTTCAAGCGTGACATACAACGTGGCGTCGATCAGACGATAATTTTGCATCACCAGACCA +CCCTGCCGCAGGGCCATGATTTCTGCATGTGCGGTGGGATCATGGCGACCAATCGGGCGGTTCCAGCCTT +CGCCGATTACCCGATTGTTATGCACTAATACCGCGCCGACCGGCACTTCCCGCTCATCCCAGGCACGTTT +CGCCAGCGTCAGCGCGTGACGCATCCAGTATTCGTGGCTAAATTCGACTTCAGACAAAAAGAAAACTCCG +GTTATAAAAGCGCGGCGCATTATACACGGACGCTATGCTTTACTCTATTCCAGTTGCTGGAGTTCACCGC +GCGGGGTTACTCGCCAACGATGCTGACAGAAATAAAGCAGCGGATTGTCCTGATTACTGTCGCTATAGCC +ACTGTACAGCCGCAGCGGAGTGCCGATTTTGCGCTCCAGTTGTGCGACCTTTTCATGTCCCAGACAACGC +ATCGTCAATACCCAACCACCATAGCCACGCTGAATTTGGCTGGCGATAAGATTAACCCGCGGCAGCCAGG +GCGTATCGAAATAAACCGCTTCAACCAGCGGCTGCGGAGAGCCGGTAATCAACCAGATATCAGCATCGGA +ACTTAACAGGTAGGTGGTTAATCGCTCCTGAACCAGCGGAAAGGCGGTAACATTGTCGCGAAACCAGCGC +ACGAAATCGGCCTGCAACGTCTGTAAACGTGCTTCGCTGTGACCAAAAGTGCACCCCCACAGAAGCAGAC +TCATCGGCCAGCGTGCCGCACGACCTTTTATCAATAACGCAATGGCTATAATCGGTAACAACGGCAGGAC +AAGTAACGCATTCAGCGGTTGGCGACGTAGTAAATAGCGCAGAAAACTGCCGAACATATCCTGCTGATGC +AATGTTCCATCTAAGTCAAAAAACACCACACGACGCTCGTGAGTTGCCAAACCATACTCCTCTGGACTGA +AACATCCTGATTAATTTTCGCTACTACATAGCCTAACAGATAGATCATCACTTTTCCGGCAACAATCGAC +CGCATCATGGCTAACTGGAATTTTTAATTCATGGCAATTAGCGGCAATGGAATATAAAATTCACTCGCGT +GTGTCTCATATTGCCTGTTGTCGCCACTATTTCATCGCGAGGAAAGATATGAACGGCTTACTTCGTATCC +GTCAGCGTTACCAGGGGCTTGCCCAGAGTGATAAAAAACTGGCGGATTATCTGCTGCTACAACCTGATAC +GGCGCGCCATTTAAGCTCTCAGCAACTGGCCAACGAAGCCGGAGTCAGTCAGTCCAGCGTCGTGAAGTTC +GCGCAAAAACTCGGCTATAAAGGTTTTCCGGCGCTTAAGTTGGCGTTGAGTGAAGCGCTGGCAAGCCAGC +CGGAATCACCCTCCGTGCCCATTCATAACCAAATCCGCGGTGATGATCCGTTACGGCTGGTCGGCGAAAA +ACTGATTAAAGAAAATACTGCCGCTATGTACGCAACGCTAAACGTTAATAGTGAAGAGAAACTGCATGAA +TGCGTAACAATGTTGCGCTCTGCGCGGCGGATAATTCTGACCGGTATTGGCGCTTCGGGTCTGGTGGCGC +AAAACTTTGCCTGGAAGCTGATGAAGATTGGCTTCAATGCTGCCGCAGTGCGCGATATGCATGCGCTACT +CGCAACAGTACAGGCGTCGTCCCCTGACGATCTGTTATTAGCCATTTCCTACACCGGTGTACGACGCGAG +TTAAACCTGGCGGCAGATGAGATGCTGCGAGTGGGCGGAAAAGTGCTGGCGATTACCGGCTTTACTCCGA +ATGCCCTGCAACAGCGTGCTTCTCATTGCCTGTATACCATTGCCGAAGAACAAGCGACAAACAGTGCTTC +AATCTCTGCTTGTCACGCTCAGGGAATGTTAACGGATTTGCTGTTCATTGCGCTGATTCAGCAGGATCTG +GAACTGGCACCAGAACGTATTCGTCATAGTGAAGCGCTGGTGAAAAAACTGGTCTGAGTAAAGAATGCGC +GTATAATGCCCGCCCGGTTTGTGTTGTTTTGAGAGTTTCCTTATGGCGTTGTTAATCACTAAAAAATGCA +TCAATTGTGATATGTGTGAACCCGAATGCCCGAATGAGGCGATTTCAATGGGAGATCATATCTACGAGAT +TAACAGCGATAAGTGTACCGAATGCGTAGGGCACTACGAGACACCAACCTGCCAGAAGGTGTGCCCGATC +CCCAATACTATTGTGAAAGATCCGGCGCATGTCGAGACAGAAGAACAGTTGTGGGATAAATTTGTGCTGA +TGCACCACGCGGATAAAATTTAATATTCTACTCTGGAAGTAGAGTATTAATTATATTACTGGGAAGCCTT +AACGCCATTATATTTATTTAATTGATGACATTAGCATAATCATTCACTAAGTTAATTTATATAGTATCTG +CCCAGACACTTATTTATAGTTATTAAAGGTGCGTCCGACTGGTTCACCGGACGCACCTTAAGTACGTTTC +CTTGTGTTATAAGAACAGAAGGATCAGCTGTAAAACAGCAATGATGATTTTGATGACCCGTTTAATCAGG +TATCGGCAATCAGTCATTCGTTTTTCCTTAAACAAGGAATGCAGCCATTCAGATTAGCCCTTACATCTCC +CCAAAACTGAACGTGCGAGTTATTGAGGGTGCATGCTGCACTCCACACCAGAGCTTTGACGACACCACTC +GTTTCAATGGGGGAATTCTGTGGCATGGTGTAAAGCACAGCAAAATCTTCAATAACGAAGCCAATTTTAA +TGTACTTACGAATTGGCGGTCACGTTAATCTTTCCATCAATATTGCTTTCTTCGTAAAGGCTCGAGTTTT +TATGCTAAAGATTGCAAGTTGCTTGTAAAAGATAAGTACACTGATCCATAATCGCTGTTGTTGAGGGTGC +ATGCTGCACAAAATTAAAGTTAAAAAGTAAAACCCCCGTTCCTTACCAGTTCGGGGGTTTTACTTTTTAA +AGAGAACGGTATTATTTTTAACTTTCAATAATTACCGTGGCACAAGCATAGTGCCGCTCATCTGCCAGCG +TTACATGCATATTTGCAACGCCCAGCTTTTCCGCCAGTTTTAATGCCTCGCCCCATAGCCGTAGCCGTGG +TTTGCCGAGCTCATCATTGAATACTTCAAATTGATTAAACGCCAGACCATTGCGGATCCCGGTGCCAAAC +GCTTTTGCTGCGGCTTCTTTCACAGCAAAACGCTTCGCCAGAAAACGCACCGGCTGGTGGTGCGTTTTCC +AGATAGCCCATTCGTTATCGCTTAATACGCGGCGTGCCAGGCGATCACCGGATCGGGCGATCACCGCTTC +GATGCGAGCGATCTCCACAATATCCGTGCCTAAACCTAATATTGCCATTAGCCACGCGCTTCCAGCATCA +GACGCTTCATTTCTGCCACCGCATCTTTCAGTCCGGTCATCACTGCACGACCAATAATGGCATGACCGAT +ATTCAGTTCATGCATCTCAGGGATGGCGGCAATGGCTTTCACGTTGTGATAGGTCAGACCGTGTCCGGCG +TTAACTTTCAGACCGAGGCTTGCGGCAAAGGTCGCGGCTTTGGCGATACGCGCCAGCTCTTGCGCCTGTT +CGGCGTCAGTTTTGGCATCAGCATAGCAACCGGTGTGGATCTCGATAAACGGTGCGCCAACCTCTGCCGC +AGCTTTGATCTGCTCTTCATCGGCGTCAATAAACAGAGAAACCTGAATCCCGGCATCTGCCAGACGTTTG +CAGGCATCGCGCATTTTGTCACGCTGCCCTGCGACATCCAGGCCGCCTTCGGTTGTTACTTCCTGACGCT +TTTCCGGTACCAGGCAGCAAAAATGTGGCTTCGTCTCAACGGCGATCGCCAGCATCTCTTCGGTCACCGC +CATCTCCAGATTCATGCGGGTATCCAGCGTCTGACGCAGGATGCGCACGTCGCGGTCAGTAATGTGACGG +CGATCTTCACGTAAATGCACGGTAATGCCGTCCGCTCCCGCCTGCTCGGCAATAAACGCGGCCTGCACCG +GATCCGGGTAAGCGGTACCGCGCGCGTTGCGCAGCGTAGCGATATGGTCAATGTTGACGCCTAACAGTAA +TTCAGCCATGACAATCCTCATCATTCATAATGTGTTTTCACCGTTCGCTTAGGCATAAACTGCCGGAACA +GTTCCCTGCTCTTTAAAGGTTTACCGCCAAGATACGGCTTAAGCGCCATGCGGGTAAAGCGTTTCGCGGC +GCGCAGTGTGTCTGCGTCAGGAAATTCCCGTGCGTTTAACGCTTTTAACTGCCTTCCGGTGAACGTTTTA +TTGTCGATAACGACGCTTGCGATAAACCCTTTTTCTTCGCGATAACGATACGTCATGGTGTCATCTACCG +GCTCGCCGCTACCCGCACAATGGGTAAAATTGACGCCATAACCCAGATGCCCGAGCAGTGCCAGTTCAAA +GCGGCGCAGCGCGGGTTCTGGCGTACCAGTGACCCCTGCAAGAGACTGAATGCAGTGCAAGTAATCGAAA +AAAAGTTCAGAGAAGCGCGTCTCGTATTCCAGTACGCGGGAGAGAAGTTCGTTGATGTACAGACCGCTGT +AAAGCGTGATACCGCTTAATGGCAGCGCCAGCGAGACGGCTTCAGCACTGCGCAGCGTTTTGACTTCGCC +ACGCCCGCCAAAACGTAGCAAGAGAGGGGTGAAAGGCTGTAATGCACCTTTCAGGGTAGAGCGTTTAGAG +CGTGCGCCTTTGGCAACCAGACGCACGCGCCCCGATTCCTCCGTGAAGACGTCCAGCATCAGGCTGGTTT +CGCTCCACGGGCGACTATGCAGGACAAATGCGCGCTGCCAGCCTTCCATCGGAGTTACTCTTAAAGATCG +TCAACGTAACCGAGACTGCGCAGTGCGCGTTCGTCGTCGGCCCAACCGGATTTCACTTTTACCCACAGTT +CAAGGTGAACAGGCGCTTCGAACATTTCCTGCATGTCTTTACGCGCTTCAATCCCGATGGTTTTGATCTT +GGCCCCTTTGTTGCCAATGACCATCTTCTTCTGCCCTTCACGCTCAACGAGAATCAAACCGTTGATGTCA +TAACCACCGCGTTCGTTAGAGACGAAACGTTCGATCTCCACGGTCACGGAGTACGGCAGTTCAGCGCCGA +GGAAACGCATCAGTTTTTCGCGGATGATTTCAGACGCCATAAAACGCTGTGAGCGATCGGTGATGTAATC +TTCCGGGAAGTGATGAGTCGCTTCAGGTAGATGCTTACGCACGATTGCCGCAATAGTGTCAACATTCAGC +CCGGTTTCGGCAGAGATTGGCACGATATCGAGGAAGTTCATCTGGCTTGCCAGGAACTGCAGGTGCGGCA +GCAGATCGGCTTTCTCCTGCACGTTGTCCACTTTGTTCACCGCGAGGATTACCGGCGCTTTGCCTTCGCG +CAGTTTGTTGAGCACCATTTCGTCGTCCGGCGTCCAGCGGGTGCCTTCAACGACAAAAATCACCAGCTCA +ACATCGCCAATAGAGCTGCTCGCCGCTTTGTTCATCAGGCGGTTAATGGCGCGTTTTTCTTCCATATGCA +GGCCCGGTGTATCGACGTAGATCGCCTGATACGCGCCTTCAGTATGGATCCCCACAATGCGGTGACGAGT +TGTCTGCGCCTTGCGGGAAGTGATGGAGATTTTCTGCCCCAGCAGTTTGTTCAACAATGTGGATTTGCCA +ACGTTCGGACGTCCGACGATGGCAATAAATCCGCAGTAACTTTTATCGATGCTCATTCCAGCTCCAGTTT +TTTCAACGCCTGTTCGGCGGCAGCCTGCTCAGCCTTACGACGGCTTGAACCTGTGCCAACCACCGGTTCA +CTCAGGCCGCTGACCTGGCAGTGGATAGTAAATTCCTGATCGTGCGCTTCGCCACGTACCTGGACTACCA +GATAAGTCGGCAGCGGCAGATGGCGACCCTGCAAATATTCTTGCAAGCGCGTTTTCGGATCTTTTTGTTT +ATCGCCTGGGCTAATTTCGTCCAAACGAGTTTGATACCAGTTGAGGATTAATTTCTCGACGGTTTGAATA +TCACTGTCGAGGAATACGCCACCAATTAATGCTTCGACGGTGTCGGCGAGAATTGACTCACGACGAAATC +CACCGCTTTTAAGTTCACCTGGCCCTAAACGTAAGCACTCGCCTAACTCAAATTCGCGCGCCAGTTCCGC +CAGCGTATTGCCACGGACCAGCGTGGCGCGCATCCGGCTCATATCGCCTTCATCCACACGAGGGAAACGG +TGATAAAGCGCATTGGCGATAACGTAGCTCAGAATAGAGTCGCCTAAAAATTCTAAACGCTCGTTATGTT +TACTGCTGGCACTACGATGAGTTAATGCCTGCTGCAACAGTTCCTGATGATTAAAAGTGTAGCCCAGCTT +CCGTTGAAGCCGATTAATTACGATGGGGTTCATGCGATACCAATAAATAAATGCGTCAACAATTCAGCAC +ACGAAACAGACCTGATATACATGGTTCTGCTAACTGCTTCGCTGCAGTTTCAGTTTACCGGTATATGGGG +ACCAACGCTGTTTCGTGTGCCGTGGCAACCTGGAGGTGCCAACCTTAAACTTCGGGGGAATATTCTATAC +ACAACGACGGGGGATGTCGTTAGCCACGGGAGATTTATCTCATAAATAATTCACGTTGTCGCCATAACGG +CGACAACGTGAACGAAGATGGCTATTAATGGATGCCGCCAATGCGACTTAAGCGCAGACCAGTCGGCCAT +TCGCCTTCTTGCTTATCGAAGCTCATCCAGATAGCCGTTGCCCGACCGACCAGATTCGCTTCCGGCACAA +AGCCCCAGTAACGGCTGTCCGCGCTGTTGTCGCGGTTGTCGCCCATCATGAAGTATTGTCCCGGAGGAAC +AATCCAGGTTGCCAGTTGTTGCCCTGGCTGCTGGTAATACATCCCCACCTGATCCTGCGCAATCGGCACT +GTCAGAATGCGGTGCGTCACATCACCCAGTGTCTCTTTACGCTCGGAAAGACGAATTCCATTTTCTTTGG +TTTCGTTTTTCGGCACTTCAAAGAATCCGCTGGTCGCTTCCCCACCATTACGGCGTGAGAAGGTCTGAAC +GAAATCGCTCGGTTCCACGTTTGAGTAGGTGACCGGCAGCGCGTTTTCACACGCCTGGCCGGAACTGCAT +CCCGGTTGAATCGTCAGCTCTTTTGAGACCGGATCGTAAGTGACTTTATCGCCCGGTAAACCCACCGCGC +GCTTGATGTAATCAAGCTTTGGATCTTCCGGATATTTAAAGACCACGATATCGCCGCGTTTCGGATGACC +GGTTTCGATCAGCGTTTTCTGGTAGATAGGATCTTTAATGCCATAAGCAAACTTCTCTACCAGAATAAAA +TCACCAATTAACAGAGTCGGCATCATCGAACCTGACGGGATCTGGAACGGTTCATAAATAAACGAACGCA +CAATCAATACGATAGCCAGTACCGGAAAAACAGAAGCACCGGTTTCCAGCCAGCCAGGCTTCGGCGCAAC +CTTTTTCAACGTTGCTTTATCCAGTGAGTCCCCGGCAGCCGCCTGCGCCGCTGCCTGACGTTCCCGCCGT +TTAGGTGCGAAAAAGAATTTATCCACGCACCATAAAATGCCCGTCACCAGTGTGGCAATCACCAGAATCA +GGGCAAACATATTCGCCATGCCAACTCCTAAGGGTTATTTGTTGTCTTTGCCGACGTGCAGAATGGCGAG +GAACGCTTCCTGCGGCAGCTCGACGTTACCGATCTGCTTCATGCGTTTCTTACCTTCTTTCTGCTTCTGC +AGCAGCTTTTTCTTACGGCTGATATCGCCGCCATAACATTTAGCCAGTACGTTTTTACGCAGCTGTTTCA +CGGTGGATCGCGCAATGATGTGCGTACCAATCGCTGCCTGAATGGCGATATCAAACTGCTGGCGTGGGAT +CAGATCTTTCATCTTCTCCACCAACTCGCGACCGCGGTTTTGCGAATTATCACGGTGGGTGATCAACGCC +AGCGCATCAACACGTTCACCGTTGATTAATACGTCTACACGTACCATGTCGGACGCCTGGAAGCGCTTGA +AGTTGTAATCCAGAGACGCATAACCACGCGAGGTAGATTTCAGGCGATCGAAGAAGTCGAGCACCACTTC +CGCCATCGGGATCTCGTACGTCAGCGCCACCTGATTACCGTGGTAAACCATATTGGTCTGCACGCCGCGT +TTTTCTACGCACAACGTAATAACGTTGCCGAGATATGCCTGCGGCAGCAGCATGTGACACTCTGCAATCG +GCTCGCGCAGTTCGTAGATGTTATTTACCGCAGGCAGCTTGGATGGGCTGTCGACGTAGATAACTTCTCT +TGACGTGGTTTCAACTTCATACACTACGGTCGGCGCAGTGGTGATCAGATCCAGATCGTATTCACGTTCC +AGACGTTCCTGGATGATCTCCATGTGCAGCAGGCCGAGGAAGCCGCAGCGGAAACCAAAGCCCAGCGCGC +TGGAGCTTTCCGGCTCATAGAACAGTGAGGCATCGTTCAGGCTGAGTTTACCCAGCGCGTCACGGAAGGC +TTCATAGTCGTCGGAACTTACCGGGAACAGACCGGCGTATACCTGCGGTTTGACTTTCTTAAAGCCAGGC +AGCGCCTTTTCTGCCGGATTACGCGCCAGCGTTAAGGTATCGCCGACTGGAGCGCCGTGGATATCTTTAA +TCGCACATACGAGCCAGCCTACTTCGCCACATTTCAGTTCAGTGCGGTCAACCTGTTTCGGCGTGAAGAT +GCCCAGACGGTCGGCGTTATAGGTCTGCCCGGTACTCATGACTTTCACTTTGTCGCCCTTACGCAGGGTG +CCGTTTTTAATACGGATAAGTGAAACAACGCCCAGGTAGTTGTCGAACCATGAGTCGATAATTAGTGCCT +GCAACGGGCCTTCCGGATCGCCTTCCGGCGGCGGAATGTCGCGCACCAGACGTTCGAGAACGTCCTGCAC +ACCAACGCCGGTTTTCGCTGAACAGCGCACCGCGTCGGTGGCGTCGATGCCGACGATATCTTCAATTTCT +TCCGCCACGCGTTCAGGATCGGCTGCCGGCAGGTCAATCTTGTTCAGTACCGGCACAACTTCGAGATCCA +TTTCCATGGCGGTGTAGCAGTTTGCCAGGGTTTGCGCTTCTACGCCCTGCCCGGCGTCGACCACCAGCAA +TGCACCTTCACAGGCAGCCAGCGAACGGGAAACTTCATAGGAGAAGTCTACGTGGCCCGGGGTGTCGATA +AAGTTAAGCTGATAGGTTTCGCCGTCAGACGCTTTGTAGTCCAGCGTCACGCTTTGCGCTTTGATGGTAA +TGCCACGCTCACGCTCAAGATCCATGGAATCGAGAACCTGCGCCTCCATTTCACGGTCAGACAGGCCACC +GCAGATCTGGATAATACGGTCAGACAGCGTCGATTTACCGTGGTCAATGTGAGCTATGATCGAAAAGTTA +CGTATATTCTTCATAAAGTATGATTATTGTGCCTTAATGCCCGGTTAACCAGGCTTTTAGAAGTCGCTGT +TCTGAGCTTAACGTCTGTATTAATAGAAACGCCGCATTCTACACTACAACATTGAGGCGAGGAAATGTTC +ATACCGTATGGATTGTGGTATCTGGAAACGTCCTCGCATTTGTTATGCAAAATGCAACAAAGCCAGTGAA +ATCACTGGCTCGCGTCTTCCGAAGATGTTTCAAATCGCACAAGGCCAGGCGGCAATGCCACGCTTAAGAT +GATCGGTTGCCATTCTGCCCGGGCAGCAAACTTACGCGAGTAGCCGCGCGCAATCAGGAACCCGCCAATA +CCACCGAGGATCGCACCACATAATGCTGCGACGTCAGAAGCAAAGAGTAGCTGAAATAGCGAAGCGATAA +GGAATAATCCCACCAGCGGCGACATATAAACCAGTAATGCGGAGCTAAGCAGGCTGCCTTCGGCGATCCC +CAATTCCACTTTTTGCCCCGGCACTAACGGCTCATCACAGGGTACGACAATGGTATGCGTGGTTTGCGGG +CCAAGTTTATTTAACACGCGGCTACCGCAACCGGCGCGTGAAGCGCAGCTGCTGCATGAAGCTTTAACAT +CACAACTGACCAGCGCCTGCCCGTTTTGCCAGGAGACGACGGTAGCCCACTCTTTGATCATTGCGCTGCC +CCGAACTTAATATTCTCGGCAATGCGTTTCGCCGTTTGCGGCGGCAGTTCACCGACAATGGTGATTTCGG +CGTTATCACGTACGCTTGTACTGACGGTTCTGCGTCCGGTGCGCAACATCTGATCGGTGCTCGATGGCGT +AGCGCGGTTAACGTTTACCGAGAAGCTGAATAATCCGTCGGAATAGAGACGTGATTCGATAGGCATGTTG +TCCATCGTCGGTAGCGGACGTCGACTACTGGAAACTTCGCTAAAACCCTGTGGCAACCAGGTTGGCGTCC +AGCTGAATTTAGCTTTTTCACCTACAGGAACAGAAAGCAACGGCGGCAAATTTGCCTTCGCCAGCGTCTG +CATACTGCTGCTGATATCCTGATTGACGTTAAAAGCAATCACGCGAAATTGTTCCAGCGTTTCACCATCG +CGATCAAGGAGATCAACCCGCATCGGTAATTTCGATTCGGTGTCCATCCACACGATGTAGCTGTAGCGTG +TACCATCTCGGGCAACCACGCGAATGACTTCGCAAAGACGATCAGCAATACGCGTGCGCCCGACGGAGAT +AAAGTCGTAGTAAGGAGAAAGGCGTTTGAAATCGGTATAGATAAGCGATGGCAGAGAATCAACAATGTAA +TCGCCATTAAGCGTGAACGGTTCAAGTCCCGGTTCAAAATAGCTGATTTCATTGCCGCGCTGTACCACTT +CCCGGCGCGGGCCATCCATTTGCAACAATTGTGCAAGAGGACGGTTATCGAGGCGTGCATGTCGATAACG +CAGAGACTCAACACCCTGTTTATTGATGCTGATGAATGACAGCTCGTAATTCAGTGACTGACTGGCCAGG +TTCATCTGCTGTAATAACGCCCCGGACGCGGGAGTGGCCGAGGCGTTAGCAGAGAATAACAGGCTACCTG +TCACTAATGACATGGCAAACCAAAGTTGCTTCATTACTGCGATTGCGTTCCTAAAGTTTGAATTCCTGGC +ACCTGTACAGCGGCTTGCTGGGTTTGCGCCTGCTCAAACTGAAGCTGTTCAGAGTGGAGTCGGCGTTGCA +GTTCGTAATCCTGCAACATTGCATTAATGCGACGACGCTGCTCCTGTACCTGCTGCTGTTGACCATTGTT +TGCGGTCGCTTCAGAAGGTACTCCCAGGCTTACCGGGCTGGCTTTACCCATCATCGGCAGTGTATTAAAT +ACCGGCGTTTCGGGCTGCTGGGACGTTTCAGATTGTCCATTATAGTGCTGGACGCCAACGATAACTGCAA +GCGATACGCATGCGGCTACGCCCATTTGGGTAAGCTGTGCCGCCCACGGACGTACTTTCTGCCAGAATGG +CATTTTCTGCCATTGATGCGGCGCAGGCTGGGCTTCCGGGATCAATGTCGCCGGTTGACGTACTGGCTCT +TCTTCAATGGCGGCCATCACGCGTGAAGAGATATCGAAATGGAGCACCTCGGGAGTATCACCCCGCATTG +AGTCACGGATTAAGTGATAGCTTTCCCAGGTTTTCTGCATTTCTGGGTTATGAGCCAGTTCGTTAAGCAG +CTCACTATCCAGCGTTTCGCCATCCATTAAAGCGGAAAGTTGTTCTTTCTGCATGCCTAATACCCTTATC +CAGTATCCCGCTATCGTCAACGCCTGATAAGCGGTTGAACTTTGTTATCAATAGCTTCCCTCGCTCGGAA +GATACGTGAACGCACCGTACCTACCGGACAATCCATGATAGCGGCTATCTCTTCATAGCTCAGGCCATCC +AGCTCCCGCAAGGTTATTGCCATGCGTAAATCTTCCGGGAGGGACTCAATAGTTCGGAAAACTATCTGTC +TCAGTTCTTCTGACAACATTAAGTTCTCAGGGTTCGAAATTTCTTTCAACGCGCCGCCACTTTCGAAGTT +TTCAGCTTCAATGGCATCCACATCACTGGAAGGTGGACGACGCCCCTGAGCAACCAGGTAATTTTTCGCT +GTATTTACAGCAATCCGATACAGCCATGTATAAAAAGCGCTATCTCCCCGGAACGAATCCAGCGCACGAT +AGGCTTTAATAAAAGCTTCTTGTACCACATCGGGAACATCACCCGACGGCACATAGCGGGAAACCAGACT +CGCCACTTTATGCTGATAGCGCACTACCAGTAAGTTAAAGGCTTTCTGATCTCCCTTCTGGACCCGTTCA +ACCAGGACCTGGTCCGTTAACTGCTCGCTCATCCGAGGTAAAGTCTCCCCAAACCAAATTTCCACGCGCT +ATCGAAACGCCACTCCATTAGCTGCAATTTGAGCAAGCAAAGGGTTAGAGTGTCTCGTTTTTGTAAAGTT +CCGTAACGCATCTGTTTTTGTTTGTCATGCTGTAGACGGATCATTATCTATCATTATAAGTCTACAGAAT +CTGAACATCGCATTATCTGTGTAGAAATGCCCATTTAACTGCCTGAAGAGTAACCCAACGGCCTTTTTAT +TTCACCACCTAATCCTCCACCAGCCAGTAACTTCTCTTTTTCTCGCCGCCCTGCGTCAGCGTGTTTAGCA +ACTGTAACAAATATTAAAATAGCAGGTGTTTATCCGCACAACATGATGCTATGCTGACCAAACCATGTTT +AGTAAATTAAACAAAGAAAATGAATACTCTCCCTGAACATTCATGTGACGTGTTGATTATCGGTAGCGGC +GCAGCCGGACTTTCACTGGCGCTACGCCTGGCTGACCAGCATCAGGTCATCGTTCTAAGTAAAGGCCCGG +TAACGGAAGGTTCAACATTTTATGCCCAGGGCGGTATTGCCGCCGTGTTTGATGAAACTGACAGCATTGA +CTCGCATGTGGAAGACACATTGATTGCCGGGGCTGGTATTTGCGATCGCCATGCAGTTGAATTTGTCGCC +AGCAATGCACGATCCTGTGTGCAATGGCTAATCGACCAGGGGGTGTTGTTTGATACCCACATTCAACCGA +ATGGCGAAGAAAGTTACCATCTGACCCGTGAAGGTGGACATAGTCACCGTCGTATTCTTCATGCCGCCGA +CGCCACCGGTAGAGAAGTAGAAACCACGCTGGTGAGCAAGGCGCTGAACCATCCGAATATTCGCGTGCTG +GAGCGCAGCAACGCGGTTGATCTGATTGTTTCTGACAAAATTGGCCTGCCGGGCACGCGACGGGTTGTTG +GCGCGTGGGTATGGAACCGTAATAAAGAAACGGTGGAAACCTGCCACGCAAAAGCGGTGGTGCTGGCAAC +CGGCGGTGCGTCGAAGGTTTATCAGTACACCACCAATCCGGATATTTCTTCTGGCGATGGCATTGCTATG +GCGTGGCGCGCAGGCTGCCGGGTTGCCAATCTCGAATTTAATCAGTTCCACCCTACCGCGCTATATCACC +CACAGGCACGCAATTTCCTGTTAACAGAAGCACTGCGCGGCGAAGGCGCTTATCTCAAGCGCCCGGATGG +TACGCGTTTTATGCCCGATTTTGATGAGCGCGGCGAACTGGCCCCGCGCGATATTGTCGCCCGCGCCATT +GACCATGAAATGAAACGCCTCGGCGCAGATTGTATGTTCCTTGATATCAGCCATAAGCCCGCCGATTTTA +TTCGCCAGCATTTCCCGATGATTTATGAAAAGCTGCTCGGGCTGGGGATTGATCTCACACAAGAACCGGT +ACCGATTGTGCCTGCTGCACATTATACCTGCGGTGGTGTAATGGTTGATGATCATGGGCGTACGGACGTC +GAGGGCTTGTATGCCATTGGCGAGGTGAGTTATACCGGCTTACACGGCGCTAACCGCATGGCCTCGAATT +CATTGCTGGAGTGTCTGGTCTATGGCTGGTCGGCGGCGGAAGATATCACCAGACGTATGCCTTATGCCCA +CGACATCAGTACGTTACCGCCGTGGGATGAAAGCCGCGTTGAGAACCCTGACGAACGGGTAGTAATTCAG +CATAACTGGCACGAGCTACGTCTGTTTATGTGGGATTACGTTGGCATTGTGCGCACAACGAAGCGCCTGG +AACGCGCCCTGCGGCGGATAACCATGCTCCAACAAGAAATAGACGAATATTACGCCCATTTCCGCGTCTC +AAATAATTTGCTGGAGCTGCGTAATCTGGTACAGGTTGCCGAGTTGATTGTTCGCTGTGCAATGATGCGT +AAAGAGAGTCGGGGGTTGCATTTCACGCTGGATTATCCGGAACTGCTCACCCATTCCGGTCCGTCGATCC +TTTCCCCCGGCAATCATTACATAAACAGATAAAAAGCCTGGGTCAGCGCCGTATACGCTTCGGAATAGTT +CTGGTCTGGCCCACGAATGACTAAGCGATCGCTAAAGCATTCTCCCGCCTGCGGGGAGAATGCCAGCAGC +ACCCGATGCGGCAGTCGCGCTTCGTTTTCCGCCACATCCGTCCGCAAACGTAAATGCCAGCCCATGCTTA +ATGCCAGCTCCGTAAAACCATTACCAATCTGCTCTGGCAGCACTACGCAGAAAAATCCCTCTTCGGTAAT +GCACTCCGCCGCACAGGTCAGCAACGATGGGTGATCAAGCGTAGTGGTATAGCGAGCCTGTTCCCGTTGA +GGTGTCGAGCACTCTACTCCCTGCTGATAGTAAGGTGGGTTACTGATGATTAAATCGAAGCGTACTGTCT +GCTGTGTGATCCACTGCTGAATATCCGCCGTATGGACGTTAATCCGCTCTGCCCACGGGGACTGGTTGAT +ATTTTCCTGCGCCTGCGCGGCAGCTTCACTTTCCAGTTCAACTGCATCAATCATCACGCTGTCATCGGTT +CGCTGCGCCAGCATTAATGCCAGCAACCCGCTACCCGCGCCGATATCAAGGCAACGTTTTACCCCAGCCA +CCGGTGCCCATGCGCCCAATAAAATACCATCCGTTCCCACTTTCATCGCACAGCGATCGTGAGCAACAAA +AAACTGTTTAAAAGTAAATCCATTACGACGAAGCACGGATGTAGACTGTGACATGAAAATAAAACCTTGC +AGGAAAAACGGCGATAGCACCGGGTGAGAACAATACCCGAGAAGCGATATCCATACAAACAGATGAAGAT +TGCAGCCGTAACGTCTATAATCAGCGCCCCACACAGAGGTAGAACATGACTGTAACGACTTTTTCCGAAC +TTGAACTCGACGAAAGCCTGCTGGAAGCCCTCCAGGATAAAGGTTTCACTCGCCCGACCGCCATTCAGGC +TGCCGCCATTCCGCCTGCGCTCGATGGCCGTGATGTACTCGGTTCTGCGCCGACAGGCACCGGTAAAACG +GCGGCGTATCTGCTGCCAGCGTTGCAGCACCTGCTCGATTTCCCGCGTAAGAAATCCGGTCCGCCGCGTA +TTTTGATCCTCACCCCAACTCGCGAGCTGGCGATGCAGGTGTCCGATCATGCCCGCGAACTGGCGAAACA +TACGCATCTGGATATCGCCACCATCACCGGCGGCGTAGCCTATATGAACCACGCGGAAGTGTTCAGCGAA +AATCAGGACATCGTGGTCGCCACGACCGGACGTCTGCTGCAATACATAAAAGAAGAGAACTTCGATTGCC +GCGCGGTTGAAACGCTGATCCTCGACGAAGCAGACCGTATGCTGGATATGGGCTTCGCTCAGGATATCGA +ACATATTGCTGGCGAAACGCGCTGGCGTAAACAGACCCTGCTCTTTTCGGCAACGCTGGAAGGCGATGCG +ATTCAGGACTTTGCCGAGCGTCTGCTGGAAGATCCGGTGGAAGTTTCTGCCAATCCCTCCACCCGTGAGC +GCAAAAAAATTCATCAGTGGTATTACCGCGCCGATGATCTTGAGCATAAAACCGCGTTGCTGGTGCATCT +GTTAAAACAGCCGGAAGCGACCCGCTCAATTGTGTTTGTGCGTAAGCGTGAGCGTGTGCATGAGCTGGCA +AACTGGCTGCGCGAAGCGGGCATCAACAACTGCTATCTCGAAGGTGAGATGGTACAGGGCAAGCGTAACG +AAGCGATCAAGCGTTTGACCGAAGGTCGCGTAAACGTACTGGTCGCAACCGATGTTGCCGCGCGCGGTAT +CGACATTCCTGACGTCAGCCACGTCTTTAACTTCGATATGCCGCGCAGTGGCGATACTTATTTGCACCGT +ATCGGACGTACCGCGCGCGCCGGTCGTAAAGGCACCGCAATTTCGCTGGTGGAAGCCCATGACCATCTGC +TGCTGGGTAAAGTAGGCCGCTATATTGAAGAGCCAATTAAAGCTCGCGTTATTGATGAGTTACGCCCGAA +AACGCGTGCGCCAAGCGAAAAGCAGACCGGCAAGCCATCGAAGAAAGTACTGGCTAAACGTGCTGAGAAG +AAAAAAGCTAAAGAGAAAGAGAAGCCGCGGGTGAAAAAACGCCATCGCGACACCAAAAATATTGGTAAGC +GCCGTAAACCAAGCGGAACGGGCGTGCCACCGCAAACGACAGAAGAGTAATCTCAATGCCAGGTTTAAGC +CTGGTATTAAAAGTGCTGGCAAACGCAAAACTGCCTGATGCGCTACGCTTATCAGGCCTACGTGGCTCAT +GCAATATATTGAATTTGCACGATCTTGTAGGCCGGATAAGGCGTTCACGCCGCATCCGGCATGAATAAAG +CGCACTTTGTCGACAAGTTAAATGCCGGGTTTAATCCCGACATTATTTTTATCCAGCCACAAAACTCTCT +TCAACACACTGAATAAAAGTGTGCATCGCCGGGCTAACCGCTTTTCCAGCATGATGTGCGCACATGGCCG +TAATGGTCTGCGACTGTTCGCCAAAAGGCAATTCAATTAATTCTCCGCACTCCAACTCTTTTGCCACCGC +AAAGCGCGGTAGGTAGCTGACCCCGATATTCGCCGCGACACAACGCTTGATGCTTTCGATACTTATAAGC +TCAATGGTGTTTTCCACCGTGATCCGCCGCTGACGCAGCGTGCTCTCAAATATCTGCCGGAAGACACATT +GCGGTTCGTTGATAATAAAGCTACAGGCGTTATGTCTTCCCGGCTCAGTAAAATCGACATCTGCAATTTG +CGGTGAAGCCACCAGCACCAGTGATTGTTCACCCAACTCTCGTCGATTCAGAGCATCATCATTCCCTACA +CGATAAAAGACGCCAACATCGGCCTCATCATTCAGTAGCGCATCACGGATCACGTAACAGTTCAGCGACT +GCAACGATAAACGCACTTTTGGGGCGCGTTGCCGAAAACGCTGCAACACCTGCGGCATTCGGTAAGAGAG +CAACGTTTCGCCCGAAACAACGCGTAGTTCCCCGTCCGGATCTGACTCCTTTTTGGCAGCCTCACGAAGC +GTATCCATCACTCGGGTAAGTTCATAAATGTGCGGCAGCAACTTTTTTCCTTCGCGGGTAAGGCACATCC +GTCGGCCAATTTTCTCAAATAACTGGACTGAAAACTCCTGCTCAAGCTGCTGAATATGAAAAGTCACCGT +CGATTGTGTACAGCACAATTTTTGCGAAGCTCGCAAAAAGGAACCCTCTTCCACCACGGTTTTAAGCGTA +ATAAAACGGCGCAGATCCATAACCCCAAACCTATCGAAAATATCGAATCTAGAATATAAAAACATTCATT +TTTTTAAATGTTCCGTGTCGGGTACTGTCTACCAAAACAGAGGAGATAACAAGTGACACCGACCCTTTTA +AGTGCTTTTTGGACTTACACCCTGATTACCGCTATGACGCCAGGACCGAACAATATTCTCGCCCTTAGCT +CTGCTACGTCGCATGGATTTCGTCAAAGTACCCGCGTGCTGGCAGGGATGAGTCTGGGATTTTTGATTGT +GATGTTACTGTGTGCGGGCATTTCATTTTCACTGGCAGTGATTGACCCGGCAGCGGTACACCTTTTGAGT +TGGGCGGGGGCGGCATATATTGTCTGGCTGGCGTGGAAAATCGCCACCAGCCCAACAAAGGAAGACGGAC +TTCAGGCAAAACCAATCAGCTTTTGGGCCAGCTTTGCTTTGCAGTTTGTGAACGTCAAAATCATTTTGTA +CGGTGTTACGGCACTGTCGACGTTTGTTCTGCCGCAAACACAGGCGTTAAGCTGGGTAGTTGGCGTCAGC +GTTTTGCTGGCGATGATTGGGACGTTTGGCAATGTGTGCTGGGCGCTGGCGGGGCATCTGTTTCAGCGAT +TGTTTCGCCAGTATGGTCGCCAGTTAAATATCGTGCTTGCCCTGTTGCTGGTCTATTGCGCGGTACGCAT +TTTCTATTAACGAAAAAAAGCGGAAGAGGTCGCCCTCTTCCGCTTAGTAACTTGCTACTTAAGCCTTACA +GGCTTTCAGTAAAGGTACGAGCGATAACGTCGCGCTGCTGTTCCGGAGTCAGAGAGTTAAAGCGAACTGC +ATAACCGGATACACGGATGGTCAGCTGCGGATATTTTTCCGGATGCTTAACTGCATCTTCCAGAGTTTCG +CGACGCAGAACGTTAACGTTCAGGTGTTGACCACCTTCAACGCGAACTTCTGGTTTCACTTCTACTGGAA +CTTCACGGTATTCAATGTCACCCAGTTTGCTTACTGCAACCACTTCATCTTCTGCATAACCTGCTTTTGC +AACGATGCAACGCGCTTCGCCTTTTTCGCTGTCCAGCAGCCAGAAAGAGTTCAGCAGATCGTCGTTAGCG +GCTTTAGTAATCTGGATACCTGTAATCATGTGATGCCTCCCCGGCAAAATTATTTGATTTGTTCAGCCTG +TCGCGGCCAATTGGTAAAACCATTGTTGCTTGAGTGTATATATACTCCTCAAACACCCTTGAATCTTTGA +TTTAAATCAATAAAAACCACACATCAAGTATGGTCGCAAATGGATTTTATTGTTTTACATCAACTTATGC +GGGTGTGAAATTTTACCAATTTACATTTTTTTGCACTCGTTTAAGTCTAAAAAATGAGCATGATTTTGTT +CTGTAGAAAGAAGCAGTTAAGCTAGGCGGATTGAAGATTCGCAGGAGAGCGAGATGGCTAACGAATTAAC +CTGGCATGACGTGCTGGCTGAAGAGAAGCAGCAACCCTATTTTCTTAATACCCTTCAGACCGTCGCCAGC +GAGCGGCAGTCCGGCGTCACTATCTACCCACCACAAAAAGATGTCTTTAACGCGTTCCGCTTTACAGAGT +TGGGTGACGTTAAAGTGGTGATTCTCGGCCAGGATCCTTATCACGGACCGGGACAGGCGCATGGTCTGGC +ATTTTCCGTTCGTCCCGGCATTGCCATTCCTCCGTCATTATTGAATATGTATAAAGAGCTGGAAAATACT +ATTCCGGGCTTCACCCGCCCTAATCATGGTTATCTTGAAAGCTGGGCGCGTCAGGGCGTTCTGCTACTCA +ATACTGTGTTGACGGTACGCGCAGGTCAGGCGCATTCCCACGCCAGCCTCGGCTGGGAAACCTTCACCGA +TAAAGTGATCAGCCTGATTAACCAGCATCGCGAAGGCGTGGTGTTTTTGTTGTGGGGATCGCATGCGCAA +AAGAAAGGGGCGATTATAGATAAGCAACGCCATCATGTACTGAAAGCACCGCATCCGTCGCCGCTTTCGG +CGCATCGTGGATTCTTTGGCTGCAACCATTTTGTGCTGGCAAATCAGTGGCTGGAACAACGTGGCGAGAC +GCCGATTGACTGGATGCCAGTATTACCGGCAGAGAGTGAGTAAATTTGCGGGGAAATGCCGGATGGCAGA +GTTGCCACCCGGCTGATTTATCAGGCTTTATTCTGACGCCACCATTCACCAAGCAAAACGCCGGTTGCGA +CAGAGATATTCAGCCCGGCAACGTTGCCCGTACCGTCAATCTTCACGCGCAGATCGTTCGGATCGCGTGC +GGCATCCGGTAACCCTTCATATTCCTGACCCAGCACCAGTACCATTTTCGCTGGCAGACTAGTTTTGAAC +AGCGGTTTACCCTGCTCGCTGGAAGTGGTCACTACGGTGTAACCTGCCTGACGGAAATCATCCAGCACGT +TAACAATGTTGTCGCCAGTAATCGGCTGAACGTGCTCTGCGCCGCCTTCTGCGGTACGGATAGCCGCCCC +CGACTCCAGCAGTGCCGCATCCTGCACCACGACACCTTTCACGCCGAAGTGCGCGCAGCTGCGCATCATG +CCACCCAGGTTATGCGGGTTAGATTCGTTTTCCAGTGCCAGAACGCAATCCTGCGCGCCTGCCTGGCTTA +CCCACTGCTGCACGGTTGTACCGTTACGCTTTTTGATCAAGAAGCAAACGCCGCCGTGATGTTCCGTGCC +TGACGCTTTTGTCAATTCCGCTTCATCCACCACATGGTACGCTTTGCGGTTTGCTGCCATCCAGCGCAAA +GCTTCTTTAAAACGCGGCGTTACACTCTGGATAAACCAGGCGCGAACAATCGCTTCCGGACGGCTCTGGA +AAAGTGCCTGACATGCATTTTCGCCGTAGACGCGGGTTTCTTCCGCACGCTGACGACGCAACACTTCCGG +ATCAATAAAACTTTTACCACTGATGCCACCGTGATCGGCCTTTTCCGGCGTCTCATCACCCGGCGCGCGG +GAAACCGTGCGCCACGGCGAATCTTCCCACTTGCGGTCACGGGGCTGACTCTGTTTGTCATCGCGGGCGG +GGCGACGGCCACCGTCAGCACGAGATTTTCCTGGACGCCCGCCCCCTTTCCCGGTACGCGGGTTGTGGGT +ACGTTTATCAGAATCATCATCACTGCGGACATACATCACTTTGACCTTGCCGCTTTTACCTTTCATTTCA +TCGTTCATGCTTTTCTCCACCAGCGCTGCGCGAAGCGCGCAGATTACCCGAAGTCCGCGCGGTTCGCCAT +GATTTCGTACCAAAGCCTGCGACTATCATACCTATTGAATAAAACAGATTGTTGTCTGGAACAATGTCCC +CGATAATATGTAACATATTAGAAACATACCGGCGTCGTTGCCGATAAGTCTCCTTACTCATCCCGAGGTT +AGTTATGAATACCGTTTGTACCCATTGTCAGGCCATCAATCGCATTCCCGACGATCGGATCGAAGATGCG +GCAAAATGCGGACGCTGCGGTCACGACTTGTTTGACGGAGAGGTGATTAATGCGACCGGTGAAACACTCG +ACAAATTGCTGAAGGATGATCTACCTGTGGTGATCGACTTCTGGGCACCGTGGTGCGGCCCCTGCCGTAA +TTTCGCACCAATTTTTGAAGATGTCGCGCAAGAGCGTAGCGGTAAAGTGCGCTTTGTGAAAGTGAATACC +GAAGCTGAACGTGAATTGAGCAGTCGCTTTGGAATTCGTAGTATACCGACGATCATGATTTTCAAAAACG +GTCAGGTTGTCGACATGCTTAATGGCGCAGTACCGAAAGCGCCGTTCGATAGCTGGCTGAACGAATCTCT +TTAATCTTACCGGGGCGCATCTTGTGCCCCGTTTTCTCCTCTGCGACAATGGCGTTTTTTCGACGCTCTC +TTATGACCGAAAACGCTGTTCTCCAGTTACGCGCCGAGCGTATTGCGCGCGCAACACGTCCTTTTCTTGC +CCGCGGTAATCGCGTTCGTCGCTGCCAACGCTGTCTTTTGCCAGAGAAATTATGTCTCTGTTCGACAATT +ACCCCAGCACAAGCAAAAAGTCGCTTCTGTTTGCTGATGTTCGACACCGAGCCAATGAAGCCCAGTAATA +CCGGGCGTCTCATTGCTGATATTTTGCCTGATACCGTTGCGTTTCAATGGTCGCGTACCGAACCCTCGCA +GGATTTGCTGGAGTTGGTGCAAAACCCGGACTATCAGCCAATGGTGGTCTTTCCCGCTTCGTATGCTGAT +GAGCAACGGGAAGTGATCTTCACACCACCTGCCGGTAAGCCACCGCTGTTTATCATGCTCGATGGTACCT +GGCCGGAAGCTCGCAAGATGTTTCGTAAAAGTCCGTATCTGGATAATCTTCCCGTCATTTCCGTCGATCT +TTCCCGGCTTTCTGCCTATCGCCTGCGTGAAGCCCAGGCTGAAGGCCAATATTGTACTGCCGAGGTAGCC +ATCGCACTGTTAGATATGGCCGGCGATACCGGGGCGGCGGCAGGGTTAGGCGAGCATTTTACCCGCTTTA +AAACACGCTATCTGGCAGGAAAAACGCAACATCTGGGTAGCATCACAGCAGAACAGTTAGAAAGCGTTTA +AAATCATTCGGTCACTTCTGCGGGAGACCGGTATGAGTCAGCGAGGACTGGAAGCACTACTGCGACCAAA +ATCGATAGCGGTAATTGGCGCGTCGATGAAACCCAATCGCGCAGGTTACCTGATGATGCGTAACCTGCTG +GCGGGAGGCTTTAACGGACCGGTACTCCCGGTGACGCCAGCCTGGAAAGCGGTGTTGGGTGTGTTGGCCT +GGCCGGATATTGCCAGCTTGCCCTTTACACCCGACCTTGCGGTTTTATGTACCAATGCCAGCCGTAATCT +TGCTCTTCTGGAAGAGCTCGGCGAGAAAGGCTGTAAAACCTGCATTATTCTTTCCGCCCCGGCATCGCAA +CACGAAGATCTCCGCGCCTGCGCCCTGCGCCATAACATGCGCCTGCTTGGACCAAACAGTCTGGGTTTAC +TGGCTCCCTGGCAAGGTCTGAATGCCAGCTTTTCGCCTGTGCCGATTAAACGCGGCAAGCTGGCGTTTAT +TTCGCAATCGGCTGCCGTCTCCAACACCATCCTCGACTGGGCGCAACAGCGTAAGATGGGCTTTTCCTAC +TTTATTGCGCTCGGCGACAGCCTGGATATCGACGTTGATGAATTGCTTGACTATCTGGCACGCGACAGTA +AAACCAGCGCCATCCTGCTCTATCTCGAACAGTTAAGCGACGCGCGACGCTTTGTTTCGGCGGCCCGTAG +TGCCTCGCGTAATAAACCGATTCTGGTGATTAAAAGCGGACGTAGCCCGGCGGCACAGCGACTGCTCAAC +ACGACGGCAGGAATGGACCCGGCATGGGATGCGGCTATTCAGCGTGCCGGTTTGTTGCGGGTACAGGACA +CCCACGAGCTGTTTTCGGCGGTGGAAACCCTTAGCCATATGCGCCCGCTACGTGGCGACCGGCTGATGAT +TATCAGCAACGGTGCTGCGCCTGCCGCGCTGGCGCTGGATGCCTTATGGTCACGCAATGGCAAGCTGGCA +ACGCTAAGCGAAGAAACCTGCCAGAAACTGCGCGATGCACTGCCAGAACATGTGGCAATATCTAACCCGC +TCGATCTACGCGATGACGCCAGCAGTGAGCACTATATTAAAACGCTGGATATTCTGCTCCACAGCCAGGA +TTTTGACGCGCTGATGGTTATTCATTCGCCCAGCGCCGCTGCTCCCGCAACAGAAAGCGCGCAAGTATTA +ATTGAAGCGGTAAAGCATCATCCCCGCAGCAAATATGTCTCTTTGCTGACGAACTGGTGCGGCGAGCACT +CCTCGCAAGAGGCACGACGTTTATTCAGCGAAGCCGGGCTGCCGACCTACCGTACCCCGGAAGGAACCAT +CACTGCTTTTATGCATATGGTGGAGTACCGGCGTAATCAGAAGCAACTACGCGAAACGCCGGCGTTGCCC +AGCAATCTGACTTCCAATACCGCAGAAGCGCATCTTCTGTTGCAACAGGCGATTGCCGAAGGGGCTACGT +CGCTCGATACCCATGAAGTTCAGCCCATCCTGCAAGCGTATGGCATGAACACGCTCCCTACCTGGATTGC +CAGCGATAGCACCGAAGCGGTGCATATTGCCGAACAGATTGGTTATCCGGTGGCGCTGAAATTGCGTTCG +CCGGATATTCCACATAAATCGGAAGTTCAGGGCGTCATGCTTTACCTGCGTACAGCCAATGAAGTCCAGC +AAGCGGCGAACGCTATTTTCGATCGCGTAAAAATGGCCTGGCCACAGGCGCGGGTCCACGGCCTGTTGGT +GCAAAGTATGGCTAACCGTGCTGGCGCTCAGGAGTTGCGGGTTGTGGTTGAGCACGATCCGGTTTTCGGG +CCGTTGATCATGCTGGGTGAAGGCGGTGTGGAGTGGCGTCCTGAAGATCAAGCCGTCGTCGCACTGCCGC +CGCTGAACATGAACCTGGCCCGCTATCTGGTTATTCAGGGGATCAAAAGTAAAAAGATTCGTGCGCGCAG +TGCGCTACGCCCATTGGATGTTGCAGGCTTGAGCCAGCTTCTGGTGCAGGTTTCCAACTTGATTGTCGAT +TGCCCGGAAATTCAGCGTCTGGATATTCATCCTTTGCTGGCTTCTGGCAGTGAATTTACCGCGCTGGATG +TCACGCTGGATATCTCGCCGTTTGAAGGCGATAACGAGAGTCGGCTGGCAGTGCGCCCTTATCCGCATCA +GCTGGAAGAATGGGTAGAATTGAAAAACGGTGAACGCTGCTTGTTCCGCCCGATTTTGCCAGAAGATGAG +CCACAACTTCAGCAATTCATTTCGCGAGTCACCAAAGAAGATCTTTATTACCGCTACTTTAGCGAGATCA +ACGAATTTACCCATGAAGATTTAGCCAACATGACACAGATCGACTACGATCGGGAAATGGCGTTTGTAGC +GGTACGACGTATTGATCAAACGGAAGAGATCCTCGGCGTCACGCGTGCGATTTCCGATCCTGATAACATC +GATGCCGAATTTGCTGTACTGGTTCGCTCGGATCTCAAAGGGTTAGGCTTAGGTCGACGCTTAATGGAAA +AGTTGATTACCTATACGCGAGATCACGGACTACAACGTCTGAATGGTATTACGATGCCAAACAATCGTGG +CATGGTGGCGCTAGCCCGCAAGCTCGGGTTTAACGTTGATATCCAGCTCGAAGAGGGGATCGTTGGGCTT +ACGCTAAATCTTGCCCAGCGCGAGGAATCATGAGTAAGGTACTGGAAATGTTGACCACTTAATCGGGACT +GGTGTTATTATTGCCCGCTTATGTCGTCTGCATTGCACAGAGGACCCTTCAATGAACAGAGAAGAAATGC +ACTGTGATGTTGTCAAAATTTAAGCGTAATAAACATCAACAACACCTTGCCCAACTACCCAAGATTTCTC +AATCAGTTGATGATGTCGATTTCTTTTACGCTCCCGCCGACTTCCGGGAGACGCTGCTGGAAAAAATAGC +CAGCGCGAAGCAGCGCATTTGCATTGTCGCCCTGTATCTCGAACAGGATGACGGTGGCAAAGGCATTCTG +AACGCGTTGTATGAGGCTAAAAGGCAGCGTCCGGAACTGGATGTGCGGGTGCTGGTCGACTGGCATCGTG +CACAACGTGGACGCATTGGCGCTGCGGCATCTAACACTAACGCTGACTGGTACTGCCGCATGGCGCAGGA +AAATCCGGGCGTAGATGTTCCGGTTTATGGCGTTCCAATCAATACTCGTGAAGCCCTTGGTGTTCTGCAC +TTTAAAGGCTTTATCATCGACGATAGCGTACTTTATAGCGGTGCCAGCCTGAACGATGTTTACCTGCATC +AGCACGATAAATATCGCTACGACCGTTATCATCTGATCCGTAACCGTAAGATGTCAGACATTATGTTTGA +ATGGGTTACACAGAATATTATGAATGGCCGCGGCGTTAATCGTCTGGATGATGTTAATCGGCCAAAAAGC +CCGGAAATCAAGAACGATATTCGTCTGTTCCGCCAGGAGCTGCGTGATGCCGCTTATCATTTCCAGGGCG +ATGCCGACAACGATCAGCTTTCTGTAACGCCGCTAGTGGGGCTGGGGAAATCGAGTCTGTTGAACAAGAC +CATTTTCCATCTTATGCCTTGTGCCGAGCAGAAACTAACCATCTGTACGCCATACTTCAACCTGCCAGCA +ATCCTTGTGCGCAATATTATCCAGTTGCTGCGCGAAGGGAAAAAGGTCGAAATTATTGTTGGTGATAAAA +CCGCGAATGACTTCTACATTCCGGAAGATGAACCTTTCAAGATAATTGGCGCATTGCCTTATCTCTATGA +GATCAATCTGCGTCGTTTCCTGAGCCGTTTGCAGTATTACGTCAATACTGACCAGCTAGTGGTTCGGTTA +TGGAAAGATGACGACAACACCTATCACCTGAAAGGGATGTGGGTTGATGATAAGTGGATGTTGATCACCG +GTAATAACCTGAACCCGCGCGCCTGGCGTCTGGATCTGGAAAACGCCATTTTGATCCACGATCCGCAACT +TGAGCTGGCGCCACAGCGAGAGAAAGAACTGGAGCTGATCCGCGAGCATACCACCATCGTTAAGCACTAT +CGCGATCTGCAAAGTATTGCCGATTATCCGGTGAAGGTTCGTAAACTCATCCGCCGTTTGCGCCGTATCC +GCATCGACCGATTAATTAGCCGCATCCTGTAATCACAACCCCGTCCTGTACGGGGTTTGTTTTTTGGAGG +CCACGTTTTGCGTATTCTTTTTGTCTGTTCGCTATTGTTACTTTCTGGATGCAGCCATATGGCTAACGAT +AGCTGGAGCGGGCAGGATAAAGCTCAACACTTTATCGCCTCGGCGATGCTTTCCGCCGCCGGAAATGAAT +ATTCACAGCATCAGGGGATGAGCCGGGATCGCAGTGCCATGTTTGGATTGATGTTCTCTGTCAGTTTGGG +GGCGTCAAAAGAGCTTTGGGATAGCCGCCCCGAAGGGAGCGGCTGGAGCTGGAAGGATTTGGCCTGGGAT +GTCGCCGGTGCAAGCACCGGCTATACCGTCTGGCAACTGACCCGTCACTAAAGACGCATCCCCTTCCCTT +TGCGATGTAGCATCAAAGAAACCAGAAACGCCACCACGGCCATCAAGGTCACATACCAGAAGAAGGCTGT +TTCCATTCCTATTGATTTCAGCGACAACGCTACGTACTCCGCCGAACCACCAAATATAGCATTAGCGACC +GCATATGACAGACCAACGCCTAATGCGCGAACCTGTGCCGGGAACATCTCAGCCTTCAGTATTCCACTGA +TTGATGTATAAAAACTCACTATCAGCAGGGCACACATCACCAGACCAAAAGCGGCATAAGGCGAGGAAAC +GTTTTGCAATGCTGAGAGAATAGGAACGGTAAAAATGGCTGCCAGCGAACCGAAACATAACATTGAGGTA +CGGCGACCAATCTTATCCGACAGCGCGCCAATGAGTGGTTGAATAAGCATGAATACAAACAATGCGGCAG +TCATAATGCCACTCGCCACGTTGGCATGCATTCCCGCAGTATTTACCAGATACTTCTGCATATAAGTAGT +GAAGGTATAGAAACAAAGGGAGCCCGCAGCGGTAAAACCGAGAACCATGATGAATGCACGGCGATTGCGC +CATAATCCTTTCAGAGATCCAGCTTCTTTTAAAGCGCGCGTTTCTTGTTGCGAAGTTTCATCTAACTGAC +GACGTAACCACAACGCCACAACAGCTAACACAGCTCCTAACGCGAAAGGAATACGCCATCCCCACTCTCT +GAGTGCAGCGTCTTCCATGGTGTGTTGTAAAACCACGACAACCAGTAGGGCTAGCAGTTGTCCGCCGATC +AACGTCACATACTGAAATGATGCGTAAAAACCTTTGCGCCCTTCAACGGCAACTTCACTCATATAGGTGG +CGCTGGTGCCATATTCTCCGCCAACAGATAATCCCTGAAATAAACGAGCGAGAAGCAATAATGCCGGAGC +CCACGTACCTATAGTTTCATAACCTGGGAGGCAGGCGATAACCAGCGATCCGAAACACATCATACACACC +GATAACAGCATCGATTTTTTGCGACCATGTTTATCGGCTATGCGGCCAAATAGCCAACCGCCTATTGGGC +GCATCAGGAATCCCGCAGCAAAAACACCTGCTGTTTGTAGTAGTTGAGTCGTCGTGTTCCCGGAAGGGAA +GAAGATGTGGGCAAAGTAGAGTGAACAGAACGAGTAGACATAGAAATCGAACCACTCGACCAGATTACCT +GAAGAGGCCCCCACAATCGCCCAAATGCGGCGACGAGTATCACTACTTGTCAGTTTGCTGTCTGCCGTTA +CAGTACTTTCAGCCATGCCATTATGTCTCCTGCCGTAATCCGATGCTTTTGTCGGTCGCTTTTGTTTATT +TTTTTTGTAAAGGAAATATTATACATTTGTTGCATATCATTATGCAACCTTAACCATGAATTTAGTTAGC +AGGAAAATGGTTATTGAGGAGCTTAAGGATAAATTTCTGGTAAGGAGGACACGTATGGAAGTGGGCAAGT +TGGGGAAGCCGTATCCGTTGCTGAATCTGGCATATGTGGGAGTATAAGACGCGCAGCGTCGCATCAGGCA +TTTTTTTCTGCGCCAATGCAAAAAGGCCATCCGTCAGGATGGCCTTTCGCATAATTTGATGCCTGGCAGT +TCCCTACTCTCGCATGGGGAGACCCCACACTACCATCGGCGCTACGGCGTTTCACTTCTGAGTTCGGCAT +GGGGTCAGGTGGGACCACCGCGCTACGGCCGCCAGGCAAATTCTGTTTTATCAGACCGCTTCTGCGTTCT +GATTTAATCTGTATCAGGCTGAAAATCTTCTCTCATCCGCCAAAACAGCTTCGGCGTTGTAAGGTTAAGC +CTCACGGTTCATTAGTACCGGTTAGCTCAACGCATCGCTGCGCTTACACACCCGGCCTATCAACGTCGTC +GTCTTCAACGTTCCTTCAGGACCCTTAAAGGGTCAGGGAGAACTCATCTCGGGGCAAGTTTCGTGCTTAG +ATGCTTTCAGCACTTATCTCTTCCGCATTTAGCTACCGGGCAGTGCCATTGGCATGACAACCCGAACACC +AGTGATGCGTCCACTCCGGTCCTCTCGTACTAGGAGCAGCCCCCCTCAGTTCTCCAGCGCCCACGGCAGA +TAGGGACCGAACTGTCTCACGACGTTCTAAACCCAGCTCGCGTACCACTTTAAATGGCGAACAGCCATAC +CCTTGGGACCTACTTCAGCCCCAGGATGTGATGAGCCGACATCGAGGTGCCAAACACCGCCGTCGATATG +AACTCTTGGGCGGTATCAGCCTGTTATCCCCGGAGTACCTTTTATCCGTTGAGCGATGGCCCTTCCATTC +AGAACCACCGGATCACTATGACCTGCTTTCGCACCTGCTCGCGCCGTCACGCTCGCAGTCAAGCTGGCTT +ATGCCATTGCACTAACCTCCTGATGTCCGACCAGGATTAGCCAACCTTCGTGCTCCTCCGTTACTCTTTA +GGAGGAGACCGCCCCAGTCAAACTACCCACCAGACACTGTCCGCAACCCGGATTACGGGTCAACGTTAGA +ACATCAAACATTAAAGGGTGGTATTTCAAGGTCGGCTCCATGCAGACTGGCGTCCACACTTCAAAGCCTC +CCACCTATCCTACACATCAAGGCTCAATGTTCAGTGTCAAGCTATAGTAAAGGTTCACGGGGTCTTTCCG +TCTTGCCGCGGGTACACTGCATCTTCACAGCGAGTTCAATTTCACTGAGTCTCGGGTGGAGACAGCCTGG +CCATCATTACGCCATTCGTGCAGGTCGGAACTTACCCGACAAGGAATTTCGCTACCTTAGGACCGTTATA +GTTACGGCCGCCGTTTACCGGGGCTTCGATCAAGAGCTTCGCTTGCGCTAACCCCATCAATTAACCTTCC +GGCACCGGGCAGGCGTCACACCGTATACGTCCACTTTCGTGTTTGCACAGTGCTGTGTTTTTAATAAACA +GTTGCAGCCAGCTGGTATCTTCGACTGATTTCAGCTCCATCCGCGAGGGACCTCACCTACATATCAGCGT +GCCTTCTCCCGAAGTTACGGCACCATTTTGCCTAGTTCCTTCACCCGAGTTCTCTCAAGCGCCTTGGTAT +TCTCTACCTGACCACCTGTGTCGGTTTGGGGTACGATTTGATGTTACCTGATGCTTAGAGGCTTTTCCTG +GAAGCAGGGCATTTGTTGCTTCAGCACCGTAGTGCCTCGTCATCACGCCTCAGCCTTGATTTTCCGGATT +TGCCTGGAAAACCAGCCTACACGCTTAAACCGGGACAACCGTCGCCCGGCCAACATAGCCTTCTCCGTCC +CCCCTTCGCAGTAACACCAAGTACAGGAATATTAACCTGTTTCCCATCGACTACGCCTTTCGGCCTCGCC +TTAGGGGTCGACTCACCCTGCCCCGATTAACGTTGGACAGGAACCCTTGGTCTTCCGGCGAGCGGGCTTT +TCACCCGCTTTATCGTTACTTATGTCAGCATTCGCACTTCTGATACCTCCAGCATGCCTCACAGCACACC +TTCGCAGGCTTACAGAACGCTCCCCTACCCAACAACGCATAAGCGTCGCTGCCGCAGCTTCGGTGCATGG +TTTAGCCCCGTTACATCTTCCGCGCAGGCCGACTCGACCAGTGAGCTATTACGCTTTCTTTAAATGATGG +CTGCTTCTAAGCCAACATCCTGGCTGTCTGGGCCTTCCCACATCGTTTCCCACTTAACCATGACTTTGGG +ACCTTAGCTGGCGGTCTGGGTTGTTTCCCTCTTCACGACGGACGTTAGCACCCGCCGTGTGTCTCCCGTG +ATAACATTCTCCGGTATTCGCAGTTTGCATCGGGTTGGTAAGTCGGGATGACCCCCTTGCCGAAACAGTG +CTCTACCCCCGGAGATGAATTCACGAGGCGCTACCTAAATAGCTTTCGGGGAGAACCAGCTATCTCCCGG +TTTGATTGGCCTTTCACCCCCAGCCACAAGTCATCCGCTAATTTTTCAACATTAGTCGGTTCGGTCCTCC +AGTTAGTGTTACCCAACCTTCAACCTGCCCATGGCTAGATCACCGGGTTTCGGGTCTATACCCTGCAACT +TAACGCCCAGTTAAGACTCGGTTTCCCTTCGGCTCCCCTATTCGGTTAACCTTGCTACAGAATATAAGTC +GCTGACCCATTATACAAAAGGTACGCAGTCACACGCCTAAGCGTGCTCCCACTGCTTGTACGTACACGGT +TTCAGGTTCTTTTTCACTCCCCTCGCCGGGGTTCTTTTCGCCTTTCCCTCACGGTACTGGTTCACTATCG +GTCAGTCAGGAGTATTTAGCCTTGGAGGATGGTCCCCCCATATTCAGACAGGATACCACGTGTCCCGCCC +TACTCATCGAGCTCACAGCATGTGCATTTTTGTGTACGGGGCTGTCACCCTGTATCGCGCGCCTTTCCAG +ACGCTTCCACTAACACACACACTGATTCAGGCTCTGGGCTGCTCCCCGTTCGCTCGCCGCTACTGGGGGA +ATCTCGGTTGATTTCTTTTCCTCGGGGTACTTAGATGTTTCAGTTCCCCCGGTTCGCCTCATTAACCTAT +GGATTCAGTTAATGATAGTGTGTCGAAACACACTGGGTTTCCCCATTCGGAAATCGCCGGTTATAACGGT +TCATATCACCTTACCGACGCTTATCGCAGATTAGCACGTCCTTCATCGCCTCTGACTGCCAGGGCATCCA +CCGTGTACGCTTAGTCGCTTAACCTCACAACCCGAAGATGTTTCACTTCAGAGTTGCGAAAATTTGAGAG +ACTCACGAACAACTTTCATTGTTCAGTGTTTCAATTTTCAGCTTGATCCAGATTTTTAAAGAGCAAATAT +ATCAAACAAGACTTAACAGTCTGTTTTGAGATATTGAGGTCGGCGACTTTCACTCACAAACCAGCAAGTG +GCGTCCCCTAGGGGATTCGAACCCCTGTTACCGCCGTGAAAGGGCGGTGTCCTGGGCCTCTAGACGAAGG +GGACACGAAAATTGCTTATCACGCGTTGCGTGATATTTTCGTGTAGGGTGAGCTTTCATTAATAGAAAGC +GAACGGCCTTATTCTCTTCAGCCTCACTCCCAACGCGTAAACGCCTTGCTATTCACTTTTCATCAGACAA +TCTGTGTGAGCACTGCAAAGTACGCTTCTTTAAGGTAAGGAGGTGATCCAACCGCAGGTTCCCCTACGGT +TACCTTGTTACGACTTCACCCCAGTCATGAATCACAAAGTGGTAAGCGCCCTCCCGAAGGTTAAGCTACC +TACTTCTTTTGCAACCCACTCCCATGGTGTGACGGGCGGTGTGTACAAGGCCCGGGAACGTATTCACCGT +GGCATTCTGATCCACGATTACTAGCGATTCCGACTTCATGGAGTCGAGTTGCAGACTCCAATCCGGACTA +CGACGCACTTTATGAGGTCCGCTTGCTCTCGCGAGGTCGCTTCTCTTTGTATGCGCCATTGTAGCACGTG +TGTAGCCCTGGTCGTAAGGGCCATGATGACTTGACGTCATCCCCACCTTCCTCCAGTTTATCACTGGCAG +TCTCCTTTGAGTTCCCGGCCGGACCGCTGGCAACAAAGGATAAGGGTTGCGCTCGTTGCGGGACTTAACC +CAACATTTCACAACACGAGCTGACGACAGCCATGCAGCACCTGTCTCACGGTTCCCGAAGGCACATTCTC +ATCTCTGAAAACTTCCGTGGATGTCAAGACCAGGTAAGGTTCTTCGCGTTGCATCGAATTAAACCACATG +CTCCACCGCTTGTGCGGGCCCCCGTCAATTCATTTGAGTTTTAACCTTGCGGCCGTACTCCCCAGGCGGT +CGACTTAACGCGTTAGCTCCGGAAGCCACGCCTCAAGGGCACAACCTCCAAGTCGACATCGTTTACGGCG +TGGACTACCAGGGTATCTAATCCTGTTTGCTCCCCACGCTTTCGCACCTGAGCGTCAGTCTTCGTCCAGG +GGGCCGCCTTCGCCACCGGTATTCCTCCAGATCTCTACGCATTTCACCGCTACACCTGGAATTCTACCCC +CCTCTACGAGACTCAAGCTTGCCAGTATCAGATGCAGTTCCCAGGTTGAGCCCGGGGATTTCACATCTGA +CTTAACAAACCGCCTGCGTGCGCTTTACGCCCAGTAATTCCGATTAACGCTTGCACCCTCCGTATTACCG +CGGCTGCTGGCACGGAGTTAGCCGGTGCTTCTTCTGCGGGTAACGTCAATGAGCAAAGGTATTAACTTTA +CTCCCTTCCTCCCCGCTGAAAGTACTTTACAACCCGAAGGCCTTCTTCATACACGCGGCATGGCTGCATC +AGGCTTGCGCCCATTGTGCAATATTCCCCACTGCTGCCTCCCGTAGGAGTCTGGACCGTGTCTCAGTTCC +AGTGTGGCTGGTCATCCTCTCAGACCAGCTAGGGATCGTCGCCTTGGTGAGCCGTTACCCCACCAACAAG +CTAATCCCATCTGGGCACATCCGATGGCAAGAGGCCCGAAGGTCCCCCTCTTTGGTCTTGCGACATTATG +CGGTATTAGCTACCGTTTCCAGTAGTTATCCCCCTCCATCAGGCAGCTTCCCAGACATTACTCACCCGTC +CGCCACTCGTCAGCGAAGCAGCAAGCTGCTTCCTGTTACCGTTCGACTTGCATGTGTTAGGCCTGCCGCC +AGCGTTCAATCTGAGCCATGATCAAACTCTTCAATTTAAAAGTTTGATGCTCAAAGAATTAAACTTCGTA +ATGAATTACGTGTTCACTCTTGAGACTTGGTATTCATTTTTCGTCTTGCGACGTTAAGAATCCGTATCTT +CGAGTGCCCACACAGATTGTCTGATAAATTGTTAAAGAGCAGTGCCGCTTCGCTTTTTCTCAGCGGCGCG +GGGTGTGCATAATACGCCTTCCCGCTACAGAGTCAAGCATTTCTTTGCTTTTCTCTGTTGAGATTCTCAG +GAGAACCCCGCCGACCCGGCGGCGTGTTTGCCGTTGTTCCGTGTCAGTGGTGGCGCATTATAGGGAGTTA +TTCCGGCCTGACAAGCGAAAAATATAAAAACTTTATCGTTCGCTCACTTTTCAGGCAAAACATCTTAAAT +ATAGTCTTTTCCGTCTAACTTATAGACAAAAACGAGCCCCGAAGGGCTCGTTTTATCATTTACTGGACGG +CGACAATCCGGTCTTCATTAACTTCCAGGCGAATCACTTTACCCGGAACCAATTCACCAGACAGTATTTG +CTGTGCCAGCGGGTTTTCGATCTGCTGCTGAATTGCACGTTTCAGAGGACGTGCACCATAGACCGGATCG +TAACCGTTCTCGCTCAGCAGTTTCAGCGCCTCGTCAGAAATGTGGATTTCATAACCACGTTCTTCCAGAC +GTTTGTACAGACGTTTCAACTGAATCTGCGCAATCGAGGCAATGTGCTGTTCACCCAGCGGATGGAAGAC +CACCACTTCATCGATACGGTTAATGAATTCCGGACGGAAGTTATGGCTTACCACACCGAGCACCAGCTCT +TTCATGTGCGCATAATCCAGTTCACCGAAGCGTTCCTGAATCAGATCGGAACCGAGGTTAGAGGTCATAA +TGACGACCGTATTACGGAAGTCGACCGTTCTCCCTTGCCCGTCAGTCAGACGCCCATCATCCAGTACCTG +CAACAGAATGTTGAAGACATCCGGATGCGCTTTTTCCACTTCATCCAGCAGGATGACGGAATACGGACGA +CGACGCACCGCTTCGGTCAGGTAGCCACCTTCTTCATAACCGACATATCCCGGAGGCGCACCAACCAAAC +GAGACACCGAGTGTTTCTCCATAAACTCGGACATATCGATACGGACCATCGCCTCGTCGCTATCAAACAT +AAAGTTCGCCAGCGCCTTACAAAGCTCTGTTTTCCCCACACCAGTTGGGCCGAGGAACAGGAATGAACCA +ATCGGGCGATTTGGATCCGCCAGCCCCGCACGGCTACGACGAATAGCGTTAGATACCGCATCAACCGCTT +CGTTCTGACCAATTACGCGATGGTGCAGTTCTTGCTCCATACGCAGCAGTTTTTCGCGCTCGCTTTCCAT +CATGCGAGAAACCGGAATCCCCGTCCAACGCGCCAGCACTTCAGCAATTTCGGCGTCGGTCACTTTATTA +CGCAACAGACGCATAGTTTTGCCTTCGAGCTGCGTTGCGGCTTCCAGTTGCTTTTCCAGTTCCGGGATTT +TGCCGTATTGCAGTTCAGACATCCGCGCCAGGTCCCCCACACGGCGAGCCTGTTCAATAGCGATTTTCGC +CTGTTCCAGTTCCGCTTTAATGGTCTGCGTACCAGAAAGCGATGCCTTCTCTGCTTTCCACTCTTCTTCT +AACTCGGAGTACTGACGTTCTTTGTCGCTCAGTTCTTCGTTGAGCATATCCAGACGTTTTTTACTGGCTT +CATCAGACTCTTTCATTAACGCCTGTTGTTCCAGTTTGAGCTGGATGATACGACGATCGAGTCGGTCGAG +TTCTTCTGGTTTTGAGTCAATCTGCATACGAATGCTGGATGCTGCTTCATCGATCAGGTCGATGGCTTTA +TCCGGCAGCTGACGGTCAGCAATGTAGCGATGAGACAACGTCGCCGCTGCAACAATTGCCGGGTCAGTAA +TTTGCACATGGTGGTGCAATTCGTAACGTTCTTTCAGGCCACGCAGAATCGCAATGGTATCTTCAACAGA +AGGCTCGGCAACAAACACTTTCTGGAAACGACGTTCCAGCGCAGCATCTTTTTCAATGTACTGGCGATAT +TCGTCAAGCGTCGTGGCACCTACGCAGTGCAATTCACCACGCGCCAGCGCCGGTTTCAGCATGTTTCCGG +CGTCCATTGCGCCATCGGCTTTACCCGCGCCGACCATGGTATGTAATTCGTCGATAAATAGGATGACGTT +GCCTTCCTGTTTGGCAAGATCGTTAAGCACGCCTTTTAAACGTTCTTCAAACTCACCGCGATATTTCGCC +CCAGCCACCAGCGCGCCCATATCCAGCGCCAGTACCCGGCGGCCTTTCAACCCTTCCGGCACTTCGCCGT +TGATAATACGCTGCGCCAGACCTTCAACGATGGCAGTTTTACCGACGCCGGGTTCACCAATCAGTACCGG +GTTATTTTTAGTACGACGTTGCAGCACCTGAATGGTACGGCGAATTTCTTCATCACGACCAATCACCGGA +TCGAGTTTGCCCTGTTCGGCTCGTTCGGTAAGGTCGATGGTATATTTTTTCAAAGCCTGACGTTGGTCTT +CAGCACCTTGATCGTTCACGCTTTCACCTCCACGCATTTGTTCAATCGCTTGAGTAATGTTGGCGGTGGT +CGCCCCTGCTGCTTTCAGGATGTCGGCCAGCGTGCCGCGAGACTCAAGTGCCGCCAGAACGAACAGTTCT +GACGAGATAAAGTTATCACCACGTTTTTGCGCCAGCTTGTCGCAAAGATTAAGAACGCGCACCAGATCCT +GTGATGGCTGGACATCACCACCAGTACCTTCAACCTGCGGTAAACGATTTAATGCCTGATTGATATCTGT +GCGCAACTGGCCAGCATTTATGCCAGCGGATGTTAATAAAGGACTAACCGAACCCCCTTCCTGATTCAGC +AGGGCGCTCATTAAATGAAGTGGTTCGATAAATTGGTTGTCGTGCCCGAGTGCAAGTGATTGGGCATCGG +CAAGAGCAAGCTGGAATTTATTAGTAAGACGATCCAGACGCATAACTCCTCCCATAACGGATCAAAGTTG +CTACTGGAGATTAAATGAGGTCATCCCTCAATTATTCAAGGTTATTGACCAGATTAATGTGAAAAGAAAA +TCACGCGTACCGGATCGTCTTGATTCTTTAGGTTATATCAGCCAAATGAAACTTGCCATACGACCGGTGG +TCTTGTCGCGACGATAAGAGAAGAAAGTCTCATTTTCCGTATATGTACAACGGTCGCCGCCGAAAATTTG +CTCAACACCCACGTTCGCCAGACGCTGCCGGGCAAGCTGATAAATATCCGCCAGATACTTATCACCATGC +TGAATGAAAGCTGCACTTGCTTTAGCGTCTACTGCCATAAACGCCTCGCGAACCTCCCCCCCCACTTCGA +ACGCGCGTGGACCAATTGCCGGCCCTAACCAGGCGAGAATATTTTCCGGATTATCAGCAAAACAGGAAAC +CGTCTCTTCCAGCACGCCTGCGCACAGTCCACGCCAGCCAGCATGAGCGGCGGCGACTTCCGTTCCCGCT +CGATTGCAAAACAGCACAGGGAGGCAGTCGGCAGTCATCACTGCGCAAACCGTGCCGGGCGTATTGCTAT +AAGAGGCATCCGCCCGTTTTGAGGCATAAGGTTCGCCAGTGAGCTTAAGCACATCTTTGCCGTGTACCTG +CTCAAGCCAGACCGGTTTAGAAGGCAAATTGCCCGCAGCAAAAAGTCGCTTGCGATTCTCCTCAACGTGA +TCCGGGTTATCGCCACAATGGGCACCGAGGTTGAGTGAGTCATACGGGGGCAAGCTCACGCCGCCGATAC +GAGTGGAGCTACAGGCCGCAACACCTTTTGGCTGCGGCCACTGCGGGACAATCAGCTTACTCATAACCAG +TCCACTTCATCCTTATGTTCTTCGAAATCGGCGCGCATCACCTCAATCAGCTCCACCATATCTTGTGGAA +TAGGCGCATGCCATTCCATTTCGATGCCGGAGATCGGGTGATAAAGACGCAGCATGGTTGCATGTAGCGC +CTGGCGGTCAAACTTACGCAGCGTGGAGATAAATGCTTCCGAAGCACCTTTTGGCGGACGCGGACGGCCA +CCATAAACCGGATCGCCCACCAGCGGATGAGTGATATGGGCCATATGCACGCGGATCTGGTGCGTACGTC +CAGTTTCCAGACGCAACCGCAGACGCGTGTGCACACGGAAGTGTTCCATGATGCGATAGTGAGTCACCGC +TGGTTTGCCCATCGGATGCACCGCCATATGGGTACGTTTGGTCGGGTGGCGACTGATTGGCTCGTCCACC +GTGCCACCTGCGGTCATATGACCAATCGCCACCGCTTCATACTCACGAGTAATTTCACGCCGTTGCAAAG +ATTCGACTAAACGCGTCTGAGCCGGAACGGTTTTTGCCACAACCATCAGGCCAGTGGTGTCTTTATCCAG +ACGATGGACGATGCCCGCACGCGGTACATCGGCAATGGGTGGATAGTAATGAAGCAACGCATTCAGTACC +GTGCCATCCGGGTTACCCGCGCCAGGATGTACCACCAGGTCGCGCGGTTTATTAATGATAATAATGTCTT +CATCTTCATAGACGATATCCAGCGGGATATCCTGCGGTTCAAAACGCGCTTCTTCTTCAATCTCAGCGTT +GATGGCAACCTGCTCGCCACCCAATACTTTTTCTTTCGGCTTATCACAAACTTTGCCGTTAACCAGCACT +CGCTGGTCGAGGATCCATTCTTTTATTCGCGAACGTGAATAATCCGGGAACATTTCGGCCAAAGCCTGAT +CTAAGCGTTGACCGAGTTGGTTTTCGGACACCGTTGCAGTGAGCTGTACTCGTTGTGCCATATATACTGC +TTCTTCGTTTATCGTTGGGGTTTTACGGCTTTGCCGTTTAATATAGTGTGCTATTGTAGCTGGTCTTAAC +CGGGAGCAGGAACAGAGAATCTCCCGTATTACATTTTGAGGAAAGTCAAAACGTCATGACGCGCATGAAA +TATCTGGTGGCAGCCGCCACACTAAGCCTGTTTTTGGCGGGTTGCTCGGGGTCAAAGGAAGAAGTACCTG +ATAATCCGCCAAATGAAATTTACGCGACTGCACAACAAAAGCTGCAGGACGGTAACTGGAGACAGGCAAT +AACGCAACTGGAAGCGTTAGATAATCGCTATCCGTTTGGTCCGTATTCGCAGCAGGTGCAGCTGGATCTC +ATCTACGCCTACTATAAAAACGCCGATTTGCCGTTAGCACAGGCTGCCATCGATCGTTTTATTCGCCTTA +ACCCGACCCATCCGAATATCGATTATGTCATGTACATGCGTGGCCTGACCAATATGGCGCTGGATGACAG +TGCGCTGCAAGGGTTCTTTGGCGTCGATCGTAGCGATCGCGATCCTCAACATGCACGAGCTGCGTTTAGT +GACTTTTCCAAACTGGTGCGCGGCTATCCGAACAGTCAGTACACCACCGATGCCACCAAACGTCTGGTAT +TCCTGAAAGATCGTCTGGCGAAATATGAATACTCCGTGGCCGAGTACTATACAGAACGTGGCGCATGGGT +TGCCGTCGTTAACCGCGTAGAAGGCATGTTGCGCGACTACCCGGATACCCAGGCTACGCGTGATGCGCTG +CCGCTGATGGAAAATGCATACCGTCAGATGCAGATGAATGCGCAAGCTGAAAAAGTAGCGAAAATCATCG +CCGCAAACAGCAGCAATACATAACAGAAACCTGAAACACAAAACGGCAGCCCTTGAGCTGCCGTTTTTTT +ATTCTGTCAGTTGTGAAACTGAAGCGATTTAGTCGCTATCGATCTCATCAAATATGGCTCGCTTTGAGAT +ATTCCTCAAGTAAAAAAACATCTCTTCCTGCGATTTCTCACAAAAAAGATTCGTTGACAAAAAGTGACAA +AATTATGAGATTTTCATCACACATTTTGACATCAGGAACGGTATGCTGAATTCACCAAGACGGGAAGACA +AGAGGTAAAATTTATGACAATGAACATTACCAGCAAACAAATGGAAATTACTCCGGCCATCCGCCAACAT +GTCGCAGACCGTCTCGCCAAACTGGAAAAATGGCAAACACATCTGATTAATCCACATATCATTCTGTCCA +AAGAGCCACAAGGGTTTGTTGCTGACGCCACAATCAATACACCTAACGGCGTTCTGGTTGCCAGTGGTAA +ACATGAAGATATGTACACCGCAATTAACGAATTGATCAACAAGCTGGAACGGCAGCTCAATAAACTGCAG +CACAAAGGCGAAGCACGTCGTGCCGCAACATCGGTGAAAGACGCCAACTTCGTCGAAGAAGTTGAAGAAG +AGTAGTCCTTTATATTGAGTGTATCGCCAACGCGCCTTCGGGCGCGTTTTTTGTTGACAGCGTGAAAACA +GTACGGGTACTGTACTAAAGTCACTTAAGGAAACAAACATGAAACACATACCGTTTTTCTTCGCATTCTT +TTTTACCTTCCCCTGAATGGGAGGCGTTTCGTCGTGTGAAACAGAATGCGAAGACGAACAATAAGGCCTC +CCAAATCGGGGGGCCTTTTTTATTGATAACAAAAAGGCAACACTATGACATCGGAAAACCCGTTACTGGC +GCTGCGAGAGAAAATCAGCGCGCTGGATGAAAAATTATTAGCGTTACTGGCAGAACGGCGCGAACTGGCC +GTCGAGGTGGGAAAAGCCAAACTGCTCTCGCATCGCCCGGTACGTGATATTGATCGTGAACGCGATTTGC +TGGAAAGATTAATTACGCTCGGTAAAGCGCACCATCTGGACGCCCATTACATTACTCGCCTGTTCCAGCT +CATCATTGAAGATTCCGTATTAACTCAGCAGGCTTTGCTCCAACAACATCTCAATAAAATTAATCCGCAC +TCAGCACGCATCGCTTTTCTCGGCCCCAAAGGTTCTTATTCCCATCTTGCGGCGCGCCAGTATGCTGCCC +GTCACTTTGAGCAATTCATTGAAAGTGGCTGCGCCAAATTTGCCGATATTTTTAATCAGGTGGAAACCGG +CCAGGCCGACTATGCCGTCGTACCGATTGAAAATACCAGCTCCGGTGCCATAAACGACGTTTACGATCTG +CTGCAACATACCAGCTTGTCGATTGTTGGCGAGATGACGTTAACTATCGACCATTGTTTGTTGGTCTCCG +GCACTACTGATTTATCCACCATCAATACGGTCTACAGCCATCCGCAGCCATTCCAGCAATGCAGCAAATT +CCTTAATCGTTATCCGCACTGGAAGATTGAATATACCGAAAGTACGTCTGCGGCAATGGAAAAGGTTGCA +CAGGCAAAATCACCGCATGTTGCTGCGTTGGGAAGCGAAGCTGGCGGCACTTTGTACGGTTTGCAGGTAC +TGGAGCGTATTGAAGCAAATCAGCGACAAAACTTCACCCGATTTGTGGTGTTGGCGCGTAAAGCCATTAA +CGTGTCTGATCAGGTTCCGGCGAAAACCACGTTGTTAATGGCGACCGGGCAACAAGCCGGTGCGCTGGTT +GAAGCGTTGCTGGTACTGCGCAACCACAATCTGATTATGACCCGTCTGGAATCACGCCCGATTCACGGTA +ATCCATGGGAAGAGATGTTCTATCTGGATATTCAGGCCAATCTTGAATCAGCGGAAATGCAAAAAGCATT +GAAAGAGTTAGGGGAAATCACCCGTTCAATGAAGGTATTGGGCTGTTACCCAAGTGAGAACGTAGTGCCT +GTTGATCCAACCTGATGAAAAGGTGCCGGATGATGTGAATCATCCGGCACTGGATTATTACTGGCGATTG +TCATTCGCCTGACGCAATAACACGCGGCTTTCACTCTGAAAACGCTGTGCGTAATCGCCGAACCAGTGCT +CCACCTTGCGGAAACTGTCAATAAACGCCTGCTTATCGCCCTGCTCCAGCAACTCAATCGCCTCGCCGAA +ACGCTTATAGTAACGTTTGATTAACGCCAGATTACGCTCTGACGACATAATGATGTCGGCATAAAGCTGC +GGATCCTGAGCAAACAGTCGCCCGACCATCGCCAGCTCAAGGCGGTAAATCGGCGAAGAGAGCGCCAGAA +GTTGCTCAAGCTGAACATTTTCTTCTGCCAGGTGCAGCCCGTAAGCAAAAGTAGCAAAGTGGCGCAGTGC +CTGAATAAACGCCATATTCTGATCGTGCTCGACGGCGCTAATACGATGCAGCCGAGCGCCCCAGACCTGA +ATTTGCTCCAGAAACCATTGGTATGCTTCCGGTTTACGTCCATCACACCAGACCACAACTTGCTTTGCCA +GGCTACCGCTGTCCGGACCGAACATCGGGTGTAGCCCCAGCACCGGACCATCATGCGCCACCAGCATGGC +CTGTAATGGCCCATTTTTCACTGATGCCAGATCGACCAGAATACAATCTTTCGGTAAAGGCGGTAATTTG +CCAATAACTTGCTCAGTAACGTGGATTGGCACACTAACAATCACCATTCCGGCATCGGCAACAATATCAG +CCGCTCGATCCCAGTCATGTTGCTCCAGAATCCGCACCTGATAACCCGAGAGGGTCAGCATCTTCTCGAA +CAGGCGTCCCATCTGACCGCCACCGCCGACGATAACCACCGGACGCAGTGACGGACAAAGTGTTTTAAAT +CCTTTGTCGTTTTCACTGGAGTAAGATTCACGCATCACCCGACGCAAAACATCCTCAATCAGATCTGGCG +GTACACCCAGAGCTTCCGCCTCTGCACGACGCGAGGCCAACATAGATGCCTCGCGCTCCGGAACATAAAT +AGGCAGTCCAAAGCGGCTTTTCACCTCGCCCACTTCAGCAACCAGTTCCAGACGCTTCGCTAATAAATTC +AGCAGCGCTTTATCGACTTCATCAATTTGATCGCGTAATGCGGTCAATTCAGCAACCATAATAAACCTCT +TAAGCCACGCGAGCCGTCAGCTGCCCGTTCAGATCCTGATGAATTTCACGCAGCAAGGCATCGGTCATTT +CCCAGCTAATGCAGGCATCGGTTACGGATACACCGTATTTCATTTCACTGCGCGGTTGCTCGGAAGACTG +ATTGCCCTCGTGGATATTACTTTCGATCATCAGACCAATAATTGAGCGATTGCCATCTTTGATTTGAGCA +ACCACGGATTCTGCCACCGCAGGCTGACGGCGATAATCTTTATTGGAATTACCGTGGCTGCAATCTACCA +TCAGAGACGGGCGCAGTCCCGCCTGTTCCATCTCTTTTTCACATTGCGCAACATCCGCAGGGCTATAGTT +CGGCGCTTTACCACCGCGCAGGATCACATGGCCGTCCGGATTCCCCTGAGTTTGTAGCAACGCAACCTGC +CCTGCCTGGTTAATGCCAACAAAACGGTGCGGCTGGGCGGCGGCGCGCATAGCGTTAATTGCTGTTGCCA +GACTGCCGTCGGTGCCGTTTTTAAAACCAACCGGCATGGAAAGCCCGGAGGCCATTTCACGGTGAGTTTG +CGATTCCGTTGTACGAGCACCAATTGCTGACCAGCTAAACAGATCGCCCAGGTATTGCGGGCTATTCGGA +TCTAACGCTTCCGTCGCCAGTGGCAGTCCCATATTCACCAGCTCAAGCAGCAATTTACGCGCGATCTGCA +GCCCGGCTTCTACATCAAAAGAGCCATCCATATGGGGATCGTTAATTAACCCTTTCCAGCCGACAGTGGT +ACGGGGTTTTTCAAAATAGACGCGCATTACCAGATAGAGGCTATCGCTGACCTCTGCGGCAAGGGCTTTA +AATCGACGAGCATATTCCAGAGCAGTTTCCGGATCATGAATGGAACAAGGACCACATACTACCAGCAGAC +GAGGATCGCGCCCGGCGATAATATCTGAAATGCTTTTACGCGAGTCAGCAATCTGGGCTTCTTGTTGCAG +GCTCAATGGAAAAGCGGCCTTCAGTTGTTCCGGAGTCATTAAAACCTGTTCGTCGGTAATATGTACGTTA +TTCAGCGCGTCTTTTTGCATGATGGCGATCCTGTTTATGCTCGTTTGCGATAGTTGATCCTCAGCGAGGA +TGACGTAACGATAACACATAAAGTAAAGTTTTCAATCCATATTTCGTACATTTTTATTTACACAGGCAAT +TTAGTCGCGCTTTCAACCCTTACCTCTGTATAGATAAATTTACACTCCCTTTGAAAACAATCCGCTATGC +TTTGAAAAAGGAGAAAGAAATGATGAAAAAGTTTATCGCCCCCTTGTTGGCTTTACTGGTTAGCGGATGT +CAGATTGATCCTTATACTCACGCGCCAACCTTGACCAGCACCGACTGGTATGATGTCGGTATGGAAGATG +CGATATCGGGCAGCGCCATAAAAGATGACGATGCATTTAGCGATTCACAGGCGGATCGCGGTCTATACCT +TAAAGGATATGCCGAAGGACAAAAGAAAACTTGCCAGACCGATTTTACTTATGCCCGAGGACTTTCCGGT +AAAAGCTTTCCTGCCAGCTGCAACAATGTTGAAAATGCCAGCCAACTGCATGAAGTATGGCAAAAAGGGG +CTGATGAAAATGCCAGCACAATACGATTAAATTAATTAAAACCCCACAAATAAATTAAACATAAGATTTT +ACTCATTGTGTTTTATTTCTCACATTGATGACGGTCGCATGAAAAAATGATATTTTAATGAGCATTCTGA +AAAAATATCGATGCATTTCGAGCGAAGATGGTGGGGATCCCTGAATGCGTTTTTCTCACCGACTGTTCTT +ACTTCTGATTCTCCTGCTGACGGGAGCACCAATACTCGCTCAGGAGCCTTCTGACGTTGCGAAAAACGTG +CGTATGATGGTTTCCGGTATTGTCAGTTACACCCGCTGGCCTGCGCTATCAGGGCCACCAAAGTTATGTA +TCTTTTCATCTTCACGTTTTAGTACCGCCCTACAAGAGAATGCCGCGACATCTTTGCCTTATCTGCCTGT +CATCATTCACACTCAACAAGAGGCGATGATTTCAGGCTGCAATGGTTTTTATTTTGGCAACGAGTCACCG +ACATTCCAGATGGAATTAACCGAACAATATCCGTCAAAGGCGTTATTATTAATTGCCGAACAAAATACCG +AGTGCATTATTGGTAGCGCCTTTTGTCTGATCATCCACAATAATGACGTCAGATTTGCCGTAAACCTGGA +TGCCTTATCGCGTAGCGGTGTAAAGGTCAACCCGGATGTCTTAATGCTCGCACGGAAGAAAAATGATGGA +TAACGATAATTCTCTTAATAAGCGCCCCACGTTTAAAAGAGCATTACGCAACATCAGTATGACCAGCATA +TTTATCACTATGATGCTGATCTGGTTGCTGCTTTCCGTGACCTCGGTGCTGACCCTGAAACAGTACGCGC +AAAAAAACCTGGCACTGACAGCAGCAACAATGACTTACAGTCTGGAAGCAGCTGTCGTTTTTGCCGATGG +CCCTGCAGCAACTGAAACACTGGCAGCGCTGGGCCAGCAAGGGCAATTTTCAACTGCAGAAGTACGTGAT +AAGCAGCAAAATATTCTGGCATCCTGGCATTACACCCGTAAGGATCCAGGCGATACTTTCAGTAATTTCA +TAAGCCACTGGCTCTTCCCTGCCCCCATCATTCAGCCGATTCGTCACAATGGTGAAACCATTGGCGAAGT +ACGCTTAACCGCTCGCGACAGTTCAATCAGCCATTTTATCTGGTTTTCGCTCGCCGTACTGACCGGTTGT +ATTCTGCTGGCATCAGGCATCGCAATTACCCTCACCCGCCATTTGCACAATGGCCTGGTAGAAGCGCTGA +AAAATATCACCGATGTCGTACATGATGTGCGTTCCAACCGCAATTTTTCCCGACGAGTTTCGGAAGAACG +TATCGCTGAGTTTCACCGCTTCGCTCTCGACTTCAACAGTCTGCTGGATGAAATGGAAGAGTGGCAGCTT +CGTTTACAGGCTAAAAATGCGCAGCTTCTACGTACCGCGCTACATGACCCATTAACCGGGCTGGCTAACC +GCGCAGCGTTTCGTAGCGGCATCAACACGTTGATGAACAATTCCGATGCCCGAAAAACGTCGGCGTTACT +ATTTCTTGATGGCGATAATTTCAAATACATCAATGATACCTGGGGTCATGCGACGGGCGATAGAGTCTTG +ATTGAAATCGCAAAACGGTTAGCTGAATTTGGCGGGCTGCGACATAAAGCATACCGCCTGGGCGGCGATG +AATTCGCTATGGTGCTCTATGATGTACAGTCGGAATCTGAAGTGCAGCAGATATGTTCAGCACTGACACA +AATCTTTAATCTCCCGTTTGATCTTCATAATGGCCATCAGACCACCATGACATTAAGCATTGGTTACGCG +ATGACCATTGAGCACGCCTCTGCGGAAAAATTACAAGAGCTTGCCGATCACAATATGTATCAGGCCAAAC +ACCAGCGTGCCGAAAAGCTGGTGAGATAACAAGGATATATCGATATGATAAAGCACCTGGTAGCACCCCT +GGTTTTCACCTCACTAATACTGACTGGCTGCCAGTCCCCTCAGGGAAAGTTTACTCCTGAGCAAGTCGCC +GCTATGCAATCTTATGGATTTACTGAATCCGCCGGCGACTGGTCGCTGGGCTTATCAGATGCCATTCTGT +TCGCAAAAAATGACTACAAATTGCTCCCGGAAAGCCAGCAACAGATCCAAACCATGGCAGCTAAATTGGC +CTCGACAGGGCTAACACATGCCCGTATGGATGGACACACCGATAACTATGGTGAAGACAGTTACAACGAA +GGCTTATCATTGAAACGGGCGAATGTCGTGGCCGATGCATGGGCTATGGGTGGACAAATTCCACGCAGCA +ATCTCACCACACAGGGTTTAGGAAAAAAATATCCCATAGCCAGTAACAAGACCGCCCAGGGCCGCGCCGA +GAACCGCCGCGTCGCAGTGGTGATTACTACCCCTTAAAACACCAGCAAACAGATAAAAAAGGGCCAGCCA +ATTGGCCAGCCCTTCTTAACAGGATGTCGCTTAAGCGAAATCTTAGTTAAGACGCTCTTTGATACGAGCA +GCCTTACCAGTACGCTCACGCAGGTAGTACAGTTTAGCTTTACGAACAGCACCACGACGTTTGACAGAAA +TGCTGTCAACTACCGGAGAGTGAGTCTGGAAGACACGCTCAACGCCTTCGCCGTTGGAAATTTTACGAAC +AGTGAATGCAGAGTGCAGACCGCGGTTACGAATAGCGATAACCACGCCCTCGAATGCCTGCAGACGTTTT +TTGGAACCTTCAACAACCCATACTTTCACTTCCACGGTATCACCCGGACGGAAGGAAGGTACGTCCTGCT +TCATCTGCTCTTGTTCAAGTTGCTTAATAATGTTGCTCATAATTTAATCTCTTATCCTGGGTAAACTGAT +ATCTCGGGGGCTTACGCCATCCCATCATGTTTATGTTGCTGTTGTGCGTGTTCCGTTTTGAACTCCGCCA +GCAACCTTGCTTGCTCTTCAGTCAGAGCCAGGTTTTCCAGAAGTTCAGGTCTTCTAAGCCAGGTACGGCC +CAGCGACTGTTTCAAACGCCAGCGACGTATCTCGGCATGGTTGCCCGACAGTAACACTGGCGGAACTTCC +ATCCCTTCTAACACCTCAGGCCGCGTATAGTGCGGGCAATCCAGCAATCCTTCAGCAAAGGAATCTTCCG +TTGCCGAGGCTTCATGTCCCAGTACTCCCGGAATAAACCGGGAAACGGAGTCAATCAGCGTCATTGCTGG +TAACTCACCACCACTGAGAACGTAATCGCCGATTGACCATTCTTCGTCAATTTCGGTTTGGATCACGCGC +TCATCTATACCTTCGTAGCGACCGCACACCAGAATCAATTTTTGATTCGTTGCCAGTTCGCTGACGCCCG +CTTGATCAAGCTTGCGTCCCTGTGGTGACAGATAAATCACCTTTGCGCCTTCACCCGCCGCGGCTTTTGC +TGCATGAATGGCGTCCCGCAAGGGTTGCACCATCATTAACATCCCCGGTCCGCCGCCGTAAGGACGATCG +TCCACGGTACGGTGCCGGTCATGCGTGAAGTCGCGAGGACTCCAGCTCTGGATGCTCAGCAGGCCATTTT +TAACTGCCCGGCCAGTTACCCCGTAATCGGTAATTGCGCGGAACATTTCAGGAAACAGGCTAATTATGCC +AATCCACATAGCGCCGTCTTTTACCGTTTATCCGGTGGTTTAAAAACCAGGATCCCAATCTACTTCGATT +GAACGAGTAGTGAGATCGACTTTCTTGATAACCTGCCCATCGAGGAACGGTACGAGACGTTCCTTGATAC +CAAACGCATCTTTCAGGTTTGCCTTAATGACGAGAACGTCATTAGATCCGGTTTCCATCATATCGACGAC +TTTACCGAGATCGTAGCCTTCAGTGGTTACTACCTGGCAGCCCATCAGGTCTTTCCAGTAGTAGTCCCCC +TCTTCAAGCTGAGGCAGCTGCGATGAATCCACGACAATTTCACAATTCGTCAGCAGGTTCGCCGCATCAC +GATCGTCAACGCCTTTCAGCTTGATGATCATGTCCTGATTGTGGTGCTTCCAGCTTTCCAGCTGGACTTG +CTGCCACTGACCCGCCTTCTGGATAAACCAGGGCTGATAGTCAAAAATGCTTTCGGCGTCTTCGGTGGAA +GAAAACACTCTGAGCCACCCACGAATACCGTAAGACGAACCCATTTTTCCCAAAACGATGGGATCAACAG +GTGCTTGCGCGGTGAGTTGTTTGCTCATCATGACCACCGTGACAGATTAAGCTGCTTTGTTTACTTCTTT +GATCAGCGCAGCAACGCGATCAGAAATAGTTGCGCCCTGGCCAACCCAGTGAGCGATGCGATCCAGATCC +AGGCGAGTGCCTTCTTCTTTTTCGCTAGCGATTGGGTTGAAGAAACCAACGCGCTCGATGAAGCGACCGT +TGCGTGCATTACGGCTGTCAGCGACAACAACCTGGTAGAACGGACGCTTTTTAGCGCCGTGACGTGCTAA +ACGAATAGTTACCATAACATCCTCTTGTGTGAATAAAACAACCGGACCCCATCGAGGAACGGAGTCCGGT +GTCATATTAAAAGCCCGAAAATTTTACTCATTTTTGCGGGAATTGCAATCAACAGTTGCTAACTCTGCTG +TAAAAGGCCGTCGGCGGTGCAGCCAGTTTGGTGCCGGAGTGCGCGCAGTCACCGGAGCGTACACGCAGTA +CGTGAGGATGACGAGCACATCCCGGTGCCAAAATGGCAAACAAGCCAGGCCGATTAGCGACCAGGGAAGC +CTGGGGGCATCATACCCTTCATGCTTCTCATCATCTTCGCCATTCCGCCCTTCTTCATTTTCTTCATCAT +GCGCTGCATGTCGTCGAACTGTTTCAGAAGACGGTTAACGTCCTGCACCTGCATACCGCAACCGGCAGCA +ATACGGCGTTTACGCGAACCTTTGATGATTTCTGGCTTAGCGCGCTCTTTCATCGTCATCGAGTTGATGA +TGGCTTCCATACGCACCAGCACTTTATCGTCCATCTGTGACTTGACGTTATCCGGGATCTGCCCCATGCC +CGGCAGCTTGCCCATCAGACTAGCCATGCCGCCCATATTTTTCATCTGGCGCAGCTGCTCAAGAAAGTCG +TTGAGATCGAAGCCGTCACCTTTTTTCAGCTTGCTGGCTAATTTCTCTGCCTGCGCGCGGTCAACTTTGC +TTTCGATATCTTCGATCAGCGACAGTACGTCGCCCATGCCGAGAATACGCGACGCGATGCGGTCCGGATG +GAACGGCTCCAGCGCCTCAGTTTTCTCGCCAACACCGAGGAACTTGATCGGTTTGCCAGTGATGTGACGA +ATAGAGAGCGCCGCACCGCCGCGGGCATCGCCGTCCACTTTGGTCAACACTACGCCGGTAAGCGGTAACG +CTTCATTGAATGCTTTTGCCGTATTGGCCGCATCCTGACCGGTCATGGCGTCAACCACAAACAGGGTTTC +AACCGGGTTAATCGACGCATGGACTTGTTTGATCTCGTCCATCATCGCTTCGTCAACGTGCAGACGACCA +GCGGTATCCACCAGCAGCACGTCGTAGAATTTCAGTTTGGCTTCTTTCAGCGCCGCGTTAACGATATCTA +CCGGCTTCTGACCAACATCAGAAGGGAAGAAATCAACGCCCACCTGCTCTGCCAGCGTCTCAAGCTGTTT +GATTGCCGCCGGGCGATAAACGTCGGCAGAAACCACCAGCACTTTCTTCTTGTGCTTCTCGCGCAGGAAC +TTACCGAGTTTACCAACGCTGGTTGTTTTACCGGCACCTTGCAGGCCCGCCATCAGTACGACCGCAGGCG +GTTGCGCAGCCAGGTTCAGGGTCTGGTTCTCTTCGCCCATCGCCGCAACCAGTTCGTTACGGACTATTTT +GACGAACTCCTGCCCCGGCGTCAGGCTCTTATTAACTTCATGACCAACCGCTTTCTCTTTTACGCGATTG +ATAAACTCACGCACTACCGGCAGAGCTACGTCCGCCTCCAGCAGCGCCATGCGCACTTCGCGCAGCGTAT +CTTTTACGTTGTCTTCAGTGAGGCGTCCACGGCCACTGATATTGCGCAGCGTGCGCGACAAACGATCGGT +TAAATTATCAAACATTGTCTCTCGCCTGGGGTGGAAACGGTTGGCCGCAATCGCGACACATCATCAGTAT +TTTGCCGCAGTATAACATGAAGGCGTCTTTGTTGTTATGCAACGGTTGGAGCAGCGTTCACCTGACGCTA +TACTGCTTCTCTTTCTTATTGCTCAAACTGTCGACATCACTATGCCCGTTTTTGCTCTGCTCGCGCTTGT +CGCCTACTCCGTCAGTCTTGCGCTGATTGTTCCCGGTCTGCTGCAAAAAAACGGCGGCTGGCGGCGCATG +GCTATTATTTCTGCGGTCATTGCGCTGGTCTGCCACGCAATCGCTCTGGAAGCCCGCATCCTGCCCGACG +GTGATAGCGGACAAAACCTCAGCCTGCTGAACGTTGGTTCATTGGTCAGTTTGATGATCTGTACGGTAAT +GACCATTGTGGCTTCTCGCAATCGTGGCTGGCTGCTGCTACCCATTGTCTATGCCTTTGCGCTTATCAAC +CTGGCGCTGGCAACCTTCATGCCCAATGAATACATCACCCATCTGGAAGCTACGCCTGGGATGCTGGTGC +ACATTGGCTTATCGCTCTTTTCCTATGCCACGCTAATTATCGCCGCCCTGTACGCGCTGCAACTGGCGTG +GATTGATTACCAACTGAAGAACAAGAAGCTGGCGTTTAACCAGGAAATGCCGCCATTGATGAGTATCGAG +CGTAAAATGTTCCACATCACGCAGATTGGCGTGGTGCTGCTAACGCTCACGCTTTGCACTGGCCTGTTCT +ACATGCACAACTTATTTAGCATGGAAAATATCGACAAGGCTGTGCTCTCTATCGTGGCGTGGTTTGTCTA +TATTGTGCTGCTGTGGGGACATTATCATGAAGGATGGCGTGGACGCCGCGTCGTCTGGTTTAACGTTGCG +GGCGCGGTAATTCTGACACTGGCCTACTTCGGCAGCCGAATTGTCCAGCAGTTAATCAGCTAAACCCAGA +AAAGGAGTTTCCCCTGGAACACATTTCTACTACTACGTTGATCATTATTCTGATCATCATGGTGGTCATT +TCAGCCTATTTTTCCGGGTCCGAAACCGGAATGATGACCCTCAACCGCTATCGTCTGCGACATATGGCGA +AACAGGGTAATCGCTCGGCCAAACGCGTCGAAAAATTGCTGCGTAAGCCAGACCGCCTGATAAGCCTGGT +GTTAATCGGCAATAACCTGGTCAATATTCTTGCCTCCGCGCTCGGCACTATTGTTGGGATGCGTTTGTAC +GGCGATGCGGGCGTGGCAATTGCGACTGGTGTGCTGACTTTTGTCGTACTGGTATTTGCTGAGGTATTGC +CGAAAACCATTGCCGCGCTGTACCCGGAAAAAGTCGCTTATCCGAGTAGTTTTCTGCTGGCTCCGCTGCA +AATTTTGATGATGCCGCTGGTCTGGTTGCTGAATGCTATCACCCGTATGCTGATGCGCATGATGGGTATC +AAAACCGATATCGTGGTTAGCGGCTCTTTGAGCAAAGAAGAGTTGCGCACTATCGTGCACGAATCACGCT +CACAAATTTCCCGTCGCAATCAGGATATGCTGCTGTCGGTGCTCGATCTGGAAAAAATGACCGTTGATGA +CATCATGGTGCCGCGCAGTGAAATTATCGGTATTGATATCAACGATGACTGGAAATCGATTCTGCGCCAA +CTCTCCCACTCACCTCACGGGCGCATCGTGCTCTACCGTGATTCGCTGGACGACGCCATCAGTATGCTGC +GAGTACGTGAAGCCTGGCGGTTGATGTCGGAGAAAAAAGAGTTCACCAAAGAAACCATGCTGCGCGCCGC +GGACGAGATCTATTTTGTGCCGGAAGGTACGCCGCTCAGCACGCAGTTGGTAAAGTTTCAGCGCAACAAA +AAGAAAGTCGGCCTGGTCGTCAACGAGTATGGAGACATTCAGGGGCTGGTGACGGTTGAAGATATTCTGG +AAGAGATTGTCGGCGATTTCACTACGTCGATGTCGCCAACACTTGCCGAAGAGGTCACGCCGCAAAACGA +CGGTTCGGTGATTATCGATGGCACCGCCAACGTGCGGGAAATCAACAAAGCCTTTAACTGGCATCTACCG +GAAGATGATGCCCGCACGGTTAATGGCGTCATTCTTGAGGCACTGGAAGAGATCCCTGTCGCAGGCACCC +GCGTGCGTATTGGCGAGTACGATATCGATATTCTCGACGTACAGGACAATATGATTAAGCAGGTAAAAGT +TTTTCCTGTGAAACCGCTGCGCGAGAGTGTGGCGGAGTAACGAAAACGGCCCGGCATTCGCATGCAGGGC +CGTGAATTATTACGAAAGCAGAAATTAAGCTTTTGCTTTCGCTACAGTAACCATCGCCGCACGAATCGTA +CGACCATTCAGCGTATAACCCTTCTGCATAATGCCCAGTACGTTACCTGGCGCAACGTCATCAGATTCCA +CCATTGCGATGGCCTGATGCACATTCGGGTCCAGTGGGACGTTAGTTTCGGCGATCACTTCAACGCCAAA +CTTACGCACAACATCCAGCATCGACTTCAGCGTCAGCTCAATGCCTTCAACCATCGCAGACATATCCGGG +TTAGCTTTATCAGCCACTTCCAGCGCACGATCCAGGCTATCAATCACCGGCAGCAATTCGTTGATGAATT +TCTCCAGCGCGAATTTGTGGGCTTTTTCAATATCCAGTTCAGTACGACGACGCAGGTTTTCCATTTCGGC +TTTTACACGCAAAATGCCGTCACGTTCACGGGTCTGGGCTTCAGCCAGCTGAGCTTCGAGATTCGCAACT +TTTTCATCGCGCGGATCCACCTGCTCAGCAGAAGCTTCTGGCTCAACTGCCTCAATCTCTTCGTGCTGAT +CCATGATAATTTCTTCCGGGGCTTGCCCCTCAGGCGTTTTCTGTTCTTTACTACTCATGAATTTCTCCGC +GTTTTTTTCGCATTCATCTCGCTAACTTCGCTTATTATGGGGATCAGTTTCAGGGTTTCAAGGGAAGCAC +TCACATTGTCATCAATCTTCGCAACAAGGACCTCGGAAAAATGAATAATCATTTCAAGTGTATTGGCATT +GTGGGACACCCACGGCACCCCACTGCACTGACAACACATGAAATGCTCTACCGCTGGCTGTGCACAAAAG +GTTACGAGGTCATCGTTGAGCAACAAATCGCTCACGAACTGCAACTGAAGAATGTGAAAACTGGCACGCT +CGCGGAGATTGGGCAACTAGCTGATCTCGCGGTAGTCGTTGGTGGCGACGGTAATATGCTGGGCGCGGCA +CGCACACTCGCCCGTTACGATATTAAAGTTATTGGAATCAACCGTGGCAACCTGGGTTTCCTGACTGACC +TTGACCCCGATAACGCCCAGCAACAGTTAGCCGATGTGCTGGAAGGCCACTACATCAGCGAGAAACGTTT +TTTGCTGGAAGCGCAAGTCTGTCAGCAAGATTGCCAGAAACGCATCAGCACCGCGATAAATGAAGTGGTG +CTTCATCCAGGCAAAGTGGCGCATATGATTGAGTTCGAAGTGTATATCGACGAGATCTTTGCGTTTTCTC +AGCGATCTGATGGACTAATTATTTCGACGCCAACAGGCTCCACCGCCTATTCCCTCTCTGCAGGCGGTCC +TATTCTGACCCCCTCTCTGGATGCGATTACCCTGGTGCCCATGTTCCCGCATACGTTGTCAGCACGACCA +CTGGTCATAAACAGCAGCAGCACGATCCGTCTGCGTTTTTCGCATCGCCGTAACGACCTGGAAATCAGTT +GCGACAGCCAGATAGCACTGCCGATTCAGGAAGGTGAAGATGTCCTGATTCGTCGCTGTGATTACCATCT +GAATCTGATTCATCCGAAAGATTACAGTTATTTCAACACATTAAGCACCAAGCTCGGCTGGTCAAAAAAA +TTATTCTAATTTTACGCCAGCCTCTTTACTGTATATAAAACCAGTTTATACTGTACACAATAACAGTAAT +GGTTTTTCATACAGGAAAACGACTATGTTGGCACAACTGACCATCAGCAACTTTGCTATCGTTCGTGAGC +TTGAGATTGATTTTCATAGCGGCATGACCGTAATAACTGGCGAGACCGGCGCGGGTAAATCTATTGCAAT +AGATGCCCTCGGTCTTTGTCTCGGTGGTCGCGCTGAAGCCGACATGGTGCGTACCGGCGCTGCTCGCGCT +GACCTGTGCGCCCGTTTTTCTCTGAAAGATACGCCAGCGGCTCTGCGCTGGCTGGAAGAAAACCAGCTTG +AAGACGGGCATGAATGTTTGCTTCGTCGCGTGATCAGCAGCGATGGTCGCTCCCGTGGTTTCATCAACGG +TACAGCTGTTCCTCTGTCACAACTGCGCGAACTGGGTCAGTTGCTGATTCAGATCCATGGTCAGCACGCT +CATCAATTACTCACCAAACCTGAGCACCAAAAATTCCTGCTTGATGGCTATGCCAATGAAACCTCTCTAC +TGCAGGAAATGACCGCACGTTATCAGTTGTGGCATCAAAGCTGCCGTGACCTCGCGCATCATCAACAGTT +AAGTCAGGAACGCGCCGCCCGTGCGGAACTGCTGCAATACCAATTAAAAGAACTTAACGAATTTAATCCG +CAGCCCGGAGAGTTTGAACAAATCGACGAAGAGTACAAACGTCTGGCGAACAGCGGTCAATTGCTGACCA +CCAGCCAGAATGCATTGGCATTAATGGCCGACGGTGAAGACGCAAACCTGCAAAGTCAGCTTTACACGGC +TAAACAACTGGTGAGCGAATTGATTGGCATGGACAGCAAACTGTCCGGCGTACTTGATATGCTGGAAGAA +GCTACCATCCAGATTGCTGAAGCCAGCGATGAACTGCGCCACTACTGCGATCGTCTGGATCTCGATCCCA +ACCGACTATTTGAACTTGAACAGCGCATCTCAAAACAGATTTCGCTGGCACGTAAACATCACGTCAGCCC +TGAGGCATTGCCACAGTATTACCAGTCGCTACTGGAAGAACAGCAGCAACTGGACGATCAGGCCGACTCA +CAAGAAACGCTTGCGCTGGCGGTAACGAAACATCATCAGCAGGCACTGGAAATCGCGCGCGCATTACACC +AACAACGCCAGCAATATGCAGAAGAACTTGCACAGCTGATCACCGACAGTATGCATGCGCTCTCAATGCC +GCATGGGCAGTTTACGATCGATGTTAAATTTGACGAGCATCACCTGGGCGCTGACGGTGCCGATCGTATT +GAGTTTCGGGTAACCACCAACCCAGGTCAGCCAATGCAGCCTATTGCCAAAGTCGCATCCGGTGGTGAAT +TGTCCCGCATCGCACTGGCAATCCAGGTCATCACGGCGCGTAAAATGGAAACCCCGGCACTGATTTTTGA +TGAAGTGGATGTAGGGATTAGCGGTCCAACAGCGGCAGTTGTCGGCAAACTGCTGCGTCAACTCGGCGAA +TCAACTCAGGTGATGTGTGTTACCCACCTGCCACAAGTCGCGGGATGTGGTCATCAACACTATTTTGTCA +GCAAAGAAACCGATGGTGCGATGACAGAAACGCATATGCAATCCCTGAATAAAAAAGCGCGGTTACAAGA +GCTGGCGCGCCTGCTTGGTGGCAGTGAAGTCACACGTAATACACTGGCGAATGCGAAAGAACTGCTTGCA +GCGTAAACTTTTTTCCTGCTTCACGGTCAGAGTAAACAGCAAAACGCCGTAAGACCGGAAAGCAAAAGGT +TTTAAAGTGATGAAAGGTCTATTATCATCGGCATATTACAGATGAGCCACGTACTGCTCGGGCCCGAAAA +GGAATCAAATCACTATGCGCTGTAAAACGCTGACTGCTGCAGCAGCAGTACTATTGATGTTGACCGCAGG +CTGTTCCACTCTGGAGCGAGTGGTTTACCGTCCTGACATCAACCAGGGGAACTATCTGACCGCTAACGAC +GTATCCAAAATACGTGTTGGCATGACGCAACAACAAGTTGCGTACGCATTGGGTACACCGCTGATGTCCG +ATCCATTTGGTACGAATACCTGGTTCTATGTCTTCCGCCAGCAACCAGGTCATGAAGGTGTAACTCAGCA +AACGCTGACGCTGACCTTTAACAGTAGCGGTGTGTTGACCAATATTGATAACAAACCTGCGCTGAGTGGT +AACTAATAATAAAGTTGCTCTCAAAGACGTTAAAAAAGGTGCTCAATGAGCACCTTTTTTCTGTCTGTTA +TTTATTCGCTGATTTTTCTGCTCGTTGCCTGCGAAGCTCTTTCGGATCGGCAATGAGAGGGCGATAAATC +TCCACCCGATCGCCATCATGCACACTATCGCTTAGTTTTGCCGGACGGCTGTAAATGCCGACTTTGTTTT +TAGTTAAATCGATATCGGTACGCAATTCCAGCAAGCCACTGGCGCGAATAGCTTCTTCAACCGTCGCGCC +CTCCTGCAGCGTCACTCGCTGCAGGTACTGCTTCTCAGGTAGCGCATAAGCCACCTCAACGGCAATTTTA +CCTGGCACTGTAAACCTCTTTCGCACGAACCGTAAAAGCCTGGACCATATTAGCCGCCAGCTCTTTAAAC +ACGCGACCAAAGGCGAGTTCAATCAACTTATTGGTAAACTCAAAGTCGAGATGAAACTCGATACGACACG +CCTCCTGGCTCAGCGGCGTAAACTTCCATCCACCAATCAATTTCTTGAACGGCCCATCCACCAGATTCAT +AAGAATACTTTGGTTACTGGTCAACTGGTTGCGGGTAGTAAACGTTTTGCTGATCCCAGCCTTAGAGACA +TCTACCGCCGCAGTCATCTGCCCAGGAGTGGACTCCAGAATCCGACTTCCGGTACAACCCGGCAAAAACT +GAGGATAAGACTGAACGTCATTCACTAACTGATACATTTGCTCCGCGCTGTAGGGTACCAGTGCGGTCCG +GCTAATCTGAGGCATAACAATTTCCATCAACAAAAATCCAACAAATAATATCATTTATCCTGCTGTAAAA +AAAACGCTATCCCGGCGCTGGGTAACATCGGGTTCATGCTAAGATAGAGCCTTGTCCCCCGCAGGATTGA +TATGGGGTGTTTTCGATTTCAGATTACCGATGATTCACGACGCTTATGACGAAGAAAAAAGCACATAAAC +CTGGTTCAGCGACCATCGCGCTTAACAAGCGCGCCCGTCACGAATACTTTATCGAAGAAGAGTTCGAAGC +GGGACTTGCCCTGCAAGGCTGGGAAGTTAAATCCCTGCGCGCAGGAAAAGCCAATATCAGCGACAGCTAC +GTCCTTCTGCGTGACGGAGAGGCATTTCTGTTTGGCGCTAACATCACGCCAATGGCCGTGGCCTCCACGC +ATGTGGTGTGCGATCCTACCCGTACCCGCAAGTTACTTCTCAACCAGCGCGAACTGGACTCATTGTACGG +TCGCGTCAATCGAGAAGGCTATACCGTAGTGGCGCTCTCCCTGTACTGGAAAAATGCCTGGTGCAAAGTG +AAAATCGGCGTCGCCAAAGGTAAGAAACAGCACGATAAACGTTCAGATATCAAAGAGCGCGAATGGCAGG +TGGATAAAGCACGTATCATGAAAAACGCCCACCGTTAAACCTGCACTCCAATTATTGACCAGTTCCTCAC +CGCGCCTCCCTCTCCGGCGGCGCGAATGAACATCTTATTGGCTATCACATCCGACACAAATGTTGCCATC +CCATTGCTTAATCGAATAAAAATCAGGCTACATGGGTGCTAAATCTTTAACGATAACGCCATTGAGGCTG +GTCATGGCGCTCATAAATCTGGTATACTTACCTTTACACATTGGGGCTGATTCTGGATTCGACGGGATTT +GCGAAACCCAAGGTGCATGCCGAGGGGCGGTTGGCCTCGTAAAAAGCCGCAAAAAATAGTCGCAAACGAC +GAAAACTACGCTTTAGCAGCTTAATAACCTGCTTAGAGCCCTCTCTCCCTAGCCTCCGCTCTTAGGACGG +GGATCAAGAGAGGTCAAACCCAAAAGAGATCGCGTGGAAGCCCTGCCTGGGGTTGAAGCGTTAAAACTTA +ATCAGGCTAGTTTGTTAGTGGCGTGTCCGTCCGCAGCTGGCAAGCGAATGTAAAGACTGACTAAGCATGT +AGTACCGAGGATGTAGGAATTTCGGACGCGGGTTCAACTCCCGCCAGCTCCACCAAAATTCTCCATCGGT +GATTACCAGAGTCATCCGATGAAGTCCTAAGAGCCCGCACGGCGCAAGCCCTGCGGGCTTTTTTGTGCCC +TCAATTTGTCCCGCGAAGTCCGAAGAGAACTAATTAAATCCGAACCTTTTAGGCCCATTGATAGGCCCAA +CGAAAAGCTCTATTGTTTACGTTGGGCCTAAACGCAGGGAGACTCCCCATGGCAAGAAAAACCAAGCCGT +TAACTGATACGGAAATCAAAGCCGCCAAACCTAAAGATGCCGATTACCAGCTTTATGACGGTGACGGGCT +TACTCTGTTAATCAAGTCCAGTGGCAGTAAGCTTTGGCAATTCCGTTACTATCGGCCTTTGACCAAGCAG +CGAACCAAACAGAGCTTCGGTGCCTATCCTGCCGTCTCGCTTTCTGATGCACGTAAACTCAGAGCCGAAT +CTAAAGTTTTATTGGCGAAAGACATTGATCCTCAGGAACATCAGAAAGAACAGGTGAGGAATTCTCAAGA +GGCCAAAACCAATACCTTCTTGTTAGTTGCCGAGCGTTGGTGGAATGTGAAGAAAACCAGCGTAACAGAG +GACTATGCCGACGATATCTGGCGCTCGCTTGAGAGAGATATTTTCCCGGCAATCGGTGATATCAGTATCA +CTGAGATTAAGGCTCATACTCTGGTTAAAGCAGTTCAGCCGGTTCAGGCCAGAGGTGCATTAGAGACTGT +TCGCCGCCTTTGTCAGCGTATTAACGAAGTCATGATTTATGCGCAGAACACAGGCCTGATTGATGCTGTT +CCTAGTGTAAATATCGGAAAAGCTTTCGAGAAACCGCAAAAGAAAAACATGCCAAGCATCCGGCCGGATC +AACTTCCGCAGCTAATGCACACCATGCGTACGGCAAGTATCAGCATGTCCACAAGATGCCTGTTCATGTG +GCAACTTCTAACCATCACCCGCCCTGCCGAAGCTGCTGAGGCTCGATGGGATGAGATCGATTTCAATGCT +AGCGAATGGAAAATTCCTGCAGCTCGAATGAAGATGAACCGGGACCATACGGTTCCACTATCTGATGGGG +CTCTTGCTATTCTGGAAATGATGAAGCCTCTCAGTGGTGGCCGAGAATTTATCTTTCCTAGCCGTATCAA +GCCCAACCAACCAATGAATAGCCAAACAGTGAATGCAGCACTCAAGCGTGCTGGCTTAGGAGGTGTACTT +GTTTCACACGGCTTGCGTTCTATCGCCAGTACGGCACTCAATGAGGAAGGATTTCCACCTGATGTCATTG +AAGCAGCGCTTGCTCATGTAGACAAAAATGAGGTGCGTCGCGCTTATAACCGCAGTGATTATCTTGAGCA +ACGTCGTCCGATGATGCAATGGTGGGCTGATCTCGTAAAAGCAGCAGATAGTGGTAGCATCGTTTTAACT +CATTTGAGCAAAATTCGTCTTGTCGGATAAAATATTTATCAGCCCAGCTCTCTGGGCTGATATTTCTAAA +AGATCGCACTAAATAGCTACGCGGAATAGTGCTCTACTTTCGTTTAGCCCTTTCAGAGGTAAGACATTAG +GGCAATTTCACTGTATGACTGCGCAGTCATCGAGTCTGTGGGGTGTTGCTCCTTTTGCAACGTATCACTT +GTCAATAAATAGAAAGTGTAGATGTATTAGGCGCAGCTATTTAGTCTATATGGCAAGTAGTAATTATTTA +CTTCTTTTTTTTCTACGAACAGCGCTATCGAAAGCTTGTTTTACATCTTCATTTTTTAAAGACCATTGAT +TTAAAATAGTATCAACCAAAGCATCTTGACTCATTGTTGCTACACGATATTTTTTATTTTGATTATTTAT +CTCAAACTCTGACATTTGAATAAAATCCCATAGCGGTTCGATAAGTTCATTAACTGCTACAACCTTATTT +TTCCACCCATCATTCGGAACAGAGTCATTAATTAGCTCAACCAACTTCAGTTGAATGATATGGTACACTT +CCGCTTTGCTTTTGCCACCCTTCTTTCCTGCACTCCGCCTGACTTCTGATAATTTTTTTTGATTACAAAC +AGAGATGTTAAACCAAGTCATACCTATGCACTTATCAAATAACTCCGCAGCCCGATGAAATGCTTTAAAG +GCAACGTTTTCATTTTCAGACATGATAGATTTTCCCCAGAAAAAAGAGATTGAGGCGAACATAAGGTGTG +CCTTGAAAATGTCATTAATGGAAAATGGCTCGATAACAAGAGGTAAAAACGTTTCCTTGGTAAGGTTTGA +ACTTAGATTTTTCCAGCATTCTTGAGCTGGATCATATAATTCAGTGTATTCTTCCTTTATCTCCAGTTGC +CCATTCACTGTATGGTGCCTTGTTTCCCATGGTACATCGCAGGAATATAACCTCACACGAGTACCTATTT +TCTCAGAGCTCCAGAATTGCTCTCGCATTCTGCCTAGCTCAATCCGTATTTCCGGATGATCTTCCTCTAG +AACATCAGTATCCACCGCCCATTCGCATTCGGACATGTGATAGGCGAGATCACGTCGTTTTCTACAAATT +TGTTCATAAAAATCATTCAGAGAAATCATAAAACCACCATAAATCAATGTATTAGAGGTTGTAAAAATTG +TATTTTTGGTACATGGGTTTTTTGCCTTAAAGATACCCATTAATCTCTCTGCAACCAAAGTGAACCAATG +AGAGGCAACAAGAATGAACAATCGATCGGCCGTTAGAATACTACGGTTACCAGCGGTTATCCAAAAAACA +GGTATGGCACGGGCCACCATCTATGACTGGTTGAACCCCAAATCACCACGATACGATGCCACCTTTCCCA +AAAAGCGAATGCTCGGCGTGAAATCTGTCGGATGGATTGAGGCCGAGATTGATGAGTGGTTATCACAACG +CTGTAAACTTATTTGAGGGTGTTACATGAATTCATACTCAATTGCTGTCATCGGAGTGTAAACATCCTGC +TATTTCCGCCATTAATAGCGGAATAGCCATATTTGCTAAACAATTTCTTAATTTAATTAAATAAGAGGCA +TTGCATGTTCAATGGTCGTCCTTTCCCTGTAGATGCATTTCCTAAAATTATCAGGAATGCAATTTATGAA +GTGGAACAGCATACGCAGGCCCCTCAAGGTTTGATTGCTGCTTCTGCTCTTGGGGTAATTTCTCTTGCCT +GTCAGAACCGGATTGATGTTTGCCGATTGAATAATCTACGTGGCCCGGTATCACTTTTCTTAATGACTCT +GGCTGAATCAGGTGAACGTAAGAGTACGGTTGATAAACTGCTGATGAAGCCATTATATCAACTGGAAGAG +GATTTATTTGAAAAATACACCCACGATCTTACCGCATGGAGAAATGATGAAGCAATTTTTAATATTGAAA +AAAAAGCACTGATGTCAAAACTTAAATCAGATATTCGACGTAACAAAGATCACTTGGCAACAAATGAAAG +ACTTAAAGAACTACTTACGACAAACCCGAAAGCTCCAGTGAGATTCAAATTTTTATTTAACGATGCCACA +CCTGCAGCTATTAAAGCTCATCTCTGTGGGCACTGGCGATCAGTCGGCATCATGTCTGATGAAGCTGGGA +TCATTTTTAATGGTTACACACTTAACGAGCTGCCGTTTATCAATAAGATGTGGGATGGTTCAATATTTAC +GGTGGAAAGGAAAAACGAGCCCGAGAAATTAATTAGAGATGCAAGAATAACACTGTCGCTGATGGTCCAG +CCTAATGTTTTTAAGGGTTATATCGACAGGAAAGGAGATATGGCAAAGGGGATTGGATTTTTTGCACGGT +GCCTCATGTGCCAGCCTGCTTCAACACAAGGTAACAGAAAAATTTCCAACCCAATTTTTTCAAATGAACA +TTTGCCGGTATTTCACCAACGTCTTATGGAAATTGTTAATGAGAGCATCATTAAAATTAATGAAAATAAT +CGCATCTGCCTCCGATTCTCTGCAGAAGCAGAAAGACATTGGATCGAATTCTACAACCAGGTCGAGTCAG +AAATGAGAATGATTGGCCTTCTTTATGATTTTAAGGATTATGCTTCTAAAATGGCGGAGAACATGGCGAG +GCTTGCTGCCTTACTTCATTACTTCAGCGGTGATGGAGGCGATATATCTGTTACCGCAGTAAAAGCAGCA +GTGGAGATAGTGGCTTGGTATATTGAAGAATACATCCGCTTGTTCTCTAAAAAAGAAGAGTTTTCTTTAG +ATGTTTCAGAAGCAGATGAGCTTTATTGTTGGATAAAAGATTACTGCACGCAAAAATTTTCTTCCTGCAT +CAAGAAAAATATTATCTTACAATTTGGGCCAAATAAATTTAGAAATCGTGACAAGGCAAATGAATTAATT +AGAATCTTAATTTCACAAAACAAAATATTTATATCTTCATGGGGTAAAACAAAAATAATAAACATAACTC +ATTGTGTTTTTTGATTTTAATGACAATCTAAAAGGACTTAATTTAAGAGTAAAAACAAACTCTAAACCCA +GTTCGGATAAAAGCTTGTCATCTTGATAGGTAATATATAGGTACATAGACACATCAGAACGATCACTTAC +TCCAATATCATTGGCCAGGATACTATATGACATACGATAGTGAATTCGGATCACATGTATCCCTATATCG +GGATAGAATCAAACAGGTTATTGATGACTCCCTAAACGAACATCTTAACTCAATGATTCTACGTGTTGAT +CTGCATGACCCAATTGATACAGAAAATATGGATAACCCATTCTTTCAACCCAGGGTTGACTCTGGTGCTA +TATCTCGCTTTACCAGTGCGTTAAAAGCAAAGCTTAAACATGATAAGCATATTAAAACTCAACGGAAAGA +CTGGCCTGATAGTCGACATTCCACTTTACGTTACGCATGGGTCAGAGAATATACCAAAAATAGAAAGCGG +CATTACCATTTGATACTGTGTTTCAATCAGGATGCTTATTATCATTTAGGTGATTACGACTTAAACCGTA +ACACGTTACGTACAATGATAACGACAGCTTGGTACAGTGCACTTGGCATCCCTATAGATAGCTCGGGGAA +GTTAGTTAATTACCCGCCAAATGGCAAATACCTTCTCAATCGTAAAAGGGACAACTTTGAGCAGACTTAT +AGCGATTTGATGAATAGGGTGGATTACATGACCAAAGTAAGGACTAAAATAGTCGGTGACGGAGACCGTA +ATTTCGGCTGCAGTCGCGGGTAATTTATTTTTTACAACAATGGCCTTTCTTATGGCTGGAAAGGCCTGAT +TTGTTTGTATTAAGATATCGGTAATCTTTTGATGGTTGGAAGCCCGTCCTGGTAGACGACCTAGCCTACC +GAAGATGTGAGTTATTCAAAAATGTCGCTTTCCCGCGTTCCGTAGACAAACGTACCTAAATCAATGTCGT +CTAATACCGAGCGCGCGCCTGATAAACATCTGATCAACGTACCCAATCGATCTACTCCAAATGTCCTGAG +TATCCCGAAGATACTGGCTCAACTCATCCACATCAGCCTCGTCGGAAAATTCCAGCAAGTCTACCAGTCG +GTGTAACGTCTGAATGGGAATGCCAATCTCTTCTAAGGCATTGACACCTGGTGGTAGATGGAAACTTTCG +AACGCCAATTTGACATGTGTGTAATCGACTTTGCTGCGTATACCACGCTTTACAGCGTGGTGTTTAACTA +CATCCTCCATCAAGCTGAGCACCTTAGGTAGGGTATAGCCGAAGGTATTGGTTATGAGCTTCAAATCATT +GTTGAGGGCAATGGAAAGAGTACGTTTCTCCCCTTCAGAAATCCACTGTCGTGCATAATCGATCTGATTT +TTCAGATATTCCGAATAACTTTCAGCACTTAAATAGCCGGCAAGTTTTGCGATCATGACATCCGTAGGCT +TAACAGGGACCCCATTGCGACTGAACGTATGGGGAACCAGTCTGGCAATGATCTTTGCAAAGGTCTTGAG +GAAGTTTGTCGCGGGAGTCCAGTGAAACACTAACGAGGAAAATTCGTTATCGTCCATCATCTCGAACATG +CTTTGCAGCATTTCGAACTGCTCGACACGGAAGTACGAATGCTTCTTCACAAGGTCGATGGAAACACGGT +CGTTTATGAAAACCTCATCAAAGCGATCCTGTGAAAACTCGGACAAGTGGTCTGGTTGAACGCTGGCTAA +CAGGTTGATTGGGGTATCAATGCCCTGAATACCGAGCGGAATATCCACCTCTTGATTGAGATTGTCTTCC +GGGATTTCCTCCAGGCAAAAGATTTTGCCGACGAAGTGAACGCCCATGCGCCCGGCGCGACCTTTGATGT +TCCCATGGGTGAATTTGTCAATGCTGCGAGTTCCATCGCGGTTGTCGTAGATCACAACGTTCTTAGCGAT +AGTGTTGACTCCTTCAATGATCGTGGAGGTGCAGAGCAAAAAGCGCAGTTTTCCAGCATTGAATTGGTCG +GCAGTGTATTGCTGCAGTGCCCTCGGTAGCGCGCCAAAATGCAAGCCAATACCGTTTCTAAGGGCGACTG +TGTAATCCCAGTCGGCATCGAACTCTTCGCTGACCCAGTCGACATGGGGATTCTCAGTCGGAGTGCCATG +CCCAAGCCTGATCAGCTCGCGCGCCACCAGGCCCGCAACAGTTGGTGACTTGCAATAAATGATCGTTGCG +TCGACACATGCGTGCGCGATTTCCCCCAGCGCTTTGAGCTTGGCTTTGTCGTCATTCGCTTTGATGCCGA +ACGTCTTAACATCTAGCGCGACTGTATTGAAGTCGGTAGAAACGAAAGTATGCGGATATCCAAGTTTTTC +GAGACCGCGAATGCTGTTAACGAACGGTCCCGTCAGGTAAAACTGCCTGGAGACCTTAAGCAGTTTGCTT +AACGCAATGTTGAGCTCGATGACTCGTTCGTCTTGATGATCAATGTCCCCGCTTTTCAGTTGTCGGAACG +CCAACTTGTAAAACTCGTCAATGACGAAGAGGTCAATGTCGACGATGTCGTCACGCTCGTTCACTCGCTC +CTGAGTTAACACATAAACAGCCTGATCGGAATGGCACACTTGGGAACTGTGGTGGATGATCTGATATCGG +TCACCGAATCGCTCTTGCAGTCGGCGACGGGTTTCGTCGGCAAGAGCCACGGTTGGAACAACCAGAACAA +GCCGTTTCAAAGTTCCCATGCCGAGCAATGAATCGACGATTGCACTTTTGCCCATGCTTGTAGGTGCACT +CAGCACCACGTTTTGACCAGACTTGAGCAGATCGAATATGTGGAACTGCATTGAGTGGAAAACATAACCA +TCCGAGAATGGCGTCCGGTATAGCTCAAGCACCCTCAGGTCATCCGGTGTCAGGCTGGTGAACTCCTTTT +TGAGATACGGGAACAAACCTGATTTTCTCACCATATTTTTCAAAATTGTGGTGTGCTCGGAAAACCGCTC +GCGCGAATCGAGAGCTCGCACGATCAAGTCCCGTCCCAAGTCATACGAAACAGGGTTAGACAACAGCTTG +TTAACCGCAAACAGATAATTGAACGATGAGAAGTCCTCACCCTGCAGGCTATGTTTCGCCTGTTCATAGA +TCTCTGTCATACGACCTCTCTCACCTTCTCATCAACTAATTGGGTTAACCGCTCAAGACTCGGGGCTGGA +TAAATGAATACGTGGATGCAAAGATTCGCAAACGGCGAATCCTCGATGAGGTCAGCCGCGAATTTTTCGA +ACAGCACCGCTGTTTCTTTCTCCAGGTCATCCTCGAACCCCGGCGTTTCAGGCTCGGTTAGTAGATTAGA +GTCGTAGCCCACGAACAGAACAAACGTGAAACGATCGAGGTGAGCATCGAAAGGTTGGCTGCCATCAAGA +ATTTCGTCAATGTCGTGGCGAAGCAGGTAGTTATCGTCTTTAATGTCGAGGATTTTTTTGCGCGCGGTAT +CGATGCAATCCGAAATGTCCTCGTACAACTGATCCCGTATCTCCGGCAATCTGACGGCAATGTTAATATC +AGTCACCAACTCGCTGAAGCCAATCCAAAGCTGATCACCTTCTGGATCGCGGCGAACGATATGCACGTTT +TCAAGAATTTTTTCGGCCCCTGCTTTTTCCACGTATAGCATGCAAGGAATAGGCTGGCTTTCGTGGTGCT +GCCGGATCGTTGCGTGCAACAGCACTCGACCCAAAAATTCGCTGACGTCATGGAGCGATTTGAAGACGGA +ATTCTTTAGTCGTTCTCGCTTTTCAATGAATGTCAGTTTATGAATATCAGACATTTCTTTTGGTCGGAGA +AAAACCTCATCCAACCATTGACAGACGTTATCCGCGATGTGCTTGTAGCGGTATTTCTTAAGTGAGTACT +GCTGATGTAGAACCTGGCCTTTACGCTTAGCGCAGACCGAAGCCATAGGCGCTCTAAATGGCGTAAGGAT +GTGGGGTAAGTCCCGTTTGACGTAGATTTTGCGGCCTGACCGAGATTGGTCATCTTCGACACGCTGCTTG +AACCACTCAAGTAGGTCTGGTCGTAAGTAGGACTTGTCATCAGCACTGTGAATGCGTCGAGAATGCTCGC +CCTTGCGCGTCACAGTATCAAGGATGCGGCACCAAATGTCTTCGGCGACGGTTTCGGAACTGAGAATGAC +CCCATGTAGATCTTGGGAGGCCAGCCGTATGTTCTTGATCCCTAGAAGTTCCAGTTCGCGCAGGGATGAA +AACACTTCCCATGTAGCCGCATCGATCCAATCTGAAACGCTTATACCTGAGTCTGTTAAAAAATTGTCTG +TGCGTTTGTTGAGGTCATCGATGAGTTCCTGTCGACCTGGCTTATCTAGTCGGGCGTTTGGGCTGATCGT +CAAGTACTCAAGGGTTTTGTTGACCTTTTCCTCTGTGACGATGGAGTACCTACGTCCAAGGGACAGGTCA +GACTCACACTGCATTGATTTGTGCAAAATTGAACTGCAGGGGATCGTCTTTTTATCAGCACCTTTTGAAT +TCTGAACGATGTCCGAAATGTTCCAACGTGTTTTGCCGGTGCTTTTTACCTGAACGAAGTCGATGTATCC +ATCAGATACAATGTCGATATCGTCTGTGACCTCGCAGCGCACACTGCGGATAGTCTTGTCACGAAGCATT +CGGGTGACATGGTAAGCGGCTACGCAGTCCTGAAATAAGAAACCGTGCTTGGCGGCTACTCCGCCTGAAT +CGTTCGACTCCATTTAGACATCCGTGACAATTTTGCGAAAATTAAGGAGATGTTATGACACAGTCCAATC +GGATCACTGCATCATCACCAGTGATCTAAATACTTCACAGCCATTCTCGGTCGCAGGTATCAAGCTTTTC +AGGATTCCACAAATATTGTAACCCTGACGTCTAATTTGGTTATATAACATACTGCCCCAACTAACGTAAG +GTAGGCACAGCCTTAATCAAGGTTTTGGTTTTCAAATAGTTCAGAGCTGAGACCGCCAACCGCACTATGG +CACTATGGCACTATGGCACTATGGCACTATGGCACTATGGCACCGCCAGCGATTGTAATCACACTTGATA +TTATAAAACACAGTTGCACGCATTATTTCCTGGTTGGTAGGGTCATATCTCGATGCTCTTTGAGCAATGT +CAACATCGCGTGTTCATGGCTTTCTATATTGTTGATGCCTTGCCCATCCGGACCCCACTCCTTATAGCTC +ATCATGATGGCTTGTTTTGGGCTCTCTGCTCGTTCTGTTTCGACGTAGAATTTTTTCTTGTCTGCTGGCG +AATAATTACTAAGTATCGAGTTGCTGCTTGGTGAGATCAGGAAGAGGTTACCGAAACGATGGACATCATC +CCCCATTTTGTGGACTGCCCCCCCGGTAGACGATCCTGCCCTATAGTTGGAGTGCCCCCTATTCAGGTGG +CTAAATTTAGCAAATCAATACACTTCAGGGGGGTATTATTGTAGAGTTTCCCCATATGTTTCTATGGGAT +CCAGGAAATGACAATCAGGAGTTACAAAAACTTAAATCTGGTCAGGGCAAATATCGAGACTGAATCCAGA +CAATTCATTGAAAATAAAAACTATTCAATCCAATCAATTGGTCCTATGCCAGGGTCAAGGGCTGGGCTTC +GGGTCGTATTTACCAGACCAGGGGTTAACTTGGCAACTGTGGACATTTTTTATAACGGGGACGGTTCGAC +TACAATTCAATATCTCACTGGAGCCAATCGTTCTCTGGGCCAAGAGTTAGCGGATCATCTTTTTGAAACC +ATCAATCCTGCTGAATTTGAGCAGGTAAATATGGTACTGCAAGGATTTGTAGAGACAAGCGTTCTACCTG +TACTTGAGCTATCAGCAGATGAATCGCATATAGAGTTCAGAGAACACTCTCGTAACGCTCATACCGTAGT +GTGGAAAATTATTTCCACCAGCTATCAGGACGAATTGACTGTGAGCCTGCATATCACAACAGGTAAGCTC +CAGATTCAGGGCCGACCGCTGTCATGTTACAGAGTTTTCACGTTTAACTTGGCAGCCCTGCTTGATTTAC +AGGGTTTGGAGAAAGTGCTAATCCGCCAGGAGGATGGTAAAGCTAATATTGTTCAACAGGAGGTTGCCCG +CACTTACTTGCAGACTGTAATGGCCGATGCTTACCCGCATCTCCACGTGACTGCCGAAAAATTGCTCGTT +TCAGGGCTATGTGTTAAACTCGCCGCCCCTGATTTGCCTGACTACTGTATGTTACTTTATCCTGAACTAC +GCACCATTGAAGGTGTCTTAAAAAGTAAGATGAGTGGGTTAGGCATGCCAGTACAGCAGCCGGCAGGTTT +TGGAACTTACTTTGATAAACCTGCTGCTCATTACATTCTGAAACCGCAATTTGCAGCTACTCTTAGACCG +GAACAGATTAACATCATCAGCACAGCCTATACTTTTTTTAATGTGGAACGTCATTCTCTGTTCCACATGG +AAACTGTGGTCGATGCCAGCCGTATGATTTCTGATATGGCCCGGTTGATGGGTAAAGCCACTAGAGCGTG +GGGAATAATCAAGGACTTATATATTGTTTGAAATCACCGGAATTAACGTCTCAGGGGCTCTAAAAGCTGT +CGTTATGGCGACCGGCTTCGAGAACCCTTTGTCCTCAGTTAATGAAATTGAGACGAAACTTTCTGCCCTA +CTGGGTAGTGAGACCACTGGTGAAATCCTTTTTGACCTCTTGTGCGCTAACGGTCCAGAGTGGAACCGCT +TCGTTACGCTGGAAATGAAATATGGCCGGATCATGCTGGATACGGCCAAAATTATTGATGAGCAGGACGT +TCCGACACATATCCTGAGCAAACTGACTTTTACTTTACGTAATCATCCTGAGTACCTAGAAGCCTCTGTT +TTGTCTCCCGATGATGTACGCCAAGTCCTGTCAATGGATTTTTGAAACTCTTCTTTCTAAACGAACCAGT +ATAGAATTCGCCCTTTTGGCATGATATTAACTTGTCCAATATGATCAAATAGCATTAACCCCCCCTCACA +ACGTCCTGCATAGGGAACACGTTTTCCCCTGTGCACCCACGACTAAATTTCCCCCCCTTTAAACTTCTCA +ATAATGTCACCAATTTTCTGGAAATCCTATGATGCCTTTCCCGGTAAATGGTGCTGTGAGTTCAGAAAGA +TTCTGCAATCTATGTGCATTGAAAAAATCTTCAGATAGATATCATTCTCCTGAACAATCCGATGAACGGC +AGAACCTCGCGGTTCTGCCGTTTTTGTTTTACTTTTCAGAGGAGTGGTGATGAAAAATTTTGAAGTTCTG +CAGCCACTACAGAACTCCCTTTCCGGTCTACCGCTATGGGTATCTGAACGTATATTGCAGCAGATAAATC +AGTTAACCCACTACGAGCCAGTGATCGGCATCATGGGTAAAACTGGGGCGGGAAAGAGTAGCCTTTGCAA +TGCCCTGTTTGCCGGTGAAGTATCGCCGGTCAGCGATGTAGCGGCCTGTACACGTGATCCTTTACGCTTT +CGCCTGCAGATTGGAGAACACTTTATGACCATCGTGGATCTGCCCGGCGTGGGCGAAAGTGGCGTTCGCG +ATACCGAGTATGCTGCGCTGTACCGCGAACAACTTCCCCGGCTCGACCTGATTCTGTGGCTGATTAAGGC +TGATGATCGGGCACTGGCGACTGATGAGCATTTTTACCGTCAGGTGATTGGCGAAGCATACCGGCATAAG +ATGCTGTTTGTTATCAGCCAGTCAGACAAAGCTGAACCCACCAGCGGTGGAAATATCCTTTCCACAGAGC +AGAAACAAAATATCAGCCGCAAAATCTGCCTGCTGCATGAGCTATTCCAGCCCGTGCATCCGGTGTGTGC +CGTGTCGGTTCGCCTGCAGTGGGGACTAAGGGTGATGGCAGAGCGGATGATTAAGTGTCTGCCGCGTGAG +GCCAGCAGCCCGGTAGTAGCGCTACTGCAACATCCCTTTCGAACAACGGTAGCCCGGGAGCAGGCACGTG +ACGATTTCGGTGAAACCGTAGGTGCCATACTCGATACGGTAAGCACCTTTCCCCTTATTCCCGCCCCGGT +GCGGACCATTATTCAGGCCGTGCGTTCCTCGGTGGTGTCAGTGGCCCGCGCTGTCTGGGATTTCTTCTTC +TGAGTGTTTAATTCTGCCCTATTATTCTCCGAGCCCTGTCGCAAGTGCGGCAGGGCTTTCTTTATTTGTT +TTACCCATACTGAGGAGTCTGCTTATGACCCGTCTGGCTTCGCGCTTTGGCGCTGCAAATCTTATTCGCC +GTGACCGTCCGTTAACCCGTGAAGAGTTATTTCGCGTGGTGCCCAGCGTATTCAGTGAGGATAAACACGA +ATCCCGCAGTGAACGCTACACGTATATACCCACAATTTCCCTGCTGGACAGCCTGCAGCGGGAAGGCTTC +CAGCCATTCTTTGCCTGTCAGACACGGGTACGTGACCCCCGTCGTCGTGAGCATACTAAGCATATGCTGC +GCCTACGTCGGGAGGGGCAAATTACCGGTAAACAGGTTCCGGAAATTATCCTGCTTAACTCTCACGATGG +CACCAGTTCGTACCAGATGCTGCCGGGCATGTTCAGGGCGGTGTGCCAGAACGGTCTGGTCTGCGGCGAG +TCGTTTGGCGAGGTGCGGGTGCCACACAAGGGGGATGTGGTGAGTCAGGTTATTGAGGGGGCGTATGAAG +TGCTGGGGATTTTTGAGCGTGTGGAAGAAAAGAGGGATGCCATGCAGTCGTTGCTTTTACCGCCACCTGT +GCAGCAGGCACTGGCAAAAGCAGCGCTTACGTATCGCTTTGGTGAGGACCACCAGCCGGTTACTGAATCG +CAGATACTCTCCCCACGCCGCTGGCAGGATGAGAGCAATGACCTTTGGACCACCTATCAGCGGATTCAAG +AAAACCTGATTAAGGGCGGACTCAGTGGGCGTAATGCTAAAGGCGGACGAACTCATACTCGTGCCGTGCG +TGGCATTGACGGGGATGTGAAGCTTAACCGTGCGCTGTGGGTGATGGCAGAAACACTGCTCACGCAACTG +CAGTAGACGTTTCATGTTGCCACGTTGTTAATATCGGACACCACCTGTCCGCATCGCTATGTGCTCGTGT +GCCTCAATCCCCCGGTTATAGCTTTTAACCCCCGTTACATCTGGCTTTTGCAGAAATAAAAAATAGTTTC +TGCGTTGTCCATACCCTGTCCGCCCCCCTCTTTAAAGTAATCACATCATTTTCAGTCAGTTAACTTTCCT +GGAGAATCTCTCATGACACAGGCAGAACGCCGCCATGACCGGCTGGCTGTCAGGCTGTCACTGATAATCA +GCCGTCTGGTTGCGGGTGAAACGTTGAGCGTGCGCAAACTGGCGGCTGAGTTTGGCGTGTCAGTGCGCAC +GCTGCGGCGTGATTTTCGTGAACGACTGATGTATCTGGACCTGGAGTATCAGTCCGGATACTGCCGCTTA +CGCACTGCTGGCAGTGAGATGCAGATGGTGCCCGACGTGCTTATCTTTGCCCACCGCAGCGGGCTGGCCG +GGCTTTTTCCCGGCCTTGACCGCCGTCTGGTGAATGCACTGCTGATGTGCGATGAGTCTCCCTGCGTGAT +AGCACCAGCCAATCCGGTTCCTTCGCCTTCAGGAGCATTGTCTTTCTGGAGACTGATTCAGGCCATTACC +GGGCGCAGGCGGGTGACGCTGATTGCAGAGGGGCGACGCTGTGAGCGCCTAGCTCCCTGCCGGTTACTCA +TCCACCAGCAGACCTGGTATCTGGTGGCTGAACACGAAGGGCATATCGCCGTATTCACACTTGATGAAAT +CCATCTGATTCAGCCTTTGCAGGAGACTTTTCGCCGCAATGACAGTCTGTGTCGCCTGGTTGAAGACCCG +GTCTTCATTCAGGCCTTACCCCATTTTCGCTTTATCCAGCATTCACTGCTTACGTTTGTTCCGGCCGACA +GCCCACCGGAATAGCGCAGGCGTTGTTATCAACCCGGCAACATGGAGGAGCCCAGTGCCCGTTATTGCCA +TTATCGCCATTGTTATCATCGTCATCATTCTGAACAAAACCGGAGTGTCCGACAGCCTCACGGCCCTGAC +ACTTGCAACCGTTGCCGCACTACTGACGGGAGGTGGTGCAGCCGGTGCTGCCAGTGTCGCGCTGACGCCG +TTCGTCGGCGTGCCGGTGGGTATTTTTGTGGGAATTTATGTCTTTGCCAAAGTGGTTCGTCTGATTTCAG +GGAAAAAATAATGAAACGTAAAACACTACCTCTGCTGGCGCTGGTTGCCACCTCTCTGTTTCTGAGCGCC +TGCGATGACAGGAGTGATGACCTCAAAGCTATCAGTAAATTTAAGGACCTCACGCCCCCGCGCTTCAGCG +ATGTGGTCAGCCGTCAGGATGATGTCAGCGAAGAATGGTCACAGGTTGGCTTCTCATCCGGTCTCACCCT +GCAGGTCTTACGTACCCGTGAGTCGCCCGATGGTTGCGAGGGTGGCAGTTACTACTATCTGGTAGATATG +GAGGAGAAAACCGTCCAGCCGCTGATGAATGCGCTTTGTATTGCCGACAATATCAAACTGGAATACCACG +AAGTTACGGACCCGTATACGAAAGAAAAATACTTCGAATATTCCCATGACGGCAAACTGATGGGACGGCT +GCTGATACCGTCAAACCCTGATAACCGGGAATAAAAACAACGAGAAAGGAGACATAAATGAAAATACGTT +CACTAAGCCGGTTTGTACTGGCAAGTACAATGTTCGCCAGCTTTACAGCCTCTGCGGTCCCCGGACTCTG +GCAACAGGGGTACGGTCAGGGCAATGCGGAATACAGTGTGACGGATGCCAGCGGAAAGATGTTTACCATC +AACTGCACGGGAAATCCGGACCAGAACGGTATTTACCAGCACTCGGTTTTTCTGATCCTCGCCGGGGATA +AAACGGTCAGCTCGCATGATGACAGTACCGGCATCACAGTGGTGATGGACCATAAGCAATATGCCATTCC +CTCAACCCTTGGCTGGCGTAACGGAGATAATGCCTGGTTCAGCTTCATCATGGATATCCGTAAGGCCCGG +CAGTTCGACGTCTACGTCAATGACCAGAAAGTTGGATCGTTTAACCCTGATGTTCGGAATGCACAAAAGG +TCCTGCCAACATTAGCGGACTGCACTAACGACTGACGGCTGCGCCTTCCCTACCATAACAACCCTGATTG +CCTCCGGCGGTCGGGGGTTTCTTTTTTCTCCTTAATCTCCAGAGGTAGGCCACGTACTTTCGAACGATGA +GCGCAGTGGTCAGTTTTTTTCAGATATATTTATCTTTTTTTGGCTGTAAGCTCCGCTGTGAGCGCAGGCT +GTGTTAAAACTCCTGATCACTTTTTGGTCTAAGCGATGGTTTCATATGATCAACCATTCTTGATAAACCC +ATGAGACGGACTAACTTTTTCATTAAAATTAAAAAGATATGAATGAATACTGCGGATATCAACATGGCCA +ATCACATTCAAGGACAAGGCAGGCATCAGGTGACATTGCTCCCTGATGCACTCGATGATTTTGTCACTGA +AGATATCTGAAATAAGTTTAATCAGTTCATCACGGGTCGGTGGCATATCGAGATAATTAATTATTGTCGG +TTCGTTGCCGTTGTTATGAAGCATCTCCAGCGTGTTGCGTGAGGTGCCACAGGCCGGGTTGTGATAGATG +GTAATGTTGCTCATATCAGTATCTAATTACAAAGTGACAGAGAGCCGCCACGCCAGCGCGGCCAGAGTGA +CAAACAGCACCGGCACAGTCATGACAATGCCGGTACGGAAGTAATATCCCCAAGTGATTGTCATATTTTT +CTGGGCAAGCACATGCAGCCACAGCAGAGTTGCCAGACTGCCAATCGGGGTGATTTTCGGGCCTAAATCA +CAGCCAATCACATTGGCATAAATCATTGCCTCTTTGACGACGCCAGTCGCCGTACTCCCGTCAATCGACA +GCGCACCAATCAGCACCGTCGGCATATTGTTCATCACTGATGAGAGAAATGCCGTCAAGAAGCCGGTGCC +GAACGTCGCTGCCCATAACCCCTTGTCTGCCAGCAGATTCAGCACGCCAGACAGGTACTCCGTGAACCCT +GCATTGCGCAGGCCATAGACCACGATGTACATGCCCAGTGAGAAAATAACGATCTGCCATGGCGCACCGC +GCAGGACTTTTCCGGTGTTGATCGAATGACCTCTTTTCGCCACCACAAACAGCACTGCTGCGCCAGCGGC +CGCTATCGCACTGACCAGGATTCCCTGCGGCTCCAGAAAGAAGAAACCGACAAGCAGCAATAACAGGACA +ATCCAGCCCGCCCTGAAGGTTGCCAGATCCTTGATCGCACTGGCAGGCGTCTTCAGCAGCGAAACTTAAT +ACGTTGCCGGAATAACTCTGCGAAAGAAGAGATACAGCATAATCAGCGTGGCCGCAATCGCTGCCGCATC +CACGGAGATCATAACGGAGGCGTACTGCGCAAAGCTCAGACCGAAGAAGTCCGCCGAGACGATATTCACC +AGGTTAGAAACAATGAGCGGCAGGCTGGCCGTATCTGCAATAAATCCTGCAGCCATGACAAAGGCCAGTG +TCGTGCCCTGGCTGAACCCAGTGCGATCAGCATCGCAATCACAATCGGCGTCAGGATCAGCGCGGCGCCG +TCATTGGCAAACAACGCATCAACAGCGGCACCGAGCAAGACTTTCCAGGTGAACAGCGCTCTAGGTAGGA +ACTTTGTCGTTGATAGAGTCTTCAGCCATCAACACTGTATCGAGTAATGAAATTGGTTGCTAGAAAGTCG +ATGATTTGTTGCGTATGATTAAAAATCAACCTTAAAGGCTTTATACATGGATTTGCTATGGCTTTTGTAT +CAGAAAGAGAAATTGTAAGAAAGATATTTAGCAAAAAAATTGACTTTACGATCTTGGCATTTTTCTATAT +TTCCTCTATTTTTTTTCTTCTTTGTAGTGGCGTTCTCTTTCAATATTTTACCGCTGCCTTCACAAAAGGT +AATTGTTATGAATGCTCAATGAAACTTGATTACATAAAACAATTTTATTTTTCACTGGAAACCGCATGGT +ACCTCATATCTGCTGTTGCAGTATTTATTGCATCTGTTTTTATACAGCATAGAATTAAAGCTTATTTAAC +ATTATTAGCTATTACATGGATTGTACTAACAATAACAGATGTGGCGTTAATACACGCCTTAGACAATATA +GCCATGAATAATATTTTGTTAAATATACTATATAATCTTTTTGGGGCGATTTTATTGTCACTGTTTATGT +GTTTATCAAATTCCCTCCTTTTCCACCTTAATAAGATAAAACATATTCCAATGATTTTATCGGCAATGAT +TCCATTAGTTTCCGCAATAATAATAGCCATACTCATAACCGCTGTTATATATTTATTGTTTGCCCGGCAG +GCGGTAGAGATTGAGATGGATATATCTGAAGGTTCAGACATCGCATATGTAGGTGTAAAAGATAATGAGG +AATCATTTGGGTTTTTAAATGATAAAAAAACAGACACACCAACGTATCTGGATGTAATCAAAAATGGTAG +TTTGATATATAATGATACACAGGGTTTAAGTGGTGCTGATATTTATATTGTCTCCGGTTGTTATGCCCTT +CCAGATTTACTTCGCAATGTACCGCTTGATGCTAAAAAATCTTTTCTGAATGTAAAAAAGCTAGAAATCA +CACAGAAACTTCCAATGATGGGGTTCATACAAGGTGAATCCGCTGATGTGATGCCTAAAGCAGCATCCAG +GTTAAGTTTGAGCAAGCAAGATGATAAATTTATGCTAGCCTCAAGTGTTACTGACTCTCAAATAAAATTT +AAATCAAACAATGCACAATTGATGGTTGCTTTCGCATTTATGCCAATAACAACGAATGGTATTTTACATG +ATTATACATACGATATAATAATAAATGATAAAAAATATAAAATTGAAAATCATGTTGCACCTCTATCTAG +GCTTGATAAAAATAAGAAGATGAAGTGTGAATACCAGCAAATATCGGATTTAACAAATACGTATAACATT +AATGCAAATTACTTAACGGGTTTTTTACTTGTCCTAAAACCAGATGATATTATTAATTACAACAATAGCC +CTTCCGTACTACTCAAGACTGATTTTGCGTTCTATAAAAAAACATACCAGAAGCTTGATAAAATATATGA +TGACATAAGCAATGGAAAATTATCTTCACTGAGAGCAACAGGTATCTCCCAGTTTAGTATCAACGGGAAA +CATTTGTCGTTAAGGCCAGAATCGGAGATTATTATTTCTGAAGGGAGTTTGTATGGACTAGTTAATAAAA +GCAAAAAAATCAAAATATATGGCACAGCAGATCTTGTTTTTGTTGATAACAAGATAATGAACCTTCGTAA +AATAACTTATTTGCAATCTAAGCTAGAAATTTTTGGTTCTTCTATTATGGATATATTAAAGTATATATTT +GGTTTAGGTCTGCTAGCAATTTCTATAAAATTCATTCATTCTTACTTTAAGAATGATGTGAATGAAAATT +TATTCTTGTAACGCATTTGGCTCCAATTGGAGCCTTTTTATGACTATTTATTAAAATATCCTAAGTTAAG +CCTGTTTTTAAAGCAGGCTTGAGCGTGAAGCGGACACTCATACCTGCTTTAAAGTGGCGTTTTTGTCGTT +ACCCATACCTATATTTTCTGTTGTTTAACTGCCAGAACTGAGCGGTTGAAAAGCCAGAAATATGCCGAGC +CAGCGGCATGGAAGCGCCAGCAGCTGTTGAATGGAGTACTGTAGGCAAATGGTGCCGTAACCGGCTTTCG +TACTGAAAGGTTCTGTCTATCCCATCCCTTCTCTTGTATCTAACATTTAGTTGTGAATAGCTACTGTAAA +TGCCCCTACAAAATGAACCATTATTTTTAGAGGGCGTCTGGCACTCCAACTTCCGCTTTTGGCACAGAAC +GGCCTATCAGCAATATAAAAGCATTCAGATATATATCATTTCTACAAACATACCCGATTAACGGCAGAAT +CTCAGGATTCTGCCGCTTTTTTATTATTTTTCAGGGGAGTAGTAATGAGCAACTCTGAAGGTTGGTAGTC +ATTTTAGCAAACGCTTTCTGGTCTGCCGCAGTGGGCATCGGCTGATTGCGTAGCAGGGCCACTGGTATCT +GCCGGTATCACCGACATTAACATTGAAGACGACCAGGGCATTCACGTCCGCCTGATAGTTCGTGATGCCG +AAGGTCGGATGGTTGGCGGGCATGGAACTTTGAACCGGACGCCGGTGAAGGTTTTAACCGCTATATCCAC +AGGTCAGGCATCCGCACCGACACCTTCCCCCGCTGACTCCGAATCATTTACCAGCAACATTTCACCTTCC +CAAACGCGCTTTATTACCTCATACGCCAGCCATCGCCGCTGGCGTTTTTTATTCACGGAGACATACCCAT +GACAACACAGACACAGTACGACCTCGTACCCGCTAACGGATCCGAATTTGAGTTGAGCGTAACGCAGGTA +CCCGATGAACAGCATATCCGCTTCTGGCCGCAGCACTTTGGCACCATCCCGCAGTGGATAACGCTGGAAC +CGCGCATTTTCGCCTGGATGGACCGCTTCTGTGATGAGTACTGCGGGGGTATCTGGTCCTTTTACACGCT +CAGCAATGGCGGAGCGTTTATGGCTCCTGATGCTGACGGTGACGATAAATGGCATTTGCTCAACGGCATG +AATGGCAATGGTGCGGAAATGAGCGCGGAAGCCGCAGGTATCGCTGTCTGCCTGATTGAATATAGCCATC +ACGCCTGCCTCACCGAATGCGATGCCATGACGGAGCACTATTACCGCCTGCGGGATTACGCTCTGCAGCA +CCCTGAATCCAGCGCCATTATGCGCATTATTGATTAAGGATACTCATGATGGAACAGTCACTCATCCCAC +AGACACCGGTACTTCCACTGACCGCACAACGCACGGTAAAACGCGCCTTAACGCTGCTTGACCGACACCT +GCGCGAAACAGGCGTGGCATTCACCTCCACTCAGGCTGCTCGTGACTGGCTGAAGCTGAAAATGGCGGGG +CTGGAGCGTGAAGAATTTATGATGCTGTATCTGAACCAGCAGAACCAGTTGATTGCCCACGAAACCCTGT +TTGCCGGTTCTATTAGCAGTACCGAGGTACATCCCCGTGAGGTGGTCAAACGCGCCCTGTATTTCAATGC +AGCAGCAGTGATACTGGCGCATAACCACCCCTCCGGCGACACTACTCCCAGCCAGGCAGATAAGACTATA +ACGCAGCGTCTGGTGCAGGCGCTTCAGCTCGTTGATATCCGTGTCCCTGACCATCTGATTGTTGGTGGCA +GGCAAATCTATTCGTTCGCAGAACACGGTCTGCTTTGAGGTATTACATGAGAATTATCAGTAAACGCCGG +GCAATGACGATATACCGCCAGCATCCTGAGTCCCGAATCTTTCGCTACTGCACCGGAAAATATCAGTGGC +ACGGTAGCGTCTGTCATTACACCGGCAGGGATGTTCCGGATATCACAGGAGTCCTGGCTGTGTACGCCGA +ACGCCGCAGGACCGCAGCGGACCGTATGCTTGACTGATGAGTATCACCCTGAACTGACAATAAAGAGGTT +ATGAATGAGCAACACCACATGGGGCCTGCAGCGAGATATCACGCCGCGCCTGGGAGCACGTCTGGTGCAG +GAGGGCAACCAGCTGCACTATCTGGCTGACCGGGCCAGTATCACCGGTAAGTTTAGTGACGCCGAATGTC +CTAAGCTGGATGTGGTATTTCCACATTTTATCAGCCAGATAGAGTCGATGCTGACCACTGGTGAACTGAA +TCCCCGCCATGCCCAATGCGTCACCCTGTACCACAACGGTTTTACCTGCGAAGCCGATACTCTTGGTAGT +TGCGGCTACGTATACATCGCTGTTTACCCCACTCAACGCTAACTAATTTCACGAGAGCAAGCATGAACAC +TCTACCTGCTACAATTTCGCAGGCGGCGAAGCCCTGCCTGTCGCCAGTGGCTGTCTGGCAAATGCTACTG +ACACGCCTGCTGGAACAACACTATGGCCTGACACTGAACGACACGCCGTTCAGTGATGAAACTGTTATTA +AGGAACATATCGATGCTGGTATCACTCTGGCCGATGCAGTCAATTTTCTGGTGGAAAAGTACGAACTGGT +ACGTATCGATCACAGAGGATTTTCGTGGCAACAACAGTCTCCATATATTTCCGTAGTAGATATTCTGCGA +GCAAGGCGCTCTACCGGCTTGCTAAAAACTAATGTGAAATAAACGCTTAAATACAGAGCAGACTGAAGGA +AAGCAAAATGCTAATCTCATAGACGAAGAGACTCCCGCTGTAACCTCCCCTCCCCCGAAAAAACCTGACA +TTTTCTTTTAGGACCAACAATGGGACCAAAATGAAAATTGAACTGAAGATTACAATCAATTTAACAACAA +GTTACACAACCAATTCAGACTCCGCCAGCCCACCAATCATGATTGGACGGTGTAAGGACAACACCAACAA +AAACAGGAAGTTAGAAGTCTCAGCAAAACACCGACCAGACGGTGAGGAGACATAAAAGGATACGCAAAGG +AGCCGCGGCTCCTGGTAACATGAAAGCCCACAGATGTGGGCTTTTTCGTTGATGGTCAGAACGACCAGTT +CACACCAGCTACCGCGTTCCACGGGGATTCCACACCGGCACTATGGCTATACCCCACCCCAAGATGCCCG +CTTAACGTACTGCTGAATGAGGCTTTAATACCTGCCTGGTATATTCCACGTCTGCCCGACAAATAATTGA +CGAAATTACCGTCACTATTCACTTTCACCCGGTTATCATCGACAAATTCTTTGCGCACAGCCGCCTTCAG +CCACGGCTCAACTTCCATACCGTTCCCCAGACGCATGTTGTAACTCAGCGTTGCGCCCAGTTCACGATAT +ATACTGCGGGTATCGACTGATTTCGATTTCATGCCATTGGATAAATGATATTCGGGGTTATCAGCGGTGA +ACCCCGTTAACGATGCATACGGCGTCAGGTTCCAGTTACCATCGGTAAATCGCATCCCGGTTTCAATGTG +ACCGCCCAGCCCGTTGCTGTGGTAACTGCCATTGGCGGCTCCACCGCTGCTCATTTTACCTGCTACGTTA +CTTTTAAAACGGTTCAGCTTCACGACACCGTCCAGATAGAAACCACTTTCATGTTCCCAACTGGCATAGC +CGCCCAGAGAATAACTGCCCACACTGCCATGTCCTCCGCGATCAAAACCGATATGTGAATGGGAATAGCC +CATAAAAGCGCCTAGCGTGGTAATTCCTTCAGGAATATCATTACGGCTGTCGATCCCCACTGTCATTCCG +GTCAGCGTCTGCTCAAACCCGGCACCCGCATCGGTGGTGACATTATTACGGGTGTTATACGTCGCCCCCC +AGACATTATTGTTGTGTGGACTCGCTTTCATTATGTTCAACCGCTCGCGAATACTGTTTAGCTCAGCATC +AAATACCAACGGTAATGTTGCTGCCATATTGAGTACGGCTGCCGTAGAAGGCGTAATGCGTTTCTCCGGA +ACGGGTGTCGGCGTTGGATCGGGAGTAGGGTCTGGTTTTGGATTTGGGTCTGGCTTTGGATCGGGTTTTG +GGTCTGGCTTTGGATTTGGGATGGGGTCCGGGTTGGGTTTGACATCATTGGTCAGGTTCCAGTTGCTGTT +GCCGTCACTTTTCAGGACATACTCATAGGTCCCAAGATCAACGAAACCGCCGGTATTGCCCAGCGTAAAC +GAAGCATCCCCTCCCCCTGTTTTCACCAGCGTCATCGCGTCGTCAGACTGTGGGCTGACGCCGGTATCCT +GAACAAAGATTTTAAAATTACCAGTGGCGTTGTTGTTGACGACCAGTTGATCGCCCCGGGAGCCTGCAAC +GTTGGTATGCAGGTAGAAATTACCGCTACCGGAAAGTTCATTGGTTGTCAGCGTATTGTAGATACCGTTA +GTTGTGGCAGGCGCTGCTGTTTGTGCTGACAAATAAACATCACCGTCGTTGAGTAGCAAACTGTTTACTC +TATATTCGCAGTTGCTGGTACCTGCACAGGAATTATTGCTGTTAAGCCAGACACTGCCCCGGCTGGCAGC +CGTCAGGTCGGCAAGCGTGGTATCGACGCCATTTCCCAGAGTCAATGTCGCGCTATCGGTAATCCGGACC +GCCCCTTCGAGTTTAACTGGCGTAACATTATCCCGTGGCGTCATTAACGACAGGCTTCCTGTCGCGCCAC +TGACCGATGCATCCGCCAGCGTACCTGCGTAGACGATTGCCGTACCGCCAGCGACCTGGAGATCTTCTGC +CCGGGCCAGAGCCTGAAACTCATCTTTTGACCGCCCAAGGGTATATTGCCCGCCAGAGTTAACCTTTGTG +GCGGAGTCCTGACCCAGGTTTTGCATTGCCCCACCCTTGCCAACCGTGGAGTCGCGAGCTTCGGTACCTG +CTAATACCAATAAATTACCGCCATTTTCCAGCAACATATTGGTCGCTAAATTGCCGGAAATGGAAAAAGT +ACCGTACTGGTGAGTACCGCTGATTTCAATACCGTTAGCCGTGCTCGTCTGGAGAGCGGCACCGCTGTTC +TGGACGATATCTGTCGCTTTGCCATTATCGTTGACTGTCAGCGTACCGCCTTCATTGATCTTTGTTTTTA +TTGCCTCTCCGTTAGCTGAAACTGTTTGTATTCCGCCGTCGTTAATTGTTGTCTCATTCGCCACACCCTC +GACAATTTGTTCACCGCCGGTGAGCGTCGTGCCTGTCGCAGTGGCTTTTGTTTTGACGATCTCCCGTCCG +CCCATATTGACCTGTGTTTTGTCAGAAGAGGTGTCTGACTCCACGGTTAACACGCCGCCATTTGCCAGCA +GGATATTGTTCGCCGCACCCTGCTCGATGCTGAACGCGACGCCATCCGCGCGTGTTCCTGTGACCCGCGT +CGCCCTGGTGGTTGCAACCAAAGCGCCCTGGCTACTCTGCTGTATCCCCGTTGCGCTGCCTTTCTCCCGC +ACATCGAGTGTGCCGCCGTCATTAAGCACCGAGTTTTCAGCCAGGCCGCCCTCATTAACTACCTGTGAAC +CCCCATTAATAATGGAACCTTCCGCTGTCCCGTTTGCCATAATTTGTTGTAGGCCAGAGACGATATCGGT +ATTGATTGCCTTACCATAATTCTGAACGGTTTGCGTGCCACCATTGATGTGTGTTTTCTCTGTTGACCCA +CCATCAACAATTTGTTCACCACTTTCGATATTTGCTTCAGTGGCTAAACCATATACCGTTTGCTTGCCAC +CTTTGATATTTGCTTTATCAGAAGTGGCACTGGCATATATTGTTTGGGTGCCAGCACTATTGAGTACAGT +GCCAACATCTTTTCCATAAACATCCATTTTGCCGTTGGCATTAATAATCGTGTCAACTGCGCGGGAACCA +GTGACGACTGTTAATGAGCCAGCGTTTTCCAGCACTACATTTTTAGCTTCTGAATTCCTGATGTAGAAAG +CATCACCATAACTGTTGGTTCCTTCGATAAGTGTTCCGGAGGTCGTGGAAGCAATTAATGCGCCGCCGGA +TTGTTGCTCAACATGCTTAGCCTCACCACCGTCCTGAACCTCCAGAACGCCGCCATTATTAAGTCTGGTG +CTATCTGTTTTAGCCTCCTTCTGGACAATCAGCTTACCGCCAGTATCAATGGTAGTATTTTTCGCCGAGG +TTTTAGCCACTACCGTCAGTTCGCCGGTATTTTCCAGCACAACATAATTAGCCTCCCCTCCGGTAATAGT +GAAGTGAGAGAGCTTGTTGTATCCTTCGATATCAGTCCCTGCACCCGTGTTGGCAACTAAAGCACTGCCC +GTCTCCTGGTTAACCCCATGTGCAATACCGCCGGTATAGACAATCAGCGAGCCTCCGGCGCTAATATTGC +TGCCAATTGCCGTACCATCTTTCTCAACAACCTGCCGGCTCCCGGAGGATATAATTGTTGTGTCAGCTTT +CCCGCCGCTTTTGATATTTTGCGTTCCGCTGTTGATATTGGTGCCTGTGGCTATGCCATAATTATTAATA +TTCTGTGTGCCACCATTAATTATGGTATTTGTCGCGTTTCCTGCAACATCCATAACCCCGCCATTATCTA +TTCGGGTCGCATCAGCTTTAGCATTGGTTAAAACTGACATTGTTCCTTTATCTTTAATAATCGTCTTGTT +TGCCGAACCATATGCGTTTATGTCTAAATGACCACCGTTTTCCAGCAACACATTGTCTGCCACGTGATTG +TGGATGGAGAATGCACCTTCACTATTCGTACCGCTCACCGTCGTACCGTTAGTGTTAGTTTTTAAAATTG +CACCATCGTGCTGGGTAACATTTGTTGCCGTACCACCCCTAACATCAAGCACGCCACCAGAATAAACTTC +AATAACATCCGAGGTGCTGGTGTTATCAACAATTTGCGTGCCACCAGAATAGATATGCGTATTTTTTGCC +GTTGACTTACTATTCAGAGACTGAGTTCCGCCTTCAATCGTCGTGTCCAGCGCACGGCTCTCATATACTC +TTTGCTCACCGCCATTTTTAATGGTTGTTGTTTCTACTGTGCTCTGTTCAACATACTGTCGACCACCATT +TATGGTTGTGTTCGTTGCCAGACTTCCTTGTACTACGTCCTGAGAGCCAGACTTATTTATCGTTGTACCA +TCAGCATGCCCTTGAACTTTTACTATCTGGCTACCACCATCAATGAGTATTCCATTCGCACTCCCTCCCT +CTACGCGTGAAGCACCGCCCTTAATTGTCGTTCCATTGCTGATACCCCCTTTATAAACGTCCTGATTGCC +ACTCTCGATTGTCGTACCTGTGGAAATACCCCCGTCATGAATTGACTGTCTGCCACCGTTAATGGTTGTA +TTATTAGCCTGCCCCACAAAATTGTTATGACTTCCTATATCTTGATATCCACCAGATTCAATAAGACTTC +CATTAGATACCCCGCCATGAACATTCTGCTGGCCATGGTTGATAATATGAGTGTTATTTGTTGTACCTCG +TTCATCCACTTTTTGGTTGCCATCTACAGTCTCATCGTTTACCACACCAATAACATTAGTAGTGAAGGCA +GCCATCCCGGGCGGGGCATATATCAAGGCAGATATCAATAAGGAAAGTACTGAGCGGCGACAATAATAGG +GACTGGTCCTGTTCATAAATTTCATCCTCTGAAAAGTGAATACTGAGTAGCGTTTAAGCGACCTTAGCTT +TGCTGCAACATCAGCCCACAGGCACCAGACCAGGGGATTCATCCTGAAGAGACAGCGCAAGTGTATTGTG +TTCACCGCTCATCAAAGACATCATGATGAAATGATGATATTCCGCATAAGAATGAGGCATTTTTTAAACG +CAGTGCGCTGAAGTGTGGTTGGATAAAAAAGTCAATCCATTCAGGAAATACGGGCGTATTCTTTTCTTTC +GACAATGAGGCCGTTGGCAAAATAAAATGATTTACATAATCGTTTCTGATGAATATCTTCTGCTCACATA +AAAATCACACAATAACTTTGAGATCGCAGATTGTTTTACTTTTACAGCATTCGTCCCCCCATTGTTGGGC +AAATATAGATTGGGCCAGAGCACGAAAGTTAATACCACGTTCGCACAGCTCCTCCAACAGCACGACAAGA +TGCCACATACTGCGCCCCAGTCGGTTCAGTTTACAGACTAGCAGTGCGTTCCCTGCCGATGATGTCCTGA +CCAGTTTTTTCAGTCCGGACCTCCTGCCACGGTTTTACGTTGAAGTGGTAACCCTGAGCACGCAGTTCTT +CAGTCAGGCGTGGTGCACCGTAACGCTGTTATTGCTGGGTAAGATCAAAAAACTTTCAGGCAGCTAAGGA +AAGTTGAACCAGACATTAGATGAAATATTTCAACCAATTACAGCACCAATTCAGTCACTGCCAGCCCACC +AAATAAATCAAGGGGTTACATGAAAACGTAGCCCCTTTTTCTTTGGTAGTGACACTAAAATGGATGTAGT +GTGAAGAATAATCCCGTTTACTCAATCAATAATACATATTGTTTCAATCTACGTTATTATCTCTTTGTAA +AAATTGCCATTTATTAATCATTGAAAACTGCTTTTAGAACTTGATACAACGGGACTAGTCACAACAGGAC +TATTCTCAACGGGATCATCCTCAGAGGAACTATCATCAAAGTCATCATCCATAAATAAAATATCATCGAA +TGGTGCCACGCCCGTGATGAGTTTTATTTTATTATTACGATCAGTCAATACTCCACTTAAACCGTTTTCG +CTCACAGGTTTTAATGATTTTTCATTACTCTTGTTGTAAGCAGGCGCATTAAAAATACACGGAGTATCAA +CATCAAACAATGACGTTCCCCAGTTCACATATTGAATATCATAGTTACTGAAGTTCTGTCCAGAAAAGAA +GCACCCCTTAAAATCCAATCCACGTAAATTATATAAACCACCCTCTTCTTTTTGGAGAGTAATGTTAATT +TTGGCTATCTCCCGGACATCATCGCCATTTTTGTATTTGAATACCGTTTCAAGATGTTCTCCAGACAGCT +TGACTTCAGGAAATAATTTGAAATCAAAGCCTATATTATTATGTGTCAACGTAGATGAACAAAAAATGGA +AAAAGCTTGCAGTGCTGAATTATAGCTATCGATTTTATCTTGAGGCTGAGCTCTTGGTAAAAACTTATAG +CAACACTCATAAAAATTAAACAGAAGCTCTGAAGACCTTGTATTTTTATCAAATAATACCCCCTTGAACT +CATTCACAAACGCATCTTTTTTTTCTTGAATATCTATGGGGTGTTCCTTTGACTCTGACAAAGATGAAAT +CTCATCTATTTTGTTTTCATATGAATTACGTGATTCCATACAGACATTTGGCGGCGTTTCTAAAATAACA +CTACGCGTACTACTTGGCTTAAGTAAACCAACATGAAAATCACTTTTTCTTATATTATCGAAAAGGTTCT +ATTCATTTCTTTTAGCGCATTCAAAAAACTGATCGGCATTATTTTTATTCGATAATTTTTTAGTTTCAGA +AAACACATTTTCATTGTTTTCCAGCTTTAGTTTAATGAGAAGATTTTCCCAGACCTGCTTGCTTAAACAT +ATTACGTCAGGCTCACCAGAACTAACTAACTCGTGATTATTATTAAAGTGTACGTTGAATACCTTTAAGT +TATTTTCACCAACTTCATATTTAATACGTTTTAATTGTTCTCCAGCTCCCATAATGACAAAGGCGTTGCC +TTCTTGATATATACATTCAGACATCATTTTTTGTAAAGTTTCAAGAGCACCGCGATACGTCTCTGATGCA +GCTTCCTTACAAATTAATTTTAAAATACTATGAGCTAGTAGCTCCATGTGTTTAGAAGATTTATTTTCAT +TATAACTTCCACTACCCAAAACTGCGCTAGCGTTAAATCCGTTGCTTTTACTAACTAACATTGTCTATTC +CTCAATTAATGTCTACATGGCTATTTTTAATGTTATTACTGTTTGTCACTATAAAAAAACGCTCATTTGA +GACAATTACTGACATTAACTGCTTCACTTGCTACGCATGGAACTTTTAATTAAATTAGCACAGGAATGTT +AAATTTAATAAACAAAAGGTTATTTCGCTGTATGATAAAAAAAACCGTTATAATTTATTAGTGAAAATCG +TTTTTCAAGTGTTAGAAATTTATATCTCAATAGCGTTGGTTAATGAGCATAGCCACGCTCCTGTAACGCT +CACAAAACTCATCTGCCTGCGGCGGGTGTTCTGGTCAGTAGTAGATGTTTAAGGCGTGGCAGAGACATTT +CATCCTTACTCTACGGCATTGTTCTACATACATTGGTTGTGGTACTCACTTATCATCAGTGAGCGAACAG +AGAATAGTTCAGTGATTTGAGTAATTAACCTGATTAAATGAAGGGGTATAATAAATGATAATACTCTGGC +TTTATCGTTAATTACTTAATTCCACATGTAAGCAATTTGCCCGCTTGGCATAGCAGGCATTTTTTCCAGG +TACTTTTGAATGAGTACTGATGGATAAATACATTGCAGTGGCGTGCCACGTACCAAAACACCAGCCCTCA +TTCGAAACCACCCACCGCACTTCTTCCTTGAAATGGCGTTAGTCATGAAATATAGACCGCCATCGAGTAC +CCCTTGTACCCTTAACTCTTCCTGATACGTAAATAATGATTTGGTGGCCCTTGCTGGACTTGAACCAGCG +ACCAAGCGATTATGAGTCGCCTGCTCTAACCACTGAGCTAAAGGGCCTTGAGTGTGCAATAACAATACTT +ATAAACCACGCAATAAACATGATGATCATATGATGTAAATAACAGATTTTTATGCGTTCCCATTCACCTT +GGGTCGTGATTACACGCGACATAAAACCCGACACCGCCTCCATTCGCAAAGTCGATACTCGCAGTCAACA +AGCAAATGTTAATAATTAGCACTATCTATAGTTATCATCGATTCAATGATACTTTGTAATGATTTTGTAT +CTAATAATATAACTTTATTACATTAGCTGAAGAGTTTTCGCATCATTATGATATCTGTTACTTTTCACTC +CATAAAAATAAACTTCGTATAGCAATATATTCTTTCATAGATCTTATTCTGCTAATCATTAGTTTCGTAT +GAGCGATTTTTGACAGTTGCCTCTCCAGACCACATCGATAATTAATAAAACAGATTTAAGCATTATCCTT +TTCCATATAAATATTGGATAAAAGTAGGACATCTGTTTGCAATTACTTTCACAACAATTAAACATTTTTA +TGTTTCCGTATACATCATATTACTCTACCATTAGAGGAACTTTATTATGTTTTCTATAAAACCAGGACCC +AGAAATTTACCTATCGACAACCCCACATTGTTATCATGGAACATTACTGACGGGGATCTAAATTCCAAAT +TAAATACATTAGAATATCTAAACTGTATAACAAATATTATTAATTCTTGTGGAGTTTACCCTCAAGGATT +AAAAGACAGAGAAATTATATCAACTTTTCACGCAGAAAAAGTTATTAATGATCTGTTAAAAAACGATTAT +AAAATTTCCCTTTCTCCAGATACAACTTACCGAGAGTTGAATAAAGCAGCACAGCGTAGCATTACAGCGC +CAGACAGGATAGGAGAAAGAAAAACATAGGTTTATCAACGAGATACAATGATTGAAAGAGGTGATAACAG +CGGTGTTTATCAGTATGGTCGTGCTGAACATTTCACCCACATTATATCTGACAAACCTTCCCCAAAAGAT +AAATATGTTGCATATGCTATTAACATTCCTGACTATGAGCTGGCAGCCGATGTATATAATATTAACGTGA +CGTCACCTTCCGGACAGCAAGAAACATTTAAAATATTAATCAATCTAGAACATCTACGGCAAACACTTGA +ACGTAAATCTCTTACTGCTGTTCAGAAATCACAATGTGAAATCATCACCCCCAAAAAACCTGGCGAAGCG +ATTCTTCATGCTTTTAATGCCACCTACCAGCAGATCAGAGAAAATATGTCTGAATTTGCACGTTGCCATT +ATGGGTATATACAAATCCCTCCAGTGACAACTTTCCGCGCCGACGGACCAGAAACTCCCGAAGAAGAAAA +GGGTTACTGGTTTCATGCTTATCAACCCGAAGATCTTTGTACCATCCATAATCCAATGGGAGATTTGCAG +GATTTTATTGCATTGGTTAAAGATGCTAAAAAATTTGGTATCGATATCATTCCTGATTATACCTTTAACT +TTATGGGAATTGGGGGTAGTGGTAAAAATGACCTGGATTATCCCTCTGCTGATATACGAGCGAAGATCAG +TAAAGATATAGAAGGTGGTATCCCTGGCTATTAGCAAGGTCAGGTTTTGATTCCATTCATTAAAGATCCA +GTAACAAAAGAACGTAAACAAATCCATCCAGAAGATATACATCTCACTGCAAAAGACTTCGAAGCAAGTA +AAGATAACATCTCTAAGGATGAATGGGAAAACCTCCATGCATTAAAAGAAAAGCGTTTAAATGGAATGCC +TAAAACAACACCCAAAAGTGACCAGGTTATTATGTTGCAAAATCAATACGTTCGTGAAATGCGAAAATAT +GGCGTACGAGGTTTACGTTATGATGCGGCAAAACACTCAAAACATGAACAAATAGAAAGATCAATAACCC +CACCGCTTAAAAATTATAATGAGCGGTTACACAATACTAACTTATTTAACCCAAAATATCATAAAAAAGC +CGTTATGAATTACATGGAATATCTGGTAACTTGTCAGTTGGATGAACAACAAATGTCATCACTGCTTTAT +GAAAGAGATGATTTAAGCGCCATTGATTTTTCATTGCTCATGAAAACGATAAAAGCCTTTTCATTTGGTG +GAGATCTTCAAACCCTTGCATCAAAACCGGGTTCCACAATCTCAAGTATCCCATCAGAAAGACGGATATT +GATTAACATTAACCACGATTTTCCTAACAATGGTAATCTTTTCAATGACTTTCTATTTAACCATCAACAA +GATGAACAATTAGCAATGGCATATATAGCCGCTCTGCCGTTCAGCAGGCCTTTAGTTTACTGGGATGGCC +AAGTATTAAAATCAACGACTGAAATTAAAAATTATGATGGGTCCACGCGTGTCGGCGGTGAGGCGTAGCT +TAATAAAGGTTGCTCTACCTATCAGCAGCTCTACAATGAATTCCACGCATTATATATAGATAAAGCAGGA +ATATGGAGCGCATTTGAGGGTGTATCTGCAACTAAAAACGTTCTGGCCTTTAGTCGTGGGGATTCTGTGA +ACATTAATCACTCTCCTCATGATGGACTAGTTATAATAAATAAAGGAAACGAAGAAGTTGAAGGTACCTG +GCCTAACAAATTGCAACCTGGAATATACAAAAACATGGGGAGTAATAGCGTTAACATTATTATTAATAAT +ACCCGAAAAATTATCCCCCCTGGTAAAGTATTTACGCTTAGAGGCGGAACTCTAAATATCAATATTCCTG +GGCGTAGCGCTCTTCTTTTAGGGAAAACAGGAGAACCGCCGAACTATCTCTATTTATAATTTAATGTTAT +ATCTGCCCCGATAAAACGGGGCAGATAATATGTTTAGTTTACTAACGGTCATTTTGCAGTGAAGCCATTT +ACTGTTTTTTATCGACCAGATAATCTGTTCTCTAATGTTAACTCCCCCTAACCTGTTGCTTTAGTTATTC +ATTTCCTGTCTCACTTTGCCTTAATACCCTACGTTAAATGTTACTAATTTGTTGCTTTTGATCACAATAA +GAAAACAATATGTCGCTTTTGTGCGCATTTTTCAGAAATGTAGATATTTTTAGATTATGGCTACGAAATG +AGCATCGCCATGTCACCCTACATCTCATAAGAGGATCGCTTCTGATGAATGCACTGACCGCCGTACAAAA +TAACGCTGTCGATTCAGGCCAGGACTATAGCGGATTCACCCTCACCCCGTCGGCGCAATCCCCGCGTCTG +CTGGAACTCACCTTCACCGAACAGACGACCAAACAGTTTCTTGAGCAGGTTGCCGAGTGGCCCGTGCAGG +CGCTGGAGTACAAATCGTTTCTGCGTTTTCGGGTAGCCAAAATTCTTGACGATCTATGTGCGAACCAGCT +GCAACCATTGCTGTTGAAGACGTTGCTAAACCGCGCTGAAGGTGCGTTGTTGATCAATGCGGTGGGTGTC +GATGATGTGAAGCAAGCGGATGAGATGGTGAAGCTGGCGACGGCGGTGGCGCATCTGATTGGCCGTTCCA +ATTTCGATGCGATGAGCGGTCAGTATTACGCGCGTTTTGTAGTGAAAAATGTCGATAACTCAGACAGCTA +TCTGCGCCAGCCGCACCGCGTGATGGAGCTACACAACGACGGCACGTATGTCGAAGAGATAACCGATTAC +GTGCTGATGATGAAAATCGACGAGCAAAACATGCAGGGCGGAAATTCGCTGCTGCTGCATCTCGATGACT +GGGAACATCTCGACAACTATTTCCGCCACCCGCTGGCGCGTCGCCCGATGCGCTTTGCCGCGCCGCCGAG +TAAAAACGTCAGCAAAGATGTTTTTCATCCGGTGTTCGACGTCGATCAACAGGGTCGCCCGGTGATGCGC +TATATCGACCAGTTCGTCCAGCCGAAAGACTTCGAAGAAGGCGTGTGGTTGAGCGAGCTTTCCGACGCCA +TTGAAACCAGCAAAGGCATTCTTTCTGTGCCCGTTCCCGTTGGCAAATTCCTGTTGATTAACAACCTGTT +CTGGCTGCACGGTCGCGACCGCTTTACTCCGCACCCGGATCTGCGCCGTGAACTGATGCGCCAGCGTGGC +TATTTCGCTTACGCCTCTAACCACTACCAGACGCATCAGTAAGCGCAAAGGAATTGAGCGGATGTATGAT +TTTGTGATTATTGGCGGCGGCATCATCGGCATGTCGACCGCCATGCAACTGATTGATGTCTATCCGGACG +CCCGCATTGCGTTGCTGGAAAAAGAGTCCGCCCCGGCCTGTCACCAGACGGGCCACAACAGCGGCGTGAT +CCATGCCGGGGTCTATTACACGCCCGGCAGCCTGAAGGCGCAGTTTTGCCTGGCGGGAAACCGCGCCACC +AAAGCCTTTTGCGATCAAAACGGCATTCGCTACGACAACTGCGGCAAGATGCTGGTTGCCACGTCCGATC +TCGAAATGGAACGGATGCGCGCCTTATGGGAACGCACAGCGGCGAACGGTATCGAGCGCGAATGGCTTAA +CGCCGACGAACTGCGCGAGCGCGAACCGAATATCACCGGGCTCGGCGGCATTTTTGTGCCGTCCAGCGGC +ATTGTCAGCTACCGCGACGTGACGGCGGCGATGGCAAAAATCTTCCAGTCCAGAGGCGGTGAAATTATCT +ATAACGCCGAAGTCAGCGGGCTTAATGAGCATAAAAACGGCGTGGTGATACGTACCCGTCAGGGCGGCGA +ATATGAAGCATCAACGCTGATTAGCTGTTCCGGGCTGATGGCTGACCGGCTGGTGAAAATGCTCGGACTC +GAACCGGGCTTTATCATCTGCCCGTTCCGTGGCGAGTATTTCCGCCTTGCGCCGGAGCATAACCAGATTG +TTAACCACCTGATTTACCCCATTCCCGACCCGGCAATGCCGTTTTTGGGCGTTCATCTCACCCGCATGAT +CGACGGCAGCGTGACCGTCGGGCCAAACGCGGTGCTGGCTTTCAAACGCGAAGGCTATCGCAAGCGCGAC +TTCTCATTTAGCGACACGCTGGAGATTTTGGGCTCGTCGGGGATTCGCCGGGTGCTGCAAAACCATCTAC +GCTCAGGACTGGGCGAGATGAAAAACTCGCTGTGCAAAAGCGGCTATCTGCGGCTGGTGCAAAAGTATTG +TCCCCGGCTTTCGTTAAGCGATCTCCAGCCCTGGCCCGCCGGTGTGCGGGCGCAGGCGGTATCGCCGGAC +GGCAAGCTGATTGACGATTTTCTGTTTGTCACCACCCCGCGCACGATCCACACCTGCAATGCGCCCTCCC +CGGCAGCGACATCAGCAATTCCTATTGGTGCGCATATTGTCAGCAAGGTACAAACGCTGTTGGCAAGCCA +GAGTAACCCCGGACGCACGCTGCGAGCGGCACGTAGTGTGGATGCCTTACACGCCGCATTTAATCAATAA +CCTTTGAAAACAGGATGTAGCGATGAAACTTAACGACAGTAACTTATTCCGCCAGCAGGCGTTGATTAAC +GGGGAATGGCTGGACGCCAACAATGGTGAAGCCATCGACGTCACCAATCCGGCGAACGGCGACAAGCTGG +GTAGCGTGCCGAAAATGGGCGCGGATGAAACCCGCGCCGCTATCGACGCCGCCAACCGCGCCCTGCCCGC +CTGGCGCGCGCTCACCGCCAAAGAACGCGCCACCATTCTGCGCAACTGGTTCAATTTGATGATGGAGCAT +CAGGACGATTTAGCGCGCCTGATGACCCTCGAACAGGGTAAACCACTGGCCGAAGCGAAAGGCGAAATCA +GCTACGCCGCCTCCTTTATTGAGTGGTTTGCCGAAGAAGGCAAACGCATTTATGGCGACACCATTCCTGG +TCATCAGGCCGATAAACGCCTGATTGTTATCAAGCAGCCGATTGGCGTCACCGCGGCTATCACGCCGTGG +AACTTCCCGGCGGCGATGATTACCCGCAAAGCCGGTCCGGCGCTGGCAGCAGGCTGCACCATGGTGCTGA +AGCCCGCCAGTCAGACGCCGTTCTCTGCGCTGGCGCTGGCGGAGCTGGCGATCCGCGCGGGCGTTCCGGC +TGGGGTATTTAACGTGGTCACCGGTTCGGCGGGCGCGGTCGGTAACGAACTGACCAGTAACCCGCTGGTG +CGCAAACTGTCGTTTACCGGTTCGACCGAAATTGGCCGCCAGTTAATGGAACAGTGCGCGAAAGACATCA +AGAAAGTGTCGCTGGAGCTGGGCGGTAACGCGCCGTTTATCGTCTTTGACGATGCCGACCTCGACAAAGC +CGTGGAAGGCGCGCTGGCCTCGAAATTCCGCAACGCCGGGCAAACCTGCGTCTGCGCCAACCGCCTGTAT +GTGCAGGACGGCGTGTATGACCGTTTTGCCGAAAAATTGCAGCAGGCAGTGAGCAAACTGCACATCGGCG +ACGGGCTGGATAACGGCGTCACCATCGGGCCGCTGATCGATGAAAAAGCGGTAGCAAAAGTGGAAGAGCA +TATTGCCGATGCGCTGGAGAAAGGCGCGCGCGTGGTTTGCGGCGGTAAAGCGCACGAACGCGGCGGCAAC +TTCTTCCAGCCGACCATTCTGGTGGACGTTCCGGCCAACGCCAAAGTGTCGAAAGAAGAGACGTTCGGCC +CCCTCGCCCCGCTGTTCCGCTTTAAAGATGAAGCTGATGTGATTGCGCAAGCCAATGACACCGAGTTTGG +CCTTGCCGCCTATTTCTACGCCCGTGATTTAAGCCGCGTCTTCCGCGTGGGCGAAGCGCTGGAGTACGGC +ATCGTCGGCATCAATACCGGCATTATTTCCAATGAAGTGGCCCCGTTCGGCGGCATCAAAGCCTCGGGTC +TGGGTCGTGAAGGTTCGAAGTATGGCATCGAAGATTACTTAGAAATCAAATATATGTGCATCGGTCTTTA +ACTGGAGAATGCGAATGAACAGCAATAAAGAGTTAATGCAGCGCCGCAGTCAGGCGATTCCCCGTGGCGT +TGGGCAAATTCACCCGATTTTCGCTGACCGCGCGGAAAACTGCCGGGTGTGGGACGTTGAAGGCCGTGAG +TATCTTGATTTCGCGGGCGGGATTGCGGTGCTCAATACCGGGCACCTGCATCCGAAGGTGGTGGCCGCGG +TGGAAGCGCAGTTGAAAAAACTGTCGCACACCTGCTTCCAGGTGCTGGCTTACGAGCCGTATCTGGAGCT +GTGCGAGATTATGAATCAGAAGGTGCCGGGCGATTTCGCCAAGAAAACGCTGCTGGTTACGACCGGTTCC +GAAGCGGTGGAAAACGCGGTAAAAATCGCCCGCGCCGCCACCAAACGTAGCGGCACCATCGCTTTTAGCG +GCGCGTATCACGGGCGCACGCATTACACGCTGGCGCTGACCGGCAAGGTGAATCCGTACTCTGCGGGCAT +GGGGCTGATGCCGGGTCATGTTTATCGCGCGCTTTATCCTTGCCCGCTGCACGGCATAAGCGAGGATGAC +GCTATCGCCAGCATCCACCGGATCTTCAAAAATGATGCCGCGCCGGAAGATATCGCCGCCATCGTGATTG +AGCCGGTTCAGGGCGAAGGCGGTTTCTACGCCTCGTCGCCAGCCTTTATGCAGCGTTTACGCGCTCTGTG +TGACGAGCACGGGATCATGCTGATTGCCGATGAAGTGCAGAGCGGCGCGGGGCGTACCGGCACGCTGTTT +GCGATGGAGCAGATGGGCGTTGCGCCGGATCTTACCACCTTTGCGAAATCGATCGCGGGCGGCTTCCCGC +TGGCGGGCGTCACCGGGCGCGCGGAAGTAATGGATGCCGTCGCTCCAGGCGGTCTGGGCGGCACCTATGC +GGGTAACCCGATTGCCTGCGTGGCTGCGCTGGAAGTGTTGAAGGTGTTTGAGCAGGAAAATCTGCTGCAA +AAAGCCAACGATCTGGGGCAGAAGTTGAAAGACGGATTGCTGGCGATAGCCGAAAAACACCCGGAGATCG +GCGACGTACGCGGGCTGGGGGCGATGATCGCCATTGAGCTGTTTGAAGACGGCGATCACAACAAGCCGGA +CGCCAAACTCACCGCCGAGATCGTGGCTCGCGCCCGCGATAAAGGCCTGATTCTTCTCTCCTGCGGCCCG +TATTACAACGTGCTGCGCATCCTTGTACCGCTCACCATTGAAGACGCTCAGATCCGTCAGGGTCTGGAGA +TCATCAGCCAGTGTTTTGATGAGGCGAAGCAGTAGCGCCGCTCCTATGCCGGAGGCGACGCTGCGCGTCT +TGTCCGGCCTACGGGGATCCAGGTCGGATAAGGCGTTTACGCCGCATCCGACAATCTGTACGTGAACAGG +AAGAAATCTATGTTGGCCGGGTAAGGCGGAGCCGCTCTCCGGCAAAAAGAATCAATAACAATTATACGCG +TGACCCGGCGCGGGAAATGTCGGGGCGCTCTCCCAAGTGACACACTTTCGAGAGGATTCAGGATGGGGCA +ATCATCGCAACCACATGAGTTAGGCGGCGGGCTGAAGTCACGCCACGTCACCATGTTGTCTATTGCCGGT +GTTATCGGCGCAAGTCTGTTTGTCGGTTCCAGCGTCGCCATCGCCGAAGCGGGCCCGGCGGTATTACTGG +CCTATCTGTTCGCCGGGCTACTGGTGGTTATGATTATGCGGATGTTGGCGGAAATGGCGGTTGCCACGCC +CGATACCGGTTCGTTTTCCACCTATGCCGATAAAGCCATTGGTCGCTGGGCGGGCTATACCATCGGCTGG +TTGTACTGGTGGTTTTGGGTACTGGTTATCCCGCTGGAAGCCAACATCGCCGCCATGATCCTGCACTCAT +GGGTTCCAGGCATTCCCATCTGGTTATTTTCCCTCGTCATTACCCTCGCCTTAACTGGCAGTAACTTATT +AAGCGTTAAAAACTACGGCGAATTTGAGTTCTGGCTGGCGCTGTGCAAAGTCATCGCTATCCTGGCCTTT +ATTTTCCTTGGTGCAGTCGCAATTAGCGGTTTTTACCCGTATGCCGAAGTGAGCGGGATCTCAAGATTGT +GGGATAGCGGCGGCTTTATGCCCAACGGTTTCGGTGCGGTATTAAGCGCGATGTTGATCACCATGTTCTC +GTTTATGGGCGCAGAAATTGTCACCATTGCCGCCGCGGAATCCGACACGCCGGAAAAACATATTGTCCGC +GCCACCAACTCGGTTATCTGGCGTATTTCTATCTTCTATTTATGTTCTATTTTTGTCGTCGTGGCATTAA +TTCCGTGGAATATGCCCGGACTAAAAGCCGTCGGTTCTTATCGCTCGGTACTGGAATTGCTCAATATTCC +CCATGCGAAATTAATCATGGACTGCGTGATATTACTTTCCGTAACCAGTTGCCTGAACTCGGCGCTGTAT +ACCGCGTCAAGGATGCTCTACTCCTTAAGTCGTCGCGGTGATGCTCCCGCGGTAATGGGTAAAATCAACC +GCAGTAAAACCCCGTACGTGGCGGTGTTACTCTCCACCGGCGCGGCATTCTTAACGGTGGTGGTGAACTA +TTACGCGCCTGCGAAGGTATTTAAATTTCTGATCGACAGCTCCGGCGCTATCGCCCTGCTGGTTTATTTA +GTCATCGCCGTTTCACAGTTGCGGATGCGCAAAATTCTGCGAGCAGAAGGAAGCGAAATTCGCTTGCGAA +TGTGGCTTTATCCGTGGCTCACCTGGCTAGTCATCGGCTTTATTACCTTTGTGTTGGTAGTGATGCTATT +CCGTCCGGCGCAACAGTTAGAAGTGATCTCCACCGGCTTATTAGCGATAGGGATTATCTGTACCGTGCCA +ATTATGGCTCGCTGGAAAAAGCTGGTATTGTGGCAAAAAACACCCGTTCATAATACGCGCTGATCATGAT +CAGGAGTCACACCATGACCATTACGTCTCTGGATGGCTATCGCTGGCTGAAGAACGATATTATTCGCGGT +AATTTTCAACCGGATGAAAAATTACGAATGAGTTTGCTGACATCGCGTTATGCACTTGGCGTTGGGCCGT +TACGGGAAGCTCTTTCGCAACTGGTGGCGGAACGGCTGGTCACGGTGGTGAATCAAAAAGGGTATCGGGT +GGCGTCTATGTCAGAGCAGGAGCTGCTCGATATTTTCGACGCCCGCGCCAATATGGAAGCGATGTTAGTG +AGTCTGGCGATTGCCCGCGGTGGCGATGAGTGGGAGGCAGACGTTCTCGCAAAAGCGCATCTGCTGAGTA +AGCTTGAGGCCTGTGACGCCAGCGAGAAAATGCTTGATGAGTGGGATCTGCGTCATCAGGCGTTTCATAC +GGCAATTGTGGCGGGCTGTGGTTCTCACTATTTGCTGCAAATGCGTGAACGGTTGTTTGATCTGGCGGCG +CGTTATCGATTTATCTGGCTGCGGCGAACGGTGCTTTCGGTGGAAATGCTGGAGGATAAACACGATCAGC +ACCAGACCCTGACTGCGGCGGTACTGGCGCGAGATACCGCGCGCGCCAGTGAGTTAATGCGCCAGCATTT +ACTGACGCCAATTCCCATTATCCAGCAGGCGATGGCTGGCAATTAACTACTCTTCCGGAATACGCAACAC +TTGCCCCGGATAAATTTTATCCGGGCTTTTTAGCATCGGTTTATTCGCTTCGAAGATTTTATTGTACAGA +TTAGCGTTACCGTAGACCTGTTTGGAAATGGCACTCAGAGTGTCGCCAGACTTAACGGTATAAAACTGGC +TGGCAGTGGCTGGTGTCGCCGTTTTCACCTGATCATCGACACTGGCAATACCGGAAATATTCCCCACCGC +AACAAGGATTTTCTCCTTCGCCTCCTGACTCAGGCCGTCACCAGTGACCGTCGCTTTGCCGTCGGCAATT +TGAATATTCACTTTATCGGCATCCGGTATACCGGTTTTGTTCAGATGCTCCTGCACCTTCTTCGCCTGAT +CGTCTTTATCGTGCTGACCTGTAACCGCGTCCCAGAGTTTTTCTCCGGCATCTTTCACAAAATTGAACAG +ACCCATAGCTACCTCATTCGTTAACGGAAACACTCAGAAAGTGTAGCAGAGGAACGCGGCGCGTTAACGC +CGCGGGGATGAGCACAGGTTTAATCGCGGGTTTGCACCCAGAACGCGTGAATCAAACCGGGGATATACCC +AAGCAGTGTCAACAGAATATTAATAATGAACGCCCAACCGAACCCTTTACCGAGCAGCACGCCGAGCGGC +GGCAGAATGATGGTGATGACGATTCTCCAGAAACCCATATGTACTCCCTATAAGAAAATTACTCATTGTT +TAAAAAGAGATTTTATCTCTTAAGCGTAGTAATTTTAGCGGAGCCTGCCAGTTTCAGCTTACGCTTTTAC +TCTCATTTACGCTGCTGAGGCTGGTATATGTTGCATTTTTAGTTTAGAGTTTACTTAATTTAGAAAATAC +TTAAATAAATATGACTGAACTCGCGCAATTACAGGCCAGTGCCGAACAGGCAGCGGCCTTATTGAAAGCA +ATGAGCCACCCTAAACGATTGCTGATTCTGTGCATGCTTAGCGGTTCCCCCGGCACCAGCGCGGGAGAGC +TGACGCGCATTACCGGACTGAGTGCCTCTGCGACATCACAGCATCTCGCTCGTATGCGGGACGAAGGGCT +TATCGACAGCCAACGGGATGCCCAACGCATTCTATATTCCATTAAAAATGAGGCGGTAAATGCCATTATC +GCCACCCTGAAAAATGTCTATTGTCCGTAAGGAGTCACTATGGCTTTGACAACCATTTCGCCGCATGATG +CACAAGAATTAATCGCACGCGGCGCAAAGTTAATCGATATTCGTGATGCTGATGAATATCTTCGTGAACA +TATTCCTGAAGCAGATCTGGCTCCATTATCCGTGCTGGAACAGTCAGGTCTTCCGGCTAAATTACGTCAC +GAGCAAATTATATTCCACTGCCAGGCAGGTAAACGCACCAGTAATAATGCCGATAAATTAGCAGCGATTG +CCGCCCCCGCAGAAATCTTTTTACTCGAAGATGGGATTGATGGCTGGAAAAAAGCAGGATTGCCAGTAGC +GGTAAATAAATCTCAACCCTTGCCGTTAATGCGCCAGGTGCAGATCGCTGCGGGTGGTTTAATATTAATC +GGCGTTGTACTGGGTTATACCGTAAATAGCGGTTTCTTCTTATTAAGTGGCTTTGTTGGTGCCGGGTTAC +TGTTTGCAGGAATCAGCGGTTTTTGTGGAATGGCAAGGTTGTTAGATAAGATGCCGTGGAACCAACGAGC +TTGAGAAGCGACGCCGGACGCGCCCTAGCAGCGACATCCGGCCTCAGTAATTAGATCAGGAAATCGTCGA +GAGATTTACCTTCTGCCAGCGCCTGAGCAATTGGCTTCGGTGTACGGCCCTGACCGGTCCAGGTTTTAGT +TTCACCGTTAACATCGGTGAATTTATATTTCGCCGGACGCGGCTGGCGTTTTTTACCAGCGCGTGGTGCA +GCAGCAGAGCTATTACCCAATAACTCTTCCGGGTTAATTCCGTCAGCTTTCATCAGCTCCAGCCAGGTGC +TAATTTTTTCCTGGCGCTCTGCCAGTTCACGCTGCTGCTGTTCTTCTTCTTCACGTCTTTCTTTAGTGAC +AACCCTGAATTTTTCGAGCATTTCTTCAAGAACGTCAATGGAGAATTCGCGAGCCATCGCACGGAGGGTG +CGAATGTTATTTAAACTTTGTAACATTACGGACATAATAAAGAAAACCTTTTAACGCCAAAACAAAAAAA +GTATTTCGTCGCGTAGTGTAAGCGATCACTTATTATATTTCCACAAAATTTAATCTATTTACAGTCCTGC +GCGAGATTATTTCAGCTGTTATTTTCTGAAACTCTCAGAATAATTTCAAGATTATATATTAGCCATTTTG +ATGAGTAATTTAGATTATTGGTGAACAGAGCGGCGCTCTCTGCTCGCTAATTCCGCAAGCCTGACAAAAT +CAAAGTGAATAAAAATGCAATATAACAGAATAAAAGAAAACATCCATCACTGGTGCTTTCTGCTGTTAAT +GTACATTGTCTGGCATAAAAAATGCTGAAAATGACCCAGCTACTACATACACCGAATTCTCTACGCTTAT +AGCGTTACCTCACCCCCAAACTTTCATTAGTGATATTAAAGGTAAGGCCATATCTAATTGATTTAATTAA +AAATAAATCATATCGGCATGTAAAAATCCACAATGTACAAAAAACGAGCCGTTACGGAATATTTTATCTA +CAAAAACTGACTAAATAAAAATTTTTCACTAATTGATTAGTCATAGCCAGCGATATACGCTATGCGAAAA +TGCAGATGGCAATGAGATCCACTGCTTTCATCTCCATTAACATCCCATTACGCTTTTATTAAGGAGCATT +AGCATGTTCTCACCGCAGTCACGCTTGCGTCATGCAGTTGCAGATACGTTCGCGATGGTTGTTTACTGTT +CTGTCGTGAACATGTGTATTGAAGTTTTCCTCTCCGGAATGAGCTTCGAACAGTCTTTTTATTCCAGATT +GGTAGCGATTCCGGTGAACATCTTAATTGCATGGCCATACGGTATGTACCGTGATCTGTTTATGCGCGCG +GCACGCAAAGTTAGCCCGTCGGGCTGGATAAAAAATCTGGCGGATATCCTGGCTTATGTGACGTTCCAGT +CACCGGTGTATGTGGCGATCTTGTTAGTGGTGGGCGCAGACTGGCATCAGATTATGGCGGCGGTCAGTTC +AAACATCGTTGTTTCGATGTTGATGGGGGCGGTTTATGGCTACTTCCTCGATTATTGCCGCCGACTGTTT +AAAGTCAGCCGTTACCAGCAGGTAAAAGCCTGACTCTTCTTTTCGCGACTGGCATCGCCAGTCGCGTCTT +TAACTGGCTTCGCCAAATAAACCATTCAAATAACGTTCAAGCGCAACACGCGAACTAAAGCCATGCGGGA +TACCGTAATGCTCGTGTCGCTCGCCTGCTAAATAGAGCGGAAATTGCTGGTAATGATCGCAAGTTTTAAT +ATCGGAAGCGGGTTCAGCCAGTGTCGAACTGCGTTCTTTTAATGTTGGATGAATTACCAGAGCGGTACGT +CCCATTCGCGCTTCGCGATTAACATAGACATAATTTTCCCCACGGCGGTAACCATACGCTTTCTGGGTTA +CCACATCGACAGTAAAACCGACTTTTTCAAGTACGCGCGCCACCTCGTCTGGTCGTAAATACATATTTGA +TCCTCGTTATTATCAACCGCGGGCCTACCTTACCTGATTGCGCATTCACAACGCTTTCAGAAAAGTCCAT +AAAGCCGCGATGAACCTCAGTTAAGAAAATTATGGTCTACACTGAAAATTACATCGAATTCTAATGGGGG +ATCATATGTTTAACCGACCGAACCGCAACGACGTTGATGATGGCGTGCAGGATATCCAGAATGATGTCAA +TCAATTAGCTGACAGCCTCGAATCTGTATTGAAGTCCTGGGGCAGCGACGCCAAAGGGGAAGCTGAAGCC +GCACGCAGTAAAGCTCAGGCATTGCTGAAAGAAACCAGGGCGCGAATGCATGGTCGTACTCGCGTCCAGC +AAGCCGCGCGCGATGCCGTTGGCTGCGCGGATTCTTTTGTTCGTGAAAGACCCTGGTGTAGCGTGGGTAC +AGCAGCTGCGGTAGGTATTTTTATCGGCGCACTGTTAAGCATGCGCAAATCGTAGTGCAAAAATGATAAT +AAATACGCGTCTTTGACCCCGAAGCCTGTCTTCGGGGTTTCTTTTTGCCTGGTGAATCACAAAAATCCCC +CTACCCCGTCACGCTCATATCCAGGGTAATTTCGACCACTATTTGCTATATATTGTGTGGTTGAATCTTT +TTTCAACTACATCTAGTATCTCTGTATCAACAGAGAGACAACCCGACGCGTATCATCGCGCCGTATCTTC +ATTTTAAACGGAAATACGAATCATGCGCATTACTATTTACACTCGTAACGATTGCGTTCAGTGCCACGCC +ACCAAACGGGCGATGGAAAACCGGGGCTTTGATTTTGAAATGATTAATGTCGATCGCGTTCCTGAAGCGG +CAGAAGCGTTGCGTGCTCAGGGCTTTCGTCAGTTGCCGGTAGTGATTGCTGGCGATCTTAGCTGGTCTGG +TTTCCGTCCGGACATGATTAACCGTCTGCATCCAGCGCCACACGCGGCCAGTGCATGAGCCAGCTCGTCT +ACTTCTCCAGCAGCTCCGAAAACACGCAGCGTTTTATCGAACGTTTAGGTCTGCCCGCGGTGCGCATCCC +GCTCAATGAGCGGGAACGGATTCAGGTAGACGAGCCTTACATCCTGATCGTGCCCTCTTACGGCGGCGGC +GGTACGGCTGGCGCGGTGCCACGACAGGTAATTCGCTTTTTAAACGACGAGCACAACCGGGCGTTGCTTC +GCGGCGTTATTGCTTCTGGTAATCGCAACTTTGGTGAGGCGTATGGCCGCGCCGGAGATGTGATTGCCCG +GAAATGCGGCGTGCCGTGGCTGTACCGTTTTGAACTCATGGGTACGCAAAGCGATATCGAAAACGTTCGT +AAAGGAGTAACCGAATTTTGGCAACGACAACCGCAGAATGCCTGACGCAGGAAACGATGGATTACCACGC +GCTGAATGCGATGCTTAACCTCTACGATAGCGCAGGTCGCATTCAGTTCGATAAAGACCGCCAGGCCGTT +GACGCCTTTATTGCGACGCATGTGCGTCCGAACAGTGTGACCTTCAGTAGCCAGCAGCAGCGCCTGAACT +GGCTGGTCAACGAAGGTTACTATGATGAAAGCGTTCTTAATCGCTACTCTCGCGACTTTGTCATTACGCT +GTTTACCCACGCACACACCAGCGGTTTTCGTTTCCAGACATTCCTCGGGGCATGGAAGTTTTACACCAGC +TATACGTTGAAGACATTCGACGGTAAACGTTATCTGGAAGATTTTGCCGATCGAGTAACGATGGTGGCGC +TGACGCTGGCACAAGGCGATGAGACGCTGGCGTTGCAACTGACCGATGAAATGCTGTCAGGACGCTTTCA +GCCAGCCACGCCAACATTCCTCAACTGCGGTAAGCAGCAGCGCGGCGAACTGGTTTCCTGTTTTTTGCTG +CGTATTGAAGACAATATGGAGTCGATTGGTCGGGCGGTAAATTCCGCACTGCAGCTGTCGAAACGCGGCG +GCGGCGTAGCATTTTTGCTGTCGAATCTGCGAGAAGCGGGCGCGCCAATTAAACGTATTGAAAATCAATC +TTCTGGCGTAATTCCGGTGATGAAAATGCTGGAAGACGCATTTTCCTATGCCAACCAACTCGGCGCTCGT +CAGGGGGCTGGTGCAGTCTATTTACATGCTCATCATCCCGATATTCTGCGTTTTCTCGACACGAAACGGG +AAAATGCCGACGAAAAAATCCGCATTAAAACACTGTCGCTTGGCGTGGTGATCCCGGATATCACTTTCCA +TCTGGCAAAAGAGAATGCGCAGATGGCGCTGTTTTCGCCTTATGACGTAGAGCGAGTTTATGGCAAGCCG +TTTGCCGATGTGGCCATCAGCCAACACTATGACGAACTGGTTGCCGATGAACGCATTCGCAAAAAATACC +TCAACGCCCGTGATTTCTTCCAGCGACTGGCAGAAATCCAGTTTGAGTCCGGCTATCCCTACATCATGTA +TGAAGACACGGTAAACCGTGCTAACCCTATCGCCGGGCGCATAAATATGAGTAATCTCTGCTCAGAAATT +TTGCAGGTTAACAGCGCCTCAGAGTATGACGAGAATCTCGACTATACCCGCACAGGCCATGATATTTCCT +GCAATTTAGGTTCGTTGAATATTGCGCACACCATGGATTCCCCCGATTTTGCCCGCACGGTAGAGACTGC +CGTGCGCGGTTTAACGGCAGTATCAGATATGAGTCATATCCGCAGCGTGCCGTCCATCGAAGCCGGAAAT +GCCGCCTCGCACGCCATCGGACTGGGGCAGATGAATTTACACGGCTATCTGGCGCGAGAAGGCATCGCTT +ATGGTTCGCCGGAAGCACTGGATTTCACCAATCTCTATTTCTATGCCATCACCTGGCATGCACTGCGTAC +CTCGATGTTGCTGGCACGCGAACGCGGTGAAACCTTCGCCGGGTTCAAACAGTCACGCTATGCCAGTGGT +GAATATTTTAGCCAATATCTGCAAGGGAACTGGCAGCCGAAAACGGCGAAAGTTGGCGAACTGTTTACCC +GTAGCGGTATTACGTTACCTACCCGTGAGATGTGGGCGCAGCTGCGCGACGACGTGATGCGCTACGGCAT +ATACAACCAGAATCTTCAGGCGGTGCCGCCAACCGGTTCTATCTCTTATATCAACCATGCTACGTCGAGT +ATTCATCCGATTGTGGCGAAAGTAGAGATACGCAAAGAGGGCAAAACAGGACGCGTTTACTACCCTGCCC +CGTTTATGACTAACGAGAATCTGGCGCTGTATCAGGACGCTTACGAAATTGGCGCAGAAAAGATCATCGA +CACCTACGCGGAAGCGACTCGCCATGTCGATCAGGGGCTGTCGCTGACGCTTTTTTTCCCCGATACCGCC +ACCACTCGCGATATCAACAAAGCGCAGATTTACGCCTGGCGCAAGGGTATCAAAACGCTCTATTACATCC +GCCTGCGTCAGATGGCGCTGGAAGGCACTGAAATTGAAGGCTGCGTCTCCTGTGCACTTTAAGGAATATC +TATGAAACTCTCACGTATCAGCGCCATCAACTGGAACAAGATATCTGACGATAAAGATCTGGAGGTGTGG +AATCGCCTGACCAGCAATTTCTGGCTACCAGAAAAGGTGCCGCTGTCGAACGATATTCCTGCCTGGCAGA +CATTAACTGTCGTAGAACAACAACTGACGATGCGCGTTTTTACTGGCCTGACGCTGCTCGACACGCTGCA +AAATGTTATCGGCGCGCCTTCTCTGATGCCCGATGCACTCACGCCTCATGAAGAAGCGGTATTATCGAAT +ATCAGCTTTATGGAAGCGGTTCATGCCCGCTCTTACAGTTCGATTTTCTCGACGCTATGCCAGACCAAAG +ATGTCGATGCCGCCTACGCCTGGAGTGAAGAAAACGCACCGTTGCAGCGAAAAGCTCAGATTATTCAGCA +ACATTATCGCGGTGATGATCCGCTGAAAAAGAAAATCGCCAGTGTGTTTCTTGAATCTTTTTTGTTCTAT +TCCGGTTTCTGGCTGCCGATGTATTTTTCCAGCCGCGGAAAGCTGACCAATACCGCGGACCTGATCCGTC +TGATTATCCGCGATGAAGCAGTCCACGGTTACTACATAGGCTATAAATATCAGAAAAACATGGAAAAGAT +ATCTCTGGGACAACGTGAAGAGTTGAAGAGTTTCGCCTTCGATTTGTTGCTGGAACTCTACGACAACGAG +TTGCAATACACCGATGAGCTGTACGCCGAAACCCCGTGGGCTGACGATGTGAAAGCGTTTCTCTGTTACA +ACGCCAATAAGGCTTTGATGAATCTGGGCTACGAACCGTTATTTCCCGCAGAAATGGCGGAAGTGAATCC +GGCAATCCTCGCCGCGCTTTCGCCGAATGCCGATGAAAATCACGATTTCTTTTCCGGTTCAGGCTCCTCT +TATGTGATGGGGAAAGCGGTTGAAACAGAAGATGAAGACTGGAATTTCTGAGGGTGTTATTTTCAAAAAT +ATCACTACCCGCAGCAGGGAAATAATTCCCGCCAAATAGCTTTTTATCACGCAAATAATTTGTGGTGATC +TACACTGATACTCTGTTGCATTATTCGCCTGAAACCACAATATTCAGGCGTTTTTTCGCTATCTTTGACA +AAAAATATCAACTTTCTCGATTTGCTCTCAGCCCTTATATCACGGGAAATTCCGGCGATTTGCTCGCATC +AATATTCATGCCACATTTGCCATCAGGGGTTGCCTCAGATTCTCAGTATGTTAGGGTAGAAAAAAGTGAC +TATTTCCATTGGGTAATATATCGACATAGACAAATAAAGGAATCTTTCTATTGCATGGCAATTAAATTAG +AAATTAAAAATCTTTATAAAATATTTGGCGAGCATCCACAGCGAGCGTTCAAATATATCGAACAAGGACT +TTCAAAAGAACAAATTCTGGAAAAAACTGGGCTATCGCTTGGCGTAAAAGACGCCAGTCTGGCCATTGAA +GAAGGCGAGATATTTGTCATCATGGGATTATCCGGCTCGGGTAAATCCACAATGGTACGCCTTCTCAATC +GCCTGATTGAACCCACCCGCGGGCAAGTGCTGATTGATGGTGTGGATATTGCCAAAATATCCGACGCCGA +ACTCCGTGAGGTGCGCAGAAAAAAGATTGCGATGGTCTTCCAGTCCTTTGCCTTAATGCCGCATATGACC +GTGCTGGACAATACTGCGTTCGGTATGGAATTGGCCGGAATTAATGCCGAAGAACGCCGGGAAAAAGCCC +TTGATGCACTGCGTCAGGTCGGGCTGGAAAATTATGCCCACAGCTACCCGGATGAACTCTCTGGCGGGAT +GCGTCAACGTGTGGGATTAGCCCGCGCGTTAGCGATTAATCCGGATATATTATTAATGGACGAAGCCTTC +TCGGCGCTCGATCCATTAATTCGCACCGAGATGCAGGATGAGCTGGTAAAATTACAGGCGAAACATCAGC +GCACCATTGTCTTTATTTCCCACGATCTTGATGAAGCCATGCGTATTGGCGACCGAATTGCCATTATGCA +AAATGGTGAAGTGGTACAGGTCGGCACACCGGATGAAATTCTCAATAATCCGGCGAATGATTATGTCCGT +ACCTTCTTCCGTGGCGTTGATATTAGTCAGGTATTCAGTGCGAAAGATATTGCCCGCCGGACACCGAATG +GCTTAATTCGTAAAACCCCTGGCTTCGGCCCACGTTCGGCACTGAAATTATTGCAGGATGAAGATCGCGA +ATATGGCTACGTTATCGAACGCGGTAATAAGTTTGTCGGCGCAGTCTCCATCGATTCGCTTAAAACCGCG +TTAACGCAGCAGCAAGGTCTTGATGCGGCGCTGATTGATGCGCCGTTAGCAGTCGATGCACAAACGCCTC +TTAGCGAGTTGCTCTCTCATGTCGGACAGGCACCCTGTGCGGTGCCCGTGGTCGACGAGGACCAACAGTA +TGTCGGCATCATTTCGAAAGGAATGCTGCTGCGCGCTTTAGATCGTGAGGGGGTAAATAATGGCTGATCA +AAATAATCCGTGGGATACCACGCCAGCGGCGGACAGTGCCGCGCAATCCGCAGACGCCTGGGGTACACCG +ACGACTGCACCGACTGACGGCGGTGGTGCTGACTGGCTGACCAGTACGCCTGCGCCAAACGTCGAGCATT +TTAATATTCTCGATCCGTTCCATAAAACGCTGATCCCGCTCGACAGTTGGGTCACTGAAGGGATCGACTG +GGTCGTTACCCATTTCCGTCCCGTCTTCCAGGGCGTGCGCGTTCCGGTTGATTATATCCTCAACGGTTTC +CAGCAATTGCTGCTGGGTATGCCCGCACCGGTGGCGATTATCGTTTTCGCTCTCATCGCCTGGCAGATTT +CCGGGGTCGGAATGGGTGTGGCGACGCTGGTTTCGCTGATTGCCATCGGCGCAATCGGTGCCTGGTCGCA +GGCAATGGTGACTCTGGCGCTGGTGTTAACCGCCCTGCTGTTCTGTATCGTCATCGGTTTGCCGTTGGGG +ATATGGCTGGCGAGAAGTCCGCGAGCGGCGAAAATTATTCGTCCACTGCTTGATGCCATGCAGACCACGC +CAGCGTTTGTTTATCTGGTGCCAATCGTCATGCTATTTGGTATCGGTAACGTGCCGGGCGTGGTGGTGAC +GATCATCTTTGCTCTGCCGCCGATTATCCGTCTGACCATTCTGGGGATTAACCAGGTTCCGGCGGATCTG +ATTGAAGCCTCGCGCTCATTCGGTGCCAGCCCGCGCCAGATGCTGTTCAAAGTTCAGTTACCGCTGGCGA +TGCCGACCATTATGGCGGGCGTTAACCAGACGCTGATGCTGGCCCTTTCTATGGTGGTCATCGCCTCGAT +GATTGCCGTCGGCGGGTTGGGTCAGATGGTACTTCGCGGTATCGGTCGTCTGGATATGGGGCTTGCCACC +GTTGGCGGCGTCGGGATTGTGATCCTCGCCATTATCCTCGATCGTCTGACGCAGGCCGTTGGGCGCGACT +CACGCAGTCGCGGCAACCGTCGCTGGTACACCACTGGCCCTGTTGGTCTGCTGACCCGCCCATTCATTAA +GTAACTCTGCACTTGCCCGGTGACGCCGGGCATTATCACCCTGCCAAAAAAAGGAATAACAATGCGACAT +AGCGTACTTTTTGCGACAGCGTTTGCCACGCTTATCTCTACACAAACTTTTGCTGCCGATCTGCCGGGCA +AAGGCATTACTGTTAATCCAGTTCAGAGCACCATCACTGAAGAAACCTTCCAGACGCTGCTGGTCAGTCG +TGCGCTGGAGAAATTAGGTTATACCGTCAACAAACCCAGCGAAGTAGATTACAACGTTGGCTACACCTCG +CTTGCTTCCGGCGATGCAACCTTCACCGCCGTGAACTGGACGCCACTGCATGACAACATGTACGAAGCTG +CCGGTGGCGATAAGAAATTTTATCGTGAAGGGGTATTTGTTAACGGCGCGGCACAGGGTTACCTGATCGA +TAAGAAAACCGCCGACCAGTACAAAATCACCAACATCGCACAACTGAAAGATCCGAAGATCGCCAAACTG +TTCGATACCAACGGCGACGGAAAAGCGGATTTAACCGGTTGTAACCCTGGCTGGGGCTGCGAAGGTGCGA +TCAACCACCAGCTTGCCGCGTATGAACTGACCAACACCGTGACGCATAATCAGGGGAACTACGCAGCGAT +GATGGCCGACACCATCAGTCGCTACAAAGAGGGCAAACCGGTGTTTTATTACACCTGGACGCCGTACTGG +GTGAGTAACGAACTGAAGCCGGGCAAAGATGTCGTCTGGTTGCAGGTGCCGTTCTCCGCACTGCCGGGCG +ATAAAAACGCCGATACCAAACTGCCGAATGGTGCGAATTATGGCTTCCCGGTCAGCACCATGCATATCGT +TGCCAACAAAGCCTGGGCCGAGAAAAACCCGGCAGCAGCGAAACTGTTTGCCATTATGCAGTTGCCAGTG +GCAGATATTAACGCCCAGAACGCCATTATGCATGACGGCAAAGCCTCAGAAGGCGATATTCAGGGACACG +TTGATGGTTGGATCAAAGCCCACCAGCAGCAGTTCGATGGCTGGGTGAATGAGGCGCTGGCAGCGCAGAA +GTAATTTTTATTCGGGCGGATAAGGCGTTTTTGCCGCATCCGCCGTTCTGTGCACAATGCCTGATGCGAC +GCTGGCGCGTCTTATCATGCCTACAAACCACATCGCACATTTCAACAATCTATCTTTCATCCCATATTCA +TCAACATCCGCTATTATTGATTTCCAGCTTAATCATCACCTGATGAACAAAAATAATGACTAAACCTAAT +CATGAGCTTAGCCCGGCGCTGATCGTGCTGATGTCTATCGCCACCGGTCTGGCGGTAGCCAGTAACTATT +ACGCCCAGCCATTGCTCGACACCATCGCGCGTAACTTTTCCCTTTCCGCCAGTTCGGCAGGCTTTATTGT +TACCGCCGCGCAGTTGGGCTATGCCGCAGGTCTACTGTTTCTTGTTCCCCTCGGTGATATGTTTGAACGC +CGCCGCCTGATTGTCTCGATGACCTTACTGGCGGCATGTTGATTACCGCCAGCAGTCAGTCGCTGGCGAT +GATGATCCTCGGTACGGCATTAACCGGTTTATTCTCAGTCGTGGCACAAATTCTGGTTCCGCTGGCAGCG +ACGCTGGCTTCACCGGATAAACGCGGCAAAGTGGTTGGCACTATTATGAGCGGTCTGCTGTTGGGGATCT +TGCTGGCACGGACAGTTGCCGGATTGCTGGCGAATCTCGGCGGCTGGCGCACCGTCTTTTGGGTTGCTTC +GGTGTTAATGGCACTGATGGCGCTGGCATTATGGCGTGGTCTGCCACAAATGAAATCAGAAACCCACCTC +AACTACCCACAGTTGTTGGGTTCCGTTTTCAGTATGTTTATCAGCGATAAAATTCTGCGTACCCGCGCGT +TGCTGGGCTGCCTGACCTTTGCCAATTTCAGCATTCTCTGGACCTCAATGGCCTTTTTGCTTGCCGCTCC +ACCTTTTAACTACAGCGATGGTGTCATTGGTCTGTTTGGACTTGCGGGAGCTGCCGGAGCGTTGGGCGCT +CGTCCGGCGGGCGGTTTTGCCGATAAGGGCAAATCGCACCACACCACAACTTTCGGTCTGCTGCTGCTAT +TACTTTCATGGCTGGCGATCTGGTTTGGTCACACTTCCGTACTGGCGTTGATTATCGGAATCCTGGTGCT +GGATCTCACCGTGCAGGGCGTGCATATCACTAACCAGACGGTAATTTATCGGATACATCCTGATGCGCGC +AATCGCCTGACCGCAGGTTACATGACTAGCTACTTTATTGGCGGTGCCGCCGGTTCGCTAATTTCAGCCT +CAGCCTGGCAACATGGCGGTTGGGCTGGCGTTTGTCTGGCTGGCGCGACGATTGCCCTGGTTAACTTACT +GGTCTGGTGGCGAGGTTTTCATCGTCAGGAAGCCGCAAATTAAGCAATCAGCAACCGTTTTCGTGGCTTT +ACACTTATAAGGGTGTTAAGAAGCCCATCAGTCTGATAAGGTTAAGATATTCATTCAGTCTATTTATAAT +ATTAACAATCGTTAAGCGTACACTCTATGGAAAGCCCTACTCCACAGCCTGCTCCTGGTTCGGCGACCTT +CATGGAAGGATGCAAAGACAGTTTACCGATTGTTATTAGTTATATTCCGGTGGCCTTTGCGTTCGGTCTG +AATGCGACCCGTCTGGGATTCTCTCCTCTCGAAAGCGTTTTTTTCTCCTGCATCATTTATGCAGGCGCGA +GCCAGTTCGTCATTACCGCGATGCTGGCAGCCGGGAGTAGTTTGTGGATTGCTGCACTGACCGTCATGGC +AATGGATGTTCGCCATGTGTTGTATGGCCCGTCACTGCGTAGCCGTATTATTCAGCGTCTGCAAAAATCG +AAAACCGCCCTGTGGGCGTTTGGCCTGACGGATGAGGTTTTTGCCGCCGCAACCGCAAAACTGGTACGCA +ATAATCGCCGCTGGAGCGAGAACTGGATGATCGGCATTGCCTTCAGTTCATGGTCATCGTGGGTATTTGG +TACGGTAATAGGGGCATTCTCCGGCAGCGGCTTGCTGCAAGGTTATCCCGCCGTTGAAGCTGCATTAGGT +TTTATGCTTCCGGCACTCTTTATGAGTTTCCTGCTCGCCTCTTTCCAGCGCAAACAATCTCTTTGCGTTA +CCGCAGCGTTAGTTGGTGCCCTTGCAGGCGTAACGCTATTTTCTATTCCCGTCGCCATTCTGGCAGGCAT +TGTCTGTGGCTGCCTCACTGCGTTAATCCAGGCATTCTGGCAAGGAGCGCCCGATGAGCTATGAGGTTCT +GCTGCTTGGGTTACTAGTTGGCGTGGCGAATTATTGCTTCCGCTATTTGCCGCTGCGCCTGCGTGTGGGT +AATGCCCGCCCAACCAAACGTGGCGCGGTAGGTATTTTGCTCGACACCATTGGCATCGCCTCGATATGCG +CTCTGCTGGTTGTCTCTACCGCACCAGAAGTGATGCACGATACACGCCGTTTCGTGCCCACGCTGGTCGG +CTTCGCGGTACTGGGTGCCAGTTTCTATAAAACACGCAGCATTATCATCCCAACACTGCTTAGTGCGCTG +GCCTATGGGCTCGCCTGGAAAGTGATGGCGATTATATAACCCACAAGAATCATTTTTCTAAAACAATACA +TTTACTTTATTTGTCACTGTCGTTACTATATCGGCTGAAATTAATGAGGTCATACCCAAATGGATAGTTC +GTTTACGCCCATTGAACAAATGCTAAAATTTCGCGCCAGCCGCCACGAAGATTTTCCTTATCAGGAGATC +CTTCTGACTCGTCTTTGCATGCACATGCAAAGCAAGCTGCTGGAGAACCGCAATAAAATGCTGAAGGCTC +AGGGGATTAACGAGACGTTGTTTATGGCGTTGATTACGCTGGAGTCTCAGGAAAACCACAGTATTCAGCC +TTCTGAATTAAGTTGTGCTCTTGGATCATCCCGTACCAACGCGACGCGTATTGCCGATGAACTGGAAAAA +CGCGGTTGGATCGAACGTCGTGAAAGCGATAACGATCGCCGCTGCCTGCATCTGCAATTAACGGAAAAAG +GTCACGAGTTTTTGCGCGAGGTTTTACCACCGCAGCATAACTGCCTGCATCAACTCTGGTCCGCGCTCAG +CACAACAGAAAAAGATCAGCTCGAGCAAATCACCCGCAAATTGCTCTCCCGTCTCGACCAGATGGAACAA +GACGGTGTGGTTCTCGAAGCGATGAGCTAACGCGTCATCTCGCTCAAAAATCCAGATTTATAAAAGAAAA +AATGACTGGCCAGCATCGCAACATGCTGGCCTTTTTGGCAAGCAGGTCGGCTCAGCCGATGAGTTAAGAA +GATCGTGGAGAACAATATGAGCGCAAATGCGGAGACTCAAACCCCGCAGCAACCGGTAAAGAAGAGCGGC +AAACGTAAGCGTCTGCTCCTCCTTCTCACCTTGCTCTTTATAATTATTGCCGTAGCGATAGGGATTTATT +GGTTTTTGGTACTGCGTCACTTCGAAGAAACCGATGACGCATACGTGGCAGGGAATCAAATTCAAATTAT +GTCTCAGGTGTCTGGCAGCGTGACGAAAGTCTGGGCCGATAACACCGATTTTGTAAAAGAAGGCGACGTG +CTGGTCACTCTCGACCCGACAGATGCTCGCCAGGCGTTTGAAAAAGCCAAAACTGCACTGGCTTCCAGCG +TTCGCCAAACCCACCAGCTGATGATTAACAGCAAGCAGTTGCAGGCGAATATTGAGGTGCAGAAAATCGC +CCTCGCGAAAGCACAAAGCGACTACAACCGCCGTGTGCCGCTGGGCAATGCCAACCTGATTGGTCGCGAA +GAGCTGCAACACGCCCGCGACGCCGTCACCAGTGCCCAGGCGCAACTGGACGTCGCGATTCAACAATACA +ATGCCAATCAGGCGATGATTCTGGGGACTAAACTGGAAGATCAGCCAGCCGTGCAACAGGCTGCCACCGA +AGTACGTAACGCCTGGCTGGCGCTGGAGCGTACTCGTATTATCAGTCCGATGACCGGTTATGTCTCCCGC +CGCGCGGTACAGCCTGGGGCGCAAATTAGCCCAACGACGCCGCTGATGGCGGTCGTTCCAGCCACCAATA +TGTGGGTGGATGCCAACTTTAAAGAGACGCAGATTGCCAATATGCGTATCGGTCAGCCGGTCACTATCAC +CACGGATATTTACGGCGATGATGTGAAATACACCGGTAAAGTGGTTGGTCTGGATATGGGCACAGGTAGC +GCGTTCTCACTGCTTCCAGCGCAAAATGCGACCGGTAACTGGATCAAAGTCGTTCAGCGTCTGCCTGTGC +GTATCGAACTGGACCAGAAACAGCTGGAGCAATATCCGCTGCGTATCGGTTTGTCCACGCTGGTGAGCGT +CAATACCACTAACCGTGACGGTCAGGTACTGGCAAATAAAGTACGTTCCACTCCGGTAGCGGTAAGCACC +GCGCGTGAAATCAGCCTGGCACCTGTCAATAAACTGATCGACGATATCGTAAAAGCTAACGCTGGCTAAT +CCAGAGGTGCGTGTGATGCAACAGCAAAAACCGCTGGAAGGCGCGCAACTGGTCATTATGACGATTGCGC +TGTCACTGGCGACATTCATGCAGGTGCTGGACTCCACCATTGCTAACGTGGCGATCCCCACTATCGCCGG +GAATCTGGGCTCATCGCTCAGCCAGGGAACGTGGGTAATCACTTCTTTCGGGGTGGCGAATGCCATCTCG +ATCCCGCTTACCGGCTGGCTGGCAAAGCGCGTCGGGGAAGTGAAACTGTTCCTTTGGTCCACCATCGCCT +TTGCTATTGCGTCGTGGGCGTGTGGTGTCTCCAGCAGCCTGAATATGCTGATCTTCTTCCGCGTGATTCA +GGGGATTGTCGCCGGGCCGTTGATCCCGCTTTCGCAAAGTCTATTGCTGAATAACTACCCGCCAGCCAAA +CGCTCGATCGCGCTGGCGTTGTGGTCGATGACGGTGATTGTCGCGCCAATTTGCGGCCCGATCCTCGGCG +GTTATATCAGCGATAATTACCACTGGGGCTGGATATTCTTCATCAACGTGCCGATTGGCGTGGCGGTGGT +GTTGATGACACTGCAAACTCTGCGCGGACGTGAAACCCGCACCGAACGGCGGCGGATTGATGCCGTGGGG +CTGGCACTGCTGGTTATTGGTATCGGCAGCCTGCAGATTATGCTCGACCGCGGTAAAGAGCTGGACTGGT +TTTCATCACAGGAAATTATCATCCTTACCGTGGTGGCGGTGGTGGCTATCTGCTTCCTGATTGTCTGGGA +GCTGACCGACGATAACCCGATAGTCGATCTGTCGTTGTTTAAGTCGCGCAACTTCACCATCGGCTGCTTG +TGTATCAGCCTCGCGTATATGCTCTACTTCGGCGCTATTGTTCTGCTGCCGCAGTTGTTGCAGGAGGTCT +ACGGTTACACGGCGACCTGGGCAGGTTTGGCCTCTGCGCCGGTAGGGATTATTCCGGTGATCCTGTCGCC +GATTATCGGCCGCTTCGCGCATAAACTGGATATGCGGCGGCTGGTAACCTTCAGCTTTATTATGTATGCC +GTCTGCTTCTACTGGCGTGCCTATACCTTTGAACCAGGTATGGATTTTGGCGCGTCGGCCTGGCCGCAGT +TTATCCAGGGGTTTGCGGTGGCCTGCTTCTTTATGCCGCTGACCACCATTACGCTGTCTGGTTTGCCACC +GGAACGACTGGCGGCGGCATCGAGCCTCTCTAACTTTACGCGAACGCTGGCGGGGTCTATCGGCACGTCG +ATAACCACGACCATGTGGACCAACCGCGAGTCGATGCACCATGCGCAGTTGACTGAGTCGGTAAACCCGT +TCAACCCGAATGCCCAGGCGATGTACAGTCAACTGGAAGGGCTTGGGATGACGCAACAGCAGGCATCAGG +CTGGATTGCCCAGCAGATCACCAATCAGGGGCTGATTATTTCCGCCAATGAGATCTTCTGGATGTCAGCC +GGGATATTCCTCGTCCTGCTGGGGCTGGTGTGGTTTGCTAAACCGCCATTTGGCGCAGGTGGCGGCGGAG +GCGGTGCGCACTAAGTACAACTAAGCCAGTTCATTTGAACTGGCTTTTTTCAATTAATTGTGAAGATAGT +TTACTGACTAGATGTGCAGTTCCTGCAACTTCTCTTTCGGCAGTGCCAGTTCTTCGTTGCTGTTGATGCG +TACGTCACGTTCCAGAATGCTACGCGCAATATCCTGCGCTTCCTGCAACGAGTGCATCTGGTAAGTGCCA +CACTGGTAGACGTTCAGTTCCGGGATCTGATTCTGATCCTGCACTTTCAGCACGTCTTCCATTGCCGCTT +TCCAGGCATCAGCAACACGCTGCTCATCTGGCGTACCAATCAGACTCATATAAAAACCGGTGCGGCAGCC +CATTGGCGAGATATCGATAATCTCTACACCATTACCGTTAAGATGGTTACGCATAAAACCAGCAAACAGG +TGCTCCAGGGTATGGATCCCTCTTTCTGGCATCACTTCTTTGTTCGGCACGCAGAAGCGCAGATCGAACA +CGGTGATTGCGTCGCCATGCGGGGTGTTCATTGTTTTCGCCACCCGAACTGCAGGCGCTTCCATCCGGGT +ATGATCGACTGTGAAGCTATCTAACAACGGCATTTAGCCACCTCCGGTAATTTTTTTAAAAATTTTCTGA +ACTCTTTCTTCCCAGGCGAGTCTGAGTATATGAAAGACGCGCATTTGTTATCATCATCCCTGAATTCAGA +GATGAAATTTTGGCCACTCACGAGTGGCCTTTTTCTTTTCTGTCAGGCGTGTTTTTCCAGCCACACCGCA +AACGGTTCGGTATCAGCGGCTTCCATTTCCTGCTGACGGCGTTCAGACGCCTCGCGCTCGGCTACAAAAT +CCTCTTCGCGCAGAATTTCCAGCGGCTCTTCACGCAGCAGATTACGGTAGGCTTCTGCAAATGCTTTGCC +TGTTCCGCCAATACCAGTATCAATCATAGACCTTAAGATACGGGCAGAGAAAGTCAGATCGGGATTATCG +AAGCAGGCAACCAGTTCATCACACACTTTCTGATACGCTTCGCCGCCGTTAATACTATCCAGCGTTTGCG +CGACGCGTTTCAGATCGCGGAACAGATCTTTACCCACCTGCGGTAACGGGAACTGTGCGGTTTCGCAGCC +GATACCCAGCGTCAGACCCGGTTTGCGACCTTCGAGGATCACCCGGTTCCAGTTAACGCGTGTACAGGCA +AGTTCGCTACTGCTCATTTCCGGTGCATCAGCCAGCGCACACCAGACCATAAACAGGTCGAGGAATCGCA +CCTGCTGTTCATCTACACCAATCGGCGAGAACGGGTTGATGTCCAGCGAACGCACTTCAATATATTCAAT +GCCGCCACGTAACAGCGCATCAGAAGGCGACTCGCCGCTGCGGGTAACGCGTTTTGGACGAATCGGCGCG +TACAGTTCGTTTTCAATCTGCAACACGTTGCTGTTGATTTGCAGCCTCTTACCGTCTTTCTCAATACCAA +TCTTCGCGTACTCTTCCGATGGCGTTTTGATTGCCTGTTTAAGGCCCGCTACGTACTCGTAAAGATCGTT +GAAGGTAATACCAAGATTGCTTTGCGATTTATTGGTATAGCCGAGATCGCTCAAACGAAGAGAGGTCGCA +TACGGCAGGTAATACATACCGCACTCGGTTTTCTCAAACGGCAGCGACGTTGGTTTTCCTTGCAGGAAAG +AAGAACAAATCGCCGGAGATGCACCAAACAGATAAGGAATGACCCAACCGAAACGATAGTAATTGCGGAT +AACGCGGAAATAGCCCGCAGAAATTTTCTCTTTGGCATCAGCGCCCGAGATATCACCGCACTTCGCTTGC +CAGAATGCCATTGGCAAAGAGAAATTGTAGTGCACGCCGGAAATGGTTTGCATCAGCGCGCCGTAGCGAT +TTTTCAGCCCTTCACGATACAGCGTTTTAAAGCGTCCGGTGTTAGAAGTGCCGTACTGTGCCAGTTCGAT +GTCCTGACCTTCTGCGATGTAGCATGGCATACTTAACGGCCACATCCGCTCATCGCCCATATTGCGCGCC +GTATAACGATGCAGATCGCGCATAAAGGTCAGCATATGTTCAATATCACCATCCACTGGTGTAATGAATT +CCAGCAATGCTTCCGCAAAATCGGTAGTAATCCATTTGTGCGTCAGTGCGGAACCTAATGCTTCAGGATG +ACCTGTTGTTGCCAGTGTGCCATCAGCATTAACACGCAAAGTTTCGCGCTCCAGCCCACGCTGTATCCCC +TTTAACGCCTGAGGATGTTTTTCCAGCCAGGCCAGCGCCTGTGATACGTCCGGGATCAAATTGACCTCCC +GCCTGTCAAAATCGTTTTAATTAGCATAACTGTAATGGTGACCATATGTGCAGGCCTACAATTAGTGCCA +CCACATCATGCCCTGAACGGTCGCTGCTGCAACTGCAACATAGCGTAACGCTTTACCAAGGCACAAAAAA +AAGATTACCGGTCCCCACGAGATGCGCATCCATCCCGCTAACAGACACAGTAAATCGCCAACCACGGGCA +TCCAGCTTAATAATAGCGTGACTGCACCATAGCGTTTCAGCCAGCCGGTAGCTTTCTCTTGCCAGCGCGA +TGTTTTACGCAATGGAAAGAAACGCCCAAGGATAACGTTAGTTAACCCTCCAAGGCTATTACCCATTGTT +GCTGTTAAAACTAAAACCCAGGGATGACTGATCCCGGAAAGCAACATTGCCACCAGCACGACTTCGGAGT +TGCCGGGTAATAGTGTAGCGCTGAGAAAACTACTGGCAAACAACGAGAAAAGCGATAACGCTTCACTCAC +AGCAAGCGAACATCCACGGCGTCCATGCCTGCTGCACGGGCCGCCTGAATACCGAAATCGGCATCTTCAA +AGACCACACACTGCGTCGGTTGCACGCCCATACGCTGCGCGCACAACAAAAATGTGTCTGGCGCGGGTTT +ATGGTGTTTGACGTGATCGGCAGCGACGACGGCGTCAAAATAATGGCGTAATCCCAGGTGCGCCAGCAAT +GCCTCAGCGATGGCGCTTTCACTCCCCGTTCCTACAGCCATTGGGCGACGACCATGCCAACTTTTCACCA +CATCAACAAGAGGAAGCGGTTCGACGCTATCCAGCAGCATACTTCTTACTGCTTCTGTTTTTTCACGCGC +TAACGCATGCGGGTCGAGATCGGCCTGATTCAGCTCAATAATTGCCTGAGCAATACGCCAGGTGGGCGAT +CCATTAAGCGCAATCATCGCCTGAATATCGTACTGAAGACCGTAGTGCCCTAATACTTCGCGCCACGCTT +TACGGTGCGTAGGCTCCGTATCCAGGATTGTGCCATCCATATCAAAAATTAAACCTGCATAACGCTCGTA +CATGGTCTTCTCGCAAGTCGAAAAATATGACGCTACTTTAGCGTAATTGCTTGATTTTGTCGCTGATGGC +GAAGGAGAAGAAAATTCAGGAAATGGATAAAGGAGTTATTTAGAAATGAGATATTTTTGAAGGAAATTTT +TTGGAGAAGATGGTGCATCCGGGAGGATGACTCACTGACGTTCGCCCTTCGGGCCGTTGCTGGCGCAACG +TTATCCTTCCTGGTGCCTGCGGTTAATACCGCTATCTCTTCGATACCTTCATTGCTGAAGGTTACGGAGA +ATATGGTGCATCCGGGAGGATTCGAACCTCCGACCGCTCGGTTCGTAGCCGAGTACTCTATCCAGCTGAG +CTACGGATGCATCGGGAAAACTTATTCTACTGCTGATATTGATACCGCTACTAAAGCCATATCAATTAAG +AGATGGTGCATCCGGGAGGATTACTCGCCTTGCGGCTCGCCCTTCGGGCCGTTGCTAAAGCAACGTTATC +ATCCCTAGTGCCTGCGGTTAATTCCGCTACCTCTTCGATACCTTCATTGCTGAAGATTTCGGAGAATATG +GTGCATCCGGGAGGATTCGAACCTCCGACCGCTCGGTTCGTAGCCGAGTACTCTATCCAGCTGAGCTACG +GATGCATCGGGAAATTTATTTTACTGCTGATATTGATACCGCTACTAAAGCCATATCAAGTAAGAGATGG +TGCATCCGGGAGGATTCGAACCTCCGACCGCTCGGTTCGTAGCCGAGTACTCTATCCAGCTGAGCTACGG +ATGCATCGGGAAACTTACTTTACTGCAGATTTTTTGATACCGCTACTAAAGCCGTATCAAGTAAGAGATG +GTGCATCCGGGAGGATTACTCGCCTTGCGGCTCGCCCTTCGGGCCGTTGCTAAAGCAACGTTATCCTCCC +TGGTGCCTGCGGTTATTACCGCCACCTCTTCCATACCTTCATCGCTGAAAGTACGTAGAATATGGTGCAT +CCGGGAGGATTCGAACCTCCGACCGCTCGGTTCGTAGCCGAGTACTCTATCCAGCTGAGCTACGGATGCA +AATGGCGGTGAGGCGGGGATTCGAACCCCGGATGCAGCTTTTGACCGCATACTCCCTTAGCAGGGGAGCG +CCTTCAGCCTCTCGGCCACCTCACCACACGCCTCTTACGAGTGCTTCGAAGAACTTGTTTATCGCTCATC +GTCGCTGCGTGGCGCACATATTACTTTCTGAGACTTATAAGTCAAACAATTTTTCCTACACTTTTATCGT +TTGCACACTTCACGTTCAATTAGTCTGTAAAAACGTCAAAAAGAGTGTTTTATCAACAGAAGAATGGAGG +TCTGACAGATAGTAGTAATGCAAAAAAATGGAGACTTAAGTTGAATGAACGGGAGTAAAGCGAAAAGACT +ATAGAGTGAAGGAGAAATTTTGAGGGTGCGTCTCACCGATAAAGATGAGACGCGGAAAGATTAGTAACTG +GACTGCTGGGATTTTTCAGCCTGGATACGCTGGTAGATCTCTTCACGGTGAACAGAAACTTCCTTCGGGG +CATTTACGCCAATACGTACCTGGTTGCCCTTTACCCCTAAAACTGTCACGGTGACCTCATCCCCAATCAT +GAGGGTCTCACCAACTCGACGAGTCAGAATCAGCATTCTTTGCTCCTTGAAAGATTAAAAGAGTCGGGTC +TCTCTGTATCCCGGCATTATCCATCATATAACGCCAAAAAGTAAGCAATGACAAACACATTACATCTAAG +CAGTCATGGCATTACATTCTGTTAAACCTAAGTTTAGCCGATATACACAACTTCAACCTGACTTTATCGT +TGTCGATAGCGTTAATGCGAATGCCGTGAAGCGAGTCCACGGCATTGCCTGACGCTTATATTATTGCAAT +TTCGCGCTGACCCAGCCTTTCACACTGGCTAACGCTGCAGGTAAGGCCGCAGCATCCGTACCACCGGCTT +GCGCCATGTCAGGACGTCCACCACCCTTGCCGCCCACCTGCTGAGCGACCATACCAATCAGTTCCCCTGC +TTTCACACGATCTGTGACGTCCTTAGATACGCCTGCAATCAGAGAAACCTTACCTTCGACTACCGTTGCC +AGCACGATAATTGTCGACCCCAGCTGATTTTTTAAATCGTCAACCATGGTACGCAACATTTTCGGCTCAA +CACCGCTAAGCTCGCTAACCAACAGCTTAACACCATTAACATCAATTGCCTTACTGGAAAGATTTGCGCT +CTCCTGTGCGGCAGCTTGTTCTTTAAGCTGTTGTAACTCTTTTTCCAGCTGACGCGTACGTTCCAGTACT +GAGCGCACTTTATCAGCCAGATTATTGCTATCGCCTTTCAGCAGATGCGCGACTTCGCTTAAGCGATCGC +TGTCTGCATGAACGGTGGCGATAGCACCTTCTCCGGTTACCGCTTCGATACGACGAACGCCTGCAGCAGT +ACCCGATTCAGAGATGATGCGGAACAGACCAATATCACCAGTGCGGCTGGCGTGAGTACCGCCACACAAC +TCGGTAGAGAAATCGCCCATGCTCAGCACGCGTACGCGCTCATCATACTTCTCGCCGAACAGCGCCATCG +CACCTTTCGCTTTCGCCGCTTCGAGATCCATGATGTTGGTTTCGATCGGCAAATTGCGACGAATCTGTGT +GTTCACCAGGTCTTCGACCGCACGAATCTCTTCTGGTTTCATCGCTTCGTTGTGTGAGAAGTCGAAGCGC +AGCACCTTGTCGTTAACCAGTGAACCTTTCTGCGATACATGAGTACCCAGAACCTGGCGCAGCGCAGCGT +GCATCAGGTGCGTTGCGGAGTGATTCAGACGAATACGGGCGCGACGAGCCTCATCAACATCAGCCTGCAC +CGCGTCGCCCACTTTCAGAGAACCCGCAGCAAGTTTACCGATGTGACCAATCGCCTGGCCGTATTTCTGC +GTATCTTCCACCGCAAAGGAGAAGTTAGCGCCTTTCAGTTCGCCTTTATCGCCAACCTGACCGCCGGATT +CCGCATAGAATGGCGTTTGATCCAGCACGACCACAGCTTCCTGGCCTGCATTGATGGCATCAACCGCTTT +ACCATCAACAAACAGCGCAGTCACTTTGCCGTTCAGTTCCAGATGGTCATAGCCTTTAAATTCAGATGCA +CTGTCAACACGGATCATTGCGTTGTAATCGGCACCAAAGCCGCTGGCTTCGCGCGCGCGACGACGCTGCT +CTTCCATTGCAGCTTCAAAACCAGCTTCGTCAACTTTGATGTTGCGCTCACGACAAACATCAGCCGTCAG +GTCAACCGGGAAGCCATAGGTGTCGTACAGACGGAAAGCAGTTTCACCATCCAGCGTATCACCAGAAAGT +TTTGCCAGCTCTTCATCCAGCAACGCCAGACCGCGCTCCAGAGTACGAGCAAACTGCTCTTCTTCAGTCT +TCAGCACCTGCTCAACCTGCGCCTGCTGGCGTTTCAGGTCTTCACCCGCAGAGCCCATAACGTCGATCAG +CGGACCAACCAGTTTGTAGAAGAAGGTTTCTTTCGCGCCGAGCATATTACCGTGACGCACTGCGCGACGA +ATGATACGACGCAGTACATAACCACGGTTTTCATTGGACGGCATTACGCCATCCGCGATCAGGAACGCAC +AAGAACGAATGTGGTCAGCGATTACGCGCAGCGATTTATTGCTCAGATCGGTTGCGCCAGTGACTTTCGC +TACCGCCTGGATCAGCGTGCGGAACAGGTCGATGTCATAGTTAGAGTTAACGTGTTGCAGCACCGCAGCA +ATACGCTCCAGACCCATACCGGTATCTACAGACGGCTTCGGCAGCGGTTCCATCGTGCCATCGGCCTGGC +GGTTGAACTGCATGAAGACGATGTTCCAGATCTCAATGTAGCGGTCGCCGTCTTCTTCCGGGCTTCCCGG +AGGGCCCCCCCAAATGTGGTCGCCGTGATCGTAGAAGATTTCGGTGCACGGGCCGCACGGACCAGTGTCA +CCCATCTGCCAGAAGTTGTCAGATGCGTATGGCGCACCTTTGTTATCGCCGATGCGAATAATACGTTCGC +GCGGGATCCCTACTTCTTTTTCCCAGATTTCGTAGGCTTCGTCGTCGCTTTCATAGACGGTAACCCACAG +ACGCTCTTTCGGCAGGGCAAACCATTTTTCGCTGGTCAGCAGTTCCCATGCAAACTGAATGGCATCGTGT +TTGAAATAGTCGCCGAAGCTGAAGTTGCCCAGCATTTCGAAGAAGGTATGGTGACGCGCGGTGTAACCGA +CGTTTTCCAGGTCGTTGTGTTTACCACCCGCACGCACGCAGCGTTGGGAAGTGGTAGCGCGGGAATAATT +ACGCTTGTCGAGCCCAAGGAACACATCCTTGAACTGGTTCATCCCGGCGTTGGTAAACAACAAAGTTGGG +TCGTTATGGGGTACCAGGGAGCTGCTGGCAACTACCTGATGTCCCTTACTATGGAAAAAGTCGAGAAACG +CCTGACGGATCTCAGCGGTGCTCTTGCTCATAATTATCCTGAAATCAAGCTAACGAAATATCGCCACCAG +CTCCAGCGTGTCTTAACCGCCGGGCTGGTAACTGAAAAGTGGGAATAAGATAAGTTTTCTTGACTGGGAA +GTAAAATACCGTATGCGTTCAGTCGGCAAAATTTCGCCAAATCTCCTGGATATCTTCCATCAGATAGCCA +CGATAGAGCAGAAAACGCTGGATCTTAACTTTTTCTGAAAAGACAGTTGGCAAAGGTTCGCCATATTTTC +GCGTCGCCTGATCGCGCGCCAGTGCGCACCAGTCGATGTCACATTCACGCATCGCTTTTTCTGTCGCTTC +GCGGGAAATACCTTTCTGATTCAGTTCCTGGCGAATACGCGCAGGTCCATAACCTTTGCGGCTACGGCTG +GCGATAAAGCGCGCAACAAATCGGCTGTCATCGAGATAGCCATGTTCATGGCACCAGGCAATAACGCGCT +CGTAATCTTCTGCCGTAGCATCAATCTCTTCTGGGCCATTTTTGCCCATAATCGGTGCCGCGAGTTTACG +TCGCAGTTCTTGCTCACTGTGATCGCGCACCGCCAGAATGCGTACCGCACGATCCAACAGGCGAGCATAT +GCCGGGCGACGGGATGTTGATTCTGTCATGGCATATCCTTACAACTTAAAAAAGCAAAAGGGCCGCAGAT +GCGACCCTTGTGTATCAAACAAGACGATTAAAAATCTTCGTTAGTTTCTGCTACGCCTTCGCTATCATCT +ACAGAGAAATCCGGCGTTGAGTTCGGGTTGCTCAGCAGCAACTCACGTACTTTCTTCTCGATCTCTTTCG +CGGTTTCCGGGTTATCTTTCAGCCAGGCAGTCGCATTCGCTTTACCCTGACCGATCTTCTCACCTTTGTA +GCTGTACCACGCGCCTGCTTTCTCGATCAGCTTCTCTTTTACGCCCAGGTCAACCAGTTCGCCGTAGAAG +TTGATACCTTCGCCGTAGAGGATCTGGAATTCAGCCTGTTTAAACGGCGCAGCGATTTTGTTCTTCACCA +CTTTCACGCGGGTTTCGCTACCCACCACGTTTTCGCCCTCTTTCACCGCGCCGATACGACGGATGTCGAG +ACGAACAGAGGCGTAGAATTTCAGCGCGTTACCACCGGTAGTGGTTTCCGGGTTACCGAACATCACACCA +ATTTTCATACGGATCTGGTTGATGAAGATCAGCAGCGTGTTGGACTGCTTCAGGTTACCCGCCAGCTTAC +GCATCGCCTGGCTCATCATACGTGCCGCAAGGCCCATGTGAGAGTCGCCGATTTCGCCTTCGATTTCCGC +TTTCGGCGTCAGTGCCGCCACGGAGTCAACGACGATAACGTCTACTGCGCCAGAACGCGCCAGGGCGTCA +CAGATTTCCAGTGCCTGCTCGCCGGTGTCCGGCTGGGAGCACAGCAGGTTGTCGATATCGACGCCCAGTT +TACGTGCGTAGATTGGGTCCAGCGCGTGTTCAGCATCGATAAACGCACAGGTTTTACCTTCACGCTGCGC +TGCGGCGATCACCTGCAGCGTCAGCGTGGTTTTACCGGAAGATTCCGGTCCGTAGATTTCGACGATACGG +CCCATCGGCAGACCACCTGCCCCAAGCGCGATATCCAGTGAAAGCGAACCGGTAGAGATGGTTTCCACAT +CCATGGAACGGTCTTCACCCAGGCGCATGATGGAGCCTTTACCAAATTGTTTCTCAATCTGGCCCAGTGC +TGCCGCCAACGCTTTCTGTTTGTTTTCGTCGATAGCCATTTTTACTCCTGTCATGCCGGGTAATACCGGA +TAGTCAATATGTTCTGTTGAAGCAATTATACTGTATGCTCATACAGTATCAAGTGTTTTGTAGAAATTGT +TGCCACAAGGTCTGCAATGCATACGCAGTAGCCTGACGACGCACCGCATCACGGTCGCCGCTGAAGCATT +CCCGCCGGGTAATGCCTTCACCGCGGGCAGTGGCAAAAGCAAACCAGACGGTGCCGACAGGCTTCTCTTC +ACTGCCGCCATCCGGCCCGGCGATACCACTAATAGACACGGCATAATCAGCACGAGCCGCTTTCAGTGCG +CCTATCGCCATTTCCACCACGACGGGTTCACTCACCGCGCCATGCTGCGCCAGCGTCTCTTCGCGTACGC +CGATCATCTGCGCTTTGGCTTCGTTACTGTAGGTGACAAATCCGCGTTCAAACCAGGCGGAGCTACCGGC +AATATCGGTAATCACTTTCGCTACCCAACCACCGGTACAAGACTCGGCAGTTGTTACGGTTGCGCCACGG +GCTTTCAGCGCCTGCCCAACCTGTTCACTTAACTGCATCAGTTCACTGTCAGTCATCACAACCTCTGTCA +GTCAAAAATTTATGCCGGACAAGATAGCACTTTCGTCAGGAAGATGGTGTTGGCGTTGCAATTTTACGAG +GAGGATTCAGAAAAAAGCTGATTAGCCAGAGGGAAGCTCACGCCCCCCTCTTGTAAATAGCTACTGTACT +CGCGCCAGCGCCACGGCTTGTCCTAACTGCCAGACCGCCATTGCGTAATGGGTGCTGTGGTTGTAACGGG +TGATGGTGTAGAAGTTCGGCAGACCGTACCAGTACTGGTAGCCGGTGCCAACATCCAGACGCAGCAGGCT +GGCTTGTTGATGGTTGCCCAGCGGCTGCTGTGGCGTTAAACCTGCGGCGGCAAGCTGCGAAATGCTGTAC +TTAGTTTTGAAGCCATTTGGCAAGCCTGGAGCCTGACCGTTTGCCATTACCGCGACCTGATCGCCTTTCA +CCCAGCCGTGCGCTTTGAAATAGTTCGCCACGCTACCGATCGCATCAACCGGATCCCACAGGTTGATATG +CCCGTCGCCGCTGAAATCTACCGCATATTGTTTGTAAGACGACGGCATAAACTGTCCGTAGCCCATCGCC +CCGGCAAAGGAACCTTTCAGATTGAGCGGATCGTCCTGCTCGTCGCGCGCCATCAACAGGAAGGTTTCCA +GCTCGCCAGAGAAATACTCCGCGCGGCGTGGGTAGTTAAATGACAGCGTTGCCAGCGCATCGAGGATGCG +AGTTTTCCCCATCACGCGCCCCCAGCGGGTTTCAACGCCGATAATCCCGACGATAATTTCCGGCGGTACT +CCATACACCTGCCACGCGCGATTCAACGCATCTTCATACTGATTCCAGAAAACCACACCGTTCTGCACGT +TGTCCGGCGTAATAAATTTTTTGCGATAACGGAGCCATGCGCCGTTCGGACCTGATGGCGGTTTCACCGA +TGTGGTTGGTGCCTGGTTATCCATCAGCCGCAGTACCGAATCCAGACGCTTCGCCTGGGAGAGAATTTCC +TGCAACTGCTGACGATCGAAACCGTGTTTGTTCACCATTTTGTCGATGAACTGCTGGGCATTCGGGTTAT +TAGCGAAATCGCCGCCCATCTGCATCACATTGTGCTGCGGCTCAAGCAGGAAGCCGCCAGACGGCGTTCC +GGTGGTCGTATCAGTCTCAGTAGGTTTTGGCTTGCTGCTACAGGCGGCAAGCAACACAAAAAGGGGAAGC +AATGTTACATAACGACGCTTGAACATGAGGGGTCCATTTAACAGATTCAACCAGGGGCAAGTATGGTAAA +GCATCACGCCCCGCACAAGGAAGCGGTAGTCACTGCCCGATACGGACTTTACATAACTCAACTCATTCCC +CTCGCTATCCTTTTATTCAAACTTTCAAATTAAAATATTTATCTTTCATTTTGCGATCAAAATAACACTT +TTAAATCTTTCAATCTGATTAGATTAGGTTGCCGTTTGGTAATAAAACAATAAATCCTGAAGGAGAGAAC +AATGATAGAAACCATTACTCATGGTGCAGAGTGGTTTATCGGGCTGTTCCAAAAGGGCGGAGAGGTGTTT +ACCGGGATGGTGACCGGCATTCTTCCGCTGTTGATTAGCCTGCTGGTTATCATGAACGCACTGATTAATT +TTATCGGTCAGCATCGTATTGAACGTTTTGCTCAACGTTGCGCCGGTAACCCTGTTTCCCGTTACCTACT +GTTACCGTGCATTGGCACGTTTGTCTTTTGCAATCCGATGACCCTAAGCCTGGGTCGCTTTATGCCGGAA +AAGTACAAACCCAGCTACTACGCGGCGGCCTCTTATAGCTGCCACTCAATGAATGGCCTCTTCCCCCATA +TCAACCCTGGCGAACTGTTTGTTTATCTTGGCATTGCCAGCGGTCTGACAACGCTGAACCTGCCACTTGG +CCCACTGGCGGTGAGTTATCTGCTGGTTGGTCTGGTCACCAATTTCTTCCGCGGCTGGGTGACCGATCTG +ACCACCGCCATTTTTGAGAAAAAGATGGGCATTCAACTTGAACAAAAAGTTCACCTGGCAGGAGCAACAT +CATGACGCATATTCGGATCGAAAAAGGAACGGGTGGCTGGGGCGGCCCGCTTGAGCTGAAAGCCACGCCG +GGAAAAAAAATCGTCTATATCACCGCCGGTACCCGGCCTGCGATTGTTGACAAACTGGCACAGCTTACTG +GCTGGCAGGCTATTGACGGATTTAAAGAAGGTGAACCCGCGGAGGCGGAAATTGGTGTCGCGGTAATCGA +CTGTGGCGGCACATTACGCTGCGGCATCTATCCGAAACGACGTATTCCCACCATTAATATCCACTCGACG +GGCAAGTCCGGTCCGCTGGCGCAGTACATTGTGGAAGATATTTATGTCTCTGGCGTAAAAGAAGAAAACA +TCACTGTAGTAGGTGATGCGACACCACAACCCTCTTCCGTGGGCCGTGACTATGACACCAGTAAGAAAAT +CACCGAACAAAGCGATGGTTTACTGGCGAAGGTGGGAATGGGCATGGGGTCCACCGTTGCGGTGCTGTTT +CAATCTGGTCGTGACACCATCGACACTGTATTAAAAACCATTCTGCCGTTTATGGCATTCGTCTCGGCGC +TCATTGGCATCATTATGGCTTCTGGCCTTGGTGACTGGATTGCCCACGGTCTTGCTCCGCTGGCGAGCCA +TCCACTGGGTCTGGTCATGCTGGCGCTCATCTGTTCCTTCCCACTGCTTTCACCTTTCCTCGGCCCAGGC +GCAGTTATCGCACAGGTTATCGGCGTATTGATTGGCGTGCAGATTGGTCTCGGCAATATTCCGCCGCATC +TGGCTTTACCGGCACTGTTTGCCATCAACGCGCAGGCGGCCTGCGACTTCATCCCGGTCGGTTTGTCGCT +GGCGGAAGCCCGTCAGGACACGGTTCGCGTCGGTGTCCCTTCTGTACTGGTGAGCCGCTTTTTAACCGGC +GCGCCGACTGTACTGATCGCCTGGTTTGTCTCCGGTTTTATCTATCAATAGAGGCTGAAACATGACCGTT +ATTTATCAGACCACCATCACCCGTATCGGCGCGAGTGCCATTGACGCCCTCAGTGACCAGATGCTCATCA +CCTTTCGTGAAGGCGCGCCTGCGGACCTCGAAGAGTATTGCTTCATTCATTGCCACGGCGAGTTGAAAGG +TGCACTCCATCCCGGTTTGCAATTTTCACTCGGGCAGCATCGCTATCCGGTGACCGCTGTTGGCAGCGTG +GCGGAAGACAACCTTCGCGAACTGGGTCATGTCACCCTGCGCTTCGATGGTTTAAACGAAGCGGAATTTC +CGGGCACTGTCCATGTGGCAGGCCCTGTCCCCGACGATATCGCGCCGGGATCGGTTTTGAAGTTTGAATC +TGTTAAGGAGTAAAAAATGAATCAGGTTGCCGTTGTCATCGGTGGTGGGCAAACCTTAGGCGCGTTCCTG +TGCCACGGTCTGGCTGCCGAGGGGTATCGCGTCGCGGTTGTCGATATTCAGAGCGACAAAGCCGCAAATG +TGGCACAAGAAATTAACGCCGAATATGGTGAAAGTATGGCGTACGGTTTTGGTGCTGACGCCACTAGCGA +GCAAAGCGTTCTGGCGCTCTCTCGTGGGGTAGATGAAATCTTTGGTCGCGTGGATTTGCTGGTCTACAGC +GCCGGAATAGCAAAAGCAGCCTTTATCAGCGACTTCCAGCTCGGCGATTTTGACCGTTCGCTACAGGTGA +ATCTGGTGGGTTATTTCCTGTGTGCGCGTGAATTTTCGCGTTTGATGATCCGCGACGGGATTCAGGGGCG +CATTATTCAGATCAACTCGAAATCCGGCAAAGTGGGCAGCAAACACAACTCTGGCTACAGCGCAGCGAAA +TTTGGTGGCGTCGGGCTGACTCAATCACTGGCGCTGGATCTGGCGGAGTACGGCATTACGGTGCATTCAC +TGATGCTCGGTAACCTGCTGAAATCGCCGATGTTCCAGTCACTGTTGCCACAATACGCGACCAAGCTGGG +TATCAAACCGGATCAAGTCGAGCAGTATTACATCGACAAAGTACCGCTCAAACGCGGCTGCGATTATCAA +GATGTGCTGAATATGCTGCTGTTCTACGCCAGTCCTAAGGCGTCGTACTGCACCGGACAGTCGATCAATG +TCACCGGCGGTCAGGTGATGTTCTGATCAACAGCGGAGATCCATTAAGGATCTCCGTGAGACTATAGAAT +GCCTGATGCGCTACGCTCATCAGGCATACAGGACTTCCGCCACTACATTAAGGAAAAGTTATGGTATCCG +CACTCATCACCGTCGCCGTTATCGCCTGGTGTGCGCAACTGGCCTTAGGCGGCTGGCAAATTTCTCGTTT +TAACCGTGCCTTCGACACACTATGCCAGCAAGGGCGGGTTGGCGTGGGCCGTTCCAGCGGGCGCTTTAAA +CCGCGGGTCGTGGTCGCCATCGCGCTGGACGATCAGCAGCGCATCGTCGACACCTTGTTTATGAAAGGAC +TGACCGTCTTCGCCCGACCGCAAAAAATTCCCGCAATTACCGGTATGCATGCGGGTGATTTACAGCCCGA +TGTGATCTTTCCCCATGATCCACTATCACAGAATGCTCTATCATTGGCGCTTAAACTGAAACGTGGATAA +TTTCGTTGTGAATGTTACTTGCTTGCGAAGTTATCATTTTGAAACCTAAATCAGGTAATCACGCCCATGA +AACCTCGTCAGCGTCAGGCCGCCATTCTGGAGTATCTGCAAAAGCAGGGTAAATGCTCGGTTGAAGAATT +GGCGCAATACTTTGACACCACAGGCACAACCATTCGCAAAGATCTGGTCATTCTGGAACATGCCGGAACC +GTCATTCGTACTTATGGCGGAGTGGTGTTGAATAAAGAGGAATCCGATCCGCCTATCGATCATAAAACAC +TCATCAACACCCACAAGAAAGAGCTGATTGCAGAAGCTGCCGTTAGTTTTATCCATGATGGCGATTCGAT +CATTCTTGATGCTGGCAGTACCGTTTTGCAGATGGTTCCCCTGCTCTCGCGCTTTAATAACATCACGGTG +ATGACCAACAGCCTGCATATCGTCAATGCGCTATCCGAACTGGATAACGAACAAACTATCCTGATGCCAG +GCGGAACGTTTCGCAAAAAATCGGCCTCATTTCACGGGCAACTGGCAGAGAATGCCTTCGAGCATTTCAC +CTTCGATAAATTGTTTATGGGCACCGACGGCATCGATCTCAATGCGGGCGTAACCACCTTTAACGAGGTT +TATACCGTCAGTAAGGCAATGTGCAATGCCGCGCGCGAAGTGATTTTGATGGCGGACTCATCAAAGTTTG +GCCGTAAAAGCCCCAACGTAGTTTGCAGTCTTGAAAGCGTCGATAAGCTGATTACCGACGCAGGTATCGA +TCCGGCGTTTCGTCAGGCGCTGGAAGAGAAAGGGATCGATGTGATCATAACCGGAGAGAGCAATGAGTGA +AGCACTACTGAACGCGGGACGTCAGACGTTAATGCTGGAGTTGCAGGAAGCAAGCCGTTTACCGGAACGT +CTGGGCGATGATTTTGTTCGCGCCGCCAATATCATCCTGCACTGTGAAGGCAAAGTGGTGGTTTCGGGAA +TTGGCAAATCGGGCCACATTGGTAAGAAAATCGCCGCAACGCTTGCCAGTACCGGCACTCCGGCTTTTTT +TGTCCATCCGGCAGAAGCGCTGCACGGCGATCTGGGGATGATCGAAAGCCGCGATGTGATGCTGTTTATC +TCTTACTCCGGTGGCGCGAAGGAACTGGATCTGATTATTCCGCGTCTGGAAGATAAATCTATCGCGCTGC +TGGCGATGACCGGCAAACCGACGTCACCGCTGGGCCTGGCGGCAAAAGCGGTGCTGGATATCTCCGTAGA +ACGCGAAGCCTGCCCGATGCACCTTGCGCCGACCTCCAGCACCGTCAATACCCTGATGATGGGTGACGCG +CTGGCGATGGCGGTCATGCAGGCGCGCGGATTTAATGAAGAAGATTTTGCCCGCTCCCACCCAGCCGGGG +CACTGGGCGCTCGCTTGCTGAATAAAGTGCATCATCTGATGCGCCGTGACGATGCCATCCCACAGGTGGC +GTTAACCGCCAGCGTGATGGATGCGATGCTGGAACTCAGCCGCACCGGTCTGGGGCTGGTGGCGGTATGT +GACGCTCAACAACAGGTACAAGGCGTCTTTACCGACGGCGATTTACGTCGCTGGCTGGTTGGCGGCGGCG +CACTCACCACGCCAGTCAATGAAGCGATGACGGTCGGCGGCACCACGTTGCAATCGCAAAGTCGCGCCAT +CGACGCCAAAGAGATCCTGATGAAGCGCAAAATCACTGCCGCACCGGTGGTGGATGAAAACGGCAAACTC +ACCGGCGCAATAAACCTGCAGGATTTCTATCAGGCCGGGATTATTTAATCCTTCAATCCCAGACGTTTCG +CCAGCCGATGCAGGTTGGCGACGTCGGTTTCCAGCATCCGCGCGCAGGCAGCCCAGTTGTGATGATTTTG +TGCCAGTGCCTGACGAATAGTTTCACGCTGGAACGCTTCTGTCGCTTCACGCAGGTTTTGCTTAACAACG +GGCACCGCCGCCACTTCTGGCGTCGGCAACGTCACCTCAGGAAAAGCAAAATGTTGCGCCTCAAGAATCA +CTTCATCGCCGCTGCGGGTGGCTCTCGCCAGAACTACCGCCCGATGAATAGCATGTTCCAGTTCGCGCAC +GTTTCCCGGAAAACTGTAGTGTTGCAGTAAATTTCGCGCTCCGGCACTTAATACCACGCGGGAGAGCCCC +TGCCGCAAACGACACTGCTCGCAGAAATACCCCGCCAGCAGAATGACATCATCGCCCCGCTCACGCAGCG +GCGGCACCGAAAGTGGAAACACGCTCAGGCGATGAAACAAATCGGCGCGGAATCGCCCTGCCAGCACCTC +TTCGCGTAAATCGCGGTTAGTCGCCGCCAGCACGCGCACATCGACCCGCAAACAACGGTCATCGCCAACG +CGCTGAATATCGCCATACTGCAACACCCTCAGCAGCTTGGCCTGCAATGCCAACGACAACTCGCCGATCT +CATCCAGAAACAGCGTGCCGTTATCCGCCATTTCAAACTTCCCGCTGCGATTACTGATAGCGCCAGTAAA +CGCTCCTTTCACATGCCCGAACAACTCACTTTCCGCCACACTTTCCGGCAGTGCAGCACAGTTGAGATAG +ACCAGCGGATTCACCGCCCGTGGCGAGGCTTCATGAATCGCTTTCGCCACCAGCTCCTTACCGGTTCCAG +TCTCACCGCTGATCAGGACGTTGAGATCGGACGCCGCCACAATCTCAATCTCTTTTTTCAGTTGCGTCAT +GCCAGGGGACAAGCCAATCATCTGCGTCTGTTTCACCGCTTCAAACGGCGTGGCATCGCCTGGCAGCATA +TTCTGGCTTTCCAGTTGTTCAATCAGCAACGCATTGCTTAACGCTCCCGCCGCCAGCGCAGCAATCAGCC +GTAGCTCTTCGTCGCTGAAAACATCGAACTGATCGGGCTGCATCCCGTCGAGCGTCAGTGCGCCGATCAG +GTTTTGCCCGGCAAACAATGGCAGACCAACGCAGGCGTGAACCTTCAGACTCTCCTGCCCAGGAATCAAA +CCGTCATAGGGATCGGGCAATTCGCTGTCTGCGGGAAAGCGCACCACATCCCCGGCGCGGGCAATCGCTT +CCAGCCGTGGATGCCCTTCCAGCGCAAAGCGTCTACCGAGTACATCCTTTGCCAGACCGTCGATGGCAAG +CGGAATAAACTGCCGCGAATCGTAACGTAGCAACGCAGACGCATCGCACTCCAGCACCTGACGTAGCGTG +GTGATCAGGCGCTGAAAACGATCCTGGTGACCAATCCCACGCTGCAATTCGATGGCGATATTCGCCAGCA +CATCAACGGAAAAACTCATCTTTGCCTCACTGTCAATTTGACTATAGATATTGTCATATCGACCATTTGA +TTGATAGTCATTTTGACTACTCATTAATGGGCATAATTTTATTTATAGAGTAAAAACAATCAGATAAAAA +ACTGGCACGCAATCTGCAATTAGCAAGACATCTTTTTAGAACACGCTGAATAAATTGAGGTTGCTATGTC +TATTGTGGTGAAAAATAACATTCATTGGGTTGGTCAACGTGACTGGGAAGTGCGTGATTTTCACGGCACG +GAATATAAAACGCTGCGCGGCAGCAGCTACAATAGCTACCTCATCCGCGAAGAAAAAAACGTGCTGATCG +ACACCGTCGACCATAAATTCAGCCGCGAATTTGTGCAGAACCTGCGTAATGAAATCGATCTGGCGGATAT +CGATTACATCGTGATTAACCATGCAGAAGAGGACCACGCTGGGGCGCTGACCGAACTGATGGCACAAATT +CCCGATACGCCGATCTACTGTACAGCCAACGCTATCGACTCGATAAATGGTCATCACCATCATCCGGAGT +GGAATTTTAATGTGGTGAAAACTGGCGACACGCTGGATATCGGCAACGGCAAACAGCTCATTTTTGTCGA +AACACCAATGCTGCACTGGCCGGACAGCATGATGACTTACCTGACAGGCGACGCGGTGCTGTTCAGTAAC +GATGCTTTCGGTCAACACTACTGCGACGAGCATCTGTTCAACGATGAAGTGGATCAGACGGAGCTTTTCG +AGCAGTGCCAGCGTTACTACGCCAATATCCTGACGCCGTTCAGCCGCCTGGTAACACCGAAAATTACCGA +GATCCTGGGCTTTAACTTACCAGTCGATATGATAGCCACTTCCCACGGCGTGGTATGGCGCGATAACCCG +ACGCAAATTGTCGAGCTGTACCTGAAATGGGCGGCTGATTATCAGGAAGACAGAATCACCATTTTCTACG +ACACCATGTCGAATAACACCCGCATGATGGCTGACGCTATCGCCCAGGGGATTGCGGAAACCGACCCACG +CGTGGCGGTGAAAATTTTCAACGTCGCCCGAAGCGATAAAAACGAAATCCTGACTAATGTCTTCCGCTCA +AAAGGCGTGCTGGTCGGCACTTCGACGATGAATAACGTGATGATGCCGAAAATCGCCGGGCTGGTGGAGG +AGATGACTGGTTTACGCTTCCGTAACAAACGCGCCAGTGCTTTCGGCTCTCACGGCTGGAGCGGCGGTGC +GGTGGATCGTCTTTCCACGCGCCTGCAGGATGCGGGTTTCGAAATGTCGCTTAGCCTGAAAGCGAAATGG +CGACCAGACCAGGACGCTCTGAAGTTATGCCGTGAACACGGTCGCGAAATCGCCCGTCAGTGGGCGCTCG +CGCCGCTGCCGCAGAGCACGGTGAATACGGTAGTTAAAGAAGAAACCTCTGCCACCACGACGGCTGACCT +CGGCCCACGGATGCAGTGCAGCGTCTGCCAGTGGATTTACGATCCGGCAAAAGGCGAGCCAATGCAGGAC +GTTGCGCCAGGAACGCCGTGGAGTGAAGTCCCGGATAACTTCCTCTGCCCGGAATGCTCCCTCGGCAAAG +ACGTCTTTGAAGAACTGGCATCGGAGGCAAAATGAGTAACGGCATTGTGATCATCGGTTCGGGCTTCGCC +GCCCGCCAACTGGTGAAAAATATTCGCAAACAGGACGCCACTATTCCATTAACCCTGATTGCCGCCGACA +GCATGGATGAGTACAACAAACCTGACCTCAGCCATGTTATCAGTCAGGGGCAACGTGCCGATGACCTTAC +CCGCCAGACGGCGGGTGAATTTGCCGAGCAGTTTAATCTGCACCTGTTTCCACAAACCTGGGTGACGGAT +ATCGATGCCGAAGCCCGTGTGGTGAAAAGCCAGAATAATCAGTGGCAATACGACAAGCTAGTACTGGCAA +CCGGTGCCAGTGCCTTTGTCCCGCCTGTGCCTGGGCGTGAGTTAATGCTGACGTTAAATAGTCAGCAAGA +GTATCGCGCCTGTGAAACGCAACTGCGGGATGCCCGACGCGTGTTGATTGTTGGCGGTGGTTTGATTGGT +AGCGAACTGGCGATGGATTTTTGTCGTGCAGGCAAAGCGGTCACGCTAATCGACAACGCTGCCAGTATTC +TGGCGTCGTTAATGCCACCGGAAGTAAGCAGCCGCTTGCAGCATCGGTTGACGGAGATGGGCGTTCATCT +GCTGTTGAAATCTCAGTTACAGGGGCTGGAAAAAACGGATTCTGGCATTCAGGCAACGCTGGACCGCCAG +CGCAATATCGAAGTGGATGCGGTAATTGCCGCCACCGGACTGCGCCCGGAAACCGCCCTGGCACGACGCG +CCGGGCTGACGATTAATCGCGGCGTTTGCGTCGATAGTTATCTGCAAACCAGTAATACCGATATTTACGC +GCTGGGCGATTGCGCGGAAATTAACGGTCAGGTATTGCCGTTCCTCCAGCCGATTCAACTTAGCGCGATG +GTGCTGGCAAAAAATCTTCTCGGCAATAACACGCCGCTGAAACTCCCGGCGATGCTGGTGAAAATCAAAA +CGCCGGAATTACCGCTGCATCTGGCAGGCGAAACCCAGCGTCAGGATTTACGCTGGCAAATTAATACCGA +ACGCCAGGGAATGGTGGCGCGCGGCGTTGACGATGCTGACCAGCTTCGCGCCTTTGTGGTCAGTGAGGAT +CGGATGAAAGAGGCATTTGGATTGTTGAAAACATTGCCGATGTAGGTGGGCTACTGTGCCTAAAATGTCG +GATGCGACGCTGGCGCGTCTTATCCGACCTACGGGGACGCATGTGTAGGCCGGATAAGGCGTTTACGCCG +CATCCGGCAATGGTGTCCAAATGCAACACGTTTTATCCGTTCTGGACTTCACCCGCTAACCAACGCGCCG +CAGCAATAACCCCCTGCCCCAGAGACAAACCGCCATCACCCGCCGGTAAACTCTGTGGAAAGAGCAATGT +GAAATCAGCGAGATAATGCGCCAGACGTGCACGCAGCAAACGGTTATGAATAACCCCGCCGCTAAATACC +AGCGTAGTGATACCACGCATCGTGGCCTGCTCACGCATCAACGCGGCAAAACCCTGCGCCAGCGCATCAT +GAAACGCCCACGCGCGTTGATTAACCGGTGCCTGCCAGTTCAGCCACTGCTGCCAGAAAGTGGCGAGATC +CAGTTGATTGTCCACCCGCGGCATTGTCACCGGATGCGTCACTCCGTGGCATGAGGCTGCGAGCGCCTCC +AGAGCACAAGCCGCTTCACCTTCATAACTTAACGTGGCTGGCGCACAGCCCAGTGCCGCCGCCACTGCAT +CGAAAAAACGCCCACACGATGACGCCAGCGGCGCGTTAATTCCACGCTCAATGGCCCGCGCCAGCACGCT +CCAGTTTTGCTGTTGCACACTTGCTGTTTCAGAGTAATTCTGCCACTCCGGCACAAAGCGCAGGCACTGC +GCCAGCAGGTTTCGCCACGGCTGCTTCGCTGCCAAATCGCCACCCGGAAGCGCCACTGCAGGCAAGCCGC +CCAGGTGCTCACATTCGCGATAGTTCACCCGCAGGCACTCGCCGCCCCACAAAGCGCCGTTCTCCCCCAT +ACCGATACCGTCGAGCGTCAAAGCAATGACATCACCGCCATCCAGCGGCCACTGATGCTCTGCCAGACAC +GCCGCTGCATGGGCATGATGATGCAGTACCGTTTGCGTCGGCAGATTCATTTCACGCGCCCACTGGCTGG +AGACATAGCCCGGATGCGCGTCATGCACAACGTATTGCGGGGTAAAATCGTAGATGTTTTGCATCAGGCG +TAACGCTTCGCGCCACTGCATCTGGATGCCATCGTCACTTAAATCGCCCAGATGCTGACTCAACACCGCT +TGTTCACCGCGCACCAGGCAGAAGGTATTTTTCAGATCCGCGCCGAGACACAGCACAGGCGGAACATTTT +TAAAGCCCGGAGGCAAAGCCAGCGCATCCGGCACATACCCCCGCGAACGGCGCAGCATTTCGCCGCTTTC +GCGCACCACCGAATCATCCATCCGCTGCACGATGTCGCGGTTATGTATCAAGAATCCGTCGGCAATGCCC +TGCAAATCCGCCAGCGCCTGTTCGTTGCTGATAGCTGGTGGTTTACCGCTCAGGTTGCCGGAGGTCATCA +CCAGCGGGCATTGCAGTTCCTGTAACAGCAAATGCTGGAGCGGGTTCGCAGGCAACATTACCCCGACTTC +GTTAAGGTCAGGGGCGATATCATCACAAAGCTCAGGAACGTATTTTTTATCCACCAGCACAATCGGCGCG +GCGGGCGTGGTAAGCAACTGGCGCGCAGCGTCTGGTAAACCGTCAGCCACTGGCAACATGACCGCCAGCG +GTTTCGCCGGGCGATGTTTGCGCGCCCGAAGTGTCGCCACCGCGTTACTGTTACGTGCATCGCAGGCAAG +ATGAAATCCGCCAATCCCTTTGATGGCGACAATTTTGCCCATTTTTAACTGTGCGATAGCTGCCTGTAAT +GCCGCCTCTTGTTCCGCATGTTCACCATGACTTACCCATTCAAGATGCGGGCCACACTCCGGGCAGGCCA +CCGGCTGGGCGTGGAAGCGACGATCGAGCGGGTCACGGTACTCTTTGTCACAGGCCGGACATAGCGGAAA +CGCCGCCATCACGGTAAACGGGCGGTCGTAAGGCATGGCGCGAATAATGGTGAAACGCGGGCCGCAGTGG +GTACAGTTGATAAACGGATAACGATAACGCCGTTCGCCTGGGGTATTCATTTCGGCAAGGCAAGCAGGGC +AAGTAGCGGCATCGGGAACAATTTGCGTATTCATGGTGCCGCCTGTGCTCTGGCGTATAGTGAACTCGGT +GGGCAGTTGTGACCAGATAAACGGCTCACGCTCGACGCTATCAATACGCGCCAGCGGCGGGCAGTGCTGA +TACAATTGAACAAGAAACGTTTCCGGGTCTTCCCGCAGCCGGACTTCTACGCCATCGCCGTCATTACAGA +CATCGCCGTGAAGATTTAATTGCTGTGCCAGCTGCCAGACAAACGGACGAAAACCGACGCCCTGCACTTT +GCCACGAATACGCAGTTGGACACCGCAAGATGTGTTTTTTGCCATTGAGTTATTCCCGCCATCATGAATT +GCGTAACCCGCCCTGCCGGACACGACAGCGTCGCATCCGGCAGTCACAGGTCGGCGATACCGCCCGCTCC +GTATTCTACGAATATTTCCGGGAATTCCTTTGATGCCAGAACAGTTCTGTAAGATTTTTAGAACATCAGC +GCCGTACGGCGGCGTTTTTCTGCGCTCAGTTGTTCAAGTTTATTACGATCGACACAAATCAGCGCATGAG +TCGGGCAAGCCGCCATACACGCCGGGCCGTCTTCACGATGGTTGCACAGGTCGCATTTATTGGCTTCGGC +TTTGTCAGCCCGTACATTCAGACCCGCGCCGCTGTTGCGGATCACCGGACGTACCACCACTTCCATCGCA +CCATACGGGCAAGCCACAACGCAGGTTTTGCAACCAATGCAACGTTCCTGCATCACATGAACAAACCCTT +TATCACGGCTGATAGCACCATTCGGGCAGACGTTAGCGCACGGTGCATCTTCACACTGACGGCAAACTGT +CGCCGTGGAAATGTTCACACCTTTAATGACATGGATACGCGGTAAAAAAGTTTCCGGGGTCAGCGATGCA +CAGTCCTGATTTTCCTGATGAGAAACCACGCACGCTACTTCACAGGTACGGCAACCAATACATTTACTCG +CGTCAGCAATGATGAAACGGTTCATCAAATTCTCCAGCAATGACAGTTAATGCGCCGATACATTCACAAA +TCATGCCAGTTTTTAATTTACTGTTATTTAAGGAAATTAATTTCTGTAATGCAGGAAAAACGATGTCATC +GACACTAGTGACGATGACATGTGATGACAATGTTTATCGCGAAGGAGCAATGAGTGAGTCGCGGCGGATC +AGTTTTCCGCTGAAGGTTTTCGGCGGTGAGAAATCCCCGCCATCGAGCATAAAAATCAGCCGTCCAATAA +TTTCCTGAATCATCTCAGTCACCGGAATTTTTACGCTGGAGAGCGCCGGAACGGTGTAGGGGGCAATAGC +GATATCATCGAATCCGATAACTGACACCTGCTCTGGCACCGCTACGCCGCGCTCGTGTAACGCTTTCATC +GCACCTATCGCCATATCGTCGTTACTGGCAACTAACGCGCTAAATTTAGCCCCACGTTCGAGCAACATTT +CTACCCCTTCGGCCCCGCTGGCAGGCGTCCATTTACCGTTAGCGATAAGTTTTTCATTGAGCGCAATACC +ATGCTGCGCCAGCGCGTCTTTATACCCGGCAAGACGTTCAATGCTGGTGGGGGAATCCATCGAGCCGGTA +AGGAAAGCAATCTCCTGATGCCCGGCGTTTATCAACTCTGCCACGGCGTTAAAACTGGTCTGTTTATGAT +CGCACCAGACGCTATGGCTGCTGTTTTTGCGCAGGCGGCGATTAAGCACCATTATCGGCTGACTGTGCGC +GTCAATGATGTCATCGATCTCATCCACGCTTAAAAAACGCGGGTAAATCATGATCGCGTCGCAGCGCAGA +TCCAGCAGATACTGAATCGCCTGGCGCTCTTCTTCTGCGCTGTGTTTACCATCTGCCAATAGCAACTGCC +GCCCTTTCTCTTCCGCCATTCGCGCGGCATGAAAGAGTAATTCACTAAAATAAATGCCGTGGTAAAGCGT +GTTGGTCACTACCAGCCCCAGCGTCTGAGTACTCTTCGCCGACAGATTGCGCGCCAGCAAGTTTGGACGG +TAACCGCTCTCTTCTACCGCCTGAAACACGCGATCTTTAGTCTCCTGGCTGACGTAGCCATTACCTGAAA +GCACGCGGGAAACGGTCGCTTTTGAAACCCCGGCGCGCTTCGCCACTTCCAGCATCGTCGTCATCATTTT +CATCCCTTTACACGCAATCAACGCAGTGTACTGCACCGTTTGCCGATTGTCCTTGCACAATCGGCGGGAA +AAATATTCAGGTGACCGGTTTCACAAATATAAAAAATGAACAATTCACTCTCTTGCTTATTTAGTGACAA +CTATTCATGATTTTGTGAAACCGGTTTCTTAATTCCGTTTCAGCATCGGCATTTTTCCGTCACGTCGACT +GATAACAACTACATCTACCCTACTGATAACAGGATAAAATCCGATGGCCAAAAATTATGCGGCGCTGGCA +CGCTCGGTGATAGCGGCACTGGGCGGCGTTGATAACATCTCGGCGGTCACGCACTGTATGACGCGGTTGC +GCTTTGTTATCAAAGATGATGCACTTATCGACAGCCCGACGTTAAAAACCATCCCCGGCGTGCTCGGCGT +GGTACGTAGTGACAACCAGTGTCAGGTGATTATCGGCAATACCGTTTCACAAGCCTTTCAGGAAGTCGTC +AGCCTGCTGCCGGGAGATATGCAGCCCGCACAGCCCGTGGGTAAACCCAAACTCACGCTACGTCGCATTG +GTGCGGGGATCCTCGATGCGCTGATCGGCACCATGTCACCGCTGATCCCGGCGATTATCGGCGGATCGAT +GGTCAAACTGCTGGCAATGATCCTCGAGATGAGCGGCGTGCTGACAAAAGGATCGCCGACCTTAACCATT +CTGAATGTGATTGGTGACGGTGCTTTCTTCTTCCTGCCGCTGATGGTCGCGGCATCTGCCGCCATCAAAT +TTAAAACCAATATGTCGCTGGCGATTGCCATCGCGGGTGTGCTGGTACATCCGAGTTTTATTGAACTGAT +GGCGAAAGCGGCCCAGGGTGAACATGTCGAATTTGCCCTGATTCCGGTCACCGCGGTGAAATACACCTAC +ACGGTGATCCCGGCGCTGGTGATGACCTGGTGCCTGTCATATATCGAACGCTGGGTGGACAGCATTACAC +CGGCGGTGACCAAAAACTTCCTCAAACCAATGCTGATTGTGTTGATTGCCGCACCGCTGGCAATCCTGCT +GATTGGCCCGATTGGTATCTGGATCGGTAGCGCCATTTCGGCGCTGGTTTACACCATTCATGGTTATCTG +GGCTGGCTTTCAGTCGCCATTATGGGCGCGCTGTGGCCTCTGCTGGTAATGACCGGGATGCACCGCGTCT +TTACGCCAACCATCATTCAGACCATTGCCGAAACCGGCAAAGAAGGGATGGTCATGCCGTCAGAGATCGG +CGCTAACCTGTCGCTGGGCGGTTCATCACTGGCAGTGGCGTGGAAAACGAAAAACCCGGAACTGCGTCAG +ACGGCGCTGGCTGCGGCGGCATCAGCCATTATGGCGGGGATTTCCGAACCGGCGTTATATGGCGTGGCGA +TCCGCCTGAAACGTCCGCTTATCGCCAGTCTTATCAGCGGTTTTATTTGCGGCGCGGTTGCCGGTATGGC +GGGGCTTGCCAGCCACTCAATGGCAGCGCCGGGGCTATTTACCAGCGTGCAGTTCTTCGATCCGGCGAAT +CCAATGAGCATCGTCTGGGTGTTCGCGGTCATGGCGCTGGCGGTGGTGCTGTCGTTTATCCTCACACTGT +TGCTCGGCTTTGAGGATATTCCTGTTGAGGAAGCGGCTGCCCAGGCGCGAAAGTATCAGAGCGTACAACC +GACCGTCGCCAAAGAAGTAAGTCTTAATTGAGGATGAAAATGTCAGTATTTCCAGAAAGTTTTTTATGGG +GCGGCGCGCTTGCCGCCAACCAGTCTGAAGGTGCGTTCCGTGAAGGTGACAAAGGTCTGACCACTGTCGA +TATGATCCCACACGGCGAGCATCGAATGGCGGTGAAACTGGGGCTGGAAAAACGTTTTCAGTTGCGAGAT +GACGAGTTTTATCCCAGCCATGAGGCGACGGATTTTTATCATCGTTATAAAGAAGATATCGCCCTGATGG +CAGAGATGGGATTCAAGGTTTTCCGTACCTCAATTGCCTGGAGCCGTCTCTTTCCGCAGGGCGATGAAAT +CACGCCCAATCAGCAGGGCATTGCTTTTTATCGTTCTGTCTTTGAAGAGTGTAAAAAGTACGGTATCGAA +CCGCTGGTCACGTTGTGCCACTTCGATGTGCCGATGCATCTGGTCACCGAATATGGCTCCTGGCGTAACC +GCAAGCTGGTGGAGTTTTTCAGCCGCTACGCCAGAACCTGCTTTGAAGCATTTGATGGTCTGGTGAAATA +CTGGCTAACCTTCAATGAAATCAACATTATGTTGCATAGCCCGTTCTCCGGCGCGGGTCTGGTGTTTGAA +GAAGGTGAAAATCAGGATCAGGTGAAATATCAGGCCGCGCATCACCAGCTGGTTGCCAGTGCGCTAGCCA +CCAAAATCGCCCATGAGGTTAACCCGCAAAATCAGGTGGGCTGTATGCTGGCGGGCGGTAACTTCTACCC +TTACAGTTGCAAGCCGGAAGATGTCTGGGCGGCGCTGGAGAAAGACCGGGAAAACCTGTTTTTTATCGAT +GTGCAGGCGCGGGGCACGTATCCGGCTTACTCTGCCCGCGTATTCCGCGAAAAAGGGGTAACCATCAACA +AAGCACCGGGCGATGATGAAATCCTGAAAAACACCGTCGATTTTGTCTCTTTCAGCTATTACGCCTCGCG +CTGCGCCTCGGCGGAGATGAACGCCAACAACAGCAGTGCGGCGAACGTGGTGAAATCGCTGCGTAATCCG +TATCTACAGGTGAGCGACTGGGGCTGGGGAATTGATCCACTCGGTCTGCGTATCACCATGAATATGATGT +ACGATCGTTATCAGAAGCCGCTGTTTCTGGTGGAAAACGGCCTGGGCGCAAAAGATGAATTTGCTGCCAA +TGGCGAGATTAACGACGACTATCGCATCAGCTACTTACGCGAACATATCCGCGCAATGGGCGAAGCGATT +GCAGACGGCATTCCGCTGATGGGCTACACCACATGGGGCTGTATTGATTTAGTTTCCGCCTCTACGGGTG +AAATGAGCAAACGCTACGGCTTTGTCTTTGTTGACCGTGACGACGCAGGCAACGGTACGCTGACGCGCAC +GCGTAAGAAATCATTCTGGTGGTATAAAAAAGTGATTGCCAGTAATGGGGAAGATTTAGAGTAGGTAACA +GTGCCGGATGCGGCGTGAACGCCTTATCCGGCCTACATGTCGCACGAACCATGAAGGCCCGATAAGCGCA +GCGCATCGGGCAATTTAGCATTTGGCATCAGAGCTGGTTCACCCCATCAAGAACATCCCTGTCCTGATTC +CTTAATGAAAAACTACTCTTCTTCCACCGCTAACTGCGCGAAGCCGCCATTTCCTTCCCAGCCTTCCAGT +CGTTGATAAACGGTTTCTACCGCATCTTTAATCGGCTGGGTCATCGGGTAGTAAAAGCCGACGATATCCG +GCTGAATGCCGAGGAAAATCACTTCGCCAATATCTTCTTTCAACTGGTCGATAAGGTAATTCAACGGCAT +GTTATGGGTAGTCATCATAAACATCTCGGCGATATCATCCGGGTCGATGATGCGGATCTCGCCGGGGTTT +AGCCCCATATCCGTGGCGTCGACAATCAGCAGTCGTGTCGGGCGCAGTTCACGGATAGCGACGATGTCGT +TTTCCGGTGCGCTACCGCCGTCAATCACCACCCAGTTACCTTTCGGCGCGGCGGCGCACTTTTCCGCCAG +CAGCGGACCTGCGCCATCATCGCCCATCATGCTATTGCCAACACAGAGTAAAACGTCAGTCACGCAGTCT +CCTCACCATCAAATAGATGGCGTTTTCCTGATGAATATCATGCAGCATACTTAACAGCATTGTACTCCAT +TCCTGCTGCTGCGAAGTTTGCGCTGCCCGGGCTTTATCGAATGCGTTGGCCAGCATCGGCACATGGTTAA +TGTCGATGACGATCTCACCATATTTCGGCACGCCTTCCATTTTGCGGCGGGCTTCACTGCCTGCCTCCAG +AGTGGCAATCCATGCCAGATATTCATCCCACGGGCAGGTGAGCGCCGCTTCCAGGCAATCGATAACCCCA +AGGTGGTGACCAATCGCCAGGCTGTAATAGACCACCTGCTGCGCCTCGGCGGGCGTGGCATCGTTCTCAT +CAATAAATTTACGGCTCAGTTGACTGAACACCACCTTTTCACTCATCGGATACGCGCCTCTTCAACAACA +TGATTCAGATGGCTGACAATCTCGTTCAGACGCGGATCGTTTTCCGCTTCCAGCCAGCGTGCAACCTGTT +CTTCGCCCTGCCCTAACTGTGTAAGGTAATCATCGGCAATCTGACGACCGTAACGATAACCCGCCAGGCG +ACGTGCTTCGCGATCCACTTTCACGCGCAGCGGCTGCACCATATCACCATGCAGGATCTCCGCCGGTTGT +TCATCCAGTTCACCCGGCCCACGGGCGTGAATTTTCTGCTCCAGCAGGCCGAGCGCCATTGCAAAGCCGT +ACAGCGTGGCGGCAGGCGTTGGCGGGCAGCCAGGGATATAAACATCCACAGGGACAATTTTATCCGTACC +GCCCCACACGCAGTAGAGATCGTGGAAGATCCCGCCACTGTTACCGCAGGCACCGTAGGAGATACAAATT +TTCGGGTCCGGCGCGGACTGCCACGCACGCAGCGCAGGGGATCGCATTGCACGGGTGACCGCGCCGGTAA +ACAGTAAAATATCCGCATGACGCGGTGAAGGAACGACTTTAATGCCGAAGCGTTCTGCATCAAACAGCGG +CGAAAGCGTGGCGAAAATTTCGATTTCGCAACCGTTGCAGCCGCCGCAGTCCACGCGGTAAACATAGGCA +GAACGTTTGATTTTTTTCAGTAACGACGCCTTCATGCTGGCGATGGATTCATCCACCGTCATGGGGACCG +GAATGCCGTTGGCGTCACGGGGGCCTAATAAATTGCTCATCAGATGGCCTCTTTCATATGGCGAGTCAGT +TCAATACGGTCGGACGGCACCAGGCATTTCTGGCGCTTACATTCCGGGCAAGTCTCAAAGCTTTCGCGGT +GGTTTTCCGCGCGGCTGTCGCCGTTGTGCTTAAGCAGCGCAATGGCGTAGTCGATCTCTTTCTGGACGGC +GAAAGGACGATTGCAGACGCGGCAGTTGCACAGCGCGAAGCGGGACTGTTGCAGGAAGTCTTCTTTCTTC +CACACCGCCAGTTCGTACTCTTGCGACAGTTTGATCGCCGCCGTCGGGCAGACTTCTTCGCAGCGTCCAC +AGAAGATGCAGTGCCCAAGATTAAACTCCCAGGCAAGCTCTCCTGTGGCGAGGTCAGTTTCAACCGTTAA +GGCGTTTGACGGGCAGGCATTGACGCAGGCCGCGCAGCCGATGCACTGCTGCGGGTTCTGCTCTGGCTTA +CCACGGAAGTTTTTATCAACCGCAATCGGCTCCAGCGGATAAGACGAGGTCGCCGTGCCGGTTTTGATGA +CTTTTTTGATAAAGGTAAACATGGCGATTCCTTATTTCAGCGGCGAGTTTTTACGCTCAATGCTGTAACG +CTCGAGTTCTTTGTACGGCACCACTTTGCTCTTCTTCTTACGCACATCGACCACGGTCATGCGGTCGGTA +CAGGAGTAGCAAGGGTCGAGGCTACCGATAATCAGCGGCGCATCGGAAACGGTGTTGCCGCGCAGCATGT +AGCGCAGGGTCGGCCAGTTCGCGTAGGTCGCGGCACGGCAGCGCCAGCGGTACAGCTTCTGGTTGTCGCC +GGTCATGCTCCAGTGGATATCATCGCCGCGCGGCGCTTCGGCAAAGCCCAGCGCAAAGCGGTGCGGAATG +TAGGTAAAGCCTTCCACCATCAGTGGGCCACCCGGCAGGTTATCCAGACCGTAGTCGATCATGTTCAGCG +CGGTATAGACTTCGTTGATACGCACTTTCAGACGGGAAATAACGTCGCAGCCCTGCTCGCTGTGGACTTC +CATTGGCAGCAGGCCATAGCCGACAAACGGGTGATCGGCGCGGGTATCACGGGCGTGACCGCTGGCACGG +ACCATCGGGCCGACGTTACTGAAGTCGCGAGCGATTTCCGGGTCCAGACGACCAATGCCGACAGTGCGCT +GTTCCATGTTCGGAGTGCTCAGCAGCACATCCACCAGCTCCTGCACTTCACGACGCATCTGTTGTGCCAG +CTGGCGGGTCTGGATCATGTCGTCTTTCAGCAGATCGCGACGAATCCCGCCGATCAAGTTCAGGCCGTAG +GTTTTACGCGCACCGGTAAGGATCTCTGCCATTTTCATGGAGGTTTCACGCACGCGGAAGAACTGCATAA +AGCCGGAGTCGAAGCCGGTAAAGTGACAGGCCAGGCCAAGGTTGAGCAGATGCGAGTGCAAGCGTTCTAC +CTCCAGCAGAATGGCGCGGATCATCTGCGCACGTTCTGGCACCTGAATACCCATCGCGTTTTCCACCGAC +GTGGTGTAGGCGGTGCTGTGGGCAAAGCCGCAGATCCCGCACACACGGTCAGAGAGGAAGGTCACTTCGT +TATAACCCATACGGGTTTCCGCCAGTTTTTCCATGCCGCGATGGACGTAGAACAGACGGTAGTCGGCGTC +GATAATGTTTTCGCCATCGACGAACAGACGGAAGTGGCCCGGTTCATCAGAAGTGACGTGCAGCGGACCA +ATCGGCACGACGTTGTTTTTCTTGTCGCCCAGTTCGTTGATGAACTCGTAGGTTTCAGCATCGGTGGTCG +GTGCCGGACGCTGACGATAATCCATGCTGTCTTTACGCAGCGGATAAAGTTCATCCGGCCAGTCATCCGG +CAGCACCAGACGACGTTCATCCGGCAGACCAACCGGAATCAAACCGTACATATCGCGCACTTCACGCTCG +CCCCACACCGCCGCCGGAACGCGCGGCGTCACGGACGGATATTCCGGTTTGTTGGCGTCAACTTCGACGC +GAACCGTAATCCAACACTTAGTGCCCTTCTCCATCGACAGCACGTAGTAAACGGCGTAATGACCATTCAG +TTTGCGTTCGTCGTTACCAAACAGCACCGACAGCCAGCCACCCTGTTTGTAGTAAAGAAACTCCACCACT +TCCGGCAGGTAGTTCACCTTTACGGTGACAGTCAGCTGATCTTTGGTCTGCCAGGCGTGGTCCAGCACGA +CGCCCGGAAATGCCTCATTCAGCGCGGCGAGATAATGTTGACCTAATTTTTCTTCAGACATGCTCAAACT +CTCTTTAATCACGCCGCCAGCAAGGAGACGAACGCTAAAAATGCAAAGCCAAACCCAGCCCAGGTAATGC +GCGGAGTAATATCAAGACGCAGACGGGCCATGCTGTTTTCGAACAGCGCGATAACCAGGACGCCGACCAC +CAGTTTTACGATGGCAATCACCAGCGCCAGCAGCAGTCCACCGGCGGTGAAGGTTTCCATTTGTCCCCAC +GGAATAAACACCCCGACGAACATCTGCAACACCACCAGCTGTTTCAGGCTGATACCCCATTTCATGACGC +CAAAGCCGCTGCCGCTGTATTCAGAGAGCGGGCCTTCCTGCAGCTCCTGCTCGGCTTCCGCCAGGTCGAA +CGGCAGTTTGCCCATTTCGATAAAGGTGGCGAACGCACAGGCACAAAGCGCCAGTACCAGCGGGATGCTC +TGGCTCAGCGGCCAGTGATAAACGGTGTCGGTGATGTTGCTGATGTTGGTGGAACCGGCAACCTGTGCGG +CAACCCACAGACCAAGCAGCAGCATCGGTTCGACCAGCACGCCAAGCATCGCTTCACGGCTCGCGCCGAT +AGCGGTAAACGGGCTACCGGTATCCAGACCAGAAATGGCAAAGAAGAAACGCGCGATGGCAAAGAGATAC +AGTAAGGTGATCAAATCACCCAGTTGCGGCAGCGGAGAACCGACGGTCACCACCGGCAGCGCAGTAGCGA +TAGTCAGCATGACGCCCACCATCACATACGGCGTCAGGCGGAACACCCAGCCGGAGGCATCCGGGCCGAC +GCTCTGACGCCCCAGCAGTTTGATAATGTCGCGATACTCCTGCAACACGCCCGGCCCGCGACGGTTATGC +AAGCGGGCGCGCGCCACGCGGGTTATACCGGAGAGCAGCGGCGCAACGGCAAATAACACCAGCGCCTGAA +TTAACGGATATAAAACACTCATTCTCAGGCTCCTCGTGAAACAATAATCACCACCAGTACCGCCAGTTCA +ACCAGCGCCATCCGGCGGAACAGCAACGCACTCCCCTCGCACTGCCAGCCCGGCACCAGAGACACCGGAT +TCAGCCATTTGCGTAGTTTCAGCACCGGCGCAAACGCCTGTTTCACCGGCATGGCAAAACCGTGAGCGGT +AATCACCATTGATTTTTCGTGGTCGTAACCGCACACCCAGGCCGCACCGCGGGAACGCGATGGCAAACGA +TCGCCTTTGCAAATCGCCATAATGATGAATGGCAGCAGCGGGCAGGCAATCAGCAGCAACGTGATCATCG +GTTGAGAAACGGTGGTGTTAGCAGGCTCCAGCGGCAGAGGTACAGCAGCAGAGAGCATCGGCAGTAGCCA +CGGCGCAGCAACACCGCCAATTACGCAGCAAATCGCCAGTGCCACTACGCTTACGCTCATCAGGAGCGGC +GCACAGGTGGCGTTTTCGGCTTCTTTGGTGCGCGGCGCGCCGAGGAACGTGACGCCATAGACTTTCGCCA +TACACATCACCGCCAGCGCACCGGTAATTGCCAGCCCCACAGCGAGCAGCGGCCCCAGCAGACGGGCAAC +AAACGCGCCACTATTGCTCAGTTTGAAAAATGATTGATAGATAACCCATTCCCCGGCAAAACCATTCAGC +GGCGGCAGCGCAGCCATTGCCATCAGCCCGACTAACATGGCGATGGAGATAACCGGCATTTTCTTGCCAA +TACCACCGAGTTTTTCGATATCGCGATGACCGGTACGGAACCAGACGCTCCCCGCCCCGAGGAACAGTAC +GCTTTTGAACAGGCTATGGTTAAGCAGATGGTACAGACCACCGACCAGGCCAAGAGCAATCAGCGCCGGT +TGTTCGAGCGCGATACCCGTTACGCCAGCGCCCAGCCCCAGCAGGATGATGCCGATATTTTCCAGGGTGT +GGTAAGCCAGCAGGCGCTGGATGTTGTGCTCCACCAGCGCATACAGACCACCGACAAACGCGGTGATCAT +GCCGAGCACCAGCAGCGCGATCCCCCACCACAGCGGTGCATTACCGCCCAGCAGTGACAGGGTTAAAATG +CCCAGCAGGCCAATTTTCATGACTACCGTAGAAAACAACGCGGCAGCTGGCGCAGAGGCGTTCGCATGTG +CCTGCGGCACCCAGCCGTGCAGCGGAATAATCCCGGCCAGCAGGCCAAAGCCAATCACTCCGAGCAGCCA +GATATCGGAACCGAGCGGCAGCTGTTGCATACGCATATCCAGCAGGCGCAGATCCAGCGTGCCGTAACGC +TGCCACAGCAGCCAGCAAGCAATCGCCAGCAGCAGAGTGCCAAGACGCCCCAGCGCAAACCACAGTTTGC +CCTCTTTGCTGTTGCTGGTGAGGAACACCGCGCACAGGGCCATGATTTCGGCCATTACCACGAACATGCC +GAGGTTGCTGGCAATGACGGCGCAGACGGCGGCAGCCATCAACATATTGATCTGCAAGCCGTTGCACTTC +ACCTGCGCGTGGCGATGCCAGTCAATGTTGTAGAGGCTGACAAACAGACCGCACAGACCGAGCGTAATCA +GCCAAATCGCGTTAAGCGGAGAGATTTGCACATCGTAGCTTACCAGCGACAGCGCACCGCTCACGCCAAC +CGCGCCAGTCAGTACAGTGAAGCCCGCGGCTGCCGTATACAGACTACCAACCGCGCCGCCAATTCCAGCT +ATCCAGCCACTTAACGCTTTTTGAAAAGAAAAGAGAAATGCCAGAACAGCGGCGGCGACAAACCACGCCA +CGCCGCTATTGATCAGGGAAATTGCGCTCATTTAGCCTCTCCACTTTGAGCCTGCTGAAACAAGGTGAGA +TCGCCAAAGTCCGTGTTAAAGGTCAGCTCACGCTTACGTTTGCTGACGCGGGCGATATCGGTGTTATCCA +CCAGATGCAGGGCTTTAGTCGGGCACATCCGCACGCAGGCCGGACCTTGTTCATCAAAGCTACAAAGGTC +ACATTTGACGGCGATCGCGCGAATACCTGGCACCCAGTCAAGCAATGTGCTGACACGCGCCGGAGCAGGC +GGTGCCGGTGGCGCTTTCGGGGTATTGGCGTTTGCCGGAATATCCAGCGGACGGCTGCCGGAAAATTCAA +TTGCGCCAAACGGGCAGGCGATGCCGCACAGCTTGCAGCTTACGCACAGGCTTTCATTCAACTGCACGGC +CCCATCGACGCGGGTGATGGCGTTAACCGGGCAGACCACCGCGCAGGGTGCATCTTCACAGTGGTGACAG +AGCTGCGGCGCAGATTCTTTTTCATTCAGCATCACTCTCAGGCGCGGCATTGATTGCAGGCCGTGCTGGC +GATGCGTCTCTGAACAGGCGGCCTCACAAGTGTGGCAGCCGATACAGAGCGTGGAGTCAGCAATTACAAA +ACGATTCACCAGGCATTCCTCAGGTGATTGTCATTTTTGACGAAAACATGCCGATGAAATGTCATTTTCG +ACACTCATCGACACGCCCATCCCCAAACAGGCGTAACGCCTGCAAAACGGGCAAAGCCTCAGCTCATGCT +GCCGGGCTTTGTCCCTTTACCAGTTGGCTTAAATTCACCGGCACATTGTTTTCAATAGCGGTGTATAAGC +TGTCGTAAACGCCAGCGATTTTTTCGAGATAGTGTTCCAGAACCTGTTCGCGATCGCGGATGTTGACCTT +GCCATCAATCATGCCGTCAATGCTCAGTTGCGCCTGCGCAATCCGCTGTTTGTCTTCGCCATCTTTTGTT +TCGACGTAATACTCGATGGTGTGGCTGTTAAAGCCATCCGCCAGGGTGACGTAAATGCGAAAATGTTCAA +AAAGGACGAAACAGAGTTCTTTGTCCGGCGCGCAGCTCATGGCGTGATGCAGGCGCGCTTTCGATAACGT +GATCCCCTGAACCAGCGAATTGCAGTAGATGTGCCACTGGTCCTGTAGGCGACGATGCCGCTGTGCGATG +TAATCGGCTTTCTCGCTTATTTCCCAAATAGTCATTGTCAGGTTACCCGTTTAACAGAGATGCCAGCTTT +AAGCATTTTTTGTGCCAACTTTTAATTTATTGTTATTAAAGAGATTTTTAAGCTAAAGATGAATTTCGTC +GCCGTGTCGACGTGTCATTTCGACATCATCGACATTATTCACCGCAGGGATAATCAACACTGGCACAATT +ATTGCTTGTAGCTGGCAATAGTTAATGGGAGGCGATATGCACGAAATAACCCTCTGCCAACGGGCACTGG +AATTGATCGAACAGCAGGCCGCAAAACACGGCGCAAAACGCGTAACTGGGGTCTGGCTCAAAATTGGCGC +ATTTTCTTGTGTCGAAACCAGCTCTCTTGCCTTTTGTTTTGATCTGGTTTGCCGCGGCAGCGTGGCGGAA +GGTTGTAAACTGCACCTCGAAGAACAAGAGGCCGAATGCTGGTGTGAAACATGCCAACAGTATGTGACGC +TACTGACCCAGCGCGTCCGCCGCTGTCCACAGTGTCATGGTGACATGCTGCAGATTGTGGCAGACGACGG +TTTACAGATTCGGCGGATAGAAATAGACCAGGAGTGAGCGATGTGTACAACATGCGGTTGCGGTGAAGGC +AACCTGTATATCGAGGGTGATGAACATAACCCTCATTCCGCGTTTCGTAGCGCGCCATTTGCCCCGGCGG +CACGCCCGAAGATGAAAATCACCGGCATTAAAGCGCCTGAATTTACCCCCAGCCAGACTGAAGAAGGCGA +CCTGCATTACGGTCATGGCGAAGCGGGCACTCACGCACCGGGCATGAGCCAGCGTCGGATGCTGGAAGTC +GAAATTGACGTGCTGGACAAAAATAACCGTCTGGCTGAACGCAACCGCGCGCGCTTTGCTGCCCGCAAGC +AACTGGTGCTCAACCTGGTTTCCAGCCCTGGTTCCGGTAAAACCACCCTGCTGACGGAAACCCTAATGCG +CCTGAAAGACAGCGTTCCGTGCGCAGTTATTGAAGGCGACCAGCAAACCGTGAACGATGCCGCACGCATT +CGCGCTACCGGCACACCAGCGATTCAGGTGAACACCGGTAAAGGCTGCCATCTTGACGCACAGATGATTG +CCGACGCCGCACCGCGTCTGCCACTGGACGATAACGGTATTCTGTTTATCGAAAACGTTGGCAACCTCGT +ATGCCCGGCCAGCTTCGATCTCGGTGAAAAACACAAAGTGGCGGTGCTTTCCGTTACCGAAGGTGAAGAC +AAACCACTGAAATATCCGCATATGTTTGCCGCCGCCTCGCTGATGCTGCTCAACAAAGTTGACCTGTTGC +CGTATCTCAACTTTGACGTTGAAAAGTGCATCGCCTGCGCCCGCGAAGTCAATCCAGAAATTGAAATCAT +CCTTATTTCCGCCACCAGCGGCGAAGGGATGGACCAGTGGCTGAACTGGCTGGAGACACAGCGATGTGCA +TAGGCGTTCCCGGCCAGATCCGCACCATTGACGGCAACCAGGCGAAAGTCGACGTCTGCGGCATTCAGCG +CGATGTCGATTTAACGTTAGTCGGCAGCTGCGATGAAAACGGTCAGCCGCGCGTGGGCCAGTGGGTACTG +GTACACGTTGGCTTTGCCATGAGCGTAATTAATGAAGCCGAAGCACGCGACACTCTCGACGCCTTACAAA +ACATGTTTGACGTTGAGCCGGATGTCGGCGCGCTGTTGTATGGCGAGGAAAAATAATGCGTTTTGTTGAT +GAATATCGCGCGCCGGAACAGGTGATGCAGTTAATTGAGCATCTGCGCGAACGTGCTTCACATCTCTCTT +ACACCGCCGAACGCCCTCTGCGGATTATGGAAGTGTGTGGCGGTCATACCCACGCTATCTTTAAATTCGG +CCTCGACCAGTTACTGCCGGAAAACGTTGAGTTTATCCACGGTCCGGGGTGCCCGGTGTGCGTACTGCCG +ATGGGTAGAATCGACACCTGCGTGGAGATTGCCAGCCATCCGGAAGTCATCTTCTGTACCTTTGGCGACG +CCATGCGCGTGCCGGGGAAACAGGGATCGCTGTTGCAGGCAAAAGCACGCGGTGCCGATGTGCGCATCGT +TTACTCGCCGATGGATGCGTTGAAACTGGCGCAGGAGAATCCAACCCGCAAAGTGGTGTTCTTCGGCTTA +GGTTTTGAAACCACTATGCCGACCACCGCTATCACTCTGCAACAGGCGAAAGCGCGTGATGTGCAGAATT +TTTACTTCTTCTGCCAGCACATTACGCTTATCCCGACGTTGCGCAGTTTGCTGGAACAGCCGGATAACGG +TATCGATGCGTTCCTCGCGCCGGGTCACGTCAGTATGGTTATCGGCACCGACGCCTATAATTTTATCGCC +AGCGATTTTCATCGTCCGCTGGTGGTTGCTGGATTCGAACCCCTTGATCTACTACAAGGCGTGGTCATGC +TGGTGCAGCAGAAAATAGCGGCCCACAGCAAGGTAGAGAATCAGTATCGTCGAGTGGTACCGGATGCCGG +TAACCTGCTGGCGCAACAGGCGATTGCCGATGTGTTCTGTGTCAACGGCGACAGCGAATGGCGCGGCTTA +GGCGTGATTGAATCTTCTGGCGTGCACCTGACGCCGGATTATCAACGATTCGATGCCGAAGCACATTTCC +GCCCGGCACCGCAGCAGGTCTGCGATGACCCGCGCGCGCGTTGTGGTGAGGTATTAACGGGCAAATGTAA +GCCGCATCAATGCCCGCTGTTTGGTAACACCTGTAATCCTCAAACCGCGTTTGGTGCGCTGATGGTTTCC +TCCGAAGGAGCGTGCGCCGCGTGGTATCAGTATCGTCAGCAGGAGAGTGAAGCGTGAATAATATCCAACT +CGCCCACGGTAGCGGCGGCCAGGCGATGCAGCAATTAATCAACAGCCTGTTTATGGAAGCCTTTGCCAAC +CCGTGGCTGGCAGAGCAGGAAGATCAGGCACGTCTTGATCTGGCGCAGCTGGTAGCGGAAGGCGACCGTC +TGGCGTTCTCCACCGACAGTTACGTTATTGACCCGCTGTTCTTCCCTGGCGGTAATATCGGCAAGCTGGC +GATTTGCGGCACAGCCAATGACGTTGCGGTCAGTGGCGCTATTCCGCGCTATCTCTCCTGTGGCTTTATC +CTCGAAGAAGGATTGCCGATGGAGACACTGAAAGCCGTAGTGACCAGCATGGCAGAAACCGCCCGCGCGG +CAGGCATTGCCATCGTTACTGGCGATACTAAAGTGGTGCAGCGCGGCGCGGTAGATAAACTGTTTATCAA +CACCGCTGGCATGGGCGCAATTCCGGCGAATATTCACTGGGGCGCACAGACGCTAACCGCAGGCGATGTA +TTGCTGGTGAGCGGTACACTCGGCGACCACGGGGCGACTATCCTTAACCTGCGTGAGCAGCTGGGGCTGG +ATGGCGAACTGGTCAGCGACTGCGCGGTGCTGACGCCGCTTATTCAGACGCTGCGTGACATTCCCGGCGT +GAAAGCGCTGCGTGATGCCACCCGTGGTGGTGTAAACGCGGTGGTTCATGAGTTCGCGGCAGCCTGCGGT +TGTGGTATTGAACTTTCAGAAGCGGCACTGCCTGTTAAACCTGCCGTGCGTGGCGTTTGCGAATTGCTGG +GACTGGACGCCCTGAACTTTGCCAACGAAGGCAAACTAGTAATAGCTGTTGAACGCAACGCGGCAGAGCA +AGTGCTGGCAGCGTTACATTCCCATCCACTGGGGAAAGACGCGGCGCTGATTGGTGAAGTGGTGGAACGT +AAAGGTGTTCGTCTTGCCGGTCTGTATGGCGTGAAACGAACCCTCGATTTACCACACGCCGAACCGCTTC +CGCGTATATGCTAATAAAATTCTAAATCTCCTATAGTTAGTCAATGACCTTTTGCACCGCTTTGCGGTGC +TTTCCTGGAAGAACAAAATGTCATATACACCGATGAGTGATCTCGGACAACAAGGGTTGTTCGACATCAC +TCGGACACTATTGCAGCAGCCCGATCTGGCCTCGCTGTGTGAGGCTCTTTCGCAACTGGTAAAGCGTTCT +GCGCTCGCCGACAACGCGGCTATTGTGTTGTGGCAAGCGCAGACTCAACGTGCGTCTTATTACGCGTCGC +GTGAAAAAGACACCCCCATTAAATATGAAGACGAAACTGTTCTGGCACACGGTCCGGTACGCAGCATTTT +GTCGCGCCCTGATACGCTGCATTGCAGTTACGAAGAATTTTGTGAAACCTGGCCGCAGCTGGACGCAGGT +GGGCTATACCCAAAATTTGGTCACTATTGCCTGATGCCACTGGCGGCGGAAGGGCATATTTTTGGTGGCT +GTGAATTTATTCGTTATGACGATCGCCCCTGGAGCGAAAAAGAGTTCAATCGTCTGCAAACATTTACGCA +GATCGTTTCTGTCGTCACCGAACAAATCCAGAGCCGCGTCGTTAACAATGTCGACTATGAGTTGTTATGC +CGGGAACGCGATAACTTCCGCATCCTGGTCGCCATCACCAACGCGGTGCTTTCCCGCCTGGATATGGACG +AACTGGTCAGCGAAGTCGCCAAAGAAATCCATTACTATTTCGACATTGACGATATCAGTATCGTCTTACG +CAGCCACCGTAAAAACAAACTCAACATCTACTCCACTCACTATCTTGATAAACAGCATCCCGCCCACGAA +CAGAGCGAAGTCGATGAAGCCGGAACCCTCACCGAACGCGTGTTCAAAAGTAAAGAGATGCTGCTGATCA +ATCTCCACGAGCGGGACGATTTAGCCCCCTATGAACGCATGTTGTTCGACACCTGGGGCAACCAGATTCA +AACCTTGTGCCTGTTACCGCTGATGTCTGGCGACACCATGCTGGGCGTGCTGAAACTGGCGCAATGCGAA +GAGAAAGTGTTTACCACTACCAATCTGAATTTACTGCGCCAGATTGCCGAACGTGTGGCAATCGCTGTCG +ATAACGCCCTCGCCTATCAGGAAATCCATCGTCTGAAAGAACGGCTGGTTGATGAAAACCTCGCCCTGAC +CGAGCAGCTCAACAATGTTGATAGTGAATTTGGCGAGATTATTGGCCGCAGCGAAGCCATGTACAGCGTG +CTTAAACAAGTTGAAATGGTGGCGCAAAGTGACAGTACCGTGCTGATCCTCGGTGAAACTGGCACGGGTA +AAGAGCTGATTGCCCGTGCGATCCATAATCTCAGTGGGCGTAATAATCGCCGCATGGTCAAAATGAACTG +CGCGGCGATGCCTGCCGGATTGCTGGAAAGCGATCTGTTTGGTCATGAGCGTGGGGCTTTTACCGGTGCC +AGCGCCCAGCGTATCGGTCGTTTTGAACTGGCGGATAAAAGCTCCCTGTTCCTCGACGAAGTGGGCGATA +TGCCACTGGAGTTACAGCCGAAGTTGCTGCGTGTATTGCAGGAACAGGAGTTTGAACGTCTCGGCAGCAA +CAAAATCATTCAGACGGACGTGCGTCTAATCGCCGCGACTAACCGCGATCTGAAAAAAATGGTCGCCGAC +CGTGAGTTCCGTAGCGATCTCTATTACCGCCTGAACGTATTCCCGATTCACCTGCCGCCACTACGCGAGC +GTCCGGAAGATATTCCGCTGCTGGCGAAAGCCTTTACCTTCAAAATTGCCCGTCGTCTGGGGCGCAATAT +CGACAGCATTCCTGCCGAGACGCTGCGCACCTTGAGCAACATGGAGTGGCCGGGTAACGTACGCGAACTG +GAAAACGTCATTGAGCGCGCGGTATTGCTAACACGCGGTAACGTGCTGCAGCTGTCATTGCCAGATATTG +TTTTACCGGAACCTGAAACGCCGCCTGCCGCAACGGTTGTCGCCCTGGAGGGCGAAGATGAATATCAGTT +GATTGTGCGCGTGCTGAAAGAAACCAACGGCGTGGTTGCCGGGCCTAAAGGCGCTGCGCAACGTCTGGGG +CTGAAACGCACGACCCTGCTGTCACGGATGAAGCGGCTGGGAATTGATAAATCGGCATTGATTTAACTGC +AAATTGCCGGACAGATCTGCCTGTCCGGCATACTATTCATGAGGTTTTTTCGGACGATATTTTTCCGGCA +GTTCTGGCACCGGACGCTTGTCATCGATGAGATGACGCACGGTTAAGATCGGATGACGCCACAGCATTCT +CGGCCCGGCCCAACGCATAATCTGTTTCATCTCTTCACGCTTTGCAGGCTGGTAACAGTGCACCGGACAC +TGCTTACAGGCTGGTTTCTCTTCGCCGAACACACATTTATCCAGCCGCTTTTGCGCGTAAACAAACAACG +CCTCGTAATGCTCCGGCTCCGCTGACGCCTGCGGGCATTTCGCTTGATAAAGATCGATCATTTTTTTAAT +CGTCAGTTTTTCACGAGAGATACGCTTGCCGGACATGCTGCCTCCACCTCATTAAGATGTATTTATATTA +CATCTTAATCTTAAAGGGCACTATGACTCCAAAGAAGAAGGGTTAGCCAACCGATACAATTTTGCGTACT +TGCTTCATAAGCATCACGCAAAAGCTGCAAAACAGCATCTTTCCCGGAACCAGCATCAAGAACTCGCCGT +TCGCTTCTTCCCCTGAAATGATTAACTCCGGTATCATGTGCGCCTTATGTGATTACAACGAAAATAAAAA +CCATCACACCCCATTTAATATCAGGGAACCGGACATAACCCCATGAGTGCAATAGAAAATTTCGACGCCC +ATACGCCCATGATGCAGCAGTATCTCAGGCTGAAAGCCCAGCATCCCGAGATCCTGCTGTTTTACCGGAT +GGGTGATTTTTATGAACTGTTTTATGACGACGCAAAACGCGCGTCGCAACTGCTGGATATTTCACTGACC +AAACGCGGTGCTTCGGCGGGAGAGCCGATCCCGATGGCGGGGATTCCCTACCATGCGGTGGAAAACTATC +TCGCCAAACTGGTGAATCAGGGAGAGTCCGTTGCCATCTGCGAACAAATTGGCGATCCGGCGACCAGCAA +AGGTCCGGTTGAGCGCAAAGTTGTGCGTATCGTTACGCCAGGCACCATCAGCGATGAAGCCCTGTTGCAG +GAGCGTCAGGACAACCTGCTGGCGGCTATCTGGCAGGACAGCAAAGGTTTCGGCTACGCGACGCTGGATA +TCAGTTCCGGGCGTTTTCGCCTGAGCGAACCGGCTGACCGCGAAACGATGGCGGCAGAACTGCAACGCAC +TAATCCTGCGGAACTGCTGTATGCAGAAGATTTTGCTGAAATGTCGTTAATTGAAGGCCGTCGCGGCCTG +CGCCGTCGCCCGCTGTGGGAGTTTGAAATCGACACCGCGCGCCAGCAGTTGAATCTGCAATTTGGGACCC +GCGATCTGGTCGGTTTTGGCGTCGAGAACGCGCCGCGCGGACTTTGTGCTGCCGGTTGTCTGTTGCAGTA +TGCGAAAGATACCCAACGTACGACTCTGCCGCATATTCGTTCCATCACCATGGAACGTGAGCAGGACAGC +ATCATTATGGATGCCGCGACGCGTCGTAATCTGGAAATCACCCAGAACCTGGCGGGTGGTGCGGAAAATA +CGCTGGCTTCTGTGCTCGACTGCACCGTCACGCCGATGGGCAGCCGTATGCTGAAACGCTGGCTGCATAT +GCCAGTGCGCGATACCCGCGTGTTGCTTGAGCGCCAGCAAACTATTGGCGCATTGCAGGATTTCACCGCC +GGGCTACAGCCGGTACTGCGTCAGGTCGGCGACCTGGAACGTATTCTGGCACGTCTGGCTTTACGAACTG +CTCGCCCACGCGATCTGGCCCGTATGCGCCACGCTTTCCAGCAACTGCCGGAGCTGCGTGCGCAGTTAGA +AACTGTCGATAGTGCACCGGTACAGGCGCTACGTGAGAAGATGGGCGAGTTTGCCGAGCTGCGCGATCTG +CTGGAGCGAGCAATCATCGACACACCGCCGGTGCTGGTACGCGACGGTGGTGTTATCGCATCGGGCTATA +ACGAAGAGCTGGATGAGTGGCGCGCGCTGGCTGACGGCGCGACCGATTATCTGGAGCGTCTGGAAGTCCG +CGAGCGTGAACGTACCGGCCTGGACACGCTGAAAGTTGGCTTTAATGCGGTGCACGGCTACTACATTCAA +ATCAGCCGTGGGCAAAGCCATCTGGCACCCATCAACTACATGCGTCGCCAGACGCTGAAAAACGCCGAGC +GCTACATCATTCCAGAGCTAAAAGAGTACGAAGATAAAGTTCTCACCTCAAAAGGCAAAGCACTGGCACT +GGAAAAACAGCTTTATGAAGAGCTGTTCGACCTGCTGTTGCCGCATCTGGAAGCGTTGCAACAGAGCGCG +AGCGCGCTGGCGGAACTCGACGTGCTGGTTAACCTGGCGGAACGGGCCTATACCCTGAACTACACCTGCC +CGACCTTCATTGATAAACCGGGCATTCGCATTACCGAAGGTCGCCATCCGGTAGTTGAACAAGTACTGAA +TGAGCCATTTATCGCCAACCCGCTGAATCTGTCGCCGCAGCGCCGCATGTTGATCATCACCGGTCCGAAC +ATGGGCGGTAAAAGTACCTATATGCGCCAGACCGCACTGATTGCGCTGATGGCCTACATCGGCAGCTATG +TACCGGCACAAAAAGTCGAGATTGGACCTATCGATCGCATCTTTACCCGCGTAGGCGCGGCAGATGACCT +GGCGTCCGGGCGCTCAACCTTTATGGTGGAGATGACTGAAACCGCCAATATTTTACATAACGCCACCGAA +TACAGTCTGGTGTTAATGGATGAGATCGGGCGTGGAACGTCCACCTACGATGGTCTGTCGCTGGCGTGGG +CGTGCGCGGAAAATCTGGCGAATAAGATTAAGGCATTGACGTTATTTGCTACCCACTATTTCGAGCTGAC +CCAGTTACCGGAGAAAATGGAAGGCGTCGCTAACGTGCATCTCGATGCACTGGAGCACGGCGACACCATT +GCCTTTATGCACAGCGTGCAGGATGGCGCGGCGAGCAAAAGCTACGGCCTGGCGGTTGCAGCTCTGGCAG +GCGTGCCAAAAGAGGTTATTAAGCGCGCACGGCAAAAGCTGCGTGAGCTGGAAAGCATTTCGCCGAACGC +CGCCGCTACGCAAGTGGATGGTACGCAAATGTCTTTGCTGTCAGTACCAGAAGAAACTTCGCCTGCGGTC +GAAGCTCTGGAAAATCTTGATCCGGATTCACTCACCCCGCGTCAGGCGCTGGAGTGGATTTATCGCTTGA +AGAGCCTGGTGTAATAACAATTCCCGATAGTCTTTTGCTATCGGGAATATTAACGACAACTGACGAATAA +AATAAAAACACCCTGTATAATAGGAAAGCTTATTTTACAGGGTAAAACCATGCCATCTACACGCTATCAA +AAAATCAATGCCCATCACTATCGCCATATATGGGTCGTTGGTGATATTCATGGTGAATATCAGTTATTAC +AATCCCGCTTACATCAACTCTCTTTTTTCCCCAAAATCGACTTACTTATTTCTGTCGGCGATAATATTGA +TCGTGGACCGGAGAGTCTTGACGTCCTGCGCCTGCTAAACCAACCCTGGTTTACGTCGGTTAAAGGCAAC +CACGAAGCGATGGCGCTTGAGGCATTCGAAACTGGCGATGGCAATATGTGGCTTGCCAGCGGTGGTGACT +GGTTTTTCGATTTAAATGATTCAGAGCAACAAGAGGCAATAGATCTGTTGCTGAAATTCCATCACCTTCC +ACATATTATTGAAATCACTAACGACAACATAAAATATGCCATCGCACATGCAGATTATCCGGGGAGTGAA +TATCTCTTTGGTAAAGAAATAGCGGAGAGCGAATTACTCTGGCCTGTTGATCGTGTGCAGAAATCGCTTA +ATGGCGAGTTACAACAAATAAACGGCGCTGATTATTTTATATTTGGACATATGATGTTTGATAACATTCA +GACGTTCGCTAACCAGATTTATATTGATACCGGATCGCCGAACAGCGGGCGGCTGTCATTTTATAAAATA +AAGTAGTCTCATGCTTCTTCTGTGAAGCATGAGTAACCCGGTGTTATTGCAGGCCATTATTCATTTTTCG +CTACCAGCAAAGAGAGATCCTGCTTCACCAGCGCGCGACTGGCACTCTCCGGCAAACCGTCGTCTGTAAT +AATCTGATCAAACTCGCTTAATGGTAACGCCAGCCATGTCGCCACCTGACCATATTTCGTCGCATCACAG +ACCAAAACTCGCTGGCGGCTGGCACTGGCAATCGCCCGTTTCACCGTGACTTTATCTTCCGCTGGCGTAG +AAATCCCCCGCACACTCCATGACGATGCAGAAATAAAAGCCTGATCAATCATCAGGCTGCGCAGCATGGT +CGCAGCGGCTTCCCCGACACAGGAACGGTTTTCCCGACACACTGCACCGCCAGTGTGAATAATTGTGCAA +TTACTGTTGTCGAGCAAGTAGTCCGCAATAACGAAATCGTTTGTGACCACAGTCAGTGACTCCATGTGAA +TCAGATGCTGTGCTATCGCTAACGTGGTCGTTCCCGCATCCAGATAGATACAACTTCCCGGCTGAACAAG +ACTTGCCGCCAGCTTGCCAATAGCCGCTTTTTGCGTCATTGCCAGCGCAGTTTTTACCTGATGAGAAGGT +TCATGCGCCACGCGTCCCGGAGACTGGACGCCTCCGGACACCAGCACAACGGCTCCCTGCTGCTCCAGTT +TTTGTAAATCCCGACGAATGGTCATATGTGACACATTCATTCTGTCCGTTAGTTCAGCAATACTGACAAT +GCCTTTTTCAGCTACCATCTCAAGGATGATTTGGCGACGCTCTACGGGTATCAACTTTTGCTCCTTCCTT +TGTCCTGCTGACATTCTACGCTATTTGCCTGCGAAACGTGCGCGGCGCAACTAACGCTTAGTTCACATAA +AATAACACACAATGTTAATTTATGTGAATCAGATCACCATACCGTTATCTTCCAGCGCTTATATTCACAA +TATCAAACAAAATATCACTTAAATTAACAAGGAGAGCAGATGAAAACGGGATCTGAGTTTCATGTCGGTA +TCGTTGGCTTAGGGTCAATGGGAATGGGAGCAGCACTGTCATATGTCCGCGCAGGTCTTTCTACCTGGGG +CGCAGACCTGAACAGCAATGCCTGCGCTACGTTGAAAGAGGCAGGTGCTTGCGGGGTTTCTGATAACGCC +GCGACGTTTGCCGAAAAACTGGACGCACTGCTGGTGCTGGTGGTCAATGCGGCCCAGGTTAAACAGGTGC +TGTTTGGTGAAACAGGCGTTGCACAACATCTGAAACCCGGTACGGCAGTAATGGTTTCTTCCACTATCGC +TAGTGCTGATGCGCAAGAAATTGCTACCGCTCTGGCTGGATTCGATCTGGAAATGCTGGATGCGCCAGTT +TCTGGTGGTGCAGTAAAAGCCGCTAACGGTGAAATGACTGTCATGGCCTCCGGTAGCGATATTGCCTTTG +AACGACTGGCACCCGTGCTGGAAGCCGTTGCCGGAAAAGTTTATCGCATAGGTGCAGAACCGGGACTAGG +TTCGACCGTAAAAATTATTCACCAGTTGTTAGCGGGCGTACATATTGCTGCCGGAGCCGAAGCGATGGCA +CTTGCAGCCCGTGCGGGGATCCCGCTGGATGTGATGTATGACGTCGTGACCAATGCCGCCGGAAATTCCT +GGATGTTCGAAAACCGGATGCGTCATGTGGTGGATGGCGATTACACCCCGCATTCAGCCGTCGATATTTT +TGTTAAGGATCTTGGTCTGGTTGCCGATACAGCCAAAGCCCTGCACTTCCCGCTGCCATTGGCCTCAACA +GCATTGAATATGTTCACCAGCGCCAGTAACGCGGGTTACGGGAAAGAAGACGATAGCGCAGTTATCAAGA +TTTTCTCTGGCATCACTCTACCGGGAGCGAAATCATGATCAAGATTGGCGTTATCGCCGATGATTTTACC +GGCGCGACGGATATCGCCAGTTTTCTGGTGGAAAACGGTCTACCAACGGTACAAATTAACGGTGTTCCAA +CAGGTAAAATGCCGGAAGCAATCGACGCACTGGTGATCAGCCTGAAAACGCGCTCCTGTCCAGTGGTTGA +AGCCACACAGCAATCGCTGGCGGCTCTGAGCTGGTTGCAACAGCAAGGTTGCAAACAGATCTATTTCAAA +TACTGCTCTACTTTCGACAGTACGGCGAAAGGTAATATTGGCCCGGTTACCGATGCCTTAATGGATGCTC +TCGACACGCCGTTTACGGTCTTCTCTCCGGCCCTGCCGGTCAACGGACGTACGGTTTATCAGGGGTATTT +GTTCGTAATGAATCAACTGCTGGCCGAATCCGGGATGCGCCATCACCCGGTAAATCCCATGACCGACAGC +TATCTTCCCCGTCTGGTTGAAGCGCAATCCACAGGGCGCTGCGGCGTCGTTTCGGCACATGTTTTCGAAC +AAGGTGTGGATGCCGTTCGTCAAGAGCTGGCTCGCTTACAGCAAGAGGGCTACCGCTACGCGGTGCTTGA +TGCGCTGACCGAACACCATCTGGAAATTCAGGGAGAAGCCTTGCGCGATGCCCCACTGGTAACGGGCGGT +TCTGGTCTGGCGATTGGCCTGGCCCGGCAGTGGGCGCAAGAAAACGGTAACCAGGCTCGCAAAGCAGGGC +GTCCGCTCGCTGGGCGCGGCGTAGTGCTCTCCGGTTCATGCTCTCAAATGACCAACCGCCAGGTAGCACA +TTACCGTCAAATTGCACCAGCCCGTGAAGTTGATGTGGCACGCTGCCTCTCAATTGAAACTCTGGCCGCT +TATGCACACGAACTGGCAGAGTGGGTTCTGGGCCAGGAAAGTGTACTTGCTCCACTGGTTTTTGCCACCG +CCAGCACTGACGCATTGGCAGCAATTCAACAGCAATACGGTGCACAAAAAGCCAGTCAGGCAGTAGAAAC +ACTGTTTTCTCAACTAGCGGCGCGGTTAGCAGCGGAAGGCGTGACACGCTTTATTGTCGCAGGCGGTGAG +ACCTCCGGCGTAGTCACACAGAGCCTGGGAATAAAAGGGTTTCATATTGGCCCAACCATTTCCCCGGCGT +GCCGTGGGTAAACGCACTGGATAAGCCTGTCTCACTCGCCCTTAAATCTGGCAACTTCGGTGATGACGCC +TTTTTTTCACGAGCCCAAAGAGAGTTTTTATCATGAGCGATTTCGCAAAAGTAGAGCAGTCTTTGCGAGA +GGAGATGACGCGGATTGCCAGTTCATTCTTTCAGCGCGGCTATGCAACCGGTTCGGCTGGCAATCTGTCG +CTGCTTTTACCTGACGGGAATTTACTGGCGACACCGACAGGTTCATGCCTGGGCAATCTCGATCCGCAGC +GGCTTTCCAAAGTCGCCGCGGATGGCGAATGGTTAAGTGGTGACAAACCCTCGAAAGAGGTGCTCTTTCA +TCTGGCGCTGTATCGCAACAATCCGCGCTGTAAAGCGGTGGTGCATTTGCACAGCACATGGTCGACGGCG +CTTTCCTGCCTGCAAGGGCTGGACAGCAGCAACGTTATTCGTCCGTTCACACCATACGTGGTGATGCGGA +TGGGAAATGTCCCGCTGGTGCCTTATTACCGACCGGGCGATAAACGCATCGCACAGGATCTGGCGGAACT +GGCAGCAGACAATCAGGCTTTTTTACTGGCAAATCATGGCCCAGTGGTTTGCGGTGAAAGCCTGCAAGAA +GCCGCCAACAATATGGAAGAGCTGGAGGAAACGGCAAAGCTGATTTTTATTCTCGGTGACCGCCCGATCC +GTTATCTGACCGCAGGTGAAATTGCGGAATTAAGGAGTTAATGCAATGCCTCGTTTTGCAGCTAATTTAT +CCATGATGTTCACCGAAGTGCCTTTTATTGAACGCTTCGCCGCAGCGCGAAAAGCCGGGTTCGATGCTGT +GGAATTTCTGTTTCCCTATAACTACTCCACCCTGCAAATCCAAAAGCAACTGGAGCAAAACCATCTGACA +CTGGCGCTGTTCAATACCGCTCCCGGAGATATTAATGCGGGGGAATGGGGATTATCCGCCCTTCCCGGAC +GTGAGCACGAAGCACACGCAGACATCGACCTGGCACTGGAATATGCATTGGCGCTCAATTGTGAACAAGT +CCATGTGATGGCAGGCGTCGTGCCCGCTGGCGAAGATGCTGAACGGTACCGGGCAGTATTTATCGATAAT +ATCCGCTACGCTGCCGACCGCTTTGCGCCACACGGCAAGCGAATATTAGTTGAAGCACTCAGCCCCGGCG +TTAAGCCTCATTATCTCTTCTCCAGCCAGTATCAGGCACTGGCTATTGTTGAAGAGGTTGCGCGAGATAA +CGTGTTTATTCAACTAGATACTTTTCATGCGCAAAAAGTAGATGGCAACCTGACGCATTTAATCCGCGAC +TACGCCGGGAAATATGCGCACGTACAAATTGCCGGACTACCTGATCGACATGAACCGGACGATGGAGAAA +TCAACTATCCGTGGCTGTTCCGCCTGTTCGATGAGGTGGGATATCAGGGCTGGATCGGTTGTGAATATAA +ACCTCGTGGCCTCACCGAAGAAGGGCTTGGCTGGTTTGACGCCTGGCGCTAATTCGTTAAATCCCTAATT +ACAACGTACCCATACATCCCCCCATCTACGGATGGGGTAGGTTAACTATAACTTTCAGACAGGGTTTCCC +ATGTCCACAATTACATTGTTATGCATTGCGTTAGCTGGCGTAATCATGCTGTTGCTGCTGGTCATCAAGG +CAAAGGTACAACCATTCGTTGCTTTGCTCCTCGTCAGCCTGTTAGTCGCACTTGCGGCAGGTATACCGGC +GGGCGAAGTGGGTAAAGTGATGATCGCCGGGATGGGCGGTGTGCTTGGTTCCGTCACTATTATTATTGGT +CTGGGCGCTATGCTGGGGCGTATGATCGAACACTCTGGTGGTGCAGAGTCACTGGCTAATTATTTCAGTC +GCAAGTTAGGTGACAAACGAACTATCGCTGCGCTGACTCTGGCAGCGTTCTTCCTCGGTATTCCCGTCTT +CTTTGATGTCGGCTTTATTATTCTTGCGCCAATCATTTACGGTTTTGCCAAGGTTGCCAAAATATCGCCA +CTCAAATTTGGCCTGCCTGTCGCTGGGATCATGCTCACTGTTCACGTGGCGGTACCGCCGCATCCAGGCC +CTGTCGCCGCAGCGGGGTTACTCCACGCAGACATCGGCTGGCTAACCATCATCGGTATTGCGATTTCTAT +TCCCGTAGGGGTTGTTGGCTACTTTGCAGCGAAAATAATCAATAAGCGCCAATATGCGATGTCAGTAGAA +GTACTGGAACAGATGCAACTGGCTCCGGCCAGTGAGGAAGGCGCGACAAAATTAAGCGATAAAATAAATC +CACCGGGCGTCGCGCTGGTCACCTCGCTAATTGTTATTCCTATCGCGATTATCATGGCGGGTACGGTTTC +CGCAACACTGATGCCGCCTTCGCATCCCCTGCTTGGTACGCTACAGCTGATCGGCTCACCAATGGTAGCT +CTAATGATTGCGCTGGTGCTGGCATTCTGGTTATTGGCTTTACGTCGCGGCTGGAGCTTACAACACACCA +GCGACATTATGGGCTCAGCGCTTCCTACTGCGGCGGTAGTGATTTTGGTTACTGGTGCTGGAGGGGTATT +TGGCAAAGTGCTGGTGGAATCGGGCGTCGGCAAAGCCCTTGCCAACATGCTACAAATGATTGACCTGCCT +CTGTTACCAGCCGCATTTATTATTTCACTGGCGCTGCGTGCATCGCAGGGGTCAGCAACCGTAGCAATAC +TGACAACCGGCGGGTTACTCTCAGAAGCGGTGATGGGATTGAATCCGATTCAGTGCGTATTGGTGACGCT +GGCAGCCTGCTTTGGTGGGCTTGGTGCGTCACATATTAATGACTCAGGGTTCTGGATTGTGACCAAATAT +CTGGGGTTGTCGGTAGCAGACGGTCTGAAAACCTGGACAGTGTTAACGACCATTCTCGGTTTTACCGGAT +TCTTAATTACCTGGTGCGTATGGGCGGTAATTTGACCTTAATAAAAAGGTCCGATGGGCATCGGACCTTT +TATTGTGCACAGAAAAGGCCAGCCTCGCTTGAGACTGGCCTTTCTGACAGATGCTTACTTACTCGCGGAA +CAGCGCTTCGATATTCAGCCCCTGCGTTTGCAGGATTTCGCGCAAACGGCGCAGGCCTTCAACCTGAATC +TGGCGAACACGTTCACGGGTGAGGCCAATTTCACGACCTACATCTTCCAGTGTTGCCGCTTCGTACCCCA +GCAAACCGAATCGACGTGCCAGCACTTCACGCTGTTTGGCGTTCAGCTCGAACAGCCATTTGACGATGCT +CTGCTTCATATCGTCATCTTGCGTGGTATCTTCCGGACCGTTCTCTTTTTCATCGGCCAGGATGTCCAGC +AACGCTTTTTCGGAATCACCACCCAGCGGGGTGTCTACCGAGGTAATGCGCTCGTTAAGACGAAGCATAC +GGCTGACGTCATCAACTGGCTTATCCAGTTGCTCTGCGATCTCTTCCGCACTTGGTTCATGGTCCAGCTT +ATGGGACAACTCACGTGCGGTTCGCAGGTAAACGTTCAGCTCCTTTACGATGTGAATCGGCAAACGAATA +GTACGGGTTTGGTTCATAATCGCCCGTTCAATCGTCTGGCGAATCCACCAGGTTGCGTATGTTGAGAAGC +GGAAACCACGTTCCGGGTCAAACTTCTCTACCGCGCGGATCAGCCCCAGGTTGCCCTCTTCGATAAGGTC +CAGCAACGCCAGACCACGATTGCCATAACGGCGGGCAATTTTTACCACCAGACGCAAGTTACTCTCGATC +ATCCGGCGGCGAGAGGCGACATCTCCACGCAGTGCGCGACGCGCAAAATAAACTTCTTCTTCGGCCGTTA +ACAGTGGTGAATAACCAATCTCACCAAGGTAAAGCTGAGTCGCGTCCAACACACGCTGTGTGGCTCCCTG +CGATAACAGTTCCTCTTCGGCCAAATCGTTATCACTGGGTTCCTGTTCTACTAAGGCCTTTTCGTCAAAA +ACCTCAACTCCGTTCTCATCAAATTCCGCATCTTCATTTAAATCATGAACTTTCAGCGTATTCTGACTCA +TAAGGTGGCTCCTACCCGTGATCCCTTGACGGAACATTCAAGCAAAAGCCTGGTTCCGCCGATTTATCGC +TGCGGCAAATAACGCAGCGGGTTTACGGATTTCCCCTTGTAACGAATTTCAAAATGCAAGCGTGTTGAAC +TGGTTCCGGTGCTACCCATGGTCGCTATTTTTTGCCCCGCCTTAACTTCTTGTTGTTCCCGGACCAGCAT +TGTGTCGTTATGGGCGTAGGCACTCAGGTAATCATCATTATGTTTGATGATAATCAGATTACCGTAGCCG +CGCAGCGCGTTACCAGCATAAACAACGCGGCCATCTGCGGTCGCGATAATTGCCTGTCCTTTGCTGCCTG +CGATATCAATCCCCTTGTTGCCCCCCTCAGAAGCGCCAAAGGTTTCGATCACTTTGCCCTCAGTCGGCCA +GCGCCAGGTGGAGATAGGCGTACTGGTTGATGTACTGCTGACAGTCGGCTCGGTTGTGCTTGCTGTTGGT +ACCGTTACAGGCGCTGTGACCGTGGTCGCAGTTGGCTTGTTGTTCGGCAACATTTTGTTAGCACTCTGTT +CACCCGAAGACTCAGAATACGTAATTGTCGGTTGCGACGCAACAGCAACGGTGGAATTTTGTGCAGGCTT +GATCACAACTCCTTGCTCTGCTGCGTCGGCCTGGGTAATGGCATTTCCGCCAGTGATTGGCGTACCGGAA +GCATTACCCACCTGCAAGGTCTGACCAACGTTCAGCGCGTATGGTGCCTGAATATTGTTGCGCTGAGCAA +GGTCACGGAAATCGTTGCCAGTAATCCAGGCGATATAGAAAAGTGTGTCGCCTTTTTTCACGGTATAGGT +ACTGCCGCTATAACTGCCTTTCGGAATGTTCCCATACTGACGGTTATAGACGATGCGTCCGTTTTCCATC +TGTACCGGCTGCTGAGCTACTGGCTGCACTGGCTGGATTTGCGGTTGTTGAGTAGCCTGAATTTGTGGCT +GCTGCACCGGCTGAATTTGCGGTTGCTGCGCTGTAGACGTCGTCCCCATTTTCGGCGGCGGCGTAATCAA +CATACCAGAATTAGTATTTGCAGGCGCATTGCCATTAACGGAGCTGACCGGTGCCGGTGGATTTGAAGTG +TCAGAACAGCCTGCCAGCCATAGCGAAACCAGTGACAAAGCCGCAATGCGGCGAACGGTGAATTTTGGGC +TTCCCGCGCTCATTTATCCCCCAGGAAAAATTGGTTAATAACCAGTGACATAATTACCGTGCAAGGCACC +CTACTGAACACTGGAAAAGATGTTCACGATACGCTGACCTGCGGCAAAATAACCAGGAAAAATCCAGGTA +TTTCCTCACGTTTTAAGCCAGCTCACCCTTCACTAAAGGGACAAAGCGCACGGCCTCCACGGTATCGATA +ATAAATTCGCCTCCCCGACGACGCACCCGTTTCAAATACTGGTGCTCCTCCCCTACGGGTAAGACGAGAA +TCCCGCCTTCGTCCAGCTGCGTCATTAGCGCAGTTGGAATTTCCGGCGGTGCCGCCGTAACAATGATAGC +GTCAAACGGCGCACGTGCCTGCCAACCTTGCCATCCATCGCCATGACGGGTTGAAACATTATGTAAATCA +AGATTTTTCAGGCGGCGACGTGCCTGCCACTGCAAGCCTTTAATCCGTTCAACCGAGCAAACATGCTGGA +CAAGATGCGCCAGGATTGCCGTTTGATATCCCGAACCGGTGCCAATTTCCAGCACCCGCGACTGCGGCGT +CAGCTCGAGTAATTCGGTCATTCGCGCCACCATATATGGCTGCGAAATTGTCTGCCCCTGACCTATCGGC +AAAGCGATATTGTCCCAGGCTTTTTGTTCAAACGCTTCATCAACGAATTTTTCACGCGGCACGGCGGCAA +GTGCATTCAGCACCTGCTCATCCTGAATACCTTGCGCACGTAATTGATCCAGAAGTGCTTGTACGCGTCT +GCTTACCATTGCGTGCCAACTCCCACGCTGTTTAACCAGTCTGAAACCACATCTTGCGCGCTATGCGCAG +TTAAATCCACATGCAGCGGCGTGATGGAGACATAGCCCTCATCTACCGCAGCAAAATCGGTCCCCGGACC +AGCATCACATTTACCGCCCGGCGGGCCAATCCAGTACAGCGTATTGCCGCGCGGATCTTGCTGCGGGATC +ACCTGATCTGCCGGATGTCGTGTACCGCAGCGCGTCACGCGAATACCTTTGATTTGATCCAAGGGTAAAT +CCGGAACGTTAATATTAAGAATACGCCCGGTGCGCAGCGGCTCTTTACACAGTGCGCGCAAAATTGAACA +GGTTACCGCCGCGGCAGTGTCGTAATGTTTATGCCCGTCAAGCGAGACGGCAAGCGCCGGAAAACCTAAA +TGACGGCCTTCCATCGCGGCGGCTACCGTACCGGAATAAATAACATCATCCCCCAGATTCGGCCCGGCGT +TAATTCCGGACACAACAATGTCCGGGCGCGGACGCATCAGAGCATTCACGCCAAGATAGACGCAATCGGT +CGGGGTTCCCATTTGCACAGCAATATCACCATTTTCAAAGGTAAACGTGCGCAGGGAGGATTCCAGTGTC +AGAGAATTTGAAGCGCCGCTGCGGTTACGATCGGGGGCGACCACCTGAACGTCAGCAAACTCACGCAAGG +CTTTCGCCAGCGTTTGTATACCGGGTGCATGTACCCCGTCATCATTACTCAGCAATATGCGCATAATCAC +CTGTTGTGTTGATAAGTTCCCTGACAACGCTGGTTGCAAAACTACCCGCCGGAAGCCAGAAACGGATCTC +TACGGTGACGTCATCCCACCAATTCCAGCTTAATTGTTGCGGATACAGCAGCATCGCTCTGCGCGCGGCT +TCAACTTTTTCGCGCACCAGTAAAGCTTGTAATTCAGTTTCTGCGGCGACAGCTGCTTGTTCGAATGCCA +GCGCTTCACGCTGAGTTCCCCATTCGCCACTGCCTGGCAATGCGGCGGTTATCATCAACTCTTTATCGTT +GACGCGACGCTGTAATTCCGCCAGTTCTTCGGTGGTTGCGACAAACCAGCTACCACGTCCGGCTAATTGT +AGCGCATCGCCGTCAACAACTTGATTAACGTCTGCTTTTTTGAGGCGCTCAGCAACAATCTGATTAAACA +ACGCACTGCGGGCTGCCGACAACCAAAAACTCCGTTTATTGCGATCGCGCACCGGAGTATTGGTTTGCGC +CCAGCGCTGCGCCCCCTGCAAGTTGCTACCGCCAATCCCAAAACGTTGGGCACCGAAGTAGTTCGGTACA +CCTTTTACGCAAATATCGATCAGACGTTGTTCAACGTCATCGCGATTGCTCACTTCGCGCAGAACCAGGG +TAAAGGCGTTACCTTTCAGCGCGCCTAAACGCAGCTTGCGCTTGTGCCGCGCATACTCCAGCACCTGGCA +GCCTTCCAGTTGAAAGGCGCTCAGATCGGGCATTTCCTTGCCCGGCACGCGAGCGCATAACCACTGTTCC +GTAACAGCATGTTTGTCTTTTTGCCCAGCGAAGCTGACTTCACGGGCATGAATTTTCAGGAATTTCGCCA +GTGCATCCGCCACAAAACGGGTATTGCAGCCGTTTTTGAGGATTCTAACCAGAATATGCTCACCTTCACC +ATCAGGCTCAAAGCCCAAATCTTCCACCACCACAAAGTCTTCCGGATTGGCTTTCAGCAGCCCGGTGCCT +TGCGGTTTACCGTGGAGGTAAGTGAGATTATCAAACTCAATCATTTTGTTGCCTTAATGAGTAGCGCCAC +CGCTTCACAGGCAATCCCTTCCCCACGTCCGGTAAATCCCAGTTTTTCCGTAGTAGTGGCTTTCACGTTA +ACATCATCCATATGGCAGCCGAGATCTTCGGCAATAAACACGCGCATTTGTGGAATGTGCGGCAACATCT +TCGGTGCCTGAGCGATGATAGTGACATCGACGTTGCCAAGGGTATAACCCTTCGCCTGAATACGACGCCA +GGCTTCGCGTAGCAGCTCGCGGCTATCGGCACCTTTAAATGCCGGATCGGTATCCGGGAACAGCTTGCCG +ATATCCCCCAGCGCCGCCGCGCCAAGCAATGCATCGGTCAACGCATGGAGCGCCACGTCGCCATCAGAAT +GCGCCAGCAATCCTTTTTCGTAAGGAATGCGTACGCCACCAATGATAATTGGGCCTTCACCGCCAAAGGC +ATGTACGTCAAAACCGTGTCCAATTCGCATTATGTATTCTCCTGATGGATGGTTCGGGTGAGGTAAAACT +CGGCCAGTGCCAAATCTTCCGGGCGCGTGACTTTAATGTTATCCGCACGGCCTTCGACCAACTGAGGATG +GAATCCGCAATATTCCAGCGCCGAGGCTTCGTCGGTAATAGTCGCGCCTTCATTTAGAGCGCGCGTCAGA +CAGTCATGTAACAGCTCACGAGGGAAAAATTGCGGCGTCAGCGCGTGCCATAAGCCGTTGCGATCAACGG +TATGAGCAATGGCATTTTTGCCCGGTTCGGCACGTTTCATAGTATCGCGCACTGGTGCGGCGAGGATCCC +CCCCGTGCGGCTGGTTTCGCTCAACGCCAACAATCGCGCGAGGTCATCCTGATGCAAACAAGGACGAGCG +GCGTCATGCACCAATACCCACTGCGCGTCGCCAGCGGCTTTCAGACCTGCCAGCACGGAATCGGCACGCT +CATCACCGCCATCTACAACGGTGATTTGCGGATGATTCGCCAGAGGAAGTTGTGCAAAACGGCTATCGCC +AGGACTTATGGCAATGACGACACGTTTCACCCGGGGATGCGCCAGCAGCGCATGCACCGAGTGTTCAAGA +ATGGTTTGATTACCGATTGAGAGATATTGCTTAGGACATTCCGTTTGCATTCGACGGCCAAATCCGGCCG +CCGGAACCACGGCGCAAACATCCAAATGAGTGGTTGCCATGTTAATTCCCGGGCTGATTTATCGATTGTT +TTGCCCCGCAGACTGTGCGCGCTTCGACGCGTCAGGCACCAGACGATAAAAAGTTTCGCCCGGCCTGGTC +ATGCTGAGTTCATTACGCGCACGCTCTTCGAGCGCCTCCTGGCCGCCATTGAGATCGTCAATTTCGGCAA +AAAGTTGATCGTTTCGCGCTTTAAGTTTCGCGTTTGTAGCTTGCTGTGCCGCCACATCATCATTGACGCG +GGTATAGTCATGTATACCGTTCTTACCGAACCACAGCGAATACTGTAGCCAGACCAGAATAGCCAGCAAC +AGCAGCGTTAGTTTACCCATCCTGCCCCCTGAAAAACGGCATCATCATCCCATGCATCCGAAGACGACTC +TACATCCTCTGTTGGGGATACCGCGACAACGCGGGCAAATGTACCACATTTGTCCATTGTTACGTATACC +CAGGGCGTGCAGAACATAATCTCATTATTAGTTACGGTTTGAATTATGAACAGAGGAGACGGGAAAGTAC +AAATTAGCCCAGTAGCCACATAAACAGTGCGCCAAACATAATGCCTACTGTCACCAGGGTGAAAACAATA +CTGTAGCGTAGCTTTCCGTCCATCAATGAATGCAGCGCAATCCCCACCACTACCGCGACGGGCATCAGCG +CCAGAAAGAAAGGCCAGGTGTAGATAAAGAAGAACAGCGTGTTAGAGCCATAAATCAACATCGGCATCGC +CAGCGCAAATAACCAGGAGATAAAACCGACCACGGCACCAGGCAGTGACCATGTGGTTTCTTCATCCTCA +GTAAGGCTGTCGTTATTTGTTAGTGTAATGTTATGGCTATTACGCATATTTGATCCTGTTACTTTGACGA +ACCGGGCATGGAAACCCGGTGGTGTCTCAGGATCTGATAATATCGTTCTGTCTCAACAGATCTAATAATT +GCTGTACCAAATTTGTTACTAATTGTTCACCATTGAGATGAATTTCTGCCGATTCAGGCGCTTCGTAAAC +GGAATCTATTCCCGTAAAGTTGCGCAGTTCACCGGCACGCGCTTTCTTATATAAGCCTTTGGGATCGCGG +GCTTCGCAAATCGCCAGCGGCGTATCGACAAACACTTCGATAAAGCGCCCTTCTCCTACGCGTTCGCGAA +CCATCTGGCGTTCGGCGCGGTGTGGCGAGATAAATGCGGTCAGCACCACCAGTCCGGCTTCAACCATCAA +ATTCGCCACTTCACCGACGCGACGGATATTCTCTTTACGATCGGCATCGCTAAAACCGAGATCGCTGCAT +AATCCGTGGCGAACATTGTCGCCATCCAGCAGATACGTACTGACGCCGAGTTTATGTAACGCCTCCTCCA +GCGCCCCGGCGACCGTTGATTTACCGGACCCGGAGAGGCCGGTAAACCACAGCACTACACCACGATGACC +GTGGTGTAGCTCGCGTTGTTGCACAGTGACCGGATGGCTATGCCAGACGACGTTTTCGTCATGCAGCGCC +ATTATTTATCCCCCAGCAAATCGCGCGCGCCCCAGTGCGGAAAGTGGCGACGAACCAGAGCATTCAATTC +CAGTTCGAATGCACTGAATTCAGATGGCGCAGCAGTTGCCTGGCTAACTGGCTCGTGCACCATACCGGCA +CCCACGGTCACATTGCTCAGGCGATCGATAAAAATCAGCCCACCCGTCACCGGATTTTGTTGATAACGAT +CTAACACCAGCGGCTCGTCAAAAGTGAGATCCACGAGGCCGATCCCATTCAGTGGCAGGTTTTCAACTTC +ACGCTGGGTAAGGTTATTAATATCAACCTGATAGCGAATGCCATCAACACGCGCGCGCGTCTTCTTACCG +GCAATTTTGATGTCGTAACTCTGCCCTGGAGAAAGCGGCTGTTCCGCCATCCATACCACATCCACCGACG +CGCTCTGCACCGCCGGTAACGCTTCGTCTGCCGCCAGCAGCAGATCGCCACGGCTGATGTCGATCTCATC +CGTCAGCACCAGGGTGATCGCTTCTCCGGCAAAGGCTTCTTCGCGATCACCATCAAAAGTCACGATCCGC +GCGACGTTTGATTCCACACCAGAGGGCAGCACTTTGACACGTTGCCCGACTTCCACGCGACCGGATGCCA +GCGTTCCGGCGTAACCACGAAAATCGAGATTCGGGCGATTAACGTACTGCACCGGGAAGCGCATTGGCTG +AGCATCCACCACTCGCTGGATCTCCACGGTTTCCAGCACTTCGAGCAGTGTCGGACCGCTGTACCACGGC +ATACTTTCACTTTGCGATGCCACGTTGTCGCCTTCCAGTGCAGAGAGCGGCACAAAGCGGATATCCAGAT +TACCCGGCAGCTGCCCGGCAAAGGTCAAATAATCTTCACGAATACGGGTGAACGTCTCTTCACTGTAATC +CACCAGATCCATTTTGTTGATCGCCACGACCAGATGTTTGATCCCCAACAGTGTGGAGATAAAACTGTGA +CGACGGGTTTGATCGAGCACGCCTTTACGGGCATCGATCAGTAAGATCGCCAGTTCACATGTCGATGCGC +CAGTCGCCATATTGCGGGTGTACTGCTCGTGCCCTGGGGTGTCGGCGATAATAAATTTACGCTTCTCGGT +AGAGAAATAGCGGTAGGCCACGTCAATGGTGATGCCCTGTTCGCGCTCAGCTTGCAGGCCGTCCACCAGC +AGAGCCAGATCCAGCTTTTCGCCCTGGGTGCCGTGACGCTTACTGTCGTTATGCAGCGATGAGAGCTGAT +CTTCGTAGATTTGGCGGGTATCGTGCAGCAGACGACCAATCAGAGTACTTTTGCCGTCATCGACGCTACC +ACAGGTCAGAAAACGCAGCAGGCTTTTATGTTGTTGCGCAATCATCCAGGCTTCGACGCCGCCTTCATTG +GCGATTTGTTGTGCAAGTGCGGTGTTCATCTTAAAAATACCCCTGACGTTTTTTCAGCTCCATAGACCCC +GCCTGGTCGCGGTCAATCACGCGGCCCTGACGTTCACTGGTGGTGGAAACCAGCATCTCTTCGATGATTT +CCGGCAGTGTTTGTGCATTTGACTCCACCGCACCGGTCAGCGGCCAGCAGCCCAGCGTACGGAAACGCAC +CATCCGTTTTTTAATCACTTCGCCCGGTTGCAGGTCGATACGGTTGTCATCAATCATCATCAACATACCG +TCGCGTTCCAGAACCGGACGTTCCGCAGCGAGATATAGCGGAACAATGTCGATATTTTCCAGCCAGATGT +ATTGCCAGATATCCTGCTCGGTCCAGTTAGAGAGCGGGAAGACGCGGATGCTTTCGCCTTTGTTAATTTG +CCCGTTGTAGTTGTGCCACAGCTCCGGGCGCTGATTTTTCGGATCCCAGCGATGGAAGCGGTCACGGAAA +GAGTAAATTCGCTCTTTAGCGCGGGATTTCTCTTCGTCACGGCGCGCACCACCGAAGGCGGCATCAAAAC +CGTATTTGTTCAGCGCCTGTTTCAGGCCTTCAGTTTTCATAATATCGGTATGTTTCGCGCTGCCGTGCAC +GAATGGATTAATCCCCATCGCCACGCCTTCCGGGTTTTTATGCACCAGCAGTTCGCAGCCGTAGGCTTTA +GCAGTACGATCGCGGAACTCATACATCTCGCGGAATTTCCAGCCGGTATCGACATGCAGCAACGGGAAAG +GCAGCGTACCTGGATAAAACGCCTTGCGCGCCAGATGCAGCATGACGCTGGAATCTTTACCGATAGAGTA +GAGCATCACCGGATTTGAGAATTCTGCCGCCACCTCGCGAATAATGTGGATGCTTTCCGCCTCCAGTTGC +CGCAGGTGAGTAAGTCGTATTTGATCCATAACCGTTCCTTTGCAATACCGCTATTTTCTTGCCATCAGAT +GTTTCGACTATAGGGAGCGTAAGAGAACGAATGAAATTACCAATTAGAATGAGTAGTTCCTTAACGGAAT +AACGATTTGGCAAAGCTAATATCAAAAAGTGCTTAAGGCACCGGATTTCGGGCGTTTAGGAAGATTTGAA +ATTGTTTTAGCGCAGCGGCAGTTTCATACTATGGCGGTAAAAAAATTTGCATGGTATTTAAGGACTCACT +ATGTTTTCCGCATTGCGCCACCGTACCGCTGCCCTGGCGCTCGGCGTATGCTTTATTCTCCCCGTACACG +CCTCGTCACCTAAACCTGGCGATTTTGCTAATACTCAGGCACGACATATTGCTACTTTCTTTCCGGGACG +CATGACCGGAACTCCTGCAGAAATGTTATCTGCCGATTATATTCGCCAACAGTTTCAGCAAATGGGTTAT +CGCAGTGATATTCGGACATTTAATAGTCGGTATATTTATACCGCCCGCGATAATCGTAAGAGCTGGCATA +ACGTGACGGGAAGTACGGTGATTGCCGCTCATGAAGGCAAAGCGCCGCAGCAGATCATCATTATGGCGCA +TCTGGATACTTACGCCCCGCTGAGCGATGCTGACGCCGATGCCAATCTCGGCGGGCTGACGTTACAAGGA +ATGGATGATAACGCCGCAGGTTTAGGTGTCATGCTGGAATTGGCAGAACGCCTGAAAAATACGCCTACCG +AGTATGGTATTCGATTTGTGGCGACCAGCGGCGAAGAGGAAGGGAAATTAGGCGCTGAGAATTTACTCAA +GCGGATGAGTGACACCGAAAAGAAAAATACGCTGCTGGTGATTAATCTCGATAACTTAATTGTTGGCGAT +AAATTGTATTTCAACAGCGGTGTAAAAACCCCTGAGGCAGTAAGGAAATTAACGCGCGACAGGGCGCTGG +CAATTGCGCGCAGTCACGGAATAGCCGCAACGACCAATCCGGGTTTGAATAAAAATTATCCGAAAGGCAC +TGGGTGTTGTAATGACGCAGAAATATTCGACAAAGCGGGCATTGCTGTACTTTCGGTGGAAGCGACTAAC +TGGAATCTTGGGAATAAGGATGGTTATCAGCAACGCGCAAAAACACCTGCCTTCCCGGCGGGAAATAGCT +GGCATGACGTAAGACTGGATAATCACCAACATATTGATAAGGCTCTTCCTGGAAGAATAGAACGTCGCTG +CCGTGACGTTATGCGGATAATGCTACCTCTGGTGAAGGAGTTGGCGAAGGCGTCTTGATGGGTTTGAAAA +TGGGAGCTGGGAGTTCTACCGCAGAGGCGGGGGAACTCCAAGTGATATCCATCATCGCATCCAGTGCGCC +CGGTTTATCCCCGCTGATGCGGGGAACACCAGCGTCAGGCGTGAAATCTCACCGTCGTTGCCGGTTTATC +CCTGCTGGCGCGGGGAACTCTCGGTTCAGGCGTTGCAAACCTGGCTACCGGGCGGTTTATCCCCGCTAAC +GCGGGGAACTCGTAGTCCATCATTCCACCTATGTCTGAACTCCCGGTTTATCCCCGCTGGCGCGGGGAAC +TCCCGGGGGATAATGTTTACGGTCATGCGCCCCCCGGTTTATCCCCGCTGGCGCGGGGAACTCTGGGCGG +CTTGCCTTGCAGCCAGCTCCAGCAGCGGTTTATCCCCGCTGGCGCGGGGAACTCAAGCTGGCTGGCAATC +TCTTTCGGGGTGAGTCCGGTTTATCCCCGCTGGCGCGGGGAACTCTAGTTTCCGTATCTCCGGATTTATA +AAGCTGACGGTTTATCCCCGCTGGCGCGGGGAACTCGCAGGCGGCGACGCGCAGGGTATGCGCGATTCGC +GGTTTATCCCCGCTGGCGCGGGGAACTCGCGACCGCTCAGAAATTCCAGACCCGATCCAAACGGTTTATC +CCCGCTGGCGCGGGGAACTCTCAACATTATCAATTACAACCGACAGGGAGCCCGGTTTATCCCCGCTGGC +GCGGGGAACTCAGCGTGTTCGGCATCACCTTTGGCTTCGGCTGCGGTTTATCCCCGCTGGCGCGGGGAAC +TCTGCGTGAGCGTATCGCCGCGCGTCTGCGAAAGCGGTTTATCCCCGCTGGCGCGGGGAACTCTCTAAAA +GTATACATTTGTTCTTAAAGCATTTTTTCCCATAAAAACAACCCACCAACCTTAATGTAACATTTCCTTA +TTATTAAAGATCAGCTAATTCTTTGTTTTCAAACAGGTAAAAAAGACACCAACCTTAAACCATCCAAATC +TACCGGGGTACGCCTGTTTAACCCAAATGTCTGGAACTCAAATCCCGTTTCCGTATTCGTTGCCCATGCC +ATCACTACATTGCCTTCTTCCGCCAGTCCAGCTATTTGTTCCCAGATCATTTCACGAATTTTTGCGGATA +CATCACCTACATATACCCCTGCACGTACCTCCAACAACCAGATGGCTAATCTGCCTCGTAAGCGCGGAGG +TACATTTTCAGTGACCACGACCAACATACTCATTTCAGCTACTCCGATGGCCTGCATCTCCCAGTGAAAC +AGGAAGCGGAATGGCAACAGGCTGTGCATCTTCAGGTGGGGCCGGCGGTTGTATTTCTCCAGCGGCAAGC +ACGTCCTCTATAAGCGGAATCAATTTGGCTAATGTTTTACTACTGCGAAAAATATCCCTGCACGCCAAAC +GGACTTCCCGGTCCGGCTCACCAGGGTTACGACGCGCTATCTCAAAAGCTTTCGGTACAACAGTGTCAAA +TTTAATGATGTCTGCAATATCGTAAACAAAGGAAAGAGGCTTTCCTGTATGCACAAACCCAATAGCTGGT +GCATAACCAGCTGCAAGTATCGCCGCTTCAGTTACGCCGTATAAACAGGAAGTTGCAGCGCTAATGCATT +GGTTGATCGTATCGCCCTTTTCCCAGTCTTTCGGATCGTAGCGACGTCCATTCCATGTCACGCCGTATTG +CTTCGCCAGAAGTGCGTAGGTTGCCCGCACGCGACTGCCTTCTATACCTCTGAGTTGCTCTACGGAGCGC +CGGGCAGGCGCAGGTTCTCCAAACCGAAGTTCAAACATTTTACGTACGACCTTCAGACGCAAATCTTCAT +CCAGAGCAAGTTTTGCCTGATAGAGCAGCTTATCTGAACGCGCACCTCCAGGCTGACCAGAAGCATAAAC +ACGAACGCCCGCTTCCCCCACCCATACCAACAATGTTCCAACTTGCGCAGCCAGGCGTACAGCTGCATGC +GAAACCCGTGTACCAGGTTCCAGCATGATGCAGGCAACCGAGCCAACAGGAATATGAGTGCGGATCCCTG +TCTTGTCGATAAGTACAAACGCGCCATCTATTACATCGATCTGCCCATATTGCAGAAAGATCATGGAGAC +GCGATCTTTGAGTGGAATGGGATTAAGGGGAAGCCAGGTCATTTTATTACACCTCAATCACAGTGGAGCC +AAAGATAGCAAGCCACATCCCATCGATTTAGCTGGCCCAATACCTTGCTGTACAAGATCTATTAACGCTG +GCGCGTCGTTGATGGTGAGCACACCTTCAAAGCAAACCGTTTGGATCTTTCCACTTTTACCATCACCAGA +AAAATACTGTGGCCGTTCCGATATGGGATGCACATCTTCAACGCGCGCCGCATTGCCCAATTTACGTTGC +AACCACGCGATTTGTTCTGCTTCTTTTATTAACGGAACCCGACAGCGTTTAATATTCCCTTTACTGTCCA +GGCGCTTTTGATTGTCGAGAATAGTTTTGATCGGATTTGCCCGAAGCCGAAAATAGAGTGGAACACCAAC +CTGAAGTTGAAATTCAACCTGTTTAGTTTTAATGACTGTCGCAACGGCAGTTGAAACAGGCATTTGCGCT +GACTGCAATAAAACATGACAGCCTTCTGGTGTGTTTCGCTTCTCAACATGAAAAAGAAAATCACGAGCAG +CATCCGGTCTGTTTGGAAATAAATGCCATAATCCCTGGTGAAGTTGGTAAAGATCCCTGCTCCAGGCCCT +GGCAATGATGACTTTACTGAGATACATCCATACCTCCTTTAATCACATACCATTCTCGGGAAGCAAATTG +TCGAGGCAAGGTGATCATCGGTTCGTCGCGCGCCGTAAATTTTAAATGATGCCCTGTAACTGATTCCTCA +CTATATATATCGCCGCCAACGGGCTCATAATTTAATAGCGCCTTCTGAGGATCCGATGCCTGACATGTCC +CCAAAAAAAGCGGGTGTGTTAGTGGGCAACTTCTCCGCCCCAGGTAAGGTGTATACCGAGGCTTTAATAC +TGCTTTTTCAAGTTCTGAGATAACCATCGTTGCATGGGGTGTTAACCAGAGAGCGACGGTAAAGGAGGCA +TCACATAAATATTCGCGCCATGTTTGAATCGTTTCATGACTTTTCAAACCACGGTAATCTTCTCGCGCTC +CAAGGACTGTATGGTAATCACGCAACCCCGTTACAGACACACGACGATCGTCAAGAATGAGTTCATCGCA +GCGCACTGCAAATTGCACACTCTCTGATAACGCCTGTAATGAAGAAGTATCATCACGTTGGATCCCAAGA +CAAGCCCCGAGTAGCCCTAATAACCCGCTTCGGGTCGGAAATCTTCCGGTAGGTCGCGTTCCTTCAAAGG +TCGGCTGCCCCCAGGCTTGCATTGGCCCAGCAAGCCGCAAGATCAAATAAGATCTCATGTTCACGCCTCG +CCATTATTACGAACCCAGGATTTTAACTGTTCTAAAGTAGGCATTTGTTTAACTTGAGCAGTAATTGGGT +CTACATCAGATAAGCTGAATTGCGCAGCAGCTCCGTTCAGACCATATCCATTGGCAACGCGATCCCAATA +TTGATTAAACGCCTGTATAGACGGTTGCAAAAAGCCATCTTTCGCTTTAACCGCTTTTTCAAAAGCATTT +GCCATAGAAAGTGGCATATCGGAGAAATTAACCATTACCATATCCGCAGGGTTAAAAGCGGCATAAGTAC +GCTGTTTTGCTCCAGGGACCTCTGTTGCCAGCATATGAACAACATGGGTTGCAATTTCCAGAGCCTGCTC +CCTGGAGGCACCACCTAAATTTTCCTGAAGTTGAGCGAGGTTAATGTTGGCATAACGATAAAAAACACCC +GATGAAAATTCCTGAGTTCCCAGATGTGCAGAACCTTGTTCCTGTAAATCATCTACAGCGGTGAACCAGT +CAATATCAGAATCAACCTGATGAGTAGTGATCGCATGCGCAATGGACATTGCACCATCAACTTTTCCCAA +CTCAGTCATCATGCCGCTGGTTGCCATTCTTCCACTAAGCGCAATATCAACACCCTGCTGTAAATTCACA +CGTATGGCGGCAATATCTTCCTTAAGAACTTTGAGCAGCTTTTTATCATCCAGATTATCAGCCTCTGCTT +TTGCAACCTGCTCACAGAACCAGGCTATTTCTCCCACAACCCAGGGAGTAACCGCATCGGCAGAAATCTT +TTCGGCTTCATCAACTGATTTACCGGAGAGCAGCGCTAATGTCTTATCGATGATTTTTTGGTCAAAACGT +TCACCAAGTTTTTGCCGAAGAACATCACGTAATTGTGCAAGATGAATGGTTCTGAGACTGGATTCACCAA +TATTTTGTGCGTAATAACCACTTTTACGCATCGCACGTTTAAGGCTTTGACTTGAAATTCTTACTCGTCT +TTTGCCGCCGAAAATAGCGTCTTTCTGCATGTTCATATCGTCGCGGTTCAGACATGAAGGGCTGTGAGAG +ATCAGAACATGAATATTGATAAAGTTAGACATAGAAAGGTTTCCTTACGCATTTTTGTTTGTGGTCAATA +CAAAATCTTCCAGAAGTTGCTGGCGTTCGCGCTTTCCCCACCAGGTCAACATCCTGGCCATTAATGGCCA +GTCAAGTACGGGTTCGGCGTGAGTAAGTAATCGACGTAACTGGACCATATCGGCTGTTCTGTCAGCCCGA +ATTAATTGAAAGATACGGCGCTCGTTAATTCTTCCACTATTGGCTAAAGCTCTTCCCAACGAGATACCTG +TTGTTTGCTCCGATTTTTTGTCCTGATGTCGGATGACATTCTTTCCTGCGCTCAGGCAAAACACCATGCG +CAAAAGAGCCTGCTGGTGACGTGGGTTTTCCCAACCAAAAGGTTGCACCAGCCTATAAAACGCAGGGATA +TCGCGTAATTCATCAGGTTCTGAAACACGTCTAATTTGCGCACATGATCCATTATCCAGTTGTTGCCAGG +CTCGATATAAAGCCATTGCATCAATTTCATCAGCCATTTGATGGCCCTCCTTGCGGTTTTAACTCCCGTA +AATGTTTGTATAGCGTGGCGCGGGCAAGCGCTAATGTGCTTATTAATTTAGGATGATGTGCATAGGGAGC +TACAGATTGATTAAATAGCATTTCACACAATTGATGAAGTTTGTCTCGTAAATCAGCTATTACCTCATCA +GCCTGGGAAAAATTAACATTCGCCAGTACATCGGGAATTAATAATTCACTCTGTCGATAGAAATGCCTTT +CTGCAGTCTCATGAACAGAGACTCCGGCCCCTTTGAAGTCTTTATTTTTAAACCCTTCTGCAAAGGTATA +TAACGCCTTGCGTAAGGCTGTTTTATATCCCAAACCAACAGTCACTATTTCGTTTATCACATTGCCGTAT +TGTTGCCACCCCTGATTAAACATCAACACATCATGACGCCGTTCAAGAATAGATGCTTGATTATTACGAT +ATCCCCCCATAATCAATTCAAGAGGACTTTGCGGCGCAATATTTCTGAATTGATTCACAACCGCCGCCAC +GCGATTTCCATTTTCATTTTGAATAATCTTATCTACCACAACTCGGCTGATTTGTGTCCATGATGGTGCG +GAGGTGGTGAAAGCAAGAAATTTTTCCTCAACCTCCCCTTTCTTGACTGTTACCAGACAAGGGGAATGCG +GATGGGGCCATAGCCCATTAACTGTAAAGGTAAATTTTTCCTTAAGAAAACCGGTATAACGCAAATTGCT +TTCCTGTCCACAGCAAGAACATTTACCAATCCCAATGGGATCGCATAATTCAATATGCGCTGGTTGCCAG +AATAGACCACGGACAAACCCAATTGACGAAGCAGGTATAGACTCATTGGACTTGATAGGTTTAATCCAGG +TAGGTTGGTTTTCCGTATGTGATTCATTAGGAAATTGTTTTTGAAGACGAGGTAATGTGAGGACATTGAG +TAACACCGTTGAACGAAGATCGATCCCACGTACGAACGTTGTTACAGGTGTTCCTCCACGTAAACCGCTT +TTAAAACCACCACCAAAACCTGGTGCCTGATTCGCCTGGTTGAATAACGCAATCGCAGTGCATCCACCAC +ATAATGCTTCACCCTGCCCCGGTTGATTGACAAATGCACAATTCGTCGCGCCGCTTACCCCAGCCAACAG +TTTTTCCATTGGAGTCACATCATTTGCTTTGACACCTTTGGTCTGCATAAAGGGATGTTCTGCGTGATTA +AGGTAGAACATATCTATCCACGGCGCGATGAGTTGTTGAAACTCATCTTCAGTGAGCGGATTCATTATGC +GATGTCGAAATTCAACGTCATCTTTTGCCGGGGCGATAATTTGCCCAATGCAAACCAGCAGTGCTAAAGC +GGCCAGTTCCATATCGTCACGGGGCAAACTTAATCGCCACTGATCTCTACTGCAGTATAGCGATTGCAGA +TTTATGATTTGGACTTTCCCCCCGTTTCGCGGGCGTACAGGGATCCAGTTATCAATAAGCAAATTCATTT +GTTCTCCTTCATATGCTCCGACATTTCTCCTGCATTTCTATACGTCGGCACACTTCCGTTATCGGTAAAA +ACAAAGAAAAAATACGGCGTAATTAATTCAATAATCACATTCACTGCAAAAATATATTCATTGGTTTAAT +ACAATTAACCTATACATATATTAAGATGTGTTGAATTGTTTAAAGACAATAATGCATGCATTTCAAATCT +GCAAGTTATTCGTTTTATTATTAAAGAAACTTTTAGTTATAATAATTACCATGAATTTTATTACATAAAA +TATTCATACTGTGAATATAAAATCTCATACCGGGAAATTAAAAGAAGATGTACATTGTGCACCTTCCCTA +CTTAAGTAGGGATAAACCGTTATTGGTCTTATTATCGTCATTGATAACAATCATTCCCGAAGTTATTTGG +GATTTGCAGGGATGACTCTGGTCATCCCTTCATCCCCTGTATAGGTAATAACAATACTGTTACCCTGCCA +GACCCATCCATCCAGATTCTGTTTCCCTTCCAGCCAAAGTAACCCATCTTCATCTACTACTTCAGAAAAA +CTACGTTTCCAGGTGAAGGGTACATTGACGCGATTAAGTGCAAGCGCCTCATACTGCTGTTCATGACTTA +GGTCCTCGTAGACCTGGCCATCGAGCAGTTGTTTACCTGAAGACGTTTGTACATAAGGCAATAATGGCAG +GCTCATTTCCCCATCCCTCGTTACCGCAAGAATGGTTTCATCGTTATCCTGCAAGCTATATTCTTCAGCC +CACTGCAGGACCTTGCGAGCCTTGAACCTTTTTTCACACTCGGCGCTTTCAAATTTATCCATGCCATTGC +CGACCCATTCTGGCTCATCCATTTCCGCATCATCGTAAATGCTATCCAGCCATTGCCGGTAAGCATCAGG +GAAAAATAAGGATGCTCCATTAAGCTCCTCAATATGTTGCTGCGTCCGCCACATGACTCTAACGTTGCTA +TAAATATGCTCATGTCGTCCGTAACCCTCGCCATCAGGCAGCAAAATGGTGGCAACAGGAATCTCAAAAC +CAGCGGGACGATATTTGCGATGATGGCGATGTAAACGGCCCAATCGTTGGAAAAGCAAATCTGCAGGACA +ATGCTGAGTAATTAACCAATCAAAATCAACGTCGAGTGATTGTTCCACGACCTGGGTTGCGACAAGTATC +CGTCCAACATTTCGCTTCCCATTTTTGCCGAAATTGCTAATAACTCGATTCTCTTTTTCACGACGATCGT +TCAGCGTAAAGCGCGCATGAAACAAATCTATATCTACTTGCGTGTTATTTAGCTCCTTTAGCCGTTGGTA +GCATACTTGTGCAACGTCAACCAAATTGCAAATAAGACAGACCTGTGCACCCGCGTTTGCCGCTGCGATC +ATTCGCTCTAACATCGTAAGGTCAGGTAACATGTCAGCTAAACAAATAGGTTCTGGCTGAATCGAAAAGC +GGGGCGGGAGTTGTTCTGGATGAGCTAGCAGATCAAAACGTTGCGCACCATTCACACCTCGCCAGTTAAT +GAGTGGATATGCGGAGTTATTTTCCACTGGATCTGTATGCAGACCATAAGTATCCAGAAGTTTCTGTTTT +TGTTTCATTGGTAGGGTTGCGGAAAGAAGAATAACACTCCCTCCCACATCAGCCTGAGCCTTGAGCACTG +CCTCCAGCAAGCCGTTCATATAGGTGTCGTAAGCATGAACTTCATCAACAATTAAAACACTTCGACCAAT +TCCCAAACCACGGATAAAGCGGTGTTTAACTGGCAATACCGATATCAACACCTGATCAATCGTGCAAACG +CCGATTTGCCCAAGAAACACTTTCTTATTGCTTTGTGACAACCACTGACAACACTGAACCCACGCTTCTT +CTTGCCCCTGTTCAGTAATCGCGCGTGATTTTATTGATTGAAAGAGGTGGTTAAACCGTGAATTGCCATG +AGCAAGAATAAGATTTGGGGATGAAAATAAGTGGCTCGCGCTCGCTTCCATTCTCGTAAGCATAGCATTC +GCGGTAGCTTGTGTTGGGAGGGCAAAAATAACACTATCCGCAATTTGTTGATCAATAAGTTTCCAAGCAT +AGGCCAGCGCTGTTTCCGTTTTACCGGAGCCTGTAGGTGCCTCTATTACCGTCAGCCCGGGAGCTACTGG +AAGAGCATCAACTAACACCTGTAATTGTCTGGGTTGATAGCCATTGTCCAGTAGTGCATGAACACCTTCA +TAACATCGCTTATTTGATACAAGTCCACTCAACTCCAATACCCGGCTCGCATCCTGCTGTCGGTCCTGGA +AATACGTTCTCAGAGCATTTATGTCGGAAGGCGCATCCTCATTAAACAGAAAGGTATTCGTTGTAGTCCA +GGAGCCTAACCAGTCAGCAAGCGAGCAAAAACCTGCTAACAGTGATGAACAATCAGGTGGTATATCGTTT +ATAGATAACCCCGCTGGCGTTAAAAATAATGCTTCCAGTACAGATATCCACTCCTCACGAGCCTGTTTAT +CTTGCGCAGCATAAGATGCCAGAGAAGCTGGCATTTCCCAACGCGACTTATCTTGATCCTGGGAATGTAA +TATAAAACCATGATGTCCTGTAACGGCCTCTACCCATGGAAACCAGGACTCATAAGGATGAGGAGCGGCA +TCAAAAAAACTGAAAAAATCCCCGAGAGATTGCTCTGAAAGTGAATCCTGGTTAAACCAATACAGACCGG +CTGCACCATGATTAAATTTACGGCACATTTGTGTTGATGGACCATTAAGTGATGGCGTTGCAGGATTTAA +TTTCAGCCAACTTTCTGCTGATTTATATTGGAATCGTATATCAAACTTTCCAATATCATGAAGAGCAATG +AAAAATAACAGCCAGGCCTTCACCCTCTGTTTTGATAGCATTTCATTTCGGCAAAAAGTATTTTGCAGTA +CGACTGATTGATCCCACCAGCAATCTGCAACAGCAGCAACATCAAGGCAATGATAAATTAACAGATGAAT +ATCATTTCCTTTCGTCAAGCTTTTTGAGGATTTTCCCCAGTAATGGCATATATATTTAAAAGGTTCCATT +AATAGCCTCCCTGTTTTTTTAGTATTATCGATGATATCAGCGGGCTATTTTTCGATGCTGCTCATAAATA +TCGAATTACAGTGATATACACATGTCTTGCCTCCCTGCAAAGAAGAGACTAACATTCGAATTGTTTGGGT +TCGAACGCTGGCCTCAGGTTGATAGAAATATCGCCTGGGGCTTTTGTCCATCTGGAACCTCGCGAATGCT +TAACGCCAGACAGCCTCAAGCACCCGACGCCATTCTATACCTGATAATTCTTCCCGCGGCGTTCACGTTT +AAAATCAGGAATGCTGCTCGCAAAATAAAAACGCCCCCATCATTTCTGACAGAGGCGTTTAATTTGTCCG +GCAATATTTACCCTTCGTGTAACCCACATTCCCTTTTTAAGCCAAAGAAACGCGTTTCTTCTTCCGCCAT +GCCGGGTTCCCATTTACGGGTTGTATGGGTATCGCCCACCGATAAATATCCTTCATCCCATAATGGGTGA +TATTTCAGGCCATGTTTTTGCAGGTACTGATAAATAGTTCGGTTATCCCAGTCGATAATCGGCAGCACTT +TAAATACGCCACGCTGAATTGCCAGCACCGGTAAATTGGCACGACTGCCGGATTGTTCACGGCGCAGGCC +AGCAAACCAGGTTTGCGCATTCAGTTCTTTCAGAGCCCGGTTCATCGGTTCGACTTTGTTGATGTCATTG +TACTTTTCAATGCCTTCAACGCCCTGCTCCCACAGTTTTCCGTAGCGTGCTTCCTGCCAGGCTGCGCTTT +CGGTAGCACGGTACACTTTCAGGTTGAGCTTGAGTTTGTCCGTTAACTCGTCAATAAAGCGGTAGGTTTC +CGGGAACAAGTAACCCGTATCGGTGAGGATCACCGGAATATCCGGGCGAATTTGATTCACCAGATGCAGG +CTCACCGCCGCCTGAATGCCAAAGCTGGAAGAAAGTACATATTCACCGGGCAGATTATCCAGCGCCCAGG +CTACGCGGCCTTCAGCGTCCAGTTTTTCCAGTTCGGCGTTAGTTTCCGCCAGCGCCAGAATGCGATCTAC +CTTCGGCAGTTCGTTCAGGGCGTTTAGATCGAGTTTGGACATAGATTCCTCACTGTTTGCCTTGCCTGAT +GCGACGCTCACGCGTTCTTATCAGGCCTACAAGACCGGGCTGATGGTTAATCCCACAAATCACGCGCCGG +ATCGAGCACCGGGCGAATGATGCCCGCACGCACCGTAAAGTCGCCGAAGCCTTCACCCGCTTCGCGCTCT +TTCGCCCAGCGCCCTATCAGTTCATCAAGCGACGCCAGGATTTCCGGCTCGGTGATGTTTTCTTTATACA +TCCGTGGGATACGTGTCCCAATGCGGTTGCCGCCAAGATGCAGGTTGTAGCGACCCGGCGCTTTACCCAC +CAGGCCCACTTCCGCCAGCATCGCGCGACCACAACCGTTCGGGCAGCCTGTTACACGCATCACGATATGC +TCATCGCTGACACCATGTTTCGCCATTAAATTATCGATGTTGTCGATAAAAGACGGCAGGAAACGCTCTG +CTTCCGCCATCGCCAGCGGGCAAGTCGGGAATGACACGCAAGCCATCGAGTTTTCACGCTGCGGCGTGAC +GGCATTCATTAACCCGCTCTCTTTGGCGATCTTCTCGATCTTCGCTTTCTCGCTTTCCGGTACACCGGCG +ATGATCAGATTCTGGTTCGCCGTAATGCGGAAATCGCCTTTGTGGATCTTCGCGATCTCCAGCAGGCCGG +TTTTCAGCGGACGCGCCGGATAATCAAGGATGCGACCATTTTCGATAAACAGCGTCAGGTGCCAGTTATC +ATCAATGCCCTTAACCCAGCCAATACGATCGCCTCGTCCGGTGAACTCATATGGACGGATCGGTTCAAAT +TTGATCCCCGCGCGACGCTCCACTTCCGCTTTAAACGTCTCAACCCCCACGCGCTCCAGCGTGTATTTGG +TTTTGGCATTTTTACGATCGGTTCGGTTACCCCAGTCACGCTGAGTTGTCACGACGGCTTCGGCCACCGC +CAGCGTATGCTCCAGCGGCAGATAGCCAAACTCACTCGCGGTGCGGGCGTAGGTTTTCTTGTTGCCGTGT +TCGATGGAAAGCCCACCGCCCACCAACAGGTTAAAGCCCACCAGCTTGCCGTTTTCGGCGATCGCCACGA +AGTTCATGTCGTTGGCGTGCAGATCGATATCGTTCTGTGGCGGGATCACTACCGTGGTTTTGAATTTACG +CGGCAGGTAGGTCTGGCCGAGGATCGGTTCTTCATCAGTAGTGGCGACTTTTTCCTGGTCGAGCCAGATC +TCCGCATACGCGCGGGTACGAGGCAACAGATGCTCAGAAATCTTCTTCGCCCACTCGTACGCTTCCGCGT +GCAGCTGCGACTCGTAAGGGTTCGAGGTGCAGAGTACGTTACGGTTCATGTCGTTAGCTGTCGCCAGCGC +ATCAAGACCGACCGAGTGCAGCATCTGGTGCACCGGTTTGACGTTCTTTTTCAGAATGCCGTGGAACTGA +AACGTCTGGCGGTTGGTCAGGCGAATGCTGCCATAGATGGTGTTTTCACCGGCAAATTTGTCGATCGCCT +GCCACTGTTTAGTGGTAATCACCCCACCCGGCAGACGACAGCGAAGCAGCATCGCGTGGCGCGGCTCCAG +CTTCTGTTCAGCACGTTCGGCGCGGATGTCGCGGTCATCCTGCTGATACATGCCGTGGAAGCGAATCAGC +AGGAAGTTGTCGCCCTTAAAGCCGCCGGTCAGACCGTCGTTTAAATCTTCCGCAATGGTGCCGCGCAGGT +AGTTGCTTTCATGCTTCATGCGCTCGGCGTCTGTCAGTTTTCCTTCGACCACTAAAGGCCCTGGATGTTT +TTCGCTCATTAGTAGACATCTCGCTGATAACGGCGCTCTACGCGCAGCTCACTTAAAAATTCATCCGCCG +CTTCGGTGTCCATGCCACCAAATTCGGCAATCACTTCCAGAAGTGCCTGCTCAACGTCTTTCGCCATGCG +ATTAGCGTCGCCGCAGACATAAATGTGGGCACCATCATTGATCCAGCGCCACAGCTCCGCGCCCTGTTCG +CGCAGTTTGTCTTGTACGTAAACTTTTTCTTTTTGATCGCGCGACCAGGCAAGATCGATACGTGTCAGCA +CGCCATCTTTGACGTAGCGCTGCCACTCCACCTGGTACAGGAAGTCTTCCGTAAAGTGCGGATTACCAAA +GAACAGCCAGTTTTTACCTGGCGCTTCGTCGGCGGCGCGTTGCTGCATAAAGGCGCGGAACGGCGCAATA +CCGGTGCCTGGGCCAATCATAATCACCGGGGTTTCTGGATTGGCTGGCAGGCGGAAGTTATCGTTATGTT +CGATAAATACGCGGACTTCGCCCTCTTCTTCCACGCGGTCAGCGAGGAAGCTGGAGGCACCACCGGCACG +GGCGCGGCCTTCCACGTCGTAACGCACCACACCAACGGTGACGTGTACTTCGTTCTCGACTTCCGCCTGC +GAGGAGGCGATGGAATACAGACGCGGCGTCAGCGGGCGCAGCAGATTAATTAGCGCTTCGGCATCAAGCT +GTGCCGGGGAGAAACGCACCATGTCAACAATCGGCGTCGTCGCGGCGTAATGCTGTAACTTCGCTTTATC +GCCCACCAGCGGCAGCAGTGTTTCACTGCGGGTAAGCGTGGCGTAATTCTCAACAATGTTGGCGGTGTTG +ACGGTCAGTTCGAAGTGCCACTGTAGCGCTTCGTTCAGAGGCAACGTTTTGCCCTCGACGGTGACAGGTT +CATCGCCTTTCAGCCACAGCAGTTCGACAAGTTCTTTCACCAGTGCCGGATCGTTCTGATACCAGACGCC +CAGCGCGTCACCCGGCTGGTAACGCATGCCCGAGTCACCTAAGTCAATTTCGATATGGCGAACGTCTTTT +TCAGAGTTACGCCCGGTAATTTTCTGGTTAACAGAGAGGCTAGCCACCAGCGGCGCGTCTTTGCTGTACG +GGCTGGTGTGGATTTCATTTACCGCGCCAGTAGCGACGGATTGCGAAGGTGCCGCGACAGGCGCACGCGA +TTTAAGCGCATCAACCACGCGGGCGCGCCACTCGCTGGCAGCAGCCTGGTATTCAACATCGGCATCGACA +CGGTCGAGCAGGCGTTCACCACCCAGTTCCGCCAGCTTGCTGTCGAAATCTTTCCCGGACTGGCAGAAAA +ATTCATAAGAGCTATCGCCGAGGCTAAACACGGCAAACGCGGTGTTTTCCAGCTTTGGCGCTTTTTTGGA +GAACAGGAACTTATGCAGCGCGACGGCTTCTTCCGGCGGTTCCCCTTCCCCTTGCGTTGACGTCACTACG +ATGAGCAGTTTTTCGCTGGCGATTTGTTTGAATTTATAGTCGCCCGCGTTCACCAGCTTAACGTTCAGTT +TTGCTGCTAATAAATCATCACGTAATGCTTCAGCAACCCGGCGCGCATTGCCGGTTTGCGAGGCGGAGAT +AATAGTTATACCCGGCATTTCTGCGGCTGGCGCTGGCGTCGCTGCAAGCGCAGCAGGCTGCTGATTGAGT +ACGCCCCAGAAATAGCCAGAAACCCAGGCAAGCTGGGTGGGAGTTAAATCGGTCGTGGCCGCCTGAAGGC +GTGCCAGTTGCTCCGGGTTCAACGGAAGCAACGCGGAAGGTGGGACCTGTGTCGTCATGCGTCGTTATGT +TCCAGTAAGCAAAGCTGTTTCTGCGCCCTGTCAGCGCCCATAAAACAGAAGAGAAGGTAAGGTTAACGGG +GCAAACGGTGTGGATTAAAGACGGGATAGCGATAACTAATAACCAAATCGACTAACCTGTTTTAGCAATA +GTCTTTAACAACAAAATAGATTAACCAACCTAATGAAAAACAAATGAATTTAGCCAATCATTAAGATAAA +TCAGCGATTTTGCGCAACAAAGTCGTTTTAGATAATGCGAAAAAACAGCCTTTCCGGTACTCTACGGCGG +TTTTATCGTCCTGTAGAGAAATTATGATGTCCACCACGTTATTTAAAGATTTCACCTTCGAAGCCGCTCA +CCGCTTACCACACGTCCCGGAAGGGCATAAATGTGGTCGCCTGCACGGGCATTCCTTTATGGTGCGACTG +GAAATTACCGGGGAAGTCGATCCGCATACGGGCTGGATTATCGATTTCGCTGAACTAAAAGCGGCGTTTA +AACCAACCTACGAGCGCCTCGATCACCATTATCTCAATGATATTCCAGGTCTGGAAAACCCAACCAGCGA +GGTTTTAGCAAAATGGATTTGGGATCAGGTTAAACCCGTTGTGCCGCTGTTAAGTGCGGTGATGGTAAAA +GAAACCTGCACCGCAGGTTGTATCTATCGCGGCGAATGATAAGAGTGTGTCGGCGGTCAATTTCCCTTAA +GTAACGCTATGTTAGGGTGTTGTGTTCTGGATATCTGGGGCATGACATGGAAGACGACTGCGACATTATT +ATTATTGGTGCCGGTATTGCAGGCACCGCTTGCGCGTTACGCTGCGCGCGAGCGGGTTTATCCGTTTTGT +TACTGGAACGCGCTGAAATCCCCGGCAGCAAAAATCTTTCCGGCGGGCGGTTATATACCCATGCACTCGC +GGAACTCCTCCCGCAATTTCATCTGACCGCGCCTCTTGAACGACGCATCACTCACGAAAGCCTTTCCCTG +TTAACGCCCGATGGCGTAACGACGTTTTCCAGCTTACAGCCCGGCGGTGAATCCTGGAGTGTATTACGTG +CACGATTCGATCCGTGGCTGGTTGCCGAAGCCGAAAAAGAAGGTGTCGAATGCATCCCCGGAGCGACGGT +GGATGCACTGTATGAAGAAAACGGCAGAGTCTGTGGCGTTATTTGTGGTGACGATATTCTCCGCGCCCGT +TATGTGGTGCTGGCAGAAGGTGCCAACAGCGTCCTGGCTGAACGTCACGGGTTAGTGACTCGTCCTGCTG +GCGAAGCGATGGCGTTGGGGATCAAAGAAGTGCTGTCGCTGGAAACATCCGCTATTGAAGAACGTTTTCA +TCTGGAGAATAACGAAGGCGCAGCGTTGCTGTTCAGCGGCAGGATCTGTGATGACTTACCCGGCGGCGCA +TTTCTTTATACTAATCAACAAACGCTCTCGTTAGGGATTGTTTGCCCGCTCTCTTCCCTTACGCAAAGTC +GTGTTCCGGCAAGCGAGCTGCTGACTCGCTTTAAAGCGCATCCGGCAGTGCGCCCGCTTATCAAAAACAC +GGAATCACTGGAGTATGGTGCGCATCTGGTGCCAGAAGGTGGCTTGCACAGTATGCCGGTGCAATACGCC +GGTAACGGCTGGCTGCTGGTGGGCGATGCGTTGCGCAGTTGCGTCAATACCGGAATTTCCGTGCGCGGCA +TGGATATGGCGCTGACTGGCGCGCAGGCGGCGGCACAAACGCTGATAAGCGCCTGCCAGCACCGCGAGCC +GCAAAATCTGTTTCCGCTTTATCATCACAACGTAGAGCGCAGCCTGCTGTGGGATGTTCTACAGCGTTAT +CAGCATGTTCCGGCGCTTTTGCAACGCCCGGGATGGTACCGTACGTGGCCTGCGTTAATGCAGGATATTT +CCCGCGATTTATGGGATCAGGGTGATAAACCTGTTCCACCGCTGCGCCAGTTATTCTGGCATCATTTACG +TCGTCACGGCCTGTGGCATCTGGCGGGCGATGTTATCAGGAGTCTGCGATGTCTGTAGCCCGTAATCTCT +GGCGCGTTGCTGATGCGCCGCACATTGTTCCGGCTGACTCCGTTGAGCGCCAGACGGCAGAACGGTTGAT +TAACGCCTGTCCGGCAGGTCTTTTTTCGCTCACACCGGAAGGTAACTTACGTATTGACTATCGCAGTTGC +CTGGAGTGTGGCACCTGCCGTTTGCTGTGCGACGAATCAACACTACAACAGTGGCGCTATCCGCCTTCCG +GATTCGGCATCACCTACCGCTTTGGATAAATAATAAGGATAATTTATGCCCCTCTTACACCTGCTCCGCC +AGAATCCGGTGATTGCTGCCGTTAAAGATAATGCCAGCCTGCAACTGGCAATCGATTCTGAATGCCAATT +TATTTCCGTGTTGTACGGCAATATCTGCACCATCAGTAATATCGTTAAAAAGATTAAGAACGCCGGGAAA +TATGCTTTTATTCATGTTGATTTGCTGGAAGGCGCGTCAAATAAAGAAGTCGTTATTCAGTTTTTGAAAC +TGGTGACCGAGGCGGACGGCATTATCAGTACCAAAGCCTCAATGTTGAAAGCGGCAAGAGCGGAAGGTTT +TTTCTGTATTCATCGCCTGTTTATTGTTGATTCAATTTCGTTTCACAACATTGATAAGCAAGTTGCGCAA +TCGAATCCGGATTGTATTGAGATCCTGCCAGGCTGTATGCCCAAAGTGCTGGGCTGGGTGACAGAGAAAA +TCCGCCAACCGCTGATTGCCGGTGGGCTGGTGTGCGATGAAGAAGATGCGCGTAATGCGATTAACGCGGG +TGTCGTGGCGCTTTCCACCACGAATACCGGGGTCTGGACGTTAGCGAAAAAATTACTTTGACGGGATAAT +CGTAACCAATTGAATTTGGTTTGATTTGTAGGCCGCACGCCACATCCGACATTCAGCGCCTGATGCGACG +CTTGACGCGTCTTATCAGGCCTACAAGTCCCCAGGCCAGAACCGTAGGCAGGATCATCCGGCAACACGTT +ATTGGCAATCTGCGTGAATGTTTGTCACCAGTGCCTCCAGCACCACTTTCCAGTCATCAACCACGCCAAC +ATCTGCCTGTGAAAATACCGCAGCGCTGGCGTCATGATTAATCGCCACCACAAACTTGCTATTGCGTACG +CCCGCCATTAACGCTGCTGCGCCAGAAGCGCCAACAACAATACACACCTCAGGTGCCAGCAGATGTCCGG +AAATACCAATCACTTTTTCAGCATCAACGCCACCGTTCATCACTCGCGCCCGACTGTAGCCCACTTCGGC +TCCCAGCTTTTCTGCCAGCATAGCGATTTCCTGGTTATCTGCCTCTCCGCCCTGCCCCACCACCAGCACC +CGTCTGGCCTCAGCTAATGGGTCGCGGGTAACATTTTTCAGATCCTCTGTGCTAACCAGCCAGTCCGGAA +GCGCACCCGGGACAATGTTCAGTTGTTGCATTCCAGAGGGCAACGTGGCGTTTTTCGCTGCTCCCGCCTG +ACGCGCCAGGGAAAGGCATAGCGGGCGTTTTTCTGTTTGCAGCGTCGCCGTTAGCGCATTTCCCCAGTGG +GATTTGCGCACGCTTACGGTTGGAATATCTAACGAAGTCACCTGGCAGATGCTTGCACCATGTAAACGCC +AGGCCAGCCGGGTCGACAGTTCATCGCCAAACGTTCCCGGCGGAAAGAGAACAACGTCCGCAGGCGTTCG +CTGCCACTGTTCCACCAACGCATCCAGCACCTGTTCCGCCACTACAGGCTGAGGTTCAATCTGCCAGTGC +GCCAGGGTACAACCGCTGAAATCCTGCGCCGCCAGCCAGCTTGCTATTGCGGCATTCTCCTGATTTATTG +TCACAATTGCGATATTCATGGCTGCATCCTTTGGCGTAAATAGTCCTGCCATAGCTTTTGAGCTTTTTCT +GCTACCGTTTGCCCATCAATCAGCGTCGCTCCGCGTCGTTGCTCTGCTCTTGCCAGTTGCAGACACTGCA +TCGCTGGCATTTCGGCAGCAACAGTTTTACGGATAATTTCTGCTTTCCCCGCAGCCATTCGCTGGCGCAT +TCCCGGTACTGGCAAGGCCACTTCACCGCACTGACGCACGGCAATCACCGCAGGCAAGCGAACCCGGCAA +CAACGCAACCCATGTTCAGTACGCTGTTCGAGGGTGATAAACAGCGCGTCGAGAGTGAAACGCTCCACCT +GGGTGAAGCAGGGCCAGCCCAGCATTTCCGCCAGCAAAAATGGCGTTTGCCCATTCTGCCCTTCGCTGCT +TTGGCAGCCGGTAATTATCAGATCCAGCGGATTCTGATGCTGCCATTCGGCAATATGGCGAGCGACAAAT +TCCGGCGCAAAGCGCAGATCTGCCGCCGTCTCCAGCAATACAGCTTCCTCAAACCCAAGAGCCATGAGAT +AGCGCAGCCAGTGCAATGCCCGTTCATCCCCCATGCTCAACGCGGTTAAAGACATCGGCGTACCGTTTTT +TCTCTGCGCCAACAGCAGCGCGGCAGCGGCCTGTTCATCAGCACCGAGTAAACTTCGCAGTAGCGAAATA +TCCGGTCCGCTTTTACCCTGAGCCGCCGCCTGCCACTCTTTTTCCGCCAGCATTCCGGCATCCGGTTCGG +CTTTAAACGCTAACAGAATGTTCATTCGCACCTCCTACATTTCCCGCCGCCACCAGCGGGAGGGCTTTAG +TTTCTGGTGCCCATAGCCAGGTCACAACAAAACCAACCAACAACACTGTCGCCAGGAGCAATAAGGTGAC +TTGCATTCCCCACTGCGCCAGCACCCACGGCAGCAGGCCAGTACTTACCGCCGCGCCAAGTCGACTCATG +GCAGTGGCAAAACCGACGCCCAGCGAGCGAATGTCAGTAGGAAAACTTTCCGCAGGCAAAATGCCCACCA +GATTACTGACTGCCGAAATGGTGGTGCTGAAGAGAACAAAAAGCAGCAGCGTTAATGAACTGCCGGAAGG +CAAACAGGCCATGACTACCAGCGTTGCCGCCAGCAGCAAAAAACTTCCCAGCAAAAATTTGCGATGTGCC +AGCAGGTGCGTCAGAACTAATCCCAGCAGCGCGCCCACAATTAACAACGCATTAAGCATCAGGCTGGCAG +TCAGCGCATCTTCCAGACCAATAGTCTGGGCGATAGTTGGCAGCCAGGTATAAATCACAAACCATGGGAT +TACGAGGCAGACAAAGAAGACGCTGTTAAACGCCGTGCGCCGCCAGTAACGCGAAGAGAACAAGGTTTTG +ATGTGTTTATGGGTCGCCGTTACCACTTCATCGCCCAGTAAAACATGGGGACCAAAATAGCGATGCACGA +TAGCGTGAGCTTCTGCAAAACGCCCCTGGCGCAGTAGCCAGCGTGGTGATTCTGGCGTTCCCCAGCGTAA +TAACGTAATCAACAACGCGGGCAGAGCTGCCGATGCCAGTAGCCAGCGCCAGGCCTCCGGGTTTTCGGAA +ATAAAGTGATGTCCGGCAATACTTGCCAGCACATAGCCTACGGTCCACACCACGCTGAATGCGCCCAGCA +AAATACCGCGATGGCGGCGCGGGGAAAATTCAGCCAGCAAGGTGTGACCTACTGAATAATCGCCTCCCAG +ACCAATGCCAATCAAAATGCGCAGTCCAATAAGATGCTCTGGCGTGGTGGCAAAAAATTGTAAAAACGAA +GCAAGCGTAATCAGCAAAAAGCTGAAGGTGAAGATTTTTTGCCGACCAATATGGTCGGAGATCCACCCAA +GAACCAGGCTGCCAAGGAACAAACCAAGGAGCGCCGAGCCGCCGATCATTCCCGCCATAAACGGCGTCAG +TTGCATGGCGGGCGTAAGCTGAATAATGGCGTAACCAATGACGCCGAGAACATAACCGTCGGTCAGGTGT +GCGCCGAAAGTGAGCGCAGCAATGCGGCAGTGAAAACGGTTAAGCGGTAAATCATCCATTCGCACCGGTG +AAGTGTTCATCTTTACCCCTTCATTGTCCGGTAATAAGAACGGCTTCTCGCCTGAGAAGCCGAAAAGGCA +ACGCCCCGTCATCGCGGAACGCTGCCTGACACATTATTTTTCAATCGGATAGATAGTACCCGTATTCATA +ATGCCATTAGGATCGAACTGCTTTTTCAGCCCTTCCAGCAACGCCCACGCGCTGCCGTGTTCCAGTTTGC +TCCAGTGAACGCGATGTTTACCGATACCGTGGTGGTGCACCATCGAACCGCCGAGGCGAATGGTTTCTTC +ACAGATGATCTTGTTGAGCGGATTGTGGTACTTGTCGATTTCCTCTTCCGGCTTACAGTCAACGACGTTG +TAATCGTAGACGAAGTACATGTTGGTGCCGTTCTGATAGCTATGAGAGGAATGACCGCCCAGCATGGTGA +TGTCGTCGGCGTGCGGGAACTCAGTACGAATACGGTTAATAACGCTTTCGTAGATTTCGTGGATGCAGCT +CCAGCAGCCGGATACTTCGGTGGTAAAGCCCATGTTGCCGGTTTTGAGGATCTGCACACGTTCGGCAGCC +ACTTTATCCGGTCCCCAGTTCAGGTTGTTAAACCAGGTTTCGATCAGCTTGCTGTCCACGCGCTGGCATT +GCGGGTAGCGGGCAACGATTTCCGCAATCCCTTCGCCCGTCACCTTCGCAATGCGAGGGTTACCTTCAGC +CATAAAGATCAGCACGCATTTTCCGTCGGCAAAATGGGTGAAGTGTTGGGTGCCATCTTCAGCGTCATAC +AAACGAGCGATTGACGGACGATACCCTTCCACCATGATTTCACGCAGGATGTTGAAGCCGGTTTTCATGT +CTTCCAGGATATAGCCGTAGAAGAGGTTGTTTTCCGGGGTGAATTTAAAGATTTTCACTGTTACTTCAGT +GATATAGCACAATGCACCTTCGTTGCCGATGATGATGTGACGAATGTCCGGGCCAGCCGCGCGGCGTGGC +ACGTTTTTAATGCGTGTGACGGTGCCATCAGCCAATACTGCTTCCAGACCAACGACCATATCTTCGATTG +CGCCGTAGAGTGTGGAGAACTGCCCGATACTTCGGGTTGCTACCAGGCCGCCCATCTGCGCCAGCGGCTT +TGACTGCGGAGAATGCCCCGTGGTGTAACCTTTTTCACGCAACGCGTTTTCCAGCACTTCCAGCGGAACA +CCACATTGCGCCGTCGCCTGCATATTCTCAATATCAATATTAATGATTTGATTCATGGCGGAGCCGTCGA +GCACCACCGAGTTTTCTACAACAGTTTCCAGCCCACCTTCGGTGGCGGAAGCACCGGTACGCGGCACACC +GTTAATTTTGTGCGCATTCATAAAATTCAGCACACGGGATACTTGCTCTGTGGAACCGAGTTTTACGACC +GCTGCCGGAATCGGCAAAGTATAAATGCCATGAATATCCGGAAATTTACGAAAACGGTCAATACTGTTTT +TCTTTAATACTGTTTCATCGGTAATTACGCGATCTGCACCAACAATTTCCTTTAGCTGGTCGACAATCGC +TGCGCGAGATAAAGACATAGTAATTCCTTCCTGATAATAAAAATGGAATAATCATTAATAAGAGAAAACA +GAAACCACCGTTATGGGTTAGCGCACTAAATAACCGCCATCAACCACTAATAAATGCCCGTTGACATAAT +TCGATGCCGGACTTGCGAGGAATACGGCTGCGCCCATTAAATCCTGAGTATCGCCCCAACGGTTTGCCGG +AATATGATCAAGAACGCGCTGATTGGTTTCTGGATTACTGCGTGTCGCCAGCGTAATATCTGTTGCATAA +TAGCCAGGGGCGATACCATTTACCTGAATATTATATTGACCTAGTTCATCACAATAAGCTTTGGTGAACC +CGGCAAGAGCATGTTTAGTGGCAGAATATGCAGGTGACCATTGTCCACCTAAGTAAGAGAACAATGAACA +GATATTAATAATTTTGCCGCTTTTCTGCGGGATCATAATTTTTGCAGCTTCATAGCTTAACTCGAATGCG +GCGGTCAGGTTCACATCAATCATCGGATCCCAGTCGGCACGACCGAAGTCCAGCACCTTATTCAGCTTAC +AAATACCGGCATTGTTAACCAGAATATCAACTGTACCGAAACGCTCACAGCAAGCAGCGATAATCTTCTG +CGGCGCGCCTTCTGCGGTGATACCCACCTGCATGAAGTCCACCTCAACACCCTGTTTTTCAATCATTTCC +TTTGTTTCGCCGTTATCTTTGACGAAACTAGGAATAAAGATATTTGCGCCAGCTTTGGCCAACGCCATGG +CAAATGCCTGGCCTAAACCGCTATTCCCACCGGTAACAATTGCGGTTTTACCTTTCAGGGAGAAAAAATC +CATTGAGAACGCATTGAGAGATTCGATTGACATAGTTAGCTCCAATTTCCGTAAGGCAAAAAAAAAGAAA +GGTAACTTCCCCCGCGAGAGGGAAGTTACCTTTCTCATTATCTCTGGTAACTGGAGATAATTTTTAGCAT +AAGGGCATAACTGCTAATGTGATCGTAATCACAGTGTGATATTCGTATTGTCAAATAATTTTAAAAAGCA +GAAGCGTGATTACTCTCACACAACACCTCTGCTTTCCATGTTATTTATTATTTCAATTACTAGAGACCTG +AGAAAAGTAATCCACCTGAAAGGGCGGCTTACTTTTCTCTTTTTTTTGTCTATTACAAATGGGAATACGA +TATGCAACACAACTCATATCGCCGTTGGATAACCCTCGCGATAATTAGTTTTAGCGGCGGCGTTAGTTTC +GACCTGGCTTATTTACGTTATATTTATCAAATTCCCATGGCGAAATTTATGGGATTCAGCAATACCGAGA +TAGGTTTAATAATGAGTACCTTTGGTATTGCGGCCATTATTCTTTATGCCCCCAGCGGCGTTATTGCCGA +TAAATTTTCACACCGCAAAATGATTACTTCCGCGATGATCATTACCGGATTACTGGGTCTGTTAATGGCA +ACGTATCCACCGCTGTGGGTAATGCTCTGTATTCAGATCGCCTTTGCGATAACGACGATTTTAATGCTGT +GGTCGGTGTCGATTAAAGCTGCATCGTTGCTTGGCGATCATAGCGAGCAAGGGAAAATTATGGGCTGGAT +GGAAGGGCTGCGCGGCGTCGGTGTAATGTCGCTGGCGGTGTTTACCATGTGGGTCTTTTCTCGCTTTGCA +CCGGATGACAGCACCAGCCTGAAAACGGTCATTATCATCTATAGTGTGGTTTACATCTTGTTGGGGATTC +TGTGCTGGTTTTTTGTTAGCGATAACAACAACCTGCGCAGTGCCAATAACGAAGAAAAACAGTCATTCCA +GCTTAGCGACATCCTGGCCGTTTTGCGTATCAGCACCACCTGGTATTGCAGCATGGTGATTTTTGGCGTC +TTCACCATCTACGCCATTCTGAGTTACTCCACCAACTATCTGACCGAAATGTATGGCATGTCGCTGGTGG +CGGCGAGCTACATGGGGATTGTGATCAACAAAATATTCCGCGCGCTGTGCGGCCCACTTGGCGGCATAAT +CACCACCTACAGCAAAGTGAAATCCCCTACCCGCGTGATCCAAATCCTTTCCGTACTCGGCCTGCTGACG +TTAACTGCCCTGCTCGTCACGAACTCTAACCCGCAATCGGTCGCGATGGGGATTGGCCTGATTTTACTGC +TGGGATTCACCTGTTACGCCTCACGCGGGCTGTACTGGGCCTGCCCTGGCGAAGCGAGAACACCGTCTTA +CATTATGGGCACCACGGTAGGTATTTGTTCGGTGATTGGATTCCTGCCGGATGTCTTCGTTTACCCAATT +ATCGGCCACTGGCAAGACACCCTGCCCGCTGCAGAAGCCTACCGCAATATGTGGCTGATGGGCATGGCGG +CGCTTGGCATGGTGATTGTCTTTACCTTTTTGCTGTTCCAAAAAATTCGTACTGCTGATAGCGCCCCCGC +AATGGCTAGCAGCAAGTAAGCCAGGAAAATTACAGGAGAAAAATCATGTCGAAAAAATACATCATAGGGA +TTGATGGCGGAAGTCAGAGCACAAAAGTGGTGATGTACGATCTGGAAGGTAACGTGGTTTGCGAAGGCAA +AGGCTTATTACAGCCGATGCACACGCCAGATGCCGATACTGCAGAACATCCTGACGACGATTTATGGGCA +TCATTATGTTTTGCCGGTCACGATTTGATGAGTCAGTTTGCCGGGAATAAAGAAGATATTGTCGGTATTG +GTCTGGGATCCATCCGTTGCTGCCGTGCGTTATTGAAAGCCGATGGCACGCCTGCTGCGCCGTTGATTAG +CTGGCAGGATGCACGCGTTACACGCCCTTACGAACACACTAACCCTGACGTGGCATATGTCACCTCTTTT +TCGGGTTATCTGACGCATCGCTTAACCGGCGAGTTTAAAGACAATATCGCCAACTATTTTGGTCAGTGGC +CGGTGGATTATAAGAGCTGGGCATGGAGCGAAGATGCTGCGGTAATGGATAAGTTTAATATCCCCCGTCA +TATGCTGTTTGATGTGCAAATGCCTGGCACCGTCCTCGGACATATCACACCACAAGCCGCACTGGCGACA +CATTTCCCGGCAGGACTGCCGGTTGTTTGTACCACCAGTGATAAACCGGTAGAAGCTCTGGGGGCCGGAT +TACTGGATGATGAAACGGCGGTAATTTCTCTTGGCACTTACATCGCATTGATGATGAACGGCAAAGCACT +GCCGAAAGATCCAGTAGCGTACTGGCCGATTATGTCTTCTATTCCGCAAACATTGCTGTATGAAGGTTAC +GGTATTCGCAAAGGCATGTGGACGGTGAGCTGGCTGCGCGACATGCTAGGCGAGTCGTTAATTCAGGATG +CCAGGGCGCAGGATCTTTCACCGGAAGATTTACTCAACAAAAAAGCTTCTTGTGTGCCGCCAGGCTGTAA +TGGTCTGATGACGGTGCTGGACTGGCTGACCAATCCGTGGGAACCGTACAAACGCGGGATTATGATCGGC +TTTGATTCCAGCATGGATTACGCATGGATATATCGTTCGATACTGGAAAGCGTGGCGCTGACGCTGAAGA +ACAATTACGACAATATGTGTAATGAAATGAATCACTTTGCGAAGCATGTGATCATTACTGGCGGCGGTTC +GAACAGCGATCTGTTTATGCAGATTTTTGCCGACGTGTTCAACCTTCCGGCACGACGTAACGCCATTAAC +GGTTGTGCAAGCCTGGGGGCAGCGATTAATACAGCGGTAGGTCTGGGGCTATACCCGGATTACGCAACGG +CTGTCGATAACATGGTTCGCGTGAAAGATATCTTTATACCGATTGAGAGCAATGCCAAACGCTACGACGC +GATGAATAAAGGCATTTTCAAAGACCTAACCAAACATACTGATGTGATCCTGAAAAAATCGTATGAAGTG +ATGCATGGGGAATTGGGGAATGTGGATTCGATCCAGAGCTGGTCGAATGCGTAAGTGAGGAAGGCCGGGC +GGGAAACTGCCCGGCCTGAACATACCTGAATGGTTATCCCCGCTGACGCGGGGAACATAAGTTCGACAAC +TTAAAAAATGATAACAAGTCCGGTTTATCCCCGCTGATGCAGGGAACATAATAAAAACTTTAACTAGTTC +GGTTTATCCCTGTTTTTACAAGGAATATTAACTACACTCGATGTCTTTAGAATAAAAGACAATACGAATC +GCACTTTATCAATTTTCACTTAAAGTATGAACTGGATATCTTTATTCATAAGAACTATTCATCAACAGCG +TATAGAGGCGGTTATGTAAAACCACTCATTAGCCTCAAAACAAAGACAAACTTCCAGATTTATTACTTAA +CCAATGAATAACAAGCTTAAAAAATATACTGTTATTCTAAAGAAAAAATTAACAGGCATTAATTCAATAT +TAAAAAAATAATAGATTAAAATTTCTTAACGATTTAAGAATCATACAAATAACACTTTGATTAAATTTAA +TTTTTTGTATCGATAATTGTGAACCTCTCTGGCATGGAGAACTATTTTGAACATGAGGTGTTACGTGGAT +ATGTTGCTTATTACAAGTACTGCTAATATAAAAACTTGAGAAAGAGATAACGGGTTATATGGTGGTTTAT +CCCCGCTGGCGCGGGGAACTCGACAGAACGGCCTCAGTAGTCTCGTCAGGCTCCGGTTTATCCCCGCTGG +CGCGGGGAACACCTGTTTTCGCAAATCTATGGACTATTGCTATTCGGTTTATCCCCGCTGGCGCGGGGAA +CACGGGCGCACGGAATACAAAGCCGTGTATCTGCTCGGTTTATCCCCGCTGGCGCGGGGAACACTGGCTC +TGCAACAGCAGCACCCATGACCACGTCGGTTTATCCCCGCTGGCGCGGGGAACACGAAATGCTGGTGAGC +GTTAATGCCGCAAACACAGGTTTATCCCCGCTGGCGCGGGGAACACATTACGCCTTTTTGCGATTGCCCG +GTTTTTGCCGGTTTATCCCCGCTGGCGCGGGGAACACTCTAAACATAACCTATTATTAATTAATGATTTT +TTAAGCCAGTCACAATCTACCAACTTTATAGTATCACACAAACAACACATCCATTATGTTAAAGAGCACT +TAATCCATTGATTAAAAAGGTAAATATTTAAAATAACTCTATACAAACTAAAATCTACCAAACTTTACCG +CAATAATTTTCACTCCAGCGAAAAATTAATGCCACAGAATTTGTAGAGAATGCTAATGATTAGCCCTGGA +TGGGTAAAATGGAGGAGTTTTCAGAGGCGACAAACAATATAAATGAGTAGAAGTCTTTACAGGTTCCACC +CATTTATAACGCTTATAAATGTTTAATCAGGCAATATTTAGATATTTATGTGTTTGCATCGACAAACGCC +AATTACGCGCAATGCAGGTTTCAATGCACAAACGTGTGGCATCATCCTTTTGGCTAATCGGCTGCAGTGC +AATGACTCGCGGTTTATCATCGGTCAGCGTTGCCAGTAGTTCATCCAGTGCTTCAATATCGCGTACGCGC +CCCACTGGATGCTTGATTTCGTTGGCTCGCTCCAGTGCCTGTGACAACACTTCATAGCCGCCGCGCATGT +TCAGCTTTGGCGATACGGTAACCCAGGTATTCGGTGTGCAGCGTACCTCATGAGTACCACTGGTTTCGAT +CTGGCAGCTAAAACCGTTCTTTTCGAGCAGATCAGTCAGTGGCAGCAAATCATGAATGCAAGGCTCACCA +CCCGTAATCACCACATGCCGCGCGGTGTATCCCTGGCGACCAATGACAGCCAGCAAATCTTCACTGCTCG +CAGCCCCCCACTTATCACTCTCTTTGGTCTTCGCCAGAATGCTGAAAAGGGAGACTTCCCGATCCTCAAG +CTTTTCCCAGGTGTGTTTGGTGTCGCACCAGGCACAGCCAACCGGGCATCCCTGTAAACGAATAAAAATG +GCGGGAACGCCGGTAAAGTAACCCTCACCTTGCAGGGTCTGGAACATCTCGTTAATCGGGTACTGCATAG +CATTCTCTGTGAAGTGGATAATTGTTAATTATTGCAGATCCTGCCACAACAATCATGTCTTATTAACATT +CTGTTACAGGCAGGTTTAAAGAAAAATGCGAAACATATCGTTAATAATTAAAGGGAGTAACGTATTATGT +CAGAAGAAAATAAAGAAAATGGATTTAATCATGTCAAAACATTCACCAAAATTATATTTATTTTTTCTGT +ATTAGTTTTTAATGATAACGAATATAAAATTACCGATGCCGCCGTCAATTTATTTATCCAGATTTAATGA +GAAATTTATAATGCGCTATTTCATACTAATGTTCACTTTCGTATGTTCCTTTGTTGCAGCCCAACCAACT +ATTGTCCCACAATTACAGCAACAAGTTACGGATCTTACGAGTAGCTTAAACTCACAAGAAAAGAAAGAAC +TGACGCACAAGTTAGAATCTATTTTCAATAATACCCAAGTGCAAATTGCCGTATTAATTGTTCCCACAAC +CAAAGACGAGACAATTGAACAATATGCTACAAGAGTTTTTGACAATTGGCGTTTAGGAGATGCCAAACGT +AATGATGGGATACTGATCGTTGTTGCCTGGTCGGATCGCACTGTCCGCATCCAGGTAGGTTATGGGCTGG +AAGAAAAGGTAACCGATGCTCTGGCTGGAGATATCATCCGTAGCAACATGATACCCGCATTTAAACAACA +AAAATTAGCTAAGGGATTAGAGCTAGCTATAAACGCTTTGAATAACCAACTCACTTCACAACACCAATAT +CCGACTAATCCTTCAGAAAGTGAATCAGCGTCTTCCAGTGATCATTATTACTTTGCTATTTTTTGGGTAT +TTGCAGTGATGTTCTTCCCTTTCTGGTTTTTTCATCAAGGCAGTAATTTTTGTCGCGCATGTAAAAGTGG +AGTCTGTATTTCAGCAATCTATCTTTTAGATTTATTCCTGTTCTCCGATAAAATTTTTTCCATTGCTGTA +TTTTCCTTCTTTTTTACTTTCACCATATTTATGGTCTTTACCTGTTTATGTGTACTTCAGAAAAGAGCAT +CTGGTAGAAGTTATCATTCAGACAACAGCGGTTCCGCTGGAGGCTCAGATAGCGGCGGATTTAGCGGCGG +GGGCGGTTCTTCTGGAGGTGGCGGCGCATCCGGCCGCTGGTAACTCAACCATAAAAAATGCCAGCCCGGA +GGCTGGCATTTTTAAATCAGATAAAGTCAGTCTTATGCCTGGCCTTTGATCTCTTTACGACCGTTGTACG +GTGCTTTTTCGCCCAGAGCTTCTTCGATACGAATCAGCTGGTTGTATTTAGCAACACGGTCAGAACGGCT +CATAGAACCAGTTTTGATCTGGCCTGCAGCAGTACCAACAGCCAGGTCAGCGATGGTAGCGTCTTCAGTT +TCGCCAGAACGGTGAGAGATAACTGCAGTGTAGCCAGCATCTTTCGCCATCTTGATTGCAGCCAGAGTTT +CGGTCAGAGAACCGATCTGGTTGAATTTGATCAGGATGGAGTTAGCGATACCTTTTTCGATACCTTCTTT +CAGGATCTTGGTGTTGGTTACGAACAGGTCGTCACCAACCAGCTGGATTTTGTCGCCCAGAACTTTGGTC +TGGTATGCGAAACCGTCCCAGTCAGATTCGTCCAGACCGTCTTCGATAGAAACGATCGGGTACTGTTTGG +TCAGTTCTTCCAGGAAGTGAGTGAATTCTTCAGAGGTGAACGCTTTGTTGCCTTCGCCAGCCAGAACGTA +TTTACCATCTTTGTAGAATTCAGAAGCTGCGCAGTCCATCGCCAAAGTGATGTCTTTGCCCAGTTCATAA +CCAGCAGCTTTAACAGCTTCAGCGATAACAGCCAGAGCTTCAGCGTTGGAACCCAGGTTCGGCGCATAGC +CACCTTCGTCACCAACAGCAGTGTTCATGCCTTTCGCTTTCAGAACTTTTGCCAGGTGATGGAAAACTTC +AGAACCCATGCGGATGGCTTCTTTCACAGTTTTCGCGCCAACCGGCTGAATCATGAATTCCTGGATATCA +ACGTTGTTGTCAGCGTGCTCACCACCGTTGATGATGTTCATCATCGGAACCGGCATAGAGTATTTGCCCG +GAGTACCGTTCAGTTCAGCGATGTGCTCGTACAGCGGCATACCTTTAGCAGCTGCAGCAGCTTTGGCGTT +AGCCAGAGATACAGCCAGGATTGCGTTCGCGCCGAATTTGGATTTGTTTTCGGTGCCGTCCAGGTCGATC +ATGATCTTGTCAATGCCAGCCTGATCTTTAGCATCTTTGCCAATCAGCGCCTGAGCGATCGGGCCGTTTA +CCGCAGCAACAGCTTTGGTTACGCCTTTACCCAGGAAACGGGATTTGTCGCCATCGCGCAGTTCCAGAGC +TTCACGGGAACCAGTAGAAGCACCTGACGGAGCAGCTGCCATACCGACGAAACCACCCTCCAGATGTACT +TCGGCTTCAACAGTCGGGTTACCACGGGAGTCGATGATTTCACGACCGATGATTTTTACGATTTTGGACA +TTAGGTTTTCCTCAAGTCACTAGTTAAACTGAAACTCCAGACAAACAACGCGTACCCAGGGTACGCGTTG +CCGCTCTAACTTTTTTACTTACTTCGCCTGACGTTTCTGGAACTCGCTGGCGGCTTTCACAAAGCCTGCA +AACAGCGGGTGACCATCACGTGGAGTAGAAGTAAACTCCGGATGGAACTGGCAAGCCACGAACCACGGGT +GATTCGGAACTTCGATGATCTCGACCAACTGATCATCCCCGGAACGGCCCGCAACGCGCAGACCTGCATC +TTCAATCTGTTTCAACAGCATGTTGTTGACTTCGTAACGGTGACGATGACGCTCAACAATTGTCGGCGCA +TTGTACAGCTGGCGAACCAGGCTATCGTCAACCAACTGGCACTGCTGTGCGCCGAGACGCATGGTACCGC +CGAGATCGCTCTTCTCGCTACGAACTTCAACGTTGCCGTTTTCATCGCGCCACTCGGTAATCAGCGCCAC +AACCGGGTACTTACAGTCTGGCACAAATTCCGTAGAGTTGGCGTTCTCCATGTTGGCAACATGGCGAGCG +TAATCAATTAACGCCACCTGCATACCCAGGCAAATGCCCAGATAAGGAATATTGTTCTCACGCGCAAAAC +GCGCGGTCGTAATCATGCCTTCTACGCCACGATAGCCGAAACCGCCAGGTACGAGGATTGCGTCCAGACC +TTTAAGGATTTCAACGCCGCGCGTTTCAACATCTTGTGAATCGATCAGTTTGATGTTGACGCTGACACGA +TTCTTCAGCCCACCGTGTTTCAGTGCTTCGATCACTGATTTATAAGCATCCGGCAGTTCAATGTACTTGC +CGACCATACCGATGGTGACTTCACTTACCGGGTTCGCTTCTTCGAAGATAACCTGTTCCCATTCGGACAG +ATTCGCTTCCGGGCAGTTTAAGCTGAATCGTTTACAAATATAATCGTCCAGCCCCTGAGATTTCAACAGG +CCCGGAATTTTATAGATGGAATCGACGTCTTTCAGAGAAATAACCGCTTTTTCCGGAACATTACAGAACA +ATGCAATCTTCGCACGTTCGTTCGCCGGAACAGCGCGATCTGAACGACAAATCAGGATGTCAGGCTGGAT +ACCGATGGAGAGCAGCTCTTTTACAGAGTGCTGAGTCGGTTTGGTTTTGACTTCACCAGACGCTGCCATG +TACGGCACCAGCGTCAGGTGCATAAACAGAGTGTGCTCACGGCCAATTTCAACAGCCATCTGGCGAATCG +CTTCGAGGAACGGCAAGGATTCGATATCACCTACTGTACCGCCGATTTCTACCAGTACTACGTCATGACC +TTCGCCACCTTCCAGCACGCGCTCTTTGATTGCGTTAGTGATGTGCGGAATAACCTGCACGGTTGCGCCG +AGGTAGTCACCGCGGCGTTCTTTACGCAGAACGTCAGAGTAGATACGACCCGTGGTGAAGTTGTTGCGGC +GGCTCATTTTGGTACGAATGAAACGCTCGTAGTGCCCCAGGTCCAGGTCGGTTTCAGCGCCGTCTTCAGT +AACGAACACTTCCCCGTGTTGGATTGGGCTCATAGTACCTGGATCGACGTTGATGTACGGATCCAGTTTC +ATGATGGTCACATTGAGGCCACGGGCTTCAAGAATGGCTGCGAGGGAGGCTGCGGCAATGCCTTTACCCA +GAGAGGATACGACCCCGCCGGTCACAAAAATATAGTTCGTTGTCATGCTGAACCTGAGAAGTTAGGTTGA +AAAGACGATGGAATAACCAAGACGGGAAAGCAGTATACCCGAACATGACCTGTGCCACAAACTTTCATTA +TCCCTCCTCTTCGCCAGCGCACTATTGAAATCAGGAGTGAGAAAATAGCCCCTTTGGGGTAAATGTTTTT +GACGCAAATCAAGCGCTTGTCATTTAAAAAATGACACAAATGGCGCTTGACCGCGTAATTCCCTTAGAGA +TCAATTTCCTGCCGTTTTACCTGTTGCCAGACTTCTTCCATTGTTTCGAGGTCAACACCTGTCATTTCCA +GTCCACGCGCGGCAACAATACGCTCCACTTCGCGAAAACGACGCTCGAATTTTTCGTTCGCTTTTTGCAA +TGCGATTTCTGCTTTCGTCCCTAAATGGCGAGCCAGATTAACCGTGGCAAACAGCAGGTCCCCCATTTCC +TCCTCCAGTTTAGCCTGGTCGACAACAGCCTGCCGCGCTTCGTACATCACCTCGTCGATCTCTTCGTAGA +CTTTATCGACTACCGGACCAAGCGTCGTCCAATCGAAGCCAACGTTGGCGCAACGTTTCTGGATTTTTTG +CGCACGCATTAAAGCCGGTAAACTACGAGGAATATCGTCCAGCGCCGAATGCTGCGCTTTCTGCGCGCGC +TCTTCGGTTTTGATTTGCTCCCAACGGGCAAGCACTTCACTACTGTTTTCGGCAGAACTATCAGCAAAAA +CATGCGGATGGCGACGCTCTAATTTATCGCTAATAGCAGCGCAAATATCATTAAAGTCAAAGCGCCCTTC +TTCCTGAGCCATTTGCGCGTAAAACACCACCTGGAATAGCAGATCGCCCAGTTCACCGCGAAGATCGTCA +AAATCTTCACGGGCGATGGCGTCCAGCACTTCGTAGGTTTCTTCAAGGGTGTAAGGCGCAATGGTGGCAA +ATGTCTGCTCTTTATCCCACGGGCAGCCGTTTTCCGGATCGCGCAGGCGCTGCATAATAGTGAGCAAACG +GTCGATTTGATTCATTGAATTGTCCTGAAAATTGCGGGTCTGTCAGGTGGAAACCTGTGACCAGAATAGA +AGTGAGTTAGTAACACTACCCAATCAGTACGTTAATTTTGGCTTTAATGAGTTGTAATTCCTCTGGGGCA +ACTGTTCCTTTCTTCGTTGCTCCTCTTGCCCGCCAGGCGATACTTTTTACCTGATCAGCTAACGCTACGC +CATCACGTTCCTGACCGGATAAAACAACTTCGAACGGATATCCTTTTGATTGCGTTGTACAAGGAACACA +CAGACACATACCTGTTTTGTTGTTGTACATGAAAGGACTCAGGACAACAGCTGGACGATGTCCAGCTTGC +TCGCTACCTTTTGTCGGGTCAAAATCAACCCAAATCAGATCGCCCATATCGGGTACGTATCGGCTTACCA +TTACCAGACTTCCTTATCTTTCGGCTCTCCCCAGTCGATATTCTCGTGGAGGTTTTCCGGCGTGATGTCG +TTGACCAGTTCAGCAAGCGTAAATACGGGCTCTTTACGCACTGGCTCAATAATTAATTTGCCATCCACCA +GGTCAATCTTCACTTCATCATCAATATTCAGATTGAGCGCCTGCATTAACGTAGCCGGGATCCGCACCGC +CGGTGAATTTCCCCAACGCTTTACGCTACTGTGGATCATAACCCTTTCCTCAAACCGCTATCATATGTAG +ATACAGTATATATCAATCTACATTGTAGATACGAGCAAATTTCGGCCTAACTCCCGTGCAACCGACGCGC +GTCGATAACATCCGGCACCTGGTTGAGTTTACCCAGCACGCGCCCCAGCACTTGCAGGTTGTAAATCTCA +ATGGTCATGTCGATGGTCGCCAGTTGCTGTTTGGTGTCGCTACGGCTGGCAACGCCAAGCACGTTCACCT +TCTCGTTGGCGAGAATGGTCGTGATATCACGTAACAACCCACTACGATCATTAGCTACCACGCGGACCAC +CAGCGAATATCCGGCGGAGTAGCTCTCACCCCATACCGCGTCAACAATGCGTTCTGGCGCATGGGAGCGC +AGTTCCGCCAGTTGTTCGCAATCGGCGCGGTGTACTGAAATACCGCGCCCCTGGGTAATGAAGCCGACAA +TCTCATCTCCAGGAATCGGCTGGCAGCAGCGCGCGATGTGGTGCATCAGGTTGCCAACACCTTCGACTAC +CACGCGACCGTTATCTTTACTGCGGTTTTGCGGCGTGTAGCTTTTTTGCTGAAGTTGCTTCAGCGCGGCG +GCGTCCTGCTCTTCGGCACTCGGCTTATTAAATTGCGATTGCAGGAAGTTCACCATCTGATTGAGACGGA +TATCCCCGCCACCAATCGCCGCCAGCAACTCGTCGACATCATTGAAGTTGTAACGCGGCAGCAGATGTTT +TTCTGCTTCTTTCAGGCTGATCCCCAGATGTTCCAGCTCGTCGTCAAGGATTTGCCGCCCAGCCAGAATG +TTTTTGTCACGGTCCTGTTTACGGAACCAGGCGTGAATTTTCGAACGCCCACGGCTGGTTGTGACGTAAC +CGAGGTTTGGGTTTAACCAGTCACGGCTGGGGTTCGGCTGTTTCTGGGTGATAATTTCAATCTGGTCGCC +CATCTGCAGCTGGTAGGTGAACGGCACAATGCGCCCGCCAATTTTTGCCCCGATGCAGCGGTGTCCGACA +TCACTGTGGATGTGGTAAGCGAAGTCCAGCGGCGTTGATCCCGCAGGCAAATCAACGACATCACCTTTCG +GCGTAAAGACGTACACCCGGTCGTCAAAGACCTGACTACGTACTTCGTCGAGCATTTCGCCGGAATCAGC +CATCTCTTCCTGCCACGCAATCAGTTTACGCAGCCAGGCAATCCGGTCTTCATGTCCCGAACGTGCGCCG +CCAGCAGCCGCGCCCTCTTTATATTTCCAGTGCGCAGCAACACCCAACTCTGCATCTTCATGCATCTGTT +TGGTGCGGATTTGGATCTCAACGGTTTTTCCACCCGGCCCCAGAACCACGGTATGAATAGACTGATAACC +GTTTGGTTTCGGGTTAGCGACGTAATCGTCAAACTCATCCGGCAGGTGGCGATAGTGAGTGTGCACTATC +CCCAGTGCGGCATAGCAATCCTGTAAACGCTCGGCGACAATACGTACCGCACGCACATCAAACAGCTCAT +CAAAGGCGAGGTTCTTTTTCTGCATTTTACGCCAGATGCTGTAGATGTGTTTCGGACGACCATACACTTC +CGCTTTAACGCCTTCAGCTTTCATCTCAGCGCGCAGATGACCAACGAACTCTTCGATGTAGTGTTCGCGG +TCGAGACGCCGTTCATGCAGCAGTTTGGCAATTCGTTTGTATTCGGTTGGATGGAGGTAACGGAAGCAGT +AATCTTCCAGTTCCCATTTCAGTTGTCCGATTCCGAGACGGTTAGCCAGCGGTGCGTAGATGTTGGTACA +CTCTTTTGCCGCCAGTACACGTTCATCTTCCGGCGCATCTTTTACTTCGCGCAGATGAGCAATACGCTCC +GCCAGTTTGATGACTACGCAGCGAAAATCATCGACCATCGCCAATAACATCCGGCGAACGTTATCGACCT +GTTCGGAGGAAACAGAATCAGTGTGCGTCGCTTTCAGCTGGCGGATCGCCGCCATATCACGCACGCCGTG +AATAAGGTTAACGACCGACTTACCGACGCTCTCACGCAGCACATCTTCGCTGACTACGTTGGCATCCGCC +AGAGGGAAAAGCAGCGCCGCCCGCAGCGTGTCAATGTCCATACTTAATGTCGAGAGGATCTCCACCATCT +CAACACCACGCCACAATAACAGACTGGCATCCGGATGCCCCTGCGTCTGTTGCAGACAATACGCCCAGGT +TTCGGCTAAGCACTCACACGACTTCTGGCTGGTAATACCCAGACTTGCGATCCATTTTTCCGGATCAAAT +TCACCAGCCTTATTGATATGTGCACTTCTTACCGCAACCATCGTCCTCTCCTTTAGGGACCAGACCTGCC +GAAATCGGCAAATCGCAACTATTTAACGCGCGAGAAAAGTACCATCGATTCCAGATGTCCCGTGTGTGGG +AACATATCCAGCATCGCCAGTCGCGCAATGGTATATCCTGCTTTTAATAACGCTTCGCTATCCCGAGCCA +GCGTTGCAGGGTTACAGGATACATAAACTATACGAATAGGTTCCAGTTTTATAATTTGCTGCATAACACC +TGCGGCACCTGCTCGCGCCGGGTCCAGCAACACTTTATCGAAGCCGTTTTTCGCCCACGGCTGCTTTGTG +ACATCTTCTTCAAGATTTTCGTGATAAAACGTCACATTCTGTAAGCCATTAAGACGCGCATTCTGCTGGC +CTTTTTCCACCAGCGCCGGAACACCTTCTACACCGACCACACTGGCAGCTTGTGTCGCCAATGGCAGTGT +AAAGTTGCCCATACCGCAGAACAGATCCAGTACGCGATCTTCAGGTTGCACATCCAGCCATTCCAACGCA +CGCGCTACCATTTTTTGGTTCACACCCGCATTGACCTGAATAAAATCGCGCGGGCTAAAAGTTAAGCGCA +ACCCGTTTGAGTCATACCAGGGCATCTCACCAGAGACGGTTTCGAGTATCTCACTATCGGGGGCGAGATA +CAGATCCAGGCCTTCAGAATGCGAAAAGCGTTCCAGTTTTTCGCGATCTGCCGAACTTAGCGGTGCGGTA +TGGCGCAAAATCATCAGCGTGCCGCTGGTTGCCTGTACCAGTTCAACATGACCAAGATGGCGCATAGCTT +GTAAGCTGCCCAGACATGCCCTGACTTTGGGCAGCAATGCTTCAAGTTGGGGCGCTAAAATGGGGCATTG +TTTGACGTCGACAATGTCACTGGAGCCCGCTTTGCGAAACCCCATCTGAAGTTGCTGTGTTTTCGGTAAG +TAGTTCAGACTTAAACGCGCGCGACGGCGATAGCCCCAGGGAACATCGGCGATCACTTCAGAGACATCGT +GTTTCATTAATCGGGCGAGTGCCGCACTTTTGCTTCGCTGCTGTAAATCCACGCTGGCGTGTTGTTGCTG +ACAGCCACCGCATACGCCAAAATGAGGACAGCGTGGCGTTTCGCGTTCCGGGCTATCGCTTAACCGGCGT +ACGACTTTAGCGCGGGCATACTGTTTTTTATCTTCAGTAACAGTAACTTCCGCGTTTTCCTGCGGCAATA +ATCCGGGGATAAATAGCGTTTTGCCGTTATGTCGCGCCACGCCCTGACCAAAAGAGTCGAGGTCGTTGAC +TGAAACGGTTATGATCTGACGCGTCGTCGTGCGTCGTTTTGCAGAGTAGAATTGCGCCATTGGCGAGACT +TTCTCAATTTAACAGTGTGACCTTAATTGTCCCATAACGGAACTCCATGACCAACTACAGCCTGCGCGCA +CGCATGATGATTCTGATCCTGGCACCGACCGTCCTTATTGGTTTATTGCTGAGTATCTTTTTCGTCGTGC +ATCGCTATAACGACTTGCAGCGTCAACTGGAAGATGCCGGTGCCAGCATTATTGAGCCGCTTGCAGTTTC +TACTGAATATGGCATGAGCCTGCAAAATCGCGAATCTATCGGTCAGTTAATAAGCGTACTGCATCGTCGC +CATTCCGATATTGTTCGCGCGATTTCGGTTTATGATGAAAATAACCGACTCTTTGTCACCTCCAATTTTC +ATCTTGATCCCTCATCAATGCAGCTCGGCAGCAACGTGCCGTTTCCTCGCCAGCTCACTGTCACTCGTGA +CGGCGATATTATGATCCTCCGCACGCCGATTATTTCTGAGAGTTACTCCCCCGACGAATCGCCCAGTAGC +GATGCCAAAAATAGTCAAAATATGTTGGGATATATTGCGCTGGAGCTGGATCTTAAATCGGTTCGCTTGC +AGCAATATAAAGAGATCTTTATTTCCAGCGTGATGATGCTGTTTTGTATCGGTATTGCGCTTATTTTTGG +CTGGCGCTTAATGCGCGATGTAACCGGTCCGATTCGCAACATGGTGAATACCGTCGACCGCATCCGTCGC +GGGCAACTCGACAGCCGGGTGGAAGGATTTATGCTCGGCGAGCTGGATATGCTGAAAAACGGTATCAACT +CGATGGCAATGTCGCTGGCTGCTTATCACGAAGAGATGCAGCACAATATCGACCAGGCGACGTCCGATCT +GCGTGAAACGCTGGAGCAGATGGAAATTCAGAACGTTGAGTTAGATCTGGCGAAAAAGCGCGCCCAGGAA +GCGGCGCGTATTAAATCCGAGTTTCTGGCAAATATGTCACACGAGCTGCGTACACCACTGAATGGTGTTA +TTGGCTTTACCCGCCTGACGCTGAAAACAGAATTAACACCAACGCAGCGCGATCACCTGAATACGATTGA +ACGTTCGGCAAATAATTTGCTGGCAATTATTAATGATGTTCTCGACTTCTCGAAACTGGAAGCAGGTAAG +CTGATTCTGGAAAGTATTCCATTCCCACTACGCAGCACGCTGGATGAAGTCGTTACTCTGCTGGCACATT +CTTCTCACGATAAAGGGTTAGAACTGACGCTCAATATTAAAAGCGACGTGCCTGATAACGTGATCGGCGA +CCCGCTGCGATTACAGCAAATCATCACTAACCTGGTGGGGAATGCAATTAAATTCACCGAGAATGGCAAC +ATTGATATTCTGGTAGAAAAACGTGCGCTGAGTAATACCAAAGTGCAGATTGAAGTGCAGATTCGGGATA +CCGGCATTGGTATTCCTGAACGCGATCAATCGCGCTTATTCCAGGCCTTCCGACAGGCTGATGCCAGTAT +TTCCCGCCGTCATGGTGGCACCGGGCTGGGGCTGGTGATTACACAAAAACTGGTTAATGAAATGGGCGGC +GATATTTCGTTCCATAGCCAGCCGAATCGCGGTTCAACTTTCTGGTTCCACATTAATCTCGATCTGAACC +CGAACATTATTATCGAAGGGCCATCCACCCAGTGCCTCGCAGGTAAGCGCCTGGCCTATGTCGAACCAAA +CTCCGCAGCAGCGCAATGCACGCTGGATATTTTAAGTGAAACGCCGCTGGAAGTGGTTTATAGCCCAACG +TTCTCCGCGCTGCCTCCCGCGCATTACGACATGATGTTGTTAGGCATCGCGGTGACCTTCCGCGAGCCGC +TAACAATGCAACATGAGCGATTAGCGAAAGCGGTATCGATGACCGATTTCCTGATGCTGGCACTTCCTTG +CCATGCACAAGTCAATGCTGAAAAACTCAAGCAAGATGGTATCGGCGCGTGTCTGCTGAAACCATTAACA +CCTACACGCCTGTTGCCTGCCCTGACGGAATTTTGTCATCACAAACAAAACACGCTTTTGCCTGTAACCG +ATGAAAGTAAGCTGGCAATGACAGTCATGGCGGTTGATGACAACCCCGCTAACCTGAAACTTATCGGCGC +ATTGCTGGAAGATATGGTGCAACATGTGGAACTTTGCGATAGCGGGCATCAGGCGGTTGAACGGGCGAAA +CAGATGCCGTTCGATTTGATCTTAATGGATATTCAAATGCCGGACATGGATGGCATTCGGGCCTGCGAAC +TCATCCACCAACTCCCGCATCAGCAACAAACGCCGGTTATCGCGGTAACGGCGCATGCAATGGCCGGGCA +AAAAGAGAAGCTGCTTGGCGCAGGGATGAGCGATTATCTGGCGAAACCGATTGAAGAAGAGCGATTGCAT +AATTTGTTGTTGCGCTACAAGCCTGGCAGCGGTATTTCCTCTCGCGTCGTGACGCCCGAAGTCAACGAAA +TTGTGGTGAACCCGAATGCGACCCTCGACTGGCAACTGGCACTACGCCAGGCAGCAGGAAAAACCGATTT +AGCGCGCGATATGCTGCAAATGTTACTCGATTTCCTGCCTGAAGTTCGCAACAAAGTTGAGGAACAGCTG +GTTGGAGAAAACCCGGAAGGCCTGGTTGATTTGATTCATAAACTGCATGGCAGTTGCGGCTATAGCGGTG +TGCCACGTATGAAGAATCTCTGCCAACTGATCGAACAACAGCTACGTAGCGGTACTAAAGAAGAAGATTT +GGAACCGGAGCTGCTGGAACTGTTGGACGAGATGGATAATGTCGCGCGCGAAGCCAGCAAAATTCTCGGG +TAATGGATGTCTTGTCGAGTAGCAATCGGCTTTTTATGACGCTGGTTTCAGATTGGTGACAAAGTGCCTG +TGTTTATGCCGGATGCGGCGTTAACGCCTTATCCGGCCTACAAAACCAATTAAATTCAATGAATTAAAAA +ATGATGTAGACCTGATACATAGCACAACAGGCTATTTTGCGTTTAGCATCAGTCTCAAACCGGCTCCAGA +TAGAGCCGGTTTTGGTTTTCTGTCTTAACGCACCATGCACGGGCGCTTGTTATCGAACGTCCAGCCAGGA +ATCAGATACTGCATTCCCATCGCATCGTCACGCGCGCCAAGCCCGTGTTTCTGATACAGCTCATGGGCTT +TCATCACTTGATCCATATCGATTTCTACACCCAGCCCCGGTTTTTCTGGCACCTGTACCAGCCCGCCTTT +GATCTCAAACGGTTCTTTGGTCAGGCGCTGATTGCCTTCCTGCCAAATCCAGTGCGTATCAATAGCAGTA +ATTTTACCCGGTGCAGCGGCGGCAACATGGGTAAACATCGCCAGGGAAATATCGAAGTGGTTGTTAGAGT +GTGAACCCCAGGTCAGGCCAAATTCATGGCACATTTGCGCCACACGTACCGAACCTTGCATTGTCCAGAA +ATGCGGATCCGCCAGCGGGATATCAACGGATTGCAGGGAGAGCGTATGGCCCATTTGCCGCCAGTCGGTG +GCGATCATATTGGTTGCAGTCGGTAGACCTGTCGCGCGACGGAACTCTGCCATCACTTCACGCCCGGAGA +AACCTTGCTCCGCACCACACGGATCTTCTGCATAAGCCAGCGAACCTTTCAGGTATTTACCGATTTTAAT +CGCTTCGTTCAGCGACCAGGCACCGTTAGGATCGAGCGTAATACGCGCCTGCGGGAAGCGTTGCGCCAGT +GCCACAATAGACTCGGCCTCTTCTTCCCCGGCCAGTACACCGCCCTTCAGTTTGAAATCGTTGAAGCCAT +ATTTTTCATATGCCGCTTCCGCCAGGCGCACCACCGCATCCGGCGTCATCGCTTCTTCATGACGCAGGCG +ATACCAGTCGCATGAGTCATCCGGCTGGCTTTGATACGGCAGCGGCGTGGCTTTGCGATTACCGACGAAG +AACAGATAACCGAGCATTTCGACTTCGCTACGCTGTTGACCATCGCCCAGCAGCGATGCCACGTTTACCC +CCAGATGCTGCCCCAGCAGATCCAGCATTGCCGCTTCTATCCCGGTAACTACATGAATAGTGGTACGTAG +GTCAAATGTCTGCAAACCGCGCCCACCAGCATCACGATCGGCAAAAGTATTACGCACCAGCGTCAGAACG +TTTTTGTATTCACCCAGCGTTTTACCTACCACCAGCGGAATCGCATCTTCCAGCGTTTTACGGATTTTCT +CGCCGCCGGGAATTTCCCCTACGCCAGTGTGACCAGAATTATCTTTGATAATCACAATATTACGCGTAAA +GAACGGTGCGTGTGCACCACTCAGATTCATCAGCATACTGTCATGACCCGCCACCGGGATAACCTGCATT +TCAGTAACAACAGGCGTCGTAAATTGAGAACTCATATTTATGTCCTTTTTCAGAATCAATGACGGCCGAA +AACGGGACGTTTACGGTCAAAGGTCCAGCCGGGGATCAGGTACTGCATCGGACCTGCGTCGTTACGCGCA +CCGCCAGGCAGACGTTTATAGGCCTCATGTGCCTTTTGTACCTGTTCCCAGTCCAGTTCCACGCCCAGAC +CGGGCGCATCAGGAACGGCAATTTTTCCGTTTTTAATCTCCAGCGGATTTTGGGTCAGGCGACAATCGCC +CTCCTGCCAAATCCAGTGGGTATCGATAGCGGTAGGATTACCCGGTGCCGCCGCGCCCACATGGGTAAAC +ATCGCCAGAGAGATATCGAAATGGTTATTAGAATGGCAGCCCCAGGTCAGCCCCCAGTCGTCGCAAAGCT +GCGCCACACGGACTGCACCGGAAAGCGTCCAGAAGTGCGGATCGGCAAGTGGAATATCTACCGCATTGAG +CATCACCGCATGACCCATTTCGCGCCAGTTGGTGGCGATCATGTTAGTCGCGACGGGCAAGCCGGTCGCC +CGTCGAAATTCCGCCATCACTTCACGTCCGGAGAAGCCCTGTTCTGCGCCGCATGGATCTTCGGCATAGG +TAAGAACATCATTCAGCCCTTTGCATAAAGAAATGGCTTCATCAAGCAGCCATGCACCGTTGGGATCAAC +GGTAATCCGCGCATCCGGGAAGCGTTTCTTCAATGCACGAACAGTGTCGATTTCTTGCTCGCCAGGTAAC +ACGCCGCCCTTAAGTTTGAAATCTTTAAAGCCGTAGCGATCCTGTGAGGCTTCCGCCAGACGCACAACGG +CTTCGCTGTTCATTGCTTTCTGATGCCGCAACTGATACCACTCATGGTTGCCCGGCGTATTTTCCACATA +AGGAAGATCGGTTTTGGTCCGATCACCGATATAAAACAGATAACCGAGGACGGTAATAGCCTCGCGTTGC +TTGCCTGGCCCTAACAGTTCGCAGACCGGAACATTCAGCGCCTTACCTAGCAGGTCAAGCAAAGCGGCTT +CCAGCGCCGCCACGGCGTTAACGCGTAATTCAAAGGTCCAGGCACCTTTACCGAAGGTATCAAAATCGGC +GGCCTGATTACCTTTATGCACCTGCTGGACCACTTTATTCAGTCGCGCAACTTCCTGGCCCAGAACCATC +GGAATAGCATCGACAAGCGTCTGATAAATCACATCTCCGCCCGGCGCTTCACCAATGCCGGTATGCCCGG +CGTTATCGGTGAGTACCACAATATTGCGGGTGAAATATGCGTTATGTGCCCCACCAATATTAAGCAACAT +GCTGTCATGCCCGGCCACCGGAATGACTTTCATATCAGTAATAACAGGACTGGATTGTGTCGCCATCTTA +TTGCCCCGCAACAGGTTTCAACTCGATACGCTTGATATCGCCCACCAGCACCAGGTAGCTCAGTACCGCG +ATTAAGGCATGAACACCAACATAAATCAGCGCCCCATTAAACGAGCCAGTCGTGCCAACGATATAACCAA +TTGCGATTGGCGTGACGATGCCAGAAATGTTACCGAACATGTTGAACAGGCCACCGGAAAGACCGCTGAT +CTCTTTTGGCGCGGTATCTGCCATTACTGCCCAACCCAGCGCCCCGATGCCCTTACCGAAGAAGGCCAGC +GCCATAAAGCCGATGATCATCCACTCAACGTTGACGTAGTTGCAGAACACCATCACCATCGACAGCAACA +TGCCCATTACGATCGGTGTTTTACGCGCAATGTTCAGCGATCCCGTGCGGCGCATCAGCCAGTCGGAAAT +AATCCCACCCAGCACACCGCCGATAAAACCGCAAACCGCCGGAACGGAAGCCACAAAGCCCGCTTTCAGA +ATCGACATCCCGCGTGCCTGCACCAGATAAACCGGGAACCAGGTAATAAAGAAGTAAGTCAGGGCGTTGA +TACAGTACTGACCGATATAAACGCCGATCATCATCCGTGACCCTAGCAGCTGTTTGATCTGCCCCCACTT +CACGCTGAACGGCACTTTAACTTTGGTGTTTTGCTGATCCATATTGATCAGCGCACCACCCGCGGCGATG +TACTCCAGCTCTTTCTTATTTACCCCCGGATGTTGATTTGGCTCGTGGATGACTTTCAACCAGATAAAGC +TGATGACAATCCCCAGACCGCCCATAAAGAAGAAGACGTGTGACCAGCCCACTTCATGCGTCAGCCAGCC +CATAATCGGCGCGAAGATCACCGTTGCGAAGTATTGAGCGGAGTTAAAAATCGACACCGCCGTTCCCCTT +TCCTGCGCCGGAAACCAGGCCGCAACAATGCGACTGTTGCCGGGGAAAGATGGCGCTTCAGCAAGCCCGA +CCAGGAAGCGCAGCGTAAACAGGGCAACGATAATGCCGAATCCACTAAAGATATCGACGAAGCCTTGCAG +CAAGGTAAACATCGACCAGATAAAGATCGACCAGAAGTAGACGCGTTTTGAACCAAAACGGTCCAGCAAC +CAGCCACCAGGGATCTGCCCGATAACATAAGCCCATGAGAAAGCAGAGAACACATAGCCCATTCCCACGG +GATCAAGGCCGATATCTTTGGCCATTTCCGAACCGGCGATAGAGAGCGTAGCGCGGTCGCCGTAGTTGAA +GGATGTGACGATAAACAACATCACCACTATCCAGTAACGAGCATTTGTGCGTTTTTCCACACTGCTCGCA +GCCTGACTTAAAGAACTCATTGTTGCACTCCTGAAAATTCGCGTTAGCCACGCTCACTCTGGACTGCGAC +ATCGCCAGGAAATCAGAGGTGACGTAGGGTGTTTTTTGCCGTTTTTATAGGTCGTTCGCCGAATACGGCG +CGTGTTTATATCTGGCAATAGCAGTATAAAAAGCGCGCCATAGCGGCTCACCGTGCAACAACACAACATT +AATGCGTTCAATGAGGCCCGATTTTGGCATTAGCCCTGGACGGTGGAATCCACTTCACGGAAATGAAAAC +AAGAACAAGAAAGGAAGGGTTAAAACGAAGAAATAAAGAAGAGTATGAAATGGATCGCTTGACTCCAGGC +AAACGCCAGTAAAAATCCGCGCTATGAAGCAGTTTTTACTGGCATTTGCCTGAAAAGATTCGATTCAGCA +CCGCTAAAACGACATTTACCGCTCGCTGAACATATCAGGACAACAGCGTGCCCCACTGTTCGACCCACGG +ATTTGATTCCGTTTCCGGTTCCGGGTTCTCACTGGCGTCAATCAACAGCATTTCGCCAACCCGCTGAGCG +CTCTGTTCCTGCAACAAGGCATCGAACTGTTTGCCGCCATTGCAGAAATTCACATAACTACTGTCGCCGA +GCGCAATCACGCCATAACGCAGATTCGGCTGGAAGCCCAGACTATCTTTGATTCCCTGAAAGAGTGGCAC +AATGCTATCAGGAAGGTCGCCCTGCCCGGTCGTGGACGTAACCACCAGAACATACTTATCCTGATAGGGC +AGCCAGTCGCTTAATTCAGGATCTTCAAATACCGTTGCTTTGTGGCCCTGCGCGGTCAGAATCGCTTCCG +CTTCTTCGGCCACTAACAGTGAATTCCCGTACATGGTGCCGACAAAAATACCAATTTCCGCCATACCGTT +TTCTCCCTGGATTAGGAACTTATCTCTCCATCCTGACCCGATGGCGCACTGAACTCAACCCTTTCATTTT +CAGGAAGCAGACCGCGCCAGCCAAATTGTGATAACGCCTGCATCCAGGTGTCGTCCAGGCCCGCGTGAAT +AGTCAGCGGCTCGCCAGTAAAAGGATGCGTCAATGACAACTGACTGGCATGTAGCATTAACCGCTGGAGG +CCAAAATGCTCAGCACCGCTGCGATTCTGGCGTAAATCGCCATGTTTGCTATCGCCAATAATCGGATGAC +GCAAATGGGCAAGATGTCGGCGAAGCTGATGTTTGCGTCCGGTTTTCGGCTCCAGTTCCACCAGGCCGTA +GCGCGTGGTCGGGTAACGTCCGGTCGCTACCGGCATTTCTACGGTCGCCAGACCGCGATAATGCGTCACT +GCTGGCTGCGGGCCTTTATCTTCGCGGGCAAATTTATCAGCGATTTTGTCCAGTTCTTCCACCAGTGGAT +AATCCAGCACCGCTTCTTCCATCAACCAGCCGCGCACAATCGCATGGTAACGTTTCTGGATTTGGTGCTG +TTCAAACTGTTGTGCCAGCAGCCGTCCGGCCTCGCTGGATAATCCCATCAACAACACACCAGAAGTGGGT +CGGTCCAGACGATGAGCAGTAAAAACATGCTGGCCTATCTGGTCACGCACGGTTTGCATGACCACTACTT +TCTCGTCGCGATCCAGCCAGCTGCGGTGAACCAGCCAGCCGGAGGGTTTATTTACCGCAACCAGCCATTC +ATCCTGATAGAGTATTTCCAGCATTAGCTCGCATCATCCGCAAAAAGAGCATCCAGTTTTTCCAGCTCAG +CCAGAATAAGCGCGCGTTGCGGATGGTCCGTCGCCAGCGCCATTTCATAATAGGGTGCAACGGCAAAAGC +GCCCGGTAACGGCTGTTTGTTATCTAACAAATCGTGCATTCGCGGGATCAGCACCCACTGCAACCACTCC +AGTGGTTCCATGGTGTCCATAAAGAACGGTTGGGTACTATTAAATTGATGCGGCTGGGGTTCATCGTTTC +GCCAGTGCTGATGTTCACGCAGTAACGCTTCAAGCGCCTGCAACTGGAGACGAACGCGGTCATGAGTGGT +CATAAAGCAACCTCAATAAGAAAAACTGCCGCGAAGGATAGCAGGAATAAAAAAAGGGAGCACTGTATTC +ACAGCGCTCCCGGTTCGTTTCGCAGCATTCCAGCTACTTTTGTTGCTCCCTGCTCATCCTTGACAACTTT +TCCTCTGGCCTTGCGGCCAATCGTTCATCCTGAACTATTGCTTCCTGCTCACACCACCCCGATGTGATAC +TTCATCCTGAAGTGTCCCTGGCCTTCCTGACCCACCGAATCATCCTGACCGGTTCTCATTCTCCATCCTG +GAGGTGTCCTTTAACGCGTCCTGCGTCATCCTCTTCGCTTCATCCAGAAGCCTTTCCCTGAAACACCATC +CTGGTGTGTCCTGCAGAAGTGTCATCATCCTGATGTTCACTTCGTTGTCTGACTCCCTGTCGACGAAGAT +AGAATCGTCTTTTTCGCGAAGTCTTACAAGGCGCTTACAGACAATGCCTTAAGGAAAATTTCATATGAAA +GTTAAGAATTAACAATCAACATTTTGATTTTAAATGAAAATAACGATTCTTATCTTTTTAAGTATTCGCT +TATTTCCTGGCGATCTCCTACAGAGTCTGTAAGAGATCTCTCACAACCAGATGGGGTATTTGGATTACAG +AAGAGGCTTAAGTTGATTAAGGAATTCCGCAAGATTTGAGGCTAAATGCGTCCGTTTACGTGTTCCCAGC +GTCTCTTTGCACACTTCACCGGAGAGATTACACACCGAGATGACCTCTAACTCTTCTTCCAGCGTCGCGA +TAAATAGTGTGGGCGGCAGTTTTAGCCTTTTCTGAGTCACCAGATGACCAATCAGATTTTCCTGCACCCG +ACGGAAGTCGTCTTCACTCCAGGTTTGCAGCAATGTCAGTTTGATATCGCCAAACTGCGCGTGCATATCC +CCGGCAAACTGAGTCGTATAAAAGGTATGAATTGTGGGTTGTATCACAATATCAAAAGCGCGTTCAACCG +CGTTTACATTTTGTTCCCCGGTAAACGGCTGGGGTTGCCAGTATACGGCATCTTCGGTAGTTGAAATAAT +GCACGGTGAAGGAACACCGTACAGTTCCTCACTTAACGGCCAGCTTTTATGCTCTTCATGCCACGCATCG +CAGTAGCGTGCAGTAAAATCTTTCAGGGCTTGTGCGGTCAAATCGTCCACTAATTTCTCTCTTCACTTAA +ACCAGATACACTTGTCGTTTAGTTTATCTGGTTTATGACGGTGAAACATGTCTTCTTATGCAAACCATCA +GGCACTTGCGGGCCTGACTCTTGGAAAATCAACCGATTACCGGGATACCTATGACGCCAGCCTACTGCAA +GGCGTTCCACGCAGCCTGAATCGCGACCCGCTGGGTCTGAAAGCGGATAACCTGCCTTTTCACGGTACGG +ATATCTGGACGCTGTATGAACTTTCCTGGCTGAATGCGAAAGGTTTGCCGCAGGTCGCTGTCGGTCATGT +TGAACTTGATTACACCAGCGTAAATCTGATTGAGTCGAAGAGTTTTAAGCTCTATCTCAACAGTTTTAAC +CAGACGCGTTTTAATAACTGGGATGAGGTGCGCCAGACGCTGGAGCGCGACTTAAGCACTTGCGCTCAGG +GTAAGATTAGCGTGGCGTTATATCGTCTTGATGAACTGGAAGGCCAGCCGATAGGTCATTTTAATGGCAC +TTGCATTGATGACCAGGATATCACTATCGATAACTATGAATTCACTACTGACTATCTGGAGAATGCCACC +TGTGGTGAAAAAGTAGTGGAAGAGACGCTTGTCAGCCACCTGCTGAAATCAAACTGCCTGATCACCCATC +AACCAGATTGGGGTTCGCTCCAAATTCAGTATCGTGGACGCCAAATTGACAGAGAAAAACTGCTGCGTTA +CCTGGTCTCATTCCGTCATCACAACGAGTTCCACGAACAGTGCGTGGAACGCATCTTTAATGACCTGTTA +CGCTTCTGCCAGCCAGAAAAATTGAGCGTTTACGCACGTTATACCCGTCGTGGCGGTCTGGACATTAACC +CGTGGCGCAGTAATAGCGATTTTGTCCCATCGACCACAAGACTGGTTCGGCAATAAATTTTTTCTCAATT +TTGCGTGCTGGATTCACGCAGAAGGTTGTGAAAGGTCATCAGGCAGGGCTATTGTAATCAAAGGGAATGA +CGATATTCGTCCCATAAGGAGTTTTTCTTGATTACACATATTAGCCCGCTTGGCTCCATGGATATGTTGT +CGCAGCTGGAAGTGGATATGCTTAAACGCACCGCCAGCAGCGACCTCTATCAACTGTTTCGCAACTGTTC +ACTTGCCGTACTGAACTCCGGTAGTTTGACCGATAACAGCAAAGAATTGCTGTCTCGTTTTGAAAATTTC +GATATTAACGTCTTGCGCCGTGAACGCGGCGTAAAGCTGGAACTGATTAATCCCCCGGAAGAGGCTTTTG +TCGATGGGCGAATTATTCGCGCTTTGCAGGCCAACTTGTTCGCGGTCCTGCGTGACATTCTCTTCGTTTA +CGGGCAAATCCATAACACCGTTCGTTTTCCCAACCTGAATCTCGACAACTCCGTCCACATCACTAACCTG +GTCTTTTCCATCTTGCGTAACGCTCGCGCGCTGCATGTGGGTGAAGCGCCAAATATGGTGGTCTGCTGGG +GCGGTCACTCAATTAACGAAAACGAGTATTTGTATGCCCGTCGCGTCGGAAACCAGCTGGGCCTGCGTGA +GCTGAATATCTGCACCGGCTGTGGTCCGGGAGCGATGGAAGCGCCGATGAAAGGTGCTGCGGTCGGACAC +GCGCAGCAGCGTTACAAAGACAGTCGTTTTATTGGTATGACAGAGCCGTCGATTATCGCCGCTGAACCGC +CTAACCCGCTGGTCAACGAATTGATCATCATGCCAGATATCGAAAAACGTCTGGAAGCGTTTGTCCGTAT +CGCTCACGGTATCATTATCTTCCCTGGCGGTGTGGGTACGGCAGAAGAGTTGCTCTATTTGCTGGGAATT +TTAATGAACCCGGCCAACAAAGATCAGGTTTTACCATTGATCCTCACCGGCCCGAAAGAGAGCGCCGACT +ACTTCCGCGTACTGGACGAGTTTGTCGTGCATACGCTGGGTGAAAACGCGCGCCGCCATTACCGCATCAT +CATTGATGACGCCGCTGAAGTCGCTCGTCAGATGAAAAAATCGATGCCGCTGGTGAAAGAAAATCGCCGT +GATACAGGCGATGCCTACAGCTTTAACTGGTCAATGCGCATTGCGCCAGATTTGCAAATGCCGTTTGAGC +CGTCTCACGAGAATATGGCTAATCTGAAGCTTTACCCGGATCAACCTGTTGAAGTGCTGGCTGCCGACCT +GCGCCGTGCGTTCTCCGGTATTGTGGCGGGTAACGTAAAAGAAGTCGGTATTCGCGCCATTGAAGAGTTT +GGTCCTTACAAAATCAACGGCGATAAAGAGATTATGCGTCGTATGGACGACCTGCTACAGGGTTTTGTTG +CCCAGCATCGTATGAAGTTGCCAGGCTCAGCCTACATCCCTTGCTACGAAATCTGCACGTAATCTCCGCT +CCCCCGGTGACGTTTGTTGCCGGGTTTTCTCGTTTTTGGTCACTTACTCATCAACTCATTTCATTTGTTA +TATGAATGTTTCTTACCACCCTCACGCGACAAATATCATCACAGTTAATATGTCATACAATTTATGTTGC +AACGCAAACGTTTCCCTATTTTCATAAACCGTATTTTATCGCTATGAAAAAGAAATTATCGCCATGATTA +ACTAAAAGTATTGATTTTTTCAGTTCAACCTACATATATTGCGCGCCCCGGAAGAAGTCAGATGTCGTTT +AATGGGCAAATATTGCCCTTAAATTCTCTTTTACTTTTGATTTACAGAGTAAAGCGTTGGGATAATCTAT +CTTCCAAGTAGATTATTGTATTTGAGATCAAGATCACTGATAGATACATAACTTGTGTGTATCTTTCCGC +CCTCAAATTATTACGGCGGTAAATGATTAAGCCATCGCCGATAGACAGATTTCATTTTTACGGTCAGGCA +CCTTCCCGGGCTGAACTGGCTAAAAGCTGAATTATTTGCATTCCTCCAGGAGAAATAGATGGAAACGACT +CAAACCAGCACGATTGCGTCGAAAGACTCTCGTAGTGCCTGGCGCAAGACAGACACCATGTGGATGCTGG +GCCTTTACGGCACGGCAATCGGCGCGGGCGTGCTGTTCCTGCCAATCAACGCCGGTGTTGGCGGTATGAT +CCCGCTGATCATCATGGCTATCCTTGCGTTCCCGATGACGTTTTTTGCTCACCGCGGCCTGACTCGCTTC +GTACTGTCTGGTAAAAACCCGGGCGAAGACATCACCGAGGTTGTAGAAGAACACTTTGGTATTGGCGCAG +GTAAACTGATTACCCTGCTCTACTTCTTCGCTATCTACCCGATCCTGCTGGTTTATAGCGTGGCAATCAC +CAATACCGTTGAAAGCTTCATGTCTCACCAGCTGGGTATGACGCCACCGCCGCGTGCGATTCTGTCGCTG +ATCCTGATCGTGGGTATGATGACCATCGTTCGCTTCGGTGAGCAGATGATCGTTAAAGCGATGAGTATTC +TGGTATTCCCGTTTGTTGGCGTACTGATGCTGCTGGCTCTGTACCTGATCCCGCAGTGGAACGGCGCTGC +ACTGGAAACGCTGTCTCTGGACACTGCATCTGCAACCGGAAACGGTCTGTGGATGACCCTGTGGCTGGCA +ATTCCGGTAATGGTGTTCTCGTTCAACCACTCTCCGATCATCTCTTCTTTCGCCGTTGCGAAGCGTGAAG +AGTACGGCGATATGGCAGAACAGAAATGCTCGAAGATCCTGGCATTCGCACACATCATGATGGTGCTGAC +CGTAATGTTCTTCGTCTTCAGCTGTGTACTGAGCCTGACTCCGGCAGACCTGGCTGCGGCTAAAGAGCAG +AACATCTCGATTCTGTCTTACCTGGCTAACCACTTTAACGCACCGGTTATCGCGTGGATGGCTCCGATTA +TCGCGATTATCGCTATCACCAAATCCTTCCTCGGTCACTACCTGGGCGCACGTGAAGGCTTCAACGGTAT +GGTGATTAAATCTCTGCGTGGTAAAGGTAAGTCTATCGAAATCAACAAGCTGAACCGTATCACTGCGCTG +TTCATGCTGGTAACGACCTGGATTGTTGCCACCCTGAACCCGAGCATCCTGGGTATGATTGAAACCCTGG +GCGGTCCAATCATCGCGATGATCCTGTTCCTGATGCCGATGTACGCAATTCAGAAAGTACCGGCAATGCG +TAAGTACAGCGGTCACATCAGCAACGTATTCGTTGTCGTGATGGGTCTGATTGCAATCTCCGCAATCTTC +TACTCTCTGTTCAGCTAAGTCCTTTCGCGCCGCTTTCGGGCGGCGCTTCCTCCGTTTTAACGCGATGTAT +TTCCTATGATTAGCGTATTCGATATTTTCAAAATCGGCATTGGCCCTTCCAGTTCTCATACCGTTGGACC +AATGAAAGCGGGTAAACAATTTACCGACGATCTGATTGCCCGTAACCTGCTTAAAGACGTGACCCGCGTG +GTGGTTGACGTGTACGGCTCGCTCTCTCTGACCGGTAAAGGCCACCACACTGATATCGCCATTATTATGG +GCCTGGCGGGTAACCTGCCGGATACCGTGGATATCGATTCCATCCCCAGTTTTATTCAGGATGTGAATAC +TCATGGTCGCCTGATGCTGGCAAACGGTCAGCATGAAGTGGAGTTCCCGGTTGATCAGTGCATGAACTTC +CACGCCGACAACCTTTCTCTGCATGAAAACGGTATGCGCATTACCGCGCTGGCGGGCGATAAAGTCGTTT +ACAGCCAGACTTACTACTCTATTGGCGGTGGCTTTATCGTTGATGAAGAGCATTTTGGCCAGCAGGATAG +CGCACCGGTTGAAGTTCCTTATCCGTACAGTTCAGCAGCCGATCTGCAAAAACATTGTCAGGAAACCGGG +CTGTCACTCTCTGGCCTGATGATGAAAAACGAGCTGGCGCTGCACAGCAAAGAAGAGCTGGAACAGCACC +TGGCGAACGTCTGGGAAGTCATGCGCGGCGGTATTGAGCGCGGTATTTCCACCGAAGGCGTGTTGCCTGG +CAAACTGCGCGTTCCACGCCGTGCTGCGGCACTACGCCGGATGCTGGTCAGCCAGGATAAAACCACCACT +GACCCGATGGCGGTTGTTGACTGGATCAACATGTTTGCACTGGCAGTGAACGAAGAGAACGCTGCTGGCG +GTCGCGTGGTGACTGCGCCGACTAACGGTGCGTGCGGGATTATCCCGGCAGTTCTGGCGTACTACGACAA +GTTTATCCGCGAAGTGAACGCTAACTCACTGGCTCGTTACCTGCTGGTAGCCAGCGCCATTGGTTCTCTT +TATAAGATGAACGCGTCGATTTCTGGTGCTGAAGTGGGTTGCCAGGGTGAAGTTGGCGTGGCGTGCTCAA +TGGCGGCGGCTGGTCTGGCAGAACTATTAGGCGCAAGCCCGGCGCAGGTGTGCATCGCGGCGGAAATCGC +CATGGAGCACAACCTCGGTCTGACGTGTGACCCGGTCGCCGGACAGGTACAGGTGCCATGCATCGAGCGT +AACGCCATTGCGGCAGTAAAAGCGGTGAACGCCGCACGTATGGCGCTGCGCCGTACCAGCGAGCCGCGCG +TCTGCCTCGATAAAGTTATCGAAACCATGTACGAAACAGGTAAAGATATGAACGCCAAGTACCGCGAAAC +CTCTCGCGGCGGCCTGGCAATGAAGATCGTTGCCTGCGATTAATCGCTCTCCAAAGGCCTCGTTTTGCGA +GGCCTCTTCCCGATTTCTCATCCAGCCGTAGCCTGTTCCGGCATCGAATGTTACCCTTATCGCCTGATCT +TTAAGGGGGTTATCGTGGCTGTTCATTTGCTTATTGTCGATGCACTGAATCTTATTCGTCGCATTCATGC +CGTTCAGGGGTCGCCCTGTGTCGAAACCTGCCAGCATGCGCTCGATCAGCTCATTATGCACAGCCAGCCA +ACCCACGCGGTCGCCGTTTTTGATGATGAAAACCGCAGTAGCGGCTGGCGTCATCAGCGTTTACCAGATT +ACAAAGCGGGTCGACCGCCAATGCCGGAAGAGTTGCACGACGAGATGCCTGCATTACGCGCCGCCTTTGA +GCAACGCGGCGTCCCGTGCTGGTCAACCAGCGGCAACGAAGCCGATGACTTAGCCGCCACGCTGGCGGTC +AAAGTGACACAGGCCGGGCATCAGGCAACGATTGTTTCGACAGATAAAGGCTACTGTCAGTTACTTTCAC +CGACATTACGTATTCGTGATTACTTCCAGAAACGTTGGCTGGATGCGCCATTTATCGATAAAGAATTTGG +CGTTCAACCGCAGCAGTTGCCCGATTACTGGGGACTTGCGGGGATCAGCAGTTCAAAGGTACCGGGTGTT +GCGGGAATCGGACCAAAAAGCGCCACGCAGCTGCTGGTCGAGTTTCAGAGTCTGGAAGGGATATATGAGA +ATCTGGATGCGGTTGCCGAAAAGTGGCGCAAAAAATTAGAAACCCATAAAGAGATGGCGTTTCTGTGCCG +CGATATTGCCCGCTTACAAACCGATTTGCATATCGACGGCAATTTACAGCAATTGCGGTTGGTACGGTAA +CGGCGAGCCGGATACGCCGCAAACGTCGTATCCGGCATTATCACATCAGCGCATTTACCAGGCGGTATGG +TAAAGCTCTACAATATCCTCAAGCGTTGCTTCACGCGGGTTGCCACCGGTACAAACATCATCCAGTGCCG +CCTGCGCCAGTGCCGGAATGTCTTCCTTGCGTACACCAACATCACGCAAATGTGGCGGAATACCGACATC +ACGGTTGAGAGCAAACACCGCTTCAACAGCGGCATTACGCGCCTCTTCCAGGCTCATACCTTCCACTTTC +ACGCCCATAACGCGCGCGATATCGCGGTACTTCTCACCGGTAAAGTCAGCGTTATAACGCATGACATGCG +GTAACAGGATGGCGTTCGCAACACCGTGTGGAGTGTTATAAAACGCGCCCAGTGGATGCGCCATACCATG +CACCAACCCTAACCCAACATTCGAGAAGCCCATACCCGCAACATACTGCCCGAGCGCCATTTCTTCTCCG +GCATCCTTATCACCAGCAACCGATCCTCGCAGCGCCCCAGCAATGATTTCAATCGCTTTAATGTGCAGTG +CATCGGTTAGCGCCCACGCGCCACGGGTAATATACCCCTCAATAGCATGAGTGAGCGCATCGACACCCGT +CGCAGCTTTCAGCGCTGGAGGCATACCATCCATCATGTCAGCGTCAATAAACGCCACCTGCGGGATATCA +TGCGGATCAACGCAAACAAACTTGCGCCGTTTCTCTTCGTCAGTGATCACGTAGTTAATGGTCACTTCTG +CCGCAGTACCTGCTGTGGTAGGAATTGCCAGAATCGGTACACTGGGTTTATTGGTCGGGGAAAGCCCTTC +CAGGCTACGCACATCGGCAAACTCCGGGTTGTTGCTGATAATGCCAATCGCTTTACAAGTATCCTGTGGA +GAACCACCACCAATAGCGATCAGGTAATCCGCGCCGCTATTCTGGAATACACCGAGCCCTTCTTTGACGA +CAGTAATTGTTGGGTTGGGCACTACGCCGTCGTAAATCGCCCATGCCAGCCCTGCAGCATCCATCTTATC +GGTCACTTTCGCCACCACGCCGCATTGCACCAGCGTTTTATCGGTGACGATCAGCGCCTTCTGATAACCA +CGGCGTTTCACCTCATCGGTTAAAGCCCCAACAGCACCCCGACCAAACCATGCCGTTTCGTTCAGAATCA +TTCTGTTAGCCATCATCCTTCTCCTTGTTGCTTTACGAAATTACTCTTCAATTCGTAACCCATAGGTTTT +GAATTTCTCCAGCACTACGGCAATCTCTTCATCGCTCAGCACTGGCACCGGGTCCGTAATCGCCAGGGTC +GTCAGGTAAAGTTGCGCCAGCACTTCAACTTCATGCGCCAGCCATAACGCTTTTTCCAGATTCACCTCAC +AAGCGATAAGCCCATGATGTTGTAACAAAGTTGCCTTACGATTTTTGAGAGCCAGCGCAACATGTTCAGA +AAGTTCGCGTGTTCCAAAGGTCGCATAAGGCGCGCAAGGAATAGAATTACCGCCAGCCGCCGCAATCATG +TAGTGAATAGCGGGGATCGATCGGTTAAGAATGGAAACTGCCGTGCAATGAACGGCATGATTGTGAACAA +CCGCGTTGGCATCCGGTCTGCTTTGATAGGCTGCCATATGGAAACGCCATTCGCTTGAGGGGAGCTTTCC +TTCCTCATGTTTACCGTTGCCATCAATAAAGACAATATGCGACTCCGTCAGTTTTTCATATGGAATGCCT +GTAGGCGTAATCAGCATCCCATCCTGATAACGTACACTGACGTTCCCCGCTGTCCCCTGGTTCAGTCCCA +GGCGGGTCATTTCCAGGCAAGTGTCAATAATCTGACGAGCAAGTTTATTTCGTTCCATTAGCTACCTCTC +TCTGATTCAAAACAGGGCAATAATGTTGTTCCTTTCACACTATTGAATTAGCCGTTTAATTACCCACCAT +CTTCTTCCTGATTAACAAGAAAGAAATTCACAAGCTTATATTTTGTGACCTGGTTCAACTAATCACAGTA +AATAACTGCAAGTTCTCTTTTTATAACCCCATTAAAAATGACCGCTCTTAAAAATATTTATCAAAACGGT +CATTTTTCTATTCCTCCAAGCCCGGAATGACCGTTTTCGGCACAAACAATTAATACGGTCATCTGATTTG +TGTTTTTTATGATTTATTTTCTGAAACGGGCATGAAATTTCGATTATTAAAGTGATGGTAGTCACATAAA +GTCACCTTCTAGCTAATAAGTGTGACCGCCGTCATATTACAGAGCGTTTTTTATTTGAAAATGAATCCAT +GAGTTCATTTCAGACAGGCAAATATTCACTGATATGAAGCCCGAACTCGCTGGTTTTGCACTTTTGAAAA +CATAACCGATTACGTGCTTAAGCTTCTGAACCTAAGAGGATGCTATGGGAAACACATCAATACAAACGCA +GAGTTACCGTGCGGTAGATAAAGATGCAGGGCAAAGCAGAAGTTACATTATTCCATTCGCGCTGCTGTGC +TCACTGTTTTTTCTTTGGGCGGTAGCCAATAACCTTAACGACATTTTATTACCTCAATTCCAGCAGGCTT +TTACGCTGACAAATTTCCAGGCTGGCCTGATCCAATCGGCCTTTTACTTTGGTTATTTCATTATCCCAAT +CCCTGCTGGGATATTGATGAAAAAACTCAGTTATAAAGCAGGGATTATTACCGGGTTATTTTTATATGCC +TTGGGTGCTGCATTATTCTGGCCCGCCGCAGAAATAATGAACTACACCTTGTTTTTAGTTGGCCTATTTA +TTATTGCAGCCGGATTAGGTTGTCTGGAAACTGCCGCAAACCCTTTTGTTACGGTATTAGGGCCGGAAAG +TAGTGGTCACTTCCGCTTAAATCTTGCGCAAACATTTAACTCGTTTGGCGCAATTATCGCGGTTGTCTTT +GGGCAAAGTCTTATTTTGTCTAACGTGCCACATCAATCGCAAGACGTTCTCGATAAAATGTCTCCAGAGC +AATTGAGTGCGTATAAACACAGCCTGGTATTATCGGTACAGACACCTTATATGATCATCGTGGCTATCGT +GTTACTGGTCGCCCTGCTGATCATGCTGACGAAATTCCCGGCATTGCAGAGTGATAATCACAGTGACGCC +AAACAAGGATCGTTCTCCGCATCGCTTTCTCGCCTGGCGCGTATTCGCCACTGGCGCTGGGCGGTATTAG +CGCAATTCTGCTATGTCGGCGCACAAACGGCCTGCTGGAGCTATTTGATTCGCTACGCTGTAGAAGAAAT +TCCAGGTATGACTGCAGGCTTTGCCGCTAACTATTTAACCGGAACCATGGTGTGCTTCTTTATTGGTCGT +TTCACCGGTACCTGGCTCATCAGTCGCTTCGCACCACACAAAGTCCTGGCCGCCTACGCATTAATCGCTA +TGGCACTGTGCCTGATCTCAGCCTTCGCTGGCGGTCATGTGGGCTTAATAGCCCTGACTTTATGCAGCGC +CTTTATGTCGATTCAGTACCCAACAATCTTCTCGCTGGGCATTAAGAATCTCGGCCAGGACACCAAATAT +GGTTCGTCCTTCATCGTTATGACCATTATTGGCGGCGGTATTGTCACTCCGGTCATGGGTTTTGTCAGTG +ACGCGGCGGGCAACATCCCCACTGCTGAACTGATCCCCGCACTCTGCTTCGCGGTCATCTTTATCTTTGC +CCGTTTCCGTTCTCAAACGGCAACTAACTGAACATATTTTCCGAATAAAGTGAGGAATCTGTAATGAAAA +AAATCAGCTTACCGAAAATTGGTATCCGCCCGGTTATTGACGGTCGTCGCATGGGTGTTCGTGAGTCGCT +TGAAGAACAAACAATGAATATGGCGAAAGCTACGGCCGCACTGCTGACCGAGAAACTGCGCCATGCCTGC +GGAGCTGCCGTCGAGTGTGTCATTTCCGATACCTGTATCGCGGGTATGGCTGAAGCCGCTGCTTGCGAAG +AAAAATTCAGCAGTCAGAATGTAGGCCTCACCATTACGGTAACGCCTTGCTGGTGCTATGGCAGTGAAAC +CATCGACATGGATCCAACCCGCCCGAAGGCCATTTGGGGCTTTAACGGCACTGAACGCCCCGGCGCTGTT +TACCTGGCAGCGGCTCTGGCAGCTCACAGCCAGAAAGGCATCCCAGCATTCTCCATTTACGGTCATGACG +TTCAGGATGCCGATGACACATCGATTCCTGCCGATGTTGAAGAAAAACTGCTGCGCTTTGCCCGCGCCGG +TTTGGCCGTCGCCAGCATGAAAGGTAAAAGCTATCTGTCGCTGGGCGGCGTTTCGATGGGTATCGCCGGT +TCCATTGTTGATCACAACTTCTTTGAATCCTGGCTGGGAATGAAAGTCCAGGCGGTGGATATGACCGAAC +TGCGTCGCCGTATCGATCAGAAGATTTACGACGAAGCCGAATTGGAAATGGCACTGGCCTGGGCTGATAA +AAACTTCCGCTATGGCGAAGATGAAAATAACAAACAGTATCAACGTAATGCCGAGCAAAGCCGCGCAGTT +CTGCGCGAAAGTTTACTGATGGCGATGTGTATCCGCGACATGATGCAAGGCAACAGCAAACTGGCCGATA +TTGGTCGCGTGGAAGAATCACTTGGCTACAACGCCATCGCTGCGGGCTTCCAGGGGCAACGTCACTGGAC +CGATCAATATCCCAATGGTGACACCGCCGAAGCGATCCTCAACAGTTCATTTGACTGGAATGGCGTGCGC +GAACCCTTTGTCGTGGCGACCGAAAACGACAGTCTTAACGGCGTGGCAATGCTAATGGGTCACCAGCTCA +CCGGCACCGCTCAGGTATTTGCCGATGTGCGTACCTACTGGTCACCAGAAGCAATTGAGCGTGTAACGGG +GCATAAACTGGATGGACTGGCAGAACACGGCATCATCCATTTGATCAACTCCGGTTCTGCTGCGCTGGAC +GGTTCCTGTAAACAACGCGACAGCGAAGGTAACCCGACGATGAAGCCACACTGGGAAATCTCTCAGCAAG +AGGCTGACGCTTGCCTCGCCGCTACCGAATGGTGCCCGGCGATCCACGAATACTTCCGTGGCGGCGGTTA +CTCTTCCCGCTTCCTTACCGAAGGCGGCGTCCCGTTCACCATGACTCGTGTCAACATCATCAAAGGCCTG +GGACCGGTACTGCAAATCGCGGAAGGCTGGAGCGTGGAATTGCCGAAGGATGTGCATGACATCCTCAACA +AACGCACCAACTCAACCTGGCCAACCACCTGGTTTGCACCGCGCCTCACCGGTAAAGGGCCGTTTACGGA +TGTGTACTCGGTAATGGCGAACTGGGGCGCTAACCATGGGGTTCTGACCATCGGCCACGTTGGCGCAGAC +TTTATCACTCTCGCCTCCATGCTGCGTATCCCGGTATGTATGCACAACGTTGAAGAGACCAAAGTGTATC +GTCCTTCTGCCTGGGCTGCGCACGGCATGGATATTGAAGGCCAGGATTACCGCGCTTGCCAGAACTACGG +TCCGTTGTACAAGCGTTAATACATTACTCCCTGATGTGATGCCCGGTCGCTCCGGCTACCGGGCCTGAAC +AAGCAAGAGTGGTTAGCCGGATAAGCAATGTTATCCGGCTATATTGCAGGAGCGATTATGAAACAAGAAG +TTATCCTGGTACTCGACTGTGGCGCGACCAATGTCAGGGCCATCGCGGTTAATCGGCAGGGCAAAATTGT +TGCCCGCGCCTCAACGCCTAATGCCAGCGATATCGCGATGGAAAACAACACCTGGCACCAGTGGTCTTTA +GACGCCATTTTGCAACGCTTTGCTGATTGCTGTCGGCAAATCAATAGTGAACTGACTGAATGCCACATCC +GCGGTATCGCCGTCACCACCTTTGGTGTGGATGGCGCTCTGGTAGATAAGCAAGGCAATCTGCTCTATCC +GATTATTAGCTGGAAATGTCCGCGAACAGCAGCGGTTATGGACAATATTGAACGGTTAATCTCCGCACAG +CGGTTGCAGGCTATTTCTGGCGTCGGAGCCTTTAGTTTCAATACGTTATATAAGTTGGTGTGGTTGAAAG +AAAATCATCCACAACTGCTGGAACGCGCGCACGCCTGGCTCTTTATTTCGTCGCTGATTAACCACCGTTT +AACCGGCGAATTCACTACTGATATCACGATGGCCGGAACCAGCCAGATGCTGGATATCCAGCAACGCGAT +TTCAGTCCGCAAATTTTACAAGCCACCGGTATTCCACGCCGACTCTTCCCTCGTCTGGTGGAAGCGGGTG +AACAGATTGGTACGCTACAGAACAGCGCCGCAGCAATGCTCGGCTTACCCGTTGGCATACCGGTGATTTC +CGCAGGTCACGATACCCAGTTCGCCCTTTTTGGCGCTGGTGCTGAACAAAATGAACCCGTGCTCTCTTCC +GGTACATGGGAAATTTTAATGGTTCGCAGCGCCCAGGTTGATACTTCGCTGTTAAGTCAGTACGCCGGTT +CCACCTGCGAACTGGATAGCCAGGCAGGGTTGTATAACCCAGGTATGCAATGGCTGGCATCCGGCGTGCT +GGAATGGGTGAGAAAACTGTTCTGGACGGCTGAAACACCCTGGCAAATGTTGATTGAAGAAGCTCGTCTG +ATCGCGCCTGGCGCGGATGGCGTAAAAATGCAGTGTGATTTATTGTCGTGTCAGAACGCTGGCTGGCAAG +GAGTGACGCTTAATACCACGCGGGGGCATTTCTATCGCGCGGCGCTGGAAGGGTTAACTGCGCAATTACA +GCGCAATCTACAGATGCTGGAAAAAATCGGGCACTTTAAGGCCTCTGAATTATTGTTAGTCGGTGGAGGA +AGTCGCAACACATTGTGGAATCAGATTAAAGCCAATATGCTTGATATTCCGGTAAAAGTTCTCGACGACG +CCGAAACGACCGTCGCAGGAGCTGCGCTGTTCGGTTGGTATGGCGTAGGGGAATTTAACAGCCCGGAAGA +AGCCCGCGCACAGATTCATTATCAGTACCGTTATTTCTACCCGCAAACTGAACCTGAATTTATAGAGGAA +GTGTGAAATGCTGAAAACAATTTCGCCGTTAATTTCTCCCGAACTATTGAAAGTGCTGGCAGAGATGGGA +CATGGAGATGAAATTATTTTTTCCGATGCTCACTTTCCCGCCCATTCGATGGGACCGCAGGTGATCCGCG +CTGATGGCCTGTTGGTGAGCGACTTGCTCCAGGCGATTATCCCGTTATTTGAACTGGACAGTTATGCACC +GCCGCTGGTGATGATGGCGGCGGTAGAAGGTGACACTCTCGATCCTGAAGTAGAACGACGTTACCGTAAT +GCGCTTTCACTACAAGCCCCGTGTCCTGACATCATCCGCATCAATCGTTTTGCGTTTTATGAACGGGCGC +AAAAAGCCTTTGCGATCGTTATCACAGGCGAACGAGCGAAGTACGGGAATATTCTTTTAAAAAAAGGGGT +AACACCGTAATCTCATACCGGTACGCCCGCATGACGCGGGCGGTTATCGAATGATGGGGTGAAAAATATG +AAAGCGGCACGCCAGCAAGCGATAGTCGACCTGCTGCTGAACCATACCAGCCTGACCACGGAAGCTCTCT +CTGAACAGCTAAAGGTCAGTAAAGAAACCATTCGTCGCGATCTCAATGAATTACAGACGCAGGGTAAAAT +TCTGCGCAATCATGGACGCGCTAAATATATCCACCGTCAAAATCAAGACAGTGGCGATCCCTTTCACATC +AGGCTGAAAAGCCATTATGCGCATAAAGCAGATATCGCGCGCGAGGCGCTCGCGTGGATTGAAGAAGGGA +TGGTGATAGCCTTAGACGCCAGTTCAACTTGCTGGTATCTGGCACGCCAGTTGCCTGACATCAACATTCA +GGTCTTCACCAATAGCCATCCGATTTGCCATGAACTCGGTAAACGCGAACGCATTCAACTGATCAGTTCC +GGCGGCACACTTGAGCGCAAATATGGCTGTTACGTCAATCCCTCGCTGATTTCCCAACTTAAATCGCTGG +AAATCGATCTGTTTATTTTTTCTTGTGAAGGGATCGATAGCAGCGGCGCACTGTGGGACTCCAATGCGAT +CAACGCTGATTACAAATCGATGCTATTAAAACGTGCCGCGCAATCGTTGTTATTGATTGATAAAAGTAAA +TTTAATCGTTCAGGGGAAGCCCGCATCGGGCATCTGGATGAGGTAACGCACATTATTTCTGATGAGCGCC +AGGTTGCAACTTCTTTGGTAACAGCCTGACGGAAAGGGTAGCAGGCCGGAGACGACGCCCCGGCCTTGCC +TGTTATCGCTCGTCGCGACGACCACCCACCGCAGCCCAGATGCGGCGGACGTGCACCGTCACTTCTTCGC +GATCGTGATACAACTGCCGCGCCTGAATCTGAGCATTTATGCCATGTTCATCAAGCTGTGCCTGAATATA +CGCCAGATTGTGTGACACTTCTTCGTAGCGTTTTTTCATCGGCAGTTTGAGGTTGAAAATGGTTTCACGG +CACCAGCCATTAACCAGCCACTGCGCCATCAATGCCGCAACTTTCGCCGGTTTTTCAACCATATCGCATA +CCATCCAGGAGATATTGCTGCGCGTCGGACGGAATTTGAAACCGTCTTCCCGCAGCCACGTCACCTGTCC +GGTATCCATCAGACTTTGCGCCATCGGGCCGTTGTCGACGGAATAAACCCACATGTTGCGCTTCACCAGT +TGGTAGGTCCAGCCGCCAGGGCAAGCGCCTAAATCCACCGCCCACATCCCGTTCGCCAGGCGTTCATCCC +ACTCATCCGCAGGAATAAACACATGAAATGCCTCTTCCAGTTTGAGCGTGGAACGACTCGGCGCATCTGC +CGGAAATTTCAGGCGCGGAATGCCCATATAGAACGGCGAATTATTGTTGCTGTATGAGTAACCGGTATAG +CAGCAGCCTGGTGCAATAAAGAATACATGCACAACCGGACGCTTCGGCGTTTCATAGTTCGCCAGCACCC +CGGCATCGCGCAAGGCAGCGCGTAGCGGAACAGTAAATTTACGGCAGAATTTCAGTAACTCTTTGCTTTC +GTTGGTATCGGCAACTTCAACACGCAGTTCACCGCCCTTCTCTACTACGCCCTGTAACATGCCGACAATG +GGGGTAATACGATCTTCTGGCGGCAAATGCTGCAGGAGTTCCCCCACCACAAACCACTGGCGGGCAAAAA +TTAATGAACTGAACGGCAGCTCACGGATTAACTTATCGCCATCATCAGGTTGATAACATTCATAAATGAC +ATAACCCGCATTCTCTTTCACGCGGGCAAAACCGAAAATTTCCCGCTGGCCGGCTTTATCGGTAATTTCT +GCGGCGCACTCTTTTTCAAAGCCCGGACGGCACAGCAATACAACCTTATTCATGACTTACGCCCTTGCGC +TTTAAACGGATAGCACCAACTAACATTAACGCCCAGCCCGCGAGGAAGCTCACGCCGCCAACCGGAGTGA +CAAACGCCCACAAACGCAGATGGGACAGCGCCAGGCAATAAAGGCTGCCGCTGAACAACACCGTGCCTAA +CGCGAGGAAAACGCTACTCCAGTAAAACCAGATACTGATGCGACGCTGCATTGCCACCGCCAGACCTAAG +ATCGCCAGCGTATGAAACGCCTGGTATTCGAGGCCGGTCTGGATCCAGCCCATCTCAACGGCCCCCATGG +TTTTACTTAACACATGCGCGCCAAAAGCGCCCAGAGCCACAAAAATGAAGCCGCTAATGGCGGCGAAAAT +CAGCATAAAACGGCTGGTCATGGTCGTACCCTACGTAAATTATTGTTCATAACGAAAGCGGAATTTTTCT +TGTTCAGCAGCGGCTTTCGCCAGGATCCATTGGCGAAAGGCGGCTATTTTACCCAGTTCTGCCTGACTGT +CATGACAAACCAGATAAAAAGCATTTTTACTGACCAGAACATCATTAAACGGGCAAACAAGACGTCCGGC +CTCGATTTCAGATTGCGCCATCACGTTATTTGCCAGCGCCACTCCCTGCCCGTGGATAGCCGCTTGCAGC +ACCATGGCGCTATGGCTAAAAATTGGCCCTTGCTGAACGTTGATATGATTTAACCCCAACTGTCGGGTAT +ATGTCTGCCAGTCACGGCGCGAAGCATCATGTAATAACGTATGTTTAGCCAGATCTTCCGGTGTCTTCAA +GGGTTTTTCGCCAGTCAGCAGTAGCGGCGAACACACCGGCAATAAATATTCGGCGTACAGTTTTTCCACC +CGTAGCCCCGGCCAGTTGCCCCGACCATAAAATATCGCCACATCAACATCATCCGCCAGCTTATCTTCCT +GACGATCAACCGCCTGGATTCGAACGTCAATTCCCGGATAAGCTGAATTAAAGCTGGAAAGTCGCGGAAC +CAACCAATGAATGGCGAAACTGGGGAGTAAACTGACCGTCAACGCCCCCTTGGCGCTACGGGCCTGGAGT +TTACGCGTCGCTTCGGTTAATTGCGAAAATATCTCTTTGATATCGAGGAAATAGCTTTGCCCTTCCTCGG +TCAGCAGGAGTGAACGATTACGGCGGCGGAACAGTTTTAGCCCCAAAAAATCCTCAAGAGACTTGATTTG +ATGACTTACTGCGGCTTGGGTCACAAAAAGCTCTTCTGCTGCGCGAGTGAAACTTAAATGGCGTGCTGCG +GCATCAAAAACTCGTAAGGCATTTAGCGGTGGTAATCGTTTAGACATGGCTATTAAACTTTGATGTTAAA +TGAATTTAACAATTAGATCACACTATGTAACCTATTAGTTTTTTTAATCTGAGCCATTATAAATTGTCCG +TTGAGCTTCTACCAGCAAATACCTATAGTGGCGGCACTTCCTGAGCCGGAACGAAAAGTTTTATCGGAAT +GCGTGTTCTGGTGAACTTTTGGCTTACGGTTGTGATGTTGTGTTGTTGTGTTTGCAATTGGTCTGCGATT +CAGACCATGGTAGCAAAGCTACCTTTTTTCACTTCCTGTACATTTACCCTGTCTGTCCATAGTGATTAAT +GTAGCACCGCCTAATTGCGGTGCTTTTTTTTACCTTGCGATCGCGAATTACTGATCCAGTTCGACCATCT +CTTTCACGTCAGTACGGTTGATCTGCTGTTTGTTGCCATTAGCGTCTTTATACGAAATCATACCGGTATC +GTTATCAGTCTGTGGTTTGCCGTCAGAGACGATGGTACGTCCGTCATTGGTGTGCATCACATAGTTCGAA +CCGGAACAGGCGCTCAGGGCAAAAGTCAGCATACAGGCAGAAATAATTGCGGCAGTCTTTTTCATCATCT +TCTCCTTAAAGCGATTAATAAATCTTAATAGTATTGATTAACAGGCTAAAATTAACGCCTAACACTATTC +AGCATATGTTACTTACGCGGCTTCGCCAGGATATCCAGATAATTCTGATGGTTAGCACTCTCCTTGTATC +AAAGTGAATTTTGCGTCACGATCGGTGCATCAAGCCGAGGAGTACCATGAACGTTTTTAATCCCGCGCAG +TTTCGCGCCCAGTTTCCCGCACTACAGGATGCGGGCGTCTATCTCGACAGCGCCGCGACCGCGCTTAAAC +CTGAAGCCGTGGTTGAAGCCACCCAACAGTTTTACAGTCTGAGCGCCGGAAACGTCCATCGCAGCCAGTT +TGCCGAAGCCCAACGCCTGACCGCGCGTTATGAAGCTGCACGAGAGAAAGTGGCGCAATTACTGAATGCA +CCGGATGATAAAACTATCGTCTGGACGCGCGGCACCACTGAATCCATCAACATGGTGGCACAATGCTATG +CGCGTCCGCGTCTGCAACCGGGCGATGAGATTATTGTCAGCGTGGCAGAACACCACGCCAACCTCGTCCC +CTGGCTGATGGTCGCCCAACAAACTGGAGCCAAAGTGGTGAAATTGCCGCTTAATGCGCAGCGACTGCCG +GATGTCGATTTGTTGCCAGAACTGATTACTCCCCGTAGTCGGATTCTGGCGTTGGGTCAGATGTCGAACG +TTACTGGCGGTTGCCCGGATCTGGCGCGAGCGATTACCTTTGCTCATTCAGCCGGGATGGTGGTGATGGT +TGATGGTGCTCAGGGGGCAGTGCATTTCCCCGCGGATGTTCAGCAACTGGATATTGATTTCTATGCTTTT +TCAGGTCACAAACTGTATGGCCCGACAGGTATCGGCGTGCTGTATGGTAAATCAGAACTGCTGGAGGCGA +TGTCGCCCTGGCTGGGCGGCGGCAAAATGGTTCACGAAGTGAGTTTTGACGGCTTCACGACTCAATCTGC +GCCGTGGAAACTGGAAGCTGGAACGCCAAATGTCGCTGGTGTCATAGGATTAAGCGCGGCGCTGGAATGG +CTGGCAGATTACGATATCAACCAGGCCGAAAGCTGGAGCCGTAGCTTAGCAACGCTGGCGGAAGATGCGC +TGGCGAAACGTCCCGGCTTTCGTTCATTCCGCTGCCAGGATTCCAGCCTGCTGGCCTTTGATTTTGCTGG +CGTTCATCATAGCGATATGGTGACGCTGCTGGCGGAGTACGGTATTGCCCTGCGGGCCGGGCAGCATTGC +GCTCAGCCGCTACTGGCAGAATTAGGCGTAACCGGCACACTGCGCGCCTCTTTTGCGCCATATAATACAA +AGAGTGATGTGGATGCGCTGGTGAATGCCGTTGACCGCGCGCTGGAATTATTGGTGGATTAATGACAAAC +CCGCAATTCGCCGGACATCCGTTCGGCACAACCGTAACCGCAGAAACGTTACGCAATACCTTCGCACCGT +TGACGCAATGGGAAGATAAATATCGCCAGTTGATCATGCTGGGGAAACAGCTTCCGGCATTGCCAGACGA +GTTAAAAGCGCAGGCTAAAGAGATTGCCGGATGCGAAAACCGCGTCTGGCTGGGATATACAGTGGCTGAA +AACGGCAAAATGCATTTCTTTGGCGACAGCGAAGGGCGCATTGTGCGCGGCCTGCTGGCGGTGTTGTTGA +CTGCCGTTGAGGGGAAAACCGCCGCCGAGTTGCAGGCACAGTCACCACTGGCATTGTTTGATGAGCTGGG +ATTACGTGCGCAGCTTAGCGCCTCACGCAGCCAGGGGTTAAATGCGTTAAGCGAGGCGATTATCGCTGCG +ACGAAGCAGGTTTAAGCACAGAACCGGGTCGGATAAGACGTTCGCGTCTCATCCGACCTGATTGTTTAAC +CCTGACGCGCCGCTTTCGCCATCATCTTCTTCAGCGCATGAGAAACCGCAACAAACCCAAAGGTGGCGGT +CACCATCGTTGCCGCGCCAAATCCAGATGCACAATCCATCCGCTTCGGCCCTTCTGCCGTGGCTTTCATC +GCACACACCGTACCGTCTGACTGCGGGTACACCAGCGCTTCAGTAGAAAACACGCAATCCACGCCGAGCT +TACCTTTACTGTTTTTCACTACGCCAAAATCGCTTTTCAGGCGCTCGCGCAACTTCGCCGCCAGCGGGTC +CTGAATCGTTTTCGCCAGATCGGTAACCTGAATCTGCGTCGGATCAATCTGCCCACCCGCGCCACCGGTT +GTGACCAGTGGGATTTTATTGCGCCGACAATAAGCAATCAGCGCCGCTTTGGGCCGTACACTATCAATGG +CATCAATCACGTACGAATAACCCACGCTCATATACTGCGCTACGTTATCCGGCGTCACGAAATCATCCAC +CACCGTTACACGGCACTCCGGGTTAATCTGGCGAATACGCTCCGCCATAACTTCCGCTTTTGCCAGCCCA +ACGTTATCGCGCAGGGCATGAATTTGCCGATTGGTATTGGTGACGCACACATCATCCATATCGATAAGCG +TGATTGCGCCAATCCCCGTGCGCGCCAGCGCTTCCGCCGCCCAGGAACCGACACCACCGATACCAACCAC +ACAAATATGCGCGTCAGCAAACAGTTGCAACGCTTTTTCACCATACAGACGCGCTGTGCCACCAAAACGC +TGACGCCATGCATCACTAATTACCACAGACATAGCACCTCAGAATTAAAAAGGGCGAGGTTATCCCTCAC +CCTAAACGCATAAATGCCTGATGCGCTACGCTTATCAGGCCTACATAACTCCTGCAATATTTTGGATTTG +CATGATTTGTAGGCCGGATAAGGCGTTCACGCCGCATCCGGCATGAACAACGCGCACTTAGTCAATAATC +AGGATGTGAGGTTACCCCTCACCCTGTCATATCCGTAAAAACGGCATACAGAATATCACATCAGCCGCTA +AAGACGTTACCTGCGCCCGGGGCGGTTTTCAGCACCCAGACACGTCCATAGTGGTTGTACCAACCTGCGC +GGTGTCCGGCTTCCGGCCCGATCCCTTGATAGATATCGAAGTGTTGGCCTTTGATTGCACCACCGACATC +CAGCGCCACCATCAGACGCAGTTCGTACTGACCATTAAATTTGCCGTTATTATCCAGCAACGGCACTTCT +GCCAGCAAGGTAGTACCTGGCGGAATAATGGAACGATCAGAGGCAACTGACGCGCGACCAACCAGCGGCA +CCGCACTTGCCCCTTTCACCGGAGCAAAAGATTGCGGTTTAAAGAAGACGAAAGACGGGTTCTGTTCCAG +CAGCTCGCGAACCTCGGCTTCACTGTGTGTTTCGCCCCAGTGACGAATCGCCTGCATCGACATATCTTCT +TTTTTCACTTCGCCACGGTCGATCAGCACCTTACCAATGCTGCGATAGGCATGACCGTTTTTCCCTGCAT +AGCTGAAAAAGTTAAGCGGACTGCCATCACCAAAGTCGATATACCCACTACCCTGCACATCCATAATGAA +GTTATCCATCAGGGAGTTACTGTAAGCGAGAATATATTTATCACTCAATGCCCCCGCGTAGATCTCCGCA +CGAGACGGCAGACGACCACGTTTTGGCGGCATACGGTAAATAGGATACTGGAACTCGCCCTGGCGGGTAT +GGCGCGCCTGAATTACCGGCGTGTAATAACCGGTAAACTGCACGTTACCATAGTTGTCGGCACCTTCCAT +CTGCCAGGCATCAATGCCGAACTGGCGCATATTGCGGGTATCACCGCCTGCGCGCAGCCACTCTTGCACC +GCGTTATAAACATTACTCTGGTTGCCATACAGACGCGGTGACGAATTACGGATATGGTTAATTTGCTCGG +CAAAATCACCGGCGTTAATCGGCGCGCCAACGGCATCTGGCTGGTTCACCAGAGAGAAAGGCTGGGTAAA +TTTCCCGTCTTTATATTGCTGTCCGCGATCGGTTGGTTTGGAAGAGCAGGCGGCAAGCATTGCCACAACC +GTGCCCATAAGAAGGTACTTTACCCAACGTCCTTTCATTGTTCTCTTCTTCAGGTTAAAAAATAAGGCGC +AACGAAGATAACAAACCGCCGCGTTTAATGAAATGAGCAGCCTCTCCCTGACGCAAATTTTGCACAAAAA +ATAGGCTTTAGTGATTTGTTTTTGTTCAAAATCATGCCAAATCCGTGATCGGGGTAAAAAAAAGGTTGCA +TGAAAACGCGAGCGGAGTATAGTGCGCATCCACGGACGCGGGGTGGAGCAGCCTGGTAGCTCGTCGGGCT +CATAACCCGAAGGTCGTCGGTTCAAATCCGGCCCCCGCAACCAATTAAAATTTGATGAAGTAAAGCAGTA +CGGTGACGCGGGGTGGAGCAGCCTGGTAGCTCGTCGGGCTCATAACCCGAAGGTCGTCGGTTCAAATCCG +GCCCCCGCAACCAATCAAATTTGATGAAGTAAAAGCAGTACGGTGACGCGGGGTGGAGCAGCCTGGTAGC +TCGTCGGGCTCATAACCCGAAGGTCGTCGGTTCAAATCCGGCCCCCGCAACCAATTATTGAACACCCTAA +CGGGTGTTTTTTTGTTTCTGGTCTCCCATAAAAAAGCGCCATTCAGCGCCTTTTTATCATCCCCTTCTCG +CCAGCGTCGCCCCATCGGCAAAATACGCTTTAATCCCCGCAAGAATAGACTCCGCAACTTCCTGCTGGAA +AGTCGCCGTTTTCAGTTTACGCTCTTCCTCAACGTTACTGATAAACGCCGTTTCGACCAGAATGGAGGGA +ATATCTGGTGCCTTTAGTACGGCAAACCCGGCCTGTTCAACTTGATTTTTATGCAGCTTGTTGATTTTAC +CGAGCTTATTCAGTACCGCTTTACCAAACTTCAGGCTGTCGGCAATGGTCAGCGACTGTACCATATCGAA +CATGGTGTGGTCGACATAGCGGTCACCGCTTTTGCTCACGCCACCAATCAAGTCCGAGGCGTTCTGGGTT +TGTGCCAGATATTTTGCCGCAGTACTGGTTGCACCTTTGGTTGAGAGCGCAAACACAGAGGAACCGCTCG +GCTGACGACTGGTAAAGGCGTCGGCATGGATAGAGACAAACAGGTCAGCACGCTGTTTCTGGGCTTTTGC +TACGCGCACTTGCAATGGAATGAAGATGTCTTCATTGCGCGTCATGTACACCTTCATATTGCCCTCTTTC +TCGATCAGAGAGCGCAAACGGCGAGCTATTTGCAATACCACATCTTTTTCGCGCGTTTTGTATTTCCCCA +CCGCACCGGAGTCTTCGCCACCGTGGCCAGGGTCAAGCATAATGACAATCGGACGATCGCGCCCTGCTTT +ACCCGGTTGTGGACCACTTTGCGCTGGCGGCACCTGCTTTTCGAGGTCGCCTTTGTTGTAATCCTCCAGC +AGCGCCAGCAGCGGGTCCTGCATATCCTGTGCATTGGCCGGATAGAGGTCCATCACCAGACGCTCTTTAA +ACCCGGCGACCGGCGCAAGGGCAAACAGCTGCGGTTTTACGTTTTGCTTTAATTCAAAAACCATCCGTAC +GGTTTGCGGGTCAAATTGCCCGACGCGCGCCGACTTGATGAACGGGTCGTCTGCACGAATTTGTGCCGCC +ATCCCCTTGAGTACCGAGTTCAGGTTTACATCTTCGATATCCACCACCACGCGTTCAGGGTTACTCAACG +CGAACTGCTTATATTTCAGCTGACGATTTGATTCCACCGTCACGCGGGTGTAGCTGGACGCAGGCCAGAC +GCGCACCGCCACGACCTGGCTGACCGCAGCCAGACTGACCTGACTTACGCTCAATAGCCACATGGCACCC +GCGCCTTGCAGTAAACGACGACGGCTGATTGCAGTGTTGGATCCTGACATGCCTCTCCCGAGCAAAAGAA +ATCTAAGCTGTGTAACAAGTAAACGACTAATTTGACCGGAAACTTTAGCGAAAGACGCATAATCTGTCAT +CTAATAAACGGTAAACATTCTTTTTATATTCACGGCATTACTGATAAAAAAGTCGCTCTCGCATAAAATT +TACACTTGCACCCTGCGAAAAAACAGAATAAAAATACACTAATTTCGAATAATCATGCAAAGAGGTGTGC +CGTGGTAAAGGAACGTAAAACCGAGTTGGTCGAGGGATTCCGCCATTCGGTTCCCTATATCAATACCCAC +CGGGGAAAAACGTTTGTCATCATGCTCGGCGGTGAAGCCATTGAGCATGAGAATTTCTCCAGTATCGTTA +ATGATATCGGGTTGTTGCACAGCCTCGGCATCCGTCTGGTGGTGGTCTATGGCGCACGTCCGCAGATCGA +CGCAAATCTGGCTGCGCATCACCACGAACCGCTGTATCACAAGAATATACGTGTGACCGACGCCAAAACA +CTGGAACTGGTGAAGCAGGCTGCGGGAACATTGCAACTGGATATTACTGCTCGCCTGTCGATGAGTCTCA +ATAACACGCCGCTGCAGGGCGCGCATATCAACGTCGTCAGTGGCAATTTTATTATTGCCCAGCCGCTGGG +CGTCGATGACGGCGTGGATTACTGCCATAGCGGGCGTATCCGGCGGATTGATGAAGACGCGATCCATCGT +CAACTGGACAGCGGTGCAATAGTGCTAATGGGGCCGGTCGCTGTTTCAGTCACTGGCGAGAGCTTTAACC +TGACCTCGGAAGAGATTGCCACTCAACTGGCCATCAAACTGAAAGCTGAAAAGATGATTGGTTTTTGCTC +TTCCCAGGGCGTCACTAATGACGACGGTGATATTGTCTCCGAACTTTTCCCTAACGAAGCGCAAGCGCGG +GTAGAAGCCCAGGAAGAGAAAGGCGATTACAACTCCGGTACGGTGCGCTTTTTGCGTGGCGCAGTGAAAG +CCTGCCGCAGCGGCGTGCGTCGCTGTCATTTAATCAGTTATCAGGAAGATGGCGCGCTGTTGCAAGAGTT +GTTCTCACGCGACGGTATCGGTACGCAGATTGTGATGGAAAGCGCCGAGCAGATTCGTCGCGCAACAATC +AACGATATTGGCGGTATTCTGGAGTTGATTCGCCCACTGGAGCAGCAAGGTATTCTGGTACGCCGTTCTC +GCGAGCAGCTGGAGATGGAAATCGACAAATTCACCATTATTCAGCGCGATAACACGACTATTGCCTGCGC +CGCGCTCTATCCGTTCCCGGAAGAGAAGATTGGGGAAATGGCCTGTGTGGCAGTTCACCCGGATTACCGC +AGTTCATCAAGGGGTGAAGTTCTGCTGGAACGCATTGCCGCTCAGGCGAAGCAGAGCGGCTTAAGCAAAT +TGTTTGTGCTGACCACGCGCAGTATTCACTGGTTCCAGGAACGTGGATTTACCCCAGTGGATATTGATTT +ACTGCCCGAGAGCAAAAAGCAGTTGTACAACTACCAGCGTAAATCCAAAGTGTTGATGGCGGATTTAGGG +TAAGCGATGAAAATCGTCGGATGCGACATGCGTAACACTCGTACGTCGCATCCGGCAATTACGTTTATTC +CCGTGAACTAAACAACGCCGCCAGACCACTGCGCCGCTCAGTACGAGTGGCGATTGCCGCACTTAATATG +CGCTCATCGGCATACAGCGACAGACGGCGACGCGCGCGGGTCACCGCGGTATAAACCAGCTCTCGCGTTA +CTACCGGCGTGCGTTGGCTCGGCAAAATCAACGCCGCATGGTCGAACTCCGATCCCTGCGATTTATGTAC +CGTCATCGCCCACGTAGTTTCGTGCTCTGGCAAGCGACTCGGTTGCACAGACTTAATATTGCCGTCCGGC +ATCGCAAACCAGACGCGCGTCCCCTGCCCGCGATCCAGCGCAATACCGATATCGCCATTAAACAACCCAA +GCGCGCTGTCATTACGGGCAATCATCACCGGTCGACCTTCGTACCAACGAGAGTGCGGATGACGATGAAT +TTTGCGCTTCTGTTGCATAAACTGCTCAATTCGCTCATTCAGTCCAGCCACGCCAAACGGCCCTTCCCGC +AGGGCGCACAAAAGCTGGTACTCATTGAACGCCTGAATGATTAAATCCGGCTCGGCACGCGCTTGCAGCA +GATCCAGATAACGTCCGTAACCCGCAAGAGCTTCCTCAAGCATCGCAATATAATCTTCGCCGCTCTGTAA +AAGCCGTTTTTCGATATCAGTAAAATCCTGCTGAAAAACGGTTTTCACTGCCGTTTTATCACCACGGTTG +ATCGCCGCAGCTAACTGACCAATGCCAGAATCGCTGCCGAAACGATAGCTTTTTTGCAGCAGGCAGAGAC +TGTCGCGCAAAGATGCCGCTTCTGTGCCGGTTCCTGCCGGAACGTGAGTCCCCGTCAGGCGGCTTAGCTG +CCTGGCACGCTCGGCGGTAAAGCCCGCGTTGGCATAAGCGCAGATATCGCCCAGCACAGCCCCAGCCTCA +ACCGAGGCCAGTTGATCACGATCGCCGAGAAAGATCACTCGCGCATGATCGGGCAAGGCGTCGATCAGTC +TCGACATCATAGGCAGATCGATCATTGACGCTTCATCTACCACCAGCACATCAAGATGCAGCGGGTTACC +GGCATGATGACGTAAACGCTGGCTACCCGGCTGCGCGCCCAGCAATCGGTGCAAAGTGCTGGCATCTTCC +GGAATGCGTTTCTTTTGTTCATCGGTCAGCGGTAACTGTCGCAAAGCCTTGCCGAGAGATTCGGTTAAGC +GCGCGGCAGCTTTACCCGTTGGTGCAGCCAGACGGATACGGCAGCGTTCGCCGTCGGCCATTTGAATTAA +CGCTGCCAGCAACTTCGCTACGGTGGTCGTTTTACCGGTGCCAGGGCCGCCGGAAATCACCGAGATCCGC +CGCGTCAGCGCCACTGCCGCCGCAACTTTTTGCCAGTTAATTTCATCGCTTACTGGAAAAAGTTTGTCCA +GGGTTTGCGCCAGTAGAGCTTCATCAACCTCAATGGCATGATTCACTTCGTTGAAAAAGCGTGCCACTGT +GCGCTCGTTACACCACATGCGATTCAAATAAAGACGATCGCCACAGAGGATCATCGGCGTGGGTTCATCT +CCCCTGCTGACCGCTTGAGAAGCCAGCAAGCATTCTTCCCAATTTTGTAGCTCACCGATTTCACTGACAC +AGGTCGCCAACAGCGGATGCGACGCCTCGTTATTTTCCAGTCGTGAAAGCGGCAAACAAACGTGTCCCTC +TCCGGCATCATGACTTAACAGTGCCGCCGCGAGGGTGACGGCAGGATGTTCATCTCCCGCCACGGTCAGG +GCAAATTGCACATCCAGCGGGCGTAGCTGTTTGTGCTCCACAGCTTCCAGTAATTGCTTTTGCAATTTCA +TTACGCCTCCTCCAGGGTCATACCGGCAAACATCTCATCCATCAGGGCAATCAACCCGGCGTTGGGTCGG +GTTGTGTAAATCCCCTGTTGCGGATGTTCTTTATCAACGCCACGCAGGAACAGATAAATAACGCCGCCAA +AGTGGTGCTCATAGTCGTAATCAGCAATGCGATGGCGCAGATAACGATGCAGCGCCAGGGTATAAAGCTG +ATATTGCAGATCATAGCGGTGTGCCTGCATTGCCGCTGCCATAGCCTGTTGGGTGTAAGCCGAACTGTCT +TCACCCAACCAGTTGGATTTATAGTCGAGCAGGTAATAACGCCCTTCGTGGCGGAACACCAGGTCGATAA +AGCCTTTTAACATGCCACGTACCTGCATGAACTCCAGCGGCGGGCAGCCTGCGGATAGCGGGTCAAACTG +GCGGATTAACGTATCAAGCTGACTGGCGATAAGCGGTTCACTAATCGGCAGATAAAACTCCATCTCCACC +TGTTTATTGCGGGCGGAAAGTTGACTCAGGCTTACGCCGGTTTCATTGAGAGGTGCCTGGAGGACAGCCG +TGATCCACTCGGTCAATACCGGTTCCCACTGCGATTCAAAGCCGCCGAGTTCCAGTTTTTCCCGCACCCA +GTTCGGGTCAACCGGCTGGGTAAAATCCAGGTCTTCAAACAAACTGTGCAAGAACGTCCCCGGTGACGCA +CCGCGCGGAAACTGATGTGGTGTTAACGTCGGTTCTTCAACGACGCTGGCAACGCCTGCAGCATCGACAT +CCAGCCGAGGCATCAAATCCTGGGCGATACCGTGACCACGCTGTTGCAAACCAGAGTAGCTGGTGACGCG +CCAGTTATCGCCGGGCAATCGTTGTAACGTCTTCGCATTCAGCTCTGCTGTAGAAACATCATTAACCTGC +CAGGGTTGGTTATCACCAGTTTGTGCCGTTTGCCAGGCAATATCATCATCGCATAACGCTTCAATACAGG +TGCGAAGCCCTGCCGCATCTTGCGGTTCCCCTTTTTGCAGCAAACGCCCGAGCGCACTTTGGTGGACGTC +GGTGTCACCTTTTTTATCGCCACGACGGCGCACCAGCGGTGCAACGCCGAGACTGCAATGCCAAACCGAA +CGTGTCAGCGCCACGTAAAGCAAACGCAGATCTTCCGCCAGACGTTCGGCCTCCGCGAGGTCGACGCTTT +CTGGCGCAGCATTAAGATCCAGAACTGCCTCAAACGAGTGGCGATCGTGATAAAACGCCTGCTCCTGGAC +GCGGAAATTGGTGATAAACGGCAGCCAGACCAATGGATATTCCAGCCCTTTCGATTTGTGGATCGTGACA +ATCTGCACCAGATGTTTATCACTTTCGAGACGCATTTGTTGGCTGGAGGCATTACTGTCTGGCTCGAGGA +TATGTTGCGATAACCAGCGTACCAGCGCATGTTCACTTTCCAGCTGCGTTCCGGCTTCTTGTAGCAGTTC +GCTGATATGCAAGATATCGGTAAGACGCCGCTCACCGCCTGCCGTTGCCAGCAAGTTTTCAGCAATGTTA +CGCGCCGACATCAGCGCCCGCAGCATCGGCATAACGCCACGTTTGCGCCAGATTTGCCGATAACCATCGA +ACTCTTCGACTACCACATCCCACGCATGTTCGTCATTGTTCAGCGTTTCGATATCCAGCGCGTTCAGCCC +CATCATTGACGTTGCCAGCGCACTACGCAGGGTGTTCTCACGTTCGGGCGTCATCACCGCCTGCAACAAC +CAAAGCATTTCCTGCGCTTCCAGAGTTTCAAAAACACTGTCGCGGTTCGAAAGGTAAACGGAAGGGATTT +CCAGCAACGTTAAGGCATCGCGCACCTGGGCGGCCTCCTGGCGGCTGCGCACCAGCACACTGATGTCCGA +AGCACGCACCGGACGCGCGTCGTCGCCGTTCATCAGCAACGCTTCGCCCCGCTGTCCGGCTTGTAGCCAG +TCGCGGATTTGCGCAGCACATACCTGCGCCATGGTACTTTGATAATCGCCAACGCCGCAGCTTTCGCCTT +CCATCAGCCACATTTTCATCGCAGGCTGTGTTTCACCTTTAAATACAAAACGTAACGCCTGATTTTTCCC +GGCTGATTTCACTGGAATAAACGGTATTTCGCGAAACATGAACGCGTCATCAGTCTGGCTGAAAAGCTTA +TTCACGCTGTTCACCATTCCTGGTGCGGAACGCCAGTTGGTGTCTAAAGTGTAGTGGGCGTGAACTTCGC +TACGCGCCTTCATATAAGTGAAGATATCCGCACCCCGGAATGCATATATGGCCTGCTTCGGGTCGCCAAT +TAGCAACAATGCGGTTTCCGGCTGATGGTGCCAGATACGGCGAAAAATTCGGTACTGCTGGGGGTCGGTA +TCCTGAAATTCATCGATCATTGCCACCGGGAATCGCGTACGGATCGCCGCTGCCAACACCTCACCGCTTT +CGCTACGCAGCGCGGAATCGAGCCGACTTAACATGTCATCAAAACCCAATTCGCCACGGCGGCGTTTTTC +ACGCGCTACTGTTTCGCGGATCTCAGCCAATGCGCGGGTGATCACCAGATCGCGGATCGACAATGGTTCT +GCAAGCAGTTGATCGATCGCCTCAAACAGTGGATGTCGCGGGGTTTCCCCCCCGGCCTTCGTGCGATCTT +CTAAGAAACGCTGGGAGAATTTTTCCAGCGACTCCGGCAACTGATAACTGTTTGTCTCTTCTTCTGCCCA +GGCGCTGATCTTGTCGATCCATTTAGCCTGATTGCTACGGTTAAACTTGCGTCGATCAATACCAGAAGAT +TCGATCAGCGCATCCAGTTCACCCACTGCGTCGCGCCACTGCTGTTTTACCGTATCAATACGCGCCACAA +TTTGCGCGTGACGGGAAGCCAGCGTTTCATCATCGGGCGGCGGTGCTTTGATAACCGGCGCTTCGCCTTG +CAGATAACGATTAATATCGCGCAGCAACGCCTGCGGCCCTTTCCAGGTTTCAAAGACGACCTGGGCTATT +TCACGCGGCAGCGGGTAGCAGTGGCGACGCCAGAAATCGGCGCAGGCCTGGTAGCGTAGCAGAGACTCAT +CTTCAATCAGCTGCTGCTCAAACAGCATGCCGGATTCAAAGGCATTCAGGTTGAGCATGCGCTGGCAAAA +GCCGTGAATAGTAAAGACTGCCGCTTCATCCATCTGCCGTTCGGCTAACAACAACCACTGCGCGGCTTGC +GCTTTATCGTCGATCTCTTCCAGCAGGCGTTCGTACAGTGGATTGTCGGTGGTTTCACGCAGACAGGCGA +TGCGCAACTCGTGGATATTGCTACGGATACGACCGCGCAATTCTGCCGTGGCAGCCTCGGTAAAGGTGAC +CACCAGCAGTTCTTCAACGGTCAGCGGGCGGGGAAAGGCGGCGGAACCGCCTAGTCCAAGTAACAGGCGC +AAATAGAGCGCCGCAATCGTAAAGGTTTTGCCTGTGCCGGCAGAGGCTTCAATCAGGCGCTCACCCTGTA +AGGGCAAGCGCAAAGGATCTAGTGTCTCGGCGACATCACTCATTCTTTTCACTCATCAGGGGCATTGTTT +GCTGCAACGCGCTGACGTTCTCCCACACTTTCCAGCCTTCAGGGTGTACATATTCGGCTTTCCCGTTCTG +GCTGCCGGAAATCTGCGACAGAATAGCCATGCCTTGCGGCTCGACCACCGCCTGATGGAAGAAATCAGCA +AGTTTTTGCGGCGTCAGCAGTTTTATCTGGGCCACGATTTTATCACGCGAATCGAAGCGCATATTGCCGC +GATCGAAATCTTTACTTAACTTCGATGCTTCTTCGCCGAGCGTTTGCGGTGCCTGCAGCATCTGGGTAAT +TACCGCCTGCTGGATTTGCGCAAACTCATCTGGCTTCATCGCTCGCAATTTTGCCTCTGCGGTTGGGAAA +AACGCCTTGTAACGCTCCCACAAGAATGAAGGCTGTTTATCATTGCTTTGCAAAAGGAAGCCCATGCCCC +ACTGACGCCCCACGCTCATTGGAAACGCAAACACGGCATAGCCCAATTGTTCTTCGGTACGCAACTGATT +GTAGAACCACGGCTGTACGATCTGCCCCAACAGAGAGCTATAGGCTGAGCTGGTGTATTCATCGTAGCCA +GTCGGTACAAATACCGCTGCCAGTGCGGAGTCGGTGCTGTTACCGGCTTTTTCAAAGATGACGGATTGTT +TTTTATCGACCACTACATCTTTGTTTCGACACCACTCTGAACCATCAGCGCCCAACTGTTTTTGCACATC +GCGTGCCAGCGTTGTTGCCTGGGCCTCGGTCATGTTGCCGATAACCATAAACTCTGGTCGAGCCCCTGAT +TTTAAGGCGTCGCGATAGGCCAGCACCTCTTTCAACGTAATGGAGGGCAAAATTTTACGCCGTTCATCTC +GCGAGAAGTACGGCACTTGCGAGAGCATCTGCGCGGGCATAATCGCCTGCTCAAACGCTTTACCCTTTTC +TGCGGAATCCATCATCTGGTTATACCAGGACTTCGCCTGCTCAAGCTGATCTTCCGTAGCGGTATAGCTA +AAGTACCCCTCGAGCAATGCCTGGAACAGCTGCGGCAGACGCTGGGTGTAACCATTAGCATTAACCATAA +GGCCGTTGTTAGCGTTGGTGGAAAAACTTATGCCACCAACCGACGCCTGGTTGCTTAACTGATCAAGCGC +CAGCCCTGCGAGATAATCATTGAGCGCAAACATCACCTGATTGCGGGCGCTGTCCATGGCTTTCGGATTA +CGCAAAATCAGGCTGACATCAGCTTTGGGCTCGCTGGCAAAATAACGGCTTGGCGCATACACCACGCGCA +GATTCGACTCATCAACAATCAGCTCTGGATGGTCGTATTTCTTCTCTGACTTAATCAGCGAGAAATCATC +AGGAATATAAGGGTTAAGCTCTGGCAAAGAGAGCGCAATGTCGGCGGCTTTTTTCTGCCAGTCGGCGAAA +GTTTGTGCGCTGATTTTATCGACCTGATACGGCGCATCGACAAAGTAAGCCGTTTTGTTGTGCGGCTCTT +TCGGGCTGATATACCAGATACGCGCATTCTGCGGCGTCATCATCGCCAGACGTTCCTTTACTGCTTTAGC +ATCGTACCGATCGGCAATATTGACTGCATCCAGCGTATGCTCAACAGGAACGCGAATCATGGTATCTGCC +AGCCATTCGACGTAATCCATATCACGGGTGATCGACGGATAACGGAAGTCGATATCCAGCACATTCGCCA +GTTCATCGAAGTATTGTTTATCAATGCCTTTTTCACGTAACAGATTGAGATAGCTAAAAATTGCCGCCAC +AACCTGATCGCGATTAGCCAGGCCTTTATCGGTTAAAGACGCAGAGATCGCTAATACGCCGCTGTTGCCG +TTGACGATAGGATCGGAGTTGGCGCTAATGCCCTCAACTAATCCCTGCTTTTGCAGCCAGTCAGAAAGTG +TACCTGGGCTGCGATTGCCAATCAGATAGGTAATCAATTCATCGGTTTTACTACGGAACTTCGCTGAGTT +GTTATCGATGCGAAACTCAACGCGCAACACTTTACGCGGCAGCGCAGGGACGTAATGAATGATAATGCCC +TTTTGCGCGTCGGTGACTACCGGCACGGTGATTTCCGGTTTTTTGCTCTCTTTGTTCGGCACGCGACCAA +AGGTGTCCGCCGCCATTTTTGCCAACTCCGGCAGCGGTTTATTACTGTAAATAACCGCCTTCATCAAATT +GGCGGAATAGTACTTCTCGTGGAAATCTTTCAGCGCCTGCTGCACCGGATTACCAGGTTTGTCGCTTAAA +GTTTCGAGGTTACCACCAGAAAACTTTGAACCGGGGTGTGCCGGGTTAATGGTTTCTGCGCTGACCTGTG +CCATGCGCATCCCGTCACGCGTACGCGCCATGGTTAATTCAGCGTTCACCGCATTACGCTCACGTTCGGC +ATATTTCTTGTCGAGCAAAGGTTCAGCAATAGCATCGGCCAGGCGGTCTACCGCACCAGGCAAGGCGTCG +TTCTCAACTTCCAGATAGAAAGCCGTGCGATACGGCGCAGTGCTGGCATTGTGACTACCGCCGTGCATTT +TGAGATATTCGGCCAGACTGTCAGCCTGCGGGTACTTTTTCGACCCCATCAGACTCATATGTTCAAGGTA +ATGTGCCAGCCCCTGGTACGCCTCGGGATCTTCCAGCGACCCAACGGGCACCACCAGCGCCGAGAGCGAT +TTAACTGCCTGCGGATCAGAAACCAGCAAGACCACCATACCGTTATCCAGACGTATAGCCTGATACTGGC +GGTTATCTTTATCACTTTTACGGATGGTTTCCTGAATCGGCTGCCATCCCGTTTCTGCCTGACTTAAGGG +TGCCCAAAGGGCAACTAACAACAATAATGCTTTGAACCAGGTGCTGCGGGGCATTCACGGACCTCATAAT +CAACTTAATTTTCTGTCCAGATTCAACACGTTAACGCAAATCATCTGCCAGAATTTAATCTTGTGCTGCA +CGAGTCAGCCTATGTTTATATAACCATCAGTCCGTGACTGGTGCGCATCATAAAGTAAGCGGATAGATTG +CGCAATTTTTATACAGCACTCATGACTGATTAAAGCGAAACAGCGGTAACAGGAAACGTTGCGACTGTTC +AACGATGGCCTCCATTGTCTCTGGTGTTAATTGCCGCCAGAGCCTTTGATACCAGATATCATCACCTTCG +CCACGCACCATCATGTTGCCTTCGTAAGCCTGAAGGAATTTCGTACGGGCTTTTTGCAACGTGGAATCGT +CATCCAGCATGGCATCGTTTTGCGCGTCATAACAGGTTTTTAGCCACGCGCCGCCACTTTCAGGTAACAC +CAGCAATGGCGCGGACATTCCTTCACGATACCCCTCAATCAGTTGTGAGAGGTAATGCAAAGCCTGTTCG +GCTGCAAGCGGCGGAAAACGCCACTCGCCGTCTTTGCGTAGAAAAAGGCGACTTTCACCATTACCACCGC +TGGCACAGTAGACAAGGTGTTCCAGCCAAAGTTGCATTCCCTGGGCCACACTTAATAAAGAGGGACGCCA +GCGCAACAGGCCATCCGGCTGCACCTGCGGCAACCAGCCAGTTATCTGCACACCGTTGCAGGCGAGATCA +ATTTCCATACTCTGCCCCGGCTGGCGACAGGCAATGACTCTGTCGGCAAGCTGCTGCATCTCCTGGCACT +GTGTTTCCCAGAAAATTTCACCAAAAGCGCCATACGGTAAATCCCCTGCCGCTCGGAAGCGGCGGAACAA +GCGTTCGGCATCATCCTGCTCAACCAGTGCATTCAATAACTGCTGATTGATTTGATAACGGCTAAGTCCT +TCCAGAATAAATGGCTCGGTGTCGGGGATTTCGCTGTCTTCAGTACGGAAGTTCACCTGCAAACGCATCT +GGAAAAATGCCCGCACCGGATGTGCCCAGAATCGTTGTAGCGTTTCCAGCGGCACGGTTTCCGGTAAGGT +AAACGGCAGCGGCTGAACAAATTCAGAATGTGCTTTACCAGCCTGGCTGGCCGCAGGTAGCCATTCACGA +GCATAGCTTTGTCGTTCGCCTGGCTGGTAGTTTTGTGGATCAAACGGCATCCGGGTATGGAGGCAAGTAA +GATGCGCTTTTACCCTTGCCTCGCTTTCATCACAGTTGAGCGCTTCATCGCCCGGTAGATAATGACTTTG +CCCGATGTAGTCGATCAGTTCCTGCACCAGTACCGACGGGAAACGCTCACTGTTATCCTGAATGGAACGA +CCGATATAGCTGATATAGAGTTTTTGCTGCGCGGAAATTAACGCTTCCAGGAACAGATAGCGGTCGTCAT +CGCGACGGCTACGGTCGCCACGCTTCGGTTTCTGGCTCATCAGGTCAAAGCCCAATGGCGCAAGCTGACG +TGGATAAACGCCGTCGTTCATTCCCAGCAGGCAAACCACTTTGAACGGAATTGAACGCATTGGCATCAGA +GTACAAATGTTAACCGGTCCGGCGAGAAAACGCTGGCTGATACGTTCTTGATCCAGACGCTGTGCCAGTT +CATCACGCAATAGTGACAGCGGCACCGCGTCGCCATACTGCGCACCTAAACCTTCGGCGATAATCGCCTG +CCATTGTTGTTCGATCAGCGTCATCGCCGCTTCGGTTTCCGCATCCGGCAGGAAGAAGGCGTTGAGCATA +TCGCGACAAACCGGCAACCACTCTTCCAGCGGACGCTCCTGTGCCAGCCCGCGACGCCAGATGTTTAGCT +GCATTAGCAGTGAAGCCAGATGCCCCACCAGTTCTGCAATTAAGCCGCTCGATTCATCATAAGGTAGAAC +CGATTGCCACTCGCCCTGCGCGCTCTCCATCGCGTAGCCCAACAACATACGCGTCAGGCCAAATCGCCAG +GTGTGTTGTCCGGTGGCGGGGAGTTCCAGCTCGCGAACGTTGTCGTCATCTATGCCCCAACGAATGCCGG +ATTCGTTGACCCACTGGCGTAAATAACGCAGCCCTTCTTCGGTGATGTCAAACCGCGCCGCCAGCACCGG +CACATCCAGCAACGCCAGCACATCCTCTGACACAAAACGACTGTCAGGCAGTGATAACAGGCTGATAAAC +GCTTCCAGTACCGGATGTGACTGCCGCGCACGACGGTCGGAAATGGCGTAAGGTAGGTAACGATCCGCAG +GTGCGCTACCAAACACAGCCTGAATAAACGGACTGTAGCTGTCGATATCAGCCACCATCACGATGATGTC +GCGCGGAGTAAGTGTCGGGTCTTCCTCCAGCATCGCCAGCAGGCGATCGTGTAAAACTTCAACTTCACGC +TGCGGGCTATGGCAAACGTGGAAGGTGATACTGCTATCCAGTGGATCAAGCGGGCGTTTGTTATCGCTAC +GGGAAAACTCTTCGATGTTCACACCAGCAACGGCGCGGTTTTCCAGTTCCAGAATGTCAGACTGAATGTT +ATGCAGCAGGTTATCTGGCGTGACATCGACAAAGGCGTCCAGCTCCTGGCTGCTCTCCAGGTCAGAAAGG +AGATAAATGTAGTCGCGCCCAAGCTTACCCCATGAAGCCAGCAGCGGGTTGCCGACATCCTGTTCACCAT +CGCTGTTAAAGAGCTGCCCGGCATTTTCGCTATCACGAAATAGCGGCAATTCGCGATCTTCAAAACTGTG +TCGACGCTGACGGGTCAGCAGTTTCGCCAGATAAGCAGGATCTTTAATATCGCCCCAGTAATAACGGCAG +GGGTTGGTAAACAGGAGATGGATTTCAATATGTTTACCCAGCGCCTGTAGCGCCTGGAGATAAACAGGCG +GTAACGCGGAAATACCGCATATAAAGACGCGCGAAGGTAACCCCGGCGGGCAGGTCGTCGCGGACTCCAG +CGTTTCGATAAAGCGCTGATAGAGATTGGCGCGGTGCCAGCGCGGTTGCCCGAGTTGATGGGTATATTCC +ACCAGCGCCTTCCACAACGGGGCTTGCCAGGCCTGTGCTTCTCCCAGCCCTTCAACCAAATGTCCTGTTT +CCCACTGTGCCAGCCAGTCCGGACGATAGACCAGATACTGGTCAAACAGGTCCGCCGCTTTTGAGGAAAG +CTGGAACAGTTTTCGCTTGTCGCTATCGTCAGTCAGATAATGCCGCAACAGGGTAAAGTCTTCGCGCTCC +AGCAATTGCGGCAGCAGAGTCATCAGTTTCCAGCTCATGCTCTGTTTGTTAAAGGCGCTCTCTTTGGGGA +TTTCCGGTAACACCCGGACGAACATATCCCAGATAAAGCTCGCTGGCAGCGGAAAATCAATGTTTGCCGC +AATACCAAACTTTTGCGACAGGGTCATTTGCAGCCACTGTGCCATACCGGTACTTTGCACCAGAATCATC +TCTGGTTCGAAAGGATCGTCCAGCCGTTCGCGTTCGACAATAAACTCCATCAACGCTTCCAGCACGTCCA +GACGATTGGAATGGTAGACCCTTAACATAGCGGCTCCTGACTACTGACGATTCGGGCAATGCAGGCGGGT +CATCTCGCCTTCTCTGCCCCCGGGTGAAACTAGCGTAACGCTGATGCTGACACATCCCGCCTGCGATGTC +TGCATTCGGTTGACCTGCCAGTTGGCAGGTGGCGAAATCGCGCGCAGTTGCGTTTGCTGCCAGCCATGCC +GCCAGAGCTGTTGGTACTGGTTTCTGCTGGCAAGACTGTTCATTAATGTTCGCTGGAAACCCGATAACGC +AGTGACAATCATCACCATCAACACCATCGCCAACATTACCTCCGGCAGGCTAAAGCCTTGTTGATTCTTC +AGGGAAGCTGACATAACGCCCTCTCTTTCAGCGGACAAAAATCGCTCCAGCCGCGTGGCGAAAAAACAAT +GTTTCCATCAATGACTTCGCCTGTTCGCCACAACGAAACGCCTTCATAACCGGCAATCAATAAGGCTTCA +TTATCTGCCAGTAAACGCAAACAAACCTGGGCATCGGTTTCAGCGTACTGCGAGCACTGAACTGCTGGCT +GCGTCTGCCAGCAGTGCATTTTTCCCCACGCCAGCGCCGACTGAACGATGGCCTGGCGGCGCAATGACTG +ACTTTCCATGCTCACGCGAGAGGCAAAACTGCGATCCTGTTGGCTCATTCCTTGTAATAGCAAACTACCC +AAAACCAGCAGCATCAGGACCAGAGCCAGTGACGAAACACCCTTTTCGCGGTTCACAGGTTGAATCCTGT +CACGCTATAGCTGGCATTCACCACGGTTTGCGGTTCAGACTTACTGGCAGCACGCATATTAACCGTCAAC +ACCGGCGAGAAGCCGCTGACATCCTGACGTACGACCTGAAAAGTGTCGATAATGATGGCATCCGGATTAG +TGACTTTATCCCAGCCCTTACCTTCACAGGATGTCGCACCGCGTAGCGTTTCCAGCACATGCTCCTTCAG +ACGAAATCCAATCTGGTCGGACTCTTTTACCGGTTCGCGATCCCAGATACCGTTACTGTTCGCATCCCAC +TGCACAATGACACAGTCACCCTGTCCGACAATTTCCAGCCCTTCGCCGGTACAGATGCCATGACAATAAC +CCGCCCTCTGGAGATGCTTCGCGACGGTAAATACCCGCAGCCAGATTTCATCTTCCAGCGCCAGCTTACG +GGTGCTCGTTAAACTTTCACGCTGTAACGCAGGCAGAAAGCGTGCCGCCCCCAGCAACAATACGCTACTG +ATCGCCATAGCAATCAACACTTCCAGCAGAGAAAAACCTTGCTCTTTTACAGGCATCCTTCTGTTTCTCC +TTGCTGACAAAGCCGGAGTCTTCCCCACGGCGAAACCACCAGCCACCACTCGCCCGTTGAGTTTTTGAAG +CGAATATGCCCGGCCCATGCGGTATTGCGCAGGCCAAAGAAAGCAAGCGAAGGTGTCAGGTCGCTCATTT +CGACTTCGGGCCAGCGTGGCACAAAGACCAATGGTGAACTGCCATGACAGGTATTGGCCCCAGCAGCGGA +ACTCACAAGGCACCATAACGTCCCCTCCCTGATAACGCTGATACTGTGGTCGCGGTTATGCCAGTTGGCA +TCTTCACGTAAATAGAGCAAATAGTCCCGCGCCTGGCTGGCGGTTTGCCATAGCCGTTGCGACTGCTGCC +AGTATTGCCAGCCATAGAGTCCACTTGCGCTTAGCATGACCAAAATCAGCATCGCGACCAGCGTTTCAAT +CAGCGTATAACCACGTTGTGTTTTCATGCCGGCAGTATGGAGCGAGGAGAAAAAAAGACGAGGGCCAGTT +TCTATTTCTTCGGCGCATCTTCCGGACTATTTACGCCGTTGCAGGACGTTGCAAAATTTCGGGAAGGCGT +CTCGAAGAATTTAACGGAGGGTAAAAAAACCGACGCACACTGGCGTCGGCTCTGGCAGGATGTTTCGTAA +TTAGATAGCCACCGGCGCTTTAATGCCCGGATGCGGATCGTAGCCTTCAATCTCAAAGTCTTCGAAACGG +TAGTCGAAGATGGATTCGGGTTTACGTTTGATAATCAACTTCGGCAGCGGACGCGGTTCGCGGCTTAATT +GCAGATGAGTTTGATCCATATGGTTGCTGTACAGATGCGTGTCGCCACCGGTCCAGACAAAATCACCCAC +TTCCAGATCGCACTGCTGCGCCATCATATGCACCAATAACGCGTAGCTGGCAATGTTGAACGGCAGGCCG +AGGAAGACGTCACAGGAGCGCTGATAAAGCTGGCAAGAGAGTTTGCCGTCTGCCACATAGAACTGGAAGA +ATGCATGGCACGGTGCCAGCGCCATTTTATCCAGTTCGCCTACGTTCCACGCTGAAACAATAATGCGGCG +CGAATCCGGGTCGTTTTTCAGCTGGTTCAGTACCGTAGTGATCTGGTCAATATGACGACCATCTGGCGTT +GGCCAGGCGCGCCACTGTTTACCATACACTGGCCCGAGGTCGCCGTTTTCATCGGCCCATTCGTCCCAGA +TGGTGACATTGTTTTCGTGTAGATAAGCAATGTTAGTGTCGCCCTGCAGAAACCACAGCAGTTCATGGAT +GATGGAACGCAGGTGGCAACGTTTAGTTGTCACCAGCGGGAATCCATCTTGCAGGTTAAAACGCATCTGA +TGACCAAAAATGGAAAGCGTTCCGGTTCCGGTACGGTCGTTTTTCTGTGTGCCTTCGTCGAGCACTTTTT +GCATCAGTTCTAAATACTGTTTCATGGTTCCTCAGGAAACGTGTTGCTGTGGGCTGCGACGATATGCCCA +GACCATCATGATCACACCCGCGACAATCATCGGGATGGAAAGAATTTGCCCCATGCTGATGTACTGCACC +CAGGCACCGGTAAACTGCGCGTCGGGCTGGCGGAAAAACTCAACAATGATGCGAAACGCGCCGTAACCAA +TCAGGAACAAACCTGAGACAGCTCCCATTGGGCGTGGTTTACGAATATACAGGTTGAGGATAATAAACAG +CACCACACCTTCCAGCAGCAGCTCGTAAAGCTGTGATGGGTGGCGCGGCAGCACACCGTAAGTGTCGAAA +ATGGATTGCCACTGCGGGTTGGTTTGCAGCAGCAAAATATCTTCTGTACGGGAGCCAGGGAACAGCATGG +CAAACGGGAAGTTCGGGTCAACGCGGCCCCACAATTCACCGTTAATAAAGTTGCCCAGACGCCCGGCACC +AAGACCAAACGGAATGAGTGGTGCGATAAAATCAGAGACCTGGAAGAAGGAACGTTTAGTACGGCGGGCG +AAGATAATCATCACCACGATAACGCCAATCAGGCCGCCGTGGAAAGACATGCCGCCGTCCCAGACACGGA +ACAGATACAGCGGATCGGCCATAAACTGCGGGAAATTGTAGAACAGAACATAACCAATACGTCCCCCGAG +GAAGACGCCGAGGAAGCCCGCATAGAGTAAGTTTTCAACTTCATTTTTGGTCCAGCCGCTGCCCGGACGA +TTCGCCCGTCGTGTTGCCAGCCACATTGCAAAAATGAAACCCACCAGATACATCAGGCCGTACCAGTGAA +GCGCCACGGGTCCTATTGAGAAAATGACCGGATCAAACTCCGGAAAATGCAGATAGCTACTGGTCATCTG +TCACCACAAGTTCTTGTTATTTCGCTGAAAGAGAACAGCGATTGAAATGCGCGCCGCAGGTTTCAGGCGC +TCCAAAGGTGCGAATAATAGCACAAGGGGACCTGGCTGGTTGCCGGATACCGTTAAAAGATATGTATATG +ATCCGCGCTATAACCCTCCGCGAATCAGCCCGCCCATGCCGCGACGCTCCATAAAGGCTGCAACCTGATG +GCGAACTTCGGTCGCCAGTTGCGCTTCCAGACTACGCTGCGCAAGATTTTCTGCTTCGGCATAATCAATG +CGCCGCAGCAGGTATTTTGCCCGCGCTACAGAACGTCCGTTCATAGACAGATGGCGATACCCAAGCCCAA +TGAGGATTGCCACGCACATGGGATCGCCCGCCATTTCACCGCACAAACGGAGATCGATTCCATGTATTTC +CGCTTCCCGGGCGATCATCGCCAGAGCTCGTAACATTGCAGGATGAAGACTGTCATAAATGTTCGCCACC +CGGGTATTGTTGCGATCAACGGCCAGAATGTATTGAGTCAGATCGTTGGTGCCAACAGAGATGAAATCGA +CCCGCTTTGCCAGATGCGGCAGCATAAATACCATTGACGGCACTTCCAGCATGATGCCGATACGTGGTTT +GGGAATTTCGTAACCGATCATCTCCTCGACTTCACGTCCGGCACGTTCAATCAGGCGGCGTGCTTCATCA +ACTTCATCGAGGCTTGTGACCATCGGCAACAGAATATTCAGGTTGCCCGTAGCGGCATTAGCACGCAGCA +TCGCCCGCACCTGGATCAAGAAGATCTCCGGCTGATCGAGCGTAATGCGAATCCCACGCCAACCCAGGCA +TGGATTCTCTTCGCTGATCGGCATGTAAGGCAGCTGCTTATCTGCTCCGACATCCAGCGTACGCAAGGTG +ACGGGTTTATCATTGAACATTTGCAGCATCCCCTGATACTGCGCCACCTGTTCTTCTTCCGACGGGAAAC +CACTTTGCAGCATGAATGGGATTTCAGTGCGATAAAGACCGATGCCATCAATACGGCTGCCCAGTTTTTC +TTCATGTTCCGGGCTTAAACCAGCATTGAGCATGACTTTTATACGCTCACCGCTTTTTAACTGCGCGGGT +AAATTGACGTCATCTTCCGCCAGACGGCTAAGCTCAATCTCTTCACTAATTAGCCGCTGATATTCTTGCA +GCAGTACCGGCTCCGGATCGACCAGCAATTCACCGCGATAGCCATCAACGATCAGCGTCCTACGATGCAG +CACCGAAGGCTGAATATCCGCGCCCATCACGGTAGGGATCCCCAGCGCACGTACCATGATCGCAGCATGG +GAGTTGGCTGCGCCATCTCGCACGACAACACCGACTAAGCGATCCTGGGGCAGCTCAGCAAGCGTTGTCG +CTGACAGTTCATCTGCCACCAGAATGAAACGTTCCGGCCAGGCGTTCGGCCCTTGATTAGCGTCATCAAG +ATGAAACAGCAATCGCTGACCCAGCGCACGTAAATCGCCAGCCCGCTCTTTGAGATAGTTATCACTTAGC +GCGGCAAACTGTTCGGCAAATTTTTCAATGACCGTTTTTACCGCCCACTCTGCCACCGAGCCTTTATCAA +CCTCGGCAAACAATTCGCGACGCAGCCGGGTGTCCGAAAGCAGGTGCGAGTAAAGATCGAAAATAGCCGC +CGTTTCTTTTTGTGCACCGGCGGCAAAGCGTTTGCTGTAGCGGCGAAACTCGTTTGCCGCTTCTTCCAGC +GCCCCGGTCAGTCGTTCGCGTTCCAGAGCCGGATCCAGCGTTGATGCCTGATACACCTGTTCCATTAAAG +GTAACGTGGCATCCTGCCAGCCTTCGGCAATCGCCACACCAGGTGCTGCCGGTAATGCGCGGATTCGCGT +CTGGCGATATTGCCCAAACAAGGCAGTCAACTGCGACTGAGAAAGAATAGCTGCCATCTGGGTGGCAAGC +GTCACCAGGAAGGATTCTTCACTTTCGTCATACTGGCGCAACTCTCGTTGCTGTACCACCAGTACACCAA +GCAACTGGCGACGTTGAATAATTGGTACGCCTAAAAACGCGCGGAAACGTTCTTCTTTTACGGAGGGGAT +GTATTTGAAGCTGGGGTGCTTTTGCGCATCTGCAAGGTTTATCGGTTCCGCCAGCCTGCCAACCAGGCCG +ACGATCCCTTCATCAAACGCGAGCGTTACAGTGCGACCGCGTGGTTTTTTCAGCCCCCGGGTCGCCATCA +GGTAGTAACAACGTCGATCATGATCGGCCAGGTAGACCGAACAGACCTCGGTATCCATCGCAAGACAGAT +GTCGGTAACCAGAATATTTAACGCCTCATTCAGGCGTGGTGCGCTGGCTACCTTTTCGACTATTTCGCGC +AGGCGAGTGAGCATAATTGGCGTGACTTAACCTCTTTTACGTCGATAAGCAGATGCGTTTTGTGGTTTTG +GCGTATTTTCCTGCAGTGACATCACCACACTCGCGAACTCTTTCATTACCCTACGGTAGACATCACGTTT +AAATGACACCACCTGTCTGACCGGATACCAGTAACTTACCCATCGCCAGCCGTCAAACTCTGGTGTACTG +CTGGTTTGCATATTGATTTCTGCATCGCCGCTCACCAGCTGCAAGAGAAACCATTTTTGTTTTTGGCCGA +TACAAACCGGCTTCGTGTCCCAACGCACCAAACGTTTCGGTAATTTGTAGCGCAACCAGTTACGCGTTGA +AGCAAGGATTCGAACGTCTTTGCGGCTTAATCCTACTTCTTCAAACAATTCACGGTACATCGCCTGCTCT +GCGGATTCTCCGGGGTTGATTCCGCCTTGCGGAAATTGCCAGGAGTGCTGACCAAATCGCCGGGCCCACA +TTACCTGCCCCTGGCGATTACAAATCACGATACCTACGTTTGGGCGGTAGCCATCGTCATCAATCACCGG +ACTACCTCAAAATAAAGCTTTATATACGAATGATTGTTTCATACTCCAGGAAGACGGTAAACCACTCTCT +GCAGGGCATTACACACTAATAACAATTGAATAACTCACAGTTATGTGCAGAGTTATAAACAGAGGAAGGG +GTGGATAGCCGTTTTTATTCACCTTTTCTGTGGATAGAGTTGTGAAGAACTACGGAATTACTACGGGAAA +ACCCGGAGCATTCTGAATAAGCCCGATATAGACATTTTAAAATATTCATTATCAGTCAATGCATTACATG +TAATTTTAGTAATGAAAAAGAGTAATTCGTGACCCAGGTCACACCTCTCATTTACGGGTTGGCGAAAGAT +CAACCAATGCCGTATTTATCCACAGAATGTGCCACTAAGTTAAGCACTGAACCACTAAAAACTGGAGTTT +CGTCGCACGTCAAGGCTGTAAATGGAAACAGTAGTGGAGGTTTTTCACAGTTATCCCAGCTTTCTGTGGA +TAACATGGTGTAAGATCCTGTTTATTTTCAGTGACCAGATTTGGAAAACCCGTTGCAGTGTTGCGCAACT +CGATTACCGGCAACCTAAAAAGCAATATAAATCAGAGAATTGAACAACGCATGTGGAAAAAGTTACACTG +CGAATATTCGGCACATAATTGCTGTTTGTTTTTTAATCAAGGTATCATGACATGTCCCAACCTCGCCCAC +TGCTCTCTCCTCCCGAAACTGAAGAACAGTTGTTAGCGCAAGCACAGCAACTTTCTGGTTATACATTGGG +AGAACTGGCGGCACTTGTCGGGCTGGTTACGCCAGAGAATTTAAAACGCGATAAAGGCTGGATTGGCGTG +TTACTGGAGATCTGGCTAGGTGCCAGCGCAGGGAGTAAACCTGAGCAAGATTTTGCTGCTCTGGGCGTGG +AACTTAAAACTATCCCTGTGGATAGTCTTGGTCGTCCGCTGGAAACAACATTCGTTTGTGTTGCCCCGTT +AACGGGCAATAGCGGGGTGACCTGGGAAACCAGCCACGTGCGCCACAAACTCAAACGCGTACTGTGGATA +CCGGTTGAAGGCGAGCGCAGCATCCCGCTGGCGCAGCGTCGCGTTGGATCACCGTTGCTGTGGAGCCCGA +ATGAAGAGGAAGACCGGCAGCTACGCGAAGACTGGGAAGAATTAATGGATATGATTGTTCTCGGTCAGGT +TGAGCGGATTACCGCTCGTCACGGGGAGTATTTACAGATACGACCGAAAGCAGCGAATGCGAAAGCGCTT +ACCGAAGCCATTGGTGCCCGGGGCGAACGGATTCTGACGCTGCCACGCGGCTTTTATTTGAAGAAGAATT +TCACCAGTGCACTACTGGCCCGTCATTTTCTGATCCAGTAGCCATCGCTTTGACCTGCCGCTTTCCGGGC +ATATAATTACCGCTTCATTTTTTTGGCAGGGCTTTTTAGATGTTATTTGCATGGATAACCGATCCTAACG +CCTGGCTTGCGCTCGGTACGCTGACGCTGCTGGAGATCGTTCTTGGGATCGACAATATTATTTTCCTTTC +TCTGGTGGTGGCAAAGCTTCCCACAGCACAACGTGCTCATGCGCGCCGTCTGGGGTTGGCGGGAGCCATG +GTTATGCGTCTGGCGCTGCTGGCATCAATCGCCTGGGTTACGCGCCTGACAAATCCGCTTTTTACAATAT +TCAGTCAGGAAATTTCTGCCCGTGATTTGATTCTGCTTCTGGGTGGCTTGTTCCTTATCTGGAAAGCCAG +CAAGGAAATCCACGAATCCATTGAAGGTGAAGAAGAAGGGCTGAAAACACGCGTTTCATCATTCCTCGGC +GCTATCGTGCAGATTATGCTGCTGGATATTATCTTTAGCCTCGACTCGGTGATTACGGCTGTGGGTCTGT +CAGATCACCTGTTTATTATGATGGCAGCCGTGGTGATTGCCGTAGGCGTGATGATGTTCGCCGCGCGCTC +GATTGGTGATTTTGTCGAACGCCATCCTTCGGTAAAAATGCTGGCGCTCTCTTTCCTGATTCTGGTGGGC +TTTACCCTGATTCTGGAAAGTTTCGACATCCACGTACCGAAAGGTTACATCTACTTCGCGATGTTCTTCT +CTATTGCGGTTGAAAGCCTCAACTTGATTCGCAACAAAAAGAATCCGCTCTGATACTCCGTACGCTCTCC +TGCGGGAGGGCGTACTCACTCCTTTTACCCTCACAGTTTAAGATTTTCCTGCTTTCAAGATATATAACGT +CGGTTTATAAACAGACTATTATCATAGGTAGGCCAAATGAGGATAACCGGATGAAAAAATGGGCAGTAAT +AATTTCTGCAGTCGGACTGGCGTTTGCTGTTTCCGGGTGTTCCAGTGATTACGTCATGGCGACCAAAGAT +GGCCGTATGATTTTGACCGATGGAAAACCTGAAATTGATGATGATACCGGGCTGGTGAGTTATCACGATC +AGCAAGGTAACGCGATGCAAATTAACCGTGATGATGTTTCGCAAATTATTGAACGTTAACAAATAAGGTC +AGCATCCGGCTGGCCTTAAGATTTTTCTCTTTCCCTTTTCCCTTCCCTCTGCCATTTTTATATTCCTTAT +GTCGTGATTATAAAAAGGAAACGGCTATGCAATATCACCGTATACCCCACAGTTCGCTGGAAGTCAGCAC +GCTGGGGCTTGGCACGATGACGTTTGGTGAACAGAACAGCGAAGCCGACGCCCACGCACAACTCGACTAT +GCCGTCGCTCAGGGCATTAACCTTATCGACGTTGCCGAAATGTACCCAGTACCTCCGCGCCCCGAAACGC +AAGGGTTAACCGAAACCTACGTCGGCAACTGGCTGGCGAAACATGGCAGCCGCGAAAAGTTAATTATCGC +CTCCAAAGTGAGCGGACCGTCGCGCAATAATGACAAGGGCATCCGCCCGGATCAGGCGCTGGATCGGAAG +AATATCCGCGAAGCGCTGCATGACAGCCTCAAGCGCCTACAGACTGATTACCTCGATCTTTATCAGGTGC +ACTGGCCGCAGCGCCCGACCAACTGCTTCGGCAAACTCGGTTATAGCTGGACGGATTCTGCGCCTGCGGT +TTCGCTGCTGGATACGCTGGACGCACTGGCAGAGTACCAACGCGCGGGAAAAATTCGTTATATCGGCGTG +TCGAACGAAACTGCATTTGGCGTAATGCGCTACCTGCATCTGGCGGACAAACACGATCTGCCGCGTATTG +TCACCATTCAGAACCCTTACAGTCTGTTAAACCGCAGTTTTGAAGTAGGTCTGGCAGAAGTCAGCCAGTA +TGAAGGGGTCGAACTGCTGGCCTATTCGTGCCTGGGTTTCGGCACGCTGACCGGGAAATATCTCAATGGT +GCAAAACCCGCTGGCGCACGTAATACGCTCTTTAGTCGGTTCACCCGCTATAGCGGTGAGCAAACGCAAA +AAGCCGTCGCGGCGTATGTTGATATCGCCAGACGTCATGGCCTGGACCCTGCTCAGATGGCGCTCGCGTT +TGTACGCCGTCAACCGTTTGTTGCCAGCACTCTGCTGGGCGCAACCACGATGGATCAGCTGAAAACTAAC +ATCGAAAGTTTGCATCTGGAGTTAAGCGAAGACGTATTAGCTGAAATTGAAGCGGTGCATCAGGTTTATA +CTTATCCGGCACCATAAGATTAACGCCGGTTAAAACCGGCGTTAAATATTAATGACGGCGCTGCCAGATC +CACAGCGCCGTTATTGCCAGCGCAAACAGCGCACCGAAGCCAATGCCAATGGGCACGACCGGGATGCCTA +TCATTACCGCCAGCGAGTAAATGCCCAGCATCAACAACATGGCGCTGTTTTCGCCAAGGTTTTGTACTGC +AATCGCATTCCCCGCCCCGACGCTTTTTTTACCCCGCTCCTGTAGCAACGCATTGAGCGGAACGACAAAA +AAGCCCCCCATCACGCCAATCAGCATCAACAAGGCATAGGCTGGCAGCAGCTCGTGTTGCAGGGAAAAAA +TCAGTACCACCACGCCAATCAAAATCCCGGCTGGCATACAGCGTGACACGGTTTCCAGCGTAACTAACTT +CGCTGCCGCACCTGCGCCAACCACGATACCAATCGCTACCATCGCGTTGAGATAGGTGGGCGTAGCGTTA +TCGGTAATGCCCAGCGCCACCGGTACCCACAGCACCAACAGGAAACGCAGCGTGACACCCGCTCCCCAGA +ATAAACTGGTGCCCACCAGCGAAAAACGCGTTTCACCATTGCGCCATAGCGAGGTGCAGGCATTCAGGAA +ACTGCGGGTCATGTTGATGAGATTCCAGGACTGCCCCGGACGCGCCGCCGCCAGTTTGGGAATGTAGATA +TTGGCAACGACCGCACCACCGTAGGCCAGTGCGCATGCGGCCAGGGCGACGAGGACATGCCAGTCAGCCA +GCACACCACCGGCTACGGAACCGAGCAAAATCGCCGCTATGGTAGAAGCTTCCATTAAACCGTTAGCTTT +CACTAACTTACTACCCGTGGTTAATTCGCCGAGAATACCGTATTTCGCCGGTGAATAGGCTGCAGCACCA +ACACCCACCAGCGTATAGCCGAGAAACGGATTGATACCAAAGCAGATACTGGCTGCGCCCAGCAGCTTCA +GGCCGTTGGCAAACATCATCACCCGGCCTTTGGCGAAGCTATCCGCCACCTGCCCGACAAACGGCGCAAA +AAGAATGTAAGCACCTACAAACACCATTTGCAGGATGGGCTGGCTCCACTCCGGATAGAACTGCGCTTTC +AGTAACGCCAGAGTGGCAAACAGTAGGGCATTATCGCCAAACGCAGAGAGAAACTGCGCCACGATAACCG +CTTTCATCCCCTTCGACCACAACGAAGTGTTAGTGTGCACTGACTCACTCATCGTGTTGTTCCGCTTCGT +CTACCCAGCTTTTCAACGTGACAAAGTCAGGTTTGCCGCTGCCAAGTAATGGCATCTGTTTCAGATAGCG +AATATCGCGCGGTACAGCAAGCTCCGGCACGCCGTGCTCGCGGGCATACTGTTGCAACTTATCGCGCGTC +AGTTCGTTATCTGTGGTGAAAAGCACCAGTGCCTCGCCTTTGCTGGCATCGCTCTTAATCGCAGTGGCAT +GGACTTTATCTGGCGAAACACCAAGTGCCAGTTGTTCCACCATTTCCAGCGACACCATTTCGCCTGCAAT +TTTGGCAAAGCGTTTTGCGCGGCCCTGAATCTGCACAAAGCCCTGCTCGTCAAAACGCACAATATCGCCA +GTGTCATACCAGCCGCGCTCCATTTCGCCGCGAACATTCTCGGCGGTGGGCACTTCCAGTACACCTGGCT +TCTCCACCCGCAGATAGCCGTTCATTATGTTCGGCCCTTTCAGTTGCAGGCGTCCGCCCTCTTCGATACC +AGGGACCGACAACAGGCGCGCATCCATTCCTGGTAGAATACGCCCTACCGTACCGGGTTTCGCCGCCATC +GGTACGTTGATAGAAACGACAGGCGCGCATTCGGTCACGCCGTAGCCTTCAAGGATGCGCAGGCCAAATT +TATCCTGCCAAAGCTGTTTGGTACTTTCTTGTAATTTTTCTGCGCCTGCCACCACATAGCGTAGACGATA +GAAGTCATACGGGTTGGCGAAACGCGCGTAGTGACCGAGGAAAGTCGAGGTGCCGAACAACACGGTGCAA +CTGCGGTCATACACCAACTCCGGCACAATGCGGTAATGCAGCGGGCTTGGATAAAGGAACACTTCTGCAC +CTGTAAGCAGTGGCGTAAACAGGCCTACCGTCAGCCCAAAGGAGTGAAACAGCGGTAACGCCGACATAAA +GCGATCGTTGGTGGTGAAGTCGGCAATCGTTTTAATCTGCTCGACATTCGCCAGAATGCTTTTATGGCTA +TGGACGACGCCTTTCGGATGGCCTTCAGAACCGGAGGTAAAAAGGATCAGCGCCTCTTCTTCCGGCTGCT +GTTTAACCTGTGCCAGACGCGGCATCAGCAAATGAGCGAAGATCCATACTTTGTCGGCAGTGGTGACATC +TGCTTTTAAATCTTCCAGATAGACCCAGCGCACCTGAGTAAGTTGCTCCGGCAGATGCCAGAGTTTGCCT +TTATCGAGAAACTGGCGGGAAGTGAAGATGGTTTTGATTTCAGCCGCCGTAATAGCACTGGTCAGCCCTT +TTACCCCGGCAGTGTAGTTCATCATTGCGGGCATGCGGCGACGGGCGATGGCCCCAAAAATCACTGCCGC +ACTGATGCCTGCATTGGGCAGCATTAAGCCGATGCGTTCGCCTTCAACACTGTATTTTTCAAGGATGCGT +CCAACAAACAGCGTTTTCGTAAGCAATTTGCGATAGGAGTCTGGGGTAAAGTTGACGTCTTCGACACATT +TCTTCCCGGCTCCGAAGCGGTACATTGCACTCAGTAAAGATTCGTACAGCGTTTCACGCGGGCGCACCGC +CATTCGCGCTTCCATCATTATTTGATGCAGCATTTCGCCAGCGATTTTGCGACGGTCACGGGCACGCGGC +GCATCCGGCATCGCCACCTGCGTTGGTGGCAAAATATGCAGAGTAATTTGCGGGAACAAGCGACGTTTAA +CCAGACCTTTCAGGCGGCTGAAGTGCGTAAGTTCCGCCCCTTCAATACGCACAGGAATAACCGTTGCACC +AGACTTCGCCGCGACAAAACCCGCGCCATCGTAGATTTTCATCAGCGAGCCTGTCGTGGTGATGCGTCCT +TCAGGGAAAATCACCACTGGTCGGCCCTGTTCCACCAGACGTACCAGATGTTTAATAGCCATAGGTTGCG +TCGGGTCGAGAGGAACAAAGTCGATAAATGATTTCAGCCAACGCATATACCACTGTTGGCTTATTGAGGT +GTAAACGGCAAACACTGGACGCACAGGTAAAAACAGTCCAAGCAAAATGCCATCAATAAAAGAGACGTGA +TTAGGCGTAATTAGAACGCGCTCGCCCTTCAGTGCCTGGGTGTCACCCGTAACGCGAACGCGATACAAAA +CACGGCACAAATTTCGAAAAAAGCTAAAAAGCATTCCAACTCCCTTTGCTCTGATTCAGTAAAAGCGAAT +GGAGGGAGATTACACGAGATAAAGAACGCGAGCGACAGTAAATTAGGTGCGAAAAAAAACCTGCGCATCC +GCGCAGGTTGGTGCAAGAGACAGGGTACGAAGAGCGTACCGAATAATCTCACCAATCAATACCTCTGGGA +TCTTGATTGTGGTCTGCACGACGACTCTTCGCCAGCGAGAAAACGCAAAGGAATGAAGGGAAATGCAACG +AGGTGTGTAAATTGTCGGTTACTGTTACAGATTGATGACCGGCAAAAAAAACCTGCGCATCTGCGCAGGC +TGGTGTAATTCATGTGCTCAACCCGAAGTTGACTTCACCTATCAATACCTCTGGGATCACCACTTTAGCA +ACCTGAAGCCAAACGCCACCAGCGGTCAATCGCAACAGCGTTTCGCAAAGTGTAACCAAAGGTTTGCAAT +CTCTTTTTTTGTCTTACTTATTTGCGTTTGGCTCACATTCCCACGATGAAAACACGCCACCCCTTGAACC +AACGGGCGTTTTCCGTAACACTGAAAGAATGTAAGCGTTTACCCACTAAGGTATTTTCATGGCGACCATA +AAGGATGTAGCCCGACTGGCAGGCGTTTCAGTCGCCACCGTTTCCCGCGTCATTAATAATTCACCCAAAG +CCAGCGAAGCTTCCCGGCTGGCTGTGCATAGTGCAATGGAGTCTCTTAGCTATCACCCGAACGCCAACGC +CCGTGCGCTGGCGCAGCAGACCACTGAAACGGTCGGTCTGGTCGTTGGTGATGTTTCCGATCCGTTTTTC +GGTGCAATGGTGAAAGCGGTCGAACAGGTGGCTTATCACACCGGTAATTTTTTATTGATTGGCAACGGTT +ACCACAACGAACAAAAAGAGCGTCAGGCCATTGAGCAACTGATCCGCCATCGCTGTGCTGCGTTGGTCGT +CCATGCCAAAATGATCCCGGATGCTGATTTAGCCTCATTAATGAAACAAATGCCCGGTATGGTGCTGATC +AACCGTATCCTGCCTGGCTTTGAAAACCGTTGTATTGCTCTGGACGATCGTTACGGTGCCTGGCTGGCAA +CGCGTCATTTAATTCAGCAAGGTCATACCCGCATTGGTTATCTGTGCTCTAACCACTCTATTTCTGACGC +CGAAGATCGTCTGCAAGGGTATTACGATGCCCTTGCTGAAAGTGGTATTGCGGCCAATGACCGGCTGGTG +ACATTTGGCGAACCAGACGAAAGCGGCGGCGAACAGGCAATGACCGAGCTTTTGGGACGAGGAAGAAATT +TCACTGCGGTAGCCTGTTATAACGATTCAATGGCGGCGGGTGCGATGGGCGTTCTCAATGATAATGGTAT +TGATGTACCGGGTGAGATTTCGTTAATTGGCTTTGATGATGTGCTGGTGTCACGCTATGTGCGTCCGCGC +CTGACCACCGTGCGTTACCCAATCGTGACGATGGCGACCCAGGCTGCCGAACTGGCTTTGGCGCTGGCGG +ATAATCGCCCTCTCCCGGAAATCACTAATGTCTTTAGTCCGACGCTGGTACGTCGTCATTCAGTGTCAAC +TCCGTCGCTGGAGGCAAGTCATCATGCAACCAGCGACTAACCGCAGTTAAAGCAATTCCAGCGCCAGTAA +TTCTTCGATGGTCTGGCGACGGCGAATCAACCGCGCCTGACCATTATCAAACAGAACTTCTGGTAACAGC +GGACGGCTATTGTAGTTGGATGACATTGATGCGCCATATGCCCCTGTATCATGCAGTACCAGATAATCAC +CTGCCTTCACTTCCGGCAAGGCGCGGGTTTCAACATTTCCCCCTTCCTGCTGGGTAAAGACATCGCCCGA +TTCACATAACGGTCCGGCGACGACGGTTTCCACCGTTGGCGCGTGTTCCAGAGAACGACCATCAGCTGCC +AGGGCACTGATATGGTGGTAACTACCGTACATTGCCGGGCGCATCAGATCGTTGAACCCGGCATCAACCA +GCACAAAGTGGCGGCTCCCCATTTGTTTGACGCTCCGCACCTGAGTAATTAATACGCCAGACTGCGCTAC +CAGGAAGCGACCCGGTTCAATTTCCAGTTTCACAGGGTGGCCCAAATGGCGGGCGATTTGCTCACGCGCG +GCATTCCACAGACCATAATAATGTTCGGTATCAACCGCCTCTTCACCCTGTTGATAAGGAACAGAAAGCC +CACCGCCCGCAGAAATAGCCTGTAAATCCTGACCGAATTCGATGACCTGACGCACCATAGCACCACACAC +CTGTTCCAGATGGGCATAATCAACGCCAGAACCAATGTGCATGTGAATGCCGACCAGCTGCAGATGATGA +CGTTGTATCACGTCCAGTGCGGCGGGCAGATCGGTGTACCAGATACCGTGCTTGCTGTTTTCGCCACCGG +TATTGGTTTTTTGGCTATGTCCGTGACCAAACCCCGGATTAACGCGCAGCCATACCCGATGCCCTGGCGA +AACCTGGCCCAGTTGGTCGAGCATATCAACAGAACCCGCATTCACCGGAATTTGCAATTCACTGACGCGT +TCAAGCGTCGCCTGATCGATAACATCTGCCGTAAAAACAATATCATCGGGGTGCGTTTGCGGATTGTAAC +CCGCCGCCAACGCACGCTCTATTTCGCCTAACGAGACGGAATCCACTTTCACGCCCTGCTCACGCATTAA +GCGCAAAATATGAATATTGGAACAGGCTTTCTGTGCAAAGCGCACCACATCAAACTGTTTCAGCGCTGCA +ATCTGCCGACGAATAATTTGCGCATCGTAGACCCACACCGGGCAGCCAAATTCAGCGGGCAAACGCAGCA +GATTTTCGGCGGTGAGATCGGTATCGGTGCTGAACAGTGAATGTGGCATAACAAACTCCAGATAAGTGCT +TTTTTATGATTACGCCACATCATAAAAAGAATAAAAAATATCGATTTATGTCGAGTCTATGCAAAAATGA +TATGGATTACCGGATTGCGAGAGAGCGCTAATGGCCGCCGTTAACTTACGTCATATTGAAATTTTTCATG +CGGTAATGACCGCCGGAAGCCTGACTGAGGCGGCACACCTGCTACACACCTCACAGCCAACCGTCAGCCG +CGAACTTGCGCGCTTTGAGAAGGTGATCGGGCTGAAATTGTTTGAGCGCGTACGTGGGCGATTACATCCT +ACCGTGCAAGGACTGCGTCTGTTTGAAGAAGTGCAACGATCCTGGTACGGACTGGATCGCATTGTCAGCG +CCGCAGAAAGTCTGCGCGAGTTTCGCCAGGGAGAACTGTCTATTGCCTGCCTGCCGGTCTTTTCGCAATC +TTTTTTACCGCAGCTCCTGCAACCCTTTCTGGCACGTTATCCCGATGTCAGCTTAAATATCGTGCCCCAG +GAATCACCGCTACTTGAAGAGTGGCTCTCGGCCCAGCGTCATGATTTAGGACTCACTGAAACGCTCCATA +CGCCTGCGGGAACAGAACGTACCGAATTACTCTCTTTAGATGAAGTGTGTGTGTTACCTCCGGGTCATCC +GCTGGCGGTAAAAAAGGTATTAACGCCGGATGATTTTCAGGGTGAGAACTACATCAGCCTTTCCCGTACT +GACAGCTATCGCCAGTTGCTGGATCAGCTATTTACTGAACATCAGGTTAAACGACGCATGATCGTAGAAA +CCCACAGCGCCGCGTCAGTCTGCGCAATGGTACGGGCGGGGGTAGGTATTTCGGTGGTTAACCCGCTCAC +CGCACTAGATTATGCGGCAAGCGGTTTAGTGGTGCGGCGGTTCAGTATTGCGGTTCCGTTCACCGTCAGC +CTGATCCGCCCCCTGCACCGCCCGTCATCAGCGCTGGTTCAGGCGTTTAGTGGGCATTTACAAGCGGGGT +TACCGAAACTGGTCACTTCTCTTGACGCTATTTTGTCGTCAGCTACGACAGCATAAAAGCGACAGCATCC +TCGGCATGGATCGCCGCGGTATCAAACACAGGCAAAACACTGCGCTCTTCTGGCACCAGTAAACCAATTT +CTGTGCAGCCAAAAATGACGCCCTGTGCGCCCTGTTCTGCAAGGCGAGCAATCACTTGCGCACAATAAGC +GCGTGACGCTTCGGTAAATTGCCCCAGACACAGTTCTTCAAAAATAATCTGATTAATTTTCGCCCGTTCA +TCCGCTTCAGGAATAAGACAATTGATGGAAAATTGTTCCGTCAGCCGCCCGCGATAAAAATCCTGTTCCA +TGGTGTAACGCGTACCCAGCAGCGCCACACGAGTCATTCCGGCCCCGGTAATTGCACGTCCGGTGGCATC +CGCAATGTGTAAGAAAGGCAGAGTGCAACGTGACTCAATGGCATCCGCCACTTTATGCATCGTATTGGTA +CATAGCACAATACCTTCTGCGCCCGCCCGCTGTAAGCCAAGCGCCGCCTCAGCCAGAATGTCCCCGGTTT +TATCCCATTCCCCGCGACGCTGGCACTCTTCTATTTCATGAAAATCGACGCTATGTAGCAGCACTTGCGC +AGAGTGAAGCCCACCAAGCCGCTGTTTAATGCCTTCATTTATCAAACGATAGTAAGGAATGGTGGATTCC +CAGCTCATTCCTCCCAGCAAACCAATTGTTTTCATTCCTCTCTCCTGATGTGTGTTACCGCAACAAGGCT +GAATAAGGAACGAGACAAACGCCTCAACGGCCAAGTGCCCAATCTCTATTAACGAAAAAAGGGCCGGATG +TACAGCACATCCGGCCCGTGAAATCAGACGCCGATATTTCTCAACTTCTCGCCTGCCATCAGTTTGCGTT +CGATATGTTCCAGCGTGACATTTTTGGTTTCCGGAATGAGCCAGAAAGTAATGCCCACAAACGCAATGTT +CAGCGCAGTGTAGAGCCAGAACGTACCGGCAGCGCCAATGCTATCAAGCAGTGTCAGGAAGGTCGCGCCG +ATAATCATATTCGACACCCAGTTCGTGGTGGTCGAACAGGTAATACCGAAATCGCGGCATTTCAGCGGCT +GAATTTCAGAGCACAGGATCCACACCACTGGCGCGGCGCTCATCGCATAACCGGCAATACACATCATCGT +CATGCCAACAGAGAGCCAGGACAAGCCACTGGAAGCCGTACCGTTATCAAACTGCATCAGGCAATAGCCC +AGCACCAGAGTGCCTAACGCCATCACGCTGAAACCAATTTTCAGAGCCGGTTTACGCCCTGCTTTATCTA +CCGTAAACACCGCAATAAAGGTGGCGAACATAAAGGTCAGCCCTACGACCAGAGTCGCAATCATCTGTTG +TTCTGTGGTCGTAAAGCCCGCCATTTTGAAGATACGCGGCGCGTAGTACATGATGATGTTCATACCGGTA +AACTGCTGCATCGCCTGCAACAACATACCGAGAAACACAGCACGACGGACGTTACGGTTGATCTTAAACA +GTGCCCAACCGCCCTGTTTTAACTTCAGGCTTTCACGAATTTCGTTGAGTTCTTCTCGCGCTTTTTCCGA +CGTATCGCGCAGCATACGCAATACTTCTTCCGCCTCAATATGACGCCCCTTTTCCGCCAGCCAGCGCGGG +CTATTTGGCAGGAAGACTACCAGAATAATCAGCAGAACTGCTGGTAAAGCAAGAACCCCCAACATTGCGC +GCCAGTTACCGCTATAACTGAACGCTGTATCGGATAAAAACGCCAGCACGATGCCGAGTGTGACCATCAA +CTGGTACATACTGATCATCTTACCGCGAACGTTTTCACTTGCCATTTCAGAAAGATACAGAGGAGCGGTG +TAAGACGCGATCCCGACAGCAATGCCCAGCACCACACGAGCGGCGATTAACATCTCTACGCTGGTCGCAA +AAGCGGACCCTATAGAACCGAGTACAAACAGGATGGCCCCCGCCATCAGGCTGTATTTACGCCCCAGGCG +GAACGACAGCCAACCATTAAACAGCGCACCAATTGCTGCACCGAGCATCATGCTACTAACCACCCATTCC +TGCAAACGACTGGTCAGCACAAAGTGATCGGTAATGAACGGCAACGCTCCGGCGATTACGCCGATATCAA +GACCAAATAACAATCCTGCGACCGCAGCAGCTACCGAAACAAACATATTCATACGCCGCGTATCCCGCAA +AGAACGTGGCGTTAAAGCAGATTCCGTATTGATAGTAACCATTTTTTCCTGCCAGCAGAGAGTAAGACAT +AGTGAAAAAATACGTGAACAACTCACGCAGGTGTCAGGTCGGAAACAGCATAAATATGGATTAAATTGCT +GCGACATGTCGTTATGTGATGGATATTCCAATTTTCAAATTAAGTTGAATTATTGAGATTATTATTAACC +ACCTAATTTTACAGCAGATAAAATTCATAAAGTTCATTAATTGATAATTAATATGGATTATTTCATAACC +ATGATATGGATTATGATGATCTACAGGTATAAAAAACCCTGCCATGCGGCAGGGTCATAAAAGTAAGAAG +AATGAATTAACGCGCCAGCCAACCGCCATCCACGGCAATGGTATAACCATTCACATAATCTGAAGCGCTG +GAGGCAAGGAACACTATCGGCCCCATCAGGTCACTCGGCAGTCCCCAACGACCAGCTGGAATGCGGTCGA +GAATTTCCGCGCTACGTTGTTCATCTGCCCGTAGTTGTTGAGTATTGTTGGTCGCCATGTAACCCGGGGC +TATCGCATTAACATTAATGTTGTGTTTAGCCCATTCGTTCGCCATCAATCGCGTCACACCCATCACGCCG +CTTTTTGATGCGGTATAAGAAGGCACACGGATCCCGCCCTGGAAGGAGAGCATTGACGCGATATTGATAA +TCTTGCCGCCATTGCCTTGCGCGATAAAGTGTTTCGCCGCTGCCTGAGACATGAAGAATACGCTCTTGAT +ATTCAGGTTCATGACATCGTCCCAGTCCTTTTCGCTGAACTCGAGAGCATCTTCGCGGCGAATCAATCCG +GCGTTATTCACCAGGATATCAATATGACCAAACTCCGCTACCGCGCGATCCAGCAGTGCTGGAATACCAT +CAATCTTTCGCAGATCGGCGGTCAGGCTTAAAAAACGACGCCCCAGCGCTGTGACCTGCTCGATGGTTTC +AGTCGGTTCAACGATGTTAATGCCAACAATGTCACAGCCCGCTTGCGCCAGCCCCAACGCCATCCCCTGA +CCCAGTCCAGTATCACAACCAGTGACGACCGCAACTTTACCTTCGAGAGAAAATGCACTTAAAATCATAA +CAATACCTTATTCGTTTATGCCCACAACTAGCGCAAATCTTTAACGGCCACATGGTCCATATCATCAAAG +ACCTGGTTTTCACCGACCATGCCCCAGATAAAGGTATAAGCTTTGGTTCCGACACCGGAATGGATCGACC +AGCTCGGGGAGATCACCGCCTGCTCGTTATGCATCACAATATGACGCGTTTCTTGCGGCTGCCCCATCAT +GTGGAAAACGCAGGCGTCATCATCCATATTGAAATAGAAATAAACTTCCATCCGGCGCTCGTGGGTGTGA +CACGGCATGGTGTTCCACAAGTTACCCGGAGCCAGCTCCGTCAGCCCCATACTCAATTGGCAGGTTTCCA +GTACATCCGGGACAAAATATTTGTTAATCGTGCGACGGTTACTGGTGAGGTTATCGCCTAACGTGACTGG +AGATACTTCGTCCGGTGTGACTTTTTTGGTGGGATACGTCGTATGCGCGGGTGCGCAATTGTAATAAAAC +TTCGCCGGAGTGCCGGTATCAATACTGGCAAAGACAACTTCTTTTGCACCTTTACCAACATACAGGGCGT +CGCGGTGACCGATTTCATAGCATTGGCCATCGACAGTAATCGTACCGGCACCGCCAATATTGATAACACC +TAACTCGCGACGTTCAAGGAAATAGCTTACGCCGAGTTGTTTACCAACTTCCCCGCCAACGGAAACCGTT +TTAGTTATCGGCATAATGCCGCCAACAATAATTCGGTCAATGTGGCTGTAAACCATGGTGTACTCATCGG +CGACAAATACCTTTTCAACCAAAAATTCATTGCGCAGCCCTTGGGTATCCAGCGTTTTTGCGTGCGCACT +GTGGATGCTCTGTCTTACGTCCACATCAACCTCCGATAATCAGTGAAGCGTGAAAATAGAAAACGATAGT +GAAACACTGTTTCGTTTTCTCTATAAAGGGATGATATGCCCATGGGCTAGGGTTTTCAATTAAAAATAAA +ACAATGTTTCATTTTTAAGTTAAGGATTAAAAAAAGTGCAGTGTCGATCACGAATATGTCATGAGAATGG +AAAAATGAGGGAGCCCAGAAAATGTATGTCGACTTGCCAGCCATCATTATTCAACAGATTAATGACGGCA +GATATTTATCGGTAAGGAGGAAATGCAGAGCTATTCGTCACGTTCAATGGTCAATGCCACACCCTGGCCC +CCGCCGATACAAAGCGTTGCCAGTCCTTTGCGGGCATTACGTTTCACCATTTCATGAACCAGAGAAACCA +GGATTCGGCAACCGGAAGCGCCTATCGGGTGACCGAGTGCGATCGCGCCACCATTGACATTGACCCGACG +CTCATCCCACTCAAGCATCTTGCCAACCGAAAGCGCCTGTGCAGCAAACGCTTCATTAGCCTCGATAAGA +TCGACTTCAGCCAACTGCCAGCCTACACGCTCCAGGCAACGGCGGGTCGCATACACCGGCGCAATTCCCA +TCAATGCCGGATCTACACCAACGCTGGCAAATGCGCGAATGCGGGCCAGCACGGGTAAATTCAACGCTCG +TGCTTTGGCTTCGCTCATCATCATTACCGCAGCTGCGCCATCGTTTATGGATGATGCATTACCCGCTGTC +ACAGAACCGAGACTATCAAATGAAGGATTTAAACGGGCTAAGCCTTCTGCGCTGGCGTCAGTGCGTGGCT +GTTCATCGGTATCAACAACCAACGTCTGCCCGTTACTTTGGGTCATTACCGGGACGATCTCATCTTTAAA +TCGTCCGGCGTCAATCGCCGCTCGCGCTTTTTGTTGCGAGCTAAGTGCGTAAGCATCCTGCAACTGACGG +CTGATGCCATATTCGCGAGCCAGATTTTCGGCGGTGACACCAATATGATAATCATTGAAGGCATCCCACA +ACCCATCATGCACAAGACTGTCAACCAACTGGCTATTGCCAAGCTGTGCACCGGTGCGGCTATCAGTCAG +AACATGTGGTGCGCGGCTCATGTTTTCCTGGCCACCGGCGATGACAATATCAGCCTCGCCACACTGTATC +GCCTGAGTAGCCAGATGCAGTGCTTTAAGCCCGGAACCGCAAACGTCATTAATAGTGATTGCAGAAACGC +TATTAGGCAGACCACCTTTAATAGCCGATTGCCTTGCCGGATTCTGCCCTGCCCCTGCAGTCAACACCTG +ACCAAGAATTACTTCATCCACCGCATATGCAGGAACGCCGGTACGTTCTATTAACGCTTTCACGACCAGA +CTACCAAGTTCCACGGCGGAATGACCCGCTAACGCACCACGAAAGCAGCCGATAGGTGTCCGTAACGCCC +CGACAATCACAACGTCTTTCATCACAACCTCGCACCAATTAACAGTGCAATAGTAAATGATTGTTAATTA +CAGTTATCTTAATTGTTTAAAAAAAGTGATTTTTATCACAAAGGAAATATGCCTGAGCAGCAGTCAGAGA +CATAACTGGCACGTAAGGTTTGCAACCACTAACCCACCAATAGAGGGGTAGATAGGGCGTTAATCTCCCA +TACTTAACCTGGTTTATGGTAAATTGCCCTCCATTTTGTTTAATTTGTAGATGATACGTTCAGATAATGT +CTAATATTTGGTCTAAAGAAGAAACTCTGTGGAGTTTCGCGCTCTACGGCACAGCCGTTGGTGCAGGCAC +GCTCTTCCTTCCTATTCAGTTAGGTTCGGCAGGGGCTGTGGTCCTGTTTATTACTGCTCTGGTCGCCTGG +CCTTTAACATATTGGCCACATAAAGCCTTGTGCCAGTTCATCCTCTCATCAAAAACATCAGCAGGTGAAG +GGATAACGGGCGCGGTAACACACTACTATGGCAAGAAGATTGGTAATCTGATTACCACGCTGTACTTCAT +CGCCTTTTTTGTCGTCGTGTTGATATATGCAGTGGCAATTACCAACTCACTTACGGAACAGCTGGCAAAG +CATATGGTTATTGATCTTCGCATCCGTATGTTGGTGAGTCTGGGTGTTGTATTAATTCTGAATCTCATTT +TTCTGATGGGACGTCATGCCACTATTCGGGTAATGGGATTTTTGGTATTCCCATTGATTGCCTATTTCTT +ATTTCTTTCCATTTACCTTGTCGGTAGTTGGCAACCTGATCTATTAACAACCCAGGTAGAGTTCAATCAG +AATACCCTTCACCAGATATGGATATCGATTCCCGTGATGGTTTTCGCCTTTAGCCATACGCCCATTATTT +CTACGTTTGCCATAGACAGACGTGAAAAATATGGCGAACACGCTATGGATAAATGCAAAAAAATTATGAA +AGTCGCTTATCTCATCATCTGCATAAGTGTACTGTTCTTTGTCTTTAGCTGCCTGCTTTCTATTCCACCT +TCGTATATTGAAGCTGCTAAAGAAGAAGGGGTCACCATTTTATCGGCGCTTTCTATGCTGCCGAACGCCC +CAGCATGGTTGTCAATTTCCGGGATTATTGTCGCAGTAGTTGCGATGTCGAAATCATTCCTGGGTACGTA +CTTTGGCGTTATTGAAGGTGCCACAGAGGTCGTCAAAACAACACTACAGCAGGTTGGTGTAAAGAAAAGT +CGTGCATTTAACCGCGCACTATCAATTATGTTGGTATCGCTGATTACCTTCATTGTTTGTTGCATTAACC +CGAACGCGATTTCGATGATTTACGCGATCAGCGGCCCGCTCATTGCCATGATACTTTTCATCATGCCTAC +GCTGTCAACGTATCTCATCCCGGCGCTTAAACCCTGGCGTTCCATCGGAAATCTGATTACGCTGATCGTG +GGTATCCTGTGCGTATCGGTAATGTTCTTTAGCTAATATCAGTTGTGGATGGTTCAAAATTGCTACAATT +TTGAACCATTCCATTTTTCATAATATTCATTTGTTATTATTCCACCCTATCACTTCTCTCGTCATATCCT +AGTATTATCAGTTAGTTAAACACACAAAGAGATCTGAACATCTTAAATAAGACTATTTAAGATGCATAAC +TTAGATTCGCAAGATATCTTCTGGTCATTCAAAAACAATTTGCGATATAGATATTCTTATACCATGAGAT +AGTTATCTGGACCGCTCTCAACCATGCAAGATTAAATCAGTGAAACATAATCATATTTGATAACGAGAAA +TGCATTTTTAAATGCCTTACTCAGAATTATAGCAAATACAGATTAATCGCAATTTTTCCCGGCAAAATTA +CAAAATCATGGTGTATTGACATCATCAATAACCAATGAAATTATGCAATTATATACGGATAGGGAGGTTC +TTAACATGGGGCTTTGTAGTCGTTATAAAAGTCTTACATGCAATAGTTGCTCAATGCATTGCCAAATAAT +GCCAGAAGAGTCACCGCGTTTGCAGTATTGCGCAAACTCGTGTTTTTGTATGTGGCCCGAAGAAAGTTCA +TATTTTAATCGTGGTGTGGTAGAAGGTATCTTAACAAAAAACCACAATGCGAGATTAAGCGGATATATTT +TTGTCGATTTTTCAGTAAGTTTTTTACGTCTATTCCTTGAAAAAGACTGGATTGACTATCTTGCAAGTAC +TGACATGGGGATTGTTTTAGTCAGCGACCGCAATATGCAATCGTTAGCTAATTACTGGCGAAAACACAAC +TCAGCAATATCTGCTGTCATATATAATGATGATGGTCTTGATGTTGCCAATGAAAAGATCAGACAACTAT +TTATTGGTCGTTATTTATCATTTACCGGAGGTAACACATTAACTCAGATGGAATTCACCATAATGGGGTA +TATGGTTTCTGGTTATAATCCATATCAGATTGCTGAAGTTCTGGATATGGATATCCGTAGCATCTACGCG +TACAAGCAACGAATCGAAAAGAGAATGGGTGGTAAAATAAACGAATTATTTATTCGTTCACATTCGGTCC +AACATTGATACTCAACGACCAGCCAGAATCATACTCTGTTTATACGGGCATTTATTGAAATGTCCGTATT +TTATAAATAGGCCGTCCCCTCAAGAGTAAACACCATAGTATTTAAAACCATCACACGAAAAATTCAGAAG +CATTACGAAATATGAATTTACAAACAATAGTGGCATAAATGTTAACCATGTTAATTTACGTAAAGTTTTA +CGTTGCAACATTAAAGCCTCATTTCAATCATCATGATAAATATAAAATTAATATATATTTATGCCGTAAA +TACCAATATACTTAGCAAACTATGTGATCTCCATTTCGATTGATTTAGTGTTTATTGACGTATGTACTGG +ATTATTAACGATAATATCGAGTTCTGGCCTGAGCACCGAAAATTAATATCGGTACATAACGCCGATCTTA +ACGTCGTTCTGACAACGCCAGCCAGTCGATGTTTATCACTTCTACTTGAAGCTTTTCCTGATGTGGTTGC +ACAACAAGATTTTTTCACCAGAGTCTGGGAAGAAGAAGGTATGCGTGTGCCTACTAACACGTTATATCAG +AACATATCCATTATCAGACGCGGATTTCGCGCTGTTGGTGATACTACCCACTCGCTAATTGCAACCGTGC +CGAGAAGAGGATTCAAGATCCATAATGACATTAACATACAAAATCATGTAATAAACTCGTCAACAGACGC +ACATACACACAATGCCCCACCTGCCATAAAAGTTAATGCGGGATACAAAGAGAGCATTGGTGGCGCAAAG +AATTTCAATAACAAAATCCTCAAACATATAAAAAGTCATCTAATTATGTTGAGCGCATTTGTCATAGGCG +CATATTCTGCATATTGGCTATGGAATAATAATCAACCGAAGCCATTTTTCAAGGATTACAAGACTGTTGC +GGAAATTAATGGCTGCCATTTTAATGTAACAGAAGATACAATTGATGGGTTGAAAGAGTTCGATAAATAT +AAAACACGGATACTGGATTCGGGGATTAACTGTAAAAAACATCCGTGGTTATACTTCCCTCTTGCAAAAT +CCTCACCGGGGATGATTGTTATGGCATGCAATAAAAACTATAACCAACATGAAGTGGCAAACTGTTTAAC +CCTGTCTTACCGTGAGGTTAATCGTGATTGATTATAAAAAAAACTTATTATTTATTTTAGTTTTTATCAG +TGGGTTTATTCTCTTCACTGTCTATTCTTACACTGCAGAAAAAATGATATATAACGAAACATGCACTGCA +AATTGGGTAATTTTTAATGACCAGGGACGAGCAAATCTTACCATCGACTTTATGTATAACAAAAAAAATA +AAACAGGAACTGTTGCGTTGAGTGGAACCTGGCAACAAGGTAACAGAGAAAGTAAATCAATACGGCGAAA +TATTGAATACACATGGATTGAAAACTATGACACAGCCCATTTAACATCAAAGAAAGTTAATAAGTTTGAG +ATTATGGATCAAGTTGATGATGATAGACTTGCACAACTTATTCCTGATTTTTATGTCTTTCCAGAAAAAA +GTGTAAGCTATAATATACTAAAGCAAGGTAAGCATGCTTTTATTTTGAGCATTGGTAACAGAGCAATAAT +GCATTGTGCAAGGTAAACTAAAATAGATAACAAAAAGATGGAACCTCGTTAATCATAAAACAATAAAATT +AAATATTCTCGCAGTATATGGCAGTCTAAAGCATCAAAGATTTGATCAACATCTTTCATTTTAGACATCT +CCTTGCAATGTAAAATATCATGTATCAACAACATCTGGTGCAAATCCATGAGTCGAACTCGACATTCATC +TTAGCTCGATTATTATTCCTTCGTACAGTCGATGTAAACAATACAGAAAGAGGATTATTAAGAACCAGTT +TACTCAGTGAATCAATAGAGGAAAGGACTAACGTTTCTTTAAAAGAATTGATTTCATCATCTGTTAAACT +AAACTCATCATTGACAGATCGTGAGATATAACTGTTTTTAACTTTACTCTTTACGTTGACTTTATTGACA +GAATTAACATTCACATATCTTGAATTTAATGTCCATGATGTTGTTTGCGTGAGAACATTCTCAGCATTAA +GGAATTTTTTTAACGGAATCCTTGGTTTCTTTTTCGAGTCCGAATTTACAATATCATGCATATAGACCAT +TTCATGAATCTGCGAAAATTCAATGTCCATTGTATACCTCACATTTTTACCGTGACTCGATGTTACTGTT +CAATAATCACCTTCCATCAATACTAAAATTAATACCCCTAATGTGCCGATAACAAATATAGTCATTCTAC +GTAACGTCTCCATAAGGTGATATTTGACATTATCAGAAGCTGCGAATTCGGATTTTGCTCTAATCAAATG +AGAGAAATGTAAAATGAAGCCACGAAATATTAATAATAGCCTACCACTGCAACCATTAGTTCCTGATCAG +GAGAACAAAAATAAGAAAAATGAAGAGAAATCCGTTAATCCAGTTAAAATCACAATGGGGTCTGGTTTAA +ATTATATTGAACAAGAATCTCTTGGAGGAAAATATCTAACACATGATTTGTCAATAAAGATAGCGGATAT +TTCTGAAGAGATAATTCAGCAAGCAATATTATCTGCTATGAGCATATATAAATTTTCGATAACAGATGAT +TTAATGAGTATGGCTGTAAATGAACTCATAAAACTGACCAAAATAGAGAATAATGTAGACCTGAATAAAT +TCACTACTATATGCACAGACGTTCTATCCCCCCGCGTCACCAGACATAATAAAGAAAAAAACAAACGACA +TTCTACCCTTCTCAAAAATCCCCTTTTTAATTTTCATTGAAAAAATGGCAATTGATACTATGAATCCAGG +TCATACACATTAAGGCATTTATGTAATGTCGTAATTAAGATAACTAATAAGGTGAATATTAGTAAAACAA +CTAATGATGTTATTAGTTTGTAGTGAACAGTACTTTTACCAATAATGAAAAATATACCATAAGCAATGCA +AGCTTAAAACTCATAATTTAAAAAAGATAAATATAAAAATATCAATGAGTCAATCAATAATAATTTGGCA +TCACGAGACACATCACAGAGGAATATTATGAGCACAGAAACAATTGAAATATTCAATAATAGTGATGAAT +GGGCAAATCAACTAAAACACGCATTATCGAAAGGAGAAAATCTGGCATTACTACATGGTTTAACTCCTGA +TATCCTTGATAGAATATATGCATATGCATTCGACTACCATGAAAAGGGTAATATAACGGACGCAGAAATT +TATTATAAATTCTTGTGCATTTATGCGTTCGAAAATCATGAGTATCTAAAAGATTTTGCATCAGTATGTC +AGCCCAAAAAGAAATATCAACAAGCATATGACCTTTACAAACTAAGTTACAATTACTTCCCGTATGATGA +CTATTCAGTTATTTATCGTATGGGTCAATGTCAGATTGGGGCTAAAAATATCGATAACGCAATGCAATGT +TTCTATCACATTATTAACAATTGTGAGGATGATAGTGTTAAGAGTAAAGCGCAGGCATATATTGAACTCT +TAAACGATAATTCAGAAGATAATGGCTAAGCATTACAATCATTTGGTTAAATTTGCTGGTTATAGTGCAG +TTAACCACTATAACCAGCACCTCTTATGTTTTCTTAAATCAGCATCTTAAAACAGTTAAGAGCATACTAT +AAATCATTATTTTTCAATGCGTTAGAGAACAATCTACTTTATCAAAATTGAATAAGGCTATTTCAGATTA +CATCACTGAATTCCTAAGATAAATTAGTGAACACAACCATAGATATGTCAAATGTAATTTCCTGTAGCGT +TAATGACACATAAATATGAATAGCCATAATTTCTATTGCTTAAGCAGGATGCAAGAAACCAATTTTTTCA +TAGAGGTTAACTAATGGACTTAGAAAATAAATTCTCATATCATTTTCTTGAGGGATTAACGCTCACGGAA +GATGGAATTCTTACTCAAGGAAATGAGCAAGTTTATATTCCACAGAAAGAGTTAGGTGTATTAATAGTAT +TACTTGAATCCGCTGGTCATGTTGTACTGAAAGATATGATCATCGAATCAGTATGGAAAAATATTATTGT +TAGTGACGAGTCCCTGACAAGATGTATCTATTCTTTGCGCTGCATTTTTGAAAAAATTGGCTATGATCGT +TGCATAGAAACAATCTACCGGAAAGGTTATCGTTTCAGCGGGCAGGTTTTCAAAACTAAAATTAATGAAG +ATAATACTTCAGACTATTCCATAGCTATATTCCCTTTCACTACTTCATTGAATACACTGGATCCATTAAT +ACTTAATCAGGAATTAGTGCAAATCATTTCAAATAAAAAAATCGATGGTCTCTATACCTATCCGATGGCT +GCGACAAATTTTTGTAATGATCACATATCTCAAAATTCATTCTTGAGCAGATTCAAGCCAGATTATTTCG +TTACAGGAAGAATAAACCAGAATAATGCAGTGAACACTTTATACATTGAGTTGATCGACGCTAAAAACCT +TTTCCTCATCGCCAGTAATCATCTCCCTGTTGATGAACTACATAATACATCACAATTTATTATAGATAAT +ATCCTTCAAACGGTACATAAACCAGAACGATCTGTAAGATTAGCTAAGCAGGACCAAGGATATAAGAATC +ATTATTTATCAGATGAAATGTTAGCCGGAAAGAAAGAACTTTACGACTTCACCCCTGAAAGCATTTACAG +GGCCATGACTATATTTGATAGATTACAAAATAAAAGTGATATACAGACGCTAAAAACAGAATGTTATTGC +CTTCTAGCGGAATGCCATATGTCTTTGGCACTTCATGGAAAAAGTGAACTTGAACTTGCTGCTCAAAAAG +CATTAGAGCTTTTAGATTATGTATCAGACATAACCACTGTCGATGGAAAAATTTTAGCTATTATGGGACT +GATAACTGGTCTGTCTGGACAAGCAAAAGTATCTCATATCTTATTTGAACAGGCTAAGATACACTCAACT +GATATAGCCTCTCTCTACTACTATAGGGCACTAGTCCACTTTCATAATGAAAAAATTGAAGAGGCAAGGA +TTTGTATAGACAAATCACTACAACTCGAACCCAGAAGACGAAAAGCAGTTGTGATAAAAGAATGTGTAGA +TATGTATGTGCCTAACCCGCTCAAAAACAACATTAAACTCTACTATAAAGAAACTGAGAGTGAAAGCCAT +CGAGTTATAATTGACAACATTTTGAAATTAAAGCAGCTGACGAGAATTTGTATGCGATAAATTTTTATTG +ACGCAATTTTATTATTTAGATGTATGCAACTTGTTATTTAAACAACAGAGATAAAAATATCTAAGATATT +CACCTTATTGCAAGATATTTAAAATGCTCTAGAGTTAAAAGTATGATGTAAAGACCATTGGCCTGGACAA +TTAAAAAAGGGAGCTTTATGACTAATCCAATCGGTATCAATAATTTATCTCAAAGTTCAAATATAGCGAA +TGCAACGGGTGATGAAGTCGTATCATTAGATAAACACATCAACACCAGTGCTACTGATACAGATCAAATA +CAAGCATTTATAGTTTCAACATGGATGGCGCCTTTTCAAAATGATATGTATTCAGAAGATAATCCTATCT +CACCTTACTATAAAATTGAGTGGTAGACGATTGACCAAATAAATCATAACGAGATACTTTTATAATAGTA +TCTCGTTCCTTTCATTCAATCCTCACACATGAAAAAATATGCGCTCACCAAAAGTTAAATTCTTAACCAT +CTTCACGTTTTGTATATTTATTACAAAAATGTCTTTCGCCAGCAACTCTTGCTCTAATGAAGCAGGAACA +ATGTTCAGAATCGAACCAAATTTAATTAAAGCTATCGCTCTTGTTGAAAGCAATCTAAAAAAGGATAGCA +TAGGCAAGAACAGAGATAAGAATAACAATATAAAGAGTTTAGATTATTGGTTAATGCAGATAAACCAGAT +GCATATTCCCCTGTTAAAAAAACGTGGAATAATAAAAGATGAACGAGATTTGTTAGATAACCCTTGTCTG +AACATTAAAATAGGAACCGAGATTTTATATAACCATTTTTCACGTTGTGGAGTAACGTGGCAATGCCTGG +GGACTTATAATGCGGGTTTTGCAATGGATAACCAAAAAAAGAGACAGCAATATGCCCCAAAATATATATT +GTATATACCAGGCTTAATGAACTAGACAATCGTAAGGCTTCAGCAAAATGAGCCTAAAGCCTCTTTTTTT +TATATAGTGCAAACACCCATACGTAAAGCTGTTTTGATCAACTCGATACCACTGTGAACATCTAATTTCT +TCATGATATTGAGTCTATGAGTTTCGACTGTTTTCCTGCTTAACTGCAAGAAATTAGCGATTTCTTTGTT +TGTTTTACCATCAGCTATGAGTTGTAATATTTCTGACTCACGATTTGTAAGTTGATTATCAGAGGAATAC +CTGGAAGATATTTTTTCACAATCCATATGTACACTATCAAAATAAGTGTAACCATTACTAATCGAATCAA +TAGCACGATTTAGTTTCGCCGGGTGACTGGTTTTCCATACGCATCCTTTCGCACCTGCTTCAAGCAATTT +TATTGAATCAATATACGGCATCTTTGCTACAAATGTAATAATATGAGCATCTATCTTATGCGATTTAACC +CATTTTACGAGTTCGGCCCCCATCATTCCACCTGCAAATTCTCCTAAAATAAATATTTAGGCTGTAGATT +TGTTACACTCCGCTATAGCTTTCTTCAGATCTTTATAGCCCCCAACAACCTCATATAAATCAGGATAATG +TCCGAGAAATCCAATTATCCCATCAATCATAAACGGCTGCTGATCTGAAACTACAATTTTAATTTTTCCC +ATATATTCATCCTGAGTGTAAATGCTTTAACGCATTCATTTATAATCATCCCTTCCATTATTATTATAAG +CAAAATCCAAAGAATACATTGATGAAATAATAATGAAATATAATTAAAAATAAAATTTTTGCGTAAAAAA +ATACCACAGGCATTAAAAAATCATGAGATGATTAAAATATTACAATTAGATTATATTCAAATCATTAAAC +TTGAGCCAGGGAGCTATAAGTCCTCAGGGCTTGCCAAAACAGAATTATTCATATCCAAAGAATGTGTTTC +AAACATTTTTTCAACTAAATAATGTCTGGCTTGTTCGCAGATTTCGTTAACCTTGTCAGGGGAGAAACAA +TGATTATTAATTAAATATTGCTCACAATTATCCACAAATTCCTGCGGACTAAATTCAGCAATAAATTGAT +CGGTAAAAAACACAAAACGCTTATCATCATGAAATGTAATATGGACATTCCATATTGATTTGTCGACAAA +ATATGACTCTACTTCAAGAGACTTATCTTTGAAACTGGTAGGTATATGGAGATTTACAGGACCTGATATT +GATGGTAATTTTGTTACCCAACTTTCAAAAATTTTGATAAAAACATCAACTTCTTCTGAAGGTTTTAACA +ATATACTCTTCAGATCGTTTATCATGTTTATTCTTTTTTTTCAAGTTCTGAGCATAGCAAGCTTATCAAG +GGTATAAAATTATCCATCTCATCAATAATGCCTTTTGTATAGCCATCATAATAACCTTGAATAAATTTTT +CTTCTCTCTTTTCCTCAATACTCTGAATTTTTGCGGTGGTTTCAAGAAGGATTTTTTCTTTAAGAGAAAC +TATTTCTTTCAATCCATCAGAAATTTTTCTTTTAATCACAACACCATTTGCAGGAGATTTTATCAAGCTC +ATCTCTATTTTTTTTCGCATAAAATGTAATTCTCTCTAAAAGTGTTGATGCAAGTGGTAACGGCGATTGT +ATGTGGTCAACAAAATCAGGAAATAATAAATTAAATCGTTGCTGCATTGCCAATGGTTGTTGCCTTATAT +AGGGTAACAACGTTGAAAAACCACATGTGATGATATTGTGATAGTTAGCGATGCCGGGTTTGTATCGTGC +CTTTTCATTTATTTCCAGCGGTATAGCTGATAAATAATCCCTTAGTACATCAGGAACCTTATAAAAAAAC +CCGCGTTCTGCAAACCTTTCTCGATAAAAGTGACAACCACTGAGTAAACAGATCAATGGAAGTAAATTCC +AATTGTTTATTGGATTTGCCCCTATATTTCCAGACATCTGTTATCACTTAACCCATTACAAGCCCGCTGC +CGCAGATATTCCCGTGGCGAGCGATAACCCAGCGCACTATGCGGATGCCATTCGTTATAATGCTCGAACG +CCTCTGCAAGGTTCTTTGCTGCCGTTAACCCGTCTGGTTTGGGCATGATACTGATGTAGTCACGCTTTAT +CGTTTTCACGAAGCTCTCTGCTATTCCGTTACTCTCCGGACTCCGCACCGCCGTGTTCTTCGGTTCAAGT +CCCAACATCCGGGCGAACTGGCGTGTTTCATTAGCCCGGTAGCATGAACCATTATCCGTCAGCCACTCCA +CTGGAGACGACGGAAGATCGTTGCCGAAGCGGCGTTCCACCGCTCCCAGCATGACGTCCTGTACTGTTTC +ACTGTTGAAGCCGCCGGTAGTGACCGCCCAGTGCAGTGCCTCACGATCACAGCAGTCCAGCGCGAACGTG +ACACGCAGTCTCTCTCCGTTATCACAGCAGAACTCGAACCCGTCAGAGCACCATCGCTGATTGCTTTCTT +TCACGGCCACTCTGCCTGTATGTGCCCGTTTCGATGGCGGTACAGCAGGTTTTCGCTCAAGCAACAGCGC +ATTCTGGCGCATGATCCGGTAAACACGTTTGGCATTGATCGCAGGCATACCATCAAGTTCTGCCTGTCTG +CGAAGCAGCGCCCATACCCGACGATAACCATACGTTGGCAGCTCTCCGATAACATGGTGTATACGGAGAA +GCACATCCGTATCATCAGTGTGACGACTGCGGCGGCCATCCATCCAGTCATCGGTTCGTCTGAGAATGAC +GTGCAACTGCGCACGCGACACCCGGAGACAACGGCTGACTAAGCTTACTCCCCATCCCCGGGCAATAAGG +GCGCGTGCGCTATCCACTTTTTTGCCCGTCCATATTCAACGGCTTCTTTGAGGAGTTCATTTTCCATCGT +TTTCTTGCCGAGCAGGCGCTGGAGTTCTTTAATCTGCTTCATGGCGGCAGCAAGTTCAGAGGCAGGAACA +ACCTGTTCTCCGGCGGCGACAGCAGTAAGACTTCCTTCCTGGTATTGCTTACGCCAGAGAAATAACTGGC +TGGCTGCTACACCATGTTGCCGGGCAACGAGGGAGACCGTCATCCCCGGTTCAAAGCTCTGCTGAACAAT +TGCGATCTTTTCCTGTGTGGTACGCCGTCTGCGTTTCTCCGGCCCTAAGACATCAATCATCTGTTCTCCA +ATGACTAGTCTAAAAACTAGTATTAAGACTATCACTTATTTAAGTGATATTGGTTGTCTGGAGATTCAGG +GGGCCAGTCTAAACTTGCTCTTTTCTTCTGGTGTTTATCTTTGAAAGATTTGTAGGATAAATAACATTAA +GTAAAGCCGCATCGGCTTCTCTGTAATGTTTATCTTTTTCCAGATAACCTGGGGATTCTCCCCCTAAATC +AAGCTGTAACGTTATTCTTTCATAACCTTTATCTATGAGGTGGTTCAACCTCGTTGTTGAAAGAGTTTCA +TCCAGTTCATTGACTTTAGCTTCGCGTAGTAAATCAGAGACAAAAACAGAGTCTTTCTTCGAGAGTAGGT +TTGACAAACGTTCCAGTCCAGAGGTCACCAGTGCAACGGAAGATGTGTTTAATCGGGCATCTTCTTCCCA +TGCTCAGGAATCTTCCATAACATAGAAATTGGCTTTATCCAGATAAGCAATCAGCAGCGCAACCGACTTT +AATCGGTCACCTTTTTGCCAATCTTCAGCGTTAATAGTACCAGTGTTGATTGCTTGTATAAGGAGATCAA +GGTAAAGACCTAAAGCATCATTTTGTTTATGGTTCCACAGCTGCGGCTTGCCTTCTTCCTGCACATCTGC +CATCACGGGGGAGTTGCTGTCAAATCGGATATGCACAGCATTCATTTGCACGGGAATTCCATCCAGTCGT +TTTGGGTTGCTAATGACGTCCTGCATCCGCTTAATCTGGTCGGGCGTAGACATATAATCCCACAGGGTGA +GCAGAACCTTTTTTGCGGCTACACTATTTCCCTGATCTGATACTAATGCCATATAGCCCCATAAACTATC +CCTCAACCAGACAGCATCATAGTGGGTTTCTGCCGCTGTTTTGTCATCTTCGAAAGTAGAAGCAAGAATA +AACGTTCCCCAGGGTTTCTCCGTCAACGTTAACTTTCGTGTGTTTTCTGTTAATGTTAGCAATCCTTGAA +TTTCGTCTTTGGTATAGTGGCTCTTTATTTCATTTTGTAATTTGGCTGAGTGAATCAGAAGACGATAATT +AGGATACTTATCTGGATTTAACGATAAATAACTTTTATCTGTTGCTGCCCCCGTGGAATTAAGAATGTTA +AATACAGATTCACTCGTCACTTCTGCCCCTGTCGCCTGGCATGTGCCGCACGAAAATATACCAGCGAGCA +GAAGAGTTAATGCAGATTTCCCTTTCATAAAATATTCCATCAATCGTTTGTTAAAAGCGTAGATAACCAC +TTATTTAACAACTTGAAAATAAGGTGTTTTACCTGGGTTGTTACAAAAGGATTGCATTGCGTAAACGCTT +TTTATTTACAACAAAATGGGGAAGTATTACGGCGAAGATAAATTGGAGCGGGCGAAGGGAATCGAACCCT +CGTATAGAGCTTGGGAAGCTCTCGTTCTACCATTGAACTACGCCCGCTTCGAGATGCGTAAGGCATTATA +AACCTTACGCTCTCCTTAGCAAGTGCCACGCTGCTGACTGCTGATTAATTCGCCATCAGCATTTTGGCTT +GCTGCCCTGAGGCGGCAAGTAACGTAGCGGATCAATTGCCGTTGCACGGTAACGAATCTGGAAATGCAGG +CGAACAGATGCCGCATCCGTGCTCCCCATAGTGGCGATTTTTTGCCCAGCCTTCACGCTTTGCCCATTAT +TTACCAGCATCGTGTCATTATGGGCGTAAGCCGTAATGTAATCTTCACTGTGTTTAATCATGATGAGATT +ACCGTAGCCACGCAGCTGGTTGCCCACATACACCACCTTTCCTGCACCCGCGGCGTAAATAGGTGTACCC +CGTGGAGCTGAGATATCAATCCCTTTATTGCCGCCATCTGCTGTCGAATACGGCATGATAACTTTCCCTG +TCGTTGGCCATAACCAACAACGTTGCCCTACTGGCGGCCAGGATGATTTCGGTACCGCTGATGACGGTGT +AACCGATGCGGTTTTGGTCGTTGATTTGGCGGTTGATTTACGTGTAATACTGCTACTTTTCGCCCCACCC +AGTTTTAGTTTCTGACCAACTTCAATGGTGTAAGGGGGGGAAATGCCGTTCAGTCGCGCCAGTTCTTTTA +CGCTGGTTCCCGTGGTGCGCGAAATACGATATAGCGTATCCCCCCGTTTCACGGTGTAAACGGAGCCGGA +ATACGTTCCTGTATCGGATGATTTGCTACCCGAACAGCCCGCCAAAAGCAGTCCAACCGATAACAACATC +ACGATACCCAGAGATTTTTTATTCAGGCGTCCCGCACTCAAAATCTTTCCTCGCTTAAAAAACAAGACGC +CTTATCATAGCAGCCAGCCTCTTGATACCCAATCTCTTGCTTCTGGAAAAACGTGGTAATAGAGAAAGAG +GTTAATTTCATTTGGCAAAGGGAAGTATCATCAGCAAAATATTCGCTGTAGAGGTATCGAACTTCCTGAC +TTTTTACCCTATTTCCCATCCTGATGCGTAATAATCCCAATTTATCACATTGATTTTATCGCCACTCATA +TTGATACGTATCACTGCCCCTATTCAGAGTCCTGTTTCGTATCATATCTGTGTTTTTTTAACGTCATCAC +ACTTCCTACCTCCCCTAACGCTTATCGTCGTTTCTGGCGTAAATCTTGCCTGCTTAGACTAAATCTTTGC +CATAAGAACCAAATGTTCAAATCGAGGGGATTTCTATGGAAGCGCGGGAAGCAACCGCTACGGGTGAATC +ATGCATGCGCGTCGATGCCATTGCTAAGGTCACCGGGCGGGCACGATATACTGACGATTATGTTATGGCG +GGCATGTGTTATGCGAAATATGTACGTAGCCCTATCGCACATGGTTATGCCGTAAGTATTAATGATGAAC +AAGCCAGAAGTTTGCCGGGCGTACTGGCGATTTTTACCTGGGAAGATGTGCCTGATATTCCATTCGCTAC +AGCTGGGCATGCCTGGACACTTGACGAAAACAAGCGCGATACCGCCGATCGCGCACTGCTAACTCGCCAT +GTTCGTCATCATGGTGACGCCGTTGCCATCGTCGTGGCCCGCGATGAACTCACGGCAGAAAAAGCGGCGC +AATTGGTCAGCATTGAGTGGCAAGAATTACCCGTTATCACCACGCCAGAAGCGGCGCTGGCAGAAGACGC +TGCACCAATCCATAACGGTGGCAATTTACTGAAACAAAGCACGATGTCGACGGGTAATGTCCAACAAACA +ATCGATGCCGCCGACTACCAGGTACAGGGGCACTATCAGACCCCCGTTATTCAACATTGTCACATGGAAA +GCGTAACATCGCTGGCGTGGATGGAGGATGACTCGCGAATTACCATCGTTTCCAGCACCCAGATCCCGCA +CATTGTTCGCCGCGTGGTTGGTCAGGCGCTGGATATTCCCTGGTCATGCGTACGAGTCATCAAACCATTT +GTCGGTGGCGGTTTTGGTAATAAACAGGATGTACTGGAAGAGCCAATGGCGGCATTCCTGACCAGCAAGC +TTGGCGGCATTCCGGTGAAAGTTTCCCTTAGCCGTGAAGAGTGTTTCCTCGCAACCCGTACCCGCCACGC +TTTTACCATTGACGGGCAAATGGGCGTGAACCGCGACGGAACATTGAAAGGTTATAGTCTGGATGTTCTG +TCTAACACCGGCGCTTATGCATCTCACGGGCACTCCATCGCTTCTGCGGGGGGGAATAAAGTCGCTTACC +TTTATCCTCGTTGTGCCTACGCTTACAGTTCAAAGACCTGCTATACCAACCTCCCCTCGGCTGGTGCGAT +GCGTGGTTATGGCGCGCCACAAGTCGTATTTGCCGTTGAGTCTATGCTTGATGACGCCGCGACAGCGTTA +GGTATTGATCCTGTTGAAATTCGTTTACGCAACGCCGCCCGCGAAGGAGATGCTAATCCGCTCACGGGCA +AACGTATTTACAGCGCAGGGTTGCCGGAGTGTCTTGAAAAAGGCCGGAAAATCTTTGAATGGGAAAAACG +CCGTGCAGAATGCCAGAACCAGCAAGGCAATTTGCGCCGCGGCGTTGGCGTCGCCTGTTTTAGCTACACC +TCTAACACCTGGCCTGTCGGCGTAGAAATAGCAGGCGCGCGCCTTCTGATGAATCAGGATGGAACCATCA +ACGTGCAAAGCGGCGCGACGGAAATCGGTCAGGGTGCCGACACCGTCTTCTCGCAAATGGTGGCAGAAAC +CGTGGGGGTTCCGGTCAGCGACGTTCGCGTTATTTCAACTCAAGATACCGACGTTACGCCGTTCGATCCC +GGCGCATTTGCCTCACGCCAGAGCTATGTTGCCGCGCCTGCGCTGCGCAGTGCGGCACTATTATTAAAAG +AGAAAATCATCGCTCACGCCGCAGTCATGCTACATCAGTCAGCGATGAATCTGACCCTGATAAAAGGCCA +TATCGTGCTGGTTGAACGACCGGAAGAGCCGTTAATGTCGTTAAAAGATTTGGCGATGGACGCTTTCTAC +CACCCTGAACGCGGCGGGCAGCTCTCTGCTGAAAGCTCCATCAAAACCACCACTAACCCACCGGCGTTTG +GCTGTACCTTTGTTGATCTGACGGTCGATATTGCGCTGTGCAAAGTCACCATCAACCGCATCCTCAACGT +TCATGATTCAGGGCATATTCTTAATCCACTGCTGGCAGAAGGTCAGGTACACGGCGGAATGGGAATGGGC +ATTGGCTGGGCGCTATTTGAAGAGATGATCATCGATGCTAAAAGCGGCGTGGTCCGTAACCCCAATCTGC +TGGATTACAAAATGCCGACCATGCCGGATCTGCCACAACTGGAAAGCGCGTTCGTCGAAATCAATGAGCC +GCAATCCGCATACGGACATAAGTCACTGGGTGAGCCACCAATAATTCCTGTTGCCGCTGCTATTCGTAAC +GCGGTGAAGATGGCTACCGGTGTTGCAATCAATACACTGCCGCTGACGCCAAAACGGTTATATGAAGAGT +TCCATCTGGCAGGATTGATTTGAGGATAACATCATGTTTGATTTTGCTTCTTACCATCGCGCAGCAACCC +TTGCCGATGCCATCAACCTGCTGGCTGACAACCCGCAGGCCAAACTGCTCGCCGGTGGCACTGACGTACT +GATTCAGCTCCACCATCACAATGACCGTTATCGCCATATTGTTGATATTCATAATCTGGCGGAGCTGCGG +GGAATTACGCTGGCGGAAGATGGCTCGCTACGTATCGGCTCTGCAACGACATTTACCCAGCTAATAGAAG +ATCCTATAACTCAACGTCATCTCCCGGCGTTATGTGCTGCGGCCACGTCCATTGCTGGACCGCAGATCCG +TAACGTCGCTACCTACGGTGGAAATATTTGCAACGGTGCCACCAGCGCAGATTCTGCCACGCCAACGCTA +ATTTATGACGCGAAACTGGAGATCCACTCCCCGCGCGGTGTTCGTTTCGTCCCGATTAATGGCTTTCACA +CCGGGCCGGGCAAAGTGTCTCTTGAGCATGACGAAATCCTCGTCGCCTTTCATTTTCCGCCACAGCCGAA +AGAACACGCGGGCAGCGCGCATTTTAAATATGCCATGCGCGACGCAATGGATATTTCAACGATTGGCTGC +GCCGCACATTGCCGACTGGATAACGGCAATTTCAGCGAATTACGCCTGGCATTTGGTGTTGCCGCGCCAA +CGCCGATTCGCTGCCAACATGCCGAACAGACTGCACAAAATGCGCCATTAAACCTGCAAACGCTGGAAGC +TATCAGCGAATCTGTCCTGCAAGATGTCGCCCCGCGTTCTTCATGGCGGGCCAGTAAAGAGTTTCGTCTG +CATCTCATCCAGACGATGACCAAAAAAGTGATTAGCGAAGCCGTCGCCGCGGCGGGGGGAAAATTGCAAT +GAATCACAGCGAAACAATTACCATCGAATGCACCATTAACGGGATGCCTTTTCAGCTTCACGCCGCACCA +GGCACGCCGCTCTCGGAATTACTCCGCGAACAAGGACTGCTAAGTGTCAAACAAGGGTGCTGCGTGGGTG +AATGTGGTGCCTGTACGGTGTTGGTCGACGGCACAGCAATAGACAGTTGCTTATACCTTGCCGCCTGGGC +TGAAGGAAAAGAGATCCGCACGCTGGAAGGTGAAGCGAAAGGCGGAAAACTTTCTCATGTTCAGCAGGCT +TATGCGAAATCCGGCGCAGTGCAGTGCGGGTTTTGTACGCCTGGCCTGATTATGGCTACCACGGCAATGC +TGGCGAAACCACGCGAGAAGCCATTAACCATTACGGAAATTCGTCGCGGACTGGCGGGAAATCTTTGTCG +CTGCACGGGGTATCAGATGATTGTAAATACAGTTCTGGATTGCGAGAAAACGAAGTAAAAGGATATCCGG +CCTGAATTCAGGCCGGATTCACTGAGGTTATGTGTTTAACAACTCATATTTCTTAATCTTGCGATAGAGC +GTAGCAATGCCGATGCCCAGTTCATCAGCAACTTGCTTCTTGCTGTTATGACGTGAAAGCGCCTCGCGGA +TCATTTGCTTTTCCATCTCCTCCAGCGCCGTGCCGCCCGCATCATCGAGTGACAGGTGCGCCTCACTGAC +CTCTGTTACATCACTTTGCTCCGTTGTGCCATTATTCAGCAGATTTGGCGGCAATAGCGTGCTGTCGATA +ACTTCACCTGAAGGAACCACGTTAACCAGATATTCCATCAAATTGCTTAACTCGCGCAGGTTTCCGGGCC +AACGATGCTTACGCAATATTTCGACGACATCGGGAGCAATGCCAGGATAAACCGATCCCAGACGACGGGT +ATGCAGATGTAAAAAGTAATGCACCAATAGTTCAATATCTTCCTGACGTTCACGCAGCGGTGGCAGAGTT +ATCGGGATAACATTAAGTCGGTAGAAGAGATCTTCGCGGAATTTACCTTCGGCAATGAACTGGGCCAAAT +TCTGATTAGTTGCAGAAATGATGCGAATGTCGACTTGTATTGGGCTACTGGCACCAATCGGCAGAATTTC +ACGTGCCTCAATAGCGCGCAGTAATTTAGCCTGCAACATTAATGGCATATCACCTATTTCATCGAGAAAC +AGCGTGCCCGTATTCGCCGCCTGAATCAACCCTGTTTTACCGTTGGCAGAAGCGCCAGTAAATGCACCTT +TAACATAACCGAACAGTTCGCTCTCCAGAAGCTGCTCCGGAATCGCGGCACAGTTGATAGCAATAAAGGG +TTTATTCCGTCTTCCGCTCAACTTATGGATTGCACGGGCGACGACTTCTTTACCCGTGCCGCTTTCACCA +ACCACCATAACGCTGGATGGGCTGGGTGCAATACGGCTAATGAGTCGTTTTAATTGCCGCATAACACGGC +ACTCGCCAACCAATTGTTCAATATGCGGTTCATCAGGTGCATTTGCTACAGAAAAACTGGTATGCGATTG +GTGAAACGCCATTAAAAATAATTGTCGGCCCTGAATGTTATGCAATTGACCAATGATTAATTCACTTTTA +TCGTCCCATGAAACAATATGCTGCATATGTCCATGGGTAAAATTACTCTCAAATGTTAATGGTCTGAAAC +GGATAGGTTTCCCAATAATATTATTTTGCACAACACCAAGTGTTTTTAAGGCAGTCTGATTAACAAACTG +AACCCGATTTTCATCATCTACAACTAATACGCCCTGATCCATATTATCGATCATGGTCGCAAATATTTTA +CTGATGTTATCTCCTGGCCCCTGATCCTCCAGAAGTTTCGAAACAAAAATGGTGGATATATGGCGAACAT +AATCAGAAAATTCGCGTAAATTATCACTGATATGCTCTTGTTGCTCGTGGGTAACGGCAATCAAACTTAT +CACCCCAACACAACGATCCTGTAAAATGACAGGCGTACCCAGAAATGCTTTTTCGCGGCAATTTTCTTTA +CTATCGCAACCTTCGCAAAGGGGATCGAAGCGAGACTGTGTCACAACTTTTTCAGTTTTCGTTTCCAGGA +CGTGGCGGAGCAGGCGTGAGTTGCCGCTCAACTGGCGACCAAGAAACTTCCCATACGCGCCCGTTCCGGC +AACGCGACACAAGTTTTCATCAACGATCTCAACCTCAAGCTGCAAAACGCTGGCAAGCATTCTGGCAAAA +CGCTGAATTGTCGGTTGAATTTGCATCAATACTGACTGCGTAGTAGCAAGCTCCATAGCTTTACCTTCCA +GACTTACTTAAAAGTCGATCATTGAAGACGTTGATGGTTCACAGATCATGATGATATTAACTCAGGCGAA +ATTGGCTTTGATAAAAACATAAGATTTTTATCATTTTCTAATGAAATTATGGAAGAGATATCACATTTCT +ATATCAATATGAGAATTACGGCGGTGAGTTTATCAAACTGAAGAGAGATAGCCTGCCCCTTTATCTTATT +TCTGATACTTAGCAGCAAATAAATAACGCGATAAAAAAAGCCAAACGTTTTCGTATTTTACAAACAACCA +GAAGCTGGCATCAATTTGTGATCAACCCCACACATTATCCGTCAAATTAGTCTTTTGCAGCCGCGCGGAT +AATTCTGGCACACTTATTGTTAGTCCCAGGTATAGCTGTGAAAACACCAATCACTTTGGCAAGTCACAGT +GAAATAAACCACTTTGCCTGTCATTCCACTACCGGGACTTTATGATGAAAACTGTTAATGAGCTGATTAA +GGATATCAATTCGCTGACCTCTCACCTTCACGAGAAAGATTTTTTGTTAACGTGGGAACAGACGCCAGAT +GAACTGAAACAAGTACTGGACGTTGCCGCAGCATTAAAAGCACTGCGTGCTGAAAACATCTCAACCAAAG +TCTTTAATAGTGGATTAGGTATTTCCGTATTCCGCGACAACTCCACCCGTACCCGCTTCTCTTATGCTTC +CGCGCTTAACCTGCTCGGCCTTGCACAACAAGATCTCGACGAAGGCAAATCACAAATCGCTCACGGCGAA +ACCGTGCGTGAAACCGCCAATATGATCTCCTTCTGCGCCGACGCTATTGGTATTCGCGACGATATGTATC +TGGGCGCAGGCAACGCCTATATGCGTGAAGTTGGCGCTGCACTTGATGACGGTTACAAGCAGGGTGTACT +GCCACAGCGTCCGGCTTTAGTGAACCTGCAATGCGATATTGACCACCCGACTCAGTCAATGGCTGACCTC +GCGTGGTTACGTGAACACTTTGGTTCACTGGAAAACCTGAAAGGTAAAAAAATCGCCATGACCTGGGCCT +ACTCTCCAAGCTATGGCAAACCGCTCTCTGTACCACAAGGCATCATCGGTCTGATGACTCGCTTCGGTAT +GGATGTCACCCTGGCCCATCCGGAAGGCTACGACCTGATCCCGGATGTGGTTGAAGTGGCGAAAAACAAT +GCTAAAGCCTCCGGTGGTAGCTTCCGTCAGGTCACCAGCATGGAAGAAGCCTTCAAAGACGCAGACATCG +TTTATCCGAAGTCATGGGCACCTTACAAAGTGATGGAAGAGCGTACTGAATTGCTGCGTGCGAACGATCA +CGAAGGCTTAAAAGCACTGGAAAAACAGTGTCTGGCACAGAACGCGCAACACAAAGACTGGCATTGTACT +GAAGAGATGATGGAACTGACCCGTGATGGCGAAGCCCTGTACATGCACTGCCTGCCAGCTGATATCAGCG +GCGTATCCTGTAAAGAAGGTGAAGTGACTGAAGGCGTATTCGAAAAATACCGTATCGCTACCTACAAAGA +AGCCAGCTGGAAGCCTTATATCATCGCCGCGATGATCCTGTCCCGTAAATACGCCAAACCAGGTGCACTG +CTCGAGCAACTGCTGAAAGAAGCGCAAGAACGCGTGAAATAACCCCTCGGGCCGATCAGCTGGTCGGCCC +TCTATTTCCAGAGGCCAAAAGGATAGGATATGTCCGTTTTCTCATTGAAGATTGATATCGCCGATAACAA +ATTTTTCAACGGCGAAACATCACCGCTCTTTTCGCAAAGCCAGGCCAAACTGGCGCGCCAGTTCCACCAG +AAAATAGCTGGTTATCGCCCAACACCGCTTTGTGCGCTGGACGATCTCGCAAACCTTTTTGGTGTGAAGA +AAATTCTCGTCAAAGACGAATCAAAACGATTCGGTCTGAACGCCTTCAAAATGCTTGGCGGTGCGTACGC +CATCGCTCAATTATTGTGTGAAAAATATCATCTTGATATCGAAACGCTGTCATTTGAGCACCTGAAAAAT +GCCATCGGCGAAAAAATGACTTTCGCGACCACCACCGACGGCAACCACGGGCGCGGTGTGGCGTGGGCAG +CACAGCAACTCGGACAGAATGCGGTGATTTACATGCCGAAAGGTTCTGCTCAGGAACGCGTTGACGCCAT +TCTGAACCTCGGTGCCGAGTGCATCGTCACGGATATGAACTATGACGATACCGTTCGCCTGACCATGCAA +CACGCGCAGCAGCACGGCTGGGAAGTGGTACAGGACACGGCATGGGAAGGTTACACCAAAATCCCAACCT +GGATCATGCAAGGCTACGCAACCCTGGCAGATGAAGCCGTCGAGCAAATGCGTGAAATGGGCGTAACCCC +GACGCACGTTCTGCTGCAAGCCGGTGTCGGAGCAATGGCCGGTGGTGTGCTGGGTTATCTGGTCGACGTC +TATAGCCCGCAAAATCTGCACAGCATTATTGTTGAACCTGACAAAGCTGACTGTATTTATCGCTCCGGCG +TCAAAGGCGACATCGTCAACGTTGGCGGTGATATGGCCACCATCATGGCAGGCCTGGCCTGTGGCGAACC +TAACCCGCTGGGCTGGGAAATCCTACGTAACTGCGCCACCCAATTCATCTCCTGCCAGGACAGCGTTGCC +GCATTAGGTATGCGCGTGCTGGGTAATCCGTACGGCAACGACCCGCGCATCATCTCCGGTGAATCCGGCG +CTGTCGGTTTGGGCGTTCTCGCAGCGGTTCATTATCACCCGCAACGTCAAAGCCTGATGGAAAAACTGGC +GCTGAACAAAGATGCCGTGGTGCTGGTTATCAGCACTGAAGGCGACACCGACGTGAAGCACTACCGCGAA +GTTGTCTGGGAAGGCAAACACGCTGTAGCACCTTAATCACCCTATTGGAACTGCTCCCTGCAAAACGGGG +AGTAAAAAATCTGGAGAAAAATAATGGCTAAGAATATTCCATTCAAACTGATTCTTGAAAAAGCAAAAGA +TTACCAGGCGGATATGACTCGCTTCCTGCGCGACATGGTTGCTATTCCCAGTGAAAGCTGCGACGAGAAA +CGCGTAGTACATCGTATTAAAGAAGAGATGGAAAAAGTCGGCTTCGATAAAGTTGAAATCGACCCGATGG +GCAACGTTCTCGGTTATATCGGCCACGGCCCGCGTCTGGTGGCAATGGACGCTCATATCGATACCGTCGG +CATTGGCAACATCAAAAACTGGGACTTCGATCCGTACGAAGGCATGGAAACTGATGAACTGATTGGTGGT +CGCGGTACTTCCGACCAGGAAGGTGGCATGGCCTCTATGGTTTATGCCGGTAAAATCATTAAAGACCTCG +GTCTGGAAGATGAATATACCCTGCTGGTTACCGGTACGGTGCAGGAAGAAGACTGCGACGGTCTGTGCTG +GCAGTACATTATTGAACAATCCGGCATTCGCCCGGAATTTGTGGTCAGTACCGAACCAACCGACTGCCAG +GTATACCGTGGTCAGCGCGGTCGTATGGAAATTCGTATTGATGTTCAGGGTGTTAGCTGCCACGGTTCTG +CACCAGAACGCGGTGATAACGCCATTTTCAAAATGGGTCCGATTCTTGGCGAATTACAAGAACTCTCCCA +ACGTCTGGGTTATGACGAATTCCTCGGCAAAGGCACCCTCACCGTTTCTGAAATCTTCTTCACATCCCCA +AGCCGTTGCGCTGTAGCAGACAGCTGCGCAGTTTCAATCGACCGTCGTCTGACCTGGGGCGAAACCTGGG +AAGGCGCGCTGGACGAAATCCGCGCCCTGCCTGCAGTACAGAAAGCTAACGCGGTTGTTTCTATGTACAA +CTACGACCGTCCGTCCTGGACTGGCCTGGTTTACCCAACCGAATGCTACTTCCCGACCTGGAAAGTGGAA +GAAGATCACTTCACCGTTAAAGCACTGGTGAATGCCTACGAAGGGCTGTTTGGCAAAGCGCCGGTTGTTG +ATAAGTGGACCTTCTCAACTAACGGCGTATCTATCATGGGCCGTCACGGCATTCCGGTGATCGGCTTTGG +CCCGGGTAAAGAACCTGAAGCGCATGCACCTAACGAAAAAACCTGGAAATCTCACCTGGTGACCTGTGCC +GCGATGTACGCTGCAATCCCGTTAAGCTGGCTGGCAACAGAGTAATTACTCTTCACTTATTCCCCTCCGG +TTCGCCGGAGGGTTTTTGGAGTTTGCTATGCGCGTATTGATCAAAAACGGCACTGTCGTTAACGCAGATG +GACAAGCCAAACAGGATTTGCTGATTGAAAGCGGGATTGTTCGCCAGTTGGGCAACAATATTTCGCCGCA +GCTCCCGTATGAAGAAATTGATGCCACTGGCTGTTACGTTTTCCCTGGCGGCGTGGATGTCCATACGCAT +TTCAATATTGATGTCGGCATCGCGCGCAGTTGTGATGATTTTTTTACCGGTACCCGCGCAGCTGCGTGTG +GCGGTACAACAACCATTATTGACCATATGGGATTTGGCCCAAACGGCTGTCGGTTACGCCATCAACTGGA +GGTTTATCGTGGTTATGCCGCCCATAAAGCGGTCATCGATTACAGCTTTCACGGTGTGATCCAGCACATT +AATCACGCAATCCTCGACGAAATCCCGATGATAGTCGAGGAAGGACTGAGCAGTTTTAAACTCTATTTAA +CCTATCAATACAAACTCAACGATGACGAGGTTTTGCAGGCATTACGCCGCTTGCATGAATCCGGCGCGCT +GACCACCGTGCACCCGGAAAATGATGCGGCTATCGCCAGCAAGCGGGCGGAATTTATCGCCGCAGGGTTA +ACCGCGCCGCGCTATCATGCCTTGAGTCGCCCTCTGGAATGCGAAGCGGAAGCCATCGCCCGCATGATTA +ACCTGGCACAAATTGCCGGTAACGCCCCGCTCTATATCGTGCACCTGTCTAACGGCTTAGGTCTGGATTA +TCTGCGTCTTGCCCGTGCGAATCACCAGCCAGTCTGGGTTGAAACCTGCCCACAATATCTCCTGTTGGAC +GAACGCAGTTACGATACAGAAGATGGCATGAAGTTCATTCTTAGCCCACCGCTGCGTAACGTACGCGAGC +AGGACAAACTGTGGTGTGGCATCAGCGATGGTGCGATTGACGTGGTGGCAACCGATCACTGCACCTTCTC +GATGGCTCAACGCCTGCAAATTTCTAAAGGCGATTTCAGTCGCTGCCCAAATGGCTTACCCGGTGTGGAA +AACCGCATGCAGTTACTGTTTTCCAGTGGCGTGATGACGGGACGTATAACACCGGAACGCTTTGTTGAAT +TAACCAGCGCAATGCCCGCCAGGTTGTTTGGCCTGTGGCCGCAAAAAGGATTATTAGCGCCCGGTTCCGA +CGGCGACGTGGTGATTATCGACCCACGTCAGAGCCAACAAATTCAGCATCGCCATCTCCACGACAACGCC +GACTACTCGCCATGGGAGGGTTTTACCTGTCAGGGCGCGATTGTCAGAACCTTATCCCGTGGTGAAACGA +TTTTCTGTGACGGCACCTTTACAGGCAAAGCCGGGCGAGGTCGTTTCCTGCGACGCAAACCGTTTGTCCC +TCCCGTGCTCTAACCACTGCCAGGGATCTATACACAATCAAGAATGATGAGTGAGGAAAAATGAGTAAGA +AAATTGTTCTCGCCCTGGGCGGGAATGCGCTGGGCGATGACCTGGCCGGGCAAATGAAAGCGGTAAAAAT +TACTTCTCAGGCAATTGTTGATTTAATTGCCCAGGGACATGAAGTTATCGTCACTCATGGTAACGGGCCG +CAGGTGGGCATGATTAACCAGGCCTTTGAAGCTGCCGCAAAAACTGAAGCGCACTCGCCAATGCTGCCGA +TGTCTGTCTGTGTTGCATTAAGCCAGGGTTATATTGGTTACGATCTACAAAACGCTTTAAGAGAAGAACT +GCTTTCTCGGGGCATTAATAAACCTGTAGCAACGCTGGTTACTCAGGTCGAAGTCGACGCTAACGATCCG +GCATTCCTCAACCCGACCAAGCCGATCGGTTCGTTCTTTACCGAGCAAGAAGCAGAGCAACTGACAAAAC +AGGGTTACACTCTGAAAGAAGATGCTGGTCGCGGCTATCGCCGTGTTGTTGCCTCGCCAAAACCGGTTGA +TATCATTGAAAAAGAAACGGTTAAAGCTCTGGTAGATGCAGGTCAGGTGGTGATCACCGTTGGCGGTGGT +GGTATCCCTGTTATTCGTGAAGGTAACCATCTGCGTGGTGCCAGCGCGGTTATCGATAAAGACTGGGCCA +GCGCCCGTTTAGCAGAAATGATTGATGCCGATATGCTGATCATTCTGACTGCGGTAGAAAAAGTGGCCAT +TAACTTCGGTAAAGAGAATGAACAGTGGCTCGATCGCCTGTCATTAAGTGATGCTGAACGCTTTATCGAA +GAAGGTCATTTTGCGAAAGGTTCTATGCTGCCTAAAGTGGAAGCTGCCGCCTCGTTTGCTCGCTCTCGCG +CAGGTCGTGAAGCACTGATTACCGTATTGAGCAAAGCGAAAGAAGGGATTGAAGGCAAAACAGGAACGGT +GATTTGTCAGTAATTTAAAGGCCGGGTGGGTAATACCATCCGGCCAAAGATTGTCAAGTAAGTGCGCTTT +GTTGATGCCGGATGCGGCGCGAGCGCCTTATCCGTCCTACAAAACATCGCAAATTCAATAGATTGCAATG +CACTTGTAGGCCTGATAAGCGTAGCGCATCAGGCAATTTGGCGTTTGTCATCAGTCTCAGGCCGGGTGGG +TAATACCATCCGGCCATTTTCATTTAAGCCACTTCCAGCACTTCTTTTGTCGCTTTCACGCCCTGATGCA +TCAACATCATTAACGCCTCAAGTACGCCGCCGCCAATCGCCCGGGCTTTATCAGAAACGCTGGTGAAATC +AGCGGTTTCACCACGAGGATCGATATCACCAATTTTAAAACCACCAACCACTGCCAGGCCGTCGTTCAAC +AAGCCACGCACCATCCCCGTCAACGGTGCTTTAATTTCATGCTCACCAATCCAGGCAATCACATCGCCCT +CTTTCACCAGATCGCCTAATTTCACGTTGGATCGCATAATGCCTGCAGCAGGAGCACGGATCACCCGTCG +GGTGGTATGCCCCATAATATTGCCAGGAACACCGGTATTCTCCTGCGCACAACCAGAGTAAATCACCTGA +CCGAGCCAGTGCCCGCGATTTGTTTCAATTACCGCATGACAATCCTTCCCAGCAGTAAAGCCCGGCCCAA +GCGCGATTGTTACTGGTGCCATATCTGCCCGCGTTCCCAAATTCTGTTTCGCCAGAATAGCGTCCACCAC +GCAAAGCGGTTTCAGTTCATCAAGCAATGAACAGGCGGGATCTACCATCACAGGAATGAATCCGCGTTCG +GTAAGTTTCATCGCTTCCGCAGAGCTGGTTGCCAGGCGAGCAGTGACGCCTTCGACCGTCATTTCGCCAT +CGAACACGGCCTGGGCAAACGCCACGGTACAACGAATCACTGTCGGTTTTTCCACTTCCAGCATGATCAC +TTTAAAACCCGCATGATACAGACGTAGCGCCACACCACTGGCGATATCTCCCGCACCGCGAATCACCACC +AGCTGGTGTCCGGAAGGATGAGAAGGTTTCATCATCAGCCCACCCGGCGCGTTATTTTTCACCTGTAATA +TTTCTGCCAGCACGCTGATGGCGATCTCCTGCGGCGTTTCCGCACCTATGTTGTAACCAACGGGCGCATG +TAAACGGGCAATATGTTCTTCAGCCACGCCTTTCTCACGCAATTGACGCAGGAAAAGCTGAACCTTGCGA +CGACTTGCCAGCAACCCCAACCATGCAATGGGCTGTTCAATGAGTTTGTCGAGGGCTTCACGATCCTGAT +TATTCGTGGCAATCAGGACAAAATTATCAGGGCGAATATCCAGTGCTTCCACTGCCGCACCAAACGACTC +AGCATGGAGAAGCGTGGTTGATGGTGGGAATAGTTCAGGATTGAGGCTTTCGCGATAAATATCAGCAACG +GCAATATCAAATCCTAATAGCGCCGCACTCTGGGCTATCGCCCGGTTGACATGCCCCGCGCCAATCAACA +CCAGACGTGGACGCATACCATGGACGCTGATAAATACTGACATTGCACCTCCACAATCTGACCCGACAGC +ATCCGCACCGTTACGAGCCATACGTCCATGGAATAATCGCGGCTTACGTTCCTGCAATGCCTGAAGCGAC +TCTTCAATCACCTTCCGCTCAACCATTCCGCCACCAATTGTACCGACGATAGAACCATCGGCGCGCACTA +ACATTTGTGCAGAATGGCGGGGAGTCGAGCCTCGGCTATCAACAATTTGCGCCATAGCAAACGGACAATT +TTGCTCTTCGAGTTTTGCAGCCTCTGTGAAAATATTCATACCAACCTCAATGGATATCCTTTCAGTAACC +CGGAATACCCGGGCCGCTAATTCACAAATCTGCGCGCGATTGCAGGATGTTCTTGTATATCGCCCAGCCA +GATTGCCTCTACGTCGTGTTGTTGCAGCGGTTGAAGGAGCTCGCTTTGTGCAATCGCATTCTCACATTGA +GAAAAACGGTTAATGAACCAGACTCGCCGACAACCTTGCGGTACGTTTTTAAACGCCCCCTGAGGGTGGC +GAACCAGCGCAACGAGATCGCTCAGTTGCAAGGTTGCATCAGGTGTTAACCCGGTAATATCAGCAAACTG +CGACCAGCGATGGACATTTTCTGTGCTCACTTTCGCGCCCAAAGTATGTCCTCCCATCACAGCAATCACG +CAGCAACTGCTTTTGGGTATGCAAGGTTCGTGCTCATCAGGCGCTTTTAACGGCATTCCACGCGAGCCAT +CTGCTTCAATGAGAATTACGTCACACTCTGGTCGTTGCACCAGTGCATCAATCGCTTCTGGCGTAAATCC +CTGCACTTTTCCCTGGTTCGCTTTCCAGCTGTGAAAACAAAATGAAATGGGGGATGTAAGAGACGCATGA +GGAAGCATGGCGGGATCACGACAGAAAACCACGGGCCAGTGAGACGTTGGCATAAACATATGTGTCGTCG +TCGTGATTAACACACGCCTGCCGCTAGCCTGGAGCAGTTCTGCCAGCCAAAAAAGCAAGCTGGTTTTCCC +CCCAGCACCAACAACAGAAATCACAGTGGGACGTTTCTGCGCACCTAAATCAATGACTAATGCCGATGGG +TCAACTATACTTTTCACGAGTCTTTATGACCTCTCTGGGATAAATTATCCCCAACTTAATCCATCAGGAA +GTAACGCAATTATCAGGCGTTATTAGCCCCTATAAATAATGGAACCACTATGTCAGCCATCGACTGTATA +ATTACCGCTGCCGGATTATCATCAAGAATGGGGCAATGGAAAATGATGTTACCCTGGGAACAGGGAACAA +TTCTTGATACAAGTATCAAAAATGCGTTGCAGTTTTGTAGCCGAATTATTTTAGTCACCGGCTATCGTGG +TAATGAACTGCACGAACGTTATGCGAACCAGAGCAATATCACTATTATTCACAACCCAGATTATGCGCAG +GGTTTACTAACATCCGTCAAGGCCGCAGTACCCGCAGTGCAAACAGAACATTGTTTTCTCACCCACGGTG +ACATGCCAACCCTCACCATCGATATTTTTAGAAAAATCTGGTCGTTACGAAATGATGGCGCAATACTGCC +ACTCCATAATGGCATCCCCGGCCATCCGATTTTAGTGTCAAAACCATGCCTGATGCAGGCAATCCAACGA +CCCAATGTCACCAATATGCGTCAGGCACTCCTTATGGGAGATCATTATTCCGTCGAAATAGAAAATGCAG +AAATAATTTTAGATATTGATACTCCGGACGACTTTATTACAGCGAAGGAAAGGTATACTGAAATTTAGAA +AACGTAGTTAAACGATTGCGTTCAAATATTTAATCCTTCCGGCACTCATTATCATAATGATAAGGAATCA +CTGATTTTGAGAAAAGAGAAAAATTGATAAATGGGCTGGCAATAATAATTTTCAGGAGTGATTTTAATTC +TCATTTAGCACCTGTGAGTTCATTCACAAAAAGCCCTTAAGTTTCGAGCCGCCTCACATTTTTTTATATT +TCCCGCCAAACCTGGCAAGAGTGGTGCGATTGTTGCTCTATCCCCCTAAACCACCGGATTTCTCAACACC +GGTCACTCAATGATATCTGTATAAGCTAAGGAGAGGGTTATGGGGGATATTATGCGTCCCATTCCGTTTG +AGGAACTTTTGACGCGCATATTTGATGAATACCAACAACAACGCTCAATCTTTGGTATTCCCGAGCAACA +GTTTTACTCACCTGTAAAAGGTAAAACTGTTAGCGTCTTCGGTGAAACCTGTGCCACTCCCGTCGGCCCT +GCCGCTGGCCCGCACACGCAGCTCGCGCAAAATATTGTCACTTCCTGGCTGACTGGCGGACGCTTCATCG +AACTAAAAACCGTCCAAATTCTTGACCGCCTGGAGCTGGAAAAGCCCTGTATCGATGCCGAAGACGAGTG +CTTTAACACCGAATGGTCTACCGAGTTTACCCTGCTTAAAGCCTGGGATGAATACCTCAAAGCCTGGTTT +GCCCTGCACCTTCTCGAAGCGATGTTCCAGCCTTCTGATTCCGGTAAATCGTTCATCTTTAATATGAGCG +TCGGTTACAACCTCGAAGGTATTAAGCAACCGCCGATGCAACAGTTCATCGACAATATGATGGACGCATC +TGACCATCCGAAATTCGCTCAATATCGCGATACGCTGAATAAATTACTCCAGGATGACGCATTTTTAGCT +CGCCACGGATTGCAGGAAAAACGCGAAAGCTTGCAAGCCTTACCCGCTCGCATCCCCACCAGTATGGTGC +ATGGCGTCACCCTCTCCACCATGCACGGCTGTCCTCCGCATGAAATCGAAGCCATTTGCCGCTACATGCT +GGAAGAAAAAGGGCTCAACACCTTTGTGAAACTTAACCCGACCTTACTGGGGTACGCGCGTGTTCGTGAG +ATCCTCGATGTCTGCGGTTTCGGTTACATAGGCTTAAAAGAAGAGTCATTTGATCACGACCTCAAGCTGA +CGCAAGCACTGGAAATGCTGGAACGCCTGATGGCACTGGCAAAAGAAAAATCACTCGGCTTTGGCGTAAA +ACTGACTAACACTCTCGGCACCATCAACAATAAAGGCGCACTGCCTGGTGAAGAGATGTATATGTCAGGC +CGTGCGCTGTTCCCGCTCTCCATCAATGTTGCAGCAGTTCTCTCTCGCGCCTTTGACGGCAAACTGCCCA +TTTCTTATTCCGGTGGTGCCAGTCAGCTGACTATCCGCGATATTTTTGATACAGGTATTCGCCCTATTAC +TATGGCAACCGACCTGCTGAAACCTGGCGGCTATCTGCGCTTAAGTGCCTGCATGCGCGAGCTGGAAGGC +TCCGACGCCTGGGGACTTGACCATGTTGACGTCGAACGACTGAACAGACTGGCAGCAGATGCGTTAACCA +TGGAATACACCCAGAAACACTGGAAGCCAGAAGAGCGTATTGAAGTGGCAGAAGACCTGCCGCTGACCGA +CTGCTACGTTGCCCCCTGTGTTACTGCCTGCGCTATCAAGCAAGATATTCCGGAATACATCCGTCTGCTT +GGCGAACACCGCTATGCCGACGCGCTGGAACTCATCTACCAACGCAACGCTCTGCCCGCCATTACCGGTC +ATATTTGCGATCACCAGTGCCAATACAACTGTACCCGCCTGGATTACGACAGTGCGCTGAATATCCGCGA +ACTGAAAAAAGTCGCGCTGGAAAAAGGTTGGGATGAATATAAGCAACGCTGGCACAAACCAGCCGGTTCT +GGTTCACGCCATCCGGTTGCCGTGATTGGTGCAGGTCCGGCGGGTCTGGCAGCAGGTTACTTCCTTGCCA +GAGCGGGCCATCCGGTTACGCTGTTTGAACGCGAAGCCAATGCGGGCGGCGTGGTGAAAAATATCATTCC +TCAGTTCCGTATTCCTGCAGAGTTAATTCAGCACGATATCGATTTTGTTGCCGCTCACGGCGTGAAATTT +GAGTATGGCTGCTCACCCGATTTAACCATTGAGCAGTTAAAAAATCAGGGCTTCCACTATGTTCTGATTG +CCACCGGCACTGATAAAAATAGCGGTGTGAAACTGGCGGGCGACAACCAAAATGTCTGGAAATCACTCCC +CTTCCTGCGTGAATACAACAAGGGTACAGCGCTCAAGCTGGGCAAACATGTGGTCGTTGTCGGGGCGGGT +AACACCGCAATGGACTGCGCTCGTGCGGCGTTACGCGTTCCAGGCGTAGAAAAAGCAACGATCGTTTACC +GTCGTTCACTACAAGAGATGCCCGCATGGCGCGAAGAGTATGAAGAAGCGTTGCACGACGGCGTAGAGTT +CCGTTTCCTGAATAATCCGGAACGTTTCGATGCTGATGGCACCTTAACCTTGCGCGTTATGTCGCTTGGC +GAACCGGATGAGAAAGGTCGTCGTCGTCCGGTTGAAACCAATGAAACAGTAACACTGCTTGTAGACAGCC +TGATCACCGCCATTGGTGAACAGCAGGATACTGAAGCCCTGAATGCGATGGGCGTGCCGCTGGACAAAAA +CGGCTGGCCAGACGTCGACCATAATGGCGAAACTCGTCTGACTGACGTCTTTATGATCGGCGACGTACAG +CGCGGACCATCCTCCATTGTCGCTGCTGTCGGAACCGCGCGTCGGGCGACCGATGCCATCCTTAGTCGGG +AAAATATCCGTTCCCACCAGAACGATAAATACTGGAACAACGTCAATCCAGCGGAAATCTATCAACGTAA +AGGCGATATCTCTATCACGCTGGTGAACAGTGACGATCGTGACGCGTTTGTCGCCCAGGAAGCCGCTCGC +TGCCTCGAATGTAACTACGTTTGCAGCAAGTGTGTGGATGTCTGCCCGAACCGCGCCAACGTCTCCATTG +CGGTCCCAGGCTTCCAGAACCGTTTCCAGACGCTGCACCTCGACGCTTACTGTAACGAATGCGGCAACTG +CGCTCAGTTCTGTCCGTGGAACGGTAAACCGTACAAAGACAAAATCACCGTCTTCAGCCTGGCGCAAGAC +TTTGATAACAGCAGCAACCCAGGCTTCCTTGTGGAAGATTGCCGGGTACGAGTACGTCTGAATAACCAAA +GCTGGGTGTTAAACATCGACAGCAAAGGTCAGTTTAACAACGTACCACCGGAGCTGAACGATATGTGCCG +CATCATCAGCCATGTCCACCAGCATCATCATTATCTGCTGGGCCGCGTGGAGGTGTAATCATGTTGATTC +TGAAGAATGTCACTGCGGTACAGCTACACCCGGCAAAAGTGCAGGAAGGCGTTGATATCGCCATCGAAAA +CGATGTGATTGTCGCTATCGGCGATGCCCTGACGCAACGCTACCCCGACGCCAGCTTCAAAGAGATGCAT +GGCCGGATTGTGATGCCAGGGATTGTCTGCTCGCACAACCATTTTTACTCGGGGCTTTCCCGCGGAATTA +TGGCAAACATCGCCCCTTGCCCGGATTTCATCTCAACGCTGAAAAATCTCTGGTGGCGGCTCGATCGCGC +CCTTGATGAAGAGTCGCTCTATTACAGCGGACTGATTTGTTCCCTGGAAGCGATTAAGAGCGGATGTACA +TCGGTTATCGATCACCATGCCTCTCCGGCGTATATCGGCGGGTCGCTCTCCACATTGCGCGACGCATTTT +TAAAAGTTGGCCTGCGCGCGATGACCTGTTTTGAAACTACTGACCGTAACAACGGCATCAAAGAGTTGCA +GGAAGGTGTAGAAGAAAACATCCGTTTCGCCCGTTTGATTGATGAGGCGAAGAAAGCGACAAGCGAGCCG +TATCTGGTGGAAGCACATATCGGTGCTCACGCGCCGTTTACCGTGCCGGATGCCGGTCTGGAGATGCTGC +GTGAAGCCGTGAAAGCCACAGGCCGTGGTTTGCATATTCACGCTGCGGAAGACCTTTACGACGTTTCCTA +CAGTCACCACTGGTACGGCAAAGACCTGCTGGCACGACTGGCGCAATTCGATCTCATCGACAGCAAAACG +CTGGTCGCTCATGGGCTGTACTTGTCGAAAGATGACATCACCCTACTCAATCAGCGCGATGCGTTCCTGG +TGCATAACGCCCGTTCAAACATGAACAACCATGTCGGCTACAACCATCACCTTAGCGACATCCGCAATCT +GGCGTTGGGAACGGACGGCATTGGTTCGGACATGTTTGAAGAGATGAAATTTGCCTTCTTTAAACATCGC +GATGCGGGTGGTCCGCTGTGGCCTGACAGTTTTGCCAAAGCCCTGACTAACGGTAACGAACTGATGAGCC +GCAACTTTGGCGCGAAATTTGGGCTTCTGGAAGCCGGTTACAAAGCTGATTTAACCATTTGCGATTACAA +CTCGCCGACGCCGCTGCTGGCAGACAATATCGCCGGGCATATCGCTTTCGGTATGGGCTCAGGCAGCGTT +CACAGCGTGATGGTCAATGGTGTGATGGTCTATGAAGACCGTCAGTTTAACTTCGATTGCGATTCCATTT +ATGCACAAGCCAGAAAAGCCGCTGCCAGTATGTGGCGTCGGATGGATGCGCTGGCATAAATGACAGATGC +CCTCTTCCCGCAGGGAAGAGGGTTAAATAAGGAAAGAAGATGATTGAACAATTTTTCAGGCCCGACTCTG +TCGAACAGGCGCTGGAACTGAAGCGCCGCTACCAGGATGAAGCCGTCTGGTTCGCCGGGGGCAGCAAACT +CAATGCTACACCAACCCGTACCGATAAAAAGATTGCCATTTCCTTACAGGATCTGGAACTGGACTGGGTT +GACTGGGATAACGGTGCACTGCGGATTGGCGCAATGTCTCGCTTGCAGCCACTGCGTGATGCGCGATTTA +TTCCTGCAGCGCTGCGTGAAGCCCTCGGTTTTGTTTACTCACGCCATGTTCGTAATCAGTCGACCATTGG +TGGTGAAATCGCCGCCCGCCAGGAAGAGTCGGTGCTGCTTCCCGTCCTGTTGGCACTGGATGCTGAACTG +GTTTTTGGCAACGGCGAAACGCTGTCAATCGAGGACTACCTGGCCTGCCCATGCGATCGCCTGCTAACCG +AAATTATCATTAAAGATCCGTATCGCACCTGTGCGACCCGCAAAATTAGCCGTTCTCAGGCAGGTTTAAC +CGTCGTGACGGCAGCCGTTGCAATGACAGACCACGACGGTATGCGAATTGCGCTGGATGGCGTCGCCAGT +AAAGCACTGCGTCTGCATGATGTCGAAAAACAAAATCTGGAAGGCAATGCACTTGAACAGGCTGTCGCCA +ACGCCATTTTCCCGCAGGAAGATTTGCGGGGCAGCGTGGCCTATAAACGCTATATCACGGGAGTTCTGGT +AGCCGACCTGTATGCCGACTGCCAACAGGCTGGGGAGGAAGCCGTATGATCATCCACTTTACTTTAAATG +GCGCGCCTCAGGAGCTAACCGTTAATCCAGGCGAAAACGTGCAAAAGCTGTTGTTTAACATGGGAATGCA +CTCTGTACGCAACAGTGATGATGGTTTCGGGTTTGCCGGTTCTGACGCAATAATCTTTAACGGTAATATC +GTTAACGCGTCCTTGCTTATTGCCGCACAGTTAGAGAAGGCAGATATTCGTACCGCAGAATCTCTGGGCA +AATGGAACGAGTTAAGTCTGGTTCAACAGGCAATGGTTGATGTTGGCGTGGTGCAGTCTGGTTATAACGA +TCCAGCTGCAGCTCTGATTATCACCGATCTTCTCGATCGCATCGCCGCACCTACCCGCGAAGAGATCGAC +GACGCGCTTTCTGGTTTGTTCAGCCGCGATGCTGGCTGGCAGCAATACTATCAGGTCATTGAACTGGCGG +TTGCACGTAAAAATAATCCGCAGGCCACCATTGATATCGCTCCGACTTTCCGTGACGACCTAGAAGTCAT +TGGTAAGCATTATCCTAAAACTGATGCCGCGAAAATGGTGCAGGCGAAACCCTGCTATGTTGAAGACCGC +GTAACGGCTGACGCCTGCGTCATTAAAATGTTACGTAGCCCACACGCTCACGCACTGATTACTCATCTGG +ATGTCAGCAAAGCTGAAGCCTTACCGGGCGTCGTTCACGTTATTACTCACCTGAATTGCCCGGATATCTA +CTATACCCCGGGTGGTCAGAGCGCACCGGAACCGTCACCGCTTGACCGCCGTATGTTCGGCAAGAAAATG +CGTCACGTCGGCGATCGTGTTGCTGCGGTCGTCGCAGAAAGTGAAGAAATTGCGCTCGAAGCACTGAAGC +TCATCGACGTTGAATATGAAGTGCTTAAGCCGGTAATGTCGATCGACGAAGCAATGGCGGAAGATGCGCC +TGTCGTGCACGATGAACCGGTGGTGTATGTTGCTGGTGCGCCAGATACTCTGGAAGACGATAACAGCCAT +GCAGCCCAGCGCGGCGAGCATATGATCATCAACTTCCCGATCGGTTCTCGCCCTCGCAAAAATATCGCCG +CCAGTATTCATGGTCATATTGGCGATATGGACAAAGGCTTTGCCGATGCCGATGTGATCATTGAGCGAAC +CTATAACTCAACGCAAGCGCAGCAGTGCCCGACTGAAACACATATCTGCTTTACTCGTATGGACGGCGAT +CGTCTGGTTATCCACGCCTCCACCCAGGTACCATGGCACTTACGCCGCCAGGTCGCGCGCCTCGTGGGCA +TGAAACAGCATAAAGTTCATGTCATTAAAGAGCGAGTTGGCGGCGGTTTTGGTTCCAAACAGGACATCCT +GCTGGAAGAAGTGTGCGCCTGGGCAACCTGCGTGACCGGGCGTCCGGTACTGTTCCGCTACACCCGTGAA +GAAGAGTTTATTGCTAACACCTCTCGTCACGTCGCGAAAGTCACCGTCAAACTGGGAGCGAAAAAAGATG +GTCGCCTGACGGCAGTGAAGATGGATTTCCGCGCCAACACTGGCCCTTACGGCAACCACTCACTCACCGT +ACCGTGTAACGGACCGGCGCTGTCGCTGCCGTTATATCCGTGCGATAACGTCGATTTCCAGGTCACCACC +TACTACAGCAACATTTGCCCAAATGGTGCTTATCAGGGTTATGGCGCACCGAAAGGTAACTTCGCTATCA +CCATGGCATTAGCGGAACTGGCTGAACAGTTACAGATCGACCAACTGGAAATTATCGAACGTAACCGGGT +ACACGAAGGGCAAGAGCTGAAAATTCTCGGTGCAATCGGTGAAGGTAAAGCGCCGACCTCCGTTCCTTCC +GCCGCCAGCTGTGCACTGGAAGAGATCCTGCGTCAGGGTCGCGAGATGATCCAATGGTCGTCACCGAAAC +CGCAAAATGGTGACTGGCACATCGGTCGCGGCGTCGCCATTATCATGCAGAAATCGGGTATCCCGGATAT +CGATCAGGCTAACTGCATGATCAAACTGGAATCGGACGGCACCTTTATCGTTCATTCTGGCGGTGCGGAT +ATTGGTACTGGTCTGGATACTGTAGTGACGAAACTGGCAGCAGAAGTGCTGCACTGCCCACCGCAGGACG +TGCATGTTATCTCCGGTGATACCGATCATGCGTTGTTTGATAAAGGCGCATATGCCTCGTCCGGTACTTG +CTTCTCGGGTAACGCGGCGCGTTTGGCAGCGGAAAATCTACGGGAGAAAATTCTGTTCCACGGCGCGCAA +ATGTTGGGTGAGCCAGTGGCAGATGTTCAACTGGCAACGCCGGGCGTCGTGCGCGGCAAGAAAGGCGAAG +TTAGTTTCGGGGATATTGCCCATAAAGGCGAAACCGGCACCGGCTTTGGTTCACTGGTGGGAACTGGCAG +TTATATCACGCCTGATTTCGCCTTCCCGTATGGCGCAAACTTCGCTGAAGTTGCCGTCAACACGCGTACG +GGTGAAATCCGCCTGGATAAATTCTACGCCTTGCTGGACTGCGGTACACCGGTCAATCCAGAGTTAGCGT +TGGGACAAATCTACGGTGCCACCCTGCGTGCTATCGGCCACAGTATGAGCGAAGAGATCATTTATGACGC +CGAAGGTCACCCGTTAACGCGTGATTTACGCAGTTACGGCGCACCGAAAATTGGTGACATTCCGCGTGAT +TTCCGCGCTGTGCTGGTGCCGAGCGACGATAAAGTCGGCCCGTTCGGGGCGAAATCGATCTCGGAAATCG +GTGTAAATGGCGCAGCTCCGGCGATTGCTACCGCAATTCACGATGCATGCGGCATCTGGTTACGCGAATG +GCATTTCACACCGGAGAAAATACTCACTGCGCTGGAAAAAATATAAATAATAAATGGCCGCTTCGGCGGC +CTGTTTCTCTGTTTGAACGATGACTAAATAGTGACTGCGAAAATGAGATAAGCCGTTCTCAAGGCGTCCT +GCGCCCCAAATTCGTGGGAATTTATTTTACTAATTCAGATGATCAAATTTACTTTAAAAGGAGTGAAGGG +ATGTCTGATATAAACCATGCAGGTTCTGACCTTATATTTGAACTGGAGGATCGCCCTCCCTTTCATCAGG +CTCTCGTTGGTGCCATTACCCATCTGTTGGCAATTTTCGTTCCGATGGTAACCCCCGCGTTAATCGTGGG +TGCGGCCTTACAGCTTTCCGCTGAAACAACTGCCTATCTTGTTTCTATGGCGATGATCGCCTCTGGTATT +GGTACCTGGTTACAAGTAAACCGCTACGGCATCGTCGGTTCTGGCCTACTCTCAATTCAGTCAGTCAATT +TTTCATTTGTTACGGTCATGATTGCGCTGGGCAGCAGCATGAAAAGCGACGGTTTTCACGAAGAGTTAAT +CATGTCGTCGCTTCTCGGCGTCTCCTTCGTTGGCGCATTTCTGGTTGTCGGATCTTCATTTATCTTGCCC +TATTTACGTCGGGTTATTACGCCTACCGTCAGCGGTATTGTGGTACTGATGATCGGCTTAAGCCTGATTA +AAGTCGGCATTATCGATTTTGGTGGAGGATTTGCAGCCAAAAGCAGCGGTACGTTCGGCAATTACGAACA +TCTCGGCGTTGGTTTATTGGTTTTAATTGTGGTGATCGGCTTTAACTGCTGTCGCAGTCCGTTGCTACGC +ATGGGAGGGATCGCCATTGGGCTATGTGTCGGCTATATCGCATCGTTATGCCTGGGCATGGTGGATTTCA +GCAGTATGCGCAATTTGCCGTTAATCACCATCCCGCATCCGTTCAAATACGGCTTTAGTTTTAGCTTCCA +TCAGTTCCTGGTGGTTGGCACGATTTATCTGCTTAGCGTGCTGGAAGCAGTCGGCGATATCACCGCCACG +GCAATGGTTTCCCGCCGCCCCATTCAGGGGGAAGAGTATCAGTCCCGGCTGAAAGGCGGCGTGCTGGCAG +ATGGTCTGGTTTCTGTTATCGCCTCCGCTGTCGGTTCATTACCATTAACCACGTTTGCGCAAAATAATGG +GGTTATTCAGATGACTGGCGTCGCTTCACGTTATGTCGGGCGAACCATCGCGGTAATGCTGGTTATCCTC +GGCTTATTTCCGATGATTGGCGGCTTCTTCACGACCATTCCCTCGGCAGTTCTGGGAGGCGCAATGACGT +TGATGTTTTCCATGATTGCCATCGCAGGGATTCGCATCATCATCACCAACGGTTTAAAGCGCCGTGAAAC +ACTTATTGTCGCCACTTCTTTAGGTTTAGGGCTTGGCGTCTCCTACGATCCCGAAATTTTTAAAATATTG +CCAGCCTCTATTTATGTATTAGTTGAAAACCCTATTTGTGCTGGCGGGTTAACTGCGATTTTATTAAATA +TTATCCTCCCTGGTGGCTACCGACAGGAAAACGTTCTGCCTGGTATTACCTCAGCGGAAGAGATGGATTA +ACAGTAAAGGAGTCAATGATGTCAGGAGAACACACGTTAAAAGCGGTACGAGGCAGTTTTATTGATGTCA +CCCGTACGATCGATAACCCGGAAGAGATTGCCTCTGCGCTGCGGTTTATTGAGGATGGTTTATTACTCAT +TAAACAGGGAAAAGTGGAATGGTTTGGCGAATGGGAAAACGGAAAGCATCAAATTCCTGACACCATTCGC +GTGCGCGACTATCGCGGCAAACTGATAGTACCGGGCTTTGTCGATACACATATCCATTATCCGCAAAGTG +AAATGGTGGGGGCCTATGGTGAGCAATTGCTGGAGTGGTTGAATAAACACACCTTCCCTACTGAACGTCG +TTATGAGGATTTAGAGTACGCCCGCGAAATGTCGGCGTTCTTCATCAAGCAGCTTTTACGTAACGGAACC +ACCACGGCGCTGGTGTTTGGCACTGTTCATCCGCAATCTGTTGATGCGCTGTTTGAAGCCGCCAGTCATA +TCAATATGCGTATGATTGCCGGTAAGGTGATGATGGACCGCAACGCACCGGATTATCTGCTCGACACTGC +CGAAAGCAGCTATCACCAAAGCAAAGAACTGATCGAACGCTGGCACAAAAATGGTCGTCTGCTATATGCG +ATTACGCCACGCTTCGCCCCGACCTCATCTCCTGAACAGATGGCGATGGCGCAACGCCTGAAAGAAGAAT +ATCCGGATACGTGGGTACATACCCATCTCTGTGAAAACAAAGATGAAATTGCCTGGGTGAAATCGCTTTA +TCCTGACCATGATGGTTATCTGGATGTTTACCATCAGTACGGCCTGACCGGTAAAAACTGTGTCTTTGCT +CACTGCGTCCATCTCGAAGAAAAAGAGTGGGATCGTCTCAGCGAAACCAAATCCAGCATTGCTTTCTGTC +CGACCTCCAACCTTTACCTCGGCAGCGGCTTATTCAACTTGAAAAAAGCATGGCAGAAGAAAGTTAAAGT +GGGCATGGGAACGGATATCGGTGCCGGAACCACTTTCAACATGCTGCAAACGCTGAACGAAGCCTACAAA +GTATTGCAATTACAAGGCTATCGCCTCTCGGCATATGAAGCGTTTTACCTGGCCACGCTCGGCGGAGCGA +AATCTCTGGGCCTTGACGATTTGATTGGCAACTTTTTACCTGGCAAAGAGGCTGATTTCGTGGTGATGGA +ACCCACCGCCACTCCGCTACAGCAGCTGCGCTATGACAACTCTGTTTCTTTAGTCGACAAATTGTTCGTG +ATGATGACGTTGGGCGATGACCGTTCGATCTACCGCACCTACGTTGATGGTCGTCTGGTGTACGAACGCA +ACTAATAATAAAACTTTAACATCCTCGTGAGGACATCATTATGTCTGGAGACATCCTACAAACACCGGAC +GCACCAAAGCCACAGGGCGCGCTGGATAATTATTTTAAAATTACCGCTCGTGGCAGTACCGTTCGTCAGG +AAGTACTGGCTGGCTTAACGACCTTTCTGGCCATGGTTTATTCCGTTATCGTCGTTCCGGGAATGCTGGG +CAAAGCAGGTTTTCCTCCCGCAGCTGTGTTTGTTGCCACCTGTCTGGTCGCGGGCTTCGGCTCGTTGCTG +ATGGGATTATGGGCTAATTTGCCAATGGCGATTGGTTGCGCGATTTCCTTGACGGCGTTTACCGCATTCA +GTCTGGTACTCGGGCAACAAATTAGCGTTCCTGTCGCACTGGGCGCGGTATTTCTGATGGGCGTCATCTT +CACCGCCATTTCCGTAACCGGTGTGCGTACCTGGATCTTACGTAATTTGCCGATGGGTATCGCTCACGGT +ACAGGTATCGGTATCGGGCTGTTTCTGCTGCTGATTGCTGCTAACGGTGTGGGTATGGTTATCAAAAACC +CGATTGAAGGCTTGCCAGTGGCGCTCGGTGCGTTTACCTCCTTCCCGGTGATGATGAGCTTGCTGGGGCT +GGCGGTCATCTTCGGCCTGGAGAAGTGTCGCGTACCCGGCGGGATCTTGTTGGTGATTATTGCAATTTCG +ATCATCGGCTTAATCTTTGACCCAGCGGTGAAATACCACGGTCTGGTGGCGATGCCAAGCCTGACTGGCG +AAGATGGTAAGTCTCTGATTTTCAGCCTCGATATTATGGGTGCACTCCAGCCAACTGTACTTCCGAGTGT +ACTGGCATTGGTGATGACCGCAGTGTTCGACGCTACTGGCACCATCCGTGCCGTCGCCGGTCAGGCGAAT +TTGTTGGATAAAGACAACCAGATCATCAACGGCGGCAAAGCCCTGACCAGTGACTCAGTAAGTTCAATAT +TCTCCGGCCTGGTGGGCGCAGCGCCCGCAGCGGTTTATATCGAATCAGCGGCAGGAACCGCCGCCGGGGG +TAAAACAGGTTTAACCGCAACCGTAGTGGGGGCGTTATTCCTGTTAATTCTGTTTTTATCACCGCTGTCA +TTTTTGATCCCTGGTTACGCCACTGCACCCGCTCTGATGTACGTAGGTTTGCTGATGTTAAGTAACGTCT +CGAAGCTGGATTTCAATGATTTTATTGACGCTATGGCTGGCCTGGTGTGTGCCGTGTTCATCGTTCTGAC +TTGTAATATCGTTACCGGTATTATGCTGGGCTTTGTGACACTGGTCGTAGGCCGCGTCTTTGCACGCGAA +TGGCAAAAGCTGAATATTGGTACGGTGATCATTACTGCCGCACTGGTCGCATTTTACGCGGGTGGTTGGG +CAATCTAATAGATTCTCCGCGCCTTTCAGCGCGGAGATTTCTTTCAGAGAGGATTCTCACCGCTGGCAAC +AATACGCTGCTGGCGGACTCGCCTGAGTTCTCTTTCAGTAAGCAACTGCAGCGCCTGTGTTGGGCAAGAT +TCAACGCAGGCTGGCCCCTCTTCCCGCTGTTCACAGAGATCGCATTTCACAATTTGTTGTCGGGTATCCC +CCGGCAACGACTGAATGGTGATCATTCCAAACGGGCACGCACTGACGCAACTCTGACAGCCAATACAACG +GGCAGAATTGGTCTGCACCACCTGCTCGCCCATCGTCAGCGCCCCCACGGGGCAAGCGCCAACACAAGGG +GCGTTTTCACACTGATGGCACATCACCGGCGCACTGATGCTGTCCAGTCGCTGTACCTTCAGCCGGGGTA +AAAAGACATCGGCATTCAACTCCTGTTCTGAAGGGTGAGCGACCACACAGGCTACTTCACAAGTACGGCA +GCCAATACAGTCAGCCGGATTAACGATAATTAACGATTTCATCACGATGCCTTCGTATCAAACAGAGTTA +ACATATCGCGCGCCGCCTGCCTTCCTGCGGCCATTGCAGTGACAACCAGATCCGCGCCATGAACTGCATC +ACCACCAGCAAAGACTTTTTTCAGATGCGTCTGGGTAGGTAAATACCCGACGTCACCGGTTTGAATCAGG +CCCCATTTATCGAGTTTAATTCCGCTGCCCTGCAACCACGGCATGGCATGCGCCTGGAAACCAAAGGCCA +TAATCAGAACATCGGCGGGCAATTCAAACTCTGAACCCGCTACCGGACGAGGACGACGGCGACCATCCGG +CCCCGGCTCACCCATGGCGGTACGAATCAGGCCCACCGCAGTTAAACGCCCATCTTCGTCACAAGCGATA +TATTGCGGTTGAACATTGAACTGAAACTCGACACCTTCCTCGCGCGCATTAACCACCTCTTTGCGCGAGC +CCGGCATACTGACTTCATCACGACGATACGCGCAGGTCACGCTGGCGGCATTGAGGCGGATGGAAGTCCG +CAAACAATCCATTGTCGTATCGCCACCGCCCAATACCACGACTCGCTTACCTTCCACGTCCGTCAGCGGA +TACTCTTCAGACTCCGGCAATCCCATGAGCTGGCGGGTATGGGCAGTCAGGAACGGTAGAGCCTGAATGA +CACCGGGCGCATCTTCATGCGGCAGATCTGCTCGCATCATCCCGTAAGTCCCCACGCCGATGAAAACTGC +ATCATATTCAGAAGTTAAATCGCTAAAGGTAATATCGCGGCCAATTTCACAGTTAAGATGAAAGTCGATT +CCCATTGCGGTGAATATCTCTCGCCGCTGGCTTAATACCGTTTTATCGAGTTTGAAAGGAGGAATGCCAA +AAGTCAGCATACCGCCAATTTCTGGATGGCGATCAAAGACATCGACCTGAACTCCTGCGCGCGCCAGAAT +ATCAGCACACCCTAACCCTGCAGGCCCAGCGCCAATCACCGCCACTTTTTCGCTACGGGGAACAACTTTG +CTGACATCGGGACGCCAGCCCATCGCCAGCGCGGTATCGGTGATGTAGCGTTCCAGATTACCGATAGAGA +CTGCGCCCGAGTGATCTTTCAAAGTACATGCGCCTTCACAAAGACGGTCCTGTGGACATACCCTGCCGCA +AATTTCTGGTAAGGAACTGGTCTGGTGGCAAAGTTCTGCCGCTTCAATAATCTTTCCTTCCTGTACCAGA +CGGATGTAATCCGGAATAGCGTTATGCAGCGGGCAATGCCAGTTGCAGTTAGCTTTTTCGGCACAATAAA +CACAGCGGTCACTCTCATAAGTCGCTTGTTGTGGATCCAGCCCGCAATATATTTCGCCAAAGTGGGTTTT +CCGTTCACTCGCTGAAATTTTATCTGCGCCTTTACGCGAGTTAACGGGGAGCAACGCTGCACTGCGAGAT +GGCTGAGCGTCTGATGACGCTTTTCCTGCTGCCGTTTTGCGCTGGCGGGCCACCTTTATCTGCTGCAACC +CTTTATCGTCCATCAGTCGTAACGCCTGTGTTGGGCAAACTTCAATACAGGCTTGCGTGCCGGAACTGCG +CTGGTTACAAAGGTCGCATTTCTGCGCAATCGTATCGACCATCTCAACGACGCCAAAGGGGCAAGCGATT +GCGCATCTTTTACAACCAATACATTTTTGCTCGTCCAGTTGTACGCTATCGGACTGGAAAGTCAGAGCAT +TAACCGGACAAGCCGTAACGCAAGGGGCATTGTTGCAGTGATGGCAGGCCACCGGATTCGCAGCCTGGCC +TTTCCCTACAACGTGGATACGCGGTCGAAAGTCACTGTGACTCAGCGGCCAGTTTTCTTGATTGTGTGCC +ACCGCACAGGCAATTTCACAAGCATGACAGCCTATACATTCCGCAGCTTCAGCAGCAATAAACTTATTCA +TTTGCATCCCTTTCATTTAATGAGTTATGTCTTCTCAAATTTCGCGATGCAATAAACGGGCATATATTAG +GTAGCATGACCGTTTTAATTATAATTTTGCGACTGAGTTCAAATTATTGCCCCTCAATCTATGCCGCTTT +CATTATTTCAACATTGCCGATCAAAAGAGCGCTATCCAGATAAAAACGATTAAATGCGAGAGTGCGACAT +GCCAGAATGATTAATGAAATATCAATATGAGAAAATTACAGATAATTCCATTGTCAGGTTCTCTTCTCAT +TTTCGTGGTTTAACCACGATTATGTGATTGCCTCCGCAATTCCTGTCTCTAACTCCCCTTCCTCGCAAAA +ACTGGCACTCCACGAGCATGTGTTTAGACAGTTTCATTAACGTAAACGGTTGCTTTTTACTCTGGCGGGC +GAAAGGAGAAACACTGATGAGCGCCATAGATTCCCAACTTCCCTCATCTTCTGGGCAAGACCGCCCAACT +GATGAGGTTGACCGCATATTATCACCAGGAAAGCTGATCATACTCGGTCTGCAACACGTCCTTGTCATGT +ACGCAGGTGCAGTCGCTGTTCCTCTTATGATTGGTGACCGACTGGGCCTCTCAAAAGAAGCTATTGCGAT +GCTCATTAGCTCGGATCTCTTTTGCTGCGGGATCGTCACATTATTGCAATGTATCGGTATCGGCCGCTTT +ATGGGGATCCGCCTGCCGGTGATTATGTCGGTGACCTTTGCTGCTGTAACACCAATGATAGCCATTGGGA +TGAACCCGGATATCGGCCTGCTGGGGATATTTGGTGCCACTATCGCCGCGGGTTTTATCACCACATTATT +AGCGCCACTTATCGGTCGCTTGATGCCTTTATTCCCGCCACTGGTTACCGGTGTGGTTATTACTTCTATC +GGGCTTAGCATCATTCAGGTGGGTATTGACTGGGCCGCCGGAGGTAAAGGGAATCCGCAATATGGTAATC +CCGTTTATTTAGGTATCTCCTTTGCCGTCTTAATTTTTATCTTGCTCATTACTCGCTATGCGAAAGGATT +TATGTCCAACGTCGCCGTATTACTGGGGATTGTATTTGGCTTTTTACTTTCGTGGATGATGAATGAAGTC +AATTTATCCGGGCTACATGATGCTTCATGGTTTGCGATTGTTACGCCGATGTCGTTTGGTATGCCGATTT +TCGATCCCGTTTCCATTCTGACCATGACTGCCGTGTTAATCATCGTGTTTATCGAGTCAATGGGGATGTT +CCTGGCACTGGGTGAAATAGTCGGTCGTAAACTCTCTTCGCACGATATTATTCGCGGGCTGCGTGTCGAT +GGCGTAGGGACAATGATAGGCGGCACGTTTAACAGCTTCCCCCACACGTCATTTTCTCAAAACGTTGGCC +TGGTTAGCGTGACGCGCGTTCATAGCCGCTGGGTGTGTATTTCTTCGGGAATTATATTAATCCTGTTTGG +CATGGTGCCAAAAATGGCGGTGCTGGTAGCCTCCATTCCGCAATTTGTGCTGGGCGGCGCTGGTCTAGTG +ATGTTCGGCATGGTACTGGCGACAGGGATTCGAATTCTGTCGCGCTGTAACTACACCACCAACCGTTACA +ACCTCTATATTGTGGCGATCAGTCTCGGCGTTGGCATGACTCCGACGCTCTCTCACGATTTCTTTTCTAA +GTTACCGGCCGTACTGCAACCGCTGCTACATAGCGGCATTATGCTCGCAACCCTTAGCGCCGTTGTGCTG +AACGTCTTCTTTAATGGCTATCAGCATCATGCTGACCTGGTGAAGGAATCCGTCTCTGATAAAGATTTAA +AAGTCAGGACAGTACGTATGTGGCTTCTGATGCGCAAGCTGAAGAAAAATGAGCATGGAGAATAATATGA +ATTTTTTAATGCGCGCTATATTCAGTCTGTTGTTGCTTTTTACTCTCTCTATTCCTGTCATTTCTGACTG +TGTTGCAATGGCCATTGAAAGTCGCTTCAAATATATGATGCTACTTTTTTAAATGGTTTTTACCTGTCGG +CATCCGCTCAAAACGGGCGGTTGTCGATAAACGCTCACTTGGTTAATCATTTCACTCTTCAATTATCTAT +AATGATGAGTGATCAGAATTACATGTGAGAAATTATGCAAACGGAACACGTCATTTTATTGAATGCACAG +GGAGTTCCCACGGGTACGCTGGAAAAGTATGCCGCACACACGGCAGACACCCGCTTACATCTCGCGTTCT +CCAGTTGGCTGTTTAATGCCAAAGGACAATTATTAGTTACCCGCCGCGCACTGAGCAAAAAAGCATGGCC +TGGCGTGTGGACTAACTCGGTTTGTGGGCACCCACAACTGGGAGAAAGCAACGAAGACGCAGTGATCCGC +CGTTGCCGTTATGAGCTTGGCGTGGAAATTACGCCTCCTGAATCTATCTATCCTGACTTTCGCTACCGCG +CCACCGATCCGAGTGGCATTGTGGAAAATGAAGTGTGTCCGGTATTTGCCGCACGCACCACTAGTGCGTT +ACAGATCAATGATGATGAAGTGATGGATTATCAATGGTGTGATTTAGCAGATGTATTACACGGTATTGAT +GCCACGCCGTGGGCGTTCAGTCCGTGGATGGTGATGCAGGCGACAAATCGCGAAGCCAGAAAACGATTAT +CTGCATTTACCCAGCTTAAATAAAAAAACCCCGACATTTGCCGGGGTTGTGAGCATAACGTAATGCTTAT +TTTACCGGACGCATCGCCGGGAACAGAATAACGTCGCGGATGGTATGGCTGTTGGTGAACAGCATTACCA +TACGGTCGATACCAATTCCCAGACCTGCTGTCGGCGGTAAGCCATGTTCCAGTGCGGTGACGTAATCTTC +ATCGTAGAACATCGCTTCGTCGTCACCTGCGTCTTTCGCGGCAACCTGATCCAGGAAGCGTTGCGCCTGA +TCTTCCGCGTCATTCAGCTCGCTAAAGCCGTTACCGATTTCACGACCACCAATGAAGAACTCAAAGCGGT +CTGTGATTTCCGGGTTAACGTCGTTACGACGCGCCAGCGGAGAAACTTCTGCCGGATATTCAGTAATGAA +GGTCGGCTGAATCAGATGTGCTTCTGCCACTTCTTCGAAGATCTCGGTAACGATACGGCCCAGACCCCAG +CTCTTCTCAACGTGGATGCCGATAGATTCAGCAATTGCTTTCGCAGAGTCGAAGTTGTCCAGATCCGCCA +TGTCGGTTTCCGGGCGATATTTCTTGATCGCTTCACGCATGGTCAGTTTTTCGAACGGTTTACCGAAGTC +CAGCGTCACGTCGCCGTAGGTCACTTCCGTCTTACCGAGAATATCCTGTGCCAGAGTACGGAACAGCGAT +TCGGTCAGCTCGATCAGATCTTTGTAATCTGCGTAAGCCATGTAGAGTTCCATCATGGTGAACTCTGGGT +TATGACGTACGGAAATACCTTCGTTACGGAAGTTACGGTTGATTTCGAATACACGCTCGAAGCCACCAAC +CACCAGACGCTTGAGGTACAGTTCCGGCGCGATACGCAGGTACATGTCGAGATCCAGCGCGTTATGGTGG +GTGATAAACGGACGCGCAGCGGCACCGCCAGGGATCACCTGCATCATCGGCGTTTCAACTTCCATAAAGC +CGCGGTTCACCATGAACTGGCGAATACCAGAGAGGATCTGCGAGCGCACTTTAAAGGTGTTGCGGGATTC +ATCGTTGGAGATGAGATCGAGATAACGCTGACGATAGCGCGCTTCCTGATCCTGCAAGCCGTGGAATTTA +TCCGGCAGCGGACGCAGTGCTTTGGTCAGCAGACGCAACTCGGTGCAGTGGATAGACAGTTCGCCGGTTT +TGGTTTTGAACAGCTTACCTTTCGCGCCGAGGATGTCGCCGAGGTCCCATTTTTTGAACTGCTCGTTATA +AACGCCTTCCGGGAGATCGTCACGGGCAACGTACAGCTGAATGCGACCGCCAACGTCCTGCAGGGTAACG +AAAGACGCTTTACCCATAATACGACGGGTCATCATGCGGCCAGCAACGGCGACTTCGATGTTCAGCGCTT +CCAGTTCTTCGTTCTCTTTGCCGTCGAATTCTGCGTGCAATTGGTCAGAGGTATGATCGCGACGGAAATC +GTTCGGGAAGGCAATCCCCTGCTCGCGCAGGTTCGCCAGCTTCTCACGACGCGTTTTCAGTTCATTGTTA +AGATCGACTACCGCGTCAGCGCCCTGTGCGTGTTGTTCAGACATGTTGGTTCCTCATAACCCTGCTTTCA +AACTTGCTTCGATAAATTGATCCAGGCTGCCGTCCAGCACGGCCTGCGTGTTGCGGGTTTCTACCCCGGT +GCGCAGATCTTTAATGCGGGAGTCATCAAGGACATAAGAACGAATCTGGCTGCCCCAGCCGATGTCGGAT +TTGTTATCTTCCATCGCCTGTTTCTCGGCATTTTTCTTCTGCATCTCCAGTTCATAAAGCTTCGCTTTCA +TCTGCTTCATGGCCTGATCTTTGTTCTTGTGCTGGGAACGGTCGTTCTGGCACTGGGTCACGATCCCGGT +CGGGATGTGGGTAATACGCACCGCAGATTCGGTACGGTTAACGTGCTGACCGCCCGCGCCGGACGTGCGA +TAAACGTCAATGCGCAGATCCGCCGGGTTGATTTCGATATCAATATCATCATCAACTTCCGGATAAACAA +ACGCGGAGCTGAACGACGTGTGGCGACGACCGCCGGAGTCAAACGGGCTTTTACGCACCAGGCGGTGAAC +GCCGGTTTCTGTACGCAGCCAGCCGTAAGCGTAATCGCCGGAGATTTTGATCGTCACGGATTTAATACCC +GCCACTTCACCTTCCGACTCTTCGATGATTTCAGTTTTGAAACCACGCGATTCTGCCCAGCGCAGATACA +TACGCTCAAGCATGCTCGCCCAGTCCTGTGCTTCCGTACCGCCAGACCCCGCCTGAATATCGAGGTAGCA +GTCGGCGCTGTCATATTCGCCAGAGAACATACGGCGGAACTCAAGCTGCGCCAGTTTTTCTTCCAGGGCG +TCGAGTTCAGCAACGGCTTCGTTAAAGGTTTCTTCGTCGTCAGCTTCTACAGCCAGTTCCAGCAGACCAG +AAACATCTTCCAGCCCCTGTTTCATTTGGTCGAGGGTGTCGACAACGGCTTCGAGGGAGGAACGCTCTTT +ACCCAGCGCCTGTGCGCGTTCGGGTTCGTTCCAGACATCCGGCTGTTCCAGCTCGGCGTTTACTTCTTCC +AGACGCTCTTTCTTGGCGTCGTAGTCAAAGATACCCCCTAAGAACGTCGGAGCGTTCCGTGAGGTCCTGA +ATGCGATTATTTACCGGATTAATTTCAAACATGGTCTGATTTCTTTTATTGAGCTAGTCAAAATGCGGTG +ATAAGAGCGGGATTGTACCCAATCCACGCTCTTTTTTATAGAGAAGATGACGCTAAATTGGCCAGATATT +GTCGATGATAATTTGCAGGCTGCGGTTGCCGCGAAACTCGTTGATATCGAGCTTATAAGCCAGTTGCACT +TCGCGCACGCCGTTATCCGGCCAGAGGGCGGTATCGACATTAAAAGCAATACCATCCAGCAGTGGACCGC +CGCCGACCGGTTCGACCATCACCTTCAAATGACGTTCGCCCACCAGCCGCTGTTGCAGCAGACGGAAATG +ACCGTCAAACAGCGGCTCCGGGAACATCTGCCCCCACGGGCCAGCATCGCGCAGCAGCTGCGCCACTTCC +ATGGTCATTTCGGCCGGGCTTAACGGACCGTCTGATACCACTTCGCCTTGCAATAGCGAAGGGTCCAGCC +ACTCAGTAACCAGTTCGCCAAACCGTTGTTGAAAGAGTTTGAATTTATCCTCTTCCAGCGACAAACCCGC +CGCCATCGCATGACCGCCAAACTTCAGCATCATGCCAGGGTAGAGTGTGTCTAATCGCTCCAGCGCATCA +CGCATATGCAGCCCCTGAATGGAGCGACCGGAACCTTTCAGCGTACCGTCACCTGCTGGCGCAAACGCGA +TAACCGGACGGTGAAAACGCTCTTTGATGCGCGAAGCCAGAATACCGACAACGCCCTGATGCCATTCGGG +GTGATACATTGCCAGCCCGCCGGGTAGCGTGTCACGGCTGCGCTCCAGTTTCTCGCACAGGGTCAGGGCT +TCAATTTGCATTCCTTGTTCGATCTCTTTTCGCGTCTGGTTTAGCGCATCGAGTTCATTTGCCAGCACGC +GCGCTTCGCCGATGTTGTCGCACAACAACAGCGCCACACCGACGGACATATCGTCCAGTCGTCCGGCAGC +ATTGAGACGTGGCCCCAGCGCAAAACCTAAATCGCTGGCGGCGAGTTTTTGTGCATCACGGTTTGCCACT +TCAAGCAGCGCTTTAATCCCCGGACGGCACTTTCCGGCTCGGATGCGACTCATCCCCTGCCAGGTCAGAA +TGCGATTATTAGCGTCCAGCGGCACGACGTCCGCCACTGTCCCCAGCGCGACCAGATCCAGCAGTTCTGC +CAGGTTAGGAATTGCGATGTTACGCTCATCAAACCAGCCCTGATCGCGCAAAAAGGTGCGCAGCGCCAGC +ATCAGATAAAACGCCACACCCACGCCTGCCAGTGATTTCGACGGGAAATTACAGTCGCGCAAGTTAGGGT +TAATGATCGCTTCCGCTGCGGGTAATGTGTCGCCTGGCAAATGGTGATCGGTAACAATAACCGGGATGCC +CAACGAGCGAGCGTGCTCAACCCCCGCATGGGAGGAAATACCGTTATCCACCGTGACAATTAACTGCGCG +CCACGGGCATGGGCCTGATCGACCACTTCCGGGCTTAAGCCGTAACCGTCTTCGAAACGGTTTGGTACCA +GGTAGTCGATATTGCTGCAACCAAGCGAGCGCATCGCCAGCACGCTTAGAGCCGTGCTGGTCGCGCCGTC +GGCGTCGAAATCACCGACCACAATAATCCGCGTTCCTTCGCGAAAAGCGTTGTAAAGGATCTCAACGGCC +TTTTCGACGCCGCTCAGTTGCTGCCAGGGCAGCATACCTTTAACACTGCGTTCCAGTTCTTGCGCACTGC +GTACTCCCCGGCTGGCGTATAAACGGCGCAGCAAGGGAGGCAATTCAGCGGGCAAGTCTGCCGTTTCATC +GACTTCACGGCGACGAAGTTGTATCTGTTGTTTCACGCGAATTATTTACCGCTGGTCATTTTTTGGTGTT +CGTCGAGGAATTCTTTCATCTCTTTCGGCGGCTGGTAACCCGGAACAAGTGTGCCATTGCTCAGCACAAC +TGCCGGAGTACCGCTAACGCCAAGCTGGACGCCAAGTGCGTAATGGTCGGCAATATCCACGTCGCAACTG +GCTGGTGCGACGCTTTTACCTGCCATCACATCATCAAACGCTTTGTTTTTATCTTTCGCACACCAGATAG +CTTTCATTTCTTTCTCTGCATCGCTGTCCAGCCCCTGGCGCGGGAAAGCAAGATAACGCACGGTGATCCC +CAGCGCGTTGTAGTCTGCCATTTGCTCATGCAGTTTGTGGCAGTAACCACAGGTAATATCAGTAAACACG +GTGATGACGTGTTTTTCCTGCGGCGCTTTATAAACGATCATCTCTTTTTCAAGCGCATTCAACTGCTTTA +ACAGCATCTTATTGGTGACATTGACCGGAGCCGTGCCACTAACGTCATACATTGGCCCCTGAATGATATG +TTTACCATCATCGGTGATGTACAACACGCCGCTGTTAGTCAGAACTGTCTTCATGCCAGCTACAGGCGCG +GGCTGAATATCGCTGCTTTTGATGCCCATTTTGGCTAACGTTTGTTGAATTGCCGCGTCATCAGCCTGAG +CAAAGCCTGAAAACGCCGCTAACAAAGTAAACAACATAAAACCTTTCTTCATAAATCTTCCCGTTCTTTT +CAGACATCACGCCCGCGGGTGATGCTGTTGATGAAGTTGCCGCAGACGCTCGGTAGCGACATGCGTATAA +ATTTGCGTGGTGGAGAGATCGCTGTGGCCCAGTAGCATCTGCACCACGCGTAAATCCGCACCATGATTTA +ATAAATGAGTGGCAAAAGCGTGACGCAACACATGCGGTGACAGCTTTTCGCTGTCGATACCCGCCAGCAC +AGCATAATGTTTAATACGGTGCCAGAAGGTCTGTCGCGTCATCTGCTGCGCACGCTGGCTGGGAAACAAC +ACGTCAATTGACACACCATTCAGCAGCCACGGACGCCCATGTTCCAGATAGGTTTCCAGCCAGTAAACCG +CCTCTTCACCTAACGGCACCAGACGCTCTTTGTTGCCTTTACCAATGACCCGTACCACGCCCTGACGCAG +GCTGATATCACTCATTGTCAGTCCGACCAGTTCAGAGACACGCAGCCCGGTAGCATACAACACTTCAAGC +ATGGCTTTATCGCGTAGCTCCAGTGGCTGATCGATTAATGGTGCCTGTAATAAACGTTCGACCTGCGCTT +CGCTTAAATCTTTTGGCAAACGCTGGGGCAATTTCGGTGAAGCGAGATGCGCACTGGGATCGTCTTCACG +AAACTTTTCGCGATAAAGATACTGGAACAATCGGCGCACTGCACTCAGCAAACGCGCTGAGCTGGTGGCT +TTATACCCGCCCTCCAGCCGTTCTGCCAGTAATGCCTGCAAATCGTCACTTTGCGCCGTCGCCAGCGTCA +ACCCGCGGTGATGCAACCACTCCACCATCATTGACAGATCGCGACGGTAAGCGTTCAACGTATTTTCAGC +CAGATTTTTTTCCAGCCACAGAGCATCAAGAAACTGCTCGATGCGTGCCAGATCCTGTTTCACTTGCGCC +CCTTATGGTCACTCATTTGATCCATTATGCCTTATTGTGCCGTGACTAAAGCGATTCTGATACACTAGCC +GCAAAAGCCACAGCAGAATCGAGAAGCTTACGTTATGAATATGGGTCTTTTTTACGGTTCCAGCACCTGT +TACACCGAAATGGCGGCAGAAAAAATCCGCGATATTATCGGCCCAGAACTGGTGACCTTACATAACCTCA +AGGACGACTCCCCGAAATTAATGGAGCAGTACGATGTGCTCATTCTGGGTATCCCGACCTGGGATTTTGG +TGAAATCCAGGAAGACTGGGAAGCCGTCTGGGATCAGCTCGACGACCTGAACCTTGAAGGTAAAATTGTT +GCGCTGTATGGGCTTGGCGATCAACTGGGATACGGCGAGTGGTTCCTCGATGCGCTCGGTATGCTGCATG +ACAAACTCTCGACCAAAGGCGTGAAGTTCGTCGGCTACTGGCCAACGGAAGGATATGAATTTACCAGCCC +GAAACCGGTGATTGCTGACGGGCAACTGTTCGTGGGTCTGGCGCTGGATGAAACTAACCAGTATGACCTT +AGCGACGAGCGTATTCAGAGCTGGTGCGAGCAAATCCTCAACGAAATGGCAGAGCATTACGCCTGATCTC +ACTGACGGCTTAGCGCATATGCTTTGCCGTCATCTTTATCTTTGCGTCTCTTGTTGCAACAAAATCCGCC +GTAAATCCCGCCATTCAGCTTCGTCCATGCTGTCGGCTGCCAGCCATAAATGTTGCCGTTTACCGCCATC +AGAACGTAAACGCAGCATCATGCCGCTCTTAATCATCCACGGTGCTTTGACGATGCTCCACTCCTGCCCT +TGCCAACGCAAACGCCCGTCCATCAACAAGCGAATTTCCCCCTGGCGAGCATTAATACGCCGCTGGCTGC +GAACGCAATCAAACACCACCAGCGAAAGTAACACCATCCATAACGGGGTGTAACTGAGTGGCCAGGGCAT +GAGTAAAATAACAGCGGCAACCAGCCCATGAATCAGCAAGGAAAGCCACTGTGCGCGCCAGGAGACGCGC +AAATCAGATTGCCACAGGACCACGTTCCCGGTTCCGTGTCTGGATGAGTCGGACCATCATTTCCAGTTCT +GCATCGGCCGGTTTACCGTGATTCATCAGCCAGTTAAACAGGTCCGGATCGTCACATTCCAGCAGACGAA +TAAAGATGCGTTTTTCGTCATCGCTTAAGCTGTCGTACTCATGTTCGAAAAACGGCATGATTGAAATATC +GAGTTCGCGCATACCACGGCGGCATGCCCAATGAATGCGGGCTTTGTTGTTAATGTCCATCTTCTTCCTG +TCTCACGAAAATCCAGTACCCGGCTATTGTAACGTGTTTTTCGCCTTCTTTTACGGGAATATCAGTAAAC +ACCATCGCGATCGCGAAATTAATTCACAACAATTCAATGGCTTCATTTTTTTGGAAGTCGCCTCGCAGAA +GGCACAGATCGCGTAGTGAAAGCACTTGCATTGCCTCATAGCTCTTTTACCATTAGTCATTAATACGCCG +TTAAGCAACTCAGGACTCTATTATGGCTTTTACACCTTTTCCTCCCCGTCAGCCTACGGCTTCTGCCCGT +TTACCGCTGACGCTGATGACGCTTGATGACTGGGCGCTTGCCACCATTACTGGCGCGGACAGCGAAAAAT +ATATGCAGGGTCAGGTGACAGCAGATGTCAGCCAGATGGCAGAAGATCAGCACCTGCTCGCCGCCCATTG +CGACGCCAAAGGTAAAATGTGGAGCAATTTACGTCTGTTCCGCGACGGCGATGGCTTTGCATGGATTGAA +CGGCGCAGCGTGCGTGAACCGCAGCTGACTGAACTGAAAAAATATGCGGTATTCTCTAAAGTGACCATCG +CGCCAGACGACGAGCGTGTGCTGCTTGGTGTTGCCGGTTTTCAGGCGCGCGCCGCGCTGGCAAATCTCTT +TAGCGAACTGCCTTCGAAAGAAAAACAGGTAGTCAAAGAAGGCGCGACCACTTTGCTATGGTTTGAACAC +CCGGCAGAACGTTTCCTGATCGTAACCGATGAAGCTACTGCTAATATGCTGACCGATAAACTGCGCGGTG +AAGCGGAACTGAACAATAGCCAACAGTGGCTGGCATTAAACATTGAAGCGGGTTTCCCGGTGATTGATGC +CGCCAACAGCGGGCAGTTTATCCCACAGGCGACCAATCTCCAGGCGCTGGGCGGTATCAGCTTTAAGAAA +GGCTGTTATACCGGACAAGAGATGGTGGCGCGAGCAAAATTCCGTGGTGCCAATAAACGTGCGCTCTGGT +TGCTGGCAGGTAGCGCCAGCCGACTGCCGGAAGCTGGTGAAGACTTAGAGCTGAAAATGGGCGAGAACTG +GCGTCGTACCGGTACGGTACTGGCTGCGGTAAAACTGGAAGATGGTCAGGTCGTGGTACAGGTCGTCATG +AATAACGATATGGAACCGGATAGCATCTTCCGCGTACGCGACGATGCGAATACATTGCATATCGAGCCGC +TGCCGTATTCGCTCGAAGAGTAAATCTCTTTATCGCATCAGGCATTTATCGCCTGATGCGACGCTGGCGC +GTCTTATCATGTCTGGGATTTGATGCCTTTATCACAACAGGGACGAGGCCCGTAGATCGGATAAGGCGTT +CACGCCGAATCCGGCAGTTGTGCTCCGATGCCTGATGCGACGCTGGCGCGTCTTATCAGGCCTACAAAGG +CATACCCATTACGCCTGCCCAATATACAAATAGATCGCCAGAAAGTGGCACACACTACCGCCGAGCACGA +AGCCGTGCCAGATGGCATGGTTGTATGGAATGCGTTTGCAGACGTAGAAAATCACCCCGAGCGAATAAAC +CACGCCGCCTACCGCCAGTAAGGTAACGCTGCCCGCCGCGAGCTTAACTGCCATTTCATAAATTACCACC +AGCGACAGCCAGCCCATCGCCAGATAGGTCACCAGAGATAAAATTTTGAATCGGTGCGCGATGGTCAGTT +TAAACAGAATACCCAGCAATGCCAGGCTCCAGATAACAATCATCAACCCGCGCGCTAACGGAGAATCCAG +CCCCACCAGCAAAAACGGCGTGTAGGTTCCGGCAATCAACAGGTAAATAGCGCAATGGTCAAATTTCTTC +AGCCACATTTTTGCCCGTTGATGAGGAATGGCGTGATAGAGCGTCGAAGCGAGGAACAGCAGGATCATAC +TGCCGCCATAGAGGCTGTAGCTGGTTATCGCTGTGGCGCTGGCATTAAGATCCACCGCCTGAACCAGTAG +CAACACCAGCCCAACGATACCAAACACCAACCCAATGCCGTGACTGACGCTGTTGGCTATTTCCTCTGCC +AGTGAATATCCCTGCTTAATGAGGGGCTTCTGAACCATAACTTACTCCGGAGAAACGTACACGCACATGT +ATACCTCTCCAGCGTAACTGAGAATAGTTCCAGTGAACACCTGTTAGCTAAAATAAATTCTGATTTGAGA +CTAATCTCCTAAAAATCATGAAATTAAATGCGAAATTTCAACTAACAGGCGTGAGTTCAATTTAAAGACA +TTTAAATTCAATCACATAAAATTGTGTCTGACCGGGATAGATGTCAGCAATGACTTTTTTCAGTTCAGTC +AGGGTCATATTTTCCTGCTCTGCATGTTTTTCAGTCAGCGTATCCAGCGTTACGGTTGAGGTTGCGGTGA +CTTCAATCGTGCAAAAATAACCGTCATCTTCAAAACGTCCGACACGAAGCACATCACCCGTTTTGAAGTG +CGATTCAGACTCGTCGCGGATGGTGATGGTTTTACGCCCAGCCAGAATGTCATCCTGGAAACGTTGAAAA +AAAGTGATGTCGTTTGGCTGCATGGTACTATTTCCTGTAAGAATTGACTCATCTGGAGCCTATGATAGTG +AAAAAACTCACCTTACCGAAAGATTTCTTATGGGGCGGCGCAGTTGCCGCTCATCAGGTCGAAGGCGGCT +GGAACAAAGGCGGAAAAGGGCCGAGCATTTGTGACGTTCTGACCGGTGGCGCACACGGCGTGCCGCGCGA +AATCACCAAAGAAGTCTTGCCAGGAAAATACTATCCAAACCATGAAGCCGTTGATTTTTATGGTCACTAT +AAGGAAGACATCAAGCTATTTGCCGAAATGGGCTTCAAATGTTTTCGTACATCCATTGCCTGGACGCGCA +TTTTTCCAAAAGGCGATGAAGCTCAGCCAAACGAAGAAGGGCTGAAGTTCTACGATGATATGTTCGATGA +ACTGCTGAAATACAACATCGAACCGGTGATCACCCTCTCCCACTTTGAAATGCCGCTGCATCTGGTGCAG +CAATACGGTAGCTGGACCAACCGTAAAGTGGTTGATTTCTTTGTACGTTTCGCGGAAGTGGTATTTGAAC +GCTATAAGCACAAAGTCAAATACTGGATGACCTTCAACGAAATTAACAACCAGCGTAACTGGCGTGCACC +GCTGTTCGGTTACTGCTGCTCCGGCGTGGTGTATACCGAGCATGAAAACCCGGAAGAGACGATGTATCAG +GTGCTGCATCACCAGTTTGTCGCCAGCGCCCTGGCGGTGAAAGCTGCGCGTCGCATTAACCCGGAGATGA +AAGTCGGCTGTATGCTGGCGATGGTGCCGCTCTATCCTTACTCCTGTAACCCGGACGATGTGATGTTCGC +TCAGGAGTCGATGCGCGAACGCTACGTCTTTACCGATGTGCAGCTACGCGGCTATTACCCGTCCTATGTG +TTGAACGAGTGGGAGCGTCGCGGATTTAACATCAAAATGGAAGACGGCGATCTGGATGTGCTGCGTGAAG +GCACCTGCGATTATCTTGGTTTCAGCTATTACATGACCAATGCAGTGAAGGCCGAAGGCGGCACCGGCGA +TGCGATCTCTGGTTTTGAAGGCAGCGTACCAAACCCGTATGTTAAAGCATCTGACTGGGGCTGGCAGATT +GATCCAGTAGGTCTGCGCTATGCACTTTGCGAACTGTATGAGCGTTATCAGAGGCCGCTGTTTATTGTCG +AAAACGGTTTTGGCGCTTACGACAAAGTGGAAGAAGATGGCAGCATCAACGACGACTACCGCATTGACTA +CCTGCGCGCCCATATCGAAGAGATGAAAAAAGCGGTGACTTACGATGGCGTGGATCTGATGGGCTACACA +CCGTGGGGCTGCATCGACTGCGTGTCGTTCACCACCGGGCAGTACAGCAAACGCTACGGCTTTATCTATG +TGAATAAACATGACGACGGTACTGGCGATATGTCGCGTTCACGTAAGAAGAGCTTTAACTGGTACAAAGA +GGTGATTGCCAGCAACGGCGAGAAGCTTTAAGTCGATGAAGTACCGGATGCAATACTTGTTGCATCCGGT +CAGACAACTTCCCTGTTTTATTTCCCGCCCGCCAAATCGATAAAACTTCCCGTGACGTAAGAGGCTTTAT +CACTTAGTAGCCAGACAATGGCCTGCGCGACCTCTTCTGCCTGTCCACCACGCTGCATGGGGATGTTCGA +CTTAACGCGATCGACGCGTCCAGGCTCGCCGCCGCTGGCGTGCATTTCGGTATAAATAAACCCTGGCCGC +ACGCAGTTAACGCGGATCCCCTGCGCGGCGACTTCCAGCGATAGTCCGGTGGTTAACGTATCAATCGCCC +CTTTCGATGCCGCGTAATCAACATATTCCCCTGGCGAACCCAACCGTGAGGCCACCGAAGAGACATTGAC +GATAGCGCCGCCACTGCCACCATTTTTAAGCGCCATGCGTTTTACCGCCTCGCGGCAGCAGAGAAAATAT +CCCGTCACGTTGGTGGAAAGTACTCGGTTGATTCGCTCTGCGGTAAGGTTTTCAACGGTGCACTGGGTAA +ACAAGATCCCGGCGTTATTGACCAGCGCTGCTAGCGGTTCATCGTGCTGATCGATTGCTGTAAACATCGC +AACGACCTGGTTTTCGTCGCTGATATCCGCCTGGAGCACGAATGCTTTGCCACCGGCTTGCGTTATTAAG +TTCATCACTTCCTGCGCCGCGTGGAGGTTTTGCTGATAATTAACCGCCACCGTATACCCTTCTTGCGCCA +ACAGTAATGCAGTTGCCCGCCCGATGCCGCGACTGCCACCAGTCACAAGTGCTATAGCCATTTGTTTTTC +CGAGAAAAATTAATTCGTTGACGTATCTTTGAGATTGCTAACAAACTGGCTCAATCTTCAATGTTGGCAC +GCTTTTCCCCCTCGCCCTTTCAGGGAGAGGGCCGGGGTGAGGGTAAATATTCGCGCCAGTGCCGGCCTGT +TCCCCTCACCCTAACCCTCTCCCCAAAGGGGCGAGGGGACTGTCTGAGCACTTTTGTACTTTGTCATCTG +ACTAAAAAGGCGCCGAAGCGCCTTTAGAAAATAGTCGAATCAGTGAATTACTGGTATTCGCTAATCGGTA +CGCAGGAGCAGAACAGGTTACGGTCGCCGTAAACATCATCCAGACGTTTCACTGTCGGCCAGTATTTGTC +TGCCACACCTGCCGGGAATACCGCAACTTCACGGCTGTACGGATGCGCCCACTCGGCGACCAGTTCGCTC +TGAATGTGCGGCGCGTTCACCAGCGGGTTATCTTCCAGCGGCCAGACACCGGCTTTCACCTGGTCAATTT +CTGCGCGGATAGCCAGCATCGCGTCGATAAAGCGATCCAGTTCCACTTTGCTTTCAGATTCAGTCGGTTC +AACCATCAGCGTACCCGCCACCGGGAACGACATCGTCGGCGCGTGGAAACCGTAGTCGATCAGGCGCTTG +GCAATATCCAGCTCGCTGATGCCGGTTTCTTCTTTCAGCGGGCGAATATCGAGAATACATTCGTGCGCCA +CGCGACCGTCGCGACCGGTATACAGCACCGGGAAGGCATCCTGCAGGCGGCTGGCAATATAGTTGGCGTT +GAGGATTGCCACCTGGCTTGCTTTTTTCAGCCCTTCTGCGCCCATCATGCGGATGTACATCCAGCTGATT +GGCAGGATAGAGGCGCTACCGAACGGTGCCGCAGAAACCGCGCCCTGACGGGTTAACATGCCTTCGATTT +GCACCACGCTATGACCCGGTACAAACGGTGCCAAATGCGCTTTCACGCCGATCGGTCCCATACCCGGACC +ACCACCGCCGTGCGGAATGCAGAAAGTTTTATGTAGGTTAAGGTGTGAAACGTCCGCACCAATAAAGCCC +GGCGAGGTGATGCCAACCTGGGCGTTCATGTTCGCGCCATCAAGGTAAACCTGACCGCCGAACTGATGCA +CGACTTCACACACTTCACGGATCGTTTCTTCATACACGCCGTGGGTAGAAGGATAAGTCACCATGATACA +GGAGAGGTTATCGCCCGCCTGTTCCGCTTTCGCGCGCAGATCAGTCAGATCGATGTTGCCGTTTTTATCA +CACGCCACAACCACCACCTGCATTCCTGCCATATGTGCAGAAGCGGGGTTAGTTCCGTGCGCAGAAGCCG +GGATCAGGCAGATATCGCGATGCCCTTCGTTGCGGCTTTCATGATAATGACGAATCGCCAGCAGGCCCGC +GTATTCGCCCTGTGCGCCAGAGTTCGGCTGCATACAAACGGCGTCGTAACCGGTCAGTTTCACCAGCCAG +TCAGCCAGCTGCGCAATCATCTGCTGATAACCTTCGGCCTGCTCCGGCGGGCAGAACGGGTGCAGTTCGG +CAAATTCCGGCCAGGTGATTGGGATCATCTCGGCGGCGGCGTTCAGTTTCATGGTGCAGGAACCCAGCGG +GATCATCGCCTGATTCAGCGCCAGATCTTTACGCTCCAGCGAGTGCATATAGCGCATCATTTCGGTTTCG +CTGTGGTAGCGATTAAACACCGGATGGGTGAGGATTTCGTCGTCGCGCAGCATCGCAGGCTGGATAGAGC +GGCTGTCGTGAGCCACGTCTTTGTCCAGCGTGTCGATGTCCAGGCCGTGGTTATCGCCCAGCAGCACGTT +GAAAAGCTGCATTACGTTTTCACGCGTGGTTGTTTCATCAAGGGTGATCCCAACCGCGTTCAGAATATCG +CTACGCAGGTTGATTTCAGCCGCTTCGGCACGCGTCAGTACGCCCGCTTTGTCGGCCACTTCCACACACA +AGGTGTCGAAATAGTGCGCATGGCGCAGTTTCAGACCTTTTTGTTGCAGGCCCGCCGCCAGGATATCGGT +CAGACGGTGAATGCGGTTAGCGATACGTTTCAGGCCAACCGGGCCGTGATAAACGGCATACAGGCTGGCG +ATGTTTGCCAGCAGTACCTGGGAAGTACAAATGTTGGAGTTCGCTTTCTCACGGCGGATATGTTGCTCGC +GAGTCTGCATCGCCATGCGCAGCGCGGTATTGCCAGCTGCATCTTTCGATACACCGATAATACGGCCCGG +CATTGAGCGTTTGTATTCATCTTTCGCCGCAAAGAATGCCGCGTGTGGGCCACCGTAGCCCATCGGCACG +CCGAAGCGTTGCGCCGAACCAAAAACAATATCCGCGCCCTGTTTACCCGGCGCAGTTAACAGCACCAGCG +CCATAATATCGGCGGCAACGCTGACCACAATTTTGCGTGATTTCAGTTCGCTAATAAGCGCAGTGTAGTC +GTGAATTTCACCGGTAGTGCCTACCTGCTGTAACAGCACGCCGAAGACGTCCTGATGGTCGAGCACTTTT +TGCGCGTCATCGACAATCACTTCAAAACCAAAGGTTTCGGCACGAGTACGGACCACATCCAGCGTTTGCG +GATGCACATCGGAAGCCACGAAGAAGCGGTTGGCATTTTTCAGTTTGCTGACGCGTTTCGCCATCGCCAT +TGCTTCGGCGGCAGCGGTGGCCTCGTCCAGAAGAGAAGCAGAGGCCATATCCAGTCCAGTCAAATCCAGC +GTTACCTGCTGGAAGTTGAGCAGTGCTTCAAGGCGGCCCTGGGAGACTTCAGGTTGATACGGAGTGTACG +CGGTATACCAGCCCGGATTTTCCAGCATGTTACGCAGGATAACCGGCGGTAGCTGCACGGCGGTGTAACC +CATGCCGATGTAAGACGTGAAGCGTTTATTGCGACTGGCAATAGCCTTGAGTTCTGCCAGTGCGGCGTAT +TCGGTCGCCGGTGCGCCAACCTGCGGTGGTGTCGCAAGTTGAATATCTTTCGGCACAATCTGGCCGGTCA +GCGCGTTTAACGATTGTGCACCAACGGCATTCAGCATTTCTTGCTGTTGCGCGGCGTCCGGTCCGATATG +GCGTTCAATAAAAGCGCCGCTGTTTTCAAGCTGGCTTAACGTCTGTGTCATGAGCGATGGTTCCTGAAAC +GTGCAGTGAATTGTGAACCTCTCTCCTTACGAAGAGAGTGAGGGTGAGGCATAAATTTTCCTCACCCTGA +TCCTCTCCCGCAGAAGAGGAATAAAGCCGTTACTCGTCTTCTAACAATGCTTCGTATGCGGTCGCATCCA +GCAGTGATTCCAGTTCGCTTTCATCGCTGGCTTTGATTTTAAAGATCCAGCCGCCTGCATACGGTTCGCT +GTTCACCAGTTCCGGGGAATCGCTCAGTGCGTCGTTTACCGCCACGATTTCACCGCTTACTGGCGCATAA +ATGTCTGACGCCGCTTTTACCGATTCGGCAACCGCGCAGTCATCGCCCGCGCTAACCGTTGCGCCCACTT +CCGGCAGGTCAACAAACACCATATCGCCTAACAGCTCCTGAGCATGTTCGGTAATACCAACGGTGTAAGT +GCCGTCGGCTTCTTTACGCAGCCATTCGTGTTCTTTGCTGTATTTCAGTTCTGCTGGTACGTTGCTCATC +AATCAATCTCCAAAAAAGTAAATCACGCGACGGCTTTGCCGTTACGCACAAAAACAGGTTTTGTCACTTT +AACCGGCATTTCACGGTTGCGAATTTGCACAATCGCCGTTTCGCCAATACCTTCCGGCACGCGCGCCAGC +GCAATGCTGTAACCCAGCGTCGGGGAGAAAGTACCGCTGGTGATAATGCCTTCATGCTGGTTGCCCTGCG +CATCGGTAAAGCGTACCGGCAGTTCATTACGCAGCACGCCTTTTTCGGTCATCACCAGACCAACCAGTTT +TTCTGTACCATGCTCACGCTGCACTTCCAGGGCTTCACGACCGATAAAGTCACGATCTGCCGGTTCCCAG +GCGATGGTCCAGCCCATGTTGGCGGCTAAAGGAGAGATGGTTTCGTCCATCTCCTGACCATAAAGATTCA +TGCCCGCTTCCAGACGCAGCGTGTCACGCGCGCCCAAGCCACATGGCTTAACACCCGCTTCCACCAGCGC +ACGCCAGAAATCGGCCGCTTTTTCATTGGGCAGCGCAATTTCATAGCCCGCTTCACCGGTATAACCAGTG +GTGGCAATAAACAGATCGCCCGCCTGCACGCCAAAGAACGGTTTCATCCCTTCCACCGCCTGACGCTGGG +CGTCATTAAACAGTGTGGCAGCTTTTGCCTGCGCATTCGGCCCTTGCACGGCAATCATGGAAAGGTCATC +ACGAACGGTAATTTCGATGCCGAAAGGTTCAGCGTGTTGGGTAATCCAGGAGAGGTCTTTTTCGCGGGTG +GCGGAGTTAACAACGAGGCGGAAGAAATCTTCAGTAAAGTAGTAGACGATGAGGTCATCTATCACACCGC +CAGAGGCATTCAACATCCCCGAGTAAAGGGCTTTGCCGCTTTTGGTGAGCTTCGCCACATCGTTCGCCAG +CAGATAACGCAGAAACTCCCGGGTGCGGCTGCCGCGAAGATCGACGATGGTCATATGTGACACATCAAAC +ATTCCGGCATCGGTACGTACCGCATGATGTTCGTCGATTTGCGAACCGTAATGCAGCGGCATCATCCAGC +CGTGGAAATCCACCATGCGAGCGCCGCAAAGCGTGTGTTGTTCGTACAAAGGAGTCTGTTGTGCCATCTT +GTCCTCATTGAATAAGCGGGGCTGACAACTTTTTCATGGTGAAATTATCACCACGAAACCCAGCATCGGA +GCCACTCCCGGTCCCCAACGCAATCGTTCTCTTTTGCCTGAACTTACCACCGAAACAGACTGTTAACCAT +AAGGTAAAATTGATCATCACATTAGCTTATGGTTAAAAAATGCAAAAATCGCGACAGAATAAAAAACCAA +AAAATACACCAGTTTCTATACAAAGATGATGTGATGAGAAAGTCAATTTGAATAAGACAATATTAAGAGC +TAAAAAAATGTCAAAAAACACTAAATCAAAAAATAATGGCATTAGAAAATATAATGCGAAAACGGAGGTG +AAATTAGTTTATTTCAAATGAGGAAAATCTCCCGGCGAAAAAACCGGGAGATGAAAGTGTGATGGGTATC +AAATAAACAACAGAGGAGAAATTTTTAACGCAGCCATTCAGGCAAATCGTTTAATCCCATTGCCTGGCGG +ATAAGTTGCGGCTTAACGCCAGGAAGCGTGTCGGCCAGTTTCAAACCAATATCACGCAGCAGTTTTTTCG +CCGGATTGGTACCGGAAAACAGATCGCGGAATCCCTGCATACCAGCCAGCATCAACGCCGCACTGTGCTT +GCGGCTACGCTCATAGCGACGCAGATAAATGTACTGCCCGATGTCTTTCCCCTGACGATGCAACCGTTTC +AGTTCGGCAATCAGCTCTGCAGCATCCATAAAGCCGAGATTTACCCCCTGCCCCGCCAGCGGGTGAATGG +TATGTGCGGCGTCGCCCACCAGCGCCAGACGGTGCGAGGCAAACTGGCGCGCATAACGCCCCGTCAGTGG +GAACACCTGACGCGCGCTCTCAACCTTGCATAAGCCCAGGCGATTATCAAAAGCGATATTTAACGCGCGA +TTAAATTCGTCTTCACTTGCCTGCTGCATCCGCTGCGCTTCCTCTGGCGACAGTGACCAGACAATCGAGC +AAAGATGCGGATCGCTAAGCGGTAAAAAGGCCAGAATGCCTTCGCCATGGAAAACCTGCCGCGCCACCGC +ATCATGCGGTTCTTCCGTGCGAATGGTCGCTACCAGCGCGTGATGCTGATAATCCCAGAAAGTCAGCGGA +ATATCGGCTTTGTTGCGCAACCAGGAATTAGCGCCGTCCGCGCCAATCACCAGACGCGCCGTTAACATGC +TGCCATCTTTCAGCGTCAGGAAGGTTTCATTTTCTCCCCAGGCGACCTGCTGTAATTCTGCGGGGGCTAA +CAGAGTGATATCTGACGACTGATGCGCTTTGTTCCACAGCGCGTAGTGAATCACTGAATTTTCAACGATA +TGCCCAAGATGGCTATAGCCCATGCTTTGATCGTCAAACGAAATGTGACCAAAGCTGTCTTTGTCCCACA +CTTCCATACCGTGATAACAGCTGGCCCTACGAGAGAGAATGTCCTGCCAGACGCCAAGACGGGTGAGTAA +TTTTTCGCTGGCGGCATTGATAGCCGAAACGCGCAGTTGTGGTGGTGCATTCGCCGCCAGAGGTTCCTGT +ACGCGCTGCTCCAGTACGGCAACGCGTAAGCCGCTCCCCTGTAAGCCACAGGCAACCGCCAGCCCCACCA +TGCCGCCGCCAACAATGGCTACATCAACACTTTGCATTGTTTATTCCTTAAAACCGCCTTCAACGCGCCA +CCCAACCGAGGGTGCGCTGCGCCAGCACATCGCGTGCCGGGGTGAATAATTCCATCGTCATCAGCCCGAT +GTTGCGCCCGACAACCAGCGGTGCCCAACGGTTGGCAAAAAGATGTACAAGGCTGTCCGTGACGCCAATG +GTTGCTTCGCGATCGCTCTGTCGACGCTGCTGATAACGGCACAATACGCCGTAATCCCCCATGTCTTCTC +CGCGCTCCTGCGCCTGAGTCAGGGTTTCCGCAAGACTCATCACATCTCGCATACCGAGGTTAAACCCTTG +CCCGGCAATCGGGTGCAGAGTTTGCGCCGCATTGCCCACCAGCACGGTACGATGGGTAATAGATCTGGCG +GCGTGGGTTAACGCCAGCGGATAAGCACTGCGTTTACCAGCGTGGGTAATTTTCCCAAGTCGCCAGCCAA +AGGCCGACTGGAGTTCACGGCAAAACTTCTCGTCACTCCACGACAACACCTCTTCGCGCCGTTCCAGTGG +ATGACACCAGACCAGCGAACAGCGTCCGTCAGACATCGGCAACATCGCCAGCGGGCCATGTTGCGTAAAG +CGTTCAAAAGCGCGCCCTTCATGCGCAACGGAAGTAGCAACGTTGGCAATCACGGCCAGTTGTTCGTAAG +GCTCCTGCTGCCAGTCAACGCCGCACGCGGTGGCTAACGCTGAATGGGTGCCATCAGCTGCTACCAGCAC +GCGGCCCGTCAGCGTCTCGCCACTCTCCAGCGTCACTTCAACGTGACTCTGAGTACGGGCAACGTTAGCC +ACGCGATCAGGGCAATGCAGCGTTACGCCAGGTGCTTTACGCAGCAATGCAAACAGCCGTTGCCCGACAT +TGTGCAATTCGACAACCTGTCCCAGCGCCGCCAGTTGGTAATCTTCTGCGGCGAGGGTGACAAATCCAGC +GTGACCACGATCGCTGACATGCACGGTGGTGATGGCAGTTGCGCAATCCGCCAGAGATTGCCAGACGCCG +ATGCGCGCCAGTTGCTGACAGGTACCCGCCGCCAGCGCTATCGCTCGTCCATCAAAGCCCGGATGAGCAT +GTGACTCTGGCGCAGTCGCTTCAATCAAATGTACCGGCAGCGCCCCGTGACTTAACCGGGAAATAGCCAG +CGCCAGCGTCGCGCCCGCCATGCCGCCACCGACGATGATTACGCTCATTGCTTTCTCGCAGCAACCATCA +ACGCTTCGATTTCTTCCGGCTTTTTCACCACGCTGGCGGTGAGGTTTTCGTTACCGGTTTCGGTAATCAC +AATGTCGTCTTCAATACGAATGCCGATACCGCGATATTGTTCTGGCACTTCTGCATCCGGCGCAATATAC +AGCCCTGGCTCTACGGTCAGTACCATGCCCGGTTCCAGAATGCGCGAGCGATCCTGACCATAAACACCCA +CGTCATGGACATCCAGTCCTAACCAGTGGCTAAGGCCATGCATAAAGAAAGGACGATGGGCGTTCTGAGC +GATCAGTTCATCAACATCACCTTTCAGGATGCCGAGTTTTACCAGGCCGCTAACCATGATGCGCACCACT +TCACCAGTGACTTCCAGAATGGAAGTTCCCGGACGATACAGGCGCAGGCTGGTTTCGAGAGACTCCAGCA +CAATGTCGTAGATTTCACGCTGGGCCTGGGTGAATTTGCCGTTGACCGGGAAGGTGCGGGTAATATCGCC +AGCGTAACCTTTGTATTCACAACCCGCGTCAATCAACACCAGGTCGCCGTCGCGCATTTCACACTCGTTT +TCGGTGTAGTGCAGAATGCAGCCGTTTTCACCGCTGCCGACAATGGTGTTATAGGACGGATAGCGCGCAC +CGTGGCGGTTAAATTCGTGGTGAATTTCGCCTTCCAGATGGTACTCGAACATTCCCGGACGGCATTTTTC +CATCGCCCGTGTATGTGCCATGGCGGTGATTTCTCCCGCGCGGCGGAGTACGGCAATCTCTTCTGGCGAT +TTGAACAGGCGCATTTCATGAACAACAGGACGCCAGTCGATCATCGTTGCCGGTGCGGTGAGATTTTGCC +GCGAACCTTTACGCAGTTTTTCCAGCGCACTGTTCACGATTACATCAGCATATGCATATTCGCCCTGGGC +ATGGTAAACCACATCCAGGCCGTTAAGTAGTTGATAAAGTTGCTGATTGATTTCGCTGAATGCCAGTGCG +CGGTCAACGCCCAGTTTCTCTGGCGCGGCATCCTGGCCTAAGCGACGGCCAAACCAGATCTCCGCCGTCA +GGTCGCGAACGCGGTTAAACAGAACGCTGTGGTTATGAGTGTCATCGCTTTTAATCAGCACCAGCACCGC +TTCCGGTTCGTTAAAGCCGGTGAAGTACCAGAAGTCACTGTTCTGACGATAGGGGTATTCGCTGTCGGCG +CTACGTGTTACTTCTGGTGCAGCAAAAATCAGCGCGGCGCTGCCGGGTTGCATTTGCTCCACCAGGGCCT +GACGGCGACGCTGAAACTCTTGCCGGGATATCTCACTCATAACACTCTCCTTACGTTTTTTGTTTTTAGT +GTAGAGTCGGTTTTTGTACTTCTGGCGCGGTCGGTTGCGGATGAGTAAAGGTGTCGTGGCATAACAGCGC +GGCAACACGAACGTATTCGATGATCTCTTCAAGCGACATTTCAAGCTCTTCCTGATCTTCGTCTTCGTCG +TAACCCAGTTGCGCAATGTTACGCAGATCGTCGATAGCTTCACCGGTTTCGCCGGTCACTTTATCCAGCT +TCGGTTGCGTAACGCCAAGACCAAGCAGGAAGTGATTGACCCAACCTGCCAATGCATCAGCCCGATCGAA +AACGCTGACATCATCGCCATCAGGCAGATAAAGCTGAAAAAGGAAGCCGTCATCCTGCAGGGCATCGCTG +GTGGCAGAGTGCATTTTACGCAGTGCCTGTGCCAGCTCATGACCGAAAGCCATGCCTTCGTTCGTCAGGT +CGTGAAGTAGCGGTAGCCATGAGCTGTCATCGTTACCGCCACATATCATCCCGCTGATTAAACCATGCAT +CTCAGCTGGGGTCAGACCCGTCCCTTGTTGGTTCAGATACTGGTTCATTTCGTTGTAACCAGGCATTTCG +TTCTGTATAGACATAAGCATTCGTCGTCAAAGGGAGGAATATTCATGATATGCTACCACTTTGGGCCCTG +GTGGACCAGAAAAGGGCTTGTCTCTTCTCATCAGGGTAGCTATAGTGTCGCCCCTTCGCAGACCATGGGT +CTAAAGACGAAGGCAGCGCAGTCAATCAGCAGGAAGGTGGCATGTCTGCACAACCCGTCGATATCCAAAT +TTTTGGCCGTTCACTGCGTGTGAACTGCCCGCCTGACCAAAGGGATGCGTTGAATCAGGCAGCGGACGAT +CTGAACCAACGGTTGCAAGATCTGAAAGAACGCACTAGAGTCACAAATACTGAACAGTTGGTCTTCATTG +CCGCATTGAATATCAGCTATGAGTTAGCGCAAGAAAAAGCAAAGACTCGTGACTACGCGGCAAGTATGGA +ACAGCGTATTCGGATGCTGCAGCAGACCATAGAACAAGCGTTACTTGAACAAGGTCGCATCACCGAAAAA +ACTAACCAAAACTTTGAATGACACTTTTCGGTTTACTGTGGTAGAGTAACCGTGAAGACAAAATTTCTCT +GAGATGTTCGCAAGCGGGCCAGTCCCCTGAGCCGATATTTCATACCACAAGAATGTGGCGCTCCGCGGTT +GGTGAGCATGCTCGGTCCGTCCGAGAAGCCTTAAAACTGCGACGACACATTCACCTTGAACCAAGGGTTC +AAGGGTTACAGCCTGCGGCGGCATCTCGGAGATTCCCTTCTTATCTGGCACCAGCCATGACGCAACTACC +AGAACTCCCACTGACATTATCCCGACAAGAAATCCGCAAAATGATTCGGCAACGTCGTCGTGCGTTAACG +CCGGAACAACAGCAGGAAATGGGTCAACAAGCCGCTACCCGGATGATGACTTATCCCCCGGTGGTGATGG +CACATACGGTCGCTGTATTCCTCTCTTTTGATGGCGAACTCGACACCCAGCCACTCATAGAACAACTCTG +GCGCGCCGGTAAGCGCGTATATCTTCCAGTTTTGCATCCCTTTAGTGCCGGTAATTTGCTGTTCCTGAAT +TACCATCCGCAAAGCGAACTGGTGATGAACAGGTTGAAGATCCATGAGCCAAAATTGGATGTGCGTGACG +TGCTACCCCTTTCCCGATTAGACGTGCTGATCACACCGCTGGTCGCCTTTGATGAGTACGGTCAGCGCCT +GGGAATGGGCGGTGGTTTTTATGATCGGACCTTACAAAACTGGCAGCACTATAAAACGCAACCGGTGGGT +TATGCGCATGATTGTCAGTTGGTGGAAAAACTCCCCGTTGAAGAGTGGGATATCCCTCTTCCTGCGGTGG +TTACACCGTCGAAAGTCTGGGAGTGGTAAGGGCGATACACCCGCATCGCCCTGATTGACATCGTTGATTC +TTTGACCTAATTTAGTGAGTAAGGGTAAGGGAGGATTGCTCCTCCCCTGAGACTGACTGTTAATAAGCGC +TGAAACTTATGAGTAACAGTACAATCAGTATGATGACAAGTCGCATCATAACCCTTCTCCTTCAAGCCCT +CGCTTCGGTGAGGGCTTTACCGTTACAGCCCCATGCTGCCCTGCCATCGTAAATCCCCATTAAATAAACA +CAACGCATTGATCTGACTTTGATTTATTTTCTGGAGCAGACTCGCAAAGTAGAATGCGCAACGCGGCAAC +GGTGTGGAGAAGGGATAAAAAAACGGGCAAGTCAGTGACCTGCCCGTTGATTTTCAGAGAAGGGGAATTA +GTACAGCAGACGGGCGCGAATGGTACCCGGAATAGCTTTCATTGCCTGCAGCGCTTTTTCGGCAACGTCT +TCGTCGGCTTCAATATCAATAACCACATAACCCATCTGGGCGGAAGTTTGCAGATATTGCGCGGCGATGT +TGACGCCCTGCTCGGCGAAGATTTTGTTCAGCGCAGTTAGCACGCCCGGACGGTTTTCGTGGATGTGCAT +CAGACGACGCCCACCGTGCAGTGGCAGCGAGACTTCCGGGAAGTTCACCGCAGAGAGCGTTGAGCCATTG +TCAGAATACTTGATCAATTTACCCGCAACTTCCAGGCCGATATTCTCCTGCGCTTCCTGAGTCGAACCGC +CAATGTGTGGCGTCAGAAGGACGTTGTCGAATTCACACAGCGGAGAGGTAAATGGATCGCTATTGGTCGC +CGGTTCCGTCGGGAATACGTCGATTGCCGCCCCCGCCAGATGTTTGCTCGCCAGCGCATCACACAGCGCC +GGAATATCCACCACAGTACCGCGCGAAGCATTAATCAGCAGCGAGCCGGGCTTCATTAGTGAAATTTCTT +TCGCGCCCATCATATTTTTGGTGGACGGATTCTCTGGTACATGCAGACTCACCACATCGCTCATATTCAG +CAGGTCAGAAAGATGCTGTACCTGAGTGGCGTTGCCCAGCGGCAGTTTATTTTCAATATCATAAAAGTAA +ACATACATTCCCAGCGATTCAGCCAGAATGCCCAATTGCGTACCAATATGACCGTAGCCGATGATACCCA +GCTTTTTGCCGCGCGCTTCAAAAGAACCCGCCGCCAGTTTGTTCCACACGCCACGGTGCGCTTTAGCATT +GGCTTCCGGCACGCCGCGCAATAGCAGCAGCAGTTCGCCAATCACCAGCTCCGCAACAGAGCGCGTATTT +GAGAACGGTGCGTTAAATACCGGGATCCCGCGCTTTGCCGCCGCATCCAGATCAACCTGGTTTGTTCCGA +TACAGAAACAGCCAATAGCGACCAGTTTTTCTGCGGCGTTGATCACGTCTTCAGTCAGATGGGTACGGGA +TCGCAGGCCGATGAAGTGGGCATCGCGGATGGATTCTTTTAATTGTTCATCATCCAGCGCGCCTTTGTGA +AATTCGATGTTGGTGTAACCAGCTGCACGAAGGCTTTCCAGCGCCTTTTGGTGCACGCCTTCTACCAGCA +GAAACTTAATCTTGTCTTTCTCCAGCGATACCTTTGCCATTTACCCAATCCTGTCTTTTGAAATGTTGTG +TGCGGATTTGCATCCGCCTTTCAACATATCAAAAAATAATATTGCGGCAATATGAACGTTTGCGTCGCGA +TGTTGAGGAAATATCACGCAAAGGTAATTCTTGGATGAATATGCTGGTTTAGAGGATTTATTTAGAGCAA +TCGACAATTGCCTGGTAAAAGCGTGACACATGTCACCAAATTTAATGAAGAGAATTTTTTTAACGGGGGA +GGTTCCCCCGTCAGATCATTTCACAATGGTTTTGACACCGTCAGGTGTGCCAATCAGCGCAACGTCCGCG +CCACGGTTAGCAAACAAGCCAACAGTCACCACGCCAGGAATCGCATTTATGGCGTTTTCCATCGCTATCG +GGTCAAGGATTTCCATGCCGTGGACGTCGAGGATCACGTTGCCATTATCGGTCACCACGCCCTGACGGTA +TTCCGGACGACCGCCCAGTTTCACCAGCTGACGCGCCACTGCACTACGTGCCATCGGGATAACTTCTACT +GGCAGCGGGAATTTACCCAGAATATCAACCTGCTTGGAAGCGTCTGCAATACAGATAAATTTTTCTGCAA +CCGAAGCAATGATTTTTTCACGGGTCAGCGCCGCGCCGCCGCCTTTGATCATTTGCATGTGGCCGTTGAT +TTCATCTGCGCCATCAACGTAGATGCCAAGGCTGTCGACTTCGTTGAGATCAAAAACGTGAATGCCGAGG +CTTTTCAGTTTTTCAGTGGAAGCATCTGAACTGGAAACGGCCCCTTCAATCTGGCCTTTCATTGTACCGA +GCGCGTCAATAAAGTGTGCGGCGGTGGAACCTGTACCTACACCAACAATGGTGCCGGGCTGAACATACTG +AAGTGCCGCCCATCCTACTGCTTTTTTCAATTCATCCTGCGTCATGATCGTTTCGCCTGTGGTATGAAAT +TTCACACGCATTATATACAAAAAAAGCGATTCAGACCCCGTTGGCAAGCCGCGTGGTTAACTCATCCATA +AAATATCGCGCAATGGCAGGCATCCCCTTTCGCCCCGCAAATAAAGCATACAACGGTCTGGGTATGCCGC +TCCACGGTGCAAACAGGCGCACCAGTTCACCGTTCGCAAGCCCCTGTTTACAGGCAAATTGAGGCAATAA +CGCCACGCCATTCAACACAACCAGGGCGCGAACTCGCTGAGCGAAATGCATTAGCGCAAATCCCTGATCT +TTTAAGCTGCGCTTTTAACCACGGATACAAATGTTACCCGCCGACGGCTTCGGTATATGCAACCTGACAC +AAAATTGTGTCATAGTGCAGGAAAAAGCATTTACCAGGAGCAGACAACAGCAATGAAACGCCCGGACTAC +AGAACATTACAGGCACTGGATGCGGTGATACGTGAACGAGGATTTGAGCGCGCGGCACAAAAGCTGTGCA +TTACACAATCAGCCGTCTCACAGCGCATTAAGCAACTGGAAAATATGTTCGGGCAGCCGCTGTTGGTGCG +TACCGTACCGCCGCGCCCGACGGAACAAGGGCAAAAACTGCTGGCACTGCTGCGCCAGGTGGAGTTGCTG +GAAGAAGAGTGGCTGGGCGATGAACAAACCGGTTCGACTCCGCTGCTGCTTTCACTGGCGGTCAACGCCG +ACAGTCTGGCGACGTGGTTGCTTCCTGCACTGGCTCCTGTGTTGGCTGATTCGCCTATCCGCCTCAACTT +GCAGGTAGAAGATGAAACCCGCACTCAGGAACGTCTGCGCCGCGGCGAAGTGGTCGGCGCGGTGAGTATT +CAACATCAGGCGCTGCCGAGTTGTCTTGTCGATAAACTTGGTGCGCTCGACTATCTGTTCGTCAGCTCAA +AACCCTTTGCCGAAAAATATTTCCCTAACGGCGTAACGCGTTCGGCATTACTGAAAGCGCCAGTGGTCGC +GTTTGACCATCTTGACGATATGCACCAGGCCTTTTTGCAGCAAAACTTCGATCTGCCTCCAGGCAGCGTG +CCCTGCCATATCGTTAATTCTTCAGAAGCGTTCGTACAACTTGCTCGCCAGGGCACCACCTGCTGTATGA +TCCCGCACCTGCAAATCGAGAAAGAGCTGGCCAGCGGTGAACTGATTGACTTAACGCCTGGGCTATTTCA +ACGACGGATGCTCTACTGGCACCGCTTTGCTCCTGAAAGCCGCATGATGCGTAAAGTCACTGATGCGTTA +CTCGATTATGGTCACAAAGTCCTTCGTCAGGATTAATCCATCAAATAATGCCTGATAGCACATATCAGGC +GTTGTCCTCACTTCTTTTTGTATTCCTTGAATCACATCACAAAATAGACAAATCTCAGGCGGCAAAAAAC +GACGTCTGAATGCATTTTTTTTGCTGGCGACAAACCCACGTAAAAAGCTCACCGTAGGCGCAAATACCCT +CATTTTGATTGCGTTTTACGGAGCAAATAATGTCTAACGTGCAGGAGTGGCAACAGCTTGCCAACAAGGA +ATTGAGCCGTCGGGAGAAAACTGTCGACTCGCTGGTTCATCAAACCGCGGAAGGGATCGCCATCAAGCCG +CTGTATACCGAAGCCGATCTCGATAATCTGGAGGTGACAGGTACCCTTCCTGGTTTGCCGCCCTACGTTC +GTGGCCCGCGTGCCACTATGTATACCGCCCAACCGTGGACCATCCGTCAGTATGCTGGTTTTTCAACAGC +AAAAGAGTCCAACGCTTTTTATCGCCGTAACCTGGCCGCCGGGCAAAAAGGTCTTTCCGTTGCGTTTGAC +CTTGCCACCCACCGTGGCTACGACTCCGATAACCCGCGCGTGGCGGGCGACGTCGGCAAAGCGGGCGTCG +CTATCGACACCGTGGAAGATATGAAAGTCCTGTTCGACCAGATCCCGCTGGATAAAATGTCGGTTTCGAT +GACCATGAATGGCGCAGTGCTACCAGTACTGGCGTTTTATATCGTCGCCGCAGAAGAGCAAGGTGTTACA +CCTGATAAACTGACCGGCACCATTCAAAACGATATTCTCAAAGAGTACCTCTGCCGCAACACCTATATTT +ACCCACCAAAACCGTCAATGCGCATTATCGCCGACATCATCGCCTGGTGTTCCGGCAACATGCCGCGATT +TAATACCATCAGTATCAGCGGTTACCACATGGGTGAAGCGGGTGCCAACTGCGTGCAGCAGGTAGCATTT +ACGCTCGCTGATGGGATTGAGTACATCAAAGCAGCAATCTCTGCCGGACTGAAAATTGATGACTTCGCTC +CTCGCCTGTCGTTCTTCTTCGGCATCGGCATGGATCTGTTTATGAACGTCGCCATGTTGCGTGCGGCACG +TTATTTATGGAGCGAAGCGGTCAGTGGATTTGGCGCACAGGACCCGAAATCACTGGCGCTGCGTACCCAC +TGCCAGACCTCAGGCTGGAGCCTGACTGAACAGGATCCGTATAACAACGTTATCCGCACCACCATTGAAG +CGCTGGCTGCGACGCTGGGCGGTACTCAGTCACTGCATACCAACGCCTTTGACGAAGCGCTTGGTTTGCC +TACCGATTTCTCAGCACGCATTGCCCGCAACACCCAGATCATCATCCAGGAAGAATCAGAACTCTGCCGC +ACCGTCGATCCACTGGCCGGATCCTATTACATTGAGTCGCTGACCGATCAAATCGTCAAACAAGCCAGAG +CTATTATCCAACAGATCGACGAAGCCGGTGGCATGGCGAAAGCGATCGAAGCAGGTCTGCCAAAACGAAT +GATCGAAGAGGCCTCAGCGCGCGAACAGTCGCTGATCGACCAGGGCAAGCGTGTCATCGTTGGTGTCAAC +AAGTACAAACTGGATCACGAAGACGAAACCGATGTACTTGAGATCGACAACGTGATGGTGCGTAACGAGC +AAATTGCTTCGCTGGAACGCATTCGCGCCACCCGTGATGATGCCGCCGTAACCGCCGCGTTGAACGCCCT +GACTCACGCCGCACAGCATAACGAAAACCTGCTGGCTGCCGCTGTTAATGCCGCTCGCGTTCGCGCCACC +CTGGGTGAAATTTCCGATGCGCTGGAAGTCGCTTTCGACCGTTATCTGGTGCCAAGCCAGTGTGTTACCG +GCGTGATTGCGCAAAGCTATCATCAGTCTGAGAAATCGGCCTCCGAGTTCGATGCCATTGTTGCGCAAAC +GGAGCAGTTCCTTGCCGACAATGGTCGTCGCCCGCGCATTCTGATCGCTAAGATGGGCCAGGATGGACAC +GATCGCGGCGCGAAAGTGATCGCCAGCGCCTATTCCGATCTCGGTTTCGACGTAGATTTAAGCCCGATGT +TCTCTACACCTGAAGAGATCGCCCGCCTGGCCGTAGAAAACGACGTTCACGTAGTGGGCGCATCCTCACT +GGCTGCCGGTCATAAAACGCTGATCCCGGAACTGGTCGAAGCGCTGAAAAAATGGGGACGCGAAGATATC +TGCGTGGTCGCGGGTGGCGTCATTCCGCCGCAGGATTACGCCTTCCTGCAAGAGCGCGGCGTGGCGGCGA +TTTATGGTCCAGGTACACCTATGCTCGACAGTGTGCGCGACGTACTGAATCTGATAAGCCAGCATCATGA +TTAATGAAGCCACGCTGGCAGAAAGTATTCGCCGCTTACGTCAGGGTGAGCGTGCCACACTCGCCCAGGC +CATGACGCTGGTGGAAAGCCGTCACCCGCGTCATCAGGCACTAAGTACGCAGCTGCTTGATGCCATTATG +CCGTACTGCGGTAACACCCTGCGACTGGGCGTTACCGGCACCCCCGGCGCGGGGAAAAGTACCTTTCTTG +AGGCCTTTGGCATGTTGTTGATTCGAGAGGGATTAAAGGTCGCGGTTATTGCGGTCGATCCCAGCAGCCC +GGTCACTGGCGGTAGCATTCTCGGGGATAAAACCCGCATGAATGACCTGGCGCGTGCCGAAGCGGCGTTT +ATTCGCCCGGTACCATCCTCCGGTCATCTGGGCGGTGCCAGTCAGCGAGCGCGGGAATTAATGCTGTTAT +GCGAAGCAGCGGGTTATGACGTAGTGATTGTCGAAACGGTTGGCGTCGGGCAGTCGGAAACAGAAGTCGC +CCGCATGGTGGACTGTTTTATCTCGTTGCAAATTGCCGGTGGCGGCGATGATCTGCAGGGCATTAAAAAA +GGGCTGATGGAAGTGGCTGATCTGATCGTTATCAACAAAGACGATGGCGATAACCATACCAATGTCGCCA +TTGCCCGGCATATGTACGAGAGTGCCCTGCATATTCTGCGACGTAAATACGACGAATGGCAGCCACGGGT +TCTGACTTGTAGCGCACTGGAAAAACGTGGAATCGATGAGATCTGGCACGCCATCATCGACTTCAAAACC +GCGCTAACTGCCAGTGGTCGTTTACAACAAGTGCGGCAACAACAATCGGTGGAATGGCTGCGTAAGCAGA +CCGAAGAAGAAGTACTGAATCACCTGTTCGCGAATGAAGATTTCGATCGCTATTACCGCCAGACGCTTTT +AGCGGTCAAAAACAATACGCTCTCACCGCGCACCGGCCTGCGGCAGCTCAGTGAATTTATCCAGACGCAA +TATTTTGATTAAAGGAATTTTTATGTCTTATCAGTATGTTAACGTTGTCACTATCAACAAAGTGGCGGTC +ATTGAGTTTAACTATGGCCGAAAACTTAATGCCTTAAGTAAAGTCTTTATTGATGATCTTATGCAGGCGT +TAAGCGATCTCAACCGGCCGGAAATTCGCTGTATCATTTTGCGCGCACCGAGTGGATCCAAAGTCTTCTC +CGCAGGTCACGATATTCACGAACTGCCGTCTGGCGGTCGCGATCCGCTCTCCTATGATGATCCATTGCGT +CAAATCACCCGCATGATCCAAAAATTCCCGAAACCGATCATTTCGATGGTGGAAGGTAGTGTTTGGGGTG +GCGCATTTGAAATGATCATGAGTTCCGATCTGATCATCGCCGCCAGTACCTCAACCTTCTCAATGACGCC +TGTAAACCTCGGCGTCCCGTATAACCTGGTCGGCATTCACAACCTGACCCGCGACGCGGGCTTCCACATT +GTCAAAGAGCTGATTTTTACCGCTTCGCCAATCACCGCCCAGCGCGCGCTGGCTGTCGGCATCCTCAACC +ATGTTGTGGAAGTGGAAGAACTGGAAGATTTCACCTTACAAATGGCGCACCACATCTCTGAGAAAGCGCC +GTTAGCCATTGCCGTTATCAAAGAAGAGCTGCGTGTACTGGGCGAAGCACACACCATGAACTCCGATGAA +TTTGAACGTATTCAGGGGATGCGCCGCGCGGTGTATGACAGCGAAGATTACCAGGAAGGGATGAACGCTT +TCCTCGAAAAACGTAAACCTAATTTCGTTGGTCATTAATCCCTGCGAACGAAGGAGTAAAAATGGAAACT +CAGTGGACAAGGATGACCGCCAATGAAGCGGCAGAAATTATCCAGCATAACGACATGGTGGCATTTAGCG +GCTTTACCCCGGCGGGTTCGCCGAAAGCCCTACCCACCGCGATTGCCCGCAGAGCTAACGAACAGCATGA +GGCCAAAAAGCCGTATCAAATTCGCCTTCTGACGGGTGCGTCAATCAGCGCCGCCGCTGACGATGTACTT +TCTGACGCCGATGCTGTTTCCTGGCGTGCGCCATATCAAACATCGTCCGGTTTACGTAAAAAGATCAATC +AGGGCGCGGTGAGTTTCGTTGACCTGCATTTGAGCGAAGTGGCGCAAATGGTCAATTACGGTTTCTTCGG +CGACATTGATGTTGCCGTCATTGAAGCATCGGCACTGGCACCGGATGGTCGAGTCTGGTTAACCAGCGGG +ATCGGTAATGCGCCGACCTGGCTGCTGCGGGCGAAGAAAGTGATCATTGAACTCAATCACTATCACGATC +CGCGCGTTGCAGAACTGGCGGATATTGTGATTCCTGGCGCGCCACCGCGGCGCAATAGCGTGTCGATCTT +CCATGCAATGGATCGCGTCGGTACCCGCTATGTGCAAATCGATCCGAAAAAGATTGTCGCCGTCGTGGAA +ACCAACTTGCCCGACGCCGGTAATATGCTGGATAAGCAAAATCCCATGTGCCAGCAGATTGCCGATAACG +TGGTCACGTTCTTATTGCAGGAAATGGCGCATGGGCGTATTCCGCCGGAATTTCTGCCGCTGCAAAGTGG +CGTGGGCAATATCAATAATGCGGTAATGGCGCGTCTGGGGGAAAACCCGGTAATTCCTCCGTTTATGATG +TATTCGGAAGTGCTACAGGAATCGGTGGTGCATTTACTGGAAACCGGCAAAATCAGCGGGGCCAGCGCCT +CCAGCCTGACAATCTCGGCCGATTCCCTGCGCAAGATTTACGACAATATGGATTACTTTGCCAGCCGCAT +TGTGTTGCGTCCGCAGGAGATTTCCAATAACCCGGAAATCATCCGTCGTCTGGGCGTCATCGCTCTGAAC +GTCGGCCTGGAGTTTGATATTTACGGGCATGCCAACTCAACACACGTAGCCGGGGTCGATCTGATGAACG +GCATCGGCGGCAGCGGTGATTTTGAACGCAACGCGTATCTGTCGATCTTTATGGCCCCGTCGATTGCTAA +AGAAGGCAAGATCTCAACCGTCGTGCCAATGTGCAGCCATGTTGATCACAGCGAACACAGCGTCAAAGTG +ATCATCACCGAACAAGGGATCGCCGATCTGCGCGGTCTTTCCCCGCTTCAACGCGCCCGCACTATCATTG +ATAATTGTGCACATCCTATGTATCGGGATTATCTGCATCGCTATCTGGAAAATGCGCCTGGCGGACATAT +TCACCACGATCTTAGCCACGTCTTCGACTTACACCGTAATTTAATTGCAACCGGCTCGATGCTGGGTTAA +TGACTCGTCCCGTCACGATCTTCAGCAATATGCTGAAGCATCGTGGCGGTATAACGATGATTTCTGATTG +AATAAAGATATTCCTGCATATACATCGGCCTGTGCGGTGCATCAAAATATTTCAGCGTTGCCGGATTCAC +CAGTCGCCAGGCAAAATGCGGGATCACCGTCAGAAAATGTCCGCGCTCCACGGCGCTGATTTTGGCCATA +AAACTGTAGGGACGATAAATAATGGTTGGATTGATCCCACAAGGTCGCATATTCGCATCAATCATTGCTT +CGAAGTTGGCCCGGTTCTGAAAGCGCATTTGTAGCCAGGGCAGCTCCTGAAGCAGCTCTTGCTCTTGTCG +CTCTTCATAACGGCGAGAAACGAGAAAGCCTAATCGCAGCGGTGGTAGTTCACTGATAGTCAGGTTTTCC +AGTTCCTGAACTCGTGCAGATACATGCTGTGGGGAGATAATAAAATCTAACTGGCGGTCAAAAAGATTAT +CGATAACGCCATTTTCGCTGAACTCAACTGGCTGGGCGGTCACGCCTTCATACTTATCTCCGAGACTAAT +CAACTGATCGAAAATAATTGTCGGATAAGTATTATCTATGCCAATCACAATTTCTCGTGAACGACGCCCT +GAGTTATGGATTTCATTATCAATCGCAGAAAGCCGTTGATAAACCGGGAACAGTTTTTGATACAGTTCCT +GTCCGGCTTTATTGAGGCTGATATTATTATCTTTGCGGGTAAATAGCGTATAGCCAATTTGTTCTTCCAG +CGCGGCAATGCTTTTACCAAATGGCGAAGCCGTCATATGGATTTTTTCTGCCGCCCGGGCAATATTATTG +GTTTGCGCTAATAAAATGAAATTGCGCATCTTTTTCGAAATAAAAATGTCCATCCCCCTCCCCCGCATCC +TTGTCCGCTTAACCGTTTCAGTCAGCCTATCCTTGATGAAACCGCGAGCAAAGATAGGTGATTACGTCAT +GGTTTTACAGAAAATTACAGAAAAAGGAGGCAATATCGGGTAAAGGCATTAGCCCGACGAATACGTCGGG +CTACAAATATTATTGTGCTGCAGGTGTTTTAGCGGGTTGTTGATCCACAGGTTCTAACTGGAAGACCACA +TCGACCTGATCATCAAACTGAATAGCGGCCTGCTCGTAAGTTTCCTGGGCGGACACCGGCGCGGCATCGG +CTTTCATCATCCGCACCATTGGGCTGGGCTGATAGTTGGAAACATGGTAGCGCACGCTATATACCGGCCC +CAGTTTACGATGAAAGCCGTTCGCCAGTTCCTGCGCCTGATGAATCGCGTTATCAATCGCTGCCTTACGC +GCTTTGTCTTTATAGGCATCCGGCTGCGCCACGCCCAGCGACACAGAACGAATTTCGTTAAGACCCGCCT +TCAGCGCGCCATCCAGCAAGGAATTCAGTTTGTCTAACTGACGGAGCGTGACTTCCACCGTTCTCACAGC +GCGGTAGCCTTTAAGGATACTTTTACCATCCTGATAATCATAATCTGGCTGGGTGCGTAAGTTCGCTGAG +CTGATATCTTTTTTCGCGATCTGATTGAGTTCAAGGAAGGAAATGTATTGTGCGACGCGCTCATCTGCCT +GTTTCTTGGCAGTAGCGGCATCCTTCGCGGCCACGTTAACTTCAATCGCAAGAGTGGCAATGTCTGGCAC +CGCATCCACGCTTGCCGTACCGGAGGTGACAATATGCGGTCCATCCGGCAATTCGTTAGCCTGCGCTGCC +ATCCCGCTAATACCCATTAATGCCGCCAGGGCGATAACTTTGAACTTCACGTTAGTCTCTCCGTGTTAAT +TGACTTGCCCAAAATTCAGGACCTCTGGAGGCAAGCTTAGCGCCTCTGTTTTATTTTTCCATCAGATAGC +GCCTAACTGAACAAGGCTTGTGCATGAGCAATACCGTCTCTCGCCAGCTGCAAGGCAATAAACCACATAA +CACATCCCACAACCAGATTGATAATGCGCTGTGCTTTTGCCGTGCGCAGACGCGGTGCCAGCCAGGCTGC +GAGAAGAGCCAGACCAAAGAACCACAGGAAAGAGGCGCTAATTGTCCCGAGTGCAAACCAGCGTTTTGGT +TCCACATCAAGTTGCCCGCCAAGGCTGCCCAGTACAACAAAAGTATCCAGGTAAACATGCGGATTCAGCC +AGGTCACTGCCAACATGGTGGCGATAATTTTCCATCTGCCTTGCTTCATGACTTCGGCGCTGGCTAACTC +AATATTACTGCTCATTGCTGTTTTAAAAGCGCCAAAACCATACCACAGCAAGAAGGCTACGCCGCCCCAG +GTGACCAGCGCCAGCAACCACGGCGACTGCATCAATAACGCGCTGCCACCAAAAATCCCGGCGCAAATCA +GGACCAAATCGCTGATAGCACAAAGTAAGGCAATCATAATGTGGTACTGACGACGTATGCCCTGATTCAT +CACAAAAGCATTTTGTGGACCGAGCGGTAGGATCATAGCCGCCCCAAGTGCAAGACCTTGAAAGTAATAA +GAAAACACGTTGGATATTCCGAATTAAGTATCTGATGCAGAGACTATATCGCGGGATTGTTATTAGCGGA +AATTGATAATATTAATTGGCAATCAGAAAAACTAATAAGAGAGAGGCCAGAGAGTATTATCTGGCCTCAG +CGTTGATTACGCAGCTTTGTCTTCTTTCACCCGCTTAAAGTTCACATCCATTTGCGGGTACGGGAAGCTG +ATACCGGCGGCATCAAATTCACGTTTAATACGCTCCAGCACATCCCAGTACACGTTTTGCAGATCGCCGC +TGTTGCTCCAGACGCGGACCACGAAATTAATCGACGATGCACCAAGTTCGTTCAGGCGCACAGTCATTTC +GCGATCTTTCAAAATGCGATCTTCAGACTGGATAATATTGGTCAGGATCTGCTTAACCTGATCGATATCG +GAATCATACGCCACGCCAATAATAAATTCGTTACGGCGAACTGGCTCGCGGGAGAAGTTAATAATATTTC +CGGCAATAATTTTACCGTTCGGAATAACGATAATTTTACCGTCTGCAGTACGCATGGTGGTGGAGAAAAT +CTGCACACTCAGCACAGTACCGGCTACGCCGCCCAGGTCAACATATTCTCCGGCACGGAACGGGCGGAAC +ATGACAAGTAACACGCCAGCGGCCAGGTTAGACAGTGACCCCTGCAAAGCCAGACCAACAGCTAAGCCTG +CGGCACCGAGTACAGCAATGACTGACGCGGTTTGTACACCCACGCGTCCCAGTGCAGCGATTAGCGTAAA +GGCGATAATACCGTAACGGACTAATGCAGAAAGAAAATCAGCAACAGTGGCATCGATTTTACGGGAGATC +ATCAGGCGATTCACCGCGTTGGAAATCATCCGCGCGATAATCAAACCAACGATGATGATCGCGAGTGCCG +CCACGATGTTTACTGCATAACTTAGCAGCAGCGCCTGGTTAGCTACCAGCCAGCTTCCCGCGCCGTTTAT +GCTATCGACAACATTCAAATCTTCCATTCAATATTCCTTTTCAACTGACTCAAAATGGAGAAATACACTC +CGCCGCCTTATGACGGGCAGTCTGACAAGGGTAAACAATAAAGCATAATTTTGCCAAATAGATCACAGAT +TTCTCATCTGAATCACCTTGCTTTTGGCGAAAAAATCCCCGCAGAGCGGGGCTCAGACAGATATCAATGT +GCGCTTTGTCATGCCGGATGCGGCGTGAACGCCTTATCCGGCCTACAAAAACCTGCAAATTCAATATATT +GCAGGATACGTGTAGGCCTGATAAGCGTAGCGCATCAGGCAATTTTGCTTTTGGCGAAAAAAAGACCCGC +AGAGCGGGCCTTGAGATAAGCAGAAAGGAATATCTTACAGAACGTCGATCGCGTTCAGTTCCTGGAATGC +TTTCTCCAGACGAGCGATCATCGAAGTCTGACCGGCACGCAGCCATACGCGCGGATCGTAGTATTTCTTG +TTCGGCTGATCTTCGCCTTTCGGGTTACCCAGCTGACCCTGCAGATAAGCTTCGTTCGCTTTGTAGTAGT +TCAGAACGCCTTCCCAGGTTGCCCATTGGGTATCGGTATCGATGTTCATTTTTACTACGCCGTAGCTTAC +GGAGTCTTTGATTTCCTGAGCAGTAGAACCGGAACCACCGTGGAATACGAAGTTCAGGCTGTTGTGCGGC +AGGTTGTGTTTCTTGGAAACATATTCCTGAGAATCACGCAGGATGGTCGGAGTCAGAACCACGTTACCCG +GCTTGTAAACACCGTGTACGTTACCGAAGGACGCTGCGATGGTGAAACGCGGGCTGATTTTGCTCAGTTC +GGTGTATGCGTAATCAACGTCTTCCGGCTGGGTGTACAGTGCAGAAGCGTCCATGTGGCTGTTGTCCACG +CCGTCTTCTTCACCACCGGTGCAACCCAGTTCGATTTCCAGAGTCATGCCGATTTTGGACATGCGCTCCA +GGTATTTAGAGCAGATTTCGATGTTCTCTTGCAGAGATTCTTCAGACAGGTCGATCATGTGAGAAGAGAA +CAGCGGCTTACCGGTAGCTGCGAAGTGTTTTTCACCCGCGTCCAACAGACCGTCGATCCACGGCAGCAGT +TTCTTCGCGCAGTGGTCAGTGTGCAGGATAACCGGAACACCATAATGTTCAGCCATCTGGTGAACGTGAT +GCGCACCAGAGATCGCGCCCAGGATAGCAGCACCCTGCGGAACGTCAGATTTCACGCCTTTACCAGCGAT +AAAGGAAGCACCACCGTTGGAGAACTGAACGATAACCGGCGCTTTAACTTTAGCAGCGGTTTCCAGTACG +GCGTTGATGGAGTCAGTACCGACGCAGTTTACTGCTGGCAGTGCGAAGTTGTTTTCTTTTGCTACCTGGA +AAACTTTCTGTACGTCATCACCAGTGATTACGCCAGGTTTTACGAAATCAAAAATCTTAGACATGTCTCT +TGTCCTGTATCGTCGGGCCTTATACTCGTCATACTTCAAGTTGCATGTGCTGCGTCTGCGTTCGCTCACC +CCAGTCACTTACTTATGTAAGCTCCTGGGGATTCACTCTCTTGTCGCCTTCCTGCAACTCGAATTATTTA +GAGTATGAAAAATTGCGTGCTCTAAAAGCGCGCTGAAACAAGGGCAGGTTTCCCTGCCCTGTGATTTTTT +ACTTCTTAGCGCGCTCTTCGAGCATCGCTACTGCAGGCAGTACTTTACCTTCCACGAATTCGAGGAATGC +GCCGCCGCCAGTGGAGATGTAGGAGATTTTGTCAGCAATGCCGAACAGGTCGATTGCTGCCAGAGTGTCG +CCGCCGCCAGCGATGGAGAACGCTTCGCTGTCTGCGATAGCGTTAGCCACGATTTCAGTACCTTTGCGGA +AGTTCGGGAATTCGAACACGCCAACCGGACCGTTCCACAGAATGGTTTTCGCATTCTTCAGGATTTCAGC +CAGTTCCTGAGCGGAAGCATCACCGATATCCAGGATCTGCTCGTCAGCTTTCACATCGTTAACAGATTTC +AGGGTAGCCGGTGCAGTTTCAGAGAACTCGGTTGCTACGCGAACATCAGACGGAACCGGGATGTTGCAGG +TGGTCAGCAGACGTTTAGCTTCGTCAACCAGGTCAGCTTCGTACAGGGATTTACCCACATCGTGGCCTTG +TGCCGCGATAAAGGTGTTAGCGATACCACCACCAACAATCAGCTGGTCAGCGATTTTAGACAGGGAGTCC +AGAACGGTCAGTTTGGTAGATACTTTAGAACCACCAACGATAGCCACCATCGGGCGAGCAGGTTCTTTCA +GTGCTTTACCCAGCGCGTCCAGTTCAGCTGCCAGCAGCGGGCCTGCGCACGCAACGTCAGCGAATTTACC +GATACCGTGAGTAGAAGCCTGCGCGCGGTGAGCAGTACCGAATGCGTCCATTACGAACACGTCACACAGT +GCAGCGTATTTTTTGGACAGGGTTTCGTCGTCTTTCTTCTCGCCTTTGTTGAAGCGAACGTTTTCCAGAA +CAACCAGTTCACCTTCAGCAACGTCAACGCCGTCGAGGTAATCTTTAACCAGACGAACCGGGTTAGACAG +TTTGTCTTTCAGGTAGTTAACAACCGGCAGCAGAGAGAATTCTTCGTTGTACTCGCCTTCGGTAGGACGA +CCCAGGTGGGAAGTTACCATCACTTTTGCGCCTTGTTTCAGGGCCAGTTCGATGGTCGGCAGAGAAGCAC +GGATACGCGCGTCGCTGGTTACTTTCCCGTCTTTTACTGGTACGTTCAGATCCGCACGGATAAATACACG +TTTCCCAGCAAGATCCAGATCGGTCATCTTAATTACAGACATGGTGAATCCTCTCGTTGATTCTAAAAGT +TTTGCAGACGCTGCTTGCGTCTTACCTGAAAGCAACAGTAGCCATAGCTAACGTCGTGTCGAGCATTCGG +TTAGCAAAGCCCCATTCGTTATCGCACCAGACCAACGTTTTGATCAGGTGTGCGCCACTGACCCGGGTTT +GGGTGCCATCGACAATGGCACTGTGCGGATCGTGGTTAAAATCTACAGAGACCAACGGCAATTCCGTATA +GTCAACTATACCATGAAATGCACCTTGTGCTGCTTTTTGCAGCAACAGGTTGACTTCATTGGCTTTTACA +GGTTTCTTCACCGTCACGCTTAAATCGATTGCCGTCACATTTATGGTTGGCACACGTACCGCAATCGCTT +CAAAGCGATCGTTAAATTGCGGAAAAAATCGTGTGATACCGGCGGCCAGTTTAGTATCGACCGGAATGAT +CGACTGGCTGGCTGCCCGGGTGCGACGCAGGTCAGGATGGTATGCATCAATAACCTGTTGATCGTGCATG +GCGGAGTGAATTGTGGTCACAGTGCCGGACTCAATACCGTACGCATCATCTAACAATTTGATGACGGGAA +TTATGCAATTCGTGGTACAGGAAGCGTTAGAAACGATGCGGTGTTCCGCACGAAGTTGATCCTGATTGAC +GCCGTAAACAACGGTCGCGTCGAGATCGTTACTGCCAGGATGTGAAAAGAGCACTTTTTTGGCCCCGGCG +GCAATATGCGCTTCGCCATGCTCGCGGGAGCCATATACGCCGGTGCAGTCGAGGACTACATCAACGCCAA +GTTCACGCCAGGGGAGCGATTGCAGTGAACGTTCATGCAATACGCGGATGGCGTCATCACCAACAAAAAG +TTGATCGCGTTCCTGTCGTACTTCCCATGCAAAACGGCCATGGCTGGTGTCATATTTCAACAAATGCGCC +ATGCCCGCAGCATCCGCCAGTTCGTTGATTGCCACCACGGTAATTTCCGCCCGGCGTCCGGATTCATACA +AAGCACGAACCACATTACGCCCGATGCGACCGAAGCCATTTATCGCTACGCGTACGGTCATAGATCTCCT +GCAAGGTTTTCCCTGAGCAAATTTGCCAGACAGAGTAATCCAGCAAATCGTCCGGGGAAACCTTACCTGT +CGCAAACTGCGACTGATTGGTTAATTGTCGAACATTTAATCGACTGAAACGCTTCAGCTAGGATAAGCGA +AACGTGGAATAAAAGGAATGTTTGTCCAGCCGAAGAAGACATTTATCTGACTCACATCACACTTTTATCC +CCTTTTGTGGGAAGCTTTATTCCAGGCTGGCGTAATAATAACCCTACAATAACTGGAATAAATTGTCAGC +TTGTGAAGTGATACCGGCCTTCTTCAGTCATCTCTACTATCAGATTGGCCTGACGGCTATTCATCAGCAC +ACGCTCGACATTGGGGCCATCGGTGCGGGCATAAAATGCTTCGGCTACTTGCCGCGTTAATCCTCCCGCA +ATTTTACGACTAATCAAGCGCTCCCGCAGAATTTGAGCAGGTGCATGAATAAAAATAGAAAAATCGCAGA +AAGATGCCAACTCCAGCCACTTTTCATCATCCAGTAACAACCAGTTTCCTTCGACGATGACGAGTGGTGC +GGTAACGTGCAACGCATCTTCAACAGGATCATGCTTTTGTCGATCGTACTGCGGCCACGTACAATCCCCT +TCCACGACCTGGCGCAGATTTTCCGTCAGTTTCGCAACGTCAAATGTCTCTGGTGCGCCTTTGAAGGGGC +GCAATTGATGCGCATCCAGCCAGCTATTGTAATGGTGAAAACCATCCATCGGGAGCGTCTGAATAGCGGG +CAGTTCCGGGTCTTGTTGCGCGAGATATTCCCAGAAGGTGGTTAGGGTTGATTTACCCGTCCCCGGCGGA +GCGCAAAGAAAAACCACCGTACGCCGCTGCGGATTTACCGTCTGTAAGGCCGCCAACATGTGCAGCAACG +GTTTATGTACATTTTCAATCTCTTCGTTCTGGTACTGTGCCTGTATCTTCAGCCCATTCACCGTTAATTC +AATTTTCACGGCGTTAATTCCTTTAAGGTGGTCGTTACTGCCAGCGTCAGCGCCGTTTTGACCATTCCGC +TAAAACGCGCCTCTGACCAGACGGAGAAATCAGCGAACTTCATCGCTTTTAACGCGTCATAGAGCATCGC +ATTGCGGGTTATGCTATTGACGTTGCTGATAAAATCCCAGGTCATGTCATCGGCAAATCCGGGCGTTTCA +TCCTGTTCGTTCAGGTAATGCCAGAACTGGGAAAAATGCGTGATATCGGCGTACAACCATTTATCCATTT +TCCCCAACGCATAAATCAAACGCAGTGCAACATCAATATCGTCAAGCGGGCCGCTTTGGGCGAGTAACGG +CTTCACTGCATATTCCACGATCTCTTCATCGTTATCGACAAACAGCGACGGCAGAAACTGGCGTATCCCC +TGGAGCAAAATGGTATGCGCAGTTTTCATAAATGAAAATAAATTGTCCTGTGCATCCAGTTGCTCAAGCA +CATCATCTTCTGTCAGCGTCGCCATTGGTCTTCCGATAGATCACCATCAATGCAGGGAGTCTATTATATT +ACACGTTTGGTCCGCGCCGCCGATCAGTAATGTCTGCGTCCGCACCCCATTCGCCGTCTGTTGGATACCG +TTCACCAGCTCACCGCCCGTCACGCCCGTAGCGCTAAAGAGGATATCGTTCCCCCTCACCAGTTCATCGA +GCGAGTACACACGGTTAACGTCAACGCCCATTGCCTTGCAACGCTTGCGCTCCTGCTCTGCAATCTGCCG +ATTTTCCGTGTAATCCCCTTTAGCCTGGCAAAAGTCAATCAGCTCGGCCTGCATATCCCCGCCTAATGCT +TTAACGGCACAGGCAGAAATCACGCCTTCTGGCGCACCGCCGATGGTGTACATCACATCGTAAGGATTAT +CCTGCCAGCAGGTCAGCACGCTGGCGGCGACATCGCCATCCGGCAGGGCAAAAACCTTCACGCCCAGCTG +TGTTGCTTCCTCAATCGCGGCACTCAGGCGCGGTTTATCCAGCGTAACCATGCGCAGCTTATCCAGCGGT +TTGCCTAACGCTTTCGCCACGTTGCGCAGGTTGTCCGTCAGAGGCAAAGACAGATCAATCGCGCCCGCCG +CCAGCCGATTAACAACCAGCTTTTTCATATACATATCGGGCGCATGTAACAGGCTATCTCGAGGGGCGAA +AGCCATGACCGCCAGCGCATTGCTCTGCCCCATCGCCACCATCCGCGTGCCTTCAATGGGATCAACCGCG +ATATCGACTTCTGGCCCATCGCCTTTGCCCACCTCTTCGCCAATCCACAGCATCGGCGCATGGTCAATTT +CTCCTTCGCCGATAACCACTCGTCCACGAAAAGCGACGTCGTTTAATGCCTGGCGCATCGCGGTGACCGC +CAGGCCATCAATTTTATTTTTGTCGCCACATCCGGTTTGCGGCCAGGCAGCCAACGCTGCCTGTTCCGTA +ACGCGAAATAATGGCCACGCCAGGGACATCATTGCGCGGCCTCCCCGATATCAACGCCAAATTGTGCCAG +CAGATATTTCTCGGCCTGTTCATTCCAGATGCCGTGCGTTTCCTCAACCAGCCGCGCCAACTCTTTAAAC +AGCGGATCGGTTTTGCCTTTTTCGGCAAAATCGGCAATGGCAGTGAGCGGCATGGTCACGCCGTTATAAA +TGAGTTTTTTACCGCCAGGGATATCCGGCAGATTGAGCACGGTTTCTGGCACCGCATCCAGGCCACCGAT +ATGGGTCACCATAAACGACGGCTGTAACTGCCCAGTGGCGCTAAGGGCAATCGCCTCTTTCATGTCGTCC +GTTGAACCGCCAGATGTACCGACGACGTGCGTGCTGTTGTAATGGACGTTGTAGAAATTAAACGGCACTT +TGAAGTTTTTATCCGTCGGCCCGGCAAAGAAGTTCAGACAGCCATCTTCCGCCAGTAATTCATCAGCCAT +CTCAACGACAGCAGGCACCGCCGCATAAACAAAAATGTCATCGAACCCGGCATCTCCTGTCAGCGCCCGC +AGCATCTGGACAGGATCGCTCATCCCTTTGGTATTCACATACACCAGCTCAATGCCTTTACTGGCCGCCA +GTTCCACCGGCAGCAGCTTCTGTACCTGCGCCAGACGTTTGTCGTCGATATCGACCACCACCACCCGCGA +CGGTTGTATGCCGCCGTTAATGGCGTAATCGATAGCGCCAATGCCCATCGGACCTGCACACGCCAGCAGT +GCAATATTGCCGCCAGGTTTGACGCCCATGCGATGCTCATAAACATATTGCGTGGTGTGATAATTGGCAT +GATAAGCACCAATAATGCAGCACATAGGCTCTGCCAGCGACGCCGCAGCAAAATAAGAGCCGTGATACGG +TAATACGCAGCCCAAATTAATGGCGATTTCGGGAATAATCATATAAGTGGCATTGCCGCCAAAATATTCG +TAGCTGTAGCCCGCTGAATATCCGCTTGGTAACCCCATCGCCGGTTGCAATACAAAACGCTGGCCTTTTT +TATATTTGCCAGTGAGATTTTTACCCACTTCGACAATAACCCCGGCACATTCATGCCCGGTAATGACCGG +ATGATTTTCTAAATCGTCGGGTACGCGTTTATGTTCACTACCGAGTAACGCCGCTTTCCAGGTCGATAAA +CAGACGCTGTCAGAAATTACACTCACCAGTAATTCATTATCGGTAATTTCTGGCAGTTCAAATACGCGCA +GACGGACATCCCGCTTGCCATAAATAGCAGCAACTTTGGTTTTCATTTTTACCTCTGTAATCAGTGTTTA +TGTTCGGCGGTTAATTGATTAAATAAAGTGTCGAGTTTTGGATCGCCAATATAGTTATTAATCAATATCA +GTGGTTTATCCGTCACACGTTTCACGCGCCCTTCCAGACTGGCATGAGTAACGACGATATCCGCATCCGC +AGGCACGTTTTCTATGGCGTAATGTTTTACTTCAATTGCCAGCCCCGCTTTTTCCAGGCGTTTACGGAAG +GTGGTCGCGCCCATCGCACTGGAGCCCATCCCCGCATCGCAAACAAAGGCGATACGCTTAACCCTGCTTA +ACGAGAATGCACCCTCTTGTTTCATCGCCTTAACCGCATTGGCTGACTGAGCAAACTCATCTTCGCTCTC +CGTTTCCACCGTTTTTTCCATCTTCAGTATCAGCGAAGTAATAGCAAAGGACACCAGGGTACCTACCGTA +ACACCGGCAATTGTCGCCAGGAACGAGCCTTTCGGCGTCAGTGCCAGGTAAGCAAAGATAGACCCCGGAC +TTGGGCCAGCCACCAGACCACCGTCCAGTAAGTTAAACATCCAGGTGCCAGACATACCGCCCGCAATCAT +GGCAATAATGGTCAGCGGCTTCATCAGCACATACGGGAAATACAGTTCGTGGATCCCACCGAGGAAGTGA +ATAATCATCGCCCCGGGCGCAGAACGTTTACTCATCCCTTTACCAAACAAGGTAAACGCCAGCAGCAGCC +CCAGGCCCGGACCTGGGTTAGAGGCCACCATAAAGAAGATGGATTTACCGTTAACCGAAGCCTGTTGCAT +TCCCAGCGGATAATAGACGCCCTGATCGATCGCATTATTGAGGAAAAGCACTTTCGCCGGTTCATTGATG +ACTGACAACAATGGCAGATAACCCGCATGTACCAGCGCCTCAATACACTCTTTGACGAAAGTATTGGCAA +TTAACACCGCCGGGCCGATAACTTCAAAACCCAGCAGACAAAGGAGCATCCCCGCGATACCTAATGAGAA +GTTATTGATAACCATCTCAAAACCGGCAGGTATGCGTTTTTCCAGTGCCTTATCGACATATTTTATGACC +AACCCACCGAGCGGCCCCATGATCATTGAGCCAAGGAACATCGGGATCTCTGCGCCAACGATCACACCAA +TAGTACCTATTCCGCCCATGACCGCCCCGCGTTTACCGCCGACCAGATGACCACCTGTAGAACCAATCAT +CACGGGCAATAAATAGGTAATCATCGGGCCGACAATTTTGGCGAAATGTTCGTTAGGCAGCCAACCGGTG +GGAATAAATAACGCAGTAATAAAACCCCAGGCAATAAAAGCACCAATATTGGGGATGACCATTGCAGTCA +AAAAGCCCCCAAAAGCCTGGACCTTTGCACGAGCAGACTTGTTTTCCATAATATTATCCTGTAGAGGAGA +GAGTAATTATCCGCGGCTGATAATGTCCGCTAATTGTTTTTCTGATGATGCTGTTAAGAGTTGTTCGAGT +ATTTCTTCTTCGCACAGTAATTCACTTAACGCCTGAATAGCGCCAATGTGCGAATCGGCATCGGCAGCAG +AGAGTCCGATGAGTAATTTAATTGGTTCGTCATTCCCCGGAAAATAAACACCTTGTTCAAGTAATGTCAA +AGACATCCCGGTTTTAAGCGCCCCACATTCCGGTCGCGCATGAGGCATTGCCACGCCTGGTGCGAGAATA +TAATAAGGGCCATTGTTAATGGTGGAATCTTTAATTGCCTGAATGTAATTCTCGCTGATATAGTTTTTAT +CCAGCAATGATACCATCGAGAAATCGATAGCTTCCTGCCAATCTTTTGCTGAATGTATAACTGAGATTGA +TGATTCTGGAAAATAATCACTAAGCCGCATAAATTATCCTTATTTTATTTTTAGGGTACCGTCCGGCGGT +AAAAATAAAATACTCGTGCGGTTTAATGAAAGCAATTGAGCAGGGAAACCGGTGTTTTGAAAACAGTGAA +TTATTAATTTCTTATATAACATTGAGTTATAGATATAACAACAAATGTCAATACGCATATCGTGATGCAT +ATTACATAATTGATATTTATTGCATATAAATATTTGTGATCTACAACACGCCTTATCTATTGCTTGTCCG +CAAACGGACATATCAAGGTAATAAAAAAGGTCGCCGAAGCGACCTTTTTACCCGAAATGCTAATTACAGC +AGTTCTTTTGCTTTCGCAACAACGTTATCAACAGTGAAGCCGAACTCTTCAAACAGCAGCTCTGCCGGAG +CAGATTCACCGAAGGTGGTCATACCGACGATAGCACCGTTCAGGCCAACATACTTGTACCAGTAGTCAGC +AATACCCGCTTCTACAGCAACGCGTGCAGTAACCGCTTTCGGCAGTACGGATTCACGGTAAGCAGCATCC +TGCTTGTCAAATGCGTCGGTAGACGGCATGGACACCACGCGCGCTTTCACGCCTTCGGCAGTCAGTTTTT +CGTAGGCAGCAACAGCCAGTTCAACTTCTGAACCGGTAGCGATGAAAATCAGTTCCGGCTGACCGGCGCA +GTCTTTCAGCACATAACCACCGCGCGCGATGTTTGCCAGTTGCTCTTCAGTTCGTTCCTGCTGCGCCAGG +TTCTGACGGGAGAGGATCAGTGCGGTCGGGCCGTCCTGACGCTCAACACCGTATTTCCACGCGACCGCGG +ATTCAACCTGGTCACACGGACGCCATGTAGACATGTTCGGGGTTACGCGCAGAGAAGCGACCTGCTCAAC +CGGCTGGTGAGTCGGGCCGTCTTCGCCCAGACCGATGGAGTCGTGGGTGTAAACCATCACCTGACGCTGT +TTCATCAGCGCAGCCATACGTACGGCGTTACGTGCGTATTCCACGAACATCAGGAAGGTGGAGGTGTACG +GCAGGAAGCCACCGTGCAGGGAGATACCGTTAGCAATCGCGGTCATACCGAACTCGCGAACACCGTAGTG +GATGTAGTTACCCGCAGCATCTTCGTTGATTGCTTTAGAACCAGACCACAGGGTCAGGTTAGACGGCGCC +AGGTCAGCAGAACCGCCGAGGAATTCCGGCAACAGCGGACCGAACGCTTCGATAGCATTCTGAGACGCTT +TACGGCTGGCGATTTTCGCCGGATTAGCCTGCAGTTTAGCGATGAACTCTTTCGCTTTAGCGTCGAAGTC +AGACGGCATTTCGCCTTTCATACGGCGGGTAAATTCAGCGGCTTCCTGCGGATAAGCTTTCGCGTAAGCA +GCGAATTTCTCGTTCCATGCGGATTCTTTCGCCTGGCCTGCTTCTTTCGCATCCCACTGAGCATAGATTT +CAGACGGGATTTCGAACGGCGCATATTTCCAGCCCAGTTGTTCGCGGGTCAGGGCAATTTCAGCGTCGCC +CAGCGGCGCACCGTGGGAGTCGTGGGTACCGGCTTTGTTCGGGGAACCGAAACCGATGATGGTTTTGCAC +ATCAGCAGGGAAGGTTTGTCAGTCACTGCGCGCGCTTCTTCTACTGCGCGTTTGATAGATGCCGCGTCAT +GACCGTCGATGTCGCGAATAACGTGCCAGCCGTAAGCTTCGAAACGCATTGCGGTGTCGTCGGTGAACCA +GCCTTCAACGTGACCATCGATAGAAATACCGTTGTCATCGTAGAATGCAATCAGTTTACCCAGCTTCAGC +GTACCCGCCAGAGAGCAAACTTCGTGGGAGATGCCTTCCATCATGCAGCCGTCGCCCATGAAGGCGTAGG +TGTAGTGGTCGACAATGTCGTGGCCCGGACGGTTAAACTGCGCCGCCAGCGTTTTTTCTGCAATCGCCAT +ACCGACTGCGTTGGCAATACCCTGACCCAGCGGACCGGTGGTGGTTTCCACACCAGCGGTGTAACCCACT +TCCGGGTGACCCGGAGTTTTAGAGTGCAGCTGACGGAAGTTTTTCAGTTCTTCCATCGGCAGATCGTAAC +CGGTGAGGTGCAGCAGGCTGTAGATCAGCATGGAGCCGTGGCCGTTGGACAGCACGAAGCGGTCACGGTC +AGCCCAGGACGGATTCTGCGGGTTGTGTTTCAGGAAATCACGCCACAGGACTTCGGCAATGTCAGCCATA +CCCATAGGGGCACCCGGGTGACCGGATTTGGCTTTCTGTACTGCGTCCATGCTCAGCGCACGAATAGCAT +TGGCAAGCTCTTTACGTGAGGACATTTTGACTCCAGATCGGATGATGAAGGGCACGCCCTTAACGACTTG +ACGACAGCGCGTTTTGGGCTACGCCGGAAAATTTGCCAACAATTTACCGCAAGCCGCGCGTCATGTACAT +GGAACATCCTTTTGCCGCTTCAGAAATCTCTGGATCATGCTCGCATGTTGCGCAATCTACTCGCCCGTCC +GCTGCGCTTTTCCTTATACTGAGACTGAGCGTCGATTCACCTGCAAACGGCGCATTTTTAGAATAATCCT +GACCTTGTGCGGAAGAGAAAACATGAAAATTCGCGCCTTATTGGTAGCAATGAGCGTGGCAACGGTACTG +ACTGGTTGCCAGAATATGGACTCCAACGGACTGCTCTCATCAGGAGCGGAAGCTTTTCAGGCTTACAGTT +TGAGTGATGCGCAGGTGAAAACCCTGAGCGATCAGGCATGTCAGGAGATGGACAGCAAGGCGACGATTGC +GCCAGCCAATAGCGAATACGCTAAACGTCTGACAACTATTGCCAATGCGCTAGGCAACAATATCAACGGT +CAGCCGGTAAATTACAAAGTGTATATGGCGAAGGATGTGAACGCCTTTGCAATGGCTAACGGCTGTATCC +GCGTCTATAGCGGGCTGATGGATATGATGACGGATAACGAAGTCGAAGCGGTGATCGGTCACGAAATGGG +GCACGTGGCGTTAGGCCATGTGAAAAAAGGAATGCAGGTGGCACTTGGTACAAATGCCGTGCGAGTAGCT +GCGGCCTCTGCGGGCGGGATTGTCGGAAGTTTATCTCAATCACAACTTGGTAATCTGGGCGAGAAATTAG +TCAATTCGCAATTCTCCCAGCGCCAGGAAGCAGAAGCCGATGATTATTCTTACGATCTTCTGCGCCAACG +CGGCATCAGCCCGGCAGGTCTTGCCACCAGCTTTGAAAAACTGGCAAAACTGGAAGAAGGTCGCCAAAGC +TCAATGTTTGACGACCATCCTGCATCCGCCGAACGCGCCCAGCATATTCGCGATCGCATGAGCGCGGATG +GGATTAAGTAAAGCCTGGTGGTGTCGAACGTAGGTCAGATAAGGCGTTCACGCCGCATCTGACATGAATG +GCACATTTGTTACCTTGTGCGCATTGCCGGATGCGATGCTGGCGCATCTTATCCGGCCTACGGGTGCCGA +ACGTAGGTCGGATAAGGCGTTCACGCCGCATCCGACATTAATGGCACGTTTTACCCGTGCGCATCGCATC +TGGTGCTTACTCGCCCTTTTTCGCCGCCTGAATATACAGCATTTCCAGCGCCAGCGTTGCCGCTGCCAGA +GCAGTGATTTCCGACTGATCGTATGCCGGAGCCACTTCCACTACGTCCATCCCAACAATGTTGAGATCTT +TCAGGCCGCGTACCAGTTTAATAGCGCGATCGGAGGTCAGGCCGCCAATCACTGGCGTACCGGTGCCTGG +TGCAAAAGCAGGATCCAGGCAGTCGATATCAAAAGTCAGGTAAACCGGCATATCACCCACAATCTGTTTC +ACTTGGGCGATAACGTCATCCACGCTGCGATCGTTCACCTGGCAGGCGTCCAGCACGGTAAAGCCGTTGT +CTTTATCAAACTCGGTACGAATACCAATCTGCACGGAATGATTCGGGTCGATCAGACCTTCTTTCGGCGC +GGTATAGAACATAGTGCCGTGGTCAAATTCACAACCGTTCGCATAGGTATCGGTGTGGGCGTCAAAGTGT +ACCAGCGCCATTTTGCCGAAATGCTTCGCATGAGCACGCAGCAGCGGCAGCGTAACAAAGTGGTCACCAC +CGAAAGAGAGCATACGCTTACCGGCAGCCAGCAGCTTCTCGGCGTGCGCCTGCAGCTTTTCGCTCATCTC +ACGGGCATCGCCAAAGGCATATACCAGATCGCCGCAGTCCACGACGTTCAGACGCTCACGCATGTCGAAA +TTCCACGGGAAGCGGTTGTGTTCCCAGGCCAGATTCGTCGAAACCTGACGGATCGCTGCCGGACCGTGGC +GACCACCCGCACGACCAGAAGTGGCCATATCGAACGGCACGCCAGTAATCACCCAGTCTGCATCGCTGTC +ATACGGCTGGAAGTTCATCGGCAGGCGTAAAAAACCAAAGGCATTGGAAACCAGTGAGTTATCGTATTGA +TGACCTAAGGTGCTCATGGATGGACTCCTATTACAAAGTCGATATAAAAAAACCCTTCCGCGTCGTTAGG +CCCGACGAGGAAGGGTTGGATTTGTCACAATAAATTGTGGCGGATTATCACCGCTAAATTAAGCGGATTC +AAGTAACACAGGACTTACTCATCTTCAAGATAAGTATAACCGTACAAACCTGCCTCGAACTCTTCAAGGA +ACTGTTGTTGCAGTTCAGCATCAAGATCGGTTTTCTTCACTTGATCGCGGAACTGGGTTAACAGCGTTTT +CGGATCGAGCTGTACATATTGCAGCATGTCCGCCACGGTATCGCCTTCGTCAGACAGTTCTACTTCTACG +CTACCGTCAGGGAAGACGAACACGTCAACCGCTTCGGTATCACCGAACAGGTTGTGCATGTTGCCGAGGA +TCTCCTGATATGCGCCGACCATAAAGAAACCGAGCATCGGCGGATTCTCTGGATCGTACTCCGGCATTGG +CATTGTCGTGGCAATACCGTCACCATCAATATAGTGGTCGATAGCACCGTCAGAGTCACAGGTAATATCC +AGCAGCACAGCGCGACGTTCCGGCACTTGATCCAGCCCTTCCAGCGGCAGAACCGGGAACAACTGGTCGA +TCCCCCATGCGTCCGGCATCGACTGGAACAGCGAGAAGTTGACGTACATTTTGTCCGCCATACGTTCCTG +CAGCTCGTCGATAATCGGACGATGAGCACGGTTTTGCGGATCCAGCTGCTTTTGCACTTCATGGCACATG +CTCAAATAAAGCTGCTCAGCCCATGCACGTTCTTGCAGGCTAAAGATGCCGGAAGAGTAGCCGATATGAA +TGTCGTGCAGATCCATCTGACTGTCGTGTAACCATTCACGCAGAGAACGGCGAGTTCCCGGTTCGTGCAT +CTCCTGCCAGGTTTCCCACATGCTTTGCAGCGCGCGCGGCGCATCTTCTGCAGGCGCGGTCGGCACCGTG +TATTCGTTACGTTCCACGCCGATGATATTAGACACCAGCACGGTGTGATGCGCAGTCACCGCACGACCCG +ATTCGGTGATTACCGTCGGATGCGGCAGACCGTTTTCTTCACACGCATCGCCAATCGCCCAGATAATGTT +GTTGGCGTATTCATTGAGGCCGTAGTTCACCGAACAGTCGGACTGCGAACGAGTACCTTCATAATCCACG +CCCAGACCGCCGCCGACGTCGAAGCACTGAATATTGACGCCCAGCTTGTGCAGTTCCACATAGAAACGCG +CGGATTCACGAACGCCTGTCGCGATATCGCGAATATTCGCCATCTGCGAACCGAGGTGGAAGTGCAGTAG +TTGCAGGCTGTCGAGACGCCCGGCTTCACGCAGGGTTTCAACCAGTTGCAGTACCTGAGTCGCAGCCAGG +CCGAACTTCGATTTTTCCCCGCCGGAGGACTGCCATTTACCCGAACCCTGCGAAGCCAGACGTGCACGCA +CGCCCAGACGAGGAACGACATTCAGACGTTCTGCTTCATCCAGCACAATGGCGATTTCTGACATCTTCTC +AATGACCAGATAGACCTTGTGCCCCATCTTCTCGCCAATTAATGCCAGGCGGATATATTCGCGGTCTTTA +TAACCGTTGCAGACGATGACGCTACGGGTCATGCCAGCATGTGCCAGTACTGCCATCAACTCGGCTTTGG +AACCGGCTTCCAGACCCAGCGGTTCGCCCGAATGAATCAGGGACTCAATCACGCGGCGGTGCTGGTTAAC +TTTGATCGGATAAACAAGGAAGTAATCGCCGTTATAGCCGTAGGATTCCCTCGCACGTTTGAACGCGGCG +TTAATGGAACGCAAACGGTGCTGCAGGATCTGTGGGAAACAGAACAGTGCAGGCAGACGCTGGCCCTGTG +CTTCACGAGTTTTCACTAACTGCGCGAGATCGACGCGAGCTTCCGGGACGTCCGGGTCCGGGCACACGCT +AATGTGGCCCAGCTCGTTAACGTCATAGTAGTTATTGCCCCACCAGGCAATATTGTAAGTACGCAGCATC +TTGCTGGCTTCCTGGGAGCTCATTGCAACCTCCTGCATGGAGCGTAGTACACCGTGTTCGCCCGCTGACG +AAGGCAAACCCATAGACATGTCGTCAGACATAGCGAACCTCAAATTATTTTATTAAGTGTAAAACAGTTA +ACGACTATCGCAGCCTGGAACTGCGATAACAACCCATAAGCACATGGATTTTCCAGCAGTGAATGCTGAC +GCTCCAACTGCGCAACCGGTTTCTTTTTCATAACATTATTAAGCACATAACCGAACGTAAGTGTGAAAGT +TCGGCGAAACCACGAGAAAACTCTTGTTTTTACAAGAGCGCCCTTGTTCAGTCCTCAGTAACTGTAACCA +GCTCTTGAATCCTGAGAAGCGCCGAGATGGGTATAACATCGGCAGGTATGCAAAGCAGAGATGCAGAGTG +CGGGGAACGAATCTTCACCAGAACGGTGAGACAGGTTAAGCAGCAGACAACGGTTCATTATTTCGTATCA +CCTCCACGGCCGCCTGTTAAGACGAACCCACAAGCCAAAACTCTGATTTCAACCCGGCTGGAAGTGGCAA +CACGAAAGAAACGTCGTGTGCTTTTTATTTAAGCCGCGCGCCGCGTTTTATACCCCACAATGGCAGAAAA +TTGCAAAAGATAAATACGCAGAATGCCGGCATTGTCAGGAAAAATTTCCAGCCACGTTTTTAACAGAATG +AGACACGATTCAAAAAAAAGTGGAAATAGGGTGAAGAATTGACCTAAAATAGCCATCCAGATGTTAATCC +ATCCATACCGATTAACACTCAGACTGCCAGTGTTTTTAACCTGCAGAGTCGTGGTAGGATCCGCTACCAC +AGAAAATCCACACAACAGTTTGAGCTAACCAAATTCTCTTTAGGTGATATTAAATATGGCAAAACACCTT +TTTACGTCCGAGTCCGTCTCTGAAGGGCATCCTGACAAAATTGCTGACCAAATTTCTGATGCCGTTTTAG +ACGCGATCCTCGAACAGGATCCGAAAGCACGCGTTGCTTGCGAAACCTACGTAAAAACCGGCATGGTTTT +AGTTGGCGGCGAAATCACCACCAGCGCCTGGGTAGACATCGAAGAGATCACCCGTAACACCGTTCGCGAA +ATTGGCTATGTGCATTCCGACATGGGCTTTGACGCTAACTCCTGTGCGGTTCTGAGCGCTATCGGCAAAC +AGTCTCCTGACATCAACCAGGGCGTTGACCGTGCCGATCCGCTGGAACAGGGCGCGGGTGACCAGGGTCT +GATGTTTGGCTACGCAACTAATGAAACCGACGTGCTGATGCCAGCACCTATCACCTATGCACACCGTCTG +GTACAGCGTCAGGCTGAAGTGCGTAAAAACGGCACTCTGCCGTGGCTGCGCCCGGACGCGAAAAGCCAGG +TGACTTTTCAGTATGACGACGGCAAAATCGTTGGTATCGATGCTGTCGTGCTTTCCACTCAGCACTCTGA +AGAGATCGACCAGAAATCGCTGCAAGAAGCGGTAATGGAAGAGATCATCAAGCCAATTCTGCCCGCTGAA +TGGCTGACTTCTGCCACCAAATTCTTCATCAACCCGACCGGTCGTTTCGTTATCGGTGGCCCAATGGGTG +ACTGCGGTCTGACTGGTCGTAAAATTATCGTTGATACCTACGGCGGCATGGCGCGTCACGGTGGCGGTGC +ATTCTCTGGTAAAGATCCATCAAAAGTGGACCGTTCCGCAGCCTACGCAGCACGTTATGTCGCGAAAAAC +ATCGTTGCTGCTGGCCTGGCCGATCGTTGTGAAATTCAGGTTTCCTACGCAATCGGCGTGGCTGAACCGA +CCTCCATCATGGTAGAAACTTTCGGTACTGAGAAAGTGCCTTCTGAACAACTGACCCTGCTGGTACGTGA +GTTCTTCGACCTGCGCCCATACGGTCTGATTCAGATGCTGGATCTGCTGCACCCGATCTACAAAGAAACC +GCAGCATACGGTCACTTTGGTCGTGAACATTTCCCGTGGGAAAAAACCGACAAAGCGCAGCTGCTGCGCG +ATGCTGCCGGTCTGAAGTAATCTTTCTTCACCTGCGTTCAAAGGCCAGCCTCGCGCTGGCCTTTTTCTTT +TGGATAGGCGTTCACGCCGCATCCGGCAAAAAAACCGCCCGCACAATAACATCATTCTTCCTGATCACGT +TTCACCGCAGATTATCATCACAACTGAAACCGATTACACCAACCACAACAGACAAAGATTTGTAATATTT +TCATATTATTATTCGGTTTTCACAGTTGTTACATTTCTTTTCAGTAAAGTCTTAATTGCAGATAACAGCG +TTTAATCTATGATGATATAACTCAATTATTTTCATGCACTTAAATCATAACTAAGATAAATGTTAGTGTA +AGCGATTACACTGATGTGATTTGCTTCACATCTTTTTACGTCGTACTCACCTATCTTAATTCACAATAAA +AAATAACCATATTGGAGGGCATCATGCCTGACGCTAAAAAACAGGGGCGGTCAAACAAGGCAATGACGTT +TTTCGTCTGCTTCCTTGCCGCTCTGGCGGGATTACTCTTTGGCCTGGATATCGGTGTAATTGCTGGCGCA +CTGCCGTTTATTGCAGATGAATTCCAGATTACTTCGCACACGCAAGAATGGGTCGTAAGCTCCATGATGT +TCGGTGCGGCAGTCGGTGCGGTGGGCAGCGGCTGGCTCTCCTTTAAACTCGGGCGCAAAAAGAGCCTGAT +GATCGGCGCAATTTTGTTTGTTGCCGGTTCGCTGTTCTCTGCGGCTGCGCCAAACGTTGAAGTACTGATT +CTTTCCCGCGTTCTACTGGGGCTGGCGGTGGGTGTGGCCTCTTATACCGCACCGCTGTACCTCTCTGAAA +TTGCGCCGGAAAAAATTCGTGGCAGTATGATCTCGATGTATCAGTTGATGATCACTATCGGGATCCTCGG +TGCTTATCTTTCTGATACCGCCTTCAGCTACACCGGTGCATGGCGCTGGATGCTGGGTGTGATTATCATC +CCGGCAATTTTGCTGCTGATTGGTGTCTTCTTCCTGCCAGACAGCCCACGTTGGTTTGCCGCCAAACGCC +GTTTTGTTGATGCCGAACGCGTGCTGCTACGCCTGCGTGACACCAGCGCGGAAGCGAAACGCGAACTGGA +TGAAATCCGTGAAAGTTTGCAGGTTAAACAGAGTGGCTGGGCGCTGTTTAAAGAGAACAGCAACTTCCGC +CGCGCGGTGTTCCTTGGCGTACTGTTGCAGGTAATGCAGCAATTCACCGGGATGAACGTCATCATGTATT +ACGCGCCGAAAATCTTCGAACTGGCGGGTTATACCAACACTACCGAGCAAATGTGGGGGACCGTGATTGT +CGGCCTGACCAACGTACTTGCCACCTTTATCGCAATCGGCCTTGTTGACCGCTGGGGACGTAAACCAACG +CTAACGCTGGGCTTCCTGGTGATGGCTGCTGGCATGGGCGTACTCGGTACAATGATGCATATCGGTATTC +ACTCTCCGTCGGCGCAGTATTTCGCCATCGCCATGCTGCTGATGTTTATTGTCGGTTTTGCCATGAGTGC +CGGTCCGCTGATTTGGGTACTGTGCTCCGAAATTCAGCCGCTGAAAGGCCGCGATTTTGGCATCACCTGC +TCCACTGCCACCAACTGGATTGCCAACATGATCGTTGGCGCAACGTTCCTGACCATGCTCAACACGCTGG +GTAACGCCAACACCTTCTGGGTGTATGCGGCTCTGAACGTACTGTTTATCCTGCTGACATTGTGGCTGGT +ACCGGAAACCAAACACGTTTCGCTGGAACATATTGAACGTAATCTGATGAAAGGTCGTAAACTGCGCGAA +ATAGGCGCTCACGATTAATCTCCCCAAGCTTCCTCCCATCGCGGAGGAAGCCACCTCTTGCAGTCATCTT +TTCTTCGCTCTATCCTCTGCCGCTATGAAAACATCCCGTCTCCCTATCGCCATCCAACAGGCCGTTATGC +GTCGCCTGCGGGAAAAACTCGCCCAGGCCAACCTGAAGCTAGGGCGTAACTACCCGGAGCCAAAACTCTC +TTACACCCAGCGCGGAACCTCCGCCGGAACGGCCTGGCTGGAAAGCTATGAAATTCGCCTCAATCCCGTT +TTGCTGTTGGAAAACAGTGAAGCTTTTATTGAAGAAGTGGTACCGCACGAACTGGCACATTTGCTGGTAT +GGAAACATTTCGGCCGCGTAGCGCCACATGGCAAAGAGTGGAAGTGGATGATGGAAAACGTGCTGGGTGT +TCCCGCCCGTCGTACGCATCAGTTCGAACTGCAATCCGTGCGTCGCAACACCTTCCCCTACCGCTGCAAG +TGCCAGGAGCATCAGCTTACCGTACGCCGCCATAATCGCGTAGTTCGTGGCGAGGCCGTCTATCGCTGTG +TTCACTGCGGTGAACAGCTGGTTGCGAAATAACCATCTGAACTATCAGGAACTTTCCTGATCTGGCTGAT +TGCATACCAAAACAGCTTTCGCTACGTTGCTGGCTCGTTTTAACACGGAGTAAGTGATGTACCGTTATTT +GTCTATTGCTGCGGTGGTACTGAGCGCAGCATTTTCCGGCCCGGCGTTGGCCGAAGGTATCAATAGTTTT +TCTCAGGCGAAAGCCGCGGCGGTAAAAGTCCACGCTGACGCGCCCGGTACGTTTTATTGCGGATGTAAAA +TTAACTGGCAGGGCAAAAAAGGCGTTGTTGATCTGCAATCGTGCGGCTATCAGGTGCGCAAAAATGAAAA +CCGCGCCAGCCGCGTAGAGTGGGAACATGTCGTTCCCGCCTGGCAGTTCGGTCACCAGCGCCAGTGCTGG +CAGGACGGTGGACGTAAAAACTGCGCTAAAGATCCGGTCTATCGCAAGATGGAAAGCGATATGCATAACC +TGCAGCCGTCAGTCGGTGAGGTGAATGGCGATCGCGGCAACTTTATGTACAGCCAGTGGAATGGCGGTGA +AGGCCAGTACGGTCAATGCGCCATGAAGGTCGATTTCAAAGAAAAAGCTGCCGAACCACCAGCGCGTGCA +CGCGGTGCCATTGCGCGCACCTACTTCTATATGCGCGACCAATACAACCTGACACTCTCTCGCCAGCAAA +CGCAGCTGTTCAACGCATGGAACAAGATGTATCCGGTTACCGACTGGGAGTGCGAGCGCGATGAACGCAT +CGCGAAGGTGCAGGGCAATCATAACCCGTATGTGCAACGCGCTTGCCAGGCGCGAAAGAGCTAACCTACA +CTAGCGGGATTCTTTTTGTTAACCCCTACCCCACGCGTACAACCGCGTGGGGAGACGACGCGGATTTTTA +ACTATGCGTATCCCCCGCATTTATCATCCTGAACCACTGACCAGCCATTCTCACATCGCGCTTTGCGAAG +ATGCCGCCAACCATATCGGGCGCGTACTGCGCATGGGGCCGGGGCAGGCGTTGCAATTGTTTGACGGTAG +CAACCAGGTCTTTGACGCCGAAATTACCAGCGCCAGCAAAAAAAGCGTGGAAGTGAAGGTGCTGGAAGGC +CAGATCGACGATCGCGAATCTCCGCTGCATATTCACCTCGGTCAGGTGATGTCGCGTGGTGAAAAAATGG +AATTTACTATCCAGAAATCGATCGAACTCGGTGTAAGCCTCATTACGCCACTTTTTTCTGAGCGCTGCGG +CGTTAAACTGGATAGTGAACGTCTGAACAAGAAGCTTCAGCAGTGGCAGAAGATTGCAATTGCTGCCTGT +GAGCAGTGTGGTCGTAACCGGGTGCCGGAAATCCGTCCAGCGATGGATCTGGAAGCCTGGTGTGCAGAGC +AGGATGAAGGACTGAAACTGAATCTTCACCCGCGCGCCAGTAACAGCATCAATACGTTGCCGTTACCGGT +TGAACGCGTCCGCCTGCTGATTGGCCCGGAAGGCGGTTTATCGGCAGATGAAATTGCCATGACTGCCCGC +TATCAATTTACTGATATCCTGTTGGGACCTCGCGTTTTGCGTACAGAGACAACTGCGCTCACCGCCATTA +CCGCGCTACAAGTACGATTTGGCGATTTGGGCTAACGGAGAAGAATAATGATCAAGCTCGGCATCGTGAT +GGACCCCATCGCAAACATCAACATCAAGAAAGATTCCAGTTTTGCTATGTTGCTGGAAGCACAGCGTCGT +GGTTACGAACTTCACTATATGGAGATGGGCGATCTGTATCTGATCAATGGTGAAGCCCGCGCCCATACCC +GCACGCTGAACGTGAAGCAGAACTACGAAGAGTGGTTTTCGTTCGTCGGTGAACAGGATCTGCCGCTGGC +CGATCTCGATGTGATCCTGATGCGTAAAGACCCGCCGTTTGATACCGAGTTTATCTACGCGACCTATATT +CTGGAACGTGCCGAAGAGAAAGGGACGCTGATCGTTAACAAGCCGCAGAGCCTGCGCGACTGTAACGAGA +AACTGTTTACCGCCTGGTTCTCTGACTTAACGCCAGAAACGCTGGTTACGCGCAATAAAGCGCAGCTAAA +AGCGTTCTGGGAGAAACACAGCGACATCATTCTTAAGCCGCTGGACGGTATGGGCGGCGCGTCGATTTTC +CGCGTGAAAGAAGGCGATCCAAACCTCGGCGTGATTGCCGAAACCCTGACTGAGCATGGCACTCGCTACT +GCATGGCGCAAAATTACCTGCCAGCCATTAAAGATGGCGACAAACGCGTGCTGGTGGTGGATGGCGAGCC +GGTACCGTACTGCCTGGCGCGTATTCCGCAGGGGGGCGAAACCCGTGGCAATCTGGCTGCCGGTGGTCGC +GGTGAACCTCGTCCGCTGACGGAAAGTGACTGGAAAATCGCCCGTCAGATCGGGCCGACGCTGAAAGAAA +AAGGGCTGATTTTTGTTGGTCTGGATATCATCGGCGACCGTCTGACTGAAATTAACGTCACCAGCCCAAC +CTGTATTCGTGAGATTGAAGCAGAGTTTCCGGTGTCGATCACCGGAATGTTAATGGATGCCATCGAAGCA +CGTTTACAGCAGCAGTAACCCACCTTAGCGAGAAGGATCTCGTTGAGACTCTGAGTGACAGCGCCCTTCT +TTCCACGCATACTGGGCGCTGTTGCTTTTTTGAACCAGGAAACAGAACCTCTGACAATGAATTTACAGCA +TCACTTTCTTATTGCCATGCCTGCTCTCCAGGATCCGATTTTCCGTCGTTCCGTGGTCTACATTTGCGAA +CATAATACCAATGGTGCAATGGGGATCATCGTCAACAAGCCGCTGGAAAATCTCAAAATTGAAGGGATTC +TGGAAAAGCTGAAGATCACGCCGGAGCCGCGTGATGAATCAATCCGTCTGGATAAACCGGTTATGCTCGG +CGGTCCGCTGGCTGAAGATCGCGGGTTTATTTTGCATACTCCGCCCTCCAATTTTGCTTCCAGCATTCGC +ATTTCAGACAACACGGTAATGACCACTTCCCGCGATGTGCTGGAAACGCTCGGCACCGATAAACAACCGT +CTGACGTATTGGTGGCTCTGGGTTATGCCTCCTGGGAGAAAGGTCAACTGGAACAAGAAATTCTCGATAA +CGCGTGGCTAACGGCCCCGGCAGATCTGAATATTCTGTTCAAAACGCCGATTGCCGACCGCTGGCGCGAG +GCGGCAAAACTGATTGGTGTGGATATTCTCACCATGCCTGGTGTGGCAGGACACGCCTGATGAGTGGAAC +CTTACTCGCCTTCGACTTCGGCACCAAAAGCATTGGCGTAGCGGTCGGCCAACGCATTACCGGCACCGCT +CGCCCTTTGCCTGCAATTAAAGCACAGGACGGTACGCCGGACTGGAACATTATCGAGCGTTTACTGAAAG +AGTGGCAGCCGGACGAAATCATCGTCGGTTTGCCGCTGAATATGGACGGCACCGAGCAACCATTGACTGC +CAGAGCGCGTAAATTTGCCAACCGTATTCATGGCCGTTTCGGTGTTGAAGTAAAGCTCCATGACGAGCGT +CTTAGCACTGTGGAAGCCCGTTCCGGTCTGTTTGAACAGGGCGGCTATCGGGCGCTCAACAAAGGCAAAG +TTGACTCTGCCTCTGCGGTTATTATTCTCGAAAGCTATTTCGAGCAGGGATATTAAGGCGATTTAAACGC +CTGGCGGAGTGTAAATAATATCATCGCGTCTTATTGCCGGATGCGGCGTGAACACCTTATCCAGCACACA +TCTGGCAGCGGCTATAGGTCTGATAAGACGCGTTAGCGTCGCATCAGACATTTATTGCCTTTGTAGGCCC +GATAAGCTTGCGCATCGGGCATGGCAACGTCACAAACGCCCTTCCCCCACCCGGTGCTGATAACTCTGCT +GAAACGTTATCATCCCCACCTGCTGCCCGGTTTGAATAACATGCGGTAACTGGTGGGTTTTCCCTTCGCG +AATCAAATTCCCCACCGCGGGTGTGTTAATCAGCAATTCAAATAGCGCCACGCGTCCTTCCTGTTTATCC +ACTTCCAGCTTTTGTGACAGCACTGCCCGTAAACTACCTGCCAGTTGATTACGCACGGGGTCTTTTTCCT +GCGCCGGAAATGAATCCACCAGTCGCTCAACTGCCTGCGCGGCACCACGCGTATGTAATGTTGCCAGCAC +CAAATGCCCGGTTTCTGCCGCCGTCAGTGCCAGACGGATTGTCTCGCTGTCACGCAGCTCTCCGAGCAAA +ATCACATCAGGATCTTCCCGCAATGCGGCCCGCAATCCCGATGCGAACGTCATACAGTGCAAACCAATTT +CCCGCTGCTGGATCAAACATCGCTGGCTGGCATAGAGATATTCAACAGGATCTTCCAGCGTCAGAATATG +CGCATCGGCATGTTGATTGAGATAGCCAACCATCGCCGCCAGCGTGGTAGATTTGCCACTCCCCGTCGCC +CCCGTCACCAGAATCAGGCCATTCTCGCTCTTGAGTAATTCCGGCAATACCGTTGGTGCGCCAAGCTGTT +CGAGCTGCGGGCAGTGCGAAGGTAACAGCCGTAACGCCAGCGAAATGCCATGCCGTTGCGCGAATGCGCT +GCCACGCAATCGCTGGTTTTCCGCCAGCGACACGGCAAAATCCAGCTGACCATTCTCCAGCAATATTGCC +CGCTGATCGTCATCCAGCCACTCCCGCAGTAGCTCTTCGACGTCCGGCGTATCAAACGGCGCAGCTTCCA +TTCTGCCGCGAATGCGCCATCGTGCGGGCCAGGCGCTGCACAGGTGTAGATCCGAGACGTTATGCTTTAC +ACTAAGGGCCACAATTTCTTCCATATTCATACTAAGATCCTCGGAAAATGAACGATATTGCGCATAACCT +GGCACAGGTCCGGGACAAAATCTCAGCGGCTGCAACGCGTTGCGGCCGTTCTCCAGAAGAAATTACGCTG +CTTGCAGTCAGTAAAACAAAACCTGCGAGCGCCATCGCAGAAGCCATTGATGCCGGGCAGCGTCAATTTG +GTGAAAACTACGTTCAGGAAGGGGTAGATAAAATTCGCCACTTTCAGGAACTGGGCGTAACAGGATTAGA +ATGGCATTTTATTGGCCCGTTGCAGTCTAATAAAAGCCGCCTGGTGGCAGAGCATTTCGACTGGTGTCAT +ACCATCGACCGTTTGCGCATCGCTACCCGTCTCAACGACCAGCGCCCGGCAGAACTTCCCCCTCTTAACG +TTCTGATTCAAATTAACATTAGTGATGAAAACAGTAAGTCCGGGATTCAACTGGCTGAACTGGACGAGCT +GGCAGCTGCGGTCGCTGAACTACCGCGTTTACGTCTGCGCGGGTTGATGGCAATCCCTGCGCCTGAGTCA +GAATATGTAAGGCAGTTTGAAGTTGCACGCCAAATGGCTGTAGCATTTGCCGGACTGAAAACGCGCTACC +CGCATATCGACACGCTCTCTCTGGGAATGTCGGACGATATGGAAGCCGCCATTGCGGCAGGTAGCACGAT +GGTTCGTATCGGCACTGCAATTTTTGGTGCGCGTGATTACTCTAAAAAATAAGGAATTAAAGGAACGCCA +TGAATACGTTGACTTTCCTGCTTTCAACGGTCATTGAGCTGTATACCATGGTGCTGTTATTACGCATCTG +GATGCAGTGGGCTCATTGTGATTTTTACAACCCCTTCTCACAGTTTGTAGTGAAGGTAACGCAGCCAATT +ATCGGGCCACTGCGCCGCGTTATTCCGGCAATGGGGCCAATTGACAGCGCCTCGCTGCTGGTTGCCTATA +TTCTCAGTTTTATCAAAGCCATCGTGCTGTTTAAAGTGGTGACCTTCCTGCCAATCATCTGGATTGCCGG +TTTACTGATTCTGCTGAAAACCATCGGCCTGCTGATTTTCTGGGTCCTGCTGGTGATGGCGATTATGAGC +TGGGTAAGCCAGGGGCGTAGCCCGATTGAATACGTGCTGATTCAGCTGGCCGATCCGCTGCTGCGCCCGA +TTCGCCGCCTGCTACCGGCAATGGGTGGGATTGATTTCTCGCCGATGATCCTCGTTCTGCTGCTGTATGT +CATCAATATGGGTGTCGCAGAAGTATTACAGGCAACCGGAAATATGCTGCTGCCAGGGCTGTGGATGGCG +TTATGAATGCCGTAACAGTTAATGATGACGGTCTGGTTTTACGGCTCTATATTCAGCCGAAAGCCAGCCG +TGATTCTATTGTCGGTTTACATGGCGACGAAGTTAAAGTCGCCATTACCGCGCCGCCGGTTGACGGCCAG +GCCAACAGTCATCTGGTGAAGTTTCTCGGTAAGCAATTCCGGGTTGCCAAAAGCCAGGTGGTGATTGAAA +AAGGCGAACTTGGCCGCCACAAACAAATTAAAATCATTAATCCGCAACAAATCCCGCCAGAAATCGCGGC +GTTAATTAATTAGGTATCCTATGCAAAAAGTTGTCCTCGCAACCGGCAATGTCGGTAAAGTGCGTGAGCT +GGCGTCGCTGCTTAGCGACTTCGGTCTTGATATCGTGGCCCAAACAGACCTCGGCGTTGATTCCGCTGAA +GAAACCGGCCTGACCTTTATCGAAAACGCGATTCTGAAAGCGCGCCATGCGGCAAAAGTGACCGCTTTAC +CGGCAATTGCCGACGACTCTGGTCTGGCGGTAGATGTGCTTGGCGGCGCGCCGGGCATTTACTCCGCGCG +TTATTCCGGTGAAGACGCGACCGATCAAAAGAATCTGCAAAAACTGCTGGAAACAATGAAAGACGTACCG +GACGACCAACGTCAGGCGCGTTTCCACTGCGTGCTGGTATATCTGCGTCACGCGGAAGATCCCACTCCGC +TGGTATGCCACGGTAGCTGGCCGGGCGTGATTACTCGTGAACCAGCGGGCACTGGTGGCTTTGGTTATGA +TCCAATCTTCTTCGTACCTTCCGAAGGGAAAACCGCCGCCGAACTGACCCGCGAAGAAAAGAGCGCCATT +TCCCACCGTGGTCAGGCGTTGAAACTGCTGCTGGACGCTTTACGTAATGGTTAAATTACCTCCGCTGAGT +CTCTACATTCACATCCCGTGGTGCGTGCAGAAATGCCCGTACTGCGATTTCAACTCTCACGCGTTGAAAG +GAGAAGTGCCGCACGACGATTATGTTCAGCATCTGCTTAACGATCTGGACAACGATGTGGCTTACGCTCA +GGGCCGTGAAGTAAAGACAATCTTTATTGGCGGTGGTACGCCGAGCCTGCTTTCCGGCCCGGCGATGCAA +ACGCTGCTGGACGGCGTGCGTGCGCGTTTGCCGCTGGCAGCGGATGCAGAAATTACTATGGAAGCGAACC +CTGGCACGGTAGAAGCCGATCGCTTTGTCGATTATCAGCGTGCTGGTGTGAACCGCATCTCTATTGGTGT +GCAGAGTTTTAGCGAAGAAAAGCTGAAACGACTTGGGCGTATTCATGGCCCGCAAGAAGCGAAACGCGCG +GCGAAGCTGGCGAGCGGTTTAGGGTTACGTAGCTTTAACCTTGATTTGATGCATGGGCTGCCGGATCAAT +CACTGGAAGAGGCGCTTGGCGATCTACGCCAGGCCATTGAACTGAATCCGCCGCATCTTTCCTGGTATCA +ACTGACCATCGAACCCAATACGCTGTTTGGTTCGCGACCACCGGTGCTGCCGGACGATGACGCGTTGTGG +GATATATTCGAACAGGGGCATCAGTTATTAACCGCAGCGGGTTATCAGCAATATGAAACTTCCGCTTACG +CCAAACCCGGTTATCAGTGCCAGCACAATCTCAACTACTGGCGCTTTGGTGACTACATCGGTATTGGCTG +CGGCGCACACGGCAAAGTGACCTTCCCGGATGGGCGCATTCTGCGTACCACCAAAACGCGTCATCCGCGT +GGTTTTATGCAAGGAAGGTATCTGGAAAGCCAGCGTGATGTCGAAGCCACAGATAAGCCGTTTGAGTTCT +TTATGAATCGCTTCCGTCTGCTGGAGGCCGCGCCGCGCGTGGAGTTTATTGCGTATACCGGGCTTTGCGA +AGATGTGATTCGCCCACAGTTAGACGAGGCGATTGCCCAGGGTTATCTCACCGAATGTGCGGATTACTGG +CAGATAACGGAACATGGGAAGCTGTTTTTAAATTCGCTGCTGGAGCTTTTTCTGGCTGAGTAAACTTGTA +TTGCCGGATGCGGCGTGAACGCCTTATCCAGCCGACATGTGGCAGCGGTTGTAGGTCTGATAAGACGCGC +AAGCGTCGCATCAGACGTTGATTGCCGGATGCGGGGTCAACGCCGCATCCTGCTACAAATCGTGCACTAT +ATCAAACTTACTTAATCACCCCATTGCGCCGCAGTTGTTCGGTATCTTTTTTCCAGCGTTCATTAGCTTG +GTTGATATCGTCAATTTTCATCAAAATCGCGACTTTTTTACTGTTTATTTCTGAAACTTTCATCGTTAAC +GGATATTGCCCTTTTTCGAGCGTTACCCAGTCATCCTGCAATTTACGGCTAAGTTTTTGTGATTGCAGAA +AAGTCTGTCGCCGTTGTTCGTTGATATCGAAATCTCGTTTCTGCTGAATCGGCACTTCATAACACTCTTC +ACTCTGTTTATGACATGCCGCAATCGCCGGTTGATAAACCTCTTTGTCATATTTAACCGCGAACGCCTCG +CTATCGTTCTGTTTATTAAACTCATCACGCTGTTGGTGAATTTTTTTAAAGGCGTCTTCGCGGGTCATTT +GCTTACCGTTTGCATCTTTTCCCCAATATGCATCCGCTGCTTTCTGCGCCGCCACCATTTGCTTATCAAG +CGCTTTCACTTCCTTTTCCAGCGCAGGAATCGAGTTCTTCTGGGTATTCAACGCAGATTCAAGCTGACTA +AAGCGATAATTGAAATCTTCGCTATTCACGATCAGATATTTATTATTCGTTTTGATATCGTCGACCACCC +GCCCACGATCGCTGGCTGCCGCCTGAAAAGAGTAAAAGTTCACCGACCAGCCAGACGCGGGCGTTCCTTT +ACTGGTTAACATCGCCGAGAATTTTACCGGTTTATCTTTCGTCCAGGTCTGTTCGAGCAGTTCGTAATCT +GCCAACTGACCGACCCAGGTATAGAGATCGTCACTGGAAGAGACATCGCCTTCCGCTGACCAGGTGGCCT +GATTACCCTTAGCATCAAGATTTTTTAAGGTGATAGCATCAAGCTTGAGAATGCCGTGATACTGCTTTTT +GAATTGATCTTTTAAGATATTTTCAGTTGGCGGTTCGCCATCTGCCCAGGCATTACCAGTCATCAACATA +AGCAGTGCCGTGCCAACAATCCATTGCTTTTTCACCCGAAAAACCTCACGCGGAATAATTTATTCCGGTG +ATTATCATTAGGGTAATTAAAATTGGCAATGGACGTGAGTCTGAAGTGAAAAAGCCCCGGCACGATACCG +GGGCGAGGCGATTAGTACTGATTGAAGATCTGCTGGATCTGCTGCGGATCTTTGGTTTGCGTCAGAGCCA +GTTGCAGCAGAACGCGCGCTTTTTGCGGGTTCAGCGTGCCAGAGGCGACGAAGCCGTATTTCGCATCATC +CACTTCGGCATCCTGAGTGGTAGCGCCCGTCGGTACGCGGGAAGAACGCACGACTGCAGTACCGGTTTTC +GCGGCGGTCGCCAGCGTGTCGAACACAGATTTATACAGGTTGCCGTTACCCACACCAGCGCTAACGATGC +CATCATAGCCCGCATCTACCAGTGCTTTAGCCGGAAGATCGGATGCGTTAGCGTAGTTATAAACAATGCC +GACTTTCGGCAGTTCATTCAGCTTAGAGACATCGAATGGCGTGTCGCTGGTATGCTTACGTGCCGGGGTA +CGCTGGTAGTCAATCTTACCGTTGTGAATGTAACCCAGAGGACCGTAGTTAACAGACTTGAAGGTCGCTA +CGTCGGTGGTGTTGGTTTTGGTGACGTCACGGCCATCAAGCACGGTGTCATTCATCACTACCAGCACGCC +ACGGTTGGCGGAGGCTTTATCAGCTGCGGTCACTACCGCGTTATACAGGTTGAATGGACCGTCTGCGCTC +ATAGACGTGGACGGACGCATTGCGCCGACCATCACCACCGGTTTGTCGCATTTCACCGTCAGGTCGAGGA +AGTAAGCAGTTTCTTCCATCGTGTCGGTACCGTGGGTAATGACGAAGCCGTCGGTCTTATCGCAGTCGGT +GTTAATTTTTTTCGCCAGTGTCAGCCAGACATTATCGTTCATGTCCTGGGAGCCGATATTCACTACCTGC +TCGCCTTTAACGTTCGCAATGTCTTTTAGTTGCGGCACCGCATTAACCAGATTTTCTACGCCAACTTTAC +CCACTGTGTAGTTAGATTTGGTTGCGGAGTCACCACCACCGGCAATGGTCCCGCCGGTTGCTAAAATGGT +GATATTGGGTAATGCCAATGCTGCACCACTAAAACCCATAACCAGTGCGGCAAGTGCCGTCTTTTTGAAA +AACTCCATTTCATTCCTCCAGTTACGTGAACGCTACGCATTATCCCTTAGCTCTGTATGGGAAATTTGAC +GTTAAACAATTTACAACGTGAATATATTTTGGAGATCTACAAAGTTAGAGGCAGGTAACAAAACGAAGAA +TTAAACGGCATAAAAAAGTATTATGCCGTCTTAAAATAGAGGATTATTTTAAATTCCCGACCAGGGCTTT +GCGGCTATCTTCCAGAGTCACAACGCGGCTACAAACATCTTTGCCAAACTGCTGGAAATCTTTTTCCTGC +TTTTTCCACTCGGTTTGGATTGAGGATTGCAGCCCCCCCAGGCTTCCCAGCACATTCTGTAATGGGTTAC +CGCCGCTTTTCAGCACCGCTTTCGCGCCCATTTCATTAATGCTGTCCTGTAAAATTCCACCCATTGCCTG +ATTCACTAATTGCTGGCCTTCGGCGCGAACCTGATCAATGGCTTTATAGTGAAACGTCAGGCCATCGCTG +CGCGTTTCAATAATGCGGTTCATCTGCTCTTTCAGCTGCGCATCAAGTTTGGTCAGACGGCTGCGCATTT +TGCTGCTTTCGCCCATCTCCTGAACGATAATTTTATCCAGAGCAATACGGGCTTTCTCGACGCGGCTTTT +CGCGCCTTCATCAATCCACGGCAGCGTGCTGCGTAGTTCAGCCTGATAATCCTTCGCCTGCTCGCGCTGG +GCGGCATTCAGGGAATATTGCTTACCGTTATACATCACGTTGCCGTCTGGCGTGATCACCAGATTGCCGT +TTTCGCCCTTCACCTGCACGGTTTGCGGGCTGACAATCACATCGTCACGCGGCGTGACGCTGCACTGGTA +GTCGGCGTGAGCGGTCATTGCCGTCACTGAAAGTGCTGCCGCCAGCAGCATTTTGCGCATCATAGTCTTC +CCTCAAGAAAAAATCAGGCCAGCATTTGCTGGCCCCAGATTGATAACAAAGTACGCGTTTTCCATGCCGG +ATGCGGCGTAAACACCTTATCCCGCCTACTCGATCGTGCATCTTTCCAGGCCTGATAAGCGTAGCGCATC +AGGCAGTTTTGCATTTGTCATCGCCCGTATGCTTTCTTAGTCCCACCAAACGTCGAAAAGTTCGCTGGTG +CGTACCTCATCCAGTTTGCGCTCTTCCAGCCACTTACGCACAATCGCCTGATGTTCTTCGGTGCATTTGC +CGATTTCCTGCATGCAGATCAGACCTTCCCAGGCCAGATAACCGCTGCCGTCAAAGGCCAGTTTGTTCGG +TTCGATAACCTCGTTAATAAAATCATCAACGGTTTTATCAATCTGTTCTTCCGATGTACCTTCCGGGAAT +CGCCATGCCACCGAAAATCCTAATTCCTGGAATTCGTCGATGTGCATTTTTTTACGCAGACGACGGCTAC +GGTTCTTTGCCATTATTTCACCCTCTCGAACATTAAGTCCCATACTCCGTGACCAAGACGATGACCACGT +TGTTCAAATTTCGTCACCGGACGTGATGCCGGACGCGGTACGTAATCATTGCTCTCTGACAGGTTTTTAT +AACCGTCAATAGAAGACATCACTTCAAGCATATGTTCCGCATAAGGTTCCCAGTCGGTCGCCATATGGAA +TACGCCCCCCAGCTGCAGTTTGCTTTTTACCAGTTCGGCAAACGGCACCTGAACGATACGGCGTTTATTA +TGGCGCGCTTTGTGCCACGGGTCAGGGAAAAAGAGCTGCACCATGCGCAATGAATTGTCAGGAATCATTT +TATGCAGCACTTCAACCGCATCGTGACACATCACGCGCAGGTTGCTTAAACCTTCTTCATGCGCAGAAGC +CAGGCACGCACCAACGCCCGGTGAATGCACTTCAATGCCGAGGAAGTCCTGCTCAGGGCGATCTTTAGCC +ATTGCCACCAGCGACGCCCCCATGCCAAAACCAATCTCAAGCGTCACCGGCGCTTCACGGCCAAAAAGCG +CGGGGAAATCCAGCATATCTTCGCTGAACTCAACGCCCATCACCGGCCAGTAGTTTTCCAGCGCATGTTC +CTGGCCTTTGGTCAGTCGCCCCTGGCGGCGCACAAAACTACGGATACGGCGCAGTGGGCGGCCGTTTTCA +TCAAATTCCGGTGAAATGACGTCGTTTTTCATAAAGGTTTAGTCGCTTGTGAAAGTGTTCTGAAAACGGG +CATTATCCAAAGTTAGTTGCCGGATGCAAGCATGATAAGGCCGTGGCTGCGGAAAGTTCCGGTTTACACC +CTGCCGTCGCTGTGCTGCAATCTTGCCCCCAACAACAGTGAATTCGGTGACCATGCAAGCGTCGCAATTT +TCAGCCCAGGTTCTGGACTGGTACGATAAATACGGGCGAAAAACTCTGCCCTGGCAAATTGACAAGACGC +CCTACAAAGTATGGCTCTCAGAAGTGATGTTGCAACAAACTCAGGTTGCGACCGTTATCCCCTATTTTGA +ACGCTTTATGGCGCGCTTCCCGACGGTGACCGATCTCGCCAATGCGCCGCTCGACGAAGTTCTCCACTTG +TGGACCGGGCTTGGCTATTACGCCCGCGCGCGCAATCTGCATAAAGCGGCACAACAAGTGGCGACCTTAC +ACGGCGGTAAATTCCCGGAAACCTTTGAGGAAGTTGCAGCACTGCCGGGCGTCGGGCGTTCCACCGCAGG +CGCGATTCTCTCGCTTTCTCTGGGTAAGCACTTTCCGATTCTCGACGGTAACGTCAAACGCGTGCTGGCG +CGCTGCTATGCTGTAAGCGGCTGGCCTGGGAAAAAAGAGGTCGAGAATAAATTATGGAGTTTGAGCGAGC +AGGTGACGCCCGCGGTTGGCGTGGAACGGTTTAATCAGGCGATGATGGATTTGGGTGCGATGATTTGTAC +GCGCTCGAAACCGAAATGTTCGCTCTGTCCGCTACAAAACGGATGTATTGCCGCCGCCAACAATAGCTGG +GCGCTTTATCCGGGCAAAAAACCGAAACAGACGCTGCCGGAGCGCACCGGCTACTTTTTGCTATTACAGC +ACGAAGATGAAGTATTGCTGGCGCAGCGTCCGCCGAGCGGATTGTGGGGCGGTTTATACTGTTTCCCGCA +GTTTGCCGACGAAGAAAGTTTGCGGCAGTGGCTGGCGCAACGGCAGATTGCTGCCGATAACCTGACGCAA +CTGACCGCGTTTCGGCATACCTTCAGCCATTTCCACTTAGATATTGTGCCTATGTGGCTTCCCGTGTCGT +CATTCACCGGCTGCATGGATGAAGGCAATGCGCTCTGGTATAACTTAGCGCAACCGCCGTCAGTTGGCCT +AGCGGCTCCCGTGGAGCGTTTGTTACAGCAGTTACGCACTGGCGCGCCGGTTTAGCGCGTGAGTCGATAA +AGAGGATGATTTATGAGCAGAACGATTTTTTGTACTTTCCTGCAACGTGAAGCAGAAGGTCAGGATTTTC +AGCTGTACCCCGGCGAGCTGGGAAAACGCATCTATAACGAGATCTCCAAAGAAGCCTGGGCGCAGTGGCA +GCACAAGCAAACCATGCTGATTAATGAAAAGAAACTCAACATGATGAATGCCGAGCACCGCAAGCTGCTT +GAGCAGGAGATGGTCAACTTCCTGTTCGAGGGTAAAGAGGTGCATATCGAGGGCTATACGCCGGAAGATA +AAAAATAAAAACAGTGCCGGAGCACGCCTCCGGCAACTTGCATAAAAACAAACACAACACGCACCCGGAA +TGATGAAAAAATATCTCGCGCTGGCTTTGATTGCGCCGTTGCTCATCTCCTGTTCGACGACCAAAAAAGG +CGATACCTATAACGAAGCCTGGGTCAAAGATACCAACGGTTTTGATATTCTGATGGGGCAATTTGCCCAC +AATATTGAGAACATCTGGGGCTTCAAAGAGGTGGTGATCGCTGGTCCTAAGGACTACGTGAAATACACCG +ATCAATATCAGACCCGCAGCCACATCAACTTCGATGACGGTACGATTACTATCGAAACCATCGCCGGGAC +AGAACCTGCCGCGCATTTGCGCCGGGCAATTATCAAAACGTTATTGATGGGTGACGATCCGAGTTCGGTC +GATCTCTATTCCGACGTTGATGATATTACGATTTCGAAAGAACCTTTCCTTTACGGTCAGGTGGTGGACA +ACACCGGGCAGCCGATTCGCTGGGAAGGTCGCGCAAGCAACTTCGCGGATTATCTGCTGAAAAACCGTCT +GAAGAGCCGCAGCAACGGGCTGCGTATCATCTACAGCGTCACCATTAACATGGTGCCGAACCACCTTGAT +AAACGTGCGCACAAATATCTCGGCATGGTCCGCCAGGCGTCACGGAAATATGGCGTTGATGAGTCGCTGA +TTCTGGCAATTATGCAGACCGAATCTTCCTTTAACCCGTATGCGGTCAGCCGTTCCGATGCGCTGGGATT +AATGCAGGTGGTACAACATACTGCCGGGAAAGATGTGTTCCGCTCGCAGGGGAAATCCGGCACGCCGAGC +CGCAGTTTCTTGTTTGATCCTGCCAGCAATATTGATACCGGCACCGCGTATCTGGCGATGCTGAACAATG +TTTATCTCGGCGGAATTGATAACCCAACATCGCGGCGTTATGCCGTCATCACCGCCTATAACGGCGGCGC +AGGCAGCGTGCTGCGAGTCTTTTCGAATGATAAGATTCAGGCTGCCAATATTATTAACACCATGACGCCG +GGCGATGTTTATCAGACGCTGACGACCCGCCATCCCTCTGCGGAATCTCGCCGTTATCTTTATAAAGTGA +ATACCGCGCAAAAATCCTACCGCCGCCGATAATTCCATTAACCGCCCCTGACGATGCTCAGGGGCAAAAA +TGTTATCCACATCACAATTTCGTTTTGCAAATTGGGAATGTTTGCAATTATTTGCCACAGGTAACAAAAA +ACCAGTCCGCGAAGTTGATAGAATCCCATCATCTCGCACGGTCAAATGTGCTTTTTCAAACACTCATCCG +CATCACGATGTGAGGAAATTAACATGAATCTTAAGCTGCAGCTGAAAATCCTCTCTTTTCTGCAGTTCTG +TCTGTGGGGAAGTTGGCTGACGACCCTCGGCTCCTATATGTTTGTTACCCTGAAGTTTGACGGTGCTTCT +ATTGGCGCAGTTTATAGCTCACTGGGTATCGCAGCGGTCTTTATGCCTGCGCTGCTGGGGATTGTGGCCG +ACAAATGGTTAAGTGCGAAATGGGTATATGCCATTTGCCACACCATTGGCGCTATCACGCTGTTCATGGC +GGCACAGGTCACGACACCGGAAGCGATGTTCCTTGTGATATTGATTAACTCGTTTGCTTATATGCCAACG +CTTGGGTTAATCAACACCATCTCTTACTATCGCCTGCAAAATGCCGGGATGGATATCGTTACTGACTTCC +CGCCAATCCGTATCTGGGGCACCATCGGCTTTATCATGGCAATGTGGGTGGTGAGCCTGTCTGGCTTCGA +ATTAAGCCACATGCAGCTGTATATTGGCGCAGCACTTTCCGCCATTCTGGTTCTGTTTACCCTGACTCTG +CCGCATATTCCGGTTGCTAAACAGCAAGCGAATCAGAGCTGGACAACCCTGCTGGGCCTCGATGCATTCG +CGCTGTTTAAAAACAAGCGTATGGCAATCTTCTTTATCTTCTCAATGCTGCTGGGCGCGGAACTGCAGAT +TACCAACATGTTCGGTAATACCTTCCTGCACAGCTTCGACAAAGATCCGATGTTTGCCAGCAGCTTTATT +GTGCAGCATGCGTCAATCATCATGTCGATTTCGCAGATCTCTGAAACCCTGTTCATTCTGACCATCCCGT +TCTTCTTAAGCCGCTACGGTATTAAGAACGTAATGATGATCAGTATTGTGGCGTGGATCCTGCGTTTTGC +GCTGTTTGCTTACGGCGACCCGACTCCGTTCGGTACTGTACTGCTGGTACTGTCGATGATCGTTTACGGT +TGCGCATTCGACTTCTTCAACATCTCTGGTTCGGTGTTTGTCGAAAAAGAAGTTAGCCCGGCAATTCGCG +CCAGTGCACAAGGGATGTTCCTGATGATGACTAACGGCTTCGGCTGTATCCTCGGCGGCATCGTGAGCGG +TAAAGTTGTTGAGATGTACACCCAAAACGGCATTACCGACTGGCAGACCGTATGGTTGATTTTCGCTGGT +TACTCCGTGGTTCTGGCCTTCGCGTTCATGGCGATGTTCAAATATAAACACGTTCGTGTCCCGACAGGCA +CACAGACGGTTAGCCACTAATTACGCAAAGAAAAACGGGTCGCCAGAAGGTGACCCGTTTTTTTTATTCT +TACTTCAACACATAACCGTACAACCGTTTCACGCCATCCGCATCGGTTTCGCTATAAACACCTTGCAGCT +CCGGCGAAAATCCCGGCAACAAATTCACCCCTTCTTCCAGTGCAAGGAAATAACGTTGAACCGCCCCACC +CCAGACTTCCCCGGGTACCACGCAAAGCACGCCAGGTGGATAAGGCAACGCCCCTTCTGCCGCAATTCGC +CCTTCGGCATCACGAATCCGCACCAACTCCACGTCACCGCGAATATAAGCGCTATGCGCATCCTGGGGGT +TCATCACCACTGACGGGAAACTCTGCTGGCGGAACATCGCTTTTTGTAGGTCTTTGACGTCGAAACTGAC +ATACAGATCGTGCATCTCCTGACACAACTGGCGCAGGGTGTAGTCGCGATAGCGCACCGGATACTTGTTA +TAAACGCTCGGCAACACCTCAACCAGCGGCGAGTCATCCTCAATATGCTGTTCAAATTGCGCCAGCATCG +CCACCAGTTGTGCCAGCTTCTCGTGGCTTTCCGCCGGAGTTAATAAAAACAGAATGGAGTTGAGATCGCA +CTTCTCCGGCACAATGCCGTTCTCACGCAGATAGTGCGCCAGAATCGTCGCCGGAACGCCAAAGTCGCTA +TATTCGCCGGTTTCGGCATCGATACCTGGTGTAGTGAGTAACAGCTTGCACGGATCAACAAAATACTGAT +CCGCGGCATATCCTTCAAAGCCGTGCCACTTCGCCCCCGGCTCAAAACTGAAAAAACGGCGGTCGCTGGC +TAACACTGATGTCGGATAATCCTGCCACAATTTGCCATCAACAACGGGCGGGATAAACGGGCGGAACAGC +TTACAGCGCGCAAGAATAGCCTTGCGCGCTTCAATCCCTATCTCAACACACTCAGCCCACAGCCGACGCC +CACTCTCCCCTTCATGAATTTTGGCGTTAACATCCAGTGCAGCAAACAGCGGATAGAAAGGGCTGGTAGA +AGCATGGAGCATAAAGGCGTTATTCAACCGCTTATGCGGGCAAAAACGCGCCTGTCCGCGGATATGGTTA +TCTTTTTTATGGATCTGCGACGTCTGTGAGAATCCCGCCTGCTGTTTGTGCACCGACTGAGTCACAAAGA +TCCCCGGATCGTTTTCGTTAAGTTCTAACAGCAGCGGCGAGCTATCCGCCATCATCGGGATAAATTGTTC +ATAACCGACCCACGCGGAATCAAACAGAATGTAATCACACAGATGCCCAACGGTATCGATCACCTGACGG +GCGTTATAGACAGTGCCGTCATAGGTTCCCAGCTGAATAATCGCCAGGCGATACGGGCGCGGCAGGTCGG +CTTTTTCTGGCGCAACGTCGCGAATTTGCTGGCGCAGATACTCTTCATTAAAACAGTGCGCATCAATACC +GCCAATGAAACCAAACGGGTTGCGTGAAGCTTCCAGATAGACCGGCGTCGCCCCCGCCTGAATCAGCGCG +CCGTGATGATTCGACTTATGGTTGTTACGGTCGAAGAGCACCAGATCGCCACGCGTTAACAGCGCATTCG +TCACCACTTTATTCGCTGCCGATGTGCCGTTCAGCACAAAATAGGTTTTATCGGCATGAAAGACTTTGGC +TGCGAATTTCTGCGCATCTTTCGCCGATCCTTCATGAATAAGCAGATCGCCCAATTTTACGTCAGCGTTA +CACATATCGGCGCGAAAGACGTTCTCACCAAAGAAATCGTAAAAATGGCGTCCGGCAGGATGCTTTTTAA +AAAACGCACCATGTTGATGTCCAGGGCAAGCAAAGGTGCTGTTGCCCATCTCAACGTACTGCGTCAGCGT +GTCATAAAACGGTGGCAGCAAATTCTCTTCATACTGACAGGCTGCGGATTCCAGCTCCAGCCACTGCTGC +TCGTTGCCGTTGATTACCGCCGTAACGCCCGCAGGTAATTCAACAGCATGTTCGGAATACAAAAACACCG +GTAGATGAAAACCGGTGCGCTTAAGCAACGCAAGAATGCCACTGCGACTATCCGCAGCGGTAATGACGAC +TGCCGCGACGTCCGTAAAATCAGTATCTCCCAACGCCACCACGCGACGATGAGAAGAAAGTCGGGATACC +AGTTCACTACTGGCGGCAATATTCATTGATTTCATAAGCGCAAACCCGTTTCGGGGAAGTAAGAATACCG +GACAAGGTGGAAAACCCTGCCCCATGAGATATGGGTCAAACTGGTCACCAGCTCCGACCGCCAGACATCA +GTAAAAGCAGAAACGCTCTGATTTTACTGTTGTCCTGCAGTGAGCGTGCGTTAACTTCACCGCATGAGCA +GTAACATAGAAAGGGAAACGTTTCGCGCGAAACGGCGATAAGCGAGAGAATGTAAGGAGATGGCGTGCAT +CGGGCAAACTCCGTACAGAGAGGAGAAAATTCGCGCAATCATGGCACCTTTCGCTAAAGCGTGCAAGCCA +GGACTTTGCGAACAAACAAGCCATCGACGGCACCAAACGGTCATAATAAGAAAATCAAACAATACAGCTA +ACAGGAACTCTTGTGGTCATCGGCCCTTTTATCAACGCTAGTGCAGTCTTACTGGGTGGCGTTCTCGGCG +CACTGCTCAGCCAACGCTTACCGGAACGTATCCGCGTCTCCATGACATCAATTTTTGGTCTGGCATCGCT +GGGGATTGGTATTTTACTGGTGGTGAAATGTGCCAACCTTCCAGCGATGGTTTTAGCTACGCTACTTGGC +GCTCTAATTGGCGAAATTTGTTTGCTGGAGAAAGGTGTCAATACAGCAGTCGCCAAAGCACAAAATCTGT +TTCGTCACTCACGTAAGAAGCCAGCGCATGAATCTTTTATTCAGAATTATGTCGCGATTATTGTCCTGTT +TTGCGCCAGCGGCACCGGGATCTTCGGGGCGATGAACGAAGGGATGACCGGCGATCCGAGTATTTTAATC +GCCAAGTCATTTCTTGATTTCTTTACGGCGATGATCTTCGCCTGCTCGCTGGGTATTGCGGTATCGGTGA +TTAGTATCCCATTACTGATCATCCAGTTAACGCTGGCGTGGGCTGCCGCGCTGATTTTACCGCTGACCAC +ACCGTCGATGATGGCAGACTTCAGCGCCGTAGGCGGTTTATTGCTGCTGGCAACCGGATTACGCATCTGT +GGCATTAAAATGTTCCCGGTGGTCAACATGCTTCCAGCACTCCTTCTGGCAATGCCGCTTTCCGCCGCCT +GGACCGCCTGGTTTGCCTGACAATGCGTGCAATATCGGCAAAGTGATGATAGATTGTGCAGTCTGCAGTA +AATTGAAGAAATTTGATTGACGAGACGAGGCGAATCAGGTTTAATGCGCCCCGTTGCCCGGATAGCTCAG +TCGGTAGAGCAGGGGATTGAAAATCCCCGTGTCCTTGGTTCGATTCCGAGTCCGGGCACCACTAATTCTT +AAGAACCCGCCCACAAGGCGGGTTTTTGCTTTTGGATCTGACAATAACCTTCACGAAAAAAATTAGCTTA +TAAAGTCTGGGGGAATTACTCTCGCCACGTTAACGAGAGTAATTTTATTGATATTAATCTCCTGATACTT +TACCCCCGTCCAAACTCCAGCCGCTGCACATTCACCATCCCAGGCTTCTCAGCAGCACTGACATCAATTT +GTGTCACCCGCAGCGCATATTTTTCATCCAGTGCGTTTAACCATTTCAGCAGGTCATTAAACACCACAGG +TTCTATCCAGACCTGAATATTCTCCCCACGATCGGCTATCCGCCTGATGACCACCGAGTGCGCGGAAGCA +CTGTCACTGATGACCCGCGATACCTGCGCAGGCGTTGTTGTGGCAGATTTTCGCGCTGCAATAATATCCG +GCGCGGCGTTCTTCAGTCGGGTGTTCATCGCCACCAGCTGCTGCAATATTGTCTCCTGTTGCTCAATCCG +TTCGCTCAACGGCTGCCAGATGAGGACGTAATATCCGACGCTAAACAGGAACACCACCGCTGCCAGTAAC +ATGCCCTTTTCACGCGGAGAACGCCCCGCCAGGTGTTGTGCCAGCCAGTGTTCGCCACGGCTTAACTGGC +GTTCACGCCATTGCTGAAAATAGTGAATAAATTTATCGCGTAACATGTTATTTCCTCCGCAACGTTACGC +CGCCGGAAACCGCATCACCCTCTTTCTGTAACGCGTCCTGTTGCACAACATAATCGGTTGCCAGTACACT +ACGCAGTTTGTCGAAACTGGCAAAGTTCGCGGCCCGTAGCTGGAGGTGAAGTATCTGGCGTTTTTGATCA +AAGGTAAAACCACGCATTTCGATGTCGGAAAGTGACGCTGATTTCAGGGTGCTGGCTATCGCTGACAACT +CGGCGAGCAGCCGGGTATCGTCGGCCTGTGGGCGATATTTTTTCAGCGCCATCGTCACCTGAGAGCGTAA +ATTCACAATCCGCTTCTGCTCCGGGAACAACGTTAAGAACTGTTCCTCCGCCTGGGTGCGGCTTTGCGCC +ACCTGTTCGCTGACGCTCCATAACGTCACGCCCCGCTCCACTGCCAGCGCAACCAGAATCAGCAATATCG +GCAGAATCATCACCCGCCAGCGCGCCCACTGTTTTCGGTAGCTGACGCGAGGCTGCCACGGCCCTGTCAG +CAGGTTCCCTTCCGGTTCGCCATAAGTGGTAATGGCGGGCAGAGCTGTAACGGTCAGGCGTTCAGCGTCT +GCGCCAGCCCATGCTGATAGCTTTTCCGGTGCAATGCCGACTACGGTTAGCGAAAGCGGTAAATCCTGCT +CATTGAGCTGGGCGCGGAACATGACCGGAGCCAGCGCCAGCCCGGCGCTCCATCCCCGGCATTCATCGAT +GCGGCAGATAACCCGTTGCGCATCGCAAGCCATAAACCCACAAGGAATGGACATCCAGTCCGGCGCGACG +GTAGCGCGGGTGATGCCGTTTTCCTGCAACCACTGCGCAATGTTGCGCATATGCTGTTGGTGAATCACTG +CTACGGTTGCCAGTTGCTGGTCGATATTCAACGGGGCGAAATGCAGTTCATCGATATCCTGGTTCAGCTC +TTCTTCCAGTAAGGCGGGCAGAATAGTCGGTAGCGCAGCGCGATGGAAATGTCGTGGCGCGCACCCTTGC +GTAAAACCGTAAGTTGAATGGAATCCATTGAAGGTAACTGCCGCATCAGAGCAATCATTGCTCGTGGATC +AGTGAAATCCTGCTGATTTAGCGCAATGGCGATATCGCCTTCCTTGAAACCGCTGGCATCGAACAGAGAA +CGATCTGCCCCCGGCTTCGCTGCATAACCGACAATCCCCTCCTTACGCACAGGCGTAAGCTGGATATAGT +TAAAAATTTTCTGCGGATCTTTCGCCAGTGCCTGACGCACGGCAGCCGGGATCTCAACTGGCACACTGAC +AGCAGGCTCAGCAACAGCTTGCTTTGCTTCGTCACTGACGGCTTTTTTGTTGGTCACAGCAACAGTGGAA +CGTTCCTCTTCTGCCAGACTCAGACGCTCTATTTTTCCCTGATAACGCAGCATCACATGGTCGCGGTTGA +TTTCCTCAATCACCGCGTTGTGAGAGCCAAGCGTTTCACCCTGCAAATAGACCTGCTGTTTACCGCCTTC +TTCAATAACCGCGCCGGGTCTGGCACCAAAGGCGATCCCACGCAGCACCACATTAAGACGCGTTTCTGCC +ACAGGCACAGGTTCGGGTTGTTTTACCTGCGCGGCGACAGGCTGATATTTGCCAAACCAGTTTTGCTGGC +TGATTAATTGCACGTCATTTTTATCGAACGTTTTTGCATCCACACGGCTCGGTTTATTCACCGGTTGAGA +AACCGCCGTATATTCCGCAGAAAAGGAGATATAGCGCCAGAGTGAATGCGCCATTTTTGCAGAAATAATA +AGCAGCATCAGCCAGAACATCCCGCGTGCAATTTTTCGCAGATGCTCTTTGTCTGTATTAAGAGATTGTC +TCTGGTTAAGAGTGTGACGAATTTTTGTCAGCCATTGAATGAGATAAATTCGTGCGTCACGAAAAACAAC +CCGCGCCAATTTATATCTACCCGACGTTATGCTTTGACTATTCCACAGGTGGTACGATCCAGTTTCCGCT +GATACTGGTTACCTGTACGTGTATCATTAATCGTTATGCTGTAATTAATTCCCTCAGTGATCATTAATTT +CACCGTCGGGTCAGCGCACATTTGTCGTTGATAGCTGGTTAAAAAGGCGTCAGGCGTCTGCGTGGTTTGT +GTACCCGCTTCGCTGATAATGGTCATTTTTACCGTTGTGCCGCTACTTTGCGCCAGCACTAAGGTATATC +CCGCAGATTTAATCGGCAGGTTTTGGCTGATATTTTGCGCCTGTTTTTTCGCCAGTAAACTGGCATTTTC +ATTATGGCTGGCACAGCCACTTAATAATCCTGTAACGCTCAACAATAGCGATATTAATACCCTCCCTGGC +ATTTGTTTTATCGACATGGTAAATAATCTCTAAGGTTATTAATAAGAGTTAAAATGTCACTTTGATAATG +ACGTGGTTATCATTAAAACAATGCCTGTAGATAAAGTGTTGCTATACCGCCCAGACTTAAACACGGTCCA +AAAGGCAGTGTGGTTGATCCTCTTTTTGTAATAACGGCATATATCAGGCCGCAGCATGAGGCGATTAAAG +CAACATTGGGCAGCGACAATGCCCCCACCCAGCCACCTAACGCGGCGAAAAGTAATACATCGCCCATGCC +TAATGCTTCTTTACGCAGAACTATTCCGGCTATCCAACGCAGAGAGTAAAAAGTGATAAATCCCACCAGG +ACGCCGGTGACTGCATCTTGTAGCGTGAGCGGACTCTGCTGCGCCCATGCCGCAATCAGTCCTGTCCACA +ATACGCCCTGAGTAAAAACATCGGGCAGCCATTGGTGATCGAGGTCGATGACACTCGCGGCAATCAGCCA +GGCGGATAATATCATCACCGCCAGCCCCCATCCACTTTCTGGCCAGACCAGACTCGCCAGCAAAAAAGCA +AGTGCTGTCAATAACTCCACCAGCGGATAACGCTTGCTGATTTTCGCCTGACAGTCGCGGCAGCGCCCTT +TGAGCATCAGCCAGGAGAACAGCGGAATATTGTCACGTATCCGGATGGTCTGCTGACAATGTGGGCAGTG +CGAACGCGGTAGCGCAAGGCTTATTTTTGACTGCGCACTCGACATTTCACCGTGAAACTCCGCCATTTGT +TGGCGCAGCATGATTGGGTAACGCCAAATCACCACATTCAAAAAACTGCCGATGATCAATCCTCCGACGG +TTGCCAGGACGGGCATCGCCGTGGGGTATTGCTGAAAAACATCAAAAAGCATGGTTAAAGGTTGTTTGTT +GTAACTTGCTGGATGCGGCGTAAAACGCCTTATCCGTCCTACGGGTGTCTGCCAGCGCAAATAATCGCGG +CTTTCCCCGTCTGTAGGCCCGATAAGCAGGCGCATCGGGCAAATGTGTTAACCCGGTGCGCCTTATTTCA +TGCCGGATGCGGCGCGAGCGCCTTATCCGGCCTACGGGCTTACTCGGCAGACATCTTATGCTCGGTAACC +TGATTAATGGTTTCCGGTCCCTGTTCCGGTTTCGGCAGATCGAGTGACGCGAGCGTGTTGTAAGCCGACT +GGCTCACACCGCCCTCGAAGCTCATCTCGCTCGCCCCCGGCAGCTGGTAAGCATTCGCGCCCGGATTCCA +TTTCTTAAAGAACTCCGAAAGATCCGTCTGGGCGACCCAGGAGGCACACAGCATCAGCGTGTCCGCTGCG +TTACCGTTGGATTCAGCACAGTAATTCTTGCCGCCAAACTTGTCATTGCTGACCTCATCGCCGCGTGCTT +TACGATGCATCAACTGGAACAGGTTCCAGCCTTTCATCCCTTCACGCTCGCTGTAAAACTCTGGCAGAGG +AGTGCCATCTGGATACCATTTCTTGATATCAAAGTTTTTCTCTGCCCATTCCTTCAGCTGTGCGTACATC +AGCAGACGGTCACCCGCACCGCCGCGTGCCCATGCCTGGTTGTTGCTCTCCTCCAGATATTCCGGTGCGA +CGGTAATATCGTCAGCGACACGGTTCATCTTGCCGAGATAACGATCCTGCATGTACAGCGCCAGCACGTT +GTTAGCGACTTCAGTTGCACCCGGTACAGTCAACGGCGTTTCTGCGGCGTTATGACCGACTTCATGCCAG +ATCAGCCAGTCGTTCAGCGGCGTCGTCGGCAGCGTGGTGCTGTTCGGCGAGAAGCTGCTGTTCATTACCG +GATAACCCGAATGCGCATCACCGATGGAGATCTGCACATCGTTGGTGAAACGATGTTTGTGGCCCGGCAA +GTTTTTATAGGTAAACATCCGGTGCTTACCGTCTTCGCTATCACGGCCGTAGAAGTCATTCATCGAGCTG +GCAAAGGTATCCAGATCGTTAGCGAATTGCTCCAGTCCGCCAGTGTAATTGCTGGCATTCAGGTTCTTCT +TCGGTGTGGTATAGACGAAAGCGTCTGATTCCAGCTCACCCAGCGGAGCCGGTGAGTTCAGATCGTTTTT +CCATGCGCCGTCTTTATAGAACGGTGCTTTTACCACGCCAGTAAAGGTGAAGCTGGCAGATTCATTGGTA +GAGCTATTGCCCTTGATATAAATCAGGCCACCGTAAGGCACCTTGAACTTCACCGTACCGCTAGCGTCCA +GAGAGTACGTTTTAGTCACTCTTGGCGGACGGTTCAGCGCAACTTCATGCTTCTCACGTCCGGTCAGGTC +GTCAGCCAGCGCCACGGTGACGGTCACAGGAACGTTCGCATTGGACTTAATGGTGACCTCTTTCTGAGCC +GGTGCCCACAGGCCAGTTGACTGCATGTTACCTGCAAACCATTTGGTCGGATTCGAGTACAGGCTGATGG +TTTCAGTAACGTTCTGTCCCTCTTCCGATACTGCTCCCGGATACTTCTCGACATCAACTTTGATGTTCAG +ATCCCACCAGGAACGGCCCAGCATCAGGCGTGTCAGCGGTTTTTCCATATAGTTGAGCGGGTAGCTCGGG +TTCATCATGCCCGCTTTGCTGCTACCGTCACCGTAGATCATGTTGTTATCGACCAGCGATTTTTTCAGAT +CTGCAGAACACTTGGTGCCGCCTGCATAGGCATCATTGGCGTAGCAGTTCAGGAACTCGGTGAACGTTTT +AAAGCCCAGCTCGTCATTTTTGCCTTCTTCATAACGATAGCTCGTATCGTTCCACAGCCAGACCGACATG +TTCTGGTACAGACGTTCCAGATCGACGCTGCTCAGACGCTCACCTTTGCGACCATTGGTCCGGAAGTAGA +GCTCATGCTGATACAGACGCTGAATGTTGGTGCCTAAATCCGCAGCCTGCACCATCGCTTTTGCAGTGTC +GGCGTTAAGGCTTAGTTGCGTATACTGTGGAACATACATGCCACCAGTAACCGGAACCCCCGTGCCAGGA +CGATATTCCAGGCAGTTGACCTCATAGTGATATGCCGGATTAGTACACTCTTTCAGCCCCGGGAACGCGG +CGAAAATTTTCTCCTTCGCAGCCTTCAGAGAATCCTCTGTTTTATGATCGGCCTCATCAATAAAGGCATA +ACGCGTTTCCTGTTTGCCATCTACATCTTCCAGCCAGCTGGCAACTTCCAGCTTCGGTTTGTCATCAGGT +TTGTTTTCTACCTGATATTTCCACTTAACTTCCCCTGTCTTACTATCGATGGTGTACGGCAGCGCACCAT +CTACGGCAGGATAACGTTCATAGACCCAAATGCCCGTTGCGCGCTGCTGACGAACGCGGTTCGGATACCC +TTGCGGATCGTTATTTACTACCGACTTGTTCAGTGCCATCGACAGACCTGCGGCATCCAACAGACGCACA +AAACCAGACGCGCTCTCTTCCTTAAGATTGCTCATCACGTTTTCCATGATCAGCACCGATCCACCTTTGT +TCAGATAGGCGATCAGATCGGTCACATCCTGCTGAGTCAGCTTCGGTTTGCTGGTATCTGCACGCAGCGG +GATTGCATAAGGATCGTTACCCACCTGAGTCACATATTCAAAGCCGTTAAGGATCAGCAGCGGCATTTCC +TGCGGATCGAGATCGCCATAGCTACTTAAATGCTCAACAGAGATGCCCGCAAAATCCGGATGGAAGTCGA +ACGCAGCGCTGTTTCCTGTAACCTGACCATGACGTTTAAAATAGACAGTATCCAGGTTGGTGCCTACGGT +CATGCTGGCTTTCGCGTCCGGCTTCCATTTATCGTCGGACAGATAGCGCAGCACGTTCTCCATGAAGTTC +TTCATGTCATCCGGGTCGCTGTTGAGCGTACACTGCCCATCTTTATTAACGCCCCCGTTCCAGCTGTAAC +CGTTCGGGCAACGCAAAATGCTGTTGTAGTGTGGGTTACCGATAACCATCAGTTTGCCCTCACCGACTTG +CCCCAGCGAAATAAACGGCAGGTTAAAGGTGGCGGTATCGCGCGTAACGTTTTCCGGCTCAACAAGAGAA +GGCGCTTCCGTAATGTACGCCAGCTCGTTTTTATCCCAGGCGCGTTTTTCGCCGAAGGCCAGCCAGTAGT +TTTTATCATTACGCGCCATCAGAATCGGGAAGGCCGCGTTGGAGATATTCACCACCGCCTGACCGCGCGC +ATTACCCGTGCTGCCATAGAAGTTGGTGGAGTCATGGAATACATGGAACTTGCTGACAGATTTGTAGTTC +GTATCCACGCCCCACAGCTTGTTGATAACGCCCTGAATCTGGCCGTCATTAACATTGCGCGTCGTCAGCG +AGAACCAGCGAGCCTCGTTACAACCATCGGTTTTCGCACAAATCGCGGTATCGATCTCTTTGGCCTGACC +CGTATTAAACTGCTCAATAAATTCGTTAGGCAGATTAACGACTTGCTCACCTTCCCCCAGCGTCGCACCG +TTGGATAACGAGAGATTGATAATCTCGTTGATCACGTTGGGATATTCGGCAAAGACCTTGCGTACATCGT +CCGGAACAACACGGGTATTATTTTGCCCGGTCGTCGAATAGCGATGAATAAGCTGATCAATATTCGCCCC +GCGAACTTCATCACCCAGTTCAGTCAGCGCAATGGTCGACTTATTGCCGCGCACTGAACCCAGTTCAAAG +GTATCGATACCAAAGGAGATGGTTTCGCCCCAGCTAAAGGAAAATTCACCATTTTCCCCTGTCACGCCAC +GGCCTGAATTGGTGTAGTAGTTGACGCCAGCAACACCATATCCCTGGCTATCGACCAGTCGACCTTCAGA +GAGAATGATTTCAGTGGGTTGATACTGATAAAACTGTTCCGCGTTAGCCGACACGAAGGAAGCGTTCAGA +TCCGGTTTTGTTCCCGGCGTGGTGACGGGCACGACCGGTGAAGTATGAGTGGATGGCGCTTTATCGGTCG +CAGCATTGTTTTCCACCTCTTCATTGACCAGCTTTTTGAACTCTTCCGGTGCCAGATCGATTTGCTTATA +CAGCGAGTCGAAGCGTTTACTCTCGATCACCGAGGAGAACGTCAGACAAACCTGTTCTGTATTCGCCGGA +CAGCTGTTACTGGACGTTACCAGCGAAACCGCATTGCTTTTCTTGTCATCGGAGCCCGCCAGTTCTTGCG +CGTCCTCAAGGCTAAACGACACTTTTTCAACCGCACGCAAGCTACGCGCAGCTTCTGACTGAGTGTTGAA +GGTGGCAATTGTCGTGTTACCCGCCACGCAAGTAACGTCCTCGCCAGGTTTAAATGTAAAGCCATCGCTG +GATTCACCATTACAGGTAGCACCAGTTACCCGCTGGCTTCCGCCCAGGGTCAGATAACCCGTTTTCGTAG +GAACAGGTTCTGGCTCCGGTTCTGGTGTTGGTTCAGGATCAGGTATCGGTTCTGGCGTAGGCTCTGGGTC +CGGCGTTGGCTCAGGCGTCGGCTCCGGGTTTGGTGTTGGATCAGGTTTCACTTCCGGCAAAGACCCTGTT +CCAGAATCTACAGGCGGCGTATCGGAGGAAGATCCGGAACCACCGCCATCACAACCGGCTAACAGGGTTG +CGCTCAAAATAGCCGCTAAAAGCGATTTCTTATATTTAAATTTCTTATTCATTAATAACGCAAGTGACAA +AACAATGTTAAAAAATTCGTAACTGGGAGAAATAGTTTTATGCTTTATCTTCTCTAATAACTTCCTCCAT +TCTTAAGAAAACGACATCATTGATAGAAAACAGGTGAAATTTATAAGAATAACCCCTATACGATGTCTAT +CTGGCTATTTTTACGAAATTTCAACAAACAAAAAATTAACAACATTTCACAACGTAACTATATAAATTTG +TTGGTAGTTTTAACGATTAAGATTGCAAAAGCAACAGATAGAACGGTGTTTGCTCATCAAGCGAACATAA +TTAATACAGACTTGTTTTGCGTGATAAAAAAATAGATGTTCTCACGCTCTTAATTATTTAGCAGGTTATC +TGAACGCAAAACATTATTGCTGCATGGATAATAAAGCGAGAAATGATTTTCAATTAATAAGACAGAATAA +TGTAAATGAAGCCGGATGATATTAACGATCATCCGGCTTTATTGATTTACGAGACTAACATCCCGGTAAA +CACATACGCCTGCAGCAGGGTGATAATGCCGATAACGCTGGCAAAAATCAGACTGTGCTTCACGGTGTAG +CGGAACAGTTCAGATTCTCGGCCCACCATGCCCGTCGCGGCGCAGGCCACGGCGATAGATTGCGGGGAGA +TCATCTTGCCAGTTACGCCGCCGCTGGTGTTTGCTGCCACCAGCAGGGTGTCAGAGACGTTGATTTGCTG +CGCCGTGGTCGATTGCAGTGAACCAAACAGGGCGTTAGAGGAGGTGTCCGAGCCGGTAAGGAATACGCCC +AGCCAGCCGAGAAACGGTGAGAAGAACGGGAACATCACGCCTGTACCTGCCAGTACCAGCGCCAGCGTGG +TGGACATGCCAGAATAGTTGGTGACGAAGGCGAACGCCAGCACCATGCCAATCGACAGTATCGGCCACTT +CAAGCTAATTAGCGTTTCGGCAAAGACGCCAATACCTTTCTTGATCCCCACACCGAGGATGAAGATAGAG +ATAATCGCCGCAATAAAAATAGCGGTGCCGCCAGCCGAGAGGGGGTCGAATTTAAACACCGCATCCATTG +GCGTTGGTTGGGCGACAATGGGTGCCGCTTTCAACACTTGTTGATGCAAATGAGGGATCTGGAAATTAAT +CACCAGTGAATAAAACGCGCCGCCCGGAGCAAATAACGCTTTAAACGGCTTCATGGTCCAGATGGTGACC +AGCACCGTTAAGATTAAAAACGGTGACCACGCTCGAATGATTTGCCCCAGACTATATTCTGAAGGCACGG +GACCGCCAGAAGATGGCTTATTTACCACCATCGCACCTGCGGATTGTCCCATGCTGATTGCCGTTTCGGT +ATTTTTCGGCCGCCAGACTTTAAGGAATAAAGCGAGTGAGACGATACTCACCAGCGCCGAAGTAATATCC +GGCAGTTCCGGACCAATATAGTTAGAGGTAAAGAACTGAGTGACAGCGAAGCTTCCCCCAGCAACCAGCG +CCGCTGGCCACGTCTCTTTCACCCCTTTCCAGCCGTCCATCATTGCTACCAGCCAGAACGGCACAAGAAC +CGACAGGAACGGTAACTGACGTCCCGCCATTGCGCCAATGTGGAACGGATCGATTCCCGTTACCTGACCG +GCGACCAGAATCGGCACGCCCAACGCACCAAACGCCACCGGCGCAGTATTGGCAATCAGACACAGCCCCG +CCGCGTATAACGGTTTGAAGCCCAGGCCCACCAGCAGCGCACCGGTAATCGCCACCGGCGCACCAAAGCC +AGCCGCTCCTTCCAGCAACGCACCAAAGGAGAAACCAATCAGTAACACCTGCAAACGCTGATCGTCGGTG +ATGGAGATAACCGAGCTGCGGATAATATCGAACTGCCCGCTGGCAACGGTTAATTTATACAGGAACACCG +CCGCGACAATAATCCACGCTATTGGCCATAATCCATAAATAAAGCCATAGCCCGCAGCAGCAAATGCCAT +ATCAATCGGCATTTTAAAGGCGAATATTGCAATCAGGATAGATAATATAAGGGTTATTGCTCCAGCGACA +TGTCCTTTCAGACGTAATACCGCGAGTGCAACGAAGAAGAATATTATCGGGATCAGGGCGACCAGAGCGG +ATAGCCCCAGTCCTCCCATCGGCATATACATTTGGGTCCAGGTAACCATATTGTTCAGTCTCTTATTATC +TTTATATGCTTGATATACTTAAGGTTGTAATAAGCAAAAGAGGACTGAACTGTAAAATATAGGCGTTATA +CTTTACAGCAACAGTACGCCGCTAACGCAATTGCTACCTCTGGCATAACAAGTATATCGGGTAAGGGTTT +CTGTTCCGCACACGCAGACGCAGAGTATCGTTAAGATGTCCATATTGTTGTTTTAGGCCCGCTAGTAATG +CGCTACGGGTATTTAATATTGTTAAACCCTGATAATCGCTCCGGTTATTTCCGGGATAAATGTACTACCG +CAGTTACTATCATAGCCCCGACAATAAAACTTGCCGGGGCTTTTTTGACGCTATTAATGACTTTCTTTTT +CGCGTAAACGCCAGGCGTGTAATAACGGTTCGGTATAGCCGTTTGGCTGTTTCACGCCGAGGAAGATTAA +ATCGCTGGCAGCTTTAAAAGCACACGAGTTAGCGAAATTCCCCGCCATCGGACGATAAGCCGGATCGCCA +GCGTTTTGCTGATCAACCACTTTCGCCATATTCTCCAGCGACGCCTGCACCTGTTCTTTGGTCAGAATAC +CGTGACGTAACCAGTTGGCGATATGCTGGCTGGAGATACGCAGCGTTGCGCGGTCTTCCATCAACGCCAC +ATTGTGAATATCCGGCACTTTTGAACAACCAATCCCCTGCTCCACCCAGCGCACCACGTACCCCAGAATC +CCCTGCACGTTGTTATCCAGCTCTTGTTGGATCTCTTGCGCCGACCAGTTAGCGTTTTCAGCAACCGGAA +TAGTCAGCAGATCGTCCAGCAGCGGTTCAAATTCAGCATTGAACTCGGTCTGGGCAATGTTGGCTTGTAC +GCTCTGTACGTTGGTTTGGTGGTAGTGCAGCGCATGGAGCGTAGCAGCGGTTGGTGACGGAACCCAGGCT +GTGTTTGCCCCGGCACGCAGTTGGTCGCCCTTCTGGCTGTACATGTCTGCCATCAGGTCCGGCATTGCCC +ACATGCCTTTACCAATTTGCGCTTTACCGCGCAGCCCACAGAACAGACCGGAAAGCACGTTATTACGCTC +GTAGGCTTTGATCCAAGGCGTCGATTTCATCTGATTTTTACGCAGCATCGGGCCAGCTTCCATCACCGAA +TGCATTTCATCGCCGGTACGGTCGAGGAAACCGGTATTGATGAACGCCACGCGGTTGCGCGCCTGAGCGA +TACAGCTACGCAAGTTCAGCGAGGTCCGACGTTCTTCATCCATAATGCCCATTTTCAGGGTATTCGGTGC +CATACCGAGCATTGTCTCAATGCGGGTAAACAGTTTGTTGGCGAACGCCACTTCCTGCGGACCGTGCATT +TTCGGTTTCACAATATAGACGCTGCCAGTGCGCGAGTTTTTCTGCACTTTTAAATCATAGAGGGCAATCG +CGCCAGTCATGACGCCATCAAGAATGCCTTCCGGGATTTCATTGCCTTCGCTGTCCCAAATCACAGGAAT +GGTCATCAAATGACCCACGTTGCGGATAAACAGCAGCGAGCGTCCGTGCAGAGAAATTTCAGAGCCATCG +GCGGCGGTGTAATGACGATCGTCATTCAGTTTACGCACGATTTGCCGACCGTTTTTCTCCATTTTCTCTT +GCAGAGTCCCCTGCATCAGGCCCAGCAGGTTGCGGTACAGCAGGATTTTATCTTCCGCATCAACCGCCGC +GACCGAATCTTCGCAGTCGAGAATGGTACTGATAGCAGCTTCGACGATAACATCGTTGATGTGCGCCGGA +TCGTCTTTGCCAATCCGCCCATTGGCATCGATTTGCAGCTCAATATGCAGGCCGTTATTTTTCAGCAAAA +TGCAGGTCGGCGCAGCGGCATCGCCACGGTAACCGACAAACTGTGCTGGAGTACGTAACGTGGTTTCTTT +ACCATTTTTCAACTGGATGCGTAATTGTTTATCAACCACCTTAAACGCCACCACATCCTGATAGCTGCCG +TTTTCCAGCGGTAGAGATTCATCGAGGAAACGCCGAACCCAGGCGATAACCTGCTCACCGCGTTGCGGAT +CGTAGCCGCTGACCATCGCCCCTTCCTGCGGGATGATGTCGCTGCCGTATAACGCATCGTACAGTGAGCC +CCAGCGAGCGTTCGCCGCGTTCAGCGCGTAGCGGGCGTTCATTGCCGGAACCACCAGCTGCGGCCCCGCC +TGGCTGGTGATTTCGCTGTCAATGCCCGTGGTTTCCACCGTCACGCGCTCCGGTTGCGGCACCAGGTAGC +CCAGTTCACGCAGGAAAGATTTATAGGCCGCTTTATCTTTTACCGGCCCCGGATTGCTGCGATGCCACTC +ATCAAGCGCTGCCTGAATGCGATCGCGTTCTGCCAGCAACTGACGATTTTCTGGTGCCAGATCATGAACG +ATCTCATCAAAATTGCGCCAGAACGCCGCAGCGTCCAGCCCTGTTCCCGGTAAAACTTCTTCATCCACAA +AACGTTTAAAATTGGCGTCAATGCGTAAACGGCTCTGGGTTATGGTTTGACTCATTGTTTATCTCCTCGT +TTTCGCTTATTTCGCCAACACCGCTGCTGCCGCTTTCGCGACCTGCGCATCCTGTGCTCCGGTTAAACCA +GAAACGCCCACGGCACCAATAATTTGCCCATCCACAACAACCGGTACGCCGCCTTCCAGCGACGTTAATA +ACGGCGCAGTCACGAACGCGGTACGTCCGTTGTTCACCATCTCTTCATAGCCCTTAGTTTCACGACGCCC +CAGCGCGGCGGTACGCGCTTTCTCCTGGGAGATATAAGCCGCAATCGGCGCGCAATCGTCCATGCGACTT +AACGCCAGCAGATGACCGCCGTCATCGGCAACAGCAATGGAAACAGACCAGTTATTTTTCTGCGCCTCTT +CCTGACCTGCGGCAATAATTGCACTCGCCATTTGCTGGCTAAGAATGACTTTAGTTTTCATTTTGTTATT +CCTTTTCAAGGGCTTGTTCTACAATTTCAATCCAGTGACGCACAGAGGTACGACCGGCGCTCGCCAGATG +CGTCTGGCAACCAATGTTGGCGGTGACGATCATTTCCGGTTTGCCGCTTTCCAGCGCATTCATTTTGTTA +TCCCGCAGCTGGCGTGCCAGATCGGGATGCGTTAACGCATATGTTCCCGCTGAACCGCAGCACAGATGGC +TGTCGGGAACGTCCGTTAAGGTAAATCCAAGACGAAGCAACACTTTTTCCACTTCGCCGTTCAGCTTTTG +CGCATGTTGTAGGGTACACGGACAGTGGAAGGCCAGCTTTTTATCGCCGCGAATTGCCAGTTTTTCCAGC +GGTTCCTCGCGCAGAAGTTCGACTAAATCGACCGCCAGTTCACTGACCTGACGTGCTTTATCGGCATATA +ACGCATCGTTTTTCAGCATCTGCCCATACTCTTTGACAAACGCGCCGCAGCCGCTGGCGGTTTGCAAAAT +TGCCTCGGCACCTGCTTCAATCGCGGGCCACCAGGCATCAATATTATTGCGCGCCCGTGCCAGCCCTTTC +TCCTGCGCATTAAGATGATAGTCCACCGCGCCACAACAGCCTGCTTCGTTAGCTGGCATGACGCTGATCC +CCAGACGATCCAGCACTCGCGCAGTTGCCGCGTTGGTGTTGGGCGAAAGCGTAGGCTGGGCGCAGCCTTC +CAACATTAAAACCCGACGCTTATGGCGCAGCGGCGGACGCGGTTTAGCTTTCACCGTTTCAGCAGGCAGT +TTTGCTCTGACCTGTTCCGGTAAAAACGGTCGCAGCACCAGCCCTACCTGCGTCAGCGCACGGAAGACCG +CCGGACGCGGCACTACCTGGCGCAATCCTTCGCGCAGTATTCGCTCCGGCAGTGGGCGTTTCACTTTCTG +CTCGACAATATCACGCCCGATATCCAGCAAATTGTGATAGCGCACACCAGAAGGACAGGTGGTTTCACAA +TTACGGCAAGTGAGGCAGCGATCGAGATGCTCCTGTGTTTTAAGCGTGACTTCGTTGCCTTCCAGCACCT +GTTTAATCAGATAGATGCGCCCGCGCGGCCCGTCCAGTTCATCGCCCAGAAGCTGATAGGTTGGGCAGGT +TGCGGTACAAAATCCGCAGTGAACACAGGCGCGCAGGATGCTGTCGGCTTCCAGCGCGCGCGCGTTCTGC +CGCATCTCTTCAGTTAATTGGGTTTGCATAGCCTGCTCCTCAAAGTTCCGCGTACATGCGACCGGGGTTA +AACACGCCGCAAGGGTCGAGCTGCTGTTTAAGCTGCTGGTGATAGCGGAATAAAGGAGCCGATAGCGGGG +CAAAGCCACCATCTCCGGCACTAAAGCGGGTCGCATGACCGCCAGCGTTGCGGGCGATGCGATGGATTTG +ATTGTCCTCGGCTGTCGATTTCAGCCAGCGTAACGCCCCGCCCCAGTCGATCAGTTGCTCGCCGGGTAAA +TCCATCATCGGCGCATCACTGGGTAATGAAATGCGCCATAAGGTACCTGGTAACGAGAAGAACGGCAGTT +GTTGTTCACGCAATTGCTGCCAGAACTGACCGGCAACCTCTTCGCCACCCAGCAGTTCACGCGCTGCTTT +TACCGATCCTTCGCCGCCCTCAAGGCGGATCCACAACGCATTGTCGAAGTAACATAAGCCACTAATGGGT +AATGGCTGGAGTTGCCACTCGGCGATTTCACTCATGGCTTCTTGCAGGCTGATTTCCCGACGCAGGCTCA +GGGAGGCGCGCGGTCGCGGTAACACTTTCATTGAGATTTCAGTGAGCACGCCAAGACAACCGTAGCTTCC +GACCATTAACCGTGAGAGATCGTATCCGGCAACGTTTTTCATCACTTCGCCACCAAAACGCAGATGTTTT +CCAGCGCCGGTAATGATGCGCGTGCCGAGGACAAAATCGCGGACCGAACCGCTCCACGGGCGACGCGGCC +CCGCCAGCCCGCAGGCGACCATCCCGCCCCAGGTGGCTTCTTCACCATAATGCGGCGGCTCACAGGGGAG +CATTTGCCCCGCGCTTTCCAGCGCCGCTTCAATTGTCACCAGCGGCGTTCCGACACGCGCGGTTATCACC +AGCTCGGTCGGGTCGTAATTAACAATGCCGCGATGACAACGAACATCCAGCGTTTGCCCGGTGACAGGGC +GACCTAAAAAGGCTTTGCTATTGCTGCCCTGAATCACCAGCGGCGTTTTATCGCTAATCGCCTGATTCAC +CTGCTCCAGCAGCGCCTGGCTGTAATCACACTCGCGTAGCATCAGAAACGCTCCAGTTCAGGGAAAGGTA +AATGACCGTGATGCACATGCATGGCACCAAATTCAGCACAGCGGTGTAGCGTGGGAATGTTTTTCCCAGG +GTTCAGCAAACCATCGGGGTCAAACGCCGCCTTGACCGCATGGAAGGTCGTGATTTCATCGCTGTTGAAC +TGGGCGCACATTTGATTGATTTTTTCTCGCCCGATGCCATGTTCGCCACTGATGCTGCCGCCAACTTCAA +CGCAGAGTTCGAGGATCTTCCCGCCCAGCTCTTCCGCGCGGGCAAATTCACCGGGTTCGTTGGCATCGAA +AAGGATTAACGGGTGCATGTTGCCATCTCCGGCATGAAAGACGTTGGCAACACGTAAATCATATTGCTGC +GATAAACGGGCAATGCCTTCCAGTACGCCAGGCAGGGCGCGACGCGGGATGGTGCCATCCATGCAGTAGT +AATCCGGGGAGATACGTCCTACCGCCGGGAACGCATTTTTGCGACCGGCCCAGAAACGTACGCGCTCTGC +TTCGTCCTGTGCCAGACGGACGTCAGTCGCGCCCGCTTTCAACAAGATGTCGTTAACCCGCTCGCAGTCT +TCCTGTACGTCAGACTCCACGCCGTCCAGCTCGCATAACAAAATCGCTTCGGCGTCGACGGGATAACCGG +CATGAATAAAATCTTCCGCCGCGCGGATCGACAGGTTATCCATCATCTCCAGCCCGCCGGGGATAATGCC +ATTGGCGATGATGTCACCAACCGCAAGTCCGGCTTTTTCTACCGAGTCAAAGCTGGCTAACAGAACCCGC +GCCACGGGCGGCTTCGGCAGCAGTTTTACCGTCACTTCGGTGGTCACGCCGAGCATACCTTCCGATCCGG +TGAACAGCGCCAGCAGGTCAAAACCAGGTGAATCCAGCGCGTCCGATCCAAGCGTCAGTGCCTCGCCGTC +CAGCGTTTGCACTTCAATTTTCAGCAGGTTATGTACGGTCAGACCATATTTCAGGCAGTGGACGCCGCCG +GCATTTTCAGCCACATTGCCGCCAATGGAACAGGCGATTTGTGAGGAAGGGTCCGGTGCGTAGTAGAGAT +TATGCGGTGCAACGGCCTGGGAGATCGCCAGGTTACGCACGCCTGGCTGCACGCGCGCGCGGCGACCAAC +GGGGTTAATGTCGAGGATCTCTTTAAAGCGCGCCATCACCAACAACACACCTTTTTCCAGCGGCAGCGCG +CCACCAGAAAGCCCGGTGCCTGCACCACGGGTCACCACCGGTACACGCAGGCGATGGCAGACAGCCAGAA +TCGCTGTCACCTGTTCCATTTGCTTAGGCAGAACAACCAGTAATGGACGCGTGCGATACGCGCTCAACCC +GTCACACTCGTAAGGAATGATCTCCTCATCGGTATGCAGGATCTCAAGTCCAGGGACATGCTCACGCAGT +GCCATCAGTACCGATGTGCGGTCGACATCGGGTAAAGCGCCATCAAGACGCTCTTCGTACAAGATGCTCA +TGAGTAGGCTTCGCTTTGTTGTGTTGTGTGGCAGCTGATTTTTGCGCGCTGCTTCTGTGAACAGTTATTA +AGCGGGCTTTTCGTTTTCGTCTATCTCTTTAGCTACCGGTCAGACCATTTTTTTTCCAGCTCTGTGACCT +TGTCTTGGTTAACTCAATGTTAAATTGATGTAACATAATCACTTACGTGATGTGCGTGTTTTGCGAGTTA +AGAACAGAAAAATTGGTCCTACCTGTGCACGAGGTCCGGGAATGAAAGATGAACGTCGCCCTATTTGCGA +AGTGGTTGCAGAGAGTATCGAACGGTTAATTATCGACGGCGTACTGAAGGTCGGTCAGCCGCTTCCCTCG +GAACGTCGACTGTGTGAAAAGCTCGGCTTCTCACGCTCCGCACTGCGTGAAGGGCTGACCGTGCTGCGCG +GGCGCGGGATTATTGAAACGGCGCAGGGTCGCGATTCTCGTGTCGCACGGCTTAATCGGGTGCAGGACAC +CAGCCCGCTGATCCATCTGTTCAGTACGCAGCCGCGAACGCTGTACGATCTGCTCGACGTTCGCGCATTA +CTGGAGGGCGAATCGGCAAGGCTGGCGGCAACGCTGGGAACGCAGGCTGATTTTGTTGTGATAACCCGCT +GTTATGAAAAAATGCTCGCCGCCAGTGAGAACAACAAAGAGATTTCGCTGATCGAACATGCGCAGTTGGA +TCACGCTTTCCATCTCGCCATTTGTCAGGCTTCTCACAATCAGGTGCTGGTGTTTACGCTGCAATCATTG +ACCGATCTGATGTTTAATTCAGTGTTTGCCAGCGTAAATAATCTCTACCATCGACCACAGCAAAAAAAGC +AGATCGATCGCCAGCATGCGCGGATCTACAACGCGGTGTTGCAGCGGCTGCCGCACGTCGCCCAGCGCGC +AGCACGCGATCATGTGCGGACCGTGAAAAAGAATCTCCACGATATCGAGCTGGAAGGCCACCATTTGATT +CGCTCGGCGGTGCCGCTGGAGATGAACCTGAGTTAGCTGGTATTAAATCTGCTTTTCATACAATCGGTAA +CGCTTGTACGGCTCCGCCCCAATGCGTTCCAGCATGTTATTCATGCCTGTATTGGTTTCGAGGATCCATG +ACATCTCCAGCGCATCGATCTTCCGGCGGGCAAACGGATCGCGTAAGGCTTCAATCAATAACAGCGCAAT +CACCGGGCCGATGCGGCTGAACTGATACTCGTCGCGCACGCCCATCAGCGGTACTCGCGCAGTTCGCACA +CCGCTGACTTTCAAACGCCACAGCAATTTTGCCCAGCCGAAGGGAAAGAGCGATCCGTTCAGATCGGCAA +TCGCCTCGTTGATGTTCGGCAAGCCGACAATAAACGCGCAGGGTGCAGAATCAATCTCAGCGATATAGAT +CATATCGTCCGGCACCAGATATTTAAGTTGATCGCCCATGGTCGCGAATTCATGTTCGGTAAACGGCACA +AATCCCCAGTTGTGCTGCCAGCCAGAGTTGAAAATCTCACGCAGGATCTGCATCTCTTCGGCAAACCGCT +GACGATTGATGCAGCGAATGGTCACCTTTTTGCGCACCTGATCCATCAGTTTTTTTAGCGCCGGAGAGAA +AGTGAGATCGGTTCGCTGCATCCACCACGCCAGTAAATCAATGCCTTTGTGATAACCCAGTTGTTCAATA +TGCGCGGCATACCACGGTTTGCCGTGTGGCATCATCGCACAGGGTGGTGTGTCAAAACCTTCAATCAGTA +ATCCGCTTTCCTGATTGATATTCAGGCTGAAAGGACCGCTGATCTTACTTGCACCTTGTGACTTCAACCA +CGCTTCCGCTGCGCCAAACAACGCGGCAAAAACCTGCGGATCATCAATGGCGTCAATCATGCCGAAATGA +CCGGTATCTTTGCCGTAACGCTCGCGGTGCAAGGTATCTATTTGCGCGGTAATACGCCCAACTATCTGCC +CCGCTTTTTTTGCCACCCACGCCTGCCAGATGATATGGTCCGTCCCCGGATTTTTCGCAGACAAATGCTC +GTTGCGTTCAATGAATAAAGGGGGTATCCAGTTTGGATCGTCGGGATAAAGTGATGACGGAAAAGCGATA +AATGCCTTAAGGTCATTTTTATTAAGGAAGGTGCGAACAAGTCCCTGATATGAGATCATGTTTGTCATCT +GGAGCCATAGAACAGGGTTCATCATGAGTCATCAACTTACCTTCGCCGACAGTGAATTCAGCAGTAAGCG +CCGTCAGACCAGAAAAGAGATTTTCTTGTCCCGCATGGAGCAGATTCTGCCATGGCAAAACATGGTGGAA +GTCATCGAGCCGTTTTACCCCAAGGCTGGTAATGGCCGGCGACCTTATCCGCTGGAAACCATGCTACGCA +TTCACTGCATGCAGCATTGGTACAACCTGAGCGATGGCGCGATGGAAGATGCTCTGTACGAAATCGCCTC +CATGCGTCTGTTTGCCCGGTTATCCCTGGATAGCGCCTTGCCGGACCGCACCACCATCATGAATTTCCGC +CACCTGCTGGAGCAGCATCAACTGGCCCGCCAATTGTTCAAGACCATCAATCGCTGGCTGGCCGAAGCAG +GCGTCATGATGACTCAAGGCACCTTGGTCGATGCCACCATCATTGAGGCACCCAGCTCGACCAAGAACAA +AGAGCAGCAACGCGATCCGGAGATGCATCAGACCAAGAAAGGCAATCAGTGGCACTTTGGCATGAAGGCC +CACATTGGTGTCGATGCCAAGAGTGGCCTGACCCACAGCCTGGTCACCACCGCGGCCAACGAGCATGACC +TCAATCAGCTGGGTAATCTGCTGCATGGAGAGGAGCAATTTGTCTCAGCCGATGCCGGCTACCAAGGGGC +GCCACAGCGCGAGGAGCTGGCCGAGGTGGATGTGGACTGGCTGATCGCCGAGCGCCCCGGCAAGGTAAGA +ACCTTGAAACAGCATCCACGCAAGAACAAAACGGCCATCAACATCGAATACATGAAAGCCAGCATCCGGG +CCAGGGTGGAGCACCCATTTCGCATCATCAAGCGACAGTTCGGCTTCGTGAAAGCCAGATACAAGGGGTT +GCTGAAAAACGATAACCAACTGGCGATGTTATTCACGCTGGCCAACCTGTTTCGGGCGGACCAAATGATA +CGTCAGTGGGAGAGATCTCACTAAAAACTGGGGATAACGCCTTAAATGGCGAAGAAACGGTCTAAATAGG +CTGATTCAAGGCATTTACGGGAGAAAAAATCGGCTCAAACATGAAGAAATGAAATGACTGAGTCAGCCGA +GAAGAATTTCCCCGCTTATTCGCACCTTCCCTAAATCAGGTCATACGCTTCGAGATACTTAACGCCAAAC +ACCAGCGAAATGAGCGGCTTGCCGACGATCAACACCGCGAGCGCCACCAGAATACCGATTCCGCCCGCCA +GTAAACCGGACTTCACACCTAACAACCACGGTCTGGTGGTGCGCGGATCTAAACGCATCACCTCTGGGTA +AAAACTTTTACCCAGCAAACCCGCTGGCGTTCCGGCGGCGTCGAAGAATGTCATGGCGATTTTAAATAAC +CCGGCGGCAGCGGGTCCTAACACGATCCCCACCAACACTGTGCTGCACGAGTTACGCGCCGACCAGATGG +AGTGGGCAATGTTGGTTGACCAGACAAAACTCCACGCGCCTTTAATGTATCGGGCAGACTCAAACAGATT +CAATTTGAAGGCGTTATGGATATTTCGGCGGCGTAATTCGCGCGCGGCAAACCACCAGTACATGGTGCCG +CCAACCAGATTCGACACGTACCAGGCAATAACAAAACCCGCAAAACCAAAGTCAAAATACCAGGCTACGA +CGCTCCCCGCTGCGCGCAGAAAAGGTTTCGTCGCCTGCTGTACAGCAATTAAATCGAAGCGATCTACCGC +ACGCAGAATGCCGGTCGGCGTGGAGGAAGCCATTGAAGGAATGAGCGTGCAATAGAGCGCTGCCAGCCAA +AAACTTTGGTCATCCAGACCTAATGAATGGGAAAGGAATGGCAGTAAGGCAATGCCACCGACAATCGCCA +CCGCGCCGCTGACGATATCCAGCGAGAAGGAAAATGAGACGACATTGCGGAATTGCTGCGGATTATTGTT +GGTTAATGCTGGTGTTCCGTACTGAACCACCAGTTGCCATGTCTGAAACTTAATAAAATCGCTGATCGAC +TTGGCGTACGATTGCACAATCACCAGTACGCCAAACATGGCGGGCGTCATCCCTTTACCGGCACACGAGA +GCGCCAACAGACCCAGCAAGGCGCTCACGACATTACTGGAGCCTAACCAGGCGCTATTGCGAATAATGGT +GCGAAACGCGCCATCTGCAAACCAATGTTTGATGTTAAAACCCGCCAATTCAGCCTGACCTTATCGTTGA +TAGTAAAAAGTATCCCGCCAGCCTTAAGTTAAACTTCGGCGGTCAGAAACGATGGCAACCAGAGAAACCG +CCTTCTGTGCCTGTTCCAGCACTTCGCTGTAGGGCGCTCTGGAATCAATCTCAAGAATTTTTGTGCCGTT +ATAGCCAATCTTCGACATGACACCGATTTTGTCCTGCAGCTCGGCATAGTCATGGTCAGGCTTGCGGGAG +ATGGCAGTCTCAATATCAATGCCCAGGCGAATAATTAATTCCGGGCGATATTGCGCCATTTGTTGGTATA +AACGCCGTTCGCGCTGCGCCAGAAACATGCTGATTTTCCCGGTCGCACGTTCGACGCCAATCCCCGGTCC +ATCATAATAAAAGCCCGAAATTTCAGCCTGCGGGAAGCGATCGCTGACCACCAGAACGCCACTTTGCGCC +AGTCGCTGAACCTTGCGTAGATTCGCCATTCTTCGCAGCGAGAAGCAGTACATAATCACCGCCGCCCATA +GCGCCGGAGATTTGGTTTTCATGCTTTGGGTTTTCGAGGATTTGGCCGCCAGTCGCCGTTCCAGCCAGAC +GCCAACCAACGGCAATCGTTTGATTTTGTCGCCGTCTTCGCCGGAGAGCAGCCCCAGATAGCGCCGCTCG +GTTTGCCAGTGTTGTTGCAGCGATTTCACCAGGTCGGTGGTCAGTGTGGATTTACCGGTGCCATCACACC +CGACCACCGCAATCAGCCCCGGAATGTAGTTGGGCTGCGGCGCGGTTGTACTATTAACAGTTTGAGTTTG +TAGTGCATCCATTCGTTAAATCATCCCCTATCCATTTTGGTGATCAGGAAAGCGCGGCGTGAATTGCGCG +TAGTGACGCTTGCAGAATTTCATCGGCGGGGTGTCGCCCATCCAGTTCAAGGATCTTTGCGCCATTGAAT +GTCAGTTGCGGCGTAACGGCGATTTTTTCCTGTAACGCTGCCAGTTGGTGGTCAGGTTTACGCGCAAACG +CGGTTTGTTCATCAATGCCAAGACGAATCAACAATACGGGCAAATAAGATGCCATCCATTGGTACAGCTT +CAGCTCGCGCTGCCTTAACATTTTTATCCAACCGTTACCGCCCGTGGTTTTTGCCAATTGCGGGCCATCA +AAGCGAAACCCCGGCACTTCAACCTGCGGGTAGCGGTCGGTGATGAGCAGAAAGCCTTGCTGGCTTTTAC +ACAACATTTTGCGAAACTTGTACGCCCGCCAGCAGGAAAGCAGATAGATAACCAGTGCAGTAATATTGCC +AGGCGGTGTTGAGGGCTTTTCGTGCACATGTGCCGCTTTACTTCGCAGATAACGCCCAAAAGGTGCGCCA +ATAACAGGGAGCTGTGAAATCCATTCGCCAATTCGCCCGGACGATTGCCCGAGATAAATGTGTTCTGTTG +GCATTCTTGCTGCCAGTTCATTTACCAGGCTTGCCGTGAGGGTCGATTTACCTGAACCATCACATCCTAC +AATGGCAATAACACGCACTGGCGTGGAATTAATTATTGACATATTACGTTGATTCACGAAAAACCCGGCA +GTAAATAATGTATTGAATATTACGTGGTCCGTGCTCAGAATATCCGTTCAACCTTATTGTGACAATGGTT +AATTGTGACATTGACCTGAATTACGCTTTCATAAAAACATATTAACCAAATAAATATTTTTAATGGATAT +TTAAATTAAAGGATATATTCATGCAGTCAATAACACCTCCATTAATTGCCGTTATTGGTAGCGATGGTTC +AGGCAAGTCAACGGTGTGTGAACATCTTATTACCGTTGTCGAAAAATATGGTGCTGCCGAAAGAGTTCAT +TTAGGAAAACAGGCCGGAAATGTCGGTCGTGCAGTGACAAAATTACCGTTGATGGGAAAATCCTTACATA +AAACAATTGAACGAAATCAGGTGAAAACAGCAAAAAAATTGCCTGGACCAGTTCCGGCGCTGGTAATTAC +AGCGTTTGTCGCCCGTCGCTTACTGCGCTTTCGTCATATGCTTGCCTGTCGTCGTCGCGGGTTAATTGTT +CTAACCGACCGTTATCCTCAGGACCAAATTCCTGGCGCTTACGATGGTACGGTGTTCCCACCTAACGTTG +AAGGTGGTCGTTTTGTCTCATGGCTGGCAAGCCAGGAACGTAAAGCGTTTCACTGGATGGCGAGCCATAA +GCCTGATCTGGTCATCAAACTCAATGTTGACCTTGAAGTTGCCTGTGCACGTAAACCCGACCATAAACGG +GAATCGCTGGCGAGGAAGATTGCCATAACGCCACAGTTAACCTTTGGTGGTGCACAACTGGTTGATATCG +ATGCCAATCAGCCACTGGAACAGGTGTTGGTTGATGCAGAAAAAGCGATTACGGATTTTATGACCGCGCG +TGGTTATCACTAGTCAAAAATGGAAATGCCCGATCGCCAGGACCGGGCATTTTCAGGAAGGTTAAATCAA +CTGCAATGCTATCCAGTACAGCCCACCAGAAAGAAAAATTGCCGCCGGTAAAGTAAATACCCACGCCATC +AGGATGCTGGTTACCGTTTTACGCTGTAACCCACCGCCGTCCACCACCATCGTCCCTGCAACTGCAGACG +AGAGGACGTGTGTTGTGGAGACGGGCATCCCAATATAACTGGCAAGACCGATAGACACTGCCGCCGTCAT +TTGTGCCGCCATGCCTTGCGCATACGTCATGCCGCGCTTACCAATCTTCTCACCGATGGTCATCGCTACA +CGACGCCAGCCAATCATGGTGCCAATGCCGAGCGCCAGTGCTACCGCCATGATGATCCACACCGGAGCGT +ACTCAATGGTGCTTAACATATCGCTGCGAAGTTTTTTCAGCAGGTTCTGGTCTTCTTTACTGACGCCTGG +CAGTTTCGCTAGCTTCGCGGAGGTATCAGAGATGCACAGCATAATGCGGCGCAGCTGGCTGCGCTGACTC +ACGCTTAACGGCTCGTAACTTTCCATATTGCCTGGCAGCATCGTTTTAACGCGCGCAATAGCATCAAAGG +TATTTGCCGGATGACAGTGAAACTCTGTTACTTGCGTGCCATCAGTCGATGCTGCAGGCAATGGAGGTTC +CATCGCAATCAACTTCTGCGGCAGTTCAGGATGCTGTTGCAGGTAGTGTTCGAAGTTGGTAACGGCATCG +CGGGTACGGGTAATTTCATAGCCGGACGCATTCATATTGACGACGAAGCCAGCAGGGGCAATCCCCACCA +GTACCAGCATTACCAGGCCGATCCCTTTTTGTCCGTCGTTCGCGCCGTGCGAAAACGCCACGCCCGCAGC +GGAAACAATCAGCGCAATACGCGTCCAGAATGGCGGTTTACGTTTGCCTTTTTTCTTTTTGCGATCTTCC +GGAATGCGGTGAATACGGTCACGCTTTTTCGTCCCGCTCCAGTAGCGTCGCAGCAGGAATATCAGGCCTC +CCGCAATGACCAGGCCGACGATAGGGGAAACAATCAGCGAGGAGAAAATTTTGGTCACTTCACGCAGGTT +TAACGCATCCATCACCGATGAGCCGGTTAACAGCGCGTTGGTTAAACCGATGCCGATAATCGCACCAATC +AAGGTGTGCGAACTGGAGGCCGGTAAACCGAAGAACCACGTTCCCAGGTTCCAGATAATCGCCGCCAGCA +GCATGGAAAAGACCATCGCCAGGCCGTGGGTTGACCCCATATTCAGCAACAAATCGGTTGGCAACATATG +GACAATGGCATAGGCAACGCTAAGTCCGCCCAATAACACGCCAAAAAAGTTAAAAAATGCCGCCATCACC +ACAGCAAGTTGTGGTTGCATGGCACGAGTATAAATAACGGCTGCCACCGCATTCGCCGTGTCATGAAAAC +CATTGATTGCTTCGTAGAACAACACAAATGCCAGAGCAAGCAATAACAAAAGCCCTGTGTATATATCAAG +GCCAACAAATAAATTTAGCATATATTAGATTACGCCATTTTGAATTTACGAACGGACGCATTATCAGTGA +CTTTAACGGCATGGGCAAAGTGAAATATCATTTTTTAACGATAAAAAGAGTGTTATTTCTTGTGTATCAG +ACAATAAGCATTCATTCAAAACCTTTAGAAATAATCAAAACACAGGTATTCCACTGGTTAATATATTCAC +ATATGAAATGAATAAATATTGGAATATATAAATATTGAATATTTTGATTAATCCCCGTACTGATTATTCT +TCATAATCAGTACGGGGTTGCTACAACATGTATTACTTTTTCACCACAATTAACGGTTCAATATCACTCT +CTTTTTTGATGACCAGTGATTCATCACCGCGCAAACACGTCCCACCGTAGTTGCCGCCAACGGTGAAGGT +ACATACCTGAATGTATTTACCGTCCACTTTCGGCAAACACCACAGTTGCTGATAGATGTTTTTCTGCTCG +GCAAATTTACCGCTGGTTTTGTCCAGCACCTCTTCATGATGGCTGACGAGGTCGATATTGCTGCCACAGC +GACCGGCGATCGGTTTCACTGCGTAACCTGTTTTCACCAGTTCATCATTAACAGTGAAATCGGTATCCAG +CAGGTAACGATGGTGCGGGAACAGCGACCAGAGGATCGGCAGAATCGCTTTGTTGCCGGGGATCACCGTC +CACAGCGGCTCAAAGACCAGCACTTCCGGGCGCAGCAATACGTCGATAAGACGCACTTCGTTTTGCGGAT +GACCGGTACGGATTGGCACCGCAGCAAACTCACGGTCGCTAACTTCACGAATCTGATCAAACGCGGTTTC +CCACGCCCAGGTTTTCCACACGCAGTTAACCAGTCGCCCTTCCCCATCAATCAGTTGCCCGGCAGCATCC +CAGCCCAGTTCATCCAATCCACGCAAGATACGCGTTTCAAAGCCCGCCTGGTGCAGCGCCTGCTCCATAA +ACTGCGCGTGATAGTTTTCCTCGATATCTTTGTCCTGCATGATATGGACAAACGGACGTGCACGACTGTG +TTTCCAGGCACCAGCCAATTCGTTAATCAGCCCTTCCGCCGGATTGAAGCCGTTGCCTTTATAGCCCTGC +TCCGCCCAACGTTCGAGGATCAAGCCCGCTTCGGTATGACAGGAGGCGGAGTCGGCGTTGTACTCGTAAA +CCTTCAGGCCACGCTCATCCATGCAGAAATCCATACGACCAGTGATCATATGGTGACGGCGACGCTGCCA +GGAGAGACGCAAACGTGGCCAGAGGATTTTCGGGATGTCGAACAGCGCCAGCAGGTTGTCATCTTTCAGC +ACCTTGTCGGTTGCGTGAAGATACATCAGGTGCAGCTCGTTGGTGGCTTTAATTAGCTCCTGCTCGGCAC +TCTCGGTAATGGTGTAGTAATGATAAGGATCCTGATTGATCACCTGACCGTTGGCCTGCACATAGGCGTT +TTGCAGCGGATCTTTTTCATCCAGCCATTTACCGTCAAACTGGCCTTTGTTTTCCAGGCGCGCTCCGCTG +ATTTTCAGCAGCTCGCCTGCAATTTCCGGCTGCGGTAAGCTGTATTCAGTATCTTCCGTCTGGATCATCC +AGCCCAGAATGGTGGTGTCATCAAAAGTGTCTTTCAGGGTATAGCAGCCGTTTTCGACCACCATCTCCAG +CTCGCGCGTCCACTGTTGCCCTTGCGGCAACGGGGAATGAATCACGTTCTGTTCCGCAATACGGACTTTG +TTGCCATGCAATTGGGTAATGATGGCGACATGGCCAGTGTCTTTAAATTCACCGCCTTTATCCCAGATAA +GAAGCGCACCCGCGACCGGCGCACGCGGCGAGCCGTTAGGAAATGCCTGCAATGGCAGGATGTTGTCATT +AACCACTTCTCGCAGGAAGCGCAGCGAGAAAATCTCCCACGCCATACCCACGTCAGTAAAGACCACACCG +TAATTCAGAAAGAGAAAACGGCGAGCAAATTCAACGCATTGCCACTTGTGGCCCATATATTCGTCGTCGA +TATAGCTACGGAATACGGCGTCATCTTCGTATTCCTGCGGATCGAGAGAACTGTAATCTGAAGAGTAGAT +TGCTACCCCACCTGGGGCGTAGCCCAATAATGTCCCGAACGGGGCATCCTGGCTGGTCGTTCCTTTGCTC +ATCACTTTACCTTTAACAATACAACCTAAGCAGTTGGCGTAATTGTTGTGCTCTGATTACCTGCTCAGCG +ACATTAACCGGACAGAGGTCAGACTAATCATACACCTCATCGCAGCGGCTGGCGCAAAGGGTTAAAAAAT +TCACATTCTGTACAGCAAGTGACCTGCTACACTGCTTCAACACTACCACTCAGAAGGCAACTCACTATGA +CAGACAATACTTATCAGCCCGCGAAAGTCTGGACGTGGGATAAATCCGCTGGCGGCGCGTTCGCCAATAT +CAATCGCCCGGTTTCTGGTCCGACGCATGAAAAAACGCTGCCCGTTGGCAAACACCCATTGCAACTTTAT +TCGCTGGGAACGCCGAACGGTCAGAAAGTAACGATTATGCTTGAGGAGCTGCTGGCGCTGGGCGTTACTG +GTGCAGAGTACGACGCCTGGCTGATTCGTATTGGCGATGGCGATCAATTCTCCAGCGGCTTTGTCGAAGT +GAACCCAAACTCGAAGATCCCGGCGCTGCGCGATCATACGCATAATCCGCCGATCCGCGTGTTTGAATCT +GGTTCGATCCTGCTTTATCTGGCGGAGAAATTTGGCTACTTCCTGCCGCAGGATTTGGCAAAGCGTACTG +AAACGATGAACTGGCTGTTCTGGTTACAGGGCGCGGCACCGTTCCTCGGCGGTGGTTTTGGTCACTTTTA +CCATTACGCACCGGTAAAGATTGAGTACGCCATCAACCGCTTTACCATGGAAGCCAAACGTCTGCTCGAC +GTGCTGGATAAGCAACTGGCGCAGCATAAGTTTGTTGCGGGCGATGAGTACACCATTGCGGATATGGCGA +TTTGGCCGTGGTTTGGCAACGTGGTGTTAGGTGGTGTGTATGATGCCGCTGAGTTTCTTGATGCGGGCAG +TTATAAGCATGTACAACGCTGGGCGAAAGAAGTAGGCGAACGTCCGGCGGTGAAACGTGGGCGTATTGTT +AACCGCACCAACGGACCGCTGAATGAGCAGTTGCATGAGCGCCATGACGCCAGTGATTTCGAGACGAATA +CGGAAGATAAGCGTCAGGGGTAAGGGTTGGTGTTCGTCGCAGCAAGCCATCCAGGCCGGATAAGGCGTTC +ACGCCGCATCCGGCAATCGTGCACAATGCCTGATGCGACGCTGCCGCGTCTTATCAGGCCTACGAAAGCT +AATCATCACGCGCTGGTAATGTCGTAATCCATTTGGCGCAGTGCGTCTAATGTGGCTTTGGCTTCATCTT +CGTCGATGATGCTCATGGCAAATCCGACGTGTACCAGCACCCACTGGCCCAGTAGATCGGCAGGGTTACC +TTCACAAATCAGGGCGATATTCACATCGCGCTTGATACCACATACTTCAACCTGCGCAAGCTGGTGAATA +TCTTCACCGACAGCCAGCACCTGGCCTGGAACGCCAATACACATTATTAACTCCGGTTATTCAACTTCAA +TACTTTTGACGATCAGCGAATCGCCGGTATCGACACGCAACCGCTCGCCGTGACAGAGCGGACACTGCGC +ATCGTGCTGATGAATCTCCACCACCTGGCTGCAATCCCAGCACCAAGCCTGGGCGGGTTTATAGACGATA +TGTAAATCGCACCCTTGCGCCACCGTTCCGTGGCAGACAATTTCAAAACTAAAACGGACGGCGCTCTCCT +CAACGCAGGAGAGCGCGCCAATTTCCAGCCACACGGCGGTGACGCGCTTAACATCGTGCTGCTCCGCCTG +CCGTTGGATAATTTCAACGGCGCTCTGGCAAAGAGACAACTCATGCATTTTCGCCACTCCTGCGACCAAA +CAGCAGGGCGCGACGCCCTGCGTGTGGTACATCCGGATTCGTGACTGGCAGCGAAAGGATCATTCGTGCG +CAGTCATCCGTCAGGCGTTGGCCCTCTTCAATCGACATGCTGTGCGAAAGCGGCGACATCAGCGAACAGG +AGAGATATTGCGAAACACCGTCCAGTTCGCCAACGGTAAAGGTCATAGTGCCATACGGCAGTTGCAGACC +AATTTTTTCACTCACTTTGCGCAGCGGCCAGAGTTGATCCGGGCCGGGGAAGATAACTGCACTCAGCATC +CACGGGGTGATCACACACCCCGTCCACTGACCTTCGAACAGCGTAAAATCAGAAACATACACCGGCATTG +AAGGATGCAGAAAAGAGAGATCGTGCATCGAACGCCGGGCAATTTCTTCAAACGCTGCCTGTACTTGCGC +CTTCGGGGAGGTCTGGAAACCTGCTATCTCTTCAGTCATGAATCGCCTCCCGTGGGATGGCTTCCACGCC +AGATTCACGCAGCGCAGCCAGAACCTGCTCAAGCGCAGGTTCAATCATTGCTTCAACCGTCGGCGTTAAG +CCGATGTGTGGCTCCAGCGATTCCGGGATCACGCCGACCAGGGTCAGCTTTTTCGGAAACTCGCCGGTGA +AGCGCAGGGCCGACAAGACGTCGGCCAGGCCAAGCTGATGCGGAGAGATTTTGTTGGTAAACAACGCCGG +AACTTCTTCATCCCGCAGGATCATCATCGTTCCCGGCGCGTTCTTTTTCGAGACAATGGCATCCGCAATA +ATCAAATGATCGCGATTTGCCATGTCGCCAAGCAGCTCCATTCCCGCCGTGCCGCCATCGAGGATCTCAA +CATAATCCGGCAGAATGTATCGTTGCTCTAACGCTTCGACAATCCGCACACCGATGGCTTCATCGGTCAG +CAAAATATTGCCGACCCCTAAGACTAAAATACGCATTACAGAACCTTCACTGAAACCACTTCGTTGCCGT +CAGCATCCACTACGTGTACCGCACAGGCCATGCACGGGTCAAAGGAGTGAATGGTACGCACCACTTCCAG +CGGTTTATTCGGATCGGCAACCGGTGTACCCACCAGCGACTGCTCGTAAGGACCGACGTCATCATTGAAG +TTACGCGGACCAGAGTTCCAGGTTGATGGAACAACCGCCTGGTAGTTGCTGATGATACCGTCTTTAATAA +CCATCCAGTGAGAGAGCATACCGCGCGGCGCTTCGAGGAAGCCAACACCTTTGAATTCACCCGTTGCCGG +AATGTTCGGCTTCACAAAGGTGGTGTGATCGCCTTTGCCGATATTGGTGATCAGTGCACTGTATTGGTTT +TGCAGGATATCCTGCAATTCACAGCAGTGAACGGTACGACCAATAATACGGCCCAGCGTGGAGTGCAGCT +GTGCCACTTCCAGCGTGTTGCCAGTCAGTTTCTGATAAATCGCAACGATTTCATTCAGTTTGTTCTGGGT +AGATTCGCGACCTGCCGCCAGTTTCACCAGCATATTAGCCAGTGGCCCCACTTCTACCGTTTTGCCGTAG +AAAGTCGGTGATTTCACCCAGGAATATTTCCCGTCGTCAGACCAACCATCATAAGCCGGAATGGTGGTGC +CTTCCCACGGTGCCTGCGGCGCTTCGTCTTTATACCAGGAGTGCTTCGCGCTTTCCTGAATGCCTTTGAT +CAGGTATTCATCGGAATGAGAAGTGATCGGACGATACGAGGACAGATCCGCATTCTCAATGTAGCCGCCC +GGGAACAGGAAGCTGCCGTTTTTACTGTCGGTCGGGAATTCCGGCACGCTCAGGTAGTTCACCGCACCTT +TACCGCGTGTCAGCCATTCCGGGTAGAACGCGGCAATAACTGCGGTATCAACCTTATAAACCTGCTCAAC +AAAGTCGCTCAGTTTGTCGATGAAAGACTTGATGTACATCAGGCGCTCAAGGTTCAGCACGCCCAAACCG +TCGAGGTTGATCGGGTTCGCGACACCACCTACCGCCAGGTTCTGAATGTGCGGCGTTTTACCGCCCAGCA +GCGCCACGACGCGGTTAGCGTCACGCTGGCACTCCAACGCTTGCAGGTAGTGCGCTACCGCAATCAGGTT +CACTTCCGGCGGCAGTTTCATCGCCGGATGACCCCAGTAGCCATTAGCGAAAATACCCAACTGACCGCTG +GCAACCAGATCTTTGATCTTGTTCTGAACTTTGGTGAACTCTTCCGGACTGTTCAGGTGCCAGGTCGAAA +CGCCTTTCAGCATTTCGGAGGCTTTGGTTGGGTCAGCTTGCAGTGCAGAAGTGATGTCCACCCAGTCCAG +CGCCGAAAGCTGATAGAAATGAACAATATGGTCATGCGTGGTGTGCGCAGCCAGAATGATGTTACGGATG +TATTGCGCGTTAACCGGAACGTCGATATTCAGCGCACTTTCTGCCGCACGAACGGAAGACAGCGCGTGAG +TGGTAGTACATACGCCACAGATACGTTGCACAATCATCCATGCATCGCGCGGATCGCGGTTTTTCACGAT +CTCTTCCATGCCGCGCCACATGGTACCGGAAGCCCATGCTTTCGAAACGACGCCATTTTCGATTTCGCAA +TCGATGCGTAAATGCCCCTCAATACGGGTTACCGGATCAATAGTAATTCTCTGGCTCATGCTTTGCTCGC +CTCATGACGATTATGATCGTTTTGTTTTAAAGGAGGAAGTATCGGCAGTAGACGAATGAGTACGATGTAA +GCGCAAATCTCAATAGCCACAAAACCAATAGAAATCAACAGTTCTTCCCAGGTCGGGAAGTAGGCGTAAC +CGCCGCCCGGGTTGAATGCCACCAGCGAATAGGTCAGACGCCAGGTTGCACAACCTAACAGTGCGCTCAG +TGCTGACAGGAACAGCATGCGGGAATCATTACGCAGCTTCGCCACACGCAGAACGACCAGCGGGAAGAGC +ATCAGCAGGACTTCAATCCAGAACATCACGGAGTAGAAGTCACCGGCAAACGCTAACGACAGCTTGTCGC +GATAGATAAGCTCGCCAAAGCGCAGCACGATGAAAATCGCCAGCAACACACTGATGGTGTTGGTCAGCTT +AACAAACAGACTCTTTTCATCCGGACCGTTGCCACGCAGACCCGCCTGCACCAGCGAACCTTCAAAGATG +ACAATCGAGAAGCCCATGATGAACGCCGTCAGCAGCGAGAACAGCGGCAACATTTCATAGCTCTGCCACA +ACGGATGCACCTTGTAGCCCGCCGAGATCATCAGCGACCCCATTGAAGACTGGTGCATGGTCGGCAGCAG +CGCACCGAGCGCGATGATGAAGAACATCACCTTGTTTAGTCGCTGTAGCGACACCTTCCACCCCAGACGT +TCAAACAGTGCCGGAGCAAACTCCAGTGCCATCACGCCGATATAGATGGTCATACAGACCGCCGTCTCGA +ACAGTACCGAGTTCACGTTGAAGTGACCCGGAATGTAGAAGTACGGCAGGTTCCAGTAGCGACCCACGTC +GATAGTGATCGACAAGCCACCCAGTGAGTAACCAAACAGACTCGCCAACAGCGCCGGACGCACCAGCGGA +TGGTATTGCCCACGGTTAAAGACGTATACCGCCCACGCCAGCGCCCAGCCGCCACAGGCAAAGCCGGTGC +CAATCAGCAGGTCAAACGCGATCCACACGCCCCACGGGAAGCCGCCGTTCAGGTCAGAGACAGAGCCCAG +ACCGAACACCAGACGCTTCACAATCAGGAGCATACAGATGACGATTAACGGTCCAAAAATCATGACCGGT +TTACTGATGATTTTGCCGCCCAGCGGTTGTGGATCATGACTCATGATCGTCTCCTCCGTCGTGATGGTCG +TTTTTGGTGTTGCGACGAACCAGCACGGTTAAGCCCGCCAGCACAGCCAGTGGTAGCATCATGCCTTTAT +ACAGGGTGTGTTGAATATTTTCGGAACGCGCACCGGTAGAAAGATCGTCCAGTTTCGGCAGGTCGAGATT +TTCATAAGGCACACCCGTCAGTACCAGAACCTGAGTACCGCCGCCCTCTTTCTCGCCGTACAGATGCGGA +TAATATTTCGGCACCGTATGCAGGTAAGTGTCGCCAGATTTCAGCGTCTGACGCGGATAGTGGTATTCGC +TGCCAGGCTTCAGCGCCAGACGTTTTTTCGCCTCCGCCATCAGCTCTTCACGCGTACCGAAAATCACCGC +GCCCGCCGGGCACACTTCTACGCAGCCAGGTAGACCGCCTTTATCGAGACGTTCCACACCTTTCTGGTTG +CACAGCTCGCACTTATGCAGCGCACCAAACGGGTTGTTGTAGTCGTACTTCGGCACGTTGTACGGACAGG +CGACCATGCAGTAACGGCAGCCGGTGCACACATCTTTGTCGTAATGGACAATGCCGGTTTTCGGATCTTT +TTTCAGTGCAGAGACCGGGCACACAGAGACACAGTTCGGATCGACGCAGTGCATACACTGTTTCTTAATG +TACGCGTAGCCGTTCTCCTCCTGGTCTTTGTTGACCCCTGTGCCGCTGGTCCACACCTGAATGATGTTAT +TGGTATACGGCGACAGTTTGTCGTTGTTCGACCAGGTCTGTTCCCCTTGCGGGTTACGTTCAGGGAAATT +GATATCCTGACACTTGGTGACGCAAGCCTGGCAGCCTACGCACAAGGTCGAGTCGTACAACATCCCCAGC +GATCCCGGAATTGGCGGGCGGTTTTCAGCAGCCGCATGACTGACAGACGGCAGCGCGCCCGTCAGCAATG +CCCCGCAGGAGGCTGCTTTAATAAAATTACGTCTGTTCACGGTTATTCTCCCCGTGAGTCAGCGTTATCT +TTCTTTTGCTGACGACCCAGTTCACGCACCGCCATCACGCTGACACCGGCAACCAACCCAACCACACCGC +CGAGCAAACCAATAGCGCCTGCAGAGACGTTGCCGCCCTCTTTAGCGTTAACATCCGGTTTCTGTGAACG +CGGAGTTTGATTTTCGACGTTGGCAAGCTGATGGATGCCTTTATGGAAGCCGATACCTTCTTCGTTACAG +CCATAGCAAGGGTGACCAATCGCCACCGGCCACACACCGCCAACATCGCAGAATTGCAGCGTTGAGCAGT +TGCCGTAAGTTTCTGGCCCTTTACAGCCGAGGTGGTACAGGCACCAGCCTTCGCGGTGGCCTTCATCACC +GAACTCTTTGGCAAAACGACCAGCATCGAAGTGCGGGCGACGTTCGCAGTGTTCGTGAATCAGACGGCCA +TAGGCGAAGGTCGGACGGTTTTTGTCATCCAGTTTCGGCGGTTTGCCGTAAGTGATGATGTGCGCAACGG +TCGCGAGGAAGTTGTGCGGGTTCGGCGGGCAGCCCGGAATATTGATAACGGTTTTGCCTGGCAGAACTTC +TTGCAGGCTGACTGCGCCAGTTGGGTTAACTCCAGCTGCGGCAACACCGCCCCACGCAGAGCAGGAACCG +ATAGCGATAATGGCTGCTGCGCCTTCCGCCGCTTTGCGGATGTGATCCACAATCGGCTCACCGGCAACCA +TGCAATAAATACCGTTATCTTTTAATGGGATGGAACCATCCACCACTAACACATACTGCCCTTTGTACTT +CTCGAGAGCGTTATGTTTGTTCTCTTCGACCTGATGACCGAAGGCGGCGGAAAGCACTTCGTGATACTCC +AGAGAGATAGTCTCCAGTACGAGGTTTTCTACCGTTGGATGCGTTGCACGAAGCAGAGATTCCGTACAAC +CGGTGCACTCCTGCGCGCCAATCCAGATAACTGGCGGACGCTGCGGGTTAGTAACCGATTCGGCCATCTC +TGCAGCGGCTTTGCTACTTAACCCCATGGTGGCGGCTAATGCTGCACAAAGCTTCATGAAATCACGACGG +TTAATGCCGTGAGAATGGATGAGGGTGTTATCTCCAGTCATTTATAGTTATTCCGTTGCGAAGACCTGGC +ATATATTTTGCCTCAATCGCAAAATCAATAATGCGATCGATGCGCCATTTACCACACATTTATTATGGTT +ATCGATATCATGATACTGCGGCGGGGCGCTAAAACGAAGGGAAGAAGCATTAGTGTAATTAATTAAAGCA +AGATAATACGTATGTTTGATCAATTTTCGAGGCGATAACCGGCCATAAAAAAGCGCAACGTAGAACAGGA +ATTATTCTCACGAAAGAAATCCATTACCATCTCTTTATCCAGTCCATAGCGGCGCGTCAGAATACCCGCT +TCCCAGGCGCTAAGCTGGCGATCTCCGGTCTTTTCGTACATCCGGTGTGAGTAGCCTAATACAAAACCGC +GTTTATAATCGGCACAGAATTTTGTCACATTAACCGCACTGTCGGCATGCGTTGCTTTTAATCCCGCCAT +TAAGCCTTTACCAAAATGGTTATTCATCGTTCACCTCATTCGCTATATATTGTCATATATAGCGATATTT +TAGGCAAAGAACGACTTTTGCGCACGCTATTTTTTCATGCTTGTTTAAGACGTAATCCCGTAAGAGATAA +ACCTATCAGGAGAGATATTTATCGAACCATTTCAGTGTCCTTTGCCAGGCAAGATCGGCGGCAGATTTGT +CATAACGGGGCGTGGAATCATTATGGAATCCGTGATTAACCCCCGGATAGATATACGCCTCATAAACCTT +ATTATTGGCTTTCAACGCCGCCTCGTAAGCAGGCCAGCCCTCGTTGATTCGGGTGTCCAGTTCCGCGAAG +TGGAGTAGTAAAGGCGCTTCAATCTTCGCCACATCGGCAGTGGGTGCCTGACGACCATAAAACGGCACCG +CGCAGGCCAGTTCCGGATACGCGACAGCCGCCGCGTTCGATACGCCACCGCCATAGCAAAATCCGGTAAT +ACCCACTTTGCCTGTCGCTTGCGGATAGCGTTGCATAAACTCAATTGCGGCAAAGAAATCATTCATCAGT +TTGTTGGATCAACCTGCTGTTGCAGCTCACGACCTTTATCATCATTTCCCGGATAACCTCCAACGGAACT +TAAGCCGTCAGGTGCCAGGGCGATATACCCCGCCTTCGCCACTCGCCGTGCCACATCTTCGATATACGGA +TTCAGTCCACGATTCTCATGCACCACCACTACGGCTGGCGTTTTGCCGCTCATCTTTGCGGGCTTCACCA +GATAACCCCGCACCTCGCCGTGACCATTTGGCGAAGGATACGTGATGTACTCAGCAACAATTTCCGGGTC +GGTAAACTCTACCTGAGTCGCCAGCGCATAATTTGGCTTGAGCAAATCAAACAACGCTAATGCCGTCATC +CCGCCTACCGCACTTCGCCGCAAGGTTGAGGAACTCACGTTTCGAGATTTTCCCGTGAGCGTAATAGTCA +TAGTAATCCAGCAACTCTTGTGGGAAATCTTTGGCGGTTAAACGCGGCATCGTTGCACTCCTCAGTTGGT +GTTTTTTTAAGCAAAGCATAAGCACGTATTTTTGCCCAGTTTTTCGTCACTCTGTGAGCCAGACTACGGG +ATACGCGCTGGCGAATCGCTAAACTAGAAACATTGTTTCGAAATTGAACGGTGGAAAGGAGAGGTCATGG +TCTGGTTAGCGAATCCCGAACGTTACGGGCAGATGCAATACCGCTATTGCGGAAAAAGTGGTTTACGCCT +GCCCGCGTTATCGCTCGGTTTATGGCACAATTTCGGTCACGTTAACGCGCTGGAATCACAGCGTGCGATC +CTGCGTAAAGCGTTTGATTTGGGCATTACGCACTTTGATTTAGCCAACAATTACGGGCCGCCTCCAGGAA +GCGCAGAAGAGAACTTTGGTCGCCTGCTGCGGGAGGATTTTGCCGCTTATCGCGATGAACTGATTATCTC +TACCAAGGCTGGCTACGATATGTGGCCCGGCCCTTACGGCTCTGGCGGTTCACGTAAATACCTGCTCGCC +AGCCTCGACCAAAGCCTGAAGCGTATGGGGCTTGAGTATGTCGATATCTTTTACTCTCATCGCGTCGATG +AAAATACGCCGATGGAAGAAACCGCCTCTGCGCTGGCTCATGCGGTACAAAGCGGTAAGGCGCTGTATGT +CGGGATCTCCTCTTACTCGCCAGAGCGGACGCAAAAAATGGTCGAGTTGCTGCGCGAGTGGAAAATTCCG +CTGTTAATTCATCAACCTTCGTACAATTTACTGAACCGCTGGGTGGATAAAAGCGGCCTGCTGGATACCC +TGCAAAATAACGGCGTGGGCTGTATTGCCTTTACTCCTCTGGCTCAGGGATTGCTGACCGGAAAATATCT +CAACGGCATTCCGCAAGATTCACGGATGCATCGTGAAGGGAATAAAGTTCGTGGTCTGACACCGAAAATG +CTTACCGAAGCCAACCTCAACAGCCTGCGCTTATTGAATGAAATGGCACAGCAGCGTGGACAATCAATGG +CGCAAATGGCGTTAAGCTGGTTGCTGAAAGATGATCGCGTGACGTCGGTATTGATTGGTGCCAGCCGCGC +GGAGCAACTAGAGGAGAACGTGCAGGCGCTGAATAATCTGACATTTAGCACCAAGGAGCTGGCGCAGATT +GATCAGCATATCGCCGATGGCGAGCTGAATCTGTGGCAGGCGTCTTCCGATAAATGACCTGTTAATAACG +GGCGCGCGAACCGCGCCCGAATCAGATCAGTGATTATGACGAGTCAGTCGGTCAAGATAGCCCATCACAA +ATGCAGAAAGCACAAACGTCAGATGGATAATGACGTACCACATCAGTTTGTTATCCGGGACATTTTTCGC +ATCCATAAAGACGCGCAGTAAGTGAATGGAAGAAATTGCCACAATCGACGCTGCTACTTTGTTTTTCAGC +GACGTTGCGTCCATTTTCCCCAGCCAGTTCAGCTTCTCTTTGTTCTCGGAGATATCCAGCTGTGAGACGA +AATTCTCATAACCGGAAAACATCACCATCACCAGCAAACCGCCAACCAGCGTCATATCCACCAGCGACAG +CAACACGAGGATCAAATCTGATTCCGCCATCGAGAAGATATTCGGCAGTACGTGAATAATCTCCTGGAAG +AACTTCAGCGCCAGGGCAACTAACGCCAGCGAAAGGCCAAAGTACACGGGGGCAAGCAGCCAGCGAGAAG +CATACATTGCATTTTCAAGAAAACGTTCCATACATTCCTGTCGTGTAGTTAAAACGGGCAACAGTATATC +GCAATTGAGTAAACAGCACGCAACAGCAAATCAACATATACGTTAAACCTTTGTCGCATAATTCTGAGGT +TTAGGGATCTTCCTGGTTCCCTTATCAACGCATCGAGAACGTCTACCCTTAAAGGACGTTGAACCTGAAG +GGAGAAAAACGATGTCTCATTTAAAAGACCCGACCACGCAGTATTACACTGGTGAATATCCCAAACAGAA +ACAACCGACGCCAGGCATCCAGGCGAAGATGACACCGGTACCGGATTGCGGCGAGAAAACCTATGTTGGT +AGCGGTCGCCTGAAAGATCGTAAAGCACTGGTGACAGGGGGCGATTCCGGAATAGGTCGCGCTGCCGCCA +TCGCTTACGCGCGTGAAGGGGCTGACGTGGCGATCAGTTATCTTCCCGTGGAAGAAGAAGACGCTCAGGA +TGTGAAAAAGATCATTGAAGAATGCGGACGCAAAGCCGTTCTGCTGCCAGGCGATTTAAGCGATGAGAAA +TTTGCCCGTTCGCTGGTTCACGAAGCGCACAAGGCGTTAGGCGGGCTGGATATTATGGCGCTGGTCGCCG +GGAAACAGGTTGCCATTCCGGATATTGCAGACCTCACCAGCGAACAGTTTCAAAAGACCTTTGCCATTAA +CGTTTTCGCGCTGTTCTGGCTAACCCAGGAAGCGATCCCCCTGCTACCGAAAGGTGCAAGTATCATCACC +ACTTCGTCAATCCAGGCATACCAGCCAAGTCCGCATTTACTGGACTATGCGGCTACGAAGGCGGCGATTC +TGAACTACAGCCGTGGCTTGGCAAAACAGGTCGCGGAGAAAGGTATTCGGGTGAATATTGTCGCGCCAGG +CCCGATCTGGACAGCACTGCAAATTTCCGGCGGACAAACGCAGGATAAGATCCCGCAGTTTGGTCAGCAA +ACGCCGATGAAACGTGCGGGGCAACCGGCGGAACTGGCCCCTGTATATGTTTATCTGGCAAGTCAGGAGT +CGAGCTACGTCACCGCAGAAGTGCACGGCGTGTGCGGCGGCGAGCATTTAGGTTAAAAAAATGCCCGGTT +GTGAAAAGCAACCGGGCATCATTGTGAATTCACTCTTACCTGATGTGGCGAAAACGCCTTATCCGCCTAC +AAACGCATGAAGATTCAACATGTTGCAATAGATTTTGTAGGCCTGATAAGCGTAGCGCATCAGGCATTGA +GCACCTAATGCCGGATGCGTCGTGAACGCCTTATCCGGCCTACAAACGCACGAAGATTCAACATGTTGCA +ATAGATTTTGTAGGCCTGATGAGCGTAGCGCATCAGGCAATTCTACTTTACTTCGCTTTGGCGGTTTCTT +CGCCGACCAGACCTATCTTCAGGTAACCCGCCTGATGCAGCGTATCCATTACCTTCATCAACGTCTCGTA +ATCGACGGTTTTGTCCGCTCGGAAGAAGATGGTGGTGTCTTTCTTGCCTTCGGTTAACGCATTCAACGCC +GTAATCATTGTTTCATCGGTGACCGGATCGTTACCGATAAACATCGAGTTGTCTGCCTTCACCGACAGAT +AAACCGGTTTTTCCGGGCGCGGCTGCGGCGTGCTGGTAGAAGCAGGCAAGTTCACCTTCACATCTACCGT +CGCTAACGGTGCCGCCACCATAAAGATAATCAGCAGAACCAACATCACGTCGATAAACGGCGTCACGTTG +ATATCATGCATTTCGCCGTTATCGTCGAGGTTTTCGTTAAGATGCATTGCCATCGGATATTATCCTGCGC +GTAATTTTTGTGCGACACGAACCGGATGCGCAGCGGCGCTGGCTTCCAGATCCAGGTCACGGCTTTGCAG +CAACAATACCTGCGCTGCAACATCACCCAGCATCGCTTTAAAGCCGCCAATCTGGCGTGCAAATACGTTA +TAGATAACGACCGCAGGAATCGCTGCCACGAGGCCGATTGCCGTTGCTAACAGAGCTTCTGCGATACCCG +GCGCAACGACTGCCAGGTTAGTGGTCTGCGTTTGCGCGATACCAATAAAGCTGTTCATGATGCCCCAGAC +CGTACCAAACAGACCAACGAACGGAGAAATCGCGCCGATGGTTGCCAGATAGCCGTTACCGCGGCCCATT +TGACGACCCACTGCGGCGACCCGACGCTCCAGACGGAAGCTGGTACGTTCTTTAATACCTTCGTTATCGT +CGCTGCCTTCTGACAGTTCCAGCTCATTCTGCGCTTCATTGAGCAAATGCAGGCTTAAGCTTTTGCTACC +AAAATCAGCGGCGATATCGTTGGCCTGGTTTAAGGAACGCGCTTCAGCCAGCAGTTGCTGCTCGCGCTTA +AGGCGACGCTTCTGATTGAAGAACTCTACGCTCTTACTGAAGAAGATTGCCCAGGTGACTACGGAGGCCA +AAATAAGCCCAATCATCACGCACTTAACGACAATATCGGCGTGCTGATACATACCCCAGACGGAAAGGTC +CGTCTGCATTAAATTATTACCCACTGTGTATCTCCAGGACGCAAGTCACAAAATCTGCGCATAATAATAT +CAAAACGACGTCGAATTGATAGTCGTTCTCATTACTATTTGCATACTGCCGTACCTTTGCTTTCTTTTCC +TTGCGTTTACGCAGTAAAAAAGTCACCAGCACGCCATTTGCGAAAATTTTCTGCTTTATGCCAATTCTTC +AGGATGCGCCCGCGAATATTCATGCTAGTTTAGACATCCAGACGTATAAAAACAGGAATCCCGACATGGC +GGACAAAAAGCTTGATACTCAACTGGTGAATGCAGGACGCAGCAAAAAATACACTCTCGGCGCGGTAAAT +AGCGTGATTCAGCGCGCTTCTTCGCTGGTCTTTGACAGTGTAGAAGCCAAAAAACACGCGACACGTAATC +GCGCCAATGGAGAGTTGTTCTATGGACGGCGCGGAACGTTAACCCATTTCTCCTTACAACAAGCGATGTG +TGAACTGGAAGGTGGCGCAGGCTGCGTGCTATTTCCCTGCGGGGCGGCAGCGGTTGCTAATTCCATTCTT +GCTTTTATCGAACAGGGCGATCATGTGTTGATGACCAACACCGCCTATGAACCGAGTCAGGATTTCTGTA +GCAAAATCCTCAGCAAACTGGGCGTAACGACATCATGGTTTGATCCGCTGATTGGTGCCGATATCGTTAA +GCATCTGCAGCCAAACACTAAAATCGTGTTTCTGGAATCGCCAGGCTCCATCACCATGGAAGTCCACGAC +GTTCCGGCGATTGTTGCCGCCGTACGCAGTGTGGTGCCGGATGCCATCATTATGATCGACAACACCTGGG +CAGCCGGTGTGCTGTTTAAGGCGCTGGATTTTGGCATCGATGTTTCTATTCAAGCCGCCACCAAATATCT +GGTTGGGCATTCAGATGCGATGATTGGCACTGCCGTGTGCAATGCCCGTTGCTGGGAGCAGCTACGGGAA +AATGCCTATCTGATGGGCCAGATGGTCGATGCCGATACCGCCTATATAACCAGCCGTGGCCTGCGCACAT +TAGGTGTGCGTTTGCGTCAACATCATGAAAGCAGTCTGAAAGTGGCTGAATGGCTGGCAGAACATCCGCA +AGTTGCGCGAGTTAACCACCCTGCTCTGCCTGGCAGTAAAGGTCACGAATTCTGGAAACGAGACTTTACA +GGCAGCAGCGGGCTATTTTCCTTTGTGCTTAAGAAAAAACTCAATAATGAAGAGCTGGCGAACTATCTGG +ATAACTTCAGTTTATTCAGCATGGCCTACTCGTGGGGCGGGTATGAATCGTTGATCCTGGCAAATCAACC +AGAACATATCGCCGCCATTCGCCCACAAGGCGAGATCGATTTTAGCGGGACCTTGATTCGCCTGCATATT +GGTCTGGAAGATGTCGACGATCTGATTGCCGATCTGGACGCCGGTTTTGCGCGAATTGTATAACATTGCC +ACTTTTGGACAATTTTGCAGACATTTTATTGTGAAAAGTCTTAAATTGTTGCGTCCGGGATCAAGGCGTC +CCGGACGATTCAGGAGTACAATAGGCAGATAAAGGCTTAAACGCTGTTCCACAGGAAAGTCCATGGCTGT +TATTCAAGATATCATCGCTGCGCTCTGGCAACACGACTTTGCCGCGCTGGCGGATCCTCATATTGTTAGC +GTTGTTTACTTTGTCATGTTTGCCACGCTGTTTTTAGAAAACGGCCTGCTGCCCGCCTCATTTTTGCCAG +GCGACAGCTTGTTGATACTGGCAGGCGCATTGATTGCCCAGGGGGTTATGGATTTTCTGCCTACGATTGC +GATTCTGACCGCCGCAGCAAGTCTGGGCTGCTGGCTAAGTTATATTCAGGGGCGCTGGTTAGGGAATACC +AAAACGGTGAAAGGCTGGCTGGCACAGCTTCCTGCTAAATATCACCAGCGCGCCACCTGCATGTTTGACC +GCCACGGTCTGCTGGCGCTGCTGGCTGGACGTTTTCTTGCATTTGTCCGTACGCTGCTGCCAACCATGGC +GGGAATTTCCGGTCTGCCAAACCGCCGCTTCCAGTTTTTCAACTGGTTAAGTGGATTGCTGTGGGTCAGC +GTGGTAACCAGTTTTGGCTATGCCTTAAGTATGATTCCGTTCGTTAAACGCCATGAAGATCAGGTAATGA +CGTTCCTGATGATCCTGCCAATTGCCTTGTTAACCGCTGGCTTGTTAGGCACGCTGTTTGTGGTGATTAA +AAAAAAATACTGTAACGCCTGACGATTTTCCCCGTTCCCGGTTGCTGTACCGGGAACGTATTTAATTCCC +CTGCATCGCCCGCATTCTTGCCGCATCTTCCCCCGGCGTCACACCGAAGTAACGTTTAAACTCACGGCTA +AATTGCGATGCGCTTTCATAGCCGACGCGCATCGCTGCTGCGCTGGCCTTCATGCCGTCATGGATGATCA +TCATCCGCGCCTTATGCAGACGGTAATTCTTCAAATACTGCAACGGCGAGGTACTGGTGACAGACTTAAA +ATTATGGTGGAACGCCGATACGCTCATGTTGGCTTCTGCCGCCAGTTGCTCGACGCTCAGGTTTTCGGTG +TATTTATTCTCAATCCGTTTCAGCACGCGGCTAATCAGACTGAAGTGAGTCTGGCGACTGACCAGCGCCA +GTAACGCGCCGCCGCAAGGTCCGGTCAGCACGTAGTACAGAATTTCGCGGATGATCTGTTTGCCGAGAAT +ACGCGCATCCAGTGGTCGCTCCATCACGTCGAGTAACCGCTCCGCCGCGCATAAAATCTCTTCTGATAAC +GTGGCGGAGTTAATCCCGCTGGCTGCCATCGACGGCTGGAAATGCTCATCTTCGCCAATGTCCATCAACA +GTTCCTGTAACTGCAAAATATCGACATTGAGACGCAACCCTGCCAGCGGCACCTCTGACGTGGCATAGGT +TTCGCACTCAAACGGCAACGGCACCGTCAGCAGCAGGTATTCATTGGCATCATAACGAAACACGCGTTCA +TTGATATAACCGATTTTATGCCCGGAAAAGAGAATTATGATGCCAGGCTCGTACATCACCGGTGTACGTG +CGAAAGGCGTCTCGCCATACAACAAACGCACATCGGGCAACAGTCCTGACAAACTATTTTCTTTATTTTT +CAGTTTATTAACTTTATCCGCCAGCAAGCGGCAAATCTCTTCACGTTTCATATCGCGTAATTTCTTAGGA +ATAATGCGGCAATTTGATTGTGCGCAATTTTGTAGCATTTCTCCAGCACTCTGGAGAAATAGGCAAGACA +TTGGCAGAAATGAGCATTGAGAGCCAGGGCGCTGGCGATCACAATGAAAAACATCAGGCAGATCGTTCTC +TGCCCTCATATTGGCCCAGCAAAGGGAGCAAGTAATGAACAACTTTAATCTGCACACCCCAACCCGCATT +CTGTTTGGTAAAGGCGCAATCGCTGGTTTACGCGAACAAATTCCTCACGATGCTCGCGTATTGATTACCT +ACGGCGGCGGCAGCGTGAAAAAAACCGGCGTTCTCGATCAAGTTCTGGATGCCCTGAAAGGCATGGACGT +GCTGGAATTTGGCGGTATTGAGCCAAACCCGGCTTATGAAACGCTGATGAACGCCGTGAAACTGGTTCGC +GAACAGAAAGTGACTTTCCTGCTGGCGGTTGGCGGCGGTTCTGTACTGGACGGCACCAAATTTATCGCCG +CAGCGGCTAACTATCCGGAAAATATCGATCCGTGGCACATTCTGCAAACGGGCGGTAAAGAGATTAAAAG +CGCCATCCCGATGGGCTGTGTGCTGACGCTGCCAGCAACCGGTTCAGAATCCAACGCAGGCGCGGTGATC +TCCCGTAAAACCACAGGCGACAAGCAGGCGTTCCATTCTGCCCATGTTCAGCCGGTATTTGCCGTGCTCG +ATCCGGTTTATACCTACACCCTGCCGCCGCGTCAGGTGGCTAACGGCGTAGTGGACGCCTTTGTACACAC +CGTGGAACAGTATGTTACCAAACCGGTTGATGCCAAAATTCAGGACCGTTTCGCAGAAGGCATTTTGCTG +ACGCTAATCGAAGATGGTCCGAAAGCCCTGAAAGAGCCAGAAAACTACGATGTGCGCGCCAACGTCATGT +GGGCGGCGACTCAGGCGCTGAACGGTTTGATTGGCGCTGGCGTACCGCAGGACTGGGCAACGCATATGCT +GGGCCACGAACTGACTGCGATGCACGGTCTGGATCACGCGCAAACACTGGCTATCGTCCTGCCTGCACTG +TGGAATGAAAAACGCGATACCAAGCGCGCTAAGCTGCTGCAATATGCTGAACGCGTCTGGAACATCACTG +AAGGTTCCGATGATGAGCGTATTGACGCCGCGATTGCCGCAACCCGCAATTTCTTTGAGCAATTAGGCGT +GCCGACCCACCTCTCCGACTACGGTCTGGACGGCAGCTCCATCCCGGCTTTGCTGAAAAAACTGGAAGAG +CACGGCATGACCCAACTGGGCGAAAATCATGACATTACGTTGGATGTCAGCCGCCGTATATACGAAGCCG +CCCGCTAAGCTTTTTACGCCTCAAACTTTCGTTTTCGGGCATTTCGTCCAGACTTAAGTTCACAACACCT +CACCGGAGCCTGCTCCGGTGAGTTCATATAAAGGAGGAACGTATGGCTAATCCAACCGTTATTAAGCTAC +AGGATGGCAATGTCATGCCCCAGCTGGGACTGGGCGTCTGGCAAGCAAGTAATGAGGAAGTAATCACCGC +CATTCAAAAAGCGTTAGAAGTGGGTTATCGCTCGATTGATACCGCCGCGGCCTACAAGAACGAAGAAGGT +GTCGGCAAAGCCCTGAAAAATGCCTCAGTCAACAGAGAAGAACTGTTCATCACCACTAAGCTGTGGAACG +ACGACCACAAGCGCCCCCGCGAAGCCCTGCTCGACAGCCTGAAAAAACTCCAGCTTGATTATATCGACCT +CTACTTAATGCACTGGCCCGTTCCCGCTATCGACCATTATGTCGAAGCATGGAAAGGCATGATCGAATTG +CAAAAAGAGGGATTAATCAAAAGCATCGGCGTGTGCAACTTCCAGATCCATCACCTGCAACGCCTGATTG +ATGAAACTGGCGTGACGCCTGTGATAAACCAGATCGAACTTCATCCGCTGATGCAACAACGCCAGCTACA +CGCCTGGAACGCGACACACAAAATCCAGACCGAATCCTGGAGCCCATTAGCGCAAGGAGGGAAAGGCGTT +TTCGATCAGAAAGTCATTCGCGATCTGGCAGATAAATACGGCAAAACCCCGGCGCAGATTGTTATCCGCT +GGCATCTGGATAGCGGCCTGGTGGTGATCCCGAAATCGGTCACACCTTCACGTATTGCCGAAAACTTTGA +TGTCTGGGATTTCCGTCTCGACAAAGACGAACTCGGCGAAATTGCAAAACTCGATCAGGGCAAGCGTCTC +GGTCCCGATCCTGACCAGTTCGGCGGCTAACATGCAAATTCTCCCGGTGGCGGTAATGTTCCGCTACCGG +ACTTTTCAGAAATCATTTATTCCCCTCGCGTCCCGCCCGTTGTTACTCTTCCTTGTTCAGGAATGCCAAA +TATAAGGACATCATCATGCAGAGCCGGAAGCTCTTAAAAGAACAACTCATCTATATCCGGGATAAACGCA +ACGGAGAGGTGAAAAACAGATGAAAATAATACTTCTGTTTTTAGCAGCCCTGGCAAGTTTTACCGTACAC +GCACAGCCCCCCTCACAGACCGTAGAACAAACAGTCCGGCATATTTATCAGAACTATAAATCAGATGCCA +CTGCCCCTTATTTTGGTGAAACCGGAGAGCGGGCGATAACTTCTGCGCGTATTCAACAGGCGCTTACCCT +GAACGACAATCTTACGCTGCCGGGCAATATTGGCTGGCTGGATTATGATCCGGTTTGTGATTGTCAGGAT +TTTGGCGATCTGGTGCTAGAAAGCGTTGCGATAACCCAAACTGACGCCGATCATGCCGATGCCGTTGTGC +GCTTTCGTATCTTTAAAGATGATAAAGAAAAGACCACGCAGACACTGAAAATGGTGGCGGAAAATGGTCG +TTGGGTCATTGACGATATTGTCAGCAATCATGGCAGCGTCTTACAAGCAGTTAATAGCGAGAATGAAAAA +ACGCTGGCCGCTTTAGCTTCGTTGCAAAAAGAACAGCCGGAAGCCTTTGTTGCCGAACTCTTTGAACATA +TTGCTGATTATAGCTGGCCGTGGACGTGGGTGGTTTCCGACTCTTACCGCCAGGCGGTTAATGCCTTCTA +TAAAACCACCTTCAAGACGGCCAATAATCCCGATGAAGATATGCAAATAGAACGGCAATTTATTTACGAC +AATCCGATCTGTTTTGGCGAAGAGTCGCTATTTTCACGCGTTGATGAAATTCGAGTCCTGGAGAAAACCG +CCGATTCCGCCCGCATTCATGTTCGTTTTACGCTGACCAATGGCAACAACGAAGAGCAAGAACTGGTTTT +ACAGCGGCGCGAAGGCAAGTGGGAAATCGCTGATTTTATCCGCCCGAACAGCGGCAGCCTACTTAAGCAG +ATTGAGGCAAAAACTGCCGCCAGATTAAAGCAATGAGCTGAATTAAATAACAATTAGCCGGAACAATAAA +TAAAAGGGAACACTATATGAAAACGATTTTCACCGTGGGAGCTGTTGTTCTGGCAACCTGCTTGCTCAGT +GGCTGCGTCAATGAGCAAAAGGTCAATCAGCTGGCGAGCAATGTGCAAACATTAAATGCCAAAATCGCCC +GGCTTGAGCAGGATATGAAAGCACTACGCCCACAAATCTATGCTGCCAAATCCGAAGCTAACAGAGCCAA +TACGCGTCTTGATGCTCAGGACTATTTTGATTGCCTGCGCTGCTTGCGTATGTACGCAGAATGATAAAAA +AATCCCCGGTAGCGTGTCAGTTGCCGGGGATATTTTTTAACGTCCAACCGCCGCTTTAGGCCGTTTCTTC +GCACCAGCATTCACCGGACGAGATTGCGTAGACGACGCTTTTTTTGCCGTAGCAGGCGTCTGACGCTGGG +TCGCCATCGGCGTATGTTTCGTCAACGCCGGACGGGTATTGCGGTTCTGGCGACGAGCTTCACGCATCTC +TTCAATGGTTGGCGCAGGCACTAAGCAATCGCGACGGCTGCCAATCAGATGCTTTTTGCCCATCGCTTCC +AGCGCCTGGCGGATTAACGGCCAGTTTGCCGGATCGTGGTAACGCAACAACGCTTTATGCAAACGACGCT +GTTTGTCGCCCTTCGGTACGAAGACGTCTTCGCTCTTATAACCAATCTTCGCCAGCGGGTTTTTCCCGGT +GTAATACATGGTGGTTGAGTTCGCCAGCGGCGACGGATAGAAGTTCTGCACCTGGTCGAGGCGGAAGCGG +TGCTTTTTCAGCCACAGCGCCAGATTCACCATATCTTCATCACGCGTACCGGGGTGCGCGGAGATGAAAT +AGGGGATCAGATACTGCTCTTTACCTGCCTGTTTTGAGTAAGTATCGAACAGCTCTTTAAAGCGGTCATA +GCTGCCCATGCCCGGCTTCATCATCTTCGATAACGGCCCTTCTTCGGTATGTTCCGGGGCAATCTTCAGA +TAACCGCCGACGTGATGGGTCGCCAGTTCTTTGATATAGCGCGGATCTTCTACGGCTATGTCATAACGCA +CACCAGAGGCAATCAGGATCTTTTTAATGCCTTTCAGATCACGCGCACGGCGATAGAGGTTGATCGTTGG +TTCGTGGTTCGTGTCCATGTGCGGACAAATATCCGGATAAACGCACGACAAACGGCGACAAGTTTGTTCA +GCGCGTGGCGATTTGCAGCGCAACATATACATGTTGGCAGTTGGCCCACCAAGATCGGAAATCACGCCCG +TAAAACCTGGAACGGTGTCGCGGATCGCTTCGATCTCATTAATGATCGAATCTTCGGAACGGCTCTGAAT +AATGCGCCCTTCGTGCTCGGTGATAGAACAGAAAGAGCAGCCGCCAAAGCAGCCACGCATAATGTTGACC +GAAAAACGGATCATTTCGTAAGCCGGAATACGGGCATTGCCATAGGCCGGATGTGGCACGCGCTTGTATG +GCAGCGCAAAAACGCTGTCCATCTCTTCGGTAGAAAGCGGAATAGCAGGCGGGTTGATCCACACATAGCG +GTCGCCGTGTTTTTGCATCAATGCGCGGGCACAGCCTGGGTTGGTTTCGTGGTGCAGAATACGCGAAGCA +TGGGCGTACAGCACTTTATCGCCCTTCACTTTCTCGAAAGAAGGCAGCAACACGTAGGTTTTTTCCCACG +GTTTCGGGCGCGGTGGCTGCACGGTTACGGCTTTGGCTTCCTGCTTTTTCGGTGCCACCGGTTTGTTATC +CGCGCACGGCAAATCTTCACCATACGGATGCGGGATTGGGTCGATTTTTCCAGGGGTATCAAGACGGGTG +GAATCCACGCCGCTCCAGCCAGGCAGCGCCTCTTTCACGATAATCGCGGTATTACGCACATCGCGGATTT +CACTAATTGGCTCGCCCATCGCCAGACGATGCGCCACTTCCACCAGCGGACGCTCACCGTTACCAAACAT +CAGCATGTCGGCTTTCGAATCCACCAGCACGGAACGGCGCACGGTATCGGACCAGTAATCATAATGCGCG +GTACGGCGCAGACTAGCCTCAATACCGCCGAGGATCACCGGTACATCTTTCCACGCCTCTTTACAACGCT +GGGTATAAACCAGTGTGGCGCGATCCGGGCGCTTACCCGCGACGTTATCCGGCGTGTAGGCATCGTCATG +ACGTAAACGGCGATCGGCGGTATAACGGTTGATCATCGAATCCATGTTGCCAGCAGTAACACCGAAAAAC +AGATTCGGTTTACCCAGACGCATAAAGTCGTCTTTGCTGCTCCAGTCCGGCTGGGCGATGATCCCGACGC +GAAAGCCCTGCGCTTCCAGCATACGACCGCAAATCGCCATCCCGAAGCTTGGGTGATCGACATACGCGTC +GCCAGTAACCAAAATGATGTCGCAGCTATCCCAGCCAAGTTGATCCATCTCTTCACGAGACATCGGCAAA +AACGGTGCCGGTCCAAAACAGGCGGCCCAGTACTGCGGCCAGGAGAACAGGTCGCGATCCGGTTGGATCA +GGGAGATAGAGCTCATTTTGCTTCCAGAAATGATAAAAAAATAATCAAAGGCCGGGGATTATAAGCCGGA +ACGAAAGAGAAATCGAAAGGTATTCCATACTCGCCCTCCTCGGGCGAGTATGAAGATTACGGTACCGGAT +TGACCAACAGTTGCCCAATCGAGCCACGGTCCGCCATTTCCAGCGTCTGACTGTTGAAGTAGAACGGGAA +GTGCGCCCAGGAAGGCTGACCGAAATAAACAAGCAGCTCCACTTGTCCGTCAACCCAAACGGTATCTTTC +CAGCCTCTGTCTTCCGGGAACGGCATCGCGCCATTCACGTTACGGATCTGGAACATTACGCCTTCAATAT +GGAACGCTTGCGGCTCGTCCGCGCGTACCGTCCAGCGTTCCCACGTTCCTTGCTGCGCGGTGACATCAAT +ACGGTTGACGTCCCACAGCTGTCCATTAATACCCGGGTCATCACCCAGACTGATATCGCGACTGCGAATT +GGCGAACCAGCCATGATTTCAGTTGGCAGCAAGCGCATCGGAAGACTGTCTGTGACCAGCGGCAGAAGGC +CGGTTGGGCGCAGCGTTAGCACCAGGGTAGAAACCAGAATACTGGATGGCTCAAAGAAGCCACGAATACG +ATCAACAATGCTCGCCGCTTCGCCACAGGTGATCGACACTTCATCGCCGTTGCTCATATCCACCAGAATC +TCGCGGCGCTCGCCCGGTGCCAGCGAAAGTTGCTTCACCGATACAGGAGCAGGCAGGAATCCCTGATCGC +CAGAAATCACATGTAACGGGCGACCATCGTTCATCTGTAGTTGATAGCGACGAGAGTTCGACGCGTTCAG +CAGTCGCAAGCGCACCCAGCCACGCGAGACTTCAACGTACGGGCTTTGTACACCGTTAACCAGCAGCGTA +TCACCAACAAAGCCGCCGCTTCCCGGTTCGTTGTATTCTGGCGTACCAAAGTTATCCAGCCGTTTATCCT +GGATAATGACCGGAAAATCATCCACACCATAATGGTTGGGGATAGGCAGCGACTTGCTGACTTCATCTTC +CACCAGCCACATTCCGGCAAGGCCGTTATAGACCTGCTGAGCCGTGCGGTTGGGAGTATTGGCGTGATAC +CACAGAGTAGCTGCGTTCTGGCGAATGGGCAGTACGGGTGCCCAGTCAGCGTTTGGCGACATCATCCGTG +CCGGACCGCCCATCAGCGGGCCTGGTACCTGTAGCCCGGCCACCGTCATTGAGACATTTTCTGTCAGGCG +GTTGCTGTAAATAAGCTTAACATCGTCGCCCTTCCAGACGCGGATAGTCGGCCCCAGGTAACGACCATTG +ATTCCCCAGACCGACGCGCGTGTCCCTGGCGTAAATGACCAGTGCGCACGTTGTACAGTCATAAACAGCG +GTTGCCCACGGCGAGATTCAAGTAGCGGCGGAACGGGTAGCGGTTGCTGTTGCCCGGCTGCGCTGGCCTT +CAGGGGAACAGCGCCTGCACAAAGTGCAATCCCCGATGCCTGAATGAACTGACGCCGACTGAGTGACATA +TTTGCTCCATGTAAAACTGGCTAAAGTAATACCGTGCAGGAAAGTGTTCCCCGCAAAAATACAGATTGCC +GACTTAAACTTTTCCGGCGGCTTCGCGTTCTGCGACTTCTTTATCGAGCTCGGCGATTTTTTGTTCCATT +ATCGAACGACAATGGGCAGCCAGCTCACGAACCTGATCTTTGCCATACTGACTGACGTCAATTGGCGGCA +GCATTTCGACAATCACCAGACCGTTGTGCAGTCGATTAAGATTAATCTTATTCGAAGTTGTAGAGACGCA +CACGGGAATAATCGGGACGCCCGCCGCAATTGCCGCGTGAAATGCTCCAGTCTTGAACGGTAGCAGGCCG +CGACCACGGCTGCGGGTTCCTTCCGGGAACATCCAGATGGAAATACGGCGTTTTTTGAAGTGATTCACTA +CTTCCGCAATGGTGCCGTGAGCTTTAGTGCGATTGTTTCTGTCGATCAATAAGTTGCCGGTTAACCAGTA +CAACTGCCCGAAGAAGGGGATCCACAGCAAGCTCTTTTTACCTACCGTCACCGTCGGCGGTTGCACGATG +TTCGATGCTGTCACCATGTCATAGTTGTTCTGGTGGTTAGCGATATAGATAGCATTGCCGTAGCTTTCAG +CGTCTGTAGGTTTACGGCACTCAACTTTCAGGCCAAACAGCGGCGCAAGACGGCCAAACATATGCCCAAA +GGTGGCCACATGTTTCGGGTTACGCGGGCTGAAAAGGCAGTAAATGGAGCCGAATACACAGACTAAGATG +CTGTAAATCACGGTAATAATAAGACGAAAGATATATAGCATAACACCCTCTGAAGGTCTGAGAGACTGGC +ATTGTACGTCACCTGAAATCAGGTTAGGGCATTGTTAAAAGCCGCTCTCTGGAAAAGCGTATTGTTAATC +GCAACGCATGAATAAACAACGGTTTCAAGGGAATTTTTATCGTTTCCGGGGGTTGAATACGCTGCCGGAT +GACGACTTAACGTTTCATCCGGCGTTCCTTGCAAGCGGGAGGAAACAGCGCCCTCCCCGGCATATTACTC +TTCGCTATCACCGCTGCTGGCACGGCGAGGAGAGTCGATCTCAACACGATCGATACGCTGCAAACCGCGC +ATCAACGTACCGCGGCGTCCACGTTCGCCAGTGACTTTCTGTAACTCTTCCGGGCGCAGTTTAATTTTGC +GTTTCCCAACATGAATGGTCAGCGTGCTTTGCGGCGGCAGAACGTACAATTGCGCCAGACCATCTTCTCC +ACGCGCGGCTTCTGCCGATGGAATGTTGATAATCTTGTTGCCTTTGCCCTTCGACAGCTGCGGCAGATCA +CTTACCGGGAACATCAACATACGGCCTGCCTGAGTGATTGCCAGCAGCATATCGGAAGCATCTTCAATCA +CCACCGGCGGCATAACATGGGCATTTTCCGGTAAGGTGATCAAAGCCTTACCTGCACGGTTACGCGCCAC +CAGATCGTTAAAGGTGCAGACGAAACCGTAACCCGCATCGGAAGCCATCAGCAGTTTCTGATCGTCGCTT +TCCATCAGCATATGGTCAACGGTCGCCCCAGGCGGCAACGTTAATTTGCCGGTGAGCGGCTCGCCCTGAC +CACGCGCCGACGGCAGCGTAATCGGGTCAATGGCATAGCTACGACCGGTGGAATCAACAAACACTACCGG +TTGGTTGCTCTTACCTTTCACCGCCGCTTTGAAGCTATCACCCGCTTTATAATTCAGGCCCGGCGCGTCG +ATATCATGGCCTTTAGCGCTGCGTACCCAGCCCATCTGCGACAGCACAATGGTGACAGGTTCAGACGGCA +GCATGTCGTGCTCGCTCATCGCTTTCGCTTCTTCGCGTTCCTGCAACGGCGAACGACGATCGTCACCGTA +GGCTTGCGCGTCTGCCTGCAGTTCTTTCTTCAGCAGGTTATTCATTTTACGCTCGGAAGCCAAAATGCCC +TGCAACTGGTCGCGCTCTTTTTCCAGTTCACTCTGCTCACCGCGAATCTTCATCTCTTCCAGTTTGGCAA +GATGACGCAGTTTCAGTTCGAGGATCGCTTCCGCCTGGGTTTCCGTAAGGCCAAACCGCGACATCAGCGC +CGGTTTCGGTTCATCTTCATTACGAATGATCTCAATCACTTCGTCGATATTGAGAAACGCCACCAGCAAA +CCTTCGAGGATATGCAGGCGCTTGAGGACTTTCTCCAGACGATAGTTCAGTCGGCGGCGCACGGTATCGC +GGCGGAACACCAGCCATTCGGAGAGGATTTCCAGCAGGTTTTTCACCGCCGGACGACCATCCAGACCGAT +CATATTAAGGTTAATACGATAGCTCTTTTCCAGATCGGTGGTAGCGAAGAGGTGGTTCATCACCTGATCC +ATATCCACGCGGTTGGAACGCGGCACAATCACCAGGCGGGTCGGGTTCTCGTGGTCAGATTCATCGCGCA +GATCGTCAACCATCGGCAGCTTTTTGTTGCGCATTTGCGCAGCAATTTGCTCCAGTACGCGCGCACCTGA +AACCTGATGCGGCAATGCGCTGATAACCACCGCGCCATCTTCTTTCTTCCACACCGCGCGCATACGCACT +GAACCACGTCCGTTCTCGTAGATTTTACGGATCTCGGCGCGCGAAGTGATAATTTCCGCTTCAGTCGGAT +AATCCGGCCCCTGCACGATATCCAGCAGCTGATCGAGCGTGGTTTTCGGCTGGTCGATTAATGCGATTGC +CGCCTGAGCCACTTCACGCAGGTTATGCGGTGGAATATCGGTCGCCATGCCGACGGCAATACCGGTGGTG +CCGTTAAGCAAAATGTTTGGCAGACGGGCAGGTAGCATTTTCGGCTCCTGCAAAGTGCCGTCGAAGTTTG +GCACCCAGTCAGCCGTCCCCTGCCCCAGCTCGCTCAATAGCAGCTCGGAATATTTCGACAACCGGGATTC +GGTGTAACGCATTGCCGCGAACGATTTCGGATCGTCCGGCGCGCCCCAGTTCCCCTGACCATCAACCAGC +GGATAACGGTAAGAGAACGGTTGCGCCATCAGGACCATCGCTTCATAACAGGCGCTATCGCCGTGCGGAT +GGTATTTACCCAGTACGTCACCGACGGTACGGGCCGATTTTTTAAATTTGGCGCTGGCATTCAGGCCCAG +TTCAGACATCGCATACACAATGCGGCGCTGAACAGGTTTCAGACCATCACCAATAAACGGCAACGCACGG +TCCATGATCACGTACATGGAGTAGTTTAAGTAGGCGTTTTCCGTAAATTCATGTAGCGCAAGGCGCTCTG +CCATATCGCTCATTAATTCTGATTCCTCAACTTATTCGCCAGCCTTCAAAGGGGCAATATTGCCGGAGAT +ACTACATTATCTGCCGCGTCGAGTCACAGGAGATCAACGTGAATAGCGCCGCCGGACGTGCTCCGACGGC +GATAAAGGCATCAATGTGCCTTGATATACAACTCTTTGCTGTAGACATAATCCTGGGGATTATGCAGCGG +AAAACCGCCAACGTAGGGTTTAAGCAGTTTGATTAACGGCTGATAGTAGATAGGAATCAGCGGTGCCTGT +TGGTTGATGATCACTTCTGCCTGCTGATACAACGCATTACGCTTTGTCGCATCAGTGATCTGCGTGGCCT +GGTTTAGTAAGGCGTCATACTGCGCATTTTTCCAGTGACCGACGTTTTCTTCACTATCGCTTTTGAGCGT +GTTCAGGAAGCTGGAAGCATCATTGTACGTCGCATCCCACGACTGCCGAGACAGCATGAAATCACCGGCT +CGTCGGGCATCAAGATAGGTTTTCCACTCCATTGTGCGCAGCGTCACCTGTGCACCCAGCCATTTTTTCC +ATTCGGAAGACAACGCTATCGCGGTCTTTTCATGCAGATCGTACTTGTTGTAGAACAGCTCAAAGCGTAG +CGGATGAGAGGCGTCGTATCCCGCCTGTTTCAGCAAGGCTTTTGCCATCGCGACGCGCTCACTCATTGGC +TTTTGCAGTTCATCGAACGTCGTCGCGCTAAAGCCTTTTACCTCTGGCGGCGTCAGCGTGGTTGCGGGCG +TTCTCAACCCCAGTACCTTTTGCGCAATAAGCTGTCGATCAACCGTAAGATATAGCGCCCGACGCACTCG +CACATCGTTAAATGGCGGTTTCTCAAGGTTGAAGTTGTAATATTCGCTGTTCAGACGCGGAATAATTCGT +AGCTCGCCAGGCAGTGATTTTTCAATGGCGGGAATTTGCTGCGCCGGAACCCAGGTGAGATCGACCTCTC +CCGCGCGATAGCGGTTATAGCCGGTGACCGAATTATCTAGCGCCAGATACTCAACCTGTTGCAATACTGT +ATGTTGCGCATCGCGGTACTTTGGATTTTTGCGTGCAGTAATCTTTTCGTTAACTACCCACTGATCAAGC +ACAAAGGCACCGTTGTAAACCATGTTCTCTGGCTTACTCCAGCTATCGCCATGTTTAGCGATGACATGAT +GAGGAACCGGGAACAGCGTCGGCCAGGCGAGCATCGTCGTGAACCAAGGAACCGGCTGCTCAAGCGTAAC +TTCAAGAGTACGATCATCCGTCGCTTTGACACCCAGCGATGTAACATCTGCTTTACCCGCAACAATAGCT +GCGGCATTGTTAATGTGCGCCTGTGCCAGATAGCCAGCAAAAGGGCTTGCCGTTTTCGGGTCAACCGCGC +GCTGCCAGCCGAGGACAAAATCCTCTGCCGTCAGAGGCTGACCGTCGGACCACTGCAAACCGCTACGCAG +ATGGAAAATATAGCGCTTGCCGCCGTCCAGTATCTCCCAGCGTTCAGCCTGAGCGGGCTGCACCTGGCCT +TCACCGTCCATCCATACCAGACCTTCAAACAGATCCAGCACAATCTGCGCGGCAGTATTCTCCTCCACCT +TTTGCGGGTCGAGCGTACCTGGGTCGCTATGATTGTTGTAACGAAAGACTTGTTGCGGGGCGAGCGGTGT +GTTGGCGGGAACGTCAGCAGCGTAGAGAGGAGCCGCACTTACCAGGCTGACCAGCCATAATAAATTTCGC +GTATACATGGTATTCCTTACCGGAGAAATTATAAGCCCAACAACAATACGCCTGTGGCATTGTTCGCTCA +AACTTATCGCGAGTGATTTGGCTCACACTCCGGTAAAGAAAAAAGCGAGTTGCCCCCGCTTTTCCATTAA +TTAACGGATTTCATTCAATAGTTCTGGATGCTTATCCAGAACACGTAAAAGTTTGATTGTGGAAGGATGA +GGTTGGGCATTGCCTTTTTCGTAACGCGAAAACGCATTTACACCTCCCCCAAAAATTTCGCTTGCCTCTT +TTTGGGTAAGAGAGAGCTTTTTTCGAACCTTCACTATAAATTCAGGTGCCACTGTTTCGGCATTCACCGA +AGCCCGAAATGCCTTTACTTGCGCCATGAAAGCATCTGACTCTTCTTTATTCATGATGCTCTCTTCGCAA +TGGACACAATATAAACCGTGGATACCTTTCAATACTGTTTTTCGTCCACGGAAGGTGTATGGAATATCTT +TAATGCCAGAAACCATTTCTCCCTGGTGGCAAACCGGACATTTCATATTACTTCTCCTTAAACGAGACGA +TCAGTACGTCATGAATTACCGTAATTTTAAGATAAACCTGGCCTGTAACAAGCCTGGGTCTGTAAACATC +CTGCCAGATAGTATGATCAGAGTAGGTGGTCATGCTTTTATAAAAGTCGCTCTCTGATAATCCAATGATA +ACATTACACATACCATCAAAATCCAAACCTAACTCATCTGCATTTAACAGGGCACTACGTGTTGTACGAA +CTTGCCCGGCATTGACAAGTTTTTTAACCTGACTCAAACGTGTATGTGGTGTGCGTTTTTCCATAACCCC +CGCCTCCCTGTTACTTTAGTTATAACCTAAAAGGTTAATTACAGCAATGAAAAAGCACCTAAAAGGTTAG +TTAGATGTACGGAGATAGTGACCACACAAAACGTATTCTTTAAGGAAAGTGATTGACCATATAAGAAAGT +GGCGCATTAGTAGCGCCAGTTTGAAGCAGGAATTTATAAGGGAAGCTGGAGTCAGGCATCACGCCAACGG +CACATAAACATCCGTTTCCAGTCGCTGCTCTGTCACCCCTTCGGCAAGATTGGTGTAGTGAAACAGAATC +GGTGCTTTACGCATTTTCTCGCCGCTTGCAGGCAGCCAGTGGCGAATGATGCCCCATACCGTGTGTGAAA +TATCGTCCAGCTCGCCAACGTGGCGGGCCACGGCATAACGTCCACCGGTAAGTTCACCATTGCTCACACC +ATAACGATTATCGGGAATCGGTTCGCTAACGCTGCCGCAGATATCAAAGCGAAACGCTTCCGGTGCGGTG +GTGGCAGGGTCGTCCCAGGCGACGCCAAAAGTCTGGCTTTGGTTAACAGGAGAAAGCCCCGTCTCTTTAC +GCCACATGATAAATTTCGCCACGCTGTAGTTGAGCAATTCAGGGCTACAGCGGTGCGGCAACATCGCCAC +AGGTATTGATGGGAAATCGATAATGTTTACATCCAGTGTCAGGTTTGTCATTTTGCCTCCCTGCGAAATT +ATTCCCGGGAACGCGTCCCGGGAGCGGTAACAATTACGGATTTACTTTGCGGATCTGTTTGACGTCAATT +TCAACAGAATTCCAGTCTTTATCGACTTCACCCTGAATCTCAACCGTATCTTTCGGCGTCACCGTCACGC +CGTTCCAGCGTTTGTGGTCGATATCAACATTGATAGTACCGCTGGCATCTTTGAACACGTAGAGATCGTC +AGAGATGCGTTCAACGATATTGCCGCGCAGGGTTACCCAGGTGTCGTCACGCAGGGATTTTGCGCTTTCT +ACAGTCGTTACGCTGCCGTTCGGCCCCTGGAATCCTCCGGCCTGACTTTGCGTTGCCGATGGGCCAGAAA +AACCGCCCTGCTCTGCTGCCATCACCGGTGCGCTGCACAGGGCCATTACTGCGATTACTGCTGCGAATTT +TTTCATGTTTATTACTCCCTTTAATGTCTGTTTCCGAGCATTTAACAAGATAGTCCTTAACAACTTCTTA +AGGGAAAAAAATAAAATTTAGTGCTGTACAGAGCGCGTTACAACACGGTTTACTGGCAGCAAATACGGTT +ATCGCAGGGATGAAAAAATGCGAATTTTACTGATAGAAGATGACATGCTGATTGGCGACGGCATCAAAAC +GGGCCTTAGTAAAATGGGTTTTAGCGTCGACTGGTTTACACAAGGTCGTCAGGGAAAAGAGGCGCTTTAT +AGCGCACCTTATGATGCGGTGATCCTGGATTTAACCTTACCAGGCATGGATGGTCGCGATATTTTGCGCG +AATGGCGAGAAAAAGGTCAGCGTGAGCCGGTACTGATCCTGACCGCGCGCGATGCGCTGGCGGAACGTGT +AGAAGGGCTGCGTCTGGGAGCTGACGATTATCTGTGTAAACCTTTTGCGTTGATAGAAGTCGCCGCCAGG +CTGGAAGCTCTGATGCGCCGAACCAACGGCCAGGCCAGCAACGAGCTGCGCCACGGTAACGTCATGCTCG +ACCCCGGCAAACGTATCGCCACGCTGGCTGGCGAACCCTTAACACTGAAACCAAAAGAATTTGCCCTGCT +GGAATTACTGATGCGTAACGCTGGTCGGGTACTGTCGCGCAAACTGATTGAAGAGAAACTGTATACCTGG +GACGAAGAGGTCACCAGTAATGCCGTTGAAGTGCATGTGCATCATCTGCGACGCAAACTCGGTAGTGATT +TTATTCGTACCGTGCATGGTATTGGTTACACATTAGGTGAGAAATGAAATTTACCCAACGTCTTAGTCTG +CGCGTCAGGCTGACGCTAATCTTTTTAATTCTGGCCTCGGTGACCTGGCTGCTTTCCAGCTTTGTCGCCT +GGAAACAAACAACGGATAACGTCGATGAATTGTTCGACACCCAACTGATGCTGTTTGCCAAGCGGTTAAG +TACGCTCGATCTCAACGAAATCAACGCGGCGGATCGCATGGCACAGACGCCAAATAGATTAAAACACGGT +CATGTTGATGACGATGCGCTGACCTTTGCCATCTTTACCCACGACGGCAGAATGGTCCTTAATGATGGCG +ATAACGGAGAAGATATTCCCTATAGCTATCAACGGGAAGGTTTTGCTGACGGGCAACTGGTCGGTGAAGA +CGATCCTTGGCGTTTTGTCTGGATGACCTCACCTGATGGCAAATATCGCATCGTTGTTGGCCAGGAATGG +GAATACCGTGAAGACATGGCGCTGGCGATTGTTGCCGGGCAATTGATCCCGTGGCTGGTCGCACTGCCGA +TTATGTTAATCATCATGATGGTACTACTGGGTCGTGAACTCGCGCCGCTGAACAAACTGGCGCTGGCACT +ACGTATGCGTGACCCTGACTCGGAAAAACCACTAAACGCGACTGGCGTACCCAGCGAAGTGCGGCCACTG +GTTGAGTCGCTAAATCAACTGTTCGCCCGCACACATGCGATGATGGTTCGTGAACGACGCTTTACCTCCG +ACGCAGCTCACGAACTTCGTAGCCCGTTAACGGCGCTGAAAGTGCAAACCGAAGTTGCGCAGCTCTCTGA +CGATGATCCGCAGGCGCGGAAAAAAGCACTGCTCCAATTACATTCCGGGATCGATCGCGCTACTCGTCTG +GTTGATCAACTGCTCACGCTATCGCGGCTGGACTCACTGGATAACCTTCAGGACGTCGCGGAGATCCCGC +TTGAAGATCTCCTGCAATCGTCGGTGATGGATATTTACCACACGGCGCAGCAGGCGAAAATTGACGTGCG +ACTGACACTCAATGCCCACAGCATCAAACGCACCGGGCAACCGCTATTGCTAAGTTTGTTGGTGCGAAAT +TTGCTGGATAACGCCGTGCGCTACAGTCCACAGGGCAGCGTGGTAGACGTCACGCTGAATGCTGATAATT +TCATCGTGAGGGATAACGGCCCCGGTGTGACACCAGAGGCACTGGCGCGAATTGGCGAACGCTTCTATCG +CCCACCCGGACAAACCGCTACCGGCAGCGGGCTTGGGCTATCGATTGTCCAGCGAATCGCCAAATTGCAT +GGCATGAATGTTGAATTTGGGAATGCGGAACAAGGTGGATTTGAGGCGAAGGTAAGCTGGTAACTTCTCT +GTCTATGAGAGCCGTTAAAACGACTCTCATAGATTTTACTAATAGCAAAATATAAACCGTCCCCAAAAAA +GCCACCAACCACAAACCAGACAAATACCGAGCGAGAATACATATACCCAAAACTCGAACATTTCCCGCAT +AAAGAGTTTTCTTAAGATAAGAATAATAAGTGGCGTAAGAAGAAAAAATGCTGCAATCATTGCTTGCAAT +ATACGATCTTCGCCTGAAACGGAAGGTATACTGCAAATATTTCCTCCCGACTCAAGCATCCAGTCATACT +TATTGAAAGCAAAAAAAGAATCTATTAACCAATAAGTAAGCATTATATATAGCAATGCTTCAAATATTGT +TTTAATTTTCTGCTTTAACATATATCAGTACGCTCATAAAAATCCATTTATAATTATCAACATGACACGT +TGATACTTTCATCTTTTACTTATTCAAAGCCATATTTTCAATCCCCAAAAAAACCGAACCAAACGTGTAA +ATTATTCCGGTGCGAGTAAGAATTATGAGGAATGGCTATCAGTATTGTCATTTTCAGAAAATATTTATCC +TGCATCGGTGAGTCAGAGTAAGATCAGACTTTTGCTAAATTCGCAAAAGACTTTGCACATTTTGCTAATT +TCACCGTACCGCTCTGTGACGTACTATAGTCGGCAAACGTCTCACCTTGAGGTTAAAAAATGAGCAACAT +CCTGATTATCAACGGCGCGAAAAAATTCGCCCACTCCAATGGTCAACTGAACGACACCCTGACCGAAGTC +GCGGATGGCACACTGCGCGACCTTGGGCATGATGTCCGCATCGTTCGCGCCGACAGCGACTACGATGTCA +AAGCGGAAGTACAAAACTTTCTCTGGGCTGATGTGGTGATCTGGCAGATGCCAGGCTGGTGGATGGGCGC +GCCGTGGACAGTGAAAAAATACATTGATGATGTATTCACCGAAGGTCACGGGACGCTGTATGCCAGCGAT +GGTCGTACCCGCAAAGATCCGTCGAAAAAATACGGTTCCGGCGGCCTGGTACAGGGCAAAAAATATATGC +TTTCTCTGACCTGGAACGCACCAATGGAAGCCTTCACCGAAAAAGATCAGTTCTTCCACGGCGTTGGCGT +TGACGGTGTGTATCTGCCGTTCCATAAAGCAAACCAATTCCTCGGTATGGAACCGCTGCCGACATTTATC +GCTAATGACGTGATAAAAATGCCTGATGTTCCCCGCTATACTGAAGAATATCGCAAGCATCTTGTGGAAA +TTTTTGGTTAACTAGAGCTCAGGCTTTAGAAGGAGTTAACCATGCTTACCGTAATCGCAGAAATCCGTAC +TCGTCCTGGTCAACATCACCGTCAGGCGGTATTGGATCAGTTTGCTAAAATCGTTCCAACCGTACTGAAA +GAAGAAGGTTGCCACGGCTATGCGCCAATGGTGGATTGCGCAGCTGGCGTGAGTTTCCAGTCTATGGCAC +CGGATTCTATCGTGATGATTGAGCAGTGGGAAAGCATCGCGCATCTTGAAGCGCATCTGCAAACCCCGCA +CATGAAGGCGTATAGCGAAGCCGTAAAAGGTGACGTGCTGGAGATGAATATCCGTATTCTGCAGCCAGGG +ATTTAATCCTGCCTTGTTTGCCCGGCCATCCTGACCGGGCAATGTTCTTTCCTTTAAACCTCAATCTCCG +CCATGTCGCCTTTCTCTTGCAACCAGTTGCGGCGATCTTCCGAGCGTTTCTTCGCCAGCAGCATATCCAT +CATCGCGTCAGTACGCTGATCGTCTTCATCATCGATAGTCAACTGCACCAGACGGCGAGTGTTCGGATCA +AGCGTGGTTTCGCGCAATTGCATCGGGTTCATTTCCCCCAGACCTTTAAAACGCTGGACGTTCGGCTTGC +CTTTCTTGCGTTTTAATTGCTCAAGTACGCCCTCTTTCTCTTCTTCCGTCAGCGCGTAATAAACCTCTTT +CCCGAGATCAATACGGTAGAGCGGTGGCAGTGCGACGTAAACGTGACCGTGTTTCACCAACGCGCGGAAA +TGTTTTACGAACAAAGCGCAGAGCAGCGTGGCAATGTGCAGACCATCAGAGTCCGCATCCGCGAGGATAC +AGATTTTGCCATAACGAAGCTGGCTCAGATCGTCGCTGTCAGGATCGATACCGATCGCTACCGAAATATC +GTGCACTTCCTGCGAAGCCAGCACTTCGTCGGAAGAGACTTCCCAGGTGTTAAGGATCTTACCTTTCAGT +GGCATGATCGCCTGATATTCGCGATCGCGCGCCTGCTTGGCAGATCCGCCTGCGGAGTCACCTTCCACAA +GGAACAGCTCGGTACGGTTAAGGTCCTGCGCGGTACAATCAGCCAGTTTGCCAGGCAACGCCGGGCCGCT +GGTCAGCTTTTTACGCACCACTTTTTTGGCCGCACGCATACGGCGCTGGGCGCTGGAAATCGCCATCTCC +GCCAGCAGTTCAGCCGCCTGAACGTTCTGGTTCAGCCACAGGATAAAGGCATCTTTCACCACGCCAGAAA +CGAATGCCGCGCATTGACGCGAAGAGAGACGCTCTTTCGTCTGCCCGGCAAACTGCGGATCCTGCATTTT +TACTGACAGCACATAGGCGCAGCGATCCCAGATATCTTCCGCCGACAGCTTTACACCGCGCGGCAGAATA +TTGCGGTATTCACAGAACTCACGCATCGCGTCCAACAGGCCCTGACGCAGACCATTAACATGGGTACCGC +CCTGCATCGTTGGGATAAGGTTGACGTAGCTTTCGGTCAGCAGTTCACCGCCTTCCGGCAGCCACAGTAG +CGCCCAGTCCACAGCTTCAGTATCACCAGCGAAATTACCGATAAACGGTTTTTCCGGCAGCGTCGGCAGA +CCATTTACCGCTTCCGCCAGGTAATCATTCAGACCGTCCTGATAGCACCAGCGTTGTTCGGTATTGTTGA +TCTCATCTTTAAAAGTGATCTCAACGCCAGGGCACAATACCGCTTTGGCTTTCAGCACATGCGTCAGGCG +TGAAACAGAAAATCGCGGGCTGTCAAAGAAGGTTTCATCCGGCCAGAAGTGCACACTGGTACCAGTATTG +CGTTTACCGCAAGTGCCGACAACCTGTAAATCCTGCACCTTTTCGCCATTTTCAAAGGCGATGTTATAAA +CCTGACCATCGCGGCGCACGTTAACTTCTACGCGCTTCGACAGGGCGTTAACCACCGAAATCCCCACGCC +ATGCAGGCCGCCAGAGAACTGGTAATTTTTGTTAGAGAATTTACCGCCTGCATGCAGACGGCAAAGAATC +AGTTCAACCGCCGGTACACCCTCTTCCGGGTGAATATCCACCGGCATCCCGCGCCCATCGTCAATAACTT +CTAACGACTGGTCAGCATGTAAAATAACGTCCACGCGTTTTGCGTGACCCGCCAGTGCTTCATCCACACT +GTTATCAATGACTTCTTGCCCCAAATGGTTAGGGCGAGTGGTATCGGTATACATCCCCGGACGGCGGCGA +ACCGGCTCAAGCCCGGTGAGTACCTCAATGGCATCAGCGTTATAAGTTTGCGTCATGGTTTAAGTTAGTA +ATTCGAGTTGATCGTCAGAGATGGTGCAGACCAAGAAAATCGACGATCGGGTTGAAATAATCTTCGAAGC +CCGTGAATGCGTGGTTGCCGCCTTCTATGACAGTCTGGCGGCAGGAAGCGTAGTACGCCACCGCCTGGCG +GTAATCCAGCACTTCATCTCCCGTCTGTTGCAGCAGCCAGATCAAATCCGGCGCTTCCAGCGGGTCAATC +TGCATGACTTTAAGATCGTAAATATGGCGTGACTCTAGCACATATTGCTGCCCGGTGTAGGGGTTCTCGT +TCTGACCGAGATAGTCCGTCAGCAGTTCAAACGGGCGCACCGCCGGGTTTACCACCACTGCGGGCAGCAT +AAAACATTGTGACAACCAGGTGGCGTAATATCCCCCCAGTGACGAACCGACAATACCCAGCGAATCACCG +CCATGTTCCAGGACAATGGATTCCAGCAGCTCTGCCGCGTCGGAAGGATACGGCGGCAACTGCGGAATGA +TCATCTCAACGTCAGGGTGATGTTCCGCCAGCCAGTTTTTTAACAAGCTCGCTTTTGCAGAGCGCGGCGA +GCTGTTGAAACCGTGTAAATAAAGAAGCGTAGACATCAGTAGCCTTCTGAAGCGGTATCAGGTTGGAAAC +GTGTGTCCGCCAGGCGATGCACCTCGGTGGTCAGCGTGCCATCAGCATGTAACTCGAGAGTACGCCAGCC +GGGCGCGATGGTATCCAGCGTAAAGTTGGAACAGTGCGGCTTAAACTGCACACAGGTCGACGGCGTTGCC +AGCAGGCGGCGACCATTCCAGTCGAGATCCAGCTCCTGATGAATATGACCGCACAGCAAGTATTTGACGT +GCGGAAACTTCGCCAGCACGGTATCCAGTTCGCCCGCGTTACGCAGACTGTGTTGATCGAGCCAACTACA +ACCCGCAGGTAGCGGATGATGATGCAGCAGCAGCAACGTATGGCGTTCTGGCGCATCGGCCAGTTTACGT +TCCAGCCACTCAAGCTGAAACTCGCTCAGCTCACCGTGCGGCACGCCAAACACCTGGCTATCCAGCAACA +GGATTTGCCATTGCTCACCAATAAACACGCGCTTCGCCGGGGAGATACCCGCATCCTGTAACGCGCTGTA +CATCGCGGGCTGGAAATCGTGGTTGCCCGGCAGCCAGACGCAGGGCGCACGAAAACTTGCGATGCCTTCA +GCGAAATGCTGATAGGCCGCAGAGGATTGATCCTGCGCTAAATCACCTGTCGCGACAATCAGGTCGAATT +CGTGCTGGTGTGGCCGAATCGCCTCCAGCACCGCCTGGTAACTCTCCCAGGTGTTTACCCCTAACAGGGC +TTCGTGCTTTTGTGCAAACAGGTGAGTGTCGGTAATTTGTAAAATCCTGACTCTGGCCTCACCAGCCAGA +GGAAGGGTTAACAGGCTTTCCAAATGGTGTCCTTAGGTTTCACGACGCTAATAAACCGGAATCGCCATCG +CTCCATGTGCTAAACAGTATCGCAACCAGTCCGCTAAAAACTGATTAATTTGATGCTTTTCGTCGCGTTG +ATGCAACTTTTTATTAGGATAATCATACCGCGCTTTGAAGCGAAAAATCTGCTGGCTTGAACACACTTCA +GCCACCATCGCGTCATGATACAGACGCACCGTCATTGACGGAAGGCTCCAGTAACTGATCGCGGGCGCAG +TCTGTTCTATTGTCACCAGGGTAGTGTATCGGGTCGATTCCACAATCGTCAGCCGATATTGTGCGTTTGC +CACCTGATAGCTTACAGTTTCGCCGGGTGCGTCATTGCGCGGTAACAAACGGCGCAATTGTGAAAAGTTC +ATCTCGCACAGGCGCATCATTTCAGGAAAGTCAGGTGTGTAACGCTTCATTTATGCCCACTCATTTTTTA +ACGCTTGATGATGCAGCTGCAGCCATTGCAAAGCGATGACCGACGCTGCGTTGTCGATTTTCCCCTCTTC +TACCCACTGGTATGCCTGTTCCCGGCTTACCACATGAACGCGAATATCTTCGTTTTCATCAGCCAGACCG +TGAATACCGCTTGCGGTCGTGGCGTCCACTTCGCCCACCATAATTGACGAACGCTCACTGGTGCCCCCCG +GGCTTGCCAGGAAACTTAACACCGGTTTGGTCCGTTTGACTATCAGTCCCGCCTCTTCAATCGCTTCGCG +ACGGGCAACATCTTCCACACTTTCACCCTCTTCAATCATCCCGGCAACCATCTCCAGTAGCCAAGGGGTT +TCGCTGGTGTCGTACGCGGCAATCCGAATCTGCTCAATCAGCACAACTTCATCACGCACTGGGTCAAAGG +GTAGCAAGACTGCGGCGTGACCGCGCTCAAAAATTTCCCGCCGCACCTCATGACTCATTTGCCCGTTGAA +TAGACGATGACGAAATCTATAAAGATCTAATGAAAAAAAGCCGCGATAAAGTGTTTCTCGTGCAATAATT +TCTACATCGTTTTTGCCAAATGTAACGGGCAGGTTGTCTGGCTTAAGCATTGTTAATGTCCTGGCACTAA +TAGTGAATTAAATGTGAATTTCAGCGACGTTTGACTGCCGTTTGAGCAGTCATGTGTTAAATTGAGGCAC +ATTAACGCCCTATGGCACGTAACGCCAACCTTTTGCGGTAGCGGCTTCTGCTAGAATCCGCAATAATTTT +ACAGTTTGATCGCGCTAAATACTGCTTCACCACAAGGAATGCAAATGAAGAAATTGCTCCCCATTCTTAT +CGGCCTGAGCCTTTCTGGGTTCAGTTCGTTGAGCCAGGCCGAGAACCTGATGCAAGTTTATCAGCAAGCA +CGCCTTAGTAACCCGGAATTGCGTAAGTCTGCCGCCGATCGTGATGCTGCCTTTGAAAAAATTAATGAAG +CGCGCAGTCCATTACTGCCACAGCTAGGTTTAGGTGCAGATTACACCTATAGCAACGGCTACCGCGACGC +GAACGGCATCAACTCTAACGCGACCAGTGCGTCCTTGCAGTTAACTCAATCCATTTTTGATATGTCGAAA +TGGCGTGCGTTAACGCTGCAGGAAAAAGCAGCAGGGATTCAGGACGTCACGTATCAGACCGATCAGCAAA +CCTTGATCCTCAACACCGCGACCGCTTATTTCAACGTGTTGAATGCTATTGACGTTCTTTCCTATACACA +GGCACAAAAAGAAGCGATCTACCGTCAATTAGATCAAACCACCCAACGTTTTAACGTGGGCCTGGTAGCG +ATCACCGACGTGCAGAACGCCCGCGCACAGTACGATACCGTGCTGGCGAACGAAGTGACCGCACGTAATA +ACCTTGATAACGCGGTAGAGCAGCTGCGCCAGATCACCGGTAACTACTATCCGGAACTGGCTGCGCTGAA +TGTCGAAAACTTTAAAACCGACAAACCACAGCCGGTTAACGCGCTGCTGAAAGAAGCCGAAAAACGCAAC +CTGTCGCTGTTACAGGCACGCTTGAGCCAGGACCTGGCGCGCGAGCAAATTCGCCAGGCGCAGGATGGTC +ACTTACCGACTCTGGATTTAACGGCTTCTACCGGGATTTCTGACACCTCTTATAGCGGTTCGAAAACCCG +TGGTGCCGCTGGTACCCAGTATGACGATAGCAATATGGGCCAGAACAAAGTTGGCCTGAGCTTCTCGCTG +CCGATTTATCAGGGCGGAATGGTTAACTCGCAGGTGAAACAGGCACAGTACAACTTTGTCGGTGCCAGCG +AGCAACTGGAAAGTGCCCATCGTAGCGTCGTGCAGACCGTGCGTTCCTCCTTCAACAACATTAATGCATC +TATCAGTAGCATTAACGCCTACAAACAAGCCGTAGTTTCCGCTCAAAGCTCATTAGACGCGATGGAAGCG +GGCTACTCGGTCGGTACGCGTACCATTGTTGATGTGTTGGATGCGACCACCACGTTGTACAACGCCAAGC +AAGAGCTGGCGAATGCGCGTTATAACTACCTGATTAATCAGCTGAATATTAAGTCAGCTCTGGGTACGTT +GAACGAGCAGGATCTGCTGGCACTGAACAATGCGCTGAGCAAACCGGTTTCCACTAATCCGGAAAACGTT +GCACCGCAAACGCCGGAACAGAATGCTATTGCTGATGGTTATGCGCCTGATAGCCCGGCACCAGTCGTTC +AGCAAACATCCGCACGCACTACCACCAGTAACGGTCATAACCCTTTCCGTAACTGATGACGACGACGGGG +CTTCGGCCCCGTCTGAACGTAAGGCAACGTAAAGATACGGGTTATCTGCCGCATTCTTCCCCCTTCTCGC +TTCAATTTCGACCAGCCATCCTCTATTCTGATGGGTATTTACCACTGGTCCCGGAAGACAAAAATGAAAC +GGACAAAATCCATACGCCACGCATCGTTCCGCAAAAACTGGAGCGCACGCCATCTGACACCAGTCGCTCT +CGCGGTTGCCACTGTTTTTATGCTGGCTGGCTGTGAAAAGAGTGATGAAACAGTGTCTCTCTATCAAAAT +GCTGACGACTGTTCAGCTGCAAACCCAGGCAAAAGCGCCGAATGTACCACCGCGTACAACAATGCGCTGA +AAGAAGCCGAACGTACTGCGCCGAAATACGCCACCCGTGAAGACTGTGTTGCTGAATTTGGTGAAGGTCA +GTGCCAGCAGGCACCAGCCCAGGCTGGCATGGCACCAGAAAACCAGGCGCAGGCCCAGCAATCCAGCGGG +AGTTTCTGGATGCCGCTGATGGCCGGTTACATGATGGGGCGTCTGATGGGCGGCGGCGCGGGATTTGCAC +AGCAGCCGCTGTTCTCCTCGAAAAACCCAGCCAGTCCGGCTTACGGTAAATATACCGACGCGACGGGTAA +AAACTATGGCGCAGCCCAGCCAGGCCGCACCATGACCGTACCGAAGACGGCAATGGCACCAAAACCGGCG +ACCACCACTACCGTTACCCGTGGCGGTTTTGGTGAATCTGTTGCCAAACAAAGCACTATGCAGCGTAGTG +CAACCGGTACCTCTTCTCGTTCAATGGGTGGCTGATACCGATGGAAAGAGTCAGTATTACCGAGCGCCCG +GACTGGCGTGAGAAAGCCCACGAATACGGTTTCAATTTTCACACCATGTACGGCGAGCCGTACTGGTGTG +AAGATGCTTACTACAAGTTGACCCTCGCCCAGGTTGAAAAGCTGGAAGAAGTCACCGCCGAACTGCACCA +GATGTGCCTGAAAGTGGTGGAAAAAGTGATCGCCAGCGATGAGCTGATGACCAAATTCCGCATTCCAAAA +CACACCTGGAGTTTTGTGCGCCAGTCATGGCTGACGCACCAGCCATCGCTTTATTCGCGTCTTGATCTGG +CGTGGGATGGCACTGGTGAACCTAAACTTCTGGAAAATAACGCCGATACGCCAACGTCACTATACGAGGC +GGCGTTCTTTCAGTGGATCTGGCTGGAAGATCAGCTTAACGCCGGTAACTTGCCGGAGGGCAGCGACCAG +TTTAACAGTCTGCAAGAAAAACTGATCGATCGCTTCGTTGAGCTGCGTGAACAGTATGGCTTCCAGTTGC +TGCATCTCACCTGCTGTCGCGACACGGTGGAAGATCGCGGAACCATTCAGTATTTGCAGGACTGCGCAAC +GGAAGCTGAAATTGCTACTGAGTTCCTCTACATCGATGATATCGGGTTAGGTGAAAAAGGTCAGTTCACG +GATTTACAGGATCAGGTAATTTCCAACCTGTTCAAACTGTATCCGTGGGAATTTATGTTGCGTGAGATGT +TCTCAACCAAGCTGGAGGATGCAGGCGTACGCTGGCTGGAACCGGCGTGGAAGAGCATTATCTCCAACAA +GGCACTTCTACCGCTACTGTGGGAGATGTTCCCGAATCACCCGAACCTGCTGCCCGCTTATTTTGCGGAA +GATGATCATCCGCAAATGGAAAAATATGTGGTTAAACCGATCTTCTCCCGTGAAGGCGCAAACGTGTCGA +TCATTGAGAACGGCAAAACCATTGAAGCAGCGGAAGGTCCGTATGGCGAAGAAGGGATGATTGTTCAGCA +ATTCCACCCGTTACCGAAATTCGGCGACAGCTATATGCTGATTGGTAGCTGGCTGGTGAACGATCAACCC +GCCGGAATTGGCATTCGTGAAGACCGTGCATTGATCACCCAGGATATGTCTCGGTTTTATCCACATATTT +TTGTTGAATAAGCCACGATACCGGATGGCACTCGCCATCCGGTAATTGTTAGCCTATCTGCACCGACAGC +ATACTCAGGCTGCCCATTTCTATACCCTCAACCGGAATGGTAATTGGCTCCTGCCCATCCCACGCACCTA +ACACATACAACAACGGCAAATAATGCTCTGGCGTTGGGTTCGATAACGTGCCACCTTCATGGTCGAGGTA +ATTCACCAGAGGATGTTGTTCCACTGGCCCTTGCCACGTCAGATTCGCTTTCACATACTCATTAAACGAC +GTCGCCCACGGATACGGTGAACTATCACCGTGCCACTTCACTGTGCGCAGGTTATGCACCACGTTACCGC +TGGCGACCAACATTATTCCTTCATCTCGCAGCGCTGCCAGTTTGCGCCCCATTTCGAAATGCCAGGCGGC +AGGTTTGCTACTGTCGATACTCAACTGCACCATCGGGATATCAGCGTCAGGATACATCTTAATCAGCACG +CCCCACGAGCCGTGGTCAAAGCCCCAGGCTTCTTTATCCAGCGTCACCGGGATCGGCGCTAACAGCTCAA +CCAGACGCTGTGCCAGCGCAGGCGAACCCGGAGCAGGATAATGCGTATCGTACAGCGCCTGCGGGAAGCC +ACCAAAGTCATGAATCGTGGGCGGCGTCTCCATCGCGGTCACTCCTGTTCCACGGGTAAACCAGTGAGCC +GAAACCACCACAATCGCTTGCGGGCGTGGCAATGTCATCCCCAACTTCTGCCAGCTGCGGGTATACAAAT +TATCTTCCAGCACGTTCATCGGACTACCGTGACCTAAAAACAATGCTGGCATACGTGTTGAAGACATGAT +GATATCCTTAACTAAAGGTGTCATTTTGATATCCTCACAATACGCTTGTTCGGCGGAGTAAGAACCCGGA +TAACAATGATGATGATCATCAGTTATTTTGACGATCTGCCTGAAGGTGAAGATTTATAAGGAGTTGTCGA +TGTCAGTACCTCTCATTCTGACCATACTGGCGGGGGCAGCCACGTTTATTGGCGCGTTTCTCGGCGTTCT +CGGGCAAAAACCCTCGAACCGCTTACTGGCGTTTTCGCTAGGTTTTGCGGCGGGGATCATGTTGCTCATC +TCATTAATGGAAATGCTTCCTGCCGCACTAGCAGCTGAAGGAATGTCGCCTGTGTTGGGTTATGGAATGT +TTATCTTCGGTCTGCTTGGCTATTTTGGCCTGGACCGCATGTTGCCACATGCTCATCCGCAGGATTTAAT +GCAAAAATCGGTGCAGCCGTTGCCAAAATCGATCAAGCGCACAGCCATTCTGCTCACTCTCGGCATCAGT +CTGCATAACTTCCCGGAAGGGATTGCCACCTTTGTCACGGCGAGCAGCAACCTGGAGCTGGGATTTGGCA +TCGCACTGGCCGTCGCGTTGCACAATATCCCTGAAGGTCTGGCAGTGGCAGGCCCGGTTTATGCGGCAAC +GGGGTCTAAACGCACCGCGATTCTGTGGGCGGGGATTTCTGGACTAGCAGAAATTCTTGGTGGTGTGCTG +GCGTGGTTAATCCTCGGTAGCATGATTTCCCCGGTGGTCATGGCGGCAATCATGGCGGCGGTTGCAGGAA +TTATGGTGGCGCTCTCGGTTGATGAATTAATGCCGCTCGCCAAAGAGATTGACCCTAATAATAACCCCAG +CTATGGCGTACTATGTGGAATGTCAGTGATGGGATTCAGTTTAGTGCTGCTACAAACGGCGGGAATTGGT +TAAAAACAACATCAGAAGTTGTCCAGCGCATGGACAACTTCTGCCAGCTTCACGAAAGCCTTATTCTACC +TTTTCGGCTGTCTCTTCTCTCGTACTGTTTAAGTATTTGTTCCGCGCTTCAAGCAGTGCGTCTCTGTCCT +GGCGAAACGCCCGACAATAACGTTTCAAATGCAGGAAATAACCCACCACAACCAGAGCAATCAATACAAT +CCAGTACCAGGCGATAAACATCCTTTTACCCTTAATATTTAACAATACTAAACATTTAGCGTATAAATTT +CACATATCCTTTTTCGGATATATTCATATGGTCGCATAATAACGGAACAATTATATGATTTTGATCATAA +TGAAAAAGAATGCCTGATATTAATGAAATTTTCTCATAGAAAGAGAAGCGGAATTAACATCTTGCATAGC +AGGGAAAAATAAAAACCGAAGCCTGCTACAACTTCGGTTTCTTGATTAAGGCAGTAAATTAAGCAGCGGT +TTTCAGCTGGCTTTACGCTCATGTGCCTGACGGTATGCCACCAGGTCTTCAATAGTCACGAGCGCCATAT +TGTGTTTATTGGCAAACTCAATACACTCTGGTGCACGCGCCATCGTGCCATCGTCATTAGTCAGCTCACA +CAGTACACCAGCCGGTTTAAAGCCTGCCAGCGTCATCAGATCAATAGTTGCTTCAGTATGACCGCCACGC +GTCAGTACACCACCTGCCTGAGCGCGAAGTGGGAAAACGTGGCCAGGACGATTCAGATCTGACGGTTTTG +CGCCATCGGCAATCGCTGCGCGAACGGTCGTAATACGGTCAGCGGCAGAAACACCGGTAGTCACACCTTC +AGCTGCTTCAATGGTCACGGTAAAACCGGTGCCATAGGCGCTGGTGTTATTTTCTACCATCATTGGCAGA +TCGAGTTGTTTACGGCGATCTTCAGTAATGCACAGGCAAACAATACCGCTACCGTGGCGAATGGTCAGCG +CCATCTGCTCAACAGTCATGGTTTCTGCCGGGAAGATCATATCACCTTCGTTTTCACGGTCTTCATCATC +AAGCACCATTACACCGCGTCCTTCACGCAGCGCAGCCAGTGCATTTTCAACACGTTCGAAAGGCGTACCA +AAAGAGGAAAGTAGCGTCTGATTCATGGTAAAAAAACCTCACTAAAATTATGGTTACCAGAATCAGGGCA +GTCTTAGGAGTGGCGGCATATAGCCAAAATAACGTGAGCGGGTCCATGCCCGACAGAATCGTTACTCTCT +CCCATCCGGACTCTAACCGTCGGCCCCGGAATTACACCGGATCTGCTGTCCTTTGAGTTCGCACCCAAAG +CGCTCGCGGGCTTTCAACTGAGTTGATTTACCGCCGGTGGGGAATTTCGCCCCGCCCTGAGAATAAGCGG +ATTCACTATAACGCTAATGATTAGCGGCAGCAACGCATAGCTTCACATAATTCTGGTTTATGACTTACCC +TTATCGCACTACAATGGCACTCAACACCTATCAGTACAGGGAAACTACAATGATTGACCCGAAAAAAATT +GAGCAAATCGCTCGCCAGGTTCACGAATCAATGCCTAAAGGAATCAGGGAGTTCGGGGAAGATGTGGAGA +AAAAAATCCGCCAAACCCTACAAGCGCAGCTGACGCGCCTCGACCTTGTAAGCCGTGAAGAGTTCGACGT +CCAAACGCAAGTCCTGTTACGGACTCGTGAAAAACTGGCGCTGCTTGAACAAAGAATCAGCGAACTGGAA +AATCGCAGTACTGAGATCAAAAAGCAGCCAGATCCAGAGACTCTCCCCCCAACGCTGTAAACATTCGTCT +TTAATGCACTGTAAATTATGAATTAATCCTCTAATTTATAGTGCTTTCTATTACCTTATCGCGTAATCCC +ATTCAGAAAACCATCACAAAAATGAATGAGTACAATTGAAAGTATAATTGCAATGTATTTTTTAAGTTTT +ACTTAATCGATATTTAGATAAACTAATTTTATAAAAAACACAAAATAAAATATCATATTTCAATGATTAG +TAGTCCTTAAATAACAGTTACTAATCATTCTCTTTTCTACTTATCTTTATATAAAGGAATATTATGTCCG +CTTTTAAAAAGTCACTTCTTGTTGCTGGCGTAGCAATGATTCTTTCCAATAACGTGTTTGCTGATGAAGG +TCACGGTATTGTTAAATTTAAAGGTGAAGTTATCTCTGCTCCATGTTCTATTAAACCAGGTGACGAAGAT +TTAACTGTAAATCTGGGTGAAGTAGCAGATACCGTACTGAAAAGCGATCAGAAATCTTTGGCTGAACCTT +TCACTATTCACCTGCAGGACTGCATGCTGAGTCAGGGTGGAACTACTTATTCAAAAGCGAAGGTTACTTT +CACTACAGCAAATACCATGACGGGTCAGTCTGATCTTCTGAAAAATACCAAAGAAACTGAAATCGGCGGC +GCCACTGGCGTTGGCGTACGTATTCTGGACAGCCAGAGCGGCGAAGTAACTTTAGGTACTCCGGTAGTAA +TTACGTTCAACAATACCAACAGCTATCAGGAACTGAATTTCAAAGCTCGTATGGAATCCCCAAGCAAAGA +TGCCACCCCGGGCAACGTTTACGCTCAGGCTGACTACAAGATTGCTTACGAGTAATCGCATTTGGCCGGG +TTCGCCCGGCCACATCATTAACGGATTAATGATAAGTGGATCAGATGTATAAAAAATTAAAATTAACCAC +AATAAGCGAATTGATTAAAAATATTTATTGTTCATTATCCGTTATTAGACTGGCCCCCTGAATCTCCAGA +CAACCAATATCACTTAAATAAGTGATAGTCTTAATACTAGTTTTTAGACTAGTCATTGGAGAACAGATGA +TTGATGTCTTAGGGCCGGAGAAACGCAGACGGCGTACCACACAGGAAAAGATCGCAATTGTTCAGCAGAG +CTTTGAACCGGGGATGACGGTCTCCCTCGTTGCCCGGCAACATGGTGTAGCAGCCAGCCAGTTATTTCTC +TGGCGTAAGCAATACCAGGAAGGAAGTCTTACTGCTGTCGCCGCCGGAGAACAGGTTGTTCCTGCCTCTG +AACTTGCTGCCGCCATGAAGCAGATTAAAGAACTCCAGCGCCTGCTCGGCAAGAAAACGATGGAAAATGA +ACTCCTCAAAGAAGCCGTTGAATATGGACGGGCAAAAAAGTGGATAGCGCACGCGCCCTTATTGCCCGGG +GATGGGGAGTAAGCTTAGTCAGCCGTTGTCTCCGGGTGTCGCGTGCGCAGTTGCACGTCATTCTCAGACG +AACCGATGACTGGATGGATGGCCGCCGCAGTCGTCACACTGATGATACGGATGTGCTTCTCCGTATACAC +CATGTTATCGGAGAGCTGCCAACGTATGGTTATCGTCGGGTATGGGCGCTGCTTCGCAGACAGGCAGAAC +TTGATGGTATGCCTGCGATCAATGCCAAACGTGTTTACCGGATCATGCGCCAGAATGCGCTGTTGCTTGA +GCGAAAACCTGCTGTACCGCCATCGAAACGGGCACATACAGGCAGAGTGGCCGTGAAAGAAAGCAATCAG +CGATGGTGCTCTGACGGGTTCGAGTTCTGCTGTGATAACGGAGAGAGACTGCGTGTCACGTTCGCGCTGG +ACTGCTGTGATCGTGAGGCACTGCACTGGGCGGTCACTACCGGCGGCTTCAACAGTGAAACAGTACAGGA +CGTCATGCTGGGAGCGGTGGAACGCCGCTTCGGCAACGATCTTCCGTCGTCTCCAGTGGAGTGGCTGACG +GATAATGGTTCATGCTACCGGGCTAATGAAACACGCCAGTTCGCCCGGATGTTGGGACTTGAACCGAAGA +ACACGGCGGTGCGGAGTCCGGAGAGTAACGGAATAGCAGAGAGCTTCGTGAAAACGATAAAGCGTGACTA +CATCAGTATCATGCCCAAACCAGACGGGTTAACGGCAGCAAAGAACCTTGCAGAGGCGTTCGAGCATTAT +AACGAATGGCATCCGCATAGTGCGCTGGGTTATCGCTCGCCACGGGAATATCTGCGGCAGCGGGCTTGTA +ATGGGTTAAGTGATAACAGATGTCTGGAAATATAGGGGCAAATCCAGTTATCATCATTGGTTGTGCGTCA +GCTTATGCCGTTGAATTCAACAAAGATTTAATCGAAGCCGAAGATCGTGAAAACGTTAACCTTTCCCAAT +TTGAAACTGATGGCCAATTACCCGTCGGCAAATATTCACTAAGCACTCTGATTAATAATAAGAGGACGCC +AATCCACCTTGACCTCCAATGGGTATTAATTGATAACCAAACTGCAGTTTGCGTGACACCAGAGCAATTA +ACATTATTAGGATTTACTGATGAATTTATTGAAAAAACTCAGCAAAACCTGATCGATGGTTGTTACCCTA +TCGAAAAAGAAAAACAAATTACAACTTATCTCGATAAAGGGAAAATGCAATTATCCATATCTGCACCTCA +GGCATGGTTAAAATACAAAGATGCAAACTGGACGCCTCCTGAACTTTGGAATCATGGTATTGCTGGGGCA +TTTCTTGACTACAATTTATATGCCTCTCATTATGCACCACATCAGGGCGATAATTCGCAAAATATAAGTT +CCTATGGGCAGGCTGGGGTTAATCTTGGGGCCTGGCGCCTGCGTACTGATTACCAGTACGATCAGTCATT +TAACAATGGCAAAAGCCAGGCGACCAACCTGGATTTTCCGCGTATTTATTTGTTTCGCCCAATCCCAGCA +ATGAATGCAAAACTAACTATAGGTCAATACGATACTGAATCCTCTATTTTCGACTCTTTCCATTTTTCTG +GCATTTCGTTGAAAAGCGATGAGAATATGTTACCGCCAGACCTACGTGGTTACGCACCGCAAATCACGGG +TGTCGCACAAACGAATGCAAAGGTCACTGTCTCACAGAACAACCGTATTATTTATCAAGAAAATGTTCCT +CCAGGCCCATTTGCTATTACCAATTTATTCAATACATTACAGGGGCAACTTGACGTCAAGGTTGAAGAAG +AGGACGGACGCGTTACGCAATGGCAAGTTGCATCTAATAGTATTCCTTATCTGACGCGTAAAGGGCAGAT +TCGCTACACCACTGCTATGGGTAAACCGACCAGCGTTGGTGGTGATTCCTTACAACAACCCTTCTTCTGG +ACTGGTGAATTCTCATGGGGTTGGCTGAACAATGTATCCCTGTATGGTGGTTCAGTTTTAACAAACCGTG +ATTATCAATCTCTGGCTGCCGGCGTTGGTTTTAATCTTAACTCATTAGGTTCATTATCTTTTGATGTCAC +ACGATCTGATGCTCAGTTGCATAATCAGGATAAAGAAACGGGTTATAGCTACCGCGCTAACTATTCAAAA +CGTTTTGAATCTACCGGTAGCCAGCTCACTTTCGCTGGTTACCGTTTCTCTGATAAAAACTTTGTGACAA +TGAATGAATATATCAATGACACTAACCATTACACGAATTATCAGAATGAAAAAGAGAGTTATATTGTCAC +GTTTAACCAGTATCTTGAATCATTAAGGTTAAATACATACGTAAGTTTGGCTCGTAATACTTACTGGGAC +GCCAGCAGTAATGTGAATTATTCATTATCACTTAGCCGCGATTTTGATATCGGGCCATTAAAAAACGTCT +CCACTTCTCTAACATTTAGCCGAATAAACTGGGAAGAAGACAACCAGGATCAACTGTACCTAAATATTTC +GATTCCCTGGGGAACTAGTAGAACATTGAGCTATGGTATGCAACGAAATCAGGATAATGAGATTTCGCAT +ACTGCTTCGTGGTATGACTCTTCCGATCGAAATAATTCCTGGAGCGTTTCTGCTTCAGGCGACAATGATG +AATTCAAAGATATGAAAGCGTCACTACGCGCCAGTTATCAGCATAATACCGAGAACGGTCGACTCTACCT +CTCCGGTACATCACAGCGAGACAGTTATTATTCTCTGAATGCCAGTTGGAATGGTTCATTCACTGCGACT +CGCCACGGTGCCGCTTTCCACGACTATAGCGGTAGTGCTGACTCGCGTTTTATGATCGACGCAGACGGCA +CTGAAGATATTCCGTTGAACAATAAACGCGCGGTAACTAATCGGTATGGCATCGGAGTTATTCCATCAGT +CAGCAGTTACATAACAACATCATTAAGTGTTGATACCCGAAATCTGCCAGAAAATGTGGATATCGAAAAC +TCGGTTATCACCACCACCTTAACCGAGGGTGCTATTGGCTACGCCAAACTTGATACCCGCAAGGGCTACC +AAATCATAGGGGTTATTCGCCTGGCAGATGGTAGTCATCCACCACTGGGGATTAGCGTAAAAGATGAAAC +CAGCCACAAAGAATTAGGACTGGTTGCTGATGGCGGCTTTGTATACCTCAACGGCATTCAGGATGATAAC +AAACTTGCTTTACGCTGGGGTGACAAATCTTGTTTTATTCAACCACCCAATAGCAGCAACTTAACCACCG +GAACGGCTATTTTACCGTGTATTAGCCAAAATTAATTCAGGATGAAACTAATGCGCTACTTAAATACAAA +GAATATCATTGCAGCAGGAGTATTACTCTCCTGTATGAGCAGCATTGCCTGGGGTGCCATCATCCCGGAT +CGTACCCGTATCATAATGAATGAGTCAGATAAAGGCGAAGCATTAAAACTTACTAATCAAAGTAAAAACC +TGCCCTATCTGGCCCAAACATGGATAGAAGATACGAAAGGCAATAAATCGCGTGACTTTATTGTCACTGT +TCCTCCAATGGTGCGTTTAAATCCCAGTGAGCAAATTCAAATAAGAATGATAACTCAGGAAAAAATTGCT +CAACTTCCTAAAGACAGAGAAACGCTCTTCTATTTTAACGTGCGAGAAATACCGCCCAAAACAGATAAAA +AAAATGTGATGCAAGTCACTATGCAGCACGCATTGAAACTATTCTGGCGGCCAAAAGCCATTGAATTAGA +AGACGATGGGGTAATGACTTACGAAAAAGTTGAAATCATTCGTAGAAATGACGGTTCGATCCGCTTTAAC +AATAAGATGCCTTATCACGTTACGCTGGGTTATATCGGAACAAATGGGGTAACGATGTTACCACAAACGC +AAAGCTTAATGGTAACCCCTTTTAGCTATGCAAATACGCAGTTTAAAAATGTTCCGTCAACTTTTCAGGT +GGGTTATATCAATGACTTTGGTGGATTAAGTTTTTATGAAATAAACTGCCCTGTAGTAAATAACATTTGT +AATATTTCTGTAGCCAACCGAGATCAATAATATGCGCTACTTGTTAATTGTTATTACTTTTTTTATGGGT +TTTAGTTCATTACCTGCATGGGCAATGGACTGCTATGCTGAACATGAAGGTGGAAATACCGTTGTCATTG +GTTACGTACCAAGAATCTCTATCCCCAGCGATGGTAAAAAAGGTGATAAAATCTGGCAAAGCAGTGAATA +TTTTATGAATGTTTTCTGTAATAATGCACTACCAGGCCCATCTCCAGGAGAAGAATACCCATCTGCATGG +GCAAATATAATGATGTTGTTAGCATCAGGTCAAGACTTTTATAATCAAAACTCTTATACTTTCGGTGTAA +CTTATAATGGGGTTGATTATGATTCTACATCTCCACTACCTATTGCAGCACCTGTATGTATTGATATAAA +GGGAGCCGGAACCTTCGGGAATGGCTACAAAAAGCCCGCAGTCTGTAGTGGCGGTCCTGAACCGCAATTA +TCAGTAACTTTTCCAGTACGAGTGCAGCTATATATTAAGCTAGCTAAAAATGCCAATAAAGTAAATAAAA +AACTTGTATTACCTGACGAATATATAGCACTTGAATTTAAAGGTATGAGCGGAGCAGGTGCTATAGAAGT +AGATAAAAATCTGACCTTCAGGATTCGCGGATTAAATAACATTCATGTCCTTGACTGCTTTGTTAATGTT +GATCTGGAACCAGCTGATGGCGTTGTCGACTTTGGTAAAATAAATTCCCGAACAATTAAAAATACCAGCG +TGAGTGAGACGTTTAGCGTAGTCATGACCAAAGATCCGGGTGCGGCCTGTACTGAGCAGTTTAATATTTT +AGGGAGTTTTTTCACTACGGATATTTTGAGTGATTATAGCCATCTGGATATAGGTAATGGTCTGCTATTG +AAGATATTTCATAACGATGGAACAGCAACGGAATTTAACCGCTTCTCACAATTTGCTTCTTTTTCATCGT +CTAGTGCGCCTTCGGTCACCGCACCATTCAGGGCAGAACTGAGTGCGAACCCGGCAGAAACGGTTGTTGA +GGGACCGTTTAGTAAAGACGTAATCCTGAAAATCACCTATAACTAGTATCTAATACAAACACTAAAACGG +GCCATCAGGCCCGTTATATCAGTGCTCTAACTCCAGCTCTCTTGCCTGCATCATCTGTTGACAATACCAG +GCATAACGTGCGCAAAACCAGGTTCTATGTTCTTCATCCATGTTACCAGTAACGGCCAGAATATCGACCG +GGCGACCTTCTGCGTGCATTCTGGCAAAACTACGCGCCAGGAAATCGAAATTATTTAAAGAATTAAGACT +ATGATCCATAAGCACATCCTCCGGTTATCGCATACCTTTTAAGGCCATATGCTTTTTCTGATTTCAGTAT +TCCCCAATCAGTGTAGTGCCTTTAAACATAACGTGCGTAAATATATTGTCCCCGATCACACTTTTTAGTG +AAAAATAAAAAACCATATTAAAAGACTTTCTCTTCCAGAACTTCTCTAACCTGTGTTATTATTAACACAG +ATAAATGTAAGCAAGGAAACTATTACAAAGTAAATATTGCGTCACTAAATGGACATTGGAGTGATATATG +ATTTTATTCGCCGACTATAACACCCCTTATCTTTTCGCTATTTCCTTTGTACTGTTGATCGGCCTGTTAG +AAATTTTTGCGCTTATCTGCGGTCACATGCTCTCCGGTGCTCTTGATGCACATCTTGACCATTATGATTC +TATAACCACAGGTCATATTAGCCAGGCACTTCATTATCTCAATATTGGAAGATTGCCAGCTCTCGTCGTT +CTCTGCTTACTGGCTGGTTTTTTTGGTCTTATTGGCATCCTGTTGCAGCATGCCTGCATCATGGTCTGGC +AATCACCACTGTCGAACCTGTTCGTGGTTCCTGTCAGTTTACTGTTTACGATTATTGCGGTGCATTATAC +CGGTAAAATAGTTGCGCCCTGGATTCCACGCGACCATAGTTCAGCTATTACAGAAGAAGAATATATTGGT +AGCATGGCGTTAATTACCGGTCATCAAGCCACTTCAGGTAATCCCTGCGAAGGAAAACTCACCGATCAAT +TTGGCCAAATACATTATTTACTACTGGAGCCTGAAGAAGGAAAAATTTTCACTAAAGGAGACAAAGTGTT +AATTATTTGCCGACTTTCTGCAACGCGATATTTGGCGGAAAATAATCCCTGGCCCCAAATATTGTAATTT +ATTAATCAAAAGGAAATTTAATAATGGATGATATTGTTAATTCTGTGCCCTCCTGGATGTTTACCGCAAT +TATTGCCGTATGCATTCTGTTTATTATTGGAATTATTTTCGCCAGGCTCTATCGTCGCGCTTCGGCAGAG +CAAGCTTTTGTTCGTACTGGTTTAGGTGGGCAAAAAGTGGTAATGAGCGGTGGCGCAATCGTGATGCCGA +TCTTTCATGAAATAATCCCCATCAATATGAATACTCTGAAGCTGGAAGTCAGCCGCTCAACCATTGATAG +CCTGATTACGAAAGATCGTATGCGCGTCGATGTAGTAGTCGCTTTCTTTGTGCGGGTAAAACCTTCAGTA +GAAGGGATTGCCACCGCTGCCCAGACGCTGGGGCAACGCACCCTGTCGCCTGAAGACTTACGTATGTTGG +TTGAAGATAAATTTGTCGATGCCCTCCGTGCAACAGCTGCGCAAATGACCATGCATGAGTTACAGGATAC +CCGCGAGAACTTTGTGCAGGGGGTGCAAAATACAGTGGCAGAAGACCTGTCGAAAAACGGTCTGGAACTG +GAGAGCGTTTCACTTACCAACTTTAACCAGACCTCGAAAGAACATTTCAATCCGAACAATGCCTTTGACG +CCGAAGGTTTAACCAAACTGACTCAGGAAACAGAGCGCCGTCGCCGCGAACGTAACGAAGTTGAACAGGA +TGTAGAAGTTGCGGTGCGTGAAAAAAATCGCGATGCGCTATCGCGCAAGCTGGAGATTGAACAGCAAGAA +GCGTTTATGACGCTTGAGCAGGAGCAGCAGGTTAAAACCCGTACTGCCGAACAGAATGCACGTATTGCGG +CTTTTGAAGCTGAACGTCGTCGTGAAGCAGAGCAGACACGAATTCTGGCTGAACGACAGATTCAGGAAAC +AGAAATCGACCGCGAACAGGCCGTCCGCTCAAGAAAGGTTGAAGCTGAACGTGAAGTTCGCATTAAAGAG +ATCGAACAGCAGCAGGTCACCGAAATCGCTAACCAGACGAAATCGATCGCTATTGCCGCCAAATCGGAAC +AACAGTCCCAGGCAGAAGCGCGTGCTAATCTCGCACTTGCAGAAGCGGTAAGCGCCCAACAAAACGTAGA +AACCACTCGCCAGACTGCCGAAGCCGATCGTGCTAAACAAGTTGCCCTAATCGCTGCCGCGCAGGATGCA +GAAACCAAAGCGGTTGAACTGACCGTGCGGGCGAAAGCAGAAAAAGAAGCCGCAGAGATGCAGGCGGCGG +CTATCGTTGAGTTAGCCGAAGCTACACGTAAAAAGGGTCTGGCGGAAGCAGAAGCACAACGTGCGCTGAA +CGATGCTATCAACGTACTTTCTGATGAACAAACCAGCCTTAAATTCAAACTGGCCTTGTTGCAGGCGCTG +CCTGCGGTAATAGAGAAATCCGTTGAGCCGATGAAGTCAATCGACGGTATCAAGATTATTCAGGTCGATG +GTCTGAATCGTGGCGGCGCTGCGGGTGATGCAAACACGGGTAATGTGGGGGGCGGAAACCTGGCGGAACA +AGCATTATCAGCCGCTCTCTCTTACCGCACACAGGCACCGCTGATTGACTCCTTGCTCAATGAAATTGGC +GTTTCAGGCGGCTCACTGGCGGCATTGACTTCACCCTTAACCTCAACAACTCCCGTCGAAGAAAAAGCAG +AGTAAACCCTCTTCCAGGAATAATCCCTGGCCCAAAAAGCCGGGGATTTTTTATATCTGCGTTCCGCTAA +AAAGTGCAAATGATCAGGTTGTTGCAGCATTTTGCGTGACGGCTCGGGGAAGGCAAAACTGCATCAGAGA +AAGCATTGCGTGGGGTCTGGCGCTCATCAACAATCGGGGAGTCAGCAGGGGGCTGAAACGGGAAAGCCCC +TCCCGAAGAAGGGGGCCTTACAGAAGGAAAGGGTTATGATGAAGCTCGTCATCATACTGATTGTGTTGTT +ACTCGTAAGTTTCGCAGCTTATTAACAGCCAATCAGAGGGGGGAGAAATCCTCCCTCACCCTTGTTCCTT +TACTTTAGGTTGAAAAAAAATCAGCGTCAAGAAGGTTTCATTAACACATATCCCTGGCCCAAAAAGCCGG +GGATTTTTTATATCTGCGTTCCGCTAAAAGGTGCAAATGCTCAGGACGTTGCAGCGTTTTGCGTGACCGC +TCGGGGAAGGCAAAATTGCCTCTGGGAAAGCATTGCGCGGGGTCCGGCGCTCATCAACAATCGGGGGGCA +GCAAGGGGCTGAAACGGGAAAGCCCCTCCCGAAGAAGGGGCCTTGTATAAGGAAAGGGTTATGATGAAGC +TCGTCATCATACTGGTTGTGTTGTTACTGTTAAGTTTCCCGACTTACTAACAACTCATCAGAGGGGGGAG +AAATCCTCCCTTACCCTTGTTCCTTTACTCTAGGTTGAAAAAACAACAGCGTCAATAGGCCTGCCATGTA +CGAAGCGAGATCTGTGAACCGCTTTCCGGTTAGCCTTTTTTATCCTGTTGGATCTTCTTGATGATGTTGG +TCGTCGAGCAACCGTCTTCAAAGTTGAGCACCAACACTTCGCCACCGTTGGCCCAGACTTCTTTACTCCC +GGCAATCTCTTCTGGTTTATAGTCGCCGCCTTTCACCAGCAGATCTGGCAAGATCCCGGCGATCAAGCGC +TGCGGCGTGTCCTCTTCAAACGACACTACCCAGTCGACCGCTTCCAGTGCGCCCAGCACAATCATACGCT +GTTCGAGTGGGTTTACCGGGCGGGAATCCCCTTTCAGCCGTTTGGTGGAGGCATCGCTGTTGACGGCAAC +AATCAAGCGGTCACCCAGCTTGCGGGCATTTGCCAGATAAGAGACGTGCCCGGCGTGCAGGATGTCAAAG +ACACCGTTGGTCATCACCACTTTTTCACCACGTTTACGCGCTGCCGCTACGGCCAGCTTCAGTTCCTCTT +CGGTCATCACGCCAAAGCCTGTATCTGCACGTCCACGTACAGCATTTTCCAGCTCGATCGGCGAAACCGT +GGAGGTTCCCAGTTTGCCGACCACCACGCCAGCCGCCGCATTGGCAAAGAAGCAGGCTTCTTCCAGCGAA +TTACCCGCTGCCAGCGTTGCCGCCAGGACGCCAATCACCGTGTCGCCCGCACCGGTAACGTCATACACTT +CCTGCGCTTGGGTTGGCATATGCAGCGGCGCTTTACCCGGTTGCAGCAGCGACATACCCTGTTCGGAACG +GGTCACTAACAGAGCCGAGAGTTCGTAATCGGCAATCAGTTTCATGCCGCGCTCAACAATCTCTTCTTCG +GTCTTACATTTACCGACAACAGCTTCAAATTCCGAGAGATTCGGCGTTAACAGCGTAGCGCCGCGGTAGC +GCTCAAAATCGGTACCTTTTGGATCAATCAGCACCGGAACACCCGCTTTACGCGCCAGTTGGATCATCTG +CTGTACGCTTGCCAGCGCACCTTTGGCGTAGTCAGAAAGCACCAGCGCGCCAATCGAACTCAGCGCCTGA +TTAATCCGCTCGTGCAGCGGCTGCGGATCAACACCTTCGAAACCTTCTTCAAAATCCAGACGGATCAGCT +GTTGGTTGCGGGAAAGTACCCGTAATTTGGTAATGGTCGGATGCGTCGGTACAGAAACGAAGTCGCATTT +GACGTTGACGTCGGCCAGAGATTTACTCAGCGCGCGCGCTGCATCGTCAATGCCCGTCAACCCGACCAGG +CGTGCATTAGCACCGAGAGAAGCGATATTCATCGCCACGTTAGCCGCGCCGCCCGGACGTTCTTCGATGG +TATTCACTTTAACCACGGGCACCGGCGCTTCCGGCGAGATACGACTGGTGGGGCCGTACCAGTAACGATC +CAGCATCACATCACCAACCACCATCACTCCTGCACGTTCAAACTCTGGCAGCGTTACTTTCATTCCTGTC +TCCTGAGAGATTCAAAATTTGCGCGCGATAATACCATACTTCATTCTTCCACCAGCCACTTCTGCCAGCT +TGCCCGCACCAGTTCACGCTCTGCGGTGAAGCAATCCTCCGACACATGGCCCGGCAATTCCTGTAATGCC +AGATGATGAAGTTCATCGCGAAGCGTAGTGTAAGCACGGGTCAGCGCCATCGCTTCCTGCTCTTCCATAA +TGTCGTTTTGCGCCAGTAGTTCCAGAATACGCACGTTGTCTGACCAGCGCGTTAACTTCGGTTTTTCATG +AGCGTAGCGCAACACCAGATATTGGGTAATAAATTCGATATCGGTAATTCCCCCTTCATCAGCTTTGATA +TCAAAGCGATCGCGATGTTTATTGCCGAGATGAGCGCGCATTTTCTCGCGCATTTCCCGCACTTCCGTTT +GCAGAGTTTTACCTTCACGCGGCAGCGTCATAATCTCGCGACGCACTGCGTCAAAGTGCGCGGTGAGCTG +CGGATCGCCGTACACTACACGCGCACGCACCAGCGCCTGATGTTCCCACGTCCAGGCCTCGTTTTTCTGA +TAATCGGCAAATGCTTCTGCGGATGTCACCAGCATTCCCGCCGCCCCGGACGGACGCAGTCGAGCATCCA +CTTCATACAAAATGCCGGAAGAGGTACGCGTACTGAACAGATGCATAATGCGTTGCGCCAGACGCAGATA +AAACTGCCGCCCGTCGATTTCCCGCTCACCGTCAGTCATCGCATCCATTGGGCAATCATGGAGGAAGATA +AGGTCAAGATCGGAACTGTAGCCTAACTCCCAGCCGCCCAGCTTGCCGTAGCCGACCACCGCAAAACCAC +GCCCTTCGCGTTCGTTCAGGTGATTCGGCTTACCGTAGCGGGCAACCATTTGAACCCACGCCTGCTGAAC +GACGGCATCTATCATGGCTTCCGCCAGCCAGGTTAAGTGATCGCTCACTTTCATCACCGGTAGCGTACCG +GCGATATCCGCTGCGGCGATGCGTAACAGCTGCGCCTGTTTGAACTGACGCAGCGCCTCAAGCTGTTGCT +CTTCGTCATCTTCCGGCACGCGCAGCAAATACTGGCGCAACTCATCGCGGTAGGCATCGGTCGCCGTCGG +CTGGTAAAGGGTGTTTGGATCGAGCAATTCATCCAGCAATAATGGATAACGCGCCAGCTGGCTGGCAATC +ATCGGCGACGCGGCACACAGAGAAATCAAATGTTTAAGCGCCGCGGGGAATTCACTGAGCAATTCTAAAT +AGGTGGTGCGGGTAACAATCCCCACCAGCAAGGCGGTAATGCGCGACAGCGTAACGGCAGCGTCTTCACG +CGCACAGACATCACTTAGCAGATGCGGCATCAGATGGTCGAGCACCTGACGTCCTCGCGGCCCGATGGTG +CGCTTATCCAGCTCTTTGCGGAAATCGGCAATCAGCGTTAGCACCTGTTTGCGATCATCCTCGCTAAGAT +GCGCCAGCACTGGCGTAGTGTCATCTTCCTGCAACGCATCCTGCCACAGCTCACGCCACTGTTCCGACAG +CGACTCTTCCTGAGTTTCACTTTCATCGTCGCCAATCAATTCATTAAACACCCGGCGCACATTGGTCATA +TGTGCGGTCAGCGCCCCGGTCAGTTGCGGCCAGTCAGCAAAGTCCATCGCCCACGCCAGCCGCGCACGAT +TAAGCTCATCAGAAGGAAGCGTCTGGGTTTGTTCGTCGTTAATGCTTTGCAGCAGGTTTTCCAGACGCCG +CAGGAACAGATACGCCACTCGCAATTGTTCAGCATCGTTTTCAGAAAGCAGATGCAGCTCGGCAATGGCG +CTGAGCGTTGGCAGTAAAGAGCGCGATTGCAGCGACGGTTCGCGTCCGCCGCGAATGAGCTGGAACACCT +GAACGATAAATTCAATTTCGCGAATGCCGCCTGCGCCGAGTTTGATATTGTCGGTCAAACCACGTCGACG +CACTTCACGGGCAATCATCCCTTTCATGTTGCGCAGCGACTGAATCACGCTGAAATCGATGTAACGACGG +AAAACAAACGGGCGCAGCATCGCACGCAACTCGTTAGCATAGACGCCTTCGCTATCGCCCATAATCCGCG +CCTTGACCATCGCGTAACGCTCCCAGTCGCGCCCCTGCTCCTGGTAATAATCTTCCAACGCGGCAAAGCT +CAGCACCAGCGGGCCACTTTCGCCAAACGGACGCAGCCGCATATCCACGCGATAGACGAAGCCATCCTGC +GTTGGTTGATCCAGCACTTTAATCAGCCGCTGCCCCATGCGGGTAAAAAACTGCGCGTTATCCAGTTCCC +GGCGTCCACCCTGCGTACAACCATGTTCCGGCCAGGCAAAAATCAGATCGATATCAGAGGAGAAATTCAG +CTCCCCACCGCCCAGCTTACCCATGCCTAAAATCAGCAGCGGTTGCGCTTCGCCCTGCGCATTGCACGGC +GTTCCCCACTCGCGGCAGCAGGCGTCATACAGCCAGTCACGCGCCGCAACAATCAGCGTCTCCGCCAGAT +AGCTGAGCTGCTGCAATATGCTCTCTTCAGTAACCAGTGCCAGCGTTTGCGCCCAGGCGATGCGCACCAT +AATGCGCCGCCGGAATAGCCGCAGCTCGCGCATTAACCCGGCTTCGTCACTCACATTACAGAGCGCCTCC +TGCAACCATGCCGCGTAATGCTGCCATTCGTCGGCCTGCGGCGGTTGGCTTTCCAGTTCCGTCAGCCACT +CTGGATGCGCAATCACGCTGTCCTGCACAAAATCACTAAAAGTAAGTACTGACTTCGCCTGTGCGCTAAG +TGATTCCTCGGCTAAAGGCTCTGGCAGCCGCTCAACAACGGTCTGCCAGTACTGCTGTAACGGTGAAGAG +AGCGGCTTCATAAGCGATTTTATCCTTGCCTGATTAACGTTTTCCGCTGTGCAACCAGAACGGTTCCTGA +TTGTTTGCCTCATTACGGAAATGTTCAATTTCGATGCGTTGCCCGGTCGCAATAGCGTGATGCAGCCCCT +GCCAGTTCTCCAGCCAGGCTTGCGCGACGACAGGATCATAGTAACCCGCCAGCAACAGTATTGAGTCAAT +ATCACGCGTCAGGCGTGGCAACTGGTCACGGTAGCGATCGCCTAACGGCTGGCAGAAAACGCTTTTCAGT +TCAGCGGCATGGCGGGAAAGATGGATATCGGCAAAGCGTTTGAAGGAGTCGCTGATTTTGCCCTGCGCTT +TGGCATCTAAAAATGGCTGCCATGCTTTGCTTACCAACCATTCGGTCAACGCCAGCTTCGCCATTGCCGT +TTCGGTAGAGTAGACCGCCGTCACGGCAGACACCGCAGAAGCAATGGTCGCCTCGCATTGAGTCAGCAGA +TCACGTAAGTGAGTGCTCGCTTTACGCGGCACAATACCACCGAACAGCATCAGCGTATGACGGACCAGGC +TAATGGCTGCCAGCACCTGTTCTTTCGCCGCATCGTTGCCGCGTACCCACAGTTCTTCATGATACTGCCA +TTGCGCTAACGCCAGCTCGAGCGCCGCTTCCAGCCCCTGTTCCACATCGGCTTTTGCCGCAACATGCAAA +ATGGTGGTCGGTTTGATTTCACGCGCCGGATTGCCCTGCGCCAGATGATAGCCACGCGCCGCTTTGCTCA +GGCTGCCCTGGCGTAATCCGGTTTGCGATACCAGTTGGTTCGCCAGTTTCAGCACCGCGCGCGTGTCGCC +GCTAAGCAGTTCCAGTTCCAGCTCACAGATAGGTTCAGCAAATTCACCCGCTTTCACTTCCCCCTGGTCG +AGGGCGATTTCAATTTGGCTACCATCGACCGCCACCAGCCATTTTTCGCGATAAAAATCGGTGCTGAACA +GCGGCTGCACGCGGGAGGCGAGATCGGCGGGCAATTCGCCGTTCGGCCAGACTTCCGTCGGTAACTGCGC +CAGGTCGAGCGTCGGTTCGCTCAACGCCACGTTATATTCCGGGCGCTGATGTAAGCCGCCTGTCACTCTT +CCTGCAACTTTCATGGTCATCTCATAGCGACCGTTTTCGCCACGAATACGTAAGCCCATATCGTGCCCAC +GCAGCCAGTTATCCGGCGTTTCGTAGTAAATATTCAGCAACTGCACGGGGTCATGGTGCTCGCCGCCCAG +CGTATTGAGATGGTCACGCAACGCCTCAACGGCACTGTGATTAACAATAAACTTTAATTCGATTTCCTGA +GCCATGGCCTTTACTTATCGGTTATGTCACATAAGTGACGATGAACGGCGAACTTAATGCGATCTTTTTT +GTCAGTAGATAGTATTTTGCGCCAAATTGCCATGCAACGGGCAATTTGACGGGCGTAAAAGTTTGAAGCA +GTGGCAAGACCTGACACAGAGGATTCCGATTGATGTCGAATGCTTTGCGTAGCGACACTGATGCCACTAC +TATCGTTCCACTTTCCATGACAATAACGACAGCCTGATGCCAAAATTACGCCTGATCGGATTAACTTTAC +TCGCACTTAGCGCGACTGCCGTCTCACACGCTGAAGAAACGCGCTATGTTTCCGACGAACTGAATACCTG +GGTCCGCAGCGGTCCGGGAGATCATTATCGCCTCGTGGGCACGGTTAACGCCGGCGAGGAAGTGACCTTA +TTACAAACTGACGCCAACACCAATTATGCCCAGGTGAAAGACAGCTCTGGCCGTACCGCCTGGATCCCGT +TGAAACAACTTAGCACTGAGCCAAGCCTGCGCTCCCGTGTGCCAGATCTGGAAAATCAGGTCAAAACCCT +GACCGATAAACTCACCAATATCGATAACACCTGGAATCAGCGCACCGCAGAAATGCAGCAAAAAGTGGCG +CAGAGCGACAGCGTGATCAACGGGTTAAAAGAAGAAAATCAGAAACTGAAAAACGAGCTGATTGTCGCGC +AGAAAAAGGTCGATGCCGCCAGCGTACAGCTGGATGACAAACAGCGCACCATCATCATGCAATGGTTTAT +GTATGGCGGTGGCGTGCTGGGGCTTGGCTTGCTGCTCGGTCTGGTACTGCCGCACCTGATCCCAAGCCGC +AAACGCAAAGATCGCTGGATGAACTAAATCGCCTTCTTCGTTGCACTGTCTTATTATTAGGAATTGTGTA +TTTGACGAAGGGATGATGGCGTGAAGATTTATCTGGTCGGTGGTGCTGTTCGGGATGCATTGTTAGGGCT +ACCGGTCAAAGACAGAGATTGGGTGGTGGTCGGCAGTACGCCACAGGAGATGCTCGACGCGGGCTACCAG +CAGGTAGGCCGCGATTTTCCTGTGTTTCTGCATCCGCAAACGCATGAAGAGTATGCGCTGGCACGTACCG +AACGGAAATCCGGTTCCGGTTACACCGGTTTTACTTGCTATGCCGCACCGGATGTCACGCTGGAAGATGA +TCTTAAGCGTCGCGATCTGACCATTAATGCGCTGGCCCAGGACGATAACGGCGAGATTATCGACCCGTAC +AACGGTCTGGGCGATCTGCAAAATCGTCTGTTGCGCCATGTTTCCCCCGCTTTTGGCGAAGATCCGTTAC +GCGTATTGCGCGTGGCGCGTTTTGCTGCGCGTTATGCCCACCTCGGTTTTCGTATTGCCGATGAAACTCT +GGCGTTGATGCGCGAGATGACCCATGCGGGTGAACTGGAACACCTGACGCCTGAACGGGTATGGAAAGAG +ACGGAAAGCGCCCTCACCACCCGCAATCCACAGGTGTTCTTCCAGGTACTGCGCGATTGCGGCGCACTGC +GCGTTTTATTCCCGGAAATTGACGCACTGTTTGGCGTTCCGGCCCCTGCCAAGTGGCATCCGGAAATCGA +TACGGGTATTCATACCTTAATGACGCTCTCAATGGCGGCGATGCTGAGTCCGCAGGTCGATGTCCGTTTC +GCAACTTTATGCCACGATCTCGGTAAAGGGCTGACGCCGCCAGAACTCTGGCCGCGTCATCATGGTCATG +GCCCGGCGGGTGTTAAGTTAGTGGAACAACTATGCCAGCGTCTGCGCGTGCCAAATGAAATTCGCGATTT +AGCCAGACTGGTGGCTGAGTTTCACGATCTCATCCACACCTTCCCAATGCTGAACCCAAAAACCATCGTC +AAATTATTTGATTCCATCGATGCCTGGCGTAAACCGCAGCGTGTCGAGCAACTGGCGCTGACCAGCGAGG +CTGACGTGCGCGGCAGAACCGGTTTTGAATCAGCGGACTACCCGCAAGGCCGCTGGTTGCGCGAAGCCTG +GGAAGTGGCGCAGTCAGTGCCGACAAAAGCCGTCGTTGAAGCGGGATTTAAAGGTGTGGAGATTCGCGAG +GAGCTGACCCGACGGCGGATTGCGGCGGTAGCCAGCTGGAAGGAACAACGTTGCCCAAAGCCTGAATGAG +TATTGGGCATTTTGCCGGATGCGGCGTAAACGCCTTATCCGGCTACATGTCAACGACAGTTGTAGGCCTG +ATAAGACGCGCAAGCGTCGCATCAGGCGTTGATTGCCGGATGCGGCGTGAACGCCTTATTCGGCCTACGC +AATCGTTGACAACGCCAAGCATCCGACACTATTCCTCAATTAAAAGAACACGACATACACCGCAGCCGCC +ACAATAAAGCGATAAATGGCGAACGGGATAAACGAAATGCGCTTAATCAATTGCAGGAAGGTTTTAATCG +CTATCAGCGCCACCACAAAAGCGGTGATAAACCCAACGGCAAACATCGGGATATCGCCGCTTGTCAGGAA +GCCCCAGCTTTTGTAGAGATCGAGCGCCGTTGCGCCCATCATCATCGGCACCGCCAGCAGGAACGAAAAC +TCGGAAGCAGCGTAACGGCTCACCCCCATCAGCATCCCACCTGAAATGGTCGCCCCGGAACGGGAGAAAC +CCGGCCACAGCGCCAGACACTGGAAACAGCCAATCATAAATGCCTGACGATAGGTCATATCATCAAGACC +CGGCGCACGCGGCTCTTTCGGCTTCAGGCATTCGGCGGCAATCAGCAACAAACCGCCAACGACCAGCGCA +TACATCACATTTATCGGGTTAAACAATGACTTAATCGTGTCGTGGAACAACAGCCCCAATACCACCGCCG +GAATCATCCCCAGCAAAATGTGGATCAGCGTTAAACGACCTTTGCTTTCACCTTCGTGCTGCAACGGGCG +GCCAAAGTGGATGCCAATCAGGCCAAACAGACGCCGCCAGAACATCACTACTACCGCCAGAATTGATCCT +AACTGGATCACAACTTCAAAGGTTTTCGCCGTGTCGCCCTCAAACCCCAACAAGTGACCGACAATAATCA +TATGGCCCGTGCTGGATACCGGCAGAAATTCTGTCAATCCTTCGACCACACCCAATATTGCCGCTATCAG +CAGCGAGTGCATATCGCTCATCAATAAACCCCTAAATTATTAAAATGTACCGCTTGTCCGAACTACTGCG +TATGACCAGGTTATAACCGTTTGGTTTAACAGCTGTAAAATTAATTATTTTCTTTCAGATTATTGCCACG +CTCAATGATTACGCCAACATTCGCCGCCCGCGCCACTGCGCCTGGCTTGCTGAGTTTGATACGCACCCAC +GGCGAGTTGAAGCGTGCTAACAGCAGCTCCGCCACCTCTTCAGCCACGCGTTCCACCAGCGCAAAACGCG +CCCCCTCGACGTGGCTGACCACCGTTTCTGCAATGTCAGCGTAACTGAGGCAATCCGCCACATCATCACT +TTTCGCCGCTTTACGGTTATCCCACGCCATTTCGATATCGAACACTAACTTCTGTTCGATGGTCTGTTCC +CAGTCGTAAACACCAATAGTGGTGATTACCGAAAGTTGCTCTATAAATACAATATCCATCACGTCCTGCC +TGCTTTTTGGCTAACCGGATACCACTTCCGGCGAAATGTGCGTATTATCCACAGATTCATCGTTGAACAC +GAATTTTCAAAACGGAACAGCTTATGAGTGCAATCGCGCCTGGAATGATCCTCATCGCGTACCTCTGCGG +CTCCATTTCCAGTGCCATTCTGGTTTGCCGCTTGTGTGGGCTGCCCGATCCGCGAACCAGCGGCTCCGGC +AATCCAGGCGCAACCAATGTGTTACGTATCGGTGGCAAGGGAGCAGCCGTAGCAGTACTGATTTTCGACG +TTCTGAAAGGAATGTTGCCCGTCTGGGGCGCGTATGAATTAGGTGTCAGCCCCTTCTGGCTAGGCTTAAT +TGCCATCGCCGCCTGTCTTGGACACATCTGGCCCGTTTTCTTCGGATTTAAAGGAGGAAAAGGCGTTGCT +ACCGCTTTTGGTGCCATCGCACCCATTGGCTGGGATCTCACCGGAGTAATGGCGGGAACCTGGTTACTGA +CCGTGCTATTGAGCGGATACTCGTCGCTGGGAGCGATTGTCAGTGCACTGATTGCTCCGTTTTATGTCTG +GTGGTTTAAGCCACAATTCACCTTCCCGGTTTCGATGCTCTCTTGCCTGATCCTGCTGCGTCATCATGAC +AACATCCAACGTCTGTGGCGTCGTCAGGAGACAAAAATCTGGACGAAATTCAAAAGAAAGCGCGAAAAGG +ATCCCGAGTGATTTCTGGTGGATCTACATGACCTGATAGCCTTCATCGGGCTTGCCCAGCCGTTGCTGGC +ACCATGCCGCCAGAAATTCCACGCAGACACGTAATTTCATGCTGCGATAGAGCGGCTCCCGGTAAACAGC +CCAGATATTGGCGCTTTGTGCATACTCTGGCAATACTTGCACCAGTTTGCCACTCTCCAGAAACGGCAAC +ACATCCCACTCGGAACGCAGCATAATCCCTTTGCCCTCCAGCGCCCATTGCAGCACAATCTCGCCGCTAT +TGGAGGAAAGATGCCCGCTTACCTTCACCGATTTTTTCTCCTGACCGTTCCCCAACTCCCATATTCCATG +GGTCATATCGCGCTCTTTGGTCACCAGACAGTCATGACGACTTAATTCCTGTAGGGATTGTGGCTGCGGA +TATTTTTGCAGATACTCAGGTGCTGCGCATAATATTCTTTTATTTTTTGTCAAAAGATGCGCAATATAAT +AATCAGGAATTTCGTCATTAATACGAATATCCAGATCAATATTATCCTGCACTAAATCAATTTGCCGATC +GAACAATTCAAAATGCACCTGTAACTCAGGATAATTGCGCATCAGTTCGGTAATAGCTGGCGCAATATGG +CTGCGCCCAAAACCAAAACTGCAACCAATACGAATCATCCCCTCCGGGCGCGTTTTGATTTGCGTGACGT +CATCGACCAGTCGCTGATATTGGGTGAGGATTTCCAACGCATGTTCGTAACAACGTTGGCCACTTTCAGT +CAGCGCCACGCCGCGAGCGGAGCGGTTCAGCAGCGTTGTTGCCAGCGTATTTTCAAGGATTTGGATCCGC +TTGGTGACAAATGCAGGCGTCTGCCCAAGCGTCGCCGCTGCGGCGCTAAAACTCCCGCTGTGAACGATTT +CTACCAGTACCTGCAAGTCTTTGGCTAAAGGCCAGCTATTCAGCATCGTTAATTATCCGCAGTTGTGATA +AGCGCAGTGTATTTCGCAAAACATTGCCATTCCCTGCTCTGGCGCAATATTCATTCTTATTTTCGCGTTG +ATTCACGAACTGTTAATTACATATTCACGGTGGCAAAAAATATAAAACCACATTTTTAGTGGTAGTTTGT +GGCGGTGAATTTTTCCAGACAAATACAAAAACTGGAGTTGCCATGATGAGCGAAAGTAATAAGCAACAGG +CAGTGAATAAGTTGACAGAGATTGTCGCTAACTTTACCGCCATGATTTCTACCCGAATGCCTGATGACGT +GGTGGATAAACTAAAACAGCTAAAGGATGCCGAAACGTCGTCGATGGGGAAAATTATCTACCATACGATG +TTCGACAACATGCAAAAAGCGATTGACCTGAATCGTCCTGCCTGTCAGGACACCGGGGAGATTATGTTCT +TCGTTAAAGTCGGTTCCCGCTTCCCACTGCTTGGCGAGCTGCAAAGCATACTCAAACAAGCCGTGGAAGA +GGCAACCGTCAAAGCGCCACTACGTCACAATGCGGTAGAAATTTTTGACGAAGTAAACACCGGCAAAAAT +ACCGGTAGCGGCGTACCGTGGGTCACCTGGGACATCATCCCCGACAATGACGATGCGGAAATCGAAGTTT +ACATGGCAGGCGGCGGCTGCACGCTACCTGGCCGCTCGAAAGTGTTAATGCCGTCAGAAGGCTACGAAGG +CGTGGTGAAATTCGTCTTCGAAAATATCTCCACCCTCGCCGTAAACGCCTGTCCACCGGTACTGGTGGGC +GTGGGCATCGCCACCTCGGTGGAAACCGCCGCCGTACTCTCGCGTAAAGCCATTTTGCGCCCGATTGGCA +GCCGCCATCCCAATCCAAAAGCGGCAGAACTGGAGCTACGCCTGGAAGAAGGACTCAACCGTCTGGGGAT +TGGTCCACAAGGGCTGACCGGCAACAGTTCAGTGATGGGCGTACATATCGAATCTGCCGCCCGCCATCCG +TCAACCATCGGCGTTGCTGTCTCTACCGGCTGCTGGGCGCATCGTCGCGGCACGCTGCTGGTTCATGCCG +ATCTCACCTTTGAAAATCTGTCTCACACCCGGAGCGCGTTATGAAAAAGATCCTGACAACCCCGATCAAA +GCTGAAGATCTGCAAGATATTCGCGTCGGCGATGTGATCTACCTGACCGGTACGCTGGTGACCTGCCGCG +ACGTTTGTCACCGCCGTTTGATCGAACTGAAACGTCCGATCCCTTACGATCTCAACGGCAAAGCGATTTT +CCACGCTGGCCCCATCGTGCGCAAAAACGGCGACAAATGGGAGATGGTCTCCGTCGGCCCGACAACCAGT +ATGCGTATGGAAAGTTTTGAACGTGAATTTATTGAGCAGACCGGCGTGAAACTGGTGGTTGGCAAAGGTG +GTATGGGGCCGCTGACCGAAGAAGGCTGCCAGAAATTCAAGGCGCTACATGTGATTTTCCCGGCAGGCTG +CGCGGTGCTGGCGGCAACCCAGGTGGAAGAGATTGAAGAAGTGCACTGGACAGAGCTCGGAATGCCGGAG +TCACTGTGGGTCTGCCGGGTCAAAGAGTTCGGCCCGCTGATTGTCTCTATTGATACCCACGGCAACAACC +TGATAGCCGAAAACAAAAAGCTGTTCGCCGAACGCCGCGATCCCATCGTGGAAGAGATCTGCGAGCACGT +CCATTACATCAAATAACCCTCCCGGAGAGGCTCACCCCTCTCCTTTTTCGCAGGCATAACACGATGAAAC +CTTCCACTGAATGGTGGCGATATCTTGCGCCGCTGGCGGTCATCGCCATTATTGCTCTACTTCCGGTTCC +CGCAGGGCTGGAGAACCATACCTGGCTCTACTTTGCCGTTTTTACTGGCGTGATCGTTGGACTGATCCTC +GAACCCGTGCCGGGTGCCGTGGTGGCGATGGTGGGTATATCCATCATCGCCATACTCTCTCCCTGGCTGC +TGTTCAGCCCGGAGCAGCTCGCTCAGCCAGGCTTTAAATTCACTGCAAAATCCCTCTCGTGGGCCGTTTC +CGGTTTTTCTAATTCGGTTATCTGGCTGATTTTCGCCGCCTTTATGTTTGGCACAGGCTATGAAAAAACC +GGGCTTGGACGCCGCATTGCGCTGATTCTGGTGAAAAAGATGGGACATCGCACGCTGTTTCTCGGCTATG +CGGTGATGTTCTCCGAGCTGATCCTCGCACCTGTAACACCGTCCAACTCGGCGCGTGGTGCGGGGATTAT +CTATCCCATCATCCGTAACCTGCCACCGCTCTATCAATCACAACCAAACGACAGCAGTTCGCGCAGCATT +GGCTCGTACATCATGTGGATGGGGATTGTTGCCGACTGCGTGACCAGCGCCATTTTCTTGACGGCGATGG +CACCAAACTTGCTGTTAATTGGACTGATGAAAAGCGCATCTCACGCCACGCTGAGTTGGGGCGACTGGTT +CCTCGGGATGTTGCCGCTCAGCATTTTACTGGTTCTGCTGGTTCCCTGGCTGGCTTACGTGCTGTACCCG +CCGGTACTGAAGTCTGGCGATCAGGTGCCGCGCTGGGCAGAGACGGAACTGCAGGCAATGGGCCCGCTCT +GTTCGCGTGAAAAACGGATGCTGGGGCTGATGGTAGGCGCGCTGGTGCTGTGGATTTTCGGCGGTGATTA +TATCGATGCCGCGATGGTCGGTTACAGCGTGGTGGCACTGATGCTGCTTCTGCGCATTATCAGTTGGGAC +GACATTGTCAGTAATAAAGCGGCGTGGAACGTTTTCTTCTGGCTGGCCTCGCTTATCACCCTCGCCACCG +GACTCAACAACACCGGTTTTATTAGCTGGTTTGGCAAACTGTTAGCAGGCAGCTTAAGCGGTTATTCGCC +AACGATGGTGATGGTGGCGTTGATTGTGGTGTTTTATCTACTGCGCTACTTTTTCGCCAGCGCCACGGCG +TATACCTCCGCTCTCGCACCGATGATGATTGCTGCTGCGCTGGCGATGCCGGAAATCCCGCTGCCGGTGT +TCTGCCTGATGGTTGGTGCGGCAATTGGTCTGGGGAGCATTCTTACACCATACGCCACCGGCCCCAGTCC +GATTTACTACGGCAGTGGTTATCTGCCAACGGCGGATTACTGGCGACTGGGGGCGATTTTTGGGCTGATA +TTCCTCGTATTGCTGGTGATTACCGGCTTACTGTGGATGCCCGTGGTGTTGCTTTAAGTGAGGACGGTGC +CGGAAATTGCTCTCCGGCACCCAATAGTTTTACGCAGCCGGTAACTCCGCCAGCGGCCAGCGCGGACGCA +CGCTAACGCCGAGATCCGCCGTCGCGCCTGCTTTAAACCGCACCATTCCGGCATAGGCGATCATCGCGCC +GTTATCAGTACAAAATTCCGGACGCGCGTAGAACACTTCGCCGCGGCGTTTTTTCATCATTTCAGCCAGC +TTCGCCCGTAACGTACGGTTAGCACTCACGCCGCCCGCCATGACCAGTCGCTTAAAGCCCGTCTGATCCA +GCGCCCGCTTGCACTTAATCATCAGCGTATCGACCACCGCATCTTCAAAGGCGCGGGCGATATCAGCACG +CGTCTGGTCGTCGGTGCCGTTGTCACGAATGGTATTTGCCGCGAAGGTTTTCAGGCCGGAGAAGCTGAAA +TCCAGCCCCGGACGGTCGGTCATCGGACGCGGGAAGACAAAGCGCCCGGCAGTACCCTGAGCCGCCATTT +TCGACAGTAACGGCCCGCCAGGATAATCCAGCCCCAGCAGCTTCGCGGTTTTATCAAACGCTTCCCCGGC +GGCATCATCGATAGACTCGCCGAGCAGCTCGTACTGACCAATGCCAGTCACGCTGATTAACTGCGTATGA +CCGCCGGAAACAAGCAGCGCAACAAACGGAAATTCCGGCGGGTTATCTTCCAGCATCGGCGCTAACAGAT +GCCCTTCCATATGGTGTACAGGGATCGCCGGAACGTCCCAGGCAAACGCCAGAGAACGCCCCACGGTCGC +GCCAACCAGTAGCGCGCCGACTAATCCAGGGCCTGCGGTATAGGCCACAGCATCAATGTCTTTTGCCGTT +AAACCAGACTCCTTTAGCGCCGCCTGGATCAACGGTACGGTTTTACGCACATGATCGCGGGAGGCCAGTT +CAGGCACGACGCCGCCGTAGTCAGCGTGCAATTTCACCTGACTATACAATTGGTTGGCTAACAAACCTTT +TTCATCGTCGTAAATGGCGATGCCGGTTTCATCGCAGGAAGTTTCAATACCCAGTACACGCATGACTTGT +TTTACCTCGCTTTATTACCGCGCAGTGTAGGACCAATGCGGGTTGATGTAAAACTTTGTTCGCCCCTGGA +GAAAGCCTCGTGTATACTCCTCACCCTTATAAAAGTCCCTTTCAAAAAAGGCCGCGGTGCTTTACAAAGC +AGCAGCAATTGCAGTAAAATTCCGCACCATTTTGAAATAAGCTGGCGTTGATGCCAGCGGCAAACCGAAT +TAATCAAAGGTGAGAGGCACATGCCGGTAATTAAAGTACGTGAAAACGAGCCGTTCGACGTAGCTCTGCG +TCGCTTCAAGCGTTCCTGCGAAAAAGCAGGTGTTCTGGCGGAAGTTCGTCGTCGTGAGTTCTATGAAAAA +CCGACTACCGAACGTAAGCGCGCTAAAGCTTCTGCAGTGAAACGTCACGCGAAGAAACTGGCTCGCGAAA +ACGCACGCCGCACTCGTCTGTACTAATTCCCCGAGAGCGTTGCTCTCCGATCAGACCGAGTTGTAGTTGT +AAGGCCGTGCTTCCGAAAGGAATGCGCGGCTTATTTTCGTTTATGAATTGCTAAAAATCGGGGCCTATGG +CTGGACGAATCCCACGCGTATTCATTAATGATCTGCTGGCACGCACTGACATCGTCGATCTGATCGATGC +CCGTGTGAAGCTGAAAAAGCAGGGCAAGAATTTCCACGCGTGTTGTCCATTCCACAACGAGAAAACCCCG +TCCTTCACCGTTAACGGTGAGAAACAGTTTTACCACTGCTTTGGATGTGGCGCGCACGGCAACGCGATCG +ACTTCCTGATGAACTACGACAAGCTCGAGTTCGTCGAAACGGTCGAAGAGCTGGCAGCAATGCACAATCT +TGAAGTGCCATTTGAAGCAGGCAGCGGCCCCAGCCAGATCGAGCGCCATCAGAGGCAAACGCTTTATCAG +TTGATGGACGGTCTGAATACGTTTTACCAACAATCTTTACAACAACCTGTTGCCACGTCTGCGCGCCAGT +ATCTGGAAAAACGCGGATTAAGCCACGAGGTTATCGCTCGCTTTGCGATTGGTTTTGCGCCCCCCGGCTG +GGACAACGTCCTGAAGCGGTTTGGCGGCAATCCAGAAAATCGCCAGTCATTGATTGATGCGGGGATGTTG +GTCACTAACGATCAGGGACGCAGTTACGATCGTTTCCGCGAGCGGGTGATGTTCCCCATTCGCGATAAAC +GCGGTCGGGTGATTGGTTTTGGCGGGCGCGTGCTGGGCAACGATACCCCCAAATACCTGAACTCGCCGGA +AACAGACATTTTCCATAAAGGCCGCCAGCTTTACGGTCTTTATGAAGCGCAGCAGGATAACGCTGAACCC +AATCGTCTGCTTGTGGTCGAAGGCTATATGGACGTGGTGGCGCTGGCGCAATACGGCATTAATTACGCCG +TTGCGTCGTTAGGTACGTCAACCACCGCCGATCACATACAACTGTTGTTCCGCGCGACCAACAATGTCAT +TTGCTGTTATGACGGCGACCGTGCAGGCCGCGATGCCGCCTGGCGAGCGCTGGAAACGGCGCTGCCTTAC +ATGACAGACGGCCGTCAGCTACGCTTTATGTTTTTGCCTGATGGCGAAGACCCTGACACGCTAGTACGAA +AAGAAGGTAAAGAAGCGTTTGAAGCGCGGATGGAGCAGGCGATGCCACTCTCCGCATTTCTGTTTAACAG +TCTGATGCCGCAAGTTGATCTGAGTACCCCTGACGGGCGCGCACGTTTGAGTACGCTGGCACTACCATTG +ATATCGCAAGTGCCGGGCGAAACGCTGCGAATATATCTTCGTCAGGAATTAGGCAACAAATTAGGCATAC +TTGATGACAGCCAGCTTGAACGATTAATGCCAAAAGCGGCAGAGAGCGGCGTTTCTCGCCCTGTTCCGCA +GCTAAAACGCACGACCATGCGTATACTTATAGGGTTGCTGGTGCAAAATCCAGAATTAGCGACGTTGGTC +CCGCCGCTTGAGAATCTGGATGAAAATAAGCTCCCTGGACTTGGCTTATTCAGAGAACTGGTCAACACTT +GTCTCTCCCAGCCAGGTCTGACCACCGGGCAACTTTTAGAGCACTATCGTGGTACAAATAATGCTGCCAC +CCTTGAAAAACTGTCGATGTGGGACGATATAGCAGATAAGAATATTGCTGAGCAAACCTTCACCGACTCA +CTCAACCATATGTTTGATTCGCTGCTTGAACTGCGCCAGGAAGAGTTAATCGCTCGTGAGCGCACGCATG +GTTTAAGCAACGAAGAACGCCTGGAGCTCTGGACATTAAACCAGGAGCTGGCGAAAAAGTGATTTAACGG +CTTAAGTGCCGAAGAGCGATCGGGAAGCCCCCGACAGCCGCACTGAGAGGCAGCGGCAAATATATAAGTA +CGCCCTCGTAATTATCGTTGGCGGTAAACAACCGTTGGATTTCAGCGTTAACGGCTGAAGGACATCGGGT +CAATCGCCCAACACCAACCTCATGAAATAAGTGTGGATACCGTCTTATGGAGCAAAACCCGCAGTCACAG +CTGAAACTTCTTGTCACCCGTGGTAAGGAGCAAGGCTATCTGACCTATGCCGAGGTCAATGACCATCTGC +CGGAAGATATCGTCGATTCAGATCAGATCGAAGACATCATCCAAATGATCAACGACATGGGCATTCAGGT +GATGGAAGAAGCACCGGATGCCGATGATCTGATGCTGGCTGAAAACACCGCGGACGAAGATGCTGCCGAA +GCCGCCGCGCAGGTGCTTTCCAGCGTGGAATCTGAAATCGGGCGCACGACTGACCCGGTACGCATGTACA +TGCGTGAAATGGGCACCGTTGAACTGTTGACCCGCGAAGGCGAAATTGACATCGCTAAGCGTATTGAAGA +CGGGATCAACCAGGTTCAATGCTCCGTTGCTGAATATCCGGAAGCGATCACCTATCTGCTGGAACAGTAC +GATCGTGTTGAAGCAGAAGAAGCGCGTCTGTCCGATCTGATCACCGGCTTTGTTGACCCGAACGCAGAAG +AAGATCTGGCACCTACCGCCACTCACGTCGGTTCTGAGCTTTCCCAGGAAGATCTGGACGATGACGAAGA +TGAAGACGAAGAAGATGGCGATGACGACAGCGCCGATGATGACAACAGCATCGACCCGGAACTGGCTCGC +GAAAAATTTGCGGAACTACGCGCTCAGTACGTTGTAACGCGTGACACCATCAAAGCGAAAGGTCGCAGTC +ACGCTACCGCTCAGGAAGAGATCCTGAAACTGTCTGAAGTATTCAAACAGTTCCGCCTGGTGCCGAAGCA +GTTTGACTACCTGGTCAACAGCATGCGCGTCATGATGGACCGCGTTCGTACGCAAGAACGTCTGATCATG +AAGCTCTGCGTTGAGCAGTGCAAAATGCCGAAGAAAAACTTCATTACCCTGTTTACCGGCAACGAAACCA +GCGATACCTGGTTCAACGCGGCAATTGCGATGAACAAGCCGTGGTCGGAAAAACTGCACGATGTCTCTGA +AGAAGTGCATCGCGCCCTGCAAAAACTGCAGCAGATTGAAGAAGAAACCGGCCTGACCATCGAGCAGGTT +AAAGATATCAACCGTCGTATGTCCATCGGTGAAGCGAAAGCCCGCCGTGCGAAGAAAGAGATGGTTGAAG +CGAACTTACGTCTGGTTATTTCTATCGCTAAGAAATACACCAACCGTGGCTTGCAGTTCCTTGACCTGAT +TCAGGAAGGCAACATCGGTCTGATGAAAGCGGTTGATAAATTCGAATACCGCCGTGGTTACAAGTTCTCC +ACCTACGCAACCTGGTGGATCCGTCAGGCGATCACCCGCTCTATCGCGGATCAGGCGCGCACCATCCGTA +TTCCGGTGCATATGATTGAGACCATCAACAAGCTCAACCGTATTTCTCGCCAGATGCTGCAAGAGATGGG +CCGTGAACCGACGCCGGAAGAACTGGCTGAACGTATGCTGATGCCGGAAGACAAGATCCGCAAAGTGCTG +AAGATCGCCAAAGAGCCAATCTCCATGGAAACGCCGATCGGTGATGATGAAGATTCGCATCTGGGGGATT +TCATCGAGGATACCACCCTCGAGCTGCCGCTGGATTCTGCGACCACCGAAAGCCTGCGTGCGGCAACGCA +CGACGTGCTGGCTGGCCTGACCGCGCGTGAAGCAAAAGTTCTGCGTATGCGTTTCGGTATCGATATGAAC +ACCGACTACACGCTGGAAGAAGTGGGTAAACAGTTCGACGTTACCCGCGAACGTATCCGTCAGATCGAAG +CGAAGGCGCTGCGCAAACTGCGTCACCCGAGCCGTTCTGAAGTGCTGCGTAGCTTCCTGGACGATTAATC +GGTAGGCCGGATCAGGCGTTACGCCGCACCCGGCACTAGGCCCTCTGCACAAACGCCACCTTTTCGGTGG +CGTTTTTTATCGCCCACGCACTACCAGCGCCTGGTCCAGCTCGCGATACGCTTCAACCAGTTTCTCCAGT +GAAACGCGACTTAAACCGCTGGGATTTGGCAGCACCCAAATCTGCGTCGAACCAATGGTGAGCGTTTGTT +TCCCCCACTGTGCACCGCGCTGGCTGAATCCCTGTTCATATGCTTGTTTGCCCAGAATCGCCAACGCCTG +CGGCTGATAATCTTCAATTTTTTCAATCAGCTTACGCCCGCCTGCGTGTAGCTCCTGCTTTGAAACTTCA +TTGGCTTGCACCGTTGGACGGTCTACCAGTTTGGTGACGCCACAACGATAATCCAGCAGATGCTGTGCCT +CCTGCGGCTTCAACTGACGGTCGGTAAACCCGGCCTGATATATCACCTTCCAGAAGCGATTTGCCGGATG +AGCAAAGGGAAAACCAGTCCCGGCGGATGAAAGCCCAGGGTTGATACCGCAAAACACGACCCGTAACCCT +GGAGCCAAAATATCCTCAACCATATTTACTCCTTTCTAACATCACCAGGAAAAGTATAACGGATTGAAAA +TACATTGTTTATAAAAACAGCAGGCGCGCGGTAATGGCTGGATTGCGACACGGAGTTACTTTATAATCCG +CTACCATGGCCCCTTAGCTCAGTGGTTAGAGCAGGCGACTCATAATCGCTTGGTCGCTGGTTCAAGTCCA +GCAGGGGCCACCAGATATAGCAAAGGCTGACGAGAAATCGTCAGCCTTTTTCTTTTTATATATCAGTTAC +TTTGCGTGCCAGTAAGCCGCTGCACGTACCCGCTGTGGGTCATACTGTTCCGCTTCAAAGCGGCGGCTTA +AATTCTTAACGACTTTACCTTCGCCGGTTATCCAGATGAAGTAATCATCGGCAGGGATTTGCATCTGCGC +CAGACGCGCATCTACCGCCTGCTCATCATGTGCCAGCCATTCGATATTAAAACCATCAAGGTGCGCGAGA +TAATCCTGACAGGCGTTATCCCGCACGCTAACCAGCGCACTAACTTGCGGTTTAACGGCAAGTTTGCTCA +ACGTTTCCAGGCGGCGGCGCAATGCAGGCATTCCGGATTCATCGCAGACATACAGCTGATACGCGTAATC +TTCCGGCACCACCAGCGAACCGCGCGGACCTGCCACCGTAAGTTTATCGCCCGGTTGCGCCTGCATCGCC +CAGCCGCTGGCGACCCCACCGTCGTGAATAAAGAAATCAATCGCCAGTTCATGGCGTAGTTCGTCATACA +GCGGCGTATAGTCACGCGACGGTGGGCGTGGTCCTTCCGGCCAGACGATGCCCTCTTCCGTTACCGTTGG +CGGCACAAAGTGAGCGTCAGGTTGAGGAAAGAAGAGTTTGCTGTGATCGTCAAAGCCACGCGATGTAAAA +CCGTCCAGCGCCTCGCCGCCGAGGACAATGCGCTGAAAACCGGCGCTGATGCGCTCAACGCGTAACACAG +TCAGTTCACGGAAGCGCAGATCATTGCGAACGCGCTGCGGGTAGCGGGGGGTGTTATTCATTGTTATCGC +CTTCGTGATGGTAATCAGATATATCTAAATAAAACTCGCAAATGATAATGATTGTTAATCATGATAAATG +CAAGCGATTTGTAGAACTGATATGTCTATAGTCTGATAAGACGAACCGCCTCTTCTCAGGCATCATTACT +CAACGCCGGATGCGGCGTGAACGCCTTATCCGGCCTACGTGTGAGATGAGTCCACGTTTAAAAATCATTT +TTACACTTGCAAGAACGCTCATATCAGATATAAATTAGATATATCTAATTAAGCAAAAGGAGGCTGATAT +GAGCCATCATCACGAAGGGTGTTGTAAACATGAAGGCCAGCCACGCCATGAGGGCTGCTGCAAAGGTGAG +AAGTCAGAACACGAGCACTGCGGACACGGTCACCAGCATGAACACGGTCAATGCTGCGGTGGTCGCCACG +GTCGCGGCGGCGGTCGTCGGCAACGTTTCTTTGGTCACGGTGAATTACGTCTGGTGATTCTGGATATTCT +CTCGCGCGATGACAGCCACGGTTACGAATTGATTAAAGCGATTGAGAATCTAACCCAGGGGAATTACACC +CCAAGCCCGGGCGTCATCTACCCAACGCTGGATTTTCTGCAGGAGCAGTCGCTGATTACCATCCGCGAAG +AGGAAGGAGGTAAGAAGCAGATTGCGCTGACCGAACAAGGCGCGCAGTGGCTGGAAGAAAACCGCGAACA +GGTGGAGATGATTGAAGAACGCATCAAAGCGCGTTGCGTTGGCGCGGCGCTGCGCCAGAACCCGCAAATG +AAGCGGGCGCTGGATAATTTTAAAGCGGTGCTGGATTTACGCGTCAACCAGAGCGATATCAGTGATGCAC +AAATAAAAAAGATCATTGCGGTGATCGACCGCGCCGCTTTTGATATTACGCAACTGGATTAATCGCCGCA +TCCGCCAGTGGCGCGGTGCAATTGCCGGATGCGACGCTTGACGCGCCTTATCCGGCCTACACCCGCTACA +CACCCCGCAGGCCTGATAAGATGCGCCAGCATCGCATCAGGCATTGTGCTCCAACCGCCGGATCCGGCAT +ACCGATTAATGCAGTACCGTCACCGCGTCTTCCAGTCGGCTGGCGCGGTGTTTCACCATCGCCGACACCT +GCGCACTCTCTTCCACCAGCTCGGCATTTTTCTGGGTGATCAGGTTAAGCTCATCCACTGCACGGGTCAG +GCTGGAAAGCCCATCGGCCTGTTCCAGCGTTGAATGGCTAATCTGGGCGATCAACTGGGTGACGTTTTTC +ACCTGTGCCACAATATCTTCCATCGTCCGTCCGGCGGCGTGTACCTGCTGCGAACCGGATTGCACCTTAT +CAGCACTGGCATCAATCAGCTTGCGAATATCGTTGGCAGCATTAGCGCTGCGGCTGGCTAAATGACGCAC +TTCCCCTGCCACCACTGCAAAACCTTTGCCCTGTTCGCCGGCACGCGCCGCTTCCACCGCCGCATTCAGG +GCCAGAATATTGGTCTGAAACGCAATATCGTTAATCAGCGAAGTAATGGTGCCAATGCGCTGGGTACTGT +CGGCGATATCGTCCATTGTCTTGATCACCGTGGTCATCGCCTCCCCACCCTGCACTGCCGCATTACTGGC +AGTGATTGACAGTTTATCGGCAGCCGACGCCGTGGCAGAGTTCTGTTTCACCGACGCCGCCATTTGGTTC +ATGGTCGCCACCGTTTGCTGAACGTTATCAACTGTCTGCTGGGTATGTTCGTTCAGTTCATCGGTGCCTT +TCGCCAGCGTCTCACTGCCATTTCTGACACTGGACACCTGGCTTGAGACATCGTTAATTAGCCAACGGCA +CATCAGGCCAAGTTGCCCTACCGCACGTAATGTCAGCCCCAGCTCATCGCTGCGATTCAGATGCTCAACA +CTATTACGTTCTCCGGTCGCCACCTTCAGTGCCTGATGGGCAACATTTTCTATCGGGCGCACAATCTGCC +ATTCAAAACAGGCGCTTGCCAACAATACCACTAACGCACAGAGGATATACGTCACCACCGGGGCAGCAAC +AAACCAAAGCATGGCCGCCAGCAAGATAAACATCAGGGTCATCACTCCACGCGCCCGCCAGCGAAGCGGT +AATGAAGGCAGTTTACCCAGCCAGCCTTTACGCACCACCAGGCCTTTATGAATACGCTTACTGGTACGTC +CGGCGTTCAACGCTTTGTACAGCGGCTCCACCGCCGCGATCTCTTCATCCGTCGCCCGGGTACGAATCGA +CATATAGCCACTGATTTTTCCCTCGCGCACCATCGGTACCGCATTGGCCCGCACCCAATAATGGTCACCA +TTTTTGCGGCGATTTTTCACGATGCCGCTCCAGGGCTCCCCTTTTTTCAGGGTGAACCACATATCCGCAA +ACGCCGCTTTTGGCATATCCGGGTGACGCACCATGTTGTGCGGCTGCCCTTGTAACTCTTGCAAGGTATA +GCCGCTCACCTGCACAAAAGTGTCATTAGCATGAGTGATATAGCTTTGCAGATCGGTAGTGGACATCAGA +GTGGTATCGTCCGCCAGCGGGGTATTTTGCTGGGTGACATACGGATGAGAAGACATGTTCGCGTCCTGTG +CAGGTTATATGGTTGTTAACTTCTTGTCAGAGTTTATGTCGGCCCCGCTGCGGTTATCTTTAACCGATTA +ATTTGATTTAGATCGCAATTTGCGATTTAAACACAAATCTAATTCCTTGATTTAAAATACTTTCACTCTG +TTACTATACGAAAACGTTAATTATCTTGCCCAAAAATCAGGCAATTATTGCCCTGAAAACGTGCATTTGC +GCAGCAATCATCAAATCCATACCCGACAAAAACCGTGCAAAATAACAACAAATGTTAACAGATAGCATTA +AATATTGCACAAATGATAACCGAATTTGTGTTTATCCCGATTTTCGCGATCGCAGCCGGAGTGGCGCAAT +CCCTGCAATACTTAAATCGGTATCATGTGATACGCGAGCCTCCGGAGCATATTTTGAACAGGTTACCTTC +GAGCGCATCGGCTTTAGCGTGCAGCGCCCACGCCCTGAATCTCATTGAGAAGCGAACGCTGGATCATGAG +GAGATGAAAGCACTTAACCGAGAGGTGATTGAATACTTCAAAGAGCATGTCAATCCGGGGTTTTTAGAGT +ATCGCAAATCTGTTACCGCCGGCGGGGATTACGGAGCCGTAGAGTGGCAAGCGGGAAGTTTAAATACGCT +TGTCGACACCCAGGGCCAGGAGTTTATCGACTGCCTGGGAGGTTTTGGAATTTTCAACGTGGGGCACCGT +AATCCAGTTGTGGTTTCCGCCGTACAGAATCAACTTGCGAAACAACCGCTGCACAGCCAGGAGCTGCTCG +ATCCGTTACGGGCGATGTTGGCGAAAACCCTTGCTGCGCTAACGCCCGGTAAACTGAAATACAGCTTCTT +CTGTAATAGCGGCACCGAGTCCGTTGAAGCAGCGCTGAAGCTGGCGAAAGCTTACCAGTCACCGCGCGGC +AAGTTTACTTTTATTGCCACCAGCGGCGCGTTCCACGGTAAATCACTTGGCGCGCTGTCGGCCACGGCGA +AATCGACCTTCCGCAAACCGTTTATGCCGTTACTGCCGGGCTTCCGTCATGTGCCGTTTGGCAATATCGA +AGCCATGCGCACGGCTCTTAACGAGTGCAAAAAAACCGGTGATGATGTGGCTGCGGTGATCCTCGAACCG +ATTCAGGGTGAAGGTGGCGTAATTCTGCCGCCGCCGGGCTATCTCACCGCCGTACGTAAGCTATGCGATG +AGTTCGGCGCACTGATGATCCTCGATGAAGTACAAACGGGCATGGGGCGCACGGGCAAGATGTTCGCCTG +CGAGCATGAGAACGTACAGCCGGATATCCTCTGCCTTGCCAAAGCGCTCGGCGGCGGCGTGATGCCGATT +GGCGCGACCATCGCCACTGAAGAGGTGTTTTCAGTTCTGTTCGACAACCCATTCCTGCATACCACCACCT +TTGGCGGCAACCCGCTGGCCTGTGCGGCGGCGCTGGCGACCATCAATGTGTTGCTGGAGCAGAACTTACC +GGCTCAGGCTGAGCAAAAAGGCGATATGTTGCTGGACGGTTTCCGTCAACTGGCGCGGGAATATCCCGAT +CTGGTACAGGAAGCGCGTGGTAAAGGGATGTTGATGGCGATTGAGTTTGTTGATAACGAAATCGGCTATA +ACTTTGCCAGCGAGATGTTCCGCCAGCGCGTACTGGTGGCCGGAACGCTCAATAACGCCAAAACGATCCG +CATTGAACCGCCACTGACACTGACCATTGAACAGTGTGAACTGGTGATCAAAGCGGCGCGTAAGGCGCTG +GCGGCCATGCGAGTAAGTGTCGAAGAAGCGTAATATCAAATCGGATGGCGATACGACGTCGCCATCCGAT +CTTTTTATACGACGCGTACGCCCGCAGGCATCATCCGCTCCGGCGTTAACAGCACGCTTTCACTGCCGTC +ATCGGTTTCCGCACACAACAGCATGCATTCCGACGTTTCACCACGCATTTTCGCTTTTTGCAGATTGCAT +AAGACCACCACCGTTTTCCCCATCAGCTCTTCTTCGCTGTAGTACGGCACCAGGCTGGTCACGGTTTGCA +GCGTTTTTTGCCCCACATCAACCTGTACGATGTACAGCTTGTCGGCGTTTTCATGGCGTTTCACTTCCAC +AATCTTTCCGACGCGCATTTCCAGACGTGCAAAATCAGCGTAAGCCACGGTTTCCATTGCTTCCTCCCTT +AGGGTAAAATTTTACTAAACTATAGCAAAAGTTTTTCTCAATCCTGTAGGCTAAAAATGGAGAATGCAGG +CGTGATCACATTCGTGAGCCGCTGTGTTACCGTTACAGCGTCAAAGAAACGCGCTTTATTTACTGAAAAC +AGGTGACCCGATAAGCACTTCCTCTACAATGGGGGCGCACATCAGGGAAAGTAAAAAAGGTAAACATGGC +AACACTAAAAGACATCGCAATCGAAGCTGGCGTATCCCTGGCGACAGTATCCAGGGTCTTAAATGACGAT +CCGACATTGAATGTGAAAGAAGAGACGAAACATCGCATTCTCGAGATCGCCGAAAAGCTGGAGTACAAGA +CCAGTAGTGCCCGTAAACTCCAGACAGGTGCAGTCAACCAACACCATATTCTGGCTATCTACAGCTACCA +GCAGGAGCTGGAGATCAACGATCCTTACTATCTGGCGATCCGCCACGGCATTGAAACCCAGTGCGAAAAG +CTGGGCATCGAGCTCACCAACTGTTATGAACACAGCGGCTTACCAGACATTAAAAACGTCACCGGTATTT +TAATTGTCGGCAAACCCACGCCCGCCCTGCGCGCCGCTGCCAGCGCGTTGACCGACAATATCTGTTTTAT +CGACTTTCACGAACCCGGCAGCGGTTACGATGCGGTGGATATCGATCTGGCACGCATCAGTAAAGAAATC +ATCGACTTCTATATCAACCAGGGCGTTAATCGTATTGGTTTTATTGGCGGTGAAGATGAGCCTGGCAAGG +CGGATATTCGTGAGGTCGCCTTTGCGGAATATGGCCGACTGAAACAAGTGGTACGCGAAGAGGATATCTG +GCGCGGCGGTTTTTCCAGTTCGTCGGGTTATGAACTGGCAAAACAAATGCTGGCGCGGGAAGACTATCCG +AAGGCACTGTTTGTTGCTTCCGATTCCATTGCTATCGGCGTACTGCGGGCAATTCATGAACGAGGCCTGA +ACATCCCACAGGATATTTCGCTTATCAGCGTTAACGATATCCCCACCGCGCGATTTACCTTTCCGCCGCT +CTCCACCGTGCGCATCCATTCCGAGATGATGGGAAGTCAGGGCGTTAACCTGGTGTATGAAAAAGCCCGC +GATGGTCGCGCGCTGCCGCTGTTAGTCTTCGTTCCCAGCAAATTAAAACTGCGCGGCACGACCCGTTAAA +TCCCCTTACACACTGTCCGGCAATCGTTTTTGCCGGACAGTGCTGCCGTTTATTTTCGTGATCCAGTTAA +AGTAAATGCATTTACCTGCTACTTTTTAGTAAAAATTTTACTAAACTCCCCAGCAATTACACAAACTACC +ATCACCATGAATGGTTCCGATTTCTCTCTACCGGGAGGCCCTATGAATCGCTGGGAAAACATTCAGCTCA +CCCACGAAAACCGACTTGCGCCGCGTGCGTACTTTTTTTCATATGATTCTGTTGCGCAAGCGCGTACCTT +TGCCCGCGAAACCAGCAGCCTGTTTCTGCCCTTAAGCGGTCAGTGGAATTTCCACTTTTTTGACCATCCG +CTGCAAGTACCAGAAGCCTTCACCTCTGAGTTAATGGCTGACTGGGGGCATATTACCGTCCCCGCCATGT +GGCAAATGGAAGGTCACGGCAAACTGCAATATACCGACGAAGGTTTTCCGTTCCCCATCGATGTGCCGTT +TGTCCCCAGCGATAACCCAACCGGTGCCTATCAACGTATTTTCACCCTCAGCGACGGCTGGCAGGGTAAA +CAGACGCTGATTAAATTTGACGGCGTCGAAACCTATTTTGAAGTCTATGTTAACGGTCAGTATGTGGGTT +TCAGCAAGGGCAGTCGCCTGACCGCAGAGTTTGACATCAGCGCGATGGTTAAAACCGGCGACAACCTGTT +GTGTGTGCGCGTGATGCAGTGGGCGGACTCTACCTACGTGGAAGACCAGGATATGTGGTGGTCAGCGGGG +ATCTTCCGCGATGTTTATCTGGTCGGAAAACACCTAACGCATATTAACGATTTCACTGTGCGTACCGACT +TTGACGAAGCCTATTGCGATGCCACGCTTTCCTGCGAAGTGGTGCTGGAAAATCTCGCCGCCTCCCCTGT +CGTCACGACGCTGGAATATACCCTGTTTGATGGCGAACGCGTGGTGCACAGCAGCGCCATTGATCATTTG +GCAATTGAAAAACTGACCAGCGCCAGCTTTGCTTTTACTGTCGAACAGCCGCAGCAATGGTCAGCAGAAT +CCCCTTATCTTTACCATCTGGTCATGACGCTGAAAGACGCCAACGGCAACGTTCTGGAAGTGGTGCCACA +ACGCGTTGGCTTCCGTGATATCAAAGTGCGCGACGGTCTGTTCTGGATCAATAACCGTTATGTGATGCTG +CACGGCGTCAACCGTCACGACAACGATCATCGCAAAGGCCGCGCCGTTGGAATGGATCGCGTCGAGAAAG +ATCTCCAGTTGATGAAGCAGCACAATATCAACTCCGTGCGTACCGCTCACTACCCGAACGATCCGCGTTT +TTACGAACTGTGTGATATCTACGGCCTGTTTGTGATGGCGGAAACCGACGTCGAATCGCACGGCTTTGCT +AATGTCGGCGATATTAGCCGTATTACCGACGATCCGCAGTGGGAAAAAGTCTACGTCGAGCGCATTGTTC +GCCATATCCACGCGCAGAAAAACCATCCGTCGATCATCATCTGGTCGCTGGGCAATGAATCCGGCTATGG +CTGTAACATCCGCGCGATGTACCATGCGGCGAAAGCGCTGGATGACACGCGACTGGTGCATTACGAAGAA +GATCGCGATGCTGAAGTGGTCGATATTATTTCCACCATGTACACCCGCGTGCCGCTGATGAATGAGTTTG +GTGAATACCCGCATCCGAAGCCGCGCATCATCTGTGAATATGCTCATGCGATGGGGAACGGACCGGGCGG +GCTGACGGAGTACCAGAACGTCTTCTATAAGCACGATTGCATTCAGGGTCATTATGTCTGGGAGTGGTGC +GACCACGGGATCCAGGCACAGGACGACCACGGCAATGTCTGGTATAAATTCGGCGGCGACTACGGCGACT +ATCCCAACAACTATAACTTCTGTCTTGATGGTTTGATCTATTCCGATCAGACGCCGGGACCGGGCCTGAA +AGAGTACAAACAGGTTATCGCGCCGGTAAAAATCCACGCGCGGGATCTGACTCGCGGCGAGTTGAAAGTC +GAAAATAAACTGTGGTTTACCACGCTTGATGACTACACCCTGCACGCAGAGGTGCGCGCCGAAGGTGAAA +CGCTCGCGACGCAGCAGATTAAACTGCGCGACGTTGCGCCGAACAGCGAAGCCCCCTTGCAGATCACGCT +GCCGCAGCTGGACGCCCGCGAAGCGTTCCTCAACATTACGGTGACCAAAGATTCCCGCACCCGCTACAGC +GAAGCCGGACACCCTATCGCCACTTATCAGTTCCCGCTGAAGGAAAACACCGCGCAGCCAGTGCCTTTCG +CACCAAATAATGCGCGTCCGCTGACGCTGGAAGACGATCGTTTGAGCTGCACCGTTCGCGGCTACAACTT +CGCGATCACCTTCTCAAAAATGAGTGGCAAACCGACATCCTGGCAGGTGAATGGCGAATCGCTGCTGACT +CGCGAGCCAAAGATCAACTTCTTCAAGCCGATGATCGACAACCACAAGCAGGAGTACGAAGGGCTGTGGC +AACCGAATCATTTGCAGATCATGCAGGAACATCTGCGCGACTTTGCCGTAGAACAGAGCGATGGTGAAGT +GCTGATCATCAGCCGCACAGTTATTGCCCCGCCGGTGTTTGACTTCGGGATGCGCTGCACCTACATCTGG +CGCATCGCTGCCGATGGCCAGGTTAACGTGGCGCTTTCCGGCGAGCGTTACGGCGACTATCCGCACATCA +TTCCGTGCATCGGTTTCACCATGGGAATTAACGGCGAATACGATCAGGTGGCGTATTACGGTCGTGGACC +GGGCGAAAACTACGCCGACAGCCAGCAGGCTAACATCATCGATATCTGGCGCAGCACCGTCGATGCCATG +TTCGAGAACTATCCCTTCCCGCAGAACAACGGTAACCGTCAGCATGTCCGCTGGACGGCACTGACTAACC +GCCACGGTAACGGTCTGCTGGTGGTTCCGCAGCGCCCAATTAACTTCAGCGCCTGGCACTATACCCAGGA +AAACATCCACGCTGCCCAGCACTGTAACGAGCTGCAGCGCAGTGATGACATCACCCTGAACCTCGATCAC +CAGCTGCTTGGCCTCGGCTCCAACTCCTGGGGCAGCGAGGTGCTGGACTCCTGGCGCGTCTGGTTCCGTG +ACTTCAGCTACGGCTTTACGTTGCTGCCGGTTTCTGGCGGAGAAGCTACCGCGCAAAGCCTGGCGTCGTA +TGAGTTCGGCGCAGGGTTCTTTTCCACGAATTTGCACAGCGAGAATAAGCAATGAGGATCATCGATAACT +TAGAACAGTTCCGCCAGATTTACGCCTCTGGCAAGAAGTGGCAACGCTGCGTTGAAGCGATTGAAAATAT +CGACAACATTCAGCCTGGCGTCGCCCACTCCATCGGTGACTCATTGACTTACCGCGTGGAGACAGACTCC +GCGACCGATGCGCTATTTACCGGGCATCGACGCTATTTTGAAGTGCATTACTACCTGCAAGGGCAGCAAA +AAATTGAATATGCGCCGAAAGAGACATTACAGGTAGTGGAATATTATCGTGATGAAACTGACCGTGAATA +TTTAAAAGGCTGCGGAGAAACCGTTGAGGTCCACGAAGGGCAAATCGTTATTTGCGATATCCATGAAGCG +TATCGGTTTATCTGCAATAACGCGGTCAAAAAAGTGGTTCTCAAAGTCACCATCGAAGATGGTTATTTCC +ATAACAAATAACAACTACGGCGGCAAAAGGAGTTTGCCGCCACCGCTACCCTACTCATTTTCGGAGATGT +GTTATGTCTGATACCAAACGTAATACAATCGGCAAATTCGGCTTGCTCTCGCTGACTTTTGCCGCCGTTT +ACAGCTTTAACAACGTTATCAATAATAATATTGAGCTTGGACTGGCCTCGGCACCGATGTTTTTCCTCGC +GACGATTTTTTATTTTATTCCCTTCTGTCTGATCATCGCAGAATTTGTTTCGTTAAATAAAAACTCAGAA +GCCGGTGTCTACGCGTGGGTAAAAAGTTCGCTGGGCGGACGTTGGGCATTTATTACTGCCTATACCTACT +GGTTCGTAAACCTGTTCTTTTTCACCTCACTGTTGCCGCGCGTTATTGCTTATGCTTCGTATGCCTTCCT +CGGATACGAATATATTATGACGCCGGTTGCCACCACCATTATCAGTATGGTGCTGTTCGCCTTCTCCACC +TGGGTTTCCACCAACGGGGCGAAAATGTTGGGGCCAATTACCTCCGTCACTTCAACGCTGATGCTGCTGT +TAACGCTCTCCTACATTTTACTGGCAGGTACGGCGCTGGTTGGCGGCGTACAGCCTGCTGACGCCATCAC +CGTTGACGCGATGATCCCGAACTTCAACTGGGCGTTCCTCGGCGTTACCACCTGGATCTTTATGGCCGCA +GGTGGCGCGGAGTCCGTCGCTGTGTACGTTAACGACGTCAAAGGCGGTTCGAAATCGTTCGTTAAAGTGA +TCATCCTCGCCGGGATTTTTATCGGCGTACTGTATTCCGTCTCCTCGGTGCTGATTAACGTCTTCGTCAG +CAGCAAAGAGTTGAAATTTACCGGCGGATCGGTGCAGGTATTCCACGGCATGGCGGCGTATTTTGGTCTA +CCGGAAGCGTTGATGAATCGCTTTGTCGGTCTGGTGTCCTTTACCGCGATGTTCGGTTCCCTGCTGATGT +GGACCGCAACGCCGGTGAAAATTTTCTTCTCCGAAATCCCGGAAGGCATCTTTGGTAAGAAAACCGTCGA +ACTGAACGAAAACGGCGTTCCGGCGCGCGCAGCGTGGATCCAGTTCCTGATCGTCATCCCGCTGATGATT +ATCCCGATGCTCGGTTCCAATACCGTGCAGGATCTGATGAATACTATTATTAATATGACCGCCGCAGCGT +CCATGCTTCCGCCGTTATTCATCATGCTGGCTTACCTGAATTTACGCGCCAAATTAGATCACCTGCCACG +CGATTTCCGTATGGGCTCCCGCCGCACCGGTATTATCGTTGTTTCAATGCTGATTGCGATATTTGCCGTA +GGGTTTGTCGCTTCGACATTCCCGACTGGCGCGAATATTCTGACCATCATTTTTTATAACGTCGGCGGTA +TTGTTATCTTCCTTGGCTTTGCGTGGTGGAAATACAGTAAATATATAAAGGGATTAACGGCTGAAGAGCG +CCATATTGAAGCGACGCCAGCCAGCAATGTTGATTAAGCAGAATAATAAAAAATGAGCAGGCATTTTCCC +TCTTCCTGGATGAGGAGAGGGAAAATAGTTTCTGCCTTTATATTTTTATAATTACAACGATAAAAGGCTG +TACTTTTTCTTTAGCTCATGGATTAACACAATGAAATTAATCACTGCACCATGCAGAGCATTACTTGCTC +TGCCGTTTTGCTACGCCTTTTCTGCGGCAGGAGAAGAAGCACGTCCGGCAGAACATGACGACACAAAAAC +ACCCGCAATTACCTCGACATCTTCTCCTTCATTTCGTTTTTACGGCGAATTAGGGGTTGGTGGATATATG +GATTTAGAGGGTGAGAATAAACATAAATACAGCGACGGTACCTATATTGAAGGTGGCCTGGAGATGAAGT +ACGGCTCCTGGTTCGGCCTGATTTACGGCGAAGGCTGGACCGTGCAGGCCGACCACGACGGCAATGCCTG +GGTGCCAGACCATAGCTGGGGTGGTTTCGAGGGCGGAATTAACCGTTTCTATGGCGGTTATCGTACCAAT +GATGGCACCGAAATCATGCTCAGTCTGCGTCAGGATTCCTCGCTGGATGACCTGCAATGGTGGGGCGATT +TCACCCCCGATCTGGGCTACGTCATTCCCAATACCCGCGACATTATGACTGCGCTGAAGGTACAGAACTT +AAGCGGCAACTTTCGTTATAGCGTCACCGCGACTCCTGCCGGACATCATGATGAAAGCAAAGCCTGGCTA +CATTTTGGCAAATACGATCGCTATGACGACAAATACACCTATCCGGCAATGATGAACGGTTACATCCAGT +ATGACCTTGCCGAAGGCATCACCTGGATGAACGGTCTGGAAATCACCGACGGCACAGGACAGCTCTATCT +CACGGGCCTGCTAACTCCTAACTTTGCCGCTCGCGCCTGGCACCATACCGGACGCGCCGACGGGCTGGAC +GTACCGGGAAGTGAAAGTGGGATGATGGTGAGCGCCATGTATGAAGCGTTAAAGGGCGTTTATCTCTCCA +CCGCTTACACCTACGCCAAACATCGCCCTGACCACGCTGACGATGAAACCACCTCTTTCATGCAGTTTGG +TATCTGGTACGAATACGGCGGCGGACGTTTCGCCACGGCTTTTGATAGCCGCTTCTACATGAAAAATGCC +TCTCACGATCCCAGCGACCAAATCTTCCTGATGCAATATTTCTACTGGTAATAAGGACTGTAATTTCATG +AAAATAAAAACTATTTTAACGCCAGTAACCTGCGCTCTGCTGATAAGTTTTTCCGCCCATGCCGCTAACG +CCGACAATTATAAAAACGTGATTAACCGTACTGGCGCGCCGCAGTACATGAAGGATTACGATTACGACGA +TCACCAGCGTTTTAATCCGTTTTTCGATCTCGGAGCCTGGCATGGTCATCTGTTGCCAGACGGCCCTAAC +ACCATGGGCGGCTTTCCGGGCGTTGCGCTGCTGACGGAAGAGTACATCAACTTTATGGCCAGCAATTTCG +ACCGCCTGACCGTCTGGCAGGACGGCAAGAAAGTCGACTTTACGCTGGAGGCATACAGTATTCCCGGTGC +GCTGGTGCAAAAACTGACAGCAAAAGATGTGCAAGTCGAAATGACTCTGCGCTTCGCCACGCCGCGCACG +TCACTACTGGAAACCAAAATCACCAGCAATAAACCGCTGGATCTGGTGTGGGACGGCGAACTGCTGGAAA +AACTGGAAGCGAAAGAAGGGAAACCGCTTTCCGATAAAACCATTGCTGGCGAATACCCTGACTATCAGCG +CAAAATCAGCGCCACCCGTGATGGCCTGAAAGTCACCTTTGGCAAAGTGCGCGCCACCTGGGATCTGCTG +ACCTCCGGCGAATCGGAATATCAGGTGCATAAATCCCTGCCGGTGCAGACTGAAATCAACGGTAATCGCT +TTACCAGTAAGGCGCATATCAACGGTTCGACCACGCTCTACACCACCTATTCCCATCTGCTGACCGCTCA +GGAAGTTAGCAAAGAGCAAATGCAGATCCGCGATATTCTGGCGCGTCCGGCGTTTTATCTCACCGCCTCG +CAGCAACGCTGGGAAGAATACCTGAAGAAAGGGTTAACCAATCCGGATGCGACGCCGGAACAGACGCGCG +TCGCGGTGAAAGCGATCGAAACGCTCAACGGTAACTGGCGCTCACCGGGCGGTGCGGTGAAATTTAACAC +CGTTACACCGTCGGTGACCGGGCGCTGGTTCTCCGGCAATCAGACCTGGCCGTGGGATACCTGGAAGCAG +GCGTTTGCGATGGCGCATTTCAATCCGGACATCGCCAAAGAGAATATCCGCGCGGTCTTCTCCTGGCAGA +TCCAGCCTGGCGATAGCGTGCGTCCGCAGGATGTGGGCTTTGTCCCCGACCTGATAGCGTGGAACCTTAG +CCCCGAGCGTGGTGGCGATGGCGGCAACTGGAACGAACGTAATACCAAACCCAGCCTTGCCGCCTGGTCG +GTGATGGAAGTGTATAACGTCACCCAAGATAAAACCTGGGTGGCAGAGATGTACCCGAAACTGGTGGCCT +ATCACGACTGGTGGTTACGTAACCGCGATCACAACGGCAACGGCGTGCCGGAATATGGCGCGACCCGCGA +CAAAGCCCACAACACTGAGAGCGGCGAGATGCTGTTTACGGTGAAAAAAGGCGATAAAGAAGAGACGCAG +TCTGGGCTGAACAACTACGCCCGCGTGGTGGAGAAAGGCCAGTACGACAGTCTGGAAATTCCGGCACAGG +TTGCTGCATCGTGGGAATCGGGGCGTGATGATGCCGCCGTCTTTGGGTTTATCGACAAAGAACAGTTGGA +TAAATATGTCGCTAATGGCGGCAAACGTAGCGACTGGACGGTGAAATTCGCCGAAAACCGCAGTCAGGAC +GGAACGTTGCTGGGCTACTCGCTATTGCAGGAGTCGGTGGATCAGGCCAGCTATATGTACAGCGATAACC +ATTATCTGGCGGAGATGGCAACCATCCTCGGTAAGCCAGAAGAGGCCAAACGCTATCGCCAGTTGGCACA +GCAGCTCGCGGACTACATCAACACCTGTATGTTCGACCCGACTACCCAGTTCTACTATGACGTACGTATT +GAAGATAAACCACTGGCGAACGGCTGCGCGGGCAAACCGATTGTTGAGCGCGGTAAAGGGCCGGAAGGCT +GGTCGCCGCTGTTTAACGGTGCGGCAACGCAGGCCAATGCCGACGCGGTGGTGAAGGTGATGCTCGATCC +TAAAGAGTTCAACACCTTTGTCCCGCTGGGAACGGCGGCGTTAACCAATCCGGCTTTTGGCGCTGATATC +TACTGGCGTGGGCGCGTATGGGTGGATCAGTTCTGGTTTGGTCTGAAAGGGATGGAGCGTTACGGTTATC +GTGATGATGCCCTGAAGCTGGCGGATACGTTCTTCCGGCACGCCAAAGGGTTAACCGCCGATGGACCAAT +TCAGGAAAATTACAACCCGCTGACAGGCGCACAGCAAGGCGCACCAAATTTCTCCTGGAGTGCCGCGCAT +TTGTATATGTTGTATAACGATTTTTTCCGTAAGCAATAATTTGCAACTGCTGGCGGATGCGGCGTAAACG +CCTTATCCGCCCTACATGTGCAATCCTCCTGGCCGGATAAAACGCGGCAAGCGTTGCATCCGGCAACTGC +ACCGCGCCACTGGCGGATGCGGCGTGAACGCCTTATCCGCCCTACATGTGTGTTCCCGTAGGTCGGATAA +GACGCGACAAGCGTCGCATCCGGCATCTGCACCGCGCCACTGGCGGATGCGGCGTGGACGCCTTATCCGC +CCTACATGTGCAATTCCGTAACCTGGATAAAACGCGACAAGCGTCGCATCCGGCGTTATCACCGGGCGTA +TTCTTTTTGAATCCCATCACAAACCCCGCACTCCCCTTTTCCCTTTTCTCCGGCGACGGCTAAATTAGAA +CTCATCCGACCACATAACAATTATTTTACATACTGGACAATTTTATGAGCTACCCGTCGCTGTTCGCCCC +GCTGGATTTAGGTTTTACCACGTTAAAAAACCGCGTGTTGATGGGCTCAATGCACACCGGGCTGGAGGAA +TACCCGGACGGTGCCGAGCGGCTGGCAGCGTTTTATGCCGAACGCGCCCGTCACGGCGTGGCGCTGATTG +TCAGCGGCGGCATTGCACCAGATTTAACAGGCGTTGGCATGGAAGGTGGCGCAATGCTCAACGACGCCAG +CCAGATCCCACACCATCGCACCATTACCGAAGCGGTACATCAGGAAGGCGGCAAAATAGCCCTGCAAATT +TTGCATACCGGGCGCTACAGCTACCAACCGCATCTGGTCGCCCCGTCCGCATTGCAGGCCCCCATCAACC +GTTTCGTGCCCCATGAGTTAAGCCATGAAGAGATCCTGCAACTGATCGACAATTTCGCCCGCTGCGCGCA +ACTGGCGCGGGAGGCAGGATACGACGGTGTAGAGGTGATGGGTTCCGAAGGGTATTTGATCAACGAATTT +CTGACGCTGCGCACCAATCAGCGTAGTGACCAGTGGGGCGGCGATTACCGCAACCGGATGCGATTTGCCG +TAGAAGTAGTGCGTGCGGTGCGCGAACGCGTCGGCAACGACTTCATTATTATCTACCGACTGTCGATGCT +CGACCTGGTCGAAGACGGCGGGACTTTTGCCGAAACGGTAGAGCTGGCGCAGGCCATTGAAGCGGCGGGC +GCGACCATTATCAACACCGGCATTGGCTGGCATGAAGCACGTATTCCGACCATTGCCACGCCCGTGCCGC +GCGGCGCATTTAGCTGGGTCACGCGCAAACTGAAAGGCCACGTCTCGCTGCCGCTGGTAACCACCAACCG +GATTAACGATCCGCAGGTTGCCGACGATATTCTCTCGCGCGGCGATGCCGATATGGTATCGATGGCGCGA +CCGTTTCTTGCTGATGCGGAGCTGCTGTCAAAAGCGCAATCGGGACGAGCCGATGAGATCAACACTTGTA +TTGGCTGCAATCAGGCCTGTCTCGATCAAATCTTCGTTGGCAAAGTCACCTCGTGCCTGGTGAATCCTCG +CGCCTGCCACGAAACCAAAATGCCAATCCTTCCCGCCGTGCAGAAAAAAAATCTGGCGGTGGTCGGTGCG +GGACCTGCTGGGCTGGCGTTTGCCATTAACGCGGCGGCGCGTGGGCATCAGGTAACATTGTTTGACGCTC +ATAGCGAGATTGGCGGGCAGTTTAATATCGCCAAACAGATCCCCGGCAAAGAGGAGTTTTACGAAACGCT +GCGCTATTACCGCCGGATGATCGAAGTGACGGGCGTGACGCTAAAACTCAATCACACCGTGACGGCGGAT +CAGTTACAGGCTTTCGATGAAACGATCCTCGCCAGTGGGATCGTGCCGCGCACTCCGCCCATCGACGGGA +TCGATCATCCGAAGGTATTGAGTTATCTCGATGTACTGCGCGACAAAGCGCCGGTTGGCAACAAAGTTGC +CATCATCGGTTGTGGCGGGATTGGTTTTGATACGGCGATGTATTTAAGTCAGCCGGGCGAATCCACCAGC +CAGAATATCGCCGGGTTCTGTAATGAATGGGGGATCGACAGTAGCCTACAACAGGCTGGTGGCTTAAGCC +CGCAGGGAATGCAGATCCCCCGTAGCCCACGGCAGATTGTGATGCTCCAGCGCAAAGCCAGCAAACCAGG +ACAGGGGTTAGGCAAAACCACCGGCTGGATCCATCGCACCACCCTGCTCTCGCGGGGTGTGAAAATGATC +CCAGGCGTAAGTTATCAGAAGATTGACGATGACGGGCTGCATGTGGTGATCAACGGCGAAACGCAGGTAT +TAGCAGTGGACAATGTGGTGATCTGCGCAGGGCAAGAGCCAAACCGCGCGCTGGCGCAACCGCTGATTGA +TAGCGGGAAAACGGTGCATTTAATTGGCGGCTGCGATGTGGCTATGGAGCTGGACGCACGACGGGCAATT +GCCCAGGGAACACGGCTGGCGCTGGAGATTTAAATCGTTATTTGAAGCGCCGGATGCAACGCATCCGGCA +CGTCGCGTTAATCAATAAACAAGGCGGGAGAAATGCCGAATCGCGTTGCCAATTTTTTAGCGTGTTCCAG +CGTTAATTTCCTCTTCCCGCTCAAAACGCGTGACACCATAGATTTACTGCCAATTTCCGGCAGATCGGAA +AGGGTTAAACCATATTGATCCATAAGGGTACGAATCACGGCTATACCGCCAGGCATGGCTTGAGCCATGG +CATTAAATTCCGCAAATTCGGGCGCTGATTCTTCCCACGCGGTTATTTTGGCACACACCAGATCCAGCAA +GGGGTTTTCAGGATCGTTGAGCAGCAGATGATCTACCAGTTCCAGCGCCTGGGTGTATTGTTCCTCGTTC +TGAATACCCGCCAGAAAAGGTGCCACAGCAGTTAGCTTTTCTCCTGCTTGCAAGATGTCGGCAATCGCAA +TCATTTTTTCCCCTTAGTACGATGAACAGCGGTAAAGAAATCGTATTCTTTATGCGTCATAACTTCACGT +ATGTAGCACTTTTGCGATTCAAAAAAGACCATTGCTACAACACGTAATTCATTGCCCCCAACATTGAAAA +CATAATGCTTATCCAGATATTTGAAGTTATCCAGAGATGGGAATACTGCTTTTAATGACTCAGGTTTTTT +GAAATATCCCTTAGCAATCGTGTTCCCCAGAGCCACCAACTCCGTTTTATGTTGCGGGTATTTTTCCGCA +GCATCTTTCAATGCTTTTTGAGTTATCAGGTGCATTCTTCATCACGTCCGTTGACAAATTGGCAATATGA +TAACATCCGTTGCCAGATTGGCAACGGATGAATTTATCTGTGTGACGGAAGAATAAACGTAGAAAAACGC +TAAACAAGAGAATGTAGACGATGGTGACAGGGATTTTTTGTTTTATGGAAGCGCGATTCCAGAACTGGGC +AGACATTGCCGGATGCGACGCTTGCCGCGTCTTATCCGGCCTGGAGTAACGTGCTGAACGTAGGCCGGAT +AAGGCGTTTACGCCGCATCCGGCAGGTAACTCCCAATCTTACCGACGACGTCCCAGCTTCACCGCTTTCA +GTACCACAAATTTATTATTCGTCGCAATAGTGGTGCAGTTGCCGAAAATCTTCTTCAGTTTATGGAAGTA +ATCCAGGTGACGGTTGGCAACGATATACAGCTCGCCGTTGATTTTCAGGCAGCGGCGGGCGTGGTGGAAC +ATCTCCCAGGCGACGTTATCGGTCAGCGCATGTTGTTGGTGAAACGGCGGGTTGCAGAGCACAGCATTAA +AGCGGAAAGGCTCCACGCCGGAGAGCGCGTTGTTGATCATAAACTCGCAGCGATCCAACGCCTCTGGCAT +GTTGGTTTCAACGTTCAAACGGCTGGAAGCAACCGCCATCGGCGATTCATCGACAAACACCACTTTCGCC +TGCGGGTTTTTATCAAGCAGCGTCAGACCAATAACGCCATTACCGCAACCGAGATCGACAATCTCCCCTT +CGAGATTCTCTGGCAGATGTTGCATAAAGAAGCGCGCGCCGATATCAAGCCCGGTGCGGGAGAAGACATT +CGCATGGTTGTGGATAGTCCAGTCAGTACCTTCCAGCTTCCAGCTAACGGTCTGCGGCGCATCGGCCAGC +TGCGGTTCATTGAAAGTGCAATTAATCAGGCGCGCTTTTTTCCATGCCAGCGTGGTGGTGGTTGGGCCGA +GCACTTTTTCGAACAGTTCCAGCGTGGAAGTGTGAATGTCACGGGCCTTGGCACCGGCAATAATACGTGT +ATCCGACGTGACCACTTTGCGCAGCGCACGCAGTTGCTGTTCCAGCAATGCCAGTGTTTTCGGCACTTTG +ATCAGCACCACACCCGGCTGTTGCGGGTAGTCGGCGGTGCTGTCGAGAAACTTCACGCTCGACTCATCAA +TCCCGTTGAGGCGTAAATTCTCGCGCGTCGCCAGTTCACTGATGTATGAGTCGCCAATGCTGTACGGCTT +ATGTTCCGCCAGTGCGCAGCTTAACGCACCAAAGGCATCATTCAGGATCAACACCGGGCCGCGGATTTCT +GTGTCGTCCAACTGTTGCAGCAAATATTCATCCGCCGCTTCCCACGCCTGTAGCGGGTTAACGTCATCCG +TCGCCGGAAAACGTTGTAGTGTCAGTGAACGGAAACCGTTGTCTAAGTGGCTCATCGGCCCTCCTGAATG +ATAAAATTTCGACATTGCCCCTGAAAAGGGTGCGTGAGTATACCCTTTTTCTCTTTTTCGTGGGCGGTTA +TGAGCAATCTTACTTATCTTCAGGGTTATCCCGAGCAGCTACTTTCCCAGGTGCGAACACTGATTAACGA +ACAGCGTCTGGGCGATGTGCTGGCAAAACGCTATCCGGGAACACACGACTACGCCACCGATAAAGCCCTC +TGGCAATATACTCAGGATCTGAAAAATCAGTTTCTGCGTAATGCCCCGCCGATCAATAAAGTGATGTATG +ACAATAAGATCCATGTGCTAAAAAACGCGCTCGGGTTACATACCGCTGTTTCTCGTGTGCAGGGCGGCAA +GCTGAAAGCAAAGGTGGAGATCCGCGTCGCTACCGTGTTTCGCAACGCGCCGGAACCGTTTTTGCGCATG +ATCGTGGTGCACGAGCTGGCGCACCTGAAGGAGAAAGAGCATAACAAAGCGTTTTACCAGTTGTGTTGTC +ATATGGAACCCCAGTACCACCAGCTTGAGTTCGACACCCGACTGTGGCTAACGCAGTTGTCGCTTGGGCA +GAACAAAATCTGAAAATGATGTCAGGCGTTATCTTTTCTTTCTTTAGCGCCTAAAATCGACCTCCCCCCT +TTCGTTAAGGATAACGACCATGCTGCGCGCATTTGCCCGCCTTCTTCTCCGTATTTGTTTTTCTCGCCGG +ACTCTAAAGATTGCCTGCTTACTGTTACTTGTGGCAGGAGCGACCATCCTTATCGCCGATCGCGTAATGG +TCAACGCCAGCAAACAGCTGACCTGGAGCGATGTCAACGCCGTTCCGGCGCGTAACGTGGGTTTATTGCT +GGGGGCGAGGCCGGGTAATCGCTACTTTACCCGACGTATTGATACCGCAGCAGCGTTGTACCACGCCGGA +AAAGTGAAATGGCTGCTGGTAAGTGGCGATAACGGACGTAAAAATTACGATGAAGCATCAGGTATGCAGC +AGGCTTTGATCGCTAAAGGCGTACCAGCAAAAGTGATCTTCTGCGACTATGCCGGATTCTCAACGCTGGA +TTCGGTAGTGCGTGCCAAAAAGGTTTTTGGTGAAAACCATATCACCATTATCTCGCAAGAATTTCATAAT +CAACGCGCCATCTGGCTGGCAAAACAGTACGGCATCGACGCTATCGGTTTTAACGCGCCAGACCTCAATA +TGAAGCACGGTTTTTATACTCAACTGCGGGAGAAACTCGCTCGTGTCAGCGCCGTGATTGACGCCAAAAT +CCTCCATCGCCAGCCGAAATATCTCGGGCCTTCGGTCATGATTGGGCCGTTTAGTGAGCATGGCTGTCCG +GCGCAGAAATAATGCGTATCTGCGCACGTCGAAGATGAAAAAGGCGTGCTACATTGACGACAGAATCCCT +TTATGGAGTATCCACGCGTTATGATACGTTTCGCTGTGATTGGTACGAACTGGATCACTCGCCAGTTCGT +CGAGGCCGCCCATGAGAGCGGTAAATACAAGTTAACCGCCGTATATTCCCGCAGCCTTGAACAGGCCCAG +CACTTCGCCAATGATTTTTCTGTCGAGCATCTGTTTACCTCGCTGGAAGCGATGGCGGAAAGCGATGCCA +TTGACGCGGTGTATATTGCCAGCCCGAATTCCCTGCATTTTTCCCAGACACAACTTTTCCTTAGCCATAA +AATTAATGTGATTTGCGAGAAACCGCTGGCGTCGAATCTGGCGGAAGTGGATGCCGCCATTGCCTGTGCG +CGGGAAAATCAGGTGGTGCTGTTTGAGGCATTTAAAACCGCCTGCCTGCCGAACTTTCATTTGTTGCGCC +AGGCGCTGCCGAAAGTCGGCAAACTGCGGAAAGTCTTTTTCAACTATTGCCAGTATTCCTCGCGGTATCA +ACGTTACCTGGATGGTGAGAATCCCAACACCTTTAATCCGGCATTCTCTAACGGTTCAATTATGGATATC +GGTTTTTACTGTCTGGCGTCGGCGGTGGCGTTATTTGGTGAGCCGAAAAGCGTGCAGGCAACCGCCAGTT +TGCTGGCAAGCGGCGTTGACGCCCAGGGCGTGGTGGTGATGGATTACGGTGATTTCAGCGTCACCTTGCA +GCACTCAAAAGTCAGTGATTCTGTCCTGGCGAGCGAGATTCAGGGCGAAGCAGGATCGCTGGTGATTGAA +AAACTGTCTGAATGCCAGAAAGTGTGCTTCGTGCCGCGTGGCAGCCAAATGCAGGATCTCACCCAGCCGC +AGCATATTAATACCATGCTCTACGAAGCAGAGCTGTTCGCTACCCTGGTGGATGAGCATCTGGTGGATCA +TCCAGGGCTGGCGGTCAGTCGCATCACCGCCAAACTGCTGACCGAGATCCGCCGCCAGACTGGGGTGATT +TTTCCGGCAGATAGCGTAAAACTATAATTGCCAAAGTAAAACAGTGTAAAAGGTATGTAACAGACCATTG +ACTGGCTGAATGGTCTGTCATACTTTGTTACCTGCAAAGGGGAGTAACTTCATTGCCGGTCGATCGTCAT +TACGATGTGTGAAAAAACACATCCGGTCACCGGGCAACCCGAAAGGAATACGCAGACGTATTCCTTTTTT +GTTGTAAGTGAGACCTTGCCGGAAGGCGAGGTCTATGCATAAAAAGCAGCGGCTGACGTCTTCCGACGTT +GGCCGTTTTTTTATGTGTAAGGAACTTCTATGAATACTGTCGGCACGCCGTTGCTATGGGGCGGATTCGC +TGTTGTTGTCGCCATTATGCTGGCTATCGACCTGTTGTTGCAGGGGCGTCGTGGGGCACATGCCATGACC +ATGAAACAGGCTGCGGCCTGGTCGCTGGTCTGGGTGACGCTGTCGTTACTGTTTAACGCCGCTTTCTGGT +GGTATCTGGTGCAAACCGAAGGTCGCGCCGTTGCCGATCCACAGGCACTGGCCTTTCTCACAGGTTATCT +GATTGAGAAATCGCTGGCGGTCGATAACGTCTTTGTCTGGCTGATGTTGTTCAGCTATTTCTCTGTTCCG +GCGGCATTACAACGCCGCGTGCTGGTGTATGGCGTGCTCGGGGCGATTGTTCTGCGTACCATCATGATCT +TCACTGGCAGCTGGCTAATTTCGCAGTTCGACTGGATCCTGTATATCTTCGGTGCCTTCCTGCTGTTTAC +CGGCGTGAAGATGGCGCTCGCCCATGAAGATGAATCAGGCATTGGCGACAAGCCGCTGGTGCGCTGGCTA +CGCGGTCATTTGCGCATGACCGACACCATCGACAACGAGCATTTCTTTGTGCGTAAGAATGGATTGCTGT +ACGCCACACCGCTGATGCTGGTACTGATTCTGGTGGAATTGAGCGACGTGATTTTCGCCGTGGATAGCAT +TCCGGCTATCTTCGCCGTGACCACTGACCCGTTCATTGTGCTGACCTCAAACCTGTTTGCGATCCTCGGC +CTGCGTGCGATGTATTTCCTGCTGGCGGGCGTAGCAGAGCGTTTCTCGATGCTCAAATATGGCCTGGCGG +TGATTCTGGTGTTTATCGGTATCAAGATGCTGATTGTCGACTTCTACCATATTCCAATCGCCGTCTCGCT +GGGCGTGGTGTTTGGCATTCTGGTGATGACGTTTATTATCAACGCCTGGGTGAATTATCGGCATGATAAG +CAGCGGGGTGGATAATTTTTAATCTGCCTAAGCCGTGTACCCTGTCATTAACATGAGCACCGTTTTCTCC +CTCTCCCTTCCAGGGAGAGGGTCGGGGTGAGGGTAATTTTTCGCACCGATGCTGGCCTGTTCCCCTCACC +CTAACCCTCTCCCCAAACGGGGCGAGGGGACTGACCGAGTCCTTTTTTGATGTTGTCATCAGTCTGGAAG +CCGCACGTTGGCTTTATTTTTATGTCAAAGAAATGTAACCATTAAGTTTCAAAATATGACCTCTCTTTAA +AATCCAGCATTTTTCGCTTCCCGAAGCTGTAACTTTCCTTATACTCGACCTTGCAAACACTTTGTTACAT +CCTGAAAGATGCGTCGACAGAACGCACCAGGGATGTGCGACAACACAATGAAAGGATCGAAAAATGACTA +CGCAACGTTCACCGGGGCTATTCCGGCGTCTGGCTCATGGCAGCCTGGTAAAACAAATCCTGGTCGGCCT +TGTTCTGGGGATTCTTCTGGCATGGATCTCAAAACCCGCGGCGGAAGCTGTTGGTCTGTTAGGTACTTTG +TTCGTCGGCGCACTGAAAGCCGTTGCCCCCATCCTGGTGTTGATGCTGGTGATGGCATCTATTGCTAACC +ACCAGCACGGGCAGAAAACCAATATCCGCCCTATTTTGTTCCTCTATCTACTGGGCACCTTCTCTGCTGC +TCTGGCCGCAGTAGTCTTCAGCTTTGCCTTCCCTTCTACCCTGCATTTATCCAGTAGCGCGGGTGATATT +TCGCCGCCGTCAGGCATTGTCGAAGTGATGCGCGGGCTGGTAATGAGCATGGTTTCCAACCCCATCGACG +CGCTGCTGAAAGGTAACTACATCGGGATTCTGGTGTGGGCGATCGGCCTCGGCTTCGCACTGCGTCACGG +TAACGAGACCACCAAAAACCTGGTTAACGATATGTCGAATGCCGTTACCTTTATGGTGAAACTGGTCATT +CGCTTCGCACCGATTGGTATTTTTGGGCTGGTTTCTTCTACCCTGGCAACCACCGGTTTCTCCACACTGT +GGGGCTACGCGCAACTGCTGGTCGTGCTGGTTGGCTGTATGTTACTGGTGGCGCTGGTGGTTAACCCATT +GCTGGTGTGGTGGAAAATTCGTCGTAACCCGTTCCCGCTGGTGCTGCTGTGCCTGCGCGAAAGCGGTGTG +TATGCCTTCTTCACCCGCAGCTCTGCAGCGAACATTCCGGTGAATATGGCGCTGTGTGAAAAGCTGAATC +TGGATCGCGATACCTATTCCGTTTCTATTCCGCTGGGAGCCACCATCAATATGGCGGGCGCAGCAATCAC +TATTACCGTGTTGACGCTGGCTGCGGTTAATACGCTGGGTATTCCGGTCGATCTGCCCACGGCGCTGCTG +TTGAGCGTGGTGGCTTCTCTGTGTGCCTGTGGCGCATCCGGCGTGGCGGGGGGGTCTCTGCTGCTGATCC +CACTGGCCTGTAATATGTTCGGTATTTCGAACGATATCGCCATGCAGGTGGTTGCCGTCGGCTTTATCAT +CGGCGTATTGCAGGACTCTTGCGAAACCGCGCTGAACTCTTCAACTGACGTGCTGTTCACTGCGGCAGCT +TGCCAGGCAGAAGACGATCGTCTGGCAAATAGCGCCCTGCGTAATTAATTGTTTAACCCCTTTCGTCTAC +GGCGGAAGGGGTTTTCTCAACTTTAAACGGATCAATTCCCCTTTTCTGCATCCGCCAGAAACGAATGATA +TTCAGGCCATTCATAAGCAGAAAACTACCCTCAATCATCGTGCCGCCTATCGACCCCGCCCAGAAGTTGT +GAATCACCCAGCAACACGTTGAAAACCACATTACGCAGCGCATGGTCAGCCCTTTACAGCAGAATAGCGC +CCAGGTACTGACAATCGTGCCGATAACCGGCAATAGTTCGACAGGATGATGGAACTTCGCGAGGCCAATT +CCGCCAGTCAGCACAATAAAAATCGCCATTACCCATAAGCTGCGCGTGCGTAAGGTAATCAATGTACGAA +TGGCATTAAGGATGGCACTGGCACCAGCGGGATAGGTGCCCAGAAGAAAAAAATGTACGCCAATAACGGC +GCTATAGACCGAAAGCTGCTTTTTGAAGCGACGTTCGTCACGATTGAAAAATGTTGTGATACCAATCAGA +AAGGCGATGACACCCACGCCCTGGGCCAGCCAATACGCGGTCATGATAAATCCTTAGCAGGTATGGAAAA +GCAAACGGCGCTTCACATTATGAAACGCCGTTTTTTATTAACAACTCATTTCGACTTTATAGCGTTACGC +CGCTTTTGAAGATCGCCAGTTCGCGGAAGTCGTTACGCTCGTTACAGGTTTGCTTACCGTTGGCAAACTC +AACGATGGTGTCGATAAATTCTTCCAGCAACTGCGGCATCGCTTTACCGTGGATCAACTGACCCGCGTCA +AAGTCGATCCAGTGTTTTTTCTTCGCCGCCAGTTCACTGTTGGTGGCGATTTTCACCGTCGGCACAAATC +CACCATACGGCGTGCCACGACCAGTACTGAACAGCACCATATGGCAGCCCGCACCCGCCAGGGCGCTGGT +CGCTACGGCATCGTTACCCGGCGCACTTAACAAGTTCAGCCCTGGCGTTTTCAGACGCTCGCCGTAACGC +AGCACGTCAACCACGACGCTGGAACCCGCTTTCTGGGTACAGCCAAGTGATTTGTCTTCCAGCGTGGTGA +TACCGCCCGCTTTGTTCCCCGGCGATGGGTTTTCATAGATCGGCTGATCATGGGCAATAAAGTACTGTTT +GAAGTCGTTGACCATGGTGACCAGTTTTTCAAACGTTGCTTCGTCGCGGCAATGGTCCATCAGCAACTGC +TCTGCGCCAAACATCTCCGGCACTTCGGTCAGTACGGTAGTACCGCCGTTAGCAATCACGTAGTCAGAGA +AACGCCCCAGCATCGGGTTAGCAGTAATACCAGAAAGACCGTCAGAACCACCGCACTCCAGACCAAACTT +CAGTTCGCTGAGTTTGCCTGGCTCGCGTTTATCGTTGCGCATCACGTTATACAGCTGATGCAAATGCTCG +ATTCCGGCTTCGATCTCATCATCCTGCTGTTGGCAGATCATGAAATGAACGCGTTCAGGATCGATATCGC +CCAGCGTTTCACGGAATGCGGCAACCTGGTTGTTTTCACAGCCCAGACCAATCACCAGCACTGCGCCTGC +GTTCGGGTGGCGCACCATGTTTTGCAGCATGGTGCGGGTATTAATGTGATCGTCGCCCAGCTGTGAGCAG +CCGTAGGTGTGGCTGAAGAGGAACACGCCGTCAGTACCTTCGGCGTTGTTGGTCTCTTTCAGAAAACGGT +TCTGGATCTGCCGCGCGATGCCGTTGACACAGCCCACGGTTGGCAGGATCCACAGCTCATTACGCACCCC +GACATCGCCGTTAGCGCGACGATAGATCTGCACTTCACGATCTGCCGCTTGCGCAGGCAGATCCTGAAAA +TCAGGTTGATAGCGATACTGATCCAGATCGCTCAGATTCGTGCGCGTATTGTGGGCGTGAACGTGAACAC +CTGCCGCAATATCCGCCAATGCATAACCAATCGGCAGGCCATATTTGATGACATTGGCCCCTTTTGCGAT +ATCCGTTAACGCAAATTTATGTCCACGAGCAACATCCTGGCGCAGCGTAACAGTCTGGTTATCGACACTG +ACTTCTGTGCCTTCAGCCAAATCTGCTAAAGCGACCGCGACGTTATCCAGCGCATGGATCTTGATGTATT +GCATATCAACCCCAGACCTTAGTTCAGTTCAATGGCGAAGTAGTCACGCGCATTGTTAAAGCAAATATTT +TTCACCATCTCGCCCAGCAGGTTGATGTCCGCCGGTGCTTCGCCCGCTTCCACCCAGCGACCGATCATCT +GGCACAGAATGCGGCGGAAGTATTCGTGACGGGTGTATGACAGGAAGCTACGGCTGTCAGTCAGCATACC +GACAAAGCGGCTCAGCAGACCGAGCTGCGCCAGTTGGGTCATCTGACGTTCCATACCGTCTTTCTGATCG +TTAAACCACCAGCCGGAACCGAACTGCATTTTGCCCGGCATACCTTCGCCCTGGAAGTTACCGATCATGG +TGCCCAGCACTTCGTTATCGCGCGGGTTCAGGCAGTACAGAATGGTTTTCGGCAGCAGGTTTTCTTCATT +CTGCTTGCTCAGCAACTTAGACAGCTCTTCCGCCATCGGACGGTCGTTGATGGAGTCAAAGCCTACATCC +GGCCCCAGCAGTTTGAACTGACGCAGGTTGTTATTACGCAGCGCGCCAATGTGGTACTGCTGTACCCAGC +CGCGACGTGCATATTCGGCACCAAGGAACACCAGTACCGCAGTTTTGAACTGCGCCACTTCGTGCTCGCT +CAGGGTTTCGCCAGCCAGACGGCGCGCCAGAATGCTGTCCAGTTCCGCTTCGTTCGCTTCAGCAAACATC +ACCACATCCAGCGCGTGGTCAGACACTTTACAGCCGTGAGCGGCGAAGTGATCCAGACGTTTGGTCAGGG +CAGTTTGCAGGTCAGCAAAGCGGCGAATGTCGGTATCGGAAACTTCGCCCAGCTTCGCCATGTAGTCGTT +AAAGGTCGCCTGTTCGATGTTGAAGGCTTTGTCCGGACGCCAGCTCGGCAGCACTTTGATGGTGAAAGAG +CCGTCTTTGGCGATCTCTGCGTGATGCTCCAGAGAATCGATCGGGTCATCGGTGGTGCCGACCATTTTCA +CGTTCATCTGCTGCATGATGCCGCGCGCGGAGAAGTTATCCTGCGCCAGCAGTTCGTTACATTCGTTCCA +GATTTCATCGGCAGTTGACGGAGAAAGCAATTTGCCAGTGATACCAAACGGACGGCGCAGTTCGAGGTGC +GTCCAGTGGTATAACGGGTTGCCGATAGTGTGCGGAACAGTCGCCGCCCAGGCGTCAAATTTTTCACGGT +CAGACGCATCACCGGTACACAGACGCTCGGCCACACCGTTGGTACGCATAGCGCGCCATTTGTAGTGATC +GCCTTTCAGCCAGATGTCATACAGGTTTTTAAAACGATAGTCTTCCGCAATCTGCTGCGGCGGCAAATGG +CAATGGTAATCGAAAATCGGCTGGTCTTTTGCGTAGTCGTGATACAGACGGCGGGCAAATTCGGTATCTA +ACAGGAAATCTTCAGTCATAAACGGAGTCATTTTCGTCTTCCTCTCAACGAGTGAGCTAGCTTGCTTATG +GTGCGATGCTGACAAAGTTATCACACCAATTTCCAGAGTCCGAAGATATTTTCGTGAGTTAGATCAATAA +ACGTAGTTAAAAAAATTACTCTCAAAGTGGTAAATCTCGCTGCAGGCCGCGCCAGTACTGGCCTTGCTGT +CGTCAGGTAATGTCCCTACAAATATTCCCACATTTGTGATGGCTCTCACCTTTTAAAGTTGTATGACAAG +TTATCTTTCTGCCGTCGCAAATCATAAGTCGACGGAATGCAAATTGCCGATTCATTCATTTGTTAGATGA +ATCGGGTTAACCGGTACGGAAGCCGAATTAGCACGAAACTTTCATGGCAACGTTCGGGGCGTGCCGGTTT +TTTTTCGGTTACCCGGTCGTAACTAACATCTTCAGCCTCTGGCGGGATGATGGCCGCGCTTCCTGCGGAT +ATAACAAAACGATGAGGTTTTACATGCGTAAAATTAAAGGGTTACGTTGGTATATGATCGCACTGGTGAC +GCTCGGCACCGTGCTTGGTTACCTGACGCGTAACACTGTGGCGGCAGCTGCGCCAACTCTGATGGAAGAG +TTAAACATCTCCACCCAACAGTATTCCTATATCATCGCAGCCTATTCTGCTGCTTATACGGTCATGCAAC +CGGTAGCAGGTTATGTACTGGATGTGCTGGGTACGAAAATCGGTTATGCAATGTTTGCTGTGCTGTGGGC +CGTGTTCTGTGGTGCAACCGCGCTGGCAGGTAGCTGGGGTGGCCTGGCTGTTGCTCGTGGTGCGGTCGGT +GCCGCGGAAGCAGCGATGATCCCGGCGGGTCTGAAAGCCAGCTCCGAATGGTTCCCGGCGAAAGAGCGTT +CCATCGCAGTAGGCTACTTTAACGTAGGTTCTTCGATTGGTGCGATGATTGCGCCGCCGCTGGTGGTATG +GGCAATCGTAATGCACAGCTGGCAGATGGCATTTATCATCTCCGGTGCATTGAGCTTTATCTGGGCGATG +GCATGGCTGATTTTCTATAAACATCCGCGCGACCAGAAGCATCTGACCGATGAAGAACGCGACTATATTA +TTAATGGTCAGGAAGCCCAGCACCAGGTGAGCACGGCGAAGAAAATGTCCGTTGGTCAGATCCTGCGTAA +CCGTCAGTTCTGGGGTATCGCGCTGCCGCGTTTCCTGGCAGAACCGGCCTGGGGTACTTTTAACGCGTGG +ATCCCGCTGTTCATGTTTAAAGTTTACGGCTTTAACCTGAAAGAGATCGCGATGTTCGCCTGGATGCCGA +TGCTGTTTGCTGACCTCGGTTGTATCCTCGGTGGTTACCTGCCGCCGCTGTTCCAGCGTTGGTTTGGTGT +GAACCTGATCGTTTCCCGTAAGATGGTCGTAACGCTGGGTGCAGTGCTGATGATTGGCCCGGGTATGATC +GGCCTGTTCACCAACCCGTATGTCGCAATTATGCTGCTGTGTATCGGTGGTTTTGCCCACCAGGCACTGT +CTGGCGCGCTGATTACGCTCTCTTCCGATGTGTTTGGTCGTAACGAAGTGGCAACGGCAAACGGTTTAAC +CGGGATGTCCGCATGGCTGGCAAGTACGCTGTTTGCGCTGGTTGTCGGTGCACTGGCTGACACCATCGGC +TTCAGCCCGCTGTTCGCAGTTCTGGCAGTGTTCGACCTGTTAGGTGCGCTGGTTATCTGGACCGTGTTGC +AGAACAAACCGGCGATTGAGGTGGCGCAGGAAACACATAACGATCCCGCACCGCAACATTAACGTTTCGT +GTAAGTTTTAGTTTCCCTTCAAAGCCGCCTTCTCAGGCGGCTTTTTCATCACTGCGAGTAGAGCTAAACT +CGCAAAAGTGGTATAACAAATATAGTCTGCCGTATCATGCCTGGAGCGCATATGGAAATCACTGAACCAC +GCCGTTTGTATCAACAACTTGCCGCTGACCTGAAAGAGCGCATCGAACAGGGCGTCTATCTGGTGGGTGA +TAAACTGCCTGCAGAACGCTTTATTGCCGATGAAAAGAACGTCAGCCGTACGGTAGTTCGTGAAGCCATC +ATCATGCTGGAAGTTGAAGGCTATGTCGAAGTGCGTAAAGGTTCAGGTATTCATGTGGTTTCCAACCAGC +CGCGCCATCAGCAGGCGGCTGACAATAATATGGAATTCGCCAATTACGGTCCGTTTGAGTTGCTTCAGGC +TCGCCAGCTCATCGAAAGTAATATTGCCGAATTCGCGGCAACTCAGGTAACGAAACAGGACATCATGAAA +CTGATGGCCATTCAGGAACAGGCGCGCGGCGAACAATGCTTCCGTGATTCCGAGTGGGATTTGCAGTTCC +ACATTCAGGTCGCTCTGGCGACGCAGAACTCCGCCCTGGCGGCTATCGTGGAAAAAATGTGGACCCAGCG +TAGTCATAACCCGTACTGGAAAAAACTGCACGAACACATTGATTCCCGTACCGTCGATAACTGGTGTGAT +GACCACGATCAAATCCTCAAGGCGCTGATTCGCAAAGATCCTCATGCTGCTAAGCTGGCAATGTGGCAGC +ATCTGGAAAACACCAAGATCATGTTATTTAACGAAACCAGCGACGACTTCGAGTTCAATGCCGACCGCTA +TCTATTCGCCGAAAACCCGGTGGTGCATCTCGATACAGCCACCAGCGGCAGTAAATGAAATTCCTGTCCG +ACAGGCGCTGCAATGCGCCTGTTTGTCTCGTCGGTAAGCGAAAAGTATAAAGTGTCAGCCTGTGTAAATC +CTCTCGCCACCCTCCCCTGCATTCAGCAAAATCAGACTCCACGGACATGTAATTTTGATAACGAACAACG +TTGACCTTTGTTACAATTAGATTCAATTTGAATTTATGTTTTTGAATGCTTTCTTATCTCACGATTTAAC +AGGGAATAGTTCAGGCTGTGTTGATGTATCAAACCCGCAGAACATACCAAAACAGCAATAACATTGCGGT +AGTGCATCTTTTAAAACCAGCGTGGCGTTAACCGATTCACCAGGAATAATGAATGGAACTTTTGACCCAA +TTGCTGCAAGCCCTGTGGGCGCAGGATTTTGAAACCCTGGCCAATCCATCGATGATTGGCATGTTGTATT +TTGTCTTGTTTGTAATTTTGTTCCTTGAAAACGGCTTGCTTCCGGCGGCCTTTTTACCGGGCGACAGTTT +ACTGGTATTGGTCGGCGTGTTGATTGCGAAAGGCGCGATGGGCTATCCGCAAACGATTCTGCTGCTGACC +GTTGCCGCCAGCCTCGGCTGCTGGGTCAGCTATATTCAGGGGCGATGGCTGGGCAATACCCGCACCGTAC +AAAACTGGCTATCTCATTTACCCGCGCATTATCATCAACGCGCACACCATCTTTTTCATAAACACGGTTT +ATCGGCGCTGTTAATTGGTCGCTTTATTGCGTTTGTCAGAACACTGCTGCCGACGATTGCCGGGTTATCA +GGGCTGAATAACGCGCGCTTTCAGTTTTTCAACTGGATGAGCGGTCTGCTGTGGGTATTGATCCTGACAA +CTCTGGGTTACATGCTCGGCAAAACGCCGGTATTTTTAAAGTACGAGGACCAGCTGATGTCATGCCTGAT +GCTGCTCCCGGTGGTGCTGCTGGTGTTTGGCCTGGCAGGTTCTCTGGTCGTGTTATGGAAAAAGAAATAT +GGAAATCGGGGGTAAGGGATGCAAATACCTCGCATGTCGCTTCGCCAGCTAGCCTGGTCCGGCGCTGTTT +TACTTCTGGTCGGCACGCTGTTGCTGGCCTGGTCCGCGGTTCGCCAGCAAGAGTCTACGCTGGCGATTCG +TGCCGTTCATCAAGGCACAACGATGCCAGACGGTTTTTCAATCTGGCATCACCTTGACGCTCATGGCATT +CCTTTCAAAAGTATCACCCCCAAAAACGACACTCTGTTAATTACATTTGACTCCAGCGACCAGAGCGCCG +CCGCAAAAGCGGTCCTCGACAGAACATTGCCCCATGGCTACATCATTGCGCAGCAGGACAATAACAGTCA +GGCTATGCAGTGGCTGACCCGGTTACGGGATAACTCTCATCGCTTCGGATAACTTCCTGTTATCCGAAAC +ATATCACTCACTTTGGTGATTTCACCGTAACTGTCTATGATTAATGAGGCGGTGGTTAACACTACCGCTT +CGTTGTCTGGACAATCGTTCCTTTGTAATAGGTCCGAATCACAATGGAAGGTTCAAGAATGAAATACCGC +ATCGCTTTAGCTGTTTCTCTCTTTGCTCTTAGTGCCGGTAGTTATGCCACTACCCTGTGTCAGGAAAAGG +AGCAAAATATCCTTAAGGAGATCAGCTATGCCGAAAAACACCAAAACCAGAATCGTATTGACGGTCTGAA +TAAAGCCCTGAGTGAAGTCCGGGCCAACTGTTCAGATAGCCAGCTGCGTGCCGATCATCAGAAGAAAATC +GCAAAGCAGAAAGATGAGGTGGCGGAACGCCAGCAAGATTTAGCCGAGGCGAAGCAAAAAGGCGATGCCG +ATAAGATTGCCAAACGCGAACGGAAACTGGCAGAAGCGCAGGAAGAGCTGAAAAAGCTGGAAGCGCGCGA +CTACTAACTCACAATAGTCACTACTTACTCACCTGGAGAAAACTATGTCGAAAGAACACACTACGGAACA +TCTGCGTGCTGAGTTGAAATCCCTTTCCGATACGCTGGAAGAGGTGCTTAGCTCATCTGGCGAGAAGTCG +AAAGAAGAGTTGAGTAAGATTCGTAGCAAAGCGGAGCAGGCACTGAAACAGAGCCGTTATCGCCTGGGTG +AAACCGGTGATGCCATTGCCAAACAAACCCGTGTCGCGGCGGCGCGTGCCGATGAGTATGTGCGCGAAAA +TCCGTGGACGGGCGTGGGCATTGGCGCTGCAATCGGTGTAGTGCTCGGCGTTCTGCTGTCGCGTCGTTAA +TTATGGCGGACACTCATCACGCACAAGGGCCCGGTAAAAGCGTTCTGGGCATCGGGCAGCGAATTGTTTC +TATCATGGTTGAAATGGTAGAGACACGTCTGCGGCTGGCGGTGGTGGAGCTGGAAGAGGAAAAAGCGAAT +CTCTTTCAACTTTTACTGATGCTGGGCCTGACGATGCTTTTCGCTGCATTTGGTCTTATGAGCCTGATGG +TGCTAATTATTTGGGCGGTTGACCCGCAATATCGCCTGAATGCGATGATTGCCACCACCGTGGTGTTGCT +GCTACTGGCACTGATTGGCGGTATCTGGACGCTACGTAAATCGCGTAAGTCTACGTTGCTGCGCCATACA +CGCCATGAGTTAGCAAACGATCGGCAGCTGCTCGAGGAGGAGTCCCGTGAGCAGTAAAGTCGAACGTGAA +CGACGTAAGGCGCAACTGCTTAGCCAGATCCAGCAACAACGGCTGGATCTTTCCGCCAGTCGTCGTGAAT +GGCTGGAGACAACAGGCGCTTACGATCGTCGCTGGAATATGCTGCTAAGTCTGCGCTCCTGGGCGCTGGT +TGGCAGTAGCGTGATGGCGATCTGGACGATTCGCCATCCTAATATGCTGGTCCGCTGGGCCAGACGCGGT +TTTGGCGTATGGAGCGCCTGGCGTCTGGTTAAAACGACCCTCAAGCAGCAACAGCTTCGCGGTTAACTTC +CCTCTGGCCGGAGCCATTCCGGCCTTATCCCTCAAATTTTTTGAAGATTTTTGACAGTTTTCCTTGCTAA +CAATCATCATTCACCACGTTTATGATTCTCTCCATCGACAGCAACGACGCTAATACCGCGCCATTGCACA +AAAAAACAATCAGCAGCCTGAGTGGCGCAGTGGAGAGTATGATGAAAAAATTAGAAGATGTTGGTGTACT +GGTAGCGCGCATTTTAATGCCGATTCTGTTTATTACCGCTGGCTGGGGAAAAATTACTGGCTACGCGGGT +ACCCAACAATATATGGAAGCAATGGGCGTCCCGGGTTTTATGCTGCCACTGGTGATTCTGCTTGAGTTTG +GTGGTGGTCTGGCAATCCTGTTCGGTTTCCTGACTCGCACCACAGCCCTGTTTACTGCGGGCTTTACGCT +GCTGACGGCATTTTTATTTCACAGCAACTTTGCTGAAGGCGTCAACTCGCTGATGTTCATGAAAAACCTG +ACAATTTCTGGCGGATTCCTGCTGCTGGCAATTACCGGTCCGGGCGCGTATAGCATCGACCGCCTGCTGA +ATAAAAAGTGGTAAGCACGCGCTATACTTAACGATAAAAAACGAGGAGGAAGCTCCTCGTTTTTGCTATT +GGAGGAGAGAAAAATGGGTCAACTGATTGACGGCGTCTGGCATGACACCTGGTACGATACCAAATCTACC +GGCGGTAAATTTCAACGTTCAGCTTCCGCATTTCGTAACTGGCTCACTGCCGATGGCGCTCCTGGCCCCA +CTGGCACAGGCGGTTTTATCGCAGAGAAAGATCGTTATCATCTCTATGTTTCACTCGCCTGCCCGTGGGC +GCACCGCACGCTGATCATGCGCAAACTCAAAGGACTGGAACCGTTTATTTCCGTTTCCGTAGTGAACCCG +CTGATGCTGGAAAACGGTTGGACCTTTGATGACAGTTTTCCGGGAGCAACCGGAGACACGCTCTATCAAA +ATGAATTTCTGTATCAGCTTTATCTCCACGCCGATCCACACTACAGCGGACGAGTTACTGTTCCCGTGCT +GTGGGACAAAAAGAACCACACCATCGTCAGCAACGAATCAGCAGAAATCATCCGCATGTTCAATACCGCG +TTTGATGCGCTGGGCGCGAAAGCGGGTGATTACTACCCTCCAGCCCTGCAAACAAAAATTGACGAACTTA +ACGGCTGGATTTATGACACCGTTAACAACGGCGTGTATAAAGCTGGTTTTGCCACCAGCCAGGAAGCTTA +CGACGAGGCGGTGGCGAAAGTGTTTGAATCGCTGGCACGACTGGAGCAGATTTTAGGCCAGCATCGTTAC +CTGACCGGCAACCAGCTAACCGAAGCCGATATTCGCCTGTGGACTACGCTGGTGCGTTTTGATCCGGTGT +ATGTGACCCACTTCAAGTGTGATAAGCACCGCATCAGCGATTACCTGAATCTGTACGGTTTTCTGCGCGA +TATCTACCAGATGCCGGGGATCGCCGAAACAGTCAATTTCGATCATATCCGTAATCATTACTTCCGCAGC +CATAAGACCATCAACCCTACGGGGATTATTTCAATTGGTCCGTGGCAGGATCTCGATGAACCGCATGGAC +GAGATGTTCGCTTCGGTTAAAAAAAGGCACCTTACGAGGTGCCTCTGATAATTAGCTAAGTGCATGTTGT +TCATGTCGGATGTGGCATGAACGCCTTATCTGACATACAAAACATTGTACATTCAATAGATTGCATAACC +CGCGCAGACCAGATAAGCGTAGCGCATCTGGCGATTTTGCGCTTGTCATCAGTCTTAGCGCGCCTTCACG +GCACTTTATTAATTCCTTGAACGAATATTTACTGCCATTTCATTCACGTCTATTCTTAATTTGCTGCTTT +AAAAACAAGTGATTGAGCAAAATTGAGGCAAAAATGGACTGGTATCTGAAAGTACTAAAAAATTATGTCG +GTTTCCGGGGTCGTGCGCGGCGCAAAGAGTACTGGATGTTTATTCTGGTCAACATCATCTTTACGTTCGT +GCTGGGGCTGCTGGATAAAATGTTAGGCTGGCAACGCGCTGGTGGCGAAGGCATCCTGACGACAATCTAC +GGTATTCTGGTGTTTTTACCGTGGTGGGCGGTTCAGTTCCGCCGCCTGCACGACACCGACCGCTCGGCGT +GGTGGGCACTGCTATTCTTAATCCCGTTTATCGGCTGGCTTATTATCATCGTCTTTAACTGCCAGGCGGG +TACGCCAGGCGAAAACCGCTTTGGACCAGATCCAAAACTGGAACCTTAAAACAAATCTGCTCGCCGGATG +TCTGACTCATCCGGCTTTTATCATTATGTTGATGAATGAATAATTTACTAATGTTTATTTAAAATATTTC +AATGTCGTTATATAAATTACCTATAAAAAATAACCATGTATTTATCTTAAATATCAAAACCTTTATAACA +TCCGAAAAAGAAAGATACGAATAGCATTTACACAATACCCGGAATAGACTTTCGTCACTTTTAATTAAAG +GGATGTTTTTATGCAGTGGTATTTGTCCGTATTAAAAAATTATGTTGGTTTCTCTGGTCGCGCACGTCGT +AAAGAGTACTGGATGTTTACTCTGATTAACGCCATCGTCGGCGCTATTATCAATGTCATTCAATTGATTT +TAGGTCTGGAGCTTCCATATCTGTCTATGCTTTATTTGCTGGCAACCTTCCTTCCCGTCCTTGCGCTTGC +TATCCGTCGCTTACACGATACCGACCGTTCAGGTGCCTGGGCCTTGCTCTTTTTTGTTCCGTTTATTGGC +TGGCTCGTGCTTCTGGTTTTTTTCTGCACAGAAGGTACTTCTGGCAGCAATCGTTACGGAAACGATCCGA +AGTTTGGTTCAAATTAATCTTAGAATTGGGGCGATATTTCGCCCCTTTTTATTAACAATAATAAATATTA +TTTTCCGTTAAAAAGTTTGGGAATTTCCCGCAGACACCAGGATTTCGCTTCCCCCATACTGTCACGACGC +CAGGCCATAATAATATCGATCTCGCTGGTCGATTCCGGGCTGACGACACGCAACCGCCCTTCCGCAATAT +CTTTTTCGACCATAGGATACGGCATCGTCGCCACGCCAAGCCCCGCCAGTAATGCCTGACGTTTATCTTC +AATCGTGCTCACCGTTAAGCGCGGCTGTTTGTCCAGCAGCTGTACGGTCAACACCGGGCGCTCACGAGCG +GTATCCGCCACCGCAATTCCACGATATTTCACACGCGTCACTTCAGATAACGGTTCCGGCTCCTGATGAA +TCGGGTGATCAGGCGCGGCAACGTAGACGTTCATTAACGTATAGAGCTTGCGCGAGTTGATCTCCGACGA +GGAACGAAAATGCATATCCGGCGCGATAACAATATCCGCCCGCCCCTGCTCCAGCCGTTCCCACGCCCCC +GCCAGCACTTCTGTGATGATTGCCAGTTGGGTATTGGCTTTTGCCGCCAGTTTGTCGATTAACGGGAAAA +AGGCAGGTGTCGGTACCAGCGCTTCGGTCACAATGGTGAGATGCGTTTCCCAACCGCGCGCGAGAGCTTC +CGCATCAGTAGTCAGTTTATCTGCGGCTTCCAGCAAAACGCGCCCTCGCTCCAACAACATCCTCCCGACA +TTGGTGAATTTGGTACGATGGCCCGAGCGGTCAAACAGCACCACATCCAGCTCTTCTTCCAGTTTTTGCA +TGGTGTAGCTAAGTGCGGAAGGCACGCGTCCCAGCTCATCCGCCGCCGCCGCAAAACTGCCCCGGCGATC +GATCGCATCCATAACCCGTAGTGCTTCCAGCGTTAATGCCCTTTCTTTGGCCATTTCGTTCTCATTCAGG +AAATTTGAACATACCGGGCAGAATATCTGGCTAACAATGTAGCGTCCAGCCCCTTACCATAAAAGGAAGT +AAAGAGAGGTCAAGAATTATGATTACTACCCGAACTGCCAGGCAGTGTGGACAAGCAGACTACGGATGGT +TGCAGGCCCGGTATACTTTTTCCTTTGGACACTACTTCGACCCGAAATTGTTAGGCTATGCCTCCCTGCG +TGTGCTTAACCAGGAAGTGCTGGCCCCAGGTGCCGCCTTTCAGCCGCGAACCTATCCCAAAGTCGATATT +TTAAATGTGATTCTGGATGGAGAAGCAGAGTATCGCGATAGCGAAGGCAATCATGTTCAGGCCAGCGCCG +GAGAGGCGTTGCTGCTCTCTACCCAGCCGGGTGTCAGCTATAGCGAACACAATCTCAGCAAAGACAAACC +GTTAACGCGAATGCAGCTTTGGCTGGACGCCTGCCCGCAGCGAGAGAATCCGCTGATTCAAAAGCTGGCG +CTTAATATGGGCAAGCAGCAATTAATCGCCTCGCCAGAGGGTGCGATGGGAAGCCTGCAATTACGCCAGC +AAGTGTGGCTGCACCATATCGTGCTCGACAAAGGCGAAAGTGCGAATTTCCAGTTGCATGGGCCACGCGC +GTATTTGCAATCGATTCACGGGAAATTTCATGCGCTTACGCATCATGAAGAGAAAGCGGCGCTGACCTGC +GGTGATGGGGCGTTTATTCGTGACGAGGCTAACATTACGCTGGTTGCCGATTCCCCACTGCGCGCTTTGC +TGATAGATTTGCCTGTCTAGTTGTTTTTACAGGGAGATGATGATGAGTAAAAAATTGGCCAAAAAGCGCC +AGCCGGTGAAGCCCGTGGTGGCGAAAGAACCTGCTCGCACCGCCAAAAATTTTGGCTATGAAGAGATGTT +GAGCGAGCTGGAAGCTATCGTCGCGGATGCTGAAACGCGTTTAGCCGAGGATGAAGCTACCGCGTAAAGA +CAGGTTGCCGGATGCGGCGAAAACGCCTTATCCGGCCTACAAAATCCAACAACATTAACGAATTAAACAA +CCCGTAGGCCGGACAAGATGCGCCAGCATCGCATCCGGCACGATCCCCAAAACCTGGCGTTTATCTGGCC +TTGCTCGCCATAATCTCGATAATCTGCCGATCCGTTTGCTGCATCGAATGGCTTGCTAACGCACACAGGT +TGGCAATCGACTGCTCAACATCATGCGCCACAATCCCTTCATTGCCGGTCACGGCGGTATCATCCAGCGC +CATTAACACCGCTTTCCACGCAGCCGAAGCACTGGTCGAAACCTTCATCGCGCAGCTGTTCGACGCACCA +TCGCAAATCATGCCGCTGACATCGCCGATCATACTGCTGATCGCCATCGAGATGGTTTCATAACGCCCAT +CCACCAGCCATGCCATCCCGGCGGCGGCCCCCATTGCTGCGGTCGTTGCGGCACACAGCGCAGACAAACG +CGGTAACTGGTTATGGATGTAAATTGCGCTCAAATGCGAAAGCATCAGCGCACGCGCCAGCCGTTCATCA +TCCGCTCCGAAGTGTTCTGCTACCACCACCACAGGCATTGTTGCGGTAATCCCCTGGTTACCCGAGCCGG +AGTTACTCATAGCCGGAAGCGTAGCGCCGCCCATACGCGCATCGGATGCCGCGCTGGTACGAATCACAAT +GGATGAAGAGAGATCTTTCGCCAGCAAACCGCGCTCGCACTGTTTTTCCAGCGTCGCGCCAATATGCAGC +CCCCACTTACCGCTCAAACCTTCCTGCGATAACGCACAATTTAGCTTCGCGGAATCGAGAATAAAGCGGA +TCGCCGCAAACGGGACTTCATTGACGAACTTCAGGATCTCAGCCAGCGTCGTTCTGGAAAGCACCGTCAG +CGGAGACTCTTGCTCGCCCTCTGCCACACACGCCTGCTGGGTAAACACCACACCATCGTGCGTCTCGATA +TGCACAATGTTGGTATGCCCGCCGACGATGGTGACACACGCCCACTTCTCACCGTTCCAGACTTTGGCGC +GTGAGAAGAGGATTTCATCGCAAGGTTCCTGGATCTTAACGGAGACTTTCCCCGCCGCCAGCAGTGCTTT +GGCATCGGCAATTGCCTGCGCTGTTGCGTCTTTCAGCACTTCCAGCCCGGCGTTGGCATTTCCACCTAAC +GCCCCCAGCGCCGCCGCAATCGGCAGCCCCACCATTCCCGTGCCGGGAACGGTGACGCCCAGACCGTTCT +TCATCAGATTTGGCGAAACCCAGGCTTCTACACGTTCAACCGGACCTTCCAGTTCTGCCGCAGCAACCGC +CGCCGCCAGCGCCAGTGAAATCGGTTCAGTACATCCCAGCGCCGGTTTTACTTCCTCCTGAACGGCGAGG +ATGTAACGCTGCCATAACGGATTTAAAGTCGAATCAAACATATTAAAAACCTTAAAATTTCAGGTAAATC +AAGAAAATGCCAGGAACGGAGAAACACACAGCAACAAACCAGTGACGATAATCAGGTACAGAGACATCCC +TTTGTATTTGTGCAATGCTGGTACTTTGTAAACCAGCCACGCCGGGATCAGGCACCCTACCATGCCGAAA +ATCGGGCTACAGATAGAGGTGAAGCTCAACACCGGTGCGTTCAGTACGATGGCGCTCCAGGCCAGCAAAA +TGGCGAAAATCATGATGCCGCGCTGAACGAGATTTTCGTTAATCTTCTCGGCAGGCATCTTGCGACGCAG +GATGTTCATTACGATCCCTTGCGTTGCTTCGCGAAAGCCTAAATAGACGCCAAAGAATGCAGTCATGACA +GCAAAGATATTGAGAATGACGCTGACCACTTTCACCCACGCTGCGCCGTCACCGCTAATAAACTGTGCGG +CAATCGCCAGCGCGGAAATATTCTGCTCATAGGCTTTTACCGCTTCGTCATGTCCCATCGCCAGCGTGAA +CGACACGGCGTAGAAAAAGACGGTGACAAACAAAATGCCAAACGCGATATTCATTGCCCGCAATGCTTTA +TGCCGCGCCACTTCAATTGATTTTTCCCGCGAGCGATAAGAGATCACCATCGGACTTAACGTCTGGATAA +ACAGAATCGACGTCAGGGTAAACGGCAGCGTAATAATGGCGTTTTTCACCAGCAGCCCCAGCGGCGGTAG +CGAACCGACGTTATACAGATGCCACATTCCCACCATCGACACGCCCAGCGCCGCGACCACCAGCAGCTTG +GTCAGCACCATGCCGGTCGAAATTTTGAATAACAATTTCTCGCCGCGTGAGGAGATCGCCACCAGAATGC +AAATCAGTACCAGACCATAAAAGGGACTGTCTGACAGCAACCCTTCCGTCACGCCGAAGGTATGCAGGTA +GGAAGCACTATCGTTGGTGATGGCGGTGGAATAGACGAACATCCAAATCACCAGCATTACGAAATAGAGC +GCACCTAACAGGATGCCCCAGTTTTTACCTAAATAACCGCTAATGACGCTCGGGTAATCTTTACATTCTG +GTGATTCTGCCAGCGTATTAATAAACAATCGCTGAAACAGATACATTGCCGGGTAACCAATCACCGATGA +GAGCAAAAATACCCACAATCCCATCAAACCGACCTGCACCGGGAGAAAAACAATCCCCGCGCCAATCGCC +ATCCCGATACTCATAATCACCCAGCCGGTGTCAGTACTGTCGAATTTGATCGCTTCTCGCCACTCGCTCT +CACTCATTCCAGCACGACCCGCCGGGGTCGAAGCGTCTGCAATGACGCCTTTATTCGATGCAATTTCCAT +AATTTCTCGCTCAATATTTTGTAGGGCTTATTATTTTTTTCCGAGCCGCATCAAGGCGATATGCGGTCTA +CGTTTTTGCAGGCGAGTTATTAGAATAAAGAAATGATACGCGCGAGGTCAGAGAAAATCTTCACAATCAA +GACTTTGAAATAACGGAGATGGATAAGAATTTTCTACTAAATTAATCGCAGGAGAATATTCATTCTCTAT +TTGCGGCAGATCACAAAAAAAAGGTGCACATTTGTGCACCCAAGGATGAAAGCTGACAGCAATGTCAGCC +GCAGACCACTTTAATGGCCAGTCCTCCGCGTGATGTTTCGCGGTATTTATCGTTCATATCTTTGCCGGTT +TCATACATCGTCTCGATCACTTTATCGAGTGAAACACGCGGTGCCGAGGTGCGGCGCATCGCCATCCGCG +CGGCGTTTACTGCTTTCACGGCATTAATGGCATTACGTTCAATGCACGGGATTTGTACCTGTCCGGCAAC +CGGATCGCAGGTCAGCCCAAGGTTATGCTCCATCGCGATTTCCGCCGCATTGCATACCTGCGCCGGACTG +CCGCCCAGTAGTTCAGTTAACCCTGCCGCCGCCATTGAACAGGCCACGCCAATCTCCCCCTGACAGCCGA +CTTCCGCGCCAGAGATGGAGGCGTTCATTTTATACAGCGCGCCAATAGCCCCCGCGGCCAGAAAATAGCG +GGCAATTGACCGCTCGTTTACCGGACGACGGAACTTATCGTAATAAGCCAGTACTGCCGGAATAATGCCG +CACGCACCGTTAGTCGGTGCCGTTACCACGCGCCCGCCAGCTGCGTTTTCTTCACTAACCGCCAGCGCGT +ACATGTTGATCCAGTCGATGACATTCATCGGATCGTTAGAGATGTTATCGCTGGAAACCAGCTGACGACG +CAGCGCTACGGCACGGCGCGGCACATTGAGCGGACCAGGCAGCACGCCTTCAGTGTTCATCCCACGTTCA +ATACCGTCATGCATCACTTGCCAGATACGGGCAAAACCGGCGTCAATTTCCGCTTTGCTGCGCAGCGCTA +GCTCGTTGTGCATCATCAGACCAGATATAGACAGGCCGTTGTAATCACACATTTTCAGCAGTTCACCTGC +TGAGTGGAAATCGTAAGGTACGGACGTTTCGACATCGTGCGACAGGCCGAAGTGTTCTTCTTCGACAATA +AACCCGCCGCCGACAGAGTAATAGGTTTTACTTAATAGCTCTTCCTGTCCCTTCCAGGCAGTGATCCGCA +TTCCGTTCTCATGGCGAGGCAACATTTCGGGATGGAAGATAATGTTCTTTGCTACAGGAAAATCAACAAT +ATGCGCACCAGATGCCACTGGCAGCCGCCCGCTGCGCGTTACTAACTCTATAAATGCAGGGATCTCATCA +ATGACAACATCCTGCGGACTGTTTCCTGCCAGTCCCATGATGATGGCGACATCCGTGGCATGGCCTTTGC +CCGTCAGTGACAACGACCCGTACAGATCGACCACAATATGGCTCGTCGCGGTTAATAAGCCGCTACTTTC +CAGCCGATCAATAAAACTTTTTCCGGCATTCATTGGCCCCACGGTATGCGAACTGGAGGGACCAATCCCA +ATTTTGAAAATATCGAATGCACTAATCATATCCACACCCTCGGATTGCCGTTCAGTGAAGTGGAGCGGAA +CGACCTTACGACCGTCCCGCTCACGAGGCTTTACGCACTACGTACTGCGATGGCTTCAATTTCCAGCTTC +ACATCTTTCGGCAAACGCGCGACCTGCACACAGCTCCGGGTCGGATAGGTCGCCTGATGCTCATCGAAGA +ACTGCTTATAGACTTCGTTGATGGTGGCAAAATCATTCAGATCGGTGATAAACACGGTCATCTTGATGAT +ATCGCCCACGCTCAGCCCGGCAGCAACCACGATCGCTTTGACGTTTTCGAGGCTTAAACGCGCCTGATCT +TGCACATCAGCCGGGATCTCACCGGTCTGTGGGCAAACCGGTATTTGCCCGGAGGTGAAGACCATGCTGC +CTAAATCAACGCCCTGAACATAAGGGCCGATTGCGCCTGGGGCACGTTGCGTTTCGATAATCTTTTTCAT +ACATCCTCCGGCGTCAGAGCGCCTGGGTAAAGGTACGTGAAATAACATCCTGTTGCTGTTCACGGGTCAG +TGCGTTGAAGCGCACGGCGTAGCCAGAGACACGGATTGTCAGGTTAGGATATTTTTCCGGGTGCTCGATG +GCATCCAGCAGCATTTCCCGATTCATTACGTTGACGTTGAGGTGTTGACCGCCTTCGACATCCGCTTCGT +GGTGGAAATACCCATCCAGCAGGCCGACAAGGTTGGTTTTACGTACTGGATCTTCTTTGCCCAGCGCCGC +AGGAACGATTGAGAAGGTGTACGAGATCCCATCTTTGGCGTAGGTGAACGGCAGTTTCGCCACCGACGTC +AATGAGGCCACGGCACCTTTGCGGTCACGACCATGCATCGGGTTAGCGCCCGGCGCGAACGGTGTTCCGG +CGCGACGACCGTCCGGCGTATTACCGGTTTTCTGGCCGTACACCACGTTAGAAGTGATAGTCAGAATCGA +CTGGGTAGGGACGGCGTTGCGATAGGTTGGCAGCGCTTTAATTTTCTTCATAAAGCGTTCAACCAGGTCG +CAGGCAATGCTGTCTACGCGCTCGTCGTTGTTGCCGTACTGCGGATATTCACCGTCGATTTCAAAGTCCA +CCGCCAGGCCGTTTTCGTCACGGATTGGTTTCACGCGGGCATATTTGATGGCAGACAGGGAGTCCGTCGC +CACCGACAGGCCCGCGATGCCGCATGCCATAGTGCGATAGACATCACGATCGTGCAGCGCCATCAGCGAA +GCTTCGTAGCTGTACTTGTCGTGCATGTAGTGAATGATATTCAGCGCGCTGATGTACTGCACCGCCAGCC +AGTCCATGAAGTGATCGAGGCTGTCCATCACTTTGTCGTAATCCAGCACGTCGTCCATCAGCGGTGCTGT +TTTCGGCCCGACCTGAATCTTCAGCTTCTCGTCCACCCCGCCGTTAATTGCGTAGAGCAGCGTTTTCGCC +AGGTTAGCGCGTGCACCAAAGAACTGCATTTGCTTACCAATCACCATTGGGCTGACGCAGCAGGCAATCG +CGTAATCGTCGCTGTTGAAGTCAGTACGCATCAGATCGTCATTTTCATACTGCAAGGAAGAGGTGACGAT +CGACACCTGCGCGGCATATTTTTTGAAGGCAATCGGTAATTCTTCCGACCAAAGAATGGTCAGGTTAGGT +TCCGGTGCCGGCCCCATAGTGTGCAGGGTGTGCAAATAGCGGAAGGAGTTTTTGGTCACCAGCGTACGAC +CGTCCAGCCCCATCCCGCCGATCACTTCCGTCGCCCAGATTGGGTCGCCGGAGAACAGCGAATCAAATTC +CGGTGTACGCAGGAAGCGTACCATACGGATCTTCATGATGAAGTGATCGATCAGTTCCTGTGCCTGCTGC +TCATTGAGTACGCCAGCTTTAAAGTCGCGCTCAATGTAGATATCGAGGAACGATGCCGTGCGGCCCAGCG +ACATCGCGCCGCCATTTTGCGATTTCACTGCCGCCAGATAAGCGAAGTAGAGCCACTGCACCGCTTCCTG +CGCATTCTGCGCCGGGCGAGAGATATCAAAGCCATATTTCGCCGCCATTTCCTGAATCTGCAACAGCGCA +TGACGATGCTCTGCCAGCTCCTCACGCAGACGGATGGTGGCTTCCAGATCCTCGCCTTTTTCCAGACGAG +ACTGGAGATCGGCAAATTGCAGTTCGCGTTCACGTACCAGATAACTGATGCCATACAGCGCTACGCGGCG +ATAGTCACCGATAATGCGCCCACGGCCATAGCCATCTGGTAAACCGGTCAGCACGCCAGATTTACGGCAG +CGCAGCATATCCGGTGAGTAAACATCAAATACGCCCTGGTTATGGGTTTTACGCAGATCGGTAAACAGAT +ATTCAAATTCACTGTCCATTTCTCGGCCATAGGCGTGGAATGAACTTTTAATCATATTAATGCCACCGAA +CGGGTGTAGCGCACGTTTCAACGGCGCATCCGTTTGCAGGCCAACAATTTTTTCCAGCGGCTGGTTAATA +TATCCCGCATCATGAGCGGTAATTGTGGTGGCAATATTGGTATCGAAATCAACCGGCGCGTGGGTTGCAT +TTTCGATACGGATGCCTTCCATTACTTTTTCCCACAATTCCGTGGTGGCAGGCGTCGCTTCGGCGAGGAA +AGATTCATCGCCTTCATACGGTGTATAGTTATGTTGAATAAAATCGCGGACATTAATTTCGTTTTTCCAG +TCCGTACCTTTAAAGCCAAGCCATGCGTCGGCGTACAGCTTATCGCTGGTATCAATATCTACCTTCATGA +AAAATAATCTCTCTACAATACTTCAACTAAATTATGCAAATTCTGCGGGCGCGTTAACTTTGCCTAAATG +AATGGCATCCAAAGCAATCATTTTTTCTTCGTTAGTCGGAATAACGGCACAAATGACACGCGCATTTTCA +CTGGAAACAATTCGCTCACCACAGGAGTTAGAGCGATTATTCATTTCTGTATCAATCTCTAAGCCTAATA +CAGCCAAATGTTCCATGACCAGACGACGAATTAAGCTTGAATTCTCTCCTATTCCGCCGGTGAATATAAT +TCCATCCAGGCGACGTAATGAAGCTGCGTGTCCGGCAATATGACGGGCAATTCGGTGAACAAAGGTTTTA +ATTGCCAGTTGCGCGCGTTCGTGACCTTCATGCCAGGCTTTTTCCAGAACACGTAAATCCGAAGAAAGAC +CGGAAATACCTAATAATCCCGACTCTTTATTCACTACGCGTTCCAGGTCACCCAGGCTCTGGTTGGTTTG +GCTGGCGACCCAGGACATCGCACCAAAGTCGACATCGCCACTGCGGGTACCCATCATCAAGCCTTCCAGC +GGCGTCATTCCCATTGAGGTATCAACACTCTGACCGTTGCGAACCGCGCAGATTGACGCGCCATTGCCAA +GATGCGCCACAACCAGGCCGGAGTCATCTTCCGCCAGATTCAGCAGCGAATGTGCGCGCTGGGAAACATA +GCGGTGCGACGTGCCGTGGAAACCATAACGGCGTACACCTAACTCTTCATAATATTTCCACGGCAGGCCG +TATAAATAAGCTTCCGGAGCCATCGTCTGGTGGAAACTGGTATCAAATACCGCCACCTGAGTTACGCCCG +GAAATAATTGCTGCGCCGATTCAATACCACTTAAATTGGCGTAATTATGCAGGGGTGCCAGTGGAGAAAC +GCGACGGATATTATCAATGACTTCATCGGTAATAATGGCGGACTCGGTAAAAATACTGCCGCCGTGAGCG +ATGCGGTGGCCAATTAAGGCCACACTGTCATTTAAATTCCGTTTTTCCAGTTCAAATGCAATTGCCTTCA +ATGCACCTTCGTAGCTGTGGTGAGCCAGCGGTGCTGGCTCTCCCCCATTTACGGATAAGAATGCATTTTC +CGAGTTAATACCGTCGGCAATACCTGACATTAATACTTCACAGTCGCTGGCATCGAGCACGGAAAACTTA +ATCGAAGACGAACCACAGTTAATAACCAAAACAACCGGAAATTCATTCATCTCTTTTCTCATCCTGAGTT +ACGGATTAAAACAGTTTGTATACGATGTTCAGGATGGTCAGCAGACCAATCACGGTAACAAACACGTTAT +CCAGACGACCACGGTATTTCGCCAGAGACGGCGCTTTACGGATGGCATACATCGGCAACAGGCACAGCAG +GGATGCGATAATCGGTGCGCCCATGGCTTCAATCAGGTCAAGGATGTTCGGGTTGGCGTAGGCAACAACC +CAGGTGGAGCCCATGATGAAGATCATGCTGATAGTGTTCAGTTTACCCAGCGACACTTTAGTTTTGTCGC +CTTTATAACCAAACTTCAGGACCAGGCCATTCAGACCTTCCAGCGTTCCCAGATAGTGACCGAAGAAAGA +TTTGAAGATAGCCACGAGTGCGATGATGGAAGCCGCATATTCCAGTGTAATCGCGAACGTTGTTTTGGTA +CCGGTCATGGACGCAAAGTGGTTAGCCAGATAAGAAAGCACTGGAATATTCTGCGCTTTGGCTTCCGCCA +TGTTGGCCGGAGACAGAGTAAACAGGCAGCTAAAGGCAAAGAACATCACCACTGCAACCATCAGCATGCT +GGCACGAGAAATGATTTGGGAACATTTACGTTCGGTGAAGTCGCGACCGAAGTCTTTCTCATACTCTTCA +CGCTTAGAAACCACGAAGGAAGAGACGATTGGCGAGAAGTTAAAGGAGAAAACCATGATGGAAATCCCCA +GCCAGACAGTGATCAGGATACCGTCATGACCGGTTAACGACAGCGAACCGAGGTCAACCTGGTCGATAAC +TGCAGAGTTCCAGTAAGGGATCAGCGACAAAGAAATCAGCACCAGGCTGGCGATAAACGGCCATACCAGG +TAGCTCATCACTTTAACCATCAGATCCTTACCAAACCAGATGACGAAAGCCATCAGCAGCAACAGGAACA +GCGCCACAAAGCCGCGATTCAGCGGTGCAAAGCCGAGCTGGTTTTCCCAGAACGTCATAAAGGTATTGGT +AATAGTAACGCCATAAATCCACAGCAGTGGGCAAATCGCGAAGAAGTACAGGAACGTGATAACCACGCCG +CCAGTTTTACCAAAATGCTCTTCCACCGTTTCCGTAATGTTGCCGGAAGGGTTAGAGCCAGAAAGACACA +GACGCGCCAGCGCCCGGTGGCAATAAAACGCGATGGGGTATGCCAATACCAACATCAGAAGAATCGGGAT +CAGTCCGCCAAAACCTGCGCGGATAGGGAAGAACAGCACCCCGGCGCCGATTGCCGTACCAAACAAGCCT +AACGTCCATGTGGTATCTGATTTACGCCAGGACGATTGTTTTGTCTGGCTGGATACAATGCTATCTGAAG +TACTCATATCCTATCCTCAACGAATTAATTAAGCGTCAACGAAACCGGTGATTTGAGAGACGCGAGAAAG +ATCGATATTGCCGCCGGAAATAATACTGACGGTTTTTCTGTTTTGAATATATTGGTCTAATTTACCGCTT +AATAATGCAGCACATGCCAGAGCGCCTGCGCCTTCGGTGACGACTTTATTGCGCTGAATTAAGGCAATCA +TACTGTTTCTGATTTCGTCTTCGCTGACCAGCACGATGTCATCGACTAATTCACGAACGATTTCGTAAGT +TAAATTACCCGGGCGGGAGACATCACAACCATCCGCCAGGGTGCCGGTAGTTCGGTGCGTGGTTATTTCT +CCGGAGTGGAAAGAAGCCGCCATGCCGTGAACGTTTTCAGACTGTACGCCAATAACACGAATGGTCGGGT +TAATAGATTTAATTGCCACCGCAATACCAGCAATTAAACCGCCACCACCAATTGGCACAATCACGTTATC +GACATCATAGAGATCTTCCATAATTTCCAGACCAATCGTTCCCTGGCCAGCAATCACTTTCGGATCATCG +TAAGGTGGGATAAAAATACGGCCTTCCATTTCGACAATTTCGCTCACTTTAGCGATAGTGTCGTTGAAGT +TATCACCATGCAGAACGACTTCTGCGGAGTAGTCGCACGTTGCCGCTACTTTGGATTTTGGCGCACCTTT +TGGCATCACCACTTTACCGTCGATACCCAGCATCGCGCAGGAGAGGGAAACCCCTTGCGCATGGTTGCCC +GCAGAACAGGCCACCACGCCTTTGCGTTTTTCCGCATCGGTCAGTGAACTTAATTTATTAAATGCGCCAC +GAATTTTAAATGAACCCGTACGCTGCATATTTTCAAACTTCAGGAATATTTCACCTTTGCAACGTTCACT +AAAATAGTTGGAGCGAGGCATGCCTGTTTTATAAATTCGCCCAGCCAGTCGTTGTTTCGCTTCAATAATG +TCATCAATAGCAACCGGCAGATCGTATGTAATATGCATTATAAAACCTCTTCGCCTGAATTAAATATGTA +GGTAACCGTAACCGACACCTGCAAGACAGACAGGTGGATTATTTATGTTTAAATAAAAACAAATAACTAA +CCAACTTCTATTAATTGCCTTCGTCTACACCCATTATAAGATGAATACTCTTTGGCTAATTCCACCAAAA +CCGATGCTGCTTTTTTAATACGATAATTTTTCGACCATACCGCGGCATATTGTGCCACAGGTAATGTTTC +TTCAACCGGAATAGTAATAAATTGATTAGAACCAAAAGGTGACGTCATATCACAAGGAATTACAGTTAAG +AAATCAGCATTGAGAACAAGATTATAAATTGTCACGACTGAGTCGGTTTTAACGATGTTTTCAATACTGA +TGCCATTTCTTTGTAACGTAGTAAGCAGTTCGCTGTAGTACCCCATATTAGTTTGTGGCAACACCCACTG +TTCGTTCTTCAACGACTCCAGCGTGGTGGTGCCGGTGCATGTTCGGGACTTACTGGCTACCAGCACAAAC +TCGGACTCGAACAGCGGCTCAACATGTAAATCCTGAAGCTTCATTTCTGCACTTAACGTACCAATCGCAA +AATCCAGTCGACCGTCGCGGATTGCCGGTAAGAACGAAGACAGTTGCGCTTCATACATAGAAACCTGCGC +TTTCGGGAACACCTCTTTGAACTTGTTGATCATCCCTGACATAAAAGTAAAACCAATCAATGAAGGAAAA +CCAAATGAGACTTCCACCACCGCCTCAGAAGACATACCGCTTATCTCATTAACCATATTTTTCATTTCAC +GGGTAATGGATTCGGAACGGGAGAGTAACAATTGACCGGCAGGTGTTAATGTTACACCGGTATTTTTCCG +CACCACTAATTCCACACCAAAATAATCTTCAATATCGTTAATGATTTTACTGACGGCCGGTTGAGTTAAC +CCTAATTCTTTTGCAGCCGAGCCGATAGAACCACTTCTAATGACTTCCTGAAAGACTACCAGGTGCTGCG +TTTTCGGAAGAAGAATAGTGCTCATAACGACCTACGTTAATTACCTCATTGACGGCATGAAGTGTATCAA +AATGAAATGAACAGGATATGTGCGACCACTCACAAATTAACTTTCAATACTTTCCAGAGTATCGTTATTA +CAATTAAATACCTTTAAATATCAACAAGTTAAAGTATAAAAATCAGCATAAACCCTGATTTTTGTCAAAA +AAAATGACGGGGATAACCATATTTTATGGCGATAACATCATTCGTTATGTGGTTAATACAAAAAAGGGGC +TGAGACCATATTTCAAGCAATTACCGGATAATTACCAGGCAAAATTTGAGTTAAATTTAATGAGCAAGTT +CTCAAATTTTATTATAAATAAACCATTTTCAGTGATAAATAATGCGGCATGTCACATTTTTTCACGCTAT +TTGTTGGAGAACAAACATTTATTTTATCAATATTTTAAAATTTCGAATACATGTATTGATCATCTCGAAC +AATTGATTAACGTCAACTTTTTCTCTTCTGACAGGACGTCATTTTGTGAATGCAATCGTTTTCCATAAAT +TCTTCTCCCCTCATAGGCGACGAATAGCATTTTGTGTTGAGGATCACAAAACGAATAATTGCTGATCGCC +GCGATAAGGTCAGACAAAGACAACAAGGGAAATTTTCACAGAGCTTTTGATCGGCGTAGGCCACAGAATG +TTGCTTCGTTTACTGTAACGCCGGGTAAATGAGCGTTTTTTGATAGTGCGAAAGAACCCTGCGAGGAAAA +TAAGCATCTATTATTGTTTGTCATGATGACAAGGCAGGCATCAATGAAAGGCTTCCCAATTGCGCATATT +TTTCACCCTTCAATCCCGCCAATGCACGCAGTGGTTAACAATCACAATAGAAATATTGATTATTGGACGG +TAAAAAGAAAGTTTGCAGAAATTGTCTCCACCAATGACGTTAATAAAATTTACAGTATAAGTAATGAACT +GCGGAGAGTATTATCTGCAATAACTGCATTGAATTTCTATCATGGCGATGTTCCTTCTGTCATGATCCGA +ATCCAACCGGAAAATATGAGTCCATTCATTATAGATATTTCTACAGGAGAACATGATGATTATATCATAC +AAACATTAGATGTAGGCACTTTTGCACCTTTTGGTGAACAATGTACTTGCTCAGCCGTCAATAAAAAAGA +GCTGGAATGTATTAAGGAGACGATTTCTAAGTATTGTGCAAAATTCACCCGAAAAGAAGCCATCTTAACC +CCCCTTGTGCACTTTAATAAAACCAGCATTACTTCAGATTGTTGGCAAATTCTCTTTTTTTCACCCGATC +ATTTTAATAATGATTTTTATTGATTATTTATAAAGGATAAAATAATGTTCCCTGTTTCATCAATTGGTAA +TGATATTAGTAGTGATTTAGTCCGTCGAAAAATGAATGACCTTCCTGAAAGCCCAACAGGAAATAACCTC +GAAGCACTAGCACCAGGTATAGAAAAACTAAAACAGACCTCTATTGAAATGGTCACTTTACTTAACACGT +TACAACCTGGTGGAAAATGCATTATCACTGGTGATTTTCAAAAAGAATTAGCGTACTTACAAAATGTAAT +TCTTTATAATGTCTCGTCTCTTCGTCTGGATTTTTTAGGTTATAACGCCCAAATTATTCAACGATCGGAC +AATACTTGTGAACTTACCATTAATGAACCGTTAAAAAACCAGGAAATATCCACAGGTAATATCAATATTA +ATTGCCCATTAAAAGATATTTACAATGAAATCAGGAGGTTAAACGTAATTTTTAGTTGTGGGACTGGAGA +TATCGTTGATCTATCCTCTCTGGACTTACGTAATGTCGATTTAGATTATTATGATTTCACAGATAAACAT +ATGGCTAATACTATTTTAAATCCTTTTAAATTGAATTCAACAAATTTTACTAATGCCAACATGTTTCAGG +TTAATTTTGTTAGTTCAACACAAAACGCCACAATCTCCTGGGATTATTTACTAAAAATAACGCCTGTTTT +AATAAGCATTAGCGATATGTATTCTGAAGAAAAAATCAAGTTTGTCGAAAGTTGTTTAAATGAGCCTGGA +GACATTACCGAAGAACAATTAAAAATTATGAGATTTGCAATTATAAAATCTATACCAAGGGCAACTCTTA +CAGATAAATTAGAAAATGAATTAACAAAAGAAATATATAAAAGCTCATCGAAAATCATCAATTGCTTGAA +CAGAATTAAATTAACAGAGATGAAAGAATTCTCATCAGAAAAAATATATGATTACATCGATATAATCATT +GAAGATTATGAAAATACCAAAGAAAATGCTTATCTGGTCGTCCCCCAAATTAATTATACTATGGATTTAA +ACATAGAAGACTCTAGCTCAGAAGAGTTACTTTCAGATAATACCCTCGAGAAAGACGAAAATTCTCCGGA +CAATGGCTTTGAGGTCGGGGAATATAACACATATGAAGCATATAACTCAGAGAAGCAATATTTTACCAGA +GAGGACTATACGTATGATTACGACCTTTTAAATGCAATATAGACTTAATAACTTCTTACAAAGTCTATTA +TTAATACCGTAGATATTTATTCATCTTACCCTGTGCACCAAAAGCAAAAACTCACTGACGCGGGTTTGAA +ACTGATGGCAACCGCAAAAATGCCTGATGCGCTACGCTTATCAGGCCTACGCCATCTCTGCAATATATTG +AATTTGCGTGCTTTTGTAGGCAGGATAAGGCGTTCACGCCGCATCCGGCATGAATAAAGCGCACTCAACA +ATCTGAAACCCGCCGGAACGGTTTATTACGTACATCAGGTAAAACTGACCGATAAGCCGCTTTCTTTTGG +GTATAGTGTCGTGGACAGTCATTCATCTTTCTGCCCCTCCAAAAGTAAAAACCCGCCGAAGCGGGTTTTT +ACGTAAAACAGGTGAAACTGACCGATAAGCCGCTTTCTTTTGGGTATAGTGTCGTGGACAGTCATTCATC +TTTCTGCCCCTCCAAAAGCAAAAACCCGCCGAAGCGGGTTTTTACGTAAACCAGGTGAAACTGACCGATA +AGCCGCTTTCTTTTGGGTATAGCGTCGTGGACAGTCATTCATCTTTCTGCCCCTCCAAAAGCAAAAACCC +GCCGAAGCGGGTTTTTACGTAAATCAGGTGAAACTGACCGATAAGCCGGGTTCTGTCGTGGACAGTCATT +CATCTAGGCCAGCAATCGCTCACTGGCTCAAGCAGCCTACCCGGGTTCAGTACGGGCCGTACCTTATGAA +CCCCTATTTGGCCTTGCTCCGGGTGGAGTTTACCGTGCCACGGACTGTTACCAGCCGCGCGGTGCGCTCT +TACCGCACCCTTTCACCCTTACCTGATCCCGCTTGCGCGGGCCATCGGCGGTTTGCTCTCTGTTGCACTG +GTCGTGGGTTTCCCCCCCAGGCGTTACCTGGCACCCTGCCCTATGGAGCCCGGACTTTCCTCCCCTCCGC +CCGTCTCCCCCGAAGAGGACGACGACGAAGCGGCGACTGTCTGGTCAGCTTCGGCGCGCAGTATAGAGGG +TTTGCGCGCCCTTGTCACCCCGCGTTGCGCATTCCAATCGCCAGTGTCGCGGCGATATTACGTGAAGCAC +GGCAGATATTGTCATAAGCCCCGCGGAATGCTTCGTCCAACGTACCTATGCTGGTCAATACGCTGAAGAC +CGCATCAATGCCATGCTGATGTACAACGCCAACATCATCGGTCAGGCTACCCGCAATGCCAATCACCGGT +TTATGGTACTTCTTCGCCACGTTTGCGACACCAATCGGTACCTTCCCGTGAATACTCTGGCTGTCAATAC +GCCCTTCACCGGTGATCACCAGCGTACAATCGTGAATATGTTCCTCCAGATTCAGCGCCGTAGTGACGAT +TTCAATACCACTTTTCAGTTCCGCACCAAGAAACGCCATTAGCGCCGCGCCCATACCACCCGCAGCTCCT +GCACCGGGGACATCTTTCACATCAACATGCAGCGCTTTTTTAATGACCTCGGCATAGTGAGAGAGGTTAT +TGTCCAGCTCAACAATCATCGCTTCACTGGCTCCCTTTTGTGGGCCAAAGATGCGCGATGCGCCGTTATC +GCCCACCAGCGGATTGGTGACATCACAAGCGACGCGAATGACGCAATCTTTTAAGCGCGGATCGAGGCCG +GAAATATCAATATCATTCAGAGTATTAAGACTACCGCCGCCAAAACCAATTTCATTGCCGTTGGCGTCGC +ATAATTTCGCCCCCAGCGCCTGTACCATGCCTGCGCCGCCATCATTTGTAGCGCTGCCGCCAATGCCGAT +AATAATGTTTGTCGCACCGCTCTCCAGCGCCTGCAGGATTAACTCGCCTGTGCCGCGTGAAGTGGTCACG +AGTGGATCGCGTTTTTCCGCAGGTACCAGCTCCAGCCCACTGGCCGCCGCCATTTCAATAAACGCGGTTT +TGCCATCGCCGGAGATCCCCCAACTGGCATTCACTTTCTCGCCCAGCGGCCCTGTAACCCAGGCGTGACG +TTCAGCCCCCTGGGTGGCTGCAATCATCGCTTCCACCGTTCCTTCGCCACCGTCGGCAACCGGAACAGAA +ACGTACTGTGCATCAGGAAAAATTTCCCGAAATCCTTTTTCTATCGCCTGCGCAACCTCGCTGGCAGATA +AACTTTCTTTATAAGAGTCTGGGGCGATTACGATTTTCATACCTATGCCTGTTACCACATGACGCCGGAG +GGCGTTTCTCTTATTCGGCCTGGATTCCAGGCCCGGATTGCAATACGCCATCCGGGCACGACGTCATTAA +CGAGTAACTTCGACTTTCGCCAGTTTTTCGTAGTAGCACGCCAGGGCGCTATGATCCGCCGTTCCTAAAC +CATCTGCTCGCAGTGCCTGCATCATCTCCATAACCGCAGCTGTGAGCGGCAGTTGTGCGCCGACGCCGTG +AGAAGTATCCAGCGCATTCGCCAGATCCTTAATATGCAGATCAATACGGAAGCCCGGCTTGAAGTTGCGG +TCCATCACCATCGGCGCTTTGGCATCCAGCACGGTACTGCCCGCCAGTCCACCGCGAATTGCCTGATAAA +CCAGGTCCGGGTTAACGCCCGCTTTAGTTGCCAGCGTTAACGCTTCTGACATCGCGGCAATATTCAGCGC +CACAATGACCTGATTTGCCAGTTTGGTGACGTTACCTGCACCGATTTCCCCGGTATGCACCACGGAACCC +GCCATCGCTTTCATCAAATCATAGTATTTGTCGAAAATAGCCTTGTCGCCGCCCACCATCACTGACAGCG +TACCGTCGATGGCTTTCGGTTCACCGCCGCTCACCGGAGCATCCAGCATATCAATGCCTTTCGCTTTCAG +CGCTTCGCTGATTTCACGGCTTGCCAGCGGTGCGATAGAACTCATATCGATCAATACCGTACCTGGCTTC +GCGCCTTCAATAATGCCATTCTCACCCAGCGCCACCTCTTTCACATGAGGGGAGTTTGGCAGCATGGTTA +TGATGACGTCGCACTGTTCAGCGATCGCTTTAGCCGTAGACGCTGTTTCTGCACCTGCAGCAATCACGTC +AGCAATAGCTTCTGGGTTACGGTCAGCAACCACCAGCGAGTAACCTGCTTTCAGAAGGTTTTTACTCATT +GGTTTACCCATAATCCCCAGGCCAATAAAACCAACTTTCATAGTCATATCAATCATCTCTCTTGTTGCGG +TGGTGGTTATTTTTTAAAGGTATCAGCCAGTTTCTGAGTGGCAGAGCGGAAGACGCCGAGATCGCTGCCG +ACAGCCACAAACGTCGCGCCCCATTCCAGATAACGACGCGCATCGGCTTCGACCGGCGCGAGGATACCGC +TGGGTTTGCCGTGCGCGCTGGCACGGTTAAAAATGTGCTGAATTGCTTTTTGTACATCCGGGTGTGATGC +ATTGCCGAGATGGCCTAATGCCGCGGCCAGATCGCTGGGGCCGACGAAGATGCCGTCTACGCCTTCGGTA +GCGGCAATGGCATCGACGTTATCTACGCCCTGCTGACTTTCTATCTGGACCAGAATAGTGATGTTCTTGT +TCGACTGAGCGAAATAATCCGCCACGGTGCCAAACATATTGGCGCGGTGAGAAACGGAGACGCCGCGAAT +GCCTTCCGGTGGGTAACGGGTTGATGCCACCGCCAGCTCTGCTTCCTCTTTTGTTTCTACAAAAGGAATC +AGGAAGTTATAGAAACCGATATCCAGAAGACGCTTAATAATTACCGGCTCGTTGGTCGGCACTCGCACTA +CTGGCGCGCTGGCGCTGCCTTTCAAGGCCATTAACTGCGGAATAAACGTGGAGATATCGTTTGGCGCATG +TTCGCCATCCAGCACCAGCCAGTCAAACCCAGCCAAACCAAGAACTTCAGTGCTAATCGGGTTAGAGAGT +GCTGACCAGCAACCAATTTGTACCTGTTTCGCAGCCAGTGCGGCTTTGAATTTATTCGGGAAAACATCGT +TATTCATCGCTTATACCTTTGCTTATTTCTGCAATTCCATACGTTTAATGTCGCCAACTACGAAGAGGTA +GCAGACCATCGCCATCAGCGCTGAACATCCCACGAAAACCAGTGCTGCATTGAAGGAGTGCAGTTCACTT +ACCAGGTAGCCAATCACCAGTGGAGTGACAATGGAGGCAACATTGCCAAAGACGTTAAAGACGCCGCCGC +AGAGGCCAACAATCTCTTTCGGCGCGGTGTCAGAAATCACCGGCCAGCCCAGCGCACCAAATCCTTTGCC +AAAGAAAGCCAGCGCCATCAGCATGACCACCAGCGTGGTGTTGTTGGTGTAGTTACATAAGATGATGGTG +GAAGCCAGCAACATTCCCAGCACAATCGGTAGCTTACGTGCCAGGGTCAGGGATAAACCGCGTTTGATCA +GATAATCCGAGAAGACACCTCCCAGCACGCCGCCCGCAAAACCACACAGTGCTGGAATCGAGGCGACCAG +ACCCACTTTCAGAATCGACATGCCTTTTTCCTGCACCAGATAAATCGGGAACCAGGTGAGGAAGAACCAG +GTGATGGTGTTGATAAAATATTGTCCGAAAAATACGCCCAGCATCATGCGGTTAGAGAGCAATTGCTTGA +TGTAATGCAGTTTGGGTCCGCTTGCTGCCGCACTGCCCGGCTTTTTGTGGTCCATATCGACCACCGCGCC +ATTTTCAGAGATAAACTTCAGCTCTTCCGCAGACATACGTGGGTGATCTGTCGGGTTATGAATCAACTTG +ATCCACAGCGCCGTCAGCACAAAACCAATCACCCCCATAACGGTAAAGACGTGCTCCCAGCCCCAGGCGA +AAGTCAGCCAGCCAAGCAGCGGCGAAAAGAGCGCCAGCGAGAAATATTGCGCCGAGTTAAAGATGGCGGA +GGCAGTACCACGTTCTTTCGTCGGGAACCAGGCGGCGACAATTCGGGCGTTCGCCGGGAATGATGGCGCT +TCCGAGAAGCCGAGCATAAAGCGCATAAAGAACATGGAGATCCCTGCCCAGGCCAGCGGGAACATATCAA +CAAAGCCTTGCAGGAAGGTGAATAGCGACCAGAAAAAGAGGCTGTAGGTGTAAACTTTTTTCGAGCCAAA +CTTATCAAGCAGCCAGCCGCCGGGGATTTGCATCAGCAAGTAGGCCCAGCCAAAAGCGGAGAAGATGTAA +CCCATCGAAACCGCACTTAACTGCAACTCTTTTGCCACTTCGGTACCAGCAATAGACAGCGTTGCACGAT +CGGCGTAGTTAACGGCGGTAACAATAAAAATAATCAGTAATATTAAATAGCGGGTATGCACGCCTTTCTT +TTTTTCGTCAACGGTGTCCAGAATCATTTTATTTACCTCGGGTACTTATGCTGATTTTTATTATTATGGG +GAAGGTGTTATTTATGAGTTTCATTTATGCCGTAACGACAATGAACTCGGGAATTAGTATAAGCAGCGCG +AGAATAATAATCATTGTGCAAATGCTAATTTAATTAATACTATTTAAATATTATTTTGAGCATATGCACA +TAAGGTTGCGCGCTAAAGCACAGATTTGCGCTTTACCTTACCGGGCGGCACTGCAATCCCTGAAATGATT +GACATTGATCACATTTCTGCGTTTAAACTCCTGACATTCTTATTTCACCCAATGAAGTCATTTATTTTTA +AATGAGACCAGGTCCTCATTTTAATAACCCCTGGCTGGAGAATATTGCACAATGGCCAACATCGAAATCA +GACAAGAAACGCCAACTGCGTTTTATATAAAAGTTCACGACACAGATAATGTGGCAATTATTGTTAATGA +TAATGGCCTGAAAGCAGGAACGCGTTTTCCGGATGGGCTGGAATTAATTGAACATATTCCCCAGGGGCAT +AAAGTCGCATTGCTGGACATTCCGGCTAATGGTGAAATTATTCGTTATGGCGAAGTGATTGGTTACGCCG +TGCGTGCAATCCCACGCGGAAGCTGGATCGACGAATCAATGGTTGTACTACCGGAAGCGCCGCCGTTACA +CACGCTGCCACTGGCAACCAAAGTCCCGGAACCCTTACCGCCGCTGGAAGGATACACCTTTGAGGGCTAT +CGCAATGCCGATGGCAGCGTGGGCACCAAAAACCTGCTCGGTATCACCACCAGCGTCCACTGTGTGGCAG +GCGTGGTGGACTATGTAGTAAAAATCATTGAACGCGATCTGCTACCGAAATACCCGAACGTCGATGGCGT +GGTGGGGCTGAATCATTTGTACGGTTGTGGCGTGGCGATTAACGCACCGGCGGCAGTTGTACCTATCCGT +ACCATTCACAATATTTCGCTGAATCCTAACTTTGGCGGCGAAGTAATGGTGATTGGCCTGGGTTGTGAAA +AGTTGCAGCCTGAGCGCCTGCTGACTGGAACGGATGATGTGCAAGCTATTCCAGTAGAAAGCGCCAGCAT +TGTCAGTTTGCAGGATGAAAAGCATGTCGGTTTTCAGTCCATGGTCGAGGATATTTTGCAGATCGCCGAA +CGCCATCTACAAAAACTGAATCAACGGCAGCGAGAAACCTGCCCGGCTTCAGAACTGGTCGTTGGTATGC +AGTGCGGTGGCAGCGATGCGTTTTCTGGTGTAACGGCAAACCCGGCGGTTGGCTATGCGTCTGATCTACT +GGTGCGCTGCGGCGCAACGGTGATGTTTTCAGAAGTAACGGAAGTGCGTGACGCGATCCATCTGCTGACA +CCACGCGCAGTGAACGAAGAGGTCGGCAAACGGCTGCTGGAGGAGATGGAGTGGTACGATAACTATCTCA +ATATGGGAAAAACCGACCGCAGCGCCAACCCTTCGCCGGGCAACAAGAAAGGCGGTCTGGCAAACGTGGT +AGAGAAGGCACTCGGCTCCATTGCTAAATCGGGTAAAAGCGCAATTGTTGAAGTGCTGTCGCCCGGTCAA +CGCCCGACTAAACGCGGATTAATTTACGCCGCGACGCCAGCCAGCGATTTTGTCTGTGGCACGCAACAGG +TGGCTTCGGGTATCACAGTGCAAGTGTTTACGACCGGTCGTGGTACGCCGTACGGCCTGATGGCGGTACC +CGTCATTAAAATGGCAACCCGCACCGAGCTGGCGAACCGCTGGTTTGATTTAATGGATATTAATGCGGGC +ACCATCGCTACCGGCGAAGAAACTATTGAAGAGGTGGGCTGGAAGTTGTTCCACTTTATTCTCGACGTCG +CCAGCGGGAAGAAGAAAACCTTCTCGGATCAATGGGGGCTGCATAACCAGCTGGCGGTGTTTAACCCGGC +ACCGGTGACCTGATTTCTTTTGGAACGTCCCTCGCAAAACATGGCCTTAGTGCCATGTTTTTATTGTTTA +AAGCCCCCACGTCCATTAATAATGCATTTGCATTACCTTAGTTCAAGCTTATAATTTGAGCAGAAAACAG +GCTGTAAAAGGACAGTGAATCATGCCCGCTAATGCTCGCTCTCACGCTGTACTGACCACTGAATCAAAGG +TCACGATACGCGGACAAACAACTATCCCCGCGCCAGTGCGTGAGGCCTTAAAACTGAAGCCAGGCCAGGA +CAGCATTCATTACGAAATTCTGCCTGGTGGGCAAGTATTTATGTGCCGACTGGGAGATGAACAGGAGGAT +CATACTATGAATGCATTTTTGCGTTTTCTGGATGCAGATATCCAGAACAACCCGCAAAAAACTCGTCCAT +TCAACATTCAACAAGGAAAGAAACTTGTCGCTGGCATGGACGTCAACATTGATGATGAGATTGGCGACGA +CGAATAATGGATTTTCCACAAAGGGTTAATGGTTGGGCGCTATATGCTCATCCCTGTTTTCAGGAAACCT +ACGACGCTTTAGTTGCCGAAGTCGAGACATTAAAGGGAAAAGATCCTGAAAATTATCAGAGAAAAGCCGC +CACAAAGTTATTGGCGGTAGTCCATAAAGTGATTGAGGAGCATATCACGGTCAATCCATCATCACCGGCA +TTCCGTCATGGCAAGTCGTTAGGCTCTGGGAAAAATAAAGACTGGTCACGGGTAAAATTTGGTGCTGGTC +GTTATCGTCTCTTCTTTCGTTATAGTGAAAAAGAGAAAGTCATCATTCTGGGATGGATGAACGATGAAAA +CACTCTGCGCACCTACGGTAAAAAAACAGATGCCTATACCGTATTCAGCAAAATGTTAAAAAGAGGACAT +CCTCCTGCCGACTGGGAAACCCTCACCCGAGAAACAGAAGAAACCCATTGATGGTGTTCACAATGCCCGC +CGAACGCATTCGTGTTGACCAGCGGGCATCCTTTCTCACTCCCCGACCAGAATCACTTCAACCCCAGCCT +TTCGCAGTCCTTCCAGGCTATCCGCAGGAATGCCTTCATCAACAATGATCATGTCGATACGTTGAGTATC +AATGATCTTATGTAAACTGGAACGATTGAACTTACTGGAATCGGTGACCACGATGATCCGTTCCGCAACT +TCGCACATCCGACGGTTTAAACGAGCTTCATCTTCATTATGTGTGCTGACGCCGCGCTCCAGATCGATCG +CATCTACACCAAGAAACAGCATATCGAAGTGGTAATTTTGCAGCGATTGCTCAGCCTGATCGCCGTAAAA +AGATTGCGACTGACGGCGCAAATGCCCGCCGGTCATCAGCAGCTCAACGCCTTCCGCTTCCAGCAACGCA +TTAGCCACGTTCATACCGTTGGTCATCGCAATTACGTCAGTGTGCTTGCGCATCAGACGAGCAATCTCAA +AAGTGGTGGTCCCGGAATCGAGGATAACCCGATGACCTGGCTGAATCAACTCAACGGCAGCTTTCGCAAC +GCTGCGTTTCATCGCGGTGTTCAGTGCGCTTTTATCTTCCACTGATGGCTCGACTGACGGCGTCGTGCTA +TCGCAGATCAACGCGCCACCATAGGCACGCACAGCGATCCCCTGCTTTTCCAGAAACGCCAGATCGTTGC +GGATCGTCACAGTAGATACGCCATACAATGCCGACAGATCGTTAACCTGCACACTCCCTTGCTGTCGCAG +ACGCTGAATGATCTGTTCTCGTCGCTCGCTGGTGCCAGTCACTCGCTTCTCACCTGAAGCGTCGGTATTA +CTCATAGTAAGTCCTTTCGTAAAACTTTCGTTTCATTTCGTTTTGCCTATTAACGCCTTTCTATTAAGCA +AATGCAAGCCCACCTTGCCCATTGACGCAAGCTACTCTCGTTTCAGTGACTTTCATTATGTTTCTTTTGT +GAATCAGATCAGAAAACCATTATCTTTCGTTTTATTTTTATCTCACCATGACGCAGTATCAACTGAAACA +AAACGAAAGATTAATATCGCAGTAATCTGAACTGGAGAGGAAAGTGAAACATCTGACAGAAATGGTGAGA +CAGCACAAAGCGGGCAAAACAAATGGAATTTATGCCGTTTGTTCCGCACATCCGCTGGTGCTGGAAGCTG +CAATCCGCTACGCCAGTGCAAACCAAACGCCGTTACTGATTGAAGCAACCTCCAATCAGGTAGACCAGTT +CGGCGGTTATACCGGAATGACGCCCGCCGATTTTCGCGGCTTTGTTTGTCAGCTCGCCGACTCGTTGAAT +TTCCCGCAGGATGCGTTGATTCTGGGTGGTGACCATCTGGGGCCAAACCGCTGGCAAAACCTGCCGGCCG +CTCAGGCAATGGCCAATGCCGATGATTTGATTAAAAGCTACGTTGCGGCAGGATTCAAAAAAATCCACCT +TGATTGCAGCATGTCCTGTCAGGACGATCCGATTCCCTTAACTGATGACATCGTGGCTGAACGCGCCGCC +CGTCTGGCGAAAGTGGCGGAAGAAACCTGTCTTGAACACTTTGGCGAAGCCGATCTGGAGTATGTCATTG +GTACCGAAGTGCCGGTACCTGGCGGCGCGCATGAAACCTTAAGCGAGCTGGCGGTCACCACGCCGGATGC +CGCCCGCGCCACGCTGGAAGCCCATCGTCACGCCTTTGAAAAGCAAGGTTTGAATGCCATCTGGCCACGC +ATCATTGCCCTGGTGGTTCAACCCGGCGTCGAATTCGATCACACCAACGTTATTGATTATCAGCCCGCCA +AAGCGAGCGCCTTAAGCCAGATGGTCGAAAACTACGAAACGCTGATTTTCGAAGCGCACTCTACCGATTA +TCAAACGCCGCAATCGCTGCGCCAGCTGGTGATTGACCACTTTGCCATTCTGAAAGTTGGCCCAGCGCTG +ACCTTCGCCCTGCGTGAAGCTCTGTTCTCTCTGGCGGCGATTGAAGAAGAACTGGTGCCAGCGAAAGCCT +GTTCTGGTCTGCGTCAGGTGCTGGAAGACGTGATGCTCGACCGCCCGGAATACTGGCAAAGCCACTACCA +CGGTGACGGCAACGCGCGTCGTCTGGCGCGTGGTTATAGCTACTCGGATCGCGTGCGCTATTACTGGCCG +GACAGCCAGATTGATGACGCTTTCGCTCATCTGGTACGTAATCTGGCGGATTCACCAATTCCGCTGCCGC +TGATCAGCCAGTATCTGCCGCTGCAGTACGTGAAAGTTCGCTCCGGCGAGCTGCAGCCAACGCCACGGGA +ACTCATTATCAACCATATTCAGGACATCCTGGCGCAGTACCACACAGCCTGTGAAGGCCAATAAGCAAAA +CAAAGAGGAACACGCTATGCCAAATATTGTTTTAAGCCGGATTGATGAACGCTTGATTCACGGTCAGGTC +GGCGTTCAATGGGTCGGATTTGCGGGGGCAAATCTGGTGCTGGTAGCCAACGATGAGGTTGCCGAAGATC +CGGTACAACAAAACCTGATGGAAATGGTACTGGCAGAAGGGATCGCCGTACGTTTCTGGACGCTGCAAAA +AGTTATCGACAACATTCATCGCGCCGCCGATCGACAGAAAATCCTGCTGGTTTGTAAAACACCCGCCGAT +TTCCTGACGCTGGTGAAAGGTGGCGTTCCGGTGAATCGCATTAACGTTGGCAATATGCACTACGCCAATG +GCAAACAACAAATCGCCAAAACGGTTTCTGTGGATGCGGGCGATATCGCAGCATTTAACGACCTGAAAAC +CGCTGGGGTGGAATGCTTCGTTCAGGGCGTCCCGACAGAGCCTGCTGTGGACCTCTTTAAATTACTTTGA +GGGATTCATCATGGAAATCAGCCTGTTGCAGGCATTTGCGTTGGGCATTATCGCCTTTATCGCTGGCCTG +GATATGTTTAACGGCCTAACCCATATGCACCGCCCGGTGGTCCTCGGCCCGTTGGTCGGGCTGGTACTTG +GCGATCTGCATACCGGAATTTTAACCGGCGGTACGCTGGAACTGGTGTGGATGGGGCTGGCCCCGCTGGC +GGGCGCACAGCCGCCTAACGTGATTATCGGTACTATCGTCGGCACGGCGTTTGCCATTACTACTGGCGTG +AAACCCGATGTCGCAGTAGGTGTCGCCGTACCTTTCGCTGTCGCAGTACAGATGGGGATTACCTTCCTGT +TCTCGGTGATGTCCGGCGTGATGTCTCGCTGCGACCTGGCAACAAACCCGCGCCGCATTTGATGCTGGTG +CCGACGGCCTGGTGCATTGCTATAACGGGATGACAGGTTTACATCACCGCGAACCGGGAATGGTTGGCGC +GGGATTAACGGACAAGCGCGCCTGGCTGGAACTGATAGCCGATGGTCATCATGTGCATCCGGCGGCAATG +TCGCTGTGTTGTTGCTGTGCGAAAGAGAGAATCGTACTGATCACCGACGCGATGCAGGCAGCTGGGATGC +CGGATGGTCGCTATACGTTATGTGGTGAAGAAGTGCAGATGCACGGTGGCGTTGTCCGTACCGCGTCTGG +TGGGCTGGCGGGCAGTACGCTGTCTGTTGATGCGGCAGTGCGCAATATGGTCGAGTTGACGGGCGTAACG +CCTGCGGAAGCCATCCATATGGCGTCGCTGCATCCGGCGCGAATGCTGGGTGTTGATGGTGTTCTGGGAT +CGCTTAAACCGGGCAAACGCGCCAGCGTCGTTGCGCTGGATAGCGGGCTACATGTGCAACAAATCTGGAT +TCAGGGTCAATTAGCTTCGTTTTGATAGTTTGCTCCTTTATTGGGCCTTCACTTCCCCCGTAAGGCCTTT +CTTTTTCTTTCGTTTTGATCTGTGCAGCGGTGTCGGATGCGACGCTAACGCGTCTTATCCGACCTACAGT +TGGTGACCGCAAGGCCGGATAAAGCGTTTGCGCCGCATCCAGCAATCCCTTTTGCTTCCTTTATCTTTTC +TTTCAACGATCACAAATTTCGTTTTATTTCTTTTTTCTCCATTGAACTTTCAGTTTCTTTTCTATAGATT +TTAATCAACGAAAGACATCACCAAGTGAAATGAAACGAAAGGCAAGTGAAAGCGACAACGCCCGACGTCA +AGTTCATCAGACTAAGGATTGAGTTATGCCAGAAAATTACACCCCTGCTGCCGCCGCAACCGGTACATGG +ACTGAAGAAGAGATCCGCCATCAGCCTCGCGCATGGATCCGTTCACTCACCAACATCGACGCGCTACGTT +CCGCGCTCAATAACTTCCTTGAACCGTTACTGCGCAAAGAGAATCTGCGGATCATCCTGACCGGAGCCGG +AACGTCGGCATTTATCGGTGACATCATCGCGCCGTGGCTCGCCAGCCATACCGGTAAAAACTTCAGCGCC +GTACCGACCACCGATCTGGTCACCAATCCGATGGACTACCTGAACCCAGCTCATCCGCTGCTGTTGATCT +CCTTCGGTCGATCCGGCAACAGCCCGGAAAGCGTCGCAGCCGTGGAACTGGCAAATCAATTTGTACCGGA +ATGCTATCACCTGCCGATCACCTGCAACGAAGCGGGCGCTCTTTACCAAAACGCGATCAACAGCGATAAC +GCGTTTGCCCTGCTGATGCCCGCAGAAACGCACGATCGCGGCTTTGCGATGACCAGCAGCATTACCACCA +TGATGGCCAGCTGCCTCGCGGTTTTCGCACCTGAGACGATCAACAGCCAAACCTTCCGCGACGTGGCGGA +TCGTTGCCAGGCGATCCTGACCTCACTGGGCGATTTCAGCGAAGGTGTGTTTGGTTACGCACCGTGGAAA +CGGATCGTTTATCTCGGTAGCGGTGGCTTACAGGGCGCAGCACGCGAGTCGGCGCTGAAAGTGCTGGAAC +TGACGGCGGGTAAACTGGCGGCCTTTTATGATTCTCCAACCGGATTCCGTCATGGACCAAAATCGCTGGT +CGATGACGAAACGCTGGTGGTGGTATTTGTCTCCAGCCACCCTTACACCCGTCAGTATGATCTTGATCTG +CTGGCTGAACTTCGCCGTGACAACCAGGCAATGCGTGTAATCGCCATCGCCGCGGAAAGCAGCGACATCG +TCGCTGCCGGTCCACATATCATCCTGCCACCGTCACGTCACTTTATCGACGTTGAGCAGGCATTTTGCTT +CCTGATGTACGCCCAGACGTTTGCACTGATGCAGTCGCTGCACATGGGCAATACGCCGGATACCCCATCA +GCCAGTGGCACCGTTAACCGCGTGGTGCAAGGCGTAATCATTCATCCGTGGCAGGCATAAGAGGATCGCA +TTATGAGCATTATCTCCACTAAATATCTGTTACAGGACGCCCAGGCCAATGGCTACGCGGTGCCTGCTTT +TAACATTCATAACGCCGAGACGATCCAAGCGATCCTCGAAGTGTGCAGTGAAATGCGATCGCCGGTGATC +CTCGCCGGAACGCCGGGGACCTTTAAACACATCGCGCTGGAAGAGATCTACGCCCTGTGTAGCGCCTATT +CCACAACCTACAACATGCCACTGGCGCTGCATCTCGACCACCACGAATCGCTGGATGATATTCGCCGTAA +AGTCCACGCAGGTGTGCGCAGTGCGATGATCGACGGCAGCCACTTCCCGTTTGCCGAGAACGTGAAGCTG +GTGAAATCGGTTGTTGACTTCTGCCACTCACAAGATTGCAGCGTGGAAGCAGAACTGGGCCGCCTGGGCG +GTGTTGAAGATGACATGAGCGTTGACGCCGAAAGTGCATTCCTGACCGATCCACAAGAAGCTAAACGCTT +TGTCGAACTGACTGGCGTCGACAGCCTGGCGGTAGCGATTGGTACGGCGCACGGCTTATACAGCAAAACG +CCGAAGATTGATTTCCAGCGGCTGGCGGAAATTCGTGAAGTGGTGGATGTTCCTCTGGTGCTGCATGGTG +CCAGCGATGTTCCGGATGAATTTGTCCGTCGCACTATTGAACTTGGCGTCACAAAAGTGAACGTTGCCAC +AGAATTAAAAATAGCCTTCGCTGGCGCGGTTAAAGCCTGGTTTGCGGAAAATCCGCAGGGTAATGATCCT +CGTTATTATATGCGCGTCGGAATGGATGCGATGAAAGAAGTTGTCAGAAATAAAATTAATGTCTGTGGTT +CAGCGAATCGAATTTCAGCATAATCATTAGTTTTTTATGATTTATCCCAATGTACTTCCCGATTAATATC +GGGGAGTGCCTTAATGGAAAAGGAGATAACTAAACCTTAATAAATACATCACTACAATATCGCAACAATA +ATATATTTAAAAAAATTATATTATTCAACTTTATGGTGAGGATTACACAATGACCAGTCCAAATATTCTC +TTAACCCGTATTGATAACCGTCTGGTTCACGGTCAGGTTGGCGTGACCTGGACATCCACCATCGGTGCAA +ATCTGCTGGTAGTCGTGGATGATGTTGTCGCTAACGATGATATTCAACAGAAATTAATGGGTATTACCGC +GGAAACCTACGGCTTTGGCATTCGTTTCTTTACTATCGAAAAAACCATTAACGTCATCGGCAAAGCTGCA +CCACATCAGAAGATCTTCCTGATTTGCCGTACGCCACAAACGGTACGTAAATTGGTAGAAGGTGGTATTG +ACCTGAAAGATGTCAACGTCGGCAATATGCATTTCTCGGAAGGGAAAAAGCAAATCAGCAGTAAAGTTTA +TGTCGATGACCAGGATCTCACGGACTTACGTTTTATTAAACAACGTGGCGTGAATGTTTTCATTCAGGAC +GTCCCTGGCGATCAAAAAGAACAAATCCCTGACTAAATCTAAAATCGCCTTAATATTGGTTTGAGGTAAT +AAAAATGCATGAAATAACCCTACTTCAGGGATTATCCCTGGCGGCGTTAGTTTTTGTTCTGGGGATTGAT +TTTTGGCTGGAAGCCTTATTTTTATTCCGCCCGATAATCGTTTGTACCCTAACTGGCGCTATTCTCGGTG +ATATTCAGACTGGCTTAATTACCGGTGGTCTGACAGAGTTGGCTTTCGCCGGATTAACCCCTGCAGGTGG +TGTTCAGCCGCCCAACCCGATTATGGCGGGTCTGATGACCACCGTCATTGCATGGTCTACGGGCGTTGAT +GCCAAAACAGCAATTGGTCTTGGCCTGCCGTTTAGTTTGTTAATGCAGTACGTCATTCTGTTCTTCTATT +CCGCTTTCTCATTATTTATGACCAAAGCCGATAAATGCGCGAAAGAGGCGGATACGGCAGCGTTTTCCCG +GCTTAACTGGACAACGATGCTCATCGTCGCTTCAGCGTATGCGGTGATTGCTTTCCTCTGTACTTACCTG +GCACAGGGGGCGATGCAGGCGCTGGTGAAAGCGATGCCCGCCTGGCTGACCCACGGCTTTGAAGTGGCTG +GCGGTATTCTGCCTGCCGTTGGTTTTGGCTTGCTGCTGCGCGTAATGTTCAAAGCGCAATATATCCCTTA +CCTGATCGCCGGTTTCCTGTTTGTTTGCTACATCCAGGTCAGCAACCTGTTGCCGGTTGCCGTACTGGGC +GCAGGCTTTGCGGTGTATGAGTTTTTCAATGCGAAATCCCGGCAGCAAGCGCAACCGCAGCCCGTTGCCA +GTAAAAATGAAGAAGAGGACTACAGCAATGGGATCTGAAATCAGTAAAAAAGATATCACCCGTCTGGGCT +TTCGTTCGTCGCTGCTGCAAGCGAGCTTTAACTACGAAAGGATGCAGGCGGGCGGTTTTACCTGGGCGAT +GTTGCCGATCCTGAAAAAGATTTATAAGGACGACAAACCGGGCTTAAGCGCGGCGATGAAAGATAACCTC +GAATTTATTAATACCCACCCGAATCTGGTCGGATTCCTGATGGGGTTATTAATTTCGATGGAAGAAAAAG +GAGAAAACCGCGACACCATTAAAGGCCTCAAAGTGGCACTGTTTGGCCCAATCGCCGGGATTGGCGATGC +GATTTTCTGGTTTACTTTGTTGCCGATTATGGCGGGAATTTGCTCATCATTTGCCAGCCAGGGAAACCTG +CTGGGGCCGATTCTATTTTTCGCCGTTTACCTGCTTATCTTTTTCCTGCGCGTCGGCTGGACCCACGTCG +GTTATTCAGTCGGCGTGAAGGCGATCGATAAAGTGCGAGAGAACTCGCAGATGATTGCCCGTTCGGCAAC +CATCCTCGGGATCACGGTAATCGGCGGGCTGATCGCTTCGTATGTGCATATTAACGTGGTGACATCGTTT +GCCATCGACAATACCCACAGCGTTGCGCTGCAGCAGGATTTCTTCGATAAAGTCTTCCCGAACATTTTAC +CGATGGCCTACACCCTGCTGATGTATTACTTCCTGCGGGTGAAAAAAGCGCATCCGGTGCTGTTAATCGG +CGTGACTTTTGTGCTCTCTATTGTTTGTTCCGCATTCGGCATTTTGTAAATGGAACGAGGCACTGCGTCT +GGTGGTGCCTCTTTACTTAAGGAATTTCATCCTGTGCAAACCCTTCAGCAAGTTGAAAACTATACGGCGT +TAAGTGAACGTGCCAGCGAATATTTATTGGCCGTGATCCGTAGCAAACCGAATGCCGTGATTTGCCTGGC +GACCGGAGCCACGCCATTACTGACGTATCATTATCTGGTAGAAAAAATCCACCAGCAGCAGGTTGATGTC +AGCCAGCTCACCTTCGTGAAGCTCGACGAATGGGTGGATCTGCCATTAACGATGCCAGGCACCTGCGAAA +CTTTCCTGCAACAGCATATCGTGCAGCCGCTGGGGCTACGTGAAGACCAGCTCATCAGCTTTCGCTCCGA +AGAGATAAATGAGACAGAGTGCGAACGGGTAACGAACCTGATTGCGCGCAAAGGCGGTCTGGATTTATGC +GTTCTCGGATTGGGGAAAAACGGTCATCTTGGGCTGAACGAACCGGGAGAAAGCCTGCAACCGGCCTGCC +ATATCAGTCAACTTGATGCCAGAACACAGCAACATGAGATGTTAAAAACCGCGGGTCGCCCCGTGACTCG +TGGGATCACCTTAGGCCTGAAGGATATTCTCAATGCCCGCGAAGTTTTGTTACTGGTGACTGGCGAAGGA +AAGCAGGATGCGACAGATCGTTTTCTCACGGCTAAAGTCTCTACCGCTATCCCGGCTTCATTTTTATGGC +TGCACAGTAACTTTATTTGTTTAATTAACACCTAACCAGATGAAAAATTTGCTCAAAATGTTTAAATTAA +CTTATGTAACAGTCACGCATTATATTAAATAACATTTGACTGGGTTGAACATAACGCCGATAGCAAAAGG +AGTTATGTTCAACAATTTAATTTTAGATATACATATAACTTGTTCTATTAATAAATCACCTCGTATTCTG +ACTCGCCCCCTGGCGCAGCAAAGTCAGGCATTTATACTCTTTTGAATACATAGAAAATTGATATCAATAT +AATGAAAATATCAAATATTTGCATATAAATATAATCTTAAAGTTCAGTCTATTTAATGTTCAATGAAATA +TTTCTGCCTGTATAATCTTTAAAGATGTTGAACATATATTCACATTAAATATGATTATGTACTTGTTACA +AGGATAAGGTTATATATGAATAAAGTTACAAAAACAGCTATTGCGGGCTTACTTGCGCTTTTCGCAGGTA +ATGCCGCTGCAACCGATGGTGAAATAGTTTTTGATGGCGAGATTTTAAAATCCGCTTGTGAAATCAATGA +CTCTGATAAGAAAATTGAAGTTGCTCTTGGTCACTATAATGCCGAACAGTTTCGTAATATTGGCGAGCGT +AGCCCAAAAATTCCATTCACTATTCCTTTAGTTAACTGCCCAATGACTGGGTGGGAGCACGATAACGGCA +ACGTTGAAGCGTCTTTCCGTCTATGGCTGGAAACGCGAGATAATGGCACCGTCCCTAACTTCCCTAATCT +GGCAAAAGTAGGCTCTTTTGCTGGCATAGCGGCAACAGGTGTGGGTATCCGTATTGACGATGCGGAAAGC +GGAAACATTATGCCACTGAATGCTATGGGCAATGATAACACGGTTTATCAGATCCCGGCGGAATCCAATG +GTATTGTCAATGTTGACCTCATCGCTTACTACGTATCAACCGTAGTTCCATCAGAAATCACCCCAGGGGA +AGCAGACGCTATCGTTAACGTAACGCTGGATTACCGTTAATACGTTAGGGCGTTATCTGACCTGTCAGAT +AACGCCCTTTTCCTTCCTCTTTCTCGTTGTATCAGGTTGAAAAATAACTATGTCAAAACGAACATTCGCG +GTGATATTAACCTTGTTGTGTAGCTTCTGTATTGGCCAGGCGCTTGCAGGAGGAATCGTTTTACAGCGAA +CGCGAGTGATCTATGATGCCAGCCGCAAAGAGGCTGCGTTACCTGTCGCAAACAAAGGCGCAGAAACGCC +TTATTTACTGCAATCATGGGTAGATAATATAGATGGTAAAAGCCGTGCCCCATTTATTATAACCCCACCG +CTATTTCGTCTTGAGGCTGGCGATGACTCATCACTGCGAATTATTAAAACAGCTGATAACCTGCCTGAAA +ATAAAGAGTCGCTGTTCTACATTAATGTTCGTGCCATTCCAGCAAAGAAAAAATCAGATGATGTTAATGC +TAACGAGTTGACGCTGGTATTTAAAACACGGATCAAAATGTTTTATCGCCCCGCACACCTGAAGGGACGG +GTAAACGATGCGTGGAAATCACTGGAATTTAAACGTAGTGACCATTCACTCAATATATATAACCCAACTG +AATATTACGTCGTATTTGCCGGACTGGCAGTCGATAAAACCGATCTCACAAGCAAAATTGAATATATCGC +GCCCGGAGAACATAAACAGTTACCACTTCCTGCATCTGGCGGAAAGAACGTGAAATGGGCTGCGATCAAT +GATTATGGCGGCAGTTCCGGGACAGAAACTCGTCCACTGCAATAAAAAATATAAAAACACAGGTCATCAG +GGAATGCCACAACGACACCACCAGGGACATAAACGCACACCGAAACAGTTGGCGCTCATCATCAAACGTT +GTTTGCCGATGGTGCTCACTGGCAGCGGCATGCTTTGCACTACCGCTAACGCCGAAGAGTATTATTTCGA +CCCCATTATGCTGGAAACCACAAAAAGTGGTATGCAAACAACCGATCTGTCGCGTTTTTCAAAAAAATAT +GCACAACTACCAGGAACTTATCAGGTTGATATCTGGCTGAATAAAAAGAAGGTTTCACAGAAAAAAATTA +CATTTACCGCCAATGCAGAGCAACTTCTGCAGCCACAGTTTACGGTAGAACAACTACGTGAGCTGGGTAT +TAAGGTGGATGAAATCCCGGCGCTGGCTGAAAAAGATGACGATAGCGTGATCAACTCGCTTGAACAAATC +ATTCCCGGTACAGCTGCTGAATTTGATTTCAATCATCAGCAACTTAATTTGAGCATTCCCCAAATTGCAC +TGTACCGTGATGCAAGAGGTTACGTCTCCCCTTCTCGTTGGGACGATGGTATACCAACGCTGTTTACCAA +CTACTCGTTTACAGGTTCTGATAACCGTTACCGCCAGGGCAATCGTAGCCAACGACAGTACCTGAATATG +CAAAATGGTGCTAATTTTGGCCCCTGGCGATTACGCAACTATTCCACATGGACACGCAACGATCAGACAT +CAAGCTGGAATACCATCAGTAGTTATTTACAACGTGATATCAAGGCGTTGAAGTCTCAGTTGCTTCTGGG +AGAAAGCGCCACCAGCGGCAGTATTTTTTCCAGCTACACCTTTACTGGCGTGCAACTCGCTTCCGACGAT +AATATGTTGCCAAACAGCCAGCGCGGATTTGCCCCAACGGTACGCGGTATCGCAAACAGTAGTGCAATCG +TGACTATCAGGCAAAATGGTTATGTGATCTATCAAAGCAACGTGTCAGCGGGTGCCTTTGAAATTAACGA +TCTCTACCCCTCTTCCAACAGCGGCGATTTAGAAGTCACGATTGAAGAAAGTGACGGTACACAACGTCGC +TTTATCCAGCCTTATTCTTCATTACCCATGATGCAGCGACCTGGGCATCTAAAGTATAGCGCGACCGCTG +GACGCTATCGCGCTGATGCAAACAGTGATAGCAAGGAACCCGAATTTGCTGAAGCCACGGCAATATATGG +TTTGAATAATACTTTTACGCTGTATGGCGGCCTGCTCGGTTCTGAAGATTATTATGCGCTGGGGATCGGT +ATCGGCGGCACACTTGGCGCACTGGGCGCGTTGTCGATGGATATCAACAGAGCTGACACCCAATTCGATA +ACCAGCACTCTTTTCATGGCTATCAATGGCGTACGCAGTACATCAAAGATATCCCGGAAACCAACACCAA +TATCGCTGTCAGCTACTATCGCTATACCAACGATGGCTATTTTAGTTTTAATGAAGCCAATACCCGCAAT +TGGGACTATAACAGTCGCCAAAAAAGTGAAATTCAATTCAACATCAGCCAGACAATATTTGATGGGGTAA +GTCTGTATGCCTCCGGTTCGCAGCAAGACTATTGGGGCAATAACGATAAAAACAGGAATATCTCTGTTGG +GGTTTCCGGCCAGCAATGGGGAGTTGGTTACAGCCTGAATTATCAATACAGCCGCTACACTGATCAAAAT +AATGACCGCGCACTCTCTTTGAATCTCAGTATTCCGTTAGAACGCTGGTTACCGCGTAGCCGGGTTTCCT +ATCAGATGACCAGCCAGAAAGATCGCCCAACCCAACATGAAATGCGTCTTGATGGCTCACTGCTGGATGA +TGGTCGCCTGAGCTATAGCCTGGAACAAAGTCTGGATGACGATAACAACCATAACAGTAGCCTGAACGCC +AGTTACCGTTCACCTTATGGCACCTTCAGTGCCGGATACAGCTACGGTAATGACAGCAGCCAATACAATT +ACGGCGTTACCGGCGGCGTGGTTATCCATCCTCATGGCGTGACGCTCTCGCAATATCTGGGCAACGCTTT +TGCGCTTATCGATGCTAACGGAGCATCTGGCGTGAGGATACAAAACTATCCGGGGATTGCTACCGATCCT +TTTGGCTATGCAGTGGTTCCTTATCTCACAACTTATCAGGAAAACCGTCTCTCGGTAGATACTACGCAGC +TGCCCGATAACGTCGATCTTGAACAAACAACACAGTTTGTGGTGCCCAACAGAGGTGCAATGGTAGCGGC +GCGTTTCAACGCCAATATCGGTTATCGCGTACTTGTTACAGTCAGCGATCGCAACGGTAAACCGTTGCCC +TTTGGCGCTCTTGCCAGCAACGATGATACGGGGCAACAAAGTATCGTCGATGAGGGCGGCATACTATATC +TCTCTGGGATATCGAGTAAATCACAAAGCTGGACTGTACGCTGGGGAAATCAGGCAGATCAACAATGTCA +GTTTGCTTTCAGTACACCGGATTCAGAACCTACAACCTCTGTATTACAAGGCACAGCGCAGTGCCATTAA +GGATAAAAAAATGAAAAGAGCGCCTCTTATAACAGGTCTTTTGTTGATATCCACATCCTGCGCTTATGCC +TCCTCAGGAGGGTGTGGAGCCGACAGCACTAGCGGTGCGACAAATTACAGCAGTGTGGTTGATGATGTTA +CGGTGAACCAGACAGATAACGTGACAGGACGGGAGTTTACCTCTGCAACGCTAAGTAGCACTAACTGGCA +ATACGCCTGTTCCTGCTCTGCGGGTAAGGCAGTTAAACTTGTCTATATGGTCAGCCCCGTACTTACCACC +ACTGGACATCAGACAGGATATTACAAACTCAATGACAGCCTGGATATTAAAACCACATTACAGGCAAACG +ACATTCCAGGACTCACAACCGACCAGGTTGTCTCTGTTAACACCCGATTCACACAGATAAAAAACAACAC +GGTATATTCTGCTGCAACCCAAACGGGTGTTTGCCAGGGTGATACGTCTCGTTATGGACCCGTTAATATT +GGTGCGAACACCACCTTTACCCTGTATGTCACCAAGCCATTTCTCGGCTCGATGACCATTCCGAAAACGG +ATATTGCCGTCATTAAAGGCGCGTGGGTCGATGGAATGGGAAGCCCGTCTACAGGTGACTTCCATGATTT +AGTCAAGTTATCGATTCAGGGAAATCTCACCGCCCCACAGTCGTGCAAAATTAATCAGGGCGATGTTATT +AAGGTTAATTTTGGATTCATCAATGGTCAGAAGTTTACCACCCGCAATGCCATGCCAGACGGTTTTACTC +CAGTAGACTTTGATATCACTTATGACTGTGGTGATACTTCAAAGATTAAAAACTCGTTGCAAATGCGCAT +CGACGGTACAACTGGGGTAGTAGACCAGTACAACCTGGTCGCCAGGCGAAGAAGTTCAGACAATGTGCCC +GATGTCGGTATTCGTATTGAAAATCTCGGCGGCGGAGTTGCAAATATTCCTTTTCAGAACGGTATCCTTC +CCGTTGATCCTTCCGGGCATGGCACCGTCAATATGCGCGCCTGGCCAGTTAATCTGGTCGGTGGTGAGCT +GGAAACAGGAAAATTTCAGGGCACAGCCACCATTACCGTCATCGTGCGGTAAAAGAAGACGTTGCGTTTT +GATTAACGCAACGCTTCGGCACTGTTACCCCTGCTGCTCCAGCGCATACTTATACAGCGCATTTTTCTTC +ACGCCGTGAATTTCTGCGGCCAGCGCCGCCGCTTTTTTCAGCGGCAGTTCTGCCTGTAGCAGCGCCAGCG +TGCGCAGGGCATCGGCGGGTAAGTCTTCTTCCTGTGCTTTATGACCTTCGACAATCAGCACCATTTCGCC +TTTGCGACGGTTTTCATCTTCCTTTACCCACGCCAGCAGCTCGCCAACGGGCGCGCCGTGAATGGTTTCC +CAGGTTTTGGTCAGCTCACGCGCCAGAACCACGTAGCGGGATTCGCCTAATACCGCAACGATATCTTCCA +GGCTATCTAACAGACGGTGGGTAGATTCATAAAAAATCAGCGTGCGCGGCTCCGCTTCAATGGCTTTTAG +CGCATCACGGCGGCCTTTTGATTTGGCAGGTAAAAAGCCTTCGTAACAGAAACGGTCAGAGGGTAAACCC +GCTGCGCTTAACGCAGTGATAGCAGCACACGGCCCGGGTAGCGGCACCACGCGGATCCCCGCTTCACGGC +AGGTACGCACCAGATGGTAGCCAGGATCGTTAATTAGCGGCGTTCCGGCATCGGAAACCAGCGCAATGTT +TTGCCCCTCTTGCAGCTTCGCCAGCAGCGTTTCAGCTTTTTGTTGTTCGTTATGGTCGTGCAGCGCAAAC +AACCGGGCATTAATCCCAAAATGTTGCAGCAATAAACCGGTGTGACGAGTATCCTCGGCGGCAATCAGAT +CAACGGCCTGTAATACCTCTAACGCACGCTGGGTGATATCCGCCAGATTGCCGATTGGCGTCGGTACAAT +GTAAAGCTGGCCCTGAGAATTATCCGCCGATTGGTGTTGTTTCATTGTGTCGTCCGTATTGCCGATTTAA +TATTGAGCATTGCGTAAAAAAAATATCACTGGATACATTATGGTACCCTCAACATTTTCTCGTTTGAAAG +CCGCGCGTTGTCTGCCTGTTGTTCTGGCAGCCCTGATTTTCGCCGGTTGTGGCACCCATACTCCCGATCA +GTCCACTGCTTATATGCAGGGCACGGCGCAGGCTGATTCTGCCTTTTATCTTCAGCAGATGCAGCAAAGC +TCTGATGATACCAGGATCAACTGGCAATTACTCGCCATTCGTGCACTGGTGAAAGAAGGTAAAACCGGGC +AGGCGGTTGAGTTGTTTAACCAACTACCGCAAGAACTGAACGATGCTCAGCGTCGCGAGAAAACACTGCT +GGCGGTAGAGATTAAACTGGCGCAGAAAGATTTTGCTGGCGCGCAAAACTTGCTGGCGAAAATCACACCT +GCCGATTTAGAACAAAACCAGCAAGCGCGTTACTGGCAGGCAAAAATCGATGCCAGCCAGGGGCGTCCTT +CCATTGATTTACTGCGCGCGTTAATTGCTCAGGAACCGCTGCTTGGCGCGAAAGAAAAACAGCAGAATAT +TGATGCCACCTGGCAGGCGCTCTCCTCCATGACTCAGGAACAGGCGAATACGCTGGTGATCAACGCCGAC +GAAAATATTCTGCAAGGCTGGCTGGATCTGCAGCGCGTCTGGTTTGATAACCGTAACGATCCCGACATGA +TGAAAGCCGGGATCGCCGACTGGCAGAAACGTTATCCGAACAATCCGGGCGCGAAAATGCTGCCAACGCA +GTTGGTTAACGTAAAAGCGTTTAAACCAGCCTCGACCAACAAAATCGCCCTGCTGTTGCCACTGAATGGC +CAGGCAGCGGTATTTGGTCGCACTATTCAGCAAGGCTTTGAAGCGGCGAAAAATATCGGCACTCAGCCAG +TGGCAGCTCAGGTAGCTGCCGCACCTGCCGCAGACGTAGCTGAACAACCTCAGCCGCAAACCGTGGATGG +CGTTGCCAGCCCGGCACAAGCCTCGGTTAGCGATCTGACCGGTGAACAGCCTGCAGCCCAGCCGGTGCCT +GTAAGCGCCCCGGCGACAAGCACCGCAGCGGTAAGCGCACCCGCAAATCCATCCGCAGAGCTGAAAATCT +ACGATACCTCATCACAACCACTTAGCCAGATCTTAAGCCAGGTTCAGCAGGATGGCGCGAGTATTGTGGT +CGGTCCGTTGCTGAAAAATAACGTTGAAGAGTTGCTGAAGAGCAACACTCCGCTGAACGTACTGGCACTG +AACCAGCCGGAGAATATCGAAAATCGCGTCAATATTTGTTACTTCGCGCTTTCACCGGAAGACGAAGCGC +GCGATGCAGCGCGTCATATTCGTGACCAGGGTAAACAAGCGCCGCTGGTGCTGATCCCACGCAGTTCATT +GGGCGATCGCGTAGCCAATGCGTTTGCGCAAGAGTGGCAGAAACTGGGCGGCGGCACCGTTCTGCAACAA +AAATTTGGTTCCACCAGCGAATTACGCGCGGGTGTTAACGGCGGTTCTGGTATTGCTTTAACGGGTAGCC +CGATTACTCTCAGAGCGACAACCGACTCCGGCATGACGACCAACAATCCAACGCTGCAAACCACGCCAAC +CGATGACCAGTTCACCAATAATGGCGGTCGTGTCGATGCGGTGTACATTGTGGCAACGCCGGGTGAAATC +GCTTTTATCAAACCGATGATCGCCATGCGTAACGGTAGCCAGAGCGGTGCAACGCTGTACGCCAGCTCCC +GCAGTGCGCAAGGGACCGCTGGCCCGGATTTCCGACTGGAGATGGAAGGCTTGCAGTACAGCGAAATCCC +GATGCTGGCAGGCGGTAATCTACCGTTAATGCAGCAGGCACTCAGCGCGGTGAATAACGATTATTCACTG +GCTCGCATGTATGCGATGGGCGTCGATGCCTGGTCGCTGGCAAATCATTTCTCACAAATGCGCCAGGTTC +AGGGTTTTGAAATCAACGGTAATACCGGAAGCCTGACGGCTAACCCGGATTGCGTGATTAACAGGAACTT +ATCATGGCTACAGTACCAACAAGGTCAGGTAGTCCCCGTCAGTTAACCACCAAACAGACCGGCGATGCGT +GGGAAGCACAAGCGCGTCGCTGGCTGGAAGGCAAAGGACTGCGGTTTATCGCCGCTAACGTGAACGAGCG +TGGCGGCGAGATCGATCTGATAATGCGTGAAGGCCGGACCACCATTTTTGTCGAGGTACGCTATCGCCGC +TCTGCGCTTTATGGCGGCGCGGCAGCCAGTGTGACCCGCAGCAAACAACACAAATTATTACAGACTGCCC +GCTTGTGGCTCGCGCGTCATAATGGGAGTTTTGATACTGTGGATTGCCGGTTCGATGTGGTAGCCTTCAC +CGGGAATGAGGTTGAGTGGATTAAGGATGCCTTTAATGACCACTCATAATTAAGGTTTAAGGATTAGCGT +GCAAGAAAGAATTAAAGCTTGCTTCACTGAAAGCATTCAAACTCAAATTGCGGCGGCAGAGGCGCTTCCG +GATGCCATCTCCCGTGCAGCCATGACGCTGGTTCAGTCTCTGCTCAATGGCAACAAAATCCTCTGTTGTG +GTAATGGAACTTCCGCTGCCAATGCACAGCATTTTGCTGCCAGCATGATCAACCGTTTCGAAACGGAGCG +GCCCAGCTTACCTGCCATTGCACTAAATACTGATAATGTTGTCTTAACGGCGATTGCCAACGATCGCTTA +CATGATGAAGTGTATGCAAAACAGGTGCGGGCGCTGGGTCATGCGGGAGATGTATTGTTAGCCATTTCCA +CCCGTGGCAACAGCCGCGATATTGTTAAAGCAGTTGAAGCCGCCGTTACGCGTGATATGACCATTGTGGC +ATTGACCGGCTATGACGGCGGCGAACTTGCAGGTTTGTTAGGGCCACAGGATGTGGAGATCCGCATTCCT +TCGCATCGTAGTGCTCGCATTCAGGAAATGCATATGCTGACGGTAAATTGCCTGTGCGATCTGATCGATA +ACACGCTTTTCCCTCACCAGGATGATTAAGGAGAATACATGAAGGCATTATCGCCAATCGCAGTCCTTAT +TTCCGCGCTGCTGTTGCAAGGTTGTGTTGCCGCTGCCGTAGTGGGTACCGCTGCTGTGGGTACCAAAGCC +GCAACTGACCCACGCAGTGTCGGCACCCAGGTGGACGATGGTACCCTGGAAGTGCGCGTGAACAGCGCAT +TGTCGAAAGACGAACAGATTAAGAAAGAAGCGCGCATTAATGTAACGGCCTATCAGGGCAAAGTGCTGCT +GGTTGGGCAGTCACCAAATGCTGAACTTTCGGCTCGCGCCAAACAGATTGCTATGGGCGTAGACGGTGCC +AACGAAGTGTATAACGAGATTCGTCAGGGCCAGCCGATTGGTCTGGGCGAAGCATCTAACGATACGTGGA +TCACCACCAAAGTGCGTTCGCAGCTCTTAACCAGCGACCTGGTGAAATCGTCCAACGTGAAAGTGACCAC +CGAAAACGGTGAAGTGTTCCTGATGGGGCTGGTGACTGAACGTGAAGCGAAAGCGGCGGCAGATATTGCC +AGCCGGGTGAGCGGCGTGAAGCGGGTAACTACGGCGTTTACGTTTATTAAATAGCAGCCCCTTGTAATGC +CTGATGCGACGCTTGCCGCGTCTTATCAGGCCTACAACGATACAAACCGTAGGTCAGATAAGGCGTTTAC +GCCGCATCCGACATGTTTTCCCTCAAATCAGAACAACAGCGCCAGCCCGCCGACAATCACACCAGACACT +GCCACCATCGCCCCTGTCAGCCATAAGGCTTTCGCCGGGAACGCTTTGCGCAGCATAATCAGTGACGGCA +AACTCACTGCCGGGAGCGTCATCAACAATGCCAGCGCCGGAGCGGTTCCCATACCTGCCAGCATCATCGT +TTGTACAATCGGAATTTCTGCTGCCGTGGGAATGACAAACAAGCATCCTGCTACCGCCATCGCCACCACC +CACATCAGGCTGTTATCGACAGCACCATCGGCATGGGGGAATAACCAGACGCGAGCGGCACCCAACACCA +GTACTGCAAGGATGTAAACCGGGATCGTACTCCAGAAAAGCGTCCATAGCGCCCTGCCCCAGCGGCTAAA +AAACCCGCCCTGTGCTTCCGGTATGTCAATTTCGACCGGTGCCTGCGTTTGCGGTGTTTCACGCACCCAT +TTTTGCACCAGCGTCGCAATCAGCAACACCATCACCAGCCCGGCCACCAGACGAATCGCCGCAAAACCCC +AGCCGAGGACAAAGCCCATAAACACCAGCGTCGCCGGGTTTAACACCGGATTGCCCATCCAGAATGCCAG +CGCACCGCCCATCGACACCTGTTGGCGACGCATTCCCGCCGCGACCGGAGCCGCACAGCAGGTACACATC +ATGCCCGGCAACGAAAACAGCGTTCCCAGCAGCGTGCCGCGAAAGCGCGATTGCCCAAGCGTACGCAACA +ACCAGTCACGCGGGATCAGCACCTGAATCAACGAACCGAGGATCACCCCCAGCACCGCCGCTTTCCATAC +CGCGAGGAAATAGATCATCGCGTAATCCAACGCCGCCTGCCATGGGTTAGCATCCGCCTGCGCAAGGATA +GATTTACCGATACTGTGGGTTTCGGCAGCAGTAAACGCTTTGCCGTAGTAAGGTTCCCATTTCACATACC +AGAGACCGGCAATGACAACGAGAAAGAAAAGCGCGGGTTTCCACCACTGAATGGGCGTTGCCGCCTGAGA +TGAAGACTGACCAGTCATAGCATTCCCCAGGAATAAGTTATGATAATTGAGCGCGTGAATATTACGCTCA +CTATCAATTCTTGGGAATAATTATTCAGCTCTTTTGCGTAATTCTGAAGAGCTTAAAATCGTCACGCCTT +CATGCTCAGGCCGCATCGACTCTGCCAGCATGACCCGCGCCACGTCTCTCGCATCAATGGATTTCCAGTT +ACCTGGTAACAAACGGAACAGCGGCGCAAAAAGCGTTTCGTTCATCCGCTGTTTGCTACGATCGCCCAGT +AACATCGACGGGCGAGCAATGGTCAATTTCGGCCAGTTCTGGGCGATTAATGCTTCTTCCATCTCCCCTT +TGACGCGGTTATAGAAAAACGGCGAGTGGGCATTGGCACCCATCGCACTGACTACCAACATATGCTGCGC +GCCCAGTCGCCGCCCGGTTAATGCGGTATCCACTACCAGCGTGTAATCGGCATGAATAAACGCCTCTTTG +CTCCCCGCTTCTCGCCGCGTGGTGCCGAGACAACAAAACACAATGTCGATGGGATCGGTGACCTGCGCCA +ACGCGTCACTCAGTTGCGGATCATGGGGATTAAACACCCCGGGCATATCGCCCAACGGACGTCGCGTCGG +CGCAGCAATGGCGTTAACTTTCGGTTCGTTAATCAACATCCGCAGCAGGTGACCGCCCACCAGCCCCGTT +GCGCCTGTAATCAGTACCTGACTCATCTTCGCTCCTTTACAGAATTGTCTGCCTTGCGCTCCACGGCTCA +TGCACCAGGCTTAATAGACCATGAGGTAATTATCCCCGATTGTGGGAAATTCGCCTCATCCAATGCAACA +ACGCGGAGGAAGCATGAGTAAGAAAATTGCCGTTTTAATCACTGATGAATTTGAGGATTCAGAATTTACT +TCACCCGCAGACGAGTTCCGTAAAGCCGGACACGAAGTGATTACCATTGAAAAACAAGCGGGTAAAACGG +TGAAAGGCAAAAAAGGAGAAGCCAGCGTGACCATCGATAAATCCATCGATGAAGTGACGCCTGCGGAGTT +TGATGCCCTGCTGCTACCGGGCGGCCATTCACCGGATTATCTGCGTGGGGACAACCGTTTTGTCACCTTT +ACCCGTGATTTTGTGAATAGTGGCAAACCGGTGTTTGCCATCTGTCACGGCCCGCAGTTGCTGATCAGCG +CCGATGTGATTCGGGGGCGCAAACTGACCGCAGTTAAACCGATCATTATTGATGTTAAAAATGCGGGCGC +GGAATTTTACGATCAGGAAGTCGTGGTTGATAAAGATCAGCTGGTTACCAGCCGGACACCGGACGATCTG +CCAGCGTTTAACCGCGAGGCGTTACGCCTGCTCGGTGCCTGAGTCGCGTAGCCAAATCATTTTTTTACCA +AAGCCCAGCGTGTTGTCGGTGAATTTGATTTCATCGAGCCGGATTTCCCACACCGGGGCCGACAGCATTC +TGGCAACCGGAAAGCGACGATTGTACGCCTTGCGCGCGAGGTCGCTTTCCTCACCTTCCAGCCTGCGGAT +CTCACCTTTAAACTGCACACCGCGAATTAACGCTACCGTTTTCGGCTGACCGTTTACCGTTCCGGCAACC +GCAGCCTGCGGCCCACTCATCTGCGCGTGGCGCGTTTTTTCTTCCGTCAAAATGTAGAAGGCGACTTTCT +GCGCATCAAAAAGATAAAAGGCATTAGCGCACCAGAGTTCCCCTTCCTGCTGCACACACCAAGTGACAAC +ATGTTGTTTTGCCAGCCAACGGCTGATGGCGATGAGTGTTTCCATTGCTGTTCTCTTTTATACTGTGGGC +CTGACCTTAACATGCGACGCAGACGATGACACCCTGGTTTCTTTACTTGATCCGTACCGCCGACAATAAG +CTTTATACCGGGATCACCACGGATGTCGAACGCCGCTATCAGCAGCACCAAAGCGGCAAAGGGGCGAAAG +CACTGCGCGGGAAAGGAGAACTAACGCTGGTGTTTTCCGCGCCAGTGGGCGATCGTTCGCTGGCGTTACG +GGCGGAATATCGCGTTAAGCAACTGACCAAACGGCAAAAAGAGCGTCTGGTAGCGGAAGGCGCAGGGTTT +GCAGAGCTGTTAAGCAGTCTGCAAACCCCGGAGATTAAAAGCGATTGAAATGCTCGTGATACTCAACCAG +GCCGGTAACGCCATTCAGCGCGTCATCCGCTAAACGATGTACCTGGAAGGCGCTTTCAGTGCCCGGCCAG +CGGCAACGCAGATCGTGATGCGCCGCCAGTTCAAAGCCGAAACGACTGTACAGCGCCGGATCGCCCAGCG +TCACCACTGCGGCATAGCCGAACTCATTAAGCGAATCGAGTCCTTCATAGACCAGTTGGCGTGCCAGCCC +CTGTCCACGGTATTTTTCATCAACCGCCAACGGTGCCATGCCGACCCATTGCAGGTCTTCGCCCTGCACA +TCAACCGGACTAAATGCCACATAGCCAATGACCTGACCTTCGTCATCTGTCGCCACCAGCCCCAGCGTCA +GAAAGCCATCTTCACGCAGATCGTGAACCAGCTTCGCTTCCGCATCACTTTCGAATGAGCGACGCAGCAG +GGCATCAATACCCGGCGCATCAATGGGAATTTCTACTCGAATTAGCATGGTTCACCTACCGATGTCTGTT +TGGTTTCAGGCGCGGTTTTCATTCCCGCCTCAACAAAATCCGCCAGTTGCAGCAGCATCATGCGTAAGGC +TTTCGGCATTTGCTCCAGTTCAATGGCGTCCATCAGGTTTTTCACATACAGCCCCAGCTCCGTATCGCCT +TCAATCACCAGCCGACGCTGGAAGAAGAGCGTATCCGGATCTTGTTTACGCGCCGCAATCATCAGCAGAT +CGCTGGCGTCGGCACTAAAACTCACATCAGCTTGCGCGTTCTGGCTAACGACCAGTTTGCCATTCACCAC +CGAGGTAAACCATTGCAGGTCAATATCACGCACATGAATACTTAACCAGCGGCCTTCAAGAAACTCCAGC +TCGCCATCATCCAGCGCCTGGCGGAATTGCCAGCTTAAGACCTGCTCAAGAACCTGGCGTTTTAGCGCAA +ATGGCGTCAGTTTTACCGGTACACTCAACAGAGATGGCCCCAAATGCACAATACGGGAACGCAGTTTATC +CAACACGAGTTTTACTCCCTGTTTCAACAATCATCCTATTTTGCCATATCAGAAAAATAACATAGCGGTA +TAAATCAACAATTCCATATGAAATTGCTGCTACCACCAATACAACTTTAACTGCCTTAAATCAAAAATTG +TCGCAGCAAGGTTAACTAAAATCCCAGTTCGTTAACATTTTTGCGTTTTGATAGCGCAACCTTCAGGAAA +AATTATGGAGCTGCTCTGCCCTGCCGGAAATCTCCCGGCGCTTAAGGCGGCCATCGAAAACGGCGCAGAT +GCTGTTTATATCGGGCTAAAAGATGATACCAATGCCCGTCACTTCGCCGGCCTTAACTTTACCGAGAAAA +AATTGCAGGAAGCGGTGAGTTTTGTCCATCAACATCGCCGCAAACTTCACATCGCGATTAACACTTTTGC +GCATCCGGACGGTTACGCCCGTTGGCAGCGCGCCGTGGATATGGCGGCGCAGCTGGGTGCCGACGCGCTG +ATCCTCGCCGACCTCGCCATGCTGGAGTACGCCGCCGAGCGTTATCCGCATATTGAGCGCCACGTATCGG +TGCAGGCTTCGGCGACCAATGAAGAGGCGATTAACTTTTATCATCGCCATTTTGACGTTGCTCGCGTGGT +GCTGCCGCGCGTGTTGTCGATTCATCAGGTGAAACAACTGGCACGGGTCACACCTGTACCACTGGAAGTC +TTTGCTTTCGGCAGCCTGTGCATTATGTCGGAAGGTCGTTGCTATCTGTCGTCGTATCTGACGGGTGAGT +CGCCCAACACCATAGGCGCGTGTTCTCCGGCCCGTTTCGTGCGCTGGCAACAAACGCCGCAGGGGCTGGA +ATCCCGCCTGAACGAAGTGCTGATCGACCGTTATCAGGACGGCGAAAACGCAGGTTATCCGACGCTATGT +AAAGGGCGTTATCTGGTGGACGGCGAGCGCTATCACGCGCTGGAAGAACCAACCAGTCTCAATACCCTGG +AACTGCTGCCGGAGTTAATGGCGGCGAATATTGCTTCGGTGAAAATTGAAGGCCGCCAGCGTAGCCCGGC +GTATGTCAGCCAGGTGGCGAAAGTCTGGCGTCAGGCTATCGACCGTTGTAAGGCCGATCCGCAAAACTTT +GTACCGCAAAGCGCGTGGATGGAGACGCTCGGGTCGATGTCCGAAGGCACGCAAACCACTCTTGGCGCAT +ATCACCGTAAATGGCAGTGAGAAAAGCAATGAAATATTCCTTAGGGCCAGTGCTGTGGTACTGGCCAAAA +GAGACGCTGGAAGAATTTTATCAGCAGGCCGCCACCAGCAGCGCCGACGTGATTTATCTTGGTGAAGCGG +TATGCAGCAAGCGTCGGGCAACCAAAGTTGGCGACTGGCTGGAGATGGCAAAATCGCTCGCCGGGAGTGG +TAAGCAGATTGTGCTCTCCACGCTGGCGCTGGTGCAGGCATCATCTGAACTGGGCGAACTGAAACGCTAT +GTTGAGAACGGTGAGTTTCTGATTGAAGCCAGCGATCTCGGCGTGGTGAATATGTGCGCTGAACGCAAAC +TGCCGTTCGTCGCCGGGCACGCGCTGAACTGCTACAACGCGGTGACACTGAAAATATTGCTCAAACAGGG +CATGATGCGCTGGTGTATGCCAGTGGAGCTTTCCCGCGACTGGCTGGTGAATCTGCTTAATCAGTGCGAT +GAGCTGGGCATTCGTAACCAGTTTGAAGTGGAAGTCCTGAGCTACGGTCATCTGCCGCTGGCCTACTCCG +CCCGCTGCTTTACCGCGCGTTCGGAAGACCGCCCGAAAGATGAGTGTGAAACCTGCTGCATTAAGTATCC +GAACGGGCGCAACGTGCTGTCGCAGGAAAACCAACAAGTGTTTGTACTCAATGGCATTCAGACCATGAGC +GGCTACGTTTACAACCTCGGTAACGAGCTGGCATCCATGCAGGGCCTGGTTGATGTGGTCCGCCTGTCAC +CGCAGGGTACTGACACTTTCGCGATGCTCGACGCCTTCCGCGCTAATGAAAATGGCGCTGCACCACTGCC +GTTGACGGCGAACAGCGACTGTAACGGCTACTGGCGGCGGCTGGCAGGACTGGAGCTGCAAGCCTAAGTA +AATAGCTCACTTTGTTAACAACTTTAACTACTCTTTAATGCAGTATTAAAGATTAATCGGTAACAAAGTG +AGCTGTTATGACTGATAAAACCATTGCGTTTTCGCTACTCGATCTGGCCCCCATTCCCGAAGGTTCTTCA +GCGCGAGAAGCATTCTCCCACTCTCTCGATCTCGCCCGTCTGGCTGAAAAGCGCGGCTATCATCGCTACT +GGCTGGCAGAACACCACAATATGACTGGCATTGCCAGTGCTGCCACGTCGGTATTGATCGGCTATCTGGC +GGCGAATACCACCACGCTGCATCTGGGGTCTGGCGGCGTGATGTTGCCTAACCACTCACCGTTGGTCATT +GCAGAACAGTTCGGCACGCTTAATACACTCTATCCGGGGCGAATCGATTTGGGGCTGGGTCGTGCTCCGG +GTAGTGACCAACGGACAATGATGGCGCTACGTCGTCATATGAGCGGCGATATTGATAATTTCCCCCGCGA +TGTGGCGGAGCTGGTGGACTGGTTTGACGCCCGCGATCCCAATCCGCATGTGCGCCCGGTACCAGGCTAT +GGCGAGAAAATCCCCGTGTGGTTGTTAGGCTCCAGCCTTTACAGCGCGCAACTGGCGGCGCAGCTTGGTC +TGCCGTTTGCGTTTGCCTCACACTTCGCGCCGGATATGCTGTTCCAGGCGCTGCATCTTTATCGCAGCAA +CTTCAAACCGTCAGCACGGCTGGAAAAACCATACGCGATGGTGTGCATCAATATTATCGCCGCCGACAGC +AACCGCGACGCTGAATTTCTGTTTACCTCAATGCAGCAAGCCTTTGTGAAGCTGCGCCGTGGCGAAACCG +GGCAACTGCCGCCGCCGATTCAAAATATGGATCAGTTCTGGTCACCGTCTGAGCAGTATGGCGTGCAGCA +GGCGCTGAGTATGTCGTTGGTAGGTGATAAAGCGAAAGTGCGTCATGGCTTGCAGTCGATCCTGCGCGAA +ACCGACGCCGATGAGATTATGGTCAACGGGCAGATTTTCGACCACCAGGCGCGGCTGCATTCGTTTGAGC +TGGCGATGGATGTTAAGGAAGAGTTGTTGGGATAGTGTGTCTTAACGCGGGAAGCCTTATCCGAGCTGGC +AACGCTGTCCTACATAGACCTGATAAGCGAAGCGCATCAGGCATTGTGTAGGCAGCAGAAATGTCGGATA +AGGCACCGCTGATTACTGATACACCGGCAGTAAATTAAAGCTCGATAAAATATGCACCAGTGCGTTGCCG +ACGCCAAACACCAGAATCAGCGCAATCATCGGCTTGCCACCCCAGACGCGGAATTTCGGGCTGCCAAAGC +GTTTACGCGATGCACGGGCTAACAGCGCCGGAACAATTGCCGCCCAGATGGTAGCCGCTAAACCAGCATA +ACCAATGGCGTACAGGAATCCGTTCGGGAACAACAGCCCCCCCACAACTGGCGGGGCAAAGGTCAGCAAT +GCCGTTTTCAAGCGGCCCACAGCCGAGTCGTCGAAACCAAACAGATCTGCCAGATAGTCAAACAAACCCA +GCGTTACGCCGAGGAACGAACTCGCTACCGCAAAGTTTGAGAACACGACCAGCAGCAGATCCAGACTACG +GCTGTTCAGTACGCCGCTTAACGCCTGTACCAGCACATCAATATTACCGCCCTTCTCTGCAATACCGATA +AACTCCGGACGCGGGATGTTACCCATCGTCGCCAGCAACCAGATGGTATACAGCGCCAGCGCCATCAGCG +TACCGTACACCAGACATTTCACGATGGTTTTCGGATCTTTGCCGTAATACTTCATCAGGCTTGGCACGTT +ACCGTGATAACCAAACGATGCCAGACAGAACGGCAGGGTCATCAACAGATACGGTGCATAAGACGCATTG +CTTTCGGCGACGTTGAACAATGTCGCAGGCTGCACATGCCCCAGCAGGCTACCAAAGGTGAGGAAGAAGG +TAATGACTTTCGCCCCCAGCACAATCGCTGTCATGCGACTGACGGCTTTAGTGCTCAACCACACCACAAA +CGCTACCAGCAATGCAAAACCAAAACCCGCCGCCCGTGCCGGGACGTTTAGTGACATCTCTGCGAAGGTG +TGATGCAGAATCGAACCACTGGCAGAAATATAGGCATAGGTCAGGATATAGAGCACAAAGGCAATGGAAA +TGCCGTTGACCACGTTCCAGCCTTTGCCCAGCAAATCTTTGGTGATGGTGTCAAAACTCGAACCGATTCT +GTAATTCAGGTTAGCTTCCAGAATCATCAAGCCGGAATGCAGCATACAGAACCAGGTAAAGATCAGCGCC +GCCATTGACCAGAAAAACCACGCCCCGGACATGACCACTGGCAGAGAAAACATCCCTGCGCCAATAATGG +TGCCGCCGATAATCACCACGCCGCCAAGCAGCGACGGTGACGTTTGGGTGGTGGTTAGTGTTGCCATGAG +GGCTTCTCTCCAGTGAAAAATAGTGCGACTGCGTTGTTATGCATTGCACTGTACCAGTACACGAGTACAA +AAGACAGAAAAAAAGCCCCGATGGTAAAAATCGGGGCTGTATATATTATTTTACAGATTGTGTTCGCTGT +TCAGCGATGATTACGCATCACCACCGAAACGACGACGACCGGTAGAATCATCACGACGCGGAGCGCGGCC +TTCACGACGTTCGCCGCTAAAACGACGACCATCACCACGGCCACCTTCACGGCGTTCACCGCTGAAGTTA +CGACCGCCTTCACGACGTTCGCCACCGAAACCACGACCACCGCCACGACGCTCACCGCCAGTATGCGGCT +GTGCATCGCCCAGTAACTGCATGTTCATCGGCTTGTTGAGAATGCGAGTGCGCGTAAAGTGTTGCAGCAC +TTCACCCGGCATACCTTTCGGCAGTTCGATGGTGGAGTGAGAAGCAAACAGCTTGATGTTACCAATGTAA +CGGCTGCTGATGTCGCCTTCGTTAGCAATCGCACCAACGATATGACGAACTTCAACACCATCATCGCGGC +CCACTTCAATGCGGTACAGCTGCATATCGCCAACATCACGACGTTCACGACGCGGACGATCTTCACGGTC +ACCACGCGGGCCACGGTCGTTACGATCGCGCGGACCACGGTCATCACGGTCACGGAATTCACGTTTCGGA +CGCATCGGCGCATCTGGCGGTACGATCAGAGTACGTTCACCCTGTGCCATTTTCAGCAGTGCCGCAGCCA +GAGTTTCGAGATCCAGCTCTTCACCTTCAGCAGTCGGCTGAATTTTGCTCAGCAGTGCGCGGTATTGATC +CAGATCGCTGCTTTCCAGCTGCTGCTGTACTTTAGCGGCGAATTTTTCCAGACGGCGTTTGCCTAGCAGT +TCTGCGTTCGGCAGTTCTACTTCCGGAATAGTCAGCTTCATAGTACGTTCAATGTTGCGCAGCAGACGAC +GCTCGCGGTTCTCAACGAACAGCAGCGCGCGGCCAGCACGACCCGCACGACCGGTACGACCGATACGGTG +AACGTAAGACTCAGAATCCATCGGGATATCGTAGTTAACTACCAGGCTGATACGCTCAACGTCCAGGCCA +CGGGCTGCAACGTCGGTCGCAATCAGGATGTCCAGACGACCATCTTTCAGGCGTTCCAGTGTCTGTTCAC +GCAGCGCCTGGTTCATGTCACCGTTCAGCGCGGCGCTGTTGTAGCCGTTACGCTCAAGAGCTTCAGCCAC +TTCCAGAGTCGCGTTTTTGGTACGAACGAAGATAATCGCCGCATCAAAATCTTCCGCTTCCAGGAAACGT +ACCAGTGCTTCGTTTTTGCGCATACCCCAGACAGTCCAGTAGCTCTGGCTGATGTCAGGACGGGTAGTCA +CGCTGGACTGAATGCGCACTTCCTGCGGCTCTTTCATAAAGCGGCGGGTAATGCGACGAATCGCTTCCGG +CATGGTTGCAGAGAACAGAGCGGTCTGATGACCTTCCGGGATCTGCGCCATAATGGTTTCAACGTCTTCG +ATGAAGCCCATGCGCAGCATTTCGTCAGCTTCATCCAGAACCAGACCGCTCAGTTTAGAGAGGTCCAGAG +TGCCACGTTTCAGGTGGTCCAGCAGACGGCCCGGAGTACCGACAACGATCTGCGGCCCCTGACGCAGGGC +GCGTAATTGCACGTCATAACGCTGGCCGCCGTACAGAGCAACCACATTTACGCCGCGCATGTGTTTAGAG +AAATCCGTCATTGCTTCAGCAACCTGTACCGCCAGTTCGCGGGTCGGTGCCAGCACCAGAATCTGTGGTG +CTTTCAGCTCAGGATCAAGATTCTGCAACAGAGGTAAAGAGAATGCTGCAGTTTTTCCGCTCCCCGTCTG +GGCCATACCCAGAACGTCGCGGCCATTCAGCAGATGTGGAATACACTCTGCCTGAATTGGAGATGGTTTT +TCGTAACCCAGATCGTTAAGGGCTTCAAGGATAGGAGCCTTCAGGCCCAGATCTGCAAAAGTGGTTTCGA +ATTCAGCCATGTAGTACGTGTGCCTCAAAATTAATGGCGGCCAGTCTACATAACTCATCATGAAATTGAT +CAGCAATTTTCATTGAAAAGTGTGAACCGGCTCAAAGTAGGTGTATTAACGAACAACAACGCCCTCACCC +GTTAAGGTGATGGCAATCAAAAAAGATTACGGGCTGATGTGTACGTCAGCTATTGCTGGTCCGATTCTGC +CAGGTCATCTTGGTCCTGGCCCAGGAGCGATAATTCCAACAATGCGTATCGGTGCTCAACAAAGTTATGA +ACGTTGTTGGCAACCGCCAGTTTGAACAGTGCCGTGGCGCTGTCCAAATCCCCCAGACTTAGGTAGTACT +TACCTAAATAGAAGTTGGTTTCACTGAGATGCTCAGCGAGCGAGGTGTTATCCGTTGCGTCCGCCTTGAG +CCTTTCCATTAACGTTTGTTCGCTAATGTTGCCCAGGTAGAACTCGACAATGTTCCATCCCCACTGTTCC +TTATCCGATTTTTCGAAGTGCTGTTTCAACACTTCTTTAGCCTGCTTCTCATCGAGCTTCTGCTCGGCGA +GATAAAGCCACAGACTACGGAAAGGATCATTGGGATCGTCTTGATAAAACGCCAGCAGATCATCTTGCGC +TAACTTGTCACGACCGCCGTAATATAATGCGATCCCGCGATTCAAGTGCGCGTAGTTGTAAGTTGGATCA +AGCTCAAGTACAGAATCAAACGCTTCATAGGCAGCATCAAAATTGCCTGCCTGCGTTAAATATATGCCTA +AGTAATTGAATACTTCAGGCATATCCGGTCGGATTGCCAGCGCTTGCGAAAAATCGTTACGCGCTAATGC +CCTCAGACCGAGACTATCATACAACACTCCGCGCTCATATAAAAGCTGTGCGCGTTCGTCATCGGTTAAA +GCCCGACTGGCAAGGATTTGTTCCATACGTGCCAGAATCACTTCCTGCTGTAAAGTCGGTTGCAATGGTA +CCGCGAGGACTTCACTTTTACGCCAGGAAGTATTACTGCATCCTGCAAGCGTAAGTGCTGTCGCAACGAA +ACACCAGCGCAAAAAAGGCTTCATTTCCCACTCCCGAAGACCACGGTTGAATGAACGTCCTGTTCCCGGT +TGCTAACAAGGCGTCCTGCCCGGTTAAAAGCCCCCCGCCGCAGCGGAGGGCAAATGGCAACCTTACTCGC +CCTGTTCAGCAGCCGGAGCTTCCGGTGCTGCAGCAGGTTGAGACTGCTCAGTCGCTTCTTTAATGCTCAG +ACGGATACGGCCCTGGCGATCAACTTCCAGAACTTTCACCGGTACTTCCTGACCCATCTGCAGGTAATCG +GTCACTTTCTCAACGCGTTTGTCAGCGATTTGAGAGATGTGGACCAGACCTTCTTTACCGCCGCCGATGG +CAACAAATGCGCCAAAGTCAACGATACGGGTCACTTTACCAGTGTAGACGCGGCCCACTTCGATTTCTGC +AGTGATCTCTTCGATACGACGAATAGCATGTTTCGCTTTCTCGCCGTCGGTCGCTGCAATCTTCACAGTA +CCGTCATCTTCGATTTCGATGGTGGTGCCAGTTTCTTCGGTCAGAGCACGGATTACAGAACCGCCTTTAC +CGATAACATCTTTGATCTTGTCCGGGTTGATCTTGATGGTATGGATACGCGGTGCGAACTCAGAGATATC +GCCACGCGGCGCGTTGATCGCCTGTTCCATTACGCCCAGGATATGCAGACGCGCACCTTTAGCCTGGTTC +AGCGCAACCTGCATGATCTCTTTGGTGATACCTTCAATTTTGATATCCATCTGCAGTGCAGAGATACCGT +CGCGGGAACCTGCAACTTTGAAGTCCATATCGCCCAGGTGATCTTCGTCGCCCAAAATGTCAGACAGTAC +AACGTAGTTGTCGCCTTCTTTCACCAGACCCATTGCGATACCCGCAACGGCAGCTTTGATCGGCACACCT +GCGTCCATCAGCGCCAGAGACGCGCCGCACACGGAAGCCATAGAAGAGGAACCGTTGGATTCAGTGATTT +CAGACACAACACGTACGGTGTACGGGAATTTGTCCATATCCGGCATGACTGCCAGCACGCCGCGCTTCGC +CAGACGACCGTGACCAATTTCACGACGCTTCGGAGAACCGACCATGCCGGTTTCGCCTACGGAGTACGGA +GGGAAGTTGTAGTGGAACAGGAAGGTATCGGTACGTTCGCCCATCAGTTCATCAAGAACCTGCGCGTCAC +GAGCAGTACCCAGCGTTGCGGTAACCAGCGCCTGCGTTTCACCACGGGTGAACAGCGCAGAACCGTGAGT +ACGCGGCAGCACGCCAGTACGCACATCCAGACCACGGATCATATCTTTTTCACGACCGTCGATACGCGGT +TCGCCTGCCAGTACGCGGCTACGAACAACGTTTTTCTCGATCGCGTGCAGAATTTCACCCAGTTCGTTTT +CGTCCAGGGTTTCGTCTTCAGCAAGCAGCGTCGCGATGGTTTCAGATTTGATGACATCAACCTGCGCATA +ACGCTCTTGTTTGTCGGTGATGCGGTAAGCATCGCTCAGGCGAGCTTCAGCCAGTGCAGCAACGCGCGCG +TTTAGCGCTTCGTTTACCGGCTCCGGCTGCCAGTCCCAACGCGGTTTACCGGCTTCTTTCACCAGTTCAT +TGATGTTCTGAATAACAACCTGCTGTTGTTCATGACCGAACACTACTGCGCCCAGCATCTGGTCTTCGCT +CAGCAGTTGAGCTTCAGATTCAACCATCAGTACAGCGGCTTCAGTACCGGCAACAACCAGATCCAGTTTG +CTCTCTTTCAGCTCGTCCTGAGTCGGGTTCAGTACGTACTGGTCATTGATGTAACCTACGCGGGCAGCAC +CAATCGGGCCATTGAACGGAATACCAGACAGAGACAGCGCTGCGGAAGCACCAATCATCGCGACGATATC +CGGGTTAACTTGCGGGTTAACAGAAACCACGGTGGCGATAACCTGAACTTCGTTGACGAAGCCTTCCGGG +AACAGCGGGCGAATCGGGCGGTCAATCAGACGCGCGATCAGGGTTTCGCCTTCGCTTGGGCGGCCTTCAC +GACGGAAGAAGCTACCCGGGATACGACCAGCAGCGTAGGTACGCTCCTGATAGTTAACGGTCAGTGGGAA +GAAGTCCTGACCTGGTTTGGCTTTTTTCTGGCCAACAACGGTAACGAATACCGCGGTGTCATCCATGCTA +ACCATAACAGCGGCAGTAGCCTGACGAGCCATCATGCCGGTTTCCAGAGTCACGGTGTGTTGGCCGTACT +GGAATTTACGAACGATCGGATTAAGCAATGTAATATCCTTTCTCTTTCTTAGACAGTACCTTACGGCACT +GGTGTTAATACCCGATCTTCTGCGCATCCTCGCGACTAATGACAACCCTAACCCAGCTCTATGTGGGTAA +AGCCTCTCATTAGCCGCGCGAACCTCTGCAACGGAAGATCATTCATAGCAACAATACATTAGTTTCCAGT +GAATTGCTGCCGTCAGCTTGAAAAAAGGGGCCACTCAGGCCCCCTTTTCTGAAACTCGCAAGAATTAGCG +ACGCAGACCCAGGCGCTCGATGAGCTGGGTGTAACGTGCTACGTCTTTACGTTTCAGGTAGTCGAGCAGT +TTACGACGCTGAGAAACCATGCGCAGCAGACCACGACGGCTGTGGTGATCTTTTTTGTGCTCTGCAAAGT +GGCCCTGCAGGTGGTTGATCTGTGCAGTCAGCAGTGCTACCTGAACTTCGGTAGAACCGGTGTCGTTTGC +GTCACGACCAAACTCAGAAACGATTTTAGCTGTTGCTTCAGTACTTAGAGACATTTTAAAACTCCAAAGT +ATATAGAATGAAAGGACGCCGATCTCTAATTCAGCGATCCCAGTGTACGTTACGCAAAGTGTTAAACAAT +TTACGCGACGTTAAGCGGCAGTATTCTACTCGTAGCGACCTGTTATCGCAAGACGGTTAACATTACGCCG +GGTATTCAACCACCAGGCGACGAGGCGCAACGCGGCCTTCATCGTCAATTTCGCCCATACCGATAAATTT +GCCGTTCTCACCTTCCGTGACGCGAACCAGTCCTTCCAGTGGCGCACCAGATGTACGAACCGGGTTACCA +TTTTTGAAGTAAACAGAAGACGTTAACGGAAGATTCACCACCGGATAGTCCGAAGCTGGACTGTCCATTG +GCATCAGTAATGGATCAAGTAACTCCGCGGCTGGAATATCCTGCTGTTCAGCTTGCTCAACAAGTTCACG +CAGGTGCTCCAGGGTCACCATCCGTTCAACCGGATATTTACTTACCGCCAGACGGCGCAGGTAAATAACA +TGCGCGCCACAGCCGAGTTTTTCACCCAGGTCATCAATGATGGTGCGGATATAAGTGCCTTTTGAGCAGT +GAATTTCCAGCTCCAGCTCATTGCCTTCATGGCGAATAAACAGCAATTCATAAACGGTAATCGGACGCGC +TTCACGCGGAACTTCAATGCCCTGACGCGCATATTCGTACAGTTTTTTGCCCTGATATTTCAGTGCTGAA +TACATCGAAGGGATCTGTTCGATATCGCCACGGAAAGTATCCAGTGCCGCTGCCAGCTGCTCTGCGCTAA +AGGTTACCGGACGTTCTTCAACGATCTGTCCGTCGGCATCAGAAGTATCGGTACGCTGTCCAAGACGCGC +AATGACCCGATAGCGTTTGTCGGAGTCCAGCAGATACTGGGAAAACTTCGTCGCTTCCCCGAGGCAAATC +GGCAACATGCCGGTCGCCAGCGGGTCCAGCGCACCGGTATGCCCGGCACGGTTGGCGTTATATATACGTT +TCACTTTTTGCAGCGCATCGTTGCTGGACATACCCTGAGGTTTATCCAGCAACAAAACGCCGTTAATGTC +GCGACCGCGACGACGAGGACGACTCATTAGTCCTCCTTGCTGTCGTCCGGGTTAACACGACGTTCTTCGT +CATGTTTGACCACGCTGGTCACCAGGTTTGACATGCGCATCCCTTCAACCAGAGAGTTGTCGTAGAAGAA +GGTCAGTTCCGGCACGATACGCAGGCGCATCGCTTTCCCCAGCAGGCTGCGGATGAAACCAGAAGCTTCT +TGCAACGCTTTGATGCCCGCTTTAACCGCGTCTTCATCTTTGTCGTTGAGGAACGTCACATATACTTTGG +CATACGCCAGGTCGCGAGACATTTCGACACCGGAAACGGTGGTCATCATGCCCAGGCGAGGATCTTTAAT +TTCACGCTGCAGGATGAGAGCGATCTCTTTTTGCATTTCCTGCGCTACGCGCTGCGGGCGACCAAATTCT +TTCGCCATAATAAATTCTCCTGACAAAAAAGGGGCTGTTAGCCCCTTTTTAAAATTAATTTCAGGTGGAA +GGGCTGTTCACGTTGACCTGATAAGACGCGCCAGCGTCACATCAGGCAATCCATGCCGGATGCAGCGTAA +ACGCCTTATCCCGCATGGAACCCTAAAAACCTTAAGCAATGGTACGTTGGATCTCGATGATTTCGAATAC +TTCGATCACATCGCCAGTGCGGACGTCGTTGTAGTTCTTAACGCCGATACCACATTCCATACCGTTACGG +ACTTCGTTAACGTCATCTTTGAAGCGGCGCAGGGACTCCAGCTCGCCTTCGTAGATAACCACGTTGTCAC +GCAGAACGCGGATCGGGTTGTGACGTTTAACCACACCTTCGGTAACCATACAGCCTGCGATGGCACCAAA +TTTCGGCGATTTGAACACGTCACGAACTTCCGCCAGACCGATAATCTGCTGTTTCAGTTCCGGAGACAGC +ATACCGCTCATCGCCGCTTTCACTTCGTCAATCAGGTTATAGATGACGGAGTAGTAACGCAGATCCAGGC +TTTCCGCTTCAATCACTTTACGTGCAGAGGCATCAGCACGTACGTTAAAGCCAACCAGGATGGCGTTGGA +CGCCGCAGCCAGGGTGGCGTCGGTTTCGGTGATACCACCTACGCCAGAACCGATGATCTTCACTTTAACT +TCGTCAGTAGACAGTTTCAGCAAGGAGTCGGAGATCGCTTCGACAGAACCCTGTACGTCTGCCTTCAGGA +CGATATTCACTTCGTGAACTTCGCCTTCGGTCATGTTGGCGAACATGTTCTCGAGTTTAGATTTCTGCTG +ACGCGCCAGTTTAACTTCGCGGAATTTACCCTGACGATAGAGTGCAACTTCACGCGCTTTCTTCTCGTCA +CGTACAACGGTAACTTCATCACCCGCAGCCGGTACGCCGGACAGGCCGAGGATTTCCACCGGAATGGACG +GACCCGCTTCCAGCACTTCCTGACCCAGTTCGTTACGCATCGCACGAACACGACCGTATTCGAAGCCACA +CAGAACGATATCGCCCTTGTGCAGAGTACCTTCACGTACCAGAACGGTAGCAACCGGACCACGACCTTTA +TCGAGGAAGGATTCGATAACCGCACCGCTCGCCATACCTTTACGTACCGCTTTCAGCTCCAGAACTTCCG +CCTGCAGCAGGATAGCGTCCAGCAGTTCATCGATACCGGTACCCGCTTTCGCAGATACGTGTACGAACTG +GCTTTCACCGCCCCACTCTTCCGGCAGGATGCCGTACTGGGAGAGTTCGTTCTTAACGCGATCCGGATCA +GCTTCTGGTTTATCGATCTTGTTCACTGCAACCACCACCGGTACCTGCGCCGCTTTCGCGTGCTGGATTG +CTTCGATGGTCTGCGGCATCACACCGTCGTCGGCAGCAACAACCAGGACTACGATGTCCGTTGCCTGCGC +ACCACGAGCACGCATTGAAGTAAACGCGGCGTGCCCCGGGGTGTCCAGGAAGGTGATCATGCCGTTTTCA +GTTTCAACGTGGTATGCACCAATGTGCTGGGTAATGCCGCCCGCTTCGCCAGAGGCCACTTTCGTTGAAC +GAATGTAGTCCAGCAGAGAGGTTTTACCGTGGTCAACGTGACCCATGATGGTCACAACCGGCGCGCGCGG +TTCAGCCGCAGCACCCGTGTCACGGTCGCTCATTACCGCCTCTTCCAGCTCGTTTTCACGACGCAGGATA +ACTTTATGGCCCATCTCTTCAGCAACCAGCTGTGCGGTTTCCTGATCGATAACCTGGTTGATGGTTGCCA +TTGCGCCCAGTTTCATCATCGCTTTGATGACCTGAGAGCCTTTAACCGCCATCTTGTTCGCCAGTTCGCC +AACGGTGATAGTTTCGCCGATCACAACGTCACGGTTAACGGCCTGAGCAGGCTTCTGGAAGCCTTGCTGC +AGCGAAGAACCTTTACGTTTTCCGCCTTTACCGCCACGTACTGCTGCGCGTGCTTCTTCACGATCAGCTT +TTGATTCAGCGTGTTTGTTGCCTTTCTTCGGACGCGCTGCTTTCGCGTTACGACCACGGCCACGGCCGCC +TTCGACTTCACGATCGCTTTCGTCTTCTGCCTGGCGAGCATGTTGAGAAGTAGTGACGTGATAATCGCTG +GAATCTTCAGTCGGTTCCGCGTTATCAGTCCATTTGTTTTCTTCCGCCATACGACGTGCTTCTTCAGCAA +CGCGACGTGCTTCTTCTTCGAGTTTACGACGCGCTTCTTCTTCAGCTTTACGCTTGAGCTCTGCAGCTTC +CTGCTCACGGCGGGCTTTTTCAGCCTGGGCGTTTTTAGTCATATCGTCTTGTTGATTGCTCACTTTGTCT +TTTTCCGCAGCTTCACGTTTCGCTTGTTCAGCAGCTTCACGCTTAGCTTGTTCTGCGGCCTCACGTTCAG +CTTTTTGTTGCGCCTCGCGTTTAGCCGATTCTTCTGCCTCACGACGGGCTTGCTCTTCCGCTTCACGCTG +CGCTTGCTCTTCCGCTGCAAGGCGTTCAGCCTCTTGCGGATCGCGTTTCACAAAGGTGCGTTTCTTGCGG +ACTTCGATTTGTACCGATTTGCTTTTTCCACCGGTACCAGGAATGTTAAGGGTGCTGCGTGTTTTACGTT +GCAGCGTCAATTTGTCCGGGCCTGAATTTTTCTGATTCAGGTGGTCAATCAAAGTCTGTTTCTCTTGTGC +AGACACAGAGTCGTCAGCAGACTTCCGGATACCTGCATCAGCAAATTGCTGTACCAGGCGTTCCACGGAG +GTCTGTCGCTCTGCGGCCAGCGTTTTAATCGTTACATCTGTCATGCTGTTCCTTCCTGCTACAGTTTATT +ACGCTTCGTCACCGAACCAGCAAATATTACGGGCAGCCATAATCAGTGCTCCGGCTTTTTCGTCGGTCAA +CCCTTCGATATCAGCCAGATCATCAATGCCCTGTTCGGCGAGATCTTCCAGCGTACAAACGCCACGGGCG +GCCAGTTTGAATGCCAAATCACGATCTACCCCTTCAAGGTTCAGCAGATCGTCAGCCGGTTTGTTATCAC +CGAGGCTTTCTTCCTGGGCCTGTGCAATGGTGGCCAGTGCATTTTTAGCACGCTCGCGCAGTGCTTCAAC +GGTCGGCTCATCAAGGCCTTCGATTTCCAACAGCTCTTTCATCGGCACATAGGCCAATTCTTCCAGCGTC +GAGAAGCCTTCTTCTACCAGAACAGTCGCGAAGTCTTCGTCGATGTCGAGATATTTGGTGAAGGTGTCGA +TCGCTGCGTGCGCTTCCGCCTGATGCTTAGCCTGCAGGTCGTCAACGGTCATCACGTTGAGTTCCCAACC +GCTCAGCTGCGAAGCCAGACGCACGTTCTGACCGTTACGGCCAATCGCCTGCGCCAGGTTACCGGCTTCA +ACGGCGATATCCATGGTGTGTTTATCTTCATCCACCACGATAGAAGCAACGTCTGCCGGTGCCATTGCGT +TAATCACGAACTGCGCCGGGTTATCATCCCACAGGACGATATCGATACGCTCGCCACCCAGTTCAGTAGA +CACCGCCTGAACACGCGCGCCACGCATACCTACGCAAGCACCTACCGGATCGATACGTTTATCGTTGGTT +TTCACCGCGATTTTCGCACGAGAACCCGGATCGCGAGCCGCTGCTTTAATTTCAATCACTTCTTCGCCGA +TTTCTGGCACTTCAATACGGAACAGTTCGATCAGCATTTCCGGCTTGGAACGAGTGACGAACAGTTGCGC +GCCACGCGCTTCCGGGCGAACGGAATAGAGCACGCCACGAACGCGGTCGCCAGGGCGGAAGTTTTCACGC +GGCAGCATATCTTCGCGCAGGATCACGGCTTCAGCGTTGTTGCCCAGATCCAGAGAGATGTTGTCGCGGT +TTACTTTTTTCACCACGCCGGTGATGATTTCACCTTCGTGTTCACGGAACTGATCAACCACCATCGCACG +TTCGGCTTCACGCACTTTCTGCACGATAACCTGTTTTGCCGTCTGGGTAGTGATACGGTCAAAGGTAACA +GACTCAATCTGATCTTCAACGTAATCGCCCAGGTTCAGGCTTTCATCTTCATAACGTGCGGCTTCAAGGG +TGATTTCCTTGGTCGGCTGGGTGACTTCATCAACAACTAACCAGCGACGGAAAGTGTCAAAATCACCGCT +TTTGCGATCGATCTGTACGCGGACGTCGATCTCTTGTTCATATTTTTTCTTTGTTGCTGTCGCCAGCGCG +CTTTCCAATGCTTCGAAAATCTTCTCGCGAGGTAGCGCCTTTTCATTGGATACGGCTTCAACTACAGCCA +AAATTTCTTTGTTCATCGCGGGCTTTTCACCTCATCCAGACTATTAAAAGTGGGGAACCAGGTTCGCCTT +CTGGATATTACTCAGCGCGAACACTTCATCTTTACCTTCGACGGTAACTGTGATCATTTCACCGTCTACC +GCTTTGATAACGCCCTGCCATTTACGACGGTTTTGTACCGCCATACGGAGAACCAGAGTCACCTCTTCTC +CGACAAAACGGGCGTAGTGTTCAGCCGTGAACAGTGGGCGATCGAGACCCGGTGAGGAGACTTCCAGGTT +ATAAGCAACGGTGATGGGATCTTCAACATCCAGCACAGCACTTACCTGGTGGCTCACATCAGCACAATCA +TCAACATTGATGCCATCTTCACTATCAATATAGATGCGCAGTGTGGATGTGCGACCGCGAATAAATTCGA +TGCCAACCAGTTCAAAACCCAGGGCCTCAACTGGCGCAGTAATCATCTCTGTTAATTTTTGCTCTAATGT +GGACAAGCCCACCCCCAAGACATAAAAAAAGGGCCTAAAGCCCAGTTATTCTGTAGTCAGATAACAAAAA +ACCCCGATAAATCGGGGCTTTATATAACTGAACCCTATAACCGCAACTGCGGTCTGGAGCACTTTCCAGA +AGGATTTTTTCAAATCCCACTACGAAGGCCGAAGTCTTCACAGTATATTTGAAAAAGGACTCTAAGGGAA +AGTGGTTGCGGGGGCCGGATTTGAACCGACGATCTTCGGGTTATGAGCCCGACGAGCTACCAGGCTGCTC +CACCCCGCGCCTGAAACGTGGCAAATTCTACTCGTTTTGGGTAAAAAATGCAAATACTGCTGGGATTTGG +TGTACCGAGACGGGACGTAAAATCTGCAGGCATTATAGTGATCCACGCCACATTTTGTCAACGTTTATTG +CTAATCATGTGAATGAATATCCAGTTCACTTTCATTTGTTGAATACTTTTGCCTTCTCCTGCTCTCCCTT +AAGCGCATTATTTTACAAAAAACACACTAAACTCTTCCTGTCTCCGATAAAAGATGATTAAATGAAAACT +CATTTATTTTGCATAAAAATTCAGTGAGAGCGGAAATCCAGGCTCATCATCAGTTAATTAAGCAGGGTGT +TATTTTATGACGACGATTCTCAAGCATCTCCCGGTAGGTCAACGTATTGGTATCGCTTTTTCTGGCGGTC +TGGACACCAGTGCCGCACTGCTGTGGATGCGACAAAAGGGAGCGGTTCCTTATGCATATACTGCAAACCT +GGGCCAGCCAGACGAAGAGGATTATGATGCGATCCCTCGTCGTGCCATGGAATACGGCGCGGAGAACGCA +CGTCTGATCGACTGCCGCAAACAACTGGTGGCCGAAGGTATTGCCGCTATTCAGTGTGGCGCATTTCATA +ACACCACCGGCGGCCTGACCTATTTCAACACGACGCCGCTGGGCCGCGCCGTGACTGGTACCATGCTGGT +TGCTGCGATGAAAGAAGATGGCGTGAATATCTGGGGTGACGGTAGCACCTACAAAGGAAACGATATCGAA +CGTTTCTATCGTTATGGTCTGCTGACCAATGCTGAACTGCAGATTTACAAACCGTGGCTTGATACTGACT +TTATTGATGAACTGGGCGGCCGTCATGAGATGTCTGAATTTATGATTGCCTGCGGTTTCGACTACAAAAT +GTCTGTCGAAAAAGCCTACTCCACAGACTCCAACATGCTTGGTGCAACGCATGAAGCGAAGGATCTGGAA +TACCTCAACTCCAGCGTCAAAATCGTCAACCCGATTATGGGCGTGAAATTCTGGGATGAGAGCGTGAAGA +TCCCGGCAGAAGAAGTCACAGTACGCTTTGAACAAGGTCATCCGGTGGCGCTGAACGGTAAAACCTTTAG +CGACGACGTAGAAATGATGCTGGAAGCTAACCGCATCGGCGGTCGTCACGGCCTGGGCATGAGCGACCAG +ATTGAAAACCGTATCATCGAAGCGAAAAGCCGTGGTATTTACGAAGCTCCGGGGATGGCACTGCTGCACA +TTGCGTATGAACGCCTGTTGACCGGTATTCACAACGAAGACACCATTGAGCAGTATCACGCGCATGGTCG +TCAGTTGGGCCGTCTGCTGTACCAGGGGCGTTGGTTTGACTCCCAGGCGCTGATGCTGCGTGACTCTCTG +CAACGCTGGGTTGCCAGCCAGATCACTGGTGAAGTTACCCTGGAGCTGCGCCGTGGGAACGATTATTCAA +TCCTGAATACCGTCTCAGAGAACCTGACCTACAAGCCAGAGCGTCTGACGATGGAAAAAGGCGACTCGGT +GTTCTCGCCAGATGATCGTATTGGTCAATTGACCATGCGTAACCTGGATATCACTGATACCCGCGAGAAA +CTTTTCGGTTATGCCAAAACTGGCCTGCTTTCCTCCTCTGCCGCTTCAGGCGTGCCGCAGGTGGAGAATC +TGGAAAACAAAGGCCAGTAATTCGACATCAACCCTGCCCTTCAGGGGTGGGGTTACCTTGCTTATCCTCT +GTAAACTCCTTTCTGAGCATCACATAATCGAAAACATCATGGTTTGCATCCACAACCCGTGAGTCTCCTT +TATAGTGTGCAATCACTTCCTCAAGCGTTTGCGGCTGTTCCGGCTTTGTTACCCCCATCCACGCATTAAT +AAGGTAATTATTGTAAGCTGTCGAAAAGATGTTGTTTTCCGTTGTGCGATCCACGCCATCCCCAAGAACG +GGGCTATACCAGATAAACATCGGGACATGATATGCCTGCTGGCTAGCCTCCCTGCCTCCATGAAAATAGA +CGTTCTTCTTCGTAGGGTCACGTTCCAGGCCGTGGTCGGCAAAATACATGACCGAGGCGCGGCGATCTTT +TAATAATTCAAAAACCTGACCTAGCAAACTATCTGTGTAATGAATGGAGTTGTCATAGCAGGCATCCTGA +TCGTCCTGCGGTTGAAACACGGCGCTGGATTGCGGATAGGCGCTACAAGCCGGTTCATGGCTTCCATTTA +AATGAAGAACAATCAGTTTCTTTTGCTGCGTATTTTGCTGTAATGCTTGCGATAAATGCGGCAACAACAA +TTCATCAAATCCTCTGACATAAACTGTTTCCATGGCGCGCATGGCGATACTGGTAACTGCTGTACCATTC +TGCCGAAAAGCGGATTGCGAGCTTAGCCAGAAAGTCTGAAATCCTGCTTGATTAGCCATATTAATAATGT +TGTCGGGGTAATTATGAATGTCATGACTCAAAACAGAATCAGCAGTTAAAGAAAGGGGAACCGACAGCGC +AGTGTAAGGTGCGCCGCTTATTGCTTGATTAAACAGTTTGATCTGTTTTCTTTGTGCTTCAACTTGCGGT +GTCGTAGAGCGTGTATATCCATACAAAGACATATTGTCGACACGTACAGACTCCCCCACAATCAACACGT +AGGTATCAATACCTGTATCCCTGACTGATAATTGAAAATACGGCACCGTGTTTGCAATTGAGAGTAATCT +TTGATGCTCTTTCGCTGCTAAAGCAAAATAGTTGAGATTGAAAAACGGCGTATAGGTAGCAAATCGCGAC +GCTAGTATATATGGACTGAACGCTTTTTTATTTTTTGCATCTTTATAAGCAAATTGACAAGCGGAAAATA +AACTGCCCGAAATGACAATCAGCAATAATATTCCTGTCACTTTTTTTGTCGGCAAGGAAACATCATATTT +TATTATTACTGCCAAAAAAAGAAGGGATAAAAAAGCAAAGGCACATAGATAAGGGATATACATCCCCAGC +ATTTTGACAACTTCATCCGGATCACTCTGGAGCACACTAATCGCAAATCCATCATTGAAAGTTGTACCAA +AGGTACACCATGAATAGAGGCTAATACTCATGTCTGCCGCAGTCAGTAACACAAATGGTGCGGCAACAAG +CAGGCGAAGCGGAAGGGATGATATACGTTTTACAACCAGGATGGTCAGAACGAAGAACAGCAAGCGCTGA +ACCATATGCGCTCCGGAAGAAGCGACTAAGTTCGTAATACCAAAAACAATAACACAAAGATACAACAACC +AATGAGATTTAAAAGTTCTAGCAAATTTGTTGAATACTGTCATCCAGAAATCCAAGTTCACAACCAATAT +AAACAATTATCAACAATGTTTAATTTTATATCAGACATGTTTTTCAACTCTGATCCATATCAGAACGAAA +CACTGTTAGTTTTTTCTTTTTAAATGATGCGGCCATTGCGTTCTCAGTAATTAAATAACATTATCAATGC +GTCTCTAAACATTACGCAGAACGTAGCCATCAGTCGTTATACTGACAGGAGCAGGATGGTTTATCGAGAA +GTAAACATATCCGTATTCGTACCGGAACTGGAGTTGACACAATAAAGTGCCAATTATGTCAGTAGAAGGG +AAAAATTTATAACTAAGGCGTACCGGCACCATCGTTTCAAGGTACCAGCTACGAGTAAAGCAACTGGACG +AGATACAGATACCTGACAACCATTCCTCAGACCAGGACCAAAACGAAAAAAGACGCTTTTCAGCGTCTCT +TTTCTGGAATTTGGTACCGAGGACGGGACTTGAACCCGTAAGCCCTATTGGGCACTACCACCTCAAGGTA +GCGTGTCTACCAATTCCACCACCTCGGCACGGATACTACTTTTTAGTTCGGGATATCGCTGGTCGGCTTA +GCCGGAGCAGCTGGCTGAGTTTGTTCGGTTTTCGCCGGTGCACTCAGATTTTCCCATTCGCTACCTTTAT +TGGTTTTGTTGCTATTGATGTTACCCAGCACCAGACTGATGATGAAGAATAACGTTGCCAGCAGCGCCGT +CATGCGGGTCATGAAGTTACCAGAACCACTTGAACCAAACAGCGTAGCGGAAGCGCCTGCTCCGAAGGAG +GCTCCCATATCAGCGCCTTTACCTTGCTGCAGCATGATCAGACCAACAAGGCCAATTGCCACAATAAGGA +AAACTACTAAAAGAGCTTCATACATAATCAACCTGTTCCTTGCGGAGTTGCCGCGTACCAATGCTTCAAC +CAATAAAGCGGGAGTTTTTAATCTTTCCCACTGAAGCGGGTGTGAATACTAACCAAAGCGAATGACCTTC +GCAAGGGCAATTTTATCGCATTGTATCAACTGCGGAAAAAAACAGCAAAACCGATGTGTTCGCTGAGAAA +AAAGGCGACAATCGCCGCCTTTTTAGCCAGTTATCTAACGCTTTAAACGGCTTTTACTGCATCGGCGATG +CGGTGTGCAAATTCAGTCACCTGCGCTTCGTCTTCGCCTTCCACCATCACGCGAATTAACGGTTCGGTGC +CGGATTTACGCAGCAACACGCGTCCACGGTTGCCCAGCGCAGCTTCAACCTCTGCGGTCACGGCTTTAAC +TGACTCATGCTCAAGTGGATCGCCGCTACCTGCGGTGTAACGTACGTTAACCAGAATCTGCGGGAACATT +TTCATGCCGCTGCAAAGGTCGTGCAGGCTCATATGGTTACGTGCCATCGCCGCCAGCACCTGCAAGCCAG +CAACGATGCCGTCACCGGTAGTAGTTTTATCCAGCAGGATCACATGACCGGAATTCTCTGCACCGATACG +CCAGCCTTTCTCCTGCATTTTTTCCAGTACGTAGCGGTCACCCACTTTCGCGCGCGCAAATGGAATTCCT +AACTGTTTCAGCGCCAGTTCAAGCCCCATGTTGCTCATCAATGTACCCACAGCGCCACCACGCAGCTGGC +CCTGACGAAGACCTTCACGCGCGATGATATACATGATCTGATCGCCATCGACTTTATTGCCTTCATGGTC +AACCATAATCACGCGATCGCCATCGCCGTCGAAGGCAATACCGAGATCCGCTTTTTCAGCCAGCACACGA +GCCTGGAGCGCGCGAACGTCGGTAGCCCCCACTTCGGCATTGATGTTTACACCGTTTGGCTCACAACCGA +TAGCGATAACGTTCGCCCCCAGTTCGCGCAGCACGTTCGGCGCGATGTGATAAGTCGCACCGTTTGCACA +ATCCACCACAATCTTCAGTTCACTGAGGCTAAGTTCGTTCGGGAACGTGGCTTTGCAAAACTCGATATAG +CGACCCGCGGCATCAACGATACGGCTGGCTTTACCCAGTTCTGCCGAATCAACGCAGCTGATCTCCTTTT +CCATTTCCGCTTCGATGGCCTCTTCTACCGCATCCGGCAGTTTGGTGCCGTCGATAGAGAAGAATTTAAT +GCCATTATCGTAGAACGGGTTATGCGATGCAGATATCACAATTCCGGCCTCTGCGCGGAAGGTACGCGTC +AGATAAGCCACGGCCGGTGTTGGCATCGGGCCAGTGAAGAGTGCGGAAAGGCCCGCTGCCGCCAGACCCG +CTTCCAGTGCTGACTCCAGCATATAGCCAGAAATACGCGTGTCTTTACCAATAATAATCTTACGGGAGCC +GTGGCGCGCCAGCACTTTACCCGCGGCCCAACCCAGCTTAAGCACAAAATCAGGTGTGATCGGCGCATCC +CCTACACGACCACGAATCCCATCGGTACCGAAATATTTACGATTACTCATAGCGTTTGTTTTCCTTTGCA +GACAGAGTGGCTTCCACCACCCGCATCGCTTCTACGGTTTCTTTGACGTCATGAACACGAATGATGTGCG +CGCCTTGCATTGCGGCAATGACCGCACAGGCCAGACTACCGCTCAGGCGCTCGGACGGCCCCACGTTCAG +CAGCTGCCCAATCATCGATTTTCGTGACATACCCACCAACAGCGGCAGGTTGAAATGGTGAAATTCAGCC +AGGCGCGCCAGTAATGAATAGTTATGGGAGAGATTTTTACCGAAACCGAATCCGGGGTCGAGCAACAATT +TCTCTTTTGCGATACCCGCCTGCTCGCAACGTGCTATTTGCTCAATAAAGTAGCGATTCACTTCTGCAAA +GACATCGTCATACTTCGGAGCTTCCTGCATGGTTTTTGGATTTCCCTGCATATGCATCAGACAAACCGGT +AAACCGGTTTCTGCAGCCGCCTCCAGAGCGCCAGGTTCGGAAAGGGAGCGGATATCATTAATAATGTGAG +CGCCAACTTTCGCTGACTCACGGATGACTTCTGGTTTGGATGTATCGACTGAGATCCAGACTTCGAAGCG +TTGAGCAATTGCCTCAACCACAGGAATAACACGTTGCAACTCTTCTTCAACGCTAACTTCCGCCGCCCCT +GGGCGCGTGGACTCGCCACCAACGTCAATGATCGTCGCGCCAGCGTTGATCATCAGATTCGCATGTTTCA +CCGCATCTATCAGCGAGTTATGCGTGCCACCATCCGAAAAGGAATCAGGCGTGACGTTGAGGATCCCCAT +TACGTGAGGATGGCTAAGGTCCAGTGAAGTACCCTGGGCAAAGAGTTTCATGATGTTATCCCTGGTATGA +ATTGATAAGAAAAAACCCCGGAGCACGCCCCGGGGTTTTCGGTACAAATACAGTCATCTGATGCGGGAAC +TTACTTGTCGCCTAACTGCTCTGACATGGTGTTACCCGGGTTCGGCGTACGCGGTTCATCAACCGGACGA +GGAGCCTTTGGACTACCATTGTCGCCAGAATTGTTAGAAGCGCCTGGTTCTTCCCAGCCCGCTGGCGGAC +GTACATCGCGACGTGCCATCAGGTCATCAATCTGCGGTGCGTCGATAGTCTCATATTTCATGAGAGCATC +TTTCATCGCATGCAGAATATCCATATTGTCGGTCAGAAGCTGACGCGCACGATTATAGTTACGCTCAATC +AGTGCTTTCACTTCCTGGTCGATGATACGTGCAGTTTCATCGGACATATGTTTCGCTTTCGCTACGCTAC +GGCCGAGGAACACTTCACCTTCTTCTTCCGCGTACAGCAGTGGACCCAATTTCTCAGAGAAGCCCCACTG +AGTCACCATGTTACGTGCCAGGTTGGTCGCAACTTTAATATCGTTGGACGCACCGGTAGATACATGTTCC +GGCCCGTAGATGATCTCTTCTGCCAGACGACCACCGTACAGCGTAGAAATCTGGCTTTCCAGTTTCTGAC +GGCTGGCGCTGATTGCGTCGCCCTCAGGCAAGAAGAAAGTCACACCCAGCGCACGACCGCGTGGGATAAT +CGTCACTTTGTGCACCGGATCGTGTTCCGGCACCAGGCGACCGATAATCGCATGACCCGCTTCGTGGTAA +GCCGTCGATTCTTTCTGCGCTTCCGTCATCACCATGGAGCGACGTTCCGCACCCATCATGATTTTGTCTT +TCGCTTTCTCGAACTCAACCATCGACACAACGCGTTTGTTGCCACGAGCAGCGAACAGTGCCGCTTCGTT +CACCAGGTTCGCCAGGTCAGCACCGGAGAAACCAGGAGTACCACGGGCAATGATTGCCGCGTCGATATCG +GGTGCCAATGGTACGCGACGCATGTGAACTTTCAGGATCTGCTCACGACCGCGAACATCTGGCAAGCCGA +CCACAACCTGACGGTCGAAACGGCCAGGACGCAGCAGGGCCGGGTCGAGAACGTCCGGACGGTTAGTCGC +GGCGATAACGATGATACCTTCGTTACCTTCGAAGCCATCCATCTCAACCAGCATCTGGTTCAGAGTCTGT +TCACGTTCATCGTGACCACCGCCCAGACCAGCGCCACGCTGGCGGCCTACGGCGTCGATTTCATCGATAA +AGATGATGCACGGTGCCGCTTTCTTCGCCTGTTCGAACATGTCACGAACACGGGATGCACCCACACCGAC +GAACATTTCTACGAAGTCAGAACCGGAGATAGTAAAGAACGGAACTTTCGCTTCGCCTGCAATCGCTTTC +GCCAGCAGCGTTTTACCGGTACCCGGAGGACCGACCATCAAGACGCCTTTCGGGATCTTACCGCCGAGTT +TCTGGAAGCGGCTCGGCTCGCGCAGATACTCAACCAGTTCAGCAACTTCTTCTTTTGCTTCGTCGCAGCC +CGCAACGTCAGCAAAGGTCGTTTTGATCTGATCTTCCGTCAGCATGCGCGCTTTGCTCTTACCAAACGAC +ATGGCACCTTTGCCACCGCCGCCCTGCATTTGACGCATGAAGAAGATCCAGACACCAATCAGCAACAGCA +TCGGGAACCAGGAGATGAAGATAGAAGCCAGCAGGCTTGGTTCTTCAGGCGGTTCACCGACAACCTTGAC +GTTCTTGGTCAACAGGTTATCCAGTAATTTCGGATCCTGAACCGGAATGTAAGTGGTATAACGGTTACTA +TCTTTCTTGGTAACGTTGATTTCACGTCCGTTGATACGCGCTTCACGAACCTGGTCGTTATTGACCTCTT +GTAGGAAGGTAGAGTAATCCACCTTACGGCCATTAGACTCGCTGGGCCCAAAGCTCTGGAATACTGACAT +CAGCACAACGGCAATGACCAGCCAGAGTATTAGGTTTTTCGCCATGTCACTCAAGGGATTAACCTCTTAT +TACAACTGTGTTAAAAACAGCGTCAGGATACTCTATATCCAGCATCTTTCAAACTTTCGTCTGAAATCTC +CCGGTTAGGGTTTACGCCCGGTCGCTACAATATACACTTCCCGCGAACGTGCACGAGAAGAGTCCGGCTT +ACGAACTTTGACCTTCGTAAACAGGGAGCGAATTTCCCTTAGATACTCATCGAAACCTTCGCCCTGGAAC +ACCTTCACTACAAAACTGCCACCTGGCGCTAATACATCACGACACATTTCTAGCGCCAGTTCCACCAGAT +ACATGGCACGGGGGATATCCACCGCCGGTGTTCCGCTCATGTTTGGTGCCATATCGGACATGACAACCTG +GACTTTGCTGTCGCCAACGCGCTCCAGCAGTGCTTTCATCACCAGTTCATCACGAAAATCGCCCTGAAGA +AAGTCCACACCAACGATAGGATCCATAGGTAAAAGATCGCAAGCGATGATGCGGCCTTTGCCGCCAATTT +GGGTGACCACATATTGTGACCAACCACCCGGAGCAGCACCAAGGTCGACAACCGTCATTCCCGGTTTAAA +GAGTTTGTCACTTTGCTGTATTTCATCAAGTTTAAACCAGGCACGGGAACGTAACCCCTTTTTCTGTGCC +TGTTGAACATATTTATCGCTAAAGTGTTCCTGAAGCCAGCGGCTGGAGCTGGCAGAACGCTTCTTACCTG +TCATTTAACTTTCCCATGGGGATAACTCATCGTAACCAATTGCGTAAATTTTTACGCGCCTATTTGGTGA +TATATGGGAGATGGCGGTAGAATGACCCGTTTTCAATCCCAACGTAAGCAAAAAATACGATGAATCTGAG +TACTAAACAAAAACAGCACCTGAAAGGTCTGGCACATCCGCTCAAGCCAGTTGTTCTGCTTGGCAGTAAT +GGTTTGACCGAAGGGGTGCTGGCCGAGATTGAACAAGCGTTAGAGCACCATGAACTCATCAAGGTGAAAA +TCGCCACCGAAGATCGCGAAACTAAAACCTTGATCGTGGAAGCTATCGTGCGCGAAACCGGCGCCTGTAA +TGTACAGGTCATCGGTAAAACGCTGGTGCTTTATCGCCCAACTAAAGAACGTAAAATCTCGCTGCCACGC +TAAGATTATCCTAAAGTTACACACATTTGCTGTGTAAAACGAGGGGTTTTCCGCAGGCAGGAGAGCAAAA +TGCCACGCTCTGTTCGTTGATAAAAGGCCGCATAGCGGCCTTTTTCCTTTCTTTACAATACATCAACATC +TTGAGTATTGGGTAATTCTTACAGGTATTCCACCTTAATTACTTCAAATTCTACTTCGCCGCCCGGCGTT +TTGATGACCACAACATCATCTTCTTCTTTGCCGATCAGGCCACGAGCAATAGGCGAGTTTACAGAAATCA +GGTTTTGTTTAAAGTCAGCTTCGTCATCGCCAACGATGCGATAAGTCTGTTCTTCGTCAGAATCCAGATT +CAGCACCGTTACGGTAGCACCAAAAATAACGCGCCCATTGTTGGGCATTTTGGTGACATCAATCACCTGC +GCGTTCGACAGCTTGGCTTCGATGTCTTTAATACGGCCTTCGCAGAAACCCTGCTGTTCACGAGCTGCGT +GGTATTCGGCGTTTTCTTTCAGGTCGCCATGCTCACGCGCTTCCGCGATAGCAGCAATGATTTCAGGACG +GCGCACAGATTTCAGAAAATCCAGCTCTTCGCGTAATTTTTCAGCGCCGCGTAAGGTCATCGGAATAGCT +TGCATTTGTTATACCTCTTGAATATTCCTGATAGGGCAAGTCTTCACCCACCCCGGCTGTTCGGCCTGCC +CGGCATAACTCCTTACCGGGACCAGAAGCAAAAAAATACCGACCCGGGTACAAGTCCCAGGTCAGCTACA +ATTCACATTTTGATAGTCATTTTACCCTGAAGTTCCCGAAGGGTCATCGTTTACTTTATAGGGCGTTGCG +CCGTAGTATGACGGCTCGATTCCAGGTTGTTAGCGCGAGATTATGCGATTTTCCAGATTTATCATCGGAT +TGACCAGCTGTATAGCGTTCAGTGTTCAGGCCGCAAATGTTGATGAGTACATTACTCAACTCCCCGCTGG +TGCCAACCTTGCCCTGATGGTGCAAAAAGTCGGCGCGTCGGCCCCCGCTATTGATTACCACAGTCAGCAG +ATGGCGCTGCCTGCCAGTACCCAGAAAGTGATTACTGCGCTGGCGGCGTTGATTCAACTCGGCCCCGATT +TTCGTTTTACCACGACGCTTGAAACCAAAGGCAATGTGGAAAACGGCGTACTTAAGGGTGACTTAGTGGC +GCGATTTGGTGCCGATCCGACGTTAAAACGTCAGGATATTCGCAATATGGTCGCGACTTTGAAAAAATCT +GGCGTCAACCAAATCGATGGCAATGTGTTGATAGATACCTCCATTTTCGCCAGCCACGATAAAGCCCCCG +GCTGGCCATGGAATGACATGACACAATGCTTTAGCGCTCCGCCTGCCGCCGCCATAGTTGACCGCAACTG +TTTCTCCGTCTCGCTCTACAGTGCCCCAAAGCCTGGTGATATGGCTTTTATACGCGTGGCATCTTATTAC +CCCGTTACGATGTTCAGCCAGGTACGCACCCTCCCCCGTGGTTCTGCCGAAGCGCAATACTGCGAACTGG +ATGTGGTGCCAGGCGACCTGAACCGCTTTACGCTGACGGGATGCCTGCCACAACGTTCTGAGCCGCTCCC +GTTGGCTTTTGCCGTGCAGGATGGAGCCAGCTATGCCGGTGCAATTCTGAAAGATGAGTTAAAACAGGCG +GGTATCACCTGGAGCGGAACACTGCTGCGCCAGACTCAGGTTAACGAACCTGGAACGGTAGTTGCCAGTA +AACAGTCGGCCCCGCTGCACGATCTGCTTAAGATTATGCTGAAAAAGTCGGACAACATGATCGCCGATAC +GGTTTTCCGCATGATAGGCCATGCGCGCTTCAATGTGCCTGGAACATGGCGGGCCGGGTCGGACGCCGTG +CGTCAGATCCTGCGCCAGCAAGCCGGTGTCGATATTGGAAACACCATTATTGCCGATGGTTCAGGGCTTT +CGCGGCATAACCTGATTGCCCCCGCCACCATGATGCAGGTGCTGCAATACATTGCCCAACACGACAATGA +ACTTAACTTTATCTCCATGCTGCCGCTGGCGGGCTATGACGGCTCTTTGCAGTACCGTGCAGGTCTGCAT +CAGGCGGGCGTGGATGGAAAAGTCTCAGCGAAAACCGGTTCGTTGCAGGGGGTATATAACCTGGCGGGAT +TCATTACCACAGCGAGCGGGCAACGAATGGCGTTTGTGCAATATCTTTCTGGCTATGCAGTAGAACCTGC +GGATCAGCGTAATCGCCGTATTCCGTTAGTGCGTTTTGAAAGCCGTTTGTATAAAGATATTTATCAGAAC +AATTAGTCAAAAAGAAACCCCGGCACATGGCCGGGGCTTCAGATTATTGACAAAGTGCGCTTTGTTTATG +CCGGATGCGGCGTAAACGCCTTATCCGGCCTACAAAATCGTGCAAATTCAACATATTGCAATTCTCTTGT +AGGCCTGATAAGCGTAGCGCATCAGGCTGATTTGGCGTTTATCATCAGTGATTAACGCTTGTAAATGAAC +TCAACGCCTTCTTCGTCGTCTTCGTCCCAGTCGTCATCCCAGTCTTCATCATCCTCTTCAGCAATCTCTT +CAAGCTGCTGGCGATGATAATCATCCCACATGAATTCGACTTTCTCTGGCTGTTTCGCTTCTTCAGCCTG +CACGACCGGGTTTTCAATGATAAAGGTCATCACATCCCAGCAGAGATCTTTCACGCCCAGTCCACTCGCC +GCAGAGATCAGATAATATTTATCTTCCCAGCCCAGCGCCTCAGCGATCGCTTTCGCTTTCTCTTCGGCTT +CTACCTTATCCAGCAGATCGATCTTGTTGAACACTAACCAACGCGGTTTCGTCGCCAGATCCTGGCTGTA +TTTTTCCAGCTCGCTGATAATAATACGCGCGTTTTCAACCGGATCGGTGCCGTCAATCGGATCGATATCG +ATGAGGTGCAACAGGACGCGGCAACGTTCCAGGTGCTTCAGGAAGCGAATGCCCAGACCTGCGCCTTCCG +CAGCGCCTTCAATCAGTCCTGGAATATCGGCAACAACGAAGCTCTTTTCGTTGTCCATTCGTACCACACC +CAGACTTGGCACCAGAGTGGTAAACGGATAATCCGCCACTTTCGGTTTAGCCGCCGATACCGCACGAATA +AAGGTCGATTTACCCGCGTTTGGCATCCCCAACATACCGACGTCAGCCAGCAGCATCAGCTCCAGCAGCA +GCTCGCGCTTATCGCCCGGCGTGCCGTTGGTTTTCTGCCGCGGTGTACGGTTAACGGACGATTTGAAACG +GGTATTGCCCAGACCGTGCCAGCCGCCCTTAGCAACCAGCAGACGCTGACCGTGTTTGGTCATATCGCCC +ATGGTTTCACCAGTACCCTGGTCGATTACACGCGTACCTACCGGCACTTTAATCGTCACGTCTTTACCGC +GCTTACCGGTACAGTCGCGGCTTGCGCCATTCTGACCGCGCTCTGCACGGAAAGATTTTTCAAAACGATA +ATCGATAAGCGTGTTCAGGTTCTCGTCGGCTTCCATCCATACGTCACCACCATCACCGCCGTCGCCGCCA +TCCGGGCCGCCTTTCGGAATATACTTTTCGCGGCGGAAGCTCACGCAACCATTACCGCCATCACCTGCAA +CGACCAGAATCGATGCTTCATCAACAAACTTCATTTTATTCTCCGTAAATCATTCGCCTGCGCGGGGTTG +CGATACCACCGTTGTATGCTTACGTAATCCGCCCCAAATACGATGACCAATGGCGGAATACATCGCGCCC +GCAACCACGACAAACGCACCGAGATAACCTAAAAGGTTTAACATCGGTCTGGCGAAGAAATCGGGCCAGG +CCAGTGATAAAAGATCTGAAAAAAACAGCGTAAACAGTGGGGTGAGCGTGATGATCGCGCTCACCTGCGC +TGCCTGCCAGCGAGCCATCGCTTCCGCCAGGGCGCCATATCCTACCAAGGTATTCAGTCCGCAAAAAATT +AAACATGCGAGCTGCCAGTGGCTAAGCTGCGCTATCACTCCAGGCTTTGCCAGAGGGAAGAGCGCAATTG +TACATAAAGTGTACAGTAAAAACAGGATCTGCGGTGAGGCCAGCCGACGCAATAAAACCTTTTGCGCCAC +GCCATAACTCACCCAAACCGTCGCCGCACCGACCCCAAAGATAACTCCCCAGGTGTAATCGGTGAGCTTT +GTAAATATCTCGACCAGACTGGTGTTAAAAAACATCACCAGGCCGCTCAGGAGCATCAATGCCCCTACAA +CCTGAGTGCTGCGCATTTTCTCTTTGAGGATAAATACGCTGGCAACCATCATGCCAACTGGCGAGAGTTG +CCCAATCACCTGCGAAGCGGTCGGACTCAGGTATTGCAAGGATGAGCTGAACAGGATGAAGTTCCCAAAC +AGCCCGGCGGTCGCCACTGCCAACAAAATCAACCAGCGTGGCTTACGAAACACGCGTAATGGCGGCAACC +TCTTCTTCACCGCAAGAATGGCACCCAGGCCAATACTCGCCATCAAGAAACGGTAAAACACGATTGTCGG +AGGTTCCATCACCTCCAGCACCTGCTTCATTGCGATTGGCAACGCCCCCCAGCAAATTGCTGTGGTGAGC +GCCAAAAGAATGCCAATGCCTGCCTGCTGCTTCATACCGTATTCCCTGCAAAGCGCATTTGCGGATTAAC +GTCGCACCATGCGCATTTTTACCGGTTATCGAATGTAAAAAGCCCCGCAACGTGTTGCGGGGCTTTCATC +CGTTACCGGGACGCGAAAAACTTATTCAGCTTCGATGCTGATAAATTTACGGTTTTTCGGGCCTTTAACT +TCGAATTTCACTTTACCGTCTGCTTTAGCAAACAGAGTGTGGTCACGACCGCAACCTACGTTAGCGCCAG +CGTGGAATTTGGTACCACGTTGACGAACGATGATGCTACCCGCCAGAACGGATTCGCCACCGAAACGCTT +AACGCCCAGGCGTTTAGCTTCTGAATCGCGACCGTTACGTGTGGAGCCGCCAGCCTTTTTATGTGCCATT +TGAAATCTCTCCTCAGGTCTTAGGCGCTGATGCCAGTAATTTTCACATCAGTGAACCACTGACGATGGCC +CTGCTGCTTACGATAGTGTTTACGACGACGAAACTTAACGATTTTAACTTTCTCGCCACGACCGTGAGCA +ACAACTTCAGCTTTGATTACGCCGCCATCAACGAAAGGAACGCCGATTTTGACTTCTTCACCGTTTGCGA +TCATCAGCACTTCAGCGAACTCAACAGTTTCGCCAGTTGCGATGTCCAGCTTTTCCAGGCGAACGGTCTG +ACCTTCGCTTACTCGGTGTTGTTTACCACCACTTTGGAAAACCGCGTACATATAAAACTCCGCTTCCGCG +CACACCTTTTCAATGATTCAGAGTGCGCTATAAATATTCACAATAGGGCGCGAATATTACGCAAAACGCA +CGCCTTTGACAAGTGCTACAGTCAATACACGAAGAAAAAAAACACAACTTGTACGGTAACGTTTATCTGT +GCCATTTTTTCAGTACAATCACCCTATATTCCTAACCATAAACCCTAAGTTGCCTTTGTTCACAGTAAGG +TAATCGGGGCGAAAAGCCCGGCTTTTGCGATGAATTTAGAAAAAATCAATGAGTTAACCGCGCAAGATAT +GGCGGGTGTTAATGCGGCAATCCTTGAGCAGCTTAATTCCGACGTCCAACTGATCAATCAGTTAGGCTAT +TACATCGTCAGCGGCGGCGGTAAACGTATTCGTCCGATGATTGCTGTACTGGCTGCACGAGCTGTTGGCT +ATGAGGGAAATGCGCATGTCACCATTGCTGCCCTGATCGAGTTTATCCACACGGCGACTCTGCTACACGA +CGACGTTGTGGATGAATCAGATATGCGCAGGGGTAAAGCTACCGCCAACGCCGCATTTGGCAATGCCGCC +AGCGTGCTGGTAGGCGATTTTATTTATACCCGCGCTTTCCAGATGATGACCAGCCTCGGTTCGCTCAAAG +TGCTGGAAGTCATGTCAGAAGCCGTAAACGTCATCGCAGAAGGTGAAGTTCTGCAACTGATGAACGTTAA +CGATCCGGACATCACTGAAGAAAACTACATGCGCGTTATCTATAGCAAAACCGCGCGTCTGTTTGAGGCT +GCCGCGCAGTGTTCCGGGATTCTGGCTGGCTGTACGCCGGAGGAGGAGAAAGGCCTGCAGGATTATGGGC +GCTATCTCGGCACTGCTTTCCAGTTGATCGACGATTTACTCGATTACAATGCCGATGGCGAACAGTTAGG +TAAAAATGTCGGCGACGATCTGAACGAAGGTAAACCGACGCTGCCGCTGCTGCATGCGATGCATCATGGC +ACACCAGAACAGGCACAGATGATCCGTACCGCCATCGAACAGGGTAACGGTCGCCATCTTCTGGAACCGG +TTCTGGAAGCAATGAACGCTTGTGGATCTCTTGAATGGACGCGTCAGCGTGCCGAGGAAGAAGCAGACAA +AGCCATCGCAGCGTTACAGGTGCTCCCGGACACCCCTTGGCGAGAAGCACTCATCGGCCTCGCGCACATC +GCTGTTCAACGCGATCGTTAATCCCCTCCCCTCATCCCGCGCAGCGCGCGGGATGGTTCCAGTAAGTTCC +ATAAAAACACTTATTCAGCTCTATAACACCTGAAAAATAGGGATGTGCATCTTTATATATTCTGAATATT +CACACTCTTTACAGGAACTTTTTAGAGCAATAGGCCATCAGGAGTATAGTGATGCTCGACAGAAGAAGTG +TTCTGAATGAAAGCGACTAACTTAAGGAGTGAGGAAAAATGGAAAGTAATTTCATTGACTGGCATCCCGC +TGACATCATTGCGGGTTTGCGCAAGAAGGGAACGTCAATGGCGGCGGAATCTCGCAGAAATGGTTTGAGT +TCCTCAACGCTGGCGAATGCATTATCGCGCCCATGGCCGAAAGGAGAGATGATTATTGCGAAAGCCCTGG +GAACTGACCCCTGGGTTATCTGGCCATCACGCTACCATGATCCGCAGACCCATGAGTTTATCGACAGAAC +GCAGTTGATGCGTAGCTACACTAAACCGAAAAAATGAGTGGTCTGGCGGTAGCCCCGCGAACGGGGCTGC +CAGCTCTCAGACGATTATTCGCCTTTCACACGCTCAATATTTGCACCTAAAGCGCGCAGTTTGTCTTCAA +TGCGTTCGTAGCCACGATCGATGTGATAAATACGATCAACCACCGTCGTCCCTTCCGCAATACAGCCAGC +CAGCACCAGGCTTGCTGATGCACGCAGATCGGTTGCCATAACCTGTGCGCCAGAAAGTTTTTCAACACCG +TGACAAATAACGGTATTGCTTTCGATTTCGGCGTGCGCGCCCATACGGCTCAGCTCTGGCACATGCATAA +AGCGGTTTTCAAAGACCGTTTCGGTGATAAACCCGGTCCCTTCTGCCACCAGGTTCAACAGCGTGAACTG +GGCCTGCATATCGGTCGGGAATGCCGGATGCGGCGCGGTACGTACGTTAACAGCCTTCGGACGTTTGCCA +TGCATATCCAGGCTAATCCAGTCTTCGCCGACTTCGATGTCCGCTCCAGCGTCACGCAGTTTCGCCAGCA +CGGCGTCGAGAGTATCTGGCTGCGCGTTACGGCAGATAATTTTGCCGCGAGAAATCGCCGCCGCCACCAG +GAAAGTACCGGTTTCGATACGATCCGGCAGAACGCGATAGACACCGCCGCCTAAACGTTCCACACCTTCG +ATGACGATACGATCGGTGCCCTGACCGCTAATTTTCGCACCCAGCGTAATCAGGAAGTTCGCGGTATCGA +CGATTTCCGGTTCACGCGCTGCGTTTTCAATAATCGTGGTGCCTTCCGCCAGGGTTGCAGCACACATGAT +GGTCACCGTTGCGCCAACGCTGACTTTATCCATCACGATATGTGCACCTTTCAAACGACCATCGACGGAA +GCTTTAACGTAACCTTCTTCCAGTTTGATGGTCGCGCCTAATTGTTCGAGGCCAGAAATGTGTAGATCAA +CCGGACGCGCACCGATCGTACAACCGCCAGGTAGTGAAACTTGCCCCTGACCAAAGCGCGCTACCAGCGG +CCCCAGCGCCCAGATAGAAGCACGCATGGTTTTAACCAGATCGTAAGGTGCGCAGAATACATTAACGTCG +CGGGCATCAATATGCACAGAACCATTACGTTCTACTTTCGCACCCAGCTGGCTTAGCAGCTTCATTGATG +TATCGACGTCTTTCAGTTTCGGGACGTTCTGGATCTCTACCGGTTCTTCCGCCAGTAGTGCGGCAAAAAG +GATAGGCAGAGCAGCATTTTTAGCGCCGGAAATTGTGACTTCGCCCTGGAGCTTCGTTGGCCCCTGAACA +CGAAATTTATCCATTTAGTTTGTTCTCAGTTAACAATTCATATCCGCTACCGGCGAATCGCCCATAGCTC +AAAAGCCGTTCAGTTTGCGATCGCGCGCCCACTCCGCAGGGGTATACGCTTTGATCGACACAGCATGAAT +GCGGTTATCCGCAATATATTCCATCAGCGGACCATAGACCGTCTGCTGTTTTTTAACCCGACTCATGCCG +TCAAACAACTCACCCACGGCAATAACCTGAAAGTGGCTGCCATCGCCGGAAACGTGGACTTCCTGGAGGG +AGAGAGCGTTCATCAACACGCTCTGAATTTCATTATTTTCCATGGGATCTTCAATCATCAGTTAATAAAC +CAGCGAAACATCTTAGAGCAAAGTTGCGCTGGCATAAATAAGCAAAAAGCCTCGCTGATAAATCAGACAA +GGCTCGACTTGCAGGCAGGTTTGCCGGACAGGCGGTTAACGCCATATCCGGCCTGAAAAAATTTAACGAG +GCAGAACATCAGCAGGCAAATTATACAATTTCGCCAGGGTATACACTTTGTCGTTTACCCCCTGAAGCGT +CACATTGTTGCCCTGCTTTTTCGCCAGATCGATAAGATGGAGCAGCAGTGCCAGTCCCCCCGTATCCACG +CGGGAGACACGGCTAAGATCGATGCAGGTAATCCCCTTCACCGCTTCCTCACGCATTTCCCAAAGCGGTA +GCAAAACGTCCTGATCCAGCTCTCCGGATAACGCCAGCGTGTCACCCGTCTGCATCCAGCTCAGTGACTC +GCTCATTATTTTTTCTCTTCCAGAGTGATTTTCTGTTGAGAAATCGATTTCAGTTGCGCAGTCAGGCCGT +CGATACCTTTGGTACGCAGCAGCGTTCCCCACTCGTTTTGTTTGGTGGTGATCATACTGACGCCTTCAGC +AATCATGTCGTAAGCCTGCCAATTGCCCGTCTGGGAGTTTTTACGCCACTGGAAGTCCAGACGCACCGGC +GGACGGCCATTCGGGTCAATAATGGTAACGCGAATAGGCACAATGGTTTTATCGCCCAGCGGCTGTTCTG +GCGCAATCTGATAGGTTTGACCGTGATACATCGCCAGCGCCTGACCGTAAGCCTGCTTCAGGTACTCACG +GAAAGCGGCAAAGTAGGCTTCACGTTGAGCAGGGGTCGCACTCTTGTAATACTGGCCCAGCACCAGCGCA +CCGGCGTATTTCACCTGTACGTATGGCAGCAGTTCCTGATCAACAATGGTACGCAGATAATCCGGGTTGG +CCCGAATTTGCGGTTGCTCATTCTTCAGGCGATCGAACGTTTTCTGCGCCGCCTCGTCCATCAGCTTATA +CGGATTGGTCTGGTCTGCCGCGGTTGCCGCACTCAGAGGTGCAATCACCAGCAAAGCGACCATCATTAAA +CGTTTAAACATGCGTCGGTTCTCCTGAAATTATTTCGTTGTACCCACAGGTTCAGTGGTTTCATTATTAC +CTGGCGCAGCAGCTGGCGCATCGCCACTATTCTTATTGTCATCGCCTTTACTACCGTAAAGGAACTGACC +AATGAGATCTTCCAGCACCATCGCAGACTTAGTGTCCTGAATTGTATCGCCATCCTTCAGGATAGCAGTC +CCCAGTTCCGGGTCTTCAAAACCGACGTTTAATGCCAGATATTGTTCCCCCAGCAGGCCGGAAGTACGAA +TGCTCAGCGAACTGGTATCTGGAATGTGGTTATAACGTTGTTCAATTTCCAGCGTTACGCGCGGCAGATA +GGTTTTCGGGTCCAGCGTAATATCCGCCACCCGACCCACAACAACGCCACCAATACTGACCGGAGAGCGC +GCTTTCAGGCCGCCAATGTTATCGAACGTCGCATAAAGCGTGTAGGTCGGTTCAGTACGTATGGACGTCA +CGTTCGCCGCCTTCAGGCAAACAAACAGCGCCGCCAGCAGTGCTGCTAATAAAAAGATACCCACCCAAAT +TTCATTTTTTTTCGTTTGCATGAACTCAATTCCCAAACATCAATGCGGTCAGCACAAAATCCAGCCCCAG +AACAGCCAGAGACGAGTGGACAACGGTGCGAGTGGTTGCCCGGCTAATCCCGGCAGACGTCGGGATGGCG +TCGTAGCCGTTAAACAACGAAATCCACGTCACCGTGATGGCGAACACCACGCTCTTAATCAGACAGTTGA +CCAGATCCATACGCCAGTCGACGGCATTTTGCATTGCCGACCAGAAGAACCCGCTATCAATGCCTTTCCA +ACTGACGCCGACCAGAGATCCGCCCCAGATCCCCACGGCGACGAAAATAACCGTCAACAGTGGTAATGAA +ATAACCCCAGCCCAGAAACGGGGAGAAATAACCCGACGCAGCGGATCCACCGCCATCATCTCCATACTGG +AGAGTTGCTCTGTAGCGCGCATCAGGCCGATTTCTGCGGTTAGCGCCGAACCAGCACGCCCGGCAAACAA +CAACGCGGCAACCACCGGCCCCAGTTCACGCAGTAGCGATAACGCCACCAGCATACCCAGACTGGTTTCC +GCACTATAAGTGGTCAGAACCAGATAACCTTGCAGCCCCAACACCATTCCGATGAACACGCCAGAAACCA +CAATAATCAGCATCGACAGGACGCCGACATTATAGAGCTGGCGCACCAGCAGCGGCGCATGTTTGCGAAA +TTCCGGTTTGCCGACCAGCGCATTGAATAACATTAACCCGGCCCGCCCGAACGTTCTCAGGGTTTTAATC +CCTTTATGTCCGAGCGACGCCAGCGCATTTAACAGCATGAGTGGCTTAACTCCCTGGTAAAAGATCAGCG +TGATAATCGCCGGCAGGATAGCGGAACGGAACAGGCCCGTCAGCTATCCCGTCCAGAAACTGACGTACGC +GCGGATCAGGATTCGCCTGCAACGCCTGGGCACTGCCATGAGCGACAATTTTTTTGTCCGCCAGGATCCA +GGCGTGATCCGCAATACTTAACACTTCCGGCACATCGTGAGAAACCACCACACAAGTCACGCCCAGCGCG +CTGTTCAGCTCAGAAATCAGCTTCACCAGTACGCCCATGGTGATGGGATCTTGCCCAACAAAAGGTTCAT +CAAACATGATGAGATCCGGCTCCAGCGCAATCGCACGCGCCAGCGCTGCACGCCGCGCCATCCCACCGGA +AAGTTCAGAAGGCATTAGTTTAGCCGCTCCACGCAGCCCCACGGCCTCCAGCTTCATCATCACCGTACTA +TGCAACAATGGCGCGGGAAGTTGGGTATGTTCGCGCAGTGGATAGGCGACGTTGTCAAATACGTTCATAT +CAGTGAACAACGCCCCGGACTGAAATAACATGCTCATCCGTTTGCGCACTGTATACAGGCGCGAACGAGA +CATCGCCGGAATATTCTCACCATCGAAAAGGATCTCACCATGATCTGGTGCGATTTGCCCGCCAATCAGA +CGGAGTAGCGTCGTTTTACCGATGCCCGATGGCCCCATGATCGCCGTGATCTTCCCTCGCGGCACGGTCA +GGGAAATATTATCGAAGATGCAGCGATTGCCACGCGTAAAACTGACATCGCGCATATCGACTAAATTCGC +CACAGACTGCTCCATAATTCACCCTTCGTCTTGCGTTGATTTTCTAAGCATGGCGCTCAATTTAACCTTG +AACCCAACATATTTACAGAATATTACCCGCCGTGGTTAGCGAAAGCTGGCATTTGTTTTACTTTTTAGCC +GCATAAAGTCAAAATTAAGCATCCGTTACGGCTTTCTGAAAATCTTCAGCGGACCGGCGAGTATACCTGA +AGAAAGGACGTTAGATGCTTTTAGCTACGGCACTGTTAATTGTTGGTTTACTTTTGGTCGTTTACAGTGC +CGACCGCCTGGTTTTTGCCGCGTCTATTCTTTGCCGAACCTTTGGCATCCCGCCGCTGATCATCGGCATG +ACGGTGGTCAGTATTGGTACATCGTTACCAGAAGTCATCGTCTCGCTTGCCGCGTCTCTGCACGAACAAC +GCGATTTAGCCGTTGGTACAGCCCTCGGCTCAAACATTATCAATATATTGCTGATCCTCGGTCTGGCTGC +GCTGGTTCGTCCTTTTACCGTCCATTCTGATGTTCTACGCCGTGAATTACCCTTAATGTTGTTGGTCAGC +GTGGTGGCCGGTTCCGTACTCTATGACGGACAACTTAGTCGCAGCGATGGTATCTTTCTCCTCTTTCTGG +CTGTGCTATGGCTGCTGTTCATTGTTAAACTTGCACGTCAGGCTGAACGTCAGGGGACTGACAGCCTGAC +CAGAGAGCAGCTTGCAGAGCTGCCGCGTGACGGCGGATTGCCCGTCGCGTTTTTATGGCTCGGCATTGCG +CTTATCATCATGCCAGTGGCCACGCGGATGGTGGTTGATAACGCCACGGTGCTGGCGAATTACTTTGCCA +TCAGCGAGTTGACGATGGGTCTGACGGCAATTGCTATCGGAACCAGCCTGCCGGAACTGGCAACCGCAAT +AGCGGGGGTTCGCAAAGGTGAAAACGACATTGCTGTCGGAAATATCATTGGCGCAAACATTTTTAATATT +GTCATCGTGTTGGGTTTACCCGCGCTGATAACGCCAGGAGAGATTGATCCACTGGCGTACAGTCGTGACT +ACAGCGTGATGTTGCTGGTGAGCATTATTTTTGCGTTGCTGTGCTGGCGGCGCTCCCCGCAACCGGGCCG +TGGTGTAGGGGTATTATTAACTGGCGGATTTATCGTATGGCTGGCGATGTTGTACTGGTTATCGCCAATA +CTCGTTGAATAACTGGAAACGCATTATGTCGCACGTAGAGTTACAACCGGGTTTTGACTTTCAGCAAGCA +GGTAAAGAAGTCCTGGCGATTGAACGTGAATGCCTGGCGGAGCTTGATCAATACATCAATCAGAATTTCA +CGCTTGCCTGTGAAAAGATGTTCTGGTGTAAAGGGAAAGTTGTCGTCATGGGGATGGGAAAATCGGGGCA +TATTGGGCGAAAAATGGCGGCAACGTTTGCCAGCACCGGTACACCTTCATTTTTCGTCCATCCTGGTGAA +GCCGCGCATGGTGATTTAGGCATGGTTACCCCACAGGATGTGGTGATTGCTATCTCTAACTCTGGTGAAT +CCAGCGAAATCACGGCCTTAATTCCAGTGCTTAAGCGTCTTCACGTACCGTTAATCTGCATCACCGGTCG +CCCGGAGAGCAGCATGGCGCGCGCCGCAGATGTGCATCTGTGTGTTAAAGTAGCGAAAGAAGCCTGTCCG +TTAGGGCTGGCACCGACCAGCAGCACCACCGCCACGCTGGTTATGGGCGATGCCCTCGCTGTCGCGCTGT +TAAAAGCACGCGGCTTTACTGCTGAAGATTTTGCGCTCTCACACCCAGGCGGCGCACTGGGTCGTAAACT +TCTGCTGCGCGTAAACGATATTATGCATACGGGCGATGAGATCCCGCATGTTAAGAAAACGGCCAGTCTG +CGTGACGCGTTGCTGGAAGTTACCCGCAAAAATCTTGGTATGACTGTCATTTGCGATGACAATATGATGA +TTGAAGGCATCTTTACCGACGGTGATTTACGCCGTGTCTTCGATATGGGCGTGGATGTTCGTCAGTTAAG +TATTGCCGATGTGATGACGCCGGGGGGAATACGTGTGCGCCCTGGCATTCTGGCCGTTGAGGCACTGAAC +TTAATGCAGTCCCGCCATATCACCTCCGTGATGGTTGCCGATGGCGACCATTTACTCGGTGTGTTACATA +TGCATGATTTACTGCGTGCAGGCGTAGTGTAAAGATTCAAGGATAAACAACAATGAGCAAAGCAGGTGCG +TCGCTTGCGACCTGTTACGGCCCTGTCAGCGCCGACGTTATAGCAAAAGCAGAGAACATTCGTCTGCTGA +TCCTCGATGTCGATGGCGTACTGTCAGATGGCCTGATTTATATGGGCAATAATGGCGAAGAGCTGAAAGC +GTTCAATGTTCGTGACGGTTATGGCATTCGTTGTGCGCTCACCTCTGATATTGAAGTCGCTATCATTACC +GGGCGAAAGGCTAAACTGGTAGAAGATCGTTGTGCCACATTGGGGATCACTCACTTGTATCAGGGGCAGT +CAAACAAACTGATCGCCTTTAGCGATCTGCTGGAAAAACTGGCGATTGCCCCGGAAAATGTGGCTTATGT +CGGCGATGATCTCATCGACTGGCCGGTAATGGAAAAAGTGGGTTTAAGCGTCGCCGTGGCCGATGCGCAT +CCACTGTTGATCCCGCGCGCCGATTACGTGACGCGCATTGCTGGCGGTCGTGGCGCAGTGCGCGAAGTTT +GCGACTTATTACTCCTGGCGCAGGGCAAACTGGATGAAGCCAAAGGGCAATCGATATGAGTAAAGCCAGA +CGTTGGGTTATCATTGTGCTATCACTGGCGGTTCTGGTGATGATCGGCATTAATATGGCCGAAAAAGACG +ATACCGCCCAGGTGGTCGTCAACAACAATGATCCCACCTATAAAAGCGAGCATACGGACACGCTCGTCTA +TAACCCAGAAGGGGCACTAAGCTATCGATTGATTGCTCAACACGTTGAATATTATTCCGATCAGGCCGTT +TCGTGGTTTACGCAGCCGGTACTTACCACGTTTGATAAGGATAAAATCCCGACATGGTCCGTAAAAGCAG +ATAAAGCCAAGCTGACCAATGACCGGATGCTCTATTTATATGGACACGTTGAAGTCAACGCACTTGTGCC +AGACTCTCAACTTCGCAGAATCACGACGGATAACGCGCAGATCAATCTGGTGACGCAGGATGTTACCTCT +GAAGACCTCGTCACGTTATACGGAACAACATTTAACTCCAGCGGTCTGAAAATGCGCGGCAACTTACGCA +GCAAGAACGCCGAGCTGATTGAAAAGGTTAGAACATCCTATGAAATTCAAAACAAACAAACTCAGCCTTA +ATCTTGTGCTTGCCAGCTCACTTCTGGCCGCCAGCATTCCGGCATTTGCCGTAACCGGAGACACTGATCA +GCCGATCCACATTGAATCGGACCAGCAATCTCTTGATATGCAAGGCAACGTGGTTACCTTTACCGGTAAT +GTCATCGTCACCCAGGGCACCATCAAAATTAATGCCGACAAAGTGGTCGTTACCCGTCCGGGCGGCGAAC +AAGGTAAAGAAGTGATTGACGGCTACGGTAAACCGGCAACGTTCTACCAGATGCAGGACAACGGTAAACC +CGTTGAAGGTCACGCTTCCCAGATGCACTACGAACTGGCAAAAGATTTTGTCGTTCTGACGGGTAATGCT +TATCTGCAGCAGGTCGATAGCAACATTAAGGGCGATAAGATCACTTACCTGGTGAAAGAGCAGAAAATGC +AGGCTTTCAGCGACAAAGGCAAGCGCGTAACAACCGTTCTGGTGCCGTCGCAGCTGCAGGACAAAAACAA +CAAAGGCCAGACCCCGGCACAGAAGAAGGGTAATTAATTCGTTATGGCAACATTAACTGCAAAGAACCTT +GCAAAAGCCTATAAAGGCCGTCGCGTGGTAGAAGACGTCAGCCTGACCGTCAACTCCGGGGAAATTGTCG +GTCTGCTGGGGCCAAACGGTGCCGGTAAGACCACCACTTTCTACATGGTTGTAGGCATTGTGCCGCGCGA +TGCGGGCAACATCATTATTGATGATGACGATATCAGTCTGCTGCCTCTGCATGCACGCGCGCGCCGCGGT +ATCGGCTATCTGCCACAGGAAGCCTCCATTTTCCGTCGCCTCAGCGTTTACGATAACCTGATGGCGGTAC +TGCAAATTCGTGACGACTTGTCTGCTGAACAACGTGAAGACCGCGCGAACGAGCTGATGGAAGAGTTTCA +CATTGAGCACCTGCGTGACAGCATGGGGCAGTCACTCTCCGGGGGTGAACGTCGCCGTGTAGAAATTGCC +CGCGCACTGGCTGCGAATCCGAAATTTATTCTGCTCGACGAACCGTTTGCCGGGGTTGACCCGATCTCGG +TTATCGACATTAAACGCATCATTGAGCACCTGCGCGACAGCGGCCTGGGCGTGCTGATCACTGACCACAA +CGTGCGTGAAACACTGGCGGTTTGTGAACGCGCTTATATCGTCAGTCAGGGGCATTTGATCGCCCACGGC +ACGCCTACAGAAATCTTACAAGACGAACACGTTAAGCGTGTATACCTTGGGGAAGACTTCAGACTCTGAT +AGGGTAGAAGTTTGCGACGTTTTAGCAGGAGAGTACGATTCTGAACATGAAGCAAGGTTTGCAACTCAGG +CTTAGCCAACAACTGGCGATGACGCCACAGCTCCAACAGGCAATTCGTCTGTTGCAGTTGTCGACGCTGG +AACTTCAGCAGGAGCTACAGCAGGCGCTGGAGAGTAATCCGCTGCTTGAGCAAATCGACACTCATGAAGA +AATCGACACCCGCGAAACGCAAGACAGTGAAACGCTGGACACCGCCGACGCGCTCGAACAAAAAGAGATG +CCGGAAGAGCTGCCGCTCGATGCCAGTTGGGACACCATTTACACCGCTGGTACACCATCCGGCACCAGCG +GTGACTACATTGACGACGAGCTGCCGGTCTACCAGGGCGAAACGACGCAGACCTTGCAGGATTACCTGAT +GTGGCAGGTTGAGCTGACACCGTTTTCCGACACTGACCGCGCTATTGCTACCTCTATCGTCGATGCCGTT +GATGAAACCGGTTATCTGACTGTCCCGCTGGAAGATATTCTCGAAAGTATAGGCGATGAAGAGATCGACA +TCGACGAAGTTGAAGCCGTCCTTAAGCGGATCCAACGGTTTGATCCGGTCGGTGTGGCGGCAAAAGATCT +GCGTGACTGTCTGCTGATCCAACTCTCCCAATTCGATAAGACCACGCCGTGGCTGGAAGAGGCCAGACTG +ATCATTAGCGATCATCTCGATCTGTTAGCCAATCACGACTTCCGCACTTTAATGCGCGTCACGCGTCTGA +AAGAAGATGTGCTGAAAGAAGCCGTCAATCTGATCCAGTCGCTCGATCCGCGCCCCGGGCAGTCGATCCA +GACTGGCGAACCTGAGTATGTCATTCCAGATGTGCTGGTGCGTAAGCATAACGGTCACTGGACGGTAGAA +CTCAACAGTGACAGCATTCCGCGTCTGCAAATCAACCAGCACTACGCCTCGATGTGCAATAACGCGCGCA +ACGATGGTGACAGCCAGTTTATCCGCAGCAATCTGCAGGATGCCAAATGGTTGATCAAGAGTCTGGAAAG +CCGTAACGATACGCTACTGCGCGTGAGTCGCTGTATCGTTGAACAGCAGCAAGCCTTCTTTGAGCAAGGT +GAAGAATATATGAAACCGATGGTACTGGCCGATATCGCCCAGGCTGTCGAAATGCATGAATCGACGATAT +CTCGCGTGACCACGCAAAAATACCTGCATAGTCCACGAGGCATTTTTGAACTGAAGTATTTCTTTTCCAG +TCACGTCAATACCGAGGGCGGCGGCGAAGCTTCCTCCACGGCGATTCGTGCGCTGGTGAAGAAATTAATC +GCGGCGGAAAACCCAGCGAAACCGTTGAGCGACAGCAAGTTAACCTCTTTGCTGTCGGAACAAGGTATCA +TGGTGGCACGCCGCACTGTTGCGAAGTACCGAGAGTCTTTATCCATTCCGCCGTCAAACCAGCGTAAACA +ACTCGTTTGACCCAACCGATAAGGAAGACACTATGCAGCTCAACATTACCGGAAATAACGTCGAGATCAC +CGAGGCACTGCGCGAATTTGTTACAGCCAAATTTGCCAAACTTGAGCAATATTTTGACCGAATCAACCAG +GTCTATGTTGTTCTGAAAGTGGAGAAAGTCACCCACACCTCAGATGCAACACTGCATGTAAACGGTGGTG +AAATTCATGCCAGCGCGGAAGGTCAGGACATGTACGCTGCCATTGATGGCTTAATTGATAAGCTGGCACG +CCAGTTGACCAAACATAAAGATAAACTGAAACAACACTAATTGTCCGGGCAATTAGCATGTGCATGGCGG +TCTGTTGTGCGGCACAACGGGCCATTTGTACGGTTAATGCTCCGAGCCTGTTCCACTGTTTGAGTGGGCA +GGTTCTTAGGTGAAATTATGACAAATAATGATACAACTCTACAGCTTAGCAGTGTTCTTAACAGGGAATG +TACGCGAAGCCGCGTCCACTGTCAGAGCAAAAAACGCGCCCTGGAAATCATCAGCGAGCTGGCGGCGAAA +CAACTTAGCCTGCCGCCTCAGGTGGTTTTTGAAGCTATCCTGACGCGGGAAAAAATGGGCAGTACCGGTA +TCGGCAATGGTATTGCCATTCCGCATGGCAAACTGGAAGAAGATACTCTGCGCGCCGTTGGCGTTTTCGT +TCAGCTCGAAACGCCTATAGCTTTCGATGCCATCGACAACCAACCGGTGGACTTACTTTTTGCCCTGCTG +GTGCCGGCAGACCAAACTAAAACGCACCTGCATACTCTGTCGCTGGTGGCGAAACGTCTGGCGGACAAAA +CCATCTGCCGCCGTTTACGCGCAGCCCAGAGCGATGAAGAGCTGTATCAAATCATTACGGATACCGAAGG +TACTCCGGATGAAGCGTAGTTATTCGGTAATGTCTCTTTTAGACGTTGTGAGGAGAAACAGTACATGGTA +CTGATGATCGTCAGCGGACGTTCAGGTTCAGGTAAATCTGTCGCCCTGCGTGCGCTGGAAGATATGGGTT +TTTACTGCGTGGATAACCTTCCCGTAGTGTTGTTACCCGATCTGGCTCGAACCCTGGCCGATCGCGAGAT +TTCTGCCGCCGTCAGCATTGATGTTCGTAATATGCCGGAGTCACCAGAAATATTCGAACAGGCGATGAGT +AACCTGCCTGACGCTTTCTCACCGCAACTCCTGTTCCTGGATGCCGACCGTAATACCTTAATTCGTCGTT +ACAGTGACACGCGCCGACTGCATCCGCTTTCCAGCAAAAACCTGTCGCTGGAAAGTGCTATCGACAAAGA +AAGCGATTTGCTGGAGCCTCTGCGTTCGCGAGCGGATCTGATTGTCGATACCTCAGAAATGTCCGTTCAC +GAGCTGGCTGAAATGCTGCGTACCCGTCTGCTGGGTAAACGTGAACGCGAACTGACCATGGTCTTTGAGT +CTTTCGGCTTCAAACACGGTATCCCTATCGATGCAGATTACGTCTTTGACGTGCGCTTCTTGCCGAACCC +GCACTGGGATCCGAAACTGCGTCCAATGACAGGTCTTGATAAACCTGTCGCCGCGTTCCTCGACCGCCAC +ACAGAAGTACACAATTTTATCTACCAGACGCGAAGCTATCTTGAGCTATGGTTACCTATGCTGGAAACCA +ACAACCGTAGCTACTTGACGGTCGCCATTGGTTGTACCGGCGGGAAGCACCGTTCGGTGTATATTGCAGA +GCAACTGGCAGACTACTTCCGCTCGCGCGGTAAAAACGTCCAGTCACGCCATCGTACGCTGGAAAAACGT +AAACCATGACCGTCAAGCAAACTGTTGAAATCACAAACAAGCTGGGCATGCATGCCCGGCCTGCAATGAA +GCTGTTTGAATTAATGCAGGGTTTTGACGCTGAAGTGCTCTTACGTAATGACGAAGGCACCGAGGCTGAA +GCCAACAGCGTTATTGCGCTGCTGATGTTGGATTCTGCCAAAGGACGGCAGATTGAAGTTGAAGCGACCG +GTCCACAGGAAGAGGAAGCACTGGCCGCCGTTATCGCCCTCTTTAATTCTGGTTTTGATGAAGATTAATC +TTCATCACTTTGACATACAACTCCCTTCAAACTCCCCCCGACAATAAGAAAATCACGTACTGAAATCGTT +CTCAATCAACGTCATTTGTACATTTTGTGCGCTTTTCACTTTCAGAAGAACCTTAAGAAAACCTTAAGAG +GCATTGTTTAGGTTTTGTTTAAGTTAATCGACCATACTGGAGATCGTCAGAAAATATTTCCAGGAGATGG +CATGATTCGCTTATCTGAACAAAGTCCCCTGGGCACCGGAAGACATCGGAAATGTTATGCGCATCCGGAA +GATGCCCAACGCTGTATCAAGATTGTCTACCATCGTGGCGATGGTGGCGATAAAGAGATCCGCCGTGAGT +TAAAGTACTACGCGCATCTTGGTCGCCGGTTAAAAGACTGGAGTGGAATACCGCGCTATCACGGTACCGT +TGAGACGGATTGCGGAACCGGTTATGTCTACGATGTGATTGCAGATTTTGACGGCAAGCCTTCCATTACG +CTGACCGAATTTGCTGAACAATGCCGTTACGAAGAAGACATTGCACAACTGCGCCAGCTACTGAAACAGC +TGAAGCGTTATTTGCAGGATAACCGTATCGTGACGATGTCGCTGAAGCCGCAGAATATCCTCTGTCACCG +CATCAGTGAGTCAGAGGTTATCCCGGTCGTCTGCGACAACATTGGTGAAAGCACATTGATTCCACTGGCG +ACCTGGTCGAAGTGGTGTTGTCTGCGTAAGCAAGAGCGGTTATGGAAACGATTTATCGCCCAACCGGCGC +TGGCTATTGCCCTGCAGAAAGATCTGCAACCTCGTGAGAGCAAAACGCTGGCCCTCACTTCGCGCGAAGC +TTAATCCAGCTGGTGTTGTTGCATAAACGGCTCACCGCCTAACTGATACATCTGCCGTAAAATCCACGCC +TGACGGCTACGCACGTAGCCCGATGGCGAGGAGACTTTGAAACGAAGTGGATTAGGTAATACAGCTGCCA +GTAATGCAGCTTCCGACCGGGTAAGTTTGCTCGCGGGTTTGTGGAAATAACGTTGTGCCGCAGCTTCGAC +GCCAAACACACCGTCGCCAAATTCGGCGATATTCAGGTAAACCGTCAGGATACGCTTTTTGCTCCAGACC +GTTTCTATCCCCAGCGTTAATCCGGCTTCCAGCCCTTTTCGAACCCAGCTACGCCCATCCCATAAAAAGA +GATTTTTGGCTGTCTGTTGAGAAATCGTTGAAGCACCGCGAATACGGTTTTCATTGCGCTCGTTGTGCGC +CAGGGCTTTCTCAATGGAAGCGACATCAAAGCCCCAGTGCTCAGGAAATTTCTGATCTTCTGCGGCAATC +ACCGCCAGTCCCATCCACGGCGAGATTTGATCCATACTGACCCAGTCAGAATGTGCCACGTAACGAAAAT +TGCCATGCAGCCAGGCGCTGACCTGTCGCTCGACCATTACCGCTGAGAAGGGAACAGGCGCAACGCTAAA +CAACGCGATGCCCCCGCCCCAGAAAACGGCGAGGACAACCATTAACCGCAAAAGAAAACGGCGAACGAAA +CTAAACACCGTTAAGCGGCTTTTACTCATTCAGCCAGAACCAGCACGCGGGAAACCAGCTTATCAATGCC +GCTCGCCGCTTCTGCAATGTTCTGCGCCAGCATATATGCTGGGGTGGTGACAATCTTATTGTCTTCATCA +ACCACGATATCATCGACAGGACACGGCACATGCTCCGCGCCCATCTCTTCCAGCACTTCTGCGGTATCGA +TATCAGTACCGATGGTCAAACGCAGCGGGAAATCGAAAATTTTCGGCAGCATCGCCGGGGCAATACACAT +AAAACCAAGCGGTTTTCCGGCCTGATGCATCGCTTGTGCCAGCGCCTTTAATTCACGGTCAACGGTGCAT +TCGCTACCAAGACTGGCAAAATTGCTTAAATTCTTCGCCGCGCCAAACCCCCCCGGCACAATCAACGCAT +CCAGTTCAGCGGCATCGGCCTGGGCCAGAGGACGGATTTCACCGCGCGTTATTCGTGCCGCTTCAATCAG +CACATTGCGCGTTTCCGTCATCGCTTCGCCAGTTAAATGGTTGATAACATCAACCTGCTGCTTATCCGGT +GCAAAGCAGACCGCCTGCGCACCGCTGCGTGAAATAGCTAACAACGTCAACACCGCTTCATGAATTTCAG +AACCGTCATAGACGCCGCATCCGCTCAGAATTACGCCAATTTTCTTCATTGTGATCATCCTTTCGCAATT +GACTGAAACACATTAATTTTTTTAATAAAAATGGTACGCATCACACATTTAACTGATTCATGTAACAAAT +CATTTAAGTTTTGCTATCTTAACTGCGTGCGGCCTGAAAAACAGTGCTGTGCCCTTGTAACTCATCATAA +TAATTTACGGCGCAGCCAAGATTTCCCTGGTGTTGGCGCAGTATTCGCGCACCCCGGTCTAGCCGGGGTC +ATTTTTTAGTGGCTTTTGCCACCCACGCTTTCAGCACTTCTACGTCGTGACGCCACTCTTCTTTCATCTC +TTCAATCCATTCACCGACGTTATCTTCCCAGGCCGGAAGGTCAGGAGACTGAATTTGCTGACCCAGCTGT +TGCAGATGGCGTAACCCCACTGACCCCGCCGCACCTTTAATTTTATGTCCTTCCTCAACAATGCCTTTTT +TATCCTGCGCCGTCAGATTCGACTCCAGCACGCTGACATAGCCCGGCATCATCTTCTCAAACACCGCTAA +CCCGTCGGTGATCAGCTTCGGTCCTACAAGTTCGAGATACTGTTCCAGCATGGGAATATCGAGCAATGCT +TCTGATTTACTGTTCTCTTCTGTCGTCACCGTACTCTCCTCATCATCCTGGGTATCCCAGAATTTCTTGA +TCATCGCGGTTAGCGCCGGAACAGAAAGCGGCTTACTCAGCACATCATCCATTCCAGCATTGAGGTACTC +TTGTTTGTCTTTCAGCACGTTAGCGGTTAAGGCCACCAGCGGCGGTAAATCCTCGCGCGGATAACGTTTC +GTCAGTTCACGAGAGATATCCAGCCCGGTCATATCTGGCAACTGAATATCCAGCAACACCAGGTCGTATT +CGCCCGGTTTAAACATCTCCAGCGCCGCCTTGCCGGTCATGGCGACATCAACGCTGTTACCTAATTTTTC +CAGCACAGAACGCGCAACAATCACGTTCAGTTCAATGTCTTCCACCAGCAGCACATTCAGCGCCGGTAAA +GGCATATCGTCTTCATCAAACGCATCATCGACCTCTTCTGCTACCGACGGTGCGTGGATCGTCAACGTAA +AGGTTGAACCTTTGCCCTGTTCGCTGGTAACCGTAATATCGCCGCCCATATTTTTCGCCAGACGACGAGA +AACGGCCAGACCAATACCGGTGCCGGTGGCAGGTTTACCGCCATGACTGTCTTTCACCTGGTAATACATG +GCGAAAATTTTATCCAGCTCATCCTGCGGAATGCCGATACCAGAGTCTTCCACTTCAAAATGCAGCATAT +CGCCTTCATCGTAGCGCACGCGCACGGTAACCTGGCCTTGCTGGGTGAATTTGACGGCGTTACTGATGAG +GTTCCACAGGATCTGCCGTAAACGCGTCCCGTCGGTAATGACCTGATGCGGTAATGGCAGCGTCGGCTCC +AGGTTAAAGCGCAATCCTTTTTGTTGCGCCTGCAATGCGGAGAGATTTTCCAGATCGGCAAGGAAGCTGG +TGAAATCAACCGGTTGATTATCAAGCTGGACCTTGCGCCGTTCCATCTTATCCATGTCGATAATATCGTT +AAAGATATTCCCCAGCGTGACGGCCGAAACATGGATGGTCTTGAGATATTTTTCCTGCTCGGCGGTGAGT +TCGGTATCCAGCAGAATGCGGCTCAGACCGACGATACCGTTCAGCGGTGTACGCAATTCGTGACTGATGG +TGGAGATAAACGTCGTTTTGTCGCGGCTGGCCCGTTCAAGCGCATCCTGATACCGCTTACGCTCGGTAAT +GTCGCGACCAAAGCCCATCAAACCGTGACGTTTACCCACGCGGTCGTAGTACGGCACTTTACGGATTTCA +AAGCAGGCTTTGCGCCCGTCCGGGTAATCCAGCCACTGTTCATAGGTCAGTGACACATTATGACGGAACA +CTTTTTCATCGGTTTCAATGACTTTTGCGGCGGCTTCCGGTGAGTAAACATCAGCAGGTTTCAGGTGAAC +CAGTTGTTTTTCGCTTTTTCCGGTCAGCAGCTCCATCGCGCGGTTACAGCCGGAAAACTCTTTATCTTCG +TTACGATAAAAAACCAGGTCGGGTGAAGCATCAAGGAAGGAACGTAAGAATGAGGATTGCTGCTCGAGCT +GAATTTGTGTCTCTTCGCGCTCTTTGATTTCAATTTTCAGTTGGCCGAAGGTTTCCTGCAGTTCTGCTTC +CGCTTTTTCACGAACGGCAATTTCCTGATTTAGCTGGGCAATATTATCTTTTAACTGAACGTTGAGGCTC +AAATCGCGCTCGCGCATCTCCTCCAGTTTTTGCACCAGCCGTGACAGACGTTGTCGTGACTCCTCCAGTT +GCTCGACGACCACCGATAGAAAGTAGACCGCCCACGGCGTAATCAGCAAACCAAAGAAGATAGAACGAAT +AACATCAATGCTTTCGACCTGACCATGCAGCACCATGGTTACCGCCATTTGTACCACAATGGCAAGAACG +ACGAGGGCCAGCGCCAGCAACATTGAGAAGCGCACCAGACCTAACTTCATCATCAGGTCAACATAATACT +GCGCCAGCAGACGAATTTGCTTCATTAGGGAATTCCTTCACGACAACCTGCCCCAATAATACCCAATTCT +GACAGTTACGTTATAAATTGTGTGAGAAATGCGGAATTCCCCTCAACGACCTACTCCGTTGGAGGTAGCC +ACGGACGTCCCAGCGCCGATCCCTGTACGCCATGTTCATTCAGATAGCGATCCAGCTCGACCATTCCCGT +CCATCGATTTTCGCACCACAGCGGAGCAAGCAGCGTCGGGCGACGGGCGCTGGCGGAAATGCGGTGGTAG +ATCACTTCCGGTGGCGTATGGCGAATCATTTCTCCGGCAGTGAGCGTGTAATCCTCCAGTTCAATACCGT +TCAAACGCCCCGCTTCCCAGGCTTTCGCCATAATGCTGCCTTTCACAATATGCAGCGGATGCAGCTTTAT +GCCGTCCACGCCGGTTTCAACCACTCGCTCCAGCGTTTGCAAACATTCAGCCTGCCCTTCGCCAGGCAGG +CCGACAATTAAGTGGGAACACACCTTCAGCCCGCGCTGACGTGCCAGCTGGGTTGTACGCTGATAACAGG +CAAAATCATGGCCGCGGTTGATGCGATGCAGTGTTTTGTCGTGGGCGGTTTGTAGCCCCAGCTCCAGCCA +CACTTCGTAACCCTGGTCCTTATATTCGCAAAGCAGATCCAGCACCGCATCCGGCACGCAGTCCGGGCGG +GTACCCACACACAAACCGACAATATTGGCCTGGCTCACCGCCTGCTGATACATAGAACGCAGCACCTGAA +CTTCCGCAAAGGTGCTGGTATACGCCTGAAAGTAGGCCAGATAGCGTTTAGCGCGGTTAACTAAATTCGC +CTGGTGCGCCAGTTGCTCGGCAATGGAACGATGCTGCTGCGCTTCATCGGCAAACGAGGCAACATTACAG +AATGTGCAGCCACCACGCCCGATGGTACCGTCACGGTTAGGGCAGCTAAAACCGCCGTGCAGCGTCAGCT +TATGCACCTTTTGCCCATAACGACGGGTGAGATCACCACCAAACATATTGACTAATTTCTGTAACTGCAT +AATCTGATAGACCGCGCCTTGAAAAGAGGCCAAAGCCTGCCATTTTTAGCTCAATTCGGCGATGACCTGG +ATCAATCGTCCCGGCCTGCTTTTATCAACTGCATAATCAATCAAAATTACCGAAATTTCATGCATAATCA +CATAAATCACTTTTGCTTATCTTGTGTCAGATTTTTTTATCTCCTGATGGATTTTAGGCAAAAACAGTAG +CATGAAACGTCATTACCAATTAAGGCAGTATAAAATGCTGGTTTTGTCGTCAGTTCAAGGCAGGATAAGG +GTTAACACACCTTTATGACAGTCAGGAATTGACTGTTTCTCTAACGACTTCCCTTTTAGCCTTAAAGATA +AAATCCATTTTAATTTCAGTCATTTAATAAAGAATTTTGCGCTAAAGCACATTTCTGTACCAATAAGCTT +GCCATTTGACCTGTATCAGCTTTCCCGATAAGTTGGAAATCCGCTGGAAGCTTTCTGGATGAGCAGCCTG +CTCATCATATTTATGCAGTAATTGAGATCCCCTCTTCACCGTATTAACCGATGCGAAAAGGACAACAAGG +GGGCGAATGCGAGGCGCGCGTATGACACGCAAACCCCGTCGCCACGCTCTTTCTGTGCCCGTGCGCAGCG +GTTCGGAAGTGGGGTTCCCGCAGAGCCTGGGGGAGGTTCACGATATGTTGTACGATAAATCCCTTGAGAG +GGATAACTGTGGTTTCGGCCTGATCGCCCACATAGAAGGCGAACCTAGCCACAAGGTAGTGCGTACTGCA +ATACACGCACTGGCCCGCATGCAGCACCGTGGCGCGATTCTCGCCGATGGTAAAACCGGCGACGGTTGCG +GCTTGCTGTTACAAAAACCGGATCGCTTTTTTCGCATCGTTGCGCAGGAGCGCGGCTGGCGTTTAGCAAA +AAACTACGCTGTCGGGATGCTCTTCCTGAATAAAGATCCTGAACTCGCCGCTGCCGCACGCCGCATCGTT +GAAGAAGAACTGCAACGCGAAACCTTGTCGATTGTGGGCTGGCGTGATGTCCCCACTAACGAAGGCGTGC +TGGGTGAAATCGCCCTCTCCTCTCTGCCACGCATTGAGCAAATTTTTGTGAACGCCCCGGCAGGCTGGCG +TCCACGCGATATGGAGCGCCGTCTGTTTATCGCCCGCCGCCGCATTGAAAAGCGTCTCGAAGCCGACAAA +GACTTCTACGTCTGTAGCCTGTCGAATCTGGTGAACATCTATAAAGGTCTGTGTATGCCGACGGATCTGC +CGCGCTTTTATCTGGATCTTGCGGACCTGCGTCTGGAATCGGCCATTTGCCTGTTCCACCAGCGCTTCTC +CACTAACACCGTACCGCGCTGGCCGCTGGCGCAACCGTTCCGCTATCTGGCGCATAACGGTGAAATCAAC +ACCATCACCGGTAACCGCCAATGGGCGCGTGCGCGTACTTATAAATTCCAGACACCGCTTATCCCTGACC +TGCACGACGCCGCACCGTTCGTCAACGAAACCGGCTCTGACTCCAGTTCGATGGATAACATGCTGGAACT +GCTGCTGGCAGGCGGGATGGATATCATCCGCGCCATGCGTCTATTAGTACCACCCGCCTGGCAGAACAAC +CCGGATATGGACCCGGAACTGCGTGCCTTCTTTGACTTTAACTCCATGCATATGGAGCCGTGGGATGGCC +CGGCGGGCATCGTGATGTCCGACGGTCGTTTTGCCGCCTGTAACCTCGACCGTAACGGTCTGCGTCCGGC +GCGCTACGTCATCACCAAAGATAAGCTCATCACCTGCGCCTCTGAAGTCGGTATCTGGGATTACCAGCCT +GACGAAGTGGTCGAAAAAGGCCGCGTCGGGCCAGGCGAACTGATGGTTATCGACACCCGCAGTGGGCGTA +TTCTGCACTCGGCAGAAACCGATGACGATCTGAAAAGCCGCCATCCATATAAAGAGTGGATGGAGAAAAA +CGTCCGCCGACTGGTACCGTTTGAAGATCTGCCCGATGAAGAAGTGGGTAGCCGCGAACTGGACGACGAC +ACGCTTGCCAGCTACCAGAAACAGTTTAACTACAGCGCGGAAGAGCTGGACTCCGTAATTCGCGTACTGG +GCGAAAACGGTCAGGAAGCGGTCGGTTCGATGGGCGATGATACCCCATTCGCCGTGCTCTCCAGTCAGCC +GCGCATTATTTACGACTACTTCCGCCAGCAGTTTGCCCAGGTGACTAACCCGCCAATCGACCCGCTGCGT +GAAGCGCATGTTATGTCGCTCGCCACCAGTATCGGTCGTGAAATGAACGTCTTTTGCGAAGCAGAGGGCC +AGGCGCACCGTTTAAGCTTTAAATCGCCGATTCTGCTCTACTCCGATTTCAAACAGCTCACGACGATGAA +AGAGGAGCACTACCGCGCAGATACGCTGGATATCACCTTTGACGTCACTAAAACCACGCTCGAAGCGACA +GTCAAAGAGCTGTGCGACAAAGCCGAAAAAATGGTACGTAGCGGCACCGTGCTGCTGGTGCTCTCCGACC +GGAATATCGCTAAAGATCGCCTGCCGGTTCCAGCCCCGATGGCGGTTGGCGCGATCCAGACCCGTCTGGT +CGATCAAAGCCTGCGTTGCGATGCCAACATCATCGTCGAAACCGCCAGCGCCCGCGATCCGCACCACTTC +GCCGTGTTGCTGGGCTTCGGCGCGACGGCTATTTATCCATACCTTGCCTATGAAACGCTGGGCCGCCTGG +TAGACACCCATGCGATTGCCAAAGATTATCGTACCGTGATGCTCAACTACCGTAACGGCATCAACAAAGG +CTTGTACAAAATCATGTCCAAAATGGGCATCTCCACCATCGCCTCTTACCGCTGCTCGAAACTGTTTGAA +GCGGTCGGTCTACACGATGATGTAGTGGGCCTGTGCTTCCAGGGGGCGGTCAGCCGCATTGGTGGAGCAA +GCTTTGAAGACTTCCAGCAGGATCTGCTGAATCTGTCGAAACGTGCCTGGCTGGCGCGTAAGCCCATCAG +CCAGGGCGGTCTGCTGAAATACGTCCACGGCGGCGAATACCACGCCTACAACCCGGACGTGGTGCGCACG +CTGCAACAAGCGGTACAAAGCGGCGAGTACAGCGACTATCAGGAATACGCGAAGCTGGTTAATGAGCGTC +CGGCAACCACGCTGCGCGATCTGCTGGCAATTACGCCGGGTGAAAACGCGGTCAACATTGCTGATGTTGA +ACCGGCAAGCGAACTGTTTAAACGCTTTGATACCGCCGCGATGTCTATCGGCGCGTTAAGCCCGGAAGCC +CACGAGGCGCTGGCGGAAGCGATGAACAGCATCGGCGGTAATTCGAACTCCGGTGAAGGCGGCGAAGACC +CGGCGCGCTACGGCACCAACAAAGTGTCGCGCATCAAGCAGGTGGCTTCCGGTCGCTTTGGGGTTACTCC +GGCGTATCTGGTCAATGCCGACGTCATTCAGATTAAAGTCGCCCAGGGCGCGAAGCCAGGCGAAGGCGGT +CAGTTGCCGGGTGATAAAGTCACGCCTTACATCGCCAAACTGCGCTATTCGGTGCCCGGAGTGACGCTGA +TCTCCCCGCCGCCGCACCACGATATCTACTCTATCGAGGACTTAGCGCAGCTCATTTTCGACCTCAAGCA +GGTTAACCCGAAAGCGATGATCTCCGTGAAGCTGGTTTCCGAACCGGGAGTAGGCACCATCGCGACTGGC +GTGGCAAAAGCTTATGCGGACTTGATCACCATCGCAGGCTATGACGGCGGCACCGGCGCAAGTCCGCTTT +CATCGGTGAAATACGCAGGCTGTCCGTGGGAGCTGGGGCTTGTTGAAACCCAGCAGGCGCTGGTTGCTAA +CGGCTTGCGTCACAAGATCCGTTTGCAGGTCGATGGCGGCCTGAAAACGGGTGTCGATATCATCAAGGCG +GCGATTCTCGGCGCAGAAAGCTTCGGCTTCGGCACTGGCCCGATGGTGGCGCTCGGCTGTAAATATCTAC +GTATTTGCCATCTGAACAACTGCGCAACGGGTGTAGCAACTCAGGATGACAAACTGCGTAAGAACCACTA +TCACGGCCTGCCATTCAAGGTGACGAATTACTTTGAGTTTATCGCCCGTGAAACCCGCGAGCTGATGGCA +CAGCTTGGCGTAACACGTCTGGTGGATCTGATTGGTCGCACCGACCTGCTGAAAGAGCTGGACGGTTTCA +CCGCCAAACAGCAGAAGCTGGCGCTGTCGAAGCTGCTGGAGACTGCCGAACCGCATCCAGGTAAGGCACT +CTACTGCACCGAAAACAACCCGCCGTTTGATAACGGCCTGCTGAACGCGCAGTTGCTGCAACAGGCGAAA +CCGTTTGTCGATGAGCGCCAGAGCAAAACCTTCTGGTTCGATATTCGCAACACCGACCGTTCTGTCGGCG +CGTCGCTTTCAGGCTATATCGCCCAGACGCACGGCGATCAGGGGCTGGCAGCCGATCCTATCAAAGCGTA +CTTCAACGGCACCGCAGGCCAGAGCTTCGGCGTGTGGAACGCGGGCGGCGTGGAACTGTACCTGACCGGT +GATGCCAACGACTATGTCGGTAAAGGCATGGCGGGCGGCTTAATCGCCATTCGTCCTCCGGTTGGTTCCG +CCTTCCGCAGCCATGAAGCAAGCATTATCGGCAACACCTGCCTGTATGGCGCGACCGGTGGTCGTCTGTA +TGCCGCAGGCCGCGCGGGTGAACGTTTCGGCGTGCGTAACTCCGGTGCTATCACCGTGGTAGAAGGCATT +GGCGACAACGGTTGTGAATATATGACGGGTGGTATCGTCTGCATTCTGGGTAAAACCGGCGTTAACTTCG +GTGCGGGCATGACCGGCGGTTTCGCTTACGTTCTCGATGAAAGCGGCGATTTCCGCAAACGCGTTAACCC +GGAACTGGTCGAGGTCTTAAGCGTTGACGCTCTGGCGATCCATGAAGAGCATCTGCGTGGTCTTATCACC +GAGCATGTGCAGCATACCGGCTCTCAGCGCGGTGAAGAGATTCTGGCGAACTGGTCAACCTTCGCCACTA +AATTTGCGCTGGTTAAACCGAAGTCCAGTGATGTAAAAGCACTGCTGGGTCACCGTAGTCGTAGCGCAGC +TGAGTTGCGCGTGCAGGCGCAGTAAGGGGTAGCAACAATGAGTCAGAATGTTTATCAATTTATCGACCTG +CAGCGCGTTGATCCGCCAAAGAAACCGCTGAAGATCCGCAAAATTGAGTTTGTTGAAATTTACGAGCCGT +TTTCCGAAGGCCAGGCCAAAGCGCAGGCTGACCGCTGCCTGTCGTGCGGCAACCCATACTGCGAGTGGAA +ATGCCCGGTACACAACTACATCCCGAACTGGCTGAAGCTCGCCAACGAGGGGCGTATTTTTGAAGCGGCG +GAACTGTCGCACCAGACCAACACCCTGCCGGAAGTTTGCGGACGAGTCTGCCCGCAAGACCGTCTGTGCG +AAGGTTCCTGCACTCTGAACGATGAGTTTGGCGCGGTGACCATCGGCAACATTGAGCGCTATATCAACGA +TAAAGCGTTCGAGATGGGCTGGCGTCCGGATATGTCTGGTGTGAAACAGACCGGTAAAAAAGTGGCGATT +ATCGGCGCAGGCCCGGCAGGTCTGGCGTGTGCGGATGTCCTGACGCGTAACGGCGTAAAAGCCGTTGTCT +TCGACCGTCATCCAGAAATTGGCGGGCTGCTGACCTTCGGTATTCCGGCCTTCAAGCTGGAAAAAGAGGT +AATGACGCGTCGCCGTGAAATCTTCACCGGCATGGGTATTGAATTCAAACTCAATACCGAAGTGGGCCGC +GACGTACAGCTGGACGATCTGCTGAGTGATTACGATGCCGTGTTCCTTGGCGTCGGGACTTATCAGTCAA +TGCGCGGCGGGCTGGAAAACGAAGACGCCGATGGCGTGTACGCAGCGCTGCCGTTCCTCATCGCCAACAC +CAAACAGTTAATGGGCTTTGGTGAAACCCGCGACGAACCGTTCGTCAGCATGGAAGGCAAACGCGTGGTG +GTCCTTGGCGGTGGCGACACTGCGATGGACTGCGTGCGTACGTCCGTGCGCCAGGGAGCGAAGCACGTTA +CCTGTGCCTATCGTCGTGATGAAGAGAACATGCCGGGTTCCCGCCGCGAAGTGAAAAACGCGCGGGAAGA +AGGCGTAGAGTTCAAATTCAACGTCCAGCCGCTGGGTATTGAAGTGAACGGTAACGGCAAAGTCAGCGGC +GTAAAAATGGTGCGTACCGAAATGGGCGAACCGGACGCCAAAGGCCGTCGCCGCGCGGAGATCGTTGCAG +GTTCCGAACATATCGTTCCGGCAGATGCGGTGATCATGGCGTTTGGTTTCCGTCCACACAACATGGAATG +GCTGGCAAAACACAGCGTCGAGCTGGATTCACAAGGCCGCATCATCGCCCCGGAAGGCAGCGACAACGCC +TTCCAGACCAGCAACCCGAAAATCTTTGCTGGCGGCGATATCGTCCGTGGTTCCGATCTGGTGGTGACCG +CTATTGCCGAAGGTCGTAAGGCGGCAGACGGTATTATGAACTGGCTGGAAGTTTAAGCGAGGTAACAATG +AATTCGCCAGACTGTGTCTGGCGAATCAAATTACTGACGAAGTGCGCGTTGTTTTCTGGCAAATGCGGCA +TGAGCGTTTGACCTTTCCTATAATAGGGATAATTTTCAATAAATTGTGCTTTGTTCACCAAGTCTGATGA +GTGAAGCACATCAAGCAATTTCTCATTTACAATCCGTCTCAATTACTTGTTAACACCTCTGACAATACCG +ATTCTGCAAGCTATTCAGTCTTTTCATTCCATGTAAATTGTCTCGATATTAATATACAAAATATGAATAT +AAAAAACCAATATATTATCCTTAATTATCTATATATTTTCCTATTTTTCAGCGCAAACATTCATGTAATG +AATAATTATCACCACAAACCACCTCACCAGCACCTTATTATTCACATGATCGTAACTATAAAATTCATTA +AATAAATACATCCCAGCAAGTTGGCTATTTCTGAACGAGTTATTTATTTACATTCACAAACAGATATATA +TACTGCTTCAGCTTTTTATTTTAAAAAATAAATTTGTTATTAAGGATATGTTCATATGTTTTTCAAAAAG +AACCTCACAACAGCTGCTATTTGTGCAGCACTTTCTGTTGCAGCATTCAGTGCCATGGCAACAGATTCAA +CTGATACAGAATTAACTATCATCGGCGAGTATACCCCTGGTGCATGTACCCCAGTTGTTACGGGCGGCGG +CATTGTTGACTATGGGAAACATCATAACAGTGCGCTGAATCCGACCGGTAAAAGTAATAAACTGGTTCAA +CTGGGCCGCAAAAACAGCACATTAAATATAACCTGCACAGCACCAACGCTAATTGCTGTAACCTCCAAGG +ATAACCGTCAGTCGACCATTGTAGCGTTAAACGACACATCCTATATTGAAAAAGCTTATGATACTCTCGT +AGATATGAAGGGAACGAAAAACGCCTTTGGTTTAGGTTCTGCGCCTAATGGACAAAAAATTGGCGCTGCA +TCCATTGGTATTGACAGGTCTAATGGTGGGATTCACGCGGCGGACGATACAGGTGAAATTCCTGTCGACC +TGATTCAAACTGACCACTGGTCAGCAGCGACCCCCACATGGAAAGCCTCATCTAATGGCGCATTCTGCTC +GCTGACAAGTTGCTCAGCAATCGAGCGCGGTTATTCTGTTGCAAAAACAGGGGAACTGACACCTGTTGCT +ATTACAGCGGTCACCTTCCCGTTACTGATTGATGCTGCGGTAAATGACAATACTATTCTTGGTTCTGATG +AAACGATCAAACTGGATGGTAACGTCACTATCAGCGTTCAGTATTTATAAGAACTTGTAATACAGTTTTT +ATTTTTACGCATTAACCAGTTAGCTATAACTCGGACAGATTATGCCCTATGACATGGTCTGTCTTAATCA +ATCTCATCGCAAACAGTGCATAACATATATTAACAATATGTTTCTGCGTTATTTATCATTATTACAGGAG +TTTTAATTTAAATGCTCAGACACATTACATTCACTGTATTTATAACAACATCAATGAATACCTTAGCCAC +AGGGATGGTTCCTGAAACATCAGTATTGCTGGTTGATGAAAAGCGTGGTGAAGCTAGTATTAATATTAAG +AATACAGATGATCATCCTTCATTGCTTTACACCACCATTGTTGATTTGCCTGAAAGCAATAAATCAATTC +GTTTAATCCCGACTCAGCCCGTTATTCGTGTTGAAGCCGGTCAAGTACAACAGGTTCGATTTTTACTTCA +GGCGACTGTTCCTCTGCAATCAGAAGAGCTGAAACGCGTAACGTTCGAAGGTATTCCACCAAAAGATGAC +AAGAGCAGCAGAGTTACTGTTTCAATTCGTCAGGATCTACCTGTACTGATCCACCCGGCTTCCCTGCCGG +AAGAGCGAGAGACCTGGAAATTCCTGGAATGGCGTAAAAATGGCGACCAAATTGAGATTAGCAACCCCAG +TAATTATGTCGTTCGTATGACCTTACAATTTAAAACGCTCCCTTCAGGAAAAACGGGGGCTATAAATAAG +ACCTATTTTCTACCACACACCAGTACAACTACTGCATTAACAAACGCTACGGATACAAAAGTCGAGTTTT +ACCCAGCCAGCCGATATGGTTATCGCGGTAATAAATATGTCACTGACTTAAAATAACTTTGCCTGGAGCG +ACAAGGATGTTAAAAAAAACGTTACTGGCCTACACCATTGGTTTTGCCTTTTCTCCCCCAGCCAATGCAG +ATGGTATAGAGATTGCCGCTGTTGATTTTGATCGGGAAACATTAAAATCACTAGGTGTAGATCCTAATAT +ATCGCATTATTTTTCCCGTTCAGCCCGTTTTTTGCCAGGTGAATATTCACTGATAGTATCAGTAAATGGC +GAAAAAAAAGGCAACATTGCTACGCGCTTTGATGAAAATGGCGACATTTGTCTTGATCAGGCATTTCTGC +AACAAGCCGGTTTAAAAATTCCTTCTGAAGAAAAAAATGGCTGTTACGACTATATATTGTCCTACCCGGG +TACCACAATCACACCATTACCTAACCAGGAAGCGTTAGATATTATCGTTTCACCACAGGCGATCATTCCC +ATAGGGTTGGATCTCACAAACGCAGCAACTGGTGGAACAGCTGCGCTGCTAAACTACTCTCTGATGAGCA +GCCGTGCAGAATTTTCTAATGGGAGTTCGGACTACTCCCAGGCTGCACTTGAAGGCGGGATTAATATTAA +TGACTGGATGTTACGCAGCCATCAGTTCCTTACACAAACAAATGGCACATTCAGTAACCAGAACTCGTCA +ACCTACCTTCAACGTACCTTTACAGATCTTAAAACACTCATGCGAGCAGGTGAAGTTAACCTCAATAATA +GCGTGTTGGAAGGAGCCAGTATTTACGGTATCGAAATCGCACCGGACAACGCATTGCAAACCAGCGGCAG +TGGTGTGCAAGTTACTGGTATAGCCAACACCTCTCAGGCTCGTGTCGAGATTCGTCAACAAGGAGTTTTA +ATTCATTCCATTCTGGTTCCTGCGGGCGCATTCACTATCCCTGATGTACCTGTTCGCAATGGTAATAGTG +ATCTTAATGTCACCGTTGTCGAAACAGACGGTAGTTCGCACAACTATATTGTTCCCTCCACCCTGTTTAA +TCAGCATGTAGAAAGCTTCCAGGGTTATCGCTTCGCGATAGGGCGGGTAGACGATGACTATGACGAATCA +CCTTGGGTAATTAGTGCATCGAGCGGATGGAATCTGACACGCTGGAGTGCAATGAACGGCGGCGTTATCG +TAGCAGAAAATTATCAGGCGGCATCAATCCGGTCGAGTCTGGTTCCCCTGCCCGATTTAACAGTGAGCAG +CCAAATTAGTACATCGCAGGATACGAAAGACTCACTGCAAGGACAGAAATATCGTCTTGACGCGAACTAC +AATCTCCCATTTTCACTTGGGCTAACAACCAGCCTCACTCGATCTGATCGCCATTATCGCGAACTGTCTG +AAGCGATTGATGATGATTATACCGATCCGACTAAAAGCACTTATGCGCTTGGTTTAAACTGGTCTAACTC +CATTCTGGGTGGTTTCAACATCAGTGGCTATAAAACATATAGTTACGACGGTGACAATGACTCAAGCAAC +CTTAATATTAACTGGAACAAAGCGTTCAAACACGCCACGGTTTCCGTCAACTGGCAGCATCAACTTAGTG +CTTCAGAAAATAATGAAGACGATGGTGATCTGTTCTACGTCAACATCAGTATTCCATTTGGCAGATCAAA +CACCGCCACACTGTATACTCGCCATGACGATCATAAAACCCACTATGGTACTGGTGTCATGGGAGTCGTC +TCAGATGAGATGTCCTACTATGTGAATGCTGAACGAGATCACGACGAACGTGAAACGAGCTTGAACGGCA +GTATCAGTTCCAATCTCCATTACACCCAAGTCAGCCTTGCCGCAGGAGCAAGCGGCAGTGATAGCCGTAC +TTACAACGGTACGATGTCAGGTGGTATTGCCGTACATGATCAGGGAGTGACCTTTTCACCGTGGACTATC +AATGACACTTTCGCCATCGCAAAAATGGATAACAATATTGCAGGTGTCAGAATTACATCTCAGGCAGGCC +CAGTATGGACAGATTTTCGGGGTAATGCCGTCATTCCATCAATCCAGCCGTGGCGAACATCAGGAGTTGA +GATCGATACCGCCAGCTTGCCAAAAAATGTCGATATCGGTAACGGCACAAAAATGATCAAACAAGGCCGT +GGTGCAGTAGGGAAAGTCGGATTCAGTGCGATAACACAACGCCGTGCATTACTCAATATCACACTTTCCG +ACGGCAAAAAACTGCCCAGAGGCGTTGCGATTGAAGATAGTGAAGGCAACTATCTGACAACATCAGTGGA +TGACGGTGTTGTATTCCTCAATAACATCAAACCGGACATGGTGCTAGATATAAAAGATGAGCAGCAATCA +TGCCGTATTCACCTTACATTCCCAGAAGATGCACCAAAAGATGTGTTCTATGAGACAGCAACAGGAGAGT +GCCAATGAAACGGATAATAACAGGATGCCTGCTGCTGAACTTCGCCATGGCCGCTCAGGCAGAGTGTAAT +ATCTCCAGTAGCATACAAAATATCGACTATGGCAAACGAAGTGCTGCCATGCGCCAAGTTGACCGGGGTA +AAACAACACAATTAGCAGACAGAACAATCACGCTGGTAATGCAATGCGATCAGGACGCTCATATTCGTGT +TCAGTTGAATACCGCTAATATTTCCAACAACGGATTTGGATTTGGCCCGAATGGTTCATTAAATCTGATC +GCCAGCGATGCATTTTCAGGTAGTAACAATCTCGACCTGGCGTTAGCCAGTGGCAAAAATGACAATCCGG +GCAGCACAGGAACAGCATCAATTAGGGAAGGTGCGAATAAGCGGGGAAATTCTTCTCGGCTGACTCAGTC +ATTTCATTTCTTCATGTTTGAGCCGATTTTTTCTCCCGTAAATGCCTTGAATCAGCCTATTTAGACCGTT +TCTTCGCCATTTAAGGCGTTATCCCCAGTTTTTAGTGAGATCTCTCCCACTGACGTATCATTTGGTCCGC +CCGAAACAGGTTGGCCAGCGTGAATAACATCGCCAGTTGGTTATCGTTTTTCAGCAACCCCTTGTATCTG +GCTTTCACGAAGCCGAACTGTCGCTTGATGATGCGAAATGGGTGCTCCACCCTGGCCCGGATGCTGGCTT +TCATGTATTCGATGTTGATGGCCGTTTTGTTCTTGCGTGGATGCTGTTTCAAGGTTCTTACCTTGCCGGG +GCGCTCGGCGATCAGCCAGTCCACATCCACCTCGGCCAGCTCCTCGCGCTGTGGCGCCCCTTGGTAGCCG +GCATCGGCTGAGACAAATTGCTCCTCTCCATGCAGCAGATTACCCAGCTGATTGAGGTCATGCTCGTTGG +CCGCGGTGGTGACCAGGCTGTGGGTCAGGCCACTCTTGGCATCGACACCAATGTGGGCCTTCATGCCAAA +GTGCCACTGATTGCCTTTCTTGGTCTGATGCATCTCCGGATCGCGTTGCTGCTCTTTGTTCTTGGTCGAG +CTGGGTGCCTCAATGATGGTGGCATCGACCAAGGTGCCTTGAGTCATCATGACGCCTGCTTCGGCCAGCC +AGCGATTGATGGTCTTGAACAATTGGCGGGCCAGTTGATGCTGCTCCAGCAGGTGGCGGAAATTCATGAT +GGTGGTGCGGTCCGGCAAGGCGCTATCCAGGGATAACCGGGCAAACAGACGCATGGAGGCGATTTCGTAC +AGAGCATCTTCCATCGCGCCATCGCTCAGGTTGTACCAATGCTGCATGCAGTGAATGCGTAGCATGGTTT +CCAGCGGATAAGGTCGCCGGCCATTACCAGCCTTGGGGTAAAACGGCTCGATGACTTCCACCATGTTTTG +CCATGGCAGAATCTGCTCCATGCGGGACAAGAAAATCTCTTTTCTGGTCTGACGGCGCTTACTGCTGAAT +TCACTGTCGGCGAAGGTAAGTTGATGACTCATGATGAACCCTGTTCTATGGCTCCAGATGACAAACATGA +TCTCATATCAGGGACTTGTTCGCACCTTCCTTAGTACTTCCCCCAATAATTGGCTGGTGTTTATGCAAAA +TGGTCAAGAAGTGGTAATTGATAGCGGTAAAAGCGTTAGCCTCACACTGACAATGGCTCCAGCTTTTAAG +GATGAAGGGGAACTAACCGACATGACAGATATTACAGGCAATCTGACGGTCCTGGTGGAGGCAAAATGAA +CAATGTAAAATTACTGATTGCCGGAAGTGCCTTTTTTGCCATGTCAGCGCAAGCCGCTGATAGAGTATCA +ATTGACGTTAAGGTGACTCTGGAAGCTGCAGCTTGTACTCCAATACTAAGCAACGGCGGAGTTGTTAACT +TCGGTAGTCATTCAGTCAATAGACTTTCAACGCAGCACTACACACAGATTGGAACACGTAATATTAATAT +GACTATAACTTGCGAATCCGCTACCGGCATTGCGATTACCGCTCGTGATACACGAATGGATAGTATGACC +ACCGGAAAAGATAGTGGGGGTCAGAGTGGTGTAAAATATACCTTAAATGGCGGAGGTTATATTAGCCAGA +CAACGCGCTTATTCGGCTTAGGGAAAACAAAAGATAATAAAAATATCGGTAGTTATGCCGTGTTAATTGA +TAGCAACAACATTAGTGCCAGCAATGGTAGCCAGACGTTAGCTGTATCAATAGCAGGTGCAGATGCCGTC +ATAACAGGGCAAAAAAGAGCATGGCAAACGCTCACCGCTTATCCGCTTGCAGTCGATCAAAGCTATTATT +ACACCTTTGTAAAACCAGGTGAAACAACCCCAACTCCTGTAACGAACGCCATTATACCGCTTCAGGTGAG +CGCATCTATCGCGAATGATTTAGGCGGTTCAGAAAAAATCGAACTTGATGGGAAAGCTGTGATAAGCGTA +GTCTACTTGTGATAACAATGCCGGACAGGAGTACTATCAGGCATTCGTTTTATACGATCGGTTAATGTTT +CAGGAAAGCTCTTCGCATATCTTGGGGAAAGTAAATGTAATACGCTGTTCTTAATTGTTCAGTGCTCACC +CCCCAGAGTATAGCTCATTCCATTATTCAACTTAGCTCCATATAAAGGGACAGATAATGGAATCGCTCTC +AGAAGGAACCACAGCAGGCTACCAGCAAATCCACGACGGTATTATTCATCTGGTCGATAGCGCCCGGACG +GAAACGGTACGTAGCGTTAACGCGTTAATGACCGCGACGTACCAGGAAATTGGCCGACGAATTGTCGAAT +TTGAACAAGGTGGCGAGGCCAGGGCTGCGTATGGTGCGCAGCTAATCAAGCGACTATCAAAGGATTTATG +TCTAAGGTATAAGCGTGGGTTCTCTGCAAAAAACTTACGCCAAATGAGGCTTTTTTACCTCTTTTTTCAA +CATGTTGAAATTCACCAGACAATGTCTGGCGAATTAACACCATTGGGAATTCCGCAGACACCGTCTGCAG +AATTCCCATCGGCAAAGATTTGGCAGACGCTGTCTGCCAAATCTTTCCCCTTGCCCAGGTCCACCTACGT +CCGTTTACTTTCCGTTAAAAACGCTGACGCCCGCAGCTTTTATGAAAAAGAGACGCTCCGCTGTGGCTGG +TCTGTTCGCCAGCTAGAGCGGCAAATTGCGACCCAGTTTTATGAGCGGACACTACTGTCACATGACAAAT +CAGCCATGCTGCAACAACACGCTCCTGCCGAGACGCATATTCTTCCGCAACAGGCGATACGCGATCCCTT +TGTGCTCGAATTTCTGGAATTGAAAGATGAATATTCAGAATCCGATTTTGAGGAGGCGCTGATCAACCAC +CTGATGGATTTCATGCTGGAACTTGGGGATGATTTTGCCTTTGTTGGTCGGCAGCGAAGGTTACGCATTG +ATGACAACTGGTTTCGTGTCGATCTGCTGTTTTTCCACCGCCGTTTACGCTGCCTGCTAATCGTCGATCT +AAAAGTGGGCAAATTCAGCTATAGCGATGCCGGACAGATGAATATGTATCTCAACTACGCCAAAGAGCAC +TGGACGCTACCGGATGAAAATCCGCCCATCGGTCTGGTTCTCTGTGCAGAGAAAGGAGCCGGAGAAGCGC +ATTATGCTCTGGCAGGTTTGCCTAACACCGTTCTGGCAAGCGAATATAAGATGCAACTACCTGATGAGAA +ACGACTCGCAGATGAACTCGTTCGAACACAGGCGGTGCTAGAGGAAGGCTATAGACGCCGTTAATTTCAG +CGGTTTCGAATTCTGCAGACAGTGTCTGCAGAATCTTTAAAACGAACTAAGTTTTAAGCCATTAAATCAG +CCTTAACCTTCACCACAACCTTTTTAATCTCTCCAGGCTCGCCGACAACGCATCCTGGTTTATGCGGTTC +ACCTGGCATAAACACGGCGAACATTCCCGGTTTTAAGATGATGGCTTGCTCGTTATCAATGGTGCTGCAA +AGCTGATAATCATCCTCATGGTGGAACTCTTCACACTGACGCGCAGTGCCTGCCATGCCAAACAGAATCC +GTTCCTCACCGTTTAATAACAGCTGGATATCAATGTATTGCTCGTGCAATTCCGCTTTTTTCTCGACGGG +CGATTGAGTGTTAAACGTCATGACATTCATAAAGATATTGTCGCCCTGTAATTCGTAACGACCCGGCGCT +TTTTCTTGCGGTCTGGCAGCTAATGCCAGCGTTAACGCGTCCTGTAACGCAGGATGTAACCCAGCAGACG +GTAATGACTGTACTTCACCCATCATCATAATTTTTCTCCCTGGGCCAACAGCGCAGCCCCAAGTAAACCT +GCATCATGGCGGTAATGCGCCGCCAGTAAATCAACATGAAATGCCGCTGGCTCCTGCGCCAGATACGTTT +CCACCAGCGCCAGATACCCTTCTGCCAGACCAACGCTGCCACCGACCACCACGCACTGGCAATCAGTTGT +GGCTTTAATATCAGCGATCAGCCTTGCAAGCGTACGTGCGGAGCGGTGAATCAGCTGCTGCGCCTGCTCG +TCACCCTGCCCGGCGCGCGTGAAAATAGTTTTCGCATCCGCGCCAGCCAACTCCCCCTGCGCTGCCGCTG +CAATGCCGCGACCAGAAGCAATCGCTTCCACGCAACCTGTGCGTCCACAGCCGCAGACTGGGCCGTGTGG +ATCGGCAAGCGTATGCCCGATATGCCCCGCCAGACCGCCAGGGCCGGTAAGCAGTTTGCAGCCGCTCACT +ACACCGCCGCCAACGCCGGTGGAAACGGTGATAAAGACCATATCGGTTATATCGCCATCCAGCGCCTGAA +ACTCCGCCCATGCTGCGGCCTGCGCGTCGTTAATGGCAATGGTCGGCAAATTGGTAAGTTGTTCCAGCGT +TTTGACTAACGGAAAGTGTAGCAATCCACCAAGATTATGCGGATTAAGCGCCAGCAAGCTGCCGTCACGG +ATTATCCCGGTCGAAGCGATGGCAACCCGCTGCGCATGAGCTTGCAACGGAGAGACTAATGCGGATAAGG +CATCACGCAAGGCTTCTGGTGTCTGGCTGGCTGGCGTAGGAAGTTCACGACGATCGCGGATCTGCCCGTC +AGCGCCAATCAGCGCGGCGGCAAGTTTAGTACCGCCGATATCAATCGCCAGTGTGGTCATAGCACCGCCT +TTTTCATCGCTGTGTTGTACCACTGACAAATGTGCTCAAGACGCGTGATTGCAGAACCGACCGTCACCGC +CCACGCGCCGTGGCGCATCGCATCCGCCGCCTGAGCAGGCGTGTTGTAACGCCCTTCGGCAATCACCCGA +CATCCGGCGTCGCTCAACGTTTTCACCAGCGCCAGATCCGGCTCTTCTGGCGTTTCAGGCGTGGTATAGC +CAGAAAGCGTAGTGCCAATAATTTCGGCTCCCAGCTTTTGGCATGCCAGGCCGTCTTCCGGCGTTGAGCA +GTCGGTCATCGCCAGTAAACCGTGATGGTGAATACGTGCCAGCAGCGTTTCAACAGGCACCGGACGCGGG +CGGTCGGTGCCGTCAATGGCGATAATGTCCGCGCCCGCCTGCGCCAGCGCATCAACATCTTCAATATAGG +CCGTGATGCGTACCGGAGAATCCTCCAGATCGCGTTTCACAATTCCAATAATCGGCACGCTCACCACCGC +ACGCGTGGCTTGCAGATTTGCCACACCTTCAATGCGAATGGCAACCGCGCCCGCCTGTTCTGCCGCTAAT +GCCATGGCGGCGACGATTTCGGGTTTATCGAGCGGGCTGTCCGGAACCGGCTGGCAGGAGACAATCAGGC +CACCGTTAGCAGCGATTTTTTGATCCAGTTGTGCAAGTAACGACATACATCTTCCCTTAGCGAAAGGCCC +GGTACATAGACCGGGCAACAGGATTAACTTTTGGTTTTGACTAAATCGTTTTTGGCGCTGCCAAACGGCA +CGGCACCGCTGAATGGTTTACCGTCGATAGCGTCATGAGTACGCAACGCTTCCGGGCGCAACCAACGCTG +AACGCGAGAAGGCATATCCAGCCCAATCAGCAGGATCACCACGAACGTCAGACTGAACGAGAGCGATGCC +AGCGCAGTACCCAGATCCAGACGTTGAGCGATCAACGCGCCGATGATTGGGGCCAGTGCACCGCCCAATG +CGCCAACGTTGTAGGTAAAGCCCAGGCCCGCTGCACGCTGGTCGGTATCGAAATAACCGCCAATCAGTTT +TGGTAAGATCCCGGCGATCCCTTGTCCAAGCATTTGCTGGAAGAACAGTAACAGACCGAGCACCCAGACG +TTTGCGCCGCCAATCGCAAATACCGGAATAATCAGCAGCTGCGAGGCCAGCAGGCTACAAACGTACGCTT +TGCGGGTTCCCAGCCAGTCACCGAGGAAGCCACCTACGCAGCATCCCACCGCCGCGCCAAAGCCACTAAA +GAACAGCACATTGGCTACAGTATGCGGGTTATAAGCCAGATCGGTTTTCAGATACGTTGGCAGCAGCGCC +TGAATCGGCCATGAGTAGAGGAAAGCAAACAACACGACCACCATCAGCATTACGCCCGTTGGCCAGCGTT +TGCCTGCACTCTGCACCATAAAGCTGATAAAGATTGCGGCGCATAACAGCCCAAGAACAGCGACGATCGC +GGCATTTTGCAGGTTACCGGCGAAGCAGAACCACAGCGCAGTAGCCGCCGCCAGTGTCATTACGATATTG +GCAATGCGATGTTCACCACGGTAGAGAATATCCACCATTGTGCGTACTGGTGCTTTACCTGCGTGTTTCT +CTTTCCAGTCTTCCGCTTCCGGGATGTTTTTACGCAGCCAGAGAGCAAAGATGATTGGCAAAATGCCGAT +AAAGAACAGCGCACGCCAGCCCCAGACCGGAACCACCAGGCTATAGACCTGAGCGGCAACGACGGCCCCC +ACAGAGAAGCCTGAAATCAAAAAACCACTGGCTTTGTTACGCAGATGTTTTGGCCAGCTTTCAATGACAT +AGGTGGCGCTGGAACCGTATTCACCCGCCATCCCCATGCCGATGACCAGACGAGCGATAAACATGGTGAT +GTAGCCTGGCGCAAAGCCGCAGGCCAGCGTCCCGGCCGAGAAGAGAACGATGCTGGTGACCATTGCCAGA +CGACGCCCGTAGCGGTCACCCATAGCGCCGAGCATCAGGCCGCCGAACCAGCGAGAGATAAAGGCTGCAG +AGATCAGACTTGCCGCCTGCACCGTCGTCAGCCCGAATTCACCTTGTACTTCGGTGAGTACCAGGGCGAT +TAAAACGAAATCAAAACCGTCAAGCAGATATCCCAACCAGGCAGCGGAAAATGCGCGCCATTGTGCACGG +TTGAGATGGCGATACCACGGGATATTCTGGGTTGTAGTACTCATTGTGAGTCTCCCGCGGTGGGCGATGC +CCACACGCTTTGGTATGAAAATTGTAGGGTACAGATGCGTTTATTTCCCCTCACCCGGTAGGGGCGAGCG +AGGGGAAACAACTCACCCGCGCTCTTGCATCAACTGCTGGGCCAGCGCCTTCAGTTCTGGCAGATATTTT +TCATCTACCGGTCCAAACGGTTTGCGGCACAGCGGCACAGAAACGACATCCATATAATGGAGGACAGTTT +TCAGGCCGCGGAATACGCCCGTTTTGATCAGTAAATCAATGACTTTATTGCATTCAGTTTGCAGTTTCTG +CGCGGTCTGGATATCGCCTTCTTTCAGCGCCTTAACGATCCCCTGATAGCGCCAGCCCATGATGTTGTAG +GTACTGCCGATACCACCATCAGCGCCCGCCAGCAGACCAGAGGCGAAGATTTCGTCGTAACCGTTATAGA +GCACAAGATCAGGATGTTCACGACGGATCTGCTCCATCTGATAGAGATCGCCAGAGGTCTGTTTCAGCGC +ACCTACGCCAGGCAATGTAACAAGTGTGTTGATCTGATCCAGGGTCAGTTTTACCCCACTCAGGGCTGGA +ATGTTGTACACCACCATCGGCAAACCATCCGCCGAATCAATAATTGCCCGATAGTGATCGCAGTGTTCTT +CAAAGCTGAAAGGATAGTAGAACGGCGTGACGGCGGAGACGGCATCGAAGCCATAACGTTTAGCCGATGC +CGCAAGTTGTTGGCTTTCGGCGGTGCTGACGCAACCGACGTGGGCGATGAGTTTAATCTTACCTTTCGCC +TCTTCGGCGACGATTTCCAGTACCTGTTCACGCTCGGAAAGGCTTTGTACAAAGGCCTCGCCGGTCGAAC +CACCCACGTATAAACCGTCGATGCCCTGCTGAATATTGAACTGAACCAGGCGACGCAGACTCGCTTTATC +CAGTGCTTGTTGTTGGTCAAAAGGAGTCAGGAGTGCAGCCATTACGCCACGTAAATTCGTTGCCATAAAT +ACCTCTGAAGTGATGCTTGTCTGATAAACGATATACCTTTATACCTGTTATACCAGATCAATTAAGCAAC +ACCCCATACAGAAAGCTTATAATGCGATCTGCTTCACTAAAGTGGCATTATTTCTTTTTGTTGGTGGTCT +GACCGAAAGCGTGCCAGGTAGCAGAGACGCTGTTGAGATGCGATTGCAACGCACGATCGGCTTCGTCAGG +ATCATGACGGCGGATCGCATCAACGATCGCAATATGCTGTTGATAACTAACGTTGTTATGTTCGTGCAGT +GCCTGATCGGTAACCGTTGGGCGTGCGGCAATAAGCCAGTCGAGCAGGGCAACGTGGATCGCCATGAAGA +TTGGGTTACCGGGGATCTCCGCCAGCACGCGGTGGAAATCAACGTCTGAACGAATGAATGCCGCGTTGTT +ATCCAGCGACTGACTGTTGATTTCCAGTGCTTTTGCCAGCAAATCGATTTGCTCATCGGTGGCATGTTCA +GCCGCATAGCGCACCAGACTGGATTCAAAGAACAGACGTAATTGTTCGAAATGGGCAATCCCACCGGGAT +GAGAAAGGAAATCTTTCGCCATGCCGGAAAGCTCACCGATGATAGTGTCCGCAGAAGGACGCGAGACGCG +AGCGCGTTCGCCGTTGTTTATTTGCACCAGACCTTTGCGTTTTAACGCTGCCAGCGCTTCACGCACCGAA +GGACGCCCGACGTTAAAGAACGCCATCAGTTCGCGTTCAGACGGTAATTGTTCACCTTCGCCAAATTCAC +GACGGCGGATCATCTGTTCCAGCTCTTCTTCCACCATTTCGGAGAGTTTTTTACGCGCCAGCGGGCGGCT +ACGCAAGTTGCGACCAATTGCAGGTGAAGAATCTTCGGTTTGCGAATCAAATGCGTTCATAAGGCCCATT +CTGTAAGGTCAGTGTGATTAACATCATCAGTGACATCCTATCACAGGATTGAAAGTAGGGGAAAATGGCA +GGGTTTTCTCTTTGTGCCTCATCATTACCATAATTAACGGAATAATTAACTATTGCGAAAAATTAATGTA +ACGCAGATAAAAACATCCCGTTTGAATTATTTATAAGACTATTCACGAGCATTATGAATATTATGAATGT +GTTCTTACAAAATAATCATAAGCGCATATTTTTTAATGAAAAATCACCTCACCTACAATTAAAAACACGA +CATCCGCACCATAAATAGCCTTGCAAAAAATATAACATCGTTGTTTTCAATCTGCCGTTTATGGGATTGA +CCGTTTTCTTTTGACACGGAGTTCAACAATGTTCGGCATAATTATATCTGTCATCGTATTAATTACGATG +GGCTATTTGATCCTGAAAAACTACAAACCTCAGGTGGTGCTGGCTGCCGCAGGTATCTTCCTGATGATGT +GCGGTGTCTGGTTAGGGTTCGGTGGTGTACTCGATCCCACCAAAAGCAGCGGCTACTTGATCGTCGATAT +TTATAATGAAATCCTGCGCATGCTGTCCAACCGCATTGCCGGATTGGGGCTGTCGATTATGGCGGTGGGC +GGTTATGCCCGCTACATGGAGCGCATAGGGGCCAGTCGCGCGATGGTGAGCTTGTTAAGCCGCCCGTTAA +AACTCATTCGCTCGCCGTATATTATTCTGTCGGCAACTTACGTCATCGGCCAAATCATGGCGCAGTTTAT +TACCAGCGCCTCCGGTCTGGGTATGTTGCTGATGGTCACCTTATTTCCGACGCTGGTGAGTCTGGGAGTA +AGTCGTCTCTCTGCGGTGGCAGTTATCGCAACCACGATGTCCATTGAGTGGGGGATTCTGGAAACGAACT +CCATTTTTGCTGCCCAGGTAGCGGGAATGAAAATTGCCACATACTTCTTCCACTACCAGCTTCCGGTCGC +CTCTTGCGTCATTATCTCGGTGGCGATCTCCCACTTTTTCGTGCAACGCGCTTTTGACAAAAAAGATAAA +AATATCAATCACGAACAGGCAGAGCAAAAAGCTCTCGATAATGTCCCGCCGCTCTATTACGCCATTTTAC +CTGTGATGCCGTTAATCCTGATGCTCGGCTCGCTGTTCCTCGCCCACGTCGGGCTGATGCAGTCAGAACT +GCATCTGGTGGTGGTGATGTTACTGAGTTTGACTGTGACGATGTTTGTTGAGTTCTTCCGCAAGCATAAC +TTGCGCGAAACAATGGACGATGTGCAGGCGTTTTTTGACGGCATGGGTACGCAGTTTGCCAACGTGGTAA +CGCTGGTGGTCGCGGGTGAAATATTTGCGAAAGGCTTAACGACGATTGGCACTGTCGATGCGGTTATCAG +GGGGGCGGAGCATTCTGGTCTGGGCGGTATTGGCGTGATGATTATTATGGCGCTGGTCATTGCCATTTGT +GCCATTGTGATGGGCTCTGGCAATGCGCCGTTTATGTCATTTGCCAGTCTTATTCCGAATATCGCAGCCG +GACTACATGTACCAGCGGTTGTAATGATTATGCCGATGCATTTTGCCACGACGCTAGCGCGCGCGGTTTC +GCCGATTACTGCGGTGGTGGTCGTTACGTCAGGAATTGCAGGCGTTTCGCCTTTTGCGGTGGTGAAGCGG +ACAGCGATCCCCATGGCAGTCGGTTTCGTGGTGAATATGATTGCCACAATCACGCTATTTTATTAAGTCA +TTAAAAAGACAAAACAGGCCGCCTGGGCCTGTTTTGTATTACTTCACAACGCGTAATGCCGGTCGACCAC +CGCGTGGTGGCTGCGGAGGTTCATCGTCAGGATGAGTGTCATCATCGTGATCTGGCTTGTCGCCATCAAT +AACCGACATAACGGTTTCGTTGTCTGCCGATGCCTCTTCATCATTCATGATGCTGGTATCTTCATCGTAG +GCAGCTTCAGGCTCAAACATCGTGCCTGCGCCATTTTCACGGGCGTAGATAGCCAGCACGGCAGCCAGCG +GCACAGAAACCTGACGCGGAATGCCACCAAAGCGCGCGTTAAAGCGCACCTCATCATTCGCCAGTTCCAG +ATTGCCGACAGCACGCGGCGCAATGTTGAGTACGATTTGCCCGTCACGCGCATATTCCATAGGAACCTGC +ACGCCAGGGAGCGTCACATCCACCACCAGGTGCGGCGTGAGCTGGTTATCCAGCAACCACTCATAGAATG +CACGCAGCAGATAGGGACGACGTGGTGTTAGCTGTGACAAATCCATACAGATTAACTCCGGCCCAGACGC +ATTTCACGTTCTGCTTCAGTTAAAGAAGCAAGGAAAGAGTCACGCTCAAAGACGCGGGTCATATAGCCTT +TCAGCTCTTTCGCACCCGGGCCGCTGAACTCGATGCCCAGTTGCGGCAGACGCCACAGCAGCGGAGCAAG +ATAGCAATCGACCAGGCTGAACTCATCGCTCAGGAAGTACGGCTTCTGACCGAAGACCGGCGCAATCGCC +AGCAGTTCTTCGCGCAGTTGCTTACGTGCGGCATCTGCTTCAGAAGCTGAACCGTTGATGATGGTGTTCA +TCAGCGTGTACCAGTCTTTTTCGATGCGATGCATGTACAGACGGCTTTCACCGCGAGCTACCGGGTAAAC +AGGCATCAGTGGCGGATGCGGGAAACGCTCATCCAGATATTCCATAATGATGCGAGATTCCCACAGGGTC +AGCTCACGATCCACCAGGGTCGGAACGCTCTGATTCGGGTTGAGGTCAATCAGATCCTGAGGCGGATTGT +CCTTTTCCACGTGTTCGATCTCGAAACTTACACCTTTCTCAGCCAGCACAATGCGGACCTGATGGCTATA +GATGTCAGTAGGACCGGAAAACAGCGTCATTACCGAACGTTTGTTGGCAGCGACAGCCATGAAAACCTCC +AGGTATAGTCAGAATTTTTACTGCTACCAGCCACCAGGTGGCCAGTCAGAAGTTGTGTTACCCAATAAGG +AACGACTCTCTTTGTTCGAAAATCAAACAAAAAATGAGCAATACCCGACATTTGGGCAGAAAATTGGATG +ATAGTTTACCAGATTTTGCGACCATTGTGGTGAGTCGATGCCGGAAATGGGGAAAAAGAGATGCGCTTTA +GTCTGAAATAGTTGACTTAGTCCCTTATTGGCGATGTGGTTTTTGTTTTACCTGTCTGTCAGGTGGCAGC +AAAAAGCAACTTTCCAGTTTTTACGCTGATTCAGATTTTAGCTATAAAAAAACCCGCCGAAGCGGGTTTT +TTCGAAAATTGTTTTCTGCCGGAGCAGAAGCCAATTAACGTTTGGAGAACTGCGGACGACGACGTGCTTT +ACGCAGACCGACTTTCTTACGTTCAACCTGACGAGCGTCACGAGTAACGAAGCCAGCTTTACGCAGTTCA +GAACGCAGGGACTCGTCGTATTCCATCAGAGCGCGGGTGATACCGTGACGGATCGCACCAGCCTGACCAG +AGATACCACCACCTTTAACGGTGATGTACAGGTCCAGTTTCTCAACCATGTCGACCAGTTCCAGCGGCTG +ACGAACTACCATGCGGGCAGTTTCACGACCGAAGTACTGTTCCAGAGAACGTTGGTTGATTACGATTTTA +CCGTTGCCCGGTTTGATGAAAACGCGAGCTGCGGAACTTTTGCGGCGACCAGTGCCGTAGTATTGATTTT +CAGCCATTGCCTATAATCCCGATTAGATGTCAAGAACTTGCGGTTGCTGTGCCGCGTGGTTGTGCTCGTT +ACCCGCGTAAACTTTCAGTTTACGGAACATAGCACGACCCAGCGGGCCTTTTGGCAACATGCCTTTAACC +GCGATTTCAATCACACGCTCAGGACGGCGAGCAATCATCTCTTCAAAGGTCGCTTGTTTGATACCACCGA +TGTGGCCGGTGTGGTGATAGTACACTTTGTCAGTACGCTTGTTGCCGGTTACAGCAACTTTGTCAGCGTT +CAGAACGATGATGTAATCACCGGTATCTACGTGCGGAGTGTATTCCGCTTTGTGCTTACCGCGCAGGCGA +CGAGCCAGTTCAGTAGCCAGACGGCCCAGAGTTTTACCGGTCGCGTCAACAACATACCAGTCGCGTTTTA +CGGTTTCTGGTTTAGCTGTAAAAGTTTTCATTAAAAGCTTACCCAATAAATAGTTACACGTTGGTGAACA +CCCAAACGTCTTCAATTGTTGAGGTTCACACGACAAAGTCCGGCAAACCTACCCCTTCGAATAGCCTATG +CCAGCACACAAAAAGTTTTGGGAAAAAAACTTTCTTGTAACGTGGGGTCGCAGGATTATAGAGAAGTCGG +GGTCAAAGATCGACCCCTTTTTGTGATTTGTGACAGGTTTTAACCCGCCAAATGCTCGCGCTTCAGATAC +TCTTCGCTTTGCATCTCTTGCAGACGTGACAGGCAACGCTGGAACTCAAACTTCAGCCGATCGCCCTGAT +AAATTTCATACAGCGGCACTTCTGCACTCACCACTAATTTGACATGGCGCTCGTAAAACTCATCCACCAG +CGCAATAAAGCGCCGCGCTTCGCTCTCCATCAACCGCGTCATAACTGGTACATCAAACAACATGACCGTA +TGAAAGAGACGTGAGAGCGCAATATAGTCATGCTGACTGCGGGCGTCGACGCACAGCGTAGTAAAAGAGA +CCGCCAGCGTCTGGTTCTCGACGCCCATTGTTGCTAATGGCCGATGGTTGATTTCTAACGTCGGTGAATT +TTCTCGTTTCCCCCCCGCCAGCGCCAACCATAGTTTATCCATTTGCGCCCGGGTTTCATCGTGAAGTGGC +GAAAGCCACAGATGCGCCTGAGTGAGTGTACGCAGACGATAATCAACACCAGCGTCCACGTTCATTACAT +CACAATGCTGTTTAATGGCATCGATTGCAGGCAGAAAACGCGCACGTTGCAGGCCATTTCGATAAAGTTC +ATCCGGCGGAATATTTGACGTCGCTACCAGGGTAATACCGCGAGCGAACAGGGCTTTCATCAGACCGCCA +AGTAGCATGGCATCGGTAATATCAGAAACAAAAAATTCGTCAAAACAGAGCACGTCAGTTTCGGCTTTAA +AGCGATCGGCAATAATTTCCAGCGGATCGGTCTGCCCCTGTAAGGCAGTTAGCTCTTCATGCACCCGCAG +CATAAAACGGTGAAAGTGCAGGCGCTGTTTCCGCTCTCCCGGCAGGCTTTGATAGAAAAGGTCCATCAGC +CAGGTTTTCCCGCGTCCTACACCGCCCCACATATATAAGCCACGCACTGGCGTATGCTTTGTGTCTTCGC +GTTTACCCCACAGCTTACCGACCCGCGCCATTAGCCCACTCGTCCTGGGGGCTGGTGGCGTGCTATTGAT +GAGTTCCTGATAAATAATTTCCAGGCGGCTGACGGCCTCTTTTTGAACGTCGTCGGGTTGATGGCTGCCT +TCATTAAGCGCCTTCAGGTATTGCGATGTTGGGGTAACGCTTTGCATGATCTTATTGTTATTCCTTGAAT +AATCGGTGCGCCGTTGTTCACGGTTGACGAAAAAAAGGCCGTTCTACACTACGCGATATGCAGTCGGGAT +TCCACTTCTGTGGAATTAACGGTTATAGTGGCATAATCAGCCGCAGGCATGGAGCCTGAAGCCAACACCC +TACGGAAACAAAAGACAACGGGAGATGTTCATGACCTGGGAATATGCGCTAATTGGGTTAGTCGTCGGCA +TCATTATTGGTGCTGTGGCCATGCGTTTTGGTAATCGTAAACTACGCCAGCAACAGGCGTTGCAGTACGA +ACTGGAAAAGAATAAAGCTGAACTGGACGAGTATCGCGAAGAGCTGGTTAGCCACTTTGCCCGCAGCGCG +GAATTACTGGATACCATGGCGCACGACTATCGCCAGCTGTATCAGCACATGGCAAAAAGCTCCAGCAGCC +TGCTGCCGGAACTGTCTGCTGAAGCAAACCCGTTCCGTAATCGTCTGGCAGAGTCTGAAGCCAGCAACGA +TCAGGCACCGGTGCAGATGCCTCGCGACTATTCTGAAGGCGCATCCGGCCTGCTGCGTACTGGCGCGAAG +CGCGACTAATTTATTTTTCGGGCGCAGCCATTGCGCCCTCCTCTTCTCTCCCTCCCCGACTATCATTTAA +TCTGGTGTCTCATTGTTAGCCGTCTGAAAATTCAATAACATCAAACTGTTTTGAATCTCTTTTCTTATCA +TTCAGGTACGAGAGCAGGAATAATGAAAAAACAAACCCAGCTGTTGAGTGCATTAGCGTTAAGTGTCGGG +TTAACTCTCTCGGCGTCATTTCAGGCCGTCGCGTCGATTCCAGGCCAGGTTGCCGATCAGGCCCCTCTCC +CCAGTCTGGCTCCAATGCTGGAAAAAGTGCTTCCGGCAGTGGTGAGCGTACGGGTGGAAGGAACGGCCAG +TCAGGGACAGAAAATCCCGGAAGAATTCAAAAAGTTTTTTGGTGATGATTTACCGGATCAACCTGCACAA +CCCTTCGAAGGTTTAGGCTCCGGTGTCATCATCAACGCCAGTAAAGGCTATGTGCTGACCAACAACCATG +TGATTAATCAGGCACAGAAAATCAGTATTCAGCTCAATGATGGGCGCGAGTTTGATGCAAAACTGATTGG +TAGCGATGACCAGAGCGATATCGCCCTGTTACAAATTCAAAACCCGAGCAAATTAACGCAAATCGCTATT +GCCGACTCCGATAAATTGCGCGTCGGTGATTTTGCCGTAGCGGTCGGTAACCCATTTGGCCTTGGGCAAA +CCGCCACCTCTGGCATTGTTTCCGCATTAGGCCGCAGCGGGTTGAATCTTGAAGGTCTGGAAAACTTTAT +CCAGACAGATGCTTCCATTAACCGCGGTAACTCCGGCGGTGCACTATTAAACCTTAACGGTGAGTTAATT +GGCATCAACACTGCAATCCTTGCGCCTGGCGGCGGGAGCGTCGGGATTGGATTTGCCATCCCCAGTAATA +TGGCGCGAACACTGGCGCAGCAGCTTATCGACTTTGGTGAAATCAAACGCGGTTTGTTAGGCATCAAAGG +CACCGAGATGAGTGCCGATATCGCCAAAGCCTTCAACCTTGACGTGCAGCGTGGCGCGTTTGTCAGCGAA +GTGTTGCCAGGTTCTGGCTCGGCAAAAGCGGGCGTCAAAGCGGGCGATATTATTACCAGCCTCAACGGCA +AACCGCTGAATAGCTTTGCTGAGTTGCGCTCTCGTATCGCGACCACCGAGCCGGGCACGAAAGTGAAGCT +TGGCCTGCTGCGTAACGGCAAACCACTGGAAGTAGAAGTGACGCTCGATACCAGCACCTCTTCGTCGGCC +AGCGCTGAAATGATCACGCCAGCGCTGGAAGGTGCAACGTTGAGCGATGGTCAGCTAAAAGATGGCGGCA +AAGGTATTAAAATCGATGAAGTTGTCAAAGGAAGCCCAGCTGCTCAGGCTGGCTTGCAAAAAGACGATGT +GATCATTGGCGTCAACCGCGATCGGGTGAACTCGATTGCTGAAATGCGTAAAGTGCTGGCGGCAAAACCG +GCCATCATCGCCCTGCAAATTGTACGCGGCAATGAAAGCATCTATCTGCTGATGCGTTAATGTCGTAAAC +CGGGCATCAGGCTTACGTGTGATGTCCGGTTAACTCGTGGTATGCTGCTGCCGTTCCCTTTTTTAATGAC +GCCTCCATCATGTTTGTGAAGCTCTTACGTTCCGTTGCGATTGGATTAATTGTCGGCGCTATTCTGCTGG +TTGCCATGCCTTCGCTGCGCAGCCTTAACCCGCTTTCCACTCCGCAATTTGACAGTACCGATGAGACGCC +TGCCAGCTATAATCTGGCGGTTCGCCGCGCCGCGCCAGCGGTGGTTAACGTTTACAACCGTGGTTTGAAC +ACCAACTCTCACAACCAGCTTGAGATCCGCACCCTGGGATCCGGTGTAATCATGGATCAACGCGGTTATA +TCATCACCAATAAACACGTCATCAACGACGCCGATCAGATCATCGTCGCCTTACAGGATGGACGTGTATT +TGAAGCATTGCTGGTGGGATCTGACTCTCTAACCGATCTGGCGGTACTTAAAATTAATGCCACTGGCGGT +TTACCTACCATTCCAATTAATGCACGTCGCGTACCGCACATTGGCGACGTAGTACTGGCGATCGGTAACC +CGTACAACCTCGGGCAGACCATTACCCAGGGGATTATTAGTGCCACGGGTCGAATCGGTCTGAACCCGAC +CGGGCGGCAAAACTTCCTCCAAACCGATGCTTCCATTAACCACGGTAACTCTGGCGGCGCGCTGGTGAAC +TCGCTGGGCGAACTGATGGGCATTAATACGCTGTCGTTTGATAAGAGTAACGATGGCGAAACGCCGGAAG +GTATCGGCTTTGCGATTCCTTTCCAGTTAGCAACCAAAATTATGGATAAGCTGATCCGCGATGGTCGCGT +GATCCGCGGCTACATTGGTATCGGCGGACGTGAGATCGCACCACTGCACGCGCAGGGCGGTGGTATAGAT +CAACTGCAAGGGATCGTGGTTAATGAAGTGTCACCTGACGGCCCGGCGGCGAATGCGGGTATTCAGGTCA +ACGATCTGATTATTTCGGTGGATAACAAACCGGCCATCTCTGCTCTGGAGACGATGGATCAGGTGGCGGA +AATTCGCCCTGGTTCGGTGATCCCTGTAGTAGTGATGCGTGATGATAAGCAGTTAACGCTGCAGGTCACC +ATTCAGGAATATCCGGCAACCAATTAAGTCGTGCGCTCAAAACAAAAAACCGGAGTCTGTGCTCCGGTTT +TTTATTATCCGCTAATCAATTACTTATTAACGAACTCTTCGCCCAGGGCGATATCTTTCTTCAGCGTATC +CAGCATACCTTCCAGCGCGTTCTGTTCAAATGCGCTCAGGGTACCGATAGATTTACGCTCTTCCACGCCG +TTTTTACCCAGCAGCAGCGGTTGAGAGAAGAAACGGGCGTACTGACCGTCGCCTTCAACGTAGGCACATT +CGACAACGCCTTGTTCGCCCTGCAGTGCACGAACCAGAGACAGACCAAAACGTGCAGCTGCCTGGCCCAT +AGACAGGGTTGCAGACCCGCCACCGGCCTTCGCTTCAACCACTTCAGTACCCGCGTTCTGGATGCGTTTG +GTCAGATCAGCCACTTCCTGCTCGGTAAAACTAACGCCAGGAACCTGTGACAGCAGCGGCAGAATGGTAA +CACCAGAGTGACCGCCAATAACCGGCACTTCAACTTCGCCTGGCTGTTTGCCTTTCAGTTCCGCAACAAA +GGTGTTGGAACGAATGATATCCAGCGTGGTAACGCCGAACAGTTTGTTTTTGTCATAAACACCGGCTTTT +TTCAGCACTTCAGCAGCAATTGCAACTGTGGTGTTAACCGGGTTAGTGATAATACCAATGCACGCTTTCG +GGCAGGTTTTCGCAACTTGCTGTACCAGGTTTTTCACGATGCCGGCGTTAACGTTAAACAGGTCGGAACG +ATCCATACCCGGTTTACGCGCTACGCCTGCAGAGATAAGAACGACATCTGCGCCTTCCAGCGCCGGAGTC +GCATCTTCACCAGAAAAACCTTTGATTTTCACAGCAGTAGGGATATGGCTCAGATCGACAGCCACACCGG +GAGTCACTGGAGCGATATCATACAGAGAGAGTTCTGAACCTGAAGGCAGTTGGGTTTTTAACAGTAGTGC +AAGCGCCTGGCCAATACCGCCAGCAGCGCCGAGGACTGCGACTTTCATCCTAAACTCCTTATTATATTGA +TAAACTAAGATATGTTGCTCCGCTGCCGCGACCTTAATCCACAAAATTGCCGTTTACAATGACCACATCT +CAAGAATGTGTAGTCACGCAAGTTTAGCGTTTATGCATTTAATTGCCGTAATCAGGAACCTAACTTACGT +AATTAACAGTCGCTTATGCATTAGCGCAACATTCCAACAGGTGGTGACAATATACCCTACCGTTCAGCCA +AAACAACATCAATTTGATAACAATTAATTTACTTTTAAGCAGAATTTGCATGCCGTGACGCAGGCATGTT +TCTCAATAACGAAATTTGATAAAATCCCGCTCTTTCATAACATTATTTCAGCCTTCTTCAGGGCTGACTG +TTTGCATAAAAATTCATCTGTATGCACAATAATGTTGTATCAACCACCATATCGGGTGACTTATGCGAAG +CTCGGCTAAGCAAGAAGAACTAGTTAAAGCATTTAAAGCATTACTTAAAGAAGAGAAATTTAGCTCCCAG +GGCGAAATCGTCGCCGCGTTGCAGGAGCAAGGCTTTGACAATATTAATCAGTCTAAAGTCTCGCGGATGT +TGACCAAGTTTGGTGCTGTACGTACACGCAATGCCAAAATGGAAATGGTTTACTGCCTGCCAGCTGAACT +GGGTGTACCAACCACCTCCAGTCCATTGAAGAATCTGGTGCTGGATATCGACTACAACGATGCAGTTGTC +GTGATTCATACCAGCCCTGGCGCGGCGCAGTTAATTGCTCGCCTGCTGGACTCACTGGGCAAAGCAGAAG +GTATTCTGGGCACCATCGCTGGCGATGACACCATCTTTACCACCCCTGCTAACGGTTTCACAGTCAAAGA +CCTGTACGAAGCGATTTTAGAGCTGTTCGACCAGGAGCTTTAATCTCTGCCCCGTCGTTTCTGACGGCGG +GGAAAATGTTGCTTATCCCTCTCAACCCCCTGCTTTCCCCTGCGATTAATTTAACGAATAGTGCGTTTTA +CTGCGACATGTCATTCACACAATGAATACATAAGGTAAAAAAAGCACATTATGCAAAATTCATTATCTAA +TTGAAAAAACTAGAATTAACGATAAATAACCGTATTTTTAATTCTTTTTTGTTATTAAAATTCACATTTT +TAACACTTAGTATCAACTGAAACAGTTAGCGCGGTATTAATTAGCTCAATAATTAGTGTATACTTGATTT +TGTGATATGGGTCACGAAACAAAGGCCCAGCTAAAAGATTATGTCGAGGTAAAAATCATGAAAATCAAAA +CCACTGTTGCTGCATTAAGCGTACTTTCTGTTCTCTCTTTCGGTGCATTCGCTGCCGACTCCATTGATGC +TGCACAAGCACAAAATCGTGAAGCAATCGGGACCGTATCCGTAAGTGGTGTGGCGTCTTCGCCAATGGAT +ATGCGTGAAATGCTGAACAAAAAAGCGGAAGAGAAAGGCGCAACGGCCTACCAGATTACTGAAGCTCGTA +GCGGTGACACCTGGCACGCTACGGCTGAACTGTACAAATAAACCCTCATCGTCTTGTCCGACGATATTGC +CCCCGGTTCGGGGGCTTTTTTTTGCGCTAATGACGAACATTAAAACGCAAATGCCCTTCCAGCTCTTCCT +CTGCCTCATCAAACAGCAATATTAACGCGCCAAAACGGCGACGCGTTTTCTCTCCCAGATGAACAAATTC +AATCTCAAGTGGTAGCGGCAGGACATCGTTCATTAACACATCCCATAGTGAGTCGAGATCGCGTACCTTA +TCTTTCGCCAGACCAAAGGTTTGGCTAAAGTCACGATAAAAATCCTCCTGACTCTCAATCTCATCAAAAT +CAAAGGTATAAATATTCATCTGTTGCCACCGTCACGTTTCGCGGCGAGTTCTGCCGTGCATCGCTAAGTA +TAGCCATGAAAAAACCGACGCTTTTGGCGTCGGTTTTGACTTAACTATCGGTCAACGCATGTTGATACTT +ATGGAGCATCCCCGCCAGCCGATTTACCGGTTCCGTCACCTGCGGTGGCGCTTGCCAGATGCGTAGCTTT +TCCTGGTAGATTTCCAGTTCTTCCAGCAACTGGCCAAAGTACCGACGACGTTTATCATCGCTACGGGCAG +ATATCACATGGTCTGCTGTGCGGCGCATTTGTCGGTGAAACGCCGATAAATCCTCGTTAACCGGGATCGG +TGCATCACGCAGGCGCTGGTGCGCGATAATCATCGTCAGCGCCAGGCGAAATTTCGGCAAATCCCCTGGG +AACTTATTCATCAGCAAAAACAGCTGCTGATAAAGTGCCGGGAGGTGGTTCTCTTTACGACGTGCCACAT +TGGTAGTCATCGCGGAAACAGCGGCAGAAACAAACTGATTAAGCAGTACACGTCCGGTCCTGTCGCGCGA +TTTATCCCGCACCAGCAAAATAACGGTGAACGCGAGCACACAGCCGACGATTTGCCCTAATGCGCTGTCG +AGAAACTGACTGAAATGGAAAGTCATCGGGTTATCCAGCACGATAATATTTATGGTGCTGGCCAGTGCCC +CCATCGAGCCCAGTCGCCGTTTCTGTACTTCTATACCGAGGAAGAATCCCAGCACTGCCAGGCTAATGCA +CAGCAGCAACATGCTCTGTTGGGTATTAGGGATAATCACCAAAAAGTAGAGCAGCCCTAACGGCAGCGCG +GCCAGCGTCCCGTAGATAAAGTCGATCGCCACCATGCGTGGATTCGGCAAACGCATTGCCAGTGACGTCA +CTACCGCAATCATCACCATTGCACCACTGCCGGAAGTCCAGCCCGTCCACAGCCAGAAAAGCGTGCCCAG +AATGCAGGAAAGTGTGGTTCGCCAGAAGTTAACCATTGCATGATGACGTTCGGCTGACTCTACTTTTACT +TCCGGTTCGCCTTGCAGGATCTCTTCTTCGGTGGCGTTGATTTTTGTGTTACTGATAACGCCGCGCTTGA +GAAGCTGATAACGCGTTGCCGCCGCGACCCAGCTATAAATGGTGACAGGCGTTTCCCGTTCCCCGGTCCA +GGCGATAACTCTCCGCAGGCGTTTGAGCTGCTTGTGGACGTCCTGCGCGGTTTCTACCGGCGTGTCAAAA +AATTCGCGGAAAGTATCAGTGATCAATTCCGGGCGCGTATTCTGAATAAGATAAGTTTCGCAGGATTGGG +TAATCAGCGTCAGCGATAGCGTATTGATCGCTTTTAAACGTCGATTGGCCCGCGCCCAGCGGGAAGATTC +CATATTCAGGTTGCTGCGCATGCCTTGTAGCGCCGTGGTGCGTCGCACCAGGTCGCCCCAGGCTTTATCG +ACAACTTCACCATCGCCATGCTTGATACAGAGTTGCATTAATTGATATTGCGCGACCAGCAAACTTTCCA +GCTCTCGATCCACTTCTTGTTTGATCGATCGCGGAGAAAAGAGCAAATCCGCCATAATCGCACACACAAT +ACCGATAACGATCTCGCTACAACGTTCGACGGCAAACTGCGGCGTAAGCAATGGTTCCGGCTGAATGGTG +ATCACAATGATCAGCGCGGTATAACCGGCCAGCCCCCACGCATACGAGTTTTCTATTCGTACCAGCGAGG +ATATCCAGGTACAAAAACCGGCCCAGATACAGCACACCAGAATCATCAATAATGGTGCGCGGATCATCGC +AATGATGATCACCAGTCCGGCAATACAGCCAATAAATGTGCCGATGATGCGCAAAAAGCCACGATAGCGA +ATAGCGCCAGAATACGGTTCACCTCCCGCAGCAAAGGCCGTACCGGCGGCAACAATCGCCGCTGTCAGTA +CCGCCCAGCGTGGCGTTTCCAGCTGGAAGTGAAAGCCAACAAACAGCGCCAGTACAATGGCGGTCGCCAG +TTTTACCGCAAAGCGAATATGTTGGTTAGCAATGGAGAAAATACCCATCGTGATTAACCAAACTCACGCA +GGCGATGGGCCATTTTACGGAAGAACGAATCCTGGCTTTCGTCGCGATCTTGTTTGCCAGTGACCACCAC +TGTAGCAGTGGTGCCCGCAGGCCAGATGTTCTCTTGCTGGTTGTCGAGACGAATACGAACCGGAACACGT +TGCGCAAGACGCACCCATTCAAGGTTAGAGTCTATAGTCGCCATCCCTTTGTCGTCACGCGTGCTGCTGG +CGTTGGTGACCCCTGCGGCAACACTATCAACAGTCCCTTTCAGCACTTTGTTACTGCCAAGCGGCGTGAT +CTCTGCACGATACCCCGGACGCACCCCTTCCAGCTTAGTTTCTTCCATATAGGCCAGTACATAGAAGGAG +TTCTGTTTCACCAGCGCAACCGCCGTTGATCCTCGAGTAATAAACTCACCGGTATAGACGTTGAGGTTGG +TCACCCAGCCATCTGCTGGCGCGCGGATCACCGTGCGTTCAAGATCCAGTTTTGCCAGATCGCGGGTCGC +CTGCGCTTTCGCTAACTGATGCAGAACCGTTTGTAGTACGTTGTTGGCCTGGTCGATCTCTTCGCGAGAC +ATCGCCTGCACACCGAGACGGTTACGACGTCCGGCCTCCTGGCGTTTCTCCTGTGCCAGTACCTGATAAT +AAGCAACATCGGCTTGCGCTTCCTCAAGCGCCTTTTGATAGCGCGGCTGGTCGATGGTGAACAGTATCTG +TCCTTTTTTCACCAGCTGGTTATCATGAACATTCACCTGGGTAATGAGTCCAGAAACGTCCGGCGCGATC +GCAACGACGTCAGCGCTAAAGCGCGCGTCACGCGTCCAGGGGGATTCGGTGTAATAGACCCAGGCATTAA +AAATTGCGATGAAGGCCAGAATGACTAATACGACCGTGATGGCCGTACGGGAGAATTTTCTTATTAGTGT +TTTCACTTCAACCTCAAACGAACAGTCGCGATATCAAATAAAACAAGCAGCAATAGAGCGCGGTGTTGAA +CAACGCCGGATGCCAGACAAAGTCGTAGATACCTGTTGGCACAAGTACCCGGCGCACCAGCCAGAAAATC +GCCAGTGATAAAAGCAATTCAAAAAATATCGGTGGGAAGGACAGCCCAAACACCACGATAACGGGAAACA +GACTCATGTTGACCTTGGTTGTAAAGAGAGAGCAGGCGTTATTATTTTCAGCATCTGTCGCCGCAGAGAA +GGGCATGGAAAGCCGGGCGAGAGCAACATTGCTGTAGATTGATATTTAATATATTAGCGTAACTGTTATG +CTGTTATCTATATTATGTGATCTAAATCACTTTTAAGTCAGAGTGAATAATGGAACGACTAAAACGCATG +TCGGTGTTTGCCAAAGTAGTTGAATTTGGCTCTTTTACCGCCGCCGCCAGACAGCTACAGATGAGCGTTT +CGTCCATCAGTCAGACGGTATCAAAACTGGAAGATGAGTTGCAGGTAAAGCTGTTAAACCGTAGCACACG +CAGCATTGGCCTGACCGAAGCCGGTAGAATTTACTACCAGGGCTGCCGTCGTATGCTTCATGAAGTGCAG +GATGTTCATGAGCAACTGTATGCCTTCAATAACACCCCCATCGGGACGCTACGCATTGGCTGTTCTTCAA +CTATGGCACAAAATGTTCTCGCCGGGCTGACAGCCAAAATGCTGAAAGAATACCCAGGTTTGAGCGTCAA +TCTGGTTACCGGAATTCCAGCCCCCGACCTGATTGCCGACGGTCTGGATGTGGTGATCCGCGTCGGCGCG +TTGCAGGATTCCAGCCTGTTTTCCCGCCGTCTGGGCGCGATGCCAATGGTGGTGTGCGCCGCGAAAAGCT +ATCTCACACAATACGGCATACCGGAAAAACCCGCCGATTTGAGTAGTCATTCATGGCTTGAATACAGCGT +GCGGCCCGACAATGAATTTGAACTGATCGCACCGGAAGGGATCTCGACTCGCCTGATCCCACAAGGAAGA +TTTGTGACTAATGATCCGATGACGCTGGTGCGCTGGCTGACGGCGGGTGCCGGGATCGCCTACGTGCCGC +TGATGTGGGTGATCAACGAGATCAATCGTGGGGAGCTGGAGATCCTGCTGCCGCGTTACCAGTCAGATCC +ACGCCCGGTTTATGCGTTATATACCGAAAAAGATAAGCTGCCGCTGAAGGTACAGGTCGTGATCAACTCG +CTGACGGATTATTTTGTTGAGGTCGGTAAATTGTTTCAGGAGATGCACGGGCGCGGGAAAGAGAAGTAAT +TCATATTGTACTGTTACGTTGTACAAACCTGTGCCAACGGGTTCCCCTCACCCTAACCCTCACCCCAAAG +GGGCGAGGGGACCGTTCGTGCACGTAGAAAGATTAATTATCCTTCTGAAAATAGTGAAATTATTACGCAG +TACCGCCAACAGTCAGGTTATCGACTTTCAACGTTGGCTGGCCCACGCCAACCGGCAAACTTTGCCCTTC +TTTACCGCAGACACCCACGCCGTTATCCAGTTTCAGGTCGTTGCCAACCATCGAAATCTGCTGCATGGTT +TCGATACCGGAACCAATCAACGTTGCGCCTTTCACCGGCTTCGTTACTTTACCGTTTTCAATCAGATATG +CTTCTGAAGTGGAGAAAACGAATTTGCCGGAGGTGATATCCACCTGACCGCCACCAAAGTTCGGTGCATA +GATACCGTACTCAACGGATTCAATAATTTCCTGCGGGGTCGATTTACCCGGCAGCATATAGGTGTTGGTC +ATACGCGGCATGGGCAGATGGGCGTAGGATTCACGGCGACCGTTGCCAGTCGGCGTCATCCCCATCAAAC +GCGCGTTGAGTTTATCCTGCATGTAGCCTTTCAGAATGCCGTTCTCAATCAGCACGTTGTACTGGCCTGG +CGTACCTTCGTCATCAATCGCCACCGAACCTCGGCGATCGACCATCGTGCCATCATCAACCACGGTACAC +AGTTCTGAAGCCACCAGCTCCCCGACCTGTCCACTAAATACTGAAGTGCCACGGCGGTTGAAGTCGCCTT +CCAGACCGTGACCAACCGCTTCATGCAACAGCACGCCCGGCCAACCTGCGCCAAGTACTACCGGCATGGT +GCCCGCTGGTGCAGCAACGGCAGAAAGATTGACCAGCGCCATACGCACTGCTTCTTTTGCCCATGCATCC +GCACGGACTTCGCCGTCGAGATCGGCAAGGAAGAATTCATAACCAAAACGACCGCCGCCGCCACTGGCAC +CGCGTTCGCGTTTGCCATCTTCTTCGACGAGAACGCTCACGGAAAGACGCACCAGCGGACGGACATCCGC +CGCTAGCGTGCCGTCGGTGGCCGCAACCAAAATTAATTCATAGACACCACTGAGGCTGGCAGTCACTTCC +TGTACGCGCTTGTCCGCTTCGCGGGCAACCTTATCGACGCGACGCAGGATATCCAGCTTCTCTTCACGGC +TCATGCTTTGCAGCGGATCTACCGAGGTATACAACGGGCTATGCTCTACCGCGCCCAGCGTCTGTACTTT +ACCATCACCACTATCACGGACGATGGTGCGCGCCGCTTGCGCACTCTGTTCCAGCGCCAGCAGGCTGATT +TGGTCAGCGTAAGCAAATCCGGTTTTTTCACCGCTGATTGCACGCACACCAACGCCCTGATCGATGTTGT +AAGAACCATCTTTAATAATGCGGTCTTCTAAAACCCAGGATTCGTGATAGCTCGACTGAAAATAGAGATC +GCCATAATCAAGGCGACGTTCGGCCAGTTGACCGAGGATCGCGAACAAGTCCTGATGTTTCAGGCCGTTC +GCCGCTAGCAATTGTTCACTTACCAGGTTAAGACTCATCGTTTTTGCTACTCGTTAGTTACTGCAGTAGA +GGATTTTTTACGGCTGCCGGATGCGGCGTGAACGCCCTATCCAGCCTACGGTTATGTTCCGGTTTGTAGG +CCTGATAAGACGCACAGCGTCGCATCAGGCAACGGCTGTCGGATGCGGCGTAAACGCCTTATCCGACCTA +CGGTTATGTTCCGTTTGTAGGCCTGATAAGACGCACAGCGTCGCATCAGGCAACGGCTGCCGGATGCGGC +GTAAACGCCTTATCCGACCTACGGTTATGTTCCGTTTGTAGGCCTGATAAGACGCACAGCGTCGCATCAG +GCAACGGCTGCCGGATGCGGCGTGAACGCCCTATCCGACCTACGGTTATGTTCTGGCTCGTTGGCCTTTG +GCAACGATTATCCTATGAGATTGGGGCAATTACGCGCCCTCGTCAAATCATTGCGCTTTTTCTTTACGCG +GTTGGCGCAACACTTCGTTGATTTGCGGATCGTCCAGCGGACCCGAAATGTGATAGCGCAAAATGGAGAC +TTTGCTCCACAGCGGCCCCAGCACTTTACTGGCGGCAAACACTGCCGCGCCAACAATGGGGTTAACCGCA +AAAGCCGCAGCCACGCCCACCGTCGCAGAAATCTCTGGTGCGACAACCGCTTCCATATTCAGGTCGCGAC +GTACCAGATTTACCGACCCTTTCATGGCGATATCCGCCTCCAGGCCATCCACCAGCGTGTCGTCGGTGTG +CATAACGCCGTCTTTAATCCACGCGGTGCTGCGAATGGAGTCAAAATAGAACCCTTCGCCAAAAGTGTCT +CTGAAATCAAAACGCAGCTTACGCATCAGGGCATCTACGCTCAATAAGCGCAGCAATTGCCCGGCATGTC +CGGTATTGATTTCGGTAATTTCGCCTTTACCCAGTTGAGTATGAATGATGCCATTCAACGTCGCTTCATC +TGGCTGCCAGGGTGCTTTGCGCCAGTGTAAATCGTAATCCACATTAAATGACGACTGGCGTATGGGCGTC +GTGACACCAAAAAATTCTGCGGCGGCATCAATTTTCTGCCCGCGCAGTTTTCCTTTCAGCGAGGTACGTT +CATTCCCCGGATTATTAACCCATTCACCATCGGCAGTAAGCCGCGAGAAACCAGTATCAATCAGTCCATT +GGTCAGCGTTAACGTATCGCCAGAAATGGTGATATCACTGTCAATGCGACCGAATTTTTGCCCCCAGAAC +CAGCACTCTGTGCATCGTATTTGGGCGTCCGGCCAGCCACGGAAGTTAATGCGCTCCGTTGTCGGGAAAG +GTGATGACGGCGTTGAATCACCACGAGTTTTCGCCACGCTCGGGTTGTAATAAAGATATTTGATATTCGC +CAGCCACGGCGCGTTATTACGCATCGCTAGCGTGGCGTTGATTTCACGCCCTTGCGCTTCAACCAGGGTG +CCATTTGCCGTCGGTTGCGAAACAATACTCAGGTTATTCCATTGCTGATTTCCCAGTGACAACATAGGCG +TACGTAACGTTATGTGTTGTGGGAAACTCGCTGCACCACCGACACTCTCCGCAGCGCCTTTCTGGAACAG +GGCCAGCCACTCGGCACCATTCATCGGCGGCATATTGAGTTCAACGCCACTTTGTTCCGGCAACGGCGGG +AGCGTTTTACTGTCTGCCGCCCAAATAGCACGATCGAGCGTCAGCTTTTGACCGAGCAACCAGCGGCTAT +TGAAATGATTATCCGCACCAGCCTGTCCGGTTAATTCAAAGCTGTTGAGATTGCCATCAACCTTAACGTT +TACCGCTAGTGGTTCACCCGCAGGTTTGGCTAACGGTGAAGGTAAGTGACTGCTCACATTCTTTAGATCG +CCGTTCAGCTCTATGTTATAGGTCGCACCAGCATGATAAGGCAGATCAATGCCCACTTTACCATCCCACG +CCACGCTGCCACTCAATGCTTCGTTCACCGCTTCAGGCAGAACGCCGGTTTTCGCCGGTTGCCAGTTACC +GTTGAGGTTTACCGCTACCTGGTAGGCTTTTGCCCCTTCTTTGGTGGAAAAATCCACGTTCAACGGCTGA +TTAAACCAGCTTGCTGTCAGTGGTTCACTTTGCAGATCGCTATTGATAAAGCTGAATTTACCGCTCAAAT +TTTTCAGGGTGCTGTCGAGTGGTTTGATAAACAGACTGTTATTACGCAGCGTCACTTCACCTTTCGCGGT +TACCAGTTCGCCGTTCAGCGGGATATCAAGATGTAAGCGAGCATTCACATCGCCGTCGAGCTGGAGTTCT +TGCAGGGTCGCACCCAGAGAATCTTTCAGCGGTGTCTCATCAAAGTAAGGGCCAACGGCTTTACCCGGAC +CTTTAATGTCAGCGTCAATCAGCAGTTTTTCTTTTGAGTAGTCAGGGATCACTGCGGTAAGATTACTCGC +GCGCACGCCGCCCAGATTAACGCCATCGGTTTTCATCCATAAACCGTCGTTAATAAAGTCCAGTTCAATA +TCAAGGTTAGTTAATGCAGGCCAGTCCGGCTGGAAGGCAAACTTCGCGTTGCGCAGCGGCACCAGCACTT +CAAACTGACCTTCGTTGTGTTTATAGGGGAAGAGTTGCGGATTGCCACCATAAACCAGCGTCGCGTTATC +CGCTTCACCGCCCTGAATCGCGCCACTTAAGTAATCAACCAGGTCTTTACCCATCAAGTTTTCCGGGAAA +TAGCGCCAGGCTTGTGAACCATCATCGGTACTGATGCCAGCCAGAATACCCAGCCAGGGTTCATCGTTAG +CAGGTTGCAGGTAACGAAAACCGCCGCGCGCATGGACGGCTTTGGCTTTAACGTCAATATTACGCCCATC +CAGCTGGAAACCTTTGTTATTGTTCAGCCAGCTTATAGTTGCCTGGCCGTCGGCGATTTCTAGTGGCGCA +CGGAATACCGTTTCGTAAGGCATCTTTGCCTGCTTCATCGACGCGGTAAGCAAACCATTTTCAACGCTGC +CGGAAAGCGTCCCGGAGAAGTGTTCCGCACCCGGTAATAATTTCCATTGCTTCCAGGCCAGATCGCTCCA +CGATGCCTGAAAACGGGTCTTGTCTGCCGCCTGAAGCGGGATATCCAGCGCCAGAGTGTTAATCTTGCCG +CTCGGTTGTGTGGAGCGCCAAACATCACCCAGTGCAGGTGAAAGTTTCGCGGCCAGCGGGCGTATGCCCT +CCAGGCCTGCCAGCTCCAGATTACTGGCGCGAATCCGGAGTTCGTCACTGCGTTTATTGTCTTTGCCGCC +AACGTCCTGTTCCGGTATCCAGGCCAGCGTCAATGCTCCGCTCGGCCAGGGTTTGCCGTCCATCGTGATC +CGTGTATCGGGAATAGAGAACTGCCAGCCCGGATTTTCACGCGTAATATGCGCGGTCAGATTATCCACCG +ACAGCGTATGCGTTTGCTTCTCGCCCAACCAGCTGGCACCGCCCTGTTTCAGCCAGACGTCACCGCCGGT +TACATCGCCTTTGTCGATCGTCATCCAGCCTTCAAGGGAGAACTGTGCCGTTTCCAGCGCAATATTGTCC +TGCATCCATTTACCGAGCCACGGCTTCAGGTCGATGTCATCCGCCTGGAGCCAGACGCGACCATTGCTTA +ACAACCCCTCATCATCGCGCAAATCCATGCGCACCTGCATCACGCCGTGCTGTCCGGTAAGGCTGGAGAG +GCTTACCAGGCCTTCCGCACGGTGTCGACGTGGATCGTTCAGCCAGGTGAGTTGTGGGATCGCCAGCTCG +GCGCGCTGACCGGATGGCGTCAGGAAACTGACTTCACTGTCGCGAAGATCGAAATGGTCAAATTGACGAA +GAAACAGATCGCTGATGTGACTGGCTTCCAGACTGTCATCACTACCACCGCTGGTGATAGGAGTGTTGGT +GCGAAAGCGCAGCTGCCAGAAAGTGAGGTCGCGAAACTGCCAGCGCATATGTAACAGGCTCTGCCAGACA +TCCAGCGCCAGAGTAACGCGTTTAACCGAAAATTCGCCGCCATCTTTTAGTTCTGCACGGATGTCGTGTG +CTTCAAGCGTCGGGCCAAAATTCTGCCAGCTGGCTGAGAGCTGACTGGCTTCTACCGGCATGCCAGTCGC +GGATTCTATTTTGTTGAGGATTTCCGGACGCCAGGCGTCAAGATGCGGTAAAGCAATACGCAGGCCGCTA +ACCAGCAGGGCAGCGATCACAACGAGCGCGGCTCCAGTAAGCAGTAAAATCCCCGGCAATCGCCTCACCC +GTCACTCCTTGTCTGCTAAAAATGTGACTCAAAAACCCTTTGCCGGATGGCGGCCCAGCATCTGTTTACA +TCATTACGACGTCAAACTGCTCCTGGTTATAGAGCGGTTCAATTTGTACTTTAACCTGTTTGCCAACGAA +AATTTCCACTTCCGCCAGCGAGTGTGACTCTTCGCCTTTCAAGGCTTCAGCTACTGCCGGAGAAGCATAG +ACCAGGAAACGGTCGGAGTCGTAAGCATGGTGGACACGAACAATCTCGCGCATGATTTCATAGCATACCG +TTTCCACGGTTTTCACCGTTCCGCGACCGTGGCAGGTTGGGCATTCGTTACACAGTACGTGCTCAATGCT +TTCGCGGGTGCGTTTACGCGTCATCTCCACCAGCCCCAGCGCCGAAAAACCATTAACGCTGGTTTTCACC +CGGTCTTTGCTCAACGCCTGCTCCAGCGAGTGCAGCACTCGGCGGCGGTGATCTTCATTATTCATATCGA +TGAAATCAATAATGATAATCCCGCCCAGATTACGCAACCGTAACTGGCGAGCGATAGCCTGCGTCGCTTC +AATATTGGTATTGAAAATGGTGTCGTCCAGATTGCGATGACCGACAAACGCTCCGGTATTGATGTCCACG +GTGGTCATCGCTTCGGTCTGGTCGATAATGAGATAACCACCGGATTTCAGTTCTACTTTGCGTTCCAGCG +CTCGCTGGATTTCGTTTTCGACATCAAAGAGATCGAAAATCGGCTGGCGTCCTGTGTAATGCTCCAGCTT +GCTTGTCATCTCGGGAATGTACTCCGAGGTGAACTCAAGTAACGCTTCGTAAGTCAGGCGTGAGTCAACG +CGAATGCGGTCCAGTTCGGCATCGGCGAAATCACGCAGAACACGCTGCGCCAGCGCCAGTTCGCCGTACA +GCTGATAACGGGTCTGCGGGCGTTTTTTACGCTCCATAACTTTGGTCCAGACGCGTTTCAGATAAGCGGC +ATCGGAGGCCAGTTCAGCCTCGCCAACCCCTTCCGCTGCGGTACGGATGATAAACCCGCCCTGCTCGTCG +CAATACTCTGCGACCACTTTTTTCAGGCGTTCACGTTCTGATTCGCTTTCAATACGTTGGGAAACCCCAA +CGTGAGAAGCCCCTGGCATAAACACCAGATAGCGAGAAGGGAGCGTGATATCGGTGGTCAGGCGCGCACC +TTTAGTGCCAAGCGGATCTTTCACCACCTGCACCATCAGATCTTGCCCCTGACGAACCAGTTCCGAGATG +TCGCGCACCGTGAATTGCTTTTGTTCTTCACCCGCCACACATTCGGTGTGCGGCATGATGTCGGATGCAT +GAAGAAACGCGGCTTTATCCAGCCCAATATCTACAAAAGCCGCCTGCATACCCGGAAGTACACGACTTAC +ACGACCCTTGTAGATATTGCCTACTATTCCGCGTCGCGCCTCACGTTCAATATGAATTTCCTGCAGAATA +CCGCCATCAATATACGCCACTCGCGTTTCCGAAGGCGTTACGTTTACTAACAATTCAGCCGTCATGTTTA +TCCCTTTTCTCACGCAGTGCGTTAAAATTACTTAATAATTCATACGTTTCAACCAGCGGTAAGCCGACTA +CGGCGTGATAGCTGCCATTTATCTTCCTGACAAAACAGCCACCCAGCCCCTGAATACCGTATGCACCTGC +TTTATCTAACGGTTCATCGCTGGCGACATAGCCCGCGATGTCTTCGTCTGTTAACGTTCTGAAAGTCACA +TCGGTGACCACCAGGCAATCGAGAATGTGCTGGCTGTCGGCCAACGCCACTGCTGTCATCACCTGATGGG +TCTGACCCGATAATTTGCGCAACATCTGCGCCGCATGCTCTGCGTCGCGCGGTTTCTCCAGCACTTCTCC +GTTCAGGATAACGATAGTATCCGCACCCAGCACCGGGAGATCCTTCGCCGTTTGCGCGACACCTGCCCGT +GCTTTCTCGCGCGCCAGACGCACAACATACTGCTGCGCGCTCTCCTGCGGCTGACGCTGCTCCTCAATGC +CCGTAACAATACGTTCAAAGGTCACGCCAAGTTGCGCAAGTAACTCCTGACGACGCGGAGAACCGGAAGC +TAAATACAGAGAAGTCATAGAAACCTTTATTGCACTGCAAACTGCTGACGGACTTTGCGCATCAGCAAGA +AAATCCACGGCCAGAGCACCCCATTGACTACACTACTCCAGAACACTTCCGGTCTGAAAGAGACGTTAAT +CACTAAAAACTCTGCCCAGAAAACAATAATATCCACCACCAGCGAAAGCAACATGACGACCAGCGCCTGC +TGCCATAATGCGAGGTTGCGGAAAAGCTGGTATTTCAGCGCCACCAGGTAAGCAATGATGCTCATCGCCA +ATACGCGTACGCCAAGCGTCGAGCCGCTGATCAGATCCAGTATGGCACCCATCACAAAACCTGTGCCCAC +ATTTACGCGATGAGGCAAGGCCAGGATCCAATACAACAAGATGAGTAACACCCAGTTTGGCCGGAAAACA +ATCAGGTTATCCGGCCAGGGCATGATTTGCAGCAACAGCGCAATGAGGAAAGAGAGCCAGATTACCCAGC +GTCCCTGGCTACGATAGCTCGCCACTATTGCCCTCCCGGCGCACGCGCAGGCGGTTGAGCACCACTTTGC +GGCGGCGTAGCCCTTTGTGGAGAGCGATTAGCAGCAGGCTGTGTCGGCGCAGCAGGCGCAGTAGCTGCAT +TTCCTGTCGCCGGTTGCTGCGGAGTCGGCTGAGCGATCCCCGTTGCCGGTTCAGGTAACTTTGGCCCCAT +CGCGTCTGGCGAAGGCAATACCTGCGGCATCATCTGCATCAGACGTTCATTAGCAACACGATGCACCTCT +TCCGGCGTCATCGGGTTAGCGCCGTTACGATCTGCCCCCCACAGCAGCAGCAGATAACGCAAACGTTGCA +GCCCTGCAGTCGGACGCGCCTGAATCACAGTATAAGCGCGCTGGGTATCGAGTTTTACGGAAGAGACAAC +CGCGACCGGATAGCCTTCCGGGAAACGACCGCCCAGACCGGAAGTCACCAGCACATCACCAACACGAATA +TCCGTATTCGCCGGCAGATGCTCAAGCTGCAAATCATCCGTACAACCGTTACCGGCTGCAATTACGCGGA +TATCGTTGCGCAGCACCTGGATTGGCAGCGCGTGGGTCGCATCACAAATCAGCAGCACGCGACTGGTCAG +TTTAGCGACGGCCACCACCTGACCAACAACACCTTTGTCGCTGATGACCGGCTGGCCTTCATAAACGCCA +TTAACGCTACCTTTATCGATAACAACTTGATCGCTATAAGGATCGTTAACCGTGGAGATAACCTGAGTCA +CCATTTTCTGCTCATCCTGACGCAGCGGGGAACCCAGCAGCTCGCGCAGACGCGCGTTCTCCTGTTTGTA +TTGTCCAAGCATCAGCAGTTCACTGTTTTTCAGCAACAGTTCCTGACGTAACGCCCGGTTTTCAAGTTCT +AATTGGTCACGCGAGGCCAGCGTCTGCGATACGCCATCCAGCAATTCACGAGGAGCATTGGAAACAAAGT +AGAAAGGACTGACGGCGGTATCCATATAAGTACGGATTTGACTGAACGTCCCCAGGCGGCTGTCGGCAAT +AATAATGCCGAGCGCCACCAGCACCGCCAGAATAAGGCGAATCTGTAGCGACGGGCCACGGCTAAAAATT +GGCTTCATAAGTTATGCGTATTCTCGTATCAGACCAGGCAGGGTAAACAGACACTTCCCCTGCCTGCATC +CGATTACTCTTCGCTGAACAGGTCGCCGCCGTGCATGTCGATCATTTCCAGCGCTTTGCCGCCACCGCGC +GCCACACAGGTCAGCGGGTCTTCAGCAACAACGACTGGAATGCCGGTTTCTTCCATTAACAAACGGTCAA +GGTTACGCAGCAGTGCGCCACCACCGGTGAGCACCATGCCGCGCTCGGAGATGTCGGAAGCCAGTTCCGG +CGGGCACTGTTCCAGTGCAACCATTACCGCGCTCACAATACCGGTCAGCGGTTCCTGCAGTGCTTCGAGG +ATTTCATTGGAGTTCAGGGTAAAACCGCGTGGAACACCTTCTGCCAGGTTACGGCCACGAACTTCGATTT +CACGGACTTCATCGCCCGGATAAGCCGAACCGATTTCGTGCTTGATACGTTCTGCGGTGGCTTCACCGAT +CAGAGAACCGTAATTACGACGCACATAGTTGATGATAGCTTCGTCGAAACGGTCACCACCAATGCGCACA +GAAGAGGAGTAAACCACACCGTTCAAGGAGATAACAGCAACTTCAGTGGTACCACCACCGATATCAACCA +CCATAGAACCGGTCGCTTCAGAAACCGGCAGGCCAGCACCAATTGCGGCAGCCATCGGTTCTTCAATCAG +GAAGACTTCACGGGCACCAGCGCCCTGCGCGGATTCACGAATTGCGCGGCGTTCAACCTGGGTCGCGCCA +ACCGGCACACAAACCAGAACGCGCGGGCTTGGACGCATAAAGCTGTTGCTGTGCACTTGTTTGATGAAGT +GCTGGAGCATTTTTTCAGTCACGAAGAAGTCGGCGATAACGCCGTCTTTCATTGGGCGAATGGCAGCAAT +ATTGCCCGGCGTACGGCCCAGCATCTGCTTCGCGTCATGACCTACTGCAGCTACGCTTTTCGGTGAACCG +GCACGATCCTGACGAATGGCCACCACGGAAGGCTCATTCAATACGATGCCTTGTCCTTTTACATAAATGA +GGGTATTCGCAGTACCCAGGTCAATGGACAAGTCATTGGAAAACATGCCACGAAATTTTTTCAACATACT +AAGGGATAATCCTGAAAGCTGGGGCGGAAAAGAAAATCCGCTTACTTTACCAACCACACGCAGCAGCGAC +AAGGCGCAAAAATCATCTGCTACGGTGAAAATTAGTGCAGTTCGTTTCCTTTGTTACAAATCTCTGCCTG +AGTCCAGAAAGGCTTAATGCATCAGCAGCATTCCTCGCCTGTTTGCAACCGCGTAAGGTCATTCATCTGC +ATATGTGCTGCAACAATCTGGCGAGCAGACAAGCACACTCCCATGAGACGCAGCGCGCATTATTCTACGT +GAAAACGGATTAAACGGCAGGTTAAACCGAGTATCTTTGTGAATATTTTTTCACGTTAGTATCAAGTGGC +TGTGAGGACGCGAAAAAATCCCCTTGCCCGCCTGTAACACCGCGCTGAATCAGGGTCTGCCACTCGCTTC +GCGAACGCACGCCGGTGGCGTAAACCTGGGTGCTGGTCCCGGAGCAGGCTTCCACCAGGCTTTGAACCAG +CAGCTGGTTCTCCGTTCGCTTCTCAATGTTTCTGACCAGCCCCGGATGGAGCTTGAGTAACTCAACATTA +AGTTCTTTGATCCAACTGGTACTTACCAGCGTCAAACCAGCCTGGTTGACGGCTACCCGTACCCCTAAAG +CATTCACTAAACGAATAACAGGTTGTAAACGACTGATATGTTGACCTACATCGGCCTCTGCAAGTTCAAT +AATTATGCGTTTTCGTTGTGATTTTTCACATTGCATTAACGTATCGCGCAGCCAACGCTGAAAACGCGGG +CGAATCAGCGACTCAACGGTAACCTGAATCGCCAGATTTTCCTCTGGCCAGTAACGCAATAGTGGAATAA +GACGGCTGATTTGCAGACGGTCATACTCTTCCGATAAGCCAAACTGCAAGACCATCGGCATATACTCCGC +CGAGCTAACCTCTTCATTACCATCGAAGATGCGGCACATGAGTTCGCGATGATGAACCTGACCTTCGCGA +GTAACCGCCGGTTTTTGATAAAGGCGCGGGCCGCCGCGACTGAGCATTTGCTCGATAAGCGTACGCCAGC +GAACATTACCGCGTCCTTTTTCAGGCAACGAGTCATCGTAAATAGCCCAGCTATTGCCGCCCTGCAATCC +CGCATTACGCGTGGCAGACTCTGCATGTTCCATTACCTGCTCGGTATCCTGACCACTACGCCAGGCGCAG +ATACCAATGTGGATCATATCGTCGCGATCGAGCATTTTATTGTTCGGCAAGGTATCAACGGCTTTGATTA +ACTGACCGGCGATGCTCTCTGCCTCTTTTAACGTCCGGTGCGGTAACAGCGCAGCAAAATCACTGCGGTG +GTAACGCGCCAGCAGTGCGCCAGGGTAGCGCATCATAAATGTCGACAGCAGATTCGTCAGAGTGAAGAAC +TGTTCTTCAACCTGGCTGTGCCCCCAGGTATCGCTCAACATATTGAAATCCGGCAGACGAATCATCATCA +CGATCCCGTGGGTACCTACTTTCTCCTGATCTTCCAGTAACGTTGCTAACTGATTATCGAAAAAGAGTCG +GTTATTGAGGCCGGTTTTCACGTCCTGGGCGGCATAAGAGCGGATCAGCGTATCAAGACGGCTGTGTTGT +TCGCGTGCGTTCTGAATTTCACGAAGCAGCGTATCCAGCGCACTGCTGGTTCTGGGCGGCCATTCATAGA +TGGTTCCCAACACATTAGAGCCACGCTCACCGTTTAAGATACGAGTAGCCCGGGTTTCCAGCAATTCTTG +CCCGGCAAGTTGCCGTTGTAACCAGCGTACCGCCAGGAAGAGCATAACAATGATAAAGCCAATCGCCCCC +GTGAGCGGCGCGGTGGTCATCAACGAATGGAAATAGTTGCCCATCGGATCCTGATAAACCAGACGCAACG +ACATCCCCGGATGCTTTATCAACGGAACGCTCAGTTCGCGAAACAGATCGCTGGAGCCAACTGGACGATA +ACTACCATTTCTGGCCAGGGTATAAACCTGTTTATCACCATGGAGCAGGTCTACACGAACGATATCTGCC +GACATCATTAATTCGGTAATTTGTGGCCTTAATACGCTGAAGTCATTCGACACAAGGTGGGTATCAATCG +CCGTCGCCACCGCCTGAACGCGATGACTAAACTTATACTGAATGGCGTTGTAGAAACTTAGCGAACAGCC +CAGCAAAGTCACAAAAATTGTTAACCCGGTGAGCAGCGTAACAAAGGCCGAAAATTTCGTCGTTAATCTC +ATCCTTGTGTTAACTCCGATAGTGAGGAAGCGGGCATACTAGCAAATCAGATTTATCTCGCAATTTATTG +CGCTTCATCGGCTTTGCTTTTCCATTAGCGAGTATAGTCTTCAGAAATTATTTTCCAATCCATCATGCAC +ATGAGGACCACTTATGCAGGCGTTACTTTTAGAACAGCAGGACGGCAAAACTCTCGCATCAGTACAGACT +CTGGACGAAAGTCGCCTGCCGGAGGGCGATGTCACGGTCGATGTTCACTGGTCGAGCCTGAACTATAAAG +ATGCGCTGGCGATTACCGGTAAGGGAAAAATCATCCGTAATTTTCCGATGATTCCTGGGATCGATTTTGC +CGGAACTGTACGCACCAGCGAAGATCCGCGTTTTCATGCCGGTCAGGAGGTGTTACTCACTGGCTGGGGC +GTTGGTGAAAACCACTGGGGTGGGCTGGCGGAGCAGGCGCGAGTGAAAGGTGACTGGCTGGTTGCCATGC +CGCAAGGGCTGGACGCGCGTAAAGCAATGATTATCGGTACTGCCGGTTTTACCGCCATGCTGTGTGTGAT +GGCGCTGGAAGATGCCGGTGTTCGCCCGCAGGACGGGGAGATTGTCGTGACGGGTGCCAGTGGTGGCGTC +GGCAGTACCGCCGTGGCGCTGCTGCATAAGTTGGGTTATCAGGTCGTTGCCGTTTCCGGTCGCGAAAGTA +CCCATGAATATCTGAAAAGTTTAGGTGCTAGCCGTGTTCTCCCTCGTGATGAGTTTGCCGAATCCCGTCC +TCTGGAAAAACAAGTCTGGGCTGGGGCAATTGACACCGTTGGCGACAAAGTGCTGGCAAAAGTGCTGGCG +CAAATGAATTACGGCGGCTGCGTGGCGGCCTGTGGTCTGGCGGGTGGTTTTACTCTGCCAACCACGGTCA +TGCCATTTATTCTGCGTAATGTCCGTTTGCAAGGGGTGGATTCAGTAATGACGCCACCAGAACGCCGCGC +ACAAGCCTGGCAGCGACTGGTCGCCGATTTACCGGAATCATTCTATACCCAGGCGGCAAAAGAGATATCT +CTGTCAGAGGCACCGAACTTTGCCGAGGCCATCATTAATAACCAGATCCAGGGTCGCACGCTGGTGAAGG +TTAACTAACCATTTAGCAGGGAATAATAAGAGAGGGAACTCATTTTGAAATCATTATTCAATCGGTTAAC +GGGAAAAGCGGTTAGCCGGACAGCTTTCGTCGAACACCTTGGTCAGGAAGTTATACAACATCATCCAAAC +TGGAAAGTCATGATTTCGACTGACCACAAATTGATGCGCATTGATACTCCACTAAACAGCTATTATTGAT +ACGCCTCCGTCGCCTGTTAGGTTTATGTTGCTTTGCCTGGGCGACGCTACGCTTAGCCCCTTACTTATTT +CTGGTACCATGGGGTGAATAATCTGATTTTGTTTGACTACAAATTAATCACTCGAACCTATTTAATGCTG +AGCATTGTCAATCGGTTAATTTTGCGTGCTTTAGCATTCACATCTATCCAGACGATGCAGTGAAAATTGG +GTAATCCCCAGCAACCGCTGCGTAATGTCGTCTATCTTGTCGCGATCCTGGCATCCCTACATTATTTGTG +GTCTGTGAAGATTATCTCATTGCAGCCCCTCATCTTCGCAGGGCTGGCTTTTCAGCTTTTCACCTTACGT +TATAAGAAGTTCCGTCGATGATGGCGCTAATTTCGTGAATTGTGCGGCTTGTTGCAAATTACACGGTGTT +GAAGGTTATTTACATGTTAGCTGTTGATTATCTTCCCTGATAAGACCAGTATTTAGCTGCCAATTGCTAC +GAAATCGTTATAATGTGCGACCTCGTCCTCCCTGACGCAGTTTTTGCGCTGCGGAAAAGGTGACATTGGC +GCAACGAAGGTATATTTTGTTTTTTGCCGGAGGATAGCAGCAGATCGCTGCACAATGTCCGTCAAGTCTA +ACATTGACACTCTGGGGCAAAATAGACCGGCGTCCCGGCCTGCTGGAATTTATCGCTATGCATACAGCTG +TCGGGGCATACGCTTTACAGACGGCGGTGAAACGCCTGTCACAATCACACTAAACAAAGAGTACGGAACC +CACTCATGGATATTCGTAAGATTAAAAAACTGATCGAGCTGGTTGAAGAATCAGGCATCTCCGAACTGGA +AATTTCTGAAGGCGAAGAGTCAGTACGCATTAGCCGTGCAGCTCCTGCCGCAAGTTTCCCTGTGATGCAA +CAAGCTTACGCTGCACCAATGATGCAGCAGCCAGCTCAATCTAACGCAGCCGCTCCGGCGACCGTTCCTT +CCATGGAAGCGCCAGCAGCAGCGGAAATCAGTGGTCACATCGTACGTTCCCCGATGGTTGGTACTTTCTA +CCGCACCCCAAGCCCGGACGCAAAAGCGTTCATCGAAGTGGGTCAGAAAGTCAACGTGGGCGATACCCTG +TGCATCGTTGAAGCCATGAAAATGATGAACCAGATCGAAGCGGACAAATCCGGTACCGTGAAAGCAATTC +TGGTCGAAAGTGGACAACCGGTAGAATTTGACGAGCCGCTGGTCGTCATCGAGTAACGAGGCGAACATGC +TGGATAAAATTGTTATTGCCAACCGCGGCGAGATTGCATTGCGTATTCTTCGTGCCTGTAAAGAACTGGG +CATCAAGACTGTCGCTGTGCACTCCAGCGCGGATCGCGATCTAAAACACGTATTACTGGCAGATGAAACG +GTCTGTATTGGCCCTGCTCCGTCAGTAAAAAGTTATCTGAACATCCCGGCAATCATCAGCGCCGCTGAAA +TCACCGGCGCAGTAGCAATCCATCCGGGTTACGGCTTCCTCTCCGAGAACGCCAACTTTGCCGAGCAGGT +TGAACGCTCCGGCTTTATCTTCATTGGCCCGAAAGCAGAAACCATTCGCCTGATGGGCGACAAAGTATCC +GCAATCGCGGCGATGAAAAAAGCGGGCGTCCCTTGCGTACCGGGTTCTGACGGCCCGCTGGGCGACGATA +TGGATAAAAACCGTGCCATTGCTAAACGCATTGGTTATCCGGTGATTATCAAAGCCTCCGGCGGCGGCGG +CGGTCGCGGTATGCGCGTAGTGCGCGGCGACGCTGAACTGGCACAATCCATCTCCATGACCCGTGCGGAA +GCGAAAGCTGCTTTCAGCAACGATATGGTTTACATGGAGAAATACCTGGAAAATCCTCGCCACGTCGAGA +TTCAGGTACTGGCTGACGGTCAGGGCAACGCTATCTATCTGGCGGAACGTGACTGCTCCATGCAACGCCG +CCACCAGAAAGTGGTCGAAGAAGCGCCAGCACCGGGCATTACCCCGGAACTGCGTCGCTACATCGGCGAA +CGTTGCGCTAAAGCGTGTGTTGATATCGGCTATCGCGGTGCAGGTACTTTCGAGTTCCTGTTCGAAAACG +GCGAGTTCTATTTCATCGAAATGAACACCCGTATTCAGGTAGAACACCCGGTTACAGAAATGATCACCGG +CGTTGACCTGATCAAAGAACAGCTGCGTATCGCTGCCGGTCAACCGCTGTCGATCAAGCAAGAAGAAGTT +CACGTTCGCGGCCATGCGGTGGAATGTCGTATCAACGCCGAAGATCCGAACACCTTCCTGCCAAGTCCGG +GCAAAATCACCCGTTTCCACGCACCTGGCGGTTTTGGCGTACGTTGGGAGTCTCATATCTACGCGGGCTA +CACCGTACCGCCGTACTATGACTCAATGATCGGTAAGCTGATTTGCTACGGTGAAAACCGTGACGTGGCG +ATTGCCCGCATGAAGAATGCGCTGCAGGAGCTGATCATCGACGGTATCAAAACCAACGTTGATCTGCAGA +TCCGCATCATGAATGACGAGAACTTCCAGCATGGTGGCACTAACATCCACTATCTGGAGAAAAAACTCGG +TCTTCAGGAAAAATAAGACTGCTAAAGCGTCAAAAGGCCGGATTTTCCGGCCTTTTTTATTACTGGGGAT +CGACAACCCCCATAAGGTACAATCCCCGCTTTCTTCACCCATCAGGGACAAAAAATGGACACTCGTTTTG +TTCAGGCCCATAAAGAGGCGCGCTGGGCGCTGGGGCTGACCCTTTTGTATCTGGCAGTTTGGTTAGTAGC +CGCTTACTTATCTGGCGTTGCCCCCGGTTTTACCGGCTTTCCGCGCTGGTTTGAGATGGCCTGCATCCTG +ACGCCGCTGCTGTTTATTGGACTGTGCTGGGCGATGGTGAAATTTATCTATCGCGATATCCCACTGGAGG +ATGACGATGCAGCTTGAAGTAATTCTACCGCTGGTCGCCTATCTGGTGGTGGTGTTCGGTATCTCGGTTT +ATGCGATGCGTAAACGGAGCACCGGCACCTTCCTTAATGAGTATTTCCTCGGCAGCCGCTCTATGGGCGG +TATTGTGCTGGCGATGACGCTCACCGCGACCTATATCAGTGCCAGTTCGTTTATCGGCGGGCCAGGAGCT +GCTTATAAATACGGGCTGGGCTGGGTATTGCTGGCGATGATTCAGCTTCCTGCAGTCTGGCTTTCACTCG +GTATTCTCGGCAAGAAGTTTGCGATTCTTGCGCGCCGCTACAATGCAGTGACGCTGAACGATATGCTGTT +TGCCCGCTACCAGAGTCGTCTTCTGGTGTGGCTGGCGAGTTTGAGTTTGCTGGTTGCGTTCGTTGGTGCG +ATGACCGTGCAGTTTATCGGCGGTGCGCGCCTGCTGGAAACCGCGGCGGGTATTCCTTATGAAACCGGGC +TGCTGATTTTTGGTATCAGCATTGCGTTATATACCGCCTTTGGTGGCTTTCGCGCCAGCGTGCTGAACGA +CACCATGCAAGGGCTTGTGATGCTGATTGGCACCGTTGTGCTGCTTATTGGCGTAGTACATGCCGCTGGC +GGCTTAAGTAACGCAGTACAGACCTTGCAAACCATCGATCCGCAACTGGTTACGCCACAAGGCGCTGACG +ATATTCTGTCGCCTGCCTTTATGACGTCGTTCTGGGTACTGGTGTGTTTTGGCGTGATTGGCCTGCCGCA +TACTGCGGTGCGCTGTATCTCTTATAAAGACAGCAAAGCCGTACATCGGGGGATCATCATCGGTACGATT +GTGGTCGCAATTCTGATGTTCGGTATGCACCTGGCCGGAGCGTTAGGTCGGGCGGTGATCCCCGATCTCA +CCGTACCGGACCTGGTGATCCCAACGTTAATGGTAAAAGTGCTGCCACCGTTTGCTGCCGGGATCTTCCT +GGCTGCACCGATGGCTGCGATCATGTCGACAATTAACGCCCAACTGCTGCAAAGTTCCGCTACGATCATT +AAAGATCTCTATCTGAATATCCGTCCGGATCAAATGCAAAACGAGACGCGTCTGAAGCGGATGTCGGCGG +TAATTACGTTAGTTCTCGGCGCGTTGCTGCTGCTTGCCGCCTGGAAGCCGCCAGAAATGATCATCTGGCT +GAATTTGTTGGCCTTCGGTGGGCTGGAAGCCGTTTTCCTGTGGCCGCTGGTGCTGGGTCTTTACTGGGAA +CGCGCCAACGCCAAAGGCGCGCTAAGTGCGATGATCGTTGGCGGCGTGCTGTATGCCGTACTCGCGACGC +TGAATATTCAGTACCTGGGCTTCCACCCTATCGTGCCCTCGTTACTACTAAGTTTGCTGGCTTTCCTGGT +CGGAAACCGTTTCGGTACATCCGTCCCGCAAGCTACCGTTTTGACTACTGATAAATAAAGAGTTTTGCCA +TGCCTTGGATCCAACTGAAACTGAACACCACCGGCGCGAACGCGGAAGATCTTAGCGATGCGCTGATGGA +AGCGGGTGCCGTTTCTATCACTTTTCAGGATACCCACGATACGCCAGTATTTGAACCGCTGCCGGGCGAA +ACGCGCCTGTGGGGCGACACCGATGTGATTGGTCTGTTCGACGCTGAAACCGATATGAACGACGTGGTGG +CGATTCTGGAAAACCATCCGCTGCTCGGCGCAGGCTTCGCGCATAAAATCGAACAACTAGAAGATAAAGA +CTGGGAGCGCGAATGGATGGATAATTTCCACCCGATGCGCTTTGGTGAACGACTGTGGATCTGCCCTAGC +TGGCGTGATGTGCCGGACGAAAACGCCGTCAACGTGATGTTAGATCCAGGGCTGGCGTTTGGTACGGGTA +CCCATCCAACCACCTCTCTGTGCCTGCAATGGCTCGACAGCCTCGATTTAACCGGTAAAACAGTCATCGA +CTTTGGCTGTGGTTCCGGCATTCTGGCGATCGCGGCGCTGAAACTGGGTGCAGCAAAAGCCATTGGTATT +GATATCGATCCGCAGGCGATTCAGGCCAGCCGCGATAACGCCGAACGTAATGGCGTTTCTGACCGTCTGG +AACTCTACTTACCGAAAGATCAGCCAGAAGAAATGAAAGCCGACGTGGTGGTCGCTAACATCCTTGCAGG +CCCATTACGTGAACTGGCACCGTTAATCAGCGTCCTGCCGGTTTCAGGCGGTTTGCTGGGCCTTTCCGGT +ATTCTGGCAAGCCAGGCAGAGAGCGTTTGTGAAGCTTATGCCGATAGCTTCGCACTGGACCCGGTCGTGG +AAAAAGAAGAGTGGTGCCGTATTACCGGTCGTAAGAATTAACCTTCGCATCGCCGTAGGGTGACGCGGGG +CGAAGTGCGAGCAAGCTCACAAAAGGCACGTAAATTTGCCGATTATTTACGCAAATTTGCGTGCCAAAAT +TTTCATTCATAAAGAAAAATTGAGAACTTACTCAAATTTCTTTGAGTGTAAATTTTAGTCACTATTTTCT +AATATGATGATTTTTATGAGTAATTATCGCACCACGCTCATTTTAAATGCAATTCTTTGATCCATCTCAG +AGGATTGGTCAAAGTTTGGCCTTTCATCTCGTGCAAAAAATGCGTAATATACGCCGCCTTGCAGTCACAG +TATGGTCATTTCTTAACTCATGCGCATCGGACAATATCAGCTCAGAAATCGCCTGATCGCAGCGCCCATG +GCTGGCATTACAGACAGACCTTTTCGGACGTTGTGCTACGAGATGGGAGCCGGATTGACAGTATCCGAGA +TGATGTCTTCTAACCCACAGGTTTGGGAAAGCGACAAATCTCGTTTACGGATGGTGCACATTGATGAACC +CGGTATTCGCACCGTGCAAATTGCTGGTAGCGATCCGAAAGAAATGGCAGATGCAGCACGTATTAACGTG +GAAAGCGGTGCCCAGATTATTGATATCAATATGGGTTGCCCGGCTAAAAAAGTGAATCGCAAGCTCGCAG +GTTCAGCCCTCTTGCAGTACCCGGATGTCGTTAAATCGATCCTTACCGAGGTCGTCAATGCAGTGGACGT +TCCTGTTACCCTGAAGATTCGCACCGGCTGGGCACCGGAACACCGTAACTGCGAAGAGATTGCCCAACTG +GCTGAAGACTGTGGCATTCAGGCTCTGACCATTCATGGCCGTACACGCGCCTGTTTGTTCAATGGAGAAG +CTGAGTACGACAGTATTCGGGCAGTTAAGCAGAAAGTTTCCATTCCGGTTATCGCGAATGGCGACATTAC +TGACCCGCTTAAAGCCAGAGCTGTGCTCGACTATACAGGGGCGGATGCCCTGATGATAGGCCGCGCAGCT +CAGGGAAGACCCTGGATCTTTCGGGAAATCCAGCATTATCTGGACACTGGGGAGTTGCTGCCCCCGCTGC +CTTTGGCAGAGGTTAAGCGCTTGCTTTGCGCGCACGTTCGGGAACTGCATGACTTTTATGGTCCGGCAAA +AGGGTACCGAATTGCACGTAAACACGTTTCCTGGTATCTCCAGGAACACGCTCCAAATGACCAGTTTCGG +CGCACATTCAACGCCATTGAGGATGCCAGCGAACAGCTGGAGGCGTTGGAGGCATACTTCGAAAATTTTG +CGTAAACAGAAATAAAGAGCTGACAGAACTATGTTCGAACAACGCGTAAATTCTGACGTACTGACCGTTT +CTACCGTTAACTCTCAGGATCAGGTAACCCAAAAACCCCTGCGTGACTCGGTTAAACAGGCACTGAAGAA +CTATTTTGCTCAACTGAATGGTCAGGATGTGAATGACCTCTATGAGCTGGTACTGGCTGAAGTAGAACAG +CCCCTGTTGGACATGGTGATGCAATACACCCGTGGTAACCAGACCCGTGCTGCGCTGATGATGGGCATCA +ACCGTGGTACGCTGCGTAAAAAATTGAAAAAATACGGCATGAACTAATTCAGGTTAGCTAAATGCTTGAT +TAAAAAGGCGCTACTCGGCATGGGGAAGCGCCTTTTTTATAGGTGTCACAAAGGGAGTGACCATGAGAAC +AGGATGTGAACCGACCCGGTTTGGTAATGAAGCTAAGACCATTATTCACGGTGATGCGCTTGCCGAACTT +AAAAAGATCCCCGCCGAAAGTGTCGATCTGATCTTTGCCGACCCACCATATAACATCGGTAAAAATTTTG +ATGGTCTGATCGAAGCCTGGAAAGAAGATCTGTTTATCGACTGGCTGTTTGAAGTGATTGCAGAGTGCCA +CCGCGTTCTGAAAAAGCAGGGCAGCATGTACATCATGAACAGTACGGAAAACATGCCCTTTATCGATCTC +CAGTGCCGCAAGCTTTTTACCATCAAAAGTCGCATCGTCTGGTCATATGACAGTTCTGGAGTGCAGGCGA +AAAAACACTACGGCTCCATGTACGAACCCATCCTGATGATGGTGAAAGACGCAAAGAACTACACATTCAA +CGGTGATGCTATTCTGGTAGAAGCCAAAACCGGATCGCAGCGCGCGTTGATCGATTATCGCAAAAATCCT +CCACAGCCTTACAATCATCAAAAAGTACCGGGTAACGTTTGGGATTTTCCGCGCGTGCGTTATTTGATGG +ATGAATATGAAAACCACCCGACGCAAAAACCGGAAGCCTTACTGAAACGCATTATTCTCGCCTCTTCCAA +CCCAGGCGATATCGTTCTCGACCCGTTTGCTGGTAGCTTTACTACCGGTGCCGTAGCCATCGCCAGCGGA +CGAAAATTCATTGGTATTGAGATCAACAGCGAGTACATCAAAATGGGGCTTCGACGGCTGGATGTCGCGT +CGCATTACTCTGCGGAAGAACTGGCGAAAGTGAAAAAAAGAAAGACCGGCAACCTGTCAAAACGAAGCCG +GTTAAGCGAAGTTGACCCCGATCTCATTACAAAGTAAAGGATGTGTAAGCCTGGTTTTCAGATTATTCAT +TTCGTGTATATTTCCTGCCAGACTTGGTTAAACATGCACAGGCTCAGGTAATGATTCGCAAGTATTGGTG +GCTCGTCGTTTTCGCTGTCTTCGTTTTTCTGTTTGATACTTTACTGATGCAGTGGATTGAACTGCTGGCA +ACAGAAACAGACAAATGCCGCAATATGAACTCAGTTAATCCACTAAAACTGGTTAACTGTGACGAACTGA +ATTTTCAGGACAGAATGTGAATTTACATGACACTTAATTCATTCGTTTGATGAATTAATTTCGTTATGTT +TTCATCTGGCATGAACATTCTTAATACGTTATCGACCAGAGCGGGGGCTTGTTTATAAAGATCATAACCC +GCCATATTCATTAACCAGTTTTGAACAATTCCGCTGAAGGCACCATCAATAATAATCATCACAACATCTA +AATCGAGGTTATTTGCTACACAACCTTGTTGCTGACACGCCTGCAATACTTCGCGGAGAGTCTGCGGATT +AAAGCCCATCTTTTCGCGTATCACTCCCTCGGCCAGCATCTCATCATTAAATTCACATTTGTGATATAAG +ATTTTCAGCAACGCCTGCTGGCGGGGAATTTTGGCAATATATTGCAAGCCGACAATCAATTTTTCACGCA +ATTGTTGAAACGGGTCATGCTCTAATCCAGCCGTCAAGTGTTCCTGGATTAACTCCCGCAATGAAGGCTG +TTGCAACCACATCTCATTAAACAGTTGAGTCTTGTTTTCGAAGTGCCAGTAGATAGCGCCACGCGTAACG +TTAGCGGCGTCGGCAATGTCGTTGAGCGTCGTCTTGCTTACGCCATGCTGCGCAAACTGGGCGATGGCAG +TTTCAATCAGTTCTTGCCGGGTCTTCAGAGCTTCGGCTTTGGTTCTTTTTGCCATGATTAATTATTCAGG +AAATAAATATATTCGACACAGAGTGAGAAAATAGCGAAGGTTAATCTATCACCTAATGTGTATTTATACG +AGAGGCTAATATTGAGTTGCTATAAATCGTTAAATAAATAATATATATTATTTACCTAAGATACATTCAC +TACATCAATATATATTTCAATTTACGAGGTTTTAATTCTGCCTCTTTCAACCCGCGTCAAAATAAAACAG +TAGAATATTAATCTTTTTTTGTGTTTATGTGCCTTGAGATGCCTGTATTCATAACTATTCCTTACATCGA +CGAATGATAATTTGTAGGATAGCGAACTGTATTTTTCTTTCTGCGAGTTAACGCGTTGCCTTTTTGGGTA +AATAACGCGCTTTTGGTTTTTTGAGGAATAGTAATGACGAAACATGCCAGGTTTTTCCTCCTGCCCTCCT +TTATTCTGATCTCCGCGGCTTTAATCGCCGGTTGTAACGATAAGGGAGAAGAGAAAGCTCACGTCGGTGA +ACCGCAGGTTACCGTTCATATTGTAAAAACGGCCCCGTTAGAAGTTAAGACTGAATTACCAGGCCGCACC +AATGCTTATCGTATAGCCGAAGTTCGCCCACAGGTTAGCGGGATCGTACTGAATCGCAATTTCACTGAAG +GCAGCGATGTGCAAGCAGGCCAGTCCCTGTACCAGATCGATCCCGCGACCTATCAGGCAAATTATGACAG +CGCGAAAGGCGAACTGGCGAAAAGTGAAGCCGCCGCCGCCATCGCGCATTTGACGGTAAAACGTTACGTT +CCGCTCGTGGGTACGAAATACATCAGCCAGCAGGAGTACGACCAGGCCATTGCTGATGCTCGTCAGGCCG +ATGCCGCCGTGATTGCCGCAAAAGCCACAGTCGAAAGCGCTCGCATCAATCTTGCTTATACCAAAGTCAC +TGCGCCAATTAGCGGACGTATCGGCAAATCGACTGTGACCGAAGGCGCTCTTGTCACTAATGGGCAAACG +ACTGAACTGGCGACTGTCCAGCAGCTCGATCCTATCTACGTTGATGTGACCCAATCCAGCAACGATTTTA +TGAGGCTGAAGCAATCCGTAGAGCAAGGAAATTTGCATAAGGAAAACGCCACCAGCAACGTAGAGTTGGT +CATGGAAAACGGTCAAACCTATCCCCTGAAAGGTACGCTGCAATTCTCCGATGTGACCGTTGATGAAAGC +ACCGGCTCCATAACCCTACGTGCTGTCTTCCCTAACCCGCAACATACGCTTTTGCCGGGTATGTTTGTGC +GTGCACGGATTGATGAAGGCGTCCAACCTGACGCCATTCTTATCCCGCAACAAGGCGTTAGCCGCACACC +GCGTGGTGATGCAACCGTGCTGATTGTTAACGATAAAAGTCAGGTTGAAGCGCGCCCTGTCGTTGCCAGT +CAGGCGATTGGCGATAAATGGTTGATTAGTGAAGGACTGAAATCTGGCGATCAAGTCATTGTCAGCGGCC +TGCAAAAAGCGCGTCCGGGAGAGCAGGTTAAAGCCACTACCGATACCCCCGCAGATACTGCATCGAAGTA +AGGTAATCTGACATGGCAAACTTTTTTATTCGACGACCGATATTTGCATGGGTGCTGGCCATTATTCTGA +TGATGGCGGGCGCACTGGCGATCCTACAATTGCCCGTCGCTCAGTATCCAACAATTGCACCGCCTGCGGT +TTCTGTTTCAGCAAACTATCCGGGCGCTGATGCGCAGACCGTGCAGGATACGGTGACGCAGGTTATCGAA +CAGAATATGAACGGTATCGATAACCTGATGTATATGTCCTCCACCAGCGATTCCGCCGGTAGCGTGACAA +TTACCCTTACCTTCCAGTCCGGGACCGATCCTGATATCGCGCAAGTGCAGGTGCAGAACAAACTCCAGCT +CGCCACGCCGTTGCTGCCGCAGGAGGTTCAGCAGCAGGGGATCAGTGTTGAAAAGTCCAGTAGCAGCTAT +TTGATGGTGGCGGGCTTTGTCTCTGATAACCCAGGCACCACACAGGACGATATCTCGGACTATGTGGCCT +CTAACGTTAAAGATACGCTTAGCCGTCTGAATGGCGTCGGTGACGTACAGCTTTTCGGCGCACAGTATGC +GATGCGTATCTGGCTGGATGCCGATCTGCTAAACAAATATAAACTGACACCGGTTGATGTGATTAACCAG +TTGAAGGTACAGAACGATCAGATCGCTGCCGGACAGTTGGGCGGAACGCCAGCGTTACCAGGGCAACAAT +TGAACGCCTCGATTATTGCTCAGACGCGGTTTAAAAATCCGGAAGAATTCGGCAAAGTGACCCTGCGCGT +AAACAGTGACGGCTCGGTGGTACGCCTGAAAGATGTCGCACGGGTTGAACTTGGCGGTGAAAACTATAAC +GTTATCGCTCGTATCAACGGAAAACCGGCGGCGGGCCTGGGGATTAAGCTGGCAACCGGCGCGAATGCTC +TCGATACCGCGAAAGCCATTAAGGCAAAACTGGCGGAATTACAGCCATTCTTCCCGCAGGGAATGAAGGT +TCTCTACCCTTATGACACCACGCCATTCGTCCAGCTTTCTATTCACGAAGTGGTAAAAACGCTGTTCGAA +GCCATTATGCTGGTGTTCCTGGTGATGTATCTGTTCTTGCAGAATATGCGAGCAACGCTGATCCCCACCA +TTGCGGTACCCGTGGTGTTGTTAGGGACGTTTGCCATCCTCGCCGCTTTTGGTTACTCCATCAACACACT +AACGATGTTCGGGATGGTGCTTGCCATCGGGCTGCTCGTCGATGATGCGATAGTGGTGGTGGAGAACGTC +GAGCGCGTGATGATGGAGGATAAGCTCCCGCCAAAAGAAGCGACGGAAAAATCGATGTCGCAAATTCAGG +GCGCACTGGTGGGTATCGCGATGGTGCTGTCAGCGGTATTTATTCCGATGGCATTCTTCGGCGGTTCTAC +TGGGGCAATTTATCGCCAGTTCTCTATCACCATCGTTTCGGCAATGGCGCTTTCTGTTCTGGTGGCATTG +ATTCTTACCCCTGCGTTATGTGCAACGCTGCTTAAACCCGTCTCTGCTGAGCATCACGAAAATAAGGGCG +GTTTCTTCGGTTGGTTTAATACCACCTTCGATCATAGCGTTAACCACTACACCAACAGCGTCGGCAAAAT +CCTCGGATCCACAGGACGATATTTACTGATCTATGCGCTGATTGTTGCAGGAATGGTGGTGTTGTTTTTA +CGTCTTCCGTCTTCCTTCTTACCTGAAGAGGATCAGGGTGTCTTTCTGACCATGATTCAGTTACCCGCTG +GCGCGACGCAAGAGCGGACGCAAAAAGTGTTGGATCAAGTTACGGATTACTATCTGAAGAACGAGAAAGC +GAACGTTGAAAGTGTCTTTACGGTTAACGGCTTTAGCTTCAGCGGCCAGGCACAAAACGCCGGTATGGCC +TTCGTCAGTCTGAAACCGTGGGAAGAGCGTAATGGTGACGAAAACAGTGCGGAAGCGGTAATCCATCGTG +CCAAAATGGAATTGGGCAAGATCCGCGACGGTTTTGTCATTCCATTCAATATGCCAGCCATTGTTGAACT +GGGCACGGCAACGGGTTTCGACTTTGAGTTAATTGATCAGGCTGGGCTGGGTCACGATGCCCTAACCCAG +GCCCGTAACCAGTTGCTTGGTATGGCGGCGCAACATCCTGCCAGCTTAGTCAGCGTGCGCCCTAATGGCC +TGGAAGACACCGCGCAGTTTAAACTGGAAGTTGACCAGGAAAAGGCGCAGGCATTAGGTGTTTCACTTTC +TGACATCAATCAGACCATTTCAACGGCGCTGGGTGGGACTTACGTTAACGACTTCATCGACCGTGGCCGC +GTGAAAAAGTTGTATGTTCAGGCGGATGCCAAATTCCGTATGCTGCCAGAAGATGTCGATAAACTTTATG +TCCGCAGCGCCAACGGCGAAATGGTGCCATTCTCGGCCTTTACCACTTCACATTGGGTGTATGGCTCTCC +GCGACTGGAACGCTACAACGGTCTGCCGTCAATGGAGATTCAGGGGGAAGCCGCGCCAGGAACCAGTTCC +GGCGATGCCATGGCGTTGATGGAAAACCTTGCGTCAAAATTACCTGCGGGCATTGGTTATGACTGGACGG +GTATGTCGTATCAGGAACGCTTATCGGGAAACCAGGCTCCCGCTCTGGTAGCAATTTCCTTTGTGGTTGT +TTTCCTGTGCCTTGCTGCACTCTATGAAAGCTGGTCAATTCCTGTCTCGGTTATGTTGGTAGTGCCGTTA +GGGATTGTCGGCGTGCTGCTGGCGGCGACACTCTTTAATCAAAAAAATGACGTCTACTTTATGGTGGGCT +TGCTAACGACAATTGGCTTGTCGGCCAAAAACGCTATTTTGATCGTTGAGTTCGCTAAAGATCTCATGGA +GAAAGAGGGTAAAGGTGTTGTTGAAGCGACACTGATGGCAGTACGTATGCGTCTGCGTCCTATCCTGATG +ACCTCTCTCGCCTTTATTCTCGGCGTATTACCGCTAGCTATCAGTAACGGTGCCGGCAGTGGCGCGCAGA +ACGCTGTGGGTATCGGGGTAATGGGAGGAATGGTCTCTGCAACGTTGCTGGCAATCTTCTTCGTACCGGT +GTTCTTTGTGGTGATCCGCCGTTGCTTTAAAGGATAAATCAGAAACATAAAGGCGCTTTCGGGTGCCTTT +ATTATTTCCAGTGAAACCCATAAAAATTAATAAGATATTCTTCTGCTCACTCTTTAAAAGCTTTCTATAG +TTCCCGCTCCCTTCACTATTTTTACAATTCACATAATTTGTCATTATTCATTCCGCAAGATTTATAACCT +CCGGTGATAAAATGGCATTCAGCTCGTTAATAAGAGAGTTAACTTATTAAGCGTTAGCGTTTATTACTGA +GGTAACACCATGAAAAGATTAATTCCTGTGGCATTGCTCACCGCATTGCTGGCGGGCTGTGCTCACGATT +CGCCCTGCGTTCCGGTTTATGACGATCAGGGTCGTCTGGTTCACACCAATACCTGTATGAAAGGCACGAC +TCAGGATAACTGGGAAACGGCTGGGGCTATTGCCGGCGGGGCAGCTGCTGTTGCTGGCCTGACGATGGGG +ATCATCGCTCTATCGAAATAACTGAACAGGGCGCGGAGTTCCGCGCTCTTTTTAACGATACAGTATCTCT +CCATAAGATAAAATATTGCTATATTCTGCTGGGTAATTCCCTGCTGATTTAGCATGTTACATCGCGTTAT +TTCGCTGCTTTCGAAATAACGCATCAATTTAATTTTCACACTTCCCACCAGAAATATACTCACGCTAACA +ATCATTATTCTGCTTAGTAAAACACGCGTAAATATTTTGCGCCAAAATGTGGCGCATGTTTCATTTTCGC +ACCATTGCGGGGCGCTGTTTTTATTATTTCCTGTCTACACTCAGCTTATTGCGACGCGAAATCGTGCGCA +AAAGCTGGCACTACTTTTGCTTATAAGAGGATGGCCACAGACAGGTAAAAGACGTTTCCCAAACGTCCTA +TAACGATAATTTTCGCCTCACAGGAAGCATTATGAAAAAGATGATGATAGCCACACTGGCTGCCGCCAGC +GTGCTGCTTGCCGTTGCAAATCAGGCGCTGCTGGCGCGACGCTTGATGCCGTTCAGAAAAAAGGTTTTGT +GCAATGCGGGATCAGTGATGGATTACCTGGGTTCTCTTATGCCGATGCTGACGGTAAGTTTTCAGGTATT +GATGTTGATATTTGTCGTGGTGTTGCCGCTGCTGTATTTGGTGACGACACGAAAGTGAAATATACCCCGC +TCACTGCAAAAGAACGCTTCACCGCTTTACAGTCAGGGGAGGTGGATTTGCTCTCCCGTAATACGACCTG +GACTTCATCTCGCGATGCCGGGATGGGAATGGCATTTACCGGCGTCACTTATTACGACGGCATTGGCTTC +CTGACGCACGATAAAGCGGGGCTAAAAAGCGCGAAAGAACTGGATGGCGCTACCGTCTGTATTCAGGCGG +GTACTGATACCGAACTCAACGTCGCCGACTACTTCAAGGCAAACAATATGAAGTACACACCGGTGACTTT +CGATCGCTCTGACGAATCAGCGAAGGCACTGGAATCTGGTCGCTGCGATACGCTGGCCTCGGATCAATCA +CAACTGTATGCCCTGCGCATCAAATTAAGCAACCCAGCTGAATGGATTGTCTTACCGGAAGTTATCTCAA +AAGAACCGCTTGGTCCGGTAGTTCGTCGTGGCGATGATGAATGGTTCTCGATTGTACGCTGGACGCTTTT +CGCCATGCTGAATGCTGAAGAGATGGGCATCAATTCCCAGAACGTCGATGAAAAAGCGGCTAATCCAGCA +ACGCCTGATATGGCACATCTGCTGGGTAAAGAAGGCGATTACGGCAAGGATCTGAAGCTGGATAATAAAT +GGGCCTATAACATCATCAAACAGGTGGGTAACTACTCGGAAATTTTTGAGCGTAACGTAGGTTCAGAAAG +CCCGCTGAAAATTAAACGTGGGCAAAATAATCTCTGGAATAACGGCGGTATTCAGTACGCACCGCCCGTG +CGTTAAGTCGGTGTGAGGTAACGAGCGTCGCTACGGCGGCGCTCTCTTCAGCGTTATGCTTTCCGAGGTT +TCTATGTCTCATCGCCGCTCAACCGTTAAAGGCTCACTCTCTTTTGCCAACCCTACGGTTCGCGCCTGGT +TATTCCAGATCCTTGCCGTTGTTGCTGTTGTCGGCATTGTTGGTTGGTTATTTCACAACACTGTAACGAA +TCTCAATAATCGTGGCATTACTTCAGGTTTTGCCTTTCTGGATCGCGGCGCTGGCTTCGGTATTGTCCAG +CATTTGATCGATTACCAGCAGGGCGACACCTACGGACGCGTTTTTATTGTCGGCTTACTCAATACGCTAC +TGGTTTCTGCATTGTGTATTGTGTTCGCTTCTGTTTTGGGCTTCTTTATCGGTCTGGCGAGACTTTCGGA +TAACTGGCTGCTACGAAAGCTTTCCACAATTTATATTGAGATCTTCCGTAATATTCCCCCGCTGCTGCAA +ATCTTCTTCTGGTACTTTGCCGTGTTGCGCAATTTGCCCGGACCACGCCAGGCTGTGAGCGCGTTTGATC +TGGCCTTTTTGAGCAATCGTGGGCTTTATATTCCGTCACCGCAGCTGGGAGACGGATTTATTGCGTTTAT +CCTGGCTGTTGTTATGGCTATAGTCCTTTCTGTTGGGCTATTCCGCTTTAATAAAACATACCAGATAAAG +ACCGGACAACTGCGCCGCACCTGGCCGATCGCCGCAGTGTTGATCATTGGTTTGCCTTTACTGGCGCAAT +GGCTTTTTGGCGCAGCACTACACTGGGATGTCCCAGCCCTACGAGGCTTTAACTTCCGCGGCGGGATGGT +TTTAATTCCTGAACTGGCAGCCTTAACGCTGGCACTTTCGGTTTATACATCTGCATTTATCGCCGAGATT +ATCCGCGCTGGGATCCAGGCAGTGCCTTATGGTCAACATGAAGCGGCTCGGTCACTGGGATTACCCAACC +CGGTTACGCTACGCCAGGTCATTATTCCCCAGGCATTGCGGGTGATTATTCCACCGTTAACCAGCCAGTA +TCTCAACATCGTCAAAAACTCCTCTCTTGCCGCCGCTATTGGCTATCCCGATATGGTTTCGCTGTTTGCC +GGCACCGTGCTGAATCAGACGGGGCAAGCCATCGAGACGATAGCCATGACCATGTCGGTCTATCTGATTA +TCAGCCTGACTATCTCGCTGCTGATGAATATCTATAACCGCCGCATCGCGATCGTTGAACGCTAAGGAGT +CATGATGACAAAAGTATTGCTGTCTCATCCCCCGCGCCCGGCGAGCCATAACTCAAGCCGCGCGATGGTG +TGGGTGCGAAAAAATCTGTTCTCCAGCTGGAGCAATAGCCTGCTGACTATTGGCTGCATATGGTTGATGT +GGGAACTGATCCCACCGTTGCTGAACTGGGCATTTTTGCAGGCTAACTGGGTTGGCTCAACGCGTGCCGA +CTGCACAAAAGCCGGTGCCTGTTGGGTCTTCATCCACGAACGATTTGGTCAGTTTATGTATGGGCTTTAC +CCACACGACCAACGCTGGCGAATTAACCTCGCATTACTGATTGGGCTTGTGTCGATCGCACCAATGTTCT +GGAAAATACTCCCGCATCGCGGTCGCTATATTGCGGCCTGGGCGGTGATTTACCCACTGATTGTCTGGTG +GCTGATGTATGGCGGTTTTTTTGCTCTTGAGCGGGTTGAAACCCGGCAATGGGGCGGGCTGACGCTAACT +TTAATTATTGCATCAGTTGGGATTGCGGGGGCGCTACCGTGGGGGATCTTACTGGCGTTAGGTCGCCGCT +CCCATATGCCGATTGTGCGTATCTTATCGGTCATTTTTATCGAATTCTGGCGCGGCGTGCCGCTGATTAC +CGTTCTGTTTATGTCTTCGGTCATGCTGCCGTTGTTTATGGCAGAAGGCACCAGTATCGACAAATTGATC +CGCGCGCTGGTTGGCGTGATCCTGTTTCAGTCAGCATATGTTGCGGAAGTCGTGCGAGGTGGATTACAGG +CGCTGCCTAAAGGGCAATATGAAGCGGCAGAGTCGCTGGCGTTGGGTTACTGGAAAACTCAGGGGCTGGT +TATTCTGCCACAGGCGTTGAAGCTGGTAATTCCTGGGCTGGTAAATACCATCATCGCACTCTTCAAAGAT +ACCAGCCTGGTGATCATTATCGGGTTGTTCGATCTTTTCAGTAGCGTTCAGCAGGCAACCGTTGATCCCG +CCTGGTTGGGTATGTCGACGGAAGGGTATGTTTTCGCCGCGCTGATCTACTGGATCTTCTGTTTCAGCAT +GTCGCGCTATAGCCAGTATCTGGAAAAACGTTTTAACACCGGGCGTACACCGCATTGAGGACACTATGAG +CCAAATTTTACTGCAACCTGCTAACGCGATGATTACGCTGGAAAACGTCAATAAATGGTATGGACAATTC +CATGTTTTGAAAAATATAAATTTAACCGTGCAACCGGGAGAACGGATCGTTCTGTGTGGCCCTTCAGGTT +CCGGTAAATCGACAACCATTCGTTGTATTAATCATCTGGAAGAACATCAACAGGGACGGATCGTGGTAGA +TGGCATCGAACTTAATGAAGATATCCGCAATATTGAGCGCGTCAGGCAGGAAGTGGGAATGGTCTTTCAG +CATTTCAATCTCTTCCCTCATCTGACCGTTTTACAGAACTGTACCCTGGCACCGATTTGGGTACGCAAGA +TGCCTAAGAAAGAGGCTGAAGATCTGGCGGTGCATTACCTAGAGCGGGTGAGAATTGCCGAACATGCGCA +TAAGTTTCCCGGACAGATTTCAGGTGGTCAGCAGCAACGCGTTGCCATTGCGCGTTCGCTGTGTATGAAG +CCGAAAATTATGTTGTTTGATGAGCCAACGTCGGCGCTCGATCCTGAGATGGTGAAAGAGGTGCTGGATA +CGATGATTGGGCTGGCGCAGTCGGGTATGACAATGTTGTGTGTAACACATGAGATGGGGTTTGCACGAAC +CGTCGCTGACCGGGTAATTTTTATGGATCGTGGGGAAATAGTGGAGCAAGCTGCACCTGATGAATTTTTT +GCGCATCCTAAATCAGAGCGTACGAGGGCATTTTTATCGCAGGTAATCCATTAATTGAATGTTAGTTCGA +AAAGCAAAAAGGCCATCCTTTCGGATGGCCTTTCGCTTGATTTGATGTCTGGCAGTTTATGGCGGGCGTC +CTGCCCGCCACCCTCCGGGCCGTTGCTTCGCAACGTTCAAATCCGCTCCCGGCGGATTTGTCCTACTCGG +GAGAGTGTTCACCGACAAACAACAGATAAAACAAAAGGCCCAGTCTTCCGACTGAGCCTTTTGTTTTATT +TGATGTCTGGCAGTTCCCTACTCTCGCATGGGGAGACCCCACACTACCATCGGCGCTACGGCGTTTCACT +TCTGAGTTCGGCATGGGGTCAGGTGGGACCACCGCGCTACTGCCGCCAGACAAATTCTTTTCTAATCTGC +CGAACTTTAACCTAAAAAGTGGTGCTGATACCCAGAGTCGAACTGGGGACCTCACCCTTACCAAGGGTGC +GCTCTACCAACTGAGCCATATCAGCACGCTAAATTTGATGCCTGGCAGTTCCCTACTCTCGCATGGGGAG +ACCCCACACTACCATCGGCGCTACGGCGTTTCACTTCTGAGTTCGGCATGGGGTCAGGTGGGACCACCGC +GCTACGGCCGCCAGGCAAATTCTGTTTTATCAGACCGCTTCTGCGTTCTGATTTAATCTGTATCAGGCTG +AAAATCTTCTCTCATCCGCCAAAACAGCTTCGGCGTTGTAAGGTTAAGCCTCACGGTTCATTAGTACCGG +TTAGCTCAACGCATCGCTGCGCTTACACACCCGGCCTATCAACGTCGTCGTCTTCAACGTTCCTTCAGGA +CCCTTAAAGGGTCAGGGAGAACTCATCTCGGGGCAAGTTTCGTGCTTAGATGCTTTCAGCACTTATCTCT +TCCGCATTTAGCTACCGGGCAGTGCCATTGGCATGACAACCCGAACACCAGTGATGCGTCCACTCCGGTC +CTCTCGTACTAGGAGCAGCCCCCCTCAGTTCTCCAGCGCCCACGGCAGATAGGGACCGAACTGTCTCACG +ACGTTCTAAACCCAGCTCGCGTACCACTTTAAATGGCGAACAGCATCACCCTTGGGACCTACTTCAGCCC +CAGGATGTGATGAGCCGACATCGAGGTGCCAAACACCGCCGTCGATATGAACTCTTGGGCGGTATCAGCC +TGTTATCCCCGGAGTACCTTTTATCCGTTGAGCGATGGCCCTTCCATTCAGAACCACCGGATCACTATGA +CCTGCTTTCGCACCTGCTCGCGCCGTCACGCTCGCAGTCAAGCTGGCTTATGCCATTGCACTAACCTCCT +GATGTCCGACCAGGATTAGCCAACCTTCGTGCTCCTCCGTTACTCTTTAGGAGGAGACCGCCCCAGTCAA +ACTACCCACCAGACACTGTCCGCAACCCGGATTACGGGTCAACGTTAGAACATCAAACATTAAAGGGTGG +TATTTCAAGGTCGGCTCCATGCAGACTGGCGTCCACACTTCTAAGCCTCCCACCTATCCTACACATCAAG +GCTCAATGTTCAGTGTCAAGCTATAGTAAAGGTTCACGGGGTCTTTCCGTCTTGCCGCGGGTACACTGCA +TCTTCACAGCGAGTTCAATTTCACTGAGTCTCGGGTGGAGACAGCCTGGCCATCATTACGCCATTCGTGC +AGGTCGGAACTTACCCGACAAGGAATTTCGCTACCTTAGGACCGTTATAGTTACGGCCGCCGTTTACCGG +GGCTTCGATCAAGAGCTTCGCTTGCGCTAACCCCATCAATTAACCTTCCGGCACCGGGCAGGCGTCACAC +CGTATACGTCCACTTTCGTGTTTGCACAGTGCTGTGTTTTTAATAAACAGTTGCAGCCAGCTGGTATCTT +CGACTGATTTCAGCTCCACGAGCAAGTCGCTTCACCTACATATCAGCGTGCCTTCTCCCGAAGTTACGGC +ACCATTTTGCCTAGTTCCTTCACCCGAGTTCTCTCAAGCGCCTTGGTATTCTCTACCTGACCACCTGTGT +CGGTTTGGGGTACGATTTGATGTTACCTGATGCTTAGAGGCTTTTCCTGGAAGCAGGGCATTTGTTGCTT +CAGCACCGTAGTGCCTCGTCATCACGCCTCAGCCTTGATTTTCCGGATTTGCCTGGAAAACCAGCCTACA +CGCTTAAACCGGGACAACCGTCGCCCGGCCAACATAGCCTTCTCCGTCCCCCCTTCGCAGTAACACCAAG +TACAGGAATATTAACCTGTTTCCCATCGACTACGCCTTTCGGCCTCGCCTTAGGGGTCGACTCACCCTGC +CCCGATTAACGTTGGACAGGAACCCTTGGTCTTCCGGCGAGCGGGCTTTTCACCCGCTTTATCGTTACTT +ATGTCAGCATTCGCACTTCTGATACCTCCAGCATGCCTCACAGCACACCTTCGCAGGCTTACAGAACGCT +CCCCTACCCAACAACGCATAAGCGTCGCTGCCGCAGCTTCGGTGCATGGTTTAGCCCCGTTACATCTTCC +GCGCAGGCCGACTCGACCAGTGAGCTATTACGCTTTCTTTAAATGATGGCTGCTTCTAAGCCAACATCCT +GGCTGTCTGGGCCTTCCCACATCGTTTCCCACTTAACCATGACTTTGGGACCTTAGCTGGCGGTCTGGGT +TGTTTCCCTCTTCACGACGGACGTTAGCACCCGCCGTGTGTCTCCCGTGATAACATTCTCCGGTATTCGC +AGTTTGCATCGGGTTGGTAAGTCGGGATGACCCCCTTGCCGAAACAGTGCTCTACCCCCGGAGATGAATT +CACGAGGCGCTACCTAAATAGCTTTCGGGGAGAACCAGCTATCTCCCGGTTTGATTGGCCTTTCACCCCC +AGCCACAAGTCATCCGCTAATTTTTCAACATTAGTCGGTTCGGTCCTCCAGTTAGTGTTACCCAACCTTC +AACCTGCCCATGGCTAGATCACCGGGTTTCGGGTCTATACCCTGCAACTTAACGCCCAGTTAAGACTCGG +TTTCCCTTCGGCTCCCCTATTCGGTTAACCTTGCTACAGAATATAAGTCGCTGACCCATTATACAAAAGG +TACGCAGTCACACGCCTAAGCGTGCTCCCACTGCTTGTACGTACACGGTTTCAGGTTCTTTTTCACTCCC +CTCGCCGGGGTTCTTTTCGCCTTTCCCTCACGGTACTGGTTCACTATCGGTCAGTCAGGAGTATTTAGCC +TTGGAGGATGGTCCCCCCATATTCAGACAGGATACCACGTGTCCCGCCCTACTCATCGAGCTCACAGCAT +GTGCATTTTTGTGTACGGGGCTGTCACCCTGTATCGCGCGCCTTTCCAGACGCTTCCACTAACACACACA +CTGATTCAGGCTCTGGGCTGCTCCCCGTTCGCTCGCCGCTACTGGGGGAATCTCGGTTGATTTCTTTTCC +TCGGGGTACTTAGATGTTTCAGTTCCCCCGGTTCGCCTCATTAACCTATGGATTCAGTTAATGATAGTGT +GTCGAAACACACTGGGTTTCCCCATTCGGAAATCGCCGGTTATAACGGTTCATATCACCTTACCGACGCT +TATCGCAGATTAGCACGTCCTTCATCGCCTCTGACTGCCAGGGCATCCACCGTGTACGCTTAGTCGCTTA +ACCTCACAACCCGAAGATGTTTCACTTCAGAGTTGCGAAAATTTGAGAGACTCACGAACAACTTTCGTTG +TTCAGTGTTTCAATTTTCAGCTTGATCCAGATTTTTAAAGAGCAAAACTTCGCAGTGAACCTTTGCAGGT +ACACTCTGAAGTATTTTTTATTTAATCACTACAGAGATGGTGGAGCTATGCGGGATCGAACCGCAGACCT +CCTGCGTGCAAAGCAGGCGCTCTCCCAGCTGAGCTATAGCCCCATAACATGTAGTTAAAACCTCTTCAAA +TTTGCCGTGCAAATTTGGTAGGCCTGAGTGGACTTGAACCACCGACCTCACCCTTATCAGGGGTGCGCTC +TAACCACCTGAGCTACAAGCCTGTAGAGGTTTTACTGCTCATTTTCATCAGACAATCTGTGTGAGCACTG +CAAAGTACGCTTCTTTAAGGTAAGGAGGTGATCCAACCGCAGGTTCCCCTACGGTTACCTTGTTACGACT +TCACCCCAGTCATGAATCACAAAGTGGTAAGCGCCCTCCCGAAGGTTAAGCTACCTACTTCTTTTGCAAC +CCACTCCCATGGTGTGACGGGCGGTGTGTACAAGGCCCGGGAACGTATTCACCGTGGCATTCTGATCCAC +GATTACTAGCGATTCCGACTTCATGGAGTCGAGTTGCAGACTCCAATCCGGACTACGACGCACTTTATGA +GGTCCGCTTGCTCTCGCGAGGTCGCTTCTCTTTGTATGCGCCATTGTAGCACGTGTGTAGCCCTGGTCGT +AAGGGCCATGATGACTTGACGTCATCCCCACCTTCCTCCAGTTTATCACTGGCAGTCTCCTTTGAGTTCC +CGGCCGGACCGCTGGCAACAAAGGATAAGGGTTGCGCTCGTTGCGGGACTTAACCCAACATTTCACAACA +CGAGCTGACGACAGCCATGCAGCACCTGTCTCACGGTTCCCGAAGGCACATTCTCATCTCTGAAAACTTC +CGTGGATGTCAAGACCAGGTAAGGTTCTTCGCGTTGCATCGAATTAAACCACATGCTCCACCGCTTGTGC +GGGCCCCCGTCAATTCATTTGAGTTTTAACCTTGCGGCCGTACTCCCCAGGCGGTCGACTTAACGCGTTA +GCTCCGGAAGCCACGCCTCAAGGGCACAACCTCCAAGTCGACATCGTTTACGGCGTGGACTACCAGGGTA +TCTAATCCTGTTTGCTCCCCACGCTTTCGCACCTGAGCGTCAGTCTTCGTCCAGGGGGCCGCCTTCGCCA +CCGGTATTCCTCCAGATCTCTACGCATTTCACCGCTACACCTGGAATTCTACCCCCCTCTACGAGACTCA +AGCTTGCCAGTATCAGATGCAGTTCCCAGGTTGAGCCCGGGGATTTCACATCTGACTTAACAAACCGCCT +GCGTGCGCTTTACGCCCAGTAATTCCGATTAACGCTTGCACCCTCCGTATTACCGCGGCTGCTGGCACGG +AGTTAGCCGGTGCTTCTTCTGCGGGTAACGTCAATGAGCAAAGGTATTAACTTTACTCCCTTCCTCCCCG +CTGAAAGTACTTTACAACCCGAAGGCCTTCTTCATACACGCGGCATGGCTGCATCAGGCTTGCGCCCATT +GTGCAATATTCCCCACTGCTGCCTCCCGTAGGAGTCTGGACCGTGTCTCAGTTCCAGTGTGGCTGGTCAT +CCTCTCAGACCAGCTAGGGATCGTCGCCTTGGTGAGCCGTTACCCCACCAACAAGCTAATCCCATCTGGG +CACATCCGATGGCAAGAGGCCCGAGGGTCCCCCTCTTTGGTCTTGCGACGTTATGCGGTATTAGCTACCG +TTTCCAGTAGTTATCCCCCTCCATCAGGCAGTTTCCCAGACATTACTCACCCGTCCGCCACTCGTCAGCG +AAACAGCAAGCTGTTTCCTGTTACCGTTCGACTTGCATGTGTTAGGCCTGCCGCCAGCGTTCAATCTGAG +CCATGATCAAACTCTTCAATTTAAAAGTTTGATGCTCAAAGAATTAAACTTCGTAATGAATTACGTGTTC +ACTCTTGAGACTTGGTATTCATTTTTCGTCTTGCGACGTTAAGAATCCGTATCTTCGAGTGCCCACACAG +ATTGTCTGATAAATTGTTAAAGAGCAGTTGCGACGCGGCTTTCAGCTCACTGTCGCGAGGTGGCGTATAT +TACGCTTTCCTCTTTCAGAGTCAACCCTGAATTTCAGGATTTTTTTCTCTTCGTTGTTCCGACCATCCTG +TGAAGTGTTTCACGTTGTCGTCTCAACGGAGGCGCATTATAGGGATCCCAATTTTTTGCACAAGTATTTT +TTTGATCTTTTTTTCTGTTTGTTGTTTTTTCACCCTTTTTGCTGCAATCGCACACAAAACGGTGCTTTTT +TGCATACTAAAAGACTTGCACAAGGCCAATAATGCCCCCAAAGTCATTAGTAAATCATTTATTGCTGAGG +TAAGTATGTCTGATGTTTTACGCCCATACCGCGATCTTTTTCCACAAATCGGTCAGCGCGTAATGATCGA +CGATAGCAGTGTCGTGATTGGTGACGTTCGTCTGGCTGATGATGTGGGGATCTGGCCGCTCGTTGTGATT +CGTGGAGATGTACATTATGTACAGATCGGAGCACGCACCAATATCCAGGATGGCAGTATGTTGCATGTCA +CTCATAAATCCTCGTACAACCCAGATGGCAACCCATTAACCATTGGCGAAGATGTCACTGTTGGTCACAA +GGTGATGCTCCACGGCTGCACCATTGGCAATCGAGTTTTGGTTGGGATGGGCTCAATTTTACTTGATGGC +GCAATAGTAGAAGATGATGTGATGATTGGTGCGGGTAGTCTGGTCCCACAAAATAAACGGCTGGAGAGCG +GATATCTGTATCTCGGTAGCCCCGTCAAACAGATCCGCCCGTTAAGTGATGAAGAGAAGGCTGGGTTACG +CTATTCCGCGAATAATTACGTGAAATGGAAGGACGAATATCTGGATCAGGGTAACCAGACCCAGCCTTGA +TCATCTTCACTTTGTTCCTGAATTAAGTTTTCCGCTTCTTCTTCCAGGTCCCAGCGATGCTGACGAAAAC +TCGCTAACCACTGTTCTGGCGTATCTCCAGTAAAGCGATACGCCAGACTCTCGCCAGAGATCGCGCATGT +CAGTTGCATACCATTCACGAGAGCGGGAAAACATACACATTTTTTATTCTCGTCCCACTCTTCCCTGTCC +GGAAACTGGATGGCCTGATTCACGCGGACAATTCCTCCTGCAATTGCTTTATAACTGGTTCTACGTCAGG +CAGAACACCGTGCCAGAGAAGAAAGGCATGAGCCGCCTGTGCCACCAGCATTCCTAAACCATCAGCATTA +CGCTTTGAGCCTCGCTGCTCACACCATGCCAGAAAAGGAGTTTTTCCTTTCTGATAGAACATGTCATAGC +AATAAATGCCTGGATGAATGAGCGATGACGGGATCGCCGGAATATCACCACTGATGCCACTGGATGTTGC +ATTAATAATGAGATCAAACTCATGACCTTCCAGTTCGTCCATACTCAACGCCTGAATACTGCCAGTGTGC +GCAAACAATTTAGCCAACTCTTCCGCGCGGGATACCGTCCGATTAGTTATTGTCACCGCACAGTCCAGGG +AAAGGAGTGGCAGTAGTACGCCGCGAGATGCTCCACCAGCGCCGATAAGCAGAATACGTAAACCAGGGCG +GATAAAAGACAGACGTTCCAGATCGCTTAACAAGCCTACACCATCGGTATTGTCACCCAGCAGGCGTCCA +TCTTCTAACCGCATGAGGGTATTAACAGCACCAGCCAACGCTGCCCGTTCAGTAAGCTCATCCGCTCTGG +CAAAAGCCTCTTCTTTAAAAGGCACCGTCACATTCGCACCTTTACCACCAGCACTAAAGAAAGCGTTCAG +TGTGTTGATGAAATCATTGATGGGTGCCAACACGCGCCCATAGGGATGTTCAATATTCAGTTGCTGAGCA +AATTGCTGATGAATGAATGGCGATTTGCTGTGGGCTATCGGATTACCAAAAACAGCATAGGTTTCCATTA +TGTTACCCCTGTCGAAACAGTTCACCCGTCAGGGCATCGCGGATTTCTGAAGGATTTAAACGCCCCCCCG +TTTCACCAGGCACAACCGGGAACGCCGCGCCAAATTGTGCGCGAACTTCGTCTACTGTTCGACAAGGTGG +CAATCCACTCAAGTTGGCACTGGTAGAAACCAGCGGTTTACCATAAGCCTGGCACAAAGCAACCACCAAC +GGATGGTCGGTGACTCGTACAGCAAGCGAATCAAAGCGGCCCGTCAACCAGCGCGGTGTTGTCGCAGGCG +CGGGAAAGACAAAGGTGACAGGACCTGGCCAGCGGGAAAAAATGGTTTCACGCTGCACGTCAGTCAACAT +GGTGTCATCAATATAGGGTTTAAGCTGCTCGTAATTTGCTGCGATTAAAATCAGCCCCTTATCAACCGGA +CGCTGTTTTAACTCCAACAGTCGCATCACTGCTGTTTCGCTATCAGGATCGCACCCAACACCGAAAACGG +CTTCCGTTGGATAGGCGATGACACGTTCTTCATTGAGAACATCTATCGCAGCTGCGATAGCGTCTCTTTG +CAGGTTATTATTCACGTTATTATTCCGCCGAAACCGGCTTTCCACATTGTTTACTGGCACAAAAGTGTTT +TACACCCTGCGCGGTTTTCTTTTCGATGAGTAGCGGATAATGACACTCAGGGCATTCTCCAGCTATGGGT +TTGAAGTTAATGGCAAATTGACACTCCGGGTAGCGATCACAAGAGTGAAATGTTTTGCCATAACGGGAGC +GGCGCTGGACCAGATGGCCCGTCCGACATTGGGGGCATGTAATTGCTGTTTCGTCCGGTTTATCGATAAG +TTCGGTATGTTCGCATTCAGGGTAGTTAATGCAACCAATAAACATACCAAAGCGTCCCTGGCGTAATACC +AGATTTGCGCCACATGCAGGGCAAACCTGCCCCTCCAGAACTTTGACGATATGTCCATCCGCTGAAGATT +TCAGAGGACGGACGTAGTCACACGCCGGATACTGTGAGCATCCAAGAAACGGACCGTGTTTCCCGGATCG +AATAACCAGTTCAGCCCCGCACTTTGGGCAGGACTCATTATTACGCACCGTGAACAGTGCTGATTTCGCC +ATAACAACTTATGCTGAATTAAAGAAATGATTAATGCAGCATACCTTCATTCACTTCAAAGAGTAATTCT +TCCATTTGCTGGTACGCATTTTCGCAGCCCGGAATATTGAACAACACCATCAGGATCACCCATTTCAGAT +CATCCAGTTCGAACTCTGCGTTATCCAGCGCGAGCACTCGCTCTATCACCATTTCACGAGTTTCAAGGTT +GAGCACCTGAATCTGCTCAAGGAAAAGCAGAAACCCACGGCAGCTGGCATCCAGTCGTTCACACTCTTCC +GGTGTATAAATACGCATGGAGAGAGGATCCGAGGCCAGTTGCATCGGTTCTGCCAACCCTTCCTGATAAT +CAGCAAGTTTTTCCAGCCATAGCAGGGCATTGTAGATATCTTCTCGCTCAAAACCTGCGTCGGTAAGATC +CTGTTCAAGTTTGTCTTGATCCACACGCAACTCAGCTTCTGTGTGAATATAGGTTTCAAACAAATACATT +AGTACGTCGAACATGGCATGCCCTCCTCAATCGGACATAGCCGCCGGGTACAGCTGCGATCCATCCTGCT +AACTCCAGTTCGAGTAGTTGAGTAACTACCTCTGGCACAGGTTGGCCGGCACGTTCAGCGACGACGTCAA +CAGGTGTTACCTCATCTCCTACGTTAGCCAGGAGCTCAGGAAATGGCAATGCCACGTCTTGCTGATCTGG +TGAATAAAATGAATTTTCAGGGGCGTCTGGCAACCAGTGCAATCCAAATTGCAAGTTTTCCAGAATTTCT +TCCGGTTCCGTCACAAGAATCGCACCTTGTTTTATTAACCAGTGAGGCCCTTCGCTTCCCGGATTCCCTA +TTGGACCTGGCAAGGCAAAAACTTCTCGCCCCTGCTCAAGCGCACAACGTGCTGTCACCAGCGAACCACT +ACGCAAAGCCGCTTCCACCACCAGTACACCTTTACTTAGACCACTGATAATGCGATTTCTTCGTGGGAAA +TTGTAAGCAAGGGGTGGAACATCGAGGGGAAATTCCGAGACGAGAGCGCCCCCCTGTTCAAGCAGACTGG +CAGCCAGTCGGGCATGACGGCGGGGATGAATGGTATTAAGTCCATTCCCCAATACAGCAATGCTGACGCC +ATTTACCTGTAAGGCTGCTTTATGCGCTACACCATCGATTCCACGCGCCAGTCCACTCGTAATTGTCACT +CCACGCGTCGCCAGAGTTTCGCAAAATAATCGTCCCCATCGCTCGCCATACCATGAATGCGCCCGACTCC +CCACTACGGCAAGCTGAAATGAATGCAGCGCGTGCAGTTCTCCTTCAACAAACAGTGCGCCGGGGTAATC +TGTCGTCGCCAGAAGTTGAGGAGGATAAAATTCGCTGTCCGCAGGAATTAAATGATGGTTGGGTTGCTCC +AACCAACAAAGTGAGCTTTCGATACTCTTTCGTGGAAATGAAAGAAAGCGTTGTGCCTGCCGCAATGTAA +GCCCTGTTTGCTGCAATACAACCGCATCAATATGCGACTGTTTTGCCACCCAGTGAGCGATACGGACCAT +ATCATCGCCGTACAAGCTGCTGATACTCATTAAACGCAGCCAAATTTCTGTATCGACCATCCTTATCTCC +CTGCCATAAGCAGCCTTAGCAATCTTTGCGATTGGTCAGTGATGCTGTCAATCAGAGGGGGATTTGTCTA +GAATAGAAGAAATAATCTTTCTAACTCCTGAACACATCTCTGGAGATTTATGTCAGTTTTGCAAGTGTTA +CATATTCCGGACGAGCGGCTTCGCAAAGTTGCTAAACCGGTAGAAGAAGTGAATGCAGAAATTCAGCGTA +TCGTCGATGATATGTTCGAGACGATGTACGCAGAAGAAGGTATTGGCCTGGCGGCAACCCAGGTTGATAT +CCATCAACGTATCATTGTTATTGATGTTTCGGAAAACCGTGACGAACGGCTAGTGTTAATCAATCCAGAG +CTTTTAGAAAAAAGCGGCGAAACAGGCATTGAAGAAGGTTGCCTGTCGATCCCTGAACAACGTGCTTTAG +TGCCGCGCGCAGAGAAAGTTAAAATTCGCGCCCTTGACCGCGACGGTAAACCATTTGAACTGGAAGCAGA +CGGTCTGTTAGCCATCTGTATTCAGCATGAGATGGATCACCTGGTCGGCAAACTGTTTATGGATTATCTG +TCACCGCTGAAACAACAACGTATTCGTCAGAAAGTTGAAAAACTGGATCGTCTGAAAGCCCGGGCTTAAG +GATAAGAACTAACGTGTCAGAATCACTACGTATTATTTTTGCGGGTACACCTGACTTTGCAGCGCGTCAT +CTCGACGCGCTGTTGTCTTCTGGTCATAACGTCGTTGGCGTGTTCACCCAGCCAGACCGACCGGCAGGAC +GCGGTAAAAAACTGATGCCCAGCCCGGTTAAAGTTCTGGCTGAGGAAAAAGGTCTGCCCGTTTTTCAACC +TGTTTCCCTGCGTCCACAAGAAAACCAGCAACTGGTCGCCGAACTGCAGGCTGATGTTATGGTCGTCGTC +GCCTATGGTTTAATTCTGCCGAAAGCAGTGCTGGAGATGCCGCGTCTTGGCTGTATCAACGTTCATGGTT +CACTGCTGCCACGCTGGCGCGGTGCTGCACCAATCCAACGCTCACTATGGGCGGGTGATGCAGAAACTGG +TGTGACCATTATGCAAATGGATGTCGGTTTAGACACCGGTGATATGCTCTATAAGCTCTCCTGCCCGATT +ACTGCAGAAGATACCAGTGGTACGCTGTACGACAAGCTGGCAGAGCTTGGCCCACAAGGGCTTATCACCA +CGTTGAAACAACTGGCAGACGGCACGGCGAAACCAGAAGTTCAGGACGAAACTCTTGTCACTTACGCCGA +GAAGTTGAGTAAAGAAGAAGCGCGTATTGACTGGTCACTTTCGGCAGCACAGCTTGAACGCTGCATTCGC +GCTTTCAATCCATGGCCAATGAGCTGGCTGGAAATTGAAGGACAGCCGGTTAAAGTCTGGAAAGCATCGG +TCATTGATACGGCAACCAACGCTGCACCAGGAACGATCCTTGAAGCCAACAAACAAGGCATTCAGGTTGC +GACTGGTGATGGCATCCTGAACCTGCTCTCGTTACAACCTGCGGGTAAGAAAGCGATGAGCGCGCAAGAC +CTCCTGAACTCTCGTCGGGAATGGTTTGTTCCGGGCAACCGTCTGGTCTGATAGTCCACTCTTCTAAGCC +CGGTCTTGCCGGGCGTTTTTATACTTATGAAAAAACAACGTAATTTACGTAGCATGGCGGCCCAGGCCGT +TGAACAAGTCGTCGAGCAAGGGCAATCATTAAGCAACATTCTGCCACCGCTCCAGCAAAAAGTTTCCGAT +AAAGACAAAGCACTTCTTCAAGAGTTGTGCTTTGGCGTACTGCGTACGCTTTCGCAGTTAGACTGGCTGA +TTAATAAGTTAATGGCCCGTCCGATGACCGGCAAACAGCGGACCGTGCATTACCTGATTATGGTTGGTTT +GTATCAACTGCTTTATACCCGCATTCCACCTCATGCTGCGCTGGCTGAAACGGTTGAAGGCGCTATCGCA +ATTAAGCGTCCGCAACTTAAAGGGTTGATAAACGGTGTATTACGCCAGTTCCAGCGTCAGCAAGAAGAGT +TATTAGCCGAGTTTAATGCCAGTGATGCACGTTATCTGCATCCTTCCTGGTTGCTGAAGCGTCTGCAAAA +AGCGTATCCAGAGCAGTGGCAATCCATCGTCGAAGCCAATAACCAGCGTCCGCCAATGTGGCTGCGTATT +AATCGTACGCATCATTCCCGCGACAGCTGGCTTGCATTGCTGGATGAAGCAGGAATGAAAGGTTTCCCGC +ATGCGGATTACCCTGATGCTGTACGTCTGGAAACACCTGCACCTGTTCATGCGCTACCTGGTTTTGAAGA +CGGATGGGTTACCGTTCAGGATGCATCAGCACAAGGTTGCATGACCTGGCTTGCGCCACAAAACGGTGAA +CACATTTTGGATCTTTGTGCCGCCCCCGGCGGTAAAACAACGCATATCCTTGAGGTGGCACCAGAAGCGC +AGGTTGTTGCGGTTGATATCGACGAACAGCGCCTCTCTCGGGTTTACGACAATTTAAAACGCCTTGGTAT +GAAGGCGACCGTGAAACAAGGTGATGGCCGTTACCCTTCTCAATGGTGTGGCGAGCAACAGTTTGATCGC +ATTTTATTAGATGCGCCTTGTTCAGCAACCGGTGTGATTCGTCGCCATCCAGATATTAAATGGTTACGTC +GCGATCGCGATATCCCGGAACTCGCGCAATTGCAGTCTGAAATTCTCGACGCCATTTGGCCGCATTTAAA +AACCGGTGGAACTCTGGTCTATGCCACCTGTTCGGTGTTACCGGAAGAGAATAGCCTGCAGATTAAAGCC +TTTTTGCAACGTACCGCTGATGCCGAACTTTGCGAAACAGGAACACCAGAGCAACCGGGTAAACAAAATC +TACCTGGTGCCGAAGAGGGCGACGGCTTCTTTTACGCTAAGCTAATCAAAAAGTGATGAGATAACGGGTC +GCGACTGATGAAAATTATCATTCTGGGTGCCGGCCAGGTTGGCGGCACACTGGCGGAAAACCTGGTTGGC +GAGAACAACGATATTACTGTTGTCGATACCAACGGTGAGCGTCTGCGGACCTTACAGGATAAATTTGACC +TGCGGGTCGTGCAGGGGCATGGCTCTCATCCACGCGTATTGCGGGAGGCAGGTGCCGACGACGCCGATAT +GCTGGTTGCTGTAACCAGTTCAGATGAAACCAATATGGTTGCCTGCCAGGTAGCCTACTCACTTTTCAAC +ACCCCTAATCGCATCGCTCGTATCCGCTCACCAGACTACGTGCGCGATGCCGATAAGCTATTTCATTCAG +ATGCTGTGCCGATTGATCATCTGATCGCACCAGAGCAGTTGGTTATCGATAATATTTACCGACTGATTGA +GTATCCCGGCGCATTGCAGGTGGTGAACTTCGCTGAGGGTAAAGTCAGCCTGGCTGTGGTTAAAGCCTAT +TATGGCGGCCCGCTGATTGGTAATGCACTTTCGACCATGCGCGAACATATGCCACATATCGATACTCGTG +TGGCAGCAATTTTCCGCCACGATCGCCCCATTCGTCCGCAAGGTTCGACCATTGTTGAAGCTGGTGATGA +AGTGTTCTTTATTGCCGCTTCACAGCATATCCGCGCGGTGATGAGTGAATTACAGCGACTGGAAAAACCG +TATAAGCGGATCATGCTGGTTGGTGGCGGTAATATCGGTGCAGGGCTGGCGCGTCGTCTGGAAAAAGATT +ACAGCGTTAAACTCATCGAACGTAATCAGCAGCGCGCTGCCGAACTGGCGGAAAAGTTACAGAATACGAT +CGTCTTTTTTGGTGATGCGTCGGATCAAGAACTACTGGCCGAAGAACATATCGATCAAGTTGATCTGTTT +ATTGCCGTCACCAACGATGACGAGGCCAATATCATGTCCGCCATGCTTGCCAAACGTATGGGTGCGAAAA +AGGTGATGGTATTGATCCAGCGTCGCGCTTATGTGGATCTGGTTCAGGGGAGCGTTATCGATATTGCGAT +TTCACCACAACAAGCAACTATTTCTGCGTTGCTTAGCCATGTGCGAAAAGCAGATATTGTTGGTGTTTCC +TCATTGCGCCGCGGCGTAGCAGAAGCTATTGAAGCCGTTGCTCACGGTGATGAAAGCACCTCACGCGTTG +TCGGCAGAGTCATTGACGAAATCAAGCTACCGCCAGGAACGATTATTGGAGCGGTGGTACGTGGAAACGA +CGTGATGATTGCCAATGACAATCTGCGCATTGAGCAAGGCGATCACGTAATTATGTTCCTCACAGATAAA +AAGTTTATTACCGACGTCGAAAGACTCTTCCAGCCAAGCCCTTTCTTCTTGTAATTAATAAGGCGTCTAA +TGACGCCTTATTATTTCCCTTTGATTATCAAGGATTAATTAAATTCATTCCTGGCAGGAAAATGGCTTAA +CATTTGTTAGACTTATGGTTGTCGGCTTCATAGGGAGAATAACATGAGCATTATTAAAGAATTTCGCGAA +TTTGCGATGCGCGGGAACGTGGTGGATTTGGCGGTGGGTGTCATTATCGGTGCGGCATTCGGGAAGATTG +TCTCTTCACTGGTTGCCGATATCATCATGCCTCCTCTGGGCTTATTAATTGGCGGGATCGATTTTAAACA +GTTTGCTGTCACGCTACGCGATGCGCAGGGGGATATCCCTGCTGTTGTGATGCATTACGGTGTCTTCATT +CAAAACGTCTTTGATTTTCTGATTGTGGCCTTTGCCATCTTTATGGCGATTAAGCTAATCAACAAACTGA +ATCGGAAAAAAGAAGAACCAGCAGCCGCACCTGCACCAACTAAAGAAGAAGTATTACTGACAGAAATTCG +TGATTTGCTGAAAGAGCAGAATAACCGCTCTTAACAAGCGCCTGAAAGCAGAAGACCAGTGGTAAAAAAG +TGATTTACTTTCTTGCCACTGGCCTCCCAGTTCCCCCGATTGCCATGTTTTCCTTTTCGCATGTAACTGC +CTTTCCCCTTCTTATTTTTCTCTACGCGCTGTCGGAATAAGGGATCATGTAGTAATGCTTCTATCGCATT +ATCCTTTATCTGCCCTTTAGTATGCTGATATCGACTCATAAAAACTCCAGTTGGTTATTTAACGGCGCGA +GTGTAATCCTGCCAGTGCAAAAAATCAACAACCACTCTTAACGCCACTCGCCCCTTGTTCAAGAGCTTCA +AGAATCGAACAATAAACACTGCTATGAGCAGTCCCACAACAGGCATCGTTAAGGCGTTGCAAGGAACGCT +GCATACTCTGCAACTCGGCTATCCGTGCTTCGACTTCCTGCAATCTTTCCTGCACAATGCCTTTTGACTC +CTGACAGGTATGGTGTTCAGGATCGATGCGGATCGACAGCAACTCGCGGATCGACTCCAGACTGAAACCT +AGTTGTCTGGCATGGCGGATAAATTTCAATCGCTGGAGATCGCTTTCGGTATATAGGCGAAACCCACCTT +CAGTACGCACTTCATGCTCCATCATCTGCTGTTTTTCGTAATAACGAATCGTGTCGGGTGTTACTTCCGC +CATTTTTGCCAGCTCACCAATGCGATACATACATACTCCACTAGTTATCGTTGATTTTGTCCAACAACTT +GTCAGCATAATCGCCGCGTAAAAAATCGGTACTCAATCCAGCTTGTCGCAGCTTCAATTCCAGTAATGAC +AATCGACGGCTAACCTCTTGATATTGCGGATCATCGTGACGGATACCTTTGAGAATATCCAGAAGCTGAA +TTGCTTCTCTCCGTTGCTCAAGTTCTGGCGGTAAGCAACCGGCATTCTTCAGCAAGCGATACCCCGCACG +TAATTCCGGTGGCACGTGAGAATCATCATCCAGTATCAATGGTTCGCCGCTACCTGCCAGGTTATCAAAC +TCACCTTTCGCTTGCGCTTCTGCTATATGGCGCTCTGCCCACTGGTCAAGTAACCACATAAATACTCCAG +GGGATGAACAAAAAGAGTACAGCTATTGTAGATAAGTGGGGATACTACGGGTATAAAAAAACCCGCCGGG +GCGGGTTTTTTTACGTTGCTTCAGATTACTCTGCAGCAGCTTCTGCTTTCTCTGAACGATCAACCAGCTC +GATGTAAGCCATCGGCGCGTTGTCGCCTGCACGGAAGCCACACTTCAGAATACGAGTGTAACCACCGGCA +CGGCTCGCGAAACGCGGGCCCAGTTCGTTAAACAGTTTTGCCACGATCTCGTTATCACGAGTACGGGCGA +ATGCCAGACGACGATTAGCAACGCTATCAGTCTTGGCAAGAGTAATCAGCGGCTCAACTACGCGGCGCAG +CTCTTTCGCTTTAGGCAGAGTCGTCTTGATGATTTCATGACGAACCAGTGAACCTGCCATATTGCGGAAC +ATAGCCTGGCGATGGCTGCTGTTGCGGTTCAGTTGACGACCACTCTTACGATGGCGCATGACCTTATCCT +TCTCAGTAAAACCTTAACCTGTGATCCGGTTACTCGTCAGCGATGCTTGCCGGTGGCCAGTTTTCCAGGC +GCATGCCCAGAGACAGTCCACGGGAAGCCAGCACGTCTTTAATCTCAGTAAGAGATTTTTTACCAAGGTT +AGGCGTTTTAAGGAGCTCAACCTCGGTACGCTGTACCAGATCACCGATATAGTGGATAGCTTCTGCTTTA +AGGCAGTTAGCAGAGCGGACAGTCAATTCCAGATCGTCAACAGGGCGCAGCAGGATCGGATCGAACTCTG +GTTTCTCTTCTTTCACTTCAGGCTGACGTACATCACGTAAGTCAACGAAAGCTTCCAGTTGTTCAGCCAG +AATGGTTGCCGCACGACGAATCGCCTCTTCAGGATCGATTGTGCCGTTGGTTTCCATTTCGATGACCAGC +TTGTCCAGGTCGGTACGCTGTTCTACACGCGCTGCTTCAACATTGTAGGCAATACGCTCCACAGGGCTGT +AGCATGCGTCGACCAGCAGACGGCCGATTGGGCGCTCATCTTCTTCCGAATGAATTCGGGTAGAAGCCGG +CACATAACCACGACCGCGCTGAACTTTGATACGCATGCTAATAGACGCGTTCTCATCGGTCAGGTGGCAG +ATCACGTGCTGCGGCTTGACGATTTCGACATCACCGTCGTGGGTGATATCGGCTGCAGTCACAGGGCCAA +TGCCAGATTTATTCAAGGTAAGAATAACTTCATCTTTGCCCTGAACTCTCACCGCCAGCCCTTTCAGGTT +GAGCAGGATTTCCAGGATATCTTCCTGAACGCCTTCTTTGGTGCTGTACTCATGTAGTACACCATCAATC +TCAACCTCGGTCACCGCGCAACCCGGCATCGATGAGAGCAGAATACGGCGCAGTGCGTTACCCAGAGTAT +GGCCAAAGCCACGCTCTAAAGGCTCAAGGGTCACCTTGGCGTGCGTCGAACTCACTTGCTCGATATCAAC +CAGGCGCGGTTTTAGAAACTCTGTCACAGAACCCTGCATTGTGTCCTCTCTTTGGTACTAAGCTTTACTT +GGAGTAAAGCTCGACGATCAGGTGTTCGTTAATGTCCGCAGACAGATCAGAACGCTCCGGCTTACGCTTA +AACGTACCTTCCATCTTGCCAGCATCAACTTCCAGCCAGGTTGGCTTTTCACGCTGCTCAGCCAGCTCCA +GAGCGGCTTTCACGCGAGACTGCTTCTTCGCTTTCTCACGAATGCTTACAACGTCATTCGGACTAACCTG +ATAAGAAGCGATGTTAACAACACGACCGTTTACCATAATTGCTTTATGGCTAACCAGCTGACGTGCTTCT +GCACGAGTGGCACCGAAGCCCATACGGTATACAACGTTGTCCAGACGACCTTCCAGCAGAGCCAACAGGT +TTTCACCGGTGTTGCCTTTCAGACGTGCTGCTTCTTTGTAGTAGTTACGGAACTGACGCTCCAGCACACC +ATAGATACGGCGAACTTTTTGCTTTTCACGCAACTGCACACCATAGTCAGACAGACGCGGTTTACGCGCA +CCGTGCTGGCCAGGAGCTTGTTCAATTTTACACTTGGTATCGATCGCGCGAACGCCAGACTTAAGGAATA +AGTCGGTGCCCTCACGACGGCTCAGCTTGAGCTTAGGACCCAAATATCTTGCCATTTTCTTTCTCCAACA +AACCTGGAAAACGAGGCGTTATACGCGACGTTTTTTCGGCGGACGACAACCGTTATGAGGGATCGGAGTC +ACATCAGTAATGTTAGTGATGCGGAAACCTGCGGCGTTCAGAGCACGAATAGTAGATTCGCGGCCTGGAC +CCGGACCTTTAACCATAACTTCCAGATTCTTGATGCCGTATTCTTTCACGGCGTCAGCGCAACGCTCTGC +TGCAACCTGAGCTGCAAACGGAGTGGATTTGCGAGAACCACGGAAACCGGAACCACCGGCTGTTGCCCAA +CCCAACGCGTTACCCTGACGATCAGTGATAGTCACGATGGTGTTGTTGAAAGAAGCATGGATATGAGCCA +CGCCGTCAGAGACTTGTTTTCTTACACGTTTACGTGCACGAATTGGTGCCTTTGCCATTATTCAATCACC +CCGATTATTTCTTGATCGGTTTGCGCGGACCCTTACGGGTACGTGCGTTGGTCTTGGTACGCTGACCGCG +AACCGGGAGACCACGACGATGACGCAAACCGCGATAGCAACCAAGATCCATCAGGCGCTTGATGCTCATG +CTGATTTCACGGCGCAGATCACCTTCAACGACAAATTTGGCAACTTCGTCACGCAGCGTGTCGATTTGTC +CTTCAGACAGCTCACTGATCTTAACATCTTCAGCGATACCCGCTGCAGCCAGGATGGCTTTAGAACGGGT +CTTGCCGACGCCATAAATCGAAGTTAATGCGATTACGGCATGCTTATGATCAGGAATGTTAATGCCTGCT +ATACGGGCCACTATGCACTCCTACTATTTAATATGTACGTTCCATGCTGAAAAGCCCGTTTTCAGGATAC +TCAAATGGAAACGCACAGACATACAAAAGATTGGCTGGCTAATCTAGCCAGCTCAACCCAACTTTGCAAG +AAAAATATGCGAAAAAATCAGCCTTGGCGCTGTTTATGCTTCGGCTCGGCACTGCAAATCACACGGATGA +CACCATCACGCTTAACGATTTTGCAGTTACGGCATAATTTCTTGACGGAAGCACGAACTTTCATTTTTAC +TCTCCGTAACTTCTCGGGCGACCAATTATCGGCCGTAGCCTTTCAGGTTCGCCTTCTTCAATGCAGACTC +ATACTGACTGGACATCATCAGAGTTTGCACTTGAGCCATAAAGTCCATAATCACGACAACAACGATAAGC +AGTGAGGTCCCACCGAAGTAGAACGGTACTTTCATTGCATCACGCATGAACTCCGGGATCAGGCAGATAA +AGGTAATATACAGCGCACCAACCAGGGTCAGGCGGGTCATTACTTTATCGATATACTTCGCCGTTTGCTC +TCCCGGACGAATTCCTGGTACAAATGCACCGGACTTCTTCAGGTTATCTGCTGTTTCACGCGGGTTGAAA +ACCAACGCCGTGTAGAAGAAACAGAAGAAGATGATTGCAGACGCATAGAGTAACACATAAAGCGGTTGCC +CAGGCTGCAAATACAGCGAAATTGTTGTCAGCCAGTTCCAACCAGTACCGCCCCCGAACCATGACGCGAT +GGTCGCCGGGAACAGAATAATACTGGAAGCGAAGATTGCCGGGATTACCCCCGCCATATTCACTTTCAGC +GGTAAATGTGTGCTCTGTGCAGCATAGACACGACGACCTTGCTGACGTTTCGCGTAGTTTACCACAATGC +GGCGTTGACCACGCTCAACAAATACAACAAAGAACGTCACTGCAAATACTAATACTGCAACCAACAGCAA +CACGAGGAAGTGCAGGTCGCCTTGACGCGCTTGCTCGATAGTATGGGCAATGGCTGGCGGGAGTCCCGCG +ACAATACCGGCGAAGATAATGATTGAAATACCGTTGCCGATACCTCGTTCAGTAATCTGTTCGCCCAACC +ACATCAGGAACATGGTTCCTGTGACCAGACTTACAACAGCGGTGAAGTAGAATGCAAAGCCCGGGTTAAT +CACCAGGCCTTGCATACCAGGCATATTCGGCAGACCGGTAGCAATACCGATCGACTGGAATATTGCCAGC +ACCAGAGTACCGTAGCGGGTGTACTGGCTGATCTTACGACGACCAGACTCCCCTTCTTTCTTAATTTCTG +CCAACGTTGGGTGAACCACCGTCAGCAGCTGGATAATGATCGACGCCGAAATATACGGCATGATCCCCAG +AGCAAAGATAGAAGCACGGCTGAGAGCACCACCAGAGAACATGTTAAACATCTCAATGATGGTGCCTCGC +TGTTGCTCAAGCAGTTTGGCAAGTACAGCGGCATCAATACCAGGGATCGGAATAAAAGAGCCAATACGGA +ACACAATCAGCGCACCGATAACAAACAGCAGTCTGCGTTTCAGCTCGCCTAAGCCACCTTTGGCACTTTG +AAAATCTAATCCCGGTTGTTTAGCCATCTGCTACTTATTCCTCGATTTTACCGCCAGCAGCTTCGATAGC +AGCACGAGCGCCTTTAGTAACACGCAGGCCACGAACAGTTACCGGAGTCGTTACTTCGCCAGCCAGGATC +ACTTTCGCGAACTCGATCTGGATACCGATAATGTTAGCCGCTTTCAGCGTGTTCAGGTCTACTACACCGC +CTTCTACTTTAGCCAGGTCAGACAGACGAATTTCGGCTGTAATCGCTGCTTTACGAGAAGTGAAGCCGAA +TTTCGGCAGACGACGGTACAGAGGCATCTGACCACCCTCGAAACCGCGACGTACGCCACCGCCAGAACGA +GACTTCTGACCTTTGTGACCACGACCACCGGTTTTACCGAGGCCAGAACCGATACCACGACCCAGGCGTT +TACCCGCCTTTTTGGAGCCTTCGGCCGGAGACAGAGTATTTAAACGCATCTCTTACTCCTCAACTTTAAC +CATGAAGGAAACCGCGTTGATCATACCGCGAATAGCAGGAGTATCCTCGCGCTCTACGGTGTGACCAATA +CGACGCAGACCCAGGCCAAGCAGCGTTGCCTTGTGTTTCGGCAGACGACCGATTGCACTGCGGGTTTGAG +TAATTTTAATAGTCTTTGCCATGGTTTATTTCCCCAGAATTTCTTCAACGGATTTACCACGCTTGGCAGC +GACCATTTCTGGAGAATTCATATTTTCCAGGCCATCAATAGTTGCACGAACCACGTTGATCGGGTTGGTG +GAACCATAGGCTTTAGCCAGAACGTTATGAACCCCAGCGACTTCCAGAACGGCGCGCATTGCACCACCGG +CGATGATACCGGTACCTTCGGAAGCCGGCTGCATGAATACGCGAGAACCCGTGTGAACACCTTTAACAGG +GTGTTGCAGAGTGCCGTTATTCAGCGCGACGTTAATCATATTGCGACGGGCTTTTTCCATCGCTTTCTGG +ATCGCTGCTGGAACTTCACGCGCTTTACCGTAACCAAAACCAACGCGACCGTTACCATCGCCAACTACAG +TCAGAGCTGTGAAGGAGAAAATACGACCACCTTTAACGGTTTTAGATACGCGGTTTACCGCGATCAGCTT +TTCCTGCAGTTCGCCAGCTTGTTTTTCGATGTGAGCCATCTTACACCTCTACCTTAGAACTGAAGGCCAG +CTTCACGGGCAGCATCTGCCAGTGCCTGGACACGACCATGATATTGGAACCCGGAACGGTCAAAGGATAC +ATCTTTGATGCCTTTTTCCAGAGCGCGTTCAGCGACAGCTTTACCCACAGCTGCAGCCGCGTCTTTGTTA +CCGGTGTACTTCAGTTGTTCAGCGATAGCTTTTTCTACAGTAGAAGCAGCTACCAGAACTTCAGAACCGT +TCGGTGCAATTACCTGTGCGTAAATGTGACGCGGGGTACGATGTACCACCAGGCGAGTTGCGCCCAGCTC +CTGGAGCTTGCGGCGTGCGCGGGTCGCACGACGGATACGAGCAGATTTCTTATCCATAGTGTTACCTTAC +TTCTTCTTAGCCTCTTTGGTACGCACGACTTCGTCGGCGTAACGAACACCCTTGCCTTTATAAGGCTCAG +GACGACGGTAGGCGCGCAGATCCGCTGCAACCTGGCCGATCACCTGCTTATCAGCGCCTTTCAGCACGAT +TTCAGTCTGAGTCGGACATTCAGCAGTGATACCCGCAGGCAGCTGATGGTCAACAGGATGAGAGAAACCC +AGAGACAGGTTAATCACATTGCCTTTAACCGCTGCACGGTAACCTACACCAACCAGCTGCAGCTTCTTAG +TGAAGCCTTCGGTAACACCGATAACCATTGAGTTCAGCAGGGCACGCGCGGTACCAGCCTGTGCCCAACC +GTCTGCGTAACCATCACGCGGACCGAAGGTCAGGGTATTATCTGCATGTTTAACTTCAACAGCATCGTTG +AGAGTACGAGTCAGCTCGCCGTTTTTACCTTTGATCGTAATAACCTGACCGTTGATTTTTACGTCAACGC +CGGCAGGAACAACGACCGGTGCTTTAGCAACACGAGACATTTTTTCCTCCGATTAGGCTACGTAGCAGAT +AATTTCGCCACCAAGACCAGCCTGGCGCGCTGCACGATCAGTCATAACACCTTTAGAGGTAGAAACAACT +GCGATACCCAGACCCGCCATAACTTTCGGCAGCTCATCTTTACGTTTATAGATGCGCAGACCTGGGCGGC +TGACACGCTGAATGCTTTCTACAACAGCTTTGCCCTGGAAATACTTCAGAGTAAGTTCCAGTTCAGGCTT +GGTGTCGCCTTCAACTTTAAAATCTTCAATAAAACCTTCTTCCTTCAGCACGTTGGCGATTGCCACTTTC +AGCTTGGAGGAAGGCATGGTGACCGCAGCTTTGTTCGCGGCCTGACCGTTACGGATACGGGTCAGCATAT +CCGCGATCGGATCTTGCATGCTCATCTGTCTTTACTCCCGTGATTCAATTGGTGACAATTACCAGCTAGC +CTTTTTCAGACCCGGGATTTCACCGCGCATAGCGGCTTCACGGACCTTAATACGGCTCAACCCGAACTTC +CGCAGGAAACCATGCGGACGACCTGTTTGACGGCAGCGGTTACGCTGACGAGACGGGCTGGAATCACGCG +GCAGAGTCTGCAGCTTGAGAACAGCGTTCCAACGATCTTCGTCGGAAGCGTTCACATCAGAGATGATCGC +TTTCAGTTCAGCGCGTTTCGCGAAGTATTTATCAGCTAAAGCTACGCGTTTTACTTCGCGTGCTTTCATT +GATTGCTTAGCCATTTAGTAACCCTACCTTACTTGCGGAACGGGAAGTCAAAGGCAGCCAGCAGAGCGCG +GCCTTCTTCGTCAGATTTCGCAGTAGTGGTAATGGTAATATCCAAACCACGAACGCGGTCGACTTTATCG +TAGTCGATTTCTGGGAAGATGATCTGCTCACGGACACCCATGCTGTAGTTACCACGACCGTCGAAAGACT +TAGCGGACAGGCCACGGAAGTCACGGATACGAGGTACAGCAATAGTGATCAGGCGCTCAAAGAACTCCCA +CATGCGTTCGCCACGCAGAGTTACTTTACAGCCGATCGGATAGCCCTGACGGATTTTGAAGCCTGCAACA +GATTTGCGTGCTTTGGTGATCAGCGGTTTTTGACCGGAGATTGCTGCCAGGTCTGCTGCTGCGTTATCCA +GCAGTTTTTTGTCAGCGATCGCTTCACCAACACCCATGTTCAGGGTGATCTTCTCGACCCGAGGGACTTG +CATGACAGAATTGTAGTTAAACTCAGTCATGAGTTTTTTAACTACTTCGTCTTTGTAGTAATCATGCAGT +TTCGCCATCGTACTACTCCAAATTACTTGATAGTTTCGCTGTTAGACTTGAAGAAACGGACTTTTTTACC +GTCTTCGAATCTAAAGCCTACACGGTCAGCCTTGCCGGTTGCCGCATTGAAGATTGCTACGTTGGAAACC +TGAATAGCGGCTTCTTTTTCAACGATGCCACCCGGTTGGTTCAGGGCCGGAACCGGCTTCTGATGTTTCT +TAACCAGGTTGATACCTTCAACAATGACCTTGCCGGAAGACAGGACATTCTTAACTTTACCGCGTTTACC +TTTATCTTTACCGGTTAACACGATAACTTCGTCATCACGACGGATTTTCGCTGCCATGATTCGCTCCTTA +GAGTACTTCTGGTGCCAGAGAGATAATTTTCATGAACTTCTCACTACGAAGCTCACGAGTTACCGGCCCA +AAAATACGCGTACCGATAGGCTGCTCGCTGTTGTTGTTCAGAAGAACACAAGCATTACCATCGAAGCGAA +TGACAGAACCGTCCGGGCGACGAACACCCTTCTTGGTGCGCACCACTACCGCCTTCAGCACATCACCTTT +TTTGACCTTACCACGCGGAATTGCTTCTTTGATGGTGATCTTGATGATGTCGCCTACGCCTGCGTAGCGA +CGGTGCGAGCCACCCAGAACCTTGATACACATTACGCGACGTGCACCGGAGTTGTCGGCGACGTTCAGCA +TAGTCTGTTCTTGGATCATTTTAGTGCTCCGCTAATGTCAACTACTACTGAGACCCGAAAATCAGGTCGT +TAAAAATCCCCATATCGAGGGCGCGGCATTATAACACCGCTTCAAGGATATGGGTAGAAAAAATAAACGG +CTCATTTCTGAGCCGTTTATTCGTATTGAGAGAGTGTACTGTATTACAGAACCGCTTTCTCTACAACGCG +AACCAGCGTCCAGGATTTAGTCTTGGACAGCGGACGGCATTCGCGGATTTCAACCACGTCACCGATACCG +CATTCGTTGTTCTCGTCATGTACGTGCAGTTTGGTCGTACGCTTGATGAATTTACCGTAGATCGGGTGTT +TCACAAAACGTTCGATAGCAACAACAATGGATTTCTCCATTTTGTCGCTAACAACGCGACCTTGCAGAGT +ACGGATTTTATCGGTCATTACGCACCCGCCTTCTCGTTCAGTAAAGTCTTAACGCGTGCGACATCGCGAC +GCACTTGCTTCAACAGGTGAGACTGTTGCAGCTGGCCACTTGCAGCCTGCATACGCAGGTTGAACTGCTC +ACGCAGCAGGTTCAGCAGCTCGGTGTTCAGCTCTTCAACGCTCTTCTCACGCAGCTCTTTTGCTTTCATT +ACATCACCGTCTTAGTTACAAAGGTGGTTTTAATCGGCAGTTTCGCTGCTGCCAGCTTGAATGCTTCACG +GGCCAGCTCTTCCGGAACACCGTCCATTTCATACAGGACTTTACCCGGCTGAATCAAGGCAACCCAATAC +TCCACGTTACCTTTACCTTTACCCATACGCACTGCCAGCGGCTTTTCAGTGATCGGTTTGTCCGGGAACA +CACGGATCCAGATCTTACCTTGACGCTTAACTGCACGGGTCATAGCACGACGTGCTGCTTCGATCTGACG +GGCAGTCAGACGACCACGGCCAACAGCTTTCAGACCGAAGCTGCCGAAGCTAACATCCGTACCCTGCGCC +AGACCGCGGTTACGGCCTTTGTGCATTTTACGGAATTTTGTACGCTTTGGTTGTAACATCAGCGACGCTC +CTTATTTACGGCCTTTACGCTGCTGCTTTTTAGGCTGAGCAGCCGGTTTTTCCGGTTGTTCAACAGCAGC +CATACCACCCAGGATCTCGCCTTTGAAGATCCACACTTTAACGCCGATTACACCGTAAGTGGTGTGCGCT +TCAGAGGTGTTGTAGTCGATGTCAGCACGCAGAGTGTGCAGCGGTACGCGACCTTCGCGGTACCATTCGG +TACGTGCGATTTCCGCGCCGCCCAGACGGCCGCTAACTTCAACTTTAATACCTTTAGCGCCCAGACGCAT +TGCGTTCTGTACAGCACGCTTCATAGCACGACGGAACATAACGCGACGTTCCAGCTGAGAAGTGATGCTG +TCAGCAACCAGTTTTGCGTCCAGTTCAGGCTTACGAACTTCGGCGATGTTGATCTGTGCAGGAACGCCAG +CGATGTCCGCTACGACCTTACGCAGTTTTTCTACGTCTTCACCTTTTTTACCGATAACGATACCCGGGCG +AGCAGTGTGAATGGTTACACGGATGCTCTTAGCCGGACGCTCGATAACGATACGAGATACGGACGCTTTA +GCCAGTTCCTTAGTCAGGTACTGACGTACTTTAAAATCGCTGTCCAGGTTGTCAGCGAATTCTTTGGTGT +TCGCAAACCAGGTAGAGTTCCATGGTTTTACAATACCCAGGCGAATACCATTAGGATGTACTTTCTGACC +CATTGCTAGTCTCCAGAGTCTCAGCGATCGGACACAACCACAGTGATGTGGCTGGTGCGCTTCAGGATGC +GATCTGCACGACCTTTTGCACGCGGCATAATGCGCTTCATGCTCGGGCCTTCGTCTACGAAAATTTTCGT +AACTTTCAGATCGTCAATGTCAGCGCCATCGTTGTGTTCAGCGTTAGCAATGGCAGATTCCAGAACTTTC +TTGACCAGTACAGCCGCTTTCTTGTTGGTGTAGGTCAAAATATCCAGAGCCTGCGACACTTTCTTACCGC +GAATCAGGTCAGCAACAAGGCGAACCTTCTGAGCAGAAGAACGAGCATGGCGATGTTTAGCGATAGTTTC +CATCTCTTCCTCCTACCTTATTTCTTCTTCGCTTTTTTATCAGCAGCGTGGCCGCGATAAGTACGAGTCG +GTGCGAATTCACCCAGTTTGTGACCAACCATTTCGTCGGTTACAAATACCGGAACGTGCTGACGACCATT +ATGGACAGCGATGGTCAAACCGATCATGTTAGGAAAGATCGTTGAACGACGGGACCAAGTGCGCAGGGGC +TTCTTGTCTCCGCTTTCCACCGCTTTCTCTACCTTCTTCAGCAAGTGCAGGTCAATAAAAGGACCTTTCT +TGAGAGAACGTGGCATGGCTTATCCTCTAAAATTATTTGCTACGGCGACGTACGATGAATTTATCAGTAC +GCTTGTTGCTGCGGGTCTTCTTACCTTTGGTCTGAACGCCCCACGGAGTTACCGGGTGCTTACCAAAGTT +ACGACCTTCACCACCACCATGTGGGTGGTCTACCGGGTTCATCGCGGTACCGCGAACGGTCGGACGAACA +CCACGCCAGCGTGCAGCACCTGCTTTACCCAGAACGCGCAGCATATGCTCAGCATTGCCAACTTCGCCCA +GAGTTGCACGGCAGTCTGCTTCTACTTTACGCATTTCACCAGAACGCAGACGCAGGGTGACATAAGCACC +ATCACGAGCAACGATCTGAACGTAAGTACCAGCGGAACGTGCCAGCTGACCGCCTTTACCTGGTTTCATT +TCTACGTTATGAACAGTAGAACCAACCGGGATGTTGCGCATCGGCAGGGTGTTACCTGGTTTGATTGCAG +CATCAACGCCAGACTGAATCTGGTCGCCAGCTTTCAGGCCTTTAGGGGCCAGGATGTAACGGCGTTCACC +GTCTTTGTACAGAACCAGCGCGATGTTCGCGGAACGGTTCGGATCGTACTCAAGACGTTCAACAACTGCC +GGGATACCGTCTTTGTTGCGTTTGAAGTCAACAATACGGTAAGCCTGCTTGTGGCCACCACCGATATGAC +GAGTGGTGATACGGCCATTGTTGTTACGACCACCGGATTTGCTGTTTTTTTCCAGCAACGGAGCAAAAGG +TTTGCCCTTGTGCAGCTCAGGGTTAACCACTTTAACTACGTGGCGACGACCCGGAGATGTCGGTTTACAT +TTAACAACTGCCATTGTATTACTCCTCCGACTTACTCAGCGCCGCCAACGAAGTCCAGATTCTGGCCTTC +TTTCAGGGTGACGTAAGCTTTTTTCCAGTCGCTACGACGACCGATACGCTGTCCGTGACGTTTAACTTTC +CCTTTAACTACCAGGGTGTTAACGACTTCGACTTCGACTTCAAACAGTTTCTGCACAGCAGCTTTGATTT +CTGCTTTGGTCGCGTCTTTAGCAACTTTGAGTACGATGGTGTTGGATTTTTCCATCGCAGTAGACGCTTT +TTCAGAAACGTGCGGTGCACGCAGCACCTTCAGCAGACGTTCTTCACGAATCATGCCAGCATCTCCTCAA +CTTGCTTAACAGCATCAGCAGTCATTACGACTTTGTCGAAGGCGATCAGGCTAACCGGGTCGATACCAGT +TGCATCGCGTACGTCAACCTTGTGCAGGTTGCGCGCAGCCAGGAACAGGTTTTCGTCCAGCTCACCGGTG +ATGATCAGCACATCTTCCAGAGCCATGTCTTTCAGTTTCTGTGCCAGCAGCTTAGTTTTCGGCGCTTCTA +CAGAGAACTTCTCGACAACGATCAGACGATCCTGACGTACCAGTTCGGACAGGATGCTTTTCAGCGCGCC +GCGGTACATCTTCTTGTTAACTTTTTGACTGTGGTCCTGCGGACGAGCAGCAAAGGTCACGCCACCAGAA +CGCCAGATCGGGCTCTTGATAGAACCAGAACGCGCACGGCCGGTGCCTTTCTGGCGCCACGGTTTTTTAC +CGGAACCAGTTACTTCAGCACGAGTCTTCTGAGCACGAGTACCCTGACGAGCACCAGCTGCATAAGCAAC +AACAACCTGGTGAACCAGCGCTTCGTTGAAATCACGACCGAAGGTAGTTTCGGAAACAGTCAGCGCGCTC +TGCGCGTCTTTCAATACTAATTCCATTGCTATCTCCTTACGCCTTCACAGCTGGTTTAACGATCAGGTCG +CTACCGGTTGCACCCGGGACAGCACCTTTAACCAGCAGCAGGTTGCGCTCAGCGTCAACGCGTACTACGT +CAAGGCTCTGAACGGTTACACGTTCGTTACCCATCTGACCTGCCATTTTCTTGCCTTTGAACACTTTGCC +CGGAGTCTGGTTCTGACCGATAGAACCCGGAACGCGGTGAGACAAGGAGTTACCGTGAGTAGCGTCCTGG +GTACGGAAGTTCCAGCGCTTAACGGTACCTGCGAAACCTTTACCTTTAGAGGTGCCAGTTACGTCAACTT +TTTTAACGTCAGCAAACAGTTCAACGCTAATGCTCTGACCTACAGTGAACTCTTCGCCTTCAGCCAGGCG +GAATTCCCACAGACCACGGCCAGCTTCTACGCCAGCTTTAGCGAAGTGGCCAGCTTCAGGCTTGGTCACA +CGGTTAGCTTTTTTAGCACCGGTGGTCACCTGAATAGCACGGTAGCCATCGTTAGCCAGGTCTTTAACCT +GAGTAACGCGGTTTGCTTCAACTTCGATTACGGTTACTGGGATAGAAACGCCGTCTTCTGTGAAGATACG +GGTCATACCCACTTTTTTACCGACTAAACCAATCATTGTTTCAACCTCTCAATCGCTCAATGACCTGATT +AACCCAGGCTGATCTGCACGTCTACACCGGCAGCCAGATCCAGACGCATCAGAGCATCAACGGTTTTCTC +GGTTGGCTCAACGATGTCAACCAGACGCAAGTGAGTACGGATTTCGTACTGATCGCGCGCGTCTTTGTTG +ACGTGCGGGGAGATCAGAACAGTGAAGCGCTCTTTGCGTGTCGGCAGCGGGATCGGACCACGGACCTGCG +CACCAGTGCGCTTGGCAGTCTCGACGATTTCCGCGGTTGCTTGATCGATCAGACGATGATCAAACGCTTT +CAGGCGGATACGGATTCTTTGGTTCTGCATGAGACCAGAGCTCCAATTATTTTATAAACGAAAATGATTA +CTCCTCAGACCCATTACGATTGATGGGAGAGTGTAACCGTTCTTACGTAGCTCCCCGATTGGGAGCATTG +TTAGGTAGCCAAATTCGGCTAACTGAGGTTCAGATTGAACCTGCTGTCAACTACGACAAGCCCGCGCATT +ATACATACTTAACCACCGAACGCAAGCGTATTGCTAGTAAAGTAAACAGCCTTCGGGTTATCTCTCAAGT +TCGTTCAGTGCATTTTTGACACGCTCTCTTAAACCGGCTTTCTCTTCGCTTTCTTCCACAGTATTTTCTT +CGTCTTCAGAAGAAGAGGGGGCATTCTCAACCGCGACGCCTGGGTCATCTTCCTCCTCGACGGATTCGAC +GACGGGGAGTGGCTGTTTTTTGAAGAAATAGTGTTGTGTTGATTGTTTAAAAGCGGGCGTTTCAGCCTCT +ACAGTGACTTCGGCTTTTACTATCCAAAGCACCCATAGCTGCCTGGCATACCCACCAACCAGCACCATTC +CTGCAAACCACAGGCAAATCAGTAATAAACAAATTACATATATTATGGTGCTGTGTTTTTGTCGGGAGAA +GATACCAGGGTGACCTGTTTCTTTCTGCTCACGCGCGGCGATATAGAATTCAAACATGTCATTTCCCCTT +CACTGTTGTTTCCGGGGAAATATTTGCTTCATCCCGATATAAGTAGGCACTCTCCCCTGCCACCTGCCAG +AGATGTACTAACGTTGAAAAGCCAACAACACCGTCAGTTTTCAAGTGGTGGCTTTTTTGAAATTGCTTTA +TTTTTTCTACCAACAAGGGACGCCACTCCGCCGAAGGTTCTGTCGAAATATGCAATGCGCGGTTTAACAT +CGTTTCCAGCCAGAGAATCTCTTCCTCGCTGCTATCACGCGTAATGGTACTCTCCCCTTCCGGCGACATT +TTCCACAACAGAAGATAATCACCCGTCCATACCGACTCAAACCATTTATGTGTCAGCGTCCACGTTTGCT +GACCTACGAGGACATCAACGCTAGCCTCACCGACGCGAACGACCACAACAGGCAATTTTTTGTCCCCGAC +TTTAAGCGATGCGATCCAGGGCAAATTCTGATCTACCAATGTTTGTAAAGAAGCATTCCCACTTTTACAT +GCCAGCCCCGCTCTTACTGCCTGATCGCACCAGGCCGAATCAGCTGGGACCTCGTACCCCCATACGCCGT +ATAACACGCTTAGCGCCTCACTATCGCGCATCACCACATGAGCAATATCCTTAGTCATATCTTGTTTAAC +TACTGGCGTTACGGGTATCAGCCACGCAGGAACGGGTAACGTAGCTGTAAAAGAGGACAGCAGTAGCCAA +CCACAGGTAAGAGCGATAATGGTTCCACTCATCACCACGGCAAGCTGCATTTTCCGGGGGCGGTTATCAC +CCAATATGCGGTAAATCATTCGCCATTGTTTTGCTGTGAAAACGCTGGTCTGCTCGGCTTGCTGTAATAA +GCGAATTGTTTCGCCGGCAAGCGCCAGCTTTCTGCGATCGCCCCGACATAATAAAGCTATCCGTTTCAGA +ACTCTGGCGGTTAAAAGGAGATCGGGTTGGTCAATATTCTGACCTTCAAGGATGCTTGCCTTAAGTTCGT +GCTCCGTCAGACGTCCTATCGAGACAAGTTCAATGCCCTGTTTTTTAAAATCACGTTCGACTTTTCGATC +GGGTCTGCCGATCAGCAAAAATTGACCGTCAGGAATAAGAGATATTGCGCGTTGGAGATCATCAAGTATG +CGGCGGTGATTCAGGTGAGCATTTTCAATAATAATAAGAGGGCAGCGACTATCAGTTCGATGAAGCGCAT +GCAGTAATTGCCCCGCCATCTCATCTCGCGTCCAGGCGCTGTCACGGCAGCCCTGTTCAGCCGCGTTATC +GTCGGTAACGATCCATGCGGCCTTACCTTGCCAGGAAACAACGAGGCTTAAAGTAATCACACGGCGATGT +TTATCTTTTTGCAGTTGCTGCGCCAGCCAGGTTTTTCCACTTCCAGCCTCACCCAACAAATAGCATAGAC +GCCAGGTTTGACGTTTCTCACACAACCAGGAAAGAATAACTTCTCTTCTCGTAGACATAGAACTTCCTGT +TTTAATTATTGATTATCCTTAATCATAAAAATAATGTATGTATTTATTAATTAAATACATATTACTAATA +TAAATAAATTTTGCTTGATTCATGCAAGCGGCATTAATACTATTTATACTAACGTCAATATACAACCCAC +CCAATCTATTTTATTAGAACATACATCGTGCCCACACTACGTTTCCCCTTCCATCTGGCGAATCATAATA +AAGATGCTGCCATCAATATATTGATTATATTTATAAGCATAGGGTCGATTATTTTTAATGTGAATTATTT +CCATACAACTATAGTTAAAAATGGACAGATCATTAATCAACCAACAAACGCATTTCAGTCTGATTTCAGC +CTTGCCGCTTTATGGCGTAACGAAAATCATGCTGGGGTAAAAGATGCAAATCCCGTGGCAGTTAATCAGG +AAACACCTAAGCTCTCTATAGCGCTTAATGGCATTGTACTCACATCGAATGATGAGACTTCTTTTGTCTT +AATTAATGAGGGGAGCGAACAAAAGCGATACTCCCTCAACGAAGCCCTTGAGTCAGCGCCGGGAACGTTT +ATTAGAAAAATAAATAAAACCAGCGTTGTGTTTGAAACTCACGGGCATTACGAAAAAGTAACTCTCCATC +CAGGGCTACCTGACATCATCAAGCAGCCTGATTCAGAAAGTCAAAATGTACTCGCTGATTATATTATCGC +CACGCCTATACGTGATGGAGAACAGATATACGGGCTTCGATTGAACCCTCGTAAGGGCCTCAATGCATTT +ACCACCAGCTTGCTACAACCAGGGGATATCGCCCTCAGGATCAATAATCTTTCGCTGACCCACCCTGATG +AGGTTTCACAGGCATTAAGTTTACTGCTAACTCAACAAAGTGCTCAGTTTACAATTCGTCGCAACGGCGT +ACCCCGCTTGATAAATGTTTCCGTCGGGGAACTTACAGGAATGAATGGACTGCGTCATGAAAGGACTCAA +TAAAATCACCTGCTGCTTGCTGGCAGCACTACTCATGCCTTGTGCAGGACACGCTGAGAACGAACAATAC +GGCGCGAACTTCAATAACGCCGATATCCGCCAGTTCGTGGAAATAGTGGGTCAGCATCTTGGCAAAACGA +TCCTGATCGACCCTTCGGTACAGGGAACCATTTCCGTACGCAGTAATGATACGTTTAGCCAACAGGAGTA +CTACCAGTTCTTTTTAAGTATTCTTGATCTTTACGGTTATTCCGTGATCACGCTGGACAATGGTTTTCTG +AAAGTGGTTCGCTCAGCTAATGTAAAAACATCGCCAGGGATGATTGCTGACAGTTCTCGTCCAGGCGTAG +GTGATGAGTTGGTCACCCGAATTGTACCGCTTGAGAACGTTCCTGCTCGTGACCTGGCCCCCCTGCTCCG +CCAGATGATGGATGCGGGTAGCGTCGGTAATGTTGTGCATTATGAACCCTCCAACGTTCTTATTCTGACC +GGTCGTGCCTCCACCATTAATAAACTGATTGAAGTCATAAAGCGCGTTGATGTCATCGGCACAGAGAAGC +AGCAAATTATTCATCTGGAATATGCGTCAGCGGAAGATCTCGCCGAGATTCTTAATCAATTAATCAGCGA +AAGCCACGGTAAAAGCCAGATGCCAGCCCTCCTCTCCGCGAAGATTGTGGCGGATAAGCGAACCAACTCT +CTTATCATCAGTGGACCGGAAAAAGCACGCCAGCGCATCACTTCATTACTGAAAAGCCTTGATGTCGAAG +AGAGCGAGGAAGGAAATACCCGGGTTTATTACCTGAAATATGCTAAAGCCACGAATCTGGTGGAAGTGCT +AACCGGTGTTTCCGAAAAGCTGAAAGATGAAAAAGGGAATGCGCGTAAGCCCTCCTCTTCTGGCGCGATG +GATAACGTCGCCATTACCGCCGATGAACAGACTAACTCTCTGGTCATTACCGCTGACCAGTCCGTCCAGG +AAAAACTCGCCACGGTAATTGCGCGTCTGGACATTCGCCGTGCACAGGTGCTGGTTGAGGCAATCATCGT +TGAAGTTCAGGATGGAAATGGACTAAACCTCGGCGTGCAATGGGCGAATAAAAACGTTGGCGCACAGCAA +TTTACCAATACCGGATTACCGATTTTTAACGCTGCGCAAGGTGTGGCTGATTATAAAAAGAATGGTGGGA +TCACCAGCGCGAATCCTGCCTGGGATATGTTTAGCGCCTACAATGGCATGGCCGCAGGCTTCTTCAATGG +CGACTGGGGAGTACTGCTTACCGCGCTGGCCAGTAACAATAAAAATGACATCCTCGCCACCCCAAGCATC +GTAACGCTGGATAATAAACTCGCGTCCTTCAACGTGGGGCAGGATGTGCCGGTGCTATCCGGGTCACAGA +CCACTTCAGGGGATAACGTCTTTAATACCGTCGAACGCAAAACGGTGGGGACAAAACTCAAAGTTACTCC +GCAGGTCAATGAAGGCGACGCGGTGTTGCTCGAAATAGAGCAGGAAGTCTCCAGCGTTGACTCTTCCTCT +AACTCGACGCTCGGCCCGACGTTTAATACCCGTACTATTCAAAACGCCGTGCTGGTCAAAACCGGTGAAA +CGGTGGTCCTGGGCGGATTGCTGGATGATTTTTCTAAAGAGCAAGTGTCAAAGGTTCCTCTGCTTGGCGA +TATTCCTTTAGTGGGGCAACTCTTCCGCTATACCTCCACCGAGCGCGCTAAACGCAACCTGATGGTATTT +ATCCGTCCGACGATTATCCGTGACGATGATGTTTATCGCTCACTGTCAAAAGAGAAATACACCCGTTACC +GTCAGGAGCAACAACAGCGGATCGACGGGAAATCAAAAGCGCTGGTTGGCTCGGAAGATTTGCCGGTGCT +GGATGAAAACACGTTCAACAGTCACGCCCCTGCGCCATCGTCACGGTGAGGCATTCATATGAGAATTCAC +TCACCGTACCCCGCCAGTTGGGCGCTGGCACAACGAATTGGTTATCTCTATTCAGAGGGCGAGATTATTT +ATCTCGCCGATACGCCATTCGAGCGGTTACTCGATATTCAACGTCAGGTTGGCCAGTGCCAGACCATGAC +CAGCTTGTCACAGGCTGATTTTGAAGCTCGGCTGGAAGCGGTATTCCATCAGAATACCGGTGAGTCGCAA +CAGATTGCGCAGGATATCGATCAATCCGTCGATCTTCTCTCGCTTTCGGAAGAGATGCCCGCAAATGAAG +ATCTCCTGAATGAAGATTCAGCGGCACCGGTTATCCGCTTGATCAATGCGATTTTGAGTGAGGCCATCAA +AGAAACCGCCTCTGATATCCACATTGAAACCTATGAAAAAACAATGTCGATCCGTTTTCGCATCGACGGC +GTTTTGCGGACAATTTTACAGCCAAACAAAAAACTGGCGGCACTGCTTATCTCCCGAATTAAGGTCATGG +CTCGTCTTGATATCGCCGAAAAACGTATTCCACAGGATGGAAGAATTAGTTTGCGTATCGGGCGACGTAA +CATAGATGTCCGCGTATCCACACTGCCGTCCATCTATGGTGAACGCGCCGTACTCCGCCTGCTGGATAAA +AACAGCCTCCAGCTTTCATTGAACAACCTGGGGATGACGGCAGCGGATAAGCAGGATTTAGAAAATCTCA +TTCAGCTTCCGCACGGTATTATCCTGGTGACAGGGCCGACAGGCTCCGGTAAAAGCACCACGCTCTACGC +CATCCTTTCGGCGCTGAATACTCCCGGCCGCAATATTCTGACGGTAGAAGATCCCGTGGAATATGAGCTG +GAAGGCATTGGGCAAACGCAGGTGAATACCCGTGTGGATATGTCTTTCGCTCGCGGCCTGCGCGCCATAC +TTCGCCAGGACCCGGATGTCGTCATGGTGGGGGAAATTCGTGATACAGAAACCGCGCAGATTGCGGTTCA +GGCCTCGCTCACCGGCCATCTGGTACTCTCAACACTCCACACTAACAGTGCATCAGGCGCAGTGACCCGG +CTCCGCGACATGGGCGTCGAATCATTCCTGCTTTCGTCTTCCCTGGCAGGGATTATCGCGCAACGTCTGG +TTCGTCGCCTGTGTCCGCAATGCCGACAATTCACGCCCGTATCACCCCAACAAGCGCAGATGTTTAAATA +TCATCAGCTCGCGGTGACAACAATTGGCACTCCCGTAGGCTGCCCTCATTGCCATCAATCCGGCTATCAG +GGGCGCATGGCGATCCACGAAATGATGGTGGTGACGCCGGAATTACGGGCCGCTATTCATGAAAATGTGG +ATGAACAAGCACTGGAGCGACTAGTCCGGCAACAACACAAGGCCTTAATCAAAAATGGCCTGCAAAAAGT +GATAAGCGGTGACACCTCCTGGGATGAGGTTATGCGCGTCGCCAGTGCCACGCTGGAGAGCGAAGCATGA +ATTATCGCTATCGCGCCATGACCCAGGATGGTCAAAAATTGCAAGGGATCATTGATGCTAACGATGAACG +TCAGGCACGACTGCGGCTGCGTGAAGAAGGGCTTTTCCTGCTGGATATTCGCCCCCAAAAAAGTTCGGGA +GTAAAAACACGTCGCCCGAGGATCAGCCATAGTGAACTGACGCTTTTCACCCGGCAGTTGGCAACCTTAA +GCGCAGCGGCATTACCCCTGGAAGAGAGCCTTGCCGTAATCGGTCAACAAAGCAGTAATAAACGACTGGG +TGACGTGTTAAATCAGGTACGCAGCGCCATCCTTGAAGGGCATCCCCTTTCCGATGCATTACAGCATTTT +CCCACGCTTTTCGATTCGCTCTATCGTACCCTGGTAAAAGCGGGCGAAAAGAGCGGGCTGCTGGCCCCGG +TGTTGGAAAAGCTGGCTGATTACAATGAAAACCGGCAGAAAATCCGCAGCAAGCTCATTCAGTCACTGAT +CTACCCCTGTATGCTCACTACGGTGGCGATTGGGGTCGTGATTATTCTCCTCACTGCTGTCGTGCCCAAA +ATTACCGAACAGTTCGTGCATATGAAGCAGCAACTGCCGCTGAGTACACGCATTCTTTTAGGTCTGAGCG +ACACGTTGCAACGTACCGGCCCGACATTATTAGCGACAGTGTTTATTGTCGCTGTAGGTTTCTGGCTCTG +GTTAAAACGCGGCAATAACCGCCACCGTTTTCATGCCATGTTGCTGCGCGTTGCGCTCATCGGCCCGCTG +ATTTGCGCCATTAACAGCGCACGCTATCTCCGCACTTTAAGTATTTTGCAATCCAGCGGCGTCCCTCTGC +TGGATGGGATGAATTTGTCCACCGAAAGCCTCAACAACCTCGAAATTCGCCAGCGTCTGGCAAATGCGGC +AGAGAACGTTCGCCAGGGTAACAGCATTCATCTTTCGCTGGAACAAACCGCAATTTTCCCGCCGATGATG +CTCTACATGGTGGCCTCTGGCGAAAAAAGCGGGCAGCTCGGCACATTAATGGTCAGAGCCGCAGATAACC +AGGAGACACTCCAACAAAATCGGATCGCCTTAACGCTCTCCATCTTCGAGCCAGCACTCATTATTACGAT +GGCACTGATCGTCCTGTTTATTGTCGTGTCGGTACTCCAACCTCTTCTTCAACTTAACTCAATGATTAAT +TAAGGAAAGCATATGCGCGCAACGGATAAGCAACGCGGTTTTACATTACTGGAAATTATGGTGGTGATCG +TCATTATCGGCGTACTTGCCAGCCTGGTGGTTCCTAACCTAATGGGCAATAAAGAAAAGGCGGATAAGCA +AAAAGCCGTCAGCGATATTGTGGCGCTGGAAAACGCCCTTGATATGTACAAACTCGACAATCATCACTAT +CCAACCACAAATCAGGGGCTTGAATCCTTAGTAGAAGCGCCGACACTGCCACCGCTGGCCGCAAACTATA +ACAAGGAAGGTTATATCAAGCGTCTGCCTGCCGATCCCTGGGGCAATGATTATGTCCTCGTTAATCCTGG +TGAACATGGTGCATACGATCTGCTTTCAGCAGGGCCCGATGGTGAAATGGGAACCGAGGACGACATCACC +AACTGGGGTTTGAGCAAGAAGAAAAAGTAAGTCAGCGATGAATCAGCAACGCGGGTTTACCCTGCTGGAG +ATGATGCTGGTGCTGGCGCTGGTCGCTATCACGGCAAGCGTGGTGCTCTTCACATATGGCCGGGAGGATG +TCGCCAGCACTCGTGCGCGCGAAACAGCGGCGCGGTTTACCGCTGCACTTGAATTAGCCATCGACCGCGC +CACGCTCAGTGGTCAGCCTGTCGGTATCCATTTCTCTGATTCAGCATGGCGCATTATGGTACCGGGCAAA +ACACCATCAGCCTGGCGCTGGGTTCCATTACAAGAAGATGCCGCAGACGAGAGCCAAAATGACTGGGATG +AAGAACTCTCAATTCATCTTCAGCCATTTAAACCTGATGACAGCAACCAGCCACAGGTTGTGATTCTGGC +CGACGGACAAATCACGCCCTTCTCTTTGTTGATGGCTAACGCCGGGACCGGTGAGCCGCTCCTGACGTTA +GTCTGTTCAGGCTCATGGCCCCTGGATCAAACGCTCGCCAGAGATACCCGCCCATGAACAAACAATCAGG +GATGACACTGCTTGAAGTCTTACTGGCGATGAGTATTTTCACCGCTGTTGCTCTGACTTTAATGAGCAGT +ATGCAAGGGCAACGAAATGCCATCGAGCGAATGCGTAACGAGACGCTGGCATTGTGGATAGCGGATAACC +AGCTTCAGTCACAAGATTCATTCGGCGAGGAAAACACGTCCAGTTCTGGCAAAGAGTTAATAAATGGCGA +AGAGTGGAACTGGCGCAGCGATATCCACTCAAGCAAAGACGGCACGCTTCTGGAACGCACCATAACGGTG +ACATTACCCAGCGGTCAGACAACCTCGCTTACGCGTTATCAAAGCATCGATAATAAATCCGGGCAGGCAC +AAGATGATTAATCGCCAGCAGGGTTTCACATTGCTGGAGGTCATGGCGGCGCTGGCGATTTTCTCAATGC +TTAGCGTGCTGGCGTTTATGATTTTTTCGCAAGCTTCCGAGTTGCATCAACGCTCACAGAAAGAAATCCA +GCAGTTCAATCAGCTACAGCGCACCATCACCATTCTTGATAACGATCTCCTGCAACTGGTCGCCCGGAGG +AATCGGAGTACGGACAAAATCATGGTGTTGGGTGAAGAAGCTATTTTTACCACGCAAAGTCGCGATCCGC +TGGCTCCTCTCAGTGAAGCACAAACCTTACTCACTGTTCACTGGTATCTGCGAAATCATACGCTCTACCG +TGCTGTTCGTACTTCTGTGGATGGCAGGAAGGATCAACCCGCCCAGGCGATGCTGGAACATGTCGAGAGC +TTTCTTCTGGAAAGTAACAGCGGGGAAAGCCAGGAACTTCCTCTCTCAGTCACGTTACATCTGCAGACTC +AGCAATATGGGGGGTTACAGCGCCGTTTTGCATTACCTGAGCAGTTAGCGAGAGAAGAGTCGCCAGCTCA +GACGCAGGCCGGGAATAATAACCATGAATAATGAACAACGCGGCGTCGCGCTGCTCATTGTACTCATGTT +ACTGGCGCTCATGGCTGCTCTGGCAGCAGACATGACGCTCAGTTTTCACAGCCAGCTTCAGCGAACCCGC +CAGGTAAACCATCATCTGCAACGGCAATATGATATTGAACTGGCGGAGAAACTTGCGCTTGCCAGCCTCA +CCCAGGACGTTAAAGATAACGACAGACAGACCACGTTGCAGCAGTACTGGGCACAGCCACAACAGTTGCA +GCTGGAAGATGGCAATACAGTGAAGTGGCAGTTACGCGATGCCCAGCACTGTTTTAATCTCAATGCGTTA +GCAAAAATCTCTGACGACCCGCTGGCTTCCCCTGATTTCCCCGCCCAGGTATTCAGTGCGCTGCTGATTA +ACGCCGGTATCGATCGCGGAAACACCGATGAGATCGTGCAATCAATCGCTGACTATATTGATGTCGATGA +CTCACCACGCTTTCACGGCGCAGAAGATAGCTTTTACCAAAGCCAGACGCCGCCCCGGCATAGTGCCAAT +CAGATGCTTTTTCTGACTGGCGAATTACGTCAGATAAAAGGCATAACCGAAAACATCTATCAGCGGCTTA +TCCCGTATGTCTGCGTTCTCCCGACCACGGAACTTAGCATCAATCTTAATATGCTAACGGAGAACGATAT +TCCGCTCTTCAGAGCGTTATTCCTCAATAACATCACGGATGCTGACGCTCGGGTCTTATTGCAAAAAAGG +CCGAGGGAAGGCTGGCTAACCACGGATGCATTTCTTTACTGGGCGCAGCAGGATTTCTCCGGTGTGAAGC +CACTGGTTGCTCAGGTGAAAAGGCATCTCTTTCCCTATAGCCGCTATTTTACGCTGAGTACGGAAAGTAT +CAGCGACGAACAATCCCAGGGATGGCAAAGCCATATTTTTTTCAACCGTAAACAGCAGAGCGCCCAAATC +TATCGGCGTACGCTGCAACTCTACTAATCATAAGGATCGTGATGCCTGAATCGTTGATGGTCATACGTTC +TTCCTCGACGCTGCGTAAGCATTGGGAATGGATGACGTTCTCCGCAGATAGCGTATCTTCGGTACATACG +CTCACGGACGATCTTCCGCTGGAGTCGCTGGCCGATCAGCCCGGTGCCGGAAATGTTCATCTTTTGATCC +CACCAGAGGGCCTTTTATATCGTTCCCTCACGCTGCCCAACGCCAAATACAAACTCACCGCACAAACATT +ACAATGGCTGGCAGAGGAGACGTTACCCGACAACACCCAGGACTGGCACTGGACGGTTGTCGATAAACAA +AACGAAAGTGTCGAGGTGATAGGCATTCAGTCGGAGAAACTCAGTCGCTATCTTGAGCGTTTACATACTG +CCGGACTCAACGTGACGCGGGTTTTGCCAGATGGCTGCTATCTTCCCTGGGAAGTAGATAGCTGGACTCT +GGTTAACCAGCAAACAAGCTGGCTCATTCGCAGTGCCGCACATGCCTTCAACGAACTGGATGAACACTGG +TTACAGCATCTTGCTGCCCAGTTTCCGCCTGAGAATATGCTTTGTTATGGTGTAGTACCTCACGGCGTTG +CAGCGGCCAATCCACTTATCCAGCATCCTGAAATACCATCACTGAGTTTGTATTCTGCCGATATTGCATT +CCAGCGCTATGACATGCTGCATGGTATTTTTCGTAAACAGAAAACTGTAAGCAAATCGGGAAAATGGCTC +GCCCGCCTGGCAGTAAGCTGTCTCGTTCTCGCCATTCTTTCTTTTGTTGGCAGCCGGAGCATCGCGCTCT +GGCATACGCTTAAGATTGAAGATCAACTTCAGCAACAACAGCAAGAAACCTGGCAACGTTATTTCCCGCA +GATCAAACGCACCCACAATTTTCGTTTTTACTTTAAGCAGCAACTCGCTCAGCAATATCCTGAAGCTGTG +CCGTTGCTCTATCATTTACAAACACTTCTGCTGGAACACCCTGAACTGCAGTTAATGGAGGCGAACTATA +GCCAGAAGCAAAAGTCGCTGACCTTAAAAATGAGTGCTAAGAGTGAAGCTAATATCGATCGTTTCTGTGA +GTTAACACAGTCCTGGCTTCCGATGGAAAAAACAGAAAAAGATCCGGTCAGTGGTGTATGGACAGTAAGG +AACTCAGGGAAATGATTAAATCATGGTGGGCAGAAAAATCCACATCGGAAAAACAGATCGTTGCGGCACT +GGCGGTTCTCTCGCTCGGCGTTTTTTGTTGGCTTGGGGTGATAAAACCGATAGATACCTACATTGCAGAG +CATCAGTCCCACGCGCAAAAAATTAAGAAGGACATCAAATGGATGCAGGATCAAGCGAGCACCCATGGTT +TACTCGGTCATCCTGCGCTTACGCAGCCCATCAAAAATATCCTTCTCGAGGAAGCAAAACGTGAGAATTT +GGCTATCACGCTGGAAAACGGCCCGGACAATACTCTGACAATTCATCCTGTCACAGCTCCCCTCGAAAAC +GTCTCCCGCTGGCTCACTACGGCACAGGTAACATACGGTATTGTTATTGAAGACCTTCAGTTTACTCTTG +CCGGAAACGAAGAGATCACCCTCAGGCATTTGTCCTTCAGGGAGCAACAATAATGACAATGCTACTGCCG +CTCTTCATTCTGGTTGGTTTTATTGCAGATTATTTTGTTAATGCCATCGCCTATCACCTCTCGCCGTTGG +AGGATAAAACGGCGTTAACGTTTCGCCAGGTATTGGTTCATTTCAGGCAAAAAAAATATGCCTGGCATGA +TACAGTGCCCCTGATACTTTGTGTTGCTGCTGCTATCGCCTGCGCCCTGGCACCTTTCACGCCCATCGTG +ACTGGCGCACTCTTTCTCTATTTCTGTTTCGTACTCACGCTCAGTGTTATTGATTTTCGCACTCAGCTCC +TGCCCGACAAACTCACCTTACCGCTGCTCTGGCTTGGCTTGGTATTTAATGCGCAGTATGGATTAATTGA +TTTACATGATGCGGTTTACGGCGCGGTAGCGGGCTATGGGGTGCTGTGGTGTGTTTACTGGGGCGTCTGG +TTAGTTTGTCACAAAGAGGGATTGGGCTACGGTGATTTCAAGCTACTGGCCGCTGCAGGCGCATGGTGTG +GCTGGCAAACGTTGCCAATGATACTGCTGATTGCCTCGCTGGGTGGCATTGGTTACGCCATCGTTTCACA +ACTTCTGCAACGCCGGACTATAACCACTATCGCATTCGGCCCGTGGCTTGCGCTCGGCAGCATGATAAAC +CTGGGGTATCTGGCCTGGATCTCTTATTAACCGGGAGGGTTCTCCCTCCCGACACGGCTCAACCTTCTTC +GCGGATCTGTGCTTGCAGATAATTTTGCAGGCCCATCTTCTGAATCAGATCAAGTTCCGTTTCCAGCCAG +TCGATATGGCCTTCTTCATCACGCAAAATTTCTATCATCATATCGCGGCTGACGTAATCATGAACGCTAT +CGGCATAACCAATTGCCTCACGCAAATTCTTCGCGCCATCCAGCTCAAGTGCCAGATCAGAACGCAGCAT +TTCCTCAACATCTTCACCAATGTTCAGTTTGCCCAGGTCCTGTAAGTTTGGAAGACCTTCCAGAAAAAGA +ATGCGCTCAATATAACGATCGGCGTGTTTCATCTCATCAATGGATTCATGATACTCCACATCATTGAGAC +GTTTGAGACCCCAGTTTTTAAACATTCGGGCATGGAGAAAGTACTGATTGATTGCGACAAGCTCATTTCC +CAACAGTTTGTTGAGATAATTTATAACTTTAGTATCACCTTTCATTTTTTGACTCCTTCGCTTCCACTCT +TTGAAGAGTAGAACGGCTTACGAGTAAGTCAAAAAACACACTCCGTTTATGCGGACTCCTTAAACTCCGG +CAGCTGCATTAATTCATCCTCCATCACTTCACGCGCGGCCCGGACACATTTACCGCACTGATTGCCGACC +GGAATAAATTTTTTTAATTGCTGGAACGAGTGAGGGGAAAACTGGCGCACAGCCTGACGAATTTTTTTAT +CGCTGATACCATTACAAAGACAAACGTACATAGAGACTCCCGTATACTTTCTTCAAAAATAAATGAAAAT +AGTTCTTATTTCAATTACGGAAAGACTCTTTTTTAAGCAAAGAATAGAAATATGAATAAAAATAATGGGC +TACCAAAAGTAGCCCATTGACAAAAAATGCGGCGATACTGGAAGGTATCGCCAACACATTTATTGCTTAG +TAAACGGCGCGAAGATTTCGCTAAATGCGTACTTCGGTGCCTGTTCTTTAGTCAGGCCGTGGAATTCCGG +AGACAGGTTAGTGCCGCCCGGCAGGTCGCGCGCGATTGACCAGATACCAACCATACCGAGATTACGCTTC +TGCGCATCCTGCATGACCAGACGAGCATCAGAGAGATAGAACACCTCGCCCTGAACGTCGTTCACGCCAA +CCATCGGCGTGGTACCCATCATAGCGTCAATTTCTGCATCGCTCTTATTGGGATGGAGGCCTTTCAATTG +TGAATGCAGGTTGGCAATCGCAGACGTTGCACACTTACCGTGAATGTTCTGGCCTTCGGTATTTGCAGAC +TGACAAATCGCGTTACCGTAGTCCATTGTCATCACGTTCACACCCGCCAGCTCAACACCTTTCGCTTTGG +CATCGCTCAGGACATTCATCCCTTCCGGCGTCAGGCCAGTCGGCAGAATTGGCAAGGTGTACCAGATAGC +AATATCTTTGCCTTCTGACTTCCATTTATCCTGCACTTTCTTCACAGCAAGGTTACGACGTTCAATAGAT +GCCTGATCCGCAACCCAGGTGCCTTCGATATCGAAGTCCAGGACTTTGAGGTTCAGGTTATCAACGATGT +CATAATAATGCTGCATCAGATCGTCTACGTTCTTACAGGAAGCAGCCAGCGGAGCGTTGTTAGCACCACC +GATAGACAGCATCACATCGCCGCCAGCCTCACGCAGAGCTTTGATTTTGCTGTACTGAGCGTAATTCTGC +ATACCGTAAGCGGTACCCCATGTCGGCAGACAGGTGTTCGCATCTTTACTCACCACAAACGCCAGCGTGA +AGTGGTTGACGTTATGATTCTTAGCCAGCGCAGCCAGATCCGGGATCGTATTCAGCGTAAAGTCGACATA +CGGTGCATAAACGTGTTTCGGCCACGCTTTCTTCGGCGTACCTACGCGCTCTTTGGTTCCGGTCCAGTCA +ACAAAAACACGCCACGGGTTGCTGTCAGAAGGAGAAACTTTCTGCACTTTACTCTGAGAAATGTAGTTCA +CACCGTTAAAGCGAATCAGCGTATCGCTGGCATAAAGCGTTTCTGGATTAAACTGCGGCGCATTATTCAG +CTCTTCGTTGCTATAGCTCTGAGCCTTACCTAACGGCTTCCACGGGCGGCTATTGCTACCGGTGGCGTTT +TGGTTCGCCACCAGAGCAGGGTTGTCACTTTGCGTCCAGAACAGCGCTTCATAAGCCTGCCCATCAACAA +CAACGCGATCACCTTTCACGTACACAGTGGATGCGGACCATGCTTTCGCCGGTTCGTATTTCTTCCACGG +GTTATCGCCGCCCGGGACAAAGCCCCATGCGTCTTGATCGACAGAAGTTTTATAATGTGCATCGTTATAA +TCTACGATGCTGTCCGCGCTGTACGCTTTGCTGGCCTGGAAACCATCCGCAACAATGACGCCGCCGTTAT +CAATTTCACAGGTAGTCGGGTTACCGTACTGACTCAATTCCGCAGCGGTAGCTGTACGCTCGAGACGCCA +TGGGTTATTGGAGTTTTCAGCGCTGGTACCCCGTGGGCAATCTTTAGACCCAACCCACCAGGCGTTCTTG +TAAACATTACCATTGAAAATAACATGGTAAATTTCGCTACCTTCCTGGCCGCTCCACGCTTGCAATGAGT +AATCGTTAACGCTATCCGCTGGTGTTGATGGCTCGCTGTTATCCGGAGTTGGGGTCACCGGTGTTTCCGG +AGTTGGATCAACCGGAGTCACAGCACCGCCATTATTATCCGGCTTAACGGAACAGGAGCCAGGGTTACCA +TACTGGCTGATTTCTGTTGCCGTTGCCGCGCGAACATAACGCCATGGGTTACTGGCATCGTTTTCTTTCG +CATCGCCTGGGCAATTTGCCGCGCCTACCCACCAGGCGTTCTTATAAATGCCGCCGTTATAGATAACGTA +CCATGTAGAAGAACCTTCCTGACCTTTCCAGGCTACTACAGCATAGTTGTCGTTTGACTTATCAGCTGGG +GCTGGCTGAACATCAGGAGCCGGTTTAACGTCCGGTGCCGGTTTCACATCCGGTGAAGGCTGTGGTGCTG +AAGTACAGGACTGTGGATTACTGGTTTCTGAGATTTCCGTTGCCGTAGCGGCACGAACATAACGCCATGG +GTTGCTGGCATCATTGCTTTTCGCATCACCCGGACAGTTAGAAGAGGCTACCCACCAGGCATTTTTATAT +ACCGCACCATTAAAGACGACATACCAGGTCTGACCGCCCTGCTGTTTATTCCAGGCAACTACAGAAGAAT +TAGACGGAACAGTGCCCTGTGCTGGTGTAGCCGAACCGCCATTAGCCGGCGTATTGGATGCAGGCGTATT +TGAATTTGAAGAAGATGAGCTGCCGCTCTTTTCGCAGGAAAGTGTATTGCCAAACTGACTAATTTCAGCA +GCTGTTGCGGTACGCTTTAAACGCCACGGGTTAGTTGCATCATTTGCTTTCGCTTTTCCCGGGCAATTTG +TAGAAGAAACCCACCAGGCATTTTCATAAATTTTGCCATCGAAAATAACCTGATATTTATTACCACCTTG +TTGGTTATTCCATGCTTCCATTGCCAATGCTGGCAGAGCGGAACACACCAGCCCCATACCAATCATAGAT +TTAGTAAATATATTTAATTTCATTATAATCCCTTGTGACGTAAAAACTGCAAAACAAAAGTCCTACGCAG +GAATTATTTACGTTTTACGAGAACCCTTCAATATGAATTAAATTACGGCATTAAAAATAAGAAAAAAGCC +TGACAAATGAAGCATTTTAAAAACAGAAACATTCATATTTAAAATGTTAAATTGAATTGATATTTTAAAT +ATGAATAATTTATTCGTTCTGACAGTACGAATAAGATATGCCGTCAACAAATGCAAAAAGGGCGCCGAAG +CGCCCTTTTCAATTCAAAACTAATTAACGTGTAATTAGCCCAGAACTTTAGCAACAACGCCCGCGCCAAC +GGTACGGCCGCCTTCACGGATTGCGAAACGCAGACCGTCGTCCATCGCGATCGGGTGGATCAGGGTAACA +ACCATTTTGATGTTGTCGCCCGGCATTACCATCTCTACGCCTTCCGGCAGTTCGATGGTACCAGTCACGT +CAGTAGTACGGAAGTAGAACTGCGGACGGTAGCCTTTGAAGAACGGAGTATGACGGCCGCCTTCATCTTT +GGACAGAATGTACACTTCAGATTCGAACTTGGTGTGCGGCTTGATGGTGCCCGGCTTAGCCAGTACCTGA +CCACGTTCGATTTCTTCACGTTTGATACCACGCAGCAGAACACCTACGTTCTCACCAGCACGGCCTTCGT +CCAGCAGTTTGCGGAACATTTCAACGCCAGTACAGGTAGACTTCTGAGTCTCTTTGATACCAACGATTTC +AACTTCTTCACCAACTTTGATGATACCGCGTTCTACACGACCGGTAACAACGGTACCACGACCGGAGATG +GAGAATACGTCTTCGATCGGCAGCAGGAACGGCTTGTCAATCGCACGCTCTGGTTCCGGAATATAAGAAT +CCAGGAAGCCAGCCAGTTCCAGGATTTTCGCTTCCCACTCTGCGTCGCCTTCCAGCGCTTTCAGAGCAGA +ACCACGAACGATCGGAGTGTCGTCGCCCGGGAAGTCGTACTGAGACAGAAGTTCACGAACTTCCATTTCA +ACCAGTTCCAGCAGCTCTTCGTCATCAACCATGTCGCATTTGTTCAGGAACACGATGATGTACGGAACGC +CTACCTGACGACCCAGCAGGATGTGCTCACGAGTCTGCGGCATCGGGCCGTCAGTCGCAGCAACTACCAG +GATCGCGCCGTCCATCTGAGCAGCACCGGTGATCATGTTTTTAACATAGTCGGCGTGCCCCGGGCAGTCT +ACGTGTGCGTAGTGACGGGTCGGGGTGTCGTATTCAACGTGAGAAGTGTTGATGGTGATACCACGAGCTT +TTTCTTCCGGCGCGTTATCGATCTGGTCGAATGCACGAGCAGCACCGCCGTAGGTTTTAGCCAGTACGGT +GGTGATTGCAGCGGTCAGAGTAGTTTTACCGTGGTCAACGTGGCCGATAGTACCAACGTTAACGTGCGGT +TTTGTACGTTCAAATTTTTCTTTAGACACGGCTATATTCCTTACTATAGTGCTCTCCCCTTCAGGAGAGA +GCACGGGACTTTGGTATTAACCCTTAGGCTTATTTACCACGGGCTTCAATTACGGCCTGAGCAACGTTAC +TCGGCGCTTCATCATACTTCAGGAATTCCATAGTGTATGATGCACGACCTTTGGTCAGAGAACGCAGCTG +AGTTGCGTATCCGAACATTTCAGACAGCGGTACTTCAGCGTGGATCTTAACGCCAGTAACTTCAGATTCC +TGACCTTTGAGCATACCACGACGACGGCTCAAGTCACCGATAACGTCACCGGTGTTCTCTTCCGGAGTTT +CTACTTCAACCTTCATGATCGGCTCAAGCAGAACTGGTTTCGCTTTCTTAAAGCCTTCTTTAAAGGCGAT +AGAAGCAGCCAGTTTAAACGCCAGTTCAGAGGAGTCAACGTCATGGTAAGAACCGAAGTGCAGACGAATA +CCCATGTCTACTACCGGGTAGCCTGCCAGCGGACCTGCTTTCAGCTGTTCCTGGATACCTTTATCAACGG +CCGGGATGTATTCGCCAGGGATTACACCACCTTTAATGTCGTTGATGAACTCGTAGCCTTTCGGGTTTGA +ACCCGGCTCCAGCGGGTACATGTCGATAACAACATGACCATACTGACCACGACCACCAGACTGTTTCGCG +TGTTTACCTTCAACATCGGTAACTTTCTGGCGGATAGTTTCACGGTAAGCAACCTGCGGTTTACCTACGT +TCGCTTCAACGTTGAATTCACGCTTCATACGGTCAACGATGATGTCGAGGTGCAGTTCGCCCATACCCGC +GATGATGGTCTGGTTAGATTCTTCGTCAGTCCATACACGGAAAGACGGGTCTTCTTTAGCCAGACGGCCC +AGAGCCAGACCCATTTTTTCCTGGTCAGCTTTGGTTTTCGGTTCAACTGCGATGGAGATTACCGGCTCAG +GGAATTCCATACGTTCCAGAATGATCGGCGCATCCGGGTCACACAGGGTGTCACCAGTGGTTACGTCTTT +CAGACCGATAGCAGCAGCGATGTCGCCCGCGCGAACTTCTTTGATCTCTTCACGTTTGTTAGCGTGCATC +TGAACGATACGACCGAAACGCTCACGTGCAGCTTTCACGGAGTTCAGTACGGTATCACCAGAGTTAACCA +CACCGGAGTAAACACGGAAGAAGGTCAGGTTACCAACAAACGGGTCGGTAGCGATTTTGAACGCCAGTGC +AGAGAACGGCTCGTCATCACTTGCGTGACGTTCAGCCGGAGTGTCTTTACCGTCGTCCAGGATACCGTTG +ATCGCAGGTACGTCAACCGGGGATGGCAGGTAATCAATTACCGCATCCAGCATCGCCTGAACACCTTTGT +TCTTGAACGCAGAACCACAGGTTACCAGGATGATTTCGTTGTTCAGAACGCGCTGACGCAGAGCACCTTT +GATTTCTGCTTCAGTCAGTTCTTCACCACCCAGGTATTTTTCCATCAGCTCTTCAGAAGCTTCAGCTGCG +GATTCGATCAGGTTCTGGTGCCATTCGTTAGCCAGTTCAACCATGTCTGCCGGGATATCTTCGTATTCGA +AGGTTACGCCCTGGTCAGCGTCGTTCCAGTTGATAGCTTTCATTTTCACCAGGTCAACAACACCGGTGAA +ATGTTCTTCAGCACCAATCGCCAGCTGCAGCGGAACCGGGTTCGCGCCCAGACGGGTTTTGATCTGGTTA +ACAACTTTCAGGAAGTTCGCACCCATGCGGTCCATTTTGTTAACGAACGCAATGCGCGGAACTTTATATT +TGTTTGCCTGACGCCATACGGTTTCAGACTGCGGCTGAACACCACCAACTGCGCAGTAAACCATTACCGC +ACCATCGAGAACACGCATGGAACGTTCTACTTCGATTGTGAAGTCAACGTGCCCCGGGGTGTCGATGATG +TTGATGCGATGCGGCTCATACTGCTTAGCCATACCAGACCAGAATGCAGTAGTCGCAGCGGAAGTGATGG +TAATACCACGTTCCTGCTCCTGCTCCATCCAGTCCATGGTTGCAGCGCCGTCATGAACTTCACCGATTTT +ATGGTTTACACCGGTGTAGAACAGAATACGTTCGGTAGTAGTGGTTTTACCGGCGTCGATGTGCGCACTG +ATACCGATGTTACGGTAGCGTGCGATGGGTGTTGTACGAGCCATTTGTTTCCTCGTTTATCTTTTAGGCG +TTCAATTTAAGTAGCCCAAAGCGGGCTGCTTACTGGAAGCGCCCGCCTGGTGACTAAAACTCCGAAGGGA +TAACCAACGGTAGTGTGCGAACGCCTTGTTGGCTTCGGCCATACGGTGAACGTCTTCACGTTTCTTAACT +GCAGTACCTTTGTTTTCTGCAGCATCAGAAAGTTCGTTCGCCAGGCGCAGAGCCATGGATTTATCACCGC +GTTTACGAGCAGCTTCAACGATCCAACGCATTGCCAGAGCATTACGACGAACCGGACGGACTTCAACTGG +TACCTGATAAGTAGAACCACCAACGCGGCGAGACTTAACTTCTACAGTCGGGCGCACGTTTTCGAGAGCT +ACTTCGAATGCTTCCAGTTCAGATTTACCAGAGCGCTGAGCCAGGGTCTCCAGCGCGCTGTATACGATAG +ATTCAGCAGTAGATTTTTTACCATCTACCATCAGGATATTTACAAATTTAGCCAGCAGTTCTGATCCGAA +CTTCGGATCCGGCAGAATTTTACGCTGACCAATGACGCGACGACGTGGCATGGAAATACTCCGTTGTTAA +TTCAGGATTGTCCAAAACTCTACGAGTTTAGTTTGACATTTAAGTTAAAACGTTTGGCCTTACTTAACGG +AGAACCATTAAGCCTTAGGACGCTTCACGCCATACTTGGAACGAGCCTGCTTACGGTCTTTAACGCCGGA +GCAGTCAAGCGCACCACGTACGGTGTGGTAACGAACACCCGGGAGGTCTTTAACACGACCGCCACGGATC +AGGATCACGGAGTGCTCCTGCAGGTTGTGACCTTCACCACCGATGTAGGAAGTCACTTCGAAACCGTTAG +TCAGACGAACACGGCATACTTTACGCAGCGCGGAGTTCGGTTTTTTAGGAGTGGTAGTATATACACGAGT +ACATACGCCACGTTTTTGCGGGCATGCTTCCAGCGCAGGCACGTTGCTTTTCGCAACTTTGCGAGCACGT +GGTTTGCGTACCAGCTGGTTAACTGTTGCCATTAAATAGCTCCTGGTTTTAGCTTTTGCTTCGTAAACAC +GTAATAAAACGTCCTCACACAATATGAGGACGCCGAATTTTAGGGCGATGCCGAAAAGGTGTCAAGAAAT +ATACAACGATCCCGCCATCACCAGGCCATCTGGCTGGGGTGCTTAACCGTAAGTCTGACGAAATCAGTAT +AGTCAATGAGAATGATGTCGTTCGAAATTTGACCAGTCAAACCGCGGGCAATAAGGTCTTCGTTCAGGGC +ATAGACCTTAATGGGGGCATTACGCAGACTTTCAAGGTAGCGGTTACCGTCAACTGCGGCAGTTACGCCA +TCTTGCAATAATAGCAGTTCGTCTCCTTCACTGAGCAGACGCAGCAGCGCAGCAAAATCCGTCAGCCAGG +GTGAGCGATGTAATGTGTGCAGCATAAACGCCTCAAAACCTCAAAATAACATCGTAGTTGGCGAGTTCGC +GGCGTAAGGCATCTGCTTCGAGCGGCGTGGCTTCGACAACAAAGGGTGTCTGCGGATCTAACCCGCGTTC +GCGCAGTGAAGCCGCACAAACCCAGCACTGTTCAATGTCGTACAGACCCAACAATTTAAAAGTGGCAATG +TAATCACGCGCCAGCACTGCATCGGGCTTTTGTCCTGGCAGCAGCTGAAAAACGCCATCAGCTATAAAGA +AGACAGCCAGATCGTCAGTTAATGCGGAAGTTGCCAGTAAAGCATCTAAACCTTCCCGGCCTGCGGCTGT +ACCATGAGGTGCAGTAGAAAAAACAAACGCAATTCGTTTCATCAGAACTGTACCACCCTGTCACAGGTCA +GCGAGGCTTCCGCCAGCGCCCCAAGTCCGCTTAAGGTAAATCCCTGCTGAAGGTTTGACGAAGCCAGCCC +CAGTCTTCCGGCCTCCGTTTCATCAACAACGCCACGGCGTAATGCTGCCGCTACGCAGATATTCAGCGCC +ACACCATGTTGCGCATTCAGTTGTTGCCAGGCCCGTACGAGGTCAAATTCGTCACTTGCCGGAGAGGTCA +ATTGGTTAGCGTTATAGACCCCTTCCCGATAGAAAAAGACGCTGCTTAACTCATGGCCATCTGCTATCAG +CGCCTGCGCAAACTGAAAAGCACTACTCGCCTGTTGCGTACCGTATGCTGGCCCGGTCACCACGATGGCA +AAACGCATTACTTATCTTGCCCCTGGAAATCACCGCTCTTGAACTGGCGGATGTAGAGATAGACAGTGTG +TTTGGAGATGTTCAGGCGGTCAGCAACCTGGTTGATCGCATCTTTAATATCGAAGATCCCTTTCTCGTAG +AGATTCAGCACGATCTGACGATTTTTGGCGTTATTAGAAACATTGCGATCGGCATTCACTTCTTCGATGG +TGAACTCCAGCGTTTGGGTAACCAGATCTTCAACAGAAGAGGCAAAGTTGACGCTTGAACCGACATCCGG +GGTTTCTGGCGGCACAAAGGTGCTCATAATCTGCGAGAAGGGAACATCAAGATTCATATTGATGCACAGC +AGACCAATTACACGCTGTTCGCGGTTACGAATCGCGATAGTCAGGGACTTCATTAATACGCCGCTTTTGG +CGCGAGTAAAGTAGCATTTAGAAACGCTGCTATCCGCTCCCGTCATATCGTGCAGCATACGTAGCGCCAG +GTCAGTAATTGGCGAACCAATCTTCCGGCCTGTATGTTCACCGTTAGCAATGCGAATGGCTGAACATTTT +AGATCCTGCAAAGAGTGCAAAACGATTTCACAGTGGGAGCCAATAAGCATCGCTAACCCGTCCACCACCG +CTTCGTAGGATTTCAGAATATCAAAATCGGTCTGGTCGAAAGGACGTTGATCCAGTAAATCCAACTCACT +GGTTTCGTTGGTTAAAAGCGACCTGGACATGAAAAAAAACACTCCTTTTCAGGAGCCTGTCGTTAACTTT +TCAGGGCAGGCTCATTAATGATGCGGGTAACTAAATTAATACAGCGGAGGTTCCGCTTTCCAGCACTAAT +TATATCCGGCCTGTAATAAAAAAACCGCCGCCTGGTCAGGCGGCGGTTCTTAATGCTTATTTTTTAGCAG +AATCTGCGGCTTTCGCATCAGCTTCCGGCTTTGCATCAGCCTTCGGCGCTGGTTTCACATCCAGCAGCTC +TACGTCAAACACCAGGGTAGAATTCGGTGGGATCCCCGGAACACCCGCTTTGCCGTAAGCCAGTTCTGGT +GGAATAACCAGTTTGATCTTACCGCCTTTCTTGATGTTCTTCAGACCTTCTGTCCAACCCGGGATAACAC +CGTCCAGACGGAAAGAAAGCGGTTCACCACGGGTGTAAGAGTTGTCGAACTCTTTACCGTCGATCAGCGT +ACCTTTGTAGTTCACTACAACAGTATCGCTGTCTTTCGGTGCTTCGCCTTTACCGGCTTCTACTACCTGA +TAAACCAGACCAGTTGAAGAGGTTTTCACACCTTTCTCTTTGGCAAATTTCTCGCGGTACTCTTTACCTT +TTGCTTCGTTATCAGCCGCGTCTTTTTCCATCTTCGCCTGAGCAGAAGACTTCACGCGAGCTTCGAATGC +TTGTAGAGTCTGTTCGATCTCTTGGTCGGAGAGTTTGCTCTTATCAGCAAATGCATCCTGAACACCAGCG +ATCAGCTGATCTTTATCCAGTTTGATGCCCAGTTTTTCTTGTTCTTTTAGAGAGTTTTCCATGTAACGAC +CCAGCGAGGCACCCAGTGCATAAGCTGATTTCTGATCGTCATTTTTGAACGCTGCTTTGCTGTCAGCAGC +TGTAGCAGGTTTTGCAGCTTCAGCAGCAAAAGTGATTGGTGCATGCAGGGCAACGGCCATTGTGGTCGCC +AGCAGCGTTACTTTAAACAGTGATTTCATCCATATCTCCAGGATCGGGGCATCTCACCCCAGGGTTAACT +ATTATCAGAAGGGTACTATAAAGCGTTGTCGAACAAATCTACATACAGACACGCCCTATTATCATCTATT +TTCAGACTCTTTTTGTTTAAATTAGTTTCGATGACCGCGAAATGAGTGCTGTCTCGGGCAGCAAAGTTAA +GTAGAATCCGCGGCGACCATTCGACAAAAGAGGTGAATCATGCAGGATTTATCATTGGAAGCACGCCTGG +CAGAGCTGGAGAGCCGACTGGCTTTTCAGGAAATCACCATTGAAGAACTGAACGTCACGGTGACCGCTCA +TGAAATGGAGATGGCGAAACTGCGCGATCATCTGCGTCTGCTGACCGAGAAGTTAAAAGCCAGCCAGCCG +TCGAACATCGCGTCGCAGGCTGAAGAAACGCCACCGCCACATTATTGAGGCGTAAAAAAAGCGGGGATTC +CCCGCTTTTTTGTCACTTTTTCGGTATTAGTGGCAACCGCAACCGCCGTTGCCTTTACCGCCACAGCAGC +CTTCGCCACCGTGTTCATGACCGTGATCGTGGCCATGACCGCCGCAGCAACCGTCGTGGTCGTGATCGTG +GTGGTGATCGTGCGCGCCGTGAACGTGACCATGAGCCAGTTCTTCTTCAGTCGCTTCGCGAATCGCCACA +ACTTCAACGTTGAATTTCAGGTTCTGACCGGCCAGCATGTGGTTACCATCAACCACGACGTGATCGTCTT +CAACCGCAGTGATTTCAACCGGTACCGGACCCTGGTCGGTTTCAGCCAGGAAACGCATACCTACCTGCAG +TTCATCAACGCCCATAAATACGTCTTTAGGAACACGTTGCACCAGGTTTTCGTCGTACTGACCGTAAGCG +TCGTTCGCGCCAACAGCGACATCAAATTTGTCGCCAACTTCATGACCTTCCAGCGCCGTTTCCAGGCCAG +AGATCAGGGAACCGTGACCATGCAGGTAGTCCAGCGGCGCACTCACCGGAGACTCATCAACCAACACACC +GTCTTCTGTACGTACCTGATAGGCCAGGCTGACCACCAGGTCTTTTGCTACTTTCATGATATCTCCTGAG +CATGGGAAGAATAGTGGCGCAGATTGTAGCGGAATTCTGCAGCCGTGTACTCACTAGCTTAAAAAAACTC +GGCGCATATCGCTAGTCCGGATGAAAAATCCCGATCACTTGCTCATCTTTGCGAACGTGATCGCGGGCTT +CTTTGTCTGCTTCTCGCATCTGATGTCCGCACTTAACACATTCAACAATATCAATATTATTTTCGCGCCA +CATCGCCATTGAATCCTGCGCCTGACAGGCCGGGCATTTTGCGCCCGCAATAAAACGTTTTCGGATTGCC +ATCTTTACCCTCTACTCAAATTCATCCCAGCCGTCCAGCTGGCGTCGTTCTTGTTGCATTTCACGCTGGA +AAATCTCTTCCAGTTCGCGTCGGGCTTCCCTGGCGCGAGAAATTTGTACGGTATCGGCATGCATTGGGAT +GAGCTCTCGCAGCATCCGCATATCCAGGCGGCGAAAATGCAGTTGCGCTCGCTGTGCCTGATGCGGATGC +ATGCCAAGCGTGACCAGCGTCTTGCGCCCCAGCTCTAACGCACTGGAGAATGTTTCACGGGAAAACTGCG +TCACCCCTGCCTGTAATAACTCATGCGCTTCCACACGTCCGCGCGCTCGCGCAAGAATATGCAAATGCGG +AAAGTGCTGTTGGCATATTTCCACCAGCTTCATGGTGTCTTCCGGCTCGTTACAGGTAATGACGATAGAC +TCAGCGGCCTCTGCACCCGCAGAACGTAAAAGATCGACCTGCGTGGCGTCGCCGTAATAAACTTTGTAGC +CGTATTTACGCATCAGGTTAACGGCGCTGATATCCCGCTCCAGCACGGTAATGCGCATTTTATTTGCCAT +CAGCAAACGACCAATCACCTGACCAAAACGCCCGAAGCCCACGACAATGACCTGGGGTTTATCATCGTTG +ACCCACGGTTTTTCGTCTTCTTCTTCCGGTCCGTTAAACTGGCGGGATAGCCATTTATCCACCAGCTTCA +TCAGCAACGGCGTGGTCATCATGGAAAGCGTCACCGTCACCAGCAACAACGCCATCTGGTCGCCCTGGAA +TAAGCGTTGTGAAGAAGCGGTAGAAAAGAGGACAAAGGCAAACTCACCACCCTGACTCAACACGCCAGCA +AACTGCATCCGCTCTGAGCTACGCACGCCATACAATCGCGCCAGCAGATACAGCACGAGAATTTTCACCG +CCACCAGCACAACCACGCTTATCACTACCCACAACAGATGGGTATAAAGCACCCCGAGGTTGAGTGACAT +GCCGACAGAGATAAAGAACAAACCGAGCAGCAAGCCTTTGAAGGGATCGATAGCCGTTTCCAGTTCATGG +CGATATTCACTTTCCGCCAGCAGCACGCCCGCAATAAATGTACCGAGCGCCATCGACAGCCCCAGCGCAT +CCATAAACAATGCGGAACCCAACACCAGCAGCAGCGTCGCGGCGGTGAACACTTCCCGCACGCCAGAAGC +TGCAATAAAGCGGAATACCGGACGCAGTAAATAGCGCCCACCAATCAGCATGCCGACAAACGCCAGCACC +TTCATGCCGACCTTCATCCAGTCGAAATGTTCGTCTGCCGACCCCGCCAACAACGGCACTAACGCCAGTG +CTGGGATTACTGCCAGATCCTGAAACAGCAGAACCGAAAACCCGAGCTGGCCGGATTCGCTGCGATTCAT +CCCTTTCTCACGCATCAATTGCAACGCCATTGCAGTTGAAGACATCGCAAGGCCAATGCCACCGACCACC +GCCGCCTGCCAGGCGAAATCCGTCAGCATCAATAATCCCGCCAGCAACGCCGCGCTTAACAGCACCTGTG +CCGCGCCTACGCCAAAAATCGAACGCCGCAGTTGCCAAAGTTTGGAGGGATTCAACTCAAGGCCGATGAT +AAACATCAGGAATACCACGCCGAGTTCCGAAAAGTGGAGGATCTCATCGACGTCGCTAATAAACCCCAGC +CCCCACGGGCCAATTGCAATCCCTGCCAGCAAATATCCCAACACAGCGCCAATACCCAGCCGCGATGCCA +GCGGCACCGCAGCCACCGCCGCGAAGAGAAACAGCACTCCTGCGAGTAAAAAATCGGAACCTTCCATCAG +CGGCCTCCTGGAGACAGCGGATTTGCCAGCCAGTCACCGTAGGCTCTGGCGTGGCTCGCCAGCTCCTGTG +CGCTTTGCCGTCTCGCCCAGTAAATAATGATGGGACTTAACCAATGCATCCGGCACATGCCCGCCGCCAG +TTCAAAGGGGCGCAGCACATCGCTCATCGGGTAGCGATTCAGCGCGTCATAACGGTAAGCACTTTCCGGC +TCGCCGGTGGTAATCACGCTACGCCAGTACTTTCCCGCCAGTTGGTTTCCTCCCGGCCCGCTGGCAAAAC +CACGACTTAATACCCGGTCCAGCCACTCTTTCAGTAGCGCCGGGCAGCTATAGGTATAAAGAGGATGCTG +AAAGACAATCACCTCGTGCTCGCGCAGTAATGCCTGCTCACGGGGGATATCAATAAAAAAATCGGGATAG +TGCGCGTAAAGGTCGTGCACGGTAACATTGCTGAGCTGCGTGGCCGGTTTAAGCAGTACCCGGTTTGCCA +CCGAGTCCTGAGATTCCGGATGGGCATACAGCAGCAAAACTTTCGCTGGCTGAGACATCATCCCCCTCCC +GGTATGGTTTTTGTGTATAGTCGCTGTTTTGGGCTACCATTGCGCCCGGTGCGGCAGCTCGCCCATACAT +TACATTATCATAATGATAAGTTAACATAGTCTGAACATACGGCACCTTATGATTGTTTTCTCCTCGTTAC +AAATTCGTCGCGGCGTGCGCGTCCTGCTGGATAATGCCACCGCCACCATCAACCCTGGGCAGAAAGTCGG +CCTGGTGGGTAAAAACGGCTGTGGTAAATCTACCCTGCTGGCATTGCTGAAAAATGAAATCAGCGCCGAC +GGCGGCAGCTACACCTTTCCGGGAAGCTGGCAACTGGCGTGGGTGAATCAGGAAACGCCGGCGTTACCGC +AAGCGGCGCTGGAATATGTCATTGACGGCGACCGTGAATATCGTCAACTAGAAGCGCAGCTACACGACGC +CAACGAACGTAACGACGGGCACGCCATTGCGACCATTCATGGCAAGCTGGATGCTATTGACGCATGGAGT +ATTCGCTCCCGTGCTGCCAGCCTGCTGCACGGCCTCGGTTTCAGCAATGAACAACTGGAGCGCCCGGTAA +GTGATTTTTCCGGGGGCTGGCGTATGCGTCTTAACCTTGCCCAGGCGCTGATTTGCCGTTCAGACTTGCT +GCTGCTCGACGAACCGACTAACCACCTCGATCTCGATGCCGTTATCTGGCTGGAAAAATGGCTGAAGAGC +TATCAGGGCACGCTGATCCTGATCTCTCACGACCGCGACTTCCTCGATCCGATCGTCGATAAAATTATTC +ATATCGAACAACAAAGCATGTTCGAGTACACCGGCAACTACAGTTCGTTTGAAGTACAGCGCGCCACCCG +TCTGGCGCAGCAACAAGCGATGTACGAAAGCCAGCAGGAACGCGTAGCGCATCTGCAAAGTTATATCGAC +CGTTTCCGTGCCAAAGCCACCAAAGCGAAGCAGGCCCAGAGCCGCATTAAGATGCTCGAGCGTATGGAGC +TAATTGCCCCCGCGCACGTCGACAACCCGTTCCGCTTTAGCTTCCGCGCGCCGGAAAGCCTGCCAAATCC +GTTACTGAAGATGGAAAAAGTCAGCGCGGGCTATGGCGATCGCATTATTCTCGACTCGATTAAACTGAAC +CTGGTGCCCGGCTCGCGTATTGGTCTGTTAGGCCGCAATGGCGCGGGTAAATCGACATTAATCAAACTGT +TAGCCGGTGAACTTGCGCCAGTCAGCGGTGAAATTGGTCTGGCGAAAGGGATCAAACTCGGCTACTTCGC +CCAGCATCAACTTGAATACCTGCGCGCCGACGAATCACCTATTCAACATCTGGCACGTTTAGCGCCGCAG +GAGCTGGAACAAAAACTGCGTGACTACCTCGGCGGCTTTGGTTTCCAGGGCGATAAAGTAACCGAAGAAA +CGCGCCGCTTCTCCGGTGGGGAAAAAGCCCGCCTGGTGCTGGCATTAATTGTCTGGCAGCGGCCGAATCT +GCTGCTGCTCGACGAACCGACTAACCACCTTGACCTCGACATGCGTCAGGCACTCACCGAAGCATTAATC +GAGTTTGAAGGCGCGCTGGTTGTCGTTTCGCACGACCGTCATTTGCTGCGTTCCACCACTGACGATCTCT +ACCTGGTTCACGATCGTAAAGTCGAACCGTTCGACGGCGATCTGGAAGATTATCAACAGTGGTTGAGCGA +CGTACAAAAGCAGGAAAACCAGACCGACGAAGCGCCAAAAGAGAATGCGAACAGCGCCCAGGCACGTAAA +GATCAGAAGCGTCGGGAAGCTGAGCTGCGTGCGCAAACCCAGCCACTGCGTAAAGAGATTGCCCGTCTGG +AAAAAGAGATGGAGAAGCTGAACGCGCAACTGGCGCAGGCGGAAGAGAAACTCGGCGACAGCGAACTGTA +TGACCAGAGCCGTAAAGCGGAGTTGACCGCCTGCCTGCAACAGCAAGCCAGCGCCAAATCCGGCCTGGAA +GAGTGCGAAATGGCATGGCTGGAAGCCCAGGAGCAGCTTGAGCAGATGCTGCTGGAAGGCCAAAGCAACT +GATGGCGCAGATAACGACGACCGATGCCAATGAATTCAGCAGCAGTGCTGAATTCATCCCCATGCGCGGC +TTTAGCAATTGTCATCTGCAAACCATGCTGCCGCGTCTGTTTCGTCGTCAGGTGAAATTCACCCCGTACT +GGCAGCGGCTGGAGTTGCCCGACGGCGATTTTGTCGATCTTGCGTGGAGTGAAAACCCTGCACAGGCGCA +ACATAAACCTCGTCTGGTGGTGTTTCACGGGCTGGAAGGCAGTCTCAACAGCCCTTACGCCCACGGTCTG +GTTGAGGCGGCGCAAAAGCGCGGCTGGCTGGGCGTGGTGATGCATTTTCGCGGATGCAGCGGTGAACCAA +ACCGTATGCACCGCATTTACCATTCGGGCGAAACCGAAGACGCCAGTTGGTTTTTACGCTGGCTGCAACG +CGAATTTGGTCATGCGCCAACGGCTGCCGTCGGCTATTCGCTCGGCGGTAATATGCTGGCCTGTTTGCTG +GCAAAGGAAGGCAATGATCTCCCGGTTGATGCGGCGGTGATTGTCTCTGCGCCGTTTATGCTGGAAGCCT +GTAGCTATCATATGGAAAAGGGCTTTTCCCGCGTTTATCAGCGTTACTTGCTGAACCTGTTAAAAGCCAA +TGCCGCGCGCAAGCTGGCAGCCTACCCCGGAACGCTGCCGATTAATCTCGCGCAGTTAAAATCGGTACGT +CGCATCCGTGAATTTGACGATCTCATCACCGCCAGAATTCACGGCTACGCCGACGCTATCGACTATTATC +GTCAGTGTAGCGCCATGCCGATGCTGAACCGGATCGCCAAACCGACGCTGATTATTCACGCCAAAGACGA +TCCGTTTATGGATCATCAGGTGATCCCGAAACCGGAAAGTCTCCCCCCGCAGGTGGAGTATCAACTGACT +GAACATGGCGGTCATGTTGGCTTTATTGGCGGTACATTACTTCATCCGCAAATGTGGCTGGAGTCACGCA +TTCCTGACTGGTTAACAACGTATCTGGAGGCGAAATCATGTTGATTCCGTGGCAAGACCTCTCCCCCGAA +ACGCTGGAAAATTTAATTGAAAGCTTTGTGTTACGTGAAGGCACCGATTATGGTGAACATGAGCGTACAC +TTGAACAGAAAGTCGCCGACGTCAAACGCCAGCTACAGTGCGGAGAAGCGGTGCTGGTATGGTCGGAGCT +GCACGAAACGGTCAATATTATGCCGCGCAGTCAGTTTCGCGAATAACCTGCAACCGTCGGCGGACGAGAT +AATAATGATAGCTAAGTCATGGAGTTACTATGTCTGCCAAACATCCGGTCATTGCGGTAACAGGATCCAG +CGGCGCGGGGACCACCACCACCAGCCTCGCGTTTCGTAAAATATTCGCGCAGTTAAATCTGCATGCAGCT +GAGGTGGAAGGCGACAGTTTTCACCGTTACACCCGCCCGGAAATGGACATGGCGATCCGCAAAGCGCGCG +ACGCCGGGCGGCATATCAGCTACTTCGGCCCCGAGGCTAACGACTTCGGCCTGCTGGAACAAACCTTCAT +TGAATACGGTCAGAGCGGCAAAGGGAAATCTCGCAAATATCTGCATACCTACGACGAAGCCGTACCGTGG +AATCAGGTACCGGGGACATTCACCCCCTGGCAACCTTTACCGGAACCCACTGATGTACTGTTTTATGAAG +GTTTACACGGCGGCGTAGTCACGCCACAGCATAACGTTGCGCAGCATGTGGACTTACTGGTCGGCGTGGT +GCCTATCGTTAACCTTGAGTGGATTCAAAAACTGATCCGCGACACCAGCGAGCGCGGGCACTCACGAGAA +GCAGTGATGGACTCAGTAGTGCGTTCAATGGAAGACTATATCAACTACATCACACCGCAGTTTTCCCGCA +CCCATCTTAACTTCCAGCGCGTTCCCACCGTCGACACTTCAAACCCGTTCGCGGCAAAAGGTATCCCGTC +GCTCGATGAAAGCTTTGTGGTGATCCATTTTCGTAATCTGGAAGGGATCGATTTCCCCTGGCTGCTGGCG +ATGTTGCAAGGCTCATTCATTTCCCACATCAATACGTTAGTGGTACCGGGCGGCAAAATGGGTCTGGCAA +TGGAATTAATTATGCTGCCGCTGGTGCAACGATTGATGGAAGGAAAGAAAATCGAGTAACTCTGCTATTA +CGCCGGATAAAATACTATCCGGCTTCACAACGGGATAGTTAAGTCACGCGGCAACCACTTCATACGAGTG +AGTAATATTCACCGCTTTTTCCAGCATCAACGCCACTGAACAATATTTCTCGGCAGAGAGATCAACCGCA +CGCGCAACCGCTGCGTCTTTCAGGTCGCGACCGGTGACGATAAAATGCAGATTAATGTGCGTAAACAGGC +GTGGTGCCTCTTCGCGGCGTTCAGAGGTCAATTTTACTTCACAATCGACCACATCCTGACGCCCTTTTTG +CAGGATCGAAACCACATCGATGGCACTGCAACCACCCGCCGCCATCAACACCATTTCCATCGGACTTGGT +GCTTTATCGCCTGAGTTGCCGTCCATTAAAATCTGATGACCAGAGGCGGATTCGCCCAGAAAAGTTAACC +CTTCGACCCACTTCACTCGCGCTTGCATTTTTGCTACTCCACTGCGTCAATTTTCCTGACAGAGTACGCG +TACTAACCAAATCGCGCAACGGAAGGCGACCTGGGTCATGCTGAAGCGAGACACCAGGAGACACAAAGCG +AAAGCTATGCTAAAACAGTCAGGATGCTACAGTAATACATTGATGTACTGCATGTATGCAAAGGACGTCA +CATTACCGTGCAGTACAGTTGATAGCCCCTTCCCAGGTAGCGGGAAGCATATTTCGGCAATCCAGAGACA +GCGGCGTTATCTGGCTCTGGAGAAAGCTTATAACAGAGGATAACCGCGCATGGTGCTTGGCAAACCGCAA +ACAGACCCGACTCTCGAATGGTTCTTGTCTCATTGCCACATTCATAAGTACCCATCCAAGAGCACGCTTA +TTCACCAGGGTGAAAAAGCGGAAACGCTGTACTACATCGTTAAAGGCTCTGTGGCAGTGCTGATCAAAGA +CGAAGAGGGTAAAGAAATGATCCTCTCCTATCTGAATCAGGGTGATTTTATTGGCGAACTGGGCCTGTTT +GAAGAGGGCCAGGAACGTAGCGCATGGGTACGTGCGAAAACCGCCTGTGAAGTGGCTGAAATTTCGTACA +AAAAATTTCGCCAATTGATTCAGGTAAACCCGGACATTCTGATGCGTTTGTCTGCACAGATGGCGCGTCG +TCTGCAAGTCACTTCAGAGAAAGTGGGCAACCTGGCGTTCCTCGACGTGACGGGCCGCATTGCACAGACT +CTGCTGAATCTGGCAAAACAACCAGACGCTATGACTCACCCGGACGGTATGCAAATCAAAATTACCCGTC +AGGAAATTGGTCAGATTGTCGGCTGTTCTCGTGAAACCGTGGGACGCATTCTGAAGATGCTGGAAGATCA +GAACCTGATCTCCGCACACGGTAAAACCATCGTCGTTTACGGCACTCGTTAATCCCGTCGGAGTGGCGCG +TTACCTGGTAGCGCGCCATTTTGTTTCCCCCGATGTGGCGCAGACTGATTTATCACCCCGATATCAACTA +TGCACTTCGACAAACGCTGGTGCTATGTTTGCCCGTGGCCGTTGGGTTAATGCTTGGCGAATTACGATTC +GGTCTGCTCTTCTCCCTCGTTCCTGCCTGTTGCAATATTGCGGGCCTTGATACGCCTCATAAACGTTTTT +TCAAACGCTTAATCATTGGTGCGTCGCTGTTTGCCACCTGTAGCTTGCTGACACAGCTACTACTGGCAAA +AGATGTTCCCCTGCCCTTTTTGCTGACCGGATTAACGCTGGTACTTGGCGTCACTGCTGAGCTGGGGCCA +TTGCACGCAAAATTGCTTCCTGCATCGCTGCTCGCCGCCATTTTTACCCTCAGTTTGGCGGGATACATGC +CGGTCTGGGAACCGTTGCTCATCTATGCGTTGGGCACTCTCTGGTACGGATTGTTTAACTGGTTTTGGTT +CTGGATCTGGCGCGAACAACCGCTGCGCGAGTCACTAAGTCTGCTGTACCGTGAACTGGCAGATTATTGT +GAAGCCAAATACAGCCTGCTTACCCAGCACACCGACCCTGAAAAAGCGCTGCCGCCGCTGCTGGTGCGCC +AGCAAAAAGCGGTCGATCTAATTACCCAGTGCTATCAGCAAATGCATATGCTTTCCGCGCAAAATAATAC +TGACTACAAGCGGATGCTGCGTATTTTCCAGGAGGCGCTGGATTTACAGGAACATATTTCGGTCAGTTTG +CATCAGCCGGAAGAGGTGCAAAAGCTGGTCGAGCGTAGCCATGCGGAAGAAGTTATCCGCTGGAATGCGC +AAACCGTCGCCGCTCGCCTGCGCGTGCTGGCTGATGACATTCTTTACCATCGCCTGCCAACGCGTTTTAC +GATGGAAAAGCAAATTGGCGCACTGGAAAAAATCGCCCGCCAGCATCCGGATAATCCGGTTGGGCAATTC +TGCTACTGGCATTTCAGCCGCATCGCCCGCGTGCTGCGCACCCAAAAACCGCTCTATGCCCGTGACTTAC +TGGCCGATAAACAGCGGCGAATGCCATTACTTCCGGCGCTGAAAAGTTATCTGTCACTAAAGTCTCCGGC +GCTACGCAATGCCGGACGACTCAGTGTGATGTTAAGCGTTGCCAGCCTGATGGGCACCGCGCTGCATCTG +CCGAAGTCGTACTGGATCCTGATGACGGTATTGCTGGTGACACAAAATGGCTATGGCGCAACCCGTCTGA +GGATTGTGAATCGCTCCGTGGGAACCGTGGTCGGGTTAATCATTGCGGGCGTGGCGCTGCACTTTAAAAT +TCCCGAAGGTTACACCCTGACGTTGATGCTGATTACCACCCTCGCCAGCTACCTGATATTGCGCAAAAAC +TACGGCTGGGCGACGGTCGGTTTTACTATTACCGCAGTGTATACCCTGCAACTATTGTGGTTGAACGGCG +AGCAATACATCCTTCCGCGTCTTATCGATACCATTATTGGTTGTTTAATTGCTTTCGGCGGTACTGTCTG +GCTGTGGCCGCAGTGGCAGAGCGGGTTATTGCGTAAAAACGCCCATGATGCTTTAGAAGCCTATCAGGAA +GCGATTCGCTTGATTCTTAGCGAGGATCCGCAACCTACGCCACTGGCCTGGCAGCGAATGCGGGTAAATC +AGGCACATAACACTCTGTATAACTCATTGAATCAGGCGATGCAGGAACCGGCGTTTAACAGCCATTATCT +GGCAGATATGAAACTGTGGGTAACGCACAGCCAGTTTATTGTTGAGCATATTAATGCCATGACCACGCTG +GCGCGGGAACACCGGGCATTGCCACCTGAACTGGCACAAGAGTATTTACAGTCTTGTGAAATCGCCATTC +AGCGTTGTCAGCAGCGACTGGAGTATGACGAACCGGGTAGTTCTGGCGATGCCAATATCATGGATGCGCC +GGAGATGCAGCCGCACGAAGGCGCGGCAGGTACGCTGGAGCAGCATTTACAGCGGGTTATTGGTCATCTG +AACACCATGCACACCATTTCGTCGATGGCATGGCGTCAGCGACCGCATCACGGGATTTGGCTGAGTCGCA +AGTTGCGGGATTCGAAGGCGTAATGCAGGCTAAACCATCGGATAAGGCATTCACGCCGCATCCGACATCT +TTTGCCTGATGCTTCGTATTTACGCCCCAACCACCTTCGCCACCGCGTGGGCGAAACGTTGCATCCCTTC +ATCGATATCCGCATCTTCCACCACCAGCGACGGTGCAAAACGCATCACATCCGGTCCGGCATTCAGCACC +ATTACGCCAGCCTCTGCGCCCGCATACAGGAAATCACGCGCCCGACCTTTGTACTGTGGTTTCAGCTCTG +CGCCAATCAACAGCCCCATACCGCGAATATCGCTAAATACATCGTACTGCTGATCGATCTTCTGCAGATG +GTCAACAAAACGCTGGCGTTTCGCCTGAATGCCTTCCAGCACTTCAGGGGTATTGATGATATCAAACGCC +GCCCCCGCTACTGCACAGGCCAGAGGATTACCGCCGTAGGTGGAACCGTGAGAACCAGGATGAAACGCAG +AAGCAATTTCCGCCGTGGTCAGCATGGCGCTAATCGGGAAGCCGCCGCCTAACGCTTTCGCAGAGGTCAG +AATATCCGGCGTAACGCCGTAGTGCATGTAAGCAAACAAATCGCCGGTCCGCCCCATCCCGCACTGCACT +TCATCAAACACCAATAATGCCTGATGTTGATCGCACAGCTCGCGCAAGCCCTGCAAAAACTCTGGCGTCG +CTGCCGTCACACCGCCCTCGCCCTGGATCGGCTCAACCACCACCGCACAGGTGTGATCATCCATCACCGC +TTTCACTGCATGGAGATCGTTAAAGGGAACGTGGATGATGTCTGCCGGTTTCGGCCCAAAGCCGTCGGAA +TATTTTGGCTGCCCACCCACCGAAACGGTAAACAGCGAGCGACCATGAAAAGCGTTATGGAAGGCAATAA +TTTTGGTTTTGAACGGGCTATGACGCACACAGGCGTAATGGCGTGCCAGTTTAAAGGCGGTTTCGTTAGC +TTCCGTGCCGGAGTTCATAAACACCACGCGTTCGGCAAACGTTGCCTCAATCAGTTTACGCCCAAGACGC +AGCGCCGGTTCATTGGTGAAAACGTTACTGATATGCCACAGAGTTTCGCCCTGGGTTTTTAACGCGTTCA +CCAGCGCAGGATGGCAATGGCCCAACGCCGTAACTGCAATGCCACCCGCGAAATCGACATACTCCTTGCC +TTGCTGATCCCAGATTCGGCTGCCCTGACCTTTTACCGGAATAAACTCTGCCGGAGCATAAATCGGCAGG +ATCACTTCATCGAAAGTCGCGCGTGTAATTGCTGTTTGTTCAATTGCCATCTCATGATCACCCTGTTACG +CATAAACAAATGTGAAATTATAACCACAAAATATGCATAAAAAATCACTAAATGGCAATCAGAAATCAGC +GATGCAGGAAATTAGCCAGCAGTTGATGTCCTTGTTCGCTAAGAATACTTTCTGGATGGAACTGCACACC +TTCCAGATCCCACTGGCGATGGCGAATCCCCATAATCTCTCGGGTTTCGCTCCAGGCCGTCACGTCAAAG +CACGCTGGTAATGAGTCAGGTTCCACCACCAGCGAATGGTAGCGTGTCACGGTAAGTGGATTTGCCAGCC +CCCGAAATACGCCCTCACCGTTATGTGTAATCGGCGAGGTTTTGCCGTGCATGACCTTTGCGGCGCGCAC +AACTTTACCGCCAAATGCCTGCGCCATTGCCTGATGACCGAGGCAGACGCCAAGAATCGGCAAGCGCCCG +GCATAGTGGCGAATAACGTCAAGGGAGATCCCGGCTTCATCTGGCGTACAGGGGCCAGGTGAGATGACAA +TTTTTTGTGGTTTAAGGGCGTCGATATCCGCCAGCGTCAACGCATCGTTGCGCTTAACCAGCACATCCGC +CCCCAGTTCACAAAAGTACTGGTAGAGGTTCCAGGTAAAAGAATCGTAGTTATCTATAAGCAGGATCATG +GCGGCTCCGGTACAAAAGAACCGCGCTATTTTACTCAGATTCCCCGGCTTCGCTTACCACTTTGCTAAAT +ATCATCTGCAGTGCGGTGAGATCCCCCATTGCCCCACTCTGATTTGCCTGATTCCAGGCCTCTTTTTCGA +TACCCTGCCAGCTCAGTTGATATCCGGCATGAATCGCCAGTTGCTCGAAGAAGATCCGCTGTGCCAGACC +ACTTCCCACCCGGAAGGGATGCAGCACGTTGATTTCACAATAGTAATGCGCCAGCCGCTCGACGAACTTC +GCTTTCTCCAGGCCAACCAGATAACCTTCTTCCTCCAGATCCTGCATCAGGGCATTGCCCTCTTTTTCGA +TATAAGCAAAGTGGCAGAACGGCGTATCACCCTGATAAATATCAACTTCACGCAGTTGCCCTGCCCAGTC +GAAAATATCCTGATACAGCTGGCGATGGATAGTTCGCAAATGCGGTAAACCGCGCACCAGCGGACCAAGC +TCAATGGTCGCAGCACGCAGCGCCGTCATTTCGTAAGCGGCCTGTTCCAGCCGCTGCTGCTGGCGGATGT +TCAGCCGGTTACGCATGATATCAAGGCCTGGATAAAGATACGGATCGCGCCCTTCGCCGAATTTATCGCT +CATAGTGACTCCTCAGCTCTTCAAGGCGCGCTAAAGCCTCTGCGGCAGTAAGAGTGACTAAAGGCATCTC +GACGCCTTCAAGACGGCGACTGGCCTGAAAATTACGATTACGCTGAAGCTCCCAGAGACGGGACTTTTGC +TTATCGGTGAGTTTCTTCACTTGATGCCTCCCTGAACGTGTCCATTTGCCACAAGTATAAGCGGCAAATC +CGGGTTACGCCGGGAGAGCAGAAGCGCGGGCAAGATTGCCCGCGCGAGAAATCATTACGGCAGGACTTTA +GCGGAAAGGATAACTACCGGTTTTGACGGCACATTCTGGTACGGACCAACGTCATGAGTCGGCACCTGGG +AAATCTTATCGGCAACGTCCATGCCTTTCACCACTTTACCAAATACCGCGTAACCGAAATCACGCTGACC +ATGGTCAAGGAAGGCGTTATCGGCAACGTTGATAAAGAACTGGCTGGTGGCGCTGTCTTTGTCAGCGGTA +CGTGCCATCGCGATGGTGCCACGCGTGTTGCGCAGGCCGTTATCGGCTTCATTTTTGATTGGCGGGTTTG +GTTTTTTCTGCTGCATCTGCTCGGTGAAACCGCCGCCCTGAATCATAAAGCCAGGAATGACGCGGTGAAA +GGTAGTGTTGTTATAAAAACCGCTGTTCACATAATCGACAAAGTTTTGCACAGACACTGGCGCTTTTTGT +TTATCCAGCTCCAGTTCGATGTTACCAGCTGAGGTTGTCAACAATACGTGCGGGTCCCCTTTCGCTGCCA +TTGCTGCGGGAGAAAGAGCAGAAAGAGCGAAAACAGCAGCCATCGCCGCCAGGGTCGATTTGAACATGAG +ATTTCCTTAACAAACAGAGCAGAAAAAAAGCAAGTGAAGAGATTCTAAATAGCCTTCAAGAACAAGGCCA +TCCCTTTACCTAATTTTACGTATCTGAAATATATGTAACCTGACGATCACTTTTTATTCCGTGATCAAAA +TCACCTCTTAAAATGCAATTTAGCAACCGATTGCAATAAAACATTTAAACAGATCACAAAATCACCTAAA +ATCGCCCGCTCGCGGCATATCCCGCTATGCCATTTTATTTTTGAACGCAGGCCAATCATGACTAACAGCA +ATCGCATCAAGCTCACATGGATTAGCTTTCTCTCCTACGCACTGACTGGTGCGTTGGTTATTGTCACCGG +GATGGTGATGGGAAATATCGCCGATTATTTCAATCTGCCTGTTTCCAGTATGAGTAATACCTTCACCTTC +CTCAACGCCGGCATTTTAATCTCTATCTTCCTCAACGCCTGGCTGATGGAAATCGTCCCGTTGAAAACGC +AGTTACGTTTTGGCTTTCTCCTGATGGTGCTGGCGGTTGCCGGTTTGATGTTCAGCCACAGCCTGGCGCT +GTTCTCGGCGGCGATGTTCATTCTCGGGGTGGTCAGCGGCATCACCATGTCGATTGGTACATTCCTGGTA +ACACAAATGTATGAAGGGCGTCAGCGCGGTTCCCGCCTGTTATTTACCGACTCCTTCTTCAGTATGGCTG +GGATGATTTTCCCAATGATCGCCGCGTTTCTACTGGCGCGCAGCATTGAGTGGTACTGGGTTTATGCCTG +CATCGGGCTGGTGTATGTCGCTATTTTTATTCTGACCTTCGGCTGTGAGTTCCCGGCGCTGGGCAAACAT +GCGCCAAAAACGGATGCTCCGGTAGAGAAAGAAAAGTGGGGGATCGGCGTACTGTTTCTCTCTGTTGCGG +CGTTGTGCTACATCCTCGGTCAGTTAGGTTTTATCTCCTGGGTGCCTGAGTATGCCAAAGGCCTGGGCAT +GAGCCTGAACGACGCGGGCACGCTGGTGAGTAACTTCTGGATGTCATACATGGTCGGCATGTGGGCGTTC +AGCTTTATTCTTCGCTTCTTTGATTTGCAACGCATTCTGACCGTACTGGCTGGTCTGGCTGCGATTCTGA +TGTACGTCTTTAACACCGGAACACCAGCACATATGGCGTGGTCAATTCTCGCTCTGGGCTTCTTCTCCAG +CGCGATCTATACCACCATCATCACCCTGGGTTCACAGCAGACCAAAGTACCGTCGCCAAAACTGGTTAAC +TTTGTCCTGACCTGCGGAACCATCGGTACTATGTTGACCTTTGTGGTTACCGGCCCGATCGTTGAACATA +GCGGTCCGCAGGCGGCACTGCTTACAGCAAACGGTCTGTACGCTGTCGTCTTTGTGATGTGCTTCCTGTT +AGGTTTCGTCAGCCGTCACCGTCAGCATAACACCCTGACCTCTCATTAATTGCTCATGCCGGACGGCACT +ATCGTCGTCCGGCCTTTTCCTCTCTTCCCCCGCTACGTGCATCTATTTCTATAAACCCGCTCATTTTGTC +TATTTTTTGCACAAACATGAAATATCAGACAATTCCGTGACTTAAGAAAATTTATACAAATCAGCAATAT +ACCCATTAAGGAGTATATAAAGGTGAATTTGATTTACATCAATAAGCGGGGTTGCTGAATCGTTAAGGTA +GGCGGTAATAGAAAAGAAATCGAGGCAAAAATGAGCAAAGTCAGACTCGCAATTATCGGTAACGGTATGG +TCGGCCATCGCTTTATCGAAGATCTTCTTGATAAATCTGATGCGGCCAACTTTGATATTACCGTTTTCTG +TGAAGAACCGCGCATCGCTTATGACCGCGTACACCTCTCGTCTTACTTCTCTCACCACACCGCCGAAGAG +CTGTCGCTGGTGCGCGAAGGCTTCTACGAGAAACACGGCATCAAAGTTCTGGTCGGCGAACGCGCTATCA +CCATCAACCGTCAGGAGAAGGTGATTCACTCCAGCGCCGGACGTACCGTTTTTTATGACAAGCTGATCAT +GGCAACCGGTTCCTACCCGTGGATCCCGCCAATCAAAGGTTCTGATACTCAGGACTGCTTTGTCTATCGC +ACTATTGAAGACCTCAACGCCATTGAATCCTGCGCCCGTCGCAGCAAACGCGGTGCCGTTGTTGGTGGCG +GCCTGTTAGGTCTGGAAGCCGCAGGCGCGCTGAAAAACTTAGGTATTGAAACCCACGTTATCGAATTTGC +CCCTATGCTGATGGCAGAACAGCTTGATCAGATGGGCGGCGAGCAGCTGCGTCGCAAAATCGAAAGTATG +GGCGTGCGCGTTCACACCAGCAAAAACACCCTTGAGATTGTGCAGGAAGGTGTTGAAGCGCGTAAAACCA +TGCGTTTTGCCGACGGCAGCGAACTGGAAGTCGACTTTATCGTCTTCTCTACCGGTATCCGTCCGCGCGA +TAAGCTGGCAACCCAGTGTGGTCTGGACGTTGCTCCGCGTGGGGGTATTGTCATTAATGATTCCTGCCAG +ACTTCCGATCCGGATATCTACGCCATCGGTGAATGCGCAAGCTGGAACAACCGTGTATTTGGTCTGGTAG +CACCTGGCTACAAAATGGCGCAGGTCGCCGTTGACCATATTCTCGGTAGCGAAAACGCCTTTGAAGGTGC +TGACCTTAGCGCCAAGCTGAAACTGCTGGGCGTAGACGTAGGCGGTATTGGTGATGCGCACGGTCGCACG +CCTGGCGCACGTAGCTACGTTTACCTCGACGAAAGTAAAGAGATCTACAAACGCCTGATTGTCAGCGAAG +ACAACAAAACCCTGCTCGGTGCGGTACTGGTGGGCGATACCAGCGACTACGGTAACCTGCTGCAACTGGT +GCTGAACGCTATCGAACTGCCGGAAAACCCGGATTCCCTGATCCTGCCAGCACACTCGGGTAGCGGCAAG +CCGTCTATCGGTGTTGATAAACTGCCGGACAGCGCGCAAATCTGCTCCTGCTTCGACGTCACCAAAGGTG +ATCTGATTGCTGCCATCAACAAAGGCTGCCACACAGTTGCGGCGCTGAAAGCTGAAACCAAAGCGGGTAC +TGGCTGCGGTGGCTGTATCCCGCTGGTCACTCAGGTACTGAACGCGGAACTGGCGAAACAGGGCATCGAA +GTTAACAACAACCTGTGCGAACACTTTGCTTATTCGCGTCAGGAACTGTTCCATTTGATCCGCGTTGAAG +GCATTAAAACCTTCGAAGAACTGCTGGCGAAACACGGCAAAGGCTACGGTTGTGAAGTTTGTAAACCAAC +CGTCGGTTCGCTGCTGGCCTCCTGCTGGAACGAATACATTCTGAAGCCGGAACATACTCCGCTGCAGGAT +TCTAACGACAACTTCCTCGCTAACATCCAGAAAGACGGCACCTACTCGGTGATCCCGCGTTCTCCGGGCG +GTGAAATCACCCCGGAAGGGCTGATGGCGGTAGGTCGTATCGCGCGTGAATTTAATCTCTACACCAAGAT +CACTGGCTCCCAGCGTCTGGCGATGTTTGGCGCACAGAAAGACGATCTGCCGGAGATCTGGCGTCAGCTG +ATTGAAGCCGGCTTCGAAACCGGTCATGCCTATGCGAAAGCACTGCGTATGGCGAAAACCTGCGTGGGTA +GCACCTGGTGCCGCTACGGCGTTGGCGACAGCGTCGGCCTCGGCGTGGAACTGGAAAACCGCTACAAAGG +CATCCGTACGCCGCACAAAATGAAGTTCGGTGTCTCCGGCTGTACCCGTGAATGTTCAGAAGCTCAGGGT +AAAGACGTGGGTATTATCGCCACTGAAAAAGGCTGGAACCTGTATGTTTGCGGTAACGGCGGCATGAAAC +CGCGTCATGCGGATCTGCTGGCGGCGGATATCGATCGCGAAACGCTGATCAAATATCTCGACCGCTTCAT +GATGTTCTACATCCGTACTGCCGACAAACTGACGCGTACCGCACCGTGGTTAGAAAACCTCGAAGGCGGC +ATCGATTACCTGAAAGCAGTGATCATTGACGACAAACTGGGGCTGAACGCACATCTGGAAGAAGAGATGG +CGCGCCTGCGTGAAGCGGTACTGTGTGAGTGGACTGAAACGGTCAATACGCCGTCTGCGCAGACTCGCTT +CAAACACTTCATCAACAGCGACAAGCGTGACCCGAACGTGCAGATGGTGCCAGAGCGCGAACAGCACCGT +CCGGCAACGCCGTATGAACGTATCCCAGTAACTCTGGTGGAGGACAACGCATGAGCCAGTGGAAAGACAT +CTGCAAAATCGATGACATCCTGCCTGAAACCGGCGTCTGCGCGCTGTTAGGTGACGAGCAGGTCGCGATT +TTCCGCCCGTATCACAGCGATCAGGTGTTTGCGATCAGCAACATCGACCCGTTCTTCGAGTCCAGCGTGC +TGTCACGCGGACTGATTGCGGAACACCAGGGCGAGCTGTGGGTCGCCAGCCCGCTGAAAAAACAGCGTTT +TCGCTTAAGCGACGGCTTGTGCATGGAAGACGAACAGTTTTCCGTCAAACATTACGAAGCGCGAGTGAAA +GACGGCGTGGTGCAGCTGCGCGGTTAATGTTTTAACGGGAGGCGCAATGCCTCCCCTTTTTGCATGGTCC +TGTAATAATCTTCGGTATATTGCAGGACATTTTTTAAACTTTTTGTTTTATTTTTTGTTTTTATTTTTTA +AAGGATAATCAAATGTTTACAGACACTATTAATAAGTGTGCGGCTAACGCTGCGCGCATTGCACGCCTGT +CGGCAAATAACCCGCTCGGCTTTTGGGTCAGCTCCGCCATGGCGGGCGCGTATGTGGGTCTTGGGATCAT +CCTGATTTTCACGCTCGGTAATTTGCTCGATCCATCCGTACGCCCTTTGGTGATGGGCGCGACCTTTGGT +ATCGCCTTAACGCTGGTGATTATCGCCGGTTCTGAACTGTTCACCGGACACACCATGTTCCTCACCTTTG +GGGTAAAAGCGGGCAGCATCAGCCACGGGCAAATGTGGGCAATCCTGCCGCAAACCTGGCTGGGTAACCT +GGTCGGTTCCGTCTTCGTTGCCATGCTCTATAGCTGGGGCGGCGGTAGCCTGCTGCCGGTAGATACCAGC +ATCGTTCACTCCGTCGCGCTGGCTAAAACCACTGCACCGGCAATGGTACTCTTCTTCAAAGGTGCATTGT +GTAACTGGCTGGTTTGCCTGGCAATCTGGATGGCGCTGCGCACTGAAGGGGCGGCGAAATTTATCGCTAT +CTGGTGGTGTCTGCTGGCATTTATCGCGTCCGGCTACGAGCACTCTATCGCTAACATGACGCTGTTCGCG +CTCTCCTGGTTCGGCAACCACAGCGAAGCCTACACGCTGGCGGGTATTGGTCATAACCTGCTGTGGGTGA +CGCTGGGTAATACTTTATCAGGTGCCGTATTCATGGGATTGGGTTATTGGTATGCTACGCCGAAAGCGAA +TCGTCCGGTTGCGGACAAATTTAATCAAACTGAAACGGCTGCCGGTTAATTACTAAGGGGTTTTTACGTG +GATCATTTGCCTATATTTTGCCAATTACGCGATCGCGACTGTCTGATTGTCGGCGGTGGTGATGTCGCGG +AACGCAAAGCAAGGTTGCTGTTAGACGCAGGCGCTCGCTTAACGGTGAATGCATTAGCGTTTATTCCACA +GTTCACCGCATGGGCAGATGCAGGCATGTTAACCCTCGTCGAAGGGCCATTTGATGAAAGCCTTCTCGAC +ACCTGCTGGCTGGCGATTGCAGCGACGGATGATGACGCGCTTAACCAGCGCGTCAGCGAAGCCGCTGAAG +CTCGTCGCATCTTCTGTAACGTGGTCGATGCGCCGAAAGCCGCCAGCTTTATTATGCCGTCGATTATTGA +CCGCTCACCGCTCATGGTAGCGGTCTCCTCTGGCGGCACCTCTCCGGTTCTGGCACGCCTGTTGCGCGAA +AAACTTGAATCACTGCTGCCGTTACATCTGGGCCAGGTAGCGAAATACGCCGGGCAATTACGCGGGCGAG +TGAAACAACAGTTCGCCACGATGGGTGAGCGTCGCCGTTTCTGGGAGAAATTGTTCGTTAACGACCGCCT +GGCGCAGTCGCTGGCAAACAACGATCAGAAAGCCATTACTGAAACGACCGAACAGTTAATCAACGAACCG +CTCGACCATCGCGGTGAAGTGGTGCTGGTTGGTGCAGGTCCGGGCGATGCCGGGCTGCTGACACTGAAAG +GACTGCAACAAATTCAGCAGGCAGATGTGGTGGTCTACGACCGTCTGGTTTCTGACGATATTATGAATCT +GGTACGCCGCGATGCGGACCGTGTTTTCGTCGGCAAACGCGCGGGATACCACTGCGTACCCCAGGAAGAG +ATTAACCAGATCCTGCTGCGGGAAGCGCAAAAAGGCAAACGCGTGGTGCGGCTGAAAGGTGGCGATCCGT +TTATTTTTGGCCGTGGTGGCGAAGAGCTGGAAACACTGTGCAACGCGGGTATTCCGTTCTCGGTGGTTCC +GGGTATTACCGCAGCTTCTGGTTGCTCTGCCTATTCGGGTATTCCACTCACGCATCGCGATTATGCCCAG +AGCGTACGCTTAATTACCGGACACTTAAAAACCGGTGGCGAGCTGGACTGGGAAAACCTGGCGGCAGAAA +AACAGACGCTGGTGTTCTATATGGGGTTGAATCAGGCCGCGACTATTCAGCAAAAGCTGATTGAACACGG +AATGCCAGGCGAAATGCCGGTGGCAATTGTCGAAAACGGTACGGCAGTCACGCAGCGCGTGATTGACGGT +ACGCTCACACAGCTGGGAGAACTGGCGCAGCAAATGAACAGTCCATCGCTAATTATTATTGGTCGGGTTG +TTGGCCTGCGCGATAAACTGAACTGGTTCTCCAACCATTAATTTAACCCGGGCCAGAGAATTCTGGCCTT +CTTAATGACTCTTTTTATATATTCAGCAAATAAAACATAGCCCCTTAATAAATATTATCTGCTAATGGGT +TATATTCACCGTTACAGCGACTTACAAAATTAAGTCATTCGCTCACTGACGCCAATTAAATATTCCTGTA +TCGTTCTTAACGAGCAGTCTGCTTATATTCATATAATCAATGAATATTAATTAATATATAATACATAGGG +AATGTAAATGAACAAATTTATTAAAGTTGCACTGGTAGGTGCAGTACTGGCTACGTTAACTGCATGTACT +GGTCATATTGAAAACCGTGATAAGAACTGCTCTTACGACTACCTGCTGCACCCGGCAATTTCTATTTCTA +AAATCATTGGCGGTTGCGGTCCTACTGCACAGTAAGTCTCTGACAGAAATCGGCTAACACCGGTTTAATT +GCCCGACGCCCTCTGGATTTTCCGAGGGCGTATTTGTTTCTATGTCCTTCTTGCCCCCGCCCGTAAAAAT +ATTTTCACTTTAAATTCAATTTGATAACTACATCCATTAGCCACAGCGCGATCCTGTGCGAAATTTTGTG +ATCTTCCTCCACATTACATAACATCATATGTTGTTATATTCATCATGCATTGTCATGTTACCTTTTAAAT +GACTGCAAACTCTCCCCTACAACGTATTGGACAAGAAAAAGGTATCGCTATGGGAAGCCAGGAACTCCAA +CGCAAGCTCGGATTTTGGGCCGTTCTTGCAATCGCCGTCGGGACAACCGTCGGCTCCGGTATTTTTGTAT +CTGTGGGTGAAGTGGCAAAAGCAGCGGGCACGCCGTGGCTTACGGTGCTCGCGTTTGTCATTGGCGGGTT +AATTGTGATCCCGCAAATGTGCGTCTATGCGGAACTATCCACCGCTTATCCGGAAAATGGCGCAGATTAT +GTTTATCTGAAAAATGCCGGAAGCCGACCGCTGGCTTTCCTCTCCGGCTGGGCCAGCTTCTGGGCCAACG +ATGCGCCGTCATTGTCGATTATGGCGCTGGCGATTGTCAGCAATCTTGGCTTTTTAACGCCTATCGATCC +GTTGCTCGGTAAATTTATCGCCGCCGGATTAATTATCGCCTTTATGTTGCTACACCTGCGCTCCGTTGAA +GGCGGCGCAGCGTTTCAGACGCTAATTACCATCGCCAAAATTATCCCGTTCACTATCGTCATTGGCCTTG +GGATCTTCTGGTTTAAAGCGGAGAATTTTGCCGCCCCTACCACCACTGCGATTGGCGCAACGGGCAGCTT +TATGGCGCTGCTGGCGGGGATCTCTGCCACCAGTTGGTCGTATACCGGCATGGCCTCTATCTGTTATATG +ACCGGCGAAATTAAAAACCCCGGAAAAACCATGCCACGAGCGCTGATTGGTTCCTGTCTGCTGGTTCTGG +TGCTCTACACCCTGCTGGCGCTGGTGATTTCCGGCCTGATGCCCTTCGACAAACTCGCCAATTCTGAAAC +GCCGATTTCCGACGCCCTGACCTGGATCCCCGCACTCGGCAGCACCGCTGGGATCTTTGTTGCCATCACG +GCGATGATCGTCATTCTTGGTTCGCTTTCCAGCTGCGTGATGTACCAGCCGCGGCTGGAATACGCGATGG +CGAAAGACAACCTGTTCTTTAAATGCTTCGGCCATGTGCATCCGAAATACAACACGCCGGATGTCTCCAT +CATCCTGCAAGGGGCGCTGGGGATCTTCTTCATCTTCGTTTCCGATCTCACCAGCCTGCTGGGTTATTTC +ACCCTGGTGATGTGTTTCAAAAATACCCTCACCTTCGGCTCCATCATCTGGTGTCGTAAACGCGACGATT +ACAAACCGCTGTGGCGTACTCCGGCTTTCGGGCTGATGACCACCCTCGCCATTGCGTCAAGCCTCATTCT +GGTCGCCTCAACCTTTGTCTGGGCACCGATTCCCGGCCTTATCTGCGCCGTCATCGTTATTGCTACTGGT +CTGCCTGCTTACGCCTTCTGGGCGAAGCGTAGCCGCCAGCTCAACGCTTTGTCGTAATGTTATCTGGAGA +AAATAAAATGTTGGATATTGATAAAAGCACCGTGGACTTTCTGGTCACCGAAAATATGGTTCAGGAAGTG +GAAAAAGTTCTCAGCCATGACGTTCCGCTGGTGCACGCCATCGTGGAAGAGATGGTGAAGCGCGACATTG +ATCGTATTTATTTCGTTGCCTGCGGATCGCCACTCAACGCGGCGCAAACGGCGAAACATCTGGCGGATCG +CTTTTCCGATCTTCAGGTCTACGCCATTTCCGGCTGGGAGTTCTGCGATAACACCCCGTATCGCCTCGAC +GATCGTTGCGCAGTAATTGGCGTTTCTGACTACGGTAAAACCGAAGAGGTAATCAAAGCGCTGGAGCTGG +GCCGGGCCTGCGGCGCACTCACTGCGGCGTTCACCAAACGCGCGGATAGCCCGATTACCTCGGCGGCGGA +ATTTAGCATTGATTATCAGGCCGACTGTATCTGGGAAATTCACCTGCTGCTCTGCTACAGCGTGGTGCTG +GAGATGATCACCCGCCTCGCGCCGAACGCGGAAATCGGCAAGATCAAAAACGATCTCAAGCAGTTGCCGA +ATGCGCTCGGTCATCTGGTACGCACCTGGGAAGAAAAAGGCCGCCAGCTTGGTGAACTGGCCAGCCAGTG +GCCGATGATTTATACCGTTGCTGCGGGTCCGCTGCGTCCGCTGGGTTACAAAGAAGGCATTGTAACGCTG +ATGGAATTTACCTGGACGCACGGCTGCGTGATTGAGAGCGGAGAGTTCCGCCATGGCCCGCTGGAGATTG +TCGAACCGGGCGTTCCGTTCCTGTTCCTGCTCGGCAATGATGAAAGTCGCCACACCACCGAACGCGCCAT +TAACTTTGTTAAACAGCGTACTGACAACGTGATCGTCATCGATTACGCCGAAATTTCGCAAGGGCTGCAC +CCGTGGCTGGCACCGTTCCTGATGTTCGTGCCAATGGAGTGGCTCTGCTACTACCTGTCTATTTACAAAG +ATCACAACCCGGATGAACGCCGCTATTACGGTGGTCTGGTGGAATATTAATCCCTCTCCCGGCCCGGCAA +CGGGCCGGATTTACGCAAGGAGTTACCCGATGAAAACAGGTATGTTTACCTGCGGCCACCAGCGGCTGCC +TATTGAACACGCATTTCGTGATGCAAGCGAGCTGGGTTACGACGGCATCGAAATTTGGGGCGGTCGCCCG +CACGCGTTCGCGCCGGACTTAAAAGCGGGCGGCATCAAACAAATCAAGGCGCTGGCGCAGACGTATCAGA +TGCCGATTATCGGCTATACGCCAGAAACCAACGGCTATCCGTATAACATGATGCTGGGCGATGAACATAT +GCGTCGCGAAAGCCTCGACATGATCAAGCTGGCGATGGATATGGCAAAAGAGATGAACGCGGGTTATACG +CTGATTTCCGCGGCCCACGCGGGCTATCTCACGCCACCTAATGTTATCTGGGGACGGCTGGCAGAGAACC +TAAGCGAACTGTGTGAGTACGCGGAAAACATCGGCATGGATCTAATCCTCGAACCGTTAACGCCGTATGA +ATCGAACGTCGTGTGTAATGCTAATGATGTGCTTCATGCGCTGGCGCTGGTGCCTTCGCCGCGCCTGTTC +AGCATGGTCGACATTTGCGCGCCGTATGTCCAGGCGGAACCGGTGATGAGTTATTTCGACAAACTGGGCG +ATAAATTACGTCATCTGCATATTGTCGACAGCGACGGGGCCAGCGACACGCATTACATTCCTGGAGAAGG +CAAAATGCCGCTGCGGGAACTGATGCGCGATATTATTGAGCGGGGCTATGAGGGTTACTGTACGGTGGAG +CTGGTGACGATGTATATGAACGAGCCCAGACTCTATGCCCGCCAGGCGCTGGAACGCTTTCGCGCGCTGC +TGCCGGAGGATGAGAGATGAAAACCCTGGCGACAATCGGCGATAACTGCGTCGATATCTACCCGCAACTG +AATAAAGCGTTTTCTGGCGGTAATGCGGTCAATGTGGCGGTGTACTGCACTCGCTACGGCATACAGCCGG +GATGCATTACCTGGGTGGGTGACGATGACTACGGCACAAAGCTGAAGCAGGATCTCGCCCGCATGGGCGT +CGATATCAGCCATGTCCATACGAAACACGGCGTTACCGCACAAACTCAGGTGGAACTGCACGACAATGAT +CGCGTTTTTGGCGACTACACCGAAGGCGTGATGGCCGACTTTGCCCTGAGTGAAGAGGATTACGCCTGGC +TGGCGCAGTATGACATTGTGCACGCGGCAATCTGGGGACATGCGGAAGACGCATTCCCACAGCTGCACGC +TGCGGGCAAACTTACCGCTTTCGACTTCTCCGACAAGTGGGACAGCCCGCTCTGGCAGACACTGGTGCCG +CATCTCGATTTTGCCTTTGCCTCCGCACCGCAAGAAGACGAAACGCTGCGTCTGAAGATGAAAGCGATTG +TTGCCCGTGGCGCAGGAACAGTGATTGTCACGCTGGGTGAAAACGGCAGCATTGCCTGGGATGGCGCGCA +GTTCTGGCGTCAGGCTCCTGAACCGGTGACGGTTATCGACACCATGGGTGCCGGAGATTCGTTCATTGCC +GGATTCCTTTGCGGCTGGTCTGCGGGGATGACATTACCGCAGGCGATAGCGCAGGGAACGGCGTGCGCGG +CGAAAACCATTCAGTACCACGGTGCCTGGTAGGTATAACGTTGGCGTGAGCATCTTCACGCCAACGTGCT +GTTACTTGCCGGAAAACGACCCTATAATCCGAGTAATTCATTCTTTATTTCAGGGTCGATTATGTCAGCT +ACGGACCGCTACTCTCATCAACTCCTCTACGCTACCGTCCGCCAGCGACTGCTGGATGATATCGCGCAGG +GGGTTTACCAGGCCGGGCAACAGATCCCTACCGAAAACGAGCTTTGTACACAATATAACGTCAGCCGCAT +TACCATTCGCAAAGCCATCAGCGACTTAGTGGCAGACGGCGTACTGATCCGCTGGCAGGGAAAAGGCACC +TTTGTACAAAGCCAGAAAGTTGAAAACGCCCTGCTTACTGTCAGTGGTTTTACCGATTTTGGCGTCTCAC +AAGGCAAGGCGACGAAAGAGAAAGTGATCGAACAGGAACGGGTCAGCGCCGCGCCGTTTTGCGAAAAGCT +GAACATCCCCGGAAACAGCGAAGTGTTCCATCTCTGCCGGGTGATGTATCTCGATAAAGAGCCGCTGTTT +ATTGATAGTTCATGGATCCCGCTGTCGCGTTATCCTGACTTTGATGAGATTTACGTCGAAGGAAGCTCCA +CCTATCAGTTATTTCAGGAGCGTTTTGACACGCGAGTGGTCAGCGACAAAAAGACCATCGATATCTTTGC +CGCCACCCGCCCGCAGGCAAAATGGCTGAAATGCGAACTGGGCGAACCGTTGTTTCGCATCAGCAAAATC +GCCTTTGATCAGAATGACAAACCGGTGCACGTCTCCGAACTCTTCTGCCGCGCCAATCGCATCACCTTAA +CTATTGATAATAAAAGACATTAACCGTAGGCCGGATAAGATGCGCCAGCATCGCATCCGGCGATGCTGGC +GCGTTGAATTTTACATCCCGTACGTTCCCCTCACCCTAACCCTCTCCCCAAAGGGGCGAGGGGACCGTTC +AGTACGGAATTTAGCTTGACGGTGCTATCCAGCATTAAATACTGGCAATACTCTCACGCAAAATCCGCAG +CACCGTCTCTTCACCGCTGCGATTCGGGTTAATGCGAATCGCACAATGTTCTGATTGTGGATTCGCCTGG +CGAAACGTTCCGGAAAGGCGATAAAAGAGCGGCGGGATTTCATATTTCGACTCTGCACCCACCGGGTAAG +GCAAGGCACCGCGCTTTTGCGCCTCTTCCAGCACTCTGGCGGCAATCGGCTGATGAAACTCGACAATCAA +CACCTTCGACTGCGCATTAGCAATCACCGCGCTTTTCACTTCCGGCACCGCACCACCGTTAAGCAAAGCC +AGCAACCGTTCAGATACCCCTGCCTGCACCGCGTGCATCACTGGCGCAAACACCAGACCACGCAATACTT +CCAGCGCCTGTGCGCCCTGGATCTGGCTACCGCCGGAGTAAAGCGTGGCGCGAATACGGTTGATAACATC +AGCATCGCCGACCACTGCACCAACACCCTCTGGCCCAAATAGCTTGAAGCAGGAAAATGTCGAGACATTC +GCGCCGCATTCACAGCCGATTCGAGCCACCTTCATCACCGCATAGTTGTCATCGGTTAACGCTGGAACAC +CTGCCGCGCGCAACGTTGCCAGCACATCTGCCAGCACGTAGCTGTCCTGCGGCTGCTGGCGCGTATGCTG +CACCAGCGCCGCATCCGGTTGTTGCTCGTCGACGACCTGCTTCAGTGCCGACAGGTCATTGAAATCAACA +GTAATAAGCGTCAGCCCCATCTGCTCAATAATAACCCGTGTCGTCGGGTAAACAGGCGCGTCATGCACCA +GAAGACGCTGCCCCGGTTTGAGCAAAGCCGCCAGCCCGGCGCGAATCGCGCCAGTCCCCGCGCCCTGCAC +CAGCGCCGCAGCCTGTGCGTGAAATGCATCAGCCAGCACCTGTTCCACACGCTGGGTAACGCGCGGTTGA +TTCAGTCCTGGCGTTAAGCCTAAATCACCGCCAGTAAGAAACTCGCTGCCGGGGAAATGGCGACAAATGC +TATCCACCAGCGCAAACTGCTTTTGCTGCGCCTCAATAATCGTCAGGCTTTGCAGAGGAAACGTCTTCAT +AGGTGCCTTCCTTAAGCCGGAACGAACAGGCCAAGCCAGTAAAGAACATTCAGCAGAATACCGGTGATCA +TTACTGCCACGACCGGTGCCGCCATTTTCTGTACCGGACGGCCCAGGGATTCGTTGAGGAAGTAAATGGC +AACCGCGATAGAGAATCCGGTATAACCCGCCATCTTAATTGCTGCGAAAATCGAACCGACCAGCAGCGCC +ACTTCCATCAGCATATTCATGGCGTTACGGATGTTATCCGACGCATTACGCACCGACGGGTAGCGTCCCA +GCCATTTGCCGATCGAACGAAGCAGCAAGACTTCCGCCGAAATAACCACTGCGCCTAATACCGCTGCAAC +CATCGGATTCGGCGAGAGATAGTCCACCGCATAAACAAAGGTAAAGCCCGCAACTGCATACACACCCGTT +GCTAACGCGGTGGTGGCAATCAACGGCACAAACCCCAGTCCGCGCATAAATTCTGCCAGAGCCGCCTGAT +TAATCAGCGTTTGCGATTGTTCCGGCGTTACGCCTGCGGAATATGCTTTCTCCAGTGTGAAGATCGACAC +TTCACTGCCAGCAAAAATCTTCATGCTGGCAACGGCGGCAATCAATGCTCCCACGATGGCGATATAGGGT +AAGTTTTTGATAATCCGTGACGTGCGTTCTTCAAACACCGAAAGCCCGCTGGCATCAATGTCATTTTCAT +CACGATGACGCAGGTCGTGAGTTATCGCGATCCCCAGCAGCATCACCATGCCAATAAAGATTTCGATGGA +TTCAGGGTTAAGATGTGGGAAATAGCGCACGACTACCACACGGGTCATCAGTACCACCACGGCGGCGATC +AGACTTTGCTTCCAGCCAAACTGGTAGAAAATCGCCACCAGCGGGAACAGTGCAAAAGCTGAAACCACCG +GCGAGCTTAATTCCCCCAGGCTACCTAATACATCCACCGGCAGCGCGGTCAGCAGCTGGTTTACTGGCAA +CAGGCAAGTAAGGATCAACACGCCCCAGATAGCGCCAAGACCAAACGCCATCAGGCTGTTTATCGCCAGG +ACGCCGAGGATATCGGTAGGAAGAAAGAGTAACCATGCGTTGAGCAGCCCGGTTTTCAGGGTAAAAGAGA +TCCCCACCGAGGCCACAAAACCAATGCTCAGACCAAAAGCGATACTCCCCGCCTCGCGACGGTTCATATA +GCCTTCAATCAGTTGCGGCAGGATCGGGCGGATGCCGTCATGAAAAACAGCCGCCGAGCGATGCGCCAGA +AGCGATGTCATACCCGTCAGGCACGCCACCACGATAATCTGAATATACAGATCCATAGTCGTGCCTTTTA +TTTCAGATGGTTAATCAGCATCGGAATCGCGTGTTCGACGTGCTCAACGGAAAGGCCAAACGCCACTTTT +CCTTCAGCGATCATTTTGGCGATATGCTCGTCTTTCGCTTTAATGCCTGGTTTGGCAATGGTGCAACTTT +TGTTATAGCCTATCACCGCGATGGCAATCGACAATGCCGCGCCCGCACCGGTATTACACGCGCCGATGTA +ATAATCCAGTTGCCCGGATTTCACCTTCATTGCCGCTTCCATGTCGTTGTGAATGAAAACTTCAAAACAG +CCAGGAGCCGTCGCTTCAATAGTTTTTTTAATCTGCTCACGCTGTAAGCCTGCAACGCCAATCTTTTTCA +TGAGTCTGTCCTTATTGGAAAAATTGAGAGGGATTTTCACGTAACATCACATCCACATCGGCCTGACTGA +ATCCTGACTGGCGCAATTGCGGAATAAAGGTGGTTAGTAAATAGTCATAGCCATAACCACCGTTGGCTTT +TAAATGGGAGCGGCGCGTAATATCCATCGACAGCATGACGCGGTTCAGCAACCCACGGTCGCGTAGCGCA +TGAAGCATCGCAATACGCTTTTCGTCCGGGTAGTAACTGTTCTTGCCGATGGTGTCGAACTGCACGTACG +CGCCGAGATCGATCATCTTCAAAATGTTGTCGAGGTTGTCTTTCAGATCGCAGTGACCAACGGTGACGCG +CGAAAGATCAACCCCGTGGGCTTGTAGCAACGCCAGTTGCTCCAGCCCCATCGTGCTGAACGACGTATGC +GTGGAGATCGGGCGTCCGGTCTGGTTATGCGCCAGCGCAGCGGCAATAAATACCTTCTCTTCCAGCGGCG +TAATCTTTCCTTCGCTGGTGCCGATCTCCGCGATGATCCCGGCTTTCAGCTCCGTGCCATCGATACCCTG +TTCAATTTCATCGACCATCTCCTGCGCCAGTTCCTGCACGCTGCGGGTCGCCACATGTTCCGGGAAAAAC +GCGTCCTGGTAATAACCGGTACAGGCCACCACGTTGATCCCCGTCTCGCGCATTACATCAAGCATAAATT +GCGCATTGCGCCCCATGTAACGGTTGGTCATCTCAATCACATTACGCACGCCCCGGGTCATCAGGTCGTT +CATCTCCTGGCAAATGAACGCATACTGATCAAGGCGGCAGTCCACGTTGTTTTTAAAGCCGGAGAGATCA +ATATGCAGATGCTCATGGGCGAGGGTGTAACCCGTCGGATCAAAACTCATAGGGTGTCTCCTGCAAACCG +GAGGGAGGAAAGAAAAGAGCGACCATTTTGTGGCGGTGGCGCGCGGAAAAATTCACACACGGTAGCCCCC +ACATCAGAAAGCGTGGTGCGCACACCGAGCTGCGTAGCGATCATCCCTTGCTGATAAACCAGCACTGGCA +CCACTTCGCGGGTATGGTGGCTGTGACCAATGGTCGGATCGTTGCCGTGATCCGCCATCACGACCAGGCA +ATCATCTGGCTGCATCGCCTCAACAAGCCGGGCAAGGTTACGGTCAACGACCTGCAAACGTTCGGCATAA +CGTGCGACGTCTTCTGCATGACCAGCGAGGTCGGTTTCCTGAATGTTGGTGCAAATAAACGCCGTCGGAT +GGGTGTTAAATTCGTTGAGGGTGATATCCATAATCCGCTGGCTATCCACCAGATTTTGCCAGCTCACGCC +ATAAGGATTGTTGACGATATCTGCCACCTTACCCACCAGCACGGTTGGCACGCCTGCTTCATACAGTTTT +TGTGGCACCTGCACTTTTTCATCGACGCCATAGCCCATATGCACGACCTGGAAACCGTTGTCATAAGCGC +CAGAACGCGGCGCATTGATACCAATAAAGCGCCCTTCTTTGCTTTCTGCGGCATCGAGAATGCGTTGACT +GTCGGTTAACAGGCCACCAAATGTAATGACCCGACCGACCTGTACCTGCTCACGCACGATACGACCAATT +TTGATTGCGTCGTCAAAAGAGATCACAGAGAGATTGGCGGTAATGTTATAGACCTGGCCTAAATCCGCCT +CGAGATTATCGCCAATCGCAACCGCCTGATTGACCCACAGAAATTGCAGATCATCGCCACGGCGCTCCAC +CTGCCAGCCAGCGGAAACTAATGCCTGCTCAACACGGTCAATCACATCGCGAAAAGGCATCCGCAGCGGC +GGTAACGGGCGCGTGCCTAAAATTTCCTGATGCCCCATAAAGGTATCGCCACCTTCATGTTGCAGCTCTG +CCACGCCCCAGGTTGCGGAATCTGACGGCTGCATATCGCCTGGCGCATAACCCAATGCGTTGATTAGCCC +CAGCGTCTCCAGCGTTGGTAGCTGCAAATGCGGCAACTGGCTCAGGATGTGACCACATGTATTCGCTCCC +GCATCTTGCGGACGCACCAGCGTGACATCTTTCATTGCCCCTACGCCAAAGCTATCAATCACTAACACCA +CAAATCGCGCCATTACGCCCCCAGAGAGTTTCCAAGACTGTCATAACGACCGACGATTTCCGGTTCGCCA +CGATGAATACCGGACACCAGCACCACATCGCTACGGGTGACAAAAATCTGCGTGCGAAAACAGAGCACCA +CTGCACTGCTTACCGGAAACTCGCCTGCCAGCGGCAGGGTGTAGTCGATACTGCTGTCATCCACAGTTTT +GAGATTGGTTTCAGTAATCTTTTGATTTTCTGGCGTAAACACCAACGCATGTTGCGCATGACCACGACGA +TAGTAACCGCCGCCGTAGCAGTAGCTGTCGCCACGGAAATGATGGGAGATTTCACTTAACCAGAGCATCG +CGATACGTTCAGGCTGATCGCCCTGCTGGTTTGCCGGAATAGTGCCCGTCAGCGCATGACCGGGTTCGGC +ATGAGTCACACCGTATTGCGCCAGTAATGGCAGCGAAGTGCAGCTGGTCGCTGAAGGCGCGTTCAGTTGC +TCAAGTGCAATACCAGATTTCGCCAGTTGATCCCGTGCCTGTATCAGCGTGTGAAGATTCGGTGTCGGCA +AAACTTTTCCGACAGCCTCATCCCAAAGCAGGCAAGGGAAATGGGTAAGTCCGGCTAAATGCAGCCCTGG +CAGATTCTGGATTTCGGCGACAATCTCCGGCAACACCTTGAGGGCAAAACCGCTCTCCTGGCCCGGATAA +AGAAAATCATCGTCGCTATAAACTTTAAGCAGCACAGACTGGATTCGCCCGGCCTTCACCGCCGCCGCAG +AAACTTCCCGCGCTTTGTCGAGAGTAAACACGGTGATGACGTCGGTGCCCTGTTCAACGGCGTCAGCAAC +CTGATGACAAGGGATTTGTACCAGATGCCCCTGATGCGCCACAGGCAAACCAGCGCGGCGCATGACTCGC +GCCTCTTTGTAATCCACCGCCACAATGCCGCTGTAGCCTAATGCCAGCAATTTTTCCGCCAGCCACGGAT +TACGACCAAACTGCTTGGTCATCAGATACAGTTCAATGCCGTAAAGCCGCGCCGTCTCAATCAGCCGCTT +ACCGTTTTCCAGTATCTGATCCACGTCGATCACCCAGCTGTCCGGGGCGATCTTGCCCTGCTGCCACAGG +CTTAGTGCGGCGGAAATCAGCGCCGGGTTCTGGCGTTTCAATGCTTCTACAAACATCTTGTTGCCTCGTT +TCTGTTCCTTGAATTAAATATTCATTTTTTTGAATATTTAGGTTGTGCGACGTGGATTTGTCGGGAGCTT +CAAACCTCTTCGTTAGCAGCCATCCATAATCCATAAAGGTTGGCCAGCAAATAGCCTTCTTCACACGGGT +TAACTTCCAGTGCGAATTCCTTCAACAACACCTGATGCAATTGCACAACGGCTTGCCAGTGGCTGGATTG +CGCCAGTTCTGCCAGCAACTCGTTATCCAGCGGCTCTATTTCTTCACCACGGCGACTGCGCATCAGTGCA +CTCGCCATATGTGTCATCGCCATCGTTCCTTGCTCACTGCGCACCGGCAGATGGCACTCTGTTTCCAGTA +CGTTGACGACCTGCATCATGCCTTTGCAGATGTCCTTATCAATAACGCCTGCCTCGCAAAGCAGGTTGAG +TCTGGTTTCCATATCAGATGCCTTTCGTTTAATAACTCGGTTCCTGTTCCCCACTCACTACCCGTTGTTG +ATGGGCGAGCAGGGCGTGTTTATCTACAACGGCACGCAGCAGTTGTTGCATTGGGTAATCATCGACTCGC +GTCAGGACCACGGCTTCGGTGGCCTGTAAAAATCGCGGATCGTCTGTGAGCGGCGTCGCCTCTAATCCCA +GCATGGTCAGTTCGTTTTCCGCCACCACGTTCCAGATCACCGCATCGACATCGCCTTTAACAATGCGTTG +TAAACTCTCGTGATAAGAGAGATCGACTCGTTCCACATCACTACCGCCAAAAAAAACATCGGTCATGATT +TTCTGATCCGCCGAACGGTTATCCAGCCCCACGCGCTTCACGTTTGCGGACTCGCCTTTACGGCAAATCA +ACTGGTGCTCGCCAACGTAGGTGTGCGGCCCCAACTCCAGCGCGAGGCATAAGCCTTTTTGCGTGAGATA +ACTTTCCGCCGCTAGTCGCGAAACCACCGCCATGTCATACACGCCATTAAGCAGACACTCCACGCGAATA +TCCGCGCCACGCATGTGCGCATAGTAAAAAGGAATGCCATCAAACTGGGCTTTCAATCCGCTCGCCAGGC +CTTCGTACAAACGGGTATAGGGCAAGGGCATTGCACATACCACGTTGTTGATATCCACATGAGTCAGCAA +TGCTTTGTTATCCATCTCGACCAGATAACTGCCATTGCGCCCACGGCGTTCAATCCGTATCGCTCCGCTT +GATTCCAGCGTTTTCAACGCGGCCTGCGTCAGGCCAACGGATGAACGGCATTCATTTGCCAGCTCATCTA +TGGTTTTCAATCGATTACCGCACTTTTCACCCAACAAATAACGGGCCAGCGTCGTGATGACGACGCCTTC +TTTTTTGATAAACGTTCGACGCATAATAAATTTTCAGTAAATTGAATATTTATATCTTCAGGAATTTGAA +GATAAGGCGCAACAGCGAGATGTGGAAACGGCGAGGCACTTCACATTTTTTCGGATTATTGCAAATGAGG +ATAAAAAAACCGGGTTTCCCCGGTTTCAGAGTGATGATAAAAGCAAAATTGCCTGATGCGCTACGCTTAT +CAGGCCTACATTTCCTTGCAATATGTGCATTACTTTGTAGGCCGGATAAGGCGTTCACGCCGCATCCGGC +ATGAACAAAGCGCAATTTGCCAGCAATAGTGAATTACGGCTTCGCCACAAAACCAATCGCTTCGTACACC +GCTTTTAGCGTACGGGAAGCGTGCGCGCTGGCTTTTTCCGCGCCATCTTTCATCACCTGTTGCAGGAAGG +CTTCATCGTTGCGGAAACGGTGATAGCGTTCCTGCAATTCAGTCAGCATACCGGAAACGGCATCAGCCAC +TTCACCTTTCAGATGACCATACATCTTGCCTTCGAACTGTTTTTCCAGTTCTGGGATGCTCTGGCCCGTT +ACCGCTGAAAGGATATCCAACAGGTTGGAAACGCCCGCTTTGTTCTGCACATCGTAGCGAACTACCGGCG +GCTCGTCGGAGTCAGTGACCGCACGTTTGATTTTCTTCACTACCGATTTCGGATCTTCCAGCAGGCCGAT +AACGTTATTGCGATTATCGTCAGACTTGGACATCTTCTTGGTCGGCTCCAGCAGCGACATTACGCGCGCG +CCAGATTTCGGAATAAACGGCTCCGGCACCTTAAAGATCTCGCCATACAGCGCGTTGAAACGCTGGGCAA +TATCGCGGCTCAGTTCGAGGTGCTGTTTCTGGTCTTCACCCACCGGTACCAGATTAGTTTGATACAGCAG +GATGTCCGCTGCCATCAGCACCGGATAGTCAAACAGACCAGCGTTGATGTTCTCGGCATAACGCGCAGAT +TTATCTTTAAACTGCGTCATGCGACTCAGTTCGCCGAAGTAGGTATAGCAGTTCAGTGCCCAGCCTAACT +GTGCATGTTCCGGCACGTGGGACTGAACAAAAATGGTGCTTTTCTCAGGATCGATACCACAAGCCAGATA +CAAGGCCAGCGTATCCAGCGTCGCTTTACGCAGCTTCTGTGCATCCTGGCGCACGGTGATCGCGTGTTGG +TCAACGATACAGTAAATGCAATGGTAGTCATCCTGCATGTTTACCCACTGACGCAGCGCACCCATGTAGT +TACCAATGGTCAATTCACCTGAGGGCTGTGCGCCACTAAAAACGATGGGCTTAGTCATTTTTCGATTCCT +GATTTTCGCTATGCGGAAGCCCTAATGCGGGCAGAAGGTCATTTATAGACTGATAAATTACATCAGGCTG +GCTGAGATCGATAGCCTCGCCGTAGTTATATCCGTAGGTTAAGCCAACTGATGGGCAACCTGCCGCTTTT +GCCGCCTGAATATCATTGCGTGAGTCGCCGACAAACAGCATCTGTTGTGGGGCAATTCCCATCCGCTCAG +CCACCAGTAACAGCGGGTCCGGATGCGGTTTTTTGTTTTGCACATCATCACCACCAATCACCACGCTGAA +GTATTTGGCGATATCTAAGGCTTCGAGCAGCGGCGCGACGAACGGCGTCGGTTTGTTGGTGACCAGGCCT +AGCGGCAGGCCTTTAGCCTGCAACGCGCCCAACGTATCGGCAACGTGCGGGAACAAAAACGTCCCCTCTT +CGGCAACCTCGCCATAGTAGCGATCGAACAGTTTACGCAGAATACGTACCTGTTCTTCTGCCGGAATGTC +GTCATCAACGGGCGGTTTACCCATTGTTTTACGCTGAGTCGCACGTTCCTGACGCGCCCAGGTCAATGCG +CGCTCCATCAGAACATCTGCGCCGTTACCAATCCAGGTAATAACGCGTTCTTCACCTGCGACGGGCAACT +CCAGCGCATACAGCGCCATATCTACCGCAGCAGCAAGACCAGGAGCACTGTCGACCAGCGTACCATCAAG +ATCAAAAGCGACGCCGCGAATATCTTCAAACTTATTCATGACTTACCTTTGCCAGTTCACTGCGCATTTC +ATCAATGACTTTTTTGTAGTCTGGCTGGTCGAAGATTGCCGAACCGGCGACGAACATATCCGCGCCCGCC +GCAGCGATTTCGCCAATGTTGTTCACCTTCACGCCACCGTCCACTTCTAGTCGAATGTCAAAGCCAGACT +CGTCGATACGGCGACGTACTTCGCGCAGTTTATCCAGTGTTTGAGGAATGAAAGACTGACCGCCGAAACC +AGGGTTGACGGACATCAGCAGGATCACATCCAGCTTATCCATCACGTAATCCAGATAGCTCAGAGGTGTC +GCCGGGTTAAATACCAGACCCGCTTTACAGCCATTTTCTTTAATCAGTTGCAGCGTGCGGTCAACATGCT +CGGAGGCTTCTGGATGAAAGGTAATGATGCTGGCACCAGCGGCAGCGAAATCAGGCACAATGCGATCGAC +GGGTTTCACCATCAGGTGTACGTCGATAGGGGCGGTAATGCCATAGTTACGCAAGGATTTCAGCACCATT +GGCCCAATCGTCAGATTGGGAACATAGTGGTTATCCATGACGTCAAAATGCACGACATCAGCGCCAGCTG +CCAGGGCTTTTGCGGTATCTTCACCCAGGCGGGCAAAATCAGCCGACAGAATTGAGGGGGCAATCAAATA +CTGTTTCATCCGCTTCTCCTTGAGAATTATTTTTTCGCGGGTGAAACGACTCCTGGTTTGTACAAAGCCA +GCAGTTCGTCCACCTTTTTACGTGTGCCGCCGTTGCTGCTTATACTGCGTCGAACTTTGACGACATGCAA +TTTTGCGCGCTGATACCACTCACGCGTTAACATCGTATCGTGATTGGAGATCAGCACTGGAATATGGCGC +TCAACCAGACCTTCGGCGATCTCCGCCAGATGCGCTTGTTGTTCAAGCGTAAAACTGTTTGTGTGATACG +CCGTAAAGTTGGCGGTCGCAGACAGCGGTGCATAAGGCGGATCGCAATAGACGACGGATGCATCATCTGC +GCGCGCCATGCTATCGGCGTAAGACTCACAATAGAAAAAGGCATTCTGCGCTTTTTCAGCGAAGTGATAC +AACTCTGCTTCCGGGAAATAGGGTTTTTTGTAGCGGCCGAACGGCACGTTAAACTCACCGCGCAGATTGT +AACGACACAGGCCGTTGTAACCGTAGCGGTTCAAATATAAAAACAGTACCGCCCGACGGAACGGATCCTG +GCTTTTGTTGAACTCTTCGCGGAACTGATAGTAAACCTCGGCGCAATTTGTTTCGGGAACAAACAGCTCG +CGTGCGGCCTGTACGTACTCATCAGTACGCATCTTCACAATGTTATAGAGACTGATCAGGTCGCTATTGA +TATCGGCAAGGATATAACGAGAAAAGTCGGTGTTGAGAAACACCGACCCGGCACCTACAAAAGGCTCAAC +CAGACATTCGCCCTTGGGCAAATGCCGTTTAATATCATCAAGCAGGGGATACTTGCCCCCTGCCCACTTC +AAAAAAGCGCGATTTTTCTTCATGCTGACTAACTAATTACACCTTCTCCGGCTGTGGAGAAAGCTCCGAC +AGCATCCAGCGCTTCAGGCAACTCCCGCAACGATAAACCATTGCGGGAGATAACCTTGATTACTTCAGAT +CGGCCTGTACCTGACGCAGCGGTTTCGCCCACGGGTTTTTGGCCTGGACATCTGCTGGCAATGTAGATAC +CGCTTTTTTCGCCTCTTCTTTCGAAGCGTACACGCCAGAAACCAGGACATACCACGGCTGACCATTACGC +GTCGTTTCATAGACAACGTAGTTTTTCAGATTCTCTTTCTTCGCCCAACCGTTCAGGTTGTCGTAGTTAG +AGGAACTGCTCAGCTGCAGAGTGTAATGGCTGGACGGTGCCGATTTCAACGAACCAACATTACCTGCGGT +CTTCGCCCCAGCAGCGGGTGTTGCTGTGGTTTGCGCCGGGGATGCCGTCTGTACTGGAGCCGTAGTCGCC +GTCTCTTTTGGTGCTGGCGTAGAAGTCGCAGCCGGTGCCTTCGTGCTCGCCACAGGGGCAGCTGGTTCAG +TACGCTTCGGCGTCTGTGCTACCGGCTTCGGCTCCGTTTTCACGGTTGCTTGCGGTTTTTTCGGTTCAAT +CACCGCCTGCTGACGAGCTGGGCGCGTAGTGGACGGACGTTCAGCGGTTTGCGTTTTCGCCGTGTCACGC +GATGCATTGCCATTGCGAACAGGCGCAACCGTTGCGGGTTCAGTCGGCAACGTGGAATTGACCGCCACAT +TGTTCAGCTGTTGCTGATTTTGTGGCTGGGTCAGCGCATTGTTCAGGTCACCCTGCACTTCAACACGTTG +TTGACCATCCGTTGCCACCGGGGTTTGCCCTTGAGTCGGCGTAGAAGAGATCGGTGGCAGAGAAACATCC +TGCTGAGTATTTTCCGCAGACGTGGTTCCCGGCGCTGGCTGCACGCCATTCGCCTGATCGGTCGCATTGC +CAGCAAGATCAATACTCTTCTCGCCAGACGCGGTTTGATCGCTGGAAGTGGTCGAGGGGGCTTTTAGCGC +AGAACCGATACCGATGATCAACAGCAGTAGAACCAGAATGCCGACGCCCATCATCATATACTGACGAGAA +GCGGGTTTACTGGCTGCTTTTTTGCGCTTACGCGGACGACGCTCTACGCGCTCTTCATCCACGGTTTCAT +CTTCGGATTCGTCAATTTCTTCTTCGATTTCCGGTTCCTCATTGCGCTCTTTTTGCGCACGAGTCGGACG +GCGATCGTCAGTGTCATCAAGTTCAATATCATCAAAATTGATCTGCGGTTCGCCACGTTCAGTACGCTCA +GAACGTTCAGAAGATTGACGAGAACGACCAGTACGACGATCGCTGGGATCGGGTTTCAGCTCGTCTTCTG +GTTTGAATTCATCCATTTAACACCCCACTAAAAGGTTAATGCTTACCACGTTGCAATTAACCTGAAGCTA +ATAGACCGCTTGATAAGCGGCCTGACCTTTCTTGTTGTTACGCTGATTGACAATCGGCAATGGCGTTAAG +AACAAGCTCGTGCGAAACGCCGCTGCGAACTTCACTCTTACCAATTGCCAACGGAAGAATTAAGCGCATC +TCTCCCGCAAGGACTTTCTTGTCACGCAGCATATGCGGTAAATACGCCTGCGCGGACATTTCGCGCGGCC +CATTGACCGGTAACCCAGCCCGCTTGAGCAGGGTTATAATACGCTGCGTTTCGGCAGAACTAAACTGCCC +GAGACGTTCCGACGTCCGCGCCGCCATCACCATACCCGCAGCGACCGCTTCACCATGTAACCAATTGCCA +TACCCCATTTCAGCTTCAATGGCATGACCAAAGGTGTGTCCCAGATTCAGTAAAGCACGTAACCCGGTTT +CGCGCTCGTCGGCGGCGACAACTTCTGCCTTCAGTTCACAACAACGGCGAATACAGTACGCCATTGCCGG +ACCGTCCAGACGCAACAACGCATCCAGATTCTCTTCCAGCCAGTTAAAAAACGCACCGTCAAGAATAATG +CCGTATTTGATGACTTCTGCCAGCCCCGACGCTAACTCACGCGGGGGAAGCGTTTTCAGACAGTCGAGAT +CCACCACCACTGAAGCAGGTTGGTAGAACGCGCCAATCATGTTTTTACCGAGGGGATGGTTGACCGCAGT +TTTGCCGCCAACGGAGGAATCGACCTGCGACAGTAACGTCGTCGGGACTTGAATGAAACGGACACCGCGC +TGATAACTCGCCGCCGCGAAGCCGGTCAGATCGCCCACTACGCCGCCGCCAAGCGCCACCAGCGTAGTAT +CGCGACCATGCGGTTTTTGTAACAACGCCGTAAAGACGGTATCGAGTACAGCCAGGCTTTTATACTGCTC +GCCGTCAGGGAGGATAACGCTATCGACGTTAACACCCGCCTGTTCAAGTACGCCGCGGACCTTATCGAGA +TACAGAGGAGCCAGGGTTTCGTTGGTGACCAACATGACCTGCTCGCCCGATTTCAGCGGTAAGAATGAAG +CTGGTTCATTAAACAAACCAGATGCGATGGTAATTGGGTAACTACGTTCCCCGAGAGTAACGACAATCCT +CTCCATAACGCGACATCCACCTTAATTACTGTACCCGCAGACGAGTGTATATAAAGCCAGAATTAGTTGC +TTTCCAGCATGTGAATAATCTGGTTTGCAACCACTTTAGCGCTTTGATCATCAGTACGAATGGTCACGTC +GGCAATCTCTTCATACAGCGGATTGCGTTCATTGGCCAACGCTTCCAGAACTTCACGCGGCGGTGTTTCA +ACGTGCAGCAACGGGCGTTTTTTATCACGCTGCGTGCGTGCAAGTTGCTTTTCGATGGTCGTTTCAAGAT +AAACGACAACGCCACGAGCGGAAAGACGGTTACGCGTTTCACGGGATTTCACAGAGCCGCCGCCAGTAGC +CAGCACAATACCCTGTTTCTCGGTCAACTCATTGATGACCTTTTCTTCGCGATCGCGGAAGCCTTCTTCG +CCTTCTAAATCGAAAACCCAGCCCACATCAGCTCCGGTTCGTTTCTCAATCTCTTGATCGGAATCGTAAA +ATTCCATATTGAGTTGTTGAGCTAACTGGCGCCCAATAGTGCTTTTTCCGGCACCCATAGGCCCAACCAG +AAAGATATTGCGTTTCTCTGCCATTTTTTCGGTACTACTAAGACTATTCGTTAATGATAAACCCGCTTCG +CTCAGAGAGCGCCGCAGGACATGAACTGAAACCTCATAAGATATTGCGAGAGTCAGACTGAAAATTATCT +CAATACTCCAGCGGGTTTGGCAACTGAATAAATCACCCATCCCTCTGCATATCTGGTCGCTGCAAGCGCG +CTGCCTTGCTACCACCGCTCTGGCGATAAATCACCGGGTAAGATTAGCGTAAAAAAGACAGCAAAATGCC +GCCTGAATGATAAATCATCATCATGGAACGCAGGCAGCGAAGAGCACCAACTCTCAAATCGGTACTCCTT +GTATGCTAAATACCTGCGCGCGTCAAATAGATGAAACACGTTCAGCGTAAAAACATTACCGCTTTTACGG +CTGTTTACTCACTGGAAACCAGTCGTGGCGTGATAAACACCACTAACTCGCGTCGTTCATCTTCTTTTCC +GTCATGACGAAATAATTGCCCGAACCAGGGAATGTCGCCAAGCAACGGTACGCTATCCTGACCCGATTTA +TTTTTACGGGTAAAAATGCCGCCCAGCGCCAACGTTTCTCCGCTTTTGACCTCGACCTGCGTTTCGATCT +CCTGCTTATCAATCGCCAGCACTTCGCCATCGGCCTGCTGTAGCACCTGCCCCGGAACGTTCTGGCTGAT +GTGTAATTTCAGCCGGATGCGACCTTTTTGTAACACCGTGGGCGTGACCTCCATCCCCAGGACGGCCTCT +TTAAATTCCACCGACGTCGCGCCACTTTCCCCGCTGGAAACCTGATATGGAATTTCGCTCCCCTGTTTAA +TGCTGGCAGGCTGAAGATGTGAGGCCAGCAGACGCGGACTGGCGATAATATCCAGCTGCTGTTTTTGTTC +GAGCGCGGAAAGCTCAAGATCCAGCAAGCGTCCGTTGATGCGCCCAATGTTAAAACCGACATGCGTTGTC +GCCGTCGCTACGGAGAGGTCGCTACCAAGCGTGGTGACTTGCCCAACGCCACCAGCGTGTTGCGCATCGG +CCAGCGTCCATTTCACGCCTAACTCACGCAAACTTTTTTCATTAATGGTGACAATATGCGCCGACAGCTC +AACCTGCCCGACCGGCAGATCCATTTGCGCTACCCACTGTTCAAGCGCGCTTAACGCCGTTTTGTTATCT +CGTAGCAAAAGGCGATTGGTGCGTTTATCGACGGTCATACTCCCTTTGGCACTCAGTAGCTTCTCCCCCG +CTTTCGCCAGTTCTCCCGCGTCGGCGTATTGCAGGGTTATACTGCGATTTTCCAGCGGCAGATTTGCCTG +CGCCCGCGCCTGCTCCGCCTCCTGGCGGGCGATATTGTTATTCTGCCAGGCAATGGAATGCACTGAGAGA +ATGTTGCCTTCCTGCCGCGTTATCAGTCCGGCGCTTTTCACTACAGTTTGTAGTGCCTGCTTCCAGGGAA +CATCTGTTAGATGTAACGACACCGTACCGCTGACGTCTGGCGACACGACCAGGTTCAACTTCTCCTGTTC +AGCCAGCGCCTGCAACACCTGAGCTACCGGAACGTCATCCACCATCAGCGTCACTTTTTGCGGCTTTGCC +GCCTGTACGCCGGGTATCAGCATCAACAGTAGTGCGGCTATCCATTGCTTCATTTGTATCTCCTTGCCGT +TGCCACAACCATTGTGGCGGTTCGCAGTTTGTCCCGGTACCCAGCGTTAGTACGTCTGGCGTCAGCTGTA +AAATTGTCCAGCCGTTTTCCAGCACATCGTTTTGCTGCACCCGTCGCCATTTCTTTTGCCCGTCTTTTAT +TACACCGATGATGCGCTCGCCTCGCCCTACCATCCCCTGATAGCGCCACTGGCTAAGTTCGCTAATCCGG +CATAGATCTTCCGGCGGTTTAAAAGGGTCACGCATACCGGTTAAAAGGCACAATGCAATACCTGCCAACA +ACCAGCGTTTAACCCTCATGCGGCGTCTCCAGTTGTAGCGTGAACAAAAGATCATCACCTTCCACGCTTA +ACGAAAAACGGCTCACGCTGACGTTGCGCTCTGCCAGCCGTGTAAATGCCGACGGCACTGCTTCCCACAG +CGTTTTCAACGCCAACTCGCCTCCCTGCGCGGATGGATGCCAGGAAACCAGTTGCGCGCCGGATAACTGA +AAATCCAGTGGCGAAAAGGGCAGCGTTTTTTCCTCGCTGAAGGGAGCGGTGTCTACCAGGCGATACAGTG +CGGCCCACTGCTGGTGATGACTTGCCCGTAGTCGAATTAATGCGTCGCGCTCTTCATGGTGTGTCGATGA +CAGAAAAATGAGCGTAACTAACATCAGCAACCAGAATGCCCAGCAAAGCTGGCGGAGGCGGGGTGATGTG +GCGAACCACCAGTCAAAGAACATGTTCATCGCTAACCTTCCTTGTTAACTGATACTCAAATTGCCAGCGT +CCCTGCGCATCCTGCTGCGTGGCTCCCCGCTGATTGAGATGAAAAGATGCATCCTGGCGGAGTGACGTTT +CTAGTGCGTTTAACGCGGTAATGCTTGTTGTCAGCCCCTTGATCTCCAGCGTTCCCTGCTGCCAGCTTAT +CGTTGTCAGCCAGGCGTGCTCGGGTAAAAGCGCCGCCAGTGCTTCCAGCGCAGATTGCCAGTCGCGGGTA +AATTGTCGCTGGCGCTGCCGTTGCGAACGCTGTTCGCGTAACTGCTGTTGCTCCAGCAAACGTGGCTTCG +TTATCTGTAAGCTGCGGGCGAGTTGTTGTTCCGCCTGAAGCAAAACTGCGTCTATGCGCGCTTCGGCGCT +GCCTGTCAGACGCAGTATTAGCGTTATCCCGACGGCCAGCAGCAGAGGCGCAACGAACATCAGCAACCAG +AAACGCAGAAAAGCGGTCCGGCGTTGCTGTCGCCAGGGCAAAAAATTAATTGGCGGGTTCATCAGTACGC +CTTCCCAAGCGCCAGCCCCAGCGCGATGGCAAAGTCTCCACCTGGCGGCGGTAGCGGCGGCTGACGAACA +GAAACGGCCTCCCAGGGATCAAATCCGCCTTCGCCACATATCGCGACGCTTTCGGGATCAACGGATAACG +CTGCCGCCAGCTCCTTCGCGCTAGTCATCCCCACCGCCAGTTTGCGCCCCCAGCTATAGCGCGTCGCCCA +CAGCCACTGTTCGTTATCACGCCAGGCCAGACATTGCTGATGAGAAGGTAAAAAAGGCAGGAATCGCTGT +AATGCACTGGCATCCGGGGTGATCGCGCTCACATGAACACGCAACCTTTCTGCCAGAGTAAGCAGCGTTG +CCAGCTCTTTGCTTTGCGCGGCAGTCACGTTATAGGCGGGACTGAGTGAGTCTTCGCTGTAATCGAAGCG +CAGGGAGTCCGGATCCATATCCAGCTCGCGGGCCATCGTCCCTGACAGCCAGGCCGTTTGCTCCCGCTCA +CCAAGGGACATCGACGGGCGCGGAAATGACCGCTGTAATGTGCGACTGGCGGGAAACGCCAACATAATGT +GATGACGCTGCGGCAGTTCGCGACTCCACGGTAACAACGTTTTAGCCAGCTGCTGCGCATCAACAATCCG +CCCATCTTTGATAATGTCGTTCTCCAGCGGCAACCGCCACCAGCGTTGCAAAAAGCATTCTTTTGCGCCC +CGCACGATCGCAACCGCTACCGCTTCTTGCTGTTGTAAATGCAAACCAATTTGCCAGATCTTAAATGCCA +TTGTGATGATCTCCTTATCACCCGTCACTCTGACGGGTATATCAATGCGTCTGGCTTGCCTTTATACTAC +CGCGCGTTTGTTTATAAACTGCCCAAATGAAACTAAATGGGAAATTTCCAGTGAAGTTCGTAAAGTATTT +TTTGATCCTTGCAGTCTGTTGCATTCTGCTGGGAGCAGGCTCGATTTATGGCCTATACCGCTACATCGAG +CCACAACTGCCGGATGTGGCGACATTAAAAGATGTTCGCCTGCAAATTCCGATGCAGATTTACAGCGCCG +ATGGCGAGCTGATTGCTCAATACGGTGAGAAACGTCGTATTCCGGTTACGTTGGATCAAATCCCACCGGA +GATGGTGAAAGCCTTTATCGCGACAGAAGACAGCCGCTTCTACGAGCATCACGGCGTTGACCCGGTGGGG +ATCTTCCGTGCAGCAAGCGTGGCGCTGTTCTCCGGTCACGCGTCACAAGGGGCAAGTACCATTACCCAGC +AGCTGGCGAGAAACTTCTTCCTCAGTCCAGAACGCACGCTGATGCGTAAGATTAAGGAAGTCTTCCTCGC +GATTCGCATTGAACAGCTGCTGACGAAAGACGAGATCCTCGAGCTTTATCTGAACAAGATTTACCTTGGT +TACCGCGCCTATGGTGTCGGTGCTGCGGCACAAGTCTATTTCGGAAAAACGGTCGACCAACTGACGCTGA +ACGAAATGGCGGTGATAGCCGGGCTGCCGAAAGCGCCTTCCACCTTCAACCCGCTCTACTCGATGGATCG +TGCCGTCGCGCGGCGTAACGTCGTGCTGTCGCGGATGCTGGATGAAGGGTATATCACCCAACAACAGTTC +GATCAGACACGCACTGAGGCGATTAACGCTAACTATCACGCGCCGGAGATTGCTTTCTCTGCGCCGTACC +TGAGCGAAATGGTGCGCCAGGAGATGTATAACCGTTATGGCGAAAGTGCCTATGAAGACGGTTATCGCAT +TTACACCACCATCACCCGCAAAGTGCAGCAGGCCGCGCAGCAGGCGGTACGTAATAACGTGCTGGACTAC +GACATGCGCCACGGCTATCGCGGCCCGGCAAATGTGCTGTGGAAAGTGGGCGAGTCGGCGTGGGATAACA +ACAAGATTACCGATACGCTGAAGGCGCTGCCAACCTATGGTCCGCTGCTGCCTGCCGCAGTCACCAGCGC +CAATCCTCAGCAAGCGACGGCGATGCTGGCGGACGGGTCGACCGTCGCATTGAGTATGGAAGGCGTTCGC +TGGGCGCGTCCTTACCGTTCGGATACTCAGCAAGGACCGACGCCGCGTAAAGTGACCGATGTTCTGCAAA +CGGGTCAGCAAATCTGGGTTCGTCAGGTTGGCGATGCATGGTGGCTGGCACAAGTGCCGGAAGTGAACTC +GGCGCTGGTGTCGATCAATCCGCAAAACGGTGCCGTTATGGCGCTGGTCGGTGGCTTTGATTTCAATCAG +AGCAAGTTTAACCGCGCCACCCAGGCACTGCGTCAGGTGGGTTCCAACATCAAACCGTTCCTCTACACCG +CGGCGATGGATAAAGGTCTGACGCTGGCAAGTATGTTGAACGATGTGCCAATTTCTCGCTGGGATGCAAG +TGCCGGTTCTGACTGGCAGCCGAAGAACTCACCACCGCAGTATGCTGGTCCAATTCGCTTACGTCAGGGG +CTGGGTCAGTCGAAAAACGTGGTGATGGTACGCGCAATGCGGGCGATGGGCGTCGACTACGCTGCAGAAT +ATCTGCAACGCTTCGGCTTCCCGGCACAAAACATTGTCCACACCGAATCGCTGGCGCTGGGTTCAGCGTC +CTTCACCCCAATGCAGGTGGCGCGCGGCTACGCGGTCATGGCGAACGGCGGCTTCCTGGTGGACCCGTGG +TTTATCAGCAAAATTGAAAACGATCAGGGCGGCGTGATTTTCGAAGCGAAACCGAAAGTAGCCTGCCCGG +AATGCGATATTCCGGTGATTTACGGTGATACGCAGAAATCGAACGTGCTGGAAAATAACGATGTTGAAGA +TGTCGCTATCTCCCGCGAGCAGCAGAATGTTTCTGTACCAATGCCGCAGCTGGAGCAGGCAAATCAGGCG +TTAGTGGCGAAGACTGGCGCGCAGGAGTACGCACCGCACGTCATCAACACTCCGCTGGCATTCCTGATTA +AGAGTGCTTTGAACACCAATATCTTTGGTGAGCCAGGCTGGCAGGGTACTGGCTGGCGTGCAGGTCGTGA +TTTGCAGCGTCGCGATATCGGCGGGAAAACCGGGACCACTAACAGTTCGAAAGATGCGTGGTTCTCGGGT +TACGGTCCGGGCGTTGTGACCTCGGTCTGGATTGGCTTTGATGATCACCGTCGTAATCTCGGTCATACAA +CGGCTTCCGGAGCGATTAAAGATCAGATCTCAGGTTACGAAGGCGGTGCCAAGAGTGCCCAGCCTGCATG +GGACGCTTATATGAAAGCCGTTCTTGAAGGTGTGCCGGAGCAGCCGCTGACGCCGCCACCGGGTATTGTG +ACGGTGAATATCGATCGCAGCACCGGGCAGTTAGCTAATGGTGGCAACAGCCGCGAAGAGTATTTCATCG +AAGGTACGCAGCCGACACAACAGGCAGTGCACGAGGTGGGAACGACCATTATCGATAATGGCGAGGCACA +GGAATTGTTCTGATTAAAAAGGCGCTTCGGCGCCTTTTCAGTTTGCTGACAAAGTGCACTTGTTTATGCC +GGATACGGCGTGAACGCGTTATCCGGCTAACAAAATCGTGAAAACTCAATAAATTGCAGAAACCCCATAA +GCCTGATAAACATTGTGCATCAGGCAAACTTCACGCATTTACACTCGCCCCTGCCCTTTCAACCATTCGC +GCACGAGGAACAGCGCACTGACATTGCGCGCTTCATTGAAGTCAGGGTCTTCCAGCAAATCCATCATATG +CGCCAGCGGCCAGCGCACCTGTGGTAGCGGCTCTGGCTCATCGCCTTCCAGTGATTCCGGGTAGAGATCT +TGCGCTACCACGATATTCATTTTGCTGGAAAAGTAAGACGGTGCCATGCTGAGCTTCTTCAAAAAAGTCA +GATCGTTCGCTCCAAATCCAACCTCTTCTTTTAGCTCGCGGTTAGCGGCTTCGTAGACGCTTTCACCCGG +ATCAATTAATCCTTTCGAAAAACCTAATTCGTAGGATTCAGTTCCCACTGCGTATTCGCGGATCAGGATC +AGGTGATCGTCCACAATCGGCACAATCATCACTGCTTCCCGGTTGGTTGGACGCATTCGTTCATAAACAC +GCCGCACGCCATTGCTGAACTCCAGATCCACGCTCTCGACGGTAAACAGTCGGGAACGGGCTACAGTTTC +AACATTCAGAATGGTGGGTTTTTGTAATGATTTGCTCATCGTGGGATCTATGCTGTGAAATCAGCGGTTA +TTGTGCGATATCGGACACGCTTTCGGCAATGTGAATTGCATGTTATTTACATTTATGTAACTTAATAAAT +AATCGTCCTCAAATCAAATTAAAAGTCAATAGGTTGAAATAACTCCAGGAATTTGCTGATATTCCGCCTT +CAGAGGGTTTGCTATGATCAGCGGTTACTGTGATGTGCTTAATGATGCTCAAGTTAAACTCCACGCTTGC +CGATAGCCAACCGCAGAATCATGTATTGTGTCCGGTGCGACTGACCACGCCTGACAGACTAAGTAAGATG +GGGAAAGCATGAGCACCATTGTGATTTTTTTAGCTGCTTTGCTGGCCTGCTCACTACTTGCGGGATGGCT +GATAAAAGTGCGATCCAGACGGCGTCAGCTGCCCTGGACCAACGCCTTCGCGGATGCGCAAACGCGTAAA +CTCACACCTGAAGAACGTAGCGCCGTTGAAAATTATCTTGAGAGCCTGACGCAGGTATTACAGGTGCCTG +GCCCAACGGGAGCCAGCGCGGCACCGATCTCTCTGGCGCTGAATGCCGAAAGCAACAACGTCATGATGCT +GACACACGCTATCACGCGTTACGGCATCTCTACCGACGATCCGAATAAATGGCGTTACTACCTCGATTCG +GTAGAAGTCCACCTGCCCCCTTTCTGGGAACAGTACATCAACGATGAGAATACCGTTGAACTGATTCATA +CCGATTCGCTGCCGCTGGTTATTTCACTCAACGGTCATACGCTGCAGGAGTACATGCAGGAAACTCGCAG +CTATGCCTTGCAACCTGTTCCGTCAACGCAGGCGTCGATTCGCGGGGAAGAGAGTGAGCAAATCGAGCTA +CTCAATATTCGCAAAGAAACGCATGAAGAATATGCGCTGAGTCGTCCGCGCGGGCTGCGTGAAGCGTTGC +TGATCGTCGCCTCCTTCCTGATGTTCTTTTTCTGCCTGATTACCCCGGATGTATTTGTTCCGTGGCTGGC +AGGCGGCGCGTTACTGCTGCTGGGCGCAGGTCTGTGGGGGCTATTCGCGCCCCCGGCAAAATCCTCCCTG +CGGGAAATTCATTGTCTGCGCGGTACACCCCGTCGTTGGGGATTGTTTGGCGAAAACGATCAGGAACAGA +TCAACAATATTTCACTCGGTATTATCGACCTGGTCTATCCCGCACACTGGCAGCCATACATTGCTCAGGA +TCTCGGTCAACAAACCGATATCGATATCTATCTCGACCGCCATGTAGTGCGTCAGGGACGATATCTTTCG +CTGCATGATGAAGTAAAAAACTTTCCGTTACAGCACTGGCTGCGCAGTACGATTATCGCTGCGGGCTCGC +TGCTGGTGCTGTTTATGCTGTTATTCTGGATCCCGCTGGATATGCCGCTGAAATTCACTCTCTCATGGAT +GAAAGGCGCGCAGACCATTGAAGCCACCAGCGTAAAACAACTGGCTGACGCTGGCGTGCGGGTAGGCGAT +ACATTGCGTATTAGCGGTACGGGAATGTGTAATATTCGAACTTCCGGAACCTGGAGCGCGAAAACCAATT +CACCTTTTTTACCGTTTGACTGCTCGCAGATCATCTGGAACGACGCCCGCTCATTGCCATTACCAGAATC +TGAACTGGTCAACAAAGCGACGGCATTGACTGAAGCAGTTAATCGCCAGCTGCACCCTAAACCGGAAGAT +GAATCTCGCGTCAGTGCCTCATTACGTTCAGCAATTCAAAAATCCGGCATGGTATTGCTTGATGATTTTG +GCGACATTGTACTGAAGACAGCGGATTTATGTTCTGCCAAAGATGACTGTGTGCGACTGAAAAATGCGCT +GGTCAATCTCGGCAACAGTAAAGACTGGGACGCGCTGGTAAAACGCGCCAACGCCGGGAAGCTCGATGGC +GTGAATGTGTTATTACGCCCGGTGAGTGCGGAATCGCTGGATAACCTGGTGGCAACCTCCACCGCGCCGT +TTATCACGCATGAAACGGCGCGAGCGGCACAATCACTAAACAGTCCGGCCCCCGGCGGATTCCTGATTGT +CAGCGACGAAGGCAGCGATTTTGTTGATCAGCCCTGGCCTTCGGCATCACTTTACGACTACCCGCCGCAA +GAACAGTGGAACGCTTTCCAGAAACTGGCACAAATGCTGATGCATACGCCGTTTAACGCCGAGGGTATCG +TCACAAAAATCTTCACTGACGCCAATGGTACGCAGCATATTGGCCTTCATCCGATCCCGGATCGTTCCGG +CCTGTGGCGCTATCTCAGCACCACATTGCTGCTACTGACGATGCTGGGTAGCGCCATTTACAATGGCGTA +CAGGCCTGGCGTCGTTACCAGCGTCATCGCACTCGCATGATGGAGATTCAGGCCTATTATGAAAGCTGCC +TGAACCCGCAACTGATCACCCCTTCAGAAAGCCTTATCGAATAACACGTTTGCGCGGCAGGTTATGCTAC +CCTGTCGCGCAAATTGCTTCACTCTGGAGATTTCCCTCATGCATATCAACATTGCCTGGCAGGACGTAGA +TACCGTTCTGCTGGATATGGACGGCACGTTGCTCGACCTCGCCTTCGATAACTATTTCTGGCAAAAGCTG +GTGCCTGAAACATGGGGCGCGAAAAACGGGGTTACGCCACAGGAAGCGATGGAATATATGCGCCAGCAAT +ATCACGACGTACAGCATACGCTAAACTGGTACTGTCTTGATTACTGGAGTGAGCAACTGGGTCTGGATAT +CTGTGCGATGACCACCGAGATGGGACCGCGTGCCGTACTGCGTGAAGATACCATTCCGTTTCTTGAGGCA +CTGAAAGCCAGCGGTAAGCAGCGAATTTTGCTCACCAATGCGCATCCGCACAACCTGGCGGTAAAACTTG +AGCATACCGGTCTGGACGCACACCTTGATTTATTACTTTCCACCCACACATTTGGTTATCCGAAAGAGGA +TCAGCGGTTATGGCATGCGGTGGCCGAAGCTACGGGTCTGAAAGCTGAAAGAACGCTGTTTATTGATGAC +AGCGAAGCGATTCTCGATGCTGCCGCGCAATTTGGTATTCGTTACTGCCTCGGCGTGACTAATCCTGATT +CCGGGATTGCCGAGAAACAGTATCAACGCCATCCGTCACTGAATGACTACCGCCGCCTGATCCCCTCGCT +AATGTGAAGGAGACGCCATGAAAGAGAAACCTGCTGTTGAGGTTCGACTGGATAAATGGCTATGGGCTGC +CCGTTTTTATAAAACCCGCGCGCTGGCCCGTGAAATGATTGAAGGCGGTAAGGTGCATTACAACGGGCAG +CGCAGCAAGCCGAGCAAAATCGTCGAGCTGAATGCCACGCTCACTCTGCGCCAGGGAAATGACGAACGCA +CGGTGATTGTAAAGGCGATTACTGAACAGCGTCGCCCCGCCAGCGAGGCAGCCTTGCTGTATGAAGAGAC +TGCGGAAAGTGTAGAGAAACGCGAAAAAATGGCGCTGGCACGTAAACTTAATGCCTTAACCATGCCGCAC +CCGGACCGACGCCCGGACAAAAAAGAGCGCCGCGACCTGTTACGATTTAAACACGGCGACAGTGAATAAC +TGTCACCTGCAAGAGAGATGATTATGCCGCAACATGACCAATTACATCGCTATCTGTTTGAAAACTTTGC +CGTGCGCGGCGAACTGGTAACCGTTTCGGAAACCCTGCAACAGATCCTTGAGAACCACGATTATCCGCAG +CCCGTTAAAAACGTGCTGGCAGAACTGCTGGTTGCGACCAGCCTGTTAACCGCTACGCTGAAGTTTGATG +GTGATATCACCGTACAGCTGCAGGGCGACGGTCCGATGAATCTGGCGGTTATTAACGGTAACAATAACCA +GCAGATGCGCGGTGTGGCGCGCGTGCAGGGCGAAATTCCAGAAAATGCCGACCTGAAAACGCTGGTCGGC +AATGGTTACGTGGTGATCACCATTACCCCGAGCGAAGGCGAACGCTATCAGGGCGTAGTTGGTCTGGAAG +GTGATACCCTGGCGGCCTGCCTGGAAGATTACTTTATGCGTTCTGAACAGCTGCCGACGCGCCTGTTTAT +TCGCACCGGCGACGTAGACGGCAAACCGGCTGCAGGCGGTATGTTGTTGCAGGTAATGCCTGCGCAAAAT +GCCCAGCAGGACGACTTTGACCACCTGGCGACGCTAACCGAAACCATCAAAACCGAAGAACTGCTGACCT +TACCGGCAAACGAAGTGTTGTGGCGTTTGTATCACGAAGAAGAGGTGACGGTTTACGATCCGCAGGATGT +GGAGTTCAAATGCACCTGCTCGCGTGAACGTTGCGCCGATGCGCTGAAAACGCTGCCTGATGAAGAAGTT +GATAGCATCCTGGCGGAAGATGGCGAAATTGACATGCATTGTGATTACTGCGGTAACCACTATCTGTTCA +ATGCGATGGATATTGCTGAAATCCGCAACAACGCGTCTCCGGCAGATCCGCAAGTTCATTAATGAGTATG +TCCGGCAGAGAGGGCTCTGCCGGATTTTACGACTAATACACCTGATGCGCTTTGTCACTCATTCAGATTC +ACATTCAGCCTTTCACCATCCACTACAAGATCGCGCCACGCTTTAGGCTTCGTCCCCAGTTTTCCATCCT +TCGCAGCTGTGAGTAATTTTTCTTTCGTTATTTCGTTCGGAAGTAAACTCATATCAAGCGCGTCCCATTC +TTTTCTGTCTGAGTCAAAGCCATAGACAATGACTCTGTCATCATTAAAAGCAAACAGGATCCGCTCCGCC +TGACCATCACTATTCAGATCTTGCTCGACCAGGACGCAGGCGTCTTTTTCAATACAGGTCATCACGTTAT +AGCGATCCTGGATTAAGGCCGACCAGAATGTCGCATCAGGTTTAACAGAACCAGGGGCAATTAACACATT +ATCGGCTAATACTTTTTCCGATACCTGTTGCTGAAGATGTTGCTCTCCATCTAACGCCATCAGCAGATCC +CGCGCGCGTTTCGGGTCTTTCATAAACCCGGCATCGCTTTTCAGCGACTCAAGCGCAGCACGTCCATAGC +GACCGCTCTGCTCGAGCATGTAGATAGTTACCTGGTCTGACGTGTTTTTGCCGCTCTGATAACGCGCCAT +ATGGCTGTTCACGCTAATGCGCATACTGTCCAGCACCGGCGAATTAAGAAGCACCAGTATCACCAACACC +AATAACGAAACCGCAAGGTTCACTTTGCCCTGAAGAACAACGGGATTTTGCCCTTTACGCCAGACGATGC +TGACAAAATACCCCAGCGACCACACCAGTAACACCAGCACCGCCAGCACGCCCTGCAAGCGGTCGACAGT +CCAGCCGTACTGAGCGACCCGCAGCCATAACGCCCAGGCGGCGACGAACACATACAGCGGAGCAACCAGC +AAAGCGGTTTTAATCAGGCAACGCAACGGCCCTGTCCAGGGAAGTGACGCTTTTTGCGGATCGCGGACAA +TAGCCATTAAGATCAATTGCAAAAAGGCCAGCGTCAACAGCAACCCGGCGGCGGAGATGTGGCGAGAAAT +CGCGCTCAGGCCCGTAAACGGCAGGGTGATGATAAACATCAGGGTTAGCAATGATACTAACGGCAGCAAC +CCCGTGGCGATTAACGTGAACAACTTTTGAATAGAGTCGATTAAACGTGACTGTGTTCGCGCGAGGATCA +CCGCCAGCGCGGTAACCAGACCTAACGTGAGATAAATAAACCAGTCGGTTGCAAAAAAGAGCGTATTGAA +AAACGTGATGCCAACAAGTTTAAACAACTCACTCCACAGTAAAAGCACCAGCCACGTCAAGCCATTGGCG +AGAAAAATCACCAGTAATATAAGTACGTTATGCCATACTGACTGGTAAAAATAGCGATAGCGGCTACTGT +CATTGCGGATGCGAAGGCTTTGTTGTATCCACGGTAGCAACAACATTGCCATCAACAGCAGATAGCAACC +AAAATCCCAAAGCGCCTTTTCAGCTCTCCAGGGGTTCATGCCATCAGTTTGCCACTTCAGCCAGCCGCTC +ATCCCCAGCGTGGCAATAAACACTAGCGCCAGCCATCCCCAAAGGCGCTTCTGTTTAAAAGAGATCACGG +AGAAGAGTAAAACGGATGAAAACGCGACGGTCGCAGGCACGCCATAAACAATCCAACTGTGATTTTTTCC +GGAAAGCCAGGCGATCAGCAGGTAGCAAACCAGACCCTGAAGTAATCCGGTAGCAATCATCCCCCAGCGT +GTTGCGGGTGAAAGTTCAACGTTATCCATGTTGGTTATCCAGAATCAAAAGGTGGGTTAATTATCGCATC +CGGGCAGTAGTATTTTGCTTTTTTCAGAAAATAATCAAAAAAAGTTAGCGTGGTGAATCGATACTTTACC +GGTTGAATTTGCATCAATTTCATTCAGGAATGCGATTCCACTCACAATATTCCCGCCATATAAACCAAGA +TTTAACCTTTTGAGAACATTTTCCACACCTAAAATGCTATTTCTGCGATAATAGCAACCGTTTCGTGACA +GGAATCACGGAGTTTTTTGTCAAATATGAATTTCTCCAGATACGTAAATCTATGAGCCTTGTCGCGGTTA +ACACCCCCAAAAAGACTTTACTATTCAGGCAATACATATTGGCTAAGGAGCAGTGAAATGCGCGTTAACA +ATGGTTTGACCCCGCAAGAACTCGAGGCTTATGGTATCAGTGACGTACATGATATCGTTTACAACCCAAG +CTACGACCTGCTGTATCAGGAAGAGCTCGATCCGAGCCTGACAGGTTATGAGCGCGGGGTGTTAACTAAT +CTGGGTGCCGTTGCCGTCGATACCGGGATCTTCACCGGTCGTTCACCAAAAGATAAGTATATCGTCCGTG +ACGATACCACTCGCGATACTTTCTGGTGGGCAGACAAAGGCAAAGGTAAGAACGACAACAAACCTCTCTC +TCCGGAAACCTGGCAGCATCTGAAAGGCCTGGTGACCAGGCAGCTTTCCGGCAAACGTCTGTTCGTTGTC +GACGCTTTCTGTGGTGCGAACCCGGATACTCGTCTTTCCGTCCGTTTCATCACCGAAGTGGCCTGGCAGG +CGCATTTTGTCAAAAACATGTTTATTCGCCCGAGCGATGAAGAACTGGCAGGTTTCAAACCAGACTTTAT +CGTTATGAACGGCGCGAAGTGCACTAACCCGCAGTGGAAAGAACAGGGTCTCAACTCCGAAAACTTCGTG +GCGTTTAACCTGACCGAGCGCATGCAGCTGATTGGCGGCACCTGGTACGGCGGCGAAATGAAGAAAGGGA +TGTTCTCGATGATGAACTACCTGCTGCCGCTGAAAGGTATCGCTTCTATGCACTGCTCCGCCAACGTTGG +TGAGAAAGGCGATGTTGCGGTGTTCTTCGGCCTTTCCGGCACCGGTAAAACCACCCTTTCCACCGACCCG +AAACGTCGCCTGATTGGCGATGACGAACACGGCTGGGACGATGACGGCGTGTTTAACTTCGAAGGCGGCT +GCTACGCAAAAACTATCAAGCTGTCGAAAGAAGCGGAACCTGAAATCTACAACGCTATCCGTCGTGATGC +GTTGCTGGAAAACGTCACCGTGCGTGAAGATGGCACTATCGACTTTGATGATGGTTCAAAAACCGAGAAC +ACCCGCGTTTCTTATCCGATCTATCACATCGATAACATTGTTAAGCCGGTTTCCAAAGCGGGCCACGCGA +CTAAGGTTATCTTCCTGACTGCTGATGCTTTCGGCGTGTTGCCGCCGGTTTCTCGCCTGACTGCCGATCA +AACCCAGTATCACTTCCTCTCTGGCTTCACCGCCAAACTGGCCGGTACTGAGCGTGGCATCACCGAACCG +ACGCCAACCTTCTCCGCTTGCTTCGGCGCGGCATTCCTGTCGCTGCACCCGACTCAGTACGCAGAAGTGC +TGGTGAAACGTATGCAGGCGGCGGGCGCGCAGGCTTATCTGGTTAACACTGGCTGGAACGGCACTGGCAA +ACGTATCTCGATTAAAGATACCCGCGCCATTATCGACGCCATCCTCAACGGTTCGCTGGATAATGCAGAA +ACCTTCACTCTGCCGATGTTTAACCTGGCGATCCCAACCGAACTGCCGGGCGTAGACACGAAGATTCTCG +ATCCGCGTAACACCTACGCTTCTCCGGAACAGTGGCAGGAAAAAGCCGAAACCCTGGCGAAACTGTTTAT +CGACAACTTCGATAAATACACCGACACCCCTGCGGGTGCCGCGCTGGTAGCGGCTGGTCCGAAACTGTAA +TGATTTGAAGCTGGAGAATATCTATCCAGTATCTTATAGAAAGCAAAACGGGAGGCACCTTCGCCTCCCG +TTTATTTACCCTTCTTTTGTCGTGCCCTGCGCCCGCGTTACCGGCACTGGCAGCCAGGCGCGAATGGAAA +GCCCGCCCCGCTCGCTGGTGCCAAGCTCCAGCATCCCGTTATGGTTATCCACGATACGCTGCACAATTGC +CAGCCCTAATCCCGTGCCGCTAATGGTGCGCGCACTGTCGCCGCGGACAAACGGCTGGAACAGGTGCTTA +CGTTGTTCCGGCGCAATTCCCGGACCGTCATCTTCCACCTGGAACCAGGCGCGATTCGGCTCCGTTCCGC +TGCTGACTTTGATCCAGCCATTGCCATAACGGGCGGCGTTGACCACCATATTCGCCACCGCGCGTTTGAT +CGACAGCGGGTGCATTTTCACTTCAATGCTGCCGGGGTAAAGCGCGGTTTCAATTTCCCGCTCATAGCCA +CTTTCGGCAGCAATCACCTCACCGAGTACTGCATTAAGATCCGCCATTTCCATCGGCATCTCCTGCCCGG +TGCGCAGGTAGTCGATAAACTGCTCAATGATGGCGTTGCACTCTTCGATATCTTTATTGATCGATTCTGC +CAGATAGCCATCCTGCTCGCTCATCATCTCAGTCGCCAGGCGAATACGCGTCAGCGGCGTGCGCAAGTCG +TGACTTACCCCCGCCATCAGCAGCGTGCGGTCATCCGCCAGTTGCTTAACACCAGCCGCCATATGGTTAA +AGGCACGGGTAACGGAACGCACCTCCGAAGCGCCATACTCACGCAGCGGCGGCGGAATAATCCCTTTACC +AACCTGCAAGGCTGCGTGTTCGAGATCGACCAACGGTCGGTTCTGGATACGAATAAACAGCCACGCCCCG +CCTATCGCCAATAGCATAATCGCCAGCGTATAGCGGAACAGCGGAGAGAAATCGCCCTGATGAATTTCGG +TCAGCGGCACGCGTACCCAGATATTGGGCGACAGCCAGGTTTTCAGCCAGACGACAGGCGAACTTTTGTT +GACCTCAACGCGCACTTCCGTCGGGCCGCCCAGTTGCTGCGCCATCTGATGGCTTAAGAATTCATAGTGT +TGCGCCCAACGCAGACCTGCCTCTTCGGCAGCCTCGTTGGAGTAGAGAGAGATCCCCAGCTCACGGTAGA +TCTCCCGACGGAAAGCGGGAGGCACAACCAACTGCGTGCCGTCCTCCAGTTGCAGTTTGTCGGTCATCAA +CATACGCACTTCGTACGCGAGGACTTTATTAAACTGCTGGAGGCTCGGCAAAATCGCGAAGTTCAGCACC +ACCAGATAAGTCGTCACCAGGCTGGCGAACAGCAAGGTGACGATGAGCAATAACGTACGGGCAAATGAAC +TTCGTGGCGAGAAGCGCAATCGCCTCATGCTTTAGAGCCGTCCGGTACAAAGACGTAGCCCAGACCCCAG +ACGGTCTGAATGTAACGCGGATGCGCTGGATCTTCTTCCACCATGCGGCGCAGACGCGAAATCTGCACGT +CGATGGAGCGTTCCATTGCGGAATATTCACGACCACGGGCAAGGTTCATCAGCTTATCGCGGGAGAGCGG +CTCACGCGGATGGCTGACCAGTGCCTTCAGTACCGCAAACTCACCGCTGGTGAGCGGCATCGGCTCGTCT +TCGCGGAACATTTCGCGCGTACCGAGGTTAAGTTTGAACTTACCGAAAGCAATTACCGCCTCTTCCTGTG +ACGGTGCGCCTGGCAGTTCGTTCGCCTGACGACGCAGCACCGCACGGATACGGGCCAGCAGTTCACGCGG +GTTAAACGGTTTTGGAATGTAGTCGTCAGCGCCAATCTCCAGGCCTACGATACGGTCCACTTCTTCCCCT +TTCGCCGTCACCATAATGATCGGCATCGGGTTGCTCTGACTACGAAGACGTCGGCAAATCGACAAGCCAT +CTTCACCAGGTAACATTAAATCCAGTACCATAAGATGGAAAGATTCACGAGTCAGCAGGCGATCCATCTG +TTCTGCATTAGCGACGCTTCGAACCTGGAAGCCTTGTTCGGTGAGATAACGTTCCAGCAGCGCACGCAGG +CGCATGTCGTCATCGACCACCAGAATCTTGTAGTTCTCTTGCATTGTTTGTACTCCCAAAGGTTCGCAAC +AATTTGTAAGCGTGTATTCTTAAAAAAGCTCACGTTCGTCACCAGCTAAATCTGGTATGAATTTCAGCCT +AAATTGTTACAAAGCATATTAAACAGCAGCTTAAGTATACAATTTATTCGGCGAAACATTATTGATTCTG +TTGATATGATCACGTTATACCCAATGTGCGCATTATCAAACAGACAAAGGGAATCAACGAGATGAAAACG +CCCCTGGTTACCCGGGAAGGGTATGAAAAACTCAAACAAGAGCTTAATTATCTCTGGCGTGAAGAACGCC +CGGAGGTCACAAAAAAGGTGACCTGGGCCGCAAGTCTGGGCGACCGCAGCGAAAATGCTGACTATCAGTA +TAATAAAAAGCGTCTGCGTGAAATCGACCGTCGCGTGCGCTATCTCACTAAATGCCTGGAAAATCTCAAA +ATCGTCGATTACTCCCCTCAGCAGGAAGGCAAAGTCTTTTTTGGCGCGTGGGTGGAGATTGAAAACGACG +ATGGCGTGACTCACCGTTTCCGTATTGTCGGCTACGATGAAATTTTTGGCCGTAAAGATTACATCTCTAT +CGATTCCCCGATGGCCCGCGCATTGCTGAAAAAAGAAGTCGGCGATCTGGCGGTGGTGAATACCCCTGCC +GGGGAAGCGAGCTGGTATGTTAATGCTATCGAGTACGTGAAACCGTAAGGAAGAGTCTTAACCTCCTGCC +GATGGCTGGCATTTTTGCCAGCCAGTCCGTATAACTATCCCCTGATTTTTGATCCGAAAAGATGAACTCA +AACCATGATGAATGATTCGTTCTGCCGCATTATTGCGGGTGAAATTCAGGCGCGCCCGGAACAGGTTGAC +GCTGCCGTTCGCCTGCTTGACGAAGGGAATACCGTGCCGTTTATCGCACGTTATCGTAAGGAAATCACCG +GCGGTCTGGATGACACGCAGCTGCGTAATCTGGAAACGCGTCTGAGCTATCTGCGCGAGCTGGAAGAGAG +ACGTCAGGCGATCCTCAAGTCCATTTCCGAGCAAGGCAAACTCACCGATGATCTGGCGAAGGCCATCAAC +GCCACCCTAAGCAAAACCGAACTCGAAGACCTCTACCTGCCCTACAAACCTAAACGCCGCACCCGCGGGC +AAATCGCCATTGAAGCAGGGCTTGAGCCGTTGGCTGACCTGCTGTGGAGCGATCCGTCACACACGCCAGA +AGTCGCCGCTGCACAATATGTTTATGCCGATAAAGGCGTGGCAGATACCAAAGCCGCGCTGGATGGCGCG +CGCTATATCCTGATGGAACGGTTTGCCGAAGATGCCGCGCTGCTGGCGAAAGTGCGTGATTATCTGTGGA +AGAACGCGCATTTGGTTTCTACGGTGGTGAGCGGTAAAGAAGAGGAAGGGGCGAAATTCCGCGACTATTT +CGATCATCACGAACCGTTGTCCACGGTGCCTTCTCACCGCGCGCTGGCGATGTTCCGTGGGCGTAACGAA +GGCGTACTTCAGCTTTCGCTGAATGCCGATCCACAGTTCGATGAGCCGCCCAAAGAGAGCTATTGCGAGC +AAATCATCATGGATCACCTTGGCCTGCGCCTGAACAATGCCCCGGCGGATAGCTGGCGCAAAGGCGTGGT +GAGCTGGACGTGGCGCATCAAGGTGCTGATGCATCTGGAAACCGAACTGATGGGCACCGTGCGCGAACGT +GCGGAAGATGAAGCAATCAACGTCTTTGCCCGTAACCTGCACGATCTGCTGATGGCGGCCCCTGCCGGAC +TGCGTGCAACGATGGGCCTCGATCCGGGTCTGCGTACTGGGGTAAAAGTGGCGGTGGTCGATGCCACTGG +CAAACTGGTGGCGACCGACACCATTTACCCGCACACCGGACAGGCCGCAAAAGCAGCGATGACCGTTGCT +GCGCTGTGTGAAAAACATAACGTTGAACTGGTAGCGATCGGTAACGGTACAGCTTCCCGCGAAACTGAGC +GTTTCTATCTCGATGTGCAGAAGCAGTTCCCGAAAGTGACCGCGCAGAAAGTAATCGTCAGCGAAGCAGG +CGCGTCGGTTTACTCGGCTTCCGAGCTGGCTGCACAGGAGTTCCCGGATCTCGACGTTTCGCTGCGTGGC +GCGGTGTCTATCGCCCGCCGTTTGCAGGATCCGCTGGCGGAGCTGGTGAAAATCGATCCGAAATCTATCG +GCGTAGGTCAGTATCAGCATGACGTCAGCCAGACGCAACTGGCCCGCAAACTGGACGCAGTAGTAGAAGA +CTGCGTAAACGCCGTTGGCGTCGATCTCAACACTGCTTCTGTTCCGCTGTTAACCCGCGTGGCGGGCCTG +ACGCGCATGATGGCGCAAAACATCGTTGCCTGGCGCGATGAGAACGGTCAGTTCCAGAACCGTCAGCAAC +TGTTAAAAGTGAGCCGTCTGGGGCCGAAAGCCTTCGAGCAGTGCGCGGGCTTCTTGCGCATTAACCACGG +TGATAACCCGCTGGACGCGTCTACCGTTCACCCGGAAGCCTATCCGGTGGTGGAACGCATTCTGGCAGCA +ACACAGCAGGCACTGAAAGATCTGATGGGTAACAGCAGCGAACTGCGTAACCTGAAAGCGTCTGACTTTA +CTGATGAGAAATTCGGTGTGCCGACGGTAACCGACATCATCAAAGAGCTGGAAAAACCGGGTCGCGATCC +GCGTCCGGAATTTAAAACCGCTCAGTTTGCCGATGGCGTCGAGACAATGAACGACCTGCAACCGGGTATG +ATCCTCGAAGGCGCAGTGACCAACGTCACCAACTTTGGCGCGTTTGTCGATATTGGCGTGCATCAGGACG +GCCTGGTTCACATCTCTTCATTGTCGAACAAGTTTGTGGAAGATCCGCATACCGTGGTGAAAGCGGGCGA +CATTGTGAAGGTGAAAGTGCTGGAAGTGGATCTTCAGCGTAAACGTATCGCCCTGACTATGCGCCTGGAT +GAGCAGCCTGGCGAAACCAACGCTCGTCGCGGCGGCGGTAATGAACGCCCGCAAAACAACCGCCCGGCAG +CCAAACCACGCGGTCGTGAAGCGCAGCCTGCCGGTAATAGCGCGATGATGGATGCGCTGGCGGCGGCAAT +GGGCAAAAAACGTTAAACGCCCGTACTGGCCTACGGTTCGAATTTGCACGAAATCGTAGGGCAGATAAGG +CGTTCACGCCGCATCTGGCAACGAACGCCTTGCCTGACATAAAAGTGCCGGAGAATATCTCCGGCATTTT +TATTCCACAGCCAAACTCATAATATATTCCGGCAATATTTATCATTTCATTAACAACTGAAACCTTAATT +AAACATTAGCCAGTCCGGGTAATTCACTATTCGAATTATATTTTCGCTGCGATATAACCTTGAGCCACAT +CAACATTGAGTCAGATTATTATTCAAACCAACATTCGCACACATTTTAAGTATTGCTGATAGAAACCATT +CTCATTATCATTGTGTTGTTGATTATTTAATCTCTCCTTTGTTGGCAAATCATCTGGTCTCATGTCGCTG +TCAAACGCCCCATGAGGTAGTTATCCAGTTAATGAGAAACAAGTAGGCACCTATGCAATACACTCCAGAT +ACTGCGTGGAAAATCACTGGCTTTTCCCGTGAAATCAGCCCGGCATATCGCCAAAAACTGCTTTCTCTTG +GCATGTTACCTGGCTCCTCTTTTAATGTGGTGCGCGTCGCTCCACTCGGCGACCCCATTCATATCGAAAC +CCGTCGTGTGAGCCTGGTATTACGCAAAAAAGATCTGGCCTTATTAGAAGTGGAAGCGGTTTCCTGTTAA +TACGGTGATAACAACAATGAAAAAATTAACCATTGGCTTAATTGGTAATCCAAATTCTGGCAAGACAACG +TTATTTAACCAGCTCACTGGCTCACGTCAGCGTGTAGGTAACTGGGCTGGCGTTACCGTCGAACGTAAAG +AAGGGCAATTCTCCACCACCGATCATCAGGTCACGCTGGTGGACCTGCCCGGCACCTATTCTCTGACCAC +CATCTCATCGCAGACCTCGCTCGATGAGCAAATCGCCTGTCACTACATTTTGAGTGGCGACGCCGACCTG +CTGATTAACGTGGTGGATGCGTCTAACCTTGAGCGTAACCTGTACCTGACGCTACAACTGCTGGAACTCG +GCATTCCCTGCATTGTGGCACTGAACATGCTCGACATTGCCGAGAAGCAAAATATTCGTATTGAAATTGA +TGCTCTGTCGGCGCGTCTGGGCTGTCCGGTGATCCCGCTGGTTTCAACCCGTGGTCGCGGTATTGAAGCG +CTCAAGCTGGCGATTGATCGCTATAAAGCTAACGAGAATGTGGAACTGGTGCATTACGCACAGCCGCTGC +TCAACGAAGCAGATTCACTGGCAAAAGTGATGCCTTCCGACATCCCGCTGAAACAACGTCGCTGGCTGGG +CCTGCAAATGCTGGAAGGCGATATCTACAGCCGCGCCTACGCCGGTGAAGCGTCGCAGCATCTGGATGCC +GCCCTCGCCCGTCTGCGTAATGAGATGGACGATCCGGCGCTGCACATTGCCGATGCGCGTTACCAGTGCA +TTGCTGCCATCTGTGATGTGGTAAGCAACACCCTGACGGCAGAACCCAGCCGTTTCACCACTGCGGTAGA +TAAAATCGTGCTCAACCGTTTCCTCGGTCTGCCGATTTTCCTCTTTGTGATGTACCTGATGTTCCTGCTG +GCTATCAACATCGGCGGGGCGTTACAGCCGCTGTTTGACGTCGGCTCCGTGGCGCTATTTGTGCATGGTA +TTCAATGGATTGGCTACACGCTCCACTTCCCGGACTGGCTGACTATCTTCCTCGCCCAGGGCCTGGGTGG +CGGCATTAACACCGTGCTGCCACTGGTGCCGCAGATTGGCATGATGTACCTGTTCCTCTCCTTCCTTGAG +GACTCCGGGTATATGGCGCGTGCGGCGTTTGTGATGGACCGTCTGATGCAGGCGCTGGGCTTGCCGGGGA +AATCCTTTGTGCCGCTGATCGTCGGTTTCGGTTGTAACGTACCGTCGGTAATGGGTGCACGTACGCTTGA +TGCACCGCGTGAACGTCTGATGACCATCATGATGGCACCGTTTATGTCCTGCGGCGCGCGTCTGGCTATC +TTCGCAGTATTCGCGGCTGCCTTCTTCGGGCAGAACGGTGCGCTGGCGGTCTTCTCGCTGTATATGCTGG +GTATTGTGATGGCGGTGCTGACTGGCCTGATGCTCAAGTACACCATCATGCGCGGTGAAGCGACGCCGTT +TGTCATGGAGTTGCCGGTCTATCATGTACCACACGTTAAAAGCCTGATTATCCAGACCTGGCAGCGTCTG +AAAGGCTTCGTTCTGCGTGCTGGTAAAGTGATCATCATCGTCAGCATTTTCCTGAGCGCTTTCAACAGCT +TCTCGCTGAGCGGGAAAATCGTCGATAACATCAACGACTCGGCGCTGGCGTCCGTCAGCCGGGTGATCAC +CCCGGTCTTCAAGCCAATTGGCGTGCATGAAGATAACTGGCAGGCAACGGTTGGCCTGTTTACAGGTGCC +ATGGCGAAAGAAGTGGTAGTGGGTACGCTCAACACCCTCTACACCGCAGAAAATATTCAGGACGAAGAGT +TCAATCCGGCAGAATTTAACCTCGGTGAAGAGCTGTTCAGTGCGATAGATGAAACCTGGCAGAGCCTGAA +AGACACCTTCAGCCTTAGCGTACTGATGAACCCCATTGAAGCCAGCAAAGGCGACGGCGAAATGGGTACC +GGGGCGATGGGCGTGATGGATCAGAAATTCGGTAGCGCAGCAGCAGCTTACAGCTACCTGATTTTCGTCC +TGCTGTATGTACCATGTATCTCGGTGATGGGGGCTATCGCCCGTGAATCAAGCCGTGGCTGGATGGGCTT +CTCCATCCTGTGGGGGCTGAATATCGCTTACTCACTGGCAACATTGTTCTATCAGGTCGCCAGCTACAGT +CAGCATCCAACTTACAGCCTGGTGTGCATTCTGGCGGTTATCCTGTTTAACATCGTGGTTATCGGTCTGC +TGCGCCGCGCGCGTAGCCGGGTGGATATCGAACTGCTGGCAACCCGCAAGTCGGTAAGCAGTTGCTGCGC +AGCCAGCACCACCGGTGATTGCCATTAATGGCTTCACTTATTCAGGTGCGCGATTTGCTGGCGTTACGGG +GCCGTATGGAAGCGGCCCAGATAAGCCAGACATTGAACACTCCACAGCCAATGATTAACGCCATGCTGCA +ACAACTGGAAAGTATGGGCAAAGCCGTGCGGATTCAGGAAGAACCTGACGGCTGCCTCTCTGGCAGTTGT +AAAAGCTGCCCGGAAGGAAAAGCCTGTCTGCGCGAGTGGTGGGCGCTGCGTTAACCTTACTCCATCGCCT +GTTTTGGAAAGCCCGGTATGCGTCTGCATCCGGGCTTTTTTGCGTGCGGCTTTCCATAAAAATGCAACTC +TTGCAGCACGGCGTAAGTTCCTTTGAAAGCATCTCGCAGGGATGAAAACTCGCTAATACACAGGTGTGGA +GTGGCGCGTAGAGTCGCGGCATTCAAACAACAGGTGAAGGAACGCCATGAGCAAAAAGCAGAGTTCCACC +CCACACGATGCGCTGTTCAAACTCTTTTTACGCCAACCGGACACGGCTCGTGATTTTCTTGCGTTTCATT +TACCGGCACCCATTCACGCGCTTTGTGATATGAAAACCCTCAAGCTGGAGTCGAGCAGCTTTATTGATGA +CGATCTGCGTGAAAGCTATTCCGATGTGCTGTGGTCGGTGAAAACGGAACAAGGACCAGGATACATCTAT +TGTCTGATTGAACATCAAAGCACCTCAAACAAACTGATCGCATTTCGCATGATGCGTTACGCTATTGCCG +CAATGCAAAATCACCTTGATGCTGGATACAAAACGTTGCCGATGGTGGTGCCATTGTTGTTTTACCACGG +TATTGAAAGCCCCTATCCCTATTCGCTGTGTTGGCTGGATTGTTTCGCCGATCCCAAACTGGCAAGGCAG +CTTTATGCCTCCGCATTTCCGCTGATTGATGTCACCGTCATGCCTGATGATGAAATCATGCAGCACCGAC +GTATGGCGCTGCTGGAGTTAATTCAAAAACATATTCGTCAACGCGACCTGATGGGGCTGGTAGAGCAAAT +GGCCTGCTTATTAAGTAGTGGATACGCTAATGACAGACAAATCAAAGGGCTGTTTAATTACATACTGCAA +ACTGGCGACGCTGTACGTTTTAACGATTTTATCGACGGCGTTGCCGAACGTTCACCGAAACACAAGGAGA +GTTTAATGACTATTGCGGAAAGATTGCGGCAGGAGGGGGAACAATCCAAAGCCCTGCATATAGCCAAAAT +AATGCTTGAATCCGGAGTTCCTCTTGCAGACATCATGCGCTTTACCGGGCTGTCAGAAGAAGAGTTGGCT +GCGGCGAGTCAGTAAAGTTCTGTCTCGCCATTTCAAAAGCCACCTACACCCTCTGCTTCAACGCCACCAG +CAGGTGACAAAACTCGGCCGGATGCGAAATAAATGGCGCATGGGCCGCTTTGGCGAAGATATATGATTCG +CTGTGAGGCCAAAGTTTATCCAGCATCGGCACCACTTTGCGCGGCACCAGACCGTCGAGATAGCCATACA +ATCGCAAAAACGGCATGGACACGTTTTGCAGCGGCTGACGGAGATCGACCGTTTTCAGGATTTCCAGCCC +GCCATTAAGCACGTCAACCTCCGGCATCGGTAACGCCAGAACGGTTTTCTTCAACGCCCGCGCATCCTGG +CGCGCCGTTTCAGTCCCCATGGTTTGTAACGCCAGGAACCGCTCCACTGTACGCTGAAAATCATCACTGA +GTTGCTGCTGAAATCCCGCCAGCACGTCCGGTTTTATCCCCGGCCACTCGTCACGAGCACTAAAACAAGG +TGACGACGCCACGGTGACCAGCGCCTGAACACGCTCGGGATGGGTTAACGCAATCTGGCTTGCCACCAGC +CCGCCCAGACTCCAGCCTAACCAAATGGCTTTATCAGGTGCCTGTTGCAGCACGGCTTCGGCCATATCAG +CAAGTGACAGCGCACCAAATCCCCGGCTACGCCCGAAGCCGGGCAGGTCAACAAGGTGCAGCGTAAAATG +CGAGCTAAGTTCCTCGTCAATGCAACGCCACACTTCGGCATTCAGTCCCCATCCGTGCAGCAGCACAAGA +TGAACATTCCCCTGACCTTTGGTCTGCCACCAGATGTTATTCATCCGCTATTGTTCTCTTTTGACTTACA +AGGATGAACATATGCTAACAGTACCGGGATTATGCTGGCTATGCCGAATGCCACTGGCGTTAGGTCATTG +GGGGATTTGTTCGGTCTGTTCACGCGCCACCCGCACAGATAAAACGTTATGCCCACAATGTGGATTACCC +GCCACACACTCCCATCTTCCCTGCGGTCGCTGCCTGCAAAAACCGCCGCCCTGGCAAAGACTGGTCACGG +TTGCCGACTATGCGCCGCCGTTAAGTCCGCTTATCCACCAGCTTAAATTTTCCCGGCGCAGTGAAATCGC +CAGCGCCCTGTCACGTCTGTTACTATTGGAAGTCTTACACGCTCGTCGCACCACCGGGTTGCAATTGCCG +GATCGCATCGTCAGCGTTCCGTTATGGCAGCGGCGTCACTGGCGTCGGGGATTTAATCAGAGCGATTTGC +TGTGTCAGCCGTTATCACGCTGGTTGCACTGCCAATGGGATAGCGAAGCCGTCACACGTACACGGGCCAC +TGCGACCCAGCATTTTCTCAGTGCCCGGCTGCGCAAGCGCAACCTGAAAAATGCCTTTCGTCTTGAATTG +CCCGTGCAAGGTCGCCATATGGTGATTGTGGATGATGTCGTTACCACCGGAAGTACCGTCGCAGAGATTG +CGCAGTTGCTTTTACGCAATGGTGCGGCGGCTGTCCAGGTCTGGTGCCTTTGTCGAACCTTGTAGAGCCT +CGATGATGGGCGTATTATAACCAACTAAAATAGTCAACTATTAGGCCATTACTATGATCCGTATTTCCGA +TGCTGCACAAGCGCACTTTGCCAAACTGCTGGCAAATCAGGAAGAAGGGACACAAATCCGCGTATTTGTG +ATTAACCCTGGCACGCCTAACGCTGAATGTGGCGTTTCTTATTGTCCGCCGGACGCTGTGGAAGCCACCG +ACACAGCCCTGAAATTTGACCTGCTGACCGCGTATGTTGATGAGTTAAGCGCACCATACCTGGAAGATGC +AGAGATCGATTTTGTTACCGACCAGTTGGGTTCCCAGTTAACGCTGAAAGCCCCGAACGCCAAAATGCGT +AAAGTGGCAGACGATGCACCGCTGATGGAGCGCGTGGAGTATATGCTGCAGTCGCAGATCAACCCACAGC +TTGCTGGTCACGGTGGTCGCGTTTCGCTGATGGAAATCACCGAAGACGGTTACGCCATTCTGCAATTTGG +CGGCGGCTGTAACGGTTGTTCCATGGTCGATGTGACGCTGAAAGAAGGGATCGAGAAGCAGCTGCTGAAC +GAATTCCCGGAGCTGAAAGGTGTGCGCGATCTCACCGAACACCAGCGCGGCGAACACTCCTACTACTAAG +TTATCCCCTCTTTTGTAGATTGCCCGATGCGACGCTAAAGCGTCATTTCGGGCCTACGTTGAACATGTGC +CAGACGTTGGCGCAGCATTGCTTTGTCAAATCCTCGGTTCGTTTCCCCGCGATAATATGACCAACCTCTC +ATAATTTAAATTTACCCCGCTCTGGTGATTCTCAAACGCCAGATGTTACCCGTATCATTCACATGGGTAC +CAAACATACTCCTGACATCTGACTACAATAATTAGTTTTAGTGGGTATCAGTCGTGGTGCCGCAATATCT +CTGTTCCCGATTGGGATAATTAGAGTTTGTCGTCAGAAAATTGACGTTACCCATAACAAATGAAAGGCCA +GGTAAATCATGCCATTAGTCATTGTTGCTATCGGTGTAATCTTGTTGTTGCTCCTGATGATCCGCTTCAA +AATGAACGGCTTCATCGCTCTCGTCCTCGTGGCGCTTGCTGTTGGATTAATGCAAGGAATGCCGCTGGAT +AAAGTTATTGGCTCCATCAAAGCCGGTGTCGGCGGGACGCTCGGTAGCCTTGCCCTGATCATGGGTTTTG +GCGCAATGCTGGGCAAAATGCTGGCAGACTGCGGTGGCGCACAACGTATCGCCACCACGCTGATTGCCAA +ATTTGGTAAAAAACACATCCAGTGGGCGGTGGTACTGACCGGTTTTACCGTTGGTTTTGCCCTGTTCTAT +GAAGTGGGCTTTGTGCTGATGCTGCCGCTGGTGTTTACCATCGCGGCTTCTGCGAATATTCCACTGCTGT +ATGTTGGTGTACCAATGGCGGCTGCACTGTCTGTGACCCACGGCTTCCTGCCACCGCATCCGGGTCCGAC +TGCGATTGCCACCATTTTCAATGCCGATATGGGTAAAACCCTGCTGTACGGTACTATTCTGGCAATCCCG +ACCGTGATTCTCGCCGGTCCGGTTTACGCTCGCGTGTTGAAAGGTATCGATAAGCCAATTCCGGAAGGTC +TCTACAGCGCGAAAACCTTCAGCGAAGAAGAGATGCCGAGCTTTGGCGTCAGCGTCTGGACCTCTCTGGT +GCCGGTAGTACTGATGGCGATGCGTGCGATTGCCGAAATGATCCTGCCGAAAGGTCACGCTTTCCTGCCG +GTAGCGGAGTTCCTCGGTGACCCGGTAATGGCAACGCTGATTGCCGTGCTGATTGCGATGTTCACCTTTG +GTCTAAACCGTGGTCGTTCAATGGATCAGATTAACGACACGCTGGTTTCTTCCATCAAAATCATTGCGAT +GATGCTGTTGATCATCGGTGGTGGCGGTGCGTTCAAGCAGGTGCTGGTAGACAGCGGCGTGGACAAATAC +ATTGCTTCCATGATGCACGAAACCAACATTTCTCCGCTGCTGATGGCCTGGTCGATTGCTGCCGTACTGC +GTATCGCGCTGGGTTCCGCAACCGTTGCGGCAATCACTGCGGGTGGTATCGCGGCACCGCTGATTGCAAC +GACGGGTGTTAGCCCGGAGCTGATGGTTATTGCGGTTGGTTCCGGTAGTGTGATTTTCTCTCATGTGAAC +GATCCGGGCTTCTGGCTGTTCAAAGAGTACTTTAACCTGACTATCGGCGAGACCATCAAATCCTGGTCGA +TGCTGGAAACCATTATCTCGGTGTGCGGTCTGGTAGGCTGTCTGCTGCTGAATATGGTGATTTGATAACA +CTGACTGCCGGATGCGGCGTGACCGCCTTATCCGGCCTACGATTCGGGATGAATTAGTAGGCCGGATAAG +ACGCGTCAAGCATCGCATCCGGCATCAACCGCACTCTACTTCTTCTTCGCTGCAGCTCTGCGCCGTCTGT +CCAAATCCTTCAGCAACTTGTTCACGCCATCATCGGCAAACATCGACTCAAGCGTTGCGGAAAGCTTGCG +TCGCCAGTTTTTATACTGGTAACTGGTGCCAGGAATATTCACCGGTTCGGCCATATCCAGCCAGTCTTCC +GGCTGTAGTCCTAACAGAGCACTGTTACTGTCGGCAATGTAGCGCTGCAAACCACGGTTCAGCGTCGGCG +TCATCGACATCAACGATGCCTTATGCCCGGCACGTTTCGGCAGACAACCATATTTATGCAGTGCATCCAG +CAGCCCTTGCTTCGCCAGTTCGCGATCCTGATACAGACCGCGCAGTACCACTTCATCCGGATACAGCCCC +AGGGTTTTGCCCAGCGTTAGATCCCCGCACTCCCAGTAACCGCGCAGCGTTGGCAGGTCATGTGTCGCCG +CAACCGCCATCGACTGCTCCGGATACGCTTTCGGTGCACGGAACGTCTTCTCGTGGTCGTTTTCGAAATA +GAGCACTTTGTAAGAGTACACACCGCTGCTGCGCAGCTTACCGACAATCTCTACCGGTACGGTACCGAGA +TCTTCACCAATCACCATACAGCGATGACGTTTACTTTCGAGTGCCAGAATCGAGAGCAGATCATCCACCG +GATAGTGAACATACGCGCCCTGATCTGCCGTCTCGCCATACGGTATCCACCACAAACGCAGCATCGACAT +CACATGGTCAATTCGTAATGCGCCGCAGTTTTGCATATTGGCACGCAACAGCTCGATAAACGGTTCATAG +GCACGCGCGGTGATGATATGCGGGTCCATTGGCGGTAATCCCCAGTTCTGCCCCAACGGGCCGAGGATAT +CCGGCGGCGCGCCAACCGATGCTTTCAGGCAATATAGTTCACGGTCACACCAGGTTTCCGCCCCACCTTC +CGCTACGCCAACCGCCAGATCACGATACAAGCCAATCGGCATTTCATAGCCCTGGCTTATCTCCCAGCAG +GCGGCAAACTGGCTGTAAGCCAGCCACTGCAACCAGAGATAAAAATCGACGTCATCACGATGTTCTTCGC +AGAACTGACGCACTTCTGGTGAATCCACGTTCTGATACATCTCTGGCCATGCAGGCCAGCCCCAGCGCAT +TTCGTCCTCTTTCACTTGCTGGGCATGTAGCGCATCAAAGGCTGCCTGCCAGAACAGGCTGTCGCCCTGC +TCTGCAACAAACTGGCGAAACGCGGCCATCTGCTCATCATCACGTTGCGCGAAACCTTTCCACGCCATTC +GTAATGCTGTCATTTTTAGGGCGGTAACCGTGGAGTAATCGACCCAGTCGGCATCGCGCGCCTGTTGCAG +CGTCTGTTGCGTGGTCGGCAACTGCCACCAGGCCTGAGCCTCTTCGCTAAGATGGAAATCTTCAACGGCG +TTAACGTCGATATAAATCACATTCAGCCAACGGCGAGAAGACGGGCTGTATGGGCTGGCGCTCTCCGGAT +TTGCCGGATAGAGCGCATGAATCGGGTTCAGGCCAATGAACGACCCGCCACGTTTTGCCACATCCACCAG +CATCGCTTTGAGATCGCCAAAATCCCCAATACCCCAGTTTTTTTCCGATCGCAGCGTATAAAGCTGAACG +CAGGCACCCCACAGCTTTTGTTTATTCAGCAACGCCTGCGGTTCGTAACAGCGTTTCGGGGCGACAATCA +CCCGGCAATGCGCGCGCTGGTCGTCCTGGGTGAGTGTCAGCGTGTGATAACCTTCCGGCAGCTTCGTCGG +TAGATTGAACGCTTTGCCCCCCGTTACATGGCCTTTGTACTGCGTTCCTTCTTCGGTGGTCAGCAGCCAG +CTATATTCGCCGCTGCCCTCCACCACCATCGGCATTTTTTTGCCGCTGGTATAAACCATGACATTCGGGA +CTGGCGTTACCGCCACTTTCGTGGCGGTACGTTGATGCATCGCGTCAAGCAAACGCCGTTTGGTTTCGGC +GCTAATCGACTGCGGTTTACCGTGGGCATTGATGTAATTGGGGCTAATCCCCGCCGCCAGCGCGGCATTA +TCCAGACGTTTGCTTTCCATCGAGCTTCCTTAGCGTTTTGCCTGCCAGATACGAGCCTGATAATCGCGAA +TAGAGCGATCCGAGCTAAACATACCGCAGCGGGCGGTATTGAGGATCGCCGCGCGAGTCCAGGCCTCCTG +GTCGCGGTACAGCACATCCACCTGCTTTTGTGCCTCTACATAGGCTGCGAAATCCGCCATCACCAGATAC +GGATCGCCGCCCTGTTTGCCGATACTGTGCAGCATCTGGTCGAAGGCATGCTTATCGCCGTCGCTGTATT +TACCGCTTTCCAGCTCTTTCAATACTGCGTCCAGCACCTTATCTTTCTTCCGCCATTTCACCGGGTCGTA +GCCTTTGGCCAGAATTGCCTTCACTTGTTCCACGGTATGACCAAAAATAAAGATATTTTCTTCACCGACT +TTCTCGGCGATTTCAACGTTCGCCCCATCCAGCGTACCGACAGTAAGCGCACCATTGAGCGCCAGTTTCA +TATTGCCGGTACCGGAAGCTTCTTTACCTGCAGTCGAAATTTGTTCGGAGATATCCGCCGCCGGGATCAG +TTTTTCCGCCGCCGAAACGCAATAATCCGGCAGGAACACCACCTTCAACTTATCGCCAACCAGCGGATCG +TTGTTGATCACGTCAGCCACTTTGTTGATCGCAAAGATAATATTCTTCGCCAGGTAGTAGCCCGGTGCCG +CTTTCGCGCCGAAGAGGAAGACGCGCGGTACGCGATCAGCCTGCGGGTTTTCACGAATTTCTTTGTACAA +CGCCAGAATATGCAGCAGATTCAGGTGCTGGCGTTTGTACTCATGCAAACGTTTGATCTGAATATCGAAA +ATCGCCTGTGGATTGATCTCAATACCGGTACGAACTTTCACAAACTCCGCCAGACGGACTTTATTCGCCT +GCTTGATCTCGCGATATTGCTGACGGAATTTCGCATCATCAGCGAATTTTTCCAGATTGATCAGCTGATC +GAGATCGTTAGCCCACTCTTTTTGCAGTGATTTATCCAACAGAGCCGCCAGTGCCGGGTTGCACTGTTTG +ATCCAGCGACGTGGGGTAATACCGTTGGTGACGTTATGGAATTTGTTCGGCCATAGCTGGTGATATTCCG +GGAACAGATCTTTCACCACCAGATCCGAGTGCAGCGCCGCAACACCGTTCACCGCGAAACCGCCAACCAC +ACACAGGTTCGCCATATGCACTTGTTTGTCGTGCACCACCGCCAGTTTGGCCCACACTTTTTCATCGCCC +GGCCAGGTTTTCTCTACCAGCGTTTTAAAGCGAGTATTAATTTCGTTAATAATCTGCATGTGGCGCGGCA +GTAAGCCTTTCACCAGTTTCACATCCCAGCGTTCCAGCGCTTCTGGCATCAGGGTATGGTTGGTGTAAGC +GAAAGTTTTGCTGGTAATGGCCCAGGCGTCATCCCAGCTCATCTGGTGCTCATCGATCAGCACGCGCAGC +AGTTCTGGAATCGCGATAGTTGGGTGGGTATCGTTCAGCTGAATAACTTCGTAATCCGCCAGTTCGTGCA +GTTTACGCCCCGCCAGATGATGGCGACGCAAAATATCCGCTACCGAACAGGCACACTGGAAGTATTGCTG +CATCAGGCGCAGCTTTTTACCGGCAGTATGGTTGTCGTTTGGATAGAGAACTTTGGTCAGTTTTTCCGCA +TTGATGCCCTGCTGTTCGGCACGCAAGAAATCACCGTCGTTAAATTTAGTCAGATCAAACGGATGCGCGT +GCGTCGCCTGCCACAGACGCAGCGGCTGCGCCACGCCATTACGATAGCCGACAACGGGGAGATCCCACGC +TTGACCGGTAATGGTAAACTCCGGCTCCCAGCGTCCGTCTTTCGTCACTTTACCGCCAATCCCTACCTGC +ACATCCAGTGCTTCGTTGTGGCGGAACCACGGGTAGTTACTGCGATGCCAGTCATCCGGCGCTTCAACCT +GTTTGCCATCGACAAAAGACTGGCGGAACAAACCATATTGATAGTTCAGACCGTAACCCGTCGCAGACTG +ACCGACAGTTGCCATTGAGTCGAGGAAGCACGCCGCCAGACGTCCCAGACCACCGTTACCCAGCGCCGGG +TCGATCTCTTCTTCCAGCAGGTCCGTCAGATTGATGTCATAAGCCTTCAACGAATCCTGTACATCCTGAT +ACCAGCCGAGATTCAACAGGTTGTTGCCCGTCAGGCGACCAATCAAAAACTCCATTGAGATGTAGTTAAC +ATGTCGCTGATTCGCCACCGGCTTGGCGAATGGCTGAGCACGCAGCATTTCGGCCAGTGCTTCACTCACT +GCTAGCCACCACTGGCGAGGAGTCATTTCAGCCGCAGAATTTAAGCCATAACGCTGCCACTGACGTGAAA +GCGCTTCCTGAAATTGCTTATCGTTAAAAATAGGTTGTGACATAGGAGTTCCACTTTTCTTAGATTTTCA +ACACAACGTTATCGCTAGTTTGCCAGGCTCGATGTTGACCTTCCTCATCCTGCGGGGGATTAGGCAGGGA +GGAGTTGCGGGGATGAGCAAGGAAATGTGATCTCAACCACTTAAAGCTAGTGCAAACCACAGGATTAGCA +TCAAATCAATGCAATACAGCGCAGAAAATCTGTATCTAAGTGCAAAAAATGGCCGTTGCGTATTTTCAAA +AAGCGGAAGGTAACTCTATAAATTAAGTAAAGGAGTGAAACAGTTTCATAAGTAAAATATCCAGTGTGCT +CCATCTCATTCTTAATAGATTTATTAAGATCATCTTTTTAGATGGCACTTTCATCAGGAATGAAGAAGAA +ACCCTTGCTTAAATGAATCTGATGAACATAAGGGAAACCAGTATTCACGCTGGATCAGCGTCGTTTTAGG +TGAGTTGTTAATAAAGATTTGGAATTGTGACACAGTGCAAATTCAGACACATAAAAAAACGTCATCGCTT +GCATTAGAAAGGTTTCTGGCCGACCTTATAACCATTAATTACGAAGCGCAAAAAAAATAATATTTCCTCA +TTTTCCACAGTGAAGTGATTAACTATGCTGATTCCGTCAAAACTAAGTCGTCCGGTTCGACTCGACCATA +CCGTGGTTCGTGAGCGCCTGCTGGCTAAACTTTCCGGCGCGAACAACTTCCGGCTGGCGCTGATCACGAG +TCCTGCGGGCTACGGAAAGACCACCCTCATTTCCCAGTGGGCGGCAGGCAAAAACGATATCGGCTGGTAC +TCGCTGGATGAAGGTGATAACCAGCAAGAGCGTTTCGCCAGCTATCTCATTGCCGCCGTGCAGCAGGCAA +CCAACGGTCACTGTGCGATATGTGAGACGATGGCGCAAAAACGGCAATATGCCAGCCTGACGTCACTCTT +CGCCCAGCTTTTCATTGAGCTGGCGGAATGGCATAGCCCACTTTATCTGGTCATCGATGACTATCATCTG +ATCACTAATCCAGTGATCCACGAGTCAATGCGCTTCTTTATTCGCCATCAACCAGAAAATCTCACCCTGG +TGGTGTTGTCACGCAACCTTCCGCAACTGGGCATTGCCAATCTGCGTGTTCGTGATCAACTGCTGGAAAT +TGGCAGTCAGCAACTGGCATTTACCCATCAGGAAGCGAAGCAGTTTTTTGATTGCCGTCTGTCATCGCCG +ATTGAAGCCGCAGAAAGCAGTCGGATTTGCGATGACGTTTCCGGTTGGGCGACGGCACTACAGCTAATCG +CCCTCTCCGCCCGGCAGAATACCCACTCAGCCCATAAGTCGGCACGCCGCCTGGCGGGAATCAATGCCAG +CCATCTTTCGGATTATCTGGTCGATGAGGTTTTGGATAACGTCGATCTCGCAACGCGCCATTTTCTGTTG +AAAAGCGCCATTTTGCGCTCAATGAACGATGCCCTCATCACCCGTGTGACCGGCGAAGAAAACGGGCAAA +TGCGCCTCGAAGAGATTGAGCGTCAGGGGCTGTTTTTACAGCGGATGGATGATACCGGCGAGTGGTTCTG +CTATCACCCGCTGTTTGGTAACTTCCTGCGCCAGCGCTGCCAGTGGGAACTGGCGGCGGAGCTGCCGGAA +ATCCACCGTGCCGCCGCAGAAAGCTGGATGGCCCAGGGATTTCCCAGCGAAGCAATTCATCATGCGCTGG +CGGCAGGCGATGCGCTGATGCTGCGCGATATTCTGCTTAATCACGCCTGGAGTCTGTTCAACCATAGCGA +ACTGTCGCTGCTGGAAGAGTCGCTTAAGGCCCTGCCGTGGGACAGCTTGCTGGAAAATCCGCAGTTGGTG +TTATTGCAGGCGTGGCTGATGCAAAGCCAACATCGCTACGGCGAAGTTAACACCCTGCTAGCCCGTGCTG +AACATGAAATCAAGGACATCAGAGAAGACACCATGCACGCAGAATTTAACGCTCTGCGCGCCCAGGTGGC +GATTAACGATGGTAATCCGGATGAAGCGGAACGGCTGGCAAAACTGGCACTGGAAGAGCTGCCGCCGGGC +TGGTTCTATAGCCGCATTGTGGCAACCTCGGTGCTGGGTGAAGTGCTGCACTGCAAAGGCGAATTGACCC +GCTCACTGGCGCTAATGCAGCAAACCGAACAGATGGCACGCCAGCACGATGTCTGGCACTACGCTTTGTG +GAGTTTAATCCAGCAAAGTGAAATTCTGTTTGCCCAAGGGTTCCTGCAAACCGCGTGGGAAACGCAGGAA +AAAGCATTCCAGCTGATCAACGAGCAGCATCTGGAACAGCTGCCAATGCATGAGTTTCTGGTGCGCATTC +GTGCGCAGCTGTTATGGGCCTGGGCGCGGCTGGATGAAGCCGAAGCGTCGGCGCGTAGCGGGATTGAAGT +CTTGTCGTCTTATCAGCCACAGCAACAGCTTCAGTGCCTGGCAATGTTGATTCAATGCTCGCTGGCCCGT +GGTGATTTAGATAACGCCCGTAGCCAGCTGAACCGTCTGGAAAACCTGCTGGGGAATGGCAAATATCACA +GCGACTGGATCTCTAACGCCAACAAAGTCCGGGTGATTTACTGGCAAATGACCGGCGATAAAGCCGCCGC +TGCCAACTGGTTGCGTCATACGGCTAAACCAGAGTTTGCGAACAACCACTTCCTGCAAGGTCAATGGCGC +AACATTGCCCGTGCACAAATCTTGCTGGGCGAGTTTGAACCGGCAGAAATTGTTCTCGAAGAACTCAATG +AAAATGCCCGGAGTCTGCGGTTGATGAGCGATCTCAACCGTAACCTGTTGCTGCTTAATCAACTGTACTG +GCAGGCCGGACGTAAAAGTGACGCCCAGCGCGTGTTGCTGGACGCATTAAAACTGGCGAATCGCACCGGA +TTTATCAGCCATTTTGTCATCGAAGGCGAAGCGATGGCGCAACAACTGCGTCAGCTGATTCAGCTTAATA +CGCTGCCGGAACTGGAACAGCATCGCGCGCAGCGTATTCTGCGAGAAATCAATCAACATCATCGGCATAA +ATTCGCCCATTTCGATGAGAATTTCGTTGAACGTCTGCTAAATCATCCTGAAGTACCTGAACTGATCCGC +ACCAGCCCGCTGACGCAACGTGAATGGCAGGTACTGGGGCTGATCTACTCTGGTTACAGCAATGAGCAAA +TTGCCGGAGAACTGGAAGTCGCGGCAACCACCATCAAAACGCATATCCGCAATCTGTATCAGAAACTCGG +CGTGGCCCATCGCCAGGATGCGGTACAACACGCCCAGCAATTGCTGAAGATGATGGGGTACGGCGTGTAA +GTTTAGCCGGATAACGCGCCAGATCCGGCTTACATCTCTGCATCATTCAATGCTCACCCGCGTTACGCCA +TCTGTTTCTATCAAACTAAACCGCACCGGCAAGAAACGCTCCACCACCGCGATATTGGTCAGCAGATGGC +ATGAGGGATGGGCGACCGTAAATTCCCCCGCGCCCGCCAGCGCCATCGGTAGCACCAGTTGGTCAGCAAG +ATATTCCCCCACCGCCGCCGTGCTTGCCAGGTAGCGTTTCACCTCTTTCACCAACTGTGCCGCAACCACC +TCGGCACTGACGCGCTTTTCACCGACGACAAAAAAGCGTTCGGTGATATTTTCACTTTCGACTTCAAGCG +AGACGGTATTACCCGGCCCCTGGTCGCGCGGCAGGTTATGAATATTCTGTTCATGCAGGGAAAAACTCCC +CGCCAGTGTAGCGATTTCACGCTCAGCAACATGGCGCGGCACACCAGCTAATAGAACTTCTCCACGCATC +TGCACAATGTTCCCGCGCTCGCCAAGTTGCAAGGTGTTAAACGATGCCACGGGCGAGACTTCCGTTGCCA +CCACACCGCCTCCGGCAGGGTAAAAACCGTGGCGTAACAGCGTGGTTTGCTGATGAATTCCTATTTTCGC +CAGCAGCGGCTCCAGCACCCGGCGGATAAAATCCGCAGGCGGCGCCGACGGGTTATCGGTGCCGCCGCTC +ACTTCAACACGCGAAGGTCCATCGGCAAACCACAGCGCGGGCAGCACCGTTTGCAGCACCAGCGTACAAC +TTCCGGCGCTACCGATAGCAAAGCGGTAATCGCCGCCGCGCACGGTGCCGGGCCGGAAGAGCAGACGCTG +CGACCCCAGCTCCGCGCCTTCCACGGTTGCTCCGCAAATTTCCGTCGCCGCCTTTACCGCGGTCAGATGC +TGGCGCAACAGCCCCGGTTTCGCCCGCCCGGCACGAATGCTGGTGATGGTAAATGGCTGGCCGGTTATCA +TCGACAGGCTCAGCGCCGAGCGCAGGATCTGCCCGCCACCTTCGCCCTGTGCGCCATCCAGCGCAATCAT +CCTTTTCATCATTTATCCTTTTACGCACACCACCTGACGCAGGGTATAGATAACTTCCACCAGATCGCTT +TGTGCCGCCATCACCGCATCAATATCTTTATACGCCATCGGGATTTCGTCGATCACTTCGGCATCTTTAC +GGCATTCCACATGCGCGGTGGCACGAATTTGATCTTCCACGCTGAACAGTTTTTTCGCTTTAGTTCGGCT +CATTACCCGCCCGGCACCGTGGCTGCACGAACAGAACGACTCTTCATTTCCCAGCCCACGGACGATAAAG +CTTTTTGCTCCCATCGAACCGGGAATAATTCCATATTGACCAGCACGCGCAGACACCGCGCCTTTACGCG +TCACGTAGATCTCTTCACCAAAGTGCTGTTCTTTTTGCACATAGTTGTGGTGACAGTTGATCTCTTCCAT +CGCCAGCGTTTGTGGCTGTCTGACCGTTTTCTGCGTAATGCTCTGCAATGCCGTTACCACGTTTTCCATC +ATCGCATCGCGGTTAAGGCTGGCAAAAAGCTGCGCCCAGGCCACGGCTTTCAGGTAATCATCAAAGTATT +CCGTACCTTCCATAAAGTACGCCAGATCACGCGACGGCAACGTCTCAAGCGTTTCCTGCATCTCTTTTTG +TGCCAGATCGATAAAGTAAGTCCCGATGGCGTTACCAATTCCGCGTGAACCGGAGTGCAGCATAATCCAC +ACCTGGTCCGACTCATCAAGGCAGATTTCAATAAAGTGGTTACCGGTTCCCAGCGTTCCCAGGTGTTTAT +AGTTATTGGTATTCAGGAAACGGGGATATTTTTGCGTTAACCACTGATAACCGGCTTCAAGCTCAGCCCA +TTTAGCATCGACGTTAACAGGTGGATTTTCCCAGGCACCTTTATCACGTTTACAACGGCCAGTGGTACGC +CCGTGCGGCACGGCCGTTTCAATCGCCTGACGCAGCTCTGCCAGGTTTTCAGGCAGGTCTTCCGCCGTTA +ACGCGGTACGCAGCGCGTTCATTCCACAGCCAATATCCACGCCCACCGCCGCCGGAATAATCGCCCCTTT +GGTCGGGATCACGCTACCAATGGTGGAACCTTTACCCAGGTGTACATCAGGCATTACCGCAATATGTTTG +AAAATAAACGGCATCTTCGCCGTATTAATAAGTTGCTGACGCGCATCGGCCTCTACCGGCACGCCTTTGG +TCCACATTTTTACCGGGGCATTTTCAGTGGTCAGTAATTCGTAATTCATTTTGTTTTTCTCTTTTCGTTG +TTTGCTGTCCTGATAATTGCAACCGTCGTGCCAGAAAATTAAATAAGCAGCTTAATTTTTTAATTCATTG +TTTTAAAAAAGATTATATCTTTACGTCCGTAACCGGAGATTTCCCGCAAAGCCAATTTACCGATAATGAA +ATATCGTCTTTTATAAGGATATCTAAGATGCGTAAAACAGTGGCTTTTGGCTTTGTCGGTACCGTACTGG +ATTATGCCGGGCGCGGCAGTCAGCGCTGGTCAAAATGGCGTCCGACACTCTGTTTATGCCAGCAAGAATC +GTTGGTCATCGATCGACTGGAATTGTTGCACGACGCCCGCTCGCGCTCGCTATTTGAAACGCTTAAACGC +GATATCGCCAGCGTTTCGCCAGAAACAGAAGTGGTGAGCGTTGAGATTGAACTGCATAACCCGTGGGATT +TCGAAGAGGTCTACGCCTGCCTGCATGATTTCGCCCGTGGTTACGAGTTTCAGCCAGAAAAAGAAGACTA +TTTAATTCACATCACCACCGGTACCCACGTCGCGCAGATTTGCTGGTTTCTGCTGGCAGAAGCGCGTTAC +CTGCCCGCCCGGCTGATACAATCTTCACCTCCGCGCAAAAAAGAACAGCCGCGCGGCCCAGGTGAAGTAA +CGATTATCGATCTCGATTTAAGCCGTTATAACGCCATCGCCAGCCGCTTTGCCGAGGAACGCCAGCAAAC +GCTTGATTTTCTTAAGTCCGGCATTGCCACGCGTAACCCCCACTTCAACCGCATGATTGAGCAGATCGAA +AAAGTGGCGATCAAATCCCGCGCGCCGATTCTGCTTAACGGTCCAACCGGCGCGGGCAAGTCATTTCTGG +CGCGACGCATCTTAGAGTTAAAACAGGCGCGGCATCAGTTTAGCGGCGCGTTTGTGGAAGTGAACTGCGC +CACCCTGCGCGGCGATACCGCCATGTCGACGCTGTTTGGTCATGTAAAAGGCGCGTTTACCGGGGCGCGG +GAATCTCGTGAAGGTTTATTACGCAGCGCCAACGGCGGAATGTTGTTTCTTGATGAGATTGGCGAACTGG +GCGCAGACGAACAGGCAATGCTGCTGAAAGCCATTGAAGAGAAAACCTTTTACCCGTTTGGCAGCGATCG +CCAGGTGAGCAGTGATTTTCAGCTTATCGCCGGAACGGTGCGCGATTTGCGCCAGCTGGTTGCCGAAGGC +AAATTTCGCGAAGATCTGTACGCGCGGATCAATCTCTGGACCTTCACCCTGCCGGGTCTACGCCAGCGCC +AGGAAGATATTGAACCGAACCTGGATTATGAAGTGGAGCGCCACGCCTCACTCACTGGCGACAGCGTGCG +TTTTAACACCGAAGCGCGGCGCGCCTGGTTGGCTTTTGCGACCTCTCCCCAGGCAACATGGCGCGGTAAC +TTTCGCGAACTTTCTGCCAGCGTCACGCGGATGGCCACCTTTGCCACTAGCGGACGCATCACTCTGGACG +TGGTTGAAGATGAGATAAACCGTCTGCGCTATAACTGGCAGGAGAGCCGCCCCTCCGCGCTTACGGCGTT +GCTGGGCGCAGAGGCAGAAAACATCGATCTCTTCGACCGTATGCAACTGGAACACGTTATCGCTATCTGC +CGCCAGGCAAAGTCGCTTTCCGCAGCCGGACGCCAGCTTTTTGACGTTTCGCGCCAGGGCAAAGCCAGCG +TCAATGACGCGGATCGGCTACGCAAATACCTGGCGCGTTTTGGTCTGACGTGGGAAGCCGTGCAGGATCA +GCACAGCTCCAGTTGAATATGGTGGTCCGTCAGCACCTGCATCACGCTTACTGGCGGCGGGGCGTCGGTG +TAGACGGCATCTACCATGCTGATGCTGCCCATATTGACCATCGCGTTACGGCCAAATTTCGAGTGATCGA +CAACCAGCATAACGTGGCGCGAGTTCTCAATAATGGCGCGTTTGGTGCGAACTTCGTGGTAATCGAACTC +CAGCAGCGAGCCGTCGCTATCGATGCCGCTTATCCCCAGAATGCCGAAATCAAGGCGGAACTGGGAGATA +AAATCGAGCGTCGCTTCGCCAATGATCCCGCCATCGCGGCTGCGTAATTCGCCACCGGCGAGAATGATGC +GAAAATCTTCTTTTACCATCAACGTGTTAGCAACGTTGAGATTGTTGGTGACAATGCGCAAATTGCTGTG +ATTGAGCAGTGCGTGCGCTACCGCTTCCGGCGTGGTGCCGATATCGATAAACAGCGTCGAGCCATTGGGG +ATTTGCTCCGCCACTTTGCGGGCGATGCGCTCTTTTTCTTCGGTCTGGGTGGCCTTGCGATCGTGCCACG +GCGTGTTAACCGAACTGGAAGGCAGCGCCGCACCGCCATGATGGCCAGGATCAGGTTTTGCTCCGCCAGC +TCATTGAGGTCGCGGCGAATAGTCTGCGGGCTGACGGAGAAATGCTCTACCAGCTCTTCGGTACTGACAT +AACCCTGCTGTTTAACCAGTTCGATAATACCGTTGTGACGTTGTGTTTGTTTCATTTATAAATCCCTGGA +ATTATTTTCGTTTTCGCGCATTGAGCGAATCAACAAAAGCCATCGCTAAACCCACGGCTAACCCGGCGAT +GTGTGCTCCGTTCGCCATCGACATCCCAAACAAATCAAACCATCCGGCGACAATCCAGATCAGCGCAAAG +ATAATTAACCCACGTTGCAGGTAAATGCCACTTTGCGGATCGCGTTCGCCACGTAGCCAGACGTAGCCCA +TCAGCGCATACACCACGCCAGAAAGCCCGCCAAACCACGGCCCGCTGAATTTTTGCTGCACATAGCCGCT +TAACAGGGCGCTGATAAGCGTAATGACAATTAGCTTACCGCTACCGAGGCGTTTTTCCACCGCACCGCCG +AGATACCACCACCAGAGCAGGTTAAAGAGGATATGCATCAGCGAGAAGTGCATTAACGCGTGGGTGAAGT +AACGCCAGAACTCAAATTTCAGTGTTGGATCGAATGGCCAGGCCAGCCATAACATCACTTCCTGATCGCC +GAGAATTTGCATGGCAATAAACACCACCACGCAGGCGATCATCATCACCCAGGTTACCGGACCTGCGCGT +TCACGCAAGGCGGCAAAGAAAGGATAACGGCGATAATGCAGGCCACTGCCGGTATGGCCTGCCTGCCAGC +TCGCCGCCAGATAACGCGGATCTGCCGGGTTTTCGAGAAAACGCGCCAGCTCCGCCCGTACGCGCTCGGC +CTGGGACTCATCCGCCAGCCAGACATCGCTTTGGTTATGTTGTTGAATCGTGAGGATAACACCCTGCGTC +GCCATGTAATCAACAAACGCCTGCGCCACGCGGGGGTTAGCAAAAGAGGTAATCATCAACATCGTTGCTG +TCGCTTATTCCACACAAAAGGGGACAGTATAAAGCGTTACGCGCCGTACGCCACCTCTGCGGGAAACTGA +CGTTGCCAGGCTTCAAAGCCGCCGTCAATGCTATAGACCACATCGTAGCCCTGTTGCAGCAGATACTGCG +CCGCGCCTTTGCTGCTATTGCCGTGATAACACATCACCATCACCGGAGTGTCAAAGTCGTTATCACGCAT +AAAAGCGCCCAGCGTGTCGTTGGTTAAATGGAAAGCCTGCACCGCATGTCCCATTGCGAAACTCTGTGGA +TCGCGAATATCGACCAGCACCGCCTCTTTTTCCTGCAACTTCTGGTGCGCGTCGGCAACGTTAATACATT +CGAACTGATCCATGCGTCTCTCTTTCTTTACAAACAAGTGGGCAAATTTACCGCACAGTTTACGTCGAAG +CGGCAGATAAACGCCATAATGTTATACATATCACTCTAAAATGTTTTTTCAATGTTACCTAAAGCGCGAT +TCTTTGCTAATATGTTCGATAACGAACATTTATGAGCTTTAACGAAAGTGAATGAGGGCAGCATGGAAAC +CAAAGATCTGATTGTGATAGGGGGCGGCATCAATGGTGCTGGTATCGCGGCAGACGCCGCTGGACGCGGT +TTATCCGTGCTGATGCTGGAGGCGCAGGATCTCGCTTGCGCGACCTCTTCCGCCAGTTCAAAACTCATTC +ACGGTGGCCTGCGCTACCTTGAGCACTATGAATTCCGCCTGGTCAGCGAGGCGCTGGCTGAACGTGAAGT +GCTGCTGAAAATGGCCCCGCATATCGCCTTCCCGATGCGTTTTCGCCTGCCACATCGTCCGCATCTGCGC +CCGGCGTGGATGATTCGCATTGGTCTGTTTATGTACGATCATCTGGGTAAACGCACCAGCTTGCCGGGAT +CAACTGGTTTGCGTTTTGGCGCAAATTCAGTGTTAAAACCGGAAATTAAGCGCGGATTCGAATATTCTGA +CTGTTGGGTAGACGACGCCCGTCTGGTACTCGCCAACGCCCAGATGGTGGTGCGTAAAGGCGGCGAAGTG +CTTACTCGGACTCGCGCCACCTCTGCTCGCCGCGAAAACGGCCTGTGGATTGTGGAAGCGGAAGATATCG +ATACCGGCAAAAAATATAGCTGGCAAGCGCGCGGCTTGGTTAACGCCACCGGCCCGTGGGTGAAACAGTT +CTTCGACGACGGGATGCATCTGCCTTCGCCTTATGGCATTCGCCTGATCAAAGGCAGCCATATTGTGGTG +CCGCGCGTGCATACCCAGAAGCAAGCCTACATTCTGCAAAACGAAGATAAACGTATTGTGTTCGTGATCC +CGTGGATGGACGAGTTTTCCATCATCGGCACTACCGATGTCGAGTACAAAGGCGATCCGAAAGCGGTGAA +GATTGAAGAGAGTGAAATCAATTACCTGCTGAATGTGTATAACACGCACTTTAAAAAGCAGTTAAGCCGT +GACGATATCGTCTGGACCTACTCCGGTGTGCGTCCGCTGTGTGATGATGAGTCCGACTCGCCGCAGGCTA +TTACCCGTGATTACACCCTTGATATTCATGATGAAAATGGCAAAGCACCGCTGCTGTCGGTATTCGGCGG +TAAGCTGACCACCTACCGAAAACTGGCGGAACATGCGCTGGAAAAACTAACGCCGTATTATCAGGGTATT +GGCCCGGCATGGACGAAAGAGAGTGTGCTACCGGGTGGCGCCATTGAAGGCGACCGCGACGATTATGCCG +CTCGCCTGCGCCGCCGCTATCCGTTCCTGACTGAATCGCTGGCGCGTCATTACGCTCGCACTTACGGCAG +CAACAGCGAGCTGCTGCTCGGCAATGCGGGAACGGTAAGCGATCTCGGGGAAGATTTCGGTCATGAGTTC +TACGAAGCGGAGCTGAAATACCTGGTGGATCACGAATGGGTCCGCCGCGCCGACGACGCCCTGTGGCGTC +GCACAAAACAAGGCATGTGGCTAAATGCGGATCAACAATCTCGTGTGAGTCAGTGGCTGGTGGAGTATAC +GCAGCAGAGGTTATCGCTGGCGTCGTAAATTAACGTAAGGTGATCAGGTCAGATTTCAATCTGGCCTGAG +ACTGATGACAAACACAAAACTGCCTGATGCGCTACGCTTATCAGGCCTACGTGGTTTATGCAATATATTG +AATTTGCATGGTCTTGTAGGCCAGATAAGACGTTCACGTCGCATCCGGCATGAACAAAGCGCACTTTGTC +AAAAATCTAACCTACTTTTTAATTCAGGGAATTACCGCAAAGCCCACGCCATCATACCCAACGTAACAAA +ACTCAGGCACGTTCCCCACTCGCCCCGAGAAAAATAGCATTAATGCGCCCAGCGCCAGCATAAAAATTTT +GAGCAGAAGGTAAATTGTTGGCGTGATAAGGATATTACAAACTTCAATAATACCGGCAAGTCCGACACCC +AGCATGGCAATAACCACCGCCAAAAATTGCGCCAGTATGGGGATGCCGAAAAAAGTCATTACCAGCGAGG +TCAAAATCCATTTTCTGTTTTGCATTATTCTTTCCATTCTTTTTGAATGGTGAAATTATACTCCCCGAGT +CCCCTTGCCCCTTCTGGACACTTTTCCGAAATGATGGCGGAAAAAAACGGGACCCTTTGGCCCCGTTCTA +TTTATTGGTGAACTTACAATCTCACCGGATCGATATGCCAGATATGATCGGCGTACTCTTTGATAGTACG +GTCAGAAGAGAAGTAGCCCATATTGGCAATGTTCAGCATCGCTTTTGCGGTCCACTCTTCCTGAAGCTCG +TAGAGTTCATCGACTTTATCCTGACAATCGACATAGCTGCGATAATCCGCCAGTACCTGGTAGTGATCGC +CGAAGTTGATCAGCGAATCAACCAGATCGCGATAGCGACCCGGATCTTCCGGACTGAATACACCGCTGCC +GATTTGCGTCAGCACCTGATGCAGCTCCTCATCTTTCTCGTAGTATTCACGCGGTTTGTAGCCCTGACGA +CGCAGTTCTTCCACTTCTTCCGCTGTGTTACCAAAAATAAAGATATTGTCAGCACCGACATGATCCAGCA +TCTCGACATTCGCACCGTCCAACGTACCGATAGTCAGCGCACCGTTAAGCGCAAACTTCATGTTACTGGT +GCCGGAAGCTTCCGTCCCTGCCAGCGAAATCTGTTCAGACAGATCTGCCGCCGGAATGATCAACTGCGCC +AGGCTAACGCTGTAGTTCGGGATGAACACGACTTTCAGCTTATCGCCAATCTGCGGATCGTTGTTGATCA +CTTTCGCTACGTCATTGATCAAATGAATAATGTGCTTCGCCATGTAATAGGCCGAAGCCGCCTTACCGCC +AAAAATATTCACGCGCGGTACCCACTTCGCATCCGGGTCGGCCTTGATGCGGTTATAGCGGGTAATCACA +TGCAACACATTCATCAATTGACGTTTGTATTCGTGAATACGTTTGATTTGTACATCGAACAACGCCTTTG +GATTCACCACCACATTCAGCTGCTGGGCGATATACTCTGCCAGACGCTTTTTGTTCTCCAGCTTCGCCTG +ATGCACAGCGTGATTAACCATTGGGAAATCACAGTGTTGTTGCAGCTCATTAAGCAGGCTAAGGTCGGTG +CGCCAGTTACGGCCCAGGTGTTCGTCCAGCACGGCTGAAAGCGATGGGTTCGCTACCGCCAGCCAGCGAC +GCGGCGTCACACCGTTGGTGACGTTGGTGAAACGACCCGGGAAGATTTTCGCAAAGTCGGCAAACAACGA +TTGCACCATCAGATTAGAGTGCAGTTCCGATACACCGTTAACTTTGTGGCTCACAACAACCGCCAGCCAG +GCCATACGCACACGACGACCGTTGGATTCATCAATGATCGACGCCCGTCCCAGCAGATCGGTATCGTTCG +GATACTGTTCCTGCAAGGTTTTCAGGAAATAGTCGTTGATTTCAAAGATGATCTGCAGGTGACGCGGCAG +AATTTTACCCAGCATATCAACCGGCCAGGTTTCCAGCGCCTCGCTCATCAGCGTGTGGTTAGTGTAGGAG +AAGACCTGACAACACACCTCAAACGCGTCGTCCCAGCTAAATTGGTGCTCATCGATCAGCAGACGCATCA +TCTCAGGAATCGACAGTACCGGATGGGTATCATTGAGATGAATCGCGATTTTATCCGCCAGGTTATCGTA +GGTTTTATGCAACTGATAATGGCGGCTTAAAATGTCCTGAATGGTCGAGGAAACCAGGAAGTATTCCTGA +CGCAGGCGCAGCTCACGCCCGGAGTAGGTGGAGTCATCCGGATACAGTACGCGAGATACGTTCTCGGAGT +GGTTTTTATCTTCCACTGCCGCGAAGTAGTCACCCTGGTTGAATTTACCGAGGTTAATTTCGCTACTGGC +TTGCGCACTCCACAAACGCAGCGTGTTGGTCGCGTCGGTGTCGTAACCAGGGATTATCTGATCGTAAGCG +ACTCCCAGAATCTCTTCGGTTTCAATCCAGCGCGTTTTTTTACCTTCCTGCTGAATGCGACCGCCAAAAC +GGACTTTATAGCGCGTGTTGTGGCGTTTGAATTCCCACGGGTTACCGTATTCCAGCCAGTAGTCTGGCGA +CTCTTTCTGGCTACCGTTAACGATGTTCTGCTTGAACATACCGTAGTCATAGCGGATGCCGTAACCGCGC +CCCGGCAACCCTAACGTCGCCAGAGAATCAAGGAAGCAAGCCGCCAGACGTCCCAGGCCACCGTTACCGA +GGCCTGGGTCATTTTCTTCATCAATCAGCTCTTCGAGATTTAACCCCATCGCTTCCAGTGCGCCCTGTAC +ATCTTCGTAAATTCCTAGCGACAACATGGCGTTGGAGAGCGTACGGCCAATCAAAAACTCCATCGACAGG +TAGTAAACCTGACGAGTTTCTTGCGACAACTGGGCACGGTTTGAACGTAACCAGCGCTCCACGAGACGAT +CGCGCACAGCAAATAACGTTGCGTTCAGCCATTCATGTTTATTGGCGACGACCGGGTCCTTTCCAATCGT +AAACATCAGCTTGTAAGCGATAGAGTGCTTAAGAGCTTCTACGCTAAGCGTGGGCGATGAATATGTAAAC +GGAGCATTCATATAGGCGTTTCCTGAAAACTATTTCAAGCGATAGTAAAGCTCACGGTACGACTTCGCCG +CGACCTGCCAGCTAAAATCCATTGCCATAGCCTGACGTTGCACAAACCGCCACAGTGAAGGACGGGACCA +CAGTACAAAAGCACGTCGAATAGCCCGTAACAGCGACCAGGCATTACTATCTTCAAAGACAAACCCACTG +GCGACGCCATCTGCAAGGTTCTCAAGAGAACAGTCAGAAACCGTATCAGCAAGCCCACCGGTGCGCCGCA +CTAACGGCAGCGTACCGTACTTCAATCCATAAAGTTGCGTTAAGCCGCACGGTTCAAAACGGCTGGGCAC +CAGAATGACGTCCGCGCCGCCCATAATGCGATGCGAAAATGCTTCGTGATAGCCAATCTGAACGCCCACC +TGACCGGGGTATTCCGCTGCCGCCGCAAGGAAACCTTCCTGCAGCACCGGATCGCCCGCGCCGAGTAGCG +CCAGCTGCCCGCCCTGCTCCAGAAGACCCGGTAAGGCTTCCAGCACCAGGTCGAGACCTTTCTGGCTGGT +CAGACGGCTCACCACTGCAAAAAGCGGCACTTTATCGTCAACCTTAAGCCCCATTGCGATTTGTAACTGG +CGCTTATTTTCCGCTTTATCTTCCAACGTATCGCGGGTGTAACGCGAGGCCAACAGTAAGTCCGTCTCTG +GACTCCAGATTTTCTCGTCCACGCCGTTCAGTACGCCGGAAAGACGCCCTTCACGGTGACGCTGTTGCAA +CAGACCTTCCATACCGTAGGCAAACTGCGGTTCGGTGATCTCGCGAGCGTAGGTTGGACTGACCGCCGTA +ATGTGATCGGCATAGTACAGACCGGCCTTCAGGAAAGAGATTTGTCCGTTGAATTCCAGCCCATGAATAT +TAAAGAATGACCATGGCAATTGGATGTCATTCATGTGATGTGCATAAAACATGCCTTGATAGGCCAGGTT +GTGCACAGTAAACACCGACTTCGCCGGACGCCCGCGCGCCGCCAGATACGCAGGCGCAAGGCCTGCATGC +CAGTCGTGCGCATGCACCACATCAGGACGCCAGAATGGGTCAAGCCCGCTGGCCATTTCTGCCCCAACCC +ACCCCAGCAGCGCAAAACGCAATACGTTGTCGGTATAGGCAAATAAGTTGGTATCGTGATACGGGCTTCC +CGGACGATCATAGAGATGCGGCGCGTCAATCAGGTAAATGCCAACCCCGTTGTAATGACCGAACAACAGC +GTGATATGTCCGGCGAAGGTATCACGACGGGATACTACCTGCGCATCGGTCACGCCACGGCGAATATCGG +GAAATGCAGGCAACAGTACGCGAGCGTCAACGCCGTCTGCGATTTGTGCTGCGGGTAATGCCCCAATAAC +ATCAGCCAGACCGCCGGTTTTAAGCAGCGGGAACATCTCTGAACATACATGTAAAACCTGCATTATCGCT +CCTGTTTATGCCCTAACTTCCGTAGCATTTCGCGCGTTACCAGCACGATGCCTTCTTCTGAACGATAGAA +ACGACGTGCATCTTCCTCTGCGTTTTCACCAATCACCATGCCTTCCGGAATAACACAAGCACGATCGATG +ACGCAGCGGCGCAGACGGCACGAGCGACCTACCCATACTTCCGGTAACAATACGGCGGAATCAATGTTGC +AGAATGAATTCACGCGAACGCGCGAGAACAGAACGGACTGCACCACCACCGAACCGGAGATCACACAACC +GCCGGAAACCAGTGAGTTAAGGGTCATCCCGTGGCTACCGGAGCGATCCTGCACGAATTTCGCTGGCGGT +AATGATTCATTGTAGGTGCGAATTGGCCAATTGCGATCGTACATATCCAGTTCCGGCACCACAGAGGCCA +GATCGAGGTTCGCTTTCCAGTAAGCTTCCAGCGTACCCACATCGCGCCAGTACGGCTCGGCATCCGGGTC +GGATTGTACGCAAGAGAGCGGGAACGGGTGCGCATAGGCCAGACCGGCTTCGGTGATCTTGGGAATCAAA +TCTTTGCCAAAGTCGTGGCTGGAGTTCTCATCGCGATCGTCTTCTTCCAGCAGTTCATACAGATAGTCGG +CGTCAAAGACGTAGATACCCATACTCGCCAGAGATTTGCTCGGATCGTTCGGCATTGACGGCGGGTTAGC +AGGTTTTTCAACGAATTCGATAATTTTATCGTTCTCATCAACCGCCATAACGCCAAATGCGGAGGCTTCT +TCAATCGGTACTGGCATACAAGCAACGGTGCAACGTGCGCCTTTTTCGACGTGATCGATAAGCATACGCG +AGTAGTCTTGCTTGTAGATATGGTCGCCCGCCAGGATCACCACGTATTCCGCTTTATAACGGCGGATAAT +GTCGAGGTTTTGGGTGACCGCATCTGCGGTGCCGCGATACCAGTTTTCCCCTTTCATTCTCTGCTGTGCT +GGCAGCAGATCGACAAACTCGTTCATTTCTTCATTGAAGAATGACCAGCCGCGCTGAATGTGCTGCACCA +GAGTGTGGGACTGGTACTGGGTGATCACGCCCATACGACGGATCCCGGAGTTGATGCAGTTAGACAGCGC +AAAGTCGATAATGCGGAACTTACCGCCGAAGTGTACGGCCGGTTTTGCTCGCTTATTGGTTAAATCCTTC +AGGCGGGTACCACGTCCTCCCGCCAGTATCAGGGCAACAGATTTCAATGGCAGCTGGCGCGCCAACATTA +AGTGATCGTTCTTCTCTAAACTAACCATGACTAACTCCTTTTTTATCATCTCTGGAACACACACAATCCG +TGTGCAGGTCCCTGCCAGACAGCCGTAATCACTGGGTTATCCTCTCCAGCGAATGGGGGAATGGCGTGCC +ACTCCCCAGCAGGTAAAACAATCTCTGTTACCTCAAGCGTGGCGTTAATTGCGATCAAAAAGCGATCCGA +GAGCAGAATTTGCAGCTGTTTCGGCCCGTTTTGCCACTCATCCGTGCTTAAAGGTTGAGCATATCGATTT +AGCCAACGGACATTGCCGTCGCCTTCTTCCCACCAGCGATTCTCCACCAAAGCGGGAATGCGCTTGCGCA +GATGGATTAACGCGGCGGTAAATGCGGTTAAACCACTGCTTGCCTGCGACCAGTCCAACCAGGTTAATTG +GTTATCCTGACAGTAGGCATTGTTATTGCCATGCTGGCTGTGACCATGTTCGTCACCGGCCAGTAACATC +GGCGTACCCTGGGAGAGCAACAACGTTGTTAACAGGGCGTGAATGCTGTCGCGCCGCCGTTCAACCAGGT +CAAGAGAACCGCCTAACCCTTCTTTACCATGATTGTTACTGTAATTGTTGTTGGTCCCGTCGCGATTTTC +TTCTCCGTTTGCTTCATTGTGTTTATGGTTGAAGCAAACGCAGTCGCGAAGCGTAAAACCGTCATGCGCG +GTGACGAGATTAATCGCGGCACTCGGCAGACGACCATTACGTTTAAAAACATCGCTGGAGGCAGCAAAAC +GCCCGGCAAACGCCCCCAGAGGCAAATCATAATGTAGCCAGAAACGACGGGCAGCATCGCGGAAATGATC +GTTCCACTCGGCAAACAGCGGCGGGAAATTTCCCACCTGATAACCACCAGGAGCGATATCCCACGGTTCA +GCAATTAACTTCACCTGCGAGAGCACCGGGCAGTTCTGGATAGCGGTAAACAACGGCGCATCCTGACGGA +ACTCTGGCGTACGGCCCATGACTGCCGCCAGATCAAAGCGGAAACCATCGACGTGGCAGGTTTCTACCCA +ATAACGCAGGCAGGCGCTGGCATAATCCACCACCGCCGGATGACTCAAATTGAGCGTGTTGCCGCAACCG +GTCCAGTTGTGATAATCGCCGTCTTCTCTTATCCAATAATAGCTACGGTTATCGATCCCACGCAGCGAGA +ATAACGGGCCGTCGAGGTCCAGTTCCGCACTATGGTTGAGCACGATATCAAGAATGACTTCGATACCCGC +TTTATGCAGTGCTTTGATTGCATCGCGAAACTCATCCAGCGCCGTTTCTGGCGAGCAGGCATACGCCGGA +TGCAGCGCAAACATCGCCACCGGGTTGTAACCCCAGTAGTTACTTAGCCCCATGCGTTGCAGACGTGGTT +CACTGGCAAACTGCGCCACTGGCAGCAGTTCCAGCGCGGTAATGCCCAATTGTTTCAAATAGTTGATCAT +CACCGGATGCCCGAGGGCTTTATAAGTGCCACGGATCTCGACCGGGATCTCCGGGTGCAAGTACGTTAAT +CCTTTGACATGGGCTTCATAAATGATGGTGCTGCCCCACGGCGTGCGCGGCGGGGCATCATCTTCCCAGT +CATAGTGATCAACCACCACTACGCATTTCGGCGCAATGGCGGCGTTGTCGCGATAGTCAGGTTCATTATG +ACCGGCGTGCAGCAGCGGGTTATCTTTAAACTCCCCGTCAATTTGCCGCGCGCAAGGATCAATCAACAAC +TTCGCCGGGTTAAAGCGATGCCCCTCGGCGGGTTGCCAGGGGCCATGAACGCGATAACCATAACGCAAAC +CCGGGCGCGCATCCGGCAGATAACCGTGCCAAATGTCGCCACTGTGCCCTGGCAAGTCATAGCGATGTTC +CTGGCCATTGGCGTCAAAGACACACAGTTCTACCCGCTCGGCATGAGCGGAGAAAAGTGTGAAGTTGACG +CCCTGACCGTCGTAATGCGCGCCGAGGGGAGCGGGTTTGCCAATGGCGAGTTGTGTCATTCTGCCTCCCG +AACCAGCCAGATAGTGGCCAGCGGTGGTAGCGTCAGGCTTAGTGAATGCTGACGACCGTGGCTGGCAATC +TCATCGCTGTGTACCGTGCCGCCATTGCCTGCATTACTGCCGTGATAGTGCATGGAATCGGTATTGAGGA +TTTCACGCCATTTGCCCGGCTGGTTTATGCCGAAGCGATAATCATGACGCGGTACCGGCGTAAAGTTACT +GGCAACGATGATTTCGTTACCCTCTTTATCGCGACGCACAAAGATCAGCACCGAGCGTTCTTTGTCATCC +ACCACCAGCCATTCAAAGCCGTACGGGTCAAAATCCAGTTCATGCATTGCTTTATGGTGGCGGTAGGTGA +GGTTCAGATCGCGCACCAGACGCTGGACACCGTGGTGCCAGTTATCGCCGCCTTCCAACAGATGCCAGTC +GAGGCTGGCGTCATGGTTCCACTCGCGGCCCTGGGCAAATTCGTTACCCATGAACAGTAGTTTCTTGCCC +GGGAATGCCCACATCCAGCCATAGTAGGCGCGCAGGTTCGCGAATTTCTGCCATGCGTCGCCCGGCATGC +GGTCGAGAATCGATTTTTTACCGTGGACCACTTCATCATGCGACAACGGCAGGACGAAGTTTTCAGTGTA +GTTGTAGAGAATCCCGAAGGTCAGTTTATCGTGATGATACTGACGATAAACCGGGTCGAGCTTCATGTAG +TCCAGGGTGTCATGCATCCAGCCGAGGTTCCACTTGTACCAGAAGCCCAGACCGCCCATATCCTGCGGAC +GAGAAACGCCAGGGAAATCGGTAGACTCCTCAGCCATTGTCACCGCACCGGAAACCTGCTCACCAAGAAT +ACGGTTGGTATTACGCAAGAATTCAATCGCTTCAAGATTCTCGCGCCCGCCAAATTCGTTCGGGATCCAC +TCCCCCTCTTTACGGCTGTAGTCGCGATAAATCATTGACGCCACCGCATCGACGCGCAGCGCATCAATAC +CAAAACGTTCAATCCAGTAAAGCGCGTTACCGACGAGGAAGTTACTGACTTCACGGCGACCATAGTTGTA +GATCAGCGTGTTCCAGTCCTGATGATAGCCTTCACGCGGATCGCTGTGTTCATACAAGTTCGTGCCATCA +AATTCGGCAAGCGCAAAGTCATCAGTCGGGAAGTGGCCTGGCACCCAGTCGAGAATCACGTTCAGACCAG +CTGCGTGTGCGGCATCAATGAAATAACGGAAGTCGTCGCGAGTACCAAAACGGCGGGTTGGCGCATACAG +GCCGGTTGGCTGATAACCCCAACTGCCATCGAAGGGATGCTCGTTAATGGGCAGTAGTTCGAGGTGGGTA +AAGCCCATCCATTTAGCATAAGGCACCAGTTGATCGGCCAGCTCGCGGTAGCTCAACCAGAAATTGTTGT +CGGTGTGGCGACGCCAGGAACCCAGGTGAACTTCATAAATAGAGATTGGCGCATCAAACTGATTCGCTTT +TTTGCGCTCTTCAGTCTGTACAACCTTTTCCGGCAGCCCGCAAATAAGAGACGCGGTTTCCGGGCGCATT +TGCGCTTCAAAGGCATAAGGGTCGGACTTCAGACGCAAGTTGCCATTGGCATCAATCATCTCGTATTTAT +AGAGCTGACCGTTATGCGCCCCAGGGATAAACAGTTCCCAGATGCCGCTCTCTTTACGCAGGCGCATCGG +GTGACGGCGACCGTCCCAGTAGTTGAATTGCCCAACCACCGAGACCCGACGGGCGTTTGGAGCCCAGACA +GAGAAACGCGTACCTGTGACGCCATCCATAGTATCTGCATGCGCGCCTAAGGTTTCATACGGGCGCAGGT +GAGTACCTTCAGATAATAGCCAGGCATCCATTTCCTGGATTAGCGGACCAAAACGGTAAGGATCATCAAT +CAGGTTTTGCTGACCATGCCAGACAACAGCCAACTGATAGCGGAAAAAATTCTTACGTCGCGGAATGACG +CCGCTAAAGAATCCCCGTGAGTCGAGACACTCCAGTTTTGCGAGTTTGCGCCCGGTTTTCGGTTCAATCA +CCCACACATCGGTAGCGTCGGGTAAAAGGGCACGGACTTCCAGTCCCGCGGTGGTTTTATGCATTCCCAG +TACGGAAAAAGGATCCGCAAAATGGCCTGCAATTAGCGCGTTAATCACGTCTCTATCGATACGATCGGAC +ATGCTTGTCTTCCTGTTTTATTGTGTCACCCCATCCAATTGGATTTTTGACTTCTGGTTGTGACATTTTT +TTGACCTGAACGGCGCAGCACTCTGTGCATCCTCTCTGCGTCGTCCTCACTTCAGGTAAGGCTGTGAATA +CTCATGTATTCAGCCACCCTTAAAGAATAGCCAATGCTCTATTTAACTCCCGGTAAATCATGAAACATCT +GCGCTTACTCCTGTATTACGCACTAACAGGGGCGGCATCGCGCCCCAGATTTAATGAATAAAGATTACGC +CAGTTGACGAAGCATCCGACGCAGCGGCTCCGCGGCCCCCCACAGCAGCTGGTCGCCCACGGTAAAGGCT +GACAGGAACTCTGGTCCCATATTCAGCTTACGCAGGCGGCCTACCGGCGTGGTCAGCGTGCCGGTAACGG +CAGCTGGGGTTAGCTCACGCATAGTGATTTCCCGATCGTTCGGAACGACTTTCGCCCACGGATTGTGCGC +AGCCAGCAGTTCTTCCACGGTCGGAATAGACACATCTTTTTTCAATTTAATAGTGAATGCCTGGCTGTGG +CAGCGCAATGCCCCGACACGCACACATAAACCATCTACCGGAATTACGGAAGATGTGTTGAGGATCTTGT +TGGTTTCCGCCTGCCCTTTCCACTCTTCGCGGCTCTGACCGTTATCGAGCTGTTTGTCGATCCACGGAAT +CAGGCTACCCGCCAGCGGCACGCCAAAGTTATCCACCGGCAGCTCACCGCTACGGGTTAAGGTTGTGACT +TTGCGTTCGATATCGAGAATAGCAGAGGACGGGGTCGCGAGTTCATCTGCCACATGGCCATACAGATGGC +CCATCTGGGTTAATAACTCACGCATATGTCGCGCACCACCGCCGGAAGCGGCCTGGTAGGTTGCAACGGA +CACCCAATCAACAAGATCATTGGCGAATAAACCACCCAACGACATCAACATCAGGCTTACGGTACAGTTA +CCGCCAACAAAAGTCCTGATGCCATTATTTAATCCGTCGGTAATGACGTCCTGATTGACGGGGTCAAGAA +TGATGATGGCGTCATCTTTCATGCGCAGAGACGATGCTGCGTCAATCCAGTAACCTTGCCATCCGCTTTC +ACGAAGCTTTGGATAGATTTCGTTGGTATAATCGCCGCCCTGACAGGTCACAATGATATCGAGGGCCTTT +AGCGCCTCCAGATCAAAGGCATCCTGAAGTGTGCCAGTGGTTCCGCCAAAAGACGGCGCAGCCTGGCCAA +GCTGAGAAGTAGAAAAGAAGACAGGGCGAATGGCGTCGAAGTCGCGCTCTTCAACCATGCGTTGCATGAG +AACGGAGCCGACCATACCGCGCCAGCCGATAAAACCAACATTTTTCATAAGCGTTTTTTTCCTGCAAAGA +TGTGTGCTGTATAAATGTGCCGGTCTCCTCTTGGCACATCTTTCACCATACAAAAAGCAGCCAAAGTCGC +AAGTGAAATTAATCAATGATAGCGAAGCCATCAGTAATGCGACTTATCCTGCTTTGTTAGCACGCAGAAA +GTCCGCGGCAATTATCAGGGAATTTGAGTTATGAATGAAATCATTTCTGCAGCAGTTTTATTGATCCTGA +TTATGGATCCGCTCGGAAACCTACCTATTTTCATGTCCGTACTGAAACATACTGAACCGAAAAGACGGCG +GGCAATCATGGTGCGAGAGTTGCTTATTGCTCTCCTGGTGATGCTGGTGTTCCTGTTTGCGGGTGAGAAA +ATTCTGGCATTTCTTAGCCTACGAGCAGAAACCGTCTCCATTTCTGGCGGCATCATTCTGTTTCTGATCG +CCATTAAAATGATTTTCCCCAGCGCTTCAGGAAATAGCAGCGGGCTTCCGGCAGGTGAAGAGCCATTTAT +CGTGCCGTTGGCAATTCCGTTAGTCGCCGGGCCGACTATTCTCGCCACGCTGATGTTGTTGTCTCATCAG +TACCCGAATCAGATGGGGCATCTGGTGATTGCTCTGCTGCTGGCCTGGGGCGGCACCTTTGTCATCCTGC +TACAGTCTTCGCTATTTTTACGTCTGCTGGGCGAGAAAGGGGTGAACGCACTTGAACGCCTGATGGGATT +GATTCTGGTGATGATGGCAACCCAGATGTTCCTCGACGGCATTCGAATGTGGATGAAGGGGTAACGAGGA +GAGTTTTTCGAAAAGAACCCGGTAGCGTCACAACTACCGGGCGAACAAACTTAACTCAACAGCTGGAACG +CAATCATCCCAACGATGGCACCGACAGTGCCGAGGATGGTTTCCATCATGGTCCAGGTTTTCAGCGTTTC +GGCTTCGGTCGCGCCGGTAAATTTACCGAACAACCAGAAACCGGCGTCGTTAACGTGGCTGACAACAATC +GAACCACCAGCGATACAAATCGACAGCGCCGCCATTTGCGCACCGGAGTAGTTCAGTTGTTCAATAACCG +GCATCACCAGTCCTACCGCCGTTAAACAGGCTACGGTGGCAGAACCCTGAATGATGCGCACTGCAGCTGC +CAGCACGAAGCAGGTGATAGCAATCGGCAGGCCCATGCCGGTTAACGCTTCGCCCAGTGCCGGACCTACG +CCAGAGTCAACCAGCACCTGTTTGAACACGCCGCCCGCACCAATCACCAGCAGAATGATCCCCGCCGGTT +GCAGCGCGTGACCGCAAATCTCCATCACTTTGTCTTTTGGCATGCCCTGACGCATTGCCAGACCGTAAAT +CGCCACCAGACAAGCAACCAGAATCGCGGTAAACGGATGACCGATAAACTCAAACCATTCGTAAGCAGTT +GATCCTTCCGGCACAAAACGCGCGGCAATGGTTTTCAGCCCTACCAGCACCAGCGGCAGCAGGATCAGCG +ACAGGCTGAATCCGAAAGATGGCATTTTGCCTTCGCCGAGATGCGGTTCGCTGATGTCGTCAGGAATATG +CAGCTCAACGTAACGGCTGATGAAGTTACCCCACAGCGGCCCGGCAATAATCATTCCCGGAATTGCCGCA +CACAGGCCAATCAGGATCATCCAGCCAAAGTCGGCATTCATCTGCGATGCCAGCAGCATCGGCGCTGGTC +CAGGCACCAGAAATGCCGCCGCTGCCGCCACGCCTGCAAATAATGGGATTACCAGCTTCACCAGGTTCGT +ACCGGTGTGGCGCGCCATTGAGAAAGCAACGCTAATCAGCAGAACTATCGCCACTTCAAAGAACAGCGGT +AGCGCACAGACCAGCCCCGCAAGGCCGATGGCATAATGCGCGCGGCTGTGACCGAAGGATTTGAGCATTT +TGACGGCAATCTGATCGACTGCGCCGGTTTCATGTAAGATCTTGCCAAACATAGCTCCCAGGGCGACAAC +CACCGCCAGGAAGCCGAGGGTGCCTCCCATCCCTTTTTCCATCGTCGCTGCGATTTTATCGAGCGGCATA +CCAGAAAAAAGGCCAGCCCCCATGGACACCACCATTAAAGCCAGGAAAGCGTGCATACGCGCCTTCATGA +CTAAAAACAGCAGCAGTAAAACAGACCCTACTGCTGTTAAAACAAGCGTTAATGTAGTCACTACTTATTT +GCCTTTTTTAATAACCTCAATGGTGCTTGCCACAACACCTTCCAGCGGTTGATCGATATCCACCACCAGT +ACATCGGTTTCGTCCGCACCCGGCTCCTGCAGCGTTTCAAACTGCGTCACCAACATTTGGGTTTTAAAGA +AATGGCCTTTGCGCGCTTTCAGGCGGCTTTCAATCACATCAAAATCGCCTTTCAAATAGATGAAAGAGAG +ATTCGGATTACCTTCACGCAGCAAGTCGCGATAGTGTTTTTTCAATGCAGAACAGACGATCAGCGACACT +TTATTAGTGCGCTGCATAGCAAACGCGGCGTCGTTCAGCGCCTGCAACCACGGTTTGCGATCGTCGTCAT +TCAGTGGTTCGCCAGACGCCATTTTTTCGATATTGCGCCGTGGATGGAGGAAATCGCCATCAAGAAACGC +GGCATGAAGTTGATGCGCCACTTCACTGGCGACCGCAGATTTGCCGCTGCCCGATACGCCCATCAAGACG +TAAATGTGGTGATCATGGTTAGTCGTGCTCAAAGTGGTGCCCCCACAATACAAGAATTAAAAATGTTACG +GGTAACTGTTATCGGTAACATTGTCCAGCCGGACAATATCAGAAGCAATATCCATCCATGCCTTAAGTGT +ATAAGTGTGAGCTACTTCAAATTTGTGGGCTTAAATAGATCCGCCCGGTGACAAGGTGAAACCTAAATCT +AACATTTTCGGTGTCACAGATTCGCCACGAATACGCGCCAGCAGGCGTTCAGCGCCAATACTGCCCATCC +GCTCACGCGGCGTCAGCACGCTCGCAAGTCGTGGCTCCATCACCTGACCAATGTCATGACCGTGGAAACC +GGCAATCGCCATATCGTCAGGAACTTTTAACCCCAGACGCTGACATTCAAACGCCGCGCCGACCGCCAGG +TCATCATTCGTACAGAACACGCCATCCAGCTGCGGATATTCCCGCCGCGCCTGGCGAATCAGTTCAATAC +CGGAAGAGTAAGAAGAAGATTGCTCAACCATCACGCTATATGGCACCAGGCCTGCATCCAGCATCGCCTG +TTCGTATCCCTTCTGTTTGATGATAGTACGTTCGTCGAGACGTGCGCCGAGATAGGCAATGTGGCGATGC +CCGCGAGCAATAATGGCAGTGGTCATCTGGCGTGCTGCTTCAAAGTTATCAAAACCGACGGCGATATCAA +GGCATGGCGACTTGCTGTCCATCAGTTCCACCACGGGAATACCCGCCACTTCAATCATCTTTAAGGTGCG +CGGCGTGTGGGTACGTTCGGTGAGGATCAGGCCGTCGATATTCCAGGAGAGCATGGATTCGAGGCGTTCT +TGCTCCATTTCCGGTTTATAACCGTAGTGCGCCAGCATGGTCTGATAACCGTGCGCGTCGGTGACGCTTT +CGATTCCGCGTAATACTTCCGCGAAAACCTGGTTGGTGAGAGAAGGTAACAGGACGCCAATCGCCCGGCT +GGTGGCGTTAGAGAGGATATCGGGCGCACGATTGGGAATATAGCCCAGTTCATCAAGAGCCGCGGCAATC +TTGCCGCGTAGAGCGACGGAAACCTGCTCCGGGTTGCGTAAAAAACGGCTGACCGTCATTTTGGTCACGC +CTACACGGTCAGCCACATCCTGAAGTACGGGTCTTTTCTTTTTCATCGTCCTGAAGGTACAAAAGAGATA +GATTCTCTTAGTTTAACACGGACACATCAGAACCTTCCCGGGGAAAACAGTGCTTGTTTACAATTATTAG +ATATACACTAAATCAATTGCATCGCATTGTGCTAACGACGCGGCAAAACCCCGGAAGCGTACATCAGCAC +GCGACCGGAGCGAGCGAGGAAGCCTGCAAAAAGGCAGGCTTCAAAGATGCCGTTGAGTTTTAAACCGGCG +GCAGATCGAACAGTAACACTTCGCTGTCGCTATCCGCATGGATGGAGATTGCCTGCTCATCCCAGATTGC +CAGACCATCGCTGGTCGAGGCTTTCACGCCGTTAATGGTGACATTGCCTTTCACCACCTGGATCCAGACG +CGGCGTTCAGCGGCAATCTGATGCACCGACTGCTCATCTTTCAGCAACGCCCAGCGGTACAGTTCCATAT +CCTGATGCACTTTCAATGAACCATCTCGCGCATCCGGCGAGAGCACCAGCTGTTTGCCCTGTACGGCATC +GAAGCGACGCTGTTCATAACGCGGCGTAATACCGTTTTCTTCAGGCATGATCCAGATCTGATACAGATGC +AGACGCTCGGTGCTGCTTGGGTTGTACTCTGAGTGACGAATACCCGTACCAGCACTCATAATCTGGAACT +CACCCGCCGGAACCTGCTCTTTATTGCCCATGCTGTCCTGATGCTCAACAGTACCTTCCAGCACGTAGGT +CAAAATTTCCATATCTTTATGCGGGTGAGTGCCGAAGCCCTGCCCTGCTTCAATCACGTCGTCGTTAATC +ACGCGCAGCGCGGAGAAGCCCATAAAGTTCGGATCGTAATAGTTGGCAAAAGAGAAAGTATGCCAGGAGT +CCAGCCAGCCATGATTTGCATGACCACGTTCATTTGCTTTGCGTAAGTAGATCATTTGTATTCGCCCCCT +GAATGATTTCGATGGGCTTAGTGTGGACCCGATCTGCCTGGGATGATAGAGGGTGAAAATTGACCCCTCT +GTTCAAAAAAATTGAACTATTCGAGGGGCCATCAAACTTACTTAGCGAGAGTTACTGTGGAGGGAGAGGC +TTGCTCAAATCCGCGTTCAAGGATTTCCAGATTGGTAAGAACTTCAGATTCCTTGACGTAATTTGGCGCA +CCGTGGGTGATGGTTTGATACAACGCATCATAAACGCGCCCGTAATCGCCCATCTCCGGCTTCATCTCTT +CTCTGACCGTCACGCCCTCGTCATTGACATACTCCAGCACACCGACCGAATCATCCGCTGCGAATCCCGG +TTCGCCCGGCATAATATTAGCCTTCAGGCTGGTTTCCTGCTGGTCGATACCGTATTTAATAAACGAACCT +TTCTTACCGTGAACGATAAATTTCGGATAATCGATTTTCACCAGATGGCTGGTTTTGACGATGGCTTTCA +GGTCGCCATAAAACAGTTGCGCTTCAAAGGTGTCGTCAGGATTGGCTTTATTACGCAGGCTGCGGATGTC +ATAAGCGACGTGATCCGGGCGACCGAACAGAGAAATAATCTGGTCCATCGTATGCACACCAAGGCCATAA +AACGCGCCATCCTGCGGCAGCCCAGGTTTGGTTTCTGCCACCGGGCGGTAATAGTCAAAATGGCTTTCCA +CTTCAACAATCTCTCCCAACTTGCCACTTTCAATCGCTTTTTTCGCTGTCAGGAAGCAGGAGTCAAAGCG +ACGATTCTGATACGGCGTGACGGTCAGCCCTTTGCTTTTCGCCAACGCAAACAGCTCTTTCGCCTGCGCA +AGTGTCGGAGTGAACGGTTTTTCGACCAGCACATTTTTCCCGGCTTCCAGCGCGCGTTTCGCGTACTCGA +AATGGCTGTCCGCGTGGGTGCAGACAACAACCAGCTTAACATCGGGATCGTTTAGTACTTCGTCGAGATC +GCTGGTGAAATGGATATGGGAATAAATGGGAGCCTGTTCTTCCGGCTTCGCATGGCGACGAAAAATATGC +GCGACATGCCAGCTATCCTTGCGGTTAAGTACATACGGCAGATGGTAACGGGTGGTGCTTTTGCCGAAGC +CAATAAAGGCGCAGTTGATGACCATGATTTCGTCCTTTTTAAGGTGGTTATTTACACCTTAGCGCAAAGC +GGACGTGGTTCCTACTGGAGTGCGCATAACGAACACAAGCACTCCCGTGGATAAATTGAGAACGAAAGAT +CAAAAAAAAAGCCAGCACCCGGCTGGCTAAGTAATACTGGAAGCAATGTGAGCAATGTCGTGCTTTCAGG +TTCTCCGCGAGGGTCTTCCTGATCGCGAGACAATAATAATCATTCTCATTCGCACTTGTCCAACACTTTT +TGCAAAAAAATGCATTTGACTCGCATTTGAAAGTCAATGATGTTGAAAGGGACATTTACCCCAAAGAGGA +CAAAGGAATGAGTGAGATAGTAATACGCCACGCAGAAACACGGGATTACGAGGCCATCAGGCAGATTCAC +GCCCAGCCGGAGGTGTATTGCAACACACTACAGGTGCCTCATCCTTCCGATCATATGTGGCAGGAGCGAC +TCGCCGATCGTCCCGGCATCAAGCAACTCGTCGCCTGTATTGATGGAGACGTCGTGGGCCATCTCACCAT +TGACGTGCAACAGCGCCCACGCCGCAGTCATGTTGCCGATTTTGGTATCTGTGTCGACTCTCGTTGGAAG +AACCGCGGCGTCGCCAGCGCCCTGATGCGAGAGATGATTGAAATGTGCGACAACTGGTTGCGGGTAGATC +GCATTGAACTAACCGTGTTTGTCGATAACGCCCCGGCAATTAAGGTCTATAAAAAATACGGCTTTGAAAT +TGAAGGGACTGGTAAGAAGTACGCATTGCGTAATGGTGAATATGTCGATGCATATTATATGGCGCGGGTG +AAGTAAGATAGTGCCCTTTTTCTGAGATGGAAAAAGGGTGTCATTCAAAATCGACATACCTTCCTTTAAG +GTATTTATTTGCCCAATACATATATTGAGATTTAACTCATAATTACTTCCTAAAGTGTAATATTTTATTT +TTTAATATATACGCCTACAATTTCCTGGAGTAAATAAATAACAATTAACAAGCATAATATTGCCATTGAT +AAAATAGCATGCCATAAAAGGACTTTTCAGGGATGAGTAATATTGTTTACCTGACAGTAACGGGAGAACA +ACAAGGAAGCATCTCCGCAGGTTGTGGGACTTCTGAGTCTACAGGTAATCGTTGGCAGAGCGGGCATGAG +GATGAAATATTTACATTCTCACTCTTAAATAATATTAATAATACGGGGCTTGGTTCACAGTTCCATGGTA +TAACATTTTGTAAATTAATTGATAAAAGCACTCCATTATTTATTAATTCCATTAACAATAATGAACAATT +ATTTATGGGATTTGACTTCTATCGAATAAATAGATTTGGTAGATTGGAAAAGTATTATTATATACAACTA +AGAGGCGCTTTTTTATCGGCTATTCATCACCAGATCATTGAAAACCAACTGGATACAGAAACAATAACTA +TTAGTTATGAATTTATCCTCTGTCAACATCTTATCGCAAATACCGAGTTCAGCTATTTGGCACTCCCTGA +AAATTATAACCGTTTGTTTTTACCAAATTCAAAAAACCAAACAAATAATCGTTTCAAAACGTTAAACAGC +AAAGCTATTGGCAGGCTACTTGCTGCTGGTGGCGTATACAATGGGAACATTGAAGGATTCAGAGATACTG +CGGAAAAACTGGGTGGAGATGCAATAAAAGGCTATGATCAAATACTAAATGAAAAAACAGCGGGCATAGC +GATAGCAACAGCATCTATTCTTTTAACAAAGCGTTCTAATGTTGATACATATACAGAAATAAATAGTTAC +TTAGGCAAACTTAGAGGTCAACAAAAACTTCTTGATGGTATAGACATAATAGAAATAATATACATTAAGA +GACCTTCAAAAGACTTAGCTAACTTACGAAAGGAGTTTAATAAAACTGTAAGAAAAAATTTTCTTATCAA +ACTTGCAAAAACCTCCGAAGCATCTGGAAGATTCAACGCCGAAGACCTTTTAAGAATGAGAAAGGGCAAT +GTTCCTCTAAATTATAATGTTCACCATAAACTATCTCTAGATGATGGTGGTACTAATGATTTCGAAAATT +TAGTATTAATCGAAAACGAACCATATCATAAAGTTTTTACTAACATGCAATCACGAATAGCTAAGGGAAT +ATTAGTAGGTGAAAGCAAAATCACTCCCTGGGCCATTCCATCTGGCTCAATTTATCCTCCCATGAAAAAT +ATTATGGACCACACAAAATGATGACTAAAACCCAAATAAATAAATTAATAAAAATGATGAATGATTTAGA +CTATCCATTTGAAGCACCGCTCAAGGAATCATTTATTGAAAGTATAATCCAAATAGAATTTAATTCTAAT +TCAACTAATTGCCTGGAGAAGTTATGTAATGAAGTTAGTATTCTTTTTAAGAATCAACCTGATTATCTTA +CTTTTTTAAGAGCAATGGATGGATTCGAAGTTAATGGATTACGATTATTTAGCCTCTCGATTCCAGAACC +TTCAGTTAAAAACCTTTTTGCCGTAAATGAATTTTATAGAAATAATGATGATTTCATAAACCCTGATCTA +CAAGAACGGTTAGTGATCGGGGATTATAGCATTTCAATATTTACTTATGACATTAAAGGTGATGCTGCCA +ACTTACTGATTTAGTGTATGATGGTGTTTTTGAGGTGCTCCAGTGGCTTCTGTTTCTATCAGCTGTCCCT +CCTGTTCAGCTACTGACGGGGTGGTGCGTAACGGCAAAAGCACCGCCGGACATCAGCGCTATCTCTGCTC +TCACTGCCGTAAAACATGGCAACTGCAGTTCACTTACACCGCTTCTCAACCCGGTACGCACCAGAAAATC +ATTGATATGGCCATGAATGGCGTTGGATGCCGGGCAACAGCCCGCATTATGGGCGTTGGCCTCAACACGA +TTTTACGTCACTTAAAAAACTCAGGCCGCAGTCGGTAACCTCGCGCATACAGCCGGGCAGTGACGTCATC +GTCTGCGCGGAAATGGACGAACAGTGGGGCTATGTCGGGGCTAAATCGCGCCAGCGCTGGCTGTTTTACG +CGTATGACAGTCTCCGGAAGACGGTTGTTGCGCACGTATTCGGTGAACGCACTATGGCGACGCTGGGGCG +TCTTATGAGCCTGCTGTCACCCTTTGACGTGGTGATATGGATGACGGATGGCTGGCCGCTGTATGAATCC +CGCCTGAAGGGAAAGCTGCACGTAATCAGCAAGCGATATACGCAGCGAATTGAGCGGCATAACCTGAATC +TGAGGCAGCACCTGGCACGGCTGGGACGGAAGTCGCTGTCGTTCTCAAAATCGGTGGAGCTGCATGACAA +AGTCATCGGGCATTATCTGAACATAAAACACTATCAATAAGTTGGAGTCATTACCGACATTAAAAGTAAC +TTTTTTGAAATTAGAGATAATATTGGCACAGAAAATATATTCAGTTCGTTTAGTGATTTCTCTTCATTCT +TAAACGAAATCATGGACAGTTGTTCATAATAATCAAAAGGAAACAAAAATCATTGTAAACCATGCCATCT +TTTTAGAGATTACCAGCAGAAAATTCCTTGTTCGAAATTTAGCAGTGCAAGCTATGGAAAAACTTACAAC +GGAACTACACTCCTTAAGTGAGATGGACCGAAGACATGTAGTCTCTATTTTAGCCGAAATAGCTAATGGC +TATGATGATTTTAATGACATGTTGATTTATTTAGAATTTTACCCGAATCATAAGATTCTGATATCTTAAA +TAAGAAAATCCCGTTCGACGTTCTGAAAAAGAAATCATAAAATATTAGCAGATACTTATTTCGTGACTAT +ATCTTATCCGATGAACTTTTTTCAAAACCAGCATTTAATAATATCTTTGACGAAGATGAACGCGTCTTTG +CTCAATGTATCACACAGGAATAATAATATAACACTCAACAATAATATTTATTATAATTATGATTACTTAT +CACGACGCATTCGCGAAAGCGAACCATTACCTTGATGATGCAGATCTCCCGGTCGTCATTACTCTACATG +GACGCTTTAGCCAGGGCTGGTATTTCTGTTTCGAAGCACGAGAATTTCTCGAAACTGGAGATGAGGCCGC +GCGCTTAGCTGGTAACGCACCTTTTATTATTGATAAAGACAGTGGTGAAATTCATTCTCTGGGAACGGCA +AAACCGCTGGAAGAATATCTACAGGATTACGAAATAAAAAAGGCTACCTTCGGCTTGCCCTGACAAAATA +GCCCTCTTCCCACGAAGAGGGCCGCTAACCTTAGTACCCCGCCGTTAAATCATCCACCGAGCGCGGGTCG +GATGCGCCGTACAACTCACCGTCCGGCCCAACCATAATGCTTTGTGTACTGCCCATCGCCTCTTTCAGCG +CCACTTTCTGACCTTTTGCTTCCAGCAGCTTGAGCGTATCCGGGCTAAACCCTTTTTCGACACGCAGCTC +GTCCGGCAACCACTGATGGTGGAAACGCGGCGCATTGGTCGCTTCGGCGACGTTCAAGCCATAATCGATG +CTATTCACCACCATTTGCAGCACTGTAGTGATGATCCGGCTACCGCCTGGGCTACCGGTAACCAGCCAGG +TTTTACCGTCTTTCACCACAATGGTCGGCGACATCGACGACAGCGGGCGTTTGTTCGGCCCGACGGCGTT +GGCATCACCGCCCACCAGCCCGTAAACGTTCGGTACGCCCGGTTTGGCGGAGAAATCATCCATCTGGTTA +TTAAGCAGAATACCGCTCTCGCCCGCGACAATGCCCGTACCGAAGGTGGTGTTCAGCGTATAGGTCACCG +CCACCGCGTTACCATCTTTATCCACCACTGAGTAATGGGTAGTTTGATTACTCTCATAAGGCGCAAGCTT +GCCGGGGCGAATTTCGCTGGATGGCTTCGCTTTATTGATATCAATTTGATCGGCAATAGATTTGGCATAG +GCTTTATTGGTCAGCGCCTGCCACGGTACTTTGACAAAATCCGGGTCGCCAAGATATTCCGAGCGGTCGG +CGTAGGCGTATTTCTCCGCTTCTGCCATGATTTGCATCGCATCGGCGCTGCCAAAGCCGTATTTCTTCAT +ATCGAAGTTTTCCAGAATATTGAGGATTTGTACGATATGGATCCCGCCGGAGGATGGCGGTGGCATGGAG +TAAACCTGATACCCGCGATAATCGCCGCTTATCGGAGTGCGTTCGACCGCTTTATAGGCTGCTAAATCTT +CTTTAGTGATCAAGCCACCGTTTTTCTGCATCTCCTGGGCGATCTGTTCCGCAATCGTGCCTTTATAGAA +TTCGTCCGGGCCGTTTTCAGCAATCATCTCCAGGCTCTTTGCCAGGTTCGCCTGCACCAGCGTGTCGCCC +TTTTTCAGCGGCTCGCCCTCTTTCCAGAAGATAGCTTTACTGTTTTCGTGATTCGGCAACACTTCGCTAC +CGTAGGTTTTGAGATCGTCAGCCAGCGCGTCGTTAACGATAAAACCATCGCGTGCCAGTTTAAACGCGGG +CTGCACGACTTTGTTCAGCGGCATGGTGCCGTATTTATCCAGCGCCAGCGAGAAACCTGCTACCGTACCC +GGTGTGCCGGAAGCCAGATGCGAAGTGAGTGATTTTTTGCTGTCCGGGTTGCCCTGATCATCGAGGAACA +TATCGCGGGTCGCTTTGGCGGGTGCCATTTCGCGGAAATCGATAGCCGTGGTATTGCCATTTTTCGAGCG +GATTAACATAAAACCACCACCGCCCAGATTCCCTGCCTGCGGATGCGTTACCGCCAGCGCGTAGCCCACC +GCCACGGCGGCATCAACGGCATTCCCGCCCTCCTTGAGAATATCCACCCCCACCTGAGTGGCAGTGGCGT +CCACAGACGCTACCATTCCCTGTTTCGCGCGTACCGGGTGGAAGACATCTTCCTCCACACCATACGAGAC +GGGCGGCGCAGGAGGCGCGGCGGCGGCGCTAAAACAACTTCCTGAGAGCAGAGCAGCAATGGCCACCCGG +CGTAAAAACGTCGGTTTTATCATCGTTATTCTCCAGAGATTAAGGGGCAACCCCAGCTAAGCCTGGTATA +TAACTCTGAATTAATCATCGTTTTGTCGGGAAGCGAGTAAACTTAAAGGATATCTTCAGAGGAGGATACG +CGATGAAACGACTTCTGATTCTTACGGCACTCCTGCCGTTTGTCGGCTTTGCACAGCCCATTAATACTCT +GAACAACCCTAACCAGCCGGGGTATCAGATACCCAGCCAGCAGCGGATGCAAACCCAGATGCAGACTCAG +CAAATCCAGCAAAAAGGGATGCTGAATCAGCAACTGAAAACGCAAACTCAGTTGCAACAGCAGCATTTAG +AAAACCAGATAAACAATAATTCTCAGCGGGTGTTGCAGTCACAGCCGGGGGAGCGAAATCCCGCCCGGCA +GCAAATGCTGCCCAACACCAACGGCGGGATGTTAAACAGCAACCGTAATCCGGATAGTTCGTTGAATCAG +CAGCATATGCTGCCGGAGAGGAGAAACGGCGACATGCTGAATCAGCCCAGCACGCCGCAGCCTGACATTC +CGTTGAAAACTATTGGGCCGTAAAGTTCGGACCAATCACGTCAATCGCATCGGTACAGATGCAATCCACA +CCCCAGCGCAGCAACTCTGCTGCGCGCTGGGGTTTATTGACGGTATAAACCAGAATCCGCAGTCCGGCGT +CTTTCAACTGCATCACTCGCGCTTTATTGAGTAACTTATGATTGAGATGAATAGAGACGCAGCCCAGCCG +CGCGGTCAGTTCGCGCCAGTCGTCGCGCCACTCATCCAGCAACAAACCGCGCGGCAGTTCCGGTGCCGCC +TGTTGTGCAGCTTCTAAAGCATCAATCTCAAACGATGACAGCAGCGGCGGCGTCATACCGGCCCACAGCT +CGCGTGCCGCCAGCGCCACCATTTTGCCCGTTAATGGCCCGGTGCCGGTGGTGGGTTTGATTTCGATATT +CGCCATCATCCCGTGTTCGCGGCAACGTTCCGCCACCTGCGAAAGCAACGGTAGCGGCTCACCTTTAAAC +ATTTTGCTGTACCAACTGCCCGCATCCACGCGCAGTAAATCCTGCCAGTTCAGTTCACCCGCGACGCCCC +AGCCGTTGCTGGTACGTTCGAGATTGTCGTCATGGAGCAGGAAGATCTCGCCATCTTTCGATAACTTCGC +GTCAAATTCGATCATCTTATGACCGTATTTTGCCCCGACGTCGATTGACGCCAGGGTGTTTTCCGGGGCC +AGCTTACCGCCGCCACGATGAGCGACGATGCGGGGATAAGGCCAGTTACTCATACTCGTTGTCCTGTTTC +ACCATCAAAAAGATGCAGCTGATTTTCCGCCAGATGCAGCCACAGCGTGCTGCCTGCCGTCGGGCGCTCC +TGATGCGCCAGTCGCACCACCAGCTTCTGCTCGCCCCAGCGTCCGTGCGCCAGGTTATCTGCGCCGAGGA +TCTCCAGCGTGTCCATCACCATCGGTACGCCGCCTTCTGCCTGCGAGCTTAGCGCAATATGTTCCGGGCG +AATGCCGAGAGTCATTTTACGCCCGGCATACTGACGGTAGCCACCGTTTAGCGGCAGCTCAATACCGCCG +TCCAGTTCGAAATGCGTGCCTTCGTTATTCACGCGGCCTGTCAGCAGGTTCATCGCCGGACTGCCGATAA +AACTCGCTACAAACAGGCTGGCGGGCTTTTCGTAGACTTCAACTGGTGTGCCAATCTGTTCGGCAACACC +GCCGTTCATCACCATTACTCGCTGGGCGAGCGTCATCGCTTCAACCTGATCGTGAGTAACGTAGAGTGAA +GTCGTTTTCAGGCGACGGTGCAACTGTTGCAGTTCAAGACGCATCTGCACGCGCAGCTTGGCATCGAGGT +TAGAGAGCGGCTCATCAAACAGGAACACCGCCGGATCGCGCACAATCGCGCGGCCCATCGCCACACGCTG +GCGCTGACCGCCGGAAAGCTCGCGCGGGCGACGTTTGAGCAGACCGTCCAGCTCCAGAATGCGCGCCGCT +TCTTTAACGCGCTCGGCAATTTGCTGCTTGCCCATGCCGCGAATTTTCAGCCCCCACGCCATGTTTTCTT +CGACACTCATATGCGGATAAAGCGCGTAGTTCTGGAACACCATCGCAATCCCGCGATCTTTTGGCTCCAT +TTCAGTCACGCGCTGGTCGTTGATCCAGATATCGCCTTCTGTCACCCGCTCCAGCCCGGCAACCATGCGC +AGCAGCGTCGATTTCCCGCAGCCAGACGGCCCGACCATCACGATAAATTCGCCATCCGCCACATCAAGGG +TCAGCGGTTTAATGACCTGGGTTTTACCATCCCAGCTTTTGGTTACTGCCTGTAATTTCAGTCCTGCCAT +CTTATTTCTCACTATCGACCAGGCCGCGCACGAAGGCACGCTGCATCACTAAAACAATCACCACCGGAGG +GATAAGCGTTAACAACATCGCCACCATCACTGAGTTCCATTCCGTGGTGCCTTCGCCTGTAGCGATCATC +CCTTTGATCCCTGCCACGGTGGTGCCGAGATCCACATCGGTAATAATCAACAACGGCCACAAATACTGAT +TCCAGCCGTAGATAAAGGTGATCACAAACAGCGCCGCCAGATTAGTTTTGGAGAGCGGAAAAACGATGTC +GCAAAAGAAGCGCATTGGCGATGCGCCGTCGATCCGCGCGGCTTCCACCAGCTCATCCGGCAGCGTCATA +AAGAACTGGCGGAACAGGAAAGTAGCGGTCGCCGAGGCCATCAGCGGCAGCGTTAAACCGGCGTAGCTGT +CGAGCATCTGCAGGTTGGCGATGACTTCCACCGTCGGGAAGATACGTACTTCAACCGGCAGCATCAGGGT +GATAAAAATCATCCAGAAGAAGAGGTTACGTAGCGGAAAACGAAACCAGACAATGGCAAATGCCGAGAGC +ATCGAGACGGTAATTTTGCCGAGCGTAATGCTGAACGCCATCACAAAGCTGTTAAGCAACATCCGCCAGA +ACGGCGCGCTATTCGTGCCTACCCCGTTCACCCAGATGTTGTGGATGTTTTCCAGCAGATGTGTGCCGGG +GATGAGCGTCATCGGCGCGGCATAGACGGCCTGTTTATCCAGCGTCGCCGCGACAAACGCCACGTACAGC +GGGAAGAGGATCACCGCGATCCCGAGGATCAGCATGGTATGGCTGAATATCGTCAGCCACGGACGGTTCT +CAATCATTGGTAACGCACCTTGCTTTCAACATAGCGGAACTGCACCACCGTCAGCACGATGACGAGGAAC +ATCAACACCACCGACTGTGCGGCAGACGAAGCCAGATCCAGTCCGGTAAAACCTTCGCGGTAGATCTTAT +AAATCAGCGTCGTGGTGGCCTGAACCGGCCCGCCGGACGTGGCGGCGTCGATCACCGGGAAGGTGTCGAA +GAAGGCATACACCAGGTTCACTACCAGCAGGAAGAAACTCACCGGGGCGATAAGCGGCAGCGCAATCTTA +AAGAAGCGGCGAATCGGCCCTGCACCGTCGATGGCTGCGGCTTCGATCAACGAACGGGGAATGGATTGCA +GCGCGGCATAGAAGAACAGGAAGTTGTAGCTGATTTGCTTCCATACTGAGGCAAACACCACCAGAAACAT +TGCCTGACCGCTGTTTTGCGCGTGGTTCCAGTCGTAGCCGAACTCCGCGAGAAAATGGGTGATCAGCCCG +CGACCGGGGTTAAACAGGAAGATCCACAATACGGCGGCAACGGCGGGAGCCACGGCGTAAGGCAGCAACA +TTAAGGTTTGATAGAAACGGCTGCCGCGCACGATGTACTCCACCAGCGCCGCAAAGAACAGCGATACCAG +CAAACCGCTGACGGTGACAAAGGTGCTGAATTTTATCGTCGTCCAGAAGGAGTCGAGATAGTAGCTGTCA +TGGAACAGCGTGACGAAGTTATCCAGGCCGACAAACTGGCTGGAGAAACCAAACGGATCGACGCTTTGTA +GCGAGTACCACAACGCTTCGCCCGCAGGCCAGATAAAAAAGATAACGGTGATGATGAGCTGCGGCGCGAC +CAGCAGATAAGGCAGCCAGCGCGAGCGGAACACCGGACGGGATGATGACATTACGGTTAATTCCTGAACT +GTGCCGGATGCGCTTCGCTTATCCGGCCTACACGCGATGCCAGGTCAGATAAGCGAAACGCATCCGACAT +TACACTGATTAAGACTTCGTCGATTTCTCAAAGCGGCGCAGCAACTGATTTCCACGCTCAACGGCGGTAT +CCAGTGCCTGCTGTGGTGTCTTCTTACCGGTCCACACGCTCTCCAGCTCTTCATCCACAATCACGCGGAT +CTGCGGCATGTTGCCCAGACGCAGCCCTTTGGTGAACGGCAACGGCGGCTTATTCAGCATCTGACGCGTC +GCGGTATCCGCCCCTGGGTTTTTCTCATAAAAGCCCTGCTCACGGGTCAGGTCATACGCTGCTTTGGTGA +TTGGCAGATAACCGGTTTTCTGATGCCACTCGGCAGCGTTTTCTGGCTTCGCGAGGAAATCGAGGAACTT +CGCCACACCGGTATACGTTTCTTTATCTTTACCCTGCATCACCCACAGGCTGGCTCCGCCGATAATGGCG +TTTTGTGGCGCATCTTTCGCATCGGCGTCGTAAGGCATCATGCCTACGCCGTAGTTAAATTTGGCGTACT +CGCGAATGTTGGCAAGAGAACCGGAAGAGGCGGTGGTCATCGCGCAATCACCGTTATAGAACTTCTCGGT +GGATTCATCCTTACGACCGACGTAGCTGAAGTCGCCCTTCTTGTTCATCTCCTCGAGCATGGCGATGTGT +TTCACCTGCTCCGGCTTATTGAACTCCAGCACCGCGTCCGTGCCGTCAAAGCCGTTGTTTTTGCTGGCAA +ACGGCAGACCGTTCCAGGCGCTAAAGTTTTCCAGTTGGATCCAGCCCTGCCAGCCGCTGGCGTAGCCGCA +CTTCATGCCGGAGGCTTTCAGTTTCGCGGCATAGTCCGCCAGATCCTGCCAGGTTTTCGGCGGCTGTTCC +GGGTCTAATCCTGCTTTCTTGAAGGCGTCTTTGTTGTAATAGAGAACGGGGGTCGAGCTGTTGAATGGCT +GGGAGAGTAAGTGGCCCGTTTTGCTGTCGGAGTAGTAACCTGAAACCGTCGGCACAAACTGCGACTCATC +GAACTGAATCCCTGCCTCTTTAAACACGTCATACACCGGTTTAATGGCTTTCGACGCCATCATGGTGGCG +GTGCCAACTTCATAAACCTGCAAAATAGCCGGCGCGTTGCCGGTACGAAATGCGGCAATCCCCGCGCTTA +AATTCTGTTCGTAGTTGCCTTTATAGGTCGGTACAATTTTGTAATCCGGGTTTTCGGCGTTAAAACGTTG +GGCCAGAGAATCCACCTCTTTACCCAGTTCCCCTTCCATAGAATGCCAGAACGGAATGGTCGTCACTGCC +TGTGCATTCCCCATTAACGCCAGTCCGAGCGCCAGTGCTGAAGCTGTATAATGTAACGGTTTCATCGTTT +ATCTCTCTTGTTGTACCGAATGCGCGAATTCACGCGTTTTATGCTCGCGGGGTAACATGACATGCTCGAA +TTACAGAAAAATAACTTTTTTGTTACATTTGTAAGATAGTAAGGTGTCAGAAAGATGACAAGGCGGTGAC +GGCGTGGGTGAGGGAAAATGGGAGATGGGGCACGGATAAGCGGGAAAATATAGAAGGTCTGAATCAAACT +CTACAGATTGCTCATCGTTTCATGCCGGATGCGGCGTAAACGCCTTATCAGGCCTACAAGATCGTGCAAA +TTCAACATATTGCCACTCACCCAGTAGGCCTGATAAGCGCAGCGCATCAGGCAATTTTACATTTGTCACC +TGTCTCAAAGGAGTCTTTTGACTCCCTATCAATCAACGTGTTATTACCCGCCTAAATACGCACTTCTCAC +CGCTTCATTCGCCAGCAGCGCATCACCAGTATCGGAAAGCACTACATGGCCGTTTTCCAGCACGTAGCCG +CGATCCGCCAGCTTTAGCGCCTGGTTGGCGTTCTGCTCGACGAGAAAGATAGTCATCCCCTGCTCGCGCA +GCTGCTCGATGGTGTCGAAAATTTGCTGGATGATAATCGGCGCAAGACCGAGCGATGGCTCATCAAGCAG +TAGCAAACGCGGGTTGCTCATCAGCGCACGACCAATCGCCAGCATCTGCTGTTCACCGCCGGACATGGTG +CCCGCCCGCTGAATACGGCGCTCATGCAGACGTGGAAACAGCTCATACACCCACTTTATGCGCTCCTGGA +ACTGGTCGCGTTCAGCAAAAAAACCGCCCATCGCCAGGTTCTCTTCCACCGTCATCCGCGAGAAGACGCG +ACGCCCTTCCGGGACAATCGCCACCGCTTCGCGCATGATTTTCGCTGTCTGCCAGTCGGTAATGTCTTTA +TCATCAAACACAATTCGCCCGCTGGTGGCACGCGGATCGCCGCATAACGTGCCGAGCAAGGTGGTTTTCC +CCGCCCCGTTCGCGCCAATCAGCGTGACAATCTCGCCCTGATTGATATGCAGGCTCACCTCATGCAGCGC +CTGGATTTTGCCGTAGTGGGCGCTGACTTTGTCAAAGGACAACATGACTTTTTCCATCTTATGCCTCACC +TAAATAGGCACGGATCACGTCCGGGTTATTACGGATCTGCTCCGGCGTACCGTTTGCCAGCGGCGTCCCC +TGATTGACCACGTAAATTCGGTCCGAAATTCCCATCACCAGCTTCATATCGTGTTCAATCAACAAGATAG +TGGTGTTGTGATGATTGCGCAGTTCGGCAATCAGCTCATCCAGCTCTTTCGTCTCTTTCGGGTTAAGACC +TGCCGCAGGTTCGTCGAGCATTAAAATCTCCGGCTGCGTCACCATGCAGCGGGCAATCTCAAGACGGCGC +TGGTCACCATAGGCCAGGTTACTCGCCTGACGGTTGGCGTGTTCCAGCAAACCAATGCGCTCAAGCCAGG +TCGCGGCGCGGTCGAGCGCTTCGCTCTGGGCGCGACGGAAGGATGGCGTTTTCAACAGGCCAGAGAACAG +CCCGGTTTTCAGTTGCTGATGCTGCGCCACCAGCAGGTTTTCAATTACCGTCATTTCACGGAACAGACGC +ACATGCTGGAAGGTGCGCACCACGCCCATGCGGGCAATTTGCTGCCCCGGTAAACCTTCCAGGTGCTGAT +CGCGCAGTAAAATGGTGCCGCCGGTGGGTTTGTAGAATCCGGTCAGACAGTTAAAAACCGTGGTTTTTCC +GGCACCGTTAGGGCCGATTAACGAGACGATCTCCTGCGGGTACAGTTCAAGATTGACGTTGTTCACCGCC +AGCAGGCCGCCGAAGCGCATCATCAGGCCGTTAACAGATAATAATGGCTGACTCATGCCTGCTCTCCTTT +CGCTGCGCCGTTTTTCAGCTTCAGTTGCGGGCGCGTCATGGGCAGCAAGCCCTGCGGACGCCAGATCATC +ATCAGCACCATCAAACCACCGAGCATTAACATGCTGTATTCGTTGAAATCACGCATCAACTCGCGCGACA +CCACCAGCAAAATTGCCGCCAGAATCACCGCAAATTGCGAGCCCATACCGCCGAGCACCACTATCGCCAG +CACAAACGCCGATTCGGCAAAGGTGAAGGATTCCGGGCTGACAAAGCCCTGACGCGCCGCAAACAGCGTT +CCGGCAAAACCGGCAAACGCGGCACTTATGGTAAAGGCAGTCAGCTTGATACGACGCGGGCTTAAGCCCA +GCGAACGGCAGGCGATTTCATCTTCACGCAACGCTTCCCACGCACGCCCCAGCGGCATCCGCAGCAGGCG +GTTAATGACAAACAGGCTTAGCACCACCAGCAGCAACGCCACCAGGTAGAGGAAGATGACACGATCGGAG +GGATCGTATTTCAGGCCAAAGAAATTACTGAACGTGTCCCAGCCGCCTTCACGAGCGGTACGGCTGAACT +CGAGTCCGAAGAGTGTCGGTTTCGGGATCTGACTGATTCCGTTCGGGCCGCCGGTAATTTCGGTGTTATT +GAGCAGCAATATGCGCACAATTTCGCCGAAACCGAGGGTAACGATCGCCAGATAGTCACCGCGCAAACGC +AGCACCGGAAAACCGAGCAGGAAGCCCGCCGCCGCTGCCATTAATCCAGCAATCGGCAGGCAGGTCCAGA +AGCCCAAGCCGTAATAGTGATTGAGCAGCGCAAAAGTGTAAGCGCCGATGGCGTAAAAACCGCCGTACCC +CAGCACCAGCAGACCAGAAAGACCAACAACCACGTTCAGCCCGAGACCGAGGATAATGTAGATCATGGTC +AGGGTGGCAATATCCACCGTCCCGCGTGAAACCATAAACGGCCACGCCACCGCAAGCACCAACAGCGCCA +CGAGGAACAGTTTCTGCTTCACCGTGGAGCCATCAATGGCGGGCAGAATAAACTTCGGTCCGGAAACGCT +TTTCAACCCTTTCTGGAAAGCCGGTCGCAAAAGCTGGAAGAAAAAGACCACCGCCGTGCCGATAAACACC +CACTGCCAACGGACATCCGAAGCCGTGTCGACCACCAGTTTGGTGCCATCCAGCTCCAGTTGCACGCCCA +TAAAGACGCCCGCCAGCACAAAGAACATCGCGGCAGAGAGCAGCGCCATTGCAATATGCATCGGTTTCAT +ACTTTCTCTACCTCCGGGCGACCCAGAATACCGGTCGGCATCACCAGCAGCACCAGAATCAGCAGGGCGA +ATGAGACCACATCTTTATATTCCGTACTCAGATAGGCAGAAGAGAGCGCCTCCGCAATCCCCAGAATCAG +GCCGCCAATCATCGCTCCCGGAATGCTGCCAATCCCACCGAGCACCGCCGCGGTAAAGGCTTTCATCCCG +GCCATAAAGCCGATGTAGGGGTTAATGACGCCGTAGAACTGACCGAGCAGCACACCCGCCACCGCCGCCA +TCGCCGCGCCAATCACAAAGGTCAGCGCAATCACCCGGTCGGTGTTAATGCCAAGCAGACTCGCCATTTT +CAGATCTTCCGCGCAGGCACGACACGCGCGACCCATGCGGGAATAGCGAATGAAAATCGTCAGCGCCAGC +ATGGCGAGGAAGGTAACAATCCAGATCACCGCCTGCATGGTGGTAATAGAGGCAGAGAAGTTTTCGCTAT +GCCCCACCACCCACTGACCGTTAAACAGGCTCGGCAGCGCCACGTCGCGCGAACCTTCGGTCAGGCTGAC +GTAGTTTTGCAGGAAGATGGACATACCGATTGCAGAGATGAGTGCAATCAGGCGCTTAGAGTTACGCACC +GGGCGGTAAGCCACCCGTTCGATACTCCAGCCGTAGGCGCTGGCAATGACGATTGCGCCGACGAATCCCG +CAGCTACCAGCAGCCAGCCGGTATCAATGCCCATCATCATCAGCGCGGCGATGATCATAAATGAGACGTA +GCTGCCAATCATATAAACCTCGCCGTGGGCGAAGTTGATCATGCCGATAATGCCGTAAACCATGGTGTAG +CCGATGGCTATCAGCGCGTAGGTACTGCCCAGCGTGACGCCGTTAAACATCTGCTGCAAGAAATACAAAA +ACTGCTCAGACATAAGGTAACCTTTCTAAACCCGCCCGCATTTTACGGGCGGTGGGATGATCACTTGGCT +GCCGTGGATGAACCGTCGGCGTGCCACTGGAAGACACCAAAATCAAATCCCTTAAGATCGCCTTTTTCAT +CCCAGTTCAGCGGCCCAATCACGGTGTTTGCACCGTTAGCTTTTAAATCTTTCACCAGCGCCAGCGGCTC +ATCGCTGCCGGTACGCTCAAGGGCAGTCGCCAGAGATTGCACCGCCGCGTAGGTGATCCAGACATAAGGC +CCGGACGGATCTTTCTTGTCTGCTTTCAGCGCATCAACGATGCCCTGGTTTGCCGGATCCTGGTCATAGC +GTTTTGGCATAGTGACCAACATGCCTTCGGCGGCATCACCGGCAATGTTCGACAACGACGCATTACCCAC +ACCTTCCGGCCCCATAAACTGGGTTTTCAGGCCAACGGAACGGGCCTGGCGCAGCATCTGCCCCATTTCC +GGGTAGTAACCGCCGTAGTAAACGAAGTCGATGTTTTCTTTTTTCAGGCGGGCGATCAGCGCGGAGAAAT +CTTTCTCCCCGGCGGTAATACCGTCGAAGAAGACGACGTTGGCGTTAGCCGCTTTCAGCCCGTCCTGCAC +CGAACGCGCCAGCCCTTCGCCATACTGTTGTTTGTCGTGAATGATGGCGATGCGCTGGGGCTTCACCGTC +TCAAGAATGTATTTTGCCGCCGTTGGCCCCTGGGAAGAGTCCAGCCCGGCAGTACGCATAATGTGTTGAT +AACCGCGTTGGGTCAGCTCCGGGTTGGTCGCTCCCGGCGAGATCATCAGAATACCTTCGTCTTCATAGAT +ATCTGACGCAGGCTGGGTAGAAGAAGAACACAGATGACCAATAACGTATTTAATGCCGTCATTAACGATT +TTGTTGGCGACCGCAACGGCTTGTTTCGGGTCGCATGCGTCGTCATATTCCACGCCAACCAGTTTATCGC +CCTTAATTCCCCCTTTGGCATTAATGTCTTTAATTGCCTGACGCGCGCCGTTAAATTCCATATCGCCCCA +CTGGGCAATCGGGCCGGACATCGCGCCGACAACGGCGACTTTAATATCGTCAGCCATAGCGGTGTGTGAA +ATTGCCAGTGCAATCATCCCTGCGATGATAGTTTTCGCATTCCGTTTCATAGTCAAAAATCCCCATTCGT +GATGTTGTGTTGCTTTGTTTTTATGTGTTAACAAATCAGACTGTTCTTTTTTTATACTGCACTGTTTTTG +CCTGTCTGATTAAGGGGTTAGCGCAGTATTTTGTGATAATAGCGATTAAAATCCCTATTTTTCAGTCGAT +TAAGAACAGATAATATTCTGAATTTATTGATAGATAAACAGAAAAAAGTGCCTTTGTCAGCATAAAATAA +CGGCACAAAGGGCGGAATAATTCACTATCATTCAGGGGATTATGCTGGACATTTTTCATTCTCTAATGTT +TTAATTTTGTAATTATTGCTGTTAAAAAATTAATCACCTGCCAAAAGAAATAAAAAAGAGAAAGCCTCCG +ATTAAATTATTTCGCTACACTGGTTCCACTTTTGTGATTTACACGGGTTACCCATGAAGCTGACCATCAT +TCGATTAGAAAAATTTAGCGACCAAGACCGGATTGACCTGCAAAAGATCTGGCCGGAGTATTCCCCTTCC +TCGTTACAGGTTGACGATAACCACCGTATCTACGCCGCGCGTTTTAACGAGCGCCTGCTCGCTGCCGTGC +GGGTAACCTTAAGCGGCACCGAGGGAGCACTGGATTCCCTGCGCGTGCGGGAAGTCACCCGCCGTCGCGG +TGTGGGGCAATATCTGCTGGAAGAGGTTTTGCGTAACAATCCTGGCGTTTCATGCTGGTGGATGGCGGAT +GCAGGCGTGGAAGATCGCGGTGTGATGACGGCGTTTATGCAGGCGCTGGGGTTTACGGCACAACAGGGCG +GCTGGGAGAAGTGTTAATCGTCAAGTTTGATTTCAAAAGTGATATTGCCTGATGCGCTACGCTTATCAGG +CCTACAATGTGTGTTGCAATTTACTGATTTCTTTGGATCTTGTAGGCCGGATAAGGCGTTTACGCCGCAT +CCGGCATGAAGCAACGTACTCGATATTAGCAATTTGGCGGCAACCCAAAGTTGCCGATTAATGATTACTT +CGCATCGGTCGCCGTGCCGTTGGCGTGCCAGTCAAATACGCCGAACTCAAAGCCTTTCAGATCGCCTTTC +TCATCCCAGGTCAGCGGTCCCATTACGGTATCCACGGAGTTCGCTTTCAGGTATTTGGCGATTTCAGCCG +GATCGTCAGACTGATTCAGGCCCGCCTGCAAAGATTGCAGCGCGGCGTAGGTGGTCCAAACGAATGCGCC +ACTTGGGTCCTGTTTTTTCGCTTTGATCGCGTCAACAATGGGTTTGTTCGCCGGAACCTGATCGTAGTTC +TTCGGCTTGGTCACCAGCAGCCCTTCCGCTGATTCGCCCGCAATGTTAGACAGCGAAACGTTAGCCACAC +CTTCCGGCCCCATAAACTGAGTTTTCAGCCCTGCCGCGCGTGCCTGACGCAGGATTTGCCCCATTTCCGG +GTGATAACCGCCGTAGTAAACGAAGTCGATATTCTCTTTTTTCAGACGCGCCACCAGCGTTGAGAAATCT +TTTTCCCCGGCGGTGATGCCATCAAAGAACACCACGTTTGCATTGCCTTTCTTCAGGCCGTCCTGCACCG +CTCGCGCCAGACCTTCGCCGTATTGCTGTTTGTCGTGAACGATAGCAATACGCTGCGGTTTCACTTTCTC +AAGAATATATTTCGCCGCCGTCGGCCCCTGGTCGGAGTCCAGGCCGGTGGTGCGCAGGATCAGCTGATAG +CCACGGGCGGTCAGCTCCGGCGCGGTTGCCGCTGGGGTGATCATTAAAATGCCTTCGTCTTCGTAGATGT +CAGACGCAGGCTGCGTTGATGAAGAACAGAGGTGACCAATCACATATTTAATGCCGTCGTTAACGACTTT +GTTCGCCACCGCAACCGCCTGTTTCGGGTCACAGGCATCGTCATATTTTACGATTTGCAGTTTGTTGCCT +TTAATGCCGCCTTTAGCGTTGATATCCGCAACCGCCTGCTCTGCGCCGGTAAACTCCTGGTCACCGTACT +GCGCAACCGGACCGGACATTGCGCCCACGACCGCGACTTTAATATCTTCTGCCAGAGCCATATTGCTGAA +TGCCAGCGCGATACATCCTGCCAGTAACGCTTTACCCTTTATGTTCATCCTGAGAATCCCCATTCTTCTG +GTTATTACGTGTGTTGTGATGTTGTTTTTCAGCACTTTATTTCGTTTTATGCATGACTACCCGTGCTTTA +GCAGCATACTCTGCTAAAACATACCCGATTTTTATGATATTGGAATAGCTATTTTGACAGTTTATTAACA +ATCTGCGTGGGGATTGGCGTTTTGCCGGAGGGGAAATTGATTATTACAGAGGCCCAAAAAACAAAAACCC +CGGACTCTCATCCAGGGTTCTCTGCTTAATAGCGGAAATTACGCTTCAATGGCAGCACGCAATTTTTTCA +TCGCGTTCTTTTCCAGCTGGCGTACACGCTCAGCGGAAACGCCGTAACGGTCAGCCAGTTCCTGCAACGT +GGACTTGTTGTCTTCGTCCAGCCAGCGCGCACGGATGATGTCCTGGCTGCGTTCGTCCAGACCCTGCATC +GCGTCGGTCAGACGGTTTGCCGCCTGCTCTTCCCAGTTATCATCTTCAATGCCGTCGGCAAAGTTAGATG +ATTTATCCTGCAGATAGAGCACCGGAGCCATCGGCTGGCTGTCGGAATCGTCGTCGGAAGACAGGTCAAA +GGTCATGTCCTGTGCCGCCATACGTGATTCCATCTCACGTACGTCTTTGCTGGTTACGCCCAGTTCACGG +GCCACCATTTCGACTTCATCCTGGTTAAACCAGCCCAGACGCTGCTTGGTTTTACGCAGGTTGAAGAACA +GTTTGCGCTGCGCTTTGGTGGTCGCAACTTTGACGATACGCCAGTTACGCAGAACGTATTCGTGGATCTC +TGCTTTGATCCAGTGAACGGCGAAGGAGACCAGGCGCACACCCACTTCCGGGTTGAAACGGCGCACTGCT +TTCATCAGGCCGATGTTACCTTCCTGAATCAAATCCGCCTGTGGCAGGCCATAGCCCGCATAATTACGAG +CAATATGAACAACAAACCGCAGGTGAGACAGGATCAGCGTTTTAGCTGCTTCCAGATCGCCATGGTAATG +CAGCTTTTCAGCCAGCGCCCGCTCCTCGTCAGCCGACAACATCGGCCACGCGTTAGCTGCCCGGATGTAG +GAATCCAGGTTGCCAACTGGGGCTAAAGCTAAACTTTGCATTTTGTCAGTCATTCAAATCCTCTCAATCG +ATATCTTCTGGCGCTTCAGTGGTAGCAACAACTGTGCCAGAGCTTAAGAGCAACGAGGTTATCATTCACT +GTTTTATCAGACCGTGATTTTATCCACAAGTTCAATGCAAGCTTGTGAATAAATTACGCACAAAATGTGA +CATAGAGATGAAATACCGGGAAGAGACAACGGGGTCTCTTTCCCTGCTACGGAACCCATTGCAGGGAAAG +AGTATAACACGCTTTTATTATTCAGGCGTAAAGTGGCGTAAATGTTGTACCGTGGCAAGCCACGCTGCCA +CCCAGCCAATCATCGAGCATACCAGCAGCAATAGCAGGCATTCATCGAATGATAAGCCATTGATATCAAA +CTTCGTTCCGAAAACCTGTGCCACTTCCGCAACCGCCGATGACAATCGCAGCACCAGAATTTCTGACAAA +ATTAATGACAACAATGCGCCAGAAAATCCCAGCAGTGCGCCACCATACAGGAACGGGCGCAGGATGAATC +CATCTGTCGCACCAATCAGTTTCTGTACGTTAATGGAGTCACGGCGAGCAAAGATACTCAGACGCACACT +GTTACCGATGACGAGGAACACGGCCGCCACCATCAACACGCCGATCATCGCCGAAACGCGCCCGACCAGC +CCGGTCAACGCCGCCAGACGGGCAAACCAGCTGTCATCCATCCGCACTTCGTCAATGCCGTTAATCTGCG +TGATACGATCACGCAGCGTATTCAGTGATTCCGTCCCCTGGAAATCGAGTTTCGGGATCACCACCGCCAC +TGCCGGAAGCGGGTTTTCTTCCAGCATATCCAGCGCACCACCAAAACCAGACCAGTTACGGAACTCACCC +AGTGCGTCTTCACGAGAAAGATAGTTCACTTTCTCCACGCCTTGCTCGGCCTGCAACTGTGCCACCACGC +CCGCAGCAGCGTCATCGTCCAGCGTTTTTTGCAGATAAACAGTGATTTGCGGTGACGGATAATACTGCGT +CGCCGCCTGGTTAACGTTTTTGTACACCATATAACAGACGCTGGGCAGCGTCAGAGAAATGGCGATAACC +ATCACCGTTAAAAACGTGGCGAACGGTTTGCTTTTCAGATCCTGCAATGCGCCGTGGAAGGCATAGCGCA +CCTGTTCGTTGAAAACGTTGGTTTTGCGATTTACCGGTTTTGGCGAGGATTTCGCGCGTTTTGGTGCGTT +ACGACCGCCGTCGCCTGAGCCGCCGACCGATTTACGGAAGCGATCAAGACGCCCGCCAAACTGCCGAATA +TGATTGATTGCATCGCGCTTATTCATGGCCCACGCCTCCATGCAAGTGACCATCGCTCAGGGTGAGCATG +CGATAGGAACGCCGCGAGATCAGGTTGATGTCGTGCGTTGCCATCAATACGGTTACCCCAACGCGGTTAA +ACTCTTCAAACAGACGTAAAATGCCTTCCGACAGCGCGTCGTCCAGGTTACCAGTCGGTTCGTCCGCCAG +CAGTACCGCGGGCTTGTTCACCACCGCGCGGGCAATGCCAACACGCTGTTGTTCACCGCCCGAAAGCTGA +ATAGGGAAGTTCTTCGCTTTGTCCAGTAGCCCGACTTTATCCAGCGCCGCCGACACCCGGCGACGAATAT +CGTCACCGCTGGCACCGGCGATAATCAGCGGGATCGCCACGTTATCGTAGACAGTACGGTCCATCAGTAG +ATGGTGATCCTGGAAAATCATGCCAATCTGGCGGCGCAGAAACGGAACTTCACGGTTTTTCAGACGCGTG +ATGTCATGGCCGCTAAACCAGATTTTCCCGGCGCTGGGCCGCTCAATCCCACAGATCAGCTTCAGGAGGG +TACTTTTCCCTGCGCCGGAATGACCGGTCAGAAACGCCATCTCACCCGGCTGCATATGGAACGTAACGCC +CTGCAGCGCCTGTCTCCCACCGAGATAAGCCTTGCTGACATGTTCAAAGCGAATCATTGTTAATCCTCTC +GGGCAAAAAGTGCCTCTATAAAGTCGTCCGCCTTAAACGGACGCAAATCCTCAATACGTTCGCCGACACC +AATGTAGCGGATAGGGATACCAAACTGGTCAGCCACCGAGAAAATTACCCCGCCTTTCGCCGTGCCGTCC +AGTTTCGTTAGCGTGATGCCGGTTAAGCCAACGGCTTCATGGAACAGTTTGGCCTGGCTTACCGCGTTCT +GCCCGGTGCTGGCATCAATAGTCAGCATAACTTCATGCGGCGCTTCAACGTCGAGTTTCTTCATCACGCG +GACGATTTTCTTCAACTCTTCCATCAGGTGCGATTTGTTCTGCAGGCGTCCGGCTGTATCGGCAATCAGG +ACGTCGATATTACGCGCTTTAGCTGCCTGAATGGCGTCGAAGATAACAGAGGCGGAATCCGCCCCGGTAT +GCTGGGCAATCACCGGAATATTGTTGCGCTGACCCCAGACCTGAAGCTGTTCAACCGCAGCTGCACGGAA +AGTATCACCCGCCGCCAGCATCACCGATTTACCCTGCTGCTCAAACTGACGCGCCAGCTTACCAATCGTC +GTGGTTTTACCCACACCGTTGACGCCCACCATCAGGATCACAAACGGCGCTTTGCCTTCAACATTCAGCG +GCTCATCGACTTTCGCCAGAATCTCGCCCATCTCTTCTTTCAGCAGGCCATAGAGCGCCTCGGCGTCACG +AAGCTGCTTGCGGGATGCGCCTTCCGTCAGATTGGTGATAATTTTACGTGTGGTTTCCACACCCACATCG +GCGATCAAAAGCTGCTCTTCCAGCTCCTCAAACAGATCATCGTCGATTTTTTTACCGCGGAACAGGCTGA +TAAATCCGGAACCGAGATTTTCTTTGGTTTTTAACAGGCTGCGTTTCAGGCGCGCGAAAAAACCTTCTTT +GGTCGGTTTTTCCTGCTCCTGAGCGATTTCTTCCACCGGCTGCTCTTCTTCTGCCGGAGGAACCACCATC +ACCGCCTCTTCTGCCGCTTCGGCAGCCAGCGCCGTTTCCAGCTCTTCGTCGGTAATTTCTTCTTTAGCCG +CTTCTTCTTCCGCCGCTTCGACAATCTCTACGGTTTCCGCTTCAGCCTGCCACTCTTCTGGCGAAACCGC +TTCGGCGTTGACGTCTTCCGGCAACGGCAGCTCTTCACGTTCGATAGCCACTGGCTCCGGCGTTTCTTCT +ACGACCGGTTCCGGCTGTGCAACGACTTCCGCTTCAGGCTGCGCTTTTTCACTTTCAGCAACCTGTTCAG +TGACTTCCACAACGTCGGCAGCAAAAGTTTCCGCCTCGGCTTCAGTATGCGCTTGCGGCTGCTCTTCAAC +GGCTTGTTCAGAGGCCTTCACAGGCTCTTGCGCCTGAACGATTTCTTCTACAACCGGTTGTTCATTCTGA +ACTTCTGTCTCTTTTTCCGGGGTCTGCTCTTTTTGACCAAAGCCCAGCCAGGAAAAAAAGCCACGTTTTT +TTTCTTTCGCCATTTGCGACTACACTCCTCGCTGTTGCTTCATGGCACAGCGTTAACGCTATGTACATAG +CAGCTAAAAAAATGATGAAATAGTCTATCACTTAACTTAATTCACATCACCGCCTGCAAGTATGTGTTAT +CTGGCGGATTGAGCAATTTATCATGAAAAAACCGAATCATTCCGGCAGCGGCCAAATCCGCATTATTGGC +GGGCAGTGGCGAGGCCGTAAACTCCCGGTTCCTGATAGCCCAGGTCTGCGCCCCACCACCGACCGCGTAC +GCGAAACGTTGTTTAACTGGCTGGCTCCGGTCATTGTTGACGCCCAATGTCTGGATTGCTTCGCCGGGAG +CGGCGCGCTGGGGCTGGAAGCGTTATCGCGCTACGCTGCGGGGGCAACGTTGATTGAGATGGATCGCGCG +GTTTCTCAGCAGTTAATTAAGAATCTGGCGACACTAAAAGCAGGCAATGCACGCGTGGTGAACAGCAACG +CGATGTCATTCCTGGCGCAAAAAGGTACACCGCATAATATCGTGTTTGTCGATCCACCGTTCCGCCGTGG +CTTGTTAGAAGAGACGATAAATTTACTGGAAGATAACGGCTGGCTGGCTGACGAAGCCCTGATTTATGTC +GAAAGCGAAGTCGAAAACGGTCTGCCCACTGTTCCAGCAAACTGGTCATTACATCGGGAAAAAGTGGCGG +GTCAGGTGGCTTATCGGCTGTATCAACGCGAAGCACAAGGAGAAAGTGATGCTGATTAATATTGGTCGTT +TGTTAATGCTCTGCGTTTGGGGATTTTTAATCCTCAACCTGGTGCATCCCTTCCCACGCCCGCTGAATAT +CTTCGTTAACGTGGCGCTGATTTTTACCGTGCTGATGCATGGTATGCAGCTGGCGCTATTGAAATCCACT +TTACCGAAAGATGGCCCGCAGATGACCACCGCCGAAAAGGTACGGATTTTCCTTTTCGGCGTGTTTGAAC +TGCTGGCCTGGCAGAAGAAATTTAAAGTTAAAAAATAACCTTATTGTTCGCCTACAAAGCTGACAAAGCG +CGTTCCTTTATAGCTCAGCGTACCTTTATCGCCCACTGTCAGGGCGTGGTACTGCTGGGCGTCGAGGCGA +AACGTCTGCTCCATTCCTCCGCTTTGCGGTTTGAAGCTTGCCTCATAGCGTATACTGGTGCCTGCCGGAG +TCACTTCCTGCTGGCGCGAACGGCGATCGTTAATCGGTTTTTCCCGCTTGTTGCTCACCACCACCAGCTT +TTGCTGGAGCGGAGCCATATCATTATCAGCTTTTTCCCGTCGCTGTTGCATAAAACGAAACGATGCGGCG +ACGACAATTAAGCCAATGATAACAATAAAGAAAAGAGGTGGTTTGCTCATCTTTATCCCTCATCGGAAAA +TGCGGAAATAAGCATACCCTGCCAGTTATGGTGTTGTCATCCGTCCACCCTCGCCACTAAACTGGAAGCA +AGACCGTAGGCATTCCGCTTACGAAAAAATAACGAATTCAAGGAACTAAGATGCTTTGGTCGTTTATCGC +TGTCTGTCTTTCCGCATGGCTATCTGTGGATGCATCGTATCGTGGGCCAACCTGGCAACGCTGGGTGTTT +AAACCGTTAACCCTTCTTCTCCTGCTGTTACTGGCCTGGCAAGCGCCGATGTTCGACGCCATTAGCTATC +TGGTGCTGGCAGGGCTGTGCGCCTCACTGCTGGGCGATGCGCTAACCCTGTTGCCACGTCAACGTCTGAT +GTACGCCATCGGCGCGTTTTTCCTCTCGCACCTGCTGTACACCATCTATTTCGCCAGTCAGATGACGCTC +TCTTTCTTCTGGCCTCTACCACTGGTGCTGCTGGTTCTGGGTGCGCTGTTACTGGCGATTATCTGGACGC +GCCTGGAAGAGTACCGTTGGCCTATCTGCACGTTTATCGGCATGACGCTGGTGATGGTGTGGCTGGCAGG +TGAACTGTGGTTCTTCCGTCCGACCGCTCCGGCGCTCTCTGCGTTTGTTGGCGCTTCGTTGCTGTTTATC +AGTAACTTTGTCTGGCTGGGGAGCCACTATCGCCGACGCTTCCGTGCGGATAACGCGATTGCTGCGGCCT +GCTACTTTGCCGGTCACTTCCTGATCGTCCGCTCGCTGTATCTCTGATAAAACTTGACTCTGGAGTCGAC +TCCAGAGTGTATCCTTCGGTTAATGAGAAAAAACTTAACCGGAGGATGCCATGTCGACTCCTGACAATCA +CGGCAAGAAAGCCCCTCAATTTGCTGCGTTCAAACCGCTAACCACGGTACAGAACGCCAACGACTGTTGC +TGCGACGGCGCATGTTCCAGCACGCCAACTCTCTCTGAAAACGTCTCCGGCACCCGCTATAGCTGGAAAG +TCAGCGGCATGGACTGCGCCGCCTGTGCGCGCAAGGTAGAAAATGCCGTGCGCCAGCTTGCAGGCGTGAA +TCAGGTGCAGGTGTTGTTCGCCACCGAAAAACTGGTGGTCGATGCCGACAATGACATTCGTGCACAAGTT +GAATCTGCGCTGCAAAAAGCAGGCTATTCCCTGCGCGATGAACAGGCCGCCGAAGAACCGCAAGCATCAC +GCCTGAAAGAGAATCTGCCGCTGATTACGCTAATCGTGATGATGGCAATCAGCTGGGGTCTGGAGCAGTT +CAATCATCCGTTCGGGCAACTGGCGTTTATCGCGACCACGCTGGTTGGGCTGTACCCGATTGCTCGTCAG +GCATTACGGTTGATCAAATCCGGCAGCTACTTCGCCATTGAAACCTTAATGAGCGTAGCCGCTATTGGTG +CACTGTTTATTGGCGCAACGGCTGAAGCTGCGATGGTGTTGCTGCTGTTTTTGATTGGTGAACGACTGGA +AGGCTGGGCCGCCAGCCGCGCGCGTCAGGGCGTTAGCGCGTTAATGGCGCTGAAACCAGAAACCGCCACG +CGCCTGCGTAAGGGTGAGCGGGAAGAGGTGGCGATTAACAGCCTGCGCCCTGGCGATGTGATTGAAGTCG +CCGCAGGTGGGCGTTTGCCTGCCGACGGTAAACTGCTCTCACCGTTTGCCAGTTTTGATGAAAGCGCCCT +GACCGGCGAATCCATTCCGGTGGAGCGCGCAACGGGCGATAAAGTCCCTGCTGGTGCCACCAGCGTAGAC +CGTCTGGTGACGTTGGAAGTGCTGTCAGAACCGGGAGCCAGCGCCATTGACCGGATTCTGAAACTGATCG +AAGAAGCCGAAGAGCGTCGCGCTCCCATTGAGCGGTTTATCGACCGTTTCAGCCGTATCTATACGCCCGC +GATTATGGCCGTCGCTCTGCTGGTGACGCTGGTGCCACCGCTGCTGTTTGCCGCCAGCTGGCAGGAGTGG +ATTTATAAAGGGCTGACGCTGCTGCTGATTGGCTGCCCGTGTGCGTTAGTTATCTCAACGCCTGCGGCGA +TTACCTCCGGGCTGGCGGCGGCAGCGCGTCGTGGGGCGTTGATTAAAGGCGGAGCGGCGCTGGAACAGCT +GGGTCGTGTTACTCAGGTGGCGTTTGATAAAACCGGTACGCTGACCGTCGGTAAACCGCGCGTTACCGCG +ATTCATCCGGCAACGGGTATTAGTGAATCTGAACTGCTGACACTGGCGGCGGCGGTCGAGCAAGGCGCGA +CGCATCCACTGGCGCAAGCCATCGTACGCGAAGCACAGGTTGCTGAACTCGCCATTCCCACCGCCGAATC +ACAGCGGGCGCTGGTCGGGTCTGGCATTGAAGCGCAGGTTAACGGTGAGCGCGTATTGATTTGCGCTGCC +GGGAAACATCCCGCTGATGCATTTACTGGTTTAATTAACGAACTGGAAAGCGCCGGGCAAACGGTAGTGC +TGGTAGTACGTAACGATGACGTGCTTGGTGTCATTGCGTTACAGGATACCCTGCGCGCCGATGCTGCAAC +TGCCATCAGTGAACTGAACGCGCTGGGCGTCAAAGGGGTGATCCTCACCGGCGATAATCCACGCGCAGCG +GCGGCAATTGCCGGGGAGCTGGGGCTGGAGTTTAAAGCGGGCCTGTTGCCGGAAGATAAAGTCAAAGCGG +TGACCGAGCTGAATCAACATGCGCCGCTGGCGATGGTCGGTGACGGTATTAACGACGCGCCAGCGATGAA +AGCTGCCGCCATCGGGATTGCAATGGGTAGCGGCACAGACGTGGCGCTGGAAACCGCCGACGCAGCATTA +ACCCATAACCACCTGCGCGGCCTGGTGCAAATGATTGAACTGGCACGCGCCACTCACGCCAATATCCGCC +AGAACATCACTATTGCGCTGGGGCTGAAAGGGATCTTCCTCGTCACCACGCTGTTAGGGATGACCGGGTT +GTGGCTGGCAGTGCTGGCAGATACGGGGGCGACGGTGCTGGTGACAGCGAATGCGTTAAGATTGTTGCGC +AGGAGATAAGGCAAACCGATCGCAACATTGAGCGCGATCGGTCCCCTCGCCCCTCTGGGGAGAGGGTTAG +GGTGAGGGGAAAAGGCGGCATCGAAGCCAATCAGCCCCTATCAACCGCCTTTACGAATCAAATAACGATA +AGGCAGTCCATCCGTCTCTTTAGCAACCAGTTCGTGTTCCATAAAGGTACAAAACCCAGGAATATCGCGG +GTAGTGGCCGGATCGTCGGCGATAATCAGCAACGTTTCGCCAGGCTGCATATTGCGCACGGTTTTGCGCA +CCATCATCACCGGTTCCGGGCAGCGCAGGCCAAGCGCGTCGAGTGTGTGGTCAGGGCTGGAAAAGAGATC +GGTCATTTTCTTCTCATCACTTAAAAAAACGGCGCTAGTTTACGCCCTGTGAGTCCGTAAGCAAACTAGG +TTAACGATTGCGTGAAAATTAACCATTGCATTGTCAACGTAAAGCAGTATCATGCGGCGGCTCGAAAAAA +GGGTAAGCACGTTATTATGTTAAGGTAACAGACGTGTCGTACGTATTGGGTTCCCTCACCCCAATGGTTA +ATCAAAAAGGTACAATATGAACGTTTTCTCGCAAACTCAACGCTATAAGGCGTTGTTCTGGTTATCGTTA +TTTCATCTGCTGGTGATCACCTCCAGTAACTATCTGGTTCAGCTTCCCGTCTCCATTTTGGGTTTCCATA +CCACCTGGGGCGCGTTTAGCTTTCCGTTTATTTTTCTTGCTACCGACCTGACCGTGCGTATTTTTGGCGC +ACCGCTGGCCCGACGCATTATCTTCGCGGTAATGATCCCTGCGTTATTAATCTCCTACGTCATCTCGTCG +CTATTCTATATGGGTTCCTGGCAGGGATTCGGCGCACTCGCCCACTTCAACCTGTTTGTCGCCCGTATCG +CCACCGCCAGTTTCATGGCCTACGCGCTGGGGCAAATCCTCGACGTGCACGTTTTTAACCGCCTGCGTCA +GAGTCGCCGCTGGTGGCTGGCACCGACAGCGTCCACACTGTTCGGTAACGTCAGCGACACGCTGGCCTTT +TTCTTCATTGCCTTCTGGCGTAGCCCGGATGCCTTTATGGCTGAACACTGGATGGAAATCGCGCTGGTCG +ATTACTGTTTCAAAGTGTTAATCAGTATCGTTTTCTTCCTGCCAATGTATGGCGTATTACTCAATATGCT +GTTGAAAAGACTGGCAGATAAATCCGAAATCAACGCTTTGCAGGCGAGTTAAAGGTTCGTTATCAGAGTT +GTGATAAGATGGATGAATGAGCCGTTATGGCCGTTTATCGAAAGGAAGAAGTCAATGCGCAATCTGGTTA +AATATGTCGGAATTGGCCTGCTGGTTATGGGGCTTGCGGCCTGTGATGATAAAGACACTAACGCTACGGC +GCAGGGTTCGGTCGCGGAAAGTAACGCTACCGGGAATCCCGTCAACCTGCTTGATGGCAAGTTAAGTTTC +TCGCTGCCAGCGGATATGACCGACCAGAGCGGTAAGCTGGGAACGCAGGCCAATAACATGCATGTCTGGT +CCGACGCCACCGGGCAGAAAGCAGTCATCGTCATCATGGGCGATGATCCGAAAGAAGATCTGGCGGTGCT +GGCGAAGCGTCTGGAAGATCAGCAACGTAGCCGCGATCCGCAGCTGCAAGTGGTAACCAATAAAGCCATT +GAGCTGAAAGGTCACAAAATGCAGCAGTTAGACAGTATTATCTCCGCGAAAGGCCAGACGGCGTACTCTT +CCGTTATTCTGGGTAACGTGGGTAATCAACTGCTGACCATGCAAATTACGCTGCCCGCTGACGATCAGCA +AAAAGCGCAGACCACCGCAGAAAACATCATTAATACGCTGGTTATTCAGTAAGTTTTAAGATGATGAGGC +GGCCTCAGGGACGTGTTCCGGAGGCCGTTTTTTTAATCGCCACGTCAGTAATAACGCGATTGCGACCAGT +CCCGCCGCCGCCAGATAAATCACCGGTACGCCCGCCCAGCTCATCACCAGCCCAGCCAGTGGTCCAGTCA +CGCCAAGCGATAAATCCATAAATACGGTGTAAGTTGCCAGCGCCGCCCCCTGATTTTGCTGCGGAACCGC +TTTTACCGCCACTACACCCAATGCCGGGAACACCAGCGAAAACCCGGCCCCCGCCAGTAAGACGCCGATT +TTCGCCATCCACGGCATAGTCGCCACGCCAACCAGTAGCAGGCCGATTATCTCAACGCTAAAGCAAATCA +TCGCTACGTTTAAGCCACCGATACGGTTAATGCCGTTAGGGAATAACAAACGCGTACCGACAAACGCACA +GCTAAACAGCGTCAGCGCGAAAGCCGCACCGTCCCAACCTTTAGCGTCATAAAACAGCGTGATAAAGGTG +GCGATGACGCCAAATCCGGCGGAAGCCAGTGCCAGCGCCATACCGTACAGCCAGACGCGCCCAAGCACCG +CGCGAAACGGCAGCGGTTTGCCTTTACTGGCTTTTACCGTCGGACGCGGGATCGCCAACAAAATGGCCAC +CAGCGCCACGCCCATAATGATTAACGCTAACGCCTGCAAGCCGCCCCAGTGATAAAACACGACGCCTAAC +GGCGCACCCATCGCCATCGCCCCGTAAGTGACAATGCCGTTCCACGAAATCACCCGCCCGATATGCAGCG +AGCCAACCACGCCAACGCCCCATAGGGTCGATCCCGTTCCGGCAAAACTTTGCCCAATCCCAAGGATGAC +GCGCCCCAGGCAAAGTAATAACAGGCTGATGACAGGCAGACTGGCGGTTAATCCTGCCGTCAGATACCCC +AGACCGCTCAAAAAGCAGCCGCATAAACCGAAGACGACAATCTTTTTGGGTCCCAGCGAATCGGCGTAAC +GTCCGGCATGAGGGCGGCTCAGCAAGGTGGCGAAATATTGCAGGCTGATAACCAATCCTGCCCAGAAGGC +GCTAAAGCCCATCACATCATGGACATAGCCCGGTAATACAGCGAGCGGCAACCCGATGGTGAGGTAGCTG +GCGAAGTTAAACATGACTATAGAGACAATGCGCAAATTCAGGCGCAATCCGTTTAGCGCGGGTTCGGCTA +CGGGTTCGGGCATGAGGATCACCACATTTTTACAACAGTGTTTCATTTTTACCACGTGCTGACGTGAAAA +TCAGCAGTAAGAATCAGAATATTGCTGGCGTGACTCCCGCTACACTTAATACAAAAAGTCACAAGGAAGC +CCCAATGGAAACCCCTCAACCCGATAAAACGGGCATGCACATTCTGCTCAAGCTGGCCTCGCTGGTAGTG +ATCCTCGCGGGCATTCACGCAGCGGCAGATATCATTGTGCAGCTGTTACTGGCGCTGTTTTTTGCCATCG +TCCTCAACCCGCTCGTCACCTGGTTTATTCGTCGGGGAGTACAACGCCCCGTTGCCATTACGATTGTAGT +GGTGGTGATGCTGATCGCACTAACCGCGCTGGTCGGCGTACTGGCGGCATCGTTTAACGAATTTATCTCT +ATGCTGCCGAAGTTTAATAAGGAGCTGACGCGCAAACTTTTTAAATTGCAGGAGATGTTGCCTTTTCTTA +ATTTGCATATGTCGCCGGAGCGAATGCTGCAGCGGATGGACTCGGAAAAAGTGGTTACCTTCACCACAGC +GCTAATGACCGGGCTTTCCGGGGCAATGGCGAGCGTGCTTTTGCTGGTGATGACCGTAGTTTTTATGCTG +TTTGAAGTGCGCCACGTCCCTTACAAAATGCGTTTTGCGCTGAATAATCCACAGATTCACATCGCGGGAT +TACACCGCGCACTTAAAGGCGTTTCGCACTATCTTGCATTGAAGACGCTACTCAGTTTATGGACAGGTGT +CATCGTCTGGCTGGGGCTGGAGCTGATGGGGGTGCAGTTTGCGCTGATGTGGGCAGTACTGGCGTTTTTG +CTCAACTACGTGCCCAATATCGGCGCGGTAATTTCCGCCGTACCGCCAATGATTCAGGTGCTGCTGTTTA +ATGGTGTTTACGAATGTATTCTGGTCGGCGCATTGTTTTTAGTGGTCCATATGGTCATCGGCAATATTTT +AGAACCACGGATGATGGGCCATCGCCTGGGGATGTCCACCATGGTGGTATTTCTTTCATTGTTAATTTGG +GGATGGCTGCTCGGCCCGGTAGGGATGCTACTTTCGGTGCCATTAACCAGCGTGTGTAAAATCTGGATGG +AAACCACCAAAGGCGGTAGCAAACTGGCGATTTTACTGGGGCCGGGCAGACCGAAAAGTCGGTTACCGGG +ATGAGGCGACAAGTGATACGATACGCACTTTCATTTTCCATTAAACGTTGGCCCTGATATGTATCGGATA +GTTCTGGGGAAAGTTTCGACCTTAAGCGCAGCTCCACTGCCACCGGGTTTACGCGAGCAAGCACCGCAAG +GTCCACGACGCGAACGCTGGCTGGCGGGGCGTGCATTGCTTTCGCACACGCTTTCCCCGCTACCGGAGAT +CATCTATGGCGAACAAGGCAAACCTGCATTTGCGCCGGAAATGCCGCTATGGTTCAACTTAAGCCATAGC +GGTGACGATATCGCCCTGCTGTTGAGTGATGAAGGCGAAGTCGGCTGCGATATCGAAGTGATTCGCCCGC +GCGCCAACTGGCGCTGGCTGGCGAACGCCGTATTCAGCCTCGGGGAACACGCTGAGATGGACGCCGTGCA +TCCTGATCAGCAACTGGAAATGTTCTGGCGCATCTGGACGCGCAAAGAAGCCATCGTTAAACAGCGTGGC +GGCAGCGCCTGGCAAATCGTCAGCGTAGACAGCACCTATCACTCCTCGCTGTCAGTCAGCCATTGTCAGC +TTGAAAATTTAAGCCTTGCGATCTGCACCCCTACTCCCTTTACGCTCACCGCCGACAGTGTGCAATGGAT +CGATTCAGTTAACTGATCCGCCCACCCGACTGCCCATCTATTGATCCAGAACAGGTAATCAGTATGACGA +ATACTTAAAATCGTCATACTTATTTCCGCCATCTATTTTAATCCATTGGGGTTACCATGCTCTCCACACT +CCGCCGCACTCTATTTGCGCTGCTGGCTTGTGCGTCTTTTATCGTCCATGCCGCTGCACCAGATGAAATC +ACCACCGCCTGGCCGGTGAATGTCGGGCCACTAAACCCGCACCTTTACACGCCTAACCAGATGTTCGCCC +AGAGCATGGTTTATGAACCATTGGTGAAATATCAGGCAGACGGTTCGGTGATCCCGTGGCTGGCAAAAAG +CTGGACTCATTCAGAAGATGGTAAAACCTGGACCTTCACCCTGCGTGATGACGTGAAATTCTCCAACGGT +GAACCGTTCGATGCCGAGGCGGCGGCAGAAAACTTCCGCGCAGTGCTCGATAACCGTCAACGTCACGCCT +GGCTGGAGCTGGCAAACCAGATTGTTGATGTTAAAGCACTCAGTAAAACAGAGCTGCAAATTACCCTGAA +AAGCGCCTACTATCCTTTCCTGCAAGAACTGGCCCTGCCCCGTCCTTTCCGTTTTATCGCTCCCTCGCAG +TTTAAAAACCATGAAACCATGAACGGAATTAAAGCGCCGATTGGCACCGGACCGTGGATTTTGCAGGAAT +CGAAACTGAATCAGTACGATGTCTTCGTCCGTAACGAAAACTACTGGGGCGAAAAGCCAGCGATTAAAAA +GATCACCTTTAACGTCATCCCGGACCCGACTACCCGCGCGGTGGCGTTTGAAACTGGCGATATCGACCTG +CTGTACGGAAACGAAGGGTTATTACCGCTCGATACCTTCGCCCGCTTTAGCCAGAATCCGGCTTACCACA +CCCAACTGTCACAGCCGATCGAAACCGTGATGCTGGCGCTCAATACCGCCAAAGCCCCCACCAACGAGCT +GGCAGTACGTGAAGCTCTTAATTACGCGGTAAACAAAAAATCGCTGATTGATAACGCGTTGTATGGCACC +CAGCAGGTCGCCGACACCCTGTTTGCCCCTTCTGTGCCCTACGCCAACCTCGGCCTGAAACCGAGCCAGT +ACGATCCGCAAAAAGCGAAAGCGTTGCTGGAAAAAGCCGGTTGGACGCTGCCTGCGGGCAAAGACATCCG +CGAGAAAAATGGTCAGCCGCTGCGCATTGAACTTTCGTTCATCGGCACCGATGCGTTAAGCAAATCGATG +GCGGAAATCATTCAGGCTGATATGCGCCAGATTGGCGCAGATGTCTCGCTGATTGGCGAAGAAGAGAGCA +GTATCTATGCTCGTCAGCGCGACGGTCGTTTTGGCATGATTTTCCACCGCACCTGGGGCGCGCCATATGA +TCCACACGCCTTCCTCAGTTCAATGCGCGTACCGTCACACGCTGACTTCCAGGCACAGCAAGGATTAGCC +GACAAACCGCTGATTGATAAAGAGATCGGCGAAGTGCTGGCGACCCATGACGAAACGCAACGTCAGGCGC +TGTATCGCGACATTCTGACCCGTCTGCATGACGAGGCGGTTTATCTGCCTATCAGTTACATCTCAATGAT +GGTGGTATCAAAACCGGAGCTGGGTAACATCCCCTACGCGCCGATCGCCACCGAAATTCCGTTCGAACAG +ATTAAACCGGTGAAACCTTAATGTTGCGTTACGTATTACGCCGCTTTCTGCTGCTGATCCCGATGGTGCT +CGCCGCCTCGGTGATCATTTTTCTGATGCTGCGCCTCGGTACCGGCGACCCGGCGCTCGATTATTTGCGT +CTGTCTAACCTGCCGCCGACGCCGGAGATGCTGGCCTCTACCCGCACCATGCTGGGACTGGATCAGCCGC +TGTACGTCCAGTACGGCACCTGGTTGTGGAAGGCGCTGCATCTTGACTTTGGTATCTCATTCGCCAGCCA +ACGCCCGGTACTGGACGATATGCTGAACTTCCTGCCCGCCACGCTGGAACTTGCAGGTGCGGCGCTGGTA +TTAATTCTGCTCACTTCCGTACCGCTCGGTATCTGGGCGGCGCGCCATCGCGACCGTCTGCCGGATTTCG +CCGTACGTTTCATCGCGTTTCTTGGCGTGTCGATGCCTAACTTCTGGCTGGCGTTTTTACTGGTGATGGC +GTTTTCGGTGTATCTGCAATGGCTACCCGCGATGGGTTACGGCGGCTGGCAGCACATCATTTTGCCTGCG +GTTTCCATTGCCTTTATGTCGCTGGCGATTAACGCGCGTTTACTGCGCGCCAGTATGCTGGACGTCGCCG +GTCAGCGTCACGTCACCTGGGCGCGTCTGCGCGGCCTGAACGACAAACAGACCGAACGTCGCCACATCCT +GCGCAATGCCTCGCTGCCGATGATCACCGCCGTGGGGATGCATATCGGCGAACTGATTGGCGGGACGATG +ATTATCGAAAACATCTTTGCCTGGCCGGGCGTCGGGCGCTATGCGGTGTCGGCGATTTTTAACCGTGACT +ATCCGGTGATCCAGTGCTTTACGCTGATGATGGTGGTGGTTTTTGTGGTCTGTAATTTGATTGTCGATTT +GCTCAACGCCGCGCTGGACCCGCGCATTCGTCGTCATGAAGGAGCGCACGCGTGAACTTTTTCCTCTCTT +CCCGCTGGTCGGTACGCCTGGCGCTGATCATTATCGCCCTGCTGGCGCTGATTGCGCTCACCAGCCAGTG +GTGGCTGCCGTATGACCCACAGGCGATTGATTTGCCGTCGCGCCTGCTTTCGCCGGATGCGCAGCACTGG +CTGGGCACCGATCACTTAGGTCGCGATATTTTCTCGCGGCTGATGGCAGCGACCCGCGTGTCGCTCGGTT +CGGTAATGGCCTGCCTGCTGCTGGTGCTGACATTAGGGCTGGTTATTGGCGGCAGCGCCGGGTTGATTGG +CGGGCGCGTTGATCAGGCCACCATGCGCGTCGCCGATATGTTTATGACCTTCCCGACCTCGATTCTGTCG +TTCTTTATGGTTGGCGTGCTCGGCACCGGGCTGACCAACGTAATTATCGCCATCGCCCTGTCGCACTGGG +CGTGGTATGCACGCATGGTGCGCAGCCTGGTGATTTCACTACGCCAACGCGAGTTTGTGCTGGCGTCACG +GCTTTCCGGTGCGGGCCATGTGCGGGTGTTTGTCGATCATCTGGCAGGCGCGGTGATCCCTTCGCTGCTG +GTGCTGGCAACGCTGGATATCGGCCATATGATGCTGCACGTCGCGGGGATGTCTTTCCTTGGCCTCGGTG +TGACCGCGCCGACCGCCGAATGGGGCGTGATGATTAACGACGCGCGCCAGTATATCTGGACCCAGCCGCT +GCAAATGTTCTGGCCGGGGCTGGCGCTGTTTATCAGCGTGATGGCCTTTAACCTGGTGGGTGACGCACTG +CGCGATCATCTGGACCCTCATCTGGTGACGGAGCACGCACACTAATGCCGCAACAGATTGAACTACGTAA +TATCGCGCTACAGGCCGCGCAGCCGCTGGTACACGGTGTATCGTTAACCCTGCAACGCGGGCGCGTGCTG +GCGTTAGTCGGCGGTAGCGGCAGCGGGAAATCATTAACCTGCGCCGCAACGCTGGGCATTTTGCCCGCTG +GCGTTCGCCAGACGGCGGGGGAAATTTTAGCCGATGGCAAACCGGTTTCGCCTTGCGCCCTGCGCGGCAT +CAAAATTGCCACCATCATGCAGAACCCGCGCAGCGCCTTTAATCCACTGCACACCATGCACACCCACGCG +CGGGAAACCTGCCTGGCGTTAGGGAAACCCGCCGATGACGCTACGCTTACCGCTGCCATAGAAGCGGTGG +GGCTGGAAAACGCCGCGCGCGTGCTGAAGCTGTACCCGTTCGAGATGAGCGGCGGCATGTTGCAGCGCAT +GATGATTGCGATGGCGGTGCTGTGTGAATCACCGTTTATCATCGCCGATGAACCGACCACCGACCTTGAC +GTGGTAGCACAGGCGCGCATCCTCGATCTGCTGGAAAGCATTATGCAAAAACAAGCGCCGGGAATGCTGC +TGGTGACCCATGATATGGGCGTTGTGGCGCGTCTGGCGGATGACGTGGCGGTGATGTCTGACGGTAAGAT +TGTCGAACAGGGCGATGTAGAAACGCTGTTTAACGCCCCCAAACATACAGTGACGCGCAGCCTGGTTTCC +GCTCATCTCGCCCTCTACGGTATGGAGCTGGCATCATGACTTTACTTAACATCTCCGGCCTTTCCCATCA +CTATGCGCACGGTGGATTTAACGGAAAACATCAACATCAGGCGGTGCTGAATAACGTTTCCCTGACCCTG +AAAAGCGGCGAAACCGTCGCCCTGCTGGGGCGCAGCGGCTGCGGGAAAAGTACCCTCGCGCGGTTGCTGG +TGGGTTTAGAATCGCCCGCGCAGGGGAATATTAGCTGGCGTGGCGAACCGCTGGCGAAACTCAATCGCGC +CCAGCGTAAAGCGTTCCGCCGCGATATTCAGATGGTATTTCAGGACTCCATCAGCGCCGTGAATCCGCGC +AAAACCGTGCGCGAGATCCTGCGTGAACCGATGCGCCACCTGCTATCACTGAAAAAATCCGAACAACTGG +CGCGCGCCAGCGAAATGCTGAAGGCGGTCGATCTCGATGACAGCGTTCTCGACAAACGCCCACCGCAGTT +AAGCGGCGGCCAGCTCCAGCGCGTCTGCCTGGCTCGCGCGCTGGCGGTCGAACCGAAACTACTGATTCTG +GATGAAGCCGTTTCTAACCTTGATCTCGTGTTACAGGCGGGTGTCATTCGCCTGCTGAAAAAGCTACAAC +AACAGTTTGGCACCGCCTGCCTGTTCATCACCCACGACTTACGCCTGGTAGAACGCTTTTGCCAGCGGGT +AATGGTTATGGACAACGGACAAATCGTCGAAACCCAGGTGGTGGGAGAGAAATTAACCTTTTCCTCTGAC +GCCGGACGTGTGCTACAAAACGCGGTATTACCCGCATTCCCCGTGCGCCGTCGCACCACAGAAAAGGTTT +AACGCAAATGCAACGAGTCACCATCACGCTTGATGACGATTTACTGGAGACGCTGGACAGCCTGAGCCAG +CGTCGTGGTTATAACAACCGTTCCGAAGCTATCCGCGACATTCTGCGTAGCGCCCTGGCGCAAGAGGCCA +CCCAGCAGCACGGCACGCAAGGTTTCGCGGTGCTGTCGTATGTGTATGAACACGAAAAACGCGACTTAGC +CAGCCGCATTGTCTCCACCCAGCATCATCACCACGACCTCTCCGTCGCCACGCTGCATGTGCACATCAAC +CACGACGACTGTCTGGAAATCGCCGTGTTGAAAGGTGACATGGGTGACGTGCAGCATTTTGCCGATGACG +TTATCGCCCAGCGCGGCGTGCGGCACGGGCATTTGCAGTGCTTGCCGAAGGAAGATTGAGTCTATTATTG +GGTCCTTTGGTGAACGATCAACAAAGGGCCACTAGCACACCTGATTCCTCTCTAAATACCCTATCCGAAC +CTTCTCTTTTGTAACGTTCTAAATATATTCCTAAAAATCTTCAATTCATTGTGACCACAAGTTTTTCTTC +GCTTTTTCGTATGAAGATACTGTCATTAAAATAATAGAAAAGGATTTTACGATGAGCGGAAAACCGGCGG +CGCGTCAGGGTGACATGACGCAGTATGGCGGTAGCATTGTTCAGGGTTCAGCCGGGGTACGTATTGGTGC +CCCCACCGGCGTGGCCTGTTCGGTGTGCCCCGGCGGAGTGACGTCCGGCCATCCGGTCAATCCCCTGCTC +GGTGCAAAGGTCCTTCCCGGTGAAACCGACATCGCCCTGCCCGGCCCGCTGCCGTTCATCCTCTCCCGCA +CCTACAGCAGTTACCGGACAAAAACGCCCGCGCCGGTGGGGAGCCTCGGCCCCGGCTGGAAAATGCCTGC +GGATATCCGCTTACAGCTGCGCGATAACACACTGATACTCAGTGATAACGGCGGCAGAAGCCTGTATTTT +GAGCACCTGTTTCCCGGTGAGGACGGTTACAGCCGCAGCGAGTCACTGTGGCTGGTGCGCGGCGGCGTGG +CGAAACTGGATGAAGGTCACCGGCTGGCCGCACTCTGGCAGGCGCTGCCGGAAGAACTCCGCTTAAGTCC +GCATCGTTATCTGGCGACAAACAGTCCGCAGGGGCCGTGGTGGCTGCTCGGTTGGTGTGAGCGGGTGCCG +GAAGCGGATGAGGTGCTGCCTGCGCCGCTGCCGCCGTACCGGGTACTGACCGGGCTGGTGGACCGCTTCG +GGCGCACACAGACGTTCCACCGCGAAGCCGCCGGTGAATTCAGCGGCGAAATCACCGGCGTGACGGATGG +TGCCTGGCGTCACTTCCGGCTGGTACTGACCACGCAGGCGCAGCGGGCAGAAGAAGCCCGGCAGCAGGCC +ATTTCCGGCGGGACGGAACCGTCCGCTTTTCCTGATACCCTGCCGGGTTACACCGAATATGGCCGGGACA +ACGGCATCCGTCTGTCTGCCGTGTGGCTGACGCACGACCCGGAATACCCGGAGAATTTACCTGCCGCGCC +GCTGGTGCGCTATGGCTGGACGCCACGCGGCGAACTGGCGGTGGTGTATGACCGTAGTGGCAAACAGGTG +CGCAGCTTTACTTACGATGATAAATACCGGGGCCGGATGGTGGCGCACCGTCACACGGGCCGGCCGGAAA +TCCGTTACCGTTACGACAGCGACGGGCGGGTGACAGAACAGCTAAACCCGGCAGGCTTAAGCTACACGTA +TCAGTATGAGAAAGACCGCATCACCATCACCGACAGCCTGGACCGCCGTGAAGTGCTGCACACGCAGGGC +GAAGCCGGGCTGAAGCGGGTGGTGAAAAAGGAACACGCGGACGGCAGCGTCACGCAGAGTCAGTTTGACG +CCGTGGGCAGGCTCAGGGCACAGACGGATGCCGCAGGCAGGACAACAGAGTACAGCCCGGATGTGGTGAC +GGGCCTCATCACGCGCATAACCACGCCGGATGGCAGGGCATCGGCGTTTTACTATAACCACCACAACCAG +TTAACGTCAGCCACCGGGCCTGACGGGCTGGAATTGCGCCGGGAATATGATGAATTGGGCCGTCTGATTC +AGGAAACTGCCCCTGACGGCGATATCACCCGCTACCGTTATGATAATCCACACAGTGACTTACCCTGCGC +AACGGAAGATGCCACCGGCAGCCGGAAAACCATGACGTGGAGCCGTTACGGTCAGTTGCTGAGCTTCACC +GACTGTTCCGGTTATGTAACCCGTTATGACCATGACCGCTTCGGGCAGATGACGGCGGTGCACCGCGAGG +AAGGGCTGAGTCAGTACCGCGCATACGACAGCCGTGGACAGTTAATTGCCGTGAAAGACACGCAGGGCCA +TGAAACGCGGTATGAATACAACATCGCCGGTGACCTGACCGCCGTCATTGCCCCGGACGGCAGCAGAAAC +GGGACACAGTACGATGCGTGGGGAAAGGCCGTCCGTACCACGCAGGGCGGGCTGACGCGCAGTATGGAAT +ACGATGCTGCCGGACGGGTCATCCGCCTGACCAGTGAAAACGGCAGCCACACCACCTTCCGTTACGATGT +ACTTGACCGGCTGATACAGGAAACCGGCTTTGACGGCCGCACACAGCGTTATCACCACGACCTGACCGGC +AAACTTATCCGCAGCGAGGATGAGGGTCTGGTCACCCACTGGCACTATGACGAAGCAGACCGCCTCACGC +ACCGCACCGTGAAGGGTGAAACCGCAGAGCGGTGGCAGTATGACGAACGTGGCTGGCTGACAGACATCAG +CCATATCAGCGAAGGGCACCGGGTGGCGGTGCATTACAGGTATGATGAGAAAGGCCGGCTGACCGGTGAG +CGTCAGACGGTGCATCACCCGCAGACGGAAGCACTGCTCTGGCAGCATGAGACCAGACATGCGTACAACG +CGCAGGGGCTGGCGAACCGCTGTATACCGGACAGCCTGCCCGCCGTGGAATGGCTGACCTACGGCAGCGG +TTACCTGGCAGGCATGAAACTCGGCGACACACCGCTGGTGGAGTACACCCGCGACCGCCTGCACCGGGAA +ACGCTGCGCAGCTTCGGCCGTTATGAACTCACCACCGCTTATACCCCTGCCGGGCAGTTACAGAGCCAGC +ACCTGAACAGCCTGCTGTCTGACCGCGATTACACCTGGAACGACAACGGCGAACTCATCCGCATCAGCAG +CCCGCGCCAGACCCGGAGTTACAGCTACAGCACCACCGGCAGGCTGACCGGCGTTCACACCACCGCAGCG +AATCTGGATATCCGCATCCCGTATGCCACAGACCCGGCAGGTAACCGCCTGCCCGACCCGGAGCTGCACC +CGGACAGCACCCTCAGCATGTGGCCGGATAACCGTATCGCCCGTGACGCGCACTATCTTTACCGGTATGA +CCGTCACGGCAGGCTGACAGAGAAAACCGACCTCATCCCGGAAGGGGTTATCCGCACGGATGATGAGCGG +ACTCACCGGTACCATTACGACAGTCAGCACCGGCTGGTGCACTACACGCGGACACAATATGAAGAGCCGC +TGGTCGAAAGTCGCTATCTTTACGACCCGCTGGGCCGCAGGGTGGCAAAACGGGTGTGGCGGCGTGAACG +GGACCTGACGGGCTGGATGTCGCTGTCACGGAAACCGCAAGTGACCTGGTACGGCTGGGACGGCGACCGG +CTGACCACGATACAGAACGACAGGAGCCGCATCCAGACGATTTATCAGCCGGGGAGCTTCACGCCACTCA +TCAGGGTCGAAACTGCCACCGGTGAGCTGGCGAAAACGCAGCGCCGCAGCCTGGCGGATGCCCTTCAGCA +GTCCGGCGGCGAAGACGGTGGCAGTGTGGTGTTCCCGCCGGTGCTGGTGCAGATGCTCGACCGGCTGGAA +AGTGAAATCCTGGCTGACCGGGTGAGTGAGGAAAGCCGCCGCTGGCTGGCATCGTGCGGCCTGACCGTGG +AGCAGATGCAAAACCAGATGGACCCGGTGTACACGCCGGCGCGAAAAATCCACCTGTACCACTGCGACCA +TCGCGGCCTGCCGCTGGCGCTCATCAGCACGGAAGGGGCAACAGCGTGGTGCGCAGAATATGATGAATGG +GGCAACCTGCTGAATGAAGAGAACCCGCATCAGCTGCAGCAGCTTATCCGGCTGCCGGGGCAGCAGTATG +ATGAGGAGTCCGGCCTGTATTACAACCGCCACCGCTATTATGACCCGCTGCAGGGGCGATATATCACTCA +GGATCCGATTGGACTGAAGGGGGGATGGAACCTGTATGGATATCAATTGAATCCGATATCAGACATCGAC +CCCCTGGGTTTATCTATGTGGGAGGATGCAAAATCGGGGGCATGTACTAATGGTCTTTGCGGCACACTAT +CCGCTATGATAGGTCCAGATAAATTTGATTCTATAGATAGCACCGCATATGACGCCTTAAATAAAATAAA +TAGCCAATCTATTTGCGAAGATAAAGAGTTCGCTGGTTTAATATGTAAGGATAATAGTGGCAGATATTTC +TCAACAGCACCTAACCGAGGAGAAAGAAAAGGATCATATCCATTCAATAGCCCTTGCCCTAATGGTACTG +AGAAAGTATCAGCTTATCATACTCATGGTGCAGATAGTCATGGAGAATATTGGGACGAAATATTTTCAGG +TAAAGATGAGAAAATAGTTAAAAGTAAAGATAACAATATCAAGTCATTTTATTTAGGTACGCCCAGTGGT +AATTTTAAAGCAATAGATAACCACGGGAAGGAAATAACAAACAGAAAAGGATTACCTAATGTCTGCAGAG +TTCATGGTAATATGTAAAAAAATATTGTTTAGGAACTGTGTCATTGTATCTTTGTTTGTTTTTACATACA +ACACATGGGCGCAGTGTAATAATAATATTAAAATAATGCGCAAGTATGAAAGTGAAGGTAAATATACCGT +TAGAAATTTGGTTAAAAATAAAGCTATAGCATTGGAATTAGCTGAGATATATGTTAAGAATCGTTATGGA +CAGGATGCCGCAGAAGAAGAAAAACCATACGAAATCACTGAGTTAACAACAAGTTGGGTTGTTGAAGGTA +CCATTCACTCAGACCAAATTGCTGGTGGGGTTTTTATTATAGAAATAGGCAAAAATGATGGGAGAATTCT +GAATTTTGGCCACGGAAAATAAGTATGTAAGGATAATCAAACATCGTGTGCGCTGATGGCAGAGTAGGTG +GAGGACTCCAGACAGTCAAACGATAGAAAAAGATAGCCTTTATGGAGGTTCCTGCAATGTCAAATACATA +CCAGAAAAGAAAGGCAAGTAAAGAGTATGGTTTATATAATAAATGTAAGAAACTAAATGATGATGAATTA +TTTCGCTTACTTGATGATCGCAATTCCTTGAAAAGGATTTCATCTGCCAGAGTATTACAGTTAAGAGGGG +GGCAAGACGCTGTTAGATTGGCAATTGAATTCTGCACTGACAAAAATTATATCCGTAGAGATATCGGAGC +ATTTATACTCGGGCAAATATAAATTTGCAAAAAATGCGAAGATAATGTTTTTAATATTTTGAACAATATG +GCATTGAATGATAAGAGTGCTTGCGTTCGAGCTACGGCAATCGAGTCAACGGCCAGGGAAAGATCATCAA +AAGTTCACTTTTTGCACTAAATAATTCGCATTTTATGTTTAAAAATTGAGATATTCCTTATTACCTGAAG +CTGTTTTTTATTGCTTATACATGATCAAATACTCCTTACCTAATTAAGGAGAACAAAATGGAACTTAAAA +AATTGATGGAACATATTTCTATTATCCCCGATTACAGACAAACCTGGAAAGTGGAACATAAATTATCGGA +TATTCTACTGTTGACTATTTGTGCCGTTATTTCTGGTGCAGAAGGTTGGGAAGATATAGAGGATTTTGGG +GAAACACATCTCGATTTTTTGAAGCAATATGGTGATTTTGAAAATGGTATTCCTGTTCACGATACCATTG +CCAGAGTTGTATCCTGTATCAGTCCTGCAAAATTTCACGAGTGCTTTATTAACTGGATGCGTGACTGCCA +TTCTTCAGATGATAAAGACGTCATTGCAATTGATGGAAAAACGCTCCGGCACTCTTATGACAAGAGTCGC +CGCAGGGGAGCGATTCATGTCATTAGTGCGTTCTCAACAATGCACAGTCTGGTCATCGGACAGATCAAGA +CGGATGAGAAATCTAATGAGATTACAGCTATCCCAGAACTTCTTAACATGCTGGATATTAAAGGAAAAAT +CATCACAACTGATGCGATGGGTTGCCAGAAAGATATTGCAGAGAAGATACAAAAACAGGGAGGTGATTAT +TTATTCGCGGTAAAAGGAACCCAGGGGCGGCTAAATAAAGCCTTTGAGGAAAAATTTCCGCTGAAAGAAT +TAAATAATCCAGAGCATGACAGTTACGCAATCAGTGAAAAGAGTCACGGCAGAGAAGAAATCCGTCTTCA +TATTGTTTGCGATGTCCCTGATGAACTTATTGATTTCACGTTTGAATGGAAAGGGCTGAAGAAATTATGC +GTGGCAGTCTCCTTTCGGTCCATAATAGCAGAACAAAAGAAAGAGCCAGAAATGACGGTCAGATATTATA +TCAGTTCTGCTGATTTAACCGCTGAGAAATTCGCCACAGCGATCCGAAATCACTGGCACGTGGAGAATAA +GCTGCACTGGCGTCTGGACGTGGTAATGAATGAAGACGACTGCAAAATAAGAAGAGGAAATGCAGCAGAA +TTATTTTCAGGGATACGGCACATTGCTATTAATATTTTGACGAATGATAAGGTATTCAAGGCAGGGTTAA +GACGTAAGATGCGAAAAGCAGCCATGGACAGAAACTATCTGGCGTCAGTCCTTGCGGGGAGCGGGCTTTC +GTAATCTTGCCCTGAATACAGGACTGAGTATCAAAAAGCCGGTTAACTGAAACTGTCCAGGTTTTGGGGG +TCAGTTCATAAACGCCTTATCCGGCCTAAAAACAACTAAAATTCAATAAATTGCACCGATGCGTAGTCCC +TATAAGCTTACGCATCGGGCAATTGTATTTACGCCATTGTCCCAATCGTCTTCCTGAATCGCAGCAGCGC +AATGGTGAAAAATGCGCCGCCAATTGCCATCAGCGTCAGAAACTGCGGCCAGACGATTTCGAATCCGGCA +CCCCGGTAGAGGATGGCCTGCGCGAGGCTAACAAAGTGTGTCGTCGGCATGGTCAGCATAATGTCCTGCA +CCATCTGCGGCATACTTTCGCGCGGCGTGGAACCACCGGAAAGCATTTGCAGCGGCAGCAGCACCAGAAT +CACCAGCAGCCCCAGTTGCGGCATTGAACGCGCTATCGTCCCCATAAAAATGCCGATTGACGTGGTGGCA +AACAGACTGAGCGCCACGCCCAGCATAAACAGCGGGATCGAGCCTTCAATCGGTACGCCCAGTACACCTT +TCACCATCAGCACCAGCGATAATCCCGATACCACCAGCACCACCAGCCCCATCGACCAGATCTTCGCCAT +CATGATCTCAAACGGCGTTATCGGCATCACCAGTAAGTGTTCCACCGTGCCGTGTTCACGCTCGCGGATC +AGCGCCGATCCGGTCAATACAATCGCCAGCATGGTAATGTTGTTGATGATCGCCATCACCCCGCCAAACC +ACGCGGGATCGAGGTTCGGGTTAAAGCGCATCCGGGTTTCCAGCGATACCAACGGTTCGCTGTTATCACG +GTAGCGCGCGACAAAGCTGTTCACTTCACCGTTGATAATATTCTGGATATACCCATTGCCGGTAAATGCC +TGGCTCATGCGCGTGGCATCGACGTTCACCTGAATATCCGGCTGGCGTCCGGCGAGGACATCACGCTGAA +AATTAGGCGGAATATTTATCGCGAAGGTATAGCGTCCGGCGTCCAGTCCGGCATCCATCTCATCGGCGGT +GATCATCTCCGGTGGCAAAAACCACGGACGATAGAAGCTGTTAACGATCCGGTTCGATAACTGCGATTGA +TCCATATCGGCAATGGCGATCGGCGCGAGGTTCAACGATCCTGGCGTAACGGTCGCTGACGAATACACCG +ACACCGTAAACGAGAAGACAATCAGCGTCAGCATCGCTTTATCACCGAGCAGACTGCGCAACTCTTTGAT +ACCCAGATTAAAAATATTGCGTAAATGGCGCATCATCCCTCCTGTTTTTTCAGCAGCAGGATACTTAAGC +CCATCACCAGCGGGATGGCTATCAGTAACGGGATAAAAAGTTGCCACAAATCAGTCAGATCCAGCGCTTT +CGAGAACGTCCCGCGGGCGATAGTCAGAAAATGACTGGTCGGGTAAACCTCGCCGATCCAACGTCCAGGC +CCTTCCAGCGAAGCTACCGGATCGATCATCCCGGAAAACTGTGTCGCCGGGATCAACGTGATAATCGCCG +TTCCGAAAATGGCGGCAATCTGGCTTTTCATAAAGGTGGAGATCAGCAGCCCCATTCCGGTGGCAATGAT +GATATACAGCAGCGCCGCCAGGGTGAGCGTCAGGAAACTGCCTTTATGCGGTACGCCAAACACAAACACC +GACAGGCCGCAGAGCAGGAAAAAGTTCAGCATCCCCAGCGCGATGTATGGCAACTGTTTACCAAGCAAAA +ATTCACTACGCGTGGTGGGGGTCACGTAAAGGTTGATAATCGACCCAAGCTCTTTTTCCCGCACCACGCT +AAGGGCGCTTAGCATTGACGGGATCATCATCAGCAGAAGCGGGATCACCGCCGGAACAATCGCTGGCAGG +CTTTTTACGTCCGGGTTATAGCGATAGCGCGTCTCAATATTCATCAGCCCGCTTTGGCTGGCGGGTGTCG +ATTGTCGGCTCGCCACATCCTGTAACCAGCTCTGGTGCATGGCCTGCACGTAACCTTTTACCGTTTCAGC +ACGGCTCGGCATCGCTCCGTCGATCCAGACGCCGAGTTCCACAGGCGTACCACGCGCGATATCGCGCCCG +AAATTGGGCGGGATCTCAATCGCCACCGTGATATCGCCCGCACGCATCCGACGATCAAGCTCGTCATAAC +TGGTGAGCGGCGGCTGTTCGATAAAGTAACGGGAACCGGAGAGGTTGAGTGTCCACGCCTGGCTACTGAC +GGTCTGGTCGCGGTCGAGCACCGCAAAGCGCAGGTTTTCCACATCCATACTGATGCCGTAACCCATTATC +AGCATCAGGATCACCGTTCCCATCAGCGCCAGCGTCGAACGTACTGGATCGCGTCGCAGTTCCAGCGCTT +CGCGGCGGCTGTAGCTAAACAGACGGCGCAGGCTAAATCCCTGACGCGGCGCGTGGGTGGTGTCGTGTAC +CACGGGCGGCGCTTCGGCTTCGTTGCTCTGCCCTGCCGCTTCCTGCAAATAGGCGATAAATGCCTCTTCC +AGACTGGCGGCTCCGCGTTTCTCAACCAGTTCCTGCGGTGTACCGCTGGCAAGCACTTTTCCGGCGTGCA +TCAGTGAGATGCGGTCGCAACGTTCCGCTTCGTTCATAAAGTGGGTGGAGATGAAGATAGTCACTTTGTC +CTGGCGCGAGAGATCGACCATCAACTGCCAGAACATATCCCTCGCCACCGGATCGACACCAGAAGTAGGC +TCATCGAGGATTAACATCTCCGGGCGATGAATCACCGCCACCGCCAGCGAAAGCCGCTGGCGAATGCCGA +GCGGCAATGACTCCGGCAGAATATCTTCAACGTCGTTGAGCTTAAAACGCTCGCTCATTTCAGCCACTCT +TGCGGGAATTTCCGCTTCCGGGATGTGAAACAAACGGGCATGTAACTCAAGGTTTTGCCGCACGGTGAGT +TCGTTATAGAGCGAAAACGCCTGCGACATATAGCCCACCCGACGGCGGGTATCGATATCTTTTGGATCAA +CCGGTTGCCCGAACAGCCACGCCTCACCTTCGCTGGCGGGCAGCAGTCCGGTGAGCATTTTCATGGTGGT +GGATTTACCGCAGCCGTTCGAACCAAGAAAACCAAAAATCTCCCCGCGTGGAATGCGGAAATTAACGTGA +TCAACGGCAACGAAGGAACCAAAACGCATGGTCAGATCGCGCGCTTCGATGGCAATCTCTGCGTTTTCAG +GTTGATACGGTGGGATCACTACCGCCTGATGCGCCTGGCGTTGCGCTTGCGGTAACAGATTTATAAATGC +TTCTTCCAGCGTAGCGCTTTGCGTTTGCTGCCGTAGCTCTTCGGCGCTGCCAGTTGCCAGCACTTCTCCG +GCATTCATCGCTACCAGCCAGTCGAAGCGTTCGGCCTCTTCCATATAGGCGGTGGCGACCAGCACGCTCA +TATTGCTCTGCCGCTGGCGAATACTGTCGATCAGATCCCAGAACTGGGAGCGGGAGAGCGGGTCAACCCC +CGTTGTTGGCTCATCAAGGATCAACAGTTCCGGGTCGTGGATTAACGCGCAGCACAGCCCAAGTTTTTGC +TTCATCCCGCCGGAGAGTTTCCCTGCCGGACGATCGCGAAACGGTGCTAACCCGGTGCTGGTCAGCAGCT +CATTGATTCGCACTTCCCGCTCCGCTTTGTCGTGACCGAACAGGCGAGCGAAAAAATCGACGTTTTCATA +CACCGACAAGGTGTGGTAGAGGTTTTTGCCCAGCCCCTGCGGCATCCAGGCGATGCGCGGGCAGACGTCG +CGGCGATGCTTCGGGTCGCGCATATCGCCGCCCAGCACCATCACATTGCCCTGTTCAATGACGCGGGCAC +CGGAAATCAACGACAACAAGCTCGACTTCCCGACGCCGTCCGGGCCAATCAGCCCGACCATACAGCGGGC +CGGAATATCGAGAGTGATATTGTTCAGCGCAACGGTTTTTCCATAATGCTGGCTCACGCCCGCCAGTTGC +GCGACAGGCGGGACGGGAACCAGTTCCAGATGCGTCATTGCGGCAACCTCACCACGAGGTCGTCAGGCCA +CGGAAGTTCTTCATTCACCCGCACCCACGCTACGCCCGGCAAACCGGTTTTGACATATTCCAGATGCTGC +TGGAGTAATTCCGGTGGGATACGCGCTTTGACGCGGAACATCAGTTTCAGCCGTTCATCGCTGGTTTCGA +CGGTTTTTGGCGTGAACTGGGCGACACTGGCGACAAAACTGATGGTTGCAGGAATACGCAGATCTGGCGC +GGCATCGAGGATCAGCCGGGCTTCACCGCCCAGTTTCAGCGTGCCCGCCTGTTCGGTTGGCAGGAAGAAA +GTCATATAGACGTCGCTGAGATCGACCATATTCAGCACCCGACCGCCTGCCGCCAGCACTTCGCCTGGCT +CGGCAACCCGATACTGCACGCGTCCGTCACGCGGGGCTTTCAGTTCGCTGTCATCGATATCTGCGGCAAT +GCGCCGTTCAGTGGCTTGTGCCGCTTCGACGCGGGTTTGCGCCTGAATGATATTGGTGCGTGCCGCTTCT +ATAGCCGCTTTAGAAGCCGATACCTGAGCTTTCGCCGATTCCAGCGCAGCTCGGGCGCTCTCAGCGGCGG +CGCGATCGTCATCCAGCTGTTGCGCAGAAATAGCCCCTCGTTGGGCCAGTGAACGGGAACGCGTATGACG +TTTTGCTACGGAGTCCAGTTCTGCCTGGCGTTGATTAACCAGCGACTGTGCGGCACGAGTTTCGCTTTGT +CGTTGCTCCAGCAAAGCCTGCGCGGCAGCAACGGCGCTTTGTGCCTCTTTGATTTGCGCGATGGCTTCCA +GTCGCTGTTCCTGCAACACGCGAGTATCCATCTTCGCCAGCACTTCACCTTCGCGAACAAACTTGCCTTC +TTTCACCAGAATGGTGTCGATACGCCCGGCAATTTTGCTGGCAATATCCACTTCCGTCGCTTCAATGCGC +CCATTACTGACAGCAAAGCCTTCCGGCACACCTGCCGGGCGCAACAGCCACCACGCCACGATAGCCGCCA +CCGCCAGTAACCCGACAACCCACCACGCCAGATGGCGCTTACTCTTATCCATAATCGACCCGCCATAATC +CCTGTAAGCAAACGACGCGTGTTACAACTGCCGCCGAACGACGTTCAGCGGATTCTTCCATCCGGGATAA +GAAGGAAACGGCAAATACGACCAGCGCGCAGAGCATTGAGCGCCAACGGGGAAGGCTTAGTGAAAACGGG +TAGTAATGTTGTCATCATCAGCATTCCTGGCCGTAAATGAAACACGCATACTCATAAGTGTGATCTATAA +AACTGGCTGACAAAACGGTATCCATCCTGTTGGATAGCGTTTCACGCCTGTTCAGTTGCAGGAACAGAGC +ATTCCTTTTTACGTTTTATCAACAGTCTCAACCAGATAGTAACATTAATATTCATGTTGTCTATGGTTCA +GAGCTGTAACATTGTGCGCCTTCTAATCAAAGGCATAAGTCCATTTCTGTTTTTTTCATGCTGGTAAGAC +TTCCAGGGAGTGGTTATCTCAGGCCCTGCACCAGGGTTAATTTGGCAATTATGCATGCTGAACATTCTTC +CAGCATGTTTACTGTCACGGGCGTTAAGACCTAAAACTGTCCCCGTTTCGCCTATGCGTTCTCTTCCACC +ATTTCCGTTATGTGCAACAACTTGATTTATACCTAACATTTGTGAACATGCTAATAGTGCTTCAAGTTTA +GGTCTGTAATCTGTCGAAACAGAAAAATAACGATTAAAGGATCGACAAGAGATAGCCCGGCTAGTTTTAA +ACTTTTTGCCATTAATTATAGCATGATGCTTTTTATTGATAATTGCCGCTAATTCGACCGGATCGAGAGC +ATTGGTCATTTCATCAATAGAGACTGTTATCGGTCCTATAATGTAACGTTTTCGCTGATCATCAAAAGTT +ATCCCATGATGATTTGCCATTATTTTGTATTTGGGGTCATAGAAACATACAGGATAATCTTTTATCCCAG +AGTAGGTATCCTCATCGAGTGGTTTCATACGCGTGAAGTTCTGCATATAGTTACCATTGCAATTCGTTTC +ATGATTTCCAGCTAATACATGAACATTTTCATTGATACTCATTATGCGTTTTAACAAATCGATGATAAAT +TGATCACCACAGATATTGCTAAATCGATCGCCGGTTTGGTCGCCCAGAAACGTACATGGCGTCACAGCGT +CTTTATTAATAACTAAATAAGGCTGAAGACTTTCTAAAATAATGTCTCTTCTGTTCAGGATACTGATTAT +TGTATTAACATTAGTGTTAAGTTGCTCATTAAAGTTCTCCCTTAGCAATACGTTGAGAACTTCATCTTCT +ATATTAAGCAACTGGCTAAGGAAATTTTCTCCTTCAGCCATGATTCCCAAATGTCCCGTTGCGAAAAGCG +CGAACAAAACTGCACCGACTGAGCCATCGGTATCACCAAAATAGGTTGGTCTGGTACTTGTGGGATCAAC +GGGTAAACAATTGGAGAAATAGATTCTGTCAGCGAACTGGGGTTTTATCATTGTTTCGAATTTAATATCA +GATACATTATATTGCGATATTTTCCAGTTCCAGATGGGTTTGTACGACTCAGTAACTGCAACATCATTAG +CATTATCATTTACTGTCATATTATTAAGTAAATAAACAATACTGCACCAATTAATATCGGTATTATCAAG +AGAGCAACCGTAATTTTTGCTATTAATTGTCACAATAAACTGATAATTATTATTCCTACGTAGAATATGA +GCACGCATGCCCGATAGCATACTATATTTTTCTGAATGATCCGTTTGTATGGTAAATGAAATTTTGTCAT +CTTGAATAGATTGTTGGAACCGTTCTATTTGCCAATCATCTATTTTTTCCACAACCTCACCGAGCATTGT +CCTGGCAATACTTGATATATCATCACCTATACCATTTGCAATATACCCAAACAGTTCTTTAGTGAAGTTG +GTAACATGCTCTTGCACCATATCATTTGTTGCGATTGTCGTTGTACTGTCGTTAGTGCCTGCCACAGTTC +CAATTTTCATATTTTACCTCATATTATTTACCGCGAGGAATACATAGTTAACATTTTATCTTATGACATA +CACCTCATGTTCGATGGGAAAATAATTATATTTTGCACAAATCATTCAGCCTCAAAGCATAATATGAAAT +TTCTTATCTCATAGCAGAGAAAGTCCCTAAAGATTGTAGAGGCGTCATCAGAACATGCCTCTACAATCGA +TTAAGAAAACCTATGAAATACTGGCAGGATTAAAAAGACATACCACCGTATTCATGGAGTTTTAATGTAG +TTGAAAACAACTAAGCCCTGAGGAATAAATTATTTTATTATTTTTATCACGTGCTTCCTTCAGGGAATTT +AGCCCCATAATACCATTATCAAATTGTTGATTATGATCTACCCCGGGCCCATGATGCCCATATTTTTGTC +TAATGTATTTGCTGGGGTCTTCACCTTTGAGTGTCTCCCCACATATGAAGATACGTTCACGTGCTGGTCT +GAAATCAGTAGTGTTATCAAAATAATTAGCATATACAGGTGTGGGTTTCAAAGTATTGCTTCGGATTAGA +TGGAATAGAGGATCATCCATGTGTTCTTTATGTTTTTTATTAAAAATATTGGCTAATTCCTCAGGATCAG +TAGGATTTTTCATCTGATTAAATGGAACCTGCAAAGCACCGAGACAATAACATTTTTTTCTTCATCTCTT +ATTATTCCGTGATGACTGGTTAAAACTTGCCTTTCTGAGTCATAATTACAAACATCGAGCGTTTTAATTA +AGTTATACGTATCACCGGCAGAGAGTTTATGATTTGCTAGTCGTGCAGTATAGTTACCATTAAAATTGAT +TTCATGATTTCCAGCCAGAACGACGACATTTTTATTAATACGGCTATCTTTATTACCCTCCATATTTCGC +ATAGAATTTAGCAAAGTAAGGATATATTTATCACCAAAAATAGTACTAAATCTATCGCCTGTATGATCCC +CAAGGAAGATACAAGGGGTTATCGCATCGTCCTTTAAAAAAACATGTTGATGCAACTCATTCAAGATCAT +GTCTCTCGTATTTAATAAATCGTAGAGCACTTTATTATTTTTATGTTTGTATGCAGATGAAGCCATCTCT +TCGTGTTTTAATAATTCACATAATAAACTCCAACCCTTTTCCCTGATGCCTATATGCCCTGAAACGAGCA +ATGCATAAAGTACAGCGCCTACTCTTCCATCTGTATCGCCAAAATAAGCCGTGTTGGCATTTTGTGGGTT +AATCACACCACACTGTTTATAGAAGTCTATTTTTGAAAACACAGATTTAACATAGCTATCAAACTTTTCC +TTAGTAAACGTCTCTTTAGAGACATCCCAACGCCAGTCAGGTTTGAAATTACCACTAAGAAGAGTAAAGA +AATTTCTCGCTATGATAGAAAGCCCATCAACTTTATAAATTATATCTGATTTATCTCCAGAGGAATTAAT +AAAATAATAACCGCCCTTACACTCAACAGTAACGGTAATGGGAGACGATAATTTTAACACATGGTTATTG +TCTGGTATAATTGTAAAGATAAACGTATCAGTAGTATTGTCGGCGAATCTATTATATTCTTGAATATCTA +TAGAAGGTTCACTATTATAAAACCATACTTTCTCCATCTGGTGACTACGATCATTTACCTTCCAGTGACC +ATGTTGCAGGAAATAGATGATATGCAGGCCAAAATCGTTATCTATTTGCGAATCATTATCCAGTTTATCA +AATTCAACTATCTTTGCACGATGTGTTTTATCAACCTTGCCATGGTGTTGATGACTGTTAACTTTATCTG +AATGCTTATCTTGATGGCTTGAAGAGATGTTTCTAATCTGATTGTCAATTGCTTTCATAAATAACCTGTG +ATATTTTTGAATTGTTTGTAACAAAATAAATGATACTTGTCTGAAAAACAGATTTACGACGATATAAAAT +AATAATACTTATATGTTCGCTGATTTTAAGCACCGAGACTATCCGGTCTTTTACCAAATAATGAAGAATA +ATCCCTCCCTGGAAGATAATTGTAAAAAACAACAGCATAAGAATTAATCTTAGGATAAATTTTTATTTAT +CATGGCCTTTTGAACGCTGAAAAGTAGCGCTCTGCAAAGTAAACCCCGCTATAGTTATGCTATGCATTTG +TCTTTAATGATATCTCGTCATTATATTAACAGGATGAAATTATCATTAATGCATATTTCAATATTAGCAG +GGATACCTGAGGAGTTTAAAGTGAACATATATATCGGGTGGCTTTTCAAATTAATCCCTTTGATTATGGG +CTTAATTTGTATCGCGTTAGGTGGCTTTGTGCTGGAAAGTTCAGGGCAAAGCGAGTATTTCGTCGCGGGT +CATGTGCTGATTTCTCTGGCGGCCATATGCCTGGCATTATTCACTACCGCATTTATTATCATTTCGCAGC +TCACGCGCGGCGTTAATACGTTTTACAATACATTGTTCCCCATTATTGGCTATGCGGGGTCAATTATCAC +CATGATATGGGGTTGGGCACTGTTAGCAGGCAATGATGTGATGGCAGACGAGTTTGTCGCCGGCCATGTT +ATTTTCGGCGTTGGTATGATTGCCGCCTGTGTATCGACGGTGGCAGCGTCATCCGGTCACTTTCTGCTCA +TTCCCAAAAATGCAGCGGGGAGCAAGAGCGACGGAACACCGGTACAGGCTTATTCTTCATTAATCGGTAA +CTGCCTCATTGCCGTTCCCGTTTTACTCACCCTGCTCGGTTTCATTTGGTCTATTACGCTGTTACGTAGT +GCTGACATAACTCCGCATTATGTCGCGGGTCACGTATTGCTTGGGTTAACCGCAATCTGTGCCTGTCTAA +TTGGCCTTGTTGCCACAATTGTCCATCAAACACGTAATACGTTTTCAACTAAAGAACACTGGCTGTGGTG +TTATTGGGTTATTTTTCTCGGCTCAATCACGGTACTGCAGGGGATATACGTCTTAGTCAGTTCCGATGCA +AGCGCCCGACTGGCTCCCGGCATTATTCTTATTTGCCTCGGAATGATCTGTTACAGCATATTCTCAAAAG +TCTGGCTACTGGCACTGGTATGGAGACGTACCTGTTCGTTAGCCAACAGAATACCGATGATTCCCGTCTT +CACCTGCCTGTTTTGCCTTTTCCTGGCATCGTTTCTTGCGGAAATGGCGCAGACCGACATGGGATATTTT +ATTCCTTCGCGAGTTCTGGTCGGTTTGGGAGCGGTATGCTTTACGTTGTTCTCAATCGTTTCAATATTAG +AAGCGGGTTCTGCTAAAAAATAATTGCAACGTACCGGATAAAACCAGCGTTGACCATTTGCGTAACGCTG +GTTTTTCTTAGGCATCATGAAATAACGCAGCATTAATGCATAGTGGTTAAGTATAAAAAACAGCAAAGTT +ACTGTTTTTTTCAACCTGTTCATATTTCATAAAGATCTGGCCACTGAGTGAGTTTTCAATCACCTTTCCA +TCCACCTTATATTAAGCATGGAGGGTTTCAGTTCACGGGCTCATTAGAAAATAATCACAAGATAACCACT +ATCAAAATTAGCTCATTTTTAATGCGACTCTAATAATTTTCATCTTTAGGAAATAGGTCAGGACGACTTT +GCTGCAATCAAATCCTGCGCACAAGCCCACGCACTCGACCACGCCCACTGGAAGTTATAGCCCCCCAGCC +AGCCGGTGACGTCCATCACTTCGCCGATGAAGTACAGCCCAGGCACTTTGCGCGCTTCCATCGTCCGTGA +AGAGAGTTCGTTGGTGTCCACGCCGCCGAGCGTCACTTCGGCAGTGCGATAGCCTTCAGTGCCGTTGGGT +TGTACGCGCCAGTCGGTCAATGTGCTAATCAGTGCCTGTTGGTCACGCACGTTGAGCTGTTTTAGCGAAA +CATCCGGGATTTGCCCGAGTTGCTGTAAGCGTTCAACCAACCGCTTCGGTAGATGAACCGCCAGTGTGTT +TTTCAGGCTTTGATTCGGATGTGCGTTACGCTGCTCATTCAGGAAGGTTTCGAGGTCCACATCCGGTAGC +AGATTGATGCTGACAAATTCCCCCGGTTGCCAGTAGCTTGAAATCTGCAACACCGCCGGTCCAGACAAGC +CGCGGTGGGTGAAGAGTAAGTTCTCACGGAAAACGGTGCCGTTTTCAGCGGTAATCACGGAAGGCACCGC +CACGCCCGCCAGCACCTGTAACTCTTCGAGCAACGGTTTATGCAGAGTGAATGGCACCAGACCCGCGCGG +GTCGGCAGCACGTTGAGGCCAAATTGTTCGGCAATCTTATAACCAAACGGCGACGCGCCCAGCCCCGGCA +TTGACAGCCCACCAGTCGCGATGACCAGCTTTTCGCAACCGACAGTCATGCCGTTCAGATCAAGCGTGAA +GCCTGTTTCATCCTTCGCCACACTCAGCACTTCGCTACGCAATCTGAAGGTCACATTGCCCTTCTCGCAC +TCATCCACCAGCATGTCGACAATCTGCTGCGCGGAGTCATCGCAGAAGAGTTGCCCTAACGTTTTCTCGT +GCCAGGCGATGCCGTGTTTATTGACCAGATCAATGAAATCCCACTGGGTAAAACGTGCGAGTGCAGACTT +ACAAAAATGCGGATTCTGGCTCAGATAAGCGCCTGGTTCGACATAAAGGTTGGTAAAGTTGCAGCGCCCA +CCGCCAGACATAAGGATTTTGCGCCCTGGTTTTTTACCATTATCGATCAGCAGAACCCGGCGTCCTGCCT +GACCTGCCAGCGCAGAACAGAACATACCCGCCGCACCAGCGCCTATAATAATGGCATCAAACCTTTCCAC +GTTGCGCTCCTCTTAGAAAAAACGGGCGTGAATTGTAAAGATTCCTCAGTGGTCGCACCAGCATCAATAT +TACTAAAAGGAAGTATTTGCCTGAATTATATAAGATAATTATTTTTTGAGTGAAATCCATACAGGGGGCA +AATCAAAAAAAGTCTATATTTCACTTTGCCCGCGCCGCGAAAGTCACTGATAATGCGCCGCGTTCATGTC +CTCAAAATGGCGTAACGTCCTATGCTACATTTGTTTGCTGGCCTGGATTTGCATACCGGGCTGTTATTAT +TGCTTGCACTGGCTTTTGTGCTGTTCTACGAAGCCATCAATGGTTTCCATGACACAGCCAACGCCGTGGC +AACCGTTATCTATACCCGCGCGATGCGTTCTCAGCTCGCCGTGGTTATGGCGGCGGTATTCAACTTTTTG +GGTGTTTTGCTGGGTGGTCTGAGTGTTGCCTATGCCATTGTGCATATGCTGCCGACGGATCTGCTGCTTA +ATATGGGATCGTCTCATGGCCTTGCCATGGTGTTCTCTATGTTGCTGGCGGCGATTATCTGGAACCTGGG +TACCTGGTACTTTGGTTTACCTGCATCCAGCTCTCATACGCTGATTGGCGCGATCATCGGGATTGGTTTA +ACCAATGCGTTGATGACCGGGACGTCAGTGGTGGATGCACTCAATATCCCGAAAGTATTAAGTATTTTCG +GTTCTCTGATCGTTTCCCCTATTGTCGGCCTGGTGTTTGCTGGCGGTCTGATTTTCTTGCTGCGTCGCTA +CTGGAGCGGCACCAAGAAACGCGCCCGTATCCACCTGACCCCAGCGGAGCGTGAAAAGAAAGACGGCAAG +AAAAAGCCGCCGTTCTGGACGCGTATTGCGCTGATCCTTTCCGCTATCGGCGTGGCGTTTTCGCACGGCG +CGAACGATGGTCAGAAAGGCATTGGTCTGGTTATGTTGGTATTGATTGGCGTCGCGCCAGCAGGCTTCGT +GGTGAACATGAATGCCACTGGCTACGAAATCACCCGTACCCGTGATGCCATCAACAACGTCGAAGCTTAC +TTTGAGCAGCATCCTGCGCTGCTCAAACAGGCTACCGGTGCTGATCAGTTAGTACCGGCTCCGGAAGCTG +GCGCAACGCAACCTGCGGAGTTCCACTGCCATCCGTCGAATACCATTAACGCGCTCAACCGCCTGAAAGG +TATGTTGACCACCGATGTGGAAAGCTACGACAAGCTGTCGCTTGATCAACGTAGCCAGATGCGCCGCATT +ATGCTGTGCGTTTCTGACACTATCGACAAAGTGGTGAAGATGCCTGGCGTGAGTGCTGACGATCAGCGCC +TGTTGAAGAAACTGAAGTCCGACATGCTTAGCACCATCGAGTATGCACCGGTGTGGATCATCATGGCGGT +CGCGCTGGCGTTAGGTATCGGTACGATGATTGGCTGGCGCCGTGTGGCAACGACTATCGGTGAGAAAATC +GGTAAGAAAGGCATGACCTACGCTCAGGGGATGTCTGCCCAGATGACGGCGGCAGTGTCTATCGGCCTGG +CGAGTTATACCGGGATGCCGGTTTCCACTACTCACGTACTCTCCTCTTCTGTCGCGGGGACGATGGTGGT +AGATGGTGGCGGCTTACAGCGTAAAACCGTGACCAGCATTCTGATGGCCTGGGTGTTTACCCTTCCGGCT +GCGGTACTGCTTTCCGGCGGGCTGTACTGGCTCTCCTTGCAGTTCCTGTAATCGTACGCACCAAAACGAG +CGGGTCAGCTGGCCCGCTTCAGATTGTGACATAGTGCGCTTTGTTCATGCCGGATGCGGCGTGAACGCCT +TATCCGGCCTACAAAAACATGCAAATTCAATAGATTGCAGAGATTATGTAGGCCTGATAAGCGTAGCGCA +TCAGGCAATTTTGCGTTTGTAATCAGTCTCGAGCGGGTCAGTTTACTGGCCCGCTTTTTTTATGCGTTAT +TATTGCTGAAGTGCTTAATGCCAAATCATCAATGCAATCAGGCTGACCACCACCAGACCACACAATGCGC +TGGTCAGAATAAACTGCCGACGCACCCGCTCACAGCGGCGAATAAATTCATCATCGTGATGATCGCGATA +ACGTTGGGCATAGATATACCAAACGAGACGCACCTGTTTGTTGGGTTGGCCATGTGAGGTAAAAAAGCCC +CCTCCATCAACATATTGATAGAGCAATGGATCGCAGTTACGCAGTACCACTAACAACGCGCGTAGTGATG +AGAAATAGCGCGCCATGTTAACAATGCAAACGACACATAAAGCCCAAAATAATGCGACGGTGCTTATCAT +ACCTCCTCCCCGGCGACCTGCCCGCGGAGTTCCACCCCGGGGCTACCGCTCCCGATACGCTGCCAATCAG +TTAACACCAGGTCCTGGAGAAACCGCTTTTGTGGTGACCAACATACGAGCGGCTCTATAGATAGTGTAGG +AGATCAGGTTGTTTTTTTTCCAGAAGGTTAACCACTATCAATATATTCATGTCGAAAATTTGTTTATCTA +ACGAGTAAGCAAGGCGGATTGACGGATCATCCGGGTCGCTATAAGGTAAGGATGGTCTTAACACTGAATC +TTTACGGCTGGGTTAGCCCCGCGCACGTAGTTCGCAGGACGCGGGTGACGTAACGGCACAAGAAACGCTA +GCTGGCCAGTCATCGACAACTTTATGGAAGGAGTAACACTATGGCTTATAAACACATTCTCATCGCGGTC +GACCTCTCCCCGGAAAGCAAAGTTCTGGTAGAGAAAGCAGTCTCTATGGCTCGCCCCTACAATGCGAAAG +TTTCTCTGATCCACGTAGATGTAAACTACTCTGACCTATACACCGGGCTTATTGATGTGAATCTGGGTGA +TATGCAGAAACGCATCTCTGAAGAGACACATCATGCACTGACCGAGCTTTCCACTAATGCAGGCTACCCA +ATCACTGAAACCCTGAGCGGCAGCGGCGACCTGGGCCAGGTTCTGGTCGATGCAATCAAGAAATACGATA +TGGATTTGGTGGTTTGTGGTCACCACCAGGACTTCTGGAGCAAACTGATGTCTTCCGCACGTCAGCTGAT +CAACACCGTTCACGTTGATATGCTGATTGTTCCGCTGCGCGACGAAGAAGAATAATCTTCCCTCTACGAC +GTGTTCCTGAACGCCCGCATATGCGGGCGTTTTGCTTTTTGGCGCGCCTTGTTACCTGATCAGCGTAAAC +ACCTTATCTGGCCTACGGTCTGCGTACGCAATCAAAATCCCCAGCCAATACAACATTTAACACCATCATA +TTTTCCATCATTAGTGTGATCATCTGGTTATTTTCTGTTGTAATAGTGTATTAATCTATTCACCGCATCA +ATATTAAGAATCTCTGACAGATGTAAACTTTTTCGCGCGTTATCCCTTACGCGTTCATACTTTTCAGGAT +GGTATTGGAAGGTTAATAAATATGAATACAACAACACCCATGGGGATGCTGCAGCAACCTCGCCCATTTT +TCATGATCTTTTTTGTCGAGTTATGGGAGCGATTCGGCTACTACGGCGTGCAGGGCGTACTGGCGGTTTT +CTTCGTTAAACAGCTTGGATTCTCGCAAGAGCAGGCTTTTGTCACTTTTGGTGCTTTTGCTGCGCTGGTC +TATGGCCTCATTTCCATTGGCGGCTATGTCGGCGACCACCTGCTGGGGACCAAACGCACCATTGTTCTTG +GAGCACTTGTGCTGGCGATTGGCTACTTCATGACCGGCATGTCGCTACTTAAGCCTGACCTGATTTTCAT +CGCCCTGGGGACTATCGCTGTCGGTAACGGCCTGTTTAAAGCTAACCCAGCCAGCTTGCTTTCGAAGTGC +TATCCGCCGAAAGATCCGCGGCTTGATGGCGCATTCACCCTGTTCTATATGTCGATCAACATCGGCTCGT +TGATAGCGTTATCGCTGGCCCCTGTGATCGCTGATAGATTCGGTTATTCAGTCACCTACAACCTGTGCGG +GGCGGGGTTAATTATCGCATTACTGGTTTACATCGCCTGTCGTGGAATGGTGAAAGACATTGGTTCTGAA +CCCGACTTCCGGCCAATGAGCTTCAGCAAACTGTTGTACGTGTTACTTGGCAGCGTGGTGATGATCTTCG +TATGCGCATGGCTGATGCACAACGTAGAAGTCGCCAATCTGGTGCTGATTGTTCTCTCCATCGTCGTCAC +CATCATCTTCTTTCGTCAGGCATTCAAGCTGGATAAAACCGGGCGCAATAAAATGTTTGTCGCCTTTGTC +CTGATGCTCGAAGCGGTGGTGTTTTACATTCTCTACGCCCAGATGCCAACATCGCTGAACTTCTTTGCCA +TCAACAACGTGCATCATGAAATTCTCGGTTTTTCCATCAACCCGGTCAGCTTCCAGGCGCTTAACCCGTT +CTGGGTGGTACTCGCCAGCCCAATACTGGCAGGCATTTACACGCATCTGGGTAACAAAGGCAAAGACCTC +TCGATGCCGATGAAATTTACTCTCGGCATGTTTATGTGCTCACTGGGCTTTTTGACGGCGGCAGCTGCGG +GAATGTGGTTTGCGGATGCACAAGGGCTGACATCGCCATGGTTTATCGTGCTGGTGTACTTATTCCAGAG +CTTAGGTGAACTGTTTATTAGCGCCCTTGGCCTGGCGATGATTGCTGCCCTGGTGCCGCAGCATTTGATG +GGCTTTATTCTCGGGATGTGGTTCCTGACGCAGGCTGCCGCGTTCTTGCTGGGCGGCTATGTGGCAACAT +TTACCGCGGTGCCGGACAACATTACCGATCCGCTTGAGACGTTGCCCGTCTATACCAACGTGTTTGGTAA +GATTGGTCTGGTCACGCTGGGCGTTGCAGTAGTGATGCTGTTGATGGTGCCGTGGCTGAAACGCATGATT +GCGACGCCGGAAAGCCATTAATTATTCTTGCAGAAAGCAGGGTAGCGTTATCGCTACCCTGTTTTAGTTT +TACACTGGCGTACCTGCATAGATATCAAAGCGATGCCCTTTAGTGACTACCGCGTTTGGCGTGGCGACAT +TCGCCAGCGGTGGCGCGTAGTCCGGGCGCTTTACCACCACGCGTTTGGTCGCCAGCAAGCGTGCAGGCTC +CAGTAATCCATCGGCATCAAGATCCGGTCCCACCAGCGACTGAAAGACACGCATCTCTTTTTTCACTAGC +GCGCTTTTCTGCTTATGCGGGAACATCGGGTCGAGATAAACCACCTGCGGGCGCGGGGTAATATCAGTCA +GCGCCGTCAGGCTGGAGGCGTGAATTAACTGCAACCGCTCCTGCAACCAGCCGCCGATTTCCGCATCCGC +ATAACCACGCGCCAGGCCGTCGTCGAGTAGCGCGGCAACCACTGGATTACGCTCCAGCATCCGCACGCGG +CAGCCGACTGAAGCCAGTACAAAGGCATCGCGCCCAAGTCCTGCAGTGGCATCCACCACATCCGGCAAAT +AATCGCCTTTAATGCCCACCGCTTTCGCCACCGCCTCACCGCGACCACCGCCGAATTTGCGTCGGTGCGC +CATCGCTCCGCCAACAAAATCAACAAAGATGCCGCCAAGTTTTGGCTCATCACGCTTGCGCAATTCCAGA +TGTTCCGGCGTTAACACCAGCGCCATCAGGTTGTCTTCATCGTGCTCCAGCCCCCAGCGGGCCGCCAGAA +CAGATAAGGCACCGTCTCCGGTGCCTGTTTCATCAATTAAGCAGATTTTCACTGAATGATCAGCCCTTAA +TGCCGTAATGCTCCAGCATCGCATCCAGCTGCGGTTCACGACCACGGAAGCGTTTGAACAGATCCATCGG +CTCTTCTGAACCGCCACGGCTCAGAATGTTGTCGAGGAACGACTGCCCGGTTTCACGGTTGAAAATGCCC +TCTTCCTCAAAGCGCGAGAAAGCATCTGCCGCCAGTACGTCAGCCCACAGGTAGCTGTAGTAACCTGCGG +CATAACCACCGGCGAAAATATGGCTGAAAGCGTGCGGGAAACGGCCCCAGGACGGAGATGGCACCACGGC +AACCAGTTTCTTGATTTCTGCCAGAGTTTCGAGGATTTTTGCCCCCTGATCCGGGCGGAACTCGGCATGA +AGGCGGAAATCAAACAGGCCGAACTCCAGCTGACGCAGAATAAACAGCGCCGCCTGGTAGTTCTTCGCCG +CCAGCATTTTATCCAGCAACTCTTTCGGCAGCGGTTCGCCGGTTTCATAGTGACCAGAGATAAACGCCAG +CGCCTCCGGCTCCCAGCACCAGTTTTCCATAAACTGACTCGGCAGTTCGACCGCATCCCACGGCACACCG +CTGATACCGGAAACACCAGCGGTTTCGATGCGGGTCAGCATATGGTGCAGGCCGTGACCGAACTCGTGGA +AGAGGGTGATCACTTCGTCGTGAGTGAACAGCGCCGGTTTACCATTTACCGGGCGGTTGAAGTTACAAGT +CAAATACGCGACCGGTTTTTGCAAAGAACCATCAGCTTTACGCATCTGGCCTACGCAGTCATCCATCCAC +GCCCCGCCGCGCTTGTTTTCACGGGCATACAGATCGAGGTAGAAGCTACCGCGCAGTTCGTTATTTTCGT +CATACAGTTCGAAGAAACGTACATCCGGATGCCAGACATCAACATCTTTACGCTCTTTAGCGGTGATGCC +GTAAATACGCTTAACCACTTCAAACAGGCCGTTAACCGCTTTGTTTTCCGGGAAGTACGGACGCAGCTGT +TCGTCACTGATGCTGTAGAGGTGCTGTTTTTGTTTTTCGCTGTAGTAAGCGATATCCCACGGCTGCAACT +CATCGACGCCAAATTCGGCTTTGGCAAAGGCACGCAATTGCGCCAGCTCTTTTTCGCCTTGTGGACGCGC +GCGTTTTGCCAGATCGGTTAAGAAATCCAGCACCTGCTGCGGGTTTTCTGCCATTTTAGTGGCAAGGGAT +TTAAAGGCGTAGTTTTCAAAGCCCAGCAGTTGCGCCAGTTCGTGACGCAGCGCGAGGATCTCTTCCATCA +CCTTGCTGTTATCCCATTTACCGGCGTTTGGGCCTTGATCGGAGGCGCGGGTGCTGTAAGCGCGATACAT +CTCTTCACGCAGAGCCTGGTTGTCGCAGTAGGTCATTACCGGCAAGTAGCTTGGGATATCCAGCGTCAGC +AAATAACCTTCCAGCTCTTTCGCTTCGGCCTGGGCTTTTGCCGCAGCCAGCGCGCTTTCTGGCATCCCCG +CCAGCTCCGCTTCGTCGGTAACGAGTTTGGTCCAGCCCATTGTCGCATCGAGGACGTTGTTGCTGTACTG +GTTGCCCAGTTCAGAAAGACGGGTCGCAATTTCGCCGTAACGCTGCTGTTTCTCTTTCGGCAGACCTATG +CCAGAGAGTTCAAAGTCGCGCAGTGCGTTATCAACCGCTTTCTTCTGCGCCGTGTTCAGCGTGGCGTAAT +GATCGCCATCGCGCAGGTCGCGATACGCTTTATACAGCCCTTCATGTTGCCCTACCCAGGTGCTGTATTC +CGACAGCAGCGGCAGGGTTTGTTCGTAGGCTTCACGCAGTTCCGGGCTATTTTTCACCGAGTTCAGGTGG +CTGACCGGGGAGAAGATACGCCCCAACACATCGTCCACTTCCGCCAGCGGCTGGCAGAGATTTTCCCAGG +TGTACGGTGCCCCTTGCGCTACTACGCGCTCCACGTTTTCGCGGCAGTCGTTCAATGCCTTAGTCACGGC +TGGAACGACATGTTCCGGGAGAATTTTAGAAAACGGAGGCAATTCAAAGGGAGTCAGTAACGGATTCGTC +ATTCGCGCAGTCCTGGTTAAAGAGGTTAAGGAAGCGCTCAACAGGCGCTTTACATAATGTGTGTAGCATG +GGGTTAAGTGTAGTGAATTTCAATGAGAAACGTTACGCTTTCGCGGCGGCGGCCTCTTTTCGGTATACTG +TCCTGATACGCTTTTGTGCGCCCCGAATACGGGCCGATTTTTACTTACCGGAACACCTTTACCCATGCTC +AGTTATCGCCACAGCTTTCACGCTGGCAACCACGCCGACGTCCTTAAACATACCGTTCAGAGCCTGATCA +TCGAGTCGCTGAAAGAGAAAGATAAACCGTTTCTCTATCTCGACACCCACGCAGGGGCCGGGCGTTATCA +GTTAGGCAGCGAACATGCCGAGCGTACCGGCGAATATCTCGAAGGCATCGCCCGTATCTGGCAGCAGGAC +GATTTGCCCGCAGAACTGGAGGCGTACATCAATGTGGTAAAACACTTCAACCGTAGCGGTCAGTTGCGTT +ACTACCCCGGTTCGCCGTTGATTGCTCGCCTGCTACTGCGTGAACAGGACAGCCTGCAACTGACCGAACT +GCACCCGAGCGATTACCCGTTGTTGCGTTCTGAATTTCAGAAAGATAGCCGTGCGCGTGTCGAAAAAGCC +GACGGTTTCCAGCAGCTTAAGGCCAAACTGCCGCCGGTTTCCCGCCGTGGTTTAATCCTTATCGACCCGC +CGTATGAAATGAAAACTGACTATCAAGCGGTGGTCAGCGGGATAGCAGAAGGTTACAAACGTTTCGCCAC +TGGTATTTACGCACTGTGGTATCCGGTGGTGCTGCGTCAGCAAATTAAGCGCATGATCCACGATCTGGAA +GCGACCGGTATTCGCAAAATTCTGCAAATTGAACTGGCGGTACTGCCAGACAGCGATCGCCGTGGCATGA +CCGCTTCCGGCATGATTGTGATTAACCCGCCGTGGAAACTGGAACAACAGATGAATAACGTGCTGCCGTG +GCTGCACAGCAAACTGGTTCCGGCAGGCACCGGGCACGCCACCGTAAGCTGGATCGTGCCGGAGTAATTG +CAGCCATTGCTGGCACCTATTACGTCTCGCGCTACAATCGCGGTAATCAACGATAAGGACACTTTGTCAT +GACTAAACACTATGATTACATCGCCATCGGCGGCGGCAGCGGCGGTATCGCCTCCATCAACCGCGCGGCT +ATGTACGGCCAGAAATGTGCGCTGATTGAAGCCAAAGAGCTGGGCGGCACCTGCGTAAATGTTGGCTGTG +TGCCGAAAAAAGTGATGTGGCACGCGGCGCAAATCCGTGAAGCGATCCATATGTACGGCCCGGATTATGG +TTTTGATACCACTATCAATAAATTCAACTGGGAAACGTTGATCGCCAGCCGTACCGCCTATATCGACCGT +ATTCATACTTCCTATGAAAACGTGCTCGGTAAAAATAACGTTGATGTAATCAAAGGCTTTGCCCGCTTCG +TTGATGCCAAAACGCTGGAGGTAAACGGCGAAACCATCACGGCCGATCATATTCTGATCGCCACAGGCGG +TCGTCCGAGCCACCCGGATATTCCGGGCGTGGAATACGGTATTGATTCTGATGGCTTCTTCGCCCTTCCT +GCTTTGCCAGAGCGCGTGGCGGTTGTTGGCGCGGGTTACATCGCCGTTGAGCTGGCGGGCGTGATTAACG +GCCTCGGCGCGAAAACGCATCTGTTTGTGCGTAAACATGCGCCGCTGCGCAGCTTCGACCCGATGATTTC +CGAAACGCTGGTCGAAGTGATGAACGCCGAAGGCCCGCAGCTGCACACCAACGCCATCCCGAAAGCGGTA +GTGAAAAATACCGATGGTAGCCTGACGCTGGAGCTGGAAGATGGTCGCAGTGAAACGGTGGATTGCCTGA +TTTGGGCGATTGGTCGCGAGCCTGCCAATGACAACATCAACCTGGAAGCCGCTGGCGTTAAAACTAACGA +AAAAGGCTATATCGTCGTCGATAAATATCAAAACACCAATATTGAAGGTATTTACGCGGTGGGCGATAAC +ACGGGTGCAGTGGAGCTGACACCGGTGGCAGTTGCAGCGGGTCGCCGTCTCTCTGAACGCCTGTTTAATA +ACAAGCCGGATGAGCATCTGGATTACAGCAACATTCCGACCGTGGTCTTCAGCCATCCGCCGATTGGTAC +TGTTGGTTTAACGGAACCGCAGGCGCGCGAGCAGTATGGCGACGATCAGGTGAAAGTGTATAAATCCTCT +TTCACCGCGATGTATACCGCCGTCACCACTCACCGCCAGCCGTGCCGCATGAAGCTGGTGTGCGTTGGAT +CGGAAGAGAAGATTGTCGGTATTCACGGCATTGGCTTTGGTATGGACGAAATGTTGCAGGGCTTCGCGGT +GGCGCTGAAGATGGGGGCAACCAAAAAAGACTTCGACAATACCGTCGCCATTCACCCAACGGCGGCAGAA +GAGTTCGTGACAATGCGTTAAATGTTAAAGGGCTAAGAGTAGTGTGCTCTTAGCCCTTAATTACGTTTCC +GCTATCAGTTCAGAAGCTGAAGCAGAAAGCGGATCAGTTCCAGCAGCGCAATTAACGCCCCTAGAACGAT +GATTGCTTTATCAATCACCCGTTTTCTCCATGCGATGGAGTGAGAATGCATCCGCTTACTCATCCACTGC +CTGTCACGGCGCATGTCTCATTGTTAGATAAGAACTCTCTCACTCCGGCCAGAGCATCAGTTAACGGCAC +CACCCGTACTTCTGACCAGGACTTTGAAAGCGTTTATGCGCATTGCCAGAGTGAAAATGCCTCAGAGCTA +ACTGGATAATCATACAGTACATGCAGGTTATAAAACCAGCACGTCCTTGCAATAGTTTCAGTATGGTATT +AGCATTGATGCGTTAGATGATGGCTATCTCACTCCAGTCAGAGCCACCAACTCAGGGCTGGAAAGTAAAA +AACCGACGCAAAGTCGGTTTTTTTACATCCGGATTCGGACAAGGCTTAATATGACGATGACCCAGTGAAA +GTATATAAATCGTCACTGCGATATATACCGAAGTGCTCCCTCCGCCAGCTGAAGAAATCGCTAATTCTTG +CAATGTTAGCCACTGGCTAATAGTATTGAGCTGTTAGATAAGAACTCTCTCACTCCAGCCAGAGCCACCA +ACTCAGGGCTGGAAAGTAAAAAACCGACGCAAAGTCGGTTTTTTTACGTCCTGATTCAGACCTCCTTTCA +AATGAATAGCCAACTCAAAATTCACACCTATTACCTTCCTCTGCACTTACACATTCGTTAAGTCATATAT +GTTTTTGACTTATCCGCTTCGAAGAGAGACACTACCTGCAACAATCAGGAGCGCAATATGTCATTTCTGT +TACCCATCCAATTGTTCAAAATTCTTGCTGATGAAACCCGTCTGGGCATCGTTTTACTGCTCAGCGAACT +GGGAGAGTTATGCGTCTGCGATCTCTGCACTGCTCTCGACCAGTCGCAGCCCAAGATCTCCCGCCACCTG +GCATTGCTGCGTGAAAGCGGGCTATTGCTGGACCGCAAGCAAGGTAAGTGGGTTCATTACCGCTTATCAC +CGCATATTCCAGCATGGGCGGCGAAAATTATTGATGAGGCCTGGCGATGTGAACAGGAAAAGGTTCAGGC +GATTGTCCGCAACCTGGCTCGACAAAACTGTTCCGGGGACAGTAAGAACATTTGCAGTTAAAAATTTAGC +TAAACACATATGAATTTTCAGATGTGTTTTATCCGGGAGGCATTATGTTACTGGCAGGCGCTATCTTTGT +CCTGACCATCGTATTGGTTATCTGGCAGCCGAAAGGTTTAGGCATCGGCTGGAGTGCAACGCTCGGCGCA +GTACTGGCGTTAGTTACGGGCGTGGTCCATCCGGGTGATATTCCGGTGGTGTGGAATATCGTCTGGAACG +CGACGGCTGCGTTTATCGCCGTCATTATCATCAGCCTGCTGCTGGATGAGTCCGGCTTTTTTGAATGGGC +GGCGCTGCACGTCTCACGCTGGGGTAATGGTCGTGGTCGCTTGCTGTTTACCTGGATTGTCCTGCTCGGT +GCTGCCGTTGCCGCCCTGTTTGCCAATGATGGCGCGGCGCTTATTTTGACACCGATTGTCATCGCCATGC +TGCTGGCTTTAGGGTTCAGTAAAGGCACTACGCTGGCGTTCGTGATGGCGGCCGGATTCATTGCCGATAC +CGCCAGCCTGCCGCTTATTGTCTCCAACCTGGTGAATATCGTTTCCGCTGATTTCTTTGGCCTCGGCTTT +CGCGAATACGCCTCGGTGATGGTGCCGGTGGATATCGCCGCGATTGTTGCCACGCTGGTGATGTTACATC +TCTATTTTCGCAAAGATATTCCGCAGAACTACGATATGGCGCTGCTGAAATCTCCCGCAGAAGCGATCAA +AGATCCTGCTACGTTCAAAACTGGCTGGGTTGTTTTACTGCTTCTGCTGGTGGGATTTTTCGTCCTGGAA +CCGCTCGGCATTCCGGTGAGCGCCATTGCAGCTGTGGGCGCGCTGATATTATTTGTCGTCGCTAAACGCG +GTCATGCGATTAATACGGGTAAAGTCCTGCGCGGTGCCCCCTGGCAGATTGTCATCTTCTCGCTCGGCAT +GTATCTGGTGGTTTATGGCCTGCGCAATGCCGGATTAACGGAATATCTTTCTGGCGTACTCAACGTGCTG +GCGGATAACGGCCTGTGGGCCGCGACGCTCGGCACCGGATTCCTCACCGCCTTCCTCTCTTCTATTATGA +ACAATATGCCGACGGTACTGGTTGGCGCGTTGTCCATTGATGGCAGCACGGCATCTGGCGTTATCAAAGA +AGCGATGGTTTATGCCAATGTGATTGGCTGCGATTTGGGACCGAAAATTACCCCAATTGGTAGCCTGGCT +ACGCTACTCTGGCTGCACGTACTTTCGCAGAAGAATATGACTATCAGCTGGGGATATTACTTCCGTACAG +GGATTATCATGACCCTGCCTGTGCTGTTTGTGACGCTGGCTGCGCTGGCGCTACGTCTCTCTTTCACTTT +GTAATGAGATACTGATATGAGCAACATTACCATTTATCACAACCCGGCCTGCGGCACGTCGCGTAATACG +CTGGAGATGATCCGCAACAGCGGCACAGAACCGACTATTATCCATTATCTGGAAACTCCGCCAACGCGCG +ATGAACTGGTCAAACTCATTGCCGATATGGGGATTTCCGTACGCGCGCTGCTGCGTAAAAACGTCGAACC +GTATGAGGAGCTGGGCCTTGCGGAAGATAAATTTACTGACGATCGGTTAATCGACTTTATGCTTCAGCAC +CCGATTCTGATTAATCGCCCGATTGTGGTGACGCCGCTGGGAACTCGCCTGTGCCGCCCTTCAGAAGTGG +TGCTGGAAATTCTGCCAGATGCGCAAAAAGGCGCATTCTCCAAGGAAGATGGCGAGAAAGTGGTTGATGA +AGCGGGTAAGCGCCTGAAATAAAGCGGCGATATCCCCCCCACAGGTTGTTAGAAAAGTGCGCTTTATTTA +TGTCGGATGCGACGCTGGCGCGTCTTATCCGACCTACAAAGTTATGAAAATTCGATGAATAGTATGTTAT +TTGTAGGCCTGACAGGCGTAGCGCATCAGGCGATTTTGCTATTTACACAGTACTCCCTGCGTGAGATTCC +AATTATCGCGTCCAGCATGGTGTATCAGTGAGCTGCTTAGTTATCAGCGATACAGCGCAGTAGTTTAAAG +ACGTACTGGATTATGATTTATCAGTGGTTTACACAACAAATTATTAAATAATTATAAGATACCTTAACCC +ATTTTATTATTACACATCTAAAACATCACAAAAAAAATCACTTCACACACTATCAGAGAACATAATAACT +TTTTAAAATGAGCGCATTTTGATAGTTGTTAACGATTTCCTTTACGATACTATCACTACCCTTTTTTTAC +ACACAAATATTACCGGGTGGAGATAAAAGGGAAATCAAAGGTAATTATATCAGGAAGATATAACGCATTA +CATTTATTGTGTGTAGAAGAAAATCCATTCCTGTTCTAATTATCCAATTTAAACATCTTAGCATAAAACA +AATGATGAATAAGGAATTTTATGTCAATTGACTTTACCCCAGGTATAATAAATACATATCACGGCGATAT +TTATAACTGCACAACAAATACCGATAATGCTAAAACGCCAGACACACCGAAGTGGCCTTGCGATAATTGG +GAAGAACAACAACCCATTAATTCCACATTCTCTGGAGAAGGATATATCTCTGATCAATATGATTTAGCGC +AACACCAACTTCAACAAATTAATGCGTGCCACACGAACACTACATATACAAATGCAGACTACTCAAAAGT +TGTGGCTCAACTTGTAAGTCTTATTACTAACATTGAAACGATAAGTTCGACACAACTTACGCAACAGACA +CAATCAATACTTAATCAGATTAATAACATTAGATATGAAAAAAACAAAAGTGCTGAATGTCGAATCATTG +TTATCGCTAATCCTAAACCCGACAAGGCAATCATAACTAAAATTAGCGTAGAAGAGGGAATACCCATAAC +ATTCAGTGTCCAAACCATGTTTTCAGATACTAATTTTATTGCTGAACAACGAGCTGACTTACCAACTAAT +ATAAAAGATATTCAAAGCCTGTATCAAAAAATGACGAAGTTATATATTGAGCACAGTGAAAATAAAAACA +GGATGAAAGTCTTTGCCGGAACCAACTTTATTGATTTCAATATGACAGGACAGAACCTGTCCGGGTTCGT +TCTAACCTTGTCAAGGTTTTATTTCGAAGATCTACTTAATATAAATTTCACTGACGCAAATTTAGGGAAG +GTGCGAATAAGCGGGGAAATTCTTCTCGGCTGACTCAGTCATTTCATTTCTTCATGTTTGAGCCGATTTT +TTCTCCCGTAAATGCCTTGAATCAGCCTATTTAGACCGTTTCTTCGCCATTTAAGGCGTTATCCCCAGTT +TTTAGTGAGATCTCTCCCACTGACGTATCATTTGGTCCGCCCGAAACAGGTTGGCCAGCGTGAATAACAT +CGCCAGTTGGTTATCGTTTTTCAGCAACCCCTTGTATCTGGCTTTCACGAAGCCGAACTGTCGCTTGATG +ATGCGAAATGGGTGCTCCACCCTGGCCCGGATGCTGGCTTTCATGTATTCGATGTTGATGGCCGTTTTGT +TCTTGCGTGGATGCTGTTTCAAGGTTCTTACCTTGCCGGGGCGCTCGGCGATCAGCCAGTCCACATCCAC +CTCGGCCAGCTCCTCGCGCTGTGGCGCCCCTTGGTAGCCGGCATCGGCTGAGACAAATTGCTCCTCTCCA +TGCAGCAGATTACCCAGCTGATTGAGGTCATGCTCGTTGGCCGCGGTGGTGACCAGGCTGTGGGTCAGGC +CACTCTTGGCATCGACACCAATGTGGGCCTTCATGCCAAAGTGCCACTGATTGCCTTTCTTGGTCTGATG +CATCTCCGGATCGCGTTGCTGCTCTTTGTTCTTGGTCGAGCTGGGTGCCTCAATGATGGTGGCATCGACC +AAGGTGCCTTGAGTCATCATGACGCCTGCTTCGGCCAGCCAGCGATTGATGGTCTTGAACAATTGGCGGG +CCAGTTGATGCTGCTCCAGCAGGTGGCGGAAATTCATGATGGTGGTGCGGTCCGGCAAGGCGCTATCCAG +GGATAACCGGGCAAACAGACGCATGGAGGCGATTTCGTACAGAGCATCTTCCATCGCGCCATCGCTCAGG +TTGTACCAATGCTGCATGCAGTGAATGCGTAGCATGGTTTCCAGCGGATAAGGTCGCCGGCCATTACCAG +CCTTGGGGTAAAACGGCTCGATGACTTCCACCATGTTTTGCCATGGCAGAATCTGCTCCATGCGGGACAA +GAAAATCTCTTTTCTGGTCTGACGGCGCTTACTGCTGAATTCACTGTCGGCGAAGGTAAGTTGATGACTC +ATGATGAACCCTGTTCTATGGCTCCAGATGACAAACATGATCTCATATCAGGGACTTGTTCGCACCTTCC +TTAGGTGACACTATTTTTTTACATAAAGAACACCCTACCCCCAAATTATATAAAGATGGACAATATCTTG +ACAAACAAATCGAAGGTTTATTTTCAACATTATTAACCATTAATGACAACCTTTTACGAGCAAAAGCGGA +AATTGCTTCGACAATAATTAAATTTTTAGAGGCCAGGATAACCAATCTTTCATACAATGACATATTAAAA +TATCAGCAAGAATTCCAAAGACAATGTTATAAGCAAGTTAAAGCCTTTACGACACTCTCCCGATACAATA +AAATTCAAACATGGGCAGAAATGTCTGAATATCAATTCGAAGTATTTCAATACGAGACGCTTAACCCAAA +AAAAATGTCACACACGCCTTATTTAAAGAGGCCACTGCCTAATGAAAAAGATATAAATTATGGGGTGGAA +ATAGAAATACCATCTGGTAAAAGAATTCGCTTATCAAATCATTACCAGAATATAATACCATAATATTGAT +TATTAGCACTTTATAATCATTGAATAAAAATAGATTTTATGTACTTTTAAAACAATGCACTATATTATGG +GGTGATGGATATTCATGTCACGCCCCAAAATTAACTGAGTTCACCTAAACAGAAAGGATATAAACATCAG +ACAGGTTTACGTTACTATCAGGCATATCACCTCAGAATCAGATGAAAACTATAAAGAAATATCTATTATG +GTTTTAATATTTGTTGATAAGGATAGTAACATGAACATGACAAAAGGTGCACTCATCCTCAGCCTTTCAT +TTTTGCTTGCCGCATGTAGTTCAATTCCGCAAAATATCAAAGGCAATAACCAACCTGATATTCAAAAAAG +TTTTGTTGCTGTTCATAACCAGCCGGGGTTATATGTTGGTCAACAAGCGCGCTTTGGTGGGAAGGTTATC +AACGTTATCAATGGCAAAACGGATACGTTGTTAGAAATCTCTGTATTACCGTTGGATAGCTATGCGAAGC +CTGATATTGAAGCCAACTATCAGGGCCGACTGCTCGCCAGACAAAGCGGCTTCCTTGATCCAGTGAACTA +TCGTAATCACTTTGTTACCATCCTCGGCACCATTCAGGGTGAACAACCTGGCTTTATCAATAAAGTCCCG +TATAACTTCCTGGAAGTGAATATGCAGGGCATCCAGGTGTGGCATTTGAGAGAAGTGGTTAATACCACCT +ATAACCTGTGGGATTACGGCTATGGTGCATTCTGGCCGGAACCGGGCTGGGGTGCGCCTTACTACACCAA +TGCGGTGAGTCAGGTAACACCTGAGCTGGTCAAATAACACCACCGAAAGATGCAGATGCTTTCTCAGCAT +CTGCATCATGCATTACATCAAATTAATACACAGTAAGCTAACTATTATTATTATAAGCCCTGTCCTGTTA +ATTACCTTTGGCAAACTGATTATAAAGTTAATGTCCGCACCAGGAGTCGGTTATGTTTCTTATAATTACC +AGGGATACGATGTTCTTCACCGCGATGAAAAACATTCTGAGTAAAGGTAATGTCGTTCATATACAGAACG +AAGAAGAGATCGACGTAATGTTGCATCAGAATGCCTTCGTCATTATTGATACATTAATGAATAATGTATT +TCATTCTAATTTTCTCACTCAAATTGAACGATTAAAACCTGTCCATGTCATTATTTTCTCCCCCTTTAAT +ATTAAACGCTGCCTGGGGAAAGTGCCGGTGACCTTTGTTCCGCGGACTATCACTATCATTGATTTTGTCG +CACTCATCAATGGCAGTTACTGCTCTGTGCCTGAAGCGGCTGTGTCACTTTCGCGCAAGCAACATCAGGT +TCTGAGCTGCATTGCGAATCAAATGACAACGGAAGATATTCTGGAGAAACTGAAAATATCGCTAAAAACG +TTCTACTGCCATAAACACAATATCATGATGATCCTCAATCTTAAGCGGATCAATGAGCTGGTACGCCATC +AGCATATTGATTATCTGGTGTGAATTTCAGGCTTACGGTGAGTCTGGCTACGCTGCCACACAGATTAGCT +AATTGAAACGCCTTTCACCCCTGCCATACCTTTTAATAATCGCAACAGGTCTTCTATCGACGTTGTGGCA +TGAAGCTGGATATCAATGGCGACCACTTCATGATCTTCATTTTCCTGCAACGAAACTAAATCAGTTTTTA +TTTTTTGCTGCTTAAACCAGTCGAGCATTGATACCGTATTACCGTTCACTAATGTCAGCTGTAAATGGTA +ATTTTTGTTCATCAGGCGGAAGGTTAATTGATGGAAGACTTCCAGCACCAACAAGGTCATCACTGAACCA +TAAATACCCAGTTCGTACATACCGCTGCCAATAACCATACCTATGGCGGCGGTCACCCAGATATCCGCTG +CCGTCGTCAGACCTACAATATTTTGGTTACGAACGAGAATGTTACCTGCACCGATAAACCCGACGCCCGT +CACCACCTGAGCAGCAATACGGCTGGGGTCGAGTCCGACGTGATCTAAAGACAGCACGTCAGCAAAACCA +TATTTCGAAACAATCATAAACAGGGCGCTTCCCATGCCAATTAATACATGTGTGCGTAACCCTGCTCCTT +TGCCGCGCATTTGCCTTTCCATGCCAATAGCGCCACAGGCAATTGCCGCGAGTATAAGACGTATAATAAA +TTCTGCTGTCATATAAAAATGCAAAAAGGAGCAGCAAGATGGCTCAACTTGCTACTCCTTTTTACTTGCA +CCTCATTAATTCGGCAAGTCATTAGATGCTTGATTTTTGAAGGTATACAAATTTTTCTGCGGGTTTTTCT +TACAGTATTCGATCACTTTAGGAATTTGAGTGAGATCGGTTTCATTTAAAGTAACGGTATCGCCACCTTT +ATATACTGTTTCTTCATGCAGCATCCACCATGCAACCGGGGTCATTGCTTTTGGATTCAGATCAATAAAT +TCCTGGCAGGTCATATCTTTAGCGGATTCATTGGCTGCCAACGCAGATTGTGCGTTCACCAGTGACAAAG +CCGCTACAGCGCCCATAAAAATAAACGCTTTACGGAGAGATGAAATATTCATTTTGTAACCCATTCAATA +TAGAGATTATATATGAACAGGAGGAATAGCTGCTTTTAAAGAAGATATTCCGGCCTGTTCAATATGCAAG +GAAGTACGATGTAACGCATTCCCGGAATTACATATCTTTCTTAATTTTGTCCCATTCGCCTTTAACTTTA +TCTTTAAAGTTGGCTTGTTTATCCTGAGTACAAGCCTGAACGATAGCTGGGGTTACGGTTGCAATACCCT +GAACATCTAAAACCGCATCTTCTGGTTTATCTTTGTTGTTCAGCGCTTCAGCAAAACCAACTGCAGTTGG +CTGGAAGGATTCGTCCACAGCCAGGAAATCTTCACAGGTCCAGGAGTTGACCGGTTTTTTGTTATCAGCT +GCTTTTTGCGCATCCGCTGCATTGCTCACAACTGGCAGAAGAAGCAGACCACCAAGAATAACGCCTAATA +CTTTTTTCATCGTAATATCCTCAACTATAAAGTGAAAGAGCCGTCACGAATCAATTTCGACACTGAGGTT +ATAACCTGGTTTTCTGTATATGTCATGTTGATGGAAAATATCAAAATCAGATATTTTTATTTCAATACAA +TGAGTTACAGATGCATCAGATACTGCAATTAGGAAATTTTTATTAAATCGACTGCATTCTTAGACGCGTT +TTTGGCATAGATTGATAGCAGGGGATTTTCTTCTTAATTTTATAGGGTGGTTCTATGTTATATATAGATA +AGGCAACAATTTTGAAGTTTGATCTGGAGATGCTTAAAAAACATCGCAGAGCAATCCAGTTTATTGCCGT +GCTGCTGTTTATCGTCGGGTTGCTGTGTATCAGTTTCCCGTTCGTCTCTGGCGATATTTTAAGCACAGTA +GTGGGTGCATTATTAATCTGCTCGGGTATTGCGCTTATTGTCGGGTTATTCAGCAACCGCAGTCATAATT +TCTGGCCGGTATTATCCGGTTTCCTCGTCGCAGTCGCCTATTTATTGATCGGCTATTTCTTCATCCGCGC +ACCGGAGCTGGGCATTTTTGCCATTGCGGCATTTATTGCCGGTTTGTTCTGTGTTGCAGGGGTTATTCGC +CTGATGAGTTGGTATCGTCAGCGTTCAATGAAAGGCAGCTGGCTACAGCTCGTTATTGGTGTGCTGGATA +TCGTCATTGCCTGGATATTCCTTGGTGCAACGCCGATGGTGTCTGTAACGCTGGTTTCCACACTGGTGGG +AATTGAACTGATATTTAGCGCCGCCAGCCTGTTCAGCTTCGCCAGTTTGTTCGTTAAGCAGCAATAATTA +CCCCGGTTGTCACCCGGATCATAGTCACTTGATGTGACTATGATCCGATTAATACTCTCTCCGCTACGCA +GTGTTGTAGATCAATTGCGCACTATCATTGAAATAATTACCTGCTAGTGATTATTTCAACCTACTGAATT +TCATCTAATTTTTTTCACTCTATGGCAAATTAGCCATTTCAAACATTATCATGGCTGATATTTTCCGTAG +TCAGGTTTAATGTTTTAAAAGTGCTGTGGGAAAGTGAACAAAGAGTTCCGTAAGCGTTGATGCTATGGGC +GGTTAAATAAGTAATCCGGGTTCATTTTTTTGCAACTGGCGTTGATTACATTGCATAAATATCCGTGTCT +CCAGACGCTATATAAAAACCTGAAGACATGAATGCGTTATTTACTCAGGTAATTTCAATGCGTTAAAAGA +AAGCTGGCAATCCAATTGCCAGCTTAAGTCGAAACAAGGAGACTCGATATTTAAATCGGATTACATTTTA +ACTTTAGTAATATTCTTCAGAGATCACAAACTGGTTATTGATAACTTATTCTTGGGCAGTAATCCGCAAA +CGTTAACTTTTTGTTTGCTATTTACAAGCTGATAACAACCAGGAATCTTACTTAGGATCAATATATGGAG +TGCGTGATGGATAAATCTGAAGTATTGATTAGTGTTAATAGACGTATTAGTTCACGAAGGGTAAAGTTCT +TATAGGCGTTTACTATATTGAACAACGATTCGGACAAGGATGTAAATAATGAAAAGGATGACATATTCGA +AACGATAACGGCTAAGGAGCAAGTTATGATTTTTCTCATGACGAAAGATTCTTTTCTTTTACAGGGCTTT +TGGCAGTTGAAAGATAATCACGAAATGATAAAAATCAATTCCCTGTCAGAGATCAAAAAAGTAGGCAATA +AACCCTTCAAGGTTATCATTGATACCTATCACAATCATATCCTTGATGAAGAAGCGATTAAATTTCTGGA +GAAATTAGATGCCGAGAGAATTATTGTTTTGGCACCTTATCACATCAGTAAACTAAAAGCTAAAGCGCCT +ATTTATTTTGTTAGCCGCAAAGAAAGTATCAAAAATCTTCTTGAGATTACTTATGGTAAACACTTGCCCC +ATAAGAATTCACAATTATGTTTTTCACATAATCAGTTCAAAATTATGCAACTGATTCTGAAAAATAAAAA +TGAAAGCAATATCACGTCGACGCTCAATATTTCGCAACAAACATTAAAGATTCAGAAATTCAACATTATG +TACAAGCTGAAACTAAGACGTATGAGCGACATCGTCACCCTGGGTATCACATCTTATTTTTAGTCAGGAC +ATAAGCAACTGAAATTGATGGCTGGCATGACGAGGGATGCAGATGCTGATTTCATTACCCCCGGTGATTA +CTAAAGGAGAGGCTAAAACGACTTTATTCCCCTGGTATGTGTATCCACCAGTAGAACCCTTCGTTGCCCG +AATGCTGGCAGGAACTGTTGGCAGAACGGCAACATTTTTTTTGTCGTTGACCTCACCATGTCGATCACTG +TGCCTGTATCCCACCTTACTGGCTGACAACCCCACTATGCCGCTGGTCTGTAAATCCCTCATATCTCTCC +TCGCGCGCAATTTAAAGAACCGTTATTTCTCAAGAATTTTCAGGGACTAAAATGAACAGAAGAAGAAAGC +TGTTAATACCGTTGTTATTCTGCGGCGCGATGCTCACCGCCTGCGATGACAAATCGGCGGAAAACGCCGC +CGCCATGACGCCTGAGGTCGGTGTCGTCACACTCTCCCCCGGTTCGGTCAATGTGTTGAGCGAATTGCCC +GGTAGAACCGTTCCTTATGAAGTTGCCGAGATACGTCCCCAGGTGGGCGGTATTATCATTAAACGCAACT +TTATCGAAGGCGATAAAGTGAACCAGGGCGATTCGCTGTATCAGATTGATCCTGCACCTTTACAGGCCGA +GCTAAACTCCGCCAAAGGCTCGCTGGCGAAAGCGCTCTCTACCGCCAGCAATGCCCGCATCACCTTTAAC +CGCCAGGCATCGTTGCTGAAGACCAACTACGTTAGCCGTCAGGATTACGACACCGCGCGCACCCAGTTGA +ATGAAGCAGAAGCCAATGTCACCGTCGCCAAAGCGGCTGTTGAACAGGCGACGATCAATCTGCAATACGC +GAATGTCACCTCGCCGATTACGGGCGTCAGCGGGAAATCGTCGGTGACCGTCGGCGCACTCGTTACCGCT +AATCAGGCAGATTCGCTGGTTACCGTACAACGTCTGGACCCGATTTATGTCGATCTCACGCAGTCGGTGC +AAGATTTCTTACGCATGAAAGAAGAGGTCGCCAGTGGGCAAATCAAACAGGTTCAGGGCAGTACGCCAGT +ACAGCTCAATCTGGAAAATGGTAAACGCTACAGCCAGACCGGCACGCTGAAATTCTCCGACCCGACAGTG +GATGAAACCACGGGCTCCGTGACGTTACGGGCGATTTTCCCCAACCCAAATGGTGACTTGCTGCCTGGCA +TGTACGTCACGGCATTAGTGGATGAAGGTAGCCGCCAGAATGTATTACTGGTGCCGCAGGAAGGCGTCAC +CCACAACGCCCAGGGTAAAGCAACGGCGCTCATTCTGGATAAAGACGATGTCGTGCAGCTACGCGAAATT +GAAGCCAGCAAAGCCATCGGCGACCAGTGGGTCGTCACCTCTGGCTTGCAGGCTGGCGATCGGGTGATCG +TTTCCGGTTTGCAACGCATTCGTCCGGGTATCAAAGCACGAGCAATTTCCTCCAGCCAGGAAAACGCCAG +CACCGAATCGAAACAATAACGTTGCAGGCTTAAGGGGACTTTCATGGCTAACTATTTTATTGATCGCCCG +GTTTTTGCCTGGGTACTTGCCATTATTATGATGCTTGCAGGTGGTCTGGCGATCATGAACTTACCGGTTG +CGCAGTATCCGCAGATTGCGCCACCGACCATTACCGTCAGCGCTACCTATCCAGGTGCCGATGCGCAAAC +GGTAGAAGACTCGGTCACTCAGGTGATTGAGCAAAATATGAATGGGCTTGATGGCCTGATGTACATGTCT +TCAACCAGTGATGCGGCGGGCAATGCCTCTATCACTCTGACCTTCGAGACTGGGACATCTCCTGATATCG +CACAGGTTCAAGTGCAAAATAAACTGCAACTCGCTATGCCTTCATTACCTGAAGCAGTGCAGCAGCAGGG +GATTAGCGTCGATAAGTCGAGCAGTAATATCCTGATGGTAGCGGCGTTTATTTCTGATAACGGCAGCCTC +AACCAGTACGATATCGCGGACTATGTAGCGTCTAATATCAAAGACCCGCTAAGCCGTACCGCGGGCGTTG +GTAGCGTACAACTCTTTGGTTCCGAGTATGCCATGCGTATCTGGCTGGACCCGCAAAAACTCAATAAATA +TAACCTGGTACCTTCCGATGTTATTTCCCAGATTAAGGTGCAAAACAACCAGATTTCCGGTGGTCAACTG +GGTGGCATGCCACAGGCGGCAGACCAGCAGCTAAACGCCTCGATCATTGTGCAGACGCGTCTGCAAACGC +CGGAAGAATTTGGCAAAATCCTGTTGAAAGTTCAGCAAGATGGTTCGCAAGTGCTGCTGCGTGATGTCGC +TCGCGTCGAACTTGGGGCGGAAGATTATTCCACCGTGGCACGCTATAACGGCAAACCTGCTGCCGGGATC +GCCATCAAACTGGCTGCCGGAGCAAACGCCCTGGATACCTCGCGGGCAGTCAAAGAGGAACTGAACCGCT +TATCAGCCTATTTCCCGGCAAGTCTGAAGACGGTTTATCCTTACGACACCACGCCGTTTATCGAAATTTC +TATTCAGGAAGTTTTCAAAACACTGGTTGAGGCTATCATCCTAGTCTTCCTGGTCATGTATCTGTTTTTG +CAGAATTTCCGTGCCACAATCATCCCGACGATTGCCGTACCGGTGGTTATTCTCGGGACGTTTGCGATCT +TGTCGGCGGTCGGTTTCACCATCAACACGTTGACTATGTTCGGGATGGTGCTGGCGATAGGGTTACTGGT +GGATGACGCCATCGTGGTGGTGGAGAACGTCGAGCGTGTCATTGCGGAAGATAAGCTACCGCCGAAGGAA +GCGACGCATAAATCGATGGGGCAGATCCAACGTGCGCTGGTCGGTATTGCCGTTGTTCTTTCCGCAGTGT +TTATGCCGATGGCCTTTATGAGCGGTGCAACCGGGGAGATCTACCGCCAGTTCTCCATCACGCTGATCTC +CTCCATGCTGCTTTCAGTATTTGTGGCAATGAGCCTGACCCCTGCCCTGTGCGCCACCATTCTGAAAGCC +GCGCCGGAAGGCGGTCACAAACCTAACGCCCTGTTCGCACGCTTCAACACGCTGTTTGAAAAATCAACTC +AACACTATACCGATAGCACCCGCTCGCTGTTGCGTTGTACCGGTCGCTACATGGTGGTCTACCTGCTGAT +TTGCGCCGGGATGGCGGTGCTGTTCCTGCGCACGCCGACCTCTTTCTTACCAGAAGAGGATCAGGGGGTA +TTTATGACCACCGCGCAGTTACCTTCCGGTGCCACCATGGTTAACACCACGAAAGTGCTGCAACAGGTGA +CGGATTATTATCTGACTAAAGAGAAAGATAATGTCCAGTCGGTGTTTACCGTTGGCGGCTTTGGCTTCAG +CGGTCAGGGGCAAAACAACGGCCTGGCGTTTATCAGTCTCAAGCCGTGGTCTGAACGTGTCGGTGAGGAA +AACTCGGTTACCGCGATCATTCAGCGGGCAATGATTGCGTTAAGCAGTATCAATAAAGCCGTCGTCTTCC +CGTTCAACTTACCCGCGGTGGCTGAACTGGGTACCGCGTCAGGTTTTGATATGGAACTGCTGGACAACGG +TAACCTGGGGCACGAAAAACTAACCCAGGCGCGAAACGAGCTGTTATCACTGGCAGCGCAATCACCGAAT +CAGGTCACCGGGGTACGCCCGAACGGCCTGGAAGATACGCCGATGTTCAAAGTGAACGTCAACGCTGCGA +AAGCTGAAGCGATGGGCGTGGCGCTGTCTGATATCAACCAGACAATTTCCACCGCCTTCGGCAGCAGCTA +CGTGAACGACTTCCTCAACCAGGGGCGGGTGAAAAAAGTGTATGTCCAGGCAGGCACGCCGTTCCGTATG +TTGCCGGATAACATCAACCAATGGTATGTACGCAACGCCTCTGGCACGATGGCACCGCTTTCTGCCTACT +CGTCTACCGAATGGACCTATGGTTCACCGCGACTGGAACGCTACAACGGCATCCCGTCAATGGAGATTTT +AGGTGAAGCGGCGGCCGGGAAAAGTACCGGTGACGCCATGAAATTTATGGCAGACCTGGTCGCTAAACTT +CCGGCAGGCGTCGGCTACTCATGGACCGGACTATCGTATCAGGAAGCGTTATCCTCAAATCAGGCTCCTG +CGCTGTATGCGATTTCACTGGTCGTGGTGTTCCTCGCCCTCGCCGCACTCTATGAGAGCTGGTCAATTCC +GTTCTCGGTGATGTTGGTTGTTCCGTTAGGCGTCGTTGGCGCATTACTGGCCACCGATCTGCGCGGCTTA +AGTAATGACGTCTACTTCCAGGTTGGTTTGCTGACCACCATCGGGCTTTCCGCCAAAAACGCCATCCTGA +TTGTCGAATTTGCCGTTGAGATGATGCAGAAAGAAGGGAAAACGCCGATAGAGGCAATCATCGAAGCGGC +GCGGATGCGTTTACGCCCAATCCTGATGACCTCTCTGGCCTTTATTCTCGGCGTGCTGCCGCTGGTTATC +AGTCATGGTGCCGGTTCTGGCGCGCAAAACGCGGTAGGTACCGGCGTGATGGGCGGGATGTTTGCCGCAA +CAGTGCTGGCAATTTACTTCGTTCCGGTCTTTTTCGTTGTAGTGGAACATCTCTTTGCCCGCTTTAAAAA +AGCGTAACGTGTAAATGAGAGTAAGGTTGAACATGAAGGTTCAGCCTTACTCTTTCCTGCTAACCATTCA +CCACTCAACAACCAGCTAACCGTCAGGAATACCAGGCTTAGTACACAGCACTGAAAGTAGAAACCACTCC +AGCCATTCGTCATCAATTTGAACAACACAATACTGACCCACATTCCCGTAATCGTATGAATTGTCAGCTT +AATAATCCCAAACATGCCGAGTCTTTTCCTCCTGAAAATACCGATACCGCCTGGCAAACTGCGAAAGAGA +ACTAGCCGGTAGCCCGGCAGAAATCATCAGGGAAGAGTTTCACATGAAGCAGGTGTGAGATCCTGACCAA +TATTCAAATGCGAAATATGTCAGGAAAAGGTACCTGGCGAATGTTGCGCAAACTGATGTGGCGTTACACC +ATAATATTGTCGAAATGTGTTTATAAAGTACGATGTACTGCTATAGCCACATTTTTCCGCAATAGTATGC +AGAGGAATTTGACGTAACTCGAGTAATCGTCTGGCCATCGACATCCTGGAGGCGAGTAATATTTTACTGA +AACAGGTATTTTCATCCTGCAACTTTTTTTTGATTAGACTCTCGCTGGTATACATTCTTTCCGCGATATC +GCGCAGATACCAACGTTTGGCGATATCAAAGCTAATAAGGCGTTCAACTTTTCCTGAAACAGTGCTGATG +CTATTGAAAAGTAAGGGGATCAGTTCTTTCTTATGAGAAAACATCGATAAACAGGAAAGGTAGAGCATAT +TGCTCAGTATCGGTGAATTTACCCCGGATTCATTGAAGCTATCAAAAATCGCCGTCACCAGCGGCATGGG +GGGTGACTGGTTAATTAACAAACGGTCTTTGCTGTGTAACCCTAAATTGCGTGGTAGCTGACGAATATTT +TGTAAGTAATGGCAAACTGTCAGCTCATCGATATCCAGTCGTCGCGTATCCGGTGAACAAAACGCAAAAT +CGTCTGCCAAATTTTTCTCCAGCAGCAGAATACTCTCGTTATGCAGCGATATTTTTTGCTGTTCATGATA +AATATCGAATGAACGACGAATGAGGATCACCGAGCAGACATGAGTCATGATTATCCCTTATATTTCATAC +TGCGATTATTTCAATTTCAGTATACTAATGAAATGATGCCAGACTGTTTCTTAGCGCAAAAACTGCCAGA +TTTGGTAGGACCAAAATTTATCCACAAAGTAGTTTTGCATAACAGTTAATTGATAATAAGTAAATGCAGC +ACGAATATATTTTCGCACAGCGTATAGCTTATGTTTATAAAAAAATGGCTGATCTTATTTCCAGTAAAAG +TTATATTTAACTTACTGAGAGCACAAAGTTTCCCGTGCCAACAGGGAGTGTTATAACGGTTTATTAGTCT +GGAGACGGCAGACTATCCTCTTCCCGGTCCCCTATGCCGGGTTTTTTTTATGTCTGAGTAAAACTCTATA +ATCTTATTCCTTCCGCAGAACGGTCAGTGCCGTAAAAATTCCCTTGCGCAACAATACTTGCCGCCGAGTC +ACGGTTCGACAATCTCTGCGCCGATCGCTCCTGATACTCTGTGGGCGTCATCCCATAATAATTTCGAAAG +ACGTAAATGAAATACGACACGCTGTGATATCCACAGGATACTGCAACTCGCTTAATTGAAAAACCATGTA +TAACAATAAGTTGCAAAGCACGTTGCATTCTACACTCAGTAAGCAACTGTGAATATGATGTCTCTTCTTC +GCGCAATTTTTTCTTTAACAGACTTGGACTCATCAACAGCTCGCTGGCGATTCGGGCTAGTGTCCACTCA +TGGGCGATATTATTATTGATAACCGTACAAACTCGTGTTCGCATGTTCGGTTGTAAAACGTTCAGAAGCA +GCGGTATAAAGTGCTCATCCTCAAGAAAAACAGATAACAACGCAAAGATTAATGCTCTTTTACGTAGCAT +TTCTGCATAGCGAAGATTCTTATTCTGCGATAGTTGCGCAACTTCCTGAAAAACAGGAATATCTCTACTA +CAGTGATGAACGAGTAATGAAGAAACTTTTTTATGTGCATGAAGATTTAATGCCTCCTCCTTGAGCATCG +GGAGAAATAATGAAAGCGTGTCCCTTGACACGAATACAAAATTTTCAACACACTTATCTACTCGAATTTG +GCTTGCATCCGCAAAAACCAGGTCACCGCCATTAAAATAGCGATATTCACCATTAACCATGGTGAGAATA +TATTTATGTCTTGCATACGCAATTAGACAATTCCCATGTAGTGATTGCATAGTTGACTTAATATTACATA +AACATATTACTGTTTATTAATGTAGCACGCCGCCCTCTTAAGTCAAATTGATTGATAAATAAATTTAAAC +GAAGCGGGAGAACAGGATGATAATGTGTGATGTTCTACGGGCAGGATGACTGGATTTATAATACAAAAAC +GTGTTTAAGAACACAGGGAAATTAATAGTAAGCAAATAATCCCTTTTCGTGACATTAAAGGTAATCGCTA +CATTTAATAAACATTCATATAACATATATCTTATCAACACGATGAATAGACAGCCAATATATTATTGCGA +TTAATAAGCAACCGAATGCCCAGCTGTTTTTTTAAAGGCTGGGCATTCGGTTTTTACAACGTTATGTTAT +CAGGTGTGTTTAAAGCTGTTCTGCTGGGCAATACCCTGCAGTTTCGGGTGATCGCTGAGATATTTCAGGG +AGGCTTTGTAGTCTTCCAGCAACAGTTCAGCAAAGTCCATTTCGAAGCCGCGACGACACATAATGCGCAT +CACCACGATGTCGGTGGCTTCACCGCCGAGAGTGAAGGCCGGAACCTGCCAGCCGCGCAGACGCAGACGT +TCAGAGAGGTCGTACAGGGTGTATCCCGGATCTTCACCATCTTTCAGTTTGAAGCAAACCGCCGGGATGC +CTTCGTCCGGGCGACCCGTACAGATGAACTCATACGGCCCCAGTTTGGCGATTTCATCCGCCAGATAAGC +GGCAACCTGGTAAGAGGCGTTCTGTACTTTGGTATAGCCTTCACGACCGAGGCGCAGGAATTCATAGTAC +TGTGCAATTACCTGACCCGCCGGGCGGGAGAAGTTGATGGCAAAAGTACCAATTTGACCACCCAGGTAGT +CAACGTTGAACACCAGTTCCTGCGGCAGCGCTTCTTCGTCACGCCAGATAACCCAGCCGCAGCCCAGCGG +AGCCAGACCGAATTTATGGCCTGAAGCACTGATCGATTTCACACGCGGCAGGCGGAAGTCCCAGACGATA +TCCGGGGCGACGAACGGTGCCAGGAAGCCACCGCTGGCAGCGTCGATGTGCATGTCGATGTCGATACCGG +TGTCGGCCTGGAATTTATCCAGCGCATCGTGCAGCGGTTGTGGGAACTCATAGTTACCGGTGTAGGTCAC +GCCGAAAGTCGGCACCACGCCGATGGTGTTTTCGTCACAGGCTTCAATCATGCGTTTCGGGTCCATAAAC +AACTGACCGGGGCGCATAGGGATCTCACGCAGCTCCACATCCCAGTAGCGGGCGAATTTATGCCAGCAGA +TTTGTACCGGACCGCACACCAGGTTTGGTTTATCCGTTGGTTTGCCTGCAGCTTCCATACGCTTGCGCCA +ACGCCATTTCATCGCCATCCCGCCGAGCATACAGGCCTCGGAAGAACCAATGGTGTTGGTGCCAACGGCC +TGACCATTTTTCGGCGCAGGCGCATGCCACAGATCGGCAACCATATTTACGCAACGCAGGTCGATGGCTG +CGGATTGCGGATATTCTTCTTTGTCGATCCAGTTTTTATTGATCGACAAATCCATCAATTTATGGACGTT +TTCGTCGTCCCAGGTCTGGCAGAAAGTGGCCAGGTTCTGACGAGCGTTGCCATCAAGATATAATTCATCA +TTGATAATCTGAAATGCGACATCATCGCGCATTTCGTGCAGCGGAAATCGTTTTGACTCCGCGATAGTAG +AAATGGCCTTTGCGCCAAAACGTGAATCGAGTAGTTCTGAGCGGAAATCCGTTAACAGCTTCTGGTCCAT +TTCGAACTCCTTAAATTTATTTGAAGGCAATAAAAAAGTAGGATTTATCCGCAATGGAAGCAAGGCATTA +CAGGCTTAATTTAAATAACAAAATCCTAAGCAGAAAAACGACTTTTTATAATATAAACATTTAACATGAT +AATATTAAAAACAGACTTTATTATCGTAATAAAAATCGCCCAAACATTGCTGTTCGGGCGATCAAATTAA +TTATTGTTTATCCTGCATATACGGCGTGTACACCCCGTTCAGACTGTGCAGGAAAGCTACGATATCATCC +ACATCCTCCTGCGGCAGCTCTTTGCCTACCTGATAGCGCAGCATCAGTTTCACCGCCCCGTCCAGCGTCG +GCACGTCACCGCGATGGAAGTACGGTGCCGTTAAAGCAACGTTACGTAAACCGGGTACTTTCTGACGCAA +TTTATCACGCTCTTCTTTAGTCACATTCATACGACCAATATCCGCCGCCGTAATTTCCCCAAAGTTAAAG +TCTTTTTTCAGCCCCAACGGTTCAAAGGAACGTCCGCCGAGAATAATACCACCATGACAAGTTGCACATT +TATTATCTTTAAATAATTGATAGCCTTTTTTCTGTTGCGCCGTCAGCGCATTTTCATCTCCGCGCAACCA +TTTATCAAATGGGGAATCCGGCGTAATTAATGTTTTCTCAAATTCAGCAATGGCATCAGTAATATTTTCG +CCACTGAAACCTTGCGGATAGACTTCGAGGAACTGCGTTTTAAGCTGCGGATCTTTTTCCAGCTTAGCAA +TAATTTCGTCCCAGGATTTCGACGCCATTTCAATCGGGTTCAACGGCGGTCCACCAGCCTGATCCTGCAA +TGTTGCCGCACGACCATCCCAGAACTGCTCAACGTTAAATACTGAGTTAAATACCGTCGGCGCGTTAATC +GGCCCAACTGCGCCACCAACACCAATCGATGTTTTTCTGCCATCGACGCCCCCCGCATTCAACGCATGGC +AATGAGCGCATGAAATGGTGCTATCAGCCGATAAACGGGGATCGTGATACAGCGCAAAACCCAACGCCAC +TTTTTGCGCATCGGTAGGCAGTTTTTGCGGGATGGGCTGCACCGGTTCATTGCGATGTTCCGGAGCAGTA +TCATTGCTGGCGTAATATTCCGCGCGCTGTTTTGCAATCCAGGCCAGTATTTCCGCCCGCTCTTCATCAC +TCACCTTACCCGCCCAGTGTAGCGCGGTATAACGCGTTGGTGGCATAGTTTCATACTGCATCACCCATTC +AATCTTATTCAAATCGCTTTGCGAAACGGGTTTATCAGCCAGCAGTGCCGCACGCACGGCCTCAAGGTTA +AAAGATTTATATCCAAGCTTAATGTCGTAATCCATCAACTGTTTCGCGCCAGGAATATAATAATAGGCGG +GTAATTCTGCCGAAGGCGTGTGGCAATAGTCGCATCCTTTTTCGCGGAGAAAGCCTAAAACCTTATTATT +TTCACTGACAGCAGATGCCTGAACATCGGCCTGTTTACTGCGTTTATTATCGTGGTACCACACATAACCA +GATAACCCTAAATAGCAAATCGCGACGCCAGCCAGGCCGATCGCGGTAATACGTGAGACCATTTTCATTA +TTCTTCCCTCACGGTGGTGAGTTATTGTGACCCAGAAAATTTTCCAGAATGCTGCAAACGTCTCTGCGAG +ACAAAGCCATCATAAAAAACAGGGAGATACGCTTTTTGATAGGAATCAATCAATTACATGAATATAAACT +ATCAATAAGATAGCCTGTGCCTATTACCCAGATCAGGAATGGCATATCATGATTGCGGCGAGAGCAGGAT +TGAATGTTCTGAAAATGAAAAACAACACCAAATCGGTATTTTTATAAATTCCATTGATATTAGTGCGTTA +TATTTTTTGACAGGTTAATAAACGTGATCCACCGCACGCTTTGTCGCCCACCAGGCGGAGCGAATGACTA +CCCTTAAAGAAAAGCCGATAATTAGCGACGAATTTCGGAGGTTGGATCCTTATGCTCAATCAGAAAATTC +AAAACCCTAATCCAGACGAACTGATGATCGAAGTCGATCTCTGCTATGAGCTGGACCCGTATGAATTAAA +ACTGGATGAGATGATCGAGGCAGAACCGGAACCCGAGATGATTGAAGGGCTGCCTGCCTCTGATGCGCTG +ACGCCTGCCGATCGCTATCTCGAACTGTTCGAGCATGTTCAGTCGGCGAAAATTTTCCCCGACAGTAAAA +CCTTTCCCGACTGCGCACCTAAAATGGACCCGCTGGATATCTTAATCCGCTACCGTAAAGTGCGCCGTCA +TCGTGATTTTGACTTGCGCAAGTTTGTTGAAAACCACTTCTGGCTGCCGGAGGTCTACTCCAGCGAGTAT +GTATCGGACCCGCAAAATTCCCTGAAAGAGCATATCGACCAGCTGTGGCCGGTGCTAACCCGCGAACCAC +AGGATCACATTCCGTGGTCTTCTCTGCTGGCGCTGCCGCAGTCATATATTGTCCCGGGCGGCCGTTTTAG +CGAAACCTACTATTGGGATTCCTATTTCACCATGCTGGGGCTGGCGGAAAGTGGTCGGGAAGATTTGCTG +AAATGCATGGCCGATAACTTCGCCTGGATGATCGAAAACTACGGTCACATCCCCAACGGCAACCGCACCT +ATTATTTGAGCCGCTCGCAACCACCGGTTTTTGCGCTGATGGTGGAGTTGTTTGAAGAAGATGGTGTACG +CGGTGCGCGCCGCTATCTCGACCACCTTAAAATGGAATATGCCTTCTGGATGGACGGTGCAGAATCGTTA +ATCCCTAATCAGGCCTATCGCCATGTTGTGCGGATGCCGGACGGATCGCTGCTCAACCGTTACTGGGACG +ATCGCGACACGCCGCGTGACGAATCCTGGCTTGAGGACGTTGAAACCGCGAAACATTCTGGTCGCCCGCC +CAACGAGGTGTACCGCGATTTACGCGCGGGGGCGGCCTCCGGTTGGGATTACTCTTCCCGTTGGCTGCGT +GATACTGGTCGTCTGGCGAGCATTCGTACCACCCAGTTCATCCCCATCGATCTGAATGCCTTCCTGTTTA +AACTGGAGAGCGCCATCGCCAACATCTCGGCGCTGAAAGGCGAGAAAGAGACAGAAGCACTGTTCCGCCA +GAAAGCCAGTGCCCGTCGCGATGCGGTAAACCGTTACCTCTGGGATGATGAAAACGGCATCTACCGCGAT +TACGACTGGCGACGCGAACAACTGGCGCTGTTTTCCGCTGCCGCCATTGTGCCACTCTATGTCGGTATGG +CGAACCATGAACAGGCCGATCGTCTGGCAAACGCCGTGCGCAGTCGGTTACTGACACCTGGCGGGATTCT +GGCAAGCGAGTACGAAACCGGTGAACAGTGGGATAAACCCAACGGCTGGGCACCGTTACAATGGATGGCG +ATTCAGGGATTTAAAATGTACGGCGATGACCTTCTGGGTGATGAAATCGCGCGAAGCTGGCTGAAGACGG +TGAATCAGTTCTATCTGGAACAGCACAAACTGATCGAAAAATACCATATTGCCGATGGTGTTCCCCGCGA +AGGCGGCGGTGGCGAGTATCCGTTGCAGGATGGGTTTGGCTGGACTAACGGTGTGGTACGCCGTTTAATT +GGTTTGTACGGCGAACCATAATATTTTTACAGCCAGCCGCTAACTTCCTGCTGGCTGTAAAATTATCCTC +TTCAGGAGGAGATATTTAACATCATTGCCGCCTGGGTGCGATTTTTCACTTCCAGACGGCGATACAGGGA +TTCCAGATGCGCTTTTACCGTTCCGGTACTGATATTCAGCGCTCTGCCGATCTCCTTATTTGATTCGCCC +GCCGCTAACATGGTTAAAATCTCCCGCTGGCGGGCGCTTAACGATTTGAGATCTTTAATGTCCTTTTCCG +GCGTCGTCCGCCAGTCTCCAGGCAGAAACATCATCCCCATCGCCGCACTATTTACCGCCAACGCAAATGT +CTCGACGGTTGAATCACGAGGCACAATGGCCAGCACATTAAAATGGATAACTTCCTGTAACCACCGTTTA +TTGCAATCCGTCGCCGTAATTAACACCTTAACCTCAGGAAATTGCACCACGGTTTTTTGCAGCAACCAGT +AGCAAAACTCACCATCCTGATCGCCATCGAGCATAACTAAGGCTTCAGGGTAACTTTCCAGCTTTTGCCA +TAACTCGTCTGCCTGACTGGCCCCCTGAATACTCACTCCTGGAATACGCTGCTGTAAACTGATTTTCATT +CCATGAATAAATATTGACTGCCTGTCAAACATGACTATTTGCATAACTGAATCTCCACCTGAATACGTTA +AAAAGACTTAAGTAGTGGAAGGGTATTACCCGCGAGAAAAAATAAGAATTCGCCATTTGGCGGTGGCCAT +TCTACAGAGATGACGTGTAGAAAATAGTTACCGATATAAATAGTTACAGCTAAACGCCTGAAATTACATG +TCGAGGGCACTATTTAAAACAATTTTGAGGATTTCCTTATATTGGTGGTTAGTACGCATGCAATTAAAAA +TGAAATTCCGCGACCACAAGCCAAAATAACAAACGGCAAGGAGACAAAAATAAGCACAAATAGCCAACAC +GTCCTCTGTTCACTTTAAAGGGAATCGCTGAAAAATACGCTCTGTTTAAGGGGATTCACCTTTCTCAGAA +AGCTATTCCGCCCTTTTCCTGCTGAGAAATCGCCACATTCGGCATGACAACATTGTGAAACCCGGCATTA +GATGTTAGAAAAAACAATAAACAATGCGATATGCGCGTTACTGTTTCGCTGTGAACAACAATCGGTCAAA +GAAATGGATAAAATTCACGCAATGCAGTTGTTCATCAAAGTCGCGGAGCTGGAAAGTTTTTCCCGCGCAG +CGGATTTCTTTGCTTTGCCAAAGGGAAGTGTTTCGCGCCAGATACAGGCACTGGAACATCAACTTGGCAC +CCAGCTTCTCCAGCGCACCACGCGACGGGTCAAACTCACGCCAGAAGGCATGACCTATTATCAACGAGCA +AAAGATGTGTTGAGTAATCTCAGCGAACTGGACGGTCTGTTTCAACAGGATGCCACCAGTATCAGCGGTA +AATTACGCATCGACATCCCGCCAGGAATCGCGAAAAGCCTGTTACTGCCGCGCCTGTCGGAATTTCTCTA +TCTGCATCCGGGAATTGAGCTGGAACTGAGTAGCCATGACCGTCCGGTAGATATTCTTCATGATGGTTTT +GATTGCGTGATACGCACTGGCGCGTTACCGGAAGATGGCGTTATCGCCCGTCCCCTCGGCAAACTGACCA +TGGTCAACTGTGCCAGTCCGCACTATCTGACGCGCTTTGGTTATCCGCAAAGCCCCGATGATCTGACTTC +ACACGCAATAGTGCGTTATACACCGCACCTGGGTGTACATCCGTTAGGTTTTGAGGTTGCCAGCGTTAAT +GGCGTCCAGTGGTTTAAGTCTGGCGGCATGTTGACGGTAAACAGTAGCGAAAACTATCTCACCGCCGGTC +TTGCCGGTCTGGGGATTATTCAGATCCCGCGCATTGCCGTGCGCGAAGCCCTGCGTGCCGGGCGGCTTAT +TGAAGTATTACCTGGCTACCGTGCCGAGCCGCTCTCCCTTTCGCTGGTTTATCCGCAGCGTCGGGAGCTT +TCCCGGCGTGTAAACCTGTTTATGCAGTGGCTGGCTGGCGTAATGAAAGAGTACCTGGACTGACCGACTA +TACTTTTTAAGAATGACCACGACAGAAGGACAAAAGAGCGGATGACGCAGGAAAACGAGATCAAACGTCC +CATCCAGGATCTGGAGCACGAGCCGATTAAGCCGTTGGATAATAGCGAGAAAGGCAGCAAAGTTAGCCAG +GCGCTGGAAACCGTCACCACCACTGCCGAAAAAGTCCAACGCCAACCGGTTATTGCGCACCTGATTCGCG +CGACAGAACGCTTTAACGATCGGCTGGGTAACCAGTTTGGTGCGGCTATCACCTATTTCTCATTTTTGTC +GATGATACCAATTTTGATGGTGTCGTTTGCCGCAGGGGGCTTTGTGCTGGCCTCCCATCCGATGTTGCTA +CAGGATATCTTCGACAAAATTCTGCAAAACATCAGCGATCCGACGCTAGCCGCCACGTTGAAAAACACCA +TCAACACCGCCGTTCAGCAGCGTACGACTGTAGGGCTTGTCGGCCTGGCGGTGGCACTTTATTCCGGCAT +CAACTGGATGGGTAACCTGCGTGAAGCGATTCGTGCCCAGTCGCGCGATGTCTGGGAACGCTCGCCGCAA +GATCAGGAGAAGTTCTGGGTAAAATATCTGCGAGATTTTATTTCGCTGATTGGTTTGTTGATTGCGCTGA +TTGTGACGCTTTCGATCACCTCGGTTGCCGGTTCGGCGCAGCAAATGATTATTAGCGCCCTGCACCTGAA +CAGCATTGAGTGGCTGAAACCGACGTGGCGATTGATTGGCCTGGCGATTTCCATCTTCGCCAACTATCTG +CTTTTCTTCTGGATCTTCTGGCGGTTGCCGCGCCACCGTCCGCGCAAAAAAGCCCTGATTCGCGGAACAT +TTCTGGCTGCTATTGGTTTTGAAGTGATTAAAATCGTGATGACCTACACCCTGCCATCGTTGATGAAATC +CCCCTCTGGCGCAGCATTTGGTTCCGTGCTGGGGCTGATGGCATTTTTCTACTTCTTCGCCCGTTTGACG +CTGTTTTGCGCGGCGTGGATTGCCACCGCCGAATATAAAGACGACCCGCGAATGCCGGGGAAAACGCAGC +CTTAAAATAGGCCGGATGCGGCGTAAACGCCTTATCCGGCATACGATTTTATTCGGCCTGGCTCCCCGTA +GGCCGGATAAGATGCGCCAGCATCGCATCCGGCTATAATGCGCACATAACCTCTTGAAACTCGTCCCCAG +AGCCTCTTCAGCCATCTATTTGGGAGCAAACAATTTCATTCCAACTCATAACCCCAGCATATAAATCCAG +TTGGTAACTTTTATTTAACCTGAAACCAGTTTTATCCACTATTTATAAAATTATGTGAAGCATTTCATAG +AAGAAAAATCACTGGCCTAAACATTATCCCCTTTTTGCCTGATTTTTGACCATTTCCGCGATTTGTTACA +CATTGAAATATCACTTTTGCTGTGCGTAATATGGCTATTCGTTAGCCAAAAAATAAGAAAAGATTATGCA +AGCAACAGCCACAACACTCGACCACGAGCAAGAATACACGCCGATCAACTCGCGTAATAAAGTCCTTGTC +GCCTCTCTCATTGGCACAGCCATTGAGTTCTTCGACTTTTACATTTACGCCACTGCGGCCGTTATTGTGT +TTCCGCATATCTTCTTCCCGCAGGGCGATCCTACGGCAGCAACGCTACAGTCGCTCGCCACCTTCGCCAT +CGCCTTCGTCGCGCGCCCCATTGGCTCTGCCGTTTTTGGTCATTTTGGCGATCGCGTTGGGCGTAAAGCG +ACGCTGGTCGCCTCGTTGCTAACGATGGGGATTTCGACCGTGGTGATTGGTCTGCTGCCGGGCTATGCCA +CGATTGGTATTTTCGCCCCGCTGCTGCTGGCGCTGGCTCGATTTGGTCAGGGTCTGGGCTTAGGCGGTGA +ATGGGGCGGCGCGGCGCTGCTGGCGACTGAAAACGCCCCACCGCGCAAACGTGCACTGTATGGCTCCTTT +CCGCAGCTGGGCGCACCGATTGGCTTCTTCTTTGCCAATGGCACTTTCTTGCTGCTTTCCTGGCTACTGA +CCGACGAGCAGTTTATGAGCTGGGGCTGGCGTGTGCCATTTATCTTCTCGGCGGTGCTGGTCATTATCGG +CCTGTATGTTCGCGTGTCGCTGCATGAGTCGCCGGTGTTTGAGAAAGTCGCTAAAGCGAAAAAACAGGTG +AAGATCCCGCTGGGTACGCTGCTGACCAAACATGTTCGCGTAACCGTACTGGGTACGTTCATTATGCTGG +CAACCTATACGCTGTTTTACATCATGACGGTCTACTCTATGACCTTTAGTACCGCCGCCGCGCCAGTTGG +GCTTGGCCTGCCGCGTAACGAAGTGTTGTGGATGTTGATGATGGCAGTTATTGGTTTTGGCGTGATGGTG +CCAGTCGCTGGATTACTGGCTGATGCCTTTGGTCGCCGTAAAAGCATGGTAATCATCACCACGCTGATCA +TCCTGTTCGCGCTGTTCGCCTTTAACCCACTGCTCGGTTCTGGCAACCCGATTCTGGTTTTTGCCTTCCT +GCTGCTGGGGTTAAGTCTGATGGGTCTGACCTTCGGGCCAATGGGTGCGCTGTTACCAGAGCTGTTTCCG +ACAGAAGTGCGTTACACCGGAGCATCGTTCTCTTACAACGTAGCGTCGATTCTCGGGGCTTCCGTTGCGC +CATATATCGCAGCCTGGTTGCAGACTAACTACGGGCTAGGTGCGGTGGGGTTATATCTGGCGGCGATGGC +TGGCTTGACGTTAATCGCCCTGCTGCTGACCCATGAGACGCGACATCAGTCGTTGTAATAAGAGTGAAAA +GCCTGATGCGCTACGCTTATCAGGCCTGAATTTCCATACAATATATTGAATTCGCAAGGATTTGTAGGCC +GGATAAGGCGTTCACGCCGCATCCGGCATGAACAAAGCACACTTTGCCAACAATCTAAATCTGTTTAATT +GCCGGATGTCAGACATCCGGCAATTATCATCACTTCTTCATCTGCGACAAAATCGTCCGACACTGATTAG +CCTCCCCTTCGGAAGGTGAGATCAGTGCCAGTAACGCCGCCGCCGGTGTTACCAGCGTTGCCAGTGCCGC +AGCAACAGCACCACGGGCAATCAGCGGTCCGGCTTTCACCCCAGCCTGCGGATTTTTAAACGTCCCCCGC +ACATACAGCGGCGAACGCAGTGTGATAATCCGAATTCCTTTACTCTCCGGATCAATAGTCAAATCCAGCT +GTTCCGAAGCAAAACTTGCCGTGCCGGTAACATTAATCAACGCGTTCTCAGTATCGAAAGCAAAAATCTG +CGGGCGCGCCACGCCGTTGGCAATATTCAGATTCGCCGCCGCGCAGTTCACCCGCACCTCATCATCACCA +AATATCGCACCGACAATGTAGTTGCCGACATTCAGCCCAACAATCTCCATCAGGTTGCGGCTCACCAGCC +CGTCATTCATCAACAGTTTCAGGTTGCCGTTACTGTTGCCTAAAAGTGCCGCCACCGAGTTACCGCTACC +GCGTAGTTCCGCGTCACCGTTCATTTCCCCCAGCGTCTTCTGCATCAGTTCCACATCGGGCATCAGTTCT +TTCAGTTTCAGTCGACGAGCCTGAATATCTGCCCGCCCCTGCATCGGCTTTTTATCGCCTTCCAGATGAA +TATTCGCCGCAATGCTGCCGCCCGCCATGCCAAATTTCAGCGGTTGCAGGCGCAGGTCAGCATTTTTGAG +GATGATATGAGTAGAAAGATCGCTAATCGGCAGGCTACTGCCATGCTCAATGCGCCGCCCTTTGAAGCGA +ACATCGGCATCCATAACGTCCCATTTATCGGTTTCGAAGCGGTCATAAGGCAGCACTTTGCCCGCAGGCT +GAACGCTTTTTTCGCCCTTCTTCTGTTCAGACCGTTTCGACTTTTCTGCCCCTTTCCCGGAATCAACGCC +AATCAACGGTCCCAGGTCCGCCAGCCGCAATTGCCGCGACTCGACATCACCTTCCAGTTTTGGTCGTGGC +TTTCCGGTGGTGTAGACCAGAGAACCGTGGATATCGCTATCACCAATTCGCCCATTAAAACCGCGATAAT +CAAAGACCGACGATTTTTCAGTGTCGATTTTCGCTACCAGCCGACCATCCGTTTCAAACGGCGGGGTATC +GGGCAGCAGAACGCCCGTCAGTTCATAGAGATCACCCAGTGAATCGCCAGAAAATTTAAGCCGTAAATCG +ACACCGCCCATCTTCATTGGGTCATTCACGACGCCATCAAAAGCAACACGGGTGTTACCAGAGCGGAAAT +CAGCCTGTACCGGAAACGGCGTCCCTTCGCCACGCAGCGCCAGCATACCGCCTATTTTTCCCGTACCCGT +GAGCGGTTCACCGTTATATCGTCCCTGCGCCTTCAGGCCAAAAACGTAATCGCCCACCTTTTCTTTATCC +GCTTTACCTTTCGATCCAGTAACTTCGCTGAACGGCAGCGGCTTGCCTAAGGGATCAACAAAAATCTCCA +GATCCGCTTTGCTTACTTTGTCATCAATGGCGATCCGCCCTTGATCGAAAAGAATATTATCCAGCCGAAA +CGACCATGCCGACGGCTTTGCATTCGCGTCTTTGTTATCATCGTTGGCAAGATTAAACGTCCAGTTATTG +TTCTTTTCAGAGAGGCGAATCAGGCGCGCGTCGGGCTTTTCGAGCTTGATCCACGGCAGCCAGACCGTTT +TGGTCAGCAGCGCCAGCGGGGCCAGCGTTGCCTCTACGCGTGGCAAATGCACCATCGTGACTTCGGGAAT +ATCCGGTGGATTGCCAAGAATGATGTCTTCCGCGTGTACATGGGGCCACGGCACCCAGCTGCGCCAGCCA +GTTTCTTGTTTTTGCCGCTCCCACACCACGCCCAGATCGCCACGGATAGCGAACGGACGATTCAACTCCG +CAGAGACTTTCTGGTTGATAGTCGGTTTGAGTCGATTCCAGTCAAAAGTTGCAATCAAAATGATCGCCAC +GACAATCAACAACAAGAAAGCCCCTGAAATCGCAGCGGTTATTTTGCCTGCCTTGCTCATCGTTCGCTTC +CTCATATTCTTCCTGTGCCAGTCCTAAAGATAGTCCAGCCAGGCGGAAAATGAGGCAGCTTATAGCGCCA +GAACCGCCGTATTCAGCGTTTCTATCGGTGCCGGGCGTGAAAGAAACCAGCCTTGTGCGGCGAATGCGGG +CGAGTTCTGAACATCACGCCACTCTTCCGGCGTTTCTACGCCCTCGACAATCACCCCGCGACAATAGCGA +TTCATTAGATGTAAAAGCTGAGAAAAGAGTGTGCGTCCTTCCGGCGACTGACGCAGCATCACAAACAGTT +CTCGCGCGATTTTGATGTAGTCATAACGCACTTCACTTAGCGCAGAGAAATTTGCCATCCCGGTACCAAA +ATCATCCAGCCACAGCGGGCCAAATTCACACATCGAGGCAAAGGTTGAATCTTTCGGCAGACGGATATGC +TCCACCAGTTCGAAACGCAGCCAGGGAAGACGCTCAATCTGGCGCAGGATTTTTGGTTGCTGACGCAGGG +CGATGAGCGTAGGGCCATCAATATTGACCGATGCCAGCAGGCCGTGCTCTATAAAGAAGTCGGCTTTTTG +CGCCAGCAAATCAATCTGCTCTTTCACAACCTCCATCCGATGGCTGACGGTGATTTCAGTAAAATAGCGA +TCCGGCGGCAGGCGTTGCGAAGGGTTCAAGGGATGCGTGACCACCGTTAATAGCTCCACGGCCATTAACC +GCCCGCATGTTTGATAGATCGGCTGCCAGGTGTAAGCACGCTCACACTGCAACCAAAAACGCCGTTCCTG +CAAGCTCTCGATGCTTGCTTCAGGGTTGCTTATTCGCTGGATAACCTGCCTTATCATCAAAGATGTCCTG +TGTTTAAAAGTGATGCTGCCCGGACTCGACAAAGATTATCGGCGCGTAAGGGCAGAACTTTACCGCCTGG +CCGGGGTAAATTTCCTCACTCCACAACGGAATCTTTCAGGAATACGTTCTGGCTCAAAAAAATAATGGAA +CACTGTTTTAATATGGTTGACCAGCAAACCACCACAGCGCAAACTAACGCTAATTTTTTACAGATCAGGT +TCACGACTATGTCCAAAAAGATTGCCGTGATTGGCGAATGCATGATTGAGCTTTCCGAGAAAGGCGCGGA +CGTTAAGCGCGGTTTCGGCGGCGATACCCTGAACACTTCCGTCTATATCGCCCGTCAGGTCGATCCTGCG +GCATTAACCGTTCATTACGTAACGGCGCTGGGAACGGACAGTTTTAGCCAGCAGATGCTGGACGCCTGGC +ACGGCGAGAACGTTGATACTTCCCTGACCCAACGGATGGAAAACCGTCTGCCGGGCCTTTACTACATTGA +AACCGACAGCACCGGCGAGCGTACGTTCTACTACTGGCGGAACGAAGCCGCCGCCAAATTCTGGCTGGAG +AGTGAGCAGTCTGCGGCGATTTGCGAAGAGCTGGCGAATTTCGATTATCTCTACCTGAGCGGGATTAGCC +TGGCGATCTTAAGCCCGACCAGCCGCGAAAAGCTGCTTTCCCTGCTGCGCGAATGCCGCGCCAACGGCGG +AAAAGTGATTTTCGACAATAACTATCGTCCGCGCCTGTGGGCCAGCAAAGAAGAGACACAGCAGGTGTAC +CAACAAATGCTGGAATGCACGGATATCGCCTTCCTGACGCTGGACGACGAAGACGCGCTGTGGGGTCAAC +AGCCGGTGGAAGACGTCATTGCGCGCACCCATAACGCGGGCGTGAAAGAAGTGGTGGTGAAACGCGGGGC +GGATTCTTGCCTGGTGTCCATTGCTGGCGAAGGGTTAGTGGATGTTCCGGCGGTGAAACTGCCGAAAGAA +AAAGTGATCGATACCACCGCAGCTGGCGACTCTTTCAGTGCCGGTTATCTGGCGGTACGTCTGACAGGCG +GCAGCGCGGAAGACGCGGCGAAACGTGGGCACCTGACCGCAAGTACCGTTATTCAGTATCGCGGCGCGAT +TATCCCGCGTGAGGCGATGCCAGCGTAAACGCAGCATATGCAAAAGGCTGGATAAAGTGTTACCCCTCTA +TCCAGCTCATCCATAAATACCTGATGGTTGTGCTAACTCATCACCATCAGGCATTACTGTGCAGGTGGAA +TATCCGTCACTTCAGGATGTACGTCATCCGTGGCGACAGAGGTGGTCGCAGCGGCGGTAGATGGGGCCAT +GATTTGATCCCAGACCGCCTGCAACGCTTTCATGTTAAATTCCGGCTCGCCTTTCGGCTGCAGCAGTATT +AACGCCATATCATTCGACAACTGTTGACGCAGATCCTGATTTAACATCTCTACCGTCAGGCTATTAAGGA +AATCCTGCCGCAGTTTCTGATATTGCTCCGGCGCGATATCGACAACCTGATTTTGCAACGAACGCATCCG +CTGACCCATCAGAATATCGGTATCAGCTCGTGCATAGGCGGCAAACAGTTTCTGCAGCTCCAGTTTCTTT +TGCGCCACTAACGCATTGAACTCTTCTTCCGGCAGACCTTTATCGCGAACCTTCGCCAGTTCACGCGCCA +CCAGATTAAGGTTGCTGTTCAGCTTGTCGTTTGGTGATTCGATGTTGATGGCACACTGCGCACGCAGATA +CAGCACACGGCAGTCAAATCCAAGACCGATGTCTTTGCTGTTACTGGCACTTAACGCTTGCTGAACATGC +CAGAACAGCGCCTCGCGGGCCAGGTCCGCACGCCAGTAGCGCAGCAGTGCGGCTGATTCACGAATCGGCT +GCCACGGCGTATCCCACATGATAGATAACCGGTCCTGACGCACCGCGTCAGTCATAATACTCACCGCTTC +CGCACGCAGCGGAGAAAGCGTCGGCACCGGAGCTGGCGTTTCACGTTTGCCTTTCAGTTCGCCAAACGTT +TTGTTTATTTGGTCGACAACCGAGCGCGCATCCACGTTTCCCACCACCAGTAGCGTCATTGCATCCGGGG +TGTACCATTTCTGATAGAAATCTTTAATTTTTTCCGCTTCAACGGGTTGTTTCAGCGGATCGGCAGGATC +GTGACCTAACAAGGTTGACCCTTTCAGACGATAGCGCCACCAGCCCTCTTTAGTATCGGCAGGCCAGGTT +GCCACCATGTCCTGACTTTGCAGCGCGTGGTTGATGGTTTCTGGTGTGATGGTCAATTTGCCAGTGGCAT +TTGCCAGATAAGAGAGCGCTTCTTTCAGCAAATCGTTACGGTTATTGGGCAAACTCAGATTAAACAGCGT +GGTGTCATAAGAGACAATTACCGGCGGCATCGGGCGTTTAGGGTCGATCCCCTGCTGCCACAATGAACGC +GCCTGTGCTGCGTCAAGGCCACCGCTTTGCGTTAGCGCAATACGAGGGATGGCGTGACTGTAACCGCTCT +GTTGTGTACTTTCGGCGAGCGAACCGGTATTAACCAGCAGGCGAATTTCAACACGATCGCTGGGACGCTG +GGGGGTGGTCAGCACTTGCCACTGTAAACCGTTGGAAAGCGTCCCCTGTTGCCATGCTGGATCAGGCTGG +AGCGCATCTGCCTGCACATAGCCAGCAGTGGCCATCATCAGCAAACCGCCCGCTAAAAGTCGAATTTTTG +TGCCCTGCATGTGAACCCCTGATCAACTATCCTGGTAATAAAAAAACTGCCCGTTGTCGGTCAGTCTAAA +TGACGTTAAAAACACTTCGTGTTAGACCGCAAGAACATGAAAATGTCACGGAAGAAGTGAAATAAACCTG +AACTCACCCAGGTGGTAAGTTCAGGCACAGGGGTCAATTATGCGCAAACACCCGCACTCGGGGAAGGGAG +TGCGGGCATAAGTGATGAGATTAAGAGGATAATTCGTGCGTTTTGCCATCCGGCGCACGATTATTCAGCA +CATCGTCCAGTTTTTTGTGGTCCAGTTCTTTCACCCACTTAGCAACGACAATGGTCGCTACGCCGTTACC +GACCAGGTTAGTCAGCGCACGAGCTTCTGACATAAAGCGGTCGATACCGAGGATCAGCGCCAGACCCGCT +ACCGGCAAATGGCCCACCGCAGAGAGCGTCGCCGCCAGCACGATAAAGCCACTACCCGTTACCCCTGCCG +CCCCTTTAGAAGAAAGCAGCAACACGATTAACAGCGTGATTTGGTGGACGATATCCATCTGACTGTTAGT +GGCCTGGGCGATAAACACCGCCGCCATTGTCAGGTATATCGATGTGCCATCAAGGTTAAACGAGTAGCCT +GTCGGGATGACCAGCCCCACCACCGATTTACGGCAGCCGAGTTTCTCCATCTTGTCGAGCATACGCGGCA +GCGCCGACTCGGAAGATGAAGTCCCCAGTACAATCAGCAGTTCTTCACGGATGTAGCGGATAAATTTGAA +GATACTGAAACCAGTCGCTTTAGCGATTGAACCCAATACCAGCACCACAAACAGGATACAGGTAATGTAG +AAACAGATAATCAGCTGCCCCAGTTGCACCAGTGTGCCGACGCCGTATTTACCGATGGTAAACGCCATTG +CCCCGAACGCACCAATAGGTGCCAGACGCATGATCATATTGATGATGCCGAAGATGACCTGCGAGAAACT +TTCGATGACGTTAAAAATCAGTTGGCCTTTGCTGCCCAGACGGTGGAGCGCAAAACCAAACAGTACGGCA +AACAGCAGCACCTGCAGAATGTTACCGCTGGCAAATGCGCCAATGACGCTCGCCGGGATGACATCCATAA +TGAAGGCGACAATGCCCTGGTCTTTCGCCTGATCGGCGTAAACCGCTACCGCTTTCGCATCAAGCGTTGC +CGGATCGACGTTCATTCCGGCACCAGGCTGCACGACGTTAACGATGATAAGACCAATAATCAGCGCGATG +GTACTGACAATTTCAAAGTAAAGCAGTGCGACTGCGCCGGTACGACCGACCGCCTTCATGCTTTCCATGC +CCGCAATGCCCGTTACGACGGTACAAAAGATGACAGGAGCGATGATCATCTTAATGAGCTTAACGAAGCC +GTCGCCAAGCGGTTTCATTTGCTCGCCTATTTCAGGATAGAAATGGCCAAGGAGAATACCAATGGCTATC +GCTGTCAGGACCTGAAAGTAAAGGCTTTTAAACAGAGAGGTTTTCATAGGGTGTCCTTTAGTAAAACCAC +AGGTCTTGTAAGGTTATGGGGTACCTGCGGCCTTAAAATAACACCCAGACAACATCACAGAAATGTACCT +GGATCATAATTGAAACAAAAAGGTTAAAAAGTTTGAGCTGGCTCGCACAAACCAGCACTTTTTAAAGTTT +TGTAATCAGTTTGGGGTAGCTACTTTTCTTCCAGGTAACTCTCTTCGAAGATTTCAATAGGGAGTGGGCG +AGCAAAAAGGAAGCCCTGGGCAATACCAACGCCCGCTTTTGCCAGCCAGTCGCGTTGTGCTTCAGTCTCC +ACGCCTTCGGCAATCATTTGTAAGTTCAGGCTCTGCGCCAGCATGATAATTGCAGCAATCATGCTGCTAT +CTCCCGGCAAGCCTTCAACAAACATTTTGTCGATTTTCAGTACGTCGATTGGCAACGATTTCATATGCTG +CAGCTGACGCAGCCCTGCGTAGCCCATGCCGAAATCATCCAGCGCCACCCGAACTCCGGCATTGCGCAGC +GGACGGAGGATTGCCACCGCAGCATGAGGGTCGTCAATACGTCGGCTTTCTGTCACTTCCAGAATCAGTG +TTCCCGGCTGAATGCGATAGCGGGTTAACAGTTCCAGCATATCCGCCACCATATTCGGGTGCATCAGTTG +CAGCGCAGAGAGGTTTACCGACAAGGGCAGCATAATGCCGCGCTCTTGCCAGGCTGCAAGCAATCGACAG +GACTCTTCCAGCACCCAGTGACCGACGGTAACCATCAGCCCACAGCACTCAATGCGATCGATTAAGCCAT +CCGGCAGGTCCCAACTGCCATCCGGTTGCTGGATACGCAGTAACACTTCCGCACTGACCAGTTTACCGCT +GGTCATCTCGACCTGTGGCTGTAACCAAATAGCAAACTGATGATTTTCCAGTGCATTAAGGATATCGCTC +TCTTCCGTCAACCGCTTCTGGGCGGCTTCCATCTGCTGCGGATCAAAGAACTGAATCTGATTCTTGCCTT +TATGGCGAGCGGTAAATGCCGCAGAAATAGCGCGACTGTAAAGCTGTTCGGCGGTGAGATCGCCGTAGAA +CATCGCCACGCCAATGCTACAGTGCGGACGGAGTTGAATACGTTCAATCGGCAGGCGCTCGCTCATGATA +GTGAGCACTTGCTGACCTAAGGTGATTGCGTGCCACGGTTCCTGTACACCGTTGGCAATGACAGCAAAGT +CATAACCGCTAATCTGCGCGAGGATCATACGTGGCGACAGTACCGATTTGAGTTTTTCCACCAGCGTCAG +CAGCAGAATTTCTCGTTGCGCCTCTTTCAGCACGCCCGCAGTATCACGCAGGGTTTCACAGGTGATGATC +ATCAGCGCGGTGGTTTGTTTACGCGCGACAACCTGCTCCAGCATCTCCATCAGCAAGGCTTTGTTCGGCA +AATCCGACACCGGGAAGCGCATCGCATTTTCGTTCTGTTCTTCATAATGGCGCTGCAGCAATTGCTGGTT +GAGGTTGTAACTGCGCACCAACATACCGATTTCATCGTCCTGATGCAGACGCGGTAATGCCAGTTGGTGA +CCAACAAGCTCCTTGGCTGGGATGGCGTTAAGTTCGCGAGCAATATTGCGTAACGGATGCAAAATCAGGC +GGTTAATGCACCAGCTGATGGCGACGGTCAGGATAAGCGACAAAAGTAAGTAAATGGTCACTAACGTTGA +GAGGGTGCTCATCACGAACTTATACATACGGAAGGAATCCGCCTGTAGTACCAGATAGGCAATTGGCTGC +GGGTTTGCCGGACGTTCGAGCGAGTAAACGCCCAGCGAGATTTGAACCGGTAGCTCAAACAGGCGAGTAA +CCATTACCGGCACCGGGCGCTCTGGAATAAAACTTTTACGCAGCGCCTGGAACTGGTTAGGCAGCACTAC +ATCGGCACGGCTGACCACGCCTGCCGGTTTAATGCTGGCAAGAATAGCTTCCGCTTCGGGAATATCGCCT +TTCAAAATAGCTGAAGATAAGGGTTCGCGGACAGAGCGAGCAATGCTTTCCAGTTGCGTAGCCGTGTTAT +AGCGATTCTGCTGGACCAGATGGAACAGCAAAACGGTGCAAAAAATAAAAACGAACACCAGGACAACGGC +TGCCACCATTGCCATCTGCTTGATTGTTAACGAGCGACTTACGCGCAAATTGTCTCCCCCCGGAAATCCC +AGATTGCCGCCCGAGTATACCCGATCGCAGCGGCATTAAGAGAGGCGCTATCTGAAAACTTACCAGTCGG +CGTAAGGTATCAGCGGCTGCGGCGGTAAATCCATGTCACCCTGCCATCCGGCGGCGGAATAACGTACGTA +GAGCAGGAAATGGCTGGGTGCGTAATCTTTCGCCTGCTGGATATCAATTGCCGTGCCAACAAACCAGTTG +GAAGTAACACGTCGTTCAAGTAATGCCCGCGCCGTGTAGCCGAAGCCCTGACTGCTGCCGCCATCGTTGG +ATTGCCGCGCAGCTTCTTCCTGCCAGTCGGTCGGGATCAGATTCATCAGCGGATAACGCGGCATGGTTTT +GGTGCGTGAATGCGACCACGAGCCAGACGCACCCAGCTCCCACGACCAGTTTTCCGTGCGCTCCCGCCAC +ATCACCGGTATGGCAAACGACAGGTATTCCTGCGGACTGTAGTAACCGCCCTGACCGAGTGAGTAGCCAC +TCAGATCTTTGTCGTAATGCCAGATCATGTTGTTCAGGCCGATTGTGACGCGGCGATTGTTCTGGTTAAT +GACCTTATAGTAATAGCCCGTCATCCAGCGCACGCGCCAGTTATCTTCGACATTTTTACCGGTTAACTGG +TCGCCACTAAGCGATGCCCAGACGCCGTTTGCTTCACCTTTATCGTAGCTCAGACTTAGCCCCACACCGT +CGGCACGTACGCCACCCCATTTTTTCCCGGTATTGCTCGGGGAGTCTTTTTGCCCACCAAAGGCCAGCAA +AGAACTGGAGATGGGCCGACGGTGGGCGTTAACGGTGTAACCCAGCGGCCCGATATCATCGCTGTAACTG +ATGCCGCCGACCACATCCACCACGTTGAAGCCCATCGGCGTGGTACCGATATCCCAGCTCCAGACGTCAT +TTCGCCAGCCGACCGCCACGCTGGCACCGGAATCCGACTGGCTGCGGTTGCCGCTACAGTCCTGTAATGT +ACAGGTGCCCCAGTTGTCATCCCATTTGCCATCGGCATTAGTGGAGAAACTGCCGACGTTCATATTGACG +AAATCACTGCGAAAGAACATCCGCCCGTCAGAATACGGCGCATCCACCTGCAACATGGTAGTGTGCGCTT +TCAGATCGGAGTAACCACCGGTGCCGCTCGAACCCCAGTAATCGTGCTCAAGGGTGACGTTAAGATCCTG +CTGGCGATAGAGGTCCGCCGCATCGCTGCGCACGCCACGTTTCAGCCAGTCATCTTTCTCGTCGTTACGG +GTCAGTCGGGTAAAGGTGTCGTTATCCTGCGGACGCGTCGTAGTCACACCGGATGCGACCATGGCGTCTT +TGTAGGTTTCCAGCGCCTGCGTTGGATCGCCCGCCTGCGCTTCAAACTTCGCACCATCACGCAGCACCAT +CGCGCTTTCCATCGACGGTGGCTGAGATTTTGCCTGCGGGATCAACTTATTAAACGTCCGCTGCGCTGCT +GCGGTATCGCCAAGCTGCGCCTGTGCCAGCGCCACGCGCCGCTGTGTGTTCAGCGAGGCGTTATCGGTAG +CGGGCAGTTTCGCCAGCTGGCTACGTGCCGCCGCTTTGTCACCGGCAGCAATATCCACTTCCGTCAGACC +AAGAATGGCGTCGGCGTTAGCTGGCTCCCGCGTCAGGACATTCTGATATGCAGCGCGGGCGGCGGTGTAA +TCACGTCGTTGTTGCGCCCAGTCAGCCAGCGTGAGGTCAATACGCGTGGAAGGTGGTTGCTGGCGCAGCA +TCGCTTCCGCTTCTGCCTCTTTGCCGCTTTCTCGCAGGCGGTTAGCGGTTTCCAGCACCTGATCGCTTTG +CAGTCGATTAACCAGCTCCTGAATATTGCTGTTCCACTGCGCACGCGGCAGGCTATTGATATGCGCCAGC +GCCGCTCTGTCCTGGTCATGACCAGAGAGGTACAGCCCGTAAGCGTAAACCTGCTCCGGGTCGTTCGACT +TCTGCTGCGCCAGATTGCGCATTAACGTATCGGCCTGGCTGCGTTGTCCGGCCTGCCAGAGATCCTGCGA +AAGTCGGTAAGTAATCCATACGCTGCCGGGGTCCAGCGCCAGTCGTTGCCGCTGAAGTGCTGCCGCCTGC +GCCCATTTGCCCTGGTTTTCCAGTGCCTCTGCCTGCTGTGCCAGACGGTCGTTTTGCAGGCTGCGTTCGA +TATCATCAATGCTACGCCGCTGACTGGCAGAGAGCGAGGCGATAAACGCTTCAGCTTTTTCTGGCGATTG +CTGGCGGTAAATATTTGCCAGCCCGCGCACGGCGTTAGTGTTGCCGCTGTCCATACGCAAGGTCTGCTGA +TAATAACGTTCGGCGGCGGGATAATCTTTTCGCGCCATCGCCACATCGCCCAGCCCCAGCACTGCATAAC +TGTCGGTGTTATCGACATTACGCGCCTGCTGGAACAGGCGTTCTGCCCGGTCAGGATTATTGGCTTTCAG +CGCAGCATCGCCCTGCTGGATCGCCAGCCAGTAGCGGTTTACTTTCAGCAGACTGTTCCATTTGTCGTTG +TTGCTGCTGTGCGGGTCCAGTGCGAGGGCTTTTTCCAGATTCGCCACTGCATTGGCGCGATCGCCTTTCT +GAGAATACGCCTGGCCCAGCGCCCCCAGAGCTTCACTGTCTTTCGGGTTCGCCCGCACCGCCTGTTGTAG +TTCGGGAATGGCTTTACCCGCCATACCAGAGTCCACCGCCGCTAAACCTTGCGCACGAGCGCGGAAAGCA +GGATCGGCCAGCTGTTTTTGCTGTTCTGCCAGTTGCGATTGCGCAGCCGCCACGCTATCGCCATCACTAA +AGATCGAGAGATATTTTTTCAGCGCCGACACACTGGCATCACTGACGGGCATGTCTTTAATCTGCCCGTA +CCAGATTTTAGAGGCCCCTTCGCGCCCGGCGTTCGATTTTGCCATCTGTTCCAGGACGGCAAAACCTTCG +TCACGGCGATCGCTACTAAACAGCAATAGCGCCAGATTGTTTTGCAGGCCCGTATTGCCCGGTGCATCCG +CATTGATGCGTTTTAACTGATTAATCGCTTCGCCACGGCGAGCCGGAATTTTCGCCACCGTACTCCAGTA +CTCGACAGCAATGTCACCTTCCGGCGGCGCACCGTTGAACAGTTTGTTGTAACTCGCCACAGCTTCTTCT +GCATGACCGGTCGTCGCCTGCAATCGTGCCTGTTGCAGTGCCTGACGACCATCCGGCGTGGAAAGTAGCA +TCGTAGTCCGCGACGATTTATACGCATTTGAACTCGGCGCTAACTGCGACAGCCGATCGAGCTGTTTTTG +CGCGCCATCAATATCGCCCTGACGTAACAAAGAACGGAAACGGGCGGCAACGACGTCCGGGTTATTCGGA +TCAATAAGTTCCAGCCGATATAACGACTGTTGCACCAGATCTTCACGATGGGTCGCTTCGCCTAACCGAA +CTTGCTCCAGCAACTGTTGCTGAGCGGTTGGTGCTGCCTCGACCATCGGCATGACGGCCAGACCGAGGGA +AAGCGTGAATATGTTTAGTGTGAATTTGCGCATTCCTGGCCCCAGTCAGGTAATAACTCACCTTTTGTCG +AGAAGCGGAAACGGTGTTGATCCCAGCCTTGTCCAAACAGGGTCAGCACATAGTTGTAATAGGCATCGCT +GCCGGGAAAGTTATCGGCCACGCGCTGGCGCTGAACGGCCTGCGCATCGCGGTTTTGTAAAAAGGGCAGC +ATGGCGGCAGAAAAACCGACTGGTCCTTTACCCTGCGCTTTCCCCGTAGCCACATCCACTTTTTCCGGCG +GATAACCGTTTTTCTCAGTGAATGTCGCCATCGGTTTAAACCGGTTGAGCATCCGCGCTTTTTGCGGATC +GCTGTCAGGCATCATGCCTACCCACATGTAAACGCGGATAGCGTCGTAGCTGCTGATCAATGTTTTTTCG +GCTTTTAGCTGCCAGCCTTTGTCTTTCTCATAGCGCACCCAGTCTGGCGAAAAACCTTTCGGGGCGGTTT +CCAGCAATAAACGTTGATTGGTTTCGCGCAGCGTGGTCCACGGCGCGCCAAAGCGGGTGAAATACTGCGC +CAGCGTCGGCGGCAGGTAGCTGGGGTTAAAACGCCAGCTGTTATCCTCAGCAAAACCCACTTTGCCCGGT +AACAACATGGAACCCAGCCCAGGCACCGTCACCACTTCCTCCCGCGCGATACGTTTTAGCAACGCGCTGC +CGATGTCGGTATAACGCTGCTCTTTCCACAAACGCCCCGCCTCCAGCAACGACCAGGCCATCCAGACATC +ACCATCGGAGGCCGAATTGCTGTCCAGCACTTCCCACTTACTGTTCTCTTTCTTGCCCCACAGCCAGGCG +GGCAAACGTTCTTTTAAAGAACCCTGAGCGAGATTGTTCTGCGTCCAGTCGAGAATATTATCGAAAGCTG +CACGGTCGTTAGCCGCCAGGGCAGAGAACATGCCGTAACTTTGCCCTTCGGAGGTGGTGATTTTGCGCGC +GTCGCTGGGGTCGATGACGCGCCCTTCCTGACTGATGTAATCCTTTTTAAACTGCTCCCAGGCAGGCCAG +GTACAGGCTGCCTGAACACTAAAGGCAGCCAGCAGCAGCATCGTCACGATTCCACTACGCAACACATTCA +TCTTCAATTACTCGTTATCCGGGTTAAGACGACGACGACTAATAATTCGCAGCAGACGCCACAGTACCCA +TGCCAGCAATATCACACTGATAGCCGCCAGCACCGCCAGCAGAATCGGATGGTTTGCCAGCGCATACCAC +ACGCGCTCGAACCACGGCAGATGACCTACGTAATAAACGTCGCCAACACGTAGGCTGTTGATACCGGACT +CGCGGATCACCGCGACCGAACCGAACATGGTGGCGCGTTTGCCGCTATCGTTCACCGCATCGTTAAGCAT +TTCATAACCGCGTGGGCTATCTGCCAACAGCGCAATCACGCTGCGCTGGTCGTTATACGGCGACTGGAAG +CCAATCACCGCCGCCATCGCACCGGAAGAGGTCAGCGTTGACCGGGTTTCTGCCGCGCGATCGCTCTCGT +CCGGCACAATGCCGGGGAACGGGGTCTGGCGCATCGGTGTTTTCACCCAGCTTTCGGTCGCCTGCACCAA +TAGGTCGATCTGCTTATCGTCTTTCAGTTTGTCCGGGATACCACCGATGATCATGATGTCGGCATCTTTG +CCCTGAATGGTGCTGCCATCATCGGTCACCGTCAGATTAATCGCCGGGAAGCCCGTCTGTGCGCCGATAA +AACCAACAGTATTCAGCAACGTTTCCATCTGTGCTTCGTTAGGCGCTTTCGGCATCACGGTGATGGTTTG +CGACAGATCCGCCATCCGGCTGAATGGGAAGCCCGCGTTAGCAAAGGCGCGTAGATCCGGCATCGGGATG +AAGTGGTAATACTTCGAGAAGTCGATGGTGGAGTCGTCACCAATCACCACATGATTCTGCACCGGCTGGA +AGGTAATACAGTTATCCACCGAACCGCCCGGCATCGGGTTCATATACTCAAAGTCGAAGCGCAGCTGGTT +GGTCGCGCCCAGTTTCAGCGCCGGAATAGAGACATCTGTTTTGCCATCCAGCAAACCTTGTAATACCGGA +ATCCGCAGCAGCAGGCGGTTCGCCTCCTGTTTGCTGCTCAGGTTGAAGGATTGCAGGAACTGGTTATTCA +GGCTGATATCCATCCGCGAACTGTCTTTCACCGGCGGCATGGTGTAGCGGTAATTAATATCCATATCAAT +GCCGGTACTGCGCATCAGGTAGAGATCCGGCGGCAGGTTTAGCGAAACGTTAATCGCTGCTGGCTCAAGA +CCGCTGGATTGTAACTGTTCTTCATAGGTTTTCAGTTCGCCAAATGTGACCGGACGATCGGTACGTACCC +AGTTCGGCGCATCGTACGGCTTACGCGGTAGCAGCGGTTTCACTTCATTCACTACCACGCTTTCACCACG +GAACAGAATGTTACCCTGAGCGATACCTTTCGCTGCCTGCAACAGGTCTTTGTCGTCACGACCAAACACC +ACCAGCAGTTTGACGTAAGGATTCTGCGGATGGTTAATCATCTCAATCACCGGGGCTTTTACCGCCGGAT +GATCGCGCAGGAAGTCCGGCCGTTTGTCGTTGGTTGCAAAGACAATGGCATTGCGATCCGGCAGTTGGTT +ATAGAGTACCGGGAAGTTCTGCCCACGCCAGCCAGAACGCGAACCAAACCACGAGGCGACAATGGCAGAG +GCTTGTTGCAGCCCAACATCCGGCGCACCCGCAAAGACCATCGGCAAGGTGTTGGTGCGGTTATCGCTCG +GGTCAAAGAATGGCACCGGGAAGTGTGACAGGTCATTCTTCACATTCAGGGTCTGATAGGTCAGATCCAG +TCCACTGCTCCGCCCAACATCCAGCCAAAGCGTGGTGCTGGCCGGTTTTTCGCACACGTCCTGATAATGG +CCGACAAACTCCAGCCGTACACGGTTGAAGTCGCTAATAAACAGTGGGTTAATGGGCATTTGCGCCAGCG +TTTTTTTACCCAACTGTTCTTTGGTCACTGGCAGCACGCCCATCAGTTCATCATTGAGATAAACCTTTAA +CTGCGACTGGACAGGCAGTAACGATGGCGATGGGGTGTATTCGAGGTTGAGCATCGCCTTCGTCACCACT +TCATCGCTGCGCATACCAAACTCAATGCTGCCGTTCGGGTTAATGCCACGTAGCACCATGCTGCCCGGCG +GCGGTGCAATTTGCGCAAAGGTCAGCTTCACATCACGCGAAGGACCGTTCTGCGCCACGACTGGCGCATC +AGCGCCCTGCACGCCCGGCATCACTTGCCCCACCTGCGGATTTTGTTCCGTCTGGGCGGCTACAGCTGGC +TCAGCATTGATCAGTGGTTGCGTTGCTGGCGTCGCCTGCGTCATGAAAGAGGGGAACGCACTCATCCCCA +TAGCCACTGCACAAATCCAGAATAGTTTTCTTTTCATCGCGTTATCATCATTGTTGAGCCAAAGCCTGAT +CCGATGGTTGTGCCGTTTCGCTCCGCTCCGGGCGGCGCGGAATAAACGATACAACCCAGGAAACCAGAGA +AGTCAGCACACGGAATATGCCCTTCACCGAAGAAGGCGCAAACTCCGCCAGATGGCGGTAGCCACGGAAG +CCGAGCTTCAGAATATCCAGCAGACTTTCCAGCGGCTTATCTTCCGGGTAGCTGTCCTGCCAGAGCGCCC +ATGTATCCGCACGGGCAAACGTACACTGCACAAAATCGATATGTTGCTGGGTGGTGAGCGGCATTAATTT +CAGCCCAACTTCATTACCCATCACGCGCGCCACCTGGGTCGGGAAGACGTATTCCTGCTGACCGCGTTTA +AGCAACAGATTCACTTTCTGCCCTTCCAGAATCTGCGCCTGACCGTTGATCTTGATCCCCAAACCACCGT +CGGAGAAATCCTGAACGGTACACGAGAAGAGGTGACCATCTTCGCGGGCAATTGCCGCGGGCATCGTCAT +CTCCACGCGGTGCGATCGGCGTACCTGTTTGCTTTCTACCGATACCGCAACTGCGCCGCCAAGAACAATC +AGGTTGTAGAACACCCACACCATACTGACGACCACGGTGAGCATCTCGGTTGGCGGGCCATAGAAGTAGC +GCCAGATGCCTACCGCAACGCCCACCAGGTTGAGCAGGACAAGGAAGATGTAGGGCCGCGAGATCACCCA +GTCGACGTACTCTTCTTCCACCAGTCCACCTTTGGCGGTGACGTTAAATTTGCCTTTGTGCGGGTTAATC +AGCGCCACCAGCGTCGGTGGTGCGATATACCACGCCAGCACCGTTTCGTAGATTTCACTCCAGAAAGAGT +GGCGATATTTGCCCTGGATCTTGGAGTTGGTCAGGCTGGCATGGATCATATGCGGCAGCACGAATAGGGC +GATCATCAACGCTGGCGCATAGATGATGTAGGCATGAAGCAGCAGGAACGCCAGCGGCGCAGTCAGGAAG +ATCAGCCGTGGAATGCCCGACAAGAAGTGGAACATGGCGTTGACGTAACATAGCCGCTGAGCAAACTTCA +GCCCTTTACCGGTGAGCGGGTTATCGAGACGGAAGATTTGTACCATCCCGCGCGCCCAGCGAATACGCTG +ACCGATATGCGCCGACAGACTTTCGGTCGCCAGCCCCGCCGCCTGCGGAATACGCATATACGCGGAGGTA +TAGCCACGACGGTGCAACCGCAGAGAAGTATGCGCATCTTCAGTCACGGTTTCGACAGCAATGCCGCCAA +TTTCATCCAGCGGCTTACGACGAATCACCGCACAGGAACCGCAGAAGAAAGTGGCGTCCCACATATCGTT +GCCATCCTGCACCAGACCATAGAACAGCGTGCCTTCGTTCGGCGTTTTACGGAAACGCCCCAGGTTGCGT +TCAAACGGGTCCGGTGAGAAGAAGTGGTGCGGCGTCTGCATCATCGCCAGCTGTTTTTCTTTCAGGAACC +AGCCCATGGTCATTTGCAAGAACGATCGCGTTGGTACGTGGTCGCAGTCGAAAATCGACACGAACTCGCC +TTTGGCATATTTCAGCGCATTGTTGATGTTGCCTGCTTTCGCATGTTCATGAGTGGTGCGGGCGATATAT +TTCACCCCCACGTTTTGCGCAAACTGGCGAAACTCTTCCCTGCCGCCGTCATCAAGGATCCAGATATTCA +GCTTATCTTTCGGCCAGTCGATACCCAGCGAGGCGTAAATGGTATTTTTCACCACGTTGAGATCTTCGTT +GTAAGTCGGGACAAAGATATCCACCGACGGCCACAGCGACATATCTTTCGGCAATGGCACCGGCTGACGA +TTCAGCGGCCATACTACCTGGAAGTAGCCGAGCACCAGCACAATCCACGCGTACGTTTCAGCGAAGAGCA +GAATAAGCCCGCACACCAGGCTGACCGGATCGTCCCAGTTCAGCGTAGAGGTGTAACGCCACCAGATATA +ACGGCAAGAAACGGTCAGCGACAGCACAATCAACATTAGCGCCGAGAAGCGCCCCGGCATCCGCCGTACG +ATCAGCGCTACCCCCCACAGCAGCATCAGGAAGATAAACTGCGCCAGCGGGTTAAACGGCTGAGTAACGC +AGATTAACGCCAGAATCAGCGAGAAGGTGACGATGATACCGAGGATCAACCGCCGCGCCCCGGCACTCAA +ATGACCGAGCTCTTTTTTCTCATCCAGATGCTGTGTTTTATGGCTAACGCGCTCAGGCAGCTCGTTCATC +CATTGATGGTAACGTCCACGAATATTTTGCAGACCTGAAAATGCCCGCCTGCGCGGTTTCGGCGTTTCTT +TGCGCGATGCACCGATCAATAACCAGCATGTTTGAATGAGATAACGGACCGGGTCCAGCGGACGCGGACG +CGAGGCGTTGATATGCGGATACAGGTTTTTATGTTCTGCGCGAATACGCTGCCAGCGCGGGTGCTCCAGC +GGAATAAAAATCCAGGCCAGGATCATCCAGAAACAGCCGAGCGTCGCGCTGAAAGCCGACGCACCGTGAC +GACGATAATCGCGATAACGCCCGATAAGCCGCGCGTTGACCGGCGGGATAAGCAACCACCGGGTCAGGAT +ACTCATGATGCACTCCCGACTGGCGTTTTCAGCCCGGAGTAGTTCAACAGGCACCAGTTCGCCAGCGTCA +GTATCTCTTCAGCCGCCAGCGCATCACTGCGATATTCACCTACTGGTTGCTTAGCCGCCAGGCATTCAGC +CATCGCTTCATCACGATGAATGAGCATCGGCAGTAATCGGCGCTGGCTTTGCAACCAAAGCTGGTAAATA +TCGTCCTGAACCTGACTGCCAATACGGAAGTCATTAATCAAAATATGTGCGCCATCCGGCAGCGCTTGCT +GATGCAGTCGGATATGGCAGTTGGCATCCACATTGACGATTGCCAGCGAGTGATCGCACAAACTCAGCAG +CTGGTGGGTTATCTGCGAGGCATCACGCGGTAAGTCGATTAAAATCCACTGGTAACGCCCGCTGGCTTTT +AGTTGCTGTAAGCCGGAGCAAATATCGCTCAGCCGGGTTTGCCAGTGCTGTGGATTTTCTTGTTCTTCAA +TGGATAACTGACCAAAAGGCAGCAAATCGAGCTGCGAGGTGTAGCGCAACCCAGCGTCACGCCAGTCCTG +GCCATCCAGCATCGCTCTGGCCCAGCCCTGACGGTGGGTAAAATCAACATTAAATGACAGGCGCAACAAG +TTGTCCGGGCAGGCATCGACCACCAGGACATTTTCTCCCAACATTTGTAATGACCAGGCTAATGCGGCGG +TGATGGTTGTTGTCCCCACGCCTCCCCGCACCCCCTGCTATCCCAGTACGGCCATTCACCAATCCCCTAC +TTTTGTTGCGCAAACTCTGCCAGCAACGGCCAGCGTTTTAATGCCGCGGCCAACTGTTCGCGTTGGGAAA +TATCGGCATAATCAATATCAGGCAGTGAAAATGCCTGCTTTAACGCCACAATATCATTCTGGAAGATATA +GCCTATCGCGGGATCAGGCAGAGTATCTGGTTCATTGTTATTCATTTTGCTTGATCCCTATGAAATAACC +GTACCGTTCATGAGACAATTCTAACCGTGAGCATTTCGCCGGTTTATTGTTTACGGCGAGACGGGAATTT +GCTCACTTTTTGACTTTCCGTTACGCAACAGAAAAAGTTAAAAACGAAAAGACTAAAATCACACGTCTTG +TGACCTTCTAAATTGATTCACATGCTAAATCTGATAAGTTTTAATTTCAATGGTAGGTTTATTTCTTAGC +TTTCGCTAGTAAACTGATAATCAGACAAAATGGTGACATGAGGGACATTGTGGACCCTGTATTCTCTATC +GGTATCTCATCATTATGGGATGAGCTGCGACATATGCCAGCAGGCGGCGTCTGGTGGTTTAACGTCGATC +GCCATGAAGATGCTATCAGTCTGGCGAATCAAACAATTGCATCCCAGGCTGAAACCGCACACGTCGCGGT +CATTAGCATGGACAGCGATCCGGCGAAAATCTTTCAATTAGATGATTCTCAAGGGCCGGAAAAAATAAAA +TTATTTTCAATGCTAAATCATGAAAAAGGTCTATACTATTTGACCCGTGATTTGCAGTGTTCTATTGATC +CCCATAATTACCTTTTTATTCTTGTTTGCGCAAATAACGCATGGCAAAACATTCCTGCCGAGCGGCTTCG +CTCATGGTTGGATAAAATGAATAAATGGAGCAGGTTAAACCATTGTTCGCTTTTGGTAATTAATCCCGGA +AATAATAACGATAAACAATTTTCATTGTTGCTTGAGGAATACCGTTCACTTTTTGGTCTTGCCAGTTTGC +GTTTTCAGGGTGACCAACATTTGCTGGATATTGCCTTCTGGTGCAACGAAAAAGGGGTCAGCGCCCGTCA +GCAGCTTAGCGTTCAGCAACAAAATGGTATCTGGACATTAGTTCAAAGCGAAGAGGCGGAGATCCAACCA +CGCAGCGACGAAAAACGCATTCTGAGTAATGTTGCTGTACTGGAAGGTGCGCCGCCGCTATCGGAACACT +GGCAACTGTTCAACAATAACGAAGTCCTGTTCAATGAAGCCCGTACCGCTCAGGCGGCGACGGTGGTCTT +TTCTTTACAGCAAAATGCGCAAATCGAGCCACTGGCCCGCAGCATTCATACCCTGCGTCGCCAGCGCGGT +AGTGCGATGAAAATCCTCGTGCGGGAAAATACCGCTAGCCTGCGCGCCACCGATGAACGTTTGTTATTGG +CCTGCGGTGCAAATATGGTTATTCCGTGGAATGCGCCACTCTCCCGTTGTCTGACGATGATCGAAAGCGT +GCAAGGGCAGAAGTTTAGTCGCTATGTGCCGGAAGATATCACTACCTTGCTGTCAATGACCCAGCCGCTC +AAACTGCGTGGTTTCCAGAAGTGGGATGTGTTCTGTAATGCCGTCAACAACATGATGAATAACCCTCTAT +TACCTGCCCACGGTAAAGGCGTTCTGGTTGCCCTACGTCCGGTACCGGGTATCCGCGTTGAACAAGCCCT +GACGCTGTGTCGCCCTAACCGTACCGGCGATATCATGACCATTGGCGGTAATCGGCTGGTGCTGTTTCTC +TCATTCTGTCGGATTAACGATCTGGATACCGCGTTGAATCATATTTTCCCATTGCCTACTGGCGACATTT +TCTCAAACCGTATGGTCTGGTTTGAAGATGATCAAATCAGTGCCGAGCTGGTGCAGATGCGCTTGCTTGC +CCCAGAACAATGGGGCATGCCGCTGCCTTTAACGCAAAGTTCTAAACCGGTCATCAATGCCGAGCACGAT +GGTCGCCACTGGCGACGAATACCAGAACCCATGCGACTGTTAGATGATGCTGTGGAGCGCTCATCATGAT +GACCATCAGCGATATCATTGAAATTATTGTCGTTTGCGCACTGATATTTTTCCCGCTGGGCTATCTGGCG +CGGCACTCTTTGCGACGCATTCGCGACACCTTACGTTTGTTCTTTGCTAAACCTCGTTATGTTAAACCGG +CCGGGACGTTACGCCGCACGGAAAAAGCCAGGGCAACCAAAAAATGACTCAATTTACGCAAAATACCGCC +ATGCCTTCTTCCCTCTGGCAATACTGGCGCGGCCTTTCCGGCTGGAACTTCTATTTTCTGGTTAAGTTCG +GCCTGTTGTGGGCGGGATATCTTAACTTCCATCCGCTCCTCAATTTGGTGTTTGCCGCGTTTCTGCTGAT +GCCCCTTCCGCGCTACAGCCTGCATCGCTTGCGCCACTGGATTGCCCTGCCGATCGGCTTTGCTTTGTTC +TGGCATGACACCTGGTTGCCTGGCCCGGAAAGCATAATGAGCCAGGGTTCGCAGGTGGCGGGGTTCAGTA +CCGATTATTTAATCGACCTTGTCACACGCTTTATTAACTGGCAGATGATTGGGGCCATTTTTGTTTTATT +AGTGGCCTGGTTATTCCTGTCACAATGGATTCGCATTACCGTTTTTGTGGTTGCCATACTGCTATGGCTG +AACGTACTTACCCTGGCGGGACCAAGTTTCTCCTTGTGGCCAGCCGGACAACCGACGACCACTGTAACAA +CGACGGGTGGTAACGCAGCGGCAACCGTTGCGGCGACGGGTGGCGCACCGGTAGTGGGTGATATGCCCGC +ACAAACTGCACCGCCAACAACGGCGAACCTTAACGCCTGGCTGAATAATTTCTATAACGCGGAGGCGAAA +CGTAAATCGACCTTCCCGTCTTCGCTGCCCGCTGATGCTCAGCCATTTGAACTACTGGTGATTAACATCT +GTTCGCTTTCCTGGTCGGATATAGAAGCCGCCGGGTTGATGTCGCATCCACTGTGGTCGCATTTCGATAT +TGAGTTCAAGAACTTTAACTCCGCCACCTCCTACAGTGGCCCGGCGGCGATCCGTTTACTGCGCGCCAGC +TGCGGGCAGACTTCGCACACTAATCTGTATCAACCGGCAAATAACGACTGCTATCTGTTTGATAACCTTT +CGAAACTGGGCTTTACCCAGCACCTGATGATGGGACATAACGGCCAGTTCGGCGGTTTTTTGAAAGAAGT +TCGCGAAAATGGCGGCATGCAGAGCGAATTGATGGATCAAACAAATCTGCCGGTTATTTTGCTGGGCTTT +GATGGTTCGCCGGTTTATGACGATACCGCTGTGCTTAACCGCTGGCTGGACGTTACCGAAAAAGATAAAA +ACAGCCGTAGTGCCACGTTCTACAACACGCTTCCACTGCATGACGGCAACCATTATCCGGGGGTCAGCAA +AACAGCGGATTACAAAGCGCGGGCGCAGAAATTCTTTGATGAACTGGACGCCTTCTTTACTGAACTTGAG +AAATCGGGTCGTAAAGTGATGGTGGTCGTGGTGCCGGAACACGGCGGCGCGCTGAAGGGCGACAGAATGC +AGGTATCTGGCCTACGTGATATCCCTAGCCCGTCTATCACCGACGTCCCCGTTGGGGTGAAATTCTTCGG +CATGAAGGCACCGCATCAGGGGGCACCGATTGTCATCGAACAACCGAGCAGCTTCCTGGCTATCTCCGAT +CTGGTGGTTCGCGTTCTCGATGGCAAGATTTTCACCGAAGACAATGTTGACTGGAAAAAACTCACCAGTG +GGTTGCCACAAACAGCACCGGTCTCCGAGAACTCAAATGCAGTAGTTATTCAATACCAGGATAAACCGTA +CGTTCGCCTGAACGGCGGCGACTGGGTGCCTTACCCGCAGTAAGAACGAAAAAGGCCGCAGAGTTTCCCC +CCTGCGGCCTGGTCCGGGCGCAAATTGCCATTACGGCAGCCTGACGCCCGCATGACACGTTACTTCCGCT +TGTTCAGCCAGTTCACGATCATACTGGCAAGAATGCCAGCAATGACCGGAGCCGCTAAATCATGCCAGAA +GGCCATGCCCAGCTCTGCGAACGTCATATAGCCGCCTGTGTTGTAATGACAACGTTTCGCGGCTATTCTT +GAGTGGTCTAGAGTCAAGATTAGCCCCCGTGGTGTTGTCAGGTGCATACCTGCAACGTGCGGGGGTTTTC +TCTCTCCAGCAACCAATGCCACCAGGGATAAAGCCCCCGCAACATTGCGCCTCACCGGAACCTTTCCGGC +TTGCCGCTGATTCTACGATTGCTTTTTACTGTCAGCACCCGGCAATCTTCCTCATTGCGCGATGCCTTCC +AGCTTAATTTCTTTATTTGCAATAGTTGCAGTTCATATCCGGGCTGACTCCAGACTGGTAGTGAAATGCG +CAATTTTGTAGAATTGCGCCTCCTCGCGACCTCCCCAGTGAATCTGTTGCCTCATTTTTTACATACTGCG +TATTCGACTTCTCCACCTGTTGCGCAAGAGAAACTGGGTTTATTCATTTTTGCGAGGCCGACTTCTTTCT +GGACAGGACTTTATGCAGCACAACACACTATCGAAACACAATCAGAAATTGCCGTTTACACGCTACGACT +TCGGCTGGGTTTTATTATGCATAGGCATGGCGATTGGTGCCGGAACCGTGCTGATGCCAGTACAAATTGG +CTTGAAGGGAATTTGGGTATTTATTACCGCAGCGATCATTGCTTATCCTGCCACCTGGGTAGTGCAGGAC +ATTTATTTAAAAACCCTTTCTGAAAGCGATTCCTGTAATGACTACACCGATATTATCAGTCATTACCTGG +GGAAGAACTGGGGAATTTTCCTCGGGGTTATCTACTTTTTGATGATTATCCACGGGATTTTTATCTACTC +TCTCTCCGTGGTTTTCGACAGCGCCTCGTACCTGAAAACCTTCGGTTTAACCGATGCCGATCTTTCACAA +TCTCTACTTTATAAAGTCGCTATTTTCGCCGTACTGGTGGCGATTGCGTCTGGTGGTGAACGATTACTGT +TTAAGATTTCCGGGCCAATGGTGGTGGTCAAAGTAGGGATTATTGTCGTGTTCGGTTTTGCGATGATCCC +GCACTGGAATTTCGCCAATATAACCGCCTTCCCGCAAGCCTCCGTCTTTTTCCGCGATGTCTTGCTTACC +ATTCCATTTTGCTTCTTTTCTGCAGTATTTATTCAGGTACTTAACCCAATGAATATTGCCTATCGTAAAC +GGGAAGCGGATAAAGTACTGGCAACCCGGCTCGCGCTGCGTACCCACCGAATTAGTTATATCACGCTCAT +CGCGGTGATCCTGTTTTTTGCCTTTTCGTTTACCTTCTCAATTAGCCACGAAGAAGCCGTTTCTGCCTTT +GAACAAAATATCTCAGCACTGGCGCTGGCCGCGCAGGTGATCCCTGGGCATATCATTCATATCACCTCTA +CGGTGCTTAATATCTTTGCCGTACTGACCGCATTCTTTGGCATTTATCTCGGTTTCCACGAGGCCATTAA +AGGCATTATTCTCAATCTGTTAAGCCGAATTATTGATACCAAGAAAATTAACTCACGCGTGCTGACTCTG +GCGATCTGCGCTTTTATCGTCATTACGTTGACGATTTGGGTTTCGTTTCGTGTATCGGTGCTGGTGTTCT +TTCAGTTGGGAAGCCCGTTATATGGTATTGTGTCGTGCCTCATTCCGTTTTTCCTGATCTATAAAGTCGC +ACAACTGGAAAAACTTCGCGGATTTAAAGCCTGGCTGATTCTGCTGTACGGCATTTTGCTATGCTTGTCG +CCACTGTTGAAGCTGATTGAGTAAACCGGAGCGCATGGCCCCGGTTTTGTGAGTTAACGCTGCGGATTTT +CATCCTGATCAACAGCAAAACAAGCTACCAGTTGACCGCCGTAGTCTTTTAGCTGCGGCTGCAACTGGGT +GCAGGGGCCGAAGCGCCGACGACAGCGGGCGTTGAAGGCGCAACCCGGCGGTGGATTCAGTGGGCTTGGT +AGTTCACCGCTGAGCTTGATGCGCTCGCGGCGATCGTCCGGGTTCAGGCGCGGCGTCGCGGAAAGTAGCG +CCTGAGTGTACGGATGGCGCGGGTTATTGAAGATTTGGTCTTTCGTTCCCTTCTCCACGCAGCGGCCCAG +GTACATCACCATCACTTCATCAGCAATGTGCTCCACCACCGACAGGTCGTGGGAGATAAAGACATAAGAC +AGCCCCAACTCCTGCTGCAAATCCATCATCAGATTCAGCACCTGCGCGCGCACTGAAACATCCAGCGCGG +AAACCGGTTCATCGGCAATCACCACATCCGGGTCGAGCATCAGACCACGGGCGATGGCGATACGCTGACG +CTGACCGCCGGAGAACATATGCGGATAGCGGTCATAGTGCTCGGTTTTCAGGCCGACTTTCGCCATCATC +GACAGGGCTTTTTCCCGACGCTGTTCTTTGCTTAAGCTGGTGTTGATCAGCAGCGGCTCTTCAAGAATTT +GCCCGACTTTTTTACGCGGATTCAGCGAACCGTAAGGGTTCTGGAAGACGATCTGGATTTTCTGCCGACG +CAGCTTCTGCGCCTGCGGATCGTGCTTAAGCAGATCCTGCCCCTGGTAATACAGCTCGCCACCGGTGGGC +ATTTCAATCATCGTCAGCAACCGACCGAGGGTCGATTTACCGCAGCCAGATTCGCCCACTACTGCCAGCG +TTTTGCCACGTTCAAGGTTAAACGAAACGCCATCCAGCGCTTTAACCAGACGTTCCGGCGCGAACATGCC +TTTCTTCACCGGATAATGTTTTTTCAGGTCGATAGCCTGCAACAGCGGTTGTTGCAGGGTGGCCTCTTGC +GTACTCATAGTGTCGGCCTCCCGGCATCATCAAGTGGGTAATGGCATTTGGACTGACGCCCGTCAGCGAG +CATATTCAGCGCCGGTTCTTCAGCGCGACATCTGTCAGTGGCATAGGGGCAGCGCGGGTTAAGCAGGCAG +CCGTTCGGGCGGTCGTACTTGCCGGGAACGACACCTGGCAACGACGCCAGACGTTCTTTGTCCTGAGCAA +ATTCTGGCAGCGCACGCAGCAATGCCTGAGTATACGGGTGACGCGGCGCATGGAAGATGGCGTGCGCATC +ACCGGTTTCCACCACCTGGCCTGCATACATCACGATGATTTTATGTGCCGCTTCCGCCACCAGCGCCAGG +TCATGGGTAATTAACACCAGCGCCATGTTCTCTTTCTGCTGTAGCTCCAGCAGTAGTTCGATGATTTGCG +CCTGAATGGTCACGTCCAGCGCGGTGGTCGGTTCATCGGCAATCAGCAGTTTTGGCCGACAGGCAATCGC +CATGGCGATCATCACGCGCTGGCTCATGCCGCCGGAAAGCTGATGCGGGTAAACATCCAGACGCGATGCC +GGATCGGGAATACCGACCTGATTCAGCAGGTCAATCGCTCGCTGACGGCGGGTACTTTTGTTGCCGCCCT +GATGCACCTTAATCGCTTCCATAATCTGGAAACCCACGGTGTAGCACGGGTTAAGGCTGGTCATCGGGTC +CTGGAAGATCATCGCCACTTCGGCACCCACCAGGTTGCGGCGCTCTTTTTCTGAGATACGCTGCAAATCC +TGGCCGTTAAACTCCAGTTTTTCTGCCATTACGCGGCCCGGATAATCAATCAGCCCCATAATCGCCAGTG +AACTGACCGACTTACCGGAGCCGGACTCACCCACAATCCCGACCACTTCGCCCTGTTTTACGCTGTAGCT +GATGCGGTCTACGGCGCGGAACGGCGCGCTTTCGTCGCCGAAATGCACCGATAATTTATCTACATTTAAT +AACGCCATCTCGAACCTCTTACTGCTTCAGTTTGGGATCGAGCGCGTCACGCAGACCGTCACCCATCAGG +TTAAATGCCAGCACCGTCAGCAGGATCGCCAGACCCGGGAAGGTCACGACCCACCAGGCGCTTTGCGCGA +ACTGCAACACGTCGGAGAGCATGGTGCCCCACTCAGGCGTTGGCGGCTGTGCCCCCATGCCGAGGAAACC +AAGAGCAGCCATATCGAGAATGGCGTTAGAGAAACCGAGCGACGCCTGAACAATCAGCGGCGCAAGGCAG +TTCGGGAAGATGTTAATAAACATCTGACGCATCGCCCCGGCACCCGCCACGCGAGACGCGGTGACGTAAT +CGCGGTTAACTTCCACCAGCACGGCGGCGCGGGTTAAGCGCACATAGTGCGGCAAGGCAACGAAGGTCAG +TGCCAGCGCGGCGTTACCAATCGACGGGCCGAAAATTGCCACCAGCACCAGCGCCAGCAGCAGACTTGGC +AGCGCCAGCATGATATCGACCACGCGCATAATGATGTTATCGACCAGGCCGCCAAAGTAACCGGCGATCA +GGCCGAGAATAACGCCCATAATCAGCGATAACACAACTACCAGACAGCCAACCAGCAGCGACAGGCGCGC +ACCGTACATCAGGCGCGACAGCACATCACGGCCTACGTCATCGGTGCCCAGCAAGTGCGCCATGCTGCCG +CCTTCCTGCCAGGCTGGCGGGGCGAGCAGTGCATCGCGGAACTGTTCCGCCGGGTTATAGGGTGCAATCC +AGTTGGCAAAGATCGCGATGAACAGCACGATGACGACGTAAACCAGCCCGACGACCGCGCCTTTGTTGCG +TTTAAAATAGTGCCAGAACTCCTGTAACGGGGTCATCGGCACCGGTGCGCTAATCACTTTATTTTCAGTA +ACCTGTGACATGATGTCCCCTTACTTCTTATGACGAATACGCGGGTTCACCACGCCGTACAGCAGATCGA +CCAGCAAGTTGACGAGGATAATCATCGTCGCCACCAGCAATACGCCGCCCTGCACTACCGGATAGTCGCG +GCGTTGCAGTGCGTCAATCAACCAGCGTCCCAGACCGGGCCACGAGAAGATGGTTTCGGTCAGAATCGCC +CCCGCCAGCAATGTTCCCACCTGCAGGCCGATAACGGTCACCACCGGCAGCATCGCGTTACGCAGCGCAT +GGACGATAATCACCCGCATGCGGGTTAGCCCTTTGGCGCGCGCGGTGCGGATGTAATCCTCGCCCAGCAC +TTCCAGCATCGAGGAGCGTGTCATACGCACAATGACCGCCAGCGGAATAGTACCCAGCACAATGGCAGGC +AAGATCATATGGGCGACGGCATCGATAAAGTTGCCGTCTTCACCCCAGATGGCGGTGTCGATTAGCATAA +AACCGGTTAACGGATTGGAGTCATCGAGGAACACCATATCGCTCACGCGACCGGAGACGGGCGTCAGGTT +CCAGTGCACCGAAACCAGCATGATCAGCATCATGCCCCACCAGAAGATAGGCATTGAATAACCTGTCAGC +GCCAGGCCAACCGCTGTGTGATCGAAAATGGAACCGCGTTTAACCGCAGCCAGCACGCCGACCGGAATAC +CGACTGCCGTAGCAAAAATCATCGCGCAGACGCCAAGTTCCAGCGTGGCCTGGAAGCGCGGCACGAACTC +TTCCCAAACCGGGATGCGGCTTTTCATTGAAATGCCTAGATCGCCATGCATAACGCCCCAAATGTAATGG +AGATACTGCTGCCACATCGGTTTATCTAAGCCGAGTTCAGCCAGCAGCTGCGCGTGACGCTCTGGGGAGA +TCCCACGTTCGCCCGCCATGATCATCACCGGATCGCCCGGGATCATGTGGACAAAGGCAAATGTGAGAAG +GGTAATACCGATAAACGTGGGGATGACGAGTCCCAAACGTCGGAGAATAAACTGCAACATAACCCGGATT +CTCTATAGTGACCCGCAGCCTGGAACTGCGTGTCTGTATTGCTCACAAATCAATTCCCGCCCTTATCGGA +CAGGGAATGAAGTATTGCTGCCGGATGGCGCTGCACGCAGAGGCACAGCGCCACCGGGTATACAGATTGT +TGACAAAGTGCGCTTTGTTTATGCCGGATGCGGCGTTAACGCCTTATCCGGCCTACAAAATCGTGCAAAT +TCAATACATTGCAGAATTTTCGTAGGCCTGATAAGCGGAGCGCATCAGGCATTTTTGCCTTTGCCATCAG +TCTTGTATGGCTTTTAATTATTCGATAGAGACGTTTTCGAAGTGATGTTTGCCTAATGGATCAACCACAT +AGCCTTTAACTTCTTTACGTACCGGTTCAAACACGGTGGAGTGAGCGATGATCAGTGCCGGAGCCTGATC +GTGCATCACCACCTGCGCTTGTTTGTACAGTTCAACGCGTTTATTGTGGTCGTCGGTAGCACGCGCCGGT +TGAATCAGATCTTCAAACGGTTTGTAGCACCATTTTGAGTAGTTGGAGCCTTGTTCAGAGGCGGCGCAGC +TGAACAGGGTGGCGAAGAAGTTATCCGGATCCCCGTTATCGCCAGTCCAGCCCATCATTACCGTCTGGTG +CTCGCCATCTTTCGCACGCTTGAGGTACTCACCCCATTCGTAGGTGACAATTTTGGCCTGCACGCCGACT +TTCGCCCAGTCTGCCTGAATCATCTCCGCCATGCGGCGAGCGTTCGGGTTATACGGACGTTGTACCGGCA +TCGCCCACAGGTCGATGGAGAAACCTTTTTCCAGACCCGCTTCTTTCAGCAAGGCTTTCGCTTTTTCAGG +ATCGTAGGTGTAGTCCTGAACGTCGTCGTTATAGCCCCACATGGTTGGCGGGATCAGGTTTTTCGCTGAT +ACGCCCGCGCCCTGATAAACCGCTTTGATGATCGCGTCTTTGTTCACCGCGTAGGTCAGAGCCTGGCGAA +CTTTCACGTCATCGAGTGGTTTTTTCTGCACGTTATACGAGAGATAACCGACGTTCAGCCCCGGCATTTC +CATCAGATTGATGGATTTATCCTGCTTCATGCGAGCGATATCTGCCGGGTTCGGGTACGGCATCACCTGG +CATTCATTCTTCTGCAATTTCGCGTAACGCACGGAAGCGTCAGGGGTAATAGAGAAAACCAGCGTATCGA +TCTGCGGTTTGGTGCCCCAGTAGCCATCAAACGCTTTGTAGCGGATACGGGAATCTTTTTGATACTGCTG +TAACTGGAACGGACCGGTTCCGATTGGGTTGAGGTCCAGTTTTTCCGGTGTACCGGCTTTCATCATCGCA +TCAGCATATTCTTTTGACAGAATAGAGGCGAAGTCCATTGCCAGGTCAGCGAGGAACGGCGCTTCCGGGC +GAGTCAGCACAAACTGAACGGTGTTGTCGTCCACCTTTTTCACTTCACTGATCAGCTCTGGCAAGCCCAT +GCCTTCGAAGTATTCGTAGCTGCCGCCAGAAACTTTATGGTACGGGTTTTGCGCGTTTTTCTGACGATCG +AACGAGAACACCACATCATCGGCGTTCAGTTCACGCGTCGGTTTGAATTCTTTATTGTCGTGCCACTTCA +CACCTTTACGCAGATGGAAGGTATAGGTTTTACCGTCTTCGCTGACTTCCCACTTTTCAGCGAGGCCCGG +GATCACTTCGGTGGTGCCGATTTTAAATTCAACCAGACGGTTATAAAGCGGGACGGAAGAGGCGTCATAG +GTGGTGCCGGAGGTAAACAGCTGCGGGTTAAACCCTTCCGGAGATCCTTCTGAGCAATAAACCAGAGTTT +TAGCCTGAACACTTGCTGCGACGGTCATAGCCACCAGGCTGAGACCAAGCTTCAGCATCCCTGACTTTTT +CAAGGAAATACGCATTATTCTGCTCCAATTGTGATGTTTGTTGTTTTAACCCTTTGCAGTGGGTTGTCGC +TGCCTGACCTTTTTTGTTTTTTGCCCGGTCGGGTCAACGTTATGAGGTGGGGATGCCGTACTAATTAACA +TCAGTGTAACAGTGCGGATCCTCCATAAAATGCCCCTCGTGACCTACAATCTGTCAACAGAATGTGAAAA +CGTCAATACAGCCAACCGGGATTTACACCAACGGTGAGAATCCACACACAAAGATTAAAAAAACTTCAAA +CAGCTATTTGCAGCAGAGAAATTTGTGCTACTCCAACATGACCAGAACAATCAGCTTAATATTTAGCAAC +ATTTGGTGATTAAGTTTTATGCATTTAATGAAAAAAATCTGAGGAAAAGGTGGATATCTGAGCGATTAAT +ACCATGAACGCTAAAACGCACAGCGGAAAATGCCAGGGCCAGCCATAAGTAACGCAAAAAAAGATTTAAG +CAAATATAAAAAAAGACAATGGTTTCTGTCACAAATCCGTTAATGGATAGTGAGATATGGGGCGCAAATT +TGGCAGGGAAATGTGTGTCGTGTAGGTCGAATAAGGCGGTCGCGCCGCATCCGACAATGGCCGGCACATT +TGCCTGATGCGACGCTGACGCGTCTTATCAGGCCTACGTCGAGTCGAACCTCCCTGCCCCCGGAGGTTCT +CATCCTCATGAGCTGCAGATGCAAAAAAGCCTGCTCGTTGAGCAGGCTTTTCGAATTTGGTCGGTGATAG +AGGATTACTCGCCACTTCGTGGCTCGCCCTGCGGGCCGTTGCTGGCGCAACGTTCTCTCGCTTCGCTCGA +GTCGAACCTCCCTGCCCCCGGAGGTTCTCATCCTCATGAGCTGCAGATGCAAAAAAGCCTGCTCGTTGAG +CAGGCTTTTCGAATTTGGTCGGTGATAGAGGATTCGAACCTCCGACCCCTTCGTCCCGAACGAAGTGCGC +TACCAGGCTGCGCCAATCACCGAATGCGGGGCGCATCTTACTGCGCAGATACGCCCTCGTCAATCCCTTA +ATAGCAAAATGCCTTTTGATCGGCGAGAAAGTCAGCAGGCCGCTTAGTTAGCCGCTGCCTCTTTTGCCTG +CGGGATGTGACACCAGTTGTTGTTTTCGTTAATTCCACCATCCGGTGAAGTATAGCCAAGACAACCCATG +ATGGTATCGTACAGCTCTACGTGACGGCGTGGCACTTTCATGTCGGCTTCTTTTTTCAGCTGCGCAAACG +CCTGCGCATTGGCCGGATTTTCCAGATATTTATCTGACATCCAGACCATCATCGGTACGCGGAACTGCTC +CGGCGGTGCCAGTTCACGCGGCGTGCCGTGCAGGTGCTCGCGTTCATTAATTGACTCACCGTGGTCAGCT +GCGTAGAACACAATCGCTTTCTTATCGCGAACCTGATCAATCACGCTGGAGATAAAGTGATCCACATAGG +TCACCGAGTTGTCATAGGAGTTGATCATCTGCGCTTTGGTACAGCCGCTATCAACACCAATACATTCCGG +CTTCCACTGCGCGAAGCTACGCGGATAACGCTGGGTGTAGTTAAAATGCGAACCTTTGGTATGCAGAATG +ATCAGATGCTTACCATCCGGGTTGCGCCCTAGCGATTGCTGCATTTCGTCTACCAGCAACATATCATCTA +CCGGCTTGCCACGATTACGTGGCTCCGCACCAATCTGCTCACGATAAGCAATGTTGTCCGCCATCGTGTT +GCTGTAGAACCACATTTCGCTCTGCATAGCGTAGAGGTCAGAACTGAATCCTAACTGCTTCAGAACCGCG +AAAATGTTCTGTTCTTTTAATGTGCGCTGCGGATTATCTTCCGCGCCCCCCTGACGTACAAACATGCAAC +GCAGTGAGAGTTTGGTTGCGGTATCACAGGAGTAACCACGGAACGCCGCCAGATTTTTCTCCTGGGCCAG +TTTCGGCGTGGTATTACGCTCATAGCCGAAAATACCCATATGGTCCCAACGCGTGGTTTCACCGATGATA +AACACGACATAAGTGTCATCAACGTTTTGCGGTGCCTGATAAGTGAATTTCTTCGCCGGATTAAGCAATG +AATTATTATCGGAAGATTCATCGACCCGCGCCCAGGCATACAGCCCCAACGCAGAAAGCCAGTTTGATGG +CAGATAAGAGTTCGCTACGACACCGCCATAACTCGGCAAATCAACGCCGGTCGCCCTCTCCACTTTCTTC +TGCTGGATATCCAGCAAACGAATCGGTGCCCAAACCATAATACCCGCCAGTACGACGACCGCCAGGCTGC +GAATACGCTGCCCTGGGGTTCGCAGTTGTCGGAGCAAGGTGTAGCGACAGCGGTTATTCCAGATAAGGAT +AAGAGGCAATGCACTAACGGCGATTAACCAGAGAATAAAGTTCAGACCAACAACTTCTTTTGACAGGTCG +ATATCGGTGGTCATGACGGAAGCGATGATGCCATAACCAATGACCACATTAAGGAAGGTCATGTAATAGC +TGGCACCTGCGGAAAAGAGCACCACCAGCGATGCCAGAATACGCCAGCTGCGGCGGCCAAACAGCGAAAG +AAGACGTAGTAAAAAGAAGGTCACCAGTACGGTGGCGGCCAGTTCAACAACAGCAGAAATGCCTTTCCAG +ACGGTAAAATCGTGCGCATAGCTGCCGAAGCGGCGGTAAAAAACCGCGCCATTCATAAAAAGGCCAATAT +AGATTGCAAGCAAAAAGCTCAGCTTCTGCTGTGTAATCGATTTGATGTATCTCATGCAAACAAACCCTGG +ACAAACAGGTGATAACACCCTGCTTAGTGGCTTTTCAGGCCCGGCAGGGAAAAAGTGCGGAGGTAGTCAG +ATAAGTAAAATCTACACGCGCGAATAAGTAGACCACAGCAAAGGGAAAAAGTGTGGGGAAAGAGTGTGCA +TGAAGCACAAATTTACAAAAATGCAAGTTTGAAAAGAGACTTTAGCGTTACAAAAAGCAGTAAAAAGGGC +CAGTTAATTGGCCCAAATTTTACGAGTCATTGTTTATACATTTCGTTGATGCGTTTGATGCACACGGAAG +CTGAAGCCCAGTAGCTCGCGGCTGAGCATTAAAGGGAGCCATGCGCCTCACGCAACATTTTCTGCTCTGG +CTGACGAATCGTCGTAGAAAGCGCCAATGACAGAATCAGCAGGGCGAAAATCACGTAGAAGGTCACATAG +AAGCCGCCAAACAGTGAGGCGATAATCGAACCACAAATGCTACCGATACCGAAACCGAGATAAATCACAC +CGTAGTTTTTCGCCAGGTTATTGAGGCCAAAGAACTCACTGACCAGTGACGGAAAGACGGTAATAGTGCC +GCCAAAGTTAAATGCCACGCAGGCAATCGCTGCAAAGAACGTCACTGCATTCAATGGTGCAAACAGCAGG +GCCGCCATACCCACCAGCGATATCACCTGACCAATGGTAATAACACGGATACGGGCGATTTTGTCAGACA +GAATACCCAGCACCAGACGACCTGAAAGGTTGGCGATGGAAATAACAGTGACTGCATTGGCTGCGGAAAC +CACATCAAGGTGTGCCAGACTTTGGGCGATATCTTTCGCTACCCCAATCACGTACAGGCCGCTCATGCAG +GCGGTCAGGAACATTACCGCTAACATCCAGTACTGCGGTTTACGCATCGACTCTGCCAGCGTGTAATCTT +TCTCCACCACACCATTGCTGGTTTTCACTTCCTGTTTTGGTGCGTCTTTCATTAACGTTGCGCCGAAAAC +AATCATCAACAGCGCAATCGCTCCCCAAATCACAAAGGTTTTTTCCAGACCGACCGTTTCCAGCAGCTGC +GTGTCGATAAATTTGAAACCCAGGCTACCCAGACCATAAGAACCGATAGCGAACGCGGAGATCAGACCTT +TACGCTCCGGGAACCACTTCACACAGTTAGAGAGCGTCAGCAGATAACCCGCGCCATCTGCCAGTCCCAC +CAGCACACCGGCGCTTAACCACAGCATCATCAGGTTGTCAGAATGCGCTGTCAGGAAGAAGCCTAATCCC +AGCAAAATGCCGGAAGCCATGGTGACGCGTTTAACGCCAAAACGTTCCTGTAATTTGCCCGCAACAGAAG +ACGAAATTGCCAGCCCCAGACTTAACAAGCCGAAAGAGAAAGCGACCTGGCTTACCGGCGCATCCAGCTT +GGCGGAAAGCGCGCCATTAAACAGGCTCCAGGTATAAACCGACCCCAGCGCAAACTGGGTAATGATAGTA +CCGATGAGTGTCAGCCAGCGGGTACGCTGATAATTTGAAGGTGTCATGGCAGTATTCCTGCAGTAATAAA +AAGGAAAAATCTCTGCCGACAACCATAACGAAGTGCACTTTATGCCTGGGGAAAAACGGCATGAAATGCC +ATCAGAACGGAATGAAATGCCTTAGTTCAGGAATGAATGACGCGACAATTATTCACCAAATTTATTATTT +GGTAAGTTAGCACCCACTATCGCCACAACTATTGTTATTTAATGGTTTCAATTGTGACTGTTACGTTAAA +ATCTGGCGCTAACCCCCATCGTATACAGATAGTCGCTATTATTAGTGGTATTTTCTGCCTGAGTTAGCGC +GGCATAGGCGGCAATATTTTGATTGAGCAACATATCAGCGCCTACGGTGACATCCAGCCAGTTGCCGTTC +TGGTTTGTCGCCGTCATCCGGCTCAGGCCTGATTGCGCCTTCCAGATATTCTCGCCAAATTGCTGGTTAT +AGCTGATTTGCGCCCAGGGTCGGAGATCGCCAAGCCGGGAGTCAACACGCCAGCCTAAGGTACTCACGCT +GGCATGCCATAACGGATCGGTCAGCGTGGTAGTACTGTCGCCAAACTCGTTATACATCGAGGTGGTTGTG +CCATCGTAATGTAATGCCGCGACCGGGCCGGTTGTAACCTGTTCATATAAAGGAAAATTCCAGCCCATAC +TCATACTGCTGGTCACATCCACAGGGGTTTCTTCCGCCAGATTGACTTCCAGTCCCAGCGCCCTTTGGCT +ACTTTGAATACGTTGCGACAAAATATCGTTGTAATCAGGTTGATGATCACTATCCCAGGTGTAACGCTCT +GTGGAAAGTCCGGGTTGCGTATCAACGATATATTCTTGTTGCCAGGCGTAAGCTGTGTTGAGAAAAAAGG +CACTGATTACCACGCTCGCCAGCAGGCTTAGCTGCCAGCGACCACCGCTTTTTTTTATGATCATTAACAC +GACTCCAGGGAAGAGCCGAATTCGGCAATATTATTGTCATTGTATGAAGGATATCGGGCATAGTAGCCCT +GTATTAAATATTGACTTTTTCACCGATGCGTCAAGAAAAGCGGCTGAAATTTTTACGATCGGGTACATAG +CGAGGGAAAGTATGGAACGTTGCGGCTGGGTGAGTCAGGACCCGCTTTATATTGCCTACCATGATAATGA +GTGGGGCGTGCCTGAAACTGACAGTAAAAAACTGTTCGAAATGATCTGCCTTGAAGGGCAGCAGGCTGGA +TTATCGTGGATCACCGTCCTCAAAAAACGCGAAAACTATCGCGCCTGCTTTCATCAGTTCGATCCGGTGA +AGGTCGCAGCAATGCAGGAAGAGGATGTCGAAAGACTGGTACAGGACGCCGGGATTATCCGCCATCGAGG +GAAAATTCAGGCAATTATTGGTAATGCGCGGGCGTACCTGCAAATGGAACAGAACGGCGAACCGTTTGTC +GACTTTGTCTGGTCGTTTGTAAATCATCAGCCACAGGTGACACAAGCCACAACGTTGAGCGAAATTCCCA +CATCTACGTCCGCCTCCGACGCCCTATCTAAGGCACTGAAAAAACGTGGTTTTAAGTTTGTCGGCACCAC +AATCTGTTACTCCTTTATGCAGGCATGTGGGCTGGTGAATGATCATGTGGTTGGCTGCTGTTGCTATCCG +GGAAATAAACCATGATTCGGGAAGCGCAACGTTCAGAACTCCCCGCGATCCTCGAACTGTGGCTGGAAAG +TACAACCTGGGGGCATCCCTTTATAAAAGCGAATTACTGGCGTGACTGCATTCCGCTGGTGCGGGATGCC +TATCTTGCCAACGCGCAAAACTGGGTCTGGGAAGAAGACGGTAAGCTTCTCGGTTTTGTCAGCATTATGG +AAGGCCGATTTCTGGCAGCGATGTTTGTCGCACCGAAGGCCGTCAGGCGCGGTATTGGTAAGGCGCTGAT +GCAGTATGTGCAGCAGCGCCATCCCCACCTGATGCTGGAGGTTTATCAAAAAAATCAACCGGCGATAAAT +TTTTACCAGGCACAGGGTTTTCACATTGTCGATTGCGCATGGCAGGATGAAACCCAACTACCCACATGGA +TTATGAGCTGGCCGGTGGTTCAAACGCTGTAAGTGTCAGTTCCGGACCGTTGTATTTTTCCAGCCATGCC +AGCGCCGTATTACCCGCACAGCCATTCCCCAGCCGCGAGCTGGGGAGATCTTTGGTCAGCACGTTCACTG +CGCCGTTTTTACAAATACCGTCAGCGGTTAAATCCAGATCCGGCCATGCCCCTTCGTGAATGCAAATCAC +GCCAGGTTTAATTCCCTCGCTAATGACCGCTCCGGCAAGAATTTGCCCGCGTGCGTTCCACAACCGAACA +GTATCGCCATCTTGTATGCCGCGCTCCTGGGCATCGTCAGGATGAATGGTGACAGGCTCACGATTTGCCA +CCGCGTACAATTCGCGCAGAGAACTGTAATTCAGCTGGCTGTGCAGGCGGTGCGCCGGATGGGCAGAAAG +TACCTGCAACTGTTCTGGTTCGGCATTGCCCTGCCATTCGTCCGGCTCCAGCCACATTGGATGCCCAGGG +CAATCCGGGTAACCGTAATCGGCAATACGCTGTGAGAAGATTTCAATCTTGCCGCTGGCGGTTTTTAACG +GATGCGCCAGCGGATCGCGGCAAAAATCAGCGAAGCGAATAAACCGCTCGCTGTCCGGGTTTTCCGGCAT +CTCAATTAACTGGTTGGCTTGCCAGAACTCAGCAAATGGCGGCAATTCAACCTGCTGGCTTGCCCCGCGC +TGTCGGGCAACGTTATAAAACGTTTCCAGCCATTGCAGCTCACTTTTTCCTTCCGTAAAACGTGCATAAC +CGCCCTTCTCCCAGCGTTCACTTAACTCGGCAAAAACATCAAAATCATTACGCGCTTCATAGCGTGGCGG +CACCACTTGCTTCATCGGCACCAGATGCTGATTACTGTAATCACCGGTCATGGTGAGATCATTACGCTCA +AAAGAGGTAGTCGCAGGCAGAACGATATCCGCGTGTTTTGCCGCCGCCGTCCAGAAGCATTCAGAGATCA +CCACCAGCTCCGGTTTTTGCCAGGCACGGATCAGGCGATTGGTATCCTGATGATGAGTAAAGTTGGCACC +GCCCGCCCACCAGATAAAACGAATATCCGGGAAATGTCGGTTCATACCGTTGTGTTGATATGCGCCACCA +GGGTTTTCCAGTGCTTCAACAATGCGGGCAACAGGGATTTTATCCACCGCATCGCAGCCACCCGGCAAGC +TGCCCTGCATGGAAGAGAGCACCGCAGAACGCCGCGTGGGGTTACCACCATTGGCAAAATGGTAAGAAAG +ACCAAAACCGCCGCCGGGTGTGCCGATTTGCCCCAACATTGCTGCCAGCGTGACGATCATCCAGTGTTTT +TGCTCACCAAACTGTTGGCGCTGCATTCCCCAGCCTGCCATCAGCATGGTGGTATTTTGGTGGAAAATAG +CCGCCAGCTCGCGGATTTTCGCTGCGCCAACACCACAAATCTCTGCTGCCCATTCGGCGGTTTTCGCTAT +TCCGTCACTCTCGCCCAGCAAATAAGAGGCGAAGACGGCATAACCTGTGGTGCAACGCGCCAGAAACGCT +TCGTCGTGCCAACCATTTTCCACCAGCGTATGGGCGATCCCCAGCATCAGCGCAACATCGGTGCCCATGT +GCGGTGCCACCCACTCCATTTTATCGCCAAAGAAATCGACGGTTTCCGATCGCATTGGATCAATGCAGAT +CAGCTTTTTCCCGCTGTCACGCAGTGCAGAAAAGTAAGAAAGCCCCTGCTCATCGGATGCATTCCACGCA +ATTTTCAGCGTATTGAGTGGGTTAGCACTCCACAGCACCACGACATCGCTATGTTCCAGCACCAGCGGCC +AACTGGTCTGCTGTTGATAAACTTCACTACCACCCACGACATACGGCATGATCGCCTGTGCCGCGCCGGT +CGAATAATCCCCCAGATGCCCGGTATAACCGCCTGCCAGCGCCATATAGCGTTGTAATAATGTCGAGGCC +TTATGCAGCACGCCGTTTGAACGCCAGCCGTAGGAACCAGCAAAAATCGATGCCGGACCATAAGCCTCAC +GAATGCGTTTATGTTGTTGGTGAATAAGATCCAGCGCCTCATCCCAACTCACGCGAACAAATTCATCCTG +CCCACGAATGCCTTGCGGGTTTTCCGGTGACGCAAGAAAGCCTTTTCGCACCATTGGAAATCGTACCCGC +GTATTGCTGTGAACCTGGTCGCGAACCGCGCTCTGCAAGGAGTTTTCCATTCCTGTGGCTAACGCGCCAC +GCGAGCTAAACACGGTTTCGCCGTCGGTTTCAACCAGCATGGGCCCCCAATGGGCGGCAGTCAGAACGGA +ATATCGTGAGGATGAGTTGGCCAAACCGAAGACTCCTGAAAGGTTAGATGTATTGAGCAGTTAAATATTA +CTTACAAATTTCCGAGTATTCCCAGGAATAATCTTCATGTTCACGCGGCATAATCTCCCGCCACGGAACC +CGTGGCAAAGAATAAAAAGGTTATTAAGGATTAACAATGAAGAAACGTGTTTATCTTATTGCCGCCGTAG +TGAGTGGCGCTCTGGCGGTATCTGGCTGCACAACTAACCCTTACACCGGCGAACGCGAAGCAGGTAAATC +TGCTATCGGCGCAGGTCTGGGCTCTCTCGTGGGCGCGGGTATTGGTGCGCTCTCTTCTTCGAAGAAAGAT +CGCGGTAAAGGCGCGCTGATTGGCGCAGCAGCAGGCGCAGCTCTGGGCGGCGGCGTTGGTTATTACATGG +ATGTGCAGGAAGCGAAGCTGCGCGACAAAATGCGCGGCACTGGTGTTAGCGTAACCCGCAGCGGGGATAA +CATTATCCTCAATATGCCGAACAATGTGACCTTCGACAGCAGCAGCGCGACCCTGAAACCGGCGGGCGCT +AACACCCTGACCGGCGTGGCAATGGTACTGAAAGAGTATCCGAAAACGGCGGTTAACGTGATTGGTTATA +CCGACAGCACGGGTGGTCACGACCTGAACATGCGTCTCTCCCAGCAACGTGCGGATTCCGTTGCCAGCGC +GTTGATCACCCAGGGCGTGGACGCCAGCCGCATCCGTACTCAGGGCCTTGGCCCGGCTAACCCAATCGCC +AGCAACAGCACCGCAGAAGGTAAGGCGCAAAACCGCCGTGTAGAAATTACCTTAAGCCCGCTGTAATCCC +TTTCATGCCAGGTGATGCAGAAATCACCTGGCATTCTTCAGTTTTCCTTCATCATATTTCAGGCTAAGGT +GATCGCCTTATCAGTGAATGGAGAGAAGCATGAAGCCGTCCGTTATCCTCTACAAAGCCTTACCTGATGA +TTTACTGCAACGCCTGCAAGAGCATTTCACCGTTCACCAGGTGGCAAACCTCAGCCCACAAACCGTCGAA +CAAAATGCAGCAATTTTTGCCGAAGCTGAAGGTTTACTGGGTTCAAACGAGAATGTAAATGCCGCATTGC +TGGAAAAAATGCCGAAACTGCGTGCCACATCAACGATCTCCGTCGGCTATGACAATTTTGATGTCGATGC +GCTTACCGCCCGAAAAATTCTGCTGATGCACACGCCAACCGTATTAACAGAAACCGTCGCCGATACGCTG +ATGGCGCTGGTGTTGTCTACCGCTCGTCGGGTTGTGGAGGTAGCAGAACGGGTAAAAGCAGGCGAATGGA +CCGCGAGCATAGGCCCGGACTGGTACGGCACTGACGTTCACCATAAAACACTGGGCATTGTCGGGATGGG +ACGGATCGGCATGGCGCTGGCACAACGTGCGCACTTTGGCTTCAACATGCCCATCCTCTATAACGCGCGC +CGCCACCATAAAGAAGCAGAAGAACGCTTCAACGCCCGCTACTGCGATTTGGATACTCTGTTACAAGAGT +CAGATTTCGTTTGCCTGATCCTGCCGTTAACTGATGAGACGCATCATCTGTTTGGCGCAGAACAATTCGC +CAAAATGAAATCCTCCGCCATTTTCATTAATGCCGGACGTGGCCCGGTGGTTGACGAAAATGCACTGATC +GCAGCATTGCAGAAAGGCGAAATTCACGCTGCCGGGCTGGATGTCTTCGAACAAGAGCCACTGTCCGTAG +ATTCGCCGTTGCTCTCAATGGCCAACGTCGTCGCAGTACCGCATATTGGATCTGCCACCCATGAGACGCG +TTATGGCATGGCCGCCTGTGCCGTGGATAATTTGATTGATGCGTTACAAGGAAAGGTTGAGAAGAACTGT +GTGAATCCGCACGTCGCGGACTAAGCCGCGACTGCGTAGAGTAAAGCCCGATAATCGCTCGGGCTTTTAC +TCTTTATTGGGTTGCAGTAACTGCTGTAGTCCAGGCCTGATTAAACGCCTGATGCTGTGCCGGTAATGGC +GCAATCAGTTTGTTATATTCACTTGCCTGCTGTGAAGTCGGGAACTGGATGCCATTTGCGACAAAGCTCA +CCTGAGTACCTTGCTGAGCAATGTAGTCTCCAACCATCACCAGTTGTTGCGTGAAAGTTTGTGCCGCCGG +AATCAACGGTTGCAATGCATCAGCTGGCGTCGTTACCACTTTGGTGAATGCCTGATCAAAGACCGGTTTC +AAATCATCGCTCTGTTTTAGCGCAGAGTGCGCAGCATCGGCCTGCAACTTCGCATTTTGCAGTTGTTGCG +CCAGCACACCCAGCGAACCGTTCATTTCACGCAGCGGACCGCTTTGCGTAACGTAATCCTGCGGTACGCG +AATTGCGTTAACGCTGTCTACAACCGGGCGCAGACCGGAATCCATCGCCTGATTCACCTGCTGAGAATAA +CCATACAGAATCGCGTAATCAGAGACAAAAGGACCAAACTGTTTTTTCTGATCGGCAGTCAGGGTTGGTA +GACGTTCACCGCTACGCATCACTGTATTCTGCAGGAAGTCGATAAACGCTTTACGCTGATCGCCTTCTTT +ATCAAAACACCCACTCAGGCTAACTACCATTAATAACGCCGCAAGAGGCGCAAACCAGCGAGAGCAGGAC +TTTCCTGTCGCCATTTTCTTACTCCTTTCACCCAAAAAAAGCGCACAACGACACACGCGTGTCTGACGTG +ACAAGGATAGTCCAGGACAGGCTTGCAGGATACCCTTTCTACGTAATCTTCCTGGTAAAATCATGGAGAA +AATGAAACAAGGTTAATTTGTTGTTTCATTGTTAAAAAATGATAGTGCCGTTGCCTTTTTTGTAGCCAGA +GATTTACGCCTTCGCAGAAGGTTAGATTTTCGAAATCTTTACAAAACAGGAGTGGTAAGAGATATATCGG +CATTTATCAGATCGTTAGGTGGCTATAAGTCACGCTAAATGACAGGCTGAATCGAATCATAGCCAGAGCA +TGCCCTGACTTCACCCCGCTGTGTCTGCTTTTCCCGACTATTCTTAATGAGCTTCGATGCAATTCACGAT +CCCGCAGTGTGATTTGAGGAGTTTTCAATGGAATATAAAGATCCAATGCATGAGCTGTTGAGCAGCCTGG +AACAGATTGTTTTTAAAGATGAAACGCAGAAAATTACCCTGACGCACAGAACAACGTCCTGTACCGAAAT +TGAGCAGTTACGAAAAGGGACAGGATTAAAAATCGATGATTTCGCCCGGGTTTTGGGCGTATCAGTCGCC +ATGGTAAAGGAATGGGAATCCAGACGCGTGAAGCCTTCAAGTGCCGAACTAAAATTGATGCGTTTGATTC +AAGCCAACCCGGCATTAAGTAAGCAGTTGATGGAATAGACTTTTATCCACTTTATTGCTGTTTACGGTCC +TGATGACAGGACCGTTTTCCAACCGATTAATCATAAATATGAAAAATAATTGTTGCATCACCCGCCAATG +CGTGGCTTAATGCACATCAACGGTTTGACGTACAGACCATTAAAGCAGTGTAGTAAGGCAAGTCCCTTCA +AGAGTTATCGTTGATACCCCTCGTAGTGCACATTCCTTTAACGCTTCAAAATCTGTAAAGCACGCCATAT +CGCCGAAAGGCACACTTAATTATTAAAGGTAATACACTATGTCCGGTAAAATGACTGGTATCGTAAAATG +GTTCAACGCTGACAAAGGCTTCGGCTTCATCACTCCTGACGATGGCTCTAAAGATGTGTTCGTACACTTC +TCTGCTATCCAGAACGATGGTTACAAATCTCTGGACGAAGGTCAGAAAGTGTCCTTCACCATCGAAAGCG +GCGCTAAAGGCCCGGCAGCTGGTAACGTAACCAGCCTGTAATCTCTGCTTAAAAGCACAGAATCTAAGAT +CCCTGCCATTTGGCGGGGATTTTTTTATTTGTTTTCAGGAAATAAATAATCGATCGCGTAATAAAATCTA +TTATTATTTTTGTGAAGAATAAATTTGGGTGCAATGAGAATGCGCAACGCCGTAAGTAAGGCGGGAATAA +TTTCCCGCCGAAGACTCTTACTCTTTCAATTTGCAGGCTAAAAACGCCGCCAGCTCATAACTCTCCTGTT +TAATATGCAATTCACACAGTGAATCTCTTATCATCCAGGTGAAAAATAAAAGCGTGAAACAAATCACTAT +TAAAGAAAGTAATCTATATTTCTGCGGCATTCCCAGCCTCCTGTGTTGATTTCCAACGAGTATGTACTGC +ACCCATTTTGTTGGACGATGAAATGGAATAGCCCCTAATATGTCAAAGCCAAAATACCCTTTTGAAAAGC +GCCTTGAAGTCGTGAATCACTACTTCACAACTGATGATGGTTACAGGATCATCTCGGCACGTTTTGGTGT +CCCCCGAACCCAGGTCAGGACATGGGTTGCCCTCTATGAAAAACATGGAGAAAAAGGTTTAATTCCCAAA +CCTAAAGGCGTTAGTGCTGATCCAGAGTTGCGTATTAAGGTCGTGAAAGCTGTGATCGAGCAGCACATGT +CCCTTAATCAGGCTGCTGCTCACTTTATGCTTGCTGGTAGTGGTTCTGTAGCCAGGTGGCTGAAGGTCTA +TGAAGAGCGCGGAGAAGCTGGTTTACGCGCGCTCAAGATTGGCACCAAAAGAAACATTGCAATATCAGTT +GATCCAGAAAAAGCGGCATCAGCATTGGAGCTGTCAAAAGACCGACGCATTGAGGATCTTGAAAGGCAAG +TTCGATTTCTTGAAACGCGGCTTATGTATCTAAAAAAGCTGAAAGCCTTAGCTCATCCCACGAAAAAGTG +AAAGTACTCAACGAGCTAAGGCAGTTTTATCCTCTTGATGAGCTTCTCAGGGCTGCGGAGATACCGCGCA +GTACGTTTTATTATCATCTAAAGGCTCTCAGCAAGCCTGACAAGTATGCGGACGTTAAAAAGCGTATTAG +TGAGATTTATCACGAGAATAGAGGCCGATACGGATACCGTAGGGTAACGCTGTCTCTTCATCGAGAAGGG +AAACAGATTAACCATAAAGCTGTTCAGCGCCTGATGGGAACCCTCTCACTTAAAGCAGCGATTAAGGTCA +AGCGATACCGCTCTTACAGAGGAGAGGTAGGGCAAACCGCCCCTAATGTTCTCCAAAGAGATTTCAAGGC +TACGCGGCCAAACGAGAAGTGGGTTACCGATGTTACTGAATTTGCAGTCAATGGGCGCAAGCTGTATTTG +TCTCCAGTAATAGATCTCTTCAACAACGAAGTTATTTCTTACAGCCTTTCGGAAAGACCAGTGATGAACA +TGGTTGAGAATATGCTCGATCAGGCATTCAAAAAGCTTAATCCTCACGAGCATCCTGTTCTGCACTCTGA +CCAGGGATGGCAGTATCGTATGAGAAGATATCAAAATATCCTTAAAGAACATGGTATTAAACAAAGCATG +TCCAGAAAAGGCAATTGTCTGGATAATGCTGTGGTGGAGTGTTTCTTTGGAACCTTAAAGTCGGAGTGTT +TTTATCTTGATGAGTTCAGTAATATAAGCGAACTGAAGGATGCTGTTACGGAATATATTGAATACTACAA +CAGCAGAAGAATTAGCCTGAAATTAAAAGGTCTGACTCCAATTGAATATCGGAATCAGACCTATATGCCT +CGTGTTTAACTGTCCAACTTTTTGGGGTCAGTACAAACTTTGATTTATAGTCAGGTGGGGCTTTTCTCTG +TCTGCCTTTCGGTGAATACCTGAGACAAACAGTCTCAAGCACCCGTGGCTATTCTAGCTTAATAAGTTTG +TTTCTTCTCCTTGATATAATCCTAAAAAAATCTCATAAAATTAATATATGAGATAATCTTTATTCAGCAG +AAGATTATTAAAGGTTGCTGTATTATTTAGCGATAAAAAAAGCCTGCCAGATGGCAGGCTATTTAATAAC +GGCGTTATTATTGCAACAGCGAAATATCCGCAACGCGCAGGAACAGTTCGCGCAGTTTCTCCAGCATGGT +CAGACGGTTGATACGCAATTCTTTGTCATCAACCATGACCATCACTTTATCGAAGAAAGCATCAACCGGT +TCACGCAGCTCAGCCAGTTCGACCAGCGCATCCTGGTAACGACCTTCCGTAAAGTACGGCTCCAGCTTGT +CACGTAGCACCACAACCTGCATCGCCAGTTTAATTTCTTCCGGCTCTTTCAGGGTAGAGGCATTCACGCG +GTCGCTCAGCACTTCGTCAGATTTCGCCAGAATGTTAGATACACGTTTGTTCGCCGCCGCCAGTGCAGCA +GCTGCATCCAGGGTACGGAAATGCGATACCGCTTTCATACGGGCATCGAAATCAGCCGGACGAGTCGGAC +GACGCGCCAGTACCGCCTGGATGGTGTCAACGGTATAACCTTCGTCCTGATACCAGGCGCGGAAGCGACC +GAGCATAAAGTCGATAACATCATCAACTACGTTGGCATTAGTCAGCTTATCGCCATACAGACGCACCGCT +TCTTCGGTCAGCGTTTGCAGATCAAGGTTGAGGTTCTTCTCAACGATAATTCGCAGCACGCCAAGCGCGG +CACGACGCAGCGCAAACGGGTCTTTGTCGCCTTTCGGATGCTGACCGATACCGAAGATACCCGCCAGGGT +ATCCATCTTGTCAGCAATCGCCAGCGCACAAGCTACTGGGTTGGACGGCAGGTCATCACCAGCAAAACGC +GGCTGATACTGCTCATTCAGCGCCACCGCGACATCTTCCGCTTCGCCATCGTGACGCGCATAGTGCATCC +CCATAACGCCCTGGGTGTCGGTGAACTCGAAGACCATGTTGGTCATCAGGTCGCACTTAGACAGCAGACC +CGCACGGGTAGCGTGGTTAACGTCAGCGCCAATCTGTTCAGCAATCCAGCCAGCCAGCGCCTGGATGCGG +TCAGTTTTGTCGCGCAGCGTCCCCAACTGTTGCTGGAACAACACGGTTTGCAGGCGCGGCAGGTTATCTT +CAAGACGTTTTTTACGGTCGGTGTTGAAGAAGAACTCGGCATCCGCCAGACGCGGACGAACGACTTTCTC +GTTACCGGAGATAATCTGCTGCGGATCTTTCGATTCGATGTTGGCAACGAAGATAAAGTTCGGCAGCAGT +TTGCCGTCGTTCGCATACACCGGGAAGTATTTCTGGTCACCTTTCATGGTGTAAACCAGCGCTTCAGCCG +GCACCGCGAGGAATTTCTCTTCGAATTTTGCGGTCAGAACGACCGGCCACTCCACCAGCGAAGCCACTTC +TTCCAGCAGGCTTTCGCTTAAGTCAGCGTTACCGCCAATCTTACGCGCTGCTTCTTCGGCATCGGCTTTA +ATCTTCGCCTTACGTTCTTCGTAATCGGCGATGACTTTCCCACGCTCACGCAGAATTTCCGGATACTGAT +CGGCGTTATCGATGGTGAATTCCGGCTCGCCCATAAAGCGGTGGCCGCGAATCACGCGATCGGACTGAAT +GCCCAGAATGGTTGCCGGAATGACTTTGTCGCCCAGCAGCAGGGTCACGGTGTGCACCGGACGCACGAAG +TGCACGTCGCTTGCGCCCCAACGCATCAGTTTCGGGATCGGCAGTTTCGCCAGAGAAGTCGCAACCATAT +TCGGCAGCAGTGCTTCGGTGCTTTCGCCCTTCACATGGGCGCGATACAGCAGCCATTCGCCTTTATCGGT +AGTCAGACGCTCAGCCTGGTCAACGGTAATACCGCAACCACGCGCCCAACCTTCTGCCGCTTTGCTCGGT +TTGCCTTCAGCGTCGAACGCCTGGGCAATCGCCGGGCCGCGTTTTTCGATTTCACGATCCGGTTGCGCTT +CCGCCAGGTTAGCTACTTTCAGCGCCAGACGACGCGGAGCAGCAAACCATTGAACGGTGCCGTGTGCGAG +GCCAGCGTTATCCAGCTCCGCAGTAAAGTTCGCAGCAAAGGACTCAGCCAGGCTGCGCAGTGCTTTTGGT +GGCAGCTCTTCAGTGCCGATTTCCACCAGAAAAGTTTTCTCAGACATAGCCGCCTCTTACTTATCTTTGT +TGCACATCGGGAAGCCGAGGGCTTCACGGGAAGCGTAGTATGCTTCTGCCACTGCTTTGGTCAGGGTGCG +AATGCGCAGAATGTAGCGCTGACGCTCGGTGACGGAGATGGCTTTACGCGCATCCAGCAGGTTGAAGCTG +TGGGCGGCTTTCAGAATACGCTCGTAGGCTGGCAGCGGCAGCGGATTTTCCAGCGCCAGCAGCTGCTGCG +CTTCTTTCTCGTACTGCTCGAAGCAGGTGAACAGGAAGTCCACATCCGCGTATTCGAAGTTGTAAGTGGA +CTGCTCCACTTCGTTCTGATGGAACACGTCGCCGTAGGTGGTTTTACCCAGCGGGCCGTCGCTCCAGACC +AGGTCGTAAACGCTGTCTACGCCCTGAATGTACATGGCCAGACGTTCCAGACCGTAGGTGATCTCGCCGG +TAACCGGTTTACACTCCAGACCACCAACCTGCTGGAAGTAAGTGAACTGCGTCACTTCCATGCCGTTCAG +CCACACTTCCCAGCCCAGTCCCCAGGCACCCAGCGTCGGGTTTTCCCAGTTATCTTCCACGAAACGGATG +TCGTGAATAGTCGGGTCCATGCCCAGCTCTTTCAGAGAACCGAGGTACAGCTCCTGAATATTGTCCGGCG +ATGGCTTAATGACCACCTGGAACTGATAGTAGTGCTGTAAACGGTTGGGGTTTTCGCCGTAGCGACCATC +GGTCGGGCGACGAGAAGGCTGAACATAAGCAGCCGCCATCGGTTCTGGCCCCAGCTCGCGCAGACAGGTC +ATTGGGTGAGAGGTTCCCGCGCCGACTTCCATGTCCAATGGTTGAACAATGGTGCAGCCCTGGCGAGCCC +AGTAATCCTGTAAGGTCAGGATCAAGCCCTGGAAGGTCCTGGTATCAAACTTTTGCATATTATTTCGTGC +TGGATACGTGTGGATTTAAAGGAAGGGATCAGTATACCCGCTGGATGGAAGATATACAGTACGAAACGGG +AAAAAGCAGGGCTTAACGCATGGAAAGATGCAAAAAATGGCCATCCGCGTCAAAAGAACAGACAAACTGC +TCTTTACGGAAGGTATAACCGCGCATTTCATAGCTTCCCTGGAACTGTTCGAAGGCGGTGACGTCGATTT +TTTGCTCGCCGGTGTTATAACGTTTTGCCGCCTGATCCTTGCATAACGCTTCCATATTCAACGAACGCAG +AGGATCAACCTTTACCCGTTGTGCTTTCTGCACGGGTGACGGTATAGAACAACCCACTAGCACCATAAGC +GCCATTGCCGGAAAGAAAGCGTTCATCATCATTAAATTACCGTCTGGTTTGCAGGTGAGTCTTATTATTT +ATATCGGTATAGTGGCTGATATCTTACGAATTTCCTTAAGCCTCTATAAGCTGTAGTGATAAAACTCAGA +TTATTCCAGTGCGCCAACCAAATGATTTATCGGTCAGACTTTTTTTAACCAGATACAGAGACACAGATGC +AGCCCAAAATTTACTGGATTGATAACCTGCGAGGGATAGCGTGTTTAATGGTGGTGATGATTCACACCAC +TACCTGGTATGTGACCAATGCTCATAGTGTTAGCCCCGTCACATGGGATATCGCCAATGTTCTGAATTCT +GCCTCTCGTGTCAGCGTGCCGCTATTTTTCATGATTTCCGGCTATCTCTTTTTTGGCGAACGCAGCGCCC +AGCCGCGCCATTTCTTGCGTATCGGCTTATGTCTGATTTTTTATAGCGCAATCGCACTGCTCTACATTGC +GCTGTTTACCTCCATCAATATGGAGTTAGCGCTGAAAAACCTGCTGCAAAAGCCAGTGTTTTACCACTTG +TGGTTTTTCTTCGCGATTGCGGTGATTTATCTGGTTTCACCGCTGATTCAGGTGAAGAACGTCGGCGGAA +AAATGTTGCTGGTGCTAATGGCGGTGATTGGCATTATCGCTAACCCAAACACAGTGCCGCAGAAAATTGA +CGGTTTTGAATGGCTGCCAATTAACTTATATATCAATGGCGATACTTTTTACTACATTCTGTATGGCATG +TTGGGCCGCGCTATAGGGATGATGGACACACAGCATAAAGCACTGTCGTGGGTGAGCGCCGCGCTGTTTG +CGACGGGGGTTTTTATTATCTCTCGCGGGACATTATATGAATTGCAGTGGCGCGGAAATTTTGCCGATAC +CTGGTATCTTTACTGTGGGCCGATGGTTTTTATCTGCGCAATCGCGCTATTGACTCTGGTTAAAAACACG +CTGGATACGCGTACCATTCGCGGACTTGGCTTAATCTCCCGCCATTCATTGGGTATATACGGATTCCACG +CCTTGATTATCCATGCGCTGCGCACCCGGGGAATTGAGCTTAAAAATTGGCCAATACTGGATATTATTTG +GATCTTTTGCGCGACGTTGGCAGCGAGTTTGTTACTTTCTATGCTGGTACAACGAATCGACAGAAACAGA +TTAGTGAGTTAAGTAAAAGCCCGGTCACATTGGACTGACCGGGCTTACGTGAGTTATTCGCTGTATTCTT +CCTGGGTAACCTGTGTTTCTTTTGGTGGGTTTATTCCGGCATCACGAATATTTTTCTGCACCGCTACTGC +ACCAAACAAGCTTAAGAAGAAAGCCAGTCCATAAAAACCTTTTTCGCTGAGTAATAATGTCGCATTCCAC +AGACCTACCATCAGTAATGCAACAGAGATAATAAAGACAGTCAGGCAGGTCATATAATAAATGGAAGTGG +TCGGTATGCCTTCATACTTGTCCCGAACGGTCTTTTGATAAGACGCCGCAGAAAACAGTCCTAATACCAG +TACGGCAAAATAATATCCTTTTTCATTTAACTGCATCTCTGCATTCCATAGCCCTAACAGATAGGTAACG +ATACCACCAACGAGAGCTATCCATGACACAATACTAAAGGCCGGTGAATAGGTTGATATTTTGTTGTCCA +TCACAGTATTCCTTTCATTCCTGAATATGTAAGAGCTTTATGTTGCTCATGCCGAGCGAAACAAACGCAT +TTGACCAAACAAGCAGACAAAAAAGGCGATGGGATAGATCACCATTTCATAAGTATTGATAGGTGCGTTT +AAAACACCGATAAACAAGAGACCGATAGTGATTAACGCAACTAACTGGCAGATATGGGTAAAAAAATCAT +CCAGTTGCCCGAGTTTTTCTGCGCGAAGATATGCATAGTTGCCAAAAGTTGCTGTCATTAACACGCCAAG +AAAATAGCCTTTTCCACTTAACAATGGGCATGAGATCCATAGCCCAACCAGATAAACCAGCGCCCCGACA +ACAAATAATAGTTTTGCCACAGTCTTTGAGGTTTTCATAACGATCTCCATATCTACCAGCGATACATTAC +GAGTAACCAACGAAAGACAAAACTGAAAAATGCCATTAACAAATGATTTTCAGAATAAATTCATACTAAA +TATTAATTAATTACTGAGATATATAGATGTGAATTATCCCCCACCCGGTCAGGCAGGGGATAACGTTTAC +GCCATTAATGGCAGAAGTTGCTGATAGAGGCGACGGAACGTTTCTCGTCGTGGCTGATAAGCGGCATAAC +GCTGCGCATCTGGTAGATGCGACTGTTCTAACGGTAGTTGCGGCAACAATTCAATGAGCGATTTCTCTGG +ATTCGCCGCGATCTGCGCCAGCCTTGCTGCGCCCAGTGCTGGCCCCACATCCCCCCCCGTACGGTAATCG +AGCTGCTGACCGCTGATATCCGCCAGCATCTGACGCCAGTACTCACTACGCGCCCCGCCCCCAATCAACG +TAACACTTTGCGGTTTAATACCGCAGGCATGCACGACATCCATGCCATCTGCCAGCGCATAACCCACGCC +TTCCAGCACTGCTCGCGCCAGTTCATTGGGGCCATGTTGATGAGTCAAACCAAAGAAAACCCCCTTCGCC +TGGGGATTATTGTGTGGCGTACGCTCGCCGGAAAGATAAGGCAGAAACCAAACTGGCTCGGCACTTTCAT +CAGCCTGTTGAGCTGCAGCGATTAAAGCTGGGACATTGCTCAGGCCGGTTAATTTCGCGGCCCAATCCAG +ACACGACGCTGCACTCAGCATCACAGACATTAAATGCCAACGTTGCGGTAGCGCATGGCAAAAGCTATGT +ACGGCGCTTTCTGGCTTGCTTAAGAACCCTTCGCTGACAGCAAAATAGACCCCCGACGTCCCCAGCGATA +ACATTGCCTGATTAGCATCAACCATTCCCACACCAACTGCACCAGCTGCATTGTCGCCACCGCCTGCGAC +AACTGGCACCGTCGCCATACCCCACGCTTTCGCAACTTCAGGTAACAAAGCACCAGTAATTTCGCTGCCT +TCGTATAATGCGGGCATCTGGTCACGAGATAAGTCGCAAGCCTGCAGCATGACGTCACTCCAGTCACGCT +TTGCGACATCCAGCCACATGGTGCCAGCTGCGTCAGACATATCGCTGGCAAACTCCCCCGTCATACGCAG +ACGCAAGTAATCTTTCGGTAATAATACTTTGTCGATTTGACGGAATATCTCCGGCTCATGCCGCTGAACC +CATAGCAATTTAGGCGCAGTAAATCCGGGCATCATCAGGTTGCCGGTAATCACCCGCGATTGCGGAACTC +GCGCTTCCAGCAAAGTGCACTCTTGCGCACAGCGCCCGTCGTTCCACAAAATGGCAGGGCGTAACACCCG +TTGCTGAGCATCCAGCAAGGTTGCTCCGTGCATCTGGCCGGCAATACCCAATGCTTTAACGTCCTGCAGA +GAATGCTGATCGCCCAGAGCTTTCATTGCGCGATCAGTTGCCTGCCACCACTGTTCCGGGTCTTGTTCCG +ACCAGAGTGGATGCGGGCGCGAAACGGTCAGCTTTTCCGTTTGCGCAGCAACCACCTCACCCTGCTCGTT +GAGCAAAATAACTTTTACGCCCGAGGTGCCAAGATCTATCCCGATATACATATCGATCGTTCCTTAAAAA +AATGCCCGGTATCGCTACCGATAACCGGGCCAACGGACTGCACAGTTAGCCGTTATTTGTCGAACAGATA +ATGGTTTACCAGATTTTCCAGTTGTTCCTGGCGACCACTCTGATGCACCGGAGACAAATGATGTTCCTGA +GCATATTTGGCTAAATCTGCCAGTGACATTTGGCCTTTCAGGATTTGCTGGCCCAATTCGCTATTCCAGC +CGGAATAACGCTGCGCGATGCGTTTATCCAGCTCGCCATCTTCAATCATGCGCGCTGCAATTTTCAGCGC +CAGTGCCATCGTATCCATCGCGCCGATATGACCGTAAAACAGATCATATTTATCAGTACTTTGACGACGT +ACTTTGGCATCGAAGTTCAGACCACCGGTGGTGAAACCGCCTGCTTTGAGAATTTCATACATCACCAGCG +CATTCTCTTCCACACTGTTCGGGAACTGGTCGGTGTCCCAGCCCAGTTGCGCATCGCCACGGTTGGCGTC +GACAGAACCGAACAGGCCAAGCGCAATGGCGGTGGCTATTTCATGATGGAAAGAGTGACCTGCCAGCGTC +GCGTGGTTAGCTTCAATGTTCAGTTTAATCTCTTTTTCCAGACCAAACTGTTTCAGGAAGCCATAGACCG +TCGCGGCATCGTAATCATATTGATGTTTGGTCGGTTCTTGCGGTTTCGGTTCGATAAGCAACGTGCCCTG +GAAACCGATTTTATGTTTATGCTCAACCACCATCTGCATAAAGCGGCCCAGTTGTTCACGCTCCTGACGC +AAGTCGGTATTTAACAGCGTTTCGTAACCTTCACGACCGCCCCACAGGACATAGTTTTCACCGCCCAATT +TATGGGTTGCTTCCATCGCTGTAACAACTTGCGTTGCCGCCCAGCTGAAGACTTCAGGATCTGGGTTCGT +CGCCGCACCCGCGCCGTAGCGAGGGTTTGTAAAGCAGTTGGCCGTTCCCCACAGCAGCTTCACGCCGCTC +TCTTCTTGCTTGCCTGCCAGGACATCAACCATTTGCGCAAAATTATTGATGTACTCTTTTAACGACGCGC +CCTCAGGGGAAACATCCACATCGTGGAAGCAATAAAATGGCACATGTAACTTGTGGAAAAACTCAAATGC +GACATCTGCTTTACGCTTCGCCAACGCCAGTGCCTCACCAGGCTGCTGCCACGGACGATTAAACGCCCCC +ACACCAAACATATCCGCCCCGTTCCAGCAGAAGGTGTGCCAGTAGCAGGCGGCAAAACGCAAGTGCTCTT +CCATACGCTTACCCAACACCAGTTCGTCGGGATTGTAGTGACGGAATGCTAACGGGTTTGAGGATTTTGA +GCCTTCATAACGAACGCGATCGAGCTGGTCAAAATAGGCTTGCATATTGAACTCCATAATCAGGTAATGC +CGCGGGTGATGGATGATGTCGTAATATTGGGCACTCCCTTTCAGTTGCTCAATTATGTTATTTCACACTG +CTATTGAGATAATTCACAAGTGTGCGCTCGCTCGCAAAATAAAATGGAATGATGAAACTGGGTAATTCCT +CGAAGAGAAAAATGCAATAAGTACAATTGCGCAACAAAAGTAAGATCTCGGTCATAAATCAAGAAATAAA +CCAAAAATCGTAATCGAAAGATAAAAATCTGTAATTGTTTTCCCCTGTTTAGTTGCTAAAAATTGGTTAC +GTTTATCGCGGTGATTGTTACTTATTAAAACTGTCCTCTAACTACAGAAGGCCCTACACCATGAAAATAA +AGAACATTCTACTCACCCTTTGCACCTCACTCCTGCTTACCAACGTTGCTGCACACGCCAAAGAAGTCAA +AATAGGTATGGCGATTGATGATCTCCGTCTTGAACGCTGGCAAAAAGATCGAGATATCTTTGTGAAAAAG +GCAGAATCTCTCGGCGCGAAAGTATTTGTACAGTCTGCAAATGGCAATGAAGAAACACAAATGTCGCAGA +TTGAAAACATGATAAACCGGGGTGTCGATGTTCTTGTCATTATTCCGTATAACGGTCAGGTATTAAGTAA +CGTTGTAAAAGAAGCCAAACAAGAAGGCATTAAAGTATTAGCTTACGACCGTATGATTAACGATGCGGAT +ATCGATTTTTATATTTCTTTCGATAACGAAAAAGTCGGTGAACTGCAGGCAAAAGCCCTGGTCGATATTG +TTCCGCAAGGTAATTACTTCCTGATGGGCGGCTCGCCGGTAGATAACAACGCCAAGCTGTTCCGCGCCGG +ACAAATGAAAGTGTTAAAACCTTACGTTGATTCCGGAAAAATTAAAGTCGTTGGTGACCAATGGGTTGAT +GGCTGGTTACCGGAAAACGCATTGAAAATTATGGAAAACGCGCTAACCGCCAATAATAACAAAATTGATG +CTGTAGTTGCCTCAAACGATGCCACCGCAGGTGGGGCAATTCAGGCATTAAGCGCGCAAGGTTTATCAGG +GAAAGTAGCAATCTCCGGCCAGGATGCGGATCTCGCAGGTATTAAACGTATTGCTGCCGGTACGCAAACT +ATGACGGTGTATAAACCTATTACGTTGTTGGCAAATACTGCCGCAGAAATTGCCGTTGAGTTGGGCAATG +GTCAGGAACCAAAAGCAGATACCACACTGAATAATGGCCTGAAAGATGTCCCCTCCCGCCTCCTGACACC +GATCGATGTGAATAAAAACAACATCAAAGATACGGTAATTAAAGACGGATTCCACAAAGAGAGCGAGCTG +TAAGCGTTACGCCCCAGCGCGGAGCGGGGGCGTGATTTCTCTCCATGCCGCGTGAATGAATTGGCTTAGG +TGGAGTCGTTATGCCTTATCTACTTGAAATGAAGAACATTACCAAAACCTTCGGCAGTGTGAAGGCGATT +GATAACGTCTGCTTGCGGTTGAATGCTGGCGAAATCGTCTCACTTTGTGGGGAAAATGGGTCTGGTAAAT +CAACGCTGATGAAAGTGCTGTGTGGTATTTATCCCCATGGCTCCTACGAAGGCGAAATTATTTTTGCGGG +AGAAGAGATTCAGGCGAGTCACATCCGCGATACCGAACGCAAAGGTATCGCCATCATTCATCAGGAATTG +GCCCTGGTGAAAGAATTGACCGTGCTGGAAAATATCTTCCTGGGTAACGAAATAACCCACAATGGCATTA +TGGATTATGACCTGATGACGCTACGCTGTCAGAAGCTGCTCGCACAGGTCAGTTTATCCATTTCACCTGA +TACCCGCGTTGGCGATTTAGGGCTTGGGCAACAACAACTGGTTGAAATTGCCAAGGCACTTAATAAACAG +GTGCGCTTGTTAATTCTCGATGAACCGACAGCCTCATTAACTGAGCAGGAAACGTCGATTTTACTGGATA +TTATTCGCGATCTACAACAGCACGGTATCGCCTGTATTTATATTTCGCACAAACTCAACGAAGTCAAAGC +GATTTCCGATACGATTTGCGTTATTCGCGACGGACAGCACATTGGTACGCGTGATGCTGCCGGAATGAGT +GAAGACGATATTATCACCATGATGGTCGGGCGAGAGTTAACCGCGCTTTACCCTAATGAACCACATACCA +CCGGAGATGAAATATTACGTATTGAACATCTGACGGCATGGCATCCGGTTAATCGTCATATTAAACGAGT +TAATGATGTCTCGTTTTCCCTGAAACGTGGCGAAATATTGGGTATTGCCGGACTCGTTGGTGCCGGACGT +ACCGAGACCATTCAGTGCCTGTTTGGTGTGTGGCCCGGACAATGGGAAGGAAAAATTTATATTGATGGCA +AACAGGTAGATATTCGTAACTGTCAGCAAGCCATCGCCCAGGGGATTGCGATGGTCCCCGAAGACAGAAA +GCGCGACGGCATCGTTCCGGTAATGGCGGTTGGTAAAAATATTACCCTCGCCGCACTCAATAAATTTACC +GGTGGCATTAGCCAGCTTGATGACGCGGCAGAGCAAAAATGTATTCTGGAATCAATCCAGCAACTCAAAG +TTAAAACGTCGTCCCCCGACCTTGCTATTGGACGTTTGAGCGGCGGCAATCAGCAAAAAGCGATCCTCGC +TCGCTGTCTGTTACTTAACCCGCGCATTCTCATTCTTGATGAACCCACCAGGGGTATCGATATTGGCGCG +AAATACGAGATCTACAAATTAATTAACCAACTCGTCCAGCAGGGTATTGCCGTTATTGTCATCTCTTCCG +AATTACCTGAAGTGCTCGGCCTTAGCGATCGTGTACTGGTGATGCATGAAGGGAAACTAAAAGCCAACCT +GATAAATCATAACCTGACTCAGGAGCAGGTGATGGAAGCCGCATTGAGGAGCGAACATCATGTCGAAAAG +CAATCCGTCTGAAGTGAAATTGGCCGTACCGACATCCGGTGGCTTCTCCGGGCTGAAATCACTGAATTTG +CAGGTCTTCGTGATGATTGCAGCTATCATCGCAATCATGCTGTTCTTTACCTGGACCACCGATGGTGCCT +ACTTAAGCGCCCGTAACGTCTCCAACCTGTTACGCCAGACCGCGATTACCGGCATCCTCGCGGTAGGAAT +GGTGTTCGTCATAATTTCTGCTGAAATCGACCTTTCCGTCGGCTCAATGATGGGGCTGTTAGGTGGCGTC +GCGGCGATTTGTGACGTCTGGTTAGGCTGGCCTTTGCCACTTACCATCATTGTGACGCTGGTTCTGGGAC +TGCTTCTCGGTGCCTGGAACGGATGGTGGGTCGCGTACCGTAAAGTCCCTTCATTTATTGTCACCCTCGC +GGGCATGTTGGCATTTCGCGGCATACTCATTGGCATCACCAACGGCACGACTGTATCCCCCACCAGCGCC +GCGATGTCACAAATTGGGCAAAGCTATCTCCCCGCCAGTACCGGCTTCATCATTGGCGCGCTTGGCTTAA +TGGCTTTTGTTGGTTGGCAATGGCGCGGAAGAATGCGCCGTCAGGCTTTGGGTTTACAGTCTCCGGCCTC +TACCGCAGTAGTCGGTCGCCAGGCTTTAACCGCTATCATCGTATTAGGCGCAATCTGGCTGTTGAATGAT +TACCGTGGCGTTCCCACTCCTGTTCTGCTGCTGACGTTGCTGTTACTCGGCGGAATGTTTATGGCAACGC +GGACGGCATTTGGACGACGCATTTATGCCATCGGCGGCAATCTGGAAGCAGCACGTCTCTCCGGGATTAA +CGTTGAACGCACCAAACTTGCCGTGTTCGCGATTAACGGATTAATGGTAGCCATCGCCGGATTAATCCTT +AGTTCTCGACTTGGCGCTGGTTCACCTTCTGCGGGAAATATCGCCGAACTGGACGCAATTGCAGCATGCG +TGATTGGCGGCACCAGCCTGGCTGGCGGTGTGGGAAGCGTTGCCGGAGCAGTAATGGGGGCATTTATCAT +GGCTTCACTGGATAACGGCATGAGTATGATGGATGTACCGACCTTCTGGCAGTATATCGTTAAAGGTGCG +ATTCTGTTGCTGGCAGTATGGATGGACTCCGCAACCAAACGCCGTTCTTGATTTTGATAAAAATTTTCTC +AAAGCCGGTTACGTATTACCGGTTTTGAGTTTTTGCATGATTCAGCAGGAAAAGAACCATGTTTACTAAA +CGTCACCGCATCACATTACTGTTCAATGCCAATAAAGCCTATGACCGGCAGGTAGTAGAAGGCGTAGGGG +AATATTTACAGGCGTCACAATCGGAATGGGATATTTTCATTGAAGAAGATTTCCGCGCCCGCATTGATAA +AATCAAGGACTGGTTAGGAGATGGCGTCATTGCCGACTTCGACGACAAACAGATCGAGCAAGCGCTGGCT +GATGTCGACGTCCCCATTGTTGGGGTTGGCGGCTCGTATCACCTTGCAGAAAGTTACCCACCCGTTCATT +ACATTGCCACCGATAACTATGCGCTGGTTGAAAGCGCATTTTTGCATTTAAAAGAGAAAGGCGTTAACCG +CTTTGCTTTTTATGGTCTTCCGGAATCAAGCGGCAAACGTTGGGCCACTGAGCGCGAATATGCATTTCGT +CAGCTTGTCGCCGAAGAAAAGTATCGCGGAGTGGTTTATCAGGGGTTAGAAACCGCGCCAGAGAACTGGC +AACACGCGCAAAATCGGCTGGCAGACTGGCTACAAACGCTACCACCGCAAACCGGGATTATTGCCGTTAC +TGACGCCCGAGCGCGGCATATTCTGCAAGTATGTGAACATCTACATATTCCCGTACCGGAAAAATTATGC +GTGATTGGCATCGATAACGAAGAACTGACCCGCTATCTGTCGCGTGTCGCCCTTTCTTCGGTCGCTCAGG +GCGCGCGGCAAATGGGCTATCAGGCGGCAAAACTGTTGCATCGATTATTAGATAAAGAAGAAATGCCGCT +ACAGCGAATTTTGGTCCCACCAGTTCGCGTCATTGAACGGCGCTCAACAGATTATCGCTCGCTGACCGAT +CCCGCCGTTATTCAGGCCATGCATTACATTCGTAATCACGCCTGTAAAGGGATTAAAGTGGATCAGGTAC +TGGATGCGGTCGGGATCTCGCGCTCCAATCTTGAGAAGCGTTTTAAAGAAGAGGTGGGTGAAACCATCCA +TGCCATGATTCATGCCGAGAAGCTGGAGAAAGCGCGCAGTCTGCTGATTTCAACCACCTTGTCGATCAAT +GAGATATCGCAAATGTGCGGTTATCCATCGCTGCAATATTTCTACTCTGTTTTTAAAAAAGCATATGACA +CGACGCCAAAAGAGTATCGCGATGTAAATAGCGAGGTCATGTTGTAGCGATGATGAGAATTGTCGGCGTC +ACATCAGGTAACGCTGCGTGGTTGTCGGATGCGGCGTGAACGCCTTATCCGACCTACCCGCCAGGCATGA +TAAAACGCACCAACAACGCTTCAGGCTCGTAGCTCAACTGCCTGAGACAAAGTAAAAAGCCTTATCCGAC +TGACAAGTCGGATAAGGCTCAAGGAAATGCAATTACATATGCGCCGCGATTAACCGTTGGTTATCCTGGT +ACATTGCGAACAGGTAGTTGTTATAACTCTTCCCTTTGGTCGAGTAGCCCTTCAGCTTGTGAATCATCGC +TGTGGCAGTCACTTCCTGATCCGCTTTACGCAGCTGCGCACGCGATTTACGGAACGAAGAGTAAGCCGGG +TGCGTATTCAGGTTAGTGACATAGGCGCTCACCGATTCTTTGACAGAACTAAACTGTGAGTACCCTTTCA +CTTTACCTGGCGCATTGGTACAACGTCCTTTCATGCATTTCATGCCGAACAGGTTGTTGTTGTTGCGCGC +CAGCTTCGACGTTCCCCAACCGCTTTCTGCTGCAGCCATCGTCGCCACCATACTGGTGGGGATAATGTCT +ACGCGTTCAAGCAAGGTATTCCACGGGATTTTTCGCGTATTACCGGACCACTTCACCTTGTAGCGTTTGG +CGATGTCTTTCAGACGCGCACGCTCAGCAGGTGACCATTGGCCCTGATACTGTTTTGAAATGAGCCAGTT +ACGTTCCGCAGTAATGGCCGCATTTTGGCTGGTAATGTAAGGCATTACGGTCCGGAGAAACGCCTTTTTC +CTTGGTGTTCCGGAAGGGTATTTTCGCAAATCAGGAAGTGAACTACTCTTTGCACTATTGCGAGAATACT +CTTGTTTACTGCTTACCTGTTTATTACTAGCTTTAGTTAAGTGGGACTTTTGACTCGCTGTTGTTGTGTG +CGTCTTCGCTAACACCTCACTCGAAAACACCAGAGTGAGTAACATAAGAATCATCGCCCCATATCGTCGT +ATGGGAGTCAAAATCATCAGGTCTCCTGGTCGGATTTAATCATTCCAACACCTTATATTTTTCACAAATT +TGAGAGTTGAATCTCAAATCATATCAAAAATAGCTGTCAAGAGCACCCCAAGGAATAGTCCAAATCTGAA +ACTATGTCACGTGTTAACGATTCAGATTGGCGCTAAATCGCAGAAAATGTGGGGGTTATCGCAAAATTCA +GCCGTTTTTTGCGCGAGATCGCTCACCCTTGCTTCTCATCCTGTGGACTTACCGCTCAGGGATGAGTTTT +GTTTGGCTTATCGCTGGCAAACTGTCTGAAATCGCAGCAATAAGGACTCATCCGCCATGAAACTCGCCGC +CTGTTTTCTGACACTCCTTCCTGGCTTCGCCGTTGCCGCCAGCTGGACTTCTCCGGGGTTTCCCGCCTTT +AGCGAACAGGGGACAGGAACATTTGTCAGCCACGCGCAGTTGCCCAAAGGTACGCGTCCACTAACGCTAA +ATTTTGACCAACAGTGCTGGCAGCCTGCGGATGCGATAAAACTCAATCAGATGCTTTCCCTGCAACCTTG +TAGCAACACGCCGCCTCAATGGCGATTGTTCAGGGACGGCGAATATACGCTGCAAATAGACACCCGCTCC +GGTACGCCAACATTGATGATTTCCATCCAGAACGCCGCCGAACCGGTAGCAAGCCTGGTCCGTGAATGCC +CGAAATGGGATGGATTACCGCTCACAGTGGATGTCAGCGCCACTTTCCCGGAAGGAGCCGCCGTACGGGA +TTATTACAGCCAGCAAATTGCGATAGTGAAGAACGGTCAAATAATGTTACAACCCGCTGCCACCAGCAAC +GGTTTACTCCTGCTGGAACGGGCAGAAACTGACACATCCGCCCCTTTCGACTGGCATAACGCCACGGTTT +ACTTTGTGCTGACAGATCGTTTCGAAAACGGCGATCCCAGTAATGACCAGAGTTACGGACGTCATAAAGA +CGGTATGGCGGAAATTGGCACTTTTCACGGCGGCGATTTACGCGGCCTGACCAACAAACTGGATTACCTC +CAGCAGTTGGGCGTTAATGCTTTATGGATAAGCGCCCCATTTGAGCAAATTCACGGCTGGGTCGGCGGCG +GTACAAAAGGCGATTTCCCGCATTATGCCTACCACGGTTATTACACACAGGACTGGACGAATCTTGATGC +CAATATGGGCAACGAAGCCGATCTACGGACGCTGGTTGATAGCGCACATCAGCGCGGTATTCGTATTCTC +TTTGATGTCGTGATGAACCACACCGGCTATGCCACGCTGGCGGATATGCAGGAGTATCAGTTTGGCGCGT +TATATCTTTCTGGTGACGAAGTGAAAAAATCGCTGGGTGAACGCTGGAGCGACTGGAAACCTGCCGCCGG +GCAAACCTGGCATAGCTTTAACGATTACATTAATTTCAGCGACAAAACAGGCTGGGATAAATGGTGGGGA +AAAAACTGGATCAGAACGGATATCGGCGATTACGACAATCCTGGATTCGACGATCTCACTATGTCGCTAG +CCTTTTTGCCGGATATCAAAACCGAATCAACTACCGCTTCTGGTCTGCCGGTGTTCTATAAAAACAAAAT +GGATACCCACGCCAAAGCCATTGACGGCTATACGCCGCGCGATTACTTAACCCACTGGTTAAGTCAGTGG +GTCCGCGACTATGGGATTGATGGTTTTCGGGTCGATACCGCCAAACATGTTGAGTTGCCCGCCTGGCAGC +AACTGAAAACCGAAGCCAGCGCCGCGCTTCGCGAATGGAAAAAAGCTAACCCCGACAAAGCATTAGATGA +CAAACCTTTCTGGATGACCGGTGAAGCCTGGGGCCACGGCGTGATGCAAAGTGACTACTATCGCCACGGC +TTCGATGCGATGATCAATTTCGATTATCAGGAGCAGGCGGCGAAAGCAGTCGACTGTCTGGCGCAGATGG +ATACGACCTGGCAGCAAATGGCGGAGAAATTGCAGGGTTTCAACGTGTTGAGCTACCTCTCGTCGCATGA +TACCCGCCTGTTCCGTGAAGGGGGCGACAAAGCAGCAGAGTTATTACTATTAGCGCCAGGCGCGGTACAA +ATCTTTTATGGTGATGAATCCTCGCGTCCGTTCGGTCCTACAGGTTCTGATCCGCTGCAAGGTACACGTT +CGGATATGAACTGGCAGGATGTTAGCGGTAAATCTGCCGCCAGCGTCGCGCACTGGCAGAAAATCAGCCA +GTTCCGCGCCCGCCATCCCGCAATTGGCGCGGGCAAACAAACGACACTTTTGCTGAAGCAGGGCTACGGC +TTTGTTCGTGAGCATGGCGACGATAAAGTGCTGGTCGTCTGGGCAGGGCAACAGTAACTTTTCCGGCTTC +CCGTTCGTCAGTACCTCGGGAAGCCGCCAACCAGGATAAAATGTCAGCCCTAATCAGCGTTGCAGGATAA +AGCACCGCTCACTCTTCAACAGACCGATTTGCACCCCAGCAAATGTAGCGTTATTGTTACCTTCCTTGCT +ACAGAGTTCGACAGATATCCCGCTATGACATTCTCCCTTTTTGGTGACAAATTTACCCGCCACTCCGGCA +TTACGCTGTTGATGGAAGATCTGAACGACGGTTTACGCACGCCTGGCGCGATTATGCTCGGCGGCGGTAA +TCCGGCGCAGATCCCGGAAATGCAGGACTACTTCCAGACGCTACTGACCGACATGCTGGAAAGTGGCAAA +GCGACTGATGCACTGTGTAACTACGACGGTCCACAGGGGAAAACGGAGCTACTCACACTGCTTGCCGGAA +TGCTGCGCGAGAAGTTGGGTTGGGATATCGAACCACAGAATATTGCACTAACAAACGGCAGCCAGAGCGC +GTTTTTCTACTTATTTAACCTGTTTGCCGGACGCCGTGCCGATGGTCGGGTCAAAAAAGTGCTGTTCCCG +CTTGCACCGGAATACATTGGCTATGCTGACGCCGGACTGGAAGAAGATCTGTTTGTCTCTGCGCGTCCGA +ATATTGAACTGCTGCCGGAAGGCCAGTTTAAATACCACGTCGATTTTGAGCATCTGCATATTGGCGAAGA +AACCGGGATGATTTGCGTCTCCCGGCCGACGAATCCAACAGGCAATGTGATTACTGACGAAGAGTTGCTG +AAGCTTGACGCGCTGGCGAATCAACACGGCATTCCGCTGGTGATTGATAACGCTTATGGCGTCCCGTTCC +CGGGTATCATCTTCAGTGAAGCGCGCCCGCTATGGAATCCGAATATCGTGCTGTGCATGAGTCTTTCCAA +GCTGGGTCTACCTGGCTCCCGCTGCGGCATTATCATCGCCAATGAAAAAATCATCACCGCCATCACCAAT +ATGAACGGCATTATCAGCCTGGCACCTGGCGGTATTGGTCCGGCGATGATGTGTGAAATGATTAAGCGTA +ACGATCTGCTGCGCCTGTCTGAAACAGTCATCAAACCGTTTTACTACCAGCGTGTTCAGGAAACTATCGC +CATCATTCGCCGCTATTTACCGGAAAATCGCTGCCTGATTCATAAACCGGAAGGAGCCATTTTCCTCTGG +CTATGGTTTAAGGATTTGCCCATTACGACCAAGCAGCTCTATCAGCGCCTGAAAGCACGCGGCGTGCTGA +TGGTGCCGGGGCACAACTTCTTCCCAGGGCTGGATAAACCGTGGCCGCATACGCATCAATGTATGCGCAT +GAACTACGTACCAGAGCCGGAGAAAATTGAGGCGGGGGTGAAGATTCTGGCGGAAGAGATAGAAAGAGCC +TGGGCTGAAAGTCACTAAAAATTGCCTGATGCGCTACGCTTATCAGGCCTACATGATTTCTGCAATATAT +TGAATTTGGAAGAATTTGTAGGCCGGATAAGGCGTTTACGCCGCATCTGGCATAAACAAAGCGCACTGTT +CCGGCGTTGAGAAACGCCGGAAAACGTTTCAAACAGGCTGCTGCCGTAGCCGATGCCGCTGCACTTTCTC +GACATCCATGCACTGCAACGCCTTTGTCGGGCAGGCTTCAACACAGGCCGGTCCCGTCTCCCGATGCCAG +CACAGATCGCACTTAATCGCCCTCGCCTTTTTGCGCGAAGAAACGACCTCCATCGCACCAAACGGGCAAG +CCAGCATACAGCTTTTACAGCCAATGCAACGTGTTTGTTCAACGAAAATATGCCCATGTTCGCGGCTTAT +CGCGTCAACAGGGCAGACATTCGCGCACGGTGCATCTTCACACTGATGACAGGCTACTGCCGTGGTCCAG +CAGTGGTCTTTAATGACACGAATACGGGAAATAAACTCGTCTGGTGACAACGCAGCGCAATCCTGATTCT +CATGATGCGACACTGCGCAAGCCACTTCACAGGTACGGCAACCGATACATTTCGTCGCATCCGCAATAAT +AAACCGGTTCATGATCACTCCTTTGCACTAAAACAGCAGAGTGCCAGAGAGCGCGTCCCTACTGCTTTGA +TCCAACGAAGGAAATGTTAAAGTTTTGGCACTTGTCCAAAGCGTTATGTGATCGCGCCCAGGTCATCCCT +GACAGTAAATCCCAGTTCATTAGAAATAGCCTGCGCGGTTTCACGCAGTGGTTTCAGGAGATTTTTCTCT +CCCACCTGTTTCAGACGTGATGTCGAAAGCGAAATCGACACGGCGTACGGCACCCGCCCATGAATATCAA +ACACCGGAACAGCAATACAGGAGACGCCGAGTTCGTTTTCTTCTCTGTCCATCGCCGCTCCGCTTTCACG +AATGTGCGCCAGTTCGTCGAACATCGCGGGCAGCTCGGTAATGGTATTGCGGGTTAACGGCTGGATCTCA +TGCTGATGGCTTTCCCAGTATGACTTCACGTAGTCCGGGTGACCAAACGCCATGTAGATCTTGCCCATTG +CGGAACAGTAGAGCGGCATATGCTGGCCAATATAGGCACGGGTTCGCAGCATCCCGGTTGTGGGTTCCAG +CTTATAAATCAAAATAGCGTGATCGTCTTCGCGGCTGGAGAAGTTAATGGTTTCACCAGTGGCGATGTTC +AGTGCCTCAAGATGCGGAGCGGCGATATGAATGATATTCAGCGAAGACAGCGCCTTCTGCCCGACGGCAA +TAAATTTGGTGGTCAGGCGATAACTCCCTGCGGCAGGCGCGGTGGTCACATAGCCGCAGGACTGTAATCC +CTGCAATAAGCGATGGACGGTACTCTTATTTAAACCAGCCAGCTCCGAAAGATGCGCCAACGGACAACCG +TTTGGATAGTTGCTCAAAATCTCAATCAGCATCAACCCGCGAAACAGACTCTGGCTTCCGGCTGGACGCT +CTTTTTCCTGCGCCATCTCGTTCTCTTTTTTTCCCATCACTTCTTTCCCCATTTTGTCGCGTCCTGATGG +TAGCGCAAAGTGTGCCGTAGTTCACGATCTCGACAGATAATTTATAACCAATTGATTTTTATGTCTTTTG +AAATTCATCAATCAGATTGCCTTGTTAAAAAGTGATCGATATATTTGAAATCAAGTTTCGCATATTGAAA +TTTTAAGCCAAAAAAGCGATCAAAAAAACAAGGAAGCCTGGGATGAAAGTGACATTTGAGCAGTTAAAAG +CAGCCTTTAATCGGGTCTTAATTTCACGCGGCGTTGACAGCGAAACGGCTGACGCCTGTGCAGAGATGTT +CGCCCGCACCACCGAATCCGGCGTTTATTCTCACGGCGTTAATCGTTTCCCTCGTTTCATTCAACAACTG +GAAAACGGCGATATCATTCCTGATGCCCAACCCAAACGTATAACCAGCCTCGGCGCAATTGAACAGTGGG +ACGCCCAGCGTTCGATCGGTAACCTGACAGCGAAAAAGATGATGGATCGCGCCATTGAACTGGCTGCCGA +TCACGGTATTGGTCTGGTGGCACTACGTAATGCCAACCACTGGATGCGCGGCGGCAGCTACGGCTGGCAG +GCGGCGGAAAAAGGCTATATTGGCATTTGCTGGACCAACTCCATCGCCGTAATGCCGCCGTGGGGCGCAA +AAGAGTGTCGCATAGGCACTAACCCGCTGATCGTCGCCATTCCTTCCACGCCGATCACCATGGTCGATAT +GTCGATGTCGATGTTCTCTTACGGCATGTTAGAAGTTAACCGTCTGGCAGGTCGTCAGCTCCCGGTCGAT +GGTGGCTTTGATGATGAGGGCAATTTGACCAAAGAACCTGGCGTTATCGAGAAGAATCGCCGCATTTTGC +CGATGGGCTACTGGAAAGGTTCTGGCATGTCGATTGTGCTGGATATGATCGCTACTCTCCTTTCCGACGG +CGCATCCGTTGCCGAAGTCACCCAGGACAACAGCGACGAATACGGCATTTCACAAATTTTTATTGCCATT +GAAGTGGACAAGCTTATCGACGGTCCCACCCGCGATGCCAAGCTGCAACGCATCATGGATTACGTTACTA +GTGCCGAGCGTGCTGACGAAAATCAGGCCATTCGCTTACCCGGCCATGAATTTACTACCCTGCTGGCCGA +AAACCGCCGTAACGGCATCACTGTTGATGACAGCGTGTGGGCCAAAATCCAGGCGTTATGAGGAGATAAG +TCATGATTTTTGGACATATCGCGCAGCCCAATCCGTGCCGTTTGCCCGCCGCCATTGAAAAGGCGCTCGA +TTTTCTGCGCGCTACCGATTTCAACGCCCTGGAGCCGGGCGTTGTCGAAATCGACGGCAAAAATATTTAT +ACGCAAATTATCGATTTAACCACACGCGAAGCGGTGGTAAACCGTCCGGAAGTGCATCGTCGGTATATCG +ATATTCAGTTTCTGGCGTGGGGCGAAGAGAAAATCGGCATTGCTATTGATACGGGAAATAATAAAGTCAG +CGAATCACTATTAGAGCAGCGCAATATTATTTTTTATCACGACAGTGAACATGAATCATTTATAGAAATG +ATACCGGGCAGCTACGCAATTTTCTTTCCGCAGGATGTTCACCGACCAGGTTGTATTATGCAAACAGCCT +CTGAGATACGAAAAATTGTGGTTAAAGTCGCATTAACGGCGCTGAATTAATCGAATAATCGTCTACGCCA +GAACGCCTGGGTAATGTTATTGCTCTAACTATATTAATAATTCAGGTTGCTGCACATGCGACTTGAATTA +TGACAGACATAGCCTCAAGGAATAGCTATGAAAAAAATACTCGAAGCAATACTGGCGATTAATCTCGCCG +TACTTTCCTGTATTGTATTTATAAACATTATTTTAAGATATGGTTTTCAGACAAGCATTTTATCTGTTGA +TGAATTGTCACGTTATTTATTTGTCTGGTTAACGTTTATTGGCGCGATTGTAGCTTTTATGGATAACGCC +CACGTTCAGGTCACCTTTCTGGTGGAGAAACTCTCCCCCGCATGGCAGCGACGAGTCGCTCTGGTTACCC +ATTCCTTAATCTTATTTATTTGTGGCGCACTGGCCTGGGGCGCAACGCTAAAAACAATTCAGGACTGGAG +CGATTATTCACCGATCCTCGGTTTACCCATCGGCCTGATGTATGCCGCTTGTCTGCCCACCAGCCTCGTT +ATCGCATTCTTTGAACTGCGTCATTTATATCAACTCATCACGCGTAGCAATTCTCTAACGTCGCCACCGC +AAGGAGCTTAATCATGGCTGTGCTGATTTTTCTGGGCTGTCTGTTGGGTGGTATTGCTATCGGTTTGCCT +ATTGCCTGGGCACTGTTGTTGTGCGGGGCGGCGTTAATGTTCTGGCTGGACATGTTTGATGTCCAGATCA +TGGCACAAACGCTGGTGAACGGAGCCGATAGCTTCTCCCTGCTGGCGATTCCGTTCTTTGTGCTGGCGGG +TGAAATCATGAATGCGGGCGGCTTGTCAAAACGCATTGTTGACCTGCCGATGAAACTGGTGGGGCATAAA +CCAGGCGGGCTGGGCTACGTCGGCGTGCTGGCAGCTATGATTATGGCGAGCCTTTCTGGTTCTGCCGTTG +CGGATACCGCCGCCGTTGCCGCTCTACTGGTGCCGATGATGCGCAGCGCCAACTATCCGGTCAACCGGGC +GGCGGGGCTGATTGCCTCTGGCGGCATTATCGCGCCAATTATTCCCCCTTCCATTCCGTTTATTATCTTC +GGCGTTTCCAGCGGATTATCCATCAGTAAGCTGTTTATGGCGGGCATTGCCCCTGGCATGATGATGGGCG +CAACGCTGATGCTTACCTGGTGGTGGCAGGCCAGTCGCCTTAATTTACCCCGCCAGCAAAAAGCAACGAT +GCAGGAAATCTGGCACTCTTTTGTCTCCGGTATCTGGGCGCTGTTTCTTCCAGTCATCATTATTGGCGGG +TTTCGCTCCGGCCTGTTTACCCCTACCGAAGCCGGGGCCGTTGCTGCTTTCTATGCGCTGTTTGTCGCCA +CAGTTATTTACCGTGAAATGACCTTCGCCACACTTTGGCATGTACTCATTGGCGCGGCGAAAACCACCTC +AGTGGTTATGTTTCTGGTGGCCTCGGCACAAGTTTCCGCCTGGCTGATTACCATTGCTGAACTGCCGATG +ATGGTTTCTGATTTACTGCAACCGTTGGTCGATTCACCGCGTCTGCTGTTTATCGTCATTATGGTGGCTA +TCCTGATTGTCGGCATGGTCATGGATTTAACGCCGACGGTATTAATTCTTACCCCGGTATTAATGCCTTT +AGTTAAAGAGGCAGGAATCGATCCGATTTATTTCGGTGTCATGTTTATCATTAACTGCTCAATCGGCTTA +ATTACACCGCCTATCGGTAATGTACTTAACGTTATTTCAGGGGTGGCAAAACTCAAATTCGATGATGCAG +TCAGAGGCGTTTTCCCTTACGTCCTGGTTTTATATTCATTATTAGTCGTATTTGTTTTTATTCCCGATCT +CATCATCCTCCCTTTGAAATGGATTAATTAAAAGGAAAATATTATGAAATTACGCTCTGTAACCTACGCA +TTATTCATTGCTGGCCTGGCTGCATTCAGCACATCTTCTCTGGCGGCACAATCTTTACGTTTCGGTTATG +AAACATCACAAACCGACTCGCAACATATTGCGGCGAAAAAATTCAATGATTTATTGCAGGAGAGAACCAA +AGGCGAGCTGAAATTAAAACTGTTCCCGGACAGCACTCTCGGTAACGCGCAGGCGATGATCAGCGGCGTA +CGTGGCGGCACCATCGATATGGAAATGTCCGGCTCGAATAACTTTGCCGGGTTATCACCAGTGATGAACT +TGCTTGATGTCCCTTTCCTGTTCCGCGATACCGCTCACGCGCATAAAACGCTCGACGGCAAAGTCGGTGA +TGATCTGAAAGCCTCACTTGAAGGTAAAGGACTGAAAGTACTGGCCTACTGGGAAAACGGCTGGCGCGAT +GTCACCAACTCGCGCGCACCGGTTAAAACCCCCGCCGACCTGAAAGGGCTGAAAATCCGCACCAACAATA +GCCCGATGAATATCGCCGCATTCAAAGTCTTTGGCGCTAACCCGATCCCGATGCCGTTTGCCGAAGTCTA +TACCGGGCTGGAAACCCGCACTATCGACGCTCAGGAACACCCGATCAACGTCGTCTGGTCAGCAAAATTT +TTCGAAGTGCAGAAGTTCCTTTCTCTGACGCACCACGCCTATTCCCCGCTTCTGGTGGTGATCAACAAAG +CGAAGTTTGATGGCTTAAGTCCGGAGTTCCAGCAGGCGCTAGTTTCATCTGCACAAGAAGCGGGTAACTA +TCAGCGCAAACTGGTTGCTGAAGATCAGCAAAAAATCATCGACGGCATGAAAGAAGCGGGCGTGGAAGTC +ATCACCGATCTCGACCGCAAAGCCTTTAGCGACGCACTGGGGAATCAGGTTCGCGACATGTTTGTTAAAG +ATGTGCCGCAGGGAGCTGATCTGCTGAAAGCCGTGGATGAGGTGCAATAAACCATGACGCAATACTGGCT +GGGGTTAGATTGTGGCGGTAGCTGGCTGAAAGCCGGGCTGTATGACCGCGAAGGCCGGGAGGCAGGCGTG +CAGCGCCTGCCGCTGTGCGCATTAAGCCCGCAGCCAGGCTGGGCAGAGCGCGATATGGCAGAACTGTGGC +AATGCTGCATGGCTGTCATTCGCGCCCTGCTTACTCATTCTGGTGTTAGCGGGGAACAAATTGTCGGTAT +CGGCATCTCCGCACAGGGAAAGGGCTTGTTTTTGCTGGATAAAAACGACAAACCGCTCGGGAATGCTATT +TTGTCCTCGGACCGCCGGGCGATGGAAATCGTTCGTCGCTGGCAGGAAGATGGCATCCCGGAAAAACTCT +ACCCGCTGACCCGACAAACCTTGTGGACCGGGCATCCGGTGTCGCTGTTACGCTGGCTGAAAGAGCACGA +ACCAGAACGCTACGCGCAAATTGGCTGCGTGATGATGACGCACGACTACCTGCGCTGGTGTTTAACTGGC +GTCAAAGGCTGTGAAGAGAGCAATATTTCCGAGTCCAACCTCTACAACATGAGTCTTGGGGAATATGACC +CGTGCCTCACCGACTGGCTGGGGATCGCTGAAATCAATCACGCCCTGCCGCCTGTTGTCGGATCTGCCGA +AATCTGCGGGGAGATCACCGCTCAGACAGCCGCCCTGACCGGTCTGAAAGCGGGTACGCCCGTTGTTGGC +GGCCTGTTTGATGTGGTTTCCACCGCACTCTGCGCCGGGATCGAAGACGAATTTACCCTCAATGCGGTGA +TGGGGACCTGGGCGGTGACCAGCGGCATAACCCGCGGTTTACGTGACGGTGAAGCGCATCCGTATGTCTA +TGGTCGCTACGTTAACGATGGTGAATTTATCGTTCACGAAGCCAGCCCTACCTCTTCCGGCAACCTCGAA +TGGTTTACCGCACAGTGGGGAGAAATCTCGTTTGATGAGATCAATCAGGCCGTTGCCAGCTTGCCGAAGG +CTGGGGGCGATCTCTTTTTCCTGCCGTTCCTGTACGGCAGCAACGCCGGACTCGAGATGACCAGTGGTTT +CTACGGGATGCAGGCCATTCACACCCGCGCGCACCTGTTGCAGGCCATCTATGAAGGGGTGGTGTTCAGC +CATATGACCCACCTCAACCGAATGCGCGAACGTTTTACTGATGTTCACACCCTACGCGTCACTGGCGGCC +CGGCGCACTCCGATGTCTGGATGCAAATGCTGGCGGACGTCAGCGGTCTGCGTATCGAGCTGCCGCAGGT +GGAAGAAACCGGCTGCTTTGGTGCGGCCCTTGCCGCCCGCGTCGGCACCGGGGTTTATCACAACTTCAGC +GAAGCCCAACGTGACTTGCGACACCCGGTGCGCACCCTGCTGCCAGATATGACCGCCCATCAGCTTTACC +AAAAAAAATATCAACGTTATCAGCATCTCATTGCCGCACTTCAGGGCTTTCACGCCCGCATTAAGGAGCA +CACATTATGAGCCGACCACTTCTGCAACTGGCCCTCGACCACTCATCACTTGAAGCCGCGCAGCGCGACG +TGACGCTGTTAAAAGACAGCGTCGATATCGTCGAAGCGGGCACCATTCTCTGTTTAAACGAAGGGCTTGG +CGCGGTGAAAGCCTTGCGCGAACAGTGCCCGGACAAAATCATCGTTGCTGACTGGAAGGTCGCCGACGCT +GGTGAAACGCTCGCGCAACAGGCGTTTGGCGCAGGCGCTAACTGGATGACCATCATCTGCGCCGCGCCGC +TCGCGACGGTAGAAAAAGGCCACGCAATGGCACAACGCTGCGGGGGTGAAATTCAGATAGAGCTGTTCGG +TAACTGGACGCTGGACGACGCCCGCGACTGGCATCGTATTGGCGTGCGGCAGGCCATTTATCATCGCGGT +CGTGATGCACAGGCCAGCGGGCAACAGTGGGGCGAAGCCGATCTGGCACGCATGAAGGCGCTTTCAGATA +TCGGCCTTGAGCTTTCCATTACTGGCGGGATTACCCCTGCTGACCTGCCGCTGTTTAAAGATATCCGCGT +GAAAGCGTTTATTGCCGGGCGGGCACTGGCAGGCGCGGCAAATCCGGCGCAAGTGGCTGGCGATTTCCAT +GCGCAAATCGACGCTATCTGGGGAGGTGCGCGTGCGTAATCATCAGTTAGGGATTTATGAAAAAGCGCTG +GCGAAAGATCTCTCCTGGCCGGAGCGGCTGGTGCTGGCAAAAAGCTGCGGTTTTGATTTTGTCGAAATGT +CGGTGGATGAAACCGACGAACGGCTCTCACGTCTTGACTGGAGCGCCGCACAAAGGACTTCGCTGGTTGC +CGCGATGATCGAAACAGGTGTTGGGATCCCGTCGATGTGCCTGTCCGCACATCGTCGCTTTCCCTTTGGT +AGCCGTGACGAGGCAGTGCGCGAACGGGCGCGGGAAATCATGAGTAAAGCGATTCGCCTGGCGCGCGATC +TCGGCATTCGCACCATCCAGCTGGCAGGTTATGACGTCTATTACGAAGACCACGACGAAGGCACCCGGCA +ACGTTTTGCTGAAGGGCTGGCGTGGGCAGTCGAACAGGCGGCGGCATCACAAGTAATGCTGGCGGTGGAG +ATTATGGATACCGCGTTTATGAACTCCATCAGCAAATGGAAAAAATGGGACGAGATGCTCGCCTCACCGT +GGTTCACCGTCTACCCGGACGTCGGCAACCTCAGCGCCTGGGGCAATGATGTTCCCGCCGAACTGAAACT +GGGCATTGACCGTATCGCCGCGATCCACCTGAAAGACACCCAGCCAGTCACCGGGCAAAGTCCCGGACAG +TTCCGCGACGTGCCGTTTGGCGAAGGCTGCGTCGATTTCGTTGGCATCTTCAAAACGCTGCATAAACTGA +ACTATCGCGGTTCTTTCCTGATTGAGATGTGGACCGAAAAAGCCAAAGAGCCGGTGCTGGAGATTATTCA +GGCGCGGCGTTGGATTGAAGCGCGTATGCAGGAGGCTGGATTTATATGTTAGAGCAACTGAAAGCCGACG +TGCTGGCGGCGAATCTGGCGCTTCCCGCTCACCATCTGGTGACGTTCACCTGGGGCAATGTCAGCGCGGT +AGACGAAACGCGGCAATGGATGGTAATCAAACCTTCCGGCGTCGAGTACGACGTGATGACCGCCGACGAT +ATGGTGGTGGTTGAGATAGCCAGCGGTAAGGTGGTGGAAGGCAGCAAAAAACCCTCTTCCGATACACCAA +CGCATCTGGCGCTCTACCGTCGCTATGCCGAAATTGGCGGTATTGTGCATACCCACTCGCGCCACGCCAC +CATCTGGTCACAGGCCGGGCTGGATCTCCCCGCCTGGGGCACCACCCACGCCGATTATTTTTACGGTGCC +ATCCCCTGCACGCGACAGATGACCGCAGAGGAGATTAACGGCGAATATGAATATCAGACCGGCGAAGTGA +TCATTGAAACCTTCGAAGAACGTGGCAGGAGTCCGGCACAAATCCCGGCGGTGCTGGTGCATTCTCACGG +CCCGTTCGCATGGGGTAAAAACGCCGCCGATGCCGTGCATAACGCCGTAGTACTCGAAGAATGCGCCTAT +ATGGGTCTATTCTCGCGCCAGCTTGCGCCGCAGCTCCCTGCGATGCAAAACGAACTGCTGGATAAGCACT +ACCTGCGTAAGCATGGGGCCAATGCCTATTACGGGCAGTAATCCCTCACGCCGGGGCTTCATCGCCCCGG +CACTACGAATTGATATGTTCCTTGCTGTAACGCCGCTTCCACGCTGCTGGCGTTAAACCAGTATGTTTCT +GAAAAATCTGCCGGAAATAGCCAACGTCATTAAACCGTATTGCATGGAGCAGGCCGACAACGTCGAGTCA +CTGCATAACCTGTTGCTGCCCGCCGATGCGCCATTTACGACATTTGAAGGCAAGGGATTGTTCAGCCATA +AGATCCTGATTCAGACGCCAGGTTCCCGGTATGAACAGAGCAATCCAGAGCAACAACCTTTGTGGCATTA +CGACGGAGCACCAGCCGCACCGACATCCACCGGTGAATTAAAAACGCCAGCTCACCCCGGTGACAAAGGT +AAAACTCTCATTACGATCAATCATCGGGCTGTCGGTAATCTCTTCCGGCAGCTCGCTGTATCCTGCGCTC +GCCATCAATACGACGTGCTCTCCTATCGGGTATTTTGCCGTCAGGCTGACATAGGGCACCCAGGCATCCT +GCGCGGAATAACTTGCCAGACCGCTACGACGGGACTCACTCTCTGAAATGCCATAGTAATAGTCACTGAA +ATTCTCGTCATAATAGAGAACGCCCAGCGCAGGTGTCAGCGACAGACGACCTATCTGCATTTTGTGGAAT +ACCGATAGCTCCCCCACCCAGCCGTTGCTGTTATCCAGAACGTCCGCAGCTGCAGAGGCTTTCACGGTTC +CCCAACGCTCGTGGTGATACCAGGCAACCCCCGCCATAGCCGTACTATCACGCTTATCAAGCTGTTGCAT +GGCATAATCGTCATTATCGGTAGGGTCAAATTCCAGCGGCATCCAGGATGCGGTCAGGCTAAGTTCATTT +TTTTCACTTTGCGACAGAATAAAACCTAACGTGGTCTGACGAACATAAAAAGTATCACCTTCATAACTAA +TCAGCGGAATTGCCTTCGTATTTTCATTATAACCGCGATAAGGCGATTCATTATAAGCCGCACCAGCACC +AATGGATAATTCAGAAGCAGTTGCGCTTGCCATAAAAGGCAACGCAAATAACGCCACAATATTGCGATTA +ATTAACATGTCCGGTATTCCATTTTAAAATAAGATAAAAAAGAGTCGGCATAATAATGCTTACAATTTCT +CCGGTGCAAGATTCATATTTATATAGTAATATATAAAATTATATATAATTGGGCTGTTGCGATGACAAAA +TTACAACTTAAGTACCGGGAGTTAAAAATTATCTCGGTAATCGCTGCCAGTGAAAATATCAGCCATGCCG +CGACTGTACTTGGCATCGCACAGGCCAACGTCAGCAAATATCTTGCTGATTTTGAATCAAAAGTGGGTTT +AAAAGTCTTTGACCGAACCACCCGGCAGCTGATGCTCACACCTTTTGGCACCGCGCTGTTACCGTACATC +AACGACATGCTGGACAGAAACGAGCAACTTAATAATTTTATTGCAGATTATAAGCATGAGAAACGTGGTC +GGGTCACCATCTACGCCCCAACCGGCATAATTACCTATTTATCCAAACATGTAATCGATAAAATTAAAGA +TATCGGTGATATCACCTTATCGCTAAAAACCTGCAATCTTGAGCGTAATGCCTTTTATGAAGGCGTCGAA +TTTCCTGATGATTGTGATGTTTTAATCAGCTACGCTCCACCAAAAGATGAATCGCTGGTTGCCAGTTTTA +TTACCCAATATGCCGTAACCGCTTATGCCAGCCAGCGCTATCTTGAGAAACATCCCATTAGCCGTCCTGA +CGAACTCGAACATCACTCCTGTATTTTGATCGACTCGATGATGATCGACGACGCGAATATCTGGCGCTTC +AACGTCGCCGGGAGTAAAGAGGTGCGGGATTATCGCGTGAAGGGAAATTACGTTTGCGACAACACGCAAT +CTGCGCTGGAGCTGGCACGAAATCACCTGGGGATTGTGTTTGCGCCAGACAAAAGTGTGCAGAGCGACCT +GCAAGACGGCACGCTGGTGCCCTGCTTTCAGCAACCCTATGAATGGTGGCTGGATCTGGTGGCTATCTTC +CGTAAACGGGAATACCAGCCCTGGCGGGTCCAGTATGTGCTGGATGAAATGCTGCGTGAAATTCGCCACC +AGCTTGCTCAGTCGCAGCAACTGCGGCCTGAACAAGCGGCGGAAAGCGAAGATTAATGATCGAGATAAAG +GTAATGCACCCAGCTGGTCATGCGTAATAGCACTTTGCGCATCACCGAGACATGGCTGAAATGATCAGAG +TAAACCGCCACCTGGGCGTAAATACCGTCTGGTAAAGCGCTCAAATCAGTGTGCTCATCCAGTTCAATGG +TCGCGATAACGCCATCTGAACCCGGCGCTGTGTTTAACGTCTGTAAGGTGCCGGTCGACTGATAAGCTCC +GCCGGGAACGGCTGGACTAATGGCTGCCAGCTTACCGCTGAATACCTTACCTGGCAGAGCATTAAACACC +ACTTCCGCATCGTCGCCAGGAGCCAGTCGCAGCAAGGAGTTCTGACGGAACTGCGCCACGATTTGTCGTT +TCTGATCGGGTATAAACACCATCACCGGACGTAGCGGCAGCGACGCGGCATAGGTACCCGGACGAATCAG +TACCTGGGTCACATAACCATCGCTCGGCGCACGCACTATCGTCTGCTCAAGGTTATATTTTGCTTCCGCG +AGCTGTGCTTTCAGGCTGGCGATTTGAGAATGTTCACCCAACACCAGGCTATCCAGCTGGCTCTGGATCT +GTTTTTGTTCCGCCGCCGATGACTTCACGGAGGCTTCCTGCGCCAGATAATTTTGCCGCGCCACATCGAT +ATCGCGTTCTGAAAACGGGTTTACTTTCGCCTGGCTGCCACGTGCGTAACGCTGATACTCTTTAGCGAAT +TTATCCCGCGTGGCCTTTGCCTGCTGAGTATTCGCCGCCATCTCATCTAACTCTGCGCCCAACGCCCGCT +GTTTATGTTCTGCGGTAACGATATCCGCCATCAGCCGATCCACCCGCGCCTGATAACGCGTCGGGTCCAG +TCGAAATAGCACCTCACCTTTTTTAATCAGCGTATTTTTCTTATCCGTCACTTCAATCACCACACCAGTC +ACCTGTGGGACAACAGGAATAGAAATAACCGCTTTTTGCGCTTTAAAGGTATACGGATGGTTATAGTTCA +TTAACAGAATTAGACCGCTGACAATAAATATTCCACCCAGGGCCGCTGTGGGAATGGTCCATTTATTTAC +GGGAATTTTGAAGATCTTAAACATTGCCCATGCAAAAGCCACATAGGTCAAAATAATCAGTAAATCCATA +AGTATTACTCGGCAGAAGAGGATTTGATGTCGGCGAGCTGTTTCTCCAGCCCGGCAATGCGCTGTTGCAG +TTGCATAACGGATGAATCATGGCTTTGCATTCCCCATCCCCGCTCCGGGCGGTAAAGCGTGGCCCAAATC +CACAAAAACGGCCAGATAACATGTAACGTAAAAAGACTCACCCAACCAGCAACATGAATGGCGTCGGCAT +GAGGATGATTACGTTTTTTGGCAATCAGGTAGGGAATATCATGTAAAATAATGATCCCATAGAAGATCAC +CAGAAATACAAAAATAAGCACTCCCAGTGCAAAATAGTCCAGGAACATATTTCCCTCAAAGAATATAAAA +AAGAACAATTAACGCATATTATGAAATGCCATGATGCAGTGCAATTTCCTTATTTATATAACGACATATT +GTTTTTTATATACTTTCTTAAATGTGCTGTCTGGTTTTTCAACAGGACGAGGTTTATCATATTGAAATAG +TGGAACTATTGGCCAAACTAATGAATAACTCCAGTAAAACATCCACAGTACAGATTAAGCGTATTAAACC +TTCAATTATCTACCGTTTATTGCTGATTGGCCTCGGATCACCAATGGTGATTTACGGCCTGGTTCGCCCG +CTCACCATCGAAACGCGAGATTAAACTCCTGACAAAACACGCCCCAGAAACGTACTTCTGTTGGCGTAGT +CTGGGTTATTGCGCACGTAGGTTTAAAACGTAAATTGTAACAACGTGCGCTTTGTTTATGCCGGATGCGG +CGTGTACGCCTTATCCGGCCTACGGTCAGGTTCCCGTAGGCATGATAAGACGCGTAAGCGTCGCATCAGG +CAATGAATACCCAATGCGACCAGCTTCTTATATCAGAACAGCCCCAACGGTTTATCCGAGTAGCTCACCA +GCAGGCACTTGGTTTGCTGGTAATGCTCCAGCATCATCTTGTGGGTTTCGCGACCGATACCTGATTGTTT +GTAGCCACCAAACGCCGCATGTGCCGGGTAAGCGTGATAACAGTTGGTCCACACGCGCCCAGCCTGTATG +CCGCGCCCCATCTTATAGGCCAGATTACCGTTGCGGCTCCAGACGCCCGCGCCCAGGCCATATTGCGTAT +CGTTCGCCAGCTCCAGCGCTTCTTCCATCGTTTTGAAGGTGGTCACCGCCAGCACCGGGCCAAAAATCTC +CTCCTGGAACACCCGCATATTGTTCTGACCAAACAGAATCGTCGGTTCGAGGTAGTAGCCGTCTTTCAGT +TCACCTTCCAGCAGCTTGCGCCGCCCGCCTGTGAGCACGTCAGCGCCCTCTTTTTTACCGATATCAATGT +AGTTGAGGATGGTTTCCAGTTGCCCGTGAGAAACCTGCGCGCCCATTTGCGTCACGCTGTCGAGCGGGTT +ACCGCTACGAATGCTTTCGACACGGCGGATGGCGCGTTCCATAAAGCGTTCGTAGATAGATTCCTGCACT +AAAGCACGACTCGGACAGGTGCAAACTTCGCCCTGGTTAAAGGCAAACAGTGCAAAGCCTTCCAGCGCTT +TATCGAAAAAGGCATCTTCTTCATCCATCACATCAGCAAAGAAGATATTTGGCGACTTACCGCCCAACTC +CAGCGTCACCGGAATAATGTTTTGCGTTGCGTATTGCATAATTTGTTGGCCCACTTCCGTTGAGCCGGTA +AACGCCACTTTGGCGATGCGTTTCGAGGTCGCCAGATATTCGCCAATTACCCCACCTGCGCCATTGACCA +CGTTCACCACGCCCGGCGGCAGTAAATCACCGACAATTTCCATTAGCAGCAGTACAGAAAGCGGGGTAAG +ACGTGCGGGTTTCAGCACCACACAGTTGCCCGCCGCCAGCGCGGGAGCCATTTTCCAGCTCGCCATCAGC +AGCGGGAAGTTCCACGGGATAATCTGCCCCACCACGCCTAACGGTTCATGGAAATGATAGGCCACGGTTT +CGCTATCAACTTCACTGATCCCACCTTCCTGCGCCCGAATACACGAGGCGAAATAGCGGAAATGGTCAAT +CGCCAGCGGTACATCCGCAGCACTGGTTTCGCGAATGGGTTTGCCGTTATCCCAGGTTTCAGCTGTCGCT +AACAGCTCGAGGTTTTGTTCCATTCGATCGGCAATCTTAAACAGAATCGCCGCACGATCCTGCACCGAGG +TGTGCGCCCATTTATCTTTCACTTTGTGCGCAGCATCCAGCGCCAGATCGATGTCTCGTTTGCCCGAAGA +CGCCACTTCGCACAGCAGCTGCCCGGTCACCGGCGTCAGATTCTGGTAATACTCGCCGTCGGCAGGGGCT +ACCCATTCGCCGCCAATAAAGTTGTCATAGCGGGCTTTTAACTTGAGGGGGAAACCATACTCGCCGGGCT +TAATCTGTGCTGAAGGGGGATTATTGGTCATGATCGTCTCCTTGCGGTGTGAGGTATAACAAGGGTAGAC +GTGACTGGCGAAATCTTCGCCAGTCGGTAACAGCTTTACGACAGCTATCACGAATTTACGGGCAAGGGTT +ACAGAGATAGTTGAAAAAGCGGCTAACAATTTGCCAGCCGTTGTGGAAATGATGATTACATCGCTGCGCG +ATAAATCGCCACAATTTCTTCGTGAGTTGCCTGGATCGGGTTAGTAAAGCCACAGGCATCTTTCAGGGCA +TTAGTCGCCAATACCGCGAAATCTTCTTCTTTCACGTTCAGGTCGCGTAGGCCTGCCGGGATATCCACTT +TCTTCGCCAGTTCACGGATGGCGTTAATGCAGGCTTCAGCACCTTCCGCGTCGTTTTTACCTGTCACGTT +CACGCCCATTGCAGCGGCACAGTCACGCAGACGTGCAGCGGCGACTTTGCTGTTGAATACCTGAACGTGC +GGCAGCAAAACGGCGTTACATACACCGTGTGGCAGGTTGTAGAAACCGCCCAGCTGGTGCGCCATCGCAT +GAACATAACCCAGAGAAGCATTATTGAACGCCATACCGGCGAGGAACTGGGCATAAGCCATTGCTTCACG +CGCTTTCGCATTACTGCCATCTTCAACGGCTAACGGCAGGTTTTCGGCAATCATGGTCACGGCTTTCAGT +GCACAAGCGTCAGTGATCGGCGTGGCGGCAATAGAAACATATGCTTCGATAGCGTGCGTTAAGGCATCCA +TACCCGTTGCGGCGGTCAGTGACTTCGGCATACCAATCATCAGAGAGGAGTCATTGACAGAAAGCAGCGG +AGTGACATGTTTATCAACAATCGCCATTTTGATATGACGCGCTTCGTCAGTGATGATGCAGAAACGGGTC +ATTTCAGAGGCCGTACCCGCCGTGGTATTGATGGCGATCATCGGCAGCTGCGGTTTTGCAGAGCGGTCAA +CGCCTTCGTAATCGCGAATATCGCCGCCATTGGCTGCCACCAGCGCAATACCTTTTGCGCAGTCGTGTGG +AGAACCACCGCCTAAGGAGATCACGCTATCGCAATTATTCTCTTTAAGTAATTTCAAACCTGCGGCGACG +TTTTCCGTGGTGGGGTTAGGTTGGGTGCCATCATAAATAACGCTAAAAATATTGCGTTCTTCCAGTGCTT +TTTGCACATCGCCCGCCATACCTAATTTCGTTAACATATTGTCAGTGACAATTAAGGTACGGGTAAATCC +ATAATCTGCCATCATATTCATTGCATCAGTCAATGAATCAGCGCCGATGACATTCACAGAAGGAATAAAG +AACGTTGAAGCTGCCATAACACACTCCTGAAAGTGTAAAAAAGGGCGGGCAGCTTACTGAGGATTTTCAT +TCGAAAATATGATCAGTATTATTGATTATCAAAATTAATCTAATAAAAAGCACATTGTATTCATTAAACA +ATGTGCTTTTTTTAAATTCATAAGAATTTTGTATTAATTTATTTTAAAACTTAATTAATCATTTCCTTAT +TTTTCCGGAAATAATAATGCGTCGCGCAATAAATGATCATTTCCACGACGACGCGTAAAGCCAATGCGGT +CAAAATATTCCAGAATCTGAATTGCCAGCTTTCGGCCTACGCCTAAGCGATCGCGGAAATCCGCCGCGCA +GGTTGAACCACACTCCTGATCGAGATCGCGGATCATATTGGCAAACTCGACAATCCGATCGTTACGGTAA +TAACGATCTTTAACGATCGCGGTAATTATTCCTTGCTGCGCCGCCTGGCGTAGAGTCAGGCGCATTGCCT +GCTCGTCGGTTCCCGTCTCTTTTGCCAGGTCACGCACCCACCACGGTTCGTCACCAAACAGTGGCTCTGC +TTTTTGCCAGATGGCCTGCTGCTCTTCGCTGAAGCCCGCTTTGTGATCTGGCAGATGCAGCCAGCCGTGA +TGGCTGTGGATGTCGCCGCTTTCGCGCATCTTTTCAATCAGCAACAGTACCAGCGCTTCATCTTCCATTG +GCAACGCCATACGTCGCAGACGTTCGCGCCCAGGGCCAGGTTCATCGCGATGTTGCTCATGATAAGTCGC +TAATGTGTCGAGAATTTTCCGCTGCCAGCGGGCGGCAACCGGCGCATTCAACAAGCTATAACCAGCCTGA +ATATAACCAGGCTGTTGCAGCAATTCGCGCATCCCTTCGCCGTTGAGCTGGCGCGCCCAGGCGAAATCCG +CAAGGTTAACCGCGCCGCGTTCCAGATGAACAGATAACGCATCGGCATCGCTCTGCGCCCGTGCAAGAGA +CGCCAGCCATTGCAGATATTCCGGCTTACGTTTACCGCGACGCGGCGGGTTAAGCATCACGACGCGCGCT +CCGGCCAGCGTGTTGCGGGCAGAGATATCGCGCAATACCAGGCGGTCGTTATCTGCCAGCCATAACGGGG +TGTCGAAGACCAGTTCAGCAAGGTTATCTTCCAGCAGTGAAACGCGTCCCGTGACGTGGCTGGCGGCGTG +GTGAATATGCAGCGGCTGCCACTGGGTCAGCGGTGTATGGGTTTGAAGCTCGACAATCACCCGTGTGAAC +GGCTCTGGCGGCACATCGGCAAGCAGCCAGTCGCCACGGTTAATCTGCTCTTTTTCCGCATCACCCGCGA +TGTTAAGCGCGATACGCTGCCCGGCATTGGCGGTTTCTGTTGGCTGGTTTTGCGCATGCAGCGCACGTAC +ACGCATCGGTTTATTTACACCAGTCAGCCAGAGTGAATCGCCTACCTTCACTTCCCCGCTTAACGCCGTA +CCGGTGACGACCAGCCCGGCACCTTTTACGGTAAATGCGCGGTCAATCGCGAGGCGGAAACTATGTTGGC +TGGCGTGCTCGCGTTCCGGCAACTGAAGCAGATGCTCGCGCAGGGCATCCATTCCCCGACCTTCGGTTGC +TGCGGTGATAAACAGTTTTGCCTCAGCAAAACCGTATTCCCGCAGAACCTCCTTTACCTGGCGTTCAACC +TCATCAACACGCGCTTCGTCCACGCGATCGGCTTTGGTCAGCGCCACTGTCAGCATCGGGTTACCGGTCA +GCTGCAAAATCGCCAGATGCTCACGGGTCTGTGCCATCACGCCGTCATCGCACGCCACCACCAACAGCGC +GTGATCGATACCACCAACGCCCGCCAGCATGTTGGAAAGAAACTTTTCATGACCGGGAACGTCGATAAAA +CCAGGCACGCGACCATCCGGCTGCGGCCAGTAGGCATAGCCGAGATCGATGGTCATGCCGCGCTTTTTTT +CTTCCGGCAGACGGTCAGCATTTACGCCAGTAATCGCCTGCAATAAGGTTGTTTTGCCGTGGTCAACGTG +TCCGGCAGTCGCAATAATCATTTCAACAACATCTCCAAAAACCGTTGCTCATCTTCAAGGCAGCGTAAAT +CCAGCCACAATCGTCCGTCATAAATACGACCAATCACCGGCACTGGCAATTCACGCCAGCGGGCGGCTAA +TGACTCAAGGTGGCTACCGCGTCCATCATGGGGTGTAAACGTTAATGCCGCGCTCGGCAGGCGATCAACC +GGCAGCGAACCACTGCCAATCTGCGAAAGACATGGCATAACCTGTACCGCAAACTCCGCGCCGTAATGTG +CGGCAAGGGGGGCCTGTAAACGTTGTGCCTGGATTTGAATGACCTCTGCGCTGCGGGTAAGCAGGCGCAG +GGTCGGTAATTTTTCACTCAGAGCTTCAGGGTGTAAATAAAGACGCAACGTGGCTTCCAGCGCCGCGAGG +GTCATTTTATCCGCGCGTAATGCACGCTTCAGCGGGTGGCTTTGCAGGCGGGCGATCATCTCTTTTTTAC +CAACAATAATTCCTGCCTGCGGCCCGCCTAACAACTTGTCGCCGGAGAAACTCACCAGACTGACGCCCGC +CGCAATCAACTCCTGCGGCATTGGCTCTTTCGGCAAACCGTACTGGCTAAGATCGACCAGCGAGCCACTG +CCTAAATCAGTCACTACGGGAACATCCAGCTCTTTGCCGAGCGCCACCAGTTCCGCTTCATCTATCGCTT +TGGTGAACCCCTGAATGCTGTAGTTACTGGTATGTACTTTCATCAACAGTGCGGTATTTTCATTCACCGC +CTGACGATAATCATTCGCGTGCGTGCGGTTGGTGGTCCCTACTTCGTGTAGGGTGCAGCCTGCCTGACGC +ATAACATCGGGAATACGAAACGCGCCGCCAATCTCCACCAGTTCGCCGCGAGATACCACCACCTCTTTTC +CGCTGGCAGTGGCCGCCAACATCAATAACACCGCCGCCGCATTGTTATTGACGATACAGGCATCTTCCGC +CCCCGTAATACGGCACAGCAGCTGCGCCAGCGCCCGATCGCGATGTCCGCGTCCGGCGTCGTCCAGATCA +TACTCGAGGGTCACTGGCGAACGCATAGCCTGCGCAACGGCTTCCACCGCGGCTTCCGCCTGTAAAGCTC +GCCCAAGGTTGGTATGCAGCACGGTTCCCGTCAGGTTGATCACCGGACGCAGCGCGCTCTGCGCTTCTTT +CGTCAACCGGGCATCGACTTCTTGCGCCCAGTTTTCACACCACGCAGGCAGCGTCTGGCTGCCACGAATC +ACTTCTCGCGCTTCGTCGAGCATCTGACGCAACAATTCCACCACGCGGGTGTGACCATAAGTATCACGCA +AAGAAAGGAAGGAGCTATCGCGCAATAAGCGATCAATAGCCGGAAGTTGACTATAGAGGGAACGCGTTTC +GGTTGTCATAGGAAACCTGGCTGATCAAGGCCCTCTCACACGGAGAAGGGCGTTTAACATAACCACGGAT +TGTAACGTGAGATGGGTCAGGAGGACATATCGCGCATCAAGCCTTTGGCGGTTCGGTGCGAGCAAAACTT +TCGCGGCTAAACAGGTTTTCGACCAGTTTGACTAAGTGTGGGCGGTCGACACACCAACCTGGCGCAACGC +GGCGGAAATTGAGATATCCGACGGCACAGGCAATGGCGATAGTCGCCAGATTGACCGTATCGGTTTTGAG +TGTGCCATCGACCAGATATCCTTCCAGCACATCCAGACTGCGGTTGATTTTCTCCCGCTGGCGTAACAAT +TCATCTTCAGACTGCTGCGCCGCTGGACGCGCCTGTTCACGCACCGATACCAGCCCGGCATCCATAATGC +CATCCGCCAGTGCCTCAATTTTGCGCACCCGCAACGACTCCAGCGGATCGCGCGGCAACATCGCCGGAGC +GACATTCATTAATTCAATATATTCAGCGATGATCGGCGAATCAAACCAGCATTCGCCCTCTTCGGTCACC +AGCACCGGCACTTTTCCTAACGGGTTAAATTGCGCCACGCCGTTGTCCGCGTTATAGGGCAGTTCATTAA +TAAATTCGAAAGTTATGCCCTTTTCTAACAACAGAATAGAAAGTTTGCGTACAAACGGGCTGGTGTAGCT +ACCGACGAGTTTCATGCCGAGTCCTTTGTGCGAGGAAAAATATCAGTATGGCCTGGTGATGGGAAAAAGG +GCAGAAAATGTTGATGGTTTGTTACTTCCAAATAAATCACATATTTATCATGGTGATATAAATATTTTCC +TAATTATTTCACTCTGATGGATATCTCACTTCAGGCTTTCTTATAAATCTGTAGGGTTTCGCCTGTCAGC +AGACAAATAACCCGATAAAACAAGGATGAGAAATGAGCGGAAAACCGGCAGCGCGTCAGGGCGACATGAC +GCAGTATGGCGGTAGCATTGTTCAGGGTTCAGCCGGGGTGCGCATTGGTGCCCCCACCGGCGTGGCCTGT +TCGGTGTGCCCCGGCGGAGTGACGTCCGGCCATCCGGTCAATCCCCTGCTCGGTGCAAAGGTCCTTCCCG +GTGAAACCGACATCGCCCTGCCCGGCCCGCTGCCGTTCATCCTCTCCCGCACCTACAGCAGTTACCGGAC +AAAAACGCCCGCGCCGGTGGGGAGCCTCGGCCCCGGCTGGAAAATGCCTGCGGATATCCGCTTACAGCTG +CGCGATAACACACTGATACTCAGTGATAACGGCGGCAGAAGCCTGTATTTTGAGCACCTGTTTCCCGGTG +AGGACGGTTACAGCCGCAGCGAGTCACTGTGGCTGGTGCGCGGCGGCGTGGCGAAACTGGATGAAGGTCA +CCGGCTGGCCGCACTCTGGCAGGCGCTGCCGGAAGAACTCCGCTTAAGTCCGCATCGTTATCTGGCGACA +AACAGTCCGCAGGGGCCGTGGTGGCTGCTCGGTTGGTGTGAGCGGGTGCCGGAAGCGGATGAGGTGCTGC +CTGCGCCGCTGCCGCCGTACCGGGTACTGACCGGGCTGGTGGACCGCTTCGGGCGCACACAGACGTTCCA +CCGCGAAGCCGCCGGTGAATTCAGCGGCGAAATCACCGGCGTGACGGATGGTGCCTGGCGTCACTTCCGG +CTGGTACTGACCACGCAGGCGCAGCGGGCAGAAGAAGCCCGGCAGCAGGCCATTTCCGGCGGGACGGAAC +CGTCCGCTTTTCCTGATACCCTGCCGGGTTACACCGAATATGGCCGGGACAACGGCATCCGTCTGTCTGC +CGTGTGGCTGACGCACGACCCGGAATACCCGGAGAATTTACCTGCCGCGCCGCTGGTGCGCTATGGCTGG +ACGCCACGCGGCGAACTGGCGGTGGTGTATGACCGTAGTGGCAAACAGGTGCGCAGCTTTACTTACGATG +ATAAATACCGGGGCCGGATGGTGGCGCACCGTCACACGGGCCGGCCGGAAATCCGTTACCGTTACGACAG +CGACGGGCGGGTGACAGAACAGCTAAACCCGGCAGGCTTAAGCTACACGTATCAGTATGAGAAAGACCGC +ATCACCATCACCGACAGCCTGGACCGCCGTGAAGTGCTGCACACGCAGGGCGAAGCCGGGCTGAAGCGGG +TGGTGAAAAAGGAACACGCGGACGGCAGCGTCACGCAGAGTCAGTTTGACGCCGTGGGCAGGCTCAGGGC +ACAGACGGATGCCGCAGGCAGGACAACAGAGTACAGCCCGGATGTGGTGACGGGCCTCATCACGCGCATA +ACCACGCCGGATGGCAGGGCATCGGCGTTTTACTATAACCACCACAACCAGTTAACGTCAGCCACCGGGC +CTGACGGGCTGGAATTGCGCCGGGAATATGATGAATTGGGCCGTCTGATTCAGGAAACTGCCCCTGACGG +CGATATCACCCGCTACCGTTATGATAATCCACACAGTGACTTACCCTGCGCAACGGAAGATGCCACCGGC +AGCCGGAAAACCATGACGTGGAGCCGTTACGGTCAGTTGCTGAGCTTCACCGACTGTTCCGGTTATGTAA +CCCGTTATGACCATGACCGCTTCGGGCAGATGACGGCGGTGCACCGCGAGGAAGGGCTGAGTCAGTACCG +CGCATACGACAGCCGTGGACAGTTAATTGCCGTGAAAGACACGCAGGGCCATGAAACGCGGTATGAATAC +AACATCGCCGGTGACCTGACCGCCGTCATTGCCCCGGACGGCAGCAGAAACGGGACACAGTACGATGCGT +GGGGAAAGGCCGTCCGTACCACGCAGGGCGGGCTAACGCGCAGTATGGAATACGATGCTGCCGGACGGGT +CATCCGCCTGACCAGTGAAAACGGCAGCCACACCACCTTCCGTTACGATGTACTTGACCGGCTGATACAG +GAAACCGGCTTTGACGGCCGCACACAGCGTTATCACCACGACCTGACCGGCAAACTTATCCGCAGCGAGG +ATGAGGGTCTGGTCACCCACTGGCACTATGACGAAGCAGACCGCCTCACGCACCGCACCGTGAAGGGTGA +AACCGCAGAGCGGTGGCAGTATGACGAACGTGGCTGGCTGACAGACATCAGCCATATCAGCGAAGGGCAC +CGGGTGGCGGTGCATTACAGGTATGATGAGAAAGGCCGGCTGACCGGTGAGCGTCAGACGGTGCATCACC +CGCAGACGGAAGCACTGCTCTGGCAGCATGAGACCAGACATGCGTACAACGCGCAGGGGCTGGCGAACCG +CTGTATACCGGACAGCCTGCCCGCCGTGGAATGGCTGACCTACGGCAGCGGTTACCTGGCAGGCATGAAA +CTCGGCGACACACCGCTGGTGGAGTACACCCGCGACCGCCTGCACCGGGAAACGCTGCGCAGCTTCGGCC +GTTATGAACTCACCACCGCTTATACCCCTGCCGGGCAGTTACAGAGCCAGCACCTGAACAGCCTGCTGTC +TGACCGCGATTACACCTGGAACGACAACGGCGAACTCATCCGCATCAGCAGCCCGCGCCAGACCCGGAGT +TACAGCTACAGCACCACCGGCAGGCTGACCGGCGTTCACACCACCGCAGCGAATCTGGATATCCGCATCC +CGTATGCCACAGACCCGGCAGGTAACCGCCTGCCCGACCCGGAGCTGCACCCGGACAGCACCCTCAGCAT +GTGGCCGGATAACCGTATCGCCCGTGACGCGCACTATCTTTACCGGTATGACCGTCACGGCAGGCTGACA +GAGAAAACCGACCTCATCCCGGAAGGGGTTATCCGCACGGATGATGAGCGGACTCACCGGTACCATTACG +ACAGTCAGCACCGGCTGGTGCACTACACGCGGACACAATATGAAGAGCCGCTGGTCGAAAGTCGCTATCT +TTACGACCCGCTGGGCCGCAGGGTGGCAAAACGGGTGTGGCGGCGTGAACGGGACCTGACGGGCTGGATG +TCGCTGTCACGGAAACCGCAAGTGACCTGGTACGGCTGGGACGGCGACCGGCTGACCACAATACAGAACG +ACAGAACCCGCATCCAGACGATTTATCAGCCGGGGAGCTTCACGCCACTCATCAGAGTTGAAACCGCCAC +CGGTGAGCTGGCGAAAACGCAGCGCCGCAGCCTGGCGGATGCGCTTCAGCAGTCCGGCGGCGAAGACGGT +GGCAGTGTGGTGTTCCCGCCGGTGCTGGTGCAGATGCTCGACCGGCTGGAAAGTGAAATCCTGGCTGACC +GGGTGAGTGAGGAAAGCCGCCGCTGGCTGGCATCGTGCGGCCTGACCGTGGAGCAGATGCAAAACCAGAT +GGACCCGGTGTACACGCCGGCGCGAAAAATCCACCTGTACCACTGCGACCATCGCGGCCTGCCGCTGGCC +CTTATCAGCAAGGAAGGGACAACAGAATGGTGCGCAGAATACGATGAATGGGGCAACCTGCTGAATGAAG +AGAACCCGCATCAGCTGCAGCAGCTTATCCGCCTGCCGGGGCAGCAGTATGATGAGGAGTCCGGCCTGTA +TTACAACCGCCACCGCTATTATGACCCGCTGCAGGGGCGGTATATCACTCAGGATCCGATTGGGCTGAAG +GGGGGATGGAATTTTTATCAGTATCCGTTGAATCCAGTTACGAATACAGATCCTCTGGGGTTAGAAGTTT +TTCCTAGACCATTCCCCTTGCCAATTCCATGGCCCAAAAGCCCTGCACAGCAGCAAGCAGATGATAATGC +TGCAAAAGCATTGACAAAATGGTGGAACGATACAGCATCACAAAGAATATTTGACTCTCTAATATTGAAT +AATCCGGGACTAGCATTAGATATAACAATGATAGCTTCTCGTGGAAATGTTGCAGACACAGGGATAACTG +ATCGTGTCAATGACATAATAAATGACAGATTCTGGAGTGATGGGAAAAAACCCGACAGATGTGACGTACT +TCAGGAACTAATTGATTGTGGTGATATTAGTGCTAAAGATGCAAAAAGCACACAGAAAGCCTGGAATTGT +CGTCACTCCAGACAGTCAAACGATAAAAAAAGATAGCCCTTGTGGAGGTTCCTGCAATGTCAAATACATA +CCAGAAAAGAAAGGCAAGTAAAGAGTATGGTTTATATAATCAATGTAAGAAACTAAATGATGATGAATTA +TTTCGCTTACTTGATGATCACAATTCCTTGAAAAGGATTTCATCTGCCAGAGTATTACAGTTAAGAGGTG +GGCAAGACGCTGTTAGATTGGCAATTGAGTTCTGCTCTGATAAAAATTATATCCGTAGAGATATCGGAGC +ATTTATACTCGGGCAAATAAAAATTTGCAAAAAATGCGAAGATAATGTTTTTAATATTTTGAACAATATG +GCATTGAATGATAAGAGCGCTTGCGTTCGAGCTACGGCAATCGAGTCAACGGCTCAGCGATGCAAGAAAA +ACCCAATTTATTCACCTAAAATAGTAGAACAATCTCAAATTACTGCTTTTGATAAATCGACTAATGTCAG +ACGTGCTACAGCATTTGCTATTTCTGTTATCAATGATAAAGCAACAATTCCACTATTGATTAATCTGTTA +AAAGATCCAAATGGAGATGTCAGAAACTGGGCCGCATTTGCAATAAATATCAATAAATATGATAATAGTG +ATATTAGGGATTGTTTTGTGGAGATGCTTCAGGATAAAAATGAGGAAGTCCGTATTGAAGCAATAATCGG +ACTTTCCTACAGAAAAGATAAAAGGGTTTTATCTGTTTTATGCGATGAGTTAAAAAAAAATACTGTTTAT +GATGATATCATTGAAGCTGCGGGTGAATTAGGTGATAAAACGCTACTTCCTGTTTTAGATACTATGTTGT +ACAAGTTTGATGACAATGAAATTATAACTTCCGCTATTGATAAGCTGAAGCGTTCATAGCGTGAGTTGCC +TATGCACAGTGGGGGATTCCCGCCGGCACGGTGCAGATGCTCGACCGGCTGGAAAGTGAAATCCTGGCTG +ACCGGGTGAGTGAGGAAAGCCGCCGCTGGCTGGCATCGTGCGGCCTGACCGTGGAGCAGATGAAAAACCA +GATGGACCCGGTGTACACGCCGGCGCGAAAAATCCACCTGTACCACTGCGACCATCGCGGCCTGCCGCTG +GCGCTCATCAGCACGGAAGGGGCAACAGCGTGGTGCGCAGAATATGATGAATGGGGCAACCTGCTGAGTG +ATGAGAACCCGCATCATCTGCAGCAGCTCATTCGCCTGCCGGGTCAGCAGTATGATGAGGAGTCCGGCCT +GTATTACAACCGCCACCGCTATTATGACCCGCTGCTGGGGCGGTATATCACTCAGGATCCGATTGGACTG +AAGGGGGGATGGAATTTTTATCAGTATCCGTTGAATCCGGTCATAAATGTAGATCCGCAAGGTTTGGTTG +ATATAAATTTATACCCCGAAAGTGATCTTATCCATTCTGTAGCTGATGAGATTAATATCCCAGGCGTTTT +CACAATCGGGGGGCATGGTACCCCCACATCTATTGAATCCGCAACGCGCAGTATCATGACAGCTAAAGAT +CTAGCATATCTAATTAAATTTGATGGGAATTATAAAGATGGGATGACAGTTTGGTTATTTTCTTGTAATA +CAGGTAAAGGACAAAATTCATTTGCTAGCTAATTAGCTAAAGAGTTACATACAAATGTAATAGGACCTGA +CACGCTATGGACGTGGTGGGGGCGAGGAACTAATGGTAAGTTAAAAATGGATACAGTGCTAACAGCACCA +ACGAACCTTAATTCAAATAAGGATCTAATGGCTATAACAACAAAAGACCTTGGTAATTGGATAACATATG +GGCCATCTGGGCACCCCATTTCTAATATGCAAGGTACGCCAGAAAAACCCAGTGATATAAGATAGGTTGT +AGATGTATGAAAGCATGCTTGTTACTATTTTTTTATTTCTCTTTTATTTGTCAATTGCATGGTGCTGATG +TGAAAATAAAACAAAACGAAAGTATGATGGGGTCTACAGCAATGACCTATGATTTAAGTGAAGAAAAGTT +GATGAAACTGAAGTATAAATCACAACATGGTGATTCAGAGGCATCATTTCGACTATATCAATATTACTGC +TTTACTAAAAATAACATTTACAAACAATTGCGATTCTTGGAAAGATCAGCATCTCAGGGGAATGTTACAG +CGCAGTTTAATTATGGGGTCTTTTTATCAGATACAAATCCAACATTATCAGAATATTATAATTTGAATAG +AGCTATTTATTGGATGGAATTCGCTGTAAATAACGGTAATATTGATGCAAAGAGCAAACTTCAAGAGCTC +AAAAAGCTAAAGCGAATGGATAGAAGGAAGAATAAGGAGAATCCGTAAAAGCAATAGTTCATCAGACTGC +CGCAGCAGTAGTATGATGATGAATCAGGGCTGTACTATAACTATTATCGGTAACATTAACCGCAGCAGGG +GCGGTATAACACTCAGGCTCCGATTGGGCTGGAAGGTAGGTGGAATTTTTATCAGTATCCGTTGAACCCG +ATTTCTGGAATCGATCCCCTTGGGATTAGCCACCTGTTTATACAGCATAACTTTAGGTATGCTTTCGTGT +GTTTCAGATATACCATGTGATGATAATTTTTATGATGTGCTTAGTATTCCAGTCGCTTCTGGTAATAATA +TGCAATGTAAAAATAATCCCCGTTGTACACATTTATAAATAGATGGCCAATACCTCAAGGCCTATGGAGT +TGGAATGTTAATGACCCGGGAGCAAGCAATAGAAAACCTGACGGCATACGATTAGTACCGTCAGTTAATA +CAGGAACTTATAATCGCAATGGATTTTCAATACATAGTTGTTTAAACGCTTTTGGTCCGTCTTTAGGACC +TCGATTCTGTTCCGAGGGTTGTATAACTGGTTTATCTAATGACATGCAAAAATTAAATGAGTTAATATTT +TCAGAGCCAGATAGCACATTAACAGTTACGGACTAAAAAATATGGCAAGGTTATTAACAATTGTATTTTT +TTCTCTATTTCTGCGAGTGCAGTTACTGCAAGACAATTTCAGAGAGAGTTAGATTTGGCAGACAAAGCAA +TATTATGGGCACTAATATCAGCCAGTACTAAAGAGGGACGAAAAGCGTGTTCACTAAGCTATTTTGCCTG +TAAGGCCGCAGAGGCTGAACTCGGACTGGCATATATGGCTGCGAATGATAACAAGGAATTTCTCACATCC +TTATCTAATATAATGAGGTACAAAATAGATGCTGGACTTTCCGAATCCTATACATGCTATTTATTAAGTA +AGGGAAAGATCATAAGACCATATCTGAAAAATCTAAATCCACTCCAACTTGCCGCTGATTGCATTGAAAC +AGTAAATAAAATAAAAGATAAGAATAAAAAAAATCATTGATATAAATTCAGTTAATATTTGTAGTGATGA +TAAAAATATAAAATTGAGAGTTAATAGTACTATTATGGCCATTGATGATTCTATAAAGTGCATCGATGAA +TGATAACTTAATTTTATTTAAAAATATATTAATAACTCACTCTCCAGGAGTTTTTTTAACTTAGTTTTAT +AATGAATACGATAATTAAAAGTGAAGAAGAAAATAGTTGTATACATATATTCCATGACCCTACATTGTGA +TCTATAGATTAAATATTTTTTAAATGTGACTGTCATCCTTCAGATAATAAAGCCATCATCGCAATAGATG +GAAAAGCACTCCTGCTCTTTTTTGATTAGAGCCGTCGCAGGAGGAACAACTCATATCATCATTGCGATCT +CGACGATGTATAGTCTCATCCTGCGGCAGAACAAGACGGATAAAAAATCCAATGAGAGCACACTCATCCA +GAACTTATTAACATAATGAATATTAAAGAAAAATCATCGAAGCTAATGAAGTAATATGCAAAAATAATTA +GTCCTTACAAGGAGCAAAGTTCCATAATCTCCCCCCTCCCCCTCAATGATCCAAATAAAGATAATGCATC +CAGCTGGTCATTCTTAGCAGCACTTTCCGCATCACCGAAACATGGCTGAAATGGTCGGAGTAAACCGCCA +CCTGGGCGTAGATGCCGTCGGGTAAGGCATCGATATCATCGTTAGGGTCCAGTTCAATGGTTCCCAGCAC +ACCGTCCGTGCCGGGCACGACCGTTAATGATTGCAATACCCCCTGCGCCTGATAAGAACCGCCTGGCACG +ACAGGTAAAATACTAGTCAGTTTGCCGTGAAACACCTGCCCAGGTAGCGCGTTAAACACCACTTCCGCAT +CATCGCCAGGTTTCAGACGTAACAGCGAGTTTTGCCGAAATTGGGCGACAATTTGCCGTTTTTGCTCGGG +GATGAAGACCATCACCGGACGCAGCGGCAAGGCAGCTGCGTATGTACCTGGGCGGATCAGTACCTGAGTA +ACGTAGCCATTGCTCGGCGCGCGAATGACAGTCTGCTCAAGGTTATATTTTGCTTCAGTAAGTTGCGCTC +TTAAGCTCACAATCTGCGATTGCTCGCCGTTAACCATACTGTCGAGCTGGCTCTGGATCTGCGCCTGCTC +CGCCACCGAGCCTTTCACCAGCGCATCCTGCGCGAGGAAATTTTGCCGCGCATCGTCGATGTCACGTTCC +GAGAACGGATTCACCGCCGCCTGGCTGCCTTTCAAGTAACGTTGATAATTTTTAAACAGACGGTCGCGCT +CCGCTGAAACCTGGGTGGTGTTGGCCTGCGCTTCAGTGAGCTGCGCACGCAGCGTCTTTATATTATGCGT +CGCCGTCATCAGGTCAGCCTGAAGTCTGTCAACTCGCGCCTGGTAACGAACCGGGTCGAGCTTAAAAAGC +ACCTCGCCCTTTTGAATAAGCTGATTATTCTTGTCAGTGACTTCAGTAACAATTCCCGTCACCTGTGGCG +TGATAGGGATCGCTATCACTGCCTTTTGCGCGGTAAAAGTGTAAGGGTGGTTGTAGTTCATCAACAAAAT +CAAACCACTCACCAGAAACACGCCTCCCAGCGCCGCCGTCGCCAGCGTCCACTGATTTACCGGAATGCGG +AAGATTTTAAAGACCGCCCACGCCAGCGCCACGTAAGTTAAAACAATCAATAGATCCATAATTAGATCTC +CGGGAACGTGGAATAGTCAGTCTTTTTCTCGGCGGCGAGTTGATGCTCCAGCCGGGAAATTCGGTCAGAA +AGTGCGGCGATTTCCGGGTCAGTCGCTTTCTCCTGCGACGCAACATGTGACTGCATACCCCAGCCACGCT +CCGGTTGATAGAGCGTCGCCCAGATCCACAGAAACGGCCAGATAACATGCAGAGTAAACAGGCTCACCCA +GCCCGCCGTATGAATAGCGTCGGCATGGGGATGGTTGCGCTTTTTGGCAATCAGATAAGGGATGTCATGT +ATCGCGATGATTCCATAAAAAATCACCAGAAAGACGAAGATCAGCACTCCCAACGCGAAATAGTTTAGAA +ACATATCTGCCTCGGATTCACGTTTATCAGTGTTGTTTTTGGGCTGGCAGCCAGAAGGGAGTCAGGCTGA +TATTTTGACAATAATCCGGGTTCGCGATTCTCGCCATAACACCAAAGAATAATTTTTAGAGGTGATGAGT +TGCTTAGTTACATAACGATTGTATGACGAAGGCATAACATGCTGTAGATCACATCAGGTGAACGCCGTAA +GAAAATATCTTGTGATTCAGATCACAAAGATTCAACAAACCATCAAAACAAAAATGTGACACTACTCACA +TTTAAATGCCATTTTTAGCGAAAATCGCCGCCTTGTTGCTTTTTTACACAAGCGTTTTGTGATGAACGTC +ACGTCAATTACCTCTCTACCCCCTATATTTATGTGATTGATATCACACAAAAGGCCGTCGACTGGACAGT +TAACCGATTCAGTGCCAGATTTCGCAGTATCTACAAGGTCCGGCTACCTCTGCCGCCACATTAACAAAAA +ACCTCGGGCTTCCAGCCTGCGCGACAGCAAACATAAGAAGGGGTGTTTTTATGTCATCCGATATTAAGAT +CAAAGTGCAAAGCTTTGGTCGTTTCCTCAGCAACATGGTGATGCCAAATATCGGCGCGTTTATCGCGTGG +GGTATCATCACCGCGTTATTTATTCCAACAGGGTGGTTACCGAACGAGACGCTGGCGAAGCTGGTCGGGC +CGATGATCACTTATCTCCTGCCGCTGCTGATCGGTTATACCGGTGGTAAGCTGGTAGGCGGCGAACGTGG +CGGCGTAGTCGGTGCCATCACCACCATGGGCGTTATCGTCGGCGCAGACATGCCGATGTTCCTCGGTTCT +ATGATTGCAGGTCCGCTGGGCGGCTGGTGCATTAAGCACTTCGACCGCTGGGTAGACGGTAAGATCAAAT +CCGGTTTTGAGATGCTGGTGAATAACTTCTCCGCAGGCATCATCGGGATGATCCTCGCTATTCTGGCATT +CCTCGGCATTGGCCCGATTGTTGAAGCCCTGTCCAAAATGCTGGCTGCGGGCGTTAACTTCATGGTTGTC +CATGACATGCTGCCGCTGGCGTCTATCTTTGTTGAACCGGCGAAAATCCTGTTCCTCAACAACGCCATTA +ACCACGGTATCTTCTCGCCGCTGGGTATTCAGCAGTCCCATGAACTGGGTAAATCAATCTTCTTCCTGAT +TGAAGCTAACCCAGGTCCAGGTATGGGCGTGCTGCTGGCGTACATGTTCTTTGGTCGTGGTAGCGCTAAA +CAGTCTGCGGGCGGTGCGGCAATCATCCACTTCCTGGGGGGTATCCACGAAATCTACTTCCCGTATGTGC +TGATGAATCCGCGTCTGATCCTCGCAGTCATCCTCGGCGGTATGACTGGCGTGTTCACGCTGACTATCCT +GGGCGGTGGTCTGGTTTCTCCGGCATCTCCGGGTTCTATCCTTGCTGTACTGGCGATGACACCAAAAGGT +GCTTACTTCGCTAACATCGCGGGTGTGTGTGCGGCGATGGCTGTCTCCTTCGTTGTCTCTGCTATTTTGC +TGAAAACCAGCAAAGTGAAAGAAGAAGATGATATTGAAGCAGCAACTCGTCGTATGCAGGACATGAAAGC +TGAGTCTAAAGGCGCATCTCCGCTGTCTGCTGGCGATGTGACTAACGACCTGAGCCACGTACGTAAAATC +ATCGTTGCCTGTGACGCCGGTATGGGTTCCAGTGCGATGGGCGCAGGCGTTCTGCGTAAGAAAATTCAGG +ATGCAGGTCTGTCGCAGATTTCTGTTACTAACAGCGCGATCAACAACCTGCCGCCAGATGTGGACCTCGT +CATCACTCACCGTGACCTGACCGAACGCGCTATGCGCCAGGTTCCGCAGGCACAGCATATTTCGCTGACC +AACTTCCTCGACAGCGGCCTGTACACCAGCCTGACCGAACGTCTGGTTGCTGCCCAACGCCACACGGCAA +ACGAAGAGAAAGTAAAAGACAGCCTGAAAGACAGCTTTGACGATTCCAGTGCTAACCTGTTCAAGCTAGG +CGCGGAGAACATCTTCCTCGGTCGCAAAGCGGCAACCAAAGAAGAAGCGATTCGTTTTGCTGGCGAGCAG +CTGGTGAAAGGCGGTTACGTTGAGCCGGAATACGTTCAGGCGATGCTGGATCGTGAAAAACTGACCCCGA +CTTATCTGGGTGAGTCTATCGCGGTGCCACACGGTACGGTTGAAGCGAAAGATCGCGTACTGAAAACGGG +CGTCGTGTTCTGCCAGTACCCGGAAGGCGTGCGCTTCGGTGAAGAAGAAGATGACATTGCCCGTCTGGTG +ATTGGTATTGCTGCCCGTAACAACGAGCACATTCAGGTTATCACCAGCCTGACCAATGCACTGGATGATG +AGTCCGTCATCGAGCGTCTGGCACACACCACCAGCGTGGATGAAGTGCTGGAACTGCTGGCAGGTCGTAA +GTAATCCAATCCCACCCTCTCCACATGGAGAAGGTGGGGTTAATTGCCTGATGCGCTACGCTTATCAGGC +CTACAGGATGCATCACAATTTGTTGAATTTGCACGTTCTTGTAGGCCGGATAAGGCGCTTACGCCGCATC +CGGCGCTGCCCCTCTCCTCACGGAGAGGGTTTGGGTGAGGGAAAAGCCTCACCCCAGCCCTCTCGGGTAA +AAACATTGATGAAGGTTAATACTATGAAAGCATTACATTTTGGCGCAGGTAATATCGGTCGTGGCTTTAT +CGGTAAACTGCTGGCAGACGCGGGTATCCAACTGACGTTTGCCGATGTCAATCAGGTGGTACTTGATGCC +CTGAATGCCCGTCATAGCTATCAGGTACATGTGGTTGGTGAAACCGAGCAGGTAGATACCGTTTCCGGCG +TCAATGCTGTCAGCAGCATTGGTGATGATGTCGTTGATCTGATTGCTCAGGTTGATTTAGTCACTACCGC +CGTTGGCCCGGTTGTGCTGGAACGTATTGCTCCGGCAATCGCCAAAGGGCAGGTGAAACGTAAAGAACAA +GGTAATGAATCCCCGCTGAACATCATCGCCTGTGAAAACATGGTACGCGGTACCACGCAGCTGAAAGGCC +ATGTGATGAACGCCCTGCCGGAAGACGCCAAAGCGTGGGTAGAAGAACACGTTGGCTTTGTCGATTCCGC +CGTTGACCGCATCGTACCGCCTTCGGCTTCGGCAACTAACGATCCGCTGGAAGTGACGGTAGAAACCTTC +AGCGAATGGATTGTCGATAAAACGCAGTTCAAAGGCGCACTGCCGAACATCCCAGGCATGGAGTTAACCG +ACAACCTGATGGCATTTGTCGAACGTAAACTCTTCACCCTGAACACGGGTCATGCTATAACCGCGTACCT +CGGAAAACTGGCCGGTCATCAGACCATTCGTGACGCGATTCTCGACGAGAAAATCCGCGCGGTGGTAAAA +GGTGCGATGGAAGAAAGTGGTGCAGTATTGATCAAGCGCTACGGCTTTGACGCTGACAAGCATGCGGCGT +ACATCCAGAAAATTCTCGGCCGTTTTGAGAACCCGTATCTGAAAGATGATGTAGAGCGCGTAGGCCGTCA +GCCACTGCGTAAACTGAGTGCTGGCGACCGTCTGATCAAGCCACTGCTCGGTACGCTGGAATATGGTCTG +CCACATAAAAACCTGATTGAAGGTATTGCCGCTGCAATGCACTTCCGCAGTGAAGATGATCCGCAGGCTC +AGGAACTGGCAGCACTGATCGCTGACAAAGGTCCGCAGGCGGCGCTGGCACAGATTTCCGGTCTTGATGC +CAACAGCGAGGTTGTATCCGAGGCGGTAACCGCTTATAAAGCAATGCAATAATGGTGGACCAGGCGCAGG +ACACCCTGCGCCCGAATAACAGATTGTCAGATATGCAGGCAACAATGGAACAAACCCAGGCCTTTGAAAA +CCGTGTGCTTGAGCGTCTGAATGCTGGCAAAACCGTGCGAAGCTTTCTGATCACCGCCGTCGAGCTCCTG +ACCGAGGCGGTAAATCTTCTGGTGCTTCAGGTATTCCGCAAAGACGATTACGCGGTGAAGTATGCTGTAG +AACCGTTACTCGACGGCGATGGTCCGCTGGGCGATCTTTCTGTGCGTTTAAAACTCATTTACGGGTTGGG +CGTCATTAACCGCCAGGAATACGAAGATGCGGAACTGCTGATGGCATTGCGTGAAGAGCTAAATCACGAC +GGCAACGAGTACGCCTTTACCGACGACGAAATCCTTGGACCCTTTGGTGAACTGCACTGCGTGGCGGCGT +TACCACCGCCGCCACAGTTTGAACCAGCAGACTCCAGTTTGTATGCAATGCAAATTCAGCGCTATCAACA +GGCTGTGCGATCAACAATGGTCCTTTCACTGACTGAGCTGATTTCCAAAATCAGCTTAAAAAAAGCCTTT +CAAAAGTAAGCAACGTCTGCTTACTGCCCCTCTACCTGCTTCGGCCGATAAAGCCGACGATAATACTCCA +GACGTTGTAGATATAACGGCACGCTTTCATCGGGTATTCCGGACGGAATCGCGTTACGGGGAGGAAGTTT +TTTCAGATACTCCCGGAACGCCTGGCTTGATGCCATGAAATCTACGGCTTTATCGATAAGAAGCGGAACG +TTTTCACCTAATTTGCCCATGATGATATCTCCGTATTACCCCGCGCCGGGAATGCGCGGCCGCCAATTTT +AGTTTAGGTTCCCGGTAAAGATGACATTAAGGAAAACGTGCTGAATCCTCAATAATCATCCGCTGCTGTT +TATTATCTTTTTTCTATAGATTTCTTAATTAATCAACGAATTGCGCAGTTTTTGAGCATGTTAATGATTA +CGTTACAGAACTATTACAATGTCATTAGTTGTGAACAAAGCACCTGGTCGCGCATACTAGGGGCTATAAA +TTTATCTTTATCAGAAGCCATCACATGAAAGAAGTCGAAAAAAACGAAATCAAACGCCTCAGCGATCGCC +TGGACGCCATCCGCCACCAGCAGGCCGATCTTTCGCTGGTTGAAGCCGCAGACAAATATGCCGAGCTGGA +AAAAGAGAAAGCCACGCTGGAAGCAGAAATTGCTCGCCTGCGTGAAGTTCATAGCCAAAAACTGAGTAAA +GAAGCACAGAAGCTGATGAAGATGCCATTCCAGCGCGCAATTACCAAAAAAGAGCAGGCTGATATGGGCA +AGCTGAAGAAAAGTGTTCGCGGACTGGTCGTTGTGCACCCAATGACCGCACTGGGCCGCGAAATGGGCCT +GCAGGAGATGACTGGGTTTTCAAAGACCGCGTTTTAAGAACACAGTATCTACAGGGTGATTCTGCACATT +CCTATAGGCCGAGTAAGGTGTTCACGCCGCATCCGGCAAGATAAGGCGCTCTGGATCAACAACCTAAGGG +CAATTCTCTGATGAGGATTGCCCTTTTCTTTACCAGACATCTCCCCCCACAAGAATTGGCCCTACCAATT +CTTCGCTTATCTGACCTCTGGTTCACAATTTCCCAATTAAAACTCACATCAATGTTGCCAATACATAACA +TTTAGTTAACCATTCATTGTCATTATCCCTACACAACACAATTGGCAGTGCCACTTTTACACAACGTGTG +ACAAGGAGATGAGCAACAGACTCATTACACGATGTGCGTGGACTCCAGGAGACCTGCAATGAATCTCTGG +CAACAAAACTACGATCCCGCCGGGAATATCTGGCTTTCCAGTCTGATAGCATCGCTTCCCATCCTGTTTT +TCTTCTTTGCGCTGATTAAGCTCAAACTGAAAGGATACGTCGCCGCCTCGTGGACGGTGGCAATCGCCCT +TGCCGTGGCTTTGCTGTTCTATAAAATGCCGGTCGCTAACGCGCTGGCCTCGGTGGTTTATGGTTTCTTC +TACGGGTTGTGGCCCATCGCGTGGATCATTATTGCAGCGGTGTTCGTCTATAAGATCTCGGTGAAAACCG +GGCAGTTTGACATCATTCGCTCGTCTATTCTTTCGATAACCCCTGACCAGCGTCTGCAAATGCTGATCGT +CGGTTTCTGTTTCGGCGCGTTCCTTGAAGGAGCCGCAGGCTTTGGCGCACCGGTAGCAATTACCGCCGCA +TTGCTGGTCGGCCTGGGTTTTAAACCGCTGTACGCCGCCGGGCTGTGCCTGATTGTTAACACCGCGCCAG +TGGCATTTGGTGCGATGGGCATTCCAATCCTGGTTGCCGGACAGGTAACAGGTATCGACAGCTTTGAGAT +TGGTCAGATGGTGGGGCGGCAGCTACCGTTTATGACCATTATCGTGCTGTTCTGGATCATGGCGATTATG +GACGGCTGGCGCGGTATCAAAGAGACGTGGCCTGCGGTCGTGGTTGCGGGCGGCTCGTTTGCCATCGCTC +AGTACCTTAGCTCTAACTTCATTGGGCCGGAGCTGCCGGACATTATCTCTTCGCTGGTATCACTGCTCTG +CCTGACGCTGTTCCTCAAACGCTGGCAGCCAGTGCGTGTATTCCGTTTTGGTGATTTGGGGGCGTCACAG +GTTGATATGACGCTGGCCCACACCGGTTACACTGCGGGTCAGGTGTTACGTGCCTGGACACCGTTCCTGT +TCCTGACAGCTACCGTAACACTGTGGAGTATCCCGCCGTTTAAAGCCCTGTTCGCATCGGGTGGCGCGCT +GTATGAGTGGGTGATCAATATTCCGGTGCCGTACCTCGATAAACTGGTTGCCCGTATGCCGCCAGTGGTC +AGCGAGGCTACAGCCTATGCCGCCGTGTTTAAGTTTGACTGGTTCTCTGCCACCGGCACCGCCATTCTGT +TTGCTGCACTGCTCTCGATTGTCTGGCTGAAGATGAAACCGTCTGACGCTATCAGCACCTTCGGCAGCAC +GCTGAAAGAACTGGCTCTGCCCATCTACTCCATCGGTATGGTGCTGGCATTCGCCTTTATTTCGAACTAT +TCCGGACTGTCATCAACACTGGCGCTGGCACTGGCGCACACCGGTCATGCATTCACCTTCTTCTCGCCGT +TCCTCGGCTGGCTGGGGGTATTCCTGACCGGGTCGGATACCTCATCTAACGCCCTGTTCGCCGCGCTGCA +AGCCACCGCAGCACAACAAATTGGCGTCTCTGATCTGTTGCTGGTTGCCGCCAATACCACCGGTGGCGTC +ACCGGTAAGATGATCTCCCCGCAATCTATCGCTATCGCCTGTGCGGCGGTAGGCCTGGTGGGCAAAGAGT +CTGATTTGTTCCGCTTTACTGTCAAACACAGCCTGATCTTCACCTGTATAGTGGGCGTGATCACCACGCT +TCAGGCTTATGTCTTAACGTGGATGATTCCTTAATGATTGTTTTACCCAGACGCCTGTCAGACGAGGTTG +CCGATCGTGTGCGGGCGCTGATTGATGAAAAAAACCTGGAAGCGGGCATGAAGTTGCCCGCTGAGCGCCA +ACTGGCGATGCAACTCGGCGTATCACGTAATTCACTGCGCGAGGCGCTGGCAAAACTGGTGAGTGAAGGC +GTGCTGCTCAGTCGACGCGGCGGCGGGACGTTTATTCGCTGGCGTCATGACACATGGTCGGAGCAAAACA +TCGTCCAGCCGCTAAAAACACTGATGGCCGATGATCCGGATTACAGTTTCGATATTCTGGAAGCCCGCTA +CGCCATTGAAGCCAGCACCGCATGGCATGCGGCAATGCGCGCCACACCTGGCGACAAAGAAAAGATTCAG +CTTTGCTTTGAAGCAACGCTAAGTGAAGACCCGGATATCGCCTCACAAGCGGACGTTCGTTTTCATCTGG +CGATTGCCGAAGCCTCACATAACATCGTGCTGCTGCAAACCATGCGCGGTTTCTTCGATGTCCTGCAATC +CTCAGTGAAGCATAGCCGTCAGCGGATGTATCTGGTGCCACCGGTTTTTTCACAACTGACCGAACAACAT +CAGGCTGTCATTGACGCCATTTTTGCCGGTGATGCTGACGGGGCGCGTAAAGCAATGATGGCGCACCTTA +GTTTTGTTCACACCACCATGAAACGATTCGATGAAGATCAGGCTCGCCACGCACGGATTACCCGCCTGCC +CGGTGAGCATAATGAGCATTCGAGGGAGAAAAACGCATGATTATTTCCGCAGCCAGCGATTATCGCGCCG +CAGCGCAACGCATTCTGCCGCCGTTCCTGTTCCACTATATGGATGGTGGTGCATATTCTGAATACACGCT +GCGCCGCAACGTGGAAGATTTGTCAGAAGTGGCGCTGCGCCAGCGTATTCTGAAAAACATGTCCGACTTA +AGCCTGGAAACGACGCTGTTTAATGAGAAATTGTCGATGCCGGTGGCACTGGCTCCGGTGGGTTTGTGTG +GCATGTATGCGCGTCGTGGCGAAGTTCAGGCAGCCAAAGCGGCGGACGCGCATGGTATTCCGTTTACTCT +CTCGACGGTTTCCGTTTGCCCGATTGAAGAAGTCGCGCCAGCCATCAAGCGCCCAATGTGGTTCCAGCTT +TATGTACTGCGCGATCGCGGCTTTATGCGTAACGCGCTGGAGCGAGCAAAAGCAGCGGGTTGTTCGACGC +TGGTTTTCACCGTGGATATGCCGACACCGGGCGCACGCTACCGTGATGCGCATTCAGGTATGAGCGGCCC +GAACGCGGCAATGCGCCGCTACTTGCAAGCGGTGACACATCCGCAATGGGCGTGGGATGTGGGCCTGAAC +GGTCGTCCACATGATTTAGGTAATATCTCAGCTTATCTCGGCAAACCGACCGGACTGGAAGATTACATCG +GCTGGCTGGGGAATAACTTCGATCCGTCCATCTCATGGAAAGACCTTGAATGGATCCGCGATTTCTGGGA +TGGCCCGATGGTGATCAAAGGGATCCTCGATCCGGAAGATGCGCGCGATGCAGTACGTTTTGGTGCTGAT +GGAATTGTGGTTTCTAACCACGGTGGCCGCCAGCTGGACGGTGTACTCTCTTCCGCCCGTGCACTGCCTG +CTATTGCAGATGCGGTGAAAGGTGATATAGCCATTCTGGCGGATAGCGGAATTCGTAACGGGCTTGATGT +CGTGCGTATGATTGCGCTCGGTGCCGACACCGTACTGCTGGGTCGTGCTTTCTTGTATGCGCTGGCAACA +GCGGGCCAGGCGGGTGTAGCTAACCTGCTAAATCTGATCGAAAAAGAGATGAAAGTGGCGATGACGCTGA +CTGGCGCGAAATCGATCAGCGAAATTACGCAAGATTCGCTGGTGCAGGGGCTGGGTAAAGAGTTGCCTGC +GGCACTGGCTCCCATGGCGAAAGGGAATGCGGCATAGTCGTTTGCGCCCCCTCACCCTAACCCTCTCCCT +CAGGGAGAGGGGACCGTTCGGCGCTGTATGTACTCCCTCACTCTGAAACGACACCGCACTCTTTTTTTCT +CCCTCGCCCCTCCGGGGAGAGGGCCGGGGTGAGGGGAAAAGGCCGCACTGCTCACCAATTTTCTGCTATC +CTGCCCCCGCACTAAGGGGGCAGTATGCTAAACATCGTACTTTACGAACCAGAAATTCCGCCAAATACTG +GCAACATCATCCGTCTTTGCGCTAATACCGGCTTTCGTCTGCATATCATCGAACCGATGGGATTTGCCTG +GGACGATAAGCGCCTGCGCCGCGCGGGGCTGGACTATCACGAGTTTACCGCCGTTACGCGTCATCATGAC +TATCGCGCGTTCCTCGAAGCAGAAAATCCCCAGCGCCTGTTCGCCCTCACCACGAAAGGTACACCTGCTC +ACAGCGCCGTAAGCTATCAGGATGGCGATTATCTGATGTTCGGCCCGGAAACACGCGGCCTGCCAGCGAG +CATTCTTGATGCCCTGCCCGCTGAACAAAAAATTCGCATTCCGATGGTGCCGGACAGCCGCAGCATGAAT +CTGTCCAATGCGGTGTCGGTAGTGGTGTATGAAGCCTGGCGGCAGTTGGGGTATCCGGGAGCGGTATTGA +GAGATTAGTTACTGTAGGCCGGATAGATGATTACATCGCATCCGGCACGATCACAGGACATTAGATCCCA +TCCCCATACTCAAATGTATGGTTAATACCGTTGAAATGCTGGTCCATATCCATTGATGGCTTATCGCTGT +CTGGTTTACCGACAATACGAGCCGGAACGCCAGCGGCGGTGGTATGCGGCGGCACCGGTTGCAGCACCAC +GGAACCTGCGCCAATCTTCGCGCCGCGCCCAACTTCAATATTGCCGAGGATTTTCGCGCCCGCGCCAATC +ATCACACCTTCACGAATTTTCGGGTGACGGTCACCACCAGATTTACCCGTACCGCCAAGCGTCACAGATT +GCAGAATCGATACGTCGTTTTCAATCACCGCCGTTTCACCAACGACGATGCCTGTCGCGTGGTCAAGCAT +GATACCGCGACCAATTTTTGCTGCCGGGTGAATATCGACCTGGAACGTCACAGAAACCTGGTTTTGCAGA +AAGATTGCCAGTGCGCGACGCCCCTGATTCCACAACCAGTGACCGATGCGATAGGCCTGCAAGGCATGAA +AACCCTTCAGGTATAACAACGGGGTTGAGTATTTATCGACTGCCGGGTCGCGGGTACGCACCGCCTGAAT +ATCACAGGCCGCAGAGGCGATCATTTCCGGGTCAGCGGCGTAGGCTTCTTCCACCACTTCACGGATAGCA +ATAGCAGGCATAATTGGCGATGACAGCTTGTTCGCCAGCATGTAGCTCAGTGCACTGCCAAGGTTTTCGT +GCTTGAGTAGCGTCGCGTGGTAAAAACTGGCCAGCATTGGCTCACAGTCCGCCAGCGTTCTGGCTTCGGC +TTTAATATTGTTCCAGACAATTTCCAGTTCTTCACACGACATTGCTTACTCCACACGATGAGATAATGAC +CGGCCCGTTCTGCGCGGGCCGGGTCATAGCGGTAACAAAGGTTCCCTGGGGTTAGTGGCTGCTGCGCTCG +TCCTTGCGTGCACGACCTAGTAAAGTCAATGCTGCCTCGCGCGCGTTTTTTCCGCAATATAATACTTGAT +AAATTTCCTCGGTTATTGGCATTTCAACGCCGAAGCGATGCGCCAGTTCGCGGACTTCTTTCGTATTGCG +GTAGCCTTCCACCACCTGACCAATCTTCTCCTGCGCGCTTTGTACATCCATGCCCTGACCGAGCATCATG +CCAAAACGGCGGTTACGCGACTGGTTGTCGGTACAGGTAAGCACCAGATCGCCAAGCCCCGCCATGCCCA +TAAAGGTGGCAGGGTCGGCACCCAGCGCCGCACCAAGACGCGACATTTCAGCCAGCCCACGGGTGATCAG +CGCCGTACGCGCATTCGCACCAAAACCGATACCGTCGGACATCCCCGCACCAATGGCAATAACGTTTTTC +ACCGCGCCGCCAAGCTGCACGCCAATGAAATCCGGATTGCTGTAAACGCGGAAACTTTTGCCGCAGTGCA +GCAGCTGCTGGAGATCATCGGCAAAGGTCTGATCGGTCGAGGCCAGCGAAATAGCTGTCGGTAAACCTGC +CGCCAGTTCTTTCGCAAACGTTGGGCCAGAGATAACCGCCAGCGGAATTTGATCGCCTAAGGCCTCACGC +GCCACGTCCTGTAACAGACGTCCGGTTTCCGCTTCCAGCCCTTTGGTCGCCCACACCAGACGCGCATCAG +GACGCATCAGTGGTTTAATCTGGCGCAGCACTTCACCAAAGACATGGCTGGGTACGACGACGAGAATATT +ACGGCTGGCTGCCAGCGCAGTGGCGAGATCGCTTTCAAGATGGAGCGTATCGGGAAAAGGCACATCGGGG +AGAAACGCGGCGTTACAGCGGTCGCGTTCAAGCGTTGCGATATGTTCAGGGTCATGGCCCCAGAGGACAA +CCTCGTGGCCATTTCTTGCCAGGGTGATGGCAAGAGCGGTGCCGTACGAGCCGGCACCGATCACAGTCAT +TGAAGCATTACGTTGGTTCATCAGGCATCCTGATGTTCTTCAGTACCTTCGCCAGCCTGCTGCTGCAAAT +AGTTCATGAACAGCGCATCGAAGTTAACCGGCGCAAGGTTCAGTTGCGGGAATGTACCGCGGGATACCAT +GCTGGTGATGCACTCACGAGCATACGGGAACAGAATGTTCGGGCAGTATGCTCCCAGGCAATGCGCCATC +TGGGTGCCTTCGATACCCGCGATGGAGAAAATACCGCCCTGCTGAACTTCACACAGGAACGCGGTTTCTT +CGCCCAAAGAGGCCGTTACGGTAACACGCAGTACCACTTCGTATACGTCATCTGCCAGTTGGGAAGATGC +CGTATCCAGATCAAGTTTAACTTCTGGTTGCCAATCTTTCTGGAAAACGTGCGGCGCGTTCGGCGCTTCG +AAAGAGATATCCTTGGTATAAATACGTTGGATCTGGAAAGTCATTTCAGTGTTGTTTTGTTCTGACATGT +GTAGAAAACCCTTAAGTGTTGTCCTTAAATACTGCGCAATGTAATGCCAACGTTCACACGTTATTTCAGC +AGGGGATCCAGTCCACCACGTGCATCCAATGCATACAAGTCATCACAGCCGCCAATGTGCTGTGCGTCAA +TAAAAATCTGGGGAACCGTGGTGCGACCGCTGCGTTTGATCATCTCTTCACGCTTGGCGGCGTTGCCATC +GATCGGCAGCTCCTGGAAACTCACGCCCTTGCTGCTCAGCAGTGCTTTTGCACGATGGCAATACGGGCAG +GTTTCTTTGGTATAGATTTCAACATTGGCCATAAATTAGCTCCTGTTTTTTTACCCTGAAATTTCATGTT +GCAGGGCGGCAGCAAAATGGAGTGTCCCCAGAAGCTTATAACAATAAGTCGCTGGGGGCCTAATTGCAGC +TAACGGCCTGCATCATGAAAGACGACAGGTAAATTATTTGCCGCGCACCAAAGGCAAGTTTTCGCCAGCC +CAGCCAGCGACGCCTTCTTTCAGCACGAATACTTGCGCAAAACCAGCTTTCGTCAGTGCGTTTGCAGGCT +CCTGGCACTGCATGCCAGAACCGTCTACCACGATAACCGGTTTGTCTTTGTGCTTCTCAAGCTCACCAAC +ATTGTTGGCTTTGATTTCGCTCGGCAACAGATTAATAGAACCTGCGATATGGCCTTTACGGAAGTCATCA +CGCTGACGTAAATCCACAACCACAGCGTCTTCTTTGTTGATCAGACGCGTAGCTTCACCACGAGTAATCA +CCTTCACTTTCGAGGTCAGGCTCTTAAACGTAGTCACAAGAACCGCCACCAGTAACGCGATCCAGGCGAT +ACTCAGTATGGGATGACGGCCAACAAATTGCATAATTTCTTGCATGGGGGGTAACAACTCCCGACGTAGT +GATTAAAAAAACCAGGAAAGGAGTATACCTGCGCGGTGCGGCAAATACAGCCAGCGCGTTAACTGGAATG +CAATTTTGCGGGGCGCGACGAAAAAAAAGCGTAAATCTGGCATCGGCTTGCCGCGAGCGGTCGTATATTT +TGATCTTCAGAGGCTATTTTATCGATTCAGCTGTAGTAAAATTACGCAAATTTTGACTCTTGAGTATGAG +GTTGTCGCAATGTTGGTTTCTAAAAAACCTATGGTACTGGTGATTCTGGATGGCTATGGCTATCGCGAAG +AACAGCAGGATAACGCCATTTTTAGTGCTAAAACCCCGGTAATGGATGCACTGTGGGCCAATCGTCCGCA +TACCCTAATCGACGCTTCCGGTCTGGAAGTCGGTCTGCCTGACCGTCAGATGGGTAACTCCGAAGTAGGC +CACGTTAACCTGGGTGCCGGCCGCATCGTGTATCAGGACCTGACTCGTCTGGACGTTGAAATCAAAGATC +GCGCTTTCTTTGCTAATCCGGTGCTGACTGGCGCGGTAGATAAAGCGAAAAACGCAGGCAAAGCGGTACA +CATTATGGGTCTGCTCTCCGCAGGCGGCGTACACAGCCACGAAGATCACATCATGGCGATGGTAGAACTG +GCAGCTGAACGCGGCGCAGAAAAAATCTACCTGCACGCATTCCTTGACGGTCGCGACACTCCGCCGCGCA +GTGCTGAATCCTCGCTGAAAAAATTCGAAGAAAAATTTGCCGCGCTGGGCAAAGGCCGCGTAGCGTCCAT +CATTGGTCGTTACTACGCGATGGACCGCGATAACCGTTGGGATCGCGTAGAAAAAGCTTATGACCTGCTG +ACTCTGGCGCAGGGCGAGTTCCAGGCCGATACCGCCGTTGCTGGTTTGCAGGCTGCTTATGCTCGCGACG +AAAATGATGAATTCGTGAAAGCGACCGTTATCCGTGCTGAAGGTCAGCCAGACGCGGCAATGGAAGACGG +CGATGCACTGATTTTCATGAACTTCCGTGCTGACCGCGCGCGTGAAATCACTCGTGCTTTCGTGAACGCT +GATTTCGATGGCTTCGCGCGTAAGAAAGTGGTTAACGTCGATTTCGTGATGCTGACCGAATACGCCGCTG +ACATCAAAACTGCGGTTGCTTACCCACCCGCTTCCCTGGTTAACACCTTCGGCGAGTGGATGGCGAAAAA +CGACAAAACTCAGTTGCGTATTTCCGAAACCGAAAAATATGCCCACGTTACTTTCTTCTTCAACGGTGGC +GTAGAAGAGTCGTTCAAAGGCGAAGATCGCATTCTGATCAACTCACCGAAAGTGGCTACCTACGATCTGC +AACCGGAAATGAGCTCCGCAGAGCTGACCGAAAAACTGGTTGCGGCCATCAAGAGCGGCAAATACGACAC +CATCATCTGTAACTATCCGAACGGCGACATGGTAGGTCACACCGGGGTGATGGAAGCGGCGGTTAAAGCG +GTTGAAGCGCTGGATCACTGCGTGGAAGAAGTCGCGAAAGCGGTTGAGTCCGTGGGTGGACAACTGCTGA +TCACCGCTGACCACGGTAACGCTGAGCAGATGCGCGATCCGGCAACGGGTCAGGCACACACGGCACACAC +CAACCTGCCAGTTCCGCTGATTTACGTTGGTGATAAGAACGTGAAAGCGGTTGAAGGCGGCAAACTTTCT +GACATCGCGCCGACCATGTTGTCGCTGATGGGTATGGAAATCCCGCAAGAGATGACTGGTAAGCCGCTGT +TCATCGTGGAATAATCCCTCCCCATGAGGGGAAAGGCGATTAATACCATGACACGGGCCGTGAAACCGCG +CAGGTTTGCAATCAGGCCCATCATCTACGCCAGCGTTCTTAGCGCTGGCGTATTGTTGTGCGCCTTTTCC +GCCCACGCGGATGAGCGTGACCAACTCAAATCTATTCAGGCTGACATCGCCGCAAAAGAGCGCGCGGTAC +GCCAAAAGCAACAACAACGCGCAAGCCTGCTCGCACAATTGAAAAAGCAGGAAGAAGCGATCTCTGAAGC +CACCCGTAAGCTGCGCGAAACGCAAAACACGCTCAATCAACTCAATAAACAGATTGATGAGATGAACGCG +TCGATTGCCAAACTGGAGCAGCAAAAAGCCGCCCAGGAGCGCAGCCTCGCCGCACAACTGGATGCCGCAT +TCCGTCAGGGCGAGCATACCGGTATTCAGCTGATTCTCAGCGGTGAAGAAAGCCAGCGTGGACAGCGTTT +ACAGGCTTATTTCGGCTATCTCAACCAGGCGCGACAAGAAACCATTGCCCAGTTGAAGCAAACGCGTGAA +GAAGTCGCCATGCAGCGTGCTGAACTGGAAGAGAAACAGAGCGAGCAACAAACGCTGTTATATGAGCAGC +GCGCCCAACAGGCGAAACTGACTCAGGCGCTGAACGAGCGTAAAAAGACGCTGGCAGGGCTGGAGTCTTC +CATCCAGCAAGGTCAGCAACAGTTGAGCGAGCTGCGCGCCAACGAATCCCGTCTGCGTAACAGCATTGCC +CGTGCGGAAGCCGCGGCGAAAGCGCGTGCAGAACGAGAAGCACGTGAGGCCCAGGCGGTTCGCGACCGCC +AGAAAGAAGCGACGCGCAAAGGCACCACCTACAAACCGACCGAAAGCGAAAAATCGCTGATGTCCCGTAC +CGGTGGTCTGGGCGCGCCGCGTGGTCAGGCATTCTGGCCGGTTCGCGGGCCGACGCTGCATCGCTATGGC +GAACAGCTACAGGGTGAATTACGCTGGAAAGGTATGGTTATCGGTGCTTCTGAAGGTACTGAAGTTAAAG +CGATTGCCGACGGTCGGGTGATTCTGGCTGACTGGCTGCAAGGCTACGGTCTGGTGGTGGTGGTTGAGCA +TGGTAAAGGCGACATGAGTCTTTACGGCTATAATCAGAGCGCACTGGTGAGCGTTGGTTCGCAGGTTCGC +GCGGGCCAGCCGATTGCACTGGTGGGCAGCAGTGGCGGTCAGGGTCGGCCTTCACTCTATTTCGAAATTC +GCCGCCAGGGTCAGGCGGTCAATCCACAGCCGTGGTTGGGAAGATAAGTTTTGTTTCCATTTCGTCGTAA +CGTTCTTGCATTTGCCGCTCTGTTGGCGCTCTCCTCCCCCGTACTTGCTGGCAAACTTGCCATCGTCATT +GATGATTTTGGGTATCGCCCGCACAACGAAAACCAGGTGCTGGCGATGCCTTCCGCTATCTCCGTCGCTG +TATTACCCGATTCACCGCACGCCAGAGAGATGGCGACCAAAGCGCATAACAGCGGGCACGAAGTGTTGAT +TCATCTCCCGATGGCACCGTTGAGTAAACAGCCGCTGGAGAAAAATACGCTACGCCCGGAGATGAGCAGC +GACGAAATTGAGCGCATTATTCGTAGTGCGGTCAATAACGTGCCCTATGCCGTGGGGATCAACAACCACA +TGGGCAGCAAGATGACCTCTAACCTGTTTGGTATGCAGAAAGTGATGCAGGCGCTGGAGCGTTACAATCT +TTACTTCCTCGACAGCGTAACCATCGGTAATACCCAGGCGATGCGCGCCGCGCAAGGCACTGGCGTGAAG +GTGATCAAACGGAAGGTATTCCTCGACGATTCGCAAAATGAAGCGGACATCCGTGTGCAATTTAATCGCG +CAATTGACCTGGCGCGTCGCAACGGTTCGACCATTGCCATTGGGCATCCTCACCCTGCAACGGTACGCGT +GTTGCAACAGATGGTTTATAACCTGCCGCCAGACATTACGCTGGTGAAAGCCAGCAGCTTGCTGAATGAA +CCGCAGGTTGATACTTCTACACCGCCGAAAAACGCTGTGCCTGATGCACCGCGTAATCCGTTCCGTGGCG +TGAAGCTGTGCAAACCGAAGAAACCGATAGAACCTGTTTATGCTAATCGCTTCTTTGAAGTATTAAGCGA +AAGCATCAGCCAGAGCACGCTGATCGTTTACTTCCAGCATCAGTGGCAAGGCTGGGGCAAACAGCCCGAA +GCGGCGAAGTTTAACGCTAGCGCAAATTAAAGGCGCTACGCGTAATGCGATGGTGCGACCGCGTTTTGTC +GCGCCATTGCCATAAGCGGAAAGACCACAGTAACGCCTGGTAACCGACCTTCACGCTGCGCACATTGGTA +ATCAGGCGCTTATACATACCGGAAGTAAATATCTCGGCAATCATCCGTTGGCGGGTAAGAATATCCGGCT +CTTTGCGCACCGCATGGCAAACACGCAATGCCTCGTAAGTTATTTGCTGATGAAATTCCGGATAAATCAT +AATTTTGTCGGCATAATTTCGATTTAATTTCTCCAGCAGGCGGGTAATCTTAATATAGTGACGTTGATAA +TTAAGGTTTTTATTCCCTTGTCTATGCAACCGACTCACTGACGTATTATGCAGATAATATTTATATAATG +ATTGCTCGGTATATCGCGCACGCAGCGCGTTAAACATGAATTCTGTTGTCCAGACAATATCCTGATGATG +TAATCCGGCAATAAATTTAATGTTATTTTTAACAATAACATCACGGCGATAAACCCCCATCCAGACAACG +TGAGTCCAACGGCGCGAAGAAAGCCCCATCCGCAGCCAGTCCGGGCCGGTTAATACGCCGGTTGAGCGAA +GGCGATCGGTGGGGATGGATTGCCAGGTTTCTCCCGTTTCACGAAAACACCAGTCAGCGTTGCACTGCGC +CACGTCGAGGTCGTCCTCTAACGCCATGGTCATCAGCGTTTCGTACATGGTGGGATAGACTTCATCGTCA +GCATCGACAAAAGCGACATATTTGCCCGTTGCCACTTCAATCCCACGATTACGCGCCACCGATGCGCCAG +CATTCGCCTGATGCAACAAACGAACGTGCGGATAGTTTTCTGCGTAATACTTTGCTATTTCAACAGAATT +ATCCGTTGAACCATCGTTAATAATAATGATTTCCAGAGCAGTCCAGGTTTGCGTAATTAAAGATTCCATA +CAAGTGCGGAAATCATCGCCCGCATTATATAACGGAATAATAACACTAAGTTTATTGGTGCTGTTCATCA +TAAATTACCGACGACCTCTGAAGTTATCCTGACGTTTTACAGGCTTTGTATTAAGAAACTATTAAGCCTG +TGAGATATTATTTTTACAGGTGAGAGAGTCACTTCAGGGTAGAGAGATAATGAGAGCAGCTATATAAGAG +ATCAGCACAATTACGAACTCTTTATTACACTGACAGGATTTTACATATTTAACAGATTATCCTCAGATAA +AAGGGCTGGAATACCAGCCCTTGTTCGTGTTAATCCCAGCTCAGAATAACTTTCCCGGACTGGCCCGAAC +GCATAGCGTCAAAGCCCTTCTGGAAATCATCGATAGAGAAACGATGGGTAATGATCGGCGAAAGATCGAG +GCCAGACTGAATCAGCGCCGCCATCTTGTACCAGGTTTCAAACATCTCACGACCGTAAATACCTTTAATG +AACAAGCCTTTAAAGATCACTTTGGTCCAGTCGATAGACATATCAGACGGCGGAATACCCAGCATCGCAA +TACGGCCGCCGTGATTCATGGTGTCAAGCATGGTACGAAACGCTGGCGGCGCACCGGACATTTCCAGACC +GACATCAAAACCTTCGGTCATGCCTAACTCCGCCATCACGTCATTGAGATTTTCTTTGGCGACGTTAACC +GCACGGGTGATACCCATTTTACGCGCCAGCTCAAGGCGGTATTCGTTAACATCAGTGATCACCACATTGC +GTGCACCAACGTGTTTCGCCACCGCCGCTGCCATAATACCAATCGGGCCTGCACCAGAAACCAGCACATC +TTCGCCCACCAGATCAAACGACAGCGCGGTATGCACGGCGTTACCGAAGGGATCAAAAATTGCGGCTAAG +TCATCGGAAATATTGTCGGGGATTTTGAAGGCGTTGAATGCCGGGATCACCAGATATTCGGCAAAGCAGC +CCGGGCGATTAACACCAACGCCTATCGTGTTGCGGCACAAATGGGTACGACCACCACGACAGTTGCGGCA +ATGACCACAGGTGATATGGCCTTCGCCAGAAACGCGATCGCCGATCTTGAAGCCTTTCACTTCCTGACCA +ATACCTACCACTTCACCGACATATTCATGGCCCACGACCATCGGCACCGGGATGGTTTTTTGCGACCACT +CATCCCAGTTATAGATGTGAACGTCAGTCCCGCAGATGGCTGTTTTACGGATTTTAATCAGCAGATCGTT +ATGCCCGAGTTCCGGTACAGGAACGTCGGTCATCCAGATGCCCTCTTCCGCTTTCAGTTTGGATAACGCT +TTCATCTCACATCCTCAGGCGATAACGCCCAGTTGTTTACCAATACGCGTAAATGCTTCTACTGCACGCG +TAATTTGCTCAGGGGTATGCGCCGCAGACATCTGGGTACGAATACGCGCCTGACCTTTCGGAACGACCGG +ATAGAAGAAACCGGTAACGTAAATGCCCTCTTTTTGCAGCTCACGGGCAAATTTCTGCGCCACTACCGCA +TCACCAAGCATGACCGGAATAATGGCGTGATCGGCTCCCGCCAGGGTAAAGCCCGCCGCCGACATTTGCT +CACGGAACTGACGCGCGTTCGCCCACAGACGGTCACGCAGTTCGCTGCCCGCTTCGACCATCTCCAGTAC +TTTGATGGACGCGGCAACAATGGCCGGTGCCAGCGAGTTGGAGAACAGGTACGGACGAGAACGCTGGCGC +AGCCACTCAACCACTTCTTTGCGCGCCGCGGTATAACCACCAGAAGCCCCGCCCAGCGCTTTACCAAGCG +TACCGGTGATAATATCGACCCGGCCCATCACATCGCAGTATTCATGGGAACCACGACCATTTTCACCGAC +AAAACCGACCGCGTGGGAGTCGTCTACCATCACCAGGGCATCATATTTATCTGCCAGATCGCAAACGCCC +TTCAGGTTGGCAATCACGCCGTCCATTGAGAACACACCATCGGTGGCGATCAGCACATGACGCGCACCGG +CTTCACGCGCTTCTTTCAGACGTGCTTCCAGCTCCTGCATATCGTTGTTGGCATAGCGATAGCGTTTAGC +TTTGCACAGACGCACACCATCAATAATAGACGCGTGGTTCAGTGCGTCGGAGATAATGGCGTCTTCCGCA +CCCAGAAGCGTTTCAAACAGGCCACCGTTAGCATCAAAGCAGGAAGAGTAGAGAATCGCATCTTCCATCC +CCAGGAAGGCCGCCAGTTTTTGTTCAAGCTCTTTATGGCTGTCCTGAGTGCCGCAAATAAAACGCACCGA +AGCCATGCCGAAACCGTGAGAATCCATTCCCGCCTTTGCCGCCGCAATCAGATCAGGATGATTCGCCAGC +CCGAGATAGTTGTTGGCACAAAAGTTAATGACGTGGCTTCCATCAGCCACAGTGATATCTGCTTGCTGCG +CAGACGTAATAATGCGCTCTTCTTTAAACAACCCTTCCGCCCGTGCGGTTTCCAGATCGTTGGTTAACTG +CTGATAAAATTCTCCACGCATTGCGATTCTCCAGACAGGGCAAATTCCAGCACATATTACCCAAACTTAT +AGGTCGCGACGAGATAACGCGTTAACACTTCTGCAAAATTCAGGATAAATAACGTGTAACTTGATGTCTC +TCAACACCTACAGATAGTAGAAAAACTGTACAGTTTTGGCTGGGCATAATGATGATTGATTTTACTGCAT +TGATATAAAAAGAAAAAATGATGCCAAAGCATCATTTTTCCTATCTCAGTTGGTATCAAAACGCTACCCA +CTAATGGAGGGAAACCTATTTTCTTGAAAGGAAAATTCTCAGCGCCTGCATTTTTGCCCCTAAAGTGTTA +CTCCTGAAGCAGCGAAACAAATCGAACCATTTTCCTCTCCCCAGATAGTTTAGGTTGAAGAGATCGGGGC +GTTTGTAATAGCACATGACAAAAATGCCCTGGTCATCGTCCACAATGTTATTATTTAGTGTTATTTTTTG +ACTTTCCAGAACTAATTTATAGAATTCTTTCCATTTATGCTGTGAACCAACAATTGCGCCCCCAATAATA +TATACATGATTGCCAATCATGAAATCAAAAACCTGTTGTTGAGATGTGACAGTAAGCCCTTTTTTTATAG +TGAAAAGATGCATCTTACTTTCATCAAATGGGAAATCCCAAATTTTCAATCCTCGAGTTACATTTGGCTT +ATGGCAATAGCCAAAATCTATCCACGCAACAAGAGGCGTTTTCACTAAGCCCATGTTGATAGCTTTATTT +ACAAAATAGGCCTTAAGGTTACATACCAAAACATACTCTGGTGACCAGTACTCTGGGTTTTTTAATTGTC +GAGGCTCAAGTCTATTTGTAAACGACTCATCTTTTTGAATTTTTTCGATACGACTTCTGATATATCTAAA +TTTCTTTTTTATATCGATAACGATAACCGTTGTTGGTTTTCCGTTGCGAATCGCTTCAACCCTTGGTTTC +AAATCGGGAGAAGTGAAAATAATCATCTCATTTTCAAGTGCGGCCAGACGCTCAAAGTAACTAAAATAAA +CATCAACTGAACGAGCTAGTTTTTCACGGAACCCTTTATTAGCAGTCCAATCCCCTCTACCAATGTCAAA +ATATGCAGTGATAATTGTGGTGGATGATTTCATTACTAATAAGACCATTAATATAAAAAAAGAATTATAT +CATAAATATTAATAGAATGTATACTGTATATTATCCATTCAAATGCTTCCGTTATTTATCATACATCGGA +ATATTGATACTAAAGCACTATTCACATGCAAAACCAACATCCGCCATGAAGGACTAGCTAAAACCCAAAC +TAGTTTGTTGCAATTAGCATCCTTGCACCTCTATGTAAAGGGCTGAAGGGATTCGGATGTGATGGTATGA +TTACAGACATTCGTGTCTGAGATTGTCTCTGACTCCATAATTCGAAGGTTACAGTTATGATCATCGTTAC +CGGCGGCGCGGGCTTTATCGGCAGCAACATCGTTAAAGCCCTGAATGATAAAGGCATCACCGATATTCTG +GTGGTGGACAACCTGAAAGACGGCACCAAGTTTGTGAACCTGGTGGATCTGAATATCGCAGACTATATGG +ATAAGGAAGACTTCCTGATCCAGATTATGGCTGGCGAAGAGTTCGGCGATGTCGAAGCGATTTTCCACGA +AGGCGCGTGCTCTTCCACCACCGAGTGGGACGGCAAGTATATGATGGATAACAACTATCAATACTCCAAG +GAGCTGCTGCACTACTGCCTGGAGCGTGAAATCCCGTTCCTGTACGCTTCTTCCGCAGCCACCTACGGCG +GACGCACCTCCGACTTTATTGAATCCCGCGAGTACGAAAAACCGTTGAACGTCTACGGTTACTCAAAATT +CCTGTTTGATGAATATGTTCGTCAAATCCTGCCTGAAGCGAACTCGCAGATTGTTGGCTTCCGTTATTTC +AACGTTTATGGACCGCGTGAAGGCCATAAAGGCAGCATGGCGAGCGTCGCTTTCCATCTCAACACCCAGC +TTAACAACGGTGAATCACCGAAGCTGTTTGAAGGTAGCGAGAACTTCAAACGCGACTTCGTCTATGTGGG +CGACGTGGCTGATGTGAATCTGTGGTTCCTGGAAAATGGCGTTTCCGGCATCTTCAATCTCGGTACTGGT +CGTGCGGAATCCTTCCAGGCGGTAGCTGATGCTACGCTGGCTTATCACAAGAAAGGCCAGATCGAATACA +TTCCGTTCCCGGATAAACTGAAAGGCCGCTATCAGGCGTTCACTCAGGCAGATCTGACAAATCTGCGCGC +GGCGGGTTACGACAAACCGTTCAAAACCGTTGCTGAAGGTGTAACGGAATACATGGCCTGGCTGAATCGC +GACGCATAAGAGCTCTGCATGAAAATACTGGTGATCGGCCCGTCTTGGGTTGGCGACATGATGATGTCGC +AAAGTCTCTATCGCACGCTCCAGGCGCGCTATCCCCAGGCGATAATCGATGTGATGGCACCGGCATGGTG +CCGTCCATTATTATCGCGGATGCCGGAAGTTAACGAAGCTATTCCTATGCCTCTCGGTCACGGAGCGCTG +GAAATCGGCGAACGCCGCAAACTGGGTCATAGCCTGCGTGAAAAGCGCTACGACCGCGCCTACGTCTTAC +CCAACTCCTTCAAATCTGCATTAGTGCCTTTCTTCGCGGGTATTCCTCATCGCACCGGCTGGCGCGGCGA +GATGCGCTACGGTTTACTCAACGATGTACGCGTGCTCGATAAAGAAGCCTGGCCGCTAATGGTGGAACGC +TATATAGCGCTGGCCTATGACAAAGGCATTATGCGCACAGCACAAGATCTGCCGCAGCCATTGTTATGGC +CGCAGTTGCAGGTGAGCGAAGGTGAAAAATCATATACCTGTAATCAATTTTCGCTTTCATCAGAACGTCC +GATGATTGGTTTTTGCCCGGGTGCGGAGTTTGGTCCGGCAAAACGCTGGCCACACTACCACTATGCGGAG +CTGGCAAAGCAGCTGATTGATGAAGGTTATCAGGTGGTTCTGTTTGGCTCGGCGAAAGATCATGAAGCGG +GCAATGAGATTCTTGCCGCTTTGAATACCGAGCAGCAGGCATGGTGTCGGAACCTGGCGGGGGAAACACA +GCTTGATCAAGCGGTTATCCTGATTGCAGCCTGTAAAGCCATTGTCACTAACGATTCTGGCCTGATGCAT +GTTGCGGCGGCGCTCAATCGTCCGCTGGTTGCCCTGTATGGTCCGAGTAGCCCGGACTTCACACCGCCGC +TATCCCATAAAGCGCGCGTGATCCGTTTGATTACCGGCTATCACAAAGTGCGTAAAGGTGACGCTGCGGA +GGGTTATCACCAGAGCTTAATCGACATTACTCCCCAGCGCGTACTGGAAGAACTCAACGCGCTATTGTTA +CAAGAGGAAGCCTGACGGATGCGGGTTTTGATCGTTAAAACATCGTCGATGGGCGATGTTCTCCATACGT +TGCCCGCACTCACTGATGCCCAGCAGGCAATCCCAGGGATTAAGTTTGACTGGGTGGTGGAAGAAGGGTT +CGCACAGATTCCTTCCTGGCACGCTGCCGTTGAGCGAGTTATTCCTGTGGCAATACGTCGCTGGCGTAAA +GCCTGGTTCTCGGCCCCCATAAAAGCGGAACGCAAAGCGTTTCGTGAAGCGCTACAAGCAGAGAACTATG +ACGCAGTTATCGACGCTCAGGGGCTGGTAAAAAGCGCGGCGCTGGTGACGCGTCTGGCGCATGGCGTAAA +GCATGGCATGGACTGGCAAACCGCTCGCGAACCTTTAGCCAGCCTGTTTTACAATCGTAAGCATCATATT +GCAAAACAGCAGCACGCCGTAGAACGCACCCGCGAACTGTTTGCCAAAAGTTTGGGCTATAGCAAACCGC +AAACCCAGGGCGATTATGCTATCGCACAGCATTTTCTGACGAACCTGCCTACAGATGCTGGCGAATATGC +CGTATTTCTTCATGCGACGACCCGTGATGATAAACACTGGCCGGAAGAACACTGGCGAGAATTGATTGGT +TTACTGGCTGATTCAGGAATACGGATTAAACTTCCGTGGGGCGCGCCGCATGAGGAAGAACGGGCGAAAC +GACTGGCGGAAGGATTTGCTTATGTTGAAGTATTGCCGAAGATGAGTCTGGAAGGCGTTGCCCGCGTGCT +GGCCGGGGCTAAATTTGTAGTGTCGGTGGATACGGGGTTAAGCCATTTAACGGCGGCACTGGATAGACCC +AATATCACGGTTTATGGACCAACCGATCCGGGATTAATTGGTGGGTATGGGAAGAATCAGATGGTATGTA +GGGCTCCAAGAGAAAATTTAATTAACCTCAACAGTCAAGCAGTTTTGGAAAAGTTATCATCATTATAAAG +GTAAAACATGCTAACATCCTTTAAACTTCATTCATTGAAACCTTACACTCTGAAATCATCAATGATTTTA +GAGATAATAACTTATATATTATGTTTTTTTTCAATGATAATTGCATTCGTCGATAATACTTTCAGCATAA +AAATATATAATATCACTGCTATAGTTTGCTTATTGTCACTAATTTTACGTGGCAGACAAGAAAATTATAA +TATAAAAAACCTTATTCTTCCCCTTTCTATATTTTTAATAGGCTTGCTTGATTTAATTTGGTATTCTGCG +TTTAAAGTAGATAATTCGCCATTTCGTGCTACTTACCATAGTTATTTAAATACTGCCAAAATATTTATAT +TTGGTTCTTTTATTGTTTTCTTGACACTAACTAGCCAGCTAAAATCAAAAAAAGAGAGTGTATTATACAC +TTTGTATTCTCTGTCATTTCTAATTGCTGGATATGCAATGTATATTAATAGCATTCATGAAAATGACCGC +ATTTCTTTTGGTGTAGGAACGGCAACAGGAGCAGCATATTCAACAATGCTAATAGGGATAGTTAGTGGCG +TTGCGATTCTTTATACTAAGAAAAATCATCCTTTTTTATTTTTATTAAATAGTTGCGCGGTACTTTATGT +TCTGGCGCTAACACAAACCAGAGCAACCCTACTCCTGTTCCCTATAATTTGTGTTGCTGCATTAATAGCT +TATTATAATAAATCACCCAAGAAATTCACTTCCTCTATTGTTCTACTAATTGCTATATTAGCTAGCATTG +TTATTATATTTAATAAACCAATACAGAATCGCTATAATGAAGCATTAAATGACTTAAACAGTTATACCAA +TGCTAATAGTGTTACTTCCCTAGGTGCAAGACTGGCAATGTACGAAATTGGTTTAAATATATTCATAAAG +TCACCTTTTTCATTTAGATCAGCAGAGTCACGCGCTGAAAGTATGAATTTGTTAGTTGCAGAACACAATA +GGCTAAGAGGGGCATTGGAGTTTTCTAACGTACATCTACATAATGAGATAATTGAAGCAGGGTCACTGAA +AGGTCTGATGGGAATTTTTTCCACACTTTTCCTCTATTTTTCACTATTTTATATAGCATATAAAAAACGA +GCTTTGGGTTTGTTGATATTAACGCTTGGCATTGTGGGGATTGGACTCAGTGATGTGATCATATGGGCAC +GCAGCATTCCAATTATCATTATATCCGCTATAGTCCTCTTACTCGTCATTAATAATCGTAACAATACAAT +TAATTAAGAATAAACAAGTTTAAGAAGTGAGTTAAAACTCACTTCTTATCTATACAACTTAATCTCTTTA +CTGAATTAGTTAAAGTTTCAGTATCGATATCTTTTACCGTATATGTTGGGGATACTATTTGTATAGATTT +ATGATGATTCGGGGACCAAATTAAATGCGAGGGATATTCCGGAGTACGTGAATTAGGGTAAAATGCAAGC +GTTGGTTTATGATAAGCCGCAGCGATATGAACAAGAGCTGTATCAACAGAAATGACAAAATCACTATACT +TGGTCAACGCAACGGTATAAATAAACTCATCAAATGGTAGTGTTTCGATTTCAAGTATTGGTATTGTCAA +TAAATCTTGCGGTAACCCGGTAAATATAATCCGATAATTTTCAAAGTGTGTTTTCACTTCTTGATATATA +ACTTTTATTTGCTCAAACGTAAGACGGCATATTTTTTTTGCACCTAATGGATTAATAATGACTATTCTTG +TATCTCCAATAAATTCTTTTATTTTATCTTCAACATCTACTGGTAAATGCAAGTCGTAGTTGGTGGAAAA +TTTACCCTCACCATAAATATGCTTCAGTATTTCTATTGCTCGTGTACTCATATGTTCTTTTAAACATTCA +TCGTGGGGATGGTAAAATGAATAGTAACGCTTATACCAATGATCAAAACCCAGAATGTAAGAATCTTTTA +AACTTGATAATATTAAGCTATGCTTAAATGAGGGCATAGTTTCAAAGGGGTCTAATACAATATCGAACTG +TAAATCCCGCAGATGCTTACATAGAGTAAGCATTTCAAGAAAACCGGTTGATTCTTTAATACAGAACTCA +AATATATTTTTATTATTAGAGAGAAATTCCCCACCCTTTCTATTTGTGAGAAGAGTTATTTTAACCCCTT +TACTATAAAGTTCACGATAAATCGAACTTAATACAATTAGATCACCAAGTTTATTATTATCATGAATAAT +AAGGCATGATTTAACTTGTGCTGGATCTGTAATTTGATTATTTATTTTATTACGAAATAAAAAAGAAAGG +AAATTAATCTTGATTTTGTTTATATAAAATCTTTTCTTTTTGTGAAAAGTTCCTAAGCGCATTTTTATAC +CATATTATTTTAGTTTCAGGATGATTAATTAGCATAAGAATCGGTTGAAGTTCTATATTGCATTTTTTTT +CTTGTCATATCTTTTGATTCTTCTGCACTGATGTCTTGAAGTTTAATAAATGGAATTACATCGTAAGAAA +TAGCTGTATCATCTGATAAATTATAAATATTAATATCTTTTACATTATCATGCATAAAACGAAAAAATGG +CAATATTTTGAATAAATCCCTACTTAATTCCGAGGGCATGGGATTTTTATTCTCATCATAGAAACGAGAA +CAGCTACCCGTTAAATCAAGACCAGAACAAATAATCCGCGCATACTTAAGTGAATATGCGATTTGAATTG +CAGCAAAGGCAATAGTATGGCATGAGCAATAACCAAGACTAATGTCCTTGCAAAATCCAACCAGACGACC +TTTTTTAGACAACGGTACAGAGATCAGCAGTTCTTTGTGAATCTGTCTCAAAATATTAAATTTAATCTTC +TTTATAAAACCACCTTTTTCCCGACGGTAAAAGGACCGTAATACGAGGCAGTTCTGGAGGATATAAAGTT +TATCTTCTTTGGAAGCGTGTTCATAAACGTCAACGTTTACTATGGTATAACGACTTCTCTGGCTAAATTT +ATAAAAATCATCACGACGCTGATGTAAAAATCGGACATCTGTAAGTACATATATAAAAGGAACGATATTA +TTACTTAACAGATATTGCGCAGAACCATTGACAGCAATAATATCCTTTGTTCGTAATACTGACAAAGGTG +TTTTTTGCGATGTAGGGCCCGAAAGAAAAATAATAACATCATCAGATATTTTATTTTCAATCAGGTTTTC +AACATCTTTTTTGTCAATGTATCTAATATTCTTCATGATAAACCTGTGAAATAAATAACTCCGCTTAAAA +CTGTCCTGGTGAAGACATGTAATTGTGGGATTTTTTTTAGCGCGCTGGTTTCCCTTTCAAACGCCGCATA +AAATTGCGCATTTTTTTACGATATACTAAAAGATAATAGCCTAGATCTCTAATCTCATTTTTAATACCGT +AATGACGCTCTAAGTCAATACGATCTTTCGCTTTACGCTGCGCTGAAGCACGCTTTCCGGAGAGATCGAT +AATTCGAACCTCACCATTTTTTATAATGAAGTTACCACGATGGGGGTCGCCAGAAACCATGCCATGTTGA +TGTAAGGCATTAATTGATTGCTGAATTTTATTTTTTAGCGCATCATCAATATCGGGCATATCACACAACT +CTATGCCATCAATATACTCGATGATCATGATATAAGTATGGACAAAACGTAAGGTTTTCCGTTCAGCCAA +TAAATAAAAGTCATTGAGTGTATTTAACCCTTCATTTCGTACTTTTTGGGTTTGCTCAAAAAGGCGTTCG +TAATAATCACCTTTTAACAGAGACTTAAAGAAACGTTCGTTACGCTTAACTTTCGGAGAAAAAACCTTAA +GAATCAATTTACCGTAATCGGTATCAATAAGCATAACTTTTGTATCATCAATAGAACGAAAAACCTTGAT +GATATTTATATTATAAGACAAGAAGTCATTTAATACATTGAGGTACTTTGAATTGTTTTCATCGGTAAAA +ACAACCAAGTCTTTGATCTTGCTCTTCTGAATCATAATAAACCAGTTAAATGTTATTTACGGTAATATTT +TCGGCAAAGATAACAGACTCCTGCTATAATTCCTGAGATATAATGATGTTGCACTAAAAGATGTTTATAT +CTTTTTTTAAATTCAATAATTGATTTCGCATCTCGTGGAGAGTCATCTTTCCAGGGGGAATTTTCTAAAG +CTATTTTATAGTATTTTACCGATGGATAAATTGCCCATTTGTGCCACGGTTTAGTTGCACCTGTATAATG +AATAAGAAGAGTACTTTCTGTAATCAGCTTTTTATAGTTTTGATGTGTTTTGTCTTTTAATTCACTTTTA +ATTGTATAAATTGTATTGTACTCACGAGGCAAAAATAATGTCATCCCTTTCAGTAAGACATTCATAACAT +CCTGATCAGGGTATTTATAAACATTATCTTTACTCATAAGAATAGACAACGCTTTTTCTGTTAGTTTTGC +GTCAGCCCATTTTTTTAAGTCTAAATAAACGACACCGGAATTAAAGTACTGCCCAAGTAATTCAGGATCA +GACAACCTGGATACCGCCTTTTCTTGCATTGGCTCAACATCTTTAACAACAGCAGCAACCGCTCCATTTA +AACCCAGATGTAATAGTTGGCTAATATCGCCTTTACAAACAACATCTGCATCAAGATAAAGCAAACGATC +AAGCGTTAAACCCAATAATTGAAATGCAAATAAACGGAAGTACATTGCTCTTGACCAGACCTGTGTACAA +GGCAAGCACTGGAGCTTATCAGTGTTAATTCTATATAACGTGATTCTTAATTGGTTTTGCTCTGCAAGCT +TTGCAATTTTTTGAAAAAAACCATCATTATAAACATCAGCAATAATATAAAAATCAAGATTAATATGTCG +ATTATTTAGGACAATTGATGTGATGGAAACACCTACACCATCAAGATAATTAGCATCGACACCATAGGCA +ACATTTAAACATTCAGAAGTATTTATATTAGCTAGCCGAAAATCCCAGGCTTTAACTTTATCTATCTCTA +TGGCAGGAAATGAGTCCACAATGCTACCCTTATATCATTACTTTATAGTTTCCCAGTTTTAATGCTTTAT +CTTTTCAATAAAATAAAAAAGATAGTTGCTAAATCCTTTTAGATATCTATGCTTTTTAAGCATATGTTTT +GCGCTATATCTTAATTGATTGCTATTGTTCGGTTTCAGCAACGCCGTATTCTTCCATGGCGAAGCATTTT +TTGCCTCCATAAAGGCTTGTGATACAGGATAATCCCAGGCCCAATCATGCCAGGGCTTGGTTGGCCCGAT +ATAATGGATAAAAATAGTATCGTTGGTTACTGGGTTTATAAAGCTTTCTTTGAGTTGATAATTTAAGCTG +AACTGGGTGTTATATTTAATATCAGCGAAAATAAGTTTATCCGCCAGCAACATATTTAACACATCCTGAT +CAGGATGTGTTATTTTTTTGATTATTTCTGGCTCATTTAGCATTGCAATAGCTCGTGCAGAAACCTGCTG +AGCCGCCCATTGGGCAGTATTAATCAATAAAAAACCGGAGTTAAAGTAACCTTTAGCAATTCCCGCAACA +CCTAACGAATGGGCGCGTTTTTCCCACCAGTCAGCTTGCCCTTCTGTAACAACCATTGCGACTTTATCGT +CAGGAAATGAGAAATTAATTAGTGGCTCAATAGTCCCCTGACAAATGATATCTGCATCCAGATAAAGGAC +TTTAGGCGCCTTATTAATAAAGTAATCTGCAATAACAAAACGAAAATATATTGCATGAGTCCAATTCTTA +GTGCTAGGCAATGAGCGCAGTCGATCACCATTAATCAGATATATTTTAATTCTGGTTTTATACTGCAACG +CCAGGGCATCAAAATACTTACGATCATCATCACCAAAATAATCAGTAAAAATATGGAAACACAATCGACT +TCCTTCATTATATTTTAATATTGAAGCAATCGAAATTCCGCAACCAAATAGAAAGTTTTTGTCAGTTCCA +TAAGCGATGTCCAGACAAAGATTTTCTGTTTCTACTTTATGATCATAATCAATAACTGAATTAAGAAACT +CAGTTTCCTGGAAAAACACCTGCTGCATTATTTCCTCCGGGAAATAGCAGAAATAATTACCTTATGTAAT +CTATCGTAATACTTCGATTGGTAAAATTCATCGATCGACGCAGGAATTTTTTCATGTTCGATATGAATTT +CACCTGCTATATATTTATTTAGAAGAGTTACAAAACCAGCAATATCTCCCGGTTGATACAGATGGCCATT +GACATCAGGTTGAATAATGTCAGCAGGCCCGGAGACACAATCGGCACTGATACAAGGAATCCCCCACGAC +AAGGCTTCAAGTAGGGTCATTGGGAAACCTTCAAAAGATGACGTGAGCAATAACGCACTCACTTTTTCAA +TATCTTGCTGGACCAATTCCCAGGGATATTGTTGCCAACCATACCAGACAATTCGATCATCAATATTTAA +TTCTCTACCATAAGCCTGGCATTTTTCGAAATCGGAGCCATCACCCAATACATGGAGTTTCCAGTTACCT +TTCGCTTGTGATAAGCCATCAAGCAGGTCTTTAACTCTTTTCTGGCCTTCAAATTTCATACGCCCAACAT +AAATAAACGTTGCCGTTTCACCTTCCTCGGGCGCGGGAATGACTGAGTCTTTAGTTTCGACGGGATTAAA +AATAACATTTATCGTCGATTCTGCTACACCTCGATTAATCATTTGCTGTTTAATGCCAGAGCTGATTGCT +AAATGATAGTCGGCACAGGTGATATATTCAGCATGTTTTTTGTGATCTAAAGAAAAATGTGGCCATGAAA +ATACTGGCATATCAATTCCTGATTTTTTACGTGCTTTTGCGGCAAACAGGCAGGAGATCACATCAATACA +AATAACGATATCTGGTTGGTACTCCTGAAGCCATTTACTTAGAGCATGAATATGTTTCGCCCGACGCAAA +AAACCTAAACGAATATTGGAAAATGAACATGAGTATTTAATACCTTCCAGCCATCCCTTATCCATTTTGT +CATTACGACAAAAGAAAAACATTTCACTTTGGATATGTTGTTGCCTGAAGGTAGTAATAACATCACGGAT +GACAGTTTCCATGCCGCCAAATCCAGAAACAGCTTCGCCGATAAACGCTATTTTCATAGAAACTCTCATT +AATTGAGTAAAACTCACTGTTTTAACGGTTTTATTTGTCTATAAAATCAGAAACAATCGTTGACATCATT +TTATCTGGACTGAATTTATATAAACTATCATAATCCATTGGTTTAACAGATGAGTTAATAAAATACTCTA +ACTTATCCCAATCATCATGACCTATTATAAAAAAGCGAGATTCACTATAGATTTCTGAACCAAATACATT +TATATTATTAGTAATTAATTTTTTATTGAAAAATAGTGCCTCAAGTATACGAAGAGTCCAGCCAGATTGG +TTTTCTTTGGTTATATCAACAATTATATTAGCATTTAATGTTCTTCTAATATTCTCTTCATAAGATATTT +GTTTTTCAATCAAATACTTTGAAGTCGTAGATGATGTCTTATCTTTGACAACATTAAAATCTAGCTTACA +TCCTAGTGTTGTTAATCTCTCGGCTAACTCATTAATTATTTGAAGACGCCCTTTATCACGACCAAGGAAA +AAACATATTGGCTGGCTGTTATTTTTGTCAGATAAACTATAATTTCTAATTTCATCCATTCCTATAGGAA +AAAATTGTTCTATTGCCTTGATCTTTTCATTCCCTATAAATCTATGCTCAAAATCATATATAATATCGAA +ATAATTCGCGTTATCAAGAATAAAATCTTCGCCAACAGTATTTCTTAGAAGCAAAACTTTATGACAGTTA +ATATTTTTTAATATTTGTTTATTGATACCTTTATTAACAACACTGTCATTAATGATAATTATGTCATCTT +TTTTAATATCATTGAGGTAATGCTTGATGAATAATCGCCCCAGCCATGCATTATCCATCCCTATTTTTGA +TATTTTTTTATTAATCCAGTTATATTTTTTTGGTGTTGTTATATTTTTTATCTTGTACTTTTTTTTCAGG +TACTGAATCATTTTTAATTCATAATCTGCAACCCAATTTATAAAATAAATAGTCATAATAAAGTTAGTTC +CAGTACATACTAATAAATATTTTTATAATCCTTTGCGTTGTGTTCGCTCTTTAATACGCTCGGCCTTAAC +GCTTGCCATGTTCAATAAATTCTGTTCAAGAGACAATATTTTGCGTAAAGGCATCCCAAAATAAACCTTC +ATAAATCGCCAGATATCTCTTTGCGTCAGGCCAATATTCATTGATGAGAAATATAAACCAATCAGGTCTT +TATCGCGCCAGCGGCGCGGTACTTTTGCACGTATCTGTGCCCGATGCAGATCGATAACTGAAATTTTTAA +TTCATCTTCCCGGCCAGTAAATGGCAAATGAAGCAAAAAGTGGCAAATGTAACAGTCGCGGTGATTTATC +CCTGCAGTATGCATTTTACGCACCATAGTTGCTACACGTGCGATCAGCATACGCTTAACACGTATATCAG +GCGGGTTGACTGCCCAATCGGCACAATAATCTTCAAGGCTAATTGTGGGAGTGAGATCTTCGGTAATAAT +AAATGATGCGCGAGTTAATGGATTTAACCCTTTTTCGCCAAACCCAATGCCCTTCATTGTATCAACGCCA +ACATCACTCAGGCGATGAATAGCGTGCCACTCTCTGTCTGCGCCCAAAACGGGCATCCGCAATGAGAGTA +GATTTTTTATAATCTCTTTTAATGTCGTCCCCTTGTGCCATTTAAGAAAATAGCTTTTCCCGGACAGTTC +AAAGCGTAATGTACGACGAGTCTCCAGTTCACGAAAGACCTCGCCGTTCAGTTTTTTGACCTCTGCAAAA +GCATCTTTACCACGCCAAAGTGTGGCAAGCGGCTCTTTTAATTCAACCATCTAAACCACCTGTAATGATA +TCCGCGGCTTTTTCTGGCAAGCTATACAAATCCTGAGTATCGGCATAATGGCGAGCATTCTCCGCCCAGG +CCATTCGCAATGGCGACTGAGTTAACGCTTTACGTAAAACTTCATTTAATTGTTCCTGAGAGAAAGGTTC +AGCGATGACCGTTCCACAATTGGCATCCGCAATATAATGCGCGTACCCACATACCGCTGTTGTTAAAACA +GGTAACCCAGCAGTGATCGCTTCTAGAAGAACGATACCCGCGGCTTCCTGATAAGCGGGATGCAGTAATA +AATCAGCGGCTGCCATTAATTCTGACACATCATTGCGACCGGAGAAGAAATGCACATTGCTCCGCACGCC +GAGTTTTTCTGCCAGCGCTTCAAATTTTCGCGGCTTATCCTGACCAACAACAAATAAAAGCGTATTGTGA +CGTAATGATTCCGGTAACGATGCCAAAGCTTCAATTGAGCGATCTACACCTTTACGGCCAAAATCTGATC +CAACCTGCAGTAATAAGTTTTGTTGCTCTTTTATGCCATTTTTCTGGCGATAAATTTCACGGCTGTTTGG +GATTTGCTCACTGTATTTTCTGTCCGGATAAATACCGGGAGGAAGAATTTGAAAACGTTCAGGTTCAGTT +TGATAATGCTTCTGGAAATCGGCGATTTGCTTATCGGTCAGCATCATAAGTTTCGTCGATTTACCCTGCT +CGAAAGTCGCTCGCTCAAATGCGGCATAATGGCGATATCGTGATGTTAAACGATATAAAAAACCTTTTTC +TTGCGCAACTTTCTCGGCGTAACAAACATCAGCGGCAAAATAAACATCCAGGCCAGGCATCTTATTAAAC +CCAACAACGCGATCTGCGGGATGCTCTTTGAGATGATTTTGTACCCAGGCATAATATTCTGCATTGCGTC +CATGGTTGGTATGGGACTTAACTGGCACCTGAATAAGCTCAAATGCTTTCGGGCAATCGCCTTCCCACGA +CTGTGTATATACCCGAACATGGTGGCCCCGTGCGGCAACTGTTGATGCAATGCGCATAAAGTCACGTTGA +AGCCCACCAAATGGAAAATATTTATATAAACAAAACGCCACGATCATAATTGTGCATTCCTGTCAGCTGA +AGGGGCATCTTCTGGCAACAGCTTTTCCGTAGCGGCGATCACATCCTCCGCTGGGATAACAGAAAGATAT +TTTTTGTTGCGGTCAAGTTCATGCCGGGTCGGCATTTTCTGATAATTCCCCGCCCAGAATTGAATAATAT +TCTCGGTCCAGGGACGCCAGAATACGTGATCCGTTGCACCAAATAGACTAATGACTGGCGTTTTCACTGC +CGCTGCAATATGTCCCGGCGCAGAATCCACACCAATAAAAAGCACTGCATGATCAATTAATGCACCCAGT +TCAGGAAAACGTGTTTTACCTGCAAGGCCAGTAATGGGTTTTGTTTCGCAACCTCGTGCAATCTCATCTA +CACAAGCGAGATCATCTGCCGAGGGCCCACAGGTTAGCACAACCTGATAGCCTCGCTGTTGCAGCGCATC +GATAACCTTAGAAAATTTATCGTTATCCCAACACTTAAATATCTGACGCGCTGTCGGTTGGATGACAACA +TAATGATCTTTTACGCCCAGGGCATCTAATTCCCGGCGCATCTTCTTCCAGCAATCTTCGGCGTAACTCA +TTGTTGTGTCGGTGTAGAAATCGGTAATACCTAATGGCTCAAGGACCGATAAATTACGCTCAACAATATG +TGTACCGTGTATTGGCGCTAAGTGTGTGAAGCTTTTTTTCCAAATACCATGCTGCCGATGACCATAAAGT +TGCGATATTTTCATCCGTGCAGGTAAACAACGTACCAGCAGCGCCACCATCCACTGATCCGTAAGATTAA +TGACCAGGTCATAATTATTCGCACGCAGAGTTTTTATCAACGAAAGCACATTTTTAATTTTATCGAAAGT +TCCCGCACCTTTATTGCTTATCCCATAGAGCGCATTAATTTCCGGGTTTTCAGACAAAATAGGGATGGTG +TCCTGATAAAGCAGCATATCGATTTTTGCATCAGGATAATTCTGCTTGAGCGTACTGATGACAGGAGTAG +TTAATAACATATCCCCATGATATCGCATCTTTATGACCAGGATTTTTCGAAATGGCTTTTCCACTAGCGA +CTCTTTTGTGTGATTGTCTGGTTAAGTTAAGCAGAAAAAAGCACGCTACCGCCCCAGGCTCAACAGCTAC +CTGAATACTGATAACGCACTTACTTTGACGTGCTAGTGTATCATTTCTTTCGCAGCAATCCGACCCGAAT +GATTTTTATACACAAAATATACTTTAATCATAAAAATCAAATAGATAAAAAATAGCATTTCGATAATGTC +AGTACGGCCTATGTAGATTTGAAAATGGGGCCGAGTTTCAATGAATCGCATAAAAATACAAAAAAAATGA +AGATGTAGCGGCAGATCAGACCAAACTGAAGCTATTTAAGTCAAAAACGGGAAAAGTAATGGTAAAGCCA +CAGCTAAATACATAGAATCCCCAGCACATCCATAAGTCAGCTATTTACTATGCTCGAATTGCTTTACACC +GCCCTTCTCTACCTTATTCAGCCGCTGATCTGGATACGGCTCTGGGTGCGCGGACGTAAGGCTCCGGCCT +ATCGAAAACGCTGGGGTGAACGTTACGGTTTTTACCGCCATCCGCTAAAACCAGGCGGCATTATGCTGCA +CTCCGTCTCCGTCGGTGAAACTCTGGCGGCAATCCCGTTGGTGCGCGCGCTGCGTCATCGTTATCCTGAT +TTACCGATTACCGTAACAACCATGACGCCAACCGGTTCGGAGCGCGTACAATCGGCTTTCGGGAAGGATG +TTCAGCACGTTTATCTGCCGTATGATCTGCCCGATGCACTCAACCGTTTCCTGAATAAAGTCGACCCTAA +ACTGGTGTTGATTATGGAAACCGAACTATGGCCTAACCTGATTGCGGCGCTACATAAACGTAAAATTCCG +CTGGTGATCGCTAACGCGCGACTCTCTGCCCGCTCGGCCGCAGGTTATGCCAAACTGGGTAAATTCGTCC +GTCGCTTGCTGCGTCGTATTACGCTGATTGCTGCGCAAAATGAAGAAGATGGTGCACGTTTTGTGGCGCT +GGGCGCAAAAAATAATCAGGTGACCGTTACCGGTAGCCTGAAATTCGATATTTCTGTAACGCCGCAGTTG +GCTGCTAAAGCCGTGACGCTGCGCCGCCAGTGGGCACCACACCGCCCGGTATGGATTGCCACCAGCACTC +ACGAAGGCGAAGAGAGTGTGGTGATCGCCGCACATCAGGCATTGTTACAGCAATTCCCGAATTTATTGCT +CATCCTGGTACCCCGTCATCCGGAACGCTTCCCGGATGCGATTAACCTTGTCCGCCAGGCTGGACTAAGC +TATATCACACGCTCTTCAGGGGAAGTCCCCTCCACCAGCACGCAGGTTGTGGTTGGCGATACGATGGGCG +AGTTGATGTTACTGTATGGCATTGCCGATCTCGCCTTTGTTGGCGGTTCACTGGTTGAACGTGGTGGGCA +TAATCCGCTGGAAGCTGCCGCACACGCTATTCCGGTATTGATGGGGCCGCATACTTTTAACTTTAAAGAC +ATTTGCGCGCGGCTGGAGCAGGCAAGCGGGCTGATTACCGTTACCGATGCCACTACGCTTGCAAAAGAGG +TTTCCTCTTTACTCACCGACGCCGATTACCGTAGTTTCTATGGCCGTCATGCCGTTGAAGTACTGTATCA +AAACCAGGGCGCGCTACAGCGTCTGCTTCAACTGCTGGAACCTTACCTGCCACCGAAAACGCATTGAGGT +TGTTATGCAAAAACGGGCGATTTATCCGGGTACTTTCGATCCCATTACCAATGGTCATATCGATATCGTG +ACGCGCGCCACGCAGATGTTCGATCACGTTATTCTGGCGATTGCCGCCAGCCCCAGTAAAAAACCGATGT +TTACCCTGGAAGAGCGTGTGGCACTGGCACAGCAGGCAACCGCGCATCTGGGGAACGTGGAAGTGGTCGG +GTTTAGTGATTTAATGGCGAACTTCGCCCGTAATCAACACGCTACGGTGCTGATTCGTGGCCTGCGTGCG +GTGGCAGATTTTGAATATGAAATGCAGCTGGCGCATATGAATCGCCACTTAATGCCGGAACTGGAAAGTG +TGTTTCTGATGCCGTCGAAAGAGTGGTCGTTTATCTCTTCATCGTTGGTGAAAGAGGTGGCGCGCCATCA +GGGCGATGTCACCCATTTCCTGCCGGAGAATGTCCATCAGGCGCTGATGGCGAAGTTAGCGTAGCGTTTA +TGCCGGATGGTATGCCATCCGGCGCGCATGAATTACTTCTGGCACTGCCGACAATAAAACGTTGCCCGCT +GCGCATGTTTAGTCGCCACAATCGGCGTACCGCACACCCGACACGGCTCACCTTTTCGCCCGTAAACCTG +CAATTCCTGAGCGAAATAGCCCGGTTTACCATCACTTTGCAGAAAATCTTTCAGCGTTGTACCACCCTGC +TCAATCGAACGCAGCAACACCGCTTTAATCACCCGAGCTAACAATTCACACTCTGCCAGCGACAGTGATG +ACGCCAGCCGATCCGGATGGATCCCCGCCGCAAACAGTGATTCGCTGGCATAGATATTCCCTACCCCTAC +CACCAGCTTGTTATCCATCAGCCACGGTTTAATCGCCGTTTTTTTCTTCGCGCACTTCTGATGCAGATAC +TCACCATTGAAATCGTCGCTAAGCGGCTCCGGTCCAAGATGGGTCAGCACATTATGCCCTTCCAGCTCTT +TGGTCCACAGCCAGGCACCAAAGCGGCGCGGATCGGTGTAGCGCAGCACTTTGCCGTTGCTCATCACCAA +ATCCACATGGTCATGCTTTTCAGGGGGAAGTTCTTCTGGAAGGATGCGCAGGCTGCCAGACATCCCTAAA +TGAATGATAATCCAGCCCTCAGGCAGCTCCAGCAGCAGATATTTAGCCCGCCGCTGCACGCTAAGCACTG +GTTGGTCGCTTAAACGGTAGATCTCTTCTGAAACCGGCCAGCGCAAGCGTCCGTTGCGCACCACTGCATG +AAGAATGGTTGCACCAACGAGATGCGGTTCTATGCCGCGGCGGCTGGTTTCAACTTCGGGTAATTCAGGC +ATAGCATCTCCAGGAATGAACAGATGCAGTCAATATGGGGGCAAGCAGATAACAAAAAACCCCGCCGGAG +CGAGGTTTTTTGTTACATCAAAGCGAGAATTATTTGATTTTCGCTTCTTTGTAGATCACGTGCTGGCGAA +CAACTGGATCGAATTTTTTCAGTTCCAGTTTTTCCGGCTTAGTACGTTTGTTCTTCGTAGTGGTATAGAA +GTGACCAGTACCAGCAGAAGAAACCAGCTTGATTTTCTCACGAATACCTTTAGCCATGATTTATTTCCTC +TAAGTACTTAGTACTTTTCGCCACGGGCACGCAGTTCAGCCAGAACTGTATCGATGCCTTTTTTATCGAT +TACACGCATACCTTTAGCAGATACGCGCAGGGTGACAAAACGCTTCTCGCTCTCAACCCAGAAACGGTGA +GAGTGCAGGTTCGGCAGGAAACGGCGTTTAGTCGCGTTCAGTGCGTGGGAACGGTTGTTACCGGTCACCG +GACGCTTGCCAGTAACTTGGCAGACTCGGGACATGTCTATTCTCCAAAAATCAAATTAGCTCGAGCTTCG +TATGGGGTATTGGCGCCTCGTCAGGCTTTACAGCCCGGTCATCGCAGTTCTATGTGAACTCTCGATTGCC +AGGCCCAAATGCCAAACCCGAGATTCTCAAAGGTGGCGTAGTATACGCTGACTCAGCGATGTGCTCAAGT +CCCGAACAGACAAAGATCCCGAAGGATCGCGCATAGCGGGTTAAATCCAGCCGCGTTCGGCAAAAGAAAC +ATACTCTCCACGCCCAATCACGATATGGTCGAGCACGCGTAAATCCATGAACTGACAACTCTTTATTATC +CGTTCAGTAATGAGTTTATCCGCTTTACTGGGTTCAGCACAACCCGAAGGGTGATTATGTGCAAGGATCA +GCGCCGAGGCGTTTATTTTTATCGCTTCGCGGATAATTTCCCGAGGATGGACTTCAACATGGTTTAGCGT +GCCGGAAAAAAGACGCCTATGCGTTATAACCCGGTGTTGGGAGTCGAGAAAGATCACCATAAAGATCTCC +CGCTCCTCACCCGTGAGCTGGCTTTGTAAAAATTCCCTCGTCATCTCCGGGCTGAGTAAAGGGCTTTCTT +CACGCATCCGCACGTTGTAGTAACGCCGCGCCAGTTCAGCAATCCCCTTTAACTGGGCAAATTTCGCCAC +GCCAATTCCATGAACGCCACTAAATTGTTCATATTCAGAGGTTAACAAGCCATAAAGAGAGCCGAAATTC +TCCAGCATCTCTTTTGCCAGGGTTAATACATCTTTACCGCGCGTTCCGGTACGCAGAAATAGCGCCAGCA +GCTCGACATCCGTTAAGGCGCTAATACCAAACTTCAGCATTTTTTCGCGCGGCATCAACAGCTGTGAATT +GTTTTTCACCTTCACCTCCTTTGTGGTGCTCGCATCCTGTCATAGCCGTTTCGTTAAATCGACGGCCAGT +TTTCAATCCTGGAAAGCGCCTCGCAAAGTGAATCTCAGGTGAAGGCACGACAACAAAAGTATTGTGATAA +AATCGCCAACTTCTGGTGTCACCCTACAGGAAAAATCATCATGAGCCTGGCCGGTAAAAAAATCGTTCTC +GGCGTTAGCGGCGGTATTGCTGCCTATAAAACCCCTGAACTGGTGCGTCGTTTGCGCGATCGCGGGGCCG +ACGTCCGCGTAGCCATGACCGAAGCGGCAAAAGCCTTTATCACCCCACTTAGCTTGCAGGCGGTTTCTGG +TTATCCCGTTTCCGACAGTCTGCTGGACCCGGCAGCCGAAGCCGCTATGGGCCATATTGAGCTGGGTAAA +TGGGCTGATTTAGTGATTCTCGCCCCTGCCACGGCAGATTTGATTGCCCGTGTTGCTGCCGGAATGGCGA +ATGACCTGGTATCGACGATTTGTCTGGCTACACCTGCGCCTGTAGCCGTGCTCCCCGCCATGAACCAGCA +GATGTACCGTGCCGCTGCCACGCAGCATAATTTAGAGGTGCTTGCTTCCCGTGGTTTGCTCATCTGGGGG +CCAGACAGTGGCAGTCAGGCTTGTGGTGATATCGGTCCTGGGCGAATGCTCGATCCGTTAACCATTGTGG +ATATGGCGGTAGCGCATTTTTCGCCCGTCAACGACCTGAAACATCTGAACATTATGATTACCGCCGGCCC +GACGCGTGAACCGCTCGATCCGGTGCGTTATATCTCTAATCACAGCTCCGGCAAGATGGGTTTTGCTATC +GCCGCCGCCGCTGCCCGTCGTGGCGCGAACGTCACGCTGGTATCAGGTCCGGTTTCACTACCGACGCCAC +CGTTTGTTAAACGTGTTGATGTGATGACCGCGCTGGAAATGGAAGCCGCCGTGAATGCTTCTGTACAGCA +GCAAAATATTTTTATCGGCTGCGCCGCCGTGGCGGATTATCGCGCAGCTACCGTGGCCCCAGAGAAAATC +AAAAAGCAGGCCACGCAGGGTGATGAATTAACAATAAAAATGGTTAAAAACCCCGATATCGTCGCAGGCG +TTGCCGCACTAAAAGACCATCGACCCTACGTCGTTGGATTTGCCGCCGAAACAAATAATGTGGAAGAATA +CGCCCGGCAAAAACGTATCCGTAAAAACCTTGATCTGATCTGCGCGAACGATGTTTCCCAGCCAACTCAA +GGATTTAACAGCGACAACAACGCATTACACCTTTTCTGGCAGGACGGAGATAAAGTCTTACCGCTTGAGC +GCAAAGAGCTCCTTGGCCAATTATTACTCGACGAGATCGTGACCCGTTATGATGAAAAAAATCGACGTTA +AGATTCTGGACCCGCGCGTTGGGAAGGAATTTCCGCTCCCGACTTATGCCACCTCTGGCTCTGCCGGACT +TGACCTGCGTGCCTGTCTCAACGACGCCGTAGAACTGGCTCCGGGTGACACTACGCTGGTTCCGACCGGG +CTGGCGATTCATATTGCCGATCCTTCACTGGCGGCAATGATGCTGCCGCGCTCCGGATTGGGACATAAGC +ACGGTATCGTGCTTGGTAACCTGGTAGGATTGATCGATTCTGACTATCAGGGCCAGTTGATGATTTCCGT +GTGGAACCGTGGTCAGGACAGCTTCACCATTCAACCTGGCGAACGCATCGCCCAGATGATTTTTGTTCCG +GTAGTACAGGCTGAATTTAATCTGGTGGAAGATTTCGACGCCACCGACCGCGGTGAAGGCGGCTTTGGTC +ACTCTGGTCGTCAGTAACACATACGCATCCGAATAACGTCATAACATAGCCGCAAACATTTCGTTTGCGG +TCATAGCGTGGGTGCCGCCTGGCAAGTGCTTATTTTCAGGGGTATTTTGTAACATGGCAGAAAAACAAAC +TGCGAAAAGGAACCGTCGCGAGGAAATACTTCAGTCTCTGGCGCTGATGCTGGAATCCAGCGATGGAAGC +CAACGTATCACGACGGCAAAACTGGCCGCCTCTGTCGGCGTTTCCGAAGCGGCACTGTATCGCCACTTCC +CCAGTAAGACCCGCATGTTCGATAGCCTGATTGAGTTTATCGAAGATAGCCTGATTACTCGCATCAACCT +GATTCTGAAAGATGAGAAAGACACCACAGCGCGCCTGCGTCTGATTGTGTTGCTGCTTCTCGGTTTTGGT +GAGCGTAATCCTGGCCTGACCCGCATCCTCACTGGTCATGCGCTAATGTTTGAACAGGATCGCCTGCAAG +GGCGCATCAACCAGCTGTTCGAGCGTATTGAAGCGCAGCTGCGCCAGGTATTGCGTGAAAAGAGAATGCG +TGAGGGTGAAGGTTACACCACCGATGAAACCCTGCTGGCAAGCCAGATCCTGGCCTTCTGTGAAGGTATG +CTGTCACGTTTTGTCCGCAGCGAATTTAAATACCGCCCGACGGATGATTTTGACGCCCGCTGGCCGCTAA +TTGCGGCACAGTTGCAGTAATATGACGCCGGATGACTTTTCATCCGGCGAGTTTCTTTAAACGCCAAACT +CTTCGCGATAGGCCTTAACCGCCGCCAGATGTTCCGCCATTTCCGGCTTCTCTTCCAGGTAAGCAATCAG +GTCTTTCAGGGTGATGATAGAGATCACTTTGCAGTTGTAATCACGCTCAACTTCCTGAATCGCCGAAATC +TCGCCGCGCCCGCGTTCCTGACGATCGAGCGAAATCAACACGCCAGCAAGCGTCGCGCCATTGGCCTGAA +TAATCTCCATCGACTCGCGAATCGCCGTTCCGGCGGTGATCACATCATCTACCAGCATTACGCGTCCTTG +TAACGCGCTACCAACCAGATTGCCGCCTTCACCGTGGTCTTTTGCTTCTTTGCGGTTAAAGCAGTACGGC +AGGTCCAGGTCGTGATGCTCCGCCAGTGCCACAGCGGTTGTGGTGGCAATCGGGATCCCTTTGTAAGCAG +GGCCAAACAGCAGATCGAACTCAATGCCGGAATCCACCAACGCTTCAGCGTAAAAACGGCCTAACAGTGC +CAGATCGCGCCCGGTATTAAACAGCCCGGCGTTGAAGAAATAGGGGCTTTTGCGCCCGGATTTCAGCGTA +AACTCGCCAAACTTTAACACCTGCTTGCTAAGCGCAAATTCAATAAACTGGCGCTGATATGGTTTCATGC +CTTCGCTCCTCATCTTACTTTTCTACAGACAAAAAAAAGGCGACTCATCAGTCGCCTTAAAAATCAGTTT +GCCAGCGCCGCCTTCTGCGTCGCTACAATGGATTCGATTCCCCTCGGGCCAGAGCCAACAAGATGAGTAG +CTCTTCATGGGTGAACGGCTCGCCTTCTGCCGTCCCCTGCACTTCAATGATGCGCCCGTCTTCGGTCATC +ACTACGTTCATGTCGGTCTCTGCGGCAGAGTCTTCAACGTATTCCAGATCGCAAACCGCTTCGCCGTTCA +CAATTCCGACAGAAACTGCGGCTACCATCCCTTTCATCGGATTGGTTTTCAGCTTGCCGTTTTCCACCAG +CTTCTGTAGCGCATCTACCAGCGCCACGCAGGCACCCGTAATCGACGCGGTACGCGTGCCACCATCAGCC +TGAAGCACGTCGCAGTCCAGCGTAATGGTGAACTCACCCAGCGCTTTCAAATCTACTGCCGCGCGAAGAG +CACGGGCGATCAGACGCTGGATTTCCATTGTGCGTCCACCCTGCTTACCTTTCGCCGCTTCACGAGCGTT +ACGGGTGTGGGTAGAACGTGGCAGCATGCCGTACTCTGCGGTGATCCAGCCCTGGCCCTGACCTTTCAGG +AAGCGCGGCACGCCTTCTTCAATAGAGGCGGTACACAACACTTTGGTATCGCCAAATTCGACCAGCACCG +AGCCTTCTGCATGTTTTGTATAGTTACGAGTCAGGGTAACGGGACGCACCTGATTATTGCTACGGCCTGC +TGGACGCATATTGAAATCTCCGGCTTGAAACAAATGTGGCTGCGCATTATACGGACTTCCGGCGGTTATT +CCTATCCTGACAAGGCATCGATGGCTATAATCCTTCCACCTCTCCTTTTATAAACAGGAACGTCTATGAT +CCGCAGTATGACCGCCTACGCCCGGCGTGAAATCAAGGGTGAATGGGGGAGCGCAACCTGGGAAATGCGC +TCGGTAAACCAGCGTTATCTGGAAACTTACTTTCGTCTGCCGGAGCAGTTCCGTAGCCTTGAACCTGTCG +TTCGCGAGCGTATTCGTTCTCGCCTGACGCGCGGTAAAGTGGAATGTACCCTGCGCTATGAGCCAGATGT +TAGCGCGCAAGGTGAGCTGATCCTCAACGAAAAACTGGCTAAACAGCTGGTAACTGCCGCGAACTGGGTA +AAAATGCAGAGTGACGAAGGGGAAATCAACCCGGTTGATATTCTACGCTGGCCGGGCGTGATGGCAGCCC +AGGAGCAGGATCTTGACGCCATTGCCGCTGAAATTCTCGCGGCGCTGGATGGTACGCTGGACGACTTTAT +TGTCGCGCGCGAAACCGAAGGTCAGGCACTGAAAGCATTGATCGAGCAGCGTCTGGAAGGCGTCACCGCC +GAAGTGGTCAAAGTCCGCTCCCATATGCCGGAAATCCTGCAATGGCAGCGTGAGCGTCTGGTCGCGAAGC +TGGAAGATGCTCAGGTGCAACTGGAAAACAACCGTCTGGAGCAGGAACTGGTTCTGCTGGCACAACGAAT +TGACGTTGCCGAAGAACTGGATCGCCTCGAAGCGCATGTCAAAGAGACCTACAACATTCTGAAGAAAAAA +GAAGCGGTTGGTCGTCGTCTGGATTTTATGATGCAGGAGTTCAACCGCGAGTCGAACACTCTTGCGTCGA +AGTCTATCAATGCCGAAGTGACAAACTCCGCCATCGAGCTGAAAGTGTTGATTGAGCAGATGCGCGAGCA +GATTCAGAACATCGAATAACTCGTAACGCCAATTCTTACTTTTCCGCCTTCACAAATGCCGCCACTCAAA +CAGAGCGGCATTTTTCTTCCCCGCAACATTCAATTCTGTTTTGCGTGCCTGCTCCAGATTTTGCGATGTT +TTTTTGCCCAGCACACTGAGAACGTGAGATACTCACAACTGTATATAAATACAGTTACAGATTTACTTTC +TTTGCAATTGATATCACATGGAGTGGGCAATGAACGAACATCATCAACCTTTTGAAGAGATAAAACTGAT +TAATGCAAACGGAGCAGAACAATGGTCAGCAAGACAACTTGGGAAACTACTGGGTTATTCAGAGTATCGT +CACTTTATACCTGTATTAACGCGCGCCAAAGAAGCCTGTGAGAACAGTGGTCACACAATTGATGACCATT +TCGAGGAGATCCTCGATATGGTCAAAATTGGCTCAAATGCCAAAAGAGCATTAAAAGACATCGTACTCTC +CCGCTATGCCTGTTACCTGGTAGTACAAAACGGCGACCCTGCGAAACCGGTCATTGCGGCAGGGCAGACT +TATTTTGCTATCCAGACCCGACGGCAGGAGCTTGCTGACGATGAAGCATTTAAGCAACTTCGTGAAGACG +AAAAGCGTCTGTTTCTGAGAAATGAGTTGAAAGAACATAACAAACAATTGGTTGAGGCAGCACAGCAAGC +TGGGGTAGCGACAGCTACTGATTTCGCCATATTTCAGAATCATGGTTACCAGGGGCTGTATGGTGGATTA +GATCAGAAAGCTATTCATCAGCGGAAGGGGCTGAAAAAGAATCAGAAGATCCTGGATCATATGGGTTCAA +CAGAACTGGCGGCTAATCTCTTTCGAGCTACCCAAACAGAAGAAAAACTCAAGCGGGATGGCGTGAATTC +AAAACAGCAAGCAAACACCACACACTTTGACGTGGGTCGCAAGGTGAGGCAAACCATTCAGGAACTTGGC +GGAACCATGCCTGAGGAGTTGCCGACCCCGCAGGTCAGCATCAAGCAGTTGGAAAACAGTGTAAAAATTA +CAGAGAAGAAATAGCAGAAACTAAAAACTCTTTTTGTTGATTGAGACACCCGATGCGTAAGCCAAGGTCC +AGGTGCAGTGAACACAATGGCTAAATATTGCACCTTTCTTTTCCCCCTCAGTTTTAACCTATTTTTTCTT +ATGCATTTTCTCAGACAAGAAGTCAGAAGAATGCATCTCTGCTACAGAAAATAGCGATTTCACATAACTA +CAAGTTATCAATTTCCCCTCCCCTTAAAAAATCTCAATCGTGACAATGCGCACAAATCGCTACCCTGCCA +GACAGATTTTTAGGGAGAGAACCATGCTGTTACACATTTTGTATTTGGTTGGCATTACTGCCGAAGCCAT +GACGGGGGCGCTGGCGGCCGGACGACGGCGCATGGATACATTTGGCGTAATTATTATTGCGACCGCCACC +GCAATTGGCGGAGGGTCAGTGCGCGATATTCTGCTGGGCCACTATCCGCTCGGCTGGGTCAAACACCCGG +AATATGTGATTATCGTCGCTACCGCCGCAGTACTCACCACTATCGTTGCTCCTGTAATGCCTTACCTGCG +CAAAGTGTTTCTGGTGCTCGATGCGCTCGGACTGGTGGTCTTTTCTATCATCGGGGCACAGGTTGCACTG +GATATGGGGCACGGCCCAATTATTGCCGTTGTCGCGGCGGTAACCACCGGCGTGTTTGGCGGCGTTTTGC +GCGATATGTTCTGTAAACGTATCCCACTGGTATTCCAGAAAGAGTTGTATGCCGGTGTCTCATTTGCCTC +CGCCGTGCTGTACATCGCGCTGCAACACTATGTTTCTAACCATGATGTGGTAATTATCTCCACCCTGGTA +TTCGGCTTTTTTGCCCGCTTACTGGCGCTACGCCTTAAGCTGGGATTACCGGTCTTTTACTACAGCCACG +AAGGACACTAAGGTTCAAAACCTGTGATCTGCTGGGCAGCCAGCCAACTGCCCAGCTTCTTGATTTGCGC +ATTTTCCTTCCATTCAATAACCTGTCTGGCGCGTCCCGATCCAGTCCCCGGCAGCTGCTGCCAGAACTGC +TCCGTGCTAAATAAAAGTTGCGACCAGGACCGTTCATCACTGGCATTAAGCGCCGCCCGGGTTAGCGGTA +TTCCCATTGCCATCACCCAGCGAGTAAAAGGCTGCTTACGAGCCAGATTAAACTGATGCCATAGCTGCGC +ACTTTTACTTTTCGCGATCCCCGGCGTGTTCTGTAATTGCTCTGGCGTTAATAAAAGCCAGGAAAAGATA +TGTTCAAAGCGATGAGTCTGATGCAGCGCGCGCCAACCGGCCTCACCAATGCCATCCAGCCCAAGAACCT +GTTTTGCCCCCAGCCAGACTAAGCGTGAAATGAACTGTTCCTGACAAACATCAGAAGCAAAGTAGCAGGT +CAACGAGTTAAAGCGGTTTTCTGGCGGTGTCGGTTTTGTACGTTCTGCACCGCGCCACACCACATCATCA +ATGCGAGGAATACCCTGACCGGCAAGGCTGACGAGAATCTGATCACCAGGCGCAATATCCCACTCCTGCC +AGCGCCTGACGGAACCAATATTCACCCGCTGGACTTTTTTATCATCCAGCATGACAGGTGCGAGTGACGC +AACCACCGATATTTTACCGCTCTTACCCACCGCAAACTGAATTGCCTTCACTTCGGCAACCTGAGCTACA +GGTTGATATTTCCAGGCCACCAGCCACTCTGCCTGGCCCGGTAGCCAATGGCGGGATTCTGGCTCTTTCG +CCGCTCGTACAACTACGCCATCGGTGACGAAGGGTAATTCCGCTTTCCACCACTCATTGCGTACGCGCGC +AACTTCATCAGCATTTTTCACCGCACGGGTATACGTCTGCGTTAGAGTAAAACCTGCGGTAGCCAGCTCT +TTTAAACGATCAGACATTAACTGCGGTCCATCCGGCCATGCCCAGACAAAAACGCCCAGAGAATTCAGCG +TGTCGCTATCGTCCTGGCGCATCATCAAGCCAGCAACTTTTGCGCGGGCATTTATTCCCCCCATTTGTTG +TTGGATATGCCCCTCGCGCTGGAGAAATATTTCCCCCTGAAGCGTACTGTTGGCTAAAGGCCCGCTAACG +GTTTGCGGCACAGCGGAAATTAAGCTAACTTTCTGCGTCCAGTCCTCGCCTTTCAGGCCATTACCGCGAC +TGATTGCTTTGTTCAGTTTCCCGTCCCGATAAACCAGGGTTACCGCAACGCCATCAACTTTTGGCTGCAC +CCAAAGATCGCTACGTTCTCGCATCCACAGACTTAATGCGTTTTTATCCACCATTTTGCGTACACCCGTA +TGGGCAACCGGATGCATAACCGCACCATTTAAAGGCGGCATCATCACGTCGCGGGGCTCGCTCCCAAAGC +AGCGTTGCCACTGCGTAAGACGGGCGCTTAACTGATCGTAAACACCGTCTTCCACCTCACTTTTTCCTTC +CTTCCAGTAGTCATCGTCCCACTGTTTTATTTGCTGTTGCAGGCGGGAAATTTCTTCCTGTGCTCTGGCT +GGCGACCAGGCCGGACAGACCGCCCACACAGATGATTGCCAGCACAAGATACCTATTAATATCGCCATCC +ATACTTTCATCATCACCTCCGCTGTAGATAGTCAGGCAGATATACAACGTGATGAAAGCAAAGCCGAGTG +GCAAAAACGGAGTCTGCGAGGACGCTTCCTGAAAATCGTCTTTATTGCAGTGAATGACAGGCAAATGCGG +AAGCAGCTACGCAAAACGCAACAACTTTGCGCAAAAAGTGTGAGCAAGGGCTACGTCACATGGCCGCGCC +GTGTATAATAAGCTCGTATGTAGGCTTTATTTCGCTAATCACATACGAAAGATACTCATGGCTCAAGGCA +CGCTTTATATTGTTTCTGCCCCCAGTGGCGCGGGTAAATCCAGCCTGATTCAGGCTTTATTAAAAACCCA +ACCGTTGTATGACACCCAGGTTTCTGTTTCACACACCACACGCCAACCGCGTCCTGGTGAAGTCCACGGT +GAACATTATTTCTTTGTTAATCATGATGAATTTAAAGAAATGATTAGCAGAGATGCGTTCCTCGAACACG +CAGAAGTTTTTGGTAATTACTATGGCACTTCGCGTGAGGCCATTGAGCAAGTACTGGCGACCGGTGTCGA +TGTTTTTCTCGATATCGACTGGCAGGGCGCGCAGCAAATTCGCCAGAAGATGCCGCACGCGCGGAGTATC +TTTATTTTACCGCCGTCCAAAATTGAACTGGACCGCCGTCTACGCGGTCGCGGTCAGGACAGCGAAGAGG +TCATTGCAAAGCGTATGGCGCAAGCTGTTGCAGAAATGAGCCATTACGCCGAATATGATTATCTGATTGT +GAATGATGACTTCGATACCGCGTTGACCGATTTGAAGACCATTATTCGCGCCGAACGTCTGCGCATGAGC +CGCCAAAAGCAGCGTCATGACGCTTTAATCAGCAAATTGTTGGCAGACTGAACCTGATTTCAGTATCATG +CCCAGTCATTTCTTCACCTGTGGAGCTTTTTAAGTATGGCACGCGTAACTGTTCAGGACGCTGTAGAGAA +AATTGGTAACCGTTTTGACCTGGTACTGGTCGCCGCGCGTCGCGCTCGTCAGATGCAGGTAGGCGGAAAG +GATCCGCTGGTACCGGAAGAAAACGATAAAACCACTGTAATCGCGCTGCGCGAAATCGAAGAAGGTCTGA +TCAACAACCAGATCCTCGACGTTCGCGAACGCCAGGAACAGCAAGAGCAGGAAGCCGCTGAATTACAAGC +CGTTACCGCTATTGCTGAAGGTCGTCGTTAATCACAAAGCGGGTCGCCCTTGTATCTGTTTGAAAGCCTG +AATCAACTGATTCAAACCTACCTGCCGGAAGACCAAATCAAGCGTCTGCGGCAGGCGTATCTCGTTGCAC +GTGATGCTCACGAGGGGCAAACACGTTCAAGCGGTGAACCCTATATCACGCACCCGGTAGCGGTTGCCTG +CATTCTGGCCGAGATGAAACTCGACTATGAAACGCTGATGGCGGCGCTGCTGCATGACGTGATTGAAGAT +ACTCCCGCCACCTACCAGGATATGGAACAGCTTTTTGGTAAAAGCGTCGCCGAGCTGGTAGAGGGGGTGT +CGAAACTTGATAAACTCAAGTTCCGCGATAAGAAAGAGGCGCAGGCCGAAAACTTTCGCAAGATGATTAT +GGCGATGGTGCAGGATATCCGCGTCATCCTCATCAAACTTGCCGACCGTACCCACAACATGCGCACGCTG +GGCTCACTTCGCCCGGACAAACGTCGCCGCATCGCCCGTGAAACTCTCGAAATTTATAGCCCGCTGGCGC +ACCGTTTAGGTATCCACCACATTAAAACCGAACTCGAAGAGCTGGGTTTTGAGGCGCTGTATCCCAACCG +TTATCGCGTAATCAAAGAAGTGGTGAAAGCCGCGCGCGGCAACCGTAAAGAGATGATCCAGAAGATTCTT +TCTGAAATCGAAGGGCGTTTGCAGGAAGCGGGAATACCGTGCCGCGTCAGTGGTCGCGAGAAGCATCTTT +ATTCGATTTACTGCAAAATGGTGCTCAAAGAGCAGCGTTTTCACTCGATCATGGACATCTACGCTTTCCG +CGTGATCGTCAATGATTCTGACACCTGTTATCGCGTGCTGGGCCAGATGCACAGCCTGTACAAGCCGCGT +CCGGGCCGCGTGAAAGACTATATCGCCATTCCAAAAGCGAACGGCTATCAGTCTTTGCACACCTCGATGA +TCGGCCCGCACGGTGTGCCGGTTGAGGTCCAGATCCGTACCGAAGATATGGACCAGATGGCGGAGATGGG +TGTTGCCGCGCACTGGGCTTATAAAGAGCACGGCGAAACCAGTACTACCGCACAAATCCGCGCCCAGCGC +TGGATGCAAAGCCTGCTGGAGCTGCAACAGAGCGCCGGTAGTTCGTTTGAATTTATCGAGAGCGTTAAAT +CCGATCTCTTCCCGGATGAGATTTACGTTTTCACACCGGAAGGGCGCATTGTCGAGCTGCCTGCCGGTGC +AACGCCCGTCGACTTCGCTTATGCAGTGCATACCGATATCGGTCATGCCTGCGTGGGCGCACGCGTTGAC +CGCCAGCCTTACCCGCTGTCGCAGCCGCTTACCAGCGGTCAAACCGTTGAAATCATTACCGCTCCGGGCG +CTCGCCCGAATGCCGCTTGGCTGAACTTTGTCGTTAGCTCGAAAGCGCGCGCCAAAATTCGTCAGTTGCT +GAAAAACCTCAAGCGTGATGATTCTGTAAGCCTGGGCCGTCGTCTGCTCAACCATGCTTTGGGTGGTAGC +CGTAAGCTGAATGAAATCCCGCAGGAAAATATTCAGCGCGAGCTGGATCGCATGAAGCTGGCAACGCTTG +ACGATCTGCTGGCAGAAATCGGACTTGGTAACGCAATGAGCGTGGTGGTCGCGAAAAATCTGCAACATGG +GGACGCCTCCATTCCACCGGCAACCCAAAGCCACGGACATCTGCCCATTAAAGGTGCCGATGGCGTGCTG +ATCACCTTTGCGAAATGCTGCCGCCCTATTCCTGGCGACCCGATTATCGCCCACGTCAGCCCCGGTAAAG +GTCTGGTGATCCACCATGAATCCTGCCGTAATATCCGTGGCTACCAGAAAGAGCCAGAGAAGTTTATGGC +TGTGGAATGGGATAAAGAGACGGCGCAGGAGTTCATCACCGAAATCAAGGTGGAGATGTTCAATCATCAG +GGTGCGCTGGCAAACCTGACGGCGGCAATTAACACCACGACTTCGAATATTCAAAGTTTGAATACGGAAG +AGAAAGATGGTCGCGTCTACAGCGCCTTTATTCGTCTGACCGCTCGTGACCGTGTGCATCTGGCGAATAT +CATGCGCAAAATCCGCGTGATGCCAGACGTGATTAAAGTCACCCGAAACCGAAATTAATGTTTTATGAAC +CCAACACGTTATGCACGCATCTGCGAAATGCTCGCCAGGCGGCAGCCTGATCTGACCGTCTGCATGGAGC +AGGTCCACAAACCTCATAACGTTTCTGCGATTATTCGTACCGCAGATGCCGTTGGCGTACATGAAGTTCA +CGCCGTCTGGCCTGGTAGCCGCATGCGCACCATGGCTTCGGCAGCGGCGGGTAGTAACAGCTGGGTACAG +GTGAAAACACACCGCACCATTGGCGATGCCGTCGCTCATCTCAAAGGCCAGGGCATGCAGATTCTGGCAA +CCCATCTTTCTGATAACGCTGTCGATTTCCGCGAAATTGATTACACTCGCCCGACCTGCATTTTGATGGG +ACAGGAGAAAACGGGCATCACGCAGGAAGCATTGGCCCTGGCGGATCAGGACATCATCATTCCGATGATC +GGCATGGTGCAGTCGCTGAATGTTTCCGTTGCCTCAGCCCTCATTCTTTACGAAGCCCAGCGTCAGCGGC +AAAATGCAGGCATGTACCTGCGTGAAAACAGCATGTTGCCGGAAGCAGAGCAACAACGCCTGTTGTTTGA +AGGCGGCTATCCGGTGCTGGCGAAAGTCGCAAAACGCAAAGGCCTGCCTTATCCCCACGTCAATCAGCAA +GGCGAGATCGAAGCTGATGCCGACTGGTGGGCTACTATGCAGGCTGCAGGGTAAGTGCCATGAAAGGTCG +CCTGTTAGATGCTGTCCCACTCAGTTCCCTAACGGGCGTTGGCGCAGCACTTAGTAACAAACTGGCGAAA +ATCAACCTGCATACCGTGCAGGATCTACTCTTACACCTTCCCCTGCGCTACGAAGATCGCACCCATCTCT +ACCCCATCGGAGAACTACTGCCGGGCGTTTATGCCACGGTGGAAGGCGAAGTGCTGAACTGCAATATCTC +CTTCGGCGGTCGGCGGATGATGACCTGCCAGATCAGCGACGGTTCCGGCATCCTCACCATGCGCTTTTTC +AATTTCAGCGCGGCAATGAAAAATAGCCTGGCGGCGGGCCGCCGTGTACTGGCTTATGGCGAAGCAAAGC +GCGGTAAATATGGTGCGGAGATGATCCACCCGGAATACCGCGTGCAGGGCGATCTCAGCACGCCAGAATT +ACAGGAAACGCTCACGCCGGTTTATCCAACAACGGAAGGCGTAAAGCAGGCCACGCTGCGTAAATTAACC +GACCAGGCGCTGGATCTGCTCGACACCTGCGCCATTGAAGAACTCCTGCCGCCGGAACTGTCACAAGGAA +TGATGACGCTACCGGAAGCGTTGCGCACTTTGCACCGCCCGCCACCGACGCTACAGCTTAGCGATCTGGA +AACCGGGCAGCATCCGGCGCAACGTCGTCTGATTCTGGAAGAACTGCTGGCGCACAACCTCAGCATGTTA +GCCTTACGTGCCGGAGCACAGCGTTTTCATGCCCAGCCGCTGAGCGCCAATGACACGCTGAAAAATAAAC +TCCTCGCCGCCTTACCGTTCAAGCCAACGGGCGCACAGGCACGCGTAGTGGCGGAGATCGAGCGCGATAT +GGCGCTGGATGTGCCGATGATGCGTCTGGTGCAGGGCGATGTAGGTTCCGGTAAAACGCTGGTCGCCGCC +CTCGCCGCGTTGCGTGCGATTGCCCACGGCAAACAGGTAGCATTGATGGCACCAACCGAATTACTCGCCG +AGCAGCACGCCAATAACTTCCGCAACTGGTTTGCACCGCTCGGTATCGAAGTGGGCTGGCTCGCCGGTAA +GCAGAAAGGTAAAGCACGGCTGGCACAGCAGGAAGCCATCGCCAGCGGTCAGGTGCAGATGATTGTCGGT +ACACACGCCATCTTCCAGGAACAGGTGCAGTTTAACGGCCTGGCGCTGGTGATTATCGACGAACAGCATC +GTTTTGGCGTGCATCAGCGTCTGGCATTGTGGGAGAAAGGCCAGCAGCAGGGCTTCCATCCGCATCAGTT +GATCATGACCGCCACGCCGATCCCCCGCACGCTGGCAATGACTGCGTATGCCGATCTCGATACCTCGGTG +ATAGATGAGCTGCCGCCAGGCCGCACGCCAGTGACTACGGTCGCTATTCCTGATACCCGCCGTACCGACA +TCATTGACCGCGTGCACCACGCCTGCATAACTGAAGGTCGTCAGGCATACTGGGTTTGTACGTTGATTGA +AGAGTCGGAATTGCTGGAAGCGCAGGCGGCGGAAGCTACCTGGGAAGAGTTGAAACTGGCGCTACCAGAG +TTGAACGTTGGCCTGGTACACGGGCGGATGAAACCTGCCGAGAAACAGGCGGTGATGGCGTCGTTTAAAC +AAGGTGAGCTACACCTGCTGGTTGCCACAACCGTTATTGAAGTCGGCGTTGATGTGCCTAACGCCAGTCT +GATGATTATCGAAAACCCGGAGCGTCTGGGTCTGGCGCAGTTACACCAGCTGCGCGGGCGCGTAGGTCGT +GGCGCGGTGGCTTCTCACTGCGTGCTGCTCTACAAAACGCCGCTTTCTAAAACGGCGCAAATTCGCCTGC +AAGTGCTGCGCGACAGTAACGACGGTTTTGTGATTGCGCAAAAAGATCTGGAGATTCGCGGCCCTGGCGA +ATTGTTAGGCACGCGTCAGACGGGTAATGCTGAATTTAAAGTGGCGGATTTACTGCGCGATCAGGCGATG +ATCCCGGAAGTTCAGCGCCTGGCACGCCATATTCACGAACGTTACCCACAACAGGCAAAAGCCCTGATAG +AACGCTGGATGCCGGAGACGGAACGTTACTCGAATGCGTAAAAGGCGGCAGTGAGAAGACCGCCATTTCA +GGTTACCCTACCTTCCTGCCGGATGCGATTCATCACCCTACAAATTCAATAAATTATGAATCAATACGCA +GGCTTGATAAGCGAAGCGTATCAGGCATTTGTCTTTGTTGCGGCGGCACTTCTACCGCCGCTTCATCGGT +TAACCGGCAAAAATCGGCAACATCAAATACAACTTAATTACCAGCGCATTGACGATATCGATAAAGAACG +CACCGACCATCGGCACCACCAAAAACGCCATGTGCGACGGGCCAAAGCGTTCAGTGATCGCCTGCATGTT +GGCGATTGCCGTTGGCGTTGCACCGAGGCCAAAACCACAGTGACCCGCAGCCAGCACTGCCGCATCGTAG +TTTTTGCCCATCATGCGCCAGGTAACGAAGATGGCATACAACGCCATGAAGATGGTCTGTACCACCAGAA +TCGCCAGCATCGGCAGCGCCAGCGAAGCCAGCTCCCACAGTTTCAGCCCCATCAACGCCATCGCCAGGAA +CAACGACAAGCTTACGTTACCCAGCACGGATACCGCACGCTCAAAGACGCGGTAAAAGCCCATTATTGAC +AGACCGTTGCTCAGAATCACGCCAACAAACAGTACACAGACGAAGGTCGGCAGTTCAAAAGCAGTGCCAG +CCAAAAGTTGCGCAACAATTTTCCCCACCGTCAGGCAGATAGCAATCAGCGCGATAGTTTCAATCAGCAC +CAACGAGGTGATCATGCGTCCCACATCCGGCTTTTCAAACGCCGTCGGGACTTCCTGGTCATCCGGAATA +CCGTTCGGCGTGGTGGAGTGTTTCACCAGATAGCGCGCCACCGGACCGCCAATCAAGCCGCCCAGCACCA +GACCGAACGTTGCACAGGCCATCGCCACTTCCGTCGCATTGGTGAAGCCATAACGTTCAATGAACAATTT +ACTCCACGCAGCGCCCGTACCGTGACCGCCGGAAAGAGTAATAGAACCGGCCAACAGCCCCATCAGCGGA +TCAAGCCCTAACAAGCTAGCCATACCAATGCCAATGGCATTTTGCATCACCAACAGACCAACAACCACAA +TCAAGAAGATGCCAACCACACGCCCACCGGCACGCAAACTGGCAATGTTGGCGTTCAGGCCAATGGTGGC +GAAGAAAGCCAGCATTAACGGATCGCGCAGGGACATATCAAAGTTGACTTCCCAGCCCATGCTTTTTTTC +AGTACTAGTAGCGCCAGCGCCACCAACAAACCACCCGCAACAGGTTCCGGTATGGTGTATTTCTTCAAAA +AGGAGACGGAATGGACCAACTTACGCCCGAGCAGCAACGTCAGCGTTGCGGCAACAAGCGTTGCTAAAGT +ATCGAGATGAAACATAGTTACTCCTTTGTATCCGCATCACTCTTTCATACTCGTCATACTTCATCGCGCA +GTGGCAACTTCATGAACTATGACGGGTATCGAGTTATGCTTTCCTGGGTCAAATTCTCAGCTGTTAATGA +ACAAATGGCATGGATTTTAAGCAGAAAAATACCAAAAGTTATATAAAAAAGTGCATTTATCTCATTTAAA +TATTTAGATGAGGATGTGGCAAACGTTTGCTTTTCTCTTTCGGTCAGCTAAAATGCCCGCTTTGCTACCA +CGGGATTGTTTTCGATGTCTGTTTCCACCCTCGAGTCAGAAAATGCGCAACCGGTTGCGCAGACTCAAAA +CAGCGAACTGATTTACCGTCTTGAAGATCGTCCGCCGCTTCCTCAAACCCTGTTTGCCGCCTGTCAGCAT +CTGCTGGCGATGTTCGTTGCGGTGATCACGCCAGCGCTATTAATCTGCCAGGCGCTGGGTTTACCGGCAC +AAGACACGCAACACATTATTAGTATGTCGCTGTTTGCCTCCGGTGTGGCATCGATTATTCAAATTAAGGC +CTGGGGTCCGGTTGGCTCCGGGCTGTTGTCTATTCAGGGCACCAGCTTCAACTTTGTTGCCCCGCTGATT +ATGGGCGGTACCGCGCTGAAAACCGGTGGTGCTGATGTTCCTACCATGATGGCGGCTTTGTTCGGCACGT +TGATGCTGGCAAGTTGCACCGAGATGGTGATCTCCCGCGTTCTGCATCTGGCGCGCCGCATTATTACGCC +GCTGGTTTCTGGCGTTGTGGTGATGATTATCGGCCTGTCGCTAATTCAGGTTGGGTTAACGTCCATTGGC +GGCGGTTACGCAGCCATGAGCGATAACACCTTCGGCGCACCGAAAAATCTGCTGCTGGCAGGCGTGGTCT +TAGCCTTAATTATCCTGCTTAACCGTCAACGTAACCCTTACTTACGCGTGGCCTCACTGGTAATTGCGAT +GGCGGCCGGATATGCGCTGGCGTGGTTTATGGGCATGTTGCCAGAAAGCAACGAACCTATGACGCAAGAA +CTGATTATGGTGCCAACGCCGCTCTATTACGGTCTTGGCATTGAATGGAGTCTGCTGCTGCCGCTGATGC +TGGTCTTTATGATCACTTCGCTGGAAACCATTGGCGATATCACGGCGACCTCTGACGTTTCCGAACAGCC +AGTGTCCGGTCCGCTGTACATGAAACGCCTGAAAGGCGGCGTGCTGGCAAACGGCCTGAACTCGTTTGTT +TCGGCGGTGTTTAACACCTTCCCGAACTCCTGCTTCGGGCAAAACAACGGAGTGATCCAGTTGACTGGTG +TTGCCAGCCGCTATGTCGGTTTTGTCGTCGCGCTGATGTTGATCGTGCTGGGTCTGTTCCCGGCAGTGAG +CGGTTTTGTACAACACATTCCAGAACCGGTTCTGGGCGGCGCAACGCTTGTAATGTTTGGCACCATCGCC +GCCTCCGGTGTGCGTATCGTTTCTCGTGAGCCGCTGAACCGTCGGGCGATTCTGATTATCGCGCTGTCGC +TGGCGGTTGGTCTGGGCGTGTCTCAGCAGCCGCTGATTTTGCAGTTTGCCCCTGAATGGCTGAAAAACCT +GCTCTCCTCCGGGATCGCCGCGGGCGGTATTACTGCCATCGTGCTGAATCTGATTTTCCCACCAGAAAAA +CAGTAATTCACTGGCGGCGGTAAGATAATTACCGCCGCAGTCTCACCTCTTTAACCATTCCCGCCTTGAG +GATTGCGCGTAAATCGTGCATAACTCCCTTATGTGCATTTCACGGGATGGAAGACCATGAAATTTATTGG +GAAGCTGCTTCTCTACATTCTCATCGCTCTGTTAGTGGCGATCGCTGGCCTCTATTTTCTTCTGCAAACC +CGCTGGGGAGCAGAACATATCAGCGCATGGGTTTCCGAGAATAGCGACTATCATCTGGCCTTCGGGGCGA +TGGATCACCGTTTTTCCGCGCCATCTCATATCGTGCTGGAGAACGTCACGTTTGGTCGTGATGGCCAGCC +CGCGACCCTGGTGGCCAAAAGTGTCGACATTGCGCTAAGCAGTCGGCAACTGACCGAACCACGCCATGTC +GATACCATCCTGCTGGAAAACGGGACGCTGAATCTCACCGACCAGACCGCGCCGCTACCGTTCAAAGCCG +ATCGTCTGCAACTGCGTGATATGGCGTTTAATAGCCCGAATAGCGAATGGAAACTGAGCGCGCAGCGGGT +AAATGGCGGCGTAGTTCCGTGGTCACCAAAAGCCGGTAAAGTGCTGGGTACGAAGGCGCAGATTCAGTTT +AGTGCCGGATCGCTTTCGCTCAATGATGTTCCTGCCACCAATGTACTGATTGAAGGCAGTATTGATAACG +ATCGCGTTACGCTGACTAACCTGGGTGCCGACATCGCCCGCGGGACATTAACCGGAAACGCGCAGCGTAA +CGCCGACGGCAGCTGGCAAGTGGAAAACCTGCGCATGGCGGATATACGTCTACAAAGCGAAAAATCGCTA +ACCGACTTCTTTGCGCCATTACGCTCTGTCCCGTCGTTGCAGATTGGTCGCCTGGAAGTGATCGATGCTC +GTTTGCAAGGTCCGGACTGGGCGGTGACCGACCTCGATCTCAGCTTGCGCAACATGACCTTCAGTAAAGA +TGACTGGCAGACACAGGAAGGCAAACTGTCGATGAACGCTAGCGAGTTCATTTATGGTTCGCTGCATTTA +TTTGACCCGATTATAAACACGGAATTTTCCCCGCAGGGCGTAGCGCTGCGCCAGTTCACCAGCCGCTGGG +AAGGGGGTATGGTCAGAACGTCAGGGAACTGGCTGCGTGACGGGAAAACGTTGATCCTTGATGATGCGGC +AATTGCCGGGCTGGAATATACCTTGCCGAAAAACTGGCAACAGTTGTGGATGGAAACGACACCCGGTTGG +TTAAACAGCCTGCAACTGAAGAGATTTAGCGCCAGCCGCAATCTGATCATTGATATCGACCCTGACTTCC +CGTGGCAGCTCACCGCGCTCGATGGTTACGGTGCCAACCTGACGCTGGTTACCGATCATAAATGGGGCGT +CTGGAGTGGCTCGGCGAATCTGAATGCCGCCGCCGCGACATTCAATCGTGTTGATGTTCGTCGCCCGTCG +CTGGCGCTGACCGCCAACAGCAGCACGGTGAATATCAGCGAACTGAGTGCATTTACTGAAAAAGGCATTC +TGGAAGCCACCGCCAGTGTTTCACAAACGCCACAACGTCAGACACATATCAGCCTGAATGGACGCGGTGT +GCCGGTGAATATTTTGCAACAGTGGGGATGGCCTGAATTACCGTTGACTGGCGACGGCAATATTCAGCTT +ACCGCCAGTGGCGATATTCAGGCCAATGTCCCGTTGAAACCTACGGTTAGCGGGCAATTGCATGCCGTGA +ACGCCGCAAAGCAGCAAGTGACTCAAACCATGAATGCTGGCATCGTTTCCAGCGGTGAAGTTACATCGAC +GGAGCCGGTGCGGTAAACATCAATCTCGCCGGGTACGACTCAGACGTACCCGGCATTCCATCAATAGATT +ACAACGTAATTGTCAGCGCATTCCCTTGAGGCTTCACCACCAGCCCCTGCTCACTTTCAGCCTGCGAACC +GTCTTGCAGACCATTTACTTTCACAACATTGCGCAGGCACAGTGTCCAGTTCTTCGCCTCGCCCGCACCA +GTCACAGTAATCGTGTTGCCAGTACGTGCTGCTTTTAAAGTAAAGATCACCGATCCGTCAGCAGCGGGCA +CTTCACAGACGGCTTCATGCCCGTCTTGCAGATTGAAGAGGTGGAATGCCGTGCCTTCGTGCCACACGTA +ATCGGGACGTTGATCGTTGTTGCCCAGCGCCAGTAGAGTGTTATCACGCACATAAACGGGCAGACTCAGG +AAGCCGTGCTGCTGTTTATGCCAGCGACTACCGTCGAGTTCATCGTTGTGCCACAGGTGTGTCCAGCGAC +CTTCCGGCAGGTAGAACTGCACATCGCCCGCTTCAGTGAACACCGGCGCAACCATCACGTTGTCGCCTAA +CATGTATTGACGGTCAAGGTAATCACAAGCCGGATCGTCCGGGAACTCCATCATCATGGCCCGCATCATC +GGCGTACCCCGCGCGTTCGCACGCGCAGCTTCACGATACAGATACGGCATCATGCGGCATTTCAGTTGCG +TGAAGAAGCGCACCACATCACAGGACTCATCATCGTAGGCCCACGGCACACGATAAGATTTGCTACCGTG +TAAACGGCTATGGCTGGAGAGCAAACCAAACGCGCACCAGCGTTTGTAAACGTGCGCCGGAGCGGTATTT +TCAAAGCCGCCGATATCGTGGCTCCAGAAGCCAAAACCTGAAAGGCCAATAGACAAACCACCGCGCAGGC +TTTCCGCCATTGATTCGTAGTTAGCGTAACAATCGCCACCCCAGTGTACCGGGAATTTCTGCGCACCGAC +GGAGGCCGAGCGGGCAAACAAGACAGCTTCTTCCTCACCAACGGTGTCCTTGAGCACGTTCCACACCAGT +TCGTTGTAGATGTACGCATAATGGTTATGCATTTTCTGCGGATCGGAACCGTCAAACCACTGAACATCAG +TTGGGATACGTTCGCCAAAGTCGGTCTTAAAGCAATCAACGCCCATCGCGACCAGACCTTTCAGTTTGTC +GGCGTACCATTTGCAGGCATCCGGATTGGTAAAGTCATAAATCGCCAGACCTGGCTGCCATTTATCCCAC +TGCCATAGCGAACCGTCCGGGCGTTTGAGTAAATAGCCTTTCTCTTGTAACTCTTTAAAGACGGGGGATT +TTTGACCGATATAGGGGTTAATCCAGACGCAGATTTTCAGTCCTTTCGCTTTCAGGCGGCGGATCATCCC +TTCCGGGTCAGGGAAAGTCAGCGGGTCCCACTCAAAATCGCACCACTGGAAGGCTTTCATCCAGAAACAG +TCAAAGTGGAAAACATGCAGCGGCAGATTGCGTTCCGCCATACCATCGATAAAGCTGTTTACCGTCGCTT +CGTCGTAGTTGGTGGTAAATGAAGTGGTTAGCCACAGGCCGAAGGACCACGCGGGCGGCAGCGCCGGACG +ACCAGTAAAGCGGGTATAACGATCAAGTACCGCTTTCGGCGTCGGGCCGTCGATAACAAAGTATTCGAGA +TATTCACTCTCAACGCTGAACTGCACTTTGGAGACTTTCTCCGATCCCACTTCAAAAGAGACACACTGGG +GATGATTGACCAGTACCCCATAACCACGGTTAGTCATGTAGAACGGGATATTTTTATACGCCTGTTCAGT +ACTTGTGCCGCCGTCCCGGTTCCAGGTCTCTACCGTCTGGCCATTGCGCACCAGGGCAGTAAAGCGCTCT +CCCAGACCGTAAACTGTTTCGCCAACGCCAAGATCAAGCCGCTCAAACATATAATTGCGTTGATTATTCG +TGTCCTGCACGTAGCCATTATTTTTCACCTGACTACCGGTAATACGTTCGCCGTTGCGCAGAAAATCCAG +TGACCAGAACTCACCTTTGCTGACACGCGCGCTTAAGTTGCCACTTTTAAACTCAGCATAACGTTCTGTG +TTTTCGATTGTGACCTTCACGTCCTGCAAAATATTGAGCGGATAATGAGGACCGTTATTCAGCGCCCCCT +GAAAATGCTCAATCCGCACACCGACAATACCTTCCTGTGGGGAGAAAAAGCGCAACGTAAATAAAGGCGT +ATCAAGCTGCCAGGTACGTTCACGCACATCACGGGGGGCAGCATAGACCACCATTTCATTATCCTGCTGT +TCAACCTCGAACACCTGAAGCGGGTGAATCAAATTGAGGCCAGGTTGAATCAACCAGTTTCCATCGCTAA +TTTTCATTGCCGTTCCTTAGTTCTGCACTTCTTGAGAGGTGAATTGTTGCTGGCAACGGCGTTTACCCTG +AGCCAGCTGTTCCATAACGGTTTTCAGATTGTGCGTCGTGAGTGAGTAGTAGCGTTTAGCGATAATCGCG +CTCAGCAAATAACAGATCGCCGGAACAATCGTGAATAGCGCAATAATGATGCTAATCGTGGCGCTGTTCT +GCGCTTTTTCTGCCGCATCATATCCGCCATAAGCCAGCATCCAGCCGATAAGAGCGCCGCCGAAGGCCAA +CCCCAGTTTGAGCACAAACAGCGTGCCAGCAAAACTGATCCCGGTCAGGCGTTTACCATTGCACCACTCG +CCGTAGTCGACGGTATCGGACATCATTACCCACTGGATAGGTGTCACCAGTTGATGCAACACACCAATCA +CGAAGATGAAGACAAACATAGTGATGCTGGCCTGCATGGGAACAAAGAACATCGCGAGGCTAATCACTGC +CAGCAGGGCGTTCGTCCACCAGAAGATAGTGACTTTACATTTCCAGTCGGTCAGAGGTTTTGCCAGTGCG +GAACCAATCAGGTTACCCACGCAATAAGTGGTGAGAAAAGCGACAAACACTTCCGGCGTGCCCAAAATCC +ATGTGACGTAATACATCATCGCCCCACCGCGTACGCACACCGCCAGGATATTGAAAATGGTTAGTAAACC +GACAATCCGCCACTGGTCGTTTTGCCAGATATCACGTAAATCTTCCCGCATAGACGTTGTTGTAGGTGGT +GCTTCAACGCGTTCTTTAGTGGTGAAGAAACAAAATGCCAGCATCATGAATGCCACCACGGAAAGGACCG +CGATACCGCCCTGGAAACCGAGTGGTTTATTATCACCGCCAATTAAATTAACCAGTGGCATCATCAGAAC +AGTAGAAAGCATGCCTCCCGCGGTCGCCAGCACAAAACGCCAGGATTGCAGCGAGATACGCTGAGTCGGG +TCATTGGTGATTACACCACCCAATGCGCAGTAAGGGATATTGACGACGGTATAAAGTAAGGTAAGTAGGG +TGTAAGTAATTGCTGCATAGATCATTTTGCCGTTCATACTGAGATCTGGCGTGCTATAGGCCAGTACACA +GACGATCCCGAATGGCAGTGCGCCAAACAGTACCCACGGACGAAATTTACCCCAGCGAGAGCGCGTTCGA +TCGGCCAACAACCCCATGCAAGGATCGGAAATCGCATCCAGTGCACGAGCGACCAAAAACATGGTTCCGA +CAAAACCGGCAGGAATGCCAAAAATATCGGTATAAAAGAACATCATATATAACATTACGTTATCGAAAAT +AATGTGGCTGGCGGCGTCTCCCATGCCATAACCAATTTTCTCTTTAACGGACAACACTTCACTCTTCATC +TGCTTTTCCTTGATGCTATAGGGGTGCTGAGACCGATAACGCATTTTGTAAACCATCCCTGTGAGAGCGA +ATATTCCGATATCTGGTTATTAATTTATGATTCTTGTTTTATGTGATCGTGGTAGCGTTAATTCCGCTCA +TATATCATTGTAAAATATGGGTTTTATATGAACTATAATGCTTTCGTGATAATACGCTGCGTGTATTAGG +CGGAAAAAACTGATCTGGGGGATGTAGAAACTCAAGGAAGTAGCTATAATGCGCCCCGCCTCCATGTAGC +AATCGAGGCGCGGAAGATCGTCGTCTCCGGTGAGGCGGCTGGACTTCAAATCCAGTTGGGGCCGCCAGCG +GTCCCGGGCAGGTTCGACTCCTGTGATCTTCCGCCAAAATGCCTCTCCTGACGTTCTCCAACCCCTTGTA +ATACTGTCAATCCAGATATTTTCTACTGCTCAATATTCAATCGGCTTCAGGAATACCTGGTCTAAGGTTT +TGTGATGGACGATGAGCGGCTGAAGAATCCGCCTGTCGGTTCTTCTGTCCTCGAACGCATCCGCGATATT +CACGCCAGTATGCGCCGTGTTTATTTGCAGGTGATTTGCCCCCCTGCTGACTCTCAGCCAACTGTATCGC +CATTAAGGTGAAGATGTTGTTTTACTCGCCCCAGAACACCCTTTTTTATACGACTATTCTATTTCTTTAA +CCGCTGGCGAAAAAAACTGACTATAAACTTCACCAATAATCAGACTGCCATCAAGATTAATTTGTTCATT +TAATATATCAAATCAACTTGTTTTATTTTTACTATCAAAAATAGCTCATTGCCTTACTATAATTAATATA +TAAATTCGGTAATTAATTCTTAACATGCTTTTACTAATAATCTCAATTGCTGGCCCTATAATATTGCGCT +AGCATTGCTTTCTGGTTGTATCAGCGATACTCAAAAATTCTTAATACAATACTCATTCGACTGGTACTTA +TTTGTAACTCAGTTATATTTTTTCGCCCGGTGATTCAGAAGAATGCAAAAAACGGCTACCACTCCATCAA +AAATACTTGATCTCACTGCCGCGGCATTTTTACTTGTCGCCTTTCTGACGGGTATTGCGGGCGCTCTTCA +GACTCCTACCCTAAGTATATTCCTCGCAGATGAACTGAAAGCCCGTCCTATAATGGTAGGTTTTTTCTTC +ACCGGTAGCGCTATTATGGGAATTCTGGTCAGTCAATTTCTGGCAAGGCACTCCGATAAACAAGGCGACC +GTAAATTACTGATTCTGCTATGTTGCTTATTTGGAGTGCTGGCCTGCACGCTTTTTGCGTGGAATCGCAA +CTACTTCATTCTCCTCTCAACGGGCGTACTTCTGAGTAGTTTTGCTTCCACCGCAAACCCGCAAATGTTC +GCCCTCGCCCGTGAACACGCCGACAGAACAGGCCGTGAGACGGTCATGTTCAGTACATTTTTACGTGCTC +AGATCTCGCTTGCCTGGGTTATCGGGCCACCGCTCGCTTATGAACTGGCAATGGGATTTAGTTTTAAAGT +GATGTATCTCACCGCTGCCATCGCATTTGTTGTTTGCGGACTGATAGTCTGGTTGTTTTTGCCATCAATA +CAAAGAAATATTCCTGTCGTTACCCAACCCGTAGAAATTTTACCCTCCACCCACAGGAAGCGGGATACGC +GGCTACTTTTTGTGGTCTGTTCAATGATGTGGGCGGCGAATAATCTCTACATGATAAATATGCCGCTATT +TATTATTGATGAACTGCATCTAACCGATAAACTGACTGGAGAAATGATTGGTATCGCTGCCGGTCTGGAA +ATTCCGATGATGTTAATCGCAGGCTATTACATGAAACGTATTGGCAAGCGACTATTAATGCTCATTGCTA +TCGTGAGTGGAATGTGTTTTTACGCCAGCGTACTCATGGCGACGACTCCGGCGGTTGAGCTGGAATTGCA +AATTCTTAATGCCATCTTCCTTGGTATTCTCTGTGGTATCGGCATGCTTTATTTTCAGGACTTGATGCCT +GAAAAAATAGGCTCTGCGACAACGTTATATGCAAATACTTCACGCGTCGGCTGGATTATCGCCGGCTCTG +TTGACGGAATTATGGTTGAAATCTGGAGCTACCATGCGTTGTTCTGGCTGGCGATAGGGATGTTGGGTAT +TGCGATGATTTGCCTGCTGTTTATTAAAGATATTTAGCTCACCAGTCTGGGCTAAGAAAAATCGGCGTGG +CGCAAACAGAGCCATCCTCGCCATTTTTGCTATCATGCCTGCATACATAAACGACAAAACAGTATGCAGA +GGGAAAAATGGGTTCCACCAGAAAGGGGATGCTGAACGTTCTGATTGCCGCCGTGTTGTGGGGAAGTTCA +GGGGTCTGCGCGCAATACATCATGGAGCAAAGCCAGATGTCGTCGCAGTTTTTGACTATGACGCGTTTGA +TATTCGCCGGTTTGATTCTACTGACGCTGTCATTTGTTCATGGCGATAAAATCTTTTCTATTATTAACAA +TCATAAAGATGCCATTAGCCTGCTGATTTTTTCCGTGGTTGGCGCGCTAACTGTACAGCTCACTTTTTTG +CTAACCATCGAAAAATCGAACGCAGCCACGGCAACGGTGCTGCAATTCCTCTCACCGACGATTATCGTCG +CCTGGTTCTCACTGGTGCGTAAATCGCGCCCGGGCATTCTGGTTTTCTGCGCTATTTTGACATCGCTGGT +CGGGACTTTTTTATTGGTGACACACGGTAATCCGACGTCATTATCGATCTCTCCTGCCGCGTTGTTCTGG +GGCATTGCCTCGGCATTTGCTGCTGCATTCTATACCACCTATCCCTCAACGCTAATTGCCCGCTATGGCA +CGTTACCAGTCGTCGGCTGGAGTATGCTGATTGGCGGTCTGATTCTGTTGCCTTTTTATGCCAGACAAGG +AACAAACTTTGTCGTTAACGGCAGTTTGATTCTGGCGTTTTTTTATTTGGTGGTCATTGGTACGTCCCTG +ACATTTAGTCTGTACCTGAAAGGAGCACAATTAATTGGCGGTCCAAAAGCCAGCATTTTGAGCTGTGCAG +AACCATTAAGTAGCGCGCTACTCTCTTTGCTGTTGCTGGGGATCACGTTCACATTACCGGACTGGCTGGG +AACGCTGCTGATTCTGTCATCGGTGATTTTGATTTCAATGGATTCCCGTCGCCGCGCCAGAAAAATAAAT +CGTCCGGCGCGGCATAAGTGAGAATTACCAGCCAGGCACCGCGCCACCGTTAAAAATGGTTTCTGCCGCT +TTAGCGACTTCGGGTGATTGATAAGATTGCAGAAATTCCTTCACGTTTTCTGCATTCTTATTATCTTCCC +GTGCCACCAAAATATTCACATACGGCGAATTCTTATCTTCAATAAATACGCTGTCGTGCACCGGAGAAAG +CCCGGTCTGCTGAATGTAAGTGGTGCTGATAATCGCTACATCAACTTTGGGATCATCCAGTACGCGCGGG +AGCTGCGCCCCCTCGAGTTCCATAATCTGCAAATGACGAGGATTATCGGTTATATCCAGCGCGGTAGGTA +ATAACCCTTTTCCCTCTTTCAGAGTAATTAGCTTCTCTTTTTGCAACAGTAAAAGTGCGCGACCAAGGTT +GGTCGGGTCGTTGGGGATCGCCACTGTCGCGCCTTCTTTTATTTGCGCCACGGTTTTGATTTTTTTGGAA +TAACCCGCCATAGGGAAGACAAACGTATTTCCCACCGCTACCAGTTTATAACCATGCGCCTGATTATCTT +GTTCAAGAAAGGGTCGATGCTGGAAGACATTCGCATCAAGTTCGCCATGATTTGTCGCATCGTTCGGTAG +CAACGAACCGCTAAATCCTACCAGTTCAACATCGAGGCCATATTTCTCTTTTGCCACCTTTTTAGCGACT +TCCGCGACATCTTGTTCTGCGCCATTTATAACGCCAACTTTAATGTGTTTTGCATCGCTGCTACTCTGGT +CGCAACCTGCCAGCAGAATTCCGGCCAGCAATAATGCGGCCCCTGTCCGTAGATGATGTGTTGTCAGTTT +CATTTTTTTATCCTTTTATTAATGATTACCTGACTATAGCGGTAAGGTCGCTGCGGTTTAAAAAACGAAA +CGCTATCGATAAGAATAAAAAGGAATAAAAGTGGAATATAAAGTCTGGCACTTCTTACTGACCACGCAAG +CGCGTTTCGTACAGCATGATGAGAGCGATGAAAGCAAACTACACTTATGCTTCATTCGATACACATTTGT +AAAAGGTTGAATCCATGAAACCAACGACACTACTGCTTATTTTCACTTTTTTCGCTATGCCAGGCATCGT +ATACGCCGAGTCGCCTTTTAGCTCACTGCAGTCCGCAAAAGAGAAAACCACGGTATTACAAGATTTACGT +AAAATTTGCACGCCACAGGCGTCATTATCAGATGAAGCGTGGGAAAAGTTAATGTTGTCAGATGAAAACA +ATAAACAACATATACGCGAGGCCATCGTGGCGATGGAACGTAATAATCAGAGCAATTATTGGGAAGCGTT +GGGTAAGGTAGAATGCCCGGATATGTAAGAACAGCAACAACTACTGACCAACGCTTCTTTACCTGATATC +AGGATTTCTTCATTTTCACCTTTGCAGTAACCAACAATGCAGTCAGCAACATCAATGTGCCGGACAACAT +CAACGGCGAAGTCAGACCAATATTATCCAGCGCATAACCGCCGATTGCCGCGCCACAGGTATTAGCAAGC +TGAATAACCGCCACCTGAATAGACCCGGCTTTTTCTGCCTGATCGGCCAGCGAGCGGGTGATCCACGTTG +ACCAGCCGACGGGAACCAATGCAAAAGTTAGCCCCCAGATAATCGCCACGCCGGTAGCAACGATTTTATC +GCTTCCCCACAACGTCAGTACCAACGCACTCACAGCCAGTATTAACGGCGCGCCTGCTAAGGCCAGTTTT +ACCGAACGTTTAAGAATGAACGACGAAAGCGACGTACCAATAAAGCTGGCGATACCAAAACTCAACAGCA +CCAGCGTTAAGCCATCCACGCCGAATCCCGCCAGGTTCATATACACCGGGCGAATATACGTGAAGAAAGC +AAACTGCCCGGCGAAAGACATGAAGATGGCGATCATCCCTGCCATCACACCCGGACGTTGTAATAAGCGG +AAAGTATTTTGTTTCTGATGCGAGGGTTCGCCTGGCAGTGAAGGCAATGATTTGATAATCCAGAAAATAC +ACAGCACGCCCATCACCGCCGCCGCATTAAAGACATTGCGCCAACCGATAAGCTCGCCTAAAAAACTGCC +CAACGGCGCGGCAATCACCAGCGCAATAGAAACCGCGCCGAAGATCACCGACAGCGCCTTCGGCACCGTA +CGCGGCGGCACCAGACGCATGGTCAGCGACGCCGACATCGCCCAGAACCCGCCCAGCGCCAGCCCCAGAC +AGGCACGACCGATTAAAAGCAAACTGAATGAGTTAGCAAAGGAAACCAGCAAGCAGGAGAGCGTCAGCAA +AACGGCAAACAAAATAACAACGTAGCGGCGGTCAGTAGCCTGAATTGTCTGGGTAATAAACAAACTGGCA +AACATTGCCACAAAGGCGGTCACGGTCACCGATTGCCCGGCAACCCCTTCCGAAATGCCTAAATCCTGGG +CCATTGGCGTCAACAAACTGACGGGCAAAAACTCAACGATAATCAGACAGGCGACACAAAACGCCACCGA +GAAAACGGCTGACCAGTTCGGTCGGGTGATGGCATCCGCGCCGCGGTTTTCGGCAATAAATTCACTCATG +GTGTTACCCGTGGCATGTTTCAGGGGAAAAGCCGACCACTTTAACATTGAAATGTGTGACGCATTTAACG +TTTTTGCAACTTTTACGGTGTTGCTTGAGCTGGAGTTAAGATCGAAACGGAACAGGGCAAAGATTACCGG +ATGCGGCGTGAACGTCTTATCCACCCGACAGGTCAGGCGCGGTCTGTAGGCTGATAAGACGAAACGGTTT +CAATGCAACCAGTGAACGCCCTCGGCAGGCTGAAAGAACGCGTTATAGCGCATCTGAAAAGCATTAATAT +CCTGCATTTCAGGTTCGGTTTCGCGCAGAAAACCTAGCGCCAGCCTGACCTGAGCGTCGGTAATCGGCGC +GGCGAGGCGAGCTTTTTGTAAAATCCGATGCCATTGCAGCAGGTTCTGTTCGCTACCATCGACAATGACA +ATTTGCCAGATGAGCAACACCTGCGCGGCGTTTTGCAGGTGCGACTCATCCGGACGATGCAAATAACGTA +AAAATTCGTCACCAGCTGACTTTCCCATTTGATCGACCATCGACTCCACGGGTACGACATCGATGTTCAG +CCGATCGCTGAGACGGCGAATCGCTTTTCTGGCCCCGGATGTCAGCACCCGAAAACCAACCACAAACACT +ACCGCCAGCGTGGCGAGCATTATCCAGATCATGAGTTCTCCTGCGTAATCAGAACTCATGATATCTGGAA +ACCCTCGCCAGTTACTAATCCACCAGAATAATCTTCAGTGCAAACAGAGCTGCGACCACCACCACACACA +GGTTCAGATCGCGCCAGCGCCCGGTGCATACTTTCATGATGCAGTACGACATAAAGCCGAGTGCAATCCC +TTCGGTGATCGAGAAAGTAAAGGGCATCATCACCGTGGTAATAAACGCAGGCACCGATTCGGTAAAATCA +TCCCAGTTAACGCGCGCCAGGCTCGAAGTCATCAGCACGCCAACAAAGATTAACGCTCCGGCGGTTGCGT +AAGGAGGAACTATCGCCACCAGCGGTGAGAAGAACATAACCAACAGGAACATAACGCCAACCACAACCGC +AGTCAGCCCCGTGCGGCCACCGACTGCCACACCAGAAGTACTTTCAATATAGGCAGTAACAGACGAGGTG +CCGATAAACGCACCCGCCACCGAACTGACGCTATCAACATACAGCGCCTTATTCATATTGGGGAATTTAC +CGTTACCATCTATTAAGCCCGCTTTATCAGTTACACCAATTAATGTTCCTGATGAATCAAATAGGTTGAT +CAGCATAAAGGAGAAAATGATACCGGCGAGTTCAAGTGTTAACGCGCCGCTCAAATCTACTTCACCAATG +ACGCCGCTAATATCAGGCGGAATGGAATAGACGCCGCTAAAATGAACATCACCGAAAAATAATCCACAGC +AAGACGTCACCACAATAGAAACCAGCACCGCGGCATGAAAATGACGTGATGACAACACGGTTATAATAAA +AAACCCTAAAATACCTAACAACACGCCGTGAGAACTTAAATCGCCAATCATCACCAGCGTGTCTTTATTG +GCGACAATAACGCCAGTATTTTTTAATCCCATTAAGGCGATAAATAATCCAATTCCGCTGGTGATACCAA +TACGTAAACTTAAGGGAATGTTGGAGATCATCCAGTACCGGATACGAAACAGCGTGAGCAAAAATAGTCC +AACTGCGCCCCAGAATATTGCGCCCATCCCGGTCTGCCAGGAGATGCCCATCGCCCCCACGACCACGAAG +GCAAAGAAGGCGTTCAGCCCCATTGCCGGAGCCAGCGCCACGGGTAAGTTAGCAAATATCCCCATCGCAA +TACTGCCGATACCGGCAATCAAACAGGTGGTAACAAACACCACTTTCGGGTCCATTTGTGCCGCGCCGAG +GATTTGCGGGTTCACAAAAACGATGTACACCATGGTTAAAAAAGTGGTCATCCCCGCAATCAATTCTGTG +CGGACGGTGGTCCCATGCTGAGGTAGTTTAAATAATCGCGAAAGCGTCCCTGATTCATTACTCACGTAAT +CGGTATTGTCATTATTCATTTTTTTGTCCATTGGAGGAGATTTAATCCCTTGCTTTTGTAAAACAAATGA +CAACAACGGTTCAGTGATAATTATCACATTTCAATTGCACATTAATGGATATTCTTTAATAATCTCGCGA +CGTTTCTTTATGATAAATAATAATCAAATTGATAAAATCAAAATGAGAAAAATATGAATAATTCTATTAA +CCATAAATTTCATCACATTAGCCGGGCTGAATACCAGGAATTGTTAGCCGTTTCCCGTGGCGACGCTGTT +GCCGATTATATTATTGATAATGTCTCTATTCTCGACCTGATCAATGGCGGAGAAATTTCCGGCCCAATTG +TGATTAAAGGACGTTACATTGCCGGTGTTGGCGCAGAATACACTGATGCTCCGGCTTTGCAGCGGATTGA +TGCTCGCGGCGCAACGGCGGTGCCAGGGTTTATTGATGCTCACCTGCATATTGAATCCAGCATGATGACG +CCGGTCACTTTTGAAACCGCTACCCTGCCGCGCGGCCTGACGACCGTTATTTGCGACCCTCATGAAATCG +TCAACGTGATGGGCGAAGCCGGATTCGCCTGGTTTGCCCGCTGTGCCGAACAGGCAAGGCAAAACCAGTA +CTTACAGGTCAGCTCTTGCGTACCCGCCCTGGAAGGCTGCGATGTTAACGGTGCCAGTTTTACCCTTGAA +CAGATGCTCGCCTGGCGGGACCATCCGCAGGTTACCGGCCTTGCAGAAATGATGGACTACCCTGGCGTAA +TTAGCGGGCAGAATGCGCTGCTCGATAAACTGGATGCATTTCGCCACCTGACGCTGGACGGTCACTGCCC +GGGTTTGGGTGGTAAAGAACTTAACGCCTATATTACTGCGGGTATTGAAAACTGCCACGAAAGTTATCAG +CTGGAAGAAGGACGCCGGAAATTACAACTCGGCATGTCGTTGATGATCCGCGAAGGGTCCGCTGCCCGCA +ATCTCAACGCGCTGGCACCGTTGATCAACGAATTTAACAGCCCGCAATGCATGCTCTGTACCGATGACCG +TAACCCGTGGGAGATCGCCCATGAAGGACACATCGATGCCTTAATTCGCCGCCTGATCGAACAACACAAT +GTGCCGCTGCATGTGGCATATCGCGTCGCCAGCTGGTCGACGGCGCGCCACTTTGGTCTGAATCACCTCG +GCTTACTGGCACCCGGCAAGCAGGCCGATATCGTCCTGTTGAGCGATGCGCGTAAGGTCACGGTGCAGCA +GGTACTGGTGAAAGGCGAGCCGATTGATGCGCAAACCTTACAGGCGGAAGAGTCGGCGAGACTGGCACAA +TCCGCTCCGCCATATGGCAACACCATTGCCCGCCAGCCAGTTTCCGCCAGCGACTTTGCCCTGCAATTTA +CGCCCGGAAAACGCTATCGGGTCATTGACGTCATCCATAACGAATTGATTACGCACTCCCACTCCAGCGT +CTACAGCGAAAATGGTTTTGATCGCGATGATGTGAGCTTTATTGCCGTACTTGAGCGTTACGGGCAACGG +CTGGCTCCGGCTTGTGGTTTGCTTGGCGGCTTTGGACTGAATGAAGGTGCGCTGGCTGCGACGGTCAGCC +ATGACAGCCATAATATTGTGGTGATCGGTCGCAGTGCCGAAGAGATGGCGCTGGCGGTCAATCAGGTGAT +TCAGGATGGCGGCGGGCTGTGCGTGGTACGTAACGGCCAGGTACAAAGTCATCTGCCGTTACCCATTGCC +GGGCTGATGAGCACCGACACGGCGCAGTCGCTGGCGGAACAAATTGACGCCTTGAAAGCCGCCGCCCGTG +AATGCGGTCCGTTACCCGATGAGCCGTTTATTCAGATGGCGTTTCTTTCTCTGCCAGTGATCCCCGCGCT +AAAACTAACCAGTCAGGGGCTATTTGATGGCGAGAAGTTTGCCTTCACTACGCTGGAAGTCACGGAATAA +TAAAAAAAGCCCGGCGTCATGCCGGGCAAAAGTCACCAGTTACGTTTATGCCACTGTCAACTGCTGAATT +TTTTTCTCGCGGCGGATTTTGCGTTCTTCCATTACCGCCACTATCGCCATCAGGCAGATACAACCAATCG +CGGCGATATCCAGCGCGGCGAAGGTGCCTGCCCAGCCGGTAAGGCCGAATACCGGCGTCCCATCGGCAAT +CATTCCCAGACCTAACTTGGCAAAGCTGTCACCAATCAGGTAAGCAAAGGTGCCTTTAATACCATCGGCA +GCGCCAATCGCTTTTTTAGGTACAAAGCCAACAGCAGCCACACCAATCAACAATTGCGGGCCAAAGACCA +GGAAACCCAACGCAAAGAGAGAAGCCAGATAGATATATTCGTTACTGGCATGTTGATACACACCGAGCGT +GGCGATAATCAGCGCCAGCGCGATGCAGGCCACCAGGCCACGGCGACCGTTCGCCAGGTCAGAGAGCCAG +CCCCACAGCAGCGTACCGACCAGCGCACCAGCTTCAAACAGCGTAAAGCCCTGAATCGCCACCGCTTTAG +AGAGTTTCAGTTCCTGGAACGCGTATACGGTTGACCACTGGTCGATACCAATACGTACCACATAGAGGAA +AATGTTGGCGAAGCACAGCAGCCAGATCACTTTGTTTTTCAGCACATACTCAACAAAGATCTGCCACTTG +GTCATATCGGTAGATTCTGTCTCTTTGTCCTCTTCGCTGATCTCCTCGCCGAACAGTTCTTCAGCTTTGC +CGAGGCCATAAGATTCCGGGGAGTCGCTGCCGTAACGCAGGCCGATAAAACCGACAATCAGCGCGATAAT +CGACGGGAAGATAAACATGCCGATGACATGGCCATCGAACAGGTAATTTGCCCCGAACAGCGCCACACCT +GCTGCGCCTGCACCGCCAAGGTTGTGAGAAATATTCCAGAAACCGAGGAATGTCCCGCGTTTACGACGCG +GCGTCCATTTGGTGATGGTGGAGTAACTGCACGAACCGCCGGTACTCTGGAAAAAGCCGCTTAAGGCGTA +GAAGGCAATCATCAGGAACAGGCTAACCGAGCCGCTGCCCATACTGGCACTGAAGCCCAGCATACAAATA +GCAGAGAGGATCAGCATGAACGGCAGGAATTGTTTGGTGTTTTTGCCGTCGGCGTAGTAGGAAACCAGCG +TTTTACCCACGCCATAAGTGATGGAGAAACCCAGGCCGATCATCCCCAGCTGCGTCATGCTCAACCCGTA +GGTCGAAATCATATCGTTCTGCGCGATGTTAAAGTTCTTGCGAATCAGGTACATCGTCAGGTAGCCGATA +AAGACCACCAGGTAGGATTGCATGAACGGTTTGAACCACATTTTGCGCCGCACTTCGAGCGGAAGGTCCA +GGGTCGGCTTGCGAACCTGGTTTAAGAAAGCCAGCATGGGTTACTCCTGAAATGAATACCTGCGTGAGGC +ATGCATTGTAAAAATCAGCAGCAAATCAGGCCTGAGATAGCGTCCAGGCAAAACCTGGAAAATTTCTTAG +TTTTGCCGGATATGAAGTGAAAAGGTGAGATGCATCACGCTTCGCGCGGTGTCTGGGCGTTCAAAAAGGG +CAGTAACAGCAGTGCGGAAATCCCGGCGGCGATAGAGATAACCACAAAAAATCCGCTCCAGTGCCAGGTA +TCGAGTACTTTCGCCAGCGGCCAACCAGCAAGCGACGCCCCCAGATAAGCAAACAAGCCGACAAACCCCG +TCGCCGCCCCTGCCGCCTCTTTGTGGGAACACTCTGCCGCCGCCATACCGATTAACATCTGTGGGCCAAA +GACAAAAAAACCAATGGTGAAGAAGCAGGTTGCCTGCATCACGTAGCTGGCAAATGGCATCAGCCACAGG +GAGCCGACTGAAAGCAAAATTCCGGCGGCGAAAATCAAATTCATCGGCCCTCGGTTGCCGTTAAACAATT +TGTCCGAGCCCCAACCGGCTACCAGCGCACCGATAAATCCGCCCAGTTCAAACATCGTCACTGCCGTATT +CGCCGTGACCAGATCGACGCCCAGTGTCTCGGACATATACAAATTGCCCCAGTCGTTGATCGCCGCCCGG +ACCACATAGACCAGCACATAGCAAAACGAAAGCAGCCAGATATACGGATTCAGCAACACATATTTGGTGA +GGATCTCTTTACGCGTCAACCCTGCCCCTTCTTGTTGTTGAGCAATTTCCAGCGCGTCGTGTCGCCATTC +ACCGACCGCCGGTAAACCTAACGCCTGCGGGCGATCGCGTAGCCGCCAGCAGAGAAAAATCCCCACGACT +ATCGCCATACAACCAGCAATCATCATCCCGGCACGCCAGCCGTAATGCAGCGCAGCCGCTGCCATCACAA +TGGGAATGAGTGCGCCGCCGACGTTATGCGCCGTGTTCCATAATGCCCACCAACCGCCGCGCTCGGTACG +TGAATACCAGGCCGTTAACAGACGCGCACACACCGGTGAACCCCAGCCCTGGAAAAAGGCGTTCAGCACC +CAGAGCACGGCAAACGCCCATAGCGACGTCGAGAAGCCAAACAGAATGTTGATAATGCCCGTGGCGATAA +GCCCTATCCCCATAAAATAACGGGCATTTGAGCGATCGCTGACAATGCCGGAGACAAACTTCGACACGCC +ATAGGTAATGTAAAACAGGGTCGCTAACAGGCCGATATCGCTACGGCTGAGCACGCCGTTAGCAAGGATT +TCTGGTACGGCGGCGTTAAAACTTTTCCGCGTGAAGTAAAACAGCGCGTAACCCAGCCAGATGGTCAGCA +GAATATGCCGACGCCAGTAGCGATAGCGGGCATCAATTTCATATTTATCAGTCATTAATGGCGCATCGGC +AGGCGCTTTCAGAAACGGCAACATCATCAAACCTTAGACATAGCGTTGAGGTAGAGAAACGCTGACACGC +GTGCCGTGCAGACAGGAAATGTGTAATGTGCCACCCAGCGCCGTTACGCGCTCGCGCATTCCGGTGAGGC +CAAAACCTTGTTGCCCGGAACCCGGCGGCAAACCGCTGCCATCGTCTTCAATAACCAGCATCAACCGTTC +ATCCTGCTGCCAGCCTTGCAGGGTGACCGCGCTGGCATCAGCATGTTTCACAATGTTGTTCAGCCCTTCC +TGGCAGACACGAAACAGCGTCACGCGCTGGTTTTCGCTTAACGCTGATTCATCGATTCGCCATTCGAGAT +GGCTGACAATACCGCGCCCTTCCAGCTCCATTTCCCGCATCAGTGAGCGGATGGCCTGCTCCAGGGTGAG +ATCATCCAACTGGCGCGGACGTAACCGACCCAACAAACGGCGCACCGCGTCGTAAACGCCCAGCGATAGT +TGTTCGATGAGCTGCCCGCTCTGCTTCACGCTGGCGTTATCTGCCGCCAGCCGCTGAACAATGCCCGCCT +GAGTACGAATAGCAGTGATGGTCTGACCGATATCATCATGCAGCTCACGCGCCACATCACGGCGCACGCT +CTCTTCGGTTTCCAGCAACCGTTCAGCCAGATGCTGATTGCGCGCCAGTTCCTTTTGCAGCGACTGGTTA +AGTTCACGCAACCGCTGGATGCCAGCGCCAAGCAACAACCCTGTCAGACTTTGCACCAGCAGCGAGAGCA +ATAAATCCACCGGATGATCGCGCCAGGTTTGACTGGCGATCAGCGCGATGGCGTTCATCAACGTCGCAAT +CAGCGCCCCTTGCCAACCATAGTGCCAGGCCAGCGCGATAATCGGCAGCGCCAGACAGAATGGCGTAAAG +CGCGACAGTTCGTCCGGCAATCCCAACTGGAGCCAGAGACTGATAACAAACAGCAGCAAGTACCAGACCA +GATGTCGCCCGCGCCAGTTGATTGGCTGAGAAACCAGTGACGGACCGAGCGGCAGCCAGGTGTTATTGGC +GAGATAGTGCCAGAACACCAGACATATCGGGGCCAGCGTCAGGCCGCCAGTTAAAGTCAGCAACAGCGCA +TTCCACGACTCTTTGCCGTGCCAAAGCCAGGGCAGCGACTGCAACAACGCCGCCGCCGTTAACGCCGCCC +CCTGTAACAGCAAGGTGCGCCAGTCACGCTGATGGCGATAGCGCGAGATCAGCGCTACGGGCAGTAACGT +CAGTAAACTACCGATCATCAATAACGGAAAATGGGTTAAACCGACCGCCTGCGTTAGCCAGTAAATCAGC +AGCCACTCCGCGCCCAGCAATACGGGCCAGTATCCGCGCGGGCATTGCAGCATTAGCCCCAGACGCAGAC +CAAACGGAAATAACAGCACCGCCATATCAGGGCGCTCAACCAGATGCAGGCTGATACTCCACAGGCAAAA +CCATGCGGCAGAGAAGATAAAAAAGCAGGCAATAACGGTAATTAAGCGGGAGAACAACGTCTTCATCACC +AGCCATCAAACATGCGGCGCGCCAGCTCTACGTCGTTACTGACGCCCAGTTTTTCCATCAGATTGGCGCG +ATGGACGTGTACCGTTTTCGGTGACAAGCCCAGTTCGGCGGCAATCTCTTTCACCGCCATTCCTTGCGCC +AGTTTTTCCGCCACCTGGCGTTCACGTTTGGTTAGCGGGTCCTGACGACCGGATGCCAGTTTAATGGCAA +TATCCGGCGTCAGATAACAGCCGCCCGTGGCAACCGTATGCACCGCAGCAATGAGTTCATCCGGGCTACA +GCGTTTGGAAAGAAAGCCGCGTGCCCCCGCGTTAAGCGCCTGCTCAACCAGCGCAGGACTGTCGTGAACG +GAGAGCATAATCGTCGCCATACCTTTCGGCAGCTGGCTTAGCAGCTCCAGACCGGAGATATCGGGCATGG +AGATATCGCAAATACACACCTGCACACCGCGCCCCGGCAGCCCCGCCAGCGCCTCGCGCCCCGAACCAAA +CTCGGCAACTACCTGCAAATCAGGTTCCAGCCCCAGCAGCTGCGCAAAGCCGGAGCGGACGATGAGGTGA +TCGTCTATAAGGGCAACGGTGATCATGGTCTTGTCCTGGCGGGTAAAAAAAATACGCGCTTACCTTAACG +ATAAGCGCGATGTTGTTCAAGCCTTGAGCGGTTACTGAAAAAACACCGCGATCTTGTTAAACATCGTCGG +ATCGGACTGATTACGCTGCACTTTCACGACATCTTCCAGCTTATCGATTTGGCTTATCATCTGCTCCAGA +CGCTGGTCGTCATTGACCAGTAGCCAGATATGGCTTTTGTCGCTGTCCTGAATCGGCAGACAAAGAATGC +CTTCAACGTTAAAAGCGCGGCGGGCAAAAAGGCCACAAACGTGGGTCATTACGCCCGGATGGTTGCGAAC +GGTGAGCTCCAGAATTACGTTGTCATGAGTTGTGTTTTGCATGGCTTATTCCCCCACCATTTCAGTATTC +GCCGCACCTGGCGGCACCATCGGGTAAACTTTTTCTTCGGCATCAATGCGCACATGGATCAGCGCCGGGC +CAGGGCGATTGATGATTTCCTGCAATGAAGCCTGCGGATCGGCTTCGTTATTCAAATCACAGGTTTCGAG +GCCGAATCCGGCGGCAATCTGCATAAAGTTGATTTTGCCCGGATAGGTGGCGGCAAAAACGCCTTGCTCG +TAGAACAGACTCTGTTGCTGATGCACCAGCCCCAGCGCTTCGTTGTTCATCAGAATGATTTTGACATCCA +GCTGATTTTCACTGGCGGTCGCCATCTCCTGAATATTCATCATCAGGCTGCCGTCGCCGGAGAAACACAA +CACTTTGCGATCCGGGTTCGCCAGCGCAGCGCCAATCGCCGCAGGCAGGCCAAAACCCATCGTGCCCAGC +CCACCGGAGGTCAGCCACTGGCGTGGGCGATTGAGCGGATAAGCTTGCGCGGTCCACATCTGATGCTGAC +CAACGTCGGTGGTGATAATTGCATTGTCATCGACACAGGCGGCAACGGCGTTGATCAGGCCGTAATGGCT +TAACGGATCGCACGCTTTCGGGATTGGACACGGAAACTCACGCTGCAAATCCGCTACCAACTGGTGCCAC +TCTGCACGCGGTTGCGCTTCCACCAGCGGGATCAACTGCGCCAGCACGTCATCAACATCCGCCTGAATCG +CCACGTGCGGCTGCTTGATTTTACCCAGCTCTGCACGGTCGATATCGACATGAATGATTTTGGCATTCGG +ACAGAACTGCTCGGTTTTGCCAATCGCCCGGTCATCAAAACGCGCACCGAGCACTATCAACAAATCCGCC +TCCTGCAAAATATAGTTGGTGCTGCGCACGCCGTGCATCCCCAGCATACCCAGCGACAACGGATGCGCTT +TTGGCAACATGCCCAGCGCCATTAAAGTCATGGTGGTAGGCAGTTGCGCTTTCTCCGCCAGTTCACGCAC +CCGTGCGGGCGCATTGATCACACCGCCGCCCAGATAAAGCACCGGGCGTTTGGCAGCGTTAATCATCGCC +GCTGCGTCACGAATGCTTTCTTCGCTAAAGGCGGGGGCGGCGGCTTTTTCTGCCATAGCGGGCTGTGTTT +CAATCTCAAAAACTGCCGTTTGCACATCCTTAGGAATGTCTATCCACACCGGGCCTGGGCGGCCTGATTG +CGCAATGCGGAAGGCATCGCTCATGACCTGCGGGAGTTCTTCGATATGTCTGACCAGATAGTTGTGTTTG +GTGATGGGGATAGAGATGCCGTAGGTGTCCACTTCCTGGAAGGCGTCGGTGCCGATCATCGAGGCGGGAA +CCTGACCAGTGATGCAAATCAGCGGGATGGAGTCCAGCCGCGCATCGGCAATGGCGGTCACCAGGTTAGT +CGCACCCGGTCCGCTACAGGCCATACAGACCGCCGGTTTACCGTCGGTGCGCGCCATTCCCTGAGCGATA +AAGCCCGCGCCCTGTTCATGACGGGCCAGAATATGGCGGATTTGCGTGCTTTGGCTTAAGGCATCGTAAA +CAGGCAGGATAGAACCGCCCGGAATGCCTGTCACAATCTTAATGCCCTGCTGTTCCAGGAAATGAACGAT +AAATTCTGCGCCGGTAAAGCGCTTACGCGTCGATGTTGTGCCCGAACTTGCCATGCTCCAGTCCTTTTCT +TCTGGGCCGACTTTCCGGGAGGTGCTTAAACGAAAAACCCCGCCCGGTTTGCGCCGGCGGGGTTTTGGAA +TCGTGTGTTGTTCCAGTCCCTACGGCGCATTGCCGACGACCACCACCACACGCACGACGACCACTGCGGC +GGATGGCGCAGTTGGTAGTAGTTTTGCGTTGAGCATGGAAGTAGTCATTGGGGACCTTGTTGGTTTTGTG +TTTAACAATATTTATACAAGCACAGCTTTACAGGGGAGACAATGGAAAATTTTTCAGCAAGGGAAAATTG +AGGGGTTGATCACGTTTTGTACTGAATTGCAGATAACAAAAAACCCCGCCGGAGCGAGGTTTCGTCAGTC +GCCTGCGGCTGGTAACCGCAAAGCACACTGTATTATGTCAACACTGAAAGTATACGTGTTCCGCGCAGAA +CGCGCAATTTCGGCACGAATTTTGACGTATTTAGTGCATAGTTGAGTATCGATCACAGTTTGCGTTTTGT +CCAAATATTACTGTTTATTTATACAGTAAACTTCTATAATATCACTGTACGCAATGTGTTATGCGGGGGC +CGCATCGTTACCCGGCGCACTAAGTCCTGGCTGAAACGGGTGGTGCCGTCAGCGCCTTAACCCCGCGTGA +GCACACTGTGTTATGTCAACAAGCACAACGTTTCTCCTTGAGATACCGCGTGCACAACAGCTGGCAACAG +GCAGCGGAAAGGTACGTCAGCTGGCAGTGCTCCTGAACCACAGGAGACGCGTATGAACCTGGTGGATATC +GCCATTCTTATCCTCAAACTCATTGTTGCAGCACTGCAACTGCTTGATGCTGTTCTGAAATACCTGAAGT +AATTCAGATTCAAGTCGCACCAAAGGGGAGCGGGAAACCGCTCCCCTTTTATATTTAGCGTGCGGGTTGG +TGTCGGATGCGATGCTGACGCATCTTATCCGCCCTACCATCTCTCCCGGCAACATTTATTGCCGCTTTTG +TTTACATATTCTGCCGCTAAACAATTCCCCATTCCTGGCGTATATCTGGCTAACATTCATCAATGTGATA +GATTCCTCTCCCGCATTTATGGGAATGCGTAGTGACTTATTCTAATTATTTTTATAAAAGCATCCGTGAT +AATGAAAAGGCAAAGAAACGTCAATTTGTTATTGATGTTGGTATTACTCGTGGCCGTCGGTCAGATGGCG +CAAACCATTTATATTCCAGCTATTGCCGATATGGCGCGCGATCTCAACGTCCGTGAAGGGGCGGTGCAGA +GCGTAATGGGCGCTTATCTGCTGACTTACGGTGTCTCACAGCTGTTTTATGGCCCGATTTCCGACCGCGT +GGGCCGCCGACCGGTGATCCTCGTCGGAATGTCCATTTTTATGCTGGCAACGCTGGTCGCGGTCACGACC +TCCAGTTTGACGGTGTTGATTGCCGCCAGCGCGATGCAGGGGATGGGCACCGGCGTTGGCGGCGTAATGG +CGCGTACTTTACCGCGAGATTTATATGAACGGACACAGTTGCGCCATGCTAACAGCCTGTTAAACATGGG +GATTCTCGTCAGTCCGTTGCTCGCACCGCTAATCGGCGGTCTGCTGGATACGATGTGGAACTGGCGCGCC +TGTTATCTCTTTTTGTTGGTTCTTTGTGCTGGTGTGACCTTCAGTATGGCCCGCTGGATGCCGGAAACGC +GTCCGGTCGATGCACCGCGCACGCGCCTGCTTACCAGTTATAAAACGCTTTTCGGTAACAGCGGTTTTAA +CTGTTATTTGCTGATGCTGATTGGCGGTCTGGCCGGGATTGCCGCCTTTGAAGCCTGCTCCGGCGTGCTG +ATGGGCGCGGTGTTAGGGCTGAGCAGTATGACGGTCAGTATTTTGTTTATTCTGCCGATTCCGGCAGCGT +TTTTTGGCGCATGGTTTGCCGGACGTCCCAATAAACGCTTCTCCACGTTAATGTGGCAGTCGGTTATCTG +CTGCCTGCTGGCTGGCTTGCTGATGTGGATCCCCGACTGGTTTGGCGTGATGAATGTCTGGACGCTGCTC +GTTCCCGCCGCGCTGTTCTTTTTCGGTGCCGGGATGCTGTTTCCGCTGGCGACCAGCGGCGCGATGGAGC +CGTTCCCCTTCCTGGCGGGCACGGCTGGCGCGCTGGTCGGCGGTCTGCAAAACATTGGTTCCGGCGTGCT +GGCGTCGCTCTCTGCGATGTTGCCGCAAACCGGTCAGGGCAGCCTGGGGTTGTTGATGACCTTAATGGGA +TTGTTGATCGTGCTGTGCTGGCTGCCGCTGGCGACGCGGATGTCGCATCAGGGGCAGCCCGTTTAAGCGC +ACGTCACCGCAGCATCGTCATCAGCTCCATGGGAGAACGATGCTGCTTTATCAGATCACGCATCACCCGC +ATATGCGGTGCGGAGTAAGAATAAAACGCCTGATAGCCCGCACAAAGCACGCTGTCTGGCGTCTCCTGCC +GAGCGTGCGGGCACAGGCGATGCCAGTCGCACGCCTGGCAGTCACAGCGCGGTTGCGGGTTTTCGCTGCC +ACACCATTTTTGTAAGGTGGCGTCAAAAAGCTCAATCGAGATACGACTGATATCTGCCCGCACCCAACAC +TCGAACAGGGCAATTAAAAATTTCCCCCACAGCTCTGCTGTCACCGAAGCGGCCGTCAGATCGCCCCGGT +CATCAAATTCAAGATAGGGAATGAGCTGTACGGAGCGGATGCCCCGCTGTTTGAAATTGTGATAAAAATC +GGCAGGTTGCAGAGCATCCTTGTACTCTACAACCAGTTTATGCCTGTCCTCTTCAGCATCAATGACCTGA +CTTCCTGTCATGCGACTCTCTCAATAAATACGATAAGTTGATGTATATGCGTTACAGCAAACAGTATTGC +GAGAGATAACACCGCGAGGGAGATCAAAAATTTGTCACGGACTACGTGAAATTGGGAAAAATCGCTATTC +GTGACATCCATTAAATTGCGATTACGGGTGTAGTGCCAGAGGATCAGCGCCACGATGGCGAGAATGCCAA +TCGAAATCCAGAATAACATGCCCGCCTGGTGCCAGTTGTGTTTGATAGCCAACGCCATCAACGCGCCGTA +GCCCAGCATGGTACGAAACCACGCCAGTGATGTGCGCTCCGGCTGCAGTCCTGGGTCGGCAATGCGTCTG +GCTTTGCGGCTATCCGGCATACAACACCAGTCCCATAACGATCACCGCCACGACCATCAATATTAAGCTA +ATGATTAATAAGCTGTTGGTGTAGGGCAGGTCCTCTTTCAGACGCATCGCTTTTTCATTGCGTAACCAGC +GCAAGTAGCCATACATCGCTAACCCGCCGGAAAACAGACACAACAACAACGCCAGCAGTTCGCGAATGAC +GGGCGTGGCGAAATCTGGCGCAAGTTGATCAAGCCCAACCCCCGCCGCCAGAAATCCTAGTGCAGTACGG +ATCCACGCCAGAAAAGTACGCTCATTAGCCAGCGAGAAGCGGTAATCAGGCGCTTCTCCGAGGCGGGAAA +TTTTCATTGTTGCTCCTTTGCAATTTCACTAACGCTCTACCTTTAGCGGTTTTTTTAAGAATTTCGTCCG +CCCGTTTCCTGATATGCTTTTGCCATCCGCTACAAGGAGGTCAGATGGGTATCATAGCTCAAAATAAAAT +CAGTTCATTGGGCATGCTGTTCGGTGCCATCGCTTTAATGATGGGGATTATCCACTTTTCATTCGGCCCT +TTCTCCGCACCACCGCCAACGTTTGAAAGCATCGTGGCGGACAAAACGGCTGAAATTAAAAGAGGTCTTC +TCGCCGGAATAAAAGGCGAAAAAATTACCACCGTGGAGAAAAAAGAGGACGTAGATGTCGATAAAATCCT +CAATCAAAGCGGTATCGCACTGGCCATTGCTGCGCTACTTTGCGCATTTATTGGCGGTATGCGTAAGGAA +AATCGCTGGGGCATTCGCGGCGCGCTGGTTTTTGGCGGCGGGACGCTGGCTTTCCATACCTTGCTTTTTG +GTATCGGCATCGTGTGCAGCATTTTGCTGATATTCCTTATCTTTTCCTTCCTGACCGGCGGTTCACTGGT +TTAAGCAGCCTGAATAATGCCCGCCGGGTGATCATCAGCGGGCATTATCGTCAGAACTTCTGTTTTTTCT +CCTCCACCTTCACCCCTTGTGTCGGTAGGCCGGTGTCATAGTCGCGTACAACTGGCGAATAGCCATCTTG +TGGACGTGGACGAAACGCCCCCATCCAGCGCGGCCGTGCATCTTTACGCCACGGACGCAGACTCCATTGG +TAACTGCGGAACGGATCGCGAATTTTGTCCATGTAATCCAATAAGGCGTCATGCATTTTGCTGCGAACGT +CTGCAAAACGGATATCATCGATCAGGTTATGCATTTCATTTGGGTCATTACGGCGATCGTAAAGTTCATC +ACTGGTGAAGAGGTTGAGTACCAGTTTAAAGTCATCCGTCACCCAGCAACGCACCGGAATAAAACCGCCA +AAGCTGTCATGCTCAATCTCGTAGCGGTTAAATTCCACCATCACGCCGCGTGGCTCTTTCACGGCAAGGA +TATTTTCCCCCGGCAGAATCTCTGGTTTTTCAATATCTGCCAGCGCCATCATTGTCGGCAGTAAATCGAT +ATGACTGACTGGCGTATCGACCTGTCGCCGCTCCCCTTGCGGCGAACGGATGATCAGCGGAATGCGGGTG +ATGTCGTCATACATCGCCGCCCCTTTACTGATCAGCTTATGTGCGCCCATCATTTCGCCGTGATCGGAGG +TATAAATAACCCACGTATTTTCACGTTGCTCTGGCGTTAAGGCATTGATGACCCGTCCGATTTGGTCATC +AACAAAGTCATTACAGGCAAAATAGAGCGGATGGTGATAAAGCCCGTCATCACCGACTGGCGATGGCATC +GCCTGCGCCCATAAGCGGTGATGTTCCGGTTTGTTAGCCAGGTCATCCTGTGCTTTCTCGCCCAGCTCGT +AGTAAAAATCAGCGTATTTCTCTAAATACTCCACCGGACAGGTGAACGGGTGATGCGGCTCATCATACGA +AACCACCATCAGGAAAGGCTCGTCTGCGCGCGCAGGCTGTTGCAGAAAATCCACCGCCCGATTGCTGATA +CGATGCGCCCAGGTGAAGGTTTCGTCGATATGGTTCGCCTGTAAATCTTCGACGCTGTTTAGGCCATTGC +GCCACAGGCTAATCTCTTTTTCCGTCAGTTCGCTAAGATAGTTCGCCCCATCGAACCAGTAATCAGCGTC +CCACTCCGGCGGACACTCGCCAGTGCCGAAATAGTCATGACCGTCGAGATGCCATTTGCCGATGTAACAG +GTGTGATAGCCGGCATCCTTAAAGTAGCGCCCCATAGTGGAGATGTTTTTGCCTGGCGCGACGTTGTTGG +TCCACGGGCCGGACTGGTTAGCGTAGATACCGGTAAATAGTCCGGCCCGTGCAGGCGTACAAACCGGTGA +ACAGGTGTAGGCGGAATTAAAGCGAATACCTTCCGCCGCCAGACTATCAATATTTTGCGTATTCAGCGGT +TTACCGCTATAGCAACCGACCATATTGGTGGCCTGGGTATCGGTCATGACGAACAGAAAATTGGGGCGTT +TCATAGGCTATCCTTCCCGTCGGGAGTAAAGGTTACGGCTGGGTCGTGACGATGCCGCCAGCTGTCAAAA +ATCAGGTAGACAATCACTACGGCGGCAATGAAATAACTGATCATCGCTAACCAGCGCGTACCGTAGCCGC +CGAATTCAGCCAGCCCGGCATAGACGCCAATCATCGCGAACAGGATGCCAATTGACGCGATCTTGACGTT +TTTCCACGGTTTCATGTCCACCGCAAACGCATCTTTGAAGGTGAACGGCGTGGCGCGCGGTTTGATAAAA +CCGATCACCAGCATCACGACCACGTTGATGCAGAACGTACAGGCCAGCACATAGAGGAAATGGAAGTCGA +ACTTCACCAGATAGTTGATGGTGATGTAGCTGATTATGCCAATCCCCATCGCTACTTTTGCCGCCAGCGC +CGGGATGCGCGGGAAGAAAAAGCCCATAATGATGATGGTAACCAGCGGCACGTTGTAAATGCCGTTGAGC +TGTTTCATCCAGCTATACAGCCCCTGCGGCGCGTTGGCGATCCACGGCGCGACCAGCACCGAAACGATAG +CGATAAAGAAACCAAATTTGCGCCCGACGGTGACCAGCTGCTGCGGCTCGGCATTCTGGTTAATGATGCG +ACGGTAAATACCCATACTGAATAACGTACTGGCGCTATTCAGAAAGCCGTTGAAGGTACTGATCACCGCA +CCAAATAACACCGCGCCGAAGAAACCCACCATTGGCACTGGCAGAACGTTATTGACCAGCGTCGGGTAGG +CCATGTCGGCTTTCGGTAAATCCTGATACAGATGAAACGCAATCAACCCTGGCAGCACCAGTACCAGCGG +GTCGAGCATTTTCAGCACCGCCGTTAACAGCGCCCCCTTTTGCCCTTCCGCCAGGCTTTTTGACGCCAGC +GTGCGTTGCACGATGCCCTGATTTGTACACCAGTAAAAGGTGTTCACCAGAATCAAACCGGTAAATGCCG +CGCCAATCGGCAAGGGATCGGTCGGGCCACCGATTGAGTTTAATTTCTCGGCGTGAACGGTGGTGAGTTG +CTCAATGCCCTGCATAAAGCTGCCCTTGCCCATCGCGATTAGGCCAAATACCGGCACCATCAACCCGCCG +ATAACCAGCCCAATACCGTTGATGGAGTCCGCCACTGCCATTGCGCGCAGTCCGCCGATCACCGCATACA +AAATTCCCGCCAGACCAAGCAAAATTACCAGTAGCCAGATAGCCGCACCGTGAGAAATCTGTAGCGATTC +CCCGACGTGAAACAGGCTGTTGAGCGCCAACGCGCCGGAGTAGAGAACAATCGGCAGAAAGCAGACGCCG +GTGGCAATTAGGAAGCAGAAGTCGATGATAATACGCGTCGTTTTATCATAACGTTCCTCCAGAAAATCGG +GGATGGTGGCAATGCCGCGCTTCAGATAGCGCGGTAAAAAGATTAGCGCGAGGAAGATCAGCGTCACCGC +TGAAGTCACTTCCCAGCCCATCACCGACATGCCGCTTTTGTAGGCCTGCCCGGAAAGGCCGACCAGTTGT +TCCGTGGAAAGGTTGGTTAGCATTAACGAAGCGGCAATAACCGGCGCTTTTAGTGAACGTCCGGCAAGAA +AATAGCCTTGTTGCGATCCGGTATCTGTTTTGCGGACCTTCCACCAGGTGATCACCGCCACCAGCAGCGT +AAAACCGACAAAACTCAAGATTTGTAACGAATTCATCTCATAGCCCTTATTTATGTTTATGTCCCGGACG +CATGAATATAGGGAGAGGTAAAATGCGTCGGGTCAGGCAGTCAGATTCTTAAAATACAAACGTCGTATCC +CTGAACGGATTGTTTTCTGTTAAGTTCAGGTTGTGAGCATAATTCGCCGGAGGGATATTAAAATGAATGG +AAAATTGCAAAGTTCAGATGTAAAAAACGAAACTCCGTACAATATTCCCTTATTGATTAACGAAAATGTG +ATCTCCAGCGGAATTTCTCTGATCTCGCTCTGGCATACCTACGCCGACGAGCATTACCGGGTGATCTGGC +CGCGGGACAAGAAGAAACCGCTTATCGCCAACTCATGGGTTGCGGTGTATACCGTACAAGGATGTGGGAA +AATTCTTTTAAAGAATGGCGAACAAATAACACTGCATGGCAACTGTATTATATTCTTAAAGCCAATGGAT +ATTCACTCTTATCACTGTGAAGGTTTAGTCTGGGAACAGTACTGGATGGAATTTACCCCCACCAGTATGA +TGGATATTCCCGTTGGTCAGCAAAGCGTTATTTATAATGGCGAAATTTATAATCAGGAACTCACCGAAGT +TGCTGAGTTAATAACTTCACCAGAAGCAATAAAAAATAATCTGGCAGTCGCTTTTCTGACGAAAATTATT +TATCAGTGGATTTGTCTTATGTACGCAGATGGTAAAAAAGATCCACAACGGCGGCAAATTGAAAAATTAA +TTGCCACTTTACATGCCAGTCTGCAACAACGCTGGAGCGTAGCTGATATGGCTGCCACGATCCCCTGTAG +CGAAGCCTGGTTGCGTCGTCTGTTTTTACGCTATACCGGCAAGACGCCGAAAGAATATTACCTCGATGCG +CGTCTGGATCTGGCGCTATCGCTATTAAAGCAACAAGGAAACTCGGTTGGCGAAGTCGCTGATACGCTCA +ACTTCTTCGACTCCTTTCATTTCAGCAAAGCCTTTAAACATAAATTTGGTTATGCGCCGTCAGCCGTGCT +AAAGAATACGGACCAGCACCCAACGGATGCCAGTCCACACAATTAACGTAACTCTGGCCAGTACGCTTTG +TTGGCCTCCAGCAACTCATCCAGAATAGCTTTGGCGACCGAGGCGCTCGGTACCGTTTTCGACAACGTAA +TCGCCTGCCACAGGTGCTGATATGAACGCTGTTCCCAGGCGTCCACGACCAGTTTTTCCACCGCCACTTG +CTGACTCATTAACCCTTTCTGAAACTGCGGGATATCGCCGACCACCAGTGGTTCAGGCCGTAGTAGCGCA +CGCGCATCTGTTTGCGATCTTGCAGCCCAACAATTTGCGCCATCCGGCTTTCAATACCGATTGGCATGTC +ACAGATGTTGAGGATTTTCGCATTCGGGCGCAGACGACGCGTGGCTTCTGCGACAATGGCTGCCGGGTTG +GAGTAGTTGAGCATCCAGGCATTTGGTGAATATTTTTCCATATAATCCACCAGTTCCAGGACGCCGCCAA +TGGAACGCATGCCGTACGCTATTCCGCCGGGTCCGCAAGTTTCCTGACCAACAACGCCGTGGCGCAGCGG +GATTTTTTCATCCAGTTCGCGCATCGGGTATTTGCCGACGCGGATGTGCGCCATGACAAAATCAACGTCG +CTGAATGCCACTTCAGGATCGGTGGTGTAACTAAACGCAATGTCCGGCGCTTTTTCTTTAAGGATGACTT +TACAGGCTTCGGCAATCACTTCCTGCCGCGCACCATCGTTATCATAAAATTTCAGTGCACGAAGCGGGAA +ACGGTCCTGATTCGCCAGGAGCATCAACACGATGCCTGGCGTAAAGGTGCTTCCACCGCCTGCGACAACC +ACTGAGAATTTGGTCATTATACTGCCTCCGTAATGGCAACATTTTCTGCTGATTGATGAGAATTAATTAA +GCTATCGAGCTGTTCACGCAGCTGAGATACATGCAGACCAATGATCACCTGAATGGCATCGCCACTACGG +AAGACGCCGTGCGCTCCCAGCTTTTTAAAGACTTCGTCATCCAGCGTTTGTGACATGTCATGCAGTGCAA +TACGTAAACGCGTCGCGCAATTGTTAATGCTGGAGATATTGCCGACCCCGCCCAGGGCTTGCAGGATACC +GGCAGCCTGATCCAGCTCTTTTTTTGGCTCTGCCGCGGTGGTTTGGCCTCGCGAGGCTTTGTATTCGGCT +TTTGAGTAGAGTTTCACTTCCGCATCTTCACGTCCCGGCGTGCACATGTTGAACTGCAGAATCAGTGTGC +GGAAAACCACGAAGTACAGCAGGGTAAAGCACAACCCAATGGCGATTTGGGTCAGCATCATATCCGCGTG +GTTGCTGAACATCGGGATCCAGTTTTGCGGTAAAACCTAGTCAATCAGACCTCCGCCCATGTTGCCCACC +ACACCAAAGAGATACATTACGGTCGACATTGAGGCCGCCAGCACGGCGTGTACCGCAAACAGCAACGGTG +AAATGAACAGGAAGGTAAATTCCAGCGGTTCGGTAATTCCCACCAGCATGGCGGTTAAGGTTGCGGGAAT +CAGCAAGCCCGCCACTTTTACCCGATTTTCCGGTGCGGCAGTGAAGTACATCGCTAAAGAAATGCCCACG +GCACCAAAGATTTTTGAGTTACCGTGCAGGGCAAAACCGCCTTCCGGGAACAACGATTTCAGCGGCTCGG +CGCTCAAACTGAACTCTTGCAGATGCTGCGCCCAGTACATCTGAATGCCGCCTTCAACAGCTGCCGGACC +AAAGATAAACTGTCCGTAGATGAAGTGGTGTAAACCGGTTGGGATCAGAATACGTTCGAGGAAGGTGTAA +ACCCAGACCCCAAGTGCACCCGCCGAACGCAGGAACGCTTGCAGAGATTCAATCCCCATTTGTACTTTTG +GCCAGCCGAGCAACGTCAGCCAGGCACAGGGGATCATCACCAGGAAGGCGATAATCACCACATAAGACGT +CCCCTGGAAAATGCCGAGAAAAACCGGCAGTTTTTTATCGAACAGACGGTTATGCAGCGCCGTCACAATG +CCGGAAATGATAATTGCGCCGATAATGCTGGTATCGAGGGTTTTAATCCCGGCCATCATTGTCAGACCGC +TACCTGCCACCGCGTCCTGAGTGAAATCGACGCCGAAGTAGCTTCCCCAGGTCATTCCCATCGCGTTGAT +GAAATAGTTCCAGGTCAGGAAACTCACCATCACCGCCAGACAAGCACGCCCCTGCGCTTGCTTAGCAAGG +CCAATGGGTAAACCGACAGCAAAAATCAGCGGCATATTACGGAATACCGTCCAACCGCCCTCTTCAATAA +TGTGTACGATTTGCGCGAATAAACTGTTCGGATCGGTCAGTGATTCCCCGACAAACATCGGGTTTTGCAG +CAAGATGGCAAGACCCACCACAATCCCGGCGAAGGGAAACAGCAGCACTGGCGTGAACATCGCGCCGCCA +AAGCGTTGAATTTGACTGAGCATTTCCACATCCTCTTTTCTCAATTCTGTAAGTAGGAAGCCTGATTGGT +TATGCGGCAGGCCTGGAGCGAGGATAGGAAGATGCGATCGGCAGAACATGACGACCCAATGGGATTCGTG +ATCGCTTTCATGCTTTTCGTTGGGCGGTAGAGATCTACGTTTTCGCGAAAAAGTAGACCTCTGTGAGCAC +AGGTACACAGCATCGAACACATCTTTAAAAAAAAGATGTTTTTTCAATCGATTAAGCAGAACTTGTGTGC +GCATTACCCGGGCTTGCAGGCAAAAAAGAGATCTAGAGATGATCTACAAAAGCATTGCGGAGCGGTTAAG +AATTCGACTTAACTCCGCAGATTTCACGCTAAACAGCCTTCTTCCCGGTGAAAAAAAGCTGGCGGAAGAG +TTTGCGGTATCGCGGATGACCATCCGTAAAGCCATTGACCTGCTGGTAGCGTGGGGGCTGGTGGTCCGCC +GCCACGGTAGTGGCACTTACCTGGTGCGCAAAGATGTACTGCATCAAACCGCCAGTCTGACCGGGCTGGT +GGAGGTGTTAAAACGGCAGGGAAAAACGGTCACCAGCCAGGTGCTGATTTTTGAAATCATGCCTGCGCCT +CCGGCCATTGCCAGCCAGTTACGGATTCAAATCAACGAGCAGATCTACTTCTCCCGTCGCGTTCGTTTTG +TGGAAGGGAAACCGCTGATGCTGGAAGACAGCTATATGCCGGTAAAACTGTTCCGTAATCTTTCGCTGCA +ACATCTGGAAGGGTCGAAGTTTGAATATATTGAACAAGAGTGCGGGATTTTGATTGGCGGTAATTATGAA +AGCCTGACGCCAGTGCTCGCCGATAGACTGCTGGCGCGGCAAATGAAGGTAGCGGAACACACGCCACTGC +TGCGGATCACCTCGTTGTCATATAGCGAGAGCGGGGAGTTTTTGAATTATTCAGTGATGTTCAGAAATGC +CAGCGAATACCAGGTGGAGTACCATTTACGGCGACTCCACCCGGAAAAGAGTTAACCGATACTCCAGAAG +AGCACCGCCAGTAATTGGGGGGTGATAATGCGCAGGAACATTACCAACGGATAGACAGTGGCGTAAGAGA +GCGCCGCCGCACCGCTGGTTGGATGAAGATTATTAGCAAACGCCAGCGCCGGAGGATCGGTCATGGAACC +TGCCAGCATCCCGCACATGGTCAGGTAATTCATTTTGGCTAACATCCGCGCCAGAATGCCAACAGTAATC +AGCGGAACGGCGGTGATCAGGGCACCATAACCAATCCAGCTTAGCCCTTCGCCATTGACCAGGGTATTCA +CAAAATCCCCACCAGATTTCAGACCAACGACCGAGAGGAACAGCACGATCCCCAGCTCCCGCAGCGCGAG +GTTGGCGCTTGGCGGCATAAACCAGTACAGCTTGCCGATACTGCCGATACGCCCGAGGATCAACGCCATA +ATCAGCGGTCCGCCCGCCAGCCCCAGTTTCAACGCGGCCGGGAATCCTGGCACAAAGACGGGAATAGAAC +CTAACAATACGCCTAGCCCGATGCCAATAAACACTGGCAGCATCTGAACCTGTTGCAGTTTTTGCTGCGC +ATTCCCCAGCACATTGGCAACGGCATCAATTGCGGACGGACGCCCCACCAGATTGAGGATATCGCCGAAC +TGCAGGCTGATATCGCCACTGGCGACCAGTTCGACCCCGGCACGGTTCAGGCGCGAGATAACAACGTCAT +AGCGTTCTTTAAAGTGCAGGTCGCGAATACGTTTTCCGAGCACGTTTTCATTGGTGACCACCACACGCTC +GACGCGCAAATCAGTGCCTTTCGTGGACAGCGAAGTATCGACCTCCTGACCAATCACCAGTTGCGCATTA +TGTAAATCCGCTGGCTGACCCACCAGATGCAGCAAATCGCCCAGTTGGATAATGGTATCTGGCGAAGGAA +CTTTTAGGGTTTCTTCGCGTTTCAGACGCGAGCAGATAATTTTGTCGCCGTTGAGAATCGGTACATCTTT +AATGGCTAAATCATGCAGGTTAGGGTTCTCAACGCGAATATTGATAGTCTTGATCAGCGCGCCGCCATTG +GTGCGTGAAGACTCGTGCTGCTGAGCTTCTGTCTCGACATTGACGCGGAAAATAACCCGCAACATCCACA +TGGTGAACAAAATCCCGCAAATGCCGAATGGATACGCCATCGCGTAACTCATCCCCATCTGATCGACCAT +TTCCATTGGTGTACCCAGGTCGCGCAAAATCTGCTGCCCTGCCCCCAGCGCTGGCGTATTGGTAACCGCA +CCGGAGAAAATCCCCAGCACTACCGGCAGTGGAATATCAAACAGTTTATGCAGGATGGCGGTAACCAGAC +CACCGATGATGACGATCAGAACAGCAAACAGGTTGAGGCGTAATCCGGAGACGCGCAATGAGGCAAAGAA +GCCCGGCCCTACCTGAATCCCGATAGTATAAACGAACAGGATCAGGCCAAATTCCTGAATAACATGCAGC +ATATCGCTACTTAATGTCATCCCCGCCTGAGAAACAAAATGGCCGACGATGATCCCACCAAACAGCACGC +CGCCAATACCTAATCCTATGCCGCGAAATTTGACGTTGCCGATAAACAAACCGACGACTGCCACCAAAGC +CAGAATACTGACCGTTAATGCTATATCACTCATCGTCCATTTCTCTTGAGATAACATTTTAATTGCTACG +GATTATGGCTGAATCGGTGAAGCAGATTTGCCTTATAGCGCACATTATCACGGGAAAGAACGTGCCGAAA +TATCTTAAACAGTCGAAATTTAACGCATTGTTGAGTAAGTAAGACAAAAAAAGCCCCACCAGAATGGCGG +GGCAAAGAGAATAGCTAGTTAGCTATTTAACGCGGGACGTTCGCTGATAGCGATACGCTGCGCTGCGATG +GGTTCAGGCTCATTACGAATTAAATCAATATGCAGTAAACCGTTTACGAAGGTTGCGCCAGAGACTTCCA +TATTTTCAGCCAGCGTAAAGCTCAGGCTAAATGGCTGATTCATAAGCCCTTGATGCAGCCATTTTTTCTC +TTCTTTTGGCTGCTCCGGCGTGCCTTTTACGCTCAGGCGCGTACCTTCCAGTTGAATCTCTAAATCTTCC +TGACGGAAACCTGCCAGCGCAAGGGTAATGCGGTAGTGGTTATCGTCGCTTTTCTCAATGTTGTACGGCG +GGAAGCTCTGGCTTTCACCGGCGTTTTGCAGTGCGTTGGCCAGTTTGTCAAAACCGATCCATTGACGCAT +CAGTGGGGATAAATCGAAGTTACGCATAGTCATTTCTCCTTCTAAGAAGCGAGTAAGTACCTGCAAATCC +GAAGATTCGCATATGCTCCCTGACGGCGAGCATGGAGATGTCAGGCCGCGCCAGGCGGCCTTAGGGAATT +AGTTGATTTCGATACGGCGCGGTTTTTTCGCTTCCGGAATCACGCGTTCGAGATCGATATACAGCAAACC +ATTTACCAGGTTAGCACCACGAACATGAATGTTCTCAGCTAACTGGAATTTGCGTTCAAAGTTGCGTTCA +GCGATGCCCTGGTACAGATAGGTGCGCTCTTTTTGTTCGTCGGCGTGAGCACCTTTCACCACCAGCAGAT +TATCCTGGGCGGTAATTTCCAGTTCGCTCTCAGCAAAACCAGCCACAGCGATAGCAATGCGGTAATGGTT +TTCGTCTACCAGTTCAACGTTATACGGAGGGTAGCCGCCATTACTCTGGCTCTGGTTGTTTTCTAAGTGG +TTAAACAAACGGTCAAATCCAATAGCAGAACGGTAAAGCGGGGATAAATCAAAGTTACGCATAATCAATA +GCTCCTGAAATCAGCGAGAATGTAAGACCTTCCACAATGGACAGGTCAGGTAGCCAGAACACCCATCAGG +CGCGTCCTCATCGGCTACGATGTAAAAATGGGTCTGGAAATGAACTTTTCAAGCCTTATCAGCGGACTTT +TTTTTGCAGTTTATGGTCTATTGCATAGACTGAGGGGGCAGCACGAAACGTTAAAGTGCGATAGCCGCCA +CAGTGCGACGTAATGATGATGTTATTTTCAGCAAGGGATCGCTATAACTCATCAGGCCAACACCCACGAT +CAACAGATGAATTTATTATGATAAGAAATGTGTTGTTAGCGTTCATGATATGCAGCGGAATGACATTACT +CGGAGGATGCTCCAGCGTGATGTCCCATACCGGAGGGAAAGAAGGAACGTATCCCGGCACCCGCGCCAGC +GCAACCATGATTGGCGACGATGAAACCAACTGGGGCACTAAGTCGCTGGCGATTCTCGATATGCCGTTTA +CCGCTGTGATGGACACGCTTTTACTGCCGTGGGATGTGTTCCGCAAAGACAGCTCGGTGCGCTCGCGCGT +TGAAAAAAGCGAAGCCAACGCGCAAGCCACCAATGCGGTTATTCCACCGGCCAGAATGCCTGATAACTGA +TTTAGCGATCAGTTTCGGTGATCCACAGCTGGCCGCCTTCCATCCACGCCAGCCACTGACCATCCGGCGA +GAAGACCACGGCGTCCGCAGAAGGTGAATTGGCGTGGTGTTCGGTTAAATACTCAACCTCGCCGCTTTGC +GCATGGGCACAAGCAATTCGATTATCCAGCACAAAGCCCAACCATTCTCCTGACGGATGCCAGTTAAATG +CAGACTGAATATCCGTTTTGTTATGGGTTAACTGGCGCGGCTCGCCGCCCTGTGGCGAGATAAGCCACAG +TTGCACAATGCCGTTATCATCTCGCATTAAAAACGCGATTTGTGTACCCTGCGGATTACAGCGCACCCAG +TGGCGCGGGACGTTGACTAACCCCGGATAAGCCCGATGGTGGGTAAAGGTTAAACGTCGCTGCACGACGC +CACGCGGTGGCGCGGGCAGGGTTGTTTCCGTTCCGCTTAACGGCGCATCACCTGCCGCTTTCCAGCCAGC +TTCATCTTGCGGTAACTCAACGATAAACAGCTCCGGCACTTTCTCGCCCTTTGGCGAAAGTGTGTCGCCA +ATAAATGCCAGCGCGTGATTTCCTACCCATCCTTCTTCATAAGCACGATTGATTTCATCACTGCCAGGCT +GTGGCGTGGGCGTGGTTTTGCTCACCAGCACGCACCAGTGGCTACCGCTGTATTCACGCGGATGCTGCTT +TTGTACGTTGACCGGGCCAAACGGCGCAGCAACACCGACGTTTCGCAAATCCAGCGCCGGATCGAGTTCA +TGCATTACATGGTCGTTATAGGTAAAGCTCACCCTTTCACCGTTCGGGCTAAAGACATGCACATGGCTGC +CGCCGCGCAGCACTCCTGGCGTATACGGCGCGGTAATATCCATCGCATCAAGGTTACTCATCTTGCCGCC +TTCAACAATCACTCCGCGCCGATGATGGAAGTCGTAATGCCATGTTTCATCAGGATTTTCCGGGCCGTGG +ATGAAAACATATTTCTCTGACTTCGGATGAACGGTCACCACGCCGACGTGTGCGCCCTGTGACGCGCGAT +AGATAACCTCGACCTCGCCGGTATGGATATTCACACGCTCAATGGTCTCGCCGGTAAACGACGCGCCAGA +AGGACGCACGTCAAATACCAGCCACTGGCTGTCGGGCGTCCAGGTATTGGTATTGGTGAGCAGGTGATTA +CGGGGAGCAAAGGTTATCTGTTTCATGGCGCGGTCCTGATACAAAACGGGTCCCGCCATCATACTTCACA +AGGACTTCACTTTCAGACAATAGTCTTTTGCCATCGTGATGAATGTGAGTGAAAAGATGGAACATTTCGA +CGTGGCGATTATTGGCCTCGGCCCGGCAGGATCGGCGTTGGCACGAAAGTTAGCAGGCAAAATGCAGGTG +ATCGCGCTGGATAAAAAGCACCAGTGTGGTACTGAAGGTTTCAGCAAACCCTGCGGCGGTCTGCTGGCAC +CGGACGCGCAGCGATCTTTTATTCGCGATGGGCTGACGCTTCCTGTCGATGTGATCGCTAATCCGCAGAT +TTTCAGCGTCAAAACCGTCGACGTCGCCGCATCGCTCACGCGTAACTACCAGCGAAGCTATATCAATATT +AATCGCCATGCTTTCGACTTGTGGATGAAATCGCTGATCCCCGCCAGCGTTGAGGTTTATCACGACAGCC +TGTGCCGAAAAATCTGGCGTGAGGATGATAAATGGCATGTCATTTTTCGTGCAGACGGCTGGGAGCAACA +TATTACCGCCCGCTATCTGGTCGGTGCCGATGGCGCAAACTCGATGGTGCGGCGACATCTCTACCCGGAT +CATCAAATCCGTAAATATGTCGCTATCCAGCAGTGGTTCGCGGAGAAACATCCGGTGCCGTTCTACTCCT +GCATCTTTGATAATTCGATAACTAACTGTTATTCATGGAGTATCAGCAAAGACGGTTATTTTATCTTTGG +CGGTGCCTATCCAATGAAAGACGGTCAGACGCGTTTCACGACGCTGAAAGAGAAAATGAGCGCCTTTCAG +TTCCAGTTTGGTAAGACGGTGAAAAGCGAAAAATGCACGGTGCTGTTTCCCTCGCGCTGGCAGGATTTTG +TCTGCGGTAAGGACAACGCCTTTCTGATTGGTGAAGCGGCGGGATTTATCAGCGCCAGCTCGCTGGAGGG +GATTAGCTATGCGCTGGATAGCACAGACATTCTGCGTTCGGTGTTACTGAAGCAGCCAGAGAAGCTCAAT +ACCGCTTACTGGCGCGCCACCCGCAAACTGCGTTTAAAACTCTTCGGCAAGATAGTAAAAAGCCGATGCC +TGACCGCACCGGCTTTAAGAAAGTGGATTATGCGCAGTGGTGTGGCACATATTCCACAGTTGAAGGATTA +GCCAACGCGCTTCACATCGCCCACCAGCAGGATATAAGAGAGCGCGCCAATCAACGCGACGGCGGAGATA +TAAACCAGTGCAGGTGCGAAACCGTAACCCTGCGCCAGGTACCCCACCACCAGCGGAACGGTGATGCCGC +CCAGACCACCGGCGAAGTTAAACACGCCGCCGGTTAAACCAATCAGGCGCATCGGTGCCAGAGAAGAAAC +CAGCGACCAGGTAATCGAAGCAAAACCGTTACCGAAGAATGCCAGCGCCATCAGGCACATAATCATCATC +GGATCGTTAGTGTAGTTAGCGCCCATAATGCAGGTGGAGATCAGCAAGCCGCAGATAATCGGCGTTTTAC +GCGCAAAGCCCAGTGAAAAGCCCTTACGTACCAGCAGATCCGCTACCCAGCCAGAGAGCAGGACGCCGAC +AAACGCCGCGAGGAATGGCACCGTGGTCATAAAGCCTGCTTTCAGCGCCGTGATTCCTTTTTCCTGGGTT +AAATAGTTCGGGAACCAGGTTAAGAAAAACCACAGTGTAGAAGCCACCGCAAATTGCCCAAGATAAACGC +CGATCAGTTTACGATGGAACACCAGTTTCCAGTCTTTGGCTGTTAACGGCTGACGCGCCTCTTTCTTCAC +CGGCGCATCACCATCCACCAGACCGCCGCCATCACGAATGTAATCCAGTTCAGCTTTGCTGATACCTTTG +GTCAGGCGCGGCGGCTGATAAACCTTAAACCAAATCAGCGACCAGATAATGCCGATACCACCAGTGACAA +TGAACACCCAGTGCCAGCTCAACATCTCCTGAATCCAGATCAGCAGCGGCGTCAGAAACGCCAGACCGAC +AAACTGACCAGACGTATAAAAACCAACGGCAGAAGCGCGTTCATGTTCCGGGAACCAGCTGGTCACCATC +CGGTTATTGGTCGGGAAAGCAGGCGCTTCGAAAATACCGGTTATCGCGCGCAGACCAATTAATGACATTA +AGCCCGTGGCAAAGCCCTGGAATAAAGTCGCCACTGACCAGCCAAATATCGCAATAAAATAAGTCACGCG +AGAACCTACGCGATCTAAAAACCAACCGCCGGGGATCTGACATAGCGTATAAAGCCAGGCGAAGGCCGAA +AATACATAGCCCATTTCCGCTTTGGTAATGCCGAACTCTTCCTGAATATGGGCGGAAGCCACGGCCAGGT +TGGCGCGGTCGACATAACAAATGACTACCGTAATAAAGATCATCACCAGCGTCAGATAACGCCGACGCCC +CGGCTTTGCTGCATTAACGGGAATATCCATAGCGAGCTTTCTCCAGATTTTGGGCATAGCGAAGCCGCTC +ACCATGCCCTGTAATTTACAGAGGGTTATATTTTTGTATTGCTGTTTTAGTGCCCGATGAGGGGCTTACG +TGGCAGGAATTACCACTCTGCTACGCTGTTATCTTCATGACGCCAGAGCGGATTACGCCAGTCCGGGGCA +TTTTTACTGAACTCAATCACTTTAGCTTCGTCGATTTCCACGCCTAAGCCCGGTTTCGTTAACGGTTTAA +AGAAGCCGCCGACCATGCTGAAGTCTTCTTTGTTTTTCACAAAGTCGAGTAACTCCGCGCCTTTGTTGTA +ATGAATTCCCATACTTTGTTCCTGAAGTACGGCGTTATAGGAAACAAAGTCGATATGCAGGCAAGCCGCC +AGTGCAATCGGTCCGAGCGGACAGTGCGGCGCAAGGGTCACGTCATAGGCTTCTGCCATTCCGGCGATTT +TGTAGCATTCGGTAATACCGCCCGCGTGGGAGAGATCCGGTTGCAGAATCGAAATACCACCTGCCTCCAG +CACGCGTTTAAAATCGAAGCGTGAGAACATGCGTTCACCCGCCGCCAGTGGAATATGCGTTTGTGCCGCC +AGTTTCGGGTAGTATTCGGCTTGTTCCGCCAGCACCGGCTCCTCAATAAACAGCGGGCGATACGGCTCCA +GTTCTTTAATCAGCACTTTCGCCATCGGCGCGCTGACGCGACCGTGGAAATCAAGACCAAACTCAATCTG +ATTGCCAAAAGCTTCACGAATTTGTGCCACGGTGTTAACCGCCGCATCTACCGCGCGGGAGTTATCAATT +AGCCCCAGTTCTTCACAACCGTTCAGTTTGAAGGTATCGAAGCCGATTTCGCGTAGCGTTTTAATGCCGT +CGATAACATCCGCCGGACGATCGCCGCCAACCCAACTGTAGGCTTTAATTTTGTCGCGAACCAGGCCGCC +CATCAGTTGCCAGACCGGCGCATTCAGCACTTTACCTTTGATATCCCATAACGCCTGGTCAATCCCGGCG +ATGGCGCTCATCAGGATCGGACCGCCGCGATAGAATCCGGCGCGATACATCACTTGCCATAAGTCATTGA +TGCGCGATGGATCCTGACCAATCAAATAGTCACCCAGCTCGTGAACTGCCGCTTCCACCGTACGGGCGCG +GCCTTCGATCACGGGCTCGCCCCAACCGACCACGCCTTCATCGGTTTCAATTTTCAGGAACATCCAGCGG +GGAGGTAAACGATACGTGGTAATTTTGGTGATTTTCATTGCACTGCCTCTCGATACGCCTTAACAAATGC +TGCTGCCTGCTGCGCGGTGCGCTCTACGGATTGCCCGGCGCGATAGAGATCGCTGCCTAAGCCCGCCCCT +GCACAACCTGCGTCTATCCACTGCGCCAGGTTTTCTGGCGTCACGCCGCCAACGGCAAAGACTGCGATGT +CCGATGGCAATACCGCTTTTAACGCTTTGATGTATTGCGGACCAAAAGCCGATGACGGAAATATTTTCAG +CGCCTGCGCGCCCGCTTCGAGCGCGGTAAAGGCTTCGGTCGCCGTCGCGCAGCCGGGGCAGACGGTCATG +CCGTAGCCCACCGCACGGCGGATCACTTCACTATGGATATTGGGCGTAACGATGAGCTGACAGCCCATCC +TGGCGAGCGCATCGACCTGTTCAGGTTTCAGTACCGTACCTGCGCCAATCAACGCCTTGTCGCCGTACGC +ATCAACGATGGCGGGAATGCTTTGCTCCCATTGTGGGGAATTCAGCGGGATTTCAACCGCGTCGAACCCG +GCGTCAATCACCGCGCCAACATGCGCCAGCGCCTCGTCGGGCGTAATACCGCGCAAAATGGCGATCAGCG +GGAGTTTAGTTTGCCACTGCATGAGCGATGCTCCTTATACCAGCCTGAAATGCCGTGTCGCCCGCCACCG +CCGTCACGTCGCAACCCATCGCCTGAAAGGCTTGCTGGTAGCGCGCGGTCAGCGATGTTCCGGCGACAAG +GGTGATGGCGTGTTGATGGGCCACATAGTCGCGCATACTGGCGACCTCTGCGCCAATCAACAAACCAGAG +AGAAATTCGCTGACCTGTTCGCGGGGAAGTGTTCCCAGCACATGCGAGGCGCGAACTTCAAAAAGCTGCG +GCAATATGGCGGGCGTATTAAGACCACGCTCAAGGCCAGCTGTGAAGGCATCGGCAGAGTTTTCCTGCGG +CGGCAAACCTGCGCCAATCAATGAGTGATTTAACAGTAAATGATGTAATTCACCGGTCATCACGGTGCGA +AAATCGTTGATTTGCTGGCTATCGGCCTGCACCCATTTGCAATGGGTTCCGGGCATGACATAAAGAGAGG +AAGGAGCCAGAGCTCGCGCGCCGATCAATTGTGTTTCTTCGCCGCGCATCACATTGTGGTTATCGTCATG +AGAGACACATAATCCGGGAATAATCCAGATATTGTCGCCAACTGACGTTAATTGTTCGCCAATAGACGAA +AAACAGGCAGGAACAGATAAATACGGTGCAACTTTCCAGCCGACGTTGCTGCCAACCATTCCTGCCATTA +CCACTGGCGTTTTCTCTTCACGCCAGTCGGTCGTGACTTCTGCTAACACCGCAGCCGGAGATTTTCCGTT +CAGGCGCGTGACGCCTGCTTCTGATTGCCTGCTCTCCAGGCAGTGGTCGCCCTGATAAAGCCAGGCGCGC +AGATTGGTCGATCCCCAGTCAATTGCGATGTAGCGAGCTGTCATGTGATTTCCTTTAACCTTCGTGTCGA +GCTGGCGATCATGGTAAGCGCCGCCTGCTCTGCCGCATCGCCGTCCTGATGTCGTATCGCATCGAACAGC +GCCTTATGTTCCTGGAGCGTTTGCGGCATGTTGGCCTCATCGCCCATCCAGGTTCGTTCAAAAACCGCCC +GCTGCAGCGAACTGATCGCAATGCTAAGTTGCTGTAACACCGGGTTATGCACCGACTGCAGCACCGCCTC +GTGGTAGCGAATATCCGCTTCGTTAAACGCTTCGCGGTCCTGATTGTTGGCAATCATCTCGTTCAGCGCC +GATTCAATCTGCGCCAGATCGCTGGAAGTCGCGCGCTCTGCTGCCCAACGGGCAATCGCCGGTTCCACCA +GATTTCGCACTTCGCTCATGGCACTGATAAGCCGTGGGTCGTAGTCATTTTCCAGCACCCATTGCAGTAC +GTCAGTGTCGAGGTAATTCCACTGGTTACGCGGTGCCACAAACGCCCCGCGATAACGTTTCATTTCAATC +AGCCGCTTCGCCATCAGCGAACGGAACACCTCACGGATGATGTTGCGCGAGGTTGCAAACTCCTCACAGA +GTTCCGCCTCAGCCGGAAGCGGCGAGCCTGGCACGTATTTGCCGTGAACGATCTGTTTACCCAGCGTAAT +GACAATGCGATCGGTTTTATTGAGAGTCATGGAGAGTCCTTGTGCTCTGTATGTTCTTCTCTACTTTACC +CCGATCGATGCATAACGCGGCAACTTTGTAGTACCAGCGTGATGACGTTCGCGTTTGCCGTGCGTGTAAT +GTAGTACAAACTTATATTGTTGTACTACAATTTAGATCACAAAAAGAACAATGCATAAAAAAATGACATG +CGTCGGGCAGAAATCTGAAAAGGGATATCAGGCGCTAAACAGGAGGGAAAGAAGAGTATGCTTTCAACGG +CTTAGCTACTCGTTTAAAGGATTAATCATGAAGTTGAATTTTAAGGGATTTTTTAAGGCTGCCGGTTTAT +TCCCACTGGCGCTGATGCTTTCAGGCTGTATCTCGTATGCTCTGGTTTCCCATACCGCAAAGGGTAGTTC +AGGAAAGTATCAATCGCAGTCAGACACCATCACTGGGCTATCGCAGGCAAAAGATAGTAATGGAACAAAA +GGCTATGTTTTTGTAGGGGAATCGCTGGATTACCTTATCACTGATGGTGCCGATGACATCGTTAAGATGC +TCAATGATCCAGCACTTAACCGGCACAATATTCAGGTTGCCGATGACGCAAGATTTGTTTTAAATGCGGG +GAAAAAGAAATTTACCGGCACAATATCGCTTTACTACTACTGGAATAACGAAGAAGAAAAGGCACTGGCA +ACGCATTATGGTTTTGCCTGTGGTGTTCAACACTGTACCAGGTCACTGGAAAACCTAAAAGGCACAATCC +ATGAGAAAAATAAAAACATGGATTACTCAAAGGTGATGGCGTTCTACCATCCATTTAAAGTGCGATTTTA +TGAATACTATTCACCCAGAGGCATTCCGGATGGTGTTTCCGCAGCATTACTGCCAGTGACTGTTACGCTG +GACATCATTACTGCACCGCTGCAATTTCTGGTTGTATATGCAGTAAACCAATAATCAGTAAGCGGGCAAA +CGCGTTTATGCTGTTTGCCCGCCCACAGATTAATTCAGCACATACTTCTCAATAGCAAACGCCACGCCAT +CTTCAAGGTTAGATTTGGTGACAAAGTTCGCCACTTCTTTCACTGAAGGAATAGCGTTATCCATCGCCAC +ACCGACGCCTGCATATTCAATCATTGCGATATCGTTTTCCTGATCGCCAATCGCCATGATTTCTTCCGGT +TTAATACCTAACACGTCGGCCAGTGATTTCACCCCCGTACCTTTGTTAACGCGTTTATCGAGGATTTCGA +GGAAGTACGGCGCACTTTTCAGCACGGTATATTTCTCTTTCACTTCCTGCGGAATACGCGCGATAGCCTG +GTCGAGGATGGCGGGTTCATCAATCATCATCACTTTCAGGAACTGGGTATTGGGGTCCATTTTCTCCGCT +TCGCAGAACACCAGCGGAATGGTGGCAACGAAGGATTCATGCACCGTGTAGTAGCTGATATCACGGTTGG +CGGTGTACAGCGTGGTGCGGTCCAGGGCGTGGAAATGAGAACCGACTTCGCGAGAGAGTTTTTCCAGGAA +ACGATAGTCGTCATAGCTGAGAGCAGTTTGCGCCACGGTGCTACCATCAGCGGCCTTCTGTACCAGCGCG +CCGTTATAAGTAATGCAGTAGTCGCCCGGCTGTTCCATATGCAGCTCTTTCAGGTAGTTGTGCACACCTG +CATACGGGCGACCCGTCGTTAGCACGACATTCACGCCACGGGCGCGAGCTGCGGCAATCGCATTTTTAAC +GGCGGGTGAAATGGTGTGATCGGGCAGCAGAAGGGTGCCATCCATATCGATAGCAATGAGTTTAATAGCC +ATGAGTTCCCCAGGTAGATTGGTTCCTGACCCATGCTAACGCGATTCCGCTCAAAAATCAGTACAACACC +CGAGGGAAAAGGGGGATGCAACGCGCGTTGCGTGCTCCCTTTTTGCTTAGCGGAAGAGTTTCCCTTTCAG +CAGTTCCATGCCTGCGGAAAGCAGATCGTTATTGGCTTGTGGTGACACTTCACCTTGCGGTGAGAGCGCA +TCAATAATCTTCGGCAATTGTTCTGCCAGTAAACTGGAAGCTGTACTGGTATCCACGCCAAGTTTTTGCC +CGAGATCGGACACCGCATTTGTGCCGAGCGCCGATTCCAGTTGCTCGCCACTAACCGATTGATTGCCCTG +TTGATTACTCAGCCAGGTTGAGAGAATGGCCCCTAAGCCGCCACTTTGCAGTTTTTCCAGCAGCACCTGA +ATGCCGCCCTGCTCCTCAACCCAACTTAAAATAGCCTGATATTTCCCCGCATCGCCTTTCAGAAAGGCAC +CGACAACTTCATCAAAAAGCCCCATGATAATCACCTGTAAAGCGTTACGTGTTGACCCAAAAAGTATAGA +TTTGCGGGATGATAATTGCGGATTGCAGAAATAAAAAGGGCGGAGATGATCTCCGCCCTTTTCTTATAGC +TTCTTGCCGGATGCGGCGTGAACGCCTTATCCGGCCTACAAAATCATGAAAATTCAATACATTGCAAGAT +TTTCGTAGGCCTGATAAGCGTAGCGCATCAGGCACGCTCGCATGGTTAGCGCCATTAAATATCGATATTC +GCCGCTTTCAGGGCGTTCTCTTCAATAAACGCACGGCGCGGTTCAACGGCGTCGCCCATCAGCGTGGTGA +ACAACTGGTCGGCAGCAATCGCATCTTTAACGGTAACGCGCAGCATACGACGACTTTCCGGGTCCATAGT +GGTTTCCCACAGCTGTTCCGGGTTCATCTCGCCCAGACCTTTATAACGCTGGATGGAGAGGCCGCGACGG +GACTCTTTCACCAGCCAGTCCAGCGCCTGCTCGAAGCTGGCTACCGGCTGACGACGCTCGCCACGTTCGA +TAAACGCATCTTCTTCCAGCAAGCCACGCAGTTTCTCACCCAGCGTGCAGATACGACGATATTCGCCACC +GGTGATAAACTCGTGATCCAGCGGATAGTCAGTATCCACACCGTGGGTACGCACGCGAACAATCGGCTCG +AACAGGTTTTGCTCAGCATTGGTGTGAACATCAAACTTCCACTGGCTGCCGTGCTGTTCTTTGTCGTTCA +GTTCGCTGACCAGCGCGTTCACCCAGCGGGTAACGGTCTGCTCATCAGAAAGGTCAGCTTCCGTCAACGT +CGGCTGATAGATAAGCTCTTTCAGCATTGCTTTCGGATAACGACGCTCCATACGATTGATCATTTTCTGC +GTCGCGTTGTACTCAGATACCAGTTTCTCTAACGCTTCGCCAGCCAATGCCGGTGCACTGGCGTTGGTGT +GCAGCGTTGCGCCGTCCAGCGCGATAGAGATCTGGTACTGATCCATCGCTTCGTCGTCTTTAATGTACTG +TTCCTGCTTGCCTTTCTTCACTTTGTACAGCGGCGGCTGAGCGATGTAGACGTGACCGCGTTCAACGATT +TCCGGCATCTGACGATAGAAGAAGGTCAACAGCAGCGTACGAATGTGCGAGCCGTCGACGTCCGCATCGG +TCATGATGATGATGCTGTGATAACGCAGTTTGTCCGGGTTGTACTCGTCACGACCGATACCACAGCCAAG +CGCGGTGATAAGCGTCGCCACTTCCTGAGAAGAGAGCATCTTATCGAAGCGCGCTTTCTCGACGTTGAGG +ATTTTACCCTTCAGCGGCAGAATCGCCTGGTTCTTGCGGTTACGCCCCTGCTTCGCAGAGCCGCCCGCGG +AGTCCCCTTCCACCAGGTACAGTTCGGAAAGCGCCGGATCGCGTTCCTGGCAGTCTGCCAGTTTGCCCGG +CAGGCCCGCTAAGTCGAGCGCACCTTTACGGCGGGTCATTTCACGCGCGCGACGCGCCGCTTCACGGGCA +CGGGCAGCATCGATAATTTTGCCAACCACGATTTTCGCGTCGGTTGGGTTTTCCAGCAGGTATTCTGCCA +GCAGTTCGTTCATCTGCTGTTCAACCGCCGATTTCACCTCAGAAGAAACCAGTTTGTCTTTGGTCTGGGA +GGAGAATTTCGGGTCCGGCACTTTCACGGAAACGACCGCAATCAGGCCTTCACGCGCATCGTCACCGGTG +GCGCTGACTTTGGCTTTTTTGCTGTAGCCTTCTTTGTCCATGTAGGCGTTCAGGGTACGGGTCATCGCCG +CACGGAAGCCTGCCAGGTGAGTACCGCCGTCACGCTGCGGAATGTTGTTGGTAAAGCAGTAGATGTTTTC +CTGGAAGCCATCGTTCCACTGCAACGCCACTTCGACGCCAATACCGTCTTTTTCAGTGGAGAAGTAGAAG +ATATTCGGGTGGATCGGCGTTTTGTTCTTGTTCAGATATTCAACGAACGCCTTGATGCCGCCTTCATAGT +GGAAGTGGTCTTCTTTGCCGTCGCGCTTGTCGCGCAGACGAATGGAAACGCCGGAGTTGAGGAACGACAA +CTCACGCAGACGTTTCGCCAGAATTTCATATTCGAACTCGGTCACATTGGTGAAGGTTTCGAGGCTGGGC +CAGAAACGCACCATGGTGCCGGTTTTTTCAGTCTCGCCGGTAACCGCCAGCGGGGCCTGCGGTACACCGT +GTTCGTAGATCTGACGGTGAATTTTACCCTCGCGCTGGATAACCAGCTCCAGTTTTTGCGACAGGGCGTT +TACTACCGAAACACCAACGCCGTGCAGACCGCCGGACACTTTATAGGAGTTATCGTCAAATTTACCGCCT +GCGTGCAGAACGGTCATGATCACTTCCGCCGCCGATACGCCCTCTTCCGGGTGAATACCGGTCGGAATGC +CGCGCCCGTCATCCTGTACAGAGACAGAGTTATCGGCGTGAATGGTGACGATAATTTCTTTACAGTGACC +CGCGAGCGCTTCGTCGATAGCGTTATCTACCACCTCGAATACCATGTGGTGCAGACCGGTGCCGTCATCC +GTGTCGCCGATATACATACCCGGGCGCTTACGCACCGCATCCAGCCCTTTCAGGACTTTGATACTGGAGG +AGTCATAAGAATTCGACATCAACGTTTCTCGCTCATTTATACTTGGGTTAATCCGTTATTTTACCCTTTT +CCACGGTAAACATCTTCGAATTTTCGTCCGACATGTCTATAACGTGTTCAGCACTGATCGCGCTGACAAA +GACCTGTGATTGCGTCGCTTTTAAGCGGCTGGCAAGCAGCCCGCGACGCTCATCATCAAGCTCAGAGGCA +AAATCATCTATCAGGTAGAGACACCGCCGCCCGCTTTCACGGGTGAGGAACTCTCCTTGCGCCAGACGTA +AGGCGCACATCAACAGCTTAAGCTGCCCACGCGATAAGGTATCTTCCACCGGCGCACCGTCGGCGCGAAT +GCGTAAGTCCGCTTTGTGCGGGCCGTGCGCGGTGTAGGTTAGCTGGCGATCGCGTTCAAAATTACGTTCC +AGCACCTCAGCATATTCTGTCTCTTTCTCCCAGCCGCGCTGGAAAGAGAAAGTCAGAGAAAACTCAGGGA +GAAATTGCTTACAGGTATCAGCCATATCGGCCGCGATACCGGCGCTATACTCCGCGCGCCAGGTGCTGAT +TTGCTCCGCCAGCGGGATCAGCTCTTTATCCCACGGGCGTAGCTGTTCGTAACGTGTCACCTGGCGCAGC +GCCGCATTGCGCTGCTTGAGCAATCGCTTGAGATTGCTCCAGGCGGTGAAAAATCCGGGTTCGTTGTGAA +AGCATCCCCAGTCGAGGAATGCTCTTCTGTATTTGGGGCCGCCGTTGAGTAAAGTAAACCCTTCTGGCGT +TATCAACTGCATTGGCATCAGGTGCGCCAGTTCCGCGACCTTATGCCCGTCTGTACCGTCGATGCGGACT +TTGCTGTCGCCCTGTTTGTCTTTGGTTAAGCCAATCGCTGTCTCGCGCTCTTCGCCCTGTAATCGCCCGT +GGAGAACAAACGCCTCCTGCTCATGGCGAATGACGCGACCAATCTGCAAACTGCGAAACGCCCGACCATG +GCCGAGCGTATAGATGGCTTCCAGCACGCTGGTTTTGCCACTGCCGTTGGCACCTACCAGAAAGTTAAAG +CCGGGAGATAAGGCGAGATCCGCGGTTTCAATGTTGCGGAAATCGCGGATCAACAAGCGGGTGAGGGACA +TTACAGTCTCATTGGCATGACAACATAAGCCGCGCTCTGGCTGGCCGCATCTTCAATCTGCACGCTGGAA +ACCGAATCGGTCAGCATCATGCGGACGTTTTCGCATTTCAGCGCGTTCAGAACATCCAGCACATAACTGA +CGTTGAAGCCGATTTCCATCTCCGCACCGCTATAGGTAACGTCGAGGATCTCTTCCGCTTCTTCCTGTTC +CGGGTTGTTGGCGGTGATTTTCAGCTGGTTTTCGCTGACATAAAGACGTACGCCGCGGAATTTCTCGTTA +GAGAGAATCGCCGCGCGAGCAAACGCCTGCTTGAGCAGATCGCAGCCAGCTTCCAGATGTTTGTCCGGGT +TCTTCGGCAGAACGCGGCGATAATCCGGGAAGCGACCATCCACCAGTTTGGAGGTGAAGATAAAGTCGCC +AACGTGGGCGCGAATGTTGTTGCTGCCAATCTGTACGCGCAGCGGATTGTCGCCGCCGTCGAGCATACGC +ATCAGTTCAATCACGCCTTTACGCGGTACGATCACCGAATGGCTTGGCAAAGATTGACCAATTGGCATTG +AACAGACCGCCAGACGGTGGCCGTCGGTTGCCACGGTGCGCAGTTCTTCACCTTCGGTTTCAAACAGCAT +ACCATTTAAGTAATAGCGAACGTCCTGATGCGCCATAGAAAACTGGGTCGCTTCAATCAGACGCTTCATC +GTTGCCTGCGGCAGGGTAAATTCGACTTCACTCTGCCAGTCATCGAGGTTCGGGAAATCCGCCGCTGGCA +GGGTAGACAGCGAAAAACGGCTACGCCCGGAGCGTACCAGCATCCGTTCACCTTCCAGCTGCACGGCAAT +TTCCGCGCCTTCAGGCAGACCACGGCAGATATCAAAGAATTTGCGCGCCGGAACGGTCGTCGCTCCTGGC +TCGTGTGGCTGAACCAGCGCAACACGTGCCACCATTTCCATCTCGAGATCAGTACCGGTCAGCGACAACG +TACCGTCAGCAACCTGTAACAGCAGATTACCGAGAATCGGTAGCGTAGGACGACCACCTAACGGACCGCT +CACCTGTTGTAGCGGTTTTAATAAATGCTCACGTTCTACGGTAAATTTCATAGGTTTACGATGACAATGT +TCTGATTAAATTTGAAAAATCTTCTTTGATATCGTGGCTCTCTTCACGCAACTGCTCGATCTTACGGCAG +GCATGAAGCACCGTCGTGTGGTCACGGCCACCAAACGCATCGCCAATCTCCGGCAGACTGTGGTTAGTCA +GCTCTTTCGCCAGCGCCATCGCCATCTGGCGCGGACGCGCCACCGAGCGGGATCGACGCTTGGAAAGGAG +ATCCGCGACTTTGATCTTGTAGTACTCCGCCACCGTCTTCTGAATATTGTCGATGGTGACCAGTTTTTCC +TGCAATGCCAGCAAGTCGCGCAGCGCCTCACGCACGAAGTCGATGGTGATCGCCCGTCCGGTAAAGTTGG +CATTGGCAATGACGCGGTTCAGCGCCCCTTCCAGCTCACGTACGTTAGATCGTAGACGCTTGGCGATAAA +GAACGCCACTTCGCCCGGCAAACGAATGTCGTTTTCGTCGGCCTTTTTCATCAGGATCGCCACACGGGTT +TCCAGCTCTGGCGGTTCGATCGCCACAGTCAGTCCCCAACCGAAGCGGGATTTCAAACGATCCTCAACGC +CGTTGATCTCTTTCGGATAGCGATCCGAGGTGAGAATGATCTGTTGATTACCTTCCAGCAGGGCGTTGAA +GGTGTGGAAAAACTCTTCCTGAGATCGTTCTTTATTAGCAAAAAACTGAATATCGTCGATCAGCAGTGCA +TCTACGGAACGGTAGTAGCGTTTAAACTCTTCGATCGCGTTGTTTTGCAGGGCTTTAACCATGTCCTGAA +CAAAGCGCTCGGAGTGCATATAAACCACTTTGGCATTCGGCTTGCGCGCCATAATGCCGTTACCCACCGC +ATGCAGCAGGTGAGTTTTACCCAGACCCGTGCCGCCATAAAGGAACAACGGGTTATAGGCACCGCCAGGG +TTATCCGCCACCTGGCGAGCCGCCGCGCGCGCCAGTTGGTTAGATTTACCTTCAACGAAGTTATCAAACG +TGTGTTTGACGTTTACGTTAGAACGATAGGTCGGTTCTGCCGGGGCCGGGACGTTATCCCAACCTGAGCG +CGTAGAAGGCGCAGCACGTTGCGGCTGCGTTTGCGCCACCTGTGCAGGGGCCGCGACGTTGCTCGTCACT +GCCGCTTGTGGCGTTTGCGTCACCGGTTTGGTGCCGACTTCAAAACGCAGCTGTGGGGCATCCGCTCCGC +AGAAACTGGTTAGCAGTCCATTGATATTATTAAGGTACTTGTCCCGTACCCAATCGAGGACAAAACGGTT +TGGCGCGTACAGGGCCAGCGTGTTATCGCTCAGTTCCGCCTGCAATGGGCGTATCCACATACTGAATTCT +GTGGCTGGTAACTCATCCTGCAATCGGGCAAGACACTGCTGCCAAAGCGAAAGTGACACGGCGGACTCCA +CTCGAACAAAAGTCGATAATGACTAAGGCTGAAACATTCATGATTGTTGACGTACGTCGAAAAGACCCTG +CTTGAGGGTGACGCACGAACCGCTGTCTGCGGTTATATGCCCGATCAAGATCCTGCAAAACGATCGGGAC +CGCGGATCATAGCCTAAACTGCGCAAGAGATCTTCTGTTTCTCACAGATTTTCCCGATTTATCCACAGGA +CTTTCCAGAACTCGCTAAGTGTAAACGATCCTGCCGCGAGGCGGGCACGATTTACGCCGCATATTGGAAA +ATTTAATGACCATAGACAAAAATTGGCTTAATCGATCTAATAAAGATCCAGGACGATCCTTGCGCTTTAC +CCATCAGCCCGTATAATCCTCCACCCGGCGCGCCATGCTGGTTTCCACTGGTGTGAGGTCGTACATTTTC +CCTGCGAAAAGGTGCGGAAAAGCGCGGTAAATAAGGAAAGAGAATTGACTCCGGAGTGTACAATTATTAC +AATCCGGCCTCTTTAATCACCCATGGCTTCGGTGTCCATCGTTTCATTTTTCGGCGGATATCCAATAAAG +CCATTGAATTTATTCAAGTTTAGGTAGAAATCGCCATGAAACGCACTTTTCAACCGTCTGTACTGAAGCG +CAACCGTTCTCACGGCTTCCGTGCTCGTATGGCTACTAAAAATGGTCGTCAGGTTCTGGCACGTCGTCGT +GCTAAAGGCCGCGCTCGTCTGACCGTTTCTAAGTAATAAAGCTAACCCCTGAGTGGTTAAGCTCGCATTT +CCCAGGGAGTTACGCTTGTTAACTCCCAGTCAATTCACATTCGTCTTCCAGCAGCCACAACGGGCTGGCA +CGCCGCAAATTACCATTCTCGGCCGCCTGAATTCGCTGGGGCATCCCCGTATCGGTCTTACAGTCGCCAA +GAAAAACGTTCGACGCGCCCATGAACGCAATCGGATTAAACGTCTGACGCGTGAAAGCTTCCGTCTGCGC +CAACATGAACTCCCGGCTATGGATTTCGTGGTGGTGGCGAAAAAAGGGGTTGCCGACCTCGATAACCGTG +CTCTCTCGGAAGCGTTGGAAAAATTATGGCGCCGCCACTGTCGCCTGGCTCGCGGGTCCTGATAGCCCTC +ATTCGGGTCTATCAACGCCTGATTAGTCCGCTACTCGGGCCGCATTGTCGTTTCACTCCAACCTGTTCAA +GCTACGGAATTGAGGCATTGCGCAGGTTTGGAGTGATAAAAGGCAGTTGGTTGACGGTGAAACGCGTATT +AAAATGCCACCCTTTACACCCTGGTGGTGACGATCCCGTCCCGCCCGGACCATTTGATACCAGAGAACAC +TAACGATGGATTCGCAACGCAATCTTTTAGTCATCGCTTTGCTGTTCGTGTCTTTCATGATCTGGCAAGC +CTGGGAGCAGGATAAAAACCCGCAACCTCAGGCCCAACAGACCACGCAGACAACGACCACCGCAGCGGGT +AGCGCCGCCGACCAGGGCGTACCGGCCAGTGGCCAGGGGAAACTGATCTCGGTTAAGACCGACGTGCTTG +ATCTGACCATCAACACCCGTGGTGGTGATGTTGAGCAAGCTCTGCTGCCTGCTTACCCGAAAGAGCTGAA +CTCTACCCAGCCGTTCCAGCTGTTGGAAACTTCACCGCAGTTTATTTATCAGGCACAGAGCGGTCTGACC +GGTCGTGATGGCCCGGATAACCCGGCTAACGGCCCGCGTCCGCTGTATAACGTTGAAAAAGACGCTTATG +TGCTGGCTGAAGGTCAAAACGAACTGCAGGTGCCGATGACGTATACCGACGCGGCAGGCAACACGTTTAC +CAAAACGTTTGTCCTGAAACGTGGTGATTACGCTGTCAACGTCAACTACAACGTGCAGAACGCTGGCGAG +AAACCGCTGGAAATCTCCTCGTTTGGTCAGTTGAAGCAATCCATCACTCTGCCACCGCATCTCGATACCG +GAAGCAGCAACTTCGCACTGCACACCTTCCGTGGCGCGGCGTACTCCACGCCTGACGAGAAGTATGAGAA +ATACAAGTTCGATACCATTGCCGATAACGAAAACCTGAACATCTCTTCGAAAGGTGGTTGGGTGGCGATG +CTGCAACAGTATTTCGCGACGGCGTGGATCCCGCATAACGACGGTACCAACAACTTCTATACCGCTAATC +TGGGTAACGGCATCGCCGCTATCGGCTATAAATCTCAGCCGGTACTGGTTCAGCCTGGTCAGACTGGCGC +GATGAACAGCACCCTGTGGGTTGGCCCGGAAATCCAGGACAAAATGGCAGCTGTTGCTCCGCACCTGGAT +CTGACCGTTGATTACGGTTGGTTGTGGTTCATCTCTCAGCCGCTGTTCAAACTGCTGAAATGGATCCATA +GCTTTGTGGGTAACTGGGGCTTCTCCATTATCATCATCACCTTTATCGTTCGTGGCATCATGTACCCGCT +GACCAAAGCGCAGTACACCTCCATGGCGAAGATGCGTATGTTGCAGCCGAAGATTCAGGCAATGCGTGAG +CGTCTGGGCGATGACAAACAGCGTATCAGCCAGGAAATGATGGCGCTGTACAAAGCTGAGAAGGTTAACC +CGCTGGGCGGCTGCTTCCCGCTGCTGATCCAGATGCCAATCTTCCTGGCGTTGTACTACATGCTGATGGG +TTCCGTTGAACTGCGTCAGGCACCGTTTGCACTGTGGATCCACGACCTGTCGGCACAGGACCCGTACTAC +ATCCTGCCGATCCTGATGGGCGTAACGATGTTCTTCATTCAGAAGATGTCGCCGACCACAGTGACCGACC +CGATGCAGCAGAAGATCATGACCTTTATGCCGGTCATCTTCACCGTGTTCTTCCTGTGGTTCCCGTCAGG +TCTGGTGCTGTACTATATCGTCAGCAACCTGGTAACCATTATTCAGCAGCAGCTGATTTACCGTGGTCTG +GAAAAACGTGGCCTGCATAGCCGCGAGAAGAAAAAATCCTGATTCGGTGAGTTTTCGCTAAAATAAGGGC +GGTCAGTTGACCGCCTTTTTTCTTTTCGTAGGGCGGATAAGCACCGCGCATCCGCCACACAAAGCAACAG +GAACATCATGAGCGATAATGACACTATCGTAGCCCAGGCCACGCCTCCGGGACGTGGCGGCGTTGGCATC +CTGCGCATCTCCGGCTTCAAAGCCCGTGAAGTTGCCGAAACCGTGCTGGGTAAACTGCCTAAGCCGCGCT +ACGCCGATTATCTTCCGTTTAAAGACGCCGACGGCAGCGTGCTCGATCAGGGGATTGCGCTATGGTTCCC +TGGCCCGAACTCGTTCACCGGCGAAGATGTGCTGGAACTGCAAGGTCATGGCGGTCCGGTGATCCTCGAC +CTGCTGTTAAAACGCATTCTGACCATTCCCGGCCTGCGGATTGCTCGCCCTGGTGAGTTTTCCGAACGCG +CGTTTCTTAACGATAAACTTGACTTAGCCCAGGCCGAGGCGATTGCCGATCTTATCGACGCCAGTTCGGA +ACAGGCGGCCCGTTCGGCACTTAACTCGCTGCAAGGCGCATTCTCCGCACGGGTTAATCATCTGGTAGAA +GCCCTCACCCACTTGCGCATTTACGTCGAAGCGGCAATTGATTTCCCCGATGAAGAGATCGATTTCCTCT +CCGACGGAAAAATTGAAGCCCAGCTCAATGACGTTATTGCCGATCTTGATGCAGTGCGTGCTGAAGCACG +TCAGGGTAGTTTGTTGCGCGAAGGGATGAAAGTGGTGATTGCCGGACGTCCTAACGCCGGTAAATCGAGC +CTGTTAAACGCGCTGGCGGGGCGTGAAGCGGCAATCGTAACCGATATCGCCGGAACTACGCGTGACGTGC +TGCGTGAGCATATCCACATTGACGGAATGCCGCTGCATATCATCGATACCGCCGGGCTACGTGAAGCCAG +TGACGAAGTAGAACGTATTGGTATCGAGCGCGCGTGGCAGGAAATTGAACAGGCCGACCGCGTGCTGTTT +ATGGTCGATGGCACCACAACAGACGCCGTGGATCCGGCAGAGATCTGGCCGGAATTTATTGCCCGTCTGC +CAGCGAAACTGCCGATCACCGTGGTGCGCAATAAAGCCGATATCACCGGCGAAACGCTGGGAATGAGTGA +AGTGAACGGTCACGCGTTAATTCGTCTCTCGGCAAGGACTGGTGAAGGCGTGGACGTGCTGCGTAACCAT +CTCAAACAGAGCATGGGCTTTGACACCAACATGGAAGGCGGCTTCCTGGCGCGTCGTCGCCACCTACAGG +CGCTGGAACAGGCAGCGGAACATCTACAACAGGGCAAAGCGCAACTGTTGGGAGCCTGGGCAGGTGAACT +GCTGGCGGAAGAGTTGCGTCTGGCACAGCAGAACTTAAGCGAAATCACCGGGGAATTTACTTCAGACGAC +CTGCTGGGGCGGATTTTCTCCAGCTTCTGTATTGGTAAGTAACCGCGCTTACGAAGCCGCATTCTGACTG +TCAGATGCGGCTTCGCTTCATTGTTACCACTCCTGTTATTCCTCAACCCTTTTTTTAAACATTAAAATTC +TTACGTAATTTATAATCTTTAAAAAAAGCATTTAATATTGCTCCCCGAACGATTGTGATTCGATTCACAT +TTAAACAATTTCAGAATAGACAAAAACTCTGAGTGTAATAATGTAGCCTCGTGTCTTGCGAGGATAAGTG +CATTATGAATATCTTACATATATGTGTGACCTCAAAATGGTTCAATATTGACAACAAAATTGTCGATCAC +CGCCCTTGATTTGCCCTTCTGTAGCCATCACCAGAGCCAAACCGATTAGATTCAATGTGATCTATTTGTT +TGCTATATCTTAATTTTGCCTTTTGCAAAGGTCATCTCTCGTTTATTTACTTGTTTTAGTAAATGATGGT +GCTTGCATATATATCTGGCGAATTAATCGGTATAGCAGATGTAATATTCACAGGGATCACTGTAATTAAA +ATAAATGAAGGATTATGTAATGGAAAACTTTAAACATCTCCCTGAACCGTTCCGCATTCGTGTTATTGAG +CCAGTAAAACGTACCACTCGCGCTTATCGTGAAGAGGCAATTATTAAATCCGGTATGAACCCGTTCCTGC +TGGATAGCGAAGATGTTTTTATCGATTTACTGACCGACAGCGGCACCGGGGCGGTGACGCAGAGCATGCA +GGCTGCGATGATGCGCGGCGACGAAGCCTACAGCGGCAGTCGTAGCTACTATGCGTTAGCCGAGTCAGTG +AAAAATATCTTTGGTTATCAATACACCATTCCGACTCACCAGGGCCGTGGCGCAGAGCAAATCTATATTC +CGGTACTGATTAAAAAACGCGAGCAGGAAAAAGGCCTGGATCGCAGCAAAATGGTGGCGTTCTCTAACTA +TTTCTTTGATACCACGCAGGGCCATAGCCAGATCAACGGCTGTACCGTGCGTAACGTCTATATCAAAGAA +GCCTTCGATACGGGCGTGCGTTACGACTTTAAAGGCAACTTTGACCTTGAGGGATTAGAACGCGGTATTG +AAGAAGTTGGTCCGAATAACGTGCCGTATATCGTTGCAACCATCACCAGTAACTCTGCAGGTGGTCAGCC +GGTTTCACTGGCAAACTTAAAAGCGATGTACAGCATCGCGAAGAAATACGATATTCCGGTGGTAATGGAC +TCCGCGCGCTTTGCTGAAAACGCCTATTTCATCAAGCAGCGTGAAGCAGAATACAAAGACTGGACCATCG +AGCAGATCACCCGCGAAACCTACAAATATGCCGATATGCTGGCGATGTCCGCCAAGAAAGATGCGATGGT +GCCGATGGGCGGCCTGCTGTGCATGAAAGACGACAGCTTCTTTGATGTGTACACCGAGTGCAGAACCCTT +TGCGTGGTGCAGGAAGGCTTCCCGACATATGGCGGCCTGGAAGGCGGCGCGATGGAGCGTCTGGCGGTAG +GTCTGTATGACGGCATGAATCTCGACTGGCTGGCTTATCGTATCGCGCAGGTACAGTATCTGGTCGATGG +TCTGGAAGAGATTGGCGTTGTCTGCCAGCAGGCGGGCGGTCACGCGGCATTCGTTGATGCCGGTAAACTG +TTGCCGCATATCCCGGCAGACCAGTTCCCGGCACAGGCGCTGGCCTGCGAGCTGTATAAAGTCGCCGGTA +TCCGTGCGGTAGAAATTGGCTCTTTCCTGTTAGGCCGCGATCCGAAAACCGGTAAACAACTGCCATGCCC +GGCTGAACTGCTGCGTTTAACCATTCCGCGCGCAACATATACTCAAACACATATGGACTTCATTATTGAA +GCCTTTAAACATGTGAAAGAGAACGCGGCGAATATTAAAGGATTAACCTTTACGTACGAACCGAAAGTAT +TGCGTCACTTCACCGCAAAACTTAAAGAAGTTTAATTAATACTACAGAGTGGCTATAAGGATGTTAGCCA +CTCTCTTACCCTACATCCTCAATAACAAAAATAGCCTTCCTCTAAAGGTGGCATCATGACTGATCAAGCT +GAAAAAAAGCACTCTGCATTTTGGGGTGTTATGGTTATAGCAGGTACAGTAATTGGTGGAGGTATGTTTG +CTTTACCTGTTGATCTTGCCGGTGCCTGGTTTTTCTGGGGTGCCTTTATCCTTATCATTGCCTGGTTTTC +AATGCTTCATTCCGGGTTATTGTTATTAGAAGCAAATTTAAATTATCCCGTCGGCTCCAGTTTTAACACC +ATCACCAAAGATTTAATCGGTAACACCTGGAACATTATCAGCGGTATTACCGTTGCCTTCGTTCTCTATA +TCCTCACTTATGCCTATATCTCTGCTAATGGTGCGATCATTAGTGAAACGATATCAATGAATTTGGGTTA +TCACGCTAATCCACGTATTGTCGGGATCTGCACAGCCATTTTCGTTGCCAGCGTATTGTGGTTAAGTTCG +TTAGCCGCCAGTCGTATTACCTCATTGTTCCTCGGGCTGAAGATTATCTCCTTTGTGATCGTGTTTGGTT +CTTTTTTCTTCCAGGTCGATTACTCCATTCTGCGCGACGCCACCAGCTCCACTGCGGGAACGTCTTACTT +CCCGTATATCTTTATGGCTTTGCCGGTGTGTCTGGCGTCATTTGGTTTCCACGGCAATATTCCCAGCCTG +ATTATTTGCTATGGAAAACGCAAAGATAAGTTAATCAAAAGCGTGGTATTTGGTTCGCTGCTGGCGCTGG +TGATTTATCTCTTCTGGCTCTATTGCACCATGGGGAATATTCCGCGAGAAAGCTTTAAGGCGATTATCTC +CTCAGGCGGCAACGTTGATTCGCTGGTGAAATCGTTCCTCGGCACCAAACAGCACGGCATTATCGAGTTT +TGCCTGCTGGTGTTCTCTAACTTAGCTGTTGCCAGTTCGTTCTTTGGTGTCACGCTGGGGTTGTTCGATT +ATCTGGCGGACCTGTTTAAGATTGATAACTCCCACGGCGGGCGTTTCAAAACCGTGCTGTTAACCTTCCT +GCCACCTGCGTTGTTGTATCTGATCTTCCCGAACGGCTTTATTTACGGGATCGGCGGTGCCGGGCTGTGC +GCCACCATCTGGGCGGTCATTATTCCCGCAGTGCTTGCAATCAAAGCTCGCAAGAAGTTTCCCAATCAGA +TGTTCACGGTCTGGGGCGGCAATCTTATTCCGGCGATTGTCATTCTCTTTGGTATAACCGTGATTTTGTG +CTGGTTCGGCAACGTCTTTAACGTGTTACCTAAATTTGGCTAAATCCTTCAAGAAGCCAGCCATTCGCTG +GCTTCTTGCCTCTCAGGAAATCACTTATGTCCAAATGGCAACTCGCCTGATCCTCCTTCACCACGTATGC +TTTGCGTCACCTTACTATCAGGACGCTTTAGCCCATGTCCCGCTTTTTGATTTGTAGTTTTGCCCTGGTT +TTACTTTATCCCGCCGGGATTGATATGTACCTCGTTGGTTTACCGCGCATCGCCGCCGATCTCAATGCCA +GCGAAGCGCAGTTGCATATTGCGTTCTCCGTATATCTGGCGGGGATGGCAGCTGCGATGTTATTTGCCGG +TAAAGTGGCCGATCGTTCAGGGAGAAAGCCGGTCGCCATACCCGGCGCGGCGCTATTTATTATTGCCTCG +GTGTTCTGTTCACTGGCTGAAACCAGCACGTTATTTCTTGCAGGCCGATTTCTACAGGGGTTGGGCGCAG +GCTGTTGTTACGTAGTGGCGTTCGCTATTTTGCGCGACACGCTGGATGATCGACGTCGGGCTAAAGTGCT +GTCATTACTCAACGGTATTACCTGCATCATTCCGGTGTTAGCGCCAGTGCTCGGACATCTGATTATGCTT +AAATTCCCGTGGCAGAGTCTGTTCTGGGCGATGGCAATGATGGGCATCGCGGTACTGATGTTGTCTTTGT +TTATTTTAAAAGAAACGCGCCCAGCGGCCCCCGCAGCTTCGGATAAACCACGAGAAAATAGCGAGTCGCT +GCTTAACCGTTTTTTCCTCAGCCGTGTTGTTATCACCACCCTCAGCGTTTCGGTGATCCTCACTTTCGTC +AACACGTCACCGGTATTGCTGATGGAAATCATGGGGTTTGAGCGCGGTGAATACGCCACCATTATGGCGC +TGACCGCTGGCGTCAGCATGACCGTTTCATTCTCCACGCCATTTGCGCTGGGAATTTTTAAGCCACGTAC +GTTGATGATCACCTCGCAGGTGTTATTCCTGGCGGCGGGGATCACTCTTGCCGTTTCACCTTCCCATGCG +GTTTCTCTGTTTGGTATCACGCTGATTTGCGCCGGTTTCTCGGTAGGTTTTGGTGTGGCGATGAGTCAGG +CGTTAGGGCCGTTTTCATTACGCGCGGGCGTAGCCAGCTCGACCTTAGGTATTGCGCAGGTTTGCGGTTC +GTCACTGTGGATTTGGCTGGCAGCGGTGGTTGGTATCGGCGCATGGAATATGCTGATCGGGATTCTGATT +GCCTGTAGCATAGTGAGCCTGTTGCTGATTATGTTCGTCGCGCCTGGACGCCCCGTTGCCGCTCATGAAG +AAATCCATCACCACGCTTGATCTCAATCTGCTGCTTTGTCTGCAACTGCTGATGCAGGAGCGCAGCGTAA +CCAAAGCGGCGAAGCGGATAAACGTGACACCTTCGGCGGTGAGTAAGTCGCTGGCAAAGTTAAGAGCGTG +GTTTGACGACCCGCTCTTTGTGAACTCACCGCTGGGTCTGTCGCCCACACCGCTGATGGTCAGCATGGAG +CAAAATCTGGCGGAGTGGATGCAAATGAGCAACCTGCTGCTGGATAAACCGCACCACCAGACACCGCGCG +GCCTGAAGTTTGAGCTGGCGGCGGAATCACCGCTGATGATGATCATGCTTAATGCGCTGTCGAAACAGAT +CTACCAACGTTACCCGCAGGCGACCATCAAATTACGTAACTGGGATTACGATTCCTTAGATGCCATTACT +CGTGGTGAAGTGGATATCGGTTTTTCCGGTCGCGAAAGCCATCCTCGCTCGCGGGAGCTGTTAAGCTCGC +TACCGTTAGCCATTGATTATGAAGTGCTGTTTAGTGATGTGCCCTGCGTCTGGTTACGCAAAGATCATCC +GGCACTGCATCAAACGTGGAATCTGGACACCTTCTTACGTTATCCGCATATCAGCATTTGCTGGGAACAG +AGCGATACCTGGGCGCTGGACAATGTGTTACAGGAGCTGGGACGCGAACGCACGATTGCTATGAGCCTGC +CGGAATTCGAGCAGTCACTGTTTATGGCAGCGCAACCCGACAATCTGCTACTGGCGACCGCGCCGCGCTA +CTGTCAGTACTACAATCAACTCCATCAACTGCCGTTGGTTGCTCTTCCTCTCCCGTTTGACGAAAGCCAG +CAAAAAAAGCTGGAAGTTCCTTTTACCCTGCTGTGGCATAAACGGAACAGCCATAATCCGAAGATCGTCT +GGTTACGGGAAACCATTAAAAACCTTTACGCGTCGATGGCATAACCGAATCGTATGAAACGCGACCCAAT +TTCACAATAAAATGTAAAAAAGTTGTAATAAGCTTGTCTGAATCGAACTTTTAGCCGCTTTAGTCTGTCC +ATCATTCCAGTAAATGATTACTCTTGTATTCATAATGGACCATTAAGCATGGAGCGAAAAATGGCGACTC +ACTTTGCCCGAGGGATTTTAACGGAAGGACATCTGATTTCTGTTCGTCTCCCCTCCCAGTGTCATCAAGA +AGCCCGAAACATTCCCCCTCATCGTCAAAGCCGTTTTCTGGCGTCCAGAGGTTTACTCGCAGAACTGATG +TTCATGCTGTATGGCATTGGCGAATTGCCGGAAATCGTCACCCTGCCGAAAGGTAAACCGGTTTTCAGTG +ATAAAAATTTGCCTTCGTTTTCCATTTCCTATGCCGGGAATATGGTTGGCGTGGCGTTAACAACCGAAGG +TGAATGTGGCCTCGATATGGAACTACAGCGTGCGACGCGCGGGTTTCATAGCCCACACGCGCCCGATAAC +CACACCTTTTCCAGCAATGAATCGCTATGGATCAGTAAACAAAACGATCCTAACGAAGCGCGGGCGCAGC +TCATCACGCTGCGCCGAAGCGTGCTAAAACTAACCGGTGATGTTTTGAATGACGATCCGCGCGATCTGCA +GCTGCTGCCCATTGCCGGACGCCTGAAATGTGCTCATGTAAATCATGTAGAAGCGTTATGCGACGCGGAA +GACGTGCTGGTGTGGTCCGTGGCGGTCACGCCCACGATTGAAAAGCTCAGTGTCTGGGAGTTAGATGGCA +AACACGGCTGGAAAAGCCTGCCGGATATTCACAGCCGCGCCAACAATCCTACCAGCCGGATGATGCGTTT +TGCCCAACTCTCTACCGTGAAGGCTTTTTCGCCAAATTGATAGACAACCACAGGAGTCATCATGTCTGAA +AAATTGCAGGTGGTTACGTTACTGGGGAGCCTGCGCAAAGGCTCATTTAATGGCATGGTTGCACGTACCC +TGCCGAAAATTGCTCCGGCGAGCATGGAAGTCAATGCGTTACCATCCATTGCCGACATTCCCTTGTATGA +CGCTGACGTACAGCAGGAAGAAGGTTTTCCAGCAACGGTTGAAGCTCTGGCGGAACAGATCCGTCAGGCT +GACGGTGTGGTGATCGTCACGCCGGAATATAACTACTCGGTACCGGGTGGGCTGAAAAATGCCATCGACT +GGCTTTCCCGCCTGCCGGATCAACCGCTGGCCGGTAAACCGGTATTGATTCAGACCAGCTCAATGGGCGT +GATTGGCGGCGCGCGCTGTCAGTATCACCTGCGCCAGATTCTGGTTTTCCTCGATGCAATGGTGATGAAC +AAGCCGGAATTTATGGGCGGCGTGATTCAGAACAAAGTTGATCCGCAAACCGGAGAAGTGATTGATCAGG +GTACGCTGGACCACCTGACCGGGCAATTGACCGCATTTGGTGAGTTTATTCAGCGAGTTAAGATCTAAAT +AAAAAACCCGCCAGCAATCATGCATGGCGGGTTTTTAACGCGCTATCGATTTTAGTGAGCGTCGATAAAG +ACAATCTTCAGGATAAACAGCAGCGCAACGATGATTACGCACGGGCTTAGATCACGCAGACGTCCGGTAC +CGATTTTCATCACGCAGTAGGAGATAAAGCCCAGCGCGATACCTTCGGTAATCGAGAAGCTGAACGGCAT +CATCACGGCGGTAATAAACGCCGGAACAGATTCAGTAAGATCCTGCCAGTTCACGCGTGCCAGACTGGAA +GTCATCAGCACGCCAACGTAAATCAGCGCACCAGCTGCAGCGTAGCCTGGCACCATCCCCGCCAGCGGCG +ACAGAAAGATAACCAGCAGGAACAGCAGACCAACAACCACTGCCGTCAGACCGGTACGACCGCCAACCGA +TACGCCGGAAGAGGACTCAATATAAGCCGTAACGGAAGAAGTACCGATAAACGAACCGGTCACGGAAGAG +ATACTGTCGACATACAGCGCCTGCTTCATGCGCGGGAATTTCCCCTTCTCATCCGCCAGACCTGCTTTAT +CGGTCACGCCAATCAGCGTACCGGAGGAGTCAAACAAGTTGACCAACATGAAAGAGAAAATCACCCCTGC +CAGCCCGAGGTTAAACGACCCGGCTAAATCTACATGACCCACAACTGTCATTACGCTCGGCGGCGCAGAA +ACGATGCCATTGTAGTGCACATCACCCAGCATCCAGCCCAGCAGCGTCGTCACCACGATAGAAACCAGCA +CCGCTGCGTGAATGTTGCGCGAGGCCAGAATAGCAATGATGAAGAAGCCGAGGATACCCAGAAGTACGCT +GTGAGAAGTCAGATTACCGATGCTCACCAGCGTTTCCGGGTTAGCGACAATCACACCTGCGTTTTTCAGC +CCCATCATGCCAATGAACAGACCGATACCGCTGGTAATACCCACACGCAGACTCACCGGAATGTTGGCTA +TCATCCAGTAGCGAACGCGGAAAATCGTCAGTAACAGCAGACCTATCGCGCCCCAGAAGATTGCGCCCAT +CCCGACCTGCCACGGCAAGCCCATCGCCTGTACAACGACAAAAGCGAAGAACGCATTCAGGCCCATAGCG +GGTGCCAGTGCAACTGGCAGGTTAGCAAACAGTCCCATCATAATACTGCCGAATGCAGCGATCAGACAGG +TAGTGACGAAGACGGCGCTGGTATCCATGCCAGCAACGCCAAGAATTTGCGGGTTAACAAAAACGATGTA +AACCATCGTCAGGAAGGTGGTAAAACCGGCGATCACTTCGGTCCGTGCCGTCGTGCCATGTTCGCGCAGT +TTAAACACGCGTTCCAGCATCCCCTGACCAGAAGTCTGGGTGGTATGTTGATGACTCATTATCTATTTCC +GAACAAGGAGGGAAAATCCGTCGCTATCGTATACCAAAATGCGACAATAGGCGCGTTTGTGAGAGACTTT +TTTATTGGATTTACTTATACGGCAACGATTGCGTTGCGCAAATCGGCTCTACGAAAACGTTAAACTGATT +AAAAAGGAAAGGCATGTCCCGGATAGAAGCGGTATTTTTCGACTGCGACGGTACGCTGGTCGACAGTGAA +GTCATTTGCTCTCGCGCATATGTAACGATGTTTCAGGAATTTGGTATTACGCTCGATCCTGAAGAGGTAT +TCAAACGTTTCAAAGGTGTAAAACTGTACGAAATTATCGATATTGTTTCCCTTGAACATGGTGTTACGTT +AGCGAAAACAGAAGCTGAACACGTTTACCGTGCAGAAGTCGCTCGGCTGTTCGATTCAGAACTGGAAGCC +ATCGAAGGGGCTGGAGCGCTCCTGTCAGCGATCACTGCGCCAATGTGTGTGGTATCTAACGGCCCAAATA +ACAAAATGCAGCATTCTATGGGCAAGCTGAATATGTTGCACTACTTCCCGGATAAACTGTTCAGCGGCTA +CGATATTCAGCGCTGGAAGCCAGACCCGGCGTTAATGTTCCATGCGGCAAAAGCGATGAATGTAAATGTA +GAAAACTGCATTCTGGTTGATGACTCAGTTGCCGGTGCACAATCTGGTATCGACGCAGGTATGGAAGTGT +TCTACTTCTGCGCCGACCCGCACAATAAGCCGATCGTTCACCCGAAAGTCACCACCTTTACCCATCTTTC +GCAGTTACCTGAACTGTGGAAAGCGCGTGGTTGGGATATTACGGCATAGTTCTTCACACTCCCTTCACTT +ACCCCGCTTAAATTGGCGCTCAAAGGTAAGTAAAGGGAGTTTGATATGTCTGTTTCACGTCGGGTAATAC +ATCACGGACTTTATTTTGCAGTTTTAGGACCGTTAATTGGTGTTCTGTTTCTTGTCCTCTACATATTCTT +CGCAAAAGAACCGCTGGTTCTTTGGGTGATAATACATCCAATTTTTCTCTTATTGTCGATAACTACGGGA +GCTATTCCTGCGTTGTTAACCGGTGTAATGGTTGCCTGTCTGCCGGAAAAGATCGGGTCACAGAAACGTT +ATCGTTGTCTGGCTGGTGGCATAGGTGGCGTCGTTATCACCGAGATCTATTGTGCAGTTATTGTACATAT +TAAGGGCATGGCTTCCTCGGAGTTGTTTGAAAACATTCTTTCTGGTGACAGTCTCGTTGTCCGCATCATT +CCTGCATTGCTGGCAGGTGTGGTGATGAGCAGAATCATTACCCGTCTACCCGGATTGGATATTTCATGTC +CTGAAACAGACTCTTTAAGTTAAGCGGGATACTTTATCTTTGGGCTACTCAAAAGCAGACAGGATGTTTC +TATGACTCAAAATATCAGGCCGTTACCCCAATTCAAATATCATCCCAAGCCACTGGAAACAGGCGCATTT +GAACAGGATAAAACCGTAGAGTGCGATTGCTGTGAACAACAGACGTCAGTTTATTACTCGGGTCCCTTTT +ATTGCGTTGATGAAGTTGAACATCTCTGTCCGTGGTGTATTGCGGACGGTTCTGCTGCTGAAAAGTTTGC +AGGTAGTTTTCAGGATGATGCCAGCATAGAAGGTGTTGAATTTGAGTATGATGAAGAGGACGAATTTGCC +GGTATTAAGAACACATATCCTGATGAAATGCTGAAAGAGTTGGTTGAACGCACGCCAGGTTATCATGGAT +GGCAGCAGGAATTCTGGCTCGCGCATTGTGGCGATTTCTGTGTTTTTATCGGCTATGTGGGCTGGAATGA +TATAAAAGATCGCCTCGATGAATTTGCCAACCTTGAAGAAGATTGTGAGAATTTCGGTATTAGAAATTCT +GATCTAGCTAAATGCCTGCAAAAGGGTGGTCATTGTCAGGGTTATCTCTTCCGCTGTCTCCACTGCGGCA +AGCTGAGACTGTGGGGTGATTTTTCGTAGTTATTTAAATAATGAGAACAGGCCGGAGCGTAATTCACACA +TCCGGCCTTATTTCTTAAGCTTAACCGAGTGCTAATTCTGCGGCAGCGGCTTTATCAGCGATTACCATCA +GCGAAGGATGCAGCTGCAACACGGAAGCTGGAACATCTTCGGTAACCGGACCTTGCAGAACATTTTTCAG +TGCCTGCGCTTTACCCGCGCCGCTGACAATTATCAGCAAGTTTTTCGCCGCCATGATGCTTTTCGGCCCC +ATCGTCACGTAGCTGTCAGGCACTAACGAAAAGTCGCCGCCCAACTCGCCATGCGCCACAATATCAACCA +TCTCTCCCTGGATCGGGAACTCCACGGTTTGCTCATGGAAATGGGTCGTATTCGGCAAATTGCCACAAAA +ATGACCATCTGCACCTAATCCCAGCACCACCAAATCCAGTCCGCCTTCACGCGCCAGTTTCTGATCATGC +TCGCGGTAGTTATCAATAGTGAGCTTCTGGATATTCTCTTCTTTGATCCCCGCAGGGGTGAAAAACAGAT +TACGCAGATTGGTAATCGTTACGCCTTCTCCCTCTTTGCCGCGAAATGGAATTTCATCAAAATTATAGAA +ATAGCAGTTATCGTACCAGGGCTTACCTTTAACCAGGGTGGTGAGGTATTCATACATGCCTTTGGGCGTG +CTACCGGCGGTAATTGCCAGGTTAACACGACGCGTCTTCGACATATAACCAAGCAGATGGTGTGCCGCGA +CACGGCTCATTTCCTGGTAATCTTCGGTAATGATTAATTTCATCTTAATGCCTTATTTTATTTAAATAAT +TTCTGTACAAAGGCTGCATAGGCTGGTCGCCAGACATCCATTTCATGGTTCAGACCCGGATATTCCTGGT +AATCAAAGTTAATTTTTTTCTGCTCAAGCTCAGTTTTCAGCCCGGCGATATCCTTGCCGGTTACGACATC +TTTATCCCCCACAACCACAGTAAAATTACGTAGTTGCTGGTTGATAGCTGCCGGATCGTTCAGTCGGGCC +GCGACACCTTCATCCGGTACGGTTGTCGTGGTAACACCACTGAATGTGGCCAGCCAGCCAAAGCTTTCCA +GATGATTCATTCCGGAAACCAGCGCCTGGTACCCGCCTTGTGAAAGCCCTGCCAGCGCGCGGCCATCGGC +ATCTTTACGGACATTAAAACGCTTGCTAATCAGCGGGATAATATCGTTCATCAGTTCGCGATCTGCCGCT +TTAGCATTCAGCGGATAAAAGACTTTACGTCTTTCCTGAGGCACGAAATCTTCGGGAATAATGCCCTTCG +CATCGGTTTCTGTATCCGGGATCACCACCAGCATCGGTTTAATTTTCCCTTCAGCAAGCAGGTTATCCAT +GATTTGCGGGATACGCCCCTGATCGATAGCGGAACGTCCGGTATCACCAAAGCCGTGATAGAAATAGAGC +ACTGGCAAAGGCTCGCCCATGCCGGTGTATCCTGGCGGGGTCCAGACATACATCTGACGTTCAGATTGCA +ATGCGTTGGAGTGGTAAGTTATGGCGATCAAATCACCATGCGCAACAGAACGCGTATCCAGATAACTGCC +TGGCACCAGAATCATACTGGAGTTAACCTGGCGCTGAGGATTAGTCATTGCGGTGCCTGTATCAATGCTG +CGTACACCATCAACATTGAAAAAATACTCGTACAGGTTGCCTTTCAGGATAGGTGTGCGCCACGACCAGA +CTCCTGCTTCGTCTTTGGTCATCGGGTGAATATTGTCCGGAACCGGAACACCCACCACTACAGAGACATT +TTTTGCCCCAGGGGCAAAGTAGCGAAAGGTCACGCTGTTATCGGCATTGACCTGAGTCACATACTGTTTC +ACCGGGATAGTGGGTGCCGGGCTGGCTGGCATATCCGCTGCTATGGCCCACTGAGCAGAAATACCGCTGG +CAATAGCCAGCGTTAAAGCAGCAATTTTTATATTCATCGTAATATTCCTTTCATTAAGTTCCATTACCAC +CAGATTTCAGCCTGGGCACCGACAGCAAACTGGTCGTCTTTATTGTCTTCAAAGGTGAAGCCATCCAGTT +CGTTTTCCAGGGCTTTGATATACGTGGCGTAGAAACGAATTTCCGGACGCGAGGTCAACATACTGGTATT +GACTTTAAAGGTATGGAAGAGCGTGGTTTTATAACCAGACTCATTAAATTTATTACTATTCGCATCTTTG +TTTTGCTGGGTGAAATAGCCCAGTTCAACACCTGTCTGGTTATATTGGTCCCAAATATAGGCCGGGCGAA +CAACCGCACGAATAGATTCGAAATCAGAGTGGGCGCCTGTTTCGTAGCTATATATATCGTTACCGAAGGA +GTAAACAATCGCGTTAGCTACAATGAAATGATCGCCAATATAGGCTTCGCCCTGCGAAGTCAGACGTACC +GCTGTTCCGCCGGTGTGATCACCATAATAACGACCATTAAAGGTGGTAAATGGACTTGCGCCAGCATAAC +GGCCAAAGTTACTGGCGATAGAGTTATTCGCGACCAGGAAGGAGAATTCGTTGAAGCCACCTTTATCAAA +TTTCTGCGTTAAAGATGTGCCAAACATCCAGGTATCTTTCCAGTCATAATACCCGTTATTATCCTGATTA +TCTTTTTCCGATGCGCTTTCGTTTGCCGTGACATAACGACCACTTACCATTAAGGTGGCTTTATCCCATA +ACGGGATATCTTTATAGCGTAAATCAATGGTATTGGTATTAATCTGCTGTTTGTTTTGCAGGCTGCGATC +GTAATCATCGACATCTTCGCGAACCAGCGCGATATCAATTTTACCCGGACCGACTTTCCAGTTTTCCAGA +CCTACACCCGCTGCGGCATCAGTACGCTGCGTTTTCCAGTCAAGCATCTGGATTTCAATTTTCGGCGCAC +CGTGTTTACCCACCCAGAAATCAGCCTCTGGCGCAAAGGGCAGGAAACCTTTGGTGGTAACGTACATATC +GGAGAACTGCATATAGTTCTCGCCACCGGCGTTATCGCCAAACCAGCCGGTAGAGTACTGCTGACCAACG +TTACCATCCATCATCACAACGGCATCAACCCGTTTGCCGTTTTCGTTGTAGACACGTTGTTTTAACTGCA +AATCAAACCAGCCGGAGTATTCGTTACCAAAGCGGCCCAGAGAACCAATCGCCCATGATTTAGGTGAACC +ATGAGAGGCGGTCCCCCAACCAGAACGGTAATAGCCGTTGTAACTAAAGCCAATTTCATCTTTCACAAAT +TTACTGAAATCTTTCAGAGTCATGGAAGAATAAATCGAGCCTGTCTCACTGGCATTTTTCTCTTCATTTT +TGACCAGTACAGCATCAGGTTTTGCGGCACTACTGGTCGGGAACGGATTGGCGGCATACCCTTGATCATT +CGTACTTACGCTACGATTCACCGTCGCTGGCGTATACTTTTTCTTCTCTTCATCTTTATACTTTTTGAGT +TCGCTTTGCGTTTCTCTTAACGCCTTTTCTAATAACTCAAGGCGTTGTTCCACCGTTAATGATTCAGCCA +ATGATTGTGCAGAAAAGGCTAACGGTGCCATTAATAAGATGGCAGAGGTAATAAGATTTCGTCTAAACAT +AATATCCCTTTATGGTGCAAAGAAAGAATTAACGCATCGCATCCAGACTGTTCTGAATGCGACGATAATT +AAGGTGCTTTAATGGTTATTTTTTTTAATGACAGCCCCCGCGTCTTGATCACCTCTGCATACCATCCGAA +GCTTTTCTTGCGTGTTCTTGTGAGGCTTCCTTCGCCATTATCATCACGATCCACATAAATAAAGCCGTAG +CGCTTAGACATTTGTGAATGAGATGCACTGACTAAATCAATTGGCCCCCAACTGGTGTACCCCATAATAT +CCACACCATCGGCAATCGCTTCATTTACCTGTACCAGGTGATCGTTTAAATAGGCAATTCGATAATCGTC +CTGTATCGAACCATCCGCTTCAACGCTGTCTTTTGCGCCTAATCCGTTCTCGACAATAAATAACGGTTTT +TGATAACGATCCCAAAGCGTATTTAACAGAACCCGTAATCCAACCGGATCAATTTGCCACCCCCACTCTG +AACTTTTCAGATGCGGATTGGGGATCATATTCAGTATGTTGCCCTGCGCATTTTTATTAATGCTTTCGTC +GTGGGAAACACAACCAGTCATGTAATAACTAAAAGAGATGAAATCGACGGTATGTTTTAAATCTTCTGCG +TCACTTTCAGTCATCTCAATGGTGATATTGTGGTCGCGGAAGAAACGCTGCATATAGCCGGGATACTGGC +CACGCGCCTGAACATCACCAAAGAACATCCAGCGCCGGTTCTCTTCCATGGCCTGCAACATATCCTGTGG +CTGGCAGGTGAGGGGGTAAACCAGCCCACCGAGAAGCATATTGCCGATTTTCGCTTCGGGGAGCAGGCTA +TGACAGGCTTTAACTGCCCGCGCACTGGCAACCAGTTGATGGTGGATAGCCTGATAAACTTCCGCCTCGC +CACTCTCTTCTGCCAGCCCCACGCCCGTGAATGGCGCGTGTAACGACATGTTGATTTCATTAAACGTCAG +CCATAACGCCACTTTATGTTGGTAGCGAGTAAAGACCGTGCGGGCGTAATGCTCGAAGTGATCGATGACC +GCTCGATTAGCCCAACCGCCGTAGTTTTTCACCAGCCCATATGGCATTTCGTAATGGGATAACGTTACCA +GCGGCTTGATCCCCGCCTGCGCCATTTCATCAAACAGCCGATCGTAAAACGCTAACCCCGCTTCATTCGG +TTCGACTTCGTCGCCCTGAGGGAAAATTCGCGCCCAGGCAATGGAAATACGCAGACAGGTGAAGCCCATC +TCGGCAAATAACGCGATATCTTCCGGGTAACGGTGATAAAAATCGATGGCGACATCTTTGATATTCTCTT +TCCCCAGGATGCGCGGTTCCATTTTTCCCATTACGCCATGAGGCTGTAAATCTGAGGTCGAGATCCCTTT +GCCATCTTCCTGCCAGGCACCTTCCACCTGATTGGCAGCTGTTGCGCCACCCCAAAGAAATGTTTCTGGA +AATGCTTTCATAATTAACTCCTTTTATCGTTAGCGAATGATGGATAACAGCGGTTCACCTGCGCTTATCT +GCGCCGTGCCGTGGGGTAATACGTCCGTAAAATCATCGCTATTACTGATTAATACCGGCGTCGTCAGATC +AAATCCGGCCTCGCGAATAGCAGGGATATCAAAAGAAATCAGCCGATCGCCTGTATTGACCTTGTCACCC +ACGTTGACGTGAGCGGAAAAGAATTTGCCGTCCAGTTTTACGGTGTCGATACCGACATGAATCAGGATCT +CCACACCATCATCTGACTCAATGCCAATGGCGTGTAATGTGGCGAACAACGAAGCAATTCGACCCGCAAC +CGGAGAACGCACTTCACCAACCGAGGGCAGAATGGCAATACCTTTACCCAACAGGCCACTGGCAAACGTG +GTATCAGCGACGTGAATGAGCGGCACAATCTCTCCCGTCATCGGTGAACAGATACCGCCCTGCTCAGGTG +GTGTAATAACCTCTGGTGTTTTCTCTTGCGGGGCACCCTGCGCTGGCTGACGTTTAGCGGTGATGAAATG +AAGCATCACCGTACCGACAAATGCGCAACCGATGGCAATGACACCGCCAATAACGCTGGCCCAGACGGTG +AAATCAATTCCCGTTGACGGGATGGTTTGCATGAAGGTGAAAATACTTGGCAAACCAAAGGAGTAGACTT +TCGTTTGCGCGTAGCCAATAATGGTGGCCCCCAAAGCCCCACTGATACAGGCGATAACAAAGGGGTACTT +ACGCGGCAGGTTGACGCCATATACCGCTGGTTCGGTGATACCAAACAGACTCGTCAACGCCGCTGATCCC +GCCACCACTTTTTTCTGCGCATCGCGTTCGCAGAGGAAGACGCCGAGCGCCGCCCCGACCTGCGCCATAA +TGGCGGGCATTAACAGCGGGATCATGGTGTCGTAGCCCAGCACGGTGAAGTTATTGATACACAGCGGCAC +CAGGCCCCAGTGCAGTCCGAACATGACGAAGATTTGCCAGAAGCCGCCCATTACCGCGCCCGCAAATGCA +GGAACCGCCTGATAAAGCCAGAGATAACCGGCGGCAATCAGTTCGCTTATCCAGGTTGATAGCGGCCCCA +CCAGCAGAAAGGTGACGGGTGTGATAACCATCAGACATAGCAATGGTGTGAAGAAATTTTTGATTGCCGA +CGGTAACCACGCATTAAGTCGGCGTTCCAGAATGCTGCACAACCAGGCAGAAAAAATAATGGGAATAACC +GATGACGAGTAATTCAACAATGTGACCGGAATACCCAGGAAATCCAGCCCCAGCGCATCCGCTTTTTGCC +CGTTCTCGAAAGCAGTCAGAATTAATGGATGCACTAACGCTCCACCAATCACCATGGCAGTAAATGGATT +ACCGCCGAAGCGTTTCCCCGCGGTGTATCCCAGGATTATCGGGAAGAACCAAAACAAGGCATCACTGGCG +CTGAATAAAATTAAATAAGTACCACTTTGTTCGGTCGTCCACTGAAAAGTGAGCGCCAGAGCCAGCATAC +CTTTCAAGATCCCGGTTGCCGCCATCAAACCGATCAGAGGCGTAAAAATACCTGAAATAACATAAACAAA +GCGGTTTAGCAGATTACCTTTATCATCATTTTCCGGTGCCTGTTGCGCTTTTTCGTCAAGGCCTGCCACA +CTGTTAACCGCCAGGAAGACATCGGCCACATGGTTACCTATGACCACCTGAAACTGGCCACCGCTTTCCA +CCACCATAATAATACCGGGGGTCTTTTTCAGTACCTCTGCTTGCGCTTTGCTTTCATCCTTTAATTTAAA +ACGTAATCGCGTTGCGCAATGCATCAGACTCACAATGTTATCTGCGCCCCCGACTCCTGCGACTATTTTT +CTGGCTAACTCCGTCATAACTTGCCCTCTACCGCTTTGCGGCAAAACTCCAAAAAAAAACCTGAAAAAAA +CGGCCTGACGTGAATCAAGCAATTTTTTTCAGGTTTTGCCCGCTTAGTGCGGTAACAATCCTTTACTCAG +TAATAATATTTCAGTGTTCTTTGCGCACGCGCTCTATATTTATGGCTAAAAACATAATCTCTGCGGGTGA +AATTTTACGTTGATACTGCAAACCAATAAAAATGGCGATCCGTTCCGCACATTGCCATGCTTGCGGGTAA +TTTTGTTTTACTGCTTGTTGTAATGATTCATCACTATCGTTAATTGAAGCATGTTCAAGAATACGCCAGG +ATAAAAACTTCAGATGTGTAACCAGTCGCTGATAACTCAAGCTTTCTTCCTGGTAATTAAGGCTGAACTG +AAATTTTATTAATTGCAGCATTTCGCGCATTAACTGCGTGACACCTGCAACATCCTCCATATTTCCGCTC +ATTTGGGCACTGACCAGATGCATGGCAATAAAGCCCACTTCATCTTTCGGTAACTGCACGCCCAACCGTT +TATCAATAATGGTTAACGCTTCTTCCCCTAGCTGGAACTCTTTCGGGTAAAGCCGCTGGATATCCCACAG +CAACGGGTTGGGCAGCAACACGTTTTGCTGAAAGCGTTTAATCGCAAACTGGCAATGGTCAGTTAGCGAG +ATATAAATACTGTCCTGTAATTTTCCCAAGCGCTCCTGCGCTAAAGAGATAATACGATCACAGGTTGCCA +TCACCTCAAGAGGAATATGACTTAAGAGTTCGCTTAATCGCCCGTTCAGTTCATGACTGCTCAAGGCATA +CTCTTTTTCTATTCCACTTGAGTTAATTCTTTCGCCAGCGCGTTTTTGAAAGCCAATTCCGCGCCCCATG +ACGACTTTTTCCCGCTGTTGATCATCAATAACCACCACAACATTATTGTTGAGAATTTTGGTGATTTGCA +TGTTCATAGCAAGGACCTTTTTTATAAACAAAAAAACCCGACTTCACCAGTATTCTCTGGTTATGTCAGG +TTTTGCCTGCGAATGCAGTAACAATCCAGTCATTTATTAATGGTTTTTATAACGAACATCCAGGTTCGGA +AATTAATTTAATTGCGTGCAGAGAAAATAGCAATGCGCTATTGATAAAAATATGACCATGCTCGCAGTTA +TTAACTTTGTGTAATTTTAGGAATTTATAAAGTTATATATAACAAATCCCAATAATTAAGTTATTGGGAT +TTGTCTGGTGAATTATTTGTCGCTATCTTTCCCCGCCAGCAGTTTATCCAGCTCATCGCCACCGACGTGA +CGGAAATCCTGCCCCTTCACGTAGTAGAAGATAAACTCACAAATATTCTGGCAGCGGTCGCCAATACGTT +CGATAGAACGCGCGCAGAACAGCGCAGTAAGTACGCTCGGAATGGTACGCGAATCTTCCATCATGTAGGT +CATCAGTTGACGAACAATACCTTCGTATTCCTGATCGACTTTTTTATCTTCACGATAAATACGTACCGCT +TCGTCAATGTCCATCCGCGCGAACGCGTCCAGCACGTCGTGCAGCATCTGGATGGTATGACGGCCCAGCG +ACTCCAGACTTACCAGCAACGGCTGATGCTGCTGGGAGAATTTCTCCAGCGCAGTACGGCAGATTTTGTC +CGCCACGTCGCCAATACGCTCCAGCTCGGCAATGGTTTTACTGATCACCATAACCAGTCGCAGGTCGCTC +GCCGTCGGCTGACGTTTGGCGATAATGCGCACGCAGGCTTCATCGATCGCCACTTCCATCATGTTGACGT +TCTTGTCGCCTTCGATGACGCGCTTCGCCAGATCGCTGTCCTGGTTATGCATCGCGGTGATTGCATCAGA +AAGCTGCTGCTCCACCATGCCGCCCATGGTCATCACCTGCGTGCGGATACTTTCCAGTTCGGCGTTGAAC +TGGCCGGAAATATGTTTATTAAGATTGAGACTGTCCATAACGCACTCCTGAATCAACCGTAACGACCGGT +GATGTAGTCTTCTGTTTGTTTCTTCGCTGGCTTGGTGAACAGATCGTCCGTGTTGCTGAACTCAATCAAT +TCGCCCAGGTACATAAACGCCGTGTGGTCGGAACAACGCGCAGCCTGCTGCATGTTGTGGGTGACGATCA +CCACGGTGTAATCCTGCTTCAGTTCGGTGATCAGCTCTTCAATACGCCCGGTAGAGATAGGGTCGAGCGC +CGAACACGGTTCGTCGAGCAGCAGCACTTCCGGGCGAATGGCGATACCACGCGCAATACACAGACGCTGT +TGCTGACCACCAGAGAGAGAGTAACCGCTCTGGTGCAATTTATCTTTGGTTTCGTTCCACAATGCGGCTT +TGGTCAATGCCCACTGCACGCGCTCGTCCATGTCGGCACGGGAGAGCTTCTCAAACAGACGAACGCCAAA +AGCGATGTTGTCGTAGATGGACATCGGAAACGGCGTCGGTTTCTGGAACACCATGCCCACTTTCGCACGC +AGCAGTGCGATATCCTGAGAGTTGGTCAGGATGTTGTCGCCATCAAGCAGAATTTCACCTTCCGCACGCT +GCTCCGGGTACAGTTCAAACATTTTGTTGAAGGTACGCAGCAGCGTCGATTTACCGCAGCCGGACGGCCC +GATAAACGCCGTTACCTGGTTTTTAGCGATATCCAGGTTGATGTTTTTCAGGGCATGGAATTTGCCGTAG +TAGAAGTTCAAATTACGAACCTGAATTTTACTCGGGGCAGTTTCAACCATACTCATTGCAATCTTTTCCT +CATCGTGCCTGATGCACTTCGCTAATCAGGCTTACCGTAGGCCGGATCAGGCGTTCACGCCGCATCCGGC +AAAGTGTTAACCGTGTACAGAGTCAAAAAGGCGCTCGGTCGGTCCCCTCGCCCCTCTGGGGAGAGGGTTA +GGGTGAGGGGAAAACCGTGTCAGCAATATCAACCGTGTTTATTCTTCGCAAAAACAACGCGCGCCAGAAT +GTTCAGCAGCAGTACGCACAGGGTAATGATCAATACCCCGGCCCAGGCCAATTGCTGCCATTCCGCAAAC +GGGCTCATCGCAAACTTAAAGATCGTCACCGGCAGGTTGGCGATCGGCTGCATCATGTCCGTGCTCCAGA +ACTGGTTGGAGAGCGCGGTAAACAGCAGCGGCGCGGTTTCACCAGCAATACGGGCAATCGCCAGCAGGAT +ACCGGTCATAATCCCGGACACCGACGCTTTCAGCGTAATCGCAGAGATCATCTTCCACTTCGGTGTACCC +AGCGCATAAGCCGCTTCACGCAGGCTGTACGGCACCAGTTTCAGCATGTTCTCGGTGGTGCGGATAACAA +TCGGCACCTGCAACAACGCCAGGGCAATCACGCCCGCCCAGCCGGAGAAGTGCTCCATCTGCGCCACCAC +AATGGTGTAAACAAACAGACCAACCACAATCGACGGCGCAGAGAGCAGAATGTCGTTAATGAAGCGAATC +ACTTCTGCCAGCCAGGATTTACGACCATATTCCGCCAGATAAATCCCCGCCATAATGCCCAGCGGCGTAC +CGAATACCGTGGCCCACAAAATTAACAGCCCGCTACCCGCCAGAGCGTTCGCCAGACCACCACCTTCCGT +ATTGGGCGGCGGCGTCATTTCAGTGAACAGCGCCAGCGACATACCGTCGATACCGCGAGTGATGGTGGAC +ATTAAAATCCAGATCAGCCAGAACAGGCCGAAGGCCATCGTCGCCATCGAGAGCGTCAGCGCAATACGGT +TTTTGAGGCGGCGACGCGCCTGCATTTTGCGGCGAGATTCAGCCAGCGCCGCAGTGGTTTGCATTTCAAC +CATAGCCATTAGCGTGCCCCCTCATTCTTAGCCAGGCGCATAATCATAAACTTCGATGCGGCGAGGACGA +TGAAGGTAATCACAAACAGGATCAGGCCCAGTTCCATCAGTGCGGCAACGTGCAGACCGGATTCCGCTTC +CGCAAATTCGTTCGCCAGCGCAGAGGTGATACTGTTGCCCGGCATATACAGCGAGGCGCTGTCGAGCTGG +TAGGTGTTACCGATGATAAAGGTCACCGCCATGGTTTCACCGAGCGCGCGGCCCAGCCCCAGCATGATGC +CGCCGATAACACCATTTTTGGTGAACGGAAGAACGATACGCCAGATAACTTCCCAGGTGGTGCAGCCAAT +ACCGTAGGCCGACTCTTTCATCATCACCGGGGTTTGTTCGAACACATCACGCATTACCGCCGCAATGTAC +GGAATAATCATGATGGCGAGGATCACGCCTGCCGCGAGGATACCGATACCAAATGCGGGGCCAGAGAACA +GCGCGCCAACAATCGGGATATTCGACATGATATTGCCGACCGGCTCCTGAAAGTAAACGGCGAACAGCGG +CGCAAAGATAAACAGGCCCCACATGCCGTAAACGATACTTGGAATGGCTGCCAGCAGCTCAATGGCGATA +CCCAGCGGGCGTTTCAGCCAGCCAGGCGCAAGCTCAGTCAGGAACAGGGCGATACCGAAACTCACCGGGA +CGGCGATCAGCAGCGCGATAAACGAAGTCACCAACGTACCGTAGATCGGCACCAGCGCCCCGTAGATATC +GTTCGGTGCATCCCACTCTTTGGTCCATAGGAAAGCCAGACCAAATTTCTGAATGCTCGGCCAGGAGGAG +ATGATCAGAGAGACAATAATGCCACCCAACATCAATAGCACAATCAGCGCCGCCAGTTTTACCAGCACGC +TGAAAATTATGTCGCCCTTTTTACCCGGTGGGTTAAAAGCAGGCTTGGTTGCAGCCATAAGTTACTCTTC +AGTTAAACGCGTTTACAAAGTCATTTTGTAATGCCGGATGCGGCGTAAAACACCGTACCCGGCCTGGAGT +TTTATTAGTACAGCGGCTTACCGCTACTGTCTTTAATATTGGTCTTCCACGCAGCGCGAACCTGTTCAAC +TACACTATCCGGCAGGCTGGCGTAATCCAGGTCGTTCGCCTGTTTAGCCCCGGTTTTGTACGCCCAGTCG +AAGAATTTCAGCACTTCTGTGCCTTGTTCTGGTTTCTTCTGATCTTTGTGGATCAGAATGAACGTGGTAG +AGGTAATAGGCCATGCATCTTCGCCTTTCTGGTTGGTCAGATCCTGAGCGAAGGTTTTGCTCCAGTCTGC +ACCTTTTGCTGCATTAGCGAAGTTTTCTTCGGTCGGACTAACCGGTTTACCATCAGCGGAGATCAGTTTG +GTGTACGCCAGGTTGTTCTGCTTCGCGTAAGCATATTCAACATAACCAATTGCACCCGGCAGACGCTGAA +CGAACGCGGCGATACCGTCGTTACCTTTACCGCCCAGACCGATCGGCCATTTTACGGTAGAGCCAGTACC +AACGTTGTTTTTCCACTCTTCGTTCACTTTCGCCAGGTAGCTGGTGAAGACGAAGGAAGTCCCGGAGCCA +TCTGCGCGGCGTACTACAGCAATGTTTTGTGAAGGCAGTTTCAGACCCGGATTCAGTTTGGCGATGGCTT +CATCATCCCACTTCTTGATTTTGCCCAGGTAGATGTCGCCGAGGGTTTTACCATCCAGCACCAGTTCGCC +AGACTTCAGCCCTGGAATGTTAACCGCCAGCACCACGCCGCCAATCACGGTCGGGAACTGGAACAGACCT +TCCTGAGCCAGTTTTTCGTCAGACAGCGGCGCGTCAGAGGCACCAAAATCAACGGTATTAGCGATAATCT +GTTTTACGCCACCGGAAGAACCGATACCCTGGTAGTTAACTTTATTACCGGTTTCTTTCTGGTAAGTGTC +AGCCCATTTGGCATACACCGGCGCAGGGAAGGTTGCACCTGCACCTGTCAGGCTTGCTTCTGCAAACACA +GAGAAAGCACTCATCGATAAGGTCGCGGCGACAACAGTTGCGACGGTGGTACGCATAACTTTCATAATGT +CTCCTGGGAGGATTCATAAAGCATTGTTTGTTGGCTACGAGAAGCAAAATAGGACAAACAGGTGACAGTT +ATATGTAAGGAATATGACAGTTTTATGACAGAGAGATAAAGTCTTCAGTCTGATTTAAATAAGCGTTGAT +ATTCAGTCAATTACAAACATTAATAACGAAGAGATGACAGAAAAATTTTCATTCTGTGACAGAGAAAAAG +TAGCCGAAGATGACGGTTTGTCACATGGAGTTGGCAGGATGTTTGATTAAAAACATAACAGGAAGAAAAA +TGCCCCGCTTACGCAGGGCATCCATTTATTACTCAACCGTAACCGATTTTGCCAGGTTACGCGGCTGGTC +AACGTCGGTGCCTTTGATCAGCGCGACATGGTAAGCCAGCAGCTGCAGCGGAACGGTGTAGAAGATCGGT +GCAATCACCTCTTCCACATGCGGCATCTCGATGATGTGCATGTTATCGCTACTTACAAAACCCGCATCCT +GATCGGCGAAGACATACAACTGACCGCCACGCGCGCGAACTTCTTCAATGTTGGATTTCAGTTTTTCCAG +CAATTCGTTGTTCGGTGCAACAACAATAACCGGCATATCGGCATCAATTAGCGCCAGCGGACCGTGTTTC +AGTTCGCCAGCAGCGTAGGCTTCAGCGTGAATGTAAGAGATCTCTTTCAACTTCAATGCGCCTTCCAGCG +CGATTGGGTACTGATCGCCACGGCCCAGGAACAGCGCGTGATGTTTGTCAGAGAAATCTTCTGCCAGCGC +TTCAATGCGTTTGTCCTGAGACAGCATCTGCTCAATACGGCTCGGCAGCGCCTGCAGACCATGCACGATG +TCATGTTCAATGGAGGCATCCAGACCTTTCAGGCGAGACAGCTTCGCCACCAGCATCAACAGCACAGTTA +ACTGAGTGGTGAATGCTTTAGTGGATGCCACGCCGATTTCTGTACCCGCGTTGGTCATTAGCGCCAGATC +GGATTCGCGCACCAGAGAAGAACCCGGAACGTTACAGATTGCCAGTGAACCAAGGTAACCCAGCTCTTTC +GACAGACGCAGGCCAGCCAGGGTATCCGCGGTTTCGCCAGACTGTGACAAGGTGATCATCAGGCTGTTAC +GACGCACGGCAGATTTGCGATAGCGGAATTCAGAGGCGATTTCGACGTCGCACGGAATACCTGCTAGCGA +TTCAAACCAGTAGCGGGAAACCATACCGGAGTTATAAGAAGTACCACAGGCGAGGATCTGAATATGCTCA +ACCTTCGACAGCAGTTCGTCGGCGTTCGGTCCCAGCTCGCTTAAATCAACCTGACCGTGGCTGATGCGTC +CGGTAAGGGTGTTTTTGATCGCGTTCGGCTGTTCGTAGATCTCTTTCTGCATGTAGTGACGGTAAATGCC +TTTATCGCCCGCGTCATATTGCAGATTGGATTCGATATCCTGACGTTTTACTTCCGCGCCAGTTTTATCG +AAGATGTTTACCGAACGGCGAGTGATTTCCGCAATATCGCCCTCTTCAAGGAAGATAAAGCGACGGGTCA +CCGGCAACAGCGCCAGCTGGTCAGAAGCGATAAAGTTTTCGCCCATCCCCAGGCCAATCACCAGCGGACT +ACCAGAACGTGCCGCCAGCAGGGTATCCGGGTGACGGGAGTCCATGATCACTGTACCGTACGCACCACGC +AGCTGCGGGATAGCACGCAGAACGGCCTCACGCAGAGTCCCGCCTTGTTTCAGCTCCCAGTTCACCAGAT +GGGCAATCACTTCGGTGTCGGTTTCAGAAACGAAGGTATAGCCACGCGCTTTTAGCTCTTCACGCAGCGG +TTCATGGTTTTCGATGATGCCGTTATGCACCACCACAATGTGTTCAGAAACATGCGGATGCGCATTCACT +TCTGAAGGTTCACCGTGGGTCGCCCAGCGAGTGTGAGCAATACCAGTGCCGCCATGCAGAGGATGTTCTT +CCGCTGCCTGTGCCAGCATCTGGACTTTACCGAGGCGACGCAGGCGGGTCATATGACCTTCTGCATCAAC +AACGGCCAGACCGGCAGAGTCATATCCGCGGTATTCCAGACGACGTAAACCTTCAAGAAGGATTTCTGCT +ACATCACGTTGCGCGATCGCGCCAACAATTCCACACATAGTTTTTGATTCCGATTTATATCGTTGTCGGT +CAACCTGTATGCCCGTTTTTTCGGGCGCCCCGAGCCTTGTAGAGAGTGGGGTTATTTTTATAGTTACTGC +TTGTGGGAGGGAGATTATGTTATCTCCTCATCCCATGTGACCGGGTTAGCCGGCCAGAATCACTTTTTCT +TTACCGGACGACGCCAGCCTTCTTTCTGAGTCTGCGGCACACGGCTGATAGCTAATGCATTTTCGCCGAC +ATTACGCGTCACAGTTGTACCCGCAGCAATGGTCGCGCCTTTGCCTACTGTTACCGGGGCCACCAGCTGA +GTGTCGGAACCAACAAACACATCGTCGCCGATAATGGTCTTAAATTTATTCGCACCATCGTAGTTGCAGG +TAATGGTTCCCGCGCCGATGTTAACGTTATCGCCAATTTCCGCATCGCCCAGGTAAGTCAGATGACCAGC +TTTCGAGCCTTTACCCAGACGCGCTTTTTTCATCTCAACGAAGTTACCGACGTGAGCACCTTCCAGCAAC +TCAGCACCAGGACGCAAACGGGCAAACGGGCCAATGGTACAGGCCGCTGCCAGATTCGCATCTTCCACAA +CGGTATACGGACTGATTTCGCAATCATCGCCAATCACGCTGTTTTTAATCACGCAACCGGTGCCAATTTT +CACGCGATGACCGAGAGTCACGTTGCCCTCGATGATAACGTTAGTATCAATTTCAACATCGCGCCCGTGA +GTTAGCGTACCACGCAGATCAAAACGCGCTGGATCGCGCAGCATAACGCCTGCTAACAGCAGTTTTTCAG +CCTGTTCGGACTGATAAACACGCTCCAGACGGGAGAGTTGCAGGCGGTTATTCACGCCTTCTACTTCGCT +TAAACGTTGCGGATGAACGGCGACGATTTCACGCCCTTCCTGATACGCCAGCGCAATAATGTCGGTGATG +TAGTATTCGCCCTGAGCATTATTGTTGGTCAGCTTCGCCAGCCAGCGTTTCATATCTGCGCCGTTGGCAA +TCAGAATGCCGGTGTTGATCTCCTGAATCTGACGCTGCTCGTCGGTGGCATCTTTGTGCTCAACAATGCC +GGTAACTTTGCCGTTTTCACGGGTGATACGTCCATAACCGGTCGGATCATCCAGTTTCACCGTCAGCAGA +CCAATGCCACCCTGCGGTTTAGCATCACGCAGACGCTGGAGTGTTTCGACAGAGATCAGCGGCACGTCGC +CGTAGAGCATTAAAATGTCTTCATCATCGGCAAAGAAAGGTGCGGCCTGCTGCATTGCATGACCCGTACC +CAGCTGCTCTGCCTGAAGCACCCAGTTAAGGTTGTCGTCTTTCAGCGCCTGTTTTAGCAGATCGCCGCCG +TGACCGTACACCAGGTGAACGTGCGCTGCGCCTAATTCATTCGCAGCATCAATGACATGCTGAACCATCG +CTTTCCCGGCAAGGGTATGCAGCACTTTCGGAAGATCGGAATACATGCGCGTGCCTTTGCCTGCGGCAAG +GATCACTACGCTCATAGCATTATTCAACATACGCGTCCTGACTGTAATTTGAGAACGAATTTAAACCGCT +TCACCTTGAAAAAACTACATTTTTTTCATCGTGAAATGGACAGAGGATAAATTGTTCAATAACGGATTAT +CCCCGCTGACGAAAGCGCCATTTTCGACCATCGTCACGCCTTTTGTCTGCAGAAAATTAAGGCAGTACCT +TAATTTAAGCGTCAGGTGGATGTTTTTGCTCTTATTTCGATCAATGAATAAACAGGAAAACAGGGGGGTT +TTATATCAGCAGGATCTATGTGAACGCTATTCAGGACGGGTCACACGCGCAAAAAAAAGCCAGCCTGTTT +CCAGACTGGCTTTTGTGCTTTTCAAGCCGGTGTTACATCGCTTTTTTGGTCAACTCGATAACGCGCAGCT +GCGCGATCGCTTTGGCCAGTTCCGCAGACGCCTGAGCGTAATCTACGTCGCCGTGAGAGCTGCTAATGTG +CTCTTCAGCCTTACGTTTCGCTTCCATGGCTCGCGCTTCGTCGAGATCCTGGCCGCGAATTGCGGTGTCG +GCCAGAACGGTCACGTTGCCAGGCTGCACTTCAAGAATGCCGCCAGACAGATAGATAAACTCTTCGTGAC +CGTGCTGTTTCACGATGCGAATCATACCAGGCTTAATGGCGGTGAGCAGCGGTGCGTGGCCAGGGTAGAT +CCCCAGTTCACCTTCGCTACCCGTTACCTGGATTTTCTCGACCAGACCAGAGAACATTTGTTGCTCTGCG +CTGACGACGTCCAGGTGGTAAGTCATTGCCATATCACCCTCCGATTAAGGCGTTAAAGTTTTTTGGCTTT +TTCCACAGCTTCTTCGATGGAACCGACCATGTAGAACGCCTGCTCCGGCAGGTGATCGTATTCGCCTTCC +ATGATGCCTTTAAAGCCACGGATGGTGTCTTTCAGGGAGACGTATTTACCCGGAGAACCGGTGAATACTT +CTGCCACGAAGAACGGCTGGGACAGGAAGCGCTGGATCTTACGAGCACGCGCTACCACCAGTTTGTCTTC +TTCAGACAGTTCATCCATACCCAGGATGGCGATGATGTCTTTCAGTTCCTGATAACGTTGCAGGATGGAC +TGAACGCCACGCGCGGTGTCGTAGTGTTCCTGACCAACCACCAGCGGGTCCAGCTGACGGCTGGTGGAGT +CCAGCGGGTCAACGGCCGGGTAGATACCCAGAGACGCGATCTGACGGCTCAGTACCACGGTTGCGTCAAG +GTGCGCAAAGGTGGTTGCCGGAGACGGGTCAGTCAAGTCATCCGCAGGTACGTATACTGCCTGTACGGAG +GTGATAGAACCAGTTTTGGTGGAGGTGATACGTTCCTGCAGAACGCCCATCTCTTCCGCCAGGGTCGGCT +GATAACCTACCGCTGAAGGCATACGGCCCAGCAGTGCGGATACTTCCGTACCGGCCAGGGTGTAACGATA +GATGTTGTCAACGAACAGCAGAACGTCACGACCTTCGTCACGGAATTTCTCAGCCATGGTCAGACCGGTC +AGAGCAACGCGCAGACGGTTTCCCGGCGGCTCGTTCATCTGGCCATACACCAGGGATACTTTGTCGATAA +CGTTGGAGTCGGTCATTTCGTGGTAGAAGTCGTTACCCTCACGAGTACGTTCACCTACGCCCGCAAACAC +AGAGTAACCGGAGTGCTCGATCGCGATGTTACGAATGAGCTCCATCATGTTTACGGTTTTACCTACACCC +GCACCACCGAACAGACCAACTTTACCGCCCTTAGCGAACGGACACATCAGGTCGATAACTTTGATACCGG +TTTCCAGCAGTTCCTGAGAGTTTGACAGCTCTTCGTAGGAAGGTGCTGCGCGGTGAATCGCCCAACGCTC +TTCTTCACCGATCTCGCCTTTCATGTCGACCGGTTCACCCAGTACGTTCATGATACGGCCCAGAGTCGCT +TTACCTACCGGGACTTCAATCGGGTGTTCGAGGTCTTTTACATCCAGACCGCGACGCAGACCGTCGGAGG +AACCCATTGCGATGGTACGTACGATACCGCCGCCGAGCTGCTGCTGAACTTCCAGCACCAGACGCTCATT +ACCATTTTGCACCTCAAGAGCATCGTACACGCGCGGTACGGCATCCTGAGGGAATTCGACGTCAACTACG +GCGCCGATTACCTGGACAATCTTTCCAGTAGCCATCTTAAATCCTCTACGAAATAACCTGTTTAAACCGC +GGCGGCCCCCGAGACGATCTCGGTGAGTTCCTGAGTAATGCTGGCCTGACGAGCTTTGTTGTATACCAAC +TGCAGCTCTTTAATCAGGCTGCCGCCATTGTCGGTCGCGGCTTTCATCGCCACCATACGGGCGGCCTGCT +CGCTGGCCAGGTTTTCAACCACGCCCTGATAAACCTGAGATTCGACATAACGACGCAGCAGGGTATCCAG +CAACGCCTTCGGATCGGGTTCGTACAGGTAATCCCAGGATTTATGTTTCAGATCATCATCATCTGATGCC +GGTAACGGCAGCAGCTGGCTGATGGTCGGAACCTGAGACATGGTGTTAATAAATTTGTTGCTGACAATGT +AAAGCTTGTCCAGACGGCCTTCGTCGTAGGCCTGCAACATCACTTTTACCGGACCGATCAGTTCGGACAG +GGAAGGGTTATCCCCCATGCCGGTGACCTGGGCAACAACATTGCCGCCCACGGAGTTGAAGAACGACACG +CCTTTCGAGCCGATCATTGCGAGGTCGCATTGAACGCCTTTGTCGGTCCAGGTCTTCATTTCCGCCAGCA +GTTTTTTGAACAGGTTAATGTTCAAACCACCGCACAAACCACGGTCGGTCGACACCACCAGGTAGCCCAC +GCGTTTAACGTCGCGGTCTTCCAGGTAAGGGTGCTTATATTCCAGATTACCGTGTGCAAGGTGACCAATC +ACTTTGCGCATGGTTTCTGCATAAGGACGGCTGGCCGCCATGCGATCCTGCGATTTACGCATTTTGGAAG +CGGCGACCATCTCCATCGCTTTAGTGATCTTTTGCGTGTTCTGGACGCTTGCGATCTTACTACGTATCTC +TTTTGCGCCGGCCATGAGCTTCTCCTCAATGCCTTGCGGCCTGCCCTAAGGCAAGCCGCCAGACGTTACC +AGGATTGGGTTGCTTTGAAGGAATCGAGGATGCCTTTCAGCTTGCCTTCGATTTCGTCGTTGTAGCCACC +GGTCTGGTTGATCTCTTGCATCAACGGAGCGTGATCACGGTCGACGTAAGCCAGCAGAGCGGCTTCGAAG +CTGCCAATTTTCGACAGTTCAACATCCGCCAGGTAACCACGTTCTGCTGCGAACAGAACCAGAGACTGCT +GCGCAACGGACATCGGCGCATACTGTTTCTGTTTCAGCAGTTCGGTCACTTTCTGACCGTGGTCAAGCTG +CTTACGTGTTGCATCGTCAAGGTCGGATGCAAACTGAGAGAACGCTGCCAGTTCACGATACTGTGCCAGA +GCGGTACGGATACCACCGGACAGTTTTTTCATGATCTTGGTCTGTGCTGCACCACCAACACGGGATACGG +AAATACCCGGGTTAACCGCAGGACGAATACCGGCGTTGAACAGGTTGGTTTCCAGGAAGATCTGACCATC +GGTAATGGAGATTACGTTGGTCGGAACGAACGCAGAAACGTCACCCGCCTGAGTTTCGATAATCGGCAGT +GCGGTCAGAGAACCGGTTTTCCCTTTCACTTCACCTTTGGTGAAGGCTTCAACGTATTCGGCGTTAACAC +GTGCAGCACGCTCCAGCAGACGAGAGTGGAGGTAGAAAACGTCGCCCGGGAATGCTTCACGTCCTGGCGG +ACGACGGAGCAGCAGGGAGATCTGACGGTAAGCAACAGCCTGTTTAGACAGGTCATCGTAAATGATCAGC +GCATCTTCACCGCGGTCACGGAAGTATTCGCCCATTGCGCAACCGGCATACGGTGCCAGGTATTGCAGTG +CAGCGGATTCAGACGCGGTTGCTACCACAACGATGGTGTTAGCCAGTGCGCCGTGCTCTTCCAGTTTACG +TACCACGTTAGAAATGGTGGACGCTTTCTGGCCGATAGCGACATAGATACATTTGATACCGGAATCGCGC +TGGTTGATGATGGCATCGATAGCCAGTGCGGTTTTACCTGTCTGACGGTCACCGATGATCAATTCACGCT +GACCACGACCGATTGGGATCATGGAGTCAACGGCTTTATAACCGGTCTGTACCGGCTGATCTACGGACTG +ACGTTCGATAACGCCCGGAGCGATTGCTTCTACAGCAGAGAAGCCGTCGTGATCCAGCGGACCTTTACCG +TCGATTGGTGCACCCAGAGTGTTAACCACACGGCCCAGCAGGCCACGGCCAACCGGAACTTCCAGGATAC +GGCCAGTACACTTAACTTTCATGCCTTCGGCAAGGTCAGCGTACGGACCCATAACAACCGCACCTACAGA +GTCGCGCTCGAGGTTCAGTGCGATAGCGTAACGGTTACCCGGCAGGGAGATCATTTCACCCTGCATACAA +TCGGCCAGGCCGTGAATGCGGATAACACCGTCACTTACAGAAACAATAGTACCTTCGTTGTGAGCTTCAC +TCACAACATTGAACTGAGCAATGCGCTGCTTGATCAGTTCGCTGATTTCGGTGGAATTCAGTTGCATGCT +CCAGTCCCCTTAAGACTGCAAGACGTCTGCAAGGCGCTCAAGACGACCGCGTACGCTGCCATCAATGACC +ATATCACCCGCTCGGATGATAACGCCTGCCATTACAGACTTATCGATTTTGCAATTCAGCTTAACTTTGC +GTGACAGACGTTTTTCCATCGCAGCAGAAATTTTCGCGAGCTGTTGTTCACTCAGTGCGGCAGCGGAAAT +GACGTCTACCTCAGCGGTAGCCTCACTCACGGCACGCAGGTGAATAAACTGCTCCAGAACATCCGGGAGC +GCGTTAAGACGACCATTTTCAGCCATAACCCGAATCAGGTTCTGACCGTTTTCGTCCAGTTGCTCACCAC +AAACTGCGATAAACGACTCGGCGAGCGTTTCTGGCGCAAGCGCGCCAGAGAGAAGCTCTGCCATTTGTTC +GTTTTTGGTTACCTCGGCGGCAAACGCCAGCATGTCCTGCCAGCGTTCTACACTTTGGTGTTCGACGGCA +AAGTCAAAAGCTGCTTTGGCGTAGGGGCGAGCTACCGTAATAAATTCAGACATCAGCCCCTCCCTCCTTA +CAGTTCAGCGACAAGTTTATCCACGATGTCGCTGTTAGCAGCTTCATCCACGGAACGTTCGATGATCTTC +TCGGCGCCAGCAACAGCCAGGATAGCAACTTGCTTACGCAGCTCTTCACGGGCACGTTTACGCTCGGCTT +CAATTTCCGCCTGCGCCTGGGCCACGATTTTAGTACGTTCCTGTTCTGCCTCAGCTTTCGCTTCGTCCAG +AATCTGCGAGCGGCGTTTGTTCGCCTGCTCGATGATTACCTGGGCTTCCGCTTTCGCTTTTTTCAGCTGG +TCGGTCGCGCTGGCCTTTGCAAGGTCAAGGTCCTTATGTGCTCGTTCTGCGGAAGCAAGGCCGTCAGCAA +TTTCTTTTTGACGTTTTTCGATGGCTGCCATTAATGGCGGCCATACGTACTTCATGCAGAACAGAACGAA +CAGGACAAACGCGATGGCCTGGCCGAGGATTGTTGCGTTAAGATTCACAGCACAATGCCTCTATTTAGTT +AACGTTCTGATATTGCTCTTTAAATAAAAGCAACGCTTACTACGCGACAGCGAACATCACGTACAGACCC +AGACCTACAGCGATCATCGGGATAGCATCCACCAGACCCATAACGATAAAGAACTGAGTACGCAGCAGAG +GAATCAGATCAGGTTGACGCGCTGCGCCTTCCAGGAATTTACCCCCGAGGATGCCGATACCGATCGCAGC +ACCGATTGCCGCCAGACCCATCATCACAGCGGCAGCCATGTACAGCAGATCCATATTCAGGTTTTCCATG +ACAGTCTCCAGTTTGTTTCAGTTAAAACGTAGTAGTGTTGGTAAATTAATGTTCTTCAGACGCCATCGAC +AGATAGACGATCGTCAGAACCATGAAGATGAAGGCTTGCAGCGTAATGATCAGGATGTGGAAAATGGCCC +ACGGCACATTCAGGATCCACTGTGACCACCACGGCAACAGACCAGCAATCAGAATGAAAATCAGCTCACC +GGCATACATGTTACCGAACAGTCGCAAACCGAGTGAAACTGGTTTGGACAGCAGGCTTACCCCTTCAAGG +ATTAAGTTGACAGGAATGAACGCCCAGTGATTGAACGGCTGCAGCGTCAACTCTTTCGTGAAGCCGCCGA +TGCCTTTCATTTTGATGCTGTAGAACAGAATCAGGATAAATACGCCCAGTGCCATAGACAGCGTTACGTT +CACGTCCGCAGACGGAACCACACGCAGTGCAGGCAGACCCAGTACATGTTCAGCAATGTACGGCAGCAGG +TCGATAGGCAGTAAATCCATCAGGTTCATCAGGAATACCCAGACGAAGATCGTCAGGGCCAGCGGAGCAA +TCAGCTTGCTTTTGCCATGGTACATGTCTTTCACGCTACCATTAACAAAGCCGATCACCAGCTCAATCGC +GGTCTGAAACTTACCTGGCACACCGCTGGTCGCCTTTTTGGCTACGCTACGGAATAAAACCAGGAACAAC +AGACCCAGCACCACCGAGAAGAACATGGAGTCAATATTGATTGTCCAGAAGGTGGCTGGGGGGTTTTGTG +GATCCACCAGCGAGAATGTACGCAGGTCCAGCTGAAGGTTATTCAGGTGGTGTCCTATGTAATCCTGCGG +CGTCATATTTTCTGAAGCCATGATGCCTTTTACCCTTTGTTGTTAATTACAGCCGGTGCCAGTATCTGAA +CCACCAGCACCAAAACCCACGTAACGATCAGCGGCAAGAATACCGCCTTTAAAACCGCCAACGCCACCAC +CAGTAACACCAACATCGCCAGAACTTTGAAAGCTTCGCCAAATGCGAATGTCCAGGCCACCCGGCCTTTC +GCTGGTGTATGCGCCTGGTGACGCCAGGCAAATATCATAAACAAAACGTTAGGCAGAAAGACTGCCAGGC +CCCCGCTTATTGCAGAGACGCCCCAGAAGGGGTCTTTGAGGCTGAACAGCAATCCACTTGCTATCACCAC +CAGTAACTGAACGAGCAGAAGCTTCCGAGCAACGTTTCGACTCACGAGCGACACAGACATCACGTTTTTC +ACTCCTGCTCCCTTCGAGGTATGCCGCGTGTCGTATAAAACTTTCTTTAAGGCTTAGAGTCAAGCATCAA +AAAGCGGTCAAATTATACGGTGCGCCCCCGTGATTTCAAACAATAAGTAGCCAAAAGGTGAATAAATGTT +TAAATATTTTTCCAGTGCATACAATTGCGACTTTTCTGCTAACCCTGTTCGATCATGAAAAACTGTAAAT +AACGCGTAAACACTGGTGATAAAGCGTGCTTCAGATCACATATTGCGCATGTTCGCGCACAGCATATTTA +TTTACTTGGCAAATGATGCCTTTGCAAGTTTATGATATTTCAGTCTAAAAACAGATACTGTTTTAATAAA +TGACATTTACACAACAAAAACCACCCATTGACATTTTTAATAATGTTTTAACAGCCAATGATGGTTCTTA +GCGCCGATTTTTAGCAGACTGATATTTTCACTAATGACTTATTTTCTGCTTACCAAAAAAAGCCACGTTA +TCTTGTTGATGCAAAAGAGTGAACGTGGCGTTAAATGTAACCAGTTATATCAGTAGAAAACCTGGTTGTT +GTTAACAGTCTAACCGGTCAATTTTTTATGATTTTTTTGATAAAAATTAAATTTTATTTGCTTTAATCAC +CACCAGATGACGTTCGCCATCCAGGGCTGGAACCTGAAGTTTAACCACTGATTCGACCTGATATTCTTCG +GGCAACAAAGCGATTTCATCTTCCGGCATTTGCCCTTTCAGCGCGTAGAAACGGCCTTGCTCACCAGGAA +GATGGTGGCACCAGCTCACCATATCGTTCAGAGAGGCAAAAGCGCGGCTAATTACGCCATCAAATGGCGG +CTCTGAAGGAAACTCTTCTACCCTGCTCTGTACTGGTTCAATATTCTCCAGTTTAAGCTCATGTTGCACC +TGACGAAGGAAACGCACGCGTTTACCAAGGCTATCCAACAGAGTGAAATGGGCTTCAGGACGCACGATAG +AGAGTGGAATGCCTGGCAGTCCTGGTCCGGTGCCGACATCGATAAACCGTTCACCTTGCAGATACGGTGC +CACCACAATGCTATCGAGAATATGGCGTACCAGCATCTCATTAGGATCGCGGACCGAAGTCAGGTTGTAC +GCTTTGTTCCATTTATGCAGCATATTCACGTAGGCAATAAGCTGGTTTTTCTGGTGATCGGTAAGCGAAA +TACCTGCGTCTTTCAGCAGTAAGGAGAGTTTGTTGAGCACGGTGATTACCTGTTCTTGATGCGTTGCCTG +GTAAGCGGGTGCTTACCAGGCATTTTTAATGCGTTATGCGCTACGACGCAGCATACCCTGTTTTTTCAGC +CACACCAGCAGAATGGAGATGGCCGCAGGCGTGACGCCAGAAATACGCGAAGCTTGGCCGATAGAGGCTG +GTTTGTGATCGTTAAGTTTGGCGATCACTTCGTTAGAAAGACCGGATACCTGGCGGTAATCCAGTGTCGC +GGGTAGCAGGGTGTTCTCGTTACGCAGCTGCTTTTCGATCTCATCTTGCTGGCGCGCGATATAACCTTCG +TATTTAACCTGAATCTCAACCTGTTCCGCCGCCTGTTCGTCTGTCAACGCAGGGGCAAACGGCGTCAGCG +TGGTTAATTTTTCATAAGTCATTTCCGGACGACGCAGCAGATCTTCACCACTGGCTTCACGGGAAAGCGG +CGCAGTCAGGTGAGCATTCACTTCGGCTGCAGCTTCCGCCGACGGGGTTACCCAGGTCGATTTCAGACGC +TGACGCTCACGCTCGATATTCTCAAGTTTCTCGTTAAAGCGCGCCCAACGTTCGTCATCCACCAGGCCCA +GTTCACGACCGATTTCAGTCAAACGCAGATCCGCATTATCTTCGCGTAGCATCAGACGATATTCTGCGCG +CGAAGTAAACATACGATACGGTTCTTTGGTTCCTAAAGTGCACAGGTCATCAACTAGTACGCCGAGATAC +GCCTGAGAACGTGCCGGAGCCCAACCTTCTTTGTCAGCAGACAGACGGGCAGCGTTAAGACCGGCCAGCA +AACCTTGCGCAGCGGCTTCTTCGTAACCGGTAGTGCCGTTAATCTGACCAGCAAAGAACAGCCCCTGGAT +AAACTTGCTCTCCAGCGTCGGTTTCAGGTCGCGAGGATCGAAGAAGTCATACTCAATGGCATAACCCGGA +CGCACGATCTTCGCGTTTTCCATCCCCTGCATAGAGCGGACGATTTGCATCTGCACATCGAACGGCAGGC +TGGTGGAGATACCGTTCGGATAAATTTCATTAGAGGTCAGTCCTTCCGGTTCAAGGAAGATCTGATGCTG +ATTTCTGTCGGCGAAGCGCATGACTTTGTCTTCGATCGACGGGCAGTAGCGTGGGCCGACACCTTCGATC +ACCCCTGCGTACATTGGGCTACGATCGAGGTTACTGCGGATCACATCATGGGTTTTCTCGTTGGTATGAG +TGATATAACACGGCACCTGCTGGGGATGCTGGGACGCATTGCCCATAAACGAGAATACCGGCATTGGGTT +ATCGCCATGCTGTTGCGCCAGTACGCTAAAGTCGATGGTTCGAGCATCAATACGCGGTGGTGTCCCGGTT +TTCAGACGACCAACGCGCAGCGGCAGTTCACGCAAACGGCGAGAAAGCGGAATGGACGGCGGATCACCAG +CACGGCCACCGCTGTAATTATCCAGACCGATATGAATTTTACCGTCGAGGAACGTCCCAACGGTGAGCAC +GACGGCTTTGGCACGGAACTTCAGTCCCATTTGGGTAACAGCACCGACCACGCGATCGTTTTCGACAATA +AGATCTTCAACCGCCTGCTGGAAGATCATCAGGTTCGGTTGGTTCTCCAGCGCCGTACGTACCGCCTGAC +GGTAGAGCACACGATCCGCCTGAGCTCGGGTAGCGCGAACCGCCGGTCCTTTGCTTGCGTTTAGTATCCT +AAACTGGATACCCGCCTGATCGATCGCTTTCGCCATCAGACCGCCGAGTGCATCCACTTCTTTTACCAGA +TGTCCCTTCCCAATACCGCCGATCGCCGGGTTGCAGCTCATCTGCCCCAGAGTGTCGATATTGTGTGTCA +AAAGCAGAGTCTGTTGACCCATACGCGCCGCGGCCATCGCGGCCTCGGTGCCTGCATGACCCCCGCCAAT +GATGATGACGTCAAAAGGATCCGGATAAAACATGGTGATTGCCTCGCATAACGCGGTATGAAAATGGATT +GAAGCCCGGGCCGTGGATTCTACTCAACTTTGTCGGCTTGAGAAAGACCTGGGATCCTGGGTATTAAAAA +GAAGATCTATTTATTTAGAGATCTGTTCTATTGTGATCTCTTATTAGGATCGCACTGCCCTGTGGATAAC +AAGGATCCGGCTTTTAAGATCAACAACCTGGAAAGGATCATTAACTGTGAATGATCGGTGATCCTGGACC +GTATAAGCTGGGATCAGAATGAGGGGTTATACACAACTCAAAAACTGAACAACAGTTGTTCTTTGGATAA +CTACCGGTTGATCCAAGCTTCCTGACAGAGTTATCCACAGTAGATCGCACGATCTGTATACTTATTTGAG +TAAATTAACCCACGATCCCAGCCATTCTTCTGCCGGATCTTCCGGAATGTCGTGATCAAGAATGTTGATC +TTCAGTGTTTCGCCTGTCTGTTTTGCACCGGAATTTTTGAGTTCTGCCTCGAGTTTATCGATAGCCCCAC +AAAAGGTGTCATATTCACGACTGCCAATACCGATTGCGCCAAAGCGGACTGCAGAAAGATCGGGCTTCTG +TTCCTGCAATGCTTCATAGAAAGGAGAAAGGTTGTCCGGAATATCTCCGGCACCGTGGGTGGAGCTGATA +ACCAGCCAGATCCCTGAGGCAGGTAAATCTTCTAACAGCGGACCGTGCAGCGTTTCGGTGGTAAAACCCG +CCTCTTCCAGCTTTTCAGCCAGGTGTTCTGCTACATATTCGGCACCGCCGAGGGTGCTGCCGCTGATAAG +AGTGATATCTGCCATAAACCGCCACCTTTATTAAGAGTGGCGTATTGTACGCTGTGAACGCGTTGGGATC +TACCTGTGGAAAAGTATGGGATTAAAAAAGCCGATCAGGGCTTGATGGTACGCATGATCGGGTTTTGCAG +GACGATCAATGTCTCGGTGGACTGAATTTCATCAATTGTTTGGATCTTGTTGATAAGTACATGCTGGAGA +GCGTCGATCGAACGGCACATCACTTTTATAAAGATGCTGTAGTGGCCGGTTGTGTAATAGGCTTCAGTGA +CTTCATCAAGGCTTTCCAGCTTTGCCAGCGCGGAAGGGTAGTCTTTGGCGCTCTTTAATATAATGCCGAT +AAAGCAGCCTACGTCATAACCGAGCTGCTTCGGGCTGACATCAATACGCGCCCCGGTAATGATCCCCGCC +TGCTTCATTTTCTCTACTCGAACGTGAATCGTCCCCGGACTGACGCCAAATTGTTTCGCCAGTTCGGCGT +AAGCGGTGCGCGCATTGCCCATTAATGCTTCCAGGATGCCACGGTCCAGATTGTCGATCAGATAATTTTC +CATAGGATTTTCTTATGCGGATTGATGATTCATTCTATTTTAGCCTTCTTTTTTAATGAATCAAAAGTGA +GTTAGGCTTTTTATTGAATGATTATTGCATGTGTGTCGGTTTTTGTTGCTTAATCATAAGCAACAGGACG +CAGGAGTATAAAAAATGAAAACCGCTTACATTGCCAAACAACGTCAAATTAGCTTCGTGAAATCTCACTT +TTCTCGTCAACTGGAAGAACGTCTGGGGCTGATCGAAGTCCAGGCGCCGATTCTTAGCCGTGTGGGGGAT +GGCACGCAGGATAACTTGTCGGGCTGTGAAAAAGCGGTGCAGGTAAAAGTGAAAGCTCTGCCTGATGCCC +AGTTCGAAGTGGTTCATTCACTGGCGAAGTGGAAACGTCAGACCTTAGGGCAACACGACTTCAGCGCGGG +CGAAGGGCTGTACACGCACATGAAAGCCCTTCGCCCCGATGAAGACCGTCTTTCTCCGTTGCACTCGGTC +TATGTTGACCAGTGGGACTGGGAACGCGTAATGGGCGACGGTGAGCGTCAATTCTCGACTCTGAAAAGCA +CGGTAGAGGCGATCTGGGCGGGAATTAAAGCAACCGAAGCTGCGGTTAGCGAAGAGTTTGGCCTGGCACC +GTTCCTGCCGGATCAGATCCACTTCGTACACAGCCAGGAGTTACTGTCTCGTTATCCGGATCTTGATGCC +AAAGGGCGTGAGCGGGCGATAGCGAAAGATCTTGGCGCGGTATTCCTTGTCGGGATTGGCGGCAAGCTGA +GCGATGGTCATCGCCACGACGTGCGCGCACCGGATTATGATGACTGGAGCACCCCGTCAGAGCTGGGCCA +TGCGGGTCTGAACGGCGATATTCTGGTGTGGAACCCGGTACTGGAAGATGCGTTTGAGCTTTCCTCCATG +GGGATCCGTGTAGATGCCGACACGCTGAAGCATCAACTGGCGCTGACCGGTGACGAAGATCGCCTGGAGC +TGGAGTGGCATCAGGCGCTGCTGCGCGGTGAAATGCCGCAGACCATCGGCGGCGGTATCGGCCAGTCTCG +TTTGACTATGCTGCTGCTGCAACTGCCGCATATCGGCCAGGTTCAGTGTGGAGTATGGCCAGCTGCTGTT +CGCGAGAGCGTCCCTTCTCTGCTGTAATAATTTATCGCCGCCAGCGTCTGAGCAGGCGGCTTCGCATCCC +GGTATCAAAGCGCCAGATATGATCGAAAATGCGCATGATGCCGGGTTTGCCGTGTGCCGACATCGCCACG +GCATGAAAGCGATGCTGATGTACCCGCTGCAGCTCTTTCACTTTACTCGTCACGTCGTCAGGCAACCGCT +GAGCGATAAAATCAGAAATCACCACCGCATCGGCATCAAACCATTCCCTGCTTTGCAAGCGTTCCATAAT +GGCGCGAAAACAACTGGCAAGATCGGTGCCGCCACGAAACTGCTGGCTTAAAAAACGGATTGCTTGTTCG +ATGCCTTGTGGGCCTGAAAGCTCATAACGGACGATCTCGGTGGAAAATAGCATAATATAGCAGCGCCGGT +TTTCTGCGAGAGCAATGCGCATCAAGGCCAGGCAGAACGCTTTCGCACACTGTTCATTAAAGCCGCCCAT +TGAGCCGGAAGTATCCACACAGACAATAAACGGCCCGCGCGGCTGTTCATCGTAATCTTTATGTACCACC +GGACGTTCGATCACTTTTTCACGCCACGACTCACCGTGCAGGCGATAGGTGAGCAACTGTTTTTCCACCA +GCCGACGGTAAAACTCATACTCCAGTTCCGTTATCCCTAGTGTCGCCAGTTCTGGCGGCAGGAGACGTAA +AATATCATCGCTTTGTTGCAGACCATCAACCTGCTCAGGAACCGTCGCCGGTTCGCGCACCATGGTGCGG +AAGGTTTCCATCTGCGCATCGTTGCGCGGTATTGATTTGGCTTCCCGAGAACGCCCCAGCTGCTCTGCCA +GGCGTTTCAGTTCCGGCTGTTCGTTAAGAAATTCACCGTATTTCACAATCAACTGATAGTCGCCACGTTT +AAGCTGACCGGCGCTCATATCCCACAGACGACCAGCTGCAGTATTGTTATCTGCGAGAATCGGTTCAAGT +TGTCCGCTCAGCGTCATGCGTTCCTGAACTTCACTCAACAGTTGTTCGCGTTCTTCTTCTAATAGCTGTT +GATTTAACGTCGTTGCTTGCACGATCAGACTTAAACGCCAACGCTGGAGAAAAAGCGTGTGTAACGCTGA +AGTGATCGTGCTGTTAGCATCAACCAACTGTCGGGCTTGTTCTGCCCATGGAGAATTCAGACGATGCAGT +AAGTCCAGGATCTGTGGTAGCTGCACAATAAACTGTGGCGTGGAGAGGAGCTGGCTTTGCTGATAGCACA +TCACCTCTTCGGTGAGTTCCGGCGGGACTCGGGCATCTTTCAGCCGACTGCGCAGCGCTTCACGCCAGCG +GGGAACATCATCAGTGATTGCCGCCTTCAGGCGTGGGAATTTTTCAAAGAAGACCGCCAGCTGCGGTGAG +GCCAGCAGTGCGATGATCATCTCTTCGATCAATCCCTCTTCGCTGACGGCCAGCATCACATTAAGCGTAT +CCAGCGTTAGCATTGTTGTGCCTGGCGAATCTGTGCACCGACATCCTGTAGGCTGGCTTCAATGCGACCT +AACCAGTCGCCAGGGATAAACAGACATTTTTGCTGTTCGCTGAATAAAGCGTGTTGCTTGCGCCAGTCGC +TTTCAAGCTCTTCCAGTTGTTGTTTTATTTCACCAGGCAGACCTTCAGCCGATGAACCGGGAAGTGCCAG +CGTACTGCCTTGTAAACTTACATCGCGAACGACAAGATGTTGGGCGCTATCAACTTCCAGATTCAGTTTC +TGGGCAAAGCCGATACCGTTCAGTTTACCGCGAATTTCACCACCTTTGCTCAGCCACTGTTCCAGCGCGC +TACGCTCAAAGGAGATATGAACCACTTCCATATCATGCAGTTTTAACGGTTTTTGCAGCAGTAGAGTCAG +AGTGGAAGCAGTAACGTTAACAGGAAGTTGATACTGCTGACGACGGCTGAAAATGCCGCCCAGACGAATT +ACCGTTAAGGCTGTTTTATCGCTTTGTTGCTGCTGGAGTTGCAGGTGACGTTGCACAATCGCGCCAAGGC +GAGTCAACATCCCTTGCTGTTGCCAGGCGTGACCGGTCATCAATACATCAATTTGTTGTTGTATCAAATT +CAGGCTTTGCGCGTCATACCACAGGCAATCTTTCAGCAAAATGAGATCTACCGGGGCAACAGCACTGCGA +CCGCTAAAAAAGGCGCTGGCCTGCAATAATCGGATCGCTTTTTTCCAGCGACGATCCGAGACATAAGGCG +CATCCGGTAATTTATCCAGTTGCTGGCGCAGCATAAAAATCAGCTCAAATACATGATCGGGCAGCGTAAT +TTCACCAATCTCTTTCTGCCAGCGTTCATATTCTTCATCTGTGACCTGCAAGGCATCAGGAACCGGATTG +TCGTTTTCATCCTGTTGACTGGTCAGCATGGAGCGGAAATTCGCTTTATCCTGCACTTTATCTAACCACA +GACGAATCAGCATGCGGTCATATAACGCTTCCAGACTGCTGTCTGCTTCCGGCAGCTCGTTGGAGGCCGC +CACCAGCAGACGCATCGGGATTTTTTCTACGTGTGCACCGTTGCGGAACTGGCGCTCGTTAATGGCGGTG +AGCAAGGTATTAAGAATTGCCGGGCCCGCTTTCCAGATCTCATCCAGAAAGACAATTTCTGCTTCCGGCA +GGTAACCGCTGGTTAAACGTTCATAGCGCCCTTCATCTTTTAGCGCCTGAATAGAAAGGGGACCAAAAAC +TTCTTCCGGCGTGGAGAAGCGGGTCATCAGATATTCAAACGCGCGGGCATTCTGAAAGGCGAATTTTAAG +CGCCGGGCGATCAAACTTTTGGCAATACCTGGCGGGCCAAGGAGGAACACACTTTCACCACTTAATGCCG +CTAATAAACACAAGCGGATGGCGTGGCTACGTTCATAAAGCCCCTTTTCCAACGAACTGCTCAGGCGGGA +AATTCTTTCCGCTAATAAATGAGGGTGAGCCATAATGAAGTGGCGTCCTTTCGTCAAAAGTTCTGCGTAA +ATTGCGAGTATAGACGTTTCTTGCTGGTGGCTAAAATAGTCTCAAAGGGGGGGTATTTTTCTTTGAGCCA +GGTTAATGTGGCCGCATTTAGGAGTACGATTTTGCCGTTAATCGTGCATACTGTGCGCTTTTTTGTGGGC +CAAGGGACTAAGCACACATTTCATATTTCAACGAAAGACTAGTCTATGAGCACTGATAATAAGCAATCAT +TGCCCGCGATTACCCTCGCGGCGATTGGAGTTGTCTACGGCGATATTGGTACCAGCCCGTTATATACACT +TCGTGAATGTTTGTCCGGCCAGTTTGGTTTTGGCGTTGAACGCGATGCCGTGTTTGGCTTTTTATCGCTG +ATCTTCTGGCTGCTAATCTTTGTGGTTTCCATTAAATATCTCACCTTCGTGATGCGGGCAGATAACGCCG +GTGAGGGGGGGATCCTGACGTTGATGTCGCTTGCCGGGCGTAATACGTCGGCGCGAACCACATCAATGCT +GGTGATTATGGGGCTAATCGGCGGCAGCTTTTTCTATGGTGAAGTCGTCATAACACCCGCTATTTCGGTG +ATGTCAGCCATTGAAGGTCTGGAAATCGTCGCCCCGCAGCTGGATACCTGGATAGTTCCCCTCTCAATTA +TCGTTCTCACTTTATTATTTATGATTCAAAAACATGGCACGGCTATGGTCGGTAAGCTGTTTGCGCCGAT +CATGCTGACCTGGTTTTTGATTCTGGCAGGACTGGGGTTACGTAGCATTATTGCTAACCCGGAAGTGCTG +CATGCGCTGAATCCAATGTGGGCGGTGCATTTCTTCCTTGAATACAAAACGGTTTCTTTTATTGCATTAG +GGGCAGTGGTGTTGTCGATTACGGGGGTCGAGGCGCTGTATGCTGATATGGGGCACTTTGGTAAGTTCCC +TATTCGCCTGGCGTGGTTCACCGTCGTATTACCTTCCTTGACCCTTAATTACTTCGGTCAGGGAGCGCTG +TTGTTAAAGAACCCGGAAGCGATTAAGAACCCGTTCTTCCTGTTGGCACCGGACTGGGCGCTGATCCCGC +TGCTGATCATCGCCGCACTGGCGACGGTAATTGCCTCGCAGGCGGTTATCTCTGGCGTCTTCTCATTGAC +GCGTCAGGCGGTACGTCTGGGATATTTGTCGCCGATGCGCATTATTCACACCTCCGAAATGGAGTCAGGG +CAAATCTATATTCCGTTTGTGAACTGGATGCTCTATGTCGCGGTCGTGATTGTGATTGTCAGCTTTGAGC +ACTCCAGCAACCTGGCGGCGGCGTACGGGATTGCGGTGACCGGAACCATGGTGCTGACGTCTATTCTCTC +GACTACCGTGGCACGTCAGAACTGGCACTGGAATAAGTATTTTGTTGCGCTGATCCTGATTGCTTTCCTT +TGTGTCGATATTCCATTGTTCACCGCTAACCTCGATAAACTGCTCTCCGGCGGCTGGTTGCCATTGAGCC +TCGGTACTGTGATGTTTATCGTGATGACCACCTGGAAGAGCGAGCGTTTCCGCTTGCTGCGGCGGATGCA +TGAACATGGTAACTCTCTGGAAGCGATGATTGCTTCGCTGGAGAAATCACCGCCTGTTCGCGTGCCCGGG +ACCGCGGTGTATATGTCGCGTGCAATCAACGTCATTCCCTTTGCGCTGATGCATAACCTTAAACATAACA +AGGTATTGCATGAGCGGGTGATTCTGTTAACTCTGCGCACCGAAGACGCTCCATATGTCCATAACGTCCG +TCGGGTACAGATTGAACAACTGTCGCCCACTTTCTGGCGCGTGGTGGCAAGTTATGGTTGGCGAGAAACG +CCAAACGTAGAAGAAGTTTTCCACCGCTGCGGTCTGGAAGGATTAAGTTGCCGGATGATGGAAACCTCCT +TCTTTATGTCGCATGAGTCGTTGATCCTCGGCAAACGCCCGTGGTATTTGCGTCTGCGCGGCAAGCTGTA +CTTGCTGCTGCAACGTAATGCGCTGCGTGCACCAGATCAATTTGAAATCCCGCCAAACAGGGTTATCGAA +CTGGGTACTCAGGTCGAAATCTAACGCCAGACGCCTCCTTTCTTCATAAGGGGGCGTTTTTGTTTTCATG +GTTAATCACCATGTAAAACGTTTCGAGGTTGATCACATTTCCGTAACGTCACGATGGTTTTCCCAACTCA +GTCAGGATTAAACTGTGGGTCAGCGAAACGTTTCGCTGATGGAGAAAAAAATGAAAAAAGGCACCGTTCT +TAATTCTGATATTTCATCGGTGATCTCCCGTCTGGGACATACCGATACGCTGGTGGTGTGTGATGCTGGT +TTACCCATCCCCAAAAGTACAACGCGTATCGATATGGCATTAACCCAGGGTGTACCTTCTTTTATGCAGG +TGCTGGGCGTCGTCACAAATGAAATGCAGGTCGAGGCGGCCATTATCGCGGAAGAGATCAAACACCATAA +TCCGCAACTCCACGAAACGTTGCTCACTCACCTTGAGCAGCTGCAAAAACACCAGGGAAATACCATTGAA +ATTCGTTACACCACGCATGAACAATTCAAACAACAAACCGCAGAAAGTCAGGCGGTAATTCGCAGCGGAG +AATGTTCTCCGTATGCGAATATCATTCTCTGTGCTGGCGTGACGTTCTGAGGCCGTCATGGAAGCATTAC +TTCAGCTTAAAGGCATCGATAAAGCCTTCCCGGGCGTAAAAGCCCTCTCGGGCGCAGCGTTAAATGTCTA +TCCGGGCCGCGTGATGGCGCTGGTGGGCGAAAACGGCGCGGGTAAATCCACCATGATGAAAGTGCTTACT +GGCATCTATACTCGCGATGCCGGTACGCTTTTATGGCTGGGGAAAGAAACGACATTTACCGGGCCAAAAT +CTTCCCAGGAAGCCGGGATTGGGATTATCCATCAGGAACTGAACCTGATCCCGCAGTTGACCATTGCCGA +AAACATTTTCCTCGGTCGTGAGTTTGTTAATCGCTTTGGCAAAATTGACTGGAAAACCATGTATGCCGAA +GCGGATAAATTGCTGGCTAAACTTAACCTGCGCTTTAAAAGCGACAAGCTGGTGGGCGATCTTTCCATCG +GTGACCAGCAAATGGTTGAAATCGCCAAAGTGCTGAGCTTTGAGTCGAAAGTCATCATTATGGATGAACC +GACCGATGCGCTGACCGATACCGAAACCGAATCCCTGTTCCGCGTCATCCGCGAGCTGAAATCGCAAGGC +CGCGGTATTGTCTATATCTCCCACCGCATGAAAGAAATCTTCGAGATTTGCGATGACGTTACCGTTTTTC +GTGATGGGCAATTTATTGCTGAGCGCGAAGTGGCATCACTGACCGAAGATTCGCTGATTGAGATGATGGT +GGGTCGCAAGCTGGAAGATCAATATCCGCACCTGGACAAAGCGCCGGGAGATATCCGCCTGAAAGTCGAT +AATCTCTGCGGACCTGGCGTTAACGATGTCTCTTTTACTTTACGCAAAGGCGAAATTCTTGGCGTCTCTG +GTTTGATGGGCGCAGGTCGTACCGAACTGATGAAAGTGCTCTACGGCGCACTACCGCGCACCAGCGGTTA +CGTCACCCTGGATGGGCATGAAGTCGTTACCCGTTCACCGCAGGATGGCCTGGCAAACGGCATTGTGTAT +ATCTCCGAAGACCGTAAACGTGACGGTTTAGTGTTGGGCATGTCAGTAAAAGAGAACATGTCGCTGACAG +CGCTGCGCTACTTCAGCCGCGCTGGCGGCAGTTTGAAGCATGCCGATGAACAGCAGGCTGTGAGTGATTT +CATTCGTCTGTTTAATGTGAAAACTCCGTCGATGGAACAGGCAATTGGTCTGCTTTCCGGTGGCAATCAG +CAAAAAGTGGCGATTGCCCGCGGTCTGATGACACGCCCCAAAGTGTTGATCCTTGATGAACCTACCCGTG +GCGTAGATGTCGGCGCGAAAAAAGAGATCTATCAACTGATTAACCAGTTCAAAGCCGATGGCTTGAGCAT +CATTCTGGTGTCATCGGAGATGCCAGAAGTATTAGGCATGAGCGATCGCATCATCGTCATGCATGAAGGG +CATCTCAGCGGGGAATTTACTCGTGAGCAGGCCACCCAGGAAGTGTTAATGGCTGCCGCTGTGGGCAAGC +TTAATCGCGTGAATCAGGAGTAAAAAAATGACAACCCAGACTGTCTCTGGTCGCCGTTATTTCACGAAAG +CGTGGCTGATGGAGCAGAAATCGCTTATCGCTCTGCTGGTGCTGATCGCGATTGTCTCGACGTTAAGCCC +GAACTTTTTCACCATCAATAACTTATTCAATATTCTCCAGCAAACCTCAGTGAACGCCATTATGGCGGTC +GGGATGACGCTGGTGATCCTGACGTCGGGCATCGACTTATCGGTAGGTTCTCTGTTGGCGCTGACCGGCG +CAGTTGCTGCATCTATCGTCGGCATTGAAGTCAATGCGCTGGTGGCTGTCGCTGCTGCTCTCGCGTTAGG +TGCCGCAATTGGTGCGGTAACCGGGGTGATTGTAGCGAAAGGTCGCGTCCAGGCGTTTATCGCTACGCTG +GTTATGATGCTTTTACTGCGCGGCGTGACCATGGTTTATACCAACGGTAGCCCAGTGAATACCGGCTTTA +CTGAGAACGCCGATCTGTTTGGCTGGTTTGGTATTGGTCGTCCGCTGGGCGTACCGACGCCAGTCTGGAT +CATGGGGATTGTCTTCCTCGCGGCCTGGTACATGCTGCATCACACGCGTCTGGGGCGTTACATCTACGCG +CTGGGCGGCAACGAAGCGGCAACGCGTCTTTCTGGTATCAACGTCAATAAAATCAAAATCATCGTCTATT +CTCTTTGTGGTCTGCTGGCATCGCTGGCCGGGATCATTGAAGTGGCGCGTCTCTCCTCCGCACAACCCAC +GGCGGGGACTGGCTATGAGCTGGATGCTATTGCTGCGGTGGTTCTGGGCGGTACGAGTCTGGCGGGCGGA +AAAGGTCGCATTGTTGGGACGTTGATCGGCGCATTAATTCTTGGCTTCCTTAATAATGGATTGAATTTGT +TAGGTGTTTCCTCCTATTACCAGATGATCGTCAAAGCGGTGGTGATTTTGCTGGCGGTGCTGGTAGACAA +CAAAAAGCAGTAATAACGACTACAGGACATCTTGAATATGAACATGAAAAAACTGGCTACCCTGGTTTCC +GCTGTTGCGCTAAGCGCCACCGTCAGTGCGAATGCGATGGCAAAAGACACCATCGCGCTGGTGGTCTCCA +CGCTTAACAACCCGTTCTTTGTATCGCTGAAAGATGGCGCGCAGAAAGAGGCGGATAAACTTGGCTATAA +CCTGGTGGTGCTGGACTCCCAGAACAACCCGGCGAAAGAGCTGGCGAACGTGCAGGACTTAACCGTTCGC +GGCACAAAAATTCTGCTGATTAACCCGACCGACTCCGACGCAGTGGGTAATGCTGTGAAGATGGCTAACC +AGGCGAACATCCCGGTTATCACTCTTGACCGCCAGGCAACGAAAGGTGAAGTGGTGAGCCACATTGCTTC +TGATAACGTACTGGGCGGCAAAATCGCTGGTGATTACATCGCGAAGAAAGCGGGTGAAGGTGCCAAAGTT +ATCGAGCTGCAAGGCATTGCTGGTACATCCGCAGCCCGTGAACGTGGCGAAGGCTTCCAGCAGGCCGTTG +CTGCTCACAAGTTTAATGTTCTTGCCAGCCAGCCAGCAGATTTTGATCGCATTAAAGGTTTGAACGTAAT +GCAGAACCTGTTGACCGCTCATCCGGATGTTCAGGCTGTATTCGCGCAGAATGATGAAATGGCGCTGGGC +GCGCTGCGCGCACTGCAAACTGCCGGTAAATCGGATGTGATGGTCGTCGGATTTGACGGTACACCGGATG +GCGAAAAAGCGGTGAATGATGGCAAACTAGCAGCGACTATCGCTCAGCTACCCGATCAGATTGGCGCGAA +AGGCGTCGAAACCGCAGATAAAGTGCTGAAAGGCGAGAAAGTTCAGGCTAAGTATCCGGTTGATCTGAAA +CTGGTTGTTAAGCAGTAGTTTTAATCAGGTTGTATGACCTGATGGTGACATAAATACGTCATCGACAGAT +GAACGTGTAATATAAAGAAAAGCAGGGCACGCGCCACCCTAACACGGTGGCGCATTTTATGGACATCCCG +AATATGCAAAACGCAGGCAGCCTCGTTGTTCTTGGCAGCATTAATGCTGACCACATTCTTAATCTTCAAT +CTTTTCCTACTCCAGGCGAAACCGTAACCGGTAACCACTATCAGGTTGCATTTGGCGGCAAAGGCGCGAA +TCAGGCTGTGGCTGCTGGGCGTAGCGGTGCGAATATCGCGTTTATTGCCTGTACGGGTGATGACAGCATT +GGTGAGAGCGTTCGCCAGCAGCTCGCCACTGATAACATTGATATTACTCCGGTCAGCGTGATCAAAGGCG +AATCAACAGGTGTGGCGCTGATTTTTGTTAATGGCGAAGGTGAGAATGTCATCGGTATTCATGCCGGCGC +TAATGCTGCCCTTTCCCCGGCGCTGGTGGAAGCGCAACGTGAGCGTATTGCCAACGCGTCAGCATTATTA +ATGCAGCTGGAATCACCACTCGAAAGTGTGATGGCAGCGGCGAAAATCGCCCATCAAAATAAGACTATCG +TTGCGCTTAACCCGGCTCCGGCTCGCGAACTTCCTGACGAACTGCTGGCGCTGGTGGACATTATTACGCC +AAACGAAACGGAAGCAGAAAAGCTCACCGGTATTCGTGTTGAAAATGATGAAGATGCAGCGAAGGCGGCG +CAGGTACTGCATGAAAAAGGTATCCGTACTGTACTGATTACTTTAGGAAGTCGTGGTGTATGGGCTAGCG +TGAATGGTGAAGGTCAGCGCGTTCCTGGATTCCGGGTGCAGGCTGTCGATACCATTGCTGCCGGAGATAC +CTTTAACGGTGCGTTAATCACGGCATTGCTGGAAGAAAAACCATTGCCAGAGGCGATTCGTTTTGCCCAT +GCTGCCGCTGCGATTGCCGTAACACGTAAAGGCGCACAACCTTCCGTACCGTGGCGTGAAGAGATCGACG +CATTTTTAGACAGGCAGAGGTGACGCTTGGCTACAATGAAAGATGTTGCCCGCCTGGCGGGCGTTTCTAC +CTCAACAGTTTCTCACGTTATCAATAAAGATCGCTTCGTCAGTGAAGCGATTACCGCCAAAGTTGAAGCG +GCGATTAAAGAACTCAATTACGCGCCATCAGCTCTGGCGCGTAGCCTCAAACTCAATCAAACACATACCA +TTGGCATGTTGATCACTGCCAGTACCAATCCTTTCTATTCAGAACTGGTGCGTGGCGTTGAACGCAGCTG +CTTCGAACGCGGTTATAGTCTCGTCCTTTGCAATACCGAAGGCGATGAACAGCGGATGAATCGCAATCTG +GAAACGCTGATGCAAAAACGCGTTGATGGCTTGCTGTTACTGTGCACCGAAACGCATCAACCTTCGCGTG +AAATCATGCAACGTTATCCGACAGTGCCTACTGTGATGATGGACTGGGCTCCGTTCGATGGCGACAGCGA +TCTTATTCAGGATAACTCGTTGCTGGGCGGAGACTTAGCAACGCAATATCTGATCGATAAAGGTCATACC +CGTATCGCCTGTATTACCGGCCCGCTGGATAAAACTCCGGCGCGCCTGCGGTTGGAAGGTTATCGGGCGG +CGATGAAACGTGCGGGTCTCAACATTCCTGATGGCTATGAAGTCACTGGTGATTTTGAATTTAACGGCGG +GTTTGACGCTATGCGCCAACTGCTATCACATCCGCTGCGTCCTCAGGCCGTCTTTACCGGAAATGACGCT +ATGGCTGTTGGCGTTTACCAGGCGTTATATCAGGCAGAGTTACAGGTTCCGCAGGATATCGCGGTGATTG +GCTATGACGATATCGAACTGGCAAGCTTTATGACGCCACCATTAACCACTATCCACCAACCGAAAGATGA +ACTGGGGGAGCTGGCGATTGATGTACTCATCCATCGGATAACCCAGCCGACCCTTCAGCAACAACGATTA +CAACTTACTCCGATTCTGATGGAACGCGGTTCGGCTTAGATTTACGCTGTCTTTTGATCAAATTATTACC +ATCGGTTGTTTTCAGAAGCATGAACATTGCTGCTGAAGCAACAGTAATAATGCCCATTGTGATAAACGTA +TAGTGGAATTGTTCGACAGTCGTTGTGCCTTCCATTCCTTCATAAACGCGAAGGACGGCCGCACTTACAG +CAACGCCTAAACTAATCGACAGTTGCTGCGTGACCGCCAGAACACTGTTACCGCTGCTGGCATTGTCATC +GGTCAGATCGGCAAGTGTGATGGTATTCATCGCGGTAAACTGCGTCGACATAGCCATCCCTAATATAAAC +AACGGCAAGATCAGCATCCATATAGCCATTGCTGGTGATTGCAAAGAGAACTGAGCGATCATTAGCCCAA +TAATCACCGTGATCCCCACTAACGTATGGCGATAGCCCAGACGACGTAAGACTTGGGTAACCATCGATTT +TGCAATAATGGAACCTAACGCTGTCGGTGCCATCATACAGCCAGCAATAAACGCCTGATAACCAAATCCT +ACCTGTAACATCAATGGCATAAGGAACGGTACACAGCCGGTCCCCAGACGGGTTGCAATATTGCCTACGA +TACCGATCGAGAAAGTGCGGGTTTTAAATAAATCTAATGAAATTAATGGGTTTGGCGTGCGTCGTGCATG +GAGAATATAGAGAAGCAGTAACCCGATGCTGGTGACAATTACCGTCAAGGCAATCCAGCTGGCGACAATC +TTTTCCCCGAATAGCTCTATTCCGCTTGAGAAGAGAACAAGGCTGAGGCCAAACAGCAAAAAGCCAGTGA +TATCGAATCTGCGTCGTGCGGTGGTGAAATTGGGCATATGTTTGCGCGCGTAAAGAAGGCCCGCAATACC +TATGGGGATATTGATTAAAAATATCCAGTGCCAGGTTGCCCAGGTGACCAGCACGCCGCCAAGAACGGGG +CCTAAAATTGGCCCCACCAGACCCGGCATGGCGACAAAATTCAATACTGGAAGAAGTTCATTACGAGGAT +AAGCGCGCAGTAAGGCCAGCCGAGCAACAGGCATCATCATTGCGCCGCCTATCCCCTGAATAACCCGGAA +GACAACCAGCTGTGGTAGCGAATTAGAAAGTGCGCAGGCCAGAGAACCCAATGTGAACAGACTCACGGCA +AGGGTAAAAATGCGACGCGTACCGAAGCGATCGGCTAGCCATCCGCTTACCGGAATAAGCATCGCCACCG +TCAGCGTATAACTGATGATGGCTGATTGCATCGCGAGAGGAGAACGATTAAGGCTATGAGCGATTGCGGG +TAAGGCGGTATTAAGAATAGTGGCATCAAGTGCCTGCATGAAGAAGGCCATCGCCGCGATCCACGGCAAA +CCCGCCATACTGCGCTTCTTTTTATCGCTCATTCAATGTCCTGTTATCGGGTTATCACTTATCAGGTGAG +CGTAGCAGCGCCTGACAAGCTTTAAATGCCGCGTCGCCATCGCTTTGGATAATCGCATCGACAATCGCCT +GATGCAGATCCAGCTTTATCACTGTGTCGCTGGTAATTGACGTGAAGTAAGTGTGATAAACCGAATGGAA +TAGCGAGGCGAATGAGGTCAAAAACGGATTGGCGCTCATTTCATAGATATGCTCATGCCAGGCCATATCG +ACTTCGATCCAGCGTTCACGGCGAAAGTTCTCTTTTAATGCCGCCATTTCGGCCATTAACGTATTGAGAT +GCGCTTTCTGTTCCGCGGTGCCAACCGTTGCTGCCAGTAGGCAGGCTTGCGGCTCCAGACAGATACGCAT +AACCAGAAAGTGATCGATGACCTGATGAAAGTTCTCTTCTGTCATCCACCAGGTAAGCAATTCCTGATCA +AGAAAATTCCAGTTCGATTGTGGCATGACCCGAGTACCAATTCGCGGTCGCGGTAAAACCATCCCTTTTG +CCGTTAACGTTTTGACCGCTTCGCGTACCGCTGTACGACTCACTCCAAATTGCTCGCCCAGCTCAATCTC +ACCGGGCAAAATGGTGCCGGGTTCATATTCACCTTTTAAGATCCGTTGCGCCAGCTTCTCAGCCAGAACA +TACGAAAGGTTTTTCTGTGCAGCTAACTGTTGTGCGCTTAAAGGCATTACTTATCTTCCTTTTTCTTTTT +ATTCCTCCTTAGTATGCCACCAGGAAGTGTGATTACGGTTGCAAAAACGGCAAATTGCTTGTTTTATGGC +ACATTAACGGGGCTTTTGCTGAAAAAATGCGCGGTCAGAAAATTATTTTAAATTTCCTCTTGTCAGGCCG +GAATAACTCCCTATAATGCGCCACCACTGACACGGAACAACGGCAAACACGCCGCCGGGTCAGCGGGGTT +CTCCTGAGAACTCCGGCAGAGAAAGCAAAAATAAATGCTTGACTCTGTAGCGGGAAAGCGTATTATGCAC +ACCCCGCGCCGCTGAGAAAAAGCAAAGCGGCACTGCTCTTTAACAATTTATCAGACAATCTGTGTGGGCA +CTCGAAGATACGGATTCTTAACGTCGCAAGACGAAAAATGAATACCAAGTCTCAAGAGTGAACACGTAAT +TCATTACGAAGTTTAATTCTTTGAGCATCAAACTTTTAAATTGAAGAGTTTGATCATGGCTCAGATTGAA +CGCTGGCGGCAGGCCTAACACATGCAAGTCGAACGGTAACAGGAAACAGCTTGCTGTTTCGCTGACGAGT +GGCGGACGGGTGAGTAATGTCTGGGAAACTGCCTGATGGAGGGGGATAACTACTGGAAACGGTAGCTAAT +ACCGCATAACGTCGCAAGACCAAAGAGGGGGACCTTCGGGCCTCTTGCCATCAGATGTGCCCAGATGGGA +TTAGCTAGTAGGTGGGGTAACGGCTCACCTAGGCGACGATCCCTAGCTGGTCTGAGAGGATGACCAGCCA +CACTGGAACTGAGACACGGTCCAGACTCCTACGGGAGGCAGCAGTGGGGAATATTGCACAATGGGCGCAA +GCCTGATGCAGCCATGCCGCGTGTATGAAGAAGGCCTTCGGGTTGTAAAGTACTTTCAGCGGGGAGGAAG +GGAGTAAAGTTAATACCTTTGCTCATTGACGTTACCCGCAGAAGAAGCACCGGCTAACTCCGTGCCAGCA +GCCGCGGTAATACGGAGGGTGCAAGCGTTAATCGGAATTACTGGGCGTAAAGCGCACGCAGGCGGTTTGT +TAAGTCAGATGTGAAATCCCCGGGCTCAACCTGGGAACTGCATCTGATACTGGCAAGCTTGAGTCTCGTA +GAGGGGGGTAGAATTCCAGGTGTAGCGGTGAAATGCGTAGAGATCTGGAGGAATACCGGTGGCGAAGGCG +GCCCCCTGGACGAAGACTGACGCTCAGGTGCGAAAGCGTGGGGAGCAAACAGGATTAGATACCCTGGTAG +TCCACGCCGTAAACGATGTCGACTTGGAGGTTGTGCCCTTGAGGCGTGGCTTCCGGAGCTAACGCGTTAA +GTCGACCGCCTGGGGAGTACGGCCGCAAGGTTAAAACTCAAATGAATTGACGGGGGCCCGCACAAGCGGT +GGAGCATGTGGTTTAATTCGATGCAACGCGAAGAACCTTACCTGGTCTTGACATCCACGGAAGTTTTCAG +AGATGAGAATGTGCCTTCGGGAACCGTGAGACAGGTGCTGCATGGCTGTCGTCAGCTCGTGTTGTGAAAT +GTTGGGTTAAGTCCCGCAACGAGCGCAACCCTTATCCTTTGTTGCCAGCGGTCCGGCCGGGAACTCAAAG +GAGACTGCCAGTGATAAACTGGAGGAAGGTGGGGATGACGTCAAGTCATCATGGCCCTTACGACCAGGGC +TACACACGTGCTACAATGGCGCATACAAAGAGAAGCGACCTCGCGAGAGCAAGCGGACCTCATAAAGTGC +GTCGTAGTCCGGATTGGAGTCTGCAACTCGACTCCATGAAGTCGGAATCGCTAGTAATCGTGGATCAGAA +TGCCACGGTGAATACGTTCCCGGGCCTTGTACACACCGCCCGTCACACCATGGGAGTGGGTTGCAAAAGA +AGTAGGTAGCTTAACCTTCGGGAGGGCGCTTACCACTTTGTGATTCATGACTGGGGTGAAGTCGTAACAA +GGTAACCGTAGGGGAACCTGCGGTTGGATCACCTCCTTACCTTAAAGAAGCGTTCTTTGCAGTGCTCACA +CAGATTGTCTGATAGGAAGTGAAAAGCAAGGCGTCTTGCGAAGCAGACTGATACGTCCCCTTCGTCTAGA +GGCCCAGGACACCGCCCTTTCACGGCGGTAACAGGGGTTCGAATCCCCTAGGGGACGCCACTTGCTGGTT +TGTGAGTGAAAGTCACCTGCCTTAATATCTCAAAACTCATCTTCGGGTGATGTTTGAGATATTTGCTCTT +TAAAAATCTGGATCAAGCTGAAAATTGAAACACTGAACAACGAAAGTTGTTCGTGAGTCTCTCAAATTTT +CGCAACACGATGATGAATCGAAAGAAACATCTTCGGGTTGTGAGGTTAAGCGACTAAGCGTACACGGTGG +ATGCCCTGGCAGTCAGAGGCGATGAAGGACGTGCTAATCTGCGATAAGCGTCGGTAAGGTGATATGAACC +GTTATAACCGGCGATTTCCGAATGGGGAAACCCAGTGTGTTTCGACACACTATCATTAACTGAATCCATA +GGTTAATGAGGCGAACCGGGGGAACTGAAACATCTAAGTACCCCGAGGAAAAGAAATCAACCGAGATTCC +CCCAGTAGCGGCGAGCGAACGGGGAGCAGCCCAGAGCCTGAATCAGTATGTGTGTTAGTGGAAGCGTCTG +GAAAGGCGCGCGATACAGGGTGACAGCCCCGTACACAAAAATGCACATATTGTGAGCTCGATGAGTAGGG +CGGGACACGTGGTATCCTGTCTGAATATGGGGGGACCATCCTCCAAGGCTAAATACTCCTGACTGACCGA +TAGTGAACCAGTACCGTGAGGGAAAGGCGAAAAGAACCCCGGCGAGGGGAGTGAAAAAGAACCTGAAACC +GTGTACGTACAAGCAGTGGGAGCACGCTTAGGCGTGTGACTGCGTACCTTTTGTATAATGGGTCAGCGAC +TTATATTCTGTAGCAAGGTTAACCGAATAGGGGAGCCGAAGGGAAACCGAGTCTTAACTGGGCGTTAAGT +TGCAGGGTATAGACCCGAAACCCGGTGATCTAGCCATGGGCAGGTTGAAGGTTGGGTAACACTAACTGGA +GGACCGAACCGACTAATGTTGAAAAATTAGCGGATGACTTGTGGCTGGGGGTGAAAGGCCAATCAAACCG +GGAGATAGCTGGTTCTCCCCGAAAGCTATTTAGGTAGCGCCTCGTGAATTCATCTCCGGGGGTAGAGCAC +TGTTTCGGCAAGGGGGTCATCCCGACTTACCAACCCGATGCAAACTGCGAATACCGGAGAATGTTATCAC +GGGAGACACACGGCGGGTGCTAACGTCCGTCGTGAAGAGGGAAACAACCCAGACCGCCAGCTAAGGTCCC +AAAGTCATGGTTAAGTGGGAAACGATGTGGGAAGGCCCAGACAGCCAGGATGTTGGCTTAGAAGCAGCCA +TCATTTAAAGAAAGCGTAATAGCTCACTGGTCGAGTCGGCCTGCGCGGAAGATGTAACGGGGCTAAACCA +TGCACCGAAGCTGCGGCAGCGACGCTTATGCGTTGTTGGGTAGGGGAGCGTTCTGTAAGCCTGCGAAGGT +GTGCTGTGAGGCATGCTGGAGGTATCAGAAGTGCGAATGCTGACATAAGTAACGATAAAGCGGGTGAAAA +GCCCGCTCGCCGGAAGACCAAGGGTTCCTGTCCAACGTTAATCGGGGCAGGGTGAGTCGACCCCTAAGGC +GAGGCCGAAAGGCGTAGTCGATGGGAAACAGGTTAATATTCCTGTACTTGGTGTTACTGCGAAGGGGGGA +CGGAGAAGGCTATGTTGGCCGGGCGACGGTTGTCCCGGTTTAAGCGTGTAGGCTGGTTTTCCAGGCAAAT +CCGGAAAATCAAGGCTGAGGCGTGATGACGAGGCACTACGGTGCTGAAGCAACAAATGCCCTGCTTCCAG +GAAAAGCCTCTAAGCATCAGGTAACATCAAATCGTACCCCAAACCGACACAGGTGGTCAGGTAGAGAATA +CCAAGGCGCTTGAGAGAACTCGGGTGAAGGAACTAGGCAAAATGGTGCCGTAACTTCGGGAGAAGGCACG +CTGATATGTAGGTGAAGCGACTTGCTCGTGGAGCTGAAATCAGTCGAAGATACCAGCTGGCTGCAACTGT +TTATTAAAAACACAGCACTGTGCAAACACGAAAGTGGACGTATACGGTGTGACGCCTGCCCGGTGCCGGA +AGGTTAATTGATGGGGTCAGCGCAAGCGAAGCTCTTGATCGAAGCCCCGGTAAACGGCGGCCGTAACTAT +AACGGTCCTAAGGTAGCGAAATTCCTTGTCGGGTAAGTTCCGACCTGCACGAATGGCGTAATGATGGCCA +GGCTGTCTCCACCCGAGACTCAGTGAAATTGAACTCGCTGTGAAGATGCAGTGTACCCGCGGCAAGACGG +AAAGACCCCGTGAACCTTTACTATAGCTTGACACTGAACATTGAGCCTTGATGTGTAGGATAGGTGGGAG +GCTTTGAAGTGTGGACGCCAGTCTGCATGGAGCCGACCTTGAAATACCACCCTTTAATGTTTGATGTTCT +AACGTGGACCCGTGATCCGGGTTGCGGACAGTGTCTGGTGGGTAGTTTGACTGGGGCGGTCTCCTCCTAA +AGAGTAACGGAGGAGCACGAAGGTTGGCTAATCCTGGTCGGACATCAGGAGGTTAGTGCAATGGCATAAG +CCAGCTTGACTGCGAGCGTGACGGCGCGAGCAGGTGCGAAAGCAGGTCATAGTGATCCGGTGGTTCTGAA +TGGAAGGGCCATCGCTCAACGGATAAAAGGTACTCCGGGGATAACAGGCTGATACCGCCCAAGAGTTCAT +ATCGACGGCGGTGTTTGGCACCTCGATGTCGGCTCATCACATCCTGGAGCTGAAGTAGGTCCCAAGGGTA +TGGCTGTTCGCCATTTAAAGTGGTACGCGAGCTGGGTTTAGAACGTCGTGAGACAGTTCGGTCCCTATCT +GCCGTGGGCGCTGGAGAACTGAGGGGGGCTGCTCCTAGTACGAGAGGACCGGAGTGGACGCATCACTGGT +GTTCGGGTTGTCATGCCAATGGCACTGCCCGGTAGCTAAATGCGGAAGAGATAAGTGCTGAAAGCATCTA +AGCACGAAACTTGCCCCGAGATGAGTTCTCCCTGACTCCTTGAGAGTCCTGAAGGAACGTTGAAGACGAC +GACGTTGATAGGCCGGGTGTGTAAGCGCAGCGATGCGTTGAGCTAACCGGTACTAATGAACCGTGAGGCT +TAACCTTACAACGCCGAAGATGTTTTGGCGGATGAGAGAAGATTTTCAGCCTGATACAGATTAAATCAGA +ACGCAGAAGCGGTCTGATGAAACAGAATTTGCCTGGCGGCCGTAGCGCGGTGGTCCCACCTGACCCCATG +CCGAACTCAGAAGTGAAACGCCGTAGCGCCGATGGTAGTGTGGGGTCTCCCCATGCGAGAGTAGGGAACT +GCCAGGCATCAAATTAAGCAGTAAGCCGGTCATAAAACCGGTGGTTGTAAAAGAATTCGGTGGAGCGGTA +GTTCAGTCGGTTAGAATACCTGCCTGTCACGCAGGGGGTCGCGGGTTCGAGTCCCGTCCGTTCCGCCACC +CTAATTAGGGGCGTAGTTCAATTGGTAGAGCACCGGTCTCCAAAACCGGGTGTTGGGAGTTCGAGTCTCT +CCGCCCCTGCCAGAAATCATCCTTAGCGAAAGCTAAGGATTTTTTTTATCTGAAATAACCCTCTCCGAAG +TAAATCCTTCTACCGGCATCCTTGCCAGCCATTCATATTAATACACTTCATCCAGCACGTTAATTTTCAA +AAGATCGCGAATCAACGCATTTTTATCGCTATTTTGCAGCCATATGGCATAAAGCGGCCGTGAAAGTGTT +GTGCTATCGACAACGGTATGCAGGCCGCCTTTTTTACGCGCCCAGCTGACGGGTAGCCAGGTGCAACCAT +TAAGCATCGCAATCTGTTGCTGTGCCAGTTCAGCAGAACTGGTTGTCAGAATGGGCACTTCGTCAGCACC +GATCAAACCTGCCTCATGCTGTTGAAAATCTGGCCCCCACTCAAGTCGCAGATAATTAAGATCTCCCTTT +AGTTTTGAAGGGGCACTGGTATAAAGCGCTAAAGTGAAATATCCCAGCAACTGACTACTAAATTCGTCCA +TTTTGGGCGCTTCAGTGGTAATAAGAAGATCAAGCTGGCGTTCATGCAGCTGTTTTACCAGAGACTGCCG +TTGGGCAATTCGCGCTTCGAACTGTAAGCCTGTATGGGCATCCTGATTTTGATACAAGCGTCCCAGCCAC +TGATTAAGCATACATTCCCACAACGAGGCGCTGGCACCGATAGAAAACTCGTTATGTCGTGAGGTATGCG +CCACCTCCTTACGGGCGGCCTGCCAGGTGCTCATGAGCGTTTCTGCATAAGGCAGTAGTTTTTCACCGGC +AGCGGTTAAACGGATATTGTTTCTGTGGCGGGTGAAAAGGTTCACACCCAGTTGATTTTCCAGTTGTCTG +ATTCGAAAGCTCACTGCTGACTGGGTCAGATAGAGCGATTCAGCCGCTCGACCAAAGTGACGCGTTCGGC +TAACTTCCAGGAAAGTTTTTAACAATTCCGTATCCACAGTGCTCTCCGCAAAATTATTTGTCGTTATGAT +TTAAATGTTTTGTTTTACACTCTGTCAAGCGTAACTAATACTCCGCGCCATAACTAGCTCGGTCAAAGAA +TTAGGAGCGTGCAGGATGGCGGAAAGCTTTACGACGACTAATCGATATTTCGACAATAAACATTATCCAC +GTGGATTCTCTCGTCATGGTGATTTCACCATCAAAGAGGCACAACTGCTTGAGCGTCATGGTTATGCCTT +CAATGAGTTGGATCTTGGCAAACGCGAGCCGGTTACCGAGGAAGAGAAACTCTTCGTAGCAGTATGCCGT +GGCGAACGTGAGCCAGTGACAGAAGCAGAACGCGTGTGGTCCAAGTATATGACGCGTATTAAGCGTCCAA +AACGTTTTCACACCCTTTCCGGCGGTAAACCGCAGGTTGAAGGTGCTGAAGACTACACCGATTCTGACGA +TTAATAAAAAGGGCGAAATGCCCTTTTTTTATGTCAGTAGTTTCTGCAGATGGATGAGCAAACGGTCAAT +CGCTCGATAGCTAACTGCCTCCTGCAAATGCTGACGTGTGATAATGTCAGACTGATCAATATCAGCAATG +GTTCGTGCAACTTTCAATAACCGCTGCCAGGCACGAATCGATAACCCCAGATGGATCAGTGTTCCTTCCA +ACCACATCGCATCTTCGCTCTCAAGTTTGCAGAATTGGCGTATTTCCGGACTATCCAGCCAGGCATTCAG +TTTATTCTGCCGCTTAAATTGGCGCTCTCTGGCGGCCATTACGCGTTGTTTAACGGTGGCGCTGCTTTCT +CCCGGCACTACCGTTTTACTCAAAATGCCGGGGGGTGGTAATGGGATCTCCAGTGAGAGATCGAAGCGGT +CGAGAAAGGGCCCCGAGAGCCGGTTGAGATAACGTAATGTCTGTTCTGGCGTGCAGCGGTTATGGTTTCC +CTGATAATGTCCGGTAGGGCTGGGATTCATCGCCGCAACAAGCTGGAAACGGGCTGGATAGGTTATTTTT +GCTCGTGTGCGTGAAAGATGGATCTGCCCGGATTCAATCGGCTCTCGCAAGGCATCCAGTGTACGCCGTT +CAAATTCAGGTAGCTCATCAAGAAAAAGCACGCCGTTATGCGCCAGCGAAATTTCACCGGGCCCTGGAAT +TGCGCCACCGCCTACCATCGCAGTTAACGATGCACTGTGATGAGGTGAGCGGAACGGGCGCTGCCGCCAT +TGTTTTTGTACTGATTCAGCATTTACCAGACTTAATATCGCAGCACTCTCCAGTGCCTCTTCATTGCTTA +AATCTGGCAACAGGCCATTAATACGGCTGGCGAGCATTGTTTTACCTGTTCCCGGCGGCCCAATCAGTAA +AAGGTTGTGCCCGCCAGCAGCGGTAATTTCCAGTCCTCGCTTTCCTTGTTCCTGACCGATAACATCACTG +AGATCATGTTGTAGCGCCCGGGATACTGCATCAGTTGGTTTCGGGCGTTCGAGAGCGTGCTTACCTTCCA +GAAACGCACAGACAGCTTGCAGATGATCGGCTATCAGGCATCCTTCACCGTTAATTAGCCCCACTTCATC +TTCGTTATCTTTCGCGACGATAATTTTTCTGCCCGACTTAATAGCTTCAGTTGCACTGGAGATTGCGCCG +GGAACGCCACGCAGAGCGCCTGTAAGCGCCAGTTCTCCGACTAATTCATATTCATCTAACTTATTGGCTG +TAAGCTGTTCTGAGGCCGCCAGCAACGCAATGGCGATAGGTAAATCATATCGTCCCCCTTCTTTTGGCAG +ATCAGCTGGAGCCAGGTTGATGGTGATTTTTTTCGCCGGATATTCATATCCGCTATTGATAATGGCGCTG +CGCACGCGATCGCGAGCTTCTTTTACCGTTGTTTCTGGTAAGCCCACCATCGTTAAGCCGGGTAGACCTT +TACTGATATGTACCTCAACAGTGATCGGGGGCGCATTTACTCCCAGGGCTGCGCGGGTATGAACAATTGA +CAGTGACATAAGCCCTCCTTGAGTCACCATTATGTGCATAAGATATCGCTGCTGTAGCCCGCTAATTCGT +GAATTTTAGTGGCTGATTCCTGTTTATTTGTGCAAGTGAAGTTGAGTTGTTCTGGCGGTGGAATGATGCT +CGCAAAAATGCAGCGGACAAAGGATGAACTACGAGGAAGGGAACAACATTCATACTGAAATTGAATTTTT +TTCACTCACTATTTTATTTTTAAAAAACAACAATTTATATTGAAATTATTAAACGCATCATAAAAATCGG +CCAAAAAATATCTTGTACTATTTACAAAACCTATGGTAACTCTTTAGGCATTCCTTCGAACAAGATGCAA +GAAAAGACAAAATGACAGCCCTTCTACGAGTGATTAGCCTGGTCGTGATTAGCGTGGTGGTGATTATTAT +CCCACCGTGCGGGGCTGCACTTGGACGAGGAAAGGCTTAGAGATCAAGCCTTAACGAACTAAGACCCCCG +CACCGAAAGGTCCGGGGGTTTTTTTTGACCTTAAAAACATAACCGAGGAGCAGACAATGAATAACAGCAC +AAAATTCTGTTTCTCAAGATTCAGGACGGGGAACTAACTATGAATGGCGCACAGTGGGTGGTACATGCGT +TGCGGGCACAGGGTGTGAACACCGTTTTCGGTTATCCGGGTGGCGCAATTATGCCGGTTTACGATGCATT +GTATGACGGCGGCGTGGAGCACTTGCTATGCCGACATGAGCAGGGTGCGGCAATGGCGGCTATCGGTTAT +GCTCGTGCTACCGGCAAAACTGGCGTATGTATCGCCACGTCTGGTCCGGGCGCAACCAACCTGATAACCG +GGCTTGCGGACGCACTGTTAGATTCCATCCCTGTTGTTGCCATCACCGGTCAAGTGTCCGCACCGTTTAT +CGGCACTGACGCATTTCAGGAAGTGGATGTCCTGGGATTGTCGTTAGCCTGTACCAAGCACAGCTTTCTG +GTGCAGTCGCTGGAAGAGTTGCCGCGCATCATGGCTGAAGCATTCGACGTTGCCTGCTCAGGTCGTCCTG +GTCCGGTTCTGGTCGATATCCCAAAAGATATCCAGTTAGCCAGCGGTGACCTGGAACCGTGGTTCACCAC +CGTTGAAAACGAAGTGACTTTCCCACATGCCGAAGTTGAGCAAGCGCGCCAGATGCTGGCAAAAGCGCAA +AAACCGATGCTGTACGTTGGCGGTGGCGTGGGTATGGCGCAGGCAGTTCCGGCTTTGCGTGAATTTCTCG +CTGCCACAAAAATGCCTGCCACCTGTACGCTGAAAGGGCTGGGCGCAGTAGAAGCAGATTATCCGTACTA +TCTGGGCATGCTGGGGATGCACGGCACCAAAGCGGCAAACTTCGCGGTGCAGGAGTGTGACCTGCTGATC +GCCGTGGGCGCACGTTTTGATGACCGGGTGACCGGCAAACTGAACACCTTCGCGCCACACGCCAGTGTTA +TCCATATGGATATCGACCCGGCAGAAATGAACAAGCTGCGTCAGGCACATGTGGCATTACAAGGTGATTT +AAATGCTCTGTTACCAGCATTACAGCAGCCGTTAAATCAATGACTGGCAGCAACACTGCGCGCAGCTGCG +TGATGAACATTCCTGGCGTTACGACCATCCCGGTGACGCTATCTACGCGCCGTTGTTGTTAAAACAACTG +TCGGATCGTAAACCTGCGGATTGCGTCGTGACCACAGATGTGGGGCAGCACCAGATGTGGGCTGCGCAGC +ACATCGCCCACACTCGCCCGGAAAATTTCATCACCTCCAGCGGTTTAGGTACCATGGGTTTTGGTTTACC +GGCGGCGGTTGGCGCACAAGTCGCGCGACCGAACGATACCGTTGTCTGTATCTCCGGTGACGGCTCTTTC +ATGATGAATGTGCAAGAGCTGGGCACCGTAAAACGCAAGCAGTTACCGTTGAAAATCGTCTTACTCGATA +ACCAACGGTTAGGGATGGTTCGACAATGGCAGCAACTGTTTTTTCAGGAACGATACAGCGAAACCACCCT +TACTGATAACCCCGATTTCCTCATGTTAGCCAGCGCCTTCGGCATCCATGGCCAACACATCACCCGGAAA +GACCAGGTTGAAGCGGCACTCGACACCATGCTGAACAGTGATGGGCCATACCTGCTTCATGTCTCAATCG +ACGAACTTGAGAACGTCTGGCCGCTGGTGCCGCCTGGCGCCAGTAATTCAGAAATGTTGGAGAAATTATC +ATGATGCAACATCAGGTCAATGTATCGGCTCGCTTCAATCCAGAAACCTTAGAACGTGTTTTACGCGTGG +TGCGTCATCGTGGTTTCCACGTCTGCTCAATGAATATGGCCGCCGCCAGCGATGCACAAAATATAAATAT +CGAATTGACCGTTGCCAGCCCACGGTCGGTCGACTTACTGTTTAGTCAGTTAAATAAACTGGTGGACGTC +GCACACGTTGCCATCTGCCAGAGCACAACCACATCACAACAAATCCGCGCCTGAGCGCAAAAGGAATATA +AAAATGACCACGAAGAAAGCTGATTACATTTGGTTCAATGGGGAGATGGTTCGCTGGGAAGACGCGAAGG +TGCATGTGATGTCGCACGCGCTGCACTATGGCACTTCGGTTTTTGAAGGCATCCGTTGCTACGACTCGCA +CAAAGGACCGGTTGTATTCCGCCATCGTGAGCATATGCAGCGTCTGCATGACTCCGCCAAAATCTATCGC +TTCCCGGTTTCGCAGAGCATTGATGAGCTGATGGAAGCTTGTCGTGACGTGATCCGCAAAAACAATCTCA +CCAGCGCCTATATCCGTCCGCTGATCTTCGTCGGTGATGTTGGCATGGGAGTAAACCCGCCAGCGGGATA +CTCAACCGACGTGATTATCGCTGCTTTCCCGTGGGGAGCGTATCTGGGCGCAGAAGCGCTGGAGCAGGGG +ATCGATGCGATGGTTTCCTCCTGGAACCGCGCAGCACCAAACACCATCCCGACGGCGGCAAAAGCCGGTG +GTAACTACCTCTCTTCCCTGCTGGTGGGTAGCGAAGCGCGCCGCCACGGTTATCAGGAAGGTATCGCGCT +GGATGTGAACGGTTATATCTCTGAAGGCGCAGGCGAAAACCTGTTTGAAGTGAAAGATGGTGTGCTGTTC +ACCCCACCGTTCACCTCCTCCGCGCTGCCGGGTATTACCCGTGATGCCATCATCAAACTGGCGAAAGAGC +TGGGAATTGAAGTACGTGAGCAGGTGCTGTCGCGCGAATCCCTGTACCTGGCGGATGAAGTGTTTATGTC +CGGTACGGCGGCAGAAATCACGCCAGTGCGCAGCGTAGACGGTATTCAGGTTGGCGAAGGCCGTTGTGGC +CCGGTTACCAAACGCATTCAGCAAGCCTTCTTCGGCCTCTTCACTGGCGAAACCGAAGATAAATGGGGCT +GGTTAGATCAAGTTAATCAATAAATACAAAAAATGGGACGGCACGCACCGTCCCATTTACGAGACAGACA +CTGGGAGTAAATAAAGTATGCCTAAGTACCGTTCCGCCACCACCACTCATGGTCGTAATATGGCGGGTGC +TCGTGCGCTGTGGCGCGCCACCGGAATGACCGACGCCGATTTCGGTAAGCCGATTATCGCGGTTGTGAAC +TCGTTCACCCAATTTGTACCGGGTCACGTCCATCTGCGCGATCTCGGTAAACTGGTCGCCGAACAAATTG +AAGCGGCTGGCGGCGTTGCCAAAGAGTTCAACACCATTGCGGTGGATGATGGGATTGCCATGGGCCACGG +GGGGATGCTTTATTCACTGCCATCTCGCGAACTGATCGCTGATTCCGTTGAGTATATGGTCAACGCCCAC +TGCGCCGACGCCATGGTCTGCATCTCTAACTGCGACAAAATCACCCCGGGGATGCTGATGGCTTCCCTGC +GCCTGAATATTCCGGTGATCTTTGTTTCCGGCGGCCCGATGGAGGCCGGGAAAACCAAACTTTCCGATCA +GATCATCAAGCTCGATCTGGTTGATGCGATGATCCAGGGCGCAGACCCGAAAGTATCTGACTCCCAGAGC +GATCAGGTTGAACGTTCCGCGTGTCCGACCTGCGGTTCCTGCTCCGGGATGTTTACCGCTAACTCAATGA +ACTGCCTGACCGAAGCGCTGGGCCTGTCGCAGCCGGGCAACGGCTCGCTGCTGGCAACCCACGCCGACCG +TAAGCAGCTGTTCCTTAATGCTGGTAAACGCATTGTTGAATTGACCAAACGTTATTACGAGCAAAACGAC +GAAAGTGCACTGCCGCGTAATATCGCCAGTAAGGCGGCGTTTGAAAACGCCATGACGCTGGATATCGCGA +TGGGTGGATCGACTAACACCGTACTTCACCTGCTGGCGGCGGCGCAGGAAGCGGAAATCGACTTCACCAT +GAGTGATATCGATAAGCTTTCCCGCAAGGTTCCACAGCTGTGTAAAGTTGCGCCGAGCACCCAGAAATAC +CATATGGAAGATGTTCACCGTGCTGGTGGTGTTATCGGTATTCTCGGCGAACTGGATCGCGCGGGGTTAC +TGAACCGTGATGTGAAAAACGTACTTGGCCTGACGTTGCCGCAAACGCTGGAACAATACGACGTTATGCT +GACCCAGGATGACGCGGTAAAAAATATGTTCCGCGCAGGTCCTGCAGGCATTCGTACCACACAGGCATTC +TCGCAAGATTGCCGTTGGGATACGCTGGACGACGATCGCGCCAATGGCTGTATCCGCTCGCTGGAACACG +CCTACAGCAAAGACGGCGGCCTGGCGGTGCTCTACGGTAACTTTGCGGAAAACGGCTGCATCGTGAAAAC +GGCAGGCGTCGATGACAGCATCCTCAAATTCACCGGCCCGGCGAAAGTGTACGAAAGCCAGGACGATGCG +GTAGAAGCGATTCTCGGCGGTAAAGTTGTCGCCGGAGATGTGGTAGTAATTCGCTATGAAGGCCCGAAAG +GCGGTCCGGGGATGCAGGAAATGCTCTACCCAACCAGCTTCCTGAAATCAATGGGTCTCGGCAAAGCCTG +TGCGCTGATCACCGACGGTCGTTTCTCTGGTGGCACCTCTGGTCTTTCCATCGGCCACGTCTCACCGGAA +GCGGCAAGCGGCGGCAGCATTGGCCTGATTGAAGATGGTGACCTGATCGCTATCGACATCCCGAACCGTG +GCATTCAGTTACAGGTAAGCGATGCCGAACTGGCGGCGCGTCGTGAAGCGCAGGACGCTCGAGGTGACAA +AGCCTGGACGCCGAAAAATCGTGAACGTCAGGTCTCCTTTGCCCTGCGTGCTTATGCCAGCCTGGCAACC +AGCGCCGACAAAGGCGCGGTGCGCGATAAATCGAAACTGGGGGGTTAATAATGGCTGACTCGCAACCCCT +GTCCGGTGCTCCGGAAGGTGCCGAATATTTAAGAGCAGTGCTGCGCGCGCCGGTTTACGAGGCGGCGCAG +GTTACGCCGCTACAAAAAATGGAAAAACTGTCGTCGCGTCTTGATAACGTCATTCTGGTGAAGCGCGAAG +ATCGCCAGCCAGTGCACAGCTTTAAGCTGCGCGGCGCATACGCCATGATGGCGGGCCTGACGGAAGAACA +GAAAGCGCACGGCGTGATCACTGCTTCTGCGGGTAACCACGCGCAGGGCGTCGCGTTTTCTTCTGCGCGG +TTAGGCGTGAAGGCCCTGATCGTTATGCCAACCGCCACCGCCGACATCAAAGTCGACGCGGTGCGCGGCT +TCGGCGGCGAAGTGCTGCTCCACGGCGCGAACTTTGATGAAGCGAAAGCCAAAGCGATCGAACTGTCACA +GCAGCAGGGGTTCACCTGGGTGCCGCCGTTCGACCATCCGATGGTGATTGCCGGGCAAGGCACGCTGGCG +CTGGAACTGCTCCAGCAGGACGCCCATCTCGACCGCGTATTTGTGCCAGTCGGCGGCGGCGGTCTGGCTG +CTGGCGTGGCGGTGCTGATCAAACAACTGATGCCGCAAATCAAAGTGATCGCCGTAGAAGCGGAAGACTC +CGCCTGCCTGAAAGCAGCGCTGGATGCGGGTCATCCGGTTGATCTGCCGCGCGTAGGGCTATTTGCTGAA +GGCGTAGCGGTAAAACGCATCGGTGACGAAACCTTCCGTTTATGCCAGGAGTATCTCGACGACATCATCA +CCGTCGATAGCGATGCGATCTGTGCGGCGATGAAGGATTTATTCGAAGATGTGCGCGCGGTGGCGGAACC +CTCTGGCGCGCTGGCGCTGGCGGGAATGAAAAAATATATCGCCCTGCACAACATTCGCGGCGAACGGCTG +GCGCATATTCTTTCCGGTGCCAACGTGAACTTCCACGGCCTGCGCTACGTCTCAGAACGCTGCGAACTGG +GCGAACAGCGTGAAGCGTTGTTGGCGGTGACCATTCCGGAAGAAAAAGGCAGCTTCCTCAAATTCTGCCA +ACTGCTTGGCGGGCGTTCGGTCACCGAGTTCAACTACCGTTTTGCCGATGCCAAAAACGCCTGCATCTTT +GTCGGTGTGCGCCTGAGCCGCGGCCTCGAAGAGCGCAAAGAAATTTTGCAGATGCTCAACGACGGCGGCT +ACAGCGTGGTTGATCTCTCCGACGACGAAATGGCGAAGCTACACGTGCGCTATATGGTCGGCGGACGTCC +ATCGCATCCGTTGCAGGAACGCCTCTACAGCTTCGAATTCCCGGAATCACCGGGCGCGCTGCTGCGCTTC +CTCAACACGCTGGGTACGTACTGGAACATTTCTTTGTTCCACTATCGCAGCCATGGCACCGACTACGGGC +GCGTACTGGCGGCGTTCGAACTTGGCGACCATGAACCGGATTTCGAAACCCGGCTGAATGAGCTGGGCTA +CGATTGCCACGACGAAACCAATAACCCGGCGTTCAGGTTCTTTTTGGCGGGTTAGGGAAAAATGCCTGAT +AGCGCTTCGCTTATCAGGCCTACCCGCGCGACAACGTCATTTGTGGTTCGGCAAAATCTTCCAGAATGCC +TCAATTAGCGGCTCATGTAGCCGCTTTTTCTGCGCACACACGCCCAGCTCAAACGGCGTTTTCTCATCGC +TGCGCTCTAAAATCATCACGCGGTTACGCACCGGTTCGGGGCTGTTTTCCAGCACCACTTCCGGCAACAA +TGCCACGCCACAGCCGAGTGCCACCATCGATACCATCGCTTCATGCCCGCCAACCGTGGCGTAAATCATC +GGGTTACTGATTTTATTGCGTCGAAACCACAGTTCAATGCGGCGGCGTACCGGCCCCTGATCGGCCATAA +TAAACGGCACCGTTGACCAGTCCGGCTTCTCTACCGACACCTGATTACGCACCGGGCAGGGCAGCGCGGG +GGCAATCAGCACTACTGCCAGATTCTCCAGCATCGAAAACGCCACTGCGCCGGGCAAGGTTTCCGGTTTA +CCCGCAATCGCCAGATCCGCTTCACCAGTGACCACCTTTTCCATCGCATCTGCCGCATCACCAGTAGTAA +GTTTAATCTCCACCGACGGGTGTTCCGCGCGGAAGCGATCCAGAATCGGCGGCAGATGGCTGTAGGCAGC +GGTCACCGAGCAGAAGATATGTAATTCGCCAGAGAGCGACGGCCCTTGCTGATCGATGGTGTGGCGCAAC +TGCTGATACTGCAACAGCGTTTGCTGGGCGAAAACGCGCAGCTCTTCGCCCGCTTCAGTCAGCGTCACCG +TGCGGTTATCGCGCACAAACAGCGGCTGACCGAGATCTTCTTCCAGGCGCTGAATCTGCCGTGAGAGCGT +GGATGGGCTAACGTGCATCGCCCGCGCGCTGCGGCCAAAATGGCGGCTTTCCGCCAGATGCAGGAAGGTT +TTCAGATCGCGTAAATCCACAGGGACAGCCCTCGATGTTGACGTTGCAAAAATTGCAATGTGACGTTGTG +AATATATCAATTTCCGCAATAAATTTCCTGTCATATAGTGAATTCAATCTCGCAAACGCGAACCGAACAA +TAAGAAGCACAACATCACGAGGAATCACCATGGCTAACTACTTCAATACACTGAATCTGCGCCAGCAGCT +GGCACAGCTGGGCAAATGTCGCTTTATGGGCCGCGATGAATTCGCCGATGGCGCGAGCTACCTTCAGGGT +AAAAAAGTAGTCATCGTCGGCTGTGGCGCACAGGGTCTGAACCAGGGCCTGAACATGCGTGATTCTGGTC +TCGATATCTCCTACGCTCTGCGTAAAGAAGCGATTGCCGAGAAGCGCGCGTCCTGGCGTAAAGCGACCGA +AAATGGTTTTAAAGTGGGTACTTACGAAGAACTGATCCCACAGGCGGATCTGGTGATTAACCTGACGCCG +GACAAGCAGCACTCTGATGTAGTGCGCACCGTACAGCCACTGATGAAAGACGGCGCGGCGCTGGGCTACT +CGCACGGTTTCAACATCGTCGAAGTGGGCGAGCAGATCCGTAAAGATATCACCGTAGTGATGGTTGCGCC +GAAATGCCCAGGCACCGAAGTGCGTGAAGAGTACAAACGTGGGTTCGGCGTACCGACGCTGATTGCCGTT +CACCCGGAAAACGATCCGAAAGGCGAAGGCATGGCGATTGCCAAAGCCTGGGCGGCTGCAACCGGTGGTC +ACCGTGCGGGTGTGCTGGAATCGTCCTTCGTTGCGGAAGTGAAATCTGACCTGATGGGCGAGCAAACCAT +CCTGTGCGGTATGTTGCAGGCTGGCTCTCTGCTGTGCTTCGACAAGCTGGTGGAAGAAGGTACCGATCCA +GCATACGCAGAAAAACTGATTCAGTTCGGTTGGGAAACCATCACCGAAGCACTGAAACAGGGCGGCATCA +CCCTGATGATGGACCGTCTCTCTAACCCGGCGAAACTGCGTGCTTATGCGCTTTCTGAACAGCTGAAAGA +GATCATGGCACCCCTGTTCCAGAAACATATGGACGACATCATCTCCGGCGAATTCTCTTCCGGTATGATG +GCGGACTGGGCCAACGATGATAAGAAACTGCTGACCTGGCGTGAAGAGACCGGCAAAACCGCGTTTGAAA +CCGCGCCGCAGTATGAAGGCAAAATCGGCGAGCAGGAGTACTTCGATAAAGGCGTACTGATGATTGCGAT +GGTGAAAGCGGGCGTTGAACTGGCGTTCGAAACCATGGTCGATTCCGGCATCATTGAAGAGTCTGCATAT +TATGAATCACTGCACGAGCTGCCGCTGATTGCCAACACCATCGCCCGTAAGCGTCTGTACGAAATGAACG +TGGTTATCTCTGATACCGCTGAGTACGGTAACTATCTGTTCTCTTACGCTTGTGTGCCGTTGCTGAAACC +GTTTATGGCAGAGCTGCAACCGGGCGACCTGGGTAAAGCTATTCCGGAAGGCGCGGTAGATAACGGGCAA +CTGCGTGATGTGAACGAAGCGATTCGCAGCCATGCGATTGAGCAGGTAGGTAAGAAACTGCGCGGCTATA +TGACAGATATGAAACGTATTGCTGTTGCGGGTTAAGTGCGCGCTGATGCCCTCACCCCGACCCTCTCCCA +CAGGGAGAGGGAGAAAACACTCAAGGCCTTCTCCTGGAGAAGGCCTTGCTATTAGTTGCGGTACAGCACC +TTAATGATGTGATATCCGAACTGGGTGTGCAGCGGGCCGGTCGGCTCCAGTACCGGACAAGAGAAAACCA +CTTTATCGAACGCCGGAACCATCTGACCCTGGCGGAATTCACCTAAATCACCGCCGCGTTTGCCTGATGG +GCAAATGGAGTGTTTCTTCGCCAGCTTGCCGAAATCGGCCCCGTTCTTAATCTGCTCGAGAAGATCCAGA +GCCAGTTTCTCTTCTTTTACAAGGATATGCAGTGCTGCTGCTGTTTTTGCCATGATCGTGCCTTGAGTGA +ATAATTGTCAGGCGGCGATTTTAGCATGATCCGCAGATGCTAACGTAATTGTCAGTCAGGGAGTGGCTGG +TACATATATGGCAAAAGCCCGGAAAATCCGGGCTTCGCAGGTCCCTCAAGGGGAGAAAACTTAGGGCCTC +TATGGGCTACAAAGTCATTATCGGGGATGGTTATTTTATTGTCAATTTATGAGCGATATGGCATTGATTG +ACTTGATGACCGCCCTCTGTATGTCTGCAACCAACTCATGTGGCAAACATTGATTAAGATACCCTCTGTA +AGTCCTTGCTCTGTTTAATCTGTTTCGACTGACTTGTTGTACCAGGTCGGCTTTGGCCCAACGAATCTGC +TGATCAAAGAATTGCAGGTCATTGATAACATTACTGGCTATTTCAACATGCATTCCACGTTTTAACTTGT +CTGGTCGCGAGTGGTTGATAATGGAACGACGATGCATGCGTTGCCATTAATTTTTCCGTTGAGCACGACA +ACTAACCTGTTTTTTATCATTTCAGGAGGAATGCGGCCATCGTAATACGTCGTGCTGAACGGTCCATTTT +GGCTAACAGGATAGTTACCAAAGTTGCATTCCAGTATTTCACCAACCTTAGGGCTGAAATTAATCGCCAC +GAGTAAACCTCTCCTTAGTAAACTCTGAAAAAGTAATAACACAACGTTACGACCCGATATTTTCTAAGTC +TAATGGATTCACGATGAACTCCGATTTCGGTCTTCTCTCTCTGATTTAAACATCCGCAGCCAACCGGTTA +GCGGCTTACACGCGGTCACATTCAAATGCGATTCTGCTACAATCCTCCCCCCGTTCGAAGATTGAGCAAT +ACACCTATGCGTCTAAACCCCGGCCAACAACAAGCTGTCGAATTCGTTACCGGCCCCTGCCTGGTGCTGG +CGGGCGCGGGTTCCGGTAAAACTCGTGTTATCACCAATAAAATCGCCCATCTGATCCGCGGTTGCGGTTA +TCAGGCGCGGCACATTGCGGCGGTGACCTTTACTAATAAAGCAGCGCGCGAGATGAAAGAGCGTGTAGGG +CAGACGCTGGGGCGCAAAGAGGCGCGTGGGCTGATGATCTCCACTTTCCATACGTTGGGGCTGGATATCA +TCAAACGCGAGTATGCGGCGCTTGGGATGAAAGCGAACTTCTCGTTGTTTGACGATACCGATCAGCTTGC +TTTGCTTAAAGAGTTGACCGAGGGGCTGATTGAAGATGACAAAGTTCTCCTGCAACAACTGATTTCGACC +ATCTCTAACTGGAAGAATGATCTCAAAACACCGTCCCAGGCGGCAGCAAGTGCGATTGGCGAGCGGGACC +GTATTTTTGCCCATTGTTATGGGCTGTATGATGCACACCTGAAAGCCTGTAACGTTCTCGACTTCGATGA +TCTGATTTTATTGCCGACGTTGCTGCTGCAACGCAATGAAGAAGTCCGCAAGCGCTGGCAGAACAAAATT +CGCTATCTGCTGGTGGATGAGTATCAGGACACCAACACCAGCCAGTATGAGCTGGTGAAACTGCTGGTGG +GCAGCCGCGCGCGCTTTACCGTGGTGGGTGACGATGACCAGTCGATCTACTCCTGGCGCGGTGCACGTCC +GCAAAACCTGGTGCTGCTGAGTCAGGATTTTCCGGCGCTGAAGGTGATTAAGCTTGAGCAGAACTATCGC +TCTTCCGGGCGTATTCTGAAAGCGGCGAACATCCTGATCGCCAATAACCCGCACGTCTTTGAAAAGCGTC +TGTTCTCCGAACTGGGTTATGGCGCGGAGCTAAAAGTATTAAGCGCGAATAACGAAGAACATGAGGCTGA +GCGCGTTACTGGCGAGCTGATCGCCCATCACTTCGTCAATAAAACGCAGTACAAAGATTACGCCATTCTT +TATCGCGGTAACCATCAGTCGCGGGTGTTTGAAAAATTCCTGATGCAAAACCGCATCCCGTACAAAATAT +CTGGTGGTACGTCGTTTTTCTCTCGTCCTGAAATCAAGGACTTGCTGGCTTATCTGCGCGTGCTGACTAA +CCCGGACGATGACAGCGCATTTCTGCGTATCGTTAACACGCCGAAGCGAGAGATTGGCCCGGCTACGCTG +AAAAAGCTGGGTGAGTGGGCGATGACGCGCAATAAAAGCATGTTTACCGCCAGCTTTGATATGGGCCTGA +GTCAGACGCTTAGCGGACGTGGTTATGAAGCATTGACCCGCTTCACTCACTGGTTGGCAGAAATCCAGCG +TCTGGCGGAGCGGGAGCCGATTGCCGCGGTGCGTGATCTGATCCATGGCATGGATTATGAATCCTGGCTG +TACGAAACATCGCCCAGCCCGAAAGCCGCCGAAATGCGCATGAAGAACGTCAACCAACTGTTTAGCTGGA +TGACGGAGATGCTGGAAGGCAGTGAACTGGATGAGCCGATGACGCTCACCCAGGTGGTGACGCGCTTTAC +TTTGCGCGACATGATGGAGCGTGGTGAGAGTGAAGAAGAGCTGGATCAGGTGCAACTGATGACTCTCCAC +GCGTCGAAAGGGCTGGAGTTTCCTTATGTCTACATGGTCGGTATGGAAGAAGGGTTTTTGCCGCACCAGA +GCAGCATCGATGAAGATAATATCGATGAGGAGCGGCGGCTGGCCTATGTCGGCATTACCCGCGCCCAGAA +GGAATTGACCTTTACGCTGTGTAAAGAACGCCGTCAGTACGGCGAACTGGTGCGCCCGGAGCCGAGCCGC +TTTTTGCTGGAGCTGCCGCAGGATGATCTGATTTGGGAACAGGAGCGCAAAGTGGTCAGCGCCGAAGAAC +GGATGCAGAAAGGGCAAAGCCATCTGGCGAATCTGAAAGCGATGATGGCGGCAAAACGAGGGAAATAATC +AAGGCCGGAAAAGATGCGTCAGCATCGCATCCGGCACTTACTCATTAATGCACTTCCAGCGGCCAGTGGA +CATAGCTCTGCCACTGGCTTTCCTGAGCAATAATCTCTTTACCCAGCGGATGTTGGGTTAGCCAACCTTG +CGGAAGCGTCAAGGTCAACAGTTCATGGTTAGCCTGTAATGTCATCTCTGGCACGAGATCGTCACGGCGA +CGGCTGGCAAAAATGATGGCCAGGCGTAGTAAACGGCAGAGTTGTTCTGCGACGCGCGGCGGTACGGCAT +TTTGCTGATGCAGCGATGAGAGATCGACCGGATTAGTCTGGTTGAGCAGTAGCGTCGCCAGCAATTTTTT +CTGTGCGGGGGTAAAACCGGGAAGATCCAGATTACGCACCAGATAAGCAGCGTGTTGCGGCGCTTGTTTG +AAGTCAACGCTCAGGCCGATTTCATGAAGCTGACAGGCGCTGATGAGCAAATCGCGGCTTATTGCTTCAA +GATGCCATTCGTTTTCCACCTGATCGAAGAAGTTAGCCGCAACTTTGGCTACGCGCTGTGCCTGATCAAT +ATCGATCATAAAGCGGCGTTGAATATTACGCAGCGTACGGCTGCGAATATCCTGCTCGACGGCCAGATGC +AACATGCCGTAGACCAGGCCTTCACGCAGCGCACCGCCCGCCAGGGTCATACACTGAATATTCAGTTCGG +TAAAAATGGCGATCAGGATCGCCAGACCACTCGGGAACACTAACGCACGTTCCAGCGTCAGCCCGTCAAT +CTCCAGTTCCTCCAGCCGACCGCAATGAATGGCTCGCTGTTTCAATTGCTGCAACTTTTCCAGGGTAATG +CGTTCATCCATCCCCTGTGCCATCATGATTTCCTGTAACGCCTGCACGGTGCCGGAAGCACCAACGCACA +CTTTCCAGCCGTGATACCGTAATTCATCGGCAACCGGACGTAACACTTCGCGTGCCGCTTTTTCTGCAGC +ATCAAAATTTTCCTGCCCCAGATTACGATCGGCAAAATAGCGTTCCAGCCAGGTGACGCAGCCCATCGAC +AGGCTGAACAACGAGGTGGTTTGTGCACCCGTGCCGGTTACCAGTTCAGTACTGGCTCCGCCTATATCCA +CCACCAGGCGCTGATCGGCACCACCAGTGGTGTGAGCAACGCCCTGATAAATCAGACGTGCTTCCTCTTC +ACCGCTGATCACCTGTACCGGACAACCGAGAATTTCCTGCGCTTTGGCAATAAAATCACCCGCATTGACG +GCAAGGCGTAACGTCGCCGTAGCGACAACGCGAATTTGCGAGGGAGGAATATCTTGCAGACGTTCAGCAA +ACAGGCGCAAACATTGCCAACCGCGCTCCATTGCTTCATTGGAGAGGGCATTTTCGCTATTCAGGCCAGC +AGCCAGACGCACTTTGCGTTTTATTCGCGTCAGCGTCTGGATGCTTCCAGCCACCTCGCGCACAACCAGC +ATATGAAAACTATTCGAACCGAGATCAATGGCTGCATACAGCGACGAGGTGGAACCCATACTCTTCATCC +TTCAATCTGTCTCTGTGTTGGCTGCATTCTTTCACCTGAATCACTTACTACAGTAAGCTCATCGGGATTC +ATTCTCTTGCCATCTTGATACAGTTTGAATGATTTTGAGTATGACATTTTTTATTTAACCTGAACGACGA +CGATTACGCGGAGCGCCAGTACGACGCGGACCATTGCCTGTGCGCGGGCGCGTGAGGCGCAGCGGTTTTG +GCAGATCGGTCATCAATGCGTCCGGATTGTATTTGCTTACCGGAATTGAGTGACCAATATAGGTCTCAAT +AGCAGGCAAATTCAATGCATACTCTTCACACGCCAGGCTGATAGAGTGACCGCTTGCGCCTGCGCGACCT +GTACGACCAATACGGTGAACGTAATCTTCACAGTCATCGGGTAAATCGTAGTTAAAGACGTGCGTCACTG +CCGGAATATGCAAACCACGCGCGGCAACGTCGGTGGCAACCAGAATATCCAGATCGCCACGGGTAAATTC +ATCAAGAATACGCAGACGTTTTTTCTGCGCGACATCGCCTGTCAATAAACCGACACGATGACCATCTGCT +GCCAGGTGGCCCCAGATCTCTTCACAACGGTGTTTGGTGTTGGCGAAAATAATCGCTCTGTCTGGCCACT +CTTCTTCGATCAGCGTTTGCAGCAAACGCATTTTTTCTTCGTTAGAAGGGTAGAAAAGCTCTTCTTTAAT +ACGGTGGCCCGTTTTCTGTTCCGGTTCCACTTCAATATATTCGGCATTGTTCATCTGCTCGAACGCCAGT +TCACGTACCCGGTACGAAAGCGTGGCGGAGAACAGCATGTTGAGGCGCTGGTTTGCAGGCGGCATACGGC +GGAACAGCCAGCGGATATCTTTAATAAAGCCCAGATCGTACATGCGATCGGCTTCGTCCAGTACCACCAC +CTGAATGGCACCGAGGTTAATGTGGTTCTGCTTGGCGTAGTCAATTAAACGCCCCGTGGTGCCAATCAGA +ATGTCAACGCCGCTTTCCAGCACTTTCAGCTGTTTGTCGTAGCCATCACCACCGTAAGCCAGACCCAGCT +TCAGGCCAGTAGCTTCCGCCAGCGGTTCTGCGTCGGCATGGATCTGCACGGCAAGTTCACGCGTCGGTGC +CATAATTAAGGCACGCGGCTGATTCACCTTGCGATCGGCAATCGCAGGATGAGAGAGAAGATAATGAAAC +GTTGACGTAAGAAACGCCATCGTTTTCCCGGTACCGGTTTGCGCCTGCCCGGCTACGTCACGACCCGCCA +GCGTCAGCGGAAGGGCCAGTGCCTGAATGGGCGTACAGTTATGAAACCCTTTTTTTTCAAGGGCTTCTAC +AACCTTCGGATGCAGGGCGAAGTCGGAAAACTTCTGTTCTGTTAAATGTGTTTTGCTCATAGTGTGGTAG +AATATCAGCTTACTATTGCTTTACGAAAGCGTATCCGGTGAAATAAAGTCAACCTTTAGTTGGTTAATGT +TACACCAACAACGAAACCAACACGCCAGGCTTATTCCTGTGGAGTTATATATGAGCGATAAAATTATTCA +CCTGACTGACGACAGTTTTGACACGGATGTACTCAAAGCGGACGGGGCGATCCTCGTCGATTTCTGGGCA +GAGTGGTGCGGTCCGTGCAAAATGATCGCCCCGATTCTGGATGAAATCGCTGACGAATATCAGGGCAAAC +TGACCGTTGCAAAACTGAACATCGATCAAAACCCTGGCACTGCGCCGAAATATGGCATCCGTGGTATCCC +GACTCTGCTGCTGTTCAAAAACGGTGAAGTGGCGGCAACCAAAGTGGGTGCACTGTCTAAAGGTCAGTTG +AAAGAGTTCCTCGACGCTAACCTGGCGTAAGGGAATTTCATGTTCGGGTGCCCCGTCGCTAAAAACTGGA +CGCCCGGCGTGAGTCATGCTAACTTAGTGTTGACTTCGTATTAAACATACCTTATTAAGTTTGAATCTTG +TAATTTCCAACGCTTCCCGTTTTATCTTAAATGCGAAGTGAACAGATTTCTGGCTCGTCACTCAATCCGT +CTTGTCGTTTCAGTTCTGCGTACTCTCCTGTGACCAGGCAGCGAAAAGACATGAGTCGATGACCGTAAAC +AGGCATGGATGATCCTGCCATACCATTCACAACATTAAGTTCGAGATTTACCCCAAGTTTAAGAACTCAC +ACCACTATGAATCTTACCGAATTAAAGAATACGCCGGTTTCTGAGCTGATCACTCTCGGCGAAAATATGG +GGCTGGAAAACCTGGCTCGTATGCGTAAGCAGGACATTATTTTTGCCATCCTGAAGCAGCACGCAAAGAG +TGGCGAAGATATCTTTGGTGATGGCGTACTGGAGATATTGCAGGATGGATTTGGTTTCCTCCGTTCCGCA +GACAGCTCCTACCTCGCCGGTCCTGATGACATCTACGTTTCCCCTAGCCAAATCCGCCGTTTCAACCTCC +GCACTGGTGATACCATCTCTGGTAAGATTCGCCCGCCGAAAGAAGGTGAACGCTATTTTGCGCTGCTGAA +AGTTAACGAAGTTAACTTCGACAAACCTGAAAACGCCCGCAACAAAATCCTCTTTGAGAACTTAACCCCG +CTGCACGCAAACTCTCGTCTGCGTATGGAACGTGGTAACGGTTCTACTGAAGATTTAACTGCTCGCGTAC +TGGATCTGGCATCACCTATCGGTCGTGGTCAGCGTGGTCTGATTGTGGCACCGCCGAAAGCCGGTAAAAC +CATGCTGCTGCAGAACATTGCTCAGAGCATTGCTTACAACCACCCGGATTGTGTGCTGATGGTTCTGCTG +ATCGACGAACGTCCGGAAGAAGTAACCGAGATGCAGCGTCTGGTAAAAGGTGAAGTTGTTGCTTCTACCT +TTGACGAACCCGCATCTCGCCACGTTCAGGTTGCGGAAATGGTGATCGAGAAGGCCAAACGCCTGGTTGA +GCACAAGAAAGACGTTATCATTCTGCTCGACTCCATCACTCGTCTGGCGCGCGCTTACAACACCGTTGTT +CCGGCGTCAGGTAAAGTGTTGACCGGTGGTGTGGATGCCAACGCCCTGCATCGTCCGAAACGCTTCTTTG +GTGCGGCGCGTAACGTGGAAGAGGGCGGCAGCCTGACCATTATCGCGACGGCGCTTATCGATACCGGTTC +TAAAATGGACGAAGTTATCTACGAAGAGTTTAAAGGTACAGGCAACATGGAACTGCACCTCTCTCGTAAG +ATCGCTGAAAAACGCGTCTTCCCGGCTATCGACTACAACCGTTCTGGTACCCGTAAAGAAGAGCTGCTCA +CGACTCAGGAAGAACTGCAGAAAATGTGGATCCTGCGCAAAATCATTCACCCGATGGGCGAAATCGATGC +AATGGAATTCCTCATTAATAAACTGGCAATGACCAAGACCAATGACGATTTCTTCGAAATGATGAAACGC +TCATAAATTTGTCTTATGCCAAAAACGCCACGTGTTTACGTGGCGTTTTGCTTTTATATCTGTAATCTTA +ATGCCGCGCTGGCGATGTTAGGAAAATTCCTGGAATTTGCTGGCATGTTATGCAATTTGCATATCAAATG +GTTAATTTTTGCACAGGACTGGTGGGTTTGGAACGGACTTTCCCTTCTGAATAAAGGTCTTCGTGGTTAT +ACTTCTGCTAATAATTTTCTCTGAGAGCATGCATTGTGAATTTACTGACAGTGAGTACTGATCTCATCAG +TATTTTTTTATTCACGACACTGTTTCTGTTTTTTGCCCGTAAGGTGGCAAAAAAAGTCGGTTTAGTGGAT +AAACCAAACTTCCGCAAACGTCACCAGGGATTGATACCTCTCGTTGGGGGGATTTCGGTTTACGCAGGGA +TTTGCTTCACGTTCGGAATTGTCGATTACTATATTCCGCATGCATCTCTCTATCTCGCTTGTGCCGGTGT +GCTTGTTTTCATTGGCGCGCTGGATGACCGTTTTGATATCAGCGTAAAAATCCGTGCCACCATACAGGCC +GCTGTTGGCATTGTTATGATGGTGTTCGGCAAGCTTTATCTCAGTAGCCTGGGTTATATCTTTGGCTCCT +GGGAGATGGTGCTCGGACCGTTTGGTTACTTCCTGACGCTATTTGCCGTCTGGGCGGCCATTAATGCGTT +CAACATGGTTGATGGCATTGATGGCTTGCTGGGCGGGTTGTCCTGCGTCTCGTTTGCAGCAATCGGTATG +ATTTTGTGGTTCGACGGGCAAACCAGCCTCGCAATCTGGTGCTTTGCGATGATCGCCGCCATCCTGCCAT +ACATCATGCTTAACCTTGGTATCCTGGGTCGCCGCTACAAAGTCTTTATGGGTGATGCGGGCAGTACGCT +GATTGGTTTTACCGTTATCTGGATCCTGCTCGAAACGACCCAGGGCAAAACCCATCCCATCAGCCCGGTT +ACCGCTTTGTGGATAATCGCCATTCCGCTAATGGATATGGTGGCGATTATGTACCGTCGCCTGCGTAAAG +GCATGAGCCCATTCTCTCCTGACCGTCAGCATATTCACCATTTGATCATGCGTGCCGGGTTTACTTCCCG +TCAGGCGTTTGTGCTGATTACCCTTGCCGCAGCACTGCTCGCTTCCATTGGCGTGCTGGCAGAATATTCT +CATTTTGTCCCGGAGTGGGTCATGCTGGTGCTCTTTTTGCTAGCATTCTTCCTCTATGGATATTGCATTA +AGCGTGCCTGGAAAGTTGCTCGCTTTATTAAGCGCGTAAAACGCAGACTGCGTAGAAATCGTGGTGGCAG +CCCCAATTTAACCAAATAAATGAGGATGTGATGACACAACCAATGCCTGGGAAACCGGCCGAAGACGCTG +AAAATGAACTGGATATTCGTGGGTTGTTTCGTACCTTGTGGGCTGGGAAGCTATGGATTATTGGCATGGG +GCTGGCGTTTGCGTTAATCGCGCTGGCGTATACGTTTTTTGCTCGTCAGGAGTGGAGCTCGACGGCGATT +ACCGATCGTCCAACGGTGAATATGCTGGGGGGATATTACTCGCAGCAGCAATTTTTGCGTAACCTGGATG +TCCGTTCAAACATGGCTTCTGCCGACCAACCATCGGTCATGGACGAAGCCTATAAAGAGTTTGTTATGCA +ACTGGCCTCGTGGGATACCCGCAGAGAGTTCTGGCTGCAAACCGACTATTACAAACAGCGGATGGTGGGC +AACAGCAAAGCCGATGCGGCGTTGCTGGATGAAATGATTAACAACATCCAGTTTATCCCCGGAGACTTTA +CCCGCGCGGTCAATGACAGCGTGAAGCTTATTGCCGAAACCGCGCCTGACGCTAATAACCTGTTACGTCA +GTATGTTGCTTTTGCCAGCCAGCGTGCAGCCAGCCATCTGAATGATGAGCTGAAAGGCGCATGGGCGGCG +CGTACCATCCAGATGAAAGCTCAGGTGAAGCGTCAGGAAGAGGTGGCGAAAGCCATCTACGACCGCCGGA +TGAACAGCATTGAGCAGGCGCTGAAAATTGCTGAGCAGCATAATATTTCGCGCAGTGCGACAGATGTACC +TGCCGAGGAATTACCTGATTCAGAAATGTTCCTGCTTGGGCGTCCAATGCTTCAGGCTCGACTGGAAAAT +TTACAGGCCGTCGGTCCGGCCTTTGATCTCGACTATGATCAGAATCGGGCCATGTTAAACACCCTGAATG +TTGGTCCAACCCTGGATCCGCGTTTTCAGACCTATCGCTATTTGCGTACGCCGGAAGAACCGGTAAAACG +CGATAGCCCACGTCGTGCCTTCCTGATGATTATGTGGGGCATTGTCGGGGGGCTGATCGGGGCTGGTGTC +GCATTAACCCGCCGTTGCTCGAAATAGCAACACTGCTGCGGTGAGCGCAAAGGCGCTCGCCGCTTATTCG +AAGAGAATCGATGTGAAAGTACTGACTGTATTTGGTACGCGCCCGGAAGCCATCAAGATGGCGCCGTTGG +TGCATGCGTTGGCAAAAGATCCTTTTTTTGAGGCTAAAGTTTGCGTCACTGCGCAGCATCGGGAGATGCT +CGATCAGGTGCTGAAACTCTTTTCCATTGTACCTGACTACGATCTCAACATAATGCAGCCAGGACAGGGC +CTGACAGAGATAACCTGTCGGATTCTGGAAGGGCTAAAACCTATTCTTGCCGAGTTCAAACCAGACGTCG +TGCTGGTTCACGGCGATACGACGACGACGCTGGCAACCAGCCTGGCGGCGTTTTATCAGCGTATTCCTGT +TGGTCACGTTGAGGCTGGTCTGCGCACGGGCGATCTCTATTCGCCGTGGCCGGAAGAGGCTAACCGTACA +TTGACCGGGCATCTGGCGATGTATCACTTCTCTCCAACCGAAACTTCCCGGCAAAACTTGCTGCGTGAAA +ACGTTGCGGATAGCCGAATCTTCATTACCGGTAATACAGTCATTGATGCACTGTTATGGGTGCGTGACCA +GGTGATGAGCAGCGACAAGCTGCGTTCAGAACTGGCGGCAAATTACCCGTTTATCGACCCCGATAAAAAG +ATGATTCTGGTGACCGGTCACAGGCGTGAGAGTTTCGGTCGTGGCTTTGAAGAAATCTGCCACGCGCTGG +CAGACATCGCCACCACGCACCAGGACATCCAGATTGTCTATCCGGTGCATCTCAACCCGAACGTCAGAGA +ACCGGTCAATCGCATTCTGGGGCATGTGAAAAATGTCATTCTGATCGATCCCCAGGAGTATTTACCGTTT +GTCTGGCTGATGAACCACGCCTGGCTGATTTTGACCGACTCAGGCGGCATTCAGGAAGAAGCGCCTTCGC +TGGGGAAACCTGTGCTGGTGATGCGCGATACCACTGAGCGTCCGGAAGCGGTGACGGCGGGTACGGTGCG +TCTGGTAGGCACGGATAAGCAGCGAATTGTCGAGGAAGTGACGCGTCTTTTAAAAGACGAAAACGAATAT +CAAGCTATGAGCCGCGCCCATAACCCGTATGGTGATGGTCAGGCATGCTCTCGCATTCTGGAAGCGTTAA +AAAATAATCGGATATCACTATGAGTTTTGCGACCATTTCTGTTATCGGACTGGGTTATATCGGGCTGCCA +ACGGCAGCAGCGTTTGCCTCACGGCAAAAACAGGTAATTGGTGTCGATATCAACCAACATGCGGTTGATA +CCATCAATCGTGGCGAAATCCATATCGTCGAACCTGATTTGGCGAGTGTAGTAAAAACTGCCGTAGAAGG +CGGTTTTTTACGAGCGAGCACGACGCCAGTTGAAGCGGATGCCTGGCTGATTGCTGTACCCACGCCGTTT +AAGGGCGATCATGAGCCAGATATGACCTACGTTGAATCGGCTGCTCGCTCCATTGCGCCAGTGCTGAAAA +AAGGCGCGCTGGTGATCCTTGAATCCACCTCGCCGGTGGGGTCAACCGAGAAGATGGCAGAATGGTTAGC +AGAGATGCGTCCGGATCTCACTTTCCCGCAGCAGGTGGGCGAGCAGGCGGACGTCAACATTGCTTACTGC +CCGGAACGCGTGTTACCAGGACAGGTAATGGTCGAGCTGATTAAAAACGATCGCGTGATTGGTGGTATGA +CGCCGGTTTGTTCGGCCCGCGCCAGCGAACTGTACAAAATTTTCCTCGAAGGTGAGTGTGTCGTCACTAA +CTCGCGGACGGCGGAAATGTGTAAGCTCACCGAAAACAGCTTCCGCGATGTGAATATCGCTTTTGCTAAT +GAATTGTCGCTGATTTGTGCCGATCAGGGGATTAACGTCTGGGAACTGATTCGCCTGGCGAATCGTCACC +CTCGCGTTAATATTCTTCAGCCTGGCCCTGGCGTGGGCGGTCACTGCATTGCTGTTGATCCGTGGTTTAT +CGTGGCACAGAACCCCCAGCAGGCGCGGCTTATCCGTACCGCGCGCGAAGTGAACGATCACAAACCGTTC +TGGGTTATCGATCAGGTGAAAGCGGCGGTGGCTGATTGCCTGGCGGCTACCGATAAACGCGCCAGTGAAC +TGAAAATCGCCTGCTTTGGTCTGGCGTTTAAACCGAATATTGATGACCTGCGCGAAAGCCCGGCGATGGA +AATCGCTGAACTGATCGCCCAGTGGCATAGCGGCGAAACTCTGGTTGTTGAGCCTAACATCCACCAGTTG +CCGAAAAAACTGACCGGGCTTTGTACTCTGGCGCAGCTTGACGAGGCGCTGGCAACGGCAGACGTGCTGG +TGATGCTGGTCGATCATAGTCAGTTCAAAGTTATCAATGGCGACAATGTCCATCAGCAGTATGTCGTCGA +TGCCAAAGGAGTCTGGCGCTGATGAGAAAAATTCTGATAACAGGTGGTGCCGGGTTTATTGGCTCGGCGC +TGGTGCGTTATATCATCAACGAAACGAGCGACGCGGTGGTAGTGGTCGATAAGCTGACCTACGCCGGAAA +CCTGATGTCGCTGGCACCGGTCGCGCAAAGCGAGCGCTTTGCCTTTGAGAAAGTTGATATCTGCGATCGG +GCAGAACTGGCACGCGTATTCACTGAGCATCAGCCAGACTGTGTCATGCATCTGGCAGCCGAAAGCCATG +TTGACCGTTCTATTGACGGCCCGGCAGCGTTTATTGAAACCAACATTGTCGGGACTTATACATTGCTTGA +AGCGGCGCGGGCTTACTGGAATGCGCTGACGGAAGATAAAAAATCAGCGTTCCGTTTTCATCATATCTCC +ACTGACGAAGTATATGGTGACCTGCACTCGACGGATGATTTCTTCACCGAAACCACGCCGTATGCGCCGA +GCAGCCCTTATTCCGCGTCAAAAGCCAGCAGCGACCATCTGGTGCGCGCCTGGCTGCGGACCTATGGTCT +GCCGACGCTTATCACCAACTGCTCGAATAACTACGGCCCTTACCACTTTCCGGAAAAACTGATCCCGCTG +ATGATCCTCAACGCGCTGGCGGGTAAATCGCTGCCGGTATATGGCAACGGGCAGCAAATCCGTGACTGGC +TGTATGTGGAAGATCACGCCCGCGCGCTGTATTGCGTGGCGACCACCGGGAAAGTCGGTGAAACCTATAA +TATTGGTGGTCACAACGAGCGTAAGAATCTCGATGTTGTGGAAACCATTTGCGAGCTGCTGGAAGAACTG +GCTCCGAACAAGCCGCACGGCGTGGCGCACTATCGTGACCTGATCACCTTTGTCGCTGACCGTCCGGGGC +ATGATCTGCGTTATGCCATTGATGCTTCGAAAATTGCCCGTGAACTTGGCTGGCTGCCGCAGGAAACCTT +TGAAAGTGGAATGCGTAAAACGGTTCAGTGGTATCTGGCTAATGAAAGCTGGTGGAAGCAGGTGCAGGAC +GGCAGCTATCAGGGCGAGCGTTTAGGTCTGAAAGGCTAATTTTCAGCGGAGGCAAACATGAAAGGTATTA +TCCTGGCGGGCGGTTCCGGCACCCGATTGCATCCGATTACGCGCGGCGTATCGAAGCAACTGTTGCCGAT +TTACGATAAGCCAATGATTTACTATCCGCTGTCGGTGCTGATGCTGGCCGGTATCCGCGAAATTCTCATC +ATCACTACGCCGGAAGATAAAGGTTATTTCCAGCGCCTGCTGGGCGATGGTAGTGAGTTCGGTATCCAGC +TGGAATATGCCGAACAGCCCAGCCCGGACGGTCTGGCGCAGGCCTTTATCATCGGTGAAACCTTCCTTAA +TGGTGAACCTTCTTGTCTGGTGCTGGGCGATAACATCTTCTTCGGTCAGGGCTTCAGTCCGAAGCTGCGT +CATGTTGCGGCGCGCACCGAAGGGGCGACGGTTTTTGGCTATCAGGTGATGGACCCGGAACGCTTTGGCG +TGGTGGAGTTTGACGACAATTTCCGCGCTATCTCGCTGGAAGAAAAGCCAAAACAGCCGAAGTCAAACTG +GGCGGTGACCGGGCTTTATTTCTACGACAGTAAAGTCGTGGAGTACGCAAAGCAGGTGAAGCCGTCGGAG +CGTGGTGAACTGGAGATTACCTCCATCAACCAGATGTACCTCGAGGCGGGCAACCTGACCGTTGAACTGC +TCGGGCGCGGATTTGCCTGGCTGGATACCGGCACTCACGACAGCCTGATTGAAGCCAGCACCTTTGTACA +GACGGTGGAAAAACGCCAGGGCTTTAAGATTGCCTGCCTGGAAGAGATTGCCTGGCGTAACGGCTGGCTC +GATGACGAGGGTGTGAAGCGTGCTGCCAGTTCATTAGCGAAAACTGGCTACGGCCAATATCTGCTGGAGT +TACTTCGTGCCCGTCCGCGCCAGTATTGAGCCACTAACCTGGGAAAACGCCTTCTTTGGTGTTAACAGCG +CCATCGTGCGCATTACGTCTGAAGCACCGCTCCTGACGCCAGACGCGTTAGCGCCGTGGTCACGGGTGCA +GGCCAAAATTGCGGCATCAAATACGGGTGAACTGGATGCCCTGCAACAGCTGGGATTCTCCCTGGTAGAA +GGTGAAGTTGATTTGGCGCTACCCGTGAACAATGCCAGTGATAGCGGTGCTGTAGTGGCACAAGAGACCG +ATATTCCCGCATTACGTCAGTTAGCCAGCGCCGCATTTGCGCAAAGCCGTTTTCGTGCGCCGTGGTATGC +GCCTGACGCCAGCAGTCGCTTTTATGCACAGTGGATTGAAAATGCCGTGCGCGGCACCTTTGATCATCAA +TGTCTGATTTTACGTGCGGCGTCCGGCGATATTCGCGGCTATGTCTCTTTACGGGAACTCAATGCGACAG +ATGCGCGAATTGGCCTGCTGGCTGGACGCGGTGCAGGTGCTGAGCTGATGCAAACGGCGCTAAACTGGGC +GTATGCTCGCGGTAAAACAACTTTGCGGGTGGCGACCCAAATGGGCAACACCGCCGCGCTTAAACGATAC +ATACAAAGTGGTGCGAATGTAGAAAGCACCGCGTACTGGTTATACAGGTGATCACATGATTCCATTTAAC +GCACCGCCGGTGGTGGGAACCGAACTCGACTATATGCAGTCGGCAATGGGTAGCGGCAAACTGTGTGGCG +ATGGCGGTTTTACCCGTCGCTGCCAGCAGTGGCTGGAGCAACGTTTTGGCAGCGCCAAAGTGTTACTGAC +GCCGTCCTGCACCGCTTCGCTGGAGATGGCGGCGCTGCTGCTCGATATCCAGCCTGGCGATGAAGTGATC +ATGCCGAGCTACACCTTTGTCTCCACCGCCAATGCCTTTGTGCTGCGTGGCGCAAAAATCGTTTTTGTGG +ATGTTCGCCCGGACACCATGAACATCGACGAAACGCTGATTGAAGCGGCGATCACCGACAAAACGCGCGT +TATCGTGCCGGTCCATTACGCGGGTGTGGCCTGCGAAATGGACACCATTATGGCGTTGGCGAAAAAGCAT +AATTTGTTTGTGGTAGAAGATGCCGCTCAGGGCGTGATGTCCACTTACAAAGGGCGTGCACTGGGAACCA +TTGGTCATATTGGCTGCTTTAGCTTCCATGAAACCAAAAACTACACGGCGGGCGGTGAAGGCGGCGCGAC +GCTGATTAACGATAAAGCGTTAATCGAACGAGCCGAGATCATCCGTGAAAAGGGCACTAACCGCAGCCAG +TTCTTCCGTGGTCAGGTCGATAAATATACCTGGCGCGATATTGGCTCCAGCTATTTGATGTCCGATCTGC +AAGCTGCATACCTGTGGGCGCAACTGGAAGCAGCGGATCGTATCAACCAGCAACGTCTGGCGCTGTGGCA +AAACTACTACGATGCGTTAGCGCCTCTGGCGAAAGCCGGGCGTATCGAGCTGCCGTCGATTCCCGATGGC +TGCGTGCAGAACGCGCATATGTTCTACATTAAACTGCGGGATATTGATGACCGGAGCGCGTTGATTAACT +TTCTGAAAGAAGCGGAAATCATGGCGGTGTTTCATTACATTCCGCTGCACGGTTGCCCTGCGGGGGAACA +CTTTGGTGAGTTCCACGGTGAAGATCGCTACACCACCAAAGAGAGCGAGCGCCTGCTGCGCCTGCCGCTG +TTCTACAACCTGTCGCCCGTCAATCAGCGTACGGTAATTGCGACTTTGTTGAACTACTTTTCCTGATATG +TCGTTGGCAAAAGCGTCCTTGTGGACGGCGGCCAGTACACTGGTCAAGATTGGTGCCGGGTTACTGGTCG +GTAAGTTGCTGGCGGTGTCATTTGGTCCGGCGGGGCTTGGGCTGGCGGCAAATTTCCGCCAGTTGATTAC +CGTGCTCGGCGTGCTTGCCGGGGCTGGCATCTTTAACGGTGTAACCAAATACGTTGCCCAGTACCATGAT +AATCCGCAACAGCTGCGCCGCGTGGTCGGCACTTCATCAGCGATGGTACTTGGTTTCTCTACGCTGATGG +CGCTGGTTTTTGTGCTGGCAGCTGCGCCAATCAGCCAGGGATTGTTTGGTAATACCGACTATCAGGGGCT +GGTGCGTTTAGTGGCGCTGGTGCAAATGGGGATCGCCTGGGGCAACCTGTTACTGGCGCTGATGAAAGGC +TTTCGCGATGCCGCAGGTAATGCGTTATCGCTGATTGTCGGCAGCTTGATTGGCGTTCTCGCGTACTACG +TCAGTTACCGTTTGGGCGGTTATGAAGGGGCGTTGCTGGGTCTGGCGCTGATTCCCGCGCTGGTGGTAAT +TCCTGCCGCCATCATGTTGATCAAACGTGGTGTCATCCCGTTAAGCTATCTGAAACCCAGCTGGGATAAC +GGTCTGGCAGGGCAGTTGAGCAAATTTACGCTCATGGCGTTGATTACGTCGGTGACCTTGCCTGTTGCTT +ACATCATGATGCGTAAACTGCTGGCGGCGCAGTATAGCTGGGATGAGGTGGGGATCTGGCAAGGGGTGAG +CAGTATTTCCGATGCCTACCTGCAATTTATTACGGCATCGTTCAGCGTATATTTGCTGCCCACGTTGTCG +CGGCTAACGGAAAAGCGCGATATCACCCGGGAAGTGGTTAAATCGCTGAAATTCGTCTTACCGGCAGTGG +CGGCGGCGAGTTTTACCGTCTGGCTGCTGCGTGATTTTGCTATCTGGCTGCTGTTGTCGAATAAATTTAC +CGCTATGCGCGATCTCTTTGCCTGGCAGTTAGTGGGTGATGTGTTAAAAGTGGGCGCTTATGTCTTTGGT +TATCTGGTGATCGCCAAAGCGTCACTGCGGTTTTATATTCTGGCGGAAGTCAGCCAGTTCACTTTATTGA +TGGTATTTGCCCACTGGCTAATCCCTGCGCATGGTGCACTGGGCGCGGCGCAGGCATATATGGCAACTTA +TATCGTCTATTTTTCTCTTTGTTGTGGCGTGTTTTTACTCTGGCGTAGGCGGGCATGACTGTACTGATTC +ACGTACTGGGATCGGATATCCCTCACCATAACCGAACCGTTTTGCGGTTTTTCAATGACGCGCTGGCCGC +GACGAGCGAGCACGCGCGCGAGTTTATGGTTGTTGGCAAGGACGACGGCTTAAGTGATAGCTGTCCGGCG +CTTTCTGTGCAATTTTTCCCTGGGAAAAAATCGCTGGCGGAAGCGGTCATCGCGAAAGCAAAAGCTAACC +GTCAGCAGCGTTTTTTCTTCCACGGTCAGTTCAATCCCACACTGTGGCTGGCTCTGCTGAGTGGTGGCAT +TAAGCCCAGCCAGTTTTTCTGGCATATCTGGGGGGCAGACCTGTATGAGCTTTCCAGTGGCTTGAGATAT +AAGCTTTTTTACCCACTACGTCGCCTGGCGCAAAAGCGAGTCGGCTGTGTATTTGCCACCCGCGGCGATT +TGAGCTTTTTTGCCAAAACGCACCCAAAGGTGCGGGGCGAACTGCTGTTCTTCCCGACGCGGATGGACCC +TTCGCTCAATACGATGGCGAACGATCGGCAACGTGAAGGGAAAATGACCATTCTGGTGGGGAACTCCGGC +GACCGCAGCAATGAGCATATTGCTGCCTTGCGCGCCGTTCATCAGCAATTTGGCGATACGGTAAAAGTGG +TGGTGCCGATGGGATATCCGCCTAATAACGAAGCGTACATTGAGGAAGTTCGTCAGGCGGGGCTGGAGTT +ATTCAGCGAAGAAAATCTACAAATTCTGAGCGAAAAACTGGAATTTGACGCCTATCTGGCGCTACTTCGT +CAGTGCGATCTTGGTTACTTTATTTTTGCCCGCCAGCAGGGCATTGGTACGCTGTGCTTACTGATTCAGG +CGGGCATTCCTTGTGTGCTTAACCGGGAAAATCCGTTCTGGCAGGATATGACGGAACAACATTTGCCGGT +GCTGTTTACTACCGACGATCTCAACGAGGATATTGTGCGTGAAGCGCAGCGCCAGTTGGCGTCGGTGGAT +AAAAACACCATTGCCTTCTTTAGCCCTAACTATCTACAAGGCTGGCAGCGGGCGTTGGCGATTGCCGCCA +GGGAGGTCGCATGAGTCTGCTGCAATTCAGTGGCCTGTTTGTTGTCTGGCTGCTCTGCACGCTGTTTATT +GCCACGCTGACCTGGTTTGAGTTTCGCCGTGTGCGCTTTAACTTCAATGTCTTCTTTTCATTGCTGTTTT +TGCTCACCTTTTTCTTCGGCTTCCCGCTGACCAGCGTGCTGGTATTTCGCTTTGATGTTGGTGTCGCGCC +GCCAGAAATCTTGTTGCAGGCGTTGCTTTCTGCGGGCTGCTTCTACGCGGTTTACTATGTCACCTACAAA +ACCCGCCTACGCAAACGCGTTGCTGATGTACCGCGCCGTCCGCTGTTTACCATGAACCGCGTGGAGACCA +ATCTTACGTGGGTGATCCTGATGGGTATCGCGCTGGTAAGCGTCGGCATCTTCTTCATGCACAACGGCTT +TTTGCTGTTCCGGCTTAACTCCTACAGTCAGATCTTTTCCAGTGAAGTCTCCGGCGTGGCGTTAAAACGC +TTCTTTTACTTTTTCATCCCGGCGATGCTGGTGGTCTACTTTCTGCGCCAGGACAGCAAAGCGTGGCTGT +TTTTCCTCGTCAGCACGGTCGCCTTTGGCTTGCTGACTTATATGATTGTCGGCGGCACTCGCGCCAATAT +CATCATCGCATTCGCTATCTTCCTGTTTATTGGCATTATTCGCGGCTGGATTTCGTTGTGGATGCTGGCG +GCGGCGGGCGTGCTGGGGATTGTTGGCATGTTCTGGCTGGCACTAAAACGCTATGGAATGAATGTGAGCG +GCGATGAAGCGTTCTATACGTTTCTCTATCTCACTCGCGACACCTTCTCGCCGTGGGAGAATCTGGCGTT +GCTGTTGCAGAACTACGACAACATCGACTTCCAGGGCCTGGCTCCAATTGTCCGCGATTTCTATGTCTTT +ATCCCTTCCTGGCTGTGGCCGGGTCGCCCGAGTATGGTGCTGAACTCAGCCAACTACTTTACCTGGGAAG +TGCTGAATAACCACTCCGGACTGGCGATCTCGCCTACGCTTATAGGCTCACTGGTGGTGATGGGCGGCGC +GTTGTTCATCCCGCTCGGGGCGATCGTGGTTGGTCTGATCATCAAATGGTTCGACTGGCTGTATGAGCTG +GGCAACCGCGAGCCTAATCGCTATAAAGCTGCGATATTGCACAGTTTCTGCTTTGGGGCGATCTTCAATA +TGATCGTGCTGGCGCGTGAAGGGCTGGATTCGTTTGTCTCACGCGTGGTCTTTTTTATCGTGGTCTTCGG +CGCATGTCTGATGATCGCAAAACTGTTGTACTGGCTTTTTGAAAGCGCCGGACTCATTCATAAACGTACA +AAATCATCGCTCCGGACGCAGGTTGAAGGATAACAATGAATAACAACACCACGGCACCAACCTATACGCT +GCGTGGCTTACAGTTGATTGGTTGGCGTGATATGCAGCACGCCCTCGATTATCTGTTTGCTGACGGGCAG +CTTAAGCAGGGAACGCTGGTTGCCATTAATGCTGAAAAAATGCTGACTATTGAAGATAACGCCGAGGTCA +GGGAGTTAATTAACGCTGCCGAATTTAAATATGCGGATGGCATCAGCGTTGTACGTTCAGTACGTAAAAA +GTACCCGCAGGCGCAGGTTTCCCGCGTTGCCGGTGCCGATCTCTGGGAAGAGCTGATGGCGCGCGCAGGC +AAAGAAGGGACGCCGGTATTTCTTGTGGGCGGTAAACCTGAAGTGCTGGCGCAAACTGAAGCTAAACTGC +GCAACCAGTGGAATGTGAATATCGTTGGCAGTCAGGATGGTTATTTTAAACCCGAGCAGCGTCAGGCGCT +GTTTGAACGCATTCATGCCAGCGGTGCGCAAATCGTCACCGTTGCGATGGGATCGCCAAAGCAGGAGATC +ATCATGCGCGACTGCCGTCTGGTACATCCAGATGCGCTGTATATGGGCGTTGGCGGGACTTACGATGTTT +TCACCGGTCACGTAAAACGCGCACCGAAAATCTGGCAAACGCTGGGGCTGGAGTGGCTCTACCGCCTGCT +TTCGCAGCCGAGCCGCATTAAGCGTCAGCTTCGTTTGCTGCGTTATTTACGCTGGCACTACACCGGCAAC +CTATGATTTTCCTCTCTTTGTAAAGCGACGGAGTGGTCACTCCGTCGCCTGTCTGCTTTTTTATTACACA +AAGCATTCAAATTTTTAATGCTTTATTTGCCATTTCTCCTGAATTACGAAAACATTTGCAACACTCGATG +TACCCATAACGATAACCGGTAACACCGGAAAGCATGCAAACACAACACGAGGATTTATGGCAGATAACAA +ACCAGAGCTACAGCGTGGGCTGGAAGCTCGACATATCGAACTCATCGCCCTGGGGGGCACCATTGGCGTC +GGCCTGTTTATGGGGGCCGCCAGTACCCTGAAATGGGCCGGGCCATCCGTATTGTTGGCCTATATCATCG +CCGGGCTGTTCGTCTTTTTCATCATGCGTTCAATGGGCGAAATGTTGTTCCTCGAACCGGTTACCGGTTC +GTTCGCCGTTTATGCGCATCGTTATATGAGCCCGTTCTTTGGCTATCTCACCGCCTGGTCTTACTGGTTT +ATGTGGATGGCGGTGGGGATCTCTGAAATCACCGCCATTGGCGTTTATGTCCAGTTCTGGTTCCCGGAGA +TGGCGCAGTGGATACCCGCATTGATCGCAGTGGCGCTGGTGGCGTTGGCGAATCTGGCGGCGGTGCGGTT +GTACGGCGAAATCGAGTTCTGGTTCGCGATGATCAAAGTCACCACGATTATCGTGATGATTGTCATTGGC +CTGGGCGTGATTTTCTTTGGCTTTGGCAATGGCGGGCAGTCGATTGGTTTTAGCAATCTCACAGAGCATG +GCGGTTTCTTTGCGGGTGGCTGGAAAGGGTTCCTGACCGCTCTGTGTATTGTGGTGGCGTCCTACCAGGG +CGTGGAGCTGATTGGCATTACTGCCGGTGAAGCGAAGAATCCGCAGGTGACGCTGCGCAGTGCCGTAGGC +AAGGTGCTGTGGCGGATCCTGATTTTCTACGTAGGCGCGATTTTCGTTATCGTCACCATCTTCCCGTGGA +ATGAAATAGGCAGCAACGGCAGCCCGTTCGTACTGACTTTTGCCAAAATCGGTATTACCGCAGCGGCGGG +CATTATCAACTTTGTGGTGCTGACGGCTGCGCTCTCTGGCTGTAACAGCGGCATGTACAGTTGCGGACGT +ATGCTCTACGCACTGGCGAAAAACCGTCAGTTACCGGCGGCAATGGCGAAAGTTTCCCGTCACGGCGTAC +CGGTTGCGGGTGTGGCAGTATCTATTGCTATTCTGCTAATTGGCTCATGCCTGAACTACATCATTCCCAA +TCCGCAGCGTGTGTTTGTCTACGTCTACAGTGCCAGCGTGCTTCCGGGGATGGTGCCATGGTTTGTGATA +TTGATAAGCCAGCTGCGTTTTCGGCGTGCACATAAAGCGGCGATTGCCAGCCATCCGTTCCGCTCAATCC +TGTTCCCGTGGGCCAATTACGTAACAATGGCATTCCTGATTTGCGTTTTGATCGGCATGTACTTTAATGA +AGATACGCGTATGTCGCTGTTTGTTGGCATCATCTTTATGCTGGCGGTGACGGCGATTTATAAAGTTTTT +GGCCTTAATCGCCACGGGAAAGCGCATAAACTGGAGGAATAAGCAGCAAAACGCACAAACCGTAACCAAA +CGCGCAATTTATTTAAAAAGGGACTAGACAGAGGGGTGGGAAGTCCGTATTATCCACCCCCGCAACGGCG +CTAAGCGCCCGTAGCTCAGCTGGATAGAGCGCTGCCCTCCGGAGGCAGAGGTCTCAGGTTCGAATCCTGT +CGGGCGCGCCATTTAGTCCCGGCGCTTGAGCTGCGGTGGTAGTAATACCGCGTAACAAGATTTGTAGTGG +TGGCTATAGCTCAGTTGGTAGAGCCCTGGATTGTGATTCCAGTTGTCGTGGGTTCGAATCCCATTAGCCA +CCCCATTATTAGAAGTTGTGACAATGCGAAGGTGGCGGAATTGGTAGACGCGCTAGCTTCAGGTGTTAGT +GTCCTTACGGACGTGGGGGTTCAAGTCCCCCCCCTCGCACCACGACTTTAAAGAATTGAACTAAAAATTC +AAAAAGCAGTATTTCGGCGAGTAGCGCAGCTTGGTAGCGCAACTGGTTTGGGACCAGTGGGTCGGAGGTT +CGAATCCTCTCTCGCCGACCAATTTTGAACCCCGCTTCGGCGGGGTTTTTTGTTTTCTGTGCATTTCGTC +ACCCTCCCTTCGCAATAAACGCCCGTAATAACTCATTGCCCCACGGTATGATTTCGCCCTTAACGTATTG +AAGGATGACTTCAGGCAAGGAGCGACCATGCTGCAACAGGTTCCAACGCGTGCTTTTCATGTGATGGCGA +AACCGAGCGGTTCCGATTGTAATCTGAACTGTGACTACTGTTTTTATCTCGAAAAACAATCCCTTTACCG +CGAAAAGCCAGTCACGCATATGGACGATGACACGCTGGAAGCGTATGTCCGTCACTATATCGCTGCCAGC +GAACCGCAAAACGAAGTGGCTTTTACCTGGCAGGGCGGCGAACCAACGCTACTCGGGCTGGCGTTTTACC +GCCGTGCCGTAGCGCTACAGGCGAAATATGGTGCTGGCAGGAAGATAAGTAACAGCTTCCAGACTAACGG +CGTGCTGCTGGATGACGAATGGTGCGCGTTTCTCGCGGAGCATCATTTTCTTGTTGGTTTATCGCTGGAT +GGCCCGCCTGAGATCCACAATCAATATCGCGTGACTAAAGGTGGCAGACCCACGCATAAGCTGGTGATGC +GTGCCCTGACGCTCCTGCAAAAACATCATGTCGACTATAACGTGCTGGTCTGCGTTAATCGCACCAGCGC +GCAGCAACCGTTGCAGGTATATGATTTTTTGTGCGATGCGGGAGTCGAATTCATCCAGTTTATTCCGGTG +GTCGAGCGCCTGGCTGATGAAACAACTGCCCGCGATGGACTTAAGTTACATGCGCCTGGTGATATTCAGG +GTGAGCTAACGGAATGGTCGGTGCGCCCCGAGGAGTTCGGTGAGTTTCTGGTGGCGATATTCGACCACTG +GATCAAACGCGACGTCGGCAAGATTTTCGTGATGAATATCGAATGGGCGTTTGCCAATTTTGTCGGTGCG +CCGGGTGCGGTTTGCCATCATCAGCCAACCTGTGGGCGCTCGGTGATTGTTGAGCACAACGGCGACGTTT +ACGCCTGTGATCACTATGTTTATCCGCAATATCGGCTGGGGAATATGCACCAGCAAACAATTGCAGAAAT +GATCGATTCCCCGCAACAGCAGGCGTTTGGTGAAGATAAATTTAAGCAGTTACCGGCGCAGTGTCGCAGT +TGTAACGTGTTAAAAGCGTGCTGGGGAGGCTGCCCGAAACACCGCTTCATGCTCGATGCCAGCGGCAAAC +CGGGACTGAATTATTTGTGTGCCGGGTATCAGCGTTATTTCCGCCATCTACCGCCATATCTTAAAGCAAT +GGCTGATTTGCTGGCGCACGGTCGCCCGGCCAGCGACATTATGCATGCGCATTTGCTGGTGGTGAGTAAG +TAGAAATCGGCGGCCGCCTGCGGTTGATTGCCGGATGCGGCGTAAACGCCTTATCCGGCCTACATGATCG +TGCAAATTCAATAAATTGCAGCGTTCTGTAGGCTGGATAAGATGCGTCAGCATCGCATCCGGCAAAGGCA +GATCTCAGCGATAGCGCCGGCTTAGTCAGATTTAATCTGCGCGCGTGGTGGATATTTTTTCAGGATCTCC +ATATACGCGTGCATTTCGGTCTGTAGCGGTACACCCATCGGAATATGGCGCACGCCGATGGAGTCGCTTT +CCTGCGGATCGGTGTAGAGGTTAAACACCGACGATCCCGCCGTTTGCATTACTGTGCCGGTGAATCCACC +CTGATATCCGCTCTGGGTATAAGCGTAAGGTTGCTGAATCAGGACGTGATACTTGAACTCATCCATACGC +ACAGCAGCGAGTTTACCGTTGAGGAAGTAGTGCTCGGCCTTACGGTTAGACTGACCATTTGTTCCCAGGA +AGAAGGATGTCTGGTCCACACCATCGATAAAGGTGGTTTTCGGCACTAAATTCGCCACTTTCGCTCCAGG +ATGCCCTGCCAGATCCAGCGCGGTAGGGAAGAGATCTGCCAGATCGACAATACCGTCAGATTTACGCGGT +TGGATCATCCCTTTCCAGTAAACGAAAGTCGGTACGCGAACGCCGCCTTCCCAGGTCGAACCTTTCGCAC +CACGGAACGGGGTGCGTCCGTGCGGCGGTACTTCGGCTTCCGGTCCGTTATCGGAGGTAAAGACGATCAG +CGTGTTATCAAGCTGACCGTTTTTCTCCAGTGTTTTATACAGATTAGCGAACACATCGTTCATCTCCACC +ATGCAGTCGCCATACGAGGTGCGTGCCGGAGAGCTACCCGCATATTTCGCATTTGGGTAGTTATCGAAGT +GGCAGCCACGAGTGCCGTAGTAGAGGAAGAATGGTTTATCGCTCTTCGCCATCTTGTCGAGGAACTTAAC +GCCATAGTCCATCCAGCGTTGATCCAGATCTTCCATATATTTCGGCGTAATGTCGGCAATGGCCTGTTGT +TCGCCGCCGCGCACCGCATGAACGTCATCTTTGCTGAACGGTAATTGCTTGATGTATTCAGAACGGTCCG +GACTCAGGGCCACTTCCGGATTGACGTGAACGTCGCGCCATTCGGTGTACATATCAGACACCGAGTTAAA +GCCACGGAAATCATCAAAGCCAACGTTCTGCGGCTGCGACTCTTTGTTTTCCCCCATATGCCATTTTCCG +ATGGCCTGAGTGACGTAGCCCTGATCGTGCAGCAACTGCGGCAGCGTGGTTAACCCTTGCAGCCCGCCCG +GTTGCCCGTACATTGGCGGCATCAGAATGCCGTGGTGGATGGAGTATTGTCCGGTGAGAATGGTGGCGCG +GGTTGGGGAAGAGCTTGGTTGAGAATACGCCGAAGTTAAAATCAGCCCCTGGCTGGCAACGGCGTCGATA +TCTGGTGTAGGGTTACCCACCGCCACGCCGCCACCGTTAAAACCGACGTCCATCCAGCCCACATCGTCCA +GCAAGAAAACAACCACATTCGGTTTCTTACCGGTTTTTTTCTCAAGTTCTGCCAGCTTCTGCTGGGTTTC +TTTATCCTGCGCCGGATGCTGCATTACTGGCATCATATTGTCGGCAATAGTGGTCGCCGGTTTAACCAGA +TACTGGTTTGGGTGATCGTATCCGGCAAAGCCTTTGCGTGCGGTGGCAGTTGACGGGGTATCTGCTGCGC +TGGCCATGAGAGGAAGAGCGGCGGCGACAGCAACAACAAGACGTTTGGGTGAAAACGAAAATTCCATGCA +AAATGCTCCGGTTTCATGTCATCAAAATGATGACGTAATTAAGCATTGATAATTGAGATCCCTCTCCCTG +ACAGGATGATTACATAAATAATAGTGACAAAAATAAATTATTTATTTATCCAGAAAATGAATTGGAAAAT +CAGGAGAGCGTTTTCAATCCTACCTCTGGCGCAGTTGATATGTAAGGCAGGTTTATTATATCGCGTTGAT +TATTGATGCTGTTTTTAGTTTTAACGGCAATTAATATATGTGTTATTAATTGAATGAATTTTATCATTCA +TAATAAGTATGTGTAGGATCAAGCTCAGGTTAAATATTCACTCAGGAAGTTATTACTCAGGAAGCAAAGA +GGATTACAGAATTATCTCATAACAAGTGTTAAGGGATGTTATTTCCCGATTCTCTGTGGCATAATAAACG +AGTAGATGCTCATTCCATCTCTTATGTTCGCCTTAGTGCCTCATAAACTCCGGAATGACGCAGAGCCGTT +TACGGTGCTTATCGTCCACTGACAGATGTCGCTTATGCCTCATCAGACACCATGGACACAACGTTGAGTG +AAGCACCCACTTGTTGTCATACAGACCTGTTTTAACGCCTGCTCCGTAATAAGAGCAGGCGTTTTTTTAT +GTATCAGGAAGGCCCCGGAGGTGCTTGCCTCCGGGTGAGAAGGAACTACTGTGGCGGGTTATTCTGCAAC +GTTAACATCAAACCGTCGCGACGCATAGCTGCAGCTTCTTCCGGCTTGTGCAGTCTGTCCAGCGCGTCGG +CAAGCCATGCGTAATCGTAGGCGTCCGGACGTTGTTTCAGCGCTGCGCGGAAGGCGAGCGATGCTTCCTG +CCATTCTCCGTGCTTCATCAGTGACTGGCCCAGTGTGCTCCACAACAGCGGGCGATCGCCGACGTTTTTG +ATTTGCTGGCGCAGCACTTTTTCCAGCTGTTCCGGATTGTTTGTTTTCAGTCGAGGAATCGGCAGCAGTA +GGCGATCGTCGTACTGGCGTTTCAGGCCATCGATGATAATTTGCTGGGCAGTATCATGATCGTCACATTC +AATAAGATGTTCCGCCATTGCCACCTGCAACGCTACCTGATGACGCGTTTTCCGGCTTTGGTTTTTCCAC +CAGTTACGCAAACCTTCGCTACCGTTATCGGCACGCGCCTGATCCATCAGGCCAATCCATGCCTGTTGTT +CCAGCATTGCACGATGTTCTTCATCACCAACATGGGCTTTCGCCATTGATGGGATAATATCCAGCAGCGA +ACTCCATGCACCTGTGCGGATATACGCCTGTTCCGCCAGACGTAATACTTCCGGATGGCGTGGCGTAACT +TCCAGCAGCTTATCCACGCCGTGGCGTGCAGCATGGTTTTCATTACGGGCCAGTTGCAGACGTACGCGGG +TGATTTCTACCGGAATGGTGTCGTTGCCGGCCAGCTCCGCTGCGCGTTCCAGATGTTGGTTGGCGCGTGC +TTCATCACCACGTTGTTGCGCGGCTTCGGCAGCCAGTAGATAGTTCACCACCGGTTGTTCCGCGTGATCG +GCATTTTTCGCCATCAGCTTTTCAACTTGCTGATAATCGCCTTCCGCCAGTTTCAGCAGCGCCTGTTCGG +TCTGCTTACGTGCACGGCGACGCTTACGTCCGACAAACCACCCACGGGTGTGCGCGCCAGTGCGGAAGAT +CCGCCGCAGTAGCCACTCAATGGCAAACAGCACTACCATCGCCAGAATCAATATGATCGCCAGGCCCGTG +ACGCTGGTTTCGATATTGTAGTTGTCGGTCTGGATCAGCACATAACCCTGATGGCCGGCAATCATCGGGC +CAACCACGATCCCCGCAATCAGCAACACAAAGAGCAATAACACTTTTAGCATGGTTATTCTCCTTGCGGC +GCGGCTGCCGGAGTATCAGCTTGCGGTGCAGGTGCAGGTTTAGCTTCCGTTGTCCCCGCTGCCGGTTGTG +CCAGCAGGTTACGCACGCGAGTCTGCATCAGTTTTTCCAGCATCGCCTGGCTTTGCAGGGTTTCCGGAAG +ATCCATCGAGATATTTTGCTGGCTTAACTGGTCCACCTCGTCGAGGAACGCTTTGGTGGTGGCATCATCA +GTATCGTAGTAAGCACGTACCCAGGTGGAGACGTTCTCCAGCGCCTGGCGATAAGTCTCTTCCTGGTGAC +GCGGTACAGCTTGTGCTGCGACCAGCAGGCGAGAGCGAATATTTTCGCGCAGATAGATATCCTGATTTGG +CGCTAACAGCGGTACGGCGGTGTCATCACGACGGCGAATCGTAATGAAGTTGTCCATAAAGTTCTGCCAG +CTTTTTTGCAGATTGATACGCCATTCGCTGATGGAACTGGAAAGCTCTTCACCGTCTGAATCCATCGGCG +AACCATCGCTGTCATTATCGGCCAGACGCAGGTTATCTACCTGATTTGAAAGCTGATTAAGCTTAAGGAT +GATGCCGTCATAATCCACCTGCGATACTGCAGAAAGGCTGGCGATATCATCGGTAATTGCCCGACGAACG +GTAATCAGACTCGGGTCATTCATATCCGCCAGGCTGGCGTCTGCACTTTTCAGCAACGCTGCAGCGGTCG +TGACGTCCTGATCGCTCCACAGCTTCCGTCCGGCGAGTTTCACCAGAAAATCGGCCTGAGCCAGCAGCCA +GGTTTTAGCATCGCTGCCGGAAATGGTGGCGACCTTTTGTTGGACTTCATCCAACTGTTTTGCCAGCGTT +TCTTGCTGACGATTCGCCTGCTTAAGTTGTGCAGCTTGTTGCTTAATAATGCCTTCCAGCTCGGCTTTTT +GGCTCTCCTGGGCTTTTTGCAATGCCGTCAGTTGGTTAGCCAGGGCATCGCTGGTGGCGGTCTGATTGAC +GGCCTGTTGTTTACCCCAGCCATACAAACCGATGCCCGCCGCCAGAGCAATAGCGATAGCCACCGCGCTG +AGAATCAATGCGGTATTGTTCTTACTCTTTTTTTCTGTTGCGACAGGTTGTGACGTGGTGTCCACGGCCT +CCCTGGTCTCTTCAACCACGGCGGAGGTTTTTTCTTGTTCCGTCATTATGGCTTCCTGTTATGAGAGTTA +TTGTAATGCCCGTAAAAGCGCATCGTTGTCAGCGTTATCGGCGACCTTAATGTCTTGCCAGCCCAGTTCC +CGGGCGAGTTTCGCCAAACGCTCACTGACGACCAATAGTCGACAGTGTAGTAACCAGTGCTCACGATACC +ATTGTGGGATCAGCGACCAGAGTTGCTGCAACATTTCACCGCTGGTAACAACGACCATCGTCACCTCGCG +GGCTTGCCAGCGCATCGCTTCTTCTGCACCATCGTAATGGATTGCGCATCGTTGATAACATTCACAAAAA +GTGACCTCAGCACCGCGCGCCGTCAGGGTATCCCCAATTAGCTCACGACCACCATTGCCACGTAATATCA +GCGCACGTTTGCCCGCAATATTTTGTAATTCAGGTAATTGTAGCAAGACTTCGCTGATTTCCCGATCCTG +CGGGTAGAGAATCTTCTGTCCACTTACGGTATGTAGTGCCAGTGCGGTGGTGCGTCCAATGGCGAAATAA +TCAGGTAGTCGGGGCCATTTACGATCTTGCTGATGCAGCTGTGATTGGGCAAAAGCAACCGCGTGTTGCG +AGAGGGCAAACAACAGATCGCTCTCCCCCAGCGCTGCCAGTTGATCAGCAAGTTGCGGTAATTGTTGACC +CGGAGAAAACTCAATCAGCGGAAAATGCCAGGCCACCTGCCCCAGTGTGCGCAGACGGCTCACTAACTCT +TCTCCAGCGGGAGACGGGCGGGTGACAAGGATACTCATGCCGGGGCGTCTCCGTTATAGACTTCAGCGAG +GATCTCGCGCGCGCCGTTATTCAGTAGCTCTTCTGCCAGCGAAATCCCCATTTGTTCGGCATCTTGCGGC +GCACCGCGGCGTTCACCGCGAATAATCTGCGAACCGTCCGGCGCGCCGACCAGCGCACGCAGCCAGATTT +CGCCATCAATAAGCTCGGCGTAGCTACCAATTGGCACCTGACATCCGCCTTCGAGACGGGTATTCATGGC +GCGTTCTGCGGTAACGCGCAGTGCAGTTTCGTGGTGATTCAGCGCGGCAAGCAGCTCGCGAGTGCGTGAA +TCATCAAGGCGGCATTCAATACCCACCGCACCTTGTCCTACCGCCGGAAGAGAAATCTCGGGTGGCAACG +CGGCGCGAATACGTGACTCCAGACCTAAACGTTTTAGTCCGGCTACGGCAAGAATGATGGCATCGTATTC +GCCGTTATCCAGTTTGCTCAGGCGAGTGCCGACGTTGCCGCGCAGGGAGCGGATAATCAGATCCGGACGG +CGTTCAGCCAGTTGGCACTGGCGACGTAAACTGGACGTCCCGACGATACTGCCTGCCGGTAACGCATCCA +GACTGTCATAGTTATTGGACACAAAGGCATCGCGAGGATCTTCACGCTCACAAATAGTGACCAGTCCCAG +ACCTTGCGGGAATTCAACCGGCACATCTTTCATTGAGTGTACGGCGATATCGGCGCGATTTTCGAGGAGC +GCGACTTCCAGCTCTTTTACAAATAAGCCTTTTCCGCCTACTTTCGCCAGCGGCGTATCAAGAATCACAT +CGCCGCGCGTCACCATCGGTACCAGTTCAACGACCAGGCCCGGATGGCTCGCCATCAACTTGTCTTTGAC +ATAGTGTGCCTGCCAGAGTGCAAGTGGGCTTTGGCGTGTGGCAATTCTTAAAACATTGTCTAACATGCTT +GTTACCGTCATTATCATCCGTGGTCCATCCTAACATCCTTGCCAGAGTGATGTCAGTGTTGTGGTGAAAC +GTAGACGCCTGCGCAAACCGTAAAATGAGGTCTGGCAGTGGATCCTGACAGGCGTTTCACGCCGTTGTAA +TAAGGAATTTACAGAGAATAAACGGTGCTACACTTGTATGTAGCGCATCTTTCTTTACGGTCAATCAGCA +AGGTGTTAAATTGATCACGTTTTAGACCATTTTTTCGTCGTGAAACTAAAAAAACCAGGCGCGAAAAGTG +GTAACGGTTACCTTTGACATACGAAATATCCCGAATGCCGCGTGTTACCGTTGATGTTGGCGGAATCACA +GTCATGACGGGTAGCAAATCAGGCGATACGTCTTGTACCTCTATATTGAGACTCTGAAACAGAGACTGGA +TGCCATAAATCAATTGCGTGTGGATCGCGCGCTTGCTGCTATGGGGCCTGCATTCCAACAGGTCTACAGT +CTACTGCCGACATTGTTGCACTATCACCATCCGCTAATGCCGGGTTACCTTGATGGTAACGTTCCCAAAG +GCATTTGCCTTTACACGCCTGATGAAACTCAACGCCACTACCTGAACGAGCTTGAACTGTATCGTGGAAT +GTCAGTACAGGATCCGCCGAAAGGTGAGCTTCCAATTACTGGTGTATACACCATGGGCAGCACCTCGTCC +GTAGGGCAAAGTTGTTCCTCTGACCTGGATATCTGGGTCTGTCATCAATCCTGGCTCGATAGCGAAGAGC +GCCAATTGCTACAACGTAAATGTAGCCTGCTGGAAAACTGGGCCGCCTCGCTGGGTGTGGAAGTCAGCTT +CTTCCTGATTGATGAAAACCGCTTCCGTCATAATGAAAGCGGCAGCCTGGGGGGCGAAGATTGTGGCTCC +ACCCAGCATATACTGCTGCTTGACGAATTTTATCGTACCGCCGTGCGTCTCGCCGGTAAGCGTATTCTGT +GGAATATGGTGCCGTGCGACGAAGAAGAGCATTACGACGACTATGTGATGACGCTTTACGCGCAGGGCGT +GCTGACGCCAAATGAATGGCTGGATCTCGGTGGCTTAAGCTCGCTTTCTGCTGAAGAGTACTTTGGTGCC +AGCCTTTGGCAGCTCTACAAGAGTATCGATTCCCCATACAAAGCGGTACTGAAAACACTGCTGCTGGAAG +CCTATTCCTGGGAATACCCGAACCCACGTCTGCTGGCGAAAGATATCAAACAGCGTTTGCACGACGGCGA +GATTGTATCGTTTGGTCTCGATCCATACTGCATGATGCTGGAGCGTGTTACTGAATACCTGACGGCGATT +GAAGATTTTACCCGTCTGGATTTAGTACGTCGCTGCTTCTATTTAAAAGTGTGCGAAAAGCTCAGCCGTG +AACGCGCCTGCGTAGGCTGGCGTCGCGCAGTGTTGAGCCAGTTAGTGAGCGAGTGGGGTTGGGACGAAGC +TCGTCTGGCAATGCTCGATAACCGCGCTAACTGGAAGATTGATCAGGTGCGTGAGGCGCACAACGAGTTG +CTCGACGCGATGATGCAGAGCTACCGTAATCTGATCCGCTTTGCGCGTCGCAATAACCTTAGCGTCTCCG +CCAGTCCGCAGGATATCGGCGTGCTGACGCGTAAGCTGTATGCCGCGTTTGAAGCATTACCAGGTAAAGT +GACGCTGGTAAACCCGCAGATTTCACCCGATCTCTCGGAACCGAATCTGACCTTTATTTATGTGCCGCCG +GGCCGGGCTAACCGTTCAGGTTGGTATCTGTATAACCGCGCGCCAAATATTGAGTCGATCATCAGCCATC +AGCCGCTGGAATATAACCGTTACCTGAATAAACTGGTGGCGTGGGCATGGTTTAACGGCCTGCTGACCTC +GCGCACCCGTTTGTATATTAAAGGTAACGGCATTGTCGATTTGCCTAAGTTGCAGGAGATGGTCGCCGAC +GTGTCGCACCATTTCCCGCTGCGCTTACCTGCACCGACACCGAAGGCGCTCTACAGCCCGTGTGAGATCC +GCCATCTGGCGATTATCGTTAACCTGGAATATGACCCGACAGCGGCGTTCCGCAATCAGGTGGTGCATTT +CGATTTCCGTAAGCTGGATGTCTTCAGCTTTGGCGAGAATCAAAATTGCCTGGTAGGTAGCGTTGACCTG +CTGTACCGCAACTCGTGGAACGAAGTGCGTACGCTGCACTTCAACGGCGAGCAATCGATGATCGAAGCCC +TGAAAACTATTCTCGGCAAAATGCATCAGGACGCCGCACCGCCAGATAGCGTGGAAGTCTTCTGTTATAG +CCAGCATCTGCGCGGCTTAATTCGTACTCGCGTGCAGCAACTGGTTTCTGAGTGTATTGAATTGCGTCTT +TCCAGCACCCGCCAGGAAACCGGGCGTTTCAAGGCGCTGCGCGTTTCTGGTCAAACCTGGGGGTTGTTCT +TCGAACGCCTGAATGTATCGGTACAGAAACTGGAAAACGCCATCGAGTTTTATGGCGCGATTTCGCATAA +CAAACTGCACGGCCTGTCAGTGCAGGTTGAAACCAATCACGTCAAATTACCGGCGGTGGTGGACGGCTTT +GCCAGCGAAGGGATCATCCAGTTCTTTTTCGAAGAAACGCAAGACGAGAATGGCTTTAATATCTACATTC +TCGACGAAAGCAACCGGGTTGAGGTATATCACCACTGCGAAGGCAGCAAAGAGGAGCTGGTACGTGACGT +CAGTCGCTTCTACTCGTCATCGCATGACCGTTTTACCTACGGCTCAAGCTTCATCAACTTCAACCTGCCG +CAGTTCTATCAGATTGTGAAGGTTGATGGTCGTGAACAGGTGATTCCGTTCCGCACAAAATCTATCGGTA +ACATGCCGCCTGCCAATCAGGATCACGATACGCCGCTATTACAGCAATATTTTTCGTGATGAACGTGCCG +GAAAGCGAGGCTTATCCGGCATGCAATCTTAGCGGAAACTGACTGTTTCACCCGCCTGCTGCGTCGCCGC +CTGTTCCAGCAAATCCCAGAAGGTTTCGCCGCTGCGATCACAAATCCACTCATCGCCTTTCAGGTCAAAA +TGGTAGCCGCCCTGTTTGGTTGCCAGCCATACCTGGTGCAGCGGCTCCTGGCGGTTGATAATGATTTTGC +TGCCATTCTCAAAGGTAATGGTCAGTACGCCGCCGTTGATTTCGCAGTCGATATCGCTGTCGCCATCCCA +GTCGTCCAGGCGTTCTTCAATGGTCAGCCAGAGTTGATCAGCCAGGCGATGAAATTCACTGTCGTTCATT +GTTGTATCCTGTTTTTAAGTGATGGCGGCAGTATAGCGGCATGGGGTCAGGGCTTCAAAGTTTGCACCTC +TGCGGCTGCGTTCCGGCACGATTCATCCGTCACCGGAATAATGATGTCTCTGTGTAGCGAAAGATTTGTC +TCTTCATTAGGGCGCAGTTACACCACGTCTTTCCCTGTTTCTGGTAAACATTATGATCAGGTTTACCGAG +CGAGCATCCTCACGCTGACGGAACTAAAAAAGACAACAAACAAACCACATTGCGATAGTGCATAAAGCCA +TCCTGGCGCGAGGTGCCGATCACGAAACTACCAGCAAAACATAAATCCCCACGAGTAAGCGTTATACTCG +CAGCATTTCCTCACTTTTCAGACTTCATAAAGAGTCGCTAAACGCTTGCTTTTACGTCTTCTCCTGCGAT +GATAGAAAGCAGAAAGCGATGAACTTTACAGGCAATCCATAATGAAAAACGTGTTTAAGGCACTCACTGT +ATTACTTACTCTCTTCAGCCTGACGGGCTGCGGTCTGAAAGGTCCGCTCTATTTCCCGCCTGCAGATAAA +AACGCACCGCCGCCGACCAAACCGGTAGAGACGCAAACGCAATCCACGGTGCCGGATAAAAACGATCGCG +CCACTGGCGATGGTCCATCCCAGGTGAATTACTAAAAGTCAGTTTCTGTACCCGCGTGATTGGAGTAAAT +GATGCAGTTCTCGAAAATGCATGGCCTTGGCAACGATTTTATGGTCGTCGACGCGGTAACGCAGAATGTC +TTTTTTTCACCGGAGCTGATTCGTCGCCTGGCTGATCGGCACCTGGGGGTAGGGTTTGACCAACTGCTGG +TGGTTGAGCCGCCGTATGATCCTGAACTGGATTTTCACTATCGCATTTTCAATGCTGATGGCAGTGAAGT +GGCGCAGTGCGGCAACGGTGCGCGCTGCTTTGCCCGTTTTGTGCGTCTGAAAGGACTGACCAATAAGCGT +GATATCCGCGTCAGCACCGCCAACGGGCGGATGGTTCTGACCGTCACCGATGATGATCTGGTCCGCGTAA +ATATGGGCGAACCCAACTTCGAACCTTCCGCCGTGCCGTTTCGCGCTAACAAAGCGGAAAAGACCTATAT +TATGCGCGCCGCCGAGCAGACAATCTTATGCGGCGTGGTGTCGATGGGAAATCCGCATTGCGTGATTCAG +GTCGATGATGTCGATACCGCGGCGGTAGAAACGCTTGGTCCTGTTCTGGAAAGCCACGAGCGTTTTCCGG +AGCGCGCCAATATCGGTTTTATGCAAGTGGTTAAGCGCGAGCATATTCGTTTACGCGTTTATGAGCGTGG +GGCAGGAGAAACCCAGGCCTGCGGCAGCGGCGCGTGTGCGGCGGTTGCAGTAGGGATTCAGCAAGGTTTG +CTGGCCGAAGAAGTACGCGTGGAACTCCCCGGCGGTCGTCTTGATATCGCCTGGAAAGGTCCGGGTCACC +CGTTATATATGACTGGCCCGGCGGTACATGTCTACGACGGATTTATTCATCTATGAAGCAACCAGGGGAA +GAACTGCAGGAAACACTCACGGAGCTTGATGACCGGGCGGTTGTCGATTATCTGATTAAAAATCCTGAGT +TTTTTATCCGTAATGCGCGCGCAGTAGAAGCGATACGTGTGCCGCATCCGGTACGCGGCACCGTTTCGTT +GGTCGAGTGGCACATGGCCCGCGCACGTAATCATATTCATGTTCTGGAAGAGAACATGGCGCTGTTGATG +GAACAGGCTATCGCCAACGAAGGCCTGTTTTATCGCCTACTCTACCTGCAGCGCAGTCTCACCGCCGCCA +GCAGTCTCGACGATATGCTGATGCGCTTTCACCGCTGGGCGCGCGATCTCGGCCTGGCAGGTGCGAGTCT +GCGCCTGTTTCCGGATCGCTGGCGCTTAGGTGCGCCGTCGAACCACACTCATCTGGCATTAAGCCGTCAG +TCTTTCGAACCGCTGCGTATTCAGCGTTTGGGGCAGGAACAGCACTATCTTGGGCCGCTTAACGGACCAG +AGCTGCTGGTGGTGCTACCGGAAGCGAAAGCGGTGGGATCGGTGGCGATGTCGATGCTGGGAAGCGATGC +TGATTTGGGTGTCGTGCTGTTTACCAGTCGCGATGCCAGTCACTATCAACAAGGGCAAGGAACGCAGTTA +CTTCATGAAATTGCGCTGATGTTGCCGGAGCTTCTGGAGCGTTGGATTGAACGCGTATGACCGATTTACA +CACCGATGTAGAACGCTACCTACGTTATCTGAGCGTGGAGCGCCAGCTTAGCCCGATAACCCTGCTTAAC +TACCAGCGTCAGCTTGAGGCGATCATCAATTTTGCCAGCGAAAACGGCCTGCAAAGCTGGCAGCAATGTG +ATGTGACGATGGTGCGCAATTTTGCTGTACGCAGTCGCCGTAAAGGGCTGGGAGCAGCAAGTCTGGCGTT +ACGGCTTTCTGCGCTACGTAGCTTTTTTGACTGGCTGGTCAGCCAGAACGAACTCAAAGCTAACCCGGCG +AAAGGTGTTTCGGCACCGAAAGCGCCGCGTCATCTGCCGAAAAACATCGACGTCGACGATATGAATCGGC +TGCTGGATATTGATATCAATGATCCCCTCGCTGTACGCGACCGTGCAATGCTGGAAGTGATGTACGGCGC +GGGTCTGCGTCTTTCTGAGCTGGTGGGGCTGGATATTAAACACCTCGACCTGGAGTCTGGTGAAGTGTGG +GTTATGGGGAAAGGCAGCAAAGAGCGCCGCCTGCCGATTGGTCGCAACGCTGTGGCGTGGATTGAGCACT +GGCTTGATTTGCGCGACCTGTTTGGTAGCGAAGACGACGCGCTTTTTCTGTCGAAACTGGGCAAGCGTAT +CTCCGCGCGTAATGTGCAGAAACGCTTTGCCGAATGGGGCATAAAACAAGGGCTGAATAATCACGTTCAT +CCGCATAAATTACGTCACTCGTTCGCCACGCATATGCTGGAGTCGAGCGGCGATCTTCGTGGTGTGCAGG +AGCTGCTGGGTCATGCCAACCTCTCCACCACGCAAATCTATACTCATCTTGATTTTCAACACCTTGCCTC +GGTGTACGATGCGGCGCATCCACGCGCCAAACGGGGGAAATAATGCGTTTTTACCGGCCTTTGGGGCGCA +TCTCGGCGCTCACCTTTGACCTGGATGATACCCTTTACGATAACCGTCCGGTGATTTTGCGCACCGAGCG +AGAGGCGCTTACCTTTGTGCAAAATTATCATCCGGCGCTGCGCAGCTTCCAGAATGAAGATCTGCAACGC +CTGCGCCAGGCGGTACGGGAAGCGGAACCCGAGATTTATCACGACGTGACGCGCTGGCGTTTTCGTTCGA +TTGAACAAGCGATGCTCGACGCCGGGCTGAGTGCCGAAGAAGCCAGTGCAGGCGCACACGCAGCAATGAT +CAACTTTGCCAAATGGCGCAGCCGAATCGACGTCCCGCAGCAAACTCACGACACCTTAAAACAGCTGGCG +AAGAAATGGCCGCTGGTGGCGATCACCAACGGTAACGCCCAGCCGGAGCTGTTTGGTTTGGGGGATTATT +TTGAGTTTGTGCTGCGCGCTGGCCCGCACGGGCGCTCAAAACCGTTCAGCGATATGTACTTTTTGGCTGC +GGAAAAACTCAACGTGCCGATCGGCGAGATCTTACATGTTGGGGACGATCTCACCACTGACGTGGGTGGG +GCAATTCGCAGCGGAATGCAGGCTTGTTGGATCAGACCGGAAAATGGCGATCTGATGCAAACCTGGGACA +GCCGTTTACTGCCGCATCTGGAAATTTCCCGGTTGGCATCTCTGACCTCGCTGATATAATCAGCAAATCT +GTATATATACCCAGCTTTTTGGCGGAGGGCGTTGCGCTTCTCCGCCCAACCTATTTTTACGCGGCGGTGC +CAATGGACGTTTCTTACCTGCTCGACAGCCTTAATGACAAACAGCGCGAAGCGGTGGCCGCGCCACGCAG +CAACCTTCTGGTGCTGGCGGGCGCGGGCAGTGGTAAGACGCGCGTACTGGTGCATCGTATCGCCTGGTTG +ATGAGCGTGGAAAACTGCTCGCCATACTCGATTATGGCGGTGACGTTTACCAACAAAGCGGCGGCGGAGA +TGCGTCATCGTATCGGGCAACTGATGGGCACGAGCCAGGGCGGTATGTGGGTCGGCACCTTCCACGGGCT +GGCGCACCGTTTGCTGCGTGCGCACCATATGGACGCCAATCTGCCGCAGGATTTCCAGATCCTCGACAGT +GAAGACCAGCTACGCCTGCTTAAGCGTCTGATCAAAGCCATGAACCTCGACGAGAAGCAGTGGCCGCCGC +GGCAGGCAATGTGGTACATCAACAGCCAGAAAGATGAAGGCCTGCGTCCGCATCATATTCAAAGCTACGG +TAATCCGGTGGAGCAGACCTGGCAGAAGGTGTATCAGGCGTATCAGGAAGCGTGTGACCGCGCGGGCCTG +GTGGACTTCGCCGAGCTGCTGCTGCGCGCTCACGAGTTGTGGCTTAACAAGCCGCATATCCTGCAACACT +ACCGCGAACGTTTTACCAATATCCTGGTGGACGAATTCCAGGATACCAACAACATTCAGTACGCGTGGAT +CCGCCTGCTGGCGGGCGACACCGGCAAAGTGATGATCGTCGGTGATGACGACCAGTCAATCTACGGCTGG +CGCGGGGCGCAGGTGGAGAATATTCAGCGTTTCCTTAATGATTTCCCCGGTGCCGAAACTATTCGTCTGG +AGCAAAACTACCGCTCTACCAGCAATATTCTGAGCGCCGCTAACGCCCTGATTGAAAACAATAACGGGCG +TCTGGGTAAAAAACTGTGGACCGATGGCGCGGACGGTGAGCCTATTTCCCTCTATTGCGCTTTTAACGAA +CTCGATGAAGCGCGTTTTGTGGTTAACCGCATCAAAACCTGGCAGGACAACGGCGGAGCGCTTGCCGAGT +GCGCCATTCTCTACCGCAGCAACGCCCAGTCGCGGGTGCTCGAAGAGGCGTTATTGCAGGCCAGTATGCC +GTACCGTATTTACGGCGGGATGCGCTTCTTCGAACGCCAGGAAATCAAAGATGCGCTCTCGTATCTGCGC +CTGATTGCCAACCGCAACGACGACGCGGCCTTTGAGCGTGTGGTGAATACGCCAACGCGGGGTATTGGTG +ACCGGACGCTGGACGTGGTACGTCAGACATCGCGCGATCGCCAGTTAACACTCTGGCAGGCATGTCGTGA +GCTGTTGCAGGAAAAAGCCCTCGCCGGGCGAGCTGCCAGCGCCTTGCAGCGATTTATGGAATTAATCGAC +GCCTTAGCGCAGGAAACTGCCGATATGCCGCTGCATGTACAGACTGACCGGGTAATTAAAGACTCCGGCC +TGCGTACCATGTATGAGCAGGAGAAGGGCGAAAAAGGTCAGACGCGTATCGAAAACTTAGAGGAACTGGT +GACGGCAACGCGCCAGTTCAGCTACAACGAAGAAGACGAAGATTTAATGCCGCTGCAGGCGTTCCTCTCC +CATGCGGCACTGGAAGCAGGTGAAGGGCAGGCGGATACCTGGCAGGATGCGGTGCAGTTGATGACGCTAC +ACTCGGCGAAAGGCCTGGAGTTCCCGCAGGTGTTTATCGTTGGTATGGAAGAGGGCATGTTCCCAAGCCA +GATGTCGCTGGATGAAGGCGGGCGTCTGGAAGAAGAACGCCGTCTGGCCTACGTTGGCGTAACCCGCGCG +ATGCAGAAACTGACGCTGACCTACGCGGAAACCCGCCGTCTGTATGGTAAAGAGGTTTACCATCGCCCGT +CGCGCTTTATCGGCGAGCTGCCGGAAGAGTGTGTGGAAGAGGTGCGCCTGCGCGCCACGGTAAGCCGCCC +GGTCAGCCATCAGCGGATGGGTACGCCGATGGTCGAGAACGACAGCGGCTACAAGCTCGGCCAGCGCGTA +CGCCACGCTAAGTTTGGTGAAGGCACCATTGTCAATATGGAAGGCAGCGGTGAGCATAGCCGTTTGCAGG +TGGCATTTCAGGGCCAGGGTATTAAATGGCTGGTGGCGGCATACGCCCGGCTGGAGTCGGTGTAACGTTG +CCGGATGCGGTGCTGCGCACCTTATTTGGCCTAAAAAATCATTCAGATTCAATAAATTGCAACGTCATGT +AGGCCGGATAGGGCGTTTACGCCGCATCCGGCATCTGCGCCATCTTCAGTATCTGACACAAAACTATCGT +TTTAACCTTTCCGCTCGACGGAAATCATGGTGACAAAAGGATAGCGTTGCCACGGGATTGCCCCGCCTTT +CATATACATATGTGAAATCGTGCCATCAAGATAAAGCAGCTGCTCAACGTTCAGTTTCGCTTTGGCATAA +CAGGCAAAATCATAAAAATTTGTTGCCTGCTGGCTCAACAAAAACACGGCGTTCCCATGTTTATTAATCC +CAACACCGTTACGAATTTTGCTTGAGGCGACGTTGGGATGAATACGCGGATTAATTACACCGTTTTCCAT +CAACATTGGCCCTGACTGCACCGCAAACTGAATCTCTTTACTGGTTTTGAAGGCATCCAGACGAACGATG +CCGACTTTATCTCCCGCGACATAAAACACGCCGCCAGGACGGATAAAGAAATTCCCTTCACCTGAAGCGA +GATTTAACGCCACCTTCTGCTGACCGTTTTCGATGTACAAACCGAGCGGCGCATAGCTTTCATCATAGAT +GCCGCCGTTCATCGCCATCTGCACCTGACCCTGACTATTAATATCCGCCAGCAGAGCATGTAACGTTCCC +CACGCTTCGCCATTGGCTTTTTGCCAGTACATTTTCACCCGCTCTGTTTGAGGATTAACGGTATACGCCT +GTACGGTCAGCGTCGGATCTGAGAGTGCGCAATCATCAGCGGCAACAGCAAACAAGGGAAGTAAGGTGAG +GGCGAGAAAAATCCGTTTGAGATTCAAGGTGATCATTCCTTTACCAATGAGTAGCTGATGCGCCATTATA +GGTCCTGGATGTGGGATTTTTTTATCCTGTTAGCGACCTTGACGAGTACCAAAAAGCGCGAAGTTCAACT +ATTGTTCTGTGGTGTTCTGTTGCGTGTTGACGGCAAAATTTTGCTGGCGTAACATGCGCGCACGATCACT +CTAAGAGGACATTCGCCTTGGACACACCCAGTAGATACTGGCTCACTATCCTGTCATCCAGGATCAACTC +CTAAGGCTATCCCTTTTTGCTGATAGCCTTAGCGGTTGTCAGCGACCTCAATTTTTCCCGTCGCGCTGAG +TCAGGCTGTTTAATGGTCTGAAACCCAATTTGTTTCTGTGTGCCCACCGAACTGTCCGATATTTTAAGCA +TTGGGAGTCCCGGTCATGCTGAGCGCATTTCAACTGGAAAATAACCGACTGACCCGGCTGGAAGTCGAAG +AGTCACAACCCCTTGTAAATGCAGTATGGATTGATCTTGTCGAACCGGACGACGACGAGCGACTGCGCGT +ACAATCTGAACTTGGCCAGAGCCTGGCAACCCGCCCGGAACTGGAAGACATCGAAGCATCGGCACGTTTC +TTTGAAGACGACGACGGCCTGCATATTCACTCCTTCTTCTTCTTTGAAGATGCGGAAGATCACGCCGGTA +ACTCCACTGTGGCATTTACCATCCGTGATGGTCGTCTGTTTACTCTGCGTGAGCGTGAACTGCCCGCTTT +TCGTCTGTATCGTATGCGTGCCCGTAGCCAGTCGATGGTAGACGGTAACGCCTACGAGTTGCTGCTGGAT +CTGTTCGAAACCAAAATCGAACAGTTGGCAGATGAAATTGAAAATATCTATAGCGACCTGGAGCAGTTGA +GCCGGGTGATTATGGAAGGGCATCAGGGCGATGAGTACGACGAGGCGCTCTCCACTCTGGCGGAACTGGA +AGATATCGGCTGGAAAGTTCGCCTGTGTCTGATGGATACCCAGCGCGCGCTCAACTTCCTGGTGCGTAAA +GCGCGTTTACCGGGTGGGCAACTGGAGCAGGCGCGTGAAATCCTGCGAGATATCGAATCCCTGCTGCCGC +ATAACGAATCCCTGTTCCAGAAGGTGAACTTCCTGATGCAGGCGGCAATGGGTTTTATCAACATCGAGCA +GAACCGCATCATCAAAATCTTCTCGGTGGTATCCGTGGTATTCCTGCCGCCGACGCTCGTTGCTTCCAGC +TATGGCATGAACTTTGAGTTTATGCCAGAACTGAAGTGGAGCTTCGGCTACCCTGGCGCGATTATCTTTA +TGATCCTCGCGGGCCTGGCACCGTATCTGTACTTTAAGCGGAAGAACTGGTTGTAAAAAACGAGAGCGGT +GGCTTAGTCTGGCTAAGCCACCTGTTATTCAAAGGCTCCAGGTATTTAACCCTTTTACCTCTTTCTCATA +GAACCATTTGTTCGTGTTAACAGCAACATAGGCTGCTACGGCAATTCCCAGAATGTTAACGCCAATTAGT +GCACCAACAAATAGAGATAGAATACCAAGTAATAGAACTATAATTGCTTTTTTCCATAACCCCAGGACAA +ATAAATATATCCAGGAACAGAAGAAAGCAATGAAATTCATTTGAATAGTTAAGCGTTGTCTTACTTTTAA +TGCTTTAAATGCTGCTTTATATTCTGGTGTTGCCCCCCAGAATCCAGGAAAACCATGTTGATCATAAAAA +TTAAATCGGTATTTCCATTTTTCACTTAATGAACCATCGTTCATATATTCCTTACTCATAAATACTCCAT +AACTATTGTTTTGATGAATCAGTAGGTGCAAGCATTAGCATACTGAAAGTGGAAAAATAACAAATCAAAA +AAATCATCGAACCATTGCCTGAACAGGCAAAATCTTCGGCTATCATTGTGATGATAGAGATGATATATAC +TGCTAATGTACCAAAAACATAAGTTTTTATATAGATGAAACCACTATCACGGAGTCGCTGGCAATTCATG +TTGATGACGAGATAATGGAGTACGATGGTAGAGACTATAACAAGAAAGCCTGCTTCTCCATCGTTAAAAA +AGATAATAAGAAAGGCAAAAATGAAATTTATTAAAATAAATGAAAATATATAACGACGTCTGGAAATCTT +ACCGTTAGATGTTGGGATAAATATACGTAACATAAATTTTACATCCTTGTATGAGTCTCCGGTCAGCATG +GCAATATGCCCACTCTCATGCAAGAGTCGGCATATTTTTTCAGAATATATTTATTTTTTATTTGGACGTT +CTACGCTGCGTATAAATCGCATCCATCACAAAAATTGCCAGCGCCACCCAAATAAAGGCGAAAGTCACCA +TCTTATCGGCACCCGGTTTTTCACCATAAAACGTCACAGCCAGCAGGAACATCAGCGTCGGGCCAATGTA +CTGGAAAAAGCCTAACGTTGAGAGACGCAAGCGCGTGGCAGCGGCGGTAAAACACAACAGCGGTACGGTA +GTGACAATACCGGCGGCGATCAGCAGTAAATTCAGCGACATCGGGTTTTGCCCCATATGGCTGGTTGAGC +TGTCGGCAATAGCAAACAGGTAAATTGCCGCCACGGGCAGCAGCCACATGGTTTCGATTAACATGCCGGT +TTGCGCTTCAACGGCAATCTTCTTGCGTACCAGACCGTAGAAGGCAAAACTAAATGCCAGTCCCAGCGCG +ATAATAGGTAGCGAACCAAAAGTCCACAGCTGGACTAACACGCCACATATCGCCAGAATCACCGCCAGCC +ATTGCATCCGGCGGAATCGCTCGCCGAGGAAAATCATCCCCAGCACAATGTTCACCAGCGGGTTAATAAA +GTAACCAAGGCTCGCTTCCAGCATATGGTGATTGTTCACCGCCCAGATAAACAGTAGCCAGTTGCCACCA +ATCAGCACGGCAGAGACTGCCAGCATAAAAATTTTCTGTGGCGTCTGAATCAGCGTTTTTAAATAGGACC +ACTGGCGGCAAATGCTCATCAGCACCACCATAAAGAAAAACGACCAGATCACGCGATGCGTCAGGATTTC +ATCGGCGGGCACGTAGTAAATCAACTTGAAGTACGCTGGCGCTATACCCCAAATAAAATAAGCGGCAAGA +GCGAGTAATACGCCCTGCCGCGTTTGTTTTGCATCCATCGGGAATACTCATTTTTAATTGGTAACAGCAG +TTTACCTGCTTTTATGTCTTCAACCTACCATATAGGTGGCGGTGGCACTGGCAATATAAAGCTGTTCTTC +ATTGTGTAATTCAACGCGGGCGACGGCGACTTTATTGCCTGCACGCAACAGGCTACTAGTAGCAGTAAAA +CGCTCGCCCCTGCCTGGGCGCAGATAATCAACGCGAAGATCAATGGTCCCCATCCGCGATAGCCGCTGGC +GTAGTTCATCTTCACTGATGGTTTCGTGGCGGGTTAAGGTACTTCCCACGCACACCAGACCGGCGGCGAC +ATCCAGCGCCGACGCAATGACCCCGCCGTGCAAAATGCTTTGCGCCCAGTTGCCCACCATCATTGGCTGA +TTTTTAAAGGCCAGCTGTGCGAACTCTTTTTCGTAACGCTCCAGTTCCATCCCCAATGCGCGGTTAAATG +GCATGTGATAAACAAACATCTCACCCACTAATTTCAGGGCTTGTTCAGCGGTCAGTACGGCAGACATATC +ATCCTTACACTTCATTGGTTAATGAAATGTTGATTTTATGCTTCTTTGTTGTTGGTTTCTACTTTAGGAA +GGGATAACTAACGGCTATGGAGTTAAGTATGTAAAATAGCCCGCAGAAAAATATTCACCTTATCAATAAT +TCGTTACGGAGAACACGACCGATGCGGACTCTGCAGGGCTGGTTGTTGCCGGTGTTTATGTTGCCTATGG +CAGTATATGCACAAGAGGCAACGGTGAAAGAGGTGCATGACGCGCCAGCGGTGCGTGGCAGTATTATCGC +CAATATGCTGCAGGAGCATGACAATCCGTTCACGCTCTATCCTTATGACACCAACTACCTCATTTACACC +CAAACCAGCGATCTGAATAAAGAAGCGATTGCCAGTTACGACTGGGCGGAAAATGCGCGTAAGGATGAAG +TAAAGTTTCAGTTGAGCCTGGCATTTCCGCTGTGGCGTGGGATTTTAGGCCCGAACTCGGTGTTGGGTGC +GTCTTATACGCAAAAATCCTGGTGGCAACTGTCCAATAGCGAAGAGTCTTCACCGTTTCGTGAAACCAAC +TACGAACCGCAATTGTTCCTCGGTTTTGCCACCGATTACCGTTTTGCAGGTTGGACGCTGCGCGATGTGG +AGATGGGGTATAACCACGACTCTAACGGGCGTTCCGACCCGACCTCCCGCAGCTGGAACCGCCTTTATAC +TCGCCTGATGGCAGAAAACGGTAACTGGCTGGTAGAAGTGAAGCCGTGGTATGTGGTGGGTAATACTGAC +GATAACCCGGATATCACCAAATATATGGGTTACTACCAGCTTAAAATCGGCTATCACCTCGGTGATGCGG +TGCTCAGTGCGAAAGGACAGTACAACTGGAACACCGGCTACGGCGGCGCGGAGTTAGGCTTAAGTTACCC +GATCACCAAACATGTGCGCCTTTATACTCAGGTTTACAGCGGCTATGGCGAATCGCTCATCGACTATAAC +TTCAACCAGACCCGTGTCGGTGTGGGGGTTATGCTAAACGATTTGTTTTGATGAACGGTTGAGTGGTTGG +CAAATCTGGAATCCAGCATCCAGGATTACCCTCTCAGAGACTAAAAGCATTGCAGTTTCTCGCGCAGGCG +CTGAAAATAGCGCCTGTTTTTATTTCAGGCAATCGGGGTGAATGTGGCGCAGGCGGAAGTGTTGAATCTG +GAGTCCGGAGCTAAACAGGTTTTACAAGAAACCTTTGGCTACCAACAGTTTCGCCCCGGCCAGGAAGAAA +TTATCGACACTGTGCTTTCCGGCCGCGATTGCCTCGTCGTCATGCCCACTGGTGGCGGAAAATCCCTTTG +CTATCAAATCCCTGCCTTATTGCTAAACGGCCTTACCGTGGTTGTTTCACCGCTGATTTCGTTGATGAAA +GATCAGGTGGATCAACTGCAAGCCAACGGCGTGGCGGCGGCGTGCCTTAACTCGACGCAAACCCGCGAAC +AGCAACTTGAAGTGATGACAGGCTGCCGCACCGGGCAAATTCGTCTGCTTTATATCGCCCCGGAACGCCT +GATGCTGGATAACTTTCTTGAGCATCTGGCGCACTGGAATCCGGTGTTATTAGCCGTTGATGAAGCGCAC +TGTATCTCCCAATGGGGCCACGATTTCCGCCCGGAATATGCCGCGCTCGGTCAGTTGCGCCAGCGGTTCC +CGACGCTGCCGTTTATGGCGCTGACCGCCACAGCCGACGACACCACGCGCCAGGATATCGTGCGCCTGCT +GGGGCTGAACGATCCGCTGATTCAAATCAGCAGTTTTGACCGTCCGAATATTCGCTACATGCTGATGGAG +AAGTTCAAACCGCTCGATCAGTTGATGCGCTACGTGCAGGAACAGCGCGGTAAGTCAGGCATTATCTACT +GCAACAGCCGCGCGAAAGTAGAAGACACCGCTGCGCGCCTGCAAAGCAAGGGAATTAGCGCGGCGGCCTA +TCATGCCGGGCTGGAAAATAATGTTCGCGCCGATGTGCAGGAAAAATTCCAGCGCGATGACCTGCAAATT +GTGGTGGCGACGGTGGCGTTCGGCATGGGCATCAATAAACCAAACGTTCGCTTCGTGGTCCACTTTGATA +TTCCGCGCAATATCGAATCCTATTATCAGGAAACCGGACGCGCCGGGCGTGATGGCCTGCCCGCGGAAGC +GATGCTGTTTTACGATCCGGCTGATATGGCGTGGCTGCGCCGTTGTCTGGAAGAGAAGCCGCAGGGGCAG +TTGCAGGATATCGAGCGCCACAAACTCAATGCGATGGGCGCGTTTGCCGAAGCGCAAACTTGCCGTCGTC +TGGTATTGCTGAACTATTTTGGCGAAGGGCGTCAGGAGCCGTGCGGGAACTGCGATATCTGCCTCGATCC +GCCGAAACAGTACGACGGTTCAACCGATGCTCAGATTGCCCTTTCCACCATTGGTCGTGTGAATCAGCGG +TTTGGGATGGGTTATGTGGTGGAAGTGATTCGTGGTGCTAATAACCAGCGTATCCGCGACTATGGTCATG +ACAAACTGAAAGTCTATGGCATGGGCCGTGATAAAAGCCATGAACATTGGGTGAGCGTGATCCGCCAGCT +GATTCACCTCGGCCTGGTGACGCAAAATATTGCCCAGCATTCTGCCCTACAACTGACAGAGGCCGCGCGC +CCGGTGCTGCGCGGCGAATCCTCTTTGCAACTTGCCGTGCCGCGTATCGTGGCGCTCAAACCGAAAGCGA +TGCAGAAATCGTTCGGCGGCAACTATGATCGCAAACTGTTCGCCAAATTACGCAAACTGCGTAAATCGAT +AGCCGATGAAAGTAATGTCCCGCCGTACGTGGTGTTTAACGACGCAACCTTGATTGAGATGGCTGAACAG +ATGCCGATCACCGCCAGCGAAATGCTCAGCGTTAACGGCGTTGGGATGCGCAAGCTGGAACGCTTTGGCA +AACCGTTTATGGCGCTGATTCGTGCGCATGTTGATGGCGATGACGAAGAGTAGTCAGCAGCATAAAAAAG +TGCCAGTATGAAGACTCCGTAAACGTTTCCCCCGCGAGTCAAATGTATGTTGATGTTATTTCTCACCGTC +GCCATGGTGCACATTGTGGCGCTTATGAGCCCCGGTCCCGATTTCTTTTTTGTCTCTCAGACCGCTGTCA +GTCGTTCCCGTAAAGAAGCGATGATGGGCGTGCTGGGCATTACCTGCGGCGTAATGGTTTGGGCTGGGAT +TGCGCTGCTTGGCCTGCATTTGATTATCGAAAAAATGGCCTGGCTGCATACGCTGATTATGGTGGGCGGT +GGCCTGTATCTCTGCTGGATGGGTTACCAGATGCTACGTGGTGCACTGAAAAAAGAGGCGGTTTCTGCAC +CTGCGCCACAGGTCGAGCTGGCGAAAAGTGGGCGCAGTTTCCTGAAAGGTTTACTGACCAATCTCGCTAA +TCCGAAAGCGATTATCTACTTTGGCTCGGTGTTCTCATTGTTTGTCGGTGATAACGTTGGCACTACCGCG +CGCTGGGGCATTTTTGCGCTGATCATTGTCGAAACGCTGGCGTGGTTTACCGTCGTTGCCAGCCTGTTTG +CCCTGCCGCAAATGCGCCGTGGTTATCAACGTCTGGCGAAGTGGATTGATGGTTTTGCCGGGGCGTTATT +TGCCGGATTTGGCATTCATTTGATTATTTCGCGGTGATGCCAGACGCGTCTTCAGAGTAAGTCGGATAAG +GCGTTTACGCCGCATCCGACATTATTTTTCACGCATGCCTCGCCGATGCTAACAGCGCTCCCACCAGCAT +AAACAACGAGCCGAAAATCTTATTCAGCGCCTTCATCTGCTTTGGTCCTTTAATCCATAGAGCAATCCGT +TGAGCAAGGGTGGCGTAACCGATCATCACAATAATATCGACCACAATAGTGGTGACGCCGAGCACGATAT +ACTGCATCAGTTGCGGCTGTTGCGGCATGATGAATTGCGGAAATAGCGCCGCCAGAAACACAATACTTTT +GGGATTGGTGAGATTCACAAAAACTGCGCGCTGGAACAAATGTCGACGCGATTGAGTAGAGGCCAGCGAT +TTAAGGTCAATTGCACCAGCGGCGCGCCACTGCTGGATTCCCAGCCAAATCAAGTAAGCCGCGCCTGCCC +ACTTCAACACTTCAAACGCAATCACTGAGCGGGAAAATAGCGTCCCCAACCCCACGCCAACCAGCACAAT +ATGAATCGCCAGTCCGGTCTGAAGCCCAGCAATAGACGCCACCGCGCCGCGATAACCGTGGTTGAGCGAG +GTGGTCATAGTGTTGATTGCACCAGAGCCTGGCGACAGGCTTAAAATGATCGATGTCAGCAGGTAGGCAA +ACCACCATTCTAAGGTCATGATGAACTCCCGGTGTGTCTATTTTTGTGCCACAATACGCTACTGTCGCAG +CGTTGTGTCAGGCACGCTAAAAAAAACGATTTTACGTGGTTTAAGAGGCAGATTACCCGATGTTTCAGCA +GCAAAAAGACTGGGAAACAAGAGAAAACGCGTTTGCTGCTTTTACCATGGGACCGCTGACTGATTTCTGG +CGTCAGCGTGATGAAGCAGAGTTTACTGGTGTGGATGACATTCCGGTGCGCTTTGTCCGTTTTCGCGCAC +AGCACCATGACCGGGTGGTAGTCATCTGCCCGGGGCGTATTGAGAGCTACGTAAAATATGCGGAACTGGC +CTATGACCTGTTCCATTTGGGGTTTGATGTCTTAATCATCGACCATCGCGGGCAGGGACGTTCCGGTCGC +CTGTTAGCCGATCCGCATCTCGGGCATGTTAATCGCTTTAATGATTATGTTGATGATCTGGCGGCATTCT +GGCAGCAGGAGGTTCAGCCCGGTCCGTGGCGTAAACGCTATATACTGGCACATTCGATGGGCGGTGCGAT +CTCCACATTATTTCTGCAACGCCATCCAGGTGTATGTGACGCCATTGCGCTAACTGCGCCAATGTTTGGG +ATCGTGATTCGTATGCCGTCATTTATGGCACGGCAGATCCTCAACTGGGCCGAAGCGCATCCACGTTTCC +GTGATGGCTATGCAATAGGCACCGGGCGCTGGCGCGCGTTGCCGTTTGCTATCAACGTACTGACCCACAG +CAGACAGCGATATCGACGTAACTTACGCTTCTATGCTGATGACCCAACGATTCGCGTCGGTGGGCCGACC +TACCATTGGGTACGCGAAAGTATTCTGGCTGGCGAACAGGTGTTAGCCGGTGCGGGTGATGACGCCACGC +CAACGCTTCTCTTGCAGGCTGAAGAGGAACGCGTGGTGGATAACCGCATGCATGACCGTTTTTGTGAACT +CCGCACCGCCGCGGGCCATCCTGTCGAAGGAGGACGGCCGTTGGTAATTAAAGGTGCTTACCATGAGATC +CTTTTTGAAAAGGACGCAATGCGCTCAGTCGCGCTCCACGCCATCGTTGATTTTTTCAACAGGCATAACT +CACCCAGCGGAAACCGCTCTACAGAGGTTTAAATTTCTTATGTACCAGGTTGTTGCGTCTGATTTAGATG +GCACGTTACTTTCTCCCGACCATACGTTATCCCCTTACGCCAAAGAAACTCTGAAGCTGCTCACCGCGCG +CGGCATCAACTTTGTGTTTGCGACCGGTCGTCACCACGTTGATGTGGGGCAAATTCGCGATAATCTGGAG +ATTAAGTCTTACATGATTACCTCCAATGGTGCGCGCGTTCACGATCTGGATGGTAATCTGATTTTTGCTC +ATAACCTGGATCGCGACATTGCCAGCGATCTGTTTGGCGTAGTCAACGACAATCCGGACATCATTACTAA +CGTTTATCGCGACGACGAATGGTTTATGAATCGCCATCGCCCGGAAGAGATGCGCTTTTTTAAAGAAGCG +GTGTTCCAATATGCGCTGTATGAGCCTGGATTACTGGAGCCGGAAGGCGTCAGCAAAGTGTTCTTCACCT +GCGATTCCCATGAACAACTGCTGCCGCTGGAGCAGGCGATTAACGCTCGTTGGGGCGATCGCGTCAACGT +CAGTTTCTCTACCTTAACCTGTCTGGAAGTGATGGCGGGCGGCGTTTCAAAAGGCCATGCGCTGGAAGCG +GTGGCGAAGAAACTGGGCTACAGCCTGAAGGATTGTATTGCGTTTGGTGACGGGATGAACGACGCCGAAA +TGCTGTCGATGGCGGGGAAAGGCTGCATTATGGGCAGTGCGCACCAGCGTCTGAAAGACCTTCATCCCGA +GCTGGAAGTGATTGGTACTAATGCCGACGACGCGGTGCCGCATTATCTGCGTAAACTCTATTTATCGTAA +TCGTTCTTTATTTGGTCAGTTGTCAACCTGATACTTCGCTACAATGGATACCCGTTAATCAAAGAGTTTT +CCATTGTGGCGCTACTTATCATCACCACGATTCTGTGGGCCTTCTCCTTTAGCTTTTATGGCGAGTACCT +TGCGGGGCACGTCGATAGCTATTTTGCGGTGCTGGTGCGCGTTGGCCTGGCGGCACTCGTTTTTCTGCCG +TTTCTGCGTACCCGTGGCAATAGCCTGAAAACGGTCGGCCTGTATATGCTGGTGGGCGCGATGCAGCTTG +GCGTGATGTATATGCTGAGTTTCCGCGCTTATCTCTACCTGACGGTTTCCGAGCTGCTGCTGTTCACCGT +GCTGACGCCGCTCTACATCACGCTGATTTATGACATCATGAGTAAGCGCCGTCTGCGCTGGGGCTATGCC +TTTAGCGCCTTGCTGGCGGTGATTGGTGCCGGGATTATTCGCTATGATCAGGTCACCGACCATTTCTGGA +CTGGCTTGCTGCTGGTGCAACTCTCCAATATCACTTTTGCCATTGGCATGGTGGGTTACAAACGCCTGAT +GGAAACTCGCCCGATGCCACAGCATAACGCCTTTGCGTGGTTCTATCTTGGCGCGTTTCTGGTGGCAGTG +ATTGCATGGTTCTTGCTGGGAAATGCGCAGAAAATGCCGCAAACCACGCTGCAATGGGGCATTCTGGTGT +TTCTTGGCGTGGTGGCTTCCGGGATTGGCTACTTTATGTGGAACTACGGCGCGACGCAGGTGGACGCCGG +AACGCTGGGCATTATGAATAATATGCACGTTCCGGCAGGGCTGCTGGTAAACCTGGCTATCTGGCACCAA +CAGCCGCACTGGCCAACGTTTATTACAGGCGCGCTGGTGATCCTGGCCTCACTGTGGGTGCATCGTAAGT +GGGTCGCTCCGCGCTCTTCACAAACGGCAGATGATCGCAGGCGTGATTGCGCGCTGAGCGAATAAACGCT +TCCGTAACTGGCTGACGCTGCTCGCCATCGCGCACGGCGGCGTACAGTCGGCTCCACAAGCCTTCGCCCA +GGGTTTTGGTCACCACCAGACCCTGGCGCTCAAAACTCTCTACTACCCAATGCGGTAGCGCGGCAATACC +CATCCGCGCGGCAACCATCTGAATCAACAATAAGGTGTTATCGACGCTTTTCAGTGACGGGCTGACGCCT +GCCGGCTGAAGAAAATGCCGCCAGACATCCAGTCGACTACGCTGCACCGGATAAATTAATAGCGTCTCGC +TGGCGAGATCTTCCGGTGTAATTCGCGTTTTCGCCGCCAGTGGATGGTCAGGTGCTAACACCAGACGCAC +TTCATAGTCGAACATCGGCGAATAATGCAGGCCACTGCGCGGCAGAATATCGGACGTCATTACCAGATCC +AGCTCTCCCTGTTGCAAGGCGGGCTGCGGGTCAAATGTCACGCCCGATTTAAAATCCATCTCTACCTGCG +GCCAGTTCTTATGGAAATTTTCTAACGCGGGTGTCAGCCACTGAATACAGCTATGGCACTCAATGGCAAT +GCGCAGACGCGTCTGCTGCGGTTCATTGCAGGCTTGCAGGGCCTGGCTAATTTGCGGCAGTACCTGGTTT +GCCAGTTGCAACAGGATTTCTCCCTGCGGTGTAAAGCGTAGCGGCTGGCTCTTACGCACAAATAGCCGGA +AGCCAAGGCGTTGTTCCAGATCGCTAAACTGGTGAGACAGGGCGGATTGCGTCTGATGCAACGTCGCCGC +AGCGGCTGCGAGCGAGCCGCAGTTCCGCAACGCTTGTAGCGTTTTCAGGTGTTTTACTTCGATCATGAAA +GTCCTTCACTTCGGCATGAATAATTTGCGCTTGAGGAATATACAGTAACCGCCAATTATGGATGTGTAAA +CATCTGGACGGCTAAAATCCTTCGTCTTTTAAATTTATGGTGCGTTGGCTGCGTTTCTCCACCCCGGTCA +CTTACTTCAGTAAGCTCCCGGGGATGAATAAACTTGCCGCCTTCCCTAAATTCAAAATCCATAGGATTTA +CATATAATTAGAGGAAGAAAAAATGACAATATTGAATCACACCCTCGGTTTCCCTCGCGTTGGCCTGCGT +CGCGAGCTGAAAAAAGCGCAAGAAAGTTATTGGGCGGGGAACTCCACGCGTGAAGAACTGCTGGCGGTAG +GGCGTGAATTGCGTGCTCGTCACTGGGATCAACAAAAGCAAGCGGGTATCGACCTGCTGCCGGTGGGCGA +TTTTGCCTGGTACGATCATGTACTGACCACCAGTCTGCTGCTGGGTAACGTTCCGGCGCGTCATCAGAAC +AAAGATGGTTCGGTAGATATCGACACCCTGTTCCGTATTGGTCGTGGACGTGCGCCGACTGGCGAACCTG +CGGCGGCAGCGGAAATGACCAAATGGTTTAACACCAACTATCACTACATGGTGCCGGAGTTCGTTAAAGG +CCAACAGTTCAAACTGACCTGGACGCAGCTGCTGGACGAAGTGGACGAGGCGCTGGCGCTGGGCCACAAG +GTGAAACCTGTGCTGCTGGGGCCGGTTACCTGGCTGTGGCTGGGGAAAGTGAAAGGTGAACAATTTGACC +GCCTGAGCCTGCTGAACGACATTCTGCCGGTTTATCAGCAAGTGCTGGCAGAACTGGCGAAACGCGGCAT +CGAGTGGGTACAGATTGATGAACCCGCGCTGGTACTGGAACTACCACAGGCGTGGCTGGACGCATACAAA +CCCGCTTACGACGCGCTCCAGGGACAGGTGAAACTGCTGCTGACCACCTATTTTGAAGGCGTAACGCCAA +ATCTCGACACGATTACTGCGCTGCCTGTTCAGGGTCTGCATGTTGACCTCGTACATGGTAAAGATGACGT +TGCTGAACTGCACAAGCGCCTGCCTTCTGACTGGTTGCTGTCTGCGGGTCTGATCAATGGTCGTAACGTC +TGGCGCGCCGATCTTACCGAGAAATATGCGCAAATTAAGGACATTGTCGGCAAACGTGATTTGTGGGTGG +CATCTTCCTGCTCGTTGCTGCACAGCCCCATCGACCTGAGCGTGGAAACGCGTCTTGATGCAGAAGTGAA +AAGCTGGTTTGCCTTCGCCCTACAAAAATGCCATGAACTGGCACTGCTGCGCGATGCGCTGAACAGTGGT +GACACGGCAGCTCTGGCAGAGTGGAGCGCCCCGATTCAGGCACGTCGTCACTCTACCCGCGTACATAATC +CGGCGGTAGAAAAGCGTCTGGCGGCGATCACCGCCCAGGACAGCCAGCGTGCGAATGTCTATGAAGTGCG +TGCTGAAGCCCAGCGTGCGCGTTTTAAACTGCCAGCGTGGCCGACCACCACGATTGGTTCCTTCCCGCAA +ACCACGGAAATTCGTACCCTGCGTCTGGATTTCAAAAAGGGCAATCTCGACGCCAACAACTACCGCACGG +GCATTGCGGAACATATCAAGCAGGCCATTGTTGAGCAGGAACGTTTGGGACTGGATGTGCTGGTACATGG +CGAGGCCGAGCGTAATGACATGGTGGAATACTTTGGCGAGCACCTCGACGGATTTGTCTTTACGCAAAAC +GGTTGGGTACAGAGCTACGGTTCCCGCTGCGTGAAGCCACCGATTGTCATTGGTGACATTAGCCGCCCGG +CACCGATTACCGTGGAGTGGGCGAAGTATGCGCAATCGCTGACCGACAAACCGGTGAAAGGGATGCTGAC +GGGGCCGGTGACCATACTCTGCTGGTCGTTCCCGCGTGAAGATGTCAGCCGTGAAACCATCGCCAAACAG +ATTGCGCTGGCGCTGCGTGATGAAGTGGCCGATCTGGAAGCCGCTGGAATTGGCATCATCCAGATTGACG +AACCGGCGCTGCGCGAAGGTTTACCGCTGCGTCGTAGCGACTGGGATGCGTATCTCCAGTGGGGCGTAGA +GGCCTTCCGTATCAACGCCGCCGTGGCGAAAGATGACACACAAATCCACACTCACATGTGTTATTGCGAG +TTCAACGACATCATGGATTCGATTGCGGCGCTGGACGCAGACGTCATCACCATCGAAACCTCGCGTTCCG +ACATGGAGTTGCTGGAGTCGTTTGAAGAGTTTGATTATCCAAATGAAATCGGTCCTGGCGTCTATGACAT +TCACTCGCCAAACGTACCGAGCGTGGAATGGATTGAAGCCTTGCTGAAGAAAGCGGCAAAACGCATTCCG +GCAGAGCGCCTGTGGGTCAACCCGGACTGTGGCCTGAAAACGCGCGGCTGGCCAGAAACCCGCGCGGCAC +TGGCGAACATGGTGCAGGCGGCGCAGAACTTGCGTCGGGGGTAAAATCCAAACCGGGTGGTAATACCACC +CGGTCTTTTCTCATTACAGCGACTTCTTCCCACCATACTGCTTAAACCATTCCAGCATACGCTGCCAGCC +ATCTTCTGCAGATGCGGCATGATAGCTCGGGCGATAATCAGCGTTGAATGCATGCCCGGCGTCCGGGTAC +ACGATAATCTCTGCTTTCGCATTAGCAGCCCGCAGCGCCTGGCGCATGGTTTCAACGCTCTCCTGCGGAA +TGCTGTTATCCTGACCACCATATAAGCCGAGAATCGGCGCGTTAAGATCGGTTGCGATATCAACAGGTTG +TTTCGGTGAATTCAGCGACTTGTCGCCCGTCAGTTTGCCGTACCACGCCACTGCGGCTTTTAGCTGTGGA +TTATGCGCGGCATACAGCCAGGTGATACGTCCACCCCAGCAGAATCCGGTGATCATTAAACGATGAACAT +CGCCGCCGTTGCGGGAAGCCCAACTGGCGACATGATCGAGATCGGCCAGCACCTGCGAGTCAGGCACTTT +TGCTACCAGACCGCTAAGCAACGTGGGGATATCGGCAAAATCATTCGGATCGCCTTCGCGGAAGTAAAGT +TCAGGTGCGATAGCCAGATACCCCTCCAGCGCCAGACGGCGACAAATGTCGCGGATATGTTCATGCACGC +CAAAAATTTCCTGCACTACAATGACCACTGGCAGTGGGCCATCGCTTTGCTTTGGTCTGGCATGGTAAGC +AGGCATGTTATCCCCTTGTGAAGGGATAGAGGTGAAGCCCGCCACAATCGCGTCGTCCGGGGTCTGAACG +ATGGTCGAAGCGAGAGGCGATGCAGCAGGTGCAAATCCAGATTGTTGTGTTGTTGCCATGGTATTCTCCG +TACCCTTATAAAAATGTTGCGCAATGTTAACTATAGTCAGCATGCAACAAATCACATTGCCTGAATCGGC +TCATCTTTTATGCAGTCCTGCAGAATGAAGGGTGATTTATGTGATTTGCATCACTTTTGGTGGGTAAATT +TATGCAACGCATTTGCGTCATGGTGATGAGTATCACGAAAAAATGTTAAACCCTTCGGTAAAGTGTCTTT +TTGCTTCTTCTGACTAAACCGATTCACAGAGGAGTTGTATATGTCCAAGTCTGATGTTTTTCATCTCGGC +CTCACTAAAAACGATTTACAAGGGGCTACGCTTGCCATCGTCCCTGGCGACCCGGATCGTGTGGAAAAGA +TCGCCGCGCTGATGGATAAGCCGGTTAAGCTGGCATCTCACCGCGAATTCACTACCTGGCGTGCAGAGCT +GGATGGTAAACCTGTTATCGTCTGCTCTACCGGTATCGGCGGCCCGTCTACCTCTATTGCTGTTGAAGAG +CTGGCACAGCTGGGCATTCGCACCTTCCTGCGTATCGGTACAACGGGCGCTATTCAGCCGCATATTAATG +TGGGTGATGTCCTGGTTACCACGGCGTCTGTCCGTCTGGATGGCGCGAGCCTGCACTTCGCACCGCTGGA +ATTCCCGGCTGTCGCTGATTTCGAATGTACGACTGCGCTGGTTGAAGCTGCGAAATCCATTGGCGCGACA +ACTCACGTTGGCGTGACAGCTTCTTCTGATACCTTCTACCCAGGTCAGGAACGTTACGATACTTACTCTG +GTCGCGTAGTTCGTCACTTTAAAGGTTCTATGGAAGAGTGGCAGGCGATGGGCGTAATGAACTATGAAAT +GGAATCTGCAACCCTGCTGACCATGTGTGCAAGTCAGGGCCTGCGTGCCGGTATGGTAGCGGGTGTTATC +GTTAACCGCACCCAGCAAGAGATCCCGAATGCTGAGACGATGAAACAAACCGAAAGCCATGCGGTGAAAA +TCGTGGTGGAAGCGGCGCGTCGTCTGCTGTAATTCTCTTCTCCTGTCTGAAGGCCGACGCGTTCGGCCTT +TTGTATTTTTGCGTAGCGCCTCGCAGGAAATGCCTTTCCAACTGGACGTTTGTACAGCACAATTCTATTT +TGTGCGGGTAAGTTGTTGCGTCAGGAGGCGTTGTGGATTTCTCAATCATGGTTTACGCAGTTATTGCGTT +GGTGGGTGTGGCAATTGGCTGGCTGTTTGCCAGTTATCAACATGCGCAGCAAAAAGCCGAGCAATTAGCT +GAACGTGAAGAGATGGTCGCGGAGTTAAGCGCGGCAAAACAACAAATTACCCAAAGCGAGCACTGGCGTG +CAGAGTGCGAGTTACTCAATAACGAAGTGCGCAGCCTGCAAAGTATTAACACCTCTCTGGAGGCCGATCT +GCGTGAAGTAACCACGCGGATGGAAGCCGCACAGCAACATGCTGACGATAAAATTCGCCAGATGATTAAC +AGCGAGCAGCGCCTCAGTGAGCAGTTTGAAAACCTCGCCAACCGTATTTTTGAGCACAGCAATCGCCGGG +TTGATGAGCAAAACCGTCAGAGTCTGAACAGCCTGTTGTCGCCGCTACGTGAACAACTGGACGGTTTCCG +CCGTCAGGTTCAGGACAGCTTCGGTAAAGAAGCACAAGAACGCCATACCCTGACCCACGAAATTCGCAAT +CTCCAGCAACTCAACGCGCAAATGGCCCAGGAAGCGATCAACCTGACGCGCGCGCTGAAAGGCGACAATA +AAACCCAGGGCAACTGGGGCGAGGTAGTATTGACGCGGGTGCTGGAGGCTTCCGGTCTGCGTGAAGGGTA +TGAATATGAAACCCAGGTCAGCATCGAAAATGACGCCCGCTCGCGGATGCAGCCGGATGTCATCGTGCGC +CTGCCGCAGGGAAAAGATGTGGTGATCGACGCCAAAATGACGCTGGTCGCCTATGAACGCTATTTTAACG +CCGAAGACGACTACACCCGCGAAAGCGCGCTACAGGAACATATCGCGTCGGTGCGTAACCATATCCGTTT +GCTGGGACGCAAAGATTATCAACAGCTGCCGGGGCTGCGAACTCTGGATTACGTGCTGATGTTTATTCCC +GTTGAACCCGCTTTTTTACTGGCGCTTGACCGCCAGCCGGAGCTGATCACCGAAGCGTTGAAAAACAACA +TCATGCTGGTTAGCCCGACTACGCTGCTGGTGGCGCTGCGCACTATCGCCAACCTGTGGCGTTATGAGCA +TCAAAGCCGCAACGCCCAGCAAATCGCCGATCGTGCCAGCAAGCTGTACGACAAGATGCGTTTGTTCATC +GATGACATGTCCGCGATTGGTCAAAGTCTCGACAAAGCGCAGGATAATTATCGGCAGGCAATGAAAAAAC +TCTCTTCAGGGCGCGGAAATGTGCTGGCGCAGGCAGAAGCGTTTCGCGGTTTAGGAGTAGAAATTAAACG +CGAGATTAATCCGGATTTGGCTGAACAGGCGGTGAGCCAGGATGAAGAGTATCGACTTCGGTCGGTTCCG +GAGCAGCCGAATGATGAAGCTTATCAACGCGATGATGAATATAATCAGCAGTCGCGCTAGCCCATTGGGA +GTAGTTAAGCCGGGTAGAAATCTAGGGCATCGACGCCCAATCTGTTACACTTCTGGAACAATTTTTTGAT +GAGCAGGCATTGAGATGGTGGATAAGTCACAAGAAACGACGCACTTTGGTTTTCAGACCGTCGCGAAGGA +ACAAAAAGCGGATATGGTCGCCCACGTTTTCCATTCCGTGGCATCAAAATACGATGTCATGAATGATTTG +ATGTCATTTGGTATTCATCGTTTGTGGAAGCGATTCACGATTGATTGCAGCGGCGTACGCCGTGGGCAGA +CCGTGCTGGATCTGGCTGGTGGCACCGGCGACCTGACAGCGAAATTCTCCCGCCTGGTCGGAGAAACTGG +CAAAGTGGTCCTTGCTGATATCAATGAATCCATGCTCAAAATGGGCCGCGAGAAGCTGCGTAATATCGGT +GTGATTGGCAACGTTGAGTATGTTCAGGCGAACGCTGAGGCGCTGCCGTTCCCGGATAACACCTTTGATT +GCATCACCATTTCGTTTGGTCTGCGTAACGTCACCGACAAAGATAAAGCACTGCGTTCAATGTATCGCGT +GCTGAAACCCGGCGGCCGCCTGCTGGTGCTTGAGTTCTCGAAGCCAATTATCGAGCCGCTGAGCAAAGCC +TATGATGCATACTCCTTCCATGTGCTGCCGCGTATTGGCTCACTGGTCGCGAACGACGCCGACAGCTACC +GTTATCTGGCAGAATCCATCCGTATGCATCCCGATCAGGATACCCTGAAAGCCATGATGCAGGATGCCGG +ATTCGAAAGTGTCGACTACTACAATCTGACGGCAGGGGTTGTGGCGCTGCATCGTGGTTATAAGTTCTGA +CAGGAGACCGGAAATGCCTTTTAAACCTTTAGTGACGGCAGGAATTGAAAGTCTGCTCAACACCTTCCTG +TATCGCTCACCCGCGCTGAAAACGGCCCGCTCGCGTCTGCTGGGTAAAGTATTGCGCGTGGAGGTAAAAG +GCTTTTCGACGTCATTGATTCTGGTGTTCAGCGAACGCCAGGTTGATGTACTGGGCGAATGGGCAGGCGA +TGCTGACTGCACCGTTATCGCCTACGCCAGTGTGTTGCCGAAACTTCGCGATCGCCAGCAGCTTACCGCA +CTGATTCGCAGTGGTGAGCTGGAAGTGCAGGGCGATATTCAGGTGGTGCAAAACTTCGTTGCGCTGGCAG +ATCTGGCAGAGTTCGACCCTGCGGAACTGCTGGCCCCTTATACCGGTGATATCGCCGCTGAAGGAATCAG +CAAAGCCATGCGCGGAGGCGCAAAGTTCCTGCATCACGGCATTAAGCGCCAGCAACGTTATGTGGCGGAA +GCCATTACTGAAGAGTGGCGTATGGCACCCGGTCCGCTTGAAGTGGCCTGGTTTGCGGAAGAGACGGCTG +CCGTCGAGCGTGCTGTTGATGCCCTGACCAAACGGCTGGAAAAACTGGAGGCTAAATGACGCCAGGTGAA +GTACGGCGCCTATATTTCATCATTCGCACTTTTTTAAGCTACGGACTTGATGAACTGATCCCCAAAATGC +GTATCACCCTGCCGCTACGGCTATGGCGATACTCATTATTCTGGATGCCAAATCGGCATAAAGACAAACT +TTTAGGTGAGCGACTACGACTGGCCCTGCAAGAACTGGGGCCGGTTTGGATCAAGTTCGGGCAAATGTTA +TCAACCCGCCGCGATCTTTTTCCACCGCATATTGCCGATCAGCTGGCGTTATTGCAGGACAAAGTTGCTC +CGTTTGATGGCAAGCTGGCGAAGCAGCAGATTGAAGCTGCAATGGGCGGCTTGCCGGTAGAAGCGTGGTT +TGACGATTTTGAAATCAAGCCGCTGGCTTCTGCTTCTATCGCCCAGGTTCATACCGCGCGATTGAAATCG +AATGGTAAAGAGGTGGTGATTAAAGTCATCCGCCCGGATATTTTGCCGGTTATTAAAGCGGATCTGAAAC +TTATCTACCGTCTGGCTCGCTGGGTGCCGCGTTTGCTGCCGGATGGTCGCCGTCTGCGCCCAACCGAAGT +GGTGCGCGAGTACGAAAAGACATTGATTGATGAACTGAATTTGCTGCGGGAATCTGCCAACGCCATTCAG +CTTCGGCGCAATTTTGAAGACAGCCCGATGCTCTACATCCCGGAAGTTTACCCTGACTATTGTAGTGAAG +GGATGATGGTGATGGAGCGCATTTACGGCATTCCGGTGTCTGATGTTGCGGCGCTGGAGAAAAACGGCAC +TAACATGAAATTGCTGGCGGAACGCGGCGTGCAGGTGTTCTTCACTCAGGTCTTTCGCGACAGCTTTTTC +CATGCCGATATGCACCCTGGCAACATCTTCGTAAGCTATGAACACCCGGAAAACCCGAAATATATCGGCA +TTGATTGCGGGATTGTTGGCTCGCTAAACAAAGAAGATAAACGCTATCTGGCAGAAAACTTTATCGCCTT +CTTTAATCGCGACTATCGCAAAGTGGCAGAGCTACACGTCGATTCTGGCTGGGTGCCACCAGATACCAAC +GTTGAAGAGTTCGAATTTGCCATTCGTACGGTCTGTGAACCTATCTTTGAGAAACCGCTGGCCGAAATTT +CGTTTGGACATGTACTGTTAAATCTGTTTAATACGGCGCGTCGCTTCAATATGGAAGTGCAGCCGCAACT +GGTGTTACTCCAGAAAACCCTGCTCTACGTCGAAGGGGTAGGACGCCAGCTTTATCCGCAACTCGATTTA +TGGAAAACGGCGAAGCCTTTCCTGGAGTCGTGGATTAAAGATCAGGTCGGTATTCCTGCGCTGGTGAGAG +CATTTAAAGAAAAAGCGCCGTTCTGGGTCGAAAAAATGCCAGAACTGCCTGAATTGGTTTACGACAGTTT +GCGCCAGGGCAAGTATTTACAGCACAGTGTTGATAAGATTGCCCGCGAGCTTCAGTCAAATCATGTACGT +CAGGGACAATCGCGTTATTTTCTCGGAATTGGCGCTACGTTAGTATTAAGTGGCACATTCTTGTTGGTCA +GCCGACCTGAATGGGGGCTGATGCCCGGCTGGTTAATGGCAGGTGGTCTGATCGCCTGGTTTGTCGGTTG +GCGCAAAACACGCTGATTTTTTCATCGCTCAAGGCGGGCCGTGTAACGTATAATGCGGCTTTGTTTAATC +ATCATCTACCACAGAGGAACATGTATGGGTGGTATCAGTATTTGGCAGTTATTGATTATTGCCGTCATCG +TTGTACTGCTTTTTGGCACCAAAAAGCTCGGCTCCATCGGTTCCGATCTTGGTGCGTCGATCAAAGGCTT +TAAAAAAGCAATGAGCGATGATGAACCAAAGCAGGATAAAACCAGTCAGGATGCTGATTTTACTGCGAAA +ACTATCGCCGATAAGCAGGCGGATACGAATCAGGAACAGGCTAAAACAGAAGACGCGAAGCGCCACGATA +AAGAGCAGGTGTAATCCGTGTTTGATATCGGTTTTAGCGAACTGCTATTGGTGTTCATCATCGGCCTCGT +CGTTCTGGGGCCGCAACGACTGCCTGTGGCGGTAAAAACGGTAGCGGGCTGGATTCGCGCGTTGCGTTCA +CTGGCGACAACGGTGCAGAACGAACTGACCCAGGAGTTAAAACTCCAGGAGTTTCAGGACAGTCTGAAAA +AGGTTGAAAAGGCGAGCCTCACTAACCTGACGCCCGAACTGAAAGCGTCGATGGATGAACTACGCCAGGC +CGCGGAGTCGATGAAGCGTTCCTACGTTGCAAACGATCCTGAAAAGGCGAGCGATGAAGCGCACACCATC +CATAACCCGGTGGTGAAAGATAATGAAGCTGCGCATGAGGGCGTAACGCCTGCCGCTGCACAAACGCAGG +CCAGTTCGCCGGAACAGAAGCCAGAAACCACGCCAGAGCCGGTGGTAAAACCTGCTGCGGACGCTGAACC +GAAAACCGCTGCACCTTCCCCTTCGTCGAGTGATAAACCGTAAACATGTCTGTAGAAGATACTCAACCGC +TTATCACGCATCTGATTGAGCTGCGTAAGCGTCTGCTGAACTGCATTATCGCGGTGATCGTGATATTCCT +GTGTCTGGTCTATTTCGCCAATGACATCTATCACCTGGTATCCGCGCCATTGATCAAGCAGTTGCCGCAA +GGTTCAACGATGATCGCCACCGACGTGGCCTCGCCGTTCTTTACGCCGATCAAGCTGACCTTTATGGTGT +CGCTGATTCTGTCAGCGCCGGTGATTCTCTATCAGGTGTGGGCATTTATCGCCCCAGCGCTGTATAAGCA +TGAACGTCGCCTGGTGGTGCCGCTGCTGGTTTCCAGCTCTCTGCTGTTTTATATCGGCATGGCATTCGCC +TACTTTGTGGTCTTTCCGCTGGCATTTGGCTTCCTTGCCAATACCGCGCCGGAAGGGGTGCAGGTATCCA +CCGACATCGCCAGCTATTTAAGCTTCGTTATGGCGCTGTTTATGGCGTTTGGTGTCTCCTTTGAAGTGCC +GGTAGCAATTGTGCTGCTGTGCTGGATGGGGATTACCTCGCCAGAAGACTTACGCAAAAAACGCCCGTAT +GTGCTGGTTGGTGCATTCGTTGTCGGGATGTTGCTGACGCCGCCGGATGTCTTCTCGCAAACGCTGTTGG +CGATCCCGATGTACTGTCTGTTTGAAATCGGTGTCTTCTTCTCACGCTTTTACGTTGGTAAAGGGCGAAA +TCGGGAAGAGGAAAACGACGCTGAAGCAGAAAGCGAAAAAACTGAAGAATAAATTCAACCGCCCGTCAGG +GCGGTTGTCATATGGAGTACAGGATGTTTGATATCGGCGTTAATTTGACCAGTTCGCAATTTGCGAAAGA +CCGTGATGATGTTGTAGCGTGCGCTTTTGACGCGGGAGTTAATGGGCTACTCATCACCGGCACTAACCTG +CGTGAAAGCCAGCAGGCGCAAAAGCTGGCGCGTCAGTATTCGTCCTGTTGGTCAACGGCGGGCGTACATC +CTCACGACAGCAGCCAGTGGCAAGCTGCGACTGAAGAAGCGATTATTGAGCTGGCCGCGCAGCCAGAAGT +GGTGGCGATTGGTGAATGTGGTCTCGACTTTAACCGCAACTTTTCGACGCCGGAAGAGCAGGAACGCGCT +TTTGTTGCCCAGCTACGCATTGCCGCAGATTTAAACATGCCGGTATTTATGCACTGTCGCGATGCCCACG +AGCGGTTTATGACATTGCTGGAGCCGTGGCTGGATAAACTGCCTGGTGCGGTTCTTCATTGCTTTACCGG +CACACGCGAAGAGATGCAGGCGTGCGTGGCGCATGGAATTTATATCGGCATTACCGGTTGGGTTTGCGAT +GAACGACGCGGACTGGAGCTGCGGGAACTTTTGCCGTTGATTCCGGCGGAAAAATTACTGATCGAAACTG +ATGCGCCGTATCTGCTCCCTCGCGATCTCACGCCAAAGCCATCATCCCGGCGCAACGAGCCAGCCCATCT +GCCCCATATTTTGCAACGTATTGCGCACTGGCGTGGAGAAGATGCCGCATGGCTGGCTGCCACCACGGAT +GCTAATGTCAAAACACTGTTTGGGATTGCGTTTTAGAGTTTGCGGAACTCGGTATTCTTCACACTGTGCT +TAATCTCTTTATTAATAAGATTAAGCAATAGCATGGAGCGAGCCTCACCATCGGGTTCGGTGAAAATGGC +CTGAAAGCCTTCGAACGCGCCTTCGGTAATAATCACCTTATCACCCGGATAAGGGGTTGCCGGATCGACA +ATGTCTTTCGGTTTATATACCGATAGCTGATGAATAACCGCCGATGGGACTATCGCTGGCGACGCGCCAA +AGCGCACGAAGTGGCTGACACCGCGGGTCGCGTTGATAGTCGTGGTATGAATCACTTCTGGGTCAAATTC +CACAAACAGGTAGTTGGGGAACAATGGCTCACTGACTGCAGTACGTTTTCCACGCACGATTTTTTCCAGG +GTGATCATCGGTGCCAGGCAATTCACAGCCTGTCTTTCGAGGTGTTCCTGGGCACGTTGAAGTTGCCCGC +GCTTGCAGTACAGTAAATACCAGGATTGCATAATGACTCTTATCCGTTTAATCGGGGCGCAAGGATAGCA +AAAGCTTTACGCTAAGTTAATTATATTCCCCGGTTTGCGTTATACCGTCAGAGTTCACGCTAATTTAACA +AATTTACAGCATCGCAAAGATGAACGCCGTATAATGGGCGCAGATTAAGAGGCTACAATGGACGCCATGA +AATATAACGATTTACGCGACTTCTTGACGCTGCTTGAACAGCAGGGTGAGCTAAAACGTATCACGCTCCC +GGTGGATCCGCATCTGGAAATCACTGAAATTGCTGACCGCACTTTGCGTGCCGGTGGGCCTGCGCTGTTG +TTCGAAAACCCTAAAGGCTACTCAATGCCGGTGCTGTGCAACCTGTTCGGTACGCCAAAGCGCGTGGCGA +TGGGCATGGGGCAGGAAGATGTTTCGGCGCTGCGTGAAGTTGGTAAATTATTGGCGTTTCTGAAAGAGCC +GGAGCCGCCAAAAGGTTTCCGCGACCTGTTTGATAAACTGCCGCAGTTTAAGCAAGTATTGAACATGCCG +ACAAAGCGGCTGCGTGGTGCGCCCTGCCAACAAAAAATCGTCTCTGGCGATGACGTCGATCTCAATCGCA +TTCCCATTATGACCTGCTGGCCGGAAGATGCCGCGCCGCTGATTACCTGGGGGCTGACAGTGACGCGCGG +CCCACATAAAGAGCGGCAGAATCTGGGCATTTATCGCCAGCAGCTGATTGGTAAAAACAAACTGATTATG +CGCTGGCTGTCGCATCGCGGCGGCGCGCTGGATTATCAGGAGTGGTGTGCGGCGCATCCGGGCGAACGTT +TCCCGGTTTCTGTGGCGCTGGGTGCCGATCCCGCCACGATTCTCGGTGCAGTCACTCCCGTTCCGGATAC +GCTTTCAGAGTATGCGTTTGCCGGATTGCTACGTGGCACCAAGACCGAAGTGGTGAAGTGTATCTCCAAT +GATCTTGAAGTGCCCGCCAGTGCGGAGATTGTGCTGGAAGGGTATATCGAACAAGGCGAAACTGCGCCGG +AAGGGCCGTATGGCGACCACACCGGTTACTATAATGAAGTCGATAGTTTCCCGGTATTTACCGTGACGCA +TATTACCCAGCGTGAAGATGCGATTTACCATTCCACCTATACCGGGCGTCCGCCAGATGAGCCCGCGGTG +CTGGGTGTCGCACTGAACGAAGTGTTTGTGCCGATTCTGCAAAAACAGTTCCCGGAAATTGTCGATTTTT +ACCTGCCGCCGGAAGGCTGCTCTTATCGCCTGGCGGTAGTGACAATCAAAAAACAGTACGCCGGACACGC +GAAGCGCGTCATGATGGGCGTCTGGTCGTTCTTACGCCAGTTTATGTACACTAAATTTGTGATCGTTTGC +GATGATGACGTTAACGCACGCGACTGGAACGATGTGATTTGGGCGATTACCACCCGTATGGACCCGGCGC +GGGATACTGTTCTGGTAGAAAATACGCCTATTGATTATCTGGATTTTGCCTCGCCTGTCTCCGGGCTGGG +TTCAAAAATGGGGCTGGATGCCACGAATAAATGGCCGGGGGAAACCCAGCGTGAATGGGGACGTCCCATC +AAAAAAGATCCAGATGTTGTCGCGCATATTGACGCCATCTGGGATGAACTGGCTATTTTTAACAACGGTA +AAAGCGCCTGATGCGCGTTTGTTTTGCCCTATTTATCGATCCGACAGAGAAAGCGCATGACAACCTTAAG +CTGTAAAGTGACCTCGGTAGAAGCTATCACGGATACCGTATATCGTGTCCGCATCGTGCCAGACGCGGCC +TTTTCTTTTCGTGCTGGTCAGTATTTGATGGTAGTGATGGATGAGCGCGACAAACGTCCGTTCTCAATGG +CTTCGACGCCGGATGAAAAAGGGTTTATCGAGCTGCATATTGGCGCTTCTGAAATCAACCTTTACGCGAA +AGCAGTCATGGACCGCATCCTCAAAGATCATCAAATCGTGGTCGACATTCCCCACGGAGAAGCGTGGCTG +CGCGATGATGAAGAGCGTCCGATGATTTTGATTGCGGGCGGCACCGGGTTCTCTTATGCCCGCTCGATTT +TGCTGACAGCGTTGGCGCGTAACCCAAACCGTGATATCACCATTTACTGGGGCGGGCGTGAAGAGCAGCA +TCTGTATGATCTCTGCGAGCTTGAGGCGCTTTCGTTGAAGCATCCTGGTCTGCAAGTGGTGCCGGTGGTT +GAACAACCGGAAGCGGGCTGGCGTGGGCGTACTGGCACCGTGTTAACGGCGGTATTGCAGGATCACGGTA +CGCTGGCAGAGCATGATATCTATATTGCCGGACGTTTTGAGATGGCGAAAATTGCCCGCGATCTGTTTTG +CAGTGAGCGTAATGCGCGGGAAGATCGCCTGTTTGGCGATGCGTTTGCATTTATCTGAGATATAAAAAAA +CCCGCCCCTGACAGGCGGGAAGAACGGCAACTAAACTGTTATTCAGTGGCATTTAGATCTATGACGTATC +TGGCAAACCATGCCCGATGCGACGCTGTCGCGTCTTATCGTGCCTACAAATAGTCCGAACCGTAGGCCGG +ATAAGGCGTTTACGCCGCATCCGGCAATTGGTGCATGATGCCTGATGCGACGCTGTCGCGTCTTATCGTG +CCTACAAATAGTCCGAACCGTAGGCCGGATAAGGCGTTTACGCCGCATCCGGCAATTGGTGCATGATGCC +TGATGCGACGCTGGCGCGTCTTATCAGGCCTACATTGGTGCCGGATCGGTAGACCGGATAAGGCGTTCAC +GCCGCATCCGGCAAGTGGTTAAACCCGCTCAAACACCGTCGCAATACCCTGACCCAGACCGATACACATC +GTCGCCAGACCAAACTGAACGTCTTTGCGTTCCATCAGATTCAGCAGCGTGGTGCTGATACGCGCACCGG +AACAACCCAGCGGATGACCCAGCGCGATCGCGCCACCGTTGAGGTTGATCTTCTCGTCAATCTGCTCAAT +TAGTCCCAGATCTTTAATACATGGCAGGATCTGCGCGGCAAAGGCTTCGTTCATTTCAAACACGCCGATA +TCGCTGGCAGAAAGCCCCGCTTTTTTCAGCGCCAGTTTCGAGGCCGGAACCGGGCCGTAACCCATAATCG +ATGGGTCACAACCAACGACCGCCATCGAACGCACACGAGCGCGCGGCTTAAGACCTAATTCATGGGCGCG +GCTTTCACTCATCACCAGCATGGCAGCTGCGCCATCGGAAAGTGCAGAAGATGTGCCCGCCGTTACCATA +CCGTTTACTGGATCAAACGCCGGACGCAGCGTGGCGAGGGCTTCCACGGTGGTTTCCGGGCGAATCACTT +CGTCGTAATTAAACTGCTTCAGGACGCCGTCGGCATCGTGACCACCGGTCGGGATGATTTCATTTTTAAA +TGCGGCCGACTGCGTGGCGGCCCAGGCGCGGGCGTGTGACCGCGCGGCAAAGGCATCCTGCATTTCACGG +CTGATACCGTGCATACGCGCCAGCATTTCTGCCGTTAAGCCCATCATGCCCGCCGCTTTGGCGACATTGC +GGCTCAGGCCGGGGTGAAAATCGACGCCGTGACTCATCGGCACATGGCCCATATGCTCCACGCCGCCAAC +CAGACATGCCTGCGCATCGCCAGTCATGATCATTCGTGCTGCGTCATGCAGTGCCTGCATGGATGAACCA +CACAAGCGATTAACGGTAACCGCCGGGACAGAGTGTGGTACTTCTGCCAGCAGCGCCGCGTTACGGGCGA +TATTAAAACCCTGCTCCAGCGTCTGCTGCACACAACCCCAGTAAATATCGTCGAGGGCCGCCGCTTCCAG +CGCCGGGTTACGCGCCAGCAGGCTACGCATTAAATGAGCGGAGAGATCTTCTGCACGCACGTTACGAAAA +GCACCGCCCTTCGAACGGCCCATCGGGGTGCGAATTGCATCGACAATGACAACCTGTTCCATTGTGACTC +CTTAAGCCGTTTTCAGGTCGCCAACCGGACGGGCTGGCTCAACCGGAGGATAGTACGGTTCGTTATGACG +CGCTTTATTACGCAGACCTTCCGGCACTTCATACAGCGGGCCGAGGTGCTGATATTGCTGTGCCATATCG +AGGTATTTTGCGCTACCGAGGGTGTCCAGCCAGCGGAACGCGCCGCCGTGGAACGGAGGGAAGCCCAGGC +CGTAGACCAGCGCCATATCCGCTTCCGCCGGAGTGGCGATAATGCCTTCCTCCAGACAGCGCACCACTTC +GTTGACCATCGGGATCATCATGCGGGCGATAATCTCTTCTTCGCTGAAATCGCGCTTCGGCTGGCTCACT +TCTGCCAGCAGGTCTTCAACGGCGGCGTCTTCTTCTTTCTTCGGCTTACCTTTGCTGTCTTCTTTATAAC +GCCAGAAACCGAGGCCGTTCTTCTGACCAAAGCGGTTGGCATCAAACAGCGCGTCGATGGCATCGCGGTA +ATCTTTCTGCATCCGCTGCGGGAAGCCTGCTGCCATGACAGCCTGAGCGTGATGCGCGGTATCAATGCCC +ACAACGTCCAGCAGATATGCCGGGCCCATCGGCCAGCCAAACTGTTTTTCCATCACTTTGTCGATCTTGC +GGAAATCCGCGCCGTCGCGCAGCAGCTGGCTGAAACCGGCGAAATACGGGAACAGCACGCGGTTAACAAA +GAAGCCGGGGCAGTCGTTAACCACAATCGGCGTCTTGCCCATCTTGCTCGCCCAGGCGACAACTTTCGCG +ATGGTTTCGTCGGAGCTTTTCTCGCCGCGAATAATTTCTACCAACGGCATTCGGTGGACCGGGTTAAAGA +AGTGCATCCCGCAGAAGTTTTCCGGGCGTTCCAGCGCGTTGGCCAGTTCGCTGATAGGAATGGTTGAAGT +GTTAGACGCCAGCACGGTATCCTGGCGTACTTTTTGTTCGGTTTCTGCCAGTACGGCTTTTTTCACTTTC +GGGTTTTCAACAACCGCTTCTACCACAATATCCACGCGGTCAAATCCGGCGTAGTCGAGCGTTGGGTGGA +TTGTGGAGATCACGCCAGCCAGTTTCAGACCATCGATCTTGCCGCGCTCAAGCTGCTTGTTCAGCAGTTT +CGCGGCTTCGGTCATGCCGAGGGTTAACGACTTGTCGTTGATATCTTTCATGACAACCGGCACGCCTTTC +CACGCAGACTGGTAAGCGATGCCGCCGCCCATAATGCCTGCACCCAGCACCGCGGCCTGTTTCGGGGTTT +CAACGTCTTTGGTGAGTTTCTTCGCTTTGCCTTTTACATATTGATCGTTAAGGAAAATGCCGACCAGTGC +GCGGGCTTCGTTGGTATGCGCCAGCGGGACAAAACTTTTGTTTTCCAGGTTTAAGGCTTCTTCACGACCA +AAACGGGCCGCAGCTTCAATGGTTTTTACTGCGGTGATGGGGGCCGGATAATGTTTCCCCGCTGTTTGTG +CGACCATCCCTTTAGCGATGGTGAAGCTCATGGTGGCTTCAATCTTGCTCAGTTTTAGTGGTTCCAGCTT +CGGCTGACGTTTTGCTTTCCAGTCGAGGTCGCCGTTAATGGCCTGGCGTAAAACCGCCTTTGCGCCTTCA +ACCAGTTTTTCTGCTTTGACTACGCCATCCACCAGACCGATTTTCAGCGCCTGATCCGCGCCGACATCTT +TACCGGCGGCAATGATTTCCAGCGCACTGTCAGCGCCCAGCATACGTGGCATACGTACAGAACCGCCAAA +GCCAGGCATGATGCCCAGTTTGGTTTCCGGCAGACCGATGCGCAGATCCGGCGTCGCCAGACGATAATCG +GTCGCCAGCACGCATTCGCAGCCACCGCCCAGCGCATAGCCATTGACGGCAGCAATGGTCGGCACCGGCA +GATCTTCCAGGCGATTAAACACGCTATTGGCAAAGTGCAGCCACTGACTTAACTGTTCTTCAGGAACGAG +GAACAGGGACAAAAATTCGGTGATATCAGCACCGACGATAAAGGCTGCTTTGTTCGAACGCAGCAGCAGC +CCTTTTAGATCTGATTGCTGTTCCAGCACGCCGATGGCCTCGCCGAGGCTGGCGACGGTCGCAGTGTCGA +GTTTATTAACTGAACCTGGGGCATCAAATACCAGTTCGGCAATGCCATCTTCCAGCCAGTCAAGGTACAG +GGTGTCGCCTTTGTAAAGCATGTCAGTCTCCTGAATCCGCAAGGTGATCTGGTCGTACCAGATGAGTCGA +AGTGTGTATTTTGTGTTAAAAATATGCAAACAAAAGATTAAAGAAATGCCGATCTGATCACGCTCGGCAG +AAATCACGCTCTGGATGAACGATGTGCTAAGATGCGGAGACTTAAGGTCAAAAAAACAGAAGGGTAAAAA +ATGGAATCACTGGCCTCGCTCTATAAAAATCATATAGCTACCTTACAAGAACGGACTCGCGATGCGCTGG +CGCGCTTCAAGCTGGATGCGTTACTTATTCACTCCGGCGAGCTGTTCAATGTTTTTCTCGACGATCATCC +CTATCCGTTTAAAGTGAACCCGCAATTCAAAGCGTGGGTGCCGGTAACTCAGGTGCCAAACTGCTGGTTG +CTGGTGGATGGCGTGAACAAGCCGAAACTGTGGTTCTATCTGCCGGTTGATTACTGGCACAACGTCGAAC +CGCTGCCGACCTCTTTCTGGACTGAAGATGTGGAAGTGATCGCGCTGCCGAAAGCCGATGGCATTGGTAG +CCTGCTGCCTGCTGCGCGCGGCAATATCGGTTATATCGGTCCGGTGCCGGAACGTGCGCTGCAACTGGGT +ATTGAGGCCAGCAACATCAACCCGAAAGGGGTTATCGACTACCTGCATTACTATCGCTCCTTCAAAACTG +AGTACGAACTGGCCTGTATGCGTGAAGCGCAGAAAATGGCGGTCAACGGTCACCGCGCGGCAGAAGAAGC +GTTCCGTTCTGGCATGAGCGAGTTCGATATCAACATTGCCTATCTGACCGCGACCGGTCATCGTGATACC +GACGTACCTTACAGCAACATTGTGGCGCTTAACGAACACGCTGCGGTACTGCATTACACCAAACTGGACC +ATCAGGCACCGGAAGAGATGCGCAGCTTCCTGCTGGATGCCGGGGCAGAATATAACGGCTATGCGGCTGA +CCTGACCCGTACCTGGTCGGCAAAAAGTGACAACGACTACGCGCAGCTGGTGAAGGACGTTAATGATGAA +CAACTGGCGCTGATCGCCACCATGAAAGCAGGCGTCAGCTATGTGGATTACCACATCCAGTTCCATCAGC +GCATCGCCAAACTGCTGCGTAAACATCAAATCATCACCGATATGAGTGAAGAAGCGATGGTCGAAAACGA +TCTTACCGGGCCGTTTATGCCGCATGGTATCGGCCATCCGCTGGGCCTGCAGGTGCATGACGTCGCTGGT +TTTATGCAGGATGATAGCGGTACGCACCTCGCGGCACCGGCAAAATATCCGTACCTGCGCTGCACCCGTA +TTCTCCAGCCGGGCATGGTGTTAACCATCGAACCGGGTATCTACTTCATCGAATCGCTACTGGCACCGTG +GCGTGAAGGGCAGTTCAGCAAGCACTTCAACTGGCAGAAAATTGAAGCACTGAAACCGTTCGGCGGCATT +CGTATCGAAGACAACGTGGTGATCCACGAAAACAACGTGGAAAACATGACCCGGGATCTGAAACTGGCGT +GATGGAAAGCTGGTTAATTCCTGCGGCACCGGTCACGGTCGTTGAAGAGATCAAAAAGAGCCGCTTCATA +ACGATGTTGGCGCATACCGATGGCGTTGAGGCGGCGAAAGCGTTTGTTGAATCGGTGCGGGCAGAACACC +CCGATGCCCGGCACCATTGCGTGGCGTGGGTCGCGGGTGCGCCGGATGATTCTCAACAGCTGGGTTTCTC +TGACGACGGGGAGCCGGCGGGAACGGCAGGTAAACCGATGCTCGCCCAGCTAATGGGCAGCGGCGTCGGG +GAAATTACCGCTGTGGTAGTGCGCTACTACGGCGGCATATTGCTTGGCACCGGTGGGTTAGTGAAAGCGT +ATGGCGGCGGCGTGAATCAGGCGCTGCGCCAGCTAACGACCCAACGCAAGACGCCATTAACCGAATATAC +TTTGCAATGTGAATATCATCAGTTAACCGGCATTGAAGCGTTGCTGGGGCAGTGTGACGGCAAAATTATC +AACAGTGATTATCAGGCATTCGTTCTGCTGCGGGTGGCGCTTCCGGCGGCGAAAGTGGCTGAATTTTCCG +CAAAGCTGGCGGATTTTAGCCGTGGTTCATTGCAATTGTTAGCGATTGAAGAATAATCCCCACTTCGTTT +TGCAGAACTAAGGAAGCGGCAGAGATGCATTTTCGCGCCATTACCCGAATCGTTGGACTACTGGTCATCT +TATTTTCAGGGACCATGATTATCCCTGGGCTGGTAGCACTCATCTACCGGGATGGAGCGGGCCGCGCTTT +TACCCAGACCTTTTTTGTCGCCCTCGCCATTGGCTCTATGCTGTGGTGGCCGAACCGCAAAGAGAAAGGC +GAACTTAAATCCCGTGAGGGGTTTCTGATAGTGGTGCTGTTCTGGACCGTGCTGGGTAGCGTCGGTGCGC +TCCCTTTTATCTTCTCGGAAAGCCCGAACCTCACGATTACCGATGCGTTTTTTGAATCTTTCTCTGGCCT +GACCACTACGGGAGCCACTACGCTGGTGGGGCTGGATTCGCTCCCTCACGCCATCCTCTTTTATCGCCAG +ATGCTGCAATGGTTTGGCGGGATGGGGATCATCGTGTTGGCGGTTGCGATACTGCCTATCCTCGGCGTGG +GTGGGATGCAGCTCTATCGCGCAGAAATGCCCGGCCCGCTGAAAGATAACAAAATGCGCCCGCGAATTGC +GGAAACGGCGAAAACCCTGTGGTTGATTTATGTCTTGCTGACCGTCGCCTGTGCGCTGGCGTTGTGGTTT +GCCGGAATGGATGCCTTTGATGCCATCGGCCATAGCTTTGCGACTATCGCTATTGGCGGCTTCTCGACAC +ATGATGCCAGTATCGGTTATTTCGATAGCCCGACTATTAACACTATCATTGCTATCTTCCTGCTGATCTC +CGGCTGTAACTACGGTCTGCACTTTTCACTGTTAAGTGGGCGTAGTCTGAAGGTTTATTGGCGCGATCCG +GAATTTCGCATGTTTATCGGCGTACAGTTTACGCTGGTGGTTATTTGTACCCTCGTACTGTGGTTTCATA +ATGTCTACAGTTCGGCGCTGATGACAATTAACCAGGCGTTTTTCCAGGTGGTGTCGATGGCGACAACCGC +CGGGTTTACAACTGACAGCATTGCCCGCTGGCCGCTCTTTTTGCCGGTACTGCTTTTATGTTCAGCCTTT +ATCGGCGGTTGCGCCGGGTCAACGGGCGGTGGCCTGAAGGTGATCCGCATCCTGCTGCTGTTTAAGCAGG +GGAACCGTGAGCTGAAACGACTGGTGCATCCGAACGCCGTCTATAGCATTAAGCTGGGGAATCGCGCACT +GCCGGAACGTATCCTCGAAGCCGTTTGGGGATTTTTCTCCGCCTATGCATTGGTGTTTATTGTCAGTATG +CTGGCGATTATCGCCACGGGCGTGGATGACTTTTCTGCCTTTGCGTCGGTTGTTGCGACATTGAATAACC +TGGGGCCAGGGCTTGGCGTGGTTGCTGATAACTTTACCAGTATGAACCCGGTGGCTAAATGGATCCTGAT +TGCCAACATGCTGTTTGGTCGTCTCGAGGTCTTTACATTGCTGGTGCTCTTTACCCCGACTTTCTGGCGT +GAATGATGGAGTAATACGTGAAAACATTAATTCTTTTCTCAACAAGGGACGGACAAACGCGCGAGATTGC +CTCCTACCTGGCTTCGGAACTGAAAGAACTGGGGATCCAGGCGGATGTCGCCAATGTGCACCGCATTGAA +GAACCACAGTGGGAAAACTATGACCGTGTGGTCATTGGTGCTTCTATTCGCTATGGTCACTACCATTCAG +CGTTCCAGGAATTTGTCAAAAAACATGCGACGCGGCTGAATTCGATGCCGAGCGCCTTTTACTCCGTGAA +TCTGGTGGCGCGCAAACCGGAGAAGCGTACTCCACAGACCAACAGCTACGCGCGCAAGTTTCTGATGAAC +TCGCAATGGCGTCCCGATCGCTGCGCGGTCATTGCCGGGGCGCTGCGTTACCCACGTTATCGCTGGTACG +ACCGTTTTATGATCAAGCTGATTATGAAGATGTCAGGCGGTGAAACGGATACGCGCAAAGAAGTTGTCTA +TACCGATTGGGAGCAGGTGGCGAATTTCGCCCGAGAAATCGCCCATTTAACCGACAAACCGACGCTGAAA +TAAGCATAAAGAATAAAAAATGCGCGGTCAGAAAATTATTTTAAATTTCCTCTTGTCAGGCCGGAATAAC +TCCCTATAATGCGCCACCACTGACACGGAACAACGGCAAACACGCCGCCGGGTCAGCGGGGTTCTCCTGA +GAACTCCGGCAGAGAAAGCAAAAATAAATGCTTGACTCTGTAGCGGGAAGGCGTATTATGCACACCCCGC +GCCGCTGAGAAAAAGCGAAGCGGCACTGCTCTTTAACAATTTATCAGACAATCTGTGTGGGCACTCGAAG +ATACGGATTCTTAACGTCGCAAGACGAAAAATGAATACCAAGTCTCAAGAGTGAACACGTAATTCATTAC +GAAGTTTAATTCTTTGAGCGTCAAACTTTTAAATTGAAGAGTTTGATCATGGCTCAGATTGAACGCTGGC +GGCAGGCCTAACACATGCAAGTCGAACGGTAACAGGAAGAAGCTTGCTTCTTTGCTGACGAGTGGCGGAC +GGGTGAGTAATGTCTGGGAAACTGCCTGATGGAGGGGGATAACTACTGGAAACGGTAGCTAATACCGCAT +AACGTCGCAAGACCAAAGAGGGGTACCTTCGGGCCTCTTGCCATCGGATGTGCCCAGATGGGATTAGCTA +GTAGGTGGGGTAACGGCTCACCTAGGCGACGATCCCTAGCTGGTCTGAGAGGATGACCAGCCACACTGGA +ACTGAGACACGGTCCAGACTCCTACGGGAGGCAGCAGTGGGGAATATTGCACAATGGGCGCAAGCCTGAT +GCAGCCATGCCGCGTGTATGAAGAAGGCCTTCGGGTTGTAAAGTACTTTCAGCGGGGAGGAAGGGAGTAA +AGTTAATACCTTTGCTCATTGACGTTACCCGCAGAAGAAGCACCGGCTAACTCCGTGCCAGCAGCCGCGG +TAATACGGAGGGTGCAAGCGTTAATCGGAATTACTGGGCGTAAAGCGCACGCAGGCGGTTTGTTAAGTCA +GATGTGAAATCCCCGGGCTCAACCTGGGAACTGCATCTGATACTGGCAAGCTTGAGTCTCGTAGAGGGGG +GTAGAATTCCAGGTGTAGCGGTGAAATGCGTAGAGATCTGGAGGAATACCGGTGGCGAAGGCGGCCCCCT +GGACGAAGACTGACGCTCAGGTGCGAAAGCGTGGGGAGCAAACAGGATTAGATACCCTGGTAGTCCACGC +CGTAAACGATGTCGACTTGGAGGTTGTGCCCTTGAGGCGTGGCTTCCGGAGCTAACGCGTTAAGTCGACC +GCCTGGGGAGTACGGCCGCAAGGTTAAAACTCAAATGAATTGACGGGGGCCCGCACAAGCGGTGGAGCAT +GTGGTTTAATTCGATGCAACGCGAAGAACCTTACCTGGTCTTGACATCCACGGAAGTTTTCAGAGATGAG +AATGTGCCTTCGGGAACCGTGAGACAGGTGCTGCATGGCTGTCGTCAGCTCGTGTTGTGAAATGTTGGGT +TAAGTCCCGCAACGAGCGCAACCCTTATCCTTTGTTGCCAGCGGTCCGGCCGGGAACTCAAAGGAGACTG +CCAGTGATAAACTGGAGGAAGGTGGGGATGACGTCAAGTCATCATGGCCCTTACGACCAGGGCTACACAC +GTGCTACAATGGCGCATACAAAGAGAAGCGACCTCGCGAGAGCAAGCGGACCTCATAAAGTGCGTCGTAG +TCCGGATTGGAGTCTGCAACTCGACTCCATGAAGTCGGAATCGCTAGTAATCGTGGATCAGAATGCCACG +GTGAATACGTTCCCGGGCCTTGTACACACCGCCCGTCACACCATGGGAGTGGGTTGCAAAAGAAGTAGGT +AGCTTAACCTTCGGGAGGGCGCTTACCACTTTGTGATTCATGACTGGGGTGAAGTCGTAACAAGGTAACC +GTAGGGGAACCTGCGGTTGGATCACCTCCTTACCTTAAAGAAGCGTTCTTTGAAGTGCTCACACAGATTG +TCTGATGAAAATGAGCAGTAAAACCTCTACAGGCTTGTAGCTCAGGTGGTTAGAGCGCACCCCTGATAAG +GGTGAGGTCGGTGGTTCAAGTCCACTCAGGCCTACCAAATTTGCACGGCAAATTTGAAGAGGTTTTAACT +ACATGTTATGGGGCTATAGCTCAGCTGGGAGAGCGCCTGCTTTGCACGCAGGAGGTCTGCGGTTCGATCC +CGCATAGCTCCACCATCTCTGTAGTGATTAAATAAAAAATACTTCAGAGTGTACCTGCAAAGGTTCACTG +CGAAGTTTTGCTCTTTAAAAATCTGGATCAAGCTGAAAATTGAAACACTGAACAACGAAAGTTGTTCGTG +AGTCTCTCAAATTTTCGCAACACGATGATGAATCGAAAGAAACATCTTCGGGTTGTGAGGTTAAGCGACT +AAGCGTACACGGTGGATGCCCTGGCAGTCAGAGGCGATGAAGGACGTGCTAATCTGCGATAAGCGTCGGT +AAGGTGATATGAACCGTTATAACCGGCGATTTCCGAATGGGGAAACCCAGTGTGTTTCGACACACTATCA +TTAACTGAATCCATAGGTTAATGAGGCGAACCGGGGGAACTGAAACATCTAAGTACCCCGAGGAAAAGAA +ATCAACCGAGATTCCCCCAGTAGCGGCGAGCGAACGGGGAGCAGCCCAGAGCCTGAATCAGTGTGTGTGT +TAGTGGAAGCGTCTGGAAAGGCGTGCGATACAGGGTGACAGCCCCGTACACAAAAATGCACATGCTGTGA +GCTCGATGAGTAGGGCGGGACACGTGGTATCCTGTCTGAATATGGGGGGACCATCCTCCAAGGCTAAATA +CTCCTGACTGACCGATAGTGAACCAGTACCGTGAGGGAAAGGCGAAAAGAACCCCGGCGAGGGGAGTGAA +AAAGAACCTGAAACCGTGTACGTACAAGCAGTGGGAGCACGCTTAGGCGTGTGACTGCGTACCTTTTGTA +TAATGGGTCAGCGACTTATATTCTGTAGCAAGGTTAACCGAATAGGGGAGCCGAAGGGAAACCGAGTCTT +AACTGGGCGTTAAGTTGCAGGGTATAGACCCGAAACCCGGTGATCTAGCCATGGGCAGGTTGAAGGTTGG +GTAACACTAACTGGAGGACCGAACCGACTAATGTTGAAAAATTAGCGGATGACTTGTGGCTGGGGGTGAA +AGGCCAATCAAACCGGGAGATAGCTGGTTCTCCCCGAAAGCTATTTAGGTAGCGCCTCGTGAATTCATCT +CCGGGGGTAGAGCACTGTTTCGGCAAGGGGGTCATCCCGACTTACCAACCCGATGCAAACTGCGAATACC +GGAGAATGTTATCACGGGAGACACACGGCGGGTGCTAACGTCCGTCGTGAAGAGGGAAACAACCCAGACC +GCCAGCTAAGGTCCCAAAGTCATGGTTAAGTGGGAAACGATGTGGGAAGGCCCAGACAGCCAGGATGTTG +GCTTAGAAGCAGCCATCATTTAAAGAAAGCGTAATAGCTCACTGGTCGAGTCGGCCTGCGCGGAAGATGT +AACGGGGCTAAACCATGCACCGAAGCTGCGGCAGCGACACTATGTGTTGTTGGGTAGGGGAGCGTTCTGT +AAGCCTGTGAAGGTGTGCTGTGAGGCATGCTGGAGGTATCAGAAGTGCGAATGCTGACATAAGTAACGAT +AAAGCGGGTGAAAAGCCCGCTCGCCGGAAGACCAAGGGTTCCTGTCCAACGTTAATCGGGGCAGGGTGAG +TCGACCCCTAAGGCGAGGCCGAAAGGCGTAGTCGATGGGAAACAGGTTAATATTCCTGTACTTGGTGTTA +CTGCGAAGGGGGGACGGAGAAGGCTATGTTGGCCGGGCGACGGTTGTCCCGGTTTAAGCGTGTAGGCTGG +TTTTCCAGGCAAATCCGGAAAATCAAGGCTGAGGCGTGATGACGAGGCACTACGGTGCTGAAGCAACAAA +TGCCCTGCTTCCAGGAAAAGCCTCTAAGCATCAGGTAACATCAAATCGTACCCCAAACCGACACAGGTGG +TCAGGTAGAGAATACCAAGGCGCTTGAGAGAACTCGGGTGAAGGAACTAGGCAAAATGGTGCCGTAACTT +CGGGAGAAGGCACGCTGATATGTAGGTGAAGCGACTTGCTCGTGGAGCTGAAATCAGTCGAAGATACCAG +CTGGCTGCAACTGTTTATTAAAAACACAGCACTGTGCAAACACGAAAGTGGACGTATACGGTGTGACGCC +TGCCCGGTGCCGGAAGGTTAATTGATGGGGTTAGCCGCAAGGCGAAGCTCTTGATCGAAGCCCCGGTAAA +CGGCGGCCGTAACTATAACGGTCCTAAGGTAGCGAAATTCCTTGTCGGGTAAGTTCCGACCTGCACGAAT +GGCGTAATGATGGCCAGGCTGTCTCCACCCGAGACTCAGTGAAATTGAACTCGCTGTGAAGATGCAGTGT +ACCCGCGGCAAGACGGAAAGACCCCGTGAACCTTTACTATAGCTTGACACTGAACATTGAGCCTTGATGT +GTAGGATAGGTGGGAGGCTTTGAAGTGTGGACGCCAGTCTGCATGGAGCCGACCTTGAAATACCACCCTT +TAATGTTTGATGTTCTAACGTTGACCCGTAATCCGGGTTGCGGACAGTGTCTGGTGGGTAGTTTGACTGG +GGCGGTCTCCTCCTAAAGAGTAACGGAGGAGCACGAAGGTTGGCTAATCCTGGTCGGACATCAGGAGGTT +AGTGCAATGGCATAAGCCAGCTTGACTGCGAGCGTGACGGCGCGAGCAGGTGCGAAAGCAGGTCATAGTG +ATCCGGTGGTTCTGAATGGAAGGGCCATCGCTCAACGGATAAAAGGTACTCCGGGGATAACAGGCTGATA +CCGCCCAAGAGTTCATATCGACGGCGGTGTTTGGCACCTCGATGTCGGCTCATCACATCCTGGGGCTGAA +GTAGGTCCCAAGGGTATGGCTGTTCGCCATTTAAAGTGGTACGCGAGCTGGGTTTAGAACGTCGTGAGAC +AGTTCGGTCCCTATCTGCCGTGGGCGCTGGAGAACTGAGGGGGGCTGCTCCTAGTACGAGAGGACCGGAG +TGGACGCATCACTGGTGTTCGGGTTGTCATGCCAATGGCACTGCCCGGTAGCTAAATGCGGAAGAGATAA +GTGCTGAAAGCATCTAAGCACGAAACTTGCCCCGAGATGAGTTCTCCCTGACTCCTTGAGAGTCCTGAAG +GAACGTTGAAGACGACGACGTTGATAGGCCGGGTGTGTAAGCGCAGCGATGCGTTGAGCTAACCGGTACT +AATGAACCGTGAGGCTTAACCTTACAACGCCGAAGGTGTTTTGGCGGATTGAGAGAAGATTTTCAGCCTG +ATACAGATTAAATCAGAACGCAGAAGCGGTCTGATAAAACAGAATTTGCCTGGCGGCAGTAGCGCGGTGG +TCCCACCTGACCCCATGCCGAACTCAGAAGTGAAACGCCGTAGCGCCGATGGTAGTGTGGGGTCTCCTCA +TGCGAGAGTAGGGAACTGCCAGGCATCAAATAAAACGAAAGGCTCAGTCGGAAGACTGGGCCTTTCGTTT +TATCTGTTGTTTGTCGGTGAACGCTCTCCTGAGTAGGACAAATCCGCCGGGAGCGGATTTGAACGTTGCG +AAGCAACGGCCCGGAGGGTGGCGGGCAGGACGCCCGCCATAAACTGCCAGGCATCAAATTAAGCAGAAGG +CCATCCTGACGGATGGCCTTTTTGCATTGGCGCAGAAAAAAATGCCGGATGCGACGCTGGCGCGTCTTAT +CCAGCCTACTCTTGCTTATCCGTTCTGCTTTTGCATCCACTCCACCACAAAATCAGCCAGCCCCTCAACA +TCATTAATATCCAGTAATGCGACATCAAGATTAAGCGGCACATCACTGGCTACAGCAATAACATGCCTGT +CTATCACTAATTCTTCAGGTCGATGTCCGGCTCCATCGCGAAACAGCACAATCTTTGCGATCTCTTCATG +CTTAAACCCTTCGACCAGAATCAAATCCAGCTTTGAGGTATCCATTCGACTTGCGAGAAACTGTAGATCC +AGCTCTTCTTCGTCTGGTGTTTCCGTCATCAAGGCCCATCGTTGCTGGCTGGCAACGATGGTTTGTGCCG +CGCCAGCCTTGCGCAGCTCATAGCTATCTTTGCCTGGCTTATCAACATCCATATCATGGTGCGTATGCTT +AATCAGCCCTGGACGGATCCCTCTGGCGCATAATGCCGGGATCAGTTTTTTCAAAAGCGTAGTTTTTCCG +GTACCACTCCACGCGGCAAAGGCGAGTAACGGTATCATCGTTTTTCCTGCCATCGGGCAAGCTCCTCTGG +CGTATTCACGTTAACAAATGCATCTTTATGATCGCTGAAATCAACCGCATGACCGCCAGCCAGACGCATA +AATACCATTACCCGGCGTTCTCCTGCTTGCAGATATTCCAGTAATAAAGGCTCAATAGCGCGGTTTACCA +GAGCAATAGTCGGGTGATCGCGTTCACCGTCATGGACCCACACGACAGGCGCATCTTTGCGCTGATGATT +AAGCCTGGCTGCTAAATCAGGGGGAATGTAAGGCGTATCGCACGGGCAAAACAAAAACCACTCACCAGCT +TCCTGCTGCATTACTGAAAGCATTCCTGCCAGAGGGCCTGGGTAATCCGCCAGTGAATCTTCAATCACTT +TCAGACCGCTTGCCTGATAGATTTCCTGATGACGATTAGCATTAACCACGACGTGAGAGAGCTGCGTCAT +AAGCGCGTCAGCGACATGTTGCCATAATGGTTTGCCGTTTAATTCAAGCAATCCTTTATCTACGCCGCCC +ATTCGTCTGGCTTTACCGCCTGCCAGCACAACGCCTGTTATCGTCGTCATCAGATTCACCGATATCGCCT +CTTTTATTGTGGGATTGACCCTGCTAACGTGTCTGTCTCAAGAGTAAGGAGCATCACTATGAAATGTAAA +CGTCTGAATGAAGTTATTGAACTCCTCCAGCCAGCCTGGCAAAAAGAGCCAGACCTTAACCTGCTGCAAT +TTTTGCAGAAACTGGCGAAAGAGTCAGGTTTTGACGGCGAACTGGCGGATTTGACGGATGACATTCTGAT +CTATCACCTGAAAATGCGTGATTCCGCGAAAGATGCGGTGATCCCGGGTTTGCAGAAAGATTATGAAGAA +GACTTCAAAACGGCGCTGTTACGCGCTCGCGGCGTAATTAAAGAGTAAAAGCTTGTAAGCGGCGCCACCA +AAATCATCGTGAAATGATATCCTTCGTCATTCGTAATGTTTTCCGGATGATGGGATGAATAACAGCGCTT +TTACTTTCCAGACACTACACCCGGATACCATCATGGACGCTCTGTTTGAGCATGGGATCCGGGTGGATTC +CGGTCTTACCCCGCTTAACAGCTATGAAAACCGTGTCTATCAATTTCAGGACGAAGATCGTCGACGTTTT +GTCGTCAAATTTTATCGCCCTGAACGTTGGACAGCCGATCAAATCCTCGAAGAACATCAATTTGCGTTGC +AGCTGGTAAATGATGAAGTTCCGGTCGCAGCACCTGTGGCCTTTAACGGTCAGACTTTATTGAATCATCA +GGGATTTTATTTCGCTGTTTTTCCAAGCGTCGGTGGTCGCCAGTTCGAAGCTGATAATATCGATCAGATG +GAAGCGGTTGGGCGTTATTTAGGGCGTATGCACCAGACGGGGCGCAAACAGCTTTTTATCCATCGCCCGA +CCATCGGTTTGAACGAATATCTCATTGAGCCACGCAAGCTGTTTGAGGACGCTACACTGATACCTTCCGG +GTTGAAAGCGGCATTCCTGAAAGCGACAGATGAGCTGATTGCCGCCGTTACAGCACACTGGCGGGAAGAT +TTCACCGTTCTGCGGCTACATGGAGACTGCCACGCCGGGAATATTCTCTGGCGCGATGGTCCAATGTTTG +TTGATCTGGATGATGCACGTAATGGTCCAGCCGTTCAGGATTTGTGGATGTTGCTCAATGGCGATAAAGC +CGAGCAGCGGATGCAACTGGAAACTATTATTGAAGCTTATGAAGAATTTAGCGAGTTCGACACCGCTGAA +ATCGGACTGATTGAACCTTTACGCGCCATGCGTTTGGTTTATTATCTTGCCTGGCTAATGCGGCGTTGGG +CTGATCCCGCGTTCCCGAAAAATTTCCCGTGGTTAACCGGGGAAGATTACTGGCTGCGACAGACGGCGAC +TTTTATAGAACAGGCAAAAGTTCTACAAGAACCCCCTTTGCAATTAACACCTATGTATTAATCGGAGAGA +GTAGATCATGAAAAAGATTTGGCTGGCGCTGGCTGGTTTAGTTTTAGCGTTTAGCGCATCGGCGGCGCAG +TATGAAGATGGTAAACAGTACACTACCCTGGAAAAACCGGTAGCTGGCGCGCCGCAAGTGCTGGAGTTTT +TCTCTTTCTTCTGCCCGCACTGCTATCAGTTTGAAGAAGTTCTGCATATTTCTGATAATGTGAAGAAAAA +ACTGCCGGAAGGCGTGAAGATGACTAAATACCACGTCAACTTCATGGGTGGTGACCTGGGCAAAGATCTG +ACTCAGGCATGGGCTGTGGCGATGGCGCTGGGCGTGGAAGACAAAGTGACTGTTCCGCTGTTTGAAGGCG +TACAGAAAACCCAGACCATTCGTTCTGCTTCTGATATCCGCGATGTATTTATCAACGCAGGTATTAAAGG +TGAAGAGTACGACGCGGCGTGGAACAGCTTCGTGGTGAAATCTCTGGTCGCTCAGCAGGAAAAAGCTGCA +GCTGACGTGCAATTGCGTGGCGTTCCGGCGATGTTTGTTAACGGTAAATATCAGCTGAATCCGCAGGGTA +TGGATACCAGCAATATGGATGTTTTTGTTCAGCAGTATGCTGATACAGTGAAATATCTGTCCGAGAAAAA +ATAATTCAATGTAAATTACATAAAGCCCGTGAATATTCACGGGCTTTTTTTATTATTTAATAAATATAAA +TACATTCTGATAATGCATCCTGCCGCTGGACATTATTTCAGCATAAGTGGATATTCAAAGTTTTGCTGTT +TTATCAGGGAATATTTATATGATACGTAAGTCAGCTACAGGTGTTATTGTTGCGTTAGCCGTAATCTGGG +GTGGTGGCACATGGTACACAGGTACGCAAATTCAGCCTGGTGTCGAAAAATTTATTAAAGATTTTAACGA +TGCTAAAAAGAAAGGTGAACATGCCTACGATATGACGTTAAGTTATCAAAATTTTGACAAAGGCTTTTTT +AATTCCCGTTTTCAAATGCAAATGACATTCGATAACGGTGCACCCGATCTCAATATCAAGCCAGGCCAGA +AAGTTGTATTTGATGTGGATGTTGAGCACGGTCCGTTGCCCATCACAATGTTAATGCATGGTAATGTCAT +CCCAGCACTGGCAGCGGCAAAAGTGAACTTAGTGAATAATGAACTGACACAACCGCTATTTATCGCCGCG +AAAAATAAATCGCCCGTGGAAGCGACATTGCGATTCGCGTTTGGTGGCTCATTCTCTACGACATTAGATG +TTGCCCCTGCAGAGTATGGAAAGTTTTCTTTTGGTGAGGGCCAGTTTACTTTTAATGGTGATGGTAGTTC +ATTGTCTAACCTGGATATTGAAGGCAAAGTCGAAGATATTGTTCTGCAATTATCACCAATGAACAAAGTA +ACGGCAAAAAGTTTTACCATTGATTCTCTGGCGCGATTAGAAGAAAAGAAATTTCCGGTTGGTGAAAGCG +AGTCGAAATTTAATCAGATTAACATTATCAATCACGGGGAAGACGTTGCCCAAATCGATGCTTTCGTTGC +AAAAACCAGGCTGGATCGCGTTAAAGACAAAGATTATATCAATGTCAATCTCACCTACGAACTTGATAAG +TTAACAAAAGGGAATCAGCAACTCGGTAGTGGTGAGTGGTCATTGATTGCTGAATCTATTGATCCCTCAG +CAGTGCGCCAATTTATCATCCAGTATAACATTGCGATGCAGAAGCAGCTTGCTGCACACCCTGAGTTAGC +AAACGATGAAGTTGCTCTGCAAGAAGTGAATGCTGCATTGTTCAAAGAGTATTTACCGTTATTACAAAAA +AGTGAGCCGACCATTAAACAACCGGTAAGATGGAAGAACGCACTCGGCGAACTAAATGCCAATCTGGATA +TCAGTATTGCCGACCCAGCCAAATCTTCATCATCCACAAACAAAGATATCAAATCGCTCAATTTTGATGT +GAAGTTACCGCTTAATGTCGTCACAGAAACCGCAAAACAGCTTAATTTATCTGAAGGAATGGATGCGGAA +AAAGCGCAAAAGCAGGCTGATAAACAAATCAGCGGGATGATGACATTAGGTCAGATGTTTCAGTTAATCA +CGATTGACAACAATACCGCCTCGCTGCAGCTGCGTTATACACCGGGTAAAGTTGTTTTTAACGGACAGGA +GATGAGCGAAGAAGAATTTATGTCTCGTGCCGGACGTTTTGTTCATTAAAATACTCACTCGCCTCTGCTC +ATTCAGAGGCGAGTAAAACTTACTTATTCTGACGCTGTGATGACATGAGAGACGTCAGAAGCCGGTCTTT +TTCCTGCCACAATGAGTTCAGCCATTGCTGAAAATGGCGCTTAAAGCTTTTGTCATTGATGTAGTCGCCA +TGTAACTCATCGGCAATAGGCTGTAAATCCACATGTACGACAATCCGCGTCAGTTTACCGCTTAACATAT +CGAAGAACGGCTGACGGTTATTGTCCGGATAACACAGCGTAACATTAAGCAGTTTATCGAATTGTTTACC +CAGTACATTTAGCGCCATCGCAATGCCTGCCGCCTTTGGTGGCAACAAGTTTTGAAAAGTGGAGTGGGTT +TGCTGATGTTTTTCTTGCGTGAAACGGGAGCCTTCAACGAAATTGACAATGGTGGTGGGATGCAGGCGAA +ACTTTTCACAAGAACGCCGAGTGGTTTCAACATCTTTACCACGTCGCTCCGGATGACGTAATAAATAAGC +GCGGGAATAACGCTTCATAAACGGCATATCCAGCGACCAGCACGCCAGGCCAAGAAATGGCACCCAGGCC +AGCTGTTGCTTGAGGAAATATTTATTCATCGGAATGTGCTTACGAAACAGCACGCACAGTACGACAATAT +CTGCCCAACTACGGTGGTTACAAATAAGCAGATACCAGTTCTTCTTACTTAACCCTTCCAGCCCGTGAAC +TTCCCATTGAAGGTGTGGGTTCAGATGCAGTAATACCGCCAGACCTTCACACCAGCAATACATCATAAAA +TCACAAAAACGCGAAACCTTTCGCCAAATGACTGGCACAGGTAGCAATAGTTTTACAATCCCGGCAATGA +TGATCGGGACGGAACAAAAAATAGTGACCAAAATGGTCAATACGATACTCAGCAAAAGGGTTATCGCAGC +GAGTATTCTCGTCATAATGAATTTATTCAAAAGGTTAGCCATAGACAGTGCGCTAAAGAAGCGCAAGGCG +CAGATTTTAGCAGAAAACGACCCAAATAACGGATGATCCTTAAGGAGAAAAATAATTCATATCTATCCAC +ATTAGAAAAAATCCCATTATCTCAATTATTAGGGATGGATTTATTTTTAACTGCATGAAAAACAAAGACA +AACATCATGCTGTAAAAAGCATGATAATAAATTAAAAGCGATGTAAATAATTTATGCACAAAGTTATCCA +CATGACGATTTGCGAGCGATCCAGAAGATCTACAAAAGATTTTCACGAAAAGCGGTGAAAAACTCATGTT +TTCATCCTGTCTGTGGCATCCTTTACCCATAATCTGATAAACAGGCACGGACATTATGGTTCAGATCCCC +CAAAATCCACTTATCCTTGTAGATGGTTCATCTTATCTTTATCGCGCATATCACGCGTTTCCCCCGCTGA +CTAACAGCGCAGGCGAGCCGACCGGTGCGATGTATGGTGTCCTCAACATGCTGCGCAGTCTGATCATGCA +ATATAAACCGACGCATGCAGCGGTGGTCTTTGACGCCAAGGGAAAAACCTTTCGTGATGAACTGTTTGAA +CATTACAAATCACATCGCCCGCCAATGCCGGACGATCTGCGTGCACAAATCGAACCCTTGCACGCGATGG +TTAAAGCGATGGGACTGCCGCTGCTGGCGGTTTCTGGCGTAGAAGCGGACGACGTTATCGGTACTCTGGC +GCGCGAAGCCGAAAAAGCCGGGCGTCCGGTGCTGATCAGCACTGGCGATAAAGATATGGCGCAGCTGGTG +ACGCCAAATATTACGCTTATCAATACCATGACGAATACCATCCTCGGACCGGAAGAGGTGGTGAATAAGT +ACGGCGTGCCGCCAGAACTGATCATCGATTTCCTGGCGCTGATGGGTGACTCCTCTGATAACATTCCTGG +CGTACCGGGCGTCGGTGAAAAAACCGCGCAGGCATTGCTGCAAGGTCTTGGCGGACTGGATACGCTGTAT +GCCGAGCCAGAAAAAATTGCTGGGTTGAGCTTCCGTGGCGCGAAAACAATGGCAGCGAAGCTCGAGCAAA +ACAAAGAAGTTGCTTATCTCTCATACCAGCTGGCGACGATTAAAACCGACGTTGAACTGGAGCTGACCTG +TGAACAACTGGAAGTGCAGCAACCGGCAGCGGAAGAGTTGTTGGGGCTGTTCAAAAAGTATGAGTTCAAA +CGCTGGACTGCTGATGTCGAAGCGGGCAAATGGTTACAGGCCAAAGGGGCAAAACCAGCCGCGAAGCCAC +AGGAAACCAGTGTTGCAGACGAAGCACCAGAAGTGACGGCAACGGTGATTTCTTATGACAACTACGTCAC +CATCCTTGATGAAGAAACACTGAAAGCGTGGATTGCGAAGCTGGAAAAAGCGCCGGTATTTGCATTTGAT +ACCGAAACCGACAGCCTTGATAACATCTCTGCTAACCTGGTCGGGCTTTCTTTTGCTATCGAGCCAGGCG +TAGCGGCATATATTCCGGTTGCTCATGATTATCTTGATGCGCCCGATCAAATCTCTCGCGAGCGTGCACT +CGAGTTGCTAAAACCGCTGCTGGAAGATGAAAAGGCGCTGAAGGTCGGGCAAAACCTGAAATACGATCGC +GGTATTCTGGCGAACTACGGCATTGAACTGCGTGGGATTGCGTTTGATACCATGCTGGAGTCCTACATTC +TCAATAGCGTTGCCGGGCGTCACGATATGGACAGCCTCGCGGAACGTTGGTTGAAGCACAAAACCATCAC +TTTTGAAGAGATTGCTGGTAAAGGCAAAAATCAACTGACCTTTAACCAGATTGCCCTCGAAGAAGCCGGA +CGTTACGCCGCCGAAGATGCAGATGTCACCTTGCAGTTGCATCTGAAAATGTGGCCGGATCTGCAAAAAC +ACAAAGGGCCGTTGAACGTCTTCGAGAATATCGAAATGCCGCTGGTGCCGGTGCTTTCACGCATTGAACG +TAACGGTGTGAAGATCGATCCGAAAGTGCTGCACAATCATTCTGAAGAGCTCACCCTTCGTCTGGCTGAG +CTGGAAAAGAAAGCGCATGAAATTGCAGGTGAGGAATTTAACCTTTCTTCCACCAAGCAGTTACAAACCA +TTCTCTTTGAAAAACAGGGCATTAAACCGCTGAAGAAAACGCCGGGTGGCGCGCCGTCAACGTCGGAAGA +GGTACTGGAAGAACTGGCGCTGGACTATCCGTTGCCAAAAGTGATTCTGGAGTATCGTGGTCTGGCGAAG +CTGAAATCGACCTACACCGACAAGCTGCCGCTGATGATCAACCCGAAAACCGGGCGTGTGCATACCTCTT +ATCACCAGGCAGTAACTGCAACGGGACGTTTATCGTCAACCGATCCTAACCTGCAAAACATTCCGGTGCG +TAACGAAGAAGGTCGTCGTATCCGCCAGGCGTTTATTGCGCCAGAGGATTATGTGATTGTCTCAGCGGAC +TACTCGCAGATTGAACTGCGCATTATGGCGCATCTTTCGCGTGACAAAGGCTTGCTGACCGCATTCGCGG +AAGGAAAAGATATCCACCGGGCAACGGCGGCAGAAGTGTTTGGTTTGCCACTGGAAACCGTCACCAGCGA +GCAACGCCGTAGCGCGAAAGCGATCAACTTTGGTCTGATTTATGGCATGAGTGCTTTCGGTCTGGCGCGG +CAATTGAACATTCCACGTAAAGAAGCGCAGAAGTACATGGACCTTTACTTCGAACGCTACCCTGGCGTGC +TGGAGTATATGGAACGCACCCGTGCTCAGGCGAAAGAGCAGGGCTACGTTGAAACGCTGGACGGACGCCG +TCTGTATCTGCCGGATATCAAATCCAGCAATGGTGCTCGTCGTGCAGCGGCTGAACGTGCAGCCATTAAC +GCGCCAATGCAGGGAACCGCCGCCGACATTATCAAACGGGCGATGATTGCCGTTGATGCGTGGTTACAGG +CTGAGCAACCGCGTGTACGTATGATCATGCAGGTACACGATGAACTGGTATTTGAAGTTCATAAAGATGA +TGTTGATGCCGTCGCGAAGCAGATTCATCAACTGATGGAAAACTGTACCCGTCTGGATGTGCCGTTGCTG +GTGGAAGTGGGGAGTGGCGAAAACTGGGATCAGGCGCACTAAGATTCGCCTGAACATGCCTTTTTTCGTA +AGTAAGCAACATAAGCTGTCACGTTTTGTGATGGCTATTAGAAATTCCTATGCAACAACTGAAAAAAAAT +TACAAAAAGTGCTTTCTGAACTGAACAAAAAAGAGTAAAGTTAGTCGCGTAGGGTACAGAGGTAAGATGT +TCTATCTTTCAGACCTTTTACTTCACGTAATCGGATTTGGCTGAATATTTTAGCCGCCCCAGTCAGTAAT +GACTGGGGCGTTTTTTATTGGGCGAAAGAAAAGATCCGTAATGCCTGATGCGCTATGTTTATCAGGCCAA +CGGTAGAATTGTAATCTATTGAATTTACGGGCCGGATACGCCACATCCGGCACAAGCATTAAGGCAAGAA +AATTATTCGCCGTCCTGCGTTTCTTCTACAGGCTGCATCTCGCTAAACCAGGTATCCAGTTTCTGCCGCA +GCTTGTCCACGCCTTGTTTCTTCAACGAAGAAAACGTTTCAACCTGCACATCACCGTTAAACGCCAGTAC +AGCTTCACGCACCATATTCAATTGCGCTTTACGTGCGCCGCTTGCCAGTTTGTCCGCTTTGGTCAGCAGC +ACCAGAACGGCGATATTGCTGTCTACCGCCCACTCAATCATCTGCTGATCCAAATCTTTCAGCGGATGGC +GAATATCCATTAGCACCACCAGACCTTGCAGGCTCTGACGTTTTTCGAGGTATTCGCCGAGCGCACGCTG +CCATTTGCGCTTCATCTCTTCCGGGACTTCCGCATAACCGTACCCAGGCAAGTCAACCAGACGCTTGCCG +TCAGCCACTTCAAACAGGTTGATAAGCTGGGTGCGCCCTGGGGTTTTTGAGGTACGAGCCAGGCTTTTCT +GGTTAGTCAGCGTGTTCAGCGCGCTGGATTTACCTGCGTTGGAACGGCCTGCAAAAGCCACTTCAATTCC +GGTATCGGAAGGTAGGTGGCGAATATCAGGCGCACTCATCACAAAATGCGTCTGTTGATAATTCAAATTA +GTCAAAGCGGTCGTCTCCGTCAGTCAAAGCTTTGTGGCGATTATACCTGAACCATAATAAAAGGCGGATT +TTTCGGCGTGAGCGTTGTAAGTAAAAGCCATACGCTTTGTGAGACATTGCCGATAGTCTTTATGCGAAAT +AGCAGAGAAAATTCTGCGATGCATGTCAAATAAGCTATATAAATCAGTGAATTGCTTTTATATAAAACTC +TGAAAATGTGCAAATACTGATGGCGGTTGATTGTTTGTTTAAAGCAAAGGCGTAAAGTAGCACCCATAGA +GCGAGGACGCTAACAGGAACAATGACTCAGGATGAGGGTCAGGAGCGCCAGGAGGCGAAGACAGAGGATT +GTCAGGAAGACAAACGTCCGGAGACGTAATTAAACGGAAATGGAATCAACACGGATTGTTCCGGCTAAAG +GAAAAACAGGGTGTGTTGGCGGCCTGCAAGGATTGTAAGACCCGTTAAGGGTTATGAGTCAGGAAAAAAG +GCGACAGAGTAATCTGTCGCCTTTTTTCTTTGCTTGCTTTCTGTTAGATTCCGCCGCAAATCTATACTGA +ATAAAACGGCTAAAAGACGAACCATTATGAAACCATCATCTTCAAACTCACGCAGCAAAGGTCATGCAAA +AGCGCGTCGAAAAACACGCGAGGAGCTGGATCAGGAAGCTCGTGATCGCAAGCGTCAGAAAAAACGTCGT +GGTCATGCGCCGGGCAGCCGCGCAGCGGGCGGAAACACCACGTCAGGCAGCAAAGGCCAGAACGCACCAA +AAGATCCACGTATTGGCAGTAAAACCCCTATTCCATTGGGCGTGACTGAAAAAGTCACCAAACAGCACAA +ACCGAAGAGTGAGAAACCTATGCTTTCACCGCAGGCGGAGTTGGAATTACTGGAAACGGATGAGCGTCTG +GATGCGCTGCTGGAACGTCTGGAAGCAGGCGAAACCCTGAGTGCCGAAGAGCAATCCTGGGTGGATGCTA +AACTGGATCGTATTGATGAGTTGATGCAGAAACTCGGCCTCTCTTATGACGATGACGAAGAAGAGGAAGA +AGACGAGAAGCAAGAAGACATGATGCGTCTGCTGCGGGGCAACTAACGGATTGCCGCCGTGGGCCTTCCC +GTTCTGCTGATAACCCTTCCGGTTATATGTTATCTGGTGTGGTTATTCGTTAAACTACAGCGGTTGTCGC +GGCGACAAAAGTGGCTGCGCAACCGGCTGATGACCCGAAACGGGCATCCGCCGGTACGCCGTAGCCGCCA +GAGACGCCATCGGAAGGAGTGAGCATGTCTGTACAGCAAATCGACTGGGATCTGGCCCTGATCCAGAAAT +ATAACTATTCCGGGCCACGATACACCTCGTACCCGACCGCGCTGGAGTTTTCAGAAGACTTCGGCGAACA +GGCGTTTTTACAAGCCGTGGCGCGCTATCCTGAGCGTCCATTATCTCTCTACGTACATATCCCGTTCTGC +CATAAGCTTTGTTACTTCTGCGGTTGCAATAAGATTGTTACTCGCCAGCAGCACAAGGCCGATCAGTATC +TGGACGCGCTGGAGCAAGAAATCGTCCATCGTGCACCGCTGTTCGCCGGGCGTCACGTCAGCCAATTGCA +CTGGGGCGGCGGAACGCCGACGTATCTGAATAAAGCGCAAATCAGCCGCCTGATGAAGCTGCTGCGCGAA +AACTTCCAGTTCAATGCCGATGCGGAGATTTCGATCGAAGTCGATCCGCGGGAAATCGAACTGGATGTAC +TCGATCATTTACGCGCCGAAGGCTTTAATCGCCTGAGCATGGGCGTGCAGGACTTCAACAAAGAAGTGCA +ACGTCTGGTTAACCGCGAGCAGGATGAAGAGTTCATCTTTGCACTGCTTAACCATGCGCGTGAGATTGGT +TTTACCTCCACCAACATCGACCTGATTTACGGCCTGCCGAAACAGACGCCGGAGAGTTTCGCCTTTACCC +TGAAACGTGTGGCGGAGCTGAACCCCGATCGTCTGAGTGTCTTTAACTACGCGCATCTGCCGACCATTTT +TGCTGCTCAGCGCAAAATCAAAGATGCTGACCTGCCGAGTCCGCAGCAAAAACTCGATATCCTGCAGGAA +ACCATCGCCTTCCTGACGCAATCGGGCTATCAGTTTATCGGTATGGATCACTTTGCCCGTCCGGATGACG +AGCTGGCGGTGGCCCAGCGTGAAGGCGTGCTGCATCGTAACTTCCAGGGCTACACCACTCAGGGCGATAC +CGATCTGCTGGGGATGGGCGTTTCCGCCATCAGCATGATTGGCGACTGCTACGCGCAGAACCAGAAAGAG +TTGAAGCAGTACTATCAGCAAGTGGATGAACAAGGCAATGCGCTGTGGCGTGGTATTGCGCTAACGCGTG +ATGACTGTATTCGCCGCGATGTGATTAAGTCGCTCATCTGCAACTTCCGTCTGGATTACGCCCCTATTGA +GAAACAGTGGGATTTGCACTTCGCTGATTACTTTGCGGAAGATCTCAAGCTGCTCGCCCCGTTAGCAAAA +GATGGGCTGGTGGATGTGGATGAGAAGGGAATACAGGTGACGGCGAAAGGTCGCTTGCTGATCCGCAACA +TTTGCATGTGCTTTGATACCTATCTGCGCCAGAAAGCGCGGATGCAGCAGTTCTCTCGGGTGATTTAAAT +AGTGAATGGCGCTTCGTTTACAAAGTAGAAAACGAAAGCGCCATCAATGTGCTGAGAACAAGATTGCCTG +ATGCGCTGGGCAACAAAACCTGTTGAAATTATTGCTTTTGTAGGCCGGATAAGGCGTTTACGCCGCATCA +GGCATCTGAGCATGATGCCTGATGCGGCGCTGGTCGCGTCTTATCAGGCCTACGACTTTCTCCGCATCCG +GCATAAACAACGAGCTTCAGCTAAACAGCCCAATCATTGCGGCACACAGCACGGCAGCAACGGCAGTTTG +CGGTGTGTGGCTGTCAACTGCGCCACTCGATACCAGATTAATTATTGATTCCAGCATAATGACTCTCCCC +GTTTTCCGGGCAAGATCATACTGAACTTATCGGAACAGTAAAGCGTAAAATACCAGCAATTTGCGCTCAA +TAATCAATCTTTACACACAAGCTGTGAATCACTCCATCCCCAGCTCTTTTAACTTACGCGTCAGGGTGTT +GCGGCCCCAGCCGAGTAGCCGCGCCGCTTCCTGTTTATGCCCCTGCGTATGTCGCAACGCGGTCGTCAGT +AACGTCCGCTCCAGCTCTGGCTGCGCTTCGGAAAGCAGATTTTGATGACCGGAACGCAGCGCTCTGTCTG +CCCACTGCGCAAGAAGCGTCGCCCAGCTGTCCGGTTGCATTTGCGAAGTACTCTCCGCAACCGTTGATTC +AAACAGTTCGCCGGGCAAATCCTGAATCAACACTTCCTGCCCGGCGGCCATCACCGTTAGCCAGCGGCAG +GTGTTTTCCAGCTGGCGCACGTTGCCTGGCCACGCCAGACGCGTCAGAGCAGCTTCGGTTTCCGGATGCA +GTAACTTCGCTTCTACGCCCAGTTCGCGCGCGGCAACCTGTAAAAAATGGCGCGCCAGACGGGGAATATC +TTCCCGACGTTCGCGCAGCGGCGGCAGATGAACGCGGATAACGTTCAGGCGGTGGAACAGATCCTCACGG +AACTTACCTTCCTGCACTCGCTGTTCGAGATTCTGGTGAGTGGCAGCGATAATCCGCACATCCACTTTCA +CCGGCGCATAGCCGCCAACGCGGTAAAACTGACCGTCTGCCAGCACGCGCAGCAAACGCGTCTGCACATC +CAGCGGCATATCACCAATTTCGTCGAGGAATAATGTACCGCCATCGGCCTGTTCAAAACGCCCCTGACGA +ATGGTATTCGCGCCAGTAAACGCGCCTTTCTCGTGGCCAAACAGTTCTGATTCGATCAAATCTTTTGGGA +TAGCTGCCATATTCAGCGCGATAAACGGCGCTTTGGCGCGCGGACTGTGGCGATGCAGGGCATGAGCGAC +CAGTTCTTTACCGGTGCCGGATTCGCCGTTAATCAGCACGCTAATAGAAGAACGCGAAAGCCGACCGATA +ATACGGAACACGTCCTGCATGGCTGGCGCTTCGCCGATGATATCGGTCGTTGGGCCGTTAAGCTGAACAT +TACGCGGCTGCTGCTGTTCCTGGTAATGACTGATAGCGCGCTCAACCAGCGCCACTGCTTCGTCGATATC +AAACGGTTTGGGCAGATAATCAAACGCCCCTTGTTGATAGGCGCTGACGGCAGCATCCAGATCGGAATGT +GCGGTCATAATGATGACCGGAAGCATTGGATGGCGCTGTTTAATCTGCTTGAGCAGCGCCAGCCCGTCCA +TTCCCGGCATACGGATATCTGAAAGCAGCACATCCGGCGTTTTGCTCGCCAGCGCCTCCAGCACTTCTGC +GCCGTTCTCAAACGTCGTACAGGTTAAACCTGCCCCAGCGAGCGCACGTTCAAGCACCCAACGGATGGAA +CTATCGTCATCGACTACCCAGACTATCCCTCGTTGCATAAACGTCACCTTTATTTCCTGATAGGCAGGTA +AACCGAGAACTCGGTATGCCCTGGCCAACTGGTAAATTCAATTTTGCCTGAATGCTGATCAATCAAATTA +CGAGCGATGGATAAGCCAAGCCCGGTGCCACCTTCGCGGCCGCTGACCATCGGGTAAAACAGCGTATCCT +GCAAATGAGGCGGAATGCCCGGCCCGTTATCTTCCACATCAATCCGCGCCGCCAGCCGGTAGCGCTCGCC +GTGTAAGGTCAGTTGAAACGCGGTGCGGGTACGCAGAATGATTTCACCGCCTTCCGGCCCCAGCGCCTGT +AGCGCATTGCGCACAATATTCAGCAAGACCTGTTCAATTTGATCCGGGTCGTGCGCCAGTTCCGGTAGGC +TGGGATCGTAATCACGAATCAACCGCACGTTGTCCGGCAGTTCCATCGACACCAGCGTTACCACGCGTTC +AGCCACTTTGTGAATACTTTCGGTAACGCGCGTACCGGGCAGCTGCGGCCCCAACAGACGGTCGACCAGA +TTTCGCAGCCGGTCCGCCTGTTCGATAATCACTTTGGTATATTCGAGTAGTGATGGGTCAGGTAACGCTT +TGCTGAGCAGCTGCGCCGCGCCACGTAAACCGCCAAGCGGATTTTTAATCTCATGTGCCAGGCCGCGCAC +TAAATCACGGGCAGCAACCTGCTGGGCGTGCTGTAGCTGTTCCTGACTTAAGCGGCGCTGGTTATCCATC +GGAGCCATCTCCAGCAGGATCATGCCGTCCGGCATACGCTGGGCCGTCACAGAAAGGATATGCGAGCGCC +CGTCGATGACCAGCGTCACTTCGTTATCGGTAAAACCTTGCCCCGCCTCCAGACTTTCTTGCATCAGCTC +GATATTTAATGAGAAGTAGCTCAACAGTTCCGGTAACGGTGTACCAAACAATTTGCGGGAGCTTTGGGCG +AGCAGTTGTTGCGCGGCAGGGTTGGCGTAATGGATCGCCAGGTTGTCATCGATTAACAAAATACTGTTAA +TCAGCGAGTTGAGGATCTGCCCAGCATCGGGCTGCGTGCCTGTTGCCATAAAGCAGTCTCCTGAACAGGT +TGCACCATTTTAGTGCATTATAGCTTTTTACGGATAAAAAGCGCGAAGCATCAGAGAATTGACGGAGAAA +AAAGCCCATGCAGAGATGGGCTACAGATAGCTGACAAACTTCACGTTGGAGAGCGACTCACCTGCTCCGG +CCTACCACATCATCACCGTGTAGGCCGGATAAGACGCATTTGCGTCGCATCCGGCGTGATGTGCTTGCCA +CCGATCCCAGGCCTGCCAGAGACAGGCGAAAAGTTTCCACGGCAACTAAAACACTTAGACGCTGTAGTAC +AGCTCAAACTCTACCGGATGCGGAGTCATACGCACGCGGTCATCTTCTTCGCGACGCAGAGCGATGTACG +CATCAATTGCTTCGTCAGTGAACACGCCACCGGCTTTCAGGAACTCGCGGTCCAGATCCAGTTCGTTCAG +TGCTTCTTCCAGAGAGCCTGCAACCTGTGGGATCTCTTTCGCTTCTTCTGGCGGCAGGTCATACAGGTTT +TTGTCCATGGCTTCGCCCGGATGGATCTTGTTCTTGATACCATCAAGACCGGCCATCAGCAGGGCAGCAA +AGCACAGGTACGGGTTAGCTGCCGGATCCGGGAAACGTACTTCGATACGACGTGCTTTCGGAGAAGAAAC +CACCGGAATACGGATAGACGCAGAACGGTTACGCGCAGAGTAAGCCAGCATTACCGGTGCTTCATAGCCC +GGGACCAGACGCTTATAAGAGTTGGTGGTCGGGTTTGCCAGGGCGTTAATCGCTTTAGCGTGTTTGATTA +CGCCGCCAATGTAGTACAGCGCCTGCTCAGACAGACCTGCGTATTTGTCGCCTGCGAACAGGTTAACGCC +GTTTTTAGACAGAGACATGTGGCAGTGCATACCGGAGCCGTTATCACCGAACATCGGTTTTGGCATAAAG +GTCGCGGTTTTACCGAAGCGGTGCGCTACGTTGTGCACAACATATTTGTAGATCTGAATTTCGTCAGCTT +TTTTGGTCATGGTATTGAAGCGGGTAGCCACTTCGTTCTGACCAGCAGTCGCTACTTCGTGGTGATGGGC +TTCAACCACCAGACCCATCTGTTCCATCACCAGACACATTTCAGAACGAATATCCTGAGCCGAGTCTACC +GGTGGAACCGGGAAGTAACCGCCTTTCACTGCCGGACGGTGACCTTTGTTACCACCTTCGTATTGGGTGG +AGGAGTTCCATGCGCCTTCGATATCGTCGATAGCAACGTGGGAACCGGAGATAGATGATCCGAAACGGAT +GTCATCGAACAGGAAGAATTCAGGTTCTGGCCCGAACAGTACGGTGTCGGCAATGCCAGTGGAACGCAGG +TAATCTTCGGCGCGCTTCGCAATGGAGCGCGGGTCACGGTCATAGCCTTGCAGGGTGCCAGGTTCAAGGA +TGTCGCAACGGATAATCAGGGTGGAGTCGGCGAAGAACGGGTCAATCACTGCGGTGGATGCGTCTGGCAT +CAGCACCATGTCGGACTCGTTAATGCCTTTCCAGCCGCCAATCGAGGAGCCGTCAAACATTTTGCCTTCT +TCGAAGAATTCAGCATTCACCTGATGAGCAGGGATAGTGACGTGCTGTTCTTTACCTTTAGTATCGGTGA +AGCGCAAATCAACAAACTTCACTTCGTGCTCGTTCAGCATCGTCAGTACGTGTTCAGCGGACATACTTTA +ACTCTCCTGGATTGGTCATGGTCGTCGTGGTAACGAAATCTGCAATTATTTTGGCCGTGTCGCCGTAAAA +AAGATAAAGCGAAATCTGTGCCAACTTTTAAATTGCCCCTAAAAGGCGTTATCATGCGCACCATCGTGCA +AAAGGGCTGCACCACGATGTGAATGTTGCACCAATATAGTGCTTCAATGGAAACATTAAGCACCATGTTG +GTGCAATGACCTTTGGATAACCCTTTTTATGCTCCGTGAAAGCGATCACAAAGGGACTCTGCAATACTTG +TTTGCGGAGGATGTTTGTGATCCTGTTTTGTAGTGCGATTAATCCGTGTACAATAACGCGCTATTTCTAA +TGCCTGAGGCAAAGTTGTGATCGAAAAATTGCGTAATATCGCCATCATCGCGCACGTAGACCATGGTAAA +ACCACCCTGGTAGACAAGCTGCTCCAACAATCCGGTACGTTCGACTCTCGTGCCGAAACCCAAGAGCGCG +TGATGGACTCCAACGATTTGGAGAAAGAGCGTGGGATTACCATCCTCGCGAAAAACACCGCTATCAAATG +GAATGATTACCGTATCAACATCGTTGATACCCCGGGGCACGCCGACTTCGGTGGTGAAGTTGAACGTGTA +ATGTCCATGGTAGACTCAGTGCTGCTGGTGGTTGACGCATTTGACGGCCCGATGCCGCAAACGCGCTTCG +TAACCAAAAAAGCGTTTGCTTACGGCCTGAAGCCGATTGTTGTTATCAACAAAGTTGACCGCCCTGGCGC +GCGTCCTGATTGGGTTGTGGATCAGGTATTCGATCTGTTCGTTAACCTCGACGCGACCGACGAGCAGCTG +GACTTCCCGATCGTTTACGCTTCTGCGCTGAACGGTATCGCGGGTCTGGACCACGAAGATATGGCGGAAG +ACATGACCCCGCTGTACCAGGCGATTGTTGACCACGTTCCTGCGCCGGACGTTGACCTTGACGGTCCGTT +CCAGATGCAGATTTCTCAGCTCGATTACAACAGCTATGTTGGCGTTATCGGCATTGGCCGCATCAAGCGC +GGTAAAGTGAAGCCGAACCAGCAGGTCACTATCATCGATAGCGAAGGCAAAACCCGCAACGCGAAAGTCG +GTAAAGTGCTGGGCCACCTCGGTCTGGAACGTATCGAAACCGATCTGGCGGAAGCTGGCGATATCGTTGC +GATCACGGGCCTTGGCGAACTGAACATTTCTGACACCGTTTGCGACACGCAAAACGTTGAAGCGCTGCCG +GCACTCTCCGTTGATGAGCCGACCGTTTCTATGTTCTTCTGCGTTAACACCTCGCCGTTCTGCGGTAAAG +AAGGTAAGTTCGTAACGTCTCGTCAGATCCTGGATCGTCTGAACAAAGAACTGGTACACAACGTTGCGCT +GCGCGTAGAAGAAACCGAAGACGCCGATGCGTTCCGCGTTTCTGGTCGTGGCGAACTGCACCTGTCTGTT +CTGATCGAAAACATGCGTCGTGAAGGTTTCGAACTGGCGGTATCCCGTCCGAAAGTTATCTTCCGTGAAA +TCGACGGTCGTAAACAAGAGCCGTATGAAAACGTGACTCTGGACGTTGAAGAACAGCATCAGGGTTCTGT +AATGCAGGCGCTGGGCGAACGTAAAGGCGACCTGAAAAACATGAATCCAGACGGTAAAGGCCGCGTACGT +CTCGACTACGTGATCCCAAGCCGTGGTCTGATTGGCTTCCGTTCTGAGTTCATGACCATGACTTCCGGTA +CTGGTCTGCTGTACTCCACCTTCAGCCACTACGACGACGTACGTCCGGGTGAAGTGGGTCAGCGTCAGAA +CGGCGTACTGATCTCTAACGGTCAGGGTAAAGCGGTCGCGTTCGCGCTGTTCGGTCTGCAGGATCGCGGT +AAGCTGTTCCTCGGTCACGGTGCAGAAGTTTACGAAGGTCAGATTATCGGTATTCATAGCCGCTCTAACG +ACCTGACTGTAAACTGCCTGACCGGTAAGAAACTGACCAACATGCGTGCTTCCGGTACTGACGAAGCCGT +TGTTCTGGTTCCGCCTATCCGCATGACTCTGGAACAAGCTCTGGAGTTCATCGATGATGACGAACTGGTA +GAAGTGACTCCGACCTCTATCCGTATTCGTAAACGTCACCTGACGGAAAACGATCGTCGCCGCGCCAACC +GCGCACCGAAAGACGATTAATTTCGTTTTTTAGTCATAAAAAACCTGCCAGCGATGGCAGGTTTTTTTTT +GCCTGTCGTGAGCGCACACCAATGCGAGTATCTCCCTTATAAGTCTGTGGTTACGTCAATAGAGAGCTTT +GTCACAATTATCTGCAAAGTCATACGCCGTTAATTGCTTTCTTTTTTGGCGTAAGCGTAAGATGCTTCAT +CTGGTTTAAACCAAAAGGATTAAACAATGGCGGAGAATCAATCCACCGTAGAAAATGCAAAAGAGAAACT +GGATCGGTGGTTGAAAGATGGCATCACCACGCCGGGTGGAAAACTCCCTTCAGAAAGAGAGCTGGGAGAA +CTGCTGGGCATTAAACGTATGACGCTGCGCCAGGCGTTGTTGAACCTCGAGGCAGAATCCAAAATCTTCC +GTAAGGATCGTAAGGGGTGGTTCGTGACCCAGCCGCGATTTAATTACAGTCCGGAGCTGTCGGCGAGCTT +TCAGCGGGCCGCAATTGAGCAAGGGCGAGAGCCTTCCTGGGGGTTTACCGAGAAAAACCGTACCAGCGAT +ATTCCCGAGACGCTCGCGCCACTGATTGCAGTGACGCCATCAACTGAACTCTATCGCATCACCGGCTGGG +GGGCGCTGGAAGGACATAAAGTTTTCTATCACGAAACATATATTAATCCTGAAGTTGCTCCGGGCTTTAT +TGAACAACTTGAAAACCACTCATTTTCTGCAGTCTGGGAAAAGTGCTACCAAAAAGAGACGGTAGTAAAA +AAATTGATTTTCAAACCCGTCAGAATGCCGGGCGATATCAGCAAGTATCTTGGCGGTTCTGCGGGTATGC +CAGCGATCTTAATTGAAAAGCATCGCGCCGACCAGCAAGGCAATATTGTCCAAATAGATATTGAATATTG +GCGATTTGAGGCCGTAGACCTCATCATTAATCTGTAGGTGTTTTATGGTGACAATAAATAACGCAAGAAA +GATTCTACAACGTGTCGACACTCTTCCTCTTTATTTACATGCTTATGCCTTTCATTTAAATATGCGGCTG +GAAAGAGTGTTGCCTGCTGATTTACTTGATATCGCAAGTGAAAATAATCTACGTGGCGTCAAAATCCATG +TTCTCGATGGCGAGCGTTTTTCTCTTGGTAATATGGACGATAAAGAACTCTCTGCCTTTGGGGATAAAGC +CCGCCGTCTGAACCTTGATATTCATATTGAAACCAGCGCCTCAGATAAGGCATCTATTGACGAAGCCGTC +GCCATCGCGTTGAAAACTGGGGCATCGTCCGTACGTTTTTATCCACGTTATGAAGGTAATTTGCGCGACG +TATTATCGATTATCGCTAACGACATTGCCTATGTACGGGAAACGTATCAGGACAGCGGCCTGACTTTTAC +GATCGAGCAGCATGAAGATTTAAAAAGTCATGAGCTGGTGTCGCTGGTCAAAGAAAGTGAGATGGAATCT +CTTTCCTTACTGTTTGATTTTGCGAACATGATCAATGCAAATGAGCATCCCATCGACGCTTTAAAAACGA +TGGCACCGCATATTACCCAGGTCCATATCAAAGATGCCTTGATCGTTAAAGAACCGGGTGGCCTGGGTCA +TAAAGCCTGTATTTCAGGTCAGGGTGATATGCCGTTCAAAGCGTTATTAACGCACCTTATCTGCCTGGGT +GATGATGAGCCGCAGGTGACGGCATATGGCCTGGAAGAAGAGGTTGATTACTATGCGCCGGCGTTCCGCT +TTGAAGACGAAGATGATAATCCGTGGATCCCTTATCGCCAGATGAGTGAAACACCATTGCCAGAAAATCA +TTTACTGGATGCGCGGTTACGTAAAGAAAAAGAAGATGCAATTAATCAGATAAATCATGTGCGTAACGTA +CTACAACAAATCAAACAAGAGGCAAACCATCTTCTGAACCACTAATAAGTTTTAACTCATACGCAGTTAA +TAAAACCATTCCATATGAATGGTCGGTATCTTATTGCCTTTAAAACAGTGATTTTAAAAATCGCTTAGGG +GATGTTATGCTCACGAAAAAGAAATGGGCGTTATTTAGTCTATTAACACTGTGTGGCGGTACAATTTATA +AATTACCGTCGCTGAAAGATGCGTTTTATATCCCGATGCAGGAATATTTCCATTTGACCAATGGTCAAAT +TGGTAATGCTATGTCGGTAAACTCATTTGTCACCACAGTGGGCTTTTTTCTGTCTATTTATTTTGCCGAT +AAACTACCGCGCAGATACACCATGTCATTCTCACTCATTGCGACAGGATTACTGGGTGTTTATTTGACGA +CAATGCCGGGGTATTGGGGCATCCTCTTTGTCTGGGCGCTATTTGGCGTTACTTGCGACATGATGAACTG +GCCGGTCTTGCTCAAGTCGGTAAGTCGATTGGGCAATAGCGAACAACAAGGTCGGTTGTTTGGCTTCTTC +GAAACAGGGCGTGGCATTGTCGATACCGTGGTGGCATTTTCTGCGTTGGCAGTATTTACCTGGTTTGGCA +GTGGCTTATTAGGTTTTAAAGCAGGCATCTGGTTCTATTCCCTTATTGTGATTGCCGTAGGCATTATTAT +TTTCTTTGTCCTGAATGACAAAGAAGAGGCACCGTCCGTTGAGGTGAAAAAAGAAGACGGAGCATCGAAA +AACACCAGTATGACCTCGGTGCTGAAAGACAAAACTATCTGGCTTATCGCTTTTAACGTCTTCTTCGTTT +ACGCGGTTTACTGTGGCCTGACATTCTTCATTCCATTCCTGAAAAACATCTATCTATTGCCCGTTGCGCT +GGTGGGGGCTTACGGCATCATTAACCAATACTGTCTGAAAATGATTGGTGGACCGATTGGTGGCATGATT +TCAGATAAGATCCTGAAATCGCCAAGTAAATATCTATGCTACACCTTTATCATTAGTACCGCTGCGCTCG +TACTGTTGATTATGCTGCCGCACGAAAGTATGCCGGTCTATTTAGGGATGGCATGTACGCTGGGCTTTGG +CGCGATAGTCTTTACACAGCGAGCCGTATTTTTTGCACCTATCGGCGAAGCAAAAATTGCTGAAAATAAA +ACAGGTGCGGCGATGGCGTTGGGTAGCTTTATTGGTTACGCTCCGGCGATGTTCTGCTTCAGTCTGTATG +GCTACATTCTGGATTTAAATCCGGGGATTATTGGCTACAAAATCGTGTTTGGCATTATGGCCTGCTTCGC +ATTCAGTGGTGCGGTGGTTTCCGTAATGCTGGTTAAGCGTATTAGCCAACGTAAGAAAGAGATGCTGGCG +GCTGAAGCTTAATTAATGGCCGGATGTGCTTAATCCGGCCAACGAAAACCGTATCAACCGTAGGCCGGAT +AAGGCGTTTACGCCGCATCCGGCAGTTTCACATCAGAAGAAATACTTCGTCCCGATACGGATCTGGTTTT +GCTCGCGGTGGTACGGTTCGACGTTGCGGTCTAACCAGCGCAATTCGAAATAAGGGAGCCAGTGTTCATT +AATACGGTAACGGAAGGTGTTAGTGATTTCCCAATGATGATCTTTCCCGTTGCTACTATTAAAGTCATTC +ACTCGCATGAAGTAATGTGGCTCAAATGTATAGGAAAATTTATCGGTGATTTTAAAATTCCAGTAGGTGC +CAATTTCATAGGTGTCATTATTATCCAGTTCCCCGCTCAAATCTGTTGAACTATAGTTATTATGGTTATA +GCGATTTCGTACTGTCAGATTAAACCATGGTACAAATTTATAGTTGACGTCCAGATACACTGCACCACCC +GAACCGATACTCTTATCATTAATTAAGCCACCGGGCTGGATGGTTAATTTATCGGTTGGTTTAAATAACG +GATACCAGCCTTCAATTTCGTTATATCCATGTTTTAGTTCATCTTCTCGCTGAAAGTTGTAGGTATTGGT +TAACATAATACCCGCGCCCATATCGAAGTTATAACCCACACGTAGCATAACCTCGCCCTGATCGGAGGCA +AGATTATATGCCTCCCTGTTTTCGACGTATGCGCCAGCAAATACCGAGGCAGAGGTCAGAGAAGATAATA +AAATTATTGCATTAATCTTTTTCATAATAAGTCCATTTTTTAAACGTAGGGAGGCCGCCACCCACCAGGA +TGGAAATAGCGGCTATTGACATTTATAACGTTACGGAAGCCGTTTTTTCTTCTGTCGCCATCTCTTTATT +TTTGCGTTGGTTGATTTCCTCAATAATCAATGCAAACCGTTTTTCATTGAGTGTGTAAAAGAATCCCATC +GTCAATGCAGCAATAATTGCCAGTGCACAAGGCCAGATAAAAATGAGCTGACGCAAACCCTGTAATGTCG +CATCGCTTTGCGCGATGTTGGGAACATAACCAATTTGCGTCAGCATAATGCCTGGCAAGAAGCCAGCAAG +TGCGGCAGAAATTTTACGAAAGAAGGTATAACCGGTATAAACAGAACCTTCGGCACGAATACCGGTTTTC +CATTCACCGTAATCTACGGTATCTGGTACCAGTGCCCAGTTCAGGCTGTTTACAAAGGCCGTGCCAAAAA +AGGCGACACAAGAGAACATGACGAAAGTGAAAGAGTTACTTCCCCAGAAATAATTCAGTATATCACCCAC +CGCCCACAGCACCATGCCAGCCAGATAAACCTGTTTTTTACCAAAACATTTTACAGTTAATGGCACCAGT +AATACGCCGATGAGGATGCATCCCATACTGAAGAATCCCATCCACGACAATAAATTAATATCATTCAGCA +CATACTGGGTGTAATAGACCTGAATCGCCAGTTTGATATTAAATGCCGCCAGGGTACACAAGTTAGCAAT +GCATAAAACCAGCAATGGCGGATTCCGAAATATCGCGCAAAATGATTTGAGAATACTGGCTTTATGTCCG +GTTGGCGTTGTGTCCACATAATGCTCTTTGACGCCTCTGTAGCACAGCATCATAAAAATAAAGCCGCCAA +TGGAGAACATAAGTGCCGCACAGGCATAACCGACGGTTGAGTCAGAAAAAAGCGACTGCAACGGAATAAA +CGCCACGGTACAAATCAATAGCCCTATGGTTGCACCACCCTGGCGGTAAGCCGCGAGCTGCGCGCGCTCA +TTCGGGTTTTTGGTAATTGCCGGGATCATCGCACCATACGAGCAGTTCATCAGACTGTATGAAAGTCCAA +ACATCATAAACAGCGCGGTGGCAATCGTCGTTTTAACCGGCAAACAAAAGGTGGTGGCGATAAACTGGAG +CGTTGCAATTAACGCCGCCGGAACCGCTGCATATAAAATAAAGGGACGAAATTTGCCTTTAGGCCCAATA +TTTTTCCGCGAGTCGAGTAAAAATCCGGTGAGCATATCGGTAAACGCGGTAAAAAACTTCGCCACCAGAA +AGATAATCCCGCCATAGTAAGCAGGCATCCCTAATTCATCGGTATAAAATTTGAGGAGATACAGAGTACC +GATGCAGAGCATTAAATTCGAACCGACGTCGCCCATACCATAGGCGATTTTTTCCCGCAGATTCAGTTTT +AATGTCAGTGGATTATGGTCAGACATAATCACTCCTTATAACGCCCCGCAGGGCGTCGTTTATTATTATT +ACGCCGTGCGTTTACGGGCTTCTATCTCTTCCACAATGCGGACATACATCTTCTCGTTCAGGCTGTAGAA +GCAACCCATCGCCACAATGGTGACTACCGCCAGTGCGCTTGGGTAGATGAAGATCAACTGGCGTAACCCT +TCAATGGTGTGGTCAGCCTGTGCGACGTTCGGCACATAGCCAATTTGCGTCAGCATCCAGCCGGGGAAGA +AACCAGCCAGCGCCTGAGACACTTTGCGAAAGAAGGTAAAACCGGTGTAGACCGTTCCTTCCGAACGCAC +GCCGGTGCGCCACTCGCCGTACTCGACGGTGTCGGAAACCAGCGCCCAGTTCAGGCTGTTAACAAACGCT +GAGCCAAAGAACGCCAGGCAGGAGAACGCCACGAAGCTGACCGAACCGCCGCCGAAGAAATAGTTGAGCA +GATCGCCCAGCACCCAAATCAGCAGGCCGCCGATATAAACTTTCTTCTTGCCAAAACGTCTGACTGAGGC +AGGCATCAGGAATACGCCGATGAAAATACAGCCCATGCTGAAAAATCCCATATACGACAACAGGATGGGA +TCGTTAAGCACGTACTGGGTGTAATAGACCTGGATGGCGAGCTTGACGTTAAACGCCCCTAAAGTGCAGA +GGTTGGCAATGCACAGAATGAACAGCGGGCGGTTACCCGCAATTGCGCGGAAAGATTGCAGCAGGCCCGG +CTTTTGCGCCGGATTAGCAGGCTGGGTTTCGACATAACGCTCTTTCACGCCCGAGTAGCAGATCCACATA +AACAGCAGGCCAAACAGTGAAAACAGCGTGGCGGCGAAGATATAGCCAAGTTGCTGATTACCTTCGATAA +GATTCATAACTGGCACGAATCCCACCGTGCACAGCAGCAGGCCCAGCGTAGCGCCGCCCTGACGCCATGC +CGCCAGTGAGGCGCGTTCGTTGGGGTTTTTGGTGATAGCGGGAACCATTGCGCCGTAGGAGCAGTTCATC +ATGCTGAAAAACAGTCCGTAAAGCATAAACAGAATAGTGGCCATCACCGTTTTACCGGTGACATCAAACG +GTGTGCCGACAAAGTTGGCGATCGCCAGTAAGGTGACCGGGAATGACGCATACAGAATAAAAGGACGGAA +CTTACCTTTTGGACCGATCTTGCGTCGGGAATCCAACATAATGCCGGTACCCATATCGGTAAACGCAGTA +AAGAATTTTGAAATCAAAAAGATAATGCCGCCATAGGTGCCTGGCAGCCCCAGAACGTCGGTATAAAACT +TCAAAAGATAAAGCGTACCGATATCCAGCAGGATGTTAGAGGCCAGGTCGCCAATACCGTAAGAGAGTTT +CTCTTTAAAGGGCAGGCGTAAAGTTGCTGGATCTTCCGTTGTGATGTGACTCATCGATGTTCTCCCTTTG +CCCATGAGTTTCCCCACGGGCGGATGTGATTAGATGCTTTTTAACGACGCGAACAGTGCCGCCCATTCGC +TATCGGCGCGATAAAAGACCGGCGGCTTGCCGATGGGCGCATTAACGGTAACTTCCCCGCCCCGGAACGC +TTCACCCGTCCAGGCGTGGACCCAGTTATCCTCCGGCAGATAGAGCGTCCAGTCGCTACGGCCTTCTTCA +TGCACCGGAGCGACCAGAATGTCGCGACCTAACAGGTACTGATATTTCAGGGTGTAAGTGTGCGCATCGT +CTTCGTAATGCAGGAACAGCGGGCGCATAACCGGCAGGCCGGACTTCGCATTCAGCGCGACGGCCTCTTT +CAGGTAAGGTTTCAGGGTGGTGAAGACGGTGGTCATACGGGCGAAATGGGCGATGGTTTCTGCGTCGCCG +TCAAACTGCCAGTTGTCGCCAGGACGGTTACCTTCGTGGGTGCGCATCATCGGCGTGAAGGCGCTGAAAT +CGCACCAGCGCAGCAGCAGCTCTTTGCTGCGCTTCATCTCAAACAGGGTGGTGTAACCGCCAATGTCGCT +GTGGTGCAGGCCATGTCCGGTCATTGCCAGCGACAGCGCCGCCGGGACAACCGACGCCAGGCCATCGTCG +AGACTCCAGTCGACGTTCTGGTCGCCCGCCCACATCATGGTGGAGTATTTCTGGCTACCGGTAGAACCGG +CGCGCATAAAGAAAAGGATCTCGCCGAGCTTGCCCGTTTCTTCAAGGGCTTCGTAGTTACACTTCGCCCA +CAGCGCAGGCCAGGCGTTATGCATAATTTCGGCACTGACGCCGTTATGCAAGTACGTGTCGGTGGGCAGA +TACTCGCCGAAGTCAGCCATCCAGCCGCCGCAGCCGAGTTCAATCATGTTCTTTTTGATCACTTCCTTGA +ACCAGGCGTAGGCTTCTGGATTAGTGAGATCGACAACGCCGCCGTAAAACTCGCCAAACTCCACCAGATA +GTCACCGCCAGAGGCATCTTTTGCCAGATAGCCGTGTTGTGCCGCTTCTTCGCAGAGATCTTTATCGCTG +GCAACATACGGGTTGATATAGGCCAGGAACTGCACGCCCTCCTGATTCCACTGCTTAATGCGTGAATCCA +GTTGCGGGTAGTTTTCGCTGTTCCACTTCCAGTTCCACATCACGCGTTTGCCAAAAGAGGTCATACGAAT +ACCGGACCAGTCCTGCGCCCAGATGCCGTTGACCTTCACGCCCGCGTTACGCATGGTGTCCAGTTTCTTC +TGGCACACTTCCGTCCCGCCCTGAATGCCGAGCGTTACTCCGTCATAAATCCAGTCGGGCAGTTCTGGCT +GGCGTCCCAGCAGGGCGGTTAATTTTTCCAGCAGGGAAATGTATGTGTCAGCACATTCAAAACGCAGCGT +TGCTTTGTCTTCCCACAGCGCCAGTTCATGGTATTCCGGGGCACTAAAGTCGAAGTTCATATAGCAACTG +TTATCAACATGGCAGTAATACTTCTGCGTGCTGACAAACGTAGGCTGTGGGAAGAAAGTCCAGTAATAGT +CGCCGCCCGCATTTTCTTTGCAGTCGGCCTGCCAGGTGACATAGGTTTGTTTGTTGCGACCAACGCCTTG +TTCACTGGTCCATAGCGGGAACGGTTTGCCACGCAGATCGAAGTAGGAAAACTGTTCGCCGCAGCCGTAG +ATATGGTCCTCTGGTTGAGCGGCAAGGCGCAGCCAGATACGGTTGTGGTTAAGGTTGTCGTTTTGTAGTT +CCAGCAATAAACGCCCCTGATCGTCGGCAGAGATATTCAGCGTGGCGCTAATGTCAGAACCACGGCTGAA +ATGAATTAACCAACCATCCGGTGACTGGCTGACGATGGCGTCGGTAAGCGCAATTTTCTCCTGTAGTTTA +TCTTTAATGCTGAAATTACCGCGGAACATATCGATATCCGCTATACCTGAGCCAATCCATAAACAAGGAT +TATCTTTGCTATGGGTTAAAATAAGACGTTGTTGAAAATGTAGGGTAAAACTGTCGTTATTCTGATGAAA +TTGAAAATCTAATAACTGTGGACGTGGCGTATCCATAACTAATCTCCATAGAGTTGAGAACGAGATTGTT +GCCTTCCTGTTATTACAGGCTTATGTAAAATGATTCTCATAAAACTGATATATAAAAACTTTACAGAAGC +TGAGCTGTTTTTAACTTAATAAATTGAAGATACATAATGTTGCCTTTAGCGAGTGAAATGTTCTTCAATG +ATTTTGACTGCTAATCAATACAAGTTATTTTCTCTGTCCGTAAATATTAAAAAACAGGCGGTGCGGTTTT +CCTGATTCCAGTAATAATAAGTCGATACCTGAATTAAAGGCGTTAGGCGGGCAACTCATAGGTTCAACTG +CCAGTCCCTGACGCTGTAATTTTTCACCGCTATAAACCTGCACCCAGAGTTGATCGGAACAAAGGCTTAC +CGAAAGCGCCTGCTGTGGATGGGTAATGGTCATTTCCCACAAATCATTAGCGGTTTTAAAGGTGTGGTCG +ATTTTTGTCGCGGCTATTTTTTTCGCCTGCGTGAAATTTAAATCCAGCTCATCAACGTGGTGAAGCGTTG +TCGGATTCGCGTGCTCATCGACGGCATAAACCTGGTTTGCCGGAAGCTGGAACAGATATTCATCAACAGA +TGTTAAGTTGCAGGTTAAATAAGGATGAATACCCACGCCATAAGGCGCTGCGACAGTGCCGATATTCTGG +CTTGCGATCTCAACGGAAAGACCCGTGTGTGCGTTGAGCGAATAAACAACTTGTGAAGCCAGCATAAACG +GATAGCCGTAACTGGGCGGCAGAAAAGCTGTCAGGGTAACGCTGGTGGCGGTTAATTCACTAATTTGCCA +GTCTCGCCAGGCAAGCAGCCCGTGAATAGCGGCTTTTGAACTATGTTCATTAATGGGTAACTGATATTCC +TGCCCCTGATAGCGGTAACAGCCGTTGGCGATCCGGTTCGGCCACGGAATAAGCACTTTACCCAGATGCG +CCAGCGGCATCTCTTCGGGTTTGTGCGGGATGACTAAATGACAACCCTGAAAGGTTAATTCAGCCAGACC +AGCACCGACGGTCACAATGGTCGCGTGATAATCCCCCGCGGCAAGTGAAACGGTCTGTCCACTGCAATGC +ATATTGGTGATTTGCATACAAGGCACCTTAATTAACGACATACAGCCTCCCGTGAGGCTGATGTCAAACC +CAAAAACTGCACCGGACGGTCCCCTCGCCCCTTTGGGGAGAGGGTTAGGGAGAGGGGAAAACCCGCACCC +TATTTTCAGATCAGTTATTTCGCATTAATATCCAGCAGACCCGCTGCAACCGCTGGAGCCATGCCGGGCG +CTAACGGGATACGCGGGATCACCAGGCAATGCAGCAGGTGATAAATATCCTGTTTGCCGTCCCAGACTTT +GGTGGTGACCTTATTGTCCGCATCCAGCTCCTGCCACCAGGAACCATTTTCATAGTCCATCAGGTACTTA +ATGCAGTACTCCCACCATGTTTGATACCAGGTTTCATACTGGCGATCGCCAGTGACGGTGTAGAGCGCGT +AGGCCGTACCCATTGCTTCGACGATAGGCCAACGTACACGTTCGCGGACCACCGGTTTTCCTTCCCAGTC +AACGGTATAAACAATCCCGTCCGCGCCATCGGGTGCCCAGGCATCGCGCACGGTGGCGTTAAACAGACCT +TTGGCATCTTCTAGCAGCCATGCTGGTGGTTGTTCGCAACGGGCTTCCAGGGCAGCATGGATGTGCAGCA +TTAAACGGCCCCATTCGATCCAGTGGCCTGGTGTACCTCCGAACGCGCGGAAGCGATGCGCCGGGTTATC +TTTGTTGTAATCCGGCAGCGGATTCCACTGGGTATCGAAGTGTTCGTTAACGCGATAATGATTATTTCTG +GCGACGTCGTGGATAATCACGGAAGCCACGCGAATCGCGCGATCCAGCCATTTTTTGTCGTGAGTGACGT +CATAAACAATCAAGAAAGCTTCCACCGCGTGCATATTGGCATTGCCGCCGCGGTACTCTTCGGTTTTGCT +GAAGGCTTCGTCCCAGGATTCCAGGCACATCTGCTCTTCTTCGCTCCAGAAATATTTCTCGATAATTTCA +ATGGTGTAATCGAGCAGCTTGCGCGCTTCCGGGTGACCCGTTGTGACGGCGCTGGCGGCACCCAGCAGAG +CAAAGAAGTGTTGATAGCCCTGTTTGGAGGCATCCACCACGCCCTCGTCATTCACGCAGGCATACCAGCC +GCCATATTTTTTATCACGCAGTGCGCCGTTCATGGCTTTGATACCGTGATCAACCAACGAGTAAGCGCCA +GGTCGACCCATCGCCGCAGCAACGGAATAAACGTGCAACATACGAGCGGTGATCCACAGATGGGTGCCCA +TCTCTTCTTTGATTTGCCCTTTATTGCCTAACCAGCCAAAACCAGTCGGCACTACGGAATTTTTACCAAA +ATCAAAGATGCGGTCGGTTTCCTGTTCCAGCCAACGGTTGTGGCTTAGGGTGTTAAACCATTTCATTCCT +TTTATCCTCATCTTAGCGGCGTTTAGCCATCATTTCGTCGACGATATCGCCAAGTTGTTGTAATTTCGGT +GCGCAAACGTCACGCAGCATCAGCTCGTTGTCTGGTAAACCGACGACCGATGCCCAGACTGCACGGCCTG +CCAGGAATCCCGATGCGCCCGCCGTCATTGCCACGCGTACGGCACGCGGGAACAGTTTTTCGTCGACACC +GGAAGAGAGGATCACCCATGGCATATTGATATGGTCATTCAGACGTTGTGAAGCACAGAGAAGCTCTTGT +TGCGGACCTTTGCCATAAAGCGGCATTTCAACTTTGTAGAGGTCAGCGCCACTGTCGCCCAGCTCTTTGG +CGGCATCGATGATCGCTTGTTCGCGATCGAATTTATCGCCACGACGCGGTGGGCGGACGACTGGCTCAAT +GATGCTTACCAGACCGTGTGAGTGGCACAGTTCGTTGAACTCTTTCACCATATCCAGACGTTGCTGCGCA +TCTTCATCACTACGCCACAGCACCAGCAGTTTTAAGGCTTTGCCACCGTCTTGTTTGATCTGTAGCGGAT +TGATTTTGCGGTCAATAACCACGCTATCGACCGGAATACCGTTGCCAGGAATGAACTCATCGGCGGCGAC +AATCATGGCGCAACTTTTGGCAATCGCGTTTTGCTCAACCACCTGGCGGTAGCAGAATTGTTGATCTACC +AGAATCGCCGAGGCATAAGGCGAGAGGGCCTTTGCAGCGTTAACTTTGAAATCAGTTAAAACGCTATCGG +CTACCGGAGCGGGTGCCCCAGCCGCGGCAAACATCATGCGCATGGCTTCGCGCTGATCGACCGCCAGCAT +GGCAAAACCGCCCGATGCGCGCGTAATGTCGTTGATGGTGTACTTATTCATTCATTTATTCCTTTATCCA +GTCGTTACATTTTTACTTTGGCAGTCATCCCGGCACTGACACGGACCTGTTCCAGAATGGCGGACCAGTC +CTGGCGACCGCGACCCGCTGCGCGCGCCTGGCTATAAACCTCCCGTGAGGCGGCCCCCAGCGGCATTGGC +ACATGCAGCTGGTTGGCGACATCAAGGGCGATGCCAAGATCCTTATGGGCAAGATCGATCATGAAGGCGG +GAGAAAGATCTCCGCTGAGGACTTTGTTTGGCCAGGAAGTGGTGAAGTGACCTTTACCGGCGGCGGTACC +GCTCATCACTTTGACGGCAACATCGAAGGGAAGATTCAGGGCTTCGCACAAAACGGCGGCTTCTGCCGAA +AGCGCATTGAGCGCGATGCTCATGTAGTTGTTGATGAGCTTAACGCGGATCCCCATGCCCGGACCGCCAG +CGTTGATCAACTCACTGCCCATCGCCATCAGGATCGGTGTGGCACGTTCAACTTGTTCAGCGGTGCCGCC +AGCCAGCAGTAACAGAGTACCGGTAATGGCATTTGCAGAAGTACGGCCTACCGGAACATCCATCATGCTG +AAGCCTTTGGCTTGCATATCGGCAATCAATTTATCGGTTTGCAGCGGATGGATGGTGGACATATCAATGA +CCAGCGCATCGGTAGATAAGCCTTCGCAAACGCCGTTTTCACCGAACAACACGTTGCGCACCAGATCGCC +ATTCGGCAACATGGTAATGATAAATTCGGCATCTTTAGCGGCCTGCGCCGGGTTGGCGGCGGGAGTCGCA +CCTTTGTCTACCAGATGCCGCACAGCTTCGGCGTTCACATCAAAGACGCGAAGTTGATGCCCTTGCTGCA +ATAAATTGCTCGCCATTGGCGAACCCATTTGTCCTAAACCGATAAACGCGATTGCTGCCATAACCCTCTC +CTGAATACAGTTATGTCACTTTTTGTCATTTATGACATGCTTTGCTTGTCTGTTTTTGATCGTATTTGTA +ATTTATCGTCAAAAAATTGACAGCCGTCACTTTTTAAACAATTGGTGAAATTAAAATGAACGCATCCCAA +AATGTTTAAGGAATGACCATGATTCGTGTTGCTTGTGTAGGTATAACCGTGATGGATCGCATCTATTACG +TGGAAGGGTTACCGACGGAGAGCGGTAAATACGTGGCGAGAAATTATACGGAAGTTGGTGGCGGGCCAGC +GGCGACGGCAGCGGTTGCGGCGGCAAGGCTGGGGGCGCAGGTCGATTTTATTGGTCGCGTAGGTGATGAC +GACACGGGCAACAGCCTGCTGGCAGAGCTGGAATCCTGGGGCGTTAACACCCGTTACACCAAACGGTATA +ACCAGGCGAAATCTTCGCAATCCGCCATCATGGTGGATACCAAAGGCGAGCGGATAATCATTAACTACCC +CAGCCCGGATCTGCTGCCTGACGCAGAGTGGTTGGAGGAAATTGATTTCTCTCAGTGGGATGTTGTGCTG +GCAGATGTACGCTGGCACGACGGCGCTAAAAAAGCCTTCACCCTGGCCCGTCAGGCGGGTGTGATGACCG +TTCTGGACGGGGACATTACGCCGCAGGATATCAGTGAGCTGGTGGCATTAAGCGATCACGCGGCCTTTTC +AGAACCGGGTCTGGCGCGCTTAACGGGCGTGAAAGAGATGGCCAGTGCGCTAAAACAGGCACAAACGCTC +ACAAATGGTCATGTCTATGTGACCCAGGGTAGCGCAGGCTGCGACTGGCTGGAAAATGGTGGGCGTCAGC +ATCAACCGGCCTTCAAAGTTGATGTGGTAGATACCACAGGTGCGGGTGATGTTTTTCACGGCGCTTTGGC +GGTGGCGCTGGCAACAAGTGGGGATTTAGCGGAGTCAGTCCGCTTCGCCAGCGGTGTAGCGGCGTTAAAA +TGCACACGTCCCGGTGGACGAGCCGGGATCCCTGACTGTGATCAAACCCGATCTTTTTTGTCACTTTTTG +TATAAAATGCCAGGGTGATGGTTTTTCGAGGAATTTTCATGAGCCTTACCGAACTAACCGGTAACCCGCG +GCACGACCAACTCCTCATGCTGATCGCCGAGCGTGGGTATATGAATATTGATGAGCTGGCAAATCTGCTG +GATGTCTCCACGCAGACGGTCCGCCGGGATATTCGTAAATTAAGCGAGCAAGGCCTGATTACGCGCCATC +ACGGTGGCGCGGGTCGGGCTTCCAGCGTCGTTAATACGGCGTTCGAGCAGCGTGAGGTTTCGCAAACCGA +GGAAAAAAAAGCGATTGCCGAAGCGGTGGCAGACTATATTCCTGATGGTTCAACAATATTTATCACCATT +GGTACGACTGTTGAGCATGTTGCCCGGGCGTTACTTAACCATAATCATTTGCGGATAATCACCAACAGCC +TGCGTGTGGCGCATATTCTTTACCACAACCCGCGCTTTGAAGTGATGGTGCCCGGCGGTACGTTGCGCTC +TCATAATAGCGGGATCATTGGCCCTTCAGCGGCGTCCTTTGTGGCTGATTTTCGTGCTGATTATCTGGTA +ACAAGCGTTGGGGCGATTGAGAGCGATGGCGCGTTGATGGAGTTTGATGTAAACGAAGCTAACGTGGTGA +AAACGATGATGGCGCACGCGAGAAATATTCTGCTGGTCGCCGATCACACTAAGTATCATGCTTCGGCGGC +GGTTGAAATTGGTAACGTGGCACAGGTCACTGCGCTCTTTACCGACGAGCTGCCGCCCGCTGCGCTAAAA +TCACGCTTACAAGACAGCCAAATTGAAATCATTCTTCCCCAGGAAGACGCGTAGATTTTTGTGACCGTTA +ACCTGGCTTCATACCTTGCCACATAGCCAAACCCATCCTTTCCCGCTACAGTTAATTTCTTGTGGCGCGA +AAGGAGGCAAAAATGCTCTATATCTTTGATTTAGGTAATGTGATTGTCGATATCGACTTTAACCGTGTGC +TGGGAGCCTGGAGCGATTTAACGCGTATTCCGCTGGCATCGCTTAAGAAGAGTTTTCATATGGGGGAGGC +GTTTCATCAGCATGAGCGTGGGGAAATTAGCGACGAAGCGTTCGCAGAGGCGCTGTGTCATGAGATGGCT +CTACCGCTAAGCTACGAGCAGTTCTCTCACGGCTGGCAGGCGGTGTTTGTTGCGCTGCGCCCGGAAGTGA +TCGCCATCATGCATAAACTGCGTGAGCAGGGGCATCGCGTGGTGGTGCTTTCCAATACCAACCGCCTGCA +TACCACCTTCTGGCCGGAAGAATACCCGGAAATTCGTGATGCTGCTGACCATATCTATCTGTCGCAAGAT +CTGGGGATGCGCAAACCTGAAGCACGAATTTACCAGCATGTTTTGCAGGCGGAAGGTTTTTCACCCAGCG +ATACGGTCTTTTTCGACGATAACGCCGATAATATAGAAGGAGCCAATCAGCTGGGCATTACCAGTATTCT +GGTGAAAGATAAAACCACCATCCCGGACTATTTCGCGAAGGTGTTATGCTAAAAACCATTCAGGACAAAG +CCAGGCACCGTACCCGTCCACTATGGGCCTGGCTAAAACTACTCTGGCAACGCATTGATGAGGACAACAT +GACAACCCTGGCAGGTAACCTTGCCTATGTGTCGTTGCTCTCATTAGTGCCGCTGGTTGCCGTTGTTTTT +GCGCTTTTCGCCGCTTTTCCCATGTTTTCCGACGTCAGCATTCAGTTACGTCACTTTATTTTTGCCAACT +TTCTGCCTGCTACTGGCGATGTTATTCAGCGGTATATCGAACAATTTGTTGCCAATTCCAACAAGATGAC +CGCCGTTGGGGCGTGCGGGCTGATCGTCACCGCGTTATTGTTGATGTACTCCATCGATAGCGCGTTGAAT +ACCATCTGGCGCAGTAAACGAGCGCGACCAAAAATTTACTCGTTCGCCGTGTACTGGATGATTTTAACGC +TGGGGCCGCTGCTGGCAGGGGCCAGTCTGGCGATCAGTTCCTATTTGCTCTCCCTGCGCTGGGCGAGCGA +TCTCAATACTGTCATCGACAACGTGCTGCGTATTTTTCCGTTGCTGTTGTCGTGGATCTCCTTCTGGTTG +CTGTACAGCATTGTTCCTACCATCCGCGTACCTAACCGCGACGCGATTGTCGGCGCGTTTGTCGCCGCAC +TCCTGTTCGAAGCAGGAAAGAAAGGTTTCGCGCTTTATATCACCATGTTCCCGTCATATCAGCTCATTTA +TGGTGTGCTGGCGGTGATCCCCATTCTCTTTGTTTGGGTCTACTGGACATGGTGTATCGTCTTGCTTGGC +GCGGAAATTACTGTCACTCTCGGGGAATACCGCAAACTAAAACAAGCAGCTGAACAAGAAGAAGACGACG +AACCATGATTGCATTAATTCAACGCGTAACCCGTGCCAGCGTCACCGTGGAGGGAGAAGTGACGGGCGAA +ATTGGCGCGGGACTTTTGGTGTTATTGGGTGTCGAAAAGGATGACGACGAACAGAAAGCAAACCGTCTGT +GCGAGCGTGTGCTCGGCTACCGCATCTTTAGCGATGCCGAAGGCAAGATGAATCTCAACGTGCAACAGGC +GGGCGGCAGTGTGCTGGTGGTTTCCCAGTTTACCCTCGCCGCAGATACCGAACGGGGGATGCGCCCAAGT +TTCTCCAAAGGTGCATCACCGGATCGCGCAGAGGCGTTATATGACTATTTCGTCGAACGCTGCCGTCAGC +AAGAGATGAACACGCAAACAGGACGCTTCGCTGCGGATATGCAGGTATCGCTGGTCAATGATGGCCCCGT +GACATTCTGGTTGCAGGTATGAGCCAGCTTCCAGGGTTGTCACGGGAAACAAGAGAGAGTATCGCTATGT +ATCACCTTCGGGTTCCACAAACAGAAGAAGAATTAGAGCGTTACTATCAGTTTCGCTGGGAAATGTTGCG +TAAGCCCCTGCATCAACCAAAAGGTTCGGAACGCGACGCGTGGGATGCGATGGCGCATCACCAGATGGTC +GTCGACGAGCAGGGTAATCTGGTGGCGGTAGGCCGACTGTATATTAATGCCGACAATGAAGCGTCCATTC +GCTTTATGGCCGTTCATCCCGACGTGCAGGACAAAGGGTTAGGCACGCTGATGGCGATGACCCTGGAGTC +GGTGGCGCGTCAGGAAGGCGTTAAGCGCGTGACCTGTAGCGCCCGTGAAGACGCGGTGGAGTTTTTCGCC +AAGCTGGGGTTTGTTAATCAGGGAGAAATCACCACGCCAACCACCACGCCGATTCGCCATTTTTTGATGA +TTAAGCCCGTCGCCACTCTGGATGACATTCTGCATCGCGGCGACTGGTGCGCGCAGCTGCAACAGGCGTG +GTACGAACATATCCCGCTTAGTGAAAAAATGGGCGTGCGCATTCAGCAATATACCGGGCAAAAATTTATC +ACTACCATGCCAGAAACCGGCAATCAGAATCCGCACCATACGCTGTTTGCCGGGAGTTTATTCTCACTGG +CGACGCTCACTGGTTGGGGACTTATCTGGCTGATGCTGCGTGAACGCCACCTCGGCGGAACGATTATTCT +TGCGGATGCGCATATCCGCTACAGCAAGCCGATTAGCGGTAAACCTCATGCGGTAGCCGACCTCGGTGCC +TTAAGCGGCGATCTCGACCGTCTGGCGCGCGGACGAAAAGCACGGGTGCAGATGCAGGTCGAAATCTTTG +GCGACGAGACGCCGGGTGCAGTGTTTGAAGGCACGTATATCGTTCTGCCCGCGAAGCCATTTGGCCCGTA +TGAAGAGGGCGGGAACGAAGAAGAGTAGCTGATGGAGAGGGGCGGTGCTGCCTCTCTCATTCAGGTCATT +TATATTAGTCCTTGGCTATTTCGGTTATATTAAATAAGAACTCTATAAATTTTTATTCTTCGTTGGCTCC +ATACGTGTCTTGCTACATCACTGTTCAGGAGCATTTAAATATTATTTGTAGAACTGAGTGGCAATTATCG +CAGATAATGCTTAATTCATCATCTTAGTTCATGTTTGAGCGATTTTTGATAGTCAAAACCCCCTCTGGTG +CCATACTTTTCTCATAAATATTTTTAAAATCTATAGCTAACAAATATTATGCAAAGATAATGGACTAGCA +TCATTGTCAGTATCATTCATTTACTGCTCTGTATGTTATGAATAATTATGTTGTATGTTTGCTCTTAAAC +CGTGGGAAGGAGGCTATAATGGTTGCCAATATTAATCTCATTAAACAAGAAAGTTATTCTGTTGTTAATT +TAGAAAAACAACTTTCCCGAACTGTTACCAACAAAATTATAACGATGAGCAAGTAAAGACCGGTTGGTGG +CAGTACTGACCGGTCTGTGATGAAAGATTAATTTCACCTTAAATCCTGGTGCTGTTAGGATGCTGACGTT +TTTCGGCTACACCATTCAGATTATGCAAATAAATATCTCTGAATATAATATATTCATAGCACCCATAATT +CATCCTGGGCGATAACTAAACCATTTTTGAGTAATAAATGAAACAACTGCAACACTCTTATTATTTCTGG +AAAACGCCTCGCAAAAACAAAACAACATGCAAAAATCCGCTTTTTTTAAATGATTTTCCGGCGTAATTTT +CGCACATACATTAATGAGTAATATATGTAAGGTATTGGTAATGGCGATGAATACGGTTTTTCTTCATTTA +TCAGAAGAGGCAATTAAACGGCTGAACAAGCTTCGGGGCTGGCGTAAGGTTTCACGATCTGCAATTTTAC +GCGAAGCGGTAGAGCAATATCTGGAACGTCAGCAATTCCCGGTGCGTAAAGCAAAGGGAGGCAGGCAAAA +GGGGGAGGTAGTTGGTGTTGATGATCAGTGTAAGGAGCATAAGGAATGACAAAAATTTTTCATTCTTGAA +TATAAAAAACAGATGCCCTTATTCTGGTATTAATACAAGGCTGTTTTACTTGAACTTATAATAACTGCAA +CTGTTACATCATATCTGGAAAACGCCTCGCAAAAATAAAAAATGATGCGTAAATGAGCTTTCTTTAAAGA +TTCGGCAAGGGTACTTTTCTCTCCATAGATTCAAAAATGATATTGGCGAGATATTTATGAACTCTCTGGC +AGGTATAGATATGGGCAGAATTTTACTCGATTTATCGAATGAGGTGATTAAGCAACTTGATGATCTCGAG +GTGCAGCGTAATCTTCCTCGTGCGGACCTATTAAGGGAAGCGGTAGATCAATACCTGATAAATCAATCGC +AAACAGCAAGAACCAGTGTTCCTGGCATCTGGCAAGGGTGTGAGGAAGATGGTGTCGAATATCAGCGTAA +GCTGCGCGAGGAATGGTAATGGGAAAAAATGATGTCAATCAGATTGCTGACAACGTGCGCGTTGTTCATG +CCGGATGCGGCGTGAACGCCTTATCCGGCCTACAAAGTCGTATAAATTCAATGTATTGCAGTTTATTGGT +AGGCCTGATAAGCGCAGCGCATCAGGCAATCTTACGCTTGTCATCAGTCTCATGCCCATAACCTTATTGA +TGTGGTGGTGGGTAAATTGAGGCCAAACCGGCACTGGCGGCATAGCTTGAGGTGGTAACGCGGAATACGA +GAGATGGTGTCGTCACACCCTATGAGCTGTAATCCGGGCGACCTGCGCCACCCGGAAAACGTCAGAGATT +ACTCTCCTTCACCCGGAAACAGGAACGGGTTGATGGAACTGCGGGCATAGCCTTCTTGCTCCATTCGTGC +GTCCAGTACCAGAGAGGCGAGGTCATCTGCTACGGCTTCGATTTTTGGATCTTTTTCCTGATAGAGAATT +TTCAGGTAAGTGTCGCAGTCATCGCAGCTTTCGGCTTTAATCGCGGCCTGTTCGTCATCCAGCGACCAGT +AATGCAGTTTGCCGCTCTGCTCGCAGTTGCTGCATTTTACGCGCACTACGTGCCATTCAGTTTCACACAG +GTTGCAGTGCAGGTAACGTAGCCCCTGAGTGGTGCCAATTTGCACCATGCTGGACACCGGCATAGAACCA +CAAACCGGGCAATATTGACGTTGCTCGCCGTATTCAGCGCGGGCTTTGCCGGGGATCAGATTGGCCATCT +GCGCCCAGTAGAGCGACAGTGCAGCCCAGATAAACGGCGCTTTATCGCTGCTGACGGACGAGAAATCAGA +GGCAAACAGCGCGCTGGCCATATCTTCCAGCTCCTGAGTCGATGCCTTCTCCAGATTCTCAATCACTGCC +AGCGCCGGGCCGCTCATTTCAGGTTTCAGCTCAGCAATCAGCGCCATCAGCAGCTTTTGCCAGTGCTTAT +CACGCGGCAGAACGTGAATATCCAGCGGGGGCTTGCCTTGTGCGCTGGCTTCTTTAATGCGCGCAGTCAG +ATCCATCTCCAGCGGATGGTCGTACAGCACCACTTCCTGGGCGTGGGCGATAAGCGCAGCAAAGCGCAGG +TAATCACCCAGAGGATTATTTTCTGCCAGCTCGCGCAGACGCTCGGCGCGGCGGTTGTATAAATTCTTGA +GCCGAGGGAACAATAACGGCGGAATCATATCCGCCGTACGTTTCTCGCTTGAACCCAGCTCATCTTGCGG +GATTATGCGAATACTCATTCAGCTTTCTTTTCCGTTGTCTTGCGGACCTCACGGTACCAGCGCGGGTGAT +GTTTCTTCGCCCAGGCGCTGGTAACCCATCCTTCCACCATGGCGGTAATCGTGCCTTTCACCCAAAGGGC +GGCGTAGATATGCACCATGATAACCACAATTAACGCCACTGCGGCAAATGAATGCAGCATTAACGCGAAT +CGGATCACCGGGATTGAGAAAGCAGGCGCAAAATAAGGACGCCAGATAATCACGCCGCTCACCAGCAGCA +GAACCAGGAAAATAATCGCCGCCCAGAAAACGCATTTCTGACCGAAGTTATAACGCCCGGTGTCACCTAC +TTCCTCGTTGACGACGATCTTACGAATATTCTTCGCCCAAAAGATATCATCCCGATTGATTAGGTTGTGA +TGCCAGTAACGGAAAAACATGATGATGAACGAGGCAAACATAACCACGCCGACAAACGGGTGCAGAATTC +GCGCCAGCTGCGGTGTGCCCATGATTTGCATCAACCAGTTGAAGGACGGGAACAAAAAGCCCAGCCCGCT +CACCGCCGCCAGGATGAAGCAGAAGGCGGTGATCCAGTGGTTGATACGTTCCGGCGCGGTGTAGCGCACG +ATGGTGTCACGTCGTTTCATTTGCGCTCCTCGTCTTTCTCTTCGTGCAGATTATTCTCTTCCTCATCCGC +ACGGTTCGGACCGACACCCACGTAGTGGAAGATACTGGCCGCAAAGGTAGCCGCAAAGCCAACAGCCGCG +AGCGGTTTCCAGATGCCTTTCCAGAATTTCACGGTTTCGCTGATTTCCGGGTTCTCCGGCAAGCCATGAT +ACAGATTTGGCTTGTCAGCATGGTGCAGCACGTACATGACGTGTGTACCACCGACGCCTGCCGGATCGTA +CAGACCCGCATTGTCGTAACCGCGGGTTTTCAGCTCAGCAACGCGCTCGCTCGCCAGCGTTTTCATCGAC +TCTTTCGTACCGAAGTGAATCGCGCCCGTTGGGCAGGTCTTCACGCAGGCTGGTTCTTGCCCAACCACCA +CGCGGTCAACGCACAGCGTACATTTGTAGACGCGGTTGTCTTCCGGGTTGAGGCGCGGAATGTCGAACGG +ACAGCCCGCAATGCAATAACCGCAGCCAATGCACTGCTCGGACTGGAAGTCGACGATACCGTTGGCATAC +TGAATAATTGCACCTTCCGCCGGGCACGCTTTCAGGCAGCCTGGATCGGAACAGTGCATACAGCCGTCTT +TGCGGATCAGCCATTCCAGTTTGTCGTTCTGCTCCACTTCCGAGAAGCGCATTACCGTCCACGATTTGGC +GCTTAAATCATTGGGGTTGTCGTACACCCCAATGTTATTGCCGACGGTATCGCGAATGTCGTTCCACTCT +GAACACGCCACCTGACAGGCTTTACAGCCGATACAGGTGGTAACGTCGATGAGTTTCGCCACTTCTTCCT +GGAAGTCCCGCGCCTGAGGCGCGGGGGTCAGACCGTTAGTCGCGGAACGACGAATGATATCTTGAGATTG +ATAAGCCATATGTCGTCTCCGTTACACCTTTTCCACATTCACAAGGAAGGACTTAAACTCCGGCGTCTGC +GTGTTCGCATCACCAACGAATGGCGTTAAAGTATTGGCAATAAAGCCTTTTTTAGCTACGCCTTCATAGC +CCCAGTGAATCGGAATACCGATGGTATCGATATCTTTGCCGTTCGCTTTCAGCGTGCGAATACGTTTGGT +CACCACCGCTTTGGCTTTGATATAGCCACGGTTGGAGGAGACTTTCACGGTATCGCCCTGGGCAATGCCA +AGTTTATTCGCCAGCGACTCCCCGATTTCCACAAACTGCTCTGGCTGCAAAATCGCGTTCAACAGCGCGT +GTTTGGTCCAGTAGTGGAAGTGCTCGGTCAGACGATAGGTGGTTCCGACATACGGGAACTTATCGGCTTT +ACCCAATGCTTCGGCGTCGTCTTTAAAGATACGTGCAGCCGGGTTCGAGATAACGTTTGGATGCAGCGGG +TTAGTTCCCAGCGGCGTTTCAAACGGCTCGTAGTGTTCCGGGAACGGACCTTCCGCCATCTTATCGAGGG +CAAACAGACGCCCCATGCCTTCCTGCTGCATGATAAACGGCCCGACGCCGCTACCCGGAGGCGCTGCGCT +GTAGTCCGGAATATCCCAGCCGGTCCACTTAGTGCCGTCCCATTTCAGCAACTGACGCTTCGGATCCCAC +GGGTTACCCTGCGGATCTGCGGAGGCGCGGTTATACAGAATGCGGCGGTTAAGCGGCCATGCCCATGCCC +AGCCCAGCGTGTTACCGAGGCCAGACGGATCGGCGTTATCACGGCGTGCCATCTGGTTGCCTTCCGGCGT +CCAGCTACCGGCGAAAATCCAGCAGCCACAGGAGGTTGTACCGTCATCGCGCAATTGGGCGAACGAACTA +AGTTGTTGGCCTTTCTTGACGATAACCGCACCGGTTGCCGGATCGGTAATATCGGCCAGCGCCTTACCGT +TGCTCTCCATCGCCACTTCTTCTGAAGATGGCTCATGCGGAATGGCGTAGTTCCATGTCATGTTCAGCAC +CTGGTCCGGGTTCGCGCCACCCTGTTCGGCATACATCTTGCGCAAGCGCAGGAAGATACCGGAGAGGATC +TCGCCGTCAGTCAGCGCAATCCCCGGGGCGTCCGCACCTTTCCAGTGCCACTGTAACCAGCGACCTGAGT +TAACGATAGAACCGTTCTCTTCCGCGAAGCAGGTCGATGGCAGACGGAACACTTCGGTCTGGATCTTCGA +CGAGTCAACTTCGTTCAGCTCACCGTGGTTCTGCCAGAAGTTAGAGGTTTCAGTGTTCAGTGGGTCGATG +GTGACGAGGAACTTCAGTTTCGACAGACAACCGATCACTTTGTTTTTGTTCGGGAATGAGGCAACAGGGT +TAAAGCCCTGGCAGATATAGCCATTGACCTTGCCCTCTTTCATCATCTCGAAGTATTGCAGGACGTCGTA +GCCTTTATCCCACTTCGGCAACCAGTCAAAGCCCCAGCTATTTTCCGCCGTCGCTTTATCACCAAAGAAG +GCCTTCATCATAGAGACGAAGAATTTCGGGTAGTTGCCCCAGTAGTTTACCTGGCCTTCCAGCAGCGGTT +TTGGCGTGTTGGCGGTAAGGTAGGTTTGCAGATCGGTCTGCTTCTCGCTTGGCAGCGTCATGTAACCTGG +CAGGCTCTGCGACAGCAGCCCCAGGTCCGTCAGCCCCTGAATATTGGAGTGACCGCGCAGGGCGTTAACG +CCGCCGCCTGCCATCCCCATATTGCCGAGCAGCAGCTGGATCATCGCCATCGTACGAATGTTTTGCGCAC +CAACGGAGTGTTGCGTCCAGCCGAGGGCATACAGGAACGAGGCAGTTTTATCGTGAGCACTGGTTTCTGC +GATGTATTCGCAGACTTTCAGGAACGCGTCTTTTGGCGTACCACAGATGTTTTCAACCACATCTGGCGTG +TAGCGGGAAACGTGCTGTTTCAGCAAGTTCCACACGCAGCGCGGATGTTGCAGCGTGGTATCGCGTTTGG +CGAAGCCGTTTTCGTCCAGTTCATAAGTCCAGGAGGATTTATCGTACTTGCGTTTTTCCGCGTCGTAGCC +GGTGAACAGGCCATCTTCAAAGCCGTAATCCTCACGCACGATCAGGCTGGCGTTGGTATAGGCTTCGGTG +TATTCGCGGTTGAATTTTTCATTGTTCAGCAGGTACAGCAATACGCCTGACAGGAAAGCAATGTCAGTAC +CGGAACGAATAGGGGCATAGTAGTCAGCTACCGCCGCCGTACGCGTAAAGCGAGGATCGATCACAATCAG +CTTCGCGCCGTTGTGAATTTTGGCTTCCATCGCCCAGCGGAACCCGACCGGGTGAGCTTCAGCGGCGTTA +CCGCCCATCACCACGACGAGGTTGGCGTTCTTGATGTCGACCCAGTGGTTGGTCATCGCACCGCGACCAA +ATGTTGGAGCAAGACTTGCTACCGTTGGTCCGTGTCAGACACGCGCCTGGTTGTCGACCGCGAGCATACC +CAGCGCGCGGGAGAATTTTTGCGTTAAATAGCCGGTTTCGTTACTCGACGCGGAAGCACACAGCATCCCG +GTGGAGAGCCAGCGGTTAACAGTCACGCCTTCGGCGTTTTGCGCAATGTAGTTAGCATCGCGGTCTTCTT +TCATCAGTTTGGCGATGCGATCAAACGCCTCTTCCCAACTGATTTGCTGCCATTTATCAGAACCTGGCGC +ACGGTATTCCGGAAACTTCAGACGGCTTTCGGAGTGGATGAAATCCACCAGGCCAGCGCCTTTCGGACAA +AGTGCACCGCGGTTGACCGGGTGATCCGGATCGCCTTCGATATGGAAGATAGATGCTTTGGCGTTTTTTG +CTCCGTCACCGAGGCTGTACATCAACAGCCCACAGCCTACGGAACAATAGGTGCAGGTATTACGGGTTTC +GCGGGTGCGCAGCAGTTTATACTGCCGGGTTTCCGCGAGTGCTACGCTGGGTGCAAAACCCAGTGCCGCT +GCCGTGGTGCCTGCCATACCGCCAGCGCAGATCTTAAAGAACTGCCTTCTGCTGACCTGCATGGATTGCT +CCTTGTTTCGACATTGTCACGTCCCATTTACATTCGCTTGCTGCGTGTGCAGGGAGTGGGAGTTATTTTT +CTTTGCGGAAGGGGCCGCAAAGGTCCAGAATTGGCTCAATTTCCCTCCATCCAGGAAGGGTTTGTAACAG +AATACCATAATGTTGGTGTGTGTGTTCTTATCTGGTTAAGAGAAAGTGAAAAAAACACAGCGAAAAGAAA +TCGAAAATGTGACAAATATCACAGGTGTTCGTCAAATTGAGTTATGGCGGCGTGATGATTTACAACACCC +ACGGTTAGATGAGGTCGCGGAAGAAGTTCCCGTTGCGCTGGTCTACAACGGCATTTCGCATGTGGTGATG +ATGGCGTCGCCCAAAGACCTTGAGTACTTTGCGCTCGGTTTTTCGCTTTCCGAGGGGATTATCGAAAGTC +CGCGCGATATCTTCGGCATGGATGTCGTTCCTTCCTGTAATGGTCTTGAAGTACAAATTGAGCTTTCCAG +CCGCCGCTTTATGGGGTTGAAGGAGCGCCGCCGGGCGCTGGCGGGACGTACGGGCTGTGGCGTATGCGGC +GTGGAGCAACTTAATGACATCGGAAAACCGGTGCAGCCGCTACCGTTCACCCAGACGTTTGATCTCAACA +AACTGGATGATGCATTACGTCATCTCAACGATTTTCAGCCAGTGGGGCAACTGACTGGTTGTACTCACGC +CGCTGCCTGGATGTTGCCATCTGGCGAACTGGTCGGCGGGCATGAAGACGTGGGTCGCCATGTGGCGCTG +GACAAACTGTTAGGCCGCCGGTCACAAGAAGGGGAAAGCTGGCAGCAAGGTGCGGTACTGGTTTCCAGTC +GTGCCAGTTATGAAATGGTGCAAAAGTCGGCGATGTGCGGCGTAGAGATTTTGTTTGCGGTGTCTGCCGC +GACCACGCTTGCTGTAGAAGTGGCTGAGCGCTGTAATCTGACACTGGTAGGTTTTTGTAAACCGGGTCGG +GCAACGGTTTATACCCATCCGCAGCGTTTGAGCAATTAATTAAAATAAGTCCTGCGAAATATATTAAATT +GCAGGACTTATTCATTTCGTGAATTTTATTATTTTATTTATAAACAAAATGCGTGTAGTGGCGTTTTCTT +TTTTCATTTATTATGTTCACTCTCTTATCTATATATTTATAAGGCAATTAAATGAAAAGGAATTTATTAT +CTTCCGCTATTATAGTCGCCATCATGTCCCTCGGTCTGACGGGTTGTGATGATAAAAAAGCCGAAACAGA +AACGCTCCCGCCTGCCAATAGTCAACCTGCCGCACCAGCTCCTGAAGCGAAACCTACTGAAGCTCCCGTT +GCAAAAGCAGAAGCTAAACCTGAAACACCTGCGCAACCGGTGGTCGATGAACAAGCGGTTTTCGACGAAA +AAATGGATGTCTATATCAAGTGCTACAACAAGTTACAGATCCCGGTACAGCGCAGTCTGGCGCGTTATGC +TGACTGGCTGAAAGATTTTAAACAGGGGCCTACCGGTGAAGAGCGTACTGTTTATGGCATCTACGGCATT +AGTGAATCCAACCTCGCTGAGTGTGAAAAAGGCGTAAAAAGTGCTGTGGCGTTAACGCCTGCGCTGCAAC +CAATTGATGGCGTGGCGGTGAGTTATATCGATGCTGCCGTGGCGTTGGGTAATACCATTAACGAAATGGA +TAAATATTACACCCAGGAAAATTATAAAGACGATGCGTTTGCGAAAGGGAAAACGCTGCACCAGACATTC +TTAAAAAATCTGGAAGCCTTTGAACCTGTAGCCGAATCTTATCATGCGGCGATTCAGGAAATTAATGATA +AGCGTCAGCTTGCGGAACTGAAAAATATTGAAGAAAGAGAAGGGAAAACATTCCACTACTACTCTCTGGC +AGTCATGATTTCAGCGAAACAAATTAATAACCTGATATCGCAAGATAAGTTTGATGCAGAAGCGGCAATG +AAGAAAGTGTCTGAACTGGAAACGCTAGTGGCGCAGGCCAAAGAAGCGGATAAAGGCGGCATGAATTTCT +CGTTTATTAATTCGGCAGGCCAGTATCAACTCGAGGCTAAAAAATACGTTCGCCGCATCAGAGATAAAGT +CCCGTACTCTGACTGGGATAAAGAGCAACTTCAGGACGCAAACTCAAGCTGGATGGTCGAAGACTCTTTC +CCGAGAGCATTACGCGAGTACAACGAAATGGTTGATGACTATAATAGCCTGCGTTAAACGTTTTTGATGA +TAAATGCAGTGTCGGATGCGGCGCATCCGACACAGTTCACCCCTTGTGAAGTAACTCCATAAATGCCTCA +TATCCTGTTAACCCGGCAATAATCTCCGCCGGATGCTGACACAATATGCTTGCCAGATAGCTAAATATTT +TTAGCTCATGACGCGCATCGGCGGCGGCGCAGGCGATCAAGACATGGTTAATGACTTCGTTATTCACCTC +AACTGGTTGGGCGAGGGTAATAAAAAATCCACGAAAACGTCGCTCCTGTTCGCTCCAGCAATGTGGGATG +GCGAGGCGATTAACAATCAGGTTTTCACCTTCGCCTTCGCGGGCGATGATGCGTTGTGCTTCATCGGCGG +TAATATGGTGTTGTGCGACTAATTGCGCACAAATTTGCCGGGTAATATGTTGCCAGCTTTCACCGCGTAC +ATTCGAATAATGAAAACTTCCGGGGGCAGAGAAAAAACGCTCCGGCTGTTGGCGAATAAATGCCGTCGCC +AGAAAATGTTTTATTTGTTCGATACCGGCAGCCGTAATGATATTTTTTACGGTGATGTAATTATTTACCG +CGTCATCCAGTAAATAATGGCTGTTGTTAATGATCAATAACGGCTCAATCTCTTCGCGAATGGCAACAAG +TTCGCTTAAGCTACGGGCAATAATTACCCGACAATTTAAAACATCGCGCTCAATGGCGAGCTGATTAATA +GTGGCAATCGCGTTCTGGTCCGAGAGCAAAATGATCGGCTGGCGTTCGTTTTGATGCCGCTCCAGCGCAC +AGGCAAAATACAAACCGATCAGATCGCTGTCGAAAAGGGGAATATCGAGCTGTTCACGCAGTAGCGTAAT +AAAGTGCAGACTCATATCAAAGGCCGCAGGCCAGGCGGCTTTCAGGTTATTCATGCTGCTCTGGCGGTGC +TCAGCAATCCACACTGGTGCGGCAAGGCAACGTAATAAATGCCCGGTAATATTCTCAACCAGCTGCGCAT +CAATAATATTCAATGACGCGATGCCCGGCACCCTTTGCAGCAACCCCTGCACATTATCGGCTGAAATTAC +CTGCGCTTGCTGATGCTGTTTCTCTATCAAACCCGTCAGGGTTCTTACAGCGTTATCACCAAGAAACAGA +CCGCTATGTTCAACGATTTGTTTTATCTCGTCACCGGGATATTGCGGCCACTCATCGGTCAGTTGATTAC +GCAGGGCGTAAATCGCCAGAATCAGGCTGGAGAGATAATCACCCTGCATGAGCGGCCAGCGGTGTTGGTT +GTCGCAGGCCGTGGATAAATGCTGAAGGTTGTCTCGTGTTATGCCCGCCAGCGGAATTAAAAACGGATCT +TTGCGCAGCAAGTTCGCCAGCAAGATAACGCGTTTCTCTTCTGTCTCATCAATGAAATGGCCCAAACCAG +GGCGGCTGGCCAGGCAACAAGTGCGTTCATAACGCTGTTTTAACCGGGGCAGACGCTCTGCTACCCACGT +TTCTGGCAAATTAAGCGCCGAGGCGAGTTGCGCACGGGGAGTGAAAGTATTCAGTAATAACAGCGCCAGC +AGCCGATCGTCGTTATCGTGCTTTTGCAGCAACTGAAAAAAGCTGCGGCGCTCGAAGATTTCCAGCTGAT +AGCCCGCACTGCCACTGGCGAAAATGCGGGCTTTGCCGTTAAGGGTGAAGTTGAGATAGTCAATATCACG +CAGGATGGTCCTGCCTGAAACGCCAGTCTGTTGCGCCAGCTCGCCAGGCGTGCGCGGCTGTTGCTCCAGC +AGATCGACAATCTTTAACTGGCGTTCGTTTAGCATTAATCCACCTGACGGAACTGGCTAAACGCGTTGAC +TTTCTCCGCAGTTAAGGTCGTCAGAAAACCCCGTATCAGCGTGAGCAGAGCTTCGTAATCGGCTTTTGAA +ATCATACCGCTGTTGGCGTGCAGATAACGAGTTGGCAGACACAGCGCGACAACCGGACGCCCGCCGCCCA +TCACGTTGTAGCGCCCGCCATCCGTCGCACCGGTTTTCATGGTGGAAAATTGCAGCGGTAAATCGTTATG +TGCGGCACAGCTTTTTAACGCTGCTACCAGTTTCTGGTTGGGGAAGTAGCGCTTGTCAAACAGCATCAGC +CCCGGCCCCTGGCCCAGTTTCAGCGGGTATTTAATGTTATCAATGCCCGGAACATCGCCCGCTACGGCGG +TATCCAACACGATCACGACGTCCGGTTTAATGTGTTCCGCCGAGGTTTGCGCCCCGCGTAGCCCAACTTC +TTCTTCCACACTGCCAACGCCATACAGCGTAATTTCGGGATTATTCACCGTCTGCAATAGTTCAGCCATC +ATTGCGCAGCCGATGCGGTTATCCAACGCCTTGCCGACCACTTTATCTTCGCCCCAGCAGGCAAAATTGG +CTTCCGGGCTAATAAAATTACCAATTTCCACGCCGCGCTTTTCCACCTCTTCGCGACTGTTCGCGCCAAT +ATCAATGAACATCTCATCAAATGACAGCGGTTGTTGCTTTTGCTTTTCCGTTAACGCATGAGGCGCGACG +GAACCAATCACACCAGGGATTTTCACTCCCTTGTGTGTGCGTATGGTTACCCGGTGGTTGAGCATCGACT +GATTCCACCAGCCGCCAATGGTGGTAAAACGCAGAAAACCGCTCTCGTCGATGTGGGTGACCATAAAGCC +GACTTCATCCATATGTCCGACAACGGCAACTTTTGGACCTTTATTCCCCTTACGGGCAACAAAGCTGCCC +AGACCATCGAAGGTGATTTCATTCACGCAAGGTTCCAGCGTGTTTATCAGAATGTCGCGAACTTCCTGTT +CATCGCCGCTGACGGCGCTGGCTTCGCACAACTGTTGCAGTAACTCAATGTTCATGGACAAGCTCCTGTT +GCGCGGCTTTCGCTTTGCGGCGTAACCACAATCCTTTCAGGACGATAATGAATGAAATGTTCAGCGCGAG +GCCAATCGCCAGCACCAGATAAAACGAACCCACCGGCGACATCAGGCCGATCAGCGGGTCAAAGATACCC +AAACCAGGTGCCAGACGTTTGATTCCGAAAGCGATCACCAGCACGCCGGTAATGCCGCCCGCCAGCGTAT +TGGCGGTAATCATCGGCAACGGAGCTGCCAGAGCGTAAGGAATAGCCGGTTCGGTTGCGACTGTGGCACC +GACCACAATGGCACTACTGGCAGCCTCTTTTTCCTGTCGGGTAAACAGTTTGGGCGCAATGAACGTCGCA +AGACCCGCCGCGACGGGCGGCATCAGCGCGACAACGCCGACGATGGCGTACCAGTCATAAATGTGTTTTT +CCAGCAGTGAGAAGCAGAAGAACCAGGCGGTTTTATTGATGGGGCCGCCCATATCGAACGCCAGCATCGC +ACCGACCAGAAACGCTGCCGCAAACTTCATTGATGGAGGAATGGTATTCAGGAAGTGGAGCAGCCCGCCC +ATGAGGTCGGACATCACCGGCCCGATAACGTAGTAAGTGAGCACGCCGAAAACCAGCAGAGTAACGAACG +GGATCAGCATTGAACCGAGCAGCGGTTGTAATGCTTTGCCAAGGCGCACTTTGCGGAACCAGAAGACGAA +ATAGCCAATCGCCAGCCCCAGCACCACCGCGCCGAGGAATCCCGCACCCGACTGGGTGCCGAGCAGCGCT +TTGTCGTTCGCCAGATAGCAAACCAGAAACGCCGGAGCGAAAGCCGGTTTATCGGCAATCGACGAGGCAA +TATAAGCGCCCATGATGGGGATCATAAAGGTGAAGCCAAGGTAACCGATGGATTCAACTACCCAGGTAAA +CGACGGCGCGCCTTTCGACATATCGGTATACGGCAAACCGAACTGCACCAGCATGTTGGCAAGCGCCACC +AGGATACCACCGCCGATGACAAACGGCAGCGCCGCAGAGACGCCCGCCATCAGGTGGCTCATCACGCTAC +CGCTTTGCACTTCCTGTTTGCCAAGCTTCACGCCGCTATCTGCGGCAAAAAGCTGCGAGTTTGTCGGTAA +TTCGCTGAAAATCTGGTCGATATTTTTCAACGCCTGGGAGATGGCAATCTCATAAACTTTCTTCCCGGCA +AACCGCGCGCGATCATCACCGCTCAGGCCACGCCCGGTAGCGAGAATGACGTAATCGGCAGCGGCAATCT +CTTCGCTGGATAAGCGGTTTTCAACGCCACTGGACCCTTGAGTTTCCACTTTTATGGTATGACCGAGAGA +ACGGGCTTTCTGTTCCAGGGCTTCCGCCACCATGTAGGTGTGAGCGATCCCGGCGGGGCAGTTGGTGATC +GCGACAATACGTAAGGATGACTCCATCGCCACTTCCTTATGAGCTGAGGGTTTGATTTAACAAGGCAAGC +ACCTGGTCGGTATCGCCCTGTTGCAGTTGATGAATAAATTCCTTGTGAATAATTTTGCGACACAGTGTGC +CGATGATTTTGACCTGATCCTCTTCGCCGCTTTGCGGCACGCCGAGGCAGATCCAGCAATTGACGTCTTC +GCCATCGCTGGCTTTCCAGTCAATAGCCTGCGCTTTGCGGGCGAATAATACGAACGGTTGTTTAACGCAG +GCGCTTTTACCGTGCGGCACGGCGACACCGGAACCAAATCCAGTAGAGTGCATTTTTTCGCGCAGCAGCA +GGGTTTGCAGGAACTGGTGTGAGTCGGTGATAAAACCGTTTTGTAACGCTATTGTCGCCAACTGCTTCAG +AACGGAATAAGCGCCATTGCCCTGAATATTCAGGTCAATACAGCTTGCAGTAAGAGCTGCCATTAATCGG +ACTCCATAAAATATATTTTAATCAATTGTAATGGTGGAGCGATTAAGTGATGAGAGGCGATATGTCGGTA +AACAATGACAATTTGAGACAGAGTGAAAGGTCAGATTTGCGGAGTAATGCACATAATGGTTATTTAAATA +AACCACATGAATCATTAATGGGTTATTCATTATTTTTGTGATTTACTCACAATGTATCAGGGAAATATAA +CTTACCGGGAGATGTAATATGTTTAATTTTTCAAATCGAAATTTAAAATATTGTGCCGGAGGCATCTCTG +GCACATTGGGCAATTACGGCAGGTAAAACACTTCTTGCAGCTCGCTACTCACCGGGCTGTTATCCGGGTT +AGCGGGCATAACATCGGTCATATATTTCCACCAACGTTGGCAAACATCAGTGCTGGCAACCGCATTCCAG +CGTTCTTCAGATTCAATCTCTACCATGGCAAACAGCAGATTACGCGCTTTGTCGAGATAGATGGCGTAGT +TATGCGCACCGTGAGATTTCAGCACTGCTTCCAGTTCTGGCCAGATGGGATTATGCCGACGCTGATACTC +TTCGTGGGCGTCGGGGTTTACCTGCATGACAAAGGCTTTGCGGATCATGTTTGCTCCTTACAGCGCCAGC +GCACTGGCGAGTGGCGTAACGCCGAAACGCTTGCCGAGCGCTATCAACTCTTCACGGCTGATGGTCTGTT +TCATGCCGCCCATCGAATAAACCTTCACTAATACTTGTGCTGATTTTTCTGCGGTGTCGATTAAACCGAA +GGTTTCATCCAGCGTCGGTCCGCTGCCGAAGACGCCGTGGAAGGGCCACAACACCAGCGAATGTTTTTGC +ATCTCTTGTGCGGTCGCCTGGCCGATTTCGTCCGTGCCGGGCACCATCCACGGCAAAATGCCAACGCCAT +CCGGGAATACCACCAGACACTCGGTGCTGCCTTCCCACAGTTGGCGAGTGAAGACCGCGGTGTCGTTTTC +AAGTACATAGGTGAGGGCGATCAGGTTGGTGGCGTGGCAGTGCATGATCACCCGATCTTTGCCGTTGGTG +GCTTTAATGCGCTCGCAGTGGGAAAGGAAGTGAGCCGGAAGTTCGGAAGTGGGGACGGCTTCGTTGGTTA +ACCCCCAAAGAATGTGGTAGCCCGCGCCGTCGCTGTCGACTTTTACGATGCCTAAGTTAGCCGCAGGATC +AAGCTGGACGTTACGGAAGAATTTGCCCGAGCCGGTGACAATAAACGGTGTATTTGCCAGTAAAGGCATG +GGCTGGCTGAGCGGGATATAGCGCGGTTGTTGGTGGAAATTGTCGTGATATGGTGCGATATCGGCGTCAT +CCAGGCGTAGCGTCAGGTTGCCGCCGTTGCGCTCATCCCAGCCTTTCAGCCAGGCGTCGGTGGTGGCTTT +GATCATTCCCTGGACAAACCAGGACTGAGTAATGTTTTGCATGTTCTGTGTTCCTGTAAATTCGGTGTTG +TCGGATGCACGACCCGTAGGCCGGATAAGGCGCTCGCGCCGCATCCGGCAATCAATGCCTGATGCGACGC +TGTCGCGTCTTATCAGGCCTACAACTATTGCCGACCTGTAGGCCTGATAAGGCACTTGTGCCGCATCCGG +CAATCAATGCCTGATGCGACGCTGTCGCGTCTTATCAGGCCTACAACTGTTGCCGACCTGTAGGCCGGAT +AAGGCACTTGTGCCGCATCCGGCAATCAATGCCTGATGCGACGCTGTCGCGTCTTATCAGGCCTACAACT +ATTGCCGACCTGTAGGCCGGATAAGGCACTTGTGCCGCATCCGGCAATCAATGCCTGATGCGACGCTGTC +GCGTCTTATCAGGCCTACAACTGTTGCCGACCCGTAGGCCGGATAAGGCGCTCGCGCCGCATCCGGCAGT +GTTTACCCGCGGCGACTCAAAATTTCTTTCTCATAAGCCCGCACGCTCTCCAGCCATTCGCTACCTGCTG +GCGTATCGTGACGTTGGCAATACATTTCCCAGACCGCCTGCCACGGCAACGATTTCTGCTCTTCCAGCAG +TGCCAGACGCGCAGTGTAATCGCCCGCCGCTTCCAGCTTGCGCAGCTCAGCGGTAGGTTCCAGCAACGCA +CGCAGCAGGGCTTTTTTCATATTGCGTGTACCAATGACCCACGCGGCAATGCGGTTGATAGAGGCATCGA +AGAAGTCAAGGCCGATATGCACCCGGTCAAACAGATCGTGACGCACAATCTCACTGGCAATTGCCTGGGT +TTCATCATCCAGCAGCACTACGTGATCGCTGTCCCAGCGAACCGGACGGCTGACGTGCAGCAGCAACTGC +GGCACATACAGCATGGCGGCGGAAATCTTGTCGGAAATCACTTCAGTCGGGTGGAAGTGCCCGGCGTCCA +GGCACAGCGCAGTCTGGCGGCTGGTGGCATACCCCATGTAAAACTCATTGGAGCCAACCGTGTAGCTCTC +TGCGCCAATGCCAAACAATTTGCTCTCAACGGCGTCGATATGGTGCGCAGGGTTTAGCTTCTCGCTGATC +ACCTCATCCAGTGCTGCCAGCAGACGCTGACGCGGGGCGAGACGGTCAACGGTGATATCTTTCATACCAT +CCGGGATCCAGATGTTCATCACCGATGGTGTGCCGAGTTGCTCGCCAAAATAGGCCGAAACGCGACGGCT +GGCTTTGCAGTGATCAATCCAGAACTGGCGAATGCTGTCGTCGGCATGGGAAAGCGTAAAGCCATCGGCG +CTTAGCGGATGCGAAAAGCAGGAGGGGTTAAAATCCAGACCGAGCTGATTGGCTTTCGCCCATTCAACCC +AGTTTTTGAAGTGCTCTGGTTTGATCTGGTCGCGCGAGACTGGCGTATCTGATTCCAGATAGATGGCATG +TAAATTAAGCCGTTTCGGCCCCGGAATCAGCCGCATAGCCTGTTCCAGATCGGCACGTAGCTCACTGGCA +TTACGCGCTTTGCCCGGATAATTGCCTGTGGCCTGAATCCCCCCGGTCAGCGAACCTTCCGGGTTTTCAA +AACCGGAAACATCATCGCCCTGCCAGCAGTGCATTGAAACGGGTAAACGATCAAGTTGGCGCAGCGCCTC +CTCGACATCAATCCCCACCGCCGCGAAACGCTGTTTCGCTAGCTCCCAGGCCTGTTCCAGTTGAGTGGTC +ATGCGCAAAGCTCCTTTGTCTGTCGTGTAGAGTGAATCTGCGCCACATAGTGGGCAATTTCACTGTCAGG +ATTAGGGGTAAAGGTGGTCAGATTCGCGGTGGTGCTGACGACCTGACGGAAATCATCCACATTGTTGAGT +TCATCCAGCGTCATTAACTGGATGCCGATATTGCCGAGCGTCGAGGCTTCAACAGGCCCGGCGATCACCC +GAATACCGCAGGCATCGGCGCATAGCTGGTTGAGCAGCGTGTTCTGGCAGCCTCCGCCGACAATATGCAG +TTGCGAGAAATCTTCACCGCGCAGCTGCGCCAGCTCATGCAACACATCGGCATACAGCAGCGCCAGACTG +TCGAAAATGCAGCGCGCCAGTTCAGCATCACTTTCCGGGATCGGTTGCGCCGTTTCCCGACACGCAGCCT +GAATTTCGCTGCACATCGTCTCAGGATTAATAAAGCGATCGTCATTGGGATTGATAATGAAGCGGCAAGC +CGGAAGTGCCTGTGTCGCGGAGATAAGCGCCGGAAGATCGTTGATTTGCTGCTCCTGAAGCACTCGCTGA +AGCAGCCATAAGCCCATAATATTTTTCAGCACCCGATAGCGACCTTCCGCCCCGCCTTCATTGGTGATGT +TGGCTGCCAGTGCCGTGTCATTGGTAAATGGCGTCTGGCTTTCGAAGCCCATCAATGACCAGGTGCCAGA +AGAGAGATAAGCAGCACGTGAGCCGTTTAACGGCGAGGCGATAACCGCGCTGGCGGTATCATGGCTGGCA +ACGGCGACCACTGGAATCTCATTACCCTGCGGGCAAATCCAGTGACCTATGACATTACCCGGATGCGTCG +GGCGACCAAACCAGGCTTTGTTGGCCCCGCTCCACGCCAGTAGCGACTCGTCCCAGTCGTCGCTATTGAT +ATTGACCAGTTGCGTGGTCGTGGCGTTGGTATATTCCCAGTTCATCTTGCCGGTCAGGCGATAACTGAAG +TAATCCGGCATCAGCAGAGCGTGAGCAATGTGTGGAATAAGTTCAGGTTGTTGCTCCGTCAGCGCACGCA +ACTGATAAAGCGTATTGAAGGGCAGAAACTGGATGCCGCTACGTTGATAAATATCGCGTTTGCCGAGTTG +TTGTTGTGCCTGCGCCATTAGGCCATTGGTGCGGCTATCGCGATAAGCAACGGGCAGGCCCACACGCTGA +CCCTGTTGGTCGAGCAGCACAAAGTCCACGCCCCAGGTATCAATCCCAATGCTATCGATACGAATCCCTT +CCTCGCACACCTTGTTTAATCCAAGGCGAATGGCACTTTCAAGGCTATCCACATCCCAGGTGACATAGCC +GTTCTGACTATGCAGCCCATTGTTAAAACGATGGATTTCGCGCAGCGTCAGGCTGCGGCATTCACGCTCG +TAACGCGCCAGCATCACGCGCCCACTGGATGCGCCGAGATCGACGGCGACACAATTGCGAAAGGTCATAA +TGTGATCCTGCTGAATTTCATTACGACCAGTCTAAAAAGCGCCTGAATTCGCGACCTTCTCGTTACTGAC +AGGAAAATGGGCCATTGGCAACCAGGGAAAGATGAACGTGATGATGTTCACAATTTGCTGAATTGTGGTG +ATGTGATGCTCACCGCATTTCCTGAAAATTCACGCTGTATCTTGAAAAATCGACGTTTTTTACGTGGTTT +TCCGTCGAAAATTTAAGGTAAGAACCTGACCTCGTGATTACTATTTCGCCGTGTTGACGACATCAGGAGG +CCAGTATGACCGTATTACATAGTGTGGATTTTTTTCCGTCTGGTAACGCGTCCGTGGCGATAGAACCCCG +GCTCCCGCAGGCGGATTTTCCTGAACATCATCATGATTTTCATGAAATTGTGATTGTCGAACATGGCACG +GGTATTCATGTGTTTAATGGGCAGCCCTATACCATCACCGGTGGCACGGTCTGTTTCGTACGCGATCATG +ATCGGCATCTGTATGAACATACCGATAATCTGTGTCTGACCAATGTGCTGTATCGCTCGCCGGATCGATT +TCAGTTTCTCGCCGGGCTGAATCAGTTGCTGCCACAAGAGCTGGATGGGCAGTATCCGTCTCACTGGCGC +GTTAACCACAGCGTATTGCAGCAGGTGCGACAGCTGGTTGCACAGATGGAACAGCAGGAAGGGGAAAATG +ATTTACCCTCGACCGCCAGTCGCGAGATCTTGTTTATGCAATTACTGCTCTTGCTGCGTAAAAGCAGTTT +GCAGGAGAACCTGGAAAACAGCGCATCACGTCTCAACTTGCTTCTGGCCTGGCTGGAGGACCATTTTGCC +GATGAGGTGAATTGGGATGCCGTGGCGGATCAATTTTCTCTTTCACTGCGTACGCTACATCGGCAGCTTA +AGCAGCAAACGGGACTGACGCCTCAGCGATACCTGAACCGCCTGCGACTGATGAAAGCCCGACATCTGCT +ACGCCACAGCGAGGCCAGCGTTACTGACATCGCCTATCGCTGTGGATTCAGCGACAGTAACCACTTTTCG +ACGCTTTTTCGCCGAGAGTTTAACTGGTCACCGCGTGATATTCGCCAGGGACGGGATGGCTTTCTGCAAT +AACGCGAATCTTCTCAACGTATTTGTACGCCATATTGCGAATAATCAACTTCGTTCTCTGGCCGAGGTAG +CCACGGTGGCGCATCAGTTAAAACTTCTCAAAGATGATTTTTTTGCCAGCGACCAGCAGGCAGTCGCTGT +GGCTGACCGTTATCCGCAAGATGTCTTTGCTGAACATACACATGATTTTTGTGAGCTGGTGATTGTCTGG +CGCGGTAATGGCCTGCATGTACTCAACGATCGCCCTTATCGCATTACCCGTGGCGATCTCTTTTACATTC +ATGCTGACGATAAACACTCCTACGCTTCCGTTAACGATCTGGTTTTGCAGAATATTATTTATTGCCCGGA +GCGTCTGAAGCTGAATCTTGACTGGCAGGGGGCGATTCCGGGATTTAACGCCAGCGCAGGGCAACCACAC +TGGCGCTTAGGTAGCATGGGGATGGCGCAGGCGCGGCAGGTTATCGGTCAGCTTGAGCATGAAAGTAGTC +AGCATGTGCCGTTTGCTAACGAAATGGCTGAGTTGCTGTTCGGGCAGTTGGTGATGTTGCTGAATCGCCA +TCGTTACACCAGTGATTCGTTGCCGCCAACATCCAGCGAAACGTTGCTGGATAAGCTGATTACCCGGCTG +GCGGCTAGCCTGAAAAGTCCCTTTGCGCTGGATAAATTTTGTGATGAGGCATCGTGCAGTGAGCGCGTTT +TGCGTCAGCAATTTCGCCAGCAGACTGGAATGACCATCAATCAATATCTGCGACAGGTCAGAGTGTGTCA +TGCGCAATATCTTCTCCAGCATAGCCGCCTGTTAATCAGTGATATTTCGACCGAATGTGGCTTTGAAGAT +AGTAACTATTTTTCGGTGGTGTTTACCCGGGAAACCGGGATGACGCCCAGCCAGTGGCGTCATCTCAATT +CGCAGAAAGATTAATTCGCCATGCCGATGCCGACGATGTTAGCGGCGACAATAATCACCACACAACCGAG +GCTCAACACCGTTACCGGACGGCGTCCTGCATTGTTCCACTCTTTCAGCACCAGCCCGACGATACCGCCG +CACAATACATAGAAACTCATATGCAGCATCCAACTGATGTAGTCATACTGCGCCGGAATGCGGGCGTGGC +CCCAGGCATAGAAAAAGAATTGCAGATACCACATCAACCCGCCCAGTGTCGAGAGTAACACATTGTGAAT +GATCAGCGATTTTGCCAGCGAGAAGTCGGCTTTTAGCGACAAATCCTTCACTTTTGCCAGACGAATAAAA +CAGAAACCGAGGTTAATGATCGCGCCGCCGCCCATGATGACAACATAGCTTGGCAGAGCGACATACAGTG +GATCGACGCCAAGTGCGGCAGCGGCTTCATGCATCGGTTTTGCGGCGTTCATCGCAAAGGACATCCCGGC +AGAGAAAATGCCGCACATCACCGCCAGCACCAGCCCTTTTTTCAGATTGAACTCTTCGGCTTTAATGCCC +ATCTTGCGCTCTTTCAACTGCCCGGCGCGAGTTACAATCCCTACGCCAATCAGCGCCACCAGAACGCCGA +GCAACGTCATGCGTCCGCCTTCGGTGCTAATCAACACATCGAAATTGCCGTTGATAATTGGCGTCATCAG +CGTACCGACAATCAACGTAATGCCAATGGCGATGCCAATTCCCATCGACATGCCGAGATAACGCATGGTC +AGGCCGTAGTTGATATTACCGATCCCCCACATAGCGCCGAACAGAAAAACAGGCAGTCGCGTAGAGAGAC +TAAACGAGCTGTAATACGCCCAGAAATTCGGTAGTAACAGGGCGCTGATGGCCCACGGCAGAATAATCCA +CGAAACAATCCCACCGACTGACCACATGGTTTCCCATGACCATTTTTTTACTTTTTTGAACGGAGCGTAA +AAACAGGCTGCACTGGCCGCGCCGATCAAATGCCAAAATATCCCCATCGTAATCGCGTTACTCATCTTCT +TATCCTCATCATTTTTCGTCGCGTCACATCTCCGACGAGATGAGTGTAAAAATCGTGCTGTCGATTAACC +TTTCGCCTGTTGCCGCCGTTGTCGATTTACTGGCAATCACGGCATTAAGTGGGTGATTTGCTTCACATCT +CGGGCATTTTCCTGCAAAACCATACCCTTACGAAAAGTACGGCATTGATAATCATTTTCAATATCATTTA +ATTAACTATAATGAACCAACTGCTTACGCGGCATTAACAATCGGCCGCCCGACAATACTGGAGATGAATA +TGAGCTATACCCTGCCATCCCTGCCGTATGCTTACGATGCCCTGGAACCGCACTTCGATAAGCAGACCAT +GGAAATCCACCACACCAAACACCATCAGACCTACGTAAACAACGCCAACGCGGCGCTGGAAAGCCTGCCA +GAATTTGCCAACCTGCCGGTTGAAGAGCTGATCACCAAACTGGACCAGCTGCCAGCAGACAAGAAAACCG +TACTGCGCAACAACGCTGGCGGTCACGCTAACCACAGCCTGTTCTGGAAAGGTCTGAAAAAAGGCACCAC +CCTGCAGGGTGACCTGAAAGCGGCTATCGAACGTGACTTCGGCTCCGTTGATAACTTCAAAGCAGAATTT +GAAAAAGCGGCAGCTTCCCGCTTTGGTTCCGGCTGGGCATGGCTGGTGCTGAAAGGCGATAAACTGGCGG +TGGTTTCTACTGCTAACCAGGATTCTCCGCTGATGGGTGAAGCTATTTCTGGCGCTTCCGGCTTCCCGAT +TATGGGCCTGGATGTGTGGGAACATGCTTACTACCTGAAATTCCAGAACCGCCGTCCGGACTACATTAAA +GAGTTCTGGAACGTGGTGAACTGGGACGAAGCAGCGGCACGTTTTGCGGCGAAAAAATAATCATTTGCCG +CCTGCTGCAATGAGGCGTATAGGCCGCATATCAGCTTAAAAAATGAACCATCGCCAACGGCGGTGGTTTT +TTTGTGATCAATTTCAAAATAAAAACAATGATCCGATAAAAATAAAACAGCGTTTCAATTGATGTGGTTT +TGATCACTTTTATTGATTAAATGAATGTCTATCTTCGTTTCCATCAACACTGATGCTCCATTGAGGAATT +ACGCATCAGCCCTTAAAAATATGCCGACAGGTGATGGAAATGCAGATAAAACGCTCGATTGAGAAAATCC +CGGGGGGGATGATGCTCGTCCCGCTATTCCTTGGCGCACTGTGCCACACCTTCTCGCCGGGGGCGGGGAA +ATATTTTGGATCATTCACCAACGGGATGATTACCGGTACGGTGCCCATTCTGGCGGTGTGGTTTTTTTGC +ATGGGGGCGTCAATAAAATTAAGCGCGACGGGAACGGTACTGCGTAAATCCGGTACGCTGGTGGTAACTA +AAATTGCCGTCGCGTGGGTGGTTGCGGCAATTGCCTCGCGTATTATTCCGGAACATGGTGTTGAAGTTGG +ATTCTTTGCCGGACTTTCAACGCTGGCGCTGGTGGCGGCGATGGATATGACCAATGGCGGACTTTACGCT +TCCATCATGCAGCAGTACGGCACAAAAGAAGAAGCTGGGGCATTTGTGTTGATGTCGTTGGAGTCCGGGC +CGCTCATGACGATGATTATTCTGGGCACTGCCGGGATTGCCTCGTTTGAACCGCATGTTTTCGTCGGCGC +AGTATTACCGTTCCTGGTGGGCTTTGCCCTGGGGAACCTTGACCCTGAATTGCGAGAATTTTTCAGCAAA +GCGGTGCAAACGCTGATTCCATTCTTTGCCTTCGCGCTGGGCAATACCATTGATTTGACTGTGATTGCCC +AGACTGGTTTGCTGGGGATCCTGTTGGGTGTGGCAGTAATTATCGTGACCGGTATTCCGTTGATTATCGC +CGATAAATTGATTGGCGGTGGCGATGGCACTGCCGGAATTGCCGCTTCCAGTTCCGCAGGGGCCGCGGTA +GCGACACCTGTGCTGATTGCAGAAATGGTGCCTGCGTTTAAACCGATGGCTCCGGCAGCAACTTCGCTGG +TAGCGACGGCGGTCATTGTGACTTCGATTCTGGTGCCAATTCTTACCTCTATCTGGTCACGTAAAGTCAA +AGCCAGAGCAGCGAAAATCGAAATTTTAGGTACGGTGAAATAAACCTGCTTCCTTAATCCCCACAGCCGG +ATGAACTAACGTTCGTCCGGTTTGCTATTGAGTTCCTGCCTGGATACTTACCGCGAAAACAGCACGCCTG +ACATAAAATAAATATGGTCTAATGGGGAAATTTCTCGTGGAGAGGGAACAGATGCGATATCCGGTTGATG +TATACACAGGCAAGATTCAGGCTTATCCCGAAGGCAAACCCAGCGCAATTGCTAAAATCCAGGTTGATGG +TGAGTTGATGCTGACGGAGCTGGGGCTGGAAGGTGACGAGCAGGCGGAGAAAAAGGTTCACGGCGGGCCA +GACAGAGCGCTGTGTCATTATCCTCGTGAGCATTATCTCTACTGGGCGCGGGAATTTCCGGAACAGGCGG +AGTTGTTTGTTGCGCCTGCGTTTGGTGAAAACCTCTCAACCGACGGCCTGACGGAAAGTAATGTTTATAT +GGGCGATATTTTCCGCTGGGGAGAGGCATTAATTCAGGTCAGCCAGCCGCGCTCGCCTTGCTATAAACTC +AATTACCATTTTGATATCAGCGATATAGCGCAGTTGATGCAAAACACAGGTAAGGTGGGGTGGTTGTATA +GCGTGATAGCGCCAGGGAAAGTGTCTGCGGACGCGCCGCTGGAGTTGGTTTCCCGTGTCAGCGATGTGAC +CGTGCAGGAGGCTGCCGCCATCGCATGGCATATGCCGTTTGATGACGATCAATATCACCGTTTACTCTCC +GCTGCCGGGTTATCGAAAAGCTGGACGCGGACGATGCAAAAGCGCCGACTGAGCGGCAAGATCGAAGATT +TTTCCCGCCGGTTGTGGGGAAAATAACCCCCGGAGTGTAGGCCTGATAAGACGCTATCAGCGTCGCATCA +GGCATCCTGCTCAAATGCCGGATGCGGCGTAAACGCCTTATCCTGCCTGCAAATGCGAAGTTTAACTCCG +CTTATACAGCGGCAACCAAATCACCAGCCGTAAACCGCCCAGCGGGCTGTCTTCTGCCTTCACCCAGCCA +CGATGCTGCTGAATGGCGGTTTCAACAATCGCCAGCCCCAAACCTGTACCGCCAGATTCACGATCGCGTG +CTTCATCGGTACGATAGAACGGACGGAAAATCTGTTCGCGATCTTCCGGGCTAACGCCAGGACCATCGTC +GTCCACCGTAATGGTGATACCGTCTTTATCTACCGCAAAGCCCACTTCAATCTTCGTATGGGAATAACGC +AGAGCATTACGAACAATGTTTTCCAGCGCACTTTCCAGGGCGTTCGGATTGCCGTACAGCGGCCACGGCC +CAGGCGGGAAGTTAACTGTCAACGACTTGCCCATTTGCTCGGCTTCGAACGCCGCGTTATCCAGCACTTC +ACTCCACAACTGGTTGGCTTTGATGGTTTCGCTAACCAGCGCGTTTTTTTGCTGATTACGTGACATCACC +AACAGATCGTTGATCATGCTGTCCAGACGTTGCGCTTCGGTTTCAATACGCTCCAGTTCCTTGCTTTCAC +CGCTACGACGGCGCAGTAACGCCGTACCCAGTTGCAGACGCGTCAGCGGGGTGCGCAGCTCGTGAGAGAT +ATCAGAAAGCAGACGCTGCTGAGAGGTCATCATGCGCTCCAGCGCGGTGACCATCTGGTTAAAACTGGCA +CCTGCGGCAAGGAATTCCTGTGGCCCCGCTTCCAGTTCCGGGTGCTGGCGTAAGTTTCCCTGGGCAACTT +CATCGGCAGCGTTTTTCAGCTTACGCGCCGGTTTTGCCAGACTCCAGGCCAACCACAACAGCAGCGGCGT +ACTGACCAACATGGTGACAATCAGCAGTAATAGCGGGCGGTCAAACAGTAAGTTAATGAAATCGGATTGA +GAACTGCTGGCCGGACGAATCAGATAAAGTTGGTAATTATCTTCGCCATCACGCACGGAGAACGGACCGA +CCAGTTCCACGCGGCCATACTTTTTCTTCTGCGGATGATCGGCGTTATCGGCCTGACCAATAAAGTTACG +AATGATCTGCATTTCGCTGCGTTCAGCGCCGATCACGCGGCCTTCGGTGGTCACCAATAACAAACGCTGT +CCTGGCGGTGCCCACTTATCAATCGCCCGGAACAGACGCCGCCACCACATTAAATCGTTGGGCGGATCGT +TCGCCAGCTCCGCTTCGACATGCTGCTCAATCATCAGCCCCTGACGCTGTTCGCTATCCAGAAGCTCGGT +CATCTGGCGTGAATCGAGCTTGGGTAACATCAAAACCAACATCAACACCAGCGCCAGCGTCAGCCAGAAG +ATGGCGAAGATGCGCGCGGTTAAGCTGCCTATCATGAAGCAGAAACCATCAGATAGCCGCGACCACGCAA +GGTTTTAAACCACGGGTGACCATCTTTACGATCCGGCAGTTTACGACGCAGGTTGGAAATGTGCATATCA +ATAGCGCGGTCGAAAGGCGTCAGGCGTTTGCCCAACACTTCCTGGCTTAAATGTTCACGGGAAACCACCT +GACCCAGATGCTGTGCCAGCAAATAGAGCAGGGTAAACTCAGTACCGGTTAACTCCAGCGTTTGCCCGTC +GAAGCTGGCTTCCTGACGGCCTGGATTCAGCACTAAGGCATCAACTTCCAGTGTCGGTGAACCGTTGTCG +TTGTTTTGCTGTTGCTCGCTCCAGTGCGAACGGCGCAGGATCGCGCGAATACGTGCCACCAGCTCACGAT +CATTAAACGGTTTCGGGAGATAGTCATCTGCGCCCAGCTCAAGGCCGAGAACGCGATCAAGTTCACTGCC +GCGCGCCGTCAACATAATGACAGGCGTCTGGTGTGTCTGGCGAAGTGCTTTTAATGTGTCGATACCATTT +TTCTTCGGCATCATTACGTCAAGCAAAAGTAAATCAATGCTGTCGTCCAGAAGATCAAGCGCCTGTTCCC +CATCGTGGGCAACAATCACGTTGAAGCCTTCCATCTCGAGCAGCTCCTTTAATAGGGAAGTCAGCTCTCG +GTCATCATCAACTAACAGGATTTTATTCATTGTTTAAATACCTCCGAGGCAGAAATTACGTCATCAGACG +TCGCTAATCCATGACTTTACGTTGTTTTACACCCCCTGACGCATGTTTGCAGCCTGAATCGTAAACTCTC +TATCGTTGAATCGCGACAGAAAGATTTTGGGAGCAAATGATGCGCATAGTTACCGCTGCCGTCATGGCCT +CAACGCTGGCAGTCAGTTCATTAAGCCACGCTGCTGAAGTCGGTTCAGGCGATAACTGGCATCCGGGTGA +AGAACTTACGCAGCGCAGTACGCAGAGCCATATGTTCGACGGCATAAGTTTAACCGAACATCAGCGTCAG +CAGATGCGAGATCTTATGCAACAGGCCCGGCACGAACAGCCTCCTGTTAATGTTAGCGAACTGGAGACAA +TGCATCGCCTTGTCACCGCAGAAAATTTTGATGAAAACGCTGTGCGCGCACAGGCAGAAAAAATGGCGAA +TGAGCAAATTGCTCGTCAGGTTGAGATGGCAAAAGTCCGCAACCAAATGTATCGCCTGTTAACGCCGGAG +CAGCAAGCGGTTTTAAACGAGAAACATCAACAACGAATGGAGCAGTTGCGTGACGTGACGCAATGGCAAA +AAAGTTCATCGTTGAAGCTATTGAGTAGTAGCAACTCACGTTCCCAGTAGTAAACCCTGTTTTCCTTGCC +ATAGACACCATCCCTGTCTTCCCCCACATGCTGTGGGGGTTTTTTTTATCCTCAATTTGCCTGCTGCTTA +ATGCATTGCAGATGATTTGCTTCCGTTATACTAGCGTCAGTTGATAGCGGGAGTATTTATGAATCAATCT +TATGGACGGCTGGTCAGTCGGGCGGCGATTGCTGCGACGGCGATGGCTTCGCTGCTATTGCTGATTAAAA +TTTTTGCATGGTGGTATACCGGGTCGGTGAGTATTCTCGCCGCGCTGGTGGATTCGCTGGTGGATATCGG +CGCGTCGTTGACGAATTTATTGGTGGTGCGATATTCCCTGCAACCTGCCGACGATAATCACTCGTTTGGT +CACGGTAAAGCTGAGTCCCTCGCGGCGCTGGCGCAAAGTATGTTTATCTCCGGTTCGGCACTATTCCTGT +TTTTGACGGGTATTCAACATCTGATATCTCCAACACCGATGACAGATCCAGGCGTCGGGGTTATCGTGAC +AATTGTGGCGCTAATTTGTACGATTATCCTTGTCTCGTTTCAGCGTTGGGTGGTGCGGCGGACGCAAAGC +CAGGCGGTGCGGGCTGATATGCTACATTACCAGTCTGATGTTATGATGAACGGCGCAATTCTGCTGGCGC +TGGGGTTGTCCTGGTACGGCTGGCATCGCGCCGATGCTCTGTTTGCATTGGGAATCGGCATCTATATTTT +ATATAGCGCGTTACGCATGGGATATGAGGCGGTACAGTCATTACTGGATCGCGCATTGCCTGATGAGGAA +CGGCAAGAAATTATTGATATCGTGACTTCCTGGCCGGGTGTTAGCGGCGCTCACGATCTTCGCACGCGGC +AGTCAGGGCCGACCCGCTTTATTCAGATTCATTTGGAAATGGAAGACTCTCTGCCTTTGGTTCAGGCACA +TATGGTGGCGGATCAGGTAGAGCAGGCTATTTTACGGCGTTTTCCGGGATCGGATGTAATTATCCATCAG +GACCCCTGTTCCGTCGTACCCAGGGAGGGTAAACGGTCTATGCTTTCATAATCAGTATAAAAGAGAGCCA +GACCCGCATTTTGTGTATAAAATACCGCCATTTGGCCTGACCTGAATCAATTCAGCAGGAAGTGATTGTT +ATACTATTTGCACATTCGTTGGATCACTTCGATGTGCAAGAAGACTTCCGGCAACAGATTTCATTTTGCA +TTCCAAAGTTCAGAGGTAGTCATGATTAAGAAAATCGGTGTGTTGACAAGCGGCGGTGATGCGCCAGGCA +TGAACGCCGCAATTCGCGGGGTTGTTCGTTCTGCGCTGACAGAAGGTCTGGAAGTAATGGGTATTTATGA +CGGCTATCTGGGTCTGTATGAAGACCGTATGGTACAGCTAGACCGTTACAGCGTGTCTGACATGATCAAC +CGTGGCGGTACGTTCCTCGGTTCTGCGCGTTTCCCGGAATTCCGCGACGAGAACATCCGCGCCGTGGCTA +TCGAAAACCTGAAAAAACGTGGTATCGACGCGCTGGTGGTTATCGGCGGTGACGGTTCCTACATGGGTGC +AATGCGTCTGACCGAAATGGGCTTCCCGTGCATCGGTCTGCCGGGCACTATCGACAACGACATCAAAGGC +ACTGACTACACTATCGGTTTCTTCACTGCGCTGAGCACCGTTGTAGAAGCGATCGACCGTCTGCGTGACA +CCTCTTCTTCTCACCAGCGTATTTCCGTGGTGGAAGTGATGGGCCGTTATTGTGGAGATCTGACGTTGGC +TGCGGCCATTGCCGGTGGCTGTGAATTCGTTGTGGTTCCGGAAGTTGAATTCAGCCGTGAAGACCTGGTA +AACGAAATCAAAGCGGGTATCGCGAAAGGTAAAAAACACGCGATCGTGGCGATTACCGAACATATGTGTG +ATGTTGACGAACTGGCGCATTTCATCGAGAAAGAAACCGGTCGTGAAACCCGCGCAACTGTGCTGGGCCA +CATCCAGCGCGGTGGTTCTCCGGTGCCTTACGACCGTATTCTGGCTTCCCGTATGGGCGCTTACGCTATC +GATCTGCTGCTGGCAGGTTACGGCGGTCGTTGTGTAGGTATCCAGAACGAACAGCTGGTTCACCACGACA +TCATCGACGCTATCGAAAACATGAAGCGTCCGTTCAAAGGTGACTGGCTGGACTGCGCGAAAAAACTGTA +TTAATGATTTCGGAAAAAGGCAGATTCCTTTACCCTGAAACCGATGACAGAAGCAAAAATGCCTGATGCG +CTTCGCTTATCAGGCCTACATGAATTCTGCAATTTATTGAATTTGCAAACTTTTGTAGGCCGGATAAGGC +GTTCGCGCCGCATCCGGCATGGACAAAGCGCACTTTGTCAGCAATATGAGGCGGATTTCTTCCGCCTTTT +TAATCCCTCAACATATACCCGCAAGTTATAGCCAATCTTTTTTTATTCTTTAATGTTTGGTTAACCTTCT +GGCACGCTTTGCTCATCACAACACAACATAAGAGAGTCGGGCGATGAACAAGTGGGGCGTAGGGTTAACA +TTTTTGCTGGCGGCAACCAGCGTTATGGCAAAGGATATTCAGCTTCTTAACGTTTCATATGATCCAACGC +GCGAATTGTACGAACAGTACAACAAGGCATTCAGCGCCCACTGGAAACAGCAAACTGGTGATAACGTGGT +GATTCGTCAGTCACACGGTGGCTCAGGTAAACAAGCGACGTCGGTAATCAACGGTATTGAAGCTGATGTT +GTCACGCTGGCTCTGGCCTATGACGTGGACGCAATTGCGGAACGCGGGCGGATTGATAAAGAGTGGATCA +AACGTCTGCCGGATAACTCCGCACCGTACACTTCCACCATTGTTTTCCTGGTACGTAAGGGAAATCCGAA +GCAGATCCATGACTGGAACGATCTGATTAAACCGGGTGTTTCGGTGATCACGCCTAATCCGAAAAGCTCT +GGTGGCGCGCGCTGGAACTACCTGGCAGCCTGGGGCTACGCGCTGCATCACAACAACAACGATCAGGCAA +AAGCACAGGATTTTGTTCGGGCACTGTATAAAAACGTCGAAGTTCTGGATTCTGGCGCGCGTGGCTCCAC +TAACACTTTTGTCGAGCGCGGAATTGGCGATGTACTGATTGCCTGGGAAAACGAAGCTCTGCTGGCAGCG +AATGAACTGGGGAAAGATAAATTCGAAATCGTCACGCCGAGTGAGTCTATCCTCGCAGAGCCAACCGTGT +CGGTGGTCGATAAAGTGGTCGAGAAAAAAGGTACTAAAGAGGTGGCGGAAGCCTACCTGAAATATCTCTA +CTCGCCAGAAGGTCAGGAAATTGCCGCGAAAAACTACTACCGTCCGCGCGACGCTGAGGTGGCGAAAAAG +TACGAAAATGCGTTTCCAAAGCTGAAGTTATTCACCATTGATGAAGAGTTCGGCGGCTGGACGAAAGCGC +AAAAAGAGCATTTTGCTAACGGCGGTACGTTCGATCAGATCAGCAAACGCTGATTTCCCCAGGATAATTA +TCAAACCCGGTGGTTTCTCGCGACCGGGTTTTTTATTTGTCACGATTTTGCGTTACCCTTGCATCTCTTT +GAGGTACAGGGAAAAAAAGATGAAAAAAGCGGGTCTTCTTTTTTTGGTGATGATAGTTATCGCCGTTGTG +GCTGCCGGTATTGGTTACTGGAAATTAACCGGTGAAGAGTCGGATACATTACGTAAGATTGTCCTTGAGG +AATGTTTGCCCAATCAGCAGCAAAATCAAAATCCTTCGCCATGTGCGGAAGTCAAACCCAATGCCGGATA +CGTGGTTTTAAAAGATCTTAATGGCCCACTGCAATATCTGTTGATGCCAACGTATCGTATTAACGGTACT +GAAAGTCCTTTGTTGACCGATCCTTCAACGCCGAACTTCTTTTGGTTGGCTTGGCAGGCGCGTGATTTTA +TGAGCAAAAAATACGGCCAGCCGGTTCCCGATCGCGCGGTTTCTTTGGCGATCAACTCCCGCACCGGGCG +TACGCAAAACCATTTTCATATTCATATCTCTTGTATTCGTCCTGATGTGCGCAAACAGCTGGATAACAAT +CTGGCGAACATCAGCAGCCGCTGGTTGCCACTGCCAGGTGGTTTGCGCGGGCATGAATACCTGGCGCGTC +GGGTAACGGAAAGCGAACTGGTACAACGCAGCCCATTTATGATGCTGGCAGAAGAAGTACCTGAGGCGCG +GGAACATATGGGACGCTACGGGCTGGCGATGGTACGGCAGAGTGATAACTCATTTGTATTGCTGGCGACA +CAACGAAATCTACTGACGCTTAACCGTGCTTCAGCCGAGGAAATTCAGGATCATCAGTGTGAGATTTTGC +GTTAAGGCGAAGAGTTAAGGAAAGTAAGTGCCGGATATGAAATCCGGCACCTGTCAGACTTAAGCCTGTT +TAGCCGCTTCTGCAGCTTTAACGATTACTGCGAAGGCGTCAGCTTTCAGAGAAGCACCACCAACCAGCGC +GCCGTCGATATCCGGCTGAGCAAACAGTTCTGCAGCGTTAGACGCGTTTACAGAGCCGCCGTACTGAATG +ATCACTTGTTCAGCGATGTTAGCGTCAACTTTAGCGATGTGGTCACGGATGAATTTGTGAACAGCCTGTG +CCTGAGCCGGAGTTGCAGATTTGCCAGTACCGATTGCCCATACAGGTTCGTAAGCGATAACCGCACCTTC +GAATGCCGCAGCACCCTGAGTTTTCAGTACCGCGTCGATCTGACGTGCGCAAACTTCTTCAGTTTTGCCC +GCTTCATTTTCAGCTTCGGTTTCACCGATGCACAGAACCGGAGTCAGGCCCTGCTCTTTCAGCACCGCGA +ATTTTTTCGCGATCAGTTCGTCAGATTCTTTGTGGTAAGTACGACGTTCAGAGTGACCGATGATGATGTA +CTGTGCGCCGATGTCTTTCAGCATAGCAGCAGAGGTTTCACCGGTGAATGCGCCGGACAGGTTCAGGTCC +ACGTTTTGCGCACCCAGCATGATGTGGCTGCCTTCAGCTTCGCGCTTCGCCATATCGATATACATTTCCG +GTGGTGCGATTGCAACCGCACAGCCAGCAACACCTGCCAGCTCTTTACGCAGGTTAGAAACCAGCTCGTG +AACCATGTGGCGGCTGCCGTTCAGTTTCCAGTTACCCATCACTAAAGGATGTCGCATTTTAATTCTCCAC +GCTTATAAGCGAATAAAGGAAGATGGCCGCCCCGCAGGGCAGCAGGTCTGTGAAACAGTATAGAGATTCA +TCGGCACAAAGGCTTTGCTTTTTGTCATTTATTCAAACCTTCAAGCGATTCAGATAGCGCCAGCTTAATC +GGTTCAACAGCGAAGGTCAGCCCCTTTTCGCCGTTGTCCGCGACAACATAACGCAGTGCACCTTCTGTCT +CGGTGTAATAACGTTTGTTTTTCCCCGCCGTTAGTAGCGACTGCAGTTTTTTCTGGCTTTGTGTTTTGGT +CATTAATGGGGTGAGTGTGCGGATCACCGCTGCCATGTATTCCTGAGCTTTCGCTTTCGCGGCTTTTTGC +TCTGGCCCCTGGATGGGTAGCCAGGTCATTTGAATGCTTTTGATTTTTAAGGTACCGCGCTCCAGCGCTG +TAGAAGCATACAAGTTCTCATTAATTTTACTTGCAGCACGAGTGAGATTGGCTTTGTCGGGACTGCTGTC +GATGGCACGAAATTCGTTCAGTGGCAGGCTGGGATTCTGGCTGTTAAAGTCTTCTCGAAACTGGCTGATG +GAGAGATCGAAAGTAGGGGCTCCAGCCAGCAGATAAGGCGCGGTCGTTGCCGTATCTGGTGTTTGTGCAT +GCGCCTCTGTTGTAACGGTTAATGCAGAACATAAGAGAAAAAACAGCGTACACCCTGGCTTCATTGACAG +TACCTTTTGTTATGACTGGCTCCGATTAAAACGATATCTGTCGCCCTTGTCAAAAGGGTAGAATCCTGGA +AAAGACAACCATCAAGGAACTTACATGACCATACAGCAATGGTTATTCTCATTTAAAGGGCGTATTGGAC +GCCGTGATTTCTGGATTTGGATAGGCCTGTGGTTCGCAGGCATGCTGGTGCTTTTCTCACTGGCGGGTAA +GAATCTACTCGATATTCAGACCGCGGCGTTTTGCCTTGTGTGCTTGCTCTGGCCAACAGCGGCAGTAACT +GTTAAGCGCTTGCATGATCGCGGGCGTTCCGGCGCATGGGCATTTCTGATGATTGTGGCGTGGATGCTGC +TGGCGGGTAACTGGGCGATTTTACCGGGTGTCTGGCAATGGGCGGTGGGGCGTTTTGTCCCGACGTTGAT +TCTGGTGATGATGCTTATCGATCTTGGTGCGTTTGTTGGCACACAAGGCGAAAATAAATATGGTAAAGAT +ACTCAGGATGTGAAGTATAAAGCCGACAATAAATCAAGTAATTAACCTTTAATATATCTCTTACTGCTAT +TTTTTTCCGGGATTGTTATTTCCACGATGCAAATGACAATACCCGGAAAATCCTTCTGAACTCTTCACCT +TAAGCAATATCAAAAAAAATGGTAATCCATAAGATCATTACTTGTTTGTTCTTCCCTTAACGGCGCATTA +TTCTTAAGTCGTAATCGACAGAGAGGCGAATATACAGAGGTGCCCTATGAAAGATGTCGTAGATAAATGC +AGTACTAAAGGATGTGCGATTGATATCGGTACGGTGATTGATAACGACAACTGTACCAGTAAGTTTTCGC +GCTTTTTTGCCACCCGCGAAGAAGCAGAGTCTTTTATGACCAAACTGAAAGAGCTTGCCGCCGCTACATC +CTCTGCAGATGAAGGGGCCAGCGTGGCCTATAAGATTAAGGATCTGGAGGGGCAAGTTGAGCTTGATGCG +GCCTTCACTTTCTCATGCCAGGCCGAGATGATTATTTTTGAGTTATCACTGCGTTCGTTAGCTTGATGGA +GTTGCTTTAGAAGGAGTTAAACATGGCTTATAAACACATTGGCGTGGCAATTTCCGGGAATGAAGAAGAT +GCCTTACTGGTGAATAAAGCCCTGGAGCTCGCCAGACATAATGACGCTCACCTGACGTTAATTCATATTG +ATGATGGCTTAAGCGAGTTGTATCCGGGTATCTACTTCCCTGCAACAGAAGATATTCTTCAATTGTTGAA +GAATAAGTCGGATAACAAGCTGTATAAACTGACGAAAAATATTCAATGGCCGAAGACAAAACTGCGTATT +GAACGCGGAGAAATGCCGGAAACACTGCTGGAAATTATGCAAAAAGAGCAGTGCGACCTCCTTGTCTGTG +GTCATCATCACTCATTTATCAACCGTTTGATGCCGGCATATCGCGGGATGATCAATAAGATGAGTGCGGA +TTTGCTCATCGTGCCGTTTATCGATAAGTAACCGCTTACCAGTAATGCTCCGCTGTCATATGGCCCGGTC +GGCGACGTAAATGTTTCGTCATCTGCCGGGTCTCTTTCAGCAACTGTTGTGTATCGCGCACCATCTGTGG +ATTGCCGCACAGCATCACATGGCTGGTTTCTTTATTCATCGGCAGGCCAATCGTGCTTTCCAGTTCCCCA +CTTTCAATTAATGCCGGTATCCGTCCGGTGAGCGACCCCGCTGCCGTTTCCCGACTGACCACCGTCTGAA +TGCGCAGTTTTCCTTCGTAGCGTTTTTCCAGTTCCTGCATCAGTGGCAAATAGCTTAAGTCGGCGGCATA +ACGTGCGGCGTGCACCAGGACCAGATTTTTGAAGCGATCTAAATCTTTACCTAGTTGCAGAATCGATAAA +TAAGGGCCAATCGCTGTACCGGTTGCCAGCATCCATAGCGTTTCGCAGTGCGGCACTTCATCGAGCACAA +AGAATCCTGCCGCTTCGCTAACCACCTGCACTTCATCGCCTGGTTTCAGTGCCGCCAGTCGTGGGCTTAA +TTTGCCATCGGGGACGGTGACCAGGTAAAACTCCAGATCGGGATTATCGGGCGAGTTTACATAGGAGTAG +GCGCGCTGGACGCGTTCGCCGTCGATTTCAAGGCCAAGCTTGGTAAATTGCCCGGCGGTAAACGGAAGCA +CGGGGGCGTGAACGGTGAGACTAAACAGGGCGTCGGTCCAGTTCTGCACTTTAGTGACTTTGCCTGTTAC +CCAATCAGCCATGTTTTTCTCCTGTTTTGATTGACTTGCCTTATCTTCGTTCTCCGAACAAAAAAATTCC +AGTCCCGAAGGACTGGAAGGCTCAATCGATCAAATCAATCAGAGGATGTGCACCTGCATTTCCGGGTCTT +TGCGATCCAGATAGTGGATGGACTGAATGCGGCGAATGGTGCGTGACTTGCCGCGGATCAGCAGCGTTTC +GGTAGTCGCGATATTGCCTTTGCGGCTAATGCCTTCCAGCAGATCGCCTTTGGTAATACCGGTGGCAGAG +AAGATGACGTTATCGCTGCGCGCCATATCGCCCAGGCGCAATACTTTACCGGCTTCGATGCCCATCGCTT +TGCAGCGTGCCAGCTCCTGCTCGCCAATGCGACGATTCTCTTCGTTGTCGCCTTTGACGTCATGACGCGC +CAGCAGACGACCGTTCATGTCGCCATCTAATGCGCGGATCACCGCCGCAGAAACTACGCCTTCCGGCGCG +CCACCAATACCGTACAGCACGTCAACTTCGCTGTCTGGCATACAGGTGAGAATTGAGGCCGCAACGTCGC +CGTCCGGAATAGCAAATACGCGTACGCCGAGTTGCTGCATTTCAGCGATAACGGCATCGTGGCGTGGTTT +AGCCAGAATCGTTACCGTCAGTTCGCTCAACGGTTTGCCGAGCGCCGCCGCTACATTGCGCAGGTTATCC +GCCAGCGGCAGGTTCAGATCAATGGTGCCTTTGGCTCCCGGCCCGACAATCAGCTTCTCCATATACATAT +CCGGCGCATTGAGGAAGCAGCCTTTATCGCCTACTGCCAGCACCGCCAGCGCGTTAGCCTGGCCCATCGC +CGTCATGCGCGTGCCTTCAATCGGATCAACAGCAATATCTACCGCGTCGCCGCGACCAGTACCGACTTTT +TCACCAATGTAGAGCATCGGTGCTTCGTCGATTTCACCTTCACCAATGACGATGGTGCCGTCAATGTTGA +CCTGGTTGAGCATAATACGCATGGCGTTTACCGCCGCGCCGTCCGCGGTGTTTTTATCGCCGCGTCCTAA +CCATTTGTAGCCAGCCAGCGCCGCTGATTCGGTGACGCGGGAAAATTCGATGGCAAGTTCTCGTCTCATA +GCAAACTCTAAGCAGTAAGGAATGGCGCGAAGTGTAGCACAGGGGAAGGGAGGGATTATTGATGTGTGCG +GGGTTGCCCCCGCACGTTTCGGGACTACCGGATGCGGCATAAACGCTTCATTCGGCATTTACATTATTCG +TCGTGTTCTTCCCACGCCATCGCGCGTTTAACCGCTTTTTTCCAGCCTGCGTAACGGTAATTACGCTCAG +TGGTTTCGATGCCTGGACGGAACTCGCGCTCAATCACCGCTTTCTCTTGCAGCTCGTCGAGGTTCTGCCA +GAAGCCAACCGCCAGGCCTGCGAGATAGGCCGCACCCAATGCGGTGACTTCGCGCACTTCCGGGCGCTCA +ACGCGGGTGCCGAGAATATCGGACTGGAACTGCATCAGGAAATTGTTTGCTACTGCGCCACCATCCACGC +GCAGGGCGTGCAGACGGATACCAGAGTCGGCCTGCATCGCTTCCAGCACGTCACGCGTCTGATAAGCAAT +AGACTCCAGCGTCGCGCGTATAATGTGGTTAGCGTTCACCCCACGAGTCAGACCGAAAATCGCCCCGCGC +GCATACGGGTCCCAGTACGGCGCACCCAGCCCGGTAAATGCCGGAACCACATACACACCATTGGTGTTTT +GCACTTTGGTGGCGAAATATTCGGAATCGTAGGCGTCGTTAATCAACTTCATTTCATCGCGCAGCCACTG +AATGGATGCGCCTGCCATAAACACCGCACCTTCCAACGCATAGTTCACTTCGCCAGTCGGGCCGCAGGCG +ATGGTGGTCAGCAGGCCGTTTTCTGATTTCACCGCTTTCTCGCCAGTGTTCATCAGCATAAAGCAGCCAG +TGCCATAGGTGTTCTTCGCCATCCCTTCTTTCACGCACAACTGACCAAACAGCGCGGCCTGCTGGTCACC +GGCGATCCCGGAGATTGGAATACGCGTGCCGCCTTTGCCGCCAATGTTAGTCTGACCGTATACTTCGGAA +GAACGACGCACTTCTGGCAGCATCTCGCGCGGAATATCCAGCACTTCCAGCATTTTGTCGTCCCAGTCCA +GGGTATGGATGTTGAACAACATGGTACGAGAGGCGTTGGTGTAATCGGTCACATGGACACGGCCCTGAGT +CATTTTCCAGATAAGCCACGTATCAACCGTACCAAACAGCAATTCACCACGACGTGCACGCTCGCGAGAG +CCTTCCACATGGTCGAGGATCCACTTCACTTTGGTGCCAGAAAAGTACGGGTCAATCACCAGACCGGTAT +TGCTGCGGATATAATCTTCTAAACCGTCACGTTTTAAATGCTCGCAGATTTCTGCGGTACGACGGCACTG +CCAGACAATGGCGTTATAGATAGGCTTGCCGGTTTCTTTTTCCCAGACAATAGTGGTTTCACGCTGGTTC +GTAATACCGATAGCTGCAATTTGATCGGAACTGATATCGGCTTTCGCCAGCACTTCTACCAGCGTGGAGC +TTTGGGTGGCCCAGATTTCCATTGGGTCGTGTTCTACCCAACCTGGTTTTGGGTAGATTTGCTCAAATTC +GCGCTGCGACACGCTAATGATATTGGCATCGTGATCCATTACGACCGCGCGGGAGCTGGTGGTGCCCTGG +TCGAGCGCAACGATATATTTTTTTTCAGTCATGTTTAATTGTCCCGTAGTCATATTACAGCGAAGCTTTT +TGTTCTGAAGGAGTTGTGGTTTCCTTTTCTTCCACAACACAGATATCGCAAGGCAAATGGCGACCAATCA +GTTTGCGGTAGGCAAATGCACCTACAATCGCGCCAACGATAGGGCCGAAAAGCGGCACCAGGAAGTAAGG +AATGTCTCTGCCGCCGGTAAAGGCGACATTGCCCCAGCCCGCCAGCCAGGCAAAGACTTTCGGACCGAAG +TCACGCGCTGGGTTCATGGCAAAACCTGTCAATGGGCCCATAGATGCGCCAATGACCGCAATCAGTAGAC +CAATCAGCAAGGGAGCCAAAGGGCCGCGTGGTACACCGTTGCCATCGTCCGTTAACGCCAGGATCAGCCC +CATCAGAATAGCGGTAATCACCATCTCAACTGCGAAAGCCTGCACAAAATTGATATGAGGATTAGGGTAA +GTAGAGAAAGTGCCAGCCAGATCAACACTTTCAACGCTGCCGCGAACAATGTGATGAGTCTGCTCGAAGT +CGAAAAATAAATTGTAGTAAAGCCCGTAAACTAAAGCCGCAGCACAGAAAGCGCCGGCAACTTGTGAAAC +GATAAAAGGAATAACTTTGCGCTTGTCGAAACAGGCAAACAGCCACAATGCAATGGTAACAGCGGGATTA +AGATGCGCGCCGGAAACCCCTGCGGTCAGGTAGATGGCCATTGCCACCCCCAGTCCCCAAATGACACTGA +TTTCCCACTGACCAAAAGACGCACCAGCGACTTTTAGTGCTGCAACGCAACCCACACCGAAGAAAATCAA +CAACCCGGTACCGAGGAATTCAGCAATGCACTGGCCTTTCAAGGTTGATGTTTGACTCATAATCGGATCC +TGAAGAGTTAATGTTTGTTGTATGCGTGAAAGTCACGGACCTCCACGATGCTTGTAGGCATGCTGTAAAC +TTATCGTTAACGAGCAAAAACGAGAAATATCGAACTTAAAATGTGTGTGCCTCGTCATAAAATGAGCGTT +ATCGCGCCATTTATTCCATCTGATTGTACATGATGCATGTTTGTTAGATCATTCGCGCAACAAATTTATT +AACATTTTCGATTGATGTGGATTATGTCACCAGGAGAAGGATGAAAAGTGTGGCAAACCGTAATCTGCAA +GGCGTGCCGCTGGACAGCGATGGCGCGGCTTCATACAATCGGAGCTAACTAAAGTGCGCTCGTATTTATT +AAGGCGTCACCGGTAATCGGGACGAGGATTTTTATCCATCAACGCCTTGCAATTCAGGAGAGGTATGACA +ATGTCATTAGAAGTGTTTGAGAAACTGGAAGCAAAAGTACAGCAGGCGATTGATACCATCACTCTGTTGC +AGATGGAAATCGAAGAGCTGAAAGAAAAAAACAACTCACTGTCGCAGGAAGTTCAAAATGCCCAGCATCA +GCGCGAAGAGCTGGAGCGTGAGAACAACCATCTGAAAGAACAGCAGAACGGCTGGCAGGAACGTCTGCAG +GCCCTGCTGGGTCGCATGGAAGAGGTCTGATTACGCTTCATCTTCCGCGTAATTTCTTTACTGTGTAGGC +CAACAGGTAACGCAGAAAAAAGGCACCTTGCGGTGCCTTTCTTATCATTCAATATCCAGCGGATCTTCTG +AAAGAATAATCCCGGTATTGTCGGCATAAAGATGGTCGCCGGAGAAGAAGGTGACACCGCCAAAATTGAC +GCGGACATCGCTTTCGCCAATGCCTTCGCCAGCGGCACCAACCGGAATTGCCGCCATCGCCTGGATGCCG +ATATCCAACTCTTCCAGGTCATCTACCTGACGCACCGCGCCGTAAATGACCAGACCTTCCCATTCATTTT +GTACTGCCAGACGCGCCAGTTCAGCATCGACCAGTGCGCGACGAACAGAACCACCGCCATCGACGACAAG +AACACGACCACGGCCATTCTGTTCGAGCAGATCGTACAGCAACCCGTTGTCCTCGAAACATTTTACCGTG +ATTATTTGTCCGCCAAACGACGCCCGTCCGCCAAAGTTGGAGAACAGCGGTTCCACGACGTTAACATCTT +CTTGATAGATGTCACAAAGCTCGGAAGTATCGTATTTCATAGGCTTAACATTCAGTTGCTGCGAGAATTT +TCAGTATATCGCGCTATGTGGGCTGTTGGCAAAATCATCAATTGTTAATTGATATTTGTCAGTTATGCTG +CCCACTGGCTTAGGAATATCCCTAAAACAAACAGCAGGTTAGTCAGTAACGCTCCCTTGACAGTACGTTC +CAGCATTGGTCGCATCGCCACCGGGTCCATTTCCCGCATCACATAACGGGCTTGCTTCACCAGTAATGGT +GCCGCCAGCAGGAACAGCCAGCCCCACAGGCTATGCAGCGAAAAGAGATTAAACAGCGCCAGACACACCA +GCGAGCCCATCAGCAGGCAGGCATGATAACGACGCGCGTTCACTTCACCTAAGCGCACCACCAGCGTGTT +TTTGCCATTTTCGCGGTCGCTATTGATATCACGCAGGTTATTAATATTCAGTACTGCCGTTGCCAGCAGG +CCGCATGCGGTCGCCGGAAGGATCAGTGCCGGAATCAATGTATGAGCCTGTAAATACCAGCTCCCCATGA +CACTCAACCAGCCAAAGAAAACCAGTACGGAAATATCACCCAGACCGATATAACCATAAGGACGATTGCC +CACGGTGTAGGTGATAGCGGCAATGATCGACAACCCGCCAAGAATCAGGAAACCGACAAAATCGGCCAGC +GTATGGCATGCCACTGCAACCAGTGCCAGCCCGGAGAGACAGATGAGCACGACGGTAATAATGAGCGCCC +GTTTCATCTCTTGCTGGGTAATGACCCCTTTTTGCATGCCGCGTAGCGGCCCAATGCGGTCAGGTTTATC +GCTGCCTTTTACCGCATCGCCGTAATCATTGGCGAGGTTAGAAAGGATCTGTAATAGCCCGGCGGTAATT +AGTGCCAGCAGGGCGACCAGCGGATCGAAGTGACCTTGCCACCATGCCAGCGCTGTCCCGACGATAATTG +CAGCAAAGGCGAGGGGGAGGGTTTTAGGTCGTAAACTTTCCAGCCACGCCTGAGTTCGGCTAATTTGTTG +TTCAGTCATAATACGCGCCAATAAAAATGGGGCCTTTCAGCCCCATCAAACAATGATGAAAATGATTGAA +CGCGATTATAGGATAAAACGGCTCAGATCTTCATCTGCCACCAACGCATCCAGATGTTTGCTCACATAAT +CTGCGTCAATAGTGATATTTTGACCGCTTAAATCGCTGGCGTCGTAGGAAATCTCTTCCATTAAACGCTC +CAGAACAGTGTGTAAACGACGAGCACCGATGTTTTCGGTAGATTCGTTCACCTGCCATGCCGCTTCCGCG +ATGCGTTTAATACCGGAGTCGGTAAACTCGATATTTACGCCTTCAGTCGCCATCAGTGCTTTGTACTGCA +CGGTGATAGAGGCATTCGGCTCGGTCAGAATACGCTCGAAGTCGCTGGTGGTCAGCGCCTGCAGTTCAAC +GCGGATTGGCAGACGACCTTGCAGTTCCGGGATCAGGTCAGACGGTTTCGCAATCTGGAACGCGCCAGAA +GCGATAAACAGAATGTGGTCAGTTTTGACCATCCCGTGTTTGGTGGAAACGGTGCAACCTTCTACCAGCG +GCAGCAGGTCACGCTGAACGCCTTCACGAGAAACATCCGGACCGGAAGACTCGCCGCGCTTACAGATTTT +GTCGATTTCGTCGATAAACACGATCCCGTGCTGCTCAACAGCGTCGATAGCGTCTTGCTTCAGCTCTTCC +GGGTTCACCAGTTTCGCCGCTTCTTCTTCAATCAGCAGCTTCATGGCGTCTTTGATTTTCAGCTTACGCG +CTTTTTGCTTCTGGCCGCCCAGGTTCTGGAACATGGACTGCAGCTGGCTGGTCATCTCTTCCATGCCCGG +AGGAGCCATAATTTCAACGCCCATCGGTGCTGCGGCAAGATCGATCTCGATTTCTTTGTCATCAAGCTGG +CCTTCACGCAGTTTTTTGCGGAATGCCTGACGAGCAGCGGACGGTTCCTGCTGCTGTTCGGTCTGTCCCC +AGTTGTTTTTAGCAGGTGGGATCAGCACGTCGAGAATACGTTCTTCTGCCAGTTCTTCAGCGCGATAACG +GTTTTTCTCGATAGCCTGGACGCGTACCATTTTCACGGCGGCATCGGTCAGATCGCGAATAATAGAATCC +ACTTCCTTACCGACGTAGCCCACTTCGGTGAATTTGGTCGCTTCAACTTTGATGAACGGCGCATTCGCCA +GCTTAGCCAGACGACGGGCGATTTCAGTTTTACCGACACCGGTCGGGCCGATCATCAGGATATTTTTCGG +GGTCACTTCATGGCGCAGCTCTTCGTTGAGCTGCATGCGACGCCAGCGGTTACGCAGAGCAATCGCCACA +GAACGCTTGGCGTTGTCCTGGCCGATGATGTGCTTATCCAGTTCGCTGACGATTTCGCGTGGGGTCATTT +CAGACATGGGAGATCCTTACGCTTTGTAGCTTAATTCTTCGATGGTGTGGAAATGGTTGGTATAGATGCA +AATGTCGCCTGCAATATCCAACGCCTTTTCAGCAATTTCACGGGCGCTAAGTTCAGTGTTTTCTAACAGC +GCGCGCGCCGCAGCCTGGGCGTAAGGGCCGCCGGAGCCGATAGCAATAAGATCGTTTTCTGGCTGCACCA +CGTCACCGTTACCGGTGATGATAAGCGATGCAGTTTCATCCGCGACTGCCAGCAGTGCTTCAAGTTTGCG +CAGCATGCGATCGGTACGCCAGTCTTTTGCCAGCTCAACGGCGGCTTTGACCAGATGGCCCTGATGCATT +TCCAGTTTACGTTCAAACAGTTCGAACAGCGTAAAAGCATCCGCAGTACCGCCCGCAAAGCCCGCGATGA +CTTTGTCGTTGTACAGACGGCGGACCTTTTTCACGTTGCCTTTCATTACGGTATTGCCCAACGTGGCCTG +ACCATCACCAGCGATGACCACATGGCCGTTACGGCGTACGCTTACTATAGTTGTCACGAGCTGACCCCTT +GGTTACGAATACAGAGTACAAACCCCGTACAAAAGTACGGGGCATAATGCAATTATAGATGGGGGGGATT +TTGAGGGTTTCAACCCCCGGCGGCGAGCCGAATGCAGTTTGTATGACCCGCCATCTTCAACCGATTGAGG +GTGCTGTCTGCGTTCTCTTTGCCTTTCACCGGGCCAATGACCACACGATTCCAGCCATTGTTGGTGGTGA +TTTTCGAGTCAAAGCCTTCGAACGCCAGCTGAGCACGTACCGTCTCTGCCTGTTCCGCGCCTCTGAACGA +ACCGCACTGCACCATCCAGCGGCGTTCGTCTTTTTTCTCCGCCGTCGGTTTTGGCGCGTCAGCGGCACGA +GCAACTGGCGCAGCTTGCTGCGGCTTCGACTGCGCAGTCGTGTGCGCAGGAGTTTGCAGCAGATCCTGGT +ACGGCTGCTGAGAAGAAGCCGGTTTAGACTGGCGCGGTTGCGCCTGTACCGGTGCGGCTTGCGACGTACG +CGTCTGCTGCTGCCAGCTTTGTTCAGTCGTACGCGACTGCTGAGCCAGGCGTTGCTGTTCCGCTAATTGC +TGCGCCTGACGTTGGCGCTGTAGCGTTTGCTGACGCTGTTCCGGCGTCTGTTCATTCCACGGAACTTCAA +CCAGCTGCGTTGGCTGCTGGCGCATATCAGCCTGCATTTGTTCAAGAAGCTGACGTTGTTCTGGTGTCAG +TTGCTCCGGCGTTTTCACTTCACCACCGGCAGAAGGTTCTGTGGGCGCACGCACTCCCGGCTGGCGACTT +TCCAGCTCTTTAATGTAGCGCCAGCGTTCTTCTGGTTTTGGTGGTAGTCCGTTTCCGGTCACTTTCTGGC +TTTGCAGCGTCTCGGACTCTTCTTTCTTGTGATGCGTAATGAAGTACAGACCACCGATAAAGGTCACAAG +AACGGCGGCAGCAATAGCGACCATAGCGGGAGAAACCGCAGGCAGATTTCGTTGCTTTTTCCGTGAGGTG +CTCTTTTTTCGCCGCGAAGGTGCCGGTTGGCTGCGGCGTACATAATCTCGTTGTGCCACTATCGTTTCGC +TGTATTTATTCGTTCGTCAGCCCGCCATGTTACTTAAGCGGCGGGCCTTTGACCAGTCACGGCAGTCTTA +AAGGTTTACTTTAAGGTAACGCGCGTGTTGATCCCCGGATGATAAGTTCGCAGTCCATTAAACGAGAGCC +ACTGCCAACGTGTTGCCCCTGCATTTGATCAAGCAATAACAGCATAGCTTCCCGACCGATTTCGTAACGC +GGCTGCGCGATGGTTGTCAGCGGCGGATCACAAAATTGCGTCAGGTCGATGTTATCAAAACCGATTATGG +AAAGGTCTTCCGGGACTTTCAGCCCCTGGCGTTTTGCCTGAGAAAGTGCGCCGAGCGCCATCACATCGCT +ATGGCAGAAGACAGCAGTAGGCGGTTGTGGAAGATCAAGCAGCTGCTGCATCGCTTTGCTTCCGGCTTCG +AAGGTGAAGTCGCCACGGGCGATGTATTGCGGATCAACCATAATGCCGCAGCGACGCAGCGCCTGAACAT +AGCCTTGCAGGCGGTAGTGACACAGCGGCATCTCTTCGGGACCGGCTATACAGCCAATCCGTTTATGCCC +TTGCTCATATAAATAATTTACTGCATCAAATGCGGCGGTCAGATTGTCGATATGAACTGTAGGCAGCTCC +AGCTCCGGTGCAAATTCGTTCGCCATCACCATCGGCGGCAGATTACGCTGTTCCTCAATGCTGGCATCAA +ACGGCAGCCTTGAACCCAGCAACAACATGCCATCAATTTGCTTGGTGATGATCAAATCGATAAAGGTTTT +TTCCTGCTGATTTTGATGCGCACAGTCGCCAATCAGCACCAGATATCCGTGATTTGCCGCCGTAACTTCG +ATACCGCGAATAATTTCGCTAAAGAAGGGATCGCAGATATCCGGGACAATCACCAGAATGGTGCGGGATT +CATTACGCTTGACGTTGCGCCCCATAGGCTGCGGTAAATAACCCACTTCCCGGGCCGCTTTTTCAACCCG +ATTACGGGTGGCCTGGGAGACTTTATCGGGATTCATTAATGCTCGGGAGACGGTCGCTGTAGAGACTTTT +GCCTTGAGGGCAACGTCTTTCATGGTCGCGGCAGTTTCCTGCTTCTTCGCTTTCACACTCACTCCTCGCC +TGGCACGTCAGGCGTACTACATCCATGTTTACTTCACATCGGCAACATTTTTAGCAGATAGCGCGTGAAA +ACGGTTACAGAATTTTCATGAAAAGTGTGATGAATATTGAATTTTTCGATCCGCCTCGCATCGTGAGCGG +TTTAACCCTCAATCGGATCAACATCCAGCACCCATTTCACCTTACGGGAATCCGGTATTGTATTGATGAG +CGCCAGCGTACCGTTAATGATGTGTTGCAAGCGCACGCGGGAAGGGTGCTGCAACAATATCTGCCAGCGC +CAGCGACCGCCACGTTTAGGTGCCAGAGCCGGAACCGGACCGAGAACCCACAGTTTCTCGTCTGCCAGTG +GGCTGGAGAGGATCAGATTACGCAGTTGTTGCAGGAACAATGGCGCGTGCTGATTGTTATGATCTTCCGC +ACGCACAATCACATGGCTGGTCCACGGCGGTAGCTGCATCATTCGCCGCTCAGCCAGCGCCTGTTCGGCA +AAGGCGTCGTAGCCTTTATAGAGCAACGTTTGCAACAGAGGATGTTCCGGATGGTGCGTTTGCAGCACCA +CTTCGCCCTGTTTACCCGCACGCCCGGCACGACCGGCGACCTGGGTGTAAAGCTGAGCGAAACGCTCTGC +CGAGCGAAAATCGGCAGAAAACAGCGCGCCGTCCACGTCCAGTAATGCAACCAGCGTCACATCCGGGAAA +TGGTGACCTTTCGCCAGCATTTGTGTACCAATCAAAATCCGCGCGCCGCCGCGATGTACTTCTGCCAGTT +GCTGTTCCAGCGCCCCTTTGCGGCTGGTGGTATCGCGGTCGATACGAGAAATGGGCACGCCGGGGAACAA +CGGCGCGAGCGTCTGTTCAAGCTGTTCGGTGCCCAGCCCCACGGGGACCAGGTGCGTGGAACCGCAGGAA +GGGCACTGGCGCGGCACCGGACGCTGACTGTCACAGTGGTGGCAGCGCAGATGGTGCTGCGCCTGATGCA +GCGTGTAGTAGTGATCGCAACGTGGGCATTCGGCAATCCAGCCACAGTCGTGGCACAGCAGTGCAGGCGC +AAAGCCACGGCGGTTAAGAAAGAGAATGACCTGGTTATCAGCCTGTAAATGCTGGCGCATACGAGTGATT +AACGCCGGAGCCAGACCTGCCTGCACCTTCTGACCTTTTAAATCCAGCACATGTTGAATTGCCGGACGCG +CATTCCCTGCCCGACGGGTCAGGCGCAGCAGGCGGTATTTTTTCTGCTGGACGTTGCATAACGTTTCCAG +CGCGGGCGTTGCGGAGCCAAGAATAATCGGGATTTGCTCGCTGTGCGCACGATACACCGCCAGGTCGCGG +GCATGATAGCGCCAGCCTTCCTGCTGCTTGTAGGAGCTGTCGTGCTCTTCATCAATGACAATCACGCCGA +GATTTTTAAACGGCGTAAACAGCGCGGAGCGGGTGCCGATCACAATCGCCGCCTCACCATTTTTCGCTTT +CAGCCACGCCGAAAGACGCTCGCTGTCGTTCAGGCCGGAATGCAGAACTTCCACGGGGGCATTAAAACGT +TCACGAAAACGGGCGATAGTTTGCGGTGTCAGGCCGATTTCCGGCACCATCACCAGCGCCTGTTTGCCCT +GAGCGAGCACGTTTTCCAGTACGCTGAGATAAACCTCCGTTTTACCGGAACCGGTAACGCCCGCCAGCAG +CCAGGCAGAAAAAGTATCTGCCGCGCTATGAATTGCGCCAACGGCGGTGGCCTGTTCGGTATTCAATCGC +AACCGCTCACCAGAAACGGCATAGTTCGTTCGCCAGTCGCTAAACTCTGGTGTTTCACTTGCTAAATCAC +ACAGACCTTTTTTGCGTAGCGCCTGCAACGCGGCATCATTAAATTCGAGCGTGGCGACCTGGTCGCGCCA +GATTTTGCCTTGCCGTAACGCCGCCAGCGCCTGTTGTTGCTTGGGGGAGCGTTTCAGGCTGTTCAGATCC +ACCGCCTGGCCTTGTTCAGTGGCAAACCAGTACCACATCGGCGCGTTCGCCGCAGGCCGCCCCTGGCGTA +GTAAAATCGGCAAGGCATGAAACAGCACATCGCCAATCGGATGATGATAGTAATCTGCCGCCCATAGCAG +CAATCGCCAGACGGAGTGAGTAAACACCGGCTCACTATCCAGCACTTCGACTACCGCTTTTAGCTCATTG +AGCGGCAGTTCGCTGGCATCGCTAACTGATACCACAATCCCGATGCGCTCCTGCTGTTTGCCAAACGGCA +CGCGCACGCGACACCCAGCTTTAACCGTCATGCCTTCTGGCAGCAGATAGTCAAAGGTACGAGGAAGCGG +AACGGGCAAGGCAACGTGGGCAACGGGCATAGCATCATCCTGACTTGAAATTCGGTGGGTTAGTATACAC +ATTGCCGTAGAAGAGTGCGGATCAGTTTGCATACGCTGGTTAATTTCTGTATGATTTCGCGCCTTCGTAC +GAAATGATCGTATTGAAGCTATACTTTTAACATCGCGTGGTGTCTGGCGTTAGGGCTGGAAGAGCGACGC +GGCCTTAAACCGAGGTTTTCCCATGAAAAAAGATATTCACCCGAAATACGAAGAAATTACTGCTAGCTGC +TCTTGCGGTAACGTAATGAAAATCCGCTCCACCGTTGGTCATGACCTGAACCTCGACGTGTGCAGCAAGT +GCCACCCGTTCTTCACTGGCAAACAGCGTGATGTTGCTACCGGTGGCCGTGTTGACCGCTTCAACAAGCG +TTTCAACATCCCGGGCAGCAAATAAGACCGGATTTCCGAAAAAAGCGCCGCACGGCGCTTTTTTTGTGCC +TGAATTTTGGTCGTATTACCACGAAAACAGCGGCCATTCTTTGGCGACCGTGGTGAGTTGTGGCGCATCG +AAAACGGCTTGTGGCGAGACCACCGTTTCCTCAAGCGGAATATTCTTGCCGTAACGTTCTTTGAGCTTTG +CCTGAACTTGTGGGCTGCTCAGGTCGAACTCTTTCAACTTCTGCTGCTCGCCCACGCGCATTCCCAGCGC +GTTCTGGTAAACCTTCCACACCACTTCCGAACAGTACTGGCGATCGTCGCTCCATGAGAAGCTGAAATCA +TACGGTTTACCGAGATAACGTTTTGCCGTTTGCGCCAGTTTTTGCTGTTGTTCAACACTCAGTCCGCCTT +CAACGCGGCGAACAACGTATTTGCCCTTTTCACCATGGGCGATCCACTGCTTGAGCGGGGTGTATTTCAC +CGGGCCGACTGCTTCAAAAACGTAGGGCTTTTTGTTGCGTATCACCAGCATACCGGTGTGGCTATAATCG +GTATGGGTCGCCAGTTGGATCGCTTTACTTTGCGATGAGCGAGAGATCTGAAAGATGATGTCGCCGGTTT +GTGGCTGCCAGGCAAAGGCAGGTACAGAAACCAGCAGGCTGAGGATCAGCAGCCTGTTTTTCATAGTTAA +ACGTCCATGTATAAAAAGCGGTGGGTCGCAGACAACGTGCTCGTTGTTTATGCCGGATGCGGCGTGAACG +CCTTATCCGGCCTACAAGTTCGTGCAAATTCAATAAATTGCAATATGACGTAGGCCTGATAAGCGTAGCG +CATCAGGCGATTCCACTCCGCGCCGCTCTTTTTTGCTTTAGTATTCCCACGTCTCCGGGTTAATCCCCAT +CTCACGCATGATCTCTTTTGCCGCTTCCGGGATTTCGTCGCTGCGCTCTTTACGCAGATCGGCATCATCC +GGCAAAGGTTGCCCGGTAAAGGCATGCAGAAACGCTTCGCACAGCAGCTCGCTGTTGGTAGCGTGACGCA +GGTTGTTCACCTGACGACGCGTGCGTTCATCGGTGAGGATTTTTAACACCTTAAGAGGAATGGAAACCGT +AATCTTTTTGACTTGTTCACTCTTCTTGCCGTGCTCAGCGTATGGGCTGATATATTCGCCGCTCCATTCA +GCCATGAGATACTTAATCCTCTTCGTCAATAAATTGAGACCAGACCACACAGTTGATGTGGGTACTGACC +GTAAACCCGCATAGTTTACCGTACAGGCGTTACCGTGACATCGTGTAATGCACCTGTCGGCGTGATAATG +CATATAATTTTAACGGCTATTTGGGATTTGCTCAATCTATACGCAAAGAAGTTTAGATGTCCAGATGTAT +TGACGTCCATTAACACAATGTTTACTCTGGTGCCTGACATTTCACCGACAAAGCCCAGGGAACTTCATCA +CATGACGCGTAAACAGGCCACCATCGCAGTGCGTAGCGGGTTAAATGACGACGAACAGTATGGTTGCGTT +GTCCCACCGATCCATCTTTCCAGCACCTATAACTTTACCGGATTTAATGAACCGCGCGCGCATGATTACT +CGCGTCGCGGCAACCCAACGCGCGATGTGGTTCAGCGTGCGCTGGCAGAACTGGAAGGTGGTGCTGGTGC +AGTACTTACTAATACCGGCATGTCCGCGATTCACCTGGTAACGACCGTCTTTTTGAAACCTGGCGATCTG +CTGGTTGCGCCGCACGACTGCTACGGCGGTAGCTATCGCCTGTTCGACAGTCTGGCGAAACGCGGTTGCT +ATCGCGTGTTGTTTGTTGATCAAGGCGATGAACAGGCATTACGGGCAGCGCTGGCAGAAAAACCCAAACT +GGTACTGGTAGAAAGCCCAAGTAATCCATTGTTACGCGTCGTGGATATTGCGAAAATCTGCCATCTGGCA +AGGGAAGTCGGGGCGGTGAGCGTGGTGGATAACACCTTCTTAAGCCCGGCATTACAAAATCCGCTGGCAT +TAGGTGCCGATCTGGTGTTGCATTCATGCACGAAATATCTGAACGGTCACTCAGACGTAGTGGCCGGCGT +GGTGATTGCTAAAGACCCGGACGTTGTCACTGAACTGGCCTGGTGGGCAAACAATATTGGCGTGACGGGC +GGCGCGTTTGACAGCTATCTGCTGCTACGTGGGTTGCGAACGCTGGTGCCGCGTATGGAGCTGGCGCAGC +GCAACGCGCAGGCGATTGTGAAATACCTGCAAACCCAGCCGTTGGTGAAAAAACTGTATCACCCGTCGTT +GCCGGAAAATCAGGGGCATGAAATTGCCGCGCGCCAGCAAAAAGGCTTTGGCGCAATGTTGAGTTTTGAA +CTGGATGGCGATGAGCAGACGCTGCGTCGTTTCCTGGGCGGGCTGTCGTTGTTTACGCTGGCGGAATCAT +TAGGGGGAGTGGAAAGTTTAATCTCTCACGCCGCAACCATGACACATGCAGGCATGGCACCAGAAGCGCG +TGCTGCCGCCGGGATCTCCGAGACGCTGCTGCGTATCTCCACCGGTATTGAAGATGGCGAAGATTTAATT +GCCGACCTGGAAAATGGCTTCCGGGCTGCAAACAAGGGGTAAAAATGAGTGTGATTGCGCAGGCAGGGGC +GAAAGGTCGTCAGCTGCATAAATTTGGTGGCAGTAGTCTGGCTGATGTGAAGTGTTATTTGCGTGTCGCG +GGCATTATGGCGGAGTACTCTCAGCCTGACGATATGATGGTGGTTTCCGCCGCCGGTAGCACCACTAACC +AGTTGATTAACTGGTTGAAACTAAGCCAGACCGATCGTCTCTCTGCGCATCAGGTTCAACAAACGCTGCG +TCGCTATCAGTGCGATCTGATTAGCGGTCTGCTACCCGCTGAAGAAGCCGATAGCCTCATTAGCGCTTTT +GTCAGCGACCTTGAGCGCCTGGCGGCGCTGCTCGACAGCGGTATTAACGACGCAGTGTATGCGGAAGTGG +TGGGCCACGGGGAAGTATGGTCGGCACGTCTGATGTCTGCGGTACTTAATCAACAAGGGCTGCCAGCGGC +CTGGCTTGATGCCCGCGAGTTTTTACGCGCTGAACGCGCCGCACAACCGCAGGTTGATGAAGGGCTTTCT +TACCCGTTGCTGCAACAGCTGCTGGTGCAACATCCGGGCAAACGTCTGGTGGTGACCGGATTTATCAGCC +GCAACAACGCCGGTGAAACGGTGCTGCTGGGGCGTAACGGTTCCGACTATTCCGCGACACAAATCGGTGC +GCTGGCGGGTGTTTCTCGCGTAACCATCTGGAGCGACGTCGCCGGGGTATACAGTGCCGACCCGCGTAAA +GTGAAAGATGCCTGCCTGCTGCCGTTGCTGCGTCTGGATGAGGCCAGCGAACTGGCGCGCCTGGCGGCTC +CCGTTCTTCACGCCCGTACTTTACAGCCGGTTTCTGGCAGCGAAATCGACCTGCAACTGCGCTGTAGCTA +CACGCCGGATCAAGGTTCCACGCGCATTGAACGCGTGCTGGCCTCCGGTACTGGTGCGCGTATTGTCACC +AGCCACGATGATGTCTGTTTGATTGAGTTTCAGGTGCCCGCCAGTCAGGATTTCAAACTGGCGCATAAAG +AGATCGACCAAATCCTGAAACGCGCGCAGGTACGCCCGCTGGCGGTTGGCGTACATAACGATCGCCAGTT +GCTGCAATTTTGCTACACCTCAGAAGTGGCCGACAGTGCGCTGAAAATCCTCGACGAAGCGGGATTACCT +GGCGAACTGCGCCTGCGTCAGGGGCTGGCGCTGGTGGCGATGGTCGGTGCAGGCGTCACCCGTAACCCGC +TGCATTGCCACCGCTTCTGGCAGCAACTGAAAGGCCAGCCGGTCGAATTTACCTGGCAGTCCGATGACGG +CATCAGCCTGGTGGCAGTACTGCGCACCGGCCCGACCGAAAGCCTGATTCAGGGGCTGCATCAGTCCGTC +TTCCGCGCAGAAAAACGCATCGGCCTGGTATTGTTCGGTAAGGGCAATATCGGTTCCCGTTGGCTGGAAC +TGTTCGCCCGTGAGCAGAGCACGCTTTCGGCACGTACCGGCTTTGAGTTTGTGCTGGCAGGTGTGGTGGA +CAGCCGCCGCAGCCTGTTGAGCTATGACGGGCTGGACGCCAGCCGCGCGTTAGCCTTCTTCAACGATGAA +GCGGTTGAGCAGGATGAAGAGTCGTTGTTCCTGTGGATGCGCGCCCATCCGTATGATGATTTAGTGGTGC +TGGACGTTACCGCCAGCCAGCAGCTTGCTGATCAGTATCTTGATTTCGCCAGCCACGGTTTCCACGTTAT +CAGCGCCAACAAACTGGCGGGAGCCAGCGACAGCAATAAATATCGCCAGATCCACGACGCCTTCGAAAAA +ACCGGGCGTCACTGGCTGTACAATGCCACCGTCGGTGCGGGCTTGCCGATCAACCACACCGTGCGCGATC +TGATCGACAGCGGCGATACTATTTTGTCGATCAGCGGGATCTTCTCCGGCACGCTCTCCTGGCTGTTCCT +GCAATTCGACGGTAGCGTGCCGTTTACCGAGCTGGTGGATCAGGCGTGGCAGCAGGGCTTAACCGAACCT +GACCCGCGTGACGATCTCTCTGGCAAAGACGTGATGCGCAAGCTGGTGATTCTGGCGCGTGAAGCAGGTT +ACAACATCGAACCGGATCAGGTACGTGTGGAATCGCTGGTGCCTGCTCATTGCGAAGGCGGCAGCATCGA +CCATTTCTTTGAAAATGGCGATGAACTGAACGAGCAGATGGTGCAACGGCTGGAAGCGGCCCGCGAAATG +GGGCTGGTGCTGCGCTACGTGGCGCGTTTCGATGCCAACGGTAAAGCGCGTGTAGGCGTGGAAGCGGTGC +GTGAAGATCATCCGTTGGCATCACTGCTGCCGTGCGATAACGTCTTTGCCATCGAAAGCCGCTGGTATCG +CGATAACCCTCTGGTGATCCGCGGACCTGGCGCTGGGCGCGACGTCACCGCCGGGGCGATTCAGTCGGAT +ATCAACCGGCTGGCACAGTTGTTGTAATTTCAGAAATTTAATAATGCCCGGTACTCATGTTTTCGGGTTT +ATGGTTTCTAATGAAATATATTGAATTATCATAGGATTAGGCCGGATTAAGCGTTTACGACGAATCCGGC +AAGAAGCAATAAGTACATGGTTAGTTTATATTTGCAGTCCGGTTTGCTTTGCATACCGGATTTTCTTTTT +CTTACCATCCTGAAGTTTTTTCATCTTCCCTGATTTTTCCTCACCATCATTGGTCATTTTTCGGTTGACG +CCCTTCGGCTTTTCCTTCATCTTTACATCTGGACGTCTAAACGGATAGATGTGCACAACACAACATATAA +CTACAAGCGATTGATGAGGTAAGGTATGAGCTTTTTTCACGCCAGCCAGCGGGATGCCCTGAATCAGAGC +CTGGCAGAAGTCCAGGGGCAGATTAACGTTTCGTTCGAGTTTTTCCCGCCGCGTACCAGTGAAATGGAGC +AGACCCTGTGGAACTCCATCGATCGCCTTAGCAGCCTGAAACCGAAGTTTGTATCGGTGACCTATGGCGC +GAACTCCGGCGAGCGCGACCGTACGCACAGCATTATTAAAGGCATTAAAGATCGCACTGGTCTGGAAGCG +GCACCGCATCTTACTTGCATTGATGCGACGCCCGACGAGCTGCGCACCATTGCACGCGACTACTGGAATA +ACGGTATTCGTCATATCGTGGCGCTGCGTGGCGATCTGCCGCCGGGAAGTGGTAAGCCAGAAATGTATGC +TTCTGACCTGGTGACGCTGTTAAAAGAAGTGGCAGATTTCGATATCTCCGTGGCGGCGTATCCGGAAGTT +CACCCGGAAGCAAAAAGCGCTCAGGCGGATTTGCTTAATCTGAAACGCAAAGTGGATGCCGGAGCCAACC +GCGCGATTACTCAGTTCTTCTTCGATGTCGAAAGCTACCTGCGTTTTCGTGACCGCTGTGTATCGGCGGG +CATTGATGTGGAAATTATTCCGGGAATTTTGCCGGTATCTAACTTTAAACAGGCGAAGAAATTTGCCGAT +ATGACCAACGTGCGTATTCCGGCGTGGATGGCGCAAATGTTCGACGGTCTGGATGATGATGCCGAAACCC +GCAAACTGGTTGGCGCGAATATTGCCATGGATATGGTGAAGATTTTAAGCCGTGAAGGAGTGAAAGATTT +CCACTTCTATACGCTTAACCGTGCTGAAATGAGTTACGCGATTTGCCATACGCTGGGGGTTCGACCTGGT +TTATAAATAGTGTGGCTTTTGTGAAAATCACACAGTGATCACAAATTTTAAACAGAGCACAAAATGCTGC +CTCGAAATGAGGGCGGGAAAATAAGGTTATCAGCCTTGTTTTCTCCCTCATTACTTGAAGGATATGAAGC +TAAAACCCTTTTTTATAAAGCATTTGTCCGAATTCGGACATAATCAAAAAAGCTTAATTAAGATCAATTT +GATCTACATCTCTTTAACCAACAATATGTAAGATCTCAACTATCGCATCCGTGGATTAATTCAATTATAA +CTTCTCTCTAACGCTGTGTATCGTAACGGTAACACTGTAGAGGGGAGCACATTGATGAGCACGTCAGACG +ATATCCATAACACCACAGCCACTGGCAAATGCCCGTTCCATCAGGGCGGTCACGACCAGAGTGCGGGGGC +GGGCACAACCACTCGCGACTGGTGGCCAAATCAACTTCGTGTTGACCTGTTAAACCAACATTCTAATCGT +TCTAACCCACTGGGTGAGGACTTTGACTACCGCAAAGAATTCAGCAAATTAGATTACTACGGCCTGAAAA +AAGATCTGAAAGCCCTGTTGACAGAATCTCAACCGTGGTGGCCAGCCGACTGGGGCAGTTACGCCGGTCT +GTTTATTCGTATGGCCTGGCACGGCGCGGGGACTTACCGTTCAATCGATGGACGCGGTGGCGCGGGTCGT +GGTCAGCAACGTTTTGCACCGCTGAACTCCTGGCCGGATAACGTAAGCCTCGATAAAGCGCGTCGCCTGT +TGTGGCCAATCAAACAGAAATATGGTCAGAAAATCTCCTGGGCCGACCTGTTTATCCTCGCGGGTAACGT +GGCGCTAGAAAACTCCGGCTTCCGTACCTTCGGTTTTGGTGCCGGTCGTGAAGACGTCTGGGAACCGGAT +CTGGATGTTAACTGGGGTGATGAAAAAGCCTGGCTGACTCACCGTCATCCGGAAGCGCTGGCGAAAGCAC +CGCTGGGTGCAACCGAGATGGGTCTGATTTACGTTAACCCGGAAGGCCCGGATCACAGCGGCGAACCGCT +TTCTGCGGCAGCAGCTATCCGCGCGACCTTCGGCAACATGGGCATGAACGACGAAGAAACCGTGGCGCTG +ATTGCGGGTGGTCATACGCTGGGTAAAACCCACGGTGCCGGTCCGACATCAAATGTAGGTCCTGATCCAG +AAGCTGCACCGATTGAAGAACAAGGTTTAGGTTGGGCGAGCACTTACGGCAGCGGCGTTGGCGCAGATGC +CATTACCTCTGGTCTGGAAGTAGTCTGGACCCAGACGCCGACCCAGTGGAGCAACTATTTCTTCGAGAAC +CTGTTCAAGTATGAGTGGGTACAGACCCGCAGCCCGGCTGGCGCAATCCAGTTCGAAGCGGTAGACGCAC +CGGAAATTATCCCGGATCCGTTTGATCCGTCGAAGAAACGTAAACCGACAATGCTGGTGACCGACCTGAC +GCTGCGTTTTGATCCTGAGTTCGAGAAGATCTCTCGTCGTTTCCTCAACGATCCGCAGGCGTTCAACGAA +GCCTTTGCCCGTGCCTGGTTCAAACTGACGCACAGGGATATGGGGCCGAAATCTCGCTACATCGGGCCGG +AAGTGCCGAAAGAAGATCTGATCTGGCAAGATCCGCTGCCGCAGCCGATCTACAACCCGACCGAGCAGGA +CATTATCGATCTGAAATTCGCGATTGCGGATTCTGGTCTGTCTGTTAGTGAGCTGGTATCGGTGGCCTGG +GCATCTGCTTCTACCTTCCGTGGTGGCGACAAACGCGGTGGTGCCAACGGTGCGCGTCTGGCATTAATGC +CGCAGCGCGACTGGGATGTGAACGCCGCAGCCGTTCGTGCTCTGCCTGTTCTGGAGAAAATCCAGAAAGA +GTCTGGTAAAGCCTCGCTGGCGGATATCATAGTGCTGGCTGGTGTGGTTGGTGTTGAGAAAGCCGCAAGC +GCCGCAGGTTTGAGCATTCATGTACCGTTTGCGCCGGGTCGCGTTGATGCGCGTCAGGATCAGACTGACA +TTGAGATGTTTGAGCTGCTGGAGCCAATTGCTGACGGTTTCCGTAACTATCGCGCTCGTCTGGACGTTTC +CACCACCGAGTCACTGCTGATCGACAAAGCACAGCAACTGACGCTGACCGCGCCGGAAATGACTGCGCTG +GTGGGCGGCATGCGTGTACTGGGTGCCAACTTCGATGGCAGCAAAAACGGCGTCTTCACTGACCGCGTTG +GCGTATTGAGCAATGACTTCTTCGTGAACTTGCTGGATATGCGTTACGAGTGGAAAGCGACCGACGAATC +GAAAGAGCTGTTCGAAGGCCGTGACCGTGAAACCGGCGAAGTGAAATTTACGGCCAGCCGTGCGGATCTG +GTGTTTGGTTCTAACTCCGTCCTGCGTGCGGTGGCGGAAGTTTACGCCAGTAGCGATGCCCACGAGAAGT +TTGTTAAAGACTTCGTGGCGGCATGGGTGAAAGTGATGAACCTCGACCGTTTCGACCTGCTGTAATCTGA +CCCCGTTCAGCGGCTGCTTGCTGGCAGTCGCTGAACGTTCTTTACCAGCGTATAGTGGGCGAACGAAAAC +TACACACTGGATCTCTCATGTCTGCCGCAGGAAAGAGCAACCCACTGGCAATCAGTGGCCTGGTTGTGCT +CACACTTATCTGGAGTTATAGCTGGATTTTCATGAAGCAAGTCACCAGTTACATCGGTGCCTTCGACTTT +ACCGCCTTACGCTGCATTTTCGGCGCTCTCGTTTTATTCATCGTCCTTTTATTACGTGGTCGCGGAATGC +GCCCGACACCGTTTAAATACACCTTAGCCATTGCCCTGTTACAAACCTGCGGGATGGTTGGTCTGGCGCA +GTGGGCGTTGGTCAGCGGAGGTGCGGGGAAGGTGGCGATCCTGAGCTATACCATGCCGTTCTGGGTGGTG +ATTTTCGCCGCGTTGTTTCTCGGTGAACGCCTGCGACGTGGGCAATATTTCGCGATTCTGATTGCCGCTT +TCGGCTTATTTTTGGTGTTGCAGCCGTGGCAACTCGATTTCTCTTCGATGAAAAGTGCCATGCTGGCAAT +CCTCTCCGGCGTCAGTTGGGGGGCGAGCGCGATTGTTGCTAAACGTCTGTATGCCCGTCATCCGCGCGTG +GATTTATTGTCGTTAACATCCTGGCAGATGCTGTATGCGGCGCTGGTGATGAGTGTGGTCGCTTTACTGG +TGCCGCAACGTGAAATTGACTGGCAGCCCACCGTGTTCTGGGCGCTGGCCTACAGTGCGATTCTGGCGAC +GGCACTGGCGTGGAGCTTATGGTTGTTTGTATTGAAAAACTTGCCTGCCAGTATTGCCAGCTTAAGCACA +CTGGCCGTTCCCGTTTGCGGCGTACTCTTTTCCTGGTGGCTGCTCGGCGAGAATCCGGGGGCCGTTGAAG +GTAGCGGTATTGTGCTGATTGTGCTGGCACTGGCGCTGGTGAGCCGTAAGAAAAAAGAAGCCGTCAGTGT +AAAAAGGATCTGAATTTTTTCTTCATGTGGGGCGATCTCTTATTTAACAAAATAACGATAATGCCCCACC +ATCCGCCAGTTAAACAGCACATCTTCTTCCTGCGCGCCTGCGCCAATGTTATGTATCACCAGCGGCGTAC +CGTCGCGGGCGAAGCCATCTGAAACCACCCCAATATGTGCCAGCCCGTTATCCAGTCGCCAGGAGACAAT +ATCGCCCGCTTGATAGTCACTGGGGTTCTTGCTGGTGGGGCGTGTTTTATCATGGCGGCTAAACCAGGTT +TCCAGATTAGGCACCCGACGGTGATCGATGTTGCTGTCCGGGCGCTTTAACTTCCATTTTTGCGGGTACT +CAGCAAAATTCTTCGCCATATCTTCGTGAACCAGTTTCTGCAAATCGACCTTCTGGCTGCGCAATGCGCG +GATCACCACATCGGAACATACACCGCGTTCTTGCGGAACATCACCGCCAGGATAAGTAAGCTGCACATAC +GCCGGATCGTAAAATAGCGTGCTGCCAATTTGCTGTCTGGCACCGTCTGCGATGGCAAGGTTGGTATTGG +CCTGGATTTGTACCACGGTTGGTGGAACGGCGGGAGATTTTAAGGAGTGGCTGGTAAATGCCGTTAGCAG +GCTGAGCAGCGCCAGTGAAGCTTTCATCTGGTTCGTCCGTGAAAATAAGAGTCACAGATTCGACCTTCCG +GGCTAACGATTGTTCTGTAGAGAAAATGTCCAGAAGCGGATAAAAAATTCCTGAACAACGTGGGAGTTTC +AGATTACTGGCACAGAGTGCCGGATGCGGAGTGAACGCCTTATCCGGCCTACAAAAGCACGCAAATTCAA +TATATTGCAGAGATTGCGTAGGCCTGATAAGCGTAGCGCATCAGGCAATTTTGCGTTCAAACTCCCGGAC +AAGCCGGGAGTTTGGAGTAGGTTATTCCCACTCTTGCAGGAAACGCTGACCGTACTGGTCGGCTACCAGC +AGAGCGGCGTAAACCTGATCTGGCGTCGCGCCGCCAGGCATGTTGTGAATGGTTTCACCTTCTGCACATG +CCGCTTCTGCCACAATTCGCATTTTCGCCGGGACATCTTCTTTAATATCCAGTTGAGCGAGAGTTATTGG +CAAACCTACCGCATGGCTAAGGGCAGCTACGGTTTCGATTTCCTCCACCGGCGCATTTTCCAGAACCAGC +TGCGTCAGCGTACCGAATGCCACTTTTTCACCGTGATAATAGTGATGCGCGTCCGGGATAGCGGTCAGGC +CGTTATGCACTGCGTGCGCCGCAGCCAGACCACCACTTTCAAAACCAACACCGCTCAAATAGGTGTTCGC +TTCAATCACGCGCTCCAGCGCCGGAGTCACTACATGCTGTTCGGCAGCAAGCATCGCTTTTTCGCCTTCT +TCCAGCAGGGTGTTGTAGCACAGTTCAGCCAGTGCCAGCGCAGCCTGGGTGCACTTGCCGCCCGCCATGG +TGGTCGCGCCGCTACGAGAGCAGGCACGCGCTTCAAACCAGGTTGCCAGCGCATCGCCGATACCCGCCGC +TAACAGACGTGCAGGTGCGCCAGCGACGATTTTGGTGTCGACAATGACCATATTCGGGTTATTTGGCAAC +AGCAGATAGCGGTCAAACTCACCCTCATCGGTGTAGATAACAGACAATGCGCTGCACGGTGCATCGGTAG +AGGCGATAGTCGGTGCGATCGCTACCGGAACACCCATGAAATGTGCCAGTGCTTTGGCAGTATCGAGGGT +TTTTCCGCCACCGATACCGAGAATTGCGCCACACTGCGCAGTCTCCGCGATGCCACGCAGACGGTCGATC +TCATTTTGCGAACATTCACCGCCAAACGGCGCAATTTCTACTACCAGTCCAGCATCTTTAAAGCTTTTCT +CGACAGTGGATTGAGCAAAACCTAAAACAAATTTGTCACCCACCACTAACCAGCGTTCTGCCAGCGGCTT +CAGGTATTCGCCCAGACGATTAATCACATCAGCGCCCTGGATGTATTTACCCGGTGATTGAATAATGCGG +TCCATAATTGCTCCTTTAGAGATGAGTAGTGCCAAATGCGGCATTCCAGTCGTGTTCGAACTTCTCTATA +GCTGACTCTACCGCAGGGGTGTTGAGCATTTGTTGCGCTACATCTAAGGGCAGGGTGATGGATTCACATC +CTGCCAGTAAACAGTCCAGCGCCTGACGCGGCGTTTTAAAGCTGGCTGCCAGCACCATGCTTTCTGGCGC +GTGCATTTCTAACAGCGTTTGCAGCTCCTGAACCGTACGAATGCCGTCTCCGCCCTGGGCATCTACGCGG +TTAACATACGGAGCAACGTATTTTGCCCCTGCCAGTGCGGCTAATAACCCTTGTGCGGCGCTATATACAG +CAGTGCCAAGTGTAGTAATACCCTCTTTTTTCAGTATTTTAATTGCTGCCAGACCTTCGGAAGTCACCGG +GATTTTCACCACAATACCCGGAATAGCGTCGCGCAGGCGCTTCGCTTCTTCCACCATCCCCTGCGCGTCG +CGGCTCATGGTCTGAGCAAACAGAATGCCCTCATCACCAATCGCTTTTTGCAGACGCGGCAGCACTTCCC +ATATGGACTCCTTGCTGGCAGCGATAATGCTCGGGTTAGTTGTCACCCCGGCAATGGGGAATATGCGTGC +CAGACGTTCGACTTCTGCGACGTTAGCGGTGTCCAGATACAGTTCCATGATGTTTCCTTTTACAGTTCCA +GTTCATGTTGCAGCAGGCTGGCGATAGCGTCGGCAGAGGCGGCGTTAACCAGCGCGTTACGGAATTCTTC +GTGCATGATGCGGCGAGCGAGGCGCGAGAAAATGCGCATATGCTGATCGCCCGCAGCGTGTTTGTTCAGG +GTTAACATAATGATGAATTGCGCTTCATCATCGCCCCAGCGCACCGGCGCTTGCAGACGCGCCACGCTGA +TGGTGGATTGCTCAATGTGTTCTGATTTGCTGTGTGGAATGGCAAAACTAAAGCCCAGACCGGTAGAGAA +AACGGCCTCGCGCGCCCACAAGTCGGCTTCCAGTTTACGCGGATAGCGGCAGCGGCCCGCCAGCAGCAGG +TTATCGGTCATGCCTTTGAGCACTTCTTCTTTGCTGCGCCAGTCGCTTTCCAGTGTGATGCACTCGGCGG +TGACCAGCGGTGCGTCTTGTTGGGTCATGCGGAATTGCGCCAGCAGGTGTTCTACTTCCAGCGAAGTACG +GCAGGCCATTGCCTGGTTGAGCAACTTGCGGCACTCACGGCTATCAAGTTGCGCCATCCGAGCTTTCGCC +GCCGGAATTGATGGTGCGCTCATGCTGAGTTCATCCAGCCCTAAGCCGACCAGCAACGGCAGCACGGAAC +CTTTCGCTCCCAGCTCACCGCACAGACCAATCCATTTGCCCTGGCGATGCACCGCTTGCACGGCGTAATC +GAGCGCCCGCAAGAATGCCGGATTCAGGCTGTTGTAGTGACGAGTAACCTTAGCGTTATCGCGATCCACC +GCCAGCAGATACTGCGTCAGGTCATTACTACCAATACTAAAGAAATCAATCTCTTCGCAGCATTGATCGA +TGATGAACATCACCGACGGCACTTCCAGCATGATGCCGAGCTGGATTTTCTCATCAAACGGAATGTGTTC +GTTACGTAGTTGCTGTTTGGCTTCCGCCAGTTTTTCTTTCACCCATAAGATCTCTTCCATTGAGGAGATC +ATCGGGATCATGATTTTCAGGCTGCCGTGAGCGGAGGCGCGGAGGATCGACCGTAGCTGCGTGGTAAACA +ACGACGCGTACTCTTCATAAATACGCACGGCGCGATAACCGAGGAACGGGTTTGCCTCTGCGGGAATGTT +CAGATAATCAACGGGTTTGTCGCCGCCAATGTCCATAGTGCGCACAATAATGCTGCGTCCGTTGGCGGAT +TCCAGCGCCTGACAAAAAATGTTGTACAACTCGCTTTCGCCCGGTGCGCTGGTGCGATCCATATAGAGCA +TTTCAGTGCGGAACAAACCAACGCCTTCCGCACCATTGCCGAATGCGGCCTGCGCTTCCACGGAGTGAGC +GATGTTAGCGGCAATTTCAATGCGGATACCGTCAGCGGTACGGGCTTGTTGGGTCAGCCAGACACGCTGT +TGCTCACGCAGGGCGTCCTGTACGCGGGCTTCTTGCTGATAATAACGAGCTACGGCTTCCCCTGGCTCAA +CCACAATCGCCCCGGCGTTGCCGTCGATATAAATCGTTTGTTGCTGCCACGGAGTAAGGGCATCAATATC +CACACCAACCAGCGTTGGAATGTTGAACGAACGGGCAAGGATCACCGTATGTGAGGTGGTGCCGCCGCTT +TTGAGCAACAATCCTTTGAGGTGATTTTTATCCAGTTCGAGGAACTGGCTGGGGGTCAGTTCATCAGCCA +TACAAATGGCGGGCTGCGTCAGTTTGCCCGGTGCCGGGAAGCGTTGCTCACCGTAGATTTGCTGGAGTAA +CTGGAAGCAGACGTCGCGTACGTCCAGGGCACGTTCTTGCAGGTAGCTGCTGCTGGAACGGGAAAACTCT +TCGCAAAAGTGATTCGCGCTGGCAACAATTGCTTCGGCGCAGCTTAATCCGGCGCTGACGCCTGCCAGTA +AATGTTCGCGCAGGGAAGTATCGCCAGCCAGGGATCGGTGAGCTTCCAGAATCGCGCTGGTAGCACCGTC +GCTATCCAGCAGACGAAACTCAATGTTTTTCAGTACCAGCGTCAGGCCGTTTTCCAGTGCGGATTGCTCG +GCGTCAACGCCTTTGGCTGCGGGAAGATTACCCAGCGCATTGAGATCTAAAGAAGAGATCGGCGTCAGAA +TGCCGCCTGCACTACCGCTGCACACGGTGCGGGCGCGGATAATTTGCGGATTCAGATTGGTCAGTGAAAC +CGGCAGTGGTTCCAGTTCGTCAGATTTAACTTCCGCCAGCGGCGCATCGCAGTGGGGGAATTCATCGCGC +AGCCATTGGCTTAAACGCTGGTGCGCTTCCTGTTCGTCGGCCCCGGAAATCAGTAACTGGCAGTTATCGC +CCGCCAGCGTATCGGTGCCAATCAGCGCAAGGGCGCTTTTGGCGTTGCCCTTGCGGTCAGTGCGCAGGTT +ATGCCACTCAATTTGTGATGAAAAAGTATTACACAGCGTTTCAACGTGGCTTGCCGGACGCGCATGTACG +CCGTTAGGTAGCTCACAAATAAATTCCACAATCAGGGCCATTGCCTCTCTCCCGGTACGGTTTTCTGTTT +ACAGGATAAGAGCGCACGGCAACGGCCTGCCATGTGACAAATCTGCCAAAAGCTGGACAAATGTAATGTA +ACCGTCAATTTGCGACGCGTCTCACAAGACGCTGTTTTGCGGCATGCTTCCGGTTTATCGCAAGTTATGA +GGCGGATCGCATTTTTGTACTGATATTACAAAAGTCCAGTAAATGGCCTTTTTATCCACTGTTTGCTCCG +CCTGCGATTGCCTATTGTTTCCTCCATCAAAAATATGGACATGGGCTTTCGCAAGCCCGGGAGCAGCTTA +TGAATGAGTTGGTGCAGATCCTGAAAAATACCCGTCAGCATTTAATGACGGGCGTTTCACACATGATTCC +CTTCGTGGTATCGGGCGGTATTTTGCTGGCGGTTTCCGTCATGTTGTATGGCAAAGGCGCAGTGCCGGAT +GCCGTAGCCGATCCAAATCTGAAAAAACTGTTTGATATCGGCGTTGCGGGCTTGACGCTGATGGTGCCTT +TCCTCGCAGCGTACATCGGTTATTCCATTGCAGAGCGTTCTGCGCTGGCTCCGTGCGCTATCGGTGCCTG +GGTTGGTAACAGCTTTGGTGCGGGCTTCTTTGGTGCACTGATCGCCGGGATTATCGGCGGCATCGTGGTG +CATTACCTGAAGAAAATTCCGGTGCATAAAGTTCTGCGCTCGGTGATGCCTATCTTCATTATTCCTATCG +TCGGCACACTGATTACCGCAGGCATCATGATGTGGGGCTTGGGCGAGCCTGTAGGGGCGTTGACCAACAG +CCTGACTCAGTGGCTTCAGGGGATGCAGCAGGGCAGCATTGTTATGCTGGCGGTGATCATGGGTCTGATG +CTGGCGTTCGATATGGGCGGTCCGGTTAACAAAGTGGCCTATGCCTTCATGCTGATTTGCGTTGCTCAGG +GTGTTTATACCGTGGTGGCCATCGCTGCCGTGGGTATTTGTATCCCGCCGCTGGGGATGGGGCTGGCGAC +GCTGATTGGTCGTAAAAATTTCTCCGCAGAAGAGCGCGAAACCGGCAAAGCGGCACTGGTGATGGGCTGT +GTTGGCGTTACTGAAGGGGCGATTCCTTTCGCCGCTGCCGATCCGCTGCGTGTCATTCCTTCCATCATGG +TCGGTTCAGTTTGTGGTGCAGTAACTGCGGCGCTGGTCGGTGCGCAGTGCTATGCAGGCTGGGGTGGTCT +GATTGTGCTGCCGGTGGTTGAAGGCAAGCTGGGTTATATCGCAGCAGTGGCTGTCGGAGCAGTGGTGACG +GCTGTTTGTGTGAACGTGCTGAAAAGTCTGGCGCGTAAAAATGGGTCTTCGACTGATGAAAAAGAAGACG +ACCTGGATTTGGATTTTGAAATTAATTAATTGAGGAACGAGCCATGACGAAAATTATTGCAGTAACCGCA +TGTCCTTCAGGTGTTGCCCATACCTATATGGCAGCAGAGGCGCTGGAAAGTGCCGCGAAAGCGAAAGGCT +GGGAAGTGAAAGTAGAAACCCAGGGGTCAATTGGTCTGGAAAATGAACTGACTGCGGAAGATGTGGCGAG +CGCTGATATGGTGATTCTGACCAAAGATATCGGCATCAAGTTTGAAGAGCGTTTTGCTGGCAAGACCATC +GTGCGCGTCAACATCAGCGATGCAGTAAAACGTGCTGACGCCATTATGAGCAAAATTGAAGCTCACCTGG +CGCAAACCGCTTAAGTTCTTCTCCCGCTCGCAAGGGCGGGTTCGCTTTCCCACAGGAGTTCCTCATGACG +AATCGTATCTCTCGCCTCAAAACTGCACTGTTTGCCAATACCCGTGAAATCTCGCTGGAGCGGGCGCTGC +TTTATACCGCCAGCCATCGGCAAACCGAAGGCGAACCGGTGATATTGCGCCGGGCGAAAGCAACAGCGTA +TATCCTTGAACATGTTGAAATTTCGATTCGTGATGAAGAACTGATTGCCGGTAACCGCACCGTAAAACCG +CGCGCCGGGATTATGTCGCCGGAAATGGACCCTTACTGGCTGCTGAAAGAGCTGGATCAATTCCCGACGC +GTCCGCAGGACCGCTTTGCTATCAGCGAAGAAGATAAACGTATCTACCGTGAAGAGTTGTTCCCGTACTG +GGAAAAACGTTCGATGAAAGATTTCATCAACGGGCAGATGACAGATGAAGTAAAAGCCGCGACCAACACG +CAGATTTTCAGCATCAACCAGACGGATAAAGGCCAGGGGCACATTATTATTGATTACCCACGCCTGTTGA +ATCACGGGCTGGGTGAGCTGGTGGCACAGATGCAGCAACATTGTCAGCAACAGCCGGAGAATCACTTTTA +TCAGGCCGCGTTGTTACTGCTGGAAGCCTCGCAGAAACACATTTTGCGTTACGCCGAACTGGCGGAAACG +ATGGCGGCAAACTGCACAGATGCCCAGCGTCGCGAAGAGCTGCTGACTATTGCAGAGATCTCCCGCCATA +ACGCGCAACATAAGCCGCAGACGTTCTGGCAGGCGTGCCAGTTATTCTGGTACATGAACATCATTCTGCA +ATACGAATCCAACGCCAGTTCGCTATCGTTGGGGCGCTTCGACCAGTATATGTTGCCGTTCTATCAGACA +TCATTAACCCAGGGCGAAGATGCGGCGTTCCTGAAAGAACTGCTCGAATCTTTATGGGTGAAATGCAACG +ACATCGTGCTGTTGCGCTCCACCAGTAGCGCGCGTTATTTCGCCGGTTTCCCGACCGGCTATACCGCACT +GCTCGGCGGGTTAACCGAGAACGGACGTAGCGCGGTGAACGTGCTTTCGTTCCTTTGCCTTGACGCCTAT +CAAAGCGTGCAATTACCGCAACCGAACCTCGGCGTGCGCACTAACGCCTTGATCGACACGCCGTTCCTGA +TGAAAACCGCCGAAACCATTCGCTTCGGTACCGGTATTCCGCAAATCTTTAACGATGAAGTGGTGGTGCC +AGCGTTCCTCAACCGTGGCGTTTCGCTGGAAGATGCGCGCGACTATTCCGTAGTGGGCTGTGTGGAATTA +TCTATTCCCGGCAGAACCTACGGCTTGCATGACATCGCGATGTTTAATCTGCTGAAAGTGATGGAAATCT +GCCTGCATGAAAATGAAGGCAATGCTGCGCTGACTTATGAAGGTTTACTGGAGCAGATCCGCGCCAAGAT +CAGCCACTACATCACCCTGATGGTTGAGGGCAGCAATATTTGTGATATCGGCCATCGCGACTGGGCACCT +GTACCGCTGCTCTCATCGTTTATCAGCGATTGTCTGGAAAAAGGCCGCGATATTACCGATGGCGGCGCGC +GTTATAACTTCTCCGGCGTACAGGGGATCGGTATCGCCAACCTGAGCGATTCTCTCCATGCGTTGAAAGG +GATGGTTTTTGAGCAACAGCGTTTAAGTTTTGACGAATTGCTGTCGGTATTAAAAGCCAACTTCGCAACG +CCAGAAGGCGAAAAAGTCCGCGCTCGCTTAATTAACCGCTTCGAGAAATACGGTAACGATATCGACGAGG +TGGATAACATCAGCGCCGAACTGTTGCGCCACTACTGCAAAGAAGTGGAAAAATACCAGAACCCGCGCGG +CGGCTACTTCACGCCGGGATCGTATACCGTTTCTGCTCACGTCCCGTTGGGATCGGTGGTTGGCGCGACG +CCAGACGGTCGTTTTGCCGGAGAACAGCTGGCAGACGGCGGCTTGTCACCCATGCTGGGCCAGGACGCAC +AAGGGCCAACAGCGGTACTGAAGTCAGTCAGTAAGCTCGATAACACGCTGCTGTCTAACGGTACGTTGCT +GAACGTGAAATTCACTCCGGCGACCCTGGAAGGTGAAGCAGGATTACGCAAACTGGCCGACTTCTTACGG +GCGTTTACCCAGCTTAAGTTACAACATATTCAGTTTAACGTGGTGAACGCCGACACGTTGCGGGAAGCGC +AACAGCGCCCACAAGATTATGCCGGGCTGGTGGTGCGCGTTGCCGGATACAGCGCCTTCTTTGTCGAACT +GTCGAAGGAGATCCAGGATGACATCATCCGCCGGACAGCGCATCAGCTGTAACGTTGTGGAAACGCGCCG +CGATGATGTGGCGCGCATTTTCAACATTCAGCGTTATTCACTGAATGACGGCGAGGGCATTCGTACGGTG +GTCTTTTTTAAAGGCTGTCCGCATCTTTGCCCGTGGTGTGCTAATCCGGAGTCGATCTCCGGCAAAATCC +AGACGGTACGCAGAGAGGCGAAATGTCTGCACTGTGCGAAATGTTTGCGTGATGCGGATGAATGCCCCTC +CGGGGCGTTTGAACGGATTGGTCGCGATATCAGCCTTGACGCTCTGGAACGGGAAGTGATGAAAGATGAC +ATTTTCTTTCGCACGTCCGGCGGCGGCGTCACGCTTTCTGGCGGCGAAGTGTTAATGCAGGCGGAGTTTG +CTACCCGTTTTTTACAGCGACTGCGGCTGTGGGGTGTGTCATGCGCCATTGAAACTGCCGGAGACGCACC +AGCCAGCAAGCTATTACCGCTGGCGAAATTGTGCGATGAAGTGTTGTTCGATTTAAAAATTATGGACGCG +ACTCAGGCGCGGGATGTGGTGAAGATGAACCTGCCACGCGTGCTGGAGAATCTGCGTTTGCTGGTGAGTG +AGGGCGTCAACGTGATCCCGCGTTTACCGCTGATCCCTGGTTTCACGCTCAGCCGGGAGAATATGCAGCA +GGCGCTGGATGTACTGATCCCGCTGAATATCAGGCAGATCCATCTGTTACCGTTTCATCAGTACGGCGAA +CCGAAATACCGCCTGCTGGGGAAAACATGGTCGATGAAAGAGGTGCCTGCGCCGTCGTCAGCTGATGTGG +CAACGATGCGCGAAATGGCAGAACGGGCCGGACTTCAGGTTACCGTGGGAGGTTAAAATGGCATACCTGG +TGGCAGTAACCGCCTGCGTAAGCGGCGTGGCGCATACTTATATGGCGGCGGAACGGCTGGAAAAGTTGTG +CCTGTTAGAGAAGTGGGGAGTCAGCATTGAAACTCAGGGCGCGCTGGGAACGGAGAATCGTTTAGCGGAT +GAGGATATCCGCCGGGCGGATGTTGCTCTGTTGATTACGGATATCGAGCTTGCCGGTGCCGAGCGATTTG +AACATTGCCGCTATGTGCAATGCAGCATCTACGCATTCCTGCGTGAGCCGCAGCGGGTAATGAGCGCGGT +GCGCAAAGTGCTTTCTGCGCCGCAGCAAACCCATCTTATTCTGGAGTAGTCGGTTTTTCTGTCAGTTGGC +TGTGGTACTGCCGGCGATATTCCGACGGCGAGCGTTCGGTGTTTTTACGAAACAGACGGCAGAAGTAGTT +GCTGTCGACAAAGCCGCAGGCGTGCGCCACTTCTTTTACCTTCAGGTCATAGCCTTTCAATAACGTCTTA +GCGTGCTCCAGTCGCGTGTGATTCAGGTATTCGTTAAAACCAATGGCCCCCGTTTTTTGAAACAGGTGCG +AGAGGTAATTTGGCGAAATATAAAACGCCTGTGCAACAGATTCGCGGGTAAGCGCGGAGGCATAGCGTTC +GTCGATATAATCGCGAATAGCTTCAAATAGTGCCTGGCTGCGTGAGGCGGTCTGGATTTGGCTGCCAAGC +AAATCGCGGCAGTGGCTAAGCAGGCTGGCGACGATAAGCCTTGCCGTTTGCTGCTCCTGCGGCTGCATTT +GCATTTCATTGAGCGTTTGTAGCAGAAAAGAACCTATGCGTGGGCCGCGTCGGGCGACGTGTTGCTTCGC +CAGATTTTGATATTGTTTGCCATCCCATTGCACGACGCTGAAGCCGAGTTGCTGTTTGCCAAACAGCACG +CTAAAGGTAGTAGCGGGGGCTTGCCATTGTGGAAAATTCCAGCCACCAGCAGGAACGTACAGCACATCGC +CGGGAACTAACGTTGCTCCAGCGCCGGTATCAACAAACTCACCTTCCAGCACAATTTCCAGCCGTGGAAA +ATCGACCTGATACGCAAGATCGGGCACCGGGCCGTTACTGCTGGCAAAGTAAATCTGGCGCAGGGACAGC +GGGCCGTTGATCAGGCGGGAGAGCAGATAGCTGACGTCGTGATACATGTTATTCCCTTAGGTATGTAGAC +GGGAAAACAGTAACTGGCATTATTAAAAAAGGCCACCTGAAAAGTGTGGCCTGAGGGGAGTTCGATGTAA +ACATTGCGGCAGTTGTATTGCCGGATGTGGCGTAAACGCCTTATCCAGCCTACCGCCGCGATCTGTAGGC +CGGATAAGACGCGTCAAGCGTCGCATCCGGCAAATAGCGCCTGGCTGATAATTACTGATTACCCACCTGA +TCGCCATAGGGCAGTGTGTCGTAATCGATCAGTGCGTTTTTCTTATACGGGTTACCAATCCAGCGGGTAG +TTTCTTTGAACTGCGGATTCACCACTGAACGGGTTGGATCGTAACCGTCGTAAGATAAGCCCGCCAAATC +TGACCAGGTGTGGATCAGTTCCGCCAGGCTGTATTTACGATCAACATCCTGCGAGAAATCACGGGGATGA +GTCGCTTGCCATTTTTCTGACGTCCACAGCAGGAACGGAATGGTGTACATATGACGCGTCGGGTTGTCCT +CATTACGCCCCTGAGTTTTGTGCGGCGGCGTGTCGTAAACCTCTTCACCGTGGTCAGAGAAATAAACCAG +GAAACCGTTCGGGTTTGCTGCTTTAAAGTCTTTAATCAGGCTGGCAACCACATGATCGTTATACAGGTTA +GCGTTGTCATAATCGTTATATGACTCCAGCTCTTCCGCGTTTAATCCCGGCGGAACATGATCGGTATTGC +CATCAAACTTGCCCTGATTTTCCGGGTAGCGGTATTTGTATTTGATATGCGTACCCAGCAGATGAACAAT +GATCAGTTTCTTCGGCGCAGGGTCATTCAGCACTTCCTGGAACGGCTTCAGCACGTTGGTGTCGTATTCA +CGCGCACTCTGCGTACGTTGCTGGTTCATGTAGTACTGCTTGTCGGTCTGGCGCGAAAATACCGTCAGCA +TGGTATTGCGGGCGGTCATCGTCTGCTGGTTGGTGATCCAGAAGGTTTTATAACCCGCCTGTTTCATCAT +GTTCATCAGCGACGGCTGCGTCAGATACAGATCCGGGTTCTTTTCATTGGCAAAGGTCAGCGCCTGTTGC +AGGATTTCAATGGTGTACGGACGAGACGTAACTACGTTATTAAACACGGTCAGATTCGGATCGGTTTTAT +GCAGCGCATCCAGCTCCGGCGTGGTTTCACGCGGATAACCGTACAGACTCATGCGTCCGCGCTGGGTCGA +CTCGCCAATCACCAGCACTAAAGTGCGCGGTTCGTTACCCGATTCATCTTTGAAATTAGCCAGTGGCGGC +AAGGCATTATTTTCATTCAGTAACTTTGTTAGCGAGTTTAGTTGCTGACGATACTGATAATAGCCGGTCA +GGAATTGCCACGGTGCGGCAGGCTCCATACGCGAGGCCAGGTTATCCAACGTTTTCTCAAACGGCTTGTT +TTTGATAAACGTATTCATGGCGATCGGATGCAGAATCAAGCCATAAAGCAGGGCAAAAGAGACAACATAA +CGCCACGGCTTTGGAATATAGACCGGGCGCAGGCGTGTCCACAGCAGAACTGCCACCGCCGTATAGGCCA +GCGCGATAAGCACAATTTTCAGGCTGAAATACTGGCTTAAATACTCGCTGGCTTCGTTGGTGTTGGTTTC +GAACATCACAAACAGAACGCTCTGCGAGAACTCCTGACCGTAGATGACGTAGTAGCACAGCGCCGCCAGA +GAGGCCGCCCATAGCACCACGCCGATTACTGCGGCAATAATTTTAATCCGCTTCGGAAAGAGGAATACCG +GGATCAACCACAGCGAACTGAATAACAGCGAGTCGCGAATGCCGTTAGTGCCACTATAACCACTGATGTA +AATAATGGCCTGTAGCAGAGTAGAGAAAAACCAAAAGTAGAGCAGTGCCCAACCCAGGGCTTTCCAGCTA +AAAAGAGGTTTAGCCTGGACTTCTGTGGAATGCATAGTAAGAACCTGTCTTGAAAAAATATCGCCGAATG +TAACGACAATTCCTTAAGGATATCTGAAGGTATATTCAGAATTTGAATAAAATGCAGACAGAAATATATT +GAAAACGAGGGTGTTAGAACAGAAGTATTTCAGAAAACCCTCGCGCAAAAGCACGAGGGTTTGCAGAAGA +GGAAGATTAGCCGGTATTACGCATACCTGCCGCAATCCCGGCAATAGTGACCATTAACGCTTGTTCGACG +CGAGGATCCGGTTCCTGGCCTTCTTTTTCTGCCTGGCGGGAGCGGTGCAGCAACTCGGCCTGCAATACGT +TCAGCGGGTCGGTGTAAATATTCCGTAGCTGAATAGACTCTGCAATCCACGGCAGATCGGCCATCAGATG +GGAATCGTTGGCAATCGCCAGCACCACTTTGATGTCTTCTTCTTGCAGGTTGCGTAACTCTTTACCTAAC +GGCCACAGTGCTTTGTCTACCAGGCGTTGGTCATAGTATTCCGCCAGCCACAGGTCTGCTTTGGCGAAGA +CCATCTCCAGCATGCCGAGACGCGTCGAGAAGAATGGCCAATCGCGGCACATAGCCTCCAGCTCGCTCTG +TTTGCCGTCTTCGACCACTTTTTGCAGCGCCGTACCTGCACCCAGCCAGGCGGGGAGCATCAGACGGTTT +TGCGTCCAGGCGAAGATCCACGGAATGGCGCGTAGTGACTCGACGCCGCCGGTTGGGCGACGTTTCGCCG +GACGTGAACCCAACGGCAGTTTGCCCAGTTCTTGTTCCGGCGTAGCGGAGCGGAAGTAAGGCACAAAATC +TTTGTTTTCACGTACGTAGCCGCGGTAGACATCGCAGGAGATGACTGACAGTTCATCCATAATGCGACGC +CAGCTCTCTTTCGGCTCCGGCGGTGGCAGCAGGTTGGCTTCCAGAATCGCCCCGGTATAAAGCGACAGGC +TGCTGACGGTGATTTCTGGCAGACCATATTTAAAGCGGATCATCTCGCCCTGTTCGGTTACGCGCAGGCC +GCCTTTCAGGCTTCCTGGCGGTTGTGACAGCAGCGCCGCATGAGCAGGTGCGCCGCCGCGACCAATGGAA +CCGCCGCGACCGTGGAACAACGTCAGCTCAATACCCGCTTTTTCGCAGGTTTTGATTAATGCATCCTGTG +CCTGATATTGCGCCCAGGAAGCTGCCATCACTCCCGCATCTTTTGCTGAGTCGGAATAGCCAATCATCAC +CATCTGTTTGCCCTGAATCAGGCCACGATACCAGTCAATATTGAGCAGCTGGGTCATGACATCGTTGGCG +TTGTTCAGATCATCGAGGGTTTCAAACAGCGGAGCAACCGGCATCGCAAACCCGATACCCGCTTCTTTCA +GCAGCAGGTGGACAGCCAGTACGTCGGACGGCGTTTTCGCCATCGAGATCACGTAGGCGGCAATGGAGCC +TTGCGGTGCTTCGGCAATCACCTGGCAGGTATCGAGCACTTCGCGCGTTTCGGCGCTTGGTTGCCAGTTG +CGCGGCAGAAGCGGACGTTTGGAGTTCAGTTCGCGGATCAGGAACGCCTGTTTGTCGGCCTCTGACCAGC +TTTCGTAGTCGCCGATACCGAGGTAGCGGGTCAGCTCGCCCAGCGCTTCGGTATGACGCGTGCTCTCCTG +ACGGATATCAATACGGACCAGCGGTACGCCGAAACATTTCACGCGGCGCAGGGTGTCGAGCAGATCGCCG +TTGGCGATAATACCCATGCCACACGCCTGAAGTGACTGGTAGCAAGCGTAGAGCGGTTCCCACAGTTCTT +CGTTTTGTGTCAGCAGGCCTTCTGGTTTTGGCAGTTCTTCGCCTTTCAGGCGCGCTTCCAGCCATGCCTG +TGTCGCCATCAGGCGAGAACGCAGGTTTTTCATCAGATAGCGATACGGTTCTGCGGCACCTTCTTCGCCA +ACCAGCGCCAGCAGTTCAGGGGTCGCTTCAACCATCGACAGTTCAGAAACCAGCACCTGAATATCTTTCA +GGAACAAATCGGTGGCTTTCCAGCGGCTGAGTAGCAGGACGTGGCGGGTGATATCGGCAGTGACGTTCGG +GTTGCCGTCGCGGTCGCCGCCCATCCACGAAGTAAAACGGACCGGAACAAATTCGACGGGCAGTTTGTAG +CCGAGGTTCTCTTCCAGTTGTTCGTTCAGTTCGCGCAGGTAATTTGGTACGCCTTGCCACAGGCTGTTTT +CCACTACGGCAAAGCCCCATTTGGCTTCATCTACCGGGCTTGGACGCAGCTTACGGATTTCATCGGTATG +CCATGACTGGGCGATCAACTGGCGCAGGCGACGCATCAGCTGGTTGTGTTCGTAGTCAGCGATATCTTTG +TTATCGAGCTGTTTTAAACAGGCGTTCACTTCCACCATTTTGTGGATCAGTGTACGACGGGTAATTTCGG +TTGGGTGAGCCGTGAGGACCAGTTCCAGCGACAGCGATTCCACTGCTTTTTTGATGGTGTCTTCGCTCAG +TTCCGGCTGGTTTTTCAGTTTACGCAGGGTGCGGGCGATCACTTCCGGGTTGCTGGCAGCTTCGCCTTTC +GGCGAAATGCTGTGGTATTGCTCGGCGGTGTTGGCCAGGTTCAGGAACTGACTAAACGCACGCGCAACGG +GCAGCAGCTCGTCGTTCGACAAATTTTGTAAGGTGGTGAGCAACTCCTGGCGGTTAGCATCATTGCCAGC +GCGTGAAGATTTCGACAACTTACGGATAGTTTCTACGCGTTCAAGAATGTGTTCTCCCAACGCATCCTTG +ATGGTTTCTCCCAGCACTTTGCCGAGCATACTGACATTACTACGCAATGCGGAATATTGTTCGTTCATAT +TACCCCAGACACCCCATCTTATCGTTTGATAGCCCTGTATCCTTCACGTCGCATTGGCGCGAATATGCTC +GGGCTTTGCTTTTCGTCGTCTTTTATAAAGCCACGTAAAAGCGGTGACGTCAAATGCTGCGAAATCGCTT +CAGCAAACGAATAAATAGCAGGAATTTACGTCATTAAATTCACGACGCTTTAAATAAGCGTAACTTATGG +AAATGTTAAAAAATCGCCCCAAGTAACACCAAAGGTGTAGGTCGGATAAGATGCGCAAGTATCGCATCCG +ACATTATTGCGGCACTGGAGTTTGGCAACAGTGCCGGATGCGGCGCGAGCGCCTTATCCGGCCTACAGTT +GGGCATCGTTTGAGTCACTGTCGGTCGGATAAGATGCGCAAGTATCGCATCCGACATTATTGCGGCACTG +GAGTTTGGCAACAGTGCCGGATGCGGCGCGAGCGCCTTATCCGGCCTACGGTTGGGCATCGTTTGAGTCA +CTGTAGGTCGGATAAGATGCGCAAGCATCGCATCCGACATTATTGCGGCACTGGAGTTTGGCAACAGCGC +CGGATGCGGCGCGAGCGCCTTATCCGGCCTACGTTTTAATGCCAGCAAAAATGGTGAATTACCTGGGTTA +TCAGTTCGCGGGTGGGCTTGATAAACCGTGTTTCCAGATATTCATCAGGTTGATGAGCCTGATTAATTGA +GCCAGGCCCCAACACCAGCGTCGGGCATAACGTTTGAATAAACGGCGCTTCGGTACAGTAGTTCACCACT +TCGGTTTTTGCTCCGAGCAATTTCTCAACCACTTCAACCAGTTGATGATTCGGTGGGCATTCATAGCCAG +GGATCGGCGGATGCAGCTCGTCGACCGTCAGACGACCCGGCCAGCGTTCGCTCACCGGAGCCAATGCATC +GTTGAGCAAACCATTAAGTTCATTGAGTGTCATGCCAGGCAGCGGACGAATATCCATATGCAACTCACAG +CAAGCGCAAATACGGTTAGAAGCGTCGCCACCGTGAATATGCCCGAGGTTGAGCGTAGGGTATGGCACGG +TAAACGCTTCGTAGTGATAACGTTCTTTCAGGTTATCGCGCAATTGCAAAATATGCCCGATGGCGTCGTG +CATTAGTTCGATAGCGTTAACTCCGCGTGCTGGATCGCTGGAGTGCCCCGACTGGCCCTGAATACGGATG +GCGTTAGAGATATGACCTTTATGTGCGCGTACCGGTTGTAGTGACGTCGGTTCGCCAATGATGGCGCAAT +CCGGGCGCAGGGCGGTAGTTTCGGCAAAATAACGCGCTCCGGCCATACTGGTTTCTTCATCAGCAGTCGC +CAGAATGTAGAGCGGTTTTTTCAGTTTCGTGACGTCGACATCGCGTAGCGCATCAAGGATAAACGCAAAA +AAGCCTTTCATGTCGGCGGTGCCTAAGCCGTAAAGCTTGCCGTCATGCTCCGTCAGTGTAAACGGATCGC +GCGTCCAGCGACCGTCATCAAATGGCACCGTATCGGTATGCCCCGCCAGCAACAAGCCGCCAGCCCCCTG +TCCGATACTTGCCAGCATATTGAATTTGTTGCGAGTTCCTGGAACAGGCTGCACTTCCACATTGAAGCCC +AAATCTTTAAACCAGTCCGCCAGCAGAGTGATTAAATCTGCATTGCTTTGATCGAGTGCCTCTTCCGTGG +CGCTTATTGAAGGTGTGGCAATCAGAGCGCGGTAAATCTCGATAAATGGCGGTAATTTGTTTTTCATTGT +TGACACACCTCTGGTCATGATAGTATCAATATTCATGCAGTATTTATGAATAAAAATACACTAACGTTGA +GCGTAATAAAACCCACCAGCCGTAAGGTGAATGTTTTACGTTTAACCTGGCAACCAGACATAAGAAGGTG +AATAGCCCCGATGTTGAATACGCTGATTGTGGGTGCCAGCGGCTACGCTGGCGCAGAGCTAGTGACCTAT +GTAAATCGCCATCCGCATATGAACATAACCGCTTTGACTGTTTCAGCGCAAAGCAATGATGCGGGAAAGT +TAATCTCCGATTTGCATCCGCAGCTAAAAGGCATCGTTGATCTGCCGTTGCAGCCGATGTCGGATATCAG +CGAGTTTAGCCCAGGGGTGGACGTAGTGTTTCTCGCCACCGCCCATGAAGTTAGCCACGATTTAGCGCCG +CAGTTTCTTGAAGCGGGCTGCGTGGTGTTCGACCTTTCCGGCGCGTTTCGTGTTAACGACGCCACCTTCT +ATGAAAAATATTACGGCTTTACCCATCAATACCCGGAACTGTTGGAACAGGCAGCCTACGGTCTGGCGGA +GTGGTGCGGTAATAAATTAAAAGAAGCGAATTTGATTGCGGTGCCGGGCTGTTATCCGACGGCGGCACAG +CTGGCGCTGAAACCGTTGATTGATGCCGATCTTCTTGACCTCAATCAGTGGCCGGTGATCAACGCCACCA +GCGGCGTGAGCGGTGCAGGGCGTAAAGCGGCCATTTCAAACAGCTTTTGTGAAGTTAGCCTGCAACCGTA +TGGCGTCTTTACTCATCGCCATCAACCAGAGATCGCCACACACCTCGGTGCTGACGTTATCTTCACCCCA +CATCTGGGCAATTTCCCGCGCGGCATTCTCGAAACCATTACCTGCCGCCTGAAATCGGGTGTGACCCAGG +CGCAAGTCGCGCAAGTGTTACAGCAGGCGTATGCCCATAAACCGCTGGTGCGGCTGTATGACAAAGGCGT +TCCGGCGCTGAAAAATGTCGTTGGGCTGCCATTTTGCGATATCGGGTTTGCCGTTCAGGGCGAGCATCTG +ATTATTGTGGCGACCGAAGACAACTTACTGAAAGGCGCGGCGGCACAAGCGGTACAGTGCGCCAATATTC +GTTTCGGCTATGCGGAAACGCAGTCTCTTATTTAAGGGTGCAATGATGAATCCATTAATTATCAAACTGG +GCGGCGTACTGCTGGATAGTGAAGAGGCGCTGGAACGTCTGTTTAGCGCACTGGTGAATTATCGTGAGTC +ACATCAGCGTCCGCTGGTGATTGTGCACGGCGGCGGTTGCGTGGTGGATGAGCTGATGAAAGGGCTGAAT +CTGCCGGTGAAAAAGAAAAACGGCCTGCGGGTGACGCCTGCTGATCAGATAGACATTATCACCGGAGCAC +TGGCGGGAACGGCAAATAAAACCCTGTTGGCATGGGCGAAGAAACATCAGATTGCGGCCGTAGGTTTGTT +TCTCGGTGACGGCGACAGCGTCAAAGTGACCCAGCTTGATGAAGAGTTAGGTCATGTTGGACTGGCGCAG +CCAGGTTCGCCTAAGCTTATCAACTCCTTGCTGGAGAACGGTTATCTGCCGGTGGTCAGCTCCATTGGCG +TAACAGACGAAGGGCAACTGATGAACGTCAATGCCGACCAGGCGGCAACGGCGCTGGCGGCAACGCTGGG +CGCGGATCTGATTTTGCTCTCCGACGTCAGCGGCATTCTCGACGGCAAAGGGCAACGCATTGCCGAAATG +ACCGCCGCGAAAGCAGAACAACTGATTGAGCAGGGCATTATTACTGACGGCATGATAGTGAAAGTGAACG +CGGCGCTGGATGCGGCCCGCACGCTGGGCCGTCCGGTAGATATCGCCTCCTGGCGTCATGCGGAGCAGCT +TCCGGCACTGTTTAACGGTATGCCGATGGGTACGCGGATTTTAGCTTAAGTTTTGTTGGCCGGAGGCGCA +GCTTTCCGGCATTGAATTTCAAAATAAGGAAACAGAGTTATGGCACTTTGGGGCGGGCGTTTTACCCAGG +CAGCAGATCAACGGTTCAAACAATTCAACGACTCACTGCGCTTTGATTACCGTCTGGCGGAGCAGGATAT +TGTTGGCTCTGTGGCCTGGTCCAAAGCCCTGGTCACGGTAGGCGTGTTAACCGCAGAAGAGCAGGCGCAA +CTGGAAGAGGCGCTGAACGTGTTGCTGGAAGATGTTCGCGCCAGGCCACAACAAATCCTTGAAAGCGACG +CCGAAGATATCCATAGCTGGGTGGAAGGCAAACTGATCGACAAAGTGGGCCAGTTAGGCAAAAAGCTGCA +TACCGGGCGTAGCCGTAATGATCAGGTAGCGACTGACCTGAAACTGTGGTGCAAAGATACCGTTAGCGAG +TTACTGACGGCTAACCGGCAGCTGCAATCGGCGCTGGTGGAAACCGCACAAAACAATCAGGACGCGGTAA +TGCCAGGTTACACTCACCTGCAACGCGCCCAGCCGGTGACGTTCGCGCACTGGTGCCTGGCCTATGTTGA +GATGCTGGCGCGTGATGAAAGCCGTTTGCAGGATGCGCTTAAGCGTCTGGATGTCAGCCCGCTAGGCTGT +GGCGCGCTGGCGGGAACGGCCTATGAAATCGACCGTGAACAGTTAGCAGGCTGGCTGGGCTTTGCTTCGG +CGACCCGTAACAGTCTCGACAGCGTTTCTGACCGTGACCATGTGTTGGAACTGCTTTCTGCTGCCGCTAT +CGGCATGGTGCATCTGTCGCGTTTTGCTGAAGATCTGATTTTCTTTAACACCGGCGAAGCGGGGTTTGTG +GAGCTTTCTGACCGCGTGACTTCCGGTTCATCATTAATGCCGCAGAAGAAAAACCCGGATGCGCTGGAGC +TGATTCGCGGTAAATGCGGCCGGGTGCAGGGGGCGTTAACCGGCATGATGATGACGCTGAAAGGTTTGCC +GCTGGCTTACAACAAAGATATGCAGGAAGACAAAGAAGGTCTGTTCGACGCGCTCGATACCTGGCTGGAC +TGCCTGCATATGGCGGCGCTGGTGCTGGACGGCATTCAGGTGAAACGTCCACGTTGCCAGGAAGCGGCTC +AGCAGGGTTACGCCAACGCCACCGAACTGGCGGATTATCTGGTGGCGAAAGGCGTACCGTTCCGCGAGGC +GCACCATATTGTTGGTGAAGCGGTGGTGGAAGCCATTCGTCAGGGCAAACCGCTGGAAGATCTGCCGCTC +AGTGAGTTGCAGAAATTCAGTCAGGTGATTGACGAAGATGTCTATCCGATTCTGTCGCTGCAATCGTGCC +TCGACAAGCGTGCGGCAAAAGGCGGCGTCTCACCGCAGCAGGTGGCGCAGGCGATTGCTTTTGCGCAGGC +TCGGTTAGGGTAAGAACATTTATATGTATAAATTTGAGCCTGGCTTATCGCCGGGCTTTTTTATGGCAAA +AAAAAGCGGATCCTGGAGATCCGCAAAAGTTCACGTTGGCTTTAGTTATTCGAGTTGAGAAACTCTCGAA +ACGGGCAGTGACTTCAAGGGTTAAAAGAGGTGCCGCTCCGTTTCTGTGAGCAATTATCAGTCAGAATGCT +TGATAGGGATAATCGTTCATTGCTATTCTACCTATCGCCATGAACTATCGTGGCGATGGAGGATGGATAA +TGAATATTCGTGATCTTGAGTACCTGGTGGCATTGGCTGAACACCGCCATTTTCGGCGTGCGGCAGATTC +CTGCCACGTTAGCCAGCCGACGCTTAGCGGGCAAATTCGTAAGCTGGAAGATGAGCTGGGCGTGATGTTG +CTGGAGCGGACCAGCCGTAAAGTGTTGTTCACCCAGGCGGGAATGCTGCTGGTGGATCAGGCGCGTACCG +TGCTGCGTGAGGTGAAAGTCCTTAAAGAGATGGCAAGCCAGCAGGGCGAGACGATGTCCGGACCGCTGCA +CATTGGTTTGATTCCCACAGTTGGACCGTACCTGCTACCGCATATTATCCCTATGCTGCACCAGACCTTT +CCAAAGCTGGAAATGTATCTGCATGAAGCACAGACCCACCAGTTACTGGCGCAACTGGACAGCGGCAAAC +TCGATTGCGTGATCCTCGCGCTGGTGAAAGAGAGCGAAGCATTCATTGAAGTGCCGTTGTTTGATGAGCC +AATGTTGCTGGCTATCTATGAAGATCACCCGTGGGCGAACCGCGAATGCGTACCGATGGCCGATCTGGCA +GGGGAAAAACTGCTGATGCTGGAAGATGGTCACTGTTTGCGCGATCAGGCAATGGGTTTCTGTTTTGAAG +CCGGGGCGGATGAAGATACACACTTCCGCGCGACCAGCCTGGAAACTCTGCGCAACATGGTGGCGGCAGG +TAGCGGGATCACTTTACTGCCAGCGCTGGCTGTGCCGCCGGAGCGCAAACGCGATGGGGTTGTTTATCTG +CCGTGCATTAAGCCGGAACCACGCCGCACTATTGGCCTGGTTTATCGTCCTGGCTCACCGCTGCGCAGCC +GCTATGAGCAGCTGGCAGAGGCCATCCGCGCAAGAATGGATGGCCATTTCGATAAAGTTTTAAAACAGGC +GGTTTAAACCGTTTAACGCAGCTACCCGATAGGCTTCCGCCATCGTCGGGTAGTTAAAGGTGGTGTTGAC +GAAGTACTCAATAGTGTTGCCGCCACCTTTCTGTTCCATAATCGCCTGACCGATATGAATAATTTCGGCA +GCGCGCTCGCCAAAGCAGTGAATACCCAGAATCTCTTTTGTTTCCCGATGGAACAAAATTTTCAGCGTGC +CCACGTTCATGCCGACGATTTGTGCGCGTGCCAGATGTTTAAACTGGGCGCGGCCCACTTCATATGGCAC +TTTCATTGCGGTCAGCTGCTGTTCGGTTTTGCCCACAGAGCTGATTTCCGGGATGGTGTAAATACCGGTA +GGGATATCTTCAATCAGATGTGCGGTGGCTTCGCCTTTTACCAGCGCCTGCGCGGCAATGCGCCCCTGGT +CATAGGCCGCCGACGCCAGGCTCGGATAACCAATCACGTCGCCCACCGCGTAAACGTGTGGCTGTGCGGT +CTGATACATGCTGTTGACCTTCAGCTGTCCGCGGCTGTCAGTTTCTAGCCCAATGTTCTGTAACGCCAGC +GAATCGGTATTACCGGTGCGACCGTTGGCATAGAGCAGGCAGTCAGCTTTCAGTTTTTTACCCGACTTCA +GATGCATGATCACACCATCGTCACAGCCTTCGATCTTCTCGTACTCTTCGTTGTGACGAATCACTACGCC +ACTGTTCCAGAAGTGATAGGAGAGAGAATCTGACATCTCTTGATCGAGAAATGCCAGCAGGCGATCGCGG +GTGTTGATCAGATCCACTTTTACATCCATACCGCGGAAGATCGACGCATATTCACAGCCGATCACTCCAG +CACCATAGATAAGTACATGGCGCGGTTCGTGGTGCATGCTGAGAATTGAGTCGCTGTCGTAAATGCGTGG +ATGGGTGAAATCAACATCTGTTGGATGATATGGACGAGAGCCGCAGGCAATAACAAATTTTTCAGCGGTT +AGTGTTTCAACGCTGCCGTCCGGGCAATCCAGCGCCAACGTATGCTCGTCAACAAAGCGAGCGTTTCCCT +GCAATATTTCACAGTGATTACGTTCGTAAAATCCCTGACGCATGCGCGTTTGTTGATTAATCACGTTATC +GGCATGGTTAAGGATATCGGCAAAAGAAGAGCGGAGCAGTCGGGAATGGTCGCTGTAAAGTGGGTTTTGA +TTGAATTCTATAATGCGGCTGACGGCGTGACGGAGAGCTTTCGACGGGATGGTGCCCCAGTGGGTGCAAC +CGCCGCCAACATTTTGATAACGCTCGATAACTGCGACGCGCGCACCTTGCTTAACCAGGCCCATTGCAGC +GCCTTCGCCGCCGGGGCCGGAACCTATTACTATGGCATCGTAATCGTAGGAATGTGGCATGGTAGGGCTT +ACCTGTTCTTATACATAAAAGCAACAGAATGGTAACATTTTATCGCGGGTAAGCCAATTGATCCCCGTCA +TTTATCTGGCTATATCCTGAGCGGCCTTTGCTTTGTCTGTTTCTTACTTTTGCCCTGACGTTTTATTGGA +TTTTTATCGACGATACTCTCCGTTTAAGCGGCAGGTTTCCGCTGTACGTAAAAGAACCGGCCAAAGAATT +GCAGTAAATATGTTTTATTGCGTTACCGTTCATTCACAATACTGGAGCAATCCAGTATGTTCATTCTCTG +GTATAGTGCCAGCAGTACTTTTGGCAAGGATTCAGACATCGTGATGGGCGTAAGAGCGCAACAAAAAGAA +AAAACCCGCCGTTCGCTGGTGGAAGCCGCATTTAGCCAATTAAGTGCTGAACGCAGCTTCGCCAGCCTGA +GTTTGCGTGAAGTGGCGCGTGAAGCGGGCATTGCTCCCACCTCTTTTTATCGGCATTTCCGCGACGTAGA +CGAACTGGGTCTGACCATGGTTGATGAGAGCGGTTTAATGCTACGCCAACTCATGCGCCAGGCGCGTCAG +CGTATCGCCAAAGGCGGGAGTGTGATCCGCACCTCGGTCTCCACATTTATGGAGTTCATCGGTAATAATC +CTAACGCCTTCCGGTTATTATTGCGGGAACGCTCCGGCACCTCCGCTGCGTTTCGTGCCGCCGTTGCGCG +TGAAATTCAGCACTTCATTGCGGAACTTGCGGACTATCTGGAACTCGAAAACCATATGCCGCGTGCGTTT +ACTGAAGCGCAAGCCGAAGCAATGGTGACAATTGTCTTCAGTGCGGGTGCCGAGGCGTTGGACGTCGGCG +TCGAACAACGTCGGCAATTAGAAGAGCGACTGGTACTGCAACTGCGAATGATTTCGAAAGGGGCTTATTA +CTGGTATCGCCGTGAACAAGAGAAAACCGCAATTATTCCGGGAAATGTGAAGGACGAGTAATGAAACAAG +CAAATCAAGATAGAGGTACGCTGCTGCTGGCGTTAGTTGCTGGCTTATCGATTAATGGTACTTTCGCAGC +GCTGTTTAGCTCCATTGTGCCATTTTCTGTATTCCCGATTATTTCCCTGGTGCTGACGGTTTACTGCCTG +CATCAACGTTATCTTAATCGCACTATGCCGGTAGGCTTGCCGGGTCTGGCAGCTGCCTGTTTTATTCTCG +GCGTACTGCTGTACAGCACGGTAGTTCGTGCGGAATATCCGGATATCGGCTCTAACTTCTTCCCGGCAGT +ACTCTCCGTCATTATGGTGTTCTGGATTGGCGCGAAGATGCGTAACCGTAAGCAGGAAGTTGCTGAGTAA +TCGGTATTATGCCGGATGCTGGCGCATCCGGCATGGGTTTTACTTCGCGGTCAGTAATACGCCGCACTCC +ATATGGTGCGTGTAGGGGAACTGATCAAACAGAGCCAGACGTTCGACCTTGTGCGTCTGGCTTAATGTTT +CCAGATTCTTGCATAACGTTTCCGGGTTACAGGAGATGTACAAAATACGCGGATACGCCTGCACCATTTT +CTCGGTTTCACTGTCCAGACCGCTGCGCGGAGGGTCGACAAAAATGGTTTCGCACTGATAACTCTTTAAG +TCGATCCCTTGCAGGCGGTTAAACTCGCGCACACCATTCATCGCCTGAGTAAATTCTTCTGCCGCCATAC +GAATAATTTGTACGTTATCAATATGGTTAGCTGCGATGTTGTATTGCGCAGCAGCAACCGACGGCTTAGC +GATTTCGGTGGCTAATACCCGATCAAAATTACGCGCCAGCGCTAATGAAAAGTTACCGTTGCCGCAGTAC +AGCTCCAGTAAATCGCCTTTTGAGCCTTTGGTTACGTCCAGCGCCCATTCCAGCATCTGAATATTCATCG +CCGCGTTCGGCTGGGTAAAGCTGTTTTCTACCTGACGGTAGATCATCTCTTTCCCTGCGACCGGCAGACG +TTCATCGATGTAATCCTGATCCAGCTCGATTTTGGTTTTCGTTGCCCGACCAATCAGATGCACATTCAGA +TTCTGCGCGCGCAGTGCATCGCGCAGGGCCTCCGCTTCCTGACGCCACTCATCATCCAGCTTCTTATGGT +ATAGCAGGGAAACCACCGCCTGATTACTCAGTGTAGTGAGGTAATCAATCTGGAACAACTTGTGGCGCAG +AACGGGATTATTACGCACACCCGCAATCATCGCCGTCATCAACTGGTTGATAAGTTCACTGGCGGCGGGG +AAGCTATCCACGCGGATGCGGCTTTTGGTTTGTTGATCGAAAATGATGTGATACAGGTCATCGCCATCGT +GCCAGATGCGGAACTCCGCGCGCATCCGGTAATGACTGACCGGCGAGCGAAACACTTCCGGAACCAGGTC +AGAAAACGGTGCCATCATACTTTGCAAACGTACCACTTTTTCGGCTAACTGCGCTTCATACTGTTCTGTT +GGAAGGTGTTCGGGGGTCATGATGTATCCTGAAAAATTAAAGTACGCGGCGATTGTAGGGATTGCTCATC +AGATGTCCAGATCTTGATGAATTCCTATTTGTGAGCTACGTCTGGACAGTAACTTGTTACAACCTGTAGC +ATCCACTTGCCGGTCCTGTGAGTTAATAGGGAATCCAGTGCGAATCTGGAGCTGACGCGCAGCGGTAAGG +AAAGGTGCGATGATTGCGTTATGCGGACACTGCCATTCGGTGGGAAGTCATCATCTCTTAGTATCTTAGA +TACCCCTCCAAGCCCGAAGACCTGCCGGCCAACGTCGCATCTGGTTCTCATCATCGCGTAATATTGATGA +AACCTGCGGCATCCTTCTTCTATTGTGGATGCTTTACAATGATTAAAAAAGCTTCGCTGCTGACGGCGTG +TTCCGTCACGGCATTTTCCGCTTGGGCACAGGATACCAGCCCGGATACTCTCGTCGTTACTGCTAACCGT +TTTGAACAGCCGCGCAGCACTGTGCTTGCACCAACCACCGTTGTGACCCGTCAGGATATCGACCGCTGGC +AGTCGACCTCGGTCAATGATGTGCTGCGCCGTCTTCCGGGCGTCGATATCACCCAAAACGGCGGTTCAGG +TCAGCTCTCATCTATTTTTATTCGCGGTACAAATGCCAGTCATGTGTTGGTGTTAATTGATGGCGTACGC +CTGAATCTGGCGGGGGTGAGTGGTTCTGCCGACCTTAGCCAGTTCCCTATTGCGCTTGTCCAGCGTGTTG +AATATATCCGTGGGCCGCGCTCCGCTGTTTATGGTTCCGATGCAATAGGCGGGGTGGTGAATATCATCAC +GACGCGCGATGAACCCGGAACGGAAATTTCAGCAGGGTGGGGAAGCAATAGTTATCAGAACTATGATGTC +TCTACGCAGCAACAACTGGGGGATAAGACACGGGTAACGCTGTTGGGCGATTATGCCCATACTCATGGTT +ATGATGTTGTTGCCTATGGTAATACCGGAACGCAAGCGCAGACAGATAACGATGGTTTTTTAAGTAAAAC +GCTTTATGGCGCGCTGGAGCATAACTTTACTGATGCCTGGAGCGGCTTTGTGCGCGGCTATGGCTATGAT +AACCGTACCAATTATGACGCGTATTATTCTCCCGGTTCACCGTTGCTCGATACCCGTAAACTCTATAGCC +AAAGTTGGGACGCCGGGCTGCGCTATAACGGCGAACTGATTAAATCACAACTCATTACCAGCTATAGCCA +TAGCAAAGATTACAACTACGATCCCCATTATGGTCGTTATGATTCGTCGGCGACGCTCGATGAGATGAAG +CAATACACCGTCCAGTGGGCAAACAATGTCATCGTTGGTCACGGTAGTATTGGTGCGGGTGTCGACTGGC +AGAAACAGACTACGACGCCGGGTACAGGTTATGTTGAGGATGGATATGATCAACGTAATACCGGCATCTA +TCTGACCGGGCTGCAACAAGTCGGCGATTTTACCTTTGAAGGCGCAGCACGCAGTGACGATAACTCACAG +TTTGGTCGTCATGGAACCTGGCAAACCAGCGCCGGTTGGGAATTCATCGAAGGTTATCGCTTCATTGCTT +CCTACGGGACATCTTATAAGGCACCAAATCTGGGGCAACTGTATGGCTTCTACGGAAATCCGAATCTGGA +CCCGGAGAAAAGCAAACAGTGGGAAGGCGCGTTTGAAGGCTTAACCGCTGGGGTGAACTGGCGTATTTCC +GGATATCGTAACGATGTCAGTGACTTGATCGATTATGATGATCACACCCTGAAATATTACAACGAAGGGA +AAGCGCGGATTAAGGGCGTCGAGGCGACCGCCAATTTTGATACCGGACCACTGACGCATACTGTGAGTTA +TGATTATGTCGATGCGCGCAATGCGATTACCGACACGCCGTTGTTACGCCGTGCTAAACAGCAGGTGAAA +TACCAGCTCGACTGGCAGTTGTATGACTTCGACTGGGGTATTACTTATCAGTATTTAGGCACTCGCTATG +ATAAGGATTACTCATCTTATCCTTATCAAACCGTTAAAATGGGCGGTGTGAGCTTGTGGGATCTTGCGGT +TGCGTATCCGGTCACCTCTCACCTGACAGTTCGTGGTAAAATAGCCAACCTGTTCGACAAAGATTATGAG +ACAGTCTATGGCTACCAAACTGCAGGACGGGAATACACCTTGTCTGGCAGCTACACCTTCTGAACCACGT +CCCACCGTGCTGGTGTTTGACTCCGGCGTCGGTGGGTTGTCGGTCTATGACGAGATCCGGCATCTCTTAC +CGGATCTCCATTACATTTATGCTTTCGATAACGTCGCTTTCCCGTATGGCGAAAAAAGCGAAGCGTTTAT +TGTTGAGCGAGTGGTGGCAATTGTCACCGCGGTGCAAGAACGTTATCCCCTTGCGCTGGCTGTGGTCGCT +TGCAACACTGCCAGTACCGTTTCACTTCCTGCATTACGCGAAAAGTTCGACTTCCCGGTTGTTGGTGTCG +TGCCGGCGATTAAACCTGCTGCACGTCTGACGGCAAATGGCATTGTCGGATTACTGGCAACCCGCGGAAC +AGTTAAACGTTCTTATACTCATGAGCTGATCGCGCGTTTCGCTAATGAATGCCAGATAGAAATGCTGGGC +TCGGCAGAGATGGTTGAGTTGGCTGAAGCGAAGCTACATGGCGAAGATGTTTCTCTGGATGCACTAAAAC +GTATCCTACGCCCGTGGTTAAGAATGAAAGAGCCGCCAGATACCGTTGTATTGGGTTGCACCCATTTCCC +TCTACTACAAGAAGAACTGTTACAAGTGCTGCCAGAGGGAACCCGGCTGGTGGATTCTGGCGCAGCGATT +GCTCGCCGAACGGCCTGGTTGTTAGAACATGAAGCCCCGGATGCAAAATCTGCCGATGCGAATATTGCCT +TTTGTATGGCAATGACGCCAGGAGCTGAACAATTATTGCCCGTTTTACAGCGTTACGGCTTCGAAACGCT +CGAAAAACTGGCAGTTTTAGGCTGATTTGGTTGAATGTTGCGCGGTCAGAAAATTATTTTAAATTTCCTC +TTGTCAGGCCGGAATAACTCCCTATAATGCGCCACCACTGACACGGAACAACGGCAAACACGCCGCCGGG +TCAGCGGGGTTCTCCTGAGAACTCCGGCAGAGAAAGCAAAAATAAATGCTTGACTCTGTAGCGGGAAGGC +GTATTATGCACACCCCGCGCCGCTGAGAAAAAGCGAAGCGGCACTGCTCTTTAACAATTTATCAGACAAT +CTGTGTGGGCACTCGAAGATACGGATTCTTAACGTCGCAAGACGAAAAATGAATACCAAGTCTCAAGAGT +GAACACGTAATTCATTACGAAGTTTAATTCTTTGAGCGTCAAACTTTTAAATTGAAGAGTTTGATCATGG +CTCAGATTGAACGCTGGCGGCAGGCCTAACACATGCAAGTCGAACGGTAACAGGAAGAAGCTTGCTTCTT +TGCTGACGAGTGGCGGACGGGTGAGTAATGTCTGGGAAACTGCCTGATGGAGGGGGATAACTACTGGAAA +CGGTAGCTAATACCGCATAACGTCGCAAGACCAAAGAGGGGGACCTTCGGGCCTCTTGCCATCGGATGTG +CCCAGATGGGATTAGCTAGTAGGTGGGGTAACGGCTCACCTAGGCGACGATCCCTAGCTGGTCTGAGAGG +ATGACCAGCCACACTGGAACTGAGACACGGTCCAGACTCCTACGGGAGGCAGCAGTGGGGAATATTGCAC +AATGGGCGCAAGCCTGATGCAGCCATGCCGCGTGTATGAAGAAGGCCTTCGGGTTGTAAAGTACTTTCAG +CGGGGAGGAAGGGAGTAAAGTTAATACCTTTGCTCATTGACGTTACCCGCAGAAGAAGCACCGGCTAACT +CCGTGCCAGCAGCCGCGGTAATACGGAGGGTGCAAGCGTTAATCGGAATTACTGGGCGTAAAGCGCACGC +AGGCGGTTTGTTAAGTCAGATGTGAAATCCCCGGGCTCAACCTGGGAACTGCATCTGATACTGGCAAGCT +TGAGTCTCGTAGAGGGGGGTAGAATTCCAGGTGTAGCGGTGAAATGCGTAGAGATCTGGAGGAATACCGG +TGGCGAAGGCGGCCCCCTGGACGAAGACTGACGCTCAGGTGCGAAAGCGTGGGGAGCAAACAGGATTAGA +TACCCTGGTAGTCCACGCCGTAAACGATGTCGACTTGGAGGTTGTGCCCTTGAGGCGTGGCTTCCGGAGC +TAACGCGTTAAGTCGACCGCCTGGGGAGTACGGCCGCAAGGTTAAAACTCAAATGAATTGACGGGGGCCC +GCACAAGCGGTGGAGCATGTGGTTTAATTCGATGCAACGCGAAGAACCTTACCTGGTCTTGACATCCACG +GAAGTTTTCAGAGATGAGAATGTGCCTTCGGGAACCGTGAGACAGGTGCTGCATGGCTGTCGTCAGCTCG +TGTTGTGAAATGTTGGGTTAAGTCCCGCAACGAGCGCAACCCTTATCCTTTGTTGCCAGCGGTCCGGCCG +GGAACTCAAAGGAGACTGCCAGTGATAAACTGGAGGAAGGTGGGGATGACGTCAAGTCATCATGGCCCTT +ACGACCAGGGCTACACACGTGCTACAATGGCGCATACAAAGAGAAGCGACCTCGCGAGAGCAAGCGGACC +TCATAAAGTGCGTCGTAGTCCGGATTGGAGTCTGCAACTCGACTCCATGAAGTCGGAATCGCTAGTAATC +GTGGATCAGAATGCCACGGTGAATACGTTCCCGGGCCTTGTACACACCGCCCGTCACACCATGGGAGTGG +GTTGCAAAAGAAGTAGGTAGCTTAACCTTCGGGAGGGCGCTTACCACTTTGTGATTCATGACTGGGGTGA +AGTCGTAACAAGGTAACCGTAGGGGAACCTGCGGTTGGATCACCTCCTTACCTTAAAGAAGCGTACTTTG +TAGTGCTCACACAGATTGTCTGATAGAAAGTGAAAAGCAAGGCGTTTACGCGTTGGGAGTGAGGCTGAAG +AGAATAAGGCCGTTCGCTTTCTATTAATGAAAGCTCACCCTACACGAAAATATCACGCAACGCGTGATAA +GCAATTTTCGTGTCCCCTTCGTCTAGAGGCCCAGGACACCGCCCTTTCACGGCGGTAACAGGGGTTCGAA +TCCCCTAGGGGACGCCACTTGCTGGTTTGTGAGTGAAAGTCGCCGACCTTAATATCTCAAAACTCATCTT +CGGGTGATGTTTGAGATATTTGCTCTTTAAAAATCTGGATCAAGCTGAAAATTGAAACACTGAACAACGA +GAGTTGTTCGTGAGTCTCTCAAATTTTCGCAACACGATGATGAATCGAAAGAAACATCTTCGGGTTGTGA +GGTTAAGCGACTAAGCGTACACGGTGGATGCCCTGGCAGTCAGAGGCGATGAAGGACGTGCTAATCTGCG +ATAAGCGTCGGTAAGGTGATATGAACCGTTATAACCGGCGATTTCCGAATGGGGAAACCCAGTGTGTTTC +GACACACTATCATTAACTGAATCCATAGGTTAATGAGGCGAACCGGGGGAACTGAAACATCTAAGTACCC +CGAGGAAAAGAAATCAACCGAGATTCCCCCAGTAGCGGCGAGCGAACGGGGAGCAGCCCAGAGCCTGAAT +CAGTGTGTGTGTTAGTGGAAGCGTCTGGAAAGGCGCGCGATACAGGGTGACAGCCCCGTACACAAAAATG +CACATGCTGTGAGCTCGATGAGTAGGGCGGGACACGTGGTATCCTGTCTGAATATGGGGGGACCATCCTC +CAAGGCTAAATACTCCTGACTGACCGATAGTGAACCAGTACCGTGAGGGAAAGGCGAAAAGAACCCCGGC +GAGGGGAGTGAAAAAGAACCTGAAACCGTGTACGTACAAGCAGTGGGAGCACGCTTAGGCGTGTGACTGC +GTACCTTTTGTATAATGGGTCAGCGACTTATATTCTGTAGCAAGGTTAACCGAATAGGGGAGCCGAAGGG +AAACCGAGTCTTAACTGGGCGTTAAGTTGCAGGGTATAGACCCGAAACCCGGTGATCTAGCCATGGGCAG +GTTGAAGGTTGGGTAACACTAACTGGAGGACCGAACCGACTAATGTTGAAAAATTAGCGGATGACTTGTG +GCTGGGGGTGAAAGGCCAATCAAACCGGGAGATAGCTGGTTCTCCCCGAAAGCTATTTAGGTAGCGCCTC +GTGAATTCATCTCCGGGGGTAGAGCACTGTTTCGGCAAGGGGGTCATCCCGACTTACCAACCCGATGCAA +ACTGCGAATACCGGAGAATGTTATCACGGGAGACACACGGCGGGTGCTAACGTCCGTCGTGAAGAGGGAA +ACAACCCAGACCGCCAGCTAAGGTCCCAAAGTCATGGTTAAGTGGGAAACGATGTGGGAAGGCCCAGACA +GCCAGGATGTTGGCTTAGAAGCAGCCATCATTTAAAGAAAGCGTAATAGCTCACTGGTCGAGTCGGCCTG +CGCGGAAGATGTAACGGGGCTAAACCATGCACCGAAGCTGCGGCAGCGACGCTTATGCGTTGTTGGGTAG +GGGAGCGTTCTGTAAGCCTGCGAAGGTGTGCTGTGAGGCATGCTGGAGGTATCAGAAGTGCGAATGCTGA +CATAAGTAACGATAAAGCGGGTGAAAAGCCCGCTCGCCGGAAGACCAAGGGTTCCTGTCCAACGTTAATC +GGGGCAGGGTGAGTCGACCCCTAAGGCGAGGCCGAAAGGCGTAGTCGATGGGAAACAGGTTAATATTCCT +GTACTTGGTGTTACTGCGAAGGGGGGACGGAGAAGGCTATGTTGGCCGGGCGACGGTTGTCCCGGTTTAA +GCGTGTAGGCTGGTTTTCCAGGCAAATCCGGAAAATCAAGGCTGAGGCGTGATGACGAGGCACTACGGTG +CTGAAGCAACAAATGCCCTGCTTCCAGGAAAAGCCTCTAAGCATCAGGTAACATCAAATCGTACCCCAAA +CCGACACAGGTGGTCAGGTAGAGAATACCAAGGCGCTTGAGAGAACTCGGGTGAAGGAACTAGGCAAAAT +GGTGCCGTAACTTCGGGAGAAGGCACGCTGATATGTAGGTGAGGTCCCTCGCGGATGGAGCTGAAATCAG +TCGAAGATACCAGCTGGCTGCAACTGTTTATTAAAAACACAGCACTGTGCAAACACGAAAGTGGACGTAT +ACGGTGTGACGCCTGCCCGGTGCCGGAAGGTTAATTGATGGGGTTAGCGCAAGCGAAGCTCTTGATCGAA +GCCCCGGTAAACGGCGGCCGTAACTATAACGGTCCTAAGGTAGCGAAATTCCTTGTCGGGTAAGTTCCGA +CCTGCACGAATGGCGTAATGATGGCCAGGCTGTCTCCACCCGAGACTCAGTGAAATTGAACTCGCTGTGA +AGATGCAGTGTACCCGCGGCAAGACGGAAAGACCCCGTGAACCTTTACTATAGCTTGACACTGAACATTG +AGCCTTGATGTGTAGGATAGGTGGGAGGCTTTGAAGTGTGGACGCCAGTCTGCATGGAGCCGACCTTGAA +ATACCACCCTTTAATGTTTGATGTTCTAACGTTGACCCGTAATCCGGGTTGCGGACAGTGTCTGGTGGGT +AGTTTGACTGGGGCGGTCTCCTCCTAAAGAGTAACGGAGGAGCACGAAGGTTGGCTAATCCTGGTCGGAC +ATCAGGAGGTTAGTGCAATGGCATAAGCCAGCTTGACTGCGAGCGTGACGGCGCGAGCAGGTGCGAAAGC +AGGTCATAGTGATCCGGTGGTTCTGAATGGAAGGGCCATCGCTCAACGGATAAAAGGTACTCCGGGGATA +ACAGGCTGATACCGCCCAAGAGTTCATATCGACGGCGGTGTTTGGCACCTCGATGTCGGCTCATCACATC +CTGGGGCTGAAGTAGGTCCCAAGGGTATGGCTGTTCGCCATTTAAAGTGGTACGCGAGCTGGGTTTAGAA +CGTCGTGAGACAGTTCGGTCCCTATCTGCCGTGGGCGCTGGAGAACTGAGGGGGGCTGCTCCTAGTACGA +GAGGACCGGAGTGGACGCATCACTGGTGTTCGGGTTGTCATGCCAATGGCACTGCCCGGTAGCTAAATGC +GGAAGAGATAAGTGCTGAAAGCATCTAAGCACGAAACTTGCCCCGAGATGAGTTCTCCCTGACCCTTTAA +GGGTCCTGAAGGAACGTTGAAGACGACGACGTTGATAGGCCGGGTGTGTAAGCGCAGCGATGCGTTGAGC +TAACCGGTACTAATGAACCGTGAGGCTTAACCTTACAACGCCGAAGCTGTTTTGGCGGATGAGAGAAGAT +TTTCAGCCTGATACAGATTAAATCAGAACGCAGAAGCGGTCTGATAAAACAGAATTTGCCTGGCGGCAGT +AGCGCGGTGGTCCCACCTGACCCCATGCCGAACTCAGAAGTGAAACGCCGTAGCGCCGATGGTAGTGTGG +GGTCTCCCCATGCGAGAGTAGGGAACTGCCAGGCATCAAATAAAACGAAAGGCTCAGTCGAAAGACTGGG +CCTTTCGTTTTATCTGTTGTTTGTCGGTGAACGCTCTCCTGAGTAGGACAAATCCGCCGGGAGCGGATTT +GAACGTTGCGAAGCAACGGCCCGGAGGGTGGCGGGCAGGACGCCCGCCATAAACTGCCAGGCATCAAATT +AAGCAGAAGGCCATCCTGACGGATGGCCTTTTTGCGTTTCTACAAACTCTTCCTGTCGTCATATCTACAA +GCCATCCCCCCACAGATACGGTAAACTAGCCTCGTTTTTGCATCAGGAAAGCAGCTATGAACCACTCCTT +AAAACCCTGGAACACATTTGGCATTGATCATAATGCTCAGCACATTGTATGTGCCGAAGACGAACAACAA +TTACTCAATGCCTGGCAGTATGCAACCGCAGAAGGACAACCCGTTCTTATTCTGGGTGAAGGAAGTAATG +TACTTTTTCTGGAGGACTATCGCGGCACGGTGATCATCAACCGGATCAAAGGTATCGAAATTCATGATGA +ACCTGATGCGTGGTATTTACATGTAGGAGCCGGAGAAAACTGGCATCGTCTGGTAAAATACACTTTGCAG +GAAGGTATGCCTGGTCTGGAAAATCTGGCATTAATTCCTGGTTGTGTCGGCTCATCACCTATCCAGAATA +TTGGTGCTTATGGCGTAGAATTACAGCGAGTTTGCGCTTATGTTGATTCTGTTGAACTGGCGACAGGCAA +GCAAGTGCGCTTAACTGCCAAAGAGTGCCGTTTTGGCTATCGCGACAGTATTTTTAAACATGAATACCAG +GACCGCTTCGCTATTGTAGCCGTAGGTCTGCGTCTGCCAAAAGAGTGGCAACCTGTACTAACGTATGGTG +ACTTAACTCGTCTGGATCCTACAACAGTAACGCCACAGCAAGTATTTAATGCGGTGTGTCATATGCGCAC +CACCAAACTCCCTGATCCAAAAGTGAATGGCAATGCCGGTAGTTTCTTCAAAAACCCTGTTGTATCTGCC +GAAACGGCTAAAGCATTACTGTCACAATTTCCAACAGCACCAAATTACCCCCAGGCGGATGGTTCAGTAA +AACTGGCAGCAGGTTGGCTTATCGATCAGTGCCAGCTAAAAGGGATGCAAATAGGTGGGGCTGCGGTGCA +CCGTCAACAGGCGTTAGTTCTCATTAATGAAGACAATGCAAAAAGCGAAGATGTTGTACAGCTGGCGCAT +CATGTAAGACAGAAAGTTGGTGAAAAATTTAATGTCTGGCTTGAGCCTGAAGTCCGCTTTATTGGTGCAT +CAGGTGAAGTGAGCGCAGTGGAGACAATTTCATGAAGGATAACACCGTGCCACTGAAATTGATTGCCCTG +TTAGCGAACGGTGAATTTCACTCTGGCGAGCAGTTGGGTGAAACGCTGGGAATGAGCCGGGCGGCTATTA +ATAAACACATTCAGACACTGCGTGACTGGGGCGTTGATGTCTTTACCGTTCCGGGTAAAGGATACAGCCT +GCCTGAGCCTATCCAGTTACTTAATGCTAAACAGATATTGGGTCAGCTGGATGGCGGTAGTGTAGCCGTG +CTGCCAGTGATTGACTCCACGAATCAGTACCTTCTTGATCGTATCGGAGAGCTTAAATCGGGCGATGCTT +GCATTGCAGAATACCAGCAGGCTGGCCGTGGTCGCCGGGGTCGGAAATGGTTTTCGCCTTTTGGCGCAAA +CTTATATTTGTCGATGTTCTGGCGTCTGGAACAAGGCCCGGCGGCGGCGATTGGTTTAAGTCTGGTTATC +GGTATCGTGATGGCGGAAGTATTACGCAAGCTGGGTGCAGATAAAGTTCGTGTTAAATGGCCTAATGACC +TCTATCTGCAGGATCGCAAGCTGGCAGGCATTCTGGTGGAGCTGACTGGCAAAACTGGCGATGCGGCGCA +AATAGTCATTGGAGCCGGGATCAACATGGCAATGCGCCGTGTTGAAGAGAGTGTCGTTAATCAGGGGTGG +ATCACGCTGCAGGAAGCGGGGATCAATCTCGATCGTAATACGTTGGCGGCCATGCTAATACGTGAATTAC +GTGCTGCGTTGGAACTCTTCGAACAAGAAGGATTGGCACCTTATCTGTCGCGCTGGGAAAAGCTGGATAA +TTTTATTAATCGCCCAGTGAAACTTATCATTGGTGATAAAGAAATATTTGGCATTTCACGCGGAATAGAC +AAACAGGGGGCTTTATTACTTGAGCAGGATGGAATAATAAAACCCTGGATGGGCGGTGAAATATCCCTGC +GTAGTGCAGAAAAATAAGAAAGGGGAGTATTCGCTCCCCTGCAAATTATTTGCGTAGTCTGACCTCTTCT +ACCGCATGATTAGCACTTTTCGTCAGGATTAAACTGGCGCGCTCACGAGTAGGTAGAATATTTTGCTTTA +AGTTCAGCCAGTTGATCTCTTTCCACAATGTCATGGCAGTCTTAATCGCTTCTTCTTTAGTTAATTTCGC +GTAGTTATGAAAATAGGAATCCGGGTCGGTAAAAGCCCCTTCGCGGAATTTCAGAAAACGGTTGATATAC +CATGTCTGAAGTAAGTCTTCCGGTGCATCAACATATATCGAAAAATCGACAAAATCAGAAACAAATACAT +GATGTGGATCGTGTGGATAATCCATCCCGCTCTGTAAGACATTTAACCCTTCAAGAATTAAAATATCAGG +CTGAACAACCGTTTTATCTCCATCCGGGATCACATCATAAATAAGATGTGAGTAAACAGGTGCTGTAACG +TTTGGCACGCCGGATTTGAGATCGGAAACAAACTTCACCAGGCGATGCATATCATACGATTCCGGGAAGC +CTTTCTTCTTCATCAGACCACGTTCTTTCAGAACCTGATTAGGGTGAAGGAAGCCATCTGTAGTGATCAG +TTCAACACGACGATGTTCCGGCCAACGGCTTAATAGCGCCTGCAATACACGGGCGGTTGTACTTTTCCCC +ACCGCGACACTGCCAGCAATACTGATAATGTAAGGAATGCGTTGCCCGTTGGTACCAAGAAACTGTTCCA +GAACTGCCTGACGGCGCAGATTCGAGCTTATATAGAAGTTCAGCAAACGTGACAAAGGTAAATAGATCTC +GGCAACTTCTTCTAACGAGAGATCTTCATTAATACCTTTGAGACGGGCGATCTCATCTTCCGATAACGTC +ATAGGTACGGAATCACGCAGAGCTGCCCACTGGTTGCGGTCAAACTGTAGGTAAGGCGTCATTAACGTTT +GCTCTTTTATACTCATAAGCATGTTTCTGGCGGTCATAGCTCTATCGGCAAAGCGATATTTGCCATGGCG +CGTCACAGTTCTGTTGAATGGGTTAATGGGCAGGAGGGTAACACCAGATGGGGAGGAATAATAAGAAAAA +ATCTCTGCCAGGAAGCTATCGTTGAAAAGCAATGTGACAGATATTCCATCTGATAAAAAGAATTATGGTT +TAGCAGGAGCGCATTGTTGAGCACAATGATGTTGAAAAAGTGTGCTAATCTGCCCTCCGTTCGGCTGTTT +CTTCATCGTGTCGCATAAAATGTGACCAATAAAACAAATTATGCAATTTTTTAGTTGCATGAACTCGCAT +GTCTCCATAGAATGCGCGCTACTTGATGCCGACTTAGCTCAGTAGGTAGAGCAACTGACTTGTAATCAGT +AGGTCACCAGTTCGATTCCGGTAGTCGGCACCATCAAGTCCGGTGGGGTTCCCGAGCGGCCAAAGGGAGC +AGACTGTAAATCTGCCGTCACAGACTTCGAAGGTTCGAATCCTTCCCCCACCACCAATTTCGGCCACGCG +ATGGCGTAGCCCGAGACGATAAGTTCGCTTACCGGCTCGAATAAAGAGAGCTTCTCTCGATATTCAGTGC +AGAATGAAAATCAGGTAGCCGAGTTCCAGGATGCGGGCATCGTATAATGGCTATTACCTCAGCCTTCCAA +GCTGATGATGCGGGTTCGATTCCCGCTGCCCGCTCCAAGATGTGCTGATATAGCTCAGTTGGTAGAGCGC +ACCCTTGGTAAGGGTGAGGTCGGCAGTTCGAATCTGCCTATCAGCACCACTTCTTTTCTCCTCCCTGTTT +TTTCCTTCTGTTTATTGCATTCAACAAGTCGGGCATGTTGCCTGGTTGATGTGGTGATATCACCGATTTA +TCCGTGTCTTAGAGGGACAATCGATGTCTAAAGAAAAGTTTGAACGTACAAAACCGCACGTTAACGTCGG +TACTATCGGCCACGTTGACCATGGTAAAACAACGCTGACCGCTGCAATCACTACCGTACTGGCTAAAACC +TACGGCGGTGCTGCTCGCGCATTCGACCAGATCGATAACGCGCCGGAAGAAAAAGCTCGTGGTATCACCA +TCAACACTTCTCACGTTGAATACGACACCCCGACCCGTCACTACGCACACGTAGACTGCCCGGGGCACGC +CGACTATGTTAAAAACATGATCACCGGTGCTGCGCAGATGGACGGCGCGATCCTGGTAGTTGCTGCGACT +GACGGCCCGATGCCGCAGACTCGTGAGCACATCCTGCTGGGTCGTCAGGTAGGCGTTCCGTACATCATCG +TGTTCCTGAACAAATGCGACATGGTTGATGACGAAGAGCTGCTGGAACTGGTTGAAATGGAAGTTCGTGA +ACTTCTGTCTCAGTACGACTTCCCGGGCGACGACACTCCGATCGTTCGTGGTTCTGCTCTGAAAGCGCTG +GAAGGCGACGCAGAGTGGGAAGCGAAAATCCTGGAACTGGCTGGCTTCCTGGATTCTTACATTCCGGAAC +CAGAGCGTGCGATTGACAAGCCGTTCCTGCTGCCGATCGAAGACGTATTCTCCATCTCCGGTCGTGGTAC +CGTTGTTACCGGTCGTGTAGAACGCGGTATCATCAAAGTTGGTGAAGAAGTTGAAATCGTTGGTATCAAA +GAGACTCAGAAGTCTACCTGTACTGGCGTTGAAATGTTCCGCAAACTGCTGGACGAAGGCCGTGCTGGTG +AGAACGTAGGTGTTCTGCTGCGTGGTATCAAACGTGAAGAAATCGAACGTGGTCAGGTACTGGCTAAGCC +GGGCACCATCAAGCCGCACACCAAGTTCGAATCTGAAGTGTACATTCTGTCCAAAGATGAAGGCGGCCGT +CATACTCCGTTCTTCAAAGGCTACCGTCCGCAGTTCTACTTCCGTACTACTGACGTGACTGGTACCATCG +AACTGCCGGAAGGCGTAGAGATGGTAATGCCGGGCGACAACATCAAAATGGTTGTTACCCTGATCCACCC +GATCGCGATGGACGACGGTCTGCGTTTCGCAATCCGTGAAGGCGGCCGTACCGTTGGCGCGGGCGTTGTA +GCAAAAGTTCTGAGCTAATTGCCGATAACATTTGACGCAATGCGCACTAAAAGGGCATCATTTGATGCCC +TTTTTGCACGCTTTCGTACCAGAACCTGGCTCATCAGTGATTTTCTTTGTCATAATCATTGCTGAGACAG +GCTCTGTTGAGGGCGTATAATCCGAAAAGCTAATACGCGTTTCGATTTGGTTTGCCTCGCGATCGCGGGG +TGAAAATGTTTGTAGAAAACTTCTGACAGGTTGGTTTATGAGTGCGAATACCGAAGCTCAAGGAAGCGGG +CGCGGCCTGGAAGCGATGAAGTGGGTCGTTGTGGTGGCATTGCTCCTGGTGGCGATTGTCGGCAACTATC +TTTATCGCGACATTATGCTGCCGCTGCGTGCGCTGGCCGTAGTAATTCTGATTGCTGCAGCGGGTGGTGT +CGCGCTGTTAACGACAAAAGGTAAAGCTACCGTTGCTTTTGCCCGTGAAGCGCGTACCGAAGTCCGTAAG +GTCATTTGGCCGACTCGCCAGGAAACATTGCACACCACGCTGATTGTGGCTGCGGTTACCGCAGTAATGT +CACTGATCCTGTGGGGACTGGATGGTATTCTGGTTCGCCTGGTATCCTTTATCACTGGCCTGAGGTTCTG +AGATGTCTGAAGCTCCTAAAAAGCGCTGGTACGTCGTTCAGGCGTTTTCCGGTTTTGAAGGCCGCGTAGC +AACGTCGCTGCGTGAGCATATCAAATTACACAACATGGAAGATTTGTTTGGTGAAGTCATGGTACCAACC +GAAGAAGTGGTTGAAATCCGTGGCGGTCAGCGTCGCAAAAGCGAACGTAAATTCTTCCCTGGCTACGTCC +TCGTTCAGATGGTGATGAACGACGCGAGCTGGCACCTGGTGCGCAGCGTACCGCGTGTGATGGGCTTCAT +CGGCGGTACTTCCGATCGTCCTGCGCCAATCAGCGATAAAGAAGTCGATGCGATTATGAACCGCCTGCAG +CAGGTTGGTGATAAGCCGCGTCCGAAAACGCTGTTTGAACCGGGTGAAATGGTCCGTGTTAATGATGGTC +CGTTCGCTGACTTCAACGGTGTTGTTGAAGAAGTGGATTACGAGAAATCTCGTCTGAAAGTGTCTGTTTC +TATCTTCGGTCGTGCGACCCCGGTAGAGCTGGACTTCAGCCAGGTTGAAAAAGCCTAACCCAGCGATCAA +AAAAGCGGCGATTTAATCGTTGCACAAGGCGTGAGATTGGAATACAATTTCGCGCCTTTTGTTTTTATGG +GCCTTGCCCGTAAAACGATTTTTTATATCACGGGGAGCCTCTCAGAGGCGTTATTACCCAACTTGAGGAA +TTTATAATGGCTAAGAAAGTACAAGCCTATGTCAAGCTGCAGGTTGCAGCTGGTATGGCTAACCCGAGTC +CGCCAGTAGGTCCGGCTCTGGGTCAGCAGGGCGTAAACATCATGGAATTCTGCAAAGCGTTCAACGCAAA +AACTGATTCCATCGAAAAAGGTCTGCCGATTCCGGTAGTAATCACCGTTTACGCTGACCGTTCTTTCACT +TTCGTTACCAAGACCCCGCCGGCAGCAGTTCTGCTGAAAAAAGCGGCTGGTATCAAGTCTGGTTCCGGTA +AGCCGAACAAAGACAAAGTGGGTAAAATTTCCCGCGCTCAGCTGCAGGAAATCGCGCAGACCAAAGCTGC +CGACATGACTGGTGCCGACATTGAAGCGATGACTCGCTCCATCGAAGGTACTGCACGTTCCATGGGCCTG +GTAGTGGAGGACTAAGAAATGGCTAAACTGACCAAGCGCATGCGTGTTATCCGCGAGAAAGTTGATGCAA +CCAAACAGTACGACATCAACGAAGCTATCGCACTGCTGAAAGAGCTGGCGACTGCTAAATTCGTAGAAAG +CGTGGACGTAGCTGTTAACCTCGGCATCGACGCTCGTAAATCTGACCAGAACGTACGTGGTGCAACTGTA +CTGCCGCACGGTACTGGCCGTTCCGTTCGCGTAGCCGTATTTACCCAAGGTGCAAACGCTGAAGCTGCTA +AAGCTGCAGGCGCAGAACTGGTAGGTATGGAAGATCTGGCTGACCAGATCAAGAAAGGCGAAATGAACTT +TGACGTTGTTATTGCTTCTCCGGATGCAATGCGCGTTGTTGGCCAGCTGGGCCAGGTTCTGGGTCCGCGC +GGCCTGATGCCAAACCCGAAAGTGGGTACTGTAACACCGAACGTTGCTGAAGCGGTTAAAAACGCTAAAG +CTGGCCAGGTTCGTTACCGTAACGACAAAAACGGCATCATCCACACCACCATCGGTAAAGTGGACTTTGA +CGCTGACAAACTGAAAGAAAACCTGGAAGCTCTGCTGGTTGCGCTGAAAAAAGCAAAACCGACTCAGGCG +AAAGGCGTGTACATCAAGAAAGTTAGCATCTCCACCACCATGGGTGCAGGTGTTGCAGTTGACCAGGCTG +GCCTGAGCGCTTCTGTAAACTAATGCCTTTACGTGGGCGGTGATTTTGTCTACAATCTTACCCCCACGTA +TAATGCTTAATGCAGACGTATATCCGAGATATTCGGGTTGTGGCAAGGCGGCAACTGAGTGAGTCGCCAG +GAGCATAGCTAACTATGTGACTGGTGCGAATGAAGGAAGCCAACGCCGTCACAAGCTGAATAGCGACGGA +TAGAAAAGATTTGTTCGTTGGAGCCTGGCCTATCCAGGCCTCCGTCGAAGACCGCAGGAGTTTCGCAAGA +AACTTAATCCCCTGCGTAGACGGTGACAGAACGCTAAGATTATTCTTTTATATTCTGGCTTGTTTCTGCT +CACCGTAATTAAGACGCTCTCTCCGTTTGGAGGAGTGAAGTGAGTTCCAGAGATTTTCTCTGGCAAACAT +CCAGGAGCAAAGCTAATGGCTTTAAATCTTCAAGACAAACAAGCGATTGTTGCTGAAGTCAGCGAAGTAG +CCAAAGGCGCGCTGTCTGCAGTAGTTGCGGATTCCCGTGGCGTAACTGTAGATAAAATGACTGAACTGCG +TAAAGCAGGTCGCGAAGCTGGCGTATACATGCGTGTTGTTCGTAACACCCTGCTGCGCCGTGCTGTTGAA +GGTACTCCGTTCGAGTGCCTGAAAGACGCGTTTGTTGGTCCGACCCTGATTGCATACTCTATGGAACACC +CGGGCGCTGCTGCTCGTCTGTTCAAAGAGTTCGCGAAAGCGAATGCAAAATTTGAGGTCAAAGCCGCTGC +CTTTGAAGGTGAGCTGATCCCGGCGTCTCAGATCGACCGCCTGGCAACTCTGCCGACCTACGAAGAAGCA +ATTGCACGCCTGATGGCAACCATGAAAGAAGCTTCGGCTGGCAAACTGGTTCGTACTCTGGCTGCTGTAC +GCGATGCGAAAGAAGCTGCTTAATCGCAGTTATCTTTTTAACGCATTCGCTTACGTATAAACTTATTCTG +ATATTCAGGAACAATTTAAATGTCTATCACTAAAGATCAAATCATTGAAGCAGTTGCAGCTATGTCTGTA +ATGGACGTTGTAGAACTGATCTCTGCAATGGAAGAAAAATTCGGTGTTTCCGCTGCTGCTGCTGTAGCTG +TAGCTGCTGGCCCGGTTGAAGCTGCTGAAGAAAAAACTGAATTCGACGTAATTCTGAAAGCTGCTGGCGC +TAACAAAGTTGCTGTTATCAAAGCAGTACGTGGCGCAACTGGCCTGGGTCTGAAAGAAGCTAAAGACCTG +GTAGAATCTGCACCGGCTGCTCTGAAAGAAGGCGTGAGCAAAGACGACGCAGAAGCACTGAAAAAAGCTC +TGGAAGAAGCTGGCGCTGAAGTTGAAGTTAAATAAGCCAACCCTTCCGGTTGCAGCCTGAGAAATCAGGC +TGATGGCTGGTGACTTTTTAGTCACCAGCCTTTTTGCGCTGTAAGGCGCCAGTAGCGTTTCACACTGTTT +GACTACTGCTGTGCCTTTCAATGCTTGTTTCTATCGACGACTTAATATACTGCGACAGGACGTCCGTTCT +GTGTAAATCGCAATGAAATGGTTTAAGCGTGATAGCAACAGGCATTGCGGAAAGTGTTCCATTTTCCGGT +CAACAAAATAGTGTTGCACAAACTGTCCGCTCAATGGACAGATGGGTCGACTTGTCAGCGAGCTGAGGAA +CCCTATGGTTTACTCCTATACCGAGAAAAAACGTATTCGTAAGGATTTTGGTAAACGTCCACAAGTTCTG +GATGTACCTTATCTCCTTTCTATCCAGCTTGACTCGTTTCAGAAATTTATCGAGCAAGATCCTGAAGGGC +AGTATGGTCTGGAAGCTGCTTTCCGTTCCGTATTCCCGATTCAGAGCTACAGCGGTAATTCCGAGCTGCA +ATACGTCAGCTACCGCCTTGGCGAACCGGTGTTTGACGTCCAGGAATGTCAAATCCGTGGCGTGACCTAT +TCCGCACCGCTGCGCGTTAAACTGCGTCTGGTGATCTATGAGCGCGAAGCGCCGGAAGGCACCGTAAAAG +ACATTAAAGAACAAGAAGTCTACATGGGCGAAATTCCGCTCATGACAGACAACGGTACCTTTGTTATCAA +CGGTACTGAGCGTGTTATCGTTTCCCAGCTGCACCGTAGTCCGGGCGTCTTCTTTGACTCCGACAAAGGT +AAAACCCACTCTTCGGGTAAAGTGCTGTATAACGCGCGTATCATCCCTTACCGTGGTTCCTGGCTGGACT +TCGAATTCGATCCGAAGGACAACCTGTTCGTACGTATCGACCGTCGCCGTAAACTGCCTGCGACCATCAT +TCTGCGCGCCCTGAACTACACCACAGAGCAGATCCTCGACCTGTTCTTTGAAAAAGTTATCTTTGAAATC +CGTGATAACAAGCTGCAGATGGAACTGGTGCCGGAACGCCTGCGTGGTGAAACCGCATCTTTTGACATCG +AAGCTAACGGTAAAGTGTACGTAGAAAAAGGCCGCCGTATCACTGCGCGCCACATTCGCCAGCTGGAAAA +AGACGACGTCAAACTGATCGAAGTCCCGGTTGAGTACATCGCAGGTAAAGTGGTTGCTAAAGACTATATT +GATGAGTCTACCGGCGAGCTGATCTGCGCAGCGAACATGGAGCTGAGCCTGGATCTGCTGGCTAAGCTGA +GCCAGTCTGGTCACAAGCGTATCGAAACGCTGTTCACCAACGATCTGGATCACGGCCCATATATCTCTGA +AACCTTACGTGTCGACCCAACTAACGACCGTCTGAGCGCACTGGTAGAAATCTACCGCATGATGCGCCCT +GGCGAGCCGCCGACTCGTGAAGCAGCTGAAAGCCTGTTCGAGAACCTGTTCTTCTCCGAAGACCGTTATG +ACTTGTCTGCGGTTGGTCGTATGAAGTTCAACCGTTCTCTGCTGCGCGAAGAAATCGAAGGTTCCGGTAT +CCTGAGCAAAGACGACATCATTGATGTTATGAAAAAGCTCATCGATATCCGTAACGGTAAAGGCGAAGTC +GATGATATCGACCACCTCGGCAACCGTCGTATCCGTTCCGTTGGCGAAATGGCGGAAAACCAGTTCCGCG +TTGGCCTGGTACGTGTAGAGCGTGCGGTGAAAGAGCGTCTGTCTCTGGGCGATCTGGATACCCTGATGCC +ACAGGATATGATCAACGCCAAGCCGATTTCCGCAGCAGTGAAAGAGTTCTTCGGTTCCAGCCAGCTGTCT +CAGTTTATGGACCAGAACAACCCGCTGTCTGAGATTACGCACAAACGTCGTATCTCCGCACTCGGCCCAG +GCGGTCTGACCCGTGAACGTGCAGGCTTCGAAGTTCGAGACGTACACCCGACTCACTACGGTCGCGTATG +TCCAATCGAAACCCCTGAAGGTCCGAACATCGGTCTGATCAACTCTCTGTCCGTGTACGCACAGACTAAC +GAATACGGCTTCCTTGAGACTCCGTATCGTAAAGTGACCGACGGTGTTGTAACTGACGAAATTCACTACC +TGTCTGCTATCGAAGAAGGCAACTACGTTATCGCCCAGGCGAACTCCAACTTGGATGAAGAAGGCCACTT +CGTAGAAGACCTGGTAACTTGCCGTAGCAAAGGCGAATCCAGCTTGTTCAGCCGCGACCAGGTTGACTAC +ATGGACGTATCCACCCAGCAGGTGGTATCCGTCGGTGCGTCCCTGATCCCGTTCCTGGAACACGATGACG +CCAACCGTGCATTGATGGGTGCGAACATGCAACGTCAGGCCGTTCCGACTCTGCGCGCTGATAAGCCGCT +GGTTGGTACTGGTATGGAACGTGCTGTTGCCGTTGACTCCGGTGTAACTGCGGTAGCTAAACGTGGTGGT +GTCGTTCAGTACGTGGATGCTTCCCGTATCGTTATCAAAGTTAACGAAGACGAGATGTATCCGGGTGAAG +CAGGTATCGACATCTACAACCTGACCAAATACACCCGTTCTAACCAGAACACCTGTATCAACCAGATGCC +GTGTGTGTCTCTGGGTGAACCGGTTGAACGTGGCGACGTGCTGGCAGACGGTCCGTCCACCGACCTCGGT +GAACTGGCGCTTGGTCAGAACATGCGCGTAGCGTTCATGCCGTGGAATGGTTACAACTTCGAAGACTCCA +TCCTCGTATCCGAGCGTGTTGTTCAGGAAGACCGTTTCACCACCATCCACATTCAGGAACTGGCGTGTGT +GTCCCGTGACACCAAGCTGGGTCCGGAAGAGATCACCGCTGACATCCCGAACGTGGGTGAAGCTGCGCTC +TCCAAACTGGATGAATCCGGTATCGTTTACATTGGTGCGGAAGTGACCGGTGGCGACATTCTGGTTGGTA +AGGTAACGCCGAAAGGTGAAACTCAGCTGACCCCAGAAGAAAAACTGCTGCGTGCGATCTTCGGTGAGAA +AGCCTCTGACGTTAAAGACTCTTCTCTGCGCGTACCAAACGGTGTATCCGGTACGGTTATCGACGTTCAG +GTCTTTACTCGCGATGGCGTAGAAAAAGACAAACGTGCGCTGGAAATCGAAGAAATGCAGCTCAAACAGG +CGAAGAAAGACCTGTCTGAAGAACTGCAGATCCTCGAAGCGGGTCTGTTCAGCCGTATCCGTGCTGTGCT +GGTAGCCGGTGGCGTTGAAGCTGAGAAGCTCGACAAACTGCCGCGCGATCGCTGGCTGGAGCTGGGCCTG +ACAGACGAAGAGAAACAAAATCAGCTGGAACAGCTGGCTGAGCAGTATGACGAACTGAAACACGAGTTCG +AGAAGAAACTCGAAGCGAAACGCCGCAAAATCACCCAGGGCGACGATCTGGCACCGGGCGTGCTGAAGAT +TGTTAAGGTATATCTGGCGGTTAAACGCCGTATCCAGCCTGGTGACAAGATGGCAGGTCGTCACGGTAAC +AAGGGTGTAATTTCTAAGATCAACCCGATCGAAGATATGCCTTACGATGAAAACGGTACGCCGGTAGACA +TCGTACTGAACCCGCTGGGCGTACCGTCTCGTATGAACATCGGTCAGATCCTCGAAACCCACCTGGGTAT +GGCTGCGAAAGGTATCGGCGACAAGATCAACGCCATGCTGAAACAGCAGCAAGAAGTCGCGAAACTGCGC +GAATTCATCCAGCGTGCGTACGATCTGGGCGCTGACGTTCGTCAGAAAGTTGACCTGAGTACCTTCAGCG +ATGAAGAAGTTATGCGTCTGGCTGAAAACCTGCGCAAAGGTATGCCAATCGCAACGCCGGTGTTCGACGG +TGCGAAAGAAGCAGAAATTAAAGAGCTGCTGAAACTTGGCGACCTGCCGACTTCCGGTCAGATCCGCCTG +TACGATGGTCGCACTGGTGAACAGTTCGAGCGTCCGGTAACCGTTGGTTACATGTACATGCTGAAACTGA +ACCACCTGGTCGACGACAAGATGCACGCGCGTTCCACCGGTTCTTACAGCCTGGTTACTCAGCAGCCGCT +GGGTGGTAAGGCACAGTTCGGTGGTCAGCGTTTCGGGGAGATGGAAGTGTGGGCGCTGGAAGCATACGGC +GCAGCATACACCCTGCAGGAAATGCTCACCGTTAAGTCTGATGACGTGAACGGTCGTACCAAGATGTATA +AAAACATCGTGGACGGCAACCATCAGATGGAGCCGGGCATGCCAGAATCCTTCAACGTATTGTTGAAAGA +GATTCGTTCGCTGGGTATCAACATCGAACTGGAAGACGAGTAATTCTCGCTCAAACAGGTCACTGCTGTC +GGGTTAAAACCCGGCAGCGGATTGTGCTAACTCCGACGGGAGCAAATCCGTGAAAGATTTATTAAAGTTT +CTGAAAGCGCAGACTAAAACCGAAGAGTTTGATGCGATCAAAATTGCTCTGGCTTCGCCAGACATGATCC +GTTCATGGTCTTTCGGTGAAGTTAAAAAGCCGGAAACCATCAACTACCGTACGTTCAAACCAGAACGTGA +CGGCCTTTTCTGCGCCCGTATCTTTGGGCCGGTAAAAGATTACGAGTGCCTGTGCGGTAAGTACAAGCGC +CTGAAACACCGTGGCGTCATCTGTGAGAAGTGCGGCGTTGAAGTGACCCAGACTAAAGTACGCCGTGAGC +GTATGGGCCACATCGAACTGGCTTCCCCGACTGCGCACATCTGGTTCCTGAAATCGCTGCCGTCCCGTAT +CGGTCTGCTGCTCGATATGCCGCTGCGCGATATCGAACGCGTACTGTACTTTGAATCCTATGTGGTTATC +GAAGGCGGTATGACCAACCTGGAACGTCAGCAGATCCTGACTGAAGAGCAGTATCTGGACGCGCTGGAAG +AGTTCGGTGACGAATTCGACGCGAAGATGGGGGCGGAAGCAATCCAGGCTCTGCTGAAGAGCATGGATCT +GGAGCAAGAGTGCGAACAGCTGCGTGAAGAGCTGAACGAAACCAACTCCGAAACCAAGCGTAAAAAGCTG +ACCAAGCGTATCAAACTGCTGGAAGCGTTCGTTCAGTCTGGTAACAAACCAGAGTGGATGATCCTGACCG +TTCTGCCGGTACTGCCGCCAGATCTGCGTCCGCTGGTTCCGCTGGATGGTGGTCGTTTCGCGACTTCTGA +CCTGAACGATCTGTATCGTCGCGTCATTAACCGTAACAACCGTCTGAAACGTCTGCTGGATCTGGCTGCG +CCGGACATCATCGTACGTAACGAAAAACGTATGCTGCAGGAAGCGGTAGACGCCCTGCTGGATAACGGTC +GTCGCGGTCGTGCGATCACCGGTTCTAACAAGCGTCCTCTGAAATCTTTGGCCGACATGATCAAAGGTAA +ACAGGGTCGTTTCCGTCAGAACCTGCTCGGTAAGCGTGTTGACTACTCCGGTCGTTCTGTAATCACCGTA +GGTCCATACCTGCGTCTGCATCAGTGCGGTCTGCCGAAGAAAATGGCACTGGAGCTGTTCAAACCGTTCA +TCTACGGCAAGCTGGAACTGCGTGGTCTTGCTACCACCATTAAAGCTGCGAAGAAAATGGTTGAGCGCGA +AGAAGCTGTCGTTTGGGATATCCTGGACGAAGTTATCCGCGAACACCCGGTACTGCTGAACCGTGCACCG +ACTCTGCACCGTCTGGGTATCCAGGCATTTGAACCGGTACTGATCGAAGGTAAAGCTATCCAGCTGCACC +CGCTGGTTTGTGCGGCATATAACGCCGACTTCGATGGTGACCAGATGGCTGTTCACGTACCGCTGACGCT +GGAAGCCCAGCTGGAAGCGCGTGCGCTGATGATGTCTACCAACAACATCCTGTCCCCGGCGAACGGCGAA +CCAATCATCGTTCCGTCTCAGGACGTTGTACTGGGTCTGTACTACATGACCCGTGACTGTGTTAACGCCA +AAGGCGAAGGCATGGTGCTGACTGGCCCGAAAGAAGCAGAACGTCTGTATCGCTCTGGTCTGGCTTCTCT +GCATGCGCGCGTTAAAGTGCGTATCACCGAGTATGAAAAAGATGCTAACGGTGAATTAGTAGCGAAAACC +AGCCTGAAAGACACGACTGTTGGCCGTGCCATTCTGTGGATGATTGTACCGAAAGGTCTGCCTTACTCCA +TCGTCAACCAGGCGCTGGGTAAAAAAGCAATCTCCAAAATGCTGAACACCTGCTACCGCATTCTCGGTCT +GAAACCGACCGTTATTTTTGCGGACCAGATCATGTACACCGGCTTCGCCTATGCAGCGCGTTCTGGTGCA +TCTGTTGGTATCGATGACATGGTCATCCCGGAGAAGAAACACGAAATCATCTCCGAGGCAGAAGCAGAAG +TTGCTGAAATTCAGGAGCAGTTCCAGTCTGGTCTGGTAACTGCGGGCGAACGCTACAACAAAGTTATCGA +TATCTGGGCTGCGGCGAACGATCGTGTATCCAAAGCGATGATGGATAACCTGCAAACTGAAACCGTGATT +AACCGTGACGGTCAGGAAGAGAAGCAGGTTTCCTTCAACAGCATCTACATGATGGCCGACTCCGGTGCGC +GTGGTTCTGCGGCACAGATTCGTCAGCTTGCTGGTATGCGTGGTCTGATGGCGAAGCCGGATGGCTCCAT +CATCGAAACGCCAATCACCGCGAACTTCCGTGAAGGTCTGAACGTACTCCAGTACTTCATCTCCACCCAC +GGTGCTCGTAAAGGTCTGGCGGATACCGCACTGAAAACTGCGAACTCCGGTTACCTGACTCGTCGTCTGG +TTGACGTGGCGCAGGACCTGGTGGTTACCGAAGACGATTGTGGTACCCATGAAGGTATCATGATGACTCC +GGTTATCGAGGGTGGTGACGTTAAAGAGCCGCTGCGCGATCGCGTACTGGGTCGTGTAACTGCTGAAGAC +GTTCTGAAGCCGGGTACTGCTGATATCCTCGTTCCGCGCAACACGCTGCTGCACGAACAGTGGTGTGACC +TGCTGGAAGAGAACTCTGTCGACGCGGTTAAAGTACGTTCTGTTGTATCTTGTGACACCGACTTTGGTGT +ATGTGCGCACTGCTACGGTCGTGACCTGGCGCGTGGCCACATCATCAACAAGGGTGAAGCAATCGGTGTT +ATCGCGGCACAGTCCATCGGTGAACCGGGTACACAGCTGACCATGCGTACGTTCCACATCGGTGGTGCGG +CATCTCGTGCGGCTGCTGAATCCAGCATCCAAGTGAAAAACAAAGGTAGCATCAAGCTCAGCAACGTGAA +GTCGGTTGTGAACTCCAGCGGTAAACTGGTTATCACTTCCCGTAATACTGAACTGAAACTGATCGACGAA +TTCGGTCGTACTAAAGAAAGCTACAAAGTACCTTACGGTGCGGTACTGGCGAAAGGCGATGGCGAACAGG +TTGCTGGCGGCGAAACCGTTGCAAACTGGGACCCGCACACCATGCCGGTTATCACCGAAGTAAGCGGTTT +TGTACGCTTTACTGACATGATCGACGGCCAGACCATTACGCGTCAGACCGACGAACTGACCGGTCTGTCT +TCGCTGGTGGTTCTGGATTCCGCAGAACGTACCGCAGGTGGTAAAGATCTGCGTCCGGCACTGAAAATCG +TTGATGCTCAGGGTAACGACGTTCTGATCCCAGGTACCGATATGCCAGCGCAGTACTTCCTGCCGGGTAA +AGCGATTGTTCAGCTGGAAGATGGCGTACAGATCAGCTCTGGTGACACCCTGGCGCGTATTCCGCAGGAA +TCCGGCGGTACCAAGGACATCACCGGTGGTCTGCCGCGCGTTGCGGACCTGTTCGAAGCACGTCGTCCGA +AAGAGCCGGCAATCCTGGCTGAAATCAGCGGTATCGTTTCCTTCGGTAAAGAAACCAAAGGTAAACGTCG +TCTGGTTATCACCCCGGTAGACGGTAGCGATCCGTACGAAGAGATGATTCCGAAATGGCGTCAGCTCAAC +GTGTTCGAAGGTGAACGTGTAGAACGTGGTGACGTAATTTCCGACGGTCCGGAAGCGCCGCACGACATTC +TGCGTCTGCGTGGTGTTCATGCTGTTACTCGTTACATCGTTAACGAAGTACAGGACGTATACCGTCTGCA +GGGCGTTAAGATTAACGATAAACACATCGAAGTTATCGTTCGTCAGATGCTGCGTAAAGCTACCATCGTT +AACGCGGGTAGCTCCGACTTCCTGGAAGGCGAACAGGTTGAATACTCTCGCGTCAAGATCGCAAACCGCG +AACTGGAAGCGAACGGCAAAGTGGGTGCAACTTACTCCCGCGATCTGCTGGGTATCACCAAAGCGTCTCT +GGCAACCGAGTCCTTCATCTCCGCGGCATCGTTCCAGGAGACCACTCGCGTGCTGACCGAAGCAGCCGTT +GCGGGCAAACGCGACGAACTGCGCGGCCTGAAAGAGAACGTTATCGTGGGTCGTCTGATCCCGGCAGGTA +CCGGTTACGCGTACCACCAGGATCGTATGCGTCGCCGTGCTGCGGGTGAAGCTCCGGCTGCACCGCAGGT +GACTGCAGAAGACGCATCTGCCAGCCTGGCAGAACTGCTGAACGCAGGTCTGGGCGGTTCTGATAACGAG +TAATCGTTAATCCGCAAATAACGTAAAAACCCGCTTCGGCGGGTTTTTTTATGGGGGGAGTTTAGGGAAA +GAGCATTTGTCAGAATATTTAAGGAATTTCTGAATACTCATAATCAATGTAGAGATGACTAATATCCTGA +AACTGACTGAACTAATTGAGTCAAACTCGGCAAGGATTCGATACTATTCCTGTGTAACTTTCTTAAGGAA +CGAGAATGAAACAGGAAGTGGAAAAGTGGCGACCTTTTGGACATCCGGATGGTGATATTCGTGATTTATC +ATTTCTTGATGCTCATCAGGCTGTCTACGTTCAGCATCATGAGGGCAAAGAGCCTTTAGAGTATCGCTTT +TGGGTTACCTACTCTCTTCACTGCTTCACAAAAGATTATGAACATCAGACGAACGAAGAAAAACAATCGT +TAATGTACCACGCGCCTAAAGAATCTCGTCCCTTCTGCCAGCACCGTTATAACTTAGCGCGCACACACTT +AAAAAGAACTATTTTGGCGCTGCCAGAAAGCAACGTTATTCATGCCGGGTATGGTAGCTATGCCGTGATT +GAGGTGGACTTAGACGGAGGAGATAAGGCATTTTACTTTGTTGCGTTCAGGGCTTTCAGGGAAAAGAAAA +AACTCCGTTTGCATGTAACTAGCGCTTATCCCATTTCTGAAAAACAGAAAGGTAAATCAGTGAAATTTTT +CACCATTGCCTACAACTTATTGAGAAATAAGCAGCTTCCTCAGCCCTCAAAATAACAAAACCCACCTTAA +GGTGGGTTTCGCCAGAGAATTATCTCTGGTATTCAGAACGCCATTACCGGACTTTGCCTTGACCTTGCGA +TAATCGCAGGTTGCGGGATGTCTGAATTTCTTCAGTCTGCTGCATCCTGGAAGATGAGAACATGTGTTCT +TATTTTCGTCTCTATCATAGTTGAGTATTTACTCTCTTACAATCAGATCTCTTTCATTGCTCAACAGGCG +ATGGCTTCAGACTTTGCATTACGGAATTTTTAAGAAAGGCAGGGCGAAACGAGGAAGAAGCTTTTCGCCC +TGGACAACATTCCTGCTGACGGCACTACCATAAAAAAACACAACGCTTTCAACAACCTTGCGTTTTTCAT +CTTCCGTAGCGGCTCGGAATAAATTTACGTTCTTACATTCCGTCTCATAGTCTTTGCGAGGCGCGTCCCA +GATAGCTGTCCCAGTCTTTCCATACCGGCTGCAAACCCTGAGCGGTTAACGCGGCAGCAACCGCTTCCGG +TCTGCGATCGTCGTGCGGTGAGAACTGTTCCAACTCGGGGTGATTATCGGCATAGCCACCTGGCTGCGTT +TTCGAGAAGGCGCTGACGTTATTGATCGCCAGCGGAATAACGCGATCGCGAAACCACGGTGATTCCCGCG +TGGAGAGTGACAGTTCAATCTCCGGTGCAAGCAGTCGGAAGGCGCAGATGGTTTGCACTAACTGGCGTTC +ATCCATAATCGACGCAGGCTCAATGCCGCCAGTACACGGGCGCAGGCGCGGAAAGGAGACAGAGTAACGG +CTTTGCCAGTAATGCTGTTGCAGCCATAGCAAATGTTCGGCAACCATATAGCTGTCAACGCGCCAGTTGT +CGGAAAGGCCAATTAGCGCGCCGAGGCCTATCTTATCAATCCCCGCACGCCCCAGCCGATCCGGCGTTTC +CAGCCGCCAGAAGAAGTCCTGTTTTTTGCCTTTCAGATGATGGCGGGCATAAGTCGCCTCGTGATATGTC +TCCTGATAAACCATCACGCCATCCAGACCAAGTTGCTTTAACTCGGCGTATTCCGTCTCCGCCAGCGGTT +GCACTTCCATCTGTAGTGAAGAGAACTGTTCACGAAGGGCAGGGAGATGACGACGAAAGTAATCCATCCC +CACTTTCGCCTGATGTTCACCAGTGACTAACAGCAGATGTTCAAAGCCCATCTCCCGTATAGCGGCACTT +TCCCTGGCAATATCCGCTTCATCCAGCGTTTTGCGCTTGATGCGATTACTCATGGAAAATCCACAGTACG +TGCAGTCGTTAGCGCAAAGATTGGAAAGATAAAGCGGGACGTAGAAACTAACTGTGTTGCCAAATCGCTG +ACGGGTCAGACGCTGCGCCCGTTGGGCCAGTTGTTCCAGATAGCCACTGGCGGCAGGCGATAACAGCGCC +ATCATGTCGTCGCGGGTGAGTTGCGAGGCATTTAGCGCCCGCTCTACGTCAGCAGCCGTTTTGCCGTTGA +TACGCAGGCGGATGTCGTCCCAGTCCAGTTGTCGCCAGCGATCGCTGAAGGTTTTCATGCCGATGCCTCC +AGAAATCCGGTCAGCGGGCTGGTGGCATGAGCAAAATAACTGCGGCTGCCCGGTCCGGACTGACGTGCCA +GTAGGCCTGCTTCTACCGCCAGACGAAATGCCTTCGCCATGTTGACGGGATCGTCCGCGACGGCAATCGC +CGTATTCACTAACACCGCGTCGGCCCCCATTTCCAGCGCCTGCGCGGCATGGCTGGGAACGCCGATGCCA +GCATCGACAACCACCGGCACTGTGGCCTGCTGGATAATAATCTCCAGCATGGCGCGGGTTTCCAGTCCCT +GATTCGAGCCAATCGGCGCGCCGAGCGGCATCACCGCTGCACAGCCGACTTCTTCCAGACGTTTACACAA +TACCGGATCGGCCCCGCAGTAAGGCAGCACGACAAATCCCTGTTGTACCAGCGTTTCGGCGGCTTTCAGG +GTTTCGATGGGATCGGGCAACAGCCAGCGGGCGTCAGGGTGAATCTCTAATTTTAACCAGTTTGTGCCTA +ACGCTTCACGAGCCAGATGGGCGGCGAAAATGGCTTCTTCCGCTGTTTTCGCCCCGGATGTATTTGGCAG +CAGGGTCACACCCGCCGCGATAAGCGGTTCGAGGATAGCGTCGTTGTGCTGGCGCAAGTCGACACGTTTC +ATCGCCAGTGTCACCAGCTGGCTGCCGGAAGCGCGGATCGCCTCCACCATCAGTTGTGAAGAAGCGAATT +TCCCTGTGCCGGTAAACAGATGTGAATCAAACGTTTTGTCCGCAATACGTAACATTTCAACCCCCTGCAA +TAACCTGAAAAAGCAGGATCTGGTCGCCATCCTGCACGATATGTTGCGCCCACTGCTCACGCGGGACGAT +TTGCTGATTAATCGCCAGAGCCGCGCCCGCTTGTCGTTGGTCGAGTTGCTCCAGTAGTTCGTGAACAGTT +TGCCCGGCGGCGCACTGCATCGCTTGATCGTTAAACAGGATCTGCATTGCTTCCTCCGCATACCGGGCAA +CCACTGGCGCGGCGCAACGCCAGGCTGCGCCACTGGCTCGATTTACCGTCGAACAGTCGGAGTTCTCCCG +CAGGTGTCTCTATACCGCTTAATAACTTAATGGCTTCCAGTGCCTGCAAAGTGCCCATAACCCCGACCAC +CGGGCCAACCACGCCCGCCGTGCGGCAGTTGCGTTCTGGCTCCTGGTTATCTGGCCACAGGCAGCGGTAA +CACCCCTGCTCCCAGGGCGGCGTCAGTACCATCAACTGACCGCCAAATCCGACCGCGCTGGCGGTGATAA +GCGGCGTGTTGAGTGCCACGCAGGCGGCATTAATCTCCTGGCGAGTCGCCATATTGTCGGTACAGTCGAG +CACCACATCGGCCCGTGCAACCGCATCTTTTAACGCCTCACCCGTTAACCGTTGTTGTAATGCTGTCAGT +TGAATGTCGGGATTCAACTGTGTCAGTCGCTGTTGGCTGACCTGCGATTTCGGGCGATCGATATCTTCAG +TGGTAAAGAGGATTTGTCGTTGCAGATTGCTTAAATGCACATCGTCGTCATCTGCCAGTACCAGCGTCCC +GACGCCAGCGCCCGCCAGGTACAGCGCAGCAGGTGTACCCAGCCCGCCCAGACCGATAATCAGCACCTGG +CTGTCGAGCAGTTTTTGCTGCCCGTCCAGAGCGATATCGTCGAGCAGGATTTGGCGGCTATAACGCATAA +AGTCACGGTCATTCATCGCCAACTCCTGCAATTTCCAGCAACTGTGCCGTTGCCAAACGCCAGTCTGCGG +CTTGAGTAATGGCGCTGACGACGGCGATACTGCCGACACCCGTTGCTATCACCGCAGGCGCGCGTGCCAG +ACTGATACCGCCAATCGCCACGGTGGGATAATCCGCCAGTCGCTCAACATGCCGTGCCAGCTGTTCCAGC +CCCTGCGGTGCAGAAGGCATCTGTTTGGTTTGCGTCGGGAACACATGTCCCAGCGCGATATAAGAGGGGC +GTGCTGCCAGCGCGACGTCGATTTCCATATCGTCATGTGTCGAAACGCCCAGCCGCAGGCCTGCCGCGCG +GATGGCATTGAGATCGGTGGCTTGCAAATCTTCCTGCCCCAAATGGACGCCATACGCCTGATGCTTGATC +GCCAGCCGCCAGTAATCGTTGATAAACAATCGCGCGTTATAGCGGCGGCCCAGCGCAATTGCCGCCACGA +CATCGGCTTCCACCTCTTCATCGCGCCGATCTTTGATGCGTAGCTGGAGAGTACGTACGCCTGCATCCAA +CAGACGTTCGATCCACTGTACGCTGTCCACCACCGGGTACAGTCCTGAACGAAAAGGTACAGGAGGAAAA +TCAGGCTGATACATCACGCTTCCTCCTTACGCAGGTAGATTTCTCCGCCTCTGGCACGGAAGTTCTCCGA +CATATCCGCCATTCCCATTTCAATAGTTTGCGTGGCGGCGTAATCACGCACTTCCTGGCTGATTTTCATC +GAGCAGAATTTCGGCCCACACATGGAGCAAAAATGGGCGACTTTACCTGACTCTTGCGGCAGGGTTTCAT +CGTGATAAGCGCGGGCGGTAAACGGGTCGAGGGCCAGATTAAACTGGTCTTCCCAGCGAAATTCGAAGCG +GGCTTTCGACATGGCGTTATCGCGAATTTGCGCGCCCGGATGCCCTTTCGCCAGGTCAGCGGCGTGGGCA +GCAATCTTATAGGTGATAAGCCCCTGCTTAACATCTTCTTTATTGGGCAGACCCAGATGCTCTTTTGGCG +TTACGTAACAGAGCATCGCGCAGCCAAACCAGCCAATCATCGCCGCACCAATCCCCGACGTGAAGTGGTC +ATAGCCCGGCGCAATATCGGTAGTTAGCGGCCCCAGAGTGTAAAACGGCGCTTCGTGGCAGTGCTCTAAC +TCCTCGGTCATATTGCGGCGGATCATCTGCATCGGCACGTGGCCTGGGCCTTCAATCATCACCTGCACGT +CATATTCCCAGGCAATTTTGGTCAGTTCGCCCAGCGTATGCAGCTCGGCAAACTGCGCTTCATCGTTGGC +GTCCTGAATAGAACCGGGGCGCAGACCGTCGCCCAGCGACAGCGAAACGTCATAAGCGGCACAGATTTCA +CAAATTTCGCGGAAGTGTTGATAGAGGAAATTTTCCTGATGATGGGAGAGGCACCATTTCGCCATAATCG +AACCGCCGCGAGAGACGATACCGGTCAGGCGTTTCGCGGTCATCGGCACATAGCGCAGCAGTACGCCCGC +ATGGATAGTGAAGTAATCCACACCTTGCTCGGCCTGTTCCAGCAGCGTGTCGCGGAACGCTTCCCAGGTA +AGATCTTCGGCGATCCCGTTAACCTTCTCCAGCGCCTGGTAGATCGGCACTGTACCGATCGGCACCGGGC +TGTTACGCAAAATCCACTCGCGGGTTTCGTGAATATAGCGACCGGTGGAGAGATCCATCACCGTATCCGC +TCCCCAGCGCGTGGACCATACCAGCTTTTCCACTTCTTCTTCGATGGAAGAGGTGACCGCCGAGTTGCCG +ATATTGGCGTTAACTTTTACCAGGAAATTGCGACCAATAATCATCGGCTCCGATTCCGGATGATTAATGT +TGGCCGGGATAATCGCACGTCCGGCAGCAACTTCATCACGGACAAATTCCGCAGTGATATTTTCCGGCAG +ATGTGCGCCAAAGCTCATTCCCGGATGCTGGTGGCGTAAAACCTCGCTACGGATGCGCTCGCGGCCCATA +TTCTCGCGGATGGCGATGAATTCCATTTCCGGCGTGATGATGCCCTGGCGGGCGTAGTGCAGTTGGGTGA +CACGGCGTCCTGCTTTGGCGCGTTTTGGTGTTAGTACGCCGCTAAAACGCAGTTCGTCGAGGCCATCATC +TGCCAGCCGCGCTTTAGTGTAATCGGAACTGCGCACGGTAAGTTCTTCGGTATCGCCGCGCGCATCGATC +CACGGCTGGCGTAGTTTTGCCAGCCCTTGCTGCACGTTAATGGCAATCTGCGGATCACCATACGGGCCGG +AGGTGTCGTAGACCGGAATCGCTTCGTTTTCTTCGTACTGCGGCTGTTCTTTGCTACCGCCAATTAGCGT +CGGGCTAAGCTGGATCTCACGCATCGGCACGCGCACGCCGGGGTGTGTGCCAGTGATATAAATGCGTTTT +GAGTTGGGAAAGGCGGTGCCTTCCAGGGTGTCGATAAAATGTTGGGCCCGGGCGCGTTGTTCGCGGCGGG +TCAGTTTTGTTGCAGACATAGCTCATTCCAAAAAGTTAAGGACGTGGCTTGTCAGACGACGGATGAAGCA +AGAGACGATCGCCGCAGGGGCGATGCGATAGCAGATTAACTCTTGTTCCCTTCGCAGGTATTAGCCTGAT +CAGGTTCCGCGGATCCCGAATAAACGGTCTCAGCCAGTTAAGGCACTCCGACAAGAAATTAGCCCCGCAA +ATGGGGCATTGAATGTAAATTACGCGTTAACAGCGCAGAACTCAAGCAGGATGTTTGACGCGGGCGGCGT +CAAGCACCAGCAGAATCAGCTTATCTTCCAGCACAAAGCGCGCTTCCAGCGCCTCGCCGATGTCAGATAA +AACCTGTTGAAACTCAAGGTAATTATCATGATCGATGGCGGTTTCCAGACTGGAATCGTAGTAATCCATA +ATCTGTTGAGTATTGGCTTCGAGTTGCGGCCAAATCTTCGCGGCGCGCGCGAGTTGCCCGTTGCCTTCCA +GCTTATGAAGAATGCGCTCATAAATACTGAAATGTCCGGCAGACAAGTAATCGACCAGGCTCTGACAAAA +ATCATCAAGGGCTTTTTCGTTTAGCCTCATGTACGATTCTTTGCCAGGCTTAATGCCAACCAGATTGTAG +TAAGCCACGAGCAGATGCTTACGTACATGTAGCCAGCGATCAACCAGTTTGTTACTTCCTCTGACGCGCT +CCGTCAGGTTATCGAGCTGGTTAAGCATGATTGACTCCGCAAGTTTGTATTCAAAAACTGCTCAGTGAGA +AATGTAAAAACCATGTTAAACATGCCAGTGATGCAAAGGTAGTGCAAGAGCTATGGATCGTATAATTGAA +AAATTAGATCACGGCTGGTGGGTCGTCAGCCATGAACAAAAATTATGGTTGCCGAAGGGAGAATTGCCAT +ATGGCGAAGCGGCAAATTTCGATCTTGTGGGTCAGCGCGCACTACAAATCGGCGAATGGCAGGGGGAACC +TGTTTGGTTAGTACAACAGCAGCGGCGTCACGATATGGGGTCGGTACGTCAGGTCATTGATCTCGATGTT +GGGCTGTTTCAACTGGCCGGACGAGGCGTACAACTGGCGGAGTTTTACCGATCGCATAAATACTGTGGTT +ACTGCGGGCATGAAATGTATCCGAGCAAAACCGAATGGGCGATGCTGTGCAGCCATTGCCGTGAGCGTTA +CTACCCGCAAATCGCCCCCTGCATTATTGTTGCCATCCGTCGCGATGATTCGATCCTCCTCGCCCAGCAT +ACCCGCCATCGTAACGGTGTCCATACAGTACTTGCCGGATTCGTCGAAGTGGGCGAAACCCTCGAGCAGG +CAGTCGCGCGGGAAGTGATGGAAGAGAGCGGAATTAAAGTTAAAAACTTGCGTTACGTGACTTCTCAGCC +GTGGCCGTTTCCTCAGTCTTTAATGACCGCGTTTATGGCGGAATATGACAGCGGCGACATCGTGATCGAC +CCGAAAGAATTGCTCGAGGCGAACTGGTATCGCTATGACGATTTGCCGTTACTCCCGCCGCCCGGCACCG +TAGCGCGCCGTCTGATAGAAGATACGGTGGCGATGTGTCGGGCAGAGTATGAGTGATGATACACTGACCG +CCTGACGCACTAAGGAACAGCCAAAATGACCGAACTTAAAAACGATCGTTATCTGCGGGCGCTGCTGCGC +CAGCCCGTTGATGTCACTCCAGTATGGATGATGCGCCAGGCGGGTCGCTATCTACCGGAATATAAAGCCA +CGCGCGCCCAGGCAGGCGATTTTATGTCGCTGTGCAAAAACGCCGAGCTGGCGTGCGAAGTGACTTTGCA +ACCGCTGCGTCGCTACCCGCTGGATGCGGCGATCCTCTTTTCCGATATCCTCACCGTGCCGGACGCGATG +GGGTTAGGGCTCTATTTTGAAGCCGGAGAAGGTCCGCGTTTTACCTCGCCAGTCACCTGCAAAGCTGACG +TCGATAAACTGCCAATTCCGGACCCGGAAGATGAACTGGGTTACGTGATGAACGCGGTGCGTACCATTCG +TCGCGAACTGAAAGGCGAAGTGCCGCTGATTGGTTTTTCCGGCAGCCCGTGGACGCTGGCGACCTACATG +GTGGAAGGCGGCAGCAGCAAAGCCTTCACCGTGATCAAAAAAATGATGTATGCCGATCCGCAGGCGCTGC +ACGCTCTGCTCGATAAACTGGCGAAAAGCGTCACTTTGTATCTGAATGCGCAGATTAAAGCCGGTGCTCA +GGCAGTGATGATTTTCGACACCTGGGGCGGCGTGCTTACCGGGCGCGATTATCAACAGTTCTCGCTCTAT +TACATGCATAAAATTGTTGATGGTTTACTGCGTGAAAACGACGGTCGCCGCGTACCGGTCACGCTGTTTA +CCAAAGGCGGCGGACAGTGGCTGGAAGCCATGGCAGAAACCGGTTGCGATGCGCTGGGCCTCGACTGGAC +AACGGACATCGCCGATGCGCGCCGCCGTGTGGGCAATAAAGTCGCGTTGCAGGGTAATATGGATCCGTCG +ATGCTGTACGCGCCGCCTGCCCGCATTGAAGAAGAAGTAGCGACTATACTTGCAGGTTTCGGTCACGGCG +AAGGTCATGTCTTTAACCTTGGTCACGGCATTCATCAGGATGTGCCGCCAGAACATGCTGGCGTGTTCGT +GGAGGCAGTGCATCGACTGTCTGAACAGTATCACCGCTAAGGAGTGATTATGGATCTCGCGTCATTACGC +GCTCAACAAATCGAACTGGCTTCTTCTGTGATCCGCGAGGATCGACTCGATAAAGATCCACCGGATCTGA +TCGCCGGAGCCGATGTCGGGTTTGAGCAGGGCGGAGAAGTGACGCGAGCGGCGATGGTGCTGCTGAAATA +TCCCTCGCTTGAGCTGGTCGAGTATAAAGTTGCCCGCATCGCCACCACCATGCCTTACATTCCAGGTTTT +CTTTCCTTCCGCGAATATCCTGCGCTGCTGGCAGCGTGGGAGATGCTGTCGCAAAAGCCGGATTTAGTGT +TTGTCGATGGTCATGGGATCTCGCATCCTCGCCGTCTTGGCGTCGCCAGCCATTTTGGCTTATTGGTGGA +TGTGCCGACCATTGGCGTGGCGAAAAAACGGCTCTGCGGTAAATTCGAACCGCTCTCCAGCGAACCGGGC +GCGCTGGCCCCACTGATGGATAAAGGCGAGCAGCTGGCCTGGGTCTGGCGCAGCAAAGCGCGCTGTAACC +CGTTGTTTATCGCTACCGGCCATCGGGTCAGCGTGGACAGCGCGCTGGCGTGGGTACAACGCTGCATGAA +AGGCTATCGTCTGCCGGAGCCAACGCGCTGGGCGGACGCGGTGGCCTCGGAACGTCCGGCGTTCGTGCGC +TATACAGCAAATCAGCCCTAATTCAGGTAAACTGCGGATAATTTCCGTATTTGAGAACTCAACATGTTAC +AAAACCCAATTCATCTGCGTCTGGAGCGCCTGGAAAGCTGGCAGCATGTCACTTTCATGGCTTGCTTATG +CGAACGCATGTACCCCAATTACGCCATGTTCTGCCAGCAAACCGGTTTTGGTGATGGGCAAATTTACCGT +CGCATTCTCGATCTCATCTGGGAAACGCTGACCGTTAAAGACGCAAAAGTAAATTTCGACAGCCAACTGG +AGAAATTTGAAGAAGCGATTCCTTCAGCCGACGATTTCGATCTGTACGGCGTTTATCCGGCAATCGATGC +CTGCGTGGCGTTAAGTGAACTGGTCCATTCGCGTTTGAGTGGTGAAACGCTCGAACACGCGGTGGAAGTG +AGTAAGACCTCCATCACGACCGTTGCGATGCTGGAAATGACTCAGGCTGGTCGCGAAATGAGCGATGAAG +AGCTTAAAGAAAACCCAGCTGTAGAGCAAGAATGGGACATTCAGTGGGAAATATTCCGACTTTTAGCTGA +GTGCGAAGAACGCGATATCGAGCTGATAAAAGGCCTTAGGGCAGACCTGCGTGAGGCGGGTGAGAGCAAT +ATTGGTATAATTTTTCAGCAATAAGACCAGAAAACGTGATTTAACGCCTGATTTGTCGTACCTGGAGTCT +TCCCTTTCGCCCCCCGTCTGGTCTACATTTGGGGGGCGAAAAAAAGTGGCTATCGGTGCGTGTATGCAGG +AGAGTGCTATTCTGGCATTTCCGTCGCACTCGATGCTTAGCAAGCGATAAACACATTGTAAGGATAACTT +ATGAACAAGACTCAACTGATTGATGTAATTGCAGAGAAAGCAGAACTGTCCAAAACCCAGGCTAAAGCTG +CTCTGGAGTCCACTCTGGCTGCAATTACTGAGTCTCTGAAAGAAGGCGATGCTGTACAACTGGTTGGTTT +CGGTACCTTCAAAGTGAACCACCGCGCTGAGCGTACTGGCCGCAACCCGCAGACCGGTAAAGAAATCAAA +ATTGCCGCAGCTAACGTACCGGCATTTGTTTCTGGCAAGGCACTGAAAGACGCAGTTAAGTAAGATTGCG +TGGCAGTGAACAGTTTTAACGAAGGGGTGGTTTCACCCCTTTTGTCTTTCTGGCGTCGATCATTGATGCT +GGCTGGCGCTCTGCTTCTCACTGCCTGTAGTCATAACTCTTCACTTCCTCCCTTTACCGCCAGTGGATTT +GCTGAAGACCAGGGCGCGGTACGCATCTGGCGAAAAGACAGCGGCGATAATGTGCATCTGCTTGCCGTGT +TTAGCCCGTGGCGCAGTGGCGATACCACGACGCGAGAGTATCGCTGGCAGGGCGATAACCTCACGCTCAT +CAATATCAATGTTTACAGCAAACCGCCGGTGAATATTCGCGCGCGTTTTGACGATCGCGGTGATCTGAGC +TTTATGCAACGTGAATCCGATGGGGAAAAGCAGCAGCTTTCTAACGACCAAATCGATTTATACCGTTATC +GTGCTGATCAGATCCGCCAGATTAGCGATGCCTTACGTCAGGGGAGAGTCGTGCTGCGCCAGGGGCGCTG +GCATGCGATGGAACAGACCGTGACCACCTGCGAAGGGCAAACCATTAAACCTGATTTAGATTCGCAGGCG +ATAGCGCATATCGAGCGCCGCCAGAGCCGCTCTTCTGTTGATGTCAGCGTGGCATGGCTGGAAGCGCCCG +AAGGTTCGCAATTACTGTTAGTGGCAAACTCTGATTTCTGTCGCTGGCAACCCAACGAGAAAACGTTCTG +ATTTACCAGTGGCCCATACCCATATGACCGCCACCACCGCAGCCGCCGTAGCCCATGCCCATTCCGGCTC +CGCGCGGAATACCCGCTTCAGCCATCGCGATATCTCGTTTCACCCGTAACTCATCTAACGACTGACGCAA +ATTCTCCATCTCTTTGGCGACCGCGTTAATTTTGCTGCTATCCGGTGGGTTCGCGGCTAACAGGGCATTG +TATTCATAACGCTTCGTCACCAGTTGCTGTTGCAGTGCGCTGCTTTGAGCGTAAAAGTCATTATGGATTT +TCTGCCACGCTGTCTGTTGTTCGCTGGTCAAAGGCGCGGCATTTTGCTGCCACATACCGTGTCCGCCGTG +AGCAAATGCAGATGTCGATCCCATCGCCATTGCTGAAAGCGCCATCATTACCAGGGCAATTTTCGTGTTC +CGTTTCATGGTTAATCCTCCAGTGGTTGTCTTACTTCGGGTATTGCATCTTCCGTGCCAACGATGAAACG +CTGATATGACGGGTAATCTGGCATGATAAACGAGTAAAAATGACTCGCCTGCTGCGGGTAGCGAGTCATT +TTTACTCATTGAAACTTAAGCCTTTGTGTTACAGCGCAGGGTAAGCGCTGATAAAAGATGGCATGATTTC +TGCTGTCAGAAAGGGATGAGCAGGCAAAGAAGAAGATGCGTTTTATGCAACGTTCTAAAGACTCCTTAGC +TAAATGGTTAAGCGCGATCCTCCCCGTGGTCATTGTTGGGCTGGTGGGATTGTTTGCGGTAACTGTGATT +CGTGATTATGGGCGGGCAAGCGAGGCAGACCGCCAGGCATTACTGGAAAAAGGTAATGTGCTTATCCGCG +CTCTGGAGTCGGGAAGCCGCGTAGGGATGGGGATGCGAATGCACCATGTACAGCAACAGGCGCTTCTGGA +AGAGATGGCGGGACAGCCGGGAGTGTTGTGGTTCGCAGTCACCGATGCGCAGGGCATCATTATTCTTCAT +AGCGACCCCGATAAGGTCGGGCGTGCGCTCTATTCGCCGGATGAAATGCAGAAATTAAAGCCAGAGGAAA +ACTCCCGCTGGCGGCTGCTTGGGAAAACGGAAACTACGCCTGCACTTGAGGTCTATCGTTTGTTCCAGCC +AATGTCAGCGCCCTGGCGGCATGGAATGCACAATATGCCGCGCTGTAACGGCAAAGCTGTGCCACAAGTA +GATGCACAACAGGCTATTTTTATCGCCGTTGATGCCAGTGATCTGGTTGCAACCCAGAGTGGGGAAAAGC +GCAATACCCTGATTATCCTCTTCGCCCTGGCGACGGTCTTGCTGGCAAGCGTATTGTCATTCTTCTGGTA +TCGCCGCTATCTGCGCTCGCGCCAGCTTCTACAAGATGAAATGAAGCGCAAAGAGAAGCTGGTGGCGCTG +GGGCATCTTGCGGCAGGCGTTGCCCACGAAATCCGTAACCCACTTTCCTCGATTAAAGGACTGGCGAAAT +ACTTTGCCGAGCGCGCGCCTGCAGGGGGAGAAGCGCATCAACTGGCGCAGGTGATGGCGAAAGAGGCCGA +CCGTTTAAACCGCGTGGTAAGCGAGTTGCTGGAACTGGTTAAGCCAACGCATCTGGCTTTGCAGGCGGTG +GATCTCAACACGCTGATTAACCACTCATTACAGCTGGTAAGTCAGGATGCAAACAGCCGGGAGATCCAGT +TACGCTTTACCGCCAACGACACATTACCGGAAATTCAGGCCGACCCGGACAGGCTGACTCAGGTCCTGTT +GAATCTCTATCTCAATGCTATTCAGGCGATTGGTCAGCATGGCGTGATTAGCGTGACGGCCAGCGAAAGC +GGCGCGGGCGTGAAAATCAGCGTTACCGACAGCGGTAAGGGAATTGCGGCAGATCAGCTTGATGCCATCT +TCACTCCGTACTTCACCACTAAAGCCGAAGGCACCGGATTGGGGCTGGCGGTCGTGCATAATATTGTTGA +ACAACACGGTGGTACAATTCAGGTCGCAAGCCAGGAGGGAAAAGGCTCAACGTTCACCCTCTGGCTTCCG +GTCAATATTACGCGTAAGGACCCACAAGGATGACGCACGATAATATCGATATTCTGGTGGTGGATGATGA +CATTAGCCACTGCACTATTTTGCAGGCTTTACTGCGCGGCTGGGGCTATAACGTCGCGCTGGCGAACAGC +GGGCGACAGGCGTTGGAGCAGGTGCGGGAACAGGTTTTTGATCTTGTGCTTTGCGATGTGCGAATGGCGG +AGATGGACGGCATCGCCACGCTGAAAGAGATCAAAGCGTTAAACCCGGCAATTCCGGTGCTGATTATGAC +TGCGTACTCCAGCGTCGAGACGGCGGTAGAGGCACTGAAAACTGGGGCGCTGGATTATCTCATCAAGCCG +CTGGATTTCGATAACCTACAGGCGACGCTGGAAAAAGCGCTCGCGCATACGCACAGTATTGATGCTGAAA +CACCTGCGGTGACTGCCAGCCAGTTCGGTATGGTCGGTAAAAGCCCGGCGATGCAACACCTGCTCAGTGA +AATCGCCCTCGTCGCGCCATCGGAAGCCACGGTACTGATCCACGGCGATTCCGGCACCGGTAAAGAGCTG +GTCGCCAGGGCGATTCACGCCAGTAGCGCACGTAGCGAAAAACCGCTGGTAACGCTCAACTGTGCGGCAC +TCAACGAATCCTTGCTGGAATCTGAATTGTTCGGTCACGAAAAAGGGGCGTTTACTGGAGCCGATAAACG +CCGGGAAGGGCGCTTTGTTGAGGCGGACGGCGGCACGCTGTTTCTCGATGAAATTGGCGATATCTCGCCG +ATGATGCAGGTGCGTCTGCTGCGTGCGATTCAGGAGCGCGAAGTTCAGCGTGTCGGTAGCAACCAGATTA +TCTCGGTTGATGTCCGGCTGATTGCGGCGACCCATCGCGATCTTGCCGCAGAGGTGAATGCCGGGCGTTT +TCGCCAGGATCTCTACTATCGCCTGAATGTGGTGGCGATTGAAGTACCATCGCTGCGGCAACGGCGGGAA +GATATCCCTCTGCTGGCTGGCCATTTTCTGCAGCGCTTTGCCGAGCGTAATCGCAAGGCGGTAAAAGGTT +TTACGCCCCAGGCGATGGATCTGTTGATTCATTACGACTGGCCGGGAAATATTCGTGAGCTGGAAAACGC +GGTGGAACGGGCAGTGGTGCTGCTGACCGGGGAATATATTTCCGAACGCGAGCTGCCGCTGGCGATTGCC +AGTACGCCGATCCCGCTGGGACAAAGTCAGGATATTCAGCCGTTGGTGGAAGTGGAAAAAGAGGTGATTC +TGGCGGCGCTGGAGAAAACGGGCGGCAACAAAACCGAAGCCGCCCGTCAGTTAGGGATCACGCGCAAAAC +GCTATTGGCAAAACTGTCGCGTTAGTTCTGCTCGCGTTCGATAGCGCGCCAGCCGATATCTTTCCGGCAG +AAGCAGTCGTCCCAGTGGATATCGGTCATTAAGGCATAGGCGCGTTTCTGCGCTTCTGCCACGGTATGAC +CCAGCGCGGTGACGCACAGTACGCGCCCGCCGTTGGTCACTACCTGCTCGTCATCCGCCAGTTTTGTGCC +CGCGTGGAACACTTTGCCGCCTGCCACTTCTTCCAGCGGCAGGCCGTGGATCACGTCACCGGTGCGGTAA +TCACCCGGATATCCACCCGCAGCCATCACCACGCCGAGAGAAGCGCGTTCATCCCACTCGGACGTTTTCT +CGTCCAGTTTGCTTTCACAGGCCGCCAGGCAGAGCTCAACCAGATCGGACTTCATGCGCAGCATAATCGG +CTGGGTTTCCGGATCGCCAAAGCGGCAGTTAAATTCAATAACCTTCGGATTGCCCTGTTTGTCGATCATC +AGGCCCGCGTAGAGAAAACCGGTGTAGGTGTTGCCTTCCGCCGCCATGCCTTTCACGGTTGGCCAGATAA +TACGTTCCATGGTGCGCTGATGAACGTCATCGGTTACTACCGGCGCGGGGGAGTAAGCGCCCATCCCGCC +GGTGTTTGGTCCGGTATCTTTATCGCCTACGCGTTTGTGATCCTGGCTGGTAGCCATCGGCAGCACATGC +TCGCCGTCCACCATCACGATAAAGCTCGCTTCTTCGCCATCGAGGAACTCTTCGATAACGATGCGATGAC +CCGCGTCGCCAAAAGCGTTGCCCGCCAGCATATCGTGAACAGCCGCTTCCGCTTCTTCCAGCGTCATCGC +CACGATAACGCCTTTCCCGGCAGCCAGACCGTCCGCTTTAATGACGATTGGCGCGCCTTTCTCACGCAGA +TACGCCAGCGCAGGTTCTACCTCGGTGAAGTTCTGGTATTCCGCCGTAGGGATCTTATGGCGGGCCAGGA +AATCTTTGGTAAACGCTTTTGAGCCTTCCAGTTGGGCCGCACCTGCGGTTGGGCCGAAGATTTTCAGCCC +GGCGGCGCGGAAGGTATCGACCACGCCTTTCACCAGCGGCGCTTCCGGGCCGACGATGGTCAGATCAATC +TTTTCGTTTTGTGCGAAATCCAACAGCGCCGGGATATCGGTCACGCCAATAGCAACGTTTTGCAGCGCGG +GTTCCAGTGCAGTGCCTGCATTACCCGGAGCAACAAAAACAGTCTCAACCAGCGGCGACTGGGCCGCTTT +CCAGGCCAGCGCGTGCTCGCGCCCGCCGTTACCAATCACTAATACTTTCATCTATTGCTCCATTAATGGC +GGAAGTGGCGCATGTCGGTGAAGAGCATCGCAATACCGTGCTCGTCGGCGGCGGCAATCACTTCGTCATC +ACGGATAGAACCGCCAGGCTGGATTACGCAGGTCACGCCCGCAGCGGCGGCGGCATCAATACCGTCGCGG +AACGGGAAGAACGCGTCAGAAGCCATCGAGGAACCTTTCACTTCCAGGCCTTCATCGGCCGCTTTAATAC +CGGCGATTTTTGCGGAGTACACGCGGCTCATCTGGCCCGCGCCAATGCCGATAGTCATATTGTTTTTGGC +ATAGACGATAGCGTTGGATTTCACAAACTTCGCCACCTTCCAGCAGAACAGCGCATCACGCAGTTCCTGT +TCGCTCGGCTGACGTTTGGTCACCACGCGCAGTTCTTCCGCACCGACCATCCCCAGGTCACGATCCTGAA +CCAGCAGACCGCCGTTCACGCGTTTGAAATCGAGGCCCGGAACACGCTCGCCCCACTGACCGCAGGTCAG +AACGCGTACGTTCTGTTTGGCGGCGGTGATTTTCAGGGCTTCTTCGCTGGCGGACGGCGCAATAATCACT +TCGACAAACTGACGAGAAATGATGGCCTGTGCGGTTTCCGCATCCAGCTCGCGGTTAAAGGCAATGATGC +CGCCGAATGCGGAGGTTGGGTCGGTTTTGTACGCGCGATCGTAAGCATCAAGAATGGAATTGCCGATAGC +CACGCCGCAAGGGTTGGCGTGCTTCACAATCACACATGCCGGCTCGGCGAACTCTTTCACGCACTCCAGC +GCCGCATCGGTATCGGCGATGTTGTTATAAGAGAGGGCTTTACCCTGAACCTGGGTTGCGGTAGCAACGG +AGGCTTCTTTCACATTCTCTTCTATATAGAAGGCAGCCTGCTGGTGGCTGTTCTCGCCGTAACGCATATC +CAGCTTCTTAATGAAGTTCAGGTTCAGCGTGCGTGGGAAGCGACCGGCGGCTTCTTTGCTTTCACCGTGG +TAAGCCGGAACCATGCTGCCGAAGTAGTTGGCAATCATGCTGTCGTAGGCGGCAGTGTGTTCGAAGGCTT +TGATGGCGAGGTCGAAACGGGTTGCAAGCGTCAGCGATCCTTCGTTGTCATCCATCTCTTTAATAATGGC +GTCATAGTCGCTGCTCTTCACCACGATTGCGACATCTTTATGGTTCTTGGCGGCGGAGCGCACCATCGTT +GGGCCGCCGATATCGATGTTCTCAACCGCATCTTCCAGCGAGCAACCTTCACGGGCCACGGTCTGGGCGA +ACGGATACAGGTTAACAACCACCATATCGATAGGCTGGATCTGATGTTCTTCCATAATGGCATCGTCCTG +GCCGCGACGGCCCAGAATGCCACCATGTACTTTCGGATGCAGGGTCTTCACGCGTCCATCCATCATCTCC +GGGAAACCGGTGTAATCGGAAACTTCGGTTACCGGCAGACCTTTTTCTGCTAACAGACGGGCAGTGCCCC +CTGTAGACAGCAGCTCCACACCGCGTGCGGAAAGTGCCTGGGCGAATTCGACGATACCGGCTTTGTCAGA +AACACTGAGCAGAGCGCGGCGGACTGGACGACGTTGTTGCATGGTAAATCCCCTGGATTTGACTATTACA +GAGAGCGTTAGCTGAATTTTTCGCGAAAAACTCAGCTAACGCCCCTAACGGGGCATCCTTATTTTTCGCC +CGCATTGTAACGAAAACGTTTGCGCAACGCTCGCGAATTTTTCTCTTTCAATGGTGATCACAATTTTGAC +TGTGGTTACCGTGGGCAAAATACAGAAATTACATTGATGATTGTGGATAACTCTGTGCGTAAAAAGGTAT +AAAGCGGGCTTTTGCTGGGGAATGCAGCAGTCAGTCATTTTTCTGCAATTTTTCTATTGCGGCCTGCGGA +GAACTCCCTATAATGCGCCTCCATCGACACGGCGGATGTGAATCACTTCACACAAACAGCCGGTTCGGTT +GAAGAGAAAAATCCTGAAATTCAGGGTTGACTCTGAAAGAGGAAAGCGTAATATACGCCACCTCGCGACA +GTGCGCTAAAGCGCGTCGCAACTGCTCTTTAACAATTTATCAGACAATCTGTGTGGGCACTCGAAGATAC +GGATTCTTAACGTCGCAAGACGAAAAATGAATACCAAGTCTCAAGAGTGAACACGTAATTCATTACGAAG +TTTAATTCTTTGAGCATCAAACTTTTAAATTGAAGAGTTTGATCATGGCTCAGATTGAACGCTGGCGGCA +GGCCTAACACATGCAAGTCGAACGGTAACAGGAAGAAGCTTGCTTCTTTGCTGACGAGTGGCGGACGGGT +GAGTAATGTCTGGGAAACTGCCTGATGGAGGGGGATAACTACTGGAAACGGTAGCTAATACCGCATAACG +TCGCAAGACCAAAGAGGGGGACCTTCGGGCCTCTTGCCATCGGATGTGCCCAGATGGGATTAGCTAGTAG +GTGGGGTAACGGCTCACCTAGGCGACGATCCCTAGCTGGTCTGAGAGGATGACCAGCCACACTGGAACTG +AGACACGGTCCAGACTCCTACGGGAGGCAGCAGTGGGGAATATTGCACAATGGGCGCAAGCCTGATGCAG +CCATGCCGCGTGTATGAAGAAGGCCTTCGGGTTGTAAAGTACTTTCAGCGGGGAGGAAGGGAGTAAAGTT +AATACCTTTGCTCATTGACGTTACCCGCAGAAGAAGCACCGGCTAACTCCGTGCCAGCAGCCGCGGTAAT +ACGGAGGGTGCAAGCGTTAATCGGAATTACTGGGCGTAAAGCGCACGCAGGCGGTTTGTTAAGTCAGATG +TGAAATCCCCGGGCTCAACCTGGGAACTGCATCTGATACTGGCAAGCTTGAGTCTCGTAGAGGGGGGTAG +AATTCCAGGTGTAGCGGTGAAATGCGTAGAGATCTGGAGGAATACCGGTGGCGAAGGCGGCCCCCTGGAC +GAAGACTGACGCTCAGGTGCGAAAGCGTGGGGAGCAAACAGGATTAGATACCCTGGTAGTCCACGCCGTA +AACGATGTCGACTTGGAGGTTGTGCCCTTGAGGCGTGGCTTCCGGAGCTAACGCGTTAAGTCGACCGCCT +GGGGAGTACGGCCGCAAGGTTAAAACTCAAATGAATTGACGGGGGCCCGCACAAGCGGTGGAGCATGTGG +TTTAATTCGATGCAACGCGAAGAACCTTACCTGGTCTTGACATCCACGGAAGTTTTCAGAGATGAGAATG +TGCCTTCGGGAACCGTGAGACAGGTGCTGCATGGCTGTCGTCAGCTCGTGTTGTGAAATGTTGGGTTAAG +TCCCGCAACGAGCGCAACCCTTATCCTTTGTTGCCAGCGGTCCGGCCGGGAACTCAAAGGAGACTGCCAG +TGATAAACTGGAGGAAGGTGGGGATGACGTCAAGTCATCATGGCCCTTACGACCAGGGCTACACACGTGC +TACAATGGCGCATACAAAGAGAAGCGACCTCGCGAGAGCAAGCGGACCTCATAAAGTGCGTCGTAGTCCG +GATTGGAGTCTGCAACTCGACTCCATGAAGTCGGAATCGCTAGTAATCGTGGATCAGAATGCCACGGTGA +ATACGTTCCCGGGCCTTGTACACACCGCCCGTCACACCATGGGAGTGGGTTGCAAAAGAAGTAGGTAGCT +TAACCTTCGGGAGGGCGCTTACCACTTTGTGATTCATGACTGGGGTGAAGTCGTAACAAGGTAACCGTAG +GGGAACCTGCGGTTGGATCACCTCCTTACCTTAAAGAAGCGTTCTTTGCAGTGCTCACACAGATTGTCTG +ATAGAAAGTGAAAAGCAAGGCGTCTTGCGAAGCAGACTGATACGTCCCCTTCGTCTAGAGGCCCAGGACA +CCGCCCTTTCACGGCGGTAACAGGGGTTCGAATCCCCTAGGGGACGCCACTTGCTGGTTTGTGAGTGAAA +GTCACCTGCCTTAATATCTCAAAACTCATCTTCGGGTGATGTTTGAGATATTTGCTCTTTAAAAATCTGG +ATCAAGCTGAAAATTGAAACACTGAACAACGAAAGTTGTTCGTGAGTCTCTCAAATTTTCGCAACACGAT +GATGAATCGTAAGAAACATCTTCGGGTTGTGAGGTTAAGCGACTAAGCGTACACGGTGGATGCCCTGGCA +GTCAGAGGCGATGAAGGACGTGCTAATCTGCGATAAGCGTCGGTAAGGTGATATGAACCGTTATAACCGG +CGATTTCCGAATGGGGAAACCCAGTGTGTTTCGACACACTATCATTAACTGAATCCATAGGTTAATGAGG +CGAACCGGGGGAACTGAAACATCTAAGTACCCCGAGGAAAAGAAATCAACCGAGATTCCCCCAGTAGCGG +CGAGCGAACGGGGAGCAGCCCAGAGCCTGAATCAGTGTGTGTGTTAGTGGAAGCGTCTGGAAAGGCGCGC +GATACAGGGTGACAGCCCCGTACACAAAAATGCACATGCTGTGAGCTCGATGAGTAGGGCGGGACACGTG +GTATCCTGTCTGAATATGGGGGGACCATCCTCCAAGGCTAAATACTCCTGACTGACCGATAGTGAACCAG +TACCGTGAGGGAAAGGCGAAAAGAACCCCGGCGAGGGGAGTGAAAAAGAACCTGAAACCGTGTACGTACA +AGCAGTGGGAGCACGCTTAGGCGTGTGACTGCGTACCTTTTGTATAATGGGTCAGCGACTTATATTCTGT +AGCAAGGTTAACCGAATAGGGGAGCCGAAGGGAAACCGAGTCTTAACTGGGCGTTAAGTTGCAGGGTATA +GACCCGAAACCCGGTGATCTAGCCATGGGCAGGTTGAAGGTTGGGTAACACTAACTGGAGGACCGAACCG +ACTAATGTTGAAAAATTAGCGGATGACTTGTGGCTGGGGGTGAAAGGCCAATCAAACCGGGAGATAGCTG +GTTCTCCCCGAAAGCTATTTAGGTAGCGCCTCGTGAATTCATCTCCGGGGGTAGAGCACTGTTTCGGCAA +GGGGGTCATCCCGACTTACCAACCCGATGCAAACTGCGAATACCGGAGAATGTTATCACGGGAGACACAC +GGCGGGTGCTAACGTCCGTCGTGAAGAGGGAAACAACCCAGACCGCCAGCTAAGGTCCCAAAGTCATGGT +TAAGTGGGAAACGATGTGGGAAGGCCCAGACAGCCAGGATGTTGGCTTAGAAGCAGCCATCATTTAAAGA +AAGCGTAATAGCTCACTGGTCGAGTCGGCCTGCGCGGAAGATGTAACGGGGCTAAACCATGCACCGAAGC +TGCGGCAGCGACGCTTATGCGTTGTTGGGTAGGGGAGCGTTCTGTAAGCCTGCGAAGGTGTGCTGTGAGG +CATGCTGGAGGTATCAGAAGTGCGAATGCTGACATAAGTAACGATAAAGCGGGTGAAAAGCCCGCTCGCC +GGAAGACCAAGGGTTCCTGTCCAACGTTAATCGGGGCAGGGTGAGTCGACCCCTAAGGCGAGGCCGAAAG +GCGTAGTCGATGGGAAACAGGTTAATATTCCTGTACTTGGTGTTACTGCGAAGGGGGGACGGAGAAGGCT +ATGTTGGCCGGGCGACGGTTGTCCCGGTTTAAGCGTGTAGGCTGGTTTTCCAGGCAAATCCGGAAAATCA +AGGCTGAGGCGTGATGACGAGGCACTACGGTGCTGAAGCAACAAATGCCCTGCTTCCAGGAAAAGCCTCT +AAGCATCAGGTAACATCAAATCGTACCCCAAACCGACACAGGTGGTCAGGTAGAGAATACCAAGGCGCTT +GAGAGAACTCGGGTGAAGGAACTAGGCAAAATGGTGCCGTAACTTCGGGAGAAGGCACGCTGATATGTAG +GTGAGGTCCCTCGCGGATGGAGCTGAAATCAGTCGAAGATACCAGCTGGCTGCAACTGTTTATTAAAAAC +ACAGCACTGTGCAAACACGAAAGTGGACGTATACGGTGTGACGCCTGCCCGGTGCCGGAAGGTTAATTGA +TGGGGTTAGCGCAAGCGAAGCTCTTGATCGAAGCCCCGGTAAACGGCGGCCGTAACTATAACGGTCCTAA +GGTAGCGAAATTCCTTGTCGGGTAAGTTCCGACCTGCACGAATGGCGTAATGATGGCCAGGCTGTCTCCA +CCCGAGACTCAGTGAAATTGAACTCGCTGTGAAGATGCAGTGTACCCGCGGCAAGACGGAAAGACCCCGT +GAACCTTTACTATAGCTTGACACTGAACATTGAGCCTTGATGTGTAGGATAGGTGGGAGGCTTTGAAGTG +TGGACGCCAGTCTGCATGGAGCCGACCTTGAAATACCACCCTTTAATGTTTGATGTTCTAACGTTGACCC +GTAATCCGGGTTGCGGACAGTGTCTGGTGGGTAGTTTGACTGGGGCGGTCTCCTCCTAAAGAGTAACGGA +GGAGCACGAAGGTTGGCTAATCCTGGTCGGACATCAGGAGGTTAGTGCAATGGCATAAGCCAGCTTGACT +GCGAGCGTGACGGCGCGAGCAGGTGCGAAAGCAGGTCATAGTGATCCGGTGGTTCTGAATGGAAGGGCCA +TCGCTCAACGGATAAAAGGTACTCCGGGGATAACAGGCTGATACCGCCCAAGAGTTCATATCGACGGCGG +TGTTTGGCACCTCGATGTCGGCTCATCACATCCTGGGGCTGAAGTAGGTCCCAAGGGTATGGCTGTTCGC +CATTTAAAGTGGTACGCGAGCTGGGTTTAGAACGTCGTGAGACAGTTCGGTCCCTATCTGCCGTGGGCGC +TGGAGAACTGAGGGGGGCTGCTCCTAGTACGAGAGGACCGGAGTGGACGCATCACTGGTGTTCGGGTTGT +CATGCCAATGGCACTGCCCGGTAGCTAAATGCGGAAGAGATAAGTGCTGAAAGCATCTAAGCACGAAACT +TGCCCCGAGATGAGTTCTCCCTGACTCCTTGAGAGTCCTGAAGGAACGTTGAAGACGACGACGTTGATAG +GCCGGGTGTGTAAGCGCAGCGATGCGTTGAGCTAACCGGTACTAATGAACCGTGAGGCTTAACCTTACAA +CGCCGAAGGTGTTTTGGCGGATTGAGAGAAGATTTTCAGCCTGATACAGATTAAATCAGAACGCAGAAGC +GGTCTGATAAAACAGAATTTGCCTGGCGGCAGTAGCGCGGTGGTCCCACCTGACCCCATGCCGAACTCAG +AAGTGAAACGCCGTAGCGCCGATGGTAGTGTGGGGTCTCCCCATGCGAGAGTAGGGAACTGCCAGGCATC +AAATTAGAAAAACCCCGGTCCATAAGGCCGGGGTTTTTTGCATATCAATTATTTGCATGATGAAGGGAAT +CTCATGTCAGTTCTGTATATCCAAATTCGTCGTAATCAAATTACTGTTCGCGATCTTGAAAGCAAACGTG +AAGTGTCAGGAGACGCTGCCTTCAGTAACCAGCGCCTGTTAATCGCCAATTTCTTTGTTGCAGAAAAAGT +TCTGCAAGATCTTGTTCTGCAACTCCACCCACGTTCAACCTGGCATTCTTTTTTGCCAGCAAAACGTATG +GATATTGTTGTGAGCGCACTGGAAATGAATGAGGGCGGTTTGTCACAGGTTGAGGAACGCATTCTCCATG +AAGTGGTCGCTGGGGCAACGTTAATGAAATATCGCCAGTTCCACATCCATGCGCAATCAGCGGTACTCAG +TGATAGTGCGGTCATGGCAATGCTTAAGCAGAAATAATCGTGTCACCATTGGTGGGTACTAAACCTGAAG +TTCAGCCCACCGGGATGAGAAAAAATCGCCTACGCCCCCACATACGCCAGATTCAGCAACGGATACGGTT +TCCCCAAATCGTCCACCTCAGAGCGTCCCGTAACCTTAAAACCCACCTTCTTATAGAACCCAACCGCCTG +CTCATTTTGCTCATTAACGTTGGTTGTCAGTTCCGGTGCCATCGAGAGCGCATGCTCCACCAGCACCCGA +CCTACGCCGCAGCCGCGCACATCAGGATCGATAAACAGCGCATCCATATGCTGCCCACTTAGCAACATAA +ATCCAACCGGCTGATCCCGCTCATTAACCGCGACCCACAACGGCGCTTCCGGCAGGAAGGAACGAACTAG +GTCCTCCAGCTCGGTCCGATACTCTGCTGATAGAAAATCGTGAGTGGCATCGACAGAACGACACCAAATC +GCAACGAGTTCCTCCCCTTCCTCATGCCGTGAGCGGCGAATACTAATAACCATTTTCTCTCCTTTTAGTC +ATTCTTATATTCTAACGTAGTCTTTTCCTTGAAACTTTCTCACCTTCAACATGCAGGCTCGACATTGGCA +AATTTTCTGGTTATCTTCAGCTATCTGGATGTCTAAACGTATAAGCGTATGTAGTGAGGTAATCAGGTTA +TGCCGATTCGTGTGCCGGACGAGCTACCCGCCGTCAATTTCTTGCGTGAAGAAAACGTCTTTGTGATGAC +AACTTCTCGTGCGTCTGGTCAGGAAATTCGTCCACTTAAGGTTCTGATCCTTAACCTGATGCCGAAGAAG +ATTGAAACTGAAAATCAGTTTCTGCGCCTGCTTTCAAACTCACCTTTGCAGGTCGATATTCAGCTGTTGC +GCATCGATTCCCGTGAATCGCGCAACACGCCCGCAGAGCATCTGAACAACTTCTACTGTAACTTTGAAGA +TATTCAGGATCAGAACTTTGACGGTTTGATTGTAACTGGTGCGCCGCTGGGCCTGGTGGAGTTTAATGAT +GTCGCTTACTGGCCGCAGATCAAACAGGTGCTGGAGTGGTCGAAAGATCACGTCACCTCGACGCTGTTTG +TCTGCTGGGCGGTACAGGCCGCGCTCAATATCCTCTACGGCATTCCTAAGCAAACTCGCACCGAAAAACT +CTCTGGCGTTTACGAGCATCATATTCTCCATCCTCATGCGCTTCTGACGCGTGGCTTTGATGATTCATTC +CTGGCACCGCATTCGCGCTATGCTGACTTTCCGGCAGCGTTGATTCGTGATTACACCGATCTGGAAATTC +TGGCAGAGACGGAAGAAGGGGATGCATATCTGTTTGCCAGTAAAGATAAGCGCATTGCCTTTGTGACGGG +CCATCCCGAATATGATGCGCAAACGCTGGCGCAGGAATTTTTCCGCGATGTGGAAGCCGGACTAGACCCG +GATGTACCGTATAACTATTTCCCGCACAATGATCCGCAAAATACACCGCGAGCGAGCTGGCGTAGTCACG +GTAATTTACTGTTTACCAACTGGCTCAACTATTACGTCTACCAGATCACGCCATACGATCTACGGCACAT +GAATCCAACGCTGGATTAATCTTCTGTGATAGTCGATCGTTAAGCGATTCAGCACCTTACCTCAGGCACC +TTCGGGTGCCTTTTTTATTTCCGAAACGTACCTCAGCAGGTGAATAAATTTTATTCATATTGTTATCAAC +AAGTTATCAAGTATTTTTAATTAAAATGGAAATTGTTTTTGATTTTGCATTTTAAATGAGTAGTCTTAGT +TGTGCTGAACGAAAAGAGCACAACGATCCTTCGTTCACAGTGGGGAAGTTTTCGGATCCATGACGAGGAG +CTGCACGATGACTGAACAGGCAACAACAACCGATGAACTGGCTTTCACAAGGCCGTATGGCGAGCAGGAG +AAGCAAATTCTTACTGCCGAAGCGGTAGAATTTCTGACTGAGCTGGTGACGCATTTTACGCCACAACGCA +ATAAACTTCTGGCAGCGCGCATTCAGCAGCAGCAAGATATTGATAACGGAACGTTGCCTGATTTTATTTC +GGAAACAGCTTCCATTCGCGATGCTGATTGGAAAATTCGCGGGATTCCTGCGGACTTAGAAGACCGCCGC +GTAGAGATAACTGGCCCGGTAGAGCGCAAGATGGTGATCAACGCGCTCAACGCCAATGTGAAAGTCTTTA +TGGCCGATTTCGAAGATTCACTGGCACCAGACTGGAACAAAGTGATCGACGGGCAAATTAACCTGCGTGA +TGCGGTTAACGGCACCATCAGTTACACCAATGAAGCAGGCAAAATTTACCAGCTCAAGCCCAATCCAGCG +GTTTTGATTTGTCGGGTACGCGGTCTGCACTTGCCGGAAAAACATGTCACCTGGCGTGGTGAGGCAATCC +CCGGCAGCCTGTTTGATTTTGCGCTCTATTTCTTCCACAACTATCAGGCACTGTTGGCAAAGGGCAGTGG +TCCCTATTTCTATCTGCCGAAAACCCAGTCCTGGCAGGAAGCGGCCTGGTGGAGCGAAGTCTTCAGCTAT +GCAGAAGATCGCTTTAATCTGCCGCGCGGCACCATCAAGGCGACGTTGCTGATTGAAACGCTGCCCGCCG +TGTTCCAGATGGATGAAATCCTTCACGCGCTGCGTGACCATATTGTTGGTCTGAACTGCGGTCGTTGGGA +TTACATCTTCAGCTATATCAAAACGTTGAAAAACTATCCCGATCGCGTCCTGCCAGACAGACAGGCAGTG +ACGATGGATAAACCATTCCTGAATGCTTACTCACGCCTGTTGATTAAAACCTGCCATAAACGCGGTGCTT +TTGCGATGGGCGGCATGGCGGCGTTTATTCCGAGCAAAGATGAAGAGCACAATAACCAGGTGCTCAACAA +AGTAAAAGCGGATAAATCGCTGGAAGCCAATAACGGTCACGATGGCACATGGATCGCTCACCCAGGCCTT +GCGGACACGGCAATGGCGGTATTCAACGACATTCTCGGCTCCCGTAAAAATCAGCTTGAAGTGATGCGCG +AACAAGACGCGCCGATTACTGCCGATCAGCTGCTGGCACCTTGTGATGGTGAACGCACCGAAGAAGGTAT +GCGCGCCAACATTCGCGTGGCTGTGCAGTACATCGAAGCGTGGATCTCTGGCAACGGCTGTGTGCCGATT +TATGGCCTGATGGAAGATGCGGCGACGGCTGAAATTTCCCGTACCTCGATCTGGCAGTGGATCCATCATC +AAAAAACGTTGAGCAATGGCAAACCGGTGACCAAAGCCTTGTTCCGCCAGATGCTGGGCGAAGAGATGAA +AGTCATTGCCAGCGAACTGGGCGAAGAACGTTTCTCCCAGGGGCGTTTTGACGATGCCGCACGCTTGATG +GAACAGATCACCACTTCCGATGAGTTAATTGATTTCCTGACCCTGCCAGGCTACCGCCTGTTAGCGTAAA +CCACCACATAACTATGGAGCATCTGCACATGAAAACCCGTACACAACAAATTGAAGAATTACAGAAAGAG +TGGACTCAACCGCGTTGGGAAGGCATTACTCGCCCATACAGTGCGGAAGATGTGGTGAAATTACGCGGTT +CAGTCAATCCTGAATGCACGCTGGCGCAACTGGGCGCAGCGAAAATGTGGCGTCTGCTGCACGGTGAGTC +GAAAAAAGGCTACATCAACAGCCTCGGCGCACTGACTGGCGGTCAGGCGCTGCAACAGGCGAAAGCGGGT +ATTGAAGCAGTCTATCTGTCGGGATGGCAGGTAGCGGCGGACGCTAACCTGGCGGCCAGCATGTATCCGG +ATCAGTCGCTCTATCCGGCAAACTCGGTGCCAGCTGTGGTGGAGCGGATCAACAACACCTTCCGTCGTGC +CGATCAGATCCAATGGTCCGCGGGCATTGAGCCGGGCGATCCGCGCTATGTCGATTACTTCCTGCCGATC +GTTGCCGATGCGGAAGCCGGTTTTGGCGGTGTCCTGAATGCCTTTGAACTGATGAAAGCGATGATTGAAG +CCGGTGCAGCGGCAGTTCACTTCGAAGATCAGCTGGCGTCAGTGAAGAAATGCGGTCACATGGGCGGCAA +AGTTTTAGTGCCAACTCAGGAAGCTATTCAGAAACTGGTCGCGGCGCGTCTGGCAGCTGACGTGACGGGC +GTTCCAACCCTGCTGGTTGCCCGTACCGATGCTGATGCGGCGGATCTGATCACCTCCGATTGCGACCCGT +ATGACAGCGAATTTATTACCGGCGAGCGTACCAGTGAAGGCTTCTTCCGTACTCATGCGGGCATTGAGCA +AGCGATCAGCCGTGGCCTGGCGTATGCGCCATATGCTGACCTGGTCTGGTGTGAAACCTCCACGCCGGAT +CTGGAACTGGCGCGTCGCTTTGCACAAGCTATCCACGCGAAATATCCGGGCAAACTGCTGGCTTATAACT +GCTCGCCGTCGTTCAACTGGCAGAAAAACCTCGACGACAAAACTATTGCCAGCTTCCAGCAGCAGCTGTC +GGATATGGGCTACAAGTTCCAGTTCATCACCCTGGCAGGTATCCACAGCATGTGGTTCAACATGTTTGAC +CTGGCAAACGCCTATGCCCAGGGCGAGGGTATGAAGCACTACGTTGAGAAAGTGCAGCAGCCGGAATTTG +CCGCCGCGAAAGATGGCTATACCTTCGTATCTCACCAGCAGGAAGTGGGTACAGGTTACTTCGATAAAGT +GACGACTATTATTCAGGGCGGCACGTCTTCAGTCACCGCGCTGACCGGCTCCACTGAAGAATCGCAGTTC +TAAGCAACAACAACCGTTGCTGACTGTAGGCCGGATAAGGCGTTCACGCCGCATCCGGCAATCGGTGCAC +GATGCCTGATGCGACGCTTGCGCGTCTTATCATGCCTACAGCCGTTGCCGAACGTAGGCTGGATAAGGCG +TTTACGCCGCATCCGGCAATTCTCTGCTCCTGATGAGGGCGCTAAATGCCGCGTGGCCTGGAATTATTGA +TTGCTCAAACCATTTTGCAAGGCTTCGATGCTCAGTATGGTCGATTCCTCGAAGTGACCTCCGGTGCGCA +GCAGCGTTTCGAACAGGCCGACTGGCATGCTGTCCAGCAGGCGATGAAAAACCGTATCCATCTTTACGAT +CATCACGTTGGTCTGGTCGTGGAGCAACTGCGCTGCATTACTAACGGCCAAAGTACGGACGCGGCATTTT +TACTACGTGTTAAAGAGCATTACACCCGGCTGTTGCCGGATTACCCGCGCTTCGAGATTGCGGAGAGCTT +TTTTAACTCCGTGTACTGTCGGTTATTTGACCACCGCTCGCTTACTCCCGAGCGGCTTTTTATCTTTAGC +TCTCAGCCAGAGCGCCGCTTTCGTACCATTCCCCGCCCGCTGGCGAAAGACTTTCACCCCGATCACGGCT +GGGAATCTCTACTGATGCGCGTTATCAGCGACCTACCGCTGCGCCTGCGCTGGCAGAATAAAAGCCGTGA +CATCCATTACATTATTCGCCATCTGACGGAAACGCTGGGGACAGACAACCTCGCGGAAAGTCATTTACAG +GTGGCGAACGAACTGTTTTACCGCAATAAAGCCGCCTGGCTGGTAGGCAAACTGATCACACCTTCCGGCA +CATTGCCATTTTTGCTGCCGATCCACCAGACGGACGACGGCGAGTTATTTATTGATACCTGCCTGACGAC +GACCGCCGAAGCGAGCATTGTTTTTGGCTTTGCGCGTTCTTATTTTATGGTTTATGCGCCGCTGCCCGCA +GCGCTGGTCGAGTGGCTACGGGAAATTCTGCCAGGTAAAACCACCGCTGAATTGTATATGGCTATCGGCT +GCCAGAAGCACGCCAAAACCGAAAGCTACCGCGAATATCTCGTTTATCTACAGGGCTGTAATGAGCAGTT +CATTGAAGCGCCGGGTATTCGTGGAATGGTGATGTTGGTGTTTACGCTGCCGGGCTTTGATCGGGTATTC +AAAGTCATCAAAGACAGGTTCGCGCCGCAGAAAGAGATGTCTGCCGCTCACGTTCGTGCCTGCTATCAAC +TGGTGAAAGAGCACGATCGCGTGGGCCGAATGGCGGACACCCAGGAGTTTGAAAACTTTGTGCTGGAGAA +GCGGCATATTTCCCCGGCATTAATGGAATTACTGCTTCAGGAAGCAGCGGAAAAAATCACCGATCTCGGC +GAACAAATTGTGATTCGCCATCTTTATATTGAGCGGCGGATGGTGCCGCTCAATATCTGGCTGGAACAAG +TGGAAGGTCAGCAGTTGCGCGACGCCATTGAAGAATACGGTAACGCTATTCGCCAGCTTGCCGCTGCTAA +CATTTTCCCTGGCGACATGCTGTTTAAAAACTTCGGTGTCACCCGTCACGGGCGTGTGGTTTTTTATGAT +TACGATGAAATTTGCTACATGACGGAAGTGAATTTCCGCGACATCCCGCCGCCGCGCTATCCGGAAGACG +AACTTGCCAGCGAACCGTGGTACAGCGTCTCGCCGGGCGATGTTTTCCCGGAAGAGTTTCGCCACTGGCT +ATGCGCCGACCCGCGTATTGGTCCGCTGTTTGAAGAGATGCACGCCGACCTGTTCCGCGCTGATTACTGG +CGCGCACTACAAAACCGCATACGTGAAGGGCATGTGGAAGATGTTTATGCGTATCGGCGCAGGCAAAGAT +TTAGCGTACGGTATGGGGAGATGCTTTTTTGAGTAAAGCTTCCATATAATTTTTCTCCGCAATGTATCGA +GGGTTATCCGTAAAGCCAAAGCTTTCAGCCATCTTATTTAATGTATTAAGGATTAATTCAGCAATAACCC +GGTGACCAAATTCAAAAGCCAACTCAAAGGCAGAGTATTTTTGTGGGGCTTTGTGTTGCCAAAAATCCAT +AATATCTTCAGCGGTAAATCCAAACAGGCGTGCATGGTCAGATAAAGCAAGATAAACCGTCTCTACAACA +TTTTGTTGTTTATGCTGTATCGCTGAAAACAAACCGGGATATTCATTAGAATTATTTGCCAGGAGGAGGG +GCTTCATATTTTTTTTATCGAATTTAAACGTATTAAACAGAGTGGGTAATGCGTTAAAAATAGTATTAAT +AACGTTCATGTGTCCGCGCTGCATGGCCATAAACAAACCCGTGTCGCGCGCAAGACTTTTAGCGGTCAGA +AGATCTACAATATCGGAAGCTGAAATGTTAATTTCCTGGGCTAGGCTGGGCAATGCTTCAAGAATAACTT +TCACGATATCGCTATGTCCATTTTGCATCGCCAGATATAGTCCTGGGCAACCATAAAAATCCTTTGCCTT +CAGGAGATCGAGTACCTGTTCTTTAGTCAAATGACATGTGCGAATTAACAAAGGTAACGCGTTCAAAACA +ATTTTCAGCATGTCGGCATCACCATTCGCCATAACATGGTATAAAACATGGCTGGACGTTCTATTTTTGG +CACTCAGGAATTTATACACTTGTTCGTTATCTAAATGATGTGTTGCGGCCAGTTTAGGTAAGGCGTTCAG +AATCGAGGTTACAACATTTTTATCCTTACGTGATATCGCTAAAAATAATCCAGAAAAACCATTTTTATCT +TTTGCCTCCAGAATATGCATGAGATTTTTTTTCGAGAGTAATCCTTCATATCCTGTTTCTGACAATGAAT +TGAAAATAGTCTCAACGATATCCGCATTACCATAATTTATAGCCAAATATAAACCTGGCAGGTTAATACT +ATTATAGGCAGTCAACATTTCTGTTCTATGTAGTTCTGGCATTTTCTGGAGTTGAATCATCAGTTGCGTA +AGTTGGTGATTCTGACCAATTGCCATTAGCAAATTCATCGTTGCAGGTGATAATGGAGGGGTTATTTCAT +CCACAGATCCTTTTAACATCAATAGCTGTTCTTTCGGAAGTGCTGGAATTATTGCAACAGATTGATTAAT +AACATGATCATTTGACCATTTCAGGAGGCTATAATCTACATTCATAAAATCCATCAGAGAATAGTGTTTA +ATATTCTCTTTGCTTTCGCTCATAATTCTTATTTTATCGTTAGTTACATTAGGATCATAAACCGAAACCA +CGTAATGGGTACATCCTTCAGTTGTGTTCTTTATTCTTAGCCGGACCGTCAAAGCATGGTTATCCACCAG +TAATATGGCTGCCATAACACTGATGCCATTTGATTCCATCTTGTCAAAATATGCTTTCATAACTAGCCCG +AAATCACCGCAGGCAGCAACGCAACGCCCCTCAGGACGGCTGGAAACCAACGCCAAAGTCTGGTTTTTGC +ATTTTTTGTTGAAGTGCGTGAGAAATTTTTCAGCTGAAGAGTAATCATCTTGATGGGGTTTGTAATCAAC +ATTCTGATAAATATCATTAATATATTGTGCAGCAATGTGTCGGCATACTATACGGTTTTGGGGTCGCCCC +GGAAAATAACATTGACCATTAAGTTTAATTCTTGGGAATTCTTTTTCTTTTCTATCTGATTTTAGGTTTA +ATTCTTGTTTATCAAGAGTGTCTGAGCGTTGAGGTAAAATTTCCATTAGGTATTTTTCAAATATTGGGGC +AATGGTTTGAGTAAGTGTCGTGTTTTCGTTTTTATTAATTATCGTAATTTCTTTCTTATCAGCTTGTAAG +ACGGACGTGGAAAATTTAATGACAAAATCCTTGTTGCTAAAGATATGACGACCATTTTGTCTACAGTTCT +CTGAGAAGCTTTTTAATAGAGGCGTCGCCAGCTCCTTGCCAGAAAATTTATCCTCGAGTTCTTTATAAAA +CAATTCACTCAGGGTTTGGTGTTCATTTGTCTGGGCTGTATTATTAATATTTGCAGAGAAAGAACTACGA +GGAATACGAGTAATCATTTAAATATCTCATTGTTTATTGATGTCTTGAATTTTAACTATCAGAACAGTGA +AAAAATTTAATATGATTACAACTAAAGAAATATCATAAATCGCTCAATCTCATAATGCAGCCGTAAAAGT +TTCGGTGGAATGAGATCTTGCGATTTTGTTAATAATTAAGTGGTTTGATGTTTAAAAATAATGCTGAGTT +AATAAAAGTGTGTGAAGTGTATGACATTAAGTTATTTTGGCGTCAATGCGATTAACAGACACCCTTATTC +TATTGCCACTCAGGTATGATGGGCAGAATATTGCCTCTGCCCGCCAGAAAAAGTCAGCGCATTCCACCGT +ACGCCAGCGTCACTTCCTTCGCCGCTTTAATCACCATCGCGCCAAACTCGGTCACGCGGTCATCGGTAAT +ACGTGAAATCGGTCCGGAAATAGAAATTGCGGCAAACGGTTCACGGTGCTCATCGAAAATACACGCTGCA +AGGCAACGTAGCCCCAGTGCATGTTCCTCATCGTCAAATGAATAACCCCGTTTGCGCGTTTGGGCGAGAT +CTTCTTTTAAATGCACAGGAGACACCAGCGTTGCGTGGGTATAGGCATGTAACCCTTTGCGGTGCAGCAG +CTTCGTCACCTGTTCTTCGCTCAGTTGGGCTAAAAAGGCTTTACCCGCACCGGAAGCGTGCATCGGCAAT +TTACCGCCGATAGGCGCGGACATTCGCATCAGATGCGTACACTGTACCTGGTCGATAATAATCGCTTCGT +GATCGCTTTGATCAAGCACCGCCATATTGACCGTTTCGCCAGACTCTTCCATTAGATTGCGCAGGATAGG +GTGAACAATCGCTAACAAATTACGGCTCTGGAGAAAGCTGCTGCCGACCATAAAGGCATGTGCGCCGATT +GCCCAATGTCCCAGTTCGCCAACCTGACGCACGAAACCCTGCTGTTGCATCGTGGTTAGCAGGCGGTGGG +TCGTGGAATTGGGTAACCCGGCTTGTTGCGCCAGTTCCGTGAGTGCCACACTGCCATTGGATTCGGCAAT +CCACTCCAGTAATTTCAGGCCACGCGTTAAAGACTGAACCTGTCCAGTCGCTGGTGCGGTGGCAACGGCG +GGTTTTCTGCCGCGTTTCGCGGGAATGGGTGCGACCATGACAGTCTCTTTTTTCTGTATCGTGGAAATCA +TTTTCATTTTTATTGTTAGCTAATGCAATAGTTACTGAACTGATCCGATGAGTTAATGTTGAACAAATCT +CATGTTGCGTGGTGGTCGCTTTTACCACAGATGCGTTTATGCCAGTATGGTTTGTTGAATTTTTATTAAA +TCTGGGTTGAGCGTGTCGGGAGCAAGTGTGAGCAGCAAAGTGGAACAACTGCGTGCGCAGTTAAATGAAC +GTATTCTGGTGCTGGACGGCGGTATGGGCACCATGATCCAGAGTTATCGACTGAACGAAGCCGATTTTCG +TGGTGAACGCTTTGCCGACTGGCCATGCGACCTCAAAGGCAACAACGACCTGCTGGTACTCAGTAAACCG +GAAGTGATCGCCGCTATCCACAACGCCTACTTTGAAGCGGGCGCGGATATCATCGAAACCAACACCTTCA +ACTCCACGACCATTGCGATGGCGGATTACCAGATGGAATCCCTGTCGGCGGAAATCAACTTTGCGGCGGC +GAAACTGGCGCGAGCTTGTGCTGACGAGTGGACCGCGCGCACGCCAGAGAAACCGCGCTACGTTGCCGGT +GTTCTCGGCCCGACCAACCGCACGGCGTCTATTTCTCCGGACGTCAACGATCCGGCATTTCGTAATATCA +CTTTTGACGGGCTGGTGGCGGCTTATCGAGAGTCCACCAAAGCGCTGGTGGAAGGTGGCGCGGATCTGAT +CCTGATTGAAACCGTTTTCGACACCCTTAACGCCAAAGCGGCGGTATTTGCGGTGAAAACGGAGTTTGAA +GCGCTGGGCGTTGAGCTGCCGATTATGATCTCCGGCACCATCACCGACGCCTCCGGGCGCACGCTCTCCG +GGCAGACCACCGAAGCATTTTACAACTCATTGCGCCACGCCGAAGCTCTGACCTTTGGCCTGAACTGTGC +GCTGGGGCCCGATGAACTGCGCCAGTACGTGCAGGAGCTGTCACGGATTGCGGAATGCTACGTCACCGCG +CACCCGAACGCCGGGCTACCCAACGCCTTTGGTGAGTACGATCTCGACGCCGACACGATGGCAAAACAGA +TACGTGAATGGGCGCAAGCGGGTTTTCTCAATATCGTCGGCGGCTGCTGTGGCACCACGCCACAACATAT +TGCAGCGATGAGTCGTGCAGTAGAAGGATTAGCGCCGCGCAAACTGCCGGAAATTCCCGTAGCCTGCCGT +TTGTCCGGCCTGGAGCCGCTGAACATTGGCGAAGATAGCCTGTTTGTGAACGTGGGTGAACGCACCAACG +TCACCGGTTCCGCTAAGTTCAAGCGCCTGATCAAAGAAGAGAAATACAGCGAGGCGCTGGATGTCGCGCG +TCAACAGGTGGAAAACGGCGCGCAGATTATCGATATCAACATGGATGAAGGGATGCTCGATGCCGAAGCG +GCGATGGTGCGTTTTCTCAATCTGATTGCCGGTGAACCGGATATCGCTCGCGTGCCGATTATGATCGACT +CCTCAAAATGGGACGTCATTGAAAAAGGTCTGAAGTGTATCCAGGGCAAAGGCATTGTTAACTCTATCTC +GATGAAAGAGGGCGTCGATGCCTTTATCCATCACGCGAAATTGTTGCGTCGCTACGGTGCGGCAGTGGTG +GTAATGGCCTTTGACGAACAGGGACAGGCCGATACTCGCGCACGGAAAATCGAGATTTGCCGTCGGGCGT +ACAAAATCCTCACCGAAGAGGTTGGCTTCCCGCCAGAAGATATCATCTTCGACCCAAACATCTTCGCGGT +CGCAACTGGCATTGAAGAGCACAACAACTACGCGCAGGACTTTATCGGCGCGTGTGAAGACATCAAACGC +GAACTGCCGCACGCGCTGATTTCCGGCGGCGTATCTAACGTTTCTTTCTCGTTCCGTGGCAACGATCCGG +TGCGCGAAGCCATTCACGCAGTGTTCCTCTACTACGCTATTCGCAATGGCATGGATATGGGGATCGTCAA +CGCCGGGCAACTGGCGATTTACGACGACCTACCCGCTGAACTGCGCGACGCGGTGGAAGATGTGATTCTT +AATCGTCGCGACGATGGCACCGAGCGTTTACTGGAGCTTGCCGAGAAATATCGCGGCAGCAAAACCGACG +ACACCGCCAACGCCCAGCAGGCGGAGTGGCGCTCGTGGGAAGTGAATAAACGTCTGGAATACTCGCTGGT +CAAAGGCATTACCGAGTTTATCGAGCAGGATACCGAAGAAGCCCGCCAGCAGGCTACGCGCCCGATTGAA +GTGATTGAAGGCCCGTTGATGGACGGCATGAATGTGGTCGGCGACCTGTTTGGCGAAGGGAAAATGTTCC +TGCCACAGGTGGTCAAATCGGCGCGCGTCATGAAACAGGCGGTGGCCTACCTCGAACCGTTTATTGAAGC +CAGCAAAGAGCAGGGCAAAACCAACGGCAAGATGGTGATCGCCACCGTGAAGGGCGACGTCCACGACATC +GGTAAAAATATCGTTGGTGTGGTGCTGCAATGTAACAACTACGAAATTGTCGATCTCGGCGTTATGGTGC +CTGCGGAAAAAATTCTCCGTACCGCTAAAGAAGTGAATGCTGATCTGATTGGCCTTTCGGGGCTTATCAC +GCCGTCGCTGGACGAGATGGTTAACGTGGCGAAAGAGATGGAGCGTCAGGGCTTCACTATTCCGTTACTG +ATTGGCGGCGCGACGACCTCAAAAGCGCACACGGCGGTGAAAATCGAGCAGAACTACAGCGGCCCGACGG +TGTATGTGCAGAATGCCTCGCGTACCGTTGGTGTGGTGGCGGCGCTGCTTTCCGATACCCAGCGTGATGA +TTTTGTCGCTCGTACCCGCAAGGAGTACGAAACCGTACGTATTCAGCACGGGCGCAAGAAACCGCGCACA +CCACCGGTCACGCTGGAAGCGGCGCGCGATAACGATTTCGCTTTTGACTGGCAGGCTTACACGCCGCCGG +TGGCGCACCGTCTCGGCGTGCAGGAAGTCGAAGCCAGCATCGAAACGCTGCGTAATTACATCGACTGGAC +ACCGTTCTTTATGACCTGGTCGCTGGCCGGGAAGTATCCGCGCATTCTGGAAGATGAAGTGGTGGGCGTT +GAGGCGCAGCGGCTGTTTAAAGACGCCAACGACATGCTGGATAAATTAAGCGCCGAGAAAACGCTGAATC +CGCGTGGCGTGGTGGGCCTGTTCCCGGCAAACCGTGTGGGCGATGACATTGAAATCTACCGTGACGAAAC +GCGTACCCATGTGATCAACGTCAGCCACCATCTGCGTCAACAGACCGAAAAAACAGGCTTCGCTAACTAC +TGTCTCGCTGACTTCGTTGCGCCGAAGCTTTCTGGTAAAGCAGATTACATCGGCGCATTTGCCGTGACTG +GCGGGCTGGAAGAGGACGCACTGGCTGATGCCTTTGAAGCGCAGCACGATGATTACAACAAAATCATGGT +GAAAGCGCTTGCCGACCGTTTAGCCGAAGCCTTTGCGGAGTATCTCCATGAGCGTGTGCGTAAAGTCTAC +TGGGGCTATGCGCCGAACGAGAACCTCAGCAACGAAGAGCTGATCCGCGAAAACTACCAGGGCATCCGTC +CGGCACCGGGCTATCCGGCCTGCCCGGAACATACGGAAAAAGCCACCATCTGGGAGCTGCTGGAAGTGGA +AAAACACACTGGCATGAAACTCACAGAATCTTTCGCCATGTGGCCCGGTGCATCGGTTTCGGGTTGGTAC +TTCAGCCACCCGGACAGCAAGTACTACGCTGTAGCACAAATTCAGCGCGATCAGGTTGAAGATTATGCCC +GCCGTAAAGGTATGAGCGTTACCGAAGTTGAGCGCTGGCTGGCACCGAATCTGGGGTATGACGCGGACTG +ATTCACAAATCTGTCACTTTTCCTTACAACAAACAGGGCGCTCAATGAGTGCCCTGTCTCTTTATTAATA +TGAAACACTTATACTGGAAACAGGCTGGAATAATCTTAGCCGGAAAAACGAATGTCAAAAGGCACAGTAA +AGATGCCAGTCAGCGTGTTTCCGGTCCTTTGGTCATTCAATTGCTTCAGGAACATATAACGATAAGGAGA +ACCTGAACTCGTGTTAACGCTGCTTCACCTGCTTTCTGCCGTCGCCCTGCTGGTCTGGGGGACTCATATT +GTTCGAACCGGCGTAATGCGCGTCTTCGGCGCGCGTTTGCGTACTGTCCTTAGCCGGAGCGTCGAAAAAA +AGCCGCTCGCCTTTTGCGCGGGGATCGGCGTTACCGCACTGGTACAGAGCAGTAATGCCACCACCATGCT +GGTGACCTCGTTTGTCGCTCAGGATCTGGTAGCCCTCGCACCGGCTCTGGTCATTGTGCTGGGTGCAGAT +GTCGGGACGGCGCTAATGGCGCGTATTCTCACCTTCGACTTATCCTGGCTGTCACCGTTACTTATTTTTA +TCGGCGTGATTTTTTTCCTCGGACGCAAACAGTCACGCGCCGGGCAACTGGGCCGCGTCGGTATTGGTCT +TGGGCTGATTTTGCTAGCGCTGGAGTTGATTGTGCAGGCCGTAACGCCGATCACCCAGGCAAACGGCGTT +CAGGTGATCTTTGCCTCGCTGACCGGCGATATTCTGCTGGATGCGCTGATTGGCGCGATGTTCGCCATTA +TCAGCTACTCCAGCCTTGCTGCTGTACTGCTGACCGCGACTCTGACCGCCGCAGGCATTATCTCCTTCCC +CGTGGCGCTCTGTCTGGTGATTGGTGCTAACCTCGGTTCCGGTCTGCTGGCAATGCTCAACAACAGTGCC +GCCAATGCCGCAGCCCGCCGTGTCGCGCTGGGTAGTCTGCTGTTTAAGCTGGTGGGTAGCCTGATTATCC +TGCCGTTTGTCCATTTGCTGGCAGAGACAATGGGGAAGTTGTCATTGCCAAAAGCGGAACTGGTGATCTA +TTTCCACGTCTTCTACAACCTTGTACGTTGCCTGGTCATGCTGCCATTTGTTGACCCGATGGCACGGTTT +TGCAAAACGATTATTCGCGATGAACCGGAACTGGATACCCAGCTACGGCCTAAACATCTGGATGTCAGCG +CGCTGGATACGCCCACGCTTGCTCTGGCGAACGCCGCGCGCGAAACCCTGCGCATTGGCGACGCCATGGA +ACAGATGATGGAAGGGTTGAATAAAGTGATGCACGGTGAGCCACGGCAGGAGAAAGAGCTGCGTAAGCTG +GCAGATGATATCAACGTTCTCTACACCGCCATTAAGCTGTATCTGGCGCGGATGCCAAAAGAAGAGCTGG +CGGAGGAAGAGTCGCGCCGCTGGGCAGAGATCATCGAAATGTCGCTCAACCTTGAACAGGCCTCCGATAT +CGTCGAGCGCATGGGCAGCGAAATTGCTGACAAATCACTGGCAGCACGGCGGGCATTTTCGCTTGATGGG +TTGAAGGAACTGGATGCGCTCTATGAGCAATTGCTCAGTAATTTAAAGCTGGCAATGTCGGTGTTCTTCT +CTGGCGATGTCACCAGCGCTCGTCGTTTGCGTCGCAGCAAACATCGTTTTCGCATTCTTAATCGCCGCTA +TTCCCACGCCCACGTCGATCGCCTGCATCAGCAAAACGTGCAGAGCATTGAAACCAGTTCGCTACATTTA +GGCTTACTGGGAGATATGCAGCGCCTGAACTCGCTGTTTTGTTCGGTGGCTTACAGTGTGCTGGAACAGC +CGGATGAAGATGAAGGACGGGACGAGTATTAATATTGTGAATCCTGTAGGCCTGATAAGACGCGTCAAGC +GTCGCATCAGGCACTATGAACAAGATGCCGGATCATGCATCCGGCAATTCACTTAAAAACGGTGACCAGC +TTCCAGCGGAACCGCTTCTTCACCAGCCTTAAACACATAAGTGGTGTTCGGGCCACCCAGCGTAGCGTGA +CCTTTACTCACTGTGATCCAGTTACCTTCCGGTAGACCAATAATCGTCAGTTCTGGCGCGACGACCAGCA +GTTCGCGAATACGCTGCTCACGGGTTTCACCTTTATGGCCTTCCGGCAGCGCGTTGGTGAAGTGCGGGTT +GATTTGCAGCGGGAACAGATTTAGCGCATCGAAACCTTGCGGATCGACAATCGGCATATCGTTGGTGGTA +CGAATAGTTGGGCAAGCAAGGTTAGCGCCTGCGCTCCAGCCAATATACAGAGCGCCACGTTTAACCACGT +CAGTAATTGGTGCCAGCAGCCCGCGCTCGCGGCACTGTTTCAGCAACTGGAAAGTATTCCCGCCGCCGAC +AATCACGATCTCAGCATTTTCAATCGCGGCAACGGGATCGACAACGCTATGAATACCGGTGACAGAAACA +CCCAGCGGAGCGAGAACCGCAGCCGTTTTCGCTGTGTAATCATCCCAGGTCTGCGTTACGCCAGCGAAAG +GGATAAACACCGCTGAGCGGCGACCCTGCAACTGTTCAGCAATTAGCGGCAGTGCATGTTCCAGCCAGGC +TTTACCCGGCAGCGTCGAGTTACTCAATAAAAGCAGTTCCATTACTTCTCCGGTTAGTAAGAAATCACGG +GAGGCATGCTACCACTGCGAATTTAACCACTTACTGACATGGCTCACGATGTCGCACATTGCTTCTGGAA +AGTGATTTGAGCAGGTAACGAATTCAAGCCAATGGAAATAACAAATAGTTCGCTCATGACTATTTTTTAT +CAACCCAAAGGTACGGTATATTCCGTTTTTTACAGGAGAATTTATGCTGCCCGACTCATCAGTCCGTTTA +AATAAATACATCAGCGAAAGCGGAATTTGCTCACGCCGCGAAGCGGATCGCTATATCGAGCAAGGCAATG +TGTTCCTTAATGGCAAGCGAGCCACCATTGGCGATCAGGTGAAACCCGGCGACGTTGTGAAAGTAAACGG +TCAGTTGATTGAACCTCGGGAAGCCGAAGATTTGGTACTTATCGCCCTGAACAAGCCCGTTGGTATTGTA +AGCACCACCGAAGATGGCGAGCGCGATAACATTGTCGATTTCGTTAACCACAGCAAACGCGTGTTCCCGA +TTGGCCGCCTGGATAAAGACTCCCAGGGGCTGATTTTCCTCACCAATCACGGCGATCTGGTGAATAAGAT +CCTGCGTGCTGGCAATGATCATGAGAAAGAGTATCTGGTGACGGTCGATAAACCGATTACCGAGGAGTTT +ATTCGCGGCATGAGTGCGGGGGTGCCAATCCTCGGGACAGTGACCAAAAAGTGCAAAGTTAAAAAAGAAG +CGCCGTTTGTCTTCCGCATTACCCTGGTGCAGGGGCTGAACCGTCAGATCCGGCGCATGTGCGAGCATTT +CGGCTATGAAGTGAAAAAGCTGGAACGCACGCGCATCATGAACGTTAGCTTAAGCGGCATTCCGCTGGGG +GAATGGCGCGATTTAACCGACGATGAGTTAATCGACCTCTTTAAGCTCATTGAAAATTCCTCTTCCGAGG +TAAAACCTAAAGCGAAGGCCAAACCGAAAACAGCGGGCATCAAACGTCCAGTCGTTAAGATGGAAAAAAC +GGCGGAAAAAGGCGGTCGCCCGGCGTCCAACGGTAAGCGTTTTACCTCGCCGGGGCGTAAAAAGAAGGGG +CGCTGATTAACGCCTCAGACTGATGAAAACGGCCCAAAAGTGCCCGGACAGTCCCCTCGCCCCTTCGGGA +AAAGGGTTAGGGTGAGGGGAAAATTGTGTTCACACTGACGAGTGAAAATCTCAGGCGTTGATTGTGGATT +AGCGCCTGCCGCGCGTCGACGTATTTGCTGACCAGCTAAATGACGCTTCAGGATCCGGTTTATAAGCCTG +CTTTTTCTTCAACTGGCGGGCTTTTTTCGCTTCAGCCTCACGCTCAACCATTAATTTATCGATGTAATCT +TTCTTAATGCTGTTGGTTTCGGAGTTGGTCAATACGCGACCATGCGCAATCCGCGCCCGATCCAGCAGTG +TTTTAAGTTCACGCTGCTCGCGTTCAGTCATCTCTTTTTGGGTAATACGGGGGAGTGCCATGATGGTGCC +CTCAGTGAGCCAGAGAGTTCAGTGTACGGGAATTCGTTTGCGAGCAGAACTGATAATATTCATTTTGCCT +TCTCTTAACTATTTATCTCTTTCGATAATTAATTAGAGATGCAGATAAAAAAATTAAAGGCAATTATTCT +CCGATAAAGACGCTGGTTAACAGAGTACAGGCTCGTTTATTGATGAGCATAGTGACAAGAAAATCAATAC +GGCCCGAAATATAGCTTCCAGGCCATACAGTATTTACTCAAACAAATTACTATGCAGTTTTTGCACCACC +TGCTCGGCATCTTCGCCGGGCACCAGGAAGCACAGGTTATGGCTGGATGCGCCATAACAAATCATGCGAA +TGTTGAACGGTTCCAGTACGCCGAATACCTCTTTGCCAACGCCGCAGGCTTTTGACAGGTCATTGCCAAT +CAACGCGACCAGCGCCAGACCTTCTTCCACCTCCACCCGACACAGTGCGGAAAGCTCCATCAGCAGAGAT +TGCGTCAGCAACGTATCGCCAGTGGAGGTTGAACCGGTGGTATCAAGGGTTAATGCCACGCTCACTTCTG +ACGTGGTGATTAAGTCTACCGAAATATTATGCCGCGCGAGGATGCCGAAAACTTCCGCGAGGAAACCGCG +AGAATGCAGCATATTCAGGCTGTGCAAAGTGAGCAGAGTCTGATTGCGACGAAGCGCCAGAGCGCGGAAC +AGCGGCGGATTTTCAGTTTTATTGCACACCAGCGTACCACCTGCGCGTGGGTCTTTGCTGGAGCCGACAA +AGACCGGGATATCGCTGCGTACTGCGGGTAGCAACGTTGCCGGATGCAGTACTTTTGCACCAAAAGTTGC +CATCTCTGCCGCTTCGGCAAACGCGATTTCATCAATGCGTTTTGCTGCGGAAACTACGCGTGGATCGGTG +GTGTAGATGCCCGGGACGTCGGTCCAGATATCAACACGAGATGCGTGTAAAGCCTCCGCCAGCAAGGCTG +CCGTATAATCGCTGCCTCCACGGCCAAGCGTCGTTGTACGACCTTTATTTTCGCTACCGATAAATCCCTG +GGTGATCACTAAGCCTTCATTGAGACGTGGGAGCAGCTGCAGCGCGGCCAGTTCCGCCAGCGCGGCTATA +TCTGGCTCTGCACGACCAAATCGGTCGTTGGTACGCATCACTTTACGTACATCAAACCACTGTGCCTGAA +CATCGCGTTCGCGCAGGATCTCAACAAACAGCAGGGTCGACATCAGCTCGCCGTGGCTGACCAGCTCATC +TGTCAGCGCCGGAGACGTTGCCAGCGCCGCCGCTTCTGCCAGAACAGTAATGTTCTCCAGCAGACGTTCA +ATCTCTTCACGGATAACGTTCGGGTAACGCAGACGTTCCAGAATGGCAAACTGGATGTTGCGGATAGCGT +CGAGTTTTTCGAATCGCTCGCCAGGTTCCAGTCCTTCAGCTAAAGCGACCAGCAGATTAGTGATACCAGC +AGAAGCCGAGAGGACAACTAAACGCACGTTGGCATCAGAAAGCACAATATCAGCGCTGCGGTTCATGGCG +TCAAAATCAGCTACGCTGGTACCGCCAAATTTGGAGACAACAATTTCAGACATAACTACCTCGTGTCAGG +GGATCCATTTTCAGCCTTGGCACAAGGGAAGAGCGGAAGACGGGTGGGCGCAGAGCGATACTTCGCTACT +ATTTTCACCCAGAAGTGCTCCACCACTTGCGAAACGCCCGACTGCGAACGCTTCTGGTGACAACCCAGGG +GATTCAGCCCCTGTAGCCGATGATGAACGTGGCCAGCCGTTCAATCACCTCGGCGATGCACCCCCTCAGG +TGTTATCACAGGACTGGCTCCTCCAACACCGTTACTTGGGCAACGCGCCTCTTCTGGCCTGCGCTAGCGC +AGGTAGTACATTTATAAATAAAGGGTGAGCGGGGCGGTTGTCAACGATGGGGTCATGCGGATTTTTCATC +CACTCCTGGCGGTCAGTAGTTCAGCTAATAAATGCTTCACTGCGCTAAGGGTTTACACTCAACATTACGC +TAACGGCACTAAAACCATCACATTTTTCTGTGACTGGCGCTACAATCTTCCAAAGTCACAATTCTCAAAA +TCAGAAGAGTATTGCTAATGAAAAACATCAATCCAACGCAGACCGCTGCCTGGCAGGCACTACAGAAACA +CTTCGATGAAATGAAAGACGTTACGATCGCCGATCTTTTTGCTAAAGACGGCGATCGTTTTTCTAAGTTC +TCCGCAACCTTCGACGATCAGATGCTGGTGGATTACTCCAAAAACCGCATCACTGAAGAGACGCTGGCGA +AATTACAGGATCTGGCGAAAGAGTGCGATCTGGCGGGCGCGATTAAGTCGATGTTCTCTGGCGAGAAGAT +CAACCGCACTGAAAACCGCGCCGTGCTGCACGTAGCGCTGCGTAACCGTAGCAATACCCCGATTTTGGTT +GATGGCAAAGACGTAATGCCGGAAGTCAACGCGGTGCTGGAGAAGATGAAAACCTTCTCAGAAGCGATTA +TTTCCGGTGAGTGGAAAGGTTATACCGGCAAAGCAATCACTGACGTAGTGAACATCGGGATCGGCGGTTC +TGACCTCGGCCCATACATGGTGACCGAAGCTCTGCGTCCGTACAAAAACCACCTGAACATGCACTTTGTT +TCTAACGTCGATGGGACTCACATCGCGGAAGTGCTGAAAAAAGTAAACCCGGAAACCACGCTGTTCTTGG +TAGCATCTAAAACCTTCACCACTCAGGAAACTATGACCAACGCCCATAGCGCGCGTGACTGGTTCCTGAA +AGCGGCAGGTGATGAAAAACACGTTGCAAAACACTTTGCGGCGCTTTCCACCAATGCCAAAGCCGTTGGC +GAGTTTGGTATTGATACTGCCAACATGTTCGAGTTCTGGGACTGGGTTGGCGGCCGTTACTCTTTGTGGT +CAGCGATTGGCCTGTCGATTGTTCTCTCCATCGGCTTTGATAACTTCGTTGAACTGCTTTCCGGCGCACA +CGCGATGGACAAGCATTTCTCCACCACGCCTGCCGAGAAAAACCTGCCTGTACTGCTGGCGCTGATTGGC +ATCTGGTACAACAATTTCTTTGGTGCGGAAACTGAAGCGATTCTGCCGTATGACCAGTATATGCACCGTT +TCGCGGCGTACTTCCAGCAGGGCAATATGGAGTCCAACGGTAAGTATGTTGACCGTAACGGTAACGTTGT +GGATTACCAGACTGGCCCGATTATCTGGGGTGAACCAGGCACTAACGGTCAGCACGCGTTCTACCAGCTG +ATCCACCAGGGAACCAAAATGGTACCGTGCGATTTCATCGCTCCGGCTATCACCCATAACCCGCTCTCTG +ATCATCACCAGAAACTGCTGTCTAACTTCTTCGCCCAGACCGAAGCGCTGGCGTTTGGTAAATCCCGCGA +AGTGGTTGAGCAGGAATATCGTGATCAGGGTAAAGATCCGGCAACGCTTGACTACGTGGTGCCGTTCAAA +GTATTCGAAGGTAACCGCCCGACCAACTCCATCCTGCTGCGTGAAATCACTCCGTTCAGCCTGGGTGCGT +TGATTGCGCTGTATGAGCACAAAATCTTTACTCAGGGCGTGATCCTGAACATCTTCACCTTCGACCAGTG +GGGCGTGGAACTGGGTAAACAGCTGGCGAACCGTATTCTGCCAGAGCTGAAAGATGATAAAGAAATCAGC +AGCCACGATAGCTCGACCAATGGTCTGATTAACCGCTATAAAGCGTGGCGCGGTTAATCATCGTCGATAT +GTAGGCCGGATAAGGCGTTCACGCCGCATCCGGCAACCGATGCCTGATGCGACGCGGTCGCGTCTTATCA +GGCCTACAGGTCGATGCCGATATGTACATCGTATTCGGCAATTAATACATAGCACGATTGATTAAATAAC +CTTAATAACAATGCCGACGTTATGTCGGCATTTTTTTATCAGATAAATCCCCTTGTCTGTAATTTAACGG +AAATCATACCGTGAGGTTAATCCTAAAATAGATTTTTAATCGTTGTTTATTTCGGAAAATACGCAGATTA +ATTGCTTTTGTTTTTATTTTAAGTTTATGATTTTTATTGTTATTTAAATATAAGTTGAAACTTATATTTG +ATATTCATTCCAATTATCCTAAAACGCCATCGCTAATTCCCCGCGCCGTAATTCGCATGCTTTAGTTGTG +TATACTCGATCCCGCCCGAAATGTTTTTGGGTAAATCTCCATTCATTCAATGAAGGGAAATTGTTATGAA +AAAAGTTCTGTATGGCATTTTTGCCATATCTGCGCTTGCGGCGACTTCTGCGTGGGCTGCACCTGTACAG +GTGGGCGAAGCGGCAGGGTCGGCAGCAACGTCGGTTTCGGCGGGGAGTTCCTCCGCGACCAGCGTCAGCA +CCGTAAGCTCGGCGGTGGGTGTCGCGCTTGCGGCAACCGGTGGCGGTGATGGTTCTAATACCGGGACCAC +CACAACCACGACCACCAGTACCCAGTAATAAAGTATGTATCCCCAAAATAATTCGAGTCATTGCATCTGT +GGCTAGAAGTATGAAGGGATTAACCATAACCACACTCCGGTGTGGTTATTCTGCCCCTCTGGAGAAGAGT +CGTGAAGCGACCTGCACTCATTCTTATCTGCCTGTTATTACAGGCCTGTTCAGCCACGACTAAAGAGCTG +GGCAATTCACTGTGGGACAGTCTGTTCGGCACGCCAGGCGTACAGCTGACGGATGATGATATTCAAAATA +TGCCCTACGCCAGCCAGTACATGCAGCTTAATGGCGGGCCGCAGTTATTTGTGGTGCTGGCCTTCGCTGA +AGACGGACAACAAAAATGGGTCACTCAGGATCAGGCTACTCTCGTTACCCAACATGGCCGTCTGGTGAAG +ACTCTGCTCGGCGGCGACAACCTGATTGAAGTGAATAACCTTGCTGCCGACCCGCTGATTAAACCCGCAC +AAATCGTTGATGGCGCAAGCTGGACGCGCACGATGGGCTGGACCGAGTACCAGCAGGTACGCTACGCCAC +CGCACGCTCAGTCTTCAAATGGGATGGCACCGATACCGTCAAAGTCGGCAGCGATGAAACCCCGGTTCGC +GTGCTGGACGAAGAAGTCTCCACCGACCAGGCGCGCTGGCATAACCGCTATTGGATCGACAGCGAAGGGC +AAATTCGCCAGTCGGAACAGTATCTCGGCGCGGATTATTTTCCGGTGAAAACCACTCTCATCAAGGCGGC +AAAACAATGATTAAACAAACTATTGTCGCGTTGCTTTTGAGTGTGGGAGCGTCATCGGTCTTCGCGGCAG +GAACCGTCAAGGTGTTCAGCAATGGCAGCAGTGAGGCCAAAACGCTAACGGGCGCAGAGCATTTAATCGA +TCTGGTAGGCCAACCGCGGCTGGCAAACAGCTGGTGGCCCGGTGCGGTGATTAGCGAAGAGCTGGCAACG +GCGGCAGCATTGCGTCAGCAGCAGGCGTTGCTGACACGGCTGGCAGAACAGGGCGCAGATTCCAGCGCCG +ACGATGCCGCTGCGATTAACGCCTTACGCCAGCAAATTCAGGCGTTGAAAGTGACGGGCAGGCAAAAAAT +CAATCTTGATCCCGATATCGTCCGCGTTGCCGAACGCGGTAACCCGCCGTTGCAGGGCAACTACACGCTG +TGGGTCGGACCACCGCCGTCCACGGTCACGTTGTTCGGGCTTATCAGCCGTCCTGGCAAGCAGCCATTCA +CTCCAGGTCGCGACGTGGCGAGCTATCTCTCTGACCAGAGCCTGCTCAGCGGTGCGGATCGCAGCTACGC +GTGGGTGGTTTACCCGGACGGACGCACGCAAAAAGCGCCGGTGGCTTACTGGAACAAGCGTCACGTAGAG +CCGATGCCCGGCAGCATTATTTATGTTGGCCTCGCGGACTCCGTCTGGAGTGAGACGCCTGATGCCCTTA +ACGCCGACATTCTTCAGACTCTGACGCAGCGGATACCTCAATAATGAAAAAAAGACATCTGCTTAGCTTA +CTGGCGCTGGGCATTAGCACAGCTTGCTACGGCGAAACATATCCTGCGCCCATTGGTCCGTCGCAGTCGG +ATTTCGGTGGCGTAGGATTATTACAAACGCCCACCGCGCGTATGGCACGGGAAGGGGAGTTGAGTCTGAA +CTATCGCGATAACGATCAGTACCGTTATTACTCAGCTTCAGTGCAACTCTTCCCGTGGCTGGAAACAACG +CTGCGCTACACCGACGTGCGCACCCGGCAGTACAGCAGCGTCGAAGCGTTCTCTGGCGATCAAACGTATA +AAGATAAAGCCTTCGATCTCAAACTGCGTTTGTGGGAAGAGAGTTACTGGCTGCCGCAAGTGGCGGTTGG +TGCGCGGGATATCGGCGGTACGGGGCTGTTTGATGCGGAATATCTTGTTGCCAGCAAAGCCTGGGGGCCG +TTCGATTTTACGCTCGGCCTGGGCTGGGGGTATTTGGGCACCAGCGGTAATGTGAAAAATCCGCTCTGTT +CAGCCAGTGATAAATATTGCTATCGCGATAACAGCTACAAACAGGCGGGATCTATCGACGGTAGCCAGAT +GTTCCACGGTCCTGCCTCACTGTTTGGCGGCGTGGAATACCAGACGCCCTGGCAACCGCTGCGCCTGAAA +CTGGAGTATGAAGGCAATAATTATCAGCAGGATTTTGCCGGGAAGCTGGAGCAAAAAAGTAAGTTTAACG +TCGGTGCGATTTATCGCGTTACCGATTGGGCCGACGTTAACCTTAGCTATGAACGTGGCAACACCTTTAT +GTTTGGCGTTACGTTGCGCACCAACTTTAACGATCTGCGCCCGTCTTACAACGATAACGCCCGCCCGCAA +TATCAACCGCAGCCGCAGGATGCCATTTTGCAGCATTCGGTGGTGGCGAATCAGTTAACGCTGTTGAAAT +ACAATGCCGGACTTGCCGATCCACAGATCCAGGCGAAAGGCGATACGCTGTATGTTACCGGCGAGCAGGT +GAAATATCGTGATTCGCGCGAAGGGATCATCCGTGCGAATCGGATCGTGATGAACGATCTGCCGGATGGG +ATCAAAACGATCCGCATTACGGAAAATCGCCTTAACATGCCGCAGGTGACGACGGAAACCGATGTCGCCA +GCCTGAAAAATCATCTCGCCGGAGAGCCGTTGGGCCACGAAACGACGCTGGCGCAAAAACGCGTCGAGCC +AGTGGTTCCGCAGTCCACCGAGCAGGGCTGGTATATCGACAAATCACGCTTTGATTTCCATATCGATCCG +GTGCTGAACCAGTCGGTCGGTGGCCCGGAAAACTTTTACATGTATCAGCTGGGCGTGATGGGAACGGCAG +ATTTGTGGCTGACGGACCATCTGCTGACCACCGGCAGCCTGTTTGCAAATCTTGCCAACAACTACGACAA +GTTTAACTACACTAATCCTCCGCAGGACTCGCACTTACCGCGCGTGCGTACCCATGTGCGCGAGTATGTG +CAGAACGATGTCTATGTGAATAACCTGCAAGCCAACTACTTCCAGCATCTGGGCAACGGCTTCTACGGTC +AGGTCTACGGTGGTTATCTCGAAACCATGTTTGGCGGTGCGGGGGCAGAAGTGTTGTATCGCCCGCTGGA +CAGCAACTGGGCGTTTGGTCTGGATGCCAACTACGTTAAACAGCGCGACTGGCGTAGTGCAAAAGATATG +ATGAAATTCACCGACTACAGCGTGAAAACCGGACATCTGACCGCCTACTGGACGCCATCTTTCGCTCAGG +ATGTGTTAGTTAAAGCCAGCGTCGGGCAGTATCTGGCAGGGGATAAAGGCGGCACGCTGGAGATCGCCAA +ACGCTTTGATAGCGGCGTGGTGGTGGGTGGCTATGCCACGATCACTAATGTTTCGAAAGAGGAGTACGGC +GAAGGGGACTTCACCAAAGGCGTGTATGTCTCGGTACCGTTGGATCTCTTCTCGTCTGGCCCGACACGCA +GCCGTGCGGCGATTGGCTGGACGCCGCTGACGCGTGACGGTGGTCAGCAACTTGGGCGTAAGTTCCAGTT +GTATGACATGACCAGCGACCGTAGCGTCAATTTCCGCTAAGTCATGGGAAAGGTGCCAGTTTTCGCACTC +ACTGGCACCTTCATTCTTAATGGCCTGTCGAGCCATCAGGAACGCAGTTCACTCCCGGTTTGCGATCTGG +TGTGTAAAGGCGAAAACATTCTGTCTTCCTGTCCGTCGATATCGGTTGCAGGTCTGGTTGCCTGAGCGAC +TGGGCCATCATTGGGCTGGAGACATTGCTTTGCGGTAGGTCGGCTTTATCAGCAGTACCGAGCGGACCAG +CATAAGCAGGAAGAACAGAGACTGATAACATCAAAGCAGCAAAATAAGGCTTCATTTTTACCACCTTTAT +CAGGTTACGTTTCATTTGTTCCAGAGGAACATTGTCGATTTTTCGCGCATTGCTGGTGGCTGGGAATCAC +CTGAATGGGTGATTTTTGAATTACCGGCTTTGGTGCGGTTTGTCTTGCCGGATGCGCCGCCAGGCGCGGC +TTATCCGGCCTACGGGTAGGTATATCCGGCTTTGGTGGAGGCGCGCTCCAAATCCAGGTTGAACAAAACA +TACACAAAAAATATAGATCTCCGTCACATTTTTGCGTTATACAGGAAGCTCGCCACTGTGAAGGAGGTAC +TGCTATGACGTCACTCTCTCGTCCGCGCGTGGAGTTTATCTCCACCATTTTGCAGACCGTACTCAATCTT +GGCCTGCTGTGCCTCGGCCTGATTTTGGTTGTCTTCCTCGGCAAAGAAACGGTGCATCTGGCTGATGTGC +TGTTCGCGCCAGAACAAACCAGCAAATATGAGCTGGTAGAAGGACTGGTGGTTTACTTTCTCTATTTCGA +ATTTATCGCGCTGATTGTGAAGTACTTTCAGTCCGGTTTTCACTTCCCGCTACGTTACTTTGTCTATATT +GGGATCACCGCCATTGTGCGCTTGATCATCGTCGATCATAAATCGCCACTGGATGTGTTGATCTACTCGG +CTGCGATCCTGTTACTGGTGATCACCCTGTGGCTGTGTAATTCGAAACGGCTGAAGCGGGAGTAAAAAGT +CAGCACGCCGAAATGGCGCGGCGTGCTGGACAGGAAGATTACAGCGTAGCAGTTTGTTGTGTTTTCTTCG +TTTCCGGTTCCCAGAGCGCTTCCAGCTCCTCAAGGGTTTTACCTTTGGTTTCCGGGACAAATTTCCACAT +AAACAGTGCTGCCAGAACGCCCATACAACCGTAAATCCAGTAGGAGAAACCGTTGTGGAAATGGGCCACC +AGCCAGGAGTTTTTGTCCATCATCGGGAAGGTCCAGGAGACGAAGTAGTTCGCCAGCCACTGGGCCGCCA +CCGCGATTGCCAGCGCTTTACCACGAATAGCATTCGGGAAGATTTCCGACAGCAGTACCCAGCATACCGG +ACCCCAGGACATGGCAAAGGCGGCAACATAGAACAGCATCGACAGTAGCGCCACAATACCCGGTGCCTGA +GTGTAAAACGCGGTACCGAGGCTAAACATACCGATTGCCATTCCGAGTGCGCCGATAATTTGCAGTGGCT +TACGACCAAATTTATCCACCGTCATAATTGCCAGAACGGTGAAGGTGAGGTTGATAACTCCGACAATAAT +GGTCTGCAACAGCGCGATATCCGTGCTGGCCCCCAGCGTTTTGAACACTTCCGGCGCGTAGTACAGCACC +ACATTGATGCCGACAAATTGCTGGAAGATGGAGAGCATTACGCCGATTACAATCACGCCCACGCCAAACA +TCAGCAGACGACCACCGGTTTTGCGGCCATGATCCAGGGAGTGTTTAATTTCCTGTACTGCCTGAGTTGC +AAGCGTGTTGCCCATAATTTTGCGCAGGATACCTTCCGCCTGTTCTTGCTTGCCGCGCGACATCAGCCAG +CGAGGACTTTCTGGCACGGTATACAGCAGCATTAAGAACAGCAGTGCAGGGATACATTCCGAGGCAAACA +TATAACGCCAGCCGTCAGTATTCAGCCAGCTGGCATCACCGGAACGGGCAATAAAATAGTTTACGCAGTA +AACTAAAAGTTGCCCGAAAATAATCGCAAACTGGTTAAAAGAGACCAGTTTCCCGCGAATATGAGCTGGA +GCCAGTTCCGCAATATACATTGGCGAGAGCATTGAGGCTAAACCAACGCCAATACCGCCAATAATGCGAT +AAATAACAAATTCCGGGACATAACCTGCCAGATAAACAGGCACAGTGTTGTCCGGGTTTATAGAGGTAAA +ACCAAGTTCTGGCCAGGCAGAACCTACACCAGAAATAAAAAACAGGACAGCAGCAATCTTAAGTGAATCA +CGACGACCGAAGCGGTTACTGCAATAACCACCGAGGGCACCGCCGATGATGCAACCAATCAGAGCGCTGG +CCACGCAAAACCCTAACAGGGAGTTGGCAGCGGATTCACTTAAGTTTTGTGGAGCAACAAAGACGGTATT +GAGTGACTCAACAGTACCGGAAATAACGGCGGTGTCGTAGCCAAATAATAAACCACCTAATGTAGCGACT +AAGGTAATCGAAAATATATAACTGGAATTATACTGGGTATTCATTCAGACCTGCCTTAGACCATTCTGAT +CTTTTATCAGTGCATTGATGTTGGAATTGTCAGGCAGTTAAGGCAATTATCATTTTTTACAATGCGTTTA +CGTAATGTCTTTTCTGTGATCTTAATTGTGATAATTATCCAAAATTGATAAAAACAATACTATTGCCGTG +ACTCAGAGCACGAAAGAGAATTATCGTAAGTGGGAAAACAAATAACGTAAAAATAATAAGCTCTATGATG +GAAATATTAACCGGCGAACGATTCAGATTGCAGACGAAAGAAAAAAAGGCGCTCCGTGGAGCGCCGAATA +ACAGTCACAAGTTGGGATAACGTAAGTTGAGGGTGCAGCGGCATAACATTGGCAGAACAACATCTTTAAC +CTTTCACACCACCTGCCGTCAGGCCGTTGACCAGCCAGCGTTGAGCCAGCAAGAAGACGATGGTGATCGG +TAATGCAGACATCACGGCAGCGGCGGCAAAGTCACCCCACAGGTAGTTTTGCGGGTTGAGGTATTGCTGC +ATCCCCACGGCCAGGGTGTAGCTGTTTACGTCACGCAGTAACAGCGACGCGACCGGAACTTCAGTAATGG +CAGCGATAAACGACAGGATGAATACCACCGCCAGAATCGGTACTGACAGCGGCAACAGGACAAGGCGGAA +GGCCTGCCACGGTGTCGCACCATCCAGCGCAGCAGCTTCTTCCAGCGAACTGTCGATGGTTTCGAAATAG +CCTTTGATGGTCCAGACATGCAGCGCAATCCCACCCAGATACGCGAAAATTACGCCGCCGTGAGTATTCA +GGCCAATGAATGGAATGTACTCACCCAGACGATCAAACAACGCATACAACGCGACCAGTGAAAGTACTGC +CGGGAACATCTGGAAAATCAGCATTCCTTTCAGCAGCGTCGCTTTGCCTGGAAAGCGCATACGGGCGAAA +GCGTAGGCGCAGGTGGTGGAGAGCGCCACAATGCCAATCGCGGAAATCCCGGCGACCTTTACCGAGTTCC +ACAGCCACAGCAGTACCGGGAATGGCGGTGGCGTAATGCGACCATCAGCCTGTTCAACGCTAAAACCTAA +CGCCAGTTTCCAGTGATCCCAGGAGATTTGCTCCGGGATCAGGCTGCCGGTCGCAAAGTTTCCCTGACGC +AGCGAGATAGCGACGACCATCAGCAGCGGGAACATAATCGCTGCGATAAAAAGTAGCAGTAGCAGGTGAG +TAATAAATAAACGAGCTTTTTGCGATTTCGGTTGGACCATTGCCATTTTTGTTATCTCCCTTAATCAAAC +TTCATTCGCGTGGCTTTCAGGTTCACTATCGCCAGCGCACCCACCAGCAGGAAGATCAGCGTGGCAATTG +CTGCCGCCAGACCGAAGTCCTGACCCCCGCCGCCTTCAAAAGCGATGCGGTAGGTGTAGTTAACAAGCAG +GTCGGTATAACCGGCTGGCGTGGTCGTGCCAAGACGATCCGGGCCGCCGTTGGTTAACAGTTGAATCAGC +ACGAAGTTGTTAAAGTTAAAGGCGAAGCTGGCGATCATCAGCGGCGTCAGCGGTTTAATCAGCAGCGGCA +GCGTAATCTTAAAGAAGTTCTGGAACGGACCTGCGCCATCCATTGCTGAGGCTTCATACAAATCGTCCGG +AATCGCTTTCAGCAAGCCCATGCAGAGGATCATCATGTACGGATAACCCAGCCAGGTATTGACGATAATT +AGCATCGTGCGGGCGGTGGTCGGATCGCTGAACCAGGCGGGCTTCACGCCAAACAGCGCGCTCAACATCA +TGTTGATTTCACCGAAGCTCTGGTTAAACAACCCTTTGAAAATCAAGATTGAAATGAACGATGGCACCGC +GTAGGGCAGAATCAGCAGGACGCGATAGACCGCTTTGCCGCGCAACGCTTCCCACTGCACCAGACACGCC +AGAACCATGCCGACCGCCACCGTTAAAAAGACAGTGATCAGCGAGAACACCACGGTCCAGACGAAAATGG +CGAGGAACGGTTTCTGAATGCCTTCGTCGGTAAAGACGCGGGTAAAGTTTTTCCAGCCGGTGGTCACGGT +GTAACCGGGGCTTAGCTTTTCATCACCCCAGTTGCCGTCGGCGGTAATGGACTGGTAAAAGCCAATTTGG +TTATTCGGACGATATTTCACGCCGCTCTGATTATTCGTCAACGTGCCGTCACCGTCGAGTGTGTAGAGCG +GCTGCGTGCCAGAAAACTGGCGCAGGGAGCTCATCATCACTTTGTTGCCATCCGGCAGAATGGCGGTAAT +GTCACTCAGCGCCTGACGATTCTGGGTAATCACGCGCAGATTCGCGCGTTCGCCTTCGGGCTGGGCGGTC +GTTTCTTTCAGTTGCAGTTTTTGCTCGCCGCCAAATTTAAAAGCGTCGGAGAGGTAATTTTTGCCGGTTT +CGCCGTCGCTGAGCGCCAGTTGCCACTCATCGCCCGCCGGGTAAAGACCAAAGTTATAGGTTTTGCCTGC +TTGCCAGGAGCGATCTAACAACACTTCCTGCGCACGTTCAAAAGTCAGCTGGTTAGTGCTGCTGTAGTTG +GTGAAGGCAATGGCGATGGTGCAGACCAGAGGGAAGAGGACGAATAATCCCATTCCAGCCATTCCCGGGT +AAACATAGCGCCAGGCGTAGGCTTTACGATTGGCGAAAATATACAGCCCCGCTGAACTCAATATCAGCGT +GGTAATGGCGAACAGGTATTCCCCTTGTGCGTACATTAAAACAACAAGGTAACCCACCAGCAGGCCGAGC +AGACCTAGCACTGACCATTTCAGCGCGTCGCTTTGCCACCAATGTTTCTTTTTAATGACATCCATGGGGT +TCTTCCTCATTCCAGGACGGATAAGGCTTTCACGCCTTATCCGACAACAACTGCCTGATGCGACGCTGAC +GCGTCTTATCAGGCCTACATACGTTTCGGTTTTGTAGGCCGGACAAGGCGTTCACGCCGCATCCGGCATT +TCACAGCATTACTTGGTGATACGAGTCTGCGCGTCTTTCAGGGCTTCATCGACAGTCTGACGACCGCTGG +CGGCGTTGATCACCGCAGTACGCACGGCATACCAGAAAGCGGACATCTGCGGGATGTTCGGCATGATTTC +ACCTTTCTGGGCGTTTTCCATGGTGGCGGCAATACGTGGATCTTTCGCCAACTCTTCCTCGTAAGACTTC +AGCGCTACGGCACCCAGCGGTTTGTCTTTATTAACCGCTTCCAGACCTTCATCAGTCAGCAGATAGTTTT +CGAGGAACTCTTTCGCCAGCTCTTTGTTCGGACTGGCGGCGTTAATACCTGCGCTCAGCACGCCAACGAA +CGGTTTGGATGGTTGACCCTTGAAGGTCGGCAGTACCGTTACACCATAATTCACTTTGCTGGTGTCGATG +TTGGACCATGCCCACGGGCCGTTGATGGTCATCGCTGTTTCGCCTTTATTAAAGGCAGCTTCTGCGATGG +AGTAATCGGTGTCTGCATTCATGTGTTTGTTTTTAATCAGGTCAACCAGGAAGGTCAGACCCGCTTTCGC +GCCAGCGTTATCCACGCCCACGTCTTTAATGTCGTACTTGCCGTTTTCATACTTGAACGCATAACCCCCG +TCAGCAGCAATCAGCGGCCAGGTGAAGTACGGTTCTTGCAGGTTGAACATCAGCGCGCTCTTACCTTTCG +CTTTCAGTTCTTTATCCAGCGCCGGGATCTCTTCCCAGGTTTTTGGCGGGTTCGGCAGCAGATCTTTGTT +ATAAATCAGCGATAACGCTTCAACAGCGATCGGGTAAGCAATCAGCTTGCCGTTGTAACGTACGGCATCC +CAGGTAAACGGATACAGCTTGTCCTGGAACGCTTTGTCCGGGGTGATTTCAGCCAACAGGCCAGATTGAG +CGTAGCCACCAAAGCGGTCGTGTGCCCAGAAGATAATGTCAGGGCCATCGCCAGTTGCCGCAACCTGTGG +GAATTTCTCTTCCAGTTTATCCGGATGCTCAACGGTGACTTTAATTCCGGTATCTTTCTCGAATTTCTTA +CCGACTTCAGCGAGACCGTTATAGCCTTTATCGCCGTTAATCCAGATTACCAGTTTACCTTCTTCGATTT +TGGCGAGAGCCGAGGCGGAAAACATCATCGTCGTTAATGCGGATAATGCGAGGATGCGTGCACCTGTTTT +TATTTTCATAATCTATGGTCCTTGTTGGTGAAGTGCTCGTGAAAACACCTAAACGGACTCTAGTTTCTTT +ATACGGCAACCTCTTTCCATCCTCCTTGCCCCTACGCCCCACCGTCGCTTTGTGTGATCTCTGTTACAGA +ATTGGCGGTAATGTGGAGATGCGCACATAAAATCGCCACGATTTTTGCAAGCAACATCACGAAATTCCTT +ACATGACCTCGGTTTAGTTCACAGAAGCCGTGTTCTCATCCTCCCGCCTCCTCCCCCATAAAAAAGCCAG +GGGGTGGAGGATTTAAGCCATCTCCTGATGACGCATAGTCAGCCCATCATGAATGTTGCTGTCGATGACA +GGTTGTTACAAAGGGAGAAGGGCATGGCGAGCGTACAGCTGCAAAATGTAACGAAAGCCTGGGGCGAGGT +CGTGGTATCGAAAGATATCAATCTCGATATCCATGAAGGTGAATTCGTGGTGTTTGTCGGACCGTCTGGC +TGCGGTAAATCGACTTTACTGCGCATGATTGCCGGGCTTGAGACGATCACCAGCGGCGACCTGTTCATCG +GTGAGAAACGGATGAATGACACTCCGCCAGCAGAACGCGGCGTTGGTATGGTGTTTCAGTCTTACGCGCT +CTATCCCCACCTGTCAGTAGCAGAAAACATGTCATTTGGCCTGAAACTGGCTGGCGCAAAAAAAGAGGTG +ATTAACCAACGCGTTAACCAGGTGGCGGAAGTGCTACAACTGGCGCATTTGCTGGATCGCAAACCGAAAG +CGCTCTCCGGTGGTCAGCGTCAGCGTGTGGCGATTGGCCGTACGCTGGTGGCCGAGCCAAGCGTATTTTT +GCTCGATGAACCGCTCTCCAACCTCGATGCTGCACTGCGTGTGCAAATGCGTATCGAAATCTCCCGTCTG +CATAAACGCCTGGGCCGCACAATGATTTACGTCACCCACGATCAGGTCGAAGCGATGACGCTGGCCGACA +AAATCGTGGTGCTGGACGCCGGTCGCGTGGCGCAGGTTGGGAAACCGCTGGAGCTGTACCACTATCCGGC +AGACCGTTTTGTCGCCGGATTTATCGGTTCGCCAAAGATGAACTTCCTGCCGGTAAAAGTGACCGCCACC +GCAATCGATCAAGTGCAGGTGGAGCTGCCGATGCCAAATCGTCAGCAAGTCTGGCTGCCAGTTGAAAGCC +GTGATGTCCAGGTTGGAGCCAATATGTCGCTGGGTATTCGCCCGGAACATCTACTGCCGAGTGATATCGC +TGACGTCATCCTTGAGGGTGAAGTTCAGGTCGTCGAGCAACTCGGCAACGAAACTCAAATCCATATCCAG +ATCCCTTCCATTCGTCAAAACCTGGTGTACCGCCAGAACGACGTGGTGTTGGTAGAAGAAGGTGCCACAT +TCGCTATCGGCCTGCCGCCAGAGCGTTGCCATCTGTTCCGTGAGGATGGCACTGCATGTCGTCGACTGCA +TAAGGAGCCGGGCGTTTAAGCACCCCACAAAACACACAAAGCCTGTCACAGGTGATGTGAAAAAAGAAAA +GCAATGACTCAGGAGATAGAATGATGATTACTCTGCGCAAACTTCCTCTGGCGGTTGCCGTCGCAGCGGG +CGTAATGTCTGCTCAGGCAATGGCTGTTGATTTCCACGGCTATGCACGTTCCGGTATTGGTTGGACAGGT +AGCGGCGGTGAACAACAGTGTTTCCAGACTACCGGTGCTCAAAGTAAATACCGTCTTGGCAACGAATGTG +AAACTTATGCTGAATTAAAATTGGGTCAGGAAGTGTGGAAAGAGGGCGATAAGAGCTTCTATTTCGACAC +TAACGTGGCCTATTCCGTCGCACAACAGAATGACTGGGAAGCTACCGATCCGGCCTTCCGTGAAGCAAAC +GTGCAGGGTAAAAACCTGATCGAATGGCTGCCAGGCTCCACCATCTGGGCAGGTAAGCGCTTCTACCAAC +GTCATGACGTTCATATGATCGACTTCTACTACTGGGATATTTCTGGTCCTGGTGCCGGTCTGGAAAACAT +CGATGTTGGCTTCGGTAAACTCTCTCTGGCAGCAACCCGCTCCTCTGAAGCTGGTGGTTCTTCCTCTTTC +GCCAGCAACAATATTTATGACTATACCAACGAAACCGCGAACGACGTTTTCGATGTGCGTTTAGCGCAGA +TGGAAATCAACCCGGGCGGCACATTAGAACTGGGTGTCGACTACGGTCGTGCCAACTTGCGTGATAACTA +TCGTCTGGTTGATGGCGCATCGAAAGACGGCTGGTTATTCACTGCTGAACATACTCAGAGTGTCCTGAAG +GGCTTTAACAAGTTTGTTGTTCAGTACGCTACTGACTCGATGACCTCGCAGGGTAAAGGGCTGTCGCAGG +GTTCTGGCGTTGCATTTGATAACGAAAAATTTGCCTACAATATCAACAACAACGGTCACATGCTGCGTAT +CCTCGACCACGGTGCGATCTCCATGGGCGACAACTGGGACATGATGTACGTGGGTATGTACCAGGATATC +AACTGGGATAACGACAACGGCACCAAGTGGTGGACCGTCGGTATTCGCCCGATGTACAAGTGGACGCCAA +TCATGAGCACCGTGATGGAAATCGGCTACGACAACGTCGAATCCCAGCGCACCGGCGACAAGAACAATCA +GTACAAAATTACCCTCGCACAACAATGGCAGGCTGGCGACAGCATCTGGTCACGCCCGGCTATTCGTGTC +TTCGCAACCTACGCCAAGTGGGATGAGAAATGGGGTTACGACTACACCGGTAACGCTGATAACAACGCGA +ACTTCGGCAAAGCCGTTCCTGCTGATTTCAACGGCGGCAGCTTCGGTCGTGGCGACAGCGACGAGTGGAC +CTTCGGTGCCCAGATGGAAATCTGGTGGTAATAGCAAAACCTGGGCCGGATAAGGCGTTTACGCCGCATT +CGGCAACCAACGCCTGATGCGACGCTTGCGCGTCTTATCAGGCCTACAACGGCTGTCAAATGTAGGCCGG +ATAAGGCGTTTACGCCGCATCCGGCATAAAAACAGGTTGTCATTATCTGAAAGGGGCGAAAGCCCCTCTG +ATTATCGGGTTTAGCGCGCTATTGCCTGGCTACCGCTGAGCTCCAGATTTTGAGGTGAAAACAATGAAAA +TGAATAAAAGTCTCATCGTCCTCTGTTTATCAGCAGGGTTACTGGCAAGCGCGCCTGGAATTAGCCTTGC +CGATGTTAACTACGTACCGCAAAACACCAGCGACGCGCCAGCCATTCCATCTGCTGCGCTGCAACAACTC +ACCTGGACACCGGTCGATCAATCTAAAACCCAGACCACCCAACTGGCGACCGGCGGCCAACAACTGAACG +TTCCCGGCATCAGTGGTCCGGTTGCTGCGTACAGCGTCCCGGCAAACATTGGCGAACTGACCCTGACGCT +GACCAGCGAAGTGAACAAACAAACCAGCGTTTTTGCGCCGAACGTGCTGATTCTTGATCAGAACATGACC +CCATCAGCCTTCTTCCCCAGCAGTTATTTCACCTACCAGGAACCAGGCGTGATGAGTGCAGATCGGCTGG +AAGGCGTTATGCGCCTGACACCGGCGTTGGGGCAGCAAAAACTTTATGTTCTGGTCTTTACCACGGAAAA +AGATCTCCAGCAGACGACCCAACTGCTCGACCCGGCTAAAGCCTATGCCAAGGGCGTCGGTAACTCGATC +CCGGATATCCCCGATCCGGTTGCTCGTCATACCACCGATGGCTTACTGAAACTGAAAGTGAAAACGAACT +CCAGCTCCAGCGTGTTGGTAGGACCTTTATTTGGTTCTTCCGCTCCAGCTCCGGTTACGGTAGGTAACAC +GGCGGCACCAGCTGTGGCTGCACCCGCTCCGGCACCGGTGAAGAAAAGCGAGCCGATGCTCAACGACACG +GAAAGTTATTTTAATACCGCGATCAAAAACGCTGTCGCGAAAGGTGATGTTGATAAGGCGTTAAAACTGC +TTGATGAAGCTGAACGCCTGGGATCGACATCTGCCCGTTCCACCTTTATCAGCAGTGTAAAAGGCAAGGG +GTAATTACGCCCCACAGTGCTGATTTTGCAACAACTGGTGCGTCTCCTGGCGCACCTTTTTTTATGCTTC +CTTCCTGGGATATGAGCGATTTTTTATAGTAACTCACTTCTTCTTCACTAAGAATATCCATTATCTCAAT +GCCTTATCAGAGATTCTTTTCCTTTCGCCGGTAGTGTCTGGACATTCAGGCTACTTTTCCAGGTTATTTT +ATTTCTGTTATGCAGAGGTTTTATGATAAGTCATATCCTAAATTCTGGCGGCAATAACTCTTTGATGAAA +CATGATGTGGTGCAAGGAAATAATATAGTAGATCTTGATTTACTACGTAATTTAAATGGGGTGCCAGGTT +TAAACAGAGATAACTTTATTTATATCAGCAATATTTTTTCAAATATAAAACAACGGAACGAAAAAATCAT +GCAATAAATATGTTTCGTGAAGTCTCAATCAGTAATGATACTATAAGTGTAAAATTCTACAGAAATGAAA +AAAATTGAATGCGCTTGCAATTTTCTGATGGATAAAGATGCGCAGGGGTATATCGACCTGTCTGATTTGG +ATTTAACAAGTTGTCATTTTAAAGGTGACGTTATATCGAAGGTGTCTTTTTTATCATCAAATCTACAACA +TGTAACATTCGAATGTAAAGAAATTGGGGATTGCAATTTTACTACTGCAATAGTTGATAATGTCATATTT +AGATGTCGACGTTTACACAATGTGATTTTTATCAAAGCGAGTGGTGAATGTGTCGATTTCAGCAAAAATA +TTCTTGATACAGTTGACTTCTCGCAGAGTCAACTTGGTCATAGTAATTTTCGCGAATGTCAGATTAGAAA +TTCAAACTTCGATAATTGTTATCTTTACGCTTCGCACTTCACCAGAGCAGAGTTTCTGTCTGCCAAAGAA +ATATCATTTATTAAATCGAATTTGACAGCTGTTATGTTTGATTATGTGCGAATGTCGACAGGGAATTTTA +AAGATTGCATTACAGAACAATTGGAATTAACTATTGATTATTCAGATATATTTTGGAATGAAGATCTCGA +TGGTTATATCAATAACATTATAAAAATGATTGATACATTGCCAGATAATGCAATGATATTGAAATCCGTT +CTGGCCGTAAAACTGGTGATGCAATTAAAAATACTTAATATTGTTAATAAAAACTTTATTGAGAATATGA +AGAAAATATTTAGCCATTGTCCTTATATAAAAGATCCCATTATACGCAGTTATATCCATTCTGATGAAGA +TAACAAGTTCGATGATTTTATGCGTCAACATCGATTCAGTGAGGTGAATTTCGATACCCAACAGATGATC +GATTTTATTAACAGATTTAATACGAATAAATGGCTAATTGATAAAAATAACAATTTTTTTATCCAACTTA +TCGATCAGGCCTTACGATCAACGGATGATATGATCAAAGCAAATGTTTGGCATCTTTATAAAGAGTGGAT +TCGTAGTGATGATGTTTCACCTATATTTATAGAAACTGAAGATAATTTAAGAACCTTTAACACGAATGAA +TTAACACGAAACGATAATATCTTTATCCTGTTCTCCTCAGTCGATGATGGGCCAGTTATGGTGGTAAGCT +CCCAGCGCTTACATGATATGTTGAATCCTACAAAAGATACCAATTGGAATTCCACGTATATCTACAAATC +CAGACATGAGATGTTGCCTGTTAATCTTACTCAGGAAACACTTTTCAGCTCCAAATCTCATGGTAAATAT +GCGCTTTTCCCCATTTTTACTGCGAGTTGGCGAGCTCATCGTATAATGAATAAGGGTGTTTAAGTAAAGG +AAAACATCACCGTTCCTGGCATCCTGGACGGTGATGCCCCTACGGTTGCCCTCGCCAGCACGGGCATCGG +TAAAGCGTAAGGTTCAACATCGTTTTACCACTTCATGCGATTGTTGCGTTTTTGTTGCGTATTAGATCAC +TTAATTTGCTTTACATCTCCCGTAAACACTTTTCTGCGATACAATGCCTTTACGTTATGTAACGGAGAGT +TCGGCATGTCACACCCCGCGTTAACGCAACTGCGTGCGCTGCGCTATTGTAAAGAGATCCCTGCCCTGGA +TCCGCAACTGCTCGACTGGCTGTTGCTGGAGGATTCCATGACAAAACGTTTTGAACAGCAGGGAAAAACG +GTAAGCGTGACGATGATCCGCGAAGGGTTTGTCGAGCAGAATGAAATCCCCGAAGAACTGCCGCTGCTGC +CGAAAGAGTCTCGTTACTGGTTACGTGAAATTTTGTTATGTGCCGATGGTGAACCGTGGCTTGCCGGTCG +TACCGTCGTTCCTGTGTCAACGTTAAGCGGGCCGGAGCTGGCGTTACAAAAATTGGGTAAAACGCCGTTA +GGACGCTATCTGTTCACATCATCGACATTAACCCGGGACTTTATTGAGATAGGCCGTGATGCCGGGCTGT +GGGGGCGACGTTCCCGCCTGCGATTAAGCGGTAAACCGCTGTTGCTAACAGAACTGTTTTTACCGGCGTC +ACCGTTGTACTAAGAGGAAAAAAATATGGAGTGGAGTCTGACGCAGAATAAGCTGCTGGCGTTTCATCGC +TTAATGCGTACGGATAAGCCAATTGGCGCGTTACTGCTGCTCTGGCCAACATTATGGGCGTTGTGGGTGG +CGACACCGGGCGTTCCCCAGCTCTGGATCCTGGCGGTGTTTGTCGCGGGTGTCTGGCTGATGCGCGCTGC +CGGATGTGTGGTGAATGATTATGCTGACCGCAAGTTTGATGGTCATGTTAAGCGCACGGCGAACCGACCA +CTTCCCAGCGGCGCGGTAACAGAGAAAGAGGCGCGCGCGCTGTTTGTCGTGCTGGTACTGATTTCGTTTT +TACTGGTGCTGACGCTGAATACGATGACCATTCTGTTGTCGATTGCCGCGCTAGCGCTGGCGTGGGTGTA +CCCGTTTATGAAGCGGTATACCCATCTACCGCAAGTGGTGCTGGGCGCGGCGTTTGGCTGGTCGATTCCA +ATGGCTTTTGCCGCTGTGAGTGAGTCGGTGCCATTGAGTTGCTGGTTAATGTTCCTCGCCAATATTCTCT +GGGCGGTGGCTTACGACACGCAGTATGCGATGGTTGACCGCGATGATGATGTGAAGATTGGCATTAAATC +CACGGCAATCCTGTTCGGCCAATACGATAAATTGATTATTGGTATTTTGCAGATTGGCGTACTGGCACTG +ATGGCGATCATCGGTGAGTTAAATGGCTTAGGCTGGGGATATTACTGGTCAATTCTGGTGGCTGGCGCGC +TGTTTGTTTATCAACAAAAACTGATTGCCAACCGCGAGCGTGAAGCCTGCTTTAAAGCATTTATGAATAA +TAACTATGTTGGTCTGGTACTATTTTTAGGGCTGGCAATGAGTTACTGGCATTTCTGATGATGTAAAAAA +GCCGGATGATCATCCGGCTTTCTTCTGGGTTGCCTGATGCGCGGCGCTTCTCAGGCCTACACAACACATC +GCAATTTATTGAATTTGCAGATTATGGAAGGCCGGATAAGGCGTTTTCGCCGCATCCGGCAATTCTCTCT +GATTACCCTTCGCCCTGCGTCGCACTCTCAATCGTCAAACGCACGTCTGATGTAATCAACTCCGCCAGCA +ACTGATAAACCTTCATCGTTTCTGCCGGTTCGGCATCGCCGCTATCGCTGATATACCCTTCATCACGCAG +TGTCAGCACCAGAGAACTGAACACCGCCTTGTCGAAGAACTCCGGCGCGTTGATGCCGTGCAGCACGGAG +AGACGTTGCGCGACGGTGCGGCTCTCTTTCTCCAGCGTACCGCGGTTGATCGACGGGTTGGCACTCAACA +ACCAGAAGGTGATGGCATAACGTTGCAGCGTTTCGCGCGCGCCTGCGGCCAGCAGCTGTAGCGTGCGAGA +ATGCGCCGGGTTGATATGCAACTCATCATCTTGCAGGGTAATCAGCCCCTGACGTTGCATCTCATTTGCC +AGCGCATCAATAACGTCCGGCAACTCGTCGCGATCCCAGCGCAGGAACAGCTCCGCTTTCAGCATTGGGT +AAAGCACATTGACGTGCTCCATCAATACGTCGCGGGAGATGTGGCGATGCTGGGTGACGATTGCCGCCAT +CAGCGAAGGCAGCACCAACATATGCGCAATGTTGTTGCGATAGTAGGTCATCAGCACCGCTTGCTCGCGC +GGCAGAATGATGATGTCGCCGATTGTGTCTTTCTCGACTTCAAACTTGTTCATTTGCAGCGCGTGATCGA +TAAGCTCGCTGGCGCTGGCTGAAGGAACGGTAGAGTCCGTGGAGTAGGGCACGTTGCGCATCAGATCCAG +GTAGCAGTTGAGTTGCTCGGTTAACTGCTCGCGGGTGAGTGAGCGCTGACGTGATGCCAGTAGCGCAGTA +CAGCACAGGTTCATGGCGTTTGCCGCGCCTGCGTTGTTAATGCGTACCATCAGATCGGCAGCAATATTAT +TGACCGTCGGCGTTAACCATGCCGGACGCACCGCTTCGATGGGATCGATAGATTCACGCCAGTCAGGTAC +ATGCTGGTTAAGGTAGGTCATCAACGGCATTGGTTCACCGAAGTTGACGTAACCCTGACCGAGATTACGC +AGCTTGCTTAAACCGCGCAGCATCTGCGGCAGGCTCTCTTTCTCTTTCGTCGCGCCGCGCAGTTCTTTGG +CGTAAGTACCCACTTCCATGACGTGCTCATAACCGATATAGATCGGAATCAGCGTAATCGGACGCGTGCC +GCCACGCAGCATCGCCTGAATGGTCATCGACAGCGTACCAGTTTTCGGATCCAGCAAACGCCCCGTACGG +GAACGACCGCCTTCCACGAAGTACTCGACGGAATAACCACGGCTGAACAGTTCGCCGAGATACTCCCGGA +AAACGGTGGAATAAAGTTTATTGCCTTTAAACGTACGGCGAATAAAGAACGCCCCCAGACGGCGGAAAAT +CGGCCCGGCAGGCCAGAAATTCAGGTTGATCCCGGCGGCGATATGCGGCGGCACCAGCCCCTGGTGATAC +AGCACGTAAGAAAGCAGCAGGTAGTCCATGTGACTGCGGTGGCAAGGCACATATACCAGCTCATGACCGT +CGTGGGCCAGCTGGCGAACGCGCTCAGCGTTATGGACGTTGATGCCCTGGTAAAGTCGGTTCCAGGTGAA +GCCCAGAATACGGTCAGTCAGGCGAATCATCTCGTAAGAGAAATTCGCCGCAATCTCTTCCATCAGTGCA +ATCGCGTTCTGCTGCGCTTTTTCATGGGAGATTTTTTTGCTGCGCGCTTCATCTTCTACCGCTTTGGCAA +TGGCGCGGGAGGCGAGCAGCTTATTAAACAGATCCTGACGAGCAGGCAAACGTGGGCCTACGGCAGCCAG +ACGTTGACGGGCAAAGTGCATACGCGCCACGCGCGCCAGTTTCTGAGCGATAGTTTTATCCGTGCCGTGT +TCATCCGCCATACGGCGCAGCGAAACTGACGGCGAGAAACGCACAAAACTGTCGCGACCGAGCCACAGTA +CAGCGAAAAATTTCTGTACGCCGTTAAGCATACGCAGCGGCGGGTTCACTTCGCCTTTTTCACGCCCCGG +CGCGCGACCAAACATCACCGACACTGGCACCATCTGCACATCCAGATTTGGGTTGCTACGGTGCAAATCG +AGATAGTCGTGGAACAGCTTAATAGACTCTTCTTTCGGCGTGTAATAGGTGAACACACGCGGCCCGCCGT +GAATGAACACATAGCGCGGCAGTAGCGTGCCGTCGATTTCCAGCGGCTCTAACGGGTCAGGCAAGTCATG +TGCCAGACACTGGGCGCGCAACGTCAGCAAATCTGCTTTCGAGTTGTACGGTAAAACGTACATAATTGGA +CGAGAGGTATCCAGCCCCAGTTCCGGGGCAGGATCTGCCGGAATAGACTTGCTTTTTACCAGGATGCTTA +ATGGTAAATTCAGTAATTTGTAGTAAATTCGTGGCCAGCCGGACATAAACGATGTAAAGCCTCTGGTTAA +TAATGCAAATGCGCGGCAAGGATAGCAGAAAGTCATGGGAAATTCTGTGGTATCCGCTCATGTTTCGCGC +GGCGCTACGCAAACCCGAATCATCGGATTTAACGGTACACTGATATTGACGCTCATAATGTAAAAAGGTT +CTTTCAATGGCCAATAATACCACTGGATTCACCCGAATTATCAAAGCTGCTGGCTATTCCTGGAAAGGTT +TACGCGCTGCATGGATCAACGAAGCGGCATTCCGTCAGGAAGGCGTAGCGGTATTGTTGGCGGTGGTCAT +CGCCTGCTGGCTGGATGTGGACGCGATTACCCGCGTGCTGCTTATCAGCTCCGTGATGCTGGTGATGATT +GTGGAAATCCTCAATAGCGCCATCGAAGCAGTGGTTGACCGAATTGGCTCTGAATACCATGAGCTTTCCG +GACGCGCAAAAGATATGGGATCCGCTGCGGTGCTGATTGCCATTATCGTCGCCGTGATTACCTGGTGCAT +TCTGTTATGGTCGCATTTTGGATAACCCTTCCAGAATTCGATAAATCTCTGGTTTATTGTGCAGTTTATG +GTTCCAAAATCGCCTTTTGCTGTATATACTCACAGCATAACTGTATATACACCCAGGGGGCGGAATGAAA +GCGTTAACGGCCAGGCAACAAGAGGTGTTTGATCTCATCCGTGATCACATCAGCCAGACAGGTATGCCGC +CGACGCGTGCGGAAATCGCGCAGCGTTTGGGGTTCCGTTCCCCAAACGCGGCTGAAGAACATCTGAAGGC +GCTGGCACGCAAAGGCGTTATTGAAATTGTTTCCGGCGCATCACGCGGGATTCGTCTGTTGCAGGAAGAG +GAAGAAGGGTTGCCGCTGGTAGGTCGTGTGGCTGCCGGTGAACCACTTCTGGCGCAACAGCATATTGAAG +GTCATTATCAGGTCGATCCTTCCTTATTCAAGCCGAATGCTGATTTCCTGCTGCGCGTCAGCGGGATGTC +GATGAAAGATATCGGCATTATGGATGGTGACTTGCTGGCAGTGCATAAAACTCAGGATGTACGTAACGGT +CAGGTCGTTGTCGCACGTATTGATGACGAAGTTACCGTTAAGCGCCTGAAAAAACAGGGCAATAAAGTCG +AACTGTTGCCAGAAAATAGCGAGTTTAAACCAATTGTCGTTGACCTTCGTCAGCAGAGCTTCACCATTGA +AGGGCTGGCGGTTGGGGTTATTCGCAACGGCGACTGGCTGTAACATATCTCTGAGACCGCGATGCCGCCT +GGCGTCGCGGTTTGTTTTTCATCTCTCTTCATCAGGCTTGTCTGCATGGCATTCCTCACTTCATCTGATA +AAGCACTCTGGCATCTCGCCTTACCCATGATTTTCTCCAATATCACCGTTCCGTTGCTGGGACTGGTCGA +TACGGCGGTAATTGGTCATCTTGATAGCCCGGTTTATTTGGGCGGCGTGGCGGTTGGTGCAACGGCGACC +AGCTTTCTCTTTATGCTGTTGCTGTTTTTACGCATGAGCACCACCGGGCTGACTGCGCAGGCTTATGGTG +CCAAAAATCCTCAGGCATTAGCCCGTACGCTGGTGCAACCGTTGCTGTTGGCGTTGGGGGCTGGGGCGTT +AATTGCGCTGCTGCGTACGCCGATTATCGATCTGGCGCTGCATATTGTTGGCGGTAGTGAGGCAGTCCTG +GAACAGGCGCGGCGCTTTCTTGAAATCCGCTGGTTAAGCGCACCGGCGTCGCTGGCGAATCTGGTATTAC +TCGGTTGGTTACTCGGCGTGCAATATGCCCGTGCGCCAGTAATTTTGTTAGTGGTCGGCAATATCCTCAA +CATTGTGCTGGATGTCTGGCTGGTGATGGGGCTGCATATGAACGTGCAGGGCGCGGCGCTGGCGACGGTT +ATTGCGGAATATGCAACATTGCTGATTGGTCTGCTAATGGTGCGTAAAATCCTCAAACTACGCGGAATTT +CCGGCGAAATGCTGAAAACTGCCTGGCGAGGAAACTTCCGTCGCTTGCTGGCGCTTAACCGCGATATCAT +GCTGCGTTCGCTGTTGTTGCAACTCTGTTTCGGCGCGATCACCGTACTTGGCGCGCGACTGGGGAGTGAC +ATTATCGCTGTTAACGCGGTTCTGATGACGCTACTCACCTTTACCGCCTATGCGCTGGATGGTTTTGCCT +ACGCGGTTGAAGCGCACTCCGGTCAGGCATACGGTGCGCGCGACGGTAGCCAGTTGCTGGATGTCTGGCG +GGCAGCGTGCCGCCAGTCGGGGATCGTAGCGTTACTGTTTTCGGTGGTTTATTTGCTGGCTGGGGAACAC +ATCATTGCGTTACTGACGTCGTTAACCCAGATTCAGCAGCTGGCTGACCGCTATCTTATCTGGCAGGTGA +TTTTGCCGGTGGTTGGCGTCTGGTGTTATCTGCTGGACGGCATGTTTATAGGCGCAACGCGTGCCACCGA +AATGCGTAACAGTATGGCGGTGGCCGCCGCAGGTTTTGCGCTGACGCTCCTTACGCTGCCGTGGCTGGGT +AATCATGCTTTGTGGCTGGCATTAACCGTCTTTCTGGCGTTGCGCGGGCTTTCTCTGGCGGCTATCTGGC +GGCGTCACTGGCGCAATGGTACCTGGTTTGCCGCAACGTGACGGTTAAAAATTCTGAATAAATAATCCTA +AGCCAAATTGCTGACTACACTTAATCTCACGTTCAGAAGAAAAGTGAACGTACTCTCATTCACAACCTAA +CGATGAGGTCTTGATTATGAATAAAGATGAAGCCGGCGGTAACTGGAAACAGTTTAAAGGTAAAGTGAAA +GAGCAATGGGGCAAACTGACCGATGATGATATGACGATCATTGAAGGTAAACGTGATCAACTGGTCGGTA +AAATCCAGGAACGTTATGGTTATCAGAAAGATCAGGCAGAAAAAGAGGTCGTGGATTGGGAAACCCGCAA +TGAATATCGCTGGTAATTAATCCCTCCTGCCCGACGTGTACAAGGATGTACGCCCTCTTAACGCGGTTTC +TTTTTCACCTGCACAGAGTGATCATGCTGGCACTGTTCAGGATGACGACACGCTTCCACTTCTACACATG +CCGCACAGAGCCCATGTGCTTCAATCACATTATGCCGCAGGGCAAACCCCATTTTTGCCGCCAGCGTATG +CATAATGTCTTCCACGCCTTCTGCACACTCTTCTTTCACTGCGCCGCAGCGATCGCAAATAAACATGGCT +GACGTATGGGTGGGCTGATCGAACAGATGACAGAGCACATAACTGTTGGTGGATTCCACCTTATGCACAA +AACCTTGCTCAAGCAGAAAATCCAGCGCGCGATAAACCGTTGGCGGCTTGGCTTGCGGTTCAGCTTCGCG +CAGTAAATCAAGCAGATCATAAGCGCTGATAGCGCCATCCTGCAGACTCATCAGGCGCAACACTTCCAGG +CGCTGTGGGGTCAGGCGCACATTACGCTGCGCGCAGATTTTTTCAGCCTGCGCTAATAACTCCTGCGTTG +TGGTCTTTTCCATCGGGCACCTCAAAGTGGGGGTTAAGAATGTCCTTACTTTACCATGTTCCAGGAAAAA +CACCGAGAACCCTTATTGTTGCCGTAATGTTGATTTTCTGTTTTGTAGGTAAGGTGTTATGTTGCCTTGT +CGTACCATTATCAACACGATAATAATTAATAATTCATTTTTAAATAAATTGCTTCAAGTTAACTCGCTAT +TTATTTAACTGGGTTTAAACGCATACCTGTAGTTCAGAAATTATGAGCGATTTTTGATAGTGACCAGATG +GCAAAAGAATTATAAGGAGGACACGGTACGACAAAAAAGGTAGATGAATCATGTTGAAGATAATACCCGG +TGCAACTGGATACTTTAATAAAACACTCAATTCAAATCAATTCGATAATGAAGATGCAATCAAAGATAAA +TTAGATAATAGAGGTTCAATCAAAGGTAAATTAAATAATATATATGGTAAATCTATTGATTATGCAGCGC +TGCGTCATCGGGATATAATTATTGCAAAAATAGATTTGTTTATTCAACGAATCACGCATAATTTATGGCA +TGCACGTAAAAAAATGTGTTTTTAATTGTGCAAATAAATGATCTCAAAATGTGGGTCAATAAGTATATTG +ACGATTGCACTGATGAGGATTTAAACGATCGTGACTTTATTGCATCAGTTGTTGACCGGGCTATTTTTCA +TTTCGCGATTAATAGTATATGTAATCCTGGGGATAATAAAGATGCAATGCCCATTGAACAATGTACTTTT +GATGTAGAAACTAAGAATGACCTTCCCTCCACGGTTCAGCTATTTTATGAGGAATCTAAGGATAATGAAC +CTTTAGCGAATATACATTTTCAAGCAATAGGTTCTGGTTTTTTAACGTTTGTTAATGCCTGCCAGGAACA +TGATGACAACAGCTTAAAATTATTTGCTTCGCTGTTAATTTCACTTTCATATTCTAGTGCCTACGCAGAT +TTATCAGAAACAGTGTATATTAATGAAAATAATGAGAGCTACCTGAAAGCTCAGTTTGAAAAATTATCTC +AACGTGATATGAAGAAGTACCTGGGAGAGATGAAGCGTCTGGCTGATGGGGGAGAAATGAATTTTGATGG +CTATCTGGATAAGATGTCACATCTGGTGAATGAAGGAACGCTCGATCCTGATATTTTAAGCAAAATGCGA +GATGCTGCACCACAATTAATTAGCTTCGCGAAGTCGTTTGACCCAACCTCAAAGGAAGAGATTAAAATAC +TTACAGACACTTCTAAATTAATTTATGATTTGTTCGGGGTTAAATCGGAGAAATAATATGTGAAGTTCTT +CGATAGTATGGAAGGCATTATATAAAAGGACCCAATATTTATTGGGTTCTTTTTTCTCTATCAATACTAT +TAGCAGGGAGATATATCACCAGAGTTTAATGTGTGATTTTTTATTTATCGTCGAACCTGGATTGTTTATC +ATTGGCCTTAACAAAGTTAACGGCTAATAAGATTATTTCCATCACTTCGTGAGAGCTTCATGCCTTGAGA +GGATCTCAATTTTCTTTTGCAATGAGACAGGCGCTTCCTGTTGTTATGGTATAGTACCCCGCTATTGAGC +CTCCTGAATAGTGATGCTGAATAACATAACCCCATGATATATCGATAAAATAATCTCTACATTTGAAAAT +GCACGGTAATTCTGAAATGCAAAAAATCAACCAAACCAGCGCAATGCCTGAAAAAACTGACGTTCACTGG +AGTGGTCGGTTTAGCGTTGCACCAATGCTCGACTGGACGGACAGACATTGCCGCTATTTCTTGCGTCTGC +TTTCCCGCAATACGTTGCTGTATACCGAAATGGTGACCACAGGGGCGATTATTCACGGTAAAGGTGATTA +TCTGGCGTACAGTGAAGAAGAACATCCGGTAGCGTTGCAACTGGGCGGTAGCGATCCGGCGGCGCTGGCG +CAGTGTGCAAAGCTGGCAGAAGCGCGCGGATATGATGAGATCAACCTGAATGTCGGCTGCCCGTCTGACC +GGGTGCAGAACGGCATGTTTGGTGCGTGTCTGATGGGTAATGCGCAGCTGGTTGCCGACTGCGTGAAAGC +GATGCGCGATGTGGTGTCGATTCCGGTGACGGTGAAAACGCGTATTGGCATCGACGACCAGGACAGCTAT +GAATTTCTCTGCGATTTCATCAATACCGTTTCCGGCAAAGGCGAGTGTGAGATGTTCATCATCCACGCAC +GTAAAGCCTGGCTTTCGGGGTTAAGCCCGAAAGAAAACCGTGAAATCCCGCCGCTCGATTATCCGCGTGT +GTATCAACTGAAGCGTGACTTTCCGCATCTGACAATGTCGATTAACGGTGGTATCAAGTCGCTGGAAGAG +GCCAAAGCACACCTGCAACATATGGATGGCGTGATGGTCGGGCGCGAGGCGTATCAGAATCCGGGTATTC +TGGCGGCGGTAGACCGGGAGATCTTTGGTTCCTCGGATACCGATGCCGATCCGGTGGCGGTAGTGCGCGC +CATGTATCCGTACATTGAGCGTGAACTCAGCCAGGGGACGTATCTCGGCCATATTACCCGGCATATGTTG +GGCTTGTTCCAGGGTATTCCTGGCGCGCGGCAGTGGCGGCGTTATTTAAGTGAAAATGCCCATAAAGCGG +GTGCAGACATTAATGTGCTGGAACACGCGCTCAAACTGGTGGCGGATAAGCGTTAACTTTTCACCAAAAA +GTAGTCAAATTCACCACGCCCTGCGCACCGTCGCGGGGCGTTTTGCTGTTAAATCAATAGATTATTTTTG +GCATGATTCTTGTAATGCCAGCAAGAGATTTCATATTTGGGAGAGCATCATGCTGGAACTACTTTTTGTG +ATTGGCTTTTTTGTCATGCTGATGGTCACCGGCGTTTCGTTGCTGGGCATTATCGCCGCGCTGGTTGTGG +CGACGGCCATTATGTTCCTCGGCGGTATGCTGGCATTGATGATTAAGTTGCTGCCGTGGTTACTACTGGC +GATTGCGGTGGTGTGGGTTATTAAGGCGATTAAAGCACCAAAAGTGCCGAAATATCAGCGTTATGACCGC +TGGCGTTACTAAGGGATTGTGCGGATGATCACAACCTAAGGTTTTATCCTTAGAACAAAATAGGAATTGA +TAATCAAATCTGTCACTATTGCGCCTCTAACAGATTCATCGTGCTGTACCCTACATACAGCCGAACTATA +AAAAGAAAGGGCTTCCCAGGTGGAAGCCCTATTTCTTTTATGGAATCAGCAGGCTGGAACCTTGCGTCGC +CCGGCTTTCCAGAATCTCATGCGCACGCTGCGCATCCTTCAGCGGATATTTCTGCTGCTCGGCGACATCG +ACCTTAATCACACCGCTGGCAATCAAAGAGAACAGTTCATTACTGGCCTCGGTTAATTCCTCCCGCGTGG +TGATATAGCCTTGCAGGGAAGGGCGTGTCACATACAACGAGCCTTTTTGATTGAGAATGCCTAAGTTCAC +ACCGGTAACCGCACCTGATGAGTTGCCAAAACTGACCATTAAGCCGCGGCGTTGCAGGCAATCCAGCGAC +CGTTCCCAGGTGTCTCTGCCCACGGAATCGTACACCACGCGCACTTTCTTACCGCCGGTGATCTCTTTTA +ACCGCTCGACCAGATCCTCTTCACGATAGTTAATAACCTGCCACGCGCCCGCTTTTAGCGCGCTCTGCGC +TTTTTGCGCGGTTCCTACGGTGCCGATAAGTTTCGCGCCCAGGGCTTTTGCCCACTGGCAGGCAATTAAG +CCAACGCCGCCAGCCGCTGCGTGGAACAGGAACTGTTCATCGGGTTTAATTTCATAGGTTTTGCGCAGCA +GATAATAAACCGTTAAGCCTTTCAGGAAGGATGCCGCAGCTTGCTCAAAAGAAATTGCCGCAGGCAGAAT +CGCCGCTTTATCCGCAATAATGTTATGCACAGAGCTGTAAGCGCCTAACGCCGACTGCGCATAGACTACA +CGATCGCCTGCCTTAATATGCTTTACACCACTGCCGACTTTACTCACGATGCCTGCTGCTTCGGTGCCTA +ATCCGCTGGGTAGCGATGGCGGCGGGTAAAGGCCGCTGCGGATATATGTGTCGATAAAATTGATGCCGAT +GGCTTTATTTTCGACCTGGATTTCATTCTCCGCCGGATCGGCAGGAGTGAACTCTACGGCTTGAAGTACT +TCCGGGCCACCGTGCTTGTGAAATTCAATTCGTGTTGCCATGTGTCCTCCAGAACGTATCGTCAGGGTCT +GCTTCATATGATAAAGTTTCGACCCATTCTTTATCTCGGTAACTCCATTCACTATGGCAGGAAATAAACC +CTTCAACAAACAGCAGGCTGAACCCCGCGAACGCGATCCACAAGTTGCCGGGCTGAAAGTGCCTCCGCAC +TCGATCGAAGCGGAGCAGTCGGTGTTGGGCGGTTTAATGCTAGATAACGAACGCTGGGATGATGTAGCCG +AGCGTGTGGTAGCAGACGATTTTTACACCCGCCCACACCGTCATATCTTTACTGAAATGGCGCGTTTGCA +GGAAAGCGGTAGCCCTATCGATCTGATTACTCTTGCGGAATCGCTGGAACGCCAGGGGCAACTCGATAGC +GTCGGTGGTTTTGCTTATCTGGCAGAGCTGTCAAAAAATACGCCAAGTGCGGCTAACATCAGTGCCTATG +CGGACATCGTGCGTGAACGTGCCGTTGTCCGTGAGATGATCTCGGTTGCGAATGAGATTGCCGAAGCTGG +TTTTGATCCGCAGGGGCGTACCAGCGAAGATCTGCTGGATCTGGCTGAATCCCGCGTCTTTAAAATTGCC +GAAAGTCGTGCGAACAAAGACGAAGGGCCGAAGAACATCGCCGATGTGCTCGACGCAACCGTGGCGCGTA +TTGAGCAGTTGTTTCAGCAGCCACACGATGGCGTTACCGGGGTAAACACCGGTTATGACGATCTCAACAA +AAAAACCGCTGGCTTGCAGCCGTCGGATTTGATCATCGTCGCCGCGCGTCCGTCGATGGGTAAAACAACA +TTTGCGATGAACCTCGTCGAAAACGCGGCGATGTTGCAGGATAAACCGGTACTTATCTTCTCGCTGGAGA +TGCCATCAGAACAGATCATGATGCGTTCTCTGGCGTCGCTGTCGCGCGTTGACCAGACTAAAATCCGTAC +CGGGCAGCTCGATGACGAAGACTGGGCGCGCATTTCCGGCACCATGGGTATTTTGCTCGAAAAACGCAAT +ATCTATATCGATGACTCCTCCGGCCTGACGCCAACGGAAGTGCGTTCCCGCGCACGCCGTATTGCCCGTG +AACACGGCGGCATCGGGCTTATCATGATCGACTACCTGCAACTGATGCGCGTACCGGCGCTTTCCGATAA +CCGTACGCTGGAAATTGCAGAAATCTCTCGCTCGCTGAAAGCACTGGCGAAAGAACTGAACGTGCCGGTG +GTGGCGCTGTCCCAGTTGAACCGTTCTCTGGAACAACGTGCCGACAAACGCCCGGTCAACTCCGACCTGC +GTGAATCTGGCTCTATCGAGCAGGATGCGGACTTGATCATGTTTATCTATCGTGATGAGGTGTATCACGA +AAACAGTGATTTAAAAGGCATCGCGGAAATTATTATCGGTAAACAACGTAACGGCCCAATCGGGACGGTA +CGCCTGACCTTTAACGGTCAATGGTCGCGCTTCGACAACTATGCGGGGCCGCAGTACGACGACGAATAAT +AATTATTTTATGAATTAGGTAATTAAAGCAAACACTTATCAAGGAACACAAATGCAAGCGGCAACTGTTG +TGATTAACCGCCGCGCTCTGCGACACAACCTGCAACGTCTTCGTGAACTGGCCCCTGCCAGTAAAATGGT +TGCGGTGGTGAAAGCGAACGCTTATGGTCACGGTCTTCTTGAGACCGCGCGAACGCTCCCCGATGCTGAC +GCCTTTGGCGTAGCCCGTCTCGAAGAAGCTCTGCGACTGCGTGCGGGGGGAATCACCAAACCTGTACTGT +TACTCGAAGGCTTTTTTGATGCCAGAGATCTGCCGACGATTTCTGCGCAACATTTTCATACCGCCGTGCA +TAACGAAGAACAGCTGGCTGCGCTGGAAGAGGCTAGCCTGGACGAGCCGGTTACCGTCTGGATGAAACTC +GATACCGGTATGCACCGTCTGGGCGTAAGGCCGGAACAGGCTGAGGCGTTTTATCATCGCCTGACCCAGT +GCAAAAACGTTCGTCAGCCGGTGAATATCGTCAGCCATTTTGCGCGCGCGGATGAACCAAAATGTGGCGC +AACCGAGAAACAACTCGCTATCTTTAATACCTTTTGCGAAGGCAAACCTGGTCAACGTTCCATTGCCGCG +TCGGGTGGCATTCTGCTGTGGCCACAGTCGCATTTTGACTGGGTGCGCCCGGGCATCATTCTTTATGGCG +TCTCGCCGCTGGAAGATCGCTCCACCGGTGCCGATTTTGGCTGTCAGCCAGTGATGTCACTAACCTCCAG +CCTGATTGCCGTGCGTGAGCATAAAGCCGGAGAGCCTGTTGGTTATGGTGGAACCTGGGTAAGCGAACGT +GATACCCGTCTTGGCGTAGTCGCGATGGGCTATGGCGATGGTTATCCGCGCGCCGCGCCGTCCGGTACGC +CAGTGCTGGTGAACGGTCGCGAAGTACCGATTGTCGGGCGCGTGGCGATGGATATGATCTGCGTAGACTT +AGGTCCACAGGCGCAGGACAAAGCCGGGGATCCGGTCATTTTATGGGGCGAAGGTTTGCCCGTAGAACGT +ATCGCTGAAATGACGAAAGTAAGCGCTTACGAACTTATTACGCGCCTGACTTCAAGGGTCGCGATGAAAT +ACGTGGATTAATCGTTCTGTAATATTTGATTGTCTGTGCCGGATGCGGCGTGAATGCCTTATCCGGCCAA +TAAAATCCTAAAAATTCAATAAGTTGATGTTCTTTCATGCTCTTATAAAGGTCGTGCCTCTGGCGGATGT +ACGTTTGTCATGAGTCTCACTCTGTTGCTAATTGCCGTTCGCTCCTGAACATCCACTCGATCTTCGCCTT +CTTCCGGTTTATTGTGTTTTAACCACCTGCCCGTAAACCTGGAGAACCATCGCGTGTTTCAAAAAGTTGA +CGCCTACGCTGGCGACCCGATTCTTACGCTTATGGAGCGTTTTAAAGAAGACCCTCGCAGCGACAAAGTG +AATTTAAGTATCGGTCTGTACTACAACGAAGACGGAATTATTCCACAACTGCAAGCCGTGGCGGAGGCGG +AAGCGCGCCTGAATGCGCAGCCTCATGGCGCTTCGCTTTATTTACCGATGGAAGGGCTTAACTGCTATCG +CCATGCCATTGCGCCGCTGCTGTTTGGTGCGGACCATCCGGTACTGAAACAACAGCGCGTAGCAACCATT +CAAACCCTTGGCGGCTCCGGGGCATTGAAAGTGGGCGCGGATTTCCTGAAACGCTACTTCCCGGAATCAG +GCGTCTGGGTCAGCGATCCTACCTGGGAAAACCACGTAGCAATATTCGCCGGGGCTGGATTCGAAGTGAG +TACTTACCCCTGGTATGACGAAGCGACTAACGGCGTGCGCTTTAATGACCTGTTGGCGACGCTGAAAACA +TTACCTGCCCGCAGTATTGTGTTGCTGCATCCATGTTGCCACAACCCAACGGGTGCCGATCTCACTAATG +ATCAGTGGGATGCGGTGATTGAAATTCTCAAAGCCCGCGAGCTTATTCCATTCCTCGATATTGCCTATCA +AGGATTTGGTGCCGGTATGGAAGAGGATGCCTACGCTATTCGCGCCATTGCCAGCGCTGGATTACCCGCT +CTGGTGAGCAATTCGTTCTCGAAAATTTTCTCCCTTTACGGCGAGCGCGTCGGCGGACTTTCTGTTATGT +GTGAAGATGCCGAAGCCGCTGGCCGCGTACTGGGGCAATTGAAAGCAACAGTTCGCCGCAACTACTCCAG +CCCGCCGAATTTTGGTGCGCAGGTGGTGGCTGCAGTGCTGAATGACGAGGCATTGAAAGCCAGCTGGCTG +GCGGAAGTAGAAGAGATGCGTACTCGCATTCTGGCAATGCGTCAGGAATTGGTGAAGGTATTAAGCACAG +AGATGCCAGAACGCAATTTCGATTATCTGCTTAATCAGCGCGGCATGTTCAGTTATACCGGTTTAAGTGC +CGCTCAGGTTGACCGACTACGTGAAGAATTTGGTGTCTATCTCATCGCCAGCGGTCGCATGTGTGTCGCC +GGGTTAAATACGGCAAATGTACAACGTGTGGCAAAGGCGTTTGCTGCGGTGATGTAATGCAGGAAAGCAG +GCTGGAGCTACCCAGCCTGCAGTGAAATTAAACTGTCGTCGCTTTCACTCTTTCTTTATAGATGATTTTT +TTGATGCCATCGTTCTACGTGAGAGATAATAAACGTTGTTAGTTCTTTTATTGTTAAGCTTATCCCAATT +ATCTGGAATTCCTTATCCTGTTTTTTTGGGTGGAGTAATAATTTCTGCACATCTAACCATTATTAAATTT +AATAATAAGTATCGGGTTTGTTACGATAGAATATTTCTATATCCTCAAGAATATGCTTTGCCTTATTGCC +TGTGACTTTCTGAGATTCAATTATAGTATCGTTAAATTCTAATGTTAAAGAGAACTCTTTTTTCCGCTTT +GTGTAAGTTTAACCTTATATTGATTACCAATATCAAATAAAAAGGTCCTGTAATGAGAATAATCACCTTT +AACCTCCTCGGCAAAACAGCAAAGCGTGCAAATATACATAAAGTCTTTCTTACCCCTGATTTTGTTAACT +AAATCAATAAATGCGTGAAAAACTTTACTTGCAATAGAACTTGATACTTCTTCTCCAGGTCTAAAAAATC +TTTTGCAATTTTTAACTGTGTTTCTATGTATAAAAAGAAATCTTTGGCATAAGAGATATCTTTATTATTT +AGTGCATCTAGCTCAACAGGTAAAGATGTCGTTTTGTTGCTATTCACATATGATATATTCATATCATCAT +CTCCATCGCGAGTAATAAAATTAATCACCATTGTAGGGTAGGGGGCTGGTCAATCAGAAATCATCTTTAT +AAACTTCGATTGTTTTTGTAATGCTGTATCATTAAGTTCATTAAATCGTACAGCAGATAAATGTTCTATC +AAATTTCGCTCATTTGCCGAGGATTCATCATAATAAACGTAAAATTAATGTATCCTTACATCGAGTAATA +AACATTTTTTATACAAAAAAAGACAGGAACGTATTTACTGGGTTAAATATAATCATCCTGCTTTTCATCA +CAAAAACCGCAGATAATCCTTCCTTTCCCCGGCAGCTGGCGTTATGGTCAGATGGTTTTTGCAACAAATC +TCACAATAAAAAGTTTCAACATACTGACTATTTAGGGAAAAATATGCGCAAGATCACACAGGCAATCAGT +GCCGTTTGCTTATTGTTCGCTCTAAACAGTTCCGCTGTTGCCCTGGCCTCATCTCCTTCACCGCTTAACC +CTGGGACTAACGTTGCCAGGCTTGCTGAACAGGCACCCATTCATTGGGTTTCGGTCGCACAAATTGAAAA +TAGCCTCGCAGGGCGTCCGCCAATGGCGGTGGGGTTTGATATCGATGACACGGTACTTTTTTCCAGTCCG +GGCTTCTGGCGCGGCAAAAAAACCTTCTCGCCAGAAAGCGAAGATTATCTGAAAAATCCTGTGTTCTGGG +AAAAAATGAACAATGGCTGGGATGAATTCAGCATTCCAAAAGAGGTCGCTCGCCAGCTGATTGATATGCA +TGTACGCCGCGGTGACGCGATCTTCTTTGTGACTGGTCGTAGCCCGACGAAAACAGAAACGGTTTCAAAA +ACGCTGGCGGATAATTTTCATATTCCTGCCACCAACATGAATCCGGTGATCTTTGCGGGCGATAAACCAG +GGCAAAATACAAAATCGCAATGGCTGCAGGATAAAAATATCCGAATTTTTTATGGCGATTCTGATAATGA +TATTACCGCCGCACGCGATGTCGGCGCTCGTGGTATCCGCATTCTGCGCGCCTCCAACTCTACCTACAAA +CCCTTGCCACAAGCGGGTGCGTTTGGTGAAGAGGTGATCGTCAATTCAGAATACTGACAGAGCGGGAGAG +CGTGATGCTCTCCCGAATGCTGTTTTTTTAATCACACCTTTATCCTTTCGCTGTCTTGCTGCAAACTGAT +TAAGAGAGTTTTATCAAGGAGCAGCACATGTGGTATCAAAAGACGCTCACGCTTAGCGCCAAATCTCGTG +GGTTTCATCTGGTAACGGATGAAATTCTGAATCAGCTGGCTGATATGCCGCGCGTTAACATCGGCTTACT +GCATCTGTTGCTGCAACATACCTCCGCCTCTCTGACACTTAATGAGAACTGCGATCCCACCGTACGCCAC +GACATGGAGCGTTTTTTCCTCCGCACCGTTCCCGACAACGGAAATTATGAGCATGACTATGAGGGAGCAG +ACGATATGCCTTCTCATATCAAATCCTCAATGCTGGGAACATCGCTTGTATTGCCGGTGCATAAAGGGCG +TATTCAGACCGGCACCTGGCAAGGCATTTGGCTGGGGGAACATCGCATCCACGGCGGATCGCGTCGCATC +ATCGCGACACTACAAGGGGAGTAAAAAATGACCATTTCGGAGTTGCTACAATATTGCATGGCAAAACCAG +GCGCAGAACAGAGCGTGCATAATGACTGGAAAGCGACGCAGATCAAAGTGGAAGATGTACTGTTTGCGAT +GGTGAAAGAAGTAGAAAATCGCCCAGCTGTTTCGCTGAAAACCAGCCCGGAGCTGGCGGAGCTGCTACGT +CAGCAGCACAGCGATGTGCGTCCAAGCCGCCATCTGAATAAAGCGCACTGGAGCACCGTGTATCTCGACG +GTTCGCTGCCAGATTCGCAAATCTATTATCTGGTGGATGCGTCTTATCAGCAGGCGGTGAATTTACTGCC +GGAAGAAAAACGTAAATTGCTGGTGCAACTCTGAAAGGAAAAGGCCGCTCAGAAAGCGGCCTTAACGATT +ACAGCATCGGCTTAAGGAAGCGTGCCGTGTGTGATGCTTCGCACTCCGCGACGGTTTCTGGCGTACCGGA +GACGAGGATCTCGCCGCCACCACTGCCGCCTTCTGGTCCCAGGTCGACAATCCAGTCAGCGGTTTTGATC +ACGTCGAGATTGTGCTCAATCACCACAATGGTGTTGCCCTGATCGCGCAGTTTATGCAGTACGTCGAGCA +GTTGCTGAATATCGGCGAAGTGCAGACCGGTGGTCGGCTCGTCGAGAATATACAGCGTCTGCCCGGTGCC +GCGTTTTGACAGTTCACGCGCCAGCTTCACGCGCTGGGCTTCACCGCCTGAAAGGGTGGTTGCGGACTGC +CCCAGTCGAATGTACGTCAGGCCAACGTCCATCAACGTTTGCAGCTTACGCGCCAGTGCAGGTACGGCAT +CAAAGAACTCACGCGCCTCTTCGATGGTCATATCCAGCACTTCGTGGATGGTTTTGCCTTTGTACTTAAT +CTCCAGCGTTTCACGGTTATAGCGTTTACCTTTGCACTGGTCGCACGGCACGTAGATATCCGGCAGGAAG +TGCATCTCCACTTTGATCACGCCATCGCCCTGACAGGCCTCGCAGCGTCCGCCACGAACGTTAAAGCTGA +AACGTCCCGGCGTATAGCCGCGCGCACGGGATTCCGGTACGCCCGCAAACAGTTCGCGCACAGGCGTAAA +CACGCCGGTATAGGTCGCCGGGTTAGAACGTGGAGTACGACCAATTGGGCTTTGGTCGATATCGATCACT +TTATCGAAATGCTCCAGCCCCTGAATATCGCGATACGGTGCTGGTTCGGCGATGGTCGCCCCATTCAACT +GGCGTTGGGCAATCGGGAACAGTGTGTCGTTAATCAGCGTCGATTTACCGGAACCTGAAACCCCGGTGAT +GCAGGTAAACAGACCCACCGGCAGCGTCAGCGTCACGTCCTTCAGGTTGTTGCCGCGTGCGCCTGTCAGC +TTCAGCACTTTTTCCGGATTCGCCGGAACGCGTTTCTTCGGCACTTCAATCTTGCGTTTGCCGCTCATGT +ACTGCCCGGTCAACGACTCCGGCACCGCCATAATCGCTTCCAGCGGACCTTCTGCGACCACTTCACCGCC +GTGAACACCTGCGCCCGGGCCAATGTCGATCACATGGTCAGCGGCGCGAATTGCGTCTTCGTCGTGCTCC +ACCACAATCACGGTATTACCGAGATCGCGCAGATGGATAAGCGTACCCAACAGGCGCTCGTTATCACGCT +GGTGCAGGCCGATAGACGGCTCGTCCAGCACGTACATAACGCCAACCAGGCCCGCACCAATCTGGCTCGC +CAGACGGATACGCTGTGCTTCACCGCCAGAAAGCGTTTCTGCCGAGCGGGAAAGCGTCAGGTAATTCAGG +CCGACGTTAACGAGGAATTTCAGACGATCGCCGATCTCTTTAAGGATTTTTTCTGCAATCTTCGCCCGCT +GACCTGCGAGTTTGAGATTGTTGAAGAATTCCATCGCATGACCAATGCTCATGTCGGAGATAGCAGGCAG +CGGCGTATTCTCGACATACACGTGGCGCGCTTCCCGACGCAGACGCGTCCCTTCGCAGCTGGCGCACGGA +CGATTACTGATAAACTTGGCTAATTCTTCGCGTACCGCGCTGGATTCCGTCTCTTTATAGCGGCGCTCCA +TATTATGCAGCACGCCTTCGAACGGATGACGACGAATGGAGGTATCGCCACGATCGTTCATGTATTTGAA +TTCAATGTTTTCTTTGCCAGAACCGTACAACACCACTTTATGCACGTTCGCGCTCAGGCTGCCCCACGGC +GCTTCGACGTCGAACTTATAGTGATCTGCCAGCGATTTCAGCATCTGGAAATAATAGAAGTTGCGGCGAT +CCCAGCCACGGATCGCACCACCAGCCAGCGACAGTTCCGGATTCTGGATCACTCGATCAGGATCGAAATA +TTGCTGTACGCCAAGGCCGTCGCAGGTCGGGCAGGCCCCCGCCGGGTTGTTAAACGAAAACAGTCGCGGC +TCCAGTTCACGCATACTGTAGCCGCAAATTGGGCAGGCGAAGTTGGCGGAGAACAGCAGCTCTTCCGCTT +TCGGGTCGTCCATATCCGCCACTACCGCGGTACCACCGGAAAGCTCCAGCGCGGTTTCAAATGACTCGGC +AAGACGTTGGGTAAGATCGTCACGCACCTTGAAGCGATCAACCACCACTTCAATGGTATGTTTCTTTTGC +AGTTCCAGTTTTGGCGGATCGGAAAGATCGCAGACTTCGCCATCAATACGAGCACGGATGTAGCCCTGGC +TTGCCAGGTTCTCCAGCGTTTTGGTGTGTTCGCCTTTGCGCTCTTTAATGATTGGCGCGAGTAGCATCAG +ACGCTTGCCTTCCGGCTGCGACAGCACGTTATCCACCATCTGGCTGACGGTTTGCGCCGCCAGCGGGACG +TCGTGGTCCGGACAGCGCGGCTCGCCAACGCGGGCGAATAACAAACGCAAATAGTCGTGGATTTCGGTGA +TTGTCCCCACCGTAGAACGCGGGTTATGAGACGTCGATTTCTGCTCAATTGAGATGGCAGGAGAAAGCCC +CTCAATATGATCGACGTCCGGCTTTTCCATCAGTGACAGAAACTGCCGCGCGTAGGCGGAAAGGGATTCA +ACGTAACGGCGCTGCCCTTCGGCATATAAGGTGTCGAAAGCGAGCGAGGATTTGCCAGAACCCGAAAGCC +CGGTCACGACAATGAGCTTGTCGCGGGGGATAACGAGGTTGATGTTTTTGAGATTATGGGTGCGGGCGCC +CCGAACTTCGATCTTATCCATTCACCTTTCCCGGATTAAACGCTTTTTTGCCCGGTGGCATGGTGCTACC +GGCGATCACAAACGGTTAATTATGACACAAATTGACCTGAATGAATATACAGTATTGGAATGCATTACCC +GGAGTGTTGTGTAACAATGTCTGGCCAGGTTTGTTTCCCGGAACCGAGGTCACAACATAGTAAAAGCGCT +ATTGGTAATGGTACAATCGCGCGTTTACACTTATTCAGAACGATTTTTTTCAGGAGACACGAACATGGCC +AGCAGAGGCGTAAACAAGGTTATTCTCGTTGGTAATCTGGGTCAGGACCCGGAAGTACGCTACATGCCAA +ATGGTGGCGCAGTTGCCAACATTACGCTGGCTACTTCCGAATCCTGGCGTGATAAAGCGACCGGCGAGAT +GAAAGAACAGACTGAATGGCACCGCGTTGTGCTGTTCGGCAAACTGGCAGAAGTGGCGAGCGAATATCTG +CGTAAAGGTTCTCAGGTTTATATCGAAGGTCAGCTGCGTACCCGTAAATGGACCGATCAATCCGGTCAGG +ATCGCTACACCACAGAAGTCGTGGTGAACGTTGGCGGCACCATGCAGATGCTGGGTGGTCGTCAGGGTGG +TGGCGCTCCGGCAGGTGGCAATATCGGTGGTGGTCAGCCGCAGGGCGGTTGGGGTCAGCCTCAGCAGCCG +CAGGGTGGCAATCAGTTCAGCGGCGGCGCGCAGTCTCGCCCGCAGCAGTCCGCTCCGGCAGCGCCGTCTA +ACGAGCCGCCGATGGACTTTGATGATGACATTCCGTTCTGATTTGTCATTAAAACAATAGGTTATATTGT +TTTAAGGTGGATGATTAAAGCATCTGCCAGCCATAAAAAAGAAGCCTCCGTTATGGAGGCTTCTACGTAT +CAGGTCAAAATCATTGGCCATTGTGGCGGTGTCTGATTCATCTCTTCTATCATCACCGACTCGATGTTGT +GCCAGATAGCGGTGATGTCCGCCATTGTGATGCCAAGCAACCCCATTGCGAACCAACAGGCGGAAACAAC +GCCCAGACCGCTGCTGATCACCGCAAGCCCGACATAATCAGACCGACGAAAACGGATGTTGAGTGTGCTG +GCCAGAAACATCATTACGGCACTAAGAAGTTGCCAGCGAAGAAGAACCACGCCAGTGGTGAGGGTAGCCA +TCAAACAATTCCTCTGAAAAGAGCCGATGCCCTGGACAGCGCGGCGTTGTTCACGGGAGGCGTGGTACAC +TCTGGCTATCGCGGGGCTTGCAGAACACAAAAATGAAACACTCTGTTTGTTTCATTAATTTTGTGAACTA +TATCACAATTGATTGTTTGTTAGCCATATTAGGCCGTGACTTTTATTGCTGTACAGATTATGTGGTTTTT +CAGTGGCATTAAGGGCATATCTTCCCGCCGCCTCTGCATTCCTGTAGGAAATTAATTTTGAATATCAATG +AATTATTTTCATCCAGGTGACGATTAGAAAGGTATCAATTTCAAATCAGGCAAAAGTGCTATTTATACCG +TAAGATTTATCTAAAGACGTCGGTACCCAGGGTTTTCACCTTGCAATGGCCGGGTATAAACAGGCAGGAA +ATTGATAGCAATGAGTCATCGTGCACGACACCAATTACTGGCGTTGCCGGGCATTATCTTTTTAGTTCTC +TTTCCCATCATTCTTTCGCTATGGATTGCCTTCCTTTGGGCAAAATCAGAAGTGAATAATCAGCTCCGAA +CCTTTGCTCAACTGGCACTGGATAAATCCGAGCTGGTCATTCGCCAGGCAGATTTAGTGAGCGATGCAGC +TGAACGCTATCAGGGGCAAGTTTGCACTCCAGCCCATCAAAAGCGAATGTTGAATATTATTCGTGGCTAT +CTTTATATTAATGAATTGATCTATGCCCGTGATAACCATTTTTTATGCTCATCGCTGATAGCGCCTGTAA +ACGGCTATACGATTGCACCGGCCGATTATAAGCGTGAACCTAACGTTTCTATCTATTATTACCGCGATAC +GCCTTTTTTCTCTGGCTATAAAATGACCTATATGCAGCGGGGAAATTATGTGGCGGTTATCAACCCTCTC +TTCTGGAGTGAAGTGATGTCTGATGACCCGACATTGCAATGGGGTGTGTATGATACGGTGACGAAAACCT +TTTTCTCGTTAAGCAAAGAGGCCTCGGCAGCAACGTTTTCTCCGCTGATTCATTTGAAGGATTTAACCGT +ACAAAGAAATGGCTATTTATATGCGACAGTTTATTCGACAAAACGCCCAATTGCAGCCATTGTTGCGACT +TCATATCAACGTCTTATAACCCATTTTTATAATCATCTTATTTTTGCGTTGCCCGCCGGTATTTTGGGGA +GTCTTGTTCTGCTATTACTCTGGCTACGTATTCGACAAAACTATTTATCTCCCAAACGTAAATTGCAACG +CGCCCTCGAAAAACATCAACTTTGTCTTTATTACCAGCCAATAATCGATATCAAAACAGAAAAATGTATC +GGCGCTGAAGCGTTGTTACGTTGGCCTGGTGAGCAGGGGCAAATAATGAATCCGGCAGAGTTTATTCCGC +TGGCAGAAAAGGAGGGGATGATAGAACAGATAACTGATTATGTTATTGATAATGTCTTCCGCGATCTGGG +CGATTACCTGGCAACACATGCAGATCGCTATGTTTCTATTAACCTGTCGGCCTCCGATTTTCATACGTCA +CGGTTGATAGCGCGAATCAATCAGAAAACAGAGCAATACGCGGTGCGTCCGCAGCAAATTAAATTTGAAG +TGACTGAGCATGCATTTCTTGATGTTGACAAAATGACGCCGATTATTCTGGCTTTCCGCCAGGCAGGTTA +CGAAGTGGCAATTGATGATTTTGGTATTGGCTACTCTAACTTGCATAACCTTAAATCATTGAATGTCGAT +ATTTTGAAAATCGACAAATCGTTTGTTGAAACGCTGACCACCCACAAAACCAGTCATTTGATTGCGGAAC +ACATCATCGAGCTGGCGCACAGCCTGGGGTTAAAAACGATCGCTGAAGGCGTCGAAACTGAGGAGCAGGT +TAACTGGCTGCGCAAACGCGGCGTGCGCTATTGCCAGGGATGGTTCTTTGCGAAGGCGATGCCGCCGCAG +GTGTTTATGCAATGGATGGAGCAATTACCCGCGCGGGAGTTAACGCGCGGGCAATAAAATTACAGGCGGT +GGCGATAATCGCTGGGAGTGCGATCAAACTGCCGACGGAAAACGCGGGAGAAGGTCTGCTGCGAGACATA +ACCCAGGTCCATTGCGATATCAAAAATCGGACGCTCGGTGGTGCGCAACTCAACGGCGGCCAGTAACAGG +CGGCGTTGGCGAATGTAATCGCCAAGCGTCTGATGCGTCACCGTGCGGAACATTCGTTGCAAGTACCACT +TTGAATAGCCTGATTTTTTTGCGACTACATCAATGTTAAGCGGCTGGTCAATATGCTCGTCAATCCATGC +GATAAGATCCTGAATAATTTTCTGATGGGACATAAATCTGCCTCTTTTCAGTGTTCAGTTCGTTAATTCA +TCTGTTGGGGAGTATAATTCCTCAAGTTAACTTGAGGTAAAGCGATTTATGGAAAAGAAATTACCCCGCA +TTAAAGCGCTGCTAACCCCCGGCGAAGTGGCGAAACGCAGCGGTGTGGCGGTATCGGCGCTGCATTTCTA +TGAAAGTAAAGGGTTGATTACCAGTATCCGTAACAGCGGCAATCAGCGGCGATATAAACGTGATGTGTTG +CGATATGTTGCAATTATCAAAATTGCTCAGCGTATTGGCATTCCGCTGGCGACCATTGGTGAAGCGTTTG +GCGTGTTGCCCGAAGGGCATACGTTAAGTGCGAAAGAGTGGAAACAGCTTTCGTCCCAATGGCGAGAAGA +GTTGGATCGGCGCATTCATACCTTAGTGGCGCTGCGTGACGAACTGGACGGATGTATTGGTTGTGGCTGC +CTTTCGCGCAGTGATTGCCCGTTGCGTAACCCGGGCGACCGCTTAGGAGAAGAAGGTACCGGCGCACGCT +TGCTGGAAGATGAACAAAACTAAAGCGCCACAAGGGCGCTTTAGTTTGTTTTCCGGTCTTTGTCTTTCTC +TCTATCCCGCTGGTACACAGGAGGGTTTCCCCCGACGTCAACACACCTCATTCGAGCACGTGGTGGAGGT +TCCGGTTGGTGTTGATGCTTTAATTGTATGTCACCGACGTTTCTTCGCCAGTGTAAAAGTATACTTTTTA +ACCGCAATATTTTTGTCATCTCAGACGATTTTTTATCGCAATCCTGAACGGTATACGGCTCGATAACGCT +GCAATCTTGCGCACCGACGATAACGTTTGCGCATCAATTGCCTGGTTTTTCATCGTCAAGACAATAAAAG +AGAAAAAAGCAGCAAACTTCGGTTGAAAAAGCCGCTATGATCGCCGGATAATCGTTTGCTTTTTTTACCA +CCCGTTTTGTATGCGCGGAGCTAAACGTTTGCTTTTTTGCGACGCAGCAAATTGTCGCAAACCTGGAGCA +GGAAGATAACGTTTCGCTGGCAGGGGATTGTCCGCCACGCATCTTGACGAAAATTAAACTCTCAGGGGAT +GTTTTCTTATGTCTACGCCATCAGCGCGTACCGGCGGTTCACTCGACGCCTGGTTTAAAATTTCACAACG +TGGAAGCACTGTCCGTCAGGAAGTGGTTGCCGGGTTAACAACGTTTCTGGCGATGGTCTACTCGGTCATC +GTCGTTCCAGGTATGTTGGGTAAAGCAGGCTTCCCGCCTGCGGCAGTTTTCGTTGCAACCTGTCTGGTTG +CCGGACTCGGTTCTATCGTGATGGGTCTGTGGGCTAATCTGCCGTTGGCGATTGGTTGCGCCATCTCCCT +GACAGCGTTTACCGCATTCAGCCTGGTGCTGGGGCAACATATTAGCGTACCTGTCGCGCTGGGTGCCGTG +TTCCTGATGGGTGTGCTGTTTACGGTAATTTCTGCCACGGGTATCCGTAGCTGGATTTTGCGCAACTTGC +CTCACGGTGTGGCGCACGGCACGGGGATTGGTATCGGTCTGTTCCTGCTGCTCATTGCCGCTAACGGTGT +CGGTCTGGTGATTAAAAACCCGCTTGATGGTCTGCCCGTTGCGCTGGGTGATTTCGCGACCTTCCCGGTG +ATTATGTCACTGGTAGGTCTGGCGGTGATCATCGGCCTGGAAAAACTGAAAGTCCCTGGTGGCATTCTGC +TGACCATTATCGGTATCTCAATTGTCGGTTTGATCTTCGATCCTAACGTCCATTTCTCCGGCGTTTTCGC +CATGCCTTCATTGAGCGATGAAAACGGCAATTCACTGATTGGCAGCCTGGACATTATGGGCGCGCTGAAT +CCTGTAGTCCTGCCAAGCGTTCTGGCGCTGGTGATGACGGCAGTATTTGATGCCACCGGAACTATCCGTG +CCGTCGCCGGCCAGGCGAACCTGCTGGATAAAGATGGGCAGATCATCGACGGTGGGAAAGCACTGACCAC +TGACTCCATGAGCAGCGTTTTCTCTGGCCTGGTGGGTGCGGCTCCGGCAGCGGTATACATCGAGTCTGCG +GCGGGTACGGCGGCGGGCGGTAAAACCGGTTTGACGGCTATCACCGTTGGCGTGCTGTTCCTCCTGATTC +TGTTCCTCTCTCCGCTCTCTTACCTCGTTCCGGGGTATGCAACGGCTCCGGCGCTGATGTACGTTGGCCT +GCTGATGCTGAGCAACGTGGCGAAAATCGACTTTGCTGATTTTGTTGATGCGATGGCGGGTCTGGTTACG +GCTGTATTCATCGTGCTGACCTGTAACATCGTAACAGGCATCATGATCGGCTTCGCGACTCTGGTGATTG +GTCGTCTGGTTTCCGGCGAATGGCGCAAGTTGAACATCGGTACGGTCGTTATCGCCGTGGCGCTGGTGAC +CTTCTATGCGGGTGGCTGGGCTATCTAATCTTTCATCGGATTCTGAAAACGGGTGGCAATGGCTGCCCGT +TTTTATTTTCTCCGCACATTGTGTGAGCTTTTGCGATATTCTGAAAAAAATGAGAATTCAGGCATAACGT +CTTTCTCAGATCATAAAAAACATCGCAAACAGGGAACGCATGGAAATCTTCTTCACCATACTGATAATGA +CCCTCGTGGTCTCGCTGTCCGGGGTGGTCACTCGTGTCATGCCCTTTCAGATCCCGCTTCCGCTTATGCA +AATCGCCATCGGTGCGCTACTGGCGTGGCCGACGTTTGGTTTGCATGTGGAGTTTGATCCTGAACTCTTT +TTAGTCTTGTTTATCCCGCCGTTGCTGTTCGCTGATGGCTGGAAAACGCCGACCCGTGAATTTCTCGAAC +ATGGTCGAGAGATTTTCGGCCTCGCGCTGGCGCTGGTGGTGGTCACCGTGGTCGGCATTGGCTTCCTTAT +TTACTGGGTGGTGCCGGGCATTCCGCTGATCCCTGCCTTTGCGCTGGCGGCGGTGCTTTCTCCGACCGAT +GCTGTGGCGCTCTCCGGGATTGTTGGCGAAGGGCGCATCCCGAAAAAAATCATGGGCATTTTGCAGGGCG +AAGCGTTGATGAATGACGCCTCCGGTCTGGTGTCGTTGAAGTTTGCCGTAGCAGTGGCGATGGGGACGAT +GATCTTCACCGTCGGCGGTGCGACGGTCGAATTTATGAAAGTAGCCATTGGCGGTATTCTCGCCGGTTTT +GTGGTGAGCTGGCTGTACGGTCGCTCGCTGCGATTCCTCAGCCGCTGGGGCGGTGATGAACCCGCGACGC +AGATCGTCCTGCTGTTCCTGCTGCCATTCGCTTCTTATCTGATTGCCGAACATATTGGCGTTTCCGGCAT +CCTCGCTGCGGTTGCCGCCGGGATGACCATCACCCGCTCCGGTGTGATGCGCCGTGCGCCGCTGGCAATG +CGCCTGCGTGCAAACAGCACCTGGGCGATGCTGGAATTTGTCTTTAACGGCATGGTGTTCCTGCTGTTAG +GTCTGCAGCTGCCGGGTATTCTGGAGACGTCGCTGATGGCAGCAGAAATCGACCCTAACGTCGAAATCTG +GATGCTGTTTACCAATATTATTCTGATATATGCGGCGCTGATGCTGGTCCGTTTCGGCTGGCTGTGGACG +ATGAAAAAGTTCAGCAACCGCTTCCTGAAGAAGAAGCCGATGGAGTTTGGTTCGTGGACCACACGAGAAA +TCCTGATCGCGTCTTTCGCCGGGGTGCGTGGGGCGATCACTCTGGCCGGTGTGCTCTCTATCCCGCTGCT +CTTGCCGGATGGTAACGTCTTCCCGGCGCGCTATGAGCTGGTGTTCCTGGCGGCTGGCGTCATTCTCTTC +TCGCTGTTTGTCGGCGTGGTGATGTTGCCTATTCTGCTACAACACATTGAAGTCGCGGATCATTCGCAAC +AATTGAAAGAGGAACGTATTGCGCGAGCGGCAACGGCAGAAGTGGCGATTGTGGCGATCCAGAAAATGGA +GGAGCGTCTGGCGGCGGATACCGAAGAGAATATCGATAACCAGCTGCTTACGGAGGTCAGTTCTCGCGTC +ATTGGTAACCTGCGTCGTCGCGCCGATGGACGTAACGACGTTGAAAGTTCCGTGCAGGAAGAGAACCTTG +AGCGTCGCTTCCGTCTGGCGGCATTGCGTTCTGAACGTGCTGAACTTTACCACCTGCGCGCCACACGGGA +GATCAGCAACGAAACGCTGCAAAAATTACTGCACGATCTCGATTTGCTTGAAGCGTTGCTAATTGAGGAA +AATCAGTAAGCCGAAAGCGACGTAACCAGGCCCGAGGTAATCTGAAAAAGGTGCAATCTTTTGCACCTTT +AACAGGTTAGCTCGGGCTAACATTCATGATTCTAAAACAAATAAATTATCTCTCTTTTAAAGTCAATTCA +TTGGCTGTTCTTCGACTTAACCTCAATCTGCATCTTGCATAATATCTGCAGTAATCTTCATAGCGACTGC +ATGAAGATTATCCTCAGTTTGTGACATGCCAGTATGAGTGGCACAATCTTCTTCAAAGAATTTCTGTAGT +GTTACCAGGATATCACTATTAATGGAGATATTTTCCTCACCACGGAGAATGGTAATACCCATTCCCTGGA +CGCTAGCCTCATCGAAATTAACACGATAGAGACGGATATTAAACATCCAGGCTTTTGTTAAAACAGAACA +GTTGAAATGGCAATTGCTTAAATTGGCATTATTAAAATTAACATTAGCCATATTAGAGTCGGTACATATA +ACCATTTCGAGGAACGTATTTGTTAACCGCGTAAAAAAGAGTTTGCTATCAATTAAGTTTATATTCTGGA +GGGTTGCTTTATTCAGGTTGACACGAGACAGATCAGCATGTTCAAAGTTAATTAAATCAAGTTTAGAGAA +GCTAAGGTCGGCTCTAAATAAATTAATATATGGCGCTATTACTTTATAAAGATTTACCTCAGCCATGTAT +GCCATATAAAAATTTGAATAATCAAGGAAGGTATTTTTAATATTGGCTCTATTCATTGTTGCATTGTAGA +ATTGAACATGCATAGCGGAACATGAATTTAGAGTTCCGTCAGTCATTTTTATCTGAGCGAAATTTGAGTC +ATCGAGAATACAATTATCAAAAAGTATTTTTTCCATTATGGCGAAATTAAAATTCGTTTTATACATATTA +CAGTCCTGAAAAATAGCGTTTTGTAGTCTGCAACCTGCAAAATTCGAATTGGATAAATCTTCATCTTTAA +TCACGATACCTTTCAGGCTAAGGTGTGAAAAATCGTAACCACCATTTACTGTCTGTGGGATTTCGATAGT +ATTATTATGGACGGTGACATTATTTATAAAATATACCACCTTAATTGACACTTCCTTATCTTTATTAAGG +TAAACTCTTCTCGTAATTCTATCGTCACATTTATTATTTGCATGTGAAGCTATATCTATAAAATATTTAT +GTATTTTCCTGTCCGTTTCTTTCGTGATTTTTCCTGATGGTAAACTATCATAAATTCTTTTCATTTTCTG +AATCAAGCCTATCACTTTTTCATGATCATCCATTTTGAAAAGAGAGAGGGCTTTATTGTCAATTAACGTG +TTTTTATGATGTTTGCTGTAATTATCTGATTTTGTTTTCTTTGTATGTGATGGACTTGTGACAGAGTGGT +TATCGTTAATCAGGCAAAGAGGGAAAAACATATTATTTAAACCATTATAGCGCATAAAATATCCTTATAA +TTAACAAGAAAGAAAAGGCATATTCTCTGCATTATCATTTTCTACGACTGTCAAAAATCGCTCATTTTTT +AATGAGTTTATTTGTTTAATATTATGGGAAAAGGTGATGCATTTGGGAGAGGAAGAGTATTCCCCGGTCA +GACGACCGGGGAAGGGGAGAGATTAATGCGCGCGGCCTTGCTCAACGCCAAAGCCGGTCTGGGAGCGGAT +AAACTGCGCGCGGAACAGTTCACGCTCACGCGCGCCTTCCGCTGAGTTATCGGTTGCCGAGAAGAACCAG +ATGCCGAGGAATGCCACGGTGATAGAGAACAGCGCCGGGTATTCATACGGGAAGATGGCTTTTTCGTGAC +CAAGGATCTGTACCCAAATCGTCGGGCCGAGGATCATCAGTACTACTGCGGTAATCAGCCCCAGCCAGCC +ACCCATCATCGCGCCACGCGTGGTCAGTTTCGACCAGTACATAGAAAGCAGAATGATCGGGAAGTTACAG +CTCGCCGCGATGGCAAACGCCAGCCCCACCATAAAGGCGATGTTCTGATTCTCAAACAGCACGCCGAGGA +TAATCGCAATCACGCCGAGGATCAGTACGGTGATTTTTGATACCCGCAGCTCTTCACGTTCGGTCGCGCC +TTTTTTGAAGACGTTAGCGTACAAGTCATGCGAAACCGCGGATGCGCCCGCCAGCGTCAGACCCGCAACC +ACCGCGAGGATAGTGGCGAAAGCAACCGCTGAAATAAAACCGAGGAACAGGTTGCCGCCCACTGCATTCG +CCAGGTGAACGGCCGCCATGTTGTTACCACCAATCAGATGGCCCGCCGCGTCTTTATATTCCGGATTCGC +ACCAACCAGCATGATCGCGCCGAAGCCGATAATAAAGGTCAGAATATAGAAGTAGCCCATAAACCCGGTG +GCGTAGAACACGCTCTTACGTGCTTCGCGGGCATCGCTGACTGTAAAGAAGCGCATCAGAATGTGCGGCA +AGCCCGCCGTACCAAACATCAGTCCCAGACCCAGAGAGAGCGCGGAGATCGGATCTTTCACCAGCCCGCC +CGGCTTCATGATGTCGACACCTTTCGGGTGTACCGCCATCGCTTCACTGAACAGATTGTTGAAGCTAAAG +CCGACGTGTTTCATCACCATAAAGGCCATAAAGCTGGCACCGAACAGCAACAGCACGGCTTTGATAATTT +GCACCCAGGTGGTCGCCAGCATGCCGCCGAACAGGACGTACATCATCATCAGCACGCCGACCAGCACCAC +CGCAATGTGATAGTTAAGGCCAAACAGCAGCTCGATCAGTTTACCTGCGCCCACCATCTGGGCGATAAGG +TAAAGCGCCACCACCACCAGAGAACCACAGGCCGAAAGAATACGAATCGGCCCTTGTTTCAGACGGTAAG +AGGCCACATCGGCAAAGGTGTAGCGCCCCAGGTTACGCAGACGTTCGGCAATCAGGAACAAAATGATCGG +CCAGCCCACCAGGAAGCCCAGCGAGTAAATTAAGCCGTCATAGCCGGAGGTAAACACCAGCGCGGAGATC +CCCAAGAATGAGGCGGCGGACATATAGTCCCCGGCAATCGCCAGCCCGTTCTGGAAGCCAGTGATATTGC +CGCCTGCGGTGTAGTAGTCGCTACGAGAACGTACGCGTTTTGATGCCCAGTAGGTAATGCCGAGCGTAAA +CACGACGAAAATCAGGAACATAATAATCGCCTGCCAGTTCGTTGGCTGGCGCTCTACGGCCCCGCTAATA +GCATCCGCGGCGTTAGCTGCGAAAGGGAGTGTGGCGGCAAGCGCCGTCAGAACTCTTTTCATGATGCTTG +TACCTCATGCAGGACTTCATTATTAAGACGGTCGAATTCGCCGTTCGCCCGCCAGATGTAGATACCGGTG +AGAACAAAGGAGATCACAATCACTCCAACACCAATTGGAATACCGCGTGTGACGCTGGTGTTCGGATTCA +GCGGCGTGCCCAGCCAGCCGGGCGCGAAGGCGATCAGTAAAATAAAGCCGATATAAACTGCCAGCATAAT +AATCGACAGGATGGTGGCAAACCGTTGCCGTTTTTCGACTAACTCCCTGAAATGCGCATTGTCTTCTATC +CGCTGATAAATAGTGCCATTCATCACAGATTCTCCAGAGGTAATGTAGGGATTGTTTTAATTCCCGCTCC +CTTATGGGAGAAGGTTAACGCTCGGGTAACCCTTGCCGAATGTAGGCCGGATAAGGCGTTTACGCCGCAT +CCGGCAATCAATGCCTGATGCGACGCTGTCGCGTCTTATCAGGCCTACAAACCGTTACCGACTCGCATCG +GGCAATTGTGGGTTACGATGGCATCGCGATAGCCTGCTTCTCTTCAAGCAGCTTCTCGACTACGCCAGGA +TCGGCAAGCGTCGAGGTATCGCCCAGGTTGCTGGTATCGCCCGCCGCAATTTTGCGCAGAATACGGCGCA +TAATTTTGCCGGAGCGGGTTTTAGGCAGGGAGTCGGTCCAGTGCAGCACGTCTGGCGTCGCCAGCGGGCC +AATCTCTTTACGCACCCAGTTGCGGACTTCTGCGTACAGTTCTGGTGACGGTTCCTCCCCGTGATTAAGC +GTGACGTAGGCGTAGATCGCCTGACCTTTAATATTGTGCGGAATACCTACTACGGCGGCTTCGGCAATCT +TCGGATGCGCCACCAGCGCCGACTCAATCTCTGCCGTCCCCAGACGGTGACCGGAGACGTTCAGCACGTC +GTCCACACGCCCGGTTATCCAGTAATAGCCATCTTCATCGCGACGCGCGCCGTCGCCGCTGAAATACATA +TTTTTGAAGGTGGAGAAGTAGGTCTGTTCAAAACGTTCGTGATCGCCAAACAGCGTACGCGCCTGACCCG +GCCAGGAGTCGGTGATTACCAGGCTACCTTCGGTGGCCCCCTCCAGCGGGTTACCTTCGTTATCGACCAG +CGCCGGTTGCACGCCGAAGAACGGACGTGTTGCCGAACCGGCTTTCAGCTCGGTAGCGCCAGGCAGCGGG +GTGATCATGAAACCGCCGGTTTCGGTCTGCCACCAGGTATCGACCACCGGACATTTCTCGTTGCCGATTT +TTTTCCAGTACCACTCCCACGCTTCCGGGTTAATTGGCTCGCCCACGGAACCGAGAATGCGCAGCGACGA +ACGGTCGGTGCCTTCGATCGCTTTATCGCCTTCCGCCATCAGCGCGCGGATCGCCGTGGGTGCGGTATAG +AGAATATTGACCTGATGCTTGTCCACCACCTGCGCCATACGGGCAGGCGTCGGCCAGTTGGGTACGCCTT +CAAACATCAGCGTGGTCGCACCGCAGGCCAGCGGGCCGTACAGCAAGTAACTGTGTCCGGTCACCCAGCC +CACATCGGCGGTGCACCAGTAGATATCACCCGGATGATAATCAAAGACATATTTAAAGGTCAGCGCCGCG +TACACCAGATAACCGCCGGTAGTATGCAGCACACCTTTTGGCTTACCGGTAGAACCGGAGGTGTAGAGAA +TAAACAGCGGATCTTCGGCGTTCATCTCTTCCGCCTGGTGCTGATCGCTCGCTTGCTCAACCAGGTCGTG +CCACCACAGGTCGCGCCCTTCCTGCCAGTCAATTTTCCCGCCAGTACGCTTCAGTACCACCACATGCTCT +ACGCTGGTGACGTTCGGGTTTTTCAGCGCGTCATCAACGTTTTTCTTCAGCGGAATACTGCGCCCGGCAC +GCACACCTTCGTCGGAAGTGATCACCAGTCGTGAGTTGGAATCAATAATGCGCCCGGCAACGGCTTCCGG +CGAGAAGCCGCCGAAAATCACCGAATGCACCGCGCCAATGCGGGCGCAGGCCAGCATCGCAACCGCGGCT +TCCGGCACCATCGGCATATAAATCGCCACCACATCACCTTTTTTAATGCCCAGCTCGAGCAGGGTATTGG +CGAAGCGGCAGACGTCGCGGTGCAGCTCTTTATAGCTGATATGTTTGCTCTGGCTGGCGTCGTCGCCTTC +CCAGATGATGGCGGTACGATCGCCGTTTTCTTGCAGATGGCGGTCAAGGCAGTTTGCCGCCAGATTCAGC +GTGCCGTCCTCGTACCATTTAATGGACACATTACCGGGGGCAAAGGAGGTGTTTTTCACCTTCTGGTAAG +GTTTGATCCAGTCAAGAATTTTTCCCTGTTCGCCCCAGAAGGTATCAGGTACGTTAATAGATTGTTGATA +CATCGCCTCGTACTGCTGAGGGTTTATCAGGCAACGGTCTGCGATGTTGGCAGGAATGGTGTGTTTGTGA +ATTTGGCTCATGCTTTTGTTCTCCTTGTAGGATGTTAATAATATGTGGCATAAGCGTTAAATGTAGGGGT +ATTGGCAGTTTTGTTTAGTATTTGGGCGACAGATCACGCAAAAGTAGAATTGTGCAAATAAACGGCAGGG +TAATTTTTGAAGGTCAGCAACAAAAGTTGATTAATTCTTTGAGGAACATGCAGTTATGCATGCTGTTGAA +AAAGAGGAAGATACTGACTAACTCTAAAGTGGTATTTTACATGCACTTACAATTGATTAAAGACAACATT +CACAGTGTGGTTATTTGTTACACATAGGGGCGAGCAATGTCATGACAGTGTAGGTGCGGTTACTGTCGTG +AAAAACAATAAAAACCGCCATTGCAACAATGGCGCAATTCGGATGAAGCCCCTATGACAAGGATAAAAAT +AAACGCACGCCGTATCTTCAGCTTATTGATTCCTTTTTTCTTTTTCACTTCTGTTCACGCTGAACAAACG +GCTGCTCCCGCAAAACCTGTAACTGTGGAAGCGAAGAATGAAACCTTTGCCCCGCAGCATCCCGATCAAT +ATCTCTCCTGGAAAGCCACCTCGGAACAGTCAGAGCGTGTTGACGCCCTGGCGGAAGATCCACGGCTGGT +GATCCTGTGGGCGGGGTATCCCTTCTCGCGCGATTACAACAAGCCGCGTGGACATGCTTTTGCTGTGACC +GATGTGCGTGAAACCCTGCGTACCGGTGCGCCGAAAAACGCTGAAGATGGTCCGCTACCGATGGCATGCT +GGAGTTGTAAAAGCCCGGATGTGGCGCGTCTGATCCAGAAAGACGGCGAAGATGGCTACTTCCACGGTAA +ATGGGCGCGCGGCGGTCCGGAAATCGTCAACAACTTAGGTTGTGCCGATTGCCATAACACCGCCTCTCCA +GAGTTCGCCAAAGGCAAACCGGAGTTAACCCTTTCCCGTCCGTATGCGGCTCGCGCGATGGAAGCCATTG +GTAAACCTTTTGAGAAAGCCGGACGTTTCGACCAGCAATCGATGGTTTGCGGTCAGTGCCATGTGGAGTA +TTACTTCGACGGCAAAAACAAAGCGGTTAAATTCCCGTGGGATGACGGCATGAAAGTCGAAAATATGGAG +CAGTATTACGACAAAATTGCCTTCTCTGACTGGACTAACTCCCTGTCGAAAACGCCAATGCTGAAAGCGC +AGCACCCGGAATATGAAACCTGGACAGCGGGCATTCACGGTAAAAACAACGTGACCTGTATCGACTGCCA +TATGCCAAAAGTGCAGAACGCCGAAGGCAAACTCTACACCGACCATAAAATTGGTAATCCGTTTGATAAC +TTCGCCCAGACTTGTGCGAACTGCCATACCCAGGACAAAGCTGCCTTGCAAAAAGTGGTCGCGGAACGTA +AGCAGTCGATTAACGACCTGAAAATCAAGGTTGAAGATCAACTGGTTCACGCTCACTTCGAAGCGAAAGC +AGCGCTGGATGCAGGCGCGACGGAAGCTGAAATGAAGCCAATTCAGGACGATATCCGTCATGCCCAGTGG +CGCTGGGATCTGGCGATCGCTTCCCACGGCATTCATATGCACGCACCGGAAGAAGGTTTACGGATGCTCG +GTACGGCGATGGATAAAGCGGCGGATGCACGCACCAAACTGGCGCGCCTGCTGGCGACCAAAGGCATCAC +CCATGAAATCCAGATCCCGGATATCTCAACCAAAGAGAAAGCCCAGCAGGCCATTGGCCTGAACATGGAA +CAAATCAAGGCCGAGAAGCAGGACTTCATCAAAACGGTGATCCCGCAGTGGGAAGAACAGGCACGTAAAA +ACGGTCTGTTAAGCCAATAACCCCGTTCCGCCTCGCAAGGGGCGGAAAACACAATGGAGTGAATATGAGC +GTATTACGTTCGTTATTAACTGCCGGGGTGCTGGCGTCGGGCCTGTTGTGGAGCCTGAACGGAATTACCG +CTACCCCTGCGGCGCAGGCATCTGATGATCGCTACGAAGTTACCCAGCAGCGTAACCCGGATGCCGCCTG +TCTGGACTGTCATAAACCAGATACCGAAGGTATGCATGGAAAACATGCTTCCGTTATCAACCCGAATAAC +AAACTGCCGGTCACCTGCACCAACTGTCACGGCCAGCCATCACCGCAACACCGCGAAGGGGTGAAAGATG +TGATGCGCTTTAACGAGCCGATGTACAAGGTTGGAGAGCAGAACAGCGTCTGTATGTCCTGTCATCTGCC +GGAACAGTTGCAAAAAGCGTTCTGGCCGCACGATGTCCACGTAACCAAAGTGGCGTGCGCCAGCTGCCAT +TCCCTGCATCCACAGCAAGATACGATGCAGACGTTAAGTGACAAAGGACGGATTAAGATTTGCGTCGATT +GCCACAGCGATCAGCGCACCAATCCGAACTTTAACCCGGCGTCTGTTCCGTTGCTTAAGGAGCAGCCATG +ACCTGGTCTCGTCGCCAGTTTCTCACCGGCGTCGGCGTGCTGGCAGCCGTCAGCGGCACCGCAGGGCGCG +TGGTGGCGAAAACGTTGAATATCAATGGGGTGCGTTACGGCATGGTGCATGACGAGTCGTTATGCATCGG +CTGTACCGCCTGTATGGATGCTTGTCGGGAAGTGAACAAGGTGCCGGAAGGCGTCTCGCGCCTGACGATT +ATTCGTAGCGAGCCGCAGGGCGAATTTCCTGATGTGAAATATCGCTTCTTCCGTAAGTCTTGCCAGCACT +GCGATCATGCGCCGTGCGTTGACGTCTGCCCGACCGGTGCGTCTTTTCGCGATGCTGCCAGTGGGATTGT +CGATGTTAATCCGGATCTCTGCGTCGGTTGTCAGTACTGCATCGCCGCCTGTCCGTACCGCGTGCGCTTT +ATCCATCCGGTCACGAAGACGGCGGACAAATGCGATTTCTGCCGTAAGACCAATTTGCAGGCCGGTAAGT +TGCCCGCGTGCGTTGAAGCTTGCCCGACCAAGGCGCTGACGTTTGGCAATCTGGACGATCCCAACAGTGA +GATTTCGCAACTGCTGCGCCAGAAGCCCACTTACCGCTACAAGCTGGCGCTGGGAACCAAACCGAAGCTG +TACCGCGTACCGTTTAAATACGGGGAGGTGAGCCAATGACGCAGACTTCCGCATTTCATTTTGAATCGCT +GGTGTGGGACTGGCCGATTGCCATCTACCTGTTTTTGATTGGTATTTCTGCTGGTCTGGTGACGCTGGCC +GTGCTGTTACGTCGCTTCTACCCGCAGGCGGGCGGTGCAGACAGTACGTTGCTGCGCACCACGCTGATTG +TCGGGCCGGGCGCGGTGATCCTCGGTCTGTTGATCCTCGTCTTCCACCTGACAAGACCGTGGACCTTCTG +GAAGCTGATGTTCCACTACAGTTTTACCTCGGTGATGTCGATGGGGGTGATGCTGTTTCAGCTCTACATG +GTGGTGCTGGTGCTGTGGCTGGCGAAAATCTTTGAACATGATTTGCTTGCCCTGCAACAACGCTGGTTGC +CGAAGCTGGGGATCGTGCAAAAGGTTCTGAGCCTGCTGACGCCCGTTCATCGCGGACTGGAAACATTGAT +GCTGGTGCTGGCGGTGTTGTTGGGGGCTTATACCGGCTTTCTGCTGTCGGCGCTGAAATCGTATCCGTTC +CTCAATAACCCGATCCTGCCGGTGCTGTTCCTCTTCTCCGGCATCTCGTCCGGTGCGGCGGTGGCGCTGA +TCGCCATGGCGATACGCCAACGCAGTAACCCGCATTCCACGGAAGCGCAGTTTGTACACCGTATGGAAAT +CCCTGTGGTATGGGGTGAAATCTTCCTGCTGGTGGCGTTTTTTGTCGGTCTGGCGCTGGGCGATGACGGT +AAAGTTCGTGCGCTGGTGGCGGCATTAGGTGGCGGTTTCTGGACGTGGTGGTTCTGGCTTGGTGTCGCCG +GGCTGGGGCTGATTGTGCCAATGCTGCTCAAACCGTGGGTCAATCGCAGTTCCGGCATTCCTGCCGTGCT +GGCGGCGTGTGGGGCCAGTCTGGTCGGCGTGTTGATGCTGCGCTTTTTCATTCTCTACGCCGGACAGTTG +ACGGTGGCGTAAGCCAGAAAAGAGGTGGTTTCTGGACGTATTCCTTCCTGAAGTCGGTTTTCTGGCGTTG +TTGTTAAGTCTCGGGGTCAACGTGTTGACCCCGTTGACGGCCTTCGCGGGAGTGCGGTTGCGCTGGCCTG +CCATGATGCGACTCACTTGCATCGGCATTCTGGCGCAGTTCGCGCTCCTGCTGCTCGCCTTTGGCGTACT +GACGTATTGTTTTCTCATCAGCGATTTCTCGGTCATTTATGTCGCGCAACATAGCTATAGCCTGCTGTCG +TGGGAACTCAAGCTGGCAGCGGTGTGGGGCGGCCATGAAGGTTCGCTGCTGCTTTGGGTGCTGCTGCTTT +CCGCCTGGAGCGCGCTGTTTGCCTGGCATTATCGGCAGCAAACCGATCCGCTATTTCCGCTGACGTTAGC +CGTTTTATCTCTCATGCTCGCCGCACTGCTACTGTTTGTGGTGCTGTGGTCCGATCCCTTCGTGCGGATA +TTTCCACCAGCAATCGAAGGCCGCGATCTCAATCCGATGCTGCAACATCCCGGTCTTATCTTTCATCCAC +CGCTGCTTTACCTTGGCTATGGCGGTTTGATGGTAGCGGCGAGCGTGGCGCTGGCGAGTCTACTGCGCGG +CGAGTTTGATGGTGCCTGCGCCCGAATTTGCTGGCGCTGGGCGTTACCTGGCTGGAGTGCATTAACGGCG +GGGATCATCCTCGGTTCCTGGTGGGCCTACTGCGAACTCGGCTGGGGCGGCTGGTGGTTCTGGGATCCGG +TGGAAAACGCCTCTTTATTACCCTGGCTTTCTGCCACTGCGCTGCTGCACAGTTTGTCCCTGACACGCCA +GCGGGGGATTTTTTGCCACTGGTCGCTGTTGCTGGCGATAGTTACTCTGATGCTGTCGCTGCTGGGCACC +TTAATTGTCCGTTCTGGCATTCTGGTTTCGGTTCATGCGTTCGCGCTGGATAACGTCCGCGCCGTGCCGT +TGTTCAGCCTGTTTGCACTGATTAGCCTTGCGTCTCTGGCTCTGTATGGCTGGCGAGCGCGGGACGGTGG +CCCGGCGGTGCATTTTTCGGGGTTATCGCGGGAAATGTTAATCCTCGCTACGCTGTTGCTGTTTTGCGCA +GTGCTACTGATCGTGCTGGTGGGAACGCTTTATCCGATGATTTACGGCCTGCTGGGCTGGGGACGCCTCT +CCGTTGGCGCGCCGTATTTTAACCGCGCGACGTTACCGTTTGGTCTGTTGATGCTGGTGGTGATTGTGCT +GGCGACGTTTGTCTCTGGCAAACGCGTGCAGCTTCCGGCGCTGGTAGCTCATGCGGGCGTGCTGTTATTT +GCCGCTGGGGTCGTGGTCTCCAGCGTCAGCCGTCAGGAGATCAGCCTGAATTTACAGCCGGGTCAGCAGG +TGACGCTGGCAGGATACACCTTCCGTTTTGAGTGCCTCGATCTACAAGCCAAAGGCAATTACACCAGCGA +AAAAGCGATAGTGGCACTGTTTGACCATCAGCAACGCATTGGTGAACTGACGCCGGAGCGGCGTTTTTAT +GAAGCACGCCGTCAACAAATGATGGAACCGTCAATTCGCTGGAACGGCATCCATGACTGGTATGCGGTCA +TGGGGGAGAAAACTGGGCCGGATCGTTACGCTTTTCGTTTGTATGTACAAAGCGGTGTGCGCTGGATCTG +GGGGGGAGGATTGTTGATGATTGCGGGCGCATTGTTAAGCGGATGGCGGGGGAAGAAGCGCGATGAATAA +AGGGCTTCTCACGCTACTGCTGTTATTTACCTGTTTTGCGCACGCTCAGGTCGTAGACACCTGGCAATTC +GCCAATCCGCAACAACAGCAACAGGCGTTAAATATTGCCAGCCAGTTACGTTGTCCGCAGTGCCAGAATC +AAAACTTACTGGAATCCAACGCGCCGGTGGCTGTCAGTATGCGCCATCAGGTTTACAGCATGGTGGCGGA +GGGGAAGAACGAAGTCGAAATCATTGGCTGGATGACCGAACGCTACGGAGATTTTGTTCGCTATAACCCA +CCGTTAACGGGTCAGACGCTGGTGTTATGGGCGCTGCCAGTGGTGTTGTTACTGCTGATGGCACTGATCC +TCTGGCGAGTGAGGGCGAAGCGATGAAACAGCCCAAAATACCGGTGAAAATGCTGACAACACTCACGATA +TTGATGGTATTTCTCTGTGTCGGCAGTTATCTGTTAAGCCCAAAATGGCAGGCGGTACGTGCGGAGTATC +AGCGTCAGCGCGATCCGCTACATCAGTTTGCCAGCCAGCAAACCCCGGAAGCGCAGCTTCAGGCATTGCA +GGATAAAATCCGCGCTAATCCACAAAACAGCGAACAGTGGGCGTTACTGGGCGAGTACTATCTGTGGCAA +AACGATTACAGCAATTCGTTGCTGGCGTACCGTCAGGCGTTGCAACTACGTGGTGAGAACGCTGAACTGT +ATGCGGCGCTGGCGACGGTGCTTTATTACCAGGCCAGCCAGCATATGACCGCCCAGACTCGCGCAATGAT +CGACAAAGCCCTCGCGCTGGACAGTAATGAAATCACCGCCCTGATGCTGCTGGCTTCCGATGCGTTTATG +CAGGCGAACTACGCGCAAGCCATCGAACTATGGCAAAAAGTGATGGATCTCAACTCACCGCGAGTTAACC +GAACACAGCTGGTTGAGTCGATTAATATGGCGAAATTGTTGCAGCGGAGATTGGATTAATCATCTGGTGA +TGAAGATTATGTCATTGAGCTGCATAAAAAATAATCGAATGAACATATGCCAAAAATAATCACTAATCAG +TATTATTGCAGATTAAACAAATAAAAATCTTTCCATAACAAATGGTTATTCATTAATCCTGCCATAAACT +CGCGTTATTATGCATTAATGCAGCGAAAAGCTCTGTTGTTAAAGGGTTGCGCAACATACCGCGCAAATGA +TACTGATCATAAGCGTTAAAAAAATCTACAAACCAACGCAACACAATTCATGCCCTGGCAGTATGTCACG +TTCTCGCGTTTCTGAACGGGGAACGGCGCTCCATTGAGGAAGTCATTCATATGAAAAATATAAAATTCAG +CCTGGCCTGGCAGATTCTGTTTGCTATGGTGCTGGGCATTCTCCTGGGAAGCTACCTGCACTACCATAGC +GACAGCCGCGACTGGCTGGTCGTCAATTTGCTCTCTCCGGCGGGTGATATCTTCATCCATCTGATTAAAA +TGATTGTTGTGCCGATTGTGATCTCCACGCTGGTGGTGGGTATCGCGGGTGTTGGTGATGCCAAACAGCT +CGGGCGTATTGGCGCGAAAACCATTATCTACTTCGAGGTGATCACCACCGTCGCCATCATTTTGGGGATC +ACTCTGGCGAACGTCTTCCAGCCCGGTGCCGGGGTGGATATGTCGCAGTTGGCGACCGTCGATATCTCGA +AATATCAGAGCACTACGGAAGCGGTACAAAGCAGTTCCCACGGCATTATGGGCACGATTTTGTCGCTGGT +GCCGACGAACATTGTGGCGTCGATGGCGAAAGGCGAAATGCTGCCGATCATCTTTTTCTCGGTGCTGTTT +GGTCTGGGGCTTTCTTCCCTGCCCGCGACGCATCGTGAACCGCTGGTGACCGTGTTCCGCTCCATCTCTG +AAACCATGTTTAAAGTGACTCACATGGTGATGCGTTATGCACCGGTGGGTGTGTTTGCGCTGATTGCGGT +GACGGTGGCTAACTTTGGTTTCTCGTCTCTGTGGCCACTGGCGAAACTGGTGCTGCTGGTGCATTTCGCC +ATTCTGTTCTTCGCGCTGGTAGTGCTGGGAATTGTGGCGCGCCTGTGCGGGTTAAGCGTCTGGATCCTGA +TTCGTATTCTGAAAGATGAGCTGATTCTGGCGTACTCCACTGCCAGCTCTGAAAGCGTGCTGCCGCGAAT +TATTGAGAAGATGGAAGCCTACGGAGCACCGGTGTCGATCACCAGTTTCGTGGTGCCGACCGGTTACTCT +TTTAACCTTGATGGTTCGACGCTGTATCAAAGTATTGCCGCTATCTTCATCGCGCAGTTGTATGGCATTG +ACCTGTCCATCTGGCAGGAAATCATTCTGGTGCTGACGCTGATGGTGACCTCGAAAGGGATTGCTGGCGT +GCCTGGCGTGTCGTTTGTGGTGTTGCTGGCAACGCTGGGTAGCGTAGGTATTCCGCTGGAAGGTCTGGCG +TTTATTGCTGGTGTTGACCGTATCCTCGACATGGCGCGTACTGCGCTGAACGTGGTGGGTAATGCGCTGG +CGGTGCTGGTGATTGCCAAGTGGGAACACAAATTTGACCGTAAGAAAGCGCTGGCTTATGAGCGTGAAGT +GCTGGGCAAATTTGATAAAACTGCGGATCAATAATTGAAGATTGCCGGGGATATCCACCCGGCAATGTGT +GAATGCCTGATGCGACGCTTGCCGCGTCTTATCAGGCCTACGCCAGACAGCGCAATAGCCTGATTTAGCG +TGATTTTGTAGGTCGGATAAGGCGTTTATGCCGCATCCGACATCAACGCCTGATGCGACGCTTAACGCGT +CTTATCAGGCCTACGCCAGACAGCGCAATAGCCTGATTTAGCGTGATTTTGTAGGTCGGATAAGGCGTTT +ACGCCGCATCCGACATCAACGCCTGATGCGACGCTTGCCGCGTCTTATCAGGCCTACGCCAGACAGCGCA +ATAGCCTGATTTAGCGTGATTTTGTAGGTCGGATAAGGCGTTTATGCCGCATCCGACATCAACGCCTGAT +GCGACGCTTAACGCGTCTTATCAGGCCTACGCCAGACAGCGCAATAGCCTGATTTAGCGTGATTTTGTAG +GTCGGATAAGGCGTTTATGCCGCATCCGACATCAACGCCTGATGCGACGCTTAACGCGTCTTATCAGGCC +TACGCCAGACAGCGCAATAGCCTGATTTAGCGTGATTTTGTAGGTCGGATAAGGCGTTTACCGCATCCGA +CATCAATGCCTGATGCGACGCTTGCCGCGTCTTATCAGGCCTATCTTAACCGTTGGTTAATTTTTCAAAC +TCTTCACACCCGGTATCAAACCCTTCCATACAGCTCAGGTTCAACCAGTGCAGCGCCTTTTGCTTGTTCT +TCTCGATAAAACCTTCTTCACCGTTTAAGAACATCATTCCCGCCCAGTACTCGGAATAACCGGTTCGGGA +AATTGCAGAGCTGCGTTTGAAATACCAGGTTGCCTTGTCATCGTCGGCCTTAATGCCCACGCCGTTGGCG +TAAATCAAACCAAGCAGCATTTGGGCATCGACGGCAGAGTCGTTCTCCAGATCTTCCGAGGCGTTTTCTA +ACAGCGAAATTGCCTTTGGATAATCCGGTTTACCCGCTTGAGTATTTACCAGAATATGCGCCAGCGTTAC +TTCACCTTCTTTACTGCCCGCTTGCGCCGCTTTCTCTGCAAGAACTTTTGCTTGTGGATAGTCCAGACTG +ACCGGATTGGTGATTTTGATCTGCGCCAGCAGCGCGCAGGCATCAGCATCACCGCTGTCGGCGGCTTTCT +GTGCCCAATATTCGGCTTTGCTCAAATCGCCGGAGCTAAACCAGCTGTCGGCAAGAAAATATTGTGCGCG +TCGGTCCCCGGCCTCTGCTGCCTTTAAATACTGGCTGCCAGGCTCGGAGTCGTTGGCGTGGGCAAAGAAT +GTCAAAAACAACATCAATGCGATAATTTTTTTCATTTTGATAATACGATTGGGTAGGGAGTAACCAGTAT +AAAGAGTTCGAATGGATAAAAAAACAGCCTCCGAAAGGAGGCTGTAGAAAGGACGGTATTACGCCAGTGC +CGCTTCGCGCAGGCGAGTTTTCAACTTGTTGTACTCGTCAATCACGTACTGCTCGGCGGCGCGCTGATCG +GCGATCGGCTCGACGCGAACGGCGCAGTATTTGTACTCCGGCGTTTTCGTAATCGGGCTTAAGTTTTCGG +TAACCAGCTCGTTACAGGCACCAATCCACCACTGGTAGGTCATGTAAATCGCCCCTTTGTTCGGACGATC +GCTGACCTGCGCACGGGTGATAATTTTGCCTTTACGCGAGTGCACCCAAACCAATGCCTCATCTTCAATA +CCCAGACGTTTGGCGTCTTCGGTATTGATTTGTGCGTAGCCAGGTTCATCAGCCAGCGCCGCCAGTGCCG +CACAGTTACCGGTCATCGAACGGCAAGAGTAGTGACCAACTTCACGCACCGTTGACAGTACCATCGGGTA +CTCGTCGGTGAGTTTGTCGATTGGCGCTACCCAGTCGCAGGTGAAGAACTGCGCCAGACCGTTCGGGGTA +TCAAACTTCTCTTTAAACAGATAAGAAGTCCCCTGATCGGCATCTGAAGTATCGCGGCAAGGCCACTGAA +TGAAGCCCAGTTCGCCCATTTTCTCGTAAGTCGCACCGTAGAAATCCGGGCACAGATGACGCAACTCATC +CCAGATCTCCTGGGTGTTGTTGTAGTGCATCGGATAACCCATACGGGTGGCGATTTCACTGATGATTTGC +CAGTCCGTTTTCAGATCCCATTTCGGTTCAACCGCCTTGAAGAAACGCTGGAAGCCACGGTCAGCCGCAG +TAAACACGCCTTCATGCTCGCCCCACGACGTTGACGGTAAAATAACATCCGCCGCCGACGCGGTTTTGGT +CATAAAGATGTCCTGAACGATAACCAGTTCCAGATCTTCAAAGGCTTTACGTACTGCCGACAGCTCCGCG +TCAGTTTGTAGCGGATCTTCGCCCATAATGTACGCGGCACGCACTTCGCCATGCGCTGCGCGGTGCGGCA +GCTCGCTGATGCGATAGCCGGTATGCGCTGGCAGGCTTTCCACGCCCCAGGCTTTGGCGAATTTCTCGCG +GTTAGCCGGATCTTTCACGTACTGGTATCCCGGATACGTATCCGGCAGCGCGCCCATATCGCAGGCACCC +TGAACGTTGTTCTGACCACGAACCGGGTTAACACCCGCATGCGGCTTACCGAGGTTACCGGTCAGCATCG +CGAGGCTGGTCAGAGAACGCACGGTTTCCACGCCCTGGTAGAACTGGGTTACACCCATGCCCCACAGGAT +GGCGGCGCTTTTCGCCTGGGCATACATCCGTGCCGCCTGACGAATCTCACTGGCGCTGACGCCGGTGATA +TCTTCAACCGACTCCGGCGTGTAGCCTTCAACGATTTTACGATACTCTTCAAAGCCTTCTGTACGTGAAG +CGACGAACGCTTTGTCGTACAGATTTTCTTCAATAATGACATGGCCCATCGCATTCAACAGCGCGATGTT +CGAGCCGTTTTTCAGTGCAATGTGCATGTCAGCAATGCGCGCGGTTTCAATTTTGCGCGGATCGCAGACG +ATAATTTTCGCCCCGTTACGTTTAGCGTTAATTACGTGATTCGCCACGATTGGGTGGGAATCCGCCGGGT +TGTACCCGAAAACGAACACTAAATCGGTATTATCAATTTCGTTAATAGCATTGCTCATTGCGCCATTACC +GACCGATTGGTGCAGACCTGCAACCGATGGGCCGTGTCAGACACGAGCGCAGCAGTCAACGTTATTGGTA +CCAATAACGGCGCGCGCAAATTTTTGCATTACATAGTTGGTTTCGTTACCCGTACCACGCGAGGAGCCGG +TCGTCTGGATGGCATCCGGACCGTACTTCTCTTTGATGGCGCTCAGGCGCTCGGCAACGTAATTCAGTGC +CTCATCCCAGGAAACAGGTTCGAGTTTGCCGCCACGCTGGCGACGGATCATGGGGGTTTTCAGGCGCGGG +GTCAGGATCTGGGTATCGTTAATGAAGTCCCAGCCATAATAACCCTTCAGACACAGGGTACCCTGGTTGG +TTTTCCCCTGCGCTGCCTCCGCCCGGACGATTTTGCCGTTATCGACGACCAGGTTGATTTTGCAACCTGA +TGCGCAATAGGGGCAAACCGTGACGACTTTTTTCATCGGTCTCGCTCCAGTTAATCAAATCACGCATACG +CGCTCTCGACTACAGTATGCATCTTTTATGCCACATTTTATGTGGGGTCATTCCCTGATATTACGGGCAC +TATTTATTCAAAACTCTGACGAAAAACAGGCTGTCGTCAGTTTTGACGTGACGAAACGAAATACCGCGTG +ACAGCCATCACGCGGCAGACATTTTATTTTTTCTCGACGACGGGACCTGCCTGATACCCGCCGCCCAGCG +ATTTCATCAACTGAATGCTTTGGATCACCCGGCGGCTGTCCAGCATCAGTAATGACATCTCTTCGGCAAG +CACTGGCAACCGGGCTTCGGTGGCCTGTAAGCGGCTGGTTAAGCCGCGCTGATAGGCGGCCTCGGCAGCG +CGCTGGGTAAAGCGCGTGGCTTCCACGCGTTCAGCCTGCATTTCTCGCTCGTCGTTGAGCGTTTGCAGAC +GCGTGCCGTTGACGGCAACGTCACGCACCGCGTTCAGTACTGACTGGTTGTAACGTTCAATCATCATGTT +GCTGGCGGCGCGCGTGCCTTCGAGATTGGCATTCAACCGTCCACCGTCAAACAGCGGCAATTTCAGACCC +GGGATGAAGTTGAACTGGCGACTGGTTTTTTTGAATAAGGTATGCAGATGGATGGAGTCCAGACCGAAAA +ACGCTTTGATATCAAAGCTCGGATAGAACAACGCCCGCGCGGAATCCACCTGATCTAATGACGCCTGAAC +ATACCAGCGCATGGCTTGCAGATCCGGGCGTCTGGCGAGCAACTCATAAGAGAGTGTCGCCGGAATGCCG +GTCTGGACTTGCGGTAATGCCACCGGTCTGATCTCCGGCATATCGCTGGCTCCCGCGCCAATCAATGCAC +GCAGAGATTCTCGCGTTTCGGTGATTTGCCCTTTGACGGCAACAATTTGTTTATCGACCGCCAGAATCTG +TGCCCGCGCGCCGTGGAAAGGCACTTGCGCTTCCAGACCGTGCGCCACTTTACTCTGGTGCGCTTTCACC +GCGTAATCAATCACATCGTGAGTTTGTTCTAACAGATCGAGCATCTGATAGCTGGCCTGCATACTGTAAT +AAAGCTGCGCTACGCCCGTGGCCAGCGATAGCTCTACTGCTGCGGTTTCTGCCAGCGCGGCATTATGCGC +GCCAATGGCGGCGGCAACCGCTGAGCGATGCACACCCCACAAATCAAGATCCAGTCCGGCAAACAAACCT +ACTGTGGCTTCCGTATAGTACGGCCCGTCCATACCCAGTGCTGGCGCATCCATTGAATAAGGGCTTAAAA +AGCCGTTCGCCGAGACACGTTGGCGGTTGAGCATCCCTAACGCTGCGACCTGTAATTGTGAACCGGCATC +TAACAAATCGGCCTGGGACTGCGCTTTTTCTTCCCGCAGTTTCGCTTCGGCGAGGGTGTGTGAACCACTT +AGCGTCCGTTGGATCAGCGCATCCAGCTGCGGGTCATTGAGTTGTTTCCACCACTGCGCCTGCGGCCAGC +CGGAGCTGGCAAGATGAATATCGTCGGCCAGTTTGATTTGTTCCGGTTTGAGCTGTTGATGAGGTGCAGA +ATCCTTACGTACCAGGGCACAGCCGGAAATCAGCGTCGTGCTGCCGAGAATGCTGCACAACAGCAGACGT +GAAAGTTGACGATTGATCATTGCGTGGCTCCTTGTGCCTGTTCCGTGGCGGGCGTTAATGCCGGGGCTGT +CCAGTCTGGCAAGCGGGCGAAAAGCTGGCAGACGTGTTGCTCCTGTTTTAATAAGGTGGGCAGGATGGCC +TGAGAGGCGGGTGTCTCTTCAAGCGTTATTTGAGGAGAACGGCTGAGTGCGGTTGCCAGACCGGCAGCGT +ATTTCTCCAGGGCGTCGGCAAACTGACCTGCTCTGTCCGGCTGTAGTGCGTTATCCAGCGCCTGCGCCGA +GTTCCAGGTGGCATCCCAGGCGTGAAGAAGATCGCGGCCCTGACGAATAACCGTTTGCGAACGTTCAATC +AGTAATGCGCGTTCTTCGCTGTCCAGTTGACGCTCCAGCGCCACGCGTTGGCACATCTCTTCACAGGCAT +TAAACGCCGCATGCAGACCGATACGAATTTGCAGATAAGTGCGCAGAGCCGTGACTTCCTGCTGGCGTGG +GATCCGCATTACTTTACTTAACATACCCAGCGTGCCAGCCAGTTTTTGCGGCAGTGTGCGCGCTTCACTT +TCAGGCCAGACAAAGGTGTAAATCACCGCGGACACCACGGTACCAATGATGATACCCAGGGCGCGATCGC +GAATTTCCACCAGGTCGTACACTGGGCCAAAAACGTTTTCGAGCGTGGCGAGCGCGAAGGTGACCACCAT +CTGTGTGCCGATATAAGAAGAGCGTTCAGAGCTGGTGGCAATCCATGCGCCCAACAGGAAAATCGGTGCC +AGCACAAACAGCAATTCGACAATATTGTCCAGCCAGGGCATGACCAGTAGCGTGAATAACAGCGCCAGAA +TCGCGCCGCAAAAGGCCCCGCCAAAACGCAGCACCATCTTCTGGTACGACGAACCGACATTTGGGTTAGC +GACGATCACGCATGTCAGCATACAGGTGTGAATGCCTTCCCAGTCCACGCCGCTGTAAAAGGTGTAACAG +ATCAAACAGGCGAGCAGCGTTTTTACCGCGTAGCGCATATAGTCTGGATTGGTAAAAGCATCGGCGGCCA +TTGATGGCGGTTTGGCTGCGGGCGTTGGCGGCGTATTCGGGTCCATCTGACCCAGTTGTAACAACGTCTG +GCAGATATTCTCCAGGTTACATTCCCGTGCCGCCATCGCTTCACTTTCACTGATCCGCCAGTCGCTTTGC +CAGCACTGACCTTCAGCAACGGCATGCTGCAGCTTGTTGATTTCTGAAGCTAATTTTTGTCGGAATTCAA +TAATTGCCTGAGAATCAGCAAAAGAGGTGGGATCGTAGCGATTCAGCGTCGAGTAAATGTAGGTTACCGT +TGCCACGCAGCTTTGCCACCATGCGTTTTGAGTTCGCCAGTTGGCATCGTCCGCGAGGCAAAAGACATTG +AGTTTTTGTAGCGCCAGCGCCTCTCTTTCAATCCGCGTTTCGGGTAGCGGTGCGAGGCTGTCTGTCAGGT +GACTAATGGCATCATCAAGCCGATCATTAAGCGCCTGATGCATTTGCGAAATGGCACGACTGGGAAACCA +CAGCACGCCGATTAACGTCATCAGCAAGGTTGGATAGAGGCCAACAACGATACACCACAGCGTTAAGCGC +ACGACCACTTCCGGATAGTCGAGCATGGCGGGGAAGGTTTGCCCGTAAATAGCGACAATGGCGACGGCGA +AAAAGACCAGCCCCAAGCGATGGGTGCGCATCAAAAACATGCAGCCCATCAGGATCGGTCCGGCGATGAT +CAATCGGATCAACGGTTCGCCGTATGACCATTTGTAGATCAAAAACAGGCTGCCGATCTCCAGCACCGTG +GCAACCACAAACAAGATCGCGACAAATTTGGTGTAAAACGCGTTCGACTGAATACCGTAAAACAGCACTG +CCAGCGATAACGCCACAAAAGGGATCTCAAAGGTCATCGAGATCAGAATCACCAGCAGGCAGCCTACCCA +GAGTTGCACGGTCTGCGGCACGCGACCTGGTCGCCGCTCGCTTAACTCTTCATGAAAGAACGCCAGCAGC +CTGACCACCGGTAATGGCAGGGAGTTGAGCGCGCTCATTATTGCGGCTCAAGATTAGCGACTGCCGAAGC +GCCGATGCGGAACATTTCCGGGTCAGGTTTATCGACCATGATTTTGACCGGAAAACGCTGGGCAACGCGG +ACCCAGTTAATAGAACGAGACACTTTCGGCAGGCCGCCCAGCACCAGGCCGCCGTCATCCGGTAGCACGC +CGTAGCCAATCGAATCCACTTTACCCTCGAAGGTTTTGCCGCTGTCACTCATCAGGCGAATCGTTGCGGG +TGTACCTGAGCGAATATTTTTCAGATCGGTTTCGCGGAAGTTGGCGATCACATACCAGTGACGAGTGTCG +ATTAGGGTAAAAATAGGGCGCATGGCAGAAGCAAATTGCCCGACGGAGGTTTTGAGGGAAATGACCCGGC +CATCAAACGGCGCGCGAACGGTCGCCATTTCCAGATGCAGTTTGGTCAGGGCAATATCCGCTTCGACCGC +CGCACGCTGGGCAACTAATGCATCCACGCCGCTGACGGCGCTGGCGGCTGACTGCGCCTGTAACAATACG +GCATTAAGATCCGCTTCTGCGGCGCGCTGCGCCGTTCTTGCACGGTCAACATCTTCCGCTGAGACAAAAC +CTTCTTTCAGTAATGGCTCGGTGCGGCGTAATGTATCTGTGGCCTGTTTCGCGGCGGCACGGGCTTTTTC +TACCGTGGCATTAACCGAGTCGGCACCAAACTGTTGCGCGTCAACGCTACGCTGGGTGAGCATAATTTGC +TTATCCAGCGCCGCGAGGGAGGCTTCAGCTTTCGCCAGATTGGCTTCGTACGGGCGCGGGTCGATGCGGA +ACAGCAAATCGCCCTGTTTGACTGCCTGGTTGTCGGTGACCGCCAGTTCTACAATGCGGCCGCTGACTTC +CGGTACCACATCAATGGTATCTGCTGACGCGTAAGCGTCATTAGTTGATGGCGCACTGTCTACGCGCCAG +ATAACGAAAACAAGGGCAACCAGCGCCAACGCAACCACTAACAGAGCAGGGAATTTACTGCGAGGAGCTT +TTTTCGGCGTACTTTCCATGAGCGCGTCTCAAATAGATTAGAAAAATGCCAGCCAGAACAGCATGGCGTA +GAGAGCAAAAAGGGCGGTATAAATAATTCCGACAAATGCCAGATTGATATTTGCCCGCTGAATAACTCGC +CTCGTGATGAGCGTCAAAATAAGGCTGGCAATGGCGCAGAAAAACCAGCTGGGATAATAAGCGCCGATCA +CCGGGATTGCCGGAGATAATGAGCATCCCGAAACCATGAAGACGGGAATTATCCAGGCTGTTTTTTTGAG +TTGCATCGCCATGCGAGAGAGAACTGTTGGCATATTAAATACATCCTGTCTGCTGCGAACAATATCTGTA +GTGAATATCAATATCCATTGAAGGCGTCAGTATGGCTATTTTCTTGATGAATAAAAATAGCTTTATTCAG +CCACCGCATTCATAACTTATATATTTTATTTATTAATTGGCTGTATATATTTTTAAAATAAATACTTTTG +GGGGCTTCAGCGCCCCCAAAAGCGAGTGACATTAATTTGGGGTTACGATATTCACCCACAAATCGAAATT +ATCCAGACAGGCGATAATTTCTTCCAGTTTCGCGCCATTGCCAATAATTTTGGCTTTCTTCGCTTTTACC +AGATCCGCCATTTTGGCTTGTCCGGTCAGCACGGCGTGCAGATCTTCACGGCTGATGTAGAAAGAGGCGT +CGGCTTGCGGTTGCAGCGTTTTCCGGTAGTTAAGCACGCTATCGTTCAGCGTCAGGTTGAGGTTATCGCC +GTTGCTCATATTGAAGTTCAGGCTGATATTTTTACCCGCAGCTTTCGCGCTATCGAGGCGAACGGCCATA +AAGTCGAACAGCATTTCGACCGACATCCCGCGAATGGTGTCCGGGGAACCGGTGGTGCCGTGGCTGAACT +TATGCACCCCTTCGCGCAGCTCTTTCGCGCCGGTCAGGTAGAAACCGCGCCATGTGGCGGACTCGGCCTG +ATAGCCCAGCTGTTCAAAGTTATTCGCTTGCAGATTCTTCGCGACCTGGTCACCCGGGTTGGCGGCAATC +ACCTGTTTCAGCAGTTCTGCCGACCAGCGGTAATCACCTTGCTTGTTCGCTTCTTGCGCCAGGTTGATGA +CACGGGCAGAACCGCCCAGCGCCTGCACGTAACGTTTACCCATCTCCACCTGACCATACGGATGCAGGTT +AGCCGGGTTACCGTCGTAATAGCCAAGATAGAAGTTATACACCGCGCGGGCGTTGTGGCTGACAGAACCG +TAATAGCCGCGGCTGGCCCAGTTATTGGCAAGTGCAGGCGGCAGCTTAATCATGTCGCCGATTTCATTCA +TGGTGTAGCCCTGGTTCGCCAGGTGCAGGGTCTGGTCGTGAATGTACTTGATGGTATCGCGGTATTTACC +AATATAATCATTGATATGCTTATTGCCCCAGACCGGCCAGGTGTGCGGCATAAACAGCACTTCCGCGTCG +TTACCCCACATATCCAGCGTTTCGTTCAGATACTCGGTCCACTTGCTGGTGTCGCGGGTTTTCGCGCCGC +GCAGAGTGTAGAAGTTGTGCAGGGTATGCGTGGCGTTCTCGGCGGTACACAGGGCTTTCAGGGCCGGAAT +ATAGAAGTGCATTTCGGCTGGCGCTTCGCTACCTGGGGTCATCAGGAAGTCAAACTCCAGGCCGTCGATA +ATCATCTTCTCGCCAGTTCTGACGATAGTTTTCGTCGGTGCAATAATGCTCGGGTCGCCCGTTGCCAGCG +TCACGCCAAGGCCATTACCCACATTGCCTTGCGCGTTGTGCGGCAGTAACAGACCGTAAGAGTAGAGCGC +ACGGCGGCTCATGATGTTACCCGCCAGCACGTTTTCGCTGATGGCTTCGTCCATAAAGCCTGCAGGGGCA +ATCACCTGAACTTTGCCGGATTTAACATCGGCTTCAGAGATAATGCCTTTCACGCCACCATAGTGGTCGG +TGTGGCTGTGAGTGTAGATAACGGCAACAATCGGTTTTTGCGGACGATGCTGGAAGTAAAGGTCAAGTGC +GGCTTTTGCGGCAGGCGGCGTCACCAGCGGGTCGATAACAATAATGCCTTTCTCGCCCTCAACGAACGTA +ATGTTAGAGATATCCTGGCCGCGCACCTGATACATTTTATCGGTGACTTTGAACAGGCCAGAAATACCGT +TGATTTGCGACTGACGCCACAGGCTGGGGTTTACGGTTTCCGGCGCTGCGGCATTAATATCAAATTTGTA +ATCGTCCGCGCGGTAGTAAACTTTACCGTTCGCATCACGCAGAATACCTTCATCCAGCAGCGGGGCGATA +AATCCACGCTGGGCATCGTCAAAATCCTGACGATCGCTAAACGGTAATGATTTGGCGTAATTCTGATTAA +CCTGTTGGGTATATTGAGTGGCGGCTTTCGCTTCCTCTTTCGCGTTAGCGGTATTTACCATCATGCCGCT +GGCGGCAGTTAACGCAATAACAATCCTGCTCAAACGGAATAACCGAGAGTTATTCATATAAATCTCCATT +TATCATTTATGTCGTAAATATGTAATCCATGCAAAATACGTCATTTAAAGCTGGCGTTATCATAATTGGG +AAATTGCGACTTTAATAAGTGGAAGTGTGAGCGGAACGCGCCATTTTATTAGGCATTTGTGCTGAAGAGG +GAAAATTACAGTAAAACTATCATTGCAGAAAATAATATGAGTCGTTTTATGTGTTTATTATATATATTGT +ACCTGTCGTTGGCACAGCGGGACATTGCGCTACTGTGCCAACGTTTTACTCATGGGGCTTTAGCACAGAA +CTGTGGCAAAAAACGTTGATGCGCCAATATTGCTGCACCCTGAGCGCCATTAAAGTCAGAAGATGAGGCG +GCAATAAAGCGCACGACCTGATGCGGCAGTGGACGGCGCAGGTACTTTTGGGTCATGGCAACGAGAGTCT +CGCGTGGGAAGGCGGGCATATCCATCACGCCACCGCCCAGGATCACCGCATCGGGATCGAACAGATTAAT +GCTGGTGGCAATGGCCCGTGCCGCGTTTTCAAGCAGACTCTGGACGAAAGGGGCGTTTTCCGCATGGACG +AAAAGATCGCGCAATGGGTAATTTCGGGGCTGTTGTTCGTACCAGCGTCTTAGCGCCATTCCAGAGCAAT +TGGTTTCCAGGCACCCAGGATTGCCACACGCGCAGTGTTGGGTCATATCTCCCAGGGGGATATGACCCAG +TTCGCCTGCCACACCGTGTGCACCCGTCCACGGCGCACCGTTCATCCACACTGCGAACCCCATCCCCGTA +CCGAGATAGGCCGCCAGAACCAGTTGTTGCGTAAGGCGGTTTTCTACTACGTCCCAGGAGAGTTGCAGGT +TAACGTCGCGGGAAAACTCAACCGGACAATTCAGCGTATTTTCGAGCTTATCGGCGAGATCATATAAATC +CGCCGCTGTTAACGGCAGGTTAGGCGTAGAAATAATGGTGCGTTTATCTTTACTGACCAGCGCCGGAAAT +CCCATCACCAGACCATGACAGCGAGCGTTAAAGCGCCTGAGTTGCTCGTCAATCATTTCGCCGATACCCG +ACACCAGGCCGGGAGCAATGACTTCTGCGGTCCGCTTTTTTTCGCAGTGTAGCGTTTCACCTTCTGCTGT +CCGCAGACAAAAGCGGATATGCGTTGCCCCCATATCCACGCCCGCTACGACGTTATGCTGTTTTTGCATG +AGGCTGTACCTCGCTTTTTGCAGCCAGAATCTGCGCGGTCATAATTCTCCATGCTTCGTCGATATTTTCC +GCATGATTAAACAGGCCGGAAGTGCCGACGATAAAGACATCCGCCCCTGCCGCCATCAGTTTTTCGTAAG +TTGCCTGGTTGCAGGAACCGTCCACCTCAATTTCGTACTCCAGACCTTCTCGTTCACGCCATGCCTTCAG +TTCGGCAAGTTTATCCAGCATTTCAGGAATGAACGGTTGTCCGGCAAAGCCGGGATCGACAGTCATGACC +GTAATTTTATCGGCCTTATGGATATAGTATTTCATGGCCTCAACTGGCGTCTCCGGGTTAAGGATCAGCC +CCACTTTCATGTCATGACGGCGGATTTCATCAATCAGGCGGAACGCCTGGCCGTTGATGGTTTCCGGATG +CAGAGTGATGAAATCTGCTCCCGCACGCGCCAGTTGAGCAATGTAATCCTGCGGCCGCGTCACCATCAGA +TGACAGTCGAGCGGTTTAGTTGCCAGTTTTTTAACCTGACTTACGAAGAACGGTGAGAGTGTCAGATTGG +GGACAAAGTGACCGTCCATGATATCGATGTGGAAGTAATCGGCATGGCTGTCGATAAATTCGATCTGTTC +TTTAAATTTCAGCAGATCCATACACATTAACGAGGGGGAGATTTTCATGTTCAATTCCTTACTTACTGAT +AAGACGGTCAAGGGCGACAGCCGCGATAATTAATCCGCCCATCACCACCAGTTGGTAATAGGTTTGTACC +TGCAAAATATTCAGACCGTTGTTGATGGTGCCGATGATCAACCCGCCAATCACCACAGAGAAAATGCGCC +CCTTGCCGCCGAAGAAACTGGTGCCGCCAATGATGGCGCTGGCAATGGCATAGGTTTCAAAACCCATACC +GGCAAGCGGTTCTGCGGCACCGAGTCGTGCAGTTGAGACGACGCCTGCCAGACCTGCACAAACACCGGAG +ATGATAAACACCACCAGGATGTGGAATTTCACGTCAATCCCGGAATAGAACGCCGAATTTTTGTTGCCGC +CCAGTGCGTAGATGTTGCGCCCGAGCCGCATACGCGTTGTCAGAAACCAAAGGATGAGCGCGACAATTAG +TGAGAAGATAACGGGGACAGGTATCCCAATTACGCTGGCGGCAAAGAAGTTCACGAAGTCAAATGAGAAG +CCGTATACCGAGTTGGCATCGGAGATCACCAGCGTGATCCCACGGAAAATCGCGTTGGTGCCAAGGGTGA +TGATGAACGGGTGTAGCCCCGTCCAGTTGACCAGGCAGCCGTTGATCGCCCCCAGTGCGCCGCCAACCAG +TACACCGCCAATCATCGCTGCGAGAAACGGGTCAACACCTGCCAACATCAGTTTGGCGGTCACCATACCG +GAAAGCGCCAGAATCGCGCCAACCGAGAGGTCGATACCAGCGACCAGGATAGCGAAAAACTCGCCCATGC +CGATCAATACCGTCACGGAGCTTTGAACAAAAATCTGGGTAATATTATTGGTGGTCAGAAAATATTCTGG +TGACAGCGAACCAAAGATGGCGACGATGATCGCCAGGATAAAAAAGGTGCCGTATTTATCCCAGAACAGC +GCAAAGTTGAACGGTTTCTTCTCGCTCGCTTCGCTTTTTACTCTTGTGGTAAAGCCCATGCCATAATCTC +CTCTTCGCTCATGTCATCGCGATTCGTCAGGATTTGCGTCAGTCGTCCTTCGCAGAACACGGCGATGCGG +TCGCAGACGGTGATAATTTCAGGTAGTTCAGATGACACCATCAGGATGACTTTTCCGTCGTCCGCCAGTT +GGCGCATCACTTTGTAAATTTCGGCTTTCGCGCCAACGTCGATGCCGCGGGTAGGTTCATCGAAAATAAT +CACTTCCGGGCAACAGCACAGCCATTTGGAGATCAGGACTTTCTGCTGATTTCCCCCGGAGAGTTCGGTG +ATATTCTGGTTTACCGAATGACATTTCAGCGCCAGCAGTTCGCGTTGATTTTCAGCGGTACGTTGCTCGT +CAACTTCATGAAACAAGCCCATCGCGCCTTTATAGCCGCCGTCTTTCAGACTGCGGCTGATCGCCATGTT +CTGAGCGATGGAAAAGTTGGGGAAAAAACCGTTATCCCGGCGGCTTTCAGTGATGTAAGCCATCCCTTTT +TTCACGGCATCCAGGGGTGAACGTGGAGAGATATCTTTGCCATTAAGACGGATTTCTCCGCCAGCGCGTT +TATCCACGCCAAACAGACAATTCATCAGTTCAGTACGTCCGGAACCGACCAGTCCGGCAAAGCCTAATAT +TTCTCCCCGGCAGACGCTAAATGAGATATCCCGGACCTTTTTTCTGTCACGACTGGTGACGTTCCGCACC +TCAAAAACCGTTTCGTGCGCAAGGTTGCTGACATTCTCCTTCATCGCGTTAAAACGGTTTTGCAGTTCGC +GGCCTACCATCAGACGGACGATATCGTCATTTGACACATCGCTTACTATGCCGCTGCAAACGCTGCTGCC +GTCTTTCATCACCGTATAGCGGTCGCAAATACGGCGAATTTCCGCCAACTTATGCGAGATATAGACGATG +GCCGTACCCTCTTTACGCAACTGATTCATGATCAGAAACAGATAGTCCACCTCTTTATTGGTGAGTGAGG +AGGTGGGTTCATCCATGATGATGACTTTGGCATCGAGCATCAGCGTTTTGGCAATTTCTAGCATCTGCTT +GTGGCTGATAGATAAATTCGCCACTTTCTCATCTAGATCAACTTTCAAGCCCACGCGTAATAACATCATG +GCGGCGCGGACACGCATTTCTCGCCAGTCGATAATATTGACGCCACAGATTTTTTTCGTCAGATGACGAC +CAATATATAAATTTTCCAGTACGGTTAATTCATCAATAACGCTGAGTTCCTGATAAATAATCCCGATACC +GAGTTGTGCCGCTAATTTATGATCCAGCTTGTTATAGCTAATGTTATTAATGGTAATGGTGCCTTTGGTC +GGCTCATGTATTCCGGATAAAACTTTCATTAGCGTGGATTTACCCGCGCCATTTTCTCCTAGTAATGCAT +GTATTTCACCAGGATAAACCGTTAAATTAACCGACTTTAATGCGTGAACCGGACCAAAGGACTTGCCGAT +CCCCGCCATCGATATATATGGCGTGGCCATAAATAACCTCTCTGCACGAAATATCGTATTATTGCCTGAT +GGCTACATTTATCAGGTCTACGTTCAGGTTATTTTGTTGGCCGGATAAGACACTTCATTAGCATCATCAT +CCGGCATCATTCAGTTTTATTGAGTGACCAGGATTGAATCGACCAGTTTAAATTCCGGTGCTTTATCCAG +CGGGATAACCTTGCCGGATTTCTCAGCGTCAACCATCAGCTTCAGACCCGTTGCGCCGATATCCGCCGGG +TTCTGGGCAACCGTCGCGGTCATTTGTCCGGCTTCCACCATTTTGCGGGCTTCCGGAATGCCATCTGTAC +CGACGACCAGCACTTTTCCCGTTTTTCCGGCGTTTGCGACTGCCTGAGCAACACCCATTGCCATCGTGTC +ATTCGCGCAATAGATCGCTTTAATATTCGGATTACGTTGCAACACGTTAGTGGCGACATCCAGTGCTTTA +ATGCGGTCCCAGTCGGCAGGCTGGCTGGCGACAAGCTTGATCTGGCTTGCTTTTTTGAAGGCTTCGGTGG +CACCATTACGACGCGCTTCACCGGAGGCGTTACCGGCTTTACCCTCAATGATTGCGACTTCACCACCTTC +AGCGCCCAATTTGTCAATAATGAACGACGCGCCTTTCGCCCCGACAGCAACGTTATCGGTGGTGACAAAA +GCTTCCACATTGCCGCCAGCTTTTTTCAGATTATCCATGTCGATTTTTTCATCGAGATTAACCAGATAAA +TGCCTTTTTTCCATGCGCGGGCGACAGGCATGACCAGATTCACTGAGGATAATGGAGCGAAGGCGATACC +TTTGTAATTTTTATTACTGAGATCTTCAAATAACTGCAATTGAGATTGAAAATCGCCTTCTGAAGGAGAG +GCAAAAATATCAACGCTGACGCCCAGTGTTTTTGCTTCATCTTCAATGCCTTTTTTCATATCTACCCAAA +ATGGGTTGGAGAGGGTTTTCAATACGACAGCATATTCGGCGGCAGCAAAAGCGCTGGTTGACAACATTAA +GCCCACGAGTGTGCCGCTGAAATATTTCAGATATTTATTCATAATAATGTTCTCACGGTAAGGGGACAGG +TAACTCCGCGATGGCGGAATTACCTTTTTCTTATTTCAGCGCGCCTGGTGAGAAGAAATCAACAATTGCG +CCGGTTTTTTGCATATTAATATTAGCTTGTTCAATGTTGAGCTGGGCGACAGAGACAAAAAAAGCGTCCA +GCAAAGTTAGTTGTAATATTCTTGCCGAGGCATTACGACCTAATAACGGCGTTTCCGGGGCTGGTGAGCA +AATAATATAATCGGCCAGTTTCGCTATCGGTGAATGGTAGCTATGGGTTATACAAATAATCTTTGCCCCG +TTCTTTTTTGCCAGTTCTACGGCCGCTTTTACATCACTGGTTCGCCCGGAATGGGTCACTACCAGCACAA +CATCTCCTTCCTGTAACAACGAAGCGGACATCATCATGATGTGAGCATCAGGATAGGCCTGACAGCGTAC +GCCAATGCGCAAGAACTTGTGCTGTACATCAGCACAGATAGCATTTGATCCTCCGGCACCGTACAAATCC +CGCTGTCTGGCCTGATAGAAAAAGCGGGCGGCACGGTGGATCTCATCAACGTTGACGATCGACTGACCTT +CCATAATGGTGCGTAAAGTGATGTTAAATACCTTATTCACCACATCCTGCGGCGCTTCATCAAAAGCCAA +CTCGGAAGGCAATACCTGTTCTGACTGAGAAAAATAATCTTCCAGCGCACTGCGTAAGTTACGAAAGCCG +CTAAACCCCAGCAGCTTTGATACCTTAACTATCATCGCTTCAGATACCGCCAGAGCTTCTGCGACATCTT +TAATTGCGGGTGCACAACTCAGGTTACCGGGTTTGAGTAACCACTCCACGATGCGGCTTTCATTTTCTGT +CATTCCTTCCTGCTTCATTCGCAGGTAAGGCGCTAACCCTATACCGTTCGGAAGCGCTGAATCAAACTCT +GACTGGCTCATCACGTTCTCTTGTCCTTGAATTGAAGACGCCACTATATCACCACAGCAAGAACAGAAAA +GATGCTGGCGACTTCACAAAAAAATAAAATTTATAAAGTTTATTTTATTGTGAACAATGGCGAGTGGCTT +AAAATTTTATTTCATTTAATTAGTTTAAAAACATGATGTTATTTGTTTTTCTGGTTTTTTAGATGATAGA +TGTTGCTGGATGGTGAGTGTCTTTAACGCTATTGCGCTGTCAGATGTAACTCTGTAAAACAGATCAGGAA +GGCGTAATTCATCGATTTTGGGTGTTTTTAATTCATTAACATCACAAATGTTTTTTGATTGTGAAGTTTT +GCACGGACGGGGAAGATGAATGAAAAAGATTGCATTTGGCTGTGATCATGTCGGTTTCATTTTAAAACAT +GAAATAGTGGCACATTTAGTTGAGCGTGGCGTTGAAGTGATTGATAAAGGAACCTGGTCGTCAGAGCGTA +CTGATTATCCACATTACGCCAGTCAAGTCGCACTGGCTGTTGCTGGCGGAGAGGTTGATGGCGGGATTTT +GATTTGTGGTACTGGCGTCGGTATTTCGATAGCGGCGAACAAGTTTGCCGGAATTCGCGCGGTCGTCTGT +AGCGAACCTTATTCCGCGCAACTTTCGCGGCAGCATAACGACACCAACGTGCTGGCTTTTGGTTCACGAG +TGGTTGGCCTCGAACTGGCAAAAATGATTGTGGATGCGTGGCTGGGCGCACAGTACGAAGGCGGTCGTCA +TCAACAACGCGTGGAGGCGATTACGGCAATAGAGCAGCGGAGAAATTGAGATTCATCCACTACTTGCATG +GATGAGTAATGATTAATGTGGATAGAGTTTCTTTTTGAGGTTGGCTAATGAAACGCTTTCCGCTATTTCT +TTTATTCACCCTGCTCACGCTGTCCACCGTTCCGGCCCAGGCCGATATTATCGACGACACCATTGGCAAT +ATTCAGCAGGCGATTAATGACGCTTATAACCCTGACCGTGGGCGAGACTATGAAGATTCGCGCGACGACG +GCTGGCAGCGTGAAGTGAGCGACGATCGGCGCAGACAATATGACGACCGCCGCCGCCAGTTTGAAGATCG +CCGCAGGCAGCTGGACGATCGCCAGCGCCAGCTTGATCAGGAGCGTCGGCAACTGGAGGATGAAGAGCGG +AGAATGGAAGATGAGTATGGGCGATGAGGTTGGGTATGGAGCAGGCATCGCCCCTCACCCCAATGGGGAG +AGGGAGAAAACGAGCGCAATATTCAATATCGAGCACAATCGGTCCCCTCGCCCCTCTGGGGAGAGGGTTA +GGGTGAGGGGGCCAGCGCGCACATTCCCTCTCATCACGCCACCCCAATCTCCATCCCATCAAACCCCACC +TCAAACCCTGACGGTAGTGCGTTTTCCATCAGCCACGCATCAAACTGGTGGCTGATATGGGTCAGAATCA +CCCGTGGCGAGCGGATAACCTGATTCAGCGCAAGCACGGTATTTAAATCACAGTGATTACGCGGTGCATC +CGCGCGCGGCGGGTGACTGCAATCCATCACCATTACCTGCGGCTGATTATTGCGTAAAAATTTCAGCGTT +TTTTCCGGCAAGCCTGCGGTGTCAGACAGCCACGCCACCCGGCTGTGTGCCGTTTCCAGCAGATAACCGA +AGGTCAGTTTTGAGTGGTTGAGCGGCAGGGGCGTGACCTGTAACCCCTGCAAATCAAACACCACAAACGG +TTCCACCGTGTGGCTGAAATCAAGCAGGCCCGGATGTTTAAACAGATCGTCGCAGCCCTGTTCATCCGGC +GGGCCGTAAACCGGGATCGGATCGCCAACGCCCCAGCGCAGCGGAAACAGCCCCTGGACGTGATCCATAT +GATAATGCGTCAGCAAAAACTGCTGGAACGATCCGGGCGACCAGCGATCGGCGAGATCGTGCAGCCCGGC +GTCGATCAGGGTGATTGCGTCGTTAAACTTCACTACGCCGCTGCACGGTTGGCGGCGATACTGCGGCGAG +CGCCGCGCTCTGGCGCAGGCCGCACACTCGCAGCCCCATGCCGGAACGCCCTGTGCGCCGCCGGTGCCGG +TGAGCGTGAGGGTCAGGCTCATGTTACAGCGCCTTGGTGAAGCGGAAGTGGCTCTGCTCGTAGCCTTCGC +GCAGATAGAAACGGTGCGCGTCGTGGCGCTTCACGTTGGTCGAAAGTTCGGTCATTTCGGCCCCGGCCTG +GCGGGCTTCTTCTTCTGCCCACGCCAGTAACTTACTGCCGACGTTCAGACCGCGCGCCTGCGGCATTACC +ACCAACTCCTGAATTTCGCCGATCCAGTTGACATGATGCAGATGAAACTGCAAATGCAGGCCGATCATGC +CGACAACTTCGCCATCAAGCAGCGCCAGATGGTAGCGCATGTTTGGGTCGCGCAGATTGGCGTTAAAACC +CACGCGAAACGCGTGGTGGTCAAACTCCGCCTGTTTTAGCTCACAAATCAGCGCGTAAACCGCGTCGGTG +TCGTACTGCGTGGCCGGGCGAAGCTCACAAGCAGGCATGGTGTTTCTCCTTCTGATGGATCAGCGTCAGC +AGCGTGTCGACCGACTGGCGCAGGCTGCCGTCATTGTTGAGCGTATGGCAATCCTGTGGAGTATAGCGGG +CGGCGCGCGCCAGGCGGGCGTTAATTTCACTGGCGTTTTCACGGCCACGGTTTTCCAGGCGCTGGCGGAG +GATCTCCGGCGAAACCTGTAAACAGACGGGCAGCAGCGCCGATTGATAGCGCGCCCGCGCCTGCGGCAGA +TGGGCGCGTGAGCCGTTGACCAGCACGTCGAATCCGGCGTGCAGCCAGAGATCAATCTCGACGCCGACGC +CATAATACAGACCGTTAGCGTGCCAGCTTAAGGCCAACAGATTTTGCCCCGCGCGGGTAAAAAACTCCTG +CTCGCTCAGGGCGATATGGTTTTCACTTCCGGCGCTGGCATCGCGCGTGATGTAGCGATGCGCCACCAGT +AACTGAGTTTGTTCCCGCAGGCGGAGTTCCGCCAGCAGGCTGTCTTTCCCGGAGCCGGACGGCCCCATTA +ACCAAATCAGTTTTCCCATCATCAGAACACCCTTTTACCCTGACGCCAGACGTGGTCGATATGAATATGA +TTGTCCTTGCGATGCGCCAGCACCAGGTCGGCGCGTTTGCCCTCGCCAATCACCCCGCGATCCTGGAGAT +TAAGCGCCTGCGCTGGATTTTTAGTCACCAGCTTCACCGCCTGCGGCAGCGTAAAGCGGTTGCTCTGGTC +ATCGGCGACGCGAAATGCCGCATCGAGCAGGCTGGCGGGGTAGTAGTCGGAAGAGAGGATATCCAGCAGG +CCAAGCTGCGCCAGTTCACTGGCCGCCACGTTGCCGGAGTGCGAGCCGCCGCGCACAATATTCGGCGCGC +CCATCAGCACGTTCATGCCATGCTTGCGCGAGGCTTCCGCCGCTTCGAACGTGGTGGGAAATTCGGCGAT +CACGCTGCCAAGCTGGTGAGATTCAGCAACGTGGGCGTGGGTGGCGTCATCGTGGCTGGCAAGCGCAATT +TTTCGCGCGCGGCACAGGGCGGCGATGGATTCGCGATTCGGCTGCGACCAGCGTGCGGCGAGCGCCAGTT +GCTCTTCTTCGTACTGCTGCATCTGCGCATCAGTGAGGGAGTATTTGCCCTGATAATATTCGCGATACTT +CTCGCGGTTGGCGAACTGGCGCTGGCCCGGCGAGTGGTCCATCAGCGACACCAGCGTCACCGGCTCGCGC +TGCACCAGTTTTTCAAACAGCGGCAGCGTGGTGTGATGCGGCAGTTCGCAGCGCAGATGCAGACGGTGCT +CGGCGCGGTTGACGCCGCGTTTCTGCGTCTCTTCGATGGCGTTGATCATCTTCTCCAGATTCTCCAGCCG +ATCGCCGCCGTCGCGCACGTCGCCAATTGCCACGGCATCCAGTACGGTGGTGATGCCGCTCGCCACCATC +AGCGCGTCGTGGCTGCTCATCGCCGAGTGGGCAGGCCAGTCAACTTTCGGGCGCGGGGTGAAGAATTTAT +CCAGATTATCGGTATGCAGCTCAATCAGCCCCGGCAGCAGCCAGCCGCCTTCGCCGTCCATCGCCTCCGG +CAGGCGGCTCTGGCTTTCGGCAAAGGCGCGGATTTCGCCGTTCTGCACCTCCAGCGAACCGCTTACCACC +TCGTTTTCCAGCACCAGCTTAACGTTATTGATAATCATGAAGAGGCTCCCATTGGGTGCAGGCGGTCGGC +GACGTCATTACGTACAGCTTCGTCATGGAAGATGCCTACGATGGCTGCGCCACGGGTTTTGGCTTCGCGA +ATCAGTTCCACCACCGCGGCGCTGTTTTTGGCGTCCAGCGAGGCGGTAGGTTCGTCAAGCAGCAGAATGG +GGTAGTCGACGATAAAGCCGCGGGCGATGTTGACGCGCTGCTGTTCGCCACCGGAAAATGTCGATGGTGC +CAGGTGCCACAGGCGTTCCGGCACGTTCAGGCGGGTGAGAAGACGCGCGGCTTTAGCGGCGCAGGCTTCA +CGCGGAACGCCGGTATCGAGCAGCGGCTGCATCACCACTTCCAGTGCTGAGATACGCGGGATGACGCGCA +GAAACTGGCTCACCCAGCCGACGGTGGTTTTGCGGATTTCCACCACTTTGCGCGCTGGCGCGGTGACCAG +GTCTACCCACTCGTCACCGTGTTTGATCTGGATTTGACCTTCGTCGGGCAGATAGTTGGCGTACAGCGAG +CGTAGCAGAGTTGATTTGCCGCTGCCGGAATGGCCGTGGAGCACCACGCATTCGCCCGCGTTGACGGTGA +GCGAGGCGCGATTGAGGACGGGCAGGCGCACGCCGTTTTGCTGGTGCAGGATGAAGGTTTTACTGACGTT +TTGTACGTTAATCATTTTTCGCCTCGTGGTTCGGGTGTCGGATGCGACGCTGACGCGTCTTATCCGACCT +ACGGGGAGCGCATTTGTAGGCCGGATAAGGCGTTTACGCCGCATCCGGCACCGGCTCAATTCTGCAAAAC +CGATGACACCAGCAGCTGTGTATACGGATGATGCGGGTCGTCGAGCACGCGGTCGGTTAACCCACTCTCC +ACCACTTGCCCCTGCTTCATCACCAGCAAACGGTCCGCCAGCAGGCGGGCGACGCCTAAATCATGGGTGA +CAATCACCACCGCGAGGTTCAGCTCCACCACCAGGCCGCGCAGCAGGTCGAGCAGGCGGGCCTGCACCGA +CACATCCAGCCCGCCGGTCGGTTCATCCATAAACACCAGCTTCGGATGCGTCACCAGGTTGCGGGCAATC +TGCAAACGCTGCTGCATACCGCCGGAAAAGGTGGTCGGCAGGTCGTCGATCCGGTTGGCGGGAATCTCCA +CCTCTTCCAGCCACTTCTGCGCGGTGGCACGAATATCGCCGTAATGACGTGCCCCGGTCGCCATCAGCCG +CTCGCCGATATTGCCGCCTGCCGACACCTGGCGGCGCAGGCCGTCGAGTGGATGCTGATGCACCACGCCC +CATTCGGTACGCAGCAGGCGACGGCGGTCGGCCTCGCTCATTGCATACAGCGAACGGTTCTCGTAGTGAA +TTTCCCCCTGCTGCGGCGTCAGGCGCGCGGAGATCGACTTCAGCAGCGTGGTCTTCCCGGAGCCGGATTC +CCCGACAATGCCCAGCACTTCCCCCGGCCATAAATCAAAAGAGACATCGCTAAAGCCTTTGCCCGGCGCG +TAAAGGTGGGTCAGGTTATTGACCGAAAGTAACGGTTGATTCATTGGTTTTTTGCCTCGCTCTGTTGGCG +GCAATAATCGGTATCGGAGCAGACAAACATGCGGTTTCCGGCGTCATCCAGCACCACTTCATCAAGATAG +CTGTGGGTCGATCCGCAGATGGCGCATGGCTCATCCCACTGCTGAACGGTGAACGGGTGATCGTCGAAAT +CGAGACTTTCCACGCGGGTAAACGGCGGCACCGCATAGATGCGCTTCTCGCGCCCCGCGCCGAACAGTTG +CAGGGCGGGCATCATGTCCATTTTTGGGTTATCGAATTTCGGGATCGGCGACGGGTCCATCACGTAGCGC +CCATTTACCTTCACCGGATAGGCGTAGGTGGTGGCGATATGACCGAAGCGGGCGATATCTTCATACAGTT +TCACCTGCATCACGCCGTACTCTTCCAGCGCGTGCATGGTGCGGGTTTCCGTTTCGCGCGGCTCGATAAA +GCGCAGCGGCTCGGGGATTGGCACCTGGAAGATAATTATCTGATCTTCGGTCAGCGGCGTTTCGGGGATG +CGGTGACGCGTCTGGATAACCGTCGCATCGTCCGTACGTTCCGTGGTGTTTACCCCGGTCACGCGCTTGA +AGAAGTTGCGAATCGACACGGCGTTGGTGGTGTCATCCGCGCCCTGGTCAATCACCTTCAGCACGTCGCT +TTCGCCAATCACGCTGGCGGTAAGCTGAATGCCGCCGGTTCCCCAGCCGTACGGCATCGGCATCTCGCGC +CCGCCAAACGGCACCTGATAACCGGGGATCGCCACCGCTTTTAAGATGGCGCGGCGGATCATGCGTTTGG +TCTGCTCGTCGAGGTAGGCAAAGTTGTAGCCGCTCAGATTAGCCATGGTTCTGCTCCTGTTGCAGACGTT +TGAGTAGCTCCAGTTCGGCCTGGAAATCGACGTAGTGGGGGAGTTTGAGGTGTGAGACAAAGCCTGCGGC +TTCGACGTTGTCGGCATGTGCCAGCACGAACTCTTCATCCTGCGCCGGGCCTGTCGCGTGCTCGCCGTAC +TCCGGGGCTTGCAGAGCGCGGTCGACCAGCGCCATCGCCATCGCTTTGCGCTCGCTCATGCCGAACACCA +GCCCGTAGCCGCGCGTGAAGTGCGGCGGCTCACCCGGCGGGTCGATAAAACCGTTAACCATTTCACACTC +AGTCATCAGCAGTTCGCCGACGTTCACCGCAAATCCCAGCTCTTCCGGCACAATCGACACGTCGATATAG +CCGCTGCGGATCTCGCCTGCGAACGGGTGATTGCGCCCGTAACCGCGTTGGGTGGAGTAGGCCAGCGCCA +GCAAATAGCCTTCGTCGCCGCGCATCAACTGCTGCAAACGGGAGGAGCGTGAGCAGGGGTAAACCGGCGG +CGTGCGGGTGATGTCATCCGGCTGTGCGCCGCTATCCTCTTCAAACTTCGCCAGCCCCTGACGCGCCAGC +AGGCTGAAAACGTGCGGCGACGGCTGCTGTTCGCTGTCGGCGGTGGTCAGCGTCGGCGCTTCGCCGTTTG +CCAGCAGGGTAAAATCGAGCAGGCGATGGGTGTAGTCGTAGGTTGGGCCAAGCAGCTGGCCGCCGGGAAT +GTCTTTATAAACGGCGGAGATACGGCGTTCGAGACGCATCCCGGTGGTGTCGAGCGGCTCGCTTACCGCC +AGCTTCGCCAACGTGGTGCGGTAGGCGCGCAGCAGGAAAATCGCTTCAACGTTATCGCCGCTGGCCTGTT +TCAGCGCCAGCGCCGCCAGTTCGCGGTCGGCAATGCCGCCTTCGGTCATCACGCGATCTACCGCGAGGTT +AAGCTGCTGTTCAATCTGGGCGACGCTCAGTTCGGGCAAATCGGTATCGCCTCGGCGTCGGCTCTCTTGC +AGGGCGTGGGCGGCGTCGATCGCCTTCTCGCCCCCTTTCACGGCAACGTACATCAGCACACCTCCACATG +AGTGGTTCGCGGAATAGCCAGCAGGCGCTCGCCACAGGTCAGGATCAGGTCGATGCCGAGCGGGAACGGA +TGCGGGCGCTCGGTGAGTTCGTGCAGAATGCACTCCGGCAGCTGCGGAGCGATCATTCGTTCTTCGGCAA +TACCCGCACCAGTAAGGCGCAACATGCGTCCGCCGCTCAGGCTGGCGACCTGTAAAATCAGCGTCGCACC +CGCTTCCGGCGCAACGGCGGTGCCGGTGGAAAGGGCGTTGAGCTGTTCGCTGGAAATCGCCTCATCCGTC +ACCGCGAAGGTCGCCTGTTCCGGCTGGCTGACCAGCGGCGCGTTGGTATGAAAACGCAGGCTCTGGTTGA +CGATATCGTTATTTAATGGGGTAGAAAGCCACACCGGCGTGTCGTTATCGGCCAGCGTCAGCAGCACGCT +GGTGGTGGCGATATTCAGCGGTTGCCAGCCGCGTTTGAGCTGATGCAGGGCGACAATCACGCCCGGCTCG +CTCATGGCCTTTAACAGGCGACGAAAACTGTGCTGGGCATCCTGCACGGGAAGCATAAAAGCGGTTTCCA +GGGTCATGCGTTGTCTCCGCGAACCATCGTAAAGAAGTCGACCCGGCTGGCGTTCACTTCGGCCTGGCGT +GCGGCAATGCGTGCCATACGGTCAGCGTCCAGCGGGGCAATAAGGGTTTCTGATAAGTTTTGAAAGTGGC +GAGATTGCTGCATCAGCGCGTCAATCAGCGCGCAGCGTTCGGCGTGCTGTTTATCACGCCCCTGCACCCA +GCTGTAGCCGAGCGTGCCGTCAGTCAGGCGCACGGCGGCGCGGGTCAGCGTGGCGTCGCCGGCAAAAAAA +CGTTCGCCGGTGCCGCCCATCCGCGCCTGAATCTGTACCAGGCCAGTTTCAGCGGCGCGGATCACCTCAT +AGTCGGCGGTGATGTTTAGCGCGTTCAGGCGTGCTGCCAGTTCAGCCGGTTGGCTGTGCGCCAGCACGGA +CATCCAGTGCTGGCGGGTCGCGGTATCTGCGTGCATTCAGTGCTCCATAGTGAATTCAATCATGTCGGCG +CGCGTCAGGCTGACGGAGTACTCCGCCGGGCTGCTTTCACCGTCACGGTGGTTAAGGGTGCGCACGCACA +GCAGCGGCGACATATTCGGGATTTCAAGACGCTGGCACTCTTTGGCCTGGGCGCGGCGGGCGCTGATCCG +CGTCTGGCTGCGGCGCAGCGCAATTCCGGTTTGCTCGCGCAGAAAATCGTGCAGCGAGCCGCTGTCGAAG +CGTTGCAGCGTCGGCCAGAGGGTGAGGTCCGCGAAGTAGTGGTCGATTAAACAGAGCGCGACGCCGTTGA +CACGACGCAGGGTGCGCAGGTGGATGACGTTCTCCCCCTCGGTAATCCCCAGTGCGTCAGCGACGTGGCC +GGACGCGGGGCGCAATACCGAAAGCAGTTTTTCGCTGGTGGGATGGCTGCCCTGATCCAGCAGATTCTGG +CTAAAACGCGCCTGGGCGTTGAGCGGGTAATCGAACGGGCGCATCAGCACCAGCACGCCGACGCCCTGAC +GGCGCTGTACCCAGCCTTTTTCCACCAGTTGGTCGATGGCGCGGCGCAGGGTGTGGCGATTCACCTCAAA +GCGCGCTGCCAGTTGCTGCTCGGCGGGAAGATAGTCGCCGCAGCGGTAGTGTTGACGAAGCTCCTGCTCA +AGTTTTGCGGCTATCTCTTGATAGCGTGTTGGGTAGCTGGTCGGATGTGTAGACAAGTGCATAGATATCA +ATGCCTCGCTTATCAGATAAAGTGCTTACGCAACCGTTGAGAGAGGAAATCCAGCAGGCTGACCGTGACG +ATGATAAGCACCATCAGGGCGCAGGTTTGTTGGAACTGGAAACCGCGAATCGCTTCCCACAGGGTGACGC +CGATCCCGCCTGCGCCGACCATGCCGACGACGGTCGCCGAGCGGACGTTGGATTCGAAGCGATAGAGGGA +GTAGGAGATCAGCAGTGGCATCACCTGTGGCAGCACGCCGTAGAGGATCTCTTCGAGCTTGTTGGCACCG +GTGGCGCGAATGCCTTCCACCGGGCCGGGCTCAATCGCTTCCACCGCTTCGGAAAGCAGCTTGGAGAGCA +CGCCGGTGGTGTGGATAAACAGCGCCAGCACGCCAGCACGCCAGCGAACGGGCCGAGGCCGACGGCGACC +ACGAACAGCATGGCGAAGACCATTTCGTTAATGGCGCGGCAGGCGTCCATCAGGCGGCGAACGGGCTGGT +AAACCCACCACGGCACCAGGTTTTCGGCGCTCATCAGGCCAAAGGGGATGGAGAGAACCACCGCCAGCGC +GGTGCCCCAGACGGCGATTTGCAGCGTGACGGCCATTTCGGTGAGGTAATCCTGCCACTGGCTGAAATCG +GGCGGGAAGAAGTCGGCGGCGAACGTCGCCATGTTGCCGCCGTCTTTGATCAGCGTAAGCGGGGCCATTT +CCGCGCCCTGCCACGAGACGACCAACACGGCGAGTACAACGGCCCAGCTCAGAAGCGAGAACCAGCTGCG +CTTGGGTGGGGCGATGGTGATGGTTTGCATGTTTGGCTCCGGTCTGTAGGCCGGATAAGGTGCTTGCACC +GCATCCGGCATCAACGCCTGCACATTGTCGGATGCGACGCCGGGGCGTCTTATCCGACCTACGATTTACT +GCACCGCTTTACTCACCGAACTCATCGCGCTTAGCGCGTTGTTCAGGCGGTCCAGGTCATCCAGCTGCGC +CTGAATCTCGGTGGTTTTTGCCAGCTTGTCCTGCTCATTCAGTCCTTTATTGCTTTTCACGCCCTGCATC +TCTTTAAACAGCGCGAGCTGGCGAATCGGCACCAGTTGCAGGTCGCTGGAAGCGCGGAATGGCGCCCAGC +CCAGGCGTTCCAGCACCGCTTTTTCTTCCGGCGTTTTGCCGTAGTTCATAAAGAAGTCGTAGATCTTGTC +TTTGGTGGTTTCGGAAAGATTCTTGCGCCAGACGATCGGATCGCCTGGGATCAGCGGCGACTTCCAGATC +ACCTTCAGTTCTTTCAGCTTCTCTGGCGCGGAGGTTTTCAGCTTGTCGAGGTTTTCGGTGTTGTTGGTGG +CAACATCCACCTGCTTGTTGGCGACGGCCAGCGCGTTGGTTTCATGCCCGGCGTTGACGGTGCGCTTGAA +GTCGCTGGCGGAGATATTGTTTTTGGCGAAGACGTAGTAGCCGGGGACGAGGAAGCCAGAGGTGGAGTTA +GGATCGCCATTGCCAAAGGTGAGATCTTTCCGCTTCGCCAGCAGATCGTTCAGGTTGTTGATCGGACTGT +CTTTGTTGACGATCAACACGCTCCAGTAACCCGGCGATCCATCCGCCGCGACCGTCTGGGCGAAGACCTG +GCCATTGGCGCGATCCACCGCTTCCATCGCCGACAGATTGCCGTACCAGGCGATATCCACTTTATTGAAG +CGCATCCCCTGGATAATGCCCGCGTAGTCCGGGGCAAAGAAGGCGTTGACCTTCACGCCCAGCTTCTTCT +CCATATCCTGCAAGAACGGCGTCCATTGCGGTTTCAGGTTTTGCTGTGATTCCGTTGAAATAATGCCGAA +ATTCAACGCCTTTTCCTGCTCTTCGGCGTGCGCCGGGCTTAACAGGGTGCTGAGGCTGAACATGCTGGTG +AAGGCCAGCGAGGCAATTATCTTAGCGTTCATTCGTTTTCCTCAATGATGGGGATGTCAGGCAGCTTTCG +CGTTCTCTTCGACGCGGTTAATGCTGCGGTAGAGATGGTCAAAACGTTCGTTATCAAACTGTTGGCTGCT +GCCGTCGTAGAAGACGTGCCCCTGGCGCAGGGCGACGATGCGTTCGCAGTAGCGCAGGGCGTAATCCACC +TGATGCAGCGTGACGACCACGGTGATGCCGTCGTTCTGGTTGATGTCGCGCAGGGTGTCCATCACGATGC +GCGCTGATTCTGGGTCCAGCGAGGCGATGGGTTCATCGGCCAGAATCACTTTCGCCTGCTGCATCAGCGC +ACGGGCAATCGCCACACGTTGCTGCTGGCCGCCGGAGAGGGTGGAAACGCGCTGATGGGCAAAATGCACC +ATGCCAACGCGGGTCAGCGCCTGTAACGCGCGCTGTTTCTGCTCGCCGGTGAACCAGCTAAAACAGGTGC +GCCAGAACGGCGTGCTGCCGAGCGCGCCAATCAGCACGTTCTCCAGTACGCTCAGGCGGTTCACCAGGTT +GAATTGTTGGAATATGTAGCCGGTATGGGCGCGGCTTTTGCGGATATCGCGGGCCAGGCGGCCTTCGCGC +TGGACTGTGCGGCCCAGCAGCTCGATATGGCTACCGACAGATTTATCGCCGGTAATCAAACCGCTTAAGT +GACGTAAAAGGGTGGATTTTCCGGAACCCGACGGCCCAAGCAGAGCCACCATTTCACCGTGATGAATGTT +CAGATCAACCGCATGCAGCGCCTGATGCTGATTGAAGGTTTTGGCGAGCTTCTCGACACGGATAATCGTT +TGCATGATGCAGCCTCCCTAAAAAAGTGGCTCCATCGTGGCGGATTATTGTGACGATTTGGTTAATTAAA +AGTGACTAACAGATGAAGAGTTAACGGGAATTCGATGACAGTGCGGGAGGGCGGGCCTCCCGGCGGGTTA +TTGCGTTGGTTGTTGTTTGACGACATTAATCATCCACGGTACGCCAAATTTATCGGTGACTTTGCCAAAG +CCATGCGCCCAGAAAGTTTCCTGCCAGGCCATTTCGATTTTTCCGTTAGCGGCAAGATTGTCAAACCAGC +GTTTTCCTTCTTCGACCTGTTGCGAATCGAGCACCAGCGTAAAGCCGGAGTAGCTGGCTTTTCCTGACGG +CATGGCATCGCTCATCATGATGTCGCTTCCGGCAATGCGCACATTGGCGTGGGCGATGGCGGTATCGGGA +AATTGCATTCCGGAAGGGCAGTTCTCGGCGCTGTCCTGCGCTGATTTTGGCATTTCGCCGAAGCTGATTT +TATAGAGCAGTTCCGCGCCCAACGTACGTTGATAATAGGCAATCGCGTCGGAACAGTTACCGGCAAAAGA +GAGGTAGGGACTTAACGGCATGATGGTGACCTCAGTTAAGAGAAGCCAGTTAAGTGTAGTTCGAAATTTA +TACAGATGAGAGGCGGCCTGATAAGACGCGCGAGCGTCGCATCAGGCAGTCGGCACTGTTGCCGGATGCG +GCGTAAACGCCTTATCCGGCCTACGGAGGGTGCGGGAATTTGTAGGCCTGATAAGACGCGCAAGCGTCGC +ATCAGGCAGTCGGCACCATTGCCGGATGCGGCGTAAACGCCTTATCCGGCCTACGGAGGGTGCGGGAATT +TGTAGGCCTGATAAGACGCGCAAGCGTCGCATCAGGCAGTCGGCACCGTTGCCGGATGCGGCGTAAACGC +CTTATCCGGCCTACGGATGGTGCGGGAATTTGTAGGCCTGATAAGACGCGCAAGCGTCGCATCAGGCAGT +TGGCACTGTTGCCGGATGCGGCGTAAACGCCTTATCCGGCCTACGGAGGGTGCGGGAATTTGTAGGCCTG +ATAAGACGCGCAAGCGTCGCATCAGGCAGTCGGCACCGTTGCCGGATGCGGCGTAAACGCCTTATCCGGC +CTACGGAGGGTGCGGGAATTTGTAGGCCTGATAAGACGCGCAAGCGTCGCATCAGGCATCTGGCACCGTT +GCCGGATGCGGCGCGAGCGCCTTATCCGGCTTACCGATCACAATACAATCAGTTCTTTTTCACAAACTCA +GATTTCAGTTTCATCGGACCAAAACCGTCGATTTTGCAATCGATGTTATGGTCGCCTTCAACCAGGCGGA +TGTTTTTCACTTTGGTGCCAATTTTCAGCATCGAAGAGCTACCTTTCACCTTCAGATCTTTAATGATGGT +AACGCTGTCGCCGTCAGCCAGCAGATTGCCGTTAGCATCTTTAACGATCAGCTCGTCGCTTTCCTGTGCA +GGTTCTGCGTCGTTCCATTCGTAGGCACATTCCGGGCAGATGTACATGCCGTTATCTTCGTAGGTGTATT +CGGAGTTGCATTTTGGGCAGTGTGGTAATGACATGTGGATTTCCTCAAAAGTCAGCAGGGCAAAAGCGCC +AAAAAACGGCAGATTGCCGAAAAAGGCCGCAATTATACACAAAATCCCTGAGTTTGTCGGGGGTACTGCT +GATTTTAGACGACGATCGTTTTCATTTGAAAGGAAACGCAAAAAGAAAATAATCTTTTTGCCTCTATTTA +TTATTTAAGATAATGTTAATGCTCTACTTGTTCTTTTTTTAATTCACATGATATTTTTATCTTTCTGACG +TTTTAAACGTATCAGAAGACGTTATTTATTCTGATAAAAAACAACACACTAAATATAAAATTATTTCTTG +CAGTAATTATAAAAGCCGAAAACAGAACTCAAAAACAATCTGGCTAAATAAAATAACAAAATTTGCTTTA +AGGAAGAATTTTCTATGTACACACAGACCCTGTATGAGTTAAGTCAGGAGGCTGAACGCCTGTTACAGCT +TTCTCGCCAACAGTTGCAGTTACTGGAAAAAATGCCTCTCTCTGTACCCGGAGACGACGCGCCACAACTG +GCTTTACCCTGGAGTCAGCCTAATATCGCCGAACGTCACGCGATGCTGAATAATGAGTTGCGTAAAATTT +CCCGACTGGAAATGGTGCTTGCAATTGTCGGTACCATGAAAGCAGGGAAATCAACCACCATTAATGCCAT +TGTTGGTACGGAGGTTCTGCCTAATCGTAATCGCCCAATGACTGCGCTGCCGACGCTTATTCGCCATACG +CCCGGGCAAAAGGAACCGGTACTGCATTTTTCACATGTCGCGCCAATCGATTGTTTAATTCAACAATTAC +AACAGCGCCTGCGTGATTGCGATATTAAGCATCTGACCGATGTGCTGGAAATAGATAAAGATATGCGTGC +GCTTATGCAGCGGATCGAAAATGGCGTCGCTTTCGAAAAATATTATCTGGGTGCCCAGCCTATTTTTCAT +TGTCTGAAAAGTTTGAATGATTTAGTGCGACTGGCGAAGGCGCTGGACGTCGATTTTCCTTTTTCTGCTT +ACGCCGCCATTGAGCATATTCCCGTGATTGAAGTGGAGTTTGTCCATCTAGCGGGGCTGGAGAGTTATCC +CGGTCAGTTGACGTTACTGGATACCCCCGGGCCAAATGAAGCCGGGCAACCGCATCTGCAAAAAATGCTT +AACCAGCAGCTGGCACGCGCCTCGGCGGTACTGGCGGTGCTGGATTATACGCAACTGAAATCGATCTCCG +ATGAAGAGGTCCGTGAGGCGATTTTGGCGGTGGGGCAATCGGTGCCGCTGTACGTGCTGGTCAATAAGTT +CGATCAACAGGATCGTAACAGTGACGACGCCGACCAGGTGCGGGCACTGATTTCCGGGACGCTGATGAAA +GGCTGTATTACGCCACAGCAGATATTTCCGGTGTCGTCGATGTGGGGCTACCTGGCGAATCGGGCGCGCT +ATGAGTTAGCCAACAACGGTAAGTTACCACCGCCAGAGCAACAACGCTGGGTGGAAGATTTTGCCCATGC +CGCGCTTGGCAGGCGCTGGCGTCATGCCGATCTGGCGGACCTCGAACATATTCGTCATGCTGCCGATCAG +TTGTGGGAAGATTCGCTGTTCGCCCAGCCAATTCAGGCGTTGCTTCATGCCGCTTACGCTAACGCCTCGT +TGTATGCTCTGCGATCTGCCGCGCATAAACTGTTGAATTACGCGCAGCAGGCGCGGGAATACCTGGATTT +TCGTGCGCACGGGTTAAACGTCGCTTGTGAACAATTGCGGCAAAATATCCACCAGATCGAAGAAAGTTTG +CAGCTATTGCAACTCAATCAGGCGCAGGTGAGCGGCGAGATTAAACATGAAATCGAGCTGGCCCTGACCT +CCGCCAACCACTTTCTGCGTCAACAGCAAGATGCGCTGAAGGTGCAGTTAGCCGCCTTGTTTCAGGATGA +TTCGGAGCCGTTAAGCGAGATTCGTACCCGCTGTGAGACACTGTTACAGACGGCGCAGAACACCATCAGT +CGCGACTTTACGCTGCGTTTTGCCGAGCTTGAATCCACCCTTTGCCGGGTGTTAACCGATGTTATTCGCC +CCATTGAGCAACAAGTCAAAATGGAATTGAGCGAGTCAGGGTTTCGTCCTGGGTTTCATTTTCCTGTTTT +TCACGGCGTAGTTCCCCACTTCAACACTCGCCAGCTGTTCAGTGAAGTCATTTCGCGCCAGGAAGCAACG +GACGAGCAGAGCACGCGTTTAGGCGTTGTGCGTGAGACTTTTTCGCGCTGGTTGAATCAGCCCGACTGGG +GACGGGGAAATGAGAAATCACCGACAGAAACGGTTGATTACAGTGTGTTGCAACGAGCATTAAGCGCAGA +AGTCGATCTCTATTGCCAACAAATGGCTAAAGTTCTGGCAGAGCAGGTCGATGAATCTGTTACGGCAGGC +ATGAATACTTTTTTCGCTGAGTTCGCTTCATGTTTGACGGAATTACAGACGCGTTTACGCGAAAGTCTGG +CTCTGCGTCAACAAAATGAATCGGTGGTCAGGCTGATGCAGCAGCAATTGCAGCAGACTGTGATGACTCA +CGGCTGGATTTACACCGACGCCCAGCTGTTACGCGATGATATTCAAACACTTTTCACGGCAGAACGATAT +TGACCAAGACGTTACTTGACGGCCCCGGTCGCGTGCTGGAGTCGGTTTATCCCCGCTTTTTAGTGGATCT +GGCGCAGGGTGATGATGCCCGCCTTCCACAAGCCCATCAGCAGCAGTTTCGTGAACGACTGATGCAGGAA +CTTCTTTCGCGTGTGCAGCTTCAGACATGGACGAACGGCGGCATGTTAAATGCGCCGCTTAGCCTGCGTC +TGACATTGGTGGAAAAACTGGCGTCGATGCTGGATCCCGGTCATCTGGCACTGACGCAGATCGCGCAGCA +TCTGGCGCTGCTGCAAAAAATGGATCACCGCCAGCACTCTGCTTTCCCGGAGCTCCCCCAGCAAATTGCC +GCCTTGTATGAGTGGTTTTCAGCCCGTTGTCGCTGGAAGGAAAAGGCGTTAACGCAACGAGGCCTACTGG +TGCAGGCAGGTGATCAGAGCGAGCAAATTTTTACCCGCTGGCGTGCTGGGGCGTATAACGCCTGGTCGTT +GCCTGGGCGCTGTTTTATCGTTCTGGAGGAGTTGCGCTGGGGGGCATTTGGCGATGCCTGCCGTCTGGGA +AGCCCGCAAGCGGTGGCGTTGTTGCTGGGTGATTTGCTCGAGAAAGCGACACAACATCTGGCAGAGAGTA +TCAATGCGGCACCGACCACGCGTCACTATTACCATCAGTGGTTTGCCTCTTCGACCGTTCCGACGGGCGG +GGAGCATGCTGATTTTTTAAGTTGGCTGGGAAAGTGGACCACGGCAGATAAACAACCCGTTTGCTGGTCA +GTGACCCAACGCTGGCAAACTGTCGCGCTGGGGATGCCACGACTCTGTTCAGCGCAGCGTCTGGCGGGGG +CAATGCTCGAGGAAATCTTCTCTGTAAATTTGGCGTAAATAATCAGTTACATCAATGAGTCCTAAACGAA +ATCCATGTGTGAAGTTGATCACAAATTTAAACACTGGTAGGGTAAAAAGGTCATTAACTGCCCAATTCAG +GCGTCAACTGGTTTGATTGTACATTCCTTAACCGGAGGGTGTAAGCAAACCCGCTACGCTTGTTACAGAG +ATTGCATCCTGCAATTCCCGCTCCCCTTTTGCGGCCGTCGCGCTGATTTTTCTGGCGTTTGCGGAAATGG +GCCAACTCTGCGAGGAAAGCTATGCTGAAAAGGAAAAAAGTAAAACCGATTACCCTTCGTGATGTCACCA +TTATTGATGACGGTAAACTGCGTAAAGCCATTACCGCAGCATCACTGGGTAATGCAATGGAATGGTTCGA +TTTTGGTGTTTATGGTTTTGTTGCTTACGCATTAGGTAAAGTTTTTTTCCCGGGGGCTGACCCCAGCGTG +CAGATGGTTGCTGCACTTGCCACTTTCTCCGTTCCCTTTCTGATTCGACCGCTTGGCGGACTCTTCTTTG +GTATGTTGGGCGATAAATATGGTCGCCAGAAGATCCTCGCTATCACTATTGTGATTATGTCGATCAGTAC +GTTCTGTATTGGCTTAATACCGTCCTACGACACGATTGGTATTTGGGCACCGATTCTGCTGTTGATCTGT +AAGATGGCACAAGGTTTCTCGGTCGGCGGTGAATATACCGGGGCGTCGATATTTGTTGCGGAATACTCCC +CTGACCGTAAACGTGGCTTTATGGGCAGCTGGCTGGACTTCGGTTCTATTGCCGGGTTTGTGCTGGGTGC +GGGCGTGGTGGTGTTAATTTCGACCATTGTCGGCGAAGCGAACTTCCTCGATTGGGGCTGGCGTATTCCG +TTCTTTATCGCTCTGCCGTTAGGGATTATCGGGCTTTACCTGCGCCATGCGCTGGAAGAGACTCCGGCGT +TCCAGCAGCATGTCGATAAACTGGAACAGGGCGACCGTGAAGGTTTGCAGGATGGCCCGAAAGTCTCGTT +TAAAGAGATTGCCACTAAATACTGGCGCAGCCTGTTGACATGTATTGGTCTGGTAATTGCCACCAACGTG +ACTTACTACATGTTGCTGACCTATATGCCGAGTTATTTGTCGCATAACCTGCATTACTCCGAAGACCACG +GGGTGCTGATTATTATCGCCATTATGATCGGTATGCTGTTTGTCCAGCCGGTGATGGGCTTGCTGAGTGA +CCGTTTTGGCCGTCGTCCGTTTGTGCTACTTGGTAGTGTTGCCCTGTTTGTGTTGGCGATCCCGGCGTTT +ATTCTGATTAACAGTAACGTCATCGGCCTGATTTTTGCCGGGTTACTGATGCTGGCGGTGATCCTTAACT +GCTTTACGGGCGTTATGGCTTCTACCTTGCCAGCGATGTTCCCGACGCATATCCGTTACAGCGCGCTGGC +GGCGGCATTTAATATTTCGGTGCTGGTTGCCGGTCTGACGCCAACGCTGGCGGCCTGGCTGGTCGAAAGC +TCGCAGAATCTGATGATGCCTGCCTATTACCTGATGGTAGTGGCGGTGGTTGGTTTAATCACCGGCGTAA +CCATGAAAGAGACGGCAAATCGTCCGTTGAAAGGTGCGACACCGGCGGCGTCAGATATACAGGAAGCGAA +GGAAATTCTCGTCGAGCATTACGATAATATCGAGCAGAAAATCGATGATATTGACCACGAGATTGCCGAT +TTGCAGGCGAAACGTACCCGCCTGGTGCAGCAACATCCGCGAATTGATGAATAAGCTGAAACGGATGGCC +TGATGTGACGCTGTCTTATCAGGCCAATTGAACTCTTAAGGTTCACTTAATCTCTGACGCGCATACTCTC +CTCCAGGTTAACGGAGGAGAGTGCAATGAAAAACCGTGTTTATGAAAGTTTAACTACCGTGTTCAGCGTG +CTGGTGGTCAGCAGCTTTCTTTATATCTGGTTTGCCACGTACTGATCTTTCTTCAGCCGTACCCAGGCCC +GCGTGCCGGAAGTCTCTTGCCGGTTTTGCAGGAAAAACTGCCCGTGATGCAACTGTGTAATGCGGCTGAC +AATACTTAACCCCAGACCAATCCCGCCATAACGGCTGTCCATACGTACAAACGCTTTACTCAACTCCCCG +CATTTACTCTCATCAATACCTGGTCCTTCATCTTCAACTGCCATGACCGCTCCGTCATCTTCTTGCAGCT +TAATCATAATGTTGCTGCCTTGCGGGCTGTAACGATGGGCGTTTTCTACCAGGTTTCGCAATAACATCCG +CAGCAGGGTTGCATCACCCTGAACGGTGATGTCGGCGGCGCTCTCTGGCAATAGCAGGGTTTGCTGTCGC +TGGTCGAGCATGGTACTGAGTTCGTCATACGAGGGGAGAATGACATCTTCCAGCAGTTTTACATGTTGAT +AATTACCGGAAGAAAATGACTGTCCGGCACGCGCCAGTTGCAGCAGCTGGGAGACGCTCTCCATCATCTG +ATCAAGCCGTGCCACTAACGGTGCTACATCAATGTGATGCGTTTTCGCCAGCAGTTCCAGATGCAAACGC +ACCCCCGCCAGTGGCGTTCGCAGTTCGTGCGCGACGTCAGCGGTAAACAACCTTTCGTTATCCAGCGTGC +TGGTCAGGCGACTGACCAGATCGTTTAACGCCGAAACCACCGCTTCGATTTCGAGGGTGGCGCTGTGAAT +GGCAATGGGCGTTAAGTTGTCGGCGGTGCGCGCTTCCAGCTCTTTTTGCAGCTCCGCCAGCGGGCGGGTG +ATGCGGCGTACCGCCTGATAGCAGATAAATAGCGTCAGGCTGACCATAAAGACGCCGGGGACAATCAGGC +TGGCGACCGCCTCGCGGATCTCACGCATGATGTGGCGATCGTTGTTGCGATTGTCGCGTAGCGCCTGCTC +AAACAGCTGAATCTGCTCGGTACTTTCATGCCATAGCCAGAAGACGCTGATCAGCTCAAACACCAACAAA +ATGGCCCCGATGGTCAATATCAGCCGTTGGCGCAGCGATATTGGTCGGCGCAGAAAATGCATCAGATTCA +ATTAGTTTTCCTCATTCGCGACCAGCATATAGCCAAAGCCGCGCACGGTGCGGATACGGGCTTTGCCCAC +TTTGTCGCGCAGATTGTGGATATGCACTTCCAGGGTGTTGGTCGAGGGTTCATTGTCCCAGTTATAGATG +TCGTTGTAGAGAATTTCCCGATGCACCGGACTGCCTGCTTTGAGCATTAACCGTGACAGCAGAGCATATT +CTTTGGGCGTCAGAATCAACTCTTCACCGCCCATCCATACCTGACGGCGACCCATGTTCAGCGTCAGATT +GCCAACAATCAGCTCACTTTCGCCCTGATTATTATGGCGTCGTAGCAGGGCGCGGATACGGGCATGTAAC +TCTTCCAGCGCAAAAGGCTTCACCAGATAGTCGTCGGCACCGACATCCAGCCCGGCGATTTTGTCGGTCA +GCGTATCGCGAGCGGTGAGGATCAGTACCGGCAGGGTATATTTTTTCTGCCGGATACGGGCGAGAAAATG +CAGTCCATCTTCGTCGGGTAACCCTAAATCCAGTACCACCAGGCTGTAATGACCTGCCTCAAGGCTTTGT +TCCGCCATCCGCGCGGTTGTCACGCTATCGCACGCGTAGCCTTCGGTTTGCGCCGCCAGAATCAGTCCCT +GCAATAACAGCGTATCGTCTTCAACAATCAGAATTTTCATTCACTCACTCTCCTGCAAGTTTGCAGAATA +TCATCCGCAGCCTGGTAATACTTCGTCTCAACGCCAGTTAATCCCAATAGCGTGGAGAATAAATTGTCTT +GTGAATAGTGTTGCGTTTGCGCCTGTTTTTGCAGGCAGTTCTGGTCAACCTGATACCGTTTTTGATAATC +CTCCGACAGCCACAGCAGCATCGGCACCTGTTTTTGGCTATCCGGGGCGATGGCATAAGGCAGACCGTGC +AGATAGATGCCATTTTCACCTAACGATTCACCGTGGTCAGAAAGATAAACCAGGCTGGTGGTAAATTTAT +CCTGATGTTCTTTCAGCAGATTAATCGCTTTATCAACAATATAGTCGACGTAAACCAGCGTGTTGTCGTA +AGTGTTCACCAGTTGCTCTTTGGTACAGGTCTGGATCTCATTGGTGTCGCAGGTTGGGGTAAATTTCCTG +AACTGAGGCGGATAGCGGTTGTAATAGGTCGGACCGTGGCTGCCGATGGTGTGTAAGACAATCACGCCAT +CACCTTGCAGGTTATTGATGTACTCTTCAAGCCCGTGGAACAGCACTTCGTCATAGCATTCGCCGTTGAT +GCACTGATCAGGTAGATTCAGCGCGGTGACGTTCTGGTGAGGCACGCGGTCGCAGGCACCTTTACAGCCG +CCATCGTTGTCATTCCACAGCACGTTGATGCCCGCTCGCTGAATGATATCCAGCACGCCTTCCTGGTGCT +GTGCCAGCTCTTCTTTGTAGTGCTCACGCGGCATATCCGAGAACATGCACGGTACTGAAACTGCCGTTGC +CGTGCCGCAAGATGCGGTATTAGGGAAATAGACCACGTTATCTTTCGCCAGCCGCGGGTTAGTTTCACGC +GGGTAGCCGTTGAGGGAGAAGTTCTCCGCCCGCGAGGTTTCGCCGACAATCAGGATGGTCAAATTTTTAC +GTTTTTCGTTCTGCATTAACGGGTTGCGGTGCGCGTCTTCACCAATTCGCACCAGCGGCAGATTTGCCAG +TCGCTGATGGGAGTACCATGACCAGCTGGCAACAATGCTGTTAGAGGGGCTTAAGGATTTCACCAGCTCT +TTGTTATTGCGGAACAACGAGGCGTAGTCTTTATAAAACAGTGCGGCGACCAGCAAAATCAGTAGTACAG +AAACCAGAATATTGGCTCCACGGAAAAGAACACTGCGCAGACGCGAGGTGGCAGGTTTGATTTTTATCCA +GCAGGCAATCAGCGCAGCAAGCACGCCGCTGAATCCCAGCGTTAATAACATTTGCGGTGTCATCAGCGCA +TAACTTTCTGCCGGAGTGGTATCAATAATATTGGCAATCATCGAGCGGTCGATGACGATGCCGTAAGTCA +TTATGAAATATTGTGCAGCCGCGCCAACCAGAATAAACAGGCAGGCCAGTGGTCGATTAAGCCATAAGAA +AGAGCTTAGTGTCAGGACAATATTAATCACGCTGAAAGCGACGACCGGCATCGACAAGAAAACCAGTACG +TTATGCAGCGAATCCAGCGGCAGCGCCTGCAACACCTGTTTAAAAAAGGCAATATTCAGGCAGATAGAGA +TATAAAAAGCGGCCAACAATAGCCAGGCGAGTAAATTCAAAGAGGGTCTTTTTAGTAGGCGCTTCAACAT +CACGGTGTTTCCATCGAACAAAGTGCGCATATGCTCGCAAAGCAAAATTAAGCCAACCTTAAGTTCTTAA +GGTTGGCTTTTATGTTTGCTGGATTAAGGGGAATTAATCTTTGCTTATTGGTGCATCTAAGGGATACGGG +TTTTTATGTAGCCGGTTGTAATTCAGCGCATACATGGCGGTGATGACCATCAGGGTGACAAATGACCACA +TAACCTCTTTCGCTCCGGACCCCACCACGGCCCAGATGCAGTAGAGGAAGGCAATGGTAGTAACTGCCAG +ATATGCCGGGCGTGCTTTACCAAAGTGACCGTGTCCGAGCAGCAGTAACGCCGCACAGGTGTAAAGATAT +GGCACCAGTGTAAAGATGACCGAGACGGAAGAAACCAGACCGAACTCTTTGGTCGCGTTTGGTGAAATGC +TGCTGAGCTGGAAGATGGTCATCAAAATACCGACGATAATCAGCCCCGCCACTGGCGTACCCGCTTTATT +TACACGGGCAAAAATCGGTGGGAACAGTCCGTCATCGGCAGCGGCTTTCGCCGTTTGACCCGCCAGCAAC +GTCCAGCCGCCCAGTGAACCTAAGCAACCCGCAGCTGCGCAGAAGGAAACAATGGCCCCGGCGGTGTCAC +CCAACGCCATCCGTGCGGCATCACCGAATGGCGAAGCAGAAACGCGCAGTGCGGCATTAGGGATCATCCC +CATAATCGCGGTGGTAGAAAGTACATAGCAAACGGCGGCAATCAATACCCCACCAATGGTGGCGATAGGG +ACATTGCGTTTCGGGTTTTTCACCACACCTGCGGCAACGGAGGCACTTTCCACACCGATGAACGACCACA +GCGTAACGTTAAGGGTACTTTGAATTGCACCGAAGGTGCCCAGGCCGCTGACGTTCCATGCCGCCATATA +GGTTTCACCACGGAACCAGAACCAGCCAAATACGGCAATCCCGACGATGGGGATCAGCGCCAGCACGGTG +GCAACTGCCTGCACACGGGTGATCATTTTCGGACCGACAATGTTCAGCAGGACGAAGATCCACAGCACCA +CGACGCAGGTGATGGTTAATACCAATGGATCTTTCAGAATCGGGAAGAAGTAACTTAAATATCCTACGCC +AATGACCACCATGGCGATATTGCCGATCCAGCAGGCCAGCCAGTAGAGGACGTTGGTTTGATAACCGAGA +AACGGGCCAAAGCAGCGGCGGGCGTAAGCGTAAGAACCACCAGGACTTGGGTCGAGGAACGACATTTTGG +CGTATACCATCGAGAGCCCCAGTGCACCGATAATCGTCACCAACCATCCATAAATGGCAATCCCGCCAGT +AGAGGCCAGGTTTGCAGGTAACAGAAAAACACCTGACCCCATAATATTCCCCGACACCATCAGGGTGACG +GGGATTAAGCCCACTTTGTGAGCATCAGCATCCGAAGACATAATTAAACTCCTGCGAAGGCGAGCTTCGT +GACAATAAATTACGTCATATCATACGCCTGCATTCGATAGTTGAATTATTATCGACCGGGTTATCGCTGA +TGCCGTTATTAATATAGCTCTTCGTTAAGGTTAAAAATCAGGCGACAGTGCGTTCTCTGTGCTGACTAAC +ATAATGCAGCGGCGTCATACCGTAGAAGTCTTTAAAGACAGAAATAAAGTACGACGTACTGTTGTAGCCG +CAGGACTGTGATACCTGAGAGATATTTTTACCGTCCATCATTAATTCATTTACGGCATAACGCATGCGGC +AGGTGGTGATTATTTGGCTATAACTGGTGTTTTCGCTTTTCAACTTTTTCTTTAACAGACTTGGGCTAAG +ACATAAACAACTGGCTACCATACTAAGATTCCAGTCTTTGTGAATATCGCTTTCAATAATTTGATAAACG +CTGTCACTTACACAATTACGTAACATATACATCATTAATGAAACGAATTTTTTACTGTCGAGAAAACGGG +ATAGCACCGTGAATAATAATGCGCGTGTTCGTTCCTTTTCTGACTCAGTTTCTGCGGGCATCATGCTGTG +TTGCGCGGCAACGCGAAAGACGTCTGGCGTCAGGCATGGCAGGGTGAGTATGGGCGTAGCGCTACGTTGC +CATACTGGTATTTGCGAGAGATCTTTATTCAGAAACCGGAGGTAATCTTTGATGATGTCGTGACTAATAT +GAGCAACCAAAGTGTTGTTAAGAGAGGAGACGTCGATAATATTATTTTCACAATTTAATAACGCCATATG +GTTAGCTTTAAGGCTAATAGGTTCTTTCCCATTCACCCTTATCCAGACATCTTTTTCAGTCAATAAAACA +ATACAAGGTTGGTCGCTGCAAATCCTCATACATGTACTCCTGAGTGCGAATAAAAGACCAGTTCTCGCTA +AAGCAAAGCGATACCGGGAAATGGTTATATAATTGTATGATGAATATAAACATGCATAAAAATAACGAGT +TTTACTAATAGTACAAATTTTTATAGTAATTTCTCATGTACATATTTTTTTACAGGATAAATAACAGGCA +AAAAAAAGCGCGGGGTGGGGCCGCGCAAAAAGTATGACATTTTTGTTTGCAGCAATTTTTATGAAAACGT +TGCCATACTCAAAAGGCCTAAGGCCAGGCGGCGTAATGTTATTTAAACAATTACGCCTTCAGCGGAATAG +TGGTTACGCTTTCACGCACATAACGTGGTAAATACCGTCAATAATTTCAGTCCCTTCAGTTTCGTGTTCA +AATCCAGGGAAATGGTGGTCCCAGGATTGCAGCGAGCGTAAATAACTTACTTGCGGACTGTTTTTATCGC +CGAAGTTTTCACCAGACAGCAGCATCGGGATTCCTGGCGGATACGGGATAACTGAGTTTGCCGCGATGCG +TCCTGGCAGATTTTCAATGGATACCAGTTCGACATTGTTGTCGACAATCGCGTTGTACGCTTCACGCGGG +GTGACTTCCGCCACCGGCAGGCCGGAATAGGCTTCGTTCAACCGTGCGCCAGGGTTGTTTTCTTTCAGCC +AGGCAAACATGGTGTCACCCAGATCGTGAATCCCCATGTTCGCGTAAGTGTCAGGATATTGTTCAACAAG +TTCCGGCATCACCTGCGCCAGCGGTGTGTTGGCGTCATAGTGGCGTTTGAAGGAGCAAAGGGTGTTAACC +AGAGTTCCCCATTTCCCACGGGTTACGCCCATAGAGAACAGGAACATAATTTGGAAGTCAGTGGTGCGGG +TAGGTACAATGCCGTGGCGACCAAGCCAGGCAGTGACCAGCGCCGCCGGAACACCGGTTTCTTCCAGTTC +ACCATCTTCACCCATTCCCGGAGCAAGGATGCTGACTTTAATCGGGTCGAGCATACTCCAGTTATCCGGA +ATATCTTTGAAGCCGTGCCAGCTTTCGCCCGGATGCATTACCCAGCAGTCCTGAACGGTGGTCAGCAGTT +TGGTTGGTGCGTCAGCAAAGTCATAGGTTTTGCCGGTTTGTGGGTCGGTGACGACTTCTTTGTTCCACGG +TTTGAAGAACCAGCTACCGTCAGCGGTGAACTCTTTATATAGCCGCGCCATCGCCTGACGGAAATCAACC +GCTTCGTCAATCACTTCCTGTGTCAGTGACAGGCCGCTGTTGCCGTCCATCATCGACACCGCCACGTCGT +TGGATGCGCAGATGGCATACAGCGGGGAGGTGGTGGCATGCATCATGTAGGCCTGGTTGAAGCGGGAGAA +GTTAATCGCCCCACGACCTTCACGTACATGAATATAAGAAGCCTGTGACAGCGCATTCAGCAGTTTGTGG +GTGGAGTGGGTGGCGAAAACGGTAGGACCGTTGTGATCGCCAGGTTCGCCGCGCATGGCATAGTGATCGG +CATAGATCGGGTTGAAACGTGCATAGCCGTACCAGGCTTCGTCAAAGTGCAGACGATCGGAGGTTTTTTC +CAGCAGATCCTGCGCTTCTTTAGCGTTATAACACACGCCGTCATAGGTGCAGTTGGTCACCACGCAGTAA +GACGGTTTTTGCCCGGCTTTGTCTTTGGTCAGCGGGCTTTCACTGATTTTCTTCTGCAAGGTTTCAGGTT +GCATTTCCTGCGGATAGATTGGCCCGATAATGCCGTAGCGGTTGCGGCTTGGCACCATATAGACCGGTTT +CGCGCCTGTCAGCATCAAACCTTGTTCGATGGATTTATGGCAGTTACGGTCAACGACCACGACATCGTTA +TCGGTCATGCAAGCCTGCATGATGGTGCGGTTAGAGCCGGAAGTACCGACGACTACCGACCAGGAGCGAT +CGGCACCAAATACGCGTGCGGCATATTTTTCGCTTTCGCCAAATGCGCCAGTATGGTCAAGCAAAGAACC +GAGGGAAGTTCGTTCGATGCCCATGTCGGTGCGGAACAGATTTTCACCATAGTAGTCATGGTAGAAACGT +CCGGCGGGTGTTTTGGTAAAACCAACGCCGCCCTGGTGGCCTGGCGCTGCCCAGGAATATTCATGGATGT +CACTATATTTCATCAGCGCGCTGAACAGTGGCGGCAACAGCTGCTGGCGGTAGCGGGTCATCGCGGCAAC +GGCGCGTCCGGCGATAAAGTCGGCGGTATCTTCCAGAATCCAGGCGAATTCATCGACAAGCTCCAGCAGG +TCGCGATCCATTGCGGCGAGGGCTTTTTCCCGATCGCCCAACAGGAAGACCGGCACGTTTTGTTGGCGCT +CATGAAGCTTACCGATCAATTGTCTGACGTTTTGATGTTCGTCCGGATGTTCCATTTGATAGCTGAACAT +CAGGCAGTCAATGGCTTCGTTTGAAGAGAGAATGGCAAAACCATCATCAAAGGAGGTGGATTTAATCACG +GTAACATTTTGCTGGCTTAAAGCATCTGCCAGACGCTCAACGGCGTTACCGACCCAGGTGTCTTGATGGA +GAAACTCGCTTTCAACAATTAATACTTTCATCATTGCTTACCCGGTTATGAAGGAATCTTCGTTGCGGGC +AAGTATCTTCCGGCCTTTTCGGGCTGTAAAGCGCGTGAAAAACAAACATTTTTGAAATATTTAGTTTTAT +AAACAATACGTTATGTGATTATTTTAAATTATTTTCACTGCTTATTATCGACGGCTAAACTATTTTTTTG +GCTGATACTGATATCGTCTTTAGCCGGGAAACGTCTGGCGGCGCTGTTGGCTAAGTTTGCGGTATTGTTG +CGGCGACATGCCGACATATTTGCCGAACGTGCTGTAAAAACGACTACTTGAACGAAAGCCTGCCGTCAGG +GCAATATCGAGAATACTTTTATCGGTATCGCTCAGTAACGCGCGAACGTGGTTGATGCGCATCGCGGTAA +TGTACTGTTTCATCGTCAATTGCATGACCCGCTGGAATATCCCCATTGCATAGTTGGCGTTAAGTTTGAC +GTGCTCAGCCACATCGTTGATGGTCAGCGCCTGATCATAGTTTTCGGCAATAAAGCCCAGCATCTGGCTA +ACATAAAATTGCGCATGGCGCGAGACGCTGTTTTTGTGTGTGCGCGAGGTTTTATTGACCAGAATCGGTT +CCCAGCCAGAGAGGCTAAATCGCTTGAGCATCAGGCCAATTTCATCAATGGCGAGCTGGCGAATTTGCTC +GTTCGGACTGTTTAATTCCTGCTGCCAGCGGCGCACTTCAAACGGGCTAAGTTGCTGTGTGGCCAGTGAT +TTGATCACCATGCCGTGAGTGACGTGGTTAATCAGGTCTTTATCCAGCGGCCAGGAGAGAAACAGATGCA +TCGGCAGATTAAAAATCGCCATGCTCTGACAGGTTCCGGTATCTGTTAGTTGGTGCGGTGTACAGGCCCA +GAACAGCGTGATATGACCCTGATTGATATTCACTTTTTCATTGTTGATCAGGTATTCCACATCGCCATCG +AAAGGCACATTCACTTCGACCTGACCATGCCAGTGGCTGGTGGGCATGATATGCGGTGCGCGAAACTCAA +TCTCCATCCGCTGGTATTCCGAATACAGCGACAGCGGGCTGCGGGTCTGTTTTTCGTCGCTGCTGCACAT +AAACGTATCTGTATTCATGGATGGCTCTCTTTCCTGGAATATCAGAATTATGGCAGGAGTGAGGGAGGAT +GACTGCGAGTGGGAGCACGGTTTTCACCCTCTTCCCAGAGGGGCGAGGGGACTCTCCGAGTATCATGAGG +CCGAAAACTCTGCTTTTCAGGTAATTTATTCCCATAAACTCAGATTTACTGCTGCTTCACGCAGGATCTG +AGTTTATGGGAATGCTCAACCTGGAAGCCGGAGGTTTTCTGCAGATTCGCCTGCCATGATGAAGTTATTC +AAGCAAGCCAGGAGATCTGCATGATGTCTGCACCCAAAATTACATTTATCGGCGCTGGTTCGACGATTTT +CGTTAAAAATATTCTTGGTGATGTGTTCCATCGCGAGGCGCTGAAAACGGCGCATATTGCCCTGATGGAC +ATTGACCCCACCCGCCTGGAAGAGTCGCATATTGTGGTGCGTAAGCTGATGGATTCAGCAGGGGCCAGCG +GCAAAATCACCTGCCACACCCAACAGAAAGAAGCCTTAGAGGATGCCGATTTTGTCGTGGTGGCATTTCA +GATTGGCGGTTATGAACCTTGCACGGTGACTGATTTCGAGGTCTGTAAGCGGCATGGTCTGGAACAAACC +ATTGCCGATACGTTGGGGCCGGGCGGTATTATGCGCGCGCTACGTACCATTCCGCATCTGTGGCAAATTT +GCGAGGACATGACGGAAGTCTGCCCCGATGCCACCATGCTCAACTATGTTAACCCAATGGCGATGAATAC +CTGGGCGATGTATGCCCGCTATCCGCATATCAAACAGGTCGGGCTGTGCCATTCGGTGCAGGGAACGGCG +GAAGAGTTGGCGCGTGACCTCAATATCGACCCAGCTACGCTGCGTTACCGTTGCGCAGGTATCAACCATA +TGGCGTTTTACCTGGAGCTGGAGCGCAAAACCGCCGACGGCAGTTATGTGAATCTCTACCCGGAACTGCT +GGCGGCTTATGAAGCAGGGCAGGCACCGAAGCCGAATATTCATGGCAATACTCGCTGCCAGAATATTGTG +CGCTACGAAATGTTCAAAAAGCTGGGCTATTTCGTCACGGAATCGTCAGAACATTTTGCTGAGTACACAC +CGTGGTTTATTAAGCCAGGTCGTGAGGATTTGATTGAGCGTTATAAAGTACCGCTGGATGAGTACCCGAA +ACGCTGCGTCGAGCAGCTGGCGAACTGGCATAAAGAGCTGGAGGAGTATAAAAAAGCCTCCCGGATTGAT +ATTAAACCGTCACGGGAATATGCCAGCACAATCATGAACGCTATCTGGACTGGCGAGCCGAGTGTGATTT +ACGGCAACGTCCGTAACGATGGTTTGATTGATAACCTGCCACAAGGATGTTGCGTGGAAGTAGCCTGTCT +GGTTGATGCTAATGGCATTCAGCCGACCAAAGTCGGTACGCTACCTTCGCATCTGGCCGCCCTGATGCAA +ACCAACATCAACGTACAGACGCTGCTGACCGAAGCTATTCTTACGGAAAATCGCGACCGTGTTTACCACG +CCGCGATGATGGACCCGCATACTGCCGCCGTGCTGGGCATTGACGAAATATATGCTCTTGTTGACGACCT +GATTGCCGCCCACGGCGACTGGCTGCCAGGCTGGTTGCACCGTTAAAACGCGACTAAACGCTACTGCGCC +GGGGGATTTATTCCGGCGCACACCTCTGACGATACCAATAACAGAAGGCGGGCGTTGGTAACAGCGACCC +GATACCCTATGAGCATTTCAATGACTACAAAACTCAGTTATGGATTTGGAGCGTTCGGGAAGGATTTTGC +GATCGGCATTGTGTATATGTACCTCATGTATTACTACACCGATGTCGTCGGGCTGTCTGTGGGTTTGGTC +GGTACTTTGTTTCTGGTGGCGAGGATCTGGGATGCTATTAACGATCCGATTATGGGATGGATTGTAAATG +CTACGCGATCGCGATGGGGTAAGTTCAAACCCTGGATCCTGATCGGTACGTTGGCAAACTCTGTAATCTT +ATTTCTCCTCTTTAGTGCGCATCTGTTTGAAGGTACTACTCAGATTGTCTTTGTTTGCGTGACCTACATC +CTCTGGGGCATGACTTACACCATTATGGATATTCCCTTCTGGTCGCTGGTTCCAACCATCACGCTCGATA +AACGTGAGCGCGAACAACTGGTTCCTTATCCGCGTTTTTTTGCCAGTCTGGCAGGCTTTGTTACGGCAGG +TGTGACGCTACCATTTGTTAATTATGTCGGCGGTGGCGATCGGGGATTTGGCTTTCAGATGTTCACTCTG +GTACTGATCGCCTTTTTTATTGTTTCAACCATCATCACTCTGCGCAATGTGCATGAAGTCTTTTCGTCAG +ACAATCAACCGTCTGCTGAAGGAAGCCATCTGACACTTAAAGCCATCGTTGCGCTAATTTATAAAAACGA +TCAGCTTTCATGCCTCTTGGGTATGGCTCTTGCTTATAATGTAGCCAGCAACATTATTACCGGCTTTGCT +ATCTATTATTTCTCATATGTTATCGGTGATGCGGATTTGTTCCCCTATTATCTGTCGTATGCGGGAGCTG +CTAACCTGGTGACGTTAGTATTCTTCCCACGCTTAGTTAAATCATTATCCCGACGCATTTTATGGGCCGG +AGCATCTATTCTTCCGGTGTTAAGCTGTGGTGTTCTCCTGTTAATGGCATTAATGAGCTATCACAACGTC +GTCCTCATTGTGATTGCGGGTATTTTGCTGAATGTGGGAACGGCGCTTTTCTGGGTATTACAGGTCATCA +TGGTGGCAGATATCGTTGATTACGGTGAATATAAACTGCACGTACGCTGTGAAAGTATCGCTTACTCCGT +GCAGACTATGGTGGTGAAGGGCGGTTCAGCCTTTGCGGCTTTTTTCATTGCGGTTGTGTTAGGGATGATT +GGCTATGTACCGAATGTTGAACAGTCTACGCAAGCCCTATTAGGTATGCAGTTTATTATGATTGCTCTAC +CAACTCTGTTTTTCATGGTAACGCTGATTCTCTACTTCCGTTTCTATCGCCTCAATGGTGACACGCTGCG +CAGGATCCAGATCCATCTGCTGGATAAATATCGCAAAGTACCGCCCGAGCCTGTTCATGCTGATATTCCG +GTCGGTGCAGTGAGTGATGTGAAAGCCTGACGTGGACAATAGCTAACGAAAATGGCCTGATGCGATATGT +TTATCAGGCCACGTCTTAATGTAATGCTTTGGATTTGCAAATTTTGTAGACCGGATAAGGAATTCACGCC +GCATCCGGCATCAACAAAGCGCAAGTTGTTATCCGGTTATCAAGCCAAAGCGCCGTAGCTGGCGGCAATG +AAAGCGAGCGAGGAATATCACCGTCGTTAATGCGCCAAGCAGCGCGCAGAACATATCGGATTGCGTGTCC +CACTGGTCGCCCTGGGTGCCGAGAAAATCATCCGCTCCCTGACCCATTGCCAGCGCTGCCCACCACTCGA +TTAATTCATACATCGCGCTTATCGCCAGCGCCACGCAGCAGACCAGGAACGCCACCATTTTACGTCCGCG +CACGTACATCCCGCGAACGAGAATTTCTCGTGCCACCAGTGCAGGCACCAGCCCCTGGAAAAAGTGCCCC +AGCTTGTCATACGGATTACGACTCAACCCCAGCCATTCCTGCACCTCAAAACCAACGGGGACTTTCGCGT +AGGTGTATTGTCCGCCGACCATCAGGATGATGGCGTGAAGGAAAATGAGCGTATAGAGCAGCGGCGTTAA +CGGATAACGTCTGGCGGTGGCAAGCAGTAGCTGCACGACAATAATCACCGGTGTCACTTCCATCAGCCAG +GTGAGTTTGTCATGGGCCGAAATGCCGGTATAAATCAGGATTAACGTTAGCGTCAGTGCGCTGGTGTTAA +GAATTAACGGCTTGAGTGTGCGGGTCATGGTGAGTTCGCAAATCAGGGAAAATACTGACTATTCACCAGC +AAGCGTGAAATTACAATCGCAAAAGAGGTGGCCAGGGGGATCACCTGGCAGCATGCTGCCAGGCGCTGGG +CCGAAGAGGTTACTTAGTGCAGTTCGCGCACTGTTTGTTGACGATTTGCTGGAAGAAGTCGTTACCTTTG +TCATCGACCAGGATAAACGCCGGGAAATCTTCTACTTCGATTTTCCAGATAGCTTCCATACCCAGCTCCG +GATAAGCGACGCACTCCAGATGCTTGATGCTCTGCTGCGCCAGTACCGCCGCCGGACCGCCGATGCTACC +GAGGTAGAAGCCGCCGTGTTTATGACACGCGTCGGTAACCTGCTGACTGCGGTTACCTTTCGCCAGCATG +ATCATGCTGCCGCCGTGGGATTGCAGCAGATCCACGTAGGAGTCCATACGGCCTGCGGTGGTTGGGCCAA +GTGAACCTGATGGATAACCGGCAGGGGTTTTCGCCGGACCCGCGTAGTAGATCGGGTGATCTTTGATGTA +CTGCGGAAGTTCTTTACCGGCGTCAATCAGCTCTTTCAGCTTGGCGTGTGCAATATCTCGGCCCACGATA +ATGGTGCCGGTGAGCGACAAACGAGTGGATACCGGGTATTGCGAAAGCTGGGCGAGGATCTCTTTCATCG +GGCGGTTAAGGTCAACTTTCACCGCTTCGCCTTCACCGGCCTGGCGCAGTTCTTGTGGAATGTACTGGCC +TGGGTTGTGTTCCAGTTTTTCGATCCAGATACCTTCGCGGTTGATTTTCGCTTTAATGTTACGGTCAGCG +GAGCAGGAGACGCCCATGCCGACCGGGCAGGATGCGCCGTGACGTGGCAGACGGATAACGCGAATGTCGT +GCGCGAAGTATTTACCGCCAAACTGCGCGCCAAGACCGAGTTTCTGGGCCTCTTCCAGCAGTTCCTGTTC +CAGCTGGACATCGCGGAACGCCTGACCATGTTCGTTCCCTTCCGTCGGCAGTTCATCGTAATAGTGAGCG +CTTGCTAACTTGACGGTTTTCAGGTTGGTTTCCGCAGACGTACCGCCAATCACAAACGCGATATGGTACG +GCGGGCAGGCTGCAGTACCGAGGGTACGCATTTTCTCGACGAGGAAGTTTTTCAGTTTGCCGGGAGTCAG +CAGGGCTTTGGTTTCCTGGTAGAGATACGTTTTGTTGGCAGAGCCGCCGCCTTTCGCAACGCAAAGGAAT +TTGTACTCATCGCCATCTACCGCGTACAGGTCGATTTGCGCAGGCAGGTTAGTGCCGGTGTTGACCTCTT +TGTACATGTCCAGCGCCGCATTCTGTGAATAGCGCAGGTTATCTTCGATATAGGTGTTATAGACGCCTTT +CGACAGCGTTTCTTCATCACCGCCGCCGGTCCACACGCGCTGGCCTTTTTTACCGACGATGATCGCGGTG +CCGGTATCCTGGCAGGTCGGCAGCACGCCTTTGGCGGCGATTTCGGAGTTTCTTAAGAATTGCAGCGCCA +CGTACTTGTCGTTTTCGCTGGCTTCTGGATCGTGAAGAATAGCCGCAACCTGTTTCTGGTGTGCCGGGCG +GAGCATAAAAGAAGCGTCGTGAAAGGCTTGCTGCGCCAGCAGGGTCAGGGCTTCTGGTTCCACTTTCAGG +ATGGTTTCGCCGTCGAAGTCGGCAACGCTAACGTAATCGGAAGTGAGTAGATAGTATTCGGTATTGTCTT +TCCCCATCGGGAAAGGTGCCTGGTAGATAAAGGGTTTGTTTGACATAGCTTCCAGCCTGTAACTCTGTAT +TTGTTATTCGAAAATGGCGTGCCGCGTAGTCACGGGCGGCACGCAAAGTGCATTTATAAGAACCCGTACA +TCGCGGCGAAGATCCAGCCGAAGACGCACGATACGCTCACACCAATCAACCCCGGCAGAATAAAGCTGTG +GTTGATGACGAAGCGACCGATGTGGGTGGTGCCGGAACGGTCAAACTGAATCGCTGCCAGATCGCTCGGA +TAAGTCGGCAGGATGTAATAACCGTAGCAAGCCGGTGCTGAAGCCACGATGTATGCCGGATCAACGCCGA +TCGCCAGCGCGACCGGAACAATCGCCGCCAGCGCCGCAGCCTGAGAGTTTACAAACTTGGAAACCAGCAG +CAGAACAATGGCATAGGCCCACGGATACTCTTTCACCATTTCACCCAGTACGCCCTGAATTTCAGACATA +TGCGCACCGAACATGGTTTCTGCCATCCATGCGATACCGTACACCGCCACGATGGCGATCATACCGGAAC +GGAAGACTTCGTTTTTTGAGATAGACGCGGGATTGGTTTTGGTCAGGATAATAATCAGCGCCCCGGTCAG +CAGCATAAACATCTGAATAACCAGTACCATCGACAGCGGTTTGCCGCCGAAGGATGGACGCAGGTCCGAA +TCAGCACCAAGAAGGGCGACTACAGCGATTGCCCCGAGGAAAATCCACATTGCCAGCCAGTTGCTTTTCG +GCAGTTTTTTATCCAGCAGCGTCGCGGTATCACCGTAAACATACTCACGGTTTTCCGGTACGGAGATGAA +TTTCTGGAACTCTTCGTCTTTATCCAGATCTTTACCGCGGAACCAGCTGAAGATACCGATCGCCAGGATA +CCGATTAACGTCGATGGAATGGTGATTGCCAGCAGATCGAGGAACTCAAGATGGCGACCATCAAAGGTGA +CATTACCCAGCATCGCAACCAGAGACACGACCGCAACCGACACCGGACTGGCGATAATCCCCATCTGTGC +ACCGATAGAACTTGCCGCCATCGGACGTTCCGGACGGATGTTGTTCTTAATGGCGACGTCGTAGATGATC +GGCAGAATGGTGTAAACCACATGACCCGTACCGCAAAGAATGGTCAGTGTACAGGTCACAAACGGCGCGA +CAATTGAGACATATTTCGGGTTGCGGCGCAGCAGCTTCTCGGCAATTTGCAGCATGACATCAAGACCGCC +CGAAGCTTGCAAGGTCGCCGATGCCGCCACCACCGCAATGATAACCAGCATGACATCAACTGGTGGTTTA +CCTGGCTGAAGGTGGAAGACGAAGACCAGAATGACCAGACCGATACCGCCTAATAAACCCAGCGCGATAC +CACCCTTTCTGGCACCATAAAACAGACATATCAGTATTATGATAAGTTGGATAGTAAATAACATGTGTGA +ACCCTCGCGATAATCCTATTTAAATTTTTGCTGAATAGATCACAGTCACGTTCTGTTTTGTATGAACTGT +TTTCAGAGCCTGACTAAATATCCGTTTGGTCGTTACCGGCTTTAGCAAATACCTCACAGTGAATATTGGC +TGATTAAAGCAGCGGCAAATTTATGCACTGTGATAAGCGGCTTTTTCAGAGAGAAAGACTCTCTGGCGAT +GGGTTTATAGTTTGTACTGCGCAGATGTTAATGTTTTGTTTGCTGTTATCTTATTGATATTTATCGGTCT +ATTTTTTGTTCTCAGGGCAGATGTCATTAGGTTTATAGATTAATCTGATCTACCCATTTGTGGGTAAAAA +TACACATAATGCGGGTGACATAATAGTTAATTAACTTTTGTTAGCGTTTTGAAATTAAAAACACCGTTCA +CCTGAAGAGATATTAATTTTTAGCGATGATGGAGGGATAATTATATTTGATCTGGCACAAGTTTTACTGA +TGAAGGATGTAACTTGTGCCAGGGGTATTTTGCATTACGGTAATAATTATTACTTACAGATAACCAGCGA +TCCGTTATTGGCAATATTGTTTCAGTAGTGAGTAGTGTTCTGCCTGAATACGGTAACGGTAAACTGGACG +CCCCGTGACGCCATAATGGATACTGGTGAACAAGATGTGGCAGTTGACCAGCCAGATGAGGTATTTACGG +CAGGAAACACGCGAAATGTTAACCTCGTTGGCTAGCTCGTCGGTTGAAAATTCATAGTCCTGATGCGCGT +CAATCCACTGGCACAGTGTGCGTAACGTCTGCGGCGTTAAGCCTTTTGGCAAGCGACGAGGATCCTGTTC +GTTGGAGCTGCTGCCGTGGATTAGCTGATCAAGCTCGGCCTGGTCATAATACTGATGTTTTTCCAGCGCC +ATTTTCTTTTGCCGCCAGCCGGTGAGCGCCTCTTCAAAGCGGGAAGCCTGGAAGGGTTTGATCAGGTAAT +CCACGACACCGTAATGCAGCGAATCTTTAATGGTTGCCGCATCGGCTGCGGAGGAGATGACAATCACATC +ACTTTTGCAACGCGCGTTATGCAGGACAGGCAGTAAATCGAGCCCGTTCTCTTTTTGCATATAGATATCG +AGCAATATCAGGTCGATAGGCGTATCGCTATTGAAGATAATCTCTTTGGCTTTCTCCAGCGTCGAGGCTG +TTCCACAGCATTGAAAGCCTGGGATTTGTGCTACGTATCGGCGATTCAGCTCCGCGACCATTGCGTCGTC +ATCGATAATTAATACATTGATCATCTGTTCGACCTCTCCCCGTCCCAGGGTATCTGGACAAAAAATTGTG +TGAAAATCCCGGGTTCCGATTCCACGGCGATGCTGCCGCCGAGATTTTCTACCTGTTGTTTGACAAGTGC +TAAACCGACGCCTCGCTCGCTTCCTTTTGTCGAGACACCTTTGTCAAAAATGTGATCGATTTTATCGGGT +GCGATCCCCGGTCCATCATCATTAACTTCACAGTGCAGCCAGCCGTGACGGTAGTGCAATGTTACGCTAA +TTTCGCCTCCGGGTTCCGGCCCTAATGCCTCCAGCGCGTTTTCTATCAGATTTCCCAACGTGGTAATCAG +CGTCGCGACCTGGTCCTCACTGCCGCTGTCTGGCAGCTGGCTTTCACTGTTTAAAATCAGCGTATGGCCT +AAATCGGTCGCGCGGTTAATCTTGCTGATTAAAAAACCAGCGATAACCGGAGATTTGATCTTACCCAGCA +GAGAGCCAATCTCTTCCTGATAGTTATTGGCTGTTTTGAGAATGTAATCTTCCAACTGCTTATAACTCTT +CAGATGCAATAATCCGAGAATCACATGCAATTTATTCATAAATTCGTGGGATCGTTCACGAAGTGCGTCA +GCATAGTTGACCAGACCGTCGAGTCGCTGCATCAGTTTACGTACTTCAGTTTTGTCCCTGAAGGTTGAAA +TGGCACCGATGATAACGCCATTACTGCGCACCGGAACGGTGTTGATCAGTAATAGCCGGTCTTTAATCGT +AATCTCTTCGTCGCGGCGCGGGGTACCGTCGCGTAACACTTCCGAGACATCTACCACCTGTGACCATGAG +TGGCTTAGCGTCGACAGTTTCTCATCGTCCTGCGACTTACGGTAATTCAGCAATTCTTGTGCGGCATCGT +TGATCAGCGTGACCTCGCCGCGATCGTCCACGGCAACGACGCCTTCTTTGATAGACTGCAACATGGCCTG +GCGTTGCTCAAACAGCGTGGAGATTTCGTAGGGTTCCAGGCCGAAAAGGATTTTTTTCAGTACCTTAACC +AGAATGCAGGTGCCAATCAGTCCGACCAGCATGCCAAATAATACCGACCAGATAATGCTCCAGCGACTGT +CATTGATCTGTTGGGTCACACGGCTTAACTCAAGGCCGATCGCCACCACGCCAATTTGTTTATGATTTTC +ATCGTAGATGGGGGTAAATACGCGTAAAGCCTGCGCCAGAAAACCGCGATTGATAGCGACATTTTCTTCG +CCATTCAGCGCTTTAAGGATGTCATCACCTTTAAATGGCTGACCAATACGCTGGGCTTCAGGATGCGAGT +AGCGAAGACTTTGCATATCGGTAACGACAATAAACAGCAGATCGTTGCGTTTGCGTACGGCTTCCGCGAT +GGCCTGGATGCCACTCTCCTGCGGTTTTTTCTGCAAGCCCTGACGGATTTCCGGCGAGTCGGCGAGGGTA +CGCGCCACTGCCAGTGCCTTGTTGGCTAGCCCATCTCGCGTCATATCACTGATTTGCGAGAAGTAAATCA +GATGCACCACCAATAGCACCGAGAACAGTACCGCACTGACCATTAAGATCACTGTGGTACTCAATTTCAT +CGGACGTTTGCGTAACATGCGGTAGGGCAATGAATGTCTCATCAGCTTCCTTGTGTGACAAATTTCTTAA +GCATTATCTCTGATGAGGCGGGTAATTCAAAGGGAGTAAGAATGATTGGCTATATAGGGGAAGAGACTCT +GGCAACGGAAACTGCCAGTGCTGTATGAAGATTCCGGGGCTATGCTTATAGCGATAATCATACTGATGAG +AGAGGGAAGGTCATGGATCAGGCGCTACTGGACGGGGGTTATCGCTGTTATACCGGCGAAAAGATCGATG +TCTATTTCAACACTGCGATATGTCAGCATTCTGGCAATTGCGTACGTGGCAACGGCAAGTTATTTAATCT +CAAACGAAAGCCGTGGATCATGCCGGATGAAGTCGACGTCGCCACTGTGGTTAAAGTGATTGATACGTGC +CCGAGCGGCGCGCTGAAATACCGTCATAAATAAGCGAGGGTAAAATGGAAATACGCGAAGGCCACAATAA +ATTTTACATTAATGACAAACAAGGCAAGCAAATCGCTGAAATTGTCTTTGTGCCGACCGGAGAGAATTTA +GCGATTATCGAACATACCGATGTCGATGAAAGCCTGAAAGGGCAAGGGATTGGTAAACAGCTGGTTGCGA +AAGTCGTGGAAAAAATGCGTCGGGAAAAACGAAAAATTATCCCATTATGCCCATTTGCGAAACATGAATT +TGATAAAACGCGGGAGTATGATGATATTCGCAGTTGATGGGAGAGTACAGAGTCACGATATTTTTCATTC +TCTCCGCGATGTGATGCAGGAGAGCATCTGAAGGGTAGGGGGATGCACAAAGAATGGGCAGAGAGCGCGT +TTTTTTGTCCCAAGTCATCCCCTTTACTGAGCAAAAAAAAGAATATCTCCTATATGAGAATCATCAATCG +GGGTTAATAAGTTTTGCGTCCCCAGAGCGTTTAATATTGATAGGAGTCATATTATGGAAGGTAAAAACAA +GTTCAATACTTATGTTGTTTCTTTTGATTATCCATCATCTTATTCCTCAGTGTTCTTAAGATTAAGATCA +TTGATGTATGATATGAATTTCTCCTCTATCGTGGCTGATGAATATGGGATACCACGACAATTGAATGAAA +ACTCCTTCGCAATAACGACATCGTTAGCCGCAAGTGAAATCGAAGATTTAATCAGGCTCAAATGCTTAGA +CTTACCGGATATTGATTTTGACCTCAACATTATGACAGTTGATGACTATTTCCGTCAGTTTTACAAGTAG +CCAGGAAGGATAAGAAGAACATAAAAAATGGCACTATTCTCTAAAATATTAATTTTTTATGTGATTGGTG +TGAACATATCCTTTGTCATTATCTGGTTTATCTCACATGAGAAAACACATATTCGTTTACTTAGTGCATT +CCTGGTCGGAATAACCTGGCCAATGAGTCTGCCTGTGGCATTACTTTTTTCTCTCTTTTAGGAGCTGTAG +TTGAGTGGACCCGCTGGTTATCGTGAAACGAAGCGTCTCTCCTCAAAACTGGATTTGCGGAACGATGAAC +GAAGCAGTCGCCTGACTGCTTCGTTCATTAAAGTGAAATTTATTTCTGTGGGCGCATCGCCGGGAAGAGA +ATAACGTCGCGAATAGTATGGCTGTTAGTAAACAGCATAATCATTCGGTCGATACCAATACCCAGACCAG +CGGTTGGCGGCAGACCATATTCCAGCGCAGTCACGTAATCTTCGTCATAGAACATGGCTTCGTCGTCACC +TGCAGCTTTAGCATTAACCTGTTCCTGGAAACGTTCAGCCTGATCTTCTGCGTCGTTTAATTCGCTAAAA +CCATTACCGATTTCACGACCACCGATGAAGAATTCAAAACGGTCGGTGATTTCCGGGTTAACATCATTAC +GGCGTGCCAGCGGGGACACTTCTGCCGGATATTCCGTAATAAAGGTTGGCTGAATCAGATGTGCTTCTGC +CACTTCATCAAAGATCTCTGTGACAATACGTCCCAACCCCCAGCTTTTCTCTACCGTAATACCGATAGAT +TCAGCTAATGCTTTAGCAGCATCAAAATTATCCAGGTCGGCCATATCGGTTTCTGGACGATATTTTTTGA +TTGCTTCGCGCATGGTGAGTTTTTCAAACGGTTTGCCGAAATCAAACACATGCTCGCCATAAGTGACTTT +AGTGGTACCCAGAACCTCTTGTGCCAGGGTGCGGAACAGTGACTCTGTCAGTTCAATCAAATCGTGGTAA +TCCGCATACGCCATGTAGAGTTCCATCATTGTGAACTCAGGATTATGGCGAACAGAAATACCTTCATTAC +GGAAGTTACGGTTGATTTCGAATACCCGTTCAAAACCGCCTACAACCAGACGTTTCAGATACAGCTCCGG +CGCGATACGCAGATACATATCTAAATCCAGAGCATTATGATGGGTAATAAACGGGCGAGCAGATGCCCCA +CCTGGAATTACCTGCATCATCGGGGTTTCTACTTCCATAAAGCCGCGCGCGACCATGAATTGACGGATAG +CGGCCAGAATTTTTGAACGGACAACAAACGTTTGACGGGATTTATCGTTAGCGATGAGGTCCAGATAACG +TTGACGATAACGGACTTCCTGATCCTGCAGACCATGGAATTTATCTGGTAAAGGACGTAGTGCTTTAGTC +AGCAGGCGCAGCTCAGTACAGTGAATGGAAAGCTCACCCGTTTGCGTCTTAAACAGCGTACCGCGGGCAC +CGATAATGTCACCCAGATCCCATTTTTTAAACTGATCGTTATAAACACCTTCTGGCAGGCTATCTCTTGC +AACGTACAGTTGAATACGGCCACCGACATCCTGCAACGTTACAAAGGAGGCTTTCCCCATGATACGACGG +GTCATCATTCGGCCAGCAACCGAGACTTCAATGTTTAAGGATTCCAGTTCCTGGTTATCCTTCGCATCAA +ACTCTTCGTGCAACTGGTCAGAGGTATGGTCGCGGCGAAAATCATTGGGAAACGCCACACCTTGCTGACG +TAGTGCCGCCAGTTTTTCGCGGCGATTTCTCAGTTCATCGTTAAAATCAATAGCCTCATTGGCTCCCCGT +GTTTCTTGTTCAGACATTTTGGTTCCTCTAAATCCAGCTTTCAATTTAGCGTAGATAAAGAGACAGATCG +GTACACTGTATTATCTGCCTCGACTATTAGTAACTCAGTTTATCTTATCGAAACTAACGCTTACCTCAAG +TTGATATCACTAATAAATAACCATCAAAATGGTTTAAATGACTTATTAATCTCGATTTGTTAGTGTTATA +AACTGAAAGTTAATTTATTCATAACCAATTGTTTTTACGACAGTTAATCGTTGCTCTCCTGTATCATATT +CGTCGGCGTGCTAAACAGAAAACGGGTAGCAAAGGCCAATACGACGATGATCGCGACACAAGCCAACGTC +CACTCTCCCATCTGAGAAAAGAATCGCTGGTAAGCTGCAATTGCCATACCGCTAATTTGCGACTCTGTCG +TCTGCTGTGCCACGACGCCTGCCAGCCAGTTGGCGACCGCGCCTGTTGCCAGCATATAAATCCCGGTTAA +TACGCCAGACATTTTCAGACGCGTGATTTGCGCAATCGCCACCGGGTCAATAAAGAGTTCGGCAAAGCCC +ATTAGCGCCAGCCCGGATATCATCACGCCCATTGACGCTTGACCGTCAGCCGCTGCATGTCGGGCATCAA +ATGCCAACAACATAAAGCCACAAGCCATCAGCAGTAAGCCAAAGGCAAACTTCAGCCAGACGCGCAATGT +TGAGTTGCCGCGGCTTTCTGGCGACGCCAGCCAGGCCAGTACAACCCCAGCGAGCATCACCGCAATTGCA +TTCACCGACTGGAATAGTGCTGTAGGTACTTCAATATTGAATGCCTGACGATTCACAAAGCGATCGATAA +ACAAGCTGATGGTACTGCCGCCCTGTTGTGCCAGTACCCAGAACAATGTCCCGACAAACATCAACAATAC +AATTTGCCAAAGAGCACGGCGATGTTCGGGGAATTTGATCATCATGCGGGCAATGATTTGTGCGGCAATG +AGGCAAACGATCGCCAGCAAATATCCGGACCAGTCGTTCTCCAGCAGCAGAGTAAAAAATACTGGGGCTA +AACAGAGCATCACCACTAACCAGCTCCATACTGGTAAGGCAAATTTGACACTAGTGAGCGCTTTTTTATC +CATACTACGTGTGGACTGGAAATGACGATGACCGCTTAAGAAAATCAACAAACCGATAAACATGCCGCCA +CCCGCAAGGGCAAAGCCAACATGCCATCCATACCACTGAGCAGCCAGGCCGCAGGCGATTGGGGCTGCGA +TAGAACCGATATTGCCCGCAGCATACAGCAGCGAAAAACCGCCATCACGTCGATGATCGTTCTCGTCGTA +GAGCTCGCCAAGCAAACAGCTGATGTTTGATTTGAATAAACCGTAGCCACAAATAATGATTGCCAGCGCC +AGATACAGGCTAAAGGTTGAATTTGTATCAATACCCAGCACCACATGGCCAAGGGTCATTAACAGCGCGC +CGGCAATCACTGCAGTGCGGTTGCCGAGCAGGCGGTCGGCAAGCCAGCCGCCGAGAATAGGGGTAACGTA +AACCAGAGAAGCATATGCGCTGAACAGGCTGATGGCATGGTTATCATCAAAACCAAGCTGATGGGTGAGA +TAGAGAATGAGTAAGGCACGCATGCCGTAAAAACTGAAGTACTCCCAGATTTGGATCGCCACGATATAGT +ATATCGCGCGCGGCTGTGAGGGTGTTTTCATGTGTTCTCCTTATGAGCAAAAAAGGGAAGTGGCAAGCCA +CTTCCCTTGTACGAGCTAATTATTTTTTGCTTTCTTCTTTCAATACCTTAACGGTATAGCGGCCATCAGC +CTGACGGTATGCACCGTGAATATCGGTTTCAAAGCCCGGATAGTGAGCGCCGATTTCACACAGCATCTGC +AGGAACTCCAGAACCGGACGGCTTTCTTCGGTGATCATTTCACCCGGCATTACCAGAGGAACTCCCGGCG +GGTACGGAAGGATCATATTGGCGTTAATACGACCTACCATTTCGTCGAGGTAAACTTCTTCGGTCATACC +GTGCAGCTCTTTCTGGAATGCAGCATACGGAGTCATTACCATCGTCGGCAGCACTTCAAATGCGCGATAC +ATCAGATCCGGCAGATTGTGGTGAACAATCAGTTTGTGGATATTCTGAGCCAGTTCCTGAATACGCATGT +TTTCATAGAATTCAGGATCTTCACGATACAGAGACGGCAGCATGTTTTTCACACGCAGGTTCAGGTCGAA +CGCACGTTTAAAGTCAGTCAGAGCACGCAGCAGGCTCAGTGCTTTGGTCTTATCGATACCGATGCTGAAC +AGGAACAGCAGGTTATACGGACCGGTTTTCTCAACAACGATGCCATGTTCGTCGAGGTATTTCGCCACGA +TGCTGGCCGGAATACCAAAGTCGCTCATGGTGCCGTCTTTTTCCATCCCCGGAGTCAGCAGGGTGACTTT +GATCGGGTCAAGATACATGTGCTCGTTATCGATGTTTTTGAAGCCGTGCCAGGTGCTGTCAGAACGCAGC +GGCCAGCATTCAGTCGTATCGATATGATCCGGCTGCCATACATCAAAGAACCAGCCATCAGATTCCGTTC +TCAGACGTTTGATCTCTTTACGGAATTTGATCGCACGTTCAATAGAACCGTTGATCAGACGCTTACCTGC +ATTGCCTTTCATCATCGCCGCAGCGGTTTCAGTGGACGCCACGATACCGTAGTGCGGAGAAGTGGTGGTG +TGCATCATGTAGGCTTCGTTAAAGGTTTCTTCGTTTACGTCACCTTTAACGTGGATCATGGAAGCCTGAG +AGAACGCCGCCAGCAGTTTGTGAGTGGACTGGGTTTCGTAAATCACTTTCCCTTCTACACGGCCACCGCT +CATACCGCATTTACCTTCGTAAATCGGTGAGAAGTTGGTGTAAGGCACCCACGCGGAGTCAAAGTGGATG +GATTTCACATCCAGTGTTTTCTTGATGAAGTCGGTGTTGTACAGCAGACCATCATAGGTAGAGTTGGTAA +TTACAGCATGTACCGGCCAGGTTGCGTTTGGTGTTTCTTTCACGCGCTTAGCAATGGTAGCGTGCTGGAA +TTCACTCTGTGGGATACCACCAAGAATACCGTAAGCGTTACGGGTCGGGCGGAAATAGATTGGCGTAACA +TCGCTCATCATCATCAGGTGGGTCAGCGATTTGTGGCAGTTACGGTCAATCAGAATGGTGCTGCCTGCTG +GAGCAGAGTACATACCAACAATTTTGTTCGCAGTGGAAGTACCGTTGGTCACCATGTAGCTGCGGTCTGC +GTTAAAGACGCGAGCGATATACTGTTCTGCTTCTTTGTGTGGACCACTGTGATCCAGCAGAGAACCCAGT +TCAGATACTGAAATGGAAATATCAGATTTCATGGTATTCGGACCAAAGAAATCATAGAACAGGCTACCTA +CCGGGCTTTTCTGGAATGCAGTACCGCCCATGTGACCAGGAGTACAGAAAGTATATTTACCTTCACGAAC +ATATTTAAACAGTGCTTTAGTCAGCGGAGGCAGAATAGTGTTGATATATTCGTCAGTGGTCTGCTTGATC +TTATTAGCAATATCTTCAGCAGCACCCAGCGCATATTCAAAGAAGCTAATCTGTAAACGCAGGTCATTCA +GGCTTACATCGAGAGTGGAATACGTATTAGCGAACGCGTACAACGGCAGGTTCTCGTTCATTTTGCTAAT +TTCTTCGCACAGCTCGAGATTATATTTATCCCAGTCAAAAATAACGCCGCACAGACGCGCATTGTTTTCG +ATCAGTTTTAATAAGTCGTCACGGTCGTTCGGGTAAACAATCTGGAAGTTCAGACGTTCAAGCGCGCGAT +GAAGTTCACGGATGGGTTCTTCTTTAAAATAAACCCCCATGTGATTCAATATTGCAATAACGTTCATAGT +CATATCTCCAGGTAAAAAAGGCCCCTCCCAACACATGGGACAAAATGAAAGGAGGAGCCTCGGAAAATAC +TTTTAATTAATGTGCGTTAGACGCGGTGTGGTTATCCATTGAGTGGCTCTGGCGCTCGTGCATTTTGCGA +GCGTAGAACATCAGGATAATCAGGCTGACGATGAAGGTACCTGCCAGCTCGAAGGAGCTTGCGCCCATCA +GCGCGATGAAGCAGAACACGCAACCCAGTACAGAGCAGATCAGGCTGACAAAGTTGCGGATGTTAACGCC +TTCAAAACGAATCAGGTCAACGCAAGAGTAGAAATACGGCAGCATAGTCAGCAGTACTGCGATACCGGTC +AGTTCACCGAACAGGTCAGATGCTTTACCACCGGCAGAGTTCATCAGAGTGATAAGGATCATCAGGGCAG +TCATTTTCACTGCAGCCAGCAGCAGACCTTTTTTCGGAATACCGTTGCTGTCGACTTCACCATAAACTTT +CGGGAAGTTACCGTCGTTAGCGGCACGTACACCTGCCTGGCCTACCAACATCATCCAGGAGCCCAGAGAA +GTCAGGCACGCAAAGGCGGTGAATGCAGAAACCAGCGGCGCAGCCCAGTTACCGAGGATAGTTGAAGCAC +TGATTGCAAACGGAGCACCGGAAGCCGCCATTACAGAAGACGGATACATACCGGAAAGCACCTGAGTCGC +AGCGATGTAAACAATACCTGCTAAACCAGTACCCAGCATGGTTGCCAGCGGAACGGTACGTTTCGGGTTT +TTAACCATACCAGTACTTACAGCTGCGGATTCAACACCCACGAAGGCCCACAGGCAGAGCAGAATACTTT +TAATGATCGCATGACCATCAGTGGTATCCGCAGTATTCCAGTTAGCTGCATAAGTTGCCGCATCAAACCA +ATGCCAGCCAACAATAGCAGTCATCACCACAGGAATAAGAACCAGCACCAGACCAATAGTGGTTAAACGG +CTTACCCAAGTACCGCCGAGCATATTTACAAAGGTAAATACCCAGACGATAGCAATACAGGCGATACCCG +CCGGAACAGGATCATTTAATACTGGGAAGAAGGTGGAAAGATAAGATACAGCGGTAATACCAATCGCCAG +GTTACCAATCCAGTTAGCATGGTAATAAAGAACACCTGTCTGAAAACCAAATGCAGGGGAAATTTCTCCG +GCATAAGCAATTGGGCCACCTTGTTGCGGGTTTTTTGTTGCCAGTCGGGCATATACATACGCCAGCGACA +TTGCACCAATAATAGAGATAATCCAACCCCAGATAGCAATACCACCGATACTTGCTAGGTTCGCAGGTAA +TAATGCAATACCGCTCCCCATCATATTACCGGCAACAACACCGGTACAGGCAAATAGCCCGATCTTCTTG +GCAGAACTCATGCTCTTCTCCTAATTTCATTTTTGAATTTGGAGTCCGGGTCATGATGTATAACTATTTC +CTGACCAGACCAAACTGGCGATAAGATTACTCACGAAAAAAGGATTAATCCTAAAGATTAGGTGAAATAA +CACAAAAGTTTCTGTAAGTGAGAACTTGAGGTTTTTTATTAACACATCAGGATCGCAAGTTGATATCATG +AAAAGATAAACATTTAATGTTTACAATGGATTGCGTGACATTCTCTGGTTAAATTTATGTAATAAAAATT +ATGCGGCAAATAAATTGCCGCAACATATTATACCAACAGGAACATACAAAAACTCAACAACAAATATTTC +CGAGCATAAATCAACCCGGAGTTACTTATTCTGAAGCAAGAAATTTGTCGAGATAAGGTACAACATAAGG +AACAGAAGTCTGGAATATACCATTTTCAATCCAGTAAAGGGTGTTTGCCCCTGGGCGTAAATTAAAGGCG +GTGAGATATGCATCAGCTGCTTCCCGGTTCATCCCCTTCATTTCATAAACCTTGCCAAGCAACACATAAT +TTAGCCAGGACATTTCAAGATCAATGCCAGTATTTATCGCCTGGTAAGACTCATCTGTTTTACCTTTTAC +CAGAGCACTGACCGCTTTTATTTGATATATAATGGACAGGTTGTTCAATTCCGGCAGTGTAACAATGTTA +TCTATTTCTGTGTTCAGTGCTGCTAATTGTTTTTCATCTAAAGGATGTTGAGAATGGCGCACGATATCAA +CTAATGCTTTTTCTGCTCTCGCGTAGGTAAATTCTGGGGATGATTGAACAATCTCACCTAATAATTCACT +GGCACGGTTCAATGATTTATCATCGCCATGCAGTAAATAATCATGTGCCTGATAAAAATTAGTTAATAAC +GCACCACGATGCGGCAAAATTTTCTGGAGCGTCTCCTGCATTCGTTGTGGCCACGGTTGGTTTAACGCTT +TTGATAAACTCTCCAGTAAATCATTTTGAATCGCCAGCTGATTACCGTTAGTGATGACATAACGTTTATC +CAGCATGGTTGAACCATCTGCATTGTCTACCAATTTTATCGACATAAAGCATTGTTGAGCACGGTATTGG +CGCTGATTAACAAACGCAATAGATAATGTTTTACCGGAACTGCTCGGTTCATCAATGTTGTAGTTGATTT +TGTCATGCACCATAAAGGTGGAGAAGGTGTTAAGTGATGTCGCCACCAAATCACCCACGCCTATCGCGTA +AGAGAGCTGATACGGGGAACTCCAGCTGTTACAACTTTTATTTACCATATTAATGTCAATATCGCGTGGA +TTGAGCAAAATACGCGATTTGCTCATAGGAAGACGTGTATCAAGACTTGAAAACGCTACCAGTGCTACAC +AGATACCTAACGACAACAGGAAAAAAAACCATACCCAAAAGGTAGTGAATCGTTTGCTTTTAACTGGGGA +TTGTTCAGGTGGCGTTGCGGTGTTTTGAATGTTAAGACTGTGGGAGGGAGAATCTGTGGCAGGAACCGCC +TCTGGTATAGGGGGAGGCGAAGATAGCATTATTTCCTCTCCCTCTTCTTCGCTGTACCAGATAACCGGCA +CCATTAATTTATAGCCGCGCTTTGGTACAGTAGCGATATAGACAGGACTATCTTCATCATTATCTTTTAA +TGACTTACGTAGTTCTGAGATACTCTGCGTCACAACGTGATTGGTGACAATACTTCTCTTCCAGACATTA +TCGATAAGTTCATCCCTGCTAAGTACTTCGCCACTGTGTTGAGCAAAGAAAACCAGAAGATCGATTAATC +TCGGCTCAAGGGTAAGTTGACGCCCATTGCGGCTAATTTGGTTTATGGACGGAGTAACAAGCCATTCGCC +AACGCGAACTACAGGTTGTTGCATAATAGAAACTCATTCGAAAAGGGAATGATGCAATGATAATTGCCAC +AACCTATTTTTACCATCTATAGATGGGTTTATTTACATATTATTGGTGAATGCAAGACGTTATTTTTACC +AGCCATAAACTTCTTGATTACATAGTATTACGAAAGGATTTTACTGAGAACCAGAAGTAATATTCCTTAC +CATCAAAATTCATCATCTTTGCCAAAGAAAAATGTTCAGAAAATAATCCATGGAAAATTGTCCGGAGCAC +TTACTATTTTAATGGATTGTTAGTCTTTGCATGAGCAAGCGAACTGATACATTTCTCTTTGTTCTCATTC +AGAAAATCTCATCAGTCGCCGTTCAGACCGGTGTTGTGCTTTATGGATGCGTTACGCTCCTGATGACGTC +ATTTGACGTTCAACAGCATCACGGGGCCGCACGACATTTCACGTCAGTTAGTGCTATAGCTCAGGAACAA +ATTTTCCCGAATTGGGATATGCCCGCAAATTGCTGGTGATGTGGGGAGAATCTGGTTGAGTTCGGTAGAA +TTGATTTGGAGGCAGAACGCTTAAATCGTGGCGTCCTGAAACGAAAAACGGACCTCCGTGGAGGTCCGTT +TATATGAATTTGGTGCCCGGACTCGGAATCGAACCAAGGACACGGGGATTTTCAATCCCCTGCTCTACCG +ACTGAGCTATCCGGGCAACGGGGCGCATTAAACCGTAATCTGCACATCTCGTCAACCTAATTTCAGTAAA +AGCGATTCAACTGCTTAAGATTGCGGCAAATCGCTTCTTTTCTGTGTTTCTGTCAGGTCAATGCACCACC +CTGGCGGCAGCGGGCGAAGCGCAGGATATCTTCCGCCAGCCGATGTGCAGTGTCGACATCCGCCTGGCTA +CGATTCACCAGCATTCGGCTTAAACAGCCTTCCAGCACCAGTTCCATCTGCTTTGCTACCATCGCCGGAT +CGTCAACTTCCAGTGTGGTTAACAGTTCGTGGGTGAAATCGTAGGCCGCGCTTTTTTGCTGATCGGCCAG +TTGATGAATAGGGTGGCCAGGATCGGGATAAAACGTACAGGCAGCGATAAATAGACAGCCCGGATAGCGG +TTGTTTTTAACGCACTCCGATAACGCCTGATAACGTGCCAGCAGCTTTTGTTCGGCGGTTTGCGTTTCGT +CCAGCATCAGCTGACGACGCCAGACATCTATCTGTTGGCTAAGATAACGCAGCGCATCGTAGAGGATTGC +CTCTTTGTCTGGCCAGAAGCGGCGTAGCTCGTCCAGTGGATAATCCACACGTTCAGCAACCATCTCCAGC +GTGGTGTTGGCAATCCCTTGTAATTCTAATAATTTCAGGGCTTCTCCCAGTACATCTTCACGTTGCACGC +TATTTTCCTCCGTCTTTCCCACTGCAAGTGTCGTTCACGGTTGGCGATCGCGCAAATGTGCGCTGAAGGT +TTCAGCATCCATAAAGCCCGTGACGCGTGCTTGTGGATGCTCCTGGCCTTGTCCGTCAAAAAAGAGAATT +GTCGGTAGGCCAAGGACATTAAGATGCTTTAACAGCGCCACATCTTGTGCGTCGTTGGCCGTGACGTTGG +CCTGAAGTAAGACCGTGTCTGCTAACGCTTTTTGCACCTGCGGGTCGCTGAAGGTGTATTTCTCAAACTC +TTTACAGGCGACGCACCAGTCGGCATAAAGATCTAACATCACCGGTTTGCCTTTGGCTTCAACGAGCGCC +TGATTTAACTCATCTACCGTTTTGATTTGTGTAAAGTTGAGATGCGTCTGAGTTTGCGCGGTATGCGTCG +CACCAAATGCCCAATCCTGAAGTGGGCGCACGCTAACCAATGCCGCTGCCAGCAGAATAATTTGCACAAT +ACGCATCCAGCCGCGTTTAGCCTGTAGGCTGGTGATAAAGGCCCAGCCAAAGAATGCGACACCCAGCGCC +GACCACAAGCGTAATCCCCATACATCACCAATCACTCGCTCCAGCAGGAAGACCGGCAGTGCGAGGATCA +CAAAACCAAACGCGGTTTTGACTTGTTCCATCCACGGGCCGCTTTTCGGCAGCAAGCGGTTACCAAAGAC +GGTAATTAGCATCAGCGGCAGGCCCATGCCCAACGCATAGAGATAAAGCGTGCCGCCGCCCAGCCACATG +TTCCCGCTTTGGGCGATATACAGCAGAATCGCGCTAAGCGGTGCGGTGGTGCATGGTGAACAGATCAGTC +CGGCAATCGCCCCCATAACAAACACACCGCCAGGTGAGCCGCCCTGTTGGCGATTGCTCATCAACGTGAG +ACGTGTTTGCAGCGAAGAGGGGAGTTGCAGGGTAAACAAGCCAAACATTGACATCGCCAGCAAGGTAAAG +ACGATGGCGAGGCCAATGAGCACGTATGGGTGCTGTAGCGCCGCCTGGAACTGTAACCCTGCGGCGGCAA +CCACCAGACCCAGCGCCGTGTAGGTCAGCGCCATCCCCTGCACATAAATAAAGGTCAGCAACAATGCTCT +GGCAGTGGAGAGCCGCTGTTTACCACCCAGCACGATGCCAGAAATCAGTGGGTACATTGGCAGCACGCAT +GGCGTAAAGGCGATACCAATACCGATCAACAACGCCCAGAGCGCGGAAAAGGGCAATTGCGCGGTGGGCT +GCTCTTGCTGCGGAACAGACACAGGCTGTGGCGCTGCGTTGTTGGCGACCACTTCGCTTAACGGAACGGT +TTTGGTTTCTGGCGGATAACAGAAACCGGCATCAGCACAGCCCTGGTAGGTGACAGTTAACGTCGCTCCC +GCACTCGCCTGGTTGATGGTGACGGGAAGCGTCAGCCGATCGCGGTAAATCTCGCTTTTGCCGTAAAACT +CATCTTCATGCCAGACGCCTTGCGGCAGCTGCACGTCGGCAATTTTCGCGTGTTCCGGCGTAATGCGGAT +CTGTTTACGGTAGAGGTAGTAACCGTCTTTGATCTGCCAGGTCAGATTAAGGTCATGTTGGTTTTGCTGA +AAATCAAAAGCAAAGGCTTGATCCGCGGGGACAAATTGTGAACGTCCCGGCGCGTCGAATAATCCGGCAA +AAACGGAAGTGCTGCAAAGTAGCAGGATCAGCGTAAAGATGCGTTGAGCCATGAGAGGTAATCTGTGTCT +CCGTGTGTAACAGGTAAAACCAGAAGTTCCGGGGTTTGATATGGATGATGAGACTTCAGGCATTCCAGCA +GTGCCTGCTGGTGAGATACGGTAGTTTTTAAAATCATCTGCACTTCGTATTCTTGCTCCAGCTTACCTTC +CCAGTAATAGAGAGAGGTAGCGCCGGGGATCAAGGTCGCGCAGGCCGCCAGTTTTTCCGCCAGCACTTTG +GCGGCTAAATCCTGGGCTGTCGCTTCATCTGGTGCCGTACATAGCACCACGACAGACGCGGTATTCGAAC +TTTTTTCATCAAGCATAAACACCTCGCAAGAACAGATGGAACCGCAAGAGAGAGGTCACTATACAACGGA +CGGGGGAAGGATGTTAGTCGGCGGGAAAGAAAGCGGGGCGTGAACGCCCCGCGATTGATCATTACAGCAT +GAAGCTACCCAGCACGAAGCCGAAGCAAACGGCCAGGGCAACACCCAGAGTACCCGGGATGAAGAACGGA +TGGTTGAAGACGAATTTACCGATACGGGTAGTACCCGTGTCATCCATCTGTACCGCAGCAACCAGCGTCG +GGTAGGTCGGCAGAATGAACAGACCAGACACCGCAGCGAAAGAAGCAACAGCGGTCAGCGGTGAAACGTT +CAGTGCCAGAGCCATCGGCATCAGTGCTTTTGCGGTTGCAGCCTGAGAGTACAGCAGAGCAGAAGCAAAG +AAGAAGATGACGGCCAGCAGCCACGGATGACCCTGAATCACTTCACCAGCGGTATCTTTGATCCAGTCGA +TGTTGTTGGAAACGAAAGTATCGCCCAGCCACGCAACACCCAGGATACAAATACAGGCGCTCATACCTGC +TTTGAAGGTGCTGGAGTTGAGGATGTTGTCGGTATCGACTTTACAGATAACGGTGGTCAGAGTTGCAACG +CTGAGCATGATGATCAGGATTGCGTTGGTGGTGTTCATCAGCGGTTTTTCAACCAGACCCATGCTTGGGC +TGTTGATGATTGCATAGATAACCACGCCAACTACGCCCAGCAGGAACAGCCAGACGGACGTTTTTGCACC +GGATTTGATTTCAATCTGCTTTTCACCGCGCAGTTCAACCAGGCCCTCTTCCAGACGCTTGCGATAAATC +GGATCGTCAGAGAGTTTGGAGTTGAACAGCATAGTGACCAGGAAGGACATCACCAGAACCGCCAGCAGGG +TGGACGGGATGACCACGGAGAGCAGATGGAGGTAGCTGATGCCATGACCTTCCATCACGGAAGACATGTA +AACCACTGCCGCTGAGATTGGCGATGCGGTGATCGCAATCTGCGCGGATACCACTGCAGTAGACAGCGGA +CGGCAAGGTTTAACGCCTTGTTCCTTCGCAACTTCAGCGATAACTGGCAGTGTCGCCAGAGAGATGTTGC +CAGTACCAGCAAAGATAGTCAGGAAATAGGTCACGATCGGTGCGAGGATCGTGATGTATTTCGGGTTACG +GCGCAGCAGCTTTTCTGTCTGATGAACCAGATAGTCCAGACCGCCAGCAACCTGCATGGCAGAAATAGCG +GCGATAACCGCCATGATAATGGAGATGACATCGAACGGGATGTTACCGGGTTTAACGCCAATAGCGGCAA +GAACCAGCACCCCCAATCCGCCTGCAAAACCAATACCTATTCCCCCCAATCTGGCGCCCAAGAAGATCGC +CAGCAAAACTATGATGAGTTCTACAACTAGCATATTAGCCTTCCTTGTTTTTTAACAAGTTGATATTAGA +TTGTTATTTTTAAGTTACTGCTCACAAGAAAAAAGGCACGTCATCTGACGTGCCTTTTTTATTTGTACTA +CCCTGTACGATTACTGTTCGCTTTCATCAGTATAGCGTTTTGCTTTGTAAGCCGGGTGCATCAGATTCTG +TACGGAGAAAATATCGTCAAGTTCCGCTTCAGTCAACAGACCGCGTTCCAGAACGACTTCACGTACACTC +TTACCGGTTTCGGCACAGATTTTACCCACGATGTCACCGTTGTGGTGACCGATGAACGGGTTCAGGTAAG +TAACGATACCGATAGAGTTGTAAACGTAACCTTCGCACACTTCTTTGTTAGCAGTGATGCCGTTAATGCA +TTTTTCCAGCAGGTTGTAGCAAGCGTTGGTCAGAATGTGAACGGATTCGAACATGGCCTGGCCAATGACC +GGCTCCATAACGTTCAACTGCAGCTGACCTGCTTCTGCTGCCATGGTAACAGTGGTGTCGTTACCGATGA +CTTTGAAGCATACCTGGTTAACCACTTCCGGAACAACCGGGTTTACTTTAGCTGGCATGATGGAAGAGCC +CGCCTGCAGTTCCGGCAGGTTGATCTCGTTCAGGCCGGCACGTGGGCCTGAAGAGAGCAAGCGCAGGTCG +TTACAGATTTTGGACATCTTCACAGCCAGGCGTTTCAGCGCGCCGTGAACCATAACATAAGCGCCGCAGT +CAGAGGTCGCTTCGATCAGGTCTTCAGCCGGTACGCATGGGAAGCCAGTAACTTCAGCCAGTTTTTTCAC +TGCCAGCGGAGAGTACTCTTTCGGCGTGTTCAGACCAGTACCGATTGCTGTTGCACCAAGGTTAACTTCC +AGCAGCAGTTCAGCGGTACGTTGGATGTTTTTCACTTCTTCTTTCAGCAGGATGCTGAAAGCGCGGAATT +CCTGACCGAGGGTCATCGGTACTGCGTCCTGCAGCTGGGTACGACCCATTTTCAGGATGTCCTGGAATTC +GACAGCTTTACGTTCAAAGCCTTCACGCAGTTGGTTAATCGCATCTACCAGCTTAATCAGGGAAGAGTAA +ACTGCGATACGGAAACCGGTCGGGTAGGCGTCGTTAGTGGACTGACATTTGTTAACATGGTCGTTCGGGT +TCAGGTACTGATATTCACCTTTTTGGTGACCCATCAGTTCCAGACCGATATTGGCCAGCACTTCGTTGGT +GTTCATGTTTACGGAAGTACCTGCGCCGCCCTGGTAGACGTCTACCGGGAACTGATCCATGCATTTTCCG +TTGTTCAGGACTTCATCACATGCGGCAATGATGGCATTCGCTACACTTTTAGGAATGGTTTGCAGCTCTT +TGTTTGCCATAGCTGCGGCTTTTTTAACCATTACCATACCGCGAACAAATTCAGGAATATCACTGATTTT +GTTGTTGCTGATATAGAAGTTTTCAATCGCTCTCAGAGTGTGAACACCATAGTAGGCATCAGCTGGAACT +TCCCTGGTACCCAACAGATCTTCTTCGATACGAATGTTGTTTGACATGTGAACCTTCTTTTTCAAGCTGC +CAATGATTTGCTTTAAACACACAGAATATATGTGGTTTCGAATGTTTTTCGACCGACGATTATCCCCTGC +ATCGACCGAATACCCGAGATCATATGCTGCTTGAGGATTTCTACCGTAATCTGGATCACTTTAAGTGTCG +GTTTTTACCCCTTAATTATTAATTTGTGAAATAGATCACCGCTTTGGGATTACTACCAAAAATAGTTGCG +CAAACATCTTGAAATTTTGCTAATGACCACAATATAAGCTAAACGCGATTCGCAACCCATTCAGGTAGCC +GGGGTTAACCGGCTGCTATTACAGGAGAAACCTTTGCGCTGGTTACCTTTTATTGCCATTTTCCTTTATG +TCTATATTGAGATTTCAATCTTTATTCAGGTTGCCCATGTATTGGGGGTATTGCTGACCCTCGTGCTGGT +TATATTCACGTCAGTTATCGGTATGTCACTGGTACGTAACCAGGGCTTTAAGAATTTCGTGCTGATGCAG +CAAAAAATGGCGGCGGGTGAAAACCCAGCGGCGGAGATGATTAAAAGTGTTTCGCTGATCATTGCTGGTT +TGCTGCTTTTATTACCGGGCTTTTTTACCGACTTCCTCGGTCTTCTACTTTTATTGCCGCCGGTGCAAAA +GCATCTGACAGTGAAGTTGATGCCGCATTTGCGCTTTTCTCGCATGCCTGGCGGCGGTTTTAGCGCCGGG +ACCGGTGGCGGTAATACTTTTGATGGTGAGTACCAGCGAAAGGATGATGAGCGCGACCGCCTTGATCATA +AAGACGATCGCCAGGATTAATGTCGAAACGCCGGATTATGTGGTTATGCCATTTTCCGGCGTTTTTCGTT +TTGGCAGCAACAGCCATAACCCCGCCAGCATGATCAGCGCATAGAGACTTTTCCAGCCGACCATTGCCAG +TAACAGAACGCATAACAGCCCGCCAACCACCGCCAGTAGTCGATAACGTCCTTGCAATAATTTACAGCCT +GCCAGCATGCATAACAGATAAATCATAATAAAGATGCCATTGGCATAAATAATAAGAGCGTCCAGATTGA +TCTCTAAAGCATGAATCACCAAAGTGCTCACCACACAGCAGCCGAGCACCGCATTGAGGGCATTATTCGG +GATATGGCGAGAAGAGAGGCGTGCCAGGTAGTGGTCAGGATTATGTTGCGCCTGCGACCAGACCAGGCGG +GCGAAGCTCTGTATATAAATGTTGAGACTGGCAAAGCAGGCCAGATAGCCAATCACGCAGGCAATCCATA +ACGCTCCTACACCGAACAACTGCACTACAATTTTTGGAAGCGATGCTGCCGCCGCCATTTTTTCACCATA +GGCGTCGAAGTGTAAGACGACTACCGTACAGCCCCAGTAGACTAATCCTGCCAGCAGCAGACCAATCATC +AAAGCACGAGGAAAATCACGCTCTGGATTTTTAAATTCCGAGGCGAGATGGGCAAATGCCTCCAGACCGA +CAAAACACCAGAACATCACTGATAACGCAGCAAATAACCCGGTAAGTTCGATATTACCAGGTGCCGGAAA +GGGGATATTCGCAGGTTTGATATCGCCCGCCCACCAGATAGCGACAATCAGCGCGACGATAAGTCCGGCA +ATAACGGTTTGTAGATTAGCACTGGAACTGGCACCGCGAGTACCGATATACCACACCAGCGCCAGCGTAC +CGAGTTCTGCCAACAACAGTTGCCAGCTATGCCAGCCAAACATCGCCTGGCCGAACCCGGCGGCAATTTG +TAGTGCGGCAGGCAAACCCACGGGAATGACCGATAAAAACAGCCAGCCGGTGACTCGCTCAAGCCGCGAA +CCAAACGCCATACCGACGAAGTGCGCGACGCCGCCTGCGCTGGGATAGTGGCGACCCAGAATCGCAAACA +CAATCGCAATCGGGAACACTAAGATAATCAAAACGGGCCACGCCCACAGGCTGTTATTGCCCGCTACCAG +CGCAGCTAACGCAGGAACGGCAAACACGCCAGTGCCTAATAATGACGTCGATAGCAGGCCAATGCCCTGG +GCCAGCCCCAGTTCTTGTTTGAGTCCACTCATGGGTTGATGTCCGATTGCGCCCAAATTTTGGGCAACTG +CGTAGATTTTCGATGGTAGCACAATCAGATTCGCTTATGACGGCGATGAAGAAATTGCGATGAAATGTGA +GGTGAATCAGGGTTTTCACCCGATTTTGTGCTGATCAGAATTTTTTTTCTTTTTCCCCCTTGAAGGGGCG +AAGCCTCATCCCCATTTCTCTGGTCACCAGCCGGGAAACCACGTAAGCTCCGGCGTCACCCATAACAGAT +ACGGACTTTCTCAAAGGAGAGTTATCAATGAATATTCGTCCATTGCATGATCGCGTGATCGTCAAGCGTA +AAGAAGTTGAAACTAAATCTGCTGGCGGCATCGTTCTGACCGGCTCTGCAGCGGCTAAATCCACCCGCGG +CGAAGTGCTGGCTGTCGGCAATGGCCGTATCCTTGAAAATGGCGAAGTGAAGCCGCTGGATGTGAAAGTT +GGCGACATCGTTATTTTCAACGATGGCTACGGTGTGAAATCTGAGAAGATCGACAATGAAGAAGTGTTGA +TCATGTCCGAAAGCGACATTCTGGCAATTGTTGAAGCGTAATCCGCGCACGACACTGAACATACGAATTT +AAGGAATAAAGATAATGGCAGCTAAAGACGTAAAATTCGGTAACGACGCTCGTGTGAAAATGCTGCGCGG +CGTAAACGTACTGGCAGATGCAGTGAAAGTTACCCTCGGTCCAAAAGGCCGTAACGTAGTTCTGGATAAA +TCTTTCGGTGCACCGACCATCACCAAAGATGGTGTTTCCGTTGCTCGTGAAATCGAACTGGAAGACAAGT +TCGAAAATATGGGTGCGCAGATGGTGAAAGAAGTTGCCTCTAAAGCAAACGACGCTGCAGGCGACGGTAC +CACCACTGCAACCGTACTGGCTCAGGCTATCATCACTGAAGGTCTGAAAGCTGTTGCTGCGGGCATGAAC +CCGATGGACCTGAAACGTGGTATCGACAAAGCGGTTACCGCTGCAGTTGAAGAACTGAAAGCGCTGTCCG +TACCATGCTCTGACTCTAAAGCGATTGCTCAGGTTGGTACCATCTCCGCTAACTCCGACGAAACCGTAGG +TAAACTGATCGCTGAAGCGATGGACAAAGTCGGTAAAGAAGGCGTTATCACCGTTGAAGACGGTACCGGT +CTGCAGGACGAACTGGACGTGGTTGAAGGTATGCAGTTCGACCGTGGCTACCTGTCTCCTTACTTCATCA +ACAAGCCGGAAACTGGCGCAGTAGAACTGGAAAGCCCGTTCATCCTGCTGGCTGACAAGAAAATCTCCAA +CATCCGCGAAATGCTGCCGGTTCTGGAAGCTGTTGCCAAAGCAGGCAAACCGCTGCTGATCATCGCTGAA +GATGTAGAAGGCGAAGCGCTGGCAACTCTGGTTGTTAACACCATGCGTGGCATCGTGAAAGTCGCTGCGG +TTAAAGCACCGGGCTTCGGCGATCGTCGTAAAGCTATGCTGCAGGATATCGCAACCCTGACTGGCGGTAC +CGTGATCTCTGAAGAGATCGGTATGGAGCTGGAAAAAGCAACCCTGGAAGACCTGGGTCAGGCTAAACGT +GTTGTGATCAACAAAGACACCACCACTATCATCGATGGCGTGGGTGAAGAAGCTGCAATCCAGGGCCGTG +TTGCTCAGATCCGTCAGCAGATTGAAGAAGCAACTTCTGACTACGACCGTGAAAAACTGCAGGAACGCGT +AGCGAAACTGGCAGGCGGCGTTGCAGTTATCAAAGTGGGTGCTGCTACCGAAGTTGAAATGAAAGAGAAA +AAAGCACGCGTTGAAGATGCCCTGCACGCGACCCGTGCTGCGGTAGAAGAAGGCGTGGTTGCTGGTGGTG +GTGTTGCGCTGATCCGCGTAGCGTCTAAACTGGCTGACCTGCGTGGTCAGAACGAAGACCAGAACGTGGG +TATCAAAGTTGCACTGCGTGCAATGGAAGCTCCGCTGCGTCAGATCGTATTGAACTGCGGCGAAGAACCG +TCTGTTGTTGCTAACACCGTTAAAGGCGGCGACGGCAACTACGGTTACAACGCAGCAACCGAAGAATACG +GCAACATGATCGACATGGGTATCCTGGATCCAACCAAAGTAACTCGTTCTGCTCTGCAGTACGCAGCTTC +TGTGGCTGGCCTGATGATCACCACCGAATGCATGGTTACCGACCTGCCGAAAAACGATGCAGCTGACTTA +GGCGCTGCTGGCGGTATGGGCGGCATGGGTGGCATGGGCGGCATGATGTAATTGCCCTGCACCTCGCAGA +AATAAACAAACCCCCGGGCAGAAATGTCTGGGGGTTTTTCTTTTGGTCATCTTTCTAGTATAAGATTCAG +ACACGGACGACGCGAGTGGCGTCCAGCTCATTGATTATGGGGAATAACATGCACGTAAAATACTTAGCAG +GGATTGTCGGTGCCGCGCTACTGATGGCGGGTTGTAGCTCCAGCAACGAATTGAGTGCTGCCGGTCAGAG +TGTACGCATTGTGGACGAGCAGCCAGGCGCAGAGTGCCAGCTGATTGGTACTGCGACAGGTAAGCAAAGC +AACTGGCTTTCCGGGCAACACGGAGAAGAAGGCGGTTCTATGCGCGGCGCAGCAAACGATCTGCGCAACC +AGGCGGCTGCAATGGGCGGTAACGTGATTTATGGCATCAGTAGCCCGTCGCAGGGAATGTTGTCCAGTTT +TGTCCCGACGGATAGCCAGATTATCGGTCAGGTTTATAAGTGCCCGAACTGATGTGATCCAGAGGCTGGG +TGACAAACGTATAATTGCCTGATGCGCTTCGCTTATCAGGCCTACATAAGGCATTGCAACTGATTGAATG +CTTGAGAATTTGTAGGCCGGATAAGGCGTTTACGCCGCATCCGGCATGACCAACGATCACGTTATCAGTC +ATTTCAGGCTGGATGGCTCCAGCCTCGCATTAGCAAAGATGAGATTATTTCGCCTGTGGTGCAGTTTTGC +TGGTGGATTGAACACGTAAGTGATGCAGCGCGCGTAAGCATTGATCCTGGGTTAGCGGTTGGGCGTTATT +CGCCGCTACGGTGCGAACATAGACCTGACATGGCACACCCGCGAGTTTTTTCAGTCGTGGGCTGAAATCA +AGCATTCGGCGAGTGATCGCTTCTATTTCTTTACCCGGCGTTGCTTCACGCGTTTTCACCACTGCGCCGC +TAAATTGTTCTTTGCCACTTTCATCTTTAAAGCGGTAAAGCACCGCCAGATAATGGTCGAACAAGTTATG +TTTCCATTCCGGTTGGGAATAGGTGTCATATTCCAGATTGCCATTGTCCTGGCAGTCAACGTCGTATAAC +GGCAGGAAATCTAACAGTGAGGTAATACGTAATGCCAGTTCACGCATTTCCGCATTATTAATTGCATGAA +TGATTGCTCGCGCCAGCATTTCAATCTGCAACTCATTGACGACTAACTCACATTTGCTACCGTCATGTAG +CGTTAATACGAAGGTAAGATTTTCGCCTTGATTATCGGTAAGTTCCAGCGTGTTAACCCGACGATTAATA +TCGGCATTTTTAAGCTCATCAACCAGAATTTCTGGGATGTTTTCTGCCATTTTCTTAATGACTTTATCGC +GAGCTTGCTCATACTGAAGGTGTGCAGCAGCATCCAGTTTATGCTTTTGATGCAGACGACTTTCCAGCGC +AATCAGCAGGTCGCGCAGTTCCATGACAGACATAAAGAACAACGATTCTTTATTGCGAGGTTCTTTAATT +TTCAGCGCCAGTGCAATGAAATTATTACTCTTGCGAATAACACCGGTATTAACACCCTTGATGCTTATGG +CCATGTAGGTTCTCCCTAACCATTTCTCAATTAAATAATTAATTTTAATTTATAAGCCAGATAAATGGGC +TTGGTAGTAATAGTTGTTAAAATAACATAAATAGCCGTACTCACTCTATATAAACAGAAAAGAAAGGTTA +ATTATTGGTGTTAGCTATATAAAAAGTAACAACAGCAATGCATATGAATAATTAAAGGTTATGCAACGGG +CAAAGATTAAACTTCCCAGTTTAATGACAGGTTGCTGTACTTGCGTTTGTTGCTCTTGCCGGATGCAGCG +TAAACGCCTTATCCGGCCTACAGTTCATTGCAAATCCATTCAATTTCAATGCACGATGTAGGCCTGATAA +GCGTAGCGAATCAGGCAATTTTAATGTTTAACTTCCCTGTTTAATCAGTTACTGCTGGCGTAGCTGGAGA +TCCAGCGGCGTTTTGCTGGGTTCGCCGCCAATTTCTCGCGCCAGTTTCGGCACCAGATATCCCGACACCA +GTGTCAGCAACTCACGCATAATCTGCCGTGCTTCGTCATCACTCACCATAAAATGCGCCGCGCCCTGTAC +TTTATCGAGCACATGCAGGTAATACGGCATTACGCCGGCATCGAACAACGCATTACTCAGGTTTGCCAGC +GTTTGTGCGTTATCGTTCACATCACGTAACAGAACGCTCTGGTTCAGCAAAGTAACGCCTACCCGGCGCA +ACTTAGCCATCGCCTGACGGAATGTTTCATCTACCTCATTGGCATGGTTGATGTGATTCACCAGCAAGAT +TTGCAGCGTAGAACGGGCAAAGCATTCAACCAGCGCCTCGGTGATACGTGCCGGGATCACAATCGGCAGA +CGGCTGTGAATCCGCAGACGTTTTATATGCGGGATGGCTTCCAGTTGTGTGAGCAACCAGTCCAGCTCGT +GATCTTTCGCCATCAGCGGATCGCCGCCGGAGAAAATCATCTCGTCCAGTTCCGGATGCGCAGCAACATA +CTCAAGTGCAGTTTGCCAGTTACGCTTGTTGCCCTGATTTTCGGCATAGGGGAAGTGACGACGGAAGCAA +TAGCGGCAATTTACCGCGCAGCCGCCTTTGACCAGCAAAAGCGCCCGGTTGTGGTATTTATGCAACAAAC +CAGGCACTACGCTGTGCTGTTCTTCCAGTGGGTCGGTGGAGAATCCGGGCGCGATGACAAACTCATCTTG +CGAGGTAAGTACCTGACGCAAAAGAGGATCGTCCGGATTGCCTTTCTCCATGCGATCGATAAATGAGCGG +GGCACACGCAGGGCAAAAAGCTTTTTGGCGCTGCGTCCGGCTAACAGTTTTTCCTCCGCGTCTATATTCA +AAAGACGCAGAAGTTCATCAGGATCGGTCACAACATCGGCAAGTTGCGTTAACCAATCTTCTCTGGATGG +GGTATTTAGGGTTACAATATGCGCCATTTTGTGGCTTAGCTACCAATTAACAAATTTCAGAGGGCCTTAT +GGCAACGTACTATAGCAACGATTTTCGTGCTGGTCTTAAAATCATGTTAGACGGCGAACCTTACGCGGTT +GAAGCGAGTGAATTCGTAAAACCGGGTAAAGGCCAGGCATTTGCTCGCGTTAAACTGCGTCGTCTGCTGA +CCGGTACTCGCGTAGAAAAAACCTTCAAATCTACTGATTCCGCTGAAGGCGCTGATGTTGTCGATATGAA +CCTGACTTACCTGTACAACGACGGTGAGTTCTGGCACTTCATGAACAACGAAACTTTCGAGCAGCTGTCT +GCTGATGCAAAAGCAATTGGTGACAACGCTAAATGGCTGCTGGATCAGGCAGAGTGTATCGTAACTCTGT +GGAATGGTCAGCCGATCTCCGTTACTCCGCCGAACTTCGTTGAACTGGAAATCGTTGATACCGATCCGGG +CCTGAAAGGTGATACCGCAGGTACTGGTGGCAAACCGGCTACCCTGTCTACTGGCGCTGTGGTTAAAGTT +CCGCTGTTTGTACAAATCGGCGAAGTCATCAAAGTGGATACCCGCTCTGGTGAATACGTCTCTCGCGTGA +AGTAATGCGGTTGTGGTGCGGCCTGCAGGCTGCACCATCACTTATTCAGGTCAGAGATGATGAAACGCCT +TATCGTTCTTGTTTTGCTTGCCAGCACGCTGCTCACGGGCTGTAACACCGCTCGCGGTTTCGGCGAAGAC +ATCAAACATCTCGGCAACTCCATCTCTCGCGCTGCCAGCTAATTTTTCTTCTCTTCCGAAAAATCATCAG +ATTCCCATCATTTTTGGCGATGTTGTCTATTATTAATTTGCTATAGGCAAACATAAATAACATTACCTAA +AAGGAAGACGTTATGGTGAAGAAGACAATTGCAGCGATCTTTTCTGTTCTGGTGCTTTCAACAGTATTAA +CTGCCTGCAACACCACGCGTGGCGTTGGTGAAGACATTTCTGATGGCGGTAACGCGATTTCTGGCGCAGC +AACGAAAGCGCAGCAATAAGCAATAACGGTACGACAGCTGTGTCGTGCCGTTTGTTTTTTCTGCGATAGT +CACAAAGGTAATAGTTGAAATTCCCCTGCCACCTGGCAAAATATCCGTTCAACCATCAGCTTTGCAGGAC +GACCTGCAAACGCCTCTTTTCACCGGGGACGGCCCCAATTCTCCGGAGCCTGATATGTCCTGGATTATCT +TAGTTATTGCTGGTCTGCTGGAAGTGGTATGGGCCGTTGGCCTGAAATATACCCACGGCTTTAGTCGTTT +GACGCCGAGTGTTATTACTGTGACGGCGATGATTGTCAGTATGGCGCTACTTGCCTGGGCGATGAAATCG +TTACCAGTAGGGACGGCTTATGCCGTGTGGACGGGTATTGGCGCAGTCGGCGCGGCCATAACCGGCATTG +TGCTGCTCGGTGAGTCCGCTAACCCGATGCGCCTGGCGAGTCTGGCGTTAATCGTATTGGGGATTATTGG +TCTGAAACTCAGCACTCACTAACTACCAGGCTGCTGTACCCAAATAAATTTACTGACATCAAACCCTTCC +CGGGTCGCGACTGCCAGCATCTCCTGTTTCACTTCGTCAGAAATGGTTGGCGTGCGGGAGAGTATCCACA +GGTAGTCGCGGTCCGGGCCGCAAACCAGCGCATGGCGGTATTCCCGATCGAGTGCAATAACGTTATAACC +GCCATAGAAAGGACCAAAGAATGACACTTTCAGCGCAGCGCGAGTTGGTGCGCCGGTAAAGTACGCTTTC +CCTTCACTCTGCTGCCACATTCCTCTGTCAGGGTTATAGCCTTTATTAATGACATTCAGGCCGCCGTCAT +CACGCAGGCTGTATGTTGCGGTGACTTTTTCCAGTCCACGTTCAAAGCGGTGATCAAAACGGGCAATCTC +ATACCAGGTACCGAGATAACGTTTGGCGTCGAAATTATTTACTACGGTCACGCCACGCGGCGGCGTAGGA +GAACTGCAGGCAACGACCAGAAATGCAGCTGTCGCTGCGGCAACGAGAGGGAGCAGGCGCATAAATGTTT +CCTTACTGGTTTTTTTCTAAGTGTAGATGACAGCAAGGAAAAGCGGAGAAAAGGTCCGAAAATTCGGACC +CGATGGAATTTTACTGTAGAGCGTTAAGAATCTGCCAGGCGGCGTCGACTCTCGCTGGATTGGGATAGTT +TTTGTTTGCCAGCATCACGATACCCAGCTCTTTTTCTGGAATAAACGCGACATAGCTACCAAATCCGCCG +GTCGCCCCTGTTTTATGTACCCATGATGCGCGTACTGCAGGAGTTGGGGGCGTAATCGCTTTTACGGGGC +GTGCTGCCAGTGCAATTTTATTGTCACTGCCGTTAATGATGCTGTCAGGATTTACCGGCCAGTCCAGCAT +TTCCCAGCCCAGGCCCTGATACATATCGCCGGTTTGCCAGTAGCGAGATTGTGCCAGTTGTATCCCTTGT +TGAAGCGTTTTCTCATTGATATCAAGGGGTTTTAAATTGCTTTGCACCCAGCGGGCCATATCTTCAATGG +TCGACTTCACACCATAAGCTTCAGCATCTAACGCCCCAGGCGAAACATGCACTGCCTTACCTTCGCGATA +TCCCCAGGCGTAATTCTTTTCTTCTGCGGGCGGTACATTAATCCACGTATGGTTGAGTTTGAGTGGCTGG +AAGACACGAGTTTGCATCGCCTGCTCAAAACTCAAACCAGACGGCTTCACAGCCAGTGCGCCGAACAAAC +CGATACTGGAGTTGGCATACAGACGTTGTGTTCCTGGAGCCCATGCAGGCTGCCAGTTTTGATAGAAGCG +CAGCAAGTCGCTTGAGGATTTCACCTCATCCGGCACCTGCAATGGCAGGCCGCCAGCAGTGTAGGTTGCG +AGATGTAATAGTGTGATCCCATTCCACTGTTTAGCGGTAAGTTCAGGCCAGTATTTTGTTGTGGGATCGC +TTAACTTGATTTCCCCTCGAGCAATAGCGTCGCCACCAAGCACGCCAGTAAATGTTTTGCTGACCGAACC +TAACTCAAACAACGTTTGCTGTGTGACGGGCTGCTTTTTGGCGATGTCCGCATAGCCCCAGGTAAAGTAA +TAAGGTTTACCCTGATAAATTACCGCCACCGCCATACCCGGGATCTTTTGTTGCTCTATAAGCGGGGTAA +TTGTGCGATGCACAATATCGTTGATTTGTTGAGGGGCAGCAAATGTGGAGCAAGAGGCGGTAATTAATAA +GGCGCAGAGCGTCGTTTTGAACATAGGGTCTGGTTTCCATACAAAACGGCCCGCCATAGGCGGGCCGGAT +TTACATTGGCGATGCGTTAGATTGTAACGACACCAATCAGCGTGACAACTGTCAGGATAGCAGCCAGACC +GTAGAAAACCCATTTGCCCGCAGGTACGTGGATTTTCAGATCGTGCATCGCGTGGTGCATACGGTGTAAA +CCACACCACAGCGGCAGAACGATCATCAGGAACAGGAATACGCGACCAATGAAGCTCTGCGCGAACGCCA +GAACGCGCTCGTAGCTCAGCGCATCACCCGGAAACAACCCCAGTGGCAGCAGAATACCCACCAGCAGGAT +CATCACCGGCGCAATGATGGCGCTCCACATACCACCGGCCCCGAAGAGGCCCCAGAATACCGGTTCGTCA +GAACGCTTTGGATTTGGATTAATCATCTCAGGCTCCTTACCAGTACAGGGCAACAAACAGGATTACGATG +GTGGCAACCACAGTTACCGCCCAGAGACTTTTGATAATTGGCTCTGGTCCCATTTTTTCGTCTTTTACAA +TGATATTGGCCGCTTTCGGTGCCAGTTCAAACCAGGTTTTGGTGTGCAGCAGAGCTGCCGCCAGAGTGAT +CAGGTTAATGATCACGATAACCGGGTTTTGTAAAAAGTCGACGAATCCCGCCCAGGCTTCCGGGCCATTT +TTCAGGGCAAACAGCCCGAAAATCAGTTCAATGCTGAACCACACAGCCGGAACCGCCGTGCCTTCGCGCA +GCATGTAAAAGCGATAAAACGGCAATTTTTTCCACCAGGTGGACGTCATTGGCCGTACATACGGTTTACG +TTTAGTCGTCATGTTGCACTCCTTAGCGTGGTTTCAGGGTCGCGATAAGAAAGTCTTTCGAACTTTCTAC +TTTGCCCTGCTGAATGGCCGCAGCCGGATCGACGTGTTTCGGGCAGACTTCGGAGCAGTAGCCCACGAAA +GTACAGCTCCATACGCCGTTCTGGCTGTTCAACTGCGCCATACGCTCCTTCTTACCGTGGTCGCGGCTAT +CTTCGTTATAACGATGCGCCAGCGTAATGGCAGCCGGACCGATGAACTCTGGGTTCAGGCCAAACTGCGG +GCACGCGGCGTAGCACAAACCACAGTTGATGCAACCGGAGAACTGGTGATACTTCGCCATCTGCGCCGGG +GTCTGGATGTTAGTACCCTGATCCGCGGTGCGGGAGTTGCCGATGATGTACGGTTTGATCGCTTCCAGAC +TTTCGATGAAGTGGGTCATATCGACCACCAGATCGCGTTCAATCGGGAAGTTAGCTAACGCTTCAACCTT +CATACCGTCGGTGTAATCACGCAGGAAGGTTTTACATGCCAGTTTTGGCACGTTGTTAACCATCATGCCG +CAGGAACCACAAATCGCCATACGGCAGGACCAGCGGTAGCTCAGGTCCGGTGCCAGGTTGTCTTTGATGT +AGCCCAGCGCATCCAGTAATGAGGTAGTTGCGTCATAAGGCACTTCATAGAATGCGCTATGCGGTGCGGT +ATCGACTTCCGGGTTATAGCGCACCACCTCAATTTTCAGGTTTTTCATCTCAGCCATTCGCCTTCTCCTT +CTTATTGGCTGCTTCCGCCTTATCGGCTGCATCCGCTTCGCCACCGTAAACGCGTTTAGCTGGCGGCAGC +GTAGTAATCTTCACGTCGCTGTACTCCAGGCGAGTCGTGCCATCAGCATCGCGGAAGGCGAGGGTGTGTT +TGAGGAAGTTGACGTCGTCACGCTCGGTGCAACCTTCGTCCAGACGCTGGTGCGCGCCGCGGGACTCTTT +ACGTGCCATTGCGGAGTGCGCCATACATTCAGCAACGTTCAGACCGTGGCCCAGTTCAATGGTGTAGAGC +AGGTCGGTGTTGAACACGCTGGAAGTGTCGGTGATGCGCACGCGCTTGAAGCGTTCCTGCAGCTCTGCCA +GCTTGTCGATGGTTTTCTGCATCAGTTCCGGCGTACGGTAGATACCGCAGCCTTCTTCCATAGCCAGGCC +CATTTCGTCGCGGATCTTCGCCCAGTTTTCGCCGCCATCCTGGTTAACCAGATCTTTCAGACGTTGTTCA +ACGCCAGCTGCCTGCGCTTCAATTGCCGCTTCGTTGCCATTACCGGCAGTTGCTGCACGCTCTGTCGCTT +GTTCACCGGCCAGACGGCCGAAGACCACCAGTTCCGCCAGGGAGTTAGAACCCAGACGGTTTGCACCGTG +CAGACCAACAGAGGAACATTCACCCACGGCGAACAGACCTTTAATGCGGGTTTCACAGTTCTGATCGGTT +TCGATACCGCCCATGGTGTAGTGTGCGGTCGGACGTACCGGAATCGGTTCTTTAACCGGATCGACGCCAA +CGTACGCTTTCGCCAGTTCGCAGATGAACGGCAGACGTTCATGCAGTTTTTTCTCGCCGAGGTGACGCAA +GTCGAGATAAACCACATCGCCACGCGGCGTGGAGATGGTGTTGCCTTTACGCCATTCGTGCCAGAAGGCC +TGAGAGACTTTGTCGCGTGGACCCAGTTCCATATATTTGTTTTTCGGCTCGCCCAGCGGAGTTTCCGGGC +CCATGCCGTAATCTTGCAGATAACGGTAGCCATTTTTGTTGACCAGAATACCGCCTTCACCGCGGCAACC +TTCGGTCATCAGGATACCGGAACCTGGCAGACCGGTTGGGTGATACTGAACGAATTCCATGTCACGCAGC +GGAACGCCGTGGCTTAGCGCCATACCCATACCGTCACCGGTAACGATGCCGCCGTTGGTGTTGTAACGAT +AAACGCGACCCGCACCGCCAGTAGCCATAACGACCGCGTTAGCACGGATCTGCACCAGCGTGCCTTCCAT +CATGTTCATTGCTACCAGGCCGCGAACATGACCATCATCAACCAGAATATCCAGCACGAAATGTTCGTCA +AAACGCTGGATCTGCGGGAATTGCAGAGAGGTCTGGAACAGCGTGTGCAGCATATGGAAGCCGGTCTTAT +CGGCGGCGAACCAGGTGCGCTCGATTTTCATGCCGCCGAAGCGACGTACGTTGACGCTACCATCCGGGCG +ACGGCTCCATGGGCATCCCCACAGTTCCAGTTGGGTCATTTCGGTTGGGCAGTGGTGGACGAAATAATCC +ACGACATCCTGCTCACACAACCAGTCGCCACCCGCTACTGTATCGTGAAAGTGATATTCGAAGCTGTCAT +GATCCTGCGCGACAGCGGCGGAGCCCCCTTCTGCAGCAACGGTATGGCTACGCATCGGGTATACTTTTGA +GATTAGTGCGATTTTTGCATTCGGATTTGCCTGCGCGGCAGCAATTGCAGCACGTAATCCCGCGCCACCG +GCGCCTACAATGGCAAGATCGGCTTGAAAGGTTTGCACGACATTCCTCCAGATTGTTTTTATCCCACAGC +CACGTACTTCAGGGTAAGTACCTGAAAGTTACGGTCTGCGAACGCTATTCCACTGCTCCTTTATAGGTAC +AACAGTATAGTCTGATGGATAAGTCTGAAATTTGACGAGATCGATTTTTTTAGTGCGCAAGAGGGCTAAA +TTATCACTGAAGATGATTAATTTAATTACTAAACCATCAGATCGTGCTTTTTTTAGTCACTGCCCACCGC +TGTTTGATTCCTGCGTAAAATTTGTCTCGCCGTCGCGTTGCGAGTAGACTTCGTGCCCTTGTCAAAAACT +GGAGATTTAACTATGAGCGAAACGGCATCCTGGCAGCCGAGCGCATCCATTCCTAACTTATTAAAACGCG +CGGCGATTATGGCGGAGATCCGTCGTTTCTTTGCCGATCGTGGAGTGCTGGAGGTGGAGACGCCTTGTAT +GAGCCAGGCGACGGTAACCGATATTCATTTGGTCCCGTTTGAGACACGTTTCGTTGGCCCCGGGCATTCG +CAGGGGATGAATCTCTGGTTAATGACCAGCCCGGAATACCATATGAAACGCCTGCTGGTTGCCGGTTGTG +GGCCGGTATTCCAGCTGTGCCGCAGCTTCCGTAATGAAGAGATGGGGCGTTATCACAACCCTGAGTTCAC +TATGCTGGAGTGGTATCGACCGCACTATGATATGTACCGGTTGATGAACGAGGTGGACGATCTCTTACAA +CAGGTGCTGGACTGCCCGGCAGCAGAAAGCCTTTCTTATCAACAAGCTTTCTTGCGTTATCTGGAAATTG +ACCCGCTCTCTGCCGACAAAACGCAACTGCGGGAAGTCGCAGCGAAACTGGATTTGAGCAATGTTGCTGA +TACCGAAGAAGACCGCGACACGCTGCTACAATTGCTGTTTACCTTTGGCGTAGAGCCAAATATTGGCAAA +GAAAAACCGACCTTTGTGTACCACTTTCCAGCCAGCCAGGCATCACTGGCGCAAATCAGTACCGAAGATC +ATCGGGTCGCTGAACGCTTTGAGGTTTATTATAAAGGTATTGAGCTGGCGAATGGTTTCCATGAATTGAC +GGATGCCCGTGAGCAGCAACAACGCTTTGAACAAGATAACCGTAAGCGCGCGGCGCGCGGTTTGCCGCAG +CACCCCATTGACCAGAATCTGATTGAAGCCTTGAAAGTCGGTATGCCTGACTGTTCCGGCGTGGCATTAG +GTGTTGATCGTCTGGTGATGTTGGCGCTGGGCGCGGAGACACTGGCTGAAGTCATCGCCTTTAGCGTTGA +CCGGGCATAATTCTGAAAAATTACTGAATTAACAGCGAAGAATGGCGTGATAAGCGCCATTCTGTAGCAT +ATGTTTTCATTTTTCCGTTAAAGGCCACAATTTAAGACTGGATATTTGATATCATCCAGGTATCAATTCT +GTATTGGTTTTTACGCTGCCTGCTCAATGTTGCGCAGTGCAGTTCAGTGGGCACGTGTTATACACGCGCT +GAAATGAAGGATGGTTTCATGCCTCACACGATAAAAAAGATGAGTCTGATAGGACTCATATTGATGATCT +TTACTTCCGTATTTGGATTTGCCAATAGCCCATCGGCTTATTACTTAATGGGTTATAGTGCGATTCCCTT +TTATATATTTTCTGCATTGTTATTCTTTATTCCATTCGCCTTAATGATGGCTGAAATGGGAGCTGCTTAT +CGCAAAGAAGAAGGCGGTATCTATTCCTGGATGAATAATAGTGTCGGACCACGTTTTGCCTTCATTGGTA +CGTTTATGTGGTTTTCCTCTTATATCATCTGGATGGTGAGTACCTCCGCGAAAGTTTGGGTACCGTTCTC +AACATTCCTCTATGGTAGCGACATGACCCAGCACTGGCGTATTGCCGGACTGGAGCCTACGCAGGTGGTT +GGTCTGCTGGCTGTGGCATGGATGATTCTGGTCACCGTCGTTGCTTCTAAGGGGATTAATAAAATTGCCC +GCATTACTGCGGTGGGCGGTATTGCAGTAATGTGTCTGAATTTAGTATTGCTGTTAGTAAGCATTACTAT +TTTGTTATTAAATGGTGGGCATTTCGCGCAGGATATTAATTTCCTTGCATCACCGAACCCGGGTTATCAG +TCCGGTCTGGCAATGCTATCGTTTGTGGTATTTGCCATTTTTGCCTATGGCGGAATTGAAGCGGTTGGTG +GTCTGGTCGATAAAACGGAAAATCCAGAAAAGAACTTTGCCAAAGGTATTGTTTTTGCCGCTATTGTTAT +TTCAATCGGTTATTCGCTGGCAATATTTTTATGGGGCGTCAGCACAAACTGGCAGCAGGTATTAAGTAAT +GGTTCCGTTAACCTCGGCAATATTACCTATGTGCTGATGAAGAGCCTTGGGATGACGCTGGGTAATGCAC +TGCATTTGTCACCTGAAGCGTCATTGTCGCTGGGCGTATGGTTTGCGCGTATTACTGGACTTTCGATGTT +CCTCGCCTATACCGGTGCGTTCTTTACGCTTTGCTATTCACCGTTGAAAGCCATCATCCAGGGGACGCCG +AAAGCATTGTGGCCGGAACCGATGACGCGCCTGAATGCGATGGGGATGCCGTCTATCGCCATGTGGATGC +AGTGCGGGTTGGTTACTGTCTTCATCCTGCTGGTTTCGTTTGGTGGCGGTACCGCATCGGCGTTCTTTAA +CAAGCTGACGCTGATGGCGAACGTGTCTATGACGCTTCCTTACCTGTTCCTCGCGCTGGCTTTCCCGTTC +TTTAAAGCACGTCAGGATCTCGACAGACCGTTTGTGATTTTCAAAACGCATTTGTCGGCAATGATTGCGA +CAGTGGTTGTCGTACTGGTGGTGACATTTGCGAACGTCTTCACCATCATTCAACCTGTGGTTGAAGCCGG +AGACTGGGACAGCACATTGTGGATGATTGGCGGCCCTGTCTTCTTCTCGCTGTTAGCGATGGCGATTTAC +CAGAACTATTGCAGCAGAGTGGCAAAAAATCCGCAGTGGGCGGTGGAATAACCCGATGCCCTATCGTCTA +CCTGACGATAGGGCGTAAAGACAGGAAATGTTATGGATGACACCAGCCGGGACCCGGCAATAACCGAAGA +TGAAATCAGGGCGCTGCAATTTTCTGCCGGGGATGTAGCGGAAATAGAGCAGACGATTCTCTCTTTTGTC +GATGCCTGCCACACCCGTAAAGTGGCGATGGTGGTGGGTAGCACCATTAACACCCTCAAAGATCGCGATG +GTAAACGGTGGGGAAACCTGCCGGATATTTATTGCGCTTATCTTATCCGATGTCTGGTTTTTCGCGGGGA +ATTAGTGGGATACGGCGATTTGTTTCGTATGCGCTATAGCGAAATTAAGCGACCGGTTACCTTATGAGTG +CGCGCATGTTTGTCTTATGCTGCATCTGGTTTATTGTGGCGTTCCTCTGGATAACCATCACTTCCGCGCT +GGACAAAGAGTGGATGATTGATGGACGCGGGATTAACAACGTCTGCGATGTGTTGATGTATCTCGAAGAA +GACGATACCCGTGATGTTGGTGTGATAATGACGTTACCGCTCTTTTTCCCTTTTCTCTGGTTCGCTTTGT +GGCGAAAAAAACGCGGCTGGTTTATGTACGCCACCGCGCTGGCTATTTTCGGCTACTGGCTGTGGCAGTT +TTTTCTGCGCTATCAGTTTTGTTTGTGAGCCGGATTGGTTCATCCGGCACACAAACTTACAAACTTCCCG +CCTGACGACCTTTGCCCGCAGACGTCAGCGTTCTCCCCGTTTGTTTACCGTTGAGGCTTTCCAGACGCAT +CTGGAAGGGCGGGAATGGCATATCGATACCGTGGGCATGGAAGCCAGCCAGAATCAGCTGGTGGATCTCA +TGGCGTAGCGGCATACGGTGACCCATCTCAGCGGCGTAAATACGCAGCTCGAAAATCTGAATCCCCTGTT +GCAGATCCACCAGGAAGACTTCCGGTGCCGGGTTGTCGATCACCAGCGAGCAGCGACGCGCTGCGGTGAG +CAGGATTTCCGTCACTTCTTCGCTATTGGCATCGGCAGGGGCCGGTATCGTCAACACCACGCGCGTGACC +GAGTCAGAGAGCGACCAGTTGATAAACTGCTCGGTAATAAACGCCTTGTTCGGCACGATTATCTCTTTAC +GGTCCCAGTCGCTGATGGTGGTGGCGCGGGTGTTAATTTTCGTCACGCTACCGGTGAGATCGCGAATTGT +CACCGTATCGCCAATGCGAATCGGTTTTTCGAACAGGATAATCAGACCAGAGATAAAGTTGGCGAAAATT +TCCTGCAAACCAAAACCGAGACCAACACCGAGCGCGGCAACCAGCCACTGCAATTTCGACCACTCAATAC +CAATCATTGAGAAGCCGACCAGCCCGCCAATCAGCATCAGCAGATATTTGGTGATGGTGGTGATGGCGTA +ACCCGTACCCGGCGTTAAATCCAGGTGCTGCAAAATCGCCAGTTCCAGCAGCGCGGGCAAGTTGCGCACC +AGCTGCGTGGTGATGATAAACACCAGAATGGCAATCAGCACCGCACCGAGGGTAATTGGCTCCAGACTTT +CTACGCCCTGTACCGTGGAGGTGACATCCCACAGCGAAATATTTTCGAGGAAGCCGAAAGCGGAATGGAT +TTCTGACCACAGCACAATGACAGAAAGCAGGGCGATCAACATCAAAATTGAGCGCACCAGCCGCAAGGAT +TGCGCACTGATGGCATCGAGATCGACTTCGCTTTCATCGACTTCAATTGCTCCTTCCGGGCTACTGTGAT +GATGCGCTTCCTCTTCGCCACGCGCACGTTGCGCTAACATCTCTGCCCGGCGATGCTTCGCCCGATCAAA +CGCCAGCCTGCGGCGCTGGATCAGCATCCAGCGGCGGATAACGTGATAAACCACCAGTAGCAGGAACCAG +ATGGCAACCGAGGTTTCAAGCCTCGCTAACAGCGCCTGTGCCGTTGCCAGATAACCCACCGCCGACGCCA +GAATGGCAACCAACGGCGCGCCAATCATCATGTTCCACAGCATATGGTTGGTAATGTTGTCGCCGCTGCC +CTCTTTGTTGAGATACAGCGGAATCCCGGCCTTTTTCAGGCTGAGGGTGACCACCGCCAGCGCACCGCAA +ATGAGGATAAAGCAAAGCCGTCCCAGCGAACCGGAGAATTCACGGTCGTCGAGGTTATCGAACATCATCA +GCGCCATAATCAGCGGCACAATAAGCCCGATGCTCATCAGGTAGTAGCGCATCCCACGGGAAACACGTTC +GCGCGGCCAGCCAAAATGAGCGATAAACAAGCCGTTCGGGCGGGCAAAGGTGGCGCAAATCATCACTACC +CACAGCAGCGGCACGGTGGCCGTTACACCATCGCCAATCGCGACCGCCAGCGGATAAGGCCACGCCTCGC +GCAAGCCGTAACCCAGCGTCATCCACAGCACCGGTAACGGTGACGCGACGAGAATCGACCAGAAAAGAGT +GCGCAACGTCAGCCAGAAGTGATCCTGAGTCACTTTGCCAACTTTCGCCGCCGAACGTTCAAGAAAACGG +GTGAAATAGCGGCGCGAGTAAATACTGCAACCGACCAGAATCAACGCGCCAAACAGCGGCAAAATTGTCT +CTTTGCTGGTCAGCATCATCACACTGGCTTTGCCCAACTGACTGAAGGTGTCCAGCGAAATGAGACGACG +CAGATCCTGGGCGATTTCCAGCGGCCAGGCGATGGTCATCGGGCGCACGTCAGAGGTCCAGAACAGATAG +CGGTGCGTTGCTTCGTTCACCTCTTTCAGCGCATCCTCCAGTTGCCCGTTGGAGACTTTCAGCTTGGTCA +GTTCCAATAGTAGCGTGTCGCCACCCTGCAACAATGAGTTCAGCAACTCACGCTGAGTGCGCAGTTGTGC +TTCCAGAATACGGTTTTGCTCGGCAGTCAGCGGCTGACCGTCGGCCTGATGAATTTGCCGTAGCAGCGGC +TGTTTATTAAGCAGATCCTCATAACGTAACCGTTGCACACGCAACTGCGCCATTTCGGTATCAAGCTGTT +GTGGTTTCGGCATTTCCGGCAGCCGTGCCACCTGCGCCCGCAGCGCTTCGCCGAGCAGATTGGACGATCC +CAGCCATTGCGACTGTTCACGCAGCGTATTCAACGCCTGCCGGACCTGTAACGTCTGGCTGGCAGCCTGA +CGCTGTTGCGAGGCAACGAGATCCATCCGCTGCGCCTGTTGATTCAAAGCCGCCGATAGTTCGCGGTTAA +TTTTGAATTGCGCGACGATATCTTTCGGCAAATCGGCGCTGTTTTCTGCCAGCAATTCGGTACTTTCCAG +CGCCCGCTCCGCCTCAAGCTGACGTTGGCTGTTTAATTGATTACGCAAGGCCTGCAAATACGCATCCAGT +TGCTGGCTCTCTTTTTCCGCCAGCTCTGAGCGTAAGCGCGCTAATTCCTGGCGGTTATTGGCAGACAGCT +GCGCCAGCTCCAGTTCATCAACGAGCGCCTTAAGACGTGCAGAGTCAGACTGCAACGCGAAATTTTGTGC +CTGATTGAGCGGAGTATTGCCGGTAAGCGTTCCCAGGCGGCGCTCGATCTCATTTAACTGACGGCGGGCG +TCGGTTTGCTGTTGCGGCAGTTGATTCAGCGAATCGGCAATCTCGCGGGCGCGCTCCTGCTCTTGCTGGG +CCTGACGGCTTTTATCCAGCAACTGGCTGCTGACCTGGAGAATTTCCTGATTCAGCGCGTCGGTAGACAT +TCCCGGCGACACGCTGCGCGGCTCGTCACGCATGTTGTTTAATTGTGCGCGCAGAGTAGCGGAGAGTTTC +GGATAATTATCGATAACTTGCTGATATTGTTTGATGCGCTCAAGGGAACCTTTTCGTTCCTCAAGCGCAT +TTAAGGCAGACTGGAGCGCCTCTACGACTTCCGGCTGTGCGGGTTTCGCCGCTTTTGCCTGCTCCAGTTC +CTGAGTGATTTGTTTGCTATCGGGGGCCGTCGCGGCGTACGCCCCCCAACTGAGGCACCAGGCCATCAGA +AAAGTGATAATCAGGCGCACGTCAGCGTTTCCTTTGATGGATTAGACCTGGTCTTTTTTGTCGTCAACCA +ATGGGCTGGCGTCGTGTTCTGCTTCGATCTCTTCAGCAGGAAGCGGGGCAGGTTCAGCGTCTGGCGTAAC +AAAGGTTTCGGTAGATACTGCCAGCGGCTGGCCAATTTTCGTGACAGACAGGCTTTCCAGTTGCTCAACC +AGATTCACTTTACCCGGTGCAAACAGGTTGATAACGGTGGAACCGAGTTTAAAGCGACCCATTTCCTGGC +CTTTCAGCAGTGCCACAGAACCGTCGTTTTCCCCGGCAGGCCAGGTCCAGCGCTTGATGATACCTTCGCG +CGGCGGCGTAATGGTGCCCGCCCAGACCGTCTCAATGCTGCCAACAATCGTCGCTCCGACCAGAATCTGC +GCCATTGGGCCAAATTCGGTATCGAAAAGGCAAATCACGCGTTCGTTACGGGCAAACAGATTCGGCACGT +TCTGAGCCGTGAGATGGTTAACGGAGAAGAGATCGCCCGGCACGTAGATCATCTCACGCAGAATACCGTT +GCACGGCATGTGTACGCGGTGGTAGTCACGCGGGGAGAGGTAAGTGGTCACAAACGTACCGTTGCGGAAC +AGGTCCGCCATCAGATAGTTGCCTGCCAGCAGGGCTTCGAGGCTGTAGTTGTGGCCTTTGGCTTGCAGGA +TTTTATCTTCTTCGATTTTACCCAACTGGCTGATAACGCCATCGGCAGGCATGACCAGTACATTCGGATC +GGTATCGATTGGGCGTACTTCGTCACGCAGCGGACGGACAAAGAATTCGTTAAAGGTGCGGTAGCTGGCG +GTGTCCGGCTTTTGCGCCTCTTTCATGTCGACCTTGTAGTATTTAACGAACAGATCGATAACCAGTTTTG +TCAGCCATCCTGCCCGCTTGCTTGCGCCCCAACCCGCCAGGCGAGTAAGCCATAGTTTCGGCAGAATGTA +CTGTAGCGAAAGTTTAAATGAATTTAACAAGGTAGCCTCCAGGCCATTGTTTTGTCGTTCCTGATCCGGC +CTACATGCCGGATCCTGAAAAAAAGGGGACGATTCTAACGACGGTTAGCTTAATTGTCAGTCATCCGTAT +CAGAAAAGTTTTTACGCGTTTTTACCTGCGCCATGCTTTCCAGAATACGGTGATAGTTTTCGAAACGGGT +TTCCGCGATTTTCCCTTCCTCAACCGCTTCCCGGATAGCGCAGCCCGGATCGGTATCGTGTTTGCAATCG +CGATATTTACACAGACCTAAATAGTCATGGAATTCGACAAAGCCCTGAGTGATTTGTTCCGGCTCCAGGT +GCCAGAGGCCGAACTCACGCACTCCTGGGGAGTCAATCACATCACCGCCGTGCGGGAAGTGATACAGCCG +AGCGGCGGTCGTGGTGTGCTGACCGAGCCCCGAGTTGTCAGAGATATCGTTGGTCAGGATCTCTTTTTGC +AGCCCCAGCAACGCATTCAGCAGGCTGGATTTGCCGACGCCAGACTGCCCGGCAAAAATGCTGATGCGCC +CGGTCAACGCCTCTTCCAGCGGTTTTAGCCCATCCTGAGTATGGCTGGAAACCATCAATACGCGATAACC +GATATTGCGGTAGATATCCATCTGCTCGTTGACGAACGCCATGCCTTCGTCGTCCAGCAGGTCTATCTTG +TTGAGCACAATAATCGGCTCAATCTGCAAGGTTTCGCAGGCCACCAGGTAACGGTCGATAATATTGAGCG +ACAGCTCCGGCAAAATGGCGGAGACAATGACAATCTGGTCGATGTTGGCGGCAATAGGTTTTACGCCGTC +GTAGAAATCCGGACGCGTCAACACCGAGGTACGCTCATGCACCGCTTCCACGATCCCTTTGACATTTACG +CCTTCCGCCGCCGGTTTACCCGGACGCCAGACTACGCGGTCGCCGGTTACCAGCGAACGGATGGTACGGC +GAATATTGCAGCGGTGAACGTCGCCATCGGCGGATTCCACATCAGCGTGCATACCAAAGCGGCTGATGAC +GATACCTTCATCAGGCTCGCCAAACAGATTGTCGTCGTAGTCGGGCTTCTCCTTAGACGTTTTAAGACGA +CGCTGGTGATTGGCGTTCACGCGGCGCTGCTGGCCTTTGGAGAGTTTATTTTTACTCAATCGTACAGACT +CCTGGTCGCCCCTGATGGGCAAAACATCTATGATACACGCAATTGTGGATCAATATAGTCACTGTGAATG +GGTGGAAAATAGCATGAGTGCCAATGAAAACAACCTGATTTGGATCGATCTTGAGATGACCGGTCTGGAT +CCCGAGCGCGATCGCATTATTGAGATTGCCACGCTGGTGACCGATGCCAACCTGAATATTCTGGCAGAAG +GGCCGACCATTGCAGTACACCAGTCTGATGAACAGCTGGCGCTGATGGATGACTGGAACGTGCGCACCCA +TACCGCCAGCGGGCTGGTAGAGCGCGTGAAAGCGAGCACGATGGGCGATCGGGAAGCTGAACTGGCAACG +CTCGAATTTTTAAAACAGTGGGTGCCTGCGGGAAAATCGCCGATTTGCGGTAACAGCATCGGTCAGGACC +GTCGTTTCCTGTTTAAATACATGCCGGAGCTGGAAGCCTACTTCCACTACCGTTATCTCGATGTCAGCAC +CCTGAAAGAGCTGGCGCGCCGCTGGAAGCCGGAAATTCTGGATGGTTTTACCAAGCAGGGGACGCATCAG +GCGATGGATGATATCCGTGAATCGGTGGCGGAGCTGGCTTACTACCGCGAGCATTTTATCAAGCTGTAAA +ATTTTTCCTGGTCACGTAAGCGCCGGAATCCACTTGCGGCGGCGTGATTTTGACGCTAAATTGAACGTCT +TGCTGATAATTTCAGCACTTGAGATAAAAACGCAAAAAAAACTTTTTTGGGGGGTTGCAGAGGGAAAGAT +TTCTCGTATAATGCGCCTCCCGTAACGACGCAGAAATGCGAAAATTACGAAAGCAAAATTAAGTAGTACG +CGGGAATAGCTCAGTTGGTAGAGCACGACCTTGCCAAGGTCGGGGTCGCGAGTTCGAGTCTCGTTTCCCG +CTCCAAAATTTGAAAAGTGCTGCAAAGCACAGACCACCCAAGCGGGAATAGCTCAGTTGGTAGAGCACGA +CCTTGCCAAGGTCGGGGTCGCGAGTTCGAGTCTCGTTTCCCGCTCCAAAATTTGAAAGTGCTGTAAGGCA +CAGACCACCCAAGCGGGAATAGCTCAGTTGGTAGAGCACGACCTTGCCAAGGTCGGGGTCGCGAGTTCGA +GTCTCGTTTCCCGCTCCAAATTCTTCTCTCAATAAAATATCCACAGCGACGCGATGCGTTATTGCTGGTT +TTTGTTGTCTCTGACAAACTCTTGTAAACAGAGTTATCCACAGCCTCAGGCTGTAATCTTAATTTCAAAG +AAACTTCGCACGGTGAATAGTATTTTTTTAACCTATTGATAGATAAGTTAAAAATTAAGATTCCGTTTTG +TCGAGTCGATCACTTGACGATTTTATTCGTCTTGAATTGCAATGCGTTTTTATTTTTATTCACAAGCTGT +GGATGAATCAGGCGTCACGCGGTAACCCTTTTTCAATCACCCGAACCAGACGCTGTTTTTTCGGCAATTG +CACTTCGACTATGCACGCATTTCGTCTCTCTATTTGCTGCGCAATCGCCCACGCTATGTGCTCATCGAGA +AGTGGGTGCTCACCTTTACGACTTTCCAGCGCTGTCAAAATCGTTTCATCCCAAGGGGCATTGCCTAATG +CTACGGCGATATTACGCAGCCAACGCAGGTGACCAATACGACGAATCGCCGATCCTTCCGTGACTTTTAA +AAACTTCTCTTCGCTCCAGGCGAATAACTCAATGAGTTCCGGTGCGTGTAGCGGCTTACGCGGGCTGAAA +TCCTCTTCTGTGGTGAGTTGTGAATAGCGATTCCACGGGCAGATAAGCTGGCAGTCATCGCAACCGTAAA +TACGGTTTCCCATTAACGGTCGCAACTCTTCCGGGATCGCCCCTTCAAGTTCGATGGTGAGATAAGAGAT +ACAGCGGCGAGCATCGACGGTATATGGCTCGACGATGGCACCGGTCGGGCAAATCGTCATACAGGCCACG +CATTTGCCGCATCCTTCCTCGACTGGTTGATCCACGGGCAGCGGAATATCGACCAGCAATTCGCCTAAAA +AGAAGAACGAACCGGCCTCGCGATTGAGGATAAGTGAGTGCTTACCTGTCCAGCCGAGCCCAGCTTTTTC +AGCTAACGGGCGCTCGAGAATAGGCGCAGAATCGACAAACGGTCTAAAATTCAGCGAAACACAATGTTGC +TGAATCATCTCGCCCAGCTTTTTGAGTCGGTTGCGCAGAAGTTTGTGATAGTCACGGCCCAGCGCATAAC +GGCTAACATAGCCGAGTTTGGGGTTTTTCAGCGTGCTGGCAAATGCGGCGTTAGCAGGAAGGTAATTCAT +CCGCACGCTGATCACGCGCAGCGTACCGGGCAATAACTCATGAGGGCGAGCGCGCAGCATACCGTGACGT +GCCATCCAGTCCATTTCGCCGTGGTATTGTTTGTCCAGCCATGCTTGCAGTTTGGGCTCGGACTCGCTGA +GATCGGTATCGGTAATACCTACCTGCTGAAAGCCCAGTTCCAGCCCCCACTGTTTAATTTTTTGCGCTAA +CTGATTGAGATCGAGGGGCTCTGACATGACGGACCATACAATGAAGAAAAACCCCGTAAGTATACCACAC +ACCGTCTGGTACGCCGACGATATCCGCCGCGGAGAACGCGAGGCGGCAGATGTGCTGGGGCTCACACTCT +ATGAGCTGATGCTTCGCGCTGGCGAGGCCGCATTCCAGGTGTGTCGTTCGGCGTATCCTGACGCCCGCCA +CTGGCTGGTGCTGTGCGGTCATGGTAATAACGGCGGCGATGGCTACGTGGTCGCGCGACTGGCCAAAGCG +GTCGGCATTGAGGTCACGTTGTTGGCCCAGGAGAGCGACAAACCGTTGCCGGAAGAGGCCGCGCTGGCAC +GCGAAGCATGGTTAAACGCGGGTGGCGAGATCCATGCTTCGAATATTGTCTGGCCCGAATCGGTAGATCT +GATTGTTGATGCGCTGCTCGGTACCGGTTTGCGGCAAGCGCCCCGCGAATCCATTAGCCAGTTAATCGAC +CACGCTAATTCCCATCCTGCGCCGATTGTGGCGGTTGATATCCCTTCCGGCCTGCTGGCTGAAACTGGCG +CTACGCCAGGCGCGGTGATCAACGCCGATCACACCATCACTTTTATTGCGCTGAAACCAGGCTTGCTCAC +TGGAAAAGCGCGGGATGTTACCGGACAACTGCATTTTGACTCACTGGGGCTGGATAGTTGGCTGGCAGGT +CAGGAGACGAAAATTCAGCGGTTTTCAGCAGAACAACTTTCTCACTGGCTAAAACCGCGTCGCCCGACTT +CGCATAAAGGCGATCACGGGCGGCTGGTAATTATCGGTGGCGATCACGGCACGGCGGGGGCTATTCGTAT +GACGGGGGAAGCGGCGCTGCGTGCTGGTGCTGGTTTAGTCCGAGTACTGACCCGCAGTGAAAACATTGCG +CCGCTGCTGACTGCACGACCGGAATTGATGGTGCATGAACTGACGATGGACTCTCTTACCGAAAGCCTGG +AATGGGCCGATGTGGTGGTGATTGGTCCCGGTCTGGGCCAGCAAGAGTGGGGGAAAAAAGCACTGCAAAA +AGTTGAGAATTTTCGCAAACCGATGTTGTGGGATGCCGATGCATTGAACCTGCTGGCAATCAATCCCGAT +AAGCGTCACAATCGCGTGATCACGCCGCATCCTGGCGAGGCCGCACGGTTGTTAGGCTGTTCCGTCGCTG +AAATTGAAAGTGACCGCTTACATTGCGCCAAACGTCTGGTACAACGTTATGGCGGCGTAGCGGTGCTGAA +AGGTGCCGGAACCGTGGTCGCCGCCCATCCTGACGCTTTAGGCATTATTGATGCCGGAAATGCAGGCATG +GCGAGCGGCGGCATGGGCGATGTGCTCTCTGGTATTATTGGCGCATTGCTTGGGCAAAAACTGTCGCCGT +ATGATGCAGCCTGTGCAGGCTGTGTCGCGCACGGTGCGGCAGCTGACGTACTGGCGGCGCGTTTTGGAAC +GCGCGGGATGCTGGCAACCGATCTCTTTTCCACGCTACAGCGTATTGTTAACCCGGAAGTGACTGATAAA +AACCATGATGAATCGAGTAATTCCGCTCCCTGATGAGCAGGCAACATTAGACCTGGGCGAGCGGGTAGCG +AAAGCCTGCGATGGCGCAACCGTAATCTATCTGTATGGCGATTTAGGCGCAGGTAAAACCACCTTTAGCC +GGGGCTTTTTACAGGCTCTGGGTCATCAGGGTAATGTCAAAAGCCCCACTTATACGCTGGTCGAACCCTA +TACGCTCGACAACTTAATGGTCTATCACTTTGATTTGTACCGCCTTGCCGATCCCGAGGAGCTGGAGTTT +ATGGGGATCCGCGATTATTTTGCCAACGATGCCATCTGCCTGGTGGAGTGGCCACAACAAGGTACAGGTG +TTCTTCCTGACCCGGATGTCGAAATACACATTGATTATCAGGCACAAGGCCGTGAGGCGCGCGTGAGTGC +GGTTTCCTCTGCGGGTGAATTGTTGCTGGCGCGTTTAGCCGGTTAACCTTTGAAAGGTGGCGGGATGATG +TATCGCATCAGAAATTGGTTGGTAGCGACGCTGCTGCTGCTGTGCACGCCGGTGGGTGCCGCGACGCTCT +CTGATATTCAGGTTTCTAACGGTAATCAACAGGCGCGGATAACGTTGAGTTTTATTGGCGATCCTGATTA +TGCGTTTAGCCATCAAAGCAAACGCACCGTGGCGCTCGATATCAAACAAACGGGCGTGATTCAGGGACTG +CCGTTGTTGTTCAGCGGCAATAATCTGGTGAAGGCGATTCGCTCTGGAACGCCTAAAGATGCACAAACGC +TACGGCTGGTGGTCGATCTTACCGAAAACGGTAAAACCGAAGCGGTGAAGCGGCAGAATGGCAGCAATTA +CACTGTCGTCTTTACGATTAACGCCGATGTGCCGCCACCGCCTCCTCCGCCGCCCGTGGTTGCGAAACGC +GTTGAAACGCCTGCGGTTGTCGCACCGCGCGTCAGCGAACCGGCGCGCAATCCGTTTAAAACGGAAAGTA +ACCGCACTACGGGTGTTATCAGCAGTAATACGGTAACGCGTCCGGCAGCGCGCGCGACGGCTAACACTGG +CGATAAAATTATCATCGCTATTGATGCCGGACACGGCGGTCAGGACCCTGGCGCTATCGGCCCCGGTGGT +ACGCGGGAGAAAAATGTCACCATCGCCATCGCGCGTAAATTGCGTACTTTGCTCAATGACGATCCGATGT +TTAAAGGCGTTTTAACCCGTGACGGGGATTACTTTATCTCGGTGATGGGGCGCAGTGATGTGGCACGTAA +GCAAAACGCCAATTTCCTCGTGTCGATTCACGCTGATGCCGCACCGAACCGCAGTGCGACTGGCGCTTCC +GTATGGGTGCTCTCTAACCGTCGCGCCAACAGTGAAATGGCCAGCTGGCTGGAGCAGCACGAGAAACAGT +CGGAGCTGCTGGGTGGGGCGGGTGATGTGCTGGCGAACAGTCAGTCTGACCCCTATTTAAGCCAGGCGGT +GCTGGATTTACAGTTCGGTCATTCCCAGCGGGTAGGGTATGATGTAGCGACCAGTATGATCAGTCAGTTG +CAACGCATTGGCGAAATACATAAACGTCGACCAGAACACGCCAGCCTTGGCGTTCTGCGCTCGCCGGATA +TCCCATCAGTACTGGTCGAAACCGGTTTTATCAGCAACAACAGCGAAGAACGTTTGCTGGCGAGCGACGA +TTACCAACAACAGCTGGCAGAAGCCATTTACAAAGGCCTGCGCAATTACTTCCTTGCGCATCCGATGCAA +TCTGCGCCGCAGGGTGCAACGGCACAAACTGCCAGTACGGTGACGACGCCAGATCGCACGCTGCCAAACT +AAGGACGATTGATGCCAATTCAGGTCTTACCGCCACAACTGGCGAACCAGATTGCCGCAGGTGAGGTGGT +CGAGCGACCTGCGTCGGTAGTCAAAGAACTAGTGGAAAACAGCCTCGATGCAGGTGCGACGCGTATCGAT +ATTGATATCGAACGCGGTGGGGCGAAACTTATCCGCATTCGTGATAACGGCTGCGGTATCAAAAAAGATG +AGCTGGCGCTGGCGCTGGCTCGTCATGCCACCAGTAAAATCGCCTCTCTGGACGATCTCGAAGCCATTAT +CAGCCTGGGCTTTCGCGGTGAGGCGCTGGCGAGTATCAGTTCGGTTTCCCGCCTGACGCTCACTTCACGC +ACCGCAGAACAGCAGGAAGCCTGGCAGGCCTATGCCGAAGGGCGCGATATGAACGTGACGGTAAAACCGG +CGGCGCATCCTGTGGGGACGACGCTGGAGGTGCTGGATCTGTTCTACAACACCCCGGCGCGGCGCAAATT +CCTGCGCACCGAGAAAACCGAATTTAACCACATTGATGAGATCATCCGCCGCATTGCGCTGGCGCGTTTC +GACGTCACGATCAACCTGTCGCATAACGGTAAAATTGTGCGTCAGTACCGCGCAGTGCCGGAAGGCGGGC +AAAAAGAACGGCGCTTAGGCGCGATTTGCGGCACCGCTTTTCTTGAACAAGCGCTGGCGATTGAATGGCA +ACACGGCGATCTCACGCTACGCGGCTGGGTGGCCGATCCAAATCACACCACGCCCGCACTGGCAGAAATT +CAGTATTGCTACGTGAACGGTCGCATGATGCGCGATCGCCTGATCAATCACGCGATCCGCCAGGCCTGCG +AAGACAAACTGGGGGCCGATCAGCAACCGGCATTTGTGTTGTATCTGGAGATCGACCCACATCAGGTGGA +CGTCAACGTGCACCCCGCCAAACACGAAGTGCGTTTCCATCAGTCGCGTCTGGTGCATGATTTTATCTAT +CAGGGCGTGCTGAGCGTGCTACAACAGCAACTGGAAACGCCGCTACCGCTGGACGATGAACCCCAACCTG +CACCGCGTTCCATTCCGGAAAACCGCGTGGCGGCGGGGCGCAATCACTTTGCAGAACCGGCAGCTCGTGA +GCCGGTAGCTCCGCGCTACACTCCTGCGCCAGCATCAGGCAGTCGTCCGGCTGCCCCCTGGCCGAATGCG +CAGCCAGGCTACCAGAAACAGCAAGGTGAAGTGTATCGCCAGCTTTTGCAAACGCCCGCGCCGATGCAAA +AATTAAAAGCGCCGGAACCGCAGGAACCTGCACTTGCGGCGAACAGTCAGAGTTTTGGTCGGGTACTGAC +TATCGTCCATTCCGACTGTGCGTTGCTGGAGCGCGACGGCAACATTTCACTTTTATCCTTGCCAGTGGCA +GAACGTTGGCTGCGTCAGGCACAATTGACGCCGGGTGAAGCGCCCGTTTGCGCCCAGCCGCTGCTGATTC +CGTTGCGGCTAAAAGTTTCTGCCGAAGAAAAATCGGCATTAGAAAAAGCGCAGTCTGCCCTGGCGGAATT +GGGTATTGATTTCCAGTCAGATGCACAGCATGTGACCATCAGGGCAGTGCCTTTACCCTTACGCCAACAA +AATTTACAAATCTTGATTCCTGAACTGATAGGCTACCTGGCGAAGCAGTCCGTATTCGAACCTGGCAATA +TTGCGCAGTGGATTGCACGAAATCTGATGAGCGAACATGCGCAGTGGTCAATGGCACAGGCCATAACCCT +GCTGGCGGACGTGGAACGGTTATGTCCGCAACTTGTGAAAACGCCGCCGGGTGGTCTGTTACAATCTGTT +GATTTACATCCGGCGATAAAAGCCCTGAAAGATGAGTGATATCAGTAAGGCGAGCCTGCCTAAGGCGATT +TTTTTGATGGGGCCGACGGCCTCCGGTAAAACGGCGTTAGCCATTGAGCTGCGTAAAATTTTACCAGTAG +AGTTGATAAGCGTTGATTCTGCCCTTATTTACAAAGGGATGGATATCGGGACGGCGAAGCCGAACGCTGA +AGAGTTACTCGCCGCGCCGCACCGATTGCTGGATATTCGCGATCCGTCGCAGGCTTACTCGGCTGCTGAT +TTTCGCCGCGATGCGCTGGCGGAAATGGCCGATATCACCGCGGCGGGGCGGATCCCACTGTTAGTGGGCG +GTACGATGTTGTATTTCAAGGCATTGCTGGAAGGGTTGTCGCCGCTACCGTCGGCAGACCCGGAAGTACG +GGCCAGAATTGAGCAACAGGCGGCAGAGCAAGGTTGGGAGTCATTGCATCGTCAACTTCAGGAGGTAGAT +CCGGTTGCGGCAGCAAGGATTCATCCAAATGATCCACAAAGGCTTTCCCGGGCACTGGAAGTTTTTTTCA +TTTCGGGTAAAACTTTAACGGAACTGACGCAAACGTCAGGAGACGCTCTACCGTATCAGGTGCATCAGTT +CGCCATCGCCCCGGCGAGCCGTGAACTGCTCCATCAACGCATTGAGCAGCGTTTTCATCAGATGTTGGCT +TCAGGTTTTGAAGCAGAAGTCCGGGCGCTTTTTGCCCGAGGAGATTTGCATACGGACTTGCCTTCCATTC +GTTGCGTGGGTTATCGCCAGATGTGGTCTTACCTTGAAGGCGAAATCTCATACGATGAAATGGTTTATCG +AGGTGTTTGCGCCACGAGACAGTTGGCGAAGCGGCAGATAACCTGGCTGCGTGGTTGGGAAGGGGTTCAC +TGGCTTGACAGTGAAAAACCAGAACAGGCGCGTGACGAAGTATTACAGGTTGTTGGTGCTATCGCAGGCT +GAATGTGTACAATTGAGACGTATCGTGCGCAATTTTTTCAGAATCGAAAGGTTCAAAGTACAAATAAGCA +TATAAGGAAAAGAGAGAATGGCTAAGGGGCAATCTTTACAAGATCCGTTCCTGAACGCACTGCGTCGGGA +ACGTGTTCCAGTTTCTATTTATTTGGTGAATGGTATTAAGCTGCAAGGGCAAATCGAGTCTTTTGATCAG +TTCGTGATCCTGTTGAAAAACACGGTCAGCCAGATGGTTTACAAGCACGCGATTTCTACTGTTGTCCCGT +CTCGCCCGGTTTCTCATCACAGTAACAACGCCGGTGGCGGTACCAGCAGTAACTACCATCATGGTAGCAG +CGCGCAGAATACTTCCGCGCAACAGGACAGCGAAGAAACCGAATAAGGTTTCGGGCTGTTTTTTTACACG +GGGAGCCAGCGATCCTGCGTTCCCCGCTGATCTATTTAGAGGGTTATACGCTTGTTTGACCGTTATGATG +CTGGTGAGCAGGCGGTACTGGTACACATCTATTTTACGCAAGACAAAGATATGGAAGACCTCCAGGAGTT +TGAATCTCTGGTCTCTTCCGCCGGTGTCGAAGCATTGCAGGTGATTACCGGTAGCCGTAAAGCGCCGCAC +CCAAAGTATTTTGTAGGTGAAGGTAAAGCAGTTGAAATTGCGGAAGCTGTCAAAGCGACGGGTGCTTCGG +TCGTTCTTTTTGACCATGCCCTGAGCCCGGCGCAAGAGCGTAACCTGGAGCGTTTGTGCGAGTGTCGTGT +TATCGACCGCACCGGCCTTATTTTAGATATTTTCGCCCAACGTGCGCGTACCCATGAGGGTAAGTTGCAG +GTTGAGCTGGCGCAGCTGCGCCATCTGGCTACGCGCCTGGTGCGTGGCTGGACCCACCTTGAAAGACAGA +AAGGCGGGATAGGTTTGCGTGGTCCGGGTGAAACCCAGCTCGAAACCGACCGTCGTTTGTTGCGTAATCG +CATCGTGCAGATACAGTCGCGCCTGGAAAGAGTTGAAAAGCAGCGTGAGCAGGGGCGGCAATCGCGTATC +AAAGCCGACGTTCCTACTGTTTCGCTGGTGGGATATACCAACGCCGGTAAATCTACCCTTTTCAATCGCA +TCACCGAAGCGCGGGTCTACGCGGCAGACCAGTTGTTTGCCACCCTCGACCCGACGTTGCGGCGTATTGA +CGTTGCAGATGTCGGTGAAACCGTACTTGCAGATACCGTAGGGTTTATTCGCCACCTGCCGCACGATCTG +GTGGCGGCATTTAAAGCCACGTTACAAGAGACGCGGCAAGCCACATTACTGCTGCACGTCATTGATGCGG +CGGATGTGCGTGTACAAGAAAACATCGAAGCGGTGAATACGGTTCTTGAAGAGATCGACGCTCACGAGAT +CCCAACCCTGCTGGTGATGAACAAGATCGATATGCTGGAAGATTTCGAACCGCGTATTGATCGGGACGAA +GAGAACAAACCGAACCGTGTCTGGCTTTCCGCACAGACCGGAGCGGGGATACCACAGCTTTTTCAGGCTT +TGACGGAGCGGCTTTCCGGCGAGGTGGCGCAGCATACATTGCGTCTGCCACCGCAGGAAGGGCGTCTGAG +AAGTCGTTTTTATCAGCTTCAGGCAATAGAAAAAGAGTGGATGGAGGAGGACGGCAGCGTAAGTCTGCAA +GTTCGTATGCCGATCGTTGACTGGCGTCGCCTCTGTAAACAAGAACCGGCGTTGATCGATTACCTGATCT +AACGGCGTAGCGTCTGAAGCGTGGAGTCATATCCTCTGGCGTCGAAAGACAACAGGGATCACCGCATAAC +AAATATGGAGCACAAACATGGCGTGGAATCAGCCCGGTAATAACGGACAAGACCGCGACCCGTGGGGAAG +CAGCAAACCTGGCGGCAACTCTGAGGGAAATGGAAACAAAGGCGGTCGCGATCAAGGGCCACCTGATTTA +GATGATATCTTCCGCAAACTGAGCAAAAAGCTCGGTGGTCTGGGCGGCGGTAAAGGCACCGGATCTGGCG +GTGGCAGTTCATCGCAAGGCCCGCGCCCGCAGCTTGGCGGTCGTGTCGTTACCATCGCAGCGGCAGCGAT +TGTCATTATCTGGGCGGCCAGTGGTTTCTATACCATTAAAGAAGCCGAACGCGGCGTGGTAACACGCTTT +GGTAAATTCAGCCATCTGGTTGAGCCGGGTCTGAACTGGAAACCGACGTTTATCGACGAAGTCAAACCGG +TGAACGTGGAAGCCGTGCGTGAACTGGCCGCTTCTGGTGTGATGCTGACGTCGGACGAGAACGTAGTGCG +CGTTGAGATGAACGTGCAGTACCGCGTCACCAATCCGGAAAAATATCTGTATAGCGTGACCAGCCCGGAT +GACAGCCTGCGTCAGGCTACCGACAGCGCCCTGCGTGGAGTTATCGGTAAATACACCATGGACCGCATTC +TGACGGAAGGTCGTACCGTGATTCGTAGCGATACTCAGCGCGAACTGGAAGAGACGATTCGTCCGTATGA +CATGGGTATCACGCTGCTGGACGTCAACTTCCAGGCTGCTCGTCCGCCGGAAGAAGTAAAAGCGGCGTTT +GACGATGCGATTGCCGCGCGTGAAAACGAACAGCAATACATTCGTGAAGCAGAAGCGTATACCAACGAAG +TTCAGCCGCGTGCGAACGGTCAGGCGCAACGTATCCTCGAAGAGGCGCGTGCGTACAAGGCCCAGACCAT +CCTGGAAGCTCAGGGTGAAGTGGCGCGCTTTGCTAAACTTCTGCCGGAATATAAAGCCGCGCCGGAAATT +ACTCGCGAGCGTCTGTATATCGAGACGATGGAAAAAGTGTTGGGTAACACCCGCAAAGTGCTGGTTAACG +ATAAAGGTGGCAACCTGATGGTTCTGCCGTTAGACCAGATGCTGAAAGGTGGTAACGCCCCTGCGGCGAA +GAGCGATAACGGTGCCAGCAATCTGCTGCGTCTGCCGCCAGCCTCTTCCTCCACAACCAGTGGAGCAAGC +AACACGTCGTCCACCAGTCAGGGCGATATTATGGACCAACGCCGCGCCAACGCGCAGCGTAACGACTACC +AGCGTCAGGGGGAATAACGATGCGTAAGTCAGTTATCGCGATTATCATCATCGTGCTGGTAGTGCTTTAC +ATGTCTGTCTTTGTCGTCAAAGAAGGTGAGCGCGGTATTACGCTGCGTTTTGGTAAGGTACTGCGTGACG +ATGACAACAAACCTCTGGTTTATGAGCCGGGTCTGCATTTCAAGATACCGTTCATTGAAACGGTGAAAAT +GCTCGACGCACGTATTCAGACCATGGACAACCAGGCCGACCGCTTTGTGACCAAAGAGAAGAAAGACCTG +ATCGTCGACTCTTACATCAAATGGCGCATCAGCGATTTCAGCCGTTACTACCTGGCAACGGGTGGTGGCG +ACATTTCGCAAGCGGAAGTGCTGTTGAAACGTAAGTTCTCTGACCGTCTGCGTTCTGAAATTGGTCGCCT +GGACGTGAAAGATATCGTCACCGATTCCCGTGGTCGTCTGACCCTCGAAGTACGTGACGCGCTGAACTCC +GGTTCTGCGGGTACAGAAGATGAAGTTACTACCCCGGCGGCAGATAACGCCATTGCCGAAGCGGCAGAGC +GCGTAACGGCTGAGACGAAGGGCAAAGTTCCGGTCATCAACCCGAACAGTATGGCGGCGCTGGGTATTGA +AGTTGTCGATGTGCGTATCAAGCAGATCAACCTGCCGACCGAAGTGTCTGAAGCGATCTACAACCGTATG +CGCGCCGAGCGTGAAGCGGTAGCGCGTCGTCACCGTTCACAAGGTCAGGAAGAAGCGGAAAAACTGCGCG +CGACTGCCGACTATGAAGTGACCAGAACGCTGGCAGAAGCTGAGCGTCAGGGCCGCATCATGCGTGGTGA +AGGCGATGCCGAAGCAGCCAAACTGTTTGCTGATGCATTCAGTAAAGATCCGGACTTCTACGCATTCATC +CGTAGCCTGCGTGCTTATGAGAACAGCTTCTCTGGCAATCAGGACGTGATGGTCATGAGCCCGGATAGCG +ATTTCTTCCGCTACATGAAGACGCCGACTTCCGCAACGCGTTAATATAACGACTGCGGTACAGGTCAATA +AAGCCACCGCATCCTCAGGGATGTCGGTGGTTTTCTTTTTCTATAAGGATAATGAATGAATTCGACAATC +TGGCTGGCGCTTGCCCTGGTTTTGGTACTGGAAGGTTTAGGGCCGATGCTTTACCCGAAGGCATGGAAGA +AGATGATCTCTGCGATGACCAATTTGCCCGATAATATTTTACGTCGTTTTGGCGGTGGACTTGTGGTTGC +GGGCGTTGTGGTCTACTACATGTTGAGGAAAACGATTGGCTGAACAAAAAACAGACTGATCGAGGTCATT +TTTGAGTGCAAAAAGTGCTGTAACTCTGAAAAAGCGATGGTAGAATCCATTTTTAAGCAAACGGTGATTT +TGAAAAATGGGTAACAACGTCGTCGTACTGGGCACCCAATGGGGTGACGAAGGTAAAGGTAAGATCGTCG +ATCTTCTGACTGAACGGGCTAAATATGTTGTACGCTACCAGGGCGGTCACAACGCAGGCCATACTCTCGT +AATCAACGGTGAAAAAACCGTTCTCCATCTTATTCCATCAGGTATTCTCCGCGAGAATGTAACCAGCATC +ATCGGTAACGGTGTTGTGCTGTCTCCGGCCGCGCTGATGAAAGAGATGAAAGAACTGGAAGACCGTGGCA +TCCCCGTTCGTGAGCGTCTGCTGCTGTCTGAAGCATGTCCGCTGATCCTTGATTATCACGTTGCGCTGGA +TAACGCGCGTGAGAAAGCGCGTGGCGCGAAAGCGATCGGCACCACCGGTCGTGGTATCGGGCCTGCTTAT +GAAGATAAAGTAGCACGTCGCGGTCTGCGTGTTGGCGACCTTTTCGACAAAGAAACCTTCGCTGAAAAAC +TGAAAGAAGTGATGGAATATCACAACTTCCAGTTGGTTAACTACTACAAAGCTGAAGCGGTTGATTACCA +GAAAGTTCTGGATGATACGATGGCTGTTGCCGACATCCTGACTTCTATGGTGGTTGACGTTTCTGACCTG +CTCGACCAGGCGCGTCAGCGTGGCGATTTCGTCATGTTTGAAGGTGCGCAGGGTACGCTGCTGGATATCG +ACCACGGTACTTATCCGTACGTAACTTCTTCCAACACCACTGCTGGTGGCGTGGCGACCGGTTCCGGCCT +GGGCCCGCGTTATGTTGATTACGTTCTGGGTATCCTCAAAGCTTACTCCACTCGTGTAGGTGCAGGTCCG +TTCCCGACCGAACTGTTTGATGAAACTGGCGAGTTCCTCTGCAAGCAGGGTAACGAATTCGGCGCAACTA +CGGGGCGTCGTCGTCGTACCGGCTGGCTGGACACCGTTGCCGTTCGTCGTGCGGTACAGCTGAACTCCCT +GTCTGGCTTCTGCCTGACTAAACTGGACGTTCTGGATGGCCTGAAAGAGGTTAAACTCTGCGTGGCTTAC +CGTATGCCGGATGGTCGCGAAGTGACTACCACTCCGCTGGCAGCTGACGACTGGAAAGGTGTAGAGCCGA +TTTACGAAACCATGCCGGGCTGGTCTGAATCCACCTTCGGCGTGAAAGATCGTAGCGGCCTGCCGCAGGC +GGCGCTGAACTATATCAAGCGTATTGAAGAGCTGACTGGTGTGCCGATCGATATCATCTCTACCGGTCCG +GATCGTACTGAAACCATGATTCTGCGCGACCCGTTCGACGCGTAATTCTGGTACGCCTGGCAGATATTTT +GCCTGCCGGGCGAACAGTGTGATACATTGCTGTGTCGGGTAAGCCATTACGCTATCCGACACAGTGTTAA +ATCCTCGCTTTTTTCCTTCCCCGAACTGAAATAAATTAGCGACACAGCTTGTGGCTGGTTTATCATCAAT +ATAAATGTATTTTTTCCCGATTTCCCTTTTGAGGTTGATGTGCAGTTAACGAGTTTCACTGATTACGGAT +TACGTGCGCTGATCTACATGGCGTCATTGCCAGAAGGGCGGATGACCAGTATTTCTGAAGTGACTGACGT +CTACGGCGTCTCCCGTAATCATATGGTCAAAATAATCAATCAACTTAGTCGTGCCGGCTACGTGACTGCT +GTTCGTGGAAAAAATGGCGGCATTCGCCTGGGTAAACCGGCGAGTGCGATACGTATTGGTGATGTGGTGC +GCGAGCTGGAGCCCTTATCGCTGGTGAATTGCAGCAGTGAGTTTTGCCACATTACACCTGCCTGTAGGTT +GAAACAGGCACTTTCTAAGGCCGTGCAAAGTTTTCTTACGGAACTGGATAACTACACGCTTGCCGATTTG +GTTGAAGAGAATCAACCGCTTTATAAATTATTGCTGGTGGAGTGACGAAAATCTTCATCAGAGATGACAA +CGGAGGAACCGAGATGTCACAAGATCCTTTCCAGGAACGCGAAGCTGAAAAATACGCGAATCCCATCCCT +AGTCGGGAATTTATCCTCGAACATTTAACCAAACGTGAAAAACCGGCCAGCCGTGATGAGCTGGCGGTAG +AACTGCACATTGAAGGCGAAGAGCAGCTTGAAGGCCTGCGTCGCCGCCTGCGCGCGATGGAGCGCGATGG +TCAACTGGTCTTCACTCGTCGTCAGTGCTATGCGCTGCCGGAACGCCTCGACCTGGTGAAAGGTACCGTT +ATTGGCCACCGTGATGGCTACGGCTTTCTGCGGGTTGAAGGGCGTAAAGATGATTTGTATCTCTCCAGCG +AGCAGATGAAAACCTGCATTCATGGCGATCAGGTGCTGGCTCAGCCGCTGGGTGCTGACCGTAAAGGTCG +TCGTGAAGCGCGTATTGTCCGCGTACTGGTGCCAAAAACCAGCCAGATTGTTGGTCGCTACTTTACCGAA +GCGGGCGTCGGCTTTGTGGTTCCTGACGACAGCCGTCTGAGCTTCGATATCTTAATCCCGCCCGATCAGA +TCATGGGCGCGCGGATGGGCTTTGTGGTCGTAGTCGAACTGACTCAGCGTCCGACTCGCCGCACCAAAGC +GGTGGGTAAAATCGTCGAAGTGCTGGGCGACAATATGGGCACCGGCATGGCGGTTGATATCGCTCTGCGT +ACCCATGAAATTCCGTACATCTGGCCGCAGGCTGTTGAGCAACAGGTTGCCGGGCTGAAAGAAGAAGTGC +CGGAAGAAGCAAAAGCGGGCCGTGTTGATCTGCGCGATTTACCGCTGGTCACCATTGATGGCGAAGACGC +CCGTGACTTTGACGATGCAGTTTACTGCGAGAAAAAACGCGGCGGCGGCTGGCGTTTATGGGTCGCGATT +GCCGACGTCAGCTACTATGTGCGTCCGTCAACGCCGCTGGACAGAGAAGCGCGTAACCGTGGCACGTCGG +TGTACTTCCCTTCGCAGGTTATCCCGATGCTGCCGGAAGTGCTCTCTAACGGCCTGTGTTCGCTCAACCC +GCAGGTAGACCGCCTGTGTATGGTGTGCGAGATGACGGTTTCGTCGAAAGGCCGCCTGACGGGCTACAAA +TTCTACGAAGCGGTGATGAGCTCTCACGCGCGTCTGACCTACACCAAAGTCTGGCATATTCTGCAGGGCG +ATCAGGATCTGCGCGAGCAGTACGCCCCGCTGGTTAAGCATCTCGAAGAGTTGCATAACCTCTATAAAGT +GCTGGATAAAGCCCGTGAAGAACGCGGTGGGATCTCATTTGAGAGCGAAGAAGCGAAGTTCATTTTCAAC +GCTGAACGCCGTATTGAACGTATCGAACAGACCCAGCGTAACGACGCGCACAAATTAATTGAAGAGTGCA +TGATTCTGGCGAATATCTCGGCGGCGCGTTTCGTTGAGAAAGCGAAAGAACCGGCACTGTTCCGTATTCA +CGACAAGCCGAGCACCGAAGCGATTACCTCTTTCCGTTCAGTGCTGGCGGAGCTGGGGCTGGAACTGCCG +GGCGGTAACAAGCCGGAACCGCGTGACTACGCGGAGCTGCTGGAGTCGGTTGCCGATCGTCCTGATGCAG +AAATGCTGCAAACCATGCTGCTGCGCTCGATGAAACAGGCGATTTACGATCCAGAAAACCGTGGTCACTT +TGGCCTGGCATTGCAGTCCTATGCGCACTTTACTTCGCCGATTCGTCGTTATCCAGACCTGACGCTGCAC +CGCGCCATTAAATATCTGCTGGCGAAAGAGCAGGGGCATCAGGGCAACACCACTGAAACCGGCGGCTACC +ATTATTCGATGGAAGAGATGCTGCAACTGGGTCAGCACTGTTCGATGGCGGAACGTCGTGCCGACGAAGC +AACGCGCGATGTGGCTGACTGGCTGAAGTGTGACTTCATGCTCGACCAGGTAGGTAACGTCTTTAAAGGC +GTAATTTCCAGCGTCACTGGCTTTGGCTTCTTCGTCCGTCTGGACGACTTGTTCATTGATGGTCTGGTCC +ATGTCTCTTCGCTGGACAATGACTACTATCGCTTTGACCAGGTAGGGCAACGCCTGATGGGGGAATCCAG +CGGCCAGACTTATCGCCTGGGCGATCGCGTGGAAGTTCGCGTCGAAGCGGTTAATATGGACGAGCGCAAA +ATCGACTTTAGCCTGATCTCCAGCGAACGCGCACCGCGCAACGTCGGTAAAACGGCGCGCGAGAAAGCGA +AAAAAGGCGATGCAGGTAAAAAAGGCGGCAAGCGTCGTCAGGTCGGTAAAAAGGTAAACTTTGAGCCAGA +CAGCGCCTTCCGCGGTGAGAAAAAAACGAAGCCGAAAGCGGCGAAGAAAGACGCGAGAAAAGCGAAAAAG +CCATCGGCGAAAACGCAGAAAATAGCTGCAGCGACCAAAGCGAAGCGTGCGGCGAAGAAAAAAGTGGCAG +AGTGATCAATACCCTCTTTAAAAGAAGAGGGTTAGATTGCTGACAAAATGCGCTTTGTTCATGCCGGATG +CGGCGTGAACGCCTTATCCGGCCTACATAATCACGCAAATTCAATATATTGCAGAGATCATGTAGGCCGG +ATAAACGTAGTGCATCAGGCAAAACGTAAACAACGAGTACATTAATGAGCGAAATGATTTACGGCATCCA +CGCAGTGCAGGCCCTGCTGGAGCGCGCCCCTGAACGTTTTCAGGAAGTCTTTATTTTAAAAGGCCGTGAA +GATAAACGTCTGTTACCGCTGATTCACGCCCTTGAGTCTCAGGGCGTGGTTATCCAGTTGGCAAACCGCC +AATATCTCGACGAGAAAAGCGACGGTGCCGTGCATCAGGGCATTATCGCCCGCGTGAAGCCAGGACGTCA +GTATCAGGAAAACGATCTGCCGGATCTGATCGCTTCGCTCGATCAACCGTTCCTGCTGATCCTCGACGGC +GTAACCGATCCGCACAACCTCGGCGCGTGCCTGCGTAGTGCGGACGCCGCAGGCGTTCATGCGGTGATTG +TGCCGAAAGATCGCTCCGCACAGCTCAACGCTACGGCGAAAAAAGTAGCCTGCGGCGCGGCAGAAAGCGT +TCCGCTGATTCGGGTGACTAACCTTGCGCGCACCATGCGTATGTTGCAGGAAGAGAATATCTGGATCGTC +GGTACGGCAGGCGAGGCGGATCATACACTCTATCAGAGCAAAATGACCGGACGCCTGGCGCTGGTGATGG +GTGCGGAAGGTGAAGGTATGCGTCGCCTGACTCGTGAACATTGCGATGAGTTGATCAGCATCCCGATGGC +TGGAAGCGTTTCTTCCCTGAACGTTTCGGTTGCGACCGGAATTTGCTTATTTGAAGCGGTGCGCCAGCGC +AGCTAATTTCTCAGAATTATGAAAAGCCATCCAGATTTGGATGGTTTTTTTTTGTCTATAGCTGGTAAGA +TAATTACGTATTGCAAATATTCATTTTATTAATATTTAAACTTAATCTATATGGAATAATATATGACATG +GAATCCGTTGGCGCTAGCGACGGCGCTGCAAACTGTACCTGAACAAAATATTGATGTAACAAATAGCGAG +AACGCATTAATTATTAAAATGAATGATTATGGCGATTTGCAAATCAATATTCTTTTTACTTCCCGCCAAA +TGATTATCGAAACCTTTATTTGTCCGGTGAGTAGTATCAGCAATCCAGATGAATTTAATACCTTCTTATT +AAGAAATCAGAAGATGATGCCGTTGTCATCGGTAGGGATCTCCAGCGTACAACAGGAAGAGTATTACATT +GTTTTCGGGGCGTTATCGCTTAAATCTTCTCTTGAAGATATCCTGCTTGAGATAACCTCGCTGGTAGATA +ACGCATTGGATCTGGCTGAAATTACAGAAGAATATTCACACTAATTACAAGGACGGGTATTTATGGGAAT +TTTAAAAAGTTTATTTACGCTGGGGAAATCGTTTATCTCCCAGGCGGAAGAATCCATTGAAGAAACCCAG +GGCGTGCGCATGCTGGAACAGCATATTCGTGACGCTAAAGCTGAACTCGATAAAGCCGGAAAATCTCGCG +TTGATCTGCTGGCGCGGGTGAAATTAAGTCACGATAAGCTGAAAGATTTACGTGAGCGCAAAGCCAGTCT +GGAAGCCCGTGCGCTGGAAGCGTTAAGCAAGAACGTTAATCCGTCGTTGATTAACGAAGTTGCTGAAGAA +ATCGCGCGCCTTGAGAATCTCATTACCGCTGAAGAGCAAGTGTTGTCGAATCTGGAAGTCTCCCGTGATG +GCGTGGAAAAAGCAGTTACAGCGACAGCGCAGCGTATCGCTCAGTTTGAGCAGCAAATGGAAGTCGTTAA +AGCCACTGAAGCCATGCAGCGTGCACAACAGGCTGTAACAACCTCTACCGTTGGCGCATCTTCCAGCGTT +TCGACAGCGGCAGAATCCTTAAAACGCCTGCAAACGCGTCAGGCCGAACGTCAGGCTCGCCTGGATGCTG +CCGCACAGTTGGAGAAAGTCGCAGACGGTCGCGACCTTGACGAAAAGCTGGCGGAAGCCGGAATTGGCGG +TAGCAATAAAAGTAGCGCCCAGGATGTATTAGCAAGACTGCAACGCCAACAGGGCGAGTAATTTTTTTGC +CAGCCTCGCTAAAAGGCTGGCAACTATTTTAAGGATAAAATATGTCTGGTTTTTTCCAGCGTCTGTTTGG +CAAGGATAATAAGCCAGCTATCGCTCGTGGTCCGCTGGGACTTCATCTCAATAGTGGCTTTACGCTCGAC +ACGTTAGCGTTTCGTTTGCTGGAAGATGAATTGCTGATTGCGCTGCCGGGTGAGGAATTTACGGTAGCCG +CCGTCAGCCACATCGATCTGGGCGGCGGTAGTCAGATTTTCCGCTACTACACTTCAGGCGATGAGTTTCT +GCAAATCAATACCACCGGCGGCGAAGATATTGATGACATTGATGATATCAAGCTCTTTGTCTATGAAGAG +AGCTACGGTATCAGTAAAGAGAGTCACTGGCGCGAGGCGATCAACGCCAAAGCGATGGGAGCAATGACCT +TAAACTGGCAGGAAAAACGCTGGCAGCGATTTTTTAACAGCGAAGAACCGGGAAATATCGAACCCGTCTA +CATGCTGGAAAAAGTAGAAAATCAAAACCATGCCAAATGGGAGGTCCATAATTTTACCATGGGCTACCAA +CGGCAAGTAACCGAAGATACTTACGAATATTTGCTGCTAAATGGTGAGGAATCTTTTAACGATCTCGGCG +AGCCAGAGTGGTTATTTTCGCGCGCGTTGGGTGTCGATATCCCGCTGACATCACTTCATATTATTGGTTA +ATTACAAGGACGTTTACAATGCATATACTGGATTCACTTCTTGCCTTTAGCGCCTATTTTTTTATTGGCG +TGGCTATGGTGATTATTTTTCTGTTTATCTATTCTAAAATTACACCGCACAACGAATGGCAGTTAATCAA +AAACAATAATACCGCGGCGTCACTGGCGTTCAGCGGTACATTGTTGGGTTACGTTATCCCCTTATCCAGT +GCGGCAATCAATGCGGTGAGTATTCCAGACTATTTCGCCTGGGGCGGGATTGCACTGGTGATTCAGTTAC +TCGTTTTTGCTGGTGTCAGACTTTATATGCCCGCATTAAGCGAAAAAATTATTAATCACAATACCGCAGC +AGGAATGTTTATGGGAACCGCCGCGCTGGCTGGCGGTATTTTTAACGCAGCTTGTATGACATGGTAATGG +ACGATCATGGCCAGAAAACGCAAATCAAGAAATAACAGTAAAATTGGTCACGGAGCGATTAGTCGCATTG +GTAGACCGAATAATCCTTTTGAACCGTGCCGCAATCGCTACGCACAAAAATACTTAACGTTGGCGCTAAT +GGGCGGTGCCGCTTTTTTCGTATTGAAAGGTTGTAGCGATAGTAGCGATGTCGATAACGACGGCGACGGA +ACGTTTTACGCGACAGTGCAGGATTGTATTGATGACGGTAATAATGCCGACATTTGCGCGCGTGGCTGGA +ACAACGCCAAAACGGCATTTTATGCCGATGTTCCGAAGAATATGACTCAGCAGAACTGTCAGTCTAAGTA +CGAAAATTGCTACTACGACAATGTTGAACAGAGTTGGATCCCGGTCGTTTCTGGATTTTTGTTAAGCCGG +GTTATTCGTAAAGATCGCGATGAGCCGTTTGTTTATAACAGCGGCGGTTCCTCTTTTGCTTCGCGCCCAG +TCTGGCGCAGCACTTCTGGTGATTACTCCTGGCGCTCCGGTTCTGGCAAAAAAGAGTCTTACTCTTCGGG +CGGCTTTACCACCAAAAAAGCGTCTACCGTTTCTCGCGGCGGCTATGGTCGTTCTTCCAGCGCCCGTGGG +CATTGGGGAGGCTAATCATGCTGAGACACAACGTTCCTGTGCGACGGGATCTGGACCAGATCGCCGCTGA +CAACGGTTTCGACTTTCATATCATCGACAATGAAATCTATTGGGATGAGAGTCGGGCTTACCGTTTTACT +CTGCGCCAGATTGAAGAGCAGATCGAAAAACCGACTGCGGAACTGCATCAGATGTGCCTTGAGGTGGTGG +ATCGCGCGGTAAAAGATGAAGAGATCCTGACGCAACTGGCGATCCCGCCGTTGTACTGGGATGTGATCGC +TGAAAGCTGGCGCGCCCGCGATCCTTCGCTGTATGGACGGATGGATTTTGCCTGGTGTGGCAATGCGCCG +GTGAAGCTGCTGGAGTACAACGCCGATACGCCAACTTCATTGTACGAGTCGGCTTATTTCCAGTGGCTGT +GGCTGGAGGATGCCCGGCGCAGCGGCATTATTCCGCGTGATGCCGATCAGTACAATGCTATTCAGGAACG +CCTGATTTCACGCTTTAGCGAGCTTTACAGTCGGGAACCGTTTTATTTTTGCTGCTGTCAGGACACCGAT +GAAGACAGGAGTACCGTGCTGTACTTGCAGGACTGCGCCCAGCAGGCAGGGCAGGAGTCGCGGTTTATCT +ACATTGAAGATCTCGGTTTGGGCGTCGGCGGCGTACTGACCGATCTTGATGATAATGTCATCCAGCGTGC +ATTTAAGCTGTATCCGCTGGAGTGGATGATGCGTGACGATAACGGTCCGCTGCTGCGCAAGCGTCGCGAG +CAATGGGTGGAGCCGTTATGGAAAAGTATCTTGAGTAATAAAGGGCTAATGCCGCTGCTTTGGCGCTTCT +TCCCTGGTCATCCTAATCTTCTTGCGTCCTGGTTCGATGGCGAGAAACCGCAGATTGCCGCTGGCGAAAG +CTATGTGCGTAAACCAATCTATTCGCGCGAAGGCGGCAACGTCACCATTTTTGACGGCAAGAATAACGTT +GTTGACCACGCTGATGGTGATTACGCCGATGAACCGATGATCTACCAGGCGTTTCAACCTCTGCCGCGGT +TTGGCGATAGCTACACACTCATCGGTAGCTGGATTGTCGATGATGAAGCGTGCGGAATGGGGATCCGTGA +AGATAACACACTGATCACCAAAGACACCTCACGTTTCGTTCCGCATTACATTGCTGGATAAGAATGTTTT +AGCAATCTCTTTCTGTCATGAATCCATGGCAGTGACCATACTAATGGTGACTGCCATTGATGGAGGGAGA +CACAGTGCACTGGCAAACTCACACCGTTTTTAATCAACCTATACCATTAAATAACAGCAACTTATACCTG +TCTGATGGCGCGCTCTGCGAAGCGGTAACGCGTGAAGGTGCTGGCTGGGATAGCGATTTTCTAGCCAGTA +TTGGTCAGCAGTTAGGAACGGCTGAATCCCTTGAACTGGGGCGGCTGGCGAATGTGAATCCGCCTGAATT +ATTGCGCTACGATGCGCAAGGACGCCGTCTGGACGATGTGCGTTTTCACCCCGCCTGGCACCTGCTGATG +CAGGCGCTATGTACCAATCGGGTGCACAATCTTGCCTGGGAAGAAGACGCTCGCTCCGGCGCATTTGTGG +CGCGCGCGGCGCGTTTTATGTTACATGCGCAGGTTGAGGCAGGGTCGTTATGTCCGATAACCATGACCTT +TGCCGCCACGCCATTGTTGTTACAGATGTTACCCGCGCCGTTTCAGGACTGGACCACGCCGCTATTGAGC +GATCGCTACGATTCTCACTTATTGCCAGGTGGGCAAAAACGCGGTTTGTTGATTGGCATGGGAATGACGG +AAAAGCAGGGCGGTTCCGATGTTATGAGCAACACCACCCGTGCAGAGCGTCTGGAAGATGGCTCTTATCG +GCTGGTGGGGCATAAATGGTTTTTCTCGGTTCCGCAAAGCGATGCGCATCTGGTGCTGGCGCAGACCGCG +GGTGGTCTGTCCTGCTTTTTTGTGCCGCGCTTTTTGCCTGACGGGCAACGCAACGCGATTCGCCTCGAGC +GGCTGAAAGATAAGCTGGGTAATCGCTCTAACGCCAGTTGCGAAGTGGAGTTTCAGGATGCCATTGGTTG +GTTGTTGGGGCTGGAAGGGGAAGGAATTCGTCTGATCCTGAAAATGGGTGGGATGACGCGTTTTGATTGC +GCCCTGGGTAGCCATGCCATGATGCGCCGTGCATTTTCGCTGGCGATTTATCATGCACATCAACGCCATG +TTTTTGGTAATCCATTGATCCAACAGCCCCTTATGCGTCATGTCTTAAGTCGCATGGCACTTCAGCTTGA +AGGGCAAACGGCGTTGCTGTTTCGTCTTGCGCGAGCGTGGGACCGGCGTGCCGATGCCAAAGAAGCCCTG +TGGGCGCGTTTATTTACGCCTGCGGCAAAATTTGTGATCTGCAAAAGAGGTATGCCGTTTGTGGCCGAAG +CGATGGAGGTGCTGGGCGGCATTGGTTATTGCGAGGAGAGTGAGCTGCCGCGGCTTTACCGGGAGATGCC +GGTAAACAGTATTTGGGAAGGTTCCGGCAATATTATGTGCCTGGATGTGTTGCGCGTTCTCAATAAGCAA +GCGGGCGTATACGACTTATTGTCGGAAGCATTTGTGGAAGTGAAAGGGCAGGATCGCTATTTTGATCGCG +CGGTTCGTCGTTTACAGCAGCAGCTGCGTAAGCCAGCTGAAGAACTGGGGCGAGAGATTACTCATCAGCT +ATTCCTGCTGGGCTGCGGTGCGCAAATGTTGAAATATGCTTCTCCGCCAATGGCGCAGGCGTGGTGTCAG +GTGATGTTAGATACGCGCGGCGGCGTACGGTTGTCAGAGCAGATCCAGAATGATTTATTGCTGCGGGCGA +CGGGGGGAGTGTGTGTGTAAGCGTATACGACTGATGCGACGCTGGTTTCGATTAACTAAATGAAATATGT +GAAAATTGTAGGCCGGACAAGGCGCTCGCGCCGCATCCGGCATTGTTCATTTGCTGTAGATGACACTCAT +GCATACAGTATCGCCTGTACGCGCCAGTTATCAGGCTGCTGGTCTTCGTACATGGTAATAATGCGGTACC +ATGACGCACCTTGTTCATCGGCCTTTAACGCCACGATACGTTCCACGTCCTGCGGATCCCCTGAAATATT +GCTAACTGAGATCTGACCTATTTCATTCAGGCCCGTCACGCAGTCAGCACTGGCGAATTCTGCAGACTGT +GCCGTGGCGCTCGCAGGATAAGTCACTAATTGCAGCGAGGGTGAGGCAAGTAATTGTTTCATCGTCAGCT +CCATTTTTCGTTTCCCCACATGTTGCAGGGCATTCCATCGCGGTAATAAACGCCCAGGCTTCCAGCCGGT +AATTTATTGTGCACAGGTAAACGCATAGGGACGCAAAGCAATGTAAAGCTGACTATGTAAGTTGTCTGAT +TTATTTACGGTACAAAATGGCTTGTGAATACCACTGTCCTGTCACGATGGTTTCGTCCACCATGACGACA +ACGTAATAATCAGCTTTTGCAGCGACAGCTTTCGCTTTGATTTCTGCTAATGCGTCATCCGGAGAACCCC +GAACCATCGTGCTTACGCTACCTATTCGCTGTAACCCTTGCGTCTGGTCGCGGCGAATCTCTTGCGGATG +GTCCGTTACTGGCGGTGCTGGCTGTGGCGTACCTTGCAGTGCGCTACAGGCACTTAACATCAACACCAAT +AATAAACTGGCAAACCGGTAAATAACGCTATTACGTTTCCTGCTAACCATAGTGTAGTGCCTTATTAATT +TAACTTTGGGGGAATGTTCCCGAATTGTTACCTGGTACGCGATTTTCGAATGAAAACGTGACGAAAGCGT +AACCCACATCTCAACATTATGAACTAATACCGCCAGCAGAAACTTGTGCTAAGGATTTCTTCATGTCATA +CCAGACAAAAAGGAGAGACAGATGATTGAAATAGAATCACGCGAGCTGGCAGATATTCCCGTTCTTCATG +CTTATCCTGTCGGGCAAAAAGATACCCCGTTACCGTGCGTAATTTTTTATCACGGCTTTACTTCATCCAG +TCTGGTGTATAGCTATTTTGCCGTTGCGCTGGCGCAGGCTGGTTTGCGGGTGATCATGCCGGATGCGCCC +GATCACGGTAGCCGTTTTAGTGGTGACGCAGCGCGGCGGTTAAATCAATTCTGGCAAATCTTGCTACAAA +GTATGCAGGAATTCACTACTTTACGTGCGGCAATAGCCGAAGAAAACTGGCTGCTTGATGACCGTCTGGC +AGTCGGTGGCGCGTCGATGGGCGCGATGACGGCACTGGGGATTACCGCTCGCCACCCCACGGTGAGATGT +ACCGCCAGCATGATGGGATCGGGCTATTTTACATCACTCGCCCGTTCACTGTTTCCACCGCTGATACCTG +AAACGGCAGCACAGCAGAATGAATTCAATAACATTGTCGCGCCACTGGCAGAGTGGGAAGCGACAAACCA +CCTGGAACAACTTAGTGACAGACCTCTACTGCTGTGGCATGGCCTCGACGATGACGTTGTGCCTGCCGAC +GAATCACTACGTTTGCAGCAGGCCTTAAGCGAGACGGGACGGGATAAACTGCTAACCTGTTCATGGCAGC +CAGGCGTGCGTCACCGCATTACGCCTGAGGCGTTAGATGCTGCCGTGACATTTTTCCGCCAGCATCTTTA +AACACGCAGAATGCTGACCCCTTGCGCTTCCAGTTGTTGCAGGATTTCCGGGTTAGCATTTTTGCCGGTG +ATAAGCATATCGATTTGATCGGCACGGCTAAAAAGCATTCCCGCGCGTTCGCCAATCTTACTGCTATCAA +CCAGTACCACCAGTTTCCCTACCACGCTCAGCATCTTCTGCTCTGCCATTGCTGTCAGCATATCGGTTTT +ATACAACCCTTCTGCGGTCAGCCCTTTTCCGCTGGTAAACATCCAGTGCCCGGCATAGAGACTGTTTTCG +CTGCCCTGCGGGCTTAAAGTGATGGACTGACTTTTGTTGTACTGTCCGCCCATAATGATCACGCTGTCAT +GTTCTTGATCGATCAGGTAATTTGCCAGCGGTAGATAATTAGTGATGATTTGCACTGGCTTGCCACACAT +TTCCCGCCCAAGCAGAAACGCGGTGGAGCCGCAGTTGATGACTACGCTTTCGCCCGGATTAACCAGCTGC +GAGGCCGCTTTAGCGATACGTACTTTTTCATCGTGATTCTGCGCCTGATGCAGATTCATCGGCGTCCAGC +GCGGGCGCTGTTGGGTAATAGCTTCTGCGCCATTGCGCACTTTTTTCAGTTTGCCGCTTTCGTCAAGTTT +ATTGATATCGCGTCGCGCAGTGGCAGGCGAAATTCCCAGACGCTCAACGACTTTCTCAACGGTCACAAAG +CCCAATTGTGCGAGCATTTCCAGGAGGATTTGATGTCTTTGTGCTTCAGTCATGAGCTATTCCGATAAAA +TTTGATTTTTTTAGATGATATTTGAAATAGCCAGGAAATACTACGCCGGATAGCGCGAACTTCTCCACGC +TACCCGGTATAAACGACAGATTACAGGAATGACTTGAACGGCAGATCCGGTTCAATAGTGAAGCAATCAT +CGAAACCGCGCGGATAGTGGTACTCGAAGTTGTCTTTATCCAGCGGCCAGGTAAATTTGCCACCCACCTG +CCAGATAAACGGCTTGAAGCCATACTTCAGGCGATCTTTTTTCATCTCCCACAGCACGCGGATCTCTTGC +GGATCGGCCTGGAAGTTTGACCAGATATCGTGGTGGAACGGGATCACTACTTTCGCATTCAGCGCTTCAC +CCATACGCAGCATATCGGCGCTGGTCATTTTGTCGGTGATACCGCGCGGGTTTTCGCCGTACGATCCTAA +CGCCACGTCGATCTGATGTTCGTTACCGTGCTTCGCATAATAGTTAGAGTAGTGGGAGTCGCCGCTGTGA +TACAGGGAGCCGCCAGGCGTTTTGAACAGGTAGTTCACCGCGCGATCGTCCATGCCATCTGGCAGTACGC +CAGCCGCTTTTTGATCGGCAGGCAGGGTGATCAGTGCAGTACGGTCGAAAGCATCAAGCGCATGAATTTC +AATGTCTTTCACTTTTACTACATCGCCCGGTTTGACCACGATGCAACGCTCTTTCGGTACGCCCCAGCCA +ATCCACAAATCCACACAGGTTTTCGGTCCGATAAACGGTACGTCATCTGCACAATTCTGCATCACGGCAG +CAGCGACGTTAACGTCGATATGATCGTTGTGATCGTGAGTCGCCAGTACCGCGTCGATCTGGCGAATCGC +AAACGGATCAAGAACAAACGGGGTGGTACGCAGGTTTGGCTGCAGTTTTTTCACGCCAGCCATGCGCTGC +ATCTGGTGACCCTGTTTCATTAACGGGTTACCGTGACTTTGTTTGCCAGTGCCGCACCAGAAATCAACGC +AAACGTTGGTGCCACCTTCCGATTTCAACCAGATCCCGGTGCAGCCAAGCCACCACATCGCAAATGTGCC +AGGAGCGACCTGTTCTTGTTCAATTTCTTCATTCAACCAGCTACCCCACTCCGGGAAAGTGCTCAGGATC +CAGGATTCACGGGTGATACTTTTCACTTTACTCATCGCCATTTACCTTCATGATAGTTCAATTCGAATCA +ATATGTGATTGGTTTTGATTAATCCTGACACTATTTTTTCAGGAAGGCAATGACCATTTTTTGACTTTTT +GCCAGGGAAGTTGTTGTTGATTTTGAGTATGGAAAGATTTAATGGAATGTGTAATTCAATTAACTAAATG +AATTTAAATGGATAATTGTTTCGTTGTGTGAATCCCACTCTATCCATGTGGAATTATTTGCGGGTCGCGT +CACATTTAATCATAAATAATCTTGTTGTGATTACTTTTGAAAATTAGAGTGAGTGCACAACATTCCGGGT +GTGTGGAATACCCGGTTACCTCTTCTTCAGGAGATCGTTATGGAGATCCTCTACAACATCTTTACCGTGT +TTTTTAACCAGGTCATGACCAATGCCCCGTTGTTGCTGGGTATTGTGACCTGTCTGGGCTACATCCTACT +GCGCAAAAGTGTCAGCGTTATTATTAAAGGCACGATTAAAACCATAATTGGTTTCATGTTGTTGCAGGCA +GGGTCCGGCATCCTCACCAGCACCTTCAAACCGGTGGTGGCGAAAATGTCCGAAGTCTACGGCATTAACG +GCGCAATTTCCGATACCTACGCTTCAATGATGGCAACCATCGACCGCATGGGCGATGCCTATAGCTGGGT +GGGTTACGCCGTATTGTTAGCGCTGGCGCTGAACATCTGTTACGTGCTGTTGCGTCGCATTACCGGCATT +CGCACAATCATGTTGACCGGCCACATCATGTTCCAGCAGGCCGGGTTGATTGCCGTTACGCTGTTTATCT +TCGGCTACTCCATGTGGACCACCATTATCTGTACCGCGATTCTGGTTTCGCTCTACTGGGGCATCACTTC +CAACATGATGTACAAGCCGACTCAGGAAGTGACGGATGGCTGTGGTTTCTCCATCGGTCACCAGCAGCAG +TTTGCATCATGGATTGCCTATAAAGTCGCGCCGTTCCTCGGCAAAAAAGAGGAGAGCGTTGAAGACCTCA +AATTGCCGGGCTGGCTGAACATTTTCCACGACAACATCGTCTCCACGGCGATTGTGATGACCATCTTCTT +TGGTGCCATTCTGCTCTCCTTCGGTATCGACACCGTGCAGGCGATGGCAGGCAAAGTGCACTGGACGGTG +TACATCCTGCAAACTGGTTTCTCCTTTGCGGTGGCGATCTTCATCATCACGCAGGGTGTGCGCATGTTTG +TGGCGGAACTCTCTGAAGCATTTAACGGCATTTCCCAGCGCCTGATCCCAGGTGCGGTTCTGGCGATTGA +CTGTGCAGCTATCTATAGCTTCGCGCCGAACGCCGTGGTCTGGGGCTTTATGTGGGGCACCATCGGTCAG +CTGATTGCGGTTGGCATCCTGGTCGCCTGCGGCTCCTCGATCCTGATTATTCCTGGCTTTATCCCGATGT +TCTTCTCTAACGCCACCATCGGCGTGTTCGCTAACCACTTCGGCGGCTGGCGTGCGGCGCTGAAGATTTG +TCTGGTGATGGGGATGATCGAAATCTTTGGTTGCGTCTGGGCGGTGAAACTCACCGGTATGAGTGCCTGG +ATGGGCATGGCGGACTGGTCGATTCTGGCACCGCCGATGATGCAAGGCTTCTTCTCCATCGGTATCGCCT +TTATGGCCGTCATCATTGTAATTGCACTGGCTTATATGTTCTTCGCTGGCCGCGCGCTGCGCGCAGAAGA +AGATGCAGAAAAACAACTGGCAGAACAGTCTGCTTAATAAGGAGTTTTGATTATGACCGTACGTATTCTG +GCTGTGTGTGGCAACGGACAAGGCAGTTCCATGATCATGAAGATGAAAGTGGACCAGTTTTTAACCCAAT +CAAACATTGACCATACGGTAAACAGCTGCGCGGTTGGCGAGTACAAAAGCGAGTTGAGTGGCGCGGATAT +CATCATCGCTTCTACGCACATTGCGGGCGAAATCACCGTGACCGGCAACAAATACGTGGTTGGCGTGCGC +AACATGCTCTCTCCTGCCGACTTTGGCCCGAAACTGCTGGAAGTGATCAAAGAGCATTTCCCGCAGGATG +TGAAGTAAGGACGCGCCATGAAATTACGTGATTCGCTGGCGGAAAATAAATCCATCCGCCTGCAGGCTGA +AGCAGAGACATGGCAGGAAGCGGTGAAAATCGGCGTTGACCTGCTGGTGGCGGCAGATGTGGTAGAGCCG +CGTTACTACCAGGCGATTCTGGATGGCGTTGAACAGTTCGGTCCTTATTTCGTTATCGCTCCGGGCCTGG +CAATGCCGCACGGGCGTCCGGAAGAGGGCGTTAAGAAAACCGGTTTCTCTCTGGTAACGCTGAAAAAGCC +GCTGGAGTTCAACCACGATGACAACGATCCGGTGGATATCCTCATCACCATGGCGGCGGTCGATGCCAAT +ACTCACCAGGAAGTGGGCATCATGCAGATCGTCAACCTGTTTGAAGATGAAGAGAATTTTGACCGTTTAC +GCGCCTGCCGTACCGAGCAGGAAGTACTGGATCTCATTGACCGCACCAACGCGGCAGCTTAAGAAGGAAT +TGAACATGTCATTACCGATGTTGCAAGTCGCGCTGGACAACCAGACTATGGATAGCGCCTACGAAACCAC +TCGCCTGATTGCCGAAGAAGTCGACATTATCGAAGTGGGCACCATTCTGTGCGTGGGCGAAGGCGTGCGT +GCGGTTCGTGACCTGAAAGCGCTCTACCCGCACAAAATCGTACTGGCAGACGCCAAAATTGCCGATGCAG +GCAAAATCCTTTCGCGTATGTGCTTCGAAGCCAACGCTGACTGGGTGACGGTAATTTGCTGTGCGGATAT +CAACACCGCCAAAGGCGCGCTGGACGTGGCAAAAGAGTTTAACGGCGACGTGCAGATCGAACTGACCGGT +TACTGGACCTGGGAACAGGCGCAACAGTGGCGCGATGCAGGCATTGGGCAGGTGGTTTATCACCGCAGCC +GTGACGCGCAGGCCGCAGGCGTGGCGTGGGGCGAAGCGGACATCACCGCGATCAAACGTCTTTCCGATAT +GGGCTTCAAAGTCACCGTCACCGGAGGCCTGGCGCTGGAAGATCTGCCGCTGTTCAAGGGTATTCCGATT +CACGTCTTTATCGCGGGCCGTAGTATCCGTGATGCCGCTTCTCCGGTGGAAGCCGCACGTCAGTTCAAAC +GTTCCATCGCTGAACTGTGGGGCTAAGGAGCGGATATGTTGTCCAAACAAATCCCGCTTGGCATCTATGA +AAAAGCGCTCCCCGCCGGGGAGTGCTGGCTGGAACGCCTGCAACTGGCAAAAACGTTAGGCTTCGATTTT +GTCGAAATGTCGGTAGATGAAACTGACGATCGCCTGTCGCGCCTCAACTGGAGCCGCGAGCAGCGTCTGG +CGCTGGTCAATGCGATTGTTGAAACCGGCGTGCGCGTGCCGTCCATGTGCCTTTCTGCTCATCGTCGTTT +CCCGCTGGGCAGTGAAGATGACGCGGTGCGGGCGCAGGGGCTGGAGATTATGCGTAAAGCTATCCAGTTC +GCCCAGGATGTCGGTATTCGCGTGATCCAGCTGGCGGGCTATGACGTTTACTATCAGGAAGCCAATAACG +AAACGCGTCGTCGTTTCCGTGACGGCCTGAAAGAGAGCGTTGAGATGGCAAGCCGCGCGCAGGTGACGCT +GGCGATGGAGATCATGGATTATCCGTTGATGAGCTCCATCAGCAAGGCGCTGGGATACGCGCACTATCTC +AACAATCCGTGGTTCCAGCTCTACCCGGATATCGGCAACCTGTCGGCGTGGGACAACGATGTGCAGATGG +AGTTGCAGGCCGGAATCGGGCATATCGTCGCGGTACATGTGAAAGACACCAAACCTGGCGTCTTCAAAAA +CGTGCCGTTTGGCGAAGGTGTAGTGGATTTCGAACGTTGTTTCGAAACGCTCAAACAGAGTGGCTATTGC +GGGCCGTACCTGATTGAGATGTGGAGCGAAACGGCGGAAGACCCGGCGGCAGAAGTGGCGAAAGCGCGTG +ATTGGGTGAAAGCGCGCATGGCGAAAGCGGGCATGGTGGAGGCGGCATAATGCAAAAGCTAAAACAGCAG +GTATTTGAAGCCAACATGGAGCTGCCGCGCTACGGGCTGGTGACCTTTACCTGGGGCAACGTCAGCGCTA +TCGACCGCGAACGCGGGCTGGTGGTGATCAAGCCCAGCGGCGTTGCCTACGAAACCATGAAAGCGGCCGA +TATGGTGGTGGTTGATATGAGCGGCAAGGTGGTGGAAGGGGAGTATCGCCCATCTTCCGACACTGCGACG +CATCTCGAACTCTACCGTCGTTACCCGTCGCTTGGTGGCATTGTCCATACCCACTCCACTCATGCCACCG +CATGGGCGCAGGCGGGGCTGGCGATCCCGGCGTTAGGCACCACGCACGCCGACTACTTCTTTGGCGACAT +TCCGTGTACGCGCGGGTTAAGCGAAGAAGAGGTGCAGGGCGAGTATGAACTGAACACCGGCAAAGTGATT +ATCGAAACGCTGGGCAACGCCGAGCCGCTGCATACGCCGGGAATTGTGGTGTATCAGCACGGGCCGTTCG +CCTGGGGGAAAGATGCTCACGATGCGGTGCATAACGCGGTGGTGATGGAAGAAGTGGCGAAAATGGCGTG +GATTGCCCGCGGCATTAACCCACAACTCAATCACATCGACAGCTTCCTGATGAATAAACACTTCATGCGT +AAACACGGTCCTAACGCTTATTACGGGCAGAAGTAGAACACGCGCTGCGGAAATTTCCTTCCTCGGGAGA +TAACTGGTCTAATTCCGCAGCCGTTTTTCAAAAAAAAGCCCCCTGCGAAGGGGGCAAAGCAAACTATGGC +AATGTTTCGTTGGTTATACCTGGTGCTAGCGATAAATATCCGCGCTGGCGTGCATATTGCCGTTACTCCC +CGGTTCCCGCATCAGAATTACGTGGTAGTACGTTGCGCCTTGCGCATCTGTTTCTTCATTTAATGCCTGA +CGTGCTTCGCTTTCAGTGGCGAAATTATGATTGATATAAATCACGCCTAAGCTTTGCACATCGTCCATAT +TTCTGGCCTGGTGGTTATTAATTTCAATGGCTGCCCATGTATTTGCACTTAGCAAAAGCACAGCCAGAAG +GGCTAAAACACGACTGAACATAGATACCTCCTCGACGGCTGACTTTGTGTGCTCTCCTCTGTGATGATCT +TCTGATTTAATTTTAATCAATGATAAAGAAGTTGATGGTGACCATTTCTGATGCAGTTGTTCAAAAAAAC +ACCATGATGAAGTGTGATGAACTTCAAATCAGCGTGTTAGAGGTTAATTGCGAAAGGGGAGATTTATTTC +GGCTCTGCCCTTGAGTTTAGCGAGGCATACAAGTACTATAACGCGTCATTTTTCAGCCGACCTTTAACAC +GTTCCTTGCCTCCCCGGGATTCGGCTGACCCAGACAGGAGGCTGAATAATCCGTAAGGAGCAATTCGATG +CGTCATTACGAAATCGTTTTTATGGTCCATCCTGACCAGAGCGAACAGGTTCCGGGCATGATCGAGCGCT +ACACTGCTGCCATCACTGGTGCAGAAGGCAAGATCCACCGTCTGGAAGACTGGGGCCGCCGTCAGCTGGC +TTACCCGATCAACAAACTGCACAAAGCACACTACGTTCTGATGAATGTTGAAGCTCCGCAGGAAGTGATC +GATGAGCTGGAAACTACCTTCCGCTTCAACGATGCCGTTATCCGCAGCATGGTTATGCGTACCAAGCACG +CTGTTACCGAAGCATCTCCGATGGTTAAAGCGAAAGACGAGCGCCGTGAGCGTCGCGATGATTTCGCAAA +CGAAACCGCTGATGATGCTGAAGCTGGGGATTCTGAAGAGTAATTTCTGATGACCAACCGTCTGGTGTTG +TCCGGCACCGTGTGCAGGGCTCCCCTTCGAAAGGTCAGTCCATCAGGAATTCCTCACTGCCAGTTCGTGC +TTGAGCATCGTTCTGTGCAGGAGGAAGCCGGCTTTCACCGGCAGGCGTGGTGTCAAATGCCCGTTATTGT +TAGCGGACACGAAAACCAGGCCATTACTCACAGTATAACGGTCGGCAGTCGCATAACCGTTCAGGGGTTC +ATTTCATGCCACAAGGCAAAGAACGGACTGAGCAAAATGGTTTTGCATGCCGAGCAGATTGAATTGATAG +ATTCTGGAGACTAGCCATATGGCACGTTATTTCCGTCGTCGCAAGTTCTGCCGTTTCACCGCGGAAGGCG +TTCAAGAGATCGACTATAAAGATATCGCTACGCTGAAAAACTACATCACCGAAAGCGGTAAGATTGTCCC +AAGCCGTATCACCGGTACCCGTGCAAAATACCAGCGTCAGCTGGCTCGCGCTATCAAACGCGCTCGCTAC +CTGTCCCTGCTGCCGTACACTGATCGCCATCAGTAATCGGTCACGGTCCATTAATACGACTTTGAGAGGA +TAAGGTAATGCAAGTTATTCTGCTTGATAAAGTAGCAAACCTGGGTAGCCTGGGTGATCAGGTAAACGTT +AAAGCGGGCTATGCTCGTAACTTCCTGGTACCGCAGGGTAAAGCTGTTCCAGCTACCAAGAAAAACATTG +AATTCTTCGAAGCTCGTCGCGCTGAACTGGAAGCTAAACTGGCTGAAGTTCTGGCAGCTGCTAATGCTCG +CGCTGAGAAAATCAATGCACTGGAAACTGTTACCATCGCGTCTAAAGCTGGCGACGAAGGTAAACTGTTC +GGTTCCATCGGTACTCGCGACATCGCTGACGCTGTAACTGCAGCTGGCGTTGAAGTGGCTAAGAGCGAAG +TTCGTCTGCCGAACGGCGTTCTGCGTACCACTGGCGAACACGAAGTGAGCTTCCAGGTTCACAGCGAAGT +ATTCGCGAAAGTGATCGTAAACGTAGTAGCTGAATAATTCGTTATTCAACGAGACGTAAAAACGCCGACC +ATTGGTCGGCGTTTTGCTTTCTATTTTTCGTCAGGTATTAGTTTCGCAAGTAGATCCATTCACCATTCTC +TTGTGTCCATAAGTCAGGATGGTTTGCTGGCGTTAGATACATACGAGCGCAACTGATGTCTCGCTCCTGC +GGCACTCGCTCGAAACCCAAACCCGAGTAGATTGCGGCTGAACTTGATAAGGAACGCAGACCAATTTTCA +AATCATGGGGTAAATCAGAATACGCGTTTAGCAATGCAGCAATGATGAATCCGAGGGCATTAGAAACGCC +TGTAACAGTGCGAAGTTGGTCGATATAAAGATCGATTGTTGGTAGTTCAGATGACCAGCAATTAGGCATT +TGGGCAGGAAGGGTTACAACGTATCCTATCGTTTGGCCGGTATAGTCTGGAGTACCATAACCAGGTCCCA +AAACCACTTCGTGTATTGTGTATTTACTGTTGGGTTCGAAGGATTCGACATCTTGCAATAAATATTTCAG +TTCTGCGGTTAACCTCGCACCCGCGTAAGCTTTATTGTATTTCTGGGCGTGAATATTATCTAATGTAGCT +TCATGGTTCCATCCAAAAGAATTATCACCATTCATTGTGATTCCATCGTAAGCATTACACCTCGTCGCTA +ACTTATTGAATGCTTGCCAGTCTGAGAGATCTAGTTTGTGGATCTCAACAGTACGTCTGCCATCGCAATT +ATGATCTCTTCCACGATTTGAAAGTAATGTAGCGCGTGCGTATTGATGAAATTTTAATTTTACTGGTTTG +TCGGTGGACGAAAAACGAGATAAATATGCAGGAAATGAATAAATAGTCGTTGGTAATGTCATTGTAATGT +TACCTGTTTAATGTTTTTATAAATATCGCAGCTGAATGTTCACAGAAAAAAATCGATATTAATAAAAATA +AGTTTGTTTTCTGAAGTGGTGAAAATAGCGGATGGTGAAAGATATTAATATCAAAAATCGCTCATTATGG +ATATAACGATGCACCCGGGGAGAAAATGACTTCCACGCCTTACACCGTACATTCTTGTTGTGCGGTATGT +AATTATTCTACGCTGTCGGTATCGGTGTATTCGTTAATCAGCAGGTTAGCCAGCCACAAAAAGCCATTGA +GAAAATTATTGATTTTACATGGGATTATTATATTGCTAATCCTTGGTTTTTAAAAATTGTGCATAGTGAA +AATCAAAGTAAAGGTGTGCATTATGCAAAATCACAGCGTCTCTTAGAAATTAACCATGCGCACTTGCAGT +TAATGGAATCCTTATTGGATGAAGGGAAGAAACACAATATTTTTAAGCCAGATATCGACCCATTGCAGGT +GAATATTAATATTGCTGCGCTTGGCGGATATTATTTGATCAACCAGCATACGCTTGGCCTGGTTTATCAC +ATCAGTATGGTTTCACCCCAGGCACTGGAAGCCAGACGTAAGGTCATCAAAGAGACAATCCTTAGCTGGC +TTTTGGTTGACCCTTCATCTACCGCGCACGAATAAAACTGCCATCCGGCTGGCGGGTGAACAGGACCTGT +TGATTATTCCCCGTATCAATGGTTAAGCCCGTCACCACGCCGCTGGCGTTCTGGCGGATTTTCACCATCT +GCCCGTTTTGCAAATTACTCAGCGGCTTACCCGCGCCTTCTACCTGCGCCATTGCATAGACATCGGTAGC +GGGCAGTCCGTGGTCGCGGAACAGCTGCGCCATCGTTTTACCGGGTTCGACACGGTAAGAGCGCCATTGA +TTATCAATTCCGCTATCTGGCTGGAATGGTTGCGTTTGGGTAGTTTGCGGCTGCTCTTCTGGCTGGCCTT +CCTGTATAGGTTCTGGAGCGACCGGAGCCACCTGATCAGGATCATTTTGTGGGGTAACTAATTGCGCCCG +CAGCTGTTCTTCTGTCGGCGGTTGTGATTGCGACTGAATATCTAACTGCGCTTCACGCGTCACCACCGGC +GCGTTGGGCGTATCATCAGATGGAAGCAGAAATCCGACCACCAATACAATGGCGGCAATAATGATCCCCC +GACGATGCATCGGCGGCAGCGGGTCCATGAAGCGAAAATTGTCCGGCGCGTGCCAGACTTTCTCCAGGGT +TGGTTTTAGTTCAAAGCGCCCGGGCATGGTTTCCTCCTGCTCCGCGTCTTGTTCCTCAATCATAGCCTAT +GAATAAGCTAACGCTATGATGTCCGTGGTAAACCCGCCTTTATTATATTCATACGGGATATTGCTATTGT +TTCTTTTTCCCTGGGATTTGTCATCATTCCCGCGACAAAGTTTTACCCAAAGAAGTGTGGCTGATATGCT +GCCCGCTACTTTATACCCTAAGAAAGGAAATACGATGACCACCCCAACTTTTGACACCATCGAAGCGCAA +GCAAGCTACGGCATTGGTTTGCAGGTAGGGCAACAACTGAGTGAATCTGGCCTGGAAGGGCTGCTGCCAG +AAGCACTGGTTGCAGGTATTGCCGATGCGCTGGAAGGCAAACATCCGGCTGTTCCGGTTGATGTGGTGCA +TCGCGCGCTGCGTGAAATCCACGAGCGCGCCGATGCCGTTCGTCGTCAGCGTTTCCAGGCGATGGCTGCT +GAAGGTGTGAAATACCTGGAAGAAAACGCCAAAAAAGAAGGTGTGAATAGCACCGAATCTGGCCTGCAAT +TCCGCGTGATCAACCAGGGTGAAGGCGCAATTCCGGCACGTACCGACCGCGTTCGTGTTCATTACACCGG +TAAACTGATCGACGGCACCGTGTTTGACAGCTCCGTTGCTCGTGGTGAACCCGCTGAATTCCCGGTTAAT +GGCGTGATCCCTGGCTGGATTGAAGCACTGACTCTGATGCCGGTAGGTTCTAAATGGGAACTGACTATCC +CGCAGGAACTGGCATATGGCGAGCGCGGCGCAGGCGCATCCATCCCTCCGTTCAGCACCCTGGTGTTTGA +AGTCGAACTGCTGGAAATCCTCTAAGCAGCGCATTCTGTTCCCCTCGAACGAGAGGGGAGCAGGCATTCA +GCAATAAACCCTTCAGTTTGCCAAACGGCGCTATTTTGTGTTGCAAAGACCCCGTAAGCGTGTATTTTTG +TGAGCTGTTTCGCGTTATCACCGTGATATGACACTCACTTTAAACATAAAATTAACATTAGATCTAAATC +TTAGTATTCATCCCGCGTATTGTTACCTAATATCGATGAGTCCCGATACAGATTCGTCGTATCATAGACT +GACTAAAGGCCGTAGAGCCTGAACAACACAGACAGGTACAGGAAGAAAAAAACATGGTAGATCAGGTAAA +AGTCGTTGCCGATGATCAGGCTCCGGCTGAACAGTCGCTACGGCGCAATCTCACAAACCGACATATTCAG +CTTATTGCCATTGGCGGTGCCATTGGTACGGGGTTGTTTATGGGGTCTGGCAAAACGATTAGCCTTGCCG +GGCCGTCGATCATTTTCGTTTATATGATCATTGGTTTTATGCTCTTTTTCGTGATGCGGGCAATGGGGGA +ATTGCTGCTTTCGAATCTGGAATACAAATCTTTTAGTGACTTCGCTTCCGATTTACTCGGGCCGTGGGCA +GGATATTTCACCGGCTGGACTTACTGGTTCTGCTGGGTTGTAACCGGTATGGCAGACGTGGTGGCGATCA +CGGCTTATGCTCAGTTCTGGTTCCCCGATCTCTCCGACTGGGTCGCCTCGCTGGCGGTGATAGTGCTGCT +GCTGACGCTCAATCTCGCCACCGTGAAAATGTTCGGTGAGATGGAGTTCTGGTTTGCGATGATCAAAATC +GTCGCCATTGTGTCGCTGATTGTCGTCGGCCTGGTCATGGTGGCGATGCACTTTCAGTCACCGACTGGTG +TGGAAGCGTCATTCGCGCATTTGTGGAATGACGGCGGCTGGTTCCCGAAAGGTTTAAGTGGCTTCTTTGC +CGGATTCCAGATAGCGGTTTTCGCTTTCGTGGGGATTGAGCTGGTAGGTACAACAGCTGCGGAAACCAAA +GATCCAGAGAAATCACTGCCACGCGCGATTAACTCCATTCCGATCCGTATCATTATGTTCTACGTCTTCG +CGCTGATTGTGATTATGTCCGTGACGCCGTGGAGTTCGGTAGTCCCGGAGAAAAGCCCGTTTGTTGAACT +GTTCGTGTTGGTAGGGCTGCCTGCTGCCGCAAGCGTGATCAACTTTGTGGTGCTGACCTCTGCGGCGTCT +TCCGCTAACAGCGGCGTCTTCTCTACCAGCCGTATGCTGTTTGGTCTGGCGCAGGAAGGTGTGGCACCGA +AAGCGTTCGCTAAACTTTCTAAGCGCGCAGTACCCGCGAAAGGGCTGACGTTCTCGTGTATCTGTCTGCT +CGGCGGCGTGGTGATGTTGTATGTGAATCCTAGTGTGATTGGCGCGTTCACGATGATTACAACCGTTTCC +GCGATTCTGTTTATGTTCGTCTGGACGATTATCCTTTGCTCGTACCTTGTGTATCGCAAACAGCGTCCTC +ATCTACATGAGAAGTCGATCTACAAGATGCCGCTCGGCAAGCTGATGTGCTGGGTATGTATGGCGTTCTT +TGTGTTCGTGGTCGTGTTGCTGACACTGGAAGATGACACTCGCCAGGCGCTGCTGGTTACCCCGCTGTGG +TTTATCGCGCTGGGGTTGGGCTGGCTGTTTATTGGTAAGAAGCGGGCTGCTGAACTGCGGAAATAACCGC +ATTATCATGCTGGATGGCGCAATGCCATCCAGCTTTTAGATCACTCACCCGCCAGCGCGCGTGGGAACAG +TACATTGTTTTCCAGACTGATGTGATCCATCAGGTCATCAATCAGTTCATTAATGCCGTTATACATCGCT +TTCCAGGTGGTGCAGGCTTCTGGCGGCGGTGTGACGTTATTGGTGGTGTGTTTAATCACTTCCAGCAGTT +CGCCCGCTTCATCGTGCTCGCTTTCCATTACGCTGATTGGCCCCATTGCCTGGCTGCCCATGCCTTGTTT +GATCATCGGGAAGAGGATCTGCTCTTCTTTCATCATGTGGCTGGAAAGCTCTTCATGCAGCATGGTCAGG +TATTTTGTCAGCCCTTTTGGCACGCTCGGTTTGTCGGCGTGAACGCGCTCGACTTTAGTCGCTTGCAGAA +TCAGCTCCGGCAGTTGCTCGCGGTGACGATCGTGGTAGCGCACGATGATATGGTCGATGATTTCTGCCAG +CGGGGCGCTACGCCAGTCTTTCTCAATCGGTTGTTCAGCGAGCTTTGCCAGTTCAGCTTCAATGACCTCA +ACATCCAGTTCTTTACGTGCCGCCGCGCGCGCCAGCGTCTGCTTACCGCCACAGCAGTAATCCATATCAT +ATTTACGAAACAGAGCTGAAGCGCGAGGAATAGAGAGCGCCAGTTCACCTAAAGGTTGGTCGCGATAAGC +CATAGCTGATACCTCATTCTTAATAAGATAAGATGTATTTTAAATGCATCTTTAAGGCAAAAGCTATAAC +CCTTACGTAGCAGAGGCTTATTTAACTCACTGCCAGCGTGTCAACTTTCTGAGACAGATTCAGTTAAAGG +TTTTTCTGGTTTTGCTCTGACCGCGATGACCACGCCAATCACTAACAGCGCGATACCGCTCAGCGTCATT +AGCGGCGGCATTTGCTGGCGGAGTAAAAAGGTGTACAGCAAACCTGCCAGCGTTTCGAAAACAATCAGCG +GCCCGAGAATCACTGTCGGTAATAGCTGGCTGGCGACGTTCCAGCAGAGTGCGCCAACCCATGAGCAAAG +CACGGCTATCGCAACCATCAGACTAATAAACACCAGCGGACGGGGGCCAAAGGGTAGGGAGAAGTCCGGC +GTTTGCGTATTCAGCCAGTAACAAGCGACGAGATAGCCGATAAGTGAAACCGGCAGTGTGACCAGCGCCT +GCGCTGTTGCCCACATCATCGGATGTTTGTCGGGATTTTCCCGCAGCCAGCGGGCGTTGCGCAGGGCATA +CCACGCCCAGCAGACCACGGAAACTAACGCCAGCACGATGCCAGAGGTATAACGTGCCCAGTCAAAATCG +GGGAGTCCGTGGTTTAACTCAGCAATATTCACACACGCCAGGCCGATGCCAATACAAATCAGTGCTGGGG +CGAGTTTTCCCCACGCGAGTTTGCCGTCGCGCTGGCTATAAAGCAGATTGGCAAAGACAGGAATGACCAC +CGGCAGGGTGCCGATAATCATCGTGGAAACAGGCGCGCCAGTACGTTGAATGGCACTGGCAAGGCAGAAG +TAATAGATGAGGTTGCCCATCATAGTGAGCATCAAGGCGGTAAGCCAGTCGCGACGCGCCAACTGACGCA +GACGCACGCGTCCCAGCCAGGCAATGGGCAGCGCAATTAACCCTAACGCCAGATAACGCCCCATCGACTG +CAACATCGCCGGGTATTCCGGCACGATCAACGGCCCGACAAAAATAAGCCCCCACATCAACCCTGCTAAC +AGGGCGTACAGCACGCCGCTAATCATTACTGGCATCCATTGATCTGTCAGAAGAAAGTTCAGGAAGCAGA +CATGATTGCTCCCGGCATCCCGTCATTATCAGAGAGGATGCGGGAGGATGCCACTTTAATTAACTAGTTA +TTAACATTAAAAAGATGGCTTACGCTTTCGGCTAACGTTGTCGTTGGGTGGCCAATCAATTTGCTAAGTG +TTTTGCTGTCATCAAACAGACCGCCTTTCGATGCGCCAACGTCAGAATCCGCCAGCATATCCGCCAGTCC +GTCGGGCAGTCCGACGCTTTTCAGTGCCGCGGCGAAATCGGCTTCGCTCAGATTTTGATAGGTAACCTGT +TTGCCGCTCTGTTTGGTCAGCTCTGCCGCTAACTGTGTCAACGTCCAGGCACTATCGCCCGCCAGTTCGT +AAACCTTGCCTTCGTGACCGGCTTCGCTAATCACGCGTGCCGCAGCTGCCGCATAATCTGCCCGCGTTGC +TGAGGCGATTTTGCCATCGCCCGCCGCACCGATAAATACGCCGTGTTCCAGTGCTGCCGGGGCGCTGGCG +AGGTAGTTTTCGCTGTACCAGCCGTTGCGCAGCAGGGTGTAAACGATGCCAGAATCAGCCAGCATTTTCT +CCGTCTCGATGTGCTCATCGGCGAGGCCGAGCGGGGAGGTATCTGCATGTAGCAGGCTGGTATAAGCGAT +AAATTTCACGCCAGCCGCCTTTGCGGCATTAATAACATTACGATGCTGCGGGGCACGTTGACCCACTTCG +CTGGAAGAGATCAGCAGTAGTTTTTCCACTCCCTGAAGTGCAGATGTCAGTGCGGCTTCATCGCCGTAGT +CAGCCTGACGCACGGTAATGCCTTGTGCTGCCAGGGCTTGGGCTTTTGCCGGATTACGAACGATAGCCAC +TATTTGGCTGGCAGGAACCGTTTTCATCAAGGATTCAATAACATAGTGACCAAGTTGGCCAGTGGCACCA +GTAATAGCGATCATGGGAAGTCTCCATCGTTTTGTCTTGTGTTTAAATACGCTAACACCTAAACTTACTT +TTAGTAAGTACGTACAAAAAGGTAAGTATGAAATGAGTCAGGTTAGCCTGTCGCAACAACTGAAAGAGGG +TAATCTCTTTGCGGAACAGTGCCCGTCGCGCGAGGTGTTGAAACACGTCACCAGCCGTTGGGGGGTGTTG +ATTCTGGTGGCGCTACGCGAAGGTACTCATCGCTTTAGCGACCTGCGGCGCAAAATCGGTGGGGTGAGTG +AAAAGATGCTTGCGCAGTCGTTACAGGCGTTAGAACAGGATGGTTTTCTTAACCGTATCGCGTATCCGGT +GGTGCCGCCGCATGTGGAATATAGCCTCACGCCGCTGGGCGAGCAGGTGAGCGAAAAGGTTGCTGCACTG +GCGGACTGGATTGAGTTGAATTTGCCCGAGGTGTTGGCGGTGCGGGATGAACGTGCGGCATAACTGCCGG +ATGCGCTGAGCTTATCTGGTCTACGGTGCATGGCTTGTAGGGCGGATAAGATGCGCCAGCATCGCATCCG +CCAATAAATGCCGGATGCGGTTGATGATTTATAGGCCGAAAAAGAAGTGTTTTACTTACTCAAATCCACC +TGATAAATCGCAAACCCGATATCATCGGTCGCGACTTTATTCATCGGATACTGCCCTTTCTCTTTAATAA +ACGCTGCGGCTTTATCTGACGGAGAGGTTTCGAAACGGATATCCAGTTTCTTATCGCCAGCTATCGGTGC +TAAACGCCAGTTGTTATCTGCCGCCGGGTGAATTTCCCCCGCACGTTTCGACTCATCAGCAATCCACGCT +GCCAGCACCGAGCGGTTCTCATCCGGTGAAGCAAAAGCGATATGGCTGTCGCCCGTACCGGCAAATTTGC +CGCCGTAAGCGCGATAGTTATTGGTGGCAACCAGGAACATGGCGTTCGGATCAATCGGCTTGCCATTAAA +GGTCAGGTTCTTAATCCTTTCCGCATTGGCATTAATCATCTGGCACTCGCCGTCATAACGGGCGGGCTGG +GTAACATCAATCTGATAATTCACACCATCAATAACATCAAAGTTATAAGTGCGGAAACCATCCCAGTTGA +TGAGTGACTGTGGTTTCGTGCTGTTGGGATCAATCTGGTTAAACTGTCCCGCGGAGCACTCCAGCCACTC +TTTCACCTCTTTACCGCTGGCTTTCACCACAATCAGCGTATTGGGATAGAGATAAAGATCGGCGGCATTA +CGGAAGGTCAACTGGCCTTTTTCCACCTCCACATAGCTTGCCGGGTCATTTTTGCGACCACCGACTTTAA +ACGGTGCGGCAGCTGAAAGCACCGGCAGTTTTGCCAGATCCGGATCGCCCTGAATGTAATGCTCGACATA +CGCTTTTTGCGCGTTGTTCACCACCTGCACGGTCGGATCGTCCTGCACCAGCGCCAGATAGCTATACATA +TTGTCGGCAGATTTACCGATTGGCTTGCTGACGAACTGGCGTGTGGCATCGTGATCGGCTTTGAGTGTTT +CTACCAGCTTGCTGTCTTCCGCCGCGAGGGATTTTTTATTAGCGATGTCGTAAATCGGTCGTGCTTCCGC +TTTCGCCTGCGTCACCTGCCATTTACCGCTGTCATTACTGAGTTGTAAGTCGACCACACCAAGATGATCG +CCCCACATGCCTGGCATTACCGCCGGAACACCATTCAGCGTGCCTTTGGCGATATCAGCCCCTTCGATAT +CAGCAAAATCTTTACCTGGGAAAACGGCGTGAGCATGGCCAAACATAATGGCGTTAACGCCCGGAATTTC +ACTGAGGTAATAAACTGAGTTTTCCGCCATCACTTTATACGGATCGGCAGATAGCCCGGAATGTGCCAGA +ACGACAACAACATCGGCACCTTTCTCGCGCATTTCAGGCACGTATTTGCGCACGGTTTCGGTAATATCAT +TCACCGTCACTTTCCCGGATAAATTAGCTTTATCCCAGCCCATGATTTGTGGTGGCACGACGCCAATATA +GCCAATCTTCAGCGTCTGTTTTTTTCCGTCTTTATCGACCACTTCGGTGTCTTTAATTAAATACGGTGTA +AACATTGGCTGTTTGGTTCTGGCGTCAATGACGTTGGCATTTACATAAGGGAATTTCGCTCCTGCCAGCG +CATTTTTCAGGTAATCCAGACCGTAGTTAAACTCGTGGTTGCCAAGCGTTCCGACGGTATAGTCCAGCGT +ATTTAATGCCTTATAGACCGGGTGAATATCACCTGCTTTTAATCCTTTCGCCGACATGTAATCGGCCAGC +GGACTCCCCTGAATCAAATCGCCGTTATCAACCAGTACGCTGTTTTTCACTTCATTGCGGGCATCGTTAA +TCAGGCTTGCCGTACGTACCAGTCCGAATTTTTCCGTGGCGGTGTCTTTGTAATAATCGAAATCCATCAT +GTTGCTATGCAGATCAGTGGTTTCCATGATACGCAGATCGACCGTCGCTGCATTCACACTGGCGGCAATC +AGCGTGGCCAGGAGCGTTGCGCTAAACTTAATCATCAGGGACATCCTTTTATCATCGGGAATACGAAAGA +AAAGGGAGAATAAACGTCTTACTTATAGAACAGTGAAGAATGCCACAATTTTACGCTTTGAAAATGATGA +CACTATCACAGTTGGCGCATTCATTAACGATAGGGTATAAGTAAAACAATAAGTTAACACCGCTCACAGA +GACGAGGTGGAGAAATGTTAGATCAAGTATGCCAGCTTGCACGGAATGCAGGCGATGCCATTATGCAGGT +CTACGACGGGACGAAACCGATGGACGTCGTCAGCAAAGCGGACAATTCTCCGGTAACGGCAGCGGATATT +GCCGCTCACACCGTTATCATGGACGGTTTACGTACGCTGACACCGGATGTTCCGGTCCTTTCTGAAGAAG +ATCCTCCCGGTTGGGAAGTCCGTCAGCACTGGCAGCGTTACTGGCTGGTAGACCCGCTGGATGGTACTAA +AGAGTTTATTAAACGTAATGGCGAATTCACCGTTAACATTGCGCTCATTGACCATGGCAAACCGATTTTA +GGCGTGGTGTATGCGCCGGTAATGAACGTAATGTACAGCGCGGCAGAAGGCAAAGCGTGGAAAGAAGAGT +GCGGTGTGCGCAAGCAGATTCAGGTCCGCGATGCGCGCCCGCCGCTGGTGGTGATCAGCCGTTCCCATGC +GGATGCGGAGCTGAAAGAGTATCTGCAACAGCTTGGCGAACATCAGACCACGTCCATCGGCTCTTCGCTG +AAATTCTGCCTGGTGGCGGAAGGACAGGCGCAGCTGTACCCGCGCTTCGGACCAACGAATATTTGGGACA +CCGCCGCTGGACATGCTGTAGCTGCAGCTGCCGGAGCGCACGTTCACGACTGGCAGGGTAAACCGCTGGA +TTACACTCCGCGTGAGTCGTTCCTGAATCCGGGGTTCAGAGTGTCTATTTACTAAATTCAGATGGCAGAA +ACAGTGTATTTCCTGATTCTGCCATCCTGATTTCTCCCAACCTAAAAAGTTATAAATAAAAAGAGATTGT +ATTTAAAGTGCAAAAATTCAATTGCTAATAAGTTACATTTTAATAATGAGCGTTTTTTGATAGTTTACTT +CTATAGTGAGATATTTAATGGCGACATAAAGTAACCAAATAAAATAAGGTTGTCATATGTTACCCAGGAT +CAGACACAATAATTTTATTGGTGCGGTGGAGTTATTTGTAAAGTCTTCGTATACAAAAACACATTCAAAC +AATTTTTTTAACAACATCCATCATGCATTTAAGAAAAAAGATTGGATTTCGAATTATGATAGCCTGTTAA +CTTTGAGGGAGTTCTTTCGTTGCGCAACTCAGATTGATAAAAGTGGTTATCAGGTGCTTTCATCAAAAAA +TGAAACTGTTCACGCCATGGATAAGTTTCTTATCAGTTTCAGCCTTAAAGATAACGGTGCCGAATATACA +ATGACATTGCGAGGTAGTGGATTTGAATACGAAGAAATACCCATAACAATAAATGAATATAACTCATTCA +TGGATTTCAAAAACCGTGAATTTCCGTTAGAACAAAACAGACGATTGTATGCCTGGGATATTCTACAGAA +AAAACAGTCTGACATACCGAAAAGGATTAAAGGTTATATTCACCAGGCGATTGGTGACGTGTCTTTAGGT +TATGCCTTATTGGAGGATATAGTAAGCAAATTAAAACGGGGTAAATTTGAACTCCAAATACCAGGAGGTG +GAATTAAAGAATGCGATGGATGGTATATTTACGAAAAAATAATTGATGATAATTTTGCCATAGTCATAGA +ATCTTTGGGCTTTGCGCTTAAAATCTATGGAGGGGATGAACGTTTTCGTAATGGTTCCTCTGTTGTTTTG +GAGGATGAAGATTACTCTCTTATTTATAATTTTCTGGTTAATGCAGGTTGCCAACAAGTCGAATTAGCCG +AACAAGTGGATGCGATAGTAAGTGCGAATCTGGCCGCAGATAGCGATATTACCAAAGAAAAGATTTGCGA +GAAATATAAATCGACCATTGAGGCGTTTAAAAAAGAGCAACTAGCGTTACCAGTATTAGTTCGGCGTAAG +AACTCAGAGACTTAATTCCCCTATCCCATAGATAACGATAGGGGAAAATTATTTTTGCAGAATTTATGTT +ATTGCCATTATTTGAGCAACTTTTGCAGCAGGTCCATCACTTGCTGCACCTCTTCCGGTGTGAGCGCCCC +GTCTTTGGCCCATTGCACGCGACCATCCTTATCCAGCACCACTACAGCGGAACTTTCTTCATCCAGCTGC +CAGGCACCGAGCGCGACGCCATTGCTATCGACAATAAACTGCGACCAGGGATAAAGCTTTTTATTACTCT +CCAGACTGCTGCGCACAAACATCCCTGAACCCGGAATCGCGTCGTCGGTGTTAACAATGGTGGTGGTCTG +GTAACGATCGTGCGGTAACTTCGCTGATTTAATCGCTTCAATCAGCGTCGCGTTTTTCTCTTTTGCAGAG +GTGCGACCAGCAATATGTTGCAGTACTCGCACTTTTCCCACTAACTGCGCGCTGTTCCAGGTTTTGTAGC +TAAACTGATCTTTATCAAGCACCAACTCGCCCCGATCGGTAATGCCAATCGGCGGCACTCGCTGACCGGT +TTCGAACTGATGTGCGGAAGCCATCATCGGCAACAGCAGGCAGGTGAGTGCCAGAATCTTGCGTAGGGTC +ATGGTGTTTCCTTCTTATGATATGCAGGTGATCCGACCACTTGGGTCTGAGTTTTAATCATATGTGCTAT +TTATCGAATTTCCCGCAAGTGTGATGCCAGTTTGCGGTCAAGCGCACAAATCATATGAAAAATGAATGCT +TATACTGAAGACCGCGCTTCGGTAAAAAGATAATTCTGAATAATTGTAACCTTTAGGTAAAAAAAGTTAT +ACGCGGTGGAAACATTGCCCGGATAGTCTATAGTCACTAAGCATTAAAATTTGCGCCTCATAATAGTTGG +GCCGATTGTGGCACCGCACAGGCGTAATACTCAGCAGGAGATAACAATGAAAATTTTCCAACGGTACAAC +CCACTTCAGGTGGCGAAGTACGTAAAGATCCTGTTCCGTGGACGGTTATACATCAAGGACGTTGGCGCTT +TTGAATTCGATAAGGGTAAGATTCTTATCCCAAAAGTGAAGGATAAGCTGCATTTGTCAGTGATGTCCGA +AGTTAACCGTCAGGTTATGCGTCTGCAAACAGAGATGGCTTAACCAAAGTGCTATGCAGTAAAAAGTGCT +ATGCAGTAATAAGACGGCTCCTGATTCAGGAGCCGTTGATGTTTCTGGGGGTTACGCGACGCTTTCTTCT +TTATCTTTAGCGTCAGGCAGTTTTGGCGAAAGGGCGGTGGCCTTGCTGTCGATCCGGGTCACCAGCAGCT +GGTCGATGCGGTAGTTATCGATATCCACCACTTCAAATTTGTAGCCGGCGAATTTCACCGAATCGGTGCG +TTTCGGGATCTTACGCAGCATAAACATCATAAAGCCGCCGATGGTTTCGTAGTTGCCCGACTGCGGGAAC +TCGTCAATATCCAGCACGCGCATGACGTCGTCAATTGGGGTGCCGCCGTCAATCAGCCATGAGTTCTCAT +CACGGGCGACAATCTGCTCTTCCAGCCCCTGACCGACCAGATCGCCCATCAGCGTGGTCATCACGTCATT +GAGGGTGATGATCCCCACCACCAGCGCGTACTCGTTCATGATCACCGCGAAGTCTTCACCTGCGGTTTTA +AAACTTTCCAACGCCTCTGAAAGGGTTAACGTATCCGGCACAATCAGCGTGTTGCGAATTTGTACGCCGC +TGTTCAGTGCCAGGCTTTGGTTAGCCAGCACGCGGTTCAGCAGGTCTTTAGAATCGACATAACCGATGAT +GTGGTCAATATCTTCATTACAGACGAGGAACTTAGAGTGCGGATGTTCCGCCACCTTATTCTTCAGGCTT +TGCTCATCTTCGTGGAGATCAAACCAAATCACGTTTTCACGCGGTGTCATTGAAGACGGAACGGTACGGG +ATTCCAGCTCAAAGACGTTTTCAATCAGCTCGTGTTCCTGTTTACGTAACACGCCCGCCAGCGCACCGGC +TTCCACTACCGCGTAGATGTCATCAGAAGTGATGTCATCTTTACGTACCATTGGCAGTTTGAAAATACGG +AAGATTATGTTCGCCAGGCCGTTGAAGAACCACACCAGCGGGGTGCAAACGTACAGGCAGAAGCGCATCG +GGTTGATGATACGCAAAGCCACAGCTTCTGGCGCAATCATACCGATGCGTTTCGGGGTTAAATCCGCAAA +CAGGATAAACATGCCAGTCACTAACGAGAAAGAGAGAATAAAGCTCAGTTGCTCAGAGAGCTCTGCCGAC +ATATAGCGGGAGAACAGGCTGTGAAAAGCTGGAGAAAATGCCGCATCACCGACGATACCGCCGAGAATCG +CCACTGCGTTCAGACCGATTTGGACCACGGTAAAGAACATGCCGGGATTTTCCTGCATATTCAGAACGCG +TTGGGCATTTATATTGCCTTCATCAGCCAGCAGTTTAAGTTTGATTTTGCGTGAGGCGGCAAGCGAGATC +TCGGACATCGAGAAGAACGCACTTACAGCGATCAAGCAGAGTATGACTAAAATACTGTTTAACATATCTT +ATCCGACCTTTCAGGCCAGATCCTCGGAAGGGGAAGTTGATTAATTTGTGTGAAATACACATTGAAAGCC +GATTCGAAGAAAGTGAACCGGCATTTTCAGTGGCTAGTATAGCGTAAGGTACTGTAAAGCCGCCAGAGGG +TTAAAATTCAGACAGCTGAAAAATGCAAAACTGCCTGATACGCTATGCCGATCAGGCCTACGCAGTCCTT +GCAATATATTGAATTTGGACGATTTTGTAGGCCTGGTAAGTCGTTTACGCCGCATCAGGCATAGACAAAG +AGCACTTTATCAACAAACTACATTTGTACCCGTAACGCTATGCTTCCGGCGGCAGACAGACGCCAATTCC +GCCAATTCCACAGTAACCATACGGGTTTTTATGCAGATATTGCTGGTGGTCATCTTCGGCATAATAAAAC +GGTGTGGCGTTAGCGATTTCCGTGGTGATGTGACGATCGTCATCGGCGGCAAGCATCGCCGCCTGAAAAC +GTTCCAGACTGGCGCGAGCTGCGGCATCCTGTTCTGGGGTCAGCGGATAAATCGCTGAACGATACTGCGT +GCCGTGGTCATTGCCCTGACGCATTCCCTGGGCGGGATCGTGATTCTCCCAAAATACCTGTAGCAACTGC +TCATAGCTGATGACGGAAGGATCGTAAACAATGCGTACCGCTTCGGCATGACCCGTATCACCGGAGCACA +CTTCCCGATAAGTCGGATTTGGCGTATAGCCGCCGGTATAGCCTGCGGCGGTGCTGTAAACGCCGGGTAA +CTGCCAGAACAGACGCTCCACACCCCAGAAACAACCCATCGCAAAAATGGCAATCTCCATTCCGTCAGGT +ACATTGGTCATTGAGTGACCGTTGACCGCATGCAGCGTGGCTACGGGCATCGGGGTGTTACGTCCAGGCA +GGGCATCGGCGGGGGAAACCAGATGCTTTTTATCAAATAAACTCATGGTGTCGCTCTCCCGAAAATCGGT +CATTGGGGTTAAGGTTGTAACAAGAGGCGTATTTGCACACAATAACCACCGTGAATAGGTCTAAAGTAAA +ACATAAGAAATATTTGGGGTTTAGTCTGCTTTTTAATCCATATTACTGGATTTTTGTTAAGCCGTTTAAC +GGCGTTCCAGGGGCAGGAAAAAAGGATATTCAGGAGAAAATGTGCGCTATATCCGACAGTTATGCTGTGT +AAGCTTACTCTGCTTAAGCGGATCTGCCGTCGCCGCGAACGTCCGTCTACAGGTCGAGGGGTTATCGGGA +CAGCTGGAAAAGAACGTTCGTGCGCAGCTTTCTACGATTGAAAGTGATGAAGTGACGCCAGACCGTCGCT +TTCGCGCACGCGTCGATGATGCCATCCGCGAAGGTCTGAAAGCGCTGGGTTATTACCAGCCGACCATTGA +ATTTGATCTCCGTCCACCGCCAAAGAAAGGGCGGCAGGTATTGATCGCCAAAGTCACGCCAGGCGTGCCG +GTGTTAATTGGCGGCACCGATGTGGTATTGCGCGGCGGCGCGCGGACCGATAAAGACTATTTGAAATTGC +TCGATACTCGCCCGGCTATTGGCACGGTACTGAACCAGGGCGATTATGAAAATTTCAAAAAGTCCTTAAC +CAGCATTGCGTTGCGTAAAGGTTATTTCGATAGCGAATTTACCAAAGCGCAGCTGGGCATTGCGCTCGGC +CTGCATAAAGCCTTCTGGGATATTGATTATAACAGTGGCGAACGTTACCGCTTTGGGCATGTGACCTTTG +AAGGATCACAAATCCGCGATGAATACCTGCAAAATCTGGTGCCGTTTAAAGAGGGCGATGAGTACGAATC +GAAAGATCTGGCAGAACTGAACCGCCGACTTTCTGCTACCGGCTGGTTTAACTCGGTGGTGGTGGCTCCA +CAATTTGATAAAGCGCGCGAAACGAAAGTATTACCATTGACGGGCGTGGTTTCGCCGCGAACAGAAAACA +CCATCGAAACCGGGGTCGGTTACTCTACGGACGTGGGACCGCGCGTGAAAGCGACGTGGAAAAAGCCGTG +GATGAACTCTTATGGTCACAGTCTGACCACCAGTACTAGTATTTCCGCGCCGGAACAGACCCTCGACTTC +AGCTATAAAATGCCGCTGCTGAAGAATCCACTGGAACAATATTATTTGGTGCAGGGCGGTTTTAAGCGCA +CTGACCTGAACGATACCGAATCTGACTCCACTACGCTGGTGGCTTCTCGCTACTGGGATCTCTCCAGCGG +CTGGCAGCGTGCCATTAACCTGCGCTGGAGTCTCGACCACTTTACTCAGGGTGAAATTACCAATACCACG +ATGCTGTTTTATCCTGGGGTGATGATTAGCCGCACGCGTTCTCGTGGTGGCCTGATGCCAACCTGGGGCG +ACTCGCAACGCTACTCTATCGACTACTCCAACACGGCCTGGGGTTCAGATGTCGATTTCTCCGTTTTCCA +GGCGCAGAACGTCTGGATCCGCACACTGTACGATCGCCATCGTTTTGTTACACGCGGCACGCTGGGCTGG +ATTGAAACCGGTGATTTCGACAAAGTACCGCCGGATCTGCGTTTCTTCGCCGGGGGCGACCGCAGTATTC +GTGGCTACAAATACAAATCTATCGCTCCGAAATACGCCAACGGTGACCTGAAAGGGGCCTCGAAGTTGAT +AACCGGATCGCTGGAATACCAGTACAACGTGACCGGAAAATGGTGGGGCGCGGTGTTTGTCGATAGTGGC +GAAGCGGTAAGCGATATTCGCCGCAGCGACTTTAAAACCGGTACCGGGGTCGGCGTGCGCTGGGAATCGC +CGGTCGGGCCAATCAAACTCGATTTTGCCGTACCGGTCGCGGATAAAGACGAACACGGGTTACAGTTTTA +CATCGGTCTGGGGCCAGAATTATGAGTTTATGGAAAAAAATCAGCCTCGGCGTGGTTATCGTTATCTTAC +TGTTGCTGGGATCGGTGGCGTTTCTGGTGGGCACCACCAGCGGCCTGCATCTGGTATTTAAAGCGGCGGA +TCGCTGGGTGCCAGGACTGGATATTGGCAAGGTCACCGGCGGCTGGCGCGATCTCACCTTGTCTGACGTT +CGTTATGAGCAGCCAGGCGTGGCGGTAAAAGCGGGCAATCTGCATCTGGCTGTCGGGCTTGAGTGCCTGT +GGAACAGCAGTGTTTGTATTAATGATCTGGCGCTGAAAGACATTCAGGTCAACATCGACAGTAAAAAAAT +GCCTCCTTCTGAACAGGTTGAAGAAGAGGAAGATAGCGGTCCGCTGGATCTCTCCACGCCGTATCCCATC +ACCCTGACACGGGTGGCACTGGACAACGTCAACATTAAGATTGATGACACCACGGTATCGGTGATGGACT +TCACCTCCGGCCTGAACTGGCAGGAGAAAACCCTGACCCTGAAACCGACGTCGCTGAAAGGCCTGCTGAT +TGCTCTGCCGAAAGTGGCGGAAGTGGCGCAGGAAGAAGTGGTCGAACCGAAAATTGAAAATCCGCAGCCG +GATGAAAAGCCGCTCGGCGAAACGCTGAAAGATCTCTTTTCTCGCCCGGTATTGCCGGAAATGACCGACG +TGCATTTGCCGCTTAACCTGAACATTGAAGAGTTTAAGGGCGAGCAGCTGCGCGTGACGGGCGACACGGA +CATCACCGTGAGCACCATGCTGCTGAAAGTGAGCAGCATTGACGGCAATACTAAACTGGACGCCCTGGAT +ATCGATTCCAGTCAAGGGATCGTCAACGCCAGCGGCACGGCGCAGCTGTCAGACAACTGGCCGGTGGACA +TCACTCTCAACAGTACACTGAACGTGGAGCCGTTGAAAGGTGAAAAAGTGAAGCTGAAAATGGGCGGCGC +GCTGCGCGAACAGCTGGAGATTGGCGTTAATCTTTCCGGTCCGGTGGATATGGATTTACGCGCCCAGACG +CGACTGGCGGAAGCCGGATTGCCGCTCAACGTGGAAGTGAACAGCAAACAGCTTTACTGGCCGTTCACTG +GTGAGAAGCAGTATCAGGCGGATGATCTGAAACTGAAACTTACCGGCAAAATGACCGATTACACGCTCTC +TATGCGTACGGCAGTGAAGGGACAGGAGATCCCGCCCGCGACTATTACCCTCGACGCCAAAGGTAATGAA +CAGCAGGTCAATCTCGACAAACTCACCGTCGCGGCGCTGGAAGGGAAAACTGAACTCAAGGCGTTGCTCG +ACTGGCAACAGGCCATTAGTTGGCGCGGTGAGCTAACGCTTAACGGCATTAACACCGCCAAAGAGTTCCC +GGACTGGCCGTCGAAACTCAATGGCTTGATTAAAACCCGCGGTAGCCTGTACGGCGGCACCTGGCAGATG +GACGTGCCGGAGTTGAAGCTGACCGGTAACGTTAAACAGAACAAAGTGAACGTTGACGGCACGCTGAAAG +GCAACAGTTATATGCAGTGGATGATCCCAGGGCTTCATCTGGAACTCGGGCCAAACAGTGCCGAAGTGAA +AGGCGAGCTGGGGGTAAAAGATCTCAATCTTGATGCCACCATCAACGCGCCGGGGCTGGATAACGCGCTG +CCGGGGCTTGGCGGTACAGCGAAAGGGCTGGTGAAAGTACGCGGCACGGTGGAAGCGCCACAACTACTGG +CAGATATCACCGCGCGCGGCCTGCGCTGGCAGGAACTTTCCGTGGCGCAGGTTCGCGTGGAAGGCGATAT +CAAATCCACCGATCAGATCGCCGGGAAACTCGACGTACGCGTTGAGCAAATTTCGCAGCCGGATGTAAAT +ATCAACCTCGTCACCCTGAATGCCAAAGGCAGCGAAAAGCAGCACGAGCTACAGTTGCGGATTCAGGGGG +AGCCTGTCTCCGGGCAGCTTAATCTGGCAGGAAGTTTTGATCGCAAAGAAGAACGCTGGAAGGGAACTCT +TAGCAATACCCGCTTCCAGACGCCGGTTGGCCCGTGGTCGCTGACCCGCGATATTGCGCTGGATTACCGC +AATAAGGAGCAAAAAATCAGCATCGGGCCACACTGCTGGCTTAACCCGAATGCGGAACTGTGCGTGCCGC +AAACTATCGATGCGGGGGCCGAAGGGCGTGCGGTGGTGAATCTCAACCGCTTCGACCTCGCCATGCTGAA +ACCGTTTATGCCAGAAACCACTCAGGCCAGCGGTATCTTCACGGGTAAAGCGGACGTTGCCTGGGACACC +ACGAAAGAGGGGCTGCCGCAGGGCAGTATCACCCTTTCGGGGCGTAACGTGCAGGTAACGCAAACCGTCA +ACGATGCGGCGCTGCCCGTGGCGTTTCAGACACTGAATCTGACGGCGGAATTGCGTAACAACCGTGCCGA +ATTGGGCTGGACCATCCGCCTGACCAATAACGGCCAGTTTGATGGACAGGTGCAGGTGACCGATCCGCAA +GGCCGCCGTAATCTTGGTGGCAACGTCAATATCCGTAACTTCAACCTTGCGATGATAAACCCCATCTTTA +CCCGTGGGGAAAAAGCAGCGGGGATGGTGAGTGCCAACTTGCGTCTGGGTGGTGATGTGCAAAGCCCGCA +GTTGTTTGGTCAGCTTCAGGTTACGGGTGTGGATATCGATGGCAACTTTATGCCGTTTGATATGCAACCG +AGCCAGCTTGCGGTCAACTTTAACGGTATGCGCTCGACGCTTGCCGGTACAGTACGGACCCAGCAGGGTG +AAATCTACCTGAACGGTGATGCCGACTGGAGCCAAATTGAAAACTGGCGGGCGCGGGTAACGGCGAAAGG +CAGTAAAGTGCGGATCACCGTGCCGCCGATGGTACGAATGGATGTATCGCCAGATGTTGTATTCGAGGCT +ACACCAAACCTGTTTACCCTCGATGGTCGCGTGGATGTCCCTTGGGCGCGCATCGTGGTGCACGATCTGC +CGGAAAGCGCAGTAGGCGTCTCCAGCGATGTGGTGATGCTTAACGATAACCTGCAACCGGAAGAGCCGAA +AACGGCGTCGATTCCGATTAACAGTAACCTGATTGTCCACGTTGGCAACAATGTGCGCATTGACGCCTTT +GGCCTGAAAGCGCGGCTGACGGGCGATCTCAATGTCGTTCAGGACAAACAAGGGCTGGGTCTGAACGGGC +AGATCAACATCCCTGAAGGGCGCTTCCATGCCTATGGTCAGGATCTGATTGTGCGTAAAGGTGAGTTACT +GTTCTCTGGTCCGCCAGATCAACCGTATCTTAATATTGAAGCTATTCGTAACCCGGATGCTACAGAAGAC +GACGTAATCGCCGGAGTTCGCGTCACTGGTCTGGCGGACGAACCGAAAGCGGAGATCTTCTCTGACCCGG +CGATGTCGCAACAAGCTGCCTTGTCTTATTTGCTACGTGGACAAGGGCTGGAGAGCGATCAGAGCGACAG +TGCGGCAATGACCTCGATGCTGATTGGTTTGGGGGTTGCGCAAAGTGGCCAGATTGTGGGTAAAATCGGC +GAGACGTTTGGCGTAAGCAATTTAGCGCTCGACACCCAGGGAGTAGGCGACTCCTCCCAGGTAGTGGTCA +GCGGCTATGTATTGCCAGGTCTGCAAGTGAAATACGGCGTGGGTATATTTGACTCTATAGCAACACTCAC +GTTACGTTATCGCCTGATGCCTAAGCTATATCTGGAAGCCGTGTCTGGTGTAGACCAGGCACTGGATTTG +CTCTATCAGTTCGAGTTTTAGCAATGCGAATATTTGTCTACGGCAGTTTACGCCACAAACAAGGCAACAG +TCACTGGATGACCAATGCCCAGTTACTGGGCGATTTCAGTATCGATAACTACCAGTTGTATAGCCTGGGC +CACTATCCAGGCGCAGTTCCGGGGAACGGAACGGTACACGGTGAAGTTTATCGTATTGACAACGCCACGC +TGGCCGAACTTGATGCCTTGCGCACCAGGGGCGGTGAATACGCGCGCCAGTTGATTCAGACGCCGTACGG +GAGTGCATGGATGTACGTTTATCAACGACCCGTCGATGGATTAAAGCTAATTGAAAGCGGCGACTGGTTA +GACAGGGATAAGTAACCATATGCATACGCCACCTTCGGGTGGCGTTGTTTTTTGCGAGACGACTCGCATT +CTGTTTTGTAATTCCCTCACCTTTTGCTTTTCTCTCCGAGCCGCTTTCCATATCTATTAACGCATAAAAA +ACTCTGCTGGCATTCACAAATGCGCAGGGGTAAAACGTTTCCTGTAGCACCGTGAGTTATACTTTGTATA +ACTTAAGGAGGTGCAGATGCGTATTACCATAAAAAGATGGGGGAACAGTGCAGGTATGGTCATTCCCAAT +ATCGTAATGAAAGAACTTAACTTACAGCCGGGGCAGAGCGTGGAGGCGCAAGTGAGCAACAATCAACTGA +TTCTGACACCCATCTCCAGGCGCTACTCGCTTGATGAACTGCTGGCACAGTGTGACATGAACGCCGCGGA +ACTTAGCGAGCAGGATGTCTGGGGTAAATCCACCCCTGCGGGTGACGAAATATGGTAAAGAAAAGTGAAT +TTGAACGGGGAGACATTGTGCTGGTTGGCTTTGATCCAGCAAGCGGCCATGAACAGCAAGGTGCTGGTCG +ACCTGCGCTTGTGCTCTCCGTTCAAGCCTTTAATCAACTGGGAATGACGCTGGTGGCCCCCATTACGCAG +GGCGGAAATTTTGCCCGTTATGCCGGATTTAGCGTTCCTTTACATTGCGAAGAAGGCGATGTGCACGGCG +TGGTGCTGGTGAATCAGGTGCGGATGATGGATCTACACGCCCGGCTGGCAAAGCGTATTGGTCTGGCTGC +GGATGAGGTGGTGGAAGAGGCGTTATTACGCTTGCAGGCGGTGGTGGAATAAGGTGTGTTTATTTATCGC +GGGCATAAAAAAACCCTTACTAACCGAAGCCCGGCGTTCAGGGTTATTACGCCAGAAGAACTTATTTATT +CTTTGCGCGCTCGAAGGAGGCAACGATTTCAGCTTTAGCGGCTTCTGCGTTTTCCCAACCTTCAACTTTC +ACCCACTTGCCTTTTTCGAGGTCTTTGTAGTGCTCGAAGAAGTGAGCGATTTGCGCTTTCAGCAGTTCAG +GCAGATCGTTAACGTCTTTAATGTGATCGTATTCTTTGCTCAGCTTGCTGTGCGGAACCGCAACCAGTTT +CGCATCTTCACCGGCTTCGTCGGTCATTTTCAGAACGCCAACCGGACGGCAACGGATCACAGAACCCGGC +TGCAGCGGGTACGGAGTTGGGACCAGTACGTCAACCGGGTCACCGTCCAGAGACAGGGTGTGGTTGATGT +AACCGTAGTTGCATGGATAGAACATCGCGGTGGACATGAAGCGGTCAACGAACAGTGCGCCGCTCTCTTT +GTCGATTTCGTATTTGATCGGATCTGCGTTAGCCGGGATCTCAATAACAACGTAGATGTCTTCCGGCAGA +TCTTTACCCGCAGGGACGTTGAGTAAGCTCATGTCTGTTTCCTTTAAAAATATGTGGCAAACAAGTGCCG +AGTATTATAGCCAACTCGCGCCGAATGTCTTCGCTTGTTTTCGTCTTCATTTTCCTTTTTCACCAGTTTT +AAGACGGTATACAGAGCAGGAAAATCCATAACCGTAGCCGCATTTTTCATAGTGAGATGAAAGCGATTAC +AAACTTGTGATTAACGTTTTATTTACTTTTTTGAAGTGTGATGTAACGCAATCTGTTACATAACGAATTG +TCTATAGTTTTTTCGCGAACATCTTTTAACCAATAATAACTACCCCGACGAGGACAACCCTATGTGGAAA +CGCTTACTTATAGTCTCTGCAGTCTCGGCAGCCATGTCGTCTATGGCGTTGGCCGCTCCATTAACCGTTG +GATTTTCGCAGGTCGGATCGGAATCAGGCTGGCGTGCCGCAGAAACCAATGTGGCGAAAAGTGAAGCCGA +AAAGCGCGGAATCACGTTGAAAATTGCCGATGGTCAGCAAAAGCAGGAAAACCAGATTAAAGCGGTACGT +TCCTTCGTTGCACAAGGGGTGGATGCGATCTTTATCGCTCCGGTGGTCGCGACAGGTTGGGAACCGGTAT +TAAAAGAGGCGAAAGATGCCGAAATCCCGGTATTCTTGCTCGATCGTTCCATTGATGTGAAAGACAAATC +TCTCTATATGACCACCGTCACTGCCGACAACATCCTCGAAGGCAAGTTGATTGGTGACTGGCTGGTAAAA +GAAGTGAATGGCAAACCATGCAACGTGGTGGAGCTGCAGGGCACCGTTGGGGCCAGCGTCGCCATTGACC +GTAAGAAAGGCTTTGCCGAAGCCATTAAGAATGCGCCAAATATCAAAATCATCCGCTCGCAGTCAGGTGA +CTTCACCCGCAGTAAAGGCAAAGAAGTCATGGAGAGCTTTATCAAAGCGGAAAACAACGGCAAAAACATC +TGCATGGTTTACGCCCATAACGACGACATGGTGATTGGTGCAATTCAGGCAATTAAAGAAGCGGGCCTGA +AACCGGGCAAAGATATCCTCACGGGTTCCATTGACGGTGTACCGGACATCTACAAAGCGATGATGGATGG +CGAAGCGAACGCCAGTGTTGAACTGACGCCGAATATGGCAGGTCCCGCCTTCGACGCGCTGGAGAAATAC +AAAAAAGACGGCACCATGCCTGAAAAGCTGACGTTAACCAAATCCACCCTTTACCTGCCTGATACCGCAA +AAGAAGAATTAGAGAAGAAGAAAAATATGGGGTATTGAGGGTTGCTATGCCTGATGCCGATTCGTAGGCC +GGATAAGGCGCTCGCGCCGCATCCGGCGATGGTGCACTGAAGCCTGATGCGACGCTTACCGCGTCTTATC +ATGCCTACTGGGAGCACGCTTTACACCGGGGGAAACCATGACGACCGACCAACACCAGGAGATCCTCCGC +ACCGAAGGATTAAGTAAATTTTTCCCCGGCGTCAAAGCGTTAGACAACGTTGATTTCAGCCTGCGCCGTG +GCGAAATCATGGCGCTGCTCGGTGAAAACGGGGCGGGAAAATCAACGCTAATCAAAGCATTAACTGGTGT +ATACCACGCCGATCGCGGCACCATCTGGCTGGAAGGCCAGGCTATCTCACCGAAAAATACCGCCCACGCG +CAACAACTCGGCATTGGCACCGTCTATCAGGAAGTCAACCTGCTACCCAATATGTCGGTCGCTGATAATC +TATTTATAGGCCGCGAACCCAAACGCTTCGGCCTTCTACGCCGCAAAGAGATGGAAAAGCGCGCCACCGA +ACTGATGGCATCTTACGGTTTCTCCCTCGACGTGCGCGAACCGCTCAACCGCTTTTCAGTCGCGATGCAG +CAAATCGTCGCTATTTGTCGGGCTATCGATCTCTCTGCCAAAGTGCTGATCCTCGATGAACCCACCGCCA +GTCTCGACACCCAGGAAGTGGAGTTACTGTTTGACCTGATGCGTCAGTTGCGCGATCGCGGCGTCAGCCT +GATTTTTGTCACTCACTTTCTCGATCAGGTCTATCAGGTCAGCGATCGGATCACCGTCTTACGCAACGGC +AGTTTCGTAGGCTGTCGGGAAACGTGCGAGCTACCGCAGATCGAACTGGTAAAAATGATGCTGGGGCGCG +AGCTGGATACCCACGCGCTACAGCGTGCCGGGCGAACATTGTTGAGCGACAAACCCGTTGCCGCGTTCAA +AAATTACGGCAAAAAAGGAACGATCGCACCGTTTGATCTCGAAGTACGCCCCGGCGAGATCGTCGGTCTG +GCTGGATTGCTGGGATCAGGACGTACCGAAACCGCCGAAGTGATCTTCGGTATCAAACCTGCTGACAGCG +GCACGGCGTTGATCAAAGGCAAACCGCAAAACCTGCGATCGCCACATCAGGCTTCGGTACTGGGCATTGG +CTTCTGCCCGGAAGACAGGAAAACCGATGGCATCATCGCTGCCGCCTCGGTGCGGGAAAATATCATCCTC +GCTCTCCAGGCCCAGCGCGGCTGGCTACGTCCCATTTCCCGCAAAGAACAGCAAGAGATTGCCGAACGCT +TTATCCGCCAGCTTGGCATTCGCACACCTTCAACTGAACAACCGATTGAATTTCTCTCCGGCGGCAATCA +GCAAAAAGTGTTGCTTTCACGTTGGCTACTGACCCGACCGCAATTTCTGATCCTCGATGAGCCAACCCGC +GGCATTGATGTTGGTGCCCACGCCGAGATCATCCGCCTGATTGAAACGCTATGCGCCGATGGTCTGGCGC +TGCTGGTGATCTCCTCCGAACTGGAAGAGCTGGTGGGCTATGCCGATCGGGTGATTATCATGCGCGATCG +CAAACAGGTGGCGGAGATCCCGCTGGCAGAGCTTTCCGTTCCGGCGATCATGAACGCCATTGCGGCGTAA +GGAGAACAGTGTGATGCCTCAATCTCTTCCGGACACCACTACGCCAAAAAGGCGCTTTCGCTGGCCGACG +GGGATGCCGCAGCTGGTAGCACTATTGCTGGTGCTGCTGGTCGATAGCCTGGTAGCCCCGCATTTCTGGC +AGGTGGTGCTTCAGGATGGGCGTTTGTTCGGTAGCCCCATAGACATTCTTAACCGTGCAGCTCCCGTTGC +GTTACTGGCGATTGGCATGACGCTGGTGATCGCCACCGGTGGGATTGATCTCTCCGTAGGGGCGGTGATG +GCTATCGCCGGAGCCACAACGGCTGCGATGACGGTCGCGGGATTCAGCCTGCCGATTGTTTTGTTAAGCG +CCCTGGGCACCGGCATCCTGGCGGGATTGTGGAACGGCATACTGGTAGCGATCCTCAAAATTCAGCCGTT +TGTCGCCACTCTGATCCTGATGGTCGCCGGGCGCGGCGTGGCGCAACTGATCACCGCCGGGCAGATCGTC +ACGTTTAACTCGCCGGATCTCTCATGGTTCGGCAGTGGATCGCTGTTGTTCCTGCCAACGCCGGTCATTA +TCGCGGTGCTGACGCTTATCCTGTTCTGGCTGTTGACCCGCAAAACGGCGCTGGGGATGTTTATCGAAGC +CGTTGGTATCAACATTCGGGCGGCAAAAAATGCCGGGGTAAACACGCGAATCATCGTCATGCTCACTTAT +GTGTTGAGCGGGCTGTGTGCGGCGATTGCGGGCATTATCGTGGCGGCGGATATTCGCGGTGCCGATGCCA +ACAACGCTGGGTTATGGCTGGAGCTGGACGCCATTCTCGCGGTGGTGATTGGCGGCGGATCGCTGATGGG +CGGGCGCTTTAACCTGCTACTTTCGGTGGTGGGGGCGCTGATTATTCAGGGGATGAACACCGGAATTTTG +CTTTCGGGCTTTCCGCCAGAGATGAACCAGGTGGTGAAAGCGGTGGTGGTGCTTTGCGTGCTGATTGTTC +AGTCGCAACGCTTTATCAGTCTGATTAAAGGAGTACGTAGCCGTGATAAAACGTAATTTGCCACTGATGA +TCACCATCGGCGTCTTTGTGTTGGGTTATCTTTACTGCCTGACCCAGTTTCCCGGTTTTGCTTCCACAAG +AGTGATCTGCAATATCCTGACCGATAATGCCTTTCTTGGGATCATTGCCGTTGGCATGACCTTTGTGATC +CTCTCAGGTGGGATCGATCTCTCCGTCGGTTCGGTGATCGCCTTTACTGGCGTGTTTCTGGCAAAAGTGA +TTGGCGATTTCGGCCTCTCGCCGCTGCTGGCGTTTCCGCTAGTGCTGGTGATGGGCTGTGCCTTCGGCGC +ATTTATGGGGCTTCTGATCGACGCCCTGAAGATCCCGGCATTTATCATTACGCTTGCGGGGATGTTCTTT +TTGCGCGGCGTCAGCTATCTCGTTTCGGAAGAGTCGATTCCGATAAACCATCCCATTTATGACACGCTCT +CAAGCCTTGCGTGGAAAATCCCTGGCGGCGGTCGCTTAAGTGCGATGGGACTGCTGATGTTGGCGGTGGT +GGTTATCGGCATATTCCTCGCGCATCGTACCCGTTTTGGTAATCAGGTATACGCCATTGGCGGCAACGCA +ACGTCGGCGAATCTGATGGGGATTTCCACTCGCAGCACCACTATTCGCATTTATATGCTCTCCACCGGAC +TGGCAACGCTGGCGGGGATTGTCTTCTCGATTTATACCCAGGCCGGATATGCGCTGGCGGGCGTAGGTGT +GGAACTGGATGCTATCGCCTCAGTGGTAATTGGCGGTACGCTTTTGAGCGGTGGCGTTGGAACGGTATTA +GGGACGCTTTTTGGCGTGGCGATTCAGGGACTGATTCAGACTTACATAAACTTTGATGGCACGCTGAGTT +CCTGGTGGACGAAAATCGCCATCGGTATTTTGTTGTTTATTTTTATAGCATTACAGCGTGGATTAACGGT +GCTGTGGGAGAATCGTCAGAGTTCGCCAGTGACAAGAGTCAACATTGCGCAGCAATAAAAACGCCTCTCC +GTGTGGAGAGGCGCAGGAGATTACGCGTCCGGGAACTCACGGATAAAGCGTTCGACATCTTCAACCATAT +GGTCGTTGCCGACAAAGAATGAACGGCGCTGGTGCAGGGTTTCCGGGATGATATCCAGAATACGCTCTTT +GCCATCGCTCGCTTTACCGCCCGCTTGTTCCGCCAGGAATGCCATCGGGTTGCACTCATACAGCAAACGC +AGTTTGCCGTCCGGGTGGCTGGCGGTGCTTGGGTAGAGATAAATACCGCCTTTCAGCAGGTTACGGTGGA +AATCCGCGACCAGTGAACCGATATAACGTGAGGTATAAGGGCGGTTGGTGGATTTATCTTCTTCCTGGCA +GAATTTAATGTACTTCTTCACCCCGTTCGGAAACTTAATGTAGTTTCCTTCGTTGATGGAGTAGGTTTTG +CCTTTCTCCGGGAAGCGCATCCGTTCCTGGCACAGGCAGAAAACGCCGAGCGAAGGATCGTAAGTAAAGG +CGTGAACACCGCATCCGGTGGTGTAAACCAGCATGGTAGAGGAGCCGTATACCACGTAACCTGCCGCAAC +CTGTTTGTTACCAGGCTGGAGGAAATCTTCTTCCGTTACCGGCGTGCCAACAGGCGTAACGCGGCGGTAG +ATGGAGAAAATGGTACCGACAGAGACGTTAACATCGATGTTGGACGAGCCATCCAGGGGGTCCATCAGCA +CCACGTATTTTGCGTGTTCACAGCCTTCAAAGACGACAATCTCATCTTCTTCTTCAGAGGCAATGCCCGC +AACGATATCGCGTGCTTTCAGTGCGGCTTTCAGTTTTTCATTAGCGAACAAGTCGAGTTTCTGCTGAACC +TCGCCCTGCACGTTCTCAGCACCGCTGGCACCCAGGATATCAACCAGTCCTGCTTTGTTGATATCGCGAT +GGATAATCTTGGCGCCCAGTTTTATTGCCGACAGCAAAGCAGTGAGCTCACCGGTAGCATGAGAAAACTC +GTGCTGCTTTTCGACAATAAATTCACCTAACGTTTTCATAAAACTTTCCCTGCAATGTTTATGGAGTAAA +GCGACCGCAACAATCTTAACAAATAATCTCAATGTTGCGCTCAGGTGAATCGCGCCAGCAAATTACGGAT +TATCCTGAAATGCGTTTCTCACTTGCCCGACATATGCGTAAAATGAGCGGCAGATTAAAAAAGGATAGTG +ACGTATGCGCATTCATATTTTAGGAATTTGTGGCACATTTATGGGCGGTCTGGCGATGCTGGCGCGCCAG +TTAGGCCATGAAGTAACGGGTTCGGACGCCAATGTGTATCCGCCGATGAGCACCTTACTTGAGAAGCAAG +GCATTGAGCTGATTCAGGGGTACGATGCCAGCCAGCTCGAGCCGCAGCCGGATCTGGTGATTATTGGCAA +CGCCATGACCCGTGGAAATCCGTGTGTGGAAGCGGTACTGGAAAAAAATATCCCTTATATGTCAGGTCCA +CAGTGGCTGCACGATTTTGTGCTGCGCGACCGCTGGGTGCTGGCCGTTGCCGGTACACACGGCAAAACCA +CCACCGCGGGAATGGCGACCTGGATTCTGGAACAGTGTGGTTACAAACCGGGCTTTGTAATCGGCGGTGT +GCCGGGGAACTTTGAGGTTTCGGCTCATCTGGGCGAAAGCGACTTCTTTGTTATCGAAGCGGATGAGTAT +GACTGCGCCTTCTTCGACAAACGCTCTAAATTTGTTCATTACTGCCCGCGTACGCTGATCCTCAACAACC +TTGAGTTCGATCACGCCGATATCTTTGACGACCTGAAAGCGATCCAGAAACAGTTCCACCATCTGGTGCG +TATCGTTCCGGGGCAGGGCCGTATTATCTGGCCGGAAAATGACATCAACCTGAAACAGACCATGGCGATG +GGCTGCTGGAGCGAGCAGGAGCTGGTGGGTGAGCAGGGTCACTGGCAGGCGAAAAAGCTGACCACCGATG +CTTCCGAATGGGAAGTTTTGCTGGATGGCGAAAAAGTGGGCGAAGTGAAATGGTCGCTGGTAGGCGAACA +TAATATGCACAATGGCCTGATGGCGATTGCAGCGGCTCGCCATGTTGGTGTAGCGCCGGCAGATGCCGCT +AACGCGCTGGGTTCGTTTATTAATGCTCGTCGCCGTCTGGAGTTGCGTGGTGAAGCGAATGGCGTCACGG +TATATGACGATTTTGCCCATCACCCGACGGCGATTCTGGCAACGCTGGCGGCGCTGCGTGGCAAAGTTGG +TGGTACGGCGCGCATTATTGCTGTGCTGGAGCCGCGCTCGAATACCATGAAAATGGGGATCTGCAAAGAC +GATCTGGCACCTTCATTAGGTCGTGCCGATGAAGTCTTCCTGCTGCAACCGGCGCATATTCCGTGGCAGG +TGGCAGAAGTGGCAGAAGCCTGCGTTCAGCCTGCACACTGGAGTGGCGATGTGGATACGCTGGCAGATAT +GGTGGTGAAAACCGCTCAGCCTGGCGACCATATTCTGGTGATGAGCAACGGCGGTTTTGGTGGGATCCAT +CAGAAACTGCTGGATGGGCTGGCGAAGAAGGCGGAAGCCGCGCAGTAATTCGGCCTTAGCCAGATATAGT +ATGCGTAGGCCGGATAAGGCGTTCACGCCGCATCCGGCATTTGAGCATAGTGCCTGATGCGACGCTTGAT +GCGTCTTATCAGGCCTACAGGTGCACCGTATCCGGCAAACCATACTCACATCAACAACGAAAATTACCCT +TCGTTCTCCGCTAACTCGCGCAGATACTGGAAAATCTGGCGTGCGGATTTCGGCGGCTTATTCCCTTCTT +TCTCTTTCTTCGCGTTGCGGATCAGAGTACGCAGTTGCTGACGATCGGCATCGGGCCACAGATTTAATAC +CTCAGCGATGGCGTCATCACCTTGATCGATCAGACGATCGCGCAGGTTTTCCAGTTTATGGAACAGCACC +ACCTGCTGGTTGTGACGGTTTTTCAGCTTATCCAGCGCCTGACGAATAGGCTCTACGTCGCGCTGGCGCA +GCATCTTACCGATGAGCTGCAACTGGCGGCGGCGACCTTCCATCTTAATACGCTGGGCGAGCTCAATAGC +CGCGCGCAGATCCGCATCTAACGGGATCTTATCCAGCGCGTTTTTCCCCAGATCAACAATTTCCGCGCCA +AGGCGTTTTAGCTCCTCGGCATCACGTTTAATTTCACTTTTACTGACCCAGATAATTTCATCGTCTTCGT +CTTCGATGTCATCACCGGGAACGTCGTCGAGCCAGTCTTCGGGCTGCTTAGTCATCTCAGGCTCCTTAAA +AAAAGAGGCTAATGTTACCAGTTAAGATGCGCACTGAAAAACGGTTCTCTGTTAGACTTCAGAGAAACTC +TCTACATTATGGCACTTGCAATGAAAGTAATCTCTCAAGTTGAAGCGCAGCGCAAGATTCTGGAAGAAGC +AGTTTCCACTGCGCTGGAGTTGGCCTCAGGCAAATCGGACGGTGCGGAAGTTGCCGTCAGCAAGACCACC +GGCATTAGCGTAAGCACGCGTTATGGTGAAGTGGAGAATGTTGAATTCAATAGCGATGGCGCGCTGGGGA +TCACTGTTTATCACCAGAACCGCAAAGGTAGCGCATCATCCACCGATTTAAGCCCGCAGGCCATTGCCCG +TACTGTACAGGCGGCGCTGGATATTGCCCGTTATACCTCGCCAGATCCCTGTGCCGGCGTGGCAGACAAA +GAGCTGCTGGCCTTTGACGCACCAGATCTCGACTTGTTCCACCCTGCGGAAGTTTCCCCGGATGAAGCCA +TTGAACTGGCGGCCCGCGCAGAACAGGCGGCATTGCAGGCGGACAAACGCATCACCAATACCGAAGGTGG +CAGCTTTAACAGCCACTACGGTGTCAAAGTTTTTGGCAACAGCCACGGCATGTTGCAGGGTTACTGCTCA +ACGCGTCATTCGCTCTCCAGCTGTGTAATTGCCGAAGAAAATGGCGATATGGAGCGTGATTACGCCTACA +CCATTGGTCGTGCGATGAGCGATCTGCAAACGCCAGAGTGGGTTGGGGCCGACTGTGCTCGCCGTACTTT +ATCGCGTCTGTCACCGCGTAAACTCTCCACCATGAAAGCGCCAGTCATTTTTGCCAATGAAGTGGCAACC +GGGCTTTTTGGGCATCTGGTGGGGGCGATAGCGGGTGGATCGGTTTATCGTAAATCTACCTTCCTGCTGG +ATTCGCTGGGTAAACAAATTCTGCCGGACTGGCTGACCATTGAAGAGCATCCGCATCTGCTGAAAGGGCT +GGCGTCGACGCCATTCGACAGCGAAGGTGTGCGCACCGAGCGTCGCGATATTATTAAAGATGGCATCCTG +ACTCAGTGGCTGCTGACCAGCTACTCGGCGCGGAAACTGGGGCTGAAAAGCACCGGACATGCGGGCGGTA +TTCACAACTGGCGGATTGCCGGACAAGGTCTAAGCTTCGAGCAGATGCTCAAAGAGATGGGCACCGGGCT +GGTGGTGACGGAATTGATGGGCCAGGGCGTGAGTGCCATTACCGGTGATTATTCCCGTGGTGCAGCGGGC +TTCTGGGTAGAGAATGGCGAAATTCAGTATCCGGTGAGCGAAATCACCATCGCAGGTAATTTAAAAGATA +TGTGGCGCAATATTGTCACCGTCGGTAACGATATTGAAACACGCAGTAATATACAGTGTGGTTCTGTGCT +GTTGCCGGAGATGAAAATCGCCGGACAGTAAAAAAACTGGCGCGACCTGCCGCGCTATAAACTAAAAAAT +TACACAAAATCATTCGCACTGCATCGAGACGGAAAGTGAATGAGGGCCGGGGAGCGTACTCGCAGTACGT +GACCCGGTCGAATGAGCGTAGTCGTCGATGAGGCAGTGTGAAGGATGAAGTGTAAATAAAAAAGGAACTA +TTCTTGCAGTCTCCTCGTTGGTATTCAGTTCGGCGTCATTTGCTGCTGATCTCGAAGACAATATGGAAAC +CCTCAACGACAATTTAAAAGTGGTCGAAAAAGCCGATAACGCGGCGCAAGTCAAAGACGCGTTAACGAAG +ATGCGCGCCGCAGCGCTGGATGCGCAAAAAGCAACGCCGCCGAAGCTCGAAGATAAATCACCGGACAGCC +CGGAAATGAAAGATTTCCGCCACGGTTTCGACATTCTGGTCGGTCAGATTGACGACGCGCTGAAGCTGGC +AAATGAAGGTAAAGTAAAAGAAGCGCAGGCTGCTGCAGAGCAACTGAAAACGACCCGCAATTCATATCAC +AAGAAGTATCGTTAATTCCTCATTTCCCTGTTGCCTGCACTCAGGTAACAGGGAACTTATCATCGCAAAT +GATGCACCACCTGATTGCTGCTGCCGCGCCAGATCAGGGAAGGGTCTTTTAAATCCTGCACAAATTTGCC +GTCGACCAGCACGTTAATCAAATCAACAACCTGCATTTGCGCAGCGTTGAGTTCGTCGAGTTTATAGCCT +GTCCACACCCAGATGTCTTTACCCGGACACTCGGCGCGGATGCGTTGTACCAGTTTCAGAATATCCGGCA +CGTTTTGCGGATGCAGCGGATCGCCGCCGGAGAGGGAAATACCCTGGCGTTTGATACGAGTGTCATTCAG +ATCGTTAATGATCTGGTCTTCCATTGCTTTGGTAAATGGCTGACCGGAATTTACCCGCCATGTGCTTTTG +TTATAGCAACCGGGGCATTCATGAACACACCCGGAGACAAACAGGGTGCAACGAGTGCCGGGGCCGTTGA +CGATGTCGACAGGATAGTACTGATGATAATTCATTATTTCGCCTGGCTTATCAGTCCGCGTGTAGGCTGC +ATCCGGTAATCAATGCCTGATGCGACGCTGTCGCGTCTTATCAGACCTGGAGCAATTGCCAAATGTAGGC +CGGATAAGGCGTTTACGCCGCATCCGGCATTTGCTTAGCTCAGAGTGAAGATTAACCTATCTGCCCATTC +CCCAAATGTTTAACGCGGCGCTTAACTTCTTCCTGCTTACCAGCGTTAAACGGACGTGCATCCGGGCTAC +CTAAATATCCGCACACGCGGCGAGTTACCGACACACGGGAGGCGTCATGGTTACCACATTTCGGGCAAGT +GAAGCCTTTGCTGGTGCACTCGAACTCACCGGTAAAGCCACACTCGTAGCACTCATCAATCGGTGTATTG +GTGCCGTAATACGGTACATGCTGATAGCTGTAATCCCAGACATCTTCCAGCGCCTTCAGGTTGTGCTGAA +TGTTTGGATACTCGCCGTAGCAAATGAAACCACCGTTCGCCAGCGGCGGGTAAGGCGCTTCAAAGTCGAT +CTTGTCGTACGGGTTCACCTTCTTCTCCACATCGAGGTGGAAACTGTTGGTGTAGTAACCTTTATCGGTC +ACGCCCGGCACCACGCCAAACTCAGCAGTATCGAGACGGCAGAAGCGATCGCACAGGTTTTCACTCGGCG +TGCTGTAGAGACTGAAACCATAACCCGTTTCTTCTTTCCACTGATCCACTGCCTGACGCAGACGTTCAAC +AATGGCGATACCTTTCGCGCGAAGCTGCTCGTTGTCGTAAACATGCTCGCCGCCGAACAGCGCGTTAATG +GTTTCGTGGATGCCGATGTAACCCAGCGAAATAGACGCACGACCGTTTTTGAAGATTTCAGAAACATCAT +CGTCAGCATTGAGACGCACGCCACAAGCACCTTCCATATAGAGGATCGGGGCCACGCGCGCTTTCACGCC +TTCGAGACGAGCGATACGGGTCATCAGCGCCTTACGTGCCAGCACCAGACGTTCATCCAGCAGCTTCCAG +AAGGTGGCTTCATCGCCTTTTGCTTCCAGAGCAATACGCGGCAGGTTCAGGCTGATCACGCCGAGGTTGT +TACGACCATCGTGGATCTGCTCGCCGTTTTCATTTTCCCACACGCCGAGGAAGCTGCGGCAGCCCATCGG +AGTTTTAAACGAACCGGTGACTTTCACTACCTGATCGTAGTTCAGGATATCCGGATACATGCGCTTGCTT +GCGCACTCCAGCGCCAGCTGTTTGATGTCGTAGTTCGGATCGCCTTTTTTATGGTTCAGGCCATCGCGAA +TCGCAAACACCAGTTTCGGGAACACCGCAGTTTTACGGTTTTTACCGAGGCCTGCGATACGGTTACGCAG +GATCGATTCCTGAATCAGGCGCGATTCCCAGCTGGTGCCCAGGCCAAAACCAAAGGTTACAAACGGCGTC +TGACCGTTGGCGGTGTGCAGGGTGTTTACTTCGTACTCCAGTGACTGGAAGGCATCGTAGCACTCTTTGA +TGGTTCGAGAGTTAGCGTAGCCTTCGGCGTCCGGGATGTTCCACTCTTCTGCGGTCTTGCGATGTTTGTT +GTAGCTGGCAGTGACAAACGGTGCCAGCACTTCATCGATACGGTTAATGGTGGTGCCGCCATAAATATGG +CTGGCAACCTGAGCAATAATCTGCGCAGTTACCGCGGTTGCCGTAGAGATCGACTTCGGCGGTTCAATCT +CGGCGTTCCCCATTTTAAAGCCCTGGGTCAGCATGCCTTTCAGGTCGATCAACATGCAGTTGAACATCGG +GAAGAACGGTGAGTAATCGAGATCGTGATAGTGAATATCGCCACGCTCATGTGCCTGCACCACGTCACGC +GGCAGCAGGTGCTGACGTGCATAGTGTTTAGCCACGATCCCGGCCAGCAGGTCGCGCTGGGTTGGAATCA +CCTTGCTGTCTTTGTTGGCGTTTTCGTTGAGTAACGAGGCGTTGGTCTGCTCGACCAGACCACGGATCTC +CTGGTTCAGGCGACCGCGTTTTTCACGTTCAATGTCGCGATCGTGACGGTACTCGATGTAAGCACGAGCC +AGTTGTTTGTATGGACCTGACATCAGCTGATTTTCAACTGCGGTCTGGATCTCATTGATATCCACCTGGT +TGCGGCCCTGCATCTGCTCGCTGACAACCGCGGCAACAGTGGCGCAATAATCGGCATCATCGACTTCCGC +TGCTTTAGCTGCACGCAGAATCGCTTCTTTGATGCGCTCTGATTTAAACGGCACTTTGCAGCCGTCTCGT +TTCATCACATGCGGTGTCATGATCGCTCCATATTTTTAAGAACAGGTTATCCACAGAAATTGGGAAAGGC +GTTTTCCGGTTTTTTCGTTTCGTTTTCCGGTGCTTTCCGCAATCGCCATCCGCTTATCCACAACGCCGCA +CCTTTTTCGTGGGGAGCTGTAGTAGCAATTATAGTCGATTAATACAACATATTGGGTTGGGACGCATTTT +AAAGTCTATATATAGTGCTTTGCATCAAGGATGTTTGAGCTTTTTTTGATGTAGCTCAAAGTAAAAAGCA +GAGCGTACGGATGACGGGCGCTACAGCGATATGTAAATTTTTTAATGAATTTGCTGGTTGAAAAATCAAC +AAAAACAACATACTGACAGACAAAACCCCGGAATGACCGGCATTACCGGGGCTTAGGGAAGATTTACTTC +TGTAACCACCAGACAGCCTCAAAAGGCCGTAAATTCATGGCACAGGGTTGTGGTGAGGCTTCTTCGTAGT +TATGCATCACAAGCTGCCAGTTGCCGCGCATTTGCCCTGCCTGCCAGGGTTGGATCTCACGGCTAAGGTT +GGCAATGACCAGCAAGGTTTGCCCCTTCCATTCACGGCGATAGCACCACAATACAGGGCTGTTTGGCAGC +AGATCCTGGTAATTGCCCCATGTCAGGATGGCTTCCTGCTTACGCAGTGCGATTAACTTTTGGTAGGTGT +AAAACACCGAGGAATCATCGGCCAGCGCGGCTTCTACGTTGATTTGTTGATAGTTATCGCCCAGGCCAAT +CCACGGTTCGCCAGCCGTAAACCCGGCATTATCGCCGTTGCTCCATTGCATGGGCGTGCGACTGTTGTCA +CGGGATTTACTGGCGAGGATTGCCAATAACTCGTCGGCATCACGCCCATCGTTGCGCAGCTCGGCAAACA +TATTGAGGCTCTCTACGTCGCGATAGTCAGTAATGCGCGTGAAATGCGGGTTGGTCATGCCAATCTCTTC +GCCCTGGTAGATATACGGCGTTCCCTGCATGCCATGCAGCACCATCGCCAGCATTTTTGCCGCAGGCACG +CGGTATTCACCTTCATCACCAAAGCGAGAAACAATGCGCGGCTGATCGTGGTTACACCAGAACAAGGCAT +TCCATGCTACGTTGTGCATTCCTTGTTGCCAGTGGCGGAACAATGTTTTCAACGCCACAAAGTCAGGTTT +AGCCAGCGTCCATTTTTCACCACCGGGATAATCGACCTTCAGGTGATGAAAATTAAAGGTCATCGACAAT +TCACTGCCTGTCAGAGCCGCGTATCGCTGGCAATGCTCAAGGCTGGTGGAGGACATTTCACCTACGGTCA +TTAACCCGCGTGGCGTAAACACATCGCGGTTCATCTCGTGCAAAAACTCGTGTGCTCGTGGCCCGTCGGT +GTAGAAGCGACGCCCGTCGCCGTCCAGGTCTTCAGGGAAACGCGGGTCTTTGGAGATCAGATTCACCACA +TCCAGGCGCAACCCGTCGACCCCACGATCGGCCCAGAACTCACAGACTTTTTTCAGCTCTGCGCGTACCG +CTGGATTCTCCCAGTTGAGATCCGCCTGTTCTGGTGCAAAGAGATGCAAATAGTACTGTTCGCTTTCCGC +ATGCCAGCGCCACGCACTACCGCCAAATTTTGAACGCCAGTTGTTCGGTGGCGTTTCTGGTTCTCCATCG +CGCCAGATATAAAACTGGCGGTAAGGGCTTTCTTTGTTCAGCGCCTCGCGAAACCAGGCATGTTGGGTAG +AGGTATGGTTAAACACCATATCGAGAATGATACGAATCCCGCGCGATTTTGCCTGCGTCACCAGTTCGTC +AAAATCGTCCAGCGTGCCGTAGGTGGGATCAATCGCCGTATAGTTCGCTACGTCGTAACCGTTATCGACC +TGGGGAGAGACATAAAAGGGGGTTAGCCAGATGGCATCAACGCCCAGTTTATGCAGATAGTCCAGGTGTT +GGATAACGCCACGTAAATCGCCGGTACCGCTACCCGTGGTGTCCTGAAAACTCTTTGGATAAATCTGGTA +GATAACGCCGTTTTGCCACCAGTGGGGAAGATGAGTCATTACGTTATTCCTGCGAATGCGAGGGGGCGCA +ATTGCGCCCCGAAGAAAATTAAACAATGTCCAGCGTGCCCAGGCGGTATTTCCGCTGATAGATAAACGAG +GTGAGTACAATCGGGATGATGATGGCGATAGCCATTGCCAGCGCAAACACCTGCCAGTAGCTCGGTTGAA +TCGAGAGAATTCCCGGCAGGCCGCCTACGCCGATGCCATTCGCCATAACGCCGTTCAGGCCGCATAGCAA +TCCTGCCAGACCAGAACCAATCATCGCGCACAGCATCGGGAAGCGATATTTCAGGTTGATGCCGTACATT +GCAGGCTCAGTGACCCCAAGCCAGGCGGAGATAGCGGCAGGCACGGAGATCTCGCGTTCATTGTGCTTGC +GGCTGGAAATGATAATGCCTATCACGGCGGAGCCCTGAGCGATATTCGACAGCGCAATCAGCGGCCACAC +TGGCGTACCACCCATGCTTTGAATCATCTGCAAATCAATAGCAAGCGTGGTCTGGTGTACACCGGTGATC +ACCAGCGGGGCGTACAGGAAGCCAAACAATGCTGCGCCAATCGGAGCAAAGCTGCCGGTCATCAGGTGAC +GTACCGCAAAGGCAACGCCATCGCCAATCATGCGACCAAACGGACCAATCAGCGCATGGGCGAGGAACAC +CGCGAGGATCAGCGAACAGACGGGTACCACCACCAGATAGAGGTAATCCGGCACGATGCGTTTAAGGCGA +GTTTCAATAACGCCCAGCGCCAGTCCGGCTAACAGTGCCGGGATCACCTGCGCCTGATAGCCTACTTTGG +CGATGCTGAACATGCCAAAGTCCCACACTTCCGGCAGCTGCTGCCCGAGCAGATAAGCGTTCATCAGCTG +TGGAGAAACCAGTGTCACGCCAAGCACGATACCAAGGATCGGCGTGCCGCCCATTTTTTTCACCGCTGAC +CAGCAAATACCGACCGGCAGGTAGAAGAAGATCGCTTCACCGATCAACCACAGAAAATCGTAGATCGTTT +GCAGGGAAGGGTACATTTGCGCCAGCGTCTGACCGTTGCTCATGGGCAAATCGCCGATCACATTGCGAAA +ACCGAGGATCAAACCGCCGCTAATCAACGCGGGCAGCAACGGGAAGAAGATCACCGCGAAATGAGAGATC +AACTGCTCATGCCATTTCATATTATGCCGGGCGGCTTTTTTTACCTGCTCTTTATCAACCTGCGCCTGTC +CGGTTGACGCAATCAGTGCTTGATAGTAATCACCCACGTTGGTGCCAATCACCACCTGAAATTGCCCGGC +ATTGGTGAAACAGCCTTTCACCATAGGGAGTTGCTCAATTTCTTTCGGTCTGGCATTGGCCGGTTGGTTG +AGGACAAAGCGTAGGCGAGTAATACAGTGGCTCACCGTCGCAATATTGCCGCGCCCGCCGACCAGTTCAA +TCAACCGATCGATATCCGTTTGGTTTATTTTGCTCATCATAAAGCCCCATGGCAGATGACATTTTTGGTT +GGCTGCAGAATATATTGCGCGGAAAAATTTAAAAACGGGAACGTTCCCGAAACGCAGCGAAGATCACAAT +TTATCGTTCAGGAAACGATCAGGACAGGGTGGCGGGGATGATGATTTGTTGCGGTTCGCTGCGCCCGGTT +ACCTGCGCGATCAACTGGCAAGCCGCCTGGCGTCCAGCTTCGGCGTAACCGGGATCTACGGTTACGATCT +CCGGATGGAGGAATTTCATTAACGGCGTATTACCGACGCTCGCCAGTTGCAAGGTGTCGATGCGTTGCTC +TTGCAGGTATTTACTTGCGCCAAGTGCCAGCGTGTCGGTTGCGCACAGTAAGGCGGTAGTTTCAGGCGTA +ATCACTTTTGCAACGTTCTCATAGCCTTGCTTCATAGCAAGCCCTGGCAGGGCGGCAACGGGATGCAGTT +TATGCGCTTTGCAGAACGCCAGGTAGGCTTCGTGACGTCGCTTACCGGTTGTCACGTCACTGTGCGGCAC +GCCGAGATAACTGATATTACGATGCCCCTGGTCATACAGCCGTTGCATCAGGATTTTGATTGCCCCTTCG +TCGTCATAACAGACCGAAGCAAAGCCTTTTGCGTCACGCGCCAGCAGAACCAGCGATGACTGCCAGTGGG +CTAACATTTCTTCTGTTATGCCAGTAAAACCGAACAGCACTACGCCGTCGATATTACGCCGTTTCAGCAC +TCCCAAATGTTCGGCAACTAATTGCGGGGAAAACTGACTTTCCATCATGATTGGGTCGTAACCTTGTTCA +TAGAACGCTGGCAGCATGGTTTGAACGGCGAGATTTTCTGACAACGAATCCAGACGGGTAACAATGATGG +CGACCACTTTATCGCTTTGCCCACGCATAGCGCGCGCAGAGCGGGAAGGGGAAAATCCATGCTGATTCAT +CACTGCTTCAACACGCTCGCGGGTGAGCTGGCTCACGCCGCTTTCGTTATTCAGCACCCGGGAAACTGTA +GATTTCCCCACGCCGCTTAAGCGCGCGATATCTTTGATGGTCAGCCGATTTTGCATCCTGTTGTCCTGTA +ACGTGTTGTTTAATTATTTGAGCCTAACGTTACCCGTGCATTCAGCAATGGGTAAAGTCTGGTTTATCGT +TGGTTTAGTTGTCAGCAGGTATTATATCGCCATAGATGCTACGAATATTATTGGATTCTCCTTATTATTT +GCGGCGCTTTTTTCACTTACCGGAGGTTATATGGAACCTGATCCCACGCCTCTCCCTCGACGGAGATTAA +AACTTTTCCGGTAAGCCCGTCTTTTCACGGCGTTACCGGATGCGTAAGGCCGTGACGTTTTAACGTCCCT +GCTCAGCTTTATTACCTTCAGGTAAGGCTTCGCCACGCCTGAAGACATTTCTGTACTGTTTCAGACAGTG +CGGAGGGACTCCTTATGTTTAAAGAAATTTTTACCCGGCTCATTCGCCATTTACCTTCCCGTCTGGTTCA +TCGTGATCCATTGCCTGGCGCGCAGCAGACAGTGAATACGGTGGTCCCGCCGTCCTTAAGTGCGCATTGC +CTGAAAATGGCGGTGATGCCCGAAGAAGAATTGTGGAAAACGTTCGACACCCATCCGGAAGGGTTAAATC +AGGCGGAAGTGGAATCTGCCCGCGAACAACATGGTGAAAATAAATTACCCGCACAACAACCGTCGCCGTG +GTGGGTACATTTATGGGTCTGCTATCGCAACCCCTTTAATATTTTACTCACCATTCTCGGCGCTATTTCT +TACGCCACGGAAGATTTATTTGCTGCGGGCGTTATCGCGCTAATGGTCGCTATTTCTACGTTGCTGAACT +TTATTCAGGAAGCACGTTCCACTAAAGCGGCAGATGCCCTGAAAGCGATGGTCAGCAATACTGCGACGGT +GCTGCGCGTAATTAACGACAAAGGCGAAAATGGCTGGCTGGAGATCCCGATCGACCAGCTGGTGCCCGGC +GATATTATAAAACTGGCGGCGGGAGATATGATCCCGGCAGATTTACGTATCTTGCAGGCGCGGGATCTGT +TCGTCGCTCAGGCGTCGTTAACCGGTGAGTCTCTGCCCGTAGAAAAAGCCGCTACCACTCGCCAGCCGGA +GCACAGCAATCCGCTGGAGTGCGACACGCTGTGTTTTATGGGCACCACCGTGGTGAGCGGCACGGCACAA +GCAATGGTGATTGCTACAGGTGCCAATACCTGGTTTGGTCAACTGGCGGGGCGTGTTAGTGAGCAGGAAA +GCGAGCCGAATGCCTTTCAGCAAGGGATCAGCCGCGTCAGTATGCTGCTGATTCGCTTTATGCTGGTGAT +GGCACCGGTGGTGCTGTTAATCAATGGTTACACCAAAGGCGACTGGTGGGAAGCGGCGCTGTTTGCGCTT +TCGGTCGCGGTAGGCCTAACGCCGGAAATGTTGCCGATGATTGTTACCTCGACGCTGGCGCGCGGCGCAG +TAAAGCTGTCGAAACAGAAAGTGATCGTCAAACATCTGGATGCTATTCAGAACTTTGGCGCAATGGATAT +TCTGTGCACTGATAAAACCGGCACCCTGACGCAGGATAAAATTGTGCTGGAGAATCATACCGATATCTCC +GGTAAAACCAGCGAACGCGTGCTGCATAGCGCGTGGTTGAACAGTCATTATCAGACCGGACTTAAAAACC +TGCTCGATACAGCGGTGCTCGAAGGTACGGATGAAGAGTCAGCGCGCTCGCTGGCCAGTCGTTGGCAAAA +AATTGATGAGATTCCGTTTGATTTCGAGCGTCGCCGGATGTCGGTGGTAGTGGCAGAAAATACCGAGCAC +CATCAGCTGGTTTGCAAAGGTGCATTGCAGGAAATCCTCAATGTGTGTTCGCAGGTGCGTCACAATGGCG +AGATTGTGCCGCTCGATGACATCATGCTGCGTAAGATTAAGCGGGTTACTGATACGCTGAATCGTCAGGG +GCTGCGCGTGGTTGCGGTGGCGACGAAATACCTGCCAGCGCGTGAAGGAGATTACCAGCGGGCGGATGAA +TCCGACCTGATCCTCGAAGGATATATTGCTTTTCTTGATCCGCCAAAAGAGACAACCGCTCCGGCACTGA +AGGCATTAAAAGCGAGTGGAATTACCGTAAAAATCCTTACTGGCGACAGTGAGTTAGTTGCAGCGAAAGT +GTGCCATGAAGTGGGGCTGGACGCGGGAGAGGTGGTCATTGGTAGTGATATTGAAACGCTATCTGACGAC +GAACTGGCAAATCTTGCACAGCGTACCACGCTGTTTGCCCGCCTGACGCCGATGCATAAAGAACGCATTG +TGACCTTACTGAAGCGCGAAGGGCATGTGGTTGGCTTTATGGGCGATGGTATTAATGATGCGCCCGCCTT +ACGCGCTGCGGATATCGGCATTTCTGTGGACGGCGCGGTAGATATTGCCCGTGAAGCGGCTGATATCATC +CTGCTGGAAAAAAGCCTGATGGTGCTGGAAGAGGGGGTTATTGAGGGACGTCGCACTTTCGCCAACATGC +TGAAATACATCAAAATGACGGCGAGCTCTAACTTCGGTAATGTGTTCAGCGTGCTGGTAGCGAGTGCTTT +CTTGCCCTTCCTGCCGATGTTGCCGTTACACTTGCTTATTCAGAACCTGCTGTACGATGTGTCACAGGTG +GCGATCCCGTTTGATAACGTCGACGACGAGCAAATTCAAAAGCCGCAGCGTTGGAATCCGGCGGATCTGG +GGCGCTTTATGATCTTCTTCGGACCGATCAGCTCGATCTTCGATATTTTGACGTTTTGCCTGATGTGGTG +GGTATTCCATGCCAACACGCCGGAAACGCAAACGCTGTTCCAGTCGGGATGGTTTGTGGTGGGCTTACTG +TCGCAAACGCTGATTGTGCATATGATCCGCACCCGCCGTGTGCCGTTTATTCAGAGCTGTGCATCGTGGC +CGTTAATGATCATGACCGTGATCGTGATGATTGTCGGGATCGCATTGCCGTTTTCACCGCTGGCCAGTTA +TCTGCAATTACAGGCGCTGCCGTTAAGCTATTTCCCGTGGCTGGTTGCGATTCTGGCAGGGTATATGACA +TTAACCCAGTTGGTGAAAGGGTTCTATAGCCGTCGTTACGGCTGGCAATAAAGAATAAACTGGGCACGAT +AGCCCCGATTCAGATTGTAGACAAAGTGAGTTTTGTTCATGCCGGATGCGGCGTAAATGCCTTATCCGGC +CAACAAATTCAATAAATTGCAGGAATCACGTAGGCCTGATAAGCGTAGCGCATCAGGCGATTTTGCGTTT +GTCATCAGACTTAATCCGGGCATGATAGCCCGGATTTCCATCAAGATTAGCGACGAACAGCGATCGCTTC +GATCTCAATCTTCACGTCTTTCGGCAGACGGGCAACTTCAACGCAAGAACGTGCCGGGAAGGTGGCGTTG +TGTTCGGTGAAGAAGGCTTCGTAAGTGGCGTTTACGGTTGCGAAGTCGTTCAGATCTTTTACAAACACGG +TAGTTTTAACGATGTCGCCCACTTTCAGGCCAGCGGCTTCGACGATCGCTTTTACGTTATCCAGCGACTG +ACGTGCCTGTGCAGCGACGTCTGCCGGTACTTCGCCCGTTTTCGGATTTACCGGGATCTGACCGGAGGTG +ATGATCATATTGCCCAGATCAACGCCCTGTACGTAAGGACCGATAGCTGCCGGTGCATTTTCCGTCGCGA +TAGTTTTGCTCATGATTTCTCCTTTATTACAGCGGTAAAAAGTCTGGCTCATTATAGGGAGCCAGACTTT +TATTACCAACCGCAATTAATTGGCCAGCACCACATTATGGGAAAACTCTTTTTCACAGTATTTGCATTTG +AGCGCGATATCATTGGCGCGTTTTCGCACGGCAAAGCTGGATGAAACCGGTTCGGCATGGCTGATACAGT +TGCTGTTCGGGCAGACCAGCACATTGTCGATGCGCTCCGGCAGACTTGGGCGCGATTTACCCACCACTTC +ATAGTTGTCGATACGGTTAACCGTGGCTTGCGGCGCATACAATGCCAGTTGATCTACTTGATCTTCACTC +AAAAAGGTATTTTCGATTTTGATCAGATCTTTGCGGCCCATCTCGCCAGAAGGCAGGTTCAGACCAATGG +TGATGCGCTGATCCGTTTCGGTCAGCTTGAACAGACTCAACAGCTTAAAACCGATCTGGGCGGGGATATG +GTCAATTACCGTGCCGCGTTTAATAGCTTCAACCTGCAATTTATTATCGTGTGTCATCTCTATTTCCCCT +TACAGTACCAGATCGCGATTCAGAACCAGTGCCAGTAACGCCTGGCGAGCGAAAATCCCGTTGCCTGCCT +GCTGGAAGTACCAGGCGTGTGGCGTTTTATCAACATCCGTCGCAATCTCATCAACACGCGGCAGCGGATG +CAGCACTTTCATATTGGCTTTGGCGTTGTGGAGATCGCTGGCGCGAAGAACAAACTGCGCTTTCACGTTG +GCGTACTCGGACGGGTCCAGACGCTCTTTTTGCACGCGGGTCATGTACAGGATGTCTACTTCCGCCATCA +CTTCTTCAATAGAGCTGTGCAGACTCCATGCGATCCCTTTTTCATCGAGCATATCCAGAATGTATTGCGG +CATTGCCAGCGCGTCCGGCGCGATGAAGTAAAAACGGTTGCCGTCGAACTTCGCTAACGCCTGAGTCAGG +GAGTGAACGGTGCGGCCATATTTCAGGTCACCAACCATTGCGACGTGGAGATTGTCCAGACGCCCCTGGG +TTTCCTGAATAGTGAATAAGTCCAGCAAGGTTTGCGTCGGATGTTGGTTGGAGCCATCACCGGCATTCAG +TACCGGTACATTGCCGGAAAACTCGGTGGCCAGGCGCGCCGCACCTTCCTGCGGATGACGCATCACTATC +GCATCGACGTAAGTGCTGATAACCGAAATGGTATCGGCCAGCGTTTCGCCCTTTTTACCCAGTGATGTAT +TGGCGCTGTCGGAGAAGCCCACCACGCTGGCCCCCAGGCGGTGCATAGATGTTTCGAAAGAGAGGCGGGT +ACGGGTAGAGGCTTCGAAGAAACAGCTGGCAATGACTTTGTGCTTCAACAGCTCTGGTTGCGGGTTTGCT +TTCAGTTTCGCCGCTGTCGCCAGCACCAGATTAAGGTCATCGCGACTAAGGTCGTTTATGGAAATGATAT +GTTTCTGATATAGCGGATTAGCCATCTTTTATCTCCTGACGCCTGGGCAAAAAAAAGCCCCTCGATTGAG +GGGCTGGGAATGGGTGATCAACGGGAAGAAAAACGGCAGGCCAGCGTCTTTTTTCAGACGCGGTAAGACA +AAATGTCGAACACACTGAACCATACATCCTCCCGGCAAATTGTCCGGCATTATACTCATCGTCAGAAGCG +GCGCAAGCATTTGATGCAATATTTTGTCAGCGCAAACGGTTTATTTGAATTAAAAGTCAAGGTATATGCA +TTTTTATTTGATGTGATTCTGCAGGGGAACTGTCCTTCGGTATCAATAATTGCAGACATTCCCTGCTTTT +TCCTTTTTCACTTTCACGCAATCAGATATGCATTTTATTCCATTCATCCGACTTATAGGGCGGAGTGTGA +AAGCGAACGGCTAACACTATTGCTTACTGCTCAGGGATGCGCGCTATCACTTTAATTTCAAAATCAAAGC +CTGCCAGCCATGTAACACCCACCGCCGTCCAGTTTGGATAAGGTGGGGCGCTAAATATTTCATTTTTCAC +CGTCATGATGTCTTCAAATTGGTTTTCTGGATCGGTATGGAAGCTCGTAACATCAATGATATCGTCAAAA +GTGCATCCCGCAGCTGCCAGGGTCGCATGCAAATTATCAAATGCCAGTCTGACTTGTTGCTGAAAATCGG +GTTCTGGTGTTCCGTCCTCTCGACTTCCTACTTGCCCGGAAACAAACAGCAAATCGCCGGAACGAATAGC +CGCAGAATAACGATGCTCAGCATATAGTGAATGTCGGCCAGCAGGGAAAACAGCGGTTCTTTCTACCATT +TGGTTATCCTCAAGATTTACGACATGAACAGAAGATTTCTCTTTACCGGGAGCCGCTTTTAGCGGACGAC +GTGAGTAAACAAAACCCAGACATCATGGATAATGGCTGGGCTTAATTGAGCGTAGTCGGTTATGCGCCAA +ACGCGCCATCAATGGTATGCATCGCGCCGGTAACAAAACTGGCTTCTGGCCCTGCTAACCATGCGACCAT +ACCAGCGACCTCTTCCGGTTGCCCATGTCTTTTGATAGCCATCAAACTATGCAACATATCGCGCATTGGC +CCGTTGGCGGGATTAGCGTCGGTATCAATTGGCCCTGGCTGGACGACGTTAATGGTGATCCCACGCGGTC +CAAAATCACGGGCCAGCCCGCGCGCCATGCCTTGCAGGGCAGATTTGCTGGCGGCATAAGCAGCCATGCC +TGCAACAGGCATACGATCGCCATTCACGGAGCCGATGATTAAGATGCGCCCGCCTTCGGGCATCTGCCGG +GCGGCTTCAACAGAGGCATGATAAGGAGCATGAATATTGATTTTGAAAAGGCGATCAATATCGTCGGCAT +TTAATTCCAGGGCCTCGCCAAAGACGCCAATACCTGCATTTACCACCAGGATATCCAATGCGCCGCTCTT +ACGAACGACATCAATGACAGCGTCTCTGTCAGCACTATCTGTGAATACTGCTGTCGCTCCAGTCTCTTGT +GCCAGGCGTTTAGCGGCATCTTTCGACCCCGCATAGGTGAATCGTACATTGGCCCCATCGGTGACGAAAC +GACGTACGATAGCGGCACCGATACCACGACTGCCACCGAGGATGAGAACTGTCTTACCTGTAAAAGCGCC +CATAAGGACTCCTTGATTTATTATGTAACATGCATTACAAAACTGTTTTAACTTTCTGTCAACAGGTTTT +GTAATGGTCACTAAAAAACAATCTCGCGTTCCAGGTCGTCCCAGACGTTTCGCTCCTGAGCAGGCAATCT +CTGCGGCAAAAGTGCTTTTTCACCAAAAAGGTTTCGATGCTGTCAGTGTTGCTGAAGTTACTGATTATCT +TGGTATTAACCCCCCGAGCCTCTACGCGGCTTTTGGCAGTAAAGCTGGGTTATTTAGCCGTGTACTCAAT +GAATACGTCGGTACGGAAGCTATTCCGCTTGCCGATATTCTTCGTGATGATCGTCCGGTAGGCGAGTGCC +TGGTTGAGGTATTAAAAGAAGCGGCGCGCAGATATAGCCAAAACGGCGGCTGCGCTGGCTGTATGGTTCT +TGAAGGTATTCATAGTCATGATCCACAAGCGCGTGATATTGCCGTTCAATATTATCACGCCGCAGAAACG +ACCATTTATGACTACATCGCCAGGCGGCATCCACAACGCGCACAATGTGTGACTGATTTTATGAGTACCG +TGATGTCTGGGCTTTCTGCGAAGGCACGAGAGGGGCACTCTATAGAACAACTCTGTGCAACAGCTGCAAT +GGCGGGGGAAGCGATAAAAACTATTCTTGAGGAGTGATGCGGGCCTTGACCCGAAAGGCGGGAAAGCGCC +TGCCGATAAGTTGTGATAAGACAATAATTCACGCGTTAAGGCTAGCGGAATTGATTATCTTTTCGTATAA +CGATAGAAATGAAACGTTGTTTTAATTAAGGAGTGGAAAAGATGATCATCGGAAATATTCATAATCTTCA +GCCGTGGCTACCCCAGGAGTTACGCCAGGCGATTGAGCATATCAAAGCACACGTTACGGCAGAAACGCCA +AAGGGCAAGCACGATATCGAAGGCAATCGACTGTTTTATCTTATCTCGGAAGATATGACCGAGCCGTACG +AAGCTCGCCGTGCGGAGTACCATGCCCGCTATCTTGACATTCAGATTGTGTTAAAAGGTCAGGAAGGCAT +GACCTTCAGCACGCAACCTGCAGGCGCGCCGGATACCGACTGGTTAGCTGATAAAGACATCGCATTTTTG +CCGGAAGGCGTTGATGAGAAAACAGTTATTCTAAATGAAGGTGATTTTGTTGTGTTTTATCCGGGGGAAG +TGCATAAACCGCTGTGCGCAGTGGGCGCGCCAGCCCAGGTTCGCAAAGCAGTAGTGAAGATGCTGATGGC +GTGATGACTTTTCGCCGTAAATAACTCAAGGTTTACGGCGAGTTTGTGAAAAGAGCGTTTTTTGATATTT +TTTTGTGAGTAAAATTTGTAATGCTTAGACGTTCTTATTCACTCAAGGAGTTCGTCATGAGCAAAATATC +AGATTTAAATTATTCTCAACACATTACATTAGCCGACAATTTTAAACAAAAAAGTGAAGTTTTAAATACC +TGGCGTGTTGGAATGAATGATTTTGCCCGTATTGCCGGGGGGCAGGATAACAGAAGGAATATTCTTTCTC +CTGGAGCATTTTTAGAGTTTTTGGCAAAGATATTTACCCTGGGTTATGTGGATTTTAGCAAACGCTCCAA +CGAAGCGGGTAGAAATATGATGGCTCATATTAAGTCCTCATCTTATTCTAAAGATACTAATGGCAATGAA +AAAATGAAGTTTTACATGAATAATCCTGTAGGGGAACGAGCGGATTCACCCAAGGTGATTATAGAAATTT +CACTTTCCACTATCACTACTATGGGGACTCGTCAAGGACATACAGCCATTATATTTCCACAACCTGATGG +TTCGACTAACCGTTATGAAGGGAAGTCCTTTGAAAGAAAAGATGAGAGTTCATTACACCTGATTACTAAC +AAGGTTCTGGCGTGTTACCAAAGTGAAGCTAACAAGAAAATAGCGCGTCTATTAAATAATAATCAGGAGT +TAAATAATCTACAGAAATTAAATAATCTACAGAAGTTAAATAATCTACTGAAGTTAAATAATATACAGGG +GTTAAATAATCCTCAGGAGTTAAATAATCCGCAGAATTTAAATGATTCTCAGGAGTTAAATAACTCGCAG +GAATTAAATAGTCCACAGGAGTTAAATGATCCGCAGGAGTTAAATAATTCTCAGGACTTAAATAACTCTA +AGGTGAGTTGTACAGTTTCAGTTGATTCTACGATTACGGGTTTATTAAAAGAACCATTGAATAATGCATT +ATTAGCAATAAGGAACGAACATCTGCTATTAATGCCTCATGTATGTGATGAATCGATTTCATACTTACTG +GGCGAAAAAGGTATACTTGAAGAAATAGATAAGCTCTACGCATTAAATGATCACGGAATTGATAATGACA +AAGTAGGTAACAATGAAATTAATGACATCAAAGTTAACCTGTCTCATATTCTTATTGATTCCTTAGATGA +TGCAAAGGTTAACCTTACACCGGTCATCGATTCGATTCTGGAGACTTTTTCAAAATCCCCATATATTAAT +GATGTAAGAATACTGGATTGGTGTTTTAATAAAAGCATGCAATATTTTGATGATACTAAAAAGATAAAGC +ATGCATGCTCCGTAATAAATCATATTAATCTTCGCAGCGATCAGTCTAAAATAGCTGAGACATTATTTTT +CAATCTCGATAAAGAACCCTATAAAAATAGCCCTGAATTACAGGGGTTGATTTGGAATAAGTTGGTTGTA +TATGTCAATGAATTTAACTTAAGTAATCGAGAAAAAACAAATTTAATACAAAGGCTATTTGATAATGTTG +AGTCTATATTTAATGAAGTACCTGTCAGCATTTTAGTGAATGATATTTTTATGAATGATTTCTTTATGAA +AAATCCTGAGATGATTAATTGGTACTTCCCTCAGTTACTTAAGAGTTATGAGGGTGAAAAGATTTATTTT +GATAATTTAAAATATGATTTAAATGATAATGATAAGGAATCTAATAAAGAAATTTTGAAGAATCAACCAG +ATAATGTTATCAAAGAAAAACTGAATAATGAATACAAACTTAGATTTAGAATGATGCAAACTATCTTGCA +ATCGAGAGTTAATGTATTACCATATATTAATGAACAGCGTTTAAATAAACTAAATCCACCGGAAAATTTA +CGTATAGCAATAGAACACTTTGGGTGGAAGAATAGACCTATCACTGCATAAAATAATGTGATGCCGGGAT +GGTTTGTATTTCCCGGCATCTTTATAGCGATAGCAATTATTTACTGAGCGTCGCGACCATCACCGCTTTG +ATAGTATGCATACGGTTTTCCGCCTGATCAAAAACAATGCTGGCGGCAGATTCGAAGACCTCATCAGTGA +CTTCCATACCGCCATGTAGGCCAAATTCTTCCGCCATTTTCTTGCCAAGCGTCGTTTGGTCGTCATGAAA +CGCGGGCAGGCAGTGGAGGAATTTGACCTCCGGGTTACCGGTCAACTGCATCATCTTGCTGTTCACCTGA +TATTCACGCAGCAATGCAATCCGTTCCGCCCATTTCTCTTTTGCTTCCCCCATCGACACCCACACATCGG +TATAGATAAAGTCAGCACCTTCAACTCCCTTCGCGACATCTTCAGTCAGCGTAATATTCCCACCATTTTG +CTGTGCCAGGGCGCGGCATTCCGTAACCAGCGCAGCTTCCGGCCAGCACGCTTGTGGCGCGACCAGACGC +AAATCCAGACCGGTAAGCGCCGCAGCTTCGAGCATCGAATTGCCCATGTTGTTACGCGCGTCACCTGCAT +AGACCAGCGTCATTTCGTTGAACGCTTTGCCGGGCAAATGCTCCTGCATGGTGAGAAGATCCGCCAGCAG +CTGCGTGGGATGGAACTCATTGGTCAGGCCATTCCATACCGGCACGCTAGCGTATTCCGCCAGTGTTTCG +ACAATCTCCTGACCATAGCCGCGATACTGAATACCGTCATACATGCGACCAAGCACGCGGGCAGTGTCTT +TAATCGACTCTTTATGACCAATCTGGCTGCCGCTTGGGCCGAGATAAGTAACGCGAGCACCCTGGTCATA +TGCGGCAACTTCGAAAGAGCATCGGGTACGAGTCGAGTCTTTTTCGAAGATGAGCGCGATGTTTTTACCA +GTGAGTTTGGCTTCTTCTTTACCGCTTTTCTTATCGGCTTTCAGCTTCGCGGCTAACTGCAGCAGGCTGT +TGAGTTCAGCTGGCGTGAAATCGAGTAATTTCAGGAAATGCTTATGATAAAACCCGGACATAGATCCCTC +CTGTGGCTAACGCCTCAATGAATTAAAATTCAATTTATATGGATGATTATTCATTTGCAAGTCTAAAGCA +TAAATCTTTGTCACAAAGGTGGAGGCAATGTCAGTGGTGTGTGACAATAAGAGTATCGGCAGGACATTAA +GAGGAATGAGCCATGGCAAACCCGGAACAACTGGAAGAACAGCGTGAAGAAACACGTTTGATTATTGAAG +AATTACTGGAAGATGGCAGCGATCCGGACGCGCTGTACACCATCGAACACCATCTTTCCGCAGACGATCT +GGAAACCCTGGAAAAAGCAGCAGTTGAAGCGTTTAAACTCGGTTACGAAGTGACCGATCCAGAAGAGCTG +GAAGTTGAAGATGGTGATATCGTGATTTGCTGCGACATCCTCAGCGAGTGCGCGTTGAATGCCGATCTGA +TCGATGCCCAGGTTGAACAACTGATGACGCTGGCAGAGAAATTTGACGTTGAGTACGACGGATGGGGCAC +TTACTTTGAAGATCCTAACGGCGAAGATGGCGACGATGAAGATTTTGTCGATGAAGACGATGACGGAGTT +CGCCACTAATTAAGCGTAGCGCATCAGGCCCAGGTAGTTCCTGCAACCTGGTGAATTTGTAGCCCGGATA +AGGCATTCATGTCACATCCGGCATAAACAAAACGTACGTTGTTAATGTTCGAATGCCCGCGAGTTGAACA +CGCGGGCATTTTTTTAGAGTTCGCGCAACATCCGCACTTCACAATCGACATGGCCCGTGCAGCCAAGCGC +ATAGTCGATATGCTCAAAGCCCAAATGCTCATAAAGCGCAATGGCTTCCTTTAAAAAAGCGGTCGTTTCC +AGATAGCAGCGTTTGAAACCCATCTCTCGCGCCTGCTCCATCGCCATTAAGGCCAGTTTTTTTGCCAGCC +CTTTGCCGCGGATAGCCGGAAGAAAATACATCTTTTGCAGTTCGCAAATATCCGACTCACTCCCGGTTAA +TGGCGCTATCCCACCGCCGCCGACCACTTCACCCTCGTACTCAACGACCCAATATGCATGGCCAGGCTGA +CTATATACTTGATACAGCTCGTCAAGATTCGGATCGGCGACGGTGTAGCCTTTATCAGCGGTAAGACCGT +ATTCGGCGGATACCTGACGAATGACGCGGGCGATAGCAGGATTATCCTGCAGCGTCAGGCGACGCATTAC +AGGTGATTGCGGCGCAATGTTATTCATAGTTTAACCCAATAAAAATAAAGTAATTATACATTTGTTTAAT +ACCACTCTCTTCTTACGTACGCAAGCGACTTATAAAGTAATAAAGTTTTTGCCAGCCTATTACTGATAAG +AGTATTGTAACGTGGCAGAACATTTTACTGTCTGTATATATAAGTTATATCAATGGATTTTTTAATTCAG +GGAATTTTTATGGCTCAAGTTATTAATGAAATGGATGTTCCGTCCCATTCGTTTGTTTTTCATGGTACAG +GTGAGAGATATTTTCTTATTTGTGTGGTGAATGTGTTGTTAACGATTATAACGCTAGGTATCTATTTACC +ATGGGCATTAATGAAATGTAAGCGTTATCTTTATGCTAATATGGAAGTTAACGGACAACGATTTTCTTAT +GGAATTACCGGTGGGAATGTTTTTGTTAGTTGTCTTTTTTTTGTTTTTTTCTATTTCGCAATCTTAATGA +CAGTGTCAGCAGATATGCCGCTTGTTGGTTGTGTTTTGACTTTGTTACTGTTGGTTTTGCTTATATTTAT +GGCAGCAAAAGGACTGCGTCATCAGGCCTTAATGACCAGTCTCAACGGCGTAAGATTTAGTTTTAATTGC +TCTATGAAAGGGTTCTGGTGGGTGACCTTTTTCTTGCCGATTTTAATGGCCATTGGGATGGGGACTGTTT +TCTTTATCTCGACAAAGATGCTACCTGCCAATAGTTCAAGTAGTGTTATTATATCCATGGTTCTGATGGC +AATAGTTGGTATTGTTTCCATTGGTATTTTTAATGGTACTTTATATAGTCTGGTAATGAGTTTTCTCTGG +AGTAATACCAGTTTCGGTATACATCGTTTCAAGGTGAAATTAGATACTACGTATTGTATAAAATATGCCA +TTCTCGCATTTTTAGCTTTATTGCCTTTTCTCGCTGTTGCTGGTTATATTATCTTCGATCAAATATTAAA +TGCGTATGATAGTTCTGTATATGCAAATGATGACATTGAGAATTTACAGCAATTTATGGAAATGCAACGT +AAAATGATAATCGCGCAGTTAATCTATTATTTTGGGATTGCTGTTAGCACAAGTTATTTAACGGTGTCTT +TGCGAAACCATTTTATGAGCAACCTGTCACTGAATGATGGGCGTATTCGTTTTCGCTTAACTTTAACGTA +CCACGGTATGCTTTATCGCATGTGTGCGTTGGTGGTGATATCCGGGATTACGGGCGGTCTGGCTTATCCA +CTGCTGAAAATATGGATGATTGACTGGCAGGCAAAAAATACGTATTTGCTGGGCGATTTGGATGACCTTC +CTTTAATCAATAAAGAAGAACAACCAGATAAAGGCTTCTTAGCCAGTATTTCACGGGGAGTTATGCCTTC +TTTACCATTTCTGTAAGAGATAAAAAAGGCCGGAGCATGCTCCGGCCTTCGTTTTCATCACTGTGTTTTG +ATTACAGCGCGGCGATAACAGCCTGCTGTTCAATCAGTTTCGCTTTCGCTTCCGCATAGCCTTCCAGCTT +CTCACGCTCTTTCGCGATGACCGCTTCCGGTGCGCGGGCGACAAAGCCTTCGTTCGCCAGTTTGTTCTCG +ATACGGCTGATTTCACCTTCAATCTTCGCCACTTCTTTCGCCAGACGCGCCAGCTCATCTTCTTTGTTGA +TGAGGCCAGCCATCGGGATCAGCAGCTCTGCACCGTCGATGATCTTCGTAACGGAAACCGGACCTTTGTC +ATCGGCAGGCAGCACGGTGATACTTTCCAGACGCGCCAGGGTTTGCAGGAAGCCACGGTTTTCATTTACG +CGACGTTCTGCATCCGCGCTGCAACCACGCAGCAGCAGCTCCAGCGGTTTGCCCGGCGCGATGTTCATTT +CTGCACGGATGTTACGTACCGCAACGATCGCCTGTTTCAGCCATTCGGTGTCGGCCAGTGCGGCTTCATC +AACCTGAGATGCATCGTACTGCGGGAACGGCTGCAGCATGATGGTGTCGGCAGTGATACCGCAAAGTACT +TTCACACGCTGCCAGATGGTTTCGGTGATGAACGGAATGATCGGATGCGCGAGGCGCAGCAGACCTTCCA +GTACAGTCACCAGCGTATGGCGAGTACCGCGCAGTTCTGCTTCGGTGCCACCGTTCATTACCGGCTTGGT +CAGCTCGAGATACCAGTCACAGAACTGGTTCCAGGTGAACTCATACAGAATGCCTGCGGCGATATCGAAG +CGGAAGCTGTCCAGCGCTTCGCGGTACGCTTTGATGGTCTGGTTGAACTCCGCCAGAATCCAGCGGTCCG +CCAGCGACAGCGTCATTTCGCCGCCGTTGAAGCCGCAATCCTGACCTTCTGTGTTCATCAGCACAAAGCG +GCTGGCGTTCCACAGCTTGTTACAGAAGTTACGGTAACCTTCCAGACGCTTCATATCCCAGTTGATGTCA +CGACCGGTAGACGCCAGCGCCGCCAGGGTGAAGCGCAGCGCGTCAGTACCGTGCGGCTCAATACCGTTCG +GGAACTGCTTCTCGGTGCGCTTACGGATTTTGTCCGCCAGCTGCGGCTGCATCATATTGCCGGTACGTTT +TTCCAGCAGTTCTGGCAGCGAAATACCGTCAACCATATCCAGTGGGTCGATAACGTTACCCTTGGATTTG +GACATCTTCTGGCCTTCGTCATCACGAATCAGGCCGGTCATGTAAACGGTGTGGAACGGCACCTGCGGTT +TGCCATTTTCATCTTTGATGAAGTGCATGGTCATCATGATCATGCGGGCAATCCAGAAGAAAATGATGTC +GAAACCAGATACCATCACGCTGGTTGGGTGGAACTGACGCAGGGCGTCGGTATTTTCCGGCCAGCCAAGG +GTAGAGAAGGTCCACAGCGCAGAAGAGAACCAGGTATCGAGAACGTCTTCGTCCTGACGCAGGACAACAT +CAGCACCGAGGTTATTTTCTTTACGCACTTCGTCTTCGTTGCGGCCAACATAAACGTTACCCGCTTCGTC +ATACCATGCCGGGATACGGTGACCCCACCACAACTGACGAGAGATACACCAGTCCTGAATATCGCGCATC +CAGGAGAAGTACATGTTTTCGTACTGCTTCGGTACGAACTGAATGTCGCCGTTCTCAACCGCTTCAACCG +CCGGTTTCGCCAGGACATCGGCACGCACGTACCACTGGTCGGTCAGCATTGGTTCGATAACTACGCCGCC +ACGGTCGCCGTAAGGAACGGTCAGGTCGTGCGGTTTAATTTCTTCCAGCAGGCCAAGCGCGTCAACTGCG +GCAACGACTGCTTTACGTGCAGCAAAACGCTCCAGTTTCTGGAACTCTGCAGGGATTTCGCTGGAATAAA +CGTCAGATTCGTTACCTTTGGTATCGAACACCTGGGCGCTTTCACGGATATCGCCGTCAAAGGTCAGGAT +GTTGATCATCGGCAGGGCGTGACGTTTACCCACTTCATAGTCGTTAAAGTCGTGCGCCGGAGTGATTTTC +ACGCAGCCGGTGCCTTTTTCCATGTCGGCGTGTTCGTCGCCAACGATCGGAATACGACGGTTAACCAGCG +GCAGAATGACATATTTGCCAATCAGATCTTTGTAACGCGGATCTTCCGGGTTAACGGCTACGCCAGTATC +GCCCAGCAGGGTTTCTGGACGGGTAGTCGCGACCACCAGATAATCTTTACCGTCTGCGGTTTTCGCACCG +TCAGCCAGCGGATAGCGGATGTGCCACATCGAACCTTTCGATTCGCGGTTTTCGACTTCCAGGTCAGAGA +TAGCGGTGCGCAGTTTCGGATCCCAGTTTACCAGGCGTTTGCCACGGTAAATCAGGTCTTCTTTATACAG +ACGAACGAAAACTTCTTTCACCGCATTGGACAGGCCTTCGTCCATGGTGAAGCGTTCACGCTCCCAGTCG +ACGGAGTTGCCGAGACGGCGCATCTGACGGGTAATGGTGCCGCCAGATTCCGCTTTCCATTCCCAGATTT +TGTCGATGAAAGCTTCGCGGCCGTAGTCGTGACGGGTTTTACCTTCTTCTGCGGCAATCTTGCGCTCAAC +GACCATCTGGGTAGCGATCCCGGCGTGGTCAGTACCGACCTGCCACAGGGTGTTTTTGCCCTGCATGCGC +TGATAGCGGATCATGGTATCCATGATGGTTTGCTGGAAGGCGTGACCCATATGCAAACTGCCGGTGACGT +TCGGCGGCGGGATCATGATGCAGAAACTTTCCTGGCTTTCATCGCCATTAGGCTTAAAGTAGCCCTGCTT +TTCCCAGTGCTCGTAAAGCGGCTGTTCGATATCTTGTGGGTTATATGTCTTTTCCATTATTTCCAGGTTG +CCGTATTCAGGTTGAAACCAGCCACGCGGTAGGCTTTATAGCGTTCGCGCGCCAGTTGTTTCAGAGAATC +TTCATAAGGAACGAAGTCTACCACTTCTGTGAAAGCGGTGGCAAAATCTGCAAAGCTTGTTCGCAGACTA +ATCAATATATCGCGCCGGCTGCTGCTACGCTTTTGCGGCCAGGCGATCTCCACCGGTGCACCGCCGCGCG +GTCCTTCTCCCGCTAAATTATGCGGAACAAAGCTTTCTGCCGGACGCGCCCACAGGGCTTCATCCAGCCG +GTAAGCCTGCTTTTCATCTTCACAGGCGATGAGCACGCGCTTACCGCTGCGCCAACGTTCTGCGGCAATT +TCACACACCAGTTGCTCAACGGCGCTTAAGCCATCGACGGTGGTGTCATTGTCCAGAAGGTAGAACGTCG +CGTTTTTCATAAATGGGGCTTCTTGTGGTGGATTTAAATACGCATCAGGTATACACCGCAGCGCCTGATG +CGACGCTGTTGTGTCTTATCAGGCCTACGAGTTCAGTGCTGTGTAGGTCGGATAAGGCGTTCACGCCGCA +TCCGGCAATAACAGCCTTGCCTGACGCAATTACTCTTCGCCGTTAAACCCAGCGCGGTTTAACAGGAACT +GTGCCAGCAACGCTACCGGACGACCGGTGGCGCCTTTTGCTTTACCAGAACGCCAGGCGGTACCGGCGAT +ATCCAGGTGCGCCCAGTTGTACTTACGGGTAAAGCGTGACAGGAAGCAACCTGCGGTAATCGCCCCACCA +GGACGACCGCCAATGTTCGCCATATCGGCAAAATTGGACTCCAGTTGTTCCTGATACTCGTCACCCAGCG +GTAAGCGCCATGCGCGGTCACCGGATTGTTCAGACGCGGCAATCAGTTCATGGGCCAGCGGATTATGGTT +CGCCATCAGACCAGTAATATGATGACCCAGCGCGATCACGCAGGCACCGGTCAGCGTCGCCACGTCAATC +ACCGCTTCCGGCTCAAAACGCTCAACGTAAGTTAACACGTCGCACAGTACCAGGCGGCCTTCAGCGTCGG +TGTTCAGCACTTCAACGGTTTGACCGGACATGGTGGTTAACACATCGCCCGGACGATAGGCTCGTCCGCC +AGGCATGTTTTCGCAGCCTGCCAACACGCCGATAACGTTAATCGGCAGTTGTAGCTCCGCGACCATCCGC +ATCACGCCGTAAACCGCTGCCGCACCGCACATATCGTACTTCATCTCATCCATGCCTTCTGAAGGCTTGA +TCGAGATACCGCCGGAGTCGAAGGTTAAACCTTTACCCACCAGCACGATTGGGCGTGCATCTTCCGACGC +GTTGCCTTTGTACTCAATCACCGACATCAGCGATTCGTTTTGCGAACCCTGACCGACCGCCAGATAGGAA +TGCATCCCCAGCTCTTTCATCTGCTGTTCGCCGATAACGCGGGTGATGACATTCTTGCTGTAGCTGTCAG +CCAGCTGGCGCGCTTGTGAAGCGAGGTAAGCGGCGTTACAGATATTCGGCGGCATATTGCCGAGATCTTT +TGCTGCTTTAATCCCGGCGGCAATCGCCAGACCGTGCTGGATCGCGCGCTCACCGCTGGTCAGTTCACGG +CGGGTCGGCACGTTGAACACCATCTTACGCAGCGGACGACGCGGTTCGCTCTTGTTCGTTTTCAGCTGAT +CGAAACTGTAGAGCGTCTCTTTTGCCGTCTCGACAGCCTGACGCACTTTCCAGTAGTTGTTACGGCCTTT +AACGTGCAGCTCAGTCAGAAAGCAGACCGCTTCCATTGAGCCAGTATCATTCAGCGTATTAATGGTTTTC +TGAATAACCTGCTTGTACTGACGCTCATCCAGCTCACGTTCTTTGCCGCAACCAATAAGGAGAATTCGCT +CGGAAAGTACATTCGGAACATGGTGCAGCAACAATGTCTGCCCCGGTTTTCCTTCCAGTTCGCCCCGACG +TAGCAGGGCGCTGATGTACCCATCGCTGATTTTATCGAGCTGTTCTGCAATCGGAGAAAGGCGACGTGGT +TCGAAGACGCCCACGACGATGCAGGCACTCCGCTGTTTCTCCGGGCTACCGCTTTTTACACTAAACTCCA +TGCACTACGCTCCTGAATCTTAAAGACAACGGCGGTGGCTACAGATAGAATTGCAAGCTTTCGTAACTCA +TGTCCGCTGTTGCGATGACTTCGTGTTAATCTTAACGTTATTACGGCATTGGCACGTCAGAACAAAATCT +GAGAGGTGAATCCGTTGAGTATAATTATCTTAGCGACGATTTCGACGACTCAAGAGAATAAATGACGTTT +AAGCCATGAAACAAGCTAAAATCCTGCAAAAGACGAGTTTTTACGGGCGTATTTAAAGTGATAATCATAA +GATATCTGGTGCGGGAGACGCTCAAAAGCCAGCTGGCGATACTCTTCATCTTGCTTTTGATCTTCTTCTG +TCAAAAGTTAGTGAGGATCCTCGGCGCAGCGGTTGACGGCGATATTCCGGCGAATCTGGTGCTCTCCCTT +CTCGGGTTGGGCGTGCCGGAAATGGCGCAGCTTATCCTGCCATTAAGCCTGTTCCTCGGGCTGCTGATGA +CGCTGGGCAAACTGTATACCGAAAGTGAAATTACGGTAATGCATGCCTGCGGCCTGAGCAAAGCGGTTCT +GGTGAAAGCGGCAATGATCCTTGCGGTATTCACGGCAATCGTAGCGGCGGTTAACGTGATGTGGGCGGGA +CCGTGGTCATCGCGTCATCAGGATGAAGTGTTAGCAGAAGCGAAAGCGAACCCTGGCATGGCGGCGCTGG +CGCAAGGGCAATTCCAGCAAGCGACTAATGGCAGCTCGGTGCTGTTCATCGAAAGCGTTGACGGCAGCGA +TTTCAAAGATGTGTTCCTCGCGCAAATTCGACCAAAAGGTAATGCACGTCCTTCTGTGGTGGTGGCCGAT +TCCGGACATTTAACCCAGCTGCGCGACGGCTCCCAGGTCGTCACTCTCAACCAGGGAACGCGCTTCGAAG +GCACTGCATTGTTACGTGATTTCCGCATTACGGACTTCCAGGATTATCAGGCGATCATTGGTCACCAGGC +GGTGGCGCTCGACCCGAACGATACCGACCAGATGGACATGCGCACATTGTGGAACACTGACACCGATCGT +GCTCGCGCAGAACTGAACTGGCGTATCACGTTGGTATTCACCGTGTTTATGATGGCACTTATGGTCGTAC +CGCTGAGCGTGGTTAACCCACGTCAGGGACGCGTACTGTCGATGCTGCCAGCCATGCTGCTGTATCTACT +TTTCTTCCTGATCCAGACCTCCCTGAAATCGAACGGCGGTAAAGGTAAGCTGGACCCGACGCTGTGGATG +TGGACCGTTAACCTGATTTATCTGGCTTTAGCGATTGTTCTCAACCTTTGGGACACCGTGCCGGTCCGCC +GCCTGCGCGCCAGTTTTTCGCGTAAAGGAGCGGTGTGATGCAACCTTTTGGCGTACTTGACCGCTATATC +GGTAAAACTATTTTCACCACCATCATGATGACACTGTTCATGCTGGTGTCGCTGTCGGGCATTATCAAGT +TTGTCGATCAGCTGAAAAAAGCCGGGCAGGGGAGTTACGACGCGTTAGGCGCAGGAATGTATACCTTGCT +GAGCGTGCCGAAAGATGTGCAGATCTTCTTCCCGATGGCGGCTCTGCTTGGGGCGTTGCTTGGTCTTGGG +ATGCTGGCGCAGCGCAGCGAACTGGTGGTGATGCAGGCTTCTGGTTTTACCCGTATGCAGGTGGCGCTGT +CGGTGATGAAAACCGCCATTCCGCTGGTCTTGCTGACGATGGCGATTGGCGAATGGGTCGCGCCGCAGGG +CGAGCAGATGGCGCGTAACTACCGTGCGCAGGCGATGTACGGCGGCTCGTTGCTCTCTACCCAGCAAGGC +TTATGGGCGAAAGATGGCAACAACTTCGTCTACATTGAGCGGGTTAAAGGTGACGAAGAGTTAGGTGGCA +TCAGCATTTATGCCTTTAACGAGAATCGTCGTCTGCAATCCGTACGCTATGCCGCTACTGCGAAGTTTGA +CCCGGAACATAAAGTCTGGCGTCTGTCGCAGGTTGATGAATCTGATCTGACCAATCCGAAACAGATTACC +GGTTCGCAGACGGTGAGCGGCACCTGGAAAACCAACCTCACGCCGGACAAACTGGGCGTGGTGGCGCTGG +ACCCGGATGCACTCTCTATCAGCGGTTTGCACAACTATGTGAAGTATCTGAAGTCGAGCGGTCAGGATGC +CGGACGTTATCAGCTCAACATGTGGAGCAAAATCTTCCAGCCGCTATCTGTGGCGGTGATGATGCTGATG +GCGCTGTCGTTCATCTTTGGCCCACTGCGTAGCGTACCGATGGGCGTGCGTGTGGTCACCGGTATCAGTT +TCGGTTTTGTCTTCTACGTACTGGACCAGATCTTCGGCCCGCTGACGTTGGTTTATGGCATCCCGCCGAT +CATCGGCGCACTGTTGCCAAGCGCCAGCTTCTTCTTAATCAGCCTGTGGCTGTTAATGAGAAAATCGTAA +CCGAATGAACGAATAAAGGGAGCGAAAGCTCCCTTTATTATTGTTAGCAAAGTGTGCTTCGTTCATTCCT +GAAAAATAATTAAAATTCAATATATTGCAGTGGGGTGGGCATGATAAGACGCGCCAGCGTCGCATCAGGC +AAAGACAAATCTCGCCTGACTTACCTTCTTCTCCCCCCCAGCAAACTCCCCAACATCCCGCGTACAATCT +GATTCGTCACTTGGCGAGCGGCGCTTTTGGCCATTGTTTGCACCACACCATCTTTCTTCCCGCCGCGTGG +TCCGGTAGTGCCGAACAAAATATCCTTCAATCCACCAAGAATGCCGTCATCCACCGCTACCTCTTTCCCT +TTCGCGGGAGGATTATTTTGCTGCTCGGTACTGGCCTGAAAGCCTTTTTGCAACATCTCATAGGCGGATT +CCCGGTCCACCTCATCCTCATATTTGCCATACACCGGAGAGTGATTAATCAAGCCATTACGCTCATCTTC +CGTCACCGGCCCCATCCGCGAACAAGGCGCGATCACCATCGCACGCTCCACCACAGAAGGGCTTCCTTTC +GCATCCAGAAAAGAGATCAACGCCTCGCCGGTGCCCAGTTCCTGAATCGCCTTTTCGGTATCAAACGCCG +GATTGGCCCGCATGGTTTGCGCCGCTGCCTTCACTGCTTTCTGATCTTTTGGCGTAAAAGCCCGCAAAGC +ATGTTGAACGCGATTACCGAGCTGCCCGAGCACATTATCCGGAATATCAGACGGGTTTTGCGAAACGAAC +CAGACGCCCACGCCTTTTGAGCGAATAAGCCTTATCACCTGCTCAATCTTATCCAGCAGTACCTGCGGGG +CATCGTTAAACAGCAGATGTGCCTCGTCGAAGAAAAACACCAGTTTTGGTTTCTCCAGATCGCCCGCTTC +CGGCAATTGTTCATACAACTCTGAAAGCATCCACAGCAGGCTGGCGGCGTACAGTTTCGGCATCTGATAA +AGTTTCTCGGCGCTGAGGATATTGATAACGCCTTTACCGTTGGCATCGGTGCGCATCCAGTCTTTGATAT +CCAGCATCGGCTCACCAAAGAAGTGTGCTGCGCCTTGCTGTTCCAGCGACAACAGCCCGCGCTGGATGGC +ACCAACCGATGCGCTACTGATATTACCGTACTGATTCTGGAAGGATTTGGCGTTATCGCCGATGTACTGG +GTAATTGCCCGCAGATCTTTAAAGTCGAGCAGTAACAGCCCCTGATCGTCAGCAATGCGGAAGATGATAT +TCAGCACGCCAGATTGCACATCGTTGAGATTCAACAGTCGTGCCAGCAACAGCGGCCCCAGATCCGAAAC +CGTCGCCCGCACCGGATGGCCTTTCTCGCCAAAGATATCCCACACCACCACCGGATTGGCATGCGGTTGC +CAGTCATTGACGCCGATATTTTTAAGCCTTGCGAGCAGTTTTTCCGACACCGTTCCTGCCTGCGCGACGC +CGGTCAGATCGCCTTTCACATCAGCCATAAACACCGGCACGCCGATTTCCGACAATGACTCCGCCAGTTT +TTGCAGCGTAACGGTTTTACCCGTCCCCGTTGCGCCGGTAATCAGCCCATGACGGTTAGCCATTCCCGGC +AGTAAAAACAGTTCTGTGTCCGGCGTGCGGGCAATTAACAGGGGTTCACTCATGAGATATCCTCCAGTTT +CCTGCCTGGAGTATAGGCAACGTCCGGCAAAGAGAATACGTGTAATGAAGAGAAAATAACCTAAAGCGTG +TTGCCGTGATAAATCTGATACCCGAGGTCAACAGTGTTGTGGTTGTGATCGTTATTTTTAATTTTGCTCA +GCAACATTTGGGCGGCCATCCGACCAATATCAAAACGGGGAGTAATTACGCTGGCGAGGCTTGGGATCAT +TTGCCTGCCAATCTCCAGCCCATGAAAACCCGCAATGGAAATTTGTTCTGGCACGGCGAGGTTTCGCTCG +CGGCACAGCAGAAGCGCACCCATCGCAATATCGTCATTGGTGCAAAATACACCGTCTAAATCCGGGTTTG +CGCTAAGGGCATCACGCATTAACTGCATTCCTAAATGAATGGATGAGATGGCGCGTGGATTCATGCGTAA +TGGGGAAAGATTATGCAGCATCATCGCATCGCAATACCCCTGATAACGCTGTTCATCGCGGGTGTCATCT +TTGGAACCGAGATACAGAATTTTGTGCCTGACTCGCTTCTCCAGCATGGTACACACCATGTCAAAAGCGG +CCTGCCGATTATCAAAACCGACCTCCATATCCAGCCGTTCTCCCTGTACATCCATCAATTCCACGACCGG +AATGGTGGCTGAACGCAGAAATTTCACCGTCCTGATGGTGTGATATTTTTCCGAAAGTATAATCCCGTCA +ATGTTATAAGAGAGCAGGTTAATCACCGACTCTTCTTCGGAATCGCGATCGTAATTGTAATTAGCAATAA +GGGTCTGATAATTATGCTCAGAGGTGACGGATTCTATTCCCGCGAGAATGTCAGCGAAGAGTTGATTTTG +AAATGACGGAATCAAGATACCGAGGGTATAACTTTGTGCATTCAACAACATGCCGGGAGCGCGATTAGGG +ATATAATTGATCTCTTCCATAATTTTGGCGATGCGCTCGCCTGTTTCCTTTGCCACCTTTTTCGGCGAGC +GGATATAACGACTCACGGTCATTTTTGTTACGCCAGCCAGCGTAGCGATATCCTGTAAAGAAATTCTGTG +ATTGCGCATAACTTCTCCCAACGTCGGGGGAATCTTCAATCTTCCCCCGAAACTACATCACAATATTTTA +TTCTTTCAGTGCAATACGGCGTTAATGGCTAACACGCCCAGCAAACCCATAATAGAAATAAGGGTTTCCA +TCACCGTCCAGGTACGCAACGTTTCACCAACCGTCAGATTAAAATACCCTTTAAATAGCCAGAAGCCAGG +GTCGTTTACGTGTGACGCGATCACGCTGCCCGCACCGGTTGCCAGTACCATTAAAGCGGGATCGGCATGG +GTAACGTTGATAATCGGCAACACCACACCCGCGGTGGTAATGGCCGCGACGGTGGCAGAGCCCAGAGCGA +TACGCAACAGCGCCGCAACAGTCCAGCACATCAATAACGGCGAAAGTGTAGTTCCGGTCATTAAGTGTGA +AATATAGTGCCCGACACCGCTATCTACTAATACCTGCTTAAACGCGCCGCCGCCAGCGATAATAAACACA +ATCATCGCGATAGCGCCTATAGAATCCCCAATGATATCCATGATTTGCTCGATGGTGCGTCCATTACGTC +GGCCCAGTGTGAAAATCGCAATAACAATGGCAATAAACAGCGCAACGGCAGGGTTACCGACAAATTCAAA +GAAGAGGCGCACGGTGTTAGTTTTCGGTAACGTAATTTCACAAACGGCGGCGATAGCCATCAGGATGACC +GGGATCACGGCAGCGAAAATACTGTTCCAGAAGGAGGGCATCTCCTCTTCGCTAAACAGATGAGGATTAA +ATAAGCCTTCCGGTGGTGCTTTCTCAAAGCGAGTTAGCAGTTTAGAAAACAGCGGTCCTGCGACAATAAC +TGTCGGAATGGTAATGATAAATCCATACAGTAAAGTCGTTCCGAGATTAGCCTCAAAGATAGTCGCGATG +GCAGTAGGCCCTGGATGTGGCGGCAGAAAACAGTGGGTTACAGAGAGCGCTGCTACCATTGGTACGCCAA +CATACAACAGGGGTAATCCTGATGATGCTACGATGGTAAATACCAACGGCAACAGCAGGACAAAACCCAC +TTCAAAAAACATGGCGAGGCCCACAACCAGACCGGTGATCACTAGCGCCCATTGCACGCGTTTTTTACCA +AAAGTAGCAATCAGCGTAGTGGCGATACGTTGTGCCGCACCCGTATCAGAAATCAGCTTGCCTAACATGG +CCCCGAAACCGAGGATCATTGCCAGCCCGCCGAGCGTGCTGCCGATACCATTTTGTATAGAGTGCAGGAC +GGCCTGTGCATCCATCCCTTCGGCAAATCCGACGACGGCAGCTACCAGAACGAGGGCAATAAAGCCGTTA +ACTTTAAAGCCGATCATCAGGATAAGAAGCAGCGCGACGCCTGCCGCAATAATGATTAATGGCATAGTCT +TTATCTCTTATTAGTGCCAGAAAAGCAGCGCTTTCGCGCTGCACGTAGGGGGGCTGTTAAACAGCCACTA +ACATGCCGCCATCAACAAACAACAGGTGGCCGTTTACGAAATCAGAGGCTTTTGAAGAAAGGAACACCGC +AGCACCAATCAGTTCCTGCGGATCTCCCCAGCGTGCGGCGGGGGTCCGTTTGCACAACCAGGCGGTGAAG +GCTTCGTCCTCAACCAGTGCTTTAGTCATTTCTGTTTTGAAATAGCCCGGCGCAATACCGTTGACCTGAA +TATTGTGGCGCGCCAGCTCGACGCACATGCCGCGGGTGAGCATTTTTACCGCCCCTTTCGATGCGGCATA +AGGGGTGATGGTGTCACGTCCCAGTTCGCTTTGCATCGAGCAAATATTAATAACTTTACCTGCCTTGCGT +TCAACCATGTGACGAGTTACCGCTTGCGATACCAGGAACACGGCGGTCTGGTTTACTGCGATCACATCAT +TCCACTCTTGTTCAGGGAACTCAGTAAAAGGATGACGGCGCTGGATACCGGCGTTATTCACCAGCACATC +AATGGGGCCGATGTCCTTTTCGATATGTTCAACGGCGGCATCAATTTCATGTTTATGAGTAACATTAAAA +GGTGCGGCAACGGCCTGAATACCCTCCTGGTGGAGTTTTTCTACAGCAAGTTCTGCGCGTTCGGCAGTAA +TATCATTAATAATTATTTGTGCGCCATATTTACCCAGGCCGGTTGCCAGTAAAAAGCCAATGCCCTGTGC +TGAACCGGTAATCAAGATATTTTTTCCTGCCAGTGAAAATAGATCGTTCATTGTATTATTCCTTTATTTA +TCTCTTAGAAAACAAGCTGGACTTTTGCTGCCTGGGTTTTATCACCGGCGAAACGTAGCGCCTCTTCCAG +GTCAGTGAAGGGATATTCAGCACTCAGTAAAGGCAGTGGATTGATAACGCCATTCGCCAGCCATGACACT +GCGGTATTAAATTCGCTGGTAAAACGGAAAGAGCCTCTGAGTGAAATCTCCTTACCAATCAACGTCATCA +TTGGGAATTCTGCCATCGCGCCTCCCATACCTACCTGCACCATTACGCCGCGTGCACGAGTGACCTCCAG +ACAGGTATTCACTGATGAAGGATGACCGGACACTTCAAAGCTGACATCGAAATAGCCTTTTTCCGCTTTC +CAGTGATCCATGTCGTCGTTTTGTGGGTTTACGAGCACATCCGCCCCCATCTCTTTGCCCAGCGAAAGGG +AACGGGGACTCACATCAGCACAGACAATTTCCGCGGCCCCCAGTGTTTTCACTGCACTGACAATCAGGCA +GCCAATGGGTCCAACACCGGAAATAAATACTCGCTTGCCCTGTAACTCGCCGGCCTGATGTGCGGCATGA +ATCGCGACGGCTAAAGGTTCGGCAAAAGCCATAACCTTTTCGTCAGCTTTGGCCGGATAAGGGACACATT +GCGACGTTTCGACCATTTTATAACGGGTAAAACCACCATCAACATGAGGGAAATACATGGCACTGCCAAA +AAAACGCATATCTGTACACTGATTCTCGTTATGTTCAATGCAGTATTTGCAGTGACCGCACGGTTTAGAC +GGATTAATGGCTACCGTTTGCCCTTCATGTAATTCTGATGAGTCGCTATGAATAACTTTACCGATAACTT +CATGACCTAACACCATCGGTGCCTTTATCATGAAATTACCTACTTTTCCTTCCTGATAATAATGTAAATC +GGAACCGCAAATTCCACCTCGGGTTATTTGTACTAATGTTCCATTATTATTCCAATCTATCGTCTGCTCG +GTAACGGCAACAGTTTTCTTGCCCGCAACAACGCAGGACTGTGTTTTCACTTGCATAAATTCCTCACTGG +TCAGGTAGACACCTCGGAAGCATTTAAGCGGTTTTAACTGTCATTATTTGTGATGAAGATCACGTCAGAA +AATTGTTACATTACTATGTTACGCATAACGTGATGTGCCTTGTAATTCTTATCAGTAGAAATAAAAAAAC +GTGAAATTATTATGCCGCCAGGCGTAGTATCGCAGCAGGTAAGATGATTCAGGAGATTTTAAATGGCGGG +TGAAAGCTTTATTTTGATGGGCGTTTCAGGGAGTGGTAAAACATTAATTGGTAGCAAGGTTGCCGCGTTA +TTATCTGCTAAATTTATTGATGGTGACGATCTTCATCCAGCCAAAAATATAGATAAAATGTCGCAGGGTA +TTCCATTATCTGATGAAGATCGACTTCCCTGGCTGGAACGCTTAAATGATGCTTCATACAGTCTTTATAA +AAAGAATGAAACAGGATTTATTGTCTGTTCATCATTAAAAAAACAGTATCGTGATATTTTACGCAAGGGT +AGCCCCCATGTTCATTTCCTCTGGTTAGATGGCGACTATGAAACTATTCTCGCGCGAATGCAGCGTCGGG +CTGGGCATTTTATGCCGGTAGCGTTACTAAAAAGTCAGTTTGAGGCACTGGAGCGTCCACAAGCAGATGA +ACAGGATATTGTGCGCATTGATATCAACCATGATATTGCCAATGTCACCGAACAATGTCGGCAGGCTGTG +CTGGCGATACGACAAAACAGAATATGTGCGAAAGAGGGCAGCGCCTCAGATCAGCGCTGCGAATGATTTT +CAAAAATCGGCTTTCAACACCACGCGGTAACGCGCCTTACCGTCGCGCACATGCTGGATGGCGTCGTTAA +TTTTCGACATCGGGAACAGTTCGGTGGTCGGCGCAACCTTGCTGCGGGCGGCAAAACGCATCAGCTTACG +CAGCTCATAAGGCGTGCCGGTAGCAGAACCAGAGACGCTGCGATCGCCCGCAATTAACGTAAAGGCCGGA +ACAGACAGCGGCGTGAGAACCGCACCGACCGTATGGAAATTACCGCCATAGGTCAGCGCCTCAAAATAGG +GCTGCCAGTCGAGGCTGACGTTGACGGTGTTGATAATGAGATCAAACTGCCCCGCCAGTGCTTTCAGTGC +CTGCGGATCGCGGCTATTCACCACTTTATCGGCACCCATCGCCAGCACTTCCTGCTCTTTCGCCGGATTA +GAACTAAAGGCTGTCACCTCGCATCCCATTGCGTGCAGAAGTTTTATAGCGATATGCCCCAGCCCGCCAA +TACCAATTACCCCAACGCGGCTGGTAGCAGTGATATGGTGCATCAACAGTGGTTTAAAGACCGTGATACC +GCCGCACAACAGCGGCCCGGCGGACTCGATATCAATATTTTCTGGCAGTGGAATCACCCATTGCCAGTCC +GCACGCAACTTCTCGGCAAAGCCACCGCGATTCATAATCGTCGGCACCGCACCTTGCTCGCAGTTGATCT +GATTACCGCTAATACAGGCGTCGCAGTGACCACAGCTACGCGCCGTCCAGCCAATCCCGACACGCTGACC +GACCTGCAAACCTTTATCCTGCGCGGCGCTCCCGAGTGCCACCACGCGCCCAATCACCTCATGCCCGGCA +ACCAGCGGATATTGTGAAAATCCCCATTCGTTATCGATCATCGACAGATCGGAATGGCAGATCCCGCAGT +AATCCACCTGCACTTCAACATCTTGTGGCCTCAGCTCACCGGGATCGTACTCATAAACTTCCAGTTCGCC +GCCCGCTTCTTTTGCGGCATAGCTTTTTATCATCGACATTTTTTGGTCCTTCTCTGGTGTTGTTTGGGAA +GTGTAGAGCATGGCAGGGCGGGGTGCCTGGAGTGTGACAAAGGTTACACATCGCTGTATGCAATGCTGAA +AATTTCAGCACTTAGCGAGGTGCGAGCAAGCTGGCGCTTGCATGGTGGCGTGCGACAGGTATAATCCACA +ACGTTTTCCGCATACCTCTTCAGTGCCGAAGTGGCGAAATCGGTAGACGCAGTTGATTCAAAATCAACCG +TAGAAATACGTGCCGGTTCGAGTCCGGCCTTCGGCACCAAAAGTATGTAAATAGACCTCAACTGAGGTCT +TTTTTTATGCCTGAAATCCAGTGTTTATCTATCTTTCCCGCTATATTAACTCTCTCAAGGTCAACCGATA +TCAACGTACATCTACCAACATATGTTGGTACAGATGATGGTATTTCCGGTTCGATAATGCTTGTACCAAC +AGGGAGGGAATACGATGGCATTAACAGATATCAAAGTCAGAGCAGCCAAGCCAACGGATAAGCAATATTA +GCTGACTGATGGTGGCGGTATGCATCTGCTTGTCCATCCAAATGGTTCTAAGTACTGGCGTTTGCAGTAC +CGTTATGAGGGAAAGCAAAAAATGCTGGCACTTGGGGTTTATCCTGAAATCACACTAGCGGATGCCAGAG +TACGTCGTGACGAGGCGCGTAAGCTGCTTGCGAATGGCGTCGATCCGGGAGACAAAAAGAAAAATGATAA +GGTTGAACAGAGTAAAGCACGAACCTTTAAAGAAGTCGCGATTGAGTGGCATGGCACCAATAAAAAGTGG +TCTGAAGATCACGCCCATCGTGTGCTAAAAAGTCTTGAAGATAATCTTTTTGCAGCGCTTGGTGAACGTA +ATATCGCTGAGTTAAAAACTCGAGATTTATTAGCACCTATTAAGGCCGTAGAAATGTCTGGACGTCTTGA +AGTGGCCGCTCGTCTTCAGCAGCGCACTACAGCCATCATGCGCTATGCAGTGCAAAGTGGGTTAATTGAT +TATAACCCGGCACAAGAGATGGCTGGGGCGGTTGCTTCCTGTAATCGACAACATCGTCCCGCGCTTGAAT +TAAAGCGCATCCCTGAGTTGCTTACAAAAATAGATAGCTATACTGGTAGGCCGCTAACCCGATGGGCGAT +AGAACTCACTTTGCTGATCTTTATTCGGTCCAGTGAGCTGCGTTTTGCTCGTTGGTCAGAGATCGATTTC +GAAGCGTCTATATGGACTATCCCACCGGAGCGGGAGCCTATTCCTGGAGTGAAACATTCCCATAGAGGCT +CAAAAATGCGTACAACGCATCTAGTGCCTCTTTCAACGCAAGCTCTTGCAATTTTAAAGCAGATAAAACA +GTTTTATGGGGCCCATGACTTGATATTTATTGGTGATCACGATTCGCACAAACCCATGAGTGAGAATACG +GTAAATAGTGCGTTACGGGTCATGGGGTATGATACAAAAGTAGAGGTTTGTGGTCATGGCTTTCGAACAA +TGGCCTGTAGTTCATTGGTCGAATCAGGTCTGTGGTCTCGTGATGCTGTTGAACGTCAGATGAGCCACAT +GGCGCGAAATTCAGTGAGGGCCGCGTATATCCATAAAGCAGAGCATCTGGAAGAACGGCGATTGATGCTA +CAGTGGTGGGCCGATTTTCTGGATGTAAACAGAGAAAGGTTTATCAGTCCATTTGAATATGCAAAGATTA +ATAATCCATTAAAACAGTAATCATCCCGGGCAAATGCCCGGGAATTATTCTAGGATTATTTTCTTTGTTA +AAAAAGACAAACGGTATTAACTGATGTATTTACTATTTACCGCTCCCTGCAGGGGGGATTATCAGAATCC +GCGGTTATTCATTATTTATATACATTCAATAAAAAAGTAACCTCATAAAAAATCCTGTACTCACAGGGTG +ATGCGGGATAACTGACGTAAGGAGTGCTGCAGGGATTTGATGGTCCCTTGTAGACTGGCCCCCTGAATCT +CCAGACAACCAATATCACTTAAATAAGTGATAGTCTTAATACTAGTTTTTAGACTAGTCATTGGAGAACA +GATGATTGATGTCTTAGGGCCGGAGAAACGCAGACGGCGTACCACACAGGAAAAGATCGCAATTGTTCAG +CAGAGCTTTGAACCGGGGATGACGGTCTCCCTCGTTGCCCGGCAACATGGTGTAGCAGCCAGCCAGTTAT +TTCTCTGGCGTAAGCAATACCAGGAAGGAAGTCTTACTGCTGTCGCCGCCGGAGAACAGGTTGTTCCTGC +CTCTGAACTTGCTGCCGCCATGAAGCAGATTAAAGAACTCCAGCGCCTGCTCGGCAAGAAAACGATGGAA +AATGAACTCCTCAAAGAAGCCGTTGAATATGGACGGGCAAAAAAGTGGATAGCGCACGCGCCCTTATTGC +CCGGGGATGGGGAGTAAGCTTAGTCAGCCGTTGTCTCCGGGTGTCGCGTGCGCAGTTGCACGTCATTCTC +AGACGAACCGATGACTGGATGGATGGCCGCCGCAGTCGTCACACTGATGATACGGATGTGCTTCTCCGTA +TACACCATGTTATCGGAGAGCTGCCAACGTATGGTTATCGTCGGGTATGGGCGCTGCTTCGCAGACAGGC +AGAACTTGATGGTATGCCTGCGATCAATGCCAAACGTGTTTACCGGATCATGCGCCAGAATGCGCTGTTG +CTTGAGCGAAAACCTGCTGTACCGCCATCGAAACGGGCACATACAGGCAGAGTGGCCGTGAAAGAAAGCA +ATCAGCGATGGTGCTCTGACGGGTTCGAGTTCTGCTGTGATAACGGAGAGAGACTGCGTGTCACGTTCGC +GCTGGACTGCTGTGATCGTGAGGCACTGCACTGGGCGGTCACTACCGGCGGCTTCAACAGTGAAACAGTA +CAGGACGTCATGCTGGGAGCGGTGGAACGCCGCTTCGGCAACGATCTTCCGTCGTCTCCAGTGGAGTGGC +TGACGGATAATGGTTCATGCTACCGGGCTAATGAAACACGCCAGTTCGCCCGGATGTTGGGACTTGAACC +GAAGAACACGGCGGTGCGGAGTCCGGAGAGTAACGGAATAGCAGAGAGCTTCGTGAAAACGATAAAGCGT +GACTACATCAGTATCATGCCCAAACCAGACGGGTTAACGGCAGCAAAGAACCTTGCAGAGGCGTTCGAGC +ATTATAACGAATGGCATCCGCATAGTGCGCTGGGTTATCGCTCGCCACGGGAATATCTGCGGCAGCGGGC +TTGTAATGGGTTAAGTGATAACAGATGTCTGGAAATATAGGGGCAAATCCACCTTGTGCTGATATGAATA +CGGATATTTTATACAGAATACTTTTCAGTACAAGCGACTGTATTACAGTCTGCCATATATGATTACCTGT +GATCAGGAAGAATAAGTGGCTGAGGTTTCAAACTGTCTGCCGGTATATTCCTCTCTCCCTTAAAAACCAT +AACAGGTTAGTTATCTTCGTCTGTCAGCGGATTGAATGGCGGTATATTTTCAGTACAAATACCGGTCATC +CACTGAAAAATACCTGCGAAATGACGGGCACTGATTTTTCTACTGACGGGCTGATGAGACGTTATGTCAC +TGGCGGTAATAATCAGTGGCACACTGTAGCCTCCCTGCACATGACCATAATGATGAACAGGATTGGCACT +GTCGCTGACCGACAGCCCAAGGCCAGAAAAGTAAAGCATGGCGAAATGACGTGAGTACCGGCGAAGGATA +CCATCAAGCTGGCCAAGAAAGTTATCCAGTTTACTGATGCTGGCGAGGTAACAGGCAATTTTTCGGGGAT +ACTGCTCCAGGTAATTATTCGGCTAGGAGTTAAGGCTGTCACACGGATTTGGATGAGAACCCATCATGTG +CAGGAAAATTATCTTCGGAGAGGATGTATCCGCCAGCGCACGTTCTGTTTCCTGTAACAACAGTTTGTCA +TCTGTTTTACGGGAAGCGAAGCTGCCTTTCTTGAGGAAAGTGGCATGCTCCGCATCAGAAGCAATAACAG +AGATGCGTGTGTCATGCTCCCCCAGTTTTCCTTGATTGGATATCCACCATGTGCTGTATCCTGCTTTTGC +TGCCAGCGCCACCACATTGTTGCCGGAATCAGGGTTCTGCTCATAGTCATAAATCAGTGTCCGGCTCAGG +GAAGACACTGTACTGGAGGCTGTCGAGGTATAATCGTCAATAAATAAACCGGGTGCCGTATTCAGCCACG +GTGTGGTTGGTACGGGATAGTCATACACTGACATATAATCCCTGCGCACACTCTCACCAGTGACAATAAC +AATCGTATCATATAACGGTGCTCCCGGCTGGATTTTCCAGTTGTCAGCCCCGTGCTACTCAGTTGTTCAT +AACGCTGCATTTCACGTAATGTGTCAGTTGTCCCCACAACTGTTCCTTTAACCATCCGCAATGGCCAACG +GTTTACAGAGCATAATACGAATAGCCGTAGAGCCAGCCAGTTACGGTGGTCGCGATGGTGTGTCCGCCAG +AAAATCACCACGAATACCAGAATCGCGGCACTGACCAGAAAATGATAAACAGGAAACACGGGGCGGTTCA +CTTTGCTTTCTCCTGTAGTGTTTTCTGTAGGTTCTGAACCGGTTCTAGCGGGGTTGTGAGGCTGATGGCA +ATCGCCGGGCTCTTCCTGCATGTTACACTGGTACTGCAAGAGGGGGCCTTCGCTCCTCTGACATTACTCA +GTATTTTCACTACTACACCCCATCTGCCATCCATAACAACCGATTCACCCCCTCGCGAGGCGTTGTTGCC +CGTCACCCGGACAGACACCGTTATGGACTTCTCTTGTTGCACGATCGATCAATTGTTATGCATGCTGACA +CCACAACCCCGGTGGGTATGACCGATGCCTTTCTCACTCTCTTCCCGGTCATCGTCGGCCTTCCCCGTTA +TTGTGGCGTGTCAGCACCCTCGACGGCATTTCGATGGCTGCTCAGTGTTCACTCACGTTACGGCCCGCAT +AACCCGTTGACTTCCTGAAGAAGTCGTTTCAGGGAGAGATTCAGCCCTTTTGTTACCTCCTGGACCGCTT +CTTGTCCTTCCAGTCGGAGCGAGAGTTAGCCGGGGCGGACTTTCACCGACGGAAAGATCGTGCATTTCAA +GGCACACACAACAATATCTGCGAGCGTGCTATCCGTCCGGTCGTTATGGGACGAAAGGCCTGGTTGTTCG +CTGGTTCACTGGTGGCCGGGAACCGCGCGGCACAGATAATGAGCCTTCTGGGAACCGCAGTCTGGAGCCA +CATGCTTGGCTGACGGACGTCCTGACGCGTCTGCCGGAGTGGCCGGAGGAGAGGTTGGCTGAGTTACTGC +CTCTTGAGGGCTTTACCTTCTTCGGGTAAGTGATACCTGCCGTCAGGTGTTTGTGCACCGGGCCATAACC +TGCAGTTGGGAATTGAACGCCTGACAACAGGAAATGAGCTAGAGCAGTAAACACGCGGGCTGACAATGGG +TCAGAATATGAGTTAGCCCGGCGTTATTCCTGGGGTCAGTACTTCAGATCTAGCCTCCGGTACCAGACTA +GCTAGCCCCTACGCAACCAAATAAATCAACCATCGTCAGAGTGCAATCGTTCATATACACTGTCGGTGAT +GCGCTAAAAAATGCGTTAATGTTGAGTTCCTCGAACCCTTACCAATTAAGGGACATAGCCAGATACGCAA +CTGGCTGATGCAAGCAGTCTAATGTCTTTAGATCCGCTGGCCTGCGGGCATGACAATGTCAAACAGTCAA +AGATTGTGGCGTTGACGGTCAGTCTTGGGGACAAAAAAGCTCAGTATTCTCGTTGGCAACCAGATAATTT +AACAGTTGATGCTGAAACGAAATAGGCATCTTGGTTCTGTAATGCCAGTCAGTTAAGCAACTGACTGGCT +CTTTTTCGGGGCTGTGGGGTATTTCCAGGGCCTCTCCTTTACCACTCTCGGGAAGGCCCTTTCCCTTCTT +GTCGGTAATTTCACAAGTTGTCCCATACTTGCAAGATCGCGCATCAGCTCCGGTATACGTCCCGGTGAAG +CGCCCTGCAATGTCATCAGCATTCTCATCACCATTCCGCATGATTCTGAGAAACTCAGTTGATTCGGCCA +GTAACCTTTCAGATGTTCCGCCATTTTAATCATCTGATATCTCACCAGATTATAAGCCAGTAAGACACCC +CACAGCTCTTGCTCCACAAGCTCCGGCTTTTTACTTCTCAGCGTCAGCCTGCTCCGTTGCATCGTCTGTT +TTATCTCCCTGTATCCCAGTTCGATTTCCCAGCGATGACTGTACAGATCCCCCATTTCTCCTCCGGGGAA +GCGCATGGCGTCCGTCATCGACGTCAGCAGATGGCAGACTTTTCCTTTGCGCGTCACGGTCAGCAGGCGG +GCAGTCACTTCATTTCCCAGTCCCGGCCACTTTTTTCGTGCCTGCGGGCTGGTTTTCAGCTTCACCAGAT +GATCGCCTTTACCCAGTTTTCTGATCTCTTCATATTGCGCTCCCTTTCTGAGAGGTATCATCCAGTGGCG +GTGTTCTCCCGCCAGGCTCCAGGCATTTAACAGTCCCAGTGAGTAATAACCTTTATCCATTAACGTCAGA +GTGTTATCGCCGGTTTGTTCTATAAGTTGCTCAGCAAGCTCATTTTCGCTGTTCTTCATCGTGCCGAAGG +CTGCAGCCGTCAGCAGATGGCTGGTCAGTTCCATCTGGCAGACCATTTTGACCTGCGGGTAGAGCGCCGG +GTTCCCGGCATGTGTCTGGCGGGGGAAGGCTGCATCGTTCTCTGGTGTATCCGGTGTGCGCCAGAACACA +CCATCGATGGCCAGCAGGGTCAGGCCGCACCAGTGCGGATGCGGCGTGGCGTTATGCCAGAGCTGCGCTG +TTTTCGTGAACACGCGGCGGACAGCCTCACTTCCCAGGCGCTGGCGGGCCTGAATAACGGCACTGGGGGC +AACGAAGGGGCGATTGCCCGGCAGCATGATGTCCAGGCGATTCACAATCTGGTGAAGAGGTTCTTTACGC +TCAAGCGCCATGCCAACAATACACCAGACCATCATTTCGAGGGGAAGACGGCGCTTGCGTAGCGTTACAG +TACCTGATTCGGCAAGGCAACGAGAGATGAGTTCGGGGTCGAGGTAATCCCCCAGAGAAGTCAGTGGGTT +ACGCAGAGAATCGTAACGGGATACCAGATCAAGAGCCTGTCCAATGTGCATAAAAAAATCCGGAAACAAG +TGAGCGTTTCCGGATTCTTACACAGCCACTGGATCGGTCAACTGATCCTTAACTGATCGGCATTAATCTT +GGTTCTGGTGTTTGTAACAAACTATCAGCTACAAAAATATGCTCAATTTGTGACATCAGTAACAAAACGC +GTTTTGTTATGTGGATTGCTTGTTTTTTGATCTGGTATAACAGGTATAAAGGTATACAGAAAAGCAAAGA +AATACTGCAAAGGAAAACAGCTATAACGTAAGCTAAAGTAATAACCTCTCAGTCTTTCCTCATTTGACGA +AGGGAGTTTTATTCAACCTGAACGGACTACGAAAATGAGCACAATGAATAAGTCAATTTTTGAAGCAGGG +TTGAACTGTGCCAGTGGTGGAATATCTGGCGAACATTGTTTTTTGTTGGTGACCCAAAACTGTAGGTGGG +TATCAGTTTTATCTTTCATAGAGTGAAATATGTTAAGAAGAAATGGAGGAAAAGATTGTACTGATTAGGT +ATTGATAACAATCAATAGTACTGGCGTATTTGAAGACAATATAATTATTTCTGGATATTGTTGAGGCTCC +CTAATATTTACTTTAAGGGCTATATTAGAATAACACAGGAAACAAATATGGCAACAGCATGGTATAAACA +AGTTAATCCACCACAACGGAAAGCTCTTTTTTCCGCATGGCTTGGATATGTATTTGATGGCTTTGATTTT +ATGATGATATTTTACATTCTTCATATTATAAAAGCAGATCTTGGCATTACGGATATTCAGGCTACTTTAA +TAGGGACAGTGGCCTTCATAGCCAGACCTATTGGAGGTGGTTTTTTTGGTGCCATGGCTGATAAATATGG +TCGTAAGCCAATGATGATGTGGGCAATTTTCATTTACTCAGTCGGAACAGGCCTTAGCGGTATTGCTACA +AACTTATATATGCTCGCAGTTTGCCGTTTTATTGTTGGCTTAGGGATGTCTGGTGAATATGCATGTGCTT +CAACTTATGCGGTAGAAAGTTGGCCTAAAAATCTTCAATCTAAAGCTAGTGCTTTTTTGGTAAGTGGTTT +TTCTGTTGGAAATATTATTGCGGCACAAATAATCCCTCAGTTTGCTGAAGTATATGGATGGAGAAACTCT +TTTTTTATAGGCCTGTTACCAGTTTTACTAGTTCTTTGGATCAGAAAAAGTGCTCCAGAAAGTCAGGAGT +GGATTGAAGATAAATATAAGGATAAATCAACATTTTTGTCTGTCTTCAGAAAACCACATCTTTCAATCTC +TATGATCGTTTTCCTCGTCTGTTTTTGTCTATTTGGTGCAAACTGGCCGATAAACGGACTACTTCCTTCC +TACCTGGCAGATAATGGAGTTAATACAGTGGTCATTTCAACTCTGATGACAATAGCAGGTTTAGGAACAC +TGACAGGTACAATATTTTTTGGTTTTGTTGGTGATAAGATTGGTGTAAAAAAAGCCTTTGTAGTCGGTCT +AATAACTTCATTTATTTTCCTTTGTCCTCTTTTTTTTATTTCTGTGAAAAACTCTTCTCTTATAGGATTA +TGTCTCTTTGGATTAATGTTTACAAATTTAGGTATTGCAGGGTTGGTTCCAAAATTTATATATGATTACT +TTCCAACAAAATTAAGAGGATTAGGGACCGGTCTTATTTATAACTTAGGGGCAACTGGAGGAATGGCCGC +ACCTGTATTAGCTACATACATTTCAGGATATTATGGCTTAGGTGTTTCATTATTCATTGTTACGGTTGCA +TTCTCTGCCTTATTAATTTTGTTAGTTGGTTTTGATATTCCAGGTAAAATTTATAAACTATCCGTGGCTA +AATGATTGGAGGCTTTATGATTAATTATGGCGTTGTTGGTGTTGGATACTTTGGCGCTGAATTAGCTCGT +TTTATGAATATGCATGATAATGCAAAAATTACATGTGTATACGATCCTGAAAATGGAGAAAATATTGCCC +GTGAATTGCAGTGTATCAATATGTCAAGCTTGGATGCTTTAGTCTCAAGTAAATTAGTCGATTGCGTGAT +CGTAGCCACCCCAAATTATCTGCATAAAGAACCAGTAATTAAAGCAGCAAAGAATAAGAAGCATGTTTTT +TGTGAAAAACCAATTGCATTAAGTTATGAAGATTGTGTGGATATGGTCAAAGCGTGTAAAGAAGCTGGTG +TGACCTTTATGGCCGGGCATATTATGAATTTTTTCAATGGGGTTCAATATGCACGGAAGTTAATTAAAGA +AGGTGTTATCGGCGAAATATTATCATGTCATACTAAGAGAAATGGCTGGGAAAACAAACAAGAGAGACTT +TCCTGGAAAAAGATGAAAGAACAATCTGGTGGACATCTATATCATCATATACATGAGTTAGATTGTGTTC +AGCATTTACTTGGAGAAATACCAGAGACGGTTACTATGATTGGTGGAAATTTGGCCCATTCTGGTCCAGG +ATTTGGCAATGAAGATGATATGTTATTTATGACCTTGGAATTCCCGTCAGGAAAACTAGCAACCTTAGAG +TGGGGGAGTGCATTTAACTGGCCGGAACATTATGTCATCATCAATGGAACTAAAGGCTCTATTAAAATTG +ATATGCAAGAAACAGCAGGGTCACTTAGGATTGGCGGTCAGACAAAGCATTTTTTGGTCCATGAAACACA +AGAAGAAGATGATGATCGTCGGAAAGGCAATATGACCTCAGAAATGGATGGCGCTATAGCATATGGTCAT +CCAGGAAAAAAAACACCATTATGGCTTGCCAGTTTAATAAGAAAGGAGACGTTATTCCTCCATAATATCC +TCTGTGGTGCAAAACCTGAAGAAGATTATATTGACCTTCTCAATGGTGAGGCGGCCATGTCGGCGATTGC +TACTGCTGATGCTGCCACTCTTTCAAGATCGCAGGACAGGAAAGTGAAAATCAGTGAGATCATTAAACAT +ACATCAGTAATGTAAAAACTATACGCCTCTTGATTTAATTCAGGAGGCCTTTTATGTATGATCAAGAATT +TTATCTTCGATAATCTCATAATTTTAGCAGTGCCATTTATGATAAAAACATCCCTTAAAACCAATCTAAT +CTTTTTCTTCCTCTGTGTATTTGTTCCCCATATGGCGTCATAATTTACGCTACGTAATACGGGATAGTTA +CGATACGCAGCGATAGCGCTAAGTTTTAGTTAAAATCCCCCATCAGCGGGATATGGGGATCTCTGGGAGG +TTCAGGTTTTAGCATCGCGACTTTAATACGACAGACGCTGGTGACGATGATGCCAAGTAGTGACTCTTCC +GAATAAGGTTCCCACTGACCAATTGGCGCGCGCTTCGCAATAAAATCTCCCTTCGCCCAGTATTGGGAAA +AGTAGATACATTCAAACTGTGTACGCTGTTTCGTCTCACAGTTCACGACATTGCTGGCCGATGAGCTGAC +CATTGGGCCTATCCGGGCTGTCCCGATGGATATTACGCCGAAGTATGTGGGAATTGCCAGCGGATTGATG +AACGCCGGTTCCGCTGTCGCCGACATTATTTCACCTATCGCCTTTGGCATTATTATCGACAAAACAGGCA +ACTGGAGTTTACCATTCTACGGTTCCGTCGCATTGCTTGTTATTGGTATATTCCTGACGTTCTTCATGCG +TCCAGATAAGTCATTGTAAAAGTCGAATCAGGGCTGAAGTGGCACACTGAATTTGGCCACCTGAACAGAG +GTGATATGCTCACCTCAGAACAACACAGGTGCTCCAATGAAAAAAAGAAATTTCAGCGCAGAGTTTAAAC +GCGAATCCGCTCAACTGGTTGTTGACCAGAAATACACGGTGGCAGATGCCGCGAAAGCTATGGATGTTGG +CCTTTCCACAATGACAAGATGGGTCAAACAACTGCGTGATGAGCGTCAGGGCAAAACACCAAAAGCCTCT +CCGATAACACCAGAACAAATCGAAATACGTAAGCTGAGGAAAAAGCTACAACGGATTGAAATGGAGAATG +AAATATTAAAAAGGCTACTGTAGATTCAATCTGTCAATGCAACACCCCTTTCAATTATCTCTTTCGGTGT +TTTGAACTTCAGTGTCTTTCTCGGTCTGTTGTTTAGCTGAGCAGCAACCAGATCTAGTTCATGTTGAGTA +TATTGGGCAAGACATGTCTTTTTAGGAAAGTACTGCCGAATTAGCCCATTTGTGTTCTCATTTGTTCCCC +GCTGCCAAGGACTCTGAGGATCGCAGAAGTAAACTTTAACGCCGGTGCTGACAGTAAATTCTAGATGTCT +GGCCAGTTCCATTCCTCTGTCCCATGTCAGTGATTTTCTGAGTTCTGACGGTAAACTCAGGAATTTGTCG +GTAAGAGCCTGATTTACTGAGACAGAATCTTTGCCCCTGAGTCTAAGGATGATCGTATAACGTGATTTTC +GGTCTACAAGTGTGGCTATATGAGAGTTTTTTGTACCTGAGACTAAATCGCCCTCCCAATGCCCTAGAGA +GCGTCTGTTATCGATATTTCGGGAACGTTCGTGAATTGGTGTTCCGTTCACTATGTTAATCGTACCTCTT +TCGCCTTTGCGGGTATGACGCCTGCCATGGCGAAGGCTATGCGACCGTCGCAGATGCTGTATATTCAGGT +GGTGTAGCGCTTCACGGCTACGAAAGTACAGCGTTTTATAAATTGTCTCAGGTGATATTCGCAGCGTTTT +TTGACGTGGTTTTGTTCGCCTTAACCATCCTGATATTTGCTCTGGAGACCATTTCATCTCCAGCTTTTCC +AGAACAAGCTTTCGCAATGGTAAATTTTGATCCAGTAAGCACGGTTTTGGCCTTTTCGCCATTCTGTTGG +CTCGGTTATTAGCATCAACAGCTTTGTAATAGCGTCTGCCCCGATTACGCTGAACTTCACGTGAGATCGT +CGAAGGACTGCGATTCAGCGCAGTAGCTATCGCACGAATGCTCATTTTGGCTGACAAACCAGCTCGTATC +TCCTCGCGCTCAGACAGTGTCAGGTGAGCTACAGCCCGCTTACGCTCATGGGGTTTTATGCCGCCAGTAT +CCCTTAACATAGTGAAGATCGTTCCGGGTTTTGAACCCAGGATATTCGCTATTTCACTGAAGCCTGTTCC +GTTCTTCCATAGTTCAAAAACAGAGGCTTTTTCCTCTGCTGTAAATGTTCGTCTCATTCAAAAAACCTCC +GCAACCCCATGTTTTCACATAACTGTTGCGTTGACCAATTGAATCTACAGTTGCTTTTTTTAATATATCT +CGCTCAAGGCGAGCTTCATTTAACGCCTTACGCAGTTGCAGAATTTCAGATTCCAGTTCAGCCACCGTGC +GGGAACCAGGAGTACCGAGCCCTTTTCTGGCGGCGGTAACCCATTGTCCTAAAGTGCCTTCAGGAAGAGA +TAATCGGGAAGCGCCTTCACTGATCGAAAGTTGATTTTCAAGAACCGTTCTGACAGCTTCGGCTTTGAAC +TTTTTAGAGTAACGTTGGGTTTTTCTGCTCATTATTAGCTCCTTCTGATGCCATTCTATTTCAGGAAGGA +GTGTCCGTTAAACTCAGGCTACCTCAGGAAAAACCGTCCTGAAAAACCAGACGGCAGACGGGCTGTATTA +CGCAGTCAGGTACTTGAGCTACATGGCATCAGCCACGGTTCGGCCGGAGCAAGAAGCATCGCCACAATGG +CAACCCGGAGAGGCTACCAGATGGGACGCTGGCTTGCTGGCAGGCTCATGAAAGAGCTGGGGCTGGTCAG +CTGTCAGCAGCCGACTCACCGGTATAAACGTGGTGGTCATGAACATGTTGCTATCCCTAACTACCTTGAA +AGGCAGTTCGCCGTGACCGAGCCAAATCAGGTGTGGTGCGGTGATGTGACCTATATCTGGACGGGTAAGC +GCTGGGCGTACCTCGCCGTTGTTCTCGACCTGTTCGCAAGAAAACCAGTGGGCTGGGCCATGTCGTTCTC +GCCGGACAGCAGGCTTACCATGAAAGCACTGGAAATGGCATGGGAAACCCGTGGTAAGCCCGTCGGGGTG +ATGTTCCAAGCGATCAAGGCAGTCATTATACGAGCAGGCAGTTCCGGCAGTTACTGTGGCGATACCGGAT +CAGGCAGAGTATGAGTCGGCGTGGAAACTGCTGGGATAACAGCCCAATGGAGCGCTTCTTCAGGAGTCTG +AAGAACGAATGGGTGCCAGCGACGGGCTATGTAAGCTTCAGCGATGCAGCTCACGCAATAACGGACTATA +TCGTTGGATATTACAGCGCACTAAGACCGCACGAATATAATGGTGGGTTACCACCAAACGAATCAGAAAA +CCGATACTGGAAAAACTCTAACGCGGAGGCCAGTTTTAGTTGACCACAACAGACTACCTGAAGGGAGCCG +CGGTCGCCTGGCAGTTGCAGTAGCAGGAGATCATCCAGCCGCAGTACAGGTCACGATGACTCTGGTTAAT +GATACCGGCTTTGACCCCGTATTTTCCGGCTCTATCGCTGAATCATGGCGTCAGCAGCCGTGCACACCAT +CCTATTGTTGTGACTGGGAGGCTGCCACCATGCTTCGCGCTTTCCCTCTGGCGAAAAAGGGAGAAGGACG +GGCCCGTCTGCCTTCACTTTATGCCAGCTTCGGTAAGCTGGGTGAGACACCGACTCATGAAGATATCATT +GATAACAATCGATCCATCAACTGGCCTGTATAACGTGGCTGCCGGTGATTAAGAAAGCTGCACCTACCTA +AGTAGTAGCAAACGCACACTTTTTAGAAAAATCGATGGTCAGAAACTGGATTAGCAATTCCGTTCCATGG +TTGCTTTTGATTTACGTTGGCGTCTGATCATTGATTTATCCTCAAAAGCCCAACCTCATTGGTAATGAAC +CAGCTCCGTGAATGTCCGCTCTGGCACAGAGCGAAATTTTTTGATCTCCCCCCTGAAATCTAAACTTAGT +CATGTCACGTTTTTGGGTTTCTAAAATTTTAACTTCGCGTTTTTCGTTGCCGTAAGGGTTATACAGAAAT +GTCCGTTAAGCAGAGTTCAAAATTGATTGCCGTGATCACGACTGGTTTGAAAGCCGCGCCCAAGCCTGTA +CAGCTCTGGTTTGCGTTGATTATGAACCTGTCAGCCTAAAGCAAGCGGATGGACGATGAGTATTGGTAAT +CTTTCAGAGTCCGGAAAAGTTCAGCCCCAGTCTGAACAGGCTTGCTGGCGCCAGTCCAGTTTCATTCAGT +CGTGGTTTGGTTCTTACGGCCTGTGCAATCTACCTCATTAGGCACATCGGCCTGCCAGATACCGGCTCGG +GGTGTATTTCCGCTTCCACGCTGAATACTGTTCTCAGCAATCCTGGGGTCATCACCTCTTCTGGTGTGCC +TTGCGCCATAACATGTCCGTTTGCCATTACCACCAGTTGATCGCAGTACCGGCTAGCCTGATTAAGGTCG +TGCAGCACAGCGACCACCGTTTTCCCCTGAGTCCGGAGTTCGCCCATCAACCGCATCAGGTCCACCTGGT +GATTGATATCAAGATAGGTGGTTGGCTCATCAAGTAATACAACGGGCGTATTCTGGGCCAGGACCATTGC +CAGAAATGCGCGCTGGCGCTGACCGCCGGAAAGCTCGGTTAACCGACGAACGGCAAGATGATTGATCCGG +GTCTGGTTCATGGCGACATTAACTCGTGCATTGTCTTCAGCGGAGAGACGCCCCCAGAGTGACAGCCAGG +GATTACGACCATACGAAACCAGCTCCTGGACTGTGATCCCCTCTGGCGTTAAATGGTGCTGAGGCAGCAG +CGAAAGCCTGCGGGCCAACTGGCGCGATGAGAGCATATTTATGGGATTATCGCCGAGAAATACGGTGCCA +GACTGCGGCATTAAAAGCCGCGAAAAACAGTTTAACAGCGTCGATTTCCCGCAACCGTTAGGACCGATCA +GGGCGGTGATCTTCCCCGTTGGCAGTGAGAGTGAAACGTCGTTAAGTACCTTGTCTGTCCCGTAACTGAC +CGTCAGATTTTCAGTTCGTAAAGTCATTTATCGCATTCTCACAAGCAACCAGACAAACCACGGCGCACCG +ATAATGGCGGTCAGCACGCCAACCGGGAGCTCCAGTGGGGGATGAATAATTCTCGCCAGCAGATCGGCAA +CCACCAACAGCAACGCACCTGTCAGGGCCGAAACAGGCAGCAGTCTGCGGTGACGTCCACCGGTGATGCT +ACGCATCATATGCGGCACCACGAGACCAATAAAGCTAATCGGGCCGCAGGCGGCCACGCCGGTAGATGTC +ATGGCGACAGCTAGTAACAAAGCCCAGAATCGGGTATGGGGCACCGACACACCGAGCGTGGTGGCGCGCG +CATCGCCGAGTGCAAGGAGGTCGAGATCGCGGCAAAAACTCAGGCTCAGCGGCAGAAATAAAATCATCAG +CGGGATGGCAATCTTCACAAAGCTCCAGTCACGGCCCCATAAGCTGCCGGTCAGCCACAGCAGGGCGTTG +TTCACATCCTGCGGGCGCGAGAGCATCAGATAATCCGTCAGGCTGGCCCAGCATGCAGAAAGCGCCACGC +CGGTGAGCGCCAGCTTCATCGGCTGGTGGGTCTTTGCCAGCATCTTCAGCAATATCAACCCCGCCATGCC +GCCCGCAAAGGCCAGCAGCGGCAGCACCATCACGGGCAGTGACGGCATAAGAAGTAGAGCCCCCACAGAG +GCCAGGCTGGCGGCATGGTTAACACCGAGAATATCCGGTGATGCCAGAGGGTTGCGCACAATCCCCTGTA +TCAGCACGCCCGCCACGGCGAGGGCTGCACCGACAAACAGTGCCAGCAGCAAGCGCGGCAGTCGGTACTC +CATCAATACATAATAATGCTCGTGTCCGGCCTGCCAGTCGGTCAGCAGCGCGCGCCACGGCACGGGGATC +ACTCCCATATGGAGTGATAACAGCGCACAGCCCGCCAGGGCAAGGGTGATGAAAATAACCAGCGCAATTT +TCATCCTCGCCTCCTCACAAGCCAGACAAAGCAAGGGCTGCCAATCAGCGCCAGCACTGCGCCTGCGGGC +AGATCTCCGGGGAAGGCCAGCGCGCGTGCGAGTACATCTGCCAGCAGCATCAGCGTGGCCCCCAGCAGCA +TGCTCACTGGCAGTACGTTGCGCTGATCGAAGCCTGCCCAGAAGCGCGCCAGATGTGGCACCAGCAGACC +GATAAACGCCACCGGACCTGCTACGCTGACGCACGCACCAACCAGAAGCAGCACTAACATATTGATGACC +AAACGTAGCCTCGTCAGGTTCACTCCCAGCGTATGGGCGGTGCTGTCGCTGAGGTTGAGCAGGTTCAGTT +GATTCGCCAGCAGCAACACGACAGGGACTGCAGTGACCACCACCGGCAAGAGCTGCCAGACATCCTGCCA +GCGGGCGTGGGACACTCCGCCTGCCAGCCAGTAAAAGATGCCGTAAGCATGATCTTCGGCCAGCAGCAGG +GTGATGCGGGTAAGGCCCATACAAAAGGCCGACAGCGCGATACCCGCGAGGATCAGTTTGTTTCTGTCAT +GGGTATGACGAAATCCGCCTCCTGCGGTCATGACCAGCAGCCAGCTCACGCCGCCCCCGCATGCCGCGAT +GAATGACAGAGAATAGCCTGCAATCGGCGTCGGACTCAGCGCGCTGGTAAGCGCCATAGCCAGCGCCGCG +CCGCTGTTAATGCCGAGCAGTGAAGGAGAGGCCATTGGGTTGTGGGTCAGGGTTTGCAGCAGCGTGCCCG +CGAGCGCCAGGCTTGCGCCGATCAGAACGGCGACCAGGCTTCGTGGCAAACGAAGGTTTTGCACCAGCGC +TTCTGGTAGCGTTGGCGTGTGTCCAGGCAGCAGGGCGCGGGTTGCATCTGCTCCGGAAACAGGAATGGCC +GAGTAGCAAAACAGACTCAGCCAGAAAATAATAATAAGTGCTGCAACGGGAAGCCCCCACAGCAGCACCG +GGTGTTTTATCGCGGTCATTTCACAACGGTAAGCGGCTGATGGTGGAAGATTTTTACCGTGTCAGCGGCA +ATACGCTCTGCAGCAAAAATACCGCGCATCCGCGCCCAGGTGTTACTGTCGACCGAAGCAACCTGCTGCT +TCTGCGCGGCGGTTAACATCTGCCAGAGCGGATCTTGTTGCCAGCGTTTAACAATGCTCTCTTCGCGATA +GTGGGCAACCAGCAGCCAGGCAGGATTGACCGCCAGCAGTTGCTCCAGGCCGATGGACGGCATGGACGCA +CCCGCCATCGCAGCGGGAACGTTCAGCCCCAGAGAGGCCAGCACGCTGCCGGTCCAGGTCTCCTGAGTAT +GCAGGTTGAATTGCTGTTCGCGTGATGTGCCAAAGGCCACGCGTGTCCCTTTGGGAAGCTGGCTGGCCCA +CTGCGCCATCCTCTCTTTATGTTGTTCCAGACGTGCCTGCATCTCTCGCTTTTTACCCACCATTTCGCCG +ATGATAGCCGCAGATTGCAAATTTTCAGCGTAGGTTTCGTTGCGGGACTTAAGCAGCAGTACCGGCGCGA +TTTGCTGCAAGGCGATGTAAACCCCCGCATGGCGACTGCTGTCGGCAATGATCAGGTCTGGTTTCAGAGC +GGCAATGGCTTCCAGGCTCGGCTGCGCGCGCGTTCCGACGGACTGCCACGGTTTCAGGTGCGCACGCACT +TCGGGCAGGATGCGTTTTGCATCGTTATCGTCGGCAATACCGATCGGGATGACGTCCACGGCGGCCAGCG +CATCGGCGAACGAGAGTTCCAGCACCACAATCCGTTGTGGCGTTTTTTCGAGTGTAAACGTGCCGTGTTC +GTCCTGAACCGTGGCGGCAAAGGCGTGGCTGATCACCAGCAGCAGGCCTGCAAAAAGAAAACGGATAAAT +GCCAACATAATCACATTCCAGCTAAAAGCCCGGCAAGCCGGGCGTTAACACATCAGAACTTCAACGACCC +CTGCATATACAGCGTGCGCGGCTGGCCTGCATAGATGCCTTTGTTGTTGTCGTCATAAGAGCGGATGAAG +TAGTCCTGGTCGAAGATGTTTTTCACACCGAATGCCAGGTTCAGATCTGCCATCTGCGGGCCAAAGTCAT +ACGCCACGCGTGCGCCCCAGAGCATGAAGCCGGGAATGCGGCCGGTACTGCCGTCGGCGCTCTCTTTCAC +CGTATTGGCGTTATCCGCAAACTGGCTGGACTGGAAATCGCTGTTCAGATTGAACGTCCAGTTTCCTGGC +TTGTAGTCCACGCCCAGCGTGCCTTTATGTTTCGGGGAGAATGGTACCAGATTGCCGTAGGTGTCGCCTT +TCTCGCGGATTTCCGCGTTCACATACGCATAGCTGGCGTAGATGGAAACGTTATCAAGCGTTGGCGTTAG +CGTACCCAGATCGTAACGTGCCTGCGTTTCCAGCCCGGTATGGCGCGTTTTGCCACGTGCAGTGACGGTG +TCGTTGGTCTGGTTGGAGTCGTACTGATTGTTAAAGTTAATCAGGAACAGCCCCATTTCCGCCGTCAGCG +CGCCGTCGTCGTAGCGGGTACCGAGTTCCCAGGTTCGCGCTTTTTCCGGTTCAACATTGCCGCTTTGCAC +AGCCTTGCCAATCTGGCTGTACTGTACGGTGCCGAACGAGCCTTCAGTGTTTGCATAAAGATTCCAGCTG +TCAGTCAGGTGATAGAGCACGTTCAACGCCGGAAGCGGTGCGTTATAGCTCACTTCTTCGTGCGTGCCTG +TGATGGCGTTGTTCTGGTATGACTCGATATGTTCGAAACGCATACCCGGCGTGATGGTCCAGTTGCCGAT +GTCGATTTTGTCATCCAGATACCAGGCGTGCGCCTCGGTGCCGGAACGCGTATCGCGGTCGTAAGGGCTT +GAGCCGGACGGCAACTGCCCGCTGCTGGTGGCGGTGTAGTAACGCATTTCATGCGTTGATTCATTCAAAT +AGCGATAGCCCACGCCCACTTCGTGCGCGGAAGGGCCGATCATAAAGATCTGGCTGTAGCGTGGCTCAAT +ACCGCGCACCCAGTAGTTACGCGGCGAGAGGGTGATGCGTTTGCCTTGCTCCAGGTAGCCGCTGCGCAGG +GTTTGGGTGTAGAACCCCTGAATGTTGAATTTATGCTGGCTGTCTGGCTGGAACTGGTAGCCCAGGCTCG +CCAGCTTGCGACGACCCCAGAAGCGGTCATACGGGCGGGTGGATTGCCAGCGATCGGCGTCGTAATCCGC +GCGAGACAGGCCACCGGGCATGTCGGCTTCACCGTCGTAATATTGCAGCAGGCTGTTGAAGGTGTGCACC +TCATCCGGCGCATATTTGCTTTTCAGCATCAGGTCGTCGATGCGGGTGGCGCTGTGCTCGCGCCAGTCAC +TGCCGCGCGTGCCGGAGTAGAGCAGCGCGGTGCCAAAACCGTTGTCCGCTGTGCCGCCCACCATCAGGTT +GTGCGTCTCTTTCGGGTTGTTTTGTGAAGAGGTTGGGCTGAGCTGACCTTCCACGCCCGCCTCGATACCA +AAGTCCTGCGGAATGGCACGGGTAACAAAGTTCACCACGCCGCCCACGCTCTGCGGTCCGTAACGCACCG +CACCACCACCGCGTACCACGTCAATGGCATCCATGTTGCCGAGCGAAACGGGAGCCAGTGAAAGCTGCGG +CTGACCGTAAGGGGCGAAGGGGACGGGGATGCCGTCCATCAGGACGGTCGAGCGGCTGGCGAGGCGCGGG +TTCAGGCCCCGGATGCCAAAGTTCATCGCCAGGTCGTGGCTGCCGGTGCCGTTGTTTTCCGGCGCGCTGA +CGCCAGGGATGCGGTTAAGTACCTCACGCATGGTGGTTGCGCCGGTTTTGGCGAAATCCTCACGGCGGAT +CACGTCACGCGCGCCAGCATGTTCAAATACGTCGTTTTCACGCGCATCACCCAGCCAGTCGCCGACCACG +GTCAGGGCATCTTCTTTTGGTGCGGGCGCGGGCTCCAGCGTCCAGCTGTTATTTCCCAGCGGTTTTACCT +GCAGTCCGCTGCCGTCCAGCAGTTGTTGCAGGCCGCTCTCGACGTCGTAATCGCCGTGCAGGCCGTTGCT +CTGCTTGCCGCGCGTCAGGCTGGCGTCAACCGAGAGGGTAAATCCGCTGTGTGCGGCATACTGATTGAGC +GCTTTATCGAGCGATCCCGGTGCGATATTAACCTGTGCAGCAAAAGCGGAAAACGAGAGACCGGCCAGCG +GCAGCAGGCTCAGGCGAATGGTGTTAACCAAAGGTGTTGTTTTACGAAAAACGCGTAACGGCGTCATACC +TTCCCCATCATCATTTTTGTTGTGTTCAGCTATGAGTCGAACGAGAAGGGTAAAAAGGACAATCGAAATA +AGAATTATTTTCCTTACAGTGGTGAAATGTTTATCCAGTACCGCGTAATAGACTGAATTTTAACGGGAAG +CGTTTGCGCGATAACGTTCAGGATCGCATCGGTATTTTTCAGCGGGAACGTCCCGCTCAGGCGCAGCCCG +GCAACGGCGGGATCGCAGCGCAGCACGCCGTTGCGGTAACGGGTTAGCGTGGCTATCACCTCACCCAGCG +GTTTATCGCTGAAGCTCAGGATGTCCTTCGTCCAGCTTGTACTCTCGTCATCCAGCGGTTTCACTGCGCC +AAACTCAGAGGCGCTGAACTGCAGGCTTTCACCAGCGTTCACGATGCGTTTTTGCGCGGGGGCACTGGCG +AGAAGCACTTCCACAGCGTGCTGCTGCACGTCAAGCTGCGTGAAATTATCCTGCTGGCGGACGGTAAATT +CTGTCCCTAAAGCAGTGAGCTGGCCCTGACGGGTCAGGACACGGAAGGGGCGTTGCAGGGCATCTTTCGC +GGTAGTAATGGCGATTTCACCGTACCAGAGCCGGACGGTGCGCTGATGCGCATCAAAACGCACATCCGCC +GCGCTTTGGGTATTCAGCGTGAGCAGGGAGCCATCTTCCAGTTGCTGACGGCTGACTGTGCCTTTGGCGG +TGCGGTAATCTGCCCGCAGACCTTCGCCGGTTTCCGACTGCCAGAGCTGCCAGCCTCCGCCAGCGCCGAG +CAACAGCAGTAATCCTTTCATCACGTGACGGCGGGTGAGGCGGGTATCGTGCAACGCCCGGCTGGCAACG +TCGCCAGGCACACCGCCAAGCTGGTTGCGCAGGTTTTCAACCTGCTGCCAGGCCCACTGGTTATCCTGAT +CCTGTTCATACCACTGTTGCCAGCGCGCTTCCTGTTGTGGGCTGACGCGCTCGCCGCTTAGCACGGCATA +CCAGTGGGAAGCTGAACGCAGCGCCTGACGGCGGGAATCGGTTAACAAAGGATTCATAACCCATACTCCA +GACGGAACAGCAGGCAGTGCTCGACGGCTTTCGCCACGTATTTTTTCACGGAGCTGATGGAAACACCGAG +TTTGTGCGCAATCTCGCTGTATGTCAGACCATCCAGTTGCGAAAGCAGAAACGCTTCACGTGTTTTGCCG +TTTAGCCCGTCCAGCATGCTGTCGAGGAGTTGTAGGGTCTCGAGTTGGCTTTCGCGTTCCTCAGGTGAAG +GCGCTCCCCCCTCCGGCATAAGCGCCAGCATCTCCAGATACGCTTTTTCCAGCGCGTTTCGGCGAAACAG +GTCCACCATCACGCGTTTGGCGATAGTGCAGAGGAAGGAGCGAGGATCGCGGATCGTCGAGAGCGTTTCG +CTGACCATTACCCGCAAAAAAGTGTCCTGGGCAATGTCATCTGCATCAAAAGCAGACTGGAGTTTGCGCG +TCAGCCAGCTTTTCAACCAGCCGTGATGTGTGCCATAAAGCGACTCGAACGTTAAGGAAGCTGTGGTAGT +GGCGCGGTCAGACATGCGGAGTGCATCAAAAGTTAATTATCACGTAGTCATATTAATATGAGAATGGTTA +TCATTACAATTGGAAATAAAATTGTTTCCAATAGACATTTTTAACATGTTGTTTTTCTAAGTGTTATAAG +GTAGGTATAAAATGGGATGGAGCCTCTGCTTCTGGCATGTGTCGGTCAGAATGACTCATGATGTGGTCTG +CTATTATTGACATCCTCACTGCCCTAAAGGATGGGGATTTCGGTAATGCTGCCAACTTACTGATTTAGTG +TATGATGGTGATTTTAAGGTGCTTGCGTGGCTTCCATTTCCATCAGATGTCCTTCCTGCTCCGCTACTGA +AGGCGTGGTGCGTAACGGCAAAAGCACTGCCGGACATCAGCGCTATCTCTGCTCTCCTTGCCGTAAAACA +TGGCAACTACAGTTCACTTACACCGCCTCTCAGCCCGGTAAGCACCAGAAAATCATTGATATGGCCATGA +ATGGCGTCGGATGTCGCGCCAGTGCACGCATTATGGGCGTTGGCCTCAACACGGTTTTACGTCACTTAAA +AAACTCAGGCCGCAGTCGGTAACCTCGCGCATACAACCGGGCAGTGATGTGATTGTCTGCGCTGAAATGG +ACGAACAGTGGGGCTACGTCGGTGCTAAATCACGTCAGCGCTGGCTGTTTTACGCGTATGACAGGATACG +GAGGACGGTTGTGGCGCACGTCTTCGGTGAACGCACTCTGGCCACACTGGAGCGTCTTCTGAGCCTGCTG +TCGGCCTTTGAGGTCGTGGTATAGATGACGGATGGCTGGCCGCTGTATGAATCACGCCTGAAGGGAAAGC +TGCACGTTATCAGCAAGCGTTACACTCAGCGCATTGAGCGACATAATCTGAATCTGAGACAACATCTGGC +AAGGCTGGGACGGAAGTTACTGTCGTTCTCAAAATCGGTGGAGTTGCATGACAAGGTCATCGGGCATTAT +CTGAACATAAAACACTATCAGTAAGTTGGAGTCATTACCGACCATGTTTATTTCATACATTGTGGGTATT +GTTCTTATTATCGCCGCTAATCAATAAAATCCTGCCCCATATCTACATGGGGCAGTTGTTCATTCTTTTA +GTGTGGTAATTCACACGCCAGCAAAAACTCTGCCGTTCCTTCATCAACAATCAGGTCCGTGACATATCCT +CCCAGCAGGGCACCCAACGTTGCGTCATAGCCTCTTTCCCCACCAGCAAGGAAGATCTTCCGTTCAATCT +GCCTTAGCTGAGCCAGACTGATTCCCAGAATACGCTGGTCAACATCAGCCACGACGGGCATCCCTTCCTT +GTCATAGAAGCGACCACAAATGACACCTACTGCGCCTAAATCCCGATACGTCTGCATTTCCTTCTTATTC +AGCACGCCCACCCGAATCAGGGGATTTTCATCAAGCGCGTTACCCACGACAAAAAAGGCTTTCGTACAGC +GAGTCAGAACGTCAAAATTCGATCGAATAATAGGCTCTGCCTGTAACTCCATGGCCAGTCTGGCGCTTGA +TACCACGGCGGGCACGTGCAGCGAGGCGACACGGCCTGAAAGCTTGTAGGCGATTTGCGATGAGGATTCA +ATGATCGTCAGGTCTGGCTGAGATGGCATGGAACCGAGCATCTGTATAACGGTGACATTTTTACATGACT +TCGGCGTCATGGTTTTGCTCATCTGATGGATTGTTCTTCCCCAGGCAACCCCCAGCACATCACCATTCTC +AATCACCTGATTCAGATACATGCCACCGGCACGTGAAAGGCGAGTCCGCATCAGCTTTGTATCATCACGT +TTTCCGGCATGTTCGCCATCCGGCACGATGATCACTCTCTGGAGATTGAATTTATCGCGAATTTGCAAAG +CAGCGTCGATAGAGCCAAAGACATTCACATCCAGGTTGATATGAACCAGTCCATTTTCCCGGGCTGTTTG +CAGGTATTTGACAACCGTGACGCGGGACACCCCCATGATAGCTGCAACTTCAGTCTGGCTTTTGCCTTCC +TGATAGTACAGCCATGTTGCATGAAGTACGGGATCATCATTGAACAGGCTGCTGTTTGTTTGATCTCTAT +CCACTTTTGTATACCTGTATTAAACCGGGGAAATGCTCATCTTAACCCTGTTTACCCGGAGAGTTGATGC +AGATTGCCAGTGGCATGATTTTATACAGATATTTTATTCTTTTACATGAAATAAACCAGCATACCATTTG +AGCGATCGCCCGCTGTTCCCCCATACTGTAAAGCCGGAGACATGCTCCGGCTTTACAGTATTACTGAGAA +TACACCCATCAAGCATAATCGAAGGTTCAATATCGCCCCTTTTTGATCGCCAGCGATTCGTCACCGTGCA +GACGGTTGCCGTCACTCACTAAATTATGGGGGACAGTGAACAACAGGTTGGCTCACTGGCAAGAACCCGA +TTATAAAACTAAGCTGGCGAGCAGAATAAAAATCAGCCCACTGATGGATAAGAGTGTGGACATCAGCGTC +CAGGATAACAGCGTTTCTTTGGTGGTCAGGCCAAAAAAGTCTTTAATCATCCAGAAACTGGCATCGTTAA +CGTGAGAACAAATACAGGATCCGGCACCGGTAGCCAGCGTAATCAAGGCCAGGTTGGTATTGGGATGTAC +TGCCAACAATGGGATGACCAGACCGGCGGTAGAGATCGCCGCGACGGTGGCTGAACCCAGACAAATACGC +AGGAATGCGGCCACGCCCCAGGCCATCAGGATCGGGTTAATATCCATACCCGAAACCAGGGTGGAAATAT +ACTGACCAACGCCAGAGTCGATGAGAACTTGCTTGAATGCACCACCACCACCGATAATCAGCAGCAGACC +GGCAATACCCGCGATAGCTTTTCCGCAAGAATCCATCAGGTCAGGGATTGTTTTCCCGCGCCCCAGGCCC +ATGGTATAGATCGCGAATAGCAGTGAAATCAGCATGGCGATCGTTGAATTACCTAAGAACAGTATCACGT +TGTAAAATAAGCCTGAATCCGCGGCACTTTTGGCATGAGTCATCTGGATGATGGTGACAACCGCCATCAG +GATCACCGGCAGCATTGCCGTGAGAAAACTGATCCCAAAGCCTGGCATTTCGCTTTCGCTGAATCGGCGG +GTCGCGCCGAGAGAGGCTATATTCCCCTCTTTTTTAAAGGCGTCCGGAATAATGCGCTGGCAGAATTTAT +TCAATACCGGGCCGCAAAGAATAAAGGTTGGAATGCCGACAATGATACCGTATATCAGTACCAATCCTAC +ATCAGCGCCATATTCCCTGGCGATAACAGTCGGGCCGGGGTGCGGCGGCAAAAAACCGTGTGCGACCAGC +AAACCAGAAAGCATCGGCACACACATAAACATCGGTGATATTTTTGCTTCACGGGCAATAGCGAATAAAA +TAGGTACCAGAAGAATTAAACCGACTTCGAAAAAAAGTGCGATACCGACAATAAACGCCGAACAGACCAC +TGCCCAGTCAAGTTTATTTTTCCCGAAATAATTCAGCATGGTCAGCGCTATTCGCTGCGCACCACCCGCA +TCGGCCAGCAAGCGACCGAGCATAACACCGAAGCCAAATATCAAACCAATATGGCCCAGCGTACCGCCAA +GTCCGGATTCGACTGAGGTGACGACTTTACTCAAATCCATACCACTGGCGATGGCGACAGCAATCGAGAC +AATAATTAACGAAACAAACGTATTAAGCTTAATTTTTATGGTTAAAAGCAGGAGTAAAGCAATCCCTGCC +ACAACGATAATTAGTGGCATAACGTCCTCTCATAACAGGGTAGCGACCCATCATTATCCGACTGAGCAAA +TAACGAATGATGCAGAGTCGGATAATTCAGGTGTCTGGATGTTTTTATTTATGCTTTCAGTTTTTATTCA +TAAAATCGCGCAAAGCCGCGCCAATTTTGTTTACATCATAAATACAACCGGTCCATGTCCCACCACTCAC +GGCCTGAAGCATTGCCCATAGCCGGGTATCATCTGGCAATTCAGGATCGGGAAGTAAATCCTGATGGCTG +GGTCTGGCATTTAATATTGCAGTTGCCTCCTCCTGTGAAGGTAATTGTTCATCGCTACGGGTTCCGAGGA +AATTGACTTCGCCGTGAAGCTCGCGACAATCAATTTTAATTTCAATTAAATCCCCGGTGCGTAATTTACC +GATGGGGCCTCCGGCCAGCGCTTCTGGCCCCACATGGCCGATGCACGCGCCAGTAGAAACGCCCGAGAAA +CGTGCATCGGTGATTAACGAAACATGCTTACCGTATGACAGATGCTTCAGGGCACTGGTAACCTGGTAGG +TTTCTTCCATCCCTGTACCTGAAGGTCCAACGCCAATAATGACCAGAATATCGCCCGCCTTGATCTTGTC +ATGTTTGATATCGTAAATCGCACTTTTCTCGGACAGATAAACCTTCGCCACACCTTTATGGTAATAGATA +CCTTGCTCATCAATCATCGAGGGGTCAATGGCGGTGGATTTGATCACCGAACCTTCTGGCGCAATATTGC +CCACCGGGAAGGTGATAGTTGAGGTTAATCCGCGCGCTTTTGCTTGCTGCGGAGACATGATCACTTCGTC +AGCGTTGATTTGTTCCTGATCGAGCAGGAGTTGCTTGAACCGCTGACGCCGTTCGGAGTGCTCCCACCAG +TCGAGGTTTTCTTTCAGCGTGCTGCCGGTAACCGTCATAACGTCTTCATGCAACAATCCGAGGCTGCGCA +GATGCAACATGACTTCCGGCACACCACCTGCCATAAAGGCATTGACCGTTGGATGATAAACCGGGCCATT +AGGCAGTACGCTCACCAGTCGGGGCACGCGCTTGTTGATGCGGATCCAGTCATCAACGGTCGGGATATGG +CAACCTGCCTGGTGAGCAATTGCCGGGATGTGTAACAGCAGGTTTGTTGAACCACCGAACGCGGCATGGA +CCGTCATCGCATTCTCTATCGCTTTATCGGTGAGAATTTCCCGGGTGGTGATGCCTTTTTGACTCAGGTT +CAGCGCAGCTCGCGCGGAAGCTCTGGCGATCTCCCGCCACACAGGCTCACCGGAAGGGGCCAGGGCTGAA +TGTGGGATTGCCAGTCCCAATCCTTCGGCCACCACCTGAGATGTCCCGGCAGTGCCCAAAAATTGACAGC +CGCCGCCGGAAGAGGCACAGGCTTTACAGCCCGCACGGCGTGCGTCCTGTAGAGATAATTCGCCATTGGC +GAAGCGTGCGCCAATGGTTTGCACCTTGCCGTTGTCTTCTCCATCCTTTGCGGGCAGCGTCGCGCCGCCG +GGGACCAGCACGGTTGCGATGTTGTGCTGCGCGGCGAGTGCCATCATGGTGGCCGGAAGCCCCTTATCGC +AACTCGCCACACCAATAACTGCTTTCGCGTCGGGCAGAGAGCGAATAAGGCGGCGCATTACCATCGATGC +GTCATTTCGGTATGGTAGCGAATCAAACATCCCCGTTGTACCCTGAGTACGCCCGTCACAAGGATCGGAG +ACGTACACGGCATAGGGCAGGGCATGGTTGGCTTTAATAACCTCGGCCGCCGCTTTCATCTGGATGTCCA +GTTCGTAATGCCCCTGGTGCAACGCCAGCGCCACGGGTTTACCGTCTGCGCCGCGTAAGCCACCGAGTGT +ACTGAGCAGTAAAATACCGTCCCGATCCAGCTCGTCCGGAGACCAACCCATTCCGGCATTCATGGTCATA +CCGAACAGATCCCCGCTCGGGCGGTTGATAAGCATCTCTGCGGTTAATGGGAGTTCGCCGTCCGGGCCAT +CGGCGTGCGTTCTGACGGTGTAAATATCGTGGCTCTCGTCAGCAAAAATATTGCGAACAGACATGAGTTT +CTCCTCAGACTGGTAAAATGCCCTGCGCGGTAAGCAGCACGTGGACTTTATCTTTTGCTTCTTCAGATGC +TTCAAGAATCGGTGGTAAGCAATATGTCTCTACAGGCAGCCCGACACACTGCATGCTGTATTTGATCAGT +GAGACAAACGGTGTTTCGAGGGCGTAAATAGCGGGCAGTTGTAGTAGTTTTTTATTCAGCGTCGCAGCGG +TCGCCAGATCGCCTTCACGCCAGGCGCGGTAGATGCCGACGGAGAGTTCCGGAGCAAAGTTAGCGCTGGC +GGTTATCGCACCGTCGCCGCCCAGCAGCATCGTATTCAGCAAATGATCATCGTAACCGCAGAATACCGAA +AACGACGGGCGTACCGACTTAACTGTGTTGATCATCGTACGCAAGTGACCAACGCTGTCGATGGTGTCTT +TGATGCCAACGATATTCTCGTTTTGCAGAGCCAGACGCGTCACGGTTTCCGGGGTTAAGTCCTGACCCGT +CAGATCCGGAAAGTTGTACAGGATCACCGGTAGGGTGACGCTACGGGCGATCTGCTGGTAATAGTCGTCA +AGATTTCGTGGTGCGACTTTCCAGTAGTAGGGGTTGATGGCGACGATACCATCAGCGCCGTAGGCTTGCG +CATGCTGCGCCAGTTTGACCGCTTCGTCAGTGGAAGGGGAACCGACGCCAATCAATACCGGCACTCGCCC +GTCGACAATGGTTACAGCTTCTTCGGCGAGTGCCATGCGCTGGGCTGTATTCATTTGGCTAAATTCACCA +CCGGTACCCAGATAAAACAGCCCGTCGACCCCTTTATTAATCAGGAAGTCGGCAACTTCGCGCATTGCCT +TTTTATCAAGGGTTCCGTCACGATGAAACGTGCTGGATACCGGTGGAATAATGCCGCTGAATTTTTTCAT +TACCTCAGTTTCCTTTTCGTAAGTGCTCATTTTCGTTTCTGTATCCCAGCCCATATGATATTTGCTCAGC +GCATTTCCGGAGCAATTCCAGATAGCTGTCTATCTTATTTCCTGAATAAACTACCGGATCGCCAGAAAGT +GAGATTGCATAGTTAACTCTGTTATACATATTGAATACCGGCATACTTAAACATACCGCCCCATAGGTTG +ATTCTTCGTTGTCTATGGCCCATCCCCGAAGGCGTGTTTTTTGTAATTCTTCCAGAAACAATTTTTTATC +GGTAAATGTATTGCGCGTATGTGGAGTTAACGTGAGTGCTTCTAAAAAATAATCCAGTTCTTCTCGTGTC +TTCCAGGCTAATAATGCCTTACCCAACGCGGTAATATGCAACTCAAGTTTTTTGCCAATCCAGCTTTTGC +TCGTCGGTACAGAGTCCGGACTTTCGATCTTGTCGAGATAGATAGCCGAAATGCTCTCCATCGCCCCAAG +ATGACAAACCAGTCCACTTTTCAGCGACAACTCCTGCATTGGCCGCTTAGTCACCTCAAATATATTTTGA +CGGTGTAACGCCTGACAACCCAATTCGTAGTTTTTTATTCCCAGTGAATAGTAGCCGTTTTTGTTTTTAA +TTAAGAAACCACAATCCACCATTACATTCAATAAATTAAGCAGGCTGCTTTTGGGGTACTGGAATTTATT +TAATAACTCCATATAACTTGCCATACCAACCCATGCAATGTGGGTTAATATTTTTTCAGCACGGACTAAT +GAATTACACCCTTTGCGAACCATAATGGCTCCTCCTTGCTCATGGAATAAATGGTATCGGCATTACATAG +TGGAAAATATGCTTTGTTCAGCATGCTGAACCGTAATGATGTGATTAAATGTGATCTTGTACACACTTTG +AATAATGAATCCAGAACAGCCACATTTAGTGAATGAGAATAAAAAGTAGATGGCGTGTTGTTGCAACATC +GTAGTGTGTGGATTGCGCCTAGAGCTTCTTTATTCGTTCGAGCGCATCGCCAATATTTTCTATTGGGTGC +CATTGATTATTTTTGCTTGAAATCCCTCTCGAATGAACTTACTTATCACTTTATTGAATGAGGTAAAAAC +AACTGACATCCGGCTCGCTGATAACGCTGTGCAATAGTCTCAGGTAACCCGCTGTCACTGATGATCGTTT +TAATACATGATAGTGTTGCTACAGCATGCGGCTCAACGGCATCAAATTTTGAGTGATCGGCCATGAGAAT +AACTTCACGCGAGCGTTGAATAATCCGTGTTTTCACCCCGACCTCAAACATGGTGGCATTGGTGATCCCC +GTCTCCAGCGACAGCGCATCGCAGGAGATAAACGCACGTTCTACGGAAAAGGCATTGATCATCTCCAGCG +CCAGACTCTCTCCTACCGAAAAATAACCTGGGCGAATCAGTCCTCCGATAATGTAACTTTCCACATGGGG +AAAACAGCCCAGTTCATTGGCGATTTTAATGTCGTTGCAGATGACCTTTACCCGCGCATCGGCCAGGCAT +TTCGCCAGTTCGAGGCAGGTTGAGCCGGAGTCGAGAAAAAAGCAGTCGCCATCTTTGATCATTGTTCGGG +CAAGGGCAGCTATTTCTCTTTTCGCCACAGATTGCAATGTACGTTTCACGTCGAAGACGTACTCTTTGTC +GTCTGTACTGTCGTCGAAGTCCAGGCAACCGTGACCGCGGATCATGCCTGGATACTGGTTGACAATATAC +TGGAAATCACGACGGACAGTCGCTTCCGCATAGCCAAAAAGCTCCATGGCCTGCTGTGTGGAGAGGTGAC +GATGTTGCCACAGGTAGTGCAGCATCTGTTTGATACGGTCAGGTCTCTGTTGGCTCATCAGAAACAATCT +CCTCTTACAGGGTGGCGAATTGAGCTAAGGTCGCGCGATAGTCAGATGAAGAGAACAGGGCGCGCCCAAT +CACCATATGTTGCGCCCCAGCTGCTGCCAGTTGCTGTGCAGCTGCCAGCGTAATTCCACCGTCGGCCCAG +CACTCGGTCTGAGGAAAAGCCGTGCGTACTTTTTGGATTTTCTCGCACATGGAGGGAATAAACCGCTGTC +CCTGCCCATCGGGCTCACTGGTCATCACCATCACTCCGTCCAGCTCAGACGCCAGATATCGCCAGGCGTC +GATCGGGGTTGCCGGATTAAATACCAGTCCGGCTCGTGCGCCGGTATGGCGGATCTCAGTTAACGTTTCC +GAAGGATAGTCCAGCGTTTCTGCATGAACGAAGATCCACGCGGGTCTGATTTCAGCCAGCGCGTTAAACC +AGCGCTGTGGCCGGGCAAGCATGAAATGAAAGGACAAGGGATGAGGCGTCTGTCTGGCGACGGCCTGCAC +CGTTTTCATCCCAAACGTAATGTTGTTAATGAAGCTGCTGTCCTCAATATCCAGATGCAGGCTCCCAAAA +TCCAGATTGTCCAATGCCGTCAGCTCACGACCATAGTGCAGAGGATTTGCGCTGGCGAGAGAAGGGTGCA +GGATCATAAGCGCCTCCGTTAACCTGATACCAGCGCAAACAGTGCATCGTCTGTGCTGGCATTTCCCACT +GCCGTTAAGCGTTGTGGCGAATCAATAAACTGGCTGATGCGCTGAATGGTCAAAATATGTGCGTTGGCAT +CCGTGGCGCTGACGCAGAGAAGCAGCCAGACGGGGTCGCACTCCTCGTTACCAAAGGCGACCGGGGTGCG +TAGCGTGGTGATACTGACCTGATTATAGTTTGCGCCTTGCTCTGGTCGGGCGTGAGGCAAGGCGATTCCT +GGGGCTATCAGATAATAAGGCCCCCAGTTAAGGGTATTTTCGATGATCCCATTAACGTAGCATGGCTGCG +CGGCACCATAGGCTACCAGCGGGCGGGTGGCGATTTCCACGGCCTGACGCCAGTCGGTGGCTTTACGTTG +TGCCTGTACCCATTTAATATCGTTAATCATCCGTCGTTGACTCCATGCCGATTCGGGTTAATCTGGTAGC +GATCCCCGTCGATACTTTTGACGAAGGCGGCAGGGATCGCAGAAGGGTTATTGCTCTTTGCCGGGGATAA +GCGCTCTGCTTATCCCCATCTTATCGGCGTATATGATGCACTTTCTCCATAAACTGACTGACTCGCGCCT +GGTCAACGAAATTGGCAAAAACGCCGTCCTTTTTAAAGGTGGTTGCGGTCACACAGCCATCGGCGATACT +GAGTTGTTCCTCCACGTTTTCCAGGCAGACGCCCGTGTTGGCCAACACGACGGTGTCAGGCACCGTTTCT +TTGACCCGTTTTAACAGCGCGCTGTCGGTACGCGTCCCGGCGGTCAGGCCAGAAACACAGAGCGCATCAG +GATGGTTGTTAAATACTGTCGATTTAGCAATAGAACAGATATCGCGATTGCCCAGATACACGGCGGCCTC +TGGGACGATATTGAACAAGGTTTTCACTTCGCCTGCACCAATCCGGTGTTGATGACGGATGGTCTCACCG +ACGTTAGTGTCCCAGACGCCAAAGTCGCTGGCATAGGCACCGGTAAATATCTCGCGGATAAACTTAGCGC +CGGTAGCCATCGCCAGGTCGAATGAGGCGACCGGATCCCACAGAACATTCACGCCAAACGGGATGCGGAT +ATCGCTCATTAATTGCCCGATGATTCGTGCCATTGCCGCAGTGGTTTCCGGACGCACCTTCGTGAGATAG +GGAAGACTAAACTCGTTGGAGAACATGACTGCATCCACCCCACCATTTTGGAGCGCCATCAGATCGTCCC +AGGCTTTGTCGATAACCCAGTTCATCCCCAACTGCGCATCAAAACTCGGGTCGCCGGGCAATGCACGTAG +ATGGCACATGGCGATGACCGCTTTTTCCGTCCCAATAACCTCTTTCAGCCAACTCATTGAAAGTACTCCT +TATTCCGATAATTCACGTTTACGTAAGAACAGCACGACGCTGGCGACAATACCGACCGCCACGACAACGC +CAATAATCCCAAGCGACATCAATTCAGAAATCGACCAACCGAACATATTGCCCACGGACAACGCTGAGAT +TTGCGCACTTTCACCGGCAAAACTGAAACCGCCTTTGAGCGCCATTTCAGTGAAGTAAGGCGCGAACTGG +GTGGCGATCAGCAGGACGGTAATCATCACGATGACCCCGCTTATCAACGTCCTGACCAGGTCTCCGCGGT +GGATAACCGTAGCCATACAGATAAAGAACGGTGCTACCGGCAGGTCTGCGAGGGGTAACACTTTGTTGCC +CGGTAAAATGCTGGCCAGAATTAACATAATGGGTATCAGTAGCAGACCGACAGCAATGGTGGTTGGATGC +CCCAGCGTCACAGCAGTATCCAGACCGATATACACTTCACGTCCTTTGAAATATTTCTGGAAGAACTTTC +TTGCACCGTCGGAGATGGGCAGCAGGCCCTCAACAATCAGGCGGATCATGCGCGGGAACAACACCATGAT +TGCCGCAACGGTAATCATCAGACTGGCGCAACCTTTAAAGCCTTCACCAGCCGCCAGGCCAAAAATCAGA +CCGAGCACTACGCCGATAATCACCGGATCGCCGACCATGCCGTAGCGTTTCTGGATCTCCTGAGCATCGA +TATTGCGTCCCTTCATGAAAGGGATTTTTTCATAGATAGCATCAAGTAGAACGAAAAGCGGTACTGAACT +GGAACCGTAGCCTTGCGGTATCGAAATACCTTCCAGCCCGACGATGTTCTGTACCCGTTTTGCCGTCCAG +TCGGCCATTTTTAACGATAGCGCCGCATGGCAGATTGCCCCCAGCACACCATAAATCAGGCTACCGGTCA +TAAGCTGGACCACCGTACCCGTAATGGCGTAGTGCCAGTAATTGTAAATATCGACGTTCATCGTTTTGGT +CAGACGGGTGACCAGCATGGCGACATTGAGAAGAAAAATAACTGGGATAATCATGGCGCCAATGGCTGTC +GCATAACCAACGCCGGAGGCAGGGCCTGCGCCAACGTCAAAGACATGCAGGGCTAGGCCGAAACGCTCAA +TCATCACTTTGATAGGGGGACTGAGGCTGTCGATCGCCATGACGATCACCAGTCCCATACCGACAAAACC +AATCCCAACCGTTACCCCTGCCTTAATCGCCTGCAGCCAGGGGATGCGGAAGATAAGGCCAATCACGATC +ATGATGATAGGGACGAAAACGGTACCGCCGAGAGACAGGATGTAATCAAACATAATGCCTCCTTTTATTG +AGTTAACAGAGCCTTGATTTGTTGTTTTAACGCGTCGTCGTTGATCCCTGTGAGCAGGGCGGCGCCATTA +AGCGTAGGGATGCCGTAATCACTGTTGGTTCGCATGGAGGTTACAATAAGGTCCATACCGTTACAGTTAA +GAGGGATCTCATTCAGACAGCATTGGGCGGTAGTGGCTGAAATGCCCTGTTCAGTCAGGAACTCTTGCAG +CTTGTGTGCAATCATGGTTGAAGTCGACATGCCGGTACCGCATGCCACAAGGATCTTTTTCATAATGGAT +GTGCCTCTTGTGTAGTGCCTGAATCAGGCTCAACGGGGAAATGTGCTGCTGACATACCTGCCAGAGCGGT +CAATAGGCGGATGCAATCAGTCAAATCACGCAGGCTGGCAACCTCCGCCGGAGAATGGGTATAGCGACAA +GGAATAGAGAGACTGGCGCAGGGAATACCATCCTGCTCAACCTGGATATAACCGGTTTCTGTTATCACGC +CGGGAGCCACTTCTCGCTGCACCGGAATGTTGTGTTCAAGAGCCGTCTGTTCCAACATCCGTATCAGGCG +AGGAGGCGTGATTAATCCGGCCAGCGTTCCCCGACCATGGTAGTTCAGGCAGGTGATCCCAACGCCCTGA +TTAATCCTGACCTCGGAATAATCGTGTAAATCAGGGGTGTCACACGATGGAGTGATATCAATACCAATCG +CCAGGTCAGGTTTTACACGGCGTAATACGGGAACAATGCCGCGGATATTAAATTCTTCCTGTACCGAAGC +CACCAGATAAACGGCGATATCAAGCTCCATAGTACTGATAGCATCCGCTACACCGAGCAGGGCAGTACAG +CCTAGACGATCGTCTAGTGCTTTACTGCACACCAGATCGTTTGCCAGGAGTTGCGGCGGGTTATACAGAG +TGACAGGCGTACCGACCTGAATGCCCATCCGTATAGCGTCGTCTTTGTCTTTGGCACCAATATCAATCCA +CAGTTTGTCGACAGAAGGTGACTGCGTGCGCTCGTCGCCTTTGGCAAAGTGGTAGGACTTAATGCCGATA +CACCCCATGACTGGCCCTTTGTCCCCGGTGAGGGTGACGATGGAACCAGCCATAGTGACCTGCGCAGGAC +CGCCTACGCGTTCAAAGCGTAAAAATCCAGACGGCTCTATTTTGCGCACCATAAAACCGACTTCATCCAT +ATGCGCAAAAATCATCAGTCGCAGCGCATCGGGTTTATCACTACCGTAGCGCGCGACGACATTCCCAAGC +CTGTCTCGCCAGACCTCTTTTGCCTGACGCCTGAATTCGCACAGCATGACGTCAGCGACAGCGTTTTCGT +GTCCTGAAATCGCATTGTGCTGCAAAAGCGAGAACAGGGTTTCCTGCACAGAAAATGACATAGCTATCTC +CGTAGACCGTAAAACAATCACTCGTTGAGCGTTTTATAGGCGCAGACTGGTCGAATAATTGTGAGAACGT +TCACGTGAAAACGCGCAAAGCTGAACAAATAAAAAATTATGTGAGCCGAGTGGAATAAAAGCGCTCAACG +TTTGTGAAAGTTACGGGCTGGAGAGACCAGTGATTATGGTTGAAATAATGAGGATGAATAAAACGCGGTA +ACTGTTATAGCACCACTTTGTTGCAGGACGCTCCCTCTTCATTACGTCCTGCACGTGGATACCCCAGCAT +CTCCATCAGCGGATCTTAGAATGTAATGGCGCGTGGCAGGTCGTTGGTTCCCAGCATAATGTAAGAAAAC +ATCGGATCTCCTGAATAGATTCAGAGGGAGTATAGATAATCAGCTCAAATCACTCTCCGCTTTATGAGCC +CAGGCTGGCATTGCCGTCAGATAACGTTTTGCACGCTTATGTGCTTCCTCCGGGCCGACTTTTTGCCAGG +AATCAAGGAAGCTGGCTAAACCTGATACCGCTTCTTCCCAGGGTTTGAGATTGCCGTTGCTGTCGCTGCA +TTACGCACAATATTGATCACTGGCACTGTGTGCATCTGGTGCCGACATCGGCATTCCGCAAGCCTGACAG +AACTGTTCATGTTGTGACATATGATGCTCCTTATGGTGACATCTTGATTAATAAACATACTGAATATGTA +TTGTGCAGGTGATACATCAGATCAAAGCAAAGGTAAAGCCTCGATATTTCCAGCCAGAAATACCGGGAAC +CTGTTGTTACCGGGCGATGAGTGCGAACACGCCCCAGCCAAAGCATTCCCGCGCGTAGGTCACGTAGCGT +TTCGGCGCGATGTTTAGTTCGGCCCTGACTTCGGCGGCGAAGTCATCGTCAGGATTCGCTTCCAGCCAGC +GGCGCATGGTCAGCCATTTTGCGGCTTCATACCGGTCCCAGCCTTCCTGGTCTGCCAGTACCATTTCCAC +CACGTCATAGCCGAGATCGTCGAACGCTCCGACAAGTCCTGGCAGCGTCAGGAAATCGCTTGTCGAGCTG +ACGCCGCAGGCCTGGGCTATTTCTTCTGTTGCTGGTAGCTGACGCCAGTAGGGTTCGCCGATAAGCATGA +TCCCGCCCGGTTTCAGGCTTTGCGCTAGCAGCTCCTCCGCCCCGGCAAACCCACCGGCAATCCATGTCGC +GCCGACGCAGGCCGCCACGTCACATTTTTCATTTGCGACGTAACCGGCCGCATCGTTATGAATAAAATGT +ACGCGTTCGCTGACGCCGAGTTCTTCCGCGCGACGCTTTGCCTGCGCGGTGAAGAGCGAACTCATGTCGA +TGCCAGTCCCCGTAATGCCATGATCCCTGGCCCAGGTGCAGAGCATCTCGCCCGAGCCGCTGCCGAGGTC +AAGAATGCGGGTGCCCGGCTTCATGCGCAGCACGCGACCCAGCGTGGCGTACTTCTCTTCGGTGAACGGG +TTATGGATGCGGTGTTCACTTTCGCTGATGGTAAAAATACGTGGGATATCCATTATTTAATTCCTGTTAT +TGGGTTAAGCCTTAAAAAGGACACAACAAGATTGTTATTCACGTCAGTGCTCCGGTTTCATCAGGGTCTG +CGCACCGGATGTGGCCGGTCAGGGTCATGGGCTGAGCGGTGAGTGATTGCATCATCCAGCAGGCTTTGTG +CTCCTCCGGGATGGGATAAGGTGCCGGATAGCCTTTGTCTCCGGCACAGGGTTCGAACCCATGTCGGGGG +TAATAGGTGGCGTGGCCGAGAACAAAAACCGTCTGGCAGCCCATCAACCTCAGGTGCTCGATGCCAGTGC +GTATCAACCGTCCTCCCACGCCCATCCCTTGGTATTCCGGTATGACCGCCAGGGGAGCGAGGATGTGCAT +CAACGGTGAATCCATTTCTCCTTTGAAGGTTGCCCGGGTAAATAAAATATGCCCGACGGCTTTGCCTTCA +TACCGGGCTAGCAGCGATAACGCGGGGCGCGCGCTTTCATCCTCAAGTAAAGAGGCCACTAAATCGGCTT +CTTTGCTGAAGCCAAATGCGCGGGTTTCGACTTCCCGGATATCACTGGCATCACTTTTATCTGTGATATG +AAAAGTGAAGTGGTGTACTGTCATAGAAACTCTCCTTAGCGATTATCGAGCTGAGCGCGAACTTTATTCA +GCTCGGTGGTGTTGATTCGATAGGGCTGGCCATTGACGGACTTGATAAGTTTTTTGGTTTTGAGTTTTTT +GAAGACGGCGAGCGTGCAGTCGGTCAGCAACAGCCCTTCGCGGCTGTAGCATTCAACGGAAGTGACGCGG +CCTGAAGAATCGCGGACGTGCGCAATACGTCTACCTTTAGCGAGAACGTGTAAGGTATGTTGTTCCTGAC +GGGATAAATTCATACTGAAGAACCTATTTAATCATCATGTGCAAAACGTGCAAACACACCGCGGTGTCCG +CATTCGATTTCGGCGCATTGATAATCAGTCCGGCCTGAAAAGGTCGGGGAACTGATTATCGGATGATTAC +ATTCTCCAGCATCAAAGCCTCGGGTTGAGTTGAAAGGTATTTACGGAGCGAATATTAACACGTAGTTATA +GGAGGGATATGTTTCAGTAGAAAAAGTGTGATGTACTTTGGAAATTGAATGCCAACCCATTTACTGGAAA +AGGCAGATGACACTGACGAATGCATGTTGAAGTACGCCTGAAATGGCCTCATCGGCTTTTCCCTTCGGGA +GATTATTCTCCTTTTGTTAAATCCAGAACATAAATATGCTCACCCATCTTCGATGCTTGAAAAATTGAAG +CCAATCCTGATAAGTAATTTTTTTGAAAGGGTATTTTCCGGATTCACACCGGCTTTGATGAGTGAAAAAC +CGTTCTCTTTTATTCAGTCAATCGTGGCGGTAATTGCTTCAATTGCATATCCCTGGCGAGCATAAGCGGG +ACTGATGGTATAGCCGAGCCAAAACACATCGCATTGCTGACGTAAATAGATATCACCAATCAAAACCTGC +GTCATTTGTTGACAATGGCCAATTGAATATCGCGAGCAAGTGTAAGAACTCCCAGCAAGACCCTGTAAAT +AATTCTGTGTAACTGCCCACGATTAAAGGTGGCCGCTCAGGCGGTCACCGTATTCGATAATAAATGGGTC +TGGAAAAAGTGCAGCATCTGGCAGCGTAATGCAGGTAGCCCAGTTCAACTCTCACTACCAGTATGATCCC +AAGTTCGAGCGCGGAATGTATCTGTATGAGCATCGTCGCTGTTTCAATAACATCATCGACTACTGTAACT +CACTTTGCTATCACGGTAAGTTGCAGCCTAAAAGAGGGATGGAAAAAGGACGATTTTCCCCGCAATGGGA +TATTTACATATTGATGGTAGAGGCATGAAGCCAAATGGAGGGAGCCGTCATAACCCTCTTGAAGCTGAAA +CAATAGCAGCATGGCTGGTGGCACATAAGGATGATATAGAGCGCCATTACGGGGAACCACTGTACAAAGT +TGTTGGTGTTGTGACGCCATTTTCGGCGCAGGTTAATGCTATCAAAATGTCATTGCGTAAGCTGGAAATT +AATGGCAAAGACGAGCAGGGTTTACTGACAGTGGGGACTGTGCACTCCTTGCAGGGGGCGGAAAGGGCGA +TTGTTCTCTTTTCTCCTGTCTACTCAAAACATGAAGATGGCAGGTTTCTTGATAGCAACAGCACTATCCT +CAATGTTGCTGTCTCACGCGCTAAAGATAGTTTTCTGGTATTTGGCGATATGGACCTTATCGAGATGCAG +CCCGCATTTTCGCCGCGAGGGTTATTGGCAAAATATCTCTTTTCTTCAGATAATAATGCGTTGCAATTTG +AGTTTCAGAAACGACAGGATTTAATTTCCGCACATACACAAATTTCAACGCTGCATGGTGTGGAGCAGCA +TGATGAATTTTTGAACAAGACTCTTGCCGGAGCTCAAAAGAAAATAACGATTATTTCCCCTTGGTTATCC +TGGCAAAAAGTGGAGCAAACGGGATTTCTGGCATCAATGGCTTTGGCCCGTTCCCGGGGCATTGATATTA +CCGTGGTGACGGATAAAAACTGCAATATAGCGCATGTCGATGATGATAAGCGTCAGGAGAAACAACATCT +GCTGAATGATGCTGTTGAAAAGCTCAATAAGATGGGTATCGCTACGAAATTGGTTAATCGTGTTCACAGC +AAAATTGTGATTGAGGATGAAGAACTGCTGTGTGTCGGATCTTTTAACTGGTTCAGTGCTACACGGGAAG +ATAAGTATCAACGATACGATACGTCTTTGGTGTACCGTGGTGAAGGCGTAAAAAATGAAATAAAGGCAAT +ATATGGTAGTCTGGATCAACGTCAGCTTTAAATGTGATGAGCCGTTCATGATACAGGAGTAGTAAAGGGC +ATATTTTACCAATGTTAAGGCGACTTTCCGTTTTATTGCGAGTCGCCTTTCCTGATTATAAATCTTATTG +TTTACCTAATCATTTTCCTTTGCATAATGCGCCTGGGATTAATGGCGGGTGCTTTTAGGAATGAAAGAAA +ATGCAAGCAATAATATAATAATGGCCTAATTTCTTTGAACATCATTAAGCATATCATCATCGTCTATTTG +CCAGAATCCGTCGACTTATAATCGCCAGAACGGCATATCAGGACGGTGCTGCGAACGCTGTGGCCCAAAA +CGTTCCAGTAAACTGTGTAGATGTTCGTAGATTTCCGAGCCATAATCGAAAAGGCGCGGATGTCTATTAA +GGCATCCGGCTAATCTGTAAGCAATAACAACGGTTTATGCGGTGCGCGTTTTTCACCCTTGTGCCAGATT +ATTATATTGGCAATTGCCTGCTGTTCGAGCCCGCAAGTGAAGAGATATTACCTTGATCTCATTTGTTTTT +TGTTGTCTACTCTGAGAACGAACAAGGACATCCCCCATGAATAAACTCCCCGCTCACCTTTCGCGCCAAA +ACTGCAAAATTGCTTCTACAAATCTGTCAGAAATAATCCCCCGACGGGCTGCAGTGCTGAAATGACTGCT +TCGCAGTGCCGTCGTCCAGTTCTCCGGTGACCGGTACGCTGAACCGTAATATCCCGTGCTTAAATCGTCC +GGGTCTTCATCAGGCGCGTTCGTCAGTCCTCTTTCACCTTGTTGCTGGAAGTCGACGAAAATAATATTGG +CTAAAACATTATTTTGATAATTGCCATAAATAGCTTCATACGAATGCGGGAAATTTTCTTTCCAGTACCA +GGTGGTATCGCCGCAAAACCACGGCGCGTCAGTAATATTATTAAGCTGAGAATGGTATTGTTTTAGATCC +CTACGAAAGGCTTCAACCATATGATTAAAGTGTTGAGGGTGTGACGCGTAGTCACTGGTCATTAAGTCAA +ATTCGCCTTGCATCCAGCATGCGCCGAGGAATTTGTTCTGCGGATTTTTTGCCAGTGCGGCTCGCGTTCT +GCTGACTAAATCCTGGTACAGCGGAGTATCCGTTCCCCAACGACAAGCATCATGGCTGGCTCCGTGCCGT +TCTGAATATGTCCCTTCGCTGCCCGCGGTAAAAGCCGATCCGCCACGGCAACACGGAACGATAAGAATCC +CTGCATTATCAGGAATGAAGGGCAGTAATTTCCGTGCAATATGCAGTGCCTGGCCAACGGTGCCGTACTG +TGTTTGATGATTCGTTGCCAGAGGATGGTGATAACCCTGCATATCCTGAACATCGTGTGGGCAGTGAGTC +AGTGGAATAATGTCGTTAAAGTGACATGGCGGGCCTCCGGGATGCGTATGCGCAAATCTCGCTAATTGTT +TAATTCTGGGATGAGGCGCATCTTCCCTGTCCGGTAATGGCAGTCCTTCGCCATACGCCATGGCATTAGA +CTGACCAGCAACGGTAAGAACATAGTAATAATCGGGCGATATTATTGCGTTCATATAAATTTCGCGTAAT +TGAAATGACAAATTGATAGCAGGGCCCCTTTACCGGGGCCCTGAAGCGTTAGTTTTGTACTGTGACTTTA +TTATCCTTCACAGTGATCAAAACTGAATCCGTCACCGCTTTGCCGCCTGCAGTTTCACCGCCAATAATCA +ATAGACTATTATTCCAGGGCAATGATACTCCGTAGGCCCGACCTTGCGATAATTCACCCGATTTATCCCA +TTTCCCGTTATGCCAAAGATGAATATCAGTGCTATATGATTTTTTCAGGCCTTCATGCGCATAGTTCTTA +CCGTTCTGGTAATTTTCTCGTGAACCTTTGAATCCGGCCCCTCCGGCAAATATAAGAGAATCATTGCTTA +TCCCCGCAAAACCGCCAGCTACGCCATCTGGTGATGAGACGGGAGCAAGCTTATTCCATTTTAAATTATT +ACCGGTGAAATCAAGTTCAAATACGGCATCCGTTCGCAATCCTGGTTTGGCTTCGCCATTAATAAGCCAG +GTTTTATCACCTTTATTCACAACCGCCGCACCAGCCGTTCCGTACCAGGGCGATTCGCCAGCGTAACTCC +ATTGCTGTGTTGAGGGATCAAAAGACAACAGAAACTTATTGAAGAAATAATCTTCTGCTTTTTTGTCAAA +ATAGTGAGCATTGATTTTATCTATAGCGGTTGAATCTTTTCCAGCCTCGTTGAGATCTTCAAAATAGCCA +TTGAAGATATTCTGGTTAACACCACCAGTAACATAAGCCTTGCCGTTGTGTACAAAAGTCACATGGCCCG +CCATGCCCATCGGCGCGTGCGACATCAATTTAACCCAACTATTGGTTTTGGGGTTGTATTTGTGTACGTC +ATTAAATACCTGAGTCAAGCCCTCGCTGTTTTTGCCAATGCCGCCAAACACATACAGATTGCCATCAATA +AATGCAGAGGTTGCTTGATCTCTTGGTCCGCCAGGGAATGCAGCTAACGCTGTCCATTTTTTATCTTTGG +CCTGTGTATCCAGCTTGTACCATGCCGTACCTGCGCTACCTAAACCAATGTAGACAGTGTCGTTATCAAT +TGCTCCGGTACCACTTTTAAATGGCACAGGAGTTTCCGGTAATACAGACGCGTTTGCGGCAAATGAAGCC +ATCATGATAGCAAGCGCCGTTATTGTTTTATTCATTGTGACTGTCTCCTGTCTACTACAGTTTAAATGAC +ACACCAATGCGATAACTGTTTTCCGATAAATTATCTCTGCCGTTGTAAACACCCTGACGGTCAAGGTAGT +CATATTCTATGTATGGCGTAATATCGGGCGTCATATGGTATTGTAGAACAAATGCATTTTCCGTCGCCCA +TTTCTTATGGTTTGCATAGCGATAATCGTTCTGTTTGCTGTATAGCGTCGTTTGCCATGCGAAGGTGAAA +TCACTATTAATATGGTAAGTGACATATCCATCCCAACGATGAACGTTATCACGAGACATATCACCGGATA +AGTCTTGTTGTCGGTAAGCTTTCCAGTCGTAACGATAGCGAATGCCAAAATTAAGATCTTTTGTCGCGTC +CCAGGACAGTTTTACGTAGGGTCCGTAGCGTGTGCCGTTGCTGCTAAAATGCGTTAACATTCCCGGGCGC +ACCGTCCATTGATCATCAAGTTTAATCGCGTAATTAACTTCAACCTGAACATCATTGAGTGCGGCATTTT +CCTTTTTATTATCATGAATGGTATTCCAGGTATTACTTTCCATGCTTGCCCACCATCCATTTTGCCATCC +CTCACTGACTTTGAGTCGAGTCTCATAGGCGTGGCTTCCACTACGATATCCACCACGTACGTCCAGTGTC +GCAGCCTGAGAAATTAATGGGGACGAAAAGCACAGTAATAATACGCCAGAAAGTATTTTAGCCTTTTTCA +TAAATTTCACTCATTTGTAGGATACAGAAAGCAATACAAAGCCCGCATAAACAATTAGCATTTATGTTGT +GTAATATTTTTTTGCCAGGCTTATAGTGTCTTTGGCAACCGGTAGCTGTATTTTATATTTTTTTGTATAA +GGTCTCCTGTGAAAAATCTCTTTTCACATTATTTAAATAAACAGAGATCCAGATTAAATACCTGAGTATA +AAATCTCTTCTGATGTTTAATTGATTTGAATGTTCGTAAGCTATATCACTTACTCAATCCATTTTACCCA +GAGTCATAAAATAGAATGTCTGTTGATCTCATTTTCATATTCCTTTCAGACTGAAGTGCGTTTTCATCAC +CCGATGAGAAAGAACTGAAGTGATGTTTGCCATAGATTGCGAGATGCCCTGTCTCATTGACTATCTTGGT +GCACCTTTATACCTGTTATACCAGATCAAAAATCACGCAATCCATACAACAAAACCAGATTTGCAATTCG +TGTCACAAAATATGTCGATCTTTTTCTAAGAGGAAGATGCCATGTGAAGCCAGACGAACACTTGCGGTGG +TCTTCAAAAACTAAAGATCTTAGTTTAACTATTTGTTTTATAAATAATTTATTAAGAGTCTAAACAAGGG +GAGCTTTGCAAGCTAACTCAGTGAGCTTGGTGAAAATCAGTGTTTACCCGCCATCAGGCTGAGCATAATT +CTCATCATGAAATATGTTTCCTGGTTTGTGGCTTGTAACTGGTCACTTCTGAAGTCGATCTGGAGAGGCT +TGTTGATGTTGGTGTTTTCAGGATGATGTTTCACTTAGTTTGTTTGCCGTATCGCCCGGCGAATGGCTGT +GATTGAGGAAGGTTTAAGTCGTAGTGACCAAAGCTATATTTACCAACGAATGTAGATGAAAAAATCATCT +CCTGCGTTCCCCCATATCTCTAGGATAAAAAGGAATGTAACAATCTCATGGCGTAAGCTGACGAATCAGC +AGGAATAATCGCTAGGGACCTAAGAATTAGCATGATAATAGCCACTAAGAAATTACTGCGCTCCATGAAA +TAGCCATTTTGTGGCAAATGGAGTTGACTAATAATGTCATATGTGAGACGGCTAGTTGAACGAATATTAA +ATTTTGCTGAATTTTTTATGTTGATTTTACTTGTTACAGAACATATCACATGATATATAGATAAGATTAG +TTGCATTAATGATGAGGGTTATTATTAGATTCGTATCCGATTGATAAATATATAAAGGTACATAGCATGC +AAGAGCATGGCGTTTGTATGGCAACGTTATTATAATTAACAGTTGCTACTCCATTTAAGTTCACTCAGAA +GAACTGGTCCACTTACGTTAGTTATTAAGCAAACGTTCGCTTTTATAAACATAATCAGGATAAAAATGTT +GGATTATTGCTAACCCAGCACAGCTAGTGCGCGTCTGTAATTATAAGGGAAAAACGATGAAGAATAAGGC +TGATAACAAAAAAAGGAACTTCCTGACCCATAGTGAAATCGAATCACTCCTTAAAGCAGCAAATACCGGG +CCTCATGCAGCACGTAATTATTGTCTGACTTTGCTTTGTTTTATTCATGGTTTCCGGGCGAGTGAAATTT +GTCGATTGAGGATTTCGGATATTGATCTTAAGGCAAAGTGTATATATATCCATCGATTAAAAAAAGGCTT +TTCAACAACGCACCCGCTATTGAATAAAGAAGTTCAGGCTTTAAAAAACTGGTTGAGTATCCGTACTTCG +TACCCGCATGCTGAGAGCGAGTGGGTATTTTTATCACGTAAGGGGAATCCGCTTTCTCGGCAACAGTTTT +ACCATATTATCTCGACTTCCGGTGGTAATGCCGGGTTGTCACTGGAGATTCATCCGCACATGTTACGCCA +TTCGTGTGGTTTTGCTTTGGCGAATATGGGAATAGATACGCGACTTATCCAGGATTATCTTGGGCATCGC +AATATTCGTCATACTGTCTGGTATACCGCCAGCAATGCAGGGCGTTTTTACGGCATCTGGGATAGAGCCA +GAGGACGACAGCGTCACGCTGTTTTATAGAGATAGTTGAGATACCAGGGATGGTGTTAAAAACTACATTA +TTCTTACGATATATCAAAAATGATTAACCATTTATTAATTGATGTTATTGTAAGTGTGATTCTTAATTAT +CATAATAAACATTAAGTTAACCATATCCATACAAAATACAATGGTTTATGTTCTTCAAAATAAATAAACA +AAATCATTCATAAATTTACACATCACTTAAAATCTCCTGTTTCCGCACTTTTTTCTTTATTTTTTAAGCA +ACTGGAAGTTAATCCACTGCAATCTATTGTTATATTGAATCAAATCAATGAAAATAGATGTTGTCACATC +AGTGATATTTTATTTTTGTATGATATTTAATGTAATTGACTGATAGCCACATCACTCCGTGTGTGGTTAT +CTTTTTATCTATTGGGCTAATTTTGACCGATTGAGGTTTCCTATAGGTATTCATTCAAATATATCTCAGT +TAGGAGTACTACTATTGTGAGTAAACGTCGTTATCTTACCGGTAAAGAAGTTCAGGCCATGATGCAGGCG +GTTTGTTACGGGGCAACGGGAGCCAGAGATTATTGTCTTATTCTGTTGGCATATCGGCATGGGATGCGTA +TTAGTGAACTGCTTGATCTGCATTATCAGGACCTTGACCTTAATGAAGGTAGAATAAATATTCGCCGACT +GAAGAACGGATTTTCTACCGTTCACCCGTTACGTTTTGATGAGCGTGAAGCCGTGGAACGCTGGACCCAG +GAACGTGCTAACTGGAAAGGCGCTGACCGGACTGACGCTATATTTATTTCTCGCCGCGGGAGTCGGCTTT +CTCGCCAGCAGGCCTATCGCATTATTCGCGATGCCGGTATTGAAGCTGGAACCGTAACGCAGACTCATCC +TCATATGTTAAGGCATGCTTGCGGTTATGAATTGGCGGAGCGTGGTGCAGATACTCGTTTAATTCAGGAT +TATCTCGGGCATCGAAATATTCGCCATACTGTGCGTTATACCGCCAGTAATGCTGCTCGTTTTGCCGGAT +TATGGGAAAGAAATAATCTCATAAACGAAAAATTAAAAAGAGAAGAGGTTTGATTTAACTTATTGATAAT +AAAGTTAAAAAAACAAATAAATACAAGACAATTGGGGCCAAACTGTCCATATCATAAATAAGTTACGTAT +TTTTTCTCAAGCATAAAAATATTAAAAAACGACAAAAAGCATCTAACTGTTTGATATGTAAATTATTTCT +ATTGTAAATTAATTTCACATCACCTCCGCTATATGTAAAGCTAACGTTTCTGTGGCTCGACGCATCTTCC +TCATTCTTCTCTCCAAAAACCACCTCATGCAATATAAACATCTATAAATAAAGATAACAATAGAATATTA +AGCCAACAAATAAACTGAAAAAGTTTGTCCGCGATGCTTTCCTCTATGAGTCAAAATGGCCCCAAATGTT +TCATCTTTTGGGGGAAAACTGTGCAGTGTTGGCAGTCAAACTCGTTTACAAAACAAAGTGTACAGAACGA +CTGCCCATGTCGATTTAGAAATAGTTTTTTGAAAGGAAAGCAGCATGAAAATTAAAACTCTGGCAATCGT +TGTTCTGTCGGCTCTGTCCCTCAGTTCTACAGCGGCTCTGGCCGCTGCCACGACGGTTAATGGTGGGACC +GTTCACTTTAAAGGGGAAGTTGTTAACGCCGCTTGCGCAGTTGATGCAGGCTCTGTTGATCAAACCGTTC +AGTTAGGACAGGTTCGTACCGCATCGCTGGCACAGGAAGGAGCAACCAGTTCTGCTGTCGGTTTTAACAT +TCAGCTGAATGATTGCGATACCAATGTTGCATCTAAAGCCGCTGTTGCCTTTTTAGGTACGGCGATTGAT +GCGGGTCATACCAACGTTCTGGCTCTGCAGAGTTCAGCTGCGGGTAGCGCAACAAACGTTGGTGTGCAGA +TCCTGGACAGAACGGGTGCTGCGCTGACGCTGGATGGTGCGACATTTAGTTCAGAAACAACCCTGAATAA +CGGAACCAATACCATTCCGTTCCAGGCGCGTTATTTTGCAACCGGGGCCGCAACCCCGGGTGCTGCTAAT +GCGGATGCGACCTTCAAGGTTCAGTATCAATAACCTACCCAGGTTCAGGGACGTCATTACGGGCAGGGAT +GCCCACCCTTGTGCGATAAAAATAACGATGAAAAGGAAGAGATTATTTCTATTAGCGTCGTTGCTGCCAA +TGTTTGCTCTGGCCGGAAATAAATGGAATACCACGTTGCCCGGCGGAAATATGCAATTTCAGGGCGTCAT +TATTGCGGAAACTTGCCGGATTGAAGCCGGTGATAAACAAATGACGGTCAATATGGGGCAAATCAGCAGT +AACCGGTTTCATGCGGTTGGGGAAGATAGCGCACCGGTGCCTTTTGTTATTCATTTACGGGAATGTAGCA +CGGTGGTGAGTGAACGTGTAGGTGTGGCGTTTCACGGTGTCGCGGATGGTAAAAATCCGGATGTGCTTTC +CGTGGGAGAGGGGCCAGGGATAGCCACCAATATTGGCGTAGCGTTGTTTGATGATGAAGGAAACCTCGTA +CCGATTAATCGTCCTCCAGCAAACTGGAAACGGCTTTATTCAGGCTCTACTTCGCTACATTTCATCGCCA +AATATCGTGCTACCGGGCGTCGGGTTACTGGCGGCATCGCCAATGCCCAGGCCTGGTTCTCTTTAACCTA +TCAGTAATTGTTCAGCAGATAATGTGATAACAGGAACAGGACAGTGAGTAATAAAAACGTCAATGTAAGG +AAATCGCAGGAAATAACATTCTGCTTGCTGGCAGGTATCCTGATGTTCATGGCAATGATGGTTGCCGGAC +GCGCTGAAGCGGGAGTGGCCTTAGGTGCGACTCGCGTAATTTATCCGGCAGGGCAAAAACAAGAGCAACT +TGCCGTGACAAATAATGATGAAAATAGTACCTATTTAATTCAATCATGGGTGGAAAATGCCGATGGTGTA +AAGGATGGTCGTTTTATCGTGACGCCTCCTCTGTTTGCGATGAAGGGAAAAAAAGAGAATACCTTACGTA +TTCTTGATGCAACAAATAACCAATTGCCACAGGACCGGGAAAGTTTATTCTGGATGAACGTTAAAGCGAT +TCCGTCAATGGATAAATCAAAATTGACTGAGAATACGCTACAGCTCGCAATTATCAGCCGCATTAAACTG +TACTATCGCCCGGCTAAATTAGCGTTGCCACCCGATCAGGCCGCAGAAAAATTAAGATTTCGTCGTAGCG +CGAATTCTCTGACGCTGATTAACCCGACACCCTATTACCTGACGGTAACAGAGTTGAATGCCGGAACCCG +GGTTCTTGAAAATGCATTGGTGCCTCCAATGGGCGAAAGCACGGTTAAATTGCCTTCTGATGCAGGAAGC +AATATTACTTACCGAACAATAAATGATTATGGCGCACTTACCCCCAAAATGACGGGCGTAATGGAATAAC +GCAGGGGGAATTTTTCGCCTGAATAAAAAGAATTGACTGCCGGGTGATTTTAAGCCGGAGGAATAATGTC +ATATCTGAATTTAAGACTTTACCAGCGAAACACACAATGCTTGCATATTCGTAAGCATCGTTTGGCTGGT +TTTTTTGTCCGACTCGTTGTCGCCTGTGCTTTTGCCGCACAGGCACCTTTGTCATCTGCCGACCTCTATT +TTAATCCGCGCTTTTTAGCGGATGATCCCCAGGCTGTGGCCGATTTATCGCGTTTTGAAAATGGGCAAGA +ATTACCGCCAGGGACGTATCGCGTCGATATCTATTTGAATAATGGTTATATGGCAACGCGTGATGTCACA +TTTAATACGGGCGACAGTGAACAAGGGATTGTTCCCTGCCTGACACGCGCGCAACTCGCCAGTATGGGGC +TGAATACGGCTTCTGTCGCCGGTATGAATCTGCTGGCGGATGATGCCTGTGTGCCATTAACCACAATGGT +CCAGGACGCTACTGCGCATCTGGATGTTGGTCAGCAGCGACTGAACCTGACGATCCCTCAGGCATTTATG +AGTAATCGCGCGCGTGGTTATATTCCTCCTGAGTTATGGGATCCCGGTATTAATGCCGGATTGCTCAATT +ATAATTTCAGCGGAAATAGTGTACAGAATCGGATTGGGGGTAACAGCCATTATGCATATTTAAACCTACA +GAGTGGGTTAAATATTGGTGCGTGGCGTTTACGCGACAATACCACCTGGAGTTATAACAGTAGCGACAGA +TCATCAGGTAGCAAAAATAAATGGCAGCATATCAATACCTGGCTTGAGCGAGACATAATACCGTTACGTT +CCCGGCTGACGCTGGGTGATGGTTATACTCAGGGCGATATTTTCGATGGTATTAACTTTCGCGGCGCACA +ATTGGCCTCAGATGACAATATGTTACCCGATAGTCAAAGAGGATTTGCCCCGGTGATCCACGGTATTGCT +CGTGGTACTGCACAGGTCACTATTAAACAAAATGGGTATGACATTTATAATAGTACGGTGCCACCGGGGC +CTTTTACCATCAACGATATCTATGCCGCAGGTAATAGTGGTGACTTGCAGGTAACGATCAAAGAGGCTGA +CGGCAGCACGCAGATTTTTACCGTACCCTATTCGTCAGTCCCGCTTTTGCAACGTGAAGGGCATACTCGT +TATTCCATTACGGCAGGAGAATACCGTAGTGGAAATGCGCAGCAGGAAAAAACCCGCTTTTTCCAGAGTA +CATTACTCCACGGCCTTCCGGCTGGCTGGACAATATATGGTGGAACGCAACTGGCGGATCGTTATCGTGC +TTTTAATTTCGGTATCGGGAAAAACATGGGGGCACTGGGCGCTCTGTCTGTGGATATGACGCAGGCTAAT +TCCACACTTCCCGATGACAGTCAGCATGACGGACAATCGGTGCGTTTTCTCTATAACAAATCGCTCAATG +AATCAGGCACGAATATTCAGTTAGTGGGTTACCGTTATTCGACCAGCGGATATTTTAATTTCGCTGATAC +AACATACAGTCGAATGAATGGCTACAACATCGAAACACAGGACGGAGTTATTCAGGTTAAGCCGAAATTC +ACCGACTATTACAACCTCGCTTATAACAAACGCGGGAAATTACAACTCACCGTTACTCAGCAACTCGGGC +GCACATCAACACTGTATTTGAGTGGTAGCCATCAAACTTATTGGGGAACGAGTAATGTCGATGAGCAATT +CCAGGCTGGATTAAATACTGCGTTCGAAGATATCAACTGGACGCTCAGCTATAGCCTGACGAAAAACGCC +TGGCAAAAAGGACGGGATCAGATGTTAGCGCTTAACGTCAATATTCCTTTCAGCCACTGGCTGCGTTCTG +ACAGTAAATCTCAGTGGCGACATGCCAGTGCCAGCTACAGCATGTCACACGATCTCAACGGTCGGATGAC +CAATCTGGCTGGTGTATACGGTACGTTGCTGGAAGACAACAACCTCAGCTATAGCGTGCAAACCGGCTAT +GCCGGGGGAGGCGATGGAAATAGCGGAAGTACAGGCTACGCCACGCTGAATTATCGCGGTGGTTACGGCA +ATGCCAATATCGGTTACAGCCATAGCGATGATATTAAGCAGCTCTATTACGGAGTCAGCGGTGGGGTACT +GGCTCATGCCAATGGCGTAACGCTGGGGCAGCCGTTAAACGATACGGTGGTGCTTGTTAAAGCGCCTGGC +GCAAAAGATGCAAAAGTCGAAAACCAGACGGGGGTGCGTACCGACTGGCGTGGTTATGCCGTGCTGCCTT +ATGCCACTGAATATCGGGAAAATAGAGTGGCGCTGGATACCAATACCCTGGCTGATAACGTCGATTTAGA +TAACGCGGTTGCTAACGTTGTTCCCACTCGTGGGGCGATCGTGCGAGCAGAGTTTAAAGCGCGCGTTGGG +ATAAAACTGCTCATGACGCTGACCCACAATAATAAGCCGCTGCCGTTTGGGGCGATGGTGACATCAGAGA +GTAGCCAGAGTAGCGGCATTGTTGCGGATAATGGTCAGGTTTACCTCAGCGGAATGCCTTTAGCGGGAAA +AGTTCAGGTGAAATGGGGAGAAGAGGAAAATGCTCACTGTGTCGCCAATTATCAACTGCCACCAGAGAGT +CAGCAGCAGTTATTAACCCAGCTATCAGCTGAATGTCGTTAAGGGGGCGTGATGAGAAACAAACCTTTTT +ATCTTCTGTGCGCTTTTTTGTGGCTGGCGGTGAGTCACGCTTTGGCTGCGGATAGCACGATTACTATCCG +CGGCTATGTCAGGGATAACGGCTGTAGTGTGGCCGCTGAATCAACCAATTTTACTGTTGATCTGATGGAA +AACGCGGCGAAGCAATTTAACAACATTGGCGCGACGACTCCTGTTGTTCCATTTCGTATTTTGCTGTCAC +CCTGTGGTAATGCCGTTTCTGCCGTAAAGGTTGGGTTTACTGGCGTTGCAGATAGCCACAATGCCAACCT +GCTTGCACTTGAAAATACGGTGTCAGCGGCTTCGGGACTGGGAATACAGCTTCTGAATGAGCAGCAAAAT +CAAATACCCCTTAATGCTCCATCGTCCGCGCTTTCGTGGACGACCCTGACGCCGGGTAAACCAAATACGC +TGAATTTTTACGCCCGGCTAATGGCGACACAGGTGCCTGTCACTGCGGGGCATATCAATGCCACGGCTAC +CTTCACTCTTGAATATCAGTAACTGGAGATGCTCATGAAATGGTGCAAACGTGGGTATGTATTGGCGGCA +ATATTGGCGCTCGCAAGTGCGACGATACAGGCAGCCGATGTCACCATCACGGTGAACGGTAAGGTCGTCG +CCAAACCGTGTACGGTTTCCACCACCAATGCCACGGTTGATCTCGGCGATCTTTATTCTTTCAGTCTTAT +GTCTGCCGGGGCGGCATCGGCCTGGCATGATGTTGCGCTTGAGTTGACTAATTGTCCGGTGGGAACGTCG +AGGGTCACTGCCAGCTTCAGCGGGGCAGCCGACAGTACCGGATATTATAAAAACCAGGGGACCGCGCAAA +ACATCCAGTTAGAGCTACAGGATGACAGTGGCAACACATTGAATACTGGCGCAACCAAAACAGTTCAGGT +GGATGATTCCTCACAATCAGCGCACTTCCCGTTACAGGTCAGAGCATTGACAGTAAATGGCGGAGCCACT +CAGGGAACCATTCAGGCAGTGATTAGCATCACCTATACCTACAGCTGAACCCGAAGAGATGATTGTAATG +AAACGAGTTATTACCCTGTTTGCTGTACTGCTGATGGGCTGGTCGGTAAATGCCTGGTCATTCGCCTGTA +AAACCGCCAATGGTACCGCTATCCCTATTGGCGGTGGCAGCGCCAATGTTTATGTAAACCTTGCGCCCGT +CGTGAATGTGGGGCAAAACCTGGTCGTGGATCTTTCGACGCAAATCTTTTGCCATAACGATTATCCGGAA +ACCATTACAGACTATGTCACACTGCAACGAGGCTCGGCTTATGGCGGCGTGTTATCTAATTTTTCCGGGA +CCGTAAAATATAGTGGCAGTAGCTATCCATTTCCTACCACCAGCGAAACGCCGCGCGTTGTTTATAATTC +GAGAACGGATAAGCCGTGGCCGGTGGCGCTTTATTTGACGCCTGTGAGCAGTGCGGGCGGGGTGGCGATT +AAAGCTGGCTCATTAATTGCCGTGCTTATTTTGCGACAGACCAACAACTATAACAGCGATGATTTCCAGT +TTGTGTGGAATATTTACGCCAATAATGATGTGGTGGTGCCTACTGGCGGCTGCGATGTTTCTGCTCGTGA +TGTCACCGTTACTCTGCCGGACTACCCTGGTTCAGTGCCAATTCCTCTTACCGTTTATTGTGCGAAAAGC +CAAAACCTGGGGTATTACCTCTCCGGCACAACCGCAGATGCGGGCAACTCGATTTTCACCAATACCGCGT +CGTTTTCACCTGCACAGGGCGTCGGCGTACAGTTGACGCGCAACGGTACGATTATTCCAGCGAATAACAC +GGTATCGTTAGGAGCAGTAGGGACTTCGGCGGTGAGTCTGGGATTAACGGCAAATTATGCACGTACCGGA +GGGCAGGTGACTGCAGGGAATGTGCAATCGATTATTGGCGTGACTTTTGTTTATCAATAAAGAAATCACA +GGACATTGCTAATGCTGGTACGCAATATTACCTGAAGCTAAAAACCTGCACGTTAGCCCTTTGTAGGCCA +GATAAGACGCGTCAGCGTCGCATCTGGCATAAACAAAGCGCACTTTGCTGGTCTGTTCCCCTCACCCTAA +CCCTCTCCCCGGAGGGGCGAGGGGACTGTCCGGGCACATTTTTAGACTTTGTCATCAGTCTGAGCCTGCC +ATTGGCAGGCTCTGGTGTCCTTTTACGCTACCATGCTAATAATCAGCACAATAATCAGCCCAACCACGGA +GTTGACCAGCTCCAGCAGACCCCAGGTTTTCAACGTGTCTTTTACTGACAGGTCAAAGTAACCTTTGAAC +AACCAGAAAGATGCATCGTTAATGTGGGTGAGGGTGTTGGAACCCGCAGCCGTCGCCAGTACCAGCAGCG +CCGGATTCACGCCAACCAGCTGACCAGTTGCTGGATCTAGGATTGCAGCACTGATAATCCCGGCGGCGGT +CATCGCCGAAACGACACCCTGACCCGTCGCCAGACGAATTAGCACAGTGATCAGCCATGCCATGATGTAG +GGCGAGATATTGCCGTGGGACATCAACATGCCGATGGTGTCGCCAATGCCGGTGTCGATGATGGTCTGCT +TCAGCACGCCACCCGCACCGATGATCAGAATCACCATTGCAATACTCTTCACCGCGCTTTCAAAAGCGTT +CATCACCCACTGCATGTCATGACCACGTGCGGTGCCAAAGAGTACGAATGCAACCACCATCGCAATAAAC +ATTGCAATCGGCGAGGAACCGATAAAGTTAACCACTTCCCAGGCAGGGGTATCTTTTACCAGCCAGATAT +TGGCGATGGTGGTAGAGATCATAATGATCGCCGGGATCAGCGGCACCAGAATCGAAACGCCGAAAGAGGG +CAGATTATTCATATCTACCGGTTGATCTGCTTTCAGGAATGATGGCGTTGGGCGCTCAAGATTGCCGAGG +AACTTCGGCAGGATCAGACCTGCGCAGATTACACTTGGGATCGTCACCAGTACGCCATAGATATAAACCA +TCCCCATATCCGCGCCATAAGCATTCACCAGCGCCACCGGACCCGGCTGCGGTGGGAACAGTGAATGTGC +GGTAGTGGCAGCTGCTACTGCCGGGATCGCCAGTTTCAGGAACGGAATTTTAGCTTCGGCGGCAATAACA +ATAACCAGCGGCGCTAACATGATAAAGGCCACTTCATAGAACATCGCCAGACCAAAAATCAGGCCGATGA +TAATCACCGACAGCTGTACATAGCGCAGACCGAGACGCGCCAGCAGCGTATGCGCTATCTGGTGAGCCGC +GCCGGAGTCGACCATCAATTTACCGATGACCGCACCGAACACCACGATGATAGCCAGTTCCCCCAGCGTG +TTGCCGAAGCCCGCTTTCATAGTGTGCAGCAGCGACATCAAATCCATGCCCGCCAGCATCCCGACGGACA +GCGCCGCCACCAACAAAGCCACCATTGAATTGATTTTGAACTTCAAATTCAGTACCAGCATCAGACCAAT +GCCGAATACCACCCAGAGAATGTTAAGCACATGCATAACGTTTTACCTTACCTGGTTGAACCGTTGTTAT +TTTGGGCGATATGTTATGTAAATTGGTCAACCATTGTTGCGATGAATGTCACATCCTCTGATCAATAACC +ATCGATTACCCTTTGCTGCAATTTGCAGCAACAACCATGAGAGTGAAATTCTTGTGATGTGGTTAACCAA +TTTCAGAATTCGGGTTGACATGTCTTACCAAAAGGTAGAACTTATACGCCATCTCATCCGATGCAACGCC +ACGGCTGCGGTCTGGTTGTTCATCCGGATACCTAAACAACTCCAGGGTTCCGCGTCTCTTTGCTGTGGAA +CCCACTATGTGAAAGAGGAAAAATCATGGAACAGACCTGGCGCTGGTACGGCCCAAACGATCCGGTTTCT +TTAGCTGATGTCCGTCAGGCGGGCGCAACTGGCGTGGTTACCGCGCTGCACCATATCCCGAACGGCGAAG +TATGGTCCGTTGAAGAGATCCTCAAACGCAAGGCGATCATTGAAGACGCAGGCCTGGTGTGGTCTGTCGT +AGAAAGCGTGCCAATTCACGAAGATATCAAAACCCACACTGGCAACTATGAGCAGTGGATCGCTAACTAT +CAGCAGACTCTGCGCAACCTGGCGCAGTGTGGCATTCGCACCGTGTGCTACAACTTCATGCCGGTGCTCG +ACTGGACCCGTACTGACCTCGAATACGTGCTGCCAGACGGCTCCAAAGCTCTGCGCTTCGACCAGATCGA +ATTCGCTGCATTCGAAATGCATATCCTGAAACGCCCAGGCGCGGAAGCGGATTACACCGAAGAAGAAATT +GCTCAGGCAGCTGAACGCTTCGCCACTATGAGCGATGAAGACAAAGCGCGTCTGACCCGTAACATCATTG +CTGGTCTTCCGGGCGCGGAAGAAGGCTACACCCTCGACCAGTTCCGTAAACACCTGGAGCTGTACAAAGA +TATCGACAAAGCGAAGCTGCGCGAAAACTTTGCCGTCTTCCTGAAAGCGATTATTCCAGTTGCTGAAGAA +GTCGGCGTGCGTATGGCTGTTCACCCGGACGATCCGCCGCGCCCGATCCTCGGCCTGCCGCGCATTGTTT +CCACCATTGAAGATATGCAGTGGATGGTTGATACCGTAAACAGCATGGCAAACGGTTTTACCATGTGCAC +CGGTTCCTACGGCGTGCGTGCTGACAACGATCTGGTTGATATGATCAAGCAGTTCGGTCCGCGTATTTAC +TTCACCCATCTGCGCTCCACCATGCGTGAAGATAACCCGAAAACCTTCCACGAAGCGGCGCACCTGAACG +GTGACGTTGATATGTACGAAGTGGTGAAAGCGATTGTTGAAGAAGAACACCGTCGTAAAGCGGAAGGCAA +AGAAGACCTGATCCCGATGCGTCCGGACCACGGTCATCAGATGCTGGACGACCTGAAGAAGAAAACCAAC +CCAGGTTACTCCGCAATTGGTCGTCTGAAAGGCCTGGCCGAAGTTCGCGGTGTCGAACTGGCGATCCAGC +GCGCTTTCTTTAGCCGTTAATATCCACCGGCATGGCTGCGCGCCGTGCCGGTTCCTTCTTCCTTGCCGTC +ACTCTTTGAAGACGGATTCTGGAGTTTACGATGACTACTATTGTTGACAGCAATCTGCCGGTTGCCCGCC +CGTCATGGGATCATTCTCGTCTGGAATCACGCATTGTGCATCTCGGTTGCGGGGCGTTTCACCGCGCGCA +CCAGGCGCTGTATACCCATCATCTGCTGGAAAGCACCGACAGCGACTGGGGCATCTGCGAAGTTAACCTG +ATGCCAGGCAACGACCGCGTGCTGATCGAAAACCTGAAAAAACAGCAACTGCTGTACACCGTAGCGGAAA +AAGGCGCAGAGAGCACCGAGCTGAAAATTATCGGTTCGATGAAAGAAGCGCTGCATCCGGAAATCGATGG +CTGCGAAGGTATTCTCAACGCGATGGCGCGTCCGCAAACGGCGATTGTCTCTCTAACGGTCACGGAAAAA +GGCTACTGCGCTGATGCGGCAAGCGGTCAACTGGATCTCAATAACCCGCTGATCAAGCACGATCTGGAAA +ACCCGACTGCGCCGAAGTCCGCGATTGGTTACATCGTCGAAGCGTTGCGTCTGCGTCGTGAAAAAGGGTT +GAAAGCGTTTACGGTGATGTCCTGCGATAACGTGCGTGAAAACGGTCATGTGGCGAAGGTCGCGGTACTG +GGGCTGGCTCAGGCGCGTGACCCGCAGCTGGCGGCATGGATTGAAGAAAATGTCACCTTCCCGTGCACCA +TGGTTGACCGCATCGTTCCGGCGGCGACGCCAGAAACCTTACAGGAAATTGCTGACCAGCTGGGTGTTTA +CGACCCGTGCGCCATTGCCTGCGAACCGTTCCGTCAGTGGGTGATTGAAGATAACTTCGTTAATGGTCGC +CCGGATTGGGATAAAGTGGGCGCACAGTTCGTTGCAGACGTTGTGCCGTTCGAAATGATGAAGCTGCGTA +TGCTGAACGGCAGCCACTCTTTTCTGGCGTACCTCGGTTACCTCGGCGGCTATGAAACCATTGCCGACAC +CGTGACTAACCCGGCTTATCGCAAAGCGGCCTTTGCCCTGATGATGCAGGAACAAGCGCCAACGCTGTCG +ATGCCGGAAGGTACAGACCTGAACGCCTATGCGACGCTGCTGATCGAGCGTTTCAGCAACCCGTCTCTGC +GTCACCGTACCTGGCAGATTGCGATGGACGGCAGCCAGAAGTTACCGCAGCGTCTGCTGGACCCGGTGCG +TCTGCACCTGCAAAACGGCGGCAGCTGGCGTCACCTGGCGCTGGGCGTGGCTGGCTGGATGCGTTACACC +CAGGGCGTGGATGAGCAGGGTAATGCCATTGACGTGGTCGACCCGATGCTGGCGGAGTTCCAGAAGATCA +ACGCGCAGTATCAGGGCGCAGACCGCGTGAAAGCGCTGCTGGGCCTGAGCGGTATTTTTGCCGATGATCT +GCCGCAGAATGCCGACTTTGTTGGCGCAGTGACGGCGGCATATCAGCAGCTGTGCGAACGCGGTGCGCGC +GAGTGTGTGGCTGCGCTGTAACTAACTGATTACCCTACAGACTTACTGGTCAATCAAACTGATATTTGGT +TGACCAGTTTTCGTTTTTTTGCCCACCTGTACGTGCCAACTTCCAGTGCTAATGGTATAGTTTGAGATTA +ACGGGGGCCGTAAAATTGCCCGTTGTAGGCCGGATAAGGCGTTCACGCCGCATCCGGCAAAAATTTGATT +AACCGCACCTAACGGACACAACACCATGAAATCTGCCACCTCTGCGCAAAGACCTTACCAGGAAGTCGGG +GCGATGATCCGCGATCTGATCATAAAGACGCCGTACAATCCTGGCGAACGGCTGCCGCCGGAGCGTGAAA +TTGCAGAAATGCTTGATGTCACGCGGACGGTGGTACGTGAAGCGCTGATCATGCTGGAGATCAAAGGGCT +GGTGGAAGTACGCCGGGGTGCCGGTATCTATGTTCTTGATAACTCAGGCAGCCAGAACACAGACAGTCCG +GATGCCAACGTCTGCAACGATGCCGGTCCTTTTGAGCTGTTACAGGCGCGGCAGTTATTGGAGAGCAACA +TCGCCGAGTTTGCCGCTTTGCAGGCTACCCGCGAAGATATCGTCAAAATGCGTCAGGCATTGCAACTGGA +AGAGCGTGAACTGGCTTCCAGTGCGCCGGGCAGCAGCGAAAGCGGTGACATGCAGTTCCATCTCGCTATT +GCCGAAGCAACGCATAACAGCATGCTGGTGGAGCTGTTCCGTCAGTCCTGGCAGTGGCGGGAAAACAATC +CAATGTGGATCCAGTTGCACAGCCATCTGGATGACAGCCTGTATCGCAAAGAGTGGTTGGGCGATCACAA +ACAGATCCTCGCCGCGTTAATCAAAAAAGATGCCCGAGCGGCGAAGCTGGCAATGTGGCAGCATCTGGAA +AACGTTAAGCAACGTCTGCTGGAATTCTCGAACGTTGACGATATTTATTTTGATGGCTATCTGTTTGATT +CATGGCCGCTGGATAAAGTCGACGCCTGACTTATTATAATAAGCGCAAGGGTAAACGTTCCTTGCGCTTT +CTTAAATTAAGAAGTCGCAATGAGTATTACTTTGTAAATTGCAGGGTATTGTTTAGCTATCTGTATAACC +TGAATGTTAGTACTCATTCTTCCTGGTAGTTATTTACCAATATAATTCCATTCACCATTTTTTAATTCAA +ACAGTTCTGGAAGAGATGACGGTTGCAGAGTCATACGTTTGAGTGGTGCATTTTCATCACCCGGGATAAC +TTTATATCCCATTTTTGCATGGATCTCCGCGGTACCGGGATAGGCTTCTATACCAATTATTGGGTCATTA +CCCAACTCAATATTAGCATTAAGTAATGCGGCAAGGGCGAATCCGGAAGAATTTGCTACCCCTGTTACCG +TCATTATCTGATCAATATAGATATCAATCCTTGGCTGCTCATTGGTCCATCTTTTTGCCTGAGAAGCTGG +AAGGGTTGAAATATATCCTATCGTGGTTCCGGCATAACCAGGAACATTGCAACCAGGGCCTAATGTTATT +TCATGAACTGTATAGTCCTCAACAGGATCGAAAGGGCTCTTCATAAATAAATTTAGCCGTAAACCTTCTG +CTAACTCTGTGGTAGCATGCGCCTTTTTACATATGCCACCATATATTTCGTCTAAAGCTGAGGTGATTTT +CAAGTTCCGATAGAGCATACGTCCTGTTGTTGTAATACCATCGGATTCTCTGCATGCTCCTGTCACATAA +TTAAATGGCCAAGGCTCTTTACTAATATCAAGTTTTCTAATTTCGACAACGCTTTTTCCATCGTAATTAT +GGTTATTGCCACGAGTAAGAGGCGGAAGATAGATGTTTTCCGAATCCATGCGTGCATATTTTAATTTACG +TGTAAACTCACTGTCGACTATTGGGTGATGAAGGAAGTGAGCATCTGTAATAATTTGACTCTGAAGGGCA +TTGCTTAATGGCATAGACATAATAGTTACCTTTTATGAGTATTTCACTGATGTTTAGAAAAATAGATAAA +TTTTTCTGTAGTAAAAAGAGAAGTAAACAAATGACATGCATGTTTCTGTTGTAGTGATATCAACTCTACA +CGGTGATATTAAAGGGTAGGAAACACTCTAAAGTATCAAAAAACGCTCATTTAAAATTATTTGCATGCAA +TTTAAAAGCATATCTTATTACTAATTGGAATTTGATGTTGCTATATTGAGGTCTATATTAATAATGCCTG +TGAATGGTATTTTTGATGTATTTGATATGTTATCAATTTATATTATTTACAAACTAATTGTTTCAAATAA +TACATGGCTGATTATGCGGAAATAAATAATTTCCCACCGGAATTAAGTAGCAGCGGTGACAAGTATTTTC +ATCTACGTAACTATTCGGAATATTCAGAATATACTAGCGGTTTTTTTTTGAGTTTGATGATTTTTATCAA +ATCATGACTTTTTTCCTGAAAAGTCAGTAGATATTCATAGGCAAGTAAGGTTTTATACTTTGCTGACAGG +ATTCAGGCCTGTCTCAGACTGACATGGATGTAATGAACAAAAGGGAATGGCTATGGAAAATGAGCATCAA +TACAGTGGTGCCCGGTGTTCAGGGCAAGCCGCATATGTTGCTAAACGTCAGGAGTGCGCAAAATGATGCG +ACAATCACTTCAGGCTGTTTTACCTGAAATTTCAGGCAATAAAACGTCATCGCTGCGTAAATCGGTATGC +AGCGATCTCCTCACTCTTTTTAATTCTCCTCATTCGGCATTACCGTCATTACTTGTTTCAGGCATGCCCG +AGTGGCAAGTGCATAACCCGAGCGACAAACATCTCCAGAGCTGGTATTGCCGTCAGCTGCGTTCTGCACT +GTTATTTCATGAGCCACGGATTGCGGCGTTGCAGGTTAATTTGAAAGAAGCGTACTGCCACACTCTGGCG +ATCAGCCTTGAGATAATGCTGTACCACGACGATGAACCGCTAACGTTTGATCTGGTCTGGGATAATGGCG +GTTGGCGCAGTGCGACGCTGGAGAATGTCAGCTAAGCACAATCTCCAGCTCGCGCAGTTCACGCCAGAAG +CGTTCGGCAACGGGATTCATGCGGGTATTCATCCGGTATGCATAGGCCTGAATCGGGATCACCAGTTCGT +CCCGATTCAGTACAACGAGCTTCCCGCTGCGAATTTCTTGTTGGATGGCGTACTCCGGCAGCCAGGCAAT +CCCACAGCCGTCGAGGGCAACCTGCTTTAAAAGCTCGCTCATCGAAGAGACAAAAAAGGTGCTGAAACTT +AACTCACTGTGGCGCGTCAGGGTGCGATTAATCAATCGCCCCATGTAGGAGTTGCGGCTGTAATTCAGTA +ACGGAAAGTGTGGCTGCGCGAGGTTAAAAAGTGCTTCTCCGTGTTCGTCACTGGCGCAGACAGGGAACAA +TTGAGATTCAAATAAGCGAATGTGGTCAAACGGCGCTTCCAGCAAATCTTCGTCGTGAAAGGAAAAAATA +CAGTCACTTTGCCCTTCACGCAGTTTATCGACCGCTTCATCGACATCAATAGCTTCAATTGCCCAGGTAA +AGAGCGGCGGCATCTGGCTGATAATGGACGGTAACAGCCCGAGGGAAAGAGAGTGTGCAGCGGCTATCTT +GATTTTTCGTTGCGCGTAATCGCTGCCGCCACGCAGCTCTGCCAGATTGCTCTCTAACTGTTGCAACAGA +TGGCGGATCTGCGAATGGAAGATTTTCCCTTGTTCTGAGAGTTGCAGCGGCGTTACCTGGCGGTTAAACA +ATTCAACACCAATCGCCTGTTCCAGCGCACGGATGCGGCGGCTGAATGCCGGTTGCGAGACGTTGCGACT +GACTGCCGCCTGGGAAAAATTGCGGCATTTTTCCAGGGTCAGAAAATCATAAAGCCATTTGGTTTCAATA +TTATGCAAAATCGCACCACAGTCATCCATTACGTTTTACTCTGTCAGCCGCCCTTGCGGGCATTCTACGT +CCATTCGGGCGGCTGACAACCGTTTAAGCCGTTTCAAACGTTCCTTTCACGCAGGCTTTGCCGTCTTTGA +CCATCAGTTTGCCGCGAGCGTATACCTGCTCAATGCGCAGTTCTGGCGTCATGACCAGCAAGTCAGCATC +ATTGCCTGGCAGAATTTCGCCTTTCCCGGTCAGGTTAAGGAAACCGGCTACGCTACTGGTGAGCGGGCGC +AGGGCATCGCTGATACTGAAATCATAGTCTTTGACCAGCACCTGCACGGTTTCCAGCAACGTTTCAAAAC +CGGCAACACCGATATGGGTTAAATTCCCTTCGTCATCGAAGAACGGCTGGCTACCGTTGCCGTCGGAGCT +GAGGGTGACGCGTGCCAGCGGAATACCCGCCTGAACGGCGCGGGCAATACCTTCGGCAGGGGCGACCGGT +TCGTCAATGCTGCTGGTGATATCGATGGTGCCGCCTTTGCGCGCGAACTCCAGCGCCTGCTCAAACAACG +GTACGTTGCGGTTAACGTGGGTCGGCAGCAGCTTGCTGATCGGCACATCGCAGTTTTCCAGCAGGTCATA +AATAGGCTGTAACGCCTTTTTACTGTCGCCCATGTGGAACACGGTGACGCCAGGTTTACCGCCGAGCAAA +CCGCCAACGCGGGATTCTGCCGCCATATTGGCCAGGTGATAAACGTCCGGTGCGGCAGAACGGTGATCAG +AGATGGCGCATTTCACGCCAATCACACGATCGATAATCGCCACGTCTTTTTCCACGGAACCCGTAATGGT +GCGGGAAGGGACATGATAAGCGCCGGTCAGCATCCAGGCGCTGATGCCTTCTTCATTGAGCGCACGGGTC +TTGGCGAGCAGGGATTCCGGGTGGCGAGAGATAGAGTCGGTGCCCAGCAGACCAACCACTGACGTGACGC +CCGCTTCCGTCAGGCGACTTAGCGCCACTTCCGGCGTGCGCGTCGTGGGACCTGCTTCGCCGCCACCGCC +AATCAAATGGACGTGTTGATCAATAAAACCTGGGCAGAGGATCTGCCCACTGAGATCGACAACCGTGCAG +TTCGGTACAATGTCAGAAGGGATATTGCTGGCAACGGCGATAATTTTGCCGTTAGCGACGAGGACATCGC +AAATTCCCCGATCTTCCGGCGCATACAAATGCGCTCCCTGCAGCAGGGTAAAACCGGCTGCGGTATAATC +AATCATGGTAACTCCTTGTTAAACAATAAGCTGCATAACCCAGATCGACAGCAATGCGTTAATCACGCAG +ACCGTAATGATATGCGGGTAATATTTGGCATTCACTTCGGCTGTCCCCAGGCAGCGACCGACATTTTGCA +CCGGGTTGCCCATTAAATACATCGCGGGCAGTAAAACGGTGACATCGTGACCGGTTAATGCGCCAGCGGT +TGCCAGACTGGCGGCAACACCGACTGCGCCACCCATACTCATTAATGCGGCTAAAAGGACGGTTGCCGCT +TCACCGGGTAATCCCCACAGCGCCATTACGGGTTCACAGATATGCCCCACCCAGTCGAGCAGGCCGGTAA +TTTTCAGCGCCTGAATGATGACAAACGCCATCACCACGTTTGGCAGCAGGTTGGTCGTGGCGATAGTAAA +GCCACGGCGCGCGCCATCGATAAACATATCCATGACGTTTTTGCGGACCTGAGTTGTCATGCTTGCGCTC +CTTGCGTTGGGTTGCGACGTTCTTCGAAGTTAAGCCAGACGCGCAAAATGTTGGCTCCGACAAATTTAAA +CACCAGGATGACGGCTAAAGGTACGATTACGGACGTGCCCAGAAAGGCAAACACCGCGACGCCGGAAGAG +AAGTAGTTGGTGATGATGGCGCTACCGCTGGTTTGATATGCGGCGAAAATCACTTTATCGCGTTCGGTAA +TTTCACCTTCCTGCGCCAGCTCTTTGGTCATACCGGCGGCGGCATCGGTGTTTTGCAGGTTAGCGATCAG +CGCCAGCGAGCAGATCCCTGGAATGCCCAACAACGGTTTTAGCACAGGTGTCATTAACTGCTGCGCGGCG +CGTAATCCACCAAGACCATCGGTAATTGAAATAATCCCCAGAGAGAGAATGACTGACGGTGCCAGCTCCA +GCGCAAAGAGAAAGCCATCTTTAGCCCCCGCGCCACCCGCGCCGCGAAATGAGGTGGTGGCTCCGTTCGC +ACCAGGCAGTTGCCCAAACGATCCGTTCAGAACGGAAAAATCAAAAACGCGCCACCAGCTGTCTGTTCCG +GAAAAAACACCGGAAAAAAAGATTATGGTGAGAAAAAAGGCCAGATACCCTTTAATGCCCACTTTTTCTG +TCGCCAGCTCCCCGGCTACAGCATCCCCTTGTTGTGTCATAACAATCCCCATTGTTTTTTTGTGTTTGTG +TGTTGCTTGAGCCAGGAAAATTCCTGGAACTGAAAAACCTTATCAGCCATGTGGGTATGGGGAAAATGCA +AGTATGTTTCTGGCTATGCGTTTTTTGCATAGCGGAAAAATTACGCTGTGTGGAAAAGGCTCTGCGCAGG +ATTGAGTTGCAGAAAATTCATAAACCAAGTGACAATGACATCAGTAAATAAAAACAGAAAATCCAGGGAC +GAAAACGAGATGGCAAAGTACAACGAAAAAGAGCTGGCGGATACGAGCAAGTTTTTAAGTTTTGTCCTCC +GACACAAACCGGAGGCGATTGGTATCGTACTGGACCGTGAAGGATGGGCGGATATCGATAAGCTCATACT +TTGTGCCCAAAAAGCGGGCAAGCGGTTAACCCGTGCATTGCTGGATACTGTGGTTGCCACCAGCGATAAA +AAGCGTTTTAGTTATTCCAGTGATGGTAGGTGCATCCGCGCGGTTCAGGGGCATTCGACTTCGCAGGTCG +CTATTTCCTTTGCCGAAAAAACACCGCCACAGTTTCTCTACCACGGTACGGCAAGCCGTTTCCTTGACGA +GATAAAAAAACAGGGGCTGATTGCAGGTGAGCGTCACTACGTACATCTCTCTGCTGATGAAGCAACGGCA +CGCAAAGTGGGAGCAAGACACGGATCGCCGGTTATTTTAACCGTCAAAGCACAGGAAATGGCGAAACGAG +GCCTCCCTTTCTGGCAAGCGGAAAACGGGGTCTGGCTGACATCAACGGTTGCGGTTGAGTTTCTTGAGTG +GTAAGGGAAACTTCCCTCATGAAGTGACCACTTGTAGCTTAAATAATTGCACTGTGCTGATAAGCGCAGC +AATAAACAACGCCGCCGCGCCGCAGAGAGTGGCGCTGGCAAGCGCCGATGTTCCATTGCTGAGCATACTG +GTCAGCGCCGGGCCGAGGATTTGCCCAATGCCGTAAATGAGCGTCACAAAGCCTAAAAGATTGAGATTTC +CCGGTACGCTCAGTTGGCGGGCGATAGTCATCACCAGAGATGTCGTGCCCATAAAGGTACCGCCAAAACC +AAGACTGCTGATGATAAGCAAGAGAGGCGAGTCGCTGGCGAGAGTAAGCAGCACACAGATAGCCTGCACC +AGCAAATTCGCCGTCAGGCAGGGCAAAGCCCCCCAACGTTTTGCTGCCCATAGCCAGCCAAAGCAACCAG +GCACAATTGATAAGCCGACTAACGTCCAGAGATGGGCGGTTAACAATGGTGAGCCTGCATCTTTCGCCAT +GAGCGGCAGGTAAGTCGCGACGATGATATAACCAAATCCCGCCAGGCCGTACAGAATAGCCAGTAACCAC +CAGCTCATTATCTGTTGCTCCGTTTTTGCCAATGGCATTGGTGTGATGGCGTGTTTTTTCGAGGGCATTA +AAAGCGTAAGTGCAATCAGCATCATGCCAGAAAGCGCCCCGGCGCCTTGCCATAACGTTTGCGAGGAGAG +GTCAAAATGCAGGCCTGCCAGAACATATTCATTGCCCAGTGCGATGCCAATGCCAACGCCAGAAAACAAA +GCTGCCAGCACAAAAGGATGGCGCGTGTGCTGCATAATCAGCGTCGAACCAAAAATCAGCATACCGGCGC +TGGCGACACCCGCCAGGACGCGAATCAATAACACCAGAATAAATGGCGGCAACCATGCCATTGCGAGGAT +CAACAACCCGCTCGCCAGGGCAGAAGCCAACAGAAATGGGCGCAGGCGCGATGGCTGGTGAAATGCGCCA +AAAGAAAATAGCAGACTGCCAGCCAGATACCCCGCATAGTTGCCGCTGGCAATCCACGAGAGCTGGCTAA +ATGAAAACGATCCTTCCGCCATCATGACGGGCAACATAGGCGTATAAAGGAAGCGGCCTAAACCCATACC +TAAGGTCAGAACCAGCATCCCGAAAAGCGCGGTGCTGAAAGAAAAGCGTTCTACGGGATGCGTGGACGAA +GGCATGTTTAACCTTGTTTGTCATTTTTGTTGTTAACAAGTTAATAACAAAAAGGTGAAGCATGCCAGCC +TGTTAATGCGATGATTGAGGGGTAAAGCGATAAAAACGATTTGGTTCGCTAACGATATAAATATTACCAG +AGGCATCCATCGCAACCCCTTCGGCCTGTTTGATGTTATGCGACAAACCTCGACTGCCTTTGGTTAGTGA +CATTTCACCGATAACCTCGCCAACCAGGGTTACTTCCTGGAGTGCGCGAGATTCATGAGACAGCACCAGA +AGCGTATTTTTTTGCTGGTTAAATTCTGCGCCGGACACATCATCTAAAGTAAATTGCCGTTGTAGTGCCT +CGTCTTTGCTGATGTGTAATTCATTGCTACTTAACAGCCCGTTAACTTTGTAGACCTCAATCGGATTTTT +CTCTTTAAAAAACCAGAAAGTGTGATCCTGGCGAGAATAAGCCAACCCTTCAAAACCGCAATTGGTTGGG +GAGTCTTGCAGCGGGATTTTTATTTTTTTGAGGATTTTTACTTCCGAGTTTGGGGTCAGTGAAATCACAT +AAATGGCGTAATCGCGCTCATCGCTAATGACAAACTGATTATCGCCAATGTATTCGATCGTCTCGAGATC +CTTAACAAAATCCAGAGGAATTGTGCGGATAAAATCACCATTGGTGGTCATTTCAACAATGGCGGCAGGT +TTGTTGATAGTGCTAAAAAGAGTATTGCTTTGTGCCGACCAGGTCAGCGAAGAGATATTATTCGTTATGC +CTGCAATTTCTTTGCCGTCAATGGTGGCGTGGTAATTCTGAAATGATGCTGCATGATTGCTTTTACGGGC +GCAAGATTGCACGAAGAAAGTACACACTGCCACAATGGCAAAAAGAATCACAATAATGGAGATGCGTTTA +CTTAACGAAATACTTTTTGTCACGGTAATCCCTTTAAGGCAAATCAATAAGATATCGAGAAGTATACGTA +GCGACCTTAATGAATCCTTAACGCGGAGAAACCCCGTAATGTGCAATGCAGCGCCAGACACCATCCTGCT +GGCAATAAATTGACTCAGTCAGCCCAGGGATCACCCATTGTATTTCCTCGCCGGGGGGACAGGTCAGCCA +AATGCATAACCCGCAGCCGCCGCGTAAATCACGGGGAATATCGCTGACGCGAAAAGTCATGCCCGCTGCC +TGCAACGCTTTGCGGGTTTGTATGACGCCGACCGTGGAGTGAAATAAAAATAAAAACTCTTTCATCGGCG +TGTCCTCACTCGTTGACCAATTACCGCCGCGCCAATTGCGCCAGCAAATTGCGCATCAGGATGGGTATTT +ACCGGCATTCGCAGGTGAGATTCCAGCATCCGGGCAAACTTCTGGCAATGACTAACGCCACCAGTAAACA +GAATCGGCGCTTCACAGGAGAGACGAGCAATGAAATTGGCACTCCTCCGCGCCATCGCGTTAATCACTCC +TGCGAGAATCGCTTCTGGCGCGACGCCCGCTGAGCGCAGGCTGATCGCTTCTGATTCAGCAAACACTGTG +CACATACTCGTGATGGCGTGCGGCGTGACATTTTCGGTAATGCTGTCGAGTTGCTCGACGCTGGTGCCAA +GCGTGCGCGAGATCACCTCCAGGAAACGCCCGGTGCCCGCCGCGCATTTGTCATTCATCAGGAAATCGCA +CAGGTTACCGTCATCATCAAGCTGAATCACTTTGCTGTCCTGACCACCGATGTCGATTACCGCGCGCGTT +GCTGGCGCAAGAAACCGTGCGCCCAGCCCGTGACAGGAGATTTCCGTTACCTGTTTATCGGCAAAATCCA +CCAGTTGCCGCCCGTAGCCGGTGAGCGTCAGAAACGGCGTTGTCTCTAACCCTTCGCGCAGAGTTTCCCA +GGCTTCAGTAATTGCTGTTGCCGGGCGAAAGGGGGTTGGAACGAGGAAACGGCGCGTAATCACGCCGTCT +GCCAGTAAGATCCCTTTGGTGGCGGTTGAGCCGGAATCAATGCCAATCGAATATGCCACTGCCACTCCTT +ACAGCATCTCAATAAAGGCCGCGACACGGGTACTGAGCTGCCCGACATCCGAGGTGGAGTAGTCTGTTTC +AATAGCGATATAAGGAATGTTGTGCTGCTGGCGCACATGACGTTTAATCGCCAGCGATTCCACCGCGTAG +GTATGGCACGCCTGCAAAATCACATCAACTACGCCATCGACCTGATATTCCTCCACCATCTGGCTGAGCA +TTTTCAGGCGCTGATCGTTCGGCGAAACACAGGAGCAGCCAATCGCCAGATATTTATCCGCCAGCGCGTC +GTAGACATCGCCCGTTTCTGCCACGCATTGCTCGGTCGCTTTCGCCCCGGTGCAGTTTTCATAACCGACA +ACCCAGCCGCCATTCTCTTCAATCGCGCGCACCACTTTTTCTGCTGCGCCGCCAATCGGGCAGCCGGTGA +TTAAAATGCGCGGACGCGGGTCCAGTCGCTGGCCTTCTTCCCACTGCTGACGAACGCGGGCGGTCATTGC +ATCCAGTTCATTGATCAACGCCTCTTTATCGAACCGGAAGGTTGCGCCGTAAACCACTTTCAGAATGTCG +CTGCCGCTAAGCGCCGGAGGATTTAACTGCCCAAGATGATAAAAATTAGCCAGTGCGCGACGTTCGCGGT +TTTTCAGCGCAATGGCATCGCGCAGAGCATCTTCGCTAATCTCGTGCCCAAAACGTTCTTCTACCGTTTT +TTGCAAGCGCAGCATCTCGGCTTTCCATAACGCACGCGAGGCATCGTCCTTAACGCTGTTGGGCAATTGC +ATCACATGAACAGGCTTAAACTCCGCCATGTATTCATACATTTTCTTTTTGCCGTCGCAGGTGGTTTCAC +CGACCACCAGATCCGAAAAGTAGAAGTAGGGGCATTTATCGGTTTTGCCGAAGCCGTAGCTGCTTTTAAT +CAGCGGGCAGAGGTTGCGCGGCAGATCTTTCTCCGCTTCTTCAATGGTTTCATCAGAGGTGGAACAGAGC +GAAACCACAACCGCACCGGCTGCCATCGGGATCTCTTGCGGCATAAAGGTGCAGTAAGTGCCAACCAGCG +GAATGCCGCGCTCCTTGAGATCCATGACGGTGAGAAAGCCTGTCTGGCGAGCTTCAGAGAACTGATCGAA +AATGGCGGGTAGATCGGTGACAAGTGACATGATTTTCCTTCCCCGTACCACGGGAGATAATGAAAAGAGG +CCACATTATTACCATTCTTTTAGTATGGTTTATTTGATCTCTCTCGCGGTTAGCCACTTAGTTTTTCATG +GATTTCTAAAAATTGCCGAGGGGGAACAAGGCCGGGAGCTGCGACAGCAAATATAAAATTAGCCCAATAC +AACCGCCAACCAGCGTACCGTTGACACGAATAAACTGCAGATCTTTGCCGATATTTAACTCTATTTGCCG +CGACATATCCCGCGCATCCCAGCTTTTTACCGTATCGCTGATGTGGCGCGTCAGGAATGCGGAAAACTCA +GGCGCGACGCGGTGCGCGGCTTGTTCAAGATGACCATTTAACGACGCCCGCAAGGCATCATCGGCAATTA +ACGTTTCGCCAAACCATTGACCCGCTCGTGCGATGCGTTCTTTCACACGAGAATCTTCACTGTTGATATC +CACTTTCAGCCATTCCCGTAAATCCCCCCACAATTCACTGAGATAGCGATTAAAAGCTTCATCTTCTTTC +AGATAGCTTTTTACGGCATCGGCTCGCGCTGCCATTTCCGGATCGTTTTTCAGCTTGTCGATCAGGGCGA +AGGTGGCGCGATCAAACGCATGGCGGATCTGATGCGCACGATCGCGACTAATATCATCAAGCAAAGAATT +CACCGCGTCAGAAACCAACTCCGCGCTATGTTCGCCCAACCATTCGGTGGGGAGAATTTTGGCTTTCAGT +GGATGCTCGCTCTCCAGCCAGCGAACAATTTGCTGGGCGATAAACTTGCGCGATTTATCGCGCTGGAGAA +GGGCGATCAACTGTGCGATCAGCGTATCCAGCAGCACCTGATGACGATCGTTTTTGGTCATACTCTCCAG +CATCAACGCACTGGTGCCGGAAAGATCGACCTTATCAATCGCCCGATGGACCGCGCGCTTAAGCAGGCGC +TGAATACGCGCATCATCGGTAAGTTCGAGAAAACCGCTCATGATCTGCAACAGATGCTGACCAACGCGGC +GGGCGTTTTCTGGCTGGCTAAACCAGTTGCCAATCAGCAACGCCGGTTCGTGGCGTCGAATCAATGCCAC +CAGGGATTGAGTATCAAGAAATTTTTCCTGCACGAACTGGCCGAGATTTTCGCCAATCCGGTCTTTATTA +CGCGGGATAATCGCCGTATGGCGAGAAATGATCGGAATCGGCACGCGGCGAAACAGCGCCACCACCGCAA +ACCAGTCCGCCAGCGCGCCGACCATCGCCGCTTCAGCAATCGCCTTCACGCCGCTCACCCAAAAATTGGG +CGGCAAAAACAGCGTAACGACAAAGGTAGCAGCGGCGATAAGCAGTAAAGAGAGCGCCAACCTTTTGGCG +CGTCTGAGTTCGATGAGTTTATTCATAACGTTAAGAATAGAGCCTGACGGCCGGATCGCGCAAAAATCAC +TGCTCCTCCACTAGCTCGGCTGCCTGATGCTGGCGCACGCGATTGAGCAATCCCGCCAGGGTGAAAACGA +CGATAACGCCCGCCACAACGGCTAACAGATGAAACGGCAAGCGACCGCCGTTAAACCATAGCCAGCGGCC +GATTTCGACCGAGACCGACATCACCATCAGGATCACCATATTTAGCGATGCGGAGACGGTCCCTTTCGGT +AACTTATTGGAAAACAGCGTAAAGCGGAATAAGGTCGGGAAAATCAAACCAATCCCGAAAGCATACAGAC +TGGTGCCCAGCACCGACCACAGCCAGACGTGCGGCGACAGCAGATTGCCGACAATCAACAGCGAGAGGCC +GACCAGTTGAATGGGTACGGCACGCCAGATAAACCGCGGTTCGGTCGGATCTTTAACAAAACGCGCCACG +ATGGCATTCGCAACAATCACCGCGCCGAACACCGGAACCTGTGTCCAGGCGAACTGCGAAGTTGTTAAGC +TGCCTGCATCGATAAGGATCACCGGCGAGACAGCCACCCAGCTCATCATCGGGATATAGCTTAAAGAGAT +GGTTGCTGCGCCAAAGAGGAACAGCCGATTGCAAAAGACATTACGAAAATCGCGCAAGACGCTTTTGGCG +CTAAACGGAACCGCGCCGCGCTTCACCGTCTCTGGCATCGCCAACAGTAAGCCAACAAATGAGATAAAAC +CCATAACCGCAATGATGGCAAAAAGGACTTTCCAGTGCATAAAGTGCATCAGAGCTGCGCCGGAAAGCGG +GCCGATAATCGGCGCAATCAGTACGATGGAGGTGATAATCGCCATCAACTTGATCCCTTTTGTCTGTCCG +AACGCCTCCTGCACCGTGACATAACCAACGGTGGCAATAAAACAGATACTGGTGCCCTGAATTGCACGCG +CGATAAGAAACTGTGTCATAGACGTTGTGAACATTGTCGCGGCGCAGGCAAGGGTAAAAATTAGCGCCCC +GGTAATCAGCACCGGCCTGCGGCCAATTCTGTCGGAAAGCGGCCCCAGCAGCCACTGTAACGCCATACCG +CCAGCAAGATAGAGACTGACGGCAGCAGGGGCCAGACTGACATCGGCATTAAAATCACGTACCACATTAA +TGATCCCAGGCTGGATCAGATCCGTCGACAGATACGCAGCAAAGTCATACAAAATCAACGCCATCGGGAA +AAACAGCGTGGCGGCATGGCGGGTAAAAAAACGTGGCATAACAAACAACTCCTTGTCCGGAGAACCCCAA +CGGGGAAAACGAAATTCAATACCGTCGGTAATGACGAAAGGCAGGTGAGAAGGGCAACGAGACTGCAAAT +GTACTGAATTTCATGTAATCAACCACACTGCCTGTGAACACACAGACAGAGAAATACTTTCTGACTTCGG +GTCAGAATGTATAACGATTACAAATAGTCATCAGCACATTACACCTCTTGAATTGATGGGTTGCATAGAA +AATATACACCTTAAGTGTAATTAAAATTTGCGGTTAATCAAAAGAGCGCGGTGGAAAGGGGAATATCTGC +CGGGTACAGGACATGTAAAACGCGAGCTTGTTTCCGGAAAAATGTATCGTTTGCAGAAGAATAAAAATAG +CCTGGAAAGCGCCTCGGGGAATGGGAAATTGCCGGGTGAGAATGGTTTTGTTAGTCGCTAAAGTCAGGCC +ATCTTTTTCAACAGGTGATGGATCGCCATGACAAACTTCACGACCAGCACGCCGCATGATGCATTATTTA +AAACCTTTCTCACGCACCCTGACACTGCGCGGGATTTTATGGAGATTCACTTACCTAAAGATTTACGTGA +ACTGTGCGATCTCGATAGCTTAAAACTGGAATCCGCCAGCTTTGTCGATGAAAAATTGCGGGCGCTACAC +TCCGATATTTTATGGTCGGTAAAGACCCGCGAAGGCGATGGCTATATCTATGTGGTGATTGAACATCAGA +GCCGCGAGGACATTCATATGGCCTTTCGCCTGATGCGCTATTCCATGGCGGTGATGTAGCGCCATATAGA +GCATGATAAACGCCAGCCGCTACCGTTGGTCATCCCGATGCTATTTTATCACGGTAGCCGTAGTCCTTAC +CCCTGGTCCCTGTGCTGGCTGGACGAATTTGCCGACCCGACTACCGCACGGAAGCTTTATAACGCCGCGT +TCCCGCTGGTGGATGTTACTGTCGTGCCAGACGACGAGATTGTGCAGCATCGCAGAGTCGCCCTGTTGGA +GTTGATCCAAAAGCATATTCGCCAGCGCGATCTGATGGGGCTTATCGATCAACTGGTAGTATTACTGGTT +ACAGAGTGTGCTAATGACAGCCAGATAACTGCGCTGTTAAATTACATTTTACTGACTGGCGATGAAGCGC +GTTTTAATGAGTTTATCAGTGAACTTACCCGTCGAATGCCACAACACAGGGAGCGAATAATGACGATTGC +AGAGCGAATTCATAATGATGGATATATAAAAGGGGAGCAGCGCATTCTTCGATTGTTGTTGCAGAATGGG +GCGGATCCTGAATGGATACAAAAGATTACCGGACTTTCGGCAGAGCAAATGCAGGCATTAAGGCAGCCCT +TGCCTGAGCGTGAGCGCTATTCATGGCTCAAGAGCTAATCAGAGACGGATGACAAACGCAAAGCAGCCTG +ATGCGCTATGCTTATCAGGTCTACATAACCCATTAAATATATTGAACTTTAAAGATTTTTGTAGACCTGG +TCAGGCGTTCACATGGCATCCGGCATGAACAAAGCGTACTTTGCTTAATTCAGGCTGGAACGTGGCGATG +ACCCAGCAAAGATAAAACGAGTCACAGGTTATGCATGAGAGGAAATCAGGCGCTTCGCCGCTATTTCGAA +TTTATTCCATTGCCCGATACACGGCCTCGCCAATTTGCTTCAGTGCTTCGCGATAGGTTTCGCTGAGCGG +CAAAGCGCAGTTGATGCGCAGACAATTACGGTATTTGCCGGAAGCTGAGAAAATCGAGCCTGCCGCCACC +TGGATTTTCATGCGGCACAGCTGCCGCGCGACGCAGACCATATCGACCTGTTCAGGCAATTCTATCCACA +GTAAAAATCCGCCTTTCGGGCGCGTAATACAGATTTCGCAGGGAAAATATTCCCGTATCCAGCAGGTATA +AAGCGCCAAATTGCGCTGATAGATCTGCCGCATCCGCCGGATATGGCGATGATAGTGACCTTCCAGCACA +AACGTTGCCGCCGCCATTTGCGTGGACGGCACATTAAAGCTGCTGATGGCGTATTTCATATGCATCAGTT +TATCGTGATAACGCCCCGGTGCGACCCAACCCACGCGCAGGCCTGGTGCAATACTTTTACTGAACGAGCT +GCACAACAGCACTCGCCCGTCGATATCCCAGGAATGAATGGTCCGCGGGCGCGGATACTCCGTCGCCAGT +TCGCCATAGACATCATCTTCAAAAATCACAATATCATGACGCTGAGCGAGAGAGAGAACGGCCCGTTTGC +GCGCGTCCGGCATAATAAATCCCAGCGGATTATTACAGTTTGGCACCAGAATGATGCCTTTAATCGGCCA +CTGTTCCAGCGCCAGTTCCAGCGCTTCAACGCTGATGCCAGTTTCTGGATCGGTTGGGATTTCAATCACT +TTCACGCCCATGCCGCGCAGCATCTGCATCGAACCGTAATAACAGGGGGATTCGACCGCGACAATATCGC +CCGGTTTACACACTGCCATTAACGCCAGCGACATCGAGTTATGGCAGCCGCTGGTGATGATGATGTCATC +GGCGGTGACCACCGAGCCGCTGTCGAGCATCAGGCGGGCAATCTGCTCTCGCAATACTCGCTGACCGGCT +AACAAGTCATAACCGAGAACGGTTTGCAGATTATGCTGCACCACCCGGCTTAGCTCCCGCCACAGCGGTT +TCAGGCTGGGCGCTTCGACATCCGGTGTGCTTTTGCTTAACGGAACAATGGAACTGTCGCTATGCGCCTC +CAGCATATCCAGCACCTGATCCCACTGGGTAATTTCCACCGGGCGCTGCACCGGACGCGTCATCGGCGGT +ACTGGCGGCTGGGCTTTACGTTGTGCGACAAAATAACCCGAACGCGGCTGCGGAGTGATGAGCTTCATCG +TCTCCAGCGTCTGATACGCCTGCTGCACGGTGCTGATACTGACGCCGTGCTCCTGACTTAAGCTGCGCAC +CGACGGCAATTTCTCCCCGTGACGATACAGCCCTTGCTCAATCCGTTCGGCAAGCAGAGTCGCCAGATGT +TGATAACGCGTCATGCTGTATTCCTTATGTGGACCATACAGAGAGAAAAACCGGTACAGATGAGGCTAAA +AAACCGGATGCAGATGCTGTTTTAACCTGTCTGTATGTTAAATAAAAGTAATATTTGAATCTGTATTGTG +AACTGCCAGAAGGTGGATGATGAAGCCTCTGAAAGATGAGGAGGTAGCAGATGGAATTTCACGAAAACAG +AGCTAAAGCGCCGTTTATCGGCCTGGTGCAACTCTGGCAGGCGGTGAGGCGTTGGCGGCGGCAAATGCAG +ACCCGACGCGTGTTACAGCAGATGAGTGATGAGCGGTTGAAGGATATCGGGTTACGCAGGGAGGATGTGG +AGTGAGGGGGGATATAGATTTATATATAATAAAACGTTTTTATGTTTTTAAATTAAGTTATAAAAATTTT +CCCGAGACAATTCATCAATAGGTATGGAGTGTACAGGAATATCTTCTTCACTAACCTCTTTAAACTCATG +TCGATAACGGTCAAAAAACGCACAGTGATTACTTGTGTTTTTTGACTGACTTTACAACTCTCATTATTCG +CTATTGTGCAGTTTCTCTAATTGTTTTATACCCTGGAAAGTTAAATGTCAGCTACTGAATACTTTTTGAT +TGTTTGAGATTTATTTTCATTTGAAATTATAAAATCAGGTGATAAATGAGTTGTGATTAATAGATGGTTG +ATATCATTTTTATCTAAAATTGATTTATAGTATCGACCTGAAAAAATAGTTGTTGCCGCCTGAGTAACTA +TACAATATTCTGAAAGGTTTTCTTTCAAATTAGAAATGTTGTGGGGTTTTGTTTTTGTATCTTTTATCTC +TAAGGAGCTTGCTTTGGGTCAATCAGAATACATTTCATGGGTAAAATGTACTTCCTGGCTAAGTAACTTT +GTGAATCTTAGAGGGTTGAGACAACCGGATGGCCGTCCTCTTTATGAATATCATGCAACCAATGATGAAT +ATACCCAATTAACGCAGCTACTCCGTGCAGTCGGTCAATCACAATCTAATATATGTAATAGGGACTTTGC +TGCCTGTTTTGTTCTTTTTTGCTCTGAGTGGTACCGCAGGGATTATGAACGGCAATGCGGATGGACGTGG +GACCCTATATATAAAAAAATAGGGATTTCATTCACCGCCACAGAGCTTGGTACTATCGTACCGAAAGGGA +TGGAAGATTACTGGCTGCGCCCAATTCGATTTTATGAATCTGAACGACGCAATTTTCTCGGAACATTATT +CAGTGAAGGTGGTTTACCTTTCCGGCTACTCAAAGAATCAGACAGTCGCTTTCTGGCTGTTTTCTCCAGG +ATCCTTGGACAATATGAGCAAGCAAAGCAGTCAGGTTTTTCTGCCCTTTCGCTGGCAAGAGCTGTCATAG +AAAAATCAGCGCTGCCAACTGTTTTTAGCGAAGATACCTCTGTAGAACTTATCAGTCATATGGCTGATAA +CCTCAATTCCTTAGTACTTACTCACAACCTAATAAATCACAAAGAACCAGTACAACAGCTTGAGAAGGTT +CACCCTACCTGGCGAAGCGAGTTTCCAATACCGTTAGATGATGAAACAGGAACGCATTTTTTGAATGGAC +TGCTATGCGCAGCCTCTGTAGAGGCTAAGCCTCGACTACAAAAAAATAAGAGTACGCGTTGCCAATTCTA +TTGGTCAGAAAAGCATCCAGATGAGCTTAGGGTGATAGTATCTCTTCCGGACGAAGTTTCCTTTCCTGTA +ACAAGCGAGCCGTCAACTACGCGCTTTGAACTTGCCATTTGTGAAGATGGTGAGGAAGTCTCTGGCCTTG +GGCCAGCCTATGCTTCTCTGGAAAACAGACAGGCAACAGTTCGATTACGTAAAAGCGAAGTGAGATTTGG +CAGGCAAAATCCATCGGCAGGTTTGTCGTTAGTGGCTCGTGCTGGAGGGATGATTGTTGGGAGCATTAAA +CTTGATGACAGTGAAATTGCCATTGGTGAGGTGCCGTTAACCTTCATCGTTGATGCAGATCAATGGCTGT +TACAGGGACAGGCTTCTTGCAGTGTGCGAAGCAGCGATGTTCTGATTGTGCTCCCTCGGGATAATAGCAA +TGTTGCTGGTTTTGATGGCCAATCGAGGGCAGTAAACGTATTAGGACTAAAAGCACTACCTGTGAAGGGA +TGTCAGGACGTTACAGTTACAGCAAATGAAACTTATCGGATTCGCACCGGAAGAGAACAAATCAGCATCG +GAAGGTTTGCTCTAAATGGAAAGCGTGCAAGCTGGGTTTGTCATCCAGATGAAACATTTATTGGTGTACC +AAAAGTCATTTCTACACTACCGGATATTCAAAGCATTGATGTAACGCGTTACACGTGCTGACAAAACAGC +ATTACAGCCAGCAGGAAGTACTGCGTTGGATCGATGTCTGTTCAGGGACTCAACCTAATGCAAAGGATCC +CGCATTTCTTAAAGTCAGGGCGCATATCTTCCAGCGTAATACCTAGGGAATATGGGCTTGTGTTGATAAA +GATTGCAGATTAAAGCACGGTACACCGCTCGACAAAGGCTGGCCCTTTGGCTATGTGTATGTGAACCAGC +GACAAAATTGTGACTGTGGAAGCCCTGTATACGAAGTTGCATTCTGTAATGATTGTAATGAGCCTCATCT +TCTGGCACGGGACAAAAAGGGCAAACTAGTCCAGTGGGAAAATAAAGGTGGCGATGAATTCTCTTTGCAG +GATGAAGTACCTGTTGAACATGACGCTACAGAAGAAAAAGTCGAAAAAGAGAACAGTTTTCAGCCTCCGT +TGATTATTGCCGCAGGAGAGACCAGCGAGGCAGGTTATACCCTACAACGCCTCGACCGTCAGACGCGCCG +TATTGGCGTTATTAACAATGACAGCATTCCGCTGATTATTAATGATATTGAACAGGTTTGTAGTGCCAGT +GGCTGTGGCTACAGAGGCATGAGTGGGAAACAGCCCTTCCGGCGTGCACTATTAGGTGGGCCATTTTACG +TTACTAATATCGTGCCCACCGTTCTAGAGTATTGTCAGGACTTTACCAGTGATGAAGGCAAAGAGGGCGT +CGGACCAGATTCGTTGCCAGGACGAGGTCGTCGACTCATCACCTTTACAGACAGTCGACAAGGGACAGCC +CGAATGGCGGTGCGTATGCAGCAAGAAGCAGAACGCAGTCGCTTACGCGGAAGCGTAGTCGAAATTCTCA +GCTGGCATCAAAGGACGCAAACGTCTACAGCGCCGAATGCCAATGCCGATCTGGAAAAATTAGCGGCCAG +GGCGAAGCAAGCCCGTGAGCAGGCAGAAGAATATCGAAGCTGGGGAATGCCAGACCAGGCGAAATTGTCA +CAAGCACAGGCTGAACAGCTTGAACAGGCTTATCAGGCTGCAACCGGTGGGAAAGCCGCGACTATCCTGG +TATCCCGAACCTGGACGGAGATGGTTAACGAGCTTAAAGAGAGAGCCGATATCCGCGGGCCGGTTCTGCA +ATATAACCATTATCTTAAGCCTGAAGTGTTTAATGAAAACGGCGGCCCCCTTAAGCTTTCTGAAATGTTG +TTGTTCCGGGAATTCATGCGTCGCCCTAAACGGACTAACAGCCTGGAAACACAGGGGCTGGTTCAGGTTG +GTTACCAGGGGCTGGAGAAAATACATAAGAGCCCCTTGCACTGGCAGGAAAAAGGATTAACGCTGGATGA +CTGGCGCGATTTTCTCAAGGTTACGTTGGATCATTACGTTCGCGAGAGCAACTTCACACAGCTGGATGAT +GAGCTGAAAAACTGGATTGGTAGCCGTTTTTCATCAAAATTCGTCCGTAACCCGGAATCAAAAGATCCTG +AAGATAATCAGAACAGACGCTGGCCTCAAATTCGTAATGGCAACGTATCCCATCGTTTAGCGAAGTTGCT +GATGCTGGGGGCTGGATTCAAAACCGTCAATGCGGCAACTATTGATATTATCAATACATGGCTGAAAGAA +GCATGGGCCCAACTTACCGGACCGCTTGCAGTACTGAAACCCGATGGCAACCGTTTTTATTTACCGAAAG +AGCATATGACTTTTTCTTTAATCACGGATGCCTGGATTTGCCCGGTAACCAATAAAATCCTGGATACGGC +TTTTAAAGGCTTAACCCCTTATCTGCCTACCCATATTTCGTTCGAGCATCTTACCCTGGCGCAATATGAC +ACTTTTGTCGCGCAGAAAGTCACAATGCCGGAAATCTGGAAGCTGGATCGTTCACAGGAAGACTACGCAG +AGGGTCTGGCAAAAGCACGCGACTGGGTCAGCCATGATCCGCTGATCGCACAATTGCGGTCGGAAAACGT +CTGGACAGACATTAACGATCGTGTCGTGGAAGGCGGCTTCTACTATCGTACTGCCGAGCACTCTGCCCAG +CAGTCGTCAGAACGTCTGCAAAGCTATGAAAAGATGTTCAAGAATGGGCAACTAAATGTTCTCAACTGTT +CCACCACCATGGAAATGGGGGTTGATACCGATCGCGTGATGACGCTGGCCTCTCGCAGCCAGCAGGCAAC +GATTCCGGGGCCGGAGTGGCACCTGAATGACGAACTGGTGGTGCGTAGTCTCGGTTATAAAACGGTAGAA +CTGAACGAGTTTATTCTGCCGGCTAAAGCCACCAACGCTGTCGAGCGGGTCAAAGACATTCAGATCCACA +AACAGTTGAATGGACCACTGTCGCAGTTTGGGCAACGCTTCTGGGACGTGCTGTTTAACGACCATGAAGA +AGCGCAGTCACTGATGAATAACACGCGAATTACCGGCGTTCACTATACCGATCGCTATCTGCAAAACCCG +GTTGCGCTGGCGTTGTTGGGATCAATTCTGAGACCGCTAAAAACAAAGCTGACCGATGGCGCTGAAGTGA +CGCTGGATACGCTATTTAAAGATAAAGATCGCCCCGGTAACCGGCCTTTCCATGACTGGATGAGCATAGC +GGATTTTCAGGATTTCGCTGATCAGTGGTTTGCTGCTGCGCTGGGCAGGCCGGTAGAACTGACGGTGTTC +GACTCGCCGCGCGATATCCCTCACCATCGTAAACTGACGGTGACTTTTGAGGATGGTCAGGTATTGAAGA +TCCGCTTCGATCAGGGGATGGGCTACTGGCGCATCAACTTTTCATCGCAATGGCATTACTTTGATTTCCG +CGATGACGTTTCTTTCCAGTTAGTCAAAATGGCTCAGGCCTGCAAGGAAGGGAATGTCGCCAACAGCGAA +GAGAGTTGGGCAACGGATGTGCTGGTGGAGGTGATCGCCTCCTGATGATGAGCCGCTCCCGATGTGGTGT +CGGGAGCGGTATTTTCTATAAAACTTACCGCTTATTTGAGATATTCATCGAAAATGTCGAGTAATTCTTG +ATGTATACACGGCCATTCCTGACCTAAATTGACGGTACACAAGCCAATATCGAAGCCATTAATTTTATAA +CGATGTTTCACTGCGGTATCTACGTGGGGATATATTAATAACCCCCCTATGTTTTCGCCATTTTCAGGCT +TTAACGACCATAAGTAATTCATCAGTTGATAAAGATTTTGCGAATGAAATTTTTCTGTTCCCATTCGTCG +TGAAAAAATGCTCTTATAGTATTTGGCGTCAACGATAAGTATTTTTTCTGATGAGCGAATGGTGATGTCA +GTTTCCATTCGAGGTAACAAATTAAGTGACTGATCCGATATACTCGATGCATCCCATTTTAAATAAGAGC +GGGTTGTGTTTGCAGACGTTAATTCACGACGGCAAAATTCATAAAGAAACTTTTGATAAAGTAATGACAT +CTCTTTTTCGTTTCTTTCAAAATCATAGAAACGGTAGTGTCCTTTGTTTTGACCTGGAATAGAATTATTG +ACGATGAATTTGCAGACACTGATAACGAATTTATAATAACGCGTATTTTTTCCGCCATTCAGATAGCTGA +AATGCTGCGGAGTTAAATGAAGAGTGCTAATGCCCGGTAATTTTCTATAAAGTGAACGAGCTTCATCTCT +GATAGTTGAATTTAACTTTTCATGCTTAATTAATATGGCTAATGTGCTTTTTATAATTCGGTTAGCCAGC +GTGTCTTCATTAAGCATATCAAAAGTACTGACGGTTTTCCCATGATTAAGATGGAAGCCGCGTATTGTTT +TAGCAAACTCTATTCGCCCTTTGATGCCAGGAATGATCTCGGTGTTAGGATTGTAATCAAGCTCAAGCCC +TCGGCGTGAAAGCTGTAAAACCCCTTTATTTAATACATACCCCAGGATATCAAGAAGATTGTTACCGGGT +ATGGCTTCAAGGTTTGCCTGCTTAATTTCCTGTAAATAACCCCATGCATAGGTAAGCATGTAATAGATAT +TACGGACAGGTATCACGGGCTGTTCCACTATGAGTCCCCTAATAATTTGTTGGTCCATTTCTGTTGTTTA +TAGGGGTCATCAAAGAAATATTCTTCGAGTAAAGGGGCGATATCCGTCATCACAATTTCATTAAGCCATT +GCGTATCCGGAGAGGTGCCATCTTCCAACCCACAGCAGAAGTAACTATGCCCAATGCGGAATCCTTTCCC +AAGGATAGTGGCCTCTTTGCTGATTTCCTGGTTCAACTCGTTCATTTTTTGGCATAAAGACTCAACAAAT +GAAGGTTCTGCTTTTTTATTCAGTAAAAAATTCCGGAACTGTGGTGTATCAAAACCTGGCTCAATATCTA +TGAAAGAAAATCGTCTGCGTAGGGCATAGTCAACAACGGCCAGAGAGCGATCGGCAGTATTCATTAAACC +GATGATATAAACATTCTCCGGGACATAGAATCGTTCTTCATCGTTTTCGGAGTAGGTTAGGGGAACAGAC +CAGTTTTCACCTCGTTTATCATGTTCCATTAACATCATCACTTCGCCAAATACTTTACTGAGATTGGCAC +GATTGATTTCATCTATAATAAAAATATACTTTTTCTCTGGCTGCTCTTTAGCTTGCTGACAAAAATTGTA +AAATATGCCGTCTTTACGTCGGAAGCCGACGCCATTCGGACGATAGCCCTGTATAAAATCCTCATAGCTA +TAAGATTGATGGAACTGAACCATATTGACGCGTTGCGGAGCCTTTTCTCCTGTCAGCAAGTAAGCCAGAC +GGCGTGCAACAAAGGTTTTTCCAACGCCGGGCGGCCCCTGGAGGATAATATTTTTTTTGATGGTTAATCG +TTTGAGTATCGTCTCTATTGTGGTTTCAGGGATAAACAAATCATTTAACGCATCTTCCAGACAGTATGAT +TCAGTTTTTGACATAGGTGGAATAACACTCTTGCCAGAATTAAATATTAATTTATAGTCGTTGATTATGT +TGTCCAGCATAGAGGCAAATCGGGTGTAATCAATACCCTGTGAGACTTTTTGGGAACAGGCGTAATAGGA +CTGTCCGTATTTTTTAGGATATACACCCGAAGTTGCCTGAAAATACTCTGCGATTGTTTTAGGTATGTCT +GAAGAGAACTGCCATTGGGCATGTGGTTCATTCGTGTCGCTTATACCATAAGCCAAAACCAACTCATCAA +AATCTTTATAATAGAGAATAACGGGATATATACCGTTAGAAGCTTCCTGACCTTCTCCAAGAAATGCAAA +CCAGGGAATAGACGTAAAATTACCATAACCGAAACTCAATTTTACTCGCAGGTTACGGTAAGACGTTGGA +TAATCTTTAGTGGATTGCGAACGTTGTTGCTGTGCTTGCTTAATAAATTTTTCAATCCAGGGTTGAATAG +ATTCCATAAGATATGCCTTCCTCATTGCTAAGCCTCTATTATCGCTTTCGCAACGTACTGAAACAATAGA +TTTTTACTGCAAAATCAGACTGGTAAATATTTACTGAGGGGGAAAGTTTCTATTGAGTCAGTGGAAGGCT +CCCGGTGGTTAACCGGGAGTAAACGCTGTTACGCGACTTTCTGTTTACCGGCAATCACTCCAATAAACGC +CTGCACCTGCTTTTGTTTACGCGCCGACAGTTTGCACACCTGGCGTAGCGACTGCATCAGTTCGCTCTCC +TCGGCGGCGGGTGGTTGGGCGGTGAGGACAATACAGCCTTCCATCACTTTGACATCTACCGCCGTGCCAG +TGGCAAAACCGGCGGCTTCCAGCCACTGACCTTTCAGGGTGATGGCGGGAATACGGCTGTAATCCGGGTA +GCGACTCGCATAACCGACGGTGACATGACGGTTATTTGCCGGGGAGACTTCTGCTTCGAACGGTTGTGCA +ATAGAATGCGTGTCAGTCATAACTGCTATTCTCCAGGAATAGTGATTGTGATTAGCGATGCGGGTGTGTT +GGCGCACATCCGCACCGCGCTAAATACCTGTATATATCATCAGTAAATATGGGGAAAGTCCAGCTAAAAA +TAGAATAAAATGGGCAATTTCTGGAATGATTTAAATATATTTATGTGGGTTATGATTGGCGTGAAATAAT +AAAAAGCGCACCGGAAAGGTGCGCCAGAAAATAATGTTCAGGATTTTTTACGTGAGGCTTTTTTACCCCC +GCTAGCTGCGCGTTCAGCTTTGATTTTTTCCAGCAACGCGGCGGCGCTGTTTTCTCCGCTGATCAAATCC +GGGTTTTCGGCCCGCCACTGGGCGGTAAGTTCACCACGGAACGCTTTTGCCAGGATGGATTGCGTCAGGT +TGTTGACGCGGGCTAAGGCGTTGTTGACCTGTTTTTCTATGGTGTCGGCGTAGGCGAAGAGTTGCTCGAC +GCGGCGAACGATTTCGGCTTGTTCTTTTACTGGAGGTAATAAAACAACTTGGGATTTGATATCTTTTCCT +GAAATACCTTTTTGACCAGAAGTTGTTTTCACGCAGTTCATCATTGCATTTCGTGCTGAGGGGGATGAAA +AAAATATTTCGATATATTCTGGTAAAGCATCTTTGGTTAATCGAGCTCGAATAAGTTTATCAGGATATAG +CAAATTTTGATGTTGTAATTTTTTCAATAACCCACAAACACCAACAAATTCTAAACTTCCGTTATAGCGA +GTAAATAAAAGATCTCCATCTTGTAATTTGTGGCGGTTTAGTTCACTTTCTGAACATTCTAGAAACCGAA +TATCGTTTTGATCTACATGGCCAGCACGTACAGAACTAATGCGTAGTATTGGATGACCAACACCACTTTC +ATTTGGCTTTGATGAAAGACCATTACGTAATTCAGTTAAGATAGATTCAAAATTTAACTTCTTAAATACA +GAATGTTGCGGCTCAAAATTACGCCATTTTTCTGTCAATTTTCCATTAACTGCGCCCCCCAATACCGCTT +GACGAAAACGTTTCAGGATTTGTGGGATTTGCTCAAAACGTGCTTTGGTGCTGTCTACCTGCGCCAGCAG +CGTATCGAGTTTTTCAGCGATGATTTTTTGTTCGGCAAGTGGTGGGATTGGTATATTTATCAAATCAAAG +CTTGCCGGCTTAATATTATTAATATTTGCACCAGCAGAAAGTGATGAAATTTTGTTTCGATAAAGAGAAG +ATTTTGTGAAATGAGCAATAAAACCAGAAAATATAAGTTTTTCAGGACGTAATACACCGCAAAATGCGCC +GAAACTACATTCAAATGGTAGATGCTGATGTGCGGATTTACCAACTACGGATTTGCTCCCTGATGACATT +GCAATAACAATATCTTCAGGAGATATTTTTTGACTTTCTTTAACAAGATTTTTAGGAACAAAAACCAAGT +CCGTAGTATCAAACTTGCCATTCTGAATATTGTTCGCACGGATAAGAGGCAAATAATCATCTTTTAGATA +ATTTATTGCCTGCTCTTTTTTATACGTTACTCCTCGGATTAGAGTTGTGACCGTAGATACTGGGGCGATA +ACCCACCCCTCCGGCAATTTCCCCGCACTCATTCCTTCACCCCACCAAACGCTTCTTCCAGCAACTGACG +CTGCAAATCGGCCTCATCGCTCGCCCCCAGTTCACGCATCAGCGCATCCAGTTCAGACAGCGCCTGTACC +AGTTCGCCCATCGCTTCTGCCGCTAATACATCCGGCTCCGGCAGGCTGTCGGCATCAATACTGTCTTTAT +CTTTCAGCCAGGAGATATCCAGCGAATCGGATTTTGCGGTGCGGATCCACTCACGGCTGAACTTGCGCCA +GCGGCTGGTAGCAAGATGCTGGTCGGTGTTTTTGTTCTCTTCGCTGTCGGCAACTTCCGTCTCTTCGGCG +TTAAAACTCCATTCACCTTCAGTGCGCGGGCTTAAACCGTGCGGGTCTTCGCCATACACGCGCTCAAACG +GCTGCAAATGCTCGTCGGTAAACGGTGTGCGCTTGCCGAAACTCGGCATATTGGTACGCAGGTCATACAC +CCACACATCATCGGTACAGTTCTTATCCTGATTCGGGTTCGCCACCGTCCCTTTGGTAAAGAACAGCACG +TTGGTCTTCACGCCCTGAGCGTAAAAAATACCGGTCGGCAGACGCAGAATGGTGTGCAGATGACACTTAT +CCATCAGGTCACGACGAATGTCGGTGCCTTTGCCGCCTTCAAACAGCACGTTATCCGGCACCACCACCGC +CGCACGACCGCCGGGATGCAGCGTTTCGATAATATGCTGCATAAAGCACAACTGTTTGTTGCTGGTCGGG +TGAACAAAGGTGCGGGTAATGTTGGTGCCTGCGGCGCTGCCAAACGGCGGGTTAGTGGCGACAATATGCG +CCTTCGGCAGGTTTTCACCGTCGCTACCCAGAGTGTTGCCCAGACGGATTGCGCCGCCGTGGTCGAGGTT +GCCTTCAATATCGTGCAGCAGGCAGTTCATCAGTGCCAGACGACGGGTGCCGGGCACCAGTTCGAGGCCG +ATAAACGCGCGGTGGATCTGGAAATCCTGCGTGTCGCCATCAAGGTCGTCCAGATCATTGGTTTGCGACT +TAACATAGCGGTCGGCTTCAATCAAAAAGCCCGCCGTACCTGCCGCCGGGTCCTGCACCACTTCACGCGG +CTGCGGTTTCAGCAGATGAATAATGGTTTTAATCAGCGGACGCGGGGTGAAGTACTGGCCTGCACCAGAC +TTGGTTTCATTCGCGTTCTTCTGCAACAGCCCTTCGTACATATCGCCGAAGTCATCGCGCGACTTACCGT +GCGCGCCGTTGTACCAGTCCAGCGAATCCATATTGCTGACCAGTGCGGTTATTTGTTTCGGCTCGGTGAT +GGTGGTACTAACATTATGAAAAACTGCCTGTACCAGCTTTTTGTCATCTTCGCCTAAATGCACGAGCATT +TTTCGGTAGAACTGCAACTGCTCCTGGCCGATGCGGGATTTCAGGTCATCCCAGCGGTAACCTTCCGGCA +GGTATTCCGCTTCCTGACCGGTCTCTTTACACATTTTCAAAAACAGCAGCGAGGCGAGTTCATTGACGTA +GTTTTGATAGGAAACGCCGCCATCGCGCAGGTTGTCGCACAGCTTCCACAGCTTCGCGACCAGATCGTTA +TTGTTCATTGTGAGTTCCGTAAATTAAGCAGCGGCCCAAATTCATCGAGCCGCAGAAGAAGAAATTGCCG +AGGGTAATATACACAAAATCATTCAGGTTGCATCAAGGCGGCAAGTGAGTGAATCCCCGGGAGCGTACAG +AAGTACGTGACCGGGGTGAACGAGCGCAGCCAACGCAGAGGCAGCCTGAAGGATGAAGTGTATACGTGTC +AGGCCAGCTCGTCCCAGATATAATCGCTGAATTTGCCCAGCAGGGTATCGAGATTATCGTCAAAGGTTCT +TTGCAGCATCGCCTTCCCGCCGCGACGGTGGAAGTTGCCGGTTTTGAAGACATCGTCGTCGAGCACCACT +TTCTCTTTCAGCGCCTGCGCTAAACGATCGAGCCAGCTTAATTGCTCGCTGCTCCAGTCGTTTTCGCCCT +TAATGCGCGTCAGCGCGTGATCGACACGTTCCTCAAACGGTTTCAGCGCATCGCCCACCGCAGCGCGGCG +AATATGACCAATCAGCCGGGCGGCGATATCTTCATTGCGCGTCTCTTTCCATGCTTTGCGCAGGGAAGAT +TCCTCAAAGTGCTGGCGGTCAAACCACTCCTGTAGCTCGACCAGCCCTTTACGGGTGAGATCGCGCGGGC +GATTAATAACTGCCTGCAATGCCGGTTGCGCGTTCGGGGAACGTTGCACCAGCGAGTCAAAGGCTTCGAG +GAAATCCTGCGGCGTGTCGTAATCACCGTACAGCGATTTTACACTCACCACTTCATCGTCGATATCGAGG +AAGATCGGCGCATCATTCAGGTTGTTGATGTCCGTTTTCAGCTTTTCCAGACGGGCGATAAAGCCAGGCA +GTTTGTTAAAGACTTCGGCGCTCCAGTGCGGCCCTTTTTCCCGCAGGCGCGAGGCGAAGCCGTTAAAGTT +CACGCCCGCCGCGTCCTGGCATAGCTCATCCAGACGACGCACCTGTTTATCTATCGTTTCGCTGCGGTCA +CGGTTAAACGTGGCCAGACCGATGATACGCTGGAGCTTCGCCACCAGTTGTTCATGGCTGTGCTCGGCAA +AACTGCGGCCATCCGCTTCGGTGATTTTATAGGTTTCTGAATCGGTAATTTCATTGACCAGCGTTTGCAG +TTCCACCTTCGGGCGCACCACCACCGGACGCATGGTGTCGACGCTCTCCAGCGTGCTGTAGATATCGACA +CAGTCAAAAATCTTAAAGCTGGTTTTATTCACCTCCGGGCATAAGCGCGTGGCGCGGCCTTTCATCTGTT +CGTACAGAATGCGGCTGCGTACTTTACGCAGGAACACGATATTACAGATCGACGGAATATCGACGCCGGT +CGTCAGCAGGTCGACGGTTACCACGATATTGGGCAGCCGCTCTTTATTGAAGCGGGTGATCATGGTCTGC +ACTTTGCGCGCGTCTTTATCGGCATCACCGGTGATCTTGATGATCGCGTCGTGCTCCAGTTGCGGATACT +TTTTCTTGAACGCGGCACGCAGCTCTTCCACCACCATATCGGCATGGGCATTGGTGACGCAGAAGACCAG +CGTTTTTTGCGATCCGGTCGGGTCAAGATAATTGGTGAGTTCGTTACAGACGGCGCGGTTAAACGCCGGG +ATCACCAGGCCACGGTTAAAGTCGGCGACTTCAAAATCCTGATCGTCTTCCAGGGTGTCATTGATCACTT +CTCCCTGCGGGCTGATGCGCTCTACCTGCTCGCCTTTGGAGAGATAAACCCCCTCCTGCGCGTTGCGGGT +GATGATCTGAATAGGCGGATCCTGGTCGATCAGAAAACCGTCGATAACCGCGGTACGGTAGGTATAACGG +TAAACCGGCTCGCCGAAAATCTGCACAGTATGTAGCGCCGGGGTGGCGGTGAGAGCGATTTTTACCGCAT +CGAAGTGATCGAGAATGCGACGGTAGGCAGAGACGTAATCCAGCTGGCTGCGGAACTGCAGTTCGCCTTC +GGTCTGCTCTTTATCGAGAATATAGCCGCGATGCGCTTCGTCAACGACGATACAGTCGTAACGGGCCACC +GGCATCGGTTCATCTGATTGCAGGGTGCGTTTCACCAGCGACTGTACGGTGGCAACGTGAATTTTGGTGC +TGTCTTCCGGGAATTTATCCGTCAGCCCTTTAATGTCGAAAATGCTGTTGAAGGTGTCGCCGTTAATACG +CGTATCTTCAAACGCGCCCAGCGCCTGTTCGCCAAGAGAACGGCGGTCGACAAGGAAGAGAATGCGTTTA +AAACGCTGGGACTGGATCAGGCGGAACATCATGGCGATTGCCGTACGGGTTTTACCGGTACCGGTCGCCA +TCGCCAGCAGGATCTCTTGTTGCCCCTTGACGATTGCCTTTTCAACCGCGCGGACGGCATCTTCCTGATA +ATAACGCAGGCCCAGCTCGCTCATGCCAGGGTTATCGGCAAACCACTGATTCTGTTTTTGCGGTTCGCTG +CCGAGCATTTCCAGCAGCTCTTCCGGGCGGTGCCACTCGGGTAAGGCTTTCGACATATTGCGGGTATCAC +GCACGTCGCGATACCAGATGCCGCTTTTGGTCTTCATTGTTGCGCGGTATTCGCGCCCGTTGGTCGAGTA +GCAGAAGGGGATTTTAAACCGTTGTTTGCCGCTGGTGTCCTGCCAGCTGGTTTCATACTCTGGCACTGCT +TCATGCACTTCATCCGGTGAGTAGTGCTCAAGCAAGGTTTCCCGCAGGAAGCCATTATCGAAACATTTAC +TGTAGCGATACGACTCATTGAGCCTGGCGGGAACGTCGATATTGTTACGTTTCGCCTCTACCACCGCGAT +GGGTTTGAGGCCGACAAACAGCACATAATCCGCAAAGCCCTGATTACCCGTTTCATCTTTTCCGGTCGGC +CATTCGGCAATGGCTTTATTGACGCCGGGTTCCGGACGTGCGCCTTTGGAGAAGCGCAGGGTTTTGCTGT +CGGCCTGCCAGCCTGCTTTACGCAGTTGCGCATCAATCAGGAAGCGACTCTCTTCTTCGCTAAGGTTGAG +TGTGCGCTTGATGGCCTGATCGGTAATTTCTTTGTGGTAAGCCTTACGTTCCTGTTCGGTCTGTTTTGCC +AGTTCCGCGTTCTTCTCGGCGAGCTGTGCTTCCAGTGCCGCAAGGCGAGCCTGGGTTTGCGCTTCGGTTT +CCTGCTGTTTGCCTTCCAGAATGGCGATATAGCCGTTCAGGGCAACCAGCTTCTGCTGTTGCGCTTCGAC +TTCTGCCTGAGTCTGCGCTTTTTCTCGCACCTGCTGTTCAAGCTGTTGTTTTAGCGTCAGCACTTCCTGG +TGATAGAGGTTTTCACCACGTTCCGGCAACACAAACACCGGCACCGGGAAGTCATAATCTTTAGTGACCA +GACGGTAGTACCAGACAGCCAGGCGGAACCCGAGTCGCAGGCACATCTGGGCATCGTTGAGATCGTTATG +ATATTCGTGCACCGCCTGGTTACCAATGCGGCGTAATTTGTGAAATACAGAGAGGATGTTGTCATCAACA +AAGGCGATTTTGCCGAGTTCACGCAGGAGATCGTGTTGATTCTCACAAGGGGGGATGTTGAGTAACAGAC +CAAGATGTTTCGCTGTGGCTTCGCCAAACATACGCATTTTAATCAGCGTCGTGTTGGGATCATCCGGGTA +GTTATTTTCCGCCGCACAGGCGATGGCATAAGTGAAGTCGTTGACGCCCTTCAGGAATTCAAAATTGGAT +TTATTCATCATTGTTATTAATCCATTGCTGTGCGGGCCTGTCCAAATATTTAAGGCCCATAACATCTCAT +CTTAGCTTTCTGTACCTTTCCGGGCAATGACCACGGTCACAGCAACTGACTCATTTCTAACGTGTTCGTC +TATTTTTGTAGTGCTATAGTAGCCGAAAAACATCTACCTGATTCTGCAAGGATGTACTATGACGGTTCCT +ACCTATGACAAATTTATTGAACCTGTTCTGCGTTATCTGGCAACAAAACCGGAAGGTGCAGCCGCGCGTG +ATGTTCATGAGGCTGCCGCGGATGCATTAGGACTGGATGACAGCCAGCGAGCGAAAGTCATTACCAGCGG +ACAACTTGTTTATAAAAATCGTGCAGGCTGGGCGCATGACCGTTTAAAACGTGCCGGGTTGTCGCAAAGT +TTGTCGCGTGGCAAATGGTGCCTGACTCCTGCGGGTTTTGACTGGGTTGCGTCTCATCCCCAGCCAATGA +CGGAGCAGGAGACGAACCATCTGGCCTTCGCTTTTGTGAATGTCAAACTTAAGTCACGGCCGGATGCCGT +CGATTTAGATCCGAAAGCCGACTCTCCCGATCATGAAGAACTTGCAAAGAGCAGCCCGGACGATCGGTTA +GATCAGGCGCTAAAAGAGCTTCGTGATGCGGTGGCTGATGAGGTTCTGGAAAACTTATTGCAGGTTTCTC +CTTCGCGCTTTGAAGTCATTGTTCTGGATGTTTTGCATCGCCTGGGGTATGGCGGCCACCGTGATGATTT +GCAGCGTGTTGGCGGTACTGGAGATGGTGGCATCGATGGTGTGATATCGCTTGATAAACTTGGCCTGGAG +AAAGTTTATGTTCAGGCAAAACGTTGGCAGAATACTGTAGGCAGGCCAGAATTACAGGCATTTTACGGCG +CACTGGCTGGGCAAAAAGCGAAACGTGGGGTGTTTATTACCACTTCTGGATTTACTTCTCAGGCGCGTGA +CTTTGCCCAATCCGTCGAGGGTATGGTGTTGGTTGATGGGGAACGCCTGGTGCACTTAATGATCGAAAAC +GAAGTAGGGGTTTCTTCACGTTTGTTGAAGGTGCCGAAACTGGATATGGACTATTTTGAGTGAAATATCA +GGCCGGATGCGGCTGCGCCTTATCCGGCCCATAACCCCTTACTTCCTCAACCCCGCAAACGCAGCCCGAA +TCTCTTCCTCCGGCAGCTGGATCCCGATAAACACCATCGTGCTATGCGGTTTTTCATCGCCCCACGGCCT +GTCCCAGTCGGCGCTGTAGAGGCGCTGGACGCCCTGGAACAGCAGGCGGTTAGGTTCGCCGTCAATCCAC +AGCATCCCTTTGTAACGTAGCAGTTTATCCGCCGACTCCAGCAGCAGGTTTTCCATCACGCGGGAAACTT +CGCTGATATCTACCGGGTAATCCAGTTCCACCACAATCGACGAAATATCGTTTTGTTTATCTGCGATAAA +GTGGAAACGCGGTTTGGTGCTGACGACGTTTTCTTCCAGCATAAAACCGTTGGTGTTGAACAGCAGGCCC +AGATCGATGTCGCCGTGGGTGACGGTGTAGACCGGTGCGCGGGCGTTGATGCGCGCCAGGCGTTCATGCA +GTTTTTCTGCTTCGCCTGCGACGTCGGTTTTGGTCAGCAGAATGCGGTCGGCGTAGCCAACCTGTGACTG +GGCGATGGTGAACTGGTTCATCTGCTCATCGGCATGTACCGCATCCACCAGCGCAATCACGCCGTCCAGC +AGATAACGCTGGCATAAAACTTCATGGGAGAAAAAGGTCTGAATAATCGGGCCGGGATCGGCCATGCCGG +TGCATTCAATGACCAGACGGTCGAACTGAATATTGCCCTTGTCGAGATTGTCCAGCAGGTCGAGTAGCGC +GTCCTCCAGCTCGTTGGAGCGCGAACAACAGATGCAGCCGTTGGTCAGCGTTTTGATCTGCGTGGCGCGG +TCGCCAATCAGTTGATCATCAACAGAGACTTCGCCGAATTCGTTTTCAATCACGGCAATCTTGTAGCCGT +GCTGTTCGTTAAGAATATGGCGCAGCAGGGTGGTTTTTCCTGCGCCTAAAAAACCGGTGAGTAGGGTAAC +TGCAATCGGGTTCATGCTCTCTCCATTAACAACAGCGCATACCGCCTTTACCATCGCCGCCGTAGCGCGC +GTTCTGGCGTTCGCGGAAGAATTCTTCATAGCTCATGTACGGCTTGTCGGGATGGTTGGTCTTCATATGC +TCGACGTAGTTGTCGTAGTCTGGAATGCCAATCAACATCTTCGCCGCCTGGCCGAGATATTTTTTTGCCT +GTCCTAAGTTACCAAACATAGTTCACTCTGATAAGAACAAAGCCCCGCCGAAGCGGGGCTAAACACGGTT +AGTGGTGCGAAGAGATCTTCACGCCGCCTTCCGGGATTGGAACGTACGGTGTTTCTTTGTCAGTACGTTT +GTCGCTGTTACGCACCGCAAGCCAGGTTTTGAAACCGTAGAAGATGATGCTGTACACCACAATCAGGAAC +AGAATACTCAGACCTGCGTTGGTGTAGTTGTTCACAACGATGTGGTTCATATTGGCAATCTGCTGCGCCG +TCAGGTCAGTACCGTTAGCAATCTTCTCTTTGTACTGGCTTGCCATGTAGAAGAAGCCTTCCATCTGCGG +GTTGGTGCTGAACAGTTTCAGGCCCAGCGCCCAGGTGGTGCAGATAAGCAGCCATACAGCCGGAACAACA +GTTACCCAGATGTATTGGGTGCGCTTCATCTTAATCAGCACAACGGTGCCCAGTACCAGCGCTACGGCTG +CCAGCATCTGGTTGGAGATACCGAACAGCGGCCACAGGCTCTTAACGCCGCCCAGCGGATCAACCACGCC +CTGATACAGCAGGTAGCCCCACAGACCCACACAGCCCGCAGTACCGATGATACCGGCAACCAGAGAATCG +GTTTTTTTCAGGAACGGGATGAAGTTACCCAGCAGGTCTTGCAGCATAAAGCGGCCAGAACGGGTACCCG +CATCCAGCGCGGTCAGGATGAACAGGGCTTCGAACAGAATACCGAAGTGATACCAGAAGCCCATGTCAGC +CATCGGCAGCACTTTGTGGAACACGTGCGCGATACCTACCGCCAGCGTCGGCGCGCCACCTGCACGGTTC +AGGACAGAAGGCTCACCAATGTCTTTCGCGGTTTGCAGGATCTGCTCTGGCGAAATCACGAAGCCCCAGG +AGCTGACGGTCGCTGCCGCGTGTGCGGTAACGTCTTTCAGCTGCGCCATGATGATCGGCGCGTTCTCGCC +ACCCATTTCATGCAGGTTAGGCATGGTGATGCCAAGGCCAGCAGGCGGGGTGTTCATCGCGAAGTAAAGA +CCCGGTTCGATGATGGACGCAGCAACCAGCGCCATAATCGCCACGAAGGACTCCATCAGCATTGCGCCGT +AGCCGATGAAACGCGCGTCGGTTTCATTAGCCAGCAGTTTTGGCGTCGTACCGGAAGAGATCAGCGCGTG +GAAGCCAGATACCGCACCACAGGCGATGGTGATGAACAGGAACGGGAACAGAGCGCCTTTCCACAGCGGG +CCAGTACCGTCAATGTACTGGGTCATGGCAGGCATTTTCAGTTCCGGGTTCAGCACCACGATACCCAGCG +CCAGGCCGACGATAACGCCGATTTTCAGGAAGGTTGCCAGATAGTCGCGCGGTGCGAGGATCAGCCACAC +TGGCAGCAGTGCGGAAACAAACGCATAGCCAATCAGCGCGAAGGTAATGGTGGTGTCTTTAAAGGTCAGT +GCCGGACCCCAGTACGGATCGTGAGCAATCACGCCACCGAAGTAGATAGAGGCAACCAGCAGCACGATAC +CAATGACAGAGACTTCACCCACACGCCCCGGACGAATAAAGCGCATGTAGATACCCATAAACAGCGCAAT +CGGTACGGTTGAGCAAACGGTGAAGACACCCCACGGACTTTCGGCCAGGGCTTTAACCACAATCAGCGCC +AGGACGGCGAGGATGATGATCATGATTAAGAAACAGCCAAACAGCGCGATAGTCCCCGGTACTGGTCCCA +TCTCTTCTTTGATCATCTCACCAAGAGATGCGCCATTACGGCGAGAGGAGATAAACAGCACCATAAAGTC +CTGAACCGCACCGGCCAGCACGACCCCCGCCAGCAGCCACAGCGTGCCAGGCAGGTAGCCCATCTGCGCG +GCGAGAACCGGACCCACCAGCGGACCAGCACCGGCGATAGCGGCGAAGTGGTGACCAAACAACACGTAAC +GGTTGGTCGGAACGTAGTTCAGACCGTCGTTGTTAATAACCGCAGGCGTCGCGCGCGTGGGGTCGAGTTT +CATCACCTTCTGGGCGATGTACAGACTGTAGTAGCGATACGCCACCAGATACACCGATACAGAGGCGACC +ACGATCCACAGGGCGCTGATGTGCTCCCCCCGACGTAATGCAACTACCGCGAGGCAGAATGCACCGATGA +TTCCGAGAATCACCCAGGGTATGTGCTTGAATATCTTTTTAGTATCCATAGTAAAACCTGGCATGTATTG +ATTAATAGTTGGCCGAAGCCGTTCTAGGTTTGCGTTGCGTTTGAGGAGGTAAATTGACCGCTATCCTGTA +GTGATGTTGCCAGAGTTACGCGCGCGTAAAGTAAGGTAAATAACTGAGTGGTTATTTTAGGGATGTAAGC +GGTCAGTTTTGCGGTTGAGCGGCAAAGGCGTCGTTTAAGTGACGATAAATATGTGATTCATATCACATAT +TTATATTGTGAATAATTTATGTAAATAATGGCTTTTTAAATTCAGAGTGTGAATAAAATTCACTCGGCGT +AATCTCCGCGGGATATTCATAAAGTTTTTCCTTTCCAGGCCGAAAATCTTGCATCGGTCCACAGGAAAGA +GAAACCATGTTAAAACGTATCAAAATTGTGACCAGCTTACTGCTGGTTTTGGCCGTTTTTGGCCTTTTAC +AACTGACATCAGGCGGTCTGTTCTTTAATGCCTTAAAGAATGACAAAGAAAATTTCACTGTTTTACAAAC +CATTCGCCAGCAGCAATCCACGCTGAATGGCAGCTGGGTCGCGTTGTTGCAGACGCGTAACACCCTCAAC +CGCGCGGGTATCCGCTACATGATGGATCAGAATAATATTGGTAGCGGTTCAACCGTTGCTGAGCTGATGG +AGAGTGCCAGTATTTCGCTGAAACAGGCGGAAAAAAACTGGGCGGATTACGAAGCGTTGCCGCGTGACCC +GCGTCAGAGCACCGCCGCAGCGGCAGAGATCAAACGTAATTACGATATTTATCACAATGCGCTGGCGGAG +CTGATCCAACTGTTAGGTGCAGGCAAAATCAACGAGTTCTTTGATCAGCCGACCCAGGGATATCAGGACG +GTTTCGAGAAGCAGTATGTGGCTTACATGGAGCAAAACGATCGGCTCCATGATATCGCCGTCAGCGATAA +CAATGCCTCCTACAGCCAGGCGATGTGGATTCTGGTGGGCGTGATGATCGTCGTACTGGCGGTCATCTTC +GCCGTCTGGTTCGGTATTAAAGCCTCGCTGGTAGCGCCAATGAATCGCCTGATTGACAGCATTCGTCATA +TTGCAGGCGGCGATCTGGTGAAACCGATTGAGGTGGATGGCTCTAATGAGATGGGGCAACTGGCAGAGAG +TTTGCGCCATATGCAGGGAGAGCTGATGCGTACCGTCGGTGATGTGCGCAACGGGGCCAATGCCATCTAT +AGCGGTGCCAGCGAAATCGCCACCGGCAATAACGATCTCTCTTCGCGCACCGAGCAACAGGCCGCTTCGC +TGGAAGAGACGGCAGCCAGCATGGAGCAACTGACCGCAACGGTGAAGCAGAACGCCGAAAATGCGCGCCA +GGCCAGCCATCTGGCGTTAAGTGCTTCTGAAACGGCGCAACGCGGCGGTAAAGTGGTAGATAACGTGGTG +CAGACTATGCGCGATATCTCCACCAGTTCGCAGAAAATCGCCGATATTATCAGCGTAATTGACGGCATTG +CCTTCCAGACCAATATTCTGGCTTTGAACGCGGCGGTTGAGGCTGCGCGTGCGGGTGAGCAAGGGCGCGG +TTTTGCGGTGGTCGCGGGAGAAGTGCGTAATCTGGCCCAGCGCAGCGCCCAGGCGGCTCGTGAAATTAAA +AGCCTGATTGAAGACTCGGTGGGGAAAGTGGATGTTGGCTCTACGCTGGTCGAAAGCGCCGGGGAAACAA +TGGCGGAGATTGTCAGCGCCGTGACCCGCGTGACGGACATTATGGGCGAAATTGCTTCTGCTTCTGATGA +GCAGAGCCGTGGTATCGATCAGGTTGGCTTAGCGGTTGCTGAGATGGACCGGGTAACTCAACAGAACGCC +GCGCTGGTGGAAGAGTCTGCCGCTGCCGCCGCCGCGCTGGAAGAGCAGGCCAGTCGCCTGACCGAAGCAG +TGGCAGTGTTCCGGATTCAGCAACAGCAGCGTGAAACATCGGCTGTGGTAAAAACCGTGACGCCAGCTGC +GCCGCGTAAAATGGCCGTGGCAGATAGCGAGGAGAACTGGGAAACATTTTAATCGCCATGAAAATGCCCG +ATAAGCAAAATGTTATCGGGCATAAGGAGATTAATCTTTACGTGGGTCGTTGATCGGCTGACGAACCAGG +AAGATGTACGCCAGTGCCCCCGCTGCGGTGACGCAACCGCAGATGATTAGTGCCAGACGGAATGAGTGGG +TGGTATCAACAATAAAACCAGTAATGATCGGCGCAAAAGAGGCGCAGATGAAGCTGGCAAAGTTCTGGAT +ACTGCCCACCGACGCAGTCATGCGAGAAGCAACTGCGACGTGGATCAAGCCCCAGCAGGATGTTCCGGCA +AAGTGAATACAGAACAGTGCCATGCCAATCAGCAGAACCGCCGTCATGGATGTTGTCGCTTGTGGTACTA +TCAGCGTAAAGGCGGCAGAACAGAACATCCCGGCAATAATGCAGATCTTACGGCTTTTAATCGGAGCCAT +TCCCCCTTTGACCAGCCAGTCGGTAACGTAACCGTTGACCAGCATCCCGGCAGCCCCAAACAGGAAAGGG +ATAGCCGCCATCAACCCTGTGCTTTTTAAATCCAGGTTATAGGCTGTTTGCAGGTAACCAGGAAGCCAGG +CCAGATACAGCCACGCAGTGTAGTTGATGCCACTGAATCCGAGCATCATTCCCCACATTGTACGGTTACG +GAACAGGCTGCGCCATTCGGCAAAACTGAGCGGATCTCGGCGGGCATTGACGCTACCTGCATTGAGATAA +GCTTGCTCAACGGCAGTCAGTTCTACGTGCTCGCGGTTGCGATAGAGCATATACCAGCCGATGGCGAGAA +AAATCCCCAGTACACCAATGGTAATAAACATCCCGCGCCAGCCCATCACCAGCATCATCGCCGCCAGAAT +CGGTGGGCTTACGGCAACGCCAATGGTAGAAGCTGCGTTGAAGAAGCCCATCGGGCGTCCGCGCTCTTTG +ATGTTGAACCAGTCGTTAATGACTTTTACACCGCATGGGTTCATCGGCGCTTCACCAATCCCCATACCGA +TACGCACCAACACGAACTGCGTAAAGTTGTGCACCATGCCAGACATTGCCTGGAACAGTGACCAGAAGAA +CATCCCCAGTCCCAGCATCAGGCGTGGGCCTTTACGATCCAATAGTGGGCCGCAAGGAAGTTGCGCAATC +CCGTAAGCGAGTGAAAACACGGAGAGCAAAGCGCCGATTTCGGTGGCACTTAATCCCAATTCTTCACGAA +TCGTTAAATTTGCTACCGACAGCGAACTGCGGTCGAGATAATTGATTACCGCCGCAAAAAATAATAACAA +CATGGCGGTGGTTTGAATGCGTTTAATTCGGGTACTGCGTTGAACTAATCCATCTGGTGGCACGGGAATA +TCTGCCGACGAAGATGGAGTAAATGAAGAACGCGGATCGATGGTGATATTTTCTTTTTCCACGCCGGACT +CCTGTATTTATAATTTTAATTGTTTACGTAATTGTGCATTACGCAAGGTTGACATTAACGGCAGGTTAAA +GTTTTAGGACTTTACTACCGCTCACAAAAACATTTTTAGTCGACTGATTGTGAGCATAGGTAAGCGGGAA +TTTCCCGGTATTTATCTTTTGATAAAACCGTGCACCCGCTAATAGTTTGCTGTTTTTAATCCGTACTTAA +TGAGCATAACGCGTGTTCTCATTAATGGATCGAATCATTGATTGTTTAGCTGAATTCAAATGGTTACGGA +GCGCAAGGGTGGCATCAAGGTCACTGCGGCAAATCAGAGCGCTGAGAATGGTCATATGCTCATCGACGGC +AATGATATTGCGCTGTTTAAGATCGCTTTCGTCCCATTGATAGTGAAAATGAAAGATGACTGAGATGATC +TCAAGCGATTGATCAAAAAAGATATTGTCGGCAGCTGAAAGCAGTAAGGAGTGAAAATCTCTGTCAAGTT +GCGAGAACATGCGAAAGCTATTGCCGATGTTGTCACGCAGTAGCCGATGACGTTCGAGCATGGTTTTCGC +CTGCAGCCAGCGGGGATCATGATCAGGCAGGTTGAGAAAGTGCTGAAGTGAATGTGTTTCGAGCATTTCG +CGTAGCTCAAACAGCTGCTCGGCGTAGGATTGATCGAATTGCTTCATGCTCCACTGGCCGCGCTTTTCGC +TGTGAATAAGATTATAACGGCCGAATTTTAAAAGATATTCTCTTACTACAACCGGGCTGACACCCGCGGC +CCGAGCCAGTTGCAGTTCAGAAAACGTTTCCCCTGGGCGTAACTGGCGCTGGTTTATCATCGTGAAAAAA +GCCTGCTCAAACACTTTGTTTTGTTCACTCATTGAAGCGGTAGTACAGGCGAAACCGTCATCATGGTCAG +GTTTACGCGCAATAACATAGTCGTTTCCAACCTGCGTCAAGACGCCGCATTCGCGTAAGTGGCTGAGAAT +ATGACGCACTGTGGTGCGGCTGATGTTGTACATTTCCGCCAGCGCACTTTGCGATGGAAGTGGGGAAGGG +ATATGACCCCGCGCCATATCATCAATGACCTGGTTAATCACATTGTGGCGTAAATTTTGTGAACGACTCA +TATTTTCCTCCTTGTGAGTCCATTAAAACCCGATTTAAAACATTTTTATGCGTGTGTTTTCACAAAAAAG +ATTTTCCGTTCCGCTGCCATTTTTCATTTTCATTGATATCTAAGGCAACAAAAAGTGGAGAGCCGAATCA +TGTCTACGATGAATGTTTTAATTTGCCAGCAGCCGAAAGAATTAGTCTGGAAACAACGCGAGATACCTAT +TCCGGGTGACAATGAAGCATTAATAAAAATTAAGTCTGTCGGGATTTGCGGTACCGATATTCATGCCTGG +GGTGGAAATCAACCATTTTTTAGTTATCCACGTGTTTTAGGCCATGAAATATGTGGGGAGATTGTTGGGC +TGGGTAAAAATATTGCTGATCTTAAAAATGGTCAGCAAGTTGCTGTGATCCCTTATGTTGCCTGTCAGCA +ATGCCCGGCGTGTAAAAGCGGGCGTACCAATTGCTGTGAAAAAATTTCAGTCATTGGCGTGCATCAGGAT +GGCGGTTTTAGTGAGTATTTGAGCGTGCCGGTGGCGAACATTTTGCCCGCAGACGGTATTGACCCGCAGG +CGGCAGCATTGATTGAACCTTTCGCTATTAGCGCTCATGCGGTGCGTCGCGCAGCCATTGCTCCCGGCGA +GCAGGTGCTGGTGGTCGGGGCGGGGCCAATCGGTCTGGGCGCGGCGGCAATCGCTAAAGCCGATGGCGCA +CAGGTGGTGGTGGCGGATACCAGTCCGGCGCGCCGTGAACATGTGGCAACGCGTCTGGAATTACCTTTAC +TGGACCCGTCAGCCGAAGATTTTGACGCGCAGCTACGGGCGCAGTTTGGTGGTTCGCTGGCGCAGAAAGT +GATCGACGCGACAGGTAATCAACATGCGATGAATAACACCGTGAATTTGATTCGTCACGGCGGCACGGTG +GTATTTGTCGGCCTGTTTAAAGGTGAGTTGCAGTTCTCCGATCCGGAATTCCATAAAAAAGAAACGACGA +TGATGGGCAGCCGCAACGCCACGCCGGAAGATTTTGCTAAAGTCGGTCGACTGATGGCGGAAGGAAAAAT +CACTGCTGACATGATGTTAACCCATCGCTATCCGTTCGCCACGCTGGCAGAAACCTACGAGCGCGATGTG +ATTAACAATCGTGAGTTAATTAAAGGCGTAATTACTTTCTGATAAGGCGAGATTATTAAAGTTGCCATGC +AGCGTCCGGGGAAGTGTTGGGCGCTGTTTTTTTTGTTTCTTAATAATGTGTTGTAAGCCGTAGAAGGCGT +GTAGGTCGCACCCTATGCGACCTACACATCAGTCAGGAATTACCCTTCACGTTCTACCACTTTAATTTCC +ACCATGCCGATCCCGAGCTTACGCGGCGAGTGTCCGAGGATATTCCCTTCGTTGGTTGAGACAGGTTCCG +GCGGCACAATTACCAGTGTGTCGGCATCGGTTGGGTTATCGAAATGCAGTGTGGTGGTGGTCACTTCATT +GCCCAGCACAAGAGTTTGTTCTTCATTGCCTACGCGTACCGGAATAGGACGGCTGGCGTTATTGCCGTAT +GCTTTGGCGGTAATCACCAGGTCAAATTTCTTCGGCAGCGGATGCTTGTACTCGATTTTTACTTCATCGC +CCAGCTGCGCGTTGGACCAGCGGCCCCACGACTCCGGACGGGAAATCCCGCTAAACTGTTTCACCTCTTC +TGGCGCACCGGCGACGTTAAAGATGAAACTGTCGGCTTTGTAGCGAATATCGTTATCAACAATCTTCAGC +GTATCGACATTGCCTTTGTAACGCGCCATGTCGATGACCGTATCTTTAAATGCCGTTTTGCCCTGCCATG +TTGTTTTGTCAACATGCTGAACAATTTGCTGACCGCCAAGCTGCCCTTGCGAGACACACCAGTCGGTGGA +AAGTGCCAGTTCCGGAGCCCAGAGTTGTGCCATCTTGTAGCAACGGTCAACCCAGACGAAATTGTCGCGT +GGAGCGAAATCGGCCAGCTGGAAACGCAGCGGTGCTGAGTATTCGCTTTCCGGCAGCGGTTCCACGCGTT +TGTCTGAAACCCGCAACAGCAGCGGCAAACGGAAATGGCTACCCGAGAAGGCAATCATGTTTTTCTGCTG +GTCGATGGTGAACTCTTTCATCTCTTTAGGGAATTTCCACAGGCGGATGATATCTGGCTTCCACGCCAAT +GTTTTCTCTTTGATATTGAGGAAGATTTCCGACATCGACTGCCCGGATAAACTGCTACGACCAAGTCCGA +GATAGTTATCGCCACCGAGAATGTCCAGCACCGTCGCGCCGTTATCCATCGTGTTACGCTTCACTGCCAG +CGTCTCTTGCTGCGGCTTGTCGCCACGAATGACAAAAAACAGGTTATTGCGATCCTGCTTATTGAGGTAT +TTCCACGCCGTGTTGTTCATCGCTAAATGGTCAGAAGAGACGACGATGACGGTATCTTTAAACCACGGTG +ACGCTTTGATTTTGTTGATAAACGTCGCGATGTTCTCCTGGCTGCAACTTACCGCGCTGAATGACTGATT +CGGTTTACCGTCAAAATCATATTTTTTGCGGTTACAGGTACGAGAGATAAAACCATCCGGGTGATGGGTA +TCGACTGTCAGGGTAAACAGTGAGAATCGCTGACCTGAGCGGGAAAGCTCTTCAAACTTTTTCCACGCTT +CATCGAGAACGGTATCGTCGTAGAATCCCCAGTCGTTGCGATAGTGCGGGTCGGCTACCACGCTTTTCAG +CTCTTCTGAGCCGTATAAGTGGTCGAAGCCATGCGACTTCAGGAACACATCTTTACCGGCAAAACGCAGA +TTCGCGCCCTGCACGAAATAGTTCTGATAACCCGAGTTTTTCAGGATATCTCCCAGACAGATGTTCTGCG +GGAAGAAGCTGGAGACAGAGGCGGAGGCGTTGCCTTCAAAGGGGGCAAACAGCGGTATGCCGCACTGAGA +AGCCACCATGCCCGCAATCGTGTAATCTGTTCCCGGCAGCTGCTGCGTGTGGCTGAAATCCAGGCCTTCA +TTTTTCAACGCGCCCAGTTCAGGCGTGAGATCCGGGAAAGCCTCGTTATCAAAATAGGTCCGCTCGAGAC +TTTCGCCGTAGATATAAACCAGGTTGAGTTTCGGGTCAGGGATAGTTTTCGACGGCTCTTTATAATAAGC +CGCAAAGTCCGGGTCGCCGTCGCGTGACTGGGATTTCACCAGTTCCGTTATCTGACGAAATGCCGGGCTG +GCGTCCACCGAACCCAGCGCCAGTAAGAGCGCCAGCAGGCTGTAACCAAAATGGTGCGGATGATGGCGAC +GACGGCGCAGGATCCAGCCCAGCGCACCGAACACCGCTGTCAGCCCCAGCACAATGCCGATACCCGGCAA +AATGTATTTGCTGACGCCAGCACCGGTCAGGCTGTTGGTTAAGGTATAGAGAACCGCGTCGTTAATACCA +TCGCCAGTAAAATAGTCGCTGGCAAACAGGGTGATATTTAAAACGACAAATAGCCCCAGCACCGTTAACG +TGGCTGCAAACCACCAGGTGTTACGTCCCGCTTTCCATGCGTAAATCAGCACAGAGGCGAGAAAAAGGGC +GAAAGAGAGTAGTTCTGACAACGGGCGATCCTCACTAAACCGGGCCGTTTAGCCAACGTTTAAGCTTTTT +GAGAAGCACAATGTAATGGCGTCGCCATATTGCTGCAATTCTAGTGTCAAAAAAATGCGATGTTGTTAGG +AATTAGTTTATAAACAGACTTTTTTGATTACGGTCACTTCCCGTGTAACAGGGGTAAAACCGTCCAGGAG +CAGGGAAAAGGGCAGGAGAGAGCCGCGTCAGCCGGGTAACAGCTAAAACGCGGCGTTTCGCGGTTCAGGA +AATGAAGTTCAGCCCCTGTTTTAACACCAGATCGCAGGCTTTGGTTTTCACCTTTTCTGCCAGCGGAGTT +GTTCCGATGTTATCCAGATTGAGTTGCTGACCATCTTTGGTTTTCAGCAAACCCTGAATGCCGTCCAGAT +AGTTGGTGTCTTCTTTTTGCTCTTCACTGTTCAGGCCCAGCTTTTCCAGCACCTGGTTCTTGATGTTTTC +GGCATCGGTTACCGACGCCAGCTTTTGCTTCGCGCAGTATTGCAGAATGCCTGCGGCATTGTTCATGTTA +TCTGCGCTTAAGGCCTGGTTTCCGCTGCTAAGCAAGTTAGTTAATGACGCGAGCGACCAACCGCCTTCCT +GTGTCGTGCTGTTTTGGTTGCCAAGTTCGCTGGCGGCGCTGGAGAGCGCATCTTTCCAGGACGCAGCATG +CACCCCGGTGGAAATTAATGCGCTGGCGGCAATGGCACAGCACAGAAGATGTTTAACAGTTTTCATCATC +ATTACTCAAGGTGGAATTGTGTCGCAGTATACCGCCAGAAACGGGGATTAATACTCTTTACCTGTTACCC +GGCTACGGTAGCTATCCCAGTTGAAGATCACCCACAAACTGTTACCCAGGCGCATACGGTCCATCACGCG +TTCGCCCAGCAACTTGGTCATCTCTTCCATATTACTGTTGGTCAGCATCCCGGTTGGGCGTTTGGAAGAA +GAGCGGCGATCGACGATCTGGTTGATGATCACTTTTTCGTATTTCGATTCGGTCTGCACGCCGATCTCAT +CGATCACCAGCAGATCAACGTTGCTCAGATCGTTAAGCAGTTGTTCTTCGCTGGTACCGCTATTCCTGAA +GGTATCTTTCATCGCCGACATAATATCGGCCACGGTGATGATCAATACGGATTTACCGCGTAGCAGCAGC +TCGTTGCAGATTGCCGCCGCCAGATGGTTTTTGCCGGTTCCTGGCTTACCAGAAAAGATGAAGCTGGCGA +TGTTGCCGTCAAACTCTTCGACATACTGGCGCGCTTTGCTTAACGCATTCATCTGCCCTTCACACTCAAC +GCGATAGTTCTCAAAGGAACAGTTCTGATGCAGTGGACGAATACCGGAGCGGTTAAAGGTGCGCTGCATT +TTCATCGCCCGATTTTCACGTTCGAGAGCGGCGGAGCGGATCGCTCCTTGTTCTTTTTGCCAGGCCAGTA +GTTCTTCACCCGTTTTGAATGCGGGTTTGATATGGGCAGGCATCATTTTTTGCAGGCGTTGCATCAGGTC +GCCAACGTTTTTCATCGTTACCCTCTGAATCCTGGTGGAATTTGGCTGTCAGGTTCGCTGACCGTATTCA +CATCTCGTTTCGGCAGTCCGCCGTTGCTGGCACGACCGATTTGCAGGCTGCGCGCCAGTTTTTGTTGCCA +CTGCACATGGTGAAAGACTTTACCTTCCGCCTGCCAGTAGGCAATGAATGAGGCCAGTTCTTCGGTGGTC +ACCGGCTCTCTTAGCGCCACGCCCCATAGCGCCGCCAGGCGGATAAAATCGGCATCGGGTTGCCAGTCCG +GATACATGGCGAATTTCCCCATGGGTACAGCAACGGGAGCGGCTTGCGGTTCCTGATAGAGTTGATCGTC +CAGAGCGACATCGCTTCCCGGACGCGCCAGCTTTTCTTCCAGCGCCAGCAGTTCAGCCAGGCGTGCAGGC +GTGACGGCATAAAACGCCGGGGCATTGTTAGCAAATACGGCAACCACACCGCCTTCAGCTTTTGCCAGAA +CGGTTTGGTGATCGTGTACCAGGGCGTCAATACCAACGACGTCCGGGGTCAAAACTCTGGAAGACATACT +GTTTCTCAAATATGGAACGATGAACGAGAAGGGAGATAACTTTTATAGTAACACACGGAGGAGAGGAGGC +TGTCTCTCATCCGTGTGCTTAAGCGAGGCAATTTTATACGCGAGGGCGCTTGCGGTACAACCATAATCCA +GGAATGGAAAGACCGATGGATAACGCACCAACAATCGATGAAGCTGTAAGAAAGTTGGTTAACAGGGTAA +TCATCAACGGTTCGCTGTAACCTAACTGGCTGATTTTTACCGCCGAAATCATTGCGGTATAAGCCGATAT +GCCCGGGAACATAGGGATAACGGCCGCCACGGTAAACACTTTCGGATGCGCCAGATACCAGCGCGACCAT +TGAATACCAATGGTACCGACCAGCATAGAAGCCATAAAGGTTGACCACTCAATATTCAACCCGCTGGTCA +TCAAGATCATTCGGGAACCATGACCTATCGAGCCAAGCAGCGCACACCAGCGTAACGCCCGCACGGGAAC +GTTGAACACCATCGCAAAGCCGACCGCAGGAATGGCGGCGAGGATCATATCCTGCGCCAACGCTAACAGA +AATTCGATCACACCCATCCGCGTAGCCCCCAAATCGTCAGTGCCATCACTACGCCGACGCAGGTAGCCAG +TGTCAGCAGACTGGCGATCGCCCAGCGTGCCAGTCCGGTATTGATGTGGCCTTTAAACATATCGGCGACG +GCATTAATCAACGGAAAGCCCGGCACTAGCAGCAGAACGCTGGCGGCCATCGCAATGGTGGGGGTATTGC +TGAAAGTGGGGAGTTGCAAAAGCAATCCGGAAATGGTGGTGGCGGCGAAAGCGGTAAGGCAAAAGTTGAT +CTGTGGATGAAGATGACGTTGTGCCAGCAGCTGGCGGATATACATCGCGGTCGTACTGGCAAAGAAGGTG +ATGACGGCACCATCCCAGCCACCGTTATTGAGTTTACAGAAACAGGCGCAAGAAAGGCCAACCATTAAGG +CTACCAGCCATCTTGGGTAACGTAATGGCTGAATTTGGCTAAATCGTTTCTCTACGCCTTTGTAATCCAG +CAGATGATGCTCCGCAAGAATCACAATGTGCTGGACTTCAGTCACCACATGCATATTAATGCCGCGATCG +TGATTTTTACGTGTCGATGTCAGGCATTGCCCATCTTTAATAGTTGTCAGCACTATGGCGTTCGAAGAGA +TAGAACTTTCGACGCTGTCCATTCCCAGTGCCCGACCCAGTCGTGAGGAAAGCTCATCAACCAACGCGCT +TTCCGCACCATGTTGCAAAAGAAATAATCCACACTGGATACAAAGCCGTGTTACGGCTCGCTGTTGCTCA +GTTTGCATAACTCGCCCTTTGTCATAGACGTGCTGCGTATTGTTCAGATAATGAGAATCCATTTGTATCA +TGAAGCACGGTTGTTTTGCGGTAGGTTAAGATCAAAATTGCGCTGATTAATCCTGGTTATCGGGAGAAGC +TCGGTGATAAAAAGCGAATTATCTCTCGCCGCAAACAAACTATCACATGAATATTATCATCATAATGAAT +TTATTGTTTGGCCTTTACGAATCAGGATAATAGATAACCGGGCACGTTTTTTAATGTTAACAAGCTAAAA +CCATCAGATTTCATTGAATAAATATTGGTTGTGTGATTTTGCATTCTGCGGGAAGGGATATCATTTAATT +ATAAATTAAATGAATGTGATTTCTGTTTTTCATTAAGTATTCCTAACAACTTAATGTAGATATTTTAAAT +GTCTCCAGGCTATTTCACCAGGTTATCATTTGATGCTAACCTTCTGACACATGCAGTGGAGTTGTTGTGC +AGCAGGAGTATGCTGATATGAAAGTGAATGCTAAGGATAATTTATTCGCTTAATCTATTAATTTGCTGGA +AACATTTAAGGAATGAATATCCTGAATAAACCATCATAATTTTTAGACAGTGGATGTGGAGGAAATATGT +TGCCAGGATGCTGCAAAAATGGAATTGTTATCAGTAAAATACCTGTTATGCAAGCAGGGTTAAAAGAGGT +CATGAGGACTCACTTCCCTGAATATGAAATAATATCCAGCGCCTCTGCGGAGGACCTTACCTTATTACAA +TTACGTCGTTCCGGATTAGTCATTGCTGATTTAGCCGGTGAAAGTGAAGATCCACGTTCTGTTTGTGAAC +ATTATTATTCTTTAATCTCACAATATCGGGAAATTCACTGGGTTTTCATGGTGTCACGCTCCTGGTATTC +CCAGGCAGTAGAACTGCTCATGTGCCCTACGGCGACGTTATTGTCTGATGTTGAACCCATTGAGAATCTG +GTCAAGACCGTACGTTCCGGCAATACGCACGCAGAGCGTATCAGCGCCATGCTGACCTCCCCGGCAATGA +CTGAAACTCATGATTTTAGCTATCGCTCCGTCATTCTCACTCTTTCAGAGCGCAAGGTACTGCGGCTATT +AGGTAAAGGATGGGGCATCAACCAGATAGCTTCATTGCTTAAGAAAAGTAATAAAACTATCAGCGCCCAA +AAAAACAGTGCGATGCGTCGACTGGCAATTCACAGCAACGCTGAAATGTATGCATGGATAAATAGCGCGC +AGGGTGCAAGAGAACTTAACTTGCCTTCTGTTTATGGAGATGCCGCAGAATGGAACACAGCCGAATTAAG +AAGAGAAATGTCGCACTCATAGAAAAATGCGTCATGAGTAGTATCGGTATTGAGAGTTTATTCAGAAAGT +TTGCGGGTAACCCTTATAAGCTCCATACCTATACCAGTCAGGAGTCATTTCAGGATGCCATGTCGCGGAT +CTCGTTTGCGGCGGTCATTTTTTCTTTTTCTGCCATGAGAAGTGAGCGCAGAGAGGGATTATCTTGCCTG +ACTGAACTGGCGATTAAGTTTCCGCGTACCCGGCGTTTAGTTATTGCGGATGATGATATTGAAGCTCGGC +TGATTGGTTCATTGTCGCCATCACCGCTGGACGGTGTATTAAGTAAAGCGTCAACGCTGGAGATTTTTCA +TCAGGAACTCTTTTTGTCATTAAATGGTGTACGTCAGGCGACCGACCGACTGAACAATCAGTGGTACATT +AACCAAAGCCGGACGTTAAGCCCGACGGAGAGAGAAATATTGCGCTTTATGTCGCGTGGCTACTCAATGA +CACAAATTGCCGAGCAGCTTAAACGCAATATCAAAACGATCCGTGCACATAAATTTAATGTGATGTCGAA +ACTGGGCGTCAGTTCTGACGCAGGGTTGTTGGAGGCCGCAGATATTCTGTTATGTATGCGGCATTGCGAA +ACAAGTAATGTGTTGCATCCCTATTAATCCGCATGATGCCGGGTTTACTTCCCCGGCAGTGCTTTCATTT +CAGCGTACAATCGCCACATTGCTGCACATCCGGTAAGCGATAACGCTGGCAGCAAGTGCGGCGCACCAGC +AGGCCGTCGCGCAGTACCACGGTACGCCAGAGTGGATTATCTTCACCGTTCGTGAGCGTTTTCTCAAAAA +AGAGGGCATGGCGCAGCGATTCAACAGTAGCCTCGCCGAGCAGTTGCTTCATCTCAGTGAGATACCAGTT +GATCAAATAACCGGTATTACTCCAGATAAGTTTGCCGTTGATCTCTCCGGTCGCTTCTAGTGCTTGCACA +ACCGGAACCAGCGCCTGGCTGATTAACGTTTCCATTCGATGCTGCGGCGAATGTGGTGTTGCGTTTTTAT +CTTCACACACATCGACCCAGAAACAGGCGACGCGTCCGGTTTCGTGAAACTCAGCATGGAAATGTTCCGG +CGACACATCTAATGCCTTTTCCTGCGTCAGTAGCGCCAGCATTAATGGTGGCACCATCAGGCCGATATAC +CATTGTGCCCATAGTGAGATCAGCGGTTTGTTCTCGCGGATCATCATCGGTTGGTTGCGATAGATATGAT +CGGAATAGACCGCCAGCAGAGAACTTAGCACATTCGGTGATGACCATTGCGCCAGCGTCATGGCGTTAAG +TGGGGCAGGTTCATCCAGGCGGATAAACTCCAGCAAATGTTCACGATGTTTTGCGATCGTCGCCCGCACG +GCTTGCGCAAGCGTGGGATCCTGCGGCTGGAGATGCGTTCGCCAGATGACATCTTCATAGAGCGGTGCGG +AACGATAGGCCATAATCGGGATAGTAATCTAAATGATAATGATTGCTAATCATAGCGATAGGTTTACCCG +ATAGCAAGGGATTTATCTGGCTTGCAAATGATAAAAATTATCATATGATATTGGTTATCATTATCAATGA +AAGAGATGAAATCATGTTGCAACGTACGCTGGGCAGTGGCTGGGGAGTGTTGCTGCCGGGATTGCTGATT +GCAGGGCTGATGTATGCGGATTTATCGTCAGATCAGTGGCGGATTGTCATTCTGATGGGATTAGTATTGA +CGCCGATGATGCTGTATCACAAACAGTTGCGGCATTACATTTTGCTACCATCGTGCCTGGCACTTATTGC +TGGCATCATGCTGATGATAATGAATTTGAATCAGGGATGAAAAATCAAGGAAGAAACAAGAAAGGAAGTA +AAGATAATTGGTGCGAGGGGGGGGACTTGAACCCCCACGTCCGTAAGGACACTAACACCTGAAGCTAGCG +CGTCTACCAATTCCGCCACCTTCGCACAGTCATCTTACTTTTTTTGATATCGCCTCGTTTGGTGCGAGGG +GGGGGACTTGAACCCCCACGTCCGTAAGAACACTAACACCTGAAGCTAGCGCGTCTACCAATTCCGCCAC +CTTCGCCCAGTGCGAGCAATATCAACGTGGTTTTTGGTGCGAGGGGGGGGACTTGAACCCCCACGTCCGT +AAGGACACTAACACCTGAAGCTAGCGCGTCTACCAATTCCGCCACCTTCGCATACCATCAATTCTTAAAA +AGAATTGCTACCACGGAGGCGCATTCTAGTGGTTTTCAGCTTTTCGTCAATAGTTAATTATCGACAGAGG +TGTAATTGCTGGAAAAATGTCCATCAGGAAACTAGCGTGCAGGTTTGGTATGCATGCGGGGGCAGATGCC +AGATGCGACGCTGGCGCGTCTTATCTGGCCTACGAAGGGCTAACGTGCAGGTTTTGTAGGTCGGATAAGG +CGTTCACGCCGCATCCGACACGGTATTCGGCGAGATAATTAACCTTTCTTCGCCTGGCGGGTCATAATGG +CGCGATACACCTTGAAGCGCCCTGTTTGCGCGATCACTTCGTGGAAGCCAAATGTCTCATCCAGCACGTC +CGGATAAGGCAGGAAGGCGTTCGCTACAATTCGCAGCTCGCCGCCGCTATTAAGATGACGCACCGCACCG +CGAATCAGCGTTTGCGCCGCATCCAGGCTGGTTTGCATCCCATCGTGGAACGGCGGGTTGGAGATGATCA +TATCAAAACGACCTTTCACCTCGGAAAAGACGTTGCTGGCAAAGACTTCACCTTCAACACCGTTGGCCGC +AAGTGTTGCGCGGCTGGCTTCTACCGCCGGGGCAGAGACATCGCACAAGGTGAGACGAATTTTCGGCGAA +TGGCGCGCAAAGGCAACTGAAAGCACGCCCGCGCCACAGCCGACATCCAGCACTTTACCTTTCGTGTGCG +GAGTTAACGTCGAGAGCAGCAACTGGCTACCGACATCCAGACCGTCGCGGCTAAACACGCCAGGCAGCGT +TTTGACCGTCAGGCCATCGACGCTGTATTCGCCCCAGAATTTCTCCGCATCAAATACCGGCTGTTTTTCC +AGACGACCAAAATAGAGGCCACAGCGACGAGCGCTGTCGACTTTATTCAACGGCGCATAATCTGCCAGCA +TCTGCTCGGCGCTGCGCACGCCGCTGCGGTTCTCGCCAACGACAAAAATATCTGTCCCCACTGGCAGCAG +AGAAAGTAAATTCATCAACTGGAACTGGGCTTCCGGTTTGTTCTTCGGCCAGTAGTAAATCAGCGTATCG +CAATCTGCGACGTCATCCGCCGTGGCGACCAGACTGAAACGGGCGTTATCCCCCATCTGGCGGCTTAATA +CCTGCCAGTGGTGGAATTGCTGGGTATGAGCACGGCTGGCCGCGGTATCTAAACGCGCGGGCAGGTCATC +CTGTAAGTCTCCGGCAAACAGAATACGGCTTTGTTCGAAATCATCACTGTGACGCAGCAAGACTTCACTT +GCCGGGGTAAATGCAGACATGGAATGCTCCTCAATTGATACTGGCGGCGATTATAGCCATATGTTGGCGC +GGTATCGACGAATTTGCTATATTTGCGCCCCTGACAACAGGAGCGATTCGCTATGACATCCCGACGAGAC +TGGCAGTTACAGCAACTGGGCATTACCCAGTGGTCGCTGCGTCGCCCTGGCGCGTTGCAGGGGGAGATTG +CCATTGCGATCCCGGCACACGTCCGTCTGGTGATGGTGGCAAACGATCTTCCCGCCCTGACTGATCCTTT +AGTGAGCGATGTTCTGCGCGCATTAACCGTCAGCCCCGACCAGGTGCTGCAACTGACGCCAGAAAAAATC +GCGATGCTGCCGCAAGGCAGTCACTGCAACAGTTGGCGGTTGGGTACTGACGAACCGCTATCACTGGAAG +GCGCTCAGGTGGCATCACCGGCGCTCACCGATTTACGGGCAAACCCAACGGCACGCGCCGCGTTATGGCA +ACAAATTTGCACATATGAACACGATTTCTTCCCTCGAAACGACTGATTTACCGGCGGCTTACCACATTGA +ACAACGCGCCCACGCCTTTCCGTGGAGTGAAAAAACGTTTGCCAGCAACCAGGGCGAGCGTTATCTCAAC +TTTCAGTTAACGCAAAACGGCAAAATGGCGGCGTTTGCGATTACGCAAGTGGTGCTGGATGAAGCTACAT +TGTTCAATATTGCGGTCGATCCTGACTATCAGCGTCAGGGATTGGGAAGGGCGCTGCTGGAACATCTGAT +CGACGAACTGGAAAAACGCGGCGTGGCGACACTATGGCTGGAAGTCCGTGCTTCAAACGCTGCCGCCATT +GCCCTGTACGAAAGTTTAGGCTTTAACGAGGCGACGATTCGCCGCAATTACTACCCCACCACGGACGGTC +GCGAAGACGCCATCATCATGGCGTTGCCAATCAGTATGTAATACAAGGTGGAATAATGAAGTGGGACTGG +ATTTTCTTTGATGCCGATGAAACGCTGTTTACCTTTGACTCATTCACCGGCCTGCAGCGGATGTTTCTTG +ATTACAGCGTCACCTTTACCGCTGAAGATTTTCAGGACTATCAGGCCGTTAACAAGCCACTGTGGGTGGA +TTATCAAAACGGCGCGATCACTTCATTACAGCTTCAGCACGGGCGGTTTGAGAGCTGGGCCGAACGGCTG +AACGTCGAGCCAGGTAAACTCAACGAAGCCTTTATTAATGCGATGGCGGAAATCTGCACGCCGCTGCCGG +GCGCGGTTTCTCTGCTTAACGCCATTCGTGGCAACGCCAAAATCGGCATCATCACCAACGGCTTTAGTGC +CTTGCAACAGGTGCGTCTGGAACGCACGGGCCTGCGTGATTACTTCGATTTGCTGGTGATTTCCGAAGAA +GTTGGCGTTGCCAAACCGAATAAGAAAATTTTCGATTATGCGCTGGAACAGGCGGGCAATCCTGACCGTT +CACGCGTGCTGATGGTTGGCGACACTGCCGAGTCCGATATTCTCGGTGGCATCAACGCCGGGCTTGCGAC +CTGCTGGCTGAATGCACACCATCGCGAGCAACCAGAAGGCATCGCGCCCACCTGGACCGTTTCTTCGTTG +CACGAACTGGAGCAGCTCCTGTGTAAACACTGATTGCCTCCCCCCCGTTGATGGGTAAAATAGCCGCAAT +TTTTCGTTTTCAACAAGCGCGGCGCGATGCCGCTTACTCAAGAAGAAAGAATTATGACGTTGTCTCCTTA +TTTGCAAGAGGTGGCGAAGCGCCGCACTTTTGCCATTATTTCTCACCCGGACGCCGGTAAGACTACCATC +ACCGAGAAGGTGCTGCTGTTCGGACAGGCCATTCAGACCGCCGGTACAGTAAAAGGCCGTGGTTCCAACC +AGCACGCTAAGTCGGACTGGATGGAGATGGAAAAGCAGCGTGGGATCTCCATTACTACGTCTGTGATGCA +GTTTCCGTATCACGATTGCCTGGTTAACCTGCTCGACACCCCGGGGCACGAAGACTTCTCGGAAGATACC +TATCGTACCCTGACGGCGGTGGACTGCTGCCTGATGGTTATCGACGCCGCAAAAGGTGTTGAAGATCGTA +CCCGTAAGCTGATGGAAGTTACCCGTCTGCGCGACACGCCGATCCTCACCTTTATGAACAAACTTGACCG +TGATATCCGCGACCCGATGGAGCTGCTCGATGAAGTTGAGAACGAGCTGAAAATCGGCTGTGCGCCGATC +ACCTGGCCGATTGGCTGCGGCAAGCTGTTTAAAGGCGTTTACCACCTTTATAAAGACGAAACCTATCTCT +ATCAGAGCGGTAAAGGCCACACCATTCAGGAAGTCCGCATTGTTAAAGGGCTGAATAACCCGGATCTCGA +TGCTGCGGTTGGTGAAGATCTGGCACAGCAGCTGCGTGACGAACTGGAACTGGTGAAAGGCGCGTCTAAC +GAGTTCGACAAAGAGCTGTTCCTTGCGGGCGAAATCACTCCGGTATTCTTCGGTACTGCGCTGGGTAACT +TCGGCGTCGATCATATGTTGGATGGCCTGGTGGAGTGGGCACCTGCGCCGATGCCGCGTCAGACTGATAC +CCGTACCGTAGAAGCGAGCGAAGATAAATTTACCGGCTTCGTATTTAAAATTCAGGCCAACATGGACCCG +AAACACCGCGACCGCGTGGCGTTTATGCGTGTGGTGTCCGGTAAATATGAAAAAGGCATGAAACTGCGCC +AGGTGCGCACTGCGAAAGATGTGGTGATCTCCGACGCGCTGACCTTTATGGCGGGTGACCGTTCGCACGT +TGAAGAAGCGTATCCGGGCGATATCCTCGGCCTGCACAACCACGGCACCATTCAGATCGGCGACACCTTT +ACCCAGGGTGAGATGATGAAGTTCACCGGTATTCCGAACTTCGCACCAGAACTGTTCCGTCGTATCCGCC +TGAAAGATCCGCTGAAGCAAAAACAGCTGCTCAAAGGGCTGGTACAGCTTTCCGAAGAGGGCGCGGTGCA +GGTGTTCCGTCCAATCTCCAACAACGATCTGATCGTTGGTGCAGTTGGTGTGCTGCAGTTTGATGTGGTG +GTAGCGCGCCTGAAGAGCGAATACAACGTTGAAGCAGTGTATGAGTCAGTCAACGTTGCCACTGCCCGCT +GGGTAGAATGTGCAGACGCGAAGAAATTCGAAGAGTTCAAGCGTAAGAACGAAAGCCAACTGGCGCTTGA +TGGCGGCGATAACCTCGCTTACATCGCTACCAGCATGGTCAACCTGCGCCTGGCACAGGAACGTTATCCG +GACGTTCAGTTCCACCAGACCCGCGAGCATTAATTCTTGCCTCCAGGGCGCGGTAGCCGCTGCGCCCTGT +CAATTTCCCTTCCTTATTAGCCGCTTACGGAATGTTCTTAAAACATTCACTTTTGCTTATGTTTTCGCTG +ATATCCCGAGCGGTTTCAAAATTGTGATCTATATTTAACAAAGTGATGACATTTCTGACGGCGTTAAATA +CCGTTCAATGCGTAGATATCAGTATCTAAAGCCGTCGATTGTCATTCTACCGATATTAATAACTGATTCA +GAGGCTGTAATGGTCGTTATTCATCACTCATCGCTTTTGTGATGGCGACCATTGACTTCTGTAGAGGGTG +AAGTCTCTCCCTATTCAGCAATGCAACCTCGTGTTGCCAGGCTCAAATTACGAGCAAACATACAGGAATA +AATCGATGACTATGACAAGACTGAAGATTTCGAAAACTCTGCTGGCTGTAATGTTGACCTCTGCCGTCGC +GACCGGCTCTGCCTACGCGGAAAACAACGCGCAGACTACCAATGAAAGCGCAGGGCAAAAAGTCGATAGC +TCTATGAATAAAGTCGGTAATTTCATGGATGACAGCGCCATCACCGCGAAAGTGAAGGCGGCCCTGGTGG +ATCATGACAACATCAAGAGCACCGATATCTCTGTAAAAACCGATCAAAAAGTCGTGACCCTGAGCGGTTT +CGTTGAAAGCCAGGCCCAGGCCGAAGAGGCAGTGAAAGTGGCGAAAGGCGTTGAAGGGGTGACCTCTGTC +AGCGACAAACTGCACGTTCGCGACGCTAAAGAAGGCTCGGTGAAGGGCTACGCGGGTGACACCGCCACCA +CCAGTGAAATCAAAGCCAAACTGCTGGCGGACGATATCGTCCCTTCCCGTCATGTGAAAGTTGAAACCAC +CGACGGCGTGGTTCAGCTCTCCGGTACCGTCGATTCTCAGGCACAAAGTGACCGTGCTGAAAGTATCGCC +AAAGCGGTAGATGGTGTGAAAAGCGTTAAAAATGATCTGAAAACTAAGTAATTCGTCGTAATTCGTCCTC +CCGAACTTTGTCGGGAGGCGCGATGTGCACCACACTAAAAATATCGCATTGAGTGATTTTCACGCTCATA +TCAAGCGGTGACATTAACTATGGTAAAGGAGACGCTTATGTTTCGTTGGGGCATCATATTTCTGGTTATC +GCGTTAATCGCCGCCGCACTTGGGTTTGGTGGTCTGGCCGGTACCGCTGCAGGCGCAGCTAAAATTGTCT +TTGTCGTCGGGATTATTCTGTTCCTGGTGAGTTTGTTCATGGGCCGAAAACGACCCTAGATTTCAGACCA +TTAAGAAAATTTTATCCAAAGCCAGTCCAGCGGACTGGCTTTTGCGGTTTTAGCGAATAATAAATTGCGT +TACTTTGTCATTCTTTCACAACAAAAACAGGAAGGCAGAGGTGGGGCAGCGAATACCTGTAACGCTTGGT +AATATTGCGCCGTTGTCGCTAAGGCCGTTCCAGCCTGGACGAATAGCTCTGGTGTGCGAAGGCGGCGGAC +AGCGTGGAATTTTCACGGCTGGCGTGCTGGATGAGTTTATGCGCGCGCAGTTTAATCCTTTCGATCTTTA +TCTCGGCACATCTGCCGGGGCGCAGAACCTCTCGGCGTTTATCTGCAATCAGCCCGGTTACGCGCGCAAA +GTCATCATGCGCTATACCACAAAACGCGAATTTTTCGATCCATTGCGCTTTGTCCGTGGAGGAAATCTTA +TCGATCTCGACTGGCTGGTGGAGGCCACTGCAAGCCAGATGCCGTTGCAAATGGATACCGCCGCGCGGTT +GTTTGACAGCGGCAAATCGTTTTATATGTGCGCCTGTCGTCAGGATGACTACGCGCCGAATTACTTTTTA +CCAACCAAACAAAACTGGCTGGATGTGATTCGCGCCTCCAGTGCGATACCTGGCTTTTATCGTAGCGGAG +TGTCGCTGGAAGGCATTAACTACCTGGATGGCGGGATCAGTGATGCGATTCCGGTTAAAGAGGCGGCAAG +GCAGGGCGCTAAAACGTTGGTCGTCATTCGCACTGTGCCGTCACAAATGTACTACACGCCGCAGTGGTTC +AAACGCATGGAACGCTGGCTGGGTGACAGTAGCCTGCAGCCGCTGGTCAATCTGGTGCAGCATCATGAAA +CCAGCTATCGTGACATTCAGCAATTTATTGAGAAACCACCGGGCAAGCTGCGGATATTCGAAATTTATCC +GCCGAAGCCATTACATAGTATCGCGCTTGGCAGTCGGATTCCGGCGCTGCGTGAAGACTATAAACTTGGG +CGTTTATGCGGTCGTTATTTCCTCGCCACGGTTGGCAAGCTATTAACTGAAAAAGCGCCGCTTACCCGCC +ATCTGGTGCCAGTGGTGACGCCGGAATCGATTGTCATTCCGCCTGCGCCAGTCGCCAACGATACGCTGGT +TGCCGAAGTGAGCGACGCTCCGCAGGCGAACGACCCGACATTTAACAATGAGGATCTGGCTTGATTTGCC +GTTTTATCGACACCCACTGCCATTTTGATTTCCCGCCGTTTAGTGGCGATGAAGAGGCCAGCCTGCAACG +CGCGGCACAAGCGGGCGTAGGCAAGATCATTGTTCCGGCAACAGAGGCGGAAAATTTTGCCCGTGTGTTG +GCATTAGCGGAAAATTATCAACCGCTGTATGCCGCATTGGGCTTGCATCCTGGTATGTTGGAAAAACATA +GCGATGTGTCTCTTGAGCAGCTACAGCAGGCGCTGGAAAGGCGTCCGGCGAAGGTGGTGGCGGTGGGGGA +GATCGGTCTGGATCTCTTTGGCGACGATCCGCAATTTGAGAGGCAGCAGTGGTTACTCGACGAACAACTG +AAACTGGCGAAACGCTACGATCTGCCGGTGATCCTGCATTCACGGCGCACGCACGACAAACTGGCGATGC +ATCTTAAACGCCACGATTTACCGCGCACTGGCGTGGTTCACGGTTTTTCCGGCAGCCTGCAACAGGCCGA +ACGGTTTGTACAGCTGGGCTACAAAATTGGCGTAGGCGGTACTATCACCTATCCACGCGCCAGTAAAACC +CGCGATGTCATCGCAAAATTACCGCTGGCATCGTTATTGCTGGAAACCGACGCGCCGGATATGCCGCTCA +ACGGTTTTCAGGGGCAGCCTAACCGCCCGGAGCAGGCTGCCCGTGTGTTCGCCGTGCTTTGCGAGTTGCG +CCGGGAACCGGCGGATGAGATTGCGCAAGCGTTGCTTAATAACACGTATACGTTGTTTAACGTGCCGTAG +GCCGGATAAGGCGTTCACGCCGCATCCGGCAGTTGGCGCACAATGCCTGATGCGACGCTTAACGCGTCTT +ATCATGCCTACAGGTTTGTGCCGAACCGTAGGCCGGATAAGGCGTTCACGCCGCATCCGGCAGTTGGCGC +ACAATGCCTGATGCGACGCTTGTCGCGTCTTATCATGCCTACAAGTCTGTGCCGAACCGTAGGCCGGATA +AGGCGTTCACGCCGCATCCGGCAGTCGGCGCATAATGCCTGATGCGACGCTTGTCGCGTCTTATCATGCC +TACAGGTTTGTGCCGAACCGTAGGCCGGATAAGGCGTTCGCGCCGCATCCGGCAGTTGGCGCACAATGCC +TGATGCGACGCTTGACGCGTCTTATCAGGCCTACAAGTCTGTGCCGAACCGTAGGCCGTATCCGGCATGT +CACAAATAGAGCGCCGGAAATATCAACCGGCTCACCCCGCGCACCTTTAACGCATCAGCCAACGGCTCAA +CGTCTTCCGGCGTGGCGCTCGCCCAGCTTTGCGCCTCGCCATACACGCCGTGGGCATGAAACGCGTTCAG +GCGTACCGGAACATCGCCGAGTCCCTTGATAAACGCCGCCAGTTCTTCGATGTGTTGCAAATAATCCACC +TGGCCAGGGATCACCAGCAAACGCAGTTCCGCCAGCTTGCCGCGCTCTGCCAGCAAATAGATGCTGCGCT +TAATCTGCTGATTATCGCGTCCGGTGAGTTGTTGATGACATTCGCTCCCCCACGCTTTGAGATCGAGCAT +TGCGCCGTCGCACACCGGGAGCAATTTTTCCCAGCCGGTTTCGCTCAACATGCCGTTACTGTCCACCAGA +CAGGTGAGATGGCGCAGTTGCGGATCGTTTTTGATAGCAGTAAACAGCGCCACCACAAACGGCAGCTGGG +TCGTGGCTTCACCGCCACTCACCGTTATCCCTTCGATAAACAGCACTGCTTTGCGGACATGGCTAAGCAC +TTCGTCCACGCTCATGGATTGCGCCATGGGCGTGGCATGTTGCGGACACCTCTTCAGGCAGGTATCACAC +TGCTCGCAAACCACAGCGTTCCACACCACTTTGCCGTCAACAATCTGCAACGCCTGATGCGGACACTGTG +GCACGCACTCCCCACAGTCATTGCAACGTCCCATCGTCCACGGATTGTGACAGTTTTTGCAGCGCAGATT +GCAGCCCTGCAAAAACAGAGCCAGACGACTGCCTGGCCCGTCAACGCAGGAGAAGGGGATAATCTTACTG +ACTAAAGCGCATCTGCTGTTCATGGCTTATCACGCGCGGCTGGCGTTCCAGAATACGAGTGTTGCGTGCG +GCTTCTTCGCCCAGCCAGGTGGTGTTGGTGCGTGAACCTTCGGCGCGATATTTTTCTAAATCCGACAAAC +GCACCATATAACCGGTAACGCGAACCAGATCGTTACCGCTGACATTGGCGGTAAATTCACGCATTCCGGC +TTTAAAGGCACCGAGGCAAAGCTGTACCAGTGCCTGCGGGTTACGTTTGATGGTTTCGTCGAGCGTCAGA +ATGTCGCTGATGCCGGAATAATAATAAGCATGATGCGGGGCGACAGTTTGCAGATGGGTGATCGGATCTG +GCTCATCGCCATACGGCAAACGCGCGCCCGGCGTGGTGCCGATATCGGAACTGATCCCCGACTGTGCGTG +TAACATGGCGCGTTTTTGCCAGCCATATTTCACGGGGGTATTGGCGACAAACTCCGCCAGTTGCGCGCTG +ATGCGATAACCTACTTCATTTGCGGCGGCTTCTTTACCGTAGCGCGCGGCAATCCCTTCTTTTTCACACA +GCAAGTTAACCGCTTCCGCCAGCCCATACATGCCAAACATTGGCACAAAACGTTCAGGGTTAATCAGCCC +TTCTTTCACCAGGAAGCTATTCTCAAAGAAGTGTGATTGTTGATAGAGGAATTCACACCGCGCATCGATG +ATGGCGATCTGCTGCTGGCAGTAGTGCGGTAGAGTGCGCGTAAAGAAGTCATCCAGCGATTCGCTGCGCT +CGGCAATGGCTTTCAGGTTAAGGCGTACCAGCGTGCTGCCACCACCCGCCAGCGGCAGTGAGTTGTAACA +GCTCACAATCCCGTAGCCCCCTTTTGTGAAAATTTTATCATGCACCGGACCGTTGGCGATGTGCGGTTTG +CTACATTCACAGATGTTCTTCGCCACTTCCAGCAGCAGGTCATCAGGGGTGATTTCAGGATCGTAGATAA +AGGTCAGGTTCGGTGAAACCTGCTTCAACTCTGCATCTGCACGTAAGATCGCGCGGGTAATGGGCGAATC +AGACGGGCCGATATTGGCGTGCATAAAGGCGTCTGGCAGGGTTCTGTCGAGGTAACGCCAGAAACGTTTT +ATTCGAACATCGATCTCGTCTTGTGTTAGAATTCTAACATACGGTTGCAACAACGCATCCAGTTGCCCCA +GGTAGACCGGCATCGATGTGACCGACGGTACGTGGTGGTAAAGAATGGTCAGCAGAGAGAGTGCGTCATC +AAGATCTTTCGCGCCTTCCAGCTCCAGCCATTCGGAACCGTTCGCCAGAAAACGGGCGTAATCGGGTAAG +ACATAGCGCGGTTTGTACGGCGCATGACCTTCAAACATATCGCAGATTACACCTTCATCCAGCGCGCGGC +GGGCTTCGGCAGGAAGCTGTGGGTAAGGCAGATTGTTTTCTGCTTCCAGTGCCAGAAAATGGCGCTTCTG +CTCCGGGCTAAGCACTGGGCTGGTGACAATTTGCTGGCAACGTTGTTGCAGTGCATTTTCATGAGAAGTG +GGCATCTTCTTTTCCTTTTATGCCGAAGGTGATGCGCCATTGTAAGAAGTTTCGTGATGTTCACTTTGAT +CCTGATGCGTTTGCCACCACTGACGCATTCATTTGAAAGTGAATTATTTGAACCAGATCGCATTACAGTG +ATGCAAACTTGTAAGTAGATTTCCTTAATTGTGATGTGTATCGAAGTGTGTTGCGGAGTAGATGTTAGAA +TACTAACAAACTCGCAAGGTGAATTTTATTGGCGACAAGCCAGGAGAATGAAATGACTGATCTGAAAGCA +AGCAGCCTGCGTGCACTGAAATTGATGGACCTGACCACCCTGAATGACGACGACACCGACGAGAAAGTGA +TCGCCCTGTGTCATCAGGCCAAAACTCCGGTCGGCAATACCGCCGCTATCTGTATCTATCCTCGCTTTAT +CCCGATTGCTCGCAAAACTCTGAAAGAGCAGGGCACCCCGGAAATCCGTATCGCTACGGTAACCAACTTC +CCACACGGTAACGACGACATCGACATCGCGCTGGCAGAAACCCGTGCGGCAATCGCCTACGGTGCTGATG +AAGTTGACGTTGTGTTCCCGTACCGCGCGCTGATGGCGGGTAACGAGCAGGTTGGTTTTGACCTGGTGAA +AGCCTGTAAAGAGGCTTGCGCGGCAGCGAATGTACTGCTGAAAGTGATCATCGAAACCGGCGAACTGAAA +GACGAAGCGCTGATCCGTAAAGCGTCTGAAATCTCCATCAAAGCGGGTGCGGACTTCATCAAAACCTCTA +CCGGTAAAGTGGCTGTGAACGCGACGCCGGAAAGCGCGCGCATCATGATGGAAGTGATCCGTGATATGGG +CGTAGAAAAAACCGTTGGTTTCAAACCGGCGGGCGGCGTGCGTACTGCGGAAGATGCGCAGAAATATCTC +GCCATTGCAGATGAACTGTTCGGTGCTGACTGGGCAGATGCGCGTCACTACCGCTTTGGCGCTTCCAGCC +TGCTGGCAAGCCTGCTGAAAGCGCTGGGTCACGGCGACGGTAAGAGCGCCAGCAGCTACTAAGTAAGATG +CTTTACGCCTGATGCGCTGCGCTTATCAGGCCTACGAGACGTATCTACCCGTAGGCCGGATAAGGCGTAG +ACGCATCCGGCAAAAGCCGCCTCATACTCTTTTCCTCGGGAGGTTACCTTGTTTCTCGCACAAGAAATTA +TTCGTAAAAAACGTGATGGTCATGCGCTGAGCGATGAAGAAATTCGTTTCTTTATCAACGGTATTCGCGA +CAACACTATCTCCGAAGGGCAGATTGCCGCCCTCGCGATGACCATTTTCTTCCACGATATGACAATGCCT +GAGCGTGTCTCGCTGACCATGGCGATGCGAGATTCAGGAACCGTTCTCGACTGGAAAAGCCTGCATCTGA +ATGGCCCGATTGTTGATAAACACTCCACCGGTGGCGTCGGCGATGTGACTTCGCTGATGTTGGGGCCGAT +GGTCGCAGCCTGCGGCGGCTATATTCCGATGATCTCTGGTCGCGGCCTCGGTCATACTGGCGGTACGCTC +GACAAACTGGAATCCATCCCTGGCTTCGACATTTTCCCGGATGACAACCGTTTCCGCGAAATTATTAAAG +ACGTCGGCGTGGCGATTATCGGTCAGACCAGTTCACTGGCTCCGGCTGATAAACGTTTCTACGCGACCCG +TGATATTACCGCAACCGTGGACTCCATCCCGCTGATCACCGCCTCTATTCTGGCGAAGAAACTTGCGGAA +GGTCTGGACGCGCTGGTGATGGACGTGAAAGTGGGTAGCGGCGCGTTTATGCCGACCTACGAACTCTCTG +AAGCCCTTGCCGAAGCGATTGTTGGCGTGGCTAACGGCGCTGGCGTGCGCACCACCGCGCTGCTCACCGA +CATGAATCAGGTACTGGCCTCCAGTGCAGGTAACGCGGTTGAAGTTCGTGAAGCGGTGCAGTTCCTGACG +GGTGAATATCGTAACCCGCGTCTGTTTGATGTCACGATGGCGCTGTGCGTGGAGATGCTGATCTCCGGCA +AACTGGCGAAAGATGACGCCGAAGCGCGCGCGAAATTGCAGGCGGTGCTGGACAACGGTAAAGCGGCAGA +AGTCTTTGGTCGTATGGTAGCGGCACAAAAAGGCCCGACCGACTTCGTTGAGAACTACGCGAAGTATCTG +CCGACAGCGATGCTGACGAAAGCAGTCTATGCTGATACCGAAGGTTTTGTCAGTGAAATGGATACCCGCG +CGCTGGGGATGGCAGTGGTTGCAATGGGCGGCGGACGCCGTCAGGCATCTGACACCATCGATTACAGCGT +CGGCTTTACTGATATGGCGCGTCTGGGCGACCAGGTAGACGGTCAGCGTCCGCTGGCGGTTATCCACGCG +AAAGACGAAAACAACTGGCAGGAAGCGGCGAAAGCGGTGAAAGCGGCAATTAAACTTGCCGATAAAGCAC +CGGAAAGCACACCAACTGTCTATCGCCGTATCAGCGAATAACGGTATACTGATCTGATCATTTAAATTTG +AAGCACTGAGTACGGAGAACATATGAAACGTGCATTTATTATGGTGCTGGACTCATTCGGCATCGGCGCT +ACAGAAGATGCAGAACGCTTTGGTGACGTCGGGGCTGACACCCTGGGTCATATCGCAGAAGCTTGTGCCA +AAGGCGAAGCTGATAACGGTCGTAAAGGCCCGCTCAATCTGCCAAATCTGACCCGTCTGGGGCTGGCGAA +AGCACACGAAGGTTCTACCGGTTTCATTCCGGCGGGAATGGACGGCAACGCTGAAGTTATCGGCGCGTAC +GCATGGGCGCACGAAATGTCATCCGGTAAAGATACCCCGTCTGGTCACTGGGAAATTGCCGGTGTCCCGG +TTCTGTTTGAGTGGGGATATTTCTCCGATCACGAAAACAGCTTCCCGCAAGAGCTGCTGGATAAACTGGT +CGAACGCGCTAATCTGCCGGGTTACCTCGGTAACTGCCACTCTTCCGGTACGGTCATTCTGGATCAACTG +GGCGAAGAGCACATGAAAACCGGCAAGCCGATTTTCTATACCTCCGCTGACTCCGTGTTCCAGATTGCCT +GCCATGAAGAAACTTTCGGTCTGGATAAACTCTACGAACTGTGCGAAATCGCCCGTGAAGAGCTGACCAA +CGGCGGCTACAATATCGGTCGTGTTATCGCTCGTCCGTTTATCGGCGACAAAGCCGGTAACTTCCAGCGT +ACCGGTAACCGTCACGACCTGGCTGTTGAGCCGCCAGCACCGACCGTGCTGCAGAAACTGGTTGATGAAA +AACACGGCCAGGTGGTTTCTGTCGGTAAAATTGCGGACATCTACGCCAACTGCGGTATCACCAAAAAAGT +GAAAGCGACTGGCCTGGACGCGCTGTTTGACGCCACCATCAAAGAGATGAAAGAAGCGGGTGATAACACC +ATCGTCTTCACCAACTTCGTTGACTTCGACTCTTCCTGGGGCCACCGTCGCGACGTCGCCGGTTATGCCG +CGGGTCTGGAACTGTTCGACCGCCGTCTGCCGGAGCTGATGTCTCTGCTGCGCGATGACGACATCCTGAT +CCTCACCGCTGACCACGGTTGCGATCCGACCTGGACCGGTACTGACCACACGCGTGAACACATTCCGGTA +CTGGTATATGGCCCGAAAGTAAAACCGGGCTCACTGGGTCATCGTGAAACCTTCGCGGATATCGGCCAGA +CTCTGGCAAAATATTTTGGTACTTCTGATATGGAATATGGCAAAGCCATGTTCTGATGGATTTGGGCGGA +GCGTTGACTCCGCCTTTGTTATGTCACAAAAAGGATAAAACAATGGCTACCCCACACATTAATGCAGAAA +TGGGCGATTTCGCTGACGTAGTTTTGATGCCAGGCGACCCGCTGCGTGCGAAGTATATTGCTGAAACTTT +CCTTGAAGATGCCCGTGAAGTGAACAACGTTCGCGGTATGCTGGGCTTCACCGGTACTTACAAAGGCCGC +AAAATTTCCGTAATGGGTCACGGTATGGGTATCCCGTCCTGCTCCATCTACACCAAAGAACTGATCACCG +ATTTCGGCGTGAAGAAAATTATCCGCGTGGGTTCCTGTGGCGCAGTTCTGCCGCACGTAAAACTGCGCGA +CGTCGTTATCGGTATGGGTGCCTGCACCGATTCCAAAGTTAACCGCATCCGTTTTAAAGACCATGACTTT +GCCGCTATCGCTGACTTCGACATGGTGCGTAACGCAGTAGATGCAGCTAAAGCACTGGGTATTGATGCTC +GCGTGGGTAACCTGTTCTCCGCTGACCTGTTCTACTCTCCGGACGGCGAAATGTTCGACGTGATGGAAAA +ATACGGCATTCTCGGCGTGGAAATGGAAGCGGCTGGTATCTACGGCGTCGCTGCAGAATTTGGCGCGAAA +GCCCTGACCATCTGCACCGTATCTGACCACATCCGCACTCACGAGCAGACCACTGCCGCTGAGCGTCAGA +CTACCTTCAACGACATGATCAAAATCGCACTGGAATCCGTTCTGCTGGGCGATAAAGAGTAATTGTGTTT +CGCTGCAAGGCGATTGCCTTGTGAAGCCGGAGCGGGAGACTGCTCCGGCTTTTTAGTATCTATTCATTTT +TCTCTCCAGCTTGAATATTTTCGCTATACTTTTCAGTGAAATGTGTTAATAAATCTATTCAAGTATCTAT +TCACGAATCTATTCATTAATGAGCGAGCTGACTGATCTTTTACTGCAAGGGCCGCGTTCTGCCCCGGAAT +TGCGCCAGCGTCTGGCAATCAGTCAGGCGACGTTCTCACGCCTTGTTGCCAGAGAAGATCGGGTGATTCG +CTTTGGTAAAGCACGGGCAACGCGATATGCACTGCTGCGTCCTTATCGCGGAATTGAGCGTATTCCCGTC +TGGCGGGTGGACGATACCGGAAAGGCGCATAAATTCGCCGACATCCGGTTGTGCTGGCCGCAGGGAAGTT +GTCTGGTAACAGGCGCAGATGGCGACGAACAGTGGTTTGATGGTTTGCCCTGGTATTTGACCGATCTCCG +ACCGCAGGGCTTTTTAGGGCGCGCGTGGGGCAGGAAGTTAGCCGCGCAACTGAATCTGACTGATGATATA +CGTCTCTGGCAGGAAGAAGATGTGCTCTACGCCCTGACCGTATTTAACGGTGAATATACTGGCGGTTGGT +TGGTCGGGGAGGGGAATTATCAGCGATGGATTACTGCACAACACCCTGCGGAAATTCCTCTGGATCAAAA +ACTCACCCATTACGAACAGCTGGCAAGTGATGCACTGGCAGGAGAAATTGTGGGTTCTTCTGCGGGCGGC +GAGCAGCCAAAATTTACCTACTATGCACAAACGCCGTCAGGCAATAAACATGTGTTGGTGAAATTCACCG +TACCACAGCAAACCGCGGTCAGCCAACGTTGGGGTGACCTGCTAATTGCTGAATCTATTGCCGCGCAAAT +CCTGCGTGACGGTGGGATCCACGCCATCGAGTCAACGGTGCTTGTAACAAGTAACAGGCAGGTATTCCTC +GAAGCGGAACGCTTTGACTGCAAAGGTAACGATGGTCGCTTGCCTATTGTGTCGCTGGAGGCGGTGCAGA +GTGAGTTTATCTCTTCTCCGGGATCGTGGCCGCAGGCAATGCGCCGTTTGTGTGAGCAACAACTTGTCAC +TCACCAGAGCGTGGCGCAAACAGAAGTGATCTGGGCATTTGGGCGACTTATCGCCAACAGCGATATGCAC +GCAGGTAATTTATCGTTTTATTTATCTGAACCGCCATTTGCGCTGACGCCCGTCTACGACATGCTGCCGA +TGGTCTATGCACCAAACAGCGCTGGAATGCTGCGTGATGCTGCCATTGAGGTGAAGTTTGATCTTAACGT +CAGTAAAAGCGCTTGGTTAACGGCGATCCCGCTGGCGCAGCAGTTCTGGCAAACGGTCGCCAGAGATCCG +CGTATCAGCGAGGCGTTTCGCCACATTGCGCAAGAAATGCCGGAAAAAATCCGGCAAATCGAAGAGAAAG +TTGCCCGCATGGGCGGGTAACTACCTTACAGCCCCCGCCATCCATGCCGATAACTCCCGTAGCTCTTTTT +CCTGTTCCGGGAAGTCAACCAACAGCGCTTCGCACTCCTGTTGCAGCATATCTGCGCGGTACAGGCAGCC +TTGCAGTCGTCCGGCGAGGGCTTCCAGCGGCGCGGGGTTGAGGCTGTCGGTAAACACCTGGGCGCGGGTG +ATATGGCCTTTTTCAACGTCGAAATGCAGTTCCACGCCGCCCCAGGTAAAGCGTTCATCCAGCAGATGCG +AGAATGCCGGAGCCTGACCGAAGTTCCATTCCCAGCTACTCTGGCGGGCAAAGGTTTCGGCGAAGTTTGG +CAAGTCTGGCGTTTTGTTCGGGGAGATGATTTCCGCTTCCACGCGCTCGCCATAATGGGCGAAAAAGGCC +TCGGTTATGGCCTCGCAAACCTGCTCATGGGTGATCCCCGGCAACAGCTCGGTGAGGTTGGTCACGCGGG +AACGTACCGACGTAATGCCTTTCGCCGCCAGTTTCTTTTTATCCGGATTGAGATAGTTTGCCAGGCGGCT +GAGGTCGGCATTGAGTAGCAAGGTGCCGTGGTGGAAGCCGCGATCTTTGGTTTCGCGATAGGCCGAGCCT +GAGACTTTGCGGTCGCCTTCGACGGTTTTCACCACCAGATCGTTACGTCCGGACGCTTCGGCGCTGACGC +CGAGCGCGTTCAGCGCATTGAGCACAATCGACGTGGAGATAGTTTTATCGTACTCCGGCTTGCCAGCCAT +AAAGGTAAAGCAGGTATTGCCGAGATCGTGGAACACCGCGCCGCCACCGCTACTGCGCCGCGCCAGGCGG +ACGTTATCTTCTTCCATCCGCCGGGTATTACACTCTTTCCACGGGTTCTGCGCGCGACCAATTACTACCG +TGTCGGCATTGCGCCAGAGAAACAGAACGCGCTGCGTGGCGGGCATTTGGCGAAAAATACACTCTTCCAC +CGCCAGGTTAAACCACGGGTCGTAAGAGTCAGAGATGAGCAGGCGTAATGTGGACATAACGATTTCCTTT +CTTGTAGTAATGGGTCACTCTTTTTTCTCGCTTTCTTCCTCTTCCGGCACCGGTTTGCTGGCGGTTAACA +GGAAGGGCGATTGCTGCCAGCGGGTGCGTTTACCCTGTAGCAGCGTGCGGGTCAGCACTACACCGATTGC +CAGTGAGAGCAGCAACATCAGGCGTAAAATGTTAGTGGTGTTATCCACCTGTTGGGCTTCGGTGGCGAGC +GTATGGGTGTCGAGTGTCAGGCGCAGATAGCCGAGCGGTCCGTTTTTACCCGCAATTGGCTCGACAATCT +GCTGGTTAAAATAGCCGCCTGCTTTTTTACCGTCGAGCGCCAGCCGGTCGCGCACTTCGACGCTTTCGCC +AGAACGTGCGATAAGATCGCCTTGTTCGTCATACACACCCGCGTCGAGGATACGGCTTTCATCCGTTAAC +TGATCGAGGATCGCCTGAATGCGTTTTTCATCCGGTGAGTCGGTACGCATCAGCGGTGCAACGTTCAGCG +TCACCTGACGCGCCAGGGTGCGGGCCAGTTCTTCCAGCTGTGGATTACGCTGTCGCTGGTGGTTTTGACT +AAACCATGACGCTCCCTGCATCAGCGCCACTAACAAGGCAAGACAGAACAGGACAATCACTGCCCGATGC +AGCCGGAATTTCAGTTTTGTGCGAGCCATCTTCCACCCTTTGAAAATTTGAGACTTAATGTTGCCAGAAG +CAATGGATACAAGGTAGCCTCATGCGTTATTTTCCCTGCTTCGAACGATTTTACAGGAGCCTTAATGCCT +AACATTACCTGGTGCGACCTGCCTGAAGATGTCTCTTTATGGCCGGGTCTGCCTCTTTCATTAAGTGGTG +ATGAAGTGATGCCACTGGATTACCACGCAGGTCGTAGCGGCTGGCTGCTGTATGGTCGTGGGCTGGATAA +ACAACGTCTGACCCAATACCAGAGCAAACTGGGTGCGGCGATGGTGATTGTTGCCGCCTGGTGCGTGGAA +GATTATCAGGTGATTCGTCTGGCAGGTTCACTCACCGCACGGGCTACACGCCTGGCCCACGAAGCGCAGC +TGGATGTCGCCCCGCTGGGGAAAATCCCGCACCTGCGCACGCCGGGTTTGCTGGTGATGGATATGGACTC +CACCGCCATCCAGATTGAATGTATTGATGAAATTGCCAAACTGGCCGGAACGGGCGAGATGGTGGCGGAA +GTAACCGAACGGGCGATGCGCGGCGAACTCGATTTTACCGCCAGCCTGCGCAGCCGTGTGGCGACGCTGA +AAGGCGCTGACGCCAATATTCTGCAACAGGTGCGTGAAAATCTGCCGCTGATGCCAGGCTTAACGCAACT +GGTGCTCAAGCTGGAAACGCTGGGCTGGAAAGTGGCGATTGCCTCCGGCGGCTTTACTTTCTTTGCTGAA +TACCTGCGCGACAAGCTGCGCCTGACCGCCGTGGTAGCCAATGAACTGGAGATCATGGACGGTAAATTTA +CCGGCAATGTGATCGGCGACATCGTAGACGCGCAGTACAAAGCGAAAACTCTGACTCGCCTCGCGCAGGA +GTATGAAATCCCGCTGGCGCAGACCGTGGCGATTGGCGATGGAGCCAATGACCTGCCGATGATCAAAGCG +GCAGGGCTGGGGATTGCCTACCATGCCAAGCCAAAAGTGAATGAAAAGGCGGAAGTCACCATCCGTCACG +CTGACCTGATGGGGGTATTCTGCATCCTCTCAGGCAGCCTGAATCAGAAGTAATTGCTCGCCCGCCATCC +TGCGGGCGGCACAGCATTAACGAGGTACACCGTGGCAAAAGCTCCAAAACGCGCCTTTGTTTGTAATGAA +TGCGGGGCCGATTATCCGCGCTGGCAGGGGCAGTGCAGTGCCTGTCATGCCTGGAACACCATCACCGAGG +TGCGTCTTGCTGCGTCGCCAATGGTGGCGCGTAACGAGCGTCTCAGCGGCTATGCCGGTAGCGCCGGGGT +GGCAAAAGTCCAGAAACTCTCCGATATCAGCCTTGAAGAGCTGCCGCGTTTTTCCACCGGATTTAAAGAG +TTCGACCGCGTACTAGGCGGCGGCGTGGTGCCAGGAAGTGCCATTCTGATTGGCGGTAACCCTGGTGCGG +GGAAATCCACGCTGCTACTGCAAACGCTGTGCAAACTGGCCCAGCAGATGAAAACGCTGTATGTCACCGG +CGAAGAGTCGCTGCAACAGGTGGCAATGCGCGCTCATCGCCTTGGCCTGCCGACTGACAATCTCAATATG +TTGTCGGAAACCAGCATCGAACAGATCTGCCTGATTGCCGAAGAAGAGCAACCGAAGCTGATGGTAATTG +ACTCGATCCAGGTGATGCATATGGCGGATGTACAGTCATCGCCTGGTAGCGTGGCGCAGGTGCGTGAAAC +GGCGGCTTATTTGACACGCTTCGCCAAAACGCGCGGTGTGGCGATTGTCATGGTGGGGCACGTAACCAAA +GATGGTTCGCTGGCTGGCCCGAAAGTGCTGGAACACTGTATCGACTGTTCGGTGCTTTTGGATGGCGATG +CCGACTCCCGTTTTCGCACCTTGCGCAGCCATAAAAACCGCTTCGGCGCGGTGAATGAGCTGGGCGTCTT +CGCGATGACCGAACAGGGGCTGCGTGAAGTCAGCAACCCTTCGGCAATTTTCTTAAGTCGCGGCGATGAA +GTGACCTCCGGTAGCTCAGTGATGGTGGTATGGGAAGGAACGCGTCCACTGCTGGTGGAGATTCAGGCGC +TGGTCGATCACTCGATGATGGCGAACCCACGCCGCGTGGCAGTGGGGCTGGAACAAAACCGTCTGGCAAT +CCTGCTGGCTGTGTTGCACCGTCACGGTGGTCTGCAAATGGCCGATCAGGATGTGTTTGTGAACGTGGTC +GGCGGCGTGAAGGTAACCGAAACCAGTGCCGACTTAGCGTTACTGCTGGCGATGGTTTCCAGCCTGCGCG +ACAGACCGCTGCCGCAGGATCTGGTGGTGTTTGGTGAAGTCGGGCTGGCAGGGGAGATCCGCCCGGTGCC +CAGCGGTCAGGAACGAATCTCTGAAGCGGCGAAACACGGTTTTCGCCGGGCGATTGTTCCGGCGGCTAAC +GTGCCGAAAAAAGCGCCGGAAGGGATGCAGATTTTTGGCGTTAAAAAACTCTCCGACGCGCTTAGCGTGT +TCGACGACTTATAATGAGATATACGGAGGGAGATATGTCGTCATTTGATTACCTGAAAACTGCCATCAAG +CAACAGGGCTGCACGCTACAGCAGGTAGCTGATGCCAGCGGTATGACCAAAGGGTATTTAAGCCAGTTAC +TGAATGCCAAAATCAAAAGCCCCAGCGCGCAAAAGCTGGAGGCGTTGCACCGTTTTTTGGGGCTTGAGTT +TCCCCGGCAGAAGAAAACGATCGGTGTCGTATTCGGTAAGTTCTACCCACTGCATACCGGACATATCTAC +CTTATCCAGCGCGCCTGTAGCCAGGTTGACGAGCTGCATATCATTATGGGTTTTGACGATACCCGTGACC +GCGCGTTGTTCGAAGACAGTGCCATGTCGCAGCAGCCGACCGTGCCGGATCGTCTGCGTTGGTTATTGCA +AACTTTTAAATATCAGAAAAATATTCGCATTCATGCTTTCAACGAAGAGGGCATGGAGCCGTATCCGCAC +GGCTGGGATGTGTGGAGCAACGGCATCAAAAAGTTTATGGCTGAAAAAGGGATCCAGCCGGATCTGATCT +ACACCTCGGAAGAAGCCGATGCGCCACAGTATATGGAACATCTGGGGATCGAGACGGTGCTGGTCGATCC +GAAACGTACCTTTATGAGTATCAGCGGTGCGCAGATCCGCGAAAACCCGTTCCGCTACTGGGAATATATT +CCTACCGAAGTGAAGCCGTTTTTTGTGCGTACCGTGGCGATCCTTGGCGGCGAGTCGAGCGGTAAATCCA +CCCTGGTAAACAAACTTGCCAATATCTTCAACACCACCAGTGCGTGGGAATATGGCCGCGATTATGTCTT +TTCACACCTCGGCGGTGATGAGATCGCATTGCAGTATTCTGACTACGATAAAATCGCGCTGGGCCACGCT +CAATACATTGATTTTGCGGTGAAATATGCCAATAAAGTGGCATTTATCGATACCGATTTTGTCACCACTC +AGGCGTTCTGCAAAAAGTACGAAGGGCGGGAACATCCGTTCGTGCAGGCGCTGATTGATGAATACCGTTT +CGATCTGGTGATCCTGCTGGAGAACAACACGCCGTGGGTGGCGGATGGTTTACGCAGCCTCGGCAGTTCG +GTGGATCGCAAAGAGTTCCAGAACTTGCTGGTGGAGATGCTCGAAGAGAACAATATCGAATTTGTGCGGG +TTGAAGAGGAAGATTACGACAGTCGTTTCCTGCGCTGCGTGGAACTGGTGCGGGAGATGATGGGGGAGCA +GAGATAACCGTGATGAAACTGCTCAAAGGCGAGGTATAAAATGAGTTTTTTTGATGAGTTGAAAACCTCT +CTGGAAGAGGCTGTCGAGATTAAACAAGGTTTGAAAAAACCTGCACGGGTGACCCGCCACGAAATTGAGG +ATGCTAAGGCTGTTGTAGACCGGAAACGGTGTTCACGCCGCATCCGGCATTCGGTGCTCAATGCCTGATG +CGACGCTTACCGCGTCTTATCAGGCCTACAGTTTTACAACGTATTGAAATTGCTGGTTTTGTAGGCCGGA +TAAGGCGTTCGCGCCGCATCCGGCATTTTACGCATTACTTCGCAATACGCTTGTACTTGATACGCTTCGG +CTCCAGCGCGTCTGCGCCCAGCGTGCGTTTCTTGTACTCTTCGTACTCGGTAAAGTTACCTTCGAAGAAC +TCAACTTTACCTTCATCCTGGTAATCCAGAATGTGCGTGGCGATACGGTCGAGGAACCAACGGTCGTGCG +AGATAACCATCGCACAGCCCGGGAACTCCAGCAGGGCGTTTTCCAGCGCGCGCAGGGTTTCGATATCCAG +GTCGTTGGTTGGTTCGTCGAGCAGCAGCATGTTGCCGCCAACCTGCAGCAGCTTCGCCAGATGCAGACGA +CCGCGCTCACCACCGGAGAGTTCACCAACGCGTTTACCCTGATCAACCCCTTTAAAGTTAAAGCGGCCAA +CGTAGGCGCGGCTTGGCATCTCGGTGTTGCCGATCTTCATGATATCCAGCCCGCCGGAAACTTCTTCCCA +AACGGTTTTGCTGTTATCCATTGAGTCACGGAACTGATCAACCGACGCCAGTTTCACCGTTTCACCCAAA +GTGATGGTGCCGCTGTCCGGCTGTTCCTGACCAGAGATCATACGGAACAGGGTCGATTTACCCGCACCGT +TCGGACCGATGATCCCGACGATCGCTCCTTTCGGGATCGAGAAGCTCAGGTCATCAATCAGCAGACGATC +GCCATAGGATTTACGCAGGTTGCTGACTTCCAGCACTTTATCGCCCAGACGCGGTCCAGGTGGAATAAAC +AGTTCGTTGGTTTCGTTACGTTTCTGATATTCGGTGCTGTTCAGTTCTTCAAAGCGCGCCAGACGTGCTT +TACCTTTCGACTGACGGCCTTTAGTACCTTGACGTACCCATTCCAGCTCTTTCTCAATCGACTTACGACG +CGCCGCTTCTTGTGAAGCTTCCTGCGCCAGGCGCTGATCTTTCTGCTCCAGCCAGGAGGAGTAGTTACCT +TCCCACGGAATACCTTCACCGCGGTCAAGTTCGAGGATCCAGCCTGCAACGTTATCGAGGAAGTAACGGT +CGTGGGTAATCGCCACAACGGTGCCTTCGAAGTCGTGCAGGAAGCGTTCCAGCCAGGCCACGGATTCGGC +ATCCAGGTGGTTGGTCGGTTCGTCGAGCAGCAGCATGTCTGGTTTTTCCAGCAGCAGGCGGCACAACGCT +ACGCGACGACGTTCACCACCGGAGAGGTTAGCGATTTTCGCGTCCCAGTCCGGCAGACGTAGCGCATCCG +CCGCACGCTCCAGCTGTACGTTCAGATTATGACCGTCGTGAGCCTGAATGATCTCTTCCAGACGGCCTTG +TTCAGCGGCCAGCTTGTCAAAATCGGCATCCGGATCGGCGTACAGCGCATACACTTCATCCAGGCGTTTC +AGGGCGTTAACCACTTCTGAAACCGCTTCTTCAATGGACTCACGCACGGTGTGTTCCGGGTTCAGCTGCG +GTTCCTGCGGCAGATAACCAATCTTGATGTCTGGCTGCGGACGCGCTTCACCTTCGATGTCTTTATCAAT +GCCCGCCATAATGCGCAGCAGGGTGGACTTACCCGCGCCATTCAGACCCAGGACACCAATTTTTGCCCCA +GGGAAGAAACTCAGAGAGATGTTTTTCAAAATATGACGTTTCGGCGGAACAACTTTGCCGACACGATGCA +TGGTATAAACGAATTGAGCCACGTTGGACTTCGCCTCTATGTTTATCGTGATAATGAGTTTTCAAAGGCG +AAGTGTAGCCTTTTTCCCCGCCTAATCCCAGCCGGTCGATCACCCTCGCAGTAAAAGTAAAAAAGTGTCC +GTAACGTGGCGTAAACGGCAATGACTGGTTAGCATAAATCTATTACGCGGCATGACGCTGCATTGATGTA +TTTACACTTAGAGGATGCGCTTGTGGAAAAAGCCAAACAAGTTACCTGGCGGCTGTTGGCTGCCGGTGTC +TGTCTGCTGACGGTCAGCAGCGTGGCGCGAGCCGACTCACTGGATGAGCAGCGTAGTCGTTACGCGCAAA +TCAAGCAGGCCTGGGATAATCGACAAATGGATGTGGTCGAACAAATGATGCCTGGACTGAAGGATTATCC +GCTTTATCCCTACCTGGAATACCGCCAGATCACCGATGATCTGATGAATCAACCGGCGGTGACGGTCACT +AACTTTGTTCGCGCTAACCCCACGCTTCCTCCCGCTCGCACGCTGCAATCTCGTTTCGTCAATGAACTGG +CGCGGCGTGAAGACTGGCGTGGCTTGTTAGCCTTTAGCCCGGAAAAGCCCGGAACTACCGAAGCGCAATG +TAATTACTACTATGCGAAATGGAACACCGGGCAGAGTGAAGAAGCCTGGCAAGGGGCGAAAGAGCTGTGG +CTAACCGGCAAGAGCCAGCCTAACGCCTGTGACAAGTTATTTAGCGTCTGGCGTGCGTCAGGTAAACAAG +ATCCGCTGGCGTATTTAGAGCGTATCCGTCTGGCGATGAAAGCGGGTAACACAGGCCTGGTAACAGTGCT +GGCAGGGCAGATGCCTGCCGATTACCAGACTATCGCCTCGGCAATCATTTCACTGGCGAACAACCCTAAT +ACGGTACTGACCTTCGCGCGTACAACTGGCGCGACCGATTTTACCCGTCAAATGGCGGCGGTGGCGTTTG +CCAGTGTGGCGCGGCAGGATGCTGAGAATGCACGGCTGATGATCCCATCGCTTGCCCAGGCGCAGCAGCT +TAATGAAGATCAGATTCAGGAGCTGCGCGATATCGTCGCCTGGCGTTTGATGGGCAACGATGTCACCGAC +GAGCAGGCGAAATGGCGCGATGACGCCATTATGCGCTCGCAATCTACTTCGCTTATTGAACGCCGTGTAC +GAATGGCGCTTGGCACCGGCGATCGTCGCGGCCTGAATACCTGGCTGGCGCGTCTGCCTATGGAAGCGAA +AGAGAAAGATGAATGGCGTTACTGGCAGGCGGATTTATTGCTGGAACGCGGACGTGAAGCTGAAGCAAAA +GAGATTTTGCATCAACTCATGCAACAGCGTGGTTTCTACCCGATGGTTGCAGCACAACGCATCGGCGAAG +AGTATGAGCTGAAGATTGATAAAGCGCCGCAGAATGTTGACAGCGCCCTGACTCAGGGGCCGGAGATGGC +GCGCGTGCGCGAGTTGATGTACTGGAATCTCGATAATACCGCGCGTAGCGAGTGGGCCAATCTGGTGAAG +AGCAAGTCAAAAACAGAGCAGGCTCAACTGGCGCGGTATGCTTTCAACAACCAATGGTGGGATCTTAGCG +TTCAGGCAACGATCGCCGGGAAGCTGTGGGATCATCTGGAAGAGCGATTCCCGCTGGCTTACAACGATCT +TTTCAAACGCTACACCAGCGGTAAGGAGATCCCGCAAAGCTATGCGATGGCGATTGCTCGTCAGGAGAGC +GCCTGGAATCCGAAAGTGAAATCACCGGTAGGGGCCAGCGGCTTGATGCAGATTATGCCTGGTACAGCGA +CCCATACGGTGAAGATGTTCTCTATTCCCGGTTATAGCAGTCCTGGGCAATTGCTGGATCCGGAAACGAA +TATCAACATTGGCACCAGTTACCTGCAATATGTTTATCAGCAGTTTGGCAATAATCGTATTTTCTCCTCA +GCAGCTTATAACGCCGGACCAGGGCGGGTGCGAACCTGGCTTGGCAACAGCGCCGGGCGTATCGACGCAG +TGGCATTTGTCGAGAGTATTCCATTCTCCGAGACGCGCGGTTATGTGAAGAACGTGCTGGCTTATGACGC +TTACTACCGCTATTTCATGGGGGATAAACCGACGTTGATGAGCGCCACGGAATGGGGACGTCGTTACTGA +TCCGCACGTTTATGATATGCTATCGTACTCTTTAGCGAGTACAACCGGGGGAGGCATTTTGCTTCCCCCG +CTAACAATGGCGACATATTATGGCCCAACAATCACCCTATTCAGCAGCGATGGCAGAACAGCGTCACCAG +GAGTGGTTACGTTTTGTCGACCTGCTTAAGAATGCCTACCAAAACGATCTCCATTTACCGTTGTTAAACC +TGATGCTGACGCCAGATGAGCGCGAAGCGTTGGGGACTCGCGTGCGTATTGTCGAAGAGCTGTTGCGCGG +CGAAATGAGCCAGCGTGAGTTAAAAAATGAACTCGGCGCAGGCATCGCGACGATTACGCGTGGATCTAAC +AGCCTGAAAGCCGCGCCCGTCGAGCTGCGCCAGTGGCTGGAAGAGGTGTTGCTGAAAAGCGATTGATTTT +GTAGGCCTGATAAGACGTGGCGCATCAGGCATCGTGCACCGAATGCCGGATGCGGCGTGAACGCCTTATC +CGTCCTACAAATACCCGTAATTTCAATATGTTTGGTAGGCATGATAAGACGCGGCAGCGTCGCATCAGGC +GCTTAATACACGGCATTATGAAACGGACTCAGCGCCAGGATCACCGCCTGGTGATAGACGCTGGCGCGAG +TGAGTTTCCCGGCGGTAAACACGCCGATCGCCCCTTCCTTACGACCAATCTCATCAATACCGGTATAACG +CGACATCACGGGACCAAGCGCCTCACCTTCACGCACTTTTTCCAGAATCACCGCAGGCAACGGCAAAGTA +GCCGAACGCGCCTCGCCGCGCTGGCTGGCGTTTTCAATCACCACCCAACTGAAAGTGCTGTCACCATCGA +TGCCAGCTTCAATCGCCACCCAAAAATCAGCCTCTGGAAGTAAACGGCGGGCATTGGCTACCCGATTTCG +TGCGCCAGCGCGCGTTTCCTCACTGCCAAAGGGCTGTTCCGGTACACCGCTCTCGACGGCAACGGATGCA +ATATGGCAGGATCCTTCGCCGAAGATCTCGTGAAATGCCTGCAGAATGGCCTGAATTTTAGCGGGATTGG +TGGTCGCACAGACAACTTGGTGCATAATCAGCATTACTCAGAAAATTAACGTTACAGCAGTATACGGAAA +AAAAGCATGTTACAGGTATACCTAGTCCGCCACGGTGAAACGCAGTGGAACGCCGAGCGACGTATTCAGG +GCCAGTCTGACAGCCCGCTGACCGCCAAAGGTGAGCAACAGGCGATGCAGGTGGCAACCCGTGCCAAAGA +GCTTGGCATTACGCATATCATCAGTAGCGATTTAGGACGCACCCGGCGTACGGCGGAAATCATCGCCCAG +GCCTGCGGCTGTGACATCATCTTTGATTCTCGCCTGCGTGAATTAAACATGGGTGTGCTGGAAAAAAGAC +ATATCGATTCTCTGACCGAAGAAGAAGAGAACTGGCGTCGGCAGCTGGTCAATGGCACCGTTGACGGGCG +TATTCCTGAAGGCGAGTCAATGCAGGAGCTCAGCGATCGCGTCAATGCGGCACTGGAATCTTGCCGGGAC +TTACCGCAGGGAAGCCGACCGCTGCTGGTGAGTCATGGTATTGCACTGGGATGCCTGGTGAGTACGATTC +TCGGATTACCAGCATGGGCAGAGCGCCGCTTACGTCTGCGTAACTGTTCTATTTCGCGCGTGGATTATCA +GGAAAGCCTGTGGCTGGCGTCTGGCTGGGTCGTTGAAACCGCAGGGGACATCTCGCATCTGGACGCCCCT +GCATTAGATGAGCTGCAGCGTTAACGACGGATCGGAATCAGCAGTTCACAGCGTAGATTAATTGGGCGAT +CTCCCGCTTTGGCATCTTCTGCCGGGTAGTATCGCTCAATATCCTGACCTTTACGGCGCGTCAGGTTGAG +CATTGGCATGCACGTTCCGTATACCGTCAGGATAAACTCCTGCACGCCGGTTCCCAGACCTTCATAGGTA +AACATCACATATTCGCCGCCCTGCAGCATCACCGGATGCCCCGTCAGTACATAGCCATCTGCCTGATCCT +GGGCTAACGCGGTGGTATAGAATACCTCTTGCTCGTCGTCTTTATCCTGACTCGGACGCGTTTCATTCAG +GCCGTAGAGCACCGGCGGAATGGTCGGCGCGTTGCCGAGAAAATCGTGCCAGAACTGATAACGCATTTCA +TGGCGGAAATCAGAGATTTGCTCCAGCGAACAGGAGTAGCTCTGGGTAACACCAATCAGCGGCGTATCTT +CCAGGGTGACAAATTTGTGCTCTGGCATAGTGAATTCACCCAGGCGTAGCGGCGGGCGAATACCAAAGGC +GCTCCATTCAGGAGAACGGCGGTAAAGTGCAGGAGTCTGGGCAAACTGCTTCTTGAATGCGCGGGTAAAT +GTCTGTTGAGAGTCGAAGCGGTATTGCAGCGCGATGTCCAGAATCGGACGCGCAGTCAGGCGTAGTGCGA +CCGCCGATTTCGACAAACGACGAGCACGAATATACGCGCCAATAGCATGGCCAGTGACATCTTTAAACAT +TCTCTGTAAGTGCCACTTGGAATAACCTGCTTTCGCCGCTACATTGTCGAGCGACAGGGGCTGATCCAGA +TGACCTTCCAGCCAGATTAAAAGGTCGCGAATAATGCCGGCCTGATCCATAAAATATCCTCATCCTTTCA +ACAACGAGCACCTGACATCAGGTAATTGGATAATAGCATTTTTTGCTGTTTTAGCATTCAGTGTTTTTTT +CTTAGTAGAGTATGTTTTAGGGCTTGACGGAAATAAAAGTATTGAGATTTTGTTCTTAATCAATATGTTA +TTTACCGTGACGAACTAATTGCTCGTGTAATAGATAAAAATGGTAACAATATGAAATACAAGCATTTGAT +CCTGTCTTTAAGCCTGATAATGCTGGGGCCATTGGCTCATGCAGAAGAGATTGGTTCGGTCGACACCGTA +TTTAAAATGATCGGCCCGGATCACAAAATTGTTGTGGAAGCCTTTGATGATCCCGATGTGAAAAATGTCA +CCTGTTATGTGAGCCGGGCGAAAACCGGTGGTATTAAAGGGGGATTGGGTCTGGCGGAAGATACCTCCGA +TGCGGCCATTTCTTGTCAGCAAGTCGGGCCGATTGAACTGTCGGATCGTATTAAAAACGGCAAAGCTCAG +GGCGAGGTAGTATTCAAAAAACGCACGTCCCTGGTCTTTAAGTCGTTACAGGTCGTGCGCTTTTATGATG +CCAAACGCAACGCGCTCGCTTATCTGGCTTACTCCGACAAAGTTGTAGAAGGTTCGCCGAAAAACGCGAT +TAGCGCGGTTCCTGTCATGCCGTGGCGGCAATAACAGAGGCGATTTATGCAACGGGAAACGGTCTGGTTA +GTGGAAGATGAGCAAGGGATAGCCGACACGCTGGTCTACATGTTGCAGCAGGAAGGTTTTGCCGTCGAGG +TCTTTGAGCGAGGCTTGCCGGTGCTGGATAAAGCTCGCAAGCAGGTACCCGACGTCATGATTCTCGATGT +TGGTCTGCCGGATATTAGCGGCTTTGAATTGTGCCGCCAGTTACTGGCGCTCCATCCGGCGTTACCTGTA +CTGTTCCTGACGGCCCGAAGTGAAGAGGTCGATCGCCTGCTTGGGCTGGAAATTGGTGCTGACGACTACG +TGGCTAAACCGTTTTCACCCCGCGAAGTGTGCGCCAGGGTGCGCACCTTACTGCGTCGGGTGAAGAAGTT +CTCGACGCCGTCTCCCGTCATCCGTATTGGACATTTTGAATTGAATGAACCCGCGGCGCAGATCAGCTGG +TTTGACACGCCATTAGCGCTGACTCGGTATGAGTTTTTATTGTTGAAGACGTTACTCAAGTCACCGGGCC +GCGTCTGGTCCCGCCAGCAACTGATGGATAGCGTATGGGAAGATGCGCAGGACACCTACGATCGCACCGT +CGATACCCACATTAAAACGCTGCGTGCCAAGCTGCGCGCCATCAACCCCGATCTTTCACCGATTAATACT +CATCGCGGCATGGGATATAGCCTGAGGGGCCTGTAATGCGTATCGGCATGCGGTTGTTGCTGGGCTATTT +TTTACTGGTGGCGGTGGCAGCCTGGTTCGTACTGGCCATTTTTGTCAAAGAAGTTAAACCGGGCGTGCGA +AGAGCAACGGAGGGGACGTTGATCGACACCGCAACGTTGCTGGCGGAGCTGGCGCGTCCCGATTTGCTCT +CTGGGGACCCAACGCATGGGCAACTGGCGCAGGCGTTTAATCAGCTACAACATCGCCCGTTTCGCGCCAA +TATCGGTGGCATTAACAAAGTGCGCAATGAATATCATGTCTATATGACCGATGCGCAGGGCAAAGTATTG +TTCGATTCGGCAAATAAAGCCGTTGGACAGGATTATTCGCGCTGGAATGACGTCTGGCTAACGTTGCGTG +GTCAGTATGGTGCGCGCAGCACGTTGCAAAATCCTGCCGATCCCGAAAGTTCTGTGATGTATGTTGCCGC +ACCGATTATGGACGGCTCGCGGCTTATTGGCGTTTTGAGCGTAGGCAAACCGAACGCGGCGATGGCTCCG +GTCATTAAGCGTAGCGAGCGGCGAATTTTATGGGCCAGCGCCATTTTGTTGGGGATTGCACTGGTGATTG +GCGCAGGCATGGTTTGGTGGATCAACCGCTCTATTGCCCGGCTCACTCGCTATGCTGATTCCGTCACTGA +CAATAAGCCCGTTCCTCTCCCCGATCTCGGTAGTAGCGAGTTGCGTAAACTCGCGCAGGCGCTGGAAAGT +ATGCGCGTGAAGCTGGAAGGGAAAAACTATATTGAGCAGTATGTTTACGCATTAACTCATGAGCTAAAAA +GCCCACTGGCGGCGATTCGTGGAGCGGCGGAAATTTTACGCGAAGGTCCGCCGCCGGAAGTGGTGGCTCG +TTTTACTGACAACATTCTGACGCAAAATGCGCGTATGCAGGCATTGGTAGAAACGTTACTACGCCAGGCA +AGACTGGAGAATCGTCAGGAAGTCGTTCTGACTGCTGTTGATGTGGCGGCATTATTCCGCCGCGTCAGCG +AAGCGCGCACCGTGCAGTTGGCAGAAAAAAAAATCACTCTGCATGTTACGCCCACCGAGGTTAACGTTGC +TGCTGAACCGGCGTTACTGGAGCAGGCGCTGGGAAATTTACTGGATAACGCCATCGATTTTACCCCCGAG +AGCGGTTGCATCACGCTAAGCGCCGAAGTGGATCAGGAACACGTCACGCTTAAGGTGCTGGATACCGGTA +GTGGTATTCCTGACTACGCGCTTTCACGTATTTTTGAACGCTTTTACTCTTTGCCTCGTGCAAATGGGCA +AAAAAGCAGCGGTCTGGGGTTGGCGTTCGTCAGTGAGGTCGCCCGTTTGTTTAACGGCGAAGTCACGCTG +CGCAACGTGCAGGAAGGTGGCGTGCTGGCCTCGCTTCGACTTCACCGTCACTTCACATAGCTTCAAATTC +TTCCCACATAGTCTTCGTATCCTGCTGCCATTGCAAAGGAGAAGACTATGTTGAAATCCCCCCTGTTCTG +GAAAATGACTAGCCTGTTTGGTGCAGTATTGCTGTTGTTGATTCCGATAATGCTGATTCGGCAGGTGATT +GTCGAACGTGCTGATTACCGTAGCGATGTGGAAGATGCGATTCGCCAAAGTACCAGCGGGCCGCAAAAAC +TCGTTGGGCCGCTCATCGCTATTCCTGTGACCGAGCTTTATACGGTGCAGGAAGAGGATAAAACCGTGGA +GCGGAAACGAAGTTTTATCCATTTTTGGTTACCTGAGTCATTGATGGTTGATGGCAATCAGAACGTGGAA +GAACGCAAGATAGGGATTTATACCGGTCAGGTCTGGCACAGTGATTTAACGTTAAAAGCCGATTTCGATG +TTTCGCGTCTTAGCGAACTCAACGCGCCAAATATCACCTTAGGCAAGCCATTTATTGTGATTAGCGTCGG +GGATGCGCGTGGTATTGGTGTGGTGAAAGCGCCTGAAGTTAACGGAACGGCGCTGACCATTGAACCCGGC +ACCGGGTTAGAGCAAGGCGGGCAGGGCGTGCATATCCCTTTACCTGAAGGGGACTGGCGGAAGCAGAACC +TGAAGCTGAATATGGCCCTGAATTTAAGCGGTACCGGCGATCTTTCTGTGGTGCCTGGCGGGCGTAATAG +CGAAATGACCTTAACCAGCAACTGGCCGCATCCCAGTTTTTTAGGTGATTTTCTACCAGCCAAACGGGAA +GTTAGCGAGTCAGGTTTTCAGGCGCACTGGCAAAGCAGCTGGTTTGCTAATAATCTCGGTGAGCGTTTTG +CTTCAGGCAATGATACCGGCTGGGAAAACTTCCCGGCGTTTAGCGTCGCAGTAACGACGCCAGCCGATCA +ATACCAATTAACTGACCGGGCGACTAAGTACGCCATTCTGCTGATTGCACTGACTTTTATGGCGTTCTTT +GTTTTTGAAACGCTCACCGCGCAACGTTTACACCCAATGCAATATTTGCTGGTGGGGCTTTCATTGGTGA +TGTTTTATTTGCTCTTGCTGGCGCTTTCTGAACATACCGGTTTTACCGTGGCATGGATAATCGCCAGTCT +GATTGGGGCGATAATGAACGGTATTTATTTGCAAGCGGTATTGAAAGGTTGGTGCAACAGCATGTTGTTT +ACCCTCGCGCTGTTGTTGCTGGATGGTGTGATGTGGGGACTGCTCAACTCTGCCGATAGCGCGCTGTTGT +TGGGAACCAGTGTGCTGGTGGTGGCGCTGGCCGGCATGATGTTTGTGACCCGTAATATCGACTGGTATGC +GTTTTCACTGCCGAAAATGAAAGCCAGTAAAGAAGTTACAACGGACGATGAGTTACGTATCTGGAAATAA +GGTTGAAAAATAAAAACGGCGCTAAAAAGCGCCGTTTTTTTTGACGGTGGTAAAGCCGATTAATCTTCCA +GATCACCGCAGAAGCGATAACCTTCACCGTGAATGGTGGCGATGATTTCCGGCGTATCCGGCGTAGATTC +GAAATGTTTACGAATACGGCGGATCGTCACGTCTACAGTACGGTCGTGCGGTTTCAGCTCACGGCCGGTC +ATTTTCTTCAGCAGTTCAGCACGGGACTGAATTTTGCCTGGGTTTTCACAGAAGTGAAGCATGGCGCGGA +ACTCGCTGCGCGGCAGCTTGTACTGCTCGCCATCAGGGCCGATCAACGAACGGCTGTTGATGTCCAGTTC +CCAACCATTGAACTTGTAGCTTTCAACGCTACGACGTTCTTCGCTGACAGTACCCAGATTCATGGTACGG +GACAGTAGGTTGCGTGCACGAATCGTCAGTTCACGCGGGTTGAACGGTTTGGTGATGTAGTCATCTGCAC +CGATTTCGAGGCCGAGAATTTTATCGACTTCGTTGTCACGGCCAGTCAGGAACATCAACGCAACATTCGC +CTGCTCGCGCAGTTCACGCGCTAACAGAAGACCGTTCTTACCCGGCAGATTGATATCCATGATCACCAGG +TTGATGTCATATTCAGAGAGGATCTGATGCATTTCCGCGCCATCTGTCGCTTCGAAAACATCATAGCCTT +CCGCTTCGAAAATACTTTTCAACGTGTTGCGTGTTACCAACTCGTCTTCAACGATAAGAATGTGCGGGGT +CTGCATGTTTGCTACCTAAATTGCCAACTAAATCGAAACAGGAAGTACAAAAGTCCCTGACCTGCCTGAT +GCATGCTGCAAATTAACATGATCGGCGTAACATGACTAAAGTACGTAATTGCGTTCTTGATGCACTTTCC +ATCAACGTCAACAACATCATTAGCTTGGTCGTGGGTACTTTCCCTCAGGACCCGACAGTGTCAAAAACGG +CTGTCATCCTAACCATTTTAACAGCAACATAACAGGCTAAGAGGGGCCGGACACCCAATAAAACTACGCT +TCGTTGACATATATCAAGTTCAATTGTAGCACGTTAACAGTTTGATGAAATCATCGTATCTAAATGCTAG +CTTTCGTCACATTATTTTAATAATCCAACTAGTTGCATCATACAACTAATAAACGTGGTGAATCCAATTG +TCGAGATTTATTTTTTATAAAATTATCCTAAGTAAACAGAAGGATATGTAGCATTTTTTAACAACTCAAC +CGTTAGTACAGTCAGGAAATAGTTTAGCCTTTTTTAAGCTAAGTAAAGGGCTTTTTCTGCGACTTACGTT +AAGAATTTGTAAATTCGCACCGCGTAATAAGTTGACAGTGATCACCCGGTTCGCGGTTATTTGATCAAGA +AGAGTGGCAATATGCGTATAACGATTATTCTGGTCGCACCCGCCAGAGCAGAAAATATTGGGGCAGCGGC +GCGGGCAATGAAAACGATGGGGTTTAGCGATCTGCGGATTGTCGATAGTCAGGCACACCTGGAGCCAGCC +ACCCGCTGGGTCGCACATGGATCTGGTGATATTATTGATAATATTAAAGTTTTCCCGACATTGGCTGAAT +CGTTACACGATGTCGATTTCACTGTCGCCACCACTGCGCGCAGTCGGGCGAAATATCATTACTACGCCAC +GCCAGTTGAACTGGTGCCGCTGTTAGAGGAAAAATCTTCATGGATGAGCCATGCCGCGCTGGTGTTTGGT +CGCGAAGATTCCGGGTTGACTAACGAAGAGTTAGCGTTGGCTGACGTTCTTACTGGTGTGCCGATGGTGG +CGGATTATCCTTCGCTCAATCTGGGGCAGGCGGTGATGGTCTATTGCTATCAATTAGCAACATTAATACA +ACAACCGGCGAAAAGTGATGCAACGGCAGACCAACATCAACTGCAAGCTTTACGCGAACGAGCCATGACA +TTGCTGACGACTCTGGCAGTGGCAGATGACATAAAACTGGTCGACTGGTTACAACAACGCCTGGGGCTTT +TAGAGCAACGAGACACGGCAATGTTGCACCGTTTGCTGCATGATATTGAAAAAAATATCACCAAATAAAA +AACGCCTTAGTAAGTATTTTTC + diff --git a/reconstruction/ecoli/flat/trna_charging_reactions.tsv b/reconstruction/ecoli/flat/trna_charging_reactions.tsv new file mode 100644 index 0000000000..6b6331c230 --- /dev/null +++ b/reconstruction/ecoli/flat/trna_charging_reactions.tsv @@ -0,0 +1,87 @@ +"id" "stoichiometry" "catalyzed_by" "common_name" +"ALANINE--TRNA-LIGASE-RXN_alaT-tRNA" {"L-ALPHA-ALANINE":-1,"ATP":-1,"alaT-tRNA":-1,"PPI":1,"AMP":1,"charged-alaT-tRNA":1} ["ALAS-CPLX"] "ALANYL-TRNA SYNTHETASE" +"ALANINE--TRNA-LIGASE-RXN_alaU-tRNA" {"L-ALPHA-ALANINE":-1,"ATP":-1,"alaU-tRNA":-1,"PPI":1,"AMP":1,"charged-alaU-tRNA":1} ["ALAS-CPLX"] "ALANYL-TRNA SYNTHETASE" +"ALANINE--TRNA-LIGASE-RXN_alaV-tRNA" {"L-ALPHA-ALANINE":-1,"ATP":-1,"alaV-tRNA":-1,"PPI":1,"AMP":1,"charged-alaV-tRNA":1} ["ALAS-CPLX"] "ALANYL-TRNA SYNTHETASE" +"ALANINE--TRNA-LIGASE-RXN_alaW-tRNA" {"L-ALPHA-ALANINE":-1,"ATP":-1,"alaW-tRNA":-1,"PPI":1,"AMP":1,"charged-alaW-tRNA":1} ["ALAS-CPLX"] "ALANYL-TRNA SYNTHETASE" +"ALANINE--TRNA-LIGASE-RXN_alaX-tRNA" {"L-ALPHA-ALANINE":-1,"ATP":-1,"alaX-tRNA":-1,"PPI":1,"AMP":1,"charged-alaX-tRNA":1} ["ALAS-CPLX"] "ALANYL-TRNA SYNTHETASE" +"ARGININE--TRNA-LIGASE-RXN_argQ-tRNA" {"ARG":-1,"ATP":-1,"argQ-tRNA":-1,"PPI":1,"AMP":1,"charged-argQ-tRNA":1} ["ARGS-MONOMER"] "ARGINYL-TRNA SYNTHETASE" +"ARGININE--TRNA-LIGASE-RXN_argU-tRNA" {"ARG":-1,"ATP":-1,"argU-tRNA":-1,"PPI":1,"AMP":1,"charged-argU-tRNA":1} ["ARGS-MONOMER"] "ARGINYL-TRNA SYNTHETASE" +"ARGININE--TRNA-LIGASE-RXN_argV-tRNA" {"ARG":-1,"ATP":-1,"argV-tRNA":-1,"PPI":1,"AMP":1,"charged-argV-tRNA":1} ["ARGS-MONOMER"] "ARGINYL-TRNA SYNTHETASE" +"ARGININE--TRNA-LIGASE-RXN_argW-tRNA" {"ARG":-1,"ATP":-1,"argW-tRNA":-1,"PPI":1,"AMP":1,"charged-argW-tRNA":1} ["ARGS-MONOMER"] "ARGINYL-TRNA SYNTHETASE" +"ARGININE--TRNA-LIGASE-RXN_argX-tRNA" {"ARG":-1,"ATP":-1,"argX-tRNA":-1,"PPI":1,"AMP":1,"charged-argX-tRNA":1} ["ARGS-MONOMER"] "ARGINYL-TRNA SYNTHETASE" +"ARGININE--TRNA-LIGASE-RXN_argY-tRNA" {"ARG":-1,"ATP":-1,"argY-tRNA":-1,"PPI":1,"AMP":1,"charged-argY-tRNA":1} ["ARGS-MONOMER"] "ARGINYL-TRNA SYNTHETASE" +"ARGININE--TRNA-LIGASE-RXN_argZ-tRNA" {"ARG":-1,"ATP":-1,"argZ-tRNA":-1,"PPI":1,"AMP":1,"charged-argZ-tRNA":1} ["ARGS-MONOMER"] "ARGINYL-TRNA SYNTHETASE" +"ASPARAGINE--TRNA-LIGASE-RXN_asnT-tRNA" {"ASN":-1,"ATP":-1,"asnT-tRNA":-1,"PPI":1,"AMP":1,"charged-asnT-tRNA":1} ["ASNS-CPLX"] "ASPARAGINYL-TRNA SYNTHETASE" +"ASPARAGINE--TRNA-LIGASE-RXN_asnU-tRNA" {"ASN":-1,"ATP":-1,"asnU-tRNA":-1,"PPI":1,"AMP":1,"charged-asnU-tRNA":1} ["ASNS-CPLX"] "ASPARAGINYL-TRNA SYNTHETASE" +"ASPARAGINE--TRNA-LIGASE-RXN_asnV-tRNA" {"ASN":-1,"ATP":-1,"asnV-tRNA":-1,"PPI":1,"AMP":1,"charged-asnV-tRNA":1} ["ASNS-CPLX"] "ASPARAGINYL-TRNA SYNTHETASE" +"ASPARAGINE--TRNA-LIGASE-RXN_RNA0-304" {"ASN":-1,"ATP":-1,"RNA0-304":-1,"PPI":1,"AMP":1,"RNA0-310":1} ["ASNS-CPLX"] "ASPARAGINYL-TRNA SYNTHETASE" +"ASPARTATE--TRNA-LIGASE-RXN_aspT-tRNA" {"L-ASPARTATE":-1,"ATP":-1,"aspT-tRNA":-1,"PPI":1,"AMP":1,"charged-aspT-tRNA":1} ["ASPS-CPLX"] "ASPARTYL-TRNA SYNTHETASE" +"ASPARTATE--TRNA-LIGASE-RXN_aspU-tRNA" {"L-ASPARTATE":-1,"ATP":-1,"aspU-tRNA":-1,"PPI":1,"AMP":1,"charged-aspU-tRNA":1} ["ASPS-CPLX"] "ASPARTYL-TRNA SYNTHETASE" +"ASPARTATE--TRNA-LIGASE-RXN_aspV-tRNA" {"L-ASPARTATE":-1,"ATP":-1,"aspV-tRNA":-1,"PPI":1,"AMP":1,"charged-aspV-tRNA":1} ["ASPS-CPLX"] "ASPARTYL-TRNA SYNTHETASE" +"CYSTEINE--TRNA-LIGASE-RXN_cysT-tRNA" {"CYS":-1,"ATP":-1,"cysT-tRNA":-1,"PPI":1,"AMP":1,"charged-cysT-tRNA":1} ["CYSS-MONOMER"] "CYSTEINYL-TRNA SYNTHETASE" +"GLURS-RXN_gltT-tRNA" {"GLT":-1,"ATP":-1,"gltT-tRNA":-1,"PPI":1,"AMP":1,"charged-gltT-tRNA":1} ["GLURS-MONOMER"] "GLUTAMYL-TRNA SYNTHETASE" +"GLURS-RXN_gltU-tRNA" {"GLT":-1,"ATP":-1,"gltU-tRNA":-1,"PPI":1,"AMP":1,"charged-gltU-tRNA":1} ["GLURS-MONOMER"] "GLUTAMYL-TRNA SYNTHETASE" +"GLURS-RXN_gltV-tRNA" {"GLT":-1,"ATP":-1,"gltV-tRNA":-1,"PPI":1,"AMP":1,"charged-gltV-tRNA":1} ["GLURS-MONOMER"] "GLUTAMYL-TRNA SYNTHETASE" +"GLURS-RXN_gltW-tRNA" {"GLT":-1,"ATP":-1,"gltW-tRNA":-1,"PPI":1,"AMP":1,"charged-gltW-tRNA":1} ["GLURS-MONOMER"] "GLUTAMYL-TRNA SYNTHETASE" +"GLUTAMINE--TRNA-LIGASE-RXN_glnU-tRNA" {"GLN":-1,"ATP":-1,"glnU-tRNA":-1,"PPI":1,"AMP":1,"charged-glnU-tRNA":1} ["GLNS-MONOMER"] "GLUTAMINYL-TRNA SYNTHETASE" +"GLUTAMINE--TRNA-LIGASE-RXN_glnV-tRNA" {"GLN":-1,"ATP":-1,"glnV-tRNA":-1,"PPI":1,"AMP":1,"charged-glnV-tRNA":1} ["GLNS-MONOMER"] "GLUTAMINYL-TRNA SYNTHETASE" +"GLUTAMINE--TRNA-LIGASE-RXN_glnW-tRNA" {"GLN":-1,"ATP":-1,"glnW-tRNA":-1,"PPI":1,"AMP":1,"charged-glnW-tRNA":1} ["GLNS-MONOMER"] "GLUTAMINYL-TRNA SYNTHETASE" +"GLUTAMINE--TRNA-LIGASE-RXN_glnX-tRNA" {"GLN":-1,"ATP":-1,"glnX-tRNA":-1,"PPI":1,"AMP":1,"charged-glnX-tRNA":1} ["GLNS-MONOMER"] "GLUTAMINYL-TRNA SYNTHETASE" +"GLYCINE--TRNA-LIGASE-RXN_glyT-tRNA" {"GLY":-1,"ATP":-1,"glyT-tRNA":-1,"PPI":1,"AMP":1,"charged-glyT-tRNA":1} ["GLYS-CPLX"] "GLYCYL-TRNA SYNTHETASE" +"GLYCINE--TRNA-LIGASE-RXN_glyU-tRNA" {"GLY":-1,"ATP":-1,"glyU-tRNA":-1,"PPI":1,"AMP":1,"charged-glyU-tRNA":1} ["GLYS-CPLX"] "GLYCYL-TRNA SYNTHETASE" +"GLYCINE--TRNA-LIGASE-RXN_glyV-tRNA" {"GLY":-1,"ATP":-1,"glyV-tRNA":-1,"PPI":1,"AMP":1,"charged-glyV-tRNA":1} ["GLYS-CPLX"] "GLYCYL-TRNA SYNTHETASE" +"GLYCINE--TRNA-LIGASE-RXN_glyW-tRNA" {"GLY":-1,"ATP":-1,"glyW-tRNA":-1,"PPI":1,"AMP":1,"charged-glyW-tRNA":1} ["GLYS-CPLX"] "GLYCYL-TRNA SYNTHETASE" +"GLYCINE--TRNA-LIGASE-RXN_glyX-tRNA" {"GLY":-1,"ATP":-1,"glyX-tRNA":-1,"PPI":1,"AMP":1,"charged-glyX-tRNA":1} ["GLYS-CPLX"] "GLYCYL-TRNA SYNTHETASE" +"GLYCINE--TRNA-LIGASE-RXN_glyY-tRNA" {"GLY":-1,"ATP":-1,"glyY-tRNA":-1,"PPI":1,"AMP":1,"charged-glyY-tRNA":1} ["GLYS-CPLX"] "GLYCYL-TRNA SYNTHETASE" +"HISTIDINE--TRNA-LIGASE-RXN_hisR-tRNA" {"HIS":-1,"ATP":-1,"hisR-tRNA":-1,"PPI":1,"AMP":1,"charged-hisR-tRNA":1} ["HISS-CPLX"] "HISTIDYL-TRNA SYNTHETASE" +"ISOLEUCINE--TRNA-LIGASE-RXN_ileT-tRNA" {"ILE":-1,"ATP":-1,"ileT-tRNA":-1,"PPI":1,"AMP":1,"charged-ileT-tRNA":1} ["ILES-MONOMER"] "ISOLEUCYL-TRNA SYNTHETASE" +"ISOLEUCINE--TRNA-LIGASE-RXN_ileU-tRNA" {"ILE":-1,"ATP":-1,"ileU-tRNA":-1,"PPI":1,"AMP":1,"charged-ileU-tRNA":1} ["ILES-MONOMER"] "ISOLEUCYL-TRNA SYNTHETASE" +"ISOLEUCINE--TRNA-LIGASE-RXN_ileV-tRNA" {"ILE":-1,"ATP":-1,"ileV-tRNA":-1,"PPI":1,"AMP":1,"charged-ileV-tRNA":1} ["ILES-MONOMER"] "ISOLEUCYL-TRNA SYNTHETASE" +"ISOLEUCINE--TRNA-LIGASE-RXN_ileX-tRNA" {"ILE":-1,"ATP":-1,"ileX-tRNA":-1,"PPI":1,"AMP":1,"charged-ileX-tRNA":1} ["ILES-MONOMER"] "ISOLEUCYL-TRNA SYNTHETASE" +"ISOLEUCINE--TRNA-LIGASE-RXN_RNA0-305" {"ILE":-1,"ATP":-1,"RNA0-305":-1,"PPI":1,"AMP":1,"RNA0-309":1} ["ILES-MONOMER"] "ISOLEUCYL-TRNA SYNTHETASE" +"LEUCINE--TRNA-LIGASE-RXN_leuP-tRNA" {"LEU":-1,"ATP":-1,"leuP-tRNA":-1,"PPI":1,"AMP":1,"charged-leuP-tRNA":1} ["LEUS-MONOMER"] "LEUCYL-TRNA SYNTHETASE" +"LEUCINE--TRNA-LIGASE-RXN_leuQ-tRNA" {"LEU":-1,"ATP":-1,"leuQ-tRNA":-1,"PPI":1,"AMP":1,"charged-leuQ-tRNA":1} ["LEUS-MONOMER"] "LEUCYL-TRNA SYNTHETASE" +"LEUCINE--TRNA-LIGASE-RXN_leuT-tRNA" {"LEU":-1,"ATP":-1,"leuT-tRNA":-1,"PPI":1,"AMP":1,"charged-leuT-tRNA":1} ["LEUS-MONOMER"] "LEUCYL-TRNA SYNTHETASE" +"LEUCINE--TRNA-LIGASE-RXN_leuU-tRNA" {"LEU":-1,"ATP":-1,"leuU-tRNA":-1,"PPI":1,"AMP":1,"charged-leuU-tRNA":1} ["LEUS-MONOMER"] "LEUCYL-TRNA SYNTHETASE" +"LEUCINE--TRNA-LIGASE-RXN_leuV-tRNA" {"LEU":-1,"ATP":-1,"leuV-tRNA":-1,"PPI":1,"AMP":1,"charged-leuV-tRNA":1} ["LEUS-MONOMER"] "LEUCYL-TRNA SYNTHETASE" +"LEUCINE--TRNA-LIGASE-RXN_leuW-tRNA" {"LEU":-1,"ATP":-1,"leuW-tRNA":-1,"PPI":1,"AMP":1,"charged-leuW-tRNA":1} ["LEUS-MONOMER"] "LEUCYL-TRNA SYNTHETASE" +"LEUCINE--TRNA-LIGASE-RXN_leuX-tRNA" {"LEU":-1,"ATP":-1,"leuX-tRNA":-1,"PPI":1,"AMP":1,"charged-leuX-tRNA":1} ["LEUS-MONOMER"] "LEUCYL-TRNA SYNTHETASE" +"LEUCINE--TRNA-LIGASE-RXN_leuZ-tRNA" {"LEU":-1,"ATP":-1,"leuZ-tRNA":-1,"PPI":1,"AMP":1,"charged-leuZ-tRNA":1} ["LEUS-MONOMER"] "LEUCYL-TRNA SYNTHETASE" +"LYSINE--TRNA-LIGASE-RXN_lysT-tRNA" {"LYS":-1,"ATP":-1,"lysT-tRNA":-1,"PPI":1,"AMP":1,"charged-lysT-tRNA":1} ["LYSS-CPLX", "LYSU-CPLX"] "LYSYL-TRNA SYNTHETASE" +"LYSINE--TRNA-LIGASE-RXN_lysV-tRNA" {"LYS":-1,"ATP":-1,"lysV-tRNA":-1,"PPI":1,"AMP":1,"charged-lysV-tRNA":1} ["LYSS-CPLX", "LYSU-CPLX"] "LYSYL-TRNA SYNTHETASE" +"LYSINE--TRNA-LIGASE-RXN_lysW-tRNA" {"LYS":-1,"ATP":-1,"lysW-tRNA":-1,"PPI":1,"AMP":1,"charged-lysW-tRNA":1} ["LYSS-CPLX", "LYSU-CPLX"] "LYSYL-TRNA SYNTHETASE" +"LYSINE--TRNA-LIGASE-RXN_RNA0-301" {"LYS":-1,"ATP":-1,"RNA0-301":-1,"PPI":1,"AMP":1,"RNA0-312":1} ["LYSS-CPLX", "LYSU-CPLX"] "LYSYL-TRNA SYNTHETASE" +"LYSINE--TRNA-LIGASE-RXN_RNA0-302" {"LYS":-1,"ATP":-1,"RNA0-302":-1,"PPI":1,"AMP":1,"RNA0-313":1} ["LYSS-CPLX", "LYSU-CPLX"] "LYSYL-TRNA SYNTHETASE" +"LYSINE--TRNA-LIGASE-RXN_RNA0-303" {"LYS":-1,"ATP":-1,"RNA0-303":-1,"PPI":1,"AMP":1,"RNA0-314":1} ["LYSS-CPLX", "LYSU-CPLX"] "LYSYL-TRNA SYNTHETASE" +"METHIONINE--TRNA-LIGASE-RXN_metT-tRNA" {"MET":-1,"ATP":-1,"metT-tRNA":-1,"PPI":1,"AMP":1,"charged-metT-tRNA":1} ["METG-CPLX"] "METHIONYL-TRNA SYNTHETASE" +"METHIONINE--TRNA-LIGASE-RXN_metU-tRNA" {"MET":-1,"ATP":-1,"metU-tRNA":-1,"PPI":1,"AMP":1,"charged-metU-tRNA":1} ["METG-CPLX"] "METHIONYL-TRNA SYNTHETASE" +"PHENYLALANINE--TRNA-LIGASE-RXN_pheU-tRNA" {"PHE":-1,"ATP":-1,"pheU-tRNA":-1,"PPI":1,"AMP":1,"charged-pheU-tRNA":1} ["PHES-CPLX"] "PHENYLALANYL-TRNA SYNTHETASE" +"PHENYLALANINE--TRNA-LIGASE-RXN_pheV-tRNA" {"PHE":-1,"ATP":-1,"pheV-tRNA":-1,"PPI":1,"AMP":1,"charged-pheV-tRNA":1} ["PHES-CPLX"] "PHENYLALANYL-TRNA SYNTHETASE" +"PROLINE--TRNA-LIGASE-RXN_proK-tRNA" {"PRO":-1,"ATP":-1,"proK-tRNA":-1,"PPI":1,"AMP":1,"charged-proK-tRNA":1} ["PROS-CPLX"] "PROLYL-TRNA SYNTHETASE" +"PROLINE--TRNA-LIGASE-RXN_proL-tRNA" {"PRO":-1,"ATP":-1,"proL-tRNA":-1,"PPI":1,"AMP":1,"charged-proL-tRNA":1} ["PROS-CPLX"] "PROLYL-TRNA SYNTHETASE" +"PROLINE--TRNA-LIGASE-RXN_proM-tRNA" {"PRO":-1,"ATP":-1,"proM-tRNA":-1,"PPI":1,"AMP":1,"charged-proM-tRNA":1} ["PROS-CPLX"] "PROLYL-TRNA SYNTHETASE" +"RXN-16165_metW-tRNA" {"MET":-1,"ATP":-1,"metW-tRNA":-1,"PPI":1,"AMP":1,"RNA0-319":1} ["METG-CPLX"] null +"RXN-16165_metY-tRNA" {"MET":-1,"ATP":-1,"metY-tRNA":-1,"PPI":1,"AMP":1,"RNA0-322":1} ["METG-CPLX"] null +"RXN-16165_metZ-tRNA" {"MET":-1,"ATP":-1,"metZ-tRNA":-1,"PPI":1,"AMP":1,"RNA0-323":1} ["METG-CPLX"] null +"RXN-16165_RNA0-306" {"MET":-1,"ATP":-1,"RNA0-306":-1,"PPI":1,"AMP":1,"RNA0-321":1} ["METG-CPLX"] null +"RXN0-2161_selC-tRNA" {"SER":-1,"ATP":-1,"selC-tRNA":-1,"PPI":1,"AMP":1,"charged-selC-tRNA":1} ["SERS-CPLX"] null +"SERINE--TRNA-LIGASE-RXN_serT-tRNA" {"SER":-1,"ATP":-1,"serT-tRNA":-1,"PPI":1,"AMP":1,"charged-serT-tRNA":1} ["SERS-CPLX"] "SERYL-TRNA SYNTHETASE" +"SERINE--TRNA-LIGASE-RXN_serU-tRNA" {"SER":-1,"ATP":-1,"serU-tRNA":-1,"PPI":1,"AMP":1,"charged-serU-tRNA":1} ["SERS-CPLX"] "SERYL-TRNA SYNTHETASE" +"SERINE--TRNA-LIGASE-RXN_serV-tRNA" {"SER":-1,"ATP":-1,"serV-tRNA":-1,"PPI":1,"AMP":1,"charged-serV-tRNA":1} ["SERS-CPLX"] "SERYL-TRNA SYNTHETASE" +"SERINE--TRNA-LIGASE-RXN_serW-tRNA" {"SER":-1,"ATP":-1,"serW-tRNA":-1,"PPI":1,"AMP":1,"charged-serW-tRNA":1} ["SERS-CPLX"] "SERYL-TRNA SYNTHETASE" +"SERINE--TRNA-LIGASE-RXN_serX-tRNA" {"SER":-1,"ATP":-1,"serX-tRNA":-1,"PPI":1,"AMP":1,"charged-serX-tRNA":1} ["SERS-CPLX"] "SERYL-TRNA SYNTHETASE" +"THREONINE--TRNA-LIGASE-RXN_thrT-tRNA" {"THR":-1,"ATP":-1,"thrT-tRNA":-1,"PPI":1,"AMP":1,"charged-thrT-tRNA":1} ["THRS-CPLX"] "THREONYL-TRNA SYNTHETASE" +"THREONINE--TRNA-LIGASE-RXN_thrU-tRNA" {"THR":-1,"ATP":-1,"thrU-tRNA":-1,"PPI":1,"AMP":1,"charged-thrU-tRNA":1} ["THRS-CPLX"] "THREONYL-TRNA SYNTHETASE" +"THREONINE--TRNA-LIGASE-RXN_thrV-tRNA" {"THR":-1,"ATP":-1,"thrV-tRNA":-1,"PPI":1,"AMP":1,"charged-thrV-tRNA":1} ["THRS-CPLX"] "THREONYL-TRNA SYNTHETASE" +"THREONINE--TRNA-LIGASE-RXN_thrW-tRNA" {"THR":-1,"ATP":-1,"thrW-tRNA":-1,"PPI":1,"AMP":1,"charged-thrW-tRNA":1} ["THRS-CPLX"] "THREONYL-TRNA SYNTHETASE" +"TRYPTOPHAN--TRNA-LIGASE-RXN_trpT-tRNA" {"TRP":-1,"ATP":-1,"trpT-tRNA":-1,"PPI":1,"AMP":1,"charged-trpT-tRNA":1} ["TRPS-CPLX"] "TRYPTOPHANYL-TRNA SYNTHETASE" +"TYROSINE--TRNA-LIGASE-RXN_tyrT-tRNA" {"TYR":-1,"ATP":-1,"tyrT-tRNA":-1,"PPI":1,"AMP":1,"charged-tyrT-tRNA":1} ["TYRS-CPLX"] "TYROSYL-TRNA SYNTHETASE" +"TYROSINE--TRNA-LIGASE-RXN_tyrU-tRNA" {"TYR":-1,"ATP":-1,"tyrU-tRNA":-1,"PPI":1,"AMP":1,"charged-tyrU-tRNA":1} ["TYRS-CPLX"] "TYROSYL-TRNA SYNTHETASE" +"TYROSINE--TRNA-LIGASE-RXN_tyrV-tRNA" {"TYR":-1,"ATP":-1,"tyrV-tRNA":-1,"PPI":1,"AMP":1,"charged-tyrV-tRNA":1} ["TYRS-CPLX"] "TYROSYL-TRNA SYNTHETASE" +"VALINE--TRNA-LIGASE-RXN_RNA0-300" {"VAL":-1,"ATP":-1,"RNA0-300":-1,"PPI":1,"AMP":1,"RNA0-311":1} ["VALS-MONOMER"] "VALYL-TRNA SYNTHETASE" +"VALINE--TRNA-LIGASE-RXN_valT-tRNA" {"VAL":-1,"ATP":-1,"valT-tRNA":-1,"PPI":1,"AMP":1,"charged-valT-tRNA":1} ["VALS-MONOMER"] "VALYL-TRNA SYNTHETASE" +"VALINE--TRNA-LIGASE-RXN_valU-tRNA" {"VAL":-1,"ATP":-1,"valU-tRNA":-1,"PPI":1,"AMP":1,"charged-valU-tRNA":1} ["VALS-MONOMER"] "VALYL-TRNA SYNTHETASE" +"VALINE--TRNA-LIGASE-RXN_valV-tRNA" {"VAL":-1,"ATP":-1,"valV-tRNA":-1,"PPI":1,"AMP":1,"charged-valV-tRNA":1} ["VALS-MONOMER"] "VALYL-TRNA SYNTHETASE" +"VALINE--TRNA-LIGASE-RXN_valW-tRNA" {"VAL":-1,"ATP":-1,"valW-tRNA":-1,"PPI":1,"AMP":1,"charged-valW-tRNA":1} ["VALS-MONOMER"] "VALYL-TRNA SYNTHETASE" +"VALINE--TRNA-LIGASE-RXN_valX-tRNA" {"VAL":-1,"ATP":-1,"valX-tRNA":-1,"PPI":1,"AMP":1,"charged-valX-tRNA":1} ["VALS-MONOMER"] "VALYL-TRNA SYNTHETASE" +"VALINE--TRNA-LIGASE-RXN_valY-tRNA" {"VAL":-1,"ATP":-1,"valY-tRNA":-1,"PPI":1,"AMP":1,"charged-valY-tRNA":1} ["VALS-MONOMER"] "VALYL-TRNA SYNTHETASE" diff --git a/reconstruction/ecoli/flat/rna_modification_reactions_removed.tsv b/reconstruction/ecoli/flat/trna_charging_reactions_removed.tsv similarity index 100% rename from reconstruction/ecoli/flat/rna_modification_reactions_removed.tsv rename to reconstruction/ecoli/flat/trna_charging_reactions_removed.tsv diff --git a/reconstruction/ecoli/flat/two_component_system_templates.tsv b/reconstruction/ecoli/flat/two_component_system_templates.tsv index a42bb56fb9..3d1a22b425 100644 --- a/reconstruction/ecoli/flat/two_component_system_templates.tsv +++ b/reconstruction/ecoli/flat/two_component_system_templates.tsv @@ -1,9 +1,9 @@ "id" "stoichiometry" "forward_rate" "reverse_rate" "POS-LIGAND-BOUND-HK-PHOSPHORYLATION_RXN" [{"molecule": "PHOSPHO-HK-LIGAND", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "ADP", "coeff": 1.0, "type": "metabolite", "location": "c", "form": "mature"}, {"molecule": "PROTON", "coeff": 1.0, "type": "metabolite", "location": "c", "form": "mature"}, {"molecule": "HK-LIGAND", "coeff": -1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "ATP", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 170000 0 "POS-LIGAND-BOUND-HK-PHOSPHOTRANSFER_RXN" [{"molecule": "HK-LIGAND", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "PHOSPHO-RR", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PHOSPHO-HK-LIGAND", "coeff": -1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "RR", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] 100000000 0 -"POS-RR-DEPHOSPHORYLATION_RXN" [{"molecule": "RR", "coeff": 1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "PI", "coeff": 1.0, "type": "metabolite", "location": "c", "form": "mature"}, {"molecule": "PHOSPHO-RR", "coeff": -1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "WATER", "coeff": -1.0, "type": "water", "location": "c", "form": "mature"}] 0.01 0 +"POS-RR-DEPHOSPHORYLATION_RXN" [{"molecule": "RR", "coeff": 1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "Pi", "coeff": 1.0, "type": "metabolite", "location": "c", "form": "mature"}, {"molecule": "PHOSPHO-RR", "coeff": -1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "WATER", "coeff": -1.0, "type": "water", "location": "c", "form": "mature"}] 0.01 0 "POS-HK-PHOSPHORYLATION_RXN" [{"molecule": "PHOSPHO-HK", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "ADP", "coeff": 1.0, "type": "metabolite", "location": "c", "form": "mature"}, {"molecule": "PROTON", "coeff": 1.0, "type": "metabolite", "location": "c", "form": "mature"}, {"molecule": "HK", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "ATP", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 0.0001 0 "POS-HK-PHOSPHOTRANSFER_RXN" [{"molecule": "HK", "coeff": 1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "PHOSPHO-RR", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PHOSPHO-HK", "coeff": -1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "RR", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] 100000000 0 "NEG-HK-PHOSPHORYLATION_RXN" [{"molecule": "PHOSPHO-HK", "coeff": 1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "ADP", "coeff": 1.0, "type": "metabolite", "location": "c", "form": "mature"}, {"molecule": "PROTON", "coeff": 1.0, "type": "metabolite", "location": "c", "form": "mature"}, {"molecule": "HK", "coeff": -1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "ATP", "coeff": -1.0, "type": "metabolite", "location": "c", "form": "mature"}] 500 0 "NEG-HK-PHOSPHOTRANSFER_RXN" [{"molecule": "HK", "coeff": 1.0, "type": "proteinmonomer", "location": "i", "form": "mature"}, {"molecule": "PHOSPHO-RR", "coeff": 1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "PHOSPHO-HK", "coeff": -1.0, "type": "proteincomplex", "location": "i", "form": "mature"}, {"molecule": "RR", "coeff": -1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}] 100000000 0 -"NEG-RR-DEPHOSPHORYLATION_RXN" [{"molecule": "RR", "coeff": 1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "PI", "coeff": 1.0, "type": "metabolite", "location": "c", "form": "mature"}, {"molecule": "PHOSPHO-RR", "coeff": -1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "WATER", "coeff": -1.0, "type": "water", "location": "c", "form": "mature"}] 0.01 0 +"NEG-RR-DEPHOSPHORYLATION_RXN" [{"molecule": "RR", "coeff": 1.0, "type": "proteinmonomer", "location": "c", "form": "mature"}, {"molecule": "Pi", "coeff": 1.0, "type": "metabolite", "location": "c", "form": "mature"}, {"molecule": "PHOSPHO-RR", "coeff": -1.0, "type": "proteincomplex", "location": "c", "form": "mature"}, {"molecule": "WATER", "coeff": -1.0, "type": "water", "location": "c", "form": "mature"}] 0.01 0 diff --git a/reconstruction/ecoli/flat/two_component_systems.tsv b/reconstruction/ecoli/flat/two_component_systems.tsv index 6dda3f178a..5ba41f3ee8 100644 --- a/reconstruction/ecoli/flat/two_component_systems.tsv +++ b/reconstruction/ecoli/flat/two_component_systems.tsv @@ -5,4 +5,4 @@ {"HK": "DCUS-MONOMER", "PHOSPHO-HK": "PHOSPHO-DCUS", "LIGAND": "SUC", "HK-LIGAND": "DCUS-SUC-CPLX", "PHOSPHO-HK-LIGAND": "PHOSPHO-DCUS-SUC-CPLX", "RR": "DCUR-MONOMER", "PHOSPHO-RR": "PHOSPHO-DCUR"} 1 {"HK": "NARX-CPLX", "PHOSPHO-HK": "PHOSPHO-NARX", "LIGAND": "NITRATE", "HK-LIGAND": "NARX-NITRATE-CPLX", "PHOSPHO-HK-LIGAND": "PHOSPHO-NARX-NITRATE-CPLX", "RR": "NARL-MONOMER", "PHOSPHO-RR": "PHOSPHO-NARL"} 1 {"HK": "CPLX0-8168", "PHOSPHO-HK": "PHOSPHO-PHOQ", "LIGAND": "CA+2", "HK-LIGAND": "PHOQ-CA+2-CPLX", "PHOSPHO-HK-LIGAND": "PHOSPHO-PHOQ-CA+2-CPLX", "RR": "PHOP-MONOMER", "PHOSPHO-RR": "PHOSPHO-PHOP"} -1 -{"HK": "PHOR-CPLX", "PHOSPHO-HK": "PHOSPHO-PHOR", "LIGAND": "PI", "HK-LIGAND": "PHOR-Pi-CPLX", "PHOSPHO-HK-LIGAND": "PHOSPHO-PHOR-Pi-CPLX", "RR": "PHOB-MONOMER", "PHOSPHO-RR": "PHOSPHO-PHOB"} -1 \ No newline at end of file +{"HK": "PHOR-CPLX", "PHOSPHO-HK": "PHOSPHO-PHOR", "LIGAND": "Pi", "HK-LIGAND": "PHOR-Pi-CPLX", "PHOSPHO-HK-LIGAND": "PHOSPHO-PHOR-Pi-CPLX", "RR": "PHOB-MONOMER", "PHOSPHO-RR": "PHOSPHO-PHOB"} -1 diff --git a/reconstruction/ecoli/flat/unprocessed/complexationReactions_large.tsv b/reconstruction/ecoli/flat/unprocessed/complexationReactions_large.tsv deleted file mode 100644 index 0f319f9f13..0000000000 --- a/reconstruction/ecoli/flat/unprocessed/complexationReactions_large.tsv +++ /dev/null @@ -1,1233 +0,0 @@ -"process" "stoichiometry" "id" "dir" -"complexation" [{"type": "proteincomplex", "coeff": 1.0, "molecule": "CPLX0-7657", "location": "c", "form": "mature"},{"type": "proteinmonomer", "coeff": -2.0, "molecule": "EG10116-MONOMER", "location": "c", "form": "mature"}] "CPLX0-7657_RXN" 1 -"complexation" [{"type": "proteincomplex", "coeff": 1.0, "molecule": "CPLX0-7978", "location": "x", "form": "mature"},{"type": "proteinmonomer", "coeff": -2.0, "molecule": "PHOSPHO-RCSB", "location": "x", "form": "mature"}] "CPLX0-7978_RXN" 1 -"complexation" [{"type": "proteincomplex", "coeff": 1.0, "molecule": "CPLX0-8002", "location": "p", "form": "mature"},{"type": "proteinmonomer", "coeff": -2.0, "molecule": "DSBC-MONOMER", "location": "p", "form": "mature"}] "CPLX0-8002_RXN" 1 -"complexation" [{"type": "proteincomplex", "coeff": 1.0, "molecule": "CPLX0-8004", "location": "p", "form": "mature"},{"type": "proteinmonomer", "coeff": -2.0, "molecule": "DSBG-MONOMER", "location": "p", "form": "mature"}] "CPLX0-8004_RXN" 1 -"complexation" [{"type": "proteincomplex", "coeff": 1.0, "molecule": "CPLX0-8075", "location": "c", "form": "mature"},{"type": "proteinmonomer", "coeff": -2.0, "molecule": "G7924-MONOMER", "location": "c", "form": "mature"}] "CPLX0-8075_RXN" 1 -"complexation" [{"type": "proteincomplex", "coeff": 1.0, "molecule": "CPLX0-8115", "location": "i", "form": "mature"},{"type": "proteinmonomer", "coeff": -2.0, "molecule": "BGLF-MONOMER", "location": "i", "form": "mature"}] "CPLX0-8115_RXN" 1 -"complexation" [{"type": "proteincomplex", "coeff": 1.0, "molecule": "CPLX0-8117", "location": "c", "form": "mature"},{"type": "proteinmonomer", "coeff": -2.0, "molecule": "EG10116-MONOMER", "location": "c", "form": "mature"}] "CPLX0-8117_RXN" 1 -"complexation" [{"type": "proteincomplex", "coeff": 1.0, "molecule": "MONOMER0-2863", "location": "c", "form": "mature"},{"type": "proteinmonomer", "coeff": -2.0, "molecule": "RIBONUCLEOSIDE-TRIP-REDUCT-MONOMER", "location": "c", "form": "mature"}] "MONOMER0-2863_RXN" 1 -"complexation" [{"type": "proteincomplex", "coeff": 1.0, "molecule": "PHOSPHO-OMPR", "location": "c", "form": "mature"},{"type": "proteinmonomer", "coeff": -2.0, "molecule": "PHOSPHO-OMPR-MONOMER", "location": "c", "form": "mature"}] "PHOSPHO-OMPR_RXN" 1 -"complexation" [{"type": "proteincomplex", "coeff": 1.0, "molecule": "CPLX0-7849", "location": "i", "form": "mature"},{"type": "proteinmonomer", "coeff": -2.0, "molecule": "HOLO-ENTB", "location": "i", "form": "mature"}] "CPLX0-7849_RXN" 1 -"complexation" [{"type": "proteincomplex", "coeff": 1.0, "molecule": "1-PFK", "location": "c", "form": "mature"},{"type": "proteinmonomer", "coeff": -2.0, "molecule": "1-PFK-MONOMER", "location": "c", "form": "mature"}] "1-PFK_RXN" 1 -"complexation" [{"type": "proteincomplex", "coeff": 1.0, "molecule": "2OXOGLUTARATEDEH-CPLX", "location": "i", "form": "mature"},{"type": "proteinmonomer", "coeff": -12.0, "molecule": "E1O-MONOMER", "location": "c", "form": "mature"},{"type": "proteinmonomer", "coeff": -24.0, "molecule": "E2O-MONOMER", "location": "c", "form": "mature"},{"type": "proteinmonomer", "coeff": -2.0, "molecule": "E3-MONOMER", "location": "i", "form": "mature"}] "2OXOGLUTARATEDEH-CPLX_RXN" 1 -"complexation" [{"type": "proteincomplex", "coeff": 1.0, "molecule": "3-ISOPROPYLMALDEHYDROG-CPLX", "location": "c", "form": "mature"},{"type": "proteinmonomer", "coeff": -2.0, "molecule": "3-ISOPROPYLMALDEHYDROG-MONOMER", "location": "c", "form": "mature"}] "3-ISOPROPYLMALDEHYDROG-CPLX_RXN" 1 -"complexation" [{"type": "proteincomplex", "coeff": 1.0, "molecule": "3-ISOPROPYLMALISOM-CPLX", "location": "c", "form": "mature"},{"type": "proteinmonomer", "coeff": -1.0, "molecule": "LEUC-MONOMER", "location": "c", "form": "mature"},{"type": "proteinmonomer", "coeff": -1.0, "molecule": "LEUD-MONOMER", "location": "c", "form": "mature"}] "3-ISOPROPYLMALISOM-CPLX_RXN" 1 -"complexation" [{"type": "proteincomplex", "coeff": 1.0, "molecule": "3-METHYL-2-OXOBUT-OHCH3XFER-CPLX", "location": "c", "form": "mature"},{"type": "proteinmonomer", "coeff": -10.0, "molecule": "3-CH3-2-OXOBUTANOATE-OH-CH3-XFER-MONOMER", "location": "c", "form": "mature"}] "3-METHYL-2-OXOBUT-OHCH3XFER-CPLX_RXN" 1 -"complexation" [{"type": "proteincomplex", "coeff": 1.0, "molecule": "3-OXOACYL-ACP-SYNTHII-CPLX", "location": "c", "form": "mature"},{"type": "proteinmonomer", "coeff": -2.0, "molecule": "3-OXOACYL-ACP-SYNTHII-MONOMER", "location": "c", "form": "mature"}] "3-OXOACYL-ACP-SYNTHII-CPLX_RXN" 1 -"complexation" [{"type": "proteincomplex", "coeff": 1.0, "molecule": "6PFK-1-CPX", "location": "c", "form": "mature"},{"type": "proteinmonomer", "coeff": -4.0, "molecule": "6PFK-1-MONOMER", "location": "c", "form": "mature"}] "6PFK-1-CPX_RXN" 1 -"complexation" [{"type": "proteincomplex", "coeff": 1.0, "molecule": "6PFK-2-CPX", "location": "c", "form": "mature"},{"type": "proteinmonomer", "coeff": -2.0, "molecule": "6PFK-2-MONOMER", "location": "c", "form": "mature"}] "6PFK-2-CPX_RXN" 1 -"complexation" [{"type": "proteincomplex", "coeff": 1.0, "molecule": "6PGLUCONDEHYDROG-CPLX", "location": "c", "form": "mature"},{"type": "proteinmonomer", "coeff": -2.0, "molecule": "6PGLUCONDEHYDROG-MONOMER", "location": "c", "form": "mature"}] "6PGLUCONDEHYDROG-CPLX_RXN" 1 -"complexation" [{"type": "proteincomplex", "coeff": 1.0, "molecule": "7-ALPHA-HYDROXYSTEROID-DEH-CPLX", "location": "c", "form": "mature"},{"type": "proteinmonomer", "coeff": -4.0, "molecule": "7-ALPHA-HYDROXYSTEROID-DEH-MONOMER", "location": "c", "form": "mature"}] "7-ALPHA-HYDROXYSTEROID-DEH-CPLX_RXN" 1 -"complexation" [{"type": "proteincomplex", "coeff": 1.0, "molecule": "7KAPSYN-CPLX", "location": "c", "form": "mature"},{"type": "proteinmonomer", "coeff": -2.0, "molecule": "7KAPSYN-MONOMER", "location": "c", "form": "mature"}] "7KAPSYN-CPLX_RXN" 1 -"complexation" [{"type": "proteincomplex", "coeff": 1.0, "molecule": "ABC-10-CPLX", "location": "i", "form": "mature"},{"type": "proteinmonomer", "coeff": -2.0, "molecule": "FEPC-MONOMER", "location": "i", "form": "mature"},{"type": "proteinmonomer", "coeff": -1.0, "molecule": "FEPD-MONOMER", "location": "i", "form": "mature"},{"type": "proteinmonomer", "coeff": -1.0, "molecule": "FEPG-MONOMER", "location": "i", "form": "mature"},{"type": "proteinmonomer", "coeff": -1.0, "molecule": "FEPB-MONOMER", "location": "i", "form": "mature"}] "ABC-10-CPLX_RXN" 1 -"complexation" [{"type": "proteincomplex", "coeff": 1.0, "molecule": "ABC-11-CPLX", "location": "i", "form": "mature"},{"type": "proteinmonomer", "coeff": -2.0, "molecule": "FHUC-MONOMER", "location": "i", "form": "mature"},{"type": "proteinmonomer", "coeff": -2.0, "molecule": "FHUB-MONOMER", "location": "i", "form": "mature"},{"type": "proteinmonomer", "coeff": -1.0, "molecule": "FHUD-MONOMER", "location": "p", "form": "mature"}] "ABC-11-CPLX_RXN" 1 -"complexation" [{"type": "proteincomplex", "coeff": 1.0, "molecule": "ABC-12-CPLX", "location": "i", "form": "mature"},{"type": "proteinmonomer", "coeff": -2.0, "molecule": "GLNQ-MONOMER", "location": "i", "form": "mature"},{"type": "proteinmonomer", "coeff": -2.0, "molecule": "GLNP-MONOMER", "location": "i", "form": "mature"},{"type": "proteinmonomer", "coeff": -1.0, "molecule": "GLNH-MONOMER", "location": "p", "form": "mature"}] "ABC-12-CPLX_RXN" 1 -"complexation" [{"type": "proteincomplex", "coeff": 1.0, "molecule": "ABC-13-CPLX", "location": "i", "form": "mature"},{"type": "proteinmonomer", "coeff": -1.0, "molecule": "G6359-MONOMER", "location": "p", "form": "mature"},{"type": "proteinmonomer", "coeff": -1.0, "molecule": "GLTK-MONOMER", "location": "i", "form": "mature"},{"type": "proteinmonomer", "coeff": -1.0, "molecule": "GLTJ-MONOMER", "location": "i", "form": "mature"},{"type": "proteinmonomer", "coeff": -1.0, "molecule": "GLTL-MONOMER", "location": "i", "form": "mature"}] "ABC-13-CPLX_RXN" 1 -"complexation" [{"type": "proteincomplex", "coeff": 1.0, "molecule": "ABC-14-CPLX", "location": "i", "form": "mature"},{"type": "proteinmonomer", "coeff": -2.0, "molecule": "HISP-MONOMER", "location": "i", "form": "mature"},{"type": "proteinmonomer", "coeff": -1.0, "molecule": "HISM-MONOMER", "location": "i", "form": "mature"},{"type": "proteinmonomer", "coeff": -1.0, "molecule": "HISQ-MONOMER", "location": "i", "form": "mature"},{"type": "proteinmonomer", "coeff": -1.0, "molecule": "HISJ-MONOMER", "location": "p", "form": "mature"}] "ABC-14-CPLX_RXN" 1 -"complexation" [{"type": "proteincomplex", "coeff": 1.0, "molecule": "ABC-15-CPLX", "location": "i", "form": "mature"},{"type": "proteinmonomer", "coeff": -1.0, "molecule": "LIVF-MONOMER", "location": "i", "form": "mature"},{"type": "proteinmonomer", "coeff": -1.0, "molecule": "LIVG-MONOMER", "location": "i", "form": "mature"},{"type": "proteinmonomer", "coeff": -1.0, "molecule": "LIVH-MONOMER", "location": "i", "form": "mature"},{"type": "proteinmonomer", "coeff": -1.0, "molecule": "LIVM-MONOMER", "location": "i", "form": "mature"},{"type": "proteinmonomer", "coeff": -1.0, "molecule": "LIVJ-MONOMER", "location": "p", "form": "mature"}] "ABC-15-CPLX_RXN" 1 -"complexation" [{"type": "proteincomplex", "coeff": 1.0, "molecule": "ABC-16-CPLX", "location": "i", "form": "mature"},{"type": "proteinmonomer", "coeff": -2.0, "molecule": "MALK-MONOMER", "location": "i", "form": "mature"},{"type": "proteinmonomer", "coeff": -1.0, "molecule": "MALF-MONOMER", "location": "i", "form": "mature"},{"type": "proteinmonomer", "coeff": -1.0, "molecule": "MALG-MONOMER", "location": "i", "form": "mature"},{"type": "proteinmonomer", "coeff": -1.0, "molecule": "MALE-MONOMER", "location": "i", "form": "mature"}] "ABC-16-CPLX_RXN" 1 -"complexation" [{"type": "proteincomplex", "coeff": 1.0, "molecule": "ABC-18-CPLX", "location": "i", "form": "mature"},{"type": "proteinmonomer", "coeff": -2.0, "molecule": "MGLA-MONOMER", "location": "i", "form": "mature"},{"type": "proteinmonomer", "coeff": -2.0, "molecule": "MGLC-MONOMER", "location": "i", "form": "mature"},{"type": "proteinmonomer", "coeff": -1.0, "molecule": "MGLB-MONOMER", "location": "p", "form": "mature"}] "ABC-18-CPLX_RXN" 1 -"complexation" [{"type": "proteincomplex", "coeff": 1.0, "molecule": "ABC-19-CPLX", "location": "i", "form": "mature"},{"type": "proteinmonomer", "coeff": -2.0, "molecule": "MODC-MONOMER", "location": "i", "form": "mature"},{"type": "proteinmonomer", "coeff": -2.0, "molecule": "MODB-MONOMER", "location": "i", "form": "mature"},{"type": "proteinmonomer", "coeff": -1.0, "molecule": "MODA-MONOMER", "location": "p", "form": "mature"}] "ABC-19-CPLX_RXN" 1 -"complexation" [{"type": "proteincomplex", "coeff": 1.0, "molecule": "ABC-2-CPLX", "location": "i", "form": "mature"},{"type": "proteinmonomer", "coeff": -2.0, "molecule": "ARAG-MONOMER", "location": "i", "form": "mature"},{"type": "proteinmonomer", "coeff": -2.0, "molecule": "ARAH-MONOMER", "location": "i", "form": "mature"},{"type": "proteinmonomer", "coeff": -1.0, "molecule": "ARAF-MONOMER", "location": "i", "form": "mature"}] "ABC-2-CPLX_RXN" 1 -"complexation" [{"type": "proteincomplex", "coeff": 1.0, "molecule": "ABC-20-CPLX", "location": "i", "form": "mature"},{"type": "proteinmonomer", "coeff": -1.0, "molecule": "NIKD-MONOMER", "location": "i", "form": "mature"},{"type": "proteinmonomer", "coeff": -1.0, "molecule": "NIKE-MONOMER", "location": "i", "form": "mature"},{"type": "proteinmonomer", "coeff": -1.0, "molecule": "NIKB-MONOMER", "location": "i", "form": "mature"},{"type": "proteinmonomer", "coeff": -1.0, "molecule": "NIKC-MONOMER", "location": "i", "form": "mature"},{"type": "proteinmonomer", "coeff": -1.0, "molecule": "NIKA-MONOMER", "location": "i", "form": "mature"}] "ABC-20-CPLX_RXN" 1 -"complexation" [{"type": "proteincomplex", "coeff": 1.0, "molecule": "ABC-21-CPLX", "location": "i", "form": "mature"},{"type": "proteinmonomer", "coeff": -1.0, "molecule": "YADG-MONOMER", "location": "i", "form": "mature"},{"type": "proteinmonomer", "coeff": -1.0, "molecule": "YADH-MONOMER", "location": "i", "form": "mature"}] "ABC-21-CPLX_RXN" 1 -"complexation" [{"type": "proteincomplex", "coeff": 1.0, "molecule": "ABC-22-CPLX", "location": "i", "form": "mature"},{"type": "proteinmonomer", "coeff": -1.0, "molecule": "OPPC-MONOMER", "location": "i", "form": "mature"},{"type": "proteinmonomer", "coeff": -1.0, "molecule": "OPPD-MONOMER", "location": "i", "form": "mature"},{"type": "proteinmonomer", "coeff": -1.0, "molecule": "OPPF-MONOMER", "location": "i", "form": "mature"},{"type": "proteinmonomer", "coeff": -1.0, "molecule": "OPPB-MONOMER", "location": "i", "form": "mature"},{"type": "proteinmonomer", "coeff": -1.0, "molecule": "OPPA-MONOMER", "location": "i", "form": "mature"}] "ABC-22-CPLX_RXN" 1 -"complexation" [{"type": "proteincomplex", "coeff": 1.0, "molecule": "ABC-23-CPLX", "location": "i", "form": "mature"},{"type": "proteinmonomer", "coeff": -2.0, "molecule": "PHNC-MONOMER", "location": "i", "form": "mature"},{"type": "proteinmonomer", "coeff": -2.0, "molecule": "PHNE-MONOMER", "location": "i", "form": "mature"},{"type": "proteinmonomer", "coeff": -1.0, "molecule": "PHND-MONOMER", "location": "i", "form": "mature"}] "ABC-23-CPLX_RXN" 1 -"complexation" [{"type": "proteincomplex", "coeff": 1.0, "molecule": "ABC-24-CPLX", "location": "i", "form": "mature"},{"type": "proteinmonomer", "coeff": -2.0, "molecule": "POTA-MONOMER", "location": "i", "form": "mature"},{"type": "proteinmonomer", "coeff": -1.0, "molecule": "POTB-MONOMER", "location": "i", "form": "mature"},{"type": "proteinmonomer", "coeff": 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-ARG$C6H15N4O2 -LYS$C6H15N2O2 -CPD-3642$C5H11N1O2 -VAL$C5H11N1O2 -L-ALPHA-ALANINE$C3H7N1O2 -PHE$C9H11N1O2 -TRP$C11H12N2O2 -ILE$C6H13N1O2 -PRO$C5H9N1O2 -L-SELENOCYSTEINE$C3H7N1O2Se1 -MET$C5H11N1O2S1 -LEU$C6H13N1O2 -B-ALANINE$C3H7N1O2 -CPD0-1032$C6H15N2O2 -SELENOMETHIONINE$C5H11N1O2Se1 -AMINO-OXOBUT$C4H7N1O3 -L-BETA-ASPARTYL-P$C4H6N1O7P1 -SELENOHOMOCYSTEINE$C4H9N1O2Se1 -DIMETHYL-GLYCINE$C4H9N1O2 -SARCOSINE$C3H7N1O2 -N-METHYLTRYPTOPHAN$C12H14N2O2 -N5-METHYLGLUTAMINE$C6H12N2O3 -CPD-298$C4H9N1O2 -CPD-404$C6H10N1O4 -CPD0-1380$C9H11N1O2 -CPD-424$C8H10N3O3 -N-ALPHA-ACETYLORNITHINE$C7H14N2O3 -CPD-9175$C5H8N1O3S1 -CPD0-2015$C7H12N1O3S1 -ACETYL-GLU$C7H9N1O5 -N-FORMYLMETHIONINE$C6H10N1O3S1 -CPD0-1617$C6H7N1O8P1 -CARBAMYUL-L-ASPARTATE$C5H6N2O5 -CPD-8989$C5H11N1O3S1 -CPD-8990$C5H11N1O3S1 -4-HYDROXY-L-PROLINE$C5H9N1O3 -CPD0-2189$C4H9N1O4 -CPD0-2375$C4H9N1O4 -CPD-3729$C9H10N1O6P1 -CPD-3728$C9H10N1O6P1 -L-ARGININE-P$C6H14N4O5P1 -L-THREONINE-O-3-PHOSPHATE$C4H8N1O6P1 -3-P-SERINE$C3H6N1O6P1 -CPD-3722$C3H6N1O6P1 -CPD0-1570$C4H9N1O2S1 -S-METHYL-L-CYSTEINE$C4H9N1O2S1 -CPD0-1507$C4H9N1O3 -CPD0-1614$C5H8N1O4 -CPD0-1544$C12H14N2O2 -CPD-821$C7H13N1O2 -CPD0-1636$C3H3N1O2F3 -CPD0-1379$C4H9N1O3 -CPD0-1351$C4H11N2O2 -CPD-9035$C5H12N2O3S1 -CPD0-1442$C9H19N2O3 -CPD0-1377$C3H9N2O2 -CPD0-1335$C3H6N1O2F1 -CPD-667$C6H11N1O4 -CPD0-1475$C3H5N1O2Cl1 -CPD0-1378$C3H9N2O3 -L-CYSTATHIONINE$C7H14N2O4S1 -ETHIONINE$C6H13N1O2S1 -LL-DIAMINOPIMELATE$C7H14N2O4 -CPD-9300$C5H11N1O2S1 -CPD0-1224$C5H8N1O3Cl1 -L-2-AMINOPENTANOIC-ACID$C5H11N1O2 -BUTHIONINE-SULFOXIMINE$C8H18N2O3S1 -L-ORNITHINE$C5H13N2O2 -D-GLT$C5H8N1O4 -GLUTAMIDE$C5H10N2O3 -CPD0-1563$C7H14N2O4S1 -CPD-302$C4H6N1O4 -CPD-12150$C6H13N1O2 -D-ALANINE$C3H7N1O2 -CPD-218$C5H11N1O2S1 -D-THREONINE$C4H9N1O3 -D-CYSTEINE$C3H7N1O2S1 -CPD-219$C6H15N2O2 -D-TRYPTOPHAN$C11H12N2O2 -D-TYROSINE$C9H11N1O3 -CPD-216$C9H11N1O2 -CPD-8855$C9H11N1O3 -CPD-644$C9H11N1O3 -L-CITRULLINE$C6H13N3O3 -CPD0-1562$C6H12N2O4Se2 -S-ADENOSYLMETHIONINE$C15H23N6O5S1 -O-SUCCINYL-L-HOMOSERINE$C8H12N1O6 -O-PHOSPHO-L-HOMOSERINE$C4H8N1O6P1 -L-GLUTAMATE_GAMMA-SEMIALDEHYDE$C5H9N1O3 -L-AZASERINE$C5H8N3O4 -L-ASPARTATE-SEMIALDEHYDE$C4H7N1O3 -HOMO-SER$C4H9N1O3 -FRUCTOSELYSINE$C12H25N2O7 -CYSTINE$C6H12N2O4S2 -CPD0-1564$C6H12N2O4S2 -CPD-9793$C7H12N1O4 -CPD-68$C4H7N1O2 -CPD-3739$C4H8N1O5S1 -CPD-15403$C16H22N6O7S1 -CPD-12255$C4H9N1O3 -ADENOSYL-HOMO-CYS$C14H20N6O5S1 -MESO-DIAMINOPIMELATE$C7H14N2O4 -CPD-10303$C4H9N1O3 -L-ALLO-THREONINE$C4H9N1O3 -CPD-3687$C8H17N1O2 -CPD-3682$C2H9N2 -CPD0-1376$C12H24N1 -CPD-3684$C4H2N2O4 -CPD-3627$C4H12N1 -CPD0-2526$C6H14N1O2 -CPD-3685$C3H2N2O3 -CPD-3681$C5H14N1 -2-AMINOACRYLATE$C3H4N1O2 -CPD-15056$C4H6N1O2 -CPD0-1942$C4H9N1O2 -CPD0-1952$C4H9N1O2 -AGMATHINE$C5H16N4 -PUTRESCINE$C4H14N2 -CADAVERINE$C5H16N2 -SPERMIDINE$C7H22N3 -CPD0-1065$C8H24N3 -SPERMINE$C10H30N4 -CPD0-1239$C4H13N2F1 -CPD-3462$C9H23N3O1 -CPD-568$C9H23N3O1 -N1-ACETYLSPERMINE$C12H31N4O1 -4-AMINO-BUTYRALDEHYDE$C4H10N1O1 -CPD0-1449$C9H12O2 -BUTYL-HYDROPEROXIDE$C4H10O2 -CPD0-2064$C18H31O4 -CPD-10204$C5H5O3 -CPD-16549$C7H13N1O2 -CPD-8490$C10H20O1 -CPD-13323$C8H14O1 -METHYL-GLYOXAL$C3H4O2 -TRANS-2-HEXENAL$C6H10O1 -CPD-665$C3H6O1 -ACETALD$C2H4O1 -HEXANAL$C6H12O1 -CPD-7000$C4H8O1 -BUTANAL$C4H8O1 -CPD-9053$C5H10O1 -CPD-371$C8H16O1 -FORMALDEHYDE$C1H2O1 -CPD-358$C3H6O2 -LACTALD$C3H6O2 -CPD0-1349$C6H8O2 -CPD0-1307$C5H10O1 -TOPAQUINONE$ -CPD0-1288$C9H6N1O4S1 -HYDROXYNAPHTHOQUINONE$C10H6O3 -PQQ$C14H3N2O8 -CPD-16989$C5H8O1 -MYO-INOSITOL$C6H12O6 -CPD-541$C9H18O11P1 -CPD-6746$C6H11O9P1 -D-MYO-INOSITOL-1-MONOPHOSPHATE$C6H11O9P1 -MI-HEXAKISPHOSPHATE$C6H6O24P6 -MI-PENTAKISPHOSPHATE$C6H7O21P5 -CPD-6661$C6H7O21P5 -CPD-534$C6H7O21P5 -CPD-1107$C6H7O21P5 -OCTANOL$C8H18O1 -CPD-7867$C12H26O1 -GLYCOL$C2H6O2 -BUTANEDIOL$C4H10O2 -PROPANE-1-2-DIOL$C3H8O2 -CPD-8891$C3H8O2 -METOH$C1H4O1 -BUTANOL$C4H10O1 -PROPANOL$C3H8O1 -ETOH$C2H6O1 -CPD0-1271$C7H3N1O5 -CHORISMATE$C10H8O6 -CPD0-1272$C7H2O6 -CPD0-1267$C8H4O4 -CPD0-2184$C9H6O6 -CPD-15016$C5H4O6 -D-4-HYDROXY-2-KETO-GLUTARATE$C5H4O6 -D-GLUCARATE$C6H8O8 -CPD0-1090$C6H8O8 -CPD0-1092$C6H8O8 -D-GALACTARATE$C6H8O8 -SUC$C4H4O4 -MALEATE$C4H2O4 -FUM$C4H2O4 -ENOL-OXALOACETATE$C4H2O5 -CPD-660$C4H4O5 -MAL$C4H4O5 -PROPIONATE$C3H5O2 -BUTYRIC_ACID$C4H7O2 -CPD-3617$C10H19O2 -DODECANOATE$C12H23O2 -HEXANOATE$C6H11O2 -CPD-195$C8H15O2 -PYRUVATE$C3H3O3 -2-OXOBUTANOATE$C4H5O3 -CPD-479$C5H7O3S1 -GLYOX$C2H1O3 -2-KETOGLUTARATE$C5H4O5 -4-HYDROXY-BUTYRATE$C4H7O3 -CPD-633$C7H5O4 -CPD-1843$C4H7O3 -CPD-335$C4H7O3 -CPD-3564$C4H7O3 -CPD-12253$C4H7O3 -CPD-12849$C7H3O7 -CPD-185$C7H3O7 -CPD-618$C7H7O7 -CPD-381$C5H6O5 -L-LACTATE$C3H5O3 -D-LACTATE$C3H5O3 -DIGLUCOACETYL-DOCOSANOATE$C36H65O14 -DIGLUCODIACETYL-DOCOSANOATE$C38H67O15 -DIGLUCO-DOCOSANOATE$C34H63O13 -STEARIC_ACID$C18H35O2 -CPD-7836$C14H27O2 -PALMITATE$C16H31O2 -CPD0-1159$C14H23O2 -OLEATE-CPD$C18H33O2 -CPD-9245$C16H29O2 -CPD-9247$C18H33O2 -4-OXALOMESACONATE$C7H3O7 -CIS-ACONITATE$C6H3O6 -CPD-622$C7H7O7 -CPD-225$C6H3O6 -CPD-1136$C7H5O6 -CPD-3571$C6H5O6 -THREO-DS-ISO-CITRATE$C6H5O7 -GLUCOSAMINATE$C6H13N1O6 -3-HYDROXYPHENYLACETATE$C8H7O3 -L-PANTOATE$C6H11O4 -D-TAGATURONATE$C6H9O7 -CPD-15127$C6H9O6 -ACET$C2H3O2 -P-HYDROXY-PHENYLPYRUVATE$C9H7O4 -PHENYL-PYRUVATE$C9H7O3 -CPD-12537$C6H9O7 -BETAINE$C5H11N1O2 -5-10-METHENYL-THF$C20H20N7O6 -2-OCTAPRENYL-6-HYDROXYPHENOL$C46H70O2 -2-OCTAPRENYLPHENOL$C46H70O1 -2-OCTAPRENYL-6-METHOXYPHENOL$C47H72O2 -CPD-8532$ diff --git a/reconstruction/ecoli/flat/unprocessed/ecocyc_full_biomass.fba b/reconstruction/ecoli/flat/unprocessed/ecocyc_full_biomass.fba deleted file mode 100644 index d8573ca829..0000000000 --- a/reconstruction/ecoli/flat/unprocessed/ecocyc_full_biomass.fba +++ /dev/null @@ -1,355 +0,0 @@ -# ---------------------------------------------------------------------- -# ecocyc-full-biomass.fba -# EcoCyc v19.0 FBA example file -# -# Full biomass function -# Glucose feed (10 mmol/gDW/hr) -# Aerobic conditions (unlimited O2 uptake allowed) -# -# Author: Dan Weaver (weaver@ai.sri.com) -# ---------------------------------------------------------------------- - -pgdb: ecoli :version 19.0 -minimize-fluxes: yes - -reactions: -metab-all -transport-all - -remove-reactions: -### problematic reactions -6PGLUCONDEHYDROG-RXN # not physiologically reversible, use the L2R instance reaction RXN-9952 instead (EC 1.1.1.44) - -### aerobically/anaerobically removed reactions -## reactions to remove aerobically -FHLMULTI-RXN # turn on if you prefer hydrogen gas formation instead of formate -RIBONUCLEOSIDE-TRIP-REDUCT-RXN # active anaerobically -PYRUVFORMLY-RXN # active anaerobically - -## reactions to remove anaerobically -#PYFLAVOXRE-RXN # results in incorrect flux to formate under anaerobic conditions -#RIBONUCLEOSIDE-DIP-REDUCTI-RXN # active aerobically - -### feedstock-based removed reactions -MALSYN-RXN # glyoxylate bypass off on aerobic glucose -ISOCIT-CLEAV-RXN # glyoxylate bypass off on aerobic glucose -GLUCOSAMINE-6-P-DEAMIN-RXN # results in futile cycle when glucosamine is not used as feedstock -RXN0-313 # fsa alternate fructose 6-phosphate aldolase pathway off by default -TRANS-RXN0-574 # malX permease allows bypass of PTS system -TRANS-RXN0-575 # malX permease allows bypass of PTS system - -### surplus instanced aerobic NDP reductase activity -CDPREDUCT-RXN -GDPREDUCT-RXN -UDPREDUCT-RXN -ADPREDUCT-RXN -### surplus instanced anaerobic NTP reductase activity -RXN0-746 -RXN0-723 -RXN0-724 -RXN0-745 - -## removed in BW25113 strain (KEIO collection) only -#RHAMNULOKIN-RXN # rhaB -#RHAMNISOM-RXN # rhaA -#LYXISOM-RXN # rhaA -#RHAMNULPALDOL-RXN # rhaD -#RXN0-5116 # araB -#ARABISOM-RXN # araA -#RIBULPEPIM-RXN # araD -#RXN0-5363 # lacZ -#BETAGALACTOSID-RXN # lacZ - - -biomass: - -### Charged protein tRNAs -:group charged-tRNAs -Charged-VAL-tRNAs[CCO-CYTOSOL] 0.411184 -VAL-tRNAs[CCO-CYTOSOL] -0.411184 -Charged-TYR-tRNAs[CCO-CYTOSOL] 0.133993 -TYR-tRNAs[CCO-CYTOSOL] -0.133993 -Charged-TRP-tRNAs[CCO-CYTOSOL] 0.055234 -TRP-tRNAs[CCO-CYTOSOL] -0.055234 -Charged-THR-tRNAs[CCO-CYTOSOL] 0.246506 -THR-tRNAs[CCO-CYTOSOL] -0.246506 -Charged-SER-tRNAs[CCO-CYTOSOL] 0.209684 -SER-tRNAs[CCO-CYTOSOL] -0.209684 -Charged-PRO-tRNAs[CCO-CYTOSOL] 0.214798 -PRO-tRNAs[CCO-CYTOSOL] -0.214798 -Charged-PHE-tRNAs[CCO-CYTOSOL] 0.180021 -PHE-tRNAs[CCO-CYTOSOL] -0.180021 -Charged-MET-tRNAs[CCO-CYTOSOL] 0.149336 -Elongation-tRNAMet[CCO-CYTOSOL] -0.149336 # new in 19.0 -Charged-LYS-tRNAs[CCO-CYTOSOL] 0.333448 -LYS-tRNAs[CCO-CYTOSOL] -0.333448 -Charged-LEU-tRNAs[CCO-CYTOSOL] 0.437778 -LEU-tRNAs[CCO-CYTOSOL] -0.437778 -Charged-ILE-tRNAs[CCO-CYTOSOL] 0.282306 -ILE-tRNAs[CCO-CYTOSOL] -0.282306 -Charged-HIS-tRNAs[CCO-CYTOSOL] 0.092056 -HIS-tRNAs[CCO-CYTOSOL] -0.092056 -Charged-GLY-tRNAs[CCO-CYTOSOL] 0.595297 -GLY-tRNAs[CCO-CYTOSOL] -0.595297 -Charged-GLT-tRNAs[CCO-CYTOSOL] 0.255712 -GLT-tRNAs[CCO-CYTOSOL] -0.255712 -Charged-GLN-tRNAs[CCO-CYTOSOL] 0.255712 -GLN-tRNAs[CCO-CYTOSOL] -0.255712 -Charged-CYS-tRNAs[CCO-CYTOSOL] 0.088988 -CYS-tRNAs[CCO-CYTOSOL] -0.088988 -Charged-ASP-tRNAs[CCO-CYTOSOL] 0.234232 -ASP-tRNAs[CCO-CYTOSOL] -0.234232 -Charged-ASN-tRNAs[CCO-CYTOSOL] 0.234232 -ASN-tRNAs[CCO-CYTOSOL] -0.234232 -Charged-ARG-tRNAs[CCO-CYTOSOL] 0.287420 -ARG-tRNAs[CCO-CYTOSOL] -0.287420 -Charged-ALA-tRNAs[CCO-CYTOSOL] 0.499149 -ALA-tRNAs[CCO-CYTOSOL] -0.499149 -### compensating iJO1366 GAM number (see below) for the additional cost of tRNA charging by -### demanding AMP+PPi and refunding ATP; these coefficients should == the total mmol/gDW/hr of charged tRNA -### demanded up above -AMP[CCO-CYTOSOL] 5.197084 -PPI[CCO-CYTOSOL] 5.197084 -ATP[CCO-CYTOSOL] -5.197084 -WATER[CCO-CYTOSOL] -5.197084 -PROTON[CCO-CYTOSOL] -5.197084 -:end-group - -### RNA and DNA -:group RNA -ATP[CCO-CYTOSOL] 0.169975 -CTP[CCO-CYTOSOL] 0.129799 -UTP[CCO-CYTOSOL] 0.140101 -GTP[CCO-CYTOSOL] 0.209121 -PPI[CCO-CYTOSOL] -0.648996 -:end-group - -### DNA -:group DNA -TTP[CCO-CYTOSOL] 0.024805 ## represents dTTP -DGTP[CCO-CYTOSOL] 0.025612 -DCTP[CCO-CYTOSOL] 0.025612 -DATP[CCO-CYTOSOL] 0.024805 -PPI[CCO-CYTOSOL] -0.100834 -:end-group - -### GAM - Growth associated maintenance 53.95 mmol/gDW/hr ATP hydrolysis -:group GAM -ATP[CCO-CYTOSOL] 53.950000 -WATER[CCO-CYTOSOL] 53.950000 -ADP[CCO-CYTOSOL] -53.950000 -Pi[CCO-CYTOSOL] -53.950000 -PROTON[CCO-CYTOSOL] -53.950000 -:end-group - -### Lipids -:group lipids -CPD-8260[CCO-CYTOSOL] 0.023092 ## phosphatidylglycerol -CPD-12819[CCO-CYTOSOL] 0.096225 ## phosphatidylethanolamine -CPD-12824[CCO-CYTOSOL] 0.006414 ## cardiolipin - -:end-group - -### Glycogen -ADP-GLUCOSE[CCO-CYTOSOL] 0.154187 -ADP[CCO-CYTOSOL] -0.154187 - -### LPS -:group LPS -CPD0-939[CCO-CYTOSOL] 0.008151 -:end-group - -### Murein -:group murein -CPD-12261[CCO-PERI-BAC] 0.013452 -:end-group - -### Metal ions -:group metal-ions -K+[CCO-CYTOSOL] 0.185690 -FE+2[CCO-CYTOSOL] 0.006388 -CA+2[CCO-CYTOSOL] 0.004952 -CL-[CCO-CYTOSOL] 0.004952 -CO+2[CCO-CYTOSOL] 0.000024 -MG+2[CCO-CYTOSOL] 0.008253 -MN+2[CCO-CYTOSOL] 0.000658 -NI+2[CCO-CYTOSOL] 0.000307 -ZN+2[CCO-CYTOSOL] 0.000324 -:end-group - -### Cofactors -## these small cofactor coefficients all have slightly different numbers -## to better distinguish blocks of fluxes in the text output -:group cofactors -10-FORMYL-THF[CCO-CYTOSOL] 0.000210 -CPD-12115[CCO-CYTOSOL] 0.000223 # demethylmenaquinol-8 -5-METHYL-THF[CCO-CYTOSOL] 0.000223 -ACETYL-COA[CCO-CYTOSOL] 0.000279 -S-ADENOSYLMETHIONINE[CCO-CYTOSOL] 0.000212 -BIOTIN[CCO-CYTOSOL] 0.000045 -CHORISMATE[CCO-CYTOSOL] 0.000223 -CO-A[CCO-CYTOSOL] 0.000576 -ENTEROBACTIN[CCO-CYTOSOL] 0.000223 -FAD[CCO-CYTOSOL] 0.000208 -GLUTATHIONE[CCO-CYTOSOL] 0.000223 -CPD-17063[CCO-CYTOSOL] 0.000223 # ferroheme o new in 19.0 -MALONYL-COA[CCO-CYTOSOL] 0.000031 -METHYLENE-THF[CCO-CYTOSOL] 0.000209 -REDUCED-MENAQUINONE[CCO-CYTOSOL] 0.000223 -NAD[CCO-CYTOSOL] 0.001831 -NADP[CCO-CYTOSOL] 0.000447 -PROTOHEME[CCO-CYTOSOL] 0.000223 # ferroheme b, anaerobic heme new in 19.0 -PUTRESCINE[CCO-CYTOSOL] 0.033270 -RIBOFLAVIN[CCO-CYTOSOL] 0.000205 -SIROHEME[CCO-CYTOSOL] 0.000223 # anaerobic heme new in 19.0 -SPERMIDINE[CCO-CYTOSOL] 0.006744 -SUC-COA[CCO-CYTOSOL] 0.000098 -THF[CCO-CYTOSOL] 0.000207 -THIAMINE-PYROPHOSPHATE[CCO-CYTOSOL] 0.000203 -UNDECAPRENYL-DIPHOSPHATE[CCO-CYTOSOL] 0.000055 -:end-group - -#:group o2-cofactors -## comment out PYRIDOXAL_PHOSPHATE during anaerobic growth -PYRIDOXAL_PHOSPHATE[CCO-CYTOSOL] 0.000202 -CPD-9956[CCO-CYTOSOL] 0.000223 # ubiquinol-8 currently requires oxygen -#:end-group - -:group tRNA-formylation -L-methionyl-tRNAfmet[CCO-CYTOSOL] -0.000010 -N-formyl-L-methionyl-tRNAfmet[CCO-CYTOSOL] 0.000010 -FORMYL-L-METHIONYL-PEPTIDE[CCO-CYTOSOL] -0.000010 -METHIONYL-PEPTIDE[CCO-CYTOSOL] 0.000010 -:end-group - -:group lipoate -Octanoylated-domains[CCO-CYTOSOL] -0.000010 -Lipoyl-Protein-N6-lipoyllysine[CCO-CYTOSOL] 0.000010 -:end-group - -:group carboxybiotin-BCCP-dimers -BCCP-monomers[CCO-CYTOSOL] -0.000020 -Carboxybiotin-BCCP[CCO-CYTOSOL] 0.000010 -:end-group - -:group tRNA-Ile-modification -Cytidine-34-tRNAIle2[CCO-CYTOSOL] -0.000010 -Lysidine-tRNA-Ile2[CCO-CYTOSOL] 0.000010 -:end-group - -:group tRNA-Arg-modification -tRNA-Arg-adenosine34[CCO-CYTOSOL] -0.000010 -tRNA-Arg-inosine34[CCO-CYTOSOL] 0.000010 -:end-group - -:group tRNA-m1G37-modification -Guanine37-in-tRNA[CCO-CYTOSOL] -0.000010 -tRNA-Containing-N1-Methylguanine-37[CCO-CYTOSOL] 0.000010 -:end-group - -:group release-factor-modification -Release-factor-L-glutamine[CCO-CYTOSOL] -0.000010 -Release-factor-N5-Methyl-L-glutamine[CCO-CYTOSOL] 0.000010 -:end-group - -:group 16s-rRNA-methylation -16S-rRNA-cytidine1402[CCO-CYTOSOL] -0.000010 -16S-rRNA-2-O-methylcytidine1402[CCO-CYTOSOL] 0.000010 -:end-group - - - -nutrients: -### NGAM -ADP[CCO-CYTOSOL] :lower-bound 3.15 :upper-bound 3.15 -Pi[CCO-CYTOSOL] :lower-bound 3.15 :upper-bound 3.15 -PROTON[CCO-CYTOSOL] :lower-bound 3.15 :upper-bound 3.15 - -### Nutrients -GLC[CCO-PERI-BAC] :upper-bound 10. -OXYGEN-MOLECULE[CCO-PERI-BAC] #:upper-bound 0.0 -AMMONIUM[CCO-CYTOSOL] -Pi[CCO-PERI-BAC] -K+[CCO-PERI-BAC] -SULFATE[CCO-PERI-BAC] -FE+2[CCO-PERI-BAC] -CA+2[CCO-PERI-BAC] -CL-[CCO-PERI-BAC] -CO+2[CCO-PERI-BAC] -MG+2[CCO-PERI-BAC] -MN+2[CCO-PERI-BAC] -NI+2[CCO-PERI-BAC] -ZN+2[CCO-PERI-BAC] -WATER[CCO-PERI-BAC] -CARBON-DIOXIDE[CCO-PERI-BAC] -CPD0-1958[CCO-PERI-BAC] - - - -secretions: -### NGAM -ATP[CCO-CYTOSOL] :lower-bound 3.15 :upper-bound 3.15 -WATER[CCO-CYTOSOL] :lower-bound 3.15 :upper-bound 3.15 - -### Secretions -## General secretions -CARBON-DIOXIDE[CCO-PERI-BAC] -WATER[CCO-PERI-BAC] -Pi[CCO-PERI-BAC] - -## Fermentation products -PROTON[CCO-PERI-BAC] -FORMATE[CCO-PERI-BAC] -ACET[CCO-PERI-BAC] -ETOH[CCO-PERI-BAC] -SUC[CCO-PERI-BAC] -D-LACTATE[CCO-PERI-BAC] -GLYCEROL[CCO-PERI-BAC] -#PYRUVATE[CCO-PERI-BAC] - -## Hydrogen gas -HYDROGEN-MOLECULE[CCO-CYTOSOL] - -## Nucleobases -URACIL[CCO-PERI-BAC] -XANTHINE[CCO-PERI-BAC] -HYPOXANTHINE[CCO-PERI-BAC] -THYMINE[CCO-PERI-BAC] - -## Other byproducts -INDOLE[CCO-PERI-BAC] -UREA[CCO-PERI-BAC] - -## Peptidoglycan byproducts -D-ALANINE[CCO-PERI-BAC] -UNDECAPRENYL-DIPHOSPHATE[CCO-PERI-BAC] - -## SAM cycle byproducts -CPD-560[CCO-PERI-BAC] # S-methyl-5-thio-D-ribose -CPD-108[CCO-PERI-BAC] # 4-methylphenol -MI-PENTAKISPHOSPHATE[CCO-PERI-BAC] -CPD-534[CCO-PERI-BAC] # another myo-inositol pentakisphosphate - -## CO secretion for thiamin diphosphate pathway -CARBON-MONOXIDE[CCO-PERI-BAC] - -## Methanol produced in biotin synthesis -METOH[CCO-PERI-BAC] -CPD-10774[CCO-PERI-BAC] # auto-inducer 2 -BETAINE[CCO-PERI-BAC] # for phosphocholine -CPD-239[CCO-PERI-BAC] # for cysteamine phosphate -Glucopyranose[CCO-PERI-BAC] # for a-D-glucose 1-phosphate - -### SAM cycle byproducts with unclear resolution -CPD-564[CCO-CYTOSOL] # S-ribosyl-L-homocysteine -CPD0-2167[CCO-CYTOSOL] # 5-deoxy-D-ribose -CH33ADO[CCO-CYTOSOL] #5'-deoxyadenosine -CPD-1772[CCO-CYTOSOL] # aminoacetaldehyde -S-ADENOSYL-4-METHYLTHIO-2-OXOBUTANOATE[CCO-CYTOSOL] -BUTANAL[CCO-CYTOSOL] -GLYCOLALDEHYDE[CCO-CYTOSOL] -GLYCOLLATE[CCO-CYTOSOL] -CPD-10774[CCO-CYTOSOL] # the metabolic fate of DPD is unknown - - - diff --git a/reconstruction/ecoli/flat/unprocessed/ecocyc_full_biomass.lp b/reconstruction/ecoli/flat/unprocessed/ecocyc_full_biomass.lp deleted file mode 100644 index b803fa089c..0000000000 --- a/reconstruction/ecoli/flat/unprocessed/ecocyc_full_biomass.lp +++ /dev/null @@ -1,20095 +0,0 @@ -\* Model generated on 23-Mar-2015 13:29:54 for file ecocyc-full-biomass.lp *\ - -Maximize obj: - --0.000033333334 r1 -0.000033333334 r2 -0.000033333334 r3 -0.000033333334 r4 -0.000033333334 r5a -0.000033333334 r5b -0.000033333334 r6 -0.000033333334 r7a -0.000033333334 -r7b --0.000033333334 r8a --0.000033333334 r8b -0.000033333334 r9 -0.000033333334 r10 -0.000033333334 r11 -0.000033333334 r12 -0.000033333334 r13 -0.000033333334 r14a -0.000033333334 r14b -0.000033333334 -r15a --0.000033333334 r15b --0.000033333334 r16a -0.000033333334 r16b -0.000033333334 r17a -0.000033333334 r17b -0.000033333334 r18 -0.000033333334 r19 -0.000033333334 r20 -0.000033333334 r21 -0.000033333334 -r22 --0.000033333334 r23 --0.000033333334 r24 -0.000033333334 r25 -0.000033333334 r26a -0.000033333334 r26b -0.000033333334 r27 -0.000033333334 r28 -0.000033333334 r29a -0.000033333334 r29b -0.000033333334 -r30 --0.000033333334 r31 --0.000033333334 r32 -0.000033333334 r33 -0.000033333334 r34 -0.000033333334 r35 -0.000033333334 r36a -0.000033333334 r36b -0.000033333334 r37 -0.000033333334 r38 -0.000033333334 -r39 --0.000033333334 r40 --0.000033333334 r41 -0.000033333334 r42 -0.000033333334 r43 -0.000033333334 r44 -0.000033333334 r45 -0.000033333334 r46 -0.000033333334 r47 -0.000033333334 r48 -0.000033333334 -r49 --0.000033333334 r50 --0.000033333334 r51 -0.000033333334 r52 -0.000033333334 r53 -0.000033333334 r54 -0.000033333334 r55 -0.000033333334 r56 -0.000033333334 r57 -0.000033333334 r58 -0.000033333334 -r59 --0.000033333334 r60 --0.000033333334 r61 -0.000033333334 r62 -0.000033333334 r63 -0.000033333334 r64 -0.000033333334 r65 -0.000033333334 r66 -0.000033333334 r67 -0.000033333334 r68 -0.000033333334 -r69 --0.000033333334 r70 --0.000033333334 r71 -0.000033333334 r72 -0.000033333334 r73 -0.000033333334 r74 -0.000033333334 r75 -0.000033333334 r76 -0.000033333334 r77 -0.000033333334 r78 -0.000033333334 -r79 --0.000033333334 r80 --0.000033333334 r81 -0.000033333334 r82 -0.000033333334 r83 -0.000033333334 r84 -0.000033333334 r85 -0.000033333334 r86 -0.000033333334 r87 -0.000033333334 r88 -0.000033333334 -r89 --0.000033333334 r90 --0.000033333334 r91 -0.000033333334 r92 -0.000033333334 r93 -0.000033333334 r94 -0.000033333334 r95 -0.000033333334 r96 -0.000033333334 r97 -0.000033333334 r98 -0.000033333334 -r99 --0.000033333334 r100 --0.000033333334 r101 -0.000033333334 r102 -0.000033333334 r103 -0.000033333334 r104 -0.000033333334 r105 -0.000033333334 r106 -0.000033333334 r107 -0.000033333334 r108 -0.000033333334 -r109 --0.000033333334 r110 --0.000033333334 r111 -0.000033333334 r112 -0.000033333334 r113 -0.000033333334 r114 -0.000033333334 r115 -0.000033333334 r116 -0.000033333334 r117 -0.000033333334 r118 -0.000033333334 -r119 --0.000033333334 r120 --0.000033333334 r121 -0.000033333334 r122 -0.000033333334 r123 -0.000033333334 r124 -0.000033333334 r125 -0.000033333334 r126 -0.000033333334 r127 -0.000033333334 r128 -0.000033333334 -r129 --0.000033333334 r130 --0.000033333334 r131 -0.000033333334 r132 -0.000033333334 r133 -0.000033333334 r134 -0.000033333334 r135 -0.000033333334 r136 -0.000033333334 r137a -0.000033333334 r137b -0.000033333334 -r138a --0.000033333334 r138b --0.000033333334 r139 -0.000033333334 r140 -0.000033333334 r141 -0.000033333334 r142 -0.000033333334 r143 -0.000033333334 r144 -0.000033333334 r145 -0.000033333334 r146 -0.000033333334 -r147 --0.000033333334 r148 --0.000033333334 r149 -0.000033333334 r150 -0.000033333334 r151 -0.000033333334 r152 -0.000033333334 r153 -0.000033333334 r154 -0.000033333334 r155 -0.000033333334 r156 -0.000033333334 -r157 --0.000033333334 r158 --0.000033333334 r159 -0.000033333334 r160 -0.000033333334 r161 -0.000033333334 r162 -0.000033333334 r163 -0.000033333334 r164 -0.000033333334 r165a -0.000033333334 r165b -0.000033333334 -r166 --0.000033333334 r167 --0.000033333334 r168 -0.000033333334 r169 -0.000033333334 r170 -0.000033333334 r171 -0.000033333334 r172 -0.000033333334 r173 -0.000033333334 r174 -0.000033333334 r175 -0.000033333334 -r176 --0.000033333334 r177 --0.000033333334 r178 -0.000033333334 r179 -0.000033333334 r180 -0.000033333334 r181 -0.000033333334 r182 -0.000033333334 r183 -0.000033333334 r184 -0.000033333334 r185 -0.000033333334 -r186 --0.000033333334 r187 --0.000033333334 r188 -0.000033333334 r189 -0.000033333334 r190 -0.000033333334 r191 -0.000033333334 r192 -0.000033333334 r193 -0.000033333334 r194 -0.000033333334 r195 -0.000033333334 -r196 --0.000033333334 r197 --0.000033333334 r198 -0.000033333334 r199 -0.000033333334 r200 -0.000033333334 r201 -0.000033333334 r202 -0.000033333334 r203 -0.000033333334 r204 -0.000033333334 r205 -0.000033333334 -r206 --0.000033333334 r207 --0.000033333334 r208 -0.000033333334 r209 -0.000033333334 r210 -0.000033333334 r211 -0.000033333334 r212 -0.000033333334 r213 -0.000033333334 r214 -0.000033333334 r215 -0.000033333334 -r216 --0.000033333334 r217 --0.000033333334 r218 -0.000033333334 r219 -0.000033333334 r220 -0.000033333334 r221 -0.000033333334 r222 -0.000033333334 r223 -0.000033333334 r224 -0.000033333334 r225 -0.000033333334 -r226 --0.000033333334 r227 --0.000033333334 r228 -0.000033333334 r229a -0.000033333334 r229b -0.000033333334 r230 -0.000033333334 r231 -0.000033333334 r232 -0.000033333334 r233 -0.000033333334 r234 -0.000033333334 -r235 --0.000033333334 r236 --0.000033333334 r237 -0.000033333334 r238 -0.000033333334 r239 -0.000033333334 r240 -0.000033333334 r241 -0.000033333334 r242 -0.000033333334 r243 -0.000033333334 r244 -0.000033333334 -r245 --0.000033333334 r246 --0.000033333334 r247 -0.000033333334 r248 -0.000033333334 r249 -0.000033333334 r250 -0.000033333334 r251 -0.000033333334 r252 -0.000033333334 r253 -0.000033333334 r254 -0.000033333334 -r255 --0.000033333334 r256 --0.000033333334 r257 -0.000033333334 r258 -0.000033333334 r259 -0.000033333334 r260 -0.000033333334 r261 -0.000033333334 r262 -0.000033333334 r263 -0.000033333334 r264 -0.000033333334 -r265 --0.000033333334 r266 --0.000033333334 r267 -0.000033333334 r268 -0.000033333334 r269 -0.000033333334 r270 -0.000033333334 r271 -0.000033333334 r272 -0.000033333334 r273 -0.000033333334 r274 -0.000033333334 -r275 --0.000033333334 r276 --0.000033333334 r277 -0.000033333334 r278 -0.000033333334 r279 -0.000033333334 r280 -0.000033333334 r281 -0.000033333334 r282 -0.000033333334 r283 -0.000033333334 r284 -0.000033333334 -r285 --0.000033333334 r286 --0.000033333334 r287 -0.000033333334 r288 -0.000033333334 r289a -0.000033333334 r289b -0.000033333334 r290 -0.000033333334 r291 -0.000033333334 r292 -0.000033333334 r293 -0.000033333334 -r294 --0.000033333334 r295 --0.000033333334 r296 -0.000033333334 r297 -0.000033333334 r298 -0.000033333334 r299 -0.000033333334 r300 -0.000033333334 r301 -0.000033333334 r302 -0.000033333334 r303 -0.000033333334 -r304 --0.000033333334 r305 --0.000033333334 r306 -0.000033333334 r307 -0.000033333334 r308 -0.000033333334 r309 -0.000033333334 r310 -0.000033333334 r311 -0.000033333334 r312 -0.000033333334 r313 -0.000033333334 -r314 --0.000033333334 r315 --0.000033333334 r316 -0.000033333334 r317 -0.000033333334 r318 -0.000033333334 r319 -0.000033333334 r320 -0.000033333334 r321 -0.000033333334 r322 -0.000033333334 r323 -0.000033333334 -r324 --0.000033333334 r325 --0.000033333334 r326 -0.000033333334 r327 -0.000033333334 r328 -0.000033333334 r329 -0.000033333334 r330 -0.000033333334 r331 -0.000033333334 r332 -0.000033333334 r333 -0.000033333334 -r334 --0.000033333334 r335 --0.000033333334 r336 -0.000033333334 r337 -0.000033333334 r338 -0.000033333334 r339 -0.000033333334 r340 -0.000033333334 r341 -0.000033333334 r342 -0.000033333334 r343 -0.000033333334 -r344 --0.000033333334 r345 --0.000033333334 r346 -0.000033333334 r347 -0.000033333334 r348 -0.000033333334 r349 -0.000033333334 r350 -0.000033333334 r351 -0.000033333334 r352 -0.000033333334 r353 -0.000033333334 -r354 --0.000033333334 r355 --0.000033333334 r356 -0.000033333334 r357 -0.000033333334 r358 -0.000033333334 r359 -0.000033333334 r360 -0.000033333334 r361 -0.000033333334 r362 -0.000033333334 r363 -0.000033333334 -r364 --0.000033333334 r365 --0.000033333334 r366 -0.000033333334 r367 -0.000033333334 r368 -0.000033333334 r369 -0.000033333334 r370 -0.000033333334 r371 -0.000033333334 r372 -0.000033333334 r373 -0.000033333334 -r374 --0.000033333334 r375 --0.000033333334 r376 -0.000033333334 r377 -0.000033333334 r378 -0.000033333334 r379 -0.000033333334 r380 -0.000033333334 r381 -0.000033333334 r382 -0.000033333334 r383 -0.000033333334 -r384 --0.000033333334 r385 --0.000033333334 r386 -0.000033333334 r387 -0.000033333334 r388 -0.000033333334 r389 -0.000033333334 r390 -0.000033333334 r391 -0.000033333334 r392 -0.000033333334 r393 -0.000033333334 -r394 --0.000033333334 r395 --0.000033333334 r396 -0.000033333334 r397 -0.000033333334 r398 -0.000033333334 r399 -0.000033333334 r400 -0.000033333334 r401 -0.000033333334 r402 -0.000033333334 r403 -0.000033333334 -r404 --0.000033333334 r405 --0.000033333334 r406 -0.000033333334 r407 -0.000033333334 r408 -0.000033333334 r409 -0.000033333334 r410 -0.000033333334 r411 -0.000033333334 r412 -0.000033333334 r413 -0.000033333334 -r414 --0.000033333334 r415 --0.000033333334 r416 -0.000033333334 r417 -0.000033333334 r418 -0.000033333334 r419 -0.000033333334 r420 -0.000033333334 r421 -0.000033333334 r422 -0.000033333334 r423 -0.000033333334 -r424 --0.000033333334 r425 --0.000033333334 r426 -0.000033333334 r427 -0.000033333334 r428 -0.000033333334 r429 -0.000033333334 r430 -0.000033333334 r431 -0.000033333334 r432 -0.000033333334 r433 -0.000033333334 -r434 --0.000033333334 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-0.000033333334 -r2199 --0.000033333334 r2200 --0.000033333334 r2201 -0.000033333334 r2202 -0.000033333334 r2203 -0.000033333334 r2204a -0.000033333334 r2204b -0.000033333334 r2205a -0.000033333334 r2205b -0.000033333334 r2206a -0.000033333334 -r2206b --0.000033333334 r2207a --0.000033333334 r2207b -0.000033333334 r2208 -0.000033333334 r2209 -0.000033333334 r2210 -0.000033333334 r2211a -0.000033333334 r2211b -0.000033333334 r2212a -0.000033333334 r2212b -0.000033333334 -r2213a --0.000033333334 r2213b --0.000033333334 r2214a -0.000033333334 r2214b -0.000033333334 r2215a -0.000033333334 r2215b -0.000033333334 r2216a -0.000033333334 r2216b -0.000033333334 r2217a -0.000033333334 r2217b -0.000033333334 -r2218a --0.000033333334 r2218b --0.000033333334 r2219a -0.000033333334 r2219b -0.000033333334 r2220a -0.000033333334 r2220b -0.000033333334 r2221a -0.000033333334 r2221b -0.000033333334 r2222 -0.000033333334 r2223 -0.000033333334 -r2224 --0.000033333334 r2225 --0.000033333334 r2226 -0.000033333334 r2227 -0.000033333334 r2228 -0.000033333334 r2229 -0.000033333334 r2230a -0.000033333334 r2230b -0.000033333334 r2231 -0.000033333334 r2232 -0.000033333334 -r2233 --0.000033333334 r2234 --0.000033333334 r2235 -0.000033333334 r2236a -0.000033333334 r2236b -0.000033333334 r2237 -0.000033333334 r2238 -0.000033333334 r2239 -0.000033333334 r2240 -0.000033333334 r2241 -0.000033333334 -r2242 --0.000033333334 r2243 --0.000033333334 r2244 -0.000033333334 r2245a -0.000033333334 r2245b -0.000033333334 r2246a -0.000033333334 r2246b -0.000033333334 r2247 -0.000033333334 r2248a -0.000033333334 r2248b -0.000033333334 -r2249 --0.000033333334 r2250 --0.000033333334 r2251 -0.000033333334 r2252 -0.000033333334 r2253 -0.000033333334 r2254 -0.000033333334 r2255 -0.000033333334 r2256 -0.000033333334 r2257 -0.000033333334 r2258 -0.000033333334 -r2259 --0.000033333334 r2260 --0.000033333334 r2261a -0.000033333334 r2261b -0.000033333334 r2262 -0.000033333334 r2263 -0.000033333334 r2264a -0.000033333334 r2264b -0.000033333334 r2265 -0.000033333334 r2266 -0.000033333334 -r2267 --0.000033333334 r2268 --0.000033333334 r2269 -0.000033333334 r2270 -0.000033333334 r2271 -0.000033333334 r2272 -0.000033333334 r2273 -0.000033333334 r2274 -0.000033333334 r2275 -0.000033333334 r2276 -0.000033333334 -r2277a --0.000033333334 r2277b --0.000033333334 r2278 -0.000033333334 r2279 -0.000033333334 r2280 -0.000033333334 r2281 -0.000033333334 r2282 -0.000033333334 r2283a -0.000033333334 r2283b -0.000033333334 r2284 -0.000033333334 -r2285 --0.000033333334 r2286 --0.000033333334 r2287 -0.000033333334 r2288 -0.000033333334 r2289 -0.000033333334 r2290a -0.000033333334 r2290b -0.000033333334 r2291a -0.000033333334 r2291b -0.000033333334 r2292 -0.000033333334 -r2293 --0.000033333334 r2294 --0.000033333334 r2295 -0.000033333334 r2296 -0.000033333334 r2297 -0.000033333334 r2298 -0.000033333334 r2299 -0.000033333334 r2300 -0.000033333334 r2301 -0.000033333334 r2302 -0.000033333334 -r2303 --0.000033333334 r2304 --0.000033333334 r2305a -0.000033333334 r2305b -0.000033333334 r2306 -0.000033333334 r2307a -0.000033333334 r2307b -0.000033333334 r2308 -0.000033333334 r2309 -0.000033333334 r2310 -0.000033333334 -r2311 --0.000033333334 r2312 --0.000033333334 r2313a -0.000033333334 r2313b -0.000033333334 r2314a -0.000033333334 r2314b -0.000033333334 r2315 -0.000033333334 r2316 -0.000033333334 r2317 -0.000033333334 r2318 -0.000033333334 -r2319 --0.000033333334 r2320 --0.000033333334 r2321 -0.000033333334 r2322 -0.000033333334 r2323 -0.000033333334 r2324 -0.000033333334 r2325a -0.000033333334 r2325b -0.000033333334 r2326a -0.000033333334 r2326b -0.000033333334 -r2327 --0.000033333334 r2328 --0.000033333334 r2329a -0.000033333334 r2329b -0.000033333334 r2330a -0.000033333334 r2330b -0.000033333334 r2331a -0.000033333334 r2331b -0.000033333334 r2332 -0.000033333334 r2333 -0.000033333334 -r2334a --0.000033333334 r2334b --0.000033333334 r2335 -0.000033333334 r2336 -0.000033333334 r2337 -0.000033333334 r2338 -0.000033333334 r2339 -0.000033333334 r2340 -0.000033333334 r2341 -0.000033333334 r2342 -0.000033333334 -r2343 --0.000033333334 r2344 --0.000033333334 r2345 -0.000033333334 r2346 -0.000033333334 r2347a -0.000033333334 r2347b -0.000033333334 r2348 -0.000033333334 r2349a -0.000033333334 r2349b -0.000033333334 r2350 -0.000033333334 -r2351 --0.000033333334 r2352 --0.000033333334 r2353a -0.000033333334 r2353b -0.000033333334 r2354a -0.000033333334 r2354b -0.000033333334 r2355 -0.000033333334 r2356 -0.000033333334 r2357a -0.000033333334 r2357b -0.000033333334 -r2358 --0.000033333334 r2359a --0.000033333334 r2359b -0.000033333334 r2360 -0.000033333334 r2361 -0.000033333334 r2362 -0.000033333334 r2363 -0.000033333334 r2364a -0.000033333334 r2364b -0.000033333334 r2365 -0.000033333334 -r2366 --0.000033333334 r2367 --0.000033333334 r2368 -0.000033333334 r2369 -0.000033333334 r2370a -0.000033333334 r2370b -0.000033333334 r2371 -0.000033333334 r2372 -0.000033333334 r2373a -0.000033333334 r2373b -0.000033333334 -r2374a --0.000033333334 r2374b --0.000033333334 r2375 -0.000033333334 r2376 -0.000033333334 r2377 -0.000033333334 r2378 -0.000033333334 r2379 -0.000033333334 r2380 -0.000033333334 r2381a -0.000033333334 r2381b -0.000033333334 -r2382a --0.000033333334 r2382b --0.000033333334 r2383 -0.000033333334 r2384 -0.000033333334 r2385 -0.000033333334 r2386 -0.000033333334 r2387 -0.000033333334 r2388 -0.000033333334 r2389 -0.000033333334 r2390 -0.000033333334 -r2391 --0.000033333334 r2392 --0.000033333334 r2393a -0.000033333334 r2393b -0.000033333334 r2394 -0.000033333334 r2395 -0.000033333334 r2396a -0.000033333334 r2396b -0.000033333334 r2397 -0.000033333334 r2398 -0.000033333334 -r2399 --0.000033333334 r2400 --0.000033333334 r2401 -0.000033333334 r2402a -0.000033333334 r2402b -0.000033333334 r2403a -0.000033333334 r2403b -0.000033333334 r2404 -0.000033333334 r2405 -0.000033333334 r2406a -0.000033333334 -r2406b --0.000033333334 r2407 --0.000033333334 r2408 -0.000033333334 r2409 -0.000033333334 r2410 -0.000033333334 r2411 -0.000033333334 r2412a -0.000033333334 r2412b -0.000033333334 r2413 -0.000033333334 r2414a -0.000033333334 -r2414b --0.000033333334 r2415 --0.000033333334 r2416 -0.000033333334 r2417a -0.000033333334 r2417b -0.000033333334 r2418 -0.000033333334 r2419 -0.000033333334 r2420a -0.000033333334 r2420b -0.000033333334 r2421a -0.000033333334 -r2421b --0.000033333334 r2422a --0.000033333334 r2422b -0.000033333334 r2423 -0.000033333334 r2424 -0.000033333334 r2425a -0.000033333334 r2425b -0.000033333334 r2426a -0.000033333334 r2426b -0.000033333334 r2427a -0.000033333334 -r2427b --0.000033333334 r2428 --0.000033333334 r2429 -0.000033333334 r2430 -0.000033333334 r2431 -0.000033333334 r2432 -0.000033333334 r2433a -0.000033333334 r2433b -0.000033333334 r2434 -0.000033333334 r2435 -0.000033333334 -r2436 --0.000033333334 r2437 --0.000033333334 r2438a -0.000033333334 r2438b -0.000033333334 r2439 -0.000033333334 r2440 -0.000033333334 r2441 -0.000033333334 r2442a -0.000033333334 r2442b -0.000033333334 r2443 -0.000033333334 -r2444 --0.000033333334 r2445 --0.000033333334 r2446 +1.0 objReactionName - -Subject To -c181: \* CPD0-938[CCO-CYTOSOL] *\ - \* r2222, galactosyl-(glucosyl)3-(heptosyl)3-Kdo2-lipid A-bisphosphate + ADP-L-glycero-beta-D-manno-heptose -> lipid A-core + ADP + H+ *\ - \* r1097, UDP-alpha-D-glucose + galactosyl-(glucosyl)2-(heptosyl)3-Kdo2-lipid A-bisphosphate -> galactosyl-(glucosyl)3-(heptosyl)3-Kdo2-lipid A-bisphosphate + UDP + H+ *\ - \* r244, a lipopolysaccharide[cytosol] -> a lipopolysaccharide[extracellular space] *\ - \* r92, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - - -1.0 r2222 + r1097 -1.0 r244 -1.0 r92 = 0 - -c619: \* CARBAMYUL-L-ASPARTATE[CCO-CYTOSOL] *\ - \* r1067b, N-carbamoyl-L-aspartate + H+ -> (S)-dihydroorotate + H2O *\ - \* r1067a, (S)-dihydroorotate + H2O -> N-carbamoyl-L-aspartate + H+ *\ - \* r689, L-aspartate + carbamoyl-phosphate -> N-carbamoyl-L-aspartate + phosphate + H+ *\ - \* r349, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - - -1.0 r1067b + r1067a + r689 -1.0 r349 = 0 - -c365: \* CPD0-1944[CCO-CYTOSOL] *\ - \* r560, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r185, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - - + r560 + r185 = 0 - -c1485: \* TARTRONATE-S-ALD[CCO-CYTOSOL] *\ - \* r2442b, tartronate semialdehyde + NADH + H+ -> D-glycerate + NAD+ *\ - \* r2442a, D-glycerate + NAD+ -> tartronate semialdehyde + NADH + H+ *\ - \* r1933, tartronate semialdehyde + NAD(P)H + H+ -> D-glycerate + NAD(P)+ *\ - \* r1932, tartronate semialdehyde + NAD(P)H + H+ -> D-glycerate + NAD(P)+ *\ - \* r1910b, tartronate semialdehyde -> hydroxypyruvate *\ - \* r1910a, hydroxypyruvate -> tartronate semialdehyde *\ - \* r1621, 2 glyoxylate + H+ -> CO2 + tartronate semialdehyde *\ - \* r1148b, pyruvate + tartronate semialdehyde -> 5-dehydro-4-deoxy-D-glucarate *\ - \* r1148a, 5-dehydro-4-deoxy-D-glucarate -> pyruvate + tartronate semialdehyde *\ - - -1.0 r2442b + r2442a -1.0 r1933 -1.0 r1932 -1.0 r1910b + r1910a + r1621 -1.0 r1148b + r1148a = 0 - -c1792: \* 2-OCTAPRENYL-6-HYDROXYPHENOL[CCO-CYTOSOL] *\ - \* r2124, 2-octaprenylphenol + NADPH + oxygen + H+ -> 3-(all-trans-octaprenyl)benzene-1,2-diol + NADP+ + H2O *\ - \* r1526, 3-(all-trans-octaprenyl)benzene-1,2-diol + S-adenosyl-L-methionine -> 2-methoxy-6-(all-trans-octaprenyl)phenol + S-adenosyl-L-homocysteine + H+ *\ - - + r2124 -1.0 r1526 = 0 - -c1059: \* 10-FORMYL-THF[CCO-CYTOSOL] *\ - \* r748a, an N10-formyl-tetrahydrofolate + N1-(5-phospho-beta-D-ribosyl)glycinamide -> a tetrahydrofolate + N2-formyl-N1-(5-phospho-beta-D-ribosyl)glycinamide + H+ *\ - \* r748b, a tetrahydrofolate + N2-formyl-N1-(5-phospho-beta-D-ribosyl)glycinamide + H+ -> an N10-formyl-tetrahydrofolate + N1-(5-phospho-beta-D-ribosyl)glycinamide *\ - \* r1328, an N10-formyl-tetrahydrofolate + H2O -> a tetrahydrofolate + formate + H+ *\ - \* r1872a, an N10-formyl-tetrahydrofolate + 5-amino-1-(5-phospho-D-ribosyl)imidazole-4-carboxamide -> a tetrahydrofolate + 5-formamido-1-(5-phospho-D-ribosyl)-imidazole-4-carboxamide *\ - \* r1872b, a tetrahydrofolate + 5-formamido-1-(5-phospho-D-ribosyl)-imidazole-4-carboxamide -> an N10-formyl-tetrahydrofolate + 5-amino-1-(5-phospho-D-ribosyl)imidazole-4-carboxamide *\ - \* r2157a, a 5,10-methenyltetrahydrofolate + H2O -> an N10-formyl-tetrahydrofolate + H+ *\ - \* r2157b, an N10-formyl-tetrahydrofolate + H+ -> a 5,10-methenyltetrahydrofolate + H2O *\ - \* r2250, an N10-formyl-tetrahydrofolate + an L-methionyl-[initiator tRNAmet] -> a tetrahydrofolate + an N-formyl-L-methionyl-[initiator tRNAmet] *\ - \* objReactionName, 10-formyl-tetrahydrofolate mono-L-glutamate *\ - - -1.0 r748a + r748b -1.0 r1328 -1.0 r1872a + r1872b + r2157a -1.0 r2157b -1.0 r2250 -0.00021 objReactionName = 0 - -c632: \* CPD-298[CCO-PERI-BAC] *\ - \* r355, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - - + r355 = 0 - -c625: \* N-ALPHA-ACETYLORNITHINE[CCO-CYTOSOL] *\ - \* r1463, N-acetyl-L-ornithine + H2O -> L-ornithine + acetate *\ - \* r831, N-acetyl-L-glutamate 5-semialdehyde + L-glutamate -> N-acetyl-L-ornithine + 2-oxoglutarate *\ - \* r352, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - - -1.0 r1463 + r831 -1.0 r352 = 0 - -c1231: \* BENZALDEHYDE[CCO-CYTOSOL] *\ - \* r875a, L-threo-3-phenylserine -> benzaldehyde + glycine *\ - \* r875b, benzaldehyde + glycine -> L-threo-3-phenylserine *\ - - + r875a -1.0 r875b = 0 - -c1416: \* DIHYDROXYPENTANEDIONE[CCO-CYTOSOL] *\ - \* r1593, autoinducer 2 -> (2R,4S)-2-methyl-2,4-dihydroxydihydrofuran-3-one *\ - \* r1907, S-ribosyl-L-homocysteine -> L-homocysteine + autoinducer 2 *\ - \* r2137, autoinducer 2 + ATP -> (4S)-4-hydroxy-2,3-pentanedione 5-phosphate + ADP + H+ *\ - - -1.0 r1593 + r1907 -1.0 r2137 = 0 - -c608: \* CPD-9300[CCO-PERI-BAC] *\ - \* r340, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - - + r340 = 0 - -c237: \* MET[CCO-PERI-BAC] *\ - \* r430, L-methionine[cytosol] + H+[periplasmic space] -> L-methionine[periplasmic space] + H+[cytosol] *\ - \* r325, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - \* r120, ATP + L-methionine[periplasmic space] + H2O -> ADP + L-methionine[cytosol] + phosphate + H+ *\ - - + r430 + r325 -1.0 r120 = 0 - -c156: \* ILE[CCO-CYTOSOL] *\ - \* r2147, a tRNAile + L-isoleucine + ATP + H+ -> an L-isoleucyl-[tRNAile] + AMP + diphosphate *\ - \* r1298b, (S)-3-methyl-2-oxopentanoate + L-glutamate -> L-isoleucine + 2-oxoglutarate *\ - \* r1298a, L-isoleucine + 2-oxoglutarate -> (S)-3-methyl-2-oxopentanoate + L-glutamate *\ - \* r493, Na+[periplasmic space] + L-isoleucine[periplasmic space] -> Na+[cytosol] + L-isoleucine[cytosol] *\ - \* r336, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - \* r77, ATP + L-isoleucine[periplasmic space] + H2O -> ADP + L-isoleucine[cytosol] + phosphate + H+ *\ - - -1.0 r2147 + r1298b -1.0 r1298a + r493 -1.0 r336 + r77 = 0 - -c1017: \* CROTONYL-COA[CCO-CYTOSOL] *\ - \* r1913, a 2,3,4-saturated fatty acyl CoA + NADP+ -> a trans-2-enoyl-CoA + NADPH + H+ *\ - \* r1776, a 2,3,4-saturated fatty acyl CoA + an oxidized electron-transfer flavoprotein + H+ -> a trans-2-enoyl-CoA + a reduced electron-transfer flavoprotein *\ - \* r1412b, a trans-2-enoyl-CoA -> a cis-3-enoyl-CoA *\ - \* r1412a, a cis-3-enoyl-CoA -> a trans-2-enoyl-CoA *\ - \* r955b, crotonyl-CoA + H2O -> (R)-3-hydroxybutanoyl-CoA *\ - \* r955a, (R)-3-hydroxybutanoyl-CoA -> crotonyl-CoA + H2O *\ - \* r725, a trans-2-enoyl-CoA + H2O -> a (3S)-3-hydroxyacyl-CoA *\ - - + r1913 + r1776 -1.0 r1412b + r1412a -1.0 r955b + r955a -1.0 r725 = 0 - -c26: \* CPD0-1551[CCO-CYTOSOL] *\ - \* r14b, DL-glyceraldehyde[cytosol] -> DL-glyceraldehyde[periplasmic space] *\ - \* r14a, DL-glyceraldehyde[periplasmic space] -> DL-glyceraldehyde[cytosol] *\ - - -1.0 r14b + r14a = 0 - -c482: \* PHOSPHATIDYLETHANOLAMINE-KDO2[CCO-EXTRACELLULAR] *\ - \* r250, a lipopolysaccharide[cytosol] -> a lipopolysaccharide[extracellular space] *\ - - + r250 = 0 - -c1099: \* GLYCOLALDEHYDE[CCO-CYTOSOL] *\ - \* r2504_e, glycolaldehyde *\ - \* r2359b, glycolaldehyde + glycine -> 4-hydroxy-L-threonine *\ - \* r2359a, 4-hydroxy-L-threonine -> glycolaldehyde + glycine *\ - \* r2041b, glycolaldehyde + NADH + H+ -> ethylene glycol + NAD+ *\ - \* r2041a, ethylene glycol + NAD+ -> glycolaldehyde + NADH + H+ *\ - \* r1950, isethionate + FMNH2 + oxygen -> glycolaldehyde + sulfite + FMN + H2O + 2 H+ *\ - \* r1502, an alkylsulfonate + FMNH2 + oxygen -> an aldehyde + sulfite + FMN + H2O + 2 H+ *\ - \* r1360b, glycolaldehyde + pyruvate -> 2-dehydro-3-deoxy-D-arabinonate *\ - \* r1360a, 2-dehydro-3-deoxy-D-arabinonate -> glycolaldehyde + pyruvate *\ - \* r889b, glycolaldehyde + glycerone phosphate -> D-ribulose 1-phosphate *\ - \* r889a, D-ribulose 1-phosphate -> glycolaldehyde + glycerone phosphate *\ - \* r787, 7,8-dihydroneopterin -> glycolaldehyde + 6-hydroxymethyl-7,8-dihydropterin *\ - \* r776, glycolaldehyde + NAD+ + H2O -> glycolate + NADH + 2 H+ *\ - - -1.0 r2504_e -1.0 r2359b + r2359a -1.0 r2041b + r2041a + r1950 + r1502 -1.0 r1360b + r1360a -1.0 r889b + r889a + r787 -1.0 r776 = 0 - -c357: \* L-GAMMA-GLUTAMYLCYSTEINE[CCO-CYTOSOL] *\ - \* r1435, glycine + gamma-L-glutamyl-L-cysteine + ATP -> glutathione + ADP + phosphate + H+ *\ - \* r766, L-cysteine + L-glutamate + ATP -> gamma-L-glutamyl-L-cysteine + ADP + phosphate + H+ *\ - \* r556, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r181, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - - -1.0 r1435 + r766 + r556 + r181 = 0 - -c128: \* CYS[CCO-PERI-BAC] *\ - \* r551b, L-cysteine[periplasmic space] -> L-cysteine[cytosol] *\ - \* r551a, L-cysteine[cytosol] -> L-cysteine[periplasmic space] *\ - \* r324, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - \* r136, L-cysteine[periplasmic space] + ATP + H2O -> L-cysteine[cytosol] + ADP + phosphate + H+ *\ - \* r63, L-cysteine[cytosol] + ATP + H2O -> L-cysteine[periplasmic space] + ADP + phosphate + H+ *\ - - -1.0 r551b + r551a + r324 -1.0 r136 + r63 = 0 - -c1247: \* OXALYL-COA[CCO-CYTOSOL] *\ - \* r1198b, CO2 + formyl-CoA -> oxalyl-CoA + H+ *\ - \* r1198a, oxalyl-CoA + H+ -> CO2 + formyl-CoA *\ - \* r1038b, oxalyl-CoA + acetate -> acetyl-CoA + oxalate *\ - \* r1038a, acetyl-CoA + oxalate -> oxalyl-CoA + acetate *\ - \* r886b, formate + oxalyl-CoA -> formyl-CoA + oxalate *\ - \* r886a, formyl-CoA + oxalate -> formate + oxalyl-CoA *\ - - + r1198b -1.0 r1198a -1.0 r1038b + r1038a -1.0 r886b + r886a = 0 - -c2073: \* HYDROXYMETHYLBILANE[CCO-CYTOSOL] *\ - \* r1986, 4 porphobilinogen + H2O -> 4 ammonium + hydroxymethylbilane *\ - \* r2209, hydroxymethylbilane -> uroporphyrinogen-III + H2O *\ - - + r1986 -1.0 r2209 = 0 - -c1867: \* Charged-GLT-tRNAs[CCO-CYTOSOL] *\ - \* objReactionName, an L-glutamyl-[tRNAGlu] *\ - \* r1747, tRNAGlu + L-glutamate + ATP + H+ -> an L-glutamyl-[tRNAGlu] + AMP + diphosphate *\ - \* r1614, an L-glutamyl-[tRNAGlu] + NADPH -> (S)-4-amino-5-oxopentanoate + tRNAGlu + NADP+ *\ - - -0.255712 objReactionName + r1747 -1.0 r1614 = 0 - -c1648: \* 16S-rRNA-cytidine1402[CCO-CYTOSOL] *\ - \* r1829, S-adenosyl-L-methionine + cytidine1402 in 16S rRNA -> S-adenosyl-L-homocysteine + 2'-O-methylcytidine1402 in 16S rRNA + H+ *\ - \* objReactionName, cytidine1402 in 16S rRNA *\ - - -1.0 r1829 +0.00001 objReactionName = 0 - -c1226: \* L-DELTA1-PYRROLINE_5-CARBOXYLATE[CCO-CYTOSOL] *\ - \* r2099b, L-glutamate-5-semialdehyde -> (S)-1-pyrroline-5-carboxylate + H+ + H2O *\ - \* r2099a, (S)-1-pyrroline-5-carboxylate + H+ + H2O -> L-glutamate-5-semialdehyde *\ - \* r2096, (S)-1-pyrroline-5-carboxylate + NAD(P)H + 2 H+ -> L-proline + NAD(P)+ *\ - \* r2095, (S)-1-pyrroline-5-carboxylate + NAD(P)H + 2 H+ -> L-proline + NAD(P)+ *\ - \* r894, (S)-1-pyrroline-5-carboxylate + NAD+ + 2 H2O -> L-glutamate + NADH + H+ *\ - \* r864, L-proline + an ubiquinone[inner membrane] -> (S)-1-pyrroline-5-carboxylate + an ubiquinol[inner membrane] + H+ *\ - - + r2099b -1.0 r2099a -1.0 r2096 -1.0 r2095 -1.0 r894 + r864 = 0 - -c1090: \* DADP[CCO-CYTOSOL] *\ - \* r2267, a nucleoside diphosphate + H2O -> a nucleoside 5'-monophosphate + phosphate + H+ *\ - \* r1182, a nucleoside diphosphate + ATP -> a nucleoside triphosphate + ADP *\ - \* r969, ADP + a reduced NrdH glutaredoxin-like protein -> dADP + an oxidized NrdH glutaredoxin-like protein + H2O *\ - \* r898, dADP + ATP -> dATP + ADP *\ - \* r770, a reduced thioredoxin + a ribonucleoside diphosphate -> an oxidized thioredoxin + a 2'-deoxyribonucleoside 5'-diphosphate + H2O *\ - - -1.0 r2267 -1.0 r1182 + r969 -1.0 r898 + r770 = 0 - -c288: \* NADP[CCO-CYTOSOL] *\ - \* objReactionName, NADP+ *\ - \* r2440, GMP + NADPH + 2 H+ -> ammonium + IMP + NADP+ *\ - \* r2435, 2-dehydropantoate + NADPH + H+ -> (R)-pantoate + NADP+ *\ - \* r2417b, aminoacetone + CO2 + NADPH -> L-allo-threonine + NADP+ *\ - \* r2417a, L-allo-threonine + NADP+ -> aminoacetone + CO2 + NADPH *\ - \* r2414b, 3-oxo-5,6-didehydrosuberyl-CoA + NADPH + 2 H+ -> 2-oxepin-2(3H)-ylideneacetyl-CoA + NADP+ + 2 H2O *\ - \* r2414a, 2-oxepin-2(3H)-ylideneacetyl-CoA + NADP+ + 2 H2O -> 3-oxo-5,6-didehydrosuberyl-CoA + NADPH + 2 H+ *\ - \* r2413, D-threo-isocitrate + NADP+ -> 2-oxoglutarate + CO2 + NADPH *\ - \* r2408, L-glutamine + 2-oxoglutarate + NADPH + H+ -> 2 L-glutamate + NADP+ *\ - \* r2403b, 1-deoxy-D-xylulose 5-phosphate + NADPH + H+ -> 2-C-methyl-D-erythritol 4-phosphate + NADP+ *\ - \* r2403a, 2-C-methyl-D-erythritol 4-phosphate + NADP+ -> 1-deoxy-D-xylulose 5-phosphate + NADPH + H+ *\ - \* r2395, succinate semialdehyde + NADP+ + H2O -> succinate + NADPH + 2 H+ *\ - \* r2374b, 3-dehydroquinate + NAD(P)H + H+ -> L-quinate + NAD(P)+ *\ - \* r2374a, L-quinate + NAD(P)+ -> 3-dehydroquinate + NAD(P)H + H+ *\ - \* r2369, NADP+ + H2O -> NAD+ + phosphate *\ - \* r2332, glyoxylate + NADPH + H+ -> glycolate + NADP+ *\ - \* r2326b, 4-nitrobenzaldehyde + NADPH + H+ -> 4-nitrobenzyl alcohol + NADP+ *\ - \* r2326a, 4-nitrobenzyl alcohol + NADP+ -> 4-nitrobenzaldehyde + NADPH + H+ *\ - \* r2321, beta-D-glucose 6-phosphate + NADP+ -> 6-phospho D-glucono-1,5-lactone + NADPH + H+ *\ - \* r2314b, FMN + NAD(P)H + 2 H+ -> FMNH2 + NAD(P)+ *\ - \* r2314a, FMNH2 + NAD(P)+ -> FMN + NAD(P)H + 2 H+ *\ - \* r2294, 1-hydroxy-2-methyl-2-(E)-butenyl 4-diphosphate + NAD(P)H + H+ -> dimethylallyl diphosphate + NAD(P)+ + H2O *\ - \* r2291b, oxalosuccinate + NADPH + H+ -> D-threo-isocitrate + NADP+ *\ - \* r2291a, D-threo-isocitrate + NADP+ -> oxalosuccinate + NADPH + H+ *\ - \* r2248b, (S)-2-acetolactate + NADPH + H+ -> (R)-2,3-dihydroxy-3-methylbutanoate + NADP+ *\ - \* r2248a, (R)-2,3-dihydroxy-3-methylbutanoate + NADP+ -> (S)-2-acetolactate + NADPH + H+ *\ - \* r2247, (S)-malate + NADP+ -> CO2 + pyruvate + NADPH *\ - \* r2212b, 2-keto-L-gulonate + NAD(P)+ -> 2,5-didehydro-D-gluconate + NAD(P)H + H+ *\ - \* r2212a, 2,5-didehydro-D-gluconate + NAD(P)H + H+ -> 2-keto-L-gulonate + NAD(P)+ *\ - \* r2202, acetaldehyde + NADP+ + H2O -> acetate + NADPH + 2 H+ *\ - \* r2189b, 2 a semiquinone + NADP+ -> 2 a quinone + NADPH + H+ *\ - \* r2189a, 2 a quinone + NADPH + H+ -> 2 a semiquinone + NADP+ *\ - \* r2167b, S-formylglutathione + NAD(P)H + H+ -> S-hydroxymethylglutathione + NAD(P)+ *\ - \* r2167a, S-hydroxymethylglutathione + NAD(P)+ -> S-formylglutathione + NAD(P)H + H+ *\ - \* r2124, 2-octaprenylphenol + NADPH + oxygen + H+ -> 3-(all-trans-octaprenyl)benzene-1,2-diol + NADP+ + H2O *\ - \* r2096, (S)-1-pyrroline-5-carboxylate + NAD(P)H + 2 H+ -> L-proline + NAD(P)+ *\ - \* r2075b, (R)-lactaldehyde + NADPH + H+ -> (R)-propane-1,2-diol + NADP+ *\ - \* r2075a, (R)-propane-1,2-diol + NADP+ -> (R)-lactaldehyde + NADPH + H+ *\ - \* r2038, 2-methoxy-6-(all-trans-octaprenyl)phenol + NADPH + oxygen + H+ -> 2-methoxy-6-all trans-octaprenyl-2-methoxy-1,4-benzoquinol + NADP+ + H2O *\ - \* r2036b, riboflavin + NAD(P)H + 2 H+ -> reduced riboflavin + NAD(P)+ *\ - \* r2036a, reduced riboflavin + NAD(P)+ -> riboflavin + NAD(P)H + 2 H+ *\ - \* r2007b, NADH + NADP+ -> NADPH + NAD+ *\ - \* r2007a, NADPH + NAD+ -> NADH + NADP+ *\ - \* r1944, glutathione disulfide + NADPH + H+ -> 2 glutathione + NADP+ *\ - \* r1941, 2-keto-D-gluconate + NADPH + H+ -> D-gluconate + NADP+ *\ - \* r1933, tartronate semialdehyde + NAD(P)H + H+ -> D-glycerate + NAD(P)+ *\ - \* r1919, a 2,3,4-saturated fatty acyl CoA + NADP+ -> a trans-2-enoyl-CoA + NADPH + H+ *\ - \* r1918, a 2,3,4-saturated fatty acyl CoA + NADP+ -> a trans-2-enoyl-CoA + NADPH + H+ *\ - \* r1917, a 2,3,4-saturated fatty acyl CoA + NADP+ -> a trans-2-enoyl-CoA + NADPH + H+ *\ - \* r1916, a 2,3,4-saturated fatty acyl CoA + NADP+ -> a trans-2-enoyl-CoA + NADPH + H+ *\ - \* r1915, a 2,3,4-saturated fatty acyl CoA + NADP+ -> a trans-2-enoyl-CoA + NADPH + H+ *\ - \* r1914, a 2,3,4-saturated fatty acyl CoA + NADP+ -> a trans-2-enoyl-CoA + NADPH + H+ *\ - \* r1913, a 2,3,4-saturated fatty acyl CoA + NADP+ -> a trans-2-enoyl-CoA + NADPH + H+ *\ - \* r1906, NADPH + an electron-transfer quinone[inner membrane] + H+ -> NADP+ + an electron-transfer quinol[inner membrane] *\ - \* r1905, NADPH + an electron-transfer quinone[inner membrane] + H+ -> NADP+ + an electron-transfer quinol[inner membrane] *\ - \* r1899b, 3-dehydroshikimate + NADPH + H+ -> shikimate + NADP+ *\ - \* r1899a, shikimate + NADP+ -> 3-dehydroshikimate + NADPH + H+ *\ - \* r1892, L-glutamate + ATP + NADPH + H+ -> ADP + L-glutamate-5-semialdehyde + NADP+ + phosphate *\ - \* r1885b, L-aspartyl-4-phosphate + NADPH + H+ -> L-aspartate-semialdehyde + NADP+ + phosphate *\ - \* r1885a, L-aspartate-semialdehyde + NADP+ + phosphate -> L-aspartyl-4-phosphate + NADPH + H+ *\ - \* r1883, 3-dehydroshikimate + NAD(P)H + H+ -> shikimate + NAD(P)+ *\ - \* r1819, 5-amino-6-(5-phospho-D-ribosylamino)uracil + NADPH + H+ -> 5-amino-6-(5-phospho-D-ribitylamino)uracil + NADP+ *\ - \* r1803, D-gluconate 6-phosphate + NADP+ -> D-ribulose 5-phosphate + CO2 + NADPH *\ - \* r1788b, 2-amino-3-oxobutanoate + NADPH + H+ -> L-allo-threonine + NADP+ *\ - \* r1788a, L-allo-threonine + NADP+ -> 2-amino-3-oxobutanoate + NADPH + H+ *\ - \* r1775b, a 5,10-methenyltetrahydrofolate + NADPH -> a 5,10-methylene-tetrahydrofolate + NADP+ *\ - \* r1775a, a 5,10-methylene-tetrahydrofolate + NADP+ -> a 5,10-methenyltetrahydrofolate + NADPH *\ - \* r1752, glycerone phosphate + NAD(P)H + H+ -> sn-glycerol 3-phosphate + NAD(P)+ *\ - \* r1705, 2,5-didehydro-D-gluconate + NADPH + H+ -> 2-keto-L-gulonate + NADP+ *\ - \* r1695, an aldehyde + NADP+ + H2O -> a carboxylate + NADPH + 2 H+ *\ - \* r1693, an aldehyde + NADP+ + H2O -> a carboxylate + NADPH + 2 H+ *\ - \* r1692, an aldehyde + NADP+ + H2O -> a carboxylate + NADPH + 2 H+ *\ - \* r1691, an aldehyde + NADP+ + H2O -> a carboxylate + NADPH + 2 H+ *\ - \* r1688, an electron-transfer quinone[inner membrane] + NAD(P)H + H+ -> an electron-transfer quinol[inner membrane] + NAD(P)+ *\ - \* r1686, an electron-transfer quinone[inner membrane] + NAD(P)H + H+ -> an electron-transfer quinol[inner membrane] + NAD(P)+ *\ - \* r1679, ATP + NAD+ -> ADP + NADP+ + H+ *\ - \* r1643, 1-hydroxy-2-methyl-2-(E)-butenyl 4-diphosphate + NAD(P)H + H+ -> isopentenyl diphosphate + NAD(P)+ + H2O *\ - \* r1614, an L-glutamyl-[tRNAGlu] + NADPH -> (S)-4-amino-5-oxopentanoate + tRNAGlu + NADP+ *\ - \* r1601, 4-(gamma-glutamylamino)butanal + NAD(P)+ + H2O -> 4-(gamma-L-glutamylamino)butanoate + NAD(P)H + 2 H+ *\ - \* r1597, L-tyrosine + S-adenosyl-L-methionine + NADPH -> 2-iminoacetate + 4-methylphenol + 5'-deoxyadenosine + L-methionine + NADP+ + H+ *\ - \* r1594, dTDP-4-dehydro-beta-L-rhamnose + NADPH + H+ -> dTDP-beta-L-rhamnose + NADP+ *\ - \* r1585, 3-oxo-5,6-didehydrosuberyl-CoA semialdehyde + NADP+ + H2O -> 3-oxo-5,6-didehydrosuberyl-CoA + NADPH + 2 H+ *\ - \* r1561b, (S)-lactaldehyde + NADPH + H+ -> (S)-propane-1,2-diol + NADP+ *\ - \* r1561a, (S)-propane-1,2-diol + NADP+ -> (S)-lactaldehyde + NADPH + H+ *\ - \* r1558b, N-acetylglutamyl-phosphate + NADPH + H+ -> N-acetyl-L-glutamate 5-semialdehyde + NADP+ + phosphate *\ - \* r1558a, N-acetyl-L-glutamate 5-semialdehyde + NADP+ + phosphate -> N-acetylglutamyl-phosphate + NADPH + H+ *\ - \* r1542, L-aspartate-semialdehyde + NAD(P)H + H+ -> L-homoserine + NAD(P)+ *\ - \* r1525b, ammonium + 2-oxoglutarate + NADPH + H+ -> L-glutamate + NADP+ + H2O *\ - \* r1525a, L-glutamate + NADP+ + H2O -> ammonium + 2-oxoglutarate + NADPH + H+ *\ - \* r1522, 2,5-didehydro-D-gluconate + NADPH + H+ -> 2-keto-D-gluconate + NADP+ *\ - \* r1521, 2,5-didehydro-D-gluconate + NADPH + H+ -> 5-dehydro-D-gluconate + NADP+ *\ - \* r1491b, ethyl-2-methylacetoacetate + NADPH + H+ -> ethyl-(2R)-methyl-(3S)-hydroxybutanoate + NADP+ *\ - \* r1491a, ethyl-(2R)-methyl-(3S)-hydroxybutanoate + NADP+ -> ethyl-2-methylacetoacetate + NADPH + H+ *\ - \* r1482b, acryloyl-CoA + NADPH + H+ -> propanoyl-CoA + NADP+ *\ - \* r1482a, propanoyl-CoA + NADP+ -> acryloyl-CoA + NADPH + H+ *\ - \* r1426b, methylglyoxal + NADPH + H+ -> acetol + NADP+ *\ - \* r1426a, acetol + NADP+ -> methylglyoxal + NADPH + H+ *\ - \* r1332, UDP-N-acetyl-alpha-D-glucosamine-enolpyruvate + NADPH + H+ -> UDP-N-acetyl-alpha-D-muramate + NADP+ *\ - \* r1308b, 3-oxo-L-alanine + NADPH + H+ -> L-serine + NADP+ *\ - \* r1308a, L-serine + NADP+ -> 3-oxo-L-alanine + NADPH + H+ *\ - \* r1282, riboflavin + NADPH + 2 H+ -> reduced riboflavin + NADP+ *\ - \* r1268, (S)-2-aceto-2-hydroxybutanoate + NADPH + H+ -> (R)-2,3-dihydroxy-3-methylpentanoate + NADP+ *\ - \* r1249, (2S,4S)-4-hydroxy-2,3,4,5-tetrahydrodipicolinate + NADPH + H+ -> (S)-2,3,4,5-tetrahydrodipicolinate + NADP+ + H2O *\ - \* r1226, hydroxypyruvate + NADPH + H+ -> D-glycerate + NADP+ *\ - \* r1206, 2-keto-L-gulonate + NADPH + H+ -> L-idonate + NADP+ *\ - \* r1191, a 3-oxo-cis-delta7-tetradecenoyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxy cis delta7-tetradecenoyl-[acp] + NADP+ *\ - \* r1162, a 3-oxo-pimeloyl-[acp] methyl ester + NADPH + H+ -> a (3R)-3-hydroxypimeloyl-[acp] methyl ester + NADP+ *\ - \* r1142, a 3-oxoacyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxyacyl-[acyl-carrier protein] + NADP+ *\ - \* r1141, a 3-oxoacyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxyacyl-[acyl-carrier protein] + NADP+ *\ - \* r1140, a 3-oxoacyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxyacyl-[acyl-carrier protein] + NADP+ *\ - \* r1139, a 3-oxoacyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxyacyl-[acyl-carrier protein] + NADP+ *\ - \* r1138, a 3-oxoacyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxyacyl-[acyl-carrier protein] + NADP+ *\ - \* r1137, a 3-oxoacyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxyacyl-[acyl-carrier protein] + NADP+ *\ - \* r1136, a 3-oxoacyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxyacyl-[acyl-carrier protein] + NADP+ *\ - \* r1114, a 3-oxo-octanoyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxyoctanoyl-[acp] + NADP+ *\ - \* r1104b, a reduced flavodoxin + NADP+ -> an oxidized flavodoxin + NADPH + H+ *\ - \* r1104a, an oxidized flavodoxin + NADPH + H+ -> a reduced flavodoxin + NADP+ *\ - \* r1101, gamma-L-glutamyl 5-phosphate + NADPH + H+ -> L-glutamate-5-semialdehyde + NADP+ + phosphate *\ - \* r1086, a 3-oxo-hexanoyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxyhexanoyl-[acp] + NADP+ *\ - \* r1061, a 3-oxo-palmitoyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxypalmitoyl-[acp] + NADP+ *\ - \* r1058, phenylacetyl-CoA + NADPH + oxygen + H+ -> 2-(1,2-epoxy-1,2-dihydrophenyl)acetyl-CoA + NADP+ + H2O *\ - \* r1057, a 3-oxo-cis-delta9-hexadecenoyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxy cis delta9-hexadecenoyl-[acp] + NADP+ *\ - \* r1044b, isobutanal + NADPH + H+ -> isobutanol + NADP+ *\ - \* r1044a, isobutanol + NADP+ -> isobutanal + NADPH + H+ *\ - \* r1033, a 3-oxo-myristoyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxymyristoyl-[acp] + NADP+ *\ - \* r999, a 3-oxo-dodecanoyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxydodecanoyl-[acp] + NADP+ *\ - \* r932, methylglyoxal + NADPH + H+ -> (S)-lactaldehyde + NADP+ *\ - \* r930b, L-idonate + NADP+ -> 2-keto-D-gluconate + NADPH + H+ *\ - \* r930a, 2-keto-D-gluconate + NADPH + H+ -> L-idonate + NADP+ *\ - \* r920, an oxidized thioredoxin + NADPH + H+ -> a reduced thioredoxin + NADP+ *\ - \* r908, an acetoacetyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxybutanoyl-[acp] + NADP+ *\ - \* r902, a 7,8-dihydrofolate + NADPH + H+ -> a tetrahydrofolate + NADP+ *\ - \* r871, a trans-2-enoyl-[acyl-carrier protein] + NADPH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NADP+ *\ - \* r870, a trans-2-enoyl-[acyl-carrier protein] + NADPH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NADP+ *\ - \* r869, a trans-2-enoyl-[acyl-carrier protein] + NADPH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NADP+ *\ - \* r868, a trans-2-enoyl-[acyl-carrier protein] + NADPH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NADP+ *\ - \* r867, a trans-2-enoyl-[acyl-carrier protein] + NADPH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NADP+ *\ - \* r866, a trans-2-enoyl-[acyl-carrier protein] + NADPH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NADP+ *\ - \* r865, a trans-2-enoyl-[acyl-carrier protein] + NADPH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NADP+ *\ - \* r811, a 3-oxo-decanoyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxydecanoyl-[acp] + NADP+ *\ - \* r798b, methyl-1,4-benzoquinol + 2 NADP+ -> methyl-1,4-benzoquinone + 2 NADPH + 2 H+ *\ - \* r798a, methyl-1,4-benzoquinone + 2 NADPH + 2 H+ -> methyl-1,4-benzoquinol + 2 NADP+ *\ - \* r773, a 3-oxo-glutaryl-[acp] methyl ester + NADPH + H+ -> a (3R)-3-hydroxyglutaryl-[acp] methyl ester + NADP+ *\ - \* r764, NADPH + FMN + 2 H+ -> NADP+ + FMNH2 *\ - \* r761b, 5-dehydro-D-gluconate + NAD(P)H + H+ -> L-idonate + NAD(P)+ *\ - \* r761a, L-idonate + NAD(P)+ -> 5-dehydro-D-gluconate + NAD(P)H + H+ *\ - \* r756b, 5-dehydro-D-gluconate + NAD(P)H + H+ -> D-gluconate + NAD(P)+ *\ - \* r756a, D-gluconate + NAD(P)+ -> 5-dehydro-D-gluconate + NAD(P)H + H+ *\ - \* r717, sulfite + 3 NADPH + 5 H+ -> hydrogen sulfide + 3 NADP+ + 3 H2O *\ - \* r711, a 3-oxo-cis-delta5-dodecenoyl-[acp] + NADPH + H+ -> a (3R)-hydroxy cis delta5-dodecenoyl-[acp] + NADP+ *\ - \* r146, NADH + NADP+ + H+[periplasmic space] -> NADPH + NAD+ + H+[cytosol] *\ - - -0.000447 objReactionName + r2440 + r2435 + r2417b -1.0 r2417a + r2414b -1.0 r2414a -1.0 r2413 + r2408 + r2403b -1.0 r2403a -1.0 r2395 + r2374b -1.0 r2374a -1.0 r2369 + r2332 + r2326b -1.0 r2326a -1.0 r2321 - + r2314b -1.0 r2314a + r2294 + r2291b -1.0 r2291a + r2248b -1.0 r2248a -1.0 r2247 -1.0 r2212b + r2212a -1.0 r2202 -1.0 r2189b + r2189a + r2167b -1.0 r2167a + r2124 + r2096 + r2075b -1.0 r2075a + r2038 - + r2036b -1.0 r2036a -1.0 r2007b + r2007a + r1944 + r1941 + r1933 -1.0 r1919 -1.0 r1918 -1.0 r1917 -1.0 r1916 -1.0 r1915 -1.0 r1914 -1.0 r1913 + r1906 + r1905 + r1899b -1.0 r1899a + r1892 + r1885b - -1.0 r1885a + r1883 + r1819 -1.0 r1803 + r1788b -1.0 r1788a + r1775b -1.0 r1775a + r1752 + r1705 -1.0 r1695 -1.0 r1693 -1.0 r1692 -1.0 r1691 + r1688 + r1686 + r1679 + r1643 + r1614 -1.0 r1601 - + r1597 + r1594 -1.0 r1585 + r1561b -1.0 r1561a + r1558b -1.0 r1558a + r1542 + r1525b -1.0 r1525a + r1522 + r1521 + r1491b -1.0 r1491a + r1482b -1.0 r1482a + r1426b -1.0 r1426a + r1332 + r1308b - -1.0 r1308a + r1282 + r1268 + r1249 + r1226 + r1206 + r1191 + r1162 + r1142 + r1141 + r1140 + r1139 + r1138 + r1137 + r1136 + r1114 -1.0 r1104b + r1104a + r1101 + r1086 - + r1061 + r1058 + r1057 + r1044b -1.0 r1044a + r1033 + r999 + r932 -1.0 r930b + r930a + r920 + r908 + r902 + r871 + r870 + r869 + r868 + r867 + r866 + r865 - + r811 -2.0 r798b +2.0 r798a + r773 + r764 + r761b -1.0 r761a + r756b -1.0 r756a +3.0 r717 + r711 -1.0 r146 = 0 - -c1041: \* D-CYSTEINE[CCO-CYTOSOL] *\ - \* r1858b, glutathione disulfide + 2 D-cysteine -> D-cystine + 2 glutathione *\ - \* r1858a, D-cystine + 2 glutathione -> glutathione disulfide + 2 D-cysteine *\ - \* r1217, D-cysteine + H2O -> ammonium + pyruvate + hydrogen sulfide *\ - \* r739, a reduced thioredoxin + D-cystine -> an oxidized thioredoxin + 2 D-cysteine *\ - - -2.0 r1858b +2.0 r1858a -1.0 r1217 +2.0 r739 = 0 - -c329: \* XYLOSE[CCO-CYTOSOL] *\ - \* r167, ATP + D-xylose[periplasmic space] + H2O -> ADP + D-xylose[cytosol] + phosphate + H+ *\ - \* r591, D-xylose[periplasmic space] + H+[periplasmic space] -> D-xylose[cytosol] + H+[cytosol] *\ - - + r167 + r591 = 0 - -c651: \* XANTHINE[CCO-CYTOSOL] *\ - \* r2430, xanthine + 5-phospho-alpha-D-ribose 1-diphosphate -> XMP + diphosphate *\ - \* r2423, xanthosine + H2O -> D-ribofuranose + xanthine *\ - \* r2337, guanine + H+ + H2O -> ammonium + xanthine *\ - \* r1940, xanthosine + phosphate -> alpha-D-ribose-1-phosphate + xanthine *\ - \* r1702, hypoxanthine + NAD+ + H2O -> xanthine + NADH + H+ *\ - \* r508, xanthine[periplasmic space] + H+[periplasmic space] -> xanthine[cytosol] + H+[cytosol] *\ - \* r369, xanthine[cytosol] -> xanthine[periplasmic space] *\ - - -1.0 r2430 + r2423 + r2337 + r1940 + r1702 + r508 -1.0 r369 = 0 - -c2122: \* ILE-tRNAs[CCO-CYTOSOL] *\ - \* objReactionName, a tRNAile *\ - \* r2147, a tRNAile + L-isoleucine + ATP + H+ -> an L-isoleucyl-[tRNAile] + AMP + diphosphate *\ - - +0.282306 objReactionName -1.0 r2147 = 0 - -c2018: \* Charged-HIS-tRNAs[CCO-CYTOSOL] *\ - \* objReactionName, an L-histidyl-[tRNAhis] *\ - \* r1854, a tRNAhis + L-histidine + ATP + H+ -> an L-histidyl-[tRNAhis] + AMP + diphosphate *\ - - -0.092056 objReactionName + r1854 = 0 - -c25: \* CPD0-1551[CCO-PERI-BAC] *\ - \* r14b, DL-glyceraldehyde[cytosol] -> DL-glyceraldehyde[periplasmic space] *\ - \* r14a, DL-glyceraldehyde[periplasmic space] -> DL-glyceraldehyde[cytosol] *\ - - + r14b -1.0 r14a = 0 - -c1336: \* CPD0-1163[CCO-CYTOSOL] *\ - \* r1453b, 3-keto-5-cis-tetradecenoyl-CoA + NADH + H+ -> 3-hydroxy-5-cis-tetradecenoyl-CoA + NAD+ *\ - \* r1453a, 3-hydroxy-5-cis-tetradecenoyl-CoA + NAD+ -> 3-keto-5-cis-tetradecenoyl-CoA + NADH + H+ *\ - \* r963, 2-trans,5-cis-tetradecadienoyl-CoA + H2O -> 3-hydroxy-5-cis-tetradecenoyl-CoA *\ - - + r1453b -1.0 r1453a + r963 = 0 - -c1928: \* P-RIBOSYL-4-SUCCCARB-AMINOIMIDAZOLE[CCO-CYTOSOL] *\ - \* r2362, 5'-phosphoribosyl-4-(N-succinocarboxamide)-5-aminoimidazole -> fumarate + 5-amino-1-(5-phospho-D-ribosyl)imidazole-4-carboxamide *\ - \* r1721, ATP + 5-amino-1-(5-phospho-D-ribosyl)imidazole-4-carboxylate + L-aspartate -> ADP + 5'-phosphoribosyl-4-(N-succinocarboxamide)-5-aminoimidazole + phosphate + H+ *\ - - -1.0 r2362 + r1721 = 0 - -c1335: \* CPD0-1162[CCO-CYTOSOL] *\ - \* r1539b, 3-trans,5-cis-tetradecadienoyl-CoA -> 2-trans,5-cis-tetradecadienoyl-CoA *\ - \* r1539a, 2-trans,5-cis-tetradecadienoyl-CoA -> 3-trans,5-cis-tetradecadienoyl-CoA *\ - \* r963, 2-trans,5-cis-tetradecadienoyl-CoA + H2O -> 3-hydroxy-5-cis-tetradecenoyl-CoA *\ - - + r1539b -1.0 r1539a -1.0 r963 = 0 - -c364: \* CPD0-1944[CCO-PERI-BAC] *\ - \* r560, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r185, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - - -1.0 r560 -1.0 r185 = 0 - -c161: \* LYS[CCO-PERI-BAC] *\ - \* r637, L-lysine[periplasmic space] + H+[periplasmic space] -> L-lysine[cytosol] + H+[cytosol] *\ - \* r459, cadaverine[cytosol] + L-lysine[periplasmic space] -> cadaverine[periplasmic space] + L-lysine[cytosol] *\ - \* r333, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - \* r81, L-lysine[periplasmic space] + ATP + H2O -> L-lysine[cytosol] + ADP + phosphate + H+ *\ - - -1.0 r637 -1.0 r459 + r333 -1.0 r81 = 0 - -c737: \* CPD-216[CCO-PERI-BAC] *\ - \* r455, an aromatic amino acid[cytosol] -> an aromatic amino acid[periplasmic space] *\ - - + r455 = 0 - -c1272: \* Reduced-flavodoxins[CCO-CYTOSOL] *\ - \* r2163, 2-C-methyl-D-erythritol-2,4-cyclodiphosphate + a reduced flavodoxin -> 1-hydroxy-2-methyl-2-(E)-butenyl 4-diphosphate + an oxidized flavodoxin + H2O + H+ *\ - \* r1104b, a reduced flavodoxin + NADP+ -> an oxidized flavodoxin + NADPH + H+ *\ - \* r1104a, an oxidized flavodoxin + NADPH + H+ -> a reduced flavodoxin + NADP+ *\ - \* r904b, acetyl-CoA + CO2 + a reduced flavodoxin -> pyruvate + an oxidized flavodoxin + coenzyme A + H+ *\ - \* r904a, pyruvate + an oxidized flavodoxin + coenzyme A + H+ -> acetyl-CoA + CO2 + a reduced flavodoxin *\ - - -1.0 r2163 -1.0 r1104b + r1104a -1.0 r904b + r904a = 0 - -c982: \* Lipoyl-Protein-N6-lipoyllysine[CCO-CYTOSOL] *\ - \* r788a, a [lipoyl-carrier protein] N6-dihydrolipoyl-L-lysine + NAD+ -> a [lipoyl-carrier protein] N6-lipoyl-L-lysine + NADH + H+ *\ - \* r788b, a [lipoyl-carrier protein] N6-lipoyl-L-lysine + NADH + H+ -> a [lipoyl-carrier protein] N6-dihydrolipoyl-L-lysine + NAD+ *\ - \* r1204, a [lipoyl-carrier protein] N6-octanoyl-L-lysine + 2 S-adenosyl-L-methionine + 2 a sulfurated [sulfur carrier] + 2 a reduced [2Fe-2S] ferredoxin -> a [lipoyl-carrier protein] N6-lipoyl-L-lysine + 2 5'-deoxyadenosine + 2 L-methionine + 2 an unsulfurated [sulfur carrier] + 2 an oxidized [2Fe-2S] ferredoxin *\ - \* objReactionName, a [lipoyl-carrier protein] N6-lipoyl-L-lysine *\ - - + r788a -1.0 r788b + r1204 -0.00001 objReactionName = 0 - -c266: \* CPD-8989[CCO-PERI-BAC] *\ - \* r135, L-methionine S-oxide[periplasmic space] + ATP + H2O -> L-methionine S-oxide[cytosol] + ADP + phosphate + H+ *\ - - -1.0 r135 = 0 - -c249: \* CPD-15699[CCO-PERI-BAC] *\ - \* r424, L-arabinose[cytosol] + H+[periplasmic space] -> L-arabinose[periplasmic space] + H+[cytosol] *\ - \* r416, L-arabinose[periplasmic space] + H+[periplasmic space] -> L-arabinose[cytosol] + H+[cytosol] *\ - \* r126, ATP + L-arabinose[periplasmic space] + H2O -> ADP + L-arabinose[cytosol] + phosphate + H+ *\ - - + r424 -1.0 r416 -1.0 r126 = 0 - -c1884: \* 3-CARBOXY-3-HYDROXY-ISOCAPROATE[CCO-CYTOSOL] *\ - \* r1945, 3-methyl-2-oxobutanoate + acetyl-CoA + H2O -> (2S)-2-isopropylmalate + coenzyme A + H+ *\ - \* r1626b, 2-isopropylmaleate + H2O -> (2S)-2-isopropylmalate *\ - \* r1626a, (2S)-2-isopropylmalate -> 2-isopropylmaleate + H2O *\ - - + r1945 + r1626b -1.0 r1626a = 0 - -c705: \* NA+[CCO-PERI-BAC] *\ - \* r414, Na+[periplasmic space] + L-leucine[periplasmic space] -> Na+[cytosol] + L-leucine[cytosol] *\ - \* r428, Na+[periplasmic space] + L-alanine[periplasmic space] -> Na+[cytosol] + L-alanine[cytosol] *\ - \* r438, 2 Na+[periplasmic space] + L-glutamate[periplasmic space] -> 2 Na+[cytosol] + L-glutamate[cytosol] *\ - \* r493, Na+[periplasmic space] + L-isoleucine[periplasmic space] -> Na+[cytosol] + L-isoleucine[cytosol] *\ - \* r529, Na+[periplasmic space] + L-proline[periplasmic space] -> Na+[cytosol] + L-proline[cytosol] *\ - \* r538, Na+[cytosol] + 2 H+[periplasmic space] -> Na+[periplasmic space] + 2 H+[cytosol] *\ - \* r540, Na+[cytosol] + H+[periplasmic space] -> Na+[periplasmic space] + H+[cytosol] *\ - \* r548, Na+[periplasmic space] + L-valine[periplasmic space] -> Na+[cytosol] + L-valine[cytosol] *\ - \* r632, Na+[periplasmic space] + L-serine[periplasmic space] -> Na+[cytosol] + L-serine[cytosol] *\ - \* r639, 2 Na+[cytosol] + 3 H+[periplasmic space] -> 2 Na+[periplasmic space] + 3 H+[cytosol] *\ - - -1.0 r414 -1.0 r428 -2.0 r438 -1.0 r493 -1.0 r529 + r538 + r540 -1.0 r548 -1.0 r632 +2.0 r639 = 0 - -c627: \* CPD-424[CCO-CYTOSOL] *\ - \* r353, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - - -1.0 r353 = 0 - -c665: \* CPD-12301[CCO-PERI-BAC] *\ - \* r378, a peptide antibiotic[periplasmic space] -> a peptide antibiotic[cytosol] *\ - - -1.0 r378 = 0 - -c1039: \* Red-Thioredoxin[CCO-CYTOSOL] *\ - \* r739, a reduced thioredoxin + D-cystine -> an oxidized thioredoxin + 2 D-cysteine *\ - \* r746, a reduced thioredoxin + hydrogen peroxide -> an oxidized thioredoxin + 2 H2O *\ - \* r751, a reduced thioredoxin + an unknown oxidized electron acceptor -> an oxidized thioredoxin + an unknown reduced electron acceptor *\ - \* r768, a reduced thioredoxin + a ribonucleoside diphosphate -> an oxidized thioredoxin + a 2'-deoxyribonucleoside 5'-diphosphate + H2O *\ - \* r769, a reduced thioredoxin + a ribonucleoside diphosphate -> an oxidized thioredoxin + a 2'-deoxyribonucleoside 5'-diphosphate + H2O *\ - \* r770, a reduced thioredoxin + a ribonucleoside diphosphate -> an oxidized thioredoxin + a 2'-deoxyribonucleoside 5'-diphosphate + H2O *\ - \* r771, a reduced thioredoxin + a ribonucleoside diphosphate -> an oxidized thioredoxin + a 2'-deoxyribonucleoside 5'-diphosphate + H2O *\ - \* r772, a reduced thioredoxin + a ribonucleoside diphosphate -> an oxidized thioredoxin + a 2'-deoxyribonucleoside 5'-diphosphate + H2O *\ - \* r808a, d-biotin d-sulfoxide + a reduced thioredoxin -> biotin + an oxidized thioredoxin + H2O *\ - \* r808b, biotin + an oxidized thioredoxin + H2O -> d-biotin d-sulfoxide + a reduced thioredoxin *\ - \* r819, L-methionine-(R)-S-oxide + a reduced thioredoxin -> L-methionine + an oxidized thioredoxin + H2O *\ - \* r906, a reduced thioredoxin + L-cystine -> an oxidized thioredoxin + 2 L-cysteine *\ - \* r920, an oxidized thioredoxin + NADPH + H+ -> a reduced thioredoxin + NADP+ *\ - \* r971, L-methionine-(S)-S-oxide + a reduced thioredoxin -> L-methionine + an oxidized thioredoxin + H2O *\ - \* r1006a, a reduced thioredoxin + thiosulfate -> an oxidized thioredoxin + sulfite + hydrogen sulfide + H+ *\ - \* r1006b, an oxidized thioredoxin + sulfite + hydrogen sulfide + H+ -> a reduced thioredoxin + thiosulfate *\ - \* r1059, a protein-L-methionine-(S)-S-oxide + a reduced thioredoxin -> a [protein]-L-methionine + an oxidized thioredoxin + H2O *\ - \* r1134a, a [protein]-L-methionine + an oxidized thioredoxin + H2O -> a protein-L-methionine-(R)-S-oxide + a reduced thioredoxin *\ - \* r1134b, a protein-L-methionine-(R)-S-oxide + a reduced thioredoxin -> a [protein]-L-methionine + an oxidized thioredoxin + H2O *\ - \* r1172, 3'-phosphoadenylyl-sulfate + a reduced thioredoxin -> adenosine 3',5'-bisphosphate + sulfite + an oxidized thioredoxin + 2 H+ *\ - - -1.0 r739 -1.0 r746 -1.0 r751 -1.0 r768 -1.0 r769 -1.0 r770 -1.0 r771 -1.0 r772 -1.0 r808a + r808b -1.0 r819 -1.0 r906 + r920 -1.0 r971 -1.0 r1006a + r1006b -1.0 r1059 + r1134a -1.0 r1134b - -1.0 r1172 = 0 - -c995: \* CMP[CCO-CYTOSOL] *\ - \* r2348, alpha-Kdo-(2->6)-lipid IVA + CMP-3-deoxy-alpha-D-manno-octulosonate -> alpha-Kdo-(2->4)-alpha-Kdo-(2->6)-lipid IVA + CMP + H+ *\ - \* r2271, a nucleoside diphosphate + H2O -> a nucleoside 5'-monophosphate + phosphate + H+ *\ - \* r1850, CMP + H2O -> cytidine + phosphate *\ - \* r1836, CDP + H2O -> CMP + phosphate + H+ *\ - \* r1822, 2-phospho-4-(cytidine 5'-diphospho)-2-C-methyl-D-erythritol -> CMP + 2-C-methyl-D-erythritol-2,4-cyclodiphosphate *\ - \* r1801b, CMP + an L-1-phosphatidylserine + H+ -> a CDP-diacylglycerol + L-serine *\ - \* r1801a, a CDP-diacylglycerol + L-serine -> CMP + an L-1-phosphatidylserine + H+ *\ - \* r1800b, CMP + an L-1-phosphatidylserine + H+ -> a CDP-diacylglycerol + L-serine *\ - \* r1800a, a CDP-diacylglycerol + L-serine -> CMP + an L-1-phosphatidylserine + H+ *\ - \* r1580, a CDP-diacylglycerol + H2O -> a 1,2-diacyl-sn-glycerol 3-phosphate + CMP + 2 H+ *\ - \* r1579, a CDP-diacylglycerol + H2O -> a 1,2-diacyl-sn-glycerol 3-phosphate + CMP + 2 H+ *\ - \* r1427, ATP + CMP -> ADP + CDP *\ - \* r1402, cytidine + GTP -> CMP + GDP + H+ *\ - \* r1290, (R)-4'-phosphopantothenate + L-cysteine + CTP -> CMP + R-4'-phosphopantothenoyl-L-cysteine + diphosphate + H+ *\ - \* r1262, CMP-3-deoxy-alpha-D-manno-octulosonate + lipid IVA -> alpha-Kdo-(2->6)-lipid IVA + CMP + H+ *\ - \* r1209b, CMP + an L-1-phosphatidylglycerol-phosphate + H+ -> a CDP-diacylglycerol + sn-glycerol 3-phosphate *\ - \* r1209a, a CDP-diacylglycerol + sn-glycerol 3-phosphate -> CMP + an L-1-phosphatidylglycerol-phosphate + H+ *\ - \* r1208b, CMP + an L-1-phosphatidylglycerol-phosphate + H+ -> a CDP-diacylglycerol + sn-glycerol 3-phosphate *\ - \* r1208a, a CDP-diacylglycerol + sn-glycerol 3-phosphate -> CMP + an L-1-phosphatidylglycerol-phosphate + H+ *\ - \* r1158, a nucleoside triphosphate + H2O -> a nucleoside 5'-monophosphate + diphosphate + H+ *\ - \* r1076b, alpha-Kdo-(2->4)-alpha-Kdo-(2->4)-alpha-Kdo-(2->6)-lipid IVA + CMP + H+ -> alpha-Kdo-(2->4)-alpha-Kdo-(2->6)-lipid IVA + CMP-3-deoxy-alpha-D-manno-octulosonate *\ - \* r1076a, alpha-Kdo-(2->4)-alpha-Kdo-(2->6)-lipid IVA + CMP-3-deoxy-alpha-D-manno-octulosonate -> alpha-Kdo-(2->4)-alpha-Kdo-(2->4)-alpha-Kdo-(2->6)-lipid IVA + CMP + H+ *\ - \* r985, a ribonucleoside 5'-monophosphate + H2O -> a ribonucleoside + phosphate *\ - \* r738, CTP + H2O -> CMP + diphosphate + H+ *\ - \* r712, cytidine + ATP -> CMP + ADP + H+ *\ - - + r2348 + r2271 -1.0 r1850 + r1836 + r1822 -1.0 r1801b + r1801a -1.0 r1800b + r1800a + r1580 + r1579 -1.0 r1427 + r1402 + r1290 + r1262 -1.0 r1209b + r1209a -1.0 r1208b + r1208a - + r1158 -1.0 r1076b + r1076a -1.0 r985 + r738 + r712 = 0 - -c906: \* AMP[CCO-CYTOSOL] *\ - \* r659a, lipoyl-adenylate + [glycine cleavage system lipoyl-carrier protein]-L-lysine -> a [glycine-cleavage complex H protein] N6-lipoyl-L-lysine + AMP + 2 H+ *\ - \* r659b, a [glycine-cleavage complex H protein] N6-lipoyl-L-lysine + AMP + 2 H+ -> lipoyl-adenylate + [glycine cleavage system lipoyl-carrier protein]-L-lysine *\ - \* r722, a tRNAthr + L-threonine + ATP + H+ -> an L-threonyl-[tRNAthr] + AMP + diphosphate *\ - \* r809, a holo [EntF peptidyl-carrier protein] + L-seryl-adenylate -> a seryl-[EntF peptidyl-carrier protein] + AMP + H+ *\ - \* r843, octanoate + a holo-[acyl-carrier protein] + ATP -> an octanoyl-[acp] + AMP + diphosphate *\ - \* r848, a cytidine34 in tRNAIle2 + L-lysine + ATP -> a lysidine34 in tRNAIle2 + AMP + diphosphate + 2 H+ *\ - \* r899, [a holo citrate lyase acyl-carrier protein] + acetate + ATP -> an acetyl-[holo citrate lyase acyl-carrier protein] + AMP + diphosphate *\ - \* r915, 6 ATP + 3 L-serine + 3 2,3-dihydroxybenzoate -> 6 AMP + enterobactin + 6 diphosphate + 3 H+ *\ - \* r960, 6-hydroxymethyl-7,8-dihydropterin + ATP -> (2-amino-4-hydroxy-7,8-dihydropteridin-6-yl)methyl diphosphate + AMP + H+ *\ - \* r977, a ribonucleoside 5'-monophosphate + H2O -> a ribonucleoside + phosphate *\ - \* r992a, O-carbamoyladenylate + HypE -> a HypE hydrogenase maturation protein-S-carboxamide + AMP *\ - \* r992b, a HypE hydrogenase maturation protein-S-carboxamide + AMP -> O-carbamoyladenylate + HypE *\ - \* r993, acetate + ATP + coenzyme A -> acetyl-CoA + AMP + diphosphate *\ - \* r1008, AMP + ATP -> 2 ADP *\ - \* r1037, 2,3-dihydroxybenzoyl adenylate + a holo EntB isochorismatase/aryl-carrier protein -> a 2,3-dihydroxybenzoyl-[EntB isochorismatase/aryl-carrier protein] + AMP + H+ *\ - \* r1045, ADP-D-ribose + H2O -> AMP + D-ribofuranose 5-phosphate + 2 H+ *\ - \* r1063, an S-sulfanyl-[ThiI sulfur-carrier protein] + a carboxy-adenylated-[ThiS sulfur-carrier protein] + 2 a reduced ferredoxin -> a thiocarboxy-[ThiS-Protein] + a ThiI sulfur-carrier protein + AMP + 2 an oxidized ferredoxin *\ - \* r1075, a [biotin-carboxyl-carrier protein monomer] + biotin + ATP -> AMP + a biotinylated [BCCP monomer] + diphosphate + H+ *\ - \* r1170, elongator tRNAmet + L-methionine + ATP + H+ -> an L-methionyl-[elongator tRNAmet] + AMP + diphosphate *\ - \* r1176, ATP + nicotinate adenine dinucleotide + L-glutamine + H2O -> AMP + L-glutamate + NAD+ + diphosphate + H+ *\ - \* r1201, AMP + H2O -> adenosine + phosphate *\ - \* r1245, (S)-NADPHX + ADP -> AMP + NADPH + phosphate + H+ *\ - \* r1250, GTP + ATP -> pppGpp + AMP *\ - \* r1271, a 2,3,4-saturated fatty acid + ATP + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + AMP + diphosphate *\ - \* r1272, a 2,3,4-saturated fatty acid + ATP + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + AMP + diphosphate *\ - \* r1273, a 2,3,4-saturated fatty acid + ATP + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + AMP + diphosphate *\ - \* r1274, a 2,3,4-saturated fatty acid + ATP + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + AMP + diphosphate *\ - \* r1275, a 2,3,4-saturated fatty acid + ATP + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + AMP + diphosphate *\ - \* r1276, a 2,3,4-saturated fatty acid + ATP + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + AMP + diphosphate *\ - \* r1277, a 2,3,4-saturated fatty acid + ATP + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + AMP + diphosphate *\ - \* r1278, a 2,3,4-saturated fatty acid + ATP + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + AMP + diphosphate *\ - \* r1279, a 2,3,4-saturated fatty acid + ATP + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + AMP + diphosphate *\ - \* r1286, ATP + 2-succinylbenzoate + coenzyme A -> AMP + 4-(2'-carboxyphenyl)-4-oxobutyryl-CoA + diphosphate *\ - \* r1307, a tRNAser + L-serine + ATP + H+ -> an L-seryl-[tRNAser] + AMP + diphosphate *\ - \* r1324, phenylacetate + ATP + coenzyme A -> phenylacetyl-CoA + AMP + diphosphate *\ - \* r1329, L-tryptophan + a tRNAtrp + ATP + H+ -> an L-tryptophanyl-[tRNAtrp] + AMP + diphosphate *\ - \* r1333, cyclic-AMP + H2O -> AMP + H+ *\ - \* r1387, beta-alanine + (R)-pantoate + ATP -> (R)-pantothenate + AMP + diphosphate + H+ *\ - \* r1396, propanoate + ATP + coenzyme A -> propanoyl-CoA + AMP + diphosphate *\ - \* r1425, a tRNAtyr + L-tyrosine + ATP + H+ -> an L-tyrosyl-[tRNAtyr] + AMP + diphosphate *\ - \* r1442, XMP + ammonium + ATP -> GMP + AMP + diphosphate + 2 H+ *\ - \* r1469, a tRNAala + L-alanine + ATP + H+ -> an L-alanyl-[tRNAala] + AMP + diphosphate *\ - \* r1476, a tRNAarg + L-arginine + ATP + H+ -> an L-arginyl-[tRNAarg] + AMP + diphosphate *\ - \* r1480, ATP + H2O -> AMP + diphosphate + H+ *\ - \* r1559, 5-phospho-alpha-D-ribose 1-diphosphate + adenine -> AMP + diphosphate *\ - \* r1572, pyruvate + ATP + H2O -> phosphoenolpyruvate + AMP + phosphate + 2 H+ *\ - \* r1573, L-aspartate + L-citrulline + ATP -> L-arginino-succinate + AMP + diphosphate + H+ *\ - \* r1583, D-ribose 5-phosphate + ATP -> 5-phospho-alpha-D-ribose 1-diphosphate + AMP + H+ *\ - \* r1704, L-aspartate + ammonium + ATP -> L-asparagine + AMP + diphosphate + H+ *\ - \* r1747, tRNAGlu + L-glutamate + ATP + H+ -> an L-glutamyl-[tRNAGlu] + AMP + diphosphate *\ - \* r1769, adenosine 3',5'-bisphosphate + H2O -> AMP + phosphate *\ - \* r1771, a tRNAleu + L-leucine + ATP + H+ -> an L-leucyl-[tRNAleu] + AMP + diphosphate *\ - \* r1794, adenylo-succinate -> fumarate + AMP *\ - \* r1798, tRNAasn + L-asparagine + ATP + H+ -> an L-asparaginyl-[tRNAasn] + AMP + diphosphate *\ - \* r1834, a tRNAval + L-valine + ATP + H+ -> an L-valyl-[tRNAval] + AMP + diphosphate *\ - \* r1837, tRNAgln + L-glutamine + ATP + H+ -> an L-glutaminyl-[tRNAgln] + AMP + diphosphate *\ - \* r1854, a tRNAhis + L-histidine + ATP + H+ -> an L-histidyl-[tRNAhis] + AMP + diphosphate *\ - \* r1951, L-glutamine + XMP + ATP + H2O -> L-glutamate + GMP + AMP + diphosphate + 2 H+ *\ - \* r1954, GTP + AMP -> GDP + ADP *\ - \* r1994, a tRNAphe + L-phenylalanine + ATP + H+ -> an L-phenylalanyl-[tRNAphe] + AMP + diphosphate *\ - \* r2059, L-lysine + a tRNAlys + ATP + H+ -> an L-lysyl-[tRNAlys] + AMP + diphosphate *\ - \* r2147, a tRNAile + L-isoleucine + ATP + H+ -> an L-isoleucyl-[tRNAile] + AMP + diphosphate *\ - \* r2208, ATP + GDP -> AMP + ppGpp *\ - \* r2262, ammonium + ATP + nicotinate adenine dinucleotide -> AMP + NAD+ + diphosphate + H+ *\ - \* r2281, AMP + H2O -> D-ribofuranose 5-phosphate + adenine *\ - \* r2298, a tRNAcys + L-cysteine + ATP + H+ -> an L-cysteinyl-[tRNAcys] + AMP + diphosphate *\ - \* r2361, NAD+ + H2O -> beta-nicotinamide D-ribonucleotide + AMP + 2 H+ *\ - \* r2363, ADP + (S)-NADHX -> AMP + NADH + phosphate + H+ *\ - \* r2364a, initiator tRNAmet + L-methionine + ATP + H+ -> an L-methionyl-[initiator tRNAmet] + AMP + diphosphate *\ - \* r2364b, an L-methionyl-[initiator tRNAmet] + AMP + diphosphate -> initiator tRNAmet + L-methionine + ATP + H+ *\ - \* r2378, tRNAasp + L-aspartate + ATP + H+ -> L-aspartyl-tRNAasp + AMP + diphosphate *\ - \* r2385, a tRNApro + L-proline + ATP + H+ -> an L-prolyl-[tRNApro] + AMP + diphosphate *\ - \* r2404, L-glutamine + L-aspartate + ATP + H2O -> L-glutamate + L-asparagine + AMP + diphosphate + H+ *\ - \* r2419, carbamoyl-phosphate + HypE + ATP + H2O -> a HypE hydrogenase maturation protein-S-carboxamide + AMP + diphosphate + phosphate *\ - \* r2437, a tRNAgly + glycine + ATP + H+ -> a glycyl-[tRNAgly] + AMP + diphosphate *\ - \* objReactionName, AMP *\ - - + r659a -1.0 r659b + r722 + r809 + r843 + r848 + r899 +6.0 r915 + r960 -1.0 r977 + r992a -1.0 r992b + r993 -1.0 r1008 + r1037 + r1045 + r1063 + r1075 + r1170 - + r1176 -1.0 r1201 + r1245 + r1250 + r1271 + r1272 + r1273 + r1274 + r1275 + r1276 + r1277 + r1278 + r1279 + r1286 + r1307 + r1324 + r1329 + r1333 + r1387 + r1396 - + r1425 + r1442 + r1469 + r1476 + r1480 + r1559 + r1572 + r1573 + r1583 + r1704 + r1747 + r1769 + r1771 + r1794 + r1798 + r1834 + r1837 + r1854 + r1951 -1.0 r1954 - + r1994 + r2059 + r2147 + r2208 + r2262 -1.0 r2281 + r2298 + r2361 + r2363 + r2364a -1.0 r2364b + r2378 + r2385 + r2404 + r2419 + r2437 -5.197084 objReactionName = 0 - -c2164: \* BENZOATE[CCO-PERI-BAC] *\ - \* r2221b, a carboxylate[periplasmic space] + FADH2[periplasmic space] -> an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] *\ - \* r2221a, an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] -> a carboxylate[periplasmic space] + FADH2[periplasmic space] *\ - - -1.0 r2221b + r2221a = 0 - -c1281: \* ACETALD[CCO-CYTOSOL] *\ - \* r2334b, acetaldehyde + glycine -> DL-allothreonine *\ - \* r2334a, DL-allothreonine -> acetaldehyde + glycine *\ - \* r2202, acetaldehyde + NADP+ + H2O -> acetate + NADPH + 2 H+ *\ - \* r2017, L-threonine -> acetaldehyde + glycine *\ - \* r1979b, acetaldehyde + pyruvate -> 4-hydroxy-2-oxopentanoate *\ - \* r1979a, 4-hydroxy-2-oxopentanoate -> acetaldehyde + pyruvate *\ - \* r1693, an aldehyde + NADP+ + H2O -> a carboxylate + NADPH + 2 H+ *\ - \* r1565b, an aldehyde + NADH + H+ -> a primary alcohol + NAD+ *\ - \* r1565a, a primary alcohol + NAD+ -> an aldehyde + NADH + H+ *\ - \* r1554b, acetyl-CoA + NADH + H+ -> acetaldehyde + coenzyme A + NAD+ *\ - \* r1554a, acetaldehyde + coenzyme A + NAD+ -> acetyl-CoA + NADH + H+ *\ - \* r1503, an alkylsulfonate + FMNH2 + oxygen -> an aldehyde + sulfite + FMN + H2O + 2 H+ *\ - \* r1493b, acetaldehyde + D-glyceraldehyde 3-phosphate -> 2-deoxy-D-ribose 5-phosphate *\ - \* r1493a, 2-deoxy-D-ribose 5-phosphate -> acetaldehyde + D-glyceraldehyde 3-phosphate *\ - \* r1363b, glycine + acetaldehyde -> L-allo-threonine *\ - \* r1363a, L-allo-threonine -> glycine + acetaldehyde *\ - \* r1012b, acetaldehyde + NADH + H+ -> ethanol + NAD+ *\ - \* r1012a, ethanol + NAD+ -> acetaldehyde + NADH + H+ *\ - \* r916, ethanolamine -> ammonium + acetaldehyde *\ - - -1.0 r2334b + r2334a -1.0 r2202 + r2017 -1.0 r1979b + r1979a -1.0 r1693 -1.0 r1565b + r1565a + r1554b -1.0 r1554a + r1503 -1.0 r1493b + r1493a -1.0 r1363b + r1363a -1.0 r1012b + r1012a + r916 = 0 - -c782: \* GLC[CCO-CYTOSOL] *\ - \* r2354b, maltoheptaose + beta-D-glucose -> maltose + maltohexaose *\ - \* r2354a, maltose + maltohexaose -> maltoheptaose + beta-D-glucose *\ - \* r1802, alpha-lactose + H2O -> beta-D-galactose + beta-D-glucose *\ - \* r1611, beta-D-glucose 6-phosphate + H2O -> beta-D-glucose + phosphate *\ - \* r1540b, maltopentaose + maltose -> maltohexaose + beta-D-glucose *\ - \* r1540a, maltohexaose + beta-D-glucose -> maltopentaose + maltose *\ - \* r1431, beta-D-glucose + ATP -> beta-D-glucose 6-phosphate + ADP + H+ *\ - \* r1192b, beta-D-glucose -> alpha-D-glucose *\ - \* r1192a, alpha-D-glucose -> beta-D-glucose *\ - \* r735, alpha,alpha-trehalose + H2O -> beta-D-glucose + alpha-D-glucose *\ - \* r496, D-glucopyranose[periplasmic space] + H+[periplasmic space] -> D-glucopyranose[cytosol] + H+[cytosol] *\ - - -1.0 r2354b + r2354a + r1802 + r1611 + r1540b -1.0 r1540a -1.0 r1431 -1.0 r1192b + r1192a + r735 + r496 = 0 - -c2157: \* CPD-665[CCO-PERI-BAC] *\ - \* r2216b, a carboxylate[periplasmic space] + FADH2[periplasmic space] -> an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] *\ - \* r2216a, an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] -> a carboxylate[periplasmic space] + FADH2[periplasmic space] *\ - - + r2216b -1.0 r2216a = 0 - -c976: \* L-Cysteine-Desulfurase-persulfide[CCO-CYTOSOL] *\ - \* r1241a, an [L-cysteine desulfurase] L-cysteine persulfide + an unsulfurated [sulfur carrier] -> an [L-cysteine desulfurase]-L-cysteine + a sulfurated [sulfur carrier] *\ - \* r1241b, an [L-cysteine desulfurase]-L-cysteine + a sulfurated [sulfur carrier] -> an [L-cysteine desulfurase] L-cysteine persulfide + an unsulfurated [sulfur carrier] *\ - \* r1410, an [L-cysteine desulfurase]-L-cysteine + L-cysteine -> an [L-cysteine desulfurase] L-cysteine persulfide + L-alanine *\ - \* r1959, an [L-cysteine desulfurase] L-cysteine persulfide + a ThiI sulfur-carrier protein -> an [L-cysteine desulfurase]-L-cysteine + an S-sulfanyl-[ThiI sulfur-carrier protein] *\ - - -1.0 r1241a + r1241b + r1410 -1.0 r1959 = 0 - -c1143: \* CPD-1302[CCO-CYTOSOL] *\ - \* r1748, a 5,10-methylene-tetrahydrofolate + NADH + H+ -> an N5-methyl-tetrahydrofolate + NAD+ *\ - \* r1451, L-homocysteine + N5-methyl--tetrahydropteroyl tri-L-glutamate -> L-methionine + tetrahydropteroyl tri-L-glutamate *\ - \* r800, L-homocysteine + an N5-methyl-tetrahydrofolate -> L-methionine + a tetrahydrofolate *\ - - + r1748 -1.0 r1451 -1.0 r800 = 0 - -c1311: \* L-DEHYDRO-ASCORBATE[CCO-CYTOSOL] *\ - \* r1196, 2 monodehydroascorbate radical -> L-ascorbate + L-dehydro-ascorbate + H+ *\ - \* r2040, L-dehydro-ascorbate + H2O -> dehydroascorbate (bicyclic form) *\ - \* r2405, 2 L-ascorbate + hydrogen peroxide + H+ -> L-ascorbate + L-dehydro-ascorbate + 2 H2O *\ - - + r1196 -1.0 r2040 + r2405 = 0 - -c640: \* CPD-722[CCO-CYTOSOL] *\ - \* r808a, d-biotin d-sulfoxide + a reduced thioredoxin -> biotin + an oxidized thioredoxin + H2O *\ - \* r808b, biotin + an oxidized thioredoxin + H2O -> d-biotin d-sulfoxide + a reduced thioredoxin *\ - - -1.0 r808a + r808b = 0 - -c570: \* CPD-560[CCO-PERI-BAC] *\ - \* r2488_e, S-methyl-5-thio-D-ribose *\ - \* r309, S-methyl-5-thio-D-ribose[cytosol] -> S-methyl-5-thio-D-ribose[periplasmic space] *\ - - -1.0 r2488_e + r309 = 0 - -c731: \* CPD-660[CCO-CYTOSOL] *\ - \* r1612, (R)-malate + NAD+ -> CO2 + pyruvate + NADH *\ - \* r521, a C4-dicarboxylate[periplasmic space] + 3 H+[periplasmic space] -> a C4-dicarboxylate[cytosol] + 3 H+[cytosol] *\ - \* r488, (R)-malate[periplasmic space] + 2 H+[periplasmic space] -> (R)-malate[cytosol] + 2 H+[cytosol] *\ - \* r448, a C4-dicarboxylate[periplasmic space] + 2 H+[periplasmic space] -> a C4-dicarboxylate[cytosol] + 2 H+[cytosol] *\ - - -1.0 r1612 + r521 + r488 + r448 = 0 - -c2027: \* CPD0-2189[CCO-CYTOSOL] *\ - \* r2359b, glycolaldehyde + glycine -> 4-hydroxy-L-threonine *\ - \* r2359a, 4-hydroxy-L-threonine -> glycolaldehyde + glycine *\ - \* r1869, 4-hydroxy-L-threonine + ATP -> 4-phospho-hydroxy-L-threonine + ADP + H+ *\ - - + r2359b -1.0 r2359a -1.0 r1869 = 0 - -c939: \* S-3-HYDROXYBUTANOYL-COA[CCO-CYTOSOL] *\ - \* r680a, a (3R)-3-hydroxyacyl-CoA -> a (3S)-3-hydroxyacyl-CoA *\ - \* r680b, a (3S)-3-hydroxyacyl-CoA -> a (3R)-3-hydroxyacyl-CoA *\ - \* r725, a trans-2-enoyl-CoA + H2O -> a (3S)-3-hydroxyacyl-CoA *\ - \* r1376, a (3S)-3-hydroxyacyl-CoA + NAD+ -> a 3-oxoacyl-CoA + NADH + H+ *\ - - + r680a -1.0 r680b + r725 -1.0 r1376 = 0 - -c1402: \* 3-5-ADP[CCO-CYTOSOL] *\ - \* r1047, an acyl-carrier protein + coenzyme A -> adenosine 3',5'-bisphosphate + a holo-[acyl-carrier protein] + H+ *\ - \* r1048, an acyl-carrier protein + coenzyme A -> adenosine 3',5'-bisphosphate + a holo-[acyl-carrier protein] + H+ *\ - \* r1049, an acyl-carrier protein + coenzyme A -> adenosine 3',5'-bisphosphate + a holo-[acyl-carrier protein] + H+ *\ - \* r1050, an acyl-carrier protein + coenzyme A -> adenosine 3',5'-bisphosphate + a holo-[acyl-carrier protein] + H+ *\ - \* r1051, an acyl-carrier protein + coenzyme A -> adenosine 3',5'-bisphosphate + a holo-[acyl-carrier protein] + H+ *\ - \* r1052, an acyl-carrier protein + coenzyme A -> adenosine 3',5'-bisphosphate + a holo-[acyl-carrier protein] + H+ *\ - \* r1053, an acyl-carrier protein + coenzyme A -> adenosine 3',5'-bisphosphate + a holo-[acyl-carrier protein] + H+ *\ - \* r1172, 3'-phosphoadenylyl-sulfate + a reduced thioredoxin -> adenosine 3',5'-bisphosphate + sulfite + an oxidized thioredoxin + 2 H+ *\ - \* r1769, adenosine 3',5'-bisphosphate + H2O -> AMP + phosphate *\ - \* r2019, [EntB aryl-carrier protein] + coenzyme A -> a holo EntB isochorismatase/aryl-carrier protein + adenosine 3',5'-bisphosphate + H+ *\ - - + r1047 + r1048 + r1049 + r1050 + r1051 + r1052 + r1053 + r1172 -1.0 r1769 + r2019 = 0 - -c1097: \* 23-DIPHOSPHOGLYCERATE[CCO-CYTOSOL] *\ - \* r931b, a [protein]-L-histidine + 2,3-diphospho-D-glycerate -> a [protein]-Npi-phospho-L-histidine + 2-phospho-D-glycerate *\ - \* r931a, a [protein]-Npi-phospho-L-histidine + 2-phospho-D-glycerate -> a [protein]-L-histidine + 2,3-diphospho-D-glycerate *\ - \* r775b, a [protein]-Npi-phospho-L-histidine + 3-phospho-D-glycerate -> a [protein]-L-histidine + 2,3-diphospho-D-glycerate *\ - \* r775a, a [protein]-L-histidine + 2,3-diphospho-D-glycerate -> a [protein]-Npi-phospho-L-histidine + 3-phospho-D-glycerate *\ - - -1.0 r931b + r931a + r775b -1.0 r775a = 0 - -c1259: \* CPD-12279[CCO-CYTOSOL] *\ - \* r2439, 2-iminoacetate + H+ + H2O -> glyoxylate + ammonium *\ - \* r1597, L-tyrosine + S-adenosyl-L-methionine + NADPH -> 2-iminoacetate + 4-methylphenol + 5'-deoxyadenosine + L-methionine + NADP+ + H+ *\ - \* r893, 1-deoxy-D-xylulose 5-phosphate + 2-iminoacetate + a thiocarboxy-[ThiS-Protein] -> 2-[(2R,5Z)-(2-carboxy-4-methylthiazol-5(2H)-ylidene]ethyl phosphate + a ThiS sulfur-carrier protein + 2 H2O *\ - - -1.0 r2439 + r1597 -1.0 r893 = 0 - -c227: \* CPD0-932[CCO-CYTOSOL] *\ - \* r2034, glucosyl-(heptosyl)2-Kdo2-lipid A + ATP -> glucosyl-(heptosyl)2-Kdo2-lipid A-phosphate + ADP + H+ *\ - \* r762, UDP-alpha-D-glucose + (heptosyl)2-Kdo2-lipid A -> glucosyl-(heptosyl)2-Kdo2-lipid A + UDP + H+ *\ - \* r267, a lipopolysaccharide[cytosol] -> a lipopolysaccharide[extracellular space] *\ - \* r115, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - - -1.0 r2034 + r762 -1.0 r267 -1.0 r115 = 0 - -c838: \* CPD-12523[CCO-CYTOSOL] *\ - \* r2058b, aldehydo-D-galacturonate -> D-galactopyranuronate *\ - \* r2058a, D-galactopyranuronate -> aldehydo-D-galacturonate *\ - \* r582, D-galacturonate[periplasmic space] + H+[periplasmic space] -> D-galacturonate[cytosol] + H+[cytosol] *\ - - + r2058b -1.0 r2058a + r582 = 0 - -c828: \* CPD-12521[CCO-CYTOSOL] *\ - \* r577, D-glucuronate[periplasmic space] + H+[periplasmic space] -> D-glucuronate[cytosol] + H+[cytosol] *\ - - + r577 = 0 - -c1233: \* PRPP[CCO-CYTOSOL] *\ - \* r2444, guanine + 5-phospho-alpha-D-ribose 1-diphosphate -> GMP + diphosphate *\ - \* r2430, xanthine + 5-phospho-alpha-D-ribose 1-diphosphate -> XMP + diphosphate *\ - \* r2301, 5-phospho-alpha-D-ribose 1-diphosphate + quinolinate + 2 H+ -> beta-nicotinate D-ribonucleotide + CO2 + diphosphate *\ - \* r2237, 5-phospho-alpha-D-ribose 1-diphosphate + hypoxanthine -> IMP + diphosphate *\ - \* r2090, 5-phospho-alpha-D-ribose 1-diphosphate + L-glutamine + H2O -> 5-phospho-beta-D-ribosylamine + L-glutamate + diphosphate *\ - \* r2089, alpha-D-ribose 1,5-bisphosphate + ATP -> 5-phospho-alpha-D-ribose 1-diphosphate + ADP *\ - \* r2028, 5-phospho-alpha-D-ribose 1-diphosphate + uracil -> UMP + diphosphate *\ - \* r1583, D-ribose 5-phosphate + ATP -> 5-phospho-alpha-D-ribose 1-diphosphate + AMP + H+ *\ - \* r1568b, 5-phospho-alpha-D-ribose 1-diphosphate + orotate -> orotidine 5'-phosphate + diphosphate *\ - \* r1568a, orotidine 5'-phosphate + diphosphate -> 5-phospho-alpha-D-ribose 1-diphosphate + orotate *\ - \* r1562, nicotinate + 5-phospho-alpha-D-ribose 1-diphosphate + ATP + H2O -> beta-nicotinate D-ribonucleotide + ADP + diphosphate + phosphate *\ - \* r1559, 5-phospho-alpha-D-ribose 1-diphosphate + adenine -> AMP + diphosphate *\ - \* r1046, anthranilate + 5-phospho-alpha-D-ribose 1-diphosphate -> N-(5-phosphoribosyl)-anthranilate + diphosphate *\ - \* r876b, ATP + 5-phospho-alpha-D-ribose 1-diphosphate + H+ -> 1-(5-phospho-beta-D-ribosyl)-ATP + diphosphate *\ - \* r876a, 1-(5-phospho-beta-D-ribosyl)-ATP + diphosphate -> ATP + 5-phospho-alpha-D-ribose 1-diphosphate + H+ *\ - - -1.0 r2444 -1.0 r2430 -1.0 r2301 -1.0 r2237 -1.0 r2090 + r2089 -1.0 r2028 + r1583 -1.0 r1568b + r1568a -1.0 r1562 -1.0 r1559 -1.0 r1046 -1.0 r876b + r876a = 0 - -c1290: \* D-BETA-D-HEPTOSE-1-P[CCO-CYTOSOL] *\ - \* r1513, D-glycero-beta-D-manno-heptose 1-phosphate + ATP + H+ -> ADP-D-glycero-beta-D-manno-heptose + diphosphate *\ - \* r923, D-glycero-beta-D-manno-heptose 1,7-bisphosphate + H2O -> D-glycero-beta-D-manno-heptose 1-phosphate + phosphate *\ - - -1.0 r1513 + r923 = 0 - -c1771: \* DEOXY-RIBOSE-5P[CCO-CYTOSOL] *\ - \* r1494b, 2-deoxy-D-ribose 5-phosphate -> 2-deoxy-alpha-D-ribose 1-phosphate *\ - \* r1494a, 2-deoxy-alpha-D-ribose 1-phosphate -> 2-deoxy-D-ribose 5-phosphate *\ - \* r1493b, acetaldehyde + D-glyceraldehyde 3-phosphate -> 2-deoxy-D-ribose 5-phosphate *\ - \* r1493a, 2-deoxy-D-ribose 5-phosphate -> acetaldehyde + D-glyceraldehyde 3-phosphate *\ - - -1.0 r1494b + r1494a + r1493b -1.0 r1493a = 0 - -c41: \* OLEATE-CPD[CCO-EXTRACELLULAR] *\ - \* r22, a long-chain fatty acid[extracellular space] -> a long-chain fatty acid[periplasmic space] *\ - - -1.0 r22 = 0 - -c80: \* DEOXYINOSINE[CCO-PERI-BAC] *\ - \* r39, a nucleoside[extracellular space] -> a nucleoside[periplasmic space] *\ - \* r494, 2'-deoxyinosine[periplasmic space] + H+[periplasmic space] -> 2'-deoxyinosine[cytosol] + H+[cytosol] *\ - \* r599, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - - + r39 -1.0 r494 -1.0 r599 = 0 - -c780: \* Glucopyranose[CCO-PERI-BAC] *\ - \* r2497_e, D-glucopyranose *\ - - -1.0 r2497_e = 0 - -c43: \* CPD0-1159[CCO-EXTRACELLULAR] *\ - \* r23, a long-chain fatty acid[extracellular space] -> a long-chain fatty acid[periplasmic space] *\ - - -1.0 r23 = 0 - -c1682: \* 5-PHOSPHORIBOSYL-5-AMINOIMIDAZOLE[CCO-CYTOSOL] *\ - \* r1712, 5-amino-1-(5-phospho-beta-D-ribosyl)imidazole + ATP + hydrogen carbonate -> N5-carboxyaminoimidazole ribonucleotide + ADP + phosphate + 2 H+ *\ - \* r1400, 5-amino-1-(5-phospho-beta-D-ribosyl)imidazole + S-adenosyl-L-methionine -> 4-amino-2-methyl-5-phosphomethylpyrimidine + 5'-deoxyadenosine + L-methionine + formate + carbon monoxide + 3 H+ *\ - \* r1373, ATP + 2-(formamido)-N1-(5-phospho-beta-D-ribosyl)acetamidine -> ADP + 5-amino-1-(5-phospho-beta-D-ribosyl)imidazole + phosphate + H+ *\ - - -1.0 r1712 -1.0 r1400 + r1373 = 0 - -c225: \* KDO2-PALMITOLEOYL-LIPID-IVA[CCO-CYTOSOL] *\ - \* r1027, a myristoyl-[acp] + Kdo2-(palmitoleoyl)-lipid IVA -> (Kdo)2-lipid A, cold adapted + a holo-[acyl-carrier protein] *\ - \* r958, a palmitoleoyl-[acp] + alpha-Kdo-(2->4)-alpha-Kdo-(2->6)-lipid IVA -> Kdo2-(palmitoleoyl)-lipid IVA + a holo-[acyl-carrier protein] *\ - \* r266, a lipopolysaccharide[cytosol] -> a lipopolysaccharide[extracellular space] *\ - \* r114, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - - -1.0 r1027 + r958 -1.0 r266 -1.0 r114 = 0 - -c272: \* ADP[CCO-IN] *\ - \* r138b, ADP + phosphate + 4 H+[out] -> ATP + 3 H+[in] + H2O *\ - \* r138a, ATP + 3 H+[in] + H2O -> ADP + phosphate + 4 H+[out] *\ - - -1.0 r138b + r138a = 0 - -c1302: \* Pyruvate-dehydrogenase-lipoate[CCO-CYTOSOL] *\ - \* r2407, pyruvate + a [pyruvate dehydrogenase E2 protein] N6-lipoyl-L-lysine + H+ -> a [pyruvate dehydrogenase E2 protein] N6-S-acetyldihydrolipoyl-L-lysine + CO2 *\ - \* r2122b, a [pyruvate dehydrogenase E2 protein] N6-S-acetyldihydrolipoyl-L-lysine + thiamin diphosphate -> 2-(alpha-hydroxyethyl)thiamine diphosphate + a [pyruvate dehydrogenase E2 protein] N6-lipoyl-L-lysine *\ - \* r2122a, 2-(alpha-hydroxyethyl)thiamine diphosphate + a [pyruvate dehydrogenase E2 protein] N6-lipoyl-L-lysine -> a [pyruvate dehydrogenase E2 protein] N6-S-acetyldihydrolipoyl-L-lysine + thiamin diphosphate *\ - \* r937, a [pyruvate dehydrogenase E2 protein] N6-dihydrolipoyl-L-lysine + NAD+ -> a [pyruvate dehydrogenase E2 protein] N6-lipoyl-L-lysine + NADH + H+ *\ - - -1.0 r2407 + r2122b -1.0 r2122a + r937 = 0 - -c969: \* Cis-Delta7-tetradecenoyl-ACPs[CCO-CYTOSOL] *\ - \* r880, a trans-delta3-cis-delta7-tetradecenoyl-[acp] + NADH + H+ -> a cis-delta7-tetradecenoyl-[acp] + NAD+ *\ - \* r700, a cis-delta7-tetradecenoyl-[acp] + a malonyl-[acp] + H+ -> a 3-oxo-cis-delta9-hexadecenoyl-[acp] + a holo-[acyl-carrier protein] + CO2 *\ - - + r880 -1.0 r700 = 0 - -c784: \* ALPHA-GLUCOSE[CCO-CYTOSOL] *\ - \* r2134, maltohexaose + H2O -> maltopentaose + alpha-D-glucose *\ - \* r1631, maltoheptaose + H2O -> maltohexaose + alpha-D-glucose *\ - \* r1192b, beta-D-glucose -> alpha-D-glucose *\ - \* r1192a, alpha-D-glucose -> beta-D-glucose *\ - \* r1175, alpha-D-glucose 6-phosphate + H2O -> alpha-D-glucose + phosphate *\ - \* r965, maltopentaose + H2O -> maltotetraose + alpha-D-glucose *\ - \* r735, alpha,alpha-trehalose + H2O -> beta-D-glucose + alpha-D-glucose *\ - \* r497, D-glucopyranose[periplasmic space] + H+[periplasmic space] -> D-glucopyranose[cytosol] + H+[cytosol] *\ - - + r2134 + r1631 + r1192b -1.0 r1192a + r1175 + r965 + r735 + r497 = 0 - -c285: \* Pi[CCO-PERI-BAC] *\ - \* r2471_e, phosphate *\ - \* r2453_e, phosphate *\ - \* r2431, 3-phospho-L-serine + H2O -> L-serine + phosphate *\ - \* r2368, NADP+ + H2O -> NAD+ + phosphate *\ - \* r2171, GMP + H2O -> guanosine + phosphate *\ - \* r2143, a nucleoside 5'-monophosphate[periplasmic space] + H2O[periplasmic space] -> a nucleoside[periplasmic space] + phosphate[periplasmic space] *\ - \* r2142, a nucleoside 5'-monophosphate[periplasmic space] + H2O[periplasmic space] -> a nucleoside[periplasmic space] + phosphate[periplasmic space] *\ - \* r2106, PPPi + H2O -> phosphate + diphosphate *\ - \* r1841, glycerol 2-phosphate + H2O -> glycerol + phosphate *\ - \* r1353, L-histidinol-phosphate + H2O -> histidinol + phosphate *\ - \* r1252, dGMP + H2O -> 2'-deoxyguanosine + phosphate *\ - \* r1028, IMP + H2O -> inosine + phosphate *\ - \* r980, a ribonucleoside 5'-monophosphate + H2O -> a ribonucleoside + phosphate *\ - \* r978, a ribonucleoside 5'-monophosphate + H2O -> a ribonucleoside + phosphate *\ - \* r941, FMN + H2O -> riboflavin + phosphate *\ - \* r656, diphosphate + H2O -> 2 phosphate + H+ *\ - \* r530, phosphate[periplasmic space] + H+[periplasmic space] -> phosphate[cytosol] + H+[cytosol] *\ - \* r231, phosphate[cytosol] -> phosphate[periplasmic space] *\ - \* r144, ATP + phosphate[periplasmic space] + H2O -> ADP + 2 phosphate[cytosol] + H+ *\ - - -1.0 r2471_e + r2453_e + r2431 + r2368 + r2171 + r2143 + r2142 + r2106 + r1841 + r1353 + r1252 + r1028 + r980 + r978 + r941 +2.0 r656 -1.0 r530 + r231 -1.0 r144 = 0 - -c924: \* CPD-14447[CCO-CYTOSOL] *\ - \* r2043a, (2Z)-2-hydroxypenta-2,4-dienoate -> 2-oxopent-4-enoate *\ - \* r2043b, 2-oxopent-4-enoate -> (2Z)-2-hydroxypenta-2,4-dienoate *\ - - -1.0 r2043a + r2043b = 0 - -c2227: \* CPD-11763[CCO-CYTOSOL] *\ - \* r2402b, bisorganyltrisulfane + hydrogen sulfide + an unknown oxidized electron acceptor -> 2 S-sulfanylglutathione + an unknown reduced electron acceptor *\ - \* r2402a, 2 S-sulfanylglutathione + an unknown reduced electron acceptor -> bisorganyltrisulfane + hydrogen sulfide + an unknown oxidized electron acceptor *\ - - -1.0 r2402b + r2402a = 0 - -c1558: \* CPD-14443[CCO-CYTOSOL] *\ - \* r1498, pyruvate + L-aspartate-semialdehyde -> (2S,4S)-4-hydroxy-2,3,4,5-tetrahydrodipicolinate + H2O + H+ *\ - \* r1249, (2S,4S)-4-hydroxy-2,3,4,5-tetrahydrodipicolinate + NADPH + H+ -> (S)-2,3,4,5-tetrahydrodipicolinate + NADP+ + H2O *\ - - + r1498 -1.0 r1249 = 0 - -c1671: \* HISTIDINOL[CCO-PERI-BAC] *\ - \* r1353, L-histidinol-phosphate + H2O -> histidinol + phosphate *\ - - + r1353 = 0 - -c1732: \* CPD-14441[CCO-CYTOSOL] *\ - \* r1441b, (3Z)-2-oxopent-3-enoate -> 2-oxopent-4-enoate *\ - \* r1441a, 2-oxopent-4-enoate -> (3Z)-2-oxopent-3-enoate *\ - - -1.0 r1441b + r1441a = 0 - -c1249: \* PROTOPORPHYRINOGEN[CCO-CYTOSOL] *\ - \* r2234, coproporphyrinogen III + 2 S-adenosyl-L-methionine -> protoporphyrinogen IX + 2 CO2 + 2 L-methionine + 2 5'-deoxyadenosine *\ - \* r2183, coproporphyrinogen III + oxygen + 2 H+ -> protoporphyrinogen IX + 2 CO2 + 2 H2O *\ - \* r1357, protoporphyrinogen IX + 3 a menaquinone[inner membrane] -> protoporphyrin IX + 3 a menaquinol[inner membrane] *\ - \* r888, protoporphyrinogen IX + 3 oxygen -> protoporphyrin IX + 3 hydrogen peroxide *\ - - + r2234 + r2183 -1.0 r1357 -1.0 r888 = 0 - -c421: \* CPD0-881[CCO-CYTOSOL] *\ - \* r2206b, N-acetyl-D-glucosamine 6-phosphate + (R)-lactate -> N-acetyl-beta-muramate 6-phosphate + H2O *\ - \* r2206a, N-acetyl-beta-muramate 6-phosphate + H2O -> N-acetyl-D-glucosamine 6-phosphate + (R)-lactate *\ - - + r2206b -1.0 r2206a = 0 - -c1574: \* Charged-LEU-tRNAs[CCO-CYTOSOL] *\ - \* objReactionName, an L-leucyl-[tRNAleu] *\ - \* r1771, a tRNAleu + L-leucine + ATP + H+ -> an L-leucyl-[tRNAleu] + AMP + diphosphate *\ - \* r1265b, a tRNAleu + L-leucyl-[protein] + H+ -> an L-leucyl-[tRNAleu] + a protein *\ - \* r1265a, an L-leucyl-[tRNAleu] + a protein -> a tRNAleu + L-leucyl-[protein] + H+ *\ - - -0.437778 objReactionName + r1771 + r1265b -1.0 r1265a = 0 - -c193: \* PHOSPHATIDYLETHANOLAMINE-KDO2[CCO-CYTOSOL] *\ - \* r250, a lipopolysaccharide[cytosol] -> a lipopolysaccharide[extracellular space] *\ - \* r98, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - - -1.0 r250 -1.0 r98 = 0 - -c2023: \* BISOHMYR-GLUCOSAMINYL-1P[CCO-CYTOSOL] *\ - \* r2351, 2,3-bis[(3R)-3-hydroxymyristoyl]-alpha-D-glucosaminyl 1-phosphate + UDP-2-N,3-O-bis[(3R)-3-hydroxytetradecanoyl]-alpha-D-glucosamine -> lipid A disaccharide + UDP + H+ *\ - \* r1862, UDP-2-N,3-O-bis[(3R)-3-hydroxytetradecanoyl]-alpha-D-glucosamine + H2O -> 2,3-bis[(3R)-3-hydroxymyristoyl]-alpha-D-glucosaminyl 1-phosphate + UMP + 2 H+ *\ - - -1.0 r2351 + r1862 = 0 - -c1062: \* 5-P-RIBOSYL-N-FORMYLGLYCINEAMIDE[CCO-CYTOSOL] *\ - \* r2027, N1-(5-phospho-beta-D-ribosyl)glycinamide + formate + ATP -> N2-formyl-N1-(5-phospho-beta-D-ribosyl)glycinamide + ADP + phosphate + H+ *\ - \* r1736, ATP + N2-formyl-N1-(5-phospho-beta-D-ribosyl)glycinamide + L-glutamine + H2O -> ADP + 2-(formamido)-N1-(5-phospho-beta-D-ribosyl)acetamidine + L-glutamate + phosphate + H+ *\ - \* r748b, a tetrahydrofolate + N2-formyl-N1-(5-phospho-beta-D-ribosyl)glycinamide + H+ -> an N10-formyl-tetrahydrofolate + N1-(5-phospho-beta-D-ribosyl)glycinamide *\ - \* r748a, an N10-formyl-tetrahydrofolate + N1-(5-phospho-beta-D-ribosyl)glycinamide -> a tetrahydrofolate + N2-formyl-N1-(5-phospho-beta-D-ribosyl)glycinamide + H+ *\ - - + r2027 -1.0 r1736 -1.0 r748b + r748a = 0 - -c179: \* CPD0-1283[CCO-CYTOSOL] *\ - \* r243, a lipopolysaccharide[cytosol] -> a lipopolysaccharide[extracellular space] *\ - \* r91, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - - -1.0 r243 -1.0 r91 = 0 - -c693: \* RHAMNOSE[CCO-PERI-BAC] *\ - \* r407, L-rhamnose[periplasmic space] + H+[periplasmic space] -> L-rhamnose[cytosol] + H+[cytosol] *\ - - -1.0 r407 = 0 - -c324: \* CARBON-MONOXIDE[CCO-PERI-BAC] *\ - \* r2492_e, carbon monoxide *\ - \* r165b, carbon monoxide[cytosol] -> carbon monoxide[periplasmic space] *\ - \* r165a, carbon monoxide[periplasmic space] -> carbon monoxide[cytosol] *\ - - -1.0 r2492_e + r165b -1.0 r165a = 0 - -c47: \* CPD-9247[CCO-EXTRACELLULAR] *\ - \* r25, a long-chain fatty acid[extracellular space] -> a long-chain fatty acid[periplasmic space] *\ - - -1.0 r25 = 0 - -c1717: \* POLYMER-INST-CIS-DELTA3-ENOYL-COA-C16-H32[CCO-CYTOSOL] *\ - \* r1420b, a trans-2-enoyl-CoA -> a cis-3-enoyl-CoA *\ - \* r1420a, a cis-3-enoyl-CoA -> a trans-2-enoyl-CoA *\ - - + r1420b -1.0 r1420a = 0 - -c1438: \* COPROPORPHYRINOGEN_III[CCO-CYTOSOL] *\ - \* r2234, coproporphyrinogen III + 2 S-adenosyl-L-methionine -> protoporphyrinogen IX + 2 CO2 + 2 L-methionine + 2 5'-deoxyadenosine *\ - \* r2183, coproporphyrinogen III + oxygen + 2 H+ -> protoporphyrinogen IX + 2 CO2 + 2 H2O *\ - \* r1092, uroporphyrinogen-III + 4 H+ -> 4 CO2 + coproporphyrinogen III *\ - - -1.0 r2234 -1.0 r2183 + r1092 = 0 - -c918: \* CPD-15818[CCO-CYTOSOL] *\ - \* r1627b, aldehydo-D-ribose -> beta-D-ribofuranose *\ - \* r1627a, beta-D-ribofuranose -> aldehydo-D-ribose *\ - \* r1364b, D-ribofuranose -> aldehydo-D-ribose *\ - \* r1364a, aldehydo-D-ribose -> D-ribofuranose *\ - \* r666b, D-ribopyranose -> aldehydo-D-ribose *\ - \* r666a, aldehydo-D-ribose -> D-ribopyranose *\ - - -1.0 r1627b + r1627a + r1364b -1.0 r1364a + r666b -1.0 r666a = 0 - -c490: \* CPD0-929[CCO-EXTRACELLULAR] *\ - \* r258, a lipopolysaccharide[cytosol] -> a lipopolysaccharide[extracellular space] *\ - - + r258 = 0 - -c530: \* L-SELENOCYSTEINE[CCO-CYTOSOL] *\ - \* r1811b, L-alanine + selenide + an unknown oxidized electron acceptor + 2 H+ -> L-selenocysteine + an unknown reduced electron acceptor *\ - \* r1811a, L-selenocysteine + an unknown reduced electron acceptor -> L-alanine + selenide + an unknown oxidized electron acceptor + 2 H+ *\ - \* r331, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - \* r285, L-selenocysteine[periplasmic space] -> L-selenocysteine[cytosol] *\ - - + r1811b -1.0 r1811a -1.0 r331 + r285 = 0 - -c546: \* URACIL[CCO-PERI-BAC] *\ - \* r2480_e, uracil *\ - \* r470, uracil[periplasmic space] + H+[periplasmic space] -> uracil[cytosol] + H+[cytosol] *\ - \* r294, uracil[cytosol] -> uracil[periplasmic space] *\ - - -1.0 r2480_e -1.0 r470 + r294 = 0 - -c226: \* KDO2-PALMITOLEOYL-LIPID-IVA[CCO-PERI-BAC] *\ - \* r114, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - - + r114 = 0 - -c910: \* CPD-1136[CCO-CYTOSOL] *\ - \* r1436, (2S,3S)-2-methylcitrate -> cis-2-methylaconitate + H2O *\ - \* r661b, cis-2-methylaconitate + H2O -> (2R,3S)-2-methylisocitrate *\ - \* r661a, (2R,3S)-2-methylisocitrate -> cis-2-methylaconitate + H2O *\ - - + r1436 -1.0 r661b + r661a = 0 - -c2152: \* tRNA-uridine65[CCO-CYTOSOL] *\ - \* r2207b, a tRNA pseudouridine65 -> a uridine65 in tRNA *\ - \* r2207a, a uridine65 in tRNA -> a tRNA pseudouridine65 *\ - - + r2207b -1.0 r2207a = 0 - -c1149: \* CPD-7221[CCO-CYTOSOL] *\ - \* r1796b, 2-trans-dodecenoyl-CoA -> 3-cis-dodecenoyl-CoA *\ - \* r1796a, 3-cis-dodecenoyl-CoA -> 2-trans-dodecenoyl-CoA *\ - \* r1416b, a trans-2-enoyl-CoA -> a cis-3-enoyl-CoA *\ - \* r1416a, a cis-3-enoyl-CoA -> a trans-2-enoyl-CoA *\ - \* r804b, 3-keto-5-cis-tetradecenoyl-CoA + coenzyme A -> 3-cis-dodecenoyl-CoA + acetyl-CoA *\ - \* r804a, 3-cis-dodecenoyl-CoA + acetyl-CoA -> 3-keto-5-cis-tetradecenoyl-CoA + coenzyme A *\ - - + r1796b -1.0 r1796a + r1416b -1.0 r1416a + r804b -1.0 r804a = 0 - -c1067: \* DEOXY-D-RIBOSE-1-PHOSPHATE[CCO-CYTOSOL] *\ - \* r1897b, guanine + 2-deoxy-alpha-D-ribose 1-phosphate -> 2'-deoxyguanosine + phosphate *\ - \* r1897a, 2'-deoxyguanosine + phosphate -> guanine + 2-deoxy-alpha-D-ribose 1-phosphate *\ - \* r1494b, 2-deoxy-D-ribose 5-phosphate -> 2-deoxy-alpha-D-ribose 1-phosphate *\ - \* r1494a, 2-deoxy-alpha-D-ribose 1-phosphate -> 2-deoxy-D-ribose 5-phosphate *\ - \* r1401b, hypoxanthine + 2-deoxy-alpha-D-ribose 1-phosphate -> 2'-deoxyinosine + phosphate *\ - \* r1401a, 2'-deoxyinosine + phosphate -> hypoxanthine + 2-deoxy-alpha-D-ribose 1-phosphate *\ - \* r1305b, adenine + 2-deoxy-alpha-D-ribose 1-phosphate -> 2'-deoxyadenosine + phosphate *\ - \* r1305a, 2'-deoxyadenosine + phosphate -> adenine + 2-deoxy-alpha-D-ribose 1-phosphate *\ - \* r1073b, 2-deoxy-alpha-D-ribose 1-phosphate + thymine -> thymidine + phosphate *\ - \* r1073a, thymidine + phosphate -> 2-deoxy-alpha-D-ribose 1-phosphate + thymine *\ - \* r750b, 2-deoxy-alpha-D-ribose 1-phosphate + uracil -> 2'-deoxyuridine + phosphate *\ - \* r750a, 2'-deoxyuridine + phosphate -> 2-deoxy-alpha-D-ribose 1-phosphate + uracil *\ - - -1.0 r1897b + r1897a + r1494b -1.0 r1494a -1.0 r1401b + r1401a -1.0 r1305b + r1305a -1.0 r1073b + r1073a -1.0 r750b + r750a = 0 - -c812: \* 4-AMINO-BUTYRATE[CCO-CYTOSOL] *\ - \* r2037, L-glutamate + H+ -> CO2 + 4-aminobutanoate *\ - \* r1603b, L-glutamate + succinate semialdehyde -> 2-oxoglutarate + 4-aminobutanoate *\ - \* r1603a, 2-oxoglutarate + 4-aminobutanoate -> L-glutamate + succinate semialdehyde *\ - \* r1081, 4-(gamma-L-glutamylamino)butanoate + H2O -> 4-aminobutanoate + L-glutamate *\ - \* r1025, 4-aminobutanal + NAD+ + H2O -> 4-aminobutanoate + NADH + 2 H+ *\ - \* r638, 4-aminobutanoate[cytosol] + L-glutamate[periplasmic space] -> L-glutamate[cytosol] + 4-aminobutanoate[periplasmic space] *\ - \* r536, 4-aminobutanoate[periplasmic space] + H+[periplasmic space] -> 4-aminobutanoate[cytosol] + H+[cytosol] *\ - - + r2037 + r1603b -1.0 r1603a + r1081 + r1025 -1.0 r638 + r536 = 0 - -c1899: \* CPD-479[CCO-CYTOSOL] *\ - \* r1813a, L-methionine + a 2-oxo carboxylate -> 2-oxo-4-methylthiobutanoate + a standard alpha amino acid *\ - \* r1813b, 2-oxo-4-methylthiobutanoate + a standard alpha amino acid -> L-methionine + a 2-oxo carboxylate *\ - \* r1814a, L-methionine + a 2-oxo carboxylate -> 2-oxo-4-methylthiobutanoate + a standard alpha amino acid *\ - \* r1814b, 2-oxo-4-methylthiobutanoate + a standard alpha amino acid -> L-methionine + a 2-oxo carboxylate *\ - \* r1815a, L-methionine + a 2-oxo carboxylate -> 2-oxo-4-methylthiobutanoate + a standard alpha amino acid *\ - \* r1815b, 2-oxo-4-methylthiobutanoate + a standard alpha amino acid -> L-methionine + a 2-oxo carboxylate *\ - \* r1816a, L-methionine + a 2-oxo carboxylate -> 2-oxo-4-methylthiobutanoate + a standard alpha amino acid *\ - \* r1816b, 2-oxo-4-methylthiobutanoate + a standard alpha amino acid -> L-methionine + a 2-oxo carboxylate *\ - - + r1813a -1.0 r1813b +0.0 r1814a +0.0 r1814b + r1815a -1.0 r1815b + r1816a -1.0 r1816b = 0 - -c1994: \* 2C-METH-D-ERYTHRITOL-CYCLODIPHOSPHATE[CCO-CYTOSOL] *\ - \* r2163, 2-C-methyl-D-erythritol-2,4-cyclodiphosphate + a reduced flavodoxin -> 1-hydroxy-2-methyl-2-(E)-butenyl 4-diphosphate + an oxidized flavodoxin + H2O + H+ *\ - \* r1822, 2-phospho-4-(cytidine 5'-diphospho)-2-C-methyl-D-erythritol -> CMP + 2-C-methyl-D-erythritol-2,4-cyclodiphosphate *\ - - -1.0 r2163 + r1822 = 0 - -c1410: \* RIBULOSE-5P[CCO-CYTOSOL] *\ - \* r2016b, D-xylulose 5-phosphate -> D-ribulose 5-phosphate *\ - \* r2016a, D-ribulose 5-phosphate -> D-xylulose 5-phosphate *\ - \* r1820, D-ribulose 5-phosphate -> 1-deoxy-L-glycero-tetrulose 4-phosphate + formate + H+ *\ - \* r1803, D-gluconate 6-phosphate + NADP+ -> D-ribulose 5-phosphate + CO2 + NADPH *\ - \* r1488b, D-ribulose 5-phosphate -> D-arabinose 5-phosphate *\ - \* r1488a, D-arabinose 5-phosphate -> D-ribulose 5-phosphate *\ - \* r1064b, D-ribulose 5-phosphate -> D-ribose 5-phosphate *\ - \* r1064a, D-ribose 5-phosphate -> D-ribulose 5-phosphate *\ - - + r2016b -1.0 r2016a -1.0 r1820 + r1803 -1.0 r1488b + r1488a -1.0 r1064b + r1064a = 0 - -c839: \* DEOXYADENOSINE[CCO-CYTOSOL] *\ - \* r583, 2'-deoxyadenosine[periplasmic space] + H+[periplasmic space] -> 2'-deoxyadenosine[cytosol] + H+[cytosol] *\ - \* r598, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r1305a, 2'-deoxyadenosine + phosphate -> adenine + 2-deoxy-alpha-D-ribose 1-phosphate *\ - \* r1305b, adenine + 2-deoxy-alpha-D-ribose 1-phosphate -> 2'-deoxyadenosine + phosphate *\ - \* r1352, dAMP + H2O -> 2'-deoxyadenosine + phosphate *\ - \* r1369, 2'-deoxyadenosine + H+ + H2O -> ammonium + 2'-deoxyinosine *\ - \* r1921, a 2'-deoxyribonucleoside 5'-monophosphate + H2O -> a 2'-deoxynucleoside + phosphate *\ - - + r583 + r598 -1.0 r1305a + r1305b + r1352 -1.0 r1369 + r1921 = 0 - -c1419: \* DTDP-DEOH-DEOXY-GLUCOSE[CCO-CYTOSOL] *\ - \* r2406b, dTDP-4-dehydro-6-deoxy-alpha-D-glucopyranose + NADH + H+ -> dTDP-beta-L-rhamnose + NAD+ *\ - \* r2406a, dTDP-beta-L-rhamnose + NAD+ -> dTDP-4-dehydro-6-deoxy-alpha-D-glucopyranose + NADH + H+ *\ - \* r2103, dTDP-4-dehydro-6-deoxy-alpha-D-glucopyranose -> dTDP-4-dehydro-beta-L-rhamnose *\ - \* r1497b, dTDP-4-dehydro-6-deoxy-alpha-D-glucopyranose + L-glutamate -> dTDP-thomosamine + 2-oxoglutarate *\ - \* r1497a, dTDP-thomosamine + 2-oxoglutarate -> dTDP-4-dehydro-6-deoxy-alpha-D-glucopyranose + L-glutamate *\ - \* r1071, dTDP-alpha-D-glucose -> dTDP-4-dehydro-6-deoxy-alpha-D-glucopyranose + H2O *\ - - -1.0 r2406b + r2406a -1.0 r2103 -1.0 r1497b + r1497a + r1071 = 0 - -c1839: \* Cyclic-N6-threonylcarbamoyl-A37-tRNAs[CCO-CYTOSOL] *\ - \* r1581b, cyclic N6-L-threonylcarbamoyladenosine 37 in tRNA + ADP + phosphate -> N6-L-threonylcarbamoyladenine37 in tRNA + ATP *\ - \* r1581a, N6-L-threonylcarbamoyladenine37 in tRNA + ATP -> cyclic N6-L-threonylcarbamoyladenosine 37 in tRNA + ADP + phosphate *\ - - -1.0 r1581b + r1581a = 0 - -c1317: \* Oxidized-cytochromes-c553[CCO-CYTOSOL] *\ - \* r945b, trimethylamine N-oxide + 2 a reduced c-type cytochrome + 3 H+ -> trimethylamine + 2 an oxidized c-type cytochrome + H2O *\ - \* r945a, trimethylamine + 2 an oxidized c-type cytochrome + H2O -> trimethylamine N-oxide + 2 a reduced c-type cytochrome + 3 H+ *\ - - +2.0 r945b -2.0 r945a = 0 - -c180: \* CPD0-1283[CCO-PERI-BAC] *\ - \* r91, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - - + r91 = 0 - -c1833: \* L-ARGININO-SUCCINATE[CCO-CYTOSOL] *\ - \* r2084b, L-arginine + fumarate -> L-arginino-succinate *\ - \* r2084a, L-arginino-succinate -> L-arginine + fumarate *\ - \* r1573, L-aspartate + L-citrulline + ATP -> L-arginino-succinate + AMP + diphosphate + H+ *\ - - + r2084b -1.0 r2084a + r1573 = 0 - -c1264: \* DEPHOSPHO-COA[CCO-CYTOSOL] *\ - \* r896, 3'-dephospho-CoA + ATP -> ADP + coenzyme A + H+ *\ - \* r1879, 4'-phosphopantetheine + ATP + H+ -> 3'-dephospho-CoA + diphosphate *\ - - -1.0 r896 + r1879 = 0 - -c825: \* CPD-15530[CCO-PERI-BAC] *\ - \* r576, D-glucuronate[periplasmic space] + H+[periplasmic space] -> D-glucuronate[cytosol] + H+[cytosol] *\ - - -1.0 r576 = 0 - -c1193: \* 3-oxo-cis-D7-tetradecenoyl-ACPs[CCO-CYTOSOL] *\ - \* r839, a cis-delta5-dodecenoyl-[acp] + a malonyl-[acp] + H+ -> a 3-oxo-cis-delta7-tetradecenoyl-[acp] + a holo-[acyl-carrier protein] + CO2 *\ - \* r1191, a 3-oxo-cis-delta7-tetradecenoyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxy cis delta7-tetradecenoyl-[acp] + NADP+ *\ - - + r839 -1.0 r1191 = 0 - -c1032: \* POLYMER-INST-L-3-HYDROXYACYL-COA-C16-H32[CCO-CYTOSOL] *\ - \* r1384, a (3S)-3-hydroxyacyl-CoA + NAD+ -> a 3-oxoacyl-CoA + NADH + H+ *\ - \* r733, a trans-2-enoyl-CoA + H2O -> a (3S)-3-hydroxyacyl-CoA *\ - - -1.0 r1384 + r733 = 0 - -c2156: \* FADH2[CCO-PERI-BAC] *\ - \* r2221b, a carboxylate[periplasmic space] + FADH2[periplasmic space] -> an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] *\ - \* r2221a, an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] -> a carboxylate[periplasmic space] + FADH2[periplasmic space] *\ - \* r2220b, a carboxylate[periplasmic space] + FADH2[periplasmic space] -> an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] *\ - \* r2220a, an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] -> a carboxylate[periplasmic space] + FADH2[periplasmic space] *\ - \* r2219b, a carboxylate[periplasmic space] + FADH2[periplasmic space] -> an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] *\ - \* r2219a, an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] -> a carboxylate[periplasmic space] + FADH2[periplasmic space] *\ - \* r2218b, a carboxylate[periplasmic space] + FADH2[periplasmic space] -> an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] *\ - \* r2218a, an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] -> a carboxylate[periplasmic space] + FADH2[periplasmic space] *\ - \* r2217b, a carboxylate[periplasmic space] + FADH2[periplasmic space] -> an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] *\ - \* r2217a, an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] -> a carboxylate[periplasmic space] + FADH2[periplasmic space] *\ - \* r2216b, a carboxylate[periplasmic space] + FADH2[periplasmic space] -> an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] *\ - \* r2216a, an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] -> a carboxylate[periplasmic space] + FADH2[periplasmic space] *\ - \* r2215b, a carboxylate[periplasmic space] + FADH2[periplasmic space] -> an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] *\ - \* r2215a, an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] -> a carboxylate[periplasmic space] + FADH2[periplasmic space] *\ - \* r2214b, a carboxylate[periplasmic space] + FADH2[periplasmic space] -> an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] *\ - \* r2214a, an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] -> a carboxylate[periplasmic space] + FADH2[periplasmic space] *\ - - -1.0 r2221b + r2221a -1.0 r2220b + r2220a -1.0 r2219b + r2219a -1.0 r2218b + r2218a -1.0 r2217b + r2217a -1.0 r2216b + r2216a -1.0 r2215b + r2215a -1.0 r2214b + r2214a = 0 - -c2214: \* QUINATE[CCO-CYTOSOL] *\ - \* r2374b, 3-dehydroquinate + NAD(P)H + H+ -> L-quinate + NAD(P)+ *\ - \* r2374a, L-quinate + NAD(P)+ -> 3-dehydroquinate + NAD(P)H + H+ *\ - \* r2373b, 3-dehydroquinate + NAD(P)H + H+ -> L-quinate + NAD(P)+ *\ - \* r2373a, L-quinate + NAD(P)+ -> 3-dehydroquinate + NAD(P)H + H+ *\ - - + r2374b -1.0 r2374a + r2373b -1.0 r2373a = 0 - -c218: \* HEPTOSYL-KDO2-LIPID-IVA[CCO-PERI-BAC] *\ - \* r110, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - - + r110 = 0 - -c284: \* SULFATE[CCO-CYTOSOL] *\ - \* r143, sulfate[periplasmic space] + ATP + H2O -> sulfate[cytosol] + ADP + phosphate + H+ *\ - \* r1407, sulfate + ATP + H+ -> adenosine 5'-phosphosulfate + diphosphate *\ - - + r143 -1.0 r1407 = 0 - -c1189: \* CPD-564[CCO-CYTOSOL] *\ - \* r2498_e, S-ribosyl-L-homocysteine *\ - \* r1907, S-ribosyl-L-homocysteine -> L-homocysteine + autoinducer 2 *\ - \* r836, S-adenosyl-L-homocysteine + H2O -> S-ribosyl-L-homocysteine + adenine *\ - - -1.0 r2498_e -1.0 r1907 + r836 = 0 - -c2032: \* OCTAPRENYL-METHYL-OH-METHOXY-BENZQ[CCO-CYTOSOL] *\ - \* r2302, S-adenosyl-L-methionine + 3-demethylubiquinol-8 -> S-adenosyl-L-homocysteine + ubiquinol-8 + H+ *\ - \* r1875, 6-methoxy-3-methyl-2-all-trans-octaprenyl-1,4-benzoquinol + an unknown reduced electron acceptor + oxygen -> 3-demethylubiquinol-8 + an unknown oxidized electron acceptor + H2O *\ - - -1.0 r2302 + r1875 = 0 - -c1148: \* LACTALD[CCO-CYTOSOL] *\ - \* r2150, (S)-lactaldehyde + NAD+ + H2O -> (S)-lactate + NADH + 2 H+ *\ - \* r1656b, (S)-lactaldehyde + NADH + H+ -> (S)-propane-1,2-diol + NAD+ *\ - \* r1656a, (S)-propane-1,2-diol + NAD+ -> (S)-lactaldehyde + NADH + H+ *\ - \* r1590b, (S)-lactaldehyde + glycerone phosphate -> L-rhamnulose 1-phosphate *\ - \* r1590a, L-rhamnulose 1-phosphate -> (S)-lactaldehyde + glycerone phosphate *\ - \* r1561b, (S)-lactaldehyde + NADPH + H+ -> (S)-propane-1,2-diol + NADP+ *\ - \* r1561a, (S)-propane-1,2-diol + NADP+ -> (S)-lactaldehyde + NADPH + H+ *\ - \* r1511b, (S)-lactaldehyde + glycerone phosphate -> L-fuculose 1-phosphate *\ - \* r1511a, L-fuculose 1-phosphate -> (S)-lactaldehyde + glycerone phosphate *\ - \* r932, methylglyoxal + NADPH + H+ -> (S)-lactaldehyde + NADP+ *\ - \* r803b, pyruvate + (S)-lactaldehyde -> 2-dehydro-3-deoxy-L-rhamnonate *\ - \* r803a, 2-dehydro-3-deoxy-L-rhamnonate -> pyruvate + (S)-lactaldehyde *\ - - -1.0 r2150 -1.0 r1656b + r1656a -1.0 r1590b + r1590a -1.0 r1561b + r1561a -1.0 r1511b + r1511a + r932 -1.0 r803b + r803a = 0 - -c166: \* S2O3[CCO-CYTOSOL] *\ - \* r1006a, a reduced thioredoxin + thiosulfate -> an oxidized thioredoxin + sulfite + hydrogen sulfide + H+ *\ - \* r1006b, an oxidized thioredoxin + sulfite + hydrogen sulfide + H+ -> a reduced thioredoxin + thiosulfate *\ - - -1.0 r1006a + r1006b = 0 - -c210: \* CPD0-929[CCO-PERI-BAC] *\ - \* r106, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - - + r106 = 0 - -c802: \* SHIKIMATE[CCO-CYTOSOL] *\ - \* r1403, shikimate + ATP -> shikimate 3-phosphate + ADP + H+ *\ - \* r1882, 3-dehydroshikimate + NAD(P)H + H+ -> shikimate + NAD(P)+ *\ - \* r1883, 3-dehydroshikimate + NAD(P)H + H+ -> shikimate + NAD(P)+ *\ - \* r1899a, shikimate + NADP+ -> 3-dehydroshikimate + NADPH + H+ *\ - \* r1899b, 3-dehydroshikimate + NADPH + H+ -> shikimate + NADP+ *\ - - -1.0 r1403 + r1882 + r1883 -1.0 r1899a + r1899b = 0 - -c2163: \* BENZALDEHYDE[CCO-PERI-BAC] *\ - \* r2221b, a carboxylate[periplasmic space] + FADH2[periplasmic space] -> an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] *\ - \* r2221a, an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] -> a carboxylate[periplasmic space] + FADH2[periplasmic space] *\ - - + r2221b -1.0 r2221a = 0 - -c888: \* Lactate[CCO-PERI-BAC] *\ - \* r644b, lactate[periplasmic space] -> lactate[cytosol] *\ - \* r644a, lactate[cytosol] -> lactate[periplasmic space] *\ - - -1.0 r644b + r644a = 0 - -c339: \* MALTOTETRAOSE[CCO-CYTOSOL] *\ - \* r965, maltopentaose + H2O -> maltotetraose + alpha-D-glucose *\ - \* r1131a, maltopentaose + phosphate -> alpha-D-glucose 1-phosphate + maltotetraose *\ - \* r1131b, alpha-D-glucose 1-phosphate + maltotetraose -> maltopentaose + phosphate *\ - \* r1291, maltotriose + maltose -> maltotetraose + D-glucopyranose *\ - \* r1946a, maltotetraose + phosphate -> maltotriose + alpha-D-glucose 1-phosphate *\ - \* r1946b, maltotriose + alpha-D-glucose 1-phosphate -> maltotetraose + phosphate *\ - \* r2050a, maltopentaose + D-glucopyranose -> maltotetraose + maltose *\ - \* r2050b, maltotetraose + maltose -> maltopentaose + D-glucopyranose *\ - - + r965 + r1131a -1.0 r1131b + r1291 -1.0 r1946a + r1946b + r2050a -1.0 r2050b = 0 - -c644: \* CPD-7836[CCO-CYTOSOL] *\ - \* r2257, an acyl-CoA + H2O -> a carboxylate + coenzyme A + H+ *\ - \* r2061b, a 2,3,4-saturated fatty acid + acetyl-CoA -> a 2,3,4-saturated fatty acyl CoA + acetate *\ - \* r2061a, a 2,3,4-saturated fatty acyl CoA + acetate -> a 2,3,4-saturated fatty acid + acetyl-CoA *\ - \* r1276, a 2,3,4-saturated fatty acid + ATP + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + AMP + diphosphate *\ - \* r363, a long-chain fatty acid[periplasmic space] -> a long-chain fatty acid[cytosol] *\ - - + r2257 -1.0 r2061b + r2061a -1.0 r1276 + r363 = 0 - -c1263: \* Acetoacetyl-ACPs[CCO-CYTOSOL] *\ - \* r1136, a 3-oxoacyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxyacyl-[acyl-carrier protein] + NADP+ *\ - \* r973, a malonyl-[acp] + an acetyl-[acp] + H+ -> a holo-[acyl-carrier protein] + an acetoacetyl-[acp] + CO2 *\ - \* r908, an acetoacetyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxybutanoyl-[acp] + NADP+ *\ - \* r895, acetyl-CoA + a malonyl-[acp] + H+ -> an acetoacetyl-[acp] + CO2 + coenzyme A *\ - - -1.0 r1136 + r973 -1.0 r908 + r895 = 0 - -c247: \* ARG[CCO-PERI-BAC] *\ - \* r125, ATP + L-arginine[periplasmic space] + H2O -> ADP + L-arginine[cytosol] + phosphate + H+ *\ - \* r339, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - - -1.0 r125 + r339 = 0 - -c1529: \* PSEUDOURIDINE-5-P[CCO-CYTOSOL] *\ - \* r1630a, D-ribofuranose 5-phosphate + uracil -> pseudouridine 5'-phosphate + H2O *\ - \* r1630b, pseudouridine 5'-phosphate + H2O -> D-ribofuranose 5-phosphate + uracil *\ - - + r1630a -1.0 r1630b = 0 - -c1535: \* THIAMINE-P[CCO-CYTOSOL] *\ - \* r2327, 2-[(2R,5Z)-(2-carboxy-4-methylthiazol-5(2H)-ylidene]ethyl phosphate + 4-amino-2-methyl-5-diphosphomethylpyrimidine + 2 H+ -> thiamin phosphate + CO2 + diphosphate *\ - \* r1729, thiamin phosphate + ATP -> thiamin diphosphate + ADP *\ - \* r1231b, thiamin phosphate + phosphate + H+ -> thiamin diphosphate + H2O *\ - \* r1231a, thiamin diphosphate + H2O -> thiamin phosphate + phosphate + H+ *\ - - + r2327 -1.0 r1729 -1.0 r1231b + r1231a = 0 - -c1628: \* CPD-10330[CCO-CYTOSOL] *\ - \* r1975a, alpha-D-ribofuranose -> beta-D-ribofuranose *\ - \* r1975b, beta-D-ribofuranose -> alpha-D-ribofuranose *\ - - -1.0 r1975a + r1975b = 0 - -c974: \* FORMALDEHYDE[CCO-CYTOSOL] *\ - \* r1014a, S-hydroxymethylglutathione -> formaldehyde + glutathione *\ - \* r1014b, formaldehyde + glutathione -> S-hydroxymethylglutathione *\ - \* r1501, an alkylsulfonate + FMNH2 + oxygen -> an aldehyde + sulfite + FMN + H2O + 2 H+ *\ - \* r1566, formaldehyde + a tetrahydrofolate -> a 5,10-methylene-tetrahydrofolate + H2O *\ - \* r1567, formaldehyde + a tetrahydrofolate -> a 5,10-methylene-tetrahydrofolate + H2O *\ - - + r1014a -1.0 r1014b + r1501 -1.0 r1566 -1.0 r1567 = 0 - -c1398: \* ADENOSINE_DIPHOSPHATE_RIBOSE[CCO-CYTOSOL] *\ - \* r1113, NAD+ + H2O -> ADP-D-ribose + nicotinamide + H+ *\ - \* r1045, ADP-D-ribose + H2O -> AMP + D-ribofuranose 5-phosphate + 2 H+ *\ - - + r1113 -1.0 r1045 = 0 - -c277: \* GLT[CCO-PERI-BAC] *\ - \* r1840, glutathione[periplasmic space] + H2O[periplasmic space] -> L-cysteinyl-glycine[periplasmic space] + L-glutamate[periplasmic space] *\ - \* r638, 4-aminobutanoate[cytosol] + L-glutamate[periplasmic space] -> L-glutamate[cytosol] + 4-aminobutanoate[periplasmic space] *\ - \* r461, L-glutamate[periplasmic space] + 2 H+[periplasmic space] -> L-glutamate[cytosol] + 2 H+[cytosol] *\ - \* r438, 2 Na+[periplasmic space] + L-glutamate[periplasmic space] -> 2 Na+[cytosol] + L-glutamate[cytosol] *\ - \* r326, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - \* r140, ATP + L-glutamate[periplasmic space] + H2O -> ADP + L-glutamate[cytosol] + phosphate + H+ *\ - - + r1840 -1.0 r638 -1.0 r461 -1.0 r438 + r326 -1.0 r140 = 0 - -c1334: \* Enoylglutaryl-ACP-methyl-esters[CCO-CYTOSOL] *\ - \* r1112, a (3R)-3-hydroxyglutaryl-[acp] methyl ester -> an enoylglutaryl-[acp] methyl ester + H2O *\ - \* r961, an enoylglutaryl-[acp] methyl ester + NADH + H+ -> a glutaryl-[acp] methyl ester + NAD+ *\ - - + r1112 -1.0 r961 = 0 - -c1188: \* METHYLENE-THF-GLU-N[CCO-CYTOSOL] *\ - \* r834b, a [glycine-cleavage complex H protein] N6-dihydrolipoyl-L-lysine + a 5,10-methylene-tetrahydrofolate + ammonium -> a [glycine-cleavage complex H protein] N6-aminomethyldihydrolipoyl-L-lysine + a tetrahydrofolate *\ - \* r834a, a [glycine-cleavage complex H protein] N6-aminomethyldihydrolipoyl-L-lysine + a tetrahydrofolate -> a [glycine-cleavage complex H protein] N6-dihydrolipoyl-L-lysine + a 5,10-methylene-tetrahydrofolate + ammonium *\ - - -1.0 r834b + r834a = 0 - -c506: \* SUC[CCO-CYTOSOL] *\ - \* r272, succinate[periplasmic space] -> succinate[cytosol] *\ - \* r446, a C4-dicarboxylate[periplasmic space] + 2 H+[periplasmic space] -> a C4-dicarboxylate[cytosol] + 2 H+[cytosol] *\ - \* r463, succinate[cytosol] + (S)-malate[periplasmic space] -> (S)-malate[cytosol] + succinate[periplasmic space] *\ - \* r519, a C4-dicarboxylate[periplasmic space] + 3 H+[periplasmic space] -> a C4-dicarboxylate[cytosol] + 3 H+[cytosol] *\ - \* r531, succinate[cytosol] + fumarate[periplasmic space] -> fumarate[cytosol] + succinate[periplasmic space] *\ - \* r630, succinate[periplasmic space] + 2 H+[periplasmic space] -> succinate[cytosol] + 2 H+[cytosol] *\ - \* r631, succinate[cytosol] + L-aspartate[periplasmic space] -> L-aspartate[cytosol] + succinate[periplasmic space] *\ - \* r669, O-succinyl-L-homoserine -> succinate + (2Z)-2-aminobut-2-enoate + 2 H+ *\ - \* r1000, O-succinyl-L-homoserine + H2O -> 2-oxobutanoate + succinate + ammonium + H+ *\ - \* r1062a, succinate + ATP + coenzyme A -> succinyl-CoA + ADP + phosphate *\ - \* r1062b, succinyl-CoA + ADP + phosphate -> succinate + ATP + coenzyme A *\ - \* r1211, L-aspartate + fumarate -> 2-iminosuccinate + succinate + H+ *\ - \* r1222, N2-succinylglutamate + H2O -> succinate + L-glutamate *\ - \* r1270a, (2R,3S)-2-methylisocitrate -> succinate + pyruvate *\ - \* r1270b, succinate + pyruvate -> (2R,3S)-2-methylisocitrate *\ - \* r1635, succinate + an ubiquinone[inner membrane] -> fumarate + an ubiquinol[inner membrane] *\ - \* r1669a, fumarate + a menaquinol[inner membrane] -> succinate + a menaquinone[inner membrane] *\ - \* r1669b, succinate + a menaquinone[inner membrane] -> fumarate + a menaquinol[inner membrane] *\ - \* r1789, L-cysteine + O-succinyl-L-homoserine -> succinate + L-cystathionine + H+ *\ - \* r2191a, N-succinyl-L,L-2,6-diaminopimelate + H2O -> L,L-diaminopimelate + succinate *\ - \* r2191b, L,L-diaminopimelate + succinate -> N-succinyl-L,L-2,6-diaminopimelate + H2O *\ - \* r2303, succinate semialdehyde + NAD+ + H2O -> succinate + NADH + 2 H+ *\ - \* r2395, succinate semialdehyde + NADP+ + H2O -> succinate + NADPH + 2 H+ *\ - \* r2396a, propanoyl-CoA + succinate -> propanoate + succinyl-CoA *\ - \* r2396b, propanoate + succinyl-CoA -> propanoyl-CoA + succinate *\ - - + r272 + r446 -1.0 r463 + r519 -1.0 r531 + r630 -1.0 r631 + r669 + r1000 -1.0 r1062a + r1062b + r1211 + r1222 + r1270a -1.0 r1270b -1.0 r1635 + r1669a -1.0 r1669b + r1789 - + r2191a -1.0 r2191b + r2303 + r2395 -1.0 r2396a + r2396b = 0 - -c2131: \* Phenoxyl-rad-of-phenolic-donors[CCO-CYTOSOL] *\ - \* r2173b, 2 a phenoxyl radical of a phenolic donor + 2 H2O -> 2 a phenolic donor + hydrogen peroxide *\ - \* r2173a, 2 a phenolic donor + hydrogen peroxide -> 2 a phenoxyl radical of a phenolic donor + 2 H2O *\ - - -2.0 r2173b +2.0 r2173a = 0 - -c538: \* L-CYSTATHIONINE[CCO-CYTOSOL] *\ - \* r2356, L-cystathionine -> 2-aminoprop-2-enoate + L-homocysteine + H+ *\ - \* r1789, L-cysteine + O-succinyl-L-homoserine -> succinate + L-cystathionine + H+ *\ - \* r1218, L-cystathionine + H2O -> ammonium + pyruvate + L-homocysteine *\ - \* r348, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - \* r290, L-cystathionine[periplasmic space] -> L-cystathionine[cytosol] *\ - - -1.0 r2356 + r1789 -1.0 r1218 -1.0 r348 + r290 = 0 - -c915: \* OXALACETIC_ACID[CCO-CYTOSOL] *\ - \* r2410, citrate -> acetate + oxaloacetate *\ - \* r2168b, enol-oxaloacetate -> oxaloacetate *\ - \* r2168a, oxaloacetate -> enol-oxaloacetate *\ - \* r2008b, oxaloacetate + H2O -> D-tartrate *\ - \* r2008a, D-tartrate -> oxaloacetate + H2O *\ - \* r1700, oxaloacetate + H+ -> pyruvate + CO2 *\ - \* r1664b, oxaloacetate + NADH + H+ -> (S)-malate + NAD+ *\ - \* r1664a, (S)-malate + NAD+ -> oxaloacetate + NADH + H+ *\ - \* r1492b, pyridoxal + L-aspartate -> pyridoxamine + oxaloacetate *\ - \* r1492a, pyridoxamine + oxaloacetate -> pyridoxal + L-aspartate *\ - \* r1475b, phosphoenolpyruvate + hydrogen carbonate -> oxaloacetate + phosphate *\ - \* r1475a, oxaloacetate + phosphate -> phosphoenolpyruvate + hydrogen carbonate *\ - \* r1397, oxaloacetate + acetyl-CoA + H2O -> citrate + coenzyme A + H+ *\ - \* r1205b, oxaloacetate + L-glutamate -> L-aspartate + 2-oxoglutarate *\ - \* r1205a, L-aspartate + 2-oxoglutarate -> oxaloacetate + L-glutamate *\ - \* r1167, (S)-malate + an electron-transfer quinone[inner membrane] -> oxaloacetate + an electron-transfer quinol[inner membrane] *\ - \* r1166, (S)-malate + an electron-transfer quinone[inner membrane] -> oxaloacetate + an electron-transfer quinol[inner membrane] *\ - \* r855, oxaloacetate + ATP -> CO2 + phosphoenolpyruvate + ADP *\ - \* r767, oxaloacetate + propanoyl-CoA + H2O -> (2S,3S)-2-methylcitrate + coenzyme A + H+ *\ - \* r721, a citryl-[holo citrate lyase acyl-carrier protein] -> oxaloacetate + an acetyl-[holo citrate lyase acyl-carrier protein] + H+ *\ - \* r664b, oxaloacetate + H2O -> L-tartrate *\ - \* r664a, L-tartrate -> oxaloacetate + H2O *\ - - + r2410 + r2168b -1.0 r2168a -1.0 r2008b + r2008a -1.0 r1700 -1.0 r1664b + r1664a + r1492b -1.0 r1492a + r1475b -1.0 r1475a -1.0 r1397 -1.0 r1205b + r1205a + r1167 + r1166 -1.0 r855 -1.0 r767 - + r721 -1.0 r664b + r664a = 0 - -c1377: \* 4-AMINO-BUTYRALDEHYDE[CCO-CYTOSOL] *\ - \* r1808, putrescine + 2-oxoglutarate -> 4-aminobutanal + L-glutamate *\ - \* r1474b, 1-pyrroline + H2O -> 4-aminobutanal *\ - \* r1474a, 4-aminobutanal -> 1-pyrroline + H2O *\ - \* r1406b, an aliphatic omega-aminoaldehyde + L-glutamate -> an aliphatic alpha,omega-diamine + 2-oxoglutarate *\ - \* r1406a, an aliphatic alpha,omega-diamine + 2-oxoglutarate -> an aliphatic omega-aminoaldehyde + L-glutamate *\ - \* r1025, 4-aminobutanal + NAD+ + H2O -> 4-aminobutanoate + NADH + 2 H+ *\ - - + r1808 + r1474b -1.0 r1474a -1.0 r1406b + r1406a -1.0 r1025 = 0 - -c30: \* L-GLYCERALDEHYDE[CCO-CYTOSOL] *\ - \* r16b, DL-glyceraldehyde[cytosol] -> DL-glyceraldehyde[periplasmic space] *\ - \* r16a, DL-glyceraldehyde[periplasmic space] -> DL-glyceraldehyde[cytosol] *\ - - -1.0 r16b + r16a = 0 - -c1511: \* CPD0-2167[CCO-CYTOSOL] *\ - \* r2499_e, 5-deoxy-D-ribose *\ - \* r1173, 5'-deoxyadenosine + H2O -> 5-deoxy-D-ribose + adenine *\ - - -1.0 r2499_e + r1173 = 0 - -c2174: \* REDUCED-MENAQUINONE[CCO-CYTOSOL] *\ - \* objReactionName, menaquinol-8 *\ - \* r2263, S-adenosyl-L-methionine + demethylmenaquinol-8 -> S-adenosyl-L-homocysteine + menaquinol-8 + H+ *\ - - -0.000223 objReactionName + r2263 = 0 - -c87: \* THYMIDINE[CCO-EXTRACELLULAR] *\ - \* r43, a nucleoside[extracellular space] -> a nucleoside[periplasmic space] *\ - - -1.0 r43 = 0 - -c251: \* ARABINOSE[CCO-PERI-BAC] *\ - \* r425, L-arabinose[cytosol] + H+[periplasmic space] -> L-arabinose[periplasmic space] + H+[cytosol] *\ - \* r417, L-arabinose[periplasmic space] + H+[periplasmic space] -> L-arabinose[cytosol] + H+[cytosol] *\ - \* r127, ATP + L-arabinose[periplasmic space] + H2O -> ADP + L-arabinose[cytosol] + phosphate + H+ *\ - - + r425 -1.0 r417 -1.0 r127 = 0 - -c617: \* L-ALPHA-ALANINE[CCO-CYTOSOL] *\ - \* r2416, L-cysteine + an unsulfurated [sulfur carrier] -> L-alanine + a sulfurated [sulfur carrier] *\ - \* r2412b, an S-sulfanyl-[ThiI sulfur-carrier protein] + L-alanine -> a ThiI sulfur-carrier protein + L-cysteine *\ - \* r2412a, a ThiI sulfur-carrier protein + L-cysteine -> an S-sulfanyl-[ThiI sulfur-carrier protein] + L-alanine *\ - \* r2367, L-alanyl-L-glutamine + H2O -> L-alanine + L-glutamine *\ - \* r2136, a dipeptide + H2O -> 2 a standard alpha amino acid *\ - \* r2077b, D-alanine -> L-alanine *\ - \* r2077a, L-alanine -> D-alanine *\ - \* r2024, L-alanine + UDP-N-acetyl-alpha-D-muramate + ATP -> UDP-N-acetyl-alpha-D-muramoyl-L-alanine + ADP + phosphate + H+ *\ - \* r2015b, L-alanine + sulfite + H+ -> 3-sulfinoalanine + H2O *\ - \* r2015a, 3-sulfinoalanine + H2O -> L-alanine + sulfite + H+ *\ - \* r1988, L-alanyl-L-threonine + H2O -> L-alanine + L-threonine *\ - \* r1877, L-alanyl-glycine + H2O -> L-alanine + glycine *\ - \* r1813b, 2-oxo-4-methylthiobutanoate + a standard alpha amino acid -> L-methionine + a 2-oxo carboxylate *\ - \* r1813a, L-methionine + a 2-oxo carboxylate -> 2-oxo-4-methylthiobutanoate + a standard alpha amino acid *\ - \* r1811b, L-alanine + selenide + an unknown oxidized electron acceptor + 2 H+ -> L-selenocysteine + an unknown reduced electron acceptor *\ - \* r1811a, L-selenocysteine + an unknown reduced electron acceptor -> L-alanine + selenide + an unknown oxidized electron acceptor + 2 H+ *\ - \* r1684b, an S-sulfanyl-[L-cysteine desulfurase] + L-alanine -> L-cystein desulfurase + L-cysteine *\ - \* r1684a, L-cystein desulfurase + L-cysteine -> an S-sulfanyl-[L-cysteine desulfurase] + L-alanine *\ - \* r1473, L-alanyl-L-glutamate + H2O -> L-alanine + L-glutamate *\ - \* r1469, a tRNAala + L-alanine + ATP + H+ -> an L-alanyl-[tRNAala] + AMP + diphosphate *\ - \* r1410, an [L-cysteine desulfurase]-L-cysteine + L-cysteine -> an [L-cysteine desulfurase] L-cysteine persulfide + L-alanine *\ - \* r1385, L-alanyl-L-histidine + H2O -> L-alanine + L-histidine *\ - \* r1336b, L-alanine + 3-methyl-2-oxobutanoate -> pyruvate + L-valine *\ - \* r1336a, pyruvate + L-valine -> L-alanine + 3-methyl-2-oxobutanoate *\ - \* r1288, L-alanyl-L-aspartate + H2O -> L-alanine + L-aspartate *\ - \* r1232, a pimeloyl-[acp] + L-alanine + H+ -> 8-amino-7-oxononanoate + CO2 + a holo-[acyl-carrier protein] *\ - \* r1026, L-methionyl-L-alanine dipeptide + H2O -> L-methionine + L-alanine *\ - \* r844b, L-glutamate + pyruvate -> 2-oxoglutarate + L-alanine *\ - \* r844a, 2-oxoglutarate + L-alanine -> L-glutamate + pyruvate *\ - \* r682, L-alanyl-L-leucine + H2O -> L-alanine + L-leucine *\ - \* r440, L-alanine[periplasmic space] + H+[periplasmic space] -> L-alanine[cytosol] + H+[cytosol] *\ - \* r428, Na+[periplasmic space] + L-alanine[periplasmic space] -> Na+[cytosol] + L-alanine[cytosol] *\ - \* r371, L-alanine[cytosol] -> L-alanine[periplasmic space] *\ - \* r346, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - - + r2416 -1.0 r2412b + r2412a + r2367 +2.0 r2136 + r2077b -1.0 r2077a -1.0 r2024 -1.0 r2015b + r2015a + r1988 + r1877 -1.0 r1813b + r1813a -1.0 r1811b + r1811a -1.0 r1684b + r1684a + r1473 - -1.0 r1469 + r1410 + r1385 -1.0 r1336b + r1336a + r1288 -1.0 r1232 + r1026 + r844b -1.0 r844a + r682 + r440 + r428 -1.0 r371 -1.0 r346 = 0 - -c1436: \* tRNA-pseudouridine55[CCO-CYTOSOL] *\ - \* r1089b, a tRNA pseudouridine55 -> a uridine55 in tRNA *\ - \* r1089a, a uridine55 in tRNA -> a tRNA pseudouridine55 *\ - - -1.0 r1089b + r1089a = 0 - -c191: \* CPD0-930[CCO-CYTOSOL] *\ - \* r1518, heptosyl-Kdo2-lipid A + ADP-L-glycero-beta-D-manno-heptose -> (heptosyl)2-Kdo2-lipid A + ADP + H+ *\ - \* r762, UDP-alpha-D-glucose + (heptosyl)2-Kdo2-lipid A -> glucosyl-(heptosyl)2-Kdo2-lipid A + UDP + H+ *\ - \* r249, a lipopolysaccharide[cytosol] -> a lipopolysaccharide[extracellular space] *\ - \* r97, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - - + r1518 -1.0 r762 -1.0 r249 -1.0 r97 = 0 - -c408: \* PUTRESCINE[CCO-PERI-BAC] *\ - \* r512, putrescine[periplasmic space] + H+[periplasmic space] -> putrescine[cytosol] + H+[cytosol] *\ - \* r501, putrescine[cytosol] + L-ornithine[periplasmic space] -> putrescine[periplasmic space] + L-ornithine[cytosol] *\ - \* r207, ATP + putrescine[periplasmic space] + H2O -> ADP + putrescine[cytosol] + phosphate + H+ *\ - - -1.0 r512 + r501 -1.0 r207 = 0 - -c1576: \* LEU-tRNAs[CCO-CYTOSOL] *\ - \* objReactionName, a tRNAleu *\ - \* r1771, a tRNAleu + L-leucine + ATP + H+ -> an L-leucyl-[tRNAleu] + AMP + diphosphate *\ - \* r1265b, a tRNAleu + L-leucyl-[protein] + H+ -> an L-leucyl-[tRNAleu] + a protein *\ - \* r1265a, an L-leucyl-[tRNAleu] + a protein -> a tRNAleu + L-leucyl-[protein] + H+ *\ - - +0.437778 objReactionName -1.0 r1771 -1.0 r1265b + r1265a = 0 - -c1835: \* 1-AMINO-PROPAN-2-ONE-3-PHOSPHATE[CCO-CYTOSOL] *\ - \* r1990, 3-amino-1-hydroxyacetone 1-phosphate + 1-deoxy-D-xylulose 5-phosphate -> pyridoxine 5'-phosphate + phosphate + H+ + 2 H2O *\ - \* r1575, (2S)-2-amino-3-oxo-4-phosphonooxybutanoate + H+ -> 3-amino-1-hydroxyacetone 1-phosphate + CO2 *\ - - -1.0 r1990 + r1575 = 0 - -c997: \* SIROHEME[CCO-CYTOSOL] *\ - \* objReactionName, siroheme *\ - \* r713b, siroheme + 2 H+ -> sirohydrochlorin + Fe2+ *\ - \* r713a, sirohydrochlorin + Fe2+ -> siroheme + 2 H+ *\ - - -0.000223 objReactionName -1.0 r713b + r713a = 0 - -c599: \* TYR[CCO-CYTOSOL] *\ - \* r1597, L-tyrosine + S-adenosyl-L-methionine + NADPH -> 2-iminoacetate + 4-methylphenol + 5'-deoxyadenosine + L-methionine + NADP+ + H+ *\ - \* r1425, a tRNAtyr + L-tyrosine + ATP + H+ -> an L-tyrosyl-[tRNAtyr] + AMP + diphosphate *\ - \* r744b, 4-hydroxyphenylpyruvate + L-glutamate -> L-tyrosine + 2-oxoglutarate *\ - \* r744a, L-tyrosine + 2-oxoglutarate -> 4-hydroxyphenylpyruvate + L-glutamate *\ - \* r575, L-tyrosine[periplasmic space] + H+[periplasmic space] -> L-tyrosine[cytosol] + H+[cytosol] *\ - \* r451, an aromatic amino acid[cytosol] -> an aromatic amino acid[periplasmic space] *\ - \* r329, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - - -1.0 r1597 -1.0 r1425 + r744b -1.0 r744a + r575 -1.0 r451 -1.0 r329 = 0 - -c1512: \* DODECANOATE[CCO-CYTOSOL] *\ - \* r2253, an acyl-CoA + H2O -> a carboxylate + coenzyme A + H+ *\ - \* r2064b, a 2,3,4-saturated fatty acid + acetyl-CoA -> a 2,3,4-saturated fatty acyl CoA + acetate *\ - \* r2064a, a 2,3,4-saturated fatty acyl CoA + acetate -> a 2,3,4-saturated fatty acid + acetyl-CoA *\ - \* r1275, a 2,3,4-saturated fatty acid + ATP + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + AMP + diphosphate *\ - \* r1174, a dodecanoyl-[acp] + H2O -> a holo-[acyl-carrier protein] + laurate + H+ *\ - - + r2253 -1.0 r2064b + r2064a -1.0 r1275 + r1174 = 0 - -c1457: \* N-ACETYL-D-GLUCOSAMINE[CCO-CYTOSOL] *\ - \* r1855, a peptidoglycan + H2O -> a N-acetylmuramoyl-pentapeptide-diphosphoundecaprenol + N-acetyl-D-glucosamine *\ - \* r2072a, N-acetyl-beta-D-glucosamine + ATP -> N-acetyl-D-glucosamine 6-phosphate + ADP + H+ *\ - \* r2072b, N-acetyl-D-glucosamine 6-phosphate + ADP + H+ -> N-acetyl-beta-D-glucosamine + ATP *\ - - + r1855 -1.0 r2072a + r2072b = 0 - -c1275: \* Adenylated-ThiS-Proteins[CCO-CYTOSOL] *\ - \* r1063, an S-sulfanyl-[ThiI sulfur-carrier protein] + a carboxy-adenylated-[ThiS sulfur-carrier protein] + 2 a reduced ferredoxin -> a thiocarboxy-[ThiS-Protein] + a ThiI sulfur-carrier protein + AMP + 2 an oxidized ferredoxin *\ - \* r911, a ThiS sulfur-carrier protein + ATP + H+ -> a carboxy-adenylated-[ThiS sulfur-carrier protein] + diphosphate *\ - - -1.0 r1063 + r911 = 0 - -c1025: \* POLYMER-INST-TRANS-D2-ENOYL-COA-C10-H20[CCO-CYTOSOL] *\ - \* r1781, a 2,3,4-saturated fatty acyl CoA + an oxidized electron-transfer flavoprotein + H+ -> a trans-2-enoyl-CoA + a reduced electron-transfer flavoprotein *\ - \* r1417b, a trans-2-enoyl-CoA -> a cis-3-enoyl-CoA *\ - \* r1417a, a cis-3-enoyl-CoA -> a trans-2-enoyl-CoA *\ - \* r730, a trans-2-enoyl-CoA + H2O -> a (3S)-3-hydroxyacyl-CoA *\ - - + r1781 -1.0 r1417b + r1417a -1.0 r730 = 0 - -c1082: \* Oxidized-2Fe-2S-Ferredoxins[CCO-CYTOSOL] *\ - \* r763a, 2 a reduced [2Fe-2S] ferredoxin + NAD+ + H+ -> 2 an oxidized [2Fe-2S] ferredoxin + NADH *\ - \* r763b, 2 an oxidized [2Fe-2S] ferredoxin + NADH -> 2 a reduced [2Fe-2S] ferredoxin + NAD+ + H+ *\ - \* r1204, a [lipoyl-carrier protein] N6-octanoyl-L-lysine + 2 S-adenosyl-L-methionine + 2 a sulfurated [sulfur carrier] + 2 a reduced [2Fe-2S] ferredoxin -> a [lipoyl-carrier protein] N6-lipoyl-L-lysine + 2 5'-deoxyadenosine + 2 L-methionine + 2 an unsulfurated [sulfur carrier] + 2 an oxidized [2Fe-2S] ferredoxin *\ - \* r1847, a sulfurated [sulfur carrier] + dethiobiotin + 2 S-adenosyl-L-methionine + 2 a reduced [2Fe-2S] ferredoxin -> an unsulfurated [sulfur carrier] + biotin + 2 5'-deoxyadenosine + 2 L-methionine + 2 an oxidized [2Fe-2S] ferredoxin *\ - - +2.0 r763a -2.0 r763b +2.0 r1204 +2.0 r1847 = 0 - -c125: \* CPD0-1137[CCO-EXTRACELLULAR] *\ - \* r62, a nucleoside[extracellular space] -> a nucleoside[periplasmic space] *\ - - -1.0 r62 = 0 - -c937: \* CPD-9646[CCO-CYTOSOL] *\ - \* r679a, alpha-D-Kdo-(2->4)-alpha-D-Kdo-(2->6)-lipid A + di-trans,octa-cis-undecaprenyl diphosphate -> alpha-D-Kdo-(2->4)-alpha-D-Kdo-(2->6)-lipid A 1-diphosphate + di-trans,octa-cis-undecaprenyl phosphate *\ - \* r679b, alpha-D-Kdo-(2->4)-alpha-D-Kdo-(2->6)-lipid A 1-diphosphate + di-trans,octa-cis-undecaprenyl phosphate -> alpha-D-Kdo-(2->4)-alpha-D-Kdo-(2->6)-lipid A + di-trans,octa-cis-undecaprenyl diphosphate *\ - \* r1429, di-trans,octa-cis-undecaprenyl diphosphate + H2O -> di-trans,octa-cis-undecaprenyl phosphate + phosphate + H+ *\ - \* r1449a, lipid A-core + di-trans,octa-cis-undecaprenyl diphosphate + H+ -> lipid A-core 1-diphosphate + di-trans,octa-cis-undecaprenyl phosphate *\ - \* r1449b, lipid A-core 1-diphosphate + di-trans,octa-cis-undecaprenyl phosphate -> lipid A-core + di-trans,octa-cis-undecaprenyl diphosphate + H+ *\ - \* r1707, UDP-N-acetyl-alpha-D-muramoyl-L-alanyl-gamma-D-glutamyl-meso-2,6-diaminopimeloyl-D-alanyl-D-alanine + di-trans,octa-cis-undecaprenyl phosphate -> undecaprenyldiphospho-N-acetylmuramoyl-L-alanyl-gamma-D-glutamyl-meso-2,6-diaminopimeloyl-D-alanyl-D-alanine + UMP *\ - \* r2426a, UDP-alpha-D-glucose + di-trans,octa-cis-undecaprenyl phosphate -> UMP + alpha-D-glucopyranosyl-diphosphoundecaprenol *\ - \* r2426b, UMP + alpha-D-glucopyranosyl-diphosphoundecaprenol -> UDP-alpha-D-glucose + di-trans,octa-cis-undecaprenyl phosphate *\ - - + r679a -1.0 r679b + r1429 + r1449a -1.0 r1449b -1.0 r1707 -1.0 r2426a + r2426b = 0 - -c602: \* ASN[CCO-PERI-BAC] *\ - \* r2284, L-asparagine + H2O -> L-aspartate + ammonium *\ - \* r469, L-asparagine[periplasmic space] + H+[periplasmic space] -> L-asparagine[cytosol] + H+[cytosol] *\ - \* r330, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - - -1.0 r2284 -1.0 r469 + r330 = 0 - -c1386: \* CPD-62[CCO-CYTOSOL] *\ - \* r2190, ATP + 2,3-dihydroxybenzoate + H+ -> 2,3-dihydroxybenzoyl adenylate + diphosphate *\ - \* r1037, 2,3-dihydroxybenzoyl adenylate + a holo EntB isochorismatase/aryl-carrier protein -> a 2,3-dihydroxybenzoyl-[EntB isochorismatase/aryl-carrier protein] + AMP + H+ *\ - - + r2190 -1.0 r1037 = 0 - -c1173: \* 3-oxo-dodecanoyl-ACPs[CCO-CYTOSOL] *\ - \* r1164, a decanoyl-[acp] + a malonyl-[acp] + H+ -> a 3-oxo-dodecanoyl-[acp] + CO2 + a holo-[acyl-carrier protein] *\ - \* r1140, a 3-oxoacyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxyacyl-[acyl-carrier protein] + NADP+ *\ - \* r999, a 3-oxo-dodecanoyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxydodecanoyl-[acp] + NADP+ *\ - \* r824, a malonyl-[acp] + a 2,3,4-saturated fatty acyl-[acp] + H+ -> a holo-[acyl-carrier protein] + a 3-oxoacyl-[acp] + CO2 *\ - - + r1164 -1.0 r1140 -1.0 r999 + r824 = 0 - -c35: \* CPD-9245[CCO-EXTRACELLULAR] *\ - \* r19, a long-chain fatty acid[extracellular space] -> a long-chain fatty acid[periplasmic space] *\ - - -1.0 r19 = 0 - -c864: \* ADENOSINE5TRIPHOSPHO5ADENOSINE[CCO-CYTOSOL] *\ - \* r1844, ATP + ADP + H+ -> 5',5'''-diadenosine triphosphate + diphosphate *\ - \* r620, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - - + r1844 + r620 = 0 - -c1767: \* ARABINOSE-5P[CCO-CYTOSOL] *\ - \* r1768, D-arabinose 5-phosphate + phosphoenolpyruvate + H2O -> 3-deoxy-D-manno-octulosonate 8-phosphate + phosphate *\ - \* r1488b, D-ribulose 5-phosphate -> D-arabinose 5-phosphate *\ - \* r1488a, D-arabinose 5-phosphate -> D-ribulose 5-phosphate *\ - - -1.0 r1768 + r1488b -1.0 r1488a = 0 - -c1070: \* L-PHOSPHATIDATE[CCO-CYTOSOL] *\ - \* r1817a, ATP + a 1,2-diacyl-sn-glycerol -> a 1,2-diacyl-sn-glycerol 3-phosphate + ADP + H+ *\ - \* r1817b, a 1,2-diacyl-sn-glycerol 3-phosphate + ADP + H+ -> ATP + a 1,2-diacyl-sn-glycerol *\ - - + r1817a -1.0 r1817b = 0 - -c122: \* ADENOSINE5TRIPHOSPHO5ADENOSINE[CCO-PERI-BAC] *\ - \* r620, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r60, a nucleoside[extracellular space] -> a nucleoside[periplasmic space] *\ - - -1.0 r620 + r60 = 0 - -c1280: \* 2-3-DIHYDROXYBENZOATE[CCO-CYTOSOL] *\ - \* r2190, ATP + 2,3-dihydroxybenzoate + H+ -> 2,3-dihydroxybenzoyl adenylate + diphosphate *\ - \* r1724, (2S,3S)-2,3-dihydroxy-2,3-dihydrobenzoate + NAD+ -> 2,3-dihydroxybenzoate + NADH + H+ *\ - \* r915, 6 ATP + 3 L-serine + 3 2,3-dihydroxybenzoate -> 6 AMP + enterobactin + 6 diphosphate + 3 H+ *\ - - -1.0 r2190 + r1724 -3.0 r915 = 0 - -c844: \* CPD-15619[CCO-PERI-BAC] *\ - \* r593, L-fucose[periplasmic space] + H+[periplasmic space] -> L-fucose[cytosol] + H+[cytosol] *\ - - -1.0 r593 = 0 - -c971: \* 3-oxo-cis-D9-hexadecenoyl-ACPs[CCO-CYTOSOL] *\ - \* r1057, a 3-oxo-cis-delta9-hexadecenoyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxy cis delta9-hexadecenoyl-[acp] + NADP+ *\ - \* r700, a cis-delta7-tetradecenoyl-[acp] + a malonyl-[acp] + H+ -> a 3-oxo-cis-delta9-hexadecenoyl-[acp] + a holo-[acyl-carrier protein] + CO2 *\ - - -1.0 r1057 + r700 = 0 - -c931: \* ACETYL-COA[CCO-CYTOSOL] *\ - \* objReactionName, acetyl-CoA *\ - \* r2409, pyruvate + coenzyme A + NAD+ -> acetyl-CoA + CO2 + NADH *\ - \* r2391, L-serine + acetyl-CoA -> O-acetyl-L-serine + coenzyme A *\ - \* r2329b, an N-acetoxyarylamine + coenzyme A -> an N-hydroxy-arylamine + acetyl-CoA *\ - \* r2329a, an N-hydroxy-arylamine + acetyl-CoA -> an N-acetoxyarylamine + coenzyme A *\ - \* r2279, 3-oxoadipyl-CoA + coenzyme A -> succinyl-CoA + acetyl-CoA *\ - \* r2265, 3-hydroxy-2,4-pentanedione 5-phosphate + coenzyme A -> glycerone phosphate + acetyl-CoA *\ - \* r2176b, 2-N-acetamidomethylphosphonate + coenzyme A -> aminomethylphosphonate + acetyl-CoA *\ - \* r2176a, aminomethylphosphonate + acetyl-CoA -> 2-N-acetamidomethylphosphonate + coenzyme A *\ - \* r2155, 3-oxo-5,6-didehydrosuberyl-CoA + coenzyme A -> 2,3-didehydroadipyl-CoA + acetyl-CoA *\ - \* r2067b, a 2,3,4-saturated fatty acid + acetyl-CoA -> a 2,3,4-saturated fatty acyl CoA + acetate *\ - \* r2067a, a 2,3,4-saturated fatty acyl CoA + acetate -> a 2,3,4-saturated fatty acid + acetyl-CoA *\ - \* r2066b, a 2,3,4-saturated fatty acid + acetyl-CoA -> a 2,3,4-saturated fatty acyl CoA + acetate *\ - \* r2066a, a 2,3,4-saturated fatty acyl CoA + acetate -> a 2,3,4-saturated fatty acid + acetyl-CoA *\ - \* r2065b, a 2,3,4-saturated fatty acid + acetyl-CoA -> a 2,3,4-saturated fatty acyl CoA + acetate *\ - \* r2065a, a 2,3,4-saturated fatty acyl CoA + acetate -> a 2,3,4-saturated fatty acid + acetyl-CoA *\ - \* r2064b, a 2,3,4-saturated fatty acid + acetyl-CoA -> a 2,3,4-saturated fatty acyl CoA + acetate *\ - \* r2064a, a 2,3,4-saturated fatty acyl CoA + acetate -> a 2,3,4-saturated fatty acid + acetyl-CoA *\ - \* r2063b, a 2,3,4-saturated fatty acid + acetyl-CoA -> a 2,3,4-saturated fatty acyl CoA + acetate *\ - \* r2063a, a 2,3,4-saturated fatty acyl CoA + acetate -> a 2,3,4-saturated fatty acid + acetyl-CoA *\ - \* r2062b, a 2,3,4-saturated fatty acid + acetyl-CoA -> a 2,3,4-saturated fatty acyl CoA + acetate *\ - \* r2062a, a 2,3,4-saturated fatty acyl CoA + acetate -> a 2,3,4-saturated fatty acid + acetyl-CoA *\ - \* r2061b, a 2,3,4-saturated fatty acid + acetyl-CoA -> a 2,3,4-saturated fatty acyl CoA + acetate *\ - \* r2061a, a 2,3,4-saturated fatty acyl CoA + acetate -> a 2,3,4-saturated fatty acid + acetyl-CoA *\ - \* r2060b, a 2,3,4-saturated fatty acid + acetyl-CoA -> a 2,3,4-saturated fatty acyl CoA + acetate *\ - \* r2060a, a 2,3,4-saturated fatty acyl CoA + acetate -> a 2,3,4-saturated fatty acid + acetyl-CoA *\ - \* r1970, a 3-oxoacyl-CoA + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + acetyl-CoA *\ - \* r1969, a 3-oxoacyl-CoA + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + acetyl-CoA *\ - \* r1968, a 3-oxoacyl-CoA + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + acetyl-CoA *\ - \* r1967, a 3-oxoacyl-CoA + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + acetyl-CoA *\ - \* r1966, a 3-oxoacyl-CoA + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + acetyl-CoA *\ - \* r1965, a 3-oxoacyl-CoA + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + acetyl-CoA *\ - \* r1964, a 3-oxoacyl-CoA + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + acetyl-CoA *\ - \* r1963, a 3-oxoacyl-CoA + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + acetyl-CoA *\ - \* r1962, a 3-oxoacyl-CoA + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + acetyl-CoA *\ - \* r1945, 3-methyl-2-oxobutanoate + acetyl-CoA + H2O -> (2S)-2-isopropylmalate + coenzyme A + H+ *\ - \* r1865b, acetoacetyl-CoA + coenzyme A -> 2 acetyl-CoA *\ - \* r1865a, 2 acetyl-CoA -> acetoacetyl-CoA + coenzyme A *\ - \* r1843, D-glucosamine 1-phosphate + acetyl-CoA -> N-acetyl-alpha-D-glucosamine 1-phosphate + coenzyme A + H+ *\ - \* r1740b, a 6-acetyl-beta-D-galactoside + coenzyme A -> a beta-D-galactoside + acetyl-CoA *\ - \* r1740a, a beta-D-galactoside + acetyl-CoA -> a 6-acetyl-beta-D-galactoside + coenzyme A *\ - \* r1666b, acetoacetyl-CoA + acetate -> acetoacetate + acetyl-CoA *\ - \* r1666a, acetoacetate + acetyl-CoA -> acetoacetyl-CoA + acetate *\ - \* r1576b, acetyl phosphate + coenzyme A -> acetyl-CoA + phosphate *\ - \* r1576a, acetyl-CoA + phosphate -> acetyl phosphate + coenzyme A *\ - \* r1554b, acetyl-CoA + NADH + H+ -> acetaldehyde + coenzyme A + NAD+ *\ - \* r1554a, acetaldehyde + coenzyme A + NAD+ -> acetyl-CoA + NADH + H+ *\ - \* r1397, oxaloacetate + acetyl-CoA + H2O -> citrate + coenzyme A + H+ *\ - \* r1366, ATP + acetyl-CoA + hydrogen carbonate -> malonyl-CoA + ADP + phosphate + H+ *\ - \* r1311b, an aliphatic N-acetyl-diamine + coenzyme A + H+ -> an aliphatic alpha,omega-diamine + acetyl-CoA *\ - \* r1311a, an aliphatic alpha,omega-diamine + acetyl-CoA -> an aliphatic N-acetyl-diamine + coenzyme A + H+ *\ - \* r1267b, acetylmaltose + coenzyme A -> maltose + acetyl-CoA *\ - \* r1267a, maltose + acetyl-CoA -> acetylmaltose + coenzyme A *\ - \* r1038b, oxalyl-CoA + acetate -> acetyl-CoA + oxalate *\ - \* r1038a, acetyl-CoA + oxalate -> oxalyl-CoA + acetate *\ - \* r1013b, N-alpha-acetyl-L-methionine + coenzyme A + H+ -> L-methionine + acetyl-CoA *\ - \* r1013a, L-methionine + acetyl-CoA -> N-alpha-acetyl-L-methionine + coenzyme A + H+ *\ - \* r1007b, N-acetyl-L-glutamate + coenzyme A + H+ -> L-glutamate + acetyl-CoA *\ - \* r1007a, L-glutamate + acetyl-CoA -> N-acetyl-L-glutamate + coenzyme A + H+ *\ - \* r1003, ATP + acetyl-CoA + a carboxylated-biotinylated [BCCP dimer] + H2O -> malonyl-CoA + a biotinylated [BCCP dimer] + ADP + phosphate + H+ *\ - \* r993, acetate + ATP + coenzyme A -> acetyl-CoA + AMP + diphosphate *\ - \* r904b, acetyl-CoA + CO2 + a reduced flavodoxin -> pyruvate + an oxidized flavodoxin + coenzyme A + H+ *\ - \* r904a, pyruvate + an oxidized flavodoxin + coenzyme A + H+ -> acetyl-CoA + CO2 + a reduced flavodoxin *\ - \* r895, acetyl-CoA + a malonyl-[acp] + H+ -> an acetoacetyl-[acp] + CO2 + coenzyme A *\ - \* r804b, 3-keto-5-cis-tetradecenoyl-CoA + coenzyme A -> 3-cis-dodecenoyl-CoA + acetyl-CoA *\ - \* r804a, 3-cis-dodecenoyl-CoA + acetyl-CoA -> 3-keto-5-cis-tetradecenoyl-CoA + coenzyme A *\ - \* r781, a [pyruvate dehydrogenase E2 protein] N6-S-acetyldihydrolipoyl-L-lysine + coenzyme A -> acetyl-CoA + a [pyruvate dehydrogenase E2 protein] N6-dihydrolipoyl-L-lysine *\ - \* r757b, an acetyl-[acp] + coenzyme A -> a holo-[acyl-carrier protein] + acetyl-CoA *\ - \* r757a, a holo-[acyl-carrier protein] + acetyl-CoA -> an acetyl-[acp] + coenzyme A *\ - \* r734b, acetyl-CoA + CO2 + 2 a reduced ferredoxin + H+ -> pyruvate + 2 an oxidized ferredoxin + coenzyme A *\ - \* r734a, pyruvate + 2 an oxidized ferredoxin + coenzyme A -> acetyl-CoA + CO2 + 2 a reduced ferredoxin + H+ *\ - \* r677b, 2-amino-3-oxobutanoate + coenzyme A -> glycine + acetyl-CoA *\ - \* r677a, glycine + acetyl-CoA -> 2-amino-3-oxobutanoate + coenzyme A *\ - - -0.000279 objReactionName + r2409 -1.0 r2391 + r2329b -1.0 r2329a + r2279 + r2265 + r2176b -1.0 r2176a + r2155 -1.0 r2067b + r2067a -1.0 r2066b + r2066a -1.0 r2065b + r2065a -1.0 r2064b + r2064a -1.0 r2063b - + r2063a -1.0 r2062b + r2062a -1.0 r2061b + r2061a -1.0 r2060b + r2060a + r1970 + r1969 + r1968 + r1967 + r1966 + r1965 + r1964 + r1963 + r1962 -1.0 r1945 +2.0 r1865b -2.0 r1865a -1.0 r1843 - + r1740b -1.0 r1740a + r1666b -1.0 r1666a + r1576b -1.0 r1576a -1.0 r1554b + r1554a -1.0 r1397 -1.0 r1366 + r1311b -1.0 r1311a + r1267b -1.0 r1267a + r1038b -1.0 r1038a + r1013b -1.0 r1013a + r1007b -1.0 r1007a - -1.0 r1003 + r993 -1.0 r904b + r904a -1.0 r895 + r804b -1.0 r804a + r781 + r757b -1.0 r757a -1.0 r734b + r734a + r677b -1.0 r677a = 0 - -c90: \* CPD-16020[CCO-PERI-BAC] *\ - \* r604, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r44, a nucleoside[extracellular space] -> a nucleoside[periplasmic space] *\ - - -1.0 r604 + r44 = 0 - -c1009: \* Carboxybiotin-BCCP[CCO-CYTOSOL] *\ - \* objReactionName, a carboxylated-biotinylated [BCCP dimer] *\ - \* r1003, ATP + acetyl-CoA + a carboxylated-biotinylated [BCCP dimer] + H2O -> malonyl-CoA + a biotinylated [BCCP dimer] + ADP + phosphate + H+ *\ - \* r720, a biotinylated [BCCP dimer] + hydrogen carbonate + ATP -> a carboxylated-biotinylated [BCCP dimer] + ADP + phosphate + H+ *\ - - -0.00001 objReactionName -1.0 r1003 + r720 = 0 - -c706: \* NA+[CCO-CYTOSOL] *\ - \* r414, Na+[periplasmic space] + L-leucine[periplasmic space] -> Na+[cytosol] + L-leucine[cytosol] *\ - \* r428, Na+[periplasmic space] + L-alanine[periplasmic space] -> Na+[cytosol] + L-alanine[cytosol] *\ - \* r438, 2 Na+[periplasmic space] + L-glutamate[periplasmic space] -> 2 Na+[cytosol] + L-glutamate[cytosol] *\ - \* r493, Na+[periplasmic space] + L-isoleucine[periplasmic space] -> Na+[cytosol] + L-isoleucine[cytosol] *\ - \* r529, Na+[periplasmic space] + L-proline[periplasmic space] -> Na+[cytosol] + L-proline[cytosol] *\ - \* r538, Na+[cytosol] + 2 H+[periplasmic space] -> Na+[periplasmic space] + 2 H+[cytosol] *\ - \* r540, Na+[cytosol] + H+[periplasmic space] -> Na+[periplasmic space] + H+[cytosol] *\ - \* r548, Na+[periplasmic space] + L-valine[periplasmic space] -> Na+[cytosol] + L-valine[cytosol] *\ - \* r632, Na+[periplasmic space] + L-serine[periplasmic space] -> Na+[cytosol] + L-serine[cytosol] *\ - \* r639, 2 Na+[cytosol] + 3 H+[periplasmic space] -> 2 Na+[periplasmic space] + 3 H+[cytosol] *\ - - + r414 + r428 +2.0 r438 + r493 + r529 -1.0 r538 -1.0 r540 + r548 + r632 -2.0 r639 = 0 - -c1784: \* UDP-AA-GLUTAMATE[CCO-CYTOSOL] *\ - \* r2111, meso-diaminopimelate + UDP-N-acetyl-alpha-D-muramoyl-L-alanyl-D-glutamate + ATP -> UDP-N-acetyl-alpha-D-muramoyl-L-alanyl-gamma-D-glutamyl-meso-2,6-diaminopimelate + ADP + phosphate + H+ *\ - \* r1512, D-glutamate + UDP-N-acetyl-alpha-D-muramoyl-L-alanine + ATP -> UDP-N-acetyl-alpha-D-muramoyl-L-alanyl-D-glutamate + ADP + phosphate + H+ *\ - - -1.0 r2111 + r1512 = 0 - -c891: \* HYDROGEN-PEROXIDE[CCO-PERI-BAC] *\ - \* r2014, 2 superoxide + 2 H+ -> hydrogen peroxide + oxygen *\ - \* r2174a, 2 a phenolic donor + hydrogen peroxide -> 2 a phenoxyl radical of a phenolic donor + 2 H2O *\ - \* r2174b, 2 a phenoxyl radical of a phenolic donor + 2 H2O -> 2 a phenolic donor + hydrogen peroxide *\ - - + r2014 -1.0 r2174a + r2174b = 0 - -c721: \* XANTHOSINE[CCO-CYTOSOL] *\ - \* r2423, xanthosine + H2O -> D-ribofuranose + xanthine *\ - \* r1940, xanthosine + phosphate -> alpha-D-ribose-1-phosphate + xanthine *\ - \* r983, a ribonucleoside 5'-monophosphate + H2O -> a ribonucleoside + phosphate *\ - \* r619, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r436, xanthosine[periplasmic space] + H+[periplasmic space] -> xanthosine[cytosol] + H+[cytosol] *\ - - -1.0 r2423 -1.0 r1940 + r983 + r619 + r436 = 0 - -c260: \* LEU[CCO-CYTOSOL] *\ - \* r2382b, 4-methyl-2-oxopentanoate + L-glutamate -> L-leucine + 2-oxoglutarate *\ - \* r2382a, L-leucine + 2-oxoglutarate -> 4-methyl-2-oxopentanoate + L-glutamate *\ - \* r1771, a tRNAleu + L-leucine + ATP + H+ -> an L-leucyl-[tRNAleu] + AMP + diphosphate *\ - \* r682, L-alanyl-L-leucine + H2O -> L-alanine + L-leucine *\ - \* r433, L-leucine[cytosol] + H+[periplasmic space] -> L-leucine[periplasmic space] + H+[cytosol] *\ - \* r414, Na+[periplasmic space] + L-leucine[periplasmic space] -> Na+[cytosol] + L-leucine[cytosol] *\ - \* r323, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - \* r131, ATP + L-leucine[periplasmic space] + H2O -> ADP + L-leucine[cytosol] + phosphate + H+ *\ - - + r2382b -1.0 r2382a -1.0 r1771 + r682 -1.0 r433 + r414 -1.0 r323 + r131 = 0 - -c723: \* CPD0-1123[CCO-CYTOSOL] *\ - \* r2261b, N-acetyl-beta-D-mannosamine + pyruvate -> N-acetyl-beta-neuraminate *\ - \* r2261a, N-acetyl-beta-neuraminate -> N-acetyl-beta-D-mannosamine + pyruvate *\ - \* r1760b, N-acetyl-beta-neuraminate -> N-acetyl-alpha-neuraminate *\ - \* r1760a, N-acetyl-alpha-neuraminate -> N-acetyl-beta-neuraminate *\ - \* r480, N-acetylneuraminate[periplasmic space] + H+[periplasmic space] -> N-acetylneuraminate[cytosol] + H+[cytosol] *\ - \* r441, N-acetyl-beta-neuraminate[periplasmic space] + H+[periplasmic space] -> N-acetyl-beta-neuraminate[cytosol] + H+[cytosol] *\ - - + r2261b -1.0 r2261a -1.0 r1760b + r1760a + r480 + r441 = 0 - -c763: \* CPD0-1122[CCO-CYTOSOL] *\ - \* r1760b, N-acetyl-beta-neuraminate -> N-acetyl-alpha-neuraminate *\ - \* r1760a, N-acetyl-alpha-neuraminate -> N-acetyl-beta-neuraminate *\ - \* r481, N-acetylneuraminate[periplasmic space] + H+[periplasmic space] -> N-acetylneuraminate[cytosol] + H+[cytosol] *\ - - + r1760b -1.0 r1760a + r481 = 0 - -c1720: \* TYR-tRNAs[CCO-CYTOSOL] *\ - \* objReactionName, a tRNAtyr *\ - \* r1425, a tRNAtyr + L-tyrosine + ATP + H+ -> an L-tyrosyl-[tRNAtyr] + AMP + diphosphate *\ - - +0.133993 objReactionName -1.0 r1425 = 0 - -c168: \* PRO[CCO-CYTOSOL] *\ - \* r85, ATP + L-proline[periplasmic space] + H2O -> ADP + L-proline[cytosol] + phosphate + H+ *\ - \* r335, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - \* r529, Na+[periplasmic space] + L-proline[periplasmic space] -> Na+[cytosol] + L-proline[cytosol] *\ - \* r628, L-proline[periplasmic space] + H+[periplasmic space] -> L-proline[cytosol] + H+[cytosol] *\ - \* r864, L-proline + an ubiquinone[inner membrane] -> (S)-1-pyrroline-5-carboxylate + an ubiquinol[inner membrane] + H+ *\ - \* r1701, glycyl-L-proline + H2O -> glycine + L-proline *\ - \* r2095, (S)-1-pyrroline-5-carboxylate + NAD(P)H + 2 H+ -> L-proline + NAD(P)+ *\ - \* r2096, (S)-1-pyrroline-5-carboxylate + NAD(P)H + 2 H+ -> L-proline + NAD(P)+ *\ - \* r2385, a tRNApro + L-proline + ATP + H+ -> an L-prolyl-[tRNApro] + AMP + diphosphate *\ - - + r85 -1.0 r335 + r529 + r628 -1.0 r864 + r1701 + r2095 + r2096 -1.0 r2385 = 0 - -c884: \* ETOH[CCO-CYTOSOL] *\ - \* r1565b, an aldehyde + NADH + H+ -> a primary alcohol + NAD+ *\ - \* r1565a, a primary alcohol + NAD+ -> an aldehyde + NADH + H+ *\ - \* r1012b, acetaldehyde + NADH + H+ -> ethanol + NAD+ *\ - \* r1012a, ethanol + NAD+ -> acetaldehyde + NADH + H+ *\ - \* r641b, ethanol[cytosol] -> ethanol[periplasmic space] *\ - \* r641a, ethanol[periplasmic space] -> ethanol[cytosol] *\ - - + r1565b -1.0 r1565a + r1012b -1.0 r1012a -1.0 r641b + r641a = 0 - -c356: \* L-GAMMA-GLUTAMYLCYSTEINE[CCO-PERI-BAC] *\ - \* r556, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r181, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - - -1.0 r556 -1.0 r181 = 0 - -c2235: \* GLY-tRNAs[CCO-CYTOSOL] *\ - \* objReactionName, a tRNAgly *\ - \* r2437, a tRNAgly + glycine + ATP + H+ -> a glycyl-[tRNAgly] + AMP + diphosphate *\ - - +0.595297 objReactionName -1.0 r2437 = 0 - -c980: \* Acceptor[CCO-CYTOSOL] *\ - \* r724, 2 L-ascorbate + an unknown oxidized electron acceptor + 2 H+ -> 2 monodehydroascorbate radical + an unknown reduced electron acceptor *\ - \* r751, a reduced thioredoxin + an unknown oxidized electron acceptor -> an oxidized thioredoxin + an unknown reduced electron acceptor *\ - \* r1213, choline + an unknown oxidized electron acceptor -> betaine aldehyde + an unknown reduced electron acceptor *\ - \* r1530, glycolate + an unknown oxidized electron acceptor -> glyoxylate + an unknown reduced electron acceptor *\ - \* r1548, (S)-lactate + an unknown oxidized electron acceptor -> pyruvate + an unknown reduced electron acceptor *\ - \* r1767a, N6-dimethylallyladenosine37 in tRNA + a sulfurated [sulfur carrier] + S-adenosyl-L-methionine + an unknown reduced electron acceptor -> 2-thio-N6-dimethylallyladenosine37 in tRNA + an unsulfurated [sulfur carrier] + 5'-deoxyadenosine + L-methionine + an unknown oxidized electron acceptor + H+ *\ - \* r1767b, 2-thio-N6-dimethylallyladenosine37 in tRNA + an unsulfurated [sulfur carrier] + 5'-deoxyadenosine + L-methionine + an unknown oxidized electron acceptor + H+ -> N6-dimethylallyladenosine37 in tRNA + a sulfurated [sulfur carrier] + S-adenosyl-L-methionine + an unknown reduced electron acceptor *\ - \* r1811a, L-selenocysteine + an unknown reduced electron acceptor -> L-alanine + selenide + an unknown oxidized electron acceptor + 2 H+ *\ - \* r1811b, L-alanine + selenide + an unknown oxidized electron acceptor + 2 H+ -> L-selenocysteine + an unknown reduced electron acceptor *\ - \* r1875, 6-methoxy-3-methyl-2-all-trans-octaprenyl-1,4-benzoquinol + an unknown reduced electron acceptor + oxygen -> 3-demethylubiquinol-8 + an unknown oxidized electron acceptor + H2O *\ - \* r2199, formate + an unknown oxidized electron acceptor + H+ -> CO2 + an unknown reduced electron acceptor *\ - \* r2287, hydrogen peroxide + an unknown reduced electron acceptor -> an unknown oxidized electron acceptor + 2 H2O *\ - \* r2402a, 2 S-sulfanylglutathione + an unknown reduced electron acceptor -> bisorganyltrisulfane + hydrogen sulfide + an unknown oxidized electron acceptor *\ - \* r2402b, bisorganyltrisulfane + hydrogen sulfide + an unknown oxidized electron acceptor -> 2 S-sulfanylglutathione + an unknown reduced electron acceptor *\ - - -1.0 r724 -1.0 r751 -1.0 r1213 -1.0 r1530 -1.0 r1548 + r1767a -1.0 r1767b + r1811a -1.0 r1811b + r1875 -1.0 r2199 + r2287 + r2402a -1.0 r2402b = 0 - -c2167: \* CPD-15016[CCO-CYTOSOL] *\ - \* r2230b, glyoxylate + pyruvate -> (4S)-4-hydroxy-2-oxoglutarate *\ - \* r2230a, (4S)-4-hydroxy-2-oxoglutarate -> glyoxylate + pyruvate *\ - - + r2230b -1.0 r2230a = 0 - -c635: \* N-METHYLTRYPTOPHAN[CCO-CYTOSOL] *\ - \* r357, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - - -1.0 r357 = 0 - -c29: \* L-GLYCERALDEHYDE[CCO-PERI-BAC] *\ - \* r16b, DL-glyceraldehyde[cytosol] -> DL-glyceraldehyde[periplasmic space] *\ - \* r16a, DL-glyceraldehyde[periplasmic space] -> DL-glyceraldehyde[cytosol] *\ - - + r16b -1.0 r16a = 0 - -c1034: \* Reduced-ferredoxins[CCO-CYTOSOL] *\ - \* r1063, an S-sulfanyl-[ThiI sulfur-carrier protein] + a carboxy-adenylated-[ThiS sulfur-carrier protein] + 2 a reduced ferredoxin -> a thiocarboxy-[ThiS-Protein] + a ThiI sulfur-carrier protein + AMP + 2 an oxidized ferredoxin *\ - \* r734b, acetyl-CoA + CO2 + 2 a reduced ferredoxin + H+ -> pyruvate + 2 an oxidized ferredoxin + coenzyme A *\ - \* r734a, pyruvate + 2 an oxidized ferredoxin + coenzyme A -> acetyl-CoA + CO2 + 2 a reduced ferredoxin + H+ *\ - - -2.0 r1063 -2.0 r734b +2.0 r734a = 0 - -c389: \* D-ALA-D-ALA[CCO-CYTOSOL] *\ - \* r2136, a dipeptide + H2O -> 2 a standard alpha amino acid *\ - \* r1588, 2 D-alanine + ATP -> D-alanyl-D-alanine + ADP + phosphate + H+ *\ - \* r1135, D-alanyl-D-alanine + H2O -> 2 D-alanine *\ - \* r922, D-alanyl-D-alanine + UDP-N-acetyl-alpha-D-muramoyl-L-alanyl-gamma-D-glutamyl-meso-2,6-diaminopimelate + ATP -> UDP-N-acetyl-alpha-D-muramoyl-L-alanyl-gamma-D-glutamyl-meso-2,6-diaminopimeloyl-D-alanyl-D-alanine + ADP + phosphate + H+ *\ - \* r572, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r197, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - - -1.0 r2136 + r1588 -1.0 r1135 -1.0 r922 + r572 + r197 = 0 - -c1356: \* HypE-Proteins[CCO-CYTOSOL] *\ - \* r2419, carbamoyl-phosphate + HypE + ATP + H2O -> a HypE hydrogenase maturation protein-S-carboxamide + AMP + diphosphate + phosphate *\ - \* r992b, a HypE hydrogenase maturation protein-S-carboxamide + AMP -> O-carbamoyladenylate + HypE *\ - \* r992a, O-carbamoyladenylate + HypE -> a HypE hydrogenase maturation protein-S-carboxamide + AMP *\ - - -1.0 r2419 + r992b -1.0 r992a = 0 - -c1433: \* UDP-MANNAC[CCO-CYTOSOL] *\ - \* r1085a, UDP-N-acetyl-alpha-D-glucosamine -> UDP-N-acetyl-alpha-D-mannosamine *\ - \* r1085b, UDP-N-acetyl-alpha-D-mannosamine -> UDP-N-acetyl-alpha-D-glucosamine *\ - - + r1085a -1.0 r1085b = 0 - -c8: \* CPD0-1122[CCO-PERI-BAC] *\ - \* r481, N-acetylneuraminate[periplasmic space] + H+[periplasmic space] -> N-acetylneuraminate[cytosol] + H+[cytosol] *\ - \* r4, N-acetylneuraminate[extracellular space] -> N-acetylneuraminate[periplasmic space] *\ - - -1.0 r481 + r4 = 0 - -c936: \* UNDECAPRENYL-DIPHOSPHATE[CCO-CYTOSOL] *\ - \* objReactionName, di-trans,octa-cis-undecaprenyl diphosphate *\ - \* r1997b, di-trans,octa-cis-undecaprenyl diphosphate + 8 diphosphate -> (2E,6E)-farnesyl diphosphate + 8 isopentenyl diphosphate *\ - \* r1997a, (2E,6E)-farnesyl diphosphate + 8 isopentenyl diphosphate -> di-trans,octa-cis-undecaprenyl diphosphate + 8 diphosphate *\ - \* r1449b, lipid A-core 1-diphosphate + di-trans,octa-cis-undecaprenyl phosphate -> lipid A-core + di-trans,octa-cis-undecaprenyl diphosphate + H+ *\ - \* r1449a, lipid A-core + di-trans,octa-cis-undecaprenyl diphosphate + H+ -> lipid A-core 1-diphosphate + di-trans,octa-cis-undecaprenyl phosphate *\ - \* r1429, di-trans,octa-cis-undecaprenyl diphosphate + H2O -> di-trans,octa-cis-undecaprenyl phosphate + phosphate + H+ *\ - \* r679b, alpha-D-Kdo-(2->4)-alpha-D-Kdo-(2->6)-lipid A 1-diphosphate + di-trans,octa-cis-undecaprenyl phosphate -> alpha-D-Kdo-(2->4)-alpha-D-Kdo-(2->6)-lipid A + di-trans,octa-cis-undecaprenyl diphosphate *\ - \* r679a, alpha-D-Kdo-(2->4)-alpha-D-Kdo-(2->6)-lipid A + di-trans,octa-cis-undecaprenyl diphosphate -> alpha-D-Kdo-(2->4)-alpha-D-Kdo-(2->6)-lipid A 1-diphosphate + di-trans,octa-cis-undecaprenyl phosphate *\ - - -0.000055 objReactionName -1.0 r1997b + r1997a + r1449b -1.0 r1449a -1.0 r1429 + r679b -1.0 r679a = 0 - -c1134: \* Trans-D2-decenoyl-ACPs[CCO-CYTOSOL] *\ - \* r1658b, a cis-delta3-decenoyl-[acp] -> a trans-delta2-decenoyl-[acp] *\ - \* r1658a, a trans-delta2-decenoyl-[acp] -> a cis-delta3-decenoyl-[acp] *\ - \* r1018, a trans-2-enoyl-[acyl-carrier protein] + NADH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NAD+ *\ - \* r964, a (3R)-3-hydroxydecanoyl-[acp] -> a trans-delta2-decenoyl-[acp] + H2O *\ - \* r868, a trans-2-enoyl-[acyl-carrier protein] + NADPH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NADP+ *\ - \* r847, a trans-delta2-decenoyl-[acp] + NADH + H+ -> a decanoyl-[acp] + NAD+ *\ - \* r794, a (3R)-3-hydroxyacyl-[acyl-carrier protein] -> a trans-2-enoyl-[acyl-carrier protein] + H2O *\ - - + r1658b -1.0 r1658a -1.0 r1018 + r964 -1.0 r868 -1.0 r847 + r794 = 0 - -c6: \* CPD0-1123[CCO-PERI-BAC] *\ - \* r480, N-acetylneuraminate[periplasmic space] + H+[periplasmic space] -> N-acetylneuraminate[cytosol] + H+[cytosol] *\ - \* r441, N-acetyl-beta-neuraminate[periplasmic space] + H+[periplasmic space] -> N-acetyl-beta-neuraminate[cytosol] + H+[cytosol] *\ - \* r11, N-acetyl-beta-neuraminate[extracellular space] -> N-acetyl-beta-neuraminate[periplasmic space] *\ - \* r3, N-acetylneuraminate[extracellular space] -> N-acetylneuraminate[periplasmic space] *\ - - -1.0 r480 -1.0 r441 + r11 + r3 = 0 - -c1217: \* Apo-PigJ[CCO-CYTOSOL] *\ - \* r1050, an acyl-carrier protein + coenzyme A -> adenosine 3',5'-bisphosphate + a holo-[acyl-carrier protein] + H+ *\ - \* r859, a holo-[acyl-carrier protein] + H2O -> 4'-phosphopantetheine + an acyl-carrier protein + H+ *\ - - -1.0 r1050 + r859 = 0 - -c1848: \* DIHYDRONEOPTERIN-P[CCO-CYTOSOL] *\ - \* r2048, 7,8-dihydroneopterin 3'-triphosphate + H2O -> 7,8-dihydroneopterin 3'-phosphate + diphosphate + H+ *\ - \* r1591, 7,8-dihydroneopterin 3'-phosphate + H2O -> 7,8-dihydroneopterin + phosphate *\ - - + r2048 -1.0 r1591 = 0 - -c103: \* CPD-15544[CCO-EXTRACELLULAR] *\ - \* r51, a nucleoside[extracellular space] -> a nucleoside[periplasmic space] *\ - - -1.0 r51 = 0 - -c346: \* CPD-1106[CCO-PERI-BAC] *\ - \* r176, an aminoalkylphosphonate[periplasmic space] + ATP + H2O -> an aminoalkylphosphonate[cytosol] + ADP + phosphate + H+ *\ - - -1.0 r176 = 0 - -c922: \* CPD-15056[CCO-CYTOSOL] *\ - \* r2156, L-threonine -> (2Z)-2-aminobut-2-enoate + H2O + H+ *\ - \* r998, (2Z)-2-aminobut-2-enoate -> 2-iminobutanoate *\ - \* r669, O-succinyl-L-homoserine -> succinate + (2Z)-2-aminobut-2-enoate + 2 H+ *\ - - + r2156 -1.0 r998 + r669 = 0 - -c1172: \* Decanoyl-ACPs[CCO-CYTOSOL] *\ - \* r1164, a decanoyl-[acp] + a malonyl-[acp] + H+ -> a 3-oxo-dodecanoyl-[acp] + CO2 + a holo-[acyl-carrier protein] *\ - \* r1018, a trans-2-enoyl-[acyl-carrier protein] + NADH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NAD+ *\ - \* r868, a trans-2-enoyl-[acyl-carrier protein] + NADPH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NADP+ *\ - \* r847, a trans-delta2-decenoyl-[acp] + NADH + H+ -> a decanoyl-[acp] + NAD+ *\ - \* r824, a malonyl-[acp] + a 2,3,4-saturated fatty acyl-[acp] + H+ -> a holo-[acyl-carrier protein] + a 3-oxoacyl-[acp] + CO2 *\ - - -1.0 r1164 + r1018 + r868 + r847 -1.0 r824 = 0 - -c2056: \* UDP-GLUCURONATE[CCO-CYTOSOL] *\ - \* r2388, UDP-alpha-D-glucuronate + NAD+ -> UDP-beta-L-threo-pentapyranos-4-ulose + CO2 + NADH *\ - \* r1936, UDP-alpha-D-glucose + 2 NAD+ + H2O -> UDP-alpha-D-glucuronate + 2 NADH + 3 H+ *\ - - -1.0 r2388 + r1936 = 0 - -c1692: \* POLYMER-INST-3-KETOACYL-COA-C16-H32[CCO-CYTOSOL] *\ - \* r1969, a 3-oxoacyl-CoA + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + acetyl-CoA *\ - \* r1384, a (3S)-3-hydroxyacyl-CoA + NAD+ -> a 3-oxoacyl-CoA + NADH + H+ *\ - - -1.0 r1969 + r1384 = 0 - -c1007: \* 2-Octenoyl-ACPs[CCO-CYTOSOL] *\ - \* r1017, a trans-2-enoyl-[acyl-carrier protein] + NADH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NAD+ *\ - \* r1001, a trans oct-2-enoyl-[acp] + NADH + H+ -> an octanoyl-[acp] + NAD+ *\ - \* r867, a trans-2-enoyl-[acyl-carrier protein] + NADPH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NADP+ *\ - \* r795, a (3R)-3-hydroxyacyl-[acyl-carrier protein] -> a trans-2-enoyl-[acyl-carrier protein] + H2O *\ - \* r719, a (3R)-3-hydroxyoctanoyl-[acp] -> a trans oct-2-enoyl-[acp] + H2O *\ - - -1.0 r1017 -1.0 r1001 -1.0 r867 + r795 + r719 = 0 - -c1590: \* CPD-9965[CCO-CYTOSOL] *\ - \* r1970, a 3-oxoacyl-CoA + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + acetyl-CoA *\ - \* r1784, a 2,3,4-saturated fatty acyl CoA + an oxidized electron-transfer flavoprotein + H+ -> a trans-2-enoyl-CoA + a reduced electron-transfer flavoprotein *\ - \* r1279, a 2,3,4-saturated fatty acid + ATP + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + AMP + diphosphate *\ - - + r1970 -1.0 r1784 + r1279 = 0 - -c16: \* BETAINE[CCO-PERI-BAC] *\ - \* r2495_e, glycine betaine *\ - \* r499, glycine betaine[cytosol] + 2 H+[periplasmic space] -> glycine betaine[periplasmic space] + 2 H+[cytosol] *\ - \* r460, glycine betaine[periplasmic space] + H+[periplasmic space] -> glycine betaine[cytosol] + H+[cytosol] *\ - \* r8b, glycine betaine[periplasmic space] -> glycine betaine[extracellular space] *\ - \* r8a, glycine betaine[extracellular space] -> glycine betaine[periplasmic space] *\ - - -1.0 r2495_e + r499 -1.0 r460 -1.0 r8b + r8a = 0 - -c447: \* TREHALOSE-6P[CCO-CYTOSOL] *\ - \* r1421, alpha,alpha-trehalose 6-phosphate + H2O -> beta-D-glucose 6-phosphate + D-glucopyranose *\ - \* r1508, alpha,alpha-trehalose 6-phosphate + H2O -> alpha,alpha-trehalose + phosphate *\ - \* r2020, UDP-alpha-D-glucose + alpha-D-glucose 6-phosphate -> UDP + alpha,alpha-trehalose 6-phosphate + H+ *\ - - -1.0 r1421 -1.0 r1508 + r2020 = 0 - -c851: \* OROTATE[CCO-CYTOSOL] *\ - \* r1568a, orotidine 5'-phosphate + diphosphate -> 5-phospho-alpha-D-ribose 1-diphosphate + orotate *\ - \* r1568b, 5-phospho-alpha-D-ribose 1-diphosphate + orotate -> orotidine 5'-phosphate + diphosphate *\ - \* r1636, (S)-dihydroorotate + an electron-transfer quinone[inner membrane] -> orotate + an electron-transfer quinol[inner membrane] *\ - \* r1637, (S)-dihydroorotate + an electron-transfer quinone[inner membrane] -> orotate + an electron-transfer quinol[inner membrane] *\ - \* r1657, (S)-dihydroorotate + a menaquinone[inner membrane] -> orotate + a menaquinol[inner membrane] *\ - \* r1671, (S)-dihydroorotate + an ubiquinone[inner membrane] -> orotate + an ubiquinol[inner membrane] *\ - - + r1568a -1.0 r1568b + r1636 + r1637 + r1657 + r1671 = 0 - -c2173: \* N-formyl-L-methionyl-tRNAfmet[CCO-CYTOSOL] *\ - \* objReactionName, an N-formyl-L-methionyl-[initiator tRNAmet] *\ - \* r2250, an N10-formyl-tetrahydrofolate + an L-methionyl-[initiator tRNAmet] -> a tetrahydrofolate + an N-formyl-L-methionyl-[initiator tRNAmet] *\ - - -0.00001 objReactionName + r2250 = 0 - -c2121: \* 2-OCTAPRENYLPHENOL[CCO-CYTOSOL] *\ - \* r2232, 3-octaprenyl-4-hydroxybenzoate + H+ -> 2-octaprenylphenol + CO2 *\ - \* r2124, 2-octaprenylphenol + NADPH + oxygen + H+ -> 3-(all-trans-octaprenyl)benzene-1,2-diol + NADP+ + H2O *\ - - + r2232 -1.0 r2124 = 0 - -c2158: \* ACETALD[CCO-PERI-BAC] *\ - \* r2217b, a carboxylate[periplasmic space] + FADH2[periplasmic space] -> an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] *\ - \* r2217a, an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] -> a carboxylate[periplasmic space] + FADH2[periplasmic space] *\ - - + r2217b -1.0 r2217a = 0 - -c252: \* ARABINOSE[CCO-CYTOSOL] *\ - \* r2152b, L-arabinopyranose -> aldehydo-L-arabinose *\ - \* r2152a, aldehydo-L-arabinose -> L-arabinopyranose *\ - \* r1880b, L-ribulose -> L-arabinopyranose *\ - \* r1880a, L-arabinopyranose -> L-ribulose *\ - \* r1662b, L-arabinopyranose -> L-arabinofuranose *\ - \* r1662a, L-arabinofuranose -> L-arabinopyranose *\ - \* r425, L-arabinose[cytosol] + H+[periplasmic space] -> L-arabinose[periplasmic space] + H+[cytosol] *\ - \* r417, L-arabinose[periplasmic space] + H+[periplasmic space] -> L-arabinose[cytosol] + H+[cytosol] *\ - \* r127, ATP + L-arabinose[periplasmic space] + H2O -> ADP + L-arabinose[cytosol] + phosphate + H+ *\ - - -1.0 r2152b + r2152a + r1880b -1.0 r1880a -1.0 r1662b + r1662a -1.0 r425 + r417 + r127 = 0 - -c162: \* LYS[CCO-CYTOSOL] *\ - \* r2394, meso-diaminopimelate + H+ -> L-lysine + CO2 *\ - \* r2059, L-lysine + a tRNAlys + ATP + H+ -> an L-lysyl-[tRNAlys] + AMP + diphosphate *\ - \* r1894b, beta-D-glucose 6-phosphate + L-lysine -> fructoselysine 6-phosphate + H2O *\ - \* r1894a, fructoselysine 6-phosphate + H2O -> beta-D-glucose 6-phosphate + L-lysine *\ - \* r1103b, D-beta-lysine -> L-lysine *\ - \* r1103a, L-lysine -> D-beta-lysine *\ - \* r848, a cytidine34 in tRNAIle2 + L-lysine + ATP -> a lysidine34 in tRNAIle2 + AMP + diphosphate + 2 H+ *\ - \* r817, L-lysine + H+ -> CO2 + cadaverine *\ - \* r637, L-lysine[periplasmic space] + H+[periplasmic space] -> L-lysine[cytosol] + H+[cytosol] *\ - \* r459, cadaverine[cytosol] + L-lysine[periplasmic space] -> cadaverine[periplasmic space] + L-lysine[cytosol] *\ - \* r333, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - \* r81, L-lysine[periplasmic space] + ATP + H2O -> L-lysine[cytosol] + ADP + phosphate + H+ *\ - - + r2394 -1.0 r2059 -1.0 r1894b + r1894a + r1103b -1.0 r1103a -1.0 r848 -1.0 r817 + r637 + r459 -1.0 r333 + r81 = 0 - -c2006: \* GLN-tRNAs[CCO-CYTOSOL] *\ - \* objReactionName, tRNAgln *\ - \* r1837, tRNAgln + L-glutamine + ATP + H+ -> an L-glutaminyl-[tRNAgln] + AMP + diphosphate *\ - - +0.255712 objReactionName -1.0 r1837 = 0 - -c1836: \* ACETYL-P[CCO-CYTOSOL] *\ - \* r2154b, acetyl phosphate + ADP -> acetate + ATP *\ - \* r2154a, acetate + ATP -> acetyl phosphate + ADP *\ - \* r1576b, acetyl phosphate + coenzyme A -> acetyl-CoA + phosphate *\ - \* r1576a, acetyl-CoA + phosphate -> acetyl phosphate + coenzyme A *\ - - -1.0 r2154b + r2154a -1.0 r1576b + r1576a = 0 - -c1380: \* CPD-8625[CCO-PERI-BAC] *\ - \* r1031b, peptidylproline (omega = 0) -> peptidylproline (omega = 180) *\ - \* r1031a, peptidylproline (omega = 180) -> peptidylproline (omega = 0) *\ - - -1.0 r1031b + r1031a = 0 - -c1823: \* N-acetyl-D-mannosamine[CCO-CYTOSOL] *\ - \* r1556b, N-acetyl-D-mannosamine + pyruvate -> N-acetylneuraminate *\ - \* r1556a, N-acetylneuraminate -> N-acetyl-D-mannosamine + pyruvate *\ - - -1.0 r1556b + r1556a = 0 - -c2072: \* N-ACETYL-D-MANNOSAMINE[CCO-CYTOSOL] *\ - \* r2261b, N-acetyl-beta-D-mannosamine + pyruvate -> N-acetyl-beta-neuraminate *\ - \* r2261a, N-acetyl-beta-neuraminate -> N-acetyl-beta-D-mannosamine + pyruvate *\ - \* r1983, N-acetyl-D-mannosamine + ATP -> N-acetyl-D-mannosamine 6-phosphate + ADP + H+ *\ - - -1.0 r2261b + r2261a -1.0 r1983 = 0 - -c121: \* ADENOSINE5TRIPHOSPHO5ADENOSINE[CCO-EXTRACELLULAR] *\ - \* r60, a nucleoside[extracellular space] -> a nucleoside[periplasmic space] *\ - - -1.0 r60 = 0 - -c127: \* CYS[CCO-CYTOSOL] *\ - \* r63, L-cysteine[cytosol] + ATP + H2O -> L-cysteine[periplasmic space] + ADP + phosphate + H+ *\ - \* r136, L-cysteine[periplasmic space] + ATP + H2O -> L-cysteine[cytosol] + ADP + phosphate + H+ *\ - \* r324, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - \* r551a, L-cysteine[cytosol] -> L-cysteine[periplasmic space] *\ - \* r551b, L-cysteine[periplasmic space] -> L-cysteine[cytosol] *\ - \* r766, L-cysteine + L-glutamate + ATP -> gamma-L-glutamyl-L-cysteine + ADP + phosphate + H+ *\ - \* r854, L-cysteinyl-glycine + H2O -> L-cysteine + glycine *\ - \* r906, a reduced thioredoxin + L-cystine -> an oxidized thioredoxin + 2 L-cysteine *\ - \* r1171a, O-acetyl-L-serine + hydrogen sulfide -> L-cysteine + acetate + H+ *\ - \* r1171b, L-cysteine + acetate + H+ -> O-acetyl-L-serine + hydrogen sulfide *\ - \* r1269, L-cysteine -> 2-aminoprop-2-enoate + hydrogen sulfide + H+ *\ - \* r1290, (R)-4'-phosphopantothenate + L-cysteine + CTP -> CMP + R-4'-phosphopantothenoyl-L-cysteine + diphosphate + H+ *\ - \* r1410, an [L-cysteine desulfurase]-L-cysteine + L-cysteine -> an [L-cysteine desulfurase] L-cysteine persulfide + L-alanine *\ - \* r1684a, L-cystein desulfurase + L-cysteine -> an S-sulfanyl-[L-cysteine desulfurase] + L-alanine *\ - \* r1684b, an S-sulfanyl-[L-cysteine desulfurase] + L-alanine -> L-cystein desulfurase + L-cysteine *\ - \* r1789, L-cysteine + O-succinyl-L-homoserine -> succinate + L-cystathionine + H+ *\ - \* r2244, L-cysteine + H2O -> pyruvate + ammonium + hydrogen sulfide *\ - \* r2298, a tRNAcys + L-cysteine + ATP + H+ -> an L-cysteinyl-[tRNAcys] + AMP + diphosphate *\ - \* r2325a, L-cystine + 2 glutathione -> glutathione disulfide + 2 L-cysteine *\ - \* r2325b, glutathione disulfide + 2 L-cysteine -> L-cystine + 2 glutathione *\ - \* r2412a, a ThiI sulfur-carrier protein + L-cysteine -> an S-sulfanyl-[ThiI sulfur-carrier protein] + L-alanine *\ - \* r2412b, an S-sulfanyl-[ThiI sulfur-carrier protein] + L-alanine -> a ThiI sulfur-carrier protein + L-cysteine *\ - \* r2416, L-cysteine + an unsulfurated [sulfur carrier] -> L-alanine + a sulfurated [sulfur carrier] *\ - - -1.0 r63 + r136 -1.0 r324 -1.0 r551a + r551b -1.0 r766 + r854 +2.0 r906 + r1171a -1.0 r1171b -1.0 r1269 -1.0 r1290 -1.0 r1410 -1.0 r1684a + r1684b -1.0 r1789 -1.0 r2244 -1.0 r2298 +2.0 r2325a - -2.0 r2325b -1.0 r2412a + r2412b -1.0 r2416 = 0 - -c1959: \* DIAMINO-OH-PHOSPHORIBOSYLAMINO-PYR[CCO-CYTOSOL] *\ - \* r2304, 2,5-diamino-6-(5-phospho-D-ribosylamino)pyrimidin-4(3H)-one + H+ + H2O -> 5-amino-6-(5-phospho-D-ribosylamino)uracil + ammonium *\ - \* r1759, GTP + 3 H2O -> 2,5-diamino-6-(5-phospho-D-ribosylamino)pyrimidin-4(3H)-one + formate + diphosphate + 2 H+ *\ - - -1.0 r2304 + r1759 = 0 - -c1626: \* N2-SUCCINYLORNITHINE[CCO-CYTOSOL] *\ - \* r1589, N2-succinyl-L-arginine + 2 H+ + 2 H2O -> 2 ammonium + N2-succinyl-L-ornithine + CO2 *\ - \* r1312b, N2-succinyl-L-glutamate 5-semialdehyde + L-glutamate -> N2-succinyl-L-ornithine + 2-oxoglutarate *\ - \* r1312a, N2-succinyl-L-ornithine + 2-oxoglutarate -> N2-succinyl-L-glutamate 5-semialdehyde + L-glutamate *\ - - + r1589 + r1312b -1.0 r1312a = 0 - -c715: \* Alpha-lactose[CCO-CYTOSOL] *\ - \* r1852b, allolactose -> alpha-lactose *\ - \* r1852a, alpha-lactose -> allolactose *\ - \* r1802, alpha-lactose + H2O -> beta-D-galactose + beta-D-glucose *\ - \* r490, alpha-lactose[cytosol] + H+[periplasmic space] -> alpha-lactose[periplasmic space] + H+[cytosol] *\ - \* r427, alpha-lactose[periplasmic space] + H+[periplasmic space] -> alpha-lactose[cytosol] + H+[cytosol] *\ - - + r1852b -1.0 r1852a -1.0 r1802 -1.0 r490 + r427 = 0 - -c593: \* BUTHIONINE-SULFOXIMINE[CCO-CYTOSOL] *\ - \* r322, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - - -1.0 r322 = 0 - -c489: \* KDO2-LIPID-IVA[CCO-EXTRACELLULAR] *\ - \* r257, a lipopolysaccharide[cytosol] -> a lipopolysaccharide[extracellular space] *\ - - + r257 = 0 - -c929: \* Oxo-glutarate-dehydrogenase-DH-lipoyl[CCO-CYTOSOL] *\ - \* r2421b, a [2-oxoglutarate dehydrogenase E2 protein] N6-S-succinyldihydrolipoyl-L-lysine + coenzyme A -> succinyl-CoA + a [2-oxoglutarate dehydrogenase E2 protein] N6-dihydrolipoyl-L-lysine *\ - \* r2421a, succinyl-CoA + a [2-oxoglutarate dehydrogenase E2 protein] N6-dihydrolipoyl-L-lysine -> a [2-oxoglutarate dehydrogenase E2 protein] N6-S-succinyldihydrolipoyl-L-lysine + coenzyme A *\ - \* r676, a [2-oxoglutarate dehydrogenase E2 protein] N6-dihydrolipoyl-L-lysine + NAD+ -> a [2-oxoglutarate dehydrogenase E2 protein] N6-lipoyl-L-lysine + NADH + H+ *\ - - + r2421b -1.0 r2421a -1.0 r676 = 0 - -c664: \* 3-KETOBUTYRATE[CCO-CYTOSOL] *\ - \* r1666a, acetoacetate + acetyl-CoA -> acetoacetyl-CoA + acetate *\ - \* r1666b, acetoacetyl-CoA + acetate -> acetoacetate + acetyl-CoA *\ - - -1.0 r1666a + r1666b = 0 - -c1314: \* Oxidized-cytochromes-c2[CCO-CYTOSOL] *\ - \* r944b, trimethylamine N-oxide + 2 a reduced c-type cytochrome + 3 H+ -> trimethylamine + 2 an oxidized c-type cytochrome + H2O *\ - \* r944a, trimethylamine + 2 an oxidized c-type cytochrome + H2O -> trimethylamine N-oxide + 2 a reduced c-type cytochrome + 3 H+ *\ - - +2.0 r944b -2.0 r944a = 0 - -c557: \* CPD-108[CCO-CYTOSOL] *\ - \* r1597, L-tyrosine + S-adenosyl-L-methionine + NADPH -> 2-iminoacetate + 4-methylphenol + 5'-deoxyadenosine + L-methionine + NADP+ + H+ *\ - \* r303, 4-methylphenol[cytosol] -> 4-methylphenol[periplasmic space] *\ - - + r1597 -1.0 r303 = 0 - -c1819: \* PROTON[CCO-UNKNOWN-SPACE] *\ - \* r1553, a 1-acyl 2-lyso-phosphatidylcholine + H2O -> a carboxylate + sn-glycero-3-phosphocholine + H+ *\ - - + r1553 = 0 - -c1397: \* CPD-7000[CCO-CYTOSOL] *\ - \* r1044b, isobutanal + NADPH + H+ -> isobutanol + NADP+ *\ - \* r1044a, isobutanol + NADP+ -> isobutanal + NADPH + H+ *\ - - -1.0 r1044b + r1044a = 0 - -c1271: \* Oxidized-flavodoxins[CCO-CYTOSOL] *\ - \* r2163, 2-C-methyl-D-erythritol-2,4-cyclodiphosphate + a reduced flavodoxin -> 1-hydroxy-2-methyl-2-(E)-butenyl 4-diphosphate + an oxidized flavodoxin + H2O + H+ *\ - \* r1104b, a reduced flavodoxin + NADP+ -> an oxidized flavodoxin + NADPH + H+ *\ - \* r1104a, an oxidized flavodoxin + NADPH + H+ -> a reduced flavodoxin + NADP+ *\ - \* r904b, acetyl-CoA + CO2 + a reduced flavodoxin -> pyruvate + an oxidized flavodoxin + coenzyme A + H+ *\ - \* r904a, pyruvate + an oxidized flavodoxin + coenzyme A + H+ -> acetyl-CoA + CO2 + a reduced flavodoxin *\ - - + r2163 + r1104b -1.0 r1104a + r904b -1.0 r904a = 0 - -c359: \* CPD-13395[CCO-CYTOSOL] *\ - \* r852, glycyl-L-asparagine + H2O -> glycine + L-asparagine *\ - \* r557, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r182, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - - -1.0 r852 + r557 + r182 = 0 - -c1319: \* Cytochromes-CL-Ox[CCO-CYTOSOL] *\ - \* r946b, trimethylamine N-oxide + 2 a reduced c-type cytochrome + 3 H+ -> trimethylamine + 2 an oxidized c-type cytochrome + H2O *\ - \* r946a, trimethylamine + 2 an oxidized c-type cytochrome + H2O -> trimethylamine N-oxide + 2 a reduced c-type cytochrome + 3 H+ *\ - - +2.0 r946b -2.0 r946a = 0 - -c373: \* CPD-13398[CCO-CYTOSOL] *\ - \* r682, L-alanyl-L-leucine + H2O -> L-alanine + L-leucine *\ - \* r564, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r189, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - - -1.0 r682 + r564 + r189 = 0 - -c2000: \* 16S-rRNA-2-O-methylcytidine1402[CCO-CYTOSOL] *\ - \* objReactionName, 2'-O-methylcytidine1402 in 16S rRNA *\ - \* r1829, S-adenosyl-L-methionine + cytidine1402 in 16S rRNA -> S-adenosyl-L-homocysteine + 2'-O-methylcytidine1402 in 16S rRNA + H+ *\ - - -0.00001 objReactionName + r1829 = 0 - -c383: \* CPD-13397[CCO-CYTOSOL] *\ - \* r1988, L-alanyl-L-threonine + H2O -> L-alanine + L-threonine *\ - \* r569, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r194, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - - -1.0 r1988 + r569 + r194 = 0 - -c1853: \* ERYTHRONATE-4P[CCO-CYTOSOL] *\ - \* r2105, D-erythrose 4-phosphate + NAD+ + H2O -> erythronate-4-phosphate + NADH + 2 H+ *\ - \* r1598, erythronate-4-phosphate + NAD+ -> 2-oxo-3-hydroxy-4-phosphobutanoate + NADH + H+ *\ - - + r2105 -1.0 r1598 = 0 - -c381: \* CPD-13393[CCO-CYTOSOL] *\ - \* r1791, glycyl-L-methionine + H2O -> glycine + L-methionine *\ - \* r568, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r193, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - - -1.0 r1791 + r568 + r193 = 0 - -c371: \* CPD-13394[CCO-CYTOSOL] *\ - \* r2081, glycyl-L-glutamine + H2O -> glycine + L-glutamine *\ - \* r563, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r188, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - - -1.0 r2081 + r563 + r188 = 0 - -c391: \* CPD-13390[CCO-CYTOSOL] *\ - \* r1026, L-methionyl-L-alanine dipeptide + H2O -> L-methionine + L-alanine *\ - \* r573, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r198, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - - -1.0 r1026 + r573 + r198 = 0 - -c1159: \* SERYL-AMP[CCO-CYTOSOL] *\ - \* r1507b, L-seryl-adenylate + diphosphate -> L-serine + ATP + H+ *\ - \* r1507a, L-serine + ATP + H+ -> L-seryl-adenylate + diphosphate *\ - \* r809, a holo [EntF peptidyl-carrier protein] + L-seryl-adenylate -> a seryl-[EntF peptidyl-carrier protein] + AMP + H+ *\ - - -1.0 r1507b + r1507a -1.0 r809 = 0 - -c1098: \* Protein-pi-phospho-L-histidines[CCO-CYTOSOL] *\ - \* r931b, a [protein]-L-histidine + 2,3-diphospho-D-glycerate -> a [protein]-Npi-phospho-L-histidine + 2-phospho-D-glycerate *\ - \* r931a, a [protein]-Npi-phospho-L-histidine + 2-phospho-D-glycerate -> a [protein]-L-histidine + 2,3-diphospho-D-glycerate *\ - \* r775b, a [protein]-Npi-phospho-L-histidine + 3-phospho-D-glycerate -> a [protein]-L-histidine + 2,3-diphospho-D-glycerate *\ - \* r775a, a [protein]-L-histidine + 2,3-diphospho-D-glycerate -> a [protein]-Npi-phospho-L-histidine + 3-phospho-D-glycerate *\ - - + r931b -1.0 r931a -1.0 r775b + r775a = 0 - -c78: \* DEOXYADENOSINE[CCO-PERI-BAC] *\ - \* r38, a nucleoside[extracellular space] -> a nucleoside[periplasmic space] *\ - \* r583, 2'-deoxyadenosine[periplasmic space] + H+[periplasmic space] -> 2'-deoxyadenosine[cytosol] + H+[cytosol] *\ - \* r598, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - - + r38 -1.0 r583 -1.0 r598 = 0 - -c1950: \* L-rhamnopyranose[CCO-CYTOSOL] *\ - \* r1746b, L-rhamnofuranose -> L-rhamnopyranose *\ - \* r1746a, L-rhamnopyranose -> L-rhamnofuranose *\ - - + r1746b -1.0 r1746a = 0 - -c1925: \* GUANOSINE-5DP-3DP[CCO-CYTOSOL] *\ - \* r2208, ATP + GDP -> AMP + ppGpp *\ - \* r2181, ppGpp + H2O -> GDP + diphosphate + H+ *\ - \* r1711, pppGpp + H2O -> ppGpp + phosphate + H+ *\ - - + r2208 -1.0 r2181 + r1711 = 0 - -c386: \* CPD-3569[CCO-PERI-BAC] *\ - \* r571, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r196, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - - -1.0 r571 -1.0 r196 = 0 - -c289: \* NADH[CCO-CYTOSOL] *\ - \* r2446, histidinol + NAD+ -> histidinal + NADH + H+ *\ - \* r2442b, tartronate semialdehyde + NADH + H+ -> D-glycerate + NAD+ *\ - \* r2442a, D-glycerate + NAD+ -> tartronate semialdehyde + NADH + H+ *\ - \* r2441, 2-oxoglutarate + coenzyme A + NAD+ -> succinyl-CoA + CO2 + NADH *\ - \* r2438b, acetol + NAD+ -> methylglyoxal + NADH + H+ *\ - \* r2438a, methylglyoxal + NADH + H+ -> acetol + NAD+ *\ - \* r2436, NADH + H2O -> (S)-NADHX *\ - \* r2409, pyruvate + coenzyme A + NAD+ -> acetyl-CoA + CO2 + NADH *\ - \* r2406b, dTDP-4-dehydro-6-deoxy-alpha-D-glucopyranose + NADH + H+ -> dTDP-beta-L-rhamnose + NAD+ *\ - \* r2406a, dTDP-beta-L-rhamnose + NAD+ -> dTDP-4-dehydro-6-deoxy-alpha-D-glucopyranose + NADH + H+ *\ - \* r2393b, Cu+ + NAD+ -> Cu2+ + NADH *\ - \* r2393a, Cu2+ + NADH -> Cu+ + NAD+ *\ - \* r2388, UDP-alpha-D-glucuronate + NAD+ -> UDP-beta-L-threo-pentapyranos-4-ulose + CO2 + NADH *\ - \* r2379, 2,3-dioxo-L-gulonate + NADH + H+ -> 3-keto-L-gulonate + NAD+ *\ - \* r2373b, 3-dehydroquinate + NAD(P)H + H+ -> L-quinate + NAD(P)+ *\ - \* r2373a, L-quinate + NAD(P)+ -> 3-dehydroquinate + NAD(P)H + H+ *\ - \* r2363, ADP + (S)-NADHX -> AMP + NADH + phosphate + H+ *\ - \* r2349b, succinate semialdehyde + NADH + H+ -> 4-hydroxybutanoate + NAD+ *\ - \* r2349a, 4-hydroxybutanoate + NAD+ -> succinate semialdehyde + NADH + H+ *\ - \* r2344, IMP + NAD+ + H2O -> XMP + NADH + H+ *\ - \* r2313b, FMN + NAD(P)H + 2 H+ -> FMNH2 + NAD(P)+ *\ - \* r2313a, FMNH2 + NAD(P)+ -> FMN + NAD(P)H + 2 H+ *\ - \* r2305b, sirohydrochlorin + NADH + 2 H+ -> precorrin-2 + NAD+ *\ - \* r2305a, precorrin-2 + NAD+ -> sirohydrochlorin + NADH + 2 H+ *\ - \* r2303, succinate semialdehyde + NAD+ + H2O -> succinate + NADH + 2 H+ *\ - \* r2293, 1-hydroxy-2-methyl-2-(E)-butenyl 4-diphosphate + NAD(P)H + H+ -> dimethylallyl diphosphate + NAD(P)+ + H2O *\ - \* r2283b, 3-phospho-hydroxypyruvate + NADH + H+ -> 3-phospho-D-glycerate + NAD+ *\ - \* r2283a, 3-phospho-D-glycerate + NAD+ -> 3-phospho-hydroxypyruvate + NADH + H+ *\ - \* r2264b, 2 a semiquinone + NAD+ -> 2 a quinone + NADH + H+ *\ - \* r2264a, 2 a quinone + NADH + H+ -> 2 a semiquinone + NAD+ *\ - \* r2211b, 2-keto-L-gulonate + NAD(P)+ -> 2,5-didehydro-D-gluconate + NAD(P)H + H+ *\ - \* r2211a, 2,5-didehydro-D-gluconate + NAD(P)H + H+ -> 2-keto-L-gulonate + NAD(P)+ *\ - \* r2204b, D-tagatofuranose 6-phosphate + NADH + H+ -> galactitol 1-phosphate + NAD+ *\ - \* r2204a, galactitol 1-phosphate + NAD+ -> D-tagatofuranose 6-phosphate + NADH + H+ *\ - \* r2193b, uracil + NADH + H+ -> 5,6-dihydrouracil + NAD+ *\ - \* r2193a, 5,6-dihydrouracil + NAD+ -> uracil + NADH + H+ *\ - \* r2188b, 3-oxoadipyl-CoA + NADH + H+ -> 3-hydroxyadipyl-CoA + NAD+ *\ - \* r2188a, 3-hydroxyadipyl-CoA + NAD+ -> 3-oxoadipyl-CoA + NADH + H+ *\ - \* r2166b, S-formylglutathione + NAD(P)H + H+ -> S-hydroxymethylglutathione + NAD(P)+ *\ - \* r2166a, S-hydroxymethylglutathione + NAD(P)+ -> S-formylglutathione + NAD(P)H + H+ *\ - \* r2150, (S)-lactaldehyde + NAD+ + H2O -> (S)-lactate + NADH + 2 H+ *\ - \* r2132, L-glutamate-5-semialdehyde + NAD+ + H2O -> L-glutamate + NADH + 2 H+ *\ - \* r2130b, (2S)-2-isopropyl-3-oxosuccinate + NADH + H+ -> (2R,3S)-3-isopropylmalate + NAD+ *\ - \* r2130a, (2R,3S)-3-isopropylmalate + NAD+ -> (2S)-2-isopropyl-3-oxosuccinate + NADH + H+ *\ - \* r2120, (S)-malate + NAD+ -> CO2 + pyruvate + NADH *\ - \* r2105, D-erythrose 4-phosphate + NAD+ + H2O -> erythronate-4-phosphate + NADH + 2 H+ *\ - \* r2102b, 2-hydroxy-3-oxosuccinate + NADH + H+ -> L-tartrate + NAD+ *\ - \* r2102a, L-tartrate + NAD+ -> 2-hydroxy-3-oxosuccinate + NADH + H+ *\ - \* r2095, (S)-1-pyrroline-5-carboxylate + NAD(P)H + 2 H+ -> L-proline + NAD(P)+ *\ - \* r2086, betaine aldehyde + NAD+ + H2O -> glycine betaine + NADH + 2 H+ *\ - \* r2041b, glycolaldehyde + NADH + H+ -> ethylene glycol + NAD+ *\ - \* r2041a, ethylene glycol + NAD+ -> glycolaldehyde + NADH + H+ *\ - \* r2035b, riboflavin + NAD(P)H + 2 H+ -> reduced riboflavin + NAD(P)+ *\ - \* r2035a, reduced riboflavin + NAD(P)+ -> riboflavin + NAD(P)H + 2 H+ *\ - \* r2009b, D-fructose 6-phosphate + NADH + H+ -> D-sorbitol 6-phosphate + NAD+ *\ - \* r2009a, D-sorbitol 6-phosphate + NAD+ -> D-fructose 6-phosphate + NADH + H+ *\ - \* r2007b, NADH + NADP+ -> NADPH + NAD+ *\ - \* r2007a, NADPH + NAD+ -> NADH + NADP+ *\ - \* r1987b, D-tagaturonate + NADH + H+ -> D-altronate + NAD+ *\ - \* r1987a, D-altronate + NAD+ -> D-tagaturonate + NADH + H+ *\ - \* r1976b, D-fructuronate + NADH + H+ -> D-mannonate + NAD+ *\ - \* r1976a, D-mannonate + NAD+ -> D-fructuronate + NADH + H+ *\ - \* r1974b, 3alpha,12alpha-dihydroxy-7-oxo-5beta-cholan-24-oate + NADH + H+ -> cholate + NAD+ *\ - \* r1974a, cholate + NAD+ -> 3alpha,12alpha-dihydroxy-7-oxo-5beta-cholan-24-oate + NADH + H+ *\ - \* r1947, NADH + H2O -> (R)-NADHX *\ - \* r1936, UDP-alpha-D-glucose + 2 NAD+ + H2O -> UDP-alpha-D-glucuronate + 2 NADH + 3 H+ *\ - \* r1932, tartronate semialdehyde + NAD(P)H + H+ -> D-glycerate + NAD(P)+ *\ - \* r1882, 3-dehydroshikimate + NAD(P)H + H+ -> shikimate + NAD(P)+ *\ - \* r1804, prephenate + NAD+ -> 4-hydroxyphenylpyruvate + CO2 + NADH *\ - \* r1786b, menadiol + NAD+ -> menadione + NADH + H+ *\ - \* r1786a, menadione + NADH + H+ -> menadiol + NAD+ *\ - \* r1762, histidinal + NAD+ + H2O -> L-histidine + NADH + 2 H+ *\ - \* r1751, glycerone phosphate + NAD(P)H + H+ -> sn-glycerol 3-phosphate + NAD(P)+ *\ - \* r1749, a 5,10-methylene-tetrahydrofolate + NADH + H+ -> an N5-methyl-tetrahydrofolate + NAD+ *\ - \* r1748, a 5,10-methylene-tetrahydrofolate + NADH + H+ -> an N5-methyl-tetrahydrofolate + NAD+ *\ - \* r1725, N2-succinyl-L-glutamate 5-semialdehyde + NAD+ + H2O -> N2-succinylglutamate + NADH + 2 H+ *\ - \* r1724, (2S,3S)-2,3-dihydroxy-2,3-dihydrobenzoate + NAD+ -> 2,3-dihydroxybenzoate + NADH + H+ *\ - \* r1706b, 2-oxoglutarate + NADH + H+ -> 2-hydroxyglutarate + NAD+ *\ - \* r1706a, 2-hydroxyglutarate + NAD+ -> 2-oxoglutarate + NADH + H+ *\ - \* r1702, hypoxanthine + NAD+ + H2O -> xanthine + NADH + H+ *\ - \* r1687, an electron-transfer quinone[inner membrane] + NAD(P)H + H+ -> an electron-transfer quinol[inner membrane] + NAD(P)+ *\ - \* r1685, an electron-transfer quinone[inner membrane] + NAD(P)H + H+ -> an electron-transfer quinol[inner membrane] + NAD(P)+ *\ - \* r1682, NADH + a menaquinone[inner membrane] + 5 H+ -> NAD+ + a menaquinol[inner membrane] + 4 H+[periplasmic space] *\ - \* r1675, NADH + a menaquinone[inner membrane] + H+ -> NAD+ + a menaquinol[inner membrane] *\ - \* r1664b, oxaloacetate + NADH + H+ -> (S)-malate + NAD+ *\ - \* r1664a, (S)-malate + NAD+ -> oxaloacetate + NADH + H+ *\ - \* r1656b, (S)-lactaldehyde + NADH + H+ -> (S)-propane-1,2-diol + NAD+ *\ - \* r1656a, (S)-propane-1,2-diol + NAD+ -> (S)-lactaldehyde + NADH + H+ *\ - \* r1646b, NAD+ + an ubiquinol[inner membrane] + 4 H+[periplasmic space] -> NADH + an ubiquinone[inner membrane] + 5 H+ *\ - \* r1646a, NADH + an ubiquinone[inner membrane] + 5 H+ -> NAD+ + an ubiquinol[inner membrane] + 4 H+[periplasmic space] *\ - \* r1644, NADH + an ubiquinone[inner membrane] + H+ -> NAD+ + an ubiquinol[inner membrane] *\ - \* r1642, 1-hydroxy-2-methyl-2-(E)-butenyl 4-diphosphate + NAD(P)H + H+ -> isopentenyl diphosphate + NAD(P)+ + H2O *\ - \* r1624, nitrite + 3 NADH + 5 H+ -> ammonium + 3 NAD+ + 2 H2O *\ - \* r1612, (R)-malate + NAD+ -> CO2 + pyruvate + NADH *\ - \* r1600, 4-(gamma-glutamylamino)butanal + NAD(P)+ + H2O -> 4-(gamma-L-glutamylamino)butanoate + NAD(P)H + 2 H+ *\ - \* r1598, erythronate-4-phosphate + NAD+ -> 2-oxo-3-hydroxy-4-phosphobutanoate + NADH + H+ *\ - \* r1565b, an aldehyde + NADH + H+ -> a primary alcohol + NAD+ *\ - \* r1565a, a primary alcohol + NAD+ -> an aldehyde + NADH + H+ *\ - \* r1564b, an aldehyde + NADH + H+ -> a primary alcohol + NAD+ *\ - \* r1564a, a primary alcohol + NAD+ -> an aldehyde + NADH + H+ *\ - \* r1563b, an aldehyde + NADH + H+ -> a primary alcohol + NAD+ *\ - \* r1563a, a primary alcohol + NAD+ -> an aldehyde + NADH + H+ *\ - \* r1554b, acetyl-CoA + NADH + H+ -> acetaldehyde + coenzyme A + NAD+ *\ - \* r1554a, acetaldehyde + coenzyme A + NAD+ -> acetyl-CoA + NADH + H+ *\ - \* r1541, L-aspartate-semialdehyde + NAD(P)H + H+ -> L-homoserine + NAD(P)+ *\ - \* r1516, glycine + a tetrahydrofolate + NAD+ -> a 5,10-methylene-tetrahydrofolate + ammonium + CO2 + NADH *\ - \* r1515, glycine + a tetrahydrofolate + NAD+ -> a 5,10-methylene-tetrahydrofolate + ammonium + CO2 + NADH *\ - \* r1453b, 3-keto-5-cis-tetradecenoyl-CoA + NADH + H+ -> 3-hydroxy-5-cis-tetradecenoyl-CoA + NAD+ *\ - \* r1453a, 3-hydroxy-5-cis-tetradecenoyl-CoA + NAD+ -> 3-keto-5-cis-tetradecenoyl-CoA + NADH + H+ *\ - \* r1433, 4-phospho-hydroxy-L-threonine + NAD+ -> (2S)-2-amino-3-oxo-4-phosphonooxybutanoate + NADH + H+ *\ - \* r1428b, 1,3-bisphospho-D-glycerate + NADH + H+ -> D-glyceraldehyde 3-phosphate + NAD+ + phosphate *\ - \* r1428a, D-glyceraldehyde 3-phosphate + NAD+ + phosphate -> 1,3-bisphospho-D-glycerate + NADH + H+ *\ - \* r1409, L-threonine + NAD+ -> 2-amino-3-oxobutanoate + NADH + H+ *\ - \* r1390b, phenylacetate + NADH + 2 H+ -> phenylacetaldehyde + NAD+ + H2O *\ - \* r1390a, phenylacetaldehyde + NAD+ + H2O -> phenylacetate + NADH + 2 H+ *\ - \* r1384, a (3S)-3-hydroxyacyl-CoA + NAD+ -> a 3-oxoacyl-CoA + NADH + H+ *\ - \* r1383, a (3S)-3-hydroxyacyl-CoA + NAD+ -> a 3-oxoacyl-CoA + NADH + H+ *\ - \* r1382, a (3S)-3-hydroxyacyl-CoA + NAD+ -> a 3-oxoacyl-CoA + NADH + H+ *\ - \* r1381, a (3S)-3-hydroxyacyl-CoA + NAD+ -> a 3-oxoacyl-CoA + NADH + H+ *\ - \* r1380, a (3S)-3-hydroxyacyl-CoA + NAD+ -> a 3-oxoacyl-CoA + NADH + H+ *\ - \* r1379, a (3S)-3-hydroxyacyl-CoA + NAD+ -> a 3-oxoacyl-CoA + NADH + H+ *\ - \* r1378, a (3S)-3-hydroxyacyl-CoA + NAD+ -> a 3-oxoacyl-CoA + NADH + H+ *\ - \* r1377, a (3S)-3-hydroxyacyl-CoA + NAD+ -> a 3-oxoacyl-CoA + NADH + H+ *\ - \* r1376, a (3S)-3-hydroxyacyl-CoA + NAD+ -> a 3-oxoacyl-CoA + NADH + H+ *\ - \* r1370b, thymine + NADH + H+ -> 5,6-dihydrothymine + NAD+ *\ - \* r1370a, 5,6-dihydrothymine + NAD+ -> thymine + NADH + H+ *\ - \* r1337b, 3-deoxy-D-glycero-2,5-hexodiulosonate + NADH + H+ -> 2-dehydro-3-deoxy-D-gluconate + NAD+ *\ - \* r1337a, 2-dehydro-3-deoxy-D-gluconate + NAD+ -> 3-deoxy-D-glycero-2,5-hexodiulosonate + NADH + H+ *\ - \* r1314, pyruvate + NADH + H+ -> (R)-lactate + NAD+ *\ - \* r1242b, dihydroxyacetone + NADH + H+ -> glycerol + NAD+ *\ - \* r1242a, glycerol + NAD+ -> dihydroxyacetone + NADH + H+ *\ - \* r1229, trimethylamine N-oxide + NADH + 2 H+ -> trimethylamine + NAD+ + H2O *\ - \* r1199, a trans dodec-2-enoyl-[acp] + NADH + H+ -> a dodecanoyl-[acp] + NAD+ *\ - \* r1165, a trans hex-2-enoyl-[acp] + NADH + H+ -> a hexanoyl-[acyl-carrier-protein] + NAD+ *\ - \* r1035b, acetol + NADH + H+ -> (S)-propane-1,2-diol + NAD+ *\ - \* r1035a, (S)-propane-1,2-diol + NAD+ -> acetol + NADH + H+ *\ - \* r1034, a trans tetradec-2-enoyl-[acp] + NADH + H+ -> a myristoyl-[acp] + NAD+ *\ - \* r1025, 4-aminobutanal + NAD+ + H2O -> 4-aminobutanoate + NADH + 2 H+ *\ - \* r1021, a trans-2-enoyl-[acyl-carrier protein] + NADH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NAD+ *\ - \* r1020, a trans-2-enoyl-[acyl-carrier protein] + NADH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NAD+ *\ - \* r1019, a trans-2-enoyl-[acyl-carrier protein] + NADH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NAD+ *\ - \* r1018, a trans-2-enoyl-[acyl-carrier protein] + NADH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NAD+ *\ - \* r1017, a trans-2-enoyl-[acyl-carrier protein] + NADH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NAD+ *\ - \* r1016, a trans-2-enoyl-[acyl-carrier protein] + NADH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NAD+ *\ - \* r1015, a trans-2-enoyl-[acyl-carrier protein] + NADH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NAD+ *\ - \* r1012b, acetaldehyde + NADH + H+ -> ethanol + NAD+ *\ - \* r1012a, ethanol + NAD+ -> acetaldehyde + NADH + H+ *\ - \* r1001, a trans oct-2-enoyl-[acp] + NADH + H+ -> an octanoyl-[acp] + NAD+ *\ - \* r961, an enoylglutaryl-[acp] methyl ester + NADH + H+ -> a glutaryl-[acp] methyl ester + NAD+ *\ - \* r937, a [pyruvate dehydrogenase E2 protein] N6-dihydrolipoyl-L-lysine + NAD+ -> a [pyruvate dehydrogenase E2 protein] N6-lipoyl-L-lysine + NADH + H+ *\ - \* r914, a trans-delta3-cis-delta5-dodecenoyl-[acp] + NADH + H+ -> a cis-delta5-dodecenoyl-[acp] + NAD+ *\ - \* r894, (S)-1-pyrroline-5-carboxylate + NAD+ + 2 H2O -> L-glutamate + NADH + H+ *\ - \* r885, a trans hexadecenoyl-[acp] + NADH + H+ -> a palmitoyl-[acp] + NAD+ *\ - \* r881b, a [glycine-cleavage complex H protein] N6-lipoyl-L-lysine + NADH + H+ -> a [glycine-cleavage complex H protein] N6-dihydrolipoyl-L-lysine + NAD+ *\ - \* r881a, a [glycine-cleavage complex H protein] N6-dihydrolipoyl-L-lysine + NAD+ -> a [glycine-cleavage complex H protein] N6-lipoyl-L-lysine + NADH + H+ *\ - \* r880, a trans-delta3-cis-delta7-tetradecenoyl-[acp] + NADH + H+ -> a cis-delta7-tetradecenoyl-[acp] + NAD+ *\ - \* r847, a trans-delta2-decenoyl-[acp] + NADH + H+ -> a decanoyl-[acp] + NAD+ *\ - \* r841, an enoylpimeloyl-[acp] methyl ester + NADH + H+ -> a pimeloyl-[acp] methyl ester + NAD+ *\ - \* r840b, 4-pregnen-20,21-diol-3-one + NAD+ -> 11-deoxycorticosterone + NADH + H+ *\ - \* r840a, 11-deoxycorticosterone + NADH + H+ -> 4-pregnen-20,21-diol-3-one + NAD+ *\ - \* r830b, beta-D-fructofuranose 6-phosphate + NADH + H+ -> D-mannitol 1-phosphate + NAD+ *\ - \* r830a, D-mannitol 1-phosphate + NAD+ -> beta-D-fructofuranose 6-phosphate + NADH + H+ *\ - \* r813, a crotonyl-[acp] + NADH + H+ -> a butyryl-[acp] + NAD+ *\ - \* r788b, a [lipoyl-carrier protein] N6-lipoyl-L-lysine + NADH + H+ -> a [lipoyl-carrier protein] N6-dihydrolipoyl-L-lysine + NAD+ *\ - \* r788a, a [lipoyl-carrier protein] N6-dihydrolipoyl-L-lysine + NAD+ -> a [lipoyl-carrier protein] N6-lipoyl-L-lysine + NADH + H+ *\ - \* r776, glycolaldehyde + NAD+ + H2O -> glycolate + NADH + 2 H+ *\ - \* r763b, 2 an oxidized [2Fe-2S] ferredoxin + NADH -> 2 a reduced [2Fe-2S] ferredoxin + NAD+ + H+ *\ - \* r763a, 2 a reduced [2Fe-2S] ferredoxin + NAD+ + H+ -> 2 an oxidized [2Fe-2S] ferredoxin + NADH *\ - \* r760b, 5-dehydro-D-gluconate + NAD(P)H + H+ -> L-idonate + NAD(P)+ *\ - \* r760a, L-idonate + NAD(P)+ -> 5-dehydro-D-gluconate + NAD(P)H + H+ *\ - \* r755b, 5-dehydro-D-gluconate + NAD(P)H + H+ -> D-gluconate + NAD(P)+ *\ - \* r755a, D-gluconate + NAD(P)+ -> 5-dehydro-D-gluconate + NAD(P)H + H+ *\ - \* r737, a trans-delta3-cis-delta9-hexadecenoyl-[acp] + NADH + H+ -> a palmitoleoyl-[acp] + NAD+ *\ - \* r695b, 5-dehydro-D-gluconate + NADH + H+ -> D-gluconate + NAD+ *\ - \* r695a, D-gluconate + NAD+ -> 5-dehydro-D-gluconate + NADH + H+ *\ - \* r676, a [2-oxoglutarate dehydrogenase E2 protein] N6-dihydrolipoyl-L-lysine + NAD+ -> a [2-oxoglutarate dehydrogenase E2 protein] N6-lipoyl-L-lysine + NADH + H+ *\ - \* r660b, 3-dehydro-2-deoxy-D-gluconate + NADH + H+ -> 2-deoxygluconate + NAD+ *\ - \* r660a, 2-deoxygluconate + NAD+ -> 3-dehydro-2-deoxy-D-gluconate + NADH + H+ *\ - \* r146, NADH + NADP+ + H+[periplasmic space] -> NADPH + NAD+ + H+[cytosol] *\ - - + r2446 -1.0 r2442b + r2442a + r2441 + r2438b -1.0 r2438a -1.0 r2436 + r2409 -1.0 r2406b + r2406a + r2393b -1.0 r2393a + r2388 -1.0 r2379 -1.0 r2373b + r2373a + r2363 -1.0 r2349b + r2349a - + r2344 -1.0 r2313b + r2313a -1.0 r2305b + r2305a + r2303 -1.0 r2293 -1.0 r2283b + r2283a + r2264b -1.0 r2264a + r2211b -1.0 r2211a -1.0 r2204b + r2204a -1.0 r2193b + r2193a -1.0 r2188b + r2188a -1.0 r2166b - + r2166a + r2150 + r2132 -1.0 r2130b + r2130a + r2120 + r2105 -1.0 r2102b + r2102a -1.0 r2095 + r2086 -1.0 r2041b + r2041a -1.0 r2035b + r2035a -1.0 r2009b + r2009a -1.0 r2007b + r2007a -1.0 r1987b - + r1987a -1.0 r1976b + r1976a -1.0 r1974b + r1974a -1.0 r1947 +2.0 r1936 -1.0 r1932 -1.0 r1882 + r1804 + r1786b -1.0 r1786a + r1762 -1.0 r1751 -1.0 r1749 -1.0 r1748 + r1725 + r1724 -1.0 r1706b + r1706a - + r1702 -1.0 r1687 -1.0 r1685 -1.0 r1682 -1.0 r1675 -1.0 r1664b + r1664a -1.0 r1656b + r1656a + r1646b -1.0 r1646a -1.0 r1644 -1.0 r1642 -3.0 r1624 + r1612 + r1600 + r1598 -1.0 r1565b + r1565a -1.0 r1564b - + r1564a -1.0 r1563b + r1563a -1.0 r1554b + r1554a -1.0 r1541 + r1516 + r1515 -1.0 r1453b + r1453a + r1433 -1.0 r1428b + r1428a + r1409 -1.0 r1390b + r1390a + r1384 + r1383 + r1382 + r1381 - + r1380 + r1379 + r1378 + r1377 + r1376 -1.0 r1370b + r1370a -1.0 r1337b + r1337a -1.0 r1314 -1.0 r1242b + r1242a -1.0 r1229 -1.0 r1199 -1.0 r1165 -1.0 r1035b + r1035a -1.0 r1034 + r1025 -1.0 r1021 - -1.0 r1020 -1.0 r1019 -1.0 r1018 -1.0 r1017 -1.0 r1016 -1.0 r1015 -1.0 r1012b + r1012a -1.0 r1001 -1.0 r961 + r937 -1.0 r914 + r894 -1.0 r885 -1.0 r881b + r881a -1.0 r880 -1.0 r847 -1.0 r841 + r840b - -1.0 r840a -1.0 r830b + r830a -1.0 r813 -1.0 r788b + r788a + r776 -1.0 r763b + r763a -1.0 r760b + r760a -1.0 r755b + r755a -1.0 r737 -1.0 r695b + r695a + r676 -1.0 r660b + r660a -1.0 r146 = 0 - -c594: \* BUTHIONINE-SULFOXIMINE[CCO-PERI-BAC] *\ - \* r322, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - - + r322 = 0 - -c1002: \* T2-DECENOYL-COA[CCO-CYTOSOL] *\ - \* r728, a trans-2-enoyl-CoA + H2O -> a (3S)-3-hydroxyacyl-CoA *\ - \* r1415a, a cis-3-enoyl-CoA -> a trans-2-enoyl-CoA *\ - \* r1415b, a trans-2-enoyl-CoA -> a cis-3-enoyl-CoA *\ - \* r1779, a 2,3,4-saturated fatty acyl CoA + an oxidized electron-transfer flavoprotein + H+ -> a trans-2-enoyl-CoA + a reduced electron-transfer flavoprotein *\ - \* r1917, a 2,3,4-saturated fatty acyl CoA + NADP+ -> a trans-2-enoyl-CoA + NADPH + H+ *\ - - -1.0 r728 + r1415a -1.0 r1415b + r1779 + r1917 = 0 - -c1240: \* Trans-D3-cis-D7-tetradecenoyl-ACPs[CCO-CYTOSOL] *\ - \* r1030, a (3R)-3-hydroxy cis delta7-tetradecenoyl-[acp] -> a trans-delta3-cis-delta7-tetradecenoyl-[acp] + H2O *\ - \* r880, a trans-delta3-cis-delta7-tetradecenoyl-[acp] + NADH + H+ -> a cis-delta7-tetradecenoyl-[acp] + NAD+ *\ - - + r1030 -1.0 r880 = 0 - -c439: \* GLC-6-P[CCO-CYTOSOL] *\ - \* r2321, beta-D-glucose 6-phosphate + NADP+ -> 6-phospho D-glucono-1,5-lactone + NADPH + H+ *\ - \* r2290b, beta-D-glucose 6-phosphate -> beta-D-glucose 1-phosphate *\ - \* r2290a, beta-D-glucose 1-phosphate -> beta-D-glucose 6-phosphate *\ - \* r1894b, beta-D-glucose 6-phosphate + L-lysine -> fructoselysine 6-phosphate + H2O *\ - \* r1894a, fructoselysine 6-phosphate + H2O -> beta-D-glucose 6-phosphate + L-lysine *\ - \* r1703b, beta-D-fructofuranose 6-phosphate -> beta-D-glucose 6-phosphate *\ - \* r1703a, beta-D-glucose 6-phosphate -> beta-D-fructofuranose 6-phosphate *\ - \* r1611, beta-D-glucose 6-phosphate + H2O -> beta-D-glucose + phosphate *\ - \* r1431, beta-D-glucose + ATP -> beta-D-glucose 6-phosphate + ADP + H+ *\ - \* r1421, alpha,alpha-trehalose 6-phosphate + H2O -> beta-D-glucose 6-phosphate + D-glucopyranose *\ - \* r1095b, beta-D-glucose 6-phosphate -> alpha-D-glucose 6-phosphate *\ - \* r1095a, alpha-D-glucose 6-phosphate -> beta-D-glucose 6-phosphate *\ - \* r221, HPr-Phis15 + beta-D-glucose[periplasmic space] -> beta-D-glucose 6-phosphate[cytosol] + HPr *\ - - -1.0 r2321 -1.0 r2290b + r2290a -1.0 r1894b + r1894a + r1703b -1.0 r1703a -1.0 r1611 + r1431 + r1421 -1.0 r1095b + r1095a + r221 = 0 - -c1885: \* CPD0-1108[CCO-CYTOSOL] *\ - \* r2131b, beta-D-ribofuranose -> beta-D-ribopyranose *\ - \* r2131a, beta-D-ribopyranose -> beta-D-ribofuranose *\ - \* r1975b, beta-D-ribofuranose -> alpha-D-ribofuranose *\ - \* r1975a, alpha-D-ribofuranose -> beta-D-ribofuranose *\ - \* r1627b, aldehydo-D-ribose -> beta-D-ribofuranose *\ - \* r1627a, beta-D-ribofuranose -> aldehydo-D-ribose *\ - - -1.0 r2131b + r2131a -1.0 r1975b + r1975a + r1627b -1.0 r1627a = 0 - -c1413: \* N-SUCCINYL-2-AMINO-6-KETOPIMELATE[CCO-CYTOSOL] *\ - \* r1818b, L-glutamate + N-succinyl-2-amino-6-ketopimelate -> 2-oxoglutarate + N-succinyl-L,L-2,6-diaminopimelate *\ - \* r1818a, 2-oxoglutarate + N-succinyl-L,L-2,6-diaminopimelate -> L-glutamate + N-succinyl-2-amino-6-ketopimelate *\ - \* r1068, (S)-2,3,4,5-tetrahydrodipicolinate + succinyl-CoA + H2O -> N-succinyl-2-amino-6-ketopimelate + coenzyme A *\ - - -1.0 r1818b + r1818a + r1068 = 0 - -c847: \* CPD0-1107[CCO-CYTOSOL] *\ - \* r957b, beta-L-fucopyranose -> alpha-L-fucopyranose *\ - \* r957a, alpha-L-fucopyranose -> beta-L-fucopyranose *\ - \* r594, L-fucose[periplasmic space] + H+[periplasmic space] -> L-fucose[cytosol] + H+[cytosol] *\ - - -1.0 r957b + r957a + r594 = 0 - -c316: \* DMSO[CCO-PERI-BAC] *\ - \* r1678a, dimethyl sulfide[periplasmic space] + a menaquinone[inner membrane] + H2O[periplasmic space] -> dimethyl sulfoxide[periplasmic space] + a menaquinol[inner membrane] *\ - \* r1678b, dimethyl sulfoxide[periplasmic space] + a menaquinol[inner membrane] -> dimethyl sulfide[periplasmic space] + a menaquinone[inner membrane] + H2O[periplasmic space] *\ - - + r1678a -1.0 r1678b = 0 - -c2211: \* NADP[CCO-PERI-BAC] *\ - \* r2368, NADP+ + H2O -> NAD+ + phosphate *\ - - -1.0 r2368 = 0 - -c1578: \* L-Fucopyranoses[CCO-CYTOSOL] *\ - \* r1266b, L-fucopyranose -> aldehydo-L-fucose *\ - \* r1266a, aldehydo-L-fucose -> L-fucopyranose *\ - - -1.0 r1266b + r1266a = 0 - -c379: \* ALA-GLY[CCO-CYTOSOL] *\ - \* r1877, L-alanyl-glycine + H2O -> L-alanine + glycine *\ - \* r567, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r192, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - - -1.0 r1877 + r567 + r192 = 0 - -c248: \* ARG[CCO-CYTOSOL] *\ - \* r125, ATP + L-arginine[periplasmic space] + H2O -> ADP + L-arginine[cytosol] + phosphate + H+ *\ - \* r339, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - \* r863, L-arginine + succinyl-CoA -> N2-succinyl-L-arginine + coenzyme A + H+ *\ - \* r1476, a tRNAarg + L-arginine + ATP + H+ -> an L-arginyl-[tRNAarg] + AMP + diphosphate *\ - \* r1992, L-arginine + H+ -> CO2 + agmatine *\ - \* r2084a, L-arginino-succinate -> L-arginine + fumarate *\ - \* r2084b, L-arginine + fumarate -> L-arginino-succinate *\ - - + r125 -1.0 r339 -1.0 r863 -1.0 r1476 -1.0 r1992 + r2084a -1.0 r2084b = 0 - -c1446: \* OH[CCO-CYTOSOL] *\ - \* r2042a, H+ + OH- -> H2O *\ - \* r2042b, H2O -> H+ + OH- *\ - - -1.0 r2042a + r2042b = 0 - -c2147: \* BISOHMYR-GLC[CCO-CYTOSOL] *\ - \* r2351, 2,3-bis[(3R)-3-hydroxymyristoyl]-alpha-D-glucosaminyl 1-phosphate + UDP-2-N,3-O-bis[(3R)-3-hydroxytetradecanoyl]-alpha-D-glucosamine -> lipid A disaccharide + UDP + H+ *\ - \* r2194, lipid A disaccharide + ATP -> lipid IVA + ADP + H+ *\ - - + r2351 -1.0 r2194 = 0 - -c1269: \* TAGATOSE-6-PHOSPHATE[CCO-CYTOSOL] *\ - \* r2204b, D-tagatofuranose 6-phosphate + NADH + H+ -> galactitol 1-phosphate + NAD+ *\ - \* r2204a, galactitol 1-phosphate + NAD+ -> D-tagatofuranose 6-phosphate + NADH + H+ *\ - \* r903, D-tagatofuranose 6-phosphate + ATP -> D-tagatofuranose 1,6-bisphosphate + ADP + H+ *\ - - -1.0 r2204b + r2204a -1.0 r903 = 0 - -c835: \* CPD-15633[CCO-PERI-BAC] *\ - \* r581, D-galacturonate[periplasmic space] + H+[periplasmic space] -> D-galacturonate[cytosol] + H+[cytosol] *\ - - -1.0 r581 = 0 - -c648: \* CPD-9247[CCO-CYTOSOL] *\ - \* r367, a long-chain fatty acid[periplasmic space] -> a long-chain fatty acid[cytosol] *\ - - + r367 = 0 - -c1678: \* L-ALLO-THREONINE[CCO-CYTOSOL] *\ - \* r2417b, aminoacetone + CO2 + NADPH -> L-allo-threonine + NADP+ *\ - \* r2417a, L-allo-threonine + NADP+ -> aminoacetone + CO2 + NADPH *\ - \* r1788b, 2-amino-3-oxobutanoate + NADPH + H+ -> L-allo-threonine + NADP+ *\ - \* r1788a, L-allo-threonine + NADP+ -> 2-amino-3-oxobutanoate + NADPH + H+ *\ - \* r1363b, glycine + acetaldehyde -> L-allo-threonine *\ - \* r1363a, L-allo-threonine -> glycine + acetaldehyde *\ - - + r2417b -1.0 r2417a + r1788b -1.0 r1788a + r1363b -1.0 r1363a = 0 - -c93: \* 5-METHYLAMINOMETHYL-2-THIOURIDINE[CCO-EXTRACELLULAR] *\ - \* r46, a nucleoside[extracellular space] -> a nucleoside[periplasmic space] *\ - - -1.0 r46 = 0 - -c139: \* L-1-GLYCERO-PHOSPHORYLCHOLINE[CCO-PERI-BAC] *\ - \* r1552, a 1-acyl 2-lyso-phosphatidylcholine + H2O -> a carboxylate + sn-glycero-3-phosphocholine + H+ *\ - \* r69, a glycerophosphodiester[periplasmic space] + ATP + H2O -> a glycerophosphodiester[cytosol] + ADP + phosphate + H+ *\ - - + r1552 -1.0 r69 = 0 - -c1075: \* ACETYL-ACP[CCO-CYTOSOL] *\ - \* r973, a malonyl-[acp] + an acetyl-[acp] + H+ -> a holo-[acyl-carrier protein] + an acetoacetyl-[acp] + CO2 *\ - \* r765, a malonyl-[acp] + H+ -> an acetyl-[acp] + CO2 *\ - \* r757b, an acetyl-[acp] + coenzyme A -> a holo-[acyl-carrier protein] + acetyl-CoA *\ - \* r757a, a holo-[acyl-carrier protein] + acetyl-CoA -> an acetyl-[acp] + coenzyme A *\ - - -1.0 r973 + r765 -1.0 r757b + r757a = 0 - -c885: \* OXYGEN-MOLECULE[CCO-PERI-BAC] *\ - \* r642a, oxygen[periplasmic space] -> oxygen[cytosol] *\ - \* r642b, oxygen[cytosol] -> oxygen[periplasmic space] *\ - \* r1713, 4 Fe2+ + 4 H+ + oxygen -> 4 Fe3+ + 2 H2O *\ - \* r2014, 2 superoxide + 2 H+ -> hydrogen peroxide + oxygen *\ - \* r2195, 2 Cu+[periplasmic space] + 2 H+[periplasmic space] + oxygen[periplasmic space] -> 2 Cu2+[periplasmic space] + 2 H2O[periplasmic space] *\ - \* r2451_e, oxygen *\ - - -1.0 r642a + r642b -1.0 r1713 + r2014 -1.0 r2195 + r2451_e = 0 - -c2236: \* Charged-GLY-tRNAs[CCO-CYTOSOL] *\ - \* objReactionName, a glycyl-[tRNAgly] *\ - \* r2437, a tRNAgly + glycine + ATP + H+ -> a glycyl-[tRNAgly] + AMP + diphosphate *\ - - -0.595297 objReactionName + r2437 = 0 - -c64: \* CPD-10434[CCO-CYTOSOL] *\ - \* r1503, an alkylsulfonate + FMNH2 + oxygen -> an aldehyde + sulfite + FMN + H2O + 2 H+ *\ - \* r31, ATP + an aliphatic sulfonate[periplasmic space] + H2O -> an aliphatic sulfonate[cytosol] + ADP + phosphate + H+ *\ - - -1.0 r1503 + r31 = 0 - -c2104: \* CPD-358[CCO-CYTOSOL] *\ - \* r2075b, (R)-lactaldehyde + NADPH + H+ -> (R)-propane-1,2-diol + NADP+ *\ - \* r2075a, (R)-propane-1,2-diol + NADP+ -> (R)-lactaldehyde + NADPH + H+ *\ - - -1.0 r2075b + r2075a = 0 - -c2040: \* tRNA-Arg-adenosine34[CCO-CYTOSOL] *\ - \* objReactionName, an adenosine34 in [tRNAArg2] *\ - \* r1891, an adenosine34 in [tRNAArg2] + H+ + H2O -> an inosine34 in [tRNAArg2] + ammonium *\ - - +0.00001 objReactionName -1.0 r1891 = 0 - -c1006: \* 3-Hydroxy-octanoyl-ACPs[CCO-CYTOSOL] *\ - \* r1138, a 3-oxoacyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxyacyl-[acyl-carrier protein] + NADP+ *\ - \* r1114, a 3-oxo-octanoyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxyoctanoyl-[acp] + NADP+ *\ - \* r795, a (3R)-3-hydroxyacyl-[acyl-carrier protein] -> a trans-2-enoyl-[acyl-carrier protein] + H2O *\ - \* r719, a (3R)-3-hydroxyoctanoyl-[acp] -> a trans oct-2-enoyl-[acp] + H2O *\ - - + r1138 + r1114 -1.0 r795 -1.0 r719 = 0 - -c914: \* CPD-15424[CCO-CYTOSOL] *\ - \* r992b, a HypE hydrogenase maturation protein-S-carboxamide + AMP -> O-carbamoyladenylate + HypE *\ - \* r992a, O-carbamoyladenylate + HypE -> a HypE hydrogenase maturation protein-S-carboxamide + AMP *\ - \* r663b, O-carbamoyladenylate + diphosphate + phosphate -> carbamoyl-phosphate + ATP + H2O *\ - \* r663a, carbamoyl-phosphate + ATP + H2O -> O-carbamoyladenylate + diphosphate + phosphate *\ - - + r992b -1.0 r992a -1.0 r663b + r663a = 0 - -c2161: \* HYDRPHENYLAC-CPD[CCO-PERI-BAC] *\ - \* r2220b, a carboxylate[periplasmic space] + FADH2[periplasmic space] -> an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] *\ - \* r2220a, an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] -> a carboxylate[periplasmic space] + FADH2[periplasmic space] *\ - - + r2220b -1.0 r2220a = 0 - -c846: \* CPD0-1107[CCO-PERI-BAC] *\ - \* r594, L-fucose[periplasmic space] + H+[periplasmic space] -> L-fucose[cytosol] + H+[cytosol] *\ - - -1.0 r594 = 0 - -c921: \* O-SUCCINYL-L-HOMOSERINE[CCO-CYTOSOL] *\ - \* r2135, L-homoserine + succinyl-CoA -> O-succinyl-L-homoserine + coenzyme A *\ - \* r1789, L-cysteine + O-succinyl-L-homoserine -> succinate + L-cystathionine + H+ *\ - \* r1000, O-succinyl-L-homoserine + H2O -> 2-oxobutanoate + succinate + ammonium + H+ *\ - \* r669, O-succinyl-L-homoserine -> succinate + (2Z)-2-aminobut-2-enoate + 2 H+ *\ - - + r2135 -1.0 r1789 -1.0 r1000 -1.0 r669 = 0 - -c223: \* CPD0-2265[CCO-CYTOSOL] *\ - \* r265, a lipopolysaccharide[cytosol] -> a lipopolysaccharide[extracellular space] *\ - \* r113, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - - -1.0 r265 -1.0 r113 = 0 - -c454: \* HYPOXANTHINE[CCO-CYTOSOL] *\ - \* r2237, 5-phospho-alpha-D-ribose 1-diphosphate + hypoxanthine -> IMP + diphosphate *\ - \* r2000b, a purine base + alpha-D-ribose-1-phosphate -> a purine ribonucleoside + phosphate *\ - \* r2000a, a purine ribonucleoside + phosphate -> a purine base + alpha-D-ribose-1-phosphate *\ - \* r1960, inosine + H2O -> D-ribofuranose + hypoxanthine *\ - \* r1702, hypoxanthine + NAD+ + H2O -> xanthine + NADH + H+ *\ - \* r1401b, hypoxanthine + 2-deoxy-alpha-D-ribose 1-phosphate -> 2'-deoxyinosine + phosphate *\ - \* r1401a, 2'-deoxyinosine + phosphate -> hypoxanthine + 2-deoxy-alpha-D-ribose 1-phosphate *\ - \* r1356b, alpha-D-ribose-1-phosphate + hypoxanthine -> inosine + phosphate *\ - \* r1356a, inosine + phosphate -> alpha-D-ribose-1-phosphate + hypoxanthine *\ - \* r671, adenine + H+ + H2O -> ammonium + hypoxanthine *\ - \* r277, hypoxanthine[cytosol] -> hypoxanthine[periplasmic space] *\ - \* r229b, hypoxanthine[periplasmic space] -> hypoxanthine[cytosol] *\ - \* r229a, hypoxanthine[cytosol] -> hypoxanthine[periplasmic space] *\ - - -1.0 r2237 -1.0 r2000b + r2000a + r1960 -1.0 r1702 -1.0 r1401b + r1401a -1.0 r1356b + r1356a + r671 -1.0 r277 + r229b -1.0 r229a = 0 - -c680: \* PYRIDOXAMINE[CCO-CYTOSOL] *\ - \* r1304, ATP + pyridoxamine -> ADP + pyridoxamine 5'-phosphate + H+ *\ - \* r1492a, pyridoxamine + oxaloacetate -> pyridoxal + L-aspartate *\ - \* r1492b, pyridoxal + L-aspartate -> pyridoxamine + oxaloacetate *\ - - -1.0 r1304 -1.0 r1492a + r1492b = 0 - -c2219: \* CPD-534[CCO-PERI-BAC] *\ - \* r2491_e, D-myo-inositol (1,2,4,5,6)-pentakisphosphate *\ - - -1.0 r2491_e = 0 - -c1079: \* Protein-alpha-L-Glutamates[CCO-CYTOSOL] *\ - \* r832, a [protein]-alpha-L-glutamate + S-adenosyl-L-methionine -> a [protein]-L-glutamate-O5-methyl-ester + S-adenosyl-L-homocysteine *\ - \* r956, a [protein]-L-glutamate-O5-methyl-ester + H2O -> a [protein]-alpha-L-glutamate + methanol + H+ *\ - - -1.0 r832 + r956 = 0 - -c61: \* Pi[CCO-CYTOSOL] *\ - \* r30, ATP + an aliphatic sulfonate[periplasmic space] + H2O -> an aliphatic sulfonate[cytosol] + ADP + phosphate + H+ *\ - \* r31, ATP + an aliphatic sulfonate[periplasmic space] + H2O -> an aliphatic sulfonate[cytosol] + ADP + phosphate + H+ *\ - \* r32, ATP + an aliphatic sulfonate[periplasmic space] + H2O -> an aliphatic sulfonate[cytosol] + ADP + phosphate + H+ *\ - \* r33, ATP + an aliphatic sulfonate[periplasmic space] + H2O -> an aliphatic sulfonate[cytosol] + ADP + phosphate + H+ *\ - \* r34, ATP + an aliphatic sulfonate[periplasmic space] + H2O -> an aliphatic sulfonate[cytosol] + ADP + phosphate + H+ *\ - \* r35, ATP + an aliphatic sulfonate[periplasmic space] + H2O -> an aliphatic sulfonate[cytosol] + ADP + phosphate + H+ *\ - \* r63, L-cysteine[cytosol] + ATP + H2O -> L-cysteine[periplasmic space] + ADP + phosphate + H+ *\ - \* r65, ATP + L-ornithine[periplasmic space] + H2O -> ADP + L-ornithine[cytosol] + phosphate + H+ *\ - \* r67, a glycerophosphodiester[periplasmic space] + ATP + H2O -> a glycerophosphodiester[cytosol] + ADP + phosphate + H+ *\ - \* r68, a glycerophosphodiester[periplasmic space] + ATP + H2O -> a glycerophosphodiester[cytosol] + ADP + phosphate + H+ *\ - \* r69, a glycerophosphodiester[periplasmic space] + ATP + H2O -> a glycerophosphodiester[cytosol] + ADP + phosphate + H+ *\ - \* r70, a glycerophosphodiester[periplasmic space] + ATP + H2O -> a glycerophosphodiester[cytosol] + ADP + phosphate + H+ *\ - \* r71, a glycerophosphodiester[periplasmic space] + ATP + H2O -> a glycerophosphodiester[cytosol] + ADP + phosphate + H+ *\ - \* r72, a glycerophosphodiester[periplasmic space] + ATP + H2O -> a glycerophosphodiester[cytosol] + ADP + phosphate + H+ *\ - \* r73, a glycerophosphodiester[periplasmic space] + ATP + H2O -> a glycerophosphodiester[cytosol] + ADP + phosphate + H+ *\ - \* r75, glutathione[periplasmic space] + ATP + H2O -> glutathione[cytosol] + ADP + phosphate + H+ *\ - \* r77, ATP + L-isoleucine[periplasmic space] + H2O -> ADP + L-isoleucine[cytosol] + phosphate + H+ *\ - \* r79, Mg2+[periplasmic space] + ATP + H2O -> Mg2+[cytosol] + ADP + phosphate + H+ *\ - \* r81, L-lysine[periplasmic space] + ATP + H2O -> L-lysine[cytosol] + ADP + phosphate + H+ *\ - \* r82, ATP + L-glutamine[periplasmic space] + H2O -> ADP + L-glutamine[cytosol] + phosphate + H+ *\ - \* r83, K+[periplasmic space] + ATP + H2O -> K+[cytosol] + ADP + phosphate + H+ *\ - \* r85, ATP + L-proline[periplasmic space] + H2O -> ADP + L-proline[cytosol] + phosphate + H+ *\ - \* r87, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r88, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r89, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r90, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r91, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r92, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r93, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r94, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r95, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r96, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r97, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r98, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r99, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r100, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r101, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r102, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r103, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r104, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r105, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r106, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r107, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r108, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r109, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r110, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r111, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r112, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r113, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r114, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r115, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r116, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r117, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r118, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r120, ATP + L-methionine[periplasmic space] + H2O -> ADP + L-methionine[cytosol] + phosphate + H+ *\ - \* r121, ATP + an alkylphosphonate[periplasmic space] + H2O -> ADP + an alkylphosphonate[cytosol] + phosphate + H+ *\ - \* r122, ATP + an alkylphosphonate[periplasmic space] + H2O -> ADP + an alkylphosphonate[cytosol] + phosphate + H+ *\ - \* r123, ATP + an alkylphosphonate[periplasmic space] + H2O -> ADP + an alkylphosphonate[cytosol] + phosphate + H+ *\ - \* r124, ATP + L-alanyl-gamma-D-glutamyl-meso-diaminopimelate[periplasmic space] + H2O -> L-alanyl-gamma-D-glutamyl-meso-diaminopimelate[cytosol] + ADP + phosphate + H+ *\ - \* r125, ATP + L-arginine[periplasmic space] + H2O -> ADP + L-arginine[cytosol] + phosphate + H+ *\ - \* r126, ATP + L-arabinose[periplasmic space] + H2O -> ADP + L-arabinose[cytosol] + phosphate + H+ *\ - \* r127, ATP + L-arabinose[periplasmic space] + H2O -> ADP + L-arabinose[cytosol] + phosphate + H+ *\ - \* r128, ATP + L-arabinose[periplasmic space] + H2O -> ADP + L-arabinose[cytosol] + phosphate + H+ *\ - \* r129, L-cystine[periplasmic space] + ATP + H2O -> L-cystine[cytosol] + ADP + phosphate + H+ *\ - \* r130, Cu+[cytosol] + ATP + H2O -> Cu+[periplasmic space] + ADP + phosphate + H+ *\ - \* r131, ATP + L-leucine[periplasmic space] + H2O -> ADP + L-leucine[cytosol] + phosphate + H+ *\ - \* r134, L-methionine S-oxide[periplasmic space] + ATP + H2O -> L-methionine S-oxide[cytosol] + ADP + phosphate + H+ *\ - \* r135, L-methionine S-oxide[periplasmic space] + ATP + H2O -> L-methionine S-oxide[cytosol] + ADP + phosphate + H+ *\ - \* r136, L-cysteine[periplasmic space] + ATP + H2O -> L-cysteine[cytosol] + ADP + phosphate + H+ *\ - \* r137a, ATP + 3 H+[in] + H2O -> ADP + phosphate + 4 H+[out] *\ - \* r137b, ADP + phosphate + 4 H+[out] -> ATP + 3 H+[in] + H2O *\ - \* r140, ATP + L-glutamate[periplasmic space] + H2O -> ADP + L-glutamate[cytosol] + phosphate + H+ *\ - \* r143, sulfate[periplasmic space] + ATP + H2O -> sulfate[cytosol] + ADP + phosphate + H+ *\ - \* r144, ATP + phosphate[periplasmic space] + H2O -> ADP + 2 phosphate[cytosol] + H+ *\ - \* r149, Zn2+[cytosol] + ATP + H2O -> Zn2+[periplasmic space] + ADP + phosphate + H+ *\ - \* r150, Zn2+[periplasmic space] + ATP + H2O -> Zn2+[cytosol] + ADP + phosphate + H+ *\ - \* r151, ATP + spermidine[periplasmic space] + H2O -> ADP + spermidine[cytosol] + phosphate + H+ *\ - \* r153, (2R,4S)-2-methyl-2,3,3,4-tetrahydroxytetrahydrofuran[periplasmic space] + ATP + H2O -> (2R,4S)-2-methyl-2,3,3,4-tetrahydroxytetrahydrofuran[cytosol] + ADP + phosphate + H+ *\ - \* r154, D-allose[periplasmic space] + ATP + H2O -> D-allose[cytosol] + ADP + phosphate + H+ *\ - \* r155, Ni2+[periplasmic space] + ATP + H2O -> Ni2+[cytosol] + ADP + phosphate + H+ *\ - \* r156, ATP + L-aspartate[periplasmic space] + H2O -> L-aspartate[cytosol] + ADP + phosphate + H+ *\ - \* r157, ATP + L-valine[periplasmic space] + H2O -> ADP + L-valine[cytosol] + phosphate + H+ *\ - \* r166, ATP + D-xylose[periplasmic space] + H2O -> ADP + D-xylose[cytosol] + phosphate + H+ *\ - \* r167, ATP + D-xylose[periplasmic space] + H2O -> ADP + D-xylose[cytosol] + phosphate + H+ *\ - \* r168, ATP + D-xylose[periplasmic space] + H2O -> ADP + D-xylose[cytosol] + phosphate + H+ *\ - \* r170, ATP + L-histidine[periplasmic space] + H2O -> ADP + L-histidine[cytosol] + phosphate + H+ *\ - \* r174, an aminoalkylphosphonate[periplasmic space] + ATP + H2O -> an aminoalkylphosphonate[cytosol] + ADP + phosphate + H+ *\ - \* r175, an aminoalkylphosphonate[periplasmic space] + ATP + H2O -> an aminoalkylphosphonate[cytosol] + ADP + phosphate + H+ *\ - \* r176, an aminoalkylphosphonate[periplasmic space] + ATP + H2O -> an aminoalkylphosphonate[cytosol] + ADP + phosphate + H+ *\ - \* r177, an aminoalkylphosphonate[periplasmic space] + ATP + H2O -> an aminoalkylphosphonate[cytosol] + ADP + phosphate + H+ *\ - \* r179, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r180, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r181, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r182, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r183, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r184, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r185, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r186, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r187, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r188, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r189, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r190, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r191, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r192, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r193, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r194, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r195, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r196, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r197, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r198, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r207, ATP + putrescine[periplasmic space] + H2O -> ADP + putrescine[cytosol] + phosphate + H+ *\ - \* r231, phosphate[cytosol] -> phosphate[periplasmic space] *\ - \* r482, glutathione[cytosol] + ATP + H2O -> glutathione[periplasmic space] + ADP + phosphate + H+ *\ - \* r530, phosphate[periplasmic space] + H+[periplasmic space] -> phosphate[cytosol] + H+[cytosol] *\ - \* r657, diphosphate + H2O -> 2 phosphate + H+ *\ - \* r662, a [protein]-L-tyrosine phosphate + H2O -> a [protein]-L-tyrosine + phosphate *\ - \* r663a, carbamoyl-phosphate + ATP + H2O -> O-carbamoyladenylate + diphosphate + phosphate *\ - \* r663b, O-carbamoyladenylate + diphosphate + phosphate -> carbamoyl-phosphate + ATP + H2O *\ - \* r683, a [protein] (L-serine/L-threonine) phosphate + H2O -> a [protein]-(L-serine/L-threonine) + phosphate *\ - \* r689, L-aspartate + carbamoyl-phosphate -> N-carbamoyl-L-aspartate + phosphate + H+ *\ - \* r697, ATP + hydrogen carbonate + propanoyl-CoA -> ADP + (S)-methylmalonyl-CoA + phosphate + H+ *\ - \* r720, a biotinylated [BCCP dimer] + hydrogen carbonate + ATP -> a carboxylated-biotinylated [BCCP dimer] + ADP + phosphate + H+ *\ - \* r750a, 2'-deoxyuridine + phosphate -> 2-deoxy-alpha-D-ribose 1-phosphate + uracil *\ - \* r750b, 2-deoxy-alpha-D-ribose 1-phosphate + uracil -> 2'-deoxyuridine + phosphate *\ - \* r766, L-cysteine + L-glutamate + ATP -> gamma-L-glutamyl-L-cysteine + ADP + phosphate + H+ *\ - \* r849a, L-ornithine + carbamoyl-phosphate -> L-citrulline + phosphate + H+ *\ - \* r849b, L-citrulline + phosphate + H+ -> L-ornithine + carbamoyl-phosphate *\ - \* r909, O-phospho-L-homoserine + H2O -> L-threonine + phosphate *\ - \* r918, putrescine + L-glutamate + ATP -> gamma-glutamyl-L-putrescine + ADP + phosphate + H+ *\ - \* r922, D-alanyl-D-alanine + UDP-N-acetyl-alpha-D-muramoyl-L-alanyl-gamma-D-glutamyl-meso-2,6-diaminopimelate + ATP -> UDP-N-acetyl-alpha-D-muramoyl-L-alanyl-gamma-D-glutamyl-meso-2,6-diaminopimeloyl-D-alanyl-D-alanine + ADP + phosphate + H+ *\ - \* r923, D-glycero-beta-D-manno-heptose 1,7-bisphosphate + H2O -> D-glycero-beta-D-manno-heptose 1-phosphate + phosphate *\ - \* r942, FMN + H2O -> riboflavin + phosphate *\ - \* r977, a ribonucleoside 5'-monophosphate + H2O -> a ribonucleoside + phosphate *\ - \* r979, a ribonucleoside 5'-monophosphate + H2O -> a ribonucleoside + phosphate *\ - \* r981, a ribonucleoside 5'-monophosphate + H2O -> a ribonucleoside + phosphate *\ - \* r983, a ribonucleoside 5'-monophosphate + H2O -> a ribonucleoside + phosphate *\ - \* r985, a ribonucleoside 5'-monophosphate + H2O -> a ribonucleoside + phosphate *\ - \* r987, a ribonucleoside 5'-monophosphate + H2O -> a ribonucleoside + phosphate *\ - \* r1003, ATP + acetyl-CoA + a carboxylated-biotinylated [BCCP dimer] + H2O -> malonyl-CoA + a biotinylated [BCCP dimer] + ADP + phosphate + H+ *\ - \* r1029, IMP + H2O -> inosine + phosphate *\ - \* r1056, ATP + L-methionine + H2O -> S-adenosyl-L-methionine + phosphate + diphosphate *\ - \* r1062a, succinate + ATP + coenzyme A -> succinyl-CoA + ADP + phosphate *\ - \* r1062b, succinyl-CoA + ADP + phosphate -> succinate + ATP + coenzyme A *\ - \* r1073a, thymidine + phosphate -> 2-deoxy-alpha-D-ribose 1-phosphate + thymine *\ - \* r1073b, 2-deoxy-alpha-D-ribose 1-phosphate + thymine -> thymidine + phosphate *\ - \* r1079, fructose 1,6-bisphosphate + H2O -> beta-D-fructofuranose 6-phosphate + phosphate *\ - \* r1093, ITP + H2O -> IDP + phosphate + H+ *\ - \* r1101, gamma-L-glutamyl 5-phosphate + NADPH + H+ -> L-glutamate-5-semialdehyde + NADP+ + phosphate *\ - \* r1131a, maltopentaose + phosphate -> alpha-D-glucose 1-phosphate + maltotetraose *\ - \* r1131b, alpha-D-glucose 1-phosphate + maltotetraose -> maltopentaose + phosphate *\ - \* r1175, alpha-D-glucose 6-phosphate + H2O -> alpha-D-glucose + phosphate *\ - \* r1201, AMP + H2O -> adenosine + phosphate *\ - \* r1220, 2-iminosuccinate + glycerone phosphate -> quinolinate + phosphate + 2 H2O *\ - \* r1231a, thiamin diphosphate + H2O -> thiamin phosphate + phosphate + H+ *\ - \* r1231b, thiamin phosphate + phosphate + H+ -> thiamin diphosphate + H2O *\ - \* r1238a, uridine + phosphate -> alpha-D-ribose-1-phosphate + uracil *\ - \* r1238b, alpha-D-ribose-1-phosphate + uracil -> uridine + phosphate *\ - \* r1239, CTP + H2O -> CDP + phosphate + H+ *\ - \* r1245, (S)-NADPHX + ADP -> AMP + NADPH + phosphate + H+ *\ - \* r1253, dGMP + H2O -> 2'-deoxyguanosine + phosphate *\ - \* r1280, 3-phospho-hydroxypyruvate + H2O -> hydroxypyruvate + phosphate *\ - \* r1305a, 2'-deoxyadenosine + phosphate -> adenine + 2-deoxy-alpha-D-ribose 1-phosphate *\ - \* r1305b, adenine + 2-deoxy-alpha-D-ribose 1-phosphate -> 2'-deoxyadenosine + phosphate *\ - \* r1340, ammonium + L-glutamate + ATP -> L-glutamine + ADP + phosphate + H+ *\ - \* r1352, dAMP + H2O -> 2'-deoxyadenosine + phosphate *\ - \* r1354, L-histidinol-phosphate + H2O -> histidinol + phosphate *\ - \* r1356a, inosine + phosphate -> alpha-D-ribose-1-phosphate + hypoxanthine *\ - \* r1356b, alpha-D-ribose-1-phosphate + hypoxanthine -> inosine + phosphate *\ - \* r1366, ATP + acetyl-CoA + hydrogen carbonate -> malonyl-CoA + ADP + phosphate + H+ *\ - \* r1373, ATP + 2-(formamido)-N1-(5-phospho-beta-D-ribosyl)acetamidine -> ADP + 5-amino-1-(5-phospho-beta-D-ribosyl)imidazole + phosphate + H+ *\ - \* r1401a, 2'-deoxyinosine + phosphate -> hypoxanthine + 2-deoxy-alpha-D-ribose 1-phosphate *\ - \* r1401b, hypoxanthine + 2-deoxy-alpha-D-ribose 1-phosphate -> 2'-deoxyinosine + phosphate *\ - \* r1404, UDP-N-acetyl-alpha-D-muramate + L-alanyl-gamma-D-glutamyl-meso-diaminopimelate + ATP -> UDP-N-acetyl-alpha-D-muramoyl-L-alanyl-gamma-D-glutamyl-meso-2,6-diaminopimelate + ADP + phosphate + H+ *\ - \* r1428a, D-glyceraldehyde 3-phosphate + NAD+ + phosphate -> 1,3-bisphospho-D-glycerate + NADH + H+ *\ - \* r1428b, 1,3-bisphospho-D-glycerate + NADH + H+ -> D-glyceraldehyde 3-phosphate + NAD+ + phosphate *\ - \* r1429, di-trans,octa-cis-undecaprenyl diphosphate + H2O -> di-trans,octa-cis-undecaprenyl phosphate + phosphate + H+ *\ - \* r1435, glycine + gamma-L-glutamyl-L-cysteine + ATP -> glutathione + ADP + phosphate + H+ *\ - \* r1445, dCMP + H2O -> 2'-deoxycytidine + phosphate *\ - \* r1475a, oxaloacetate + phosphate -> phosphoenolpyruvate + hydrogen carbonate *\ - \* r1475b, phosphoenolpyruvate + hydrogen carbonate -> oxaloacetate + phosphate *\ - \* r1508, alpha,alpha-trehalose 6-phosphate + H2O -> alpha,alpha-trehalose + phosphate *\ - \* r1512, D-glutamate + UDP-N-acetyl-alpha-D-muramoyl-L-alanine + ATP -> UDP-N-acetyl-alpha-D-muramoyl-L-alanyl-D-glutamate + ADP + phosphate + H+ *\ - \* r1535, 3-deoxy-D-arabino-heptulosonate-7-phosphate -> 3-dehydroquinate + phosphate *\ - \* r1549, an N5-formyl-tetrahydrofolate + ATP -> a 5,10-methenyltetrahydrofolate + ADP + phosphate *\ - \* r1558a, N-acetyl-L-glutamate 5-semialdehyde + NADP+ + phosphate -> N-acetylglutamyl-phosphate + NADPH + H+ *\ - \* r1558b, N-acetylglutamyl-phosphate + NADPH + H+ -> N-acetyl-L-glutamate 5-semialdehyde + NADP+ + phosphate *\ - \* r1562, nicotinate + 5-phospho-alpha-D-ribose 1-diphosphate + ATP + H2O -> beta-nicotinate D-ribonucleotide + ADP + diphosphate + phosphate *\ - \* r1572, pyruvate + ATP + H2O -> phosphoenolpyruvate + AMP + phosphate + 2 H+ *\ - \* r1576a, acetyl-CoA + phosphate -> acetyl phosphate + coenzyme A *\ - \* r1576b, acetyl phosphate + coenzyme A -> acetyl-CoA + phosphate *\ - \* r1581a, N6-L-threonylcarbamoyladenine37 in tRNA + ATP -> cyclic N6-L-threonylcarbamoyladenosine 37 in tRNA + ADP + phosphate *\ - \* r1581b, cyclic N6-L-threonylcarbamoyladenosine 37 in tRNA + ADP + phosphate -> N6-L-threonylcarbamoyladenine37 in tRNA + ATP *\ - \* r1588, 2 D-alanine + ATP -> D-alanyl-D-alanine + ADP + phosphate + H+ *\ - \* r1591, 7,8-dihydroneopterin 3'-phosphate + H2O -> 7,8-dihydroneopterin + phosphate *\ - \* r1611, beta-D-glucose 6-phosphate + H2O -> beta-D-glucose + phosphate *\ - \* r1625, spermidine + glutathione + ATP -> glutathionylspermidine + ADP + phosphate + H+ *\ - \* r1638, GTP + H2O -> GDP + phosphate + H+ *\ - \* r1672, glycerone phosphate -> methylglyoxal + phosphate *\ - \* r1681, L-aspartate + IMP + GTP -> adenylo-succinate + GDP + phosphate + 2 H+ *\ - \* r1711, pppGpp + H2O -> ppGpp + phosphate + H+ *\ - \* r1712, 5-amino-1-(5-phospho-beta-D-ribosyl)imidazole + ATP + hydrogen carbonate -> N5-carboxyaminoimidazole ribonucleotide + ADP + phosphate + 2 H+ *\ - \* r1721, ATP + 5-amino-1-(5-phospho-D-ribosyl)imidazole-4-carboxylate + L-aspartate -> ADP + 5'-phosphoribosyl-4-(N-succinocarboxamide)-5-aminoimidazole + phosphate + H+ *\ - \* r1736, ATP + N2-formyl-N1-(5-phospho-beta-D-ribosyl)glycinamide + L-glutamine + H2O -> ADP + 2-(formamido)-N1-(5-phospho-beta-D-ribosyl)acetamidine + L-glutamate + phosphate + H+ *\ - \* r1754a, guanosine + phosphate -> alpha-D-ribose-1-phosphate + guanine *\ - \* r1754b, alpha-D-ribose-1-phosphate + guanine -> guanosine + phosphate *\ - \* r1764a, maltoheptaose + phosphate -> maltohexaose + alpha-D-glucose 1-phosphate *\ - \* r1764b, maltohexaose + alpha-D-glucose 1-phosphate -> maltoheptaose + phosphate *\ - \* r1768, D-arabinose 5-phosphate + phosphoenolpyruvate + H2O -> 3-deoxy-D-manno-octulosonate 8-phosphate + phosphate *\ - \* r1769, adenosine 3',5'-bisphosphate + H2O -> AMP + phosphate *\ - \* r1805, 5-enolpyruvyl-shikimate 3-phosphate -> chorismate + phosphate *\ - \* r1831, UDP-N-acetyl-alpha-D-glucosamine + phosphoenolpyruvate -> UDP-N-acetyl-alpha-D-glucosamine-enolpyruvate + phosphate *\ - \* r1836, CDP + H2O -> CMP + phosphate + H+ *\ - \* r1845, 2 ATP + hydrogen carbonate + ammonium -> 2 ADP + carbamoyl-phosphate + phosphate + 2 H+ *\ - \* r1846, ATP + 5-phospho-beta-D-ribosylamine + glycine -> ADP + N1-(5-phospho-beta-D-ribosyl)glycinamide + phosphate + H+ *\ - \* r1850, CMP + H2O -> cytidine + phosphate *\ - \* r1851, GDP + H2O -> GMP + phosphate + H+ *\ - \* r1878, beta-nicotinamide D-ribonucleotide + H2O -> 1-(beta-D ribofuranosyl)nicotinamide + phosphate *\ - \* r1885a, L-aspartate-semialdehyde + NADP+ + phosphate -> L-aspartyl-4-phosphate + NADPH + H+ *\ - \* r1885b, L-aspartyl-4-phosphate + NADPH + H+ -> L-aspartate-semialdehyde + NADP+ + phosphate *\ - \* r1890a, nicotinamide + alpha-D-ribose-1-phosphate + H+ -> 1-(beta-D ribofuranosyl)nicotinamide + phosphate *\ - \* r1890b, 1-(beta-D ribofuranosyl)nicotinamide + phosphate -> nicotinamide + alpha-D-ribose-1-phosphate + H+ *\ - \* r1892, L-glutamate + ATP + NADPH + H+ -> ADP + L-glutamate-5-semialdehyde + NADP+ + phosphate *\ - \* r1897a, 2'-deoxyguanosine + phosphate -> guanine + 2-deoxy-alpha-D-ribose 1-phosphate *\ - \* r1897b, guanine + 2-deoxy-alpha-D-ribose 1-phosphate -> 2'-deoxyguanosine + phosphate *\ - \* r1902, a sugar phosphate + H2O -> a sugar + phosphate *\ - \* r1921, a 2'-deoxyribonucleoside 5'-monophosphate + H2O -> a 2'-deoxynucleoside + phosphate *\ - \* r1923, a 2'-deoxyribonucleoside 5'-monophosphate + H2O -> a 2'-deoxynucleoside + phosphate *\ - \* r1925, a 2'-deoxyribonucleoside 5'-monophosphate + H2O -> a 2'-deoxynucleoside + phosphate *\ - \* r1927, a 2'-deoxyribonucleoside 5'-monophosphate + H2O -> a 2'-deoxynucleoside + phosphate *\ - \* r1929, a 2'-deoxyribonucleoside 5'-monophosphate + H2O -> a 2'-deoxynucleoside + phosphate *\ - \* r1940, xanthosine + phosphate -> alpha-D-ribose-1-phosphate + xanthine *\ - \* r1946a, maltotetraose + phosphate -> maltotriose + alpha-D-glucose 1-phosphate *\ - \* r1946b, maltotriose + alpha-D-glucose 1-phosphate -> maltotetraose + phosphate *\ - \* r1948a, shikimate 3-phosphate + phosphoenolpyruvate -> 5-enolpyruvyl-shikimate 3-phosphate + phosphate *\ - \* r1948b, 5-enolpyruvyl-shikimate 3-phosphate + phosphate -> shikimate 3-phosphate + phosphoenolpyruvate *\ - \* r1953a, thiamin diphosphate + ADP + H+ -> adenosine thiamine triphosphate + phosphate *\ - \* r1953b, adenosine thiamine triphosphate + phosphate -> thiamin diphosphate + ADP + H+ *\ - \* r1973, 5-amino-6-(D-ribitylamino)uracil + 1-deoxy-L-glycero-tetrulose 4-phosphate -> 6,7-dimethyl-8-(1-D-ribityl)lumazine + phosphate + H+ + 2 H2O *\ - \* r1990, 3-amino-1-hydroxyacetone 1-phosphate + 1-deoxy-D-xylulose 5-phosphate -> pyridoxine 5'-phosphate + phosphate + H+ + 2 H2O *\ - \* r1998a, a purine ribonucleoside + phosphate -> a purine base + alpha-D-ribose-1-phosphate *\ - \* r1998b, a purine base + alpha-D-ribose-1-phosphate -> a purine ribonucleoside + phosphate *\ - \* r1999a, a purine ribonucleoside + phosphate -> a purine base + alpha-D-ribose-1-phosphate *\ - \* r1999b, a purine base + alpha-D-ribose-1-phosphate -> a purine ribonucleoside + phosphate *\ - \* r2000a, a purine ribonucleoside + phosphate -> a purine base + alpha-D-ribose-1-phosphate *\ - \* r2000b, a purine base + alpha-D-ribose-1-phosphate -> a purine ribonucleoside + phosphate *\ - \* r2018, ATP + H2O -> ADP + phosphate + H+ *\ - \* r2024, L-alanine + UDP-N-acetyl-alpha-D-muramate + ATP -> UDP-N-acetyl-alpha-D-muramoyl-L-alanine + ADP + phosphate + H+ *\ - \* r2027, N1-(5-phospho-beta-D-ribosyl)glycinamide + formate + ATP -> N2-formyl-N1-(5-phospho-beta-D-ribosyl)glycinamide + ADP + phosphate + H+ *\ - \* r2039, D-gluconate 6-phosphate + H2O -> D-gluconate + phosphate *\ - \* r2073a, adenosine + phosphate -> alpha-D-ribose-1-phosphate + adenine *\ - \* r2073b, alpha-D-ribose-1-phosphate + adenine -> adenosine + phosphate *\ - \* r2097, CO2 + 7,8-diaminopelargonate + ATP -> dethiobiotin + ADP + phosphate + 3 H+ *\ - \* r2098, phosphoenolpyruvate + D-erythrose 4-phosphate + H2O -> 3-deoxy-D-arabino-heptulosonate-7-phosphate + phosphate *\ - \* r2101, L-glutamate + 7,8-dihydropteroate + ATP -> ADP + 7,8-dihydrofolate monoglutamate + phosphate + H+ *\ - \* r2107, PPPi + H2O -> phosphate + diphosphate *\ - \* r2111, meso-diaminopimelate + UDP-N-acetyl-alpha-D-muramoyl-L-alanyl-D-glutamate + ATP -> UDP-N-acetyl-alpha-D-muramoyl-L-alanyl-gamma-D-glutamyl-meso-2,6-diaminopimelate + ADP + phosphate + H+ *\ - \* r2119, alpha-D-glucose 1-phosphate + H2O -> D-glucopyranose + phosphate *\ - \* r2148, 7,8-dihydromonapterin triphosphate + 3 H2O -> 7,8-dihydromonapterin + 3 phosphate + 2 H+ *\ - \* r2172, GMP + H2O -> guanosine + phosphate *\ - \* r2186, ATP + UTP + L-glutamine + H2O -> ADP + CTP + L-glutamate + phosphate + 2 H+ *\ - \* r2198, dTMP + H2O -> thymidine + phosphate *\ - \* r2210, XTP + H2O -> XDP + phosphate + H+ *\ - \* r2236a, maltohexaose + phosphate -> maltopentaose + alpha-D-glucose 1-phosphate *\ - \* r2236b, maltopentaose + alpha-D-glucose 1-phosphate -> maltohexaose + phosphate *\ - \* r2240, 3-deoxy-D-manno-octulosonate 8-phosphate + H2O -> 3-deoxy-D-manno-octulosonate + phosphate *\ - \* r2266, a nucleoside diphosphate + H2O -> a nucleoside 5'-monophosphate + phosphate + H+ *\ - \* r2267, a nucleoside diphosphate + H2O -> a nucleoside 5'-monophosphate + phosphate + H+ *\ - \* r2268, a nucleoside diphosphate + H2O -> a nucleoside 5'-monophosphate + phosphate + H+ *\ - \* r2269, a nucleoside diphosphate + H2O -> a nucleoside 5'-monophosphate + phosphate + H+ *\ - \* r2270, a nucleoside diphosphate + H2O -> a nucleoside 5'-monophosphate + phosphate + H+ *\ - \* r2271, a nucleoside diphosphate + H2O -> a nucleoside 5'-monophosphate + phosphate + H+ *\ - \* r2272, a nucleoside diphosphate + H2O -> a nucleoside 5'-monophosphate + phosphate + H+ *\ - \* r2273, a nucleoside diphosphate + H2O -> a nucleoside 5'-monophosphate + phosphate + H+ *\ - \* r2274, a nucleoside diphosphate + H2O -> a nucleoside 5'-monophosphate + phosphate + H+ *\ - \* r2275, a nucleoside diphosphate + H2O -> a nucleoside 5'-monophosphate + phosphate + H+ *\ - \* r2296, propanoyl-CoA + phosphate -> propanoyl phosphate + coenzyme A *\ - \* r2311, 4-amino-2-methyl-5-diphosphomethylpyrimidine + H2O -> 4-amino-2-methyl-5-phosphomethylpyrimidine + phosphate + H+ *\ - \* r2323, UDP + H2O -> UMP + phosphate + H+ *\ - \* r2336, UMP + H2O -> uridine + phosphate *\ - \* r2338, dUMP + H2O -> 2'-deoxyuridine + phosphate *\ - \* r2341, pyridoxal 5'-phosphate + H2O -> pyridoxal + phosphate *\ - \* r2343, ATP + UTP + ammonium -> ADP + CTP + phosphate + 2 H+ *\ - \* r2347a, a hexose phosphate + H2O -> a hexose + phosphate *\ - \* r2347b, a hexose + phosphate -> a hexose phosphate + H2O *\ - \* r2363, ADP + (S)-NADHX -> AMP + NADH + phosphate + H+ *\ - \* r2369, NADP+ + H2O -> NAD+ + phosphate *\ - \* r2375, an L-1-phosphatidylglycerol-phosphate + H2O -> an L-1-phosphatidyl-glycerol + phosphate *\ - \* r2376, an L-1-phosphatidylglycerol-phosphate + H2O -> an L-1-phosphatidyl-glycerol + phosphate *\ - \* r2377, an L-1-phosphatidylglycerol-phosphate + H2O -> an L-1-phosphatidyl-glycerol + phosphate *\ - \* r2397, 5-amino-6-(5-phospho-D-ribitylamino)uracil + H2O -> 5-amino-6-(D-ribitylamino)uracil + phosphate *\ - \* r2415, 2 ATP + L-glutamine + hydrogen carbonate + H2O -> carbamoyl-phosphate + L-glutamate + 2 ADP + phosphate + 2 H+ *\ - \* r2419, carbamoyl-phosphate + HypE + ATP + H2O -> a HypE hydrogenase maturation protein-S-carboxamide + AMP + diphosphate + phosphate *\ - \* r2432, 3-phospho-L-serine + H2O -> L-serine + phosphate *\ - \* objReactionName, phosphate *\ - \* r2448_e, phosphate *\ - - + r30 + r31 + r32 + r33 + r34 + r35 + r63 + r65 + r67 + r68 + r69 + r70 + r71 + r72 + r73 + r75 + r77 + r79 + r81 - + r82 + r83 + r85 + r87 + r88 + r89 + r90 + r91 + r92 + r93 + r94 + r95 + r96 + r97 + r98 + r99 + r100 + r101 + r102 + r103 - + r104 + r105 + r106 + r107 + r108 + r109 + r110 + r111 + r112 + r113 + r114 + r115 + r116 + r117 + r118 + r120 + r121 + r122 + r123 + r124 - + r125 + r126 + r127 + r128 + r129 + r130 + r131 + r134 + r135 + r136 + r137a -1.0 r137b + r140 + r143 +2.0 r144 + r149 + r150 + r151 + r153 + r154 - + r155 + r156 + r157 + r166 + r167 + r168 + r170 + r174 + r175 + r176 + r177 + r179 + r180 + r181 + r182 + r183 + r184 + r185 + r186 + r187 - + r188 + r189 + r190 + r191 + r192 + r193 + r194 + r195 + r196 + r197 + r198 + r207 -1.0 r231 + r482 + r530 +2.0 r657 + r662 + r663a -1.0 r663b + r683 - + r689 + r697 + r720 -1.0 r750a + r750b + r766 + r849a -1.0 r849b + r909 + r918 + r922 + r923 + r942 + r977 + r979 + r981 + r983 + r985 + r987 + r1003 - + r1029 + r1056 + r1062a -1.0 r1062b -1.0 r1073a + r1073b + r1079 + r1093 + r1101 -1.0 r1131a + r1131b + r1175 + r1201 + r1220 + r1231a -1.0 r1231b -1.0 r1238a + r1238b + r1239 + r1245 - + r1253 + r1280 -1.0 r1305a + r1305b + r1340 + r1352 + r1354 -1.0 r1356a + r1356b + r1366 + r1373 -1.0 r1401a + r1401b + r1404 -1.0 r1428a + r1428b + r1429 + r1435 + r1445 -1.0 r1475a - + r1475b + r1508 + r1512 + r1535 + r1549 -1.0 r1558a + r1558b + r1562 + r1572 -1.0 r1576a + r1576b + r1581a -1.0 r1581b + r1588 + r1591 + r1611 + r1625 + r1638 + r1672 + r1681 - + r1711 + r1712 + r1721 + r1736 -1.0 r1754a + r1754b -1.0 r1764a + r1764b + r1768 + r1769 + r1805 + r1831 + r1836 + r1845 + r1846 + r1850 + r1851 + r1878 -1.0 r1885a + r1885b - + r1890a -1.0 r1890b + r1892 -1.0 r1897a + r1897b + r1902 + r1921 + r1923 + r1925 + r1927 + r1929 -1.0 r1940 -1.0 r1946a + r1946b + r1948a -1.0 r1948b + r1953a -1.0 r1953b + r1973 + r1990 - -1.0 r1998a + r1998b -1.0 r1999a + r1999b -1.0 r2000a + r2000b + r2018 + r2024 + r2027 + r2039 -1.0 r2073a + r2073b + r2097 + r2098 + r2101 + r2107 + r2111 + r2119 +3.0 r2148 + r2172 - + r2186 + r2198 + r2210 -1.0 r2236a + r2236b + r2240 + r2266 + r2267 + r2268 + r2269 + r2270 + r2271 + r2272 + r2273 + r2274 + r2275 -1.0 r2296 + r2311 + r2323 + r2336 - + r2338 + r2341 + r2343 + r2347a -1.0 r2347b + r2363 + r2369 + r2375 + r2376 + r2377 + r2397 + r2415 + r2419 + r2432 +53.95 objReactionName + r2448_e = 0 - -c1114: \* 2-KETO-ISOVALERATE[CCO-CYTOSOL] *\ - \* r1945, 3-methyl-2-oxobutanoate + acetyl-CoA + H2O -> (2S)-2-isopropylmalate + coenzyme A + H+ *\ - \* r1889b, 3-methyl-2-oxobutanoate + L-glutamate -> L-valine + 2-oxoglutarate *\ - \* r1889a, L-valine + 2-oxoglutarate -> 3-methyl-2-oxobutanoate + L-glutamate *\ - \* r1728, (R)-2,3-dihydroxy-3-methylbutanoate -> 3-methyl-2-oxobutanoate + H2O *\ - \* r1336b, L-alanine + 3-methyl-2-oxobutanoate -> pyruvate + L-valine *\ - \* r1336a, pyruvate + L-valine -> L-alanine + 3-methyl-2-oxobutanoate *\ - \* r785b, 2-dehydropantoate + a tetrahydrofolate -> a 5,10-methylene-tetrahydrofolate + 3-methyl-2-oxobutanoate + H2O *\ - \* r785a, a 5,10-methylene-tetrahydrofolate + 3-methyl-2-oxobutanoate + H2O -> 2-dehydropantoate + a tetrahydrofolate *\ - \* r784b, 2-dehydropantoate + a tetrahydrofolate -> a 5,10-methylene-tetrahydrofolate + 3-methyl-2-oxobutanoate + H2O *\ - \* r784a, a 5,10-methylene-tetrahydrofolate + 3-methyl-2-oxobutanoate + H2O -> 2-dehydropantoate + a tetrahydrofolate *\ - - -1.0 r1945 -1.0 r1889b + r1889a + r1728 -1.0 r1336b + r1336a + r785b -1.0 r785a + r784b -1.0 r784a = 0 - -c1597: \* CPD-1772[CCO-CYTOSOL] *\ - \* r1285, 3-oxo-L-alanine + H+ -> 2-aminoacetaldehyde + CO2 *\ - \* r2501_e, 2-aminoacetaldehyde *\ - - + r1285 -1.0 r2501_e = 0 - -c1894: \* Acceptor[CCO-PERI-BAC] *\ - \* r2104b, tetrahydrothiophene[periplasmic space] + an unknown oxidized electron acceptor[periplasmic space] + H2O[periplasmic space] -> tetrahydrothiophene 1-oxide[periplasmic space] + an unknown reduced electron acceptor[periplasmic space] *\ - \* r2104a, tetrahydrothiophene 1-oxide[periplasmic space] + an unknown reduced electron acceptor[periplasmic space] -> tetrahydrothiophene[periplasmic space] + an unknown oxidized electron acceptor[periplasmic space] + H2O[periplasmic space] *\ - \* r1647b, an aldonate[periplasmic space] + an unknown reduced electron acceptor[periplasmic space] + H+[periplasmic space] -> an aldose[periplasmic space] + an unknown oxidized electron acceptor[periplasmic space] + H2O[periplasmic space] *\ - \* r1647a, an aldose[periplasmic space] + an unknown oxidized electron acceptor[periplasmic space] + H2O[periplasmic space] -> an aldonate[periplasmic space] + an unknown reduced electron acceptor[periplasmic space] + H+[periplasmic space] *\ - - -1.0 r2104b + r2104a + r1647b -1.0 r1647a = 0 - -c2136: \* CPD0-2518[CCO-CYTOSOL] *\ - \* r2176b, 2-N-acetamidomethylphosphonate + coenzyme A -> aminomethylphosphonate + acetyl-CoA *\ - \* r2176a, aminomethylphosphonate + acetyl-CoA -> 2-N-acetamidomethylphosphonate + coenzyme A *\ - - -1.0 r2176b + r2176a = 0 - -c876: \* D-TARTRATE[CCO-CYTOSOL] *\ - \* r2008a, D-tartrate -> oxaloacetate + H2O *\ - \* r2008b, oxaloacetate + H2O -> D-tartrate *\ - - -1.0 r2008a + r2008b = 0 - -c97: \* 5-METHYLAMINOMETHYL-2-SELENOURIDINE[CCO-EXTRACELLULAR] *\ - \* r48, a nucleoside[extracellular space] -> a nucleoside[periplasmic space] *\ - - -1.0 r48 = 0 - -c1218: \* Holo-AsbD-Proteins[CCO-CYTOSOL] *\ - \* r1049, an acyl-carrier protein + coenzyme A -> adenosine 3',5'-bisphosphate + a holo-[acyl-carrier protein] + H+ *\ - \* r860, a holo-[acyl-carrier protein] + H2O -> 4'-phosphopantetheine + an acyl-carrier protein + H+ *\ - - + r1049 -1.0 r860 = 0 - -c1307: \* OCTAPRENYL-METHYL-METHOXY-BENZQ[CCO-CYTOSOL] *\ - \* r1875, 6-methoxy-3-methyl-2-all-trans-octaprenyl-1,4-benzoquinol + an unknown reduced electron acceptor + oxygen -> 3-demethylubiquinol-8 + an unknown oxidized electron acceptor + H2O *\ - \* r940, 2-methoxy-6-all trans-octaprenyl-2-methoxy-1,4-benzoquinol + S-adenosyl-L-methionine -> 6-methoxy-3-methyl-2-all-trans-octaprenyl-1,4-benzoquinol + S-adenosyl-L-homocysteine + H+ *\ - - -1.0 r1875 + r940 = 0 - -c734: \* P-AMINO-BENZOATE[CCO-CYTOSOL] *\ - \* r450, an aromatic amino acid[cytosol] -> an aromatic amino acid[periplasmic space] *\ - \* r1868a, 4-amino-4-deoxychorismate -> 4-aminobenzoate + pyruvate + H+ *\ - \* r1868b, 4-aminobenzoate + pyruvate + H+ -> 4-amino-4-deoxychorismate *\ - \* r2133, 4-aminobenzoate + (2-amino-4-hydroxy-7,8-dihydropteridin-6-yl)methyl diphosphate -> 7,8-dihydropteroate + diphosphate *\ - - -1.0 r450 + r1868a -1.0 r1868b -1.0 r2133 = 0 - -c1489: \* DUTP[CCO-CYTOSOL] *\ - \* r2308, dUDP + ATP -> dUTP + ADP *\ - \* r2185, dCTP + H+ + H2O -> ammonium + dUTP *\ - \* r1325, dUTP + H2O -> dUMP + diphosphate + H+ *\ - \* r1183, a nucleoside diphosphate + ATP -> a nucleoside triphosphate + ADP *\ - \* r1151, a nucleoside triphosphate + H2O -> a nucleoside 5'-monophosphate + diphosphate + H+ *\ - - + r2308 + r2185 -1.0 r1325 + r1183 -1.0 r1151 = 0 - -c1713: \* POLYMER-INST-CIS-DELTA3-ENOYL-COA-C6-H12[CCO-CYTOSOL] *\ - \* r1415b, a trans-2-enoyl-CoA -> a cis-3-enoyl-CoA *\ - \* r1415a, a cis-3-enoyl-CoA -> a trans-2-enoyl-CoA *\ - - + r1415b -1.0 r1415a = 0 - -c1040: \* Ox-Thioredoxin[CCO-CYTOSOL] *\ - \* r739, a reduced thioredoxin + D-cystine -> an oxidized thioredoxin + 2 D-cysteine *\ - \* r746, a reduced thioredoxin + hydrogen peroxide -> an oxidized thioredoxin + 2 H2O *\ - \* r751, a reduced thioredoxin + an unknown oxidized electron acceptor -> an oxidized thioredoxin + an unknown reduced electron acceptor *\ - \* r768, a reduced thioredoxin + a ribonucleoside diphosphate -> an oxidized thioredoxin + a 2'-deoxyribonucleoside 5'-diphosphate + H2O *\ - \* r769, a reduced thioredoxin + a ribonucleoside diphosphate -> an oxidized thioredoxin + a 2'-deoxyribonucleoside 5'-diphosphate + H2O *\ - \* r770, a reduced thioredoxin + a ribonucleoside diphosphate -> an oxidized thioredoxin + a 2'-deoxyribonucleoside 5'-diphosphate + H2O *\ - \* r771, a reduced thioredoxin + a ribonucleoside diphosphate -> an oxidized thioredoxin + a 2'-deoxyribonucleoside 5'-diphosphate + H2O *\ - \* r772, a reduced thioredoxin + a ribonucleoside diphosphate -> an oxidized thioredoxin + a 2'-deoxyribonucleoside 5'-diphosphate + H2O *\ - \* r808a, d-biotin d-sulfoxide + a reduced thioredoxin -> biotin + an oxidized thioredoxin + H2O *\ - \* r808b, biotin + an oxidized thioredoxin + H2O -> d-biotin d-sulfoxide + a reduced thioredoxin *\ - \* r819, L-methionine-(R)-S-oxide + a reduced thioredoxin -> L-methionine + an oxidized thioredoxin + H2O *\ - \* r906, a reduced thioredoxin + L-cystine -> an oxidized thioredoxin + 2 L-cysteine *\ - \* r920, an oxidized thioredoxin + NADPH + H+ -> a reduced thioredoxin + NADP+ *\ - \* r971, L-methionine-(S)-S-oxide + a reduced thioredoxin -> L-methionine + an oxidized thioredoxin + H2O *\ - \* r1006a, a reduced thioredoxin + thiosulfate -> an oxidized thioredoxin + sulfite + hydrogen sulfide + H+ *\ - \* r1006b, an oxidized thioredoxin + sulfite + hydrogen sulfide + H+ -> a reduced thioredoxin + thiosulfate *\ - \* r1059, a protein-L-methionine-(S)-S-oxide + a reduced thioredoxin -> a [protein]-L-methionine + an oxidized thioredoxin + H2O *\ - \* r1134a, a [protein]-L-methionine + an oxidized thioredoxin + H2O -> a protein-L-methionine-(R)-S-oxide + a reduced thioredoxin *\ - \* r1134b, a protein-L-methionine-(R)-S-oxide + a reduced thioredoxin -> a [protein]-L-methionine + an oxidized thioredoxin + H2O *\ - \* r1172, 3'-phosphoadenylyl-sulfate + a reduced thioredoxin -> adenosine 3',5'-bisphosphate + sulfite + an oxidized thioredoxin + 2 H+ *\ - - + r739 + r746 + r751 + r768 + r769 + r770 + r771 + r772 + r808a -1.0 r808b + r819 + r906 -1.0 r920 + r971 + r1006a -1.0 r1006b + r1059 -1.0 r1134a + r1134b - + r1172 = 0 - -c829: \* CPD-14488[CCO-PERI-BAC] *\ - \* r578, D-glucuronate[periplasmic space] + H+[periplasmic space] -> D-glucuronate[cytosol] + H+[cytosol] *\ - - -1.0 r578 = 0 - -c2099: \* Charged-LYS-tRNAs[CCO-CYTOSOL] *\ - \* objReactionName, an L-lysyl-[tRNAlys] *\ - \* r2059, L-lysine + a tRNAlys + ATP + H+ -> an L-lysyl-[tRNAlys] + AMP + diphosphate *\ - - -0.333448 objReactionName + r2059 = 0 - -c2182: \* Charged-CYS-tRNAs[CCO-CYTOSOL] *\ - \* objReactionName, an L-cysteinyl-[tRNAcys] *\ - \* r2298, a tRNAcys + L-cysteine + ATP + H+ -> an L-cysteinyl-[tRNAcys] + AMP + diphosphate *\ - - -0.088988 objReactionName + r2298 = 0 - -c800: \* D-ALANINE[CCO-CYTOSOL] *\ - \* r526, D-alanine[periplasmic space] + H+[periplasmic space] -> D-alanine[cytosol] + H+[cytosol] *\ - \* r1135, D-alanyl-D-alanine + H2O -> 2 D-alanine *\ - \* r1588, 2 D-alanine + ATP -> D-alanyl-D-alanine + ADP + phosphate + H+ *\ - \* r1652, a D-amino acid + an electron-transfer quinone[inner membrane] + H2O -> ammonium + a 2-oxo carboxylate + an electron-transfer quinol[inner membrane] *\ - \* r1653, a D-amino acid + an electron-transfer quinone[inner membrane] + H2O -> ammonium + a 2-oxo carboxylate + an electron-transfer quinol[inner membrane] *\ - \* r1660, D-alanine + an electron-transfer quinone[inner membrane] + H2O -> ammonium + pyruvate + an electron-transfer quinol[inner membrane] *\ - \* r1661, D-alanine + an electron-transfer quinone[inner membrane] + H2O -> ammonium + pyruvate + an electron-transfer quinol[inner membrane] *\ - \* r1848a, D-alanine + pyridoxal 5'-phosphate -> pyruvate + pyridoxamine 5'-phosphate *\ - \* r1848b, pyruvate + pyridoxamine 5'-phosphate -> D-alanine + pyridoxal 5'-phosphate *\ - \* r2077a, L-alanine -> D-alanine *\ - \* r2077b, D-alanine -> L-alanine *\ - - + r526 +2.0 r1135 -2.0 r1588 -1.0 r1652 -1.0 r1653 -1.0 r1660 -1.0 r1661 -1.0 r1848a + r1848b + r2077a -1.0 r2077b = 0 - -c142: \* GLYCEROPHOSPHOGLYCEROL[CCO-CYTOSOL] *\ - \* r2443, glycerophosphoglycerol + H2O -> glycerol + sn-glycerol 3-phosphate + H+ *\ - \* r2126, a glycerophosphodiester + H2O -> an alcohol + sn-glycerol 3-phosphate + H+ *\ - \* r70, a glycerophosphodiester[periplasmic space] + ATP + H2O -> a glycerophosphodiester[cytosol] + ADP + phosphate + H+ *\ - - -1.0 r2443 -1.0 r2126 + r70 = 0 - -c868: \* B-ALANINE[CCO-CYTOSOL] *\ - \* r1387, beta-alanine + (R)-pantoate + ATP -> (R)-pantothenate + AMP + diphosphate + H+ *\ - \* r1995, L-aspartate + H+ -> beta-alanine + CO2 *\ - - -1.0 r1387 + r1995 = 0 - -c1753: \* Charged-ALA-tRNAs[CCO-CYTOSOL] *\ - \* objReactionName, an L-alanyl-[tRNAala] *\ - \* r1469, a tRNAala + L-alanine + ATP + H+ -> an L-alanyl-[tRNAala] + AMP + diphosphate *\ - - -0.499149 objReactionName + r1469 = 0 - -c983: \* AMINO-HYDROXYMETHYL-METHYL-PYR-P[CCO-CYTOSOL] *\ - \* r704, 4-amino-2-methyl-5-phosphomethylpyrimidine + ATP -> 4-amino-2-methyl-5-diphosphomethylpyrimidine + ADP *\ - \* r1400, 5-amino-1-(5-phospho-beta-D-ribosyl)imidazole + S-adenosyl-L-methionine -> 4-amino-2-methyl-5-phosphomethylpyrimidine + 5'-deoxyadenosine + L-methionine + formate + carbon monoxide + 3 H+ *\ - \* r2311, 4-amino-2-methyl-5-diphosphomethylpyrimidine + H2O -> 4-amino-2-methyl-5-phosphomethylpyrimidine + phosphate + H+ *\ - - -1.0 r704 + r1400 + r2311 = 0 - -c189: \* KDO2-LIPID-IVA-COLD[CCO-CYTOSOL] *\ - \* r1027, a myristoyl-[acp] + Kdo2-(palmitoleoyl)-lipid IVA -> (Kdo)2-lipid A, cold adapted + a holo-[acyl-carrier protein] *\ - \* r248, a lipopolysaccharide[cytosol] -> a lipopolysaccharide[extracellular space] *\ - \* r96, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - - + r1027 -1.0 r248 -1.0 r96 = 0 - -c1687: \* CPD0-2123[CCO-CYTOSOL] *\ - \* r1964, a 3-oxoacyl-CoA + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + acetyl-CoA *\ - \* r1379, a (3S)-3-hydroxyacyl-CoA + NAD+ -> a 3-oxoacyl-CoA + NADH + H+ *\ - - -1.0 r1964 + r1379 = 0 - -c1018: \* CPD0-2121[CCO-CYTOSOL] *\ - \* r1919, a 2,3,4-saturated fatty acyl CoA + NADP+ -> a trans-2-enoyl-CoA + NADPH + H+ *\ - \* r1777, a 2,3,4-saturated fatty acyl CoA + an oxidized electron-transfer flavoprotein + H+ -> a trans-2-enoyl-CoA + a reduced electron-transfer flavoprotein *\ - \* r1413b, a trans-2-enoyl-CoA -> a cis-3-enoyl-CoA *\ - \* r1413a, a cis-3-enoyl-CoA -> a trans-2-enoyl-CoA *\ - \* r726, a trans-2-enoyl-CoA + H2O -> a (3S)-3-hydroxyacyl-CoA *\ - - + r1919 + r1777 -1.0 r1413b + r1413a -1.0 r726 = 0 - -c1306: \* OCTAPRENYL-METHOXY-BENZOQUINONE[CCO-CYTOSOL] *\ - \* r2038, 2-methoxy-6-(all-trans-octaprenyl)phenol + NADPH + oxygen + H+ -> 2-methoxy-6-all trans-octaprenyl-2-methoxy-1,4-benzoquinol + NADP+ + H2O *\ - \* r940, 2-methoxy-6-all trans-octaprenyl-2-methoxy-1,4-benzoquinol + S-adenosyl-L-methionine -> 6-methoxy-3-methyl-2-all-trans-octaprenyl-1,4-benzoquinol + S-adenosyl-L-homocysteine + H+ *\ - - + r2038 -1.0 r940 = 0 - -c609: \* LL-DIAMINOPIMELATE[CCO-CYTOSOL] *\ - \* r2191b, L,L-diaminopimelate + succinate -> N-succinyl-L,L-2,6-diaminopimelate + H2O *\ - \* r2191a, N-succinyl-L,L-2,6-diaminopimelate + H2O -> L,L-diaminopimelate + succinate *\ - \* r1901b, meso-diaminopimelate -> L,L-diaminopimelate *\ - \* r1901a, L,L-diaminopimelate -> meso-diaminopimelate *\ - \* r341, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - - -1.0 r2191b + r2191a + r1901b -1.0 r1901a -1.0 r341 = 0 - -c85: \* DEOXYCYTIDINE[CCO-EXTRACELLULAR] *\ - \* r42, a nucleoside[extracellular space] -> a nucleoside[periplasmic space] *\ - - -1.0 r42 = 0 - -c1723: \* D-Xylopyranose[CCO-CYTOSOL] *\ - \* r1961b, a D-xylopyranose -> aldehydo-D-xylose *\ - \* r1961a, aldehydo-D-xylose -> a D-xylopyranose *\ - \* r1432b, D-xylulose -> a D-xylopyranose *\ - \* r1432a, a D-xylopyranose -> D-xylulose *\ - - -1.0 r1961b + r1961a + r1432b -1.0 r1432a = 0 - -c1385: \* DPG[CCO-CYTOSOL] *\ - \* r1428b, 1,3-bisphospho-D-glycerate + NADH + H+ -> D-glyceraldehyde 3-phosphate + NAD+ + phosphate *\ - \* r1428a, D-glyceraldehyde 3-phosphate + NAD+ + phosphate -> 1,3-bisphospho-D-glycerate + NADH + H+ *\ - \* r1036b, 1,3-bisphospho-D-glycerate + ADP -> 3-phospho-D-glycerate + ATP *\ - \* r1036a, 3-phospho-D-glycerate + ATP -> 1,3-bisphospho-D-glycerate + ADP *\ - - -1.0 r1428b + r1428a -1.0 r1036b + r1036a = 0 - -c1755: \* CPD-6124[CCO-CYTOSOL] *\ - \* r2420b, L-glutamate + 1-pyrroline + H2O -> putrescine + 2-oxoglutarate *\ - \* r2420a, putrescine + 2-oxoglutarate -> L-glutamate + 1-pyrroline + H2O *\ - \* r1474b, 1-pyrroline + H2O -> 4-aminobutanal *\ - \* r1474a, 4-aminobutanal -> 1-pyrroline + H2O *\ - - -1.0 r2420b + r2420a -1.0 r1474b + r1474a = 0 - -c2176: \* BUTANAL[CCO-CYTOSOL] *\ - \* r2503_e, butanal *\ - \* r2278, 1-butanesulfonate + FMNH2 + oxygen -> butanal + sulfite + FMN + H2O + 2 H+ *\ - - -1.0 r2503_e + r2278 = 0 - -c1388: \* CPD-9924[CCO-CYTOSOL] *\ - \* r1439, isochorismate + 2-oxoglutarate + H+ -> 2-succinyl-5-enolpyruvyl-6-hydroxy-3-cyclohexene-1-carboxylate + CO2 *\ - \* r1039, 2-succinyl-5-enolpyruvyl-6-hydroxy-3-cyclohexene-1-carboxylate -> (1R,6R)-6-hydroxy-2-succinylcyclohexa-2,4-diene-1-carboxylate + pyruvate *\ - - + r1439 -1.0 r1039 = 0 - -c513: \* CA+2[CCO-CYTOSOL] *\ - \* objReactionName, Ca2+ *\ - \* r380, Ca2+[periplasmic space] -> Ca2+[cytosol] *\ - \* r276, Ca2+[cytosol] -> Ca2+[periplasmic space] *\ - - -0.004952 objReactionName + r380 -1.0 r276 = 0 - -c1285: \* L-FUCULOSE[CCO-CYTOSOL] *\ - \* r2023b, L-fuculose -> alpha-L-fucopyranose *\ - \* r2023a, alpha-L-fucopyranose -> L-fuculose *\ - \* r921, L-fuculose + ATP -> L-fuculose 1-phosphate + ADP + H+ *\ - - -1.0 r2023b + r2023a -1.0 r921 = 0 - -c1342: \* UDP-OHMYR-ACETYLGLUCOSAMINE[CCO-CYTOSOL] *\ - \* r1604, UDP-3-O-[(3R)-3-hydroxymyristoyl]-N-acetyl-alpha-D-glucosamine + H2O -> UDP-3-O-(3-hydroxymyristoyl)-alpha-D-glucosamine + acetate *\ - \* r970, a (3R)-3-hydroxymyristoyl-[acp] + UDP-N-acetyl-alpha-D-glucosamine -> UDP-3-O-[(3R)-3-hydroxymyristoyl]-N-acetyl-alpha-D-glucosamine + a holo-[acyl-carrier protein] *\ - - -1.0 r1604 + r970 = 0 - -c131: \* L-ORNITHINE[CCO-PERI-BAC] *\ - \* r501, putrescine[cytosol] + L-ornithine[periplasmic space] -> putrescine[periplasmic space] + L-ornithine[cytosol] *\ - \* r321, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - \* r65, ATP + L-ornithine[periplasmic space] + H2O -> ADP + L-ornithine[cytosol] + phosphate + H+ *\ - - -1.0 r501 + r321 -1.0 r65 = 0 - -c224: \* CPD0-2265[CCO-PERI-BAC] *\ - \* r113, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - - + r113 = 0 - -c360: \* CPD-13401[CCO-PERI-BAC] *\ - \* r558, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r183, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - - -1.0 r558 -1.0 r183 = 0 - -c521: \* CPD-195[CCO-PERI-BAC] *\ - \* r281, octanoate[periplasmic space] -> octanoate[cytosol] *\ - \* r2219a, an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] -> a carboxylate[periplasmic space] + FADH2[periplasmic space] *\ - \* r2219b, a carboxylate[periplasmic space] + FADH2[periplasmic space] -> an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] *\ - - -1.0 r281 + r2219a -1.0 r2219b = 0 - -c1705: \* UDP-4-AMINO-4-DEOXY-L-ARABINOSE[CCO-CYTOSOL] *\ - \* r1399a, UDP-4-amino-4-deoxy-beta-L-arabinopyranose + 2-oxoglutarate -> UDP-beta-L-threo-pentapyranos-4-ulose + L-glutamate *\ - \* r1399b, UDP-beta-L-threo-pentapyranos-4-ulose + L-glutamate -> UDP-4-amino-4-deoxy-beta-L-arabinopyranose + 2-oxoglutarate *\ - - -1.0 r1399a + r1399b = 0 - -c1329: \* PALMITYL-COA[CCO-CYTOSOL] *\ - \* r2258, an acyl-CoA + H2O -> a carboxylate + coenzyme A + H+ *\ - \* r2062b, a 2,3,4-saturated fatty acid + acetyl-CoA -> a 2,3,4-saturated fatty acyl CoA + acetate *\ - \* r2062a, a 2,3,4-saturated fatty acyl CoA + acetate -> a 2,3,4-saturated fatty acid + acetyl-CoA *\ - \* r1968, a 3-oxoacyl-CoA + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + acetyl-CoA *\ - \* r1914, a 2,3,4-saturated fatty acyl CoA + NADP+ -> a trans-2-enoyl-CoA + NADPH + H+ *\ - \* r1782, a 2,3,4-saturated fatty acyl CoA + an oxidized electron-transfer flavoprotein + H+ -> a trans-2-enoyl-CoA + a reduced electron-transfer flavoprotein *\ - \* r1277, a 2,3,4-saturated fatty acid + ATP + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + AMP + diphosphate *\ - \* r953, a long-chain acyl-CoA + sn-glycerol 3-phosphate -> a 1-acyl-sn-glycerol 3-phosphate + coenzyme A *\ - - -1.0 r2258 + r2062b -1.0 r2062a + r1968 -1.0 r1914 -1.0 r1782 + r1277 -1.0 r953 = 0 - -c1506: \* CPD-16015[CCO-CYTOSOL] *\ - \* r1774, 2-iminopropanoate + H+ + H2O -> pyruvate + ammonium *\ - \* r1169, 2-aminoprop-2-enoate -> 2-iminopropanoate *\ - - -1.0 r1774 + r1169 = 0 - -c1081: \* Reduced-2Fe-2S-Ferredoxins[CCO-CYTOSOL] *\ - \* r763a, 2 a reduced [2Fe-2S] ferredoxin + NAD+ + H+ -> 2 an oxidized [2Fe-2S] ferredoxin + NADH *\ - \* r763b, 2 an oxidized [2Fe-2S] ferredoxin + NADH -> 2 a reduced [2Fe-2S] ferredoxin + NAD+ + H+ *\ - \* r1204, a [lipoyl-carrier protein] N6-octanoyl-L-lysine + 2 S-adenosyl-L-methionine + 2 a sulfurated [sulfur carrier] + 2 a reduced [2Fe-2S] ferredoxin -> a [lipoyl-carrier protein] N6-lipoyl-L-lysine + 2 5'-deoxyadenosine + 2 L-methionine + 2 an unsulfurated [sulfur carrier] + 2 an oxidized [2Fe-2S] ferredoxin *\ - \* r1847, a sulfurated [sulfur carrier] + dethiobiotin + 2 S-adenosyl-L-methionine + 2 a reduced [2Fe-2S] ferredoxin -> an unsulfurated [sulfur carrier] + biotin + 2 5'-deoxyadenosine + 2 L-methionine + 2 an oxidized [2Fe-2S] ferredoxin *\ - - -2.0 r763a +2.0 r763b -2.0 r1204 -2.0 r1847 = 0 - -c1580: \* BUTYRIC_ACID[CCO-CYTOSOL] *\ - \* r2251, an acyl-CoA + H2O -> a carboxylate + coenzyme A + H+ *\ - \* r2060b, a 2,3,4-saturated fatty acid + acetyl-CoA -> a 2,3,4-saturated fatty acyl CoA + acetate *\ - \* r2060a, a 2,3,4-saturated fatty acyl CoA + acetate -> a 2,3,4-saturated fatty acid + acetyl-CoA *\ - \* r1271, a 2,3,4-saturated fatty acid + ATP + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + AMP + diphosphate *\ - - + r2251 -1.0 r2060b + r2060a -1.0 r1271 = 0 - -c1361: \* CPD-16013[CCO-CYTOSOL] *\ - \* r1670, 2-iminobutanoate + H+ + H2O -> 2-oxobutanoate + ammonium *\ - \* r998, (2Z)-2-aminobut-2-enoate -> 2-iminobutanoate *\ - - -1.0 r1670 + r998 = 0 - -c1132: \* Dodec-2-enoyl-ACPs[CCO-CYTOSOL] *\ - \* r1199, a trans dodec-2-enoyl-[acp] + NADH + H+ -> a dodecanoyl-[acp] + NAD+ *\ - \* r1019, a trans-2-enoyl-[acyl-carrier protein] + NADH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NAD+ *\ - \* r869, a trans-2-enoyl-[acyl-carrier protein] + NADPH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NADP+ *\ - \* r845, a (3R)-3-hydroxydodecanoyl-[acp] -> a trans dodec-2-enoyl-[acp] + H2O *\ - \* r793, a (3R)-3-hydroxyacyl-[acyl-carrier protein] -> a trans-2-enoyl-[acyl-carrier protein] + H2O *\ - - -1.0 r1199 -1.0 r1019 -1.0 r869 + r845 + r793 = 0 - -c917: \* CPD-2961[CCO-CYTOSOL] *\ - \* r2039, D-gluconate 6-phosphate + H2O -> D-gluconate + phosphate *\ - \* r2031, ATP + D-gluconate -> ADP + D-gluconate 6-phosphate + H+ *\ - \* r1803, D-gluconate 6-phosphate + NADP+ -> D-ribulose 5-phosphate + CO2 + NADPH *\ - \* r1203, D-gluconate 6-phosphate -> 2-dehydro-3-deoxy-D-gluconate 6-phosphate + H2O *\ - \* r665, 6-phospho D-glucono-1,5-lactone + H2O -> D-gluconate 6-phosphate + H+ *\ - - -1.0 r2039 + r2031 -1.0 r1803 -1.0 r1203 + r665 = 0 - -c623: \* CPD0-1617[CCO-CYTOSOL] *\ - \* r351, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - - -1.0 r351 = 0 - -c2201: \* CPD-14133[CCO-CYTOSOL] *\ - \* r2331b, (S)-NADPHX -> (R)-NADPHX *\ - \* r2331a, (R)-NADPHX -> (S)-NADPHX *\ - - + r2331b -1.0 r2331a = 0 - -c1046: \* Butanoyl-ACPs[CCO-CYTOSOL] *\ - \* r813, a crotonyl-[acp] + NADH + H+ -> a butyryl-[acp] + NAD+ *\ - \* r741, a butyryl-[acp] + a malonyl-[acp] + H+ -> a 3-oxo-hexanoyl-[acp] + CO2 + a holo-[acyl-carrier protein] *\ - - + r813 -1.0 r741 = 0 - -c1448: \* 2-ACYL-GPE[CCO-CYTOSOL] *\ - \* r1100b, a holo-[acyl-carrier protein] + an L-1-phosphatidylethanolamine -> an acyl-[acyl-carrier protein] + a 2-acyl-1-lyso-phosphatidylethanolamine *\ - \* r1100a, an acyl-[acyl-carrier protein] + a 2-acyl-1-lyso-phosphatidylethanolamine -> a holo-[acyl-carrier protein] + an L-1-phosphatidylethanolamine *\ - - + r1100b -1.0 r1100a = 0 - -c1120: \* DIHYDRO-NEO-PTERIN[CCO-CYTOSOL] *\ - \* r1911b, 7,8-dihydromonapterin -> 7,8-dihydroneopterin *\ - \* r1911a, 7,8-dihydroneopterin -> 7,8-dihydromonapterin *\ - \* r1591, 7,8-dihydroneopterin 3'-phosphate + H2O -> 7,8-dihydroneopterin + phosphate *\ - \* r787, 7,8-dihydroneopterin -> glycolaldehyde + 6-hydroxymethyl-7,8-dihydropterin *\ - - + r1911b -1.0 r1911a + r1591 -1.0 r787 = 0 - -c485: \* CPD0-937[CCO-EXTRACELLULAR] *\ - \* r253, a lipopolysaccharide[cytosol] -> a lipopolysaccharide[extracellular space] *\ - - + r253 = 0 - -c362: \* CPD-13406[CCO-PERI-BAC] *\ - \* r559, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r184, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - - -1.0 r559 -1.0 r184 = 0 - -c1499: \* D-tagatofuranose[CCO-CYTOSOL] *\ - \* r1163b, keto-D-tagatose -> D-tagatofuranose *\ - \* r1163a, D-tagatofuranose -> keto-D-tagatose *\ - - + r1163b -1.0 r1163a = 0 - -c384: \* CPD-13403[CCO-PERI-BAC] *\ - \* r570, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r195, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - - -1.0 r570 -1.0 r195 = 0 - -c944: \* BETAINE_ALDEHYDE[CCO-CYTOSOL] *\ - \* r2086, betaine aldehyde + NAD+ + H2O -> glycine betaine + NADH + 2 H+ *\ - \* r1213, choline + an unknown oxidized electron acceptor -> betaine aldehyde + an unknown reduced electron acceptor *\ - \* r684b, betaine aldehyde + H2O -> betaine aldehyde hydrate *\ - \* r684a, betaine aldehyde hydrate -> betaine aldehyde + H2O *\ - - -1.0 r2086 + r1213 -1.0 r684b + r684a = 0 - -c374: \* CPD-13404[CCO-PERI-BAC] *\ - \* r565, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r190, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - - -1.0 r565 -1.0 r190 = 0 - -c652: \* XANTHINE[CCO-PERI-BAC] *\ - \* r2481_e, xanthine *\ - \* r508, xanthine[periplasmic space] + H+[periplasmic space] -> xanthine[cytosol] + H+[cytosol] *\ - \* r369, xanthine[cytosol] -> xanthine[periplasmic space] *\ - - -1.0 r2481_e -1.0 r508 + r369 = 0 - -c1137: \* Beta-3-hydroxybutyryl-ACPs[CCO-CYTOSOL] *\ - \* r1136, a 3-oxoacyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxyacyl-[acyl-carrier protein] + NADP+ *\ - \* r908, an acetoacetyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxybutanoyl-[acp] + NADP+ *\ - \* r897, a (3R)-3-hydroxybutanoyl-[acp] -> a crotonyl-[acp] + H2O *\ - \* r797, a (3R)-3-hydroxyacyl-[acyl-carrier protein] -> a trans-2-enoyl-[acyl-carrier protein] + H2O *\ - - + r1136 + r908 -1.0 r897 -1.0 r797 = 0 - -c491: \* L-ARA4N-MODIFIED-KDO2-LIPID-A[CCO-EXTRACELLULAR] *\ - \* r259, a lipopolysaccharide[cytosol] -> a lipopolysaccharide[extracellular space] *\ - - + r259 = 0 - -c378: \* ALA-GLY[CCO-PERI-BAC] *\ - \* r567, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r192, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - - -1.0 r567 -1.0 r192 = 0 - -c550: \* PHENYLACETALDEHYDE[CCO-CYTOSOL] *\ - \* r1390a, phenylacetaldehyde + NAD+ + H2O -> phenylacetate + NADH + 2 H+ *\ - \* r1390b, phenylacetate + NADH + 2 H+ -> phenylacetaldehyde + NAD+ + H2O *\ - - -1.0 r1390a + r1390b = 0 - -c1219: \* Apo-AsbD-Proteins[CCO-CYTOSOL] *\ - \* r1049, an acyl-carrier protein + coenzyme A -> adenosine 3',5'-bisphosphate + a holo-[acyl-carrier protein] + H+ *\ - \* r860, a holo-[acyl-carrier protein] + H2O -> 4'-phosphopantetheine + an acyl-carrier protein + H+ *\ - - -1.0 r1049 + r860 = 0 - -c1987: \* SE-2[CCO-CYTOSOL] *\ - \* r1811a, L-selenocysteine + an unknown reduced electron acceptor -> L-alanine + selenide + an unknown oxidized electron acceptor + 2 H+ *\ - \* r1811b, L-alanine + selenide + an unknown oxidized electron acceptor + 2 H+ -> L-selenocysteine + an unknown reduced electron acceptor *\ - - + r1811a -1.0 r1811b = 0 - -c603: \* CPD0-1224[CCO-CYTOSOL] *\ - \* r332, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - - -1.0 r332 = 0 - -c1706: \* 5-BETA-L-THREO-PENTAPYRANOSYL-4-ULOSE-[CCO-CYTOSOL] *\ - \* r2388, UDP-alpha-D-glucuronate + NAD+ -> UDP-beta-L-threo-pentapyranos-4-ulose + CO2 + NADH *\ - \* r1399b, UDP-beta-L-threo-pentapyranos-4-ulose + L-glutamate -> UDP-4-amino-4-deoxy-beta-L-arabinopyranose + 2-oxoglutarate *\ - \* r1399a, UDP-4-amino-4-deoxy-beta-L-arabinopyranose + 2-oxoglutarate -> UDP-beta-L-threo-pentapyranos-4-ulose + L-glutamate *\ - - + r2388 -1.0 r1399b + r1399a = 0 - -c1611: \* 4-OXALOMESACONATE[CCO-CYTOSOL] *\ - \* r1299b, (1E,3E)-4-hydroxybuta-1,3-diene-1,2,4-tricarboxylate -> (1E)-4-oxobut-1-ene-1,2,4-tricarboxylate *\ - \* r1299a, (1E)-4-oxobut-1-ene-1,2,4-tricarboxylate -> (1E,3E)-4-hydroxybuta-1,3-diene-1,2,4-tricarboxylate *\ - - + r1299b -1.0 r1299a = 0 - -c520: \* METOH[CCO-PERI-BAC] *\ - \* r2493_e, methanol *\ - \* r280, methanol[cytosol] -> methanol[periplasmic space] *\ - - -1.0 r2493_e + r280 = 0 - -c1841: \* CPDMETA-13650[CCO-CYTOSOL] *\ - \* r2093, 2-oxepin-2(3H)-ylideneacetyl-CoA + H2O -> 3-oxo-5,6-didehydrosuberyl-CoA semialdehyde *\ - \* r1585, 3-oxo-5,6-didehydrosuberyl-CoA semialdehyde + NADP+ + H2O -> 3-oxo-5,6-didehydrosuberyl-CoA + NADPH + 2 H+ *\ - - + r2093 -1.0 r1585 = 0 - -c1761: \* PHENYL-PYRUVATE[CCO-CYTOSOL] *\ - \* r2292, prephenate + H+ -> 2-oxo-3-phenylpropanoate + CO2 + H2O *\ - \* r1884b, L-phenylalanine + 2-oxoglutarate -> 2-oxo-3-phenylpropanoate + L-glutamate *\ - \* r1884a, 2-oxo-3-phenylpropanoate + L-glutamate -> L-phenylalanine + 2-oxoglutarate *\ - - + r2292 + r1884b -1.0 r1884a = 0 - -c2114: \* P3I[CCO-PERI-BAC] *\ - \* r2106, PPPi + H2O -> phosphate + diphosphate *\ - - -1.0 r2106 = 0 - -c716: \* DEOXYCYTIDINE[CCO-CYTOSOL] *\ - \* r2390, 2'-deoxycytidine + H+ + H2O -> 2'-deoxyuridine + ammonium *\ - \* r1927, a 2'-deoxyribonucleoside 5'-monophosphate + H2O -> a 2'-deoxynucleoside + phosphate *\ - \* r1445, dCMP + H2O -> 2'-deoxycytidine + phosphate *\ - \* r602, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r429, 2'-deoxycytidine[periplasmic space] + H+[periplasmic space] -> 2'-deoxycytidine[cytosol] + H+[cytosol] *\ - - -1.0 r2390 + r1927 + r1445 + r602 + r429 = 0 - -c1874: \* Peptidoglycan-dimer[CCO-UNKNOWN-SPACE] *\ - \* r1618b, a lipid II + GlcNAc-1,6-anhydro-MurNAc-pentapeptide -> a peptidoglycan dimer (generic) *\ - \* r1618a, a peptidoglycan dimer (generic) -> a lipid II + GlcNAc-1,6-anhydro-MurNAc-pentapeptide *\ - - + r1618b -1.0 r1618a = 0 - -c2202: \* ALLO-THR[CCO-CYTOSOL] *\ - \* r2334b, acetaldehyde + glycine -> DL-allothreonine *\ - \* r2334a, DL-allothreonine -> acetaldehyde + glycine *\ - - + r2334b -1.0 r2334a = 0 - -c431: \* N-ACETYL-D-MANNOSAMINE-6P[CCO-CYTOSOL] *\ - \* r675a, N-acetyl-D-mannosamine 6-phosphate -> N-acetyl-D-glucosamine 6-phosphate *\ - \* r675b, N-acetyl-D-glucosamine 6-phosphate -> N-acetyl-D-mannosamine 6-phosphate *\ - \* r1983, N-acetyl-D-mannosamine + ATP -> N-acetyl-D-mannosamine 6-phosphate + ADP + H+ *\ - - -1.0 r675a + r675b + r1983 = 0 - -c1657: \* Reduced-hydrogenase-3[CCO-CYTOSOL] *\ - \* r2433b, an oxidized hydrogenase 3 + H2 -> a reduced hydrogenase 3 + H+ *\ - \* r2433a, a reduced hydrogenase 3 + H+ -> an oxidized hydrogenase 3 + H2 *\ - \* r1339b, CO2 + a reduced hydrogenase 3 -> formate + an oxidized hydrogenase 3 *\ - \* r1339a, formate + an oxidized hydrogenase 3 -> CO2 + a reduced hydrogenase 3 *\ - - + r2433b -1.0 r2433a -1.0 r1339b + r1339a = 0 - -c624: \* CPD0-1617[CCO-PERI-BAC] *\ - \* r351, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - - + r351 = 0 - -c108: \* CYTIDINE[CCO-PERI-BAC] *\ - \* r613, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r506, cytidine[periplasmic space] + H+[periplasmic space] -> cytidine[cytosol] + H+[cytosol] *\ - \* r53, a nucleoside[extracellular space] -> a nucleoside[periplasmic space] *\ - - -1.0 r613 -1.0 r506 + r53 = 0 - -c1209: \* METHYL-GLYOXAL[CCO-PERI-BAC] *\ - \* r2215a, an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] -> a carboxylate[periplasmic space] + FADH2[periplasmic space] *\ - \* r2215b, a carboxylate[periplasmic space] + FADH2[periplasmic space] -> an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] *\ - - -1.0 r2215a + r2215b = 0 - -c479: \* CPD0-2257[CCO-EXTRACELLULAR] *\ - \* r247, a lipopolysaccharide[cytosol] -> a lipopolysaccharide[extracellular space] *\ - - + r247 = 0 - -c1749: \* CPD-10551[CCO-CYTOSOL] *\ - \* r2137, autoinducer 2 + ATP -> (4S)-4-hydroxy-2,3-pentanedione 5-phosphate + ADP + H+ *\ - \* r1464, (4S)-4-hydroxy-2,3-pentanedione 5-phosphate -> 3-hydroxy-2,4-pentanedione 5-phosphate *\ - - + r2137 -1.0 r1464 = 0 - -c1799: \* DEHYDROQUINATE[CCO-CYTOSOL] *\ - \* r2374b, 3-dehydroquinate + NAD(P)H + H+ -> L-quinate + NAD(P)+ *\ - \* r2374a, L-quinate + NAD(P)+ -> 3-dehydroquinate + NAD(P)H + H+ *\ - \* r2373b, 3-dehydroquinate + NAD(P)H + H+ -> L-quinate + NAD(P)+ *\ - \* r2373a, L-quinate + NAD(P)+ -> 3-dehydroquinate + NAD(P)H + H+ *\ - \* r2045b, 3-dehydroshikimate + H2O -> 3-dehydroquinate *\ - \* r2045a, 3-dehydroquinate -> 3-dehydroshikimate + H2O *\ - \* r1535, 3-deoxy-D-arabino-heptulosonate-7-phosphate -> 3-dehydroquinate + phosphate *\ - - -1.0 r2374b + r2374a -1.0 r2373b + r2373a + r2045b -1.0 r2045a + r1535 = 0 - -c1557: \* D-TAGATURONATE[CCO-CYTOSOL] *\ - \* r1987a, D-altronate + NAD+ -> D-tagaturonate + NADH + H+ *\ - \* r1987b, D-tagaturonate + NADH + H+ -> D-altronate + NAD+ *\ - \* r2427a, aldehydo-D-galacturonate -> D-tagaturonate *\ - \* r2427b, D-tagaturonate -> aldehydo-D-galacturonate *\ - - + r1987a -1.0 r1987b + r2427a -1.0 r2427b = 0 - -c1258: \* DEOXYXYLULOSE-5P[CCO-CYTOSOL] *\ - \* r893, 1-deoxy-D-xylulose 5-phosphate + 2-iminoacetate + a thiocarboxy-[ThiS-Protein] -> 2-[(2R,5Z)-(2-carboxy-4-methylthiazol-5(2H)-ylidene]ethyl phosphate + a ThiS sulfur-carrier protein + 2 H2O *\ - \* r1912, pyruvate + D-glyceraldehyde 3-phosphate + H+ -> CO2 + 1-deoxy-D-xylulose 5-phosphate *\ - \* r1990, 3-amino-1-hydroxyacetone 1-phosphate + 1-deoxy-D-xylulose 5-phosphate -> pyridoxine 5'-phosphate + phosphate + H+ + 2 H2O *\ - \* r2403a, 2-C-methyl-D-erythritol 4-phosphate + NADP+ -> 1-deoxy-D-xylulose 5-phosphate + NADPH + H+ *\ - \* r2403b, 1-deoxy-D-xylulose 5-phosphate + NADPH + H+ -> 2-C-methyl-D-erythritol 4-phosphate + NADP+ *\ - - -1.0 r893 + r1912 -1.0 r1990 + r2403a -1.0 r2403b = 0 - -c1893: \* Aldoses[CCO-PERI-BAC] *\ - \* r1647b, an aldonate[periplasmic space] + an unknown reduced electron acceptor[periplasmic space] + H+[periplasmic space] -> an aldose[periplasmic space] + an unknown oxidized electron acceptor[periplasmic space] + H2O[periplasmic space] *\ - \* r1647a, an aldose[periplasmic space] + an unknown oxidized electron acceptor[periplasmic space] + H2O[periplasmic space] -> an aldonate[periplasmic space] + an unknown reduced electron acceptor[periplasmic space] + H+[periplasmic space] *\ - - + r1647b -1.0 r1647a = 0 - -c1381: \* CPD-8624[CCO-CYTOSOL] *\ - \* r1032b, peptidylproline (omega = 0) -> peptidylproline (omega = 180) *\ - \* r1032a, peptidylproline (omega = 180) -> peptidylproline (omega = 0) *\ - - + r1032b -1.0 r1032a = 0 - -c861: \* CPD-15544[CCO-CYTOSOL] *\ - \* r611, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - - + r611 = 0 - -c200: \* CPD0-937[CCO-PERI-BAC] *\ - \* r101, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - - + r101 = 0 - -c591: \* L-BETA-ASPARTYL-P[CCO-CYTOSOL] *\ - \* r1885b, L-aspartyl-4-phosphate + NADPH + H+ -> L-aspartate-semialdehyde + NADP+ + phosphate *\ - \* r1885a, L-aspartate-semialdehyde + NADP+ + phosphate -> L-aspartyl-4-phosphate + NADPH + H+ *\ - \* r1391, L-aspartate + ATP -> L-aspartyl-4-phosphate + ADP *\ - \* r320, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - - -1.0 r1885b + r1885a + r1391 -1.0 r320 = 0 - -c634: \* N5-METHYLGLUTAMINE[CCO-PERI-BAC] *\ - \* r356, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - - + r356 = 0 - -c88: \* THYMIDINE[CCO-PERI-BAC] *\ - \* r43, a nucleoside[extracellular space] -> a nucleoside[periplasmic space] *\ - \* r484, thymidine[periplasmic space] + H+[periplasmic space] -> thymidine[cytosol] + H+[cytosol] *\ - \* r603, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - - + r43 -1.0 r484 -1.0 r603 = 0 - -c1679: \* DIHYDRO-THYMINE[CCO-CYTOSOL] *\ - \* r1370b, thymine + NADH + H+ -> 5,6-dihydrothymine + NAD+ *\ - \* r1370a, 5,6-dihydrothymine + NAD+ -> thymine + NADH + H+ *\ - - + r1370b -1.0 r1370a = 0 - -c604: \* CPD0-1224[CCO-PERI-BAC] *\ - \* r332, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - - + r332 = 0 - -c1456: \* GDP-MANNOSE[CCO-CYTOSOL] *\ - \* r1109, alpha-D-mannose 1-phosphate + GTP + H+ -> GDP-alpha-D-mannose + diphosphate *\ - \* r1338, GDP-alpha-D-mannose + H2O -> GMP + alpha-D-mannose 1-phosphate + 2 H+ *\ - - + r1109 -1.0 r1338 = 0 - -c202: \* CPD-17530[CCO-PERI-BAC] *\ - \* r102, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - - + r102 = 0 - -c682: \* CD+2[CCO-CYTOSOL] *\ - \* r466, Cd2+[cytosol] + H+[periplasmic space] -> Cd2+[periplasmic space] + H+[cytosol] *\ - \* r395, Cd2+[periplasmic space] -> Cd2+[cytosol] *\ - - -1.0 r466 + r395 = 0 - -c642: \* CPD-9245[CCO-CYTOSOL] *\ - \* r361, a long-chain fatty acid[periplasmic space] -> a long-chain fatty acid[cytosol] *\ - - + r361 = 0 - -c1990: \* N-SUCCINYLLL-2-6-DIAMINOPIMELATE[CCO-CYTOSOL] *\ - \* r2191b, L,L-diaminopimelate + succinate -> N-succinyl-L,L-2,6-diaminopimelate + H2O *\ - \* r2191a, N-succinyl-L,L-2,6-diaminopimelate + H2O -> L,L-diaminopimelate + succinate *\ - \* r1818b, L-glutamate + N-succinyl-2-amino-6-ketopimelate -> 2-oxoglutarate + N-succinyl-L,L-2,6-diaminopimelate *\ - \* r1818a, 2-oxoglutarate + N-succinyl-L,L-2,6-diaminopimelate -> L-glutamate + N-succinyl-2-amino-6-ketopimelate *\ - - + r2191b -1.0 r2191a + r1818b -1.0 r1818a = 0 - -c1519: \* CPD-7100[CCO-CYTOSOL] *\ - \* r2130b, (2S)-2-isopropyl-3-oxosuccinate + NADH + H+ -> (2R,3S)-3-isopropylmalate + NAD+ *\ - \* r2130a, (2R,3S)-3-isopropylmalate + NAD+ -> (2S)-2-isopropyl-3-oxosuccinate + NADH + H+ *\ - \* r1202, (2S)-2-isopropyl-3-oxosuccinate + H+ -> 4-methyl-2-oxopentanoate + CO2 *\ - - -1.0 r2130b + r2130a -1.0 r1202 = 0 - -c67: \* CPD-3745[CCO-PERI-BAC] *\ - \* r33, ATP + an aliphatic sulfonate[periplasmic space] + H2O -> an aliphatic sulfonate[cytosol] + ADP + phosphate + H+ *\ - - -1.0 r33 = 0 - -c298: \* SPERMIDINE[CCO-PERI-BAC] *\ - \* r510, spermidine[cytosol] + H+[periplasmic space] -> spermidine[periplasmic space] + H+[cytosol] *\ - \* r151, ATP + spermidine[periplasmic space] + H2O -> ADP + spermidine[cytosol] + phosphate + H+ *\ - - + r510 -1.0 r151 = 0 - -c1469: \* 2-3-4-Saturated-L-Phosphatidates[CCO-CYTOSOL] *\ - \* r1127a, a 2,3,4-saturated 2-lysophosphatidate + a 2,3,4-saturated fatty acyl-[acp] -> a 2,3,4-saturated L-phosphatidate + a holo-[acyl-carrier protein] *\ - \* r1127b, a 2,3,4-saturated L-phosphatidate + a holo-[acyl-carrier protein] -> a 2,3,4-saturated 2-lysophosphatidate + a 2,3,4-saturated fatty acyl-[acp] *\ - - + r1127a -1.0 r1127b = 0 - -c765: \* TARTRATE[CCO-CYTOSOL] *\ - \* r664a, L-tartrate -> oxaloacetate + H2O *\ - \* r664b, oxaloacetate + H2O -> L-tartrate *\ - \* r2102a, L-tartrate + NAD+ -> 2-hydroxy-3-oxosuccinate + NADH + H+ *\ - \* r2102b, 2-hydroxy-3-oxosuccinate + NADH + H+ -> L-tartrate + NAD+ *\ - - -1.0 r664a + r664b -1.0 r2102a + r2102b = 0 - -c2200: \* N-Acetoxy-Arylamines[CCO-CYTOSOL] *\ - \* r2329b, an N-acetoxyarylamine + coenzyme A -> an N-hydroxy-arylamine + acetyl-CoA *\ - \* r2329a, an N-hydroxy-arylamine + acetyl-CoA -> an N-acetoxyarylamine + coenzyme A *\ - - -1.0 r2329b + r2329a = 0 - -c1144: \* 5-METHYL-THF[CCO-CYTOSOL] *\ - \* objReactionName, N5-methyl-tetrahydropteroyl mono-L-glutamate *\ - \* r1749, a 5,10-methylene-tetrahydrofolate + NADH + H+ -> an N5-methyl-tetrahydrofolate + NAD+ *\ - \* r801, L-homocysteine + an N5-methyl-tetrahydrofolate -> L-methionine + a tetrahydrofolate *\ - - -0.000223 objReactionName + r1749 -1.0 r801 = 0 - -c369: \* CYS-GLY[CCO-CYTOSOL] *\ - \* r854, L-cysteinyl-glycine + H2O -> L-cysteine + glycine *\ - \* r562, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r187, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - - -1.0 r854 + r562 + r187 = 0 - -c658: \* FE+2[CCO-CYTOSOL] *\ - \* objReactionName, Fe2+ *\ - \* r1487b, ferroheme b + 2 H+ -> Fe2+ + protoporphyrin IX *\ - \* r1487a, Fe2+ + protoporphyrin IX -> ferroheme b + 2 H+ *\ - \* r713b, siroheme + 2 H+ -> sirohydrochlorin + Fe2+ *\ - \* r713a, sirohydrochlorin + Fe2+ -> siroheme + 2 H+ *\ - \* r584, Fe2+[cytosol] + H+[periplasmic space] -> Fe2+[periplasmic space] + H+[cytosol] *\ - \* r410, Fe2+[periplasmic space] + H+[periplasmic space] -> Fe2+[cytosol] + H+[cytosol] *\ - \* r373, Fe2+[periplasmic space] -> Fe2+[cytosol] *\ - - -0.006388 objReactionName + r1487b -1.0 r1487a + r713b -1.0 r713a -1.0 r584 + r410 + r373 = 0 - -c1622: \* SER-tRNAs[CCO-CYTOSOL] *\ - \* objReactionName, a tRNAser *\ - \* r1307, a tRNAser + L-serine + ATP + H+ -> an L-seryl-[tRNAser] + AMP + diphosphate *\ - - +0.209684 objReactionName -1.0 r1307 = 0 - -c979: \* Cysteine-Desulfurase-L-cysteine[CCO-CYTOSOL] *\ - \* r1241a, an [L-cysteine desulfurase] L-cysteine persulfide + an unsulfurated [sulfur carrier] -> an [L-cysteine desulfurase]-L-cysteine + a sulfurated [sulfur carrier] *\ - \* r1241b, an [L-cysteine desulfurase]-L-cysteine + a sulfurated [sulfur carrier] -> an [L-cysteine desulfurase] L-cysteine persulfide + an unsulfurated [sulfur carrier] *\ - \* r1410, an [L-cysteine desulfurase]-L-cysteine + L-cysteine -> an [L-cysteine desulfurase] L-cysteine persulfide + L-alanine *\ - \* r1959, an [L-cysteine desulfurase] L-cysteine persulfide + a ThiI sulfur-carrier protein -> an [L-cysteine desulfurase]-L-cysteine + an S-sulfanyl-[ThiI sulfur-carrier protein] *\ - - + r1241a -1.0 r1241b -1.0 r1410 + r1959 = 0 - -c1428: \* CPD-9000[CCO-CYTOSOL] *\ - \* r1601, 4-(gamma-glutamylamino)butanal + NAD(P)+ + H2O -> 4-(gamma-L-glutamylamino)butanoate + NAD(P)H + 2 H+ *\ - \* r1600, 4-(gamma-glutamylamino)butanal + NAD(P)+ + H2O -> 4-(gamma-L-glutamylamino)butanoate + NAD(P)H + 2 H+ *\ - \* r1081, 4-(gamma-L-glutamylamino)butanoate + H2O -> 4-aminobutanoate + L-glutamate *\ - - + r1601 + r1600 -1.0 r1081 = 0 - -c1022: \* CPD0-2244[CCO-CYTOSOL] *\ - \* r1379, a (3S)-3-hydroxyacyl-CoA + NAD+ -> a 3-oxoacyl-CoA + NADH + H+ *\ - \* r728, a trans-2-enoyl-CoA + H2O -> a (3S)-3-hydroxyacyl-CoA *\ - - -1.0 r1379 + r728 = 0 - -c205: \* CPD0-2240[CCO-CYTOSOL] *\ - \* r256, a lipopolysaccharide[cytosol] -> a lipopolysaccharide[extracellular space] *\ - \* r104, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - - -1.0 r256 -1.0 r104 = 0 - -c970: \* MALONYL-ACP[CCO-CYTOSOL] *\ - \* r1735, a malonyl-[acp] + S-adenosyl-L-methionine -> a malonyl-[acp] methyl ester + S-adenosyl-L-homocysteine *\ - \* r1197, a dodecanoyl-[acp] + a malonyl-[acp] + H+ -> a 3-oxo-myristoyl-[acp] + CO2 + a holo-[acyl-carrier protein] *\ - \* r1164, a decanoyl-[acp] + a malonyl-[acp] + H+ -> a 3-oxo-dodecanoyl-[acp] + CO2 + a holo-[acyl-carrier protein] *\ - \* r1106b, a malonyl-[acp] + coenzyme A -> a holo-[acyl-carrier protein] + malonyl-CoA *\ - \* r1106a, a holo-[acyl-carrier protein] + malonyl-CoA -> a malonyl-[acp] + coenzyme A *\ - \* r973, a malonyl-[acp] + an acetyl-[acp] + H+ -> a holo-[acyl-carrier protein] + an acetoacetyl-[acp] + CO2 *\ - \* r962, an octanoyl-[acp] + a malonyl-[acp] + H+ -> a 3-oxo-decanoyl-[acp] + CO2 + a holo-[acyl-carrier protein] *\ - \* r929, a malonyl-[acp] methyl ester + a malonyl-[acp] + H+ -> a 3-oxo-glutaryl-[acp] methyl ester + CO2 + a holo-[acyl-carrier protein] *\ - \* r895, acetyl-CoA + a malonyl-[acp] + H+ -> an acetoacetyl-[acp] + CO2 + coenzyme A *\ - \* r887, a cis-delta3-decenoyl-[acp] + a malonyl-[acp] + H+ -> a 3-oxo-cis-delta5-dodecenoyl-[acp] + a holo-[acyl-carrier protein] + CO2 *\ - \* r839, a cis-delta5-dodecenoyl-[acp] + a malonyl-[acp] + H+ -> a 3-oxo-cis-delta7-tetradecenoyl-[acp] + a holo-[acyl-carrier protein] + CO2 *\ - \* r826, a malonyl-[acp] + a 2,3,4-saturated fatty acyl-[acp] + H+ -> a holo-[acyl-carrier protein] + a 3-oxoacyl-[acp] + CO2 *\ - \* r825, a malonyl-[acp] + a 2,3,4-saturated fatty acyl-[acp] + H+ -> a holo-[acyl-carrier protein] + a 3-oxoacyl-[acp] + CO2 *\ - \* r824, a malonyl-[acp] + a 2,3,4-saturated fatty acyl-[acp] + H+ -> a holo-[acyl-carrier protein] + a 3-oxoacyl-[acp] + CO2 *\ - \* r823, a malonyl-[acp] + a 2,3,4-saturated fatty acyl-[acp] + H+ -> a holo-[acyl-carrier protein] + a 3-oxoacyl-[acp] + CO2 *\ - \* r822, a malonyl-[acp] + a 2,3,4-saturated fatty acyl-[acp] + H+ -> a holo-[acyl-carrier protein] + a 3-oxoacyl-[acp] + CO2 *\ - \* r821, a malonyl-[acp] + a 2,3,4-saturated fatty acyl-[acp] + H+ -> a holo-[acyl-carrier protein] + a 3-oxoacyl-[acp] + CO2 *\ - \* r807, a glutaryl-[acp] methyl ester + a malonyl-[acp] + H+ -> a 3-oxo-pimeloyl-[acp] methyl ester + CO2 + a holo-[acyl-carrier protein] *\ - \* r777, a hexanoyl-[acyl-carrier-protein] + a malonyl-[acp] + H+ -> a 3-oxo-octanoyl-[acp] + CO2 + a holo-[acyl-carrier protein] *\ - \* r765, a malonyl-[acp] + H+ -> an acetyl-[acp] + CO2 *\ - \* r741, a butyryl-[acp] + a malonyl-[acp] + H+ -> a 3-oxo-hexanoyl-[acp] + CO2 + a holo-[acyl-carrier protein] *\ - \* r705, a myristoyl-[acp] + a malonyl-[acp] + H+ -> a 3-oxo-palmitoyl-[acp] + CO2 + a holo-[acyl-carrier protein] *\ - \* r700, a cis-delta7-tetradecenoyl-[acp] + a malonyl-[acp] + H+ -> a 3-oxo-cis-delta9-hexadecenoyl-[acp] + a holo-[acyl-carrier protein] + CO2 *\ - - -1.0 r1735 -1.0 r1197 -1.0 r1164 -1.0 r1106b + r1106a -1.0 r973 -1.0 r962 -1.0 r929 -1.0 r895 -1.0 r887 -1.0 r839 -1.0 r826 -1.0 r825 -1.0 r824 -1.0 r823 -1.0 r822 -1.0 r821 -1.0 r807 -1.0 r777 - -1.0 r765 -1.0 r741 -1.0 r705 -1.0 r700 = 0 - -c207: \* KDO2-LIPID-IVA[CCO-CYTOSOL] *\ - \* r2348, alpha-Kdo-(2->6)-lipid IVA + CMP-3-deoxy-alpha-D-manno-octulosonate -> alpha-Kdo-(2->4)-alpha-Kdo-(2->6)-lipid IVA + CMP + H+ *\ - \* r2029b, heptosyl-Kdo2-lipid IVA + ADP + H+ -> alpha-Kdo-(2->4)-alpha-Kdo-(2->6)-lipid IVA + ADP-L-glycero-beta-D-manno-heptose *\ - \* r2029a, alpha-Kdo-(2->4)-alpha-Kdo-(2->6)-lipid IVA + ADP-L-glycero-beta-D-manno-heptose -> heptosyl-Kdo2-lipid IVA + ADP + H+ *\ - \* r1076b, alpha-Kdo-(2->4)-alpha-Kdo-(2->4)-alpha-Kdo-(2->6)-lipid IVA + CMP + H+ -> alpha-Kdo-(2->4)-alpha-Kdo-(2->6)-lipid IVA + CMP-3-deoxy-alpha-D-manno-octulosonate *\ - \* r1076a, alpha-Kdo-(2->4)-alpha-Kdo-(2->6)-lipid IVA + CMP-3-deoxy-alpha-D-manno-octulosonate -> alpha-Kdo-(2->4)-alpha-Kdo-(2->4)-alpha-Kdo-(2->6)-lipid IVA + CMP + H+ *\ - \* r958, a palmitoleoyl-[acp] + alpha-Kdo-(2->4)-alpha-Kdo-(2->6)-lipid IVA -> Kdo2-(palmitoleoyl)-lipid IVA + a holo-[acyl-carrier protein] *\ - \* r927, a dodecanoyl-[acp] + alpha-Kdo-(2->4)-alpha-Kdo-(2->6)-lipid IVA -> alpha-Kdo-(2->4)-alpha-Kdo-(2->6)-(lauroyl)-lipid IVA + a holo-[acyl-carrier protein] *\ - \* r257, a lipopolysaccharide[cytosol] -> a lipopolysaccharide[extracellular space] *\ - \* r105, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - - + r2348 + r2029b -1.0 r2029a + r1076b -1.0 r1076a -1.0 r958 -1.0 r927 -1.0 r257 -1.0 r105 = 0 - -c722: \* ADENOSINE[CCO-CYTOSOL] *\ - \* r439, adenosine[periplasmic space] + H+[periplasmic space] -> adenosine[cytosol] + H+[cytosol] *\ - \* r618, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r977, a ribonucleoside 5'-monophosphate + H2O -> a ribonucleoside + phosphate *\ - \* r1201, AMP + H2O -> adenosine + phosphate *\ - \* r1466, adenosine + H2O -> D-ribofuranose + adenine *\ - \* r1980, adenosine + H+ + H2O -> ammonium + inosine *\ - \* r1998a, a purine ribonucleoside + phosphate -> a purine base + alpha-D-ribose-1-phosphate *\ - \* r1998b, a purine base + alpha-D-ribose-1-phosphate -> a purine ribonucleoside + phosphate *\ - \* r2073a, adenosine + phosphate -> alpha-D-ribose-1-phosphate + adenine *\ - \* r2073b, alpha-D-ribose-1-phosphate + adenine -> adenosine + phosphate *\ - - + r439 + r618 + r977 + r1201 -1.0 r1466 -1.0 r1980 -1.0 r1998a + r1998b -1.0 r2073a + r2073b = 0 - -c1153: \* CREC-CPLX[CCO-CYTOSOL] *\ - \* r805b, CreC + PhoB-Pasp53 -> CreC sensory histidine kinase - phosphorylated + PhoB *\ - \* r805a, CreC sensory histidine kinase - phosphorylated + PhoB -> CreC + PhoB-Pasp53 *\ - - -1.0 r805b + r805a = 0 - -c1297: \* CPD-377[CCO-CYTOSOL] *\ - \* r1941, 2-keto-D-gluconate + NADPH + H+ -> D-gluconate + NADP+ *\ - \* r1522, 2,5-didehydro-D-gluconate + NADPH + H+ -> 2-keto-D-gluconate + NADP+ *\ - \* r930b, L-idonate + NADP+ -> 2-keto-D-gluconate + NADPH + H+ *\ - \* r930a, 2-keto-D-gluconate + NADPH + H+ -> L-idonate + NADP+ *\ - - -1.0 r1941 + r1522 + r930b -1.0 r930a = 0 - -c256: \* CYSTINE[CCO-CYTOSOL] *\ - \* r2325b, glutathione disulfide + 2 L-cysteine -> L-cystine + 2 glutathione *\ - \* r2325a, L-cystine + 2 glutathione -> glutathione disulfide + 2 L-cysteine *\ - \* r906, a reduced thioredoxin + L-cystine -> an oxidized thioredoxin + 2 L-cysteine *\ - \* r300, cystine[cytosol] -> cystine[periplasmic space] *\ - \* r295, L-cystine[cytosol] -> L-cystine[periplasmic space] *\ - \* r129, L-cystine[periplasmic space] + ATP + H2O -> L-cystine[cytosol] + ADP + phosphate + H+ *\ - - + r2325b -1.0 r2325a -1.0 r906 -1.0 r300 -1.0 r295 + r129 = 0 - -c1877: \* Peptidoglycan-dimer[CCO-CYTOSOL] *\ - \* r1619b, a lipid II + GlcNAc-1,6-anhydro-MurNAc-pentapeptide -> a peptidoglycan dimer (generic) *\ - \* r1619a, a peptidoglycan dimer (generic) -> a lipid II + GlcNAc-1,6-anhydro-MurNAc-pentapeptide *\ - - + r1619b -1.0 r1619a = 0 - -c206: \* CPD0-2240[CCO-PERI-BAC] *\ - \* r104, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - - + r104 = 0 - -c1978: \* L-1-PHOSPHATIDYL-GLYCEROL[CCO-PERI-BAC] *\ - \* r1797b, an osmoregulated periplasmic glucan with phosphoglycerol substituent[periplasmic space] + a 1,2-diacyl-sn-glycerol[periplasmic space] + H+[periplasmic space] -> an osmoregulated periplasmic glucan[periplasmic space] + an L-1-phosphatidyl-glycerol[periplasmic space] *\ - \* r1797a, an osmoregulated periplasmic glucan[periplasmic space] + an L-1-phosphatidyl-glycerol[periplasmic space] -> an osmoregulated periplasmic glucan with phosphoglycerol substituent[periplasmic space] + a 1,2-diacyl-sn-glycerol[periplasmic space] + H+[periplasmic space] *\ - - + r1797b -1.0 r1797a = 0 - -c1330: \* 1-PALMITOYLGLYCEROL-3-PHOSPHATE[CCO-CYTOSOL] *\ - \* r1129, 1-palmitoylglycerol 3-phosphate + a palmitoyl-[acp] -> dipalmitoyl phosphatidate + a holo-[acyl-carrier protein] *\ - \* r994, sn-glycerol 3-phosphate + an acyl-[acyl-carrier protein] -> a 1-acyl-sn-glycerol 3-phosphate + a holo-[acyl-carrier protein] *\ - \* r953, a long-chain acyl-CoA + sn-glycerol 3-phosphate -> a 1-acyl-sn-glycerol 3-phosphate + coenzyme A *\ - - -1.0 r1129 + r994 + r953 = 0 - -c2123: \* Charged-ILE-tRNAs[CCO-CYTOSOL] *\ - \* objReactionName, an L-isoleucyl-[tRNAile] *\ - \* r2147, a tRNAile + L-isoleucine + ATP + H+ -> an L-isoleucyl-[tRNAile] + AMP + diphosphate *\ - - -0.282306 objReactionName + r2147 = 0 - -c1660: \* CPD-653[CCO-CYTOSOL] *\ - \* r2436, NADH + H2O -> (S)-NADHX *\ - \* r2363, ADP + (S)-NADHX -> AMP + NADH + phosphate + H+ *\ - \* r1342b, (S)-NADHX -> (R)-NADHX *\ - \* r1342a, (R)-NADHX -> (S)-NADHX *\ - - + r2436 -1.0 r2363 -1.0 r1342b + r1342a = 0 - -c1688: \* CPD0-2105[CCO-CYTOSOL] *\ - \* r1965, a 3-oxoacyl-CoA + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + acetyl-CoA *\ - \* r1380, a (3S)-3-hydroxyacyl-CoA + NAD+ -> a 3-oxoacyl-CoA + NADH + H+ *\ - - -1.0 r1965 + r1380 = 0 - -c1020: \* CPD0-2108[CCO-CYTOSOL] *\ - \* r1918, a 2,3,4-saturated fatty acyl CoA + NADP+ -> a trans-2-enoyl-CoA + NADPH + H+ *\ - \* r1778, a 2,3,4-saturated fatty acyl CoA + an oxidized electron-transfer flavoprotein + H+ -> a trans-2-enoyl-CoA + a reduced electron-transfer flavoprotein *\ - \* r1414b, a trans-2-enoyl-CoA -> a cis-3-enoyl-CoA *\ - \* r1414a, a cis-3-enoyl-CoA -> a trans-2-enoyl-CoA *\ - \* r727, a trans-2-enoyl-CoA + H2O -> a (3S)-3-hydroxyacyl-CoA *\ - - + r1918 + r1778 -1.0 r1414b + r1414a -1.0 r727 = 0 - -c1686: \* CPD0-2106[CCO-CYTOSOL] *\ - \* r1963, a 3-oxoacyl-CoA + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + acetyl-CoA *\ - \* r1378, a (3S)-3-hydroxyacyl-CoA + NAD+ -> a 3-oxoacyl-CoA + NADH + H+ *\ - - -1.0 r1963 + r1378 = 0 - -c1024: \* CPD0-2107[CCO-CYTOSOL] *\ - \* r1380, a (3S)-3-hydroxyacyl-CoA + NAD+ -> a 3-oxoacyl-CoA + NADH + H+ *\ - \* r729, a trans-2-enoyl-CoA + H2O -> a (3S)-3-hydroxyacyl-CoA *\ - - -1.0 r1380 + r729 = 0 - -c32: \* UREA[CCO-PERI-BAC] *\ - \* r2485_e, urea *\ - \* r17b, urea[periplasmic space] -> urea[cytosol] *\ - \* r17a, urea[cytosol] -> urea[periplasmic space] *\ - - -1.0 r2485_e -1.0 r17b + r17a = 0 - -c672: \* GUANINE[CCO-CYTOSOL] *\ - \* r1754a, guanosine + phosphate -> alpha-D-ribose-1-phosphate + guanine *\ - \* r1754b, alpha-D-ribose-1-phosphate + guanine -> guanosine + phosphate *\ - \* r1897a, 2'-deoxyguanosine + phosphate -> guanine + 2-deoxy-alpha-D-ribose 1-phosphate *\ - \* r1897b, guanine + 2-deoxy-alpha-D-ribose 1-phosphate -> 2'-deoxyguanosine + phosphate *\ - \* r1999a, a purine ribonucleoside + phosphate -> a purine base + alpha-D-ribose-1-phosphate *\ - \* r1999b, a purine base + alpha-D-ribose-1-phosphate -> a purine ribonucleoside + phosphate *\ - \* r2337, guanine + H+ + H2O -> ammonium + xanthine *\ - \* r2444, guanine + 5-phospho-alpha-D-ribose 1-diphosphate -> GMP + diphosphate *\ - - + r1754a -1.0 r1754b + r1897a -1.0 r1897b + r1999a -1.0 r1999b -1.0 r2337 -1.0 r2444 = 0 - -c1559: \* GDP-TP[CCO-CYTOSOL] *\ - \* r1860, pppGpp + H2O -> GTP + diphosphate + H+ *\ - \* r1711, pppGpp + H2O -> ppGpp + phosphate + H+ *\ - \* r1250, GTP + ATP -> pppGpp + AMP *\ - - -1.0 r1860 -1.0 r1711 + r1250 = 0 - -c1267: \* CPD-16566[CCO-CYTOSOL] *\ - \* r1371, keto-L-rhamnulose -> L-rhamnulofuranose *\ - \* r901b, keto-L-rhamnulose -> beta-L-rhamnopyranose *\ - \* r901a, beta-L-rhamnopyranose -> keto-L-rhamnulose *\ - - -1.0 r1371 -1.0 r901b + r901a = 0 - -c1680: \* CPD-16567[CCO-CYTOSOL] *\ - \* r2100, L-rhamnulofuranose + ATP -> L-rhamnulose 1-phosphate + ADP + H+ *\ - \* r1371, keto-L-rhamnulose -> L-rhamnulofuranose *\ - - -1.0 r2100 + r1371 = 0 - -c1158: \* Holo-EntF[CCO-CYTOSOL] *\ - \* r809, a holo [EntF peptidyl-carrier protein] + L-seryl-adenylate -> a seryl-[EntF peptidyl-carrier protein] + AMP + H+ *\ - \* r1528, 3 a DHB-seryl-[EntF peptidyl-carrier protein] -> enterobactin + 3 a holo [EntF peptidyl-carrier protein] *\ - - -1.0 r809 +3.0 r1528 = 0 - -c2062: \* CPD0-1095[CCO-CYTOSOL] *\ - \* r1953b, adenosine thiamine triphosphate + phosphate -> thiamin diphosphate + ADP + H+ *\ - \* r1953a, thiamin diphosphate + ADP + H+ -> adenosine thiamine triphosphate + phosphate *\ - - -1.0 r1953b + r1953a = 0 - -c1220: \* Holo-EntB[CCO-CYTOSOL] *\ - \* r2019, [EntB aryl-carrier protein] + coenzyme A -> a holo EntB isochorismatase/aryl-carrier protein + adenosine 3',5'-bisphosphate + H+ *\ - \* r1161, a 2,3-dihydroxybenzoyl-[EntB isochorismatase/aryl-carrier protein] + a seryl-[EntF peptidyl-carrier protein] -> a holo EntB isochorismatase/aryl-carrier protein + a DHB-seryl-[EntF peptidyl-carrier protein] + H+ *\ - \* r1048, an acyl-carrier protein + coenzyme A -> adenosine 3',5'-bisphosphate + a holo-[acyl-carrier protein] + H+ *\ - \* r1037, 2,3-dihydroxybenzoyl adenylate + a holo EntB isochorismatase/aryl-carrier protein -> a 2,3-dihydroxybenzoyl-[EntB isochorismatase/aryl-carrier protein] + AMP + H+ *\ - \* r861, a holo-[acyl-carrier protein] + H2O -> 4'-phosphopantetheine + an acyl-carrier protein + H+ *\ - - + r2019 + r1161 + r1048 -1.0 r1037 -1.0 r861 = 0 - -c2015: \* DETHIOBIOTIN[CCO-CYTOSOL] *\ - \* r2097, CO2 + 7,8-diaminopelargonate + ATP -> dethiobiotin + ADP + phosphate + 3 H+ *\ - \* r1847, a sulfurated [sulfur carrier] + dethiobiotin + 2 S-adenosyl-L-methionine + 2 a reduced [2Fe-2S] ferredoxin -> an unsulfurated [sulfur carrier] + biotin + 2 5'-deoxyadenosine + 2 L-methionine + 2 an oxidized [2Fe-2S] ferredoxin *\ - - + r2097 -1.0 r1847 = 0 - -c1756: \* ARG-tRNAs[CCO-CYTOSOL] *\ - \* objReactionName, a tRNAarg *\ - \* r1476, a tRNAarg + L-arginine + ATP + H+ -> an L-arginyl-[tRNAarg] + AMP + diphosphate *\ - - +0.28742 objReactionName -1.0 r1476 = 0 - -c2078: \* PROPIONYL-P[CCO-CYTOSOL] *\ - \* r2296, propanoyl-CoA + phosphate -> propanoyl phosphate + coenzyme A *\ - \* r2003b, ADP + propanoyl phosphate -> ATP + propanoate *\ - \* r2003a, ATP + propanoate -> ADP + propanoyl phosphate *\ - - + r2296 -1.0 r2003b + r2003a = 0 - -c1003: \* HS[CCO-CYTOSOL] *\ - \* r2402b, bisorganyltrisulfane + hydrogen sulfide + an unknown oxidized electron acceptor -> 2 S-sulfanylglutathione + an unknown reduced electron acceptor *\ - \* r2402a, 2 S-sulfanylglutathione + an unknown reduced electron acceptor -> bisorganyltrisulfane + hydrogen sulfide + an unknown oxidized electron acceptor *\ - \* r2244, L-cysteine + H2O -> pyruvate + ammonium + hydrogen sulfide *\ - \* r1870, hydrogen sulfide + glutathione disulfide -> S-sulfanylglutathione + glutathione *\ - \* r1269, L-cysteine -> 2-aminoprop-2-enoate + hydrogen sulfide + H+ *\ - \* r1217, D-cysteine + H2O -> ammonium + pyruvate + hydrogen sulfide *\ - \* r1171b, L-cysteine + acetate + H+ -> O-acetyl-L-serine + hydrogen sulfide *\ - \* r1171a, O-acetyl-L-serine + hydrogen sulfide -> L-cysteine + acetate + H+ *\ - \* r1006b, an oxidized thioredoxin + sulfite + hydrogen sulfide + H+ -> a reduced thioredoxin + thiosulfate *\ - \* r1006a, a reduced thioredoxin + thiosulfate -> an oxidized thioredoxin + sulfite + hydrogen sulfide + H+ *\ - \* r717, sulfite + 3 NADPH + 5 H+ -> hydrogen sulfide + 3 NADP+ + 3 H2O *\ - - -1.0 r2402b + r2402a + r2244 -1.0 r1870 + r1269 + r1217 + r1171b -1.0 r1171a -1.0 r1006b + r1006a + r717 = 0 - -c9: \* WATER[CCO-PERI-BAC] *\ - \* r2470_e, H2O *\ - \* r2464_e, H2O *\ - \* r2431, 3-phospho-L-serine + H2O -> L-serine + phosphate *\ - \* r2368, NADP+ + H2O -> NAD+ + phosphate *\ - \* r2284, L-asparagine + H2O -> L-aspartate + ammonium *\ - \* r2228, L-alanyl-gamma-D-glutamyl-meso-2,6-diaminopimeloyl-D-alanine + H2O -> L-alanyl-gamma-D-glutamyl-meso-diaminopimelate + D-alanine *\ - \* r2221b, a carboxylate[periplasmic space] + FADH2[periplasmic space] -> an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] *\ - \* r2221a, an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] -> a carboxylate[periplasmic space] + FADH2[periplasmic space] *\ - \* r2220b, a carboxylate[periplasmic space] + FADH2[periplasmic space] -> an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] *\ - \* r2220a, an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] -> a carboxylate[periplasmic space] + FADH2[periplasmic space] *\ - \* r2219b, a carboxylate[periplasmic space] + FADH2[periplasmic space] -> an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] *\ - \* r2219a, an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] -> a carboxylate[periplasmic space] + FADH2[periplasmic space] *\ - \* r2218b, a carboxylate[periplasmic space] + FADH2[periplasmic space] -> an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] *\ - \* r2218a, an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] -> a carboxylate[periplasmic space] + FADH2[periplasmic space] *\ - \* r2217b, a carboxylate[periplasmic space] + FADH2[periplasmic space] -> an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] *\ - \* r2217a, an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] -> a carboxylate[periplasmic space] + FADH2[periplasmic space] *\ - \* r2216b, a carboxylate[periplasmic space] + FADH2[periplasmic space] -> an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] *\ - \* r2216a, an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] -> a carboxylate[periplasmic space] + FADH2[periplasmic space] *\ - \* r2215b, a carboxylate[periplasmic space] + FADH2[periplasmic space] -> an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] *\ - \* r2215a, an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] -> a carboxylate[periplasmic space] + FADH2[periplasmic space] *\ - \* r2214b, a carboxylate[periplasmic space] + FADH2[periplasmic space] -> an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] *\ - \* r2214a, an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] -> a carboxylate[periplasmic space] + FADH2[periplasmic space] *\ - \* r2195, 2 Cu+[periplasmic space] + 2 H+[periplasmic space] + oxygen[periplasmic space] -> 2 Cu2+[periplasmic space] + 2 H2O[periplasmic space] *\ - \* r2174b, 2 a phenoxyl radical of a phenolic donor + 2 H2O -> 2 a phenolic donor + hydrogen peroxide *\ - \* r2174a, 2 a phenolic donor + hydrogen peroxide -> 2 a phenoxyl radical of a phenolic donor + 2 H2O *\ - \* r2171, GMP + H2O -> guanosine + phosphate *\ - \* r2143, a nucleoside 5'-monophosphate[periplasmic space] + H2O[periplasmic space] -> a nucleoside[periplasmic space] + phosphate[periplasmic space] *\ - \* r2142, a nucleoside 5'-monophosphate[periplasmic space] + H2O[periplasmic space] -> a nucleoside[periplasmic space] + phosphate[periplasmic space] *\ - \* r2106, PPPi + H2O -> phosphate + diphosphate *\ - \* r2104b, tetrahydrothiophene[periplasmic space] + an unknown oxidized electron acceptor[periplasmic space] + H2O[periplasmic space] -> tetrahydrothiophene 1-oxide[periplasmic space] + an unknown reduced electron acceptor[periplasmic space] *\ - \* r2104a, tetrahydrothiophene 1-oxide[periplasmic space] + an unknown reduced electron acceptor[periplasmic space] -> tetrahydrothiophene[periplasmic space] + an unknown oxidized electron acceptor[periplasmic space] + H2O[periplasmic space] *\ - \* r1841, glycerol 2-phosphate + H2O -> glycerol + phosphate *\ - \* r1840, glutathione[periplasmic space] + H2O[periplasmic space] -> L-cysteinyl-glycine[periplasmic space] + L-glutamate[periplasmic space] *\ - \* r1713, 4 Fe2+ + 4 H+ + oxygen -> 4 Fe3+ + 2 H2O *\ - \* r1678b, dimethyl sulfoxide[periplasmic space] + a menaquinol[inner membrane] -> dimethyl sulfide[periplasmic space] + a menaquinone[inner membrane] + H2O[periplasmic space] *\ - \* r1678a, dimethyl sulfide[periplasmic space] + a menaquinone[inner membrane] + H2O[periplasmic space] -> dimethyl sulfoxide[periplasmic space] + a menaquinol[inner membrane] *\ - \* r1647b, an aldonate[periplasmic space] + an unknown reduced electron acceptor[periplasmic space] + H+[periplasmic space] -> an aldose[periplasmic space] + an unknown oxidized electron acceptor[periplasmic space] + H2O[periplasmic space] *\ - \* r1647a, an aldose[periplasmic space] + an unknown oxidized electron acceptor[periplasmic space] + H2O[periplasmic space] -> an aldonate[periplasmic space] + an unknown reduced electron acceptor[periplasmic space] + H+[periplasmic space] *\ - \* r1552, a 1-acyl 2-lyso-phosphatidylcholine + H2O -> a carboxylate + sn-glycero-3-phosphocholine + H+ *\ - \* r1353, L-histidinol-phosphate + H2O -> histidinol + phosphate *\ - \* r1252, dGMP + H2O -> 2'-deoxyguanosine + phosphate *\ - \* r1028, IMP + H2O -> inosine + phosphate *\ - \* r980, a ribonucleoside 5'-monophosphate + H2O -> a ribonucleoside + phosphate *\ - \* r978, a ribonucleoside 5'-monophosphate + H2O -> a ribonucleoside + phosphate *\ - \* r941, FMN + H2O -> riboflavin + phosphate *\ - \* r656, diphosphate + H2O -> 2 phosphate + H+ *\ - \* r647b, H2O[cytosol] -> H2O[periplasmic space] *\ - \* r647a, H2O[periplasmic space] -> H2O[cytosol] *\ - \* r5b, H2O[cytosol] -> H2O[periplasmic space] *\ - \* r5a, H2O[periplasmic space] -> H2O[cytosol] *\ - - -1.0 r2470_e + r2464_e -1.0 r2431 -1.0 r2368 -1.0 r2284 -1.0 r2228 + r2221b -1.0 r2221a + r2220b -1.0 r2220a + r2219b -1.0 r2219a + r2218b -1.0 r2218a + r2217b -1.0 r2217a + r2216b -1.0 r2216a + r2215b - -1.0 r2215a + r2214b -1.0 r2214a +2.0 r2195 -2.0 r2174b +2.0 r2174a -1.0 r2171 -1.0 r2143 -1.0 r2142 -1.0 r2106 -1.0 r2104b + r2104a -1.0 r1841 -1.0 r1840 +2.0 r1713 + r1678b -1.0 r1678a + r1647b -1.0 r1647a -1.0 r1552 - -1.0 r1353 -1.0 r1252 -1.0 r1028 -1.0 r980 -1.0 r978 -1.0 r941 -1.0 r656 + r647b -1.0 r647a + r5b -1.0 r5a = 0 - -c1858: \* SUCC-S-ALD[CCO-CYTOSOL] *\ - \* r2395, succinate semialdehyde + NADP+ + H2O -> succinate + NADPH + 2 H+ *\ - \* r2349b, succinate semialdehyde + NADH + H+ -> 4-hydroxybutanoate + NAD+ *\ - \* r2349a, 4-hydroxybutanoate + NAD+ -> succinate semialdehyde + NADH + H+ *\ - \* r2303, succinate semialdehyde + NAD+ + H2O -> succinate + NADH + 2 H+ *\ - \* r1603b, L-glutamate + succinate semialdehyde -> 2-oxoglutarate + 4-aminobutanoate *\ - \* r1603a, 2-oxoglutarate + 4-aminobutanoate -> L-glutamate + succinate semialdehyde *\ - - -1.0 r2395 -1.0 r2349b + r2349a -1.0 r2303 -1.0 r1603b + r1603a = 0 - -c1693: \* 2-ACETO-LACTATE[CCO-CYTOSOL] *\ - \* r1773a, 2 pyruvate + H+ -> (S)-2-acetolactate + CO2 *\ - \* r1773b, (S)-2-acetolactate + CO2 -> 2 pyruvate + H+ *\ - \* r2248a, (R)-2,3-dihydroxy-3-methylbutanoate + NADP+ -> (S)-2-acetolactate + NADPH + H+ *\ - \* r2248b, (S)-2-acetolactate + NADPH + H+ -> (R)-2,3-dihydroxy-3-methylbutanoate + NADP+ *\ - - + r1773a -1.0 r1773b + r2248a -1.0 r2248b = 0 - -c568: \* D-SERINE[CCO-CYTOSOL] *\ - \* r907a, D-serine -> pyruvate + ammonium *\ - \* r907b, pyruvate + ammonium -> D-serine *\ - \* r1467, D-serine -> 2-aminoprop-2-enoate + H2O + H+ *\ - - -1.0 r907a + r907b -1.0 r1467 = 0 - -c2133: \* Phenoxyl-rad-of-phenolic-donors[CCO-PERI-BAC] *\ - \* r2174b, 2 a phenoxyl radical of a phenolic donor + 2 H2O -> 2 a phenolic donor + hydrogen peroxide *\ - \* r2174a, 2 a phenolic donor + hydrogen peroxide -> 2 a phenoxyl radical of a phenolic donor + 2 H2O *\ - - -2.0 r2174b +2.0 r2174a = 0 - -c595: \* SER[CCO-CYTOSOL] *\ - \* r327, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - \* r589, L-serine[periplasmic space] + H+[periplasmic space] -> L-serine[cytosol] + H+[cytosol] *\ - \* r632, Na+[periplasmic space] + L-serine[periplasmic space] -> Na+[cytosol] + L-serine[cytosol] *\ - \* r814, L-serine -> pyruvate + ammonium *\ - \* r915, 6 ATP + 3 L-serine + 3 2,3-dihydroxybenzoate -> 6 AMP + enterobactin + 6 diphosphate + 3 H+ *\ - \* r1107a, L-serine + a tetrahydrofolate -> glycine + a 5,10-methylene-tetrahydrofolate + H2O *\ - \* r1107b, glycine + a 5,10-methylene-tetrahydrofolate + H2O -> L-serine + a tetrahydrofolate *\ - \* r1108a, L-serine + a tetrahydrofolate -> glycine + a 5,10-methylene-tetrahydrofolate + H2O *\ - \* r1108b, glycine + a 5,10-methylene-tetrahydrofolate + H2O -> L-serine + a tetrahydrofolate *\ - \* r1307, a tRNAser + L-serine + ATP + H+ -> an L-seryl-[tRNAser] + AMP + diphosphate *\ - \* r1308a, L-serine + NADP+ -> 3-oxo-L-alanine + NADPH + H+ *\ - \* r1308b, 3-oxo-L-alanine + NADPH + H+ -> L-serine + NADP+ *\ - \* r1507a, L-serine + ATP + H+ -> L-seryl-adenylate + diphosphate *\ - \* r1507b, L-seryl-adenylate + diphosphate -> L-serine + ATP + H+ *\ - \* r1800a, a CDP-diacylglycerol + L-serine -> CMP + an L-1-phosphatidylserine + H+ *\ - \* r1800b, CMP + an L-1-phosphatidylserine + H+ -> a CDP-diacylglycerol + L-serine *\ - \* r1801a, a CDP-diacylglycerol + L-serine -> CMP + an L-1-phosphatidylserine + H+ *\ - \* r1801b, CMP + an L-1-phosphatidylserine + H+ -> a CDP-diacylglycerol + L-serine *\ - \* r1827, (1S,2R)-1-C-(indol-3-yl)glycerol 3-phosphate + L-serine -> L-tryptophan + D-glyceraldehyde 3-phosphate + H2O *\ - \* r2010, indole + L-serine -> L-tryptophan + H2O *\ - \* r2233, glycerophosphoserine + H2O -> sn-glycerol 3-phosphate + L-serine + H+ *\ - \* r2249, L-serine -> 2-aminoprop-2-enoate + H+ + H2O *\ - \* r2391, L-serine + acetyl-CoA -> O-acetyl-L-serine + coenzyme A *\ - \* r2432, 3-phospho-L-serine + H2O -> L-serine + phosphate *\ - - -1.0 r327 + r589 + r632 -1.0 r814 -3.0 r915 -1.0 r1107a + r1107b -1.0 r1108a + r1108b -1.0 r1307 -1.0 r1308a + r1308b -1.0 r1507a + r1507b -1.0 r1800a + r1800b -1.0 r1801a + r1801b -1.0 r1827 - -1.0 r2010 + r2233 -1.0 r2249 -1.0 r2391 + r2432 = 0 - -c50: \* AMMONIUM[CCO-CYTOSOL] *\ - \* r26a, ammonium[periplasmic space] -> ammonium[cytosol] *\ - \* r26b, ammonium[cytosol] -> ammonium[periplasmic space] *\ - \* r671, adenine + H+ + H2O -> ammonium + hypoxanthine *\ - \* r694, carbamoyl-phosphate + ADP + 2 H+ -> ammonium + CO2 + ATP *\ - \* r814, L-serine -> pyruvate + ammonium *\ - \* r834a, a [glycine-cleavage complex H protein] N6-aminomethyldihydrolipoyl-L-lysine + a tetrahydrofolate -> a [glycine-cleavage complex H protein] N6-dihydrolipoyl-L-lysine + a 5,10-methylene-tetrahydrofolate + ammonium *\ - \* r834b, a [glycine-cleavage complex H protein] N6-dihydrolipoyl-L-lysine + a 5,10-methylene-tetrahydrofolate + ammonium -> a [glycine-cleavage complex H protein] N6-aminomethyldihydrolipoyl-L-lysine + a tetrahydrofolate *\ - \* r907a, D-serine -> pyruvate + ammonium *\ - \* r907b, pyruvate + ammonium -> D-serine *\ - \* r916, ethanolamine -> ammonium + acetaldehyde *\ - \* r1000, O-succinyl-L-homoserine + H2O -> 2-oxobutanoate + succinate + ammonium + H+ *\ - \* r1011, beta-nicotinamide D-ribonucleotide + H2O -> ammonium + beta-nicotinate D-ribonucleotide *\ - \* r1217, D-cysteine + H2O -> ammonium + pyruvate + hydrogen sulfide *\ - \* r1218, L-cystathionine + H2O -> ammonium + pyruvate + L-homocysteine *\ - \* r1287, allantoate + 2 H+ + H2O -> S-ureidoglycine + ammonium + CO2 *\ - \* r1294a, L-aspartate -> ammonium + fumarate *\ - \* r1294b, ammonium + fumarate -> L-aspartate *\ - \* r1306, cytosine + H+ + H2O -> ammonium + uracil *\ - \* r1340, ammonium + L-glutamate + ATP -> L-glutamine + ADP + phosphate + H+ *\ - \* r1369, 2'-deoxyadenosine + H+ + H2O -> ammonium + 2'-deoxyinosine *\ - \* r1393, pyridoxamine 5'-phosphate + oxygen + H2O -> ammonium + hydrogen peroxide + pyridoxal 5'-phosphate *\ - \* r1442, XMP + ammonium + ATP -> GMP + AMP + diphosphate + 2 H+ *\ - \* r1515, glycine + a tetrahydrofolate + NAD+ -> a 5,10-methylene-tetrahydrofolate + ammonium + CO2 + NADH *\ - \* r1516, glycine + a tetrahydrofolate + NAD+ -> a 5,10-methylene-tetrahydrofolate + ammonium + CO2 + NADH *\ - \* r1525a, L-glutamate + NADP+ + H2O -> ammonium + 2-oxoglutarate + NADPH + H+ *\ - \* r1525b, ammonium + 2-oxoglutarate + NADPH + H+ -> L-glutamate + NADP+ + H2O *\ - \* r1589, N2-succinyl-L-arginine + 2 H+ + 2 H2O -> 2 ammonium + N2-succinyl-L-ornithine + CO2 *\ - \* r1624, nitrite + 3 NADH + 5 H+ -> ammonium + 3 NAD+ + 2 H2O *\ - \* r1650, a D-amino acid + an electron-transfer quinone[inner membrane] + H2O -> ammonium + a 2-oxo carboxylate + an electron-transfer quinol[inner membrane] *\ - \* r1651, a D-amino acid + an electron-transfer quinone[inner membrane] + H2O -> ammonium + a 2-oxo carboxylate + an electron-transfer quinol[inner membrane] *\ - \* r1652, a D-amino acid + an electron-transfer quinone[inner membrane] + H2O -> ammonium + a 2-oxo carboxylate + an electron-transfer quinol[inner membrane] *\ - \* r1653, a D-amino acid + an electron-transfer quinone[inner membrane] + H2O -> ammonium + a 2-oxo carboxylate + an electron-transfer quinol[inner membrane] *\ - \* r1660, D-alanine + an electron-transfer quinone[inner membrane] + H2O -> ammonium + pyruvate + an electron-transfer quinol[inner membrane] *\ - \* r1661, D-alanine + an electron-transfer quinone[inner membrane] + H2O -> ammonium + pyruvate + an electron-transfer quinol[inner membrane] *\ - \* r1670, 2-iminobutanoate + H+ + H2O -> 2-oxobutanoate + ammonium *\ - \* r1704, L-aspartate + ammonium + ATP -> L-asparagine + AMP + diphosphate + H+ *\ - \* r1774, 2-iminopropanoate + H+ + H2O -> pyruvate + ammonium *\ - \* r1845, 2 ATP + hydrogen carbonate + ammonium -> 2 ADP + carbamoyl-phosphate + phosphate + 2 H+ *\ - \* r1891, an adenosine34 in [tRNAArg2] + H+ + H2O -> an inosine34 in [tRNAArg2] + ammonium *\ - \* r1898, cytidine + H+ + H2O -> uridine + ammonium *\ - \* r1909, L-threonine -> 2-oxobutanoate + ammonium *\ - \* r1934a, ammonia + H+ -> ammonium *\ - \* r1934b, ammonium -> ammonia + H+ *\ - \* r1980, adenosine + H+ + H2O -> ammonium + inosine *\ - \* r1986, 4 porphobilinogen + H2O -> 4 ammonium + hydroxymethylbilane *\ - \* r2076, nicotinamide + H2O -> ammonium + nicotinate *\ - \* r2108, gamma-glutamyl-L-putrescine + H2O + oxygen -> 4-(gamma-glutamylamino)butanal + hydrogen peroxide + ammonium *\ - \* r2185, dCTP + H+ + H2O -> ammonium + dUTP *\ - \* r2244, L-cysteine + H2O -> pyruvate + ammonium + hydrogen sulfide *\ - \* r2262, ammonium + ATP + nicotinate adenine dinucleotide -> AMP + NAD+ + diphosphate + H+ *\ - \* r2285, L-asparagine + H2O -> L-aspartate + ammonium *\ - \* r2304, 2,5-diamino-6-(5-phospho-D-ribosylamino)pyrimidin-4(3H)-one + H+ + H2O -> 5-amino-6-(5-phospho-D-ribosylamino)uracil + ammonium *\ - \* r2322, S-ureidoglycine + H2O -> S-ureidoglycolate + ammonium *\ - \* r2324, L-glutamine + H2O -> L-glutamate + ammonium *\ - \* r2337, guanine + H+ + H2O -> ammonium + xanthine *\ - \* r2343, ATP + UTP + ammonium -> ADP + CTP + phosphate + 2 H+ *\ - \* r2380, 2-aminoprop-2-enoate + H+ + H2O -> pyruvate + ammonium *\ - \* r2390, 2'-deoxycytidine + H+ + H2O -> 2'-deoxyuridine + ammonium *\ - \* r2425a, L-tryptophan + H2O -> ammonium + indole + pyruvate *\ - \* r2425b, ammonium + indole + pyruvate -> L-tryptophan + H2O *\ - \* r2439, 2-iminoacetate + H+ + H2O -> glyoxylate + ammonium *\ - \* r2440, GMP + NADPH + 2 H+ -> ammonium + IMP + NADP+ *\ - \* r2452_e, ammonium *\ - - + r26a -1.0 r26b + r671 + r694 + r814 + r834a -1.0 r834b + r907a -1.0 r907b + r916 + r1000 + r1011 + r1217 + r1218 + r1287 + r1294a -1.0 r1294b + r1306 -1.0 r1340 - + r1369 + r1393 -1.0 r1442 + r1515 + r1516 + r1525a -1.0 r1525b +2.0 r1589 + r1624 + r1650 + r1651 + r1652 + r1653 + r1660 + r1661 + r1670 -1.0 r1704 + r1774 -1.0 r1845 + r1891 - + r1898 + r1909 + r1934a -1.0 r1934b + r1980 +4.0 r1986 + r2076 + r2108 + r2185 + r2244 -1.0 r2262 + r2285 + r2304 + r2322 + r2324 + r2337 -1.0 r2343 + r2380 + r2390 + r2425a - -1.0 r2425b + r2439 + r2440 + r2452_e = 0 - -c500: \* CPD0-935[CCO-EXTRACELLULAR] *\ - \* r268, a lipopolysaccharide[cytosol] -> a lipopolysaccharide[extracellular space] *\ - - + r268 = 0 - -c1065: \* DUDP[CCO-CYTOSOL] *\ - \* r2308, dUDP + ATP -> dUTP + ADP *\ - \* r2268, a nucleoside diphosphate + H2O -> a nucleoside 5'-monophosphate + phosphate + H+ *\ - \* r1183, a nucleoside diphosphate + ATP -> a nucleoside triphosphate + ADP *\ - \* r771, a reduced thioredoxin + a ribonucleoside diphosphate -> an oxidized thioredoxin + a 2'-deoxyribonucleoside 5'-diphosphate + H2O *\ - \* r749, UDP + a reduced NrdH glutaredoxin-like protein -> dUDP + an oxidized NrdH glutaredoxin-like protein + H2O *\ - - -1.0 r2308 -1.0 r2268 -1.0 r1183 + r771 + r749 = 0 - -c51: \* K+[CCO-PERI-BAC] *\ - \* r2454_e, K+ *\ - \* r546, K+[cytosol] + H+[periplasmic space] -> K+[periplasmic space] + H+[cytosol] *\ - \* r513, K+[periplasmic space] + H+[periplasmic space] -> K+[cytosol] + H+[cytosol] *\ - \* r83, K+[periplasmic space] + ATP + H2O -> K+[cytosol] + ADP + phosphate + H+ *\ - \* r27, K+[periplasmic space] -> K+[cytosol] *\ - - + r2454_e + r546 -1.0 r513 -1.0 r83 -1.0 r27 = 0 - -c1036: \* Trans-D3-cis-D9-hexadecenoyl-ACPs[CCO-CYTOSOL] *\ - \* r905, a (3R)-3-hydroxy cis delta9-hexadecenoyl-[acp] -> a trans-delta3-cis-delta9-hexadecenoyl-[acp] + H2O *\ - \* r737, a trans-delta3-cis-delta9-hexadecenoyl-[acp] + NADH + H+ -> a palmitoleoyl-[acp] + NAD+ *\ - - + r905 -1.0 r737 = 0 - -c659: \* PROPIONATE[CCO-PERI-BAC] *\ - \* r2216b, a carboxylate[periplasmic space] + FADH2[periplasmic space] -> an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] *\ - \* r2216a, an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] -> a carboxylate[periplasmic space] + FADH2[periplasmic space] *\ - \* r375, propanoate[periplasmic space] -> propanoate[cytosol] *\ - - -1.0 r2216b + r2216a -1.0 r375 = 0 - -c1468: \* Saturated-Fatty-Acyl-ACPs[CCO-CYTOSOL] *\ - \* r1127b, a 2,3,4-saturated L-phosphatidate + a holo-[acyl-carrier protein] -> a 2,3,4-saturated 2-lysophosphatidate + a 2,3,4-saturated fatty acyl-[acp] *\ - \* r1127a, a 2,3,4-saturated 2-lysophosphatidate + a 2,3,4-saturated fatty acyl-[acp] -> a 2,3,4-saturated L-phosphatidate + a holo-[acyl-carrier protein] *\ - - + r1127b -1.0 r1127a = 0 - -c2041: \* tRNA-Arg-inosine34[CCO-CYTOSOL] *\ - \* objReactionName, an inosine34 in [tRNAArg2] *\ - \* r1891, an adenosine34 in [tRNAArg2] + H+ + H2O -> an inosine34 in [tRNAArg2] + ammonium *\ - - -0.00001 objReactionName + r1891 = 0 - -c1815: \* 2-Lysophosphatidylcholines[CCO-UNKNOWN-SPACE] *\ - \* r1553, a 1-acyl 2-lyso-phosphatidylcholine + H2O -> a carboxylate + sn-glycero-3-phosphocholine + H+ *\ - - -1.0 r1553 = 0 - -c1230: \* CPD-644[CCO-CYTOSOL] *\ - \* r875b, benzaldehyde + glycine -> L-threo-3-phenylserine *\ - \* r875a, L-threo-3-phenylserine -> benzaldehyde + glycine *\ - - + r875b -1.0 r875a = 0 - -c2144: \* Semiquinones[CCO-CYTOSOL] *\ - \* r2264b, 2 a semiquinone + NAD+ -> 2 a quinone + NADH + H+ *\ - \* r2264a, 2 a quinone + NADH + H+ -> 2 a semiquinone + NAD+ *\ - \* r2189b, 2 a semiquinone + NADP+ -> 2 a quinone + NADPH + H+ *\ - \* r2189a, 2 a quinone + NADPH + H+ -> 2 a semiquinone + NADP+ *\ - - -2.0 r2264b +2.0 r2264a -2.0 r2189b +2.0 r2189a = 0 - -c2141: \* 3-P-SERINE[CCO-CYTOSOL] *\ - \* r2432, 3-phospho-L-serine + H2O -> L-serine + phosphate *\ - \* r2184b, 3-phospho-hydroxypyruvate + L-glutamate -> 3-phospho-L-serine + 2-oxoglutarate *\ - \* r2184a, 3-phospho-L-serine + 2-oxoglutarate -> 3-phospho-hydroxypyruvate + L-glutamate *\ - - -1.0 r2432 + r2184b -1.0 r2184a = 0 - -c1121: \* AMINO-OH-HYDROXYMETHYL-DIHYDROPTERIDINE[CCO-CYTOSOL] *\ - \* r960, 6-hydroxymethyl-7,8-dihydropterin + ATP -> (2-amino-4-hydroxy-7,8-dihydropteridin-6-yl)methyl diphosphate + AMP + H+ *\ - \* r787, 7,8-dihydroneopterin -> glycolaldehyde + 6-hydroxymethyl-7,8-dihydropterin *\ - - -1.0 r960 + r787 = 0 - -c1937: \* CPD-13357[CCO-CYTOSOL] *\ - \* r2248b, (S)-2-acetolactate + NADPH + H+ -> (R)-2,3-dihydroxy-3-methylbutanoate + NADP+ *\ - \* r2248a, (R)-2,3-dihydroxy-3-methylbutanoate + NADP+ -> (S)-2-acetolactate + NADPH + H+ *\ - \* r1728, (R)-2,3-dihydroxy-3-methylbutanoate -> 3-methyl-2-oxobutanoate + H2O *\ - - + r2248b -1.0 r2248a -1.0 r1728 = 0 - -c1785: \* ADP-D-GLYCERO-D-MANNO-HEPTOSE[CCO-CYTOSOL] *\ - \* r2151, ADP-D-glycero-beta-D-manno-heptose -> ADP-L-glycero-beta-D-manno-heptose *\ - \* r1513, D-glycero-beta-D-manno-heptose 1-phosphate + ATP + H+ -> ADP-D-glycero-beta-D-manno-heptose + diphosphate *\ - - -1.0 r2151 + r1513 = 0 - -c1260: \* Thiocarboxyadenylated-ThiS-Proteins[CCO-CYTOSOL] *\ - \* r1063, an S-sulfanyl-[ThiI sulfur-carrier protein] + a carboxy-adenylated-[ThiS sulfur-carrier protein] + 2 a reduced ferredoxin -> a thiocarboxy-[ThiS-Protein] + a ThiI sulfur-carrier protein + AMP + 2 an oxidized ferredoxin *\ - \* r893, 1-deoxy-D-xylulose 5-phosphate + 2-iminoacetate + a thiocarboxy-[ThiS-Protein] -> 2-[(2R,5Z)-(2-carboxy-4-methylthiazol-5(2H)-ylidene]ethyl phosphate + a ThiS sulfur-carrier protein + 2 H2O *\ - - + r1063 -1.0 r893 = 0 - -c1012: \* THR-tRNAs[CCO-CYTOSOL] *\ - \* objReactionName, a tRNAthr *\ - \* r722, a tRNAthr + L-threonine + ATP + H+ -> an L-threonyl-[tRNAthr] + AMP + diphosphate *\ - - +0.246506 objReactionName -1.0 r722 = 0 - -c74: \* FORMATE[CCO-PERI-BAC] *\ - \* r2473_e, formate *\ - \* r1641, formate[periplasmic space] + a menaquinone[inner membrane] + 2 H+ -> CO2[periplasmic space] + a menaquinol[inner membrane] + H+[periplasmic space] *\ - \* r36b, formate[periplasmic space] -> formate[cytosol] *\ - \* r36a, formate[cytosol] -> formate[periplasmic space] *\ - - -1.0 r2473_e -1.0 r1641 -1.0 r36b + r36a = 0 - -c728: \* MAL[CCO-PERI-BAC] *\ - \* r520, a C4-dicarboxylate[periplasmic space] + 3 H+[periplasmic space] -> a C4-dicarboxylate[cytosol] + 3 H+[cytosol] *\ - \* r463, succinate[cytosol] + (S)-malate[periplasmic space] -> (S)-malate[cytosol] + succinate[periplasmic space] *\ - \* r462, (S)-malate[periplasmic space] + 2 H+[periplasmic space] -> (S)-malate[cytosol] + 2 H+[cytosol] *\ - \* r447, a C4-dicarboxylate[periplasmic space] + 2 H+[periplasmic space] -> a C4-dicarboxylate[cytosol] + 2 H+[cytosol] *\ - - -1.0 r520 -1.0 r463 -1.0 r462 -1.0 r447 = 0 - -c1895: \* Aldonic-Acids[CCO-PERI-BAC] *\ - \* r1647b, an aldonate[periplasmic space] + an unknown reduced electron acceptor[periplasmic space] + H+[periplasmic space] -> an aldose[periplasmic space] + an unknown oxidized electron acceptor[periplasmic space] + H2O[periplasmic space] *\ - \* r1647a, an aldose[periplasmic space] + an unknown oxidized electron acceptor[periplasmic space] + H2O[periplasmic space] -> an aldonate[periplasmic space] + an unknown reduced electron acceptor[periplasmic space] + H+[periplasmic space] *\ - - -1.0 r1647b + r1647a = 0 - -c308: \* VAL[CCO-PERI-BAC] *\ - \* r548, Na+[periplasmic space] + L-valine[periplasmic space] -> Na+[cytosol] + L-valine[cytosol] *\ - \* r388, L-valine[cytosol] -> L-valine[periplasmic space] *\ - \* r347, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - \* r157, ATP + L-valine[periplasmic space] + H2O -> ADP + L-valine[cytosol] + phosphate + H+ *\ - - -1.0 r548 + r388 + r347 -1.0 r157 = 0 - -c1222: \* EG50003-MONOMER[CCO-CYTOSOL] *\ - \* r1047, an acyl-carrier protein + coenzyme A -> adenosine 3',5'-bisphosphate + a holo-[acyl-carrier protein] + H+ *\ - \* r862, a holo-[acyl-carrier protein] + H2O -> 4'-phosphopantetheine + an acyl-carrier protein + H+ *\ - - -1.0 r1047 + r862 = 0 - -c81: \* DEOXYGUANOSINE[CCO-EXTRACELLULAR] *\ - \* r40, a nucleoside[extracellular space] -> a nucleoside[periplasmic space] *\ - - -1.0 r40 = 0 - -c636: \* N-METHYLTRYPTOPHAN[CCO-PERI-BAC] *\ - \* r357, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - - + r357 = 0 - -c1952: \* 2-ALPHA-HYDROXYETHYL-THPP[CCO-CYTOSOL] *\ - \* r2122b, a [pyruvate dehydrogenase E2 protein] N6-S-acetyldihydrolipoyl-L-lysine + thiamin diphosphate -> 2-(alpha-hydroxyethyl)thiamine diphosphate + a [pyruvate dehydrogenase E2 protein] N6-lipoyl-L-lysine *\ - \* r2122a, 2-(alpha-hydroxyethyl)thiamine diphosphate + a [pyruvate dehydrogenase E2 protein] N6-lipoyl-L-lysine -> a [pyruvate dehydrogenase E2 protein] N6-S-acetyldihydrolipoyl-L-lysine + thiamin diphosphate *\ - \* r1750b, 2-(alpha-hydroxyethyl)thiamine diphosphate + CO2 -> pyruvate + thiamin diphosphate + H+ *\ - \* r1750a, pyruvate + thiamin diphosphate + H+ -> 2-(alpha-hydroxyethyl)thiamine diphosphate + CO2 *\ - - + r2122b -1.0 r2122a -1.0 r1750b + r1750a = 0 - -c1136: \* Hex-2-enoyl-ACPs[CCO-CYTOSOL] *\ - \* r1165, a trans hex-2-enoyl-[acp] + NADH + H+ -> a hexanoyl-[acyl-carrier-protein] + NAD+ *\ - \* r1016, a trans-2-enoyl-[acyl-carrier protein] + NADH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NAD+ *\ - \* r933, a (3R)-3-hydroxyhexanoyl-[acp] -> a trans hex-2-enoyl-[acp] + H2O *\ - \* r866, a trans-2-enoyl-[acyl-carrier protein] + NADPH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NADP+ *\ - \* r796, a (3R)-3-hydroxyacyl-[acyl-carrier protein] -> a trans-2-enoyl-[acyl-carrier protein] + H2O *\ - - -1.0 r1165 -1.0 r1016 + r933 -1.0 r866 + r796 = 0 - -c1607: \* CPD-1091[CCO-CYTOSOL] *\ - \* r1517, S-ureidoglycolate -> urea + glyoxylate *\ - \* r2322, S-ureidoglycine + H2O -> S-ureidoglycolate + ammonium *\ - - -1.0 r1517 + r2322 = 0 - -c1689: \* CPD-10284[CCO-CYTOSOL] *\ - \* r1966, a 3-oxoacyl-CoA + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + acetyl-CoA *\ - \* r1381, a (3S)-3-hydroxyacyl-CoA + NAD+ -> a 3-oxoacyl-CoA + NADH + H+ *\ - - -1.0 r1966 + r1381 = 0 - -c117: \* ADENOSINE[CCO-EXTRACELLULAR] *\ - \* r58, a nucleoside[extracellular space] -> a nucleoside[periplasmic space] *\ - - -1.0 r58 = 0 - -c495: \* CPD0-2239[CCO-EXTRACELLULAR] *\ - \* r263, a lipopolysaccharide[cytosol] -> a lipopolysaccharide[extracellular space] *\ - - + r263 = 0 - -c38: \* PALMITATE[CCO-PERI-BAC] *\ - \* r20, a long-chain fatty acid[extracellular space] -> a long-chain fatty acid[periplasmic space] *\ - \* r362, a long-chain fatty acid[periplasmic space] -> a long-chain fatty acid[cytosol] *\ - - + r20 -1.0 r362 = 0 - -c1870: \* NAcMur-Peptide-NAcGlc-Undecaprenols[CCI-PERI-BAC-GN] *\ - \* r1616b, a lipid II + GlcNAc-1,6-anhydro-MurNAc-pentapeptide -> a peptidoglycan dimer (generic) *\ - \* r1616a, a peptidoglycan dimer (generic) -> a lipid II + GlcNAc-1,6-anhydro-MurNAc-pentapeptide *\ - - -1.0 r1616b + r1616a = 0 - -c477: \* CPD0-2238[CCO-EXTRACELLULAR] *\ - \* r245, a lipopolysaccharide[cytosol] -> a lipopolysaccharide[extracellular space] *\ - - + r245 = 0 - -c1437: \* UROPORPHYRINOGEN-III[CCO-CYTOSOL] *\ - \* r2209, hydroxymethylbilane -> uroporphyrinogen-III + H2O *\ - \* r1745, S-adenosyl-L-methionine + uroporphyrinogen-III -> S-adenosyl-L-homocysteine + precorrin-1 + H+ *\ - \* r1092, uroporphyrinogen-III + 4 H+ -> 4 CO2 + coproporphyrinogen III *\ - - + r2209 -1.0 r1745 -1.0 r1092 = 0 - -c1612: \* CPD-12849[CCO-CYTOSOL] *\ - \* r1299a, (1E)-4-oxobut-1-ene-1,2,4-tricarboxylate -> (1E,3E)-4-hydroxybuta-1,3-diene-1,2,4-tricarboxylate *\ - \* r1299b, (1E,3E)-4-hydroxybuta-1,3-diene-1,2,4-tricarboxylate -> (1E)-4-oxobut-1-ene-1,2,4-tricarboxylate *\ - - + r1299a -1.0 r1299b = 0 - -c230: \* CPD0-935[CCO-PERI-BAC] *\ - \* r116, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - - + r116 = 0 - -c709: \* ACET[CCO-CYTOSOL] *\ - \* r2410, citrate -> acetate + oxaloacetate *\ - \* r2202, acetaldehyde + NADP+ + H2O -> acetate + NADPH + 2 H+ *\ - \* r2154b, acetyl phosphate + ADP -> acetate + ATP *\ - \* r2154a, acetate + ATP -> acetyl phosphate + ADP *\ - \* r2067b, a 2,3,4-saturated fatty acid + acetyl-CoA -> a 2,3,4-saturated fatty acyl CoA + acetate *\ - \* r2067a, a 2,3,4-saturated fatty acyl CoA + acetate -> a 2,3,4-saturated fatty acid + acetyl-CoA *\ - \* r2066b, a 2,3,4-saturated fatty acid + acetyl-CoA -> a 2,3,4-saturated fatty acyl CoA + acetate *\ - \* r2066a, a 2,3,4-saturated fatty acyl CoA + acetate -> a 2,3,4-saturated fatty acid + acetyl-CoA *\ - \* r2065b, a 2,3,4-saturated fatty acid + acetyl-CoA -> a 2,3,4-saturated fatty acyl CoA + acetate *\ - \* r2065a, a 2,3,4-saturated fatty acyl CoA + acetate -> a 2,3,4-saturated fatty acid + acetyl-CoA *\ - \* r2064b, a 2,3,4-saturated fatty acid + acetyl-CoA -> a 2,3,4-saturated fatty acyl CoA + acetate *\ - \* r2064a, a 2,3,4-saturated fatty acyl CoA + acetate -> a 2,3,4-saturated fatty acid + acetyl-CoA *\ - \* r2063b, a 2,3,4-saturated fatty acid + acetyl-CoA -> a 2,3,4-saturated fatty acyl CoA + acetate *\ - \* r2063a, a 2,3,4-saturated fatty acyl CoA + acetate -> a 2,3,4-saturated fatty acid + acetyl-CoA *\ - \* r2062b, a 2,3,4-saturated fatty acid + acetyl-CoA -> a 2,3,4-saturated fatty acyl CoA + acetate *\ - \* r2062a, a 2,3,4-saturated fatty acyl CoA + acetate -> a 2,3,4-saturated fatty acid + acetyl-CoA *\ - \* r2061b, a 2,3,4-saturated fatty acid + acetyl-CoA -> a 2,3,4-saturated fatty acyl CoA + acetate *\ - \* r2061a, a 2,3,4-saturated fatty acyl CoA + acetate -> a 2,3,4-saturated fatty acid + acetyl-CoA *\ - \* r2060b, a 2,3,4-saturated fatty acid + acetyl-CoA -> a 2,3,4-saturated fatty acyl CoA + acetate *\ - \* r2060a, a 2,3,4-saturated fatty acyl CoA + acetate -> a 2,3,4-saturated fatty acid + acetyl-CoA *\ - \* r1893, an acetyl-[holo citrate lyase acyl-carrier protein] + H2O -> [a holo citrate lyase acyl-carrier protein] + acetate + H+ *\ - \* r1693, an aldehyde + NADP+ + H2O -> a carboxylate + NADPH + 2 H+ *\ - \* r1689, pyruvate + an ubiquinone[inner membrane] + H2O -> CO2 + acetate + an ubiquinol[inner membrane] *\ - \* r1666b, acetoacetyl-CoA + acetate -> acetoacetate + acetyl-CoA *\ - \* r1666a, acetoacetate + acetyl-CoA -> acetoacetyl-CoA + acetate *\ - \* r1604, UDP-3-O-[(3R)-3-hydroxymyristoyl]-N-acetyl-alpha-D-glucosamine + H2O -> UDP-3-O-(3-hydroxymyristoyl)-alpha-D-glucosamine + acetate *\ - \* r1463, N-acetyl-L-ornithine + H2O -> L-ornithine + acetate *\ - \* r1372, N-acetyl-D-glucosamine 6-phosphate + H2O -> D-glucosamine 6-phosphate + acetate *\ - \* r1171b, L-cysteine + acetate + H+ -> O-acetyl-L-serine + hydrogen sulfide *\ - \* r1171a, O-acetyl-L-serine + hydrogen sulfide -> L-cysteine + acetate + H+ *\ - \* r1077, citrate + an acetyl-[holo citrate lyase acyl-carrier protein] + H+ -> a citryl-[holo citrate lyase acyl-carrier protein] + acetate *\ - \* r1038b, oxalyl-CoA + acetate -> acetyl-CoA + oxalate *\ - \* r1038a, acetyl-CoA + oxalate -> oxalyl-CoA + acetate *\ - \* r993, acetate + ATP + coenzyme A -> acetyl-CoA + AMP + diphosphate *\ - \* r899, [a holo citrate lyase acyl-carrier protein] + acetate + ATP -> an acetyl-[holo citrate lyase acyl-carrier protein] + AMP + diphosphate *\ - \* r655b, partially N-deacetylated poly-beta-1,6-N-acetyl-D-glucosamine + acetate + H+ -> poly-beta-1,6-N-acetyl-D-glucosamine + H2O *\ - \* r655a, poly-beta-1,6-N-acetyl-D-glucosamine + H2O -> partially N-deacetylated poly-beta-1,6-N-acetyl-D-glucosamine + acetate + H+ *\ - \* r653b, acetate[periplasmic space] -> acetate[cytosol] *\ - \* r653a, acetate[cytosol] -> acetate[periplasmic space] *\ - \* r542, acetate[periplasmic space] + H+[periplasmic space] -> acetate[cytosol] + H+[cytosol] *\ - \* r419, acetate[periplasmic space] -> acetate[cytosol] *\ - - + r2410 + r2202 + r2154b -1.0 r2154a + r2067b -1.0 r2067a + r2066b -1.0 r2066a + r2065b -1.0 r2065a + r2064b -1.0 r2064a + r2063b -1.0 r2063a + r2062b -1.0 r2062a + r2061b -1.0 r2061a + r2060b - -1.0 r2060a + r1893 + r1693 + r1689 -1.0 r1666b + r1666a + r1604 + r1463 + r1372 -1.0 r1171b + r1171a + r1077 -1.0 r1038b + r1038a -1.0 r993 -1.0 r899 -1.0 r655b + r655a + r653b -1.0 r653a - + r542 + r419 = 0 - -c22: \* NI+2[CCO-CYTOSOL] *\ - \* objReactionName, Ni2+ *\ - \* r379, Ni2+[cytosol] -> Ni2+[periplasmic space] *\ - \* r155, Ni2+[periplasmic space] + ATP + H2O -> Ni2+[cytosol] + ADP + phosphate + H+ *\ - \* r12, Ni2+[periplasmic space] -> Ni2+[cytosol] *\ - - -0.000307 objReactionName -1.0 r379 + r155 + r12 = 0 - -c1623: \* Charged-SER-tRNAs[CCO-CYTOSOL] *\ - \* objReactionName, an L-seryl-[tRNAser] *\ - \* r1307, a tRNAser + L-serine + ATP + H+ -> an L-seryl-[tRNAser] + AMP + diphosphate *\ - - -0.209684 objReactionName + r1307 = 0 - -c1901: \* CPD0-2365[CCO-CYTOSOL] *\ - \* r2155, 3-oxo-5,6-didehydrosuberyl-CoA + coenzyme A -> 2,3-didehydroadipyl-CoA + acetyl-CoA *\ - \* r1668b, 2,3-didehydroadipyl-CoA + H2O -> 3-hydroxyadipyl-CoA *\ - \* r1668a, 3-hydroxyadipyl-CoA -> 2,3-didehydroadipyl-CoA + H2O *\ - - + r2155 -1.0 r1668b + r1668a = 0 - -c827: \* CPD-12521[CCO-PERI-BAC] *\ - \* r577, D-glucuronate[periplasmic space] + H+[periplasmic space] -> D-glucuronate[cytosol] + H+[cytosol] *\ - - -1.0 r577 = 0 - -c2097: \* 3-OCTAPRENYL-4-HYDROXYBENZOATE[CCO-CYTOSOL] *\ - \* r2232, 3-octaprenyl-4-hydroxybenzoate + H+ -> 2-octaprenylphenol + CO2 *\ - \* r2057, all-trans-octaprenyl diphosphate + 4-hydroxybenzoate -> 3-octaprenyl-4-hydroxybenzoate + diphosphate *\ - - -1.0 r2232 + r2057 = 0 - -c813: \* URIDINE[CCO-CYTOSOL] *\ - \* r539, uridine[periplasmic space] + H+[periplasmic space] -> uridine[cytosol] + H+[cytosol] *\ - \* r614, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r926, uridine + H2O -> D-ribofuranose + uracil *\ - \* r987, a ribonucleoside 5'-monophosphate + H2O -> a ribonucleoside + phosphate *\ - \* r1238a, uridine + phosphate -> alpha-D-ribose-1-phosphate + uracil *\ - \* r1238b, alpha-D-ribose-1-phosphate + uracil -> uridine + phosphate *\ - \* r1608, uridine + GTP -> UMP + GDP + H+ *\ - \* r1898, cytidine + H+ + H2O -> uridine + ammonium *\ - \* r2115, uridine + ATP -> UMP + ADP + H+ *\ - \* r2336, UMP + H2O -> uridine + phosphate *\ - - + r539 + r614 -1.0 r926 + r987 -1.0 r1238a + r1238b -1.0 r1608 + r1898 -1.0 r2115 + r2336 = 0 - -c1359: \* CPD0-2363[CCO-CYTOSOL] *\ - \* r2414b, 3-oxo-5,6-didehydrosuberyl-CoA + NADPH + 2 H+ -> 2-oxepin-2(3H)-ylideneacetyl-CoA + NADP+ + 2 H2O *\ - \* r2414a, 2-oxepin-2(3H)-ylideneacetyl-CoA + NADP+ + 2 H2O -> 3-oxo-5,6-didehydrosuberyl-CoA + NADPH + 2 H+ *\ - \* r2093, 2-oxepin-2(3H)-ylideneacetyl-CoA + H2O -> 3-oxo-5,6-didehydrosuberyl-CoA semialdehyde *\ - \* r996b, 2-oxepin-2(3H)-ylideneacetyl-CoA -> 2-(1,2-epoxy-1,2-dihydrophenyl)acetyl-CoA *\ - \* r996a, 2-(1,2-epoxy-1,2-dihydrophenyl)acetyl-CoA -> 2-oxepin-2(3H)-ylideneacetyl-CoA *\ - - + r2414b -1.0 r2414a -1.0 r2093 -1.0 r996b + r996a = 0 - -c1270: \* TAGATOSE-1-6-DIPHOSPHATE[CCO-CYTOSOL] *\ - \* r1499b, glycerone phosphate + D-glyceraldehyde 3-phosphate -> D-tagatofuranose 1,6-bisphosphate *\ - \* r1499a, D-tagatofuranose 1,6-bisphosphate -> glycerone phosphate + D-glyceraldehyde 3-phosphate *\ - \* r903, D-tagatofuranose 6-phosphate + ATP -> D-tagatofuranose 1,6-bisphosphate + ADP + H+ *\ - - + r1499b -1.0 r1499a + r903 = 0 - -c1358: \* CPD0-2362[CCO-CYTOSOL] *\ - \* r1058, phenylacetyl-CoA + NADPH + oxygen + H+ -> 2-(1,2-epoxy-1,2-dihydrophenyl)acetyl-CoA + NADP+ + H2O *\ - \* r996b, 2-oxepin-2(3H)-ylideneacetyl-CoA -> 2-(1,2-epoxy-1,2-dihydrophenyl)acetyl-CoA *\ - \* r996a, 2-(1,2-epoxy-1,2-dihydrophenyl)acetyl-CoA -> 2-oxepin-2(3H)-ylideneacetyl-CoA *\ - - + r1058 + r996b -1.0 r996a = 0 - -c1842: \* CPD0-2364[CCO-CYTOSOL] *\ - \* r2414b, 3-oxo-5,6-didehydrosuberyl-CoA + NADPH + 2 H+ -> 2-oxepin-2(3H)-ylideneacetyl-CoA + NADP+ + 2 H2O *\ - \* r2414a, 2-oxepin-2(3H)-ylideneacetyl-CoA + NADP+ + 2 H2O -> 3-oxo-5,6-didehydrosuberyl-CoA + NADPH + 2 H+ *\ - \* r2155, 3-oxo-5,6-didehydrosuberyl-CoA + coenzyme A -> 2,3-didehydroadipyl-CoA + acetyl-CoA *\ - \* r1585, 3-oxo-5,6-didehydrosuberyl-CoA semialdehyde + NADP+ + H2O -> 3-oxo-5,6-didehydrosuberyl-CoA + NADPH + 2 H+ *\ - - -1.0 r2414b + r2414a -1.0 r2155 + r1585 = 0 - -c268: \* PROTON[CCO-PERI-BAC] *\ - \* r2472_e, H+ *\ - \* r2235, 2 ditrans,octacis-undecaprenyldiphospho-N-acetyl-(N-acetylglucosaminyl)muramoyl-L-alanyl-gamma-D-glutamyl-meso-2,6-diaminopimeloyl-D-alanyl-D-alanine[periplasmic space] -> a peptidoglycan dimer (meso-diaminopimelate containing)[periplasmic space] + di-trans,octa-cis-undecaprenyl diphosphate[periplasmic space] + H+[periplasmic space] *\ - \* r2195, 2 Cu+[periplasmic space] + 2 H+[periplasmic space] + oxygen[periplasmic space] -> 2 Cu2+[periplasmic space] + 2 H2O[periplasmic space] *\ - \* r2014, 2 superoxide + 2 H+ -> hydrogen peroxide + oxygen *\ - \* r1797b, an osmoregulated periplasmic glucan with phosphoglycerol substituent[periplasmic space] + a 1,2-diacyl-sn-glycerol[periplasmic space] + H+[periplasmic space] -> an osmoregulated periplasmic glucan[periplasmic space] + an L-1-phosphatidyl-glycerol[periplasmic space] *\ - \* r1797a, an osmoregulated periplasmic glucan[periplasmic space] + an L-1-phosphatidyl-glycerol[periplasmic space] -> an osmoregulated periplasmic glucan with phosphoglycerol substituent[periplasmic space] + a 1,2-diacyl-sn-glycerol[periplasmic space] + H+[periplasmic space] *\ - \* r1713, 4 Fe2+ + 4 H+ + oxygen -> 4 Fe3+ + 2 H2O *\ - \* r1682, NADH + a menaquinone[inner membrane] + 5 H+ -> NAD+ + a menaquinol[inner membrane] + 4 H+[periplasmic space] *\ - \* r1680, 2 an ubiquinol[inner membrane] + oxygen + 4 H+ -> 2 an ubiquinone[inner membrane] + 2 H2O + 4 H+[periplasmic space] *\ - \* r1667, 2 an ubiquinol[inner membrane] + oxygen + 8 H+ -> 2 an ubiquinone[inner membrane] + 2 H2O + 8 H+[periplasmic space] *\ - \* r1647b, an aldonate[periplasmic space] + an unknown reduced electron acceptor[periplasmic space] + H+[periplasmic space] -> an aldose[periplasmic space] + an unknown oxidized electron acceptor[periplasmic space] + H2O[periplasmic space] *\ - \* r1647a, an aldose[periplasmic space] + an unknown oxidized electron acceptor[periplasmic space] + H2O[periplasmic space] -> an aldonate[periplasmic space] + an unknown reduced electron acceptor[periplasmic space] + H+[periplasmic space] *\ - \* r1646b, NAD+ + an ubiquinol[inner membrane] + 4 H+[periplasmic space] -> NADH + an ubiquinone[inner membrane] + 5 H+ *\ - \* r1646a, NADH + an ubiquinone[inner membrane] + 5 H+ -> NAD+ + an ubiquinol[inner membrane] + 4 H+[periplasmic space] *\ - \* r1641, formate[periplasmic space] + a menaquinone[inner membrane] + 2 H+ -> CO2[periplasmic space] + a menaquinol[inner membrane] + H+[periplasmic space] *\ - \* r1552, a 1-acyl 2-lyso-phosphatidylcholine + H2O -> a carboxylate + sn-glycero-3-phosphocholine + H+ *\ - \* r656, diphosphate + H2O -> 2 phosphate + H+ *\ - \* r639, 2 Na+[cytosol] + 3 H+[periplasmic space] -> 2 Na+[periplasmic space] + 3 H+[cytosol] *\ - \* r637, L-lysine[periplasmic space] + H+[periplasmic space] -> L-lysine[cytosol] + H+[cytosol] *\ - \* r633, chenodeoxycholate[cytosol] + H+[periplasmic space] -> chenodeoxycholate[periplasmic space] + H+[cytosol] *\ - \* r630, succinate[periplasmic space] + 2 H+[periplasmic space] -> succinate[cytosol] + 2 H+[cytosol] *\ - \* r628, L-proline[periplasmic space] + H+[periplasmic space] -> L-proline[cytosol] + H+[cytosol] *\ - \* r627, glycine[periplasmic space] + H+[periplasmic space] -> glycine[cytosol] + H+[cytosol] *\ - \* r626, L-threonine[cytosol] + H+[periplasmic space] -> L-threonine[periplasmic space] + H+[cytosol] *\ - \* r625, arsenite[cytosol] + H+[periplasmic space] -> arsenite[periplasmic space] + H+[cytosol] *\ - \* r624, (R)-lactate[periplasmic space] + H+[periplasmic space] -> (R)-lactate[cytosol] + H+[cytosol] *\ - \* r622, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r621, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r620, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r619, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r618, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r617, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r616, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r615, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r614, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r613, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r612, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r611, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r610, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r609, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r608, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r607, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r606, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r605, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r604, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r603, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r602, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r601, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r600, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r599, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r598, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r595, L-fucose[periplasmic space] + H+[periplasmic space] -> L-fucose[cytosol] + H+[cytosol] *\ - \* r594, L-fucose[periplasmic space] + H+[periplasmic space] -> L-fucose[cytosol] + H+[cytosol] *\ - \* r593, L-fucose[periplasmic space] + H+[periplasmic space] -> L-fucose[cytosol] + H+[cytosol] *\ - \* r592, D-xylose[periplasmic space] + H+[periplasmic space] -> D-xylose[cytosol] + H+[cytosol] *\ - \* r591, D-xylose[periplasmic space] + H+[periplasmic space] -> D-xylose[cytosol] + H+[cytosol] *\ - \* r590, D-xylose[periplasmic space] + H+[periplasmic space] -> D-xylose[cytosol] + H+[cytosol] *\ - \* r589, L-serine[periplasmic space] + H+[periplasmic space] -> L-serine[cytosol] + H+[cytosol] *\ - \* r587, a tripeptide[periplasmic space] + H+[periplasmic space] -> a tripeptide[cytosol] + H+[cytosol] *\ - \* r584, Fe2+[cytosol] + H+[periplasmic space] -> Fe2+[periplasmic space] + H+[cytosol] *\ - \* r583, 2'-deoxyadenosine[periplasmic space] + H+[periplasmic space] -> 2'-deoxyadenosine[cytosol] + H+[cytosol] *\ - \* r582, D-galacturonate[periplasmic space] + H+[periplasmic space] -> D-galacturonate[cytosol] + H+[cytosol] *\ - \* r581, D-galacturonate[periplasmic space] + H+[periplasmic space] -> D-galacturonate[cytosol] + H+[cytosol] *\ - \* r578, D-glucuronate[periplasmic space] + H+[periplasmic space] -> D-glucuronate[cytosol] + H+[cytosol] *\ - \* r577, D-glucuronate[periplasmic space] + H+[periplasmic space] -> D-glucuronate[cytosol] + H+[cytosol] *\ - \* r576, D-glucuronate[periplasmic space] + H+[periplasmic space] -> D-glucuronate[cytosol] + H+[cytosol] *\ - \* r575, L-tyrosine[periplasmic space] + H+[periplasmic space] -> L-tyrosine[cytosol] + H+[cytosol] *\ - \* r574, cadaverine[periplasmic space] + H+[periplasmic space] -> cadaverine[cytosol] + H+[cytosol] *\ - \* r573, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r572, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r571, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r570, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r569, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r568, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r567, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r566, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r565, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r564, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r563, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r562, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r561, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r560, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r559, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r558, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r557, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r556, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r555, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r554, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r552, choline[cytosol] + 2 H+[periplasmic space] -> choline[periplasmic space] + 2 H+[cytosol] *\ - \* r549, 2'-deoxyuridine[periplasmic space] + H+[periplasmic space] -> 2'-deoxyuridine[cytosol] + H+[cytosol] *\ - \* r546, K+[cytosol] + H+[periplasmic space] -> K+[periplasmic space] + H+[cytosol] *\ - \* r542, acetate[periplasmic space] + H+[periplasmic space] -> acetate[cytosol] + H+[cytosol] *\ - \* r541, guanosine[cytosol] + H+[periplasmic space] -> guanosine[periplasmic space] + H+[cytosol] *\ - \* r540, Na+[cytosol] + H+[periplasmic space] -> Na+[periplasmic space] + H+[cytosol] *\ - \* r539, uridine[periplasmic space] + H+[periplasmic space] -> uridine[cytosol] + H+[cytosol] *\ - \* r538, Na+[cytosol] + 2 H+[periplasmic space] -> Na+[periplasmic space] + 2 H+[cytosol] *\ - \* r537, nitrite[cytosol] + H+[periplasmic space] -> nitrite[periplasmic space] + H+[cytosol] *\ - \* r536, 4-aminobutanoate[periplasmic space] + H+[periplasmic space] -> 4-aminobutanoate[cytosol] + H+[cytosol] *\ - \* r532, deoxycholate[cytosol] + H+[periplasmic space] -> deoxycholate[periplasmic space] + H+[cytosol] *\ - \* r530, phosphate[periplasmic space] + H+[periplasmic space] -> phosphate[cytosol] + H+[cytosol] *\ - \* r528, indole[periplasmic space] + H+[periplasmic space] -> indole[cytosol] + H+[cytosol] *\ - \* r526, D-alanine[periplasmic space] + H+[periplasmic space] -> D-alanine[cytosol] + H+[cytosol] *\ - \* r525, choline[periplasmic space] + H+[periplasmic space] -> choline[cytosol] + H+[cytosol] *\ - \* r521, a C4-dicarboxylate[periplasmic space] + 3 H+[periplasmic space] -> a C4-dicarboxylate[cytosol] + 3 H+[cytosol] *\ - \* r520, a C4-dicarboxylate[periplasmic space] + 3 H+[periplasmic space] -> a C4-dicarboxylate[cytosol] + 3 H+[cytosol] *\ - \* r519, a C4-dicarboxylate[periplasmic space] + 3 H+[periplasmic space] -> a C4-dicarboxylate[cytosol] + 3 H+[cytosol] *\ - \* r518, a C4-dicarboxylate[periplasmic space] + 3 H+[periplasmic space] -> a C4-dicarboxylate[cytosol] + 3 H+[cytosol] *\ - \* r517, a C4-dicarboxylate[periplasmic space] + 3 H+[periplasmic space] -> a C4-dicarboxylate[cytosol] + 3 H+[cytosol] *\ - \* r516, a C4-dicarboxylate[periplasmic space] + 3 H+[periplasmic space] -> a C4-dicarboxylate[cytosol] + 3 H+[cytosol] *\ - \* r515, a C4-dicarboxylate[periplasmic space] + 3 H+[periplasmic space] -> a C4-dicarboxylate[cytosol] + 3 H+[cytosol] *\ - \* r514, fumarate[periplasmic space] + 2 H+[periplasmic space] -> fumarate[cytosol] + 2 H+[cytosol] *\ - \* r513, K+[periplasmic space] + H+[periplasmic space] -> K+[cytosol] + H+[cytosol] *\ - \* r512, putrescine[periplasmic space] + H+[periplasmic space] -> putrescine[cytosol] + H+[cytosol] *\ - \* r511, Zn2+[cytosol] + H+[periplasmic space] -> Zn2+[periplasmic space] + H+[cytosol] *\ - \* r510, spermidine[cytosol] + H+[periplasmic space] -> spermidine[periplasmic space] + H+[cytosol] *\ - \* r508, xanthine[periplasmic space] + H+[periplasmic space] -> xanthine[cytosol] + H+[cytosol] *\ - \* r506, cytidine[periplasmic space] + H+[periplasmic space] -> cytidine[cytosol] + H+[cytosol] *\ - \* r505, L-aspartate[periplasmic space] + 2 H+[periplasmic space] -> L-aspartate[cytosol] + 2 H+[cytosol] *\ - \* r502, L-tryptophan[periplasmic space] + H+[periplasmic space] -> L-tryptophan[cytosol] + H+[cytosol] *\ - \* r499, glycine betaine[cytosol] + 2 H+[periplasmic space] -> glycine betaine[periplasmic space] + 2 H+[cytosol] *\ - \* r497, D-glucopyranose[periplasmic space] + H+[periplasmic space] -> D-glucopyranose[cytosol] + H+[cytosol] *\ - \* r496, D-glucopyranose[periplasmic space] + H+[periplasmic space] -> D-glucopyranose[cytosol] + H+[cytosol] *\ - \* r494, 2'-deoxyinosine[periplasmic space] + H+[periplasmic space] -> 2'-deoxyinosine[cytosol] + H+[cytosol] *\ - \* r492, Mn2+[periplasmic space] + H+[periplasmic space] -> Mn2+[cytosol] + H+[cytosol] *\ - \* r490, alpha-lactose[cytosol] + H+[periplasmic space] -> alpha-lactose[periplasmic space] + H+[cytosol] *\ - \* r488, (R)-malate[periplasmic space] + 2 H+[periplasmic space] -> (R)-malate[cytosol] + 2 H+[cytosol] *\ - \* r484, thymidine[periplasmic space] + H+[periplasmic space] -> thymidine[cytosol] + H+[cytosol] *\ - \* r481, N-acetylneuraminate[periplasmic space] + H+[periplasmic space] -> N-acetylneuraminate[cytosol] + H+[cytosol] *\ - \* r480, N-acetylneuraminate[periplasmic space] + H+[periplasmic space] -> N-acetylneuraminate[cytosol] + H+[cytosol] *\ - \* r478, L-phenylalanine[periplasmic space] + H+[periplasmic space] -> L-phenylalanine[cytosol] + H+[cytosol] *\ - \* r475, cholate[cytosol] + H+[periplasmic space] -> cholate[periplasmic space] + H+[cytosol] *\ - \* r474b, 2 chloride[cytosol] + H+[periplasmic space] -> 2 chloride[periplasmic space] + H+[cytosol] *\ - \* r474a, 2 chloride[periplasmic space] + H+[cytosol] -> 2 chloride[cytosol] + H+[periplasmic space] *\ - \* r470, uracil[periplasmic space] + H+[periplasmic space] -> uracil[cytosol] + H+[cytosol] *\ - \* r469, L-asparagine[periplasmic space] + H+[periplasmic space] -> L-asparagine[cytosol] + H+[cytosol] *\ - \* r466, Cd2+[cytosol] + H+[periplasmic space] -> Cd2+[periplasmic space] + H+[cytosol] *\ - \* r462, (S)-malate[periplasmic space] + 2 H+[periplasmic space] -> (S)-malate[cytosol] + 2 H+[cytosol] *\ - \* r461, L-glutamate[periplasmic space] + 2 H+[periplasmic space] -> L-glutamate[cytosol] + 2 H+[cytosol] *\ - \* r460, glycine betaine[periplasmic space] + H+[periplasmic space] -> glycine betaine[cytosol] + H+[cytosol] *\ - \* r448, a C4-dicarboxylate[periplasmic space] + 2 H+[periplasmic space] -> a C4-dicarboxylate[cytosol] + 2 H+[cytosol] *\ - \* r447, a C4-dicarboxylate[periplasmic space] + 2 H+[periplasmic space] -> a C4-dicarboxylate[cytosol] + 2 H+[cytosol] *\ - \* r446, a C4-dicarboxylate[periplasmic space] + 2 H+[periplasmic space] -> a C4-dicarboxylate[cytosol] + 2 H+[cytosol] *\ - \* r445, a C4-dicarboxylate[periplasmic space] + 2 H+[periplasmic space] -> a C4-dicarboxylate[cytosol] + 2 H+[cytosol] *\ - \* r444, a C4-dicarboxylate[periplasmic space] + 2 H+[periplasmic space] -> a C4-dicarboxylate[cytosol] + 2 H+[cytosol] *\ - \* r443, a C4-dicarboxylate[periplasmic space] + 2 H+[periplasmic space] -> a C4-dicarboxylate[cytosol] + 2 H+[cytosol] *\ - \* r442, a C4-dicarboxylate[periplasmic space] + 2 H+[periplasmic space] -> a C4-dicarboxylate[cytosol] + 2 H+[cytosol] *\ - \* r441, N-acetyl-beta-neuraminate[periplasmic space] + H+[periplasmic space] -> N-acetyl-beta-neuraminate[cytosol] + H+[cytosol] *\ - \* r440, L-alanine[periplasmic space] + H+[periplasmic space] -> L-alanine[cytosol] + H+[cytosol] *\ - \* r439, adenosine[periplasmic space] + H+[periplasmic space] -> adenosine[cytosol] + H+[cytosol] *\ - \* r436, xanthosine[periplasmic space] + H+[periplasmic space] -> xanthosine[cytosol] + H+[cytosol] *\ - \* r435, L-threonine[periplasmic space] + H+[periplasmic space] -> L-threonine[cytosol] + H+[cytosol] *\ - \* r433, L-leucine[cytosol] + H+[periplasmic space] -> L-leucine[periplasmic space] + H+[cytosol] *\ - \* r431, inosine[cytosol] + H+[periplasmic space] -> inosine[periplasmic space] + H+[cytosol] *\ - \* r430, L-methionine[cytosol] + H+[periplasmic space] -> L-methionine[periplasmic space] + H+[cytosol] *\ - \* r429, 2'-deoxycytidine[periplasmic space] + H+[periplasmic space] -> 2'-deoxycytidine[cytosol] + H+[cytosol] *\ - \* r427, alpha-lactose[periplasmic space] + H+[periplasmic space] -> alpha-lactose[cytosol] + H+[cytosol] *\ - \* r426, L-arabinose[cytosol] + H+[periplasmic space] -> L-arabinose[periplasmic space] + H+[cytosol] *\ - \* r425, L-arabinose[cytosol] + H+[periplasmic space] -> L-arabinose[periplasmic space] + H+[cytosol] *\ - \* r424, L-arabinose[cytosol] + H+[periplasmic space] -> L-arabinose[periplasmic space] + H+[cytosol] *\ - \* r423, D-fructuronate[periplasmic space] + H+[periplasmic space] -> D-fructuronate[cytosol] + H+[cytosol] *\ - \* r418, L-arabinose[periplasmic space] + H+[periplasmic space] -> L-arabinose[cytosol] + H+[cytosol] *\ - \* r417, L-arabinose[periplasmic space] + H+[periplasmic space] -> L-arabinose[cytosol] + H+[cytosol] *\ - \* r416, L-arabinose[periplasmic space] + H+[periplasmic space] -> L-arabinose[cytosol] + H+[cytosol] *\ - \* r415, inosine[periplasmic space] + H+[periplasmic space] -> inosine[cytosol] + H+[cytosol] *\ - \* r410, Fe2+[periplasmic space] + H+[periplasmic space] -> Fe2+[cytosol] + H+[cytosol] *\ - \* r409, (S)-lactate[periplasmic space] + H+[periplasmic space] -> (S)-lactate[cytosol] + H+[cytosol] *\ - \* r408, L-rhamnose[periplasmic space] + H+[periplasmic space] -> L-rhamnose[cytosol] + H+[cytosol] *\ - \* r407, L-rhamnose[periplasmic space] + H+[periplasmic space] -> L-rhamnose[cytosol] + H+[cytosol] *\ - \* r146, NADH + NADP+ + H+[periplasmic space] -> NADPH + NAD+ + H+[cytosol] *\ - \* r137b, ADP + phosphate + 4 H+[out] -> ATP + 3 H+[in] + H2O *\ - \* r137a, ATP + 3 H+[in] + H2O -> ADP + phosphate + 4 H+[out] *\ - - -1.0 r2472_e + r2235 -2.0 r2195 -2.0 r2014 -1.0 r1797b + r1797a -4.0 r1713 +4.0 r1682 +4.0 r1680 +8.0 r1667 -1.0 r1647b + r1647a -4.0 r1646b +4.0 r1646a + r1641 + r1552 + r656 -3.0 r639 -1.0 r637 - -1.0 r633 -2.0 r630 -1.0 r628 -1.0 r627 -1.0 r626 -1.0 r625 -1.0 r624 -1.0 r622 -1.0 r621 -1.0 r620 -1.0 r619 -1.0 r618 -1.0 r617 -1.0 r616 -1.0 r615 -1.0 r614 -1.0 r613 -1.0 r612 -1.0 r611 -1.0 r610 - -1.0 r609 -1.0 r608 -1.0 r607 -1.0 r606 -1.0 r605 -1.0 r604 -1.0 r603 -1.0 r602 -1.0 r601 -1.0 r600 -1.0 r599 -1.0 r598 -1.0 r595 -1.0 r594 -1.0 r593 -1.0 r592 -1.0 r591 -1.0 r590 -1.0 r589 -1.0 r587 - -1.0 r584 -1.0 r583 -1.0 r582 -1.0 r581 -1.0 r578 -1.0 r577 -1.0 r576 -1.0 r575 -1.0 r574 -1.0 r573 -1.0 r572 -1.0 r571 -1.0 r570 -1.0 r569 -1.0 r568 -1.0 r567 -1.0 r566 -1.0 r565 -1.0 r564 -1.0 r563 - -1.0 r562 -1.0 r561 -1.0 r560 -1.0 r559 -1.0 r558 -1.0 r557 -1.0 r556 -1.0 r555 -1.0 r554 -2.0 r552 -1.0 r549 -1.0 r546 -1.0 r542 -1.0 r541 -1.0 r540 -1.0 r539 -2.0 r538 -1.0 r537 -1.0 r536 -1.0 r532 - -1.0 r530 -1.0 r528 -1.0 r526 -1.0 r525 -3.0 r521 -3.0 r520 -3.0 r519 -3.0 r518 -3.0 r517 -3.0 r516 -3.0 r515 -2.0 r514 -1.0 r513 -1.0 r512 -1.0 r511 -1.0 r510 -1.0 r508 -1.0 r506 -2.0 r505 -1.0 r502 - -2.0 r499 -1.0 r497 -1.0 r496 -1.0 r494 -1.0 r492 -1.0 r490 -2.0 r488 -1.0 r484 -1.0 r481 -1.0 r480 -1.0 r478 -1.0 r475 -1.0 r474b + r474a -1.0 r470 -1.0 r469 -1.0 r466 -2.0 r462 -2.0 r461 -1.0 r460 - -2.0 r448 -2.0 r447 -2.0 r446 -2.0 r445 -2.0 r444 -2.0 r443 -2.0 r442 -1.0 r441 -1.0 r440 -1.0 r439 -1.0 r436 -1.0 r435 -1.0 r433 -1.0 r431 -1.0 r430 -1.0 r429 -1.0 r427 -1.0 r426 -1.0 r425 -1.0 r424 - -1.0 r423 -1.0 r418 -1.0 r417 -1.0 r416 -1.0 r415 -1.0 r410 -1.0 r409 -1.0 r408 -1.0 r407 -1.0 r146 -4.0 r137b +4.0 r137a = 0 - -c524: \* GLYOX[CCO-CYTOSOL] *\ - \* r1517, S-ureidoglycolate -> urea + glyoxylate *\ - \* r1530, glycolate + an unknown oxidized electron acceptor -> glyoxylate + an unknown reduced electron acceptor *\ - \* r1621, 2 glyoxylate + H+ -> CO2 + tartronate semialdehyde *\ - \* r1633a, propanoyl-CoA + glyoxylate + H2O -> 2-hydroxyglutarate + coenzyme A + H+ *\ - \* r1633b, 2-hydroxyglutarate + coenzyme A + H+ -> propanoyl-CoA + glyoxylate + H2O *\ - \* r1815a, L-methionine + a 2-oxo carboxylate -> 2-oxo-4-methylthiobutanoate + a standard alpha amino acid *\ - \* r1815b, 2-oxo-4-methylthiobutanoate + a standard alpha amino acid -> L-methionine + a 2-oxo carboxylate *\ - \* r2230a, (4S)-4-hydroxy-2-oxoglutarate -> glyoxylate + pyruvate *\ - \* r2230b, glyoxylate + pyruvate -> (4S)-4-hydroxy-2-oxoglutarate *\ - \* r2332, glyoxylate + NADPH + H+ -> glycolate + NADP+ *\ - \* r2439, 2-iminoacetate + H+ + H2O -> glyoxylate + ammonium *\ - - + r1517 + r1530 -2.0 r1621 -1.0 r1633a + r1633b -1.0 r1815a + r1815b + r2230a -1.0 r2230b -1.0 r2332 + r2439 = 0 - -c856: \* 5-METHYLAMINOMETHYL-2-THIOURIDINE[CCO-CYTOSOL] *\ - \* r606, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - - + r606 = 0 - -c1675: \* D-mannopyranose[CCO-CYTOSOL] *\ - \* r1365, D-mannopyranose + ATP -> alpha-D-mannose 6-phosphate + ADP + H+ *\ - \* r1358, aldehydo-D-mannose -> D-mannopyranose *\ - - -1.0 r1365 + r1358 = 0 - -c212: \* L-ARA4N-MODIFIED-KDO2-LIPID-A[CCO-PERI-BAC] *\ - \* r107, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - - + r107 = 0 - -c1349: \* XANTHOSINE-5-PHOSPHATE[CCO-CYTOSOL] *\ - \* r2430, xanthine + 5-phospho-alpha-D-ribose 1-diphosphate -> XMP + diphosphate *\ - \* r2344, IMP + NAD+ + H2O -> XMP + NADH + H+ *\ - \* r2295, XTP + H2O -> XMP + diphosphate + H+ *\ - \* r2273, a nucleoside diphosphate + H2O -> a nucleoside 5'-monophosphate + phosphate + H+ *\ - \* r1951, L-glutamine + XMP + ATP + H2O -> L-glutamate + GMP + AMP + diphosphate + 2 H+ *\ - \* r1442, XMP + ammonium + ATP -> GMP + AMP + diphosphate + 2 H+ *\ - \* r1156, a nucleoside triphosphate + H2O -> a nucleoside 5'-monophosphate + diphosphate + H+ *\ - \* r983, a ribonucleoside 5'-monophosphate + H2O -> a ribonucleoside + phosphate *\ - - + r2430 + r2344 + r2295 + r2273 -1.0 r1951 -1.0 r1442 + r1156 -1.0 r983 = 0 - -c615: \* THR[CCO-CYTOSOL] *\ - \* r2156, L-threonine -> (2Z)-2-aminobut-2-enoate + H2O + H+ *\ - \* r2017, L-threonine -> acetaldehyde + glycine *\ - \* r1988, L-alanyl-L-threonine + H2O -> L-alanine + L-threonine *\ - \* r1909, L-threonine -> 2-oxobutanoate + ammonium *\ - \* r1409, L-threonine + NAD+ -> 2-amino-3-oxobutanoate + NADH + H+ *\ - \* r909, O-phospho-L-homoserine + H2O -> L-threonine + phosphate *\ - \* r722, a tRNAthr + L-threonine + ATP + H+ -> an L-threonyl-[tRNAthr] + AMP + diphosphate *\ - \* r626, L-threonine[cytosol] + H+[periplasmic space] -> L-threonine[periplasmic space] + H+[cytosol] *\ - \* r435, L-threonine[periplasmic space] + H+[periplasmic space] -> L-threonine[cytosol] + H+[cytosol] *\ - \* r345, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - - -1.0 r2156 -1.0 r2017 + r1988 -1.0 r1909 -1.0 r1409 + r909 -1.0 r722 -1.0 r626 + r435 -1.0 r345 = 0 - -c1871: \* GlcNAc-1-6-anhydro-MurNAc-pentapeptide[CCI-PERI-BAC-GN] *\ - \* r1616b, a lipid II + GlcNAc-1,6-anhydro-MurNAc-pentapeptide -> a peptidoglycan dimer (generic) *\ - \* r1616a, a peptidoglycan dimer (generic) -> a lipid II + GlcNAc-1,6-anhydro-MurNAc-pentapeptide *\ - - -1.0 r1616b + r1616a = 0 - -c837: \* CPD-12523[CCO-PERI-BAC] *\ - \* r582, D-galacturonate[periplasmic space] + H+[periplasmic space] -> D-galacturonate[cytosol] + H+[cytosol] *\ - - -1.0 r582 = 0 - -c785: \* ACETYLSERINE[CCO-CYTOSOL] *\ - \* r1171a, O-acetyl-L-serine + hydrogen sulfide -> L-cysteine + acetate + H+ *\ - \* r1171b, L-cysteine + acetate + H+ -> O-acetyl-L-serine + hydrogen sulfide *\ - \* r2391, L-serine + acetyl-CoA -> O-acetyl-L-serine + coenzyme A *\ - - -1.0 r1171a + r1171b + r2391 = 0 - -c1658: \* XYLULOSE-5-PHOSPHATE[CCO-CYTOSOL] *\ - \* r2032, D-xylulose + ATP -> D-xylulose 5-phosphate + ADP + H+ *\ - \* r2016b, D-xylulose 5-phosphate -> D-ribulose 5-phosphate *\ - \* r2016a, D-ribulose 5-phosphate -> D-xylulose 5-phosphate *\ - \* r1504b, D-xylulose 5-phosphate -> L-ribulose 5-phosphate *\ - \* r1504a, L-ribulose 5-phosphate -> D-xylulose 5-phosphate *\ - \* r1443b, beta-D-fructofuranose 6-phosphate + D-glyceraldehyde 3-phosphate -> D-erythrose 4-phosphate + D-xylulose 5-phosphate *\ - \* r1443a, D-erythrose 4-phosphate + D-xylulose 5-phosphate -> beta-D-fructofuranose 6-phosphate + D-glyceraldehyde 3-phosphate *\ - \* r1341b, D-ribose 5-phosphate + D-xylulose 5-phosphate -> D-sedoheptulose 7-phosphate + D-glyceraldehyde 3-phosphate *\ - \* r1341a, D-sedoheptulose 7-phosphate + D-glyceraldehyde 3-phosphate -> D-ribose 5-phosphate + D-xylulose 5-phosphate *\ - - + r2032 -1.0 r2016b + r2016a -1.0 r1504b + r1504a + r1443b -1.0 r1443a -1.0 r1341b + r1341a = 0 - -c1726: \* 2-AMINO-3-OXO-4-PHOSPHONOOXYBUTYRATE[CCO-CYTOSOL] *\ - \* r1575, (2S)-2-amino-3-oxo-4-phosphonooxybutanoate + H+ -> 3-amino-1-hydroxyacetone 1-phosphate + CO2 *\ - \* r1433, 4-phospho-hydroxy-L-threonine + NAD+ -> (2S)-2-amino-3-oxo-4-phosphonooxybutanoate + NADH + H+ *\ - - -1.0 r1575 + r1433 = 0 - -c209: \* CPD0-929[CCO-CYTOSOL] *\ - \* r1518, heptosyl-Kdo2-lipid A + ADP-L-glycero-beta-D-manno-heptose -> (heptosyl)2-Kdo2-lipid A + ADP + H+ *\ - \* r1434, alpha-D-Kdo-(2->4)-alpha-D-Kdo-(2->6)-lipid A + ADP-L-glycero-beta-D-manno-heptose -> heptosyl-Kdo2-lipid A + ADP + H+ *\ - \* r258, a lipopolysaccharide[cytosol] -> a lipopolysaccharide[extracellular space] *\ - \* r106, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - - -1.0 r1518 + r1434 -1.0 r258 -1.0 r106 = 0 - -c1021: \* CPD0-2224[CCO-CYTOSOL] *\ - \* r1378, a (3S)-3-hydroxyacyl-CoA + NAD+ -> a 3-oxoacyl-CoA + NADH + H+ *\ - \* r727, a trans-2-enoyl-CoA + H2O -> a (3S)-3-hydroxyacyl-CoA *\ - - -1.0 r1378 + r727 = 0 - -c1366: \* CPD-16501[CCO-CYTOSOL] *\ - \* r1005, 6-deoxy-6-sulfo-D-fructose + ATP -> 6-deoxy-6-sulfo-D-fructose 1-phosphate + ADP + H+ *\ - \* r1902, a sugar phosphate + H2O -> a sugar + phosphate *\ - \* r2347a, a hexose phosphate + H2O -> a hexose + phosphate *\ - \* r2347b, a hexose + phosphate -> a hexose phosphate + H2O *\ - - -1.0 r1005 + r1902 + r2347a -1.0 r2347b = 0 - -c1367: \* CPD-16502[CCO-CYTOSOL] *\ - \* r1005, 6-deoxy-6-sulfo-D-fructose + ATP -> 6-deoxy-6-sulfo-D-fructose 1-phosphate + ADP + H+ *\ - \* r1902, a sugar phosphate + H2O -> a sugar + phosphate *\ - \* r2347a, a hexose phosphate + H2O -> a hexose + phosphate *\ - \* r2347b, a hexose + phosphate -> a hexose phosphate + H2O *\ - - + r1005 -1.0 r1902 -1.0 r2347a + r2347b = 0 - -c137: \* L-1-GLYCEROPHOSPHORYLETHANOL-AMINE[CCO-PERI-BAC] *\ - \* r68, a glycerophosphodiester[periplasmic space] + ATP + H2O -> a glycerophosphodiester[cytosol] + ADP + phosphate + H+ *\ - - -1.0 r68 = 0 - -c394: \* R--ALLANTOIN[CCO-PERI-BAC] *\ - \* r200, allantoin[periplasmic space] -> allantoin[cytosol] *\ - - -1.0 r200 = 0 - -c1458: \* NIACINAMIDE[CCO-CYTOSOL] *\ - \* r1113, NAD+ + H2O -> ADP-D-ribose + nicotinamide + H+ *\ - \* r1890a, nicotinamide + alpha-D-ribose-1-phosphate + H+ -> 1-(beta-D ribofuranosyl)nicotinamide + phosphate *\ - \* r1890b, 1-(beta-D ribofuranosyl)nicotinamide + phosphate -> nicotinamide + alpha-D-ribose-1-phosphate + H+ *\ - \* r2076, nicotinamide + H2O -> ammonium + nicotinate *\ - \* r2164, beta-nicotinamide D-ribonucleotide + H2O -> D-ribofuranose 5-phosphate + nicotinamide + H+ *\ - - + r1113 -1.0 r1890a + r1890b -1.0 r2076 + r2164 = 0 - -c1501: \* CPD-9728[CCO-PM-BAC-NEG] *\ - \* r1905, NADPH + an electron-transfer quinone[inner membrane] + H+ -> NADP+ + an electron-transfer quinol[inner membrane] *\ - \* r1686, an electron-transfer quinone[inner membrane] + NAD(P)H + H+ -> an electron-transfer quinol[inner membrane] + NAD(P)+ *\ - \* r1685, an electron-transfer quinone[inner membrane] + NAD(P)H + H+ -> an electron-transfer quinol[inner membrane] + NAD(P)+ *\ - \* r1682, NADH + a menaquinone[inner membrane] + 5 H+ -> NAD+ + a menaquinol[inner membrane] + 4 H+[periplasmic space] *\ - \* r1678b, dimethyl sulfoxide[periplasmic space] + a menaquinol[inner membrane] -> dimethyl sulfide[periplasmic space] + a menaquinone[inner membrane] + H2O[periplasmic space] *\ - \* r1678a, dimethyl sulfide[periplasmic space] + a menaquinone[inner membrane] + H2O[periplasmic space] -> dimethyl sulfoxide[periplasmic space] + a menaquinol[inner membrane] *\ - \* r1675, NADH + a menaquinone[inner membrane] + H+ -> NAD+ + a menaquinol[inner membrane] *\ - \* r1673, sn-glycerol 3-phosphate + a menaquinone[inner membrane] -> glycerone phosphate + a menaquinol[inner membrane] *\ - \* r1669b, succinate + a menaquinone[inner membrane] -> fumarate + a menaquinol[inner membrane] *\ - \* r1669a, fumarate + a menaquinol[inner membrane] -> succinate + a menaquinone[inner membrane] *\ - \* r1660, D-alanine + an electron-transfer quinone[inner membrane] + H2O -> ammonium + pyruvate + an electron-transfer quinol[inner membrane] *\ - \* r1657, (S)-dihydroorotate + a menaquinone[inner membrane] -> orotate + a menaquinol[inner membrane] *\ - \* r1652, a D-amino acid + an electron-transfer quinone[inner membrane] + H2O -> ammonium + a 2-oxo carboxylate + an electron-transfer quinol[inner membrane] *\ - \* r1650, a D-amino acid + an electron-transfer quinone[inner membrane] + H2O -> ammonium + a 2-oxo carboxylate + an electron-transfer quinol[inner membrane] *\ - \* r1641, formate[periplasmic space] + a menaquinone[inner membrane] + 2 H+ -> CO2[periplasmic space] + a menaquinol[inner membrane] + H+[periplasmic space] *\ - \* r1636, (S)-dihydroorotate + an electron-transfer quinone[inner membrane] -> orotate + an electron-transfer quinol[inner membrane] *\ - \* r1357, protoporphyrinogen IX + 3 a menaquinone[inner membrane] -> protoporphyrin IX + 3 a menaquinol[inner membrane] *\ - \* r1166, (S)-malate + an electron-transfer quinone[inner membrane] -> oxaloacetate + an electron-transfer quinol[inner membrane] *\ - - -1.0 r1905 -1.0 r1686 -1.0 r1685 -1.0 r1682 + r1678b -1.0 r1678a -1.0 r1675 -1.0 r1673 -1.0 r1669b + r1669a -1.0 r1660 -1.0 r1657 -1.0 r1652 -1.0 r1650 -1.0 r1641 -1.0 r1636 -3.0 r1357 -1.0 r1166 = 0 - -c701: \* 4-hydroxybenzoate[CCO-CYTOSOL] *\ - \* r2057, all-trans-octaprenyl diphosphate + 4-hydroxybenzoate -> 3-octaprenyl-4-hydroxybenzoate + diphosphate *\ - \* r2386, chorismate -> 4-hydroxybenzoate + pyruvate *\ - - -1.0 r2057 + r2386 = 0 - -c1614: \* CHORISMATE[CCO-CYTOSOL] *\ - \* objReactionName, chorismate *\ - \* r2386, chorismate -> 4-hydroxybenzoate + pyruvate *\ - \* r2371, chorismate + L-glutamine -> anthranilate + pyruvate + L-glutamate + H+ *\ - \* r2370b, 4-amino-4-deoxychorismate + L-glutamate -> L-glutamine + chorismate *\ - \* r2370a, L-glutamine + chorismate -> 4-amino-4-deoxychorismate + L-glutamate *\ - \* r1805, 5-enolpyruvyl-shikimate 3-phosphate -> chorismate + phosphate *\ - \* r1545b, isochorismate -> chorismate *\ - \* r1545a, chorismate -> isochorismate *\ - \* r1301, chorismate -> prephenate *\ - - -0.000223 objReactionName -1.0 r2386 -1.0 r2371 + r2370b -1.0 r2370a + r1805 + r1545b -1.0 r1545a -1.0 r1301 = 0 - -c12: \* MG+2[CCO-CYTOSOL] *\ - \* objReactionName, Mg2+ *\ - \* r79, Mg2+[periplasmic space] + ATP + H2O -> Mg2+[cytosol] + ADP + phosphate + H+ *\ - \* r6, Mg2+[periplasmic space] -> Mg2+[cytosol] *\ - - -0.008253 objReactionName + r79 + r6 = 0 - -c2127: \* CPD-548[CCO-CYTOSOL] *\ - \* r2187, S-formylglutathione + H2O -> formate + glutathione + H+ *\ - \* r2167b, S-formylglutathione + NAD(P)H + H+ -> S-hydroxymethylglutathione + NAD(P)+ *\ - \* r2167a, S-hydroxymethylglutathione + NAD(P)+ -> S-formylglutathione + NAD(P)H + H+ *\ - \* r2166b, S-formylglutathione + NAD(P)H + H+ -> S-hydroxymethylglutathione + NAD(P)+ *\ - \* r2166a, S-hydroxymethylglutathione + NAD(P)+ -> S-formylglutathione + NAD(P)H + H+ *\ - - -1.0 r2187 -1.0 r2167b + r2167a -1.0 r2166b + r2166a = 0 - -c2143: \* Quinones[CCO-CYTOSOL] *\ - \* r2264b, 2 a semiquinone + NAD+ -> 2 a quinone + NADH + H+ *\ - \* r2264a, 2 a quinone + NADH + H+ -> 2 a semiquinone + NAD+ *\ - \* r2189b, 2 a semiquinone + NADP+ -> 2 a quinone + NADPH + H+ *\ - \* r2189a, 2 a quinone + NADPH + H+ -> 2 a semiquinone + NADP+ *\ - - +2.0 r2264b -2.0 r2264a +2.0 r2189b -2.0 r2189a = 0 - -c1596: \* 2-AMINOMALONATE-SEMIALDEHYDE[CCO-CYTOSOL] *\ - \* r1308b, 3-oxo-L-alanine + NADPH + H+ -> L-serine + NADP+ *\ - \* r1308a, L-serine + NADP+ -> 3-oxo-L-alanine + NADPH + H+ *\ - \* r1285, 3-oxo-L-alanine + H+ -> 2-aminoacetaldehyde + CO2 *\ - - -1.0 r1308b + r1308a -1.0 r1285 = 0 - -c1690: \* 3-OXOPALMITOYL-COA[CCO-CYTOSOL] *\ - \* r1967, a 3-oxoacyl-CoA + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + acetyl-CoA *\ - \* r1382, a (3S)-3-hydroxyacyl-CoA + NAD+ -> a 3-oxoacyl-CoA + NADH + H+ *\ - - -1.0 r1967 + r1382 = 0 - -c242: \* CPD0-1075[CCO-CYTOSOL] *\ - \* r122, ATP + an alkylphosphonate[periplasmic space] + H2O -> ADP + an alkylphosphonate[cytosol] + phosphate + H+ *\ - - + r122 = 0 - -c240: \* CPD0-1076[CCO-CYTOSOL] *\ - \* r121, ATP + an alkylphosphonate[periplasmic space] + H2O -> ADP + an alkylphosphonate[cytosol] + phosphate + H+ *\ - - + r121 = 0 - -c343: \* CPD0-1077[CCO-CYTOSOL] *\ - \* r174, an aminoalkylphosphonate[periplasmic space] + ATP + H2O -> an aminoalkylphosphonate[cytosol] + ADP + phosphate + H+ *\ - - + r174 = 0 - -c367: \* CARNOSINE[CCO-CYTOSOL] *\ - \* r561, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r186, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - - + r561 + r186 = 0 - -c1171: \* Octanoyl-ACPs[CCO-CYTOSOL] *\ - \* r823, a malonyl-[acp] + a 2,3,4-saturated fatty acyl-[acp] + H+ -> a holo-[acyl-carrier protein] + a 3-oxoacyl-[acp] + CO2 *\ - \* r843, octanoate + a holo-[acyl-carrier protein] + ATP -> an octanoyl-[acp] + AMP + diphosphate *\ - \* r867, a trans-2-enoyl-[acyl-carrier protein] + NADPH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NADP+ *\ - \* r962, an octanoyl-[acp] + a malonyl-[acp] + H+ -> a 3-oxo-decanoyl-[acp] + CO2 + a holo-[acyl-carrier protein] *\ - \* r1001, a trans oct-2-enoyl-[acp] + NADH + H+ -> an octanoyl-[acp] + NAD+ *\ - \* r1017, a trans-2-enoyl-[acyl-carrier protein] + NADH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NAD+ *\ - - -1.0 r823 + r843 + r867 -1.0 r962 + r1001 + r1017 = 0 - -c217: \* HEPTOSYL-KDO2-LIPID-IVA[CCO-CYTOSOL] *\ - \* r2029b, heptosyl-Kdo2-lipid IVA + ADP + H+ -> alpha-Kdo-(2->4)-alpha-Kdo-(2->6)-lipid IVA + ADP-L-glycero-beta-D-manno-heptose *\ - \* r2029a, alpha-Kdo-(2->4)-alpha-Kdo-(2->6)-lipid IVA + ADP-L-glycero-beta-D-manno-heptose -> heptosyl-Kdo2-lipid IVA + ADP + H+ *\ - \* r262, a lipopolysaccharide[cytosol] -> a lipopolysaccharide[extracellular space] *\ - \* r110, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - - -1.0 r2029b + r2029a -1.0 r262 -1.0 r110 = 0 - -c345: \* CPD0-1074[CCO-CYTOSOL] *\ - \* r2176b, 2-N-acetamidomethylphosphonate + coenzyme A -> aminomethylphosphonate + acetyl-CoA *\ - \* r2176a, aminomethylphosphonate + acetyl-CoA -> 2-N-acetamidomethylphosphonate + coenzyme A *\ - \* r175, an aminoalkylphosphonate[periplasmic space] + ATP + H2O -> an aminoalkylphosphonate[cytosol] + ADP + phosphate + H+ *\ - - + r2176b -1.0 r2176a + r175 = 0 - -c493: \* CPD-11653[CCO-EXTRACELLULAR] *\ - \* r261, a lipopolysaccharide[cytosol] -> a lipopolysaccharide[extracellular space] *\ - - + r261 = 0 - -c24: \* NITRITE[CCO-CYTOSOL] *\ - \* r1624, nitrite + 3 NADH + 5 H+ -> ammonium + 3 NAD+ + 2 H2O *\ - \* r537, nitrite[cytosol] + H+[periplasmic space] -> nitrite[periplasmic space] + H+[cytosol] *\ - \* r13, nitrite[periplasmic space] -> nitrite[cytosol] *\ - - -1.0 r1624 -1.0 r537 + r13 = 0 - -c1014: \* METHYL-MALONYL-COA[CCO-CYTOSOL] *\ - \* r2357b, (S)-methylmalonyl-CoA -> (R)-methylmalonyl-CoA *\ - \* r2357a, (R)-methylmalonyl-CoA -> (S)-methylmalonyl-CoA *\ - \* r1867b, succinyl-CoA -> (R)-methylmalonyl-CoA *\ - \* r1867a, (R)-methylmalonyl-CoA -> succinyl-CoA *\ - \* r723, (R)-methylmalonyl-CoA + H+ -> propanoyl-CoA + CO2 *\ - - + r2357b -1.0 r2357a + r1867b -1.0 r1867a -1.0 r723 = 0 - -c855: \* CPD0-1321[CCO-CYTOSOL] *\ - \* r605, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - - + r605 = 0 - -c860: \* CPD0-1322[CCO-CYTOSOL] *\ - \* r610, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - - + r610 = 0 - -c964: \* HCO3[CCO-CYTOSOL] *\ - \* r697, ATP + hydrogen carbonate + propanoyl-CoA -> ADP + (S)-methylmalonyl-CoA + phosphate + H+ *\ - \* r720, a biotinylated [BCCP dimer] + hydrogen carbonate + ATP -> a carboxylated-biotinylated [BCCP dimer] + ADP + phosphate + H+ *\ - \* r1366, ATP + acetyl-CoA + hydrogen carbonate -> malonyl-CoA + ADP + phosphate + H+ *\ - \* r1475a, oxaloacetate + phosphate -> phosphoenolpyruvate + hydrogen carbonate *\ - \* r1475b, phosphoenolpyruvate + hydrogen carbonate -> oxaloacetate + phosphate *\ - \* r1712, 5-amino-1-(5-phospho-beta-D-ribosyl)imidazole + ATP + hydrogen carbonate -> N5-carboxyaminoimidazole ribonucleotide + ADP + phosphate + 2 H+ *\ - \* r1845, 2 ATP + hydrogen carbonate + ammonium -> 2 ADP + carbamoyl-phosphate + phosphate + 2 H+ *\ - \* r2128a, hydrogen carbonate + H+ -> CO2 + H2O *\ - \* r2128b, CO2 + H2O -> hydrogen carbonate + H+ *\ - \* r2415, 2 ATP + L-glutamine + hydrogen carbonate + H2O -> carbamoyl-phosphate + L-glutamate + 2 ADP + phosphate + 2 H+ *\ - - -1.0 r697 -1.0 r720 -1.0 r1366 + r1475a -1.0 r1475b -1.0 r1712 -1.0 r1845 -1.0 r2128a + r2128b -1.0 r2415 = 0 - -c968: \* P3I[CCO-CYTOSOL] *\ - \* r1060, dGTP + H2O -> PPPi + 2'-deoxyguanosine + H+ *\ - \* r2107, PPPi + H2O -> phosphate + diphosphate *\ - - + r1060 -1.0 r2107 = 0 - -c857: \* CPD0-1320[CCO-CYTOSOL] *\ - \* r607, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - - + r607 = 0 - -c528: \* GLYCERATE[CCO-CYTOSOL] *\ - \* r1226, hydroxypyruvate + NADPH + H+ -> D-glycerate + NADP+ *\ - \* r1744, ATP + D-glycerate -> 2-phospho-D-glycerate + ADP + H+ *\ - \* r1932, tartronate semialdehyde + NAD(P)H + H+ -> D-glycerate + NAD(P)+ *\ - \* r1933, tartronate semialdehyde + NAD(P)H + H+ -> D-glycerate + NAD(P)+ *\ - \* r2224, D-glycerate + ATP -> 3-phospho-D-glycerate + ADP + H+ *\ - \* r2442a, D-glycerate + NAD+ -> tartronate semialdehyde + NADH + H+ *\ - \* r2442b, tartronate semialdehyde + NADH + H+ -> D-glycerate + NAD+ *\ - - + r1226 -1.0 r1744 + r1932 + r1933 -1.0 r2224 -1.0 r2442a + r2442b = 0 - -c1363: \* CIS-ACONITATE[CCO-CYTOSOL] *\ - \* r2158b, cis-aconitate + H2O -> citrate *\ - \* r2158a, citrate -> cis-aconitate + H2O *\ - \* r1674b, D-threo-isocitrate -> cis-aconitate + H2O *\ - \* r1674a, cis-aconitate + H2O -> D-threo-isocitrate *\ - \* r1002b, cis-aconitate -> trans-aconitate *\ - \* r1002a, trans-aconitate -> cis-aconitate *\ - - -1.0 r2158b + r2158a + r1674b -1.0 r1674a -1.0 r1002b + r1002a = 0 - -c916: \* D-6-P-GLUCONO-DELTA-LACTONE[CCO-CYTOSOL] *\ - \* r2321, beta-D-glucose 6-phosphate + NADP+ -> 6-phospho D-glucono-1,5-lactone + NADPH + H+ *\ - \* r665, 6-phospho D-glucono-1,5-lactone + H2O -> D-gluconate 6-phosphate + H+ *\ - - + r2321 -1.0 r665 = 0 - -c492: \* CPD0-933[CCO-EXTRACELLULAR] *\ - \* r260, a lipopolysaccharide[cytosol] -> a lipopolysaccharide[extracellular space] *\ - - + r260 = 0 - -c1353: \* D-arabinofuranose[CCO-CYTOSOL] *\ - \* r990b, D-arabinopyranose -> D-arabinofuranose *\ - \* r990a, D-arabinofuranose -> D-arabinopyranose *\ - - + r990b -1.0 r990a = 0 - -c96: \* CPD0-1320[CCO-PERI-BAC] *\ - \* r607, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r47, a nucleoside[extracellular space] -> a nucleoside[periplasmic space] *\ - - -1.0 r607 + r47 = 0 - -c1435: \* tRNA-uridine55[CCO-CYTOSOL] *\ - \* r1089b, a tRNA pseudouridine55 -> a uridine55 in tRNA *\ - \* r1089a, a uridine55 in tRNA -> a tRNA pseudouridine55 *\ - - + r1089b -1.0 r1089a = 0 - -c66: \* CPD-3744[CCO-CYTOSOL] *\ - \* r2278, 1-butanesulfonate + FMNH2 + oxygen -> butanal + sulfite + FMN + H2O + 2 H+ *\ - \* r32, ATP + an aliphatic sulfonate[periplasmic space] + H2O -> an aliphatic sulfonate[cytosol] + ADP + phosphate + H+ *\ - - -1.0 r2278 + r32 = 0 - -c1932: \* DIHYDRO-DIOH-BENZOATE[CCO-CYTOSOL] *\ - \* r2053, isochorismate + H2O -> pyruvate + (2S,3S)-2,3-dihydroxy-2,3-dihydrobenzoate *\ - \* r1724, (2S,3S)-2,3-dihydroxy-2,3-dihydrobenzoate + NAD+ -> 2,3-dihydroxybenzoate + NADH + H+ *\ - - + r2053 -1.0 r1724 = 0 - -c92: \* CPD0-1321[CCO-PERI-BAC] *\ - \* r605, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r45, a nucleoside[extracellular space] -> a nucleoside[periplasmic space] *\ - - -1.0 r605 + r45 = 0 - -c1949: \* CPD-9038[CCO-CYTOSOL] *\ - \* r1799, S-adenosyl-L-methionine + precorrin-1 -> S-adenosyl-L-homocysteine + precorrin-2 *\ - \* r1745, S-adenosyl-L-methionine + uroporphyrinogen-III -> S-adenosyl-L-homocysteine + precorrin-1 + H+ *\ - - -1.0 r1799 + r1745 = 0 - -c1817: \* Carboxylates[CCO-UNKNOWN-SPACE] *\ - \* r1553, a 1-acyl 2-lyso-phosphatidylcholine + H2O -> a carboxylate + sn-glycero-3-phosphocholine + H+ *\ - - + r1553 = 0 - -c1714: \* POLYMER-INST-CIS-DELTA3-ENOYL-COA-C10-H20[CCO-CYTOSOL] *\ - \* r1417b, a trans-2-enoyl-CoA -> a cis-3-enoyl-CoA *\ - \* r1417a, a cis-3-enoyl-CoA -> a trans-2-enoyl-CoA *\ - - + r1417b -1.0 r1417a = 0 - -c1579: \* 2-ACETO-2-HYDROXY-BUTYRATE[CCO-CYTOSOL] *\ - \* r2355, pyruvate + 2-oxobutanoate + H+ -> (S)-2-aceto-2-hydroxybutanoate + CO2 *\ - \* r1268, (S)-2-aceto-2-hydroxybutanoate + NADPH + H+ -> (R)-2,3-dihydroxy-3-methylpentanoate + NADP+ *\ - - + r2355 -1.0 r1268 = 0 - -c771: \* AGMATHINE[CCO-CYTOSOL] *\ - \* r1283, agmatine + H2O -> urea + putrescine *\ - \* r1992, L-arginine + H+ -> CO2 + agmatine *\ - - -1.0 r1283 + r1992 = 0 - -c2234: \* HYDROGEN-MOLECULE[CCO-CYTOSOL] *\ - \* r2479_e, H2 *\ - \* r2433b, an oxidized hydrogenase 3 + H2 -> a reduced hydrogenase 3 + H+ *\ - \* r2433a, a reduced hydrogenase 3 + H+ -> an oxidized hydrogenase 3 + H2 *\ - - -1.0 r2479_e -1.0 r2433b + r2433a = 0 - -c342: \* CPD0-1077[CCO-PERI-BAC] *\ - \* r174, an aminoalkylphosphonate[periplasmic space] + ATP + H2O -> an aminoalkylphosphonate[cytosol] + ADP + phosphate + H+ *\ - - -1.0 r174 = 0 - -c241: \* CPD0-1075[CCO-PERI-BAC] *\ - \* r122, ATP + an alkylphosphonate[periplasmic space] + H2O -> ADP + an alkylphosphonate[cytosol] + phosphate + H+ *\ - - -1.0 r122 = 0 - -c239: \* CPD0-1076[CCO-PERI-BAC] *\ - \* r121, ATP + an alkylphosphonate[periplasmic space] + H2O -> ADP + an alkylphosphonate[cytosol] + phosphate + H+ *\ - - -1.0 r121 = 0 - -c1553: \* Aminated-Amine-Donors[CCO-CYTOSOL] *\ - \* r1577b, pyridoxal 5'-phosphate + an aminated amino group donor -> pyridoxamine 5'-phosphate + a deaminated amino group donor *\ - \* r1577a, pyridoxamine 5'-phosphate + a deaminated amino group donor -> pyridoxal 5'-phosphate + an aminated amino group donor *\ - \* r1244b, 2-aminobutanoate + a deaminated amino group donor -> an aminated amino group donor + 2-oxobutanoate *\ - \* r1244a, an aminated amino group donor + 2-oxobutanoate -> 2-aminobutanoate + a deaminated amino group donor *\ - - -1.0 r1577b + r1577a + r1244b -1.0 r1244a = 0 - -c344: \* CPD0-1074[CCO-PERI-BAC] *\ - \* r175, an aminoalkylphosphonate[periplasmic space] + ATP + H2O -> an aminoalkylphosphonate[cytosol] + ADP + phosphate + H+ *\ - - -1.0 r175 = 0 - -c2038: \* CPD-2343[CCO-CYTOSOL] *\ - \* r1886, 3-keto-L-gulonate + ATP -> 3-keto-L-gulonate 6-phosphate + ADP + H+ *\ - \* r1996, 3-keto-L-gulonate 6-phosphate + H+ -> L-xylulose -5-phosphate + CO2 *\ - - + r1886 -1.0 r1996 = 0 - -c1824: \* N-ACETYL-GLUTAMYL-P[CCO-CYTOSOL] *\ - \* r1977, N-acetyl-L-glutamate + ATP -> N-acetylglutamyl-phosphate + ADP *\ - \* r1558b, N-acetylglutamyl-phosphate + NADPH + H+ -> N-acetyl-L-glutamate 5-semialdehyde + NADP+ + phosphate *\ - \* r1558a, N-acetyl-L-glutamate 5-semialdehyde + NADP+ + phosphate -> N-acetylglutamyl-phosphate + NADPH + H+ *\ - - + r1977 -1.0 r1558b + r1558a = 0 - -c1450: \* L-GLUTAMATE_GAMMA-SEMIALDEHYDE[CCO-CYTOSOL] *\ - \* r2132, L-glutamate-5-semialdehyde + NAD+ + H2O -> L-glutamate + NADH + 2 H+ *\ - \* r2099b, L-glutamate-5-semialdehyde -> (S)-1-pyrroline-5-carboxylate + H+ + H2O *\ - \* r2099a, (S)-1-pyrroline-5-carboxylate + H+ + H2O -> L-glutamate-5-semialdehyde *\ - \* r1892, L-glutamate + ATP + NADPH + H+ -> ADP + L-glutamate-5-semialdehyde + NADP+ + phosphate *\ - \* r1101, gamma-L-glutamyl 5-phosphate + NADPH + H+ -> L-glutamate-5-semialdehyde + NADP+ + phosphate *\ - - -1.0 r2132 -1.0 r2099b + r2099a + r1892 + r1101 = 0 - -c102: \* CPD0-1322[CCO-PERI-BAC] *\ - \* r610, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r50, a nucleoside[extracellular space] -> a nucleoside[periplasmic space] *\ - - -1.0 r610 + r50 = 0 - -c1586: \* CPD-10267[CCO-CYTOSOL] *\ - \* r2254, an acyl-CoA + H2O -> a carboxylate + coenzyme A + H+ *\ - \* r2065b, a 2,3,4-saturated fatty acid + acetyl-CoA -> a 2,3,4-saturated fatty acyl CoA + acetate *\ - \* r2065a, a 2,3,4-saturated fatty acyl CoA + acetate -> a 2,3,4-saturated fatty acid + acetyl-CoA *\ - \* r1965, a 3-oxoacyl-CoA + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + acetyl-CoA *\ - \* r1917, a 2,3,4-saturated fatty acyl CoA + NADP+ -> a trans-2-enoyl-CoA + NADPH + H+ *\ - \* r1779, a 2,3,4-saturated fatty acyl CoA + an oxidized electron-transfer flavoprotein + H+ -> a trans-2-enoyl-CoA + a reduced electron-transfer flavoprotein *\ - \* r1274, a 2,3,4-saturated fatty acid + ATP + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + AMP + diphosphate *\ - - -1.0 r2254 + r2065b -1.0 r2065a + r1965 -1.0 r1917 -1.0 r1779 + r1274 = 0 - -c1203: \* CPD0-2483[CCO-CYTOSOL] *\ - \* r1147, (2,3-dihydroxybenzoylserine)3 + H2O -> (2,3-dihydroxybenzoylserine)2 + N-(2,3-dihydroxybenzoyl)-L-serine + H+ *\ - \* r1640, enterobactin + H2O -> (2,3-dihydroxybenzoylserine)3 + H+ *\ - \* r2078a, (2,3-dihydroxybenzoylserine)3 + 2 H2O -> 3 N-(2,3-dihydroxybenzoyl)-L-serine + 2 H+ *\ - \* r2078b, 3 N-(2,3-dihydroxybenzoyl)-L-serine + 2 H+ -> (2,3-dihydroxybenzoylserine)3 + 2 H2O *\ - - -1.0 r1147 + r1640 -1.0 r2078a + r2078b = 0 - -c199: \* CPD0-937[CCO-CYTOSOL] *\ - \* r1613, UDP-alpha-D-glucose + galactosyl-glucosyl-(heptosyl)3-Kdo2-lipid A-bisphosphate -> galactosyl-(glucosyl)2-(heptosyl)3-Kdo2-lipid A-bisphosphate + UDP + H+ *\ - \* r1097, UDP-alpha-D-glucose + galactosyl-(glucosyl)2-(heptosyl)3-Kdo2-lipid A-bisphosphate -> galactosyl-(glucosyl)3-(heptosyl)3-Kdo2-lipid A-bisphosphate + UDP + H+ *\ - \* r253, a lipopolysaccharide[cytosol] -> a lipopolysaccharide[extracellular space] *\ - \* r101, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - - + r1613 -1.0 r1097 -1.0 r253 -1.0 r101 = 0 - -c1029: \* CPD-10262[CCO-CYTOSOL] *\ - \* r1915, a 2,3,4-saturated fatty acyl CoA + NADP+ -> a trans-2-enoyl-CoA + NADPH + H+ *\ - \* r1783, a 2,3,4-saturated fatty acyl CoA + an oxidized electron-transfer flavoprotein + H+ -> a trans-2-enoyl-CoA + a reduced electron-transfer flavoprotein *\ - \* r1419b, a trans-2-enoyl-CoA -> a cis-3-enoyl-CoA *\ - \* r1419a, a cis-3-enoyl-CoA -> a trans-2-enoyl-CoA *\ - \* r732, a trans-2-enoyl-CoA + H2O -> a (3S)-3-hydroxyacyl-CoA *\ - - + r1915 + r1783 -1.0 r1419b + r1419a -1.0 r732 = 0 - -c1080: \* CPD-12575[CCO-CYTOSOL] *\ - \* r2426b, UMP + alpha-D-glucopyranosyl-diphosphoundecaprenol -> UDP-alpha-D-glucose + di-trans,octa-cis-undecaprenyl phosphate *\ - \* r2426a, UDP-alpha-D-glucose + di-trans,octa-cis-undecaprenyl phosphate -> UMP + alpha-D-glucopyranosyl-diphosphoundecaprenol *\ - \* r2205b, UDP-alpha-D-galactose -> UDP-alpha-D-glucose *\ - \* r2205a, UDP-alpha-D-glucose -> UDP-alpha-D-galactose *\ - \* r2020, UDP-alpha-D-glucose + alpha-D-glucose 6-phosphate -> UDP + alpha,alpha-trehalose 6-phosphate + H+ *\ - \* r1936, UDP-alpha-D-glucose + 2 NAD+ + H2O -> UDP-alpha-D-glucuronate + 2 NADH + 3 H+ *\ - \* r1613, UDP-alpha-D-glucose + galactosyl-glucosyl-(heptosyl)3-Kdo2-lipid A-bisphosphate -> galactosyl-(glucosyl)2-(heptosyl)3-Kdo2-lipid A-bisphosphate + UDP + H+ *\ - \* r1335, alpha-D-glucose 1-phosphate + UTP + H+ -> UDP-alpha-D-glucose + diphosphate *\ - \* r1331b, UDP-alpha-D-galactose + alpha-D-glucose 1-phosphate -> UDP-alpha-D-glucose + alpha-D-galactose 1-phosphate *\ - \* r1331a, UDP-alpha-D-glucose + alpha-D-galactose 1-phosphate -> UDP-alpha-D-galactose + alpha-D-glucose 1-phosphate *\ - \* r1097, UDP-alpha-D-glucose + galactosyl-(glucosyl)2-(heptosyl)3-Kdo2-lipid A-bisphosphate -> galactosyl-(glucosyl)3-(heptosyl)3-Kdo2-lipid A-bisphosphate + UDP + H+ *\ - \* r762, UDP-alpha-D-glucose + (heptosyl)2-Kdo2-lipid A -> glucosyl-(heptosyl)2-Kdo2-lipid A + UDP + H+ *\ - - + r2426b -1.0 r2426a + r2205b -1.0 r2205a -1.0 r2020 -1.0 r1936 -1.0 r1613 + r1335 + r1331b -1.0 r1331a -1.0 r1097 -1.0 r762 = 0 - -c930: \* Oxo-glutarate-dehydrogenase-lipoyl[CCO-CYTOSOL] *\ - \* r949, 2-oxoglutarate + a [2-oxoglutarate dehydrogenase E2 protein] N6-lipoyl-L-lysine + H+ -> a [2-oxoglutarate dehydrogenase E2 protein] N6-S-succinyldihydrolipoyl-L-lysine + CO2 *\ - \* r676, a [2-oxoglutarate dehydrogenase E2 protein] N6-dihydrolipoyl-L-lysine + NAD+ -> a [2-oxoglutarate dehydrogenase E2 protein] N6-lipoyl-L-lysine + NADH + H+ *\ - - -1.0 r949 + r676 = 0 - -c1691: \* CPD-10260[CCO-CYTOSOL] *\ - \* r1968, a 3-oxoacyl-CoA + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + acetyl-CoA *\ - \* r1383, a (3S)-3-hydroxyacyl-CoA + NAD+ -> a 3-oxoacyl-CoA + NADH + H+ *\ - - -1.0 r1968 + r1383 = 0 - -c2007: \* Charged-GLN-tRNAs[CCO-CYTOSOL] *\ - \* objReactionName, an L-glutaminyl-[tRNAgln] *\ - \* r1837, tRNAgln + L-glutamine + ATP + H+ -> an L-glutaminyl-[tRNAgln] + AMP + diphosphate *\ - - -0.255712 objReactionName + r1837 = 0 - -c2130: \* Phenolic-Donors[CCO-CYTOSOL] *\ - \* r2173b, 2 a phenoxyl radical of a phenolic donor + 2 H2O -> 2 a phenolic donor + hydrogen peroxide *\ - \* r2173a, 2 a phenolic donor + hydrogen peroxide -> 2 a phenoxyl radical of a phenolic donor + 2 H2O *\ - - +2.0 r2173b -2.0 r2173a = 0 - -c1201: \* DEAMIDO-NAD[CCO-CYTOSOL] *\ - \* r2262, ammonium + ATP + nicotinate adenine dinucleotide -> AMP + NAD+ + diphosphate + H+ *\ - \* r1176, ATP + nicotinate adenine dinucleotide + L-glutamine + H2O -> AMP + L-glutamate + NAD+ + diphosphate + H+ *\ - \* r842, ATP + beta-nicotinate D-ribonucleotide + H+ -> nicotinate adenine dinucleotide + diphosphate *\ - - -1.0 r2262 -1.0 r1176 + r842 = 0 - -c1147: \* DEHYDRO-3-DEOXY-L-RHAMNONATE[CCO-CYTOSOL] *\ - \* r975b, 2-dehydro-3-deoxy-L-rhamnonate + H2O -> L-rhamnonate *\ - \* r975a, L-rhamnonate -> 2-dehydro-3-deoxy-L-rhamnonate + H2O *\ - \* r803b, pyruvate + (S)-lactaldehyde -> 2-dehydro-3-deoxy-L-rhamnonate *\ - \* r803a, 2-dehydro-3-deoxy-L-rhamnonate -> pyruvate + (S)-lactaldehyde *\ - - -1.0 r975b + r975a + r803b -1.0 r803a = 0 - -c1328: \* CPD-12821[CCO-CYTOSOL] *\ - \* r2376, an L-1-phosphatidylglycerol-phosphate + H2O -> an L-1-phosphatidyl-glycerol + phosphate *\ - \* r1209b, CMP + an L-1-phosphatidylglycerol-phosphate + H+ -> a CDP-diacylglycerol + sn-glycerol 3-phosphate *\ - \* r1209a, a CDP-diacylglycerol + sn-glycerol 3-phosphate -> CMP + an L-1-phosphatidylglycerol-phosphate + H+ *\ - \* r952, an L-1-phosphatidyl-glycerol + ATP -> an L-1-phosphatidylglycerol-phosphate + ADP + H+ *\ - - -1.0 r2376 -1.0 r1209b + r1209a + r952 = 0 - -c118: \* ADENOSINE[CCO-PERI-BAC] *\ - \* r618, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r439, adenosine[periplasmic space] + H+[periplasmic space] -> adenosine[cytosol] + H+[cytosol] *\ - \* r58, a nucleoside[extracellular space] -> a nucleoside[periplasmic space] *\ - - -1.0 r618 -1.0 r439 + r58 = 0 - -c146: \* CPD-12822[CCO-CYTOSOL] *\ - \* r2375, an L-1-phosphatidylglycerol-phosphate + H2O -> an L-1-phosphatidyl-glycerol + phosphate *\ - \* r951, an L-1-phosphatidyl-glycerol + ATP -> an L-1-phosphatidylglycerol-phosphate + ADP + H+ *\ - \* r72, a glycerophosphodiester[periplasmic space] + ATP + H2O -> a glycerophosphodiester[cytosol] + ADP + phosphate + H+ *\ - - + r2375 -1.0 r951 + r72 = 0 - -c1764: \* CPD-12824[CCO-CYTOSOL] *\ - \* objReactionName, cardiolipin (tetrahexadecanoyl, n-C16:0) *\ - \* r1574, an L-1-phosphatidyl-glycerol + an L-1-phosphatidylethanolamine -> a cardiolipin + ethanolamine *\ - \* r1484, 2 an L-1-phosphatidyl-glycerol -> a cardiolipin + glycerol *\ - - -0.006414 objReactionName + r1574 + r1484 = 0 - -c1327: \* CPD-12820[CCO-CYTOSOL] *\ - \* r2375, an L-1-phosphatidylglycerol-phosphate + H2O -> an L-1-phosphatidyl-glycerol + phosphate *\ - \* r1208b, CMP + an L-1-phosphatidylglycerol-phosphate + H+ -> a CDP-diacylglycerol + sn-glycerol 3-phosphate *\ - \* r1208a, a CDP-diacylglycerol + sn-glycerol 3-phosphate -> CMP + an L-1-phosphatidylglycerol-phosphate + H+ *\ - \* r951, an L-1-phosphatidyl-glycerol + ATP -> an L-1-phosphatidylglycerol-phosphate + ADP + H+ *\ - - -1.0 r2375 -1.0 r1208b + r1208a + r951 = 0 - -c214: \* CPD0-933[CCO-PERI-BAC] *\ - \* r108, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - - + r108 = 0 - -c727: \* MALEATE[CCO-CYTOSOL] *\ - \* r518, a C4-dicarboxylate[periplasmic space] + 3 H+[periplasmic space] -> a C4-dicarboxylate[cytosol] + 3 H+[cytosol] *\ - \* r445, a C4-dicarboxylate[periplasmic space] + 2 H+[periplasmic space] -> a C4-dicarboxylate[cytosol] + 2 H+[cytosol] *\ - - + r518 + r445 = 0 - -c1308: \* FMN[CCO-PERI-BAC] *\ - \* r941, FMN + H2O -> riboflavin + phosphate *\ - - -1.0 r941 = 0 - -c1403: \* DCTP[CCO-CYTOSOL] *\ - \* objReactionName, dCTP *\ - \* r2185, dCTP + H+ + H2O -> ammonium + dUTP *\ - \* r1716, dCTP + H2O -> dCMP + diphosphate + H+ *\ - \* r1184, a nucleoside diphosphate + ATP -> a nucleoside triphosphate + ADP *\ - \* r1149, a nucleoside triphosphate + H2O -> a nucleoside 5'-monophosphate + diphosphate + H+ *\ - \* r1054, dCDP + ATP -> dCTP + ADP *\ - - -0.025612 objReactionName -1.0 r2185 -1.0 r1716 + r1184 -1.0 r1149 + r1054 = 0 - -c656: \* C6[CCO-PERI-BAC] *\ - \* r2235, 2 ditrans,octacis-undecaprenyldiphospho-N-acetyl-(N-acetylglucosaminyl)muramoyl-L-alanyl-gamma-D-glutamyl-meso-2,6-diaminopimeloyl-D-alanyl-D-alanine[periplasmic space] -> a peptidoglycan dimer (meso-diaminopimelate containing)[periplasmic space] + di-trans,octa-cis-undecaprenyl diphosphate[periplasmic space] + H+[periplasmic space] *\ - \* r372, ditrans,octacis-undecaprenyldiphospho-N-acetyl-(N-acetylglucosaminyl)muramoyl-L-alanyl-gamma-D-glutamyl-meso-2,6-diaminopimeloyl-D-alanyl-D-alanine[cytosol] -> ditrans,octacis-undecaprenyldiphospho-N-acetyl-(N-acetylglucosaminyl)muramoyl-L-alanyl-gamma-D-glutamyl-meso-2,6-diaminopimeloyl-D-alanyl-D-alanine[periplasmic space] *\ - - -2.0 r2235 + r372 = 0 - -c735: \* P-AMINO-BENZOATE[CCO-PERI-BAC] *\ - \* r450, an aromatic amino acid[cytosol] -> an aromatic amino acid[periplasmic space] *\ - - + r450 = 0 - -c1245: \* FORMYL-COA[CCO-CYTOSOL] *\ - \* r1198b, CO2 + formyl-CoA -> oxalyl-CoA + H+ *\ - \* r1198a, oxalyl-CoA + H+ -> CO2 + formyl-CoA *\ - \* r886b, formate + oxalyl-CoA -> formyl-CoA + oxalate *\ - \* r886a, formyl-CoA + oxalate -> formate + oxalyl-CoA *\ - - -1.0 r1198b + r1198a + r886b -1.0 r886a = 0 - -c1588: \* TETRADECANOYL-COA[CCO-CYTOSOL] *\ - \* r2257, an acyl-CoA + H2O -> a carboxylate + coenzyme A + H+ *\ - \* r2061b, a 2,3,4-saturated fatty acid + acetyl-CoA -> a 2,3,4-saturated fatty acyl CoA + acetate *\ - \* r2061a, a 2,3,4-saturated fatty acyl CoA + acetate -> a 2,3,4-saturated fatty acid + acetyl-CoA *\ - \* r1967, a 3-oxoacyl-CoA + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + acetyl-CoA *\ - \* r1781, a 2,3,4-saturated fatty acyl CoA + an oxidized electron-transfer flavoprotein + H+ -> a trans-2-enoyl-CoA + a reduced electron-transfer flavoprotein *\ - \* r1276, a 2,3,4-saturated fatty acid + ATP + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + AMP + diphosphate *\ - - -1.0 r2257 + r2061b -1.0 r2061a + r1967 -1.0 r1781 + r1276 = 0 - -c2013: \* N-ACETYL-D-GLUCOSAMINE-1-P[CCO-CYTOSOL] *\ - \* r1871, N-acetyl-alpha-D-glucosamine 1-phosphate + UTP + H+ -> UDP-N-acetyl-alpha-D-glucosamine + diphosphate *\ - \* r1843, D-glucosamine 1-phosphate + acetyl-CoA -> N-acetyl-alpha-D-glucosamine 1-phosphate + coenzyme A + H+ *\ - - -1.0 r1871 + r1843 = 0 - -c1681: \* 5-PHOSPHORIBOSYL-N-FORMYLGLYCINEAMIDINE[CCO-CYTOSOL] *\ - \* r1736, ATP + N2-formyl-N1-(5-phospho-beta-D-ribosyl)glycinamide + L-glutamine + H2O -> ADP + 2-(formamido)-N1-(5-phospho-beta-D-ribosyl)acetamidine + L-glutamate + phosphate + H+ *\ - \* r1373, ATP + 2-(formamido)-N1-(5-phospho-beta-D-ribosyl)acetamidine -> ADP + 5-amino-1-(5-phospho-beta-D-ribosyl)imidazole + phosphate + H+ *\ - - + r1736 -1.0 r1373 = 0 - -c1527: \* CPD0-181[CCO-CYTOSOL] *\ - \* r1712, 5-amino-1-(5-phospho-beta-D-ribosyl)imidazole + ATP + hydrogen carbonate -> N5-carboxyaminoimidazole ribonucleotide + ADP + phosphate + 2 H+ *\ - \* r1214, N5-carboxyaminoimidazole ribonucleotide -> 5-amino-1-(5-phospho-D-ribosyl)imidazole-4-carboxylate *\ - - + r1712 -1.0 r1214 = 0 - -c15: \* BETAINE[CCO-EXTRACELLULAR] *\ - \* r8b, glycine betaine[periplasmic space] -> glycine betaine[extracellular space] *\ - \* r8a, glycine betaine[extracellular space] -> glycine betaine[periplasmic space] *\ - - + r8b -1.0 r8a = 0 - -c894: \* CARBON-DIOXIDE[CCO-CYTOSOL] *\ - \* r2441, 2-oxoglutarate + coenzyme A + NAD+ -> succinyl-CoA + CO2 + NADH *\ - \* r2417b, aminoacetone + CO2 + NADPH -> L-allo-threonine + NADP+ *\ - \* r2417a, L-allo-threonine + NADP+ -> aminoacetone + CO2 + NADPH *\ - \* r2413, D-threo-isocitrate + NADP+ -> 2-oxoglutarate + CO2 + NADPH *\ - \* r2409, pyruvate + coenzyme A + NAD+ -> acetyl-CoA + CO2 + NADH *\ - \* r2407, pyruvate + a [pyruvate dehydrogenase E2 protein] N6-lipoyl-L-lysine + H+ -> a [pyruvate dehydrogenase E2 protein] N6-S-acetyldihydrolipoyl-L-lysine + CO2 *\ - \* r2394, meso-diaminopimelate + H+ -> L-lysine + CO2 *\ - \* r2388, UDP-alpha-D-glucuronate + NAD+ -> UDP-beta-L-threo-pentapyranos-4-ulose + CO2 + NADH *\ - \* r2355, pyruvate + 2-oxobutanoate + H+ -> (S)-2-aceto-2-hydroxybutanoate + CO2 *\ - \* r2327, 2-[(2R,5Z)-(2-carboxy-4-methylthiazol-5(2H)-ylidene]ethyl phosphate + 4-amino-2-methyl-5-diphosphomethylpyrimidine + 2 H+ -> thiamin phosphate + CO2 + diphosphate *\ - \* r2301, 5-phospho-alpha-D-ribose 1-diphosphate + quinolinate + 2 H+ -> beta-nicotinate D-ribonucleotide + CO2 + diphosphate *\ - \* r2292, prephenate + H+ -> 2-oxo-3-phenylpropanoate + CO2 + H2O *\ - \* r2288, an L-1-phosphatidylserine + H+ -> an L-1-phosphatidylethanolamine + CO2 *\ - \* r2247, (S)-malate + NADP+ -> CO2 + pyruvate + NADPH *\ - \* r2234, coproporphyrinogen III + 2 S-adenosyl-L-methionine -> protoporphyrinogen IX + 2 CO2 + 2 L-methionine + 2 5'-deoxyadenosine *\ - \* r2232, 3-octaprenyl-4-hydroxybenzoate + H+ -> 2-octaprenylphenol + CO2 *\ - \* r2199, formate + an unknown oxidized electron acceptor + H+ -> CO2 + an unknown reduced electron acceptor *\ - \* r2183, coproporphyrinogen III + oxygen + 2 H+ -> protoporphyrinogen IX + 2 CO2 + 2 H2O *\ - \* r2177b, 2-oxoglutarate + CO2 -> oxalosuccinate + H+ *\ - \* r2177a, oxalosuccinate + H+ -> 2-oxoglutarate + CO2 *\ - \* r2128b, CO2 + H2O -> hydrogen carbonate + H+ *\ - \* r2128a, hydrogen carbonate + H+ -> CO2 + H2O *\ - \* r2120, (S)-malate + NAD+ -> CO2 + pyruvate + NADH *\ - \* r2097, CO2 + 7,8-diaminopelargonate + ATP -> dethiobiotin + ADP + phosphate + 3 H+ *\ - \* r2079, L-ornithine + H+ -> CO2 + putrescine *\ - \* r2037, L-glutamate + H+ -> CO2 + 4-aminobutanoate *\ - \* r1996, 3-keto-L-gulonate 6-phosphate + H+ -> L-xylulose -5-phosphate + CO2 *\ - \* r1995, L-aspartate + H+ -> beta-alanine + CO2 *\ - \* r1992, L-arginine + H+ -> CO2 + agmatine *\ - \* r1912, pyruvate + D-glyceraldehyde 3-phosphate + H+ -> CO2 + 1-deoxy-D-xylulose 5-phosphate *\ - \* r1908, all-trans-octaprenyl diphosphate + 1,4-dihydroxy-2-naphthoate + H+ -> CO2 + demethylmenaquinol-8 + diphosphate *\ - \* r1804, prephenate + NAD+ -> 4-hydroxyphenylpyruvate + CO2 + NADH *\ - \* r1803, D-gluconate 6-phosphate + NADP+ -> D-ribulose 5-phosphate + CO2 + NADPH *\ - \* r1793, R-4'-phosphopantothenoyl-L-cysteine + H+ -> 4'-phosphopantetheine + CO2 *\ - \* r1773b, (S)-2-acetolactate + CO2 -> 2 pyruvate + H+ *\ - \* r1773a, 2 pyruvate + H+ -> (S)-2-acetolactate + CO2 *\ - \* r1765, 1-(o-carboxyphenylamino)-1'-deoxyribulose 5'-phosphate + H+ -> (1S,2R)-1-C-(indol-3-yl)glycerol 3-phosphate + CO2 + H2O *\ - \* r1750b, 2-(alpha-hydroxyethyl)thiamine diphosphate + CO2 -> pyruvate + thiamin diphosphate + H+ *\ - \* r1750a, pyruvate + thiamin diphosphate + H+ -> 2-(alpha-hydroxyethyl)thiamine diphosphate + CO2 *\ - \* r1700, oxaloacetate + H+ -> pyruvate + CO2 *\ - \* r1689, pyruvate + an ubiquinone[inner membrane] + H2O -> CO2 + acetate + an ubiquinol[inner membrane] *\ - \* r1621, 2 glyoxylate + H+ -> CO2 + tartronate semialdehyde *\ - \* r1612, (R)-malate + NAD+ -> CO2 + pyruvate + NADH *\ - \* r1589, N2-succinyl-L-arginine + 2 H+ + 2 H2O -> 2 ammonium + N2-succinyl-L-ornithine + CO2 *\ - \* r1575, (2S)-2-amino-3-oxo-4-phosphonooxybutanoate + H+ -> 3-amino-1-hydroxyacetone 1-phosphate + CO2 *\ - \* r1516, glycine + a tetrahydrofolate + NAD+ -> a 5,10-methylene-tetrahydrofolate + ammonium + CO2 + NADH *\ - \* r1515, glycine + a tetrahydrofolate + NAD+ -> a 5,10-methylene-tetrahydrofolate + ammonium + CO2 + NADH *\ - \* r1505, 2-amino-3-oxobutanoate + H+ -> aminoacetone + CO2 *\ - \* r1439, isochorismate + 2-oxoglutarate + H+ -> 2-succinyl-5-enolpyruvyl-6-hydroxy-3-cyclohexene-1-carboxylate + CO2 *\ - \* r1339b, CO2 + a reduced hydrogenase 3 -> formate + an oxidized hydrogenase 3 *\ - \* r1339a, formate + an oxidized hydrogenase 3 -> CO2 + a reduced hydrogenase 3 *\ - \* r1287, allantoate + 2 H+ + H2O -> S-ureidoglycine + ammonium + CO2 *\ - \* r1285, 3-oxo-L-alanine + H+ -> 2-aminoacetaldehyde + CO2 *\ - \* r1232, a pimeloyl-[acp] + L-alanine + H+ -> 8-amino-7-oxononanoate + CO2 + a holo-[acyl-carrier protein] *\ - \* r1219, S-adenosyl-L-methionine + H+ -> CO2 + S-adenosyl 3-(methylthio)propylamine *\ - \* r1202, (2S)-2-isopropyl-3-oxosuccinate + H+ -> 4-methyl-2-oxopentanoate + CO2 *\ - \* r1198b, CO2 + formyl-CoA -> oxalyl-CoA + H+ *\ - \* r1198a, oxalyl-CoA + H+ -> CO2 + formyl-CoA *\ - \* r1197, a dodecanoyl-[acp] + a malonyl-[acp] + H+ -> a 3-oxo-myristoyl-[acp] + CO2 + a holo-[acyl-carrier protein] *\ - \* r1164, a decanoyl-[acp] + a malonyl-[acp] + H+ -> a 3-oxo-dodecanoyl-[acp] + CO2 + a holo-[acyl-carrier protein] *\ - \* r1092, uroporphyrinogen-III + 4 H+ -> 4 CO2 + coproporphyrinogen III *\ - \* r1024, orotidine 5'-phosphate + H+ -> CO2 + UMP *\ - \* r989b, a [glycine-cleavage complex H protein] N6-aminomethyldihydrolipoyl-L-lysine + CO2 -> glycine + a [glycine-cleavage complex H protein] N6-lipoyl-L-lysine + H+ *\ - \* r989a, glycine + a [glycine-cleavage complex H protein] N6-lipoyl-L-lysine + H+ -> a [glycine-cleavage complex H protein] N6-aminomethyldihydrolipoyl-L-lysine + CO2 *\ - \* r973, a malonyl-[acp] + an acetyl-[acp] + H+ -> a holo-[acyl-carrier protein] + an acetoacetyl-[acp] + CO2 *\ - \* r962, an octanoyl-[acp] + a malonyl-[acp] + H+ -> a 3-oxo-decanoyl-[acp] + CO2 + a holo-[acyl-carrier protein] *\ - \* r949, 2-oxoglutarate + a [2-oxoglutarate dehydrogenase E2 protein] N6-lipoyl-L-lysine + H+ -> a [2-oxoglutarate dehydrogenase E2 protein] N6-S-succinyldihydrolipoyl-L-lysine + CO2 *\ - \* r929, a malonyl-[acp] methyl ester + a malonyl-[acp] + H+ -> a 3-oxo-glutaryl-[acp] methyl ester + CO2 + a holo-[acyl-carrier protein] *\ - \* r904b, acetyl-CoA + CO2 + a reduced flavodoxin -> pyruvate + an oxidized flavodoxin + coenzyme A + H+ *\ - \* r904a, pyruvate + an oxidized flavodoxin + coenzyme A + H+ -> acetyl-CoA + CO2 + a reduced flavodoxin *\ - \* r895, acetyl-CoA + a malonyl-[acp] + H+ -> an acetoacetyl-[acp] + CO2 + coenzyme A *\ - \* r887, a cis-delta3-decenoyl-[acp] + a malonyl-[acp] + H+ -> a 3-oxo-cis-delta5-dodecenoyl-[acp] + a holo-[acyl-carrier protein] + CO2 *\ - \* r855, oxaloacetate + ATP -> CO2 + phosphoenolpyruvate + ADP *\ - \* r839, a cis-delta5-dodecenoyl-[acp] + a malonyl-[acp] + H+ -> a 3-oxo-cis-delta7-tetradecenoyl-[acp] + a holo-[acyl-carrier protein] + CO2 *\ - \* r826, a malonyl-[acp] + a 2,3,4-saturated fatty acyl-[acp] + H+ -> a holo-[acyl-carrier protein] + a 3-oxoacyl-[acp] + CO2 *\ - \* r825, a malonyl-[acp] + a 2,3,4-saturated fatty acyl-[acp] + H+ -> a holo-[acyl-carrier protein] + a 3-oxoacyl-[acp] + CO2 *\ - \* r824, a malonyl-[acp] + a 2,3,4-saturated fatty acyl-[acp] + H+ -> a holo-[acyl-carrier protein] + a 3-oxoacyl-[acp] + CO2 *\ - \* r823, a malonyl-[acp] + a 2,3,4-saturated fatty acyl-[acp] + H+ -> a holo-[acyl-carrier protein] + a 3-oxoacyl-[acp] + CO2 *\ - \* r822, a malonyl-[acp] + a 2,3,4-saturated fatty acyl-[acp] + H+ -> a holo-[acyl-carrier protein] + a 3-oxoacyl-[acp] + CO2 *\ - \* r821, a malonyl-[acp] + a 2,3,4-saturated fatty acyl-[acp] + H+ -> a holo-[acyl-carrier protein] + a 3-oxoacyl-[acp] + CO2 *\ - \* r817, L-lysine + H+ -> CO2 + cadaverine *\ - \* r807, a glutaryl-[acp] methyl ester + a malonyl-[acp] + H+ -> a 3-oxo-pimeloyl-[acp] methyl ester + CO2 + a holo-[acyl-carrier protein] *\ - \* r777, a hexanoyl-[acyl-carrier-protein] + a malonyl-[acp] + H+ -> a 3-oxo-octanoyl-[acp] + CO2 + a holo-[acyl-carrier protein] *\ - \* r765, a malonyl-[acp] + H+ -> an acetyl-[acp] + CO2 *\ - \* r741, a butyryl-[acp] + a malonyl-[acp] + H+ -> a 3-oxo-hexanoyl-[acp] + CO2 + a holo-[acyl-carrier protein] *\ - \* r734b, acetyl-CoA + CO2 + 2 a reduced ferredoxin + H+ -> pyruvate + 2 an oxidized ferredoxin + coenzyme A *\ - \* r734a, pyruvate + 2 an oxidized ferredoxin + coenzyme A -> acetyl-CoA + CO2 + 2 a reduced ferredoxin + H+ *\ - \* r723, (R)-methylmalonyl-CoA + H+ -> propanoyl-CoA + CO2 *\ - \* r705, a myristoyl-[acp] + a malonyl-[acp] + H+ -> a 3-oxo-palmitoyl-[acp] + CO2 + a holo-[acyl-carrier protein] *\ - \* r700, a cis-delta7-tetradecenoyl-[acp] + a malonyl-[acp] + H+ -> a 3-oxo-cis-delta9-hexadecenoyl-[acp] + a holo-[acyl-carrier protein] + CO2 *\ - \* r694, carbamoyl-phosphate + ADP + 2 H+ -> ammonium + CO2 + ATP *\ - \* r651b, CO2[cytosol] -> CO2[periplasmic space] *\ - \* r651a, CO2[periplasmic space] -> CO2[cytosol] *\ - - + r2441 -1.0 r2417b + r2417a + r2413 + r2409 + r2407 + r2394 + r2388 + r2355 + r2327 + r2301 + r2292 + r2288 + r2247 +2.0 r2234 + r2232 + r2199 +2.0 r2183 -1.0 r2177b - + r2177a -1.0 r2128b + r2128a + r2120 -1.0 r2097 + r2079 + r2037 + r1996 + r1995 + r1992 + r1912 + r1908 + r1804 + r1803 + r1793 -1.0 r1773b + r1773a + r1765 -1.0 r1750b + r1750a - + r1700 + r1689 + r1621 + r1612 + r1589 + r1575 + r1516 + r1515 + r1505 + r1439 -1.0 r1339b + r1339a + r1287 + r1285 + r1232 + r1219 + r1202 -1.0 r1198b + r1198a + r1197 - + r1164 +4.0 r1092 + r1024 -1.0 r989b + r989a + r973 + r962 + r949 + r929 -1.0 r904b + r904a + r895 + r887 + r855 + r839 + r826 + r825 + r824 + r823 + r822 - + r821 + r817 + r807 + r777 + r765 + r741 -1.0 r734b + r734a + r723 + r705 + r700 + r694 -1.0 r651b + r651a = 0 - -c803: \* INDOLE[CCO-PERI-BAC] *\ - \* r2484_e, indole *\ - \* r650b, indole[periplasmic space] -> indole[cytosol] *\ - \* r650a, indole[cytosol] -> indole[periplasmic space] *\ - \* r528, indole[periplasmic space] + H+[periplasmic space] -> indole[cytosol] + H+[cytosol] *\ - - -1.0 r2484_e -1.0 r650b + r650a -1.0 r528 = 0 - -c271: \* WATER[CCO-IN] *\ - \* r138b, ADP + phosphate + 4 H+[out] -> ATP + 3 H+[in] + H2O *\ - \* r138a, ATP + 3 H+[in] + H2O -> ADP + phosphate + 4 H+[out] *\ - - + r138b -1.0 r138a = 0 - -c1043: \* S-ADENOSYLMETHIONINE[CCO-CYTOSOL] *\ - \* objReactionName, S-adenosyl-L-methionine *\ - \* r2302, S-adenosyl-L-methionine + 3-demethylubiquinol-8 -> S-adenosyl-L-homocysteine + ubiquinol-8 + H+ *\ - \* r2263, S-adenosyl-L-methionine + demethylmenaquinol-8 -> S-adenosyl-L-homocysteine + menaquinol-8 + H+ *\ - \* r2234, coproporphyrinogen III + 2 S-adenosyl-L-methionine -> protoporphyrinogen IX + 2 CO2 + 2 L-methionine + 2 5'-deoxyadenosine *\ - \* r2051, L-homocysteine + S-adenosyl-L-methionine -> L-methionine + S-adenosyl-L-homocysteine + H+ *\ - \* r2004b, S-adenosyl-4-methylthio-2-oxobutanoate + 7,8-diaminopelargonate -> S-adenosyl-L-methionine + 8-amino-7-oxononanoate *\ - \* r2004a, S-adenosyl-L-methionine + 8-amino-7-oxononanoate -> S-adenosyl-4-methylthio-2-oxobutanoate + 7,8-diaminopelargonate *\ - \* r1847, a sulfurated [sulfur carrier] + dethiobiotin + 2 S-adenosyl-L-methionine + 2 a reduced [2Fe-2S] ferredoxin -> an unsulfurated [sulfur carrier] + biotin + 2 5'-deoxyadenosine + 2 L-methionine + 2 an oxidized [2Fe-2S] ferredoxin *\ - \* r1829, S-adenosyl-L-methionine + cytidine1402 in 16S rRNA -> S-adenosyl-L-homocysteine + 2'-O-methylcytidine1402 in 16S rRNA + H+ *\ - \* r1799, S-adenosyl-L-methionine + precorrin-1 -> S-adenosyl-L-homocysteine + precorrin-2 *\ - \* r1767b, 2-thio-N6-dimethylallyladenosine37 in tRNA + an unsulfurated [sulfur carrier] + 5'-deoxyadenosine + L-methionine + an unknown oxidized electron acceptor + H+ -> N6-dimethylallyladenosine37 in tRNA + a sulfurated [sulfur carrier] + S-adenosyl-L-methionine + an unknown reduced electron acceptor *\ - \* r1767a, N6-dimethylallyladenosine37 in tRNA + a sulfurated [sulfur carrier] + S-adenosyl-L-methionine + an unknown reduced electron acceptor -> 2-thio-N6-dimethylallyladenosine37 in tRNA + an unsulfurated [sulfur carrier] + 5'-deoxyadenosine + L-methionine + an unknown oxidized electron acceptor + H+ *\ - \* r1745, S-adenosyl-L-methionine + uroporphyrinogen-III -> S-adenosyl-L-homocysteine + precorrin-1 + H+ *\ - \* r1735, a malonyl-[acp] + S-adenosyl-L-methionine -> a malonyl-[acp] methyl ester + S-adenosyl-L-homocysteine *\ - \* r1597, L-tyrosine + S-adenosyl-L-methionine + NADPH -> 2-iminoacetate + 4-methylphenol + 5'-deoxyadenosine + L-methionine + NADP+ + H+ *\ - \* r1526, 3-(all-trans-octaprenyl)benzene-1,2-diol + S-adenosyl-L-methionine -> 2-methoxy-6-(all-trans-octaprenyl)phenol + S-adenosyl-L-homocysteine + H+ *\ - \* r1524, guanine37 in tRNA + S-adenosyl-L-methionine -> N1-methylguanine37 in tRNA + S-adenosyl-L-homocysteine + H+ *\ - \* r1461, a [release factor]-L-glutamine + S-adenosyl-L-methionine -> a [release factor]-N5-methyl-L-glutamine + S-adenosyl-L-homocysteine + H+ *\ - \* r1400, 5-amino-1-(5-phospho-beta-D-ribosyl)imidazole + S-adenosyl-L-methionine -> 4-amino-2-methyl-5-phosphomethylpyrimidine + 5'-deoxyadenosine + L-methionine + formate + carbon monoxide + 3 H+ *\ - \* r1219, S-adenosyl-L-methionine + H+ -> CO2 + S-adenosyl 3-(methylthio)propylamine *\ - \* r1204, a [lipoyl-carrier protein] N6-octanoyl-L-lysine + 2 S-adenosyl-L-methionine + 2 a sulfurated [sulfur carrier] + 2 a reduced [2Fe-2S] ferredoxin -> a [lipoyl-carrier protein] N6-lipoyl-L-lysine + 2 5'-deoxyadenosine + 2 L-methionine + 2 an unsulfurated [sulfur carrier] + 2 an oxidized [2Fe-2S] ferredoxin *\ - \* r1056, ATP + L-methionine + H2O -> S-adenosyl-L-methionine + phosphate + diphosphate *\ - \* r940, 2-methoxy-6-all trans-octaprenyl-2-methoxy-1,4-benzoquinol + S-adenosyl-L-methionine -> 6-methoxy-3-methyl-2-all-trans-octaprenyl-1,4-benzoquinol + S-adenosyl-L-homocysteine + H+ *\ - \* r832, a [protein]-alpha-L-glutamate + S-adenosyl-L-methionine -> a [protein]-L-glutamate-O5-methyl-ester + S-adenosyl-L-homocysteine *\ - - -0.000212 objReactionName -1.0 r2302 -1.0 r2263 -2.0 r2234 -1.0 r2051 + r2004b -1.0 r2004a -2.0 r1847 -1.0 r1829 -1.0 r1799 + r1767b -1.0 r1767a -1.0 r1745 -1.0 r1735 -1.0 r1597 -1.0 r1526 -1.0 r1524 -1.0 r1461 -1.0 r1400 - -1.0 r1219 -2.0 r1204 + r1056 -1.0 r940 -1.0 r832 = 0 - -c865: \* ADENOSYL-P4[CCO-CYTOSOL] *\ - \* r2330b, 5',5'''-diadenosine tetraphosphate + diphosphate -> ATP + ATP + H+ *\ - \* r2330a, ATP + ATP + H+ -> 5',5'''-diadenosine tetraphosphate + diphosphate *\ - \* r2241, 5',5'''-diadenosine tetraphosphate + H2O -> 2 ADP + 2 H+ *\ - \* r621, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - - -1.0 r2330b + r2330a -1.0 r2241 + r621 = 0 - -c318: \* PROTOHEME[CCO-CYTOSOL] *\ - \* r1128a, heme b + (2E,6E)-farnesyl diphosphate + H2O -> heme o + diphosphate *\ - \* r1128b, heme o + diphosphate -> heme b + (2E,6E)-farnesyl diphosphate + H2O *\ - \* r1487a, Fe2+ + protoporphyrin IX -> ferroheme b + 2 H+ *\ - \* r1487b, ferroheme b + 2 H+ -> Fe2+ + protoporphyrin IX *\ - \* objReactionName, ferroheme b *\ - - -1.0 r1128a + r1128b + r1487a -1.0 r1487b -0.000223 objReactionName = 0 - -c2108: \* KDO[CCO-CYTOSOL] *\ - \* r2240, 3-deoxy-D-manno-octulosonate 8-phosphate + H2O -> 3-deoxy-D-manno-octulosonate + phosphate *\ - \* r2092, 3-deoxy-D-manno-octulosonate + CTP -> CMP-3-deoxy-alpha-D-manno-octulosonate + diphosphate *\ - - + r2240 -1.0 r2092 = 0 - -c254: \* CPD-12045[CCO-CYTOSOL] *\ - \* r1662b, L-arabinopyranose -> L-arabinofuranose *\ - \* r1662a, L-arabinofuranose -> L-arabinopyranose *\ - \* r426, L-arabinose[cytosol] + H+[periplasmic space] -> L-arabinose[periplasmic space] + H+[cytosol] *\ - \* r418, L-arabinose[periplasmic space] + H+[periplasmic space] -> L-arabinose[cytosol] + H+[cytosol] *\ - \* r128, ATP + L-arabinose[periplasmic space] + H2O -> ADP + L-arabinose[cytosol] + phosphate + H+ *\ - - + r1662b -1.0 r1662a -1.0 r426 + r418 + r128 = 0 - -c2019: \* PHOSPHORIBOSYL-FORMAMIDO-CARBOXAMIDE[CCO-CYTOSOL] *\ - \* r1872b, a tetrahydrofolate + 5-formamido-1-(5-phospho-D-ribosyl)-imidazole-4-carboxamide -> an N10-formyl-tetrahydrofolate + 5-amino-1-(5-phospho-D-ribosyl)imidazole-4-carboxamide *\ - \* r1872a, an N10-formyl-tetrahydrofolate + 5-amino-1-(5-phospho-D-ribosyl)imidazole-4-carboxamide -> a tetrahydrofolate + 5-formamido-1-(5-phospho-D-ribosyl)-imidazole-4-carboxamide *\ - \* r1857b, 5-formamido-1-(5-phospho-D-ribosyl)-imidazole-4-carboxamide -> IMP + H2O *\ - \* r1857a, IMP + H2O -> 5-formamido-1-(5-phospho-D-ribosyl)-imidazole-4-carboxamide *\ - - -1.0 r1872b + r1872a -1.0 r1857b + r1857a = 0 - -c536: \* CAMP[CCO-PERI-BAC] *\ - \* r289b, cyclic-AMP[periplasmic space] -> cyclic-AMP[cytosol] *\ - \* r289a, cyclic-AMP[cytosol] -> cyclic-AMP[periplasmic space] *\ - - -1.0 r289b + r289a = 0 - -c1802: \* DIHYDROMONAPTERIN-TRIPHOSPHATE[CCO-CYTOSOL] *\ - \* r2148, 7,8-dihydromonapterin triphosphate + 3 H2O -> 7,8-dihydromonapterin + 3 phosphate + 2 H+ *\ - \* r1538b, 7,8-dihydromonapterin triphosphate -> 7,8-dihydroneopterin 3'-triphosphate *\ - \* r1538a, 7,8-dihydroneopterin 3'-triphosphate -> 7,8-dihydromonapterin triphosphate *\ - - -1.0 r2148 -1.0 r1538b + r1538a = 0 - -c105: \* CPD0-1312[CCO-EXTRACELLULAR] *\ - \* r52, a nucleoside[extracellular space] -> a nucleoside[periplasmic space] *\ - - -1.0 r52 = 0 - -c111: \* CPD0-1319[CCO-EXTRACELLULAR] *\ - \* r55, a nucleoside[extracellular space] -> a nucleoside[periplasmic space] *\ - - -1.0 r55 = 0 - -c799: \* D-ALANINE[CCO-PERI-BAC] *\ - \* r526, D-alanine[periplasmic space] + H+[periplasmic space] -> D-alanine[cytosol] + H+[cytosol] *\ - \* r912, 2 a peptidoglycan dimer (meso-diaminopimelate containing)[periplasmic space] -> a peptidoglycan with D,D cross-links (meso-diaminopimelate containing)[periplasmic space] + D-alanine[periplasmic space] *\ - \* r2228, L-alanyl-gamma-D-glutamyl-meso-2,6-diaminopimeloyl-D-alanine + H2O -> L-alanyl-gamma-D-glutamyl-meso-diaminopimelate + D-alanine *\ - \* r2486_e, D-alanine *\ - - -1.0 r526 + r912 + r2228 -1.0 r2486_e = 0 - -c1745: \* L-XYLULOSE-5-P[CCO-CYTOSOL] *\ - \* r2153, L-xylulose + ATP -> L-xylulose -5-phosphate + ADP + H+ *\ - \* r1996, 3-keto-L-gulonate 6-phosphate + H+ -> L-xylulose -5-phosphate + CO2 *\ - \* r1460, L-xylulose -5-phosphate -> L-ribulose 5-phosphate *\ - - + r2153 + r1996 -1.0 r1460 = 0 - -c334: \* HIS[CCO-PERI-BAC] *\ - \* r454, an aromatic amino acid[cytosol] -> an aromatic amino acid[periplasmic space] *\ - \* r344, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - \* r170, ATP + L-histidine[periplasmic space] + H2O -> ADP + L-histidine[cytosol] + phosphate + H+ *\ - - + r454 + r344 -1.0 r170 = 0 - -c99: \* CPD0-1311[CCO-EXTRACELLULAR] *\ - \* r49, a nucleoside[extracellular space] -> a nucleoside[periplasmic space] *\ - - -1.0 r49 = 0 - -c986: \* 3-oxo-palmitoyl-ACPs[CCO-CYTOSOL] *\ - \* r1142, a 3-oxoacyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxyacyl-[acyl-carrier protein] + NADP+ *\ - \* r1061, a 3-oxo-palmitoyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxypalmitoyl-[acp] + NADP+ *\ - \* r826, a malonyl-[acp] + a 2,3,4-saturated fatty acyl-[acp] + H+ -> a holo-[acyl-carrier protein] + a 3-oxoacyl-[acp] + CO2 *\ - \* r705, a myristoyl-[acp] + a malonyl-[acp] + H+ -> a 3-oxo-palmitoyl-[acp] + CO2 + a holo-[acyl-carrier protein] *\ - - -1.0 r1142 -1.0 r1061 + r826 + r705 = 0 - -c984: \* AMINO-HYDROXYMETHYL-METHYLPYRIMIDINE-PP[CCO-CYTOSOL] *\ - \* r704, 4-amino-2-methyl-5-phosphomethylpyrimidine + ATP -> 4-amino-2-methyl-5-diphosphomethylpyrimidine + ADP *\ - \* r2311, 4-amino-2-methyl-5-diphosphomethylpyrimidine + H2O -> 4-amino-2-methyl-5-phosphomethylpyrimidine + phosphate + H+ *\ - \* r2327, 2-[(2R,5Z)-(2-carboxy-4-methylthiazol-5(2H)-ylidene]ethyl phosphate + 4-amino-2-methyl-5-diphosphomethylpyrimidine + 2 H+ -> thiamin phosphate + CO2 + diphosphate *\ - - + r704 -1.0 r2311 -1.0 r2327 = 0 - -c898: \* CPD0-1193[CCO-CYTOSOL] *\ - \* r655b, partially N-deacetylated poly-beta-1,6-N-acetyl-D-glucosamine + acetate + H+ -> poly-beta-1,6-N-acetyl-D-glucosamine + H2O *\ - \* r655a, poly-beta-1,6-N-acetyl-D-glucosamine + H2O -> partially N-deacetylated poly-beta-1,6-N-acetyl-D-glucosamine + acetate + H+ *\ - - -1.0 r655b + r655a = 0 - -c400: \* CPD0-1192[CCO-CYTOSOL] *\ - \* r655a, poly-beta-1,6-N-acetyl-D-glucosamine + H2O -> partially N-deacetylated poly-beta-1,6-N-acetyl-D-glucosamine + acetate + H+ *\ - \* r655b, partially N-deacetylated poly-beta-1,6-N-acetyl-D-glucosamine + acetate + H+ -> poly-beta-1,6-N-acetyl-D-glucosamine + H2O *\ - - -1.0 r655a + r655b = 0 - -c1492: \* DITP[CCO-CYTOSOL] *\ - \* r1215, dITP + H2O -> dIMP + diphosphate + H+ *\ - \* r1181, a nucleoside diphosphate + ATP -> a nucleoside triphosphate + ADP *\ - \* r1153, a nucleoside triphosphate + H2O -> a nucleoside 5'-monophosphate + diphosphate + H+ *\ - - -1.0 r1215 + r1181 -1.0 r1153 = 0 - -c1505: \* 2-AMINOACRYLATE[CCO-CYTOSOL] *\ - \* r2380, 2-aminoprop-2-enoate + H+ + H2O -> pyruvate + ammonium *\ - \* r2356, L-cystathionine -> 2-aminoprop-2-enoate + L-homocysteine + H+ *\ - \* r2249, L-serine -> 2-aminoprop-2-enoate + H+ + H2O *\ - \* r1982, L-tryptophan -> indole + 2-aminoprop-2-enoate + H+ *\ - \* r1467, D-serine -> 2-aminoprop-2-enoate + H2O + H+ *\ - \* r1269, L-cysteine -> 2-aminoprop-2-enoate + hydrogen sulfide + H+ *\ - \* r1169, 2-aminoprop-2-enoate -> 2-iminopropanoate *\ - - -1.0 r2380 + r2356 + r2249 + r1982 + r1467 + r1269 -1.0 r1169 = 0 - -c647: \* STEARIC_ACID[CCO-CYTOSOL] *\ - \* r2259, an acyl-CoA + H2O -> a carboxylate + coenzyme A + H+ *\ - \* r2063b, a 2,3,4-saturated fatty acid + acetyl-CoA -> a 2,3,4-saturated fatty acyl CoA + acetate *\ - \* r2063a, a 2,3,4-saturated fatty acyl CoA + acetate -> a 2,3,4-saturated fatty acid + acetyl-CoA *\ - \* r1278, a 2,3,4-saturated fatty acid + ATP + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + AMP + diphosphate *\ - \* r366, a long-chain fatty acid[periplasmic space] -> a long-chain fatty acid[cytosol] *\ - - + r2259 -1.0 r2063b + r2063a -1.0 r1278 + r366 = 0 - -c377: \* CPD0-1445[CCO-CYTOSOL] *\ - \* r1757b, L-alanyl-L-glutamate -> L-alanyl-D-glutamate *\ - \* r1757a, L-alanyl-D-glutamate -> L-alanyl-L-glutamate *\ - \* r1473, L-alanyl-L-glutamate + H2O -> L-alanine + L-glutamate *\ - \* r566, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r191, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - - -1.0 r1757b + r1757a -1.0 r1473 + r566 + r191 = 0 - -c2028: \* CPD-11281[CCO-CYTOSOL] *\ - \* r2402b, bisorganyltrisulfane + hydrogen sulfide + an unknown oxidized electron acceptor -> 2 S-sulfanylglutathione + an unknown reduced electron acceptor *\ - \* r2402a, 2 S-sulfanylglutathione + an unknown reduced electron acceptor -> bisorganyltrisulfane + hydrogen sulfide + an unknown oxidized electron acceptor *\ - \* r1870, hydrogen sulfide + glutathione disulfide -> S-sulfanylglutathione + glutathione *\ - - +2.0 r2402b -2.0 r2402a + r1870 = 0 - -c2165: \* 2-C-METHYL-D-ERYTHRITOL-4-PHOSPHATE[CCO-CYTOSOL] *\ - \* r2403b, 1-deoxy-D-xylulose 5-phosphate + NADPH + H+ -> 2-C-methyl-D-erythritol 4-phosphate + NADP+ *\ - \* r2403a, 2-C-methyl-D-erythritol 4-phosphate + NADP+ -> 1-deoxy-D-xylulose 5-phosphate + NADPH + H+ *\ - \* r2227, 2-C-methyl-D-erythritol 4-phosphate + CTP + H+ -> 4-(cytidine 5'-diphospho)-2-C-methyl-D-erythritol + diphosphate *\ - - + r2403b -1.0 r2403a -1.0 r2227 = 0 - -c1206: \* L-CITRULLINE[CCO-CYTOSOL] *\ - \* r1573, L-aspartate + L-citrulline + ATP -> L-arginino-succinate + AMP + diphosphate + H+ *\ - \* r849b, L-citrulline + phosphate + H+ -> L-ornithine + carbamoyl-phosphate *\ - \* r849a, L-ornithine + carbamoyl-phosphate -> L-citrulline + phosphate + H+ *\ - - -1.0 r1573 -1.0 r849b + r849a = 0 - -c1478: \* Protein-L-methionine-R-S-oxides[CCO-CYTOSOL] *\ - \* r1134b, a protein-L-methionine-(R)-S-oxide + a reduced thioredoxin -> a [protein]-L-methionine + an oxidized thioredoxin + H2O *\ - \* r1134a, a [protein]-L-methionine + an oxidized thioredoxin + H2O -> a protein-L-methionine-(R)-S-oxide + a reduced thioredoxin *\ - - -1.0 r1134b + r1134a = 0 - -c450: \* PTSI-PHOSPHORYLATED[CCO-CYTOSOL] *\ - \* r673a, PtsI-Phis189 + HPr -> HPr-Phis15 + PtsI *\ - \* r673b, HPr-Phis15 + PtsI -> PtsI-Phis189 + HPr *\ - \* r2162a, phosphoenolpyruvate + PtsI -> pyruvate + PtsI-Phis189 *\ - \* r2162b, pyruvate + PtsI-Phis189 -> phosphoenolpyruvate + PtsI *\ - - -1.0 r673a + r673b + r2162a -1.0 r2162b = 0 - -c821: \* HOMO-SER[CCO-CYTOSOL] *\ - \* r967, L-homoserine + ATP -> O-phospho-L-homoserine + ADP + H+ *\ - \* r1541, L-aspartate-semialdehyde + NAD(P)H + H+ -> L-homoserine + NAD(P)+ *\ - \* r1542, L-aspartate-semialdehyde + NAD(P)H + H+ -> L-homoserine + NAD(P)+ *\ - \* r2135, L-homoserine + succinyl-CoA -> O-succinyl-L-homoserine + coenzyme A *\ - - -1.0 r967 + r1541 + r1542 -1.0 r2135 = 0 - -c1102: \* Aromatic-Oxoacids[CCO-CYTOSOL] *\ - \* r778b, an aromatic oxo-acid + L-glutamate -> an aromatic amino acid + 2-oxoglutarate *\ - \* r778a, an aromatic amino acid + 2-oxoglutarate -> an aromatic oxo-acid + L-glutamate *\ - - -1.0 r778b + r778a = 0 - -c1521: \* 2-KETO-3-DEOXY-6-P-GLUCONATE[CCO-CYTOSOL] *\ - \* r2389, 2-dehydro-3-deoxy-D-gluconate + ATP -> 2-dehydro-3-deoxy-D-gluconate 6-phosphate + ADP + H+ *\ - \* r1359, 2-dehydro-3-deoxy-D-gluconate 6-phosphate -> D-glyceraldehyde 3-phosphate + pyruvate *\ - \* r1203, D-gluconate 6-phosphate -> 2-dehydro-3-deoxy-D-gluconate 6-phosphate + H2O *\ - - + r2389 -1.0 r1359 + r1203 = 0 - -c724: \* ENOL-OXALOACETATE[CCO-PERI-BAC] *\ - \* r516, a C4-dicarboxylate[periplasmic space] + 3 H+[periplasmic space] -> a C4-dicarboxylate[cytosol] + 3 H+[cytosol] *\ - \* r443, a C4-dicarboxylate[periplasmic space] + 2 H+[periplasmic space] -> a C4-dicarboxylate[cytosol] + 2 H+[cytosol] *\ - - -1.0 r516 -1.0 r443 = 0 - -c484: \* CPD-12284[CCO-EXTRACELLULAR] *\ - \* r252, a lipopolysaccharide[cytosol] -> a lipopolysaccharide[extracellular space] *\ - - + r252 = 0 - -c45: \* STEARIC_ACID[CCO-EXTRACELLULAR] *\ - \* r24, a long-chain fatty acid[extracellular space] -> a long-chain fatty acid[periplasmic space] *\ - - -1.0 r24 = 0 - -c175: \* CPD0-1051[CCO-CYTOSOL] *\ - \* r241, a lipopolysaccharide[cytosol] -> a lipopolysaccharide[extracellular space] *\ - \* r89, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - - -1.0 r241 -1.0 r89 = 0 - -c173: \* CPD0-1052[CCO-CYTOSOL] *\ - \* r240, a lipopolysaccharide[cytosol] -> a lipopolysaccharide[extracellular space] *\ - \* r88, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - - -1.0 r240 -1.0 r88 = 0 - -c171: \* CPD0-1050[CCO-CYTOSOL] *\ - \* r239, a lipopolysaccharide[cytosol] -> a lipopolysaccharide[extracellular space] *\ - \* r87, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - - -1.0 r239 -1.0 r87 = 0 - -c774: \* ARSENATE[CCO-CYTOSOL] *\ - \* r1090a, arsenate + a reduced glutaredoxin + H+ -> arsenite + an oxidized glutaredoxin + H2O *\ - \* r1090b, arsenite + an oxidized glutaredoxin + H2O -> arsenate + a reduced glutaredoxin + H+ *\ - \* r1091a, arsenate + a reduced glutaredoxin + H+ -> arsenite + an oxidized glutaredoxin + H2O *\ - \* r1091b, arsenite + an oxidized glutaredoxin + H2O -> arsenate + a reduced glutaredoxin + H+ *\ - - -1.0 r1090a + r1090b -1.0 r1091a + r1091b = 0 - -c1896: \* Donor-H2[CCO-PERI-BAC] *\ - \* r2104b, tetrahydrothiophene[periplasmic space] + an unknown oxidized electron acceptor[periplasmic space] + H2O[periplasmic space] -> tetrahydrothiophene 1-oxide[periplasmic space] + an unknown reduced electron acceptor[periplasmic space] *\ - \* r2104a, tetrahydrothiophene 1-oxide[periplasmic space] + an unknown reduced electron acceptor[periplasmic space] -> tetrahydrothiophene[periplasmic space] + an unknown oxidized electron acceptor[periplasmic space] + H2O[periplasmic space] *\ - \* r1647b, an aldonate[periplasmic space] + an unknown reduced electron acceptor[periplasmic space] + H+[periplasmic space] -> an aldose[periplasmic space] + an unknown oxidized electron acceptor[periplasmic space] + H2O[periplasmic space] *\ - \* r1647a, an aldose[periplasmic space] + an unknown oxidized electron acceptor[periplasmic space] + H2O[periplasmic space] -> an aldonate[periplasmic space] + an unknown reduced electron acceptor[periplasmic space] + H+[periplasmic space] *\ - - + r2104b -1.0 r2104a -1.0 r1647b + r1647a = 0 - -c1849: \* CPD-10773[CCO-CYTOSOL] *\ - \* r2196, (2R,4S)-2-methyl-2,4-dihydroxydihydrofuran-3-one + H2O -> (2R,4S)-2-methyl-2,3,3,4-tetrahydroxytetrahydrofuran *\ - \* r1593, autoinducer 2 -> (2R,4S)-2-methyl-2,4-dihydroxydihydrofuran-3-one *\ - - -1.0 r2196 + r1593 = 0 - -c1214: \* Holo-CmaD-peptidyl-carrier-protein[CCO-CYTOSOL] *\ - \* r1051, an acyl-carrier protein + coenzyme A -> adenosine 3',5'-bisphosphate + a holo-[acyl-carrier protein] + H+ *\ - \* r858, a holo-[acyl-carrier protein] + H2O -> 4'-phosphopantetheine + an acyl-carrier protein + H+ *\ - - + r1051 -1.0 r858 = 0 - -c303: \* CPD-10774[CCO-CYTOSOL] *\ - \* r2506_e, (2R,4S)-2-methyl-2,3,3,4-tetrahydroxytetrahydrofuran *\ - \* r2196, (2R,4S)-2-methyl-2,4-dihydroxydihydrofuran-3-one + H2O -> (2R,4S)-2-methyl-2,3,3,4-tetrahydroxytetrahydrofuran *\ - \* r387, (2R,4S)-2-methyl-2,3,3,4-tetrahydroxytetrahydrofuran[cytosol] -> (2R,4S)-2-methyl-2,3,3,4-tetrahydroxytetrahydrofuran[periplasmic space] *\ - \* r153, (2R,4S)-2-methyl-2,3,3,4-tetrahydroxytetrahydrofuran[periplasmic space] + ATP + H2O -> (2R,4S)-2-methyl-2,3,3,4-tetrahydroxytetrahydrofuran[cytosol] + ADP + phosphate + H+ *\ - - -1.0 r2506_e + r2196 -1.0 r387 + r153 = 0 - -c1212: \* Holo-CmaA-peptidyl-carrier-protein[CCO-CYTOSOL] *\ - \* r1052, an acyl-carrier protein + coenzyme A -> adenosine 3',5'-bisphosphate + a holo-[acyl-carrier protein] + H+ *\ - \* r857, a holo-[acyl-carrier protein] + H2O -> 4'-phosphopantetheine + an acyl-carrier protein + H+ *\ - - + r1052 -1.0 r857 = 0 - -c396: \* S-ALLANTOIN[CCO-PERI-BAC] *\ - \* r393, (S)-(+)-allantoin[periplasmic space] -> (S)-(+)-allantoin[cytosol] *\ - \* r201, allantoin[periplasmic space] -> allantoin[cytosol] *\ - - -1.0 r393 -1.0 r201 = 0 - -c1837: \* PORPHOBILINOGEN[CCO-CYTOSOL] *\ - \* r1986, 4 porphobilinogen + H2O -> 4 ammonium + hydroxymethylbilane *\ - \* r1578, 2 5-aminolevulinate -> porphobilinogen + H+ + 2 H2O *\ - - -4.0 r1986 + r1578 = 0 - -c413: \* PTSH-PHOSPHORYLATED[CCO-CYTOSOL] *\ - \* r673b, HPr-Phis15 + PtsI -> PtsI-Phis189 + HPr *\ - \* r673a, PtsI-Phis189 + HPr -> HPr-Phis15 + PtsI *\ - \* r221, HPr-Phis15 + beta-D-glucose[periplasmic space] -> beta-D-glucose 6-phosphate[cytosol] + HPr *\ - - -1.0 r673b + r673a -1.0 r221 = 0 - -c172: \* CPD0-1050[CCO-PERI-BAC] *\ - \* r87, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - - + r87 = 0 - -c1652: \* UDP-N-ACETYLMURAMATE[CCO-CYTOSOL] *\ - \* r1332, UDP-N-acetyl-alpha-D-glucosamine-enolpyruvate + NADPH + H+ -> UDP-N-acetyl-alpha-D-muramate + NADP+ *\ - \* r1404, UDP-N-acetyl-alpha-D-muramate + L-alanyl-gamma-D-glutamyl-meso-diaminopimelate + ATP -> UDP-N-acetyl-alpha-D-muramoyl-L-alanyl-gamma-D-glutamyl-meso-2,6-diaminopimelate + ADP + phosphate + H+ *\ - \* r2024, L-alanine + UDP-N-acetyl-alpha-D-muramate + ATP -> UDP-N-acetyl-alpha-D-muramoyl-L-alanine + ADP + phosphate + H+ *\ - - + r1332 -1.0 r1404 -1.0 r2024 = 0 - -c176: \* CPD0-1051[CCO-PERI-BAC] *\ - \* r89, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - - + r89 = 0 - -c1010: \* Citrate-Lyase-Citryl-Form[CCO-CYTOSOL] *\ - \* r1077, citrate + an acetyl-[holo citrate lyase acyl-carrier protein] + H+ -> a citryl-[holo citrate lyase acyl-carrier protein] + acetate *\ - \* r721, a citryl-[holo citrate lyase acyl-carrier protein] -> oxaloacetate + an acetyl-[holo citrate lyase acyl-carrier protein] + H+ *\ - - + r1077 -1.0 r721 = 0 - -c606: \* TRP[CCO-PERI-BAC] *\ - \* r502, L-tryptophan[periplasmic space] + H+[periplasmic space] -> L-tryptophan[cytosol] + H+[cytosol] *\ - \* r452, an aromatic amino acid[cytosol] -> an aromatic amino acid[periplasmic space] *\ - \* r337, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - - -1.0 r502 + r452 + r337 = 0 - -c163: \* GLN[CCO-PERI-BAC] *\ - \* r334, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - \* r82, ATP + L-glutamine[periplasmic space] + H2O -> ADP + L-glutamine[cytosol] + phosphate + H+ *\ - - + r334 -1.0 r82 = 0 - -c1320: \* Cytochromes-CL-Red[CCO-CYTOSOL] *\ - \* r946b, trimethylamine N-oxide + 2 a reduced c-type cytochrome + 3 H+ -> trimethylamine + 2 an oxidized c-type cytochrome + H2O *\ - \* r946a, trimethylamine + 2 an oxidized c-type cytochrome + H2O -> trimethylamine N-oxide + 2 a reduced c-type cytochrome + 3 H+ *\ - - -2.0 r946b +2.0 r946a = 0 - -c1613: \* PHOSPHORIBOSYL-FORMIMINO-AICAR-P[CCO-CYTOSOL] *\ - \* r2339, 1-(5-phospho-beta-D-ribosyl)-AMP + H2O -> 1-(5-phospho-beta-D-ribosyl)-5-[(5-phosphoribosylamino)methylideneamino]imidazole-4-carboxamide *\ - \* r1300, 1-(5-phospho-beta-D-ribosyl)-5-[(5-phosphoribosylamino)methylideneamino]imidazole-4-carboxamide -> phosphoribulosylformimino-AICAR-P *\ - - + r2339 -1.0 r1300 = 0 - -c376: \* CPD0-1445[CCO-PERI-BAC] *\ - \* r566, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r191, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - - -1.0 r566 -1.0 r191 = 0 - -c1775: \* L-ASPARTATE-SEMIALDEHYDE[CCO-CYTOSOL] *\ - \* r1885b, L-aspartyl-4-phosphate + NADPH + H+ -> L-aspartate-semialdehyde + NADP+ + phosphate *\ - \* r1885a, L-aspartate-semialdehyde + NADP+ + phosphate -> L-aspartyl-4-phosphate + NADPH + H+ *\ - \* r1542, L-aspartate-semialdehyde + NAD(P)H + H+ -> L-homoserine + NAD(P)+ *\ - \* r1541, L-aspartate-semialdehyde + NAD(P)H + H+ -> L-homoserine + NAD(P)+ *\ - \* r1498, pyruvate + L-aspartate-semialdehyde -> (2S,4S)-4-hydroxy-2,3,4,5-tetrahydrodipicolinate + H2O + H+ *\ - - + r1885b -1.0 r1885a -1.0 r1542 -1.0 r1541 -1.0 r1498 = 0 - -c2033: \* L-RIBULOSE[CCO-CYTOSOL] *\ - \* r1942, L-ribulose + ATP -> L-ribulose 5-phosphate + ADP + H+ *\ - \* r1880b, L-ribulose -> L-arabinopyranose *\ - \* r1880a, L-arabinopyranose -> L-ribulose *\ - - -1.0 r1942 -1.0 r1880b + r1880a = 0 - -c1309: \* RIBOFLAVIN[CCO-PERI-BAC] *\ - \* r941, FMN + H2O -> riboflavin + phosphate *\ - - + r941 = 0 - -c1362: \* CPD-225[CCO-CYTOSOL] *\ - \* r1002a, trans-aconitate -> cis-aconitate *\ - \* r1002b, cis-aconitate -> trans-aconitate *\ - - -1.0 r1002a + r1002b = 0 - -c327: \* CPD-15377[CCO-CYTOSOL] *\ - \* r1961b, a D-xylopyranose -> aldehydo-D-xylose *\ - \* r1961a, aldehydo-D-xylose -> a D-xylopyranose *\ - \* r590, D-xylose[periplasmic space] + H+[periplasmic space] -> D-xylose[cytosol] + H+[cytosol] *\ - \* r166, ATP + D-xylose[periplasmic space] + H2O -> ADP + D-xylose[cytosol] + phosphate + H+ *\ - - + r1961b -1.0 r1961a + r590 + r166 = 0 - -c1840: \* D-RIBULOSE[CCO-CYTOSOL] *\ - \* r2091b, D-ribulose -> D-arabinopyranose *\ - \* r2091a, D-arabinopyranose -> D-ribulose *\ - \* r1584, D-ribulose + ATP -> D-ribulose 1-phosphate + ADP + H+ *\ - - -1.0 r2091b + r2091a -1.0 r1584 = 0 - -c901: \* CPD-15373[CCO-CYTOSOL] *\ - \* r1358, aldehydo-D-mannose -> D-mannopyranose *\ - \* r1462a, aldehydo-D-mannose -> keto-D-fructose *\ - \* r1462b, keto-D-fructose -> aldehydo-D-mannose *\ - - -1.0 r1358 -1.0 r1462a + r1462b = 0 - -c755: \* PANTOTHENATE[CCO-CYTOSOL] *\ - \* r685, (R)-pantothenate + ATP -> (R)-4'-phosphopantothenate + ADP + H+ *\ - \* r1387, beta-alanine + (R)-pantoate + ATP -> (R)-pantothenate + AMP + diphosphate + H+ *\ - - -1.0 r685 + r1387 = 0 - -c437: \* GALACTITOL-1-PHOSPHATE[CCO-CYTOSOL] *\ - \* r2204a, galactitol 1-phosphate + NAD+ -> D-tagatofuranose 6-phosphate + NADH + H+ *\ - \* r2204b, D-tagatofuranose 6-phosphate + NADH + H+ -> galactitol 1-phosphate + NAD+ *\ - - -1.0 r2204a + r2204b = 0 - -c1129: \* R-3-hydroxymyristoyl-ACPs[CCO-CYTOSOL] *\ - \* r1141, a 3-oxoacyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxyacyl-[acyl-carrier protein] + NADP+ *\ - \* r1132, a (3R)-3-hydroxymyristoyl-[acp] + UDP-3-O-(3-hydroxymyristoyl)-alpha-D-glucosamine -> UDP-2-N,3-O-bis[(3R)-3-hydroxytetradecanoyl]-alpha-D-glucosamine + a holo-[acyl-carrier protein] + H+ *\ - \* r1033, a 3-oxo-myristoyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxymyristoyl-[acp] + NADP+ *\ - \* r970, a (3R)-3-hydroxymyristoyl-[acp] + UDP-N-acetyl-alpha-D-glucosamine -> UDP-3-O-[(3R)-3-hydroxymyristoyl]-N-acetyl-alpha-D-glucosamine + a holo-[acyl-carrier protein] *\ - \* r883, a (3R)-3-hydroxymyristoyl-[acp] -> a trans tetradec-2-enoyl-[acp] + H2O *\ - \* r792, a (3R)-3-hydroxyacyl-[acyl-carrier protein] -> a trans-2-enoyl-[acyl-carrier protein] + H2O *\ - - + r1141 -1.0 r1132 + r1033 -1.0 r970 -1.0 r883 -1.0 r792 = 0 - -c2137: \* OXALO-SUCCINATE[CCO-CYTOSOL] *\ - \* r2291b, oxalosuccinate + NADPH + H+ -> D-threo-isocitrate + NADP+ *\ - \* r2291a, D-threo-isocitrate + NADP+ -> oxalosuccinate + NADPH + H+ *\ - \* r2177b, 2-oxoglutarate + CO2 -> oxalosuccinate + H+ *\ - \* r2177a, oxalosuccinate + H+ -> 2-oxoglutarate + CO2 *\ - - -1.0 r2291b + r2291a + r2177b -1.0 r2177a = 0 - -c1971: \* MENADIOL[CCO-CYTOSOL] *\ - \* r1786b, menadiol + NAD+ -> menadione + NADH + H+ *\ - \* r1786a, menadione + NADH + H+ -> menadiol + NAD+ *\ - - -1.0 r1786b + r1786a = 0 - -c1407: \* DGTP[CCO-CYTOSOL] *\ - \* r1060, dGTP + H2O -> PPPi + 2'-deoxyguanosine + H+ *\ - \* r1509, dGTP + H2O -> dGMP + diphosphate + H+ *\ - \* r1587, dGDP + ATP -> dGTP + ADP *\ - \* objReactionName, dGTP *\ - - -1.0 r1060 -1.0 r1509 + r1587 -0.025612 objReactionName = 0 - -c2155: \* FAD[CCO-PERI-BAC] *\ - \* r2221b, a carboxylate[periplasmic space] + FADH2[periplasmic space] -> an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] *\ - \* r2221a, an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] -> a carboxylate[periplasmic space] + FADH2[periplasmic space] *\ - \* r2220b, a carboxylate[periplasmic space] + FADH2[periplasmic space] -> an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] *\ - \* r2220a, an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] -> a carboxylate[periplasmic space] + FADH2[periplasmic space] *\ - \* r2219b, a carboxylate[periplasmic space] + FADH2[periplasmic space] -> an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] *\ - \* r2219a, an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] -> a carboxylate[periplasmic space] + FADH2[periplasmic space] *\ - \* r2218b, a carboxylate[periplasmic space] + FADH2[periplasmic space] -> an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] *\ - \* r2218a, an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] -> a carboxylate[periplasmic space] + FADH2[periplasmic space] *\ - \* r2217b, a carboxylate[periplasmic space] + FADH2[periplasmic space] -> an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] *\ - \* r2217a, an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] -> a carboxylate[periplasmic space] + FADH2[periplasmic space] *\ - \* r2216b, a carboxylate[periplasmic space] + FADH2[periplasmic space] -> an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] *\ - \* r2216a, an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] -> a carboxylate[periplasmic space] + FADH2[periplasmic space] *\ - \* r2215b, a carboxylate[periplasmic space] + FADH2[periplasmic space] -> an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] *\ - \* r2215a, an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] -> a carboxylate[periplasmic space] + FADH2[periplasmic space] *\ - \* r2214b, a carboxylate[periplasmic space] + FADH2[periplasmic space] -> an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] *\ - \* r2214a, an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] -> a carboxylate[periplasmic space] + FADH2[periplasmic space] *\ - - + r2221b -1.0 r2221a + r2220b -1.0 r2220a + r2219b -1.0 r2219a + r2218b -1.0 r2218a + r2217b -1.0 r2217a + r2216b -1.0 r2216a + r2215b -1.0 r2215a + r2214b -1.0 r2214a = 0 - -c2212: \* NAD[CCO-PERI-BAC] *\ - \* r2368, NADP+ + H2O -> NAD+ + phosphate *\ - - + r2368 = 0 - -c631: \* CPD-298[CCO-CYTOSOL] *\ - \* r355, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - - -1.0 r355 = 0 - -c174: \* CPD0-1052[CCO-PERI-BAC] *\ - \* r88, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - - + r88 = 0 - -c612: \* ETHIONINE[CCO-PERI-BAC] *\ - \* r342, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - - + r342 = 0 - -c2154: \* CPD-8490[CCO-PERI-BAC] *\ - \* r2214b, a carboxylate[periplasmic space] + FADH2[periplasmic space] -> an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] *\ - \* r2214a, an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] -> a carboxylate[periplasmic space] + FADH2[periplasmic space] *\ - - + r2214b -1.0 r2214a = 0 - -c1251: \* D-RIBULOSE-1-P[CCO-CYTOSOL] *\ - \* r1584, D-ribulose + ATP -> D-ribulose 1-phosphate + ADP + H+ *\ - \* r889b, glycolaldehyde + glycerone phosphate -> D-ribulose 1-phosphate *\ - \* r889a, D-ribulose 1-phosphate -> glycolaldehyde + glycerone phosphate *\ - - + r1584 + r889b -1.0 r889a = 0 - -c305: \* CPD-15629[CCO-CYTOSOL] *\ - \* r816b, aldehydo-D-allose -> D-allopyranose *\ - \* r816a, D-allopyranose -> aldehydo-D-allose *\ - \* r154, D-allose[periplasmic space] + ATP + H2O -> D-allose[cytosol] + ADP + phosphate + H+ *\ - - -1.0 r816b + r816a + r154 = 0 - -c1008: \* BCCP-dimers[CCO-CYTOSOL] *\ - \* r1195, 2 a biotinylated [BCCP monomer] -> a biotinylated [BCCP dimer] *\ - \* r1003, ATP + acetyl-CoA + a carboxylated-biotinylated [BCCP dimer] + H2O -> malonyl-CoA + a biotinylated [BCCP dimer] + ADP + phosphate + H+ *\ - \* r720, a biotinylated [BCCP dimer] + hydrogen carbonate + ATP -> a carboxylated-biotinylated [BCCP dimer] + ADP + phosphate + H+ *\ - - + r1195 + r1003 -1.0 r720 = 0 - -c1908: \* CPD0-2468[CCO-CYTOSOL] *\ - \* r1683b, 3,4,4-trihydroxy-2-pentanone 5-phosphate -> 3-hydroxy-2,4-pentanedione 5-phosphate + H2O *\ - \* r1683a, 3-hydroxy-2,4-pentanedione 5-phosphate + H2O -> 3,4,4-trihydroxy-2-pentanone 5-phosphate *\ - - -1.0 r1683b + r1683a = 0 - -c1750: \* CPD0-2467[CCO-CYTOSOL] *\ - \* r2265, 3-hydroxy-2,4-pentanedione 5-phosphate + coenzyme A -> glycerone phosphate + acetyl-CoA *\ - \* r1683b, 3,4,4-trihydroxy-2-pentanone 5-phosphate -> 3-hydroxy-2,4-pentanedione 5-phosphate + H2O *\ - \* r1683a, 3-hydroxy-2,4-pentanedione 5-phosphate + H2O -> 3,4,4-trihydroxy-2-pentanone 5-phosphate *\ - \* r1464, (4S)-4-hydroxy-2,3-pentanedione 5-phosphate -> 3-hydroxy-2,4-pentanedione 5-phosphate *\ - - -1.0 r2265 + r1683b -1.0 r1683a + r1464 = 0 - -c59: \* CPD-10246[CCO-CYTOSOL] *\ - \* r30, ATP + an aliphatic sulfonate[periplasmic space] + H2O -> an aliphatic sulfonate[cytosol] + ADP + phosphate + H+ *\ - - + r30 = 0 - -c70: \* CPD-3746[CCO-CYTOSOL] *\ - \* r1501, an alkylsulfonate + FMNH2 + oxygen -> an aldehyde + sulfite + FMN + H2O + 2 H+ *\ - \* r34, ATP + an aliphatic sulfonate[periplasmic space] + H2O -> an aliphatic sulfonate[cytosol] + ADP + phosphate + H+ *\ - - -1.0 r1501 + r34 = 0 - -c2010: \* CPD-536[CCO-PERI-BAC] *\ - \* r1841, glycerol 2-phosphate + H2O -> glycerol + phosphate *\ - - -1.0 r1841 = 0 - -c229: \* CPD0-935[CCO-CYTOSOL] *\ - \* r2121, UDP-alpha-D-galactose + glucosyl-(heptosyl)3-Kdo2-lipid A-bisphosphate -> galactosyl-glucosyl-(heptosyl)3-Kdo2-lipid A-bisphosphate + UDP + H+ *\ - \* r934, glucosyl-(heptosyl)3-Kdo2-lipid A-phosphate + ATP -> glucosyl-(heptosyl)3-Kdo2-lipid A-bisphosphate + ADP + H+ *\ - \* r268, a lipopolysaccharide[cytosol] -> a lipopolysaccharide[extracellular space] *\ - \* r116, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - - -1.0 r2121 + r934 -1.0 r268 -1.0 r116 = 0 - -c1966: \* KDO-8P[CCO-CYTOSOL] *\ - \* r2240, 3-deoxy-D-manno-octulosonate 8-phosphate + H2O -> 3-deoxy-D-manno-octulosonate + phosphate *\ - \* r1768, D-arabinose 5-phosphate + phosphoenolpyruvate + H2O -> 3-deoxy-D-manno-octulosonate 8-phosphate + phosphate *\ - - -1.0 r2240 + r1768 = 0 - -c2055: \* GERANYL-PP[CCO-CYTOSOL] *\ - \* r2044, dimethylallyl diphosphate + isopentenyl diphosphate -> geranyl diphosphate + diphosphate *\ - \* r1931, geranyl diphosphate + isopentenyl diphosphate -> (2E,6E)-farnesyl diphosphate + diphosphate *\ - - + r2044 -1.0 r1931 = 0 - -c882: \* CYTOSINE[CCO-CYTOSOL] *\ - \* r1306, cytosine + H+ + H2O -> ammonium + uracil *\ - \* r1326, cytidine + H2O -> D-ribofuranose + cytosine *\ - - -1.0 r1306 + r1326 = 0 - -c49: \* AMMONIUM[CCO-PERI-BAC] *\ - \* r26a, ammonium[periplasmic space] -> ammonium[cytosol] *\ - \* r26b, ammonium[cytosol] -> ammonium[periplasmic space] *\ - \* r2284, L-asparagine + H2O -> L-aspartate + ammonium *\ - - -1.0 r26a + r26b + r2284 = 0 - -c1323: \* 4-CYTIDINE-5-DIPHOSPHO-2-C[CCO-CYTOSOL] *\ - \* r2227, 2-C-methyl-D-erythritol 4-phosphate + CTP + H+ -> 4-(cytidine 5'-diphospho)-2-C-methyl-D-erythritol + diphosphate *\ - \* r948, 4-(cytidine 5'-diphospho)-2-C-methyl-D-erythritol + ATP -> 2-phospho-4-(cytidine 5'-diphospho)-2-C-methyl-D-erythritol + ADP + H+ *\ - - + r2227 -1.0 r948 = 0 - -c1536: \* OH-PYR[CCO-CYTOSOL] *\ - \* r1910b, tartronate semialdehyde -> hydroxypyruvate *\ - \* r1910a, hydroxypyruvate -> tartronate semialdehyde *\ - \* r1280, 3-phospho-hydroxypyruvate + H2O -> hydroxypyruvate + phosphate *\ - \* r1226, hydroxypyruvate + NADPH + H+ -> D-glycerate + NADP+ *\ - - + r1910b -1.0 r1910a + r1280 -1.0 r1226 = 0 - -c1432: \* 5-KETO-4-DEOXY-D-GLUCARATE[CCO-CYTOSOL] *\ - \* r1148a, 5-dehydro-4-deoxy-D-glucarate -> pyruvate + tartronate semialdehyde *\ - \* r1148b, pyruvate + tartronate semialdehyde -> 5-dehydro-4-deoxy-D-glucarate *\ - - -1.0 r1148a + r1148b = 0 - -c1498: \* DHB-Seryl-EntF[CCO-CYTOSOL] *\ - \* r1528, 3 a DHB-seryl-[EntF peptidyl-carrier protein] -> enterobactin + 3 a holo [EntF peptidyl-carrier protein] *\ - \* r1161, a 2,3-dihydroxybenzoyl-[EntB isochorismatase/aryl-carrier protein] + a seryl-[EntF peptidyl-carrier protein] -> a holo EntB isochorismatase/aryl-carrier protein + a DHB-seryl-[EntF peptidyl-carrier protein] + H+ *\ - - -3.0 r1528 + r1161 = 0 - -c1731: \* OXOPENTENOATE[CCO-CYTOSOL] *\ - \* r2082b, 2-oxopent-4-enoate -> (2E)-2-hydroxypenta-2,4-dienoate *\ - \* r2082a, (2E)-2-hydroxypenta-2,4-dienoate -> 2-oxopent-4-enoate *\ - \* r2043b, 2-oxopent-4-enoate -> (2Z)-2-hydroxypenta-2,4-dienoate *\ - \* r2043a, (2Z)-2-hydroxypenta-2,4-dienoate -> 2-oxopent-4-enoate *\ - \* r1615, 2-oxopent-4-enoate + H2O -> 4-hydroxy-2-oxopentanoate *\ - \* r1441b, (3Z)-2-oxopent-3-enoate -> 2-oxopent-4-enoate *\ - \* r1441a, 2-oxopent-4-enoate -> (3Z)-2-oxopent-3-enoate *\ - - -1.0 r2082b + r2082a -1.0 r2043b + r2043a -1.0 r1615 + r1441b -1.0 r1441a = 0 - -c1276: \* CPD-12231[CCO-PERI-BAC] *\ - \* r2235, 2 ditrans,octacis-undecaprenyldiphospho-N-acetyl-(N-acetylglucosaminyl)muramoyl-L-alanyl-gamma-D-glutamyl-meso-2,6-diaminopimeloyl-D-alanyl-D-alanine[periplasmic space] -> a peptidoglycan dimer (meso-diaminopimelate containing)[periplasmic space] + di-trans,octa-cis-undecaprenyl diphosphate[periplasmic space] + H+[periplasmic space] *\ - \* r912, 2 a peptidoglycan dimer (meso-diaminopimelate containing)[periplasmic space] -> a peptidoglycan with D,D cross-links (meso-diaminopimelate containing)[periplasmic space] + D-alanine[periplasmic space] *\ - - + r2235 -2.0 r912 = 0 - -c1627: \* CPD-822[CCO-CYTOSOL] *\ - \* r1725, N2-succinyl-L-glutamate 5-semialdehyde + NAD+ + H2O -> N2-succinylglutamate + NADH + 2 H+ *\ - \* r1312b, N2-succinyl-L-glutamate 5-semialdehyde + L-glutamate -> N2-succinyl-L-ornithine + 2-oxoglutarate *\ - \* r1312a, N2-succinyl-L-ornithine + 2-oxoglutarate -> N2-succinyl-L-glutamate 5-semialdehyde + L-glutamate *\ - - -1.0 r1725 -1.0 r1312b + r1312a = 0 - -c730: \* CPD-660[CCO-PERI-BAC] *\ - \* r521, a C4-dicarboxylate[periplasmic space] + 3 H+[periplasmic space] -> a C4-dicarboxylate[cytosol] + 3 H+[cytosol] *\ - \* r488, (R)-malate[periplasmic space] + 2 H+[periplasmic space] -> (R)-malate[cytosol] + 2 H+[cytosol] *\ - \* r448, a C4-dicarboxylate[periplasmic space] + 2 H+[periplasmic space] -> a C4-dicarboxylate[cytosol] + 2 H+[cytosol] *\ - - -1.0 r521 -1.0 r488 -1.0 r448 = 0 - -c395: \* R--ALLANTOIN[CCO-CYTOSOL] *\ - \* r200, allantoin[periplasmic space] -> allantoin[cytosol] *\ - - + r200 = 0 - -c83: \* DEOXYURIDINE[CCO-EXTRACELLULAR] *\ - \* r41, a nucleoside[extracellular space] -> a nucleoside[periplasmic space] *\ - - -1.0 r41 = 0 - -c736: \* CPD-216[CCO-CYTOSOL] *\ - \* r455, an aromatic amino acid[cytosol] -> an aromatic amino acid[periplasmic space] *\ - - -1.0 r455 = 0 - -c1777: \* AMINO-ACETONE[CCO-CYTOSOL] *\ - \* r2417b, aminoacetone + CO2 + NADPH -> L-allo-threonine + NADP+ *\ - \* r2417a, L-allo-threonine + NADP+ -> aminoacetone + CO2 + NADPH *\ - \* r1505, 2-amino-3-oxobutanoate + H+ -> aminoacetone + CO2 *\ - - -1.0 r2417b + r2417a + r1505 = 0 - -c1322: \* Cytochromes-C-Reduced[CCO-CYTOSOL] *\ - \* r947b, trimethylamine N-oxide + 2 a reduced c-type cytochrome + 3 H+ -> trimethylamine + 2 an oxidized c-type cytochrome + H2O *\ - \* r947a, trimethylamine + 2 an oxidized c-type cytochrome + H2O -> trimethylamine N-oxide + 2 a reduced c-type cytochrome + 3 H+ *\ - - -2.0 r947b +2.0 r947a = 0 - -c1721: \* Charged-TYR-tRNAs[CCO-CYTOSOL] *\ - \* objReactionName, an L-tyrosyl-[tRNAtyr] *\ - \* r1425, a tRNAtyr + L-tyrosine + ATP + H+ -> an L-tyrosyl-[tRNAtyr] + AMP + diphosphate *\ - - -0.133993 objReactionName + r1425 = 0 - -c46: \* STEARIC_ACID[CCO-PERI-BAC] *\ - \* r24, a long-chain fatty acid[extracellular space] -> a long-chain fatty acid[periplasmic space] *\ - \* r366, a long-chain fatty acid[periplasmic space] -> a long-chain fatty acid[cytosol] *\ - - + r24 -1.0 r366 = 0 - -c1406: \* Protein-L-methionine[CCO-CYTOSOL] *\ - \* r1134b, a protein-L-methionine-(R)-S-oxide + a reduced thioredoxin -> a [protein]-L-methionine + an oxidized thioredoxin + H2O *\ - \* r1134a, a [protein]-L-methionine + an oxidized thioredoxin + H2O -> a protein-L-methionine-(R)-S-oxide + a reduced thioredoxin *\ - \* r1059, a protein-L-methionine-(S)-S-oxide + a reduced thioredoxin -> a [protein]-L-methionine + an oxidized thioredoxin + H2O *\ - - + r1134b -1.0 r1134a + r1059 = 0 - -c519: \* METOH[CCO-CYTOSOL] *\ - \* r280, methanol[cytosol] -> methanol[periplasmic space] *\ - \* r956, a [protein]-L-glutamate-O5-methyl-ester + H2O -> a [protein]-alpha-L-glutamate + methanol + H+ *\ - \* r1193, a pimeloyl-[acp] methyl ester + H2O -> a pimeloyl-[acp] + methanol + H+ *\ - - -1.0 r280 + r956 + r1193 = 0 - -c72: \* CPD0-1958[CCO-CYTOSOL] *\ - \* r35, ATP + an aliphatic sulfonate[periplasmic space] + H2O -> an aliphatic sulfonate[cytosol] + ADP + phosphate + H+ *\ - - + r35 = 0 - -c281: \* CPD0-939[CCO-CYTOSOL] *\ - \* r1449a, lipid A-core + di-trans,octa-cis-undecaprenyl diphosphate + H+ -> lipid A-core 1-diphosphate + di-trans,octa-cis-undecaprenyl phosphate *\ - \* r1449b, lipid A-core 1-diphosphate + di-trans,octa-cis-undecaprenyl phosphate -> lipid A-core + di-trans,octa-cis-undecaprenyl diphosphate + H+ *\ - \* r2222, galactosyl-(glucosyl)3-(heptosyl)3-Kdo2-lipid A-bisphosphate + ADP-L-glycero-beta-D-manno-heptose -> lipid A-core + ADP + H+ *\ - \* objReactionName, lipid A-core *\ - - -1.0 r1449a + r1449b + r2222 -0.008151 objReactionName = 0 - -c1757: \* Charged-ARG-tRNAs[CCO-CYTOSOL] *\ - \* objReactionName, an L-arginyl-[tRNAarg] *\ - \* r1476, a tRNAarg + L-arginine + ATP + H+ -> an L-arginyl-[tRNAarg] + AMP + diphosphate *\ - - -0.28742 objReactionName + r1476 = 0 - -c2012: \* GLUCOSAMINE-1P[CCO-CYTOSOL] *\ - \* r2245b, D-glucosamine 6-phosphate -> D-glucosamine 1-phosphate *\ - \* r2245a, D-glucosamine 1-phosphate -> D-glucosamine 6-phosphate *\ - \* r1843, D-glucosamine 1-phosphate + acetyl-CoA -> N-acetyl-alpha-D-glucosamine 1-phosphate + coenzyme A + H+ *\ - - + r2245b -1.0 r2245a -1.0 r1843 = 0 - -c1411: \* DI-H-OROTATE[CCO-CYTOSOL] *\ - \* r1671, (S)-dihydroorotate + an ubiquinone[inner membrane] -> orotate + an ubiquinol[inner membrane] *\ - \* r1657, (S)-dihydroorotate + a menaquinone[inner membrane] -> orotate + a menaquinol[inner membrane] *\ - \* r1637, (S)-dihydroorotate + an electron-transfer quinone[inner membrane] -> orotate + an electron-transfer quinol[inner membrane] *\ - \* r1636, (S)-dihydroorotate + an electron-transfer quinone[inner membrane] -> orotate + an electron-transfer quinol[inner membrane] *\ - \* r1067b, N-carbamoyl-L-aspartate + H+ -> (S)-dihydroorotate + H2O *\ - \* r1067a, (S)-dihydroorotate + H2O -> N-carbamoyl-L-aspartate + H+ *\ - - -1.0 r1671 -1.0 r1657 -1.0 r1637 -1.0 r1636 + r1067b -1.0 r1067a = 0 - -c2142: \* 3-KETO-ADIPYL-COA[CCO-CYTOSOL] *\ - \* r2279, 3-oxoadipyl-CoA + coenzyme A -> succinyl-CoA + acetyl-CoA *\ - \* r2188b, 3-oxoadipyl-CoA + NADH + H+ -> 3-hydroxyadipyl-CoA + NAD+ *\ - \* r2188a, 3-hydroxyadipyl-CoA + NAD+ -> 3-oxoadipyl-CoA + NADH + H+ *\ - - -1.0 r2279 -1.0 r2188b + r2188a = 0 - -c1357: \* HypE-S-carboxamide[CCO-CYTOSOL] *\ - \* r2419, carbamoyl-phosphate + HypE + ATP + H2O -> a HypE hydrogenase maturation protein-S-carboxamide + AMP + diphosphate + phosphate *\ - \* r992b, a HypE hydrogenase maturation protein-S-carboxamide + AMP -> O-carbamoyladenylate + HypE *\ - \* r992a, O-carbamoyladenylate + HypE -> a HypE hydrogenase maturation protein-S-carboxamide + AMP *\ - - + r2419 -1.0 r992b + r992a = 0 - -c502: \* CPD0-1049[CCO-EXTRACELLULAR] *\ - \* r270, a lipopolysaccharide[cytosol] -> a lipopolysaccharide[extracellular space] *\ - - + r270 = 0 - -c1170: \* POLYMER-INST-Saturated-Fatty-Acyl-ACPs-C0-H0[CCO-CYTOSOL] *\ - \* r1015, a trans-2-enoyl-[acyl-carrier protein] + NADH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NAD+ *\ - \* r865, a trans-2-enoyl-[acyl-carrier protein] + NADPH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NADP+ *\ - \* r821, a malonyl-[acp] + a 2,3,4-saturated fatty acyl-[acp] + H+ -> a holo-[acyl-carrier protein] + a 3-oxoacyl-[acp] + CO2 *\ - - + r1015 + r865 -1.0 r821 = 0 - -c726: \* MALEATE[CCO-PERI-BAC] *\ - \* r518, a C4-dicarboxylate[periplasmic space] + 3 H+[periplasmic space] -> a C4-dicarboxylate[cytosol] + 3 H+[cytosol] *\ - \* r445, a C4-dicarboxylate[periplasmic space] + 2 H+[periplasmic space] -> a C4-dicarboxylate[cytosol] + 2 H+[cytosol] *\ - - -1.0 r518 -1.0 r445 = 0 - -c449: \* MANNOSE-6P[CCO-CYTOSOL] *\ - \* r2353b, beta-D-mannose 6-phosphate -> alpha-D-mannose 6-phosphate *\ - \* r2353a, alpha-D-mannose 6-phosphate -> beta-D-mannose 6-phosphate *\ - \* r2178b, alpha-D-mannose 6-phosphate -> alpha-D-mannose 1-phosphate *\ - \* r2178a, alpha-D-mannose 1-phosphate -> alpha-D-mannose 6-phosphate *\ - \* r2069b, beta-D-fructofuranose 6-phosphate -> alpha-D-mannose 6-phosphate *\ - \* r2069a, alpha-D-mannose 6-phosphate -> beta-D-fructofuranose 6-phosphate *\ - \* r1365, D-mannopyranose + ATP -> alpha-D-mannose 6-phosphate + ADP + H+ *\ - - + r2353b -1.0 r2353a -1.0 r2178b + r2178a + r2069b -1.0 r2069a + r1365 = 0 - -c151: \* GLUTATHIONE[CCO-PERI-BAC] *\ - \* r1840, glutathione[periplasmic space] + H2O[periplasmic space] -> L-cysteinyl-glycine[periplasmic space] + L-glutamate[periplasmic space] *\ - \* r482, glutathione[cytosol] + ATP + H2O -> glutathione[periplasmic space] + ADP + phosphate + H+ *\ - \* r75, glutathione[periplasmic space] + ATP + H2O -> glutathione[cytosol] + ADP + phosphate + H+ *\ - - -1.0 r1840 + r482 -1.0 r75 = 0 - -c501: \* CPD0-1048[CCO-EXTRACELLULAR] *\ - \* r269, a lipopolysaccharide[cytosol] -> a lipopolysaccharide[extracellular space] *\ - - + r269 = 0 - -c1455: \* MANNOSE-1P[CCO-CYTOSOL] *\ - \* r2178b, alpha-D-mannose 6-phosphate -> alpha-D-mannose 1-phosphate *\ - \* r2178a, alpha-D-mannose 1-phosphate -> alpha-D-mannose 6-phosphate *\ - \* r1338, GDP-alpha-D-mannose + H2O -> GMP + alpha-D-mannose 1-phosphate + 2 H+ *\ - \* r1109, alpha-D-mannose 1-phosphate + GTP + H+ -> GDP-alpha-D-mannose + diphosphate *\ - - + r2178b -1.0 r2178a + r1338 -1.0 r1109 = 0 - -c311: \* CPD0-1564[CCO-CYTOSOL] *\ - \* r1858b, glutathione disulfide + 2 D-cysteine -> D-cystine + 2 glutathione *\ - \* r1858a, D-cystine + 2 glutathione -> glutathione disulfide + 2 D-cysteine *\ - \* r739, a reduced thioredoxin + D-cystine -> an oxidized thioredoxin + 2 D-cysteine *\ - \* r299, cystine[cytosol] -> cystine[periplasmic space] *\ - \* r158, D-cystine[periplasmic space] -> D-cystine[cytosol] *\ - - + r1858b -1.0 r1858a -1.0 r739 -1.0 r299 + r158 = 0 - -c86: \* DEOXYCYTIDINE[CCO-PERI-BAC] *\ - \* r42, a nucleoside[extracellular space] -> a nucleoside[periplasmic space] *\ - \* r429, 2'-deoxycytidine[periplasmic space] + H+[periplasmic space] -> 2'-deoxycytidine[cytosol] + H+[cytosol] *\ - \* r602, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - - + r42 -1.0 r429 -1.0 r602 = 0 - -c1360: \* 3-hydroxypimeloyl-ACP-methyl-esters[CCO-CYTOSOL] *\ - \* r1162, a 3-oxo-pimeloyl-[acp] methyl ester + NADPH + H+ -> a (3R)-3-hydroxypimeloyl-[acp] methyl ester + NADP+ *\ - \* r997, a (3R)-3-hydroxypimeloyl-[acp] methyl ester -> an enoylpimeloyl-[acp] methyl ester + H2O *\ - - + r1162 -1.0 r997 = 0 - -c1268: \* DIHYDROFOLATE[CCO-CYTOSOL] *\ - \* r2101, L-glutamate + 7,8-dihydropteroate + ATP -> ADP + 7,8-dihydrofolate monoglutamate + phosphate + H+ *\ - \* r1733, a 5,10-methylene-tetrahydrofolate + dUMP -> dTMP + a 7,8-dihydrofolate *\ - \* r902, a 7,8-dihydrofolate + NADPH + H+ -> a tetrahydrofolate + NADP+ *\ - - + r2101 + r1733 -1.0 r902 = 0 - -c2112: \* TETRAHYDROTHIOPHENE-1-OXIDE[CCO-PERI-BAC] *\ - \* r2104b, tetrahydrothiophene[periplasmic space] + an unknown oxidized electron acceptor[periplasmic space] + H2O[periplasmic space] -> tetrahydrothiophene 1-oxide[periplasmic space] + an unknown reduced electron acceptor[periplasmic space] *\ - \* r2104a, tetrahydrothiophene 1-oxide[periplasmic space] + an unknown reduced electron acceptor[periplasmic space] -> tetrahydrothiophene[periplasmic space] + an unknown oxidized electron acceptor[periplasmic space] + H2O[periplasmic space] *\ - - + r2104b -1.0 r2104a = 0 - -c215: \* CPD-11653[CCO-CYTOSOL] *\ - \* r1985b, a 1,2-diacyl-sn-glycerol + 7-O-[2-aminoethoxy(hydroxy)phosphoryl]-alpha-D-Kdo-(2->4)-alpha-D-Kdo-(2->6)-lipid A -> an L-1-phosphatidylethanolamine + alpha-D-Kdo-(2->4)-alpha-D-Kdo-(2->6)-lipid A *\ - \* r1985a, an L-1-phosphatidylethanolamine + alpha-D-Kdo-(2->4)-alpha-D-Kdo-(2->6)-lipid A -> a 1,2-diacyl-sn-glycerol + 7-O-[2-aminoethoxy(hydroxy)phosphoryl]-alpha-D-Kdo-(2->4)-alpha-D-Kdo-(2->6)-lipid A *\ - \* r261, a lipopolysaccharide[cytosol] -> a lipopolysaccharide[extracellular space] *\ - \* r109, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - - -1.0 r1985b + r1985a -1.0 r261 -1.0 r109 = 0 - -c390: \* CPD-13390[CCO-PERI-BAC] *\ - \* r573, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r198, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - - -1.0 r573 -1.0 r198 = 0 - -c674: \* CPD-397[CCO-CYTOSOL] *\ - \* r835a, S-methyl-L-methionine + L-homocysteine -> 2 L-methionine + H+ *\ - \* r835b, 2 L-methionine + H+ -> S-methyl-L-methionine + L-homocysteine *\ - - -1.0 r835a + r835b = 0 - -c1093: \* 3-Ketoglutaryl-ACP-methyl-ester[CCO-CYTOSOL] *\ - \* r929, a malonyl-[acp] methyl ester + a malonyl-[acp] + H+ -> a 3-oxo-glutaryl-[acp] methyl ester + CO2 + a holo-[acyl-carrier protein] *\ - \* r773, a 3-oxo-glutaryl-[acp] methyl ester + NADPH + H+ -> a (3R)-3-hydroxyglutaryl-[acp] methyl ester + NADP+ *\ - - + r929 -1.0 r773 = 0 - -c797: \* CHOLINE[CCO-PERI-BAC] *\ - \* r525, choline[periplasmic space] + H+[periplasmic space] -> choline[cytosol] + H+[cytosol] *\ - \* r552, choline[cytosol] + 2 H+[periplasmic space] -> choline[periplasmic space] + 2 H+[cytosol] *\ - - -1.0 r525 + r552 = 0 - -c1539: \* THIAMINE-PYROPHOSPHATE[CCO-CYTOSOL] *\ - \* objReactionName, thiamin diphosphate *\ - \* r2122b, a [pyruvate dehydrogenase E2 protein] N6-S-acetyldihydrolipoyl-L-lysine + thiamin diphosphate -> 2-(alpha-hydroxyethyl)thiamine diphosphate + a [pyruvate dehydrogenase E2 protein] N6-lipoyl-L-lysine *\ - \* r2122a, 2-(alpha-hydroxyethyl)thiamine diphosphate + a [pyruvate dehydrogenase E2 protein] N6-lipoyl-L-lysine -> a [pyruvate dehydrogenase E2 protein] N6-S-acetyldihydrolipoyl-L-lysine + thiamin diphosphate *\ - \* r1953b, adenosine thiamine triphosphate + phosphate -> thiamin diphosphate + ADP + H+ *\ - \* r1953a, thiamin diphosphate + ADP + H+ -> adenosine thiamine triphosphate + phosphate *\ - \* r1750b, 2-(alpha-hydroxyethyl)thiamine diphosphate + CO2 -> pyruvate + thiamin diphosphate + H+ *\ - \* r1750a, pyruvate + thiamin diphosphate + H+ -> 2-(alpha-hydroxyethyl)thiamine diphosphate + CO2 *\ - \* r1729, thiamin phosphate + ATP -> thiamin diphosphate + ADP *\ - \* r1231b, thiamin phosphate + phosphate + H+ -> thiamin diphosphate + H2O *\ - \* r1231a, thiamin diphosphate + H2O -> thiamin phosphate + phosphate + H+ *\ - - -0.000203 objReactionName -1.0 r2122b + r2122a + r1953b -1.0 r1953a + r1750b -1.0 r1750a + r1729 + r1231b -1.0 r1231a = 0 - -c1500: \* TAGATOSE[CCO-CYTOSOL] *\ - \* r1163b, keto-D-tagatose -> D-tagatofuranose *\ - \* r1163a, D-tagatofuranose -> keto-D-tagatose *\ - - -1.0 r1163b + r1163a = 0 - -c1476: \* OH-MYRISTOYL[CCO-CYTOSOL] *\ - \* r2351, 2,3-bis[(3R)-3-hydroxymyristoyl]-alpha-D-glucosaminyl 1-phosphate + UDP-2-N,3-O-bis[(3R)-3-hydroxytetradecanoyl]-alpha-D-glucosamine -> lipid A disaccharide + UDP + H+ *\ - \* r1862, UDP-2-N,3-O-bis[(3R)-3-hydroxytetradecanoyl]-alpha-D-glucosamine + H2O -> 2,3-bis[(3R)-3-hydroxymyristoyl]-alpha-D-glucosaminyl 1-phosphate + UMP + 2 H+ *\ - \* r1132, a (3R)-3-hydroxymyristoyl-[acp] + UDP-3-O-(3-hydroxymyristoyl)-alpha-D-glucosamine -> UDP-2-N,3-O-bis[(3R)-3-hydroxytetradecanoyl]-alpha-D-glucosamine + a holo-[acyl-carrier protein] + H+ *\ - - -1.0 r2351 -1.0 r1862 + r1132 = 0 - -c858: \* 5-METHYLAMINOMETHYL-2-SELENOURIDINE[CCO-CYTOSOL] *\ - \* r608, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - - + r608 = 0 - -c144: \* CPD-8260[CCO-CYTOSOL] *\ - \* objReactionName, 1,2-dipalmitoyl-phosphatidylglycerol *\ - \* r2376, an L-1-phosphatidylglycerol-phosphate + H2O -> an L-1-phosphatidyl-glycerol + phosphate *\ - \* r1574, an L-1-phosphatidyl-glycerol + an L-1-phosphatidylethanolamine -> a cardiolipin + ethanolamine *\ - \* r1484, 2 an L-1-phosphatidyl-glycerol -> a cardiolipin + glycerol *\ - \* r952, an L-1-phosphatidyl-glycerol + ATP -> an L-1-phosphatidylglycerol-phosphate + ADP + H+ *\ - \* r71, a glycerophosphodiester[periplasmic space] + ATP + H2O -> a glycerophosphodiester[cytosol] + ADP + phosphate + H+ *\ - - -0.023092 objReactionName + r2376 -1.0 r1574 -2.0 r1484 -1.0 r952 + r71 = 0 - -c1670: \* L-HISTIDINOL-P[CCO-PERI-BAC] *\ - \* r1353, L-histidinol-phosphate + H2O -> histidinol + phosphate *\ - - -1.0 r1353 = 0 - -c1585: \* CPD-3617[CCO-CYTOSOL] *\ - \* r1274, a 2,3,4-saturated fatty acid + ATP + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + AMP + diphosphate *\ - \* r2065a, a 2,3,4-saturated fatty acyl CoA + acetate -> a 2,3,4-saturated fatty acid + acetyl-CoA *\ - \* r2065b, a 2,3,4-saturated fatty acid + acetyl-CoA -> a 2,3,4-saturated fatty acyl CoA + acetate *\ - \* r2254, an acyl-CoA + H2O -> a carboxylate + coenzyme A + H+ *\ - - -1.0 r1274 + r2065a -1.0 r2065b + r2254 = 0 - -c1163: \* 3-oxo-decanoyl-ACPs[CCO-CYTOSOL] *\ - \* r1139, a 3-oxoacyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxyacyl-[acyl-carrier protein] + NADP+ *\ - \* r962, an octanoyl-[acp] + a malonyl-[acp] + H+ -> a 3-oxo-decanoyl-[acp] + CO2 + a holo-[acyl-carrier protein] *\ - \* r823, a malonyl-[acp] + a 2,3,4-saturated fatty acyl-[acp] + H+ -> a holo-[acyl-carrier protein] + a 3-oxoacyl-[acp] + CO2 *\ - \* r811, a 3-oxo-decanoyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxydecanoyl-[acp] + NADP+ *\ - - -1.0 r1139 + r962 + r823 -1.0 r811 = 0 - -c138: \* L-1-GLYCEROPHOSPHORYLETHANOL-AMINE[CCO-CYTOSOL] *\ - \* r1853, sn-glycero-3-phosphoethanolamine + H2O -> sn-glycerol 3-phosphate + ethanolamine + H+ *\ - \* r68, a glycerophosphodiester[periplasmic space] + ATP + H2O -> a glycerophosphodiester[cytosol] + ADP + phosphate + H+ *\ - - -1.0 r1853 + r68 = 0 - -c1289: \* D-BETA-D-HEPTOSE-17-DIPHOSPHATE[CCO-CYTOSOL] *\ - \* r2025, D-glycero-D-manno-heptose 7-phosphate + ATP -> D-glycero-beta-D-manno-heptose 1,7-bisphosphate + ADP + H+ *\ - \* r923, D-glycero-beta-D-manno-heptose 1,7-bisphosphate + H2O -> D-glycero-beta-D-manno-heptose 1-phosphate + phosphate *\ - - + r2025 -1.0 r923 = 0 - -c1548: \* PHOSPHORIBULOSYL-FORMIMINO-AICAR-P[CCO-CYTOSOL] *\ - \* r1300, 1-(5-phospho-beta-D-ribosyl)-5-[(5-phosphoribosylamino)methylideneamino]imidazole-4-carboxamide -> phosphoribulosylformimino-AICAR-P *\ - \* r1240, phosphoribulosylformimino-AICAR-P + L-glutamine -> L-glutamate + D-erythro-imidazole-glycerol-phosphate + 5-amino-1-(5-phospho-D-ribosyl)imidazole-4-carboxamide + H+ *\ - - + r1300 -1.0 r1240 = 0 - -c1811: \* 5-10-METHENYL-THF[CCO-CYTOSOL] *\ - \* r2157b, an N10-formyl-tetrahydrofolate + H+ -> a 5,10-methenyltetrahydrofolate + H2O *\ - \* r2157a, a 5,10-methenyltetrahydrofolate + H2O -> an N10-formyl-tetrahydrofolate + H+ *\ - \* r1989b, an N5-formyl-tetrahydrofolate + H+ -> a 5,10-methenyltetrahydrofolate + H2O *\ - \* r1989a, a 5,10-methenyltetrahydrofolate + H2O -> an N5-formyl-tetrahydrofolate + H+ *\ - \* r1775b, a 5,10-methenyltetrahydrofolate + NADPH -> a 5,10-methylene-tetrahydrofolate + NADP+ *\ - \* r1775a, a 5,10-methylene-tetrahydrofolate + NADP+ -> a 5,10-methenyltetrahydrofolate + NADPH *\ - \* r1549, an N5-formyl-tetrahydrofolate + ATP -> a 5,10-methenyltetrahydrofolate + ADP + phosphate *\ - - + r2157b -1.0 r2157a + r1989b -1.0 r1989a -1.0 r1775b + r1775a + r1549 = 0 - -c1092: \* DCDP[CCO-CYTOSOL] *\ - \* r2282, ATP + dCMP -> ADP + dCDP *\ - \* r2269, a nucleoside diphosphate + H2O -> a nucleoside 5'-monophosphate + phosphate + H+ *\ - \* r1184, a nucleoside diphosphate + ATP -> a nucleoside triphosphate + ADP *\ - \* r1110, CDP + a reduced NrdH glutaredoxin-like protein -> dCDP + an oxidized NrdH glutaredoxin-like protein + H2O *\ - \* r1054, dCDP + ATP -> dCTP + ADP *\ - \* r772, a reduced thioredoxin + a ribonucleoside diphosphate -> an oxidized thioredoxin + a 2'-deoxyribonucleoside 5'-diphosphate + H2O *\ - - + r2282 -1.0 r2269 -1.0 r1184 + r1110 -1.0 r1054 + r772 = 0 - -c71: \* CPD0-1958[CCO-PERI-BAC] *\ - \* r2466_e, 3-(N-morpholino)propanesulfonate *\ - \* r35, ATP + an aliphatic sulfonate[periplasmic space] + H2O -> an aliphatic sulfonate[cytosol] + ADP + phosphate + H+ *\ - - + r2466_e -1.0 r35 = 0 - -c238: \* MET[CCO-CYTOSOL] *\ - \* r2364b, an L-methionyl-[initiator tRNAmet] + AMP + diphosphate -> initiator tRNAmet + L-methionine + ATP + H+ *\ - \* r2364a, initiator tRNAmet + L-methionine + ATP + H+ -> an L-methionyl-[initiator tRNAmet] + AMP + diphosphate *\ - \* r2234, coproporphyrinogen III + 2 S-adenosyl-L-methionine -> protoporphyrinogen IX + 2 CO2 + 2 L-methionine + 2 5'-deoxyadenosine *\ - \* r2051, L-homocysteine + S-adenosyl-L-methionine -> L-methionine + S-adenosyl-L-homocysteine + H+ *\ - \* r1847, a sulfurated [sulfur carrier] + dethiobiotin + 2 S-adenosyl-L-methionine + 2 a reduced [2Fe-2S] ferredoxin -> an unsulfurated [sulfur carrier] + biotin + 2 5'-deoxyadenosine + 2 L-methionine + 2 an oxidized [2Fe-2S] ferredoxin *\ - \* r1816b, 2-oxo-4-methylthiobutanoate + a standard alpha amino acid -> L-methionine + a 2-oxo carboxylate *\ - \* r1816a, L-methionine + a 2-oxo carboxylate -> 2-oxo-4-methylthiobutanoate + a standard alpha amino acid *\ - \* r1815b, 2-oxo-4-methylthiobutanoate + a standard alpha amino acid -> L-methionine + a 2-oxo carboxylate *\ - \* r1815a, L-methionine + a 2-oxo carboxylate -> 2-oxo-4-methylthiobutanoate + a standard alpha amino acid *\ - \* r1814b, 2-oxo-4-methylthiobutanoate + a standard alpha amino acid -> L-methionine + a 2-oxo carboxylate *\ - \* r1814a, L-methionine + a 2-oxo carboxylate -> 2-oxo-4-methylthiobutanoate + a standard alpha amino acid *\ - \* r1813b, 2-oxo-4-methylthiobutanoate + a standard alpha amino acid -> L-methionine + a 2-oxo carboxylate *\ - \* r1813a, L-methionine + a 2-oxo carboxylate -> 2-oxo-4-methylthiobutanoate + a standard alpha amino acid *\ - \* r1791, glycyl-L-methionine + H2O -> glycine + L-methionine *\ - \* r1767b, 2-thio-N6-dimethylallyladenosine37 in tRNA + an unsulfurated [sulfur carrier] + 5'-deoxyadenosine + L-methionine + an unknown oxidized electron acceptor + H+ -> N6-dimethylallyladenosine37 in tRNA + a sulfurated [sulfur carrier] + S-adenosyl-L-methionine + an unknown reduced electron acceptor *\ - \* r1767a, N6-dimethylallyladenosine37 in tRNA + a sulfurated [sulfur carrier] + S-adenosyl-L-methionine + an unknown reduced electron acceptor -> 2-thio-N6-dimethylallyladenosine37 in tRNA + an unsulfurated [sulfur carrier] + 5'-deoxyadenosine + L-methionine + an unknown oxidized electron acceptor + H+ *\ - \* r1597, L-tyrosine + S-adenosyl-L-methionine + NADPH -> 2-iminoacetate + 4-methylphenol + 5'-deoxyadenosine + L-methionine + NADP+ + H+ *\ - \* r1451, L-homocysteine + N5-methyl--tetrahydropteroyl tri-L-glutamate -> L-methionine + tetrahydropteroyl tri-L-glutamate *\ - \* r1400, 5-amino-1-(5-phospho-beta-D-ribosyl)imidazole + S-adenosyl-L-methionine -> 4-amino-2-methyl-5-phosphomethylpyrimidine + 5'-deoxyadenosine + L-methionine + formate + carbon monoxide + 3 H+ *\ - \* r1204, a [lipoyl-carrier protein] N6-octanoyl-L-lysine + 2 S-adenosyl-L-methionine + 2 a sulfurated [sulfur carrier] + 2 a reduced [2Fe-2S] ferredoxin -> a [lipoyl-carrier protein] N6-lipoyl-L-lysine + 2 5'-deoxyadenosine + 2 L-methionine + 2 an unsulfurated [sulfur carrier] + 2 an oxidized [2Fe-2S] ferredoxin *\ - \* r1170, elongator tRNAmet + L-methionine + ATP + H+ -> an L-methionyl-[elongator tRNAmet] + AMP + diphosphate *\ - \* r1056, ATP + L-methionine + H2O -> S-adenosyl-L-methionine + phosphate + diphosphate *\ - \* r1026, L-methionyl-L-alanine dipeptide + H2O -> L-methionine + L-alanine *\ - \* r1013b, N-alpha-acetyl-L-methionine + coenzyme A + H+ -> L-methionine + acetyl-CoA *\ - \* r1013a, L-methionine + acetyl-CoA -> N-alpha-acetyl-L-methionine + coenzyme A + H+ *\ - \* r971, L-methionine-(S)-S-oxide + a reduced thioredoxin -> L-methionine + an oxidized thioredoxin + H2O *\ - \* r835b, 2 L-methionine + H+ -> S-methyl-L-methionine + L-homocysteine *\ - \* r835a, S-methyl-L-methionine + L-homocysteine -> 2 L-methionine + H+ *\ - \* r819, L-methionine-(R)-S-oxide + a reduced thioredoxin -> L-methionine + an oxidized thioredoxin + H2O *\ - \* r801, L-homocysteine + an N5-methyl-tetrahydrofolate -> L-methionine + a tetrahydrofolate *\ - \* r800, L-homocysteine + an N5-methyl-tetrahydrofolate -> L-methionine + a tetrahydrofolate *\ - \* r430, L-methionine[cytosol] + H+[periplasmic space] -> L-methionine[periplasmic space] + H+[cytosol] *\ - \* r325, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - \* r120, ATP + L-methionine[periplasmic space] + H2O -> ADP + L-methionine[cytosol] + phosphate + H+ *\ - - + r2364b -1.0 r2364a +2.0 r2234 + r2051 +2.0 r1847 + r1816b -1.0 r1816a + r1815b -1.0 r1815a +0.0 r1814b +0.0 r1814a + r1813b -1.0 r1813a + r1791 -1.0 r1767b + r1767a + r1597 + r1451 + r1400 - +2.0 r1204 -1.0 r1170 -1.0 r1056 + r1026 + r1013b -1.0 r1013a + r971 -2.0 r835b +2.0 r835a + r819 + r801 + r800 -1.0 r430 -1.0 r325 + r120 = 0 - -c1243: \* CPD-207[CCO-CYTOSOL] *\ - \* r1324, phenylacetate + ATP + coenzyme A -> phenylacetyl-CoA + AMP + diphosphate *\ - \* r1058, phenylacetyl-CoA + NADPH + oxygen + H+ -> 2-(1,2-epoxy-1,2-dihydrophenyl)acetyl-CoA + NADP+ + H2O *\ - \* r884b, phenylacetate + coenzyme A + H+ -> phenylacetyl-CoA + H2O *\ - \* r884a, phenylacetyl-CoA + H2O -> phenylacetate + coenzyme A + H+ *\ - - + r1324 -1.0 r1058 + r884b -1.0 r884a = 0 - -c1261: \* CPD-13575[CCO-CYTOSOL] *\ - \* r2327, 2-[(2R,5Z)-(2-carboxy-4-methylthiazol-5(2H)-ylidene]ethyl phosphate + 4-amino-2-methyl-5-diphosphomethylpyrimidine + 2 H+ -> thiamin phosphate + CO2 + diphosphate *\ - \* r893, 1-deoxy-D-xylulose 5-phosphate + 2-iminoacetate + a thiocarboxy-[ThiS-Protein] -> 2-[(2R,5Z)-(2-carboxy-4-methylthiazol-5(2H)-ylidene]ethyl phosphate + a ThiS sulfur-carrier protein + 2 H2O *\ - - -1.0 r2327 + r893 = 0 - -c265: \* CPD-8990[CCO-CYTOSOL] *\ - \* r819, L-methionine-(R)-S-oxide + a reduced thioredoxin -> L-methionine + an oxidized thioredoxin + H2O *\ - \* r134, L-methionine S-oxide[periplasmic space] + ATP + H2O -> L-methionine S-oxide[cytosol] + ADP + phosphate + H+ *\ - - -1.0 r819 + r134 = 0 - -c1864: \* 34-DIHYDROXYPHENYLACETYL-COA[CCO-CYTOSOL] *\ - \* r1609b, 3,4-dihydroxyphenylacetate + coenzyme A + H+ -> 3,4-dihydroxyphenylacetyl-CoA + H2O *\ - \* r1609a, 3,4-dihydroxyphenylacetyl-CoA + H2O -> 3,4-dihydroxyphenylacetate + coenzyme A + H+ *\ - - + r1609b -1.0 r1609a = 0 - -c1394: \* CPD0-1423[CCO-CYTOSOL] *\ - \* r1579, a CDP-diacylglycerol + H2O -> a 1,2-diacyl-sn-glycerol 3-phosphate + CMP + 2 H+ *\ - \* r1042, CTP + a 1,2-diacyl-sn-glycerol 3-phosphate + H+ -> a CDP-diacylglycerol + diphosphate *\ - - + r1579 -1.0 r1042 = 0 - -c1392: \* CPD0-1422[CCO-CYTOSOL] *\ - \* r1580, a CDP-diacylglycerol + H2O -> a 1,2-diacyl-sn-glycerol 3-phosphate + CMP + 2 H+ *\ - \* r1129, 1-palmitoylglycerol 3-phosphate + a palmitoyl-[acp] -> dipalmitoyl phosphatidate + a holo-[acyl-carrier protein] *\ - \* r1041, CTP + a 1,2-diacyl-sn-glycerol 3-phosphate + H+ -> a CDP-diacylglycerol + diphosphate *\ - - + r1580 + r1129 -1.0 r1041 = 0 - -c2207: \* 4-HYDROXY-BUTYRATE[CCO-CYTOSOL] *\ - \* r2349b, succinate semialdehyde + NADH + H+ -> 4-hydroxybutanoate + NAD+ *\ - \* r2349a, 4-hydroxybutanoate + NAD+ -> succinate semialdehyde + NADH + H+ *\ - - + r2349b -1.0 r2349a = 0 - -c2067: \* POLYMER-INST-3-KETOACYL-COA-C18-H36[CCO-CYTOSOL] *\ - \* r1970, a 3-oxoacyl-CoA + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + acetyl-CoA *\ - - -1.0 r1970 = 0 - -c459: \* FRUCTOSELYSINE[CCO-CYTOSOL] *\ - \* r1742a, D-fructosyl-L-lysine -> psicoselysine *\ - \* r1742b, psicoselysine -> D-fructosyl-L-lysine *\ - \* r2387, D-fructosyl-L-lysine + ATP -> fructoselysine 6-phosphate + ADP + H+ *\ - - -1.0 r1742a + r1742b -1.0 r2387 = 0 - -c382: \* CPD-13397[CCO-PERI-BAC] *\ - \* r569, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r194, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - - -1.0 r569 -1.0 r194 = 0 - -c358: \* CPD-13395[CCO-PERI-BAC] *\ - \* r557, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r182, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - - -1.0 r557 -1.0 r182 = 0 - -c372: \* CPD-13398[CCO-PERI-BAC] *\ - \* r564, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r189, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - - -1.0 r564 -1.0 r189 = 0 - -c380: \* CPD-13393[CCO-PERI-BAC] *\ - \* r568, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r193, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - - -1.0 r568 -1.0 r193 = 0 - -c370: \* CPD-13394[CCO-PERI-BAC] *\ - \* r563, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r188, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - - -1.0 r563 -1.0 r188 = 0 - -c1967: \* CPD-15709[CCO-CYTOSOL] *\ - \* r2009b, D-fructose 6-phosphate + NADH + H+ -> D-sorbitol 6-phosphate + NAD+ *\ - \* r2009a, D-sorbitol 6-phosphate + NAD+ -> D-fructose 6-phosphate + NADH + H+ *\ - \* r1772b, beta-D-fructofuranose 6-phosphate -> D-fructose 6-phosphate *\ - \* r1772a, D-fructose 6-phosphate -> beta-D-fructofuranose 6-phosphate *\ - - -1.0 r2009b + r2009a + r1772b -1.0 r1772a = 0 - -c966: \* D-METHYL-MALONYL-COA[CCO-CYTOSOL] *\ - \* r2357b, (S)-methylmalonyl-CoA -> (R)-methylmalonyl-CoA *\ - \* r2357a, (R)-methylmalonyl-CoA -> (S)-methylmalonyl-CoA *\ - \* r697, ATP + hydrogen carbonate + propanoyl-CoA -> ADP + (S)-methylmalonyl-CoA + phosphate + H+ *\ - - -1.0 r2357b + r2357a + r697 = 0 - -c620: \* CARBAMYUL-L-ASPARTATE[CCO-PERI-BAC] *\ - \* r349, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - - + r349 = 0 - -c416: \* CPD-763[CCO-PERI-BAC] *\ - \* r625, arsenite[cytosol] + H+[periplasmic space] -> arsenite[periplasmic space] + H+[cytosol] *\ - \* r210, arsenite[periplasmic space] -> arsenite[cytosol] *\ - - + r625 -1.0 r210 = 0 - -c601: \* ASN[CCO-CYTOSOL] *\ - \* r2404, L-glutamine + L-aspartate + ATP + H2O -> L-glutamate + L-asparagine + AMP + diphosphate + H+ *\ - \* r2285, L-asparagine + H2O -> L-aspartate + ammonium *\ - \* r1798, tRNAasn + L-asparagine + ATP + H+ -> an L-asparaginyl-[tRNAasn] + AMP + diphosphate *\ - \* r1704, L-aspartate + ammonium + ATP -> L-asparagine + AMP + diphosphate + H+ *\ - \* r852, glycyl-L-asparagine + H2O -> glycine + L-asparagine *\ - \* r469, L-asparagine[periplasmic space] + H+[periplasmic space] -> L-asparagine[cytosol] + H+[cytosol] *\ - \* r330, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - - + r2404 -1.0 r2285 -1.0 r1798 + r1704 + r852 + r469 -1.0 r330 = 0 - -c310: \* CPD0-1564[CCO-PERI-BAC] *\ - \* r299, cystine[cytosol] -> cystine[periplasmic space] *\ - \* r158, D-cystine[periplasmic space] -> D-cystine[cytosol] *\ - - + r299 -1.0 r158 = 0 - -c1064: \* Reduced-NrdH-Proteins[CCO-CYTOSOL] *\ - \* r1110, CDP + a reduced NrdH glutaredoxin-like protein -> dCDP + an oxidized NrdH glutaredoxin-like protein + H2O *\ - \* r1090b, arsenite + an oxidized glutaredoxin + H2O -> arsenate + a reduced glutaredoxin + H+ *\ - \* r1090a, arsenate + a reduced glutaredoxin + H+ -> arsenite + an oxidized glutaredoxin + H2O *\ - \* r969, ADP + a reduced NrdH glutaredoxin-like protein -> dADP + an oxidized NrdH glutaredoxin-like protein + H2O *\ - \* r877, 2 glutathione + an oxidized glutaredoxin -> glutathione disulfide + a reduced glutaredoxin *\ - \* r818, GDP + a reduced NrdH glutaredoxin-like protein -> dGDP + an oxidized NrdH glutaredoxin-like protein + H2O *\ - \* r749, UDP + a reduced NrdH glutaredoxin-like protein -> dUDP + an oxidized NrdH glutaredoxin-like protein + H2O *\ - - -1.0 r1110 + r1090b -1.0 r1090a -1.0 r969 + r877 -1.0 r818 -1.0 r749 = 0 - -c1453: \* CPD0-1032[CCO-CYTOSOL] *\ - \* r1103a, L-lysine -> D-beta-lysine *\ - \* r1103b, D-beta-lysine -> L-lysine *\ - - + r1103a -1.0 r1103b = 0 - -c889: \* AMMONIA[CCO-PERI-BAC] *\ - \* r648b, ammonia[cytosol] -> ammonia[periplasmic space] *\ - \* r648a, ammonia[periplasmic space] -> ammonia[cytosol] *\ - - + r648b -1.0 r648a = 0 - -c1399: \* CPD-15317[CCO-CYTOSOL] *\ - \* r2281, AMP + H2O -> D-ribofuranose 5-phosphate + adenine *\ - \* r2164, beta-nicotinamide D-ribonucleotide + H2O -> D-ribofuranose 5-phosphate + nicotinamide + H+ *\ - \* r1630b, pseudouridine 5'-phosphate + H2O -> D-ribofuranose 5-phosphate + uracil *\ - \* r1630a, D-ribofuranose 5-phosphate + uracil -> pseudouridine 5'-phosphate + H2O *\ - \* r1045, ADP-D-ribose + H2O -> AMP + D-ribofuranose 5-phosphate + 2 H+ *\ - - + r2281 + r2164 + r1630b -1.0 r1630a + r1045 = 0 - -c909: \* CPD-618[CCO-CYTOSOL] *\ - \* r1270b, succinate + pyruvate -> (2R,3S)-2-methylisocitrate *\ - \* r1270a, (2R,3S)-2-methylisocitrate -> succinate + pyruvate *\ - \* r661b, cis-2-methylaconitate + H2O -> (2R,3S)-2-methylisocitrate *\ - \* r661a, (2R,3S)-2-methylisocitrate -> cis-2-methylaconitate + H2O *\ - - + r1270b -1.0 r1270a + r661b -1.0 r661a = 0 - -c62: \* PROTON[CCO-CYTOSOL] *\ - \* r2449_e, H+ *\ - \* objReactionName, H+ *\ - \* r2446, histidinol + NAD+ -> histidinal + NADH + H+ *\ - \* r2443, glycerophosphoglycerol + H2O -> glycerol + sn-glycerol 3-phosphate + H+ *\ - \* r2442b, tartronate semialdehyde + NADH + H+ -> D-glycerate + NAD+ *\ - \* r2442a, D-glycerate + NAD+ -> tartronate semialdehyde + NADH + H+ *\ - \* r2440, GMP + NADPH + 2 H+ -> ammonium + IMP + NADP+ *\ - \* r2439, 2-iminoacetate + H+ + H2O -> glyoxylate + ammonium *\ - \* r2438b, acetol + NAD+ -> methylglyoxal + NADH + H+ *\ - \* r2438a, methylglyoxal + NADH + H+ -> acetol + NAD+ *\ - \* r2437, a tRNAgly + glycine + ATP + H+ -> a glycyl-[tRNAgly] + AMP + diphosphate *\ - \* r2435, 2-dehydropantoate + NADPH + H+ -> (R)-pantoate + NADP+ *\ - \* r2433b, an oxidized hydrogenase 3 + H2 -> a reduced hydrogenase 3 + H+ *\ - \* r2433a, a reduced hydrogenase 3 + H+ -> an oxidized hydrogenase 3 + H2 *\ - \* r2415, 2 ATP + L-glutamine + hydrogen carbonate + H2O -> carbamoyl-phosphate + L-glutamate + 2 ADP + phosphate + 2 H+ *\ - \* r2414b, 3-oxo-5,6-didehydrosuberyl-CoA + NADPH + 2 H+ -> 2-oxepin-2(3H)-ylideneacetyl-CoA + NADP+ + 2 H2O *\ - \* r2414a, 2-oxepin-2(3H)-ylideneacetyl-CoA + NADP+ + 2 H2O -> 3-oxo-5,6-didehydrosuberyl-CoA + NADPH + 2 H+ *\ - \* r2408, L-glutamine + 2-oxoglutarate + NADPH + H+ -> 2 L-glutamate + NADP+ *\ - \* r2407, pyruvate + a [pyruvate dehydrogenase E2 protein] N6-lipoyl-L-lysine + H+ -> a [pyruvate dehydrogenase E2 protein] N6-S-acetyldihydrolipoyl-L-lysine + CO2 *\ - \* r2406b, dTDP-4-dehydro-6-deoxy-alpha-D-glucopyranose + NADH + H+ -> dTDP-beta-L-rhamnose + NAD+ *\ - \* r2406a, dTDP-beta-L-rhamnose + NAD+ -> dTDP-4-dehydro-6-deoxy-alpha-D-glucopyranose + NADH + H+ *\ - \* r2405, 2 L-ascorbate + hydrogen peroxide + H+ -> L-ascorbate + L-dehydro-ascorbate + 2 H2O *\ - \* r2404, L-glutamine + L-aspartate + ATP + H2O -> L-glutamate + L-asparagine + AMP + diphosphate + H+ *\ - \* r2403b, 1-deoxy-D-xylulose 5-phosphate + NADPH + H+ -> 2-C-methyl-D-erythritol 4-phosphate + NADP+ *\ - \* r2403a, 2-C-methyl-D-erythritol 4-phosphate + NADP+ -> 1-deoxy-D-xylulose 5-phosphate + NADPH + H+ *\ - \* r2395, succinate semialdehyde + NADP+ + H2O -> succinate + NADPH + 2 H+ *\ - \* r2394, meso-diaminopimelate + H+ -> L-lysine + CO2 *\ - \* r2390, 2'-deoxycytidine + H+ + H2O -> 2'-deoxyuridine + ammonium *\ - \* r2389, 2-dehydro-3-deoxy-D-gluconate + ATP -> 2-dehydro-3-deoxy-D-gluconate 6-phosphate + ADP + H+ *\ - \* r2387, D-fructosyl-L-lysine + ATP -> fructoselysine 6-phosphate + ADP + H+ *\ - \* r2385, a tRNApro + L-proline + ATP + H+ -> an L-prolyl-[tRNApro] + AMP + diphosphate *\ - \* r2380, 2-aminoprop-2-enoate + H+ + H2O -> pyruvate + ammonium *\ - \* r2379, 2,3-dioxo-L-gulonate + NADH + H+ -> 3-keto-L-gulonate + NAD+ *\ - \* r2378, tRNAasp + L-aspartate + ATP + H+ -> L-aspartyl-tRNAasp + AMP + diphosphate *\ - \* r2374b, 3-dehydroquinate + NAD(P)H + H+ -> L-quinate + NAD(P)+ *\ - \* r2374a, L-quinate + NAD(P)+ -> 3-dehydroquinate + NAD(P)H + H+ *\ - \* r2373b, 3-dehydroquinate + NAD(P)H + H+ -> L-quinate + NAD(P)+ *\ - \* r2373a, L-quinate + NAD(P)+ -> 3-dehydroquinate + NAD(P)H + H+ *\ - \* r2371, chorismate + L-glutamine -> anthranilate + pyruvate + L-glutamate + H+ *\ - \* r2366, (S)-(+)-allantoin + H2O -> allantoate + H+ *\ - \* r2364b, an L-methionyl-[initiator tRNAmet] + AMP + diphosphate -> initiator tRNAmet + L-methionine + ATP + H+ *\ - \* r2364a, initiator tRNAmet + L-methionine + ATP + H+ -> an L-methionyl-[initiator tRNAmet] + AMP + diphosphate *\ - \* r2363, ADP + (S)-NADHX -> AMP + NADH + phosphate + H+ *\ - \* r2361, NAD+ + H2O -> beta-nicotinamide D-ribonucleotide + AMP + 2 H+ *\ - \* r2356, L-cystathionine -> 2-aminoprop-2-enoate + L-homocysteine + H+ *\ - \* r2355, pyruvate + 2-oxobutanoate + H+ -> (S)-2-aceto-2-hydroxybutanoate + CO2 *\ - \* r2351, 2,3-bis[(3R)-3-hydroxymyristoyl]-alpha-D-glucosaminyl 1-phosphate + UDP-2-N,3-O-bis[(3R)-3-hydroxytetradecanoyl]-alpha-D-glucosamine -> lipid A disaccharide + UDP + H+ *\ - \* r2349b, succinate semialdehyde + NADH + H+ -> 4-hydroxybutanoate + NAD+ *\ - \* r2349a, 4-hydroxybutanoate + NAD+ -> succinate semialdehyde + NADH + H+ *\ - \* r2348, alpha-Kdo-(2->6)-lipid IVA + CMP-3-deoxy-alpha-D-manno-octulosonate -> alpha-Kdo-(2->4)-alpha-Kdo-(2->6)-lipid IVA + CMP + H+ *\ - \* r2344, IMP + NAD+ + H2O -> XMP + NADH + H+ *\ - \* r2343, ATP + UTP + ammonium -> ADP + CTP + phosphate + 2 H+ *\ - \* r2337, guanine + H+ + H2O -> ammonium + xanthine *\ - \* r2332, glyoxylate + NADPH + H+ -> glycolate + NADP+ *\ - \* r2330b, 5',5'''-diadenosine tetraphosphate + diphosphate -> ATP + ATP + H+ *\ - \* r2330a, ATP + ATP + H+ -> 5',5'''-diadenosine tetraphosphate + diphosphate *\ - \* r2327, 2-[(2R,5Z)-(2-carboxy-4-methylthiazol-5(2H)-ylidene]ethyl phosphate + 4-amino-2-methyl-5-diphosphomethylpyrimidine + 2 H+ -> thiamin phosphate + CO2 + diphosphate *\ - \* r2326b, 4-nitrobenzaldehyde + NADPH + H+ -> 4-nitrobenzyl alcohol + NADP+ *\ - \* r2326a, 4-nitrobenzyl alcohol + NADP+ -> 4-nitrobenzaldehyde + NADPH + H+ *\ - \* r2323, UDP + H2O -> UMP + phosphate + H+ *\ - \* r2321, beta-D-glucose 6-phosphate + NADP+ -> 6-phospho D-glucono-1,5-lactone + NADPH + H+ *\ - \* r2314b, FMN + NAD(P)H + 2 H+ -> FMNH2 + NAD(P)+ *\ - \* r2314a, FMNH2 + NAD(P)+ -> FMN + NAD(P)H + 2 H+ *\ - \* r2313b, FMN + NAD(P)H + 2 H+ -> FMNH2 + NAD(P)+ *\ - \* r2313a, FMNH2 + NAD(P)+ -> FMN + NAD(P)H + 2 H+ *\ - \* r2311, 4-amino-2-methyl-5-diphosphomethylpyrimidine + H2O -> 4-amino-2-methyl-5-phosphomethylpyrimidine + phosphate + H+ *\ - \* r2305b, sirohydrochlorin + NADH + 2 H+ -> precorrin-2 + NAD+ *\ - \* r2305a, precorrin-2 + NAD+ -> sirohydrochlorin + NADH + 2 H+ *\ - \* r2304, 2,5-diamino-6-(5-phospho-D-ribosylamino)pyrimidin-4(3H)-one + H+ + H2O -> 5-amino-6-(5-phospho-D-ribosylamino)uracil + ammonium *\ - \* r2303, succinate semialdehyde + NAD+ + H2O -> succinate + NADH + 2 H+ *\ - \* r2302, S-adenosyl-L-methionine + 3-demethylubiquinol-8 -> S-adenosyl-L-homocysteine + ubiquinol-8 + H+ *\ - \* r2301, 5-phospho-alpha-D-ribose 1-diphosphate + quinolinate + 2 H+ -> beta-nicotinate D-ribonucleotide + CO2 + diphosphate *\ - \* r2298, a tRNAcys + L-cysteine + ATP + H+ -> an L-cysteinyl-[tRNAcys] + AMP + diphosphate *\ - \* r2295, XTP + H2O -> XMP + diphosphate + H+ *\ - \* r2294, 1-hydroxy-2-methyl-2-(E)-butenyl 4-diphosphate + NAD(P)H + H+ -> dimethylallyl diphosphate + NAD(P)+ + H2O *\ - \* r2293, 1-hydroxy-2-methyl-2-(E)-butenyl 4-diphosphate + NAD(P)H + H+ -> dimethylallyl diphosphate + NAD(P)+ + H2O *\ - \* r2292, prephenate + H+ -> 2-oxo-3-phenylpropanoate + CO2 + H2O *\ - \* r2291b, oxalosuccinate + NADPH + H+ -> D-threo-isocitrate + NADP+ *\ - \* r2291a, D-threo-isocitrate + NADP+ -> oxalosuccinate + NADPH + H+ *\ - \* r2288, an L-1-phosphatidylserine + H+ -> an L-1-phosphatidylethanolamine + CO2 *\ - \* r2283b, 3-phospho-hydroxypyruvate + NADH + H+ -> 3-phospho-D-glycerate + NAD+ *\ - \* r2283a, 3-phospho-D-glycerate + NAD+ -> 3-phospho-hydroxypyruvate + NADH + H+ *\ - \* r2278, 1-butanesulfonate + FMNH2 + oxygen -> butanal + sulfite + FMN + H2O + 2 H+ *\ - \* r2275, a nucleoside diphosphate + H2O -> a nucleoside 5'-monophosphate + phosphate + H+ *\ - \* r2274, a nucleoside diphosphate + H2O -> a nucleoside 5'-monophosphate + phosphate + H+ *\ - \* r2273, a nucleoside diphosphate + H2O -> a nucleoside 5'-monophosphate + phosphate + H+ *\ - \* r2272, a nucleoside diphosphate + H2O -> a nucleoside 5'-monophosphate + phosphate + H+ *\ - \* r2271, a nucleoside diphosphate + H2O -> a nucleoside 5'-monophosphate + phosphate + H+ *\ - \* r2270, a nucleoside diphosphate + H2O -> a nucleoside 5'-monophosphate + phosphate + H+ *\ - \* r2269, a nucleoside diphosphate + H2O -> a nucleoside 5'-monophosphate + phosphate + H+ *\ - \* r2268, a nucleoside diphosphate + H2O -> a nucleoside 5'-monophosphate + phosphate + H+ *\ - \* r2267, a nucleoside diphosphate + H2O -> a nucleoside 5'-monophosphate + phosphate + H+ *\ - \* r2266, a nucleoside diphosphate + H2O -> a nucleoside 5'-monophosphate + phosphate + H+ *\ - \* r2264b, 2 a semiquinone + NAD+ -> 2 a quinone + NADH + H+ *\ - \* r2264a, 2 a quinone + NADH + H+ -> 2 a semiquinone + NAD+ *\ - \* r2263, S-adenosyl-L-methionine + demethylmenaquinol-8 -> S-adenosyl-L-homocysteine + menaquinol-8 + H+ *\ - \* r2262, ammonium + ATP + nicotinate adenine dinucleotide -> AMP + NAD+ + diphosphate + H+ *\ - \* r2260, an acyl-CoA + H2O -> a carboxylate + coenzyme A + H+ *\ - \* r2259, an acyl-CoA + H2O -> a carboxylate + coenzyme A + H+ *\ - \* r2258, an acyl-CoA + H2O -> a carboxylate + coenzyme A + H+ *\ - \* r2257, an acyl-CoA + H2O -> a carboxylate + coenzyme A + H+ *\ - \* r2256, an acyl-CoA + H2O -> a carboxylate + coenzyme A + H+ *\ - \* r2255, an acyl-CoA + H2O -> a carboxylate + coenzyme A + H+ *\ - \* r2254, an acyl-CoA + H2O -> a carboxylate + coenzyme A + H+ *\ - \* r2253, an acyl-CoA + H2O -> a carboxylate + coenzyme A + H+ *\ - \* r2252, an acyl-CoA + H2O -> a carboxylate + coenzyme A + H+ *\ - \* r2251, an acyl-CoA + H2O -> a carboxylate + coenzyme A + H+ *\ - \* r2249, L-serine -> 2-aminoprop-2-enoate + H+ + H2O *\ - \* r2248b, (S)-2-acetolactate + NADPH + H+ -> (R)-2,3-dihydroxy-3-methylbutanoate + NADP+ *\ - \* r2248a, (R)-2,3-dihydroxy-3-methylbutanoate + NADP+ -> (S)-2-acetolactate + NADPH + H+ *\ - \* r2242, ITP + H2O -> IMP + diphosphate + H+ *\ - \* r2241, 5',5'''-diadenosine tetraphosphate + H2O -> 2 ADP + 2 H+ *\ - \* r2239, (2,3-dihydroxybenzoylserine)2 + H2O -> 2 N-(2,3-dihydroxybenzoyl)-L-serine + H+ *\ - \* r2233, glycerophosphoserine + H2O -> sn-glycerol 3-phosphate + L-serine + H+ *\ - \* r2232, 3-octaprenyl-4-hydroxybenzoate + H+ -> 2-octaprenylphenol + CO2 *\ - \* r2231, GTP + H2O -> formate + 7,8-dihydroneopterin 3'-triphosphate + H+ *\ - \* r2227, 2-C-methyl-D-erythritol 4-phosphate + CTP + H+ -> 4-(cytidine 5'-diphospho)-2-C-methyl-D-erythritol + diphosphate *\ - \* r2224, D-glycerate + ATP -> 3-phospho-D-glycerate + ADP + H+ *\ - \* r2222, galactosyl-(glucosyl)3-(heptosyl)3-Kdo2-lipid A-bisphosphate + ADP-L-glycero-beta-D-manno-heptose -> lipid A-core + ADP + H+ *\ - \* r2212b, 2-keto-L-gulonate + NAD(P)+ -> 2,5-didehydro-D-gluconate + NAD(P)H + H+ *\ - \* r2212a, 2,5-didehydro-D-gluconate + NAD(P)H + H+ -> 2-keto-L-gulonate + NAD(P)+ *\ - \* r2211b, 2-keto-L-gulonate + NAD(P)+ -> 2,5-didehydro-D-gluconate + NAD(P)H + H+ *\ - \* r2211a, 2,5-didehydro-D-gluconate + NAD(P)H + H+ -> 2-keto-L-gulonate + NAD(P)+ *\ - \* r2210, XTP + H2O -> XDP + phosphate + H+ *\ - \* r2204b, D-tagatofuranose 6-phosphate + NADH + H+ -> galactitol 1-phosphate + NAD+ *\ - \* r2204a, galactitol 1-phosphate + NAD+ -> D-tagatofuranose 6-phosphate + NADH + H+ *\ - \* r2202, acetaldehyde + NADP+ + H2O -> acetate + NADPH + 2 H+ *\ - \* r2201, ATP + FMN + H+ -> FAD + diphosphate *\ - \* r2199, formate + an unknown oxidized electron acceptor + H+ -> CO2 + an unknown reduced electron acceptor *\ - \* r2197b, dTDP-alpha-D-glucose + diphosphate -> alpha-D-glucose 1-phosphate + dTTP + H+ *\ - \* r2197a, alpha-D-glucose 1-phosphate + dTTP + H+ -> dTDP-alpha-D-glucose + diphosphate *\ - \* r2194, lipid A disaccharide + ATP -> lipid IVA + ADP + H+ *\ - \* r2193b, uracil + NADH + H+ -> 5,6-dihydrouracil + NAD+ *\ - \* r2193a, 5,6-dihydrouracil + NAD+ -> uracil + NADH + H+ *\ - \* r2190, ATP + 2,3-dihydroxybenzoate + H+ -> 2,3-dihydroxybenzoyl adenylate + diphosphate *\ - \* r2189b, 2 a semiquinone + NADP+ -> 2 a quinone + NADPH + H+ *\ - \* r2189a, 2 a quinone + NADPH + H+ -> 2 a semiquinone + NADP+ *\ - \* r2188b, 3-oxoadipyl-CoA + NADH + H+ -> 3-hydroxyadipyl-CoA + NAD+ *\ - \* r2188a, 3-hydroxyadipyl-CoA + NAD+ -> 3-oxoadipyl-CoA + NADH + H+ *\ - \* r2187, S-formylglutathione + H2O -> formate + glutathione + H+ *\ - \* r2186, ATP + UTP + L-glutamine + H2O -> ADP + CTP + L-glutamate + phosphate + 2 H+ *\ - \* r2185, dCTP + H+ + H2O -> ammonium + dUTP *\ - \* r2183, coproporphyrinogen III + oxygen + 2 H+ -> protoporphyrinogen IX + 2 CO2 + 2 H2O *\ - \* r2181, ppGpp + H2O -> GDP + diphosphate + H+ *\ - \* r2180, 1,4-dihydroxy-2-naphthoyl-CoA + H2O -> 1,4-dihydroxy-2-naphthoate + coenzyme A + H+ *\ - \* r2177b, 2-oxoglutarate + CO2 -> oxalosuccinate + H+ *\ - \* r2177a, oxalosuccinate + H+ -> 2-oxoglutarate + CO2 *\ - \* r2167b, S-formylglutathione + NAD(P)H + H+ -> S-hydroxymethylglutathione + NAD(P)+ *\ - \* r2167a, S-hydroxymethylglutathione + NAD(P)+ -> S-formylglutathione + NAD(P)H + H+ *\ - \* r2166b, S-formylglutathione + NAD(P)H + H+ -> S-hydroxymethylglutathione + NAD(P)+ *\ - \* r2166a, S-hydroxymethylglutathione + NAD(P)+ -> S-formylglutathione + NAD(P)H + H+ *\ - \* r2164, beta-nicotinamide D-ribonucleotide + H2O -> D-ribofuranose 5-phosphate + nicotinamide + H+ *\ - \* r2163, 2-C-methyl-D-erythritol-2,4-cyclodiphosphate + a reduced flavodoxin -> 1-hydroxy-2-methyl-2-(E)-butenyl 4-diphosphate + an oxidized flavodoxin + H2O + H+ *\ - \* r2160b, ditrans,octacis-undecaprenyldiphospho-N-acetyl-(N-acetylglucosaminyl)muramoyl-L-alanyl-gamma-D-glutamyl-meso-2,6-diaminopimeloyl-D-alanyl-D-alanine + UDP + H+ -> undecaprenyldiphospho-N-acetylmuramoyl-L-alanyl-gamma-D-glutamyl-meso-2,6-diaminopimeloyl-D-alanyl-D-alanine + UDP-N-acetyl-alpha-D-glucosamine *\ - \* r2160a, undecaprenyldiphospho-N-acetylmuramoyl-L-alanyl-gamma-D-glutamyl-meso-2,6-diaminopimeloyl-D-alanyl-D-alanine + UDP-N-acetyl-alpha-D-glucosamine -> ditrans,octacis-undecaprenyldiphospho-N-acetyl-(N-acetylglucosaminyl)muramoyl-L-alanyl-gamma-D-glutamyl-meso-2,6-diaminopimeloyl-D-alanyl-D-alanine + UDP + H+ *\ - \* r2157b, an N10-formyl-tetrahydrofolate + H+ -> a 5,10-methenyltetrahydrofolate + H2O *\ - \* r2157a, a 5,10-methenyltetrahydrofolate + H2O -> an N10-formyl-tetrahydrofolate + H+ *\ - \* r2156, L-threonine -> (2Z)-2-aminobut-2-enoate + H2O + H+ *\ - \* r2153, L-xylulose + ATP -> L-xylulose -5-phosphate + ADP + H+ *\ - \* r2150, (S)-lactaldehyde + NAD+ + H2O -> (S)-lactate + NADH + 2 H+ *\ - \* r2148, 7,8-dihydromonapterin triphosphate + 3 H2O -> 7,8-dihydromonapterin + 3 phosphate + 2 H+ *\ - \* r2147, a tRNAile + L-isoleucine + ATP + H+ -> an L-isoleucyl-[tRNAile] + AMP + diphosphate *\ - \* r2137, autoinducer 2 + ATP -> (4S)-4-hydroxy-2,3-pentanedione 5-phosphate + ADP + H+ *\ - \* r2132, L-glutamate-5-semialdehyde + NAD+ + H2O -> L-glutamate + NADH + 2 H+ *\ - \* r2130b, (2S)-2-isopropyl-3-oxosuccinate + NADH + H+ -> (2R,3S)-3-isopropylmalate + NAD+ *\ - \* r2130a, (2R,3S)-3-isopropylmalate + NAD+ -> (2S)-2-isopropyl-3-oxosuccinate + NADH + H+ *\ - \* r2128b, CO2 + H2O -> hydrogen carbonate + H+ *\ - \* r2128a, hydrogen carbonate + H+ -> CO2 + H2O *\ - \* r2127, ATP + a [protein]-L-tyrosine -> ADP + a [protein]-L-tyrosine phosphate + H+ *\ - \* r2126, a glycerophosphodiester + H2O -> an alcohol + sn-glycerol 3-phosphate + H+ *\ - \* r2124, 2-octaprenylphenol + NADPH + oxygen + H+ -> 3-(all-trans-octaprenyl)benzene-1,2-diol + NADP+ + H2O *\ - \* r2121, UDP-alpha-D-galactose + glucosyl-(heptosyl)3-Kdo2-lipid A-bisphosphate -> galactosyl-glucosyl-(heptosyl)3-Kdo2-lipid A-bisphosphate + UDP + H+ *\ - \* r2115, uridine + ATP -> UMP + ADP + H+ *\ - \* r2111, meso-diaminopimelate + UDP-N-acetyl-alpha-D-muramoyl-L-alanyl-D-glutamate + ATP -> UDP-N-acetyl-alpha-D-muramoyl-L-alanyl-gamma-D-glutamyl-meso-2,6-diaminopimelate + ADP + phosphate + H+ *\ - \* r2105, D-erythrose 4-phosphate + NAD+ + H2O -> erythronate-4-phosphate + NADH + 2 H+ *\ - \* r2102b, 2-hydroxy-3-oxosuccinate + NADH + H+ -> L-tartrate + NAD+ *\ - \* r2102a, L-tartrate + NAD+ -> 2-hydroxy-3-oxosuccinate + NADH + H+ *\ - \* r2101, L-glutamate + 7,8-dihydropteroate + ATP -> ADP + 7,8-dihydrofolate monoglutamate + phosphate + H+ *\ - \* r2100, L-rhamnulofuranose + ATP -> L-rhamnulose 1-phosphate + ADP + H+ *\ - \* r2099b, L-glutamate-5-semialdehyde -> (S)-1-pyrroline-5-carboxylate + H+ + H2O *\ - \* r2099a, (S)-1-pyrroline-5-carboxylate + H+ + H2O -> L-glutamate-5-semialdehyde *\ - \* r2097, CO2 + 7,8-diaminopelargonate + ATP -> dethiobiotin + ADP + phosphate + 3 H+ *\ - \* r2096, (S)-1-pyrroline-5-carboxylate + NAD(P)H + 2 H+ -> L-proline + NAD(P)+ *\ - \* r2095, (S)-1-pyrroline-5-carboxylate + NAD(P)H + 2 H+ -> L-proline + NAD(P)+ *\ - \* r2086, betaine aldehyde + NAD+ + H2O -> glycine betaine + NADH + 2 H+ *\ - \* r2083b, ADP + phosphoenolpyruvate + H+ -> pyruvate + ATP *\ - \* r2083a, pyruvate + ATP -> ADP + phosphoenolpyruvate + H+ *\ - \* r2079, L-ornithine + H+ -> CO2 + putrescine *\ - \* r2078b, 3 N-(2,3-dihydroxybenzoyl)-L-serine + 2 H+ -> (2,3-dihydroxybenzoylserine)3 + 2 H2O *\ - \* r2078a, (2,3-dihydroxybenzoylserine)3 + 2 H2O -> 3 N-(2,3-dihydroxybenzoyl)-L-serine + 2 H+ *\ - \* r2075b, (R)-lactaldehyde + NADPH + H+ -> (R)-propane-1,2-diol + NADP+ *\ - \* r2075a, (R)-propane-1,2-diol + NADP+ -> (R)-lactaldehyde + NADPH + H+ *\ - \* r2072b, N-acetyl-D-glucosamine 6-phosphate + ADP + H+ -> N-acetyl-beta-D-glucosamine + ATP *\ - \* r2072a, N-acetyl-beta-D-glucosamine + ATP -> N-acetyl-D-glucosamine 6-phosphate + ADP + H+ *\ - \* r2059, L-lysine + a tRNAlys + ATP + H+ -> an L-lysyl-[tRNAlys] + AMP + diphosphate *\ - \* r2051, L-homocysteine + S-adenosyl-L-methionine -> L-methionine + S-adenosyl-L-homocysteine + H+ *\ - \* r2049, 3-trans,5-cis-tetradecadienoyl-CoA + H2O -> (3E,5Z)-tetradecadienoate + coenzyme A + H+ *\ - \* r2048, 7,8-dihydroneopterin 3'-triphosphate + H2O -> 7,8-dihydroneopterin 3'-phosphate + diphosphate + H+ *\ - \* r2042b, H2O -> H+ + OH- *\ - \* r2042a, H+ + OH- -> H2O *\ - \* r2041b, glycolaldehyde + NADH + H+ -> ethylene glycol + NAD+ *\ - \* r2041a, ethylene glycol + NAD+ -> glycolaldehyde + NADH + H+ *\ - \* r2038, 2-methoxy-6-(all-trans-octaprenyl)phenol + NADPH + oxygen + H+ -> 2-methoxy-6-all trans-octaprenyl-2-methoxy-1,4-benzoquinol + NADP+ + H2O *\ - \* r2037, L-glutamate + H+ -> CO2 + 4-aminobutanoate *\ - \* r2036b, riboflavin + NAD(P)H + 2 H+ -> reduced riboflavin + NAD(P)+ *\ - \* r2036a, reduced riboflavin + NAD(P)+ -> riboflavin + NAD(P)H + 2 H+ *\ - \* r2035b, riboflavin + NAD(P)H + 2 H+ -> reduced riboflavin + NAD(P)+ *\ - \* r2035a, reduced riboflavin + NAD(P)+ -> riboflavin + NAD(P)H + 2 H+ *\ - \* r2034, glucosyl-(heptosyl)2-Kdo2-lipid A + ATP -> glucosyl-(heptosyl)2-Kdo2-lipid A-phosphate + ADP + H+ *\ - \* r2032, D-xylulose + ATP -> D-xylulose 5-phosphate + ADP + H+ *\ - \* r2031, ATP + D-gluconate -> ADP + D-gluconate 6-phosphate + H+ *\ - \* r2029b, heptosyl-Kdo2-lipid IVA + ADP + H+ -> alpha-Kdo-(2->4)-alpha-Kdo-(2->6)-lipid IVA + ADP-L-glycero-beta-D-manno-heptose *\ - \* r2029a, alpha-Kdo-(2->4)-alpha-Kdo-(2->6)-lipid IVA + ADP-L-glycero-beta-D-manno-heptose -> heptosyl-Kdo2-lipid IVA + ADP + H+ *\ - \* r2027, N1-(5-phospho-beta-D-ribosyl)glycinamide + formate + ATP -> N2-formyl-N1-(5-phospho-beta-D-ribosyl)glycinamide + ADP + phosphate + H+ *\ - \* r2025, D-glycero-D-manno-heptose 7-phosphate + ATP -> D-glycero-beta-D-manno-heptose 1,7-bisphosphate + ADP + H+ *\ - \* r2024, L-alanine + UDP-N-acetyl-alpha-D-muramate + ATP -> UDP-N-acetyl-alpha-D-muramoyl-L-alanine + ADP + phosphate + H+ *\ - \* r2021, dATP + H2O -> dAMP + diphosphate + H+ *\ - \* r2020, UDP-alpha-D-glucose + alpha-D-glucose 6-phosphate -> UDP + alpha,alpha-trehalose 6-phosphate + H+ *\ - \* r2019, [EntB aryl-carrier protein] + coenzyme A -> a holo EntB isochorismatase/aryl-carrier protein + adenosine 3',5'-bisphosphate + H+ *\ - \* r2018, ATP + H2O -> ADP + phosphate + H+ *\ - \* r2015b, L-alanine + sulfite + H+ -> 3-sulfinoalanine + H2O *\ - \* r2015a, 3-sulfinoalanine + H2O -> L-alanine + sulfite + H+ *\ - \* r2009b, D-fructose 6-phosphate + NADH + H+ -> D-sorbitol 6-phosphate + NAD+ *\ - \* r2009a, D-sorbitol 6-phosphate + NAD+ -> D-fructose 6-phosphate + NADH + H+ *\ - \* r1996, 3-keto-L-gulonate 6-phosphate + H+ -> L-xylulose -5-phosphate + CO2 *\ - \* r1995, L-aspartate + H+ -> beta-alanine + CO2 *\ - \* r1994, a tRNAphe + L-phenylalanine + ATP + H+ -> an L-phenylalanyl-[tRNAphe] + AMP + diphosphate *\ - \* r1992, L-arginine + H+ -> CO2 + agmatine *\ - \* r1990, 3-amino-1-hydroxyacetone 1-phosphate + 1-deoxy-D-xylulose 5-phosphate -> pyridoxine 5'-phosphate + phosphate + H+ + 2 H2O *\ - \* r1989b, an N5-formyl-tetrahydrofolate + H+ -> a 5,10-methenyltetrahydrofolate + H2O *\ - \* r1989a, a 5,10-methenyltetrahydrofolate + H2O -> an N5-formyl-tetrahydrofolate + H+ *\ - \* r1987b, D-tagaturonate + NADH + H+ -> D-altronate + NAD+ *\ - \* r1987a, D-altronate + NAD+ -> D-tagaturonate + NADH + H+ *\ - \* r1983, N-acetyl-D-mannosamine + ATP -> N-acetyl-D-mannosamine 6-phosphate + ADP + H+ *\ - \* r1982, L-tryptophan -> indole + 2-aminoprop-2-enoate + H+ *\ - \* r1980, adenosine + H+ + H2O -> ammonium + inosine *\ - \* r1976b, D-fructuronate + NADH + H+ -> D-mannonate + NAD+ *\ - \* r1976a, D-mannonate + NAD+ -> D-fructuronate + NADH + H+ *\ - \* r1974b, 3alpha,12alpha-dihydroxy-7-oxo-5beta-cholan-24-oate + NADH + H+ -> cholate + NAD+ *\ - \* r1974a, cholate + NAD+ -> 3alpha,12alpha-dihydroxy-7-oxo-5beta-cholan-24-oate + NADH + H+ *\ - \* r1973, 5-amino-6-(D-ribitylamino)uracil + 1-deoxy-L-glycero-tetrulose 4-phosphate -> 6,7-dimethyl-8-(1-D-ribityl)lumazine + phosphate + H+ + 2 H2O *\ - \* r1957, 1-(5-phospho-beta-D-ribosyl)-ATP + H2O -> 1-(5-phospho-beta-D-ribosyl)-AMP + diphosphate + 2 H+ *\ - \* r1953b, adenosine thiamine triphosphate + phosphate -> thiamin diphosphate + ADP + H+ *\ - \* r1953a, thiamin diphosphate + ADP + H+ -> adenosine thiamine triphosphate + phosphate *\ - \* r1951, L-glutamine + XMP + ATP + H2O -> L-glutamate + GMP + AMP + diphosphate + 2 H+ *\ - \* r1950, isethionate + FMNH2 + oxygen -> glycolaldehyde + sulfite + FMN + H2O + 2 H+ *\ - \* r1945, 3-methyl-2-oxobutanoate + acetyl-CoA + H2O -> (2S)-2-isopropylmalate + coenzyme A + H+ *\ - \* r1944, glutathione disulfide + NADPH + H+ -> 2 glutathione + NADP+ *\ - \* r1942, L-ribulose + ATP -> L-ribulose 5-phosphate + ADP + H+ *\ - \* r1941, 2-keto-D-gluconate + NADPH + H+ -> D-gluconate + NADP+ *\ - \* r1936, UDP-alpha-D-glucose + 2 NAD+ + H2O -> UDP-alpha-D-glucuronate + 2 NADH + 3 H+ *\ - \* r1934b, ammonium -> ammonia + H+ *\ - \* r1934a, ammonia + H+ -> ammonium *\ - \* r1933, tartronate semialdehyde + NAD(P)H + H+ -> D-glycerate + NAD(P)+ *\ - \* r1932, tartronate semialdehyde + NAD(P)H + H+ -> D-glycerate + NAD(P)+ *\ - \* r1919, a 2,3,4-saturated fatty acyl CoA + NADP+ -> a trans-2-enoyl-CoA + NADPH + H+ *\ - \* r1918, a 2,3,4-saturated fatty acyl CoA + NADP+ -> a trans-2-enoyl-CoA + NADPH + H+ *\ - \* r1917, a 2,3,4-saturated fatty acyl CoA + NADP+ -> a trans-2-enoyl-CoA + NADPH + H+ *\ - \* r1916, a 2,3,4-saturated fatty acyl CoA + NADP+ -> a trans-2-enoyl-CoA + NADPH + H+ *\ - \* r1915, a 2,3,4-saturated fatty acyl CoA + NADP+ -> a trans-2-enoyl-CoA + NADPH + H+ *\ - \* r1914, a 2,3,4-saturated fatty acyl CoA + NADP+ -> a trans-2-enoyl-CoA + NADPH + H+ *\ - \* r1913, a 2,3,4-saturated fatty acyl CoA + NADP+ -> a trans-2-enoyl-CoA + NADPH + H+ *\ - \* r1912, pyruvate + D-glyceraldehyde 3-phosphate + H+ -> CO2 + 1-deoxy-D-xylulose 5-phosphate *\ - \* r1908, all-trans-octaprenyl diphosphate + 1,4-dihydroxy-2-naphthoate + H+ -> CO2 + demethylmenaquinol-8 + diphosphate *\ - \* r1906, NADPH + an electron-transfer quinone[inner membrane] + H+ -> NADP+ + an electron-transfer quinol[inner membrane] *\ - \* r1905, NADPH + an electron-transfer quinone[inner membrane] + H+ -> NADP+ + an electron-transfer quinol[inner membrane] *\ - \* r1900b, 3-methylcrotonyl-CoA + a reduced electron-transfer flavoprotein -> isovaleryl-CoA + an oxidized electron-transfer flavoprotein + H+ *\ - \* r1900a, isovaleryl-CoA + an oxidized electron-transfer flavoprotein + H+ -> 3-methylcrotonyl-CoA + a reduced electron-transfer flavoprotein *\ - \* r1899b, 3-dehydroshikimate + NADPH + H+ -> shikimate + NADP+ *\ - \* r1899a, shikimate + NADP+ -> 3-dehydroshikimate + NADPH + H+ *\ - \* r1898, cytidine + H+ + H2O -> uridine + ammonium *\ - \* r1896, ATP + pyridoxal -> ADP + pyridoxal 5'-phosphate + H+ *\ - \* r1893, an acetyl-[holo citrate lyase acyl-carrier protein] + H2O -> [a holo citrate lyase acyl-carrier protein] + acetate + H+ *\ - \* r1892, L-glutamate + ATP + NADPH + H+ -> ADP + L-glutamate-5-semialdehyde + NADP+ + phosphate *\ - \* r1891, an adenosine34 in [tRNAArg2] + H+ + H2O -> an inosine34 in [tRNAArg2] + ammonium *\ - \* r1890b, 1-(beta-D ribofuranosyl)nicotinamide + phosphate -> nicotinamide + alpha-D-ribose-1-phosphate + H+ *\ - \* r1890a, nicotinamide + alpha-D-ribose-1-phosphate + H+ -> 1-(beta-D ribofuranosyl)nicotinamide + phosphate *\ - \* r1886, 3-keto-L-gulonate + ATP -> 3-keto-L-gulonate 6-phosphate + ADP + H+ *\ - \* r1885b, L-aspartyl-4-phosphate + NADPH + H+ -> L-aspartate-semialdehyde + NADP+ + phosphate *\ - \* r1885a, L-aspartate-semialdehyde + NADP+ + phosphate -> L-aspartyl-4-phosphate + NADPH + H+ *\ - \* r1883, 3-dehydroshikimate + NAD(P)H + H+ -> shikimate + NAD(P)+ *\ - \* r1882, 3-dehydroshikimate + NAD(P)H + H+ -> shikimate + NAD(P)+ *\ - \* r1879, 4'-phosphopantetheine + ATP + H+ -> 3'-dephospho-CoA + diphosphate *\ - \* r1876, D-allopyranose + ATP -> aldehydo-D-allose 6-phosphate + ADP + H+ *\ - \* r1874b, a carboxylate + sn-glycero-3-phosphocholine + H+ -> a 2-acyl 1-lyso-phosphatidylcholine + H2O *\ - \* r1874a, a 2-acyl 1-lyso-phosphatidylcholine + H2O -> a carboxylate + sn-glycero-3-phosphocholine + H+ *\ - \* r1871, N-acetyl-alpha-D-glucosamine 1-phosphate + UTP + H+ -> UDP-N-acetyl-alpha-D-glucosamine + diphosphate *\ - \* r1869, 4-hydroxy-L-threonine + ATP -> 4-phospho-hydroxy-L-threonine + ADP + H+ *\ - \* r1868b, 4-aminobenzoate + pyruvate + H+ -> 4-amino-4-deoxychorismate *\ - \* r1868a, 4-amino-4-deoxychorismate -> 4-aminobenzoate + pyruvate + H+ *\ - \* r1863, beta-D-fructofuranose 6-phosphate + ATP -> ADP + fructose 1,6-bisphosphate + H+ *\ - \* r1862, UDP-2-N,3-O-bis[(3R)-3-hydroxytetradecanoyl]-alpha-D-glucosamine + H2O -> 2,3-bis[(3R)-3-hydroxymyristoyl]-alpha-D-glucosaminyl 1-phosphate + UMP + 2 H+ *\ - \* r1860, pppGpp + H2O -> GTP + diphosphate + H+ *\ - \* r1854, a tRNAhis + L-histidine + ATP + H+ -> an L-histidyl-[tRNAhis] + AMP + diphosphate *\ - \* r1853, sn-glycero-3-phosphoethanolamine + H2O -> sn-glycerol 3-phosphate + ethanolamine + H+ *\ - \* r1851, GDP + H2O -> GMP + phosphate + H+ *\ - \* r1846, ATP + 5-phospho-beta-D-ribosylamine + glycine -> ADP + N1-(5-phospho-beta-D-ribosyl)glycinamide + phosphate + H+ *\ - \* r1845, 2 ATP + hydrogen carbonate + ammonium -> 2 ADP + carbamoyl-phosphate + phosphate + 2 H+ *\ - \* r1844, ATP + ADP + H+ -> 5',5'''-diadenosine triphosphate + diphosphate *\ - \* r1843, D-glucosamine 1-phosphate + acetyl-CoA -> N-acetyl-alpha-D-glucosamine 1-phosphate + coenzyme A + H+ *\ - \* r1837, tRNAgln + L-glutamine + ATP + H+ -> an L-glutaminyl-[tRNAgln] + AMP + diphosphate *\ - \* r1836, CDP + H2O -> CMP + phosphate + H+ *\ - \* r1835, dTTP + H2O -> dTMP + diphosphate + H+ *\ - \* r1834, a tRNAval + L-valine + ATP + H+ -> an L-valyl-[tRNAval] + AMP + diphosphate *\ - \* r1833, alpha-D-glucose 1-phosphate + ATP + H+ -> ADP-alpha-D-glucose + diphosphate *\ - \* r1829, S-adenosyl-L-methionine + cytidine1402 in 16S rRNA -> S-adenosyl-L-homocysteine + 2'-O-methylcytidine1402 in 16S rRNA + H+ *\ - \* r1823, 2'-deoxyuridine + ATP -> dUMP + ADP + H+ *\ - \* r1820, D-ribulose 5-phosphate -> 1-deoxy-L-glycero-tetrulose 4-phosphate + formate + H+ *\ - \* r1819, 5-amino-6-(5-phospho-D-ribosylamino)uracil + NADPH + H+ -> 5-amino-6-(5-phospho-D-ribitylamino)uracil + NADP+ *\ - \* r1817b, a 1,2-diacyl-sn-glycerol 3-phosphate + ADP + H+ -> ATP + a 1,2-diacyl-sn-glycerol *\ - \* r1817a, ATP + a 1,2-diacyl-sn-glycerol -> a 1,2-diacyl-sn-glycerol 3-phosphate + ADP + H+ *\ - \* r1811b, L-alanine + selenide + an unknown oxidized electron acceptor + 2 H+ -> L-selenocysteine + an unknown reduced electron acceptor *\ - \* r1811a, L-selenocysteine + an unknown reduced electron acceptor -> L-alanine + selenide + an unknown oxidized electron acceptor + 2 H+ *\ - \* r1807, enterobactin + 3 H2O -> 3 N-(2,3-dihydroxybenzoyl)-L-serine + 3 H+ *\ - \* r1801b, CMP + an L-1-phosphatidylserine + H+ -> a CDP-diacylglycerol + L-serine *\ - \* r1801a, a CDP-diacylglycerol + L-serine -> CMP + an L-1-phosphatidylserine + H+ *\ - \* r1800b, CMP + an L-1-phosphatidylserine + H+ -> a CDP-diacylglycerol + L-serine *\ - \* r1800a, a CDP-diacylglycerol + L-serine -> CMP + an L-1-phosphatidylserine + H+ *\ - \* r1798, tRNAasn + L-asparagine + ATP + H+ -> an L-asparaginyl-[tRNAasn] + AMP + diphosphate *\ - \* r1793, R-4'-phosphopantothenoyl-L-cysteine + H+ -> 4'-phosphopantetheine + CO2 *\ - \* r1792b, L-alpha-amino-epsilon-keto-pimelate -> (S)-2,3,4,5-tetrahydrodipicolinate + H+ + H2O *\ - \* r1792a, (S)-2,3,4,5-tetrahydrodipicolinate + H+ + H2O -> L-alpha-amino-epsilon-keto-pimelate *\ - \* r1789, L-cysteine + O-succinyl-L-homoserine -> succinate + L-cystathionine + H+ *\ - \* r1788b, 2-amino-3-oxobutanoate + NADPH + H+ -> L-allo-threonine + NADP+ *\ - \* r1788a, L-allo-threonine + NADP+ -> 2-amino-3-oxobutanoate + NADPH + H+ *\ - \* r1786b, menadiol + NAD+ -> menadione + NADH + H+ *\ - \* r1786a, menadione + NADH + H+ -> menadiol + NAD+ *\ - \* r1784, a 2,3,4-saturated fatty acyl CoA + an oxidized electron-transfer flavoprotein + H+ -> a trans-2-enoyl-CoA + a reduced electron-transfer flavoprotein *\ - \* r1783, a 2,3,4-saturated fatty acyl CoA + an oxidized electron-transfer flavoprotein + H+ -> a trans-2-enoyl-CoA + a reduced electron-transfer flavoprotein *\ - \* r1782, a 2,3,4-saturated fatty acyl CoA + an oxidized electron-transfer flavoprotein + H+ -> a trans-2-enoyl-CoA + a reduced electron-transfer flavoprotein *\ - \* r1781, a 2,3,4-saturated fatty acyl CoA + an oxidized electron-transfer flavoprotein + H+ -> a trans-2-enoyl-CoA + a reduced electron-transfer flavoprotein *\ - \* r1780, a 2,3,4-saturated fatty acyl CoA + an oxidized electron-transfer flavoprotein + H+ -> a trans-2-enoyl-CoA + a reduced electron-transfer flavoprotein *\ - \* r1779, a 2,3,4-saturated fatty acyl CoA + an oxidized electron-transfer flavoprotein + H+ -> a trans-2-enoyl-CoA + a reduced electron-transfer flavoprotein *\ - \* r1778, a 2,3,4-saturated fatty acyl CoA + an oxidized electron-transfer flavoprotein + H+ -> a trans-2-enoyl-CoA + a reduced electron-transfer flavoprotein *\ - \* r1777, a 2,3,4-saturated fatty acyl CoA + an oxidized electron-transfer flavoprotein + H+ -> a trans-2-enoyl-CoA + a reduced electron-transfer flavoprotein *\ - \* r1776, a 2,3,4-saturated fatty acyl CoA + an oxidized electron-transfer flavoprotein + H+ -> a trans-2-enoyl-CoA + a reduced electron-transfer flavoprotein *\ - \* r1774, 2-iminopropanoate + H+ + H2O -> pyruvate + ammonium *\ - \* r1773b, (S)-2-acetolactate + CO2 -> 2 pyruvate + H+ *\ - \* r1773a, 2 pyruvate + H+ -> (S)-2-acetolactate + CO2 *\ - \* r1771, a tRNAleu + L-leucine + ATP + H+ -> an L-leucyl-[tRNAleu] + AMP + diphosphate *\ - \* r1767b, 2-thio-N6-dimethylallyladenosine37 in tRNA + an unsulfurated [sulfur carrier] + 5'-deoxyadenosine + L-methionine + an unknown oxidized electron acceptor + H+ -> N6-dimethylallyladenosine37 in tRNA + a sulfurated [sulfur carrier] + S-adenosyl-L-methionine + an unknown reduced electron acceptor *\ - \* r1767a, N6-dimethylallyladenosine37 in tRNA + a sulfurated [sulfur carrier] + S-adenosyl-L-methionine + an unknown reduced electron acceptor -> 2-thio-N6-dimethylallyladenosine37 in tRNA + an unsulfurated [sulfur carrier] + 5'-deoxyadenosine + L-methionine + an unknown oxidized electron acceptor + H+ *\ - \* r1765, 1-(o-carboxyphenylamino)-1'-deoxyribulose 5'-phosphate + H+ -> (1S,2R)-1-C-(indol-3-yl)glycerol 3-phosphate + CO2 + H2O *\ - \* r1762, histidinal + NAD+ + H2O -> L-histidine + NADH + 2 H+ *\ - \* r1761, UTP + H2O -> UMP + diphosphate + H+ *\ - \* r1759, GTP + 3 H2O -> 2,5-diamino-6-(5-phospho-D-ribosylamino)pyrimidin-4(3H)-one + formate + diphosphate + 2 H+ *\ - \* r1756, (R)-S-lactoylglutathione + H2O -> glutathione + (R)-lactate + H+ *\ - \* r1752, glycerone phosphate + NAD(P)H + H+ -> sn-glycerol 3-phosphate + NAD(P)+ *\ - \* r1751, glycerone phosphate + NAD(P)H + H+ -> sn-glycerol 3-phosphate + NAD(P)+ *\ - \* r1750b, 2-(alpha-hydroxyethyl)thiamine diphosphate + CO2 -> pyruvate + thiamin diphosphate + H+ *\ - \* r1750a, pyruvate + thiamin diphosphate + H+ -> 2-(alpha-hydroxyethyl)thiamine diphosphate + CO2 *\ - \* r1749, a 5,10-methylene-tetrahydrofolate + NADH + H+ -> an N5-methyl-tetrahydrofolate + NAD+ *\ - \* r1748, a 5,10-methylene-tetrahydrofolate + NADH + H+ -> an N5-methyl-tetrahydrofolate + NAD+ *\ - \* r1747, tRNAGlu + L-glutamate + ATP + H+ -> an L-glutamyl-[tRNAGlu] + AMP + diphosphate *\ - \* r1745, S-adenosyl-L-methionine + uroporphyrinogen-III -> S-adenosyl-L-homocysteine + precorrin-1 + H+ *\ - \* r1744, ATP + D-glycerate -> 2-phospho-D-glycerate + ADP + H+ *\ - \* r1736, ATP + N2-formyl-N1-(5-phospho-beta-D-ribosyl)glycinamide + L-glutamine + H2O -> ADP + 2-(formamido)-N1-(5-phospho-beta-D-ribosyl)acetamidine + L-glutamate + phosphate + H+ *\ - \* r1727, 2 6,7-dimethyl-8-(1-D-ribityl)lumazine + H+ -> 5-amino-6-(D-ribitylamino)uracil + riboflavin *\ - \* r1725, N2-succinyl-L-glutamate 5-semialdehyde + NAD+ + H2O -> N2-succinylglutamate + NADH + 2 H+ *\ - \* r1724, (2S,3S)-2,3-dihydroxy-2,3-dihydrobenzoate + NAD+ -> 2,3-dihydroxybenzoate + NADH + H+ *\ - \* r1721, ATP + 5-amino-1-(5-phospho-D-ribosyl)imidazole-4-carboxylate + L-aspartate -> ADP + 5'-phosphoribosyl-4-(N-succinocarboxamide)-5-aminoimidazole + phosphate + H+ *\ - \* r1716, dCTP + H2O -> dCMP + diphosphate + H+ *\ - \* r1712, 5-amino-1-(5-phospho-beta-D-ribosyl)imidazole + ATP + hydrogen carbonate -> N5-carboxyaminoimidazole ribonucleotide + ADP + phosphate + 2 H+ *\ - \* r1711, pppGpp + H2O -> ppGpp + phosphate + H+ *\ - \* r1706b, 2-oxoglutarate + NADH + H+ -> 2-hydroxyglutarate + NAD+ *\ - \* r1706a, 2-hydroxyglutarate + NAD+ -> 2-oxoglutarate + NADH + H+ *\ - \* r1705, 2,5-didehydro-D-gluconate + NADPH + H+ -> 2-keto-L-gulonate + NADP+ *\ - \* r1704, L-aspartate + ammonium + ATP -> L-asparagine + AMP + diphosphate + H+ *\ - \* r1702, hypoxanthine + NAD+ + H2O -> xanthine + NADH + H+ *\ - \* r1700, oxaloacetate + H+ -> pyruvate + CO2 *\ - \* r1699, 2 L-ascorbate + hydrogen peroxide + 2 H+ -> 2 monodehydroascorbate radical + 2 H2O *\ - \* r1695, an aldehyde + NADP+ + H2O -> a carboxylate + NADPH + 2 H+ *\ - \* r1693, an aldehyde + NADP+ + H2O -> a carboxylate + NADPH + 2 H+ *\ - \* r1692, an aldehyde + NADP+ + H2O -> a carboxylate + NADPH + 2 H+ *\ - \* r1691, an aldehyde + NADP+ + H2O -> a carboxylate + NADPH + 2 H+ *\ - \* r1688, an electron-transfer quinone[inner membrane] + NAD(P)H + H+ -> an electron-transfer quinol[inner membrane] + NAD(P)+ *\ - \* r1687, an electron-transfer quinone[inner membrane] + NAD(P)H + H+ -> an electron-transfer quinol[inner membrane] + NAD(P)+ *\ - \* r1686, an electron-transfer quinone[inner membrane] + NAD(P)H + H+ -> an electron-transfer quinol[inner membrane] + NAD(P)+ *\ - \* r1685, an electron-transfer quinone[inner membrane] + NAD(P)H + H+ -> an electron-transfer quinol[inner membrane] + NAD(P)+ *\ - \* r1682, NADH + a menaquinone[inner membrane] + 5 H+ -> NAD+ + a menaquinol[inner membrane] + 4 H+[periplasmic space] *\ - \* r1681, L-aspartate + IMP + GTP -> adenylo-succinate + GDP + phosphate + 2 H+ *\ - \* r1680, 2 an ubiquinol[inner membrane] + oxygen + 4 H+ -> 2 an ubiquinone[inner membrane] + 2 H2O + 4 H+[periplasmic space] *\ - \* r1679, ATP + NAD+ -> ADP + NADP+ + H+ *\ - \* r1675, NADH + a menaquinone[inner membrane] + H+ -> NAD+ + a menaquinol[inner membrane] *\ - \* r1670, 2-iminobutanoate + H+ + H2O -> 2-oxobutanoate + ammonium *\ - \* r1667, 2 an ubiquinol[inner membrane] + oxygen + 8 H+ -> 2 an ubiquinone[inner membrane] + 2 H2O + 8 H+[periplasmic space] *\ - \* r1664b, oxaloacetate + NADH + H+ -> (S)-malate + NAD+ *\ - \* r1664a, (S)-malate + NAD+ -> oxaloacetate + NADH + H+ *\ - \* r1656b, (S)-lactaldehyde + NADH + H+ -> (S)-propane-1,2-diol + NAD+ *\ - \* r1656a, (S)-propane-1,2-diol + NAD+ -> (S)-lactaldehyde + NADH + H+ *\ - \* r1646b, NAD+ + an ubiquinol[inner membrane] + 4 H+[periplasmic space] -> NADH + an ubiquinone[inner membrane] + 5 H+ *\ - \* r1646a, NADH + an ubiquinone[inner membrane] + 5 H+ -> NAD+ + an ubiquinol[inner membrane] + 4 H+[periplasmic space] *\ - \* r1644, NADH + an ubiquinone[inner membrane] + H+ -> NAD+ + an ubiquinol[inner membrane] *\ - \* r1643, 1-hydroxy-2-methyl-2-(E)-butenyl 4-diphosphate + NAD(P)H + H+ -> isopentenyl diphosphate + NAD(P)+ + H2O *\ - \* r1642, 1-hydroxy-2-methyl-2-(E)-butenyl 4-diphosphate + NAD(P)H + H+ -> isopentenyl diphosphate + NAD(P)+ + H2O *\ - \* r1641, formate[periplasmic space] + a menaquinone[inner membrane] + 2 H+ -> CO2[periplasmic space] + a menaquinol[inner membrane] + H+[periplasmic space] *\ - \* r1640, enterobactin + H2O -> (2,3-dihydroxybenzoylserine)3 + H+ *\ - \* r1638, GTP + H2O -> GDP + phosphate + H+ *\ - \* r1633b, 2-hydroxyglutarate + coenzyme A + H+ -> propanoyl-CoA + glyoxylate + H2O *\ - \* r1633a, propanoyl-CoA + glyoxylate + H2O -> 2-hydroxyglutarate + coenzyme A + H+ *\ - \* r1625, spermidine + glutathione + ATP -> glutathionylspermidine + ADP + phosphate + H+ *\ - \* r1624, nitrite + 3 NADH + 5 H+ -> ammonium + 3 NAD+ + 2 H2O *\ - \* r1622, beta-nicotinamide D-ribonucleotide + ATP + H+ -> NAD+ + diphosphate *\ - \* r1621, 2 glyoxylate + H+ -> CO2 + tartronate semialdehyde *\ - \* r1613, UDP-alpha-D-glucose + galactosyl-glucosyl-(heptosyl)3-Kdo2-lipid A-bisphosphate -> galactosyl-(glucosyl)2-(heptosyl)3-Kdo2-lipid A-bisphosphate + UDP + H+ *\ - \* r1609b, 3,4-dihydroxyphenylacetate + coenzyme A + H+ -> 3,4-dihydroxyphenylacetyl-CoA + H2O *\ - \* r1609a, 3,4-dihydroxyphenylacetyl-CoA + H2O -> 3,4-dihydroxyphenylacetate + coenzyme A + H+ *\ - \* r1608, uridine + GTP -> UMP + GDP + H+ *\ - \* r1601, 4-(gamma-glutamylamino)butanal + NAD(P)+ + H2O -> 4-(gamma-L-glutamylamino)butanoate + NAD(P)H + 2 H+ *\ - \* r1600, 4-(gamma-glutamylamino)butanal + NAD(P)+ + H2O -> 4-(gamma-L-glutamylamino)butanoate + NAD(P)H + 2 H+ *\ - \* r1598, erythronate-4-phosphate + NAD+ -> 2-oxo-3-hydroxy-4-phosphobutanoate + NADH + H+ *\ - \* r1597, L-tyrosine + S-adenosyl-L-methionine + NADPH -> 2-iminoacetate + 4-methylphenol + 5'-deoxyadenosine + L-methionine + NADP+ + H+ *\ - \* r1595, thymidine + ATP -> dTMP + ADP + H+ *\ - \* r1594, dTDP-4-dehydro-beta-L-rhamnose + NADPH + H+ -> dTDP-beta-L-rhamnose + NADP+ *\ - \* r1589, N2-succinyl-L-arginine + 2 H+ + 2 H2O -> 2 ammonium + N2-succinyl-L-ornithine + CO2 *\ - \* r1588, 2 D-alanine + ATP -> D-alanyl-D-alanine + ADP + phosphate + H+ *\ - \* r1585, 3-oxo-5,6-didehydrosuberyl-CoA semialdehyde + NADP+ + H2O -> 3-oxo-5,6-didehydrosuberyl-CoA + NADPH + 2 H+ *\ - \* r1584, D-ribulose + ATP -> D-ribulose 1-phosphate + ADP + H+ *\ - \* r1583, D-ribose 5-phosphate + ATP -> 5-phospho-alpha-D-ribose 1-diphosphate + AMP + H+ *\ - \* r1582, alpha-D-ribose-1-phosphate + ATP -> alpha-D-ribose 1,5-bisphosphate + ADP + H+ *\ - \* r1580, a CDP-diacylglycerol + H2O -> a 1,2-diacyl-sn-glycerol 3-phosphate + CMP + 2 H+ *\ - \* r1579, a CDP-diacylglycerol + H2O -> a 1,2-diacyl-sn-glycerol 3-phosphate + CMP + 2 H+ *\ - \* r1578, 2 5-aminolevulinate -> porphobilinogen + H+ + 2 H2O *\ - \* r1575, (2S)-2-amino-3-oxo-4-phosphonooxybutanoate + H+ -> 3-amino-1-hydroxyacetone 1-phosphate + CO2 *\ - \* r1573, L-aspartate + L-citrulline + ATP -> L-arginino-succinate + AMP + diphosphate + H+ *\ - \* r1572, pyruvate + ATP + H2O -> phosphoenolpyruvate + AMP + phosphate + 2 H+ *\ - \* r1565b, an aldehyde + NADH + H+ -> a primary alcohol + NAD+ *\ - \* r1565a, a primary alcohol + NAD+ -> an aldehyde + NADH + H+ *\ - \* r1564b, an aldehyde + NADH + H+ -> a primary alcohol + NAD+ *\ - \* r1564a, a primary alcohol + NAD+ -> an aldehyde + NADH + H+ *\ - \* r1563b, an aldehyde + NADH + H+ -> a primary alcohol + NAD+ *\ - \* r1563a, a primary alcohol + NAD+ -> an aldehyde + NADH + H+ *\ - \* r1561b, (S)-lactaldehyde + NADPH + H+ -> (S)-propane-1,2-diol + NADP+ *\ - \* r1561a, (S)-propane-1,2-diol + NADP+ -> (S)-lactaldehyde + NADPH + H+ *\ - \* r1558b, N-acetylglutamyl-phosphate + NADPH + H+ -> N-acetyl-L-glutamate 5-semialdehyde + NADP+ + phosphate *\ - \* r1558a, N-acetyl-L-glutamate 5-semialdehyde + NADP+ + phosphate -> N-acetylglutamyl-phosphate + NADPH + H+ *\ - \* r1554b, acetyl-CoA + NADH + H+ -> acetaldehyde + coenzyme A + NAD+ *\ - \* r1554a, acetaldehyde + coenzyme A + NAD+ -> acetyl-CoA + NADH + H+ *\ - \* r1542, L-aspartate-semialdehyde + NAD(P)H + H+ -> L-homoserine + NAD(P)+ *\ - \* r1541, L-aspartate-semialdehyde + NAD(P)H + H+ -> L-homoserine + NAD(P)+ *\ - \* r1526, 3-(all-trans-octaprenyl)benzene-1,2-diol + S-adenosyl-L-methionine -> 2-methoxy-6-(all-trans-octaprenyl)phenol + S-adenosyl-L-homocysteine + H+ *\ - \* r1525b, ammonium + 2-oxoglutarate + NADPH + H+ -> L-glutamate + NADP+ + H2O *\ - \* r1525a, L-glutamate + NADP+ + H2O -> ammonium + 2-oxoglutarate + NADPH + H+ *\ - \* r1524, guanine37 in tRNA + S-adenosyl-L-methionine -> N1-methylguanine37 in tRNA + S-adenosyl-L-homocysteine + H+ *\ - \* r1523, glucosyl-(heptosyl)2-Kdo2-lipid A-phosphate + ADP-L-glycero-beta-D-manno-heptose -> glucosyl-(heptosyl)3-Kdo2-lipid A-phosphate + ADP + H+ *\ - \* r1522, 2,5-didehydro-D-gluconate + NADPH + H+ -> 2-keto-D-gluconate + NADP+ *\ - \* r1521, 2,5-didehydro-D-gluconate + NADPH + H+ -> 5-dehydro-D-gluconate + NADP+ *\ - \* r1518, heptosyl-Kdo2-lipid A + ADP-L-glycero-beta-D-manno-heptose -> (heptosyl)2-Kdo2-lipid A + ADP + H+ *\ - \* r1513, D-glycero-beta-D-manno-heptose 1-phosphate + ATP + H+ -> ADP-D-glycero-beta-D-manno-heptose + diphosphate *\ - \* r1512, D-glutamate + UDP-N-acetyl-alpha-D-muramoyl-L-alanine + ATP -> UDP-N-acetyl-alpha-D-muramoyl-L-alanyl-D-glutamate + ADP + phosphate + H+ *\ - \* r1509, dGTP + H2O -> dGMP + diphosphate + H+ *\ - \* r1507b, L-seryl-adenylate + diphosphate -> L-serine + ATP + H+ *\ - \* r1507a, L-serine + ATP + H+ -> L-seryl-adenylate + diphosphate *\ - \* r1505, 2-amino-3-oxobutanoate + H+ -> aminoacetone + CO2 *\ - \* r1503, an alkylsulfonate + FMNH2 + oxygen -> an aldehyde + sulfite + FMN + H2O + 2 H+ *\ - \* r1502, an alkylsulfonate + FMNH2 + oxygen -> an aldehyde + sulfite + FMN + H2O + 2 H+ *\ - \* r1501, an alkylsulfonate + FMNH2 + oxygen -> an aldehyde + sulfite + FMN + H2O + 2 H+ *\ - \* r1498, pyruvate + L-aspartate-semialdehyde -> (2S,4S)-4-hydroxy-2,3,4,5-tetrahydrodipicolinate + H2O + H+ *\ - \* r1491b, ethyl-2-methylacetoacetate + NADPH + H+ -> ethyl-(2R)-methyl-(3S)-hydroxybutanoate + NADP+ *\ - \* r1491a, ethyl-(2R)-methyl-(3S)-hydroxybutanoate + NADP+ -> ethyl-2-methylacetoacetate + NADPH + H+ *\ - \* r1487b, ferroheme b + 2 H+ -> Fe2+ + protoporphyrin IX *\ - \* r1487a, Fe2+ + protoporphyrin IX -> ferroheme b + 2 H+ *\ - \* r1482b, acryloyl-CoA + NADPH + H+ -> propanoyl-CoA + NADP+ *\ - \* r1482a, propanoyl-CoA + NADP+ -> acryloyl-CoA + NADPH + H+ *\ - \* r1480, ATP + H2O -> AMP + diphosphate + H+ *\ - \* r1476, a tRNAarg + L-arginine + ATP + H+ -> an L-arginyl-[tRNAarg] + AMP + diphosphate *\ - \* r1469, a tRNAala + L-alanine + ATP + H+ -> an L-alanyl-[tRNAala] + AMP + diphosphate *\ - \* r1468, 4-(2'-carboxyphenyl)-4-oxobutyryl-CoA + H+ -> 1,4-dihydroxy-2-naphthoyl-CoA + H2O *\ - \* r1467, D-serine -> 2-aminoprop-2-enoate + H2O + H+ *\ - \* r1461, a [release factor]-L-glutamine + S-adenosyl-L-methionine -> a [release factor]-N5-methyl-L-glutamine + S-adenosyl-L-homocysteine + H+ *\ - \* r1454, inosine + ATP -> IMP + ADP + H+ *\ - \* r1453b, 3-keto-5-cis-tetradecenoyl-CoA + NADH + H+ -> 3-hydroxy-5-cis-tetradecenoyl-CoA + NAD+ *\ - \* r1453a, 3-hydroxy-5-cis-tetradecenoyl-CoA + NAD+ -> 3-keto-5-cis-tetradecenoyl-CoA + NADH + H+ *\ - \* r1449b, lipid A-core 1-diphosphate + di-trans,octa-cis-undecaprenyl phosphate -> lipid A-core + di-trans,octa-cis-undecaprenyl diphosphate + H+ *\ - \* r1449a, lipid A-core + di-trans,octa-cis-undecaprenyl diphosphate + H+ -> lipid A-core 1-diphosphate + di-trans,octa-cis-undecaprenyl phosphate *\ - \* r1442, XMP + ammonium + ATP -> GMP + AMP + diphosphate + 2 H+ *\ - \* r1439, isochorismate + 2-oxoglutarate + H+ -> 2-succinyl-5-enolpyruvyl-6-hydroxy-3-cyclohexene-1-carboxylate + CO2 *\ - \* r1435, glycine + gamma-L-glutamyl-L-cysteine + ATP -> glutathione + ADP + phosphate + H+ *\ - \* r1434, alpha-D-Kdo-(2->4)-alpha-D-Kdo-(2->6)-lipid A + ADP-L-glycero-beta-D-manno-heptose -> heptosyl-Kdo2-lipid A + ADP + H+ *\ - \* r1433, 4-phospho-hydroxy-L-threonine + NAD+ -> (2S)-2-amino-3-oxo-4-phosphonooxybutanoate + NADH + H+ *\ - \* r1431, beta-D-glucose + ATP -> beta-D-glucose 6-phosphate + ADP + H+ *\ - \* r1429, di-trans,octa-cis-undecaprenyl diphosphate + H2O -> di-trans,octa-cis-undecaprenyl phosphate + phosphate + H+ *\ - \* r1428b, 1,3-bisphospho-D-glycerate + NADH + H+ -> D-glyceraldehyde 3-phosphate + NAD+ + phosphate *\ - \* r1428a, D-glyceraldehyde 3-phosphate + NAD+ + phosphate -> 1,3-bisphospho-D-glycerate + NADH + H+ *\ - \* r1426b, methylglyoxal + NADPH + H+ -> acetol + NADP+ *\ - \* r1426a, acetol + NADP+ -> methylglyoxal + NADPH + H+ *\ - \* r1425, a tRNAtyr + L-tyrosine + ATP + H+ -> an L-tyrosyl-[tRNAtyr] + AMP + diphosphate *\ - \* r1424, beta-D-fructofuranose + ATP -> beta-D-fructofuranose 6-phosphate + ADP + H+ *\ - \* r1409, L-threonine + NAD+ -> 2-amino-3-oxobutanoate + NADH + H+ *\ - \* r1408, 1-(beta-D ribofuranosyl)nicotinamide + ATP -> beta-nicotinamide D-ribonucleotide + ADP + H+ *\ - \* r1407, sulfate + ATP + H+ -> adenosine 5'-phosphosulfate + diphosphate *\ - \* r1404, UDP-N-acetyl-alpha-D-muramate + L-alanyl-gamma-D-glutamyl-meso-diaminopimelate + ATP -> UDP-N-acetyl-alpha-D-muramoyl-L-alanyl-gamma-D-glutamyl-meso-2,6-diaminopimelate + ADP + phosphate + H+ *\ - \* r1403, shikimate + ATP -> shikimate 3-phosphate + ADP + H+ *\ - \* r1402, cytidine + GTP -> CMP + GDP + H+ *\ - \* r1400, 5-amino-1-(5-phospho-beta-D-ribosyl)imidazole + S-adenosyl-L-methionine -> 4-amino-2-methyl-5-phosphomethylpyrimidine + 5'-deoxyadenosine + L-methionine + formate + carbon monoxide + 3 H+ *\ - \* r1397, oxaloacetate + acetyl-CoA + H2O -> citrate + coenzyme A + H+ *\ - \* r1390b, phenylacetate + NADH + 2 H+ -> phenylacetaldehyde + NAD+ + H2O *\ - \* r1390a, phenylacetaldehyde + NAD+ + H2O -> phenylacetate + NADH + 2 H+ *\ - \* r1387, beta-alanine + (R)-pantoate + ATP -> (R)-pantothenate + AMP + diphosphate + H+ *\ - \* r1384, a (3S)-3-hydroxyacyl-CoA + NAD+ -> a 3-oxoacyl-CoA + NADH + H+ *\ - \* r1383, a (3S)-3-hydroxyacyl-CoA + NAD+ -> a 3-oxoacyl-CoA + NADH + H+ *\ - \* r1382, a (3S)-3-hydroxyacyl-CoA + NAD+ -> a 3-oxoacyl-CoA + NADH + H+ *\ - \* r1381, a (3S)-3-hydroxyacyl-CoA + NAD+ -> a 3-oxoacyl-CoA + NADH + H+ *\ - \* r1380, a (3S)-3-hydroxyacyl-CoA + NAD+ -> a 3-oxoacyl-CoA + NADH + H+ *\ - \* r1379, a (3S)-3-hydroxyacyl-CoA + NAD+ -> a 3-oxoacyl-CoA + NADH + H+ *\ - \* r1378, a (3S)-3-hydroxyacyl-CoA + NAD+ -> a 3-oxoacyl-CoA + NADH + H+ *\ - \* r1377, a (3S)-3-hydroxyacyl-CoA + NAD+ -> a 3-oxoacyl-CoA + NADH + H+ *\ - \* r1376, a (3S)-3-hydroxyacyl-CoA + NAD+ -> a 3-oxoacyl-CoA + NADH + H+ *\ - \* r1373, ATP + 2-(formamido)-N1-(5-phospho-beta-D-ribosyl)acetamidine -> ADP + 5-amino-1-(5-phospho-beta-D-ribosyl)imidazole + phosphate + H+ *\ - \* r1370b, thymine + NADH + H+ -> 5,6-dihydrothymine + NAD+ *\ - \* r1370a, 5,6-dihydrothymine + NAD+ -> thymine + NADH + H+ *\ - \* r1369, 2'-deoxyadenosine + H+ + H2O -> ammonium + 2'-deoxyinosine *\ - \* r1366, ATP + acetyl-CoA + hydrogen carbonate -> malonyl-CoA + ADP + phosphate + H+ *\ - \* r1365, D-mannopyranose + ATP -> alpha-D-mannose 6-phosphate + ADP + H+ *\ - \* r1349, guanosine + ATP -> GMP + ADP + H+ *\ - \* r1344b, octyl beta-1,6-D-galactofuranosyl-alpha-D-glucopyranoside + UDP + H+ -> octyl alpha-D-glucopyranoside + UDP-alpha-D-galactofuranose *\ - \* r1344a, octyl alpha-D-glucopyranoside + UDP-alpha-D-galactofuranose -> octyl beta-1,6-D-galactofuranosyl-alpha-D-glucopyranoside + UDP + H+ *\ - \* r1343, glycerol + ATP -> sn-glycerol 3-phosphate + ADP + H+ *\ - \* r1340, ammonium + L-glutamate + ATP -> L-glutamine + ADP + phosphate + H+ *\ - \* r1338, GDP-alpha-D-mannose + H2O -> GMP + alpha-D-mannose 1-phosphate + 2 H+ *\ - \* r1337b, 3-deoxy-D-glycero-2,5-hexodiulosonate + NADH + H+ -> 2-dehydro-3-deoxy-D-gluconate + NAD+ *\ - \* r1337a, 2-dehydro-3-deoxy-D-gluconate + NAD+ -> 3-deoxy-D-glycero-2,5-hexodiulosonate + NADH + H+ *\ - \* r1335, alpha-D-glucose 1-phosphate + UTP + H+ -> UDP-alpha-D-glucose + diphosphate *\ - \* r1333, cyclic-AMP + H2O -> AMP + H+ *\ - \* r1332, UDP-N-acetyl-alpha-D-glucosamine-enolpyruvate + NADPH + H+ -> UDP-N-acetyl-alpha-D-muramate + NADP+ *\ - \* r1329, L-tryptophan + a tRNAtrp + ATP + H+ -> an L-tryptophanyl-[tRNAtrp] + AMP + diphosphate *\ - \* r1328, an N10-formyl-tetrahydrofolate + H2O -> a tetrahydrofolate + formate + H+ *\ - \* r1325, dUTP + H2O -> dUMP + diphosphate + H+ *\ - \* r1314, pyruvate + NADH + H+ -> (R)-lactate + NAD+ *\ - \* r1311b, an aliphatic N-acetyl-diamine + coenzyme A + H+ -> an aliphatic alpha,omega-diamine + acetyl-CoA *\ - \* r1311a, an aliphatic alpha,omega-diamine + acetyl-CoA -> an aliphatic N-acetyl-diamine + coenzyme A + H+ *\ - \* r1308b, 3-oxo-L-alanine + NADPH + H+ -> L-serine + NADP+ *\ - \* r1308a, L-serine + NADP+ -> 3-oxo-L-alanine + NADPH + H+ *\ - \* r1307, a tRNAser + L-serine + ATP + H+ -> an L-seryl-[tRNAser] + AMP + diphosphate *\ - \* r1306, cytosine + H+ + H2O -> ammonium + uracil *\ - \* r1304, ATP + pyridoxamine -> ADP + pyridoxamine 5'-phosphate + H+ *\ - \* r1290, (R)-4'-phosphopantothenate + L-cysteine + CTP -> CMP + R-4'-phosphopantothenoyl-L-cysteine + diphosphate + H+ *\ - \* r1287, allantoate + 2 H+ + H2O -> S-ureidoglycine + ammonium + CO2 *\ - \* r1285, 3-oxo-L-alanine + H+ -> 2-aminoacetaldehyde + CO2 *\ - \* r1282, riboflavin + NADPH + 2 H+ -> reduced riboflavin + NADP+ *\ - \* r1269, L-cysteine -> 2-aminoprop-2-enoate + hydrogen sulfide + H+ *\ - \* r1268, (S)-2-aceto-2-hydroxybutanoate + NADPH + H+ -> (R)-2,3-dihydroxy-3-methylpentanoate + NADP+ *\ - \* r1265b, a tRNAleu + L-leucyl-[protein] + H+ -> an L-leucyl-[tRNAleu] + a protein *\ - \* r1265a, an L-leucyl-[tRNAleu] + a protein -> a tRNAleu + L-leucyl-[protein] + H+ *\ - \* r1262, CMP-3-deoxy-alpha-D-manno-octulosonate + lipid IVA -> alpha-Kdo-(2->6)-lipid IVA + CMP + H+ *\ - \* r1249, (2S,4S)-4-hydroxy-2,3,4,5-tetrahydrodipicolinate + NADPH + H+ -> (S)-2,3,4,5-tetrahydrodipicolinate + NADP+ + H2O *\ - \* r1246, methylglyoxal + H2O -> (R)-lactate + H+ *\ - \* r1245, (S)-NADPHX + ADP -> AMP + NADPH + phosphate + H+ *\ - \* r1242b, dihydroxyacetone + NADH + H+ -> glycerol + NAD+ *\ - \* r1242a, glycerol + NAD+ -> dihydroxyacetone + NADH + H+ *\ - \* r1240, phosphoribulosylformimino-AICAR-P + L-glutamine -> L-glutamate + D-erythro-imidazole-glycerol-phosphate + 5-amino-1-(5-phospho-D-ribosyl)imidazole-4-carboxamide + H+ *\ - \* r1239, CTP + H2O -> CDP + phosphate + H+ *\ - \* r1234, alpha-D-galactose + ATP -> alpha-D-galactose 1-phosphate + ADP + H+ *\ - \* r1232, a pimeloyl-[acp] + L-alanine + H+ -> 8-amino-7-oxononanoate + CO2 + a holo-[acyl-carrier protein] *\ - \* r1231b, thiamin phosphate + phosphate + H+ -> thiamin diphosphate + H2O *\ - \* r1231a, thiamin diphosphate + H2O -> thiamin phosphate + phosphate + H+ *\ - \* r1229, trimethylamine N-oxide + NADH + 2 H+ -> trimethylamine + NAD+ + H2O *\ - \* r1226, hydroxypyruvate + NADPH + H+ -> D-glycerate + NADP+ *\ - \* r1223, riboflavin + ATP -> ADP + FMN + H+ *\ - \* r1219, S-adenosyl-L-methionine + H+ -> CO2 + S-adenosyl 3-(methylthio)propylamine *\ - \* r1215, dITP + H2O -> dIMP + diphosphate + H+ *\ - \* r1211, L-aspartate + fumarate -> 2-iminosuccinate + succinate + H+ *\ - \* r1209b, CMP + an L-1-phosphatidylglycerol-phosphate + H+ -> a CDP-diacylglycerol + sn-glycerol 3-phosphate *\ - \* r1209a, a CDP-diacylglycerol + sn-glycerol 3-phosphate -> CMP + an L-1-phosphatidylglycerol-phosphate + H+ *\ - \* r1208b, CMP + an L-1-phosphatidylglycerol-phosphate + H+ -> a CDP-diacylglycerol + sn-glycerol 3-phosphate *\ - \* r1208a, a CDP-diacylglycerol + sn-glycerol 3-phosphate -> CMP + an L-1-phosphatidylglycerol-phosphate + H+ *\ - \* r1206, 2-keto-L-gulonate + NADPH + H+ -> L-idonate + NADP+ *\ - \* r1202, (2S)-2-isopropyl-3-oxosuccinate + H+ -> 4-methyl-2-oxopentanoate + CO2 *\ - \* r1199, a trans dodec-2-enoyl-[acp] + NADH + H+ -> a dodecanoyl-[acp] + NAD+ *\ - \* r1198b, CO2 + formyl-CoA -> oxalyl-CoA + H+ *\ - \* r1198a, oxalyl-CoA + H+ -> CO2 + formyl-CoA *\ - \* r1197, a dodecanoyl-[acp] + a malonyl-[acp] + H+ -> a 3-oxo-myristoyl-[acp] + CO2 + a holo-[acyl-carrier protein] *\ - \* r1196, 2 monodehydroascorbate radical -> L-ascorbate + L-dehydro-ascorbate + H+ *\ - \* r1193, a pimeloyl-[acp] methyl ester + H2O -> a pimeloyl-[acp] + methanol + H+ *\ - \* r1191, a 3-oxo-cis-delta7-tetradecenoyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxy cis delta7-tetradecenoyl-[acp] + NADP+ *\ - \* r1177b, 3'-phosphoadenylyl-sulfate + ADP + H+ -> adenosine 5'-phosphosulfate + ATP *\ - \* r1177a, adenosine 5'-phosphosulfate + ATP -> 3'-phosphoadenylyl-sulfate + ADP + H+ *\ - \* r1176, ATP + nicotinate adenine dinucleotide + L-glutamine + H2O -> AMP + L-glutamate + NAD+ + diphosphate + H+ *\ - \* r1174, a dodecanoyl-[acp] + H2O -> a holo-[acyl-carrier protein] + laurate + H+ *\ - \* r1172, 3'-phosphoadenylyl-sulfate + a reduced thioredoxin -> adenosine 3',5'-bisphosphate + sulfite + an oxidized thioredoxin + 2 H+ *\ - \* r1171b, L-cysteine + acetate + H+ -> O-acetyl-L-serine + hydrogen sulfide *\ - \* r1171a, O-acetyl-L-serine + hydrogen sulfide -> L-cysteine + acetate + H+ *\ - \* r1170, elongator tRNAmet + L-methionine + ATP + H+ -> an L-methionyl-[elongator tRNAmet] + AMP + diphosphate *\ - \* r1165, a trans hex-2-enoyl-[acp] + NADH + H+ -> a hexanoyl-[acyl-carrier-protein] + NAD+ *\ - \* r1164, a decanoyl-[acp] + a malonyl-[acp] + H+ -> a 3-oxo-dodecanoyl-[acp] + CO2 + a holo-[acyl-carrier protein] *\ - \* r1162, a 3-oxo-pimeloyl-[acp] methyl ester + NADPH + H+ -> a (3R)-3-hydroxypimeloyl-[acp] methyl ester + NADP+ *\ - \* r1161, a 2,3-dihydroxybenzoyl-[EntB isochorismatase/aryl-carrier protein] + a seryl-[EntF peptidyl-carrier protein] -> a holo EntB isochorismatase/aryl-carrier protein + a DHB-seryl-[EntF peptidyl-carrier protein] + H+ *\ - \* r1158, a nucleoside triphosphate + H2O -> a nucleoside 5'-monophosphate + diphosphate + H+ *\ - \* r1157, a nucleoside triphosphate + H2O -> a nucleoside 5'-monophosphate + diphosphate + H+ *\ - \* r1156, a nucleoside triphosphate + H2O -> a nucleoside 5'-monophosphate + diphosphate + H+ *\ - \* r1155, a nucleoside triphosphate + H2O -> a nucleoside 5'-monophosphate + diphosphate + H+ *\ - \* r1154, a nucleoside triphosphate + H2O -> a nucleoside 5'-monophosphate + diphosphate + H+ *\ - \* r1153, a nucleoside triphosphate + H2O -> a nucleoside 5'-monophosphate + diphosphate + H+ *\ - \* r1152, a nucleoside triphosphate + H2O -> a nucleoside 5'-monophosphate + diphosphate + H+ *\ - \* r1151, a nucleoside triphosphate + H2O -> a nucleoside 5'-monophosphate + diphosphate + H+ *\ - \* r1150, a nucleoside triphosphate + H2O -> a nucleoside 5'-monophosphate + diphosphate + H+ *\ - \* r1149, a nucleoside triphosphate + H2O -> a nucleoside 5'-monophosphate + diphosphate + H+ *\ - \* r1147, (2,3-dihydroxybenzoylserine)3 + H2O -> (2,3-dihydroxybenzoylserine)2 + N-(2,3-dihydroxybenzoyl)-L-serine + H+ *\ - \* r1142, a 3-oxoacyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxyacyl-[acyl-carrier protein] + NADP+ *\ - \* r1141, a 3-oxoacyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxyacyl-[acyl-carrier protein] + NADP+ *\ - \* r1140, a 3-oxoacyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxyacyl-[acyl-carrier protein] + NADP+ *\ - \* r1139, a 3-oxoacyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxyacyl-[acyl-carrier protein] + NADP+ *\ - \* r1138, a 3-oxoacyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxyacyl-[acyl-carrier protein] + NADP+ *\ - \* r1137, a 3-oxoacyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxyacyl-[acyl-carrier protein] + NADP+ *\ - \* r1136, a 3-oxoacyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxyacyl-[acyl-carrier protein] + NADP+ *\ - \* r1132, a (3R)-3-hydroxymyristoyl-[acp] + UDP-3-O-(3-hydroxymyristoyl)-alpha-D-glucosamine -> UDP-2-N,3-O-bis[(3R)-3-hydroxytetradecanoyl]-alpha-D-glucosamine + a holo-[acyl-carrier protein] + H+ *\ - \* r1114, a 3-oxo-octanoyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxyoctanoyl-[acp] + NADP+ *\ - \* r1113, NAD+ + H2O -> ADP-D-ribose + nicotinamide + H+ *\ - \* r1109, alpha-D-mannose 1-phosphate + GTP + H+ -> GDP-alpha-D-mannose + diphosphate *\ - \* r1104b, a reduced flavodoxin + NADP+ -> an oxidized flavodoxin + NADPH + H+ *\ - \* r1104a, an oxidized flavodoxin + NADPH + H+ -> a reduced flavodoxin + NADP+ *\ - \* r1101, gamma-L-glutamyl 5-phosphate + NADPH + H+ -> L-glutamate-5-semialdehyde + NADP+ + phosphate *\ - \* r1097, UDP-alpha-D-glucose + galactosyl-(glucosyl)2-(heptosyl)3-Kdo2-lipid A-bisphosphate -> galactosyl-(glucosyl)3-(heptosyl)3-Kdo2-lipid A-bisphosphate + UDP + H+ *\ - \* r1093, ITP + H2O -> IDP + phosphate + H+ *\ - \* r1092, uroporphyrinogen-III + 4 H+ -> 4 CO2 + coproporphyrinogen III *\ - \* r1091b, arsenite + an oxidized glutaredoxin + H2O -> arsenate + a reduced glutaredoxin + H+ *\ - \* r1091a, arsenate + a reduced glutaredoxin + H+ -> arsenite + an oxidized glutaredoxin + H2O *\ - \* r1090b, arsenite + an oxidized glutaredoxin + H2O -> arsenate + a reduced glutaredoxin + H+ *\ - \* r1090a, arsenate + a reduced glutaredoxin + H+ -> arsenite + an oxidized glutaredoxin + H2O *\ - \* r1086, a 3-oxo-hexanoyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxyhexanoyl-[acp] + NADP+ *\ - \* r1077, citrate + an acetyl-[holo citrate lyase acyl-carrier protein] + H+ -> a citryl-[holo citrate lyase acyl-carrier protein] + acetate *\ - \* r1076b, alpha-Kdo-(2->4)-alpha-Kdo-(2->4)-alpha-Kdo-(2->6)-lipid IVA + CMP + H+ -> alpha-Kdo-(2->4)-alpha-Kdo-(2->6)-lipid IVA + CMP-3-deoxy-alpha-D-manno-octulosonate *\ - \* r1076a, alpha-Kdo-(2->4)-alpha-Kdo-(2->6)-lipid IVA + CMP-3-deoxy-alpha-D-manno-octulosonate -> alpha-Kdo-(2->4)-alpha-Kdo-(2->4)-alpha-Kdo-(2->6)-lipid IVA + CMP + H+ *\ - \* r1075, a [biotin-carboxyl-carrier protein monomer] + biotin + ATP -> AMP + a biotinylated [BCCP monomer] + diphosphate + H+ *\ - \* r1067b, N-carbamoyl-L-aspartate + H+ -> (S)-dihydroorotate + H2O *\ - \* r1067a, (S)-dihydroorotate + H2O -> N-carbamoyl-L-aspartate + H+ *\ - \* r1061, a 3-oxo-palmitoyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxypalmitoyl-[acp] + NADP+ *\ - \* r1060, dGTP + H2O -> PPPi + 2'-deoxyguanosine + H+ *\ - \* r1058, phenylacetyl-CoA + NADPH + oxygen + H+ -> 2-(1,2-epoxy-1,2-dihydrophenyl)acetyl-CoA + NADP+ + H2O *\ - \* r1057, a 3-oxo-cis-delta9-hexadecenoyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxy cis delta9-hexadecenoyl-[acp] + NADP+ *\ - \* r1053, an acyl-carrier protein + coenzyme A -> adenosine 3',5'-bisphosphate + a holo-[acyl-carrier protein] + H+ *\ - \* r1052, an acyl-carrier protein + coenzyme A -> adenosine 3',5'-bisphosphate + a holo-[acyl-carrier protein] + H+ *\ - \* r1051, an acyl-carrier protein + coenzyme A -> adenosine 3',5'-bisphosphate + a holo-[acyl-carrier protein] + H+ *\ - \* r1050, an acyl-carrier protein + coenzyme A -> adenosine 3',5'-bisphosphate + a holo-[acyl-carrier protein] + H+ *\ - \* r1049, an acyl-carrier protein + coenzyme A -> adenosine 3',5'-bisphosphate + a holo-[acyl-carrier protein] + H+ *\ - \* r1048, an acyl-carrier protein + coenzyme A -> adenosine 3',5'-bisphosphate + a holo-[acyl-carrier protein] + H+ *\ - \* r1047, an acyl-carrier protein + coenzyme A -> adenosine 3',5'-bisphosphate + a holo-[acyl-carrier protein] + H+ *\ - \* r1045, ADP-D-ribose + H2O -> AMP + D-ribofuranose 5-phosphate + 2 H+ *\ - \* r1044b, isobutanal + NADPH + H+ -> isobutanol + NADP+ *\ - \* r1044a, isobutanol + NADP+ -> isobutanal + NADPH + H+ *\ - \* r1042, CTP + a 1,2-diacyl-sn-glycerol 3-phosphate + H+ -> a CDP-diacylglycerol + diphosphate *\ - \* r1041, CTP + a 1,2-diacyl-sn-glycerol 3-phosphate + H+ -> a CDP-diacylglycerol + diphosphate *\ - \* r1037, 2,3-dihydroxybenzoyl adenylate + a holo EntB isochorismatase/aryl-carrier protein -> a 2,3-dihydroxybenzoyl-[EntB isochorismatase/aryl-carrier protein] + AMP + H+ *\ - \* r1035b, acetol + NADH + H+ -> (S)-propane-1,2-diol + NAD+ *\ - \* r1035a, (S)-propane-1,2-diol + NAD+ -> acetol + NADH + H+ *\ - \* r1034, a trans tetradec-2-enoyl-[acp] + NADH + H+ -> a myristoyl-[acp] + NAD+ *\ - \* r1033, a 3-oxo-myristoyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxymyristoyl-[acp] + NADP+ *\ - \* r1025, 4-aminobutanal + NAD+ + H2O -> 4-aminobutanoate + NADH + 2 H+ *\ - \* r1024, orotidine 5'-phosphate + H+ -> CO2 + UMP *\ - \* r1021, a trans-2-enoyl-[acyl-carrier protein] + NADH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NAD+ *\ - \* r1020, a trans-2-enoyl-[acyl-carrier protein] + NADH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NAD+ *\ - \* r1019, a trans-2-enoyl-[acyl-carrier protein] + NADH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NAD+ *\ - \* r1018, a trans-2-enoyl-[acyl-carrier protein] + NADH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NAD+ *\ - \* r1017, a trans-2-enoyl-[acyl-carrier protein] + NADH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NAD+ *\ - \* r1016, a trans-2-enoyl-[acyl-carrier protein] + NADH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NAD+ *\ - \* r1015, a trans-2-enoyl-[acyl-carrier protein] + NADH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NAD+ *\ - \* r1013b, N-alpha-acetyl-L-methionine + coenzyme A + H+ -> L-methionine + acetyl-CoA *\ - \* r1013a, L-methionine + acetyl-CoA -> N-alpha-acetyl-L-methionine + coenzyme A + H+ *\ - \* r1012b, acetaldehyde + NADH + H+ -> ethanol + NAD+ *\ - \* r1012a, ethanol + NAD+ -> acetaldehyde + NADH + H+ *\ - \* r1007b, N-acetyl-L-glutamate + coenzyme A + H+ -> L-glutamate + acetyl-CoA *\ - \* r1007a, L-glutamate + acetyl-CoA -> N-acetyl-L-glutamate + coenzyme A + H+ *\ - \* r1006b, an oxidized thioredoxin + sulfite + hydrogen sulfide + H+ -> a reduced thioredoxin + thiosulfate *\ - \* r1006a, a reduced thioredoxin + thiosulfate -> an oxidized thioredoxin + sulfite + hydrogen sulfide + H+ *\ - \* r1005, 6-deoxy-6-sulfo-D-fructose + ATP -> 6-deoxy-6-sulfo-D-fructose 1-phosphate + ADP + H+ *\ - \* r1004, D-sedoheptulose 7-phosphate + ATP -> D-sedoheptulose-1,7-bisphosphate + ADP + H+ *\ - \* r1003, ATP + acetyl-CoA + a carboxylated-biotinylated [BCCP dimer] + H2O -> malonyl-CoA + a biotinylated [BCCP dimer] + ADP + phosphate + H+ *\ - \* r1001, a trans oct-2-enoyl-[acp] + NADH + H+ -> an octanoyl-[acp] + NAD+ *\ - \* r1000, O-succinyl-L-homoserine + H2O -> 2-oxobutanoate + succinate + ammonium + H+ *\ - \* r999, a 3-oxo-dodecanoyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxydodecanoyl-[acp] + NADP+ *\ - \* r989b, a [glycine-cleavage complex H protein] N6-aminomethyldihydrolipoyl-L-lysine + CO2 -> glycine + a [glycine-cleavage complex H protein] N6-lipoyl-L-lysine + H+ *\ - \* r989a, glycine + a [glycine-cleavage complex H protein] N6-lipoyl-L-lysine + H+ -> a [glycine-cleavage complex H protein] N6-aminomethyldihydrolipoyl-L-lysine + CO2 *\ - \* r973, a malonyl-[acp] + an acetyl-[acp] + H+ -> a holo-[acyl-carrier protein] + an acetoacetyl-[acp] + CO2 *\ - \* r967, L-homoserine + ATP -> O-phospho-L-homoserine + ADP + H+ *\ - \* r966b, a [glycine-cleavage complex H protein] N6-lipoyl-L-lysine + a holo-[acyl-carrier protein] + H+ -> [glycine cleavage system lipoyl-carrier protein]-L-lysine + a lipoyl-[acp] *\ - \* r966a, [glycine cleavage system lipoyl-carrier protein]-L-lysine + a lipoyl-[acp] -> a [glycine-cleavage complex H protein] N6-lipoyl-L-lysine + a holo-[acyl-carrier protein] + H+ *\ - \* r962, an octanoyl-[acp] + a malonyl-[acp] + H+ -> a 3-oxo-decanoyl-[acp] + CO2 + a holo-[acyl-carrier protein] *\ - \* r961, an enoylglutaryl-[acp] methyl ester + NADH + H+ -> a glutaryl-[acp] methyl ester + NAD+ *\ - \* r960, 6-hydroxymethyl-7,8-dihydropterin + ATP -> (2-amino-4-hydroxy-7,8-dihydropteridin-6-yl)methyl diphosphate + AMP + H+ *\ - \* r956, a [protein]-L-glutamate-O5-methyl-ester + H2O -> a [protein]-alpha-L-glutamate + methanol + H+ *\ - \* r952, an L-1-phosphatidyl-glycerol + ATP -> an L-1-phosphatidylglycerol-phosphate + ADP + H+ *\ - \* r951, an L-1-phosphatidyl-glycerol + ATP -> an L-1-phosphatidylglycerol-phosphate + ADP + H+ *\ - \* r950, an L-1-phosphatidyl-glycerol + ATP -> an L-1-phosphatidylglycerol-phosphate + ADP + H+ *\ - \* r949, 2-oxoglutarate + a [2-oxoglutarate dehydrogenase E2 protein] N6-lipoyl-L-lysine + H+ -> a [2-oxoglutarate dehydrogenase E2 protein] N6-S-succinyldihydrolipoyl-L-lysine + CO2 *\ - \* r948, 4-(cytidine 5'-diphospho)-2-C-methyl-D-erythritol + ATP -> 2-phospho-4-(cytidine 5'-diphospho)-2-C-methyl-D-erythritol + ADP + H+ *\ - \* r947b, trimethylamine N-oxide + 2 a reduced c-type cytochrome + 3 H+ -> trimethylamine + 2 an oxidized c-type cytochrome + H2O *\ - \* r947a, trimethylamine + 2 an oxidized c-type cytochrome + H2O -> trimethylamine N-oxide + 2 a reduced c-type cytochrome + 3 H+ *\ - \* r946b, trimethylamine N-oxide + 2 a reduced c-type cytochrome + 3 H+ -> trimethylamine + 2 an oxidized c-type cytochrome + H2O *\ - \* r946a, trimethylamine + 2 an oxidized c-type cytochrome + H2O -> trimethylamine N-oxide + 2 a reduced c-type cytochrome + 3 H+ *\ - \* r945b, trimethylamine N-oxide + 2 a reduced c-type cytochrome + 3 H+ -> trimethylamine + 2 an oxidized c-type cytochrome + H2O *\ - \* r945a, trimethylamine + 2 an oxidized c-type cytochrome + H2O -> trimethylamine N-oxide + 2 a reduced c-type cytochrome + 3 H+ *\ - \* r944b, trimethylamine N-oxide + 2 a reduced c-type cytochrome + 3 H+ -> trimethylamine + 2 an oxidized c-type cytochrome + H2O *\ - \* r944a, trimethylamine + 2 an oxidized c-type cytochrome + H2O -> trimethylamine N-oxide + 2 a reduced c-type cytochrome + 3 H+ *\ - \* r940, 2-methoxy-6-all trans-octaprenyl-2-methoxy-1,4-benzoquinol + S-adenosyl-L-methionine -> 6-methoxy-3-methyl-2-all-trans-octaprenyl-1,4-benzoquinol + S-adenosyl-L-homocysteine + H+ *\ - \* r937, a [pyruvate dehydrogenase E2 protein] N6-dihydrolipoyl-L-lysine + NAD+ -> a [pyruvate dehydrogenase E2 protein] N6-lipoyl-L-lysine + NADH + H+ *\ - \* r934, glucosyl-(heptosyl)3-Kdo2-lipid A-phosphate + ATP -> glucosyl-(heptosyl)3-Kdo2-lipid A-bisphosphate + ADP + H+ *\ - \* r932, methylglyoxal + NADPH + H+ -> (S)-lactaldehyde + NADP+ *\ - \* r930b, L-idonate + NADP+ -> 2-keto-D-gluconate + NADPH + H+ *\ - \* r930a, 2-keto-D-gluconate + NADPH + H+ -> L-idonate + NADP+ *\ - \* r929, a malonyl-[acp] methyl ester + a malonyl-[acp] + H+ -> a 3-oxo-glutaryl-[acp] methyl ester + CO2 + a holo-[acyl-carrier protein] *\ - \* r922, D-alanyl-D-alanine + UDP-N-acetyl-alpha-D-muramoyl-L-alanyl-gamma-D-glutamyl-meso-2,6-diaminopimelate + ATP -> UDP-N-acetyl-alpha-D-muramoyl-L-alanyl-gamma-D-glutamyl-meso-2,6-diaminopimeloyl-D-alanyl-D-alanine + ADP + phosphate + H+ *\ - \* r921, L-fuculose + ATP -> L-fuculose 1-phosphate + ADP + H+ *\ - \* r920, an oxidized thioredoxin + NADPH + H+ -> a reduced thioredoxin + NADP+ *\ - \* r918, putrescine + L-glutamate + ATP -> gamma-glutamyl-L-putrescine + ADP + phosphate + H+ *\ - \* r915, 6 ATP + 3 L-serine + 3 2,3-dihydroxybenzoate -> 6 AMP + enterobactin + 6 diphosphate + 3 H+ *\ - \* r914, a trans-delta3-cis-delta5-dodecenoyl-[acp] + NADH + H+ -> a cis-delta5-dodecenoyl-[acp] + NAD+ *\ - \* r911, a ThiS sulfur-carrier protein + ATP + H+ -> a carboxy-adenylated-[ThiS sulfur-carrier protein] + diphosphate *\ - \* r910, a palmitoyl-[acp] + H2O -> palmitate + a holo-[acyl-carrier protein] + H+ *\ - \* r908, an acetoacetyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxybutanoyl-[acp] + NADP+ *\ - \* r904b, acetyl-CoA + CO2 + a reduced flavodoxin -> pyruvate + an oxidized flavodoxin + coenzyme A + H+ *\ - \* r904a, pyruvate + an oxidized flavodoxin + coenzyme A + H+ -> acetyl-CoA + CO2 + a reduced flavodoxin *\ - \* r903, D-tagatofuranose 6-phosphate + ATP -> D-tagatofuranose 1,6-bisphosphate + ADP + H+ *\ - \* r902, a 7,8-dihydrofolate + NADPH + H+ -> a tetrahydrofolate + NADP+ *\ - \* r900, putrescine + S-adenosyl 3-(methylthio)propylamine -> spermidine + S-methyl-5'-thioadenosine + H+ *\ - \* r896, 3'-dephospho-CoA + ATP -> ADP + coenzyme A + H+ *\ - \* r895, acetyl-CoA + a malonyl-[acp] + H+ -> an acetoacetyl-[acp] + CO2 + coenzyme A *\ - \* r894, (S)-1-pyrroline-5-carboxylate + NAD+ + 2 H2O -> L-glutamate + NADH + H+ *\ - \* r887, a cis-delta3-decenoyl-[acp] + a malonyl-[acp] + H+ -> a 3-oxo-cis-delta5-dodecenoyl-[acp] + a holo-[acyl-carrier protein] + CO2 *\ - \* r885, a trans hexadecenoyl-[acp] + NADH + H+ -> a palmitoyl-[acp] + NAD+ *\ - \* r884b, phenylacetate + coenzyme A + H+ -> phenylacetyl-CoA + H2O *\ - \* r884a, phenylacetyl-CoA + H2O -> phenylacetate + coenzyme A + H+ *\ - \* r881b, a [glycine-cleavage complex H protein] N6-lipoyl-L-lysine + NADH + H+ -> a [glycine-cleavage complex H protein] N6-dihydrolipoyl-L-lysine + NAD+ *\ - \* r881a, a [glycine-cleavage complex H protein] N6-dihydrolipoyl-L-lysine + NAD+ -> a [glycine-cleavage complex H protein] N6-lipoyl-L-lysine + NADH + H+ *\ - \* r880, a trans-delta3-cis-delta7-tetradecenoyl-[acp] + NADH + H+ -> a cis-delta7-tetradecenoyl-[acp] + NAD+ *\ - \* r876b, ATP + 5-phospho-alpha-D-ribose 1-diphosphate + H+ -> 1-(5-phospho-beta-D-ribosyl)-ATP + diphosphate *\ - \* r876a, 1-(5-phospho-beta-D-ribosyl)-ATP + diphosphate -> ATP + 5-phospho-alpha-D-ribose 1-diphosphate + H+ *\ - \* r871, a trans-2-enoyl-[acyl-carrier protein] + NADPH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NADP+ *\ - \* r870, a trans-2-enoyl-[acyl-carrier protein] + NADPH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NADP+ *\ - \* r869, a trans-2-enoyl-[acyl-carrier protein] + NADPH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NADP+ *\ - \* r868, a trans-2-enoyl-[acyl-carrier protein] + NADPH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NADP+ *\ - \* r867, a trans-2-enoyl-[acyl-carrier protein] + NADPH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NADP+ *\ - \* r866, a trans-2-enoyl-[acyl-carrier protein] + NADPH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NADP+ *\ - \* r865, a trans-2-enoyl-[acyl-carrier protein] + NADPH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NADP+ *\ - \* r864, L-proline + an ubiquinone[inner membrane] -> (S)-1-pyrroline-5-carboxylate + an ubiquinol[inner membrane] + H+ *\ - \* r863, L-arginine + succinyl-CoA -> N2-succinyl-L-arginine + coenzyme A + H+ *\ - \* r862, a holo-[acyl-carrier protein] + H2O -> 4'-phosphopantetheine + an acyl-carrier protein + H+ *\ - \* r861, a holo-[acyl-carrier protein] + H2O -> 4'-phosphopantetheine + an acyl-carrier protein + H+ *\ - \* r860, a holo-[acyl-carrier protein] + H2O -> 4'-phosphopantetheine + an acyl-carrier protein + H+ *\ - \* r859, a holo-[acyl-carrier protein] + H2O -> 4'-phosphopantetheine + an acyl-carrier protein + H+ *\ - \* r858, a holo-[acyl-carrier protein] + H2O -> 4'-phosphopantetheine + an acyl-carrier protein + H+ *\ - \* r857, a holo-[acyl-carrier protein] + H2O -> 4'-phosphopantetheine + an acyl-carrier protein + H+ *\ - \* r856, a holo-[acyl-carrier protein] + H2O -> 4'-phosphopantetheine + an acyl-carrier protein + H+ *\ - \* r849b, L-citrulline + phosphate + H+ -> L-ornithine + carbamoyl-phosphate *\ - \* r849a, L-ornithine + carbamoyl-phosphate -> L-citrulline + phosphate + H+ *\ - \* r848, a cytidine34 in tRNAIle2 + L-lysine + ATP -> a lysidine34 in tRNAIle2 + AMP + diphosphate + 2 H+ *\ - \* r847, a trans-delta2-decenoyl-[acp] + NADH + H+ -> a decanoyl-[acp] + NAD+ *\ - \* r842, ATP + beta-nicotinate D-ribonucleotide + H+ -> nicotinate adenine dinucleotide + diphosphate *\ - \* r841, an enoylpimeloyl-[acp] methyl ester + NADH + H+ -> a pimeloyl-[acp] methyl ester + NAD+ *\ - \* r840b, 4-pregnen-20,21-diol-3-one + NAD+ -> 11-deoxycorticosterone + NADH + H+ *\ - \* r840a, 11-deoxycorticosterone + NADH + H+ -> 4-pregnen-20,21-diol-3-one + NAD+ *\ - \* r839, a cis-delta5-dodecenoyl-[acp] + a malonyl-[acp] + H+ -> a 3-oxo-cis-delta7-tetradecenoyl-[acp] + a holo-[acyl-carrier protein] + CO2 *\ - \* r835b, 2 L-methionine + H+ -> S-methyl-L-methionine + L-homocysteine *\ - \* r835a, S-methyl-L-methionine + L-homocysteine -> 2 L-methionine + H+ *\ - \* r830b, beta-D-fructofuranose 6-phosphate + NADH + H+ -> D-mannitol 1-phosphate + NAD+ *\ - \* r830a, D-mannitol 1-phosphate + NAD+ -> beta-D-fructofuranose 6-phosphate + NADH + H+ *\ - \* r826, a malonyl-[acp] + a 2,3,4-saturated fatty acyl-[acp] + H+ -> a holo-[acyl-carrier protein] + a 3-oxoacyl-[acp] + CO2 *\ - \* r825, a malonyl-[acp] + a 2,3,4-saturated fatty acyl-[acp] + H+ -> a holo-[acyl-carrier protein] + a 3-oxoacyl-[acp] + CO2 *\ - \* r824, a malonyl-[acp] + a 2,3,4-saturated fatty acyl-[acp] + H+ -> a holo-[acyl-carrier protein] + a 3-oxoacyl-[acp] + CO2 *\ - \* r823, a malonyl-[acp] + a 2,3,4-saturated fatty acyl-[acp] + H+ -> a holo-[acyl-carrier protein] + a 3-oxoacyl-[acp] + CO2 *\ - \* r822, a malonyl-[acp] + a 2,3,4-saturated fatty acyl-[acp] + H+ -> a holo-[acyl-carrier protein] + a 3-oxoacyl-[acp] + CO2 *\ - \* r821, a malonyl-[acp] + a 2,3,4-saturated fatty acyl-[acp] + H+ -> a holo-[acyl-carrier protein] + a 3-oxoacyl-[acp] + CO2 *\ - \* r817, L-lysine + H+ -> CO2 + cadaverine *\ - \* r813, a crotonyl-[acp] + NADH + H+ -> a butyryl-[acp] + NAD+ *\ - \* r812, L-aspartate + oxygen -> hydrogen peroxide + 2-iminosuccinate + H+ *\ - \* r811, a 3-oxo-decanoyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxydecanoyl-[acp] + NADP+ *\ - \* r809, a holo [EntF peptidyl-carrier protein] + L-seryl-adenylate -> a seryl-[EntF peptidyl-carrier protein] + AMP + H+ *\ - \* r807, a glutaryl-[acp] methyl ester + a malonyl-[acp] + H+ -> a 3-oxo-pimeloyl-[acp] methyl ester + CO2 + a holo-[acyl-carrier protein] *\ - \* r798b, methyl-1,4-benzoquinol + 2 NADP+ -> methyl-1,4-benzoquinone + 2 NADPH + 2 H+ *\ - \* r798a, methyl-1,4-benzoquinone + 2 NADPH + 2 H+ -> methyl-1,4-benzoquinol + 2 NADP+ *\ - \* r788b, a [lipoyl-carrier protein] N6-lipoyl-L-lysine + NADH + H+ -> a [lipoyl-carrier protein] N6-dihydrolipoyl-L-lysine + NAD+ *\ - \* r788a, a [lipoyl-carrier protein] N6-dihydrolipoyl-L-lysine + NAD+ -> a [lipoyl-carrier protein] N6-lipoyl-L-lysine + NADH + H+ *\ - \* r777, a hexanoyl-[acyl-carrier-protein] + a malonyl-[acp] + H+ -> a 3-oxo-octanoyl-[acp] + CO2 + a holo-[acyl-carrier protein] *\ - \* r776, glycolaldehyde + NAD+ + H2O -> glycolate + NADH + 2 H+ *\ - \* r774, dehydroascorbate (bicyclic form) -> 2,3-dioxo-L-gulonate + H+ *\ - \* r773, a 3-oxo-glutaryl-[acp] methyl ester + NADPH + H+ -> a (3R)-3-hydroxyglutaryl-[acp] methyl ester + NADP+ *\ - \* r767, oxaloacetate + propanoyl-CoA + H2O -> (2S,3S)-2-methylcitrate + coenzyme A + H+ *\ - \* r766, L-cysteine + L-glutamate + ATP -> gamma-L-glutamyl-L-cysteine + ADP + phosphate + H+ *\ - \* r765, a malonyl-[acp] + H+ -> an acetyl-[acp] + CO2 *\ - \* r764, NADPH + FMN + 2 H+ -> NADP+ + FMNH2 *\ - \* r763b, 2 an oxidized [2Fe-2S] ferredoxin + NADH -> 2 a reduced [2Fe-2S] ferredoxin + NAD+ + H+ *\ - \* r763a, 2 a reduced [2Fe-2S] ferredoxin + NAD+ + H+ -> 2 an oxidized [2Fe-2S] ferredoxin + NADH *\ - \* r762, UDP-alpha-D-glucose + (heptosyl)2-Kdo2-lipid A -> glucosyl-(heptosyl)2-Kdo2-lipid A + UDP + H+ *\ - \* r761b, 5-dehydro-D-gluconate + NAD(P)H + H+ -> L-idonate + NAD(P)+ *\ - \* r761a, L-idonate + NAD(P)+ -> 5-dehydro-D-gluconate + NAD(P)H + H+ *\ - \* r760b, 5-dehydro-D-gluconate + NAD(P)H + H+ -> L-idonate + NAD(P)+ *\ - \* r760a, L-idonate + NAD(P)+ -> 5-dehydro-D-gluconate + NAD(P)H + H+ *\ - \* r756b, 5-dehydro-D-gluconate + NAD(P)H + H+ -> D-gluconate + NAD(P)+ *\ - \* r756a, D-gluconate + NAD(P)+ -> 5-dehydro-D-gluconate + NAD(P)H + H+ *\ - \* r755b, 5-dehydro-D-gluconate + NAD(P)H + H+ -> D-gluconate + NAD(P)+ *\ - \* r755a, D-gluconate + NAD(P)+ -> 5-dehydro-D-gluconate + NAD(P)H + H+ *\ - \* r748b, a tetrahydrofolate + N2-formyl-N1-(5-phospho-beta-D-ribosyl)glycinamide + H+ -> an N10-formyl-tetrahydrofolate + N1-(5-phospho-beta-D-ribosyl)glycinamide *\ - \* r748a, an N10-formyl-tetrahydrofolate + N1-(5-phospho-beta-D-ribosyl)glycinamide -> a tetrahydrofolate + N2-formyl-N1-(5-phospho-beta-D-ribosyl)glycinamide + H+ *\ - \* r741, a butyryl-[acp] + a malonyl-[acp] + H+ -> a 3-oxo-hexanoyl-[acp] + CO2 + a holo-[acyl-carrier protein] *\ - \* r738, CTP + H2O -> CMP + diphosphate + H+ *\ - \* r737, a trans-delta3-cis-delta9-hexadecenoyl-[acp] + NADH + H+ -> a palmitoleoyl-[acp] + NAD+ *\ - \* r734b, acetyl-CoA + CO2 + 2 a reduced ferredoxin + H+ -> pyruvate + 2 an oxidized ferredoxin + coenzyme A *\ - \* r734a, pyruvate + 2 an oxidized ferredoxin + coenzyme A -> acetyl-CoA + CO2 + 2 a reduced ferredoxin + H+ *\ - \* r724, 2 L-ascorbate + an unknown oxidized electron acceptor + 2 H+ -> 2 monodehydroascorbate radical + an unknown reduced electron acceptor *\ - \* r723, (R)-methylmalonyl-CoA + H+ -> propanoyl-CoA + CO2 *\ - \* r722, a tRNAthr + L-threonine + ATP + H+ -> an L-threonyl-[tRNAthr] + AMP + diphosphate *\ - \* r721, a citryl-[holo citrate lyase acyl-carrier protein] -> oxaloacetate + an acetyl-[holo citrate lyase acyl-carrier protein] + H+ *\ - \* r720, a biotinylated [BCCP dimer] + hydrogen carbonate + ATP -> a carboxylated-biotinylated [BCCP dimer] + ADP + phosphate + H+ *\ - \* r717, sulfite + 3 NADPH + 5 H+ -> hydrogen sulfide + 3 NADP+ + 3 H2O *\ - \* r713b, siroheme + 2 H+ -> sirohydrochlorin + Fe2+ *\ - \* r713a, sirohydrochlorin + Fe2+ -> siroheme + 2 H+ *\ - \* r712, cytidine + ATP -> CMP + ADP + H+ *\ - \* r711, a 3-oxo-cis-delta5-dodecenoyl-[acp] + NADPH + H+ -> a (3R)-hydroxy cis delta5-dodecenoyl-[acp] + NADP+ *\ - \* r705, a myristoyl-[acp] + a malonyl-[acp] + H+ -> a 3-oxo-palmitoyl-[acp] + CO2 + a holo-[acyl-carrier protein] *\ - \* r700, a cis-delta7-tetradecenoyl-[acp] + a malonyl-[acp] + H+ -> a 3-oxo-cis-delta9-hexadecenoyl-[acp] + a holo-[acyl-carrier protein] + CO2 *\ - \* r698, a [protein]-(L-serine/L-threonine) + ATP -> a [protein] (L-serine/L-threonine) phosphate + ADP + H+ *\ - \* r697, ATP + hydrogen carbonate + propanoyl-CoA -> ADP + (S)-methylmalonyl-CoA + phosphate + H+ *\ - \* r695b, 5-dehydro-D-gluconate + NADH + H+ -> D-gluconate + NAD+ *\ - \* r695a, D-gluconate + NAD+ -> 5-dehydro-D-gluconate + NADH + H+ *\ - \* r694, carbamoyl-phosphate + ADP + 2 H+ -> ammonium + CO2 + ATP *\ - \* r689, L-aspartate + carbamoyl-phosphate -> N-carbamoyl-L-aspartate + phosphate + H+ *\ - \* r687b, bisulfite -> sulfite + H+ *\ - \* r687a, sulfite + H+ -> bisulfite *\ - \* r685, (R)-pantothenate + ATP -> (R)-4'-phosphopantothenate + ADP + H+ *\ - \* r676, a [2-oxoglutarate dehydrogenase E2 protein] N6-dihydrolipoyl-L-lysine + NAD+ -> a [2-oxoglutarate dehydrogenase E2 protein] N6-lipoyl-L-lysine + NADH + H+ *\ - \* r671, adenine + H+ + H2O -> ammonium + hypoxanthine *\ - \* r669, O-succinyl-L-homoserine -> succinate + (2Z)-2-aminobut-2-enoate + 2 H+ *\ - \* r665, 6-phospho D-glucono-1,5-lactone + H2O -> D-gluconate 6-phosphate + H+ *\ - \* r660b, 3-dehydro-2-deoxy-D-gluconate + NADH + H+ -> 2-deoxygluconate + NAD+ *\ - \* r660a, 2-deoxygluconate + NAD+ -> 3-dehydro-2-deoxy-D-gluconate + NADH + H+ *\ - \* r659b, a [glycine-cleavage complex H protein] N6-lipoyl-L-lysine + AMP + 2 H+ -> lipoyl-adenylate + [glycine cleavage system lipoyl-carrier protein]-L-lysine *\ - \* r659a, lipoyl-adenylate + [glycine cleavage system lipoyl-carrier protein]-L-lysine -> a [glycine-cleavage complex H protein] N6-lipoyl-L-lysine + AMP + 2 H+ *\ - \* r657, diphosphate + H2O -> 2 phosphate + H+ *\ - \* r655b, partially N-deacetylated poly-beta-1,6-N-acetyl-D-glucosamine + acetate + H+ -> poly-beta-1,6-N-acetyl-D-glucosamine + H2O *\ - \* r655a, poly-beta-1,6-N-acetyl-D-glucosamine + H2O -> partially N-deacetylated poly-beta-1,6-N-acetyl-D-glucosamine + acetate + H+ *\ - \* r639, 2 Na+[cytosol] + 3 H+[periplasmic space] -> 2 Na+[periplasmic space] + 3 H+[cytosol] *\ - \* r637, L-lysine[periplasmic space] + H+[periplasmic space] -> L-lysine[cytosol] + H+[cytosol] *\ - \* r633, chenodeoxycholate[cytosol] + H+[periplasmic space] -> chenodeoxycholate[periplasmic space] + H+[cytosol] *\ - \* r630, succinate[periplasmic space] + 2 H+[periplasmic space] -> succinate[cytosol] + 2 H+[cytosol] *\ - \* r628, L-proline[periplasmic space] + H+[periplasmic space] -> L-proline[cytosol] + H+[cytosol] *\ - \* r627, glycine[periplasmic space] + H+[periplasmic space] -> glycine[cytosol] + H+[cytosol] *\ - \* r626, L-threonine[cytosol] + H+[periplasmic space] -> L-threonine[periplasmic space] + H+[cytosol] *\ - \* r625, arsenite[cytosol] + H+[periplasmic space] -> arsenite[periplasmic space] + H+[cytosol] *\ - \* r624, (R)-lactate[periplasmic space] + H+[periplasmic space] -> (R)-lactate[cytosol] + H+[cytosol] *\ - \* r622, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r621, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r620, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r619, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r618, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r617, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r616, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r615, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r614, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r613, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r612, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r611, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r610, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r609, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r608, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r607, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r606, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r605, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r604, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r603, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r602, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r601, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r600, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r599, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r598, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r595, L-fucose[periplasmic space] + H+[periplasmic space] -> L-fucose[cytosol] + H+[cytosol] *\ - \* r594, L-fucose[periplasmic space] + H+[periplasmic space] -> L-fucose[cytosol] + H+[cytosol] *\ - \* r593, L-fucose[periplasmic space] + H+[periplasmic space] -> L-fucose[cytosol] + H+[cytosol] *\ - \* r592, D-xylose[periplasmic space] + H+[periplasmic space] -> D-xylose[cytosol] + H+[cytosol] *\ - \* r591, D-xylose[periplasmic space] + H+[periplasmic space] -> D-xylose[cytosol] + H+[cytosol] *\ - \* r590, D-xylose[periplasmic space] + H+[periplasmic space] -> D-xylose[cytosol] + H+[cytosol] *\ - \* r589, L-serine[periplasmic space] + H+[periplasmic space] -> L-serine[cytosol] + H+[cytosol] *\ - \* r587, a tripeptide[periplasmic space] + H+[periplasmic space] -> a tripeptide[cytosol] + H+[cytosol] *\ - \* r584, Fe2+[cytosol] + H+[periplasmic space] -> Fe2+[periplasmic space] + H+[cytosol] *\ - \* r583, 2'-deoxyadenosine[periplasmic space] + H+[periplasmic space] -> 2'-deoxyadenosine[cytosol] + H+[cytosol] *\ - \* r582, D-galacturonate[periplasmic space] + H+[periplasmic space] -> D-galacturonate[cytosol] + H+[cytosol] *\ - \* r581, D-galacturonate[periplasmic space] + H+[periplasmic space] -> D-galacturonate[cytosol] + H+[cytosol] *\ - \* r578, D-glucuronate[periplasmic space] + H+[periplasmic space] -> D-glucuronate[cytosol] + H+[cytosol] *\ - \* r577, D-glucuronate[periplasmic space] + H+[periplasmic space] -> D-glucuronate[cytosol] + H+[cytosol] *\ - \* r576, D-glucuronate[periplasmic space] + H+[periplasmic space] -> D-glucuronate[cytosol] + H+[cytosol] *\ - \* r575, L-tyrosine[periplasmic space] + H+[periplasmic space] -> L-tyrosine[cytosol] + H+[cytosol] *\ - \* r574, cadaverine[periplasmic space] + H+[periplasmic space] -> cadaverine[cytosol] + H+[cytosol] *\ - \* r573, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r572, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r571, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r570, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r569, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r568, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r567, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r566, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r565, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r564, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r563, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r562, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r561, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r560, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r559, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r558, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r557, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r556, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r555, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r554, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r552, choline[cytosol] + 2 H+[periplasmic space] -> choline[periplasmic space] + 2 H+[cytosol] *\ - \* r549, 2'-deoxyuridine[periplasmic space] + H+[periplasmic space] -> 2'-deoxyuridine[cytosol] + H+[cytosol] *\ - \* r546, K+[cytosol] + H+[periplasmic space] -> K+[periplasmic space] + H+[cytosol] *\ - \* r542, acetate[periplasmic space] + H+[periplasmic space] -> acetate[cytosol] + H+[cytosol] *\ - \* r541, guanosine[cytosol] + H+[periplasmic space] -> guanosine[periplasmic space] + H+[cytosol] *\ - \* r540, Na+[cytosol] + H+[periplasmic space] -> Na+[periplasmic space] + H+[cytosol] *\ - \* r539, uridine[periplasmic space] + H+[periplasmic space] -> uridine[cytosol] + H+[cytosol] *\ - \* r538, Na+[cytosol] + 2 H+[periplasmic space] -> Na+[periplasmic space] + 2 H+[cytosol] *\ - \* r537, nitrite[cytosol] + H+[periplasmic space] -> nitrite[periplasmic space] + H+[cytosol] *\ - \* r536, 4-aminobutanoate[periplasmic space] + H+[periplasmic space] -> 4-aminobutanoate[cytosol] + H+[cytosol] *\ - \* r532, deoxycholate[cytosol] + H+[periplasmic space] -> deoxycholate[periplasmic space] + H+[cytosol] *\ - \* r530, phosphate[periplasmic space] + H+[periplasmic space] -> phosphate[cytosol] + H+[cytosol] *\ - \* r528, indole[periplasmic space] + H+[periplasmic space] -> indole[cytosol] + H+[cytosol] *\ - \* r526, D-alanine[periplasmic space] + H+[periplasmic space] -> D-alanine[cytosol] + H+[cytosol] *\ - \* r525, choline[periplasmic space] + H+[periplasmic space] -> choline[cytosol] + H+[cytosol] *\ - \* r521, a C4-dicarboxylate[periplasmic space] + 3 H+[periplasmic space] -> a C4-dicarboxylate[cytosol] + 3 H+[cytosol] *\ - \* r520, a C4-dicarboxylate[periplasmic space] + 3 H+[periplasmic space] -> a C4-dicarboxylate[cytosol] + 3 H+[cytosol] *\ - \* r519, a C4-dicarboxylate[periplasmic space] + 3 H+[periplasmic space] -> a C4-dicarboxylate[cytosol] + 3 H+[cytosol] *\ - \* r518, a C4-dicarboxylate[periplasmic space] + 3 H+[periplasmic space] -> a C4-dicarboxylate[cytosol] + 3 H+[cytosol] *\ - \* r517, a C4-dicarboxylate[periplasmic space] + 3 H+[periplasmic space] -> a C4-dicarboxylate[cytosol] + 3 H+[cytosol] *\ - \* r516, a C4-dicarboxylate[periplasmic space] + 3 H+[periplasmic space] -> a C4-dicarboxylate[cytosol] + 3 H+[cytosol] *\ - \* r515, a C4-dicarboxylate[periplasmic space] + 3 H+[periplasmic space] -> a C4-dicarboxylate[cytosol] + 3 H+[cytosol] *\ - \* r514, fumarate[periplasmic space] + 2 H+[periplasmic space] -> fumarate[cytosol] + 2 H+[cytosol] *\ - \* r513, K+[periplasmic space] + H+[periplasmic space] -> K+[cytosol] + H+[cytosol] *\ - \* r512, putrescine[periplasmic space] + H+[periplasmic space] -> putrescine[cytosol] + H+[cytosol] *\ - \* r511, Zn2+[cytosol] + H+[periplasmic space] -> Zn2+[periplasmic space] + H+[cytosol] *\ - \* r510, spermidine[cytosol] + H+[periplasmic space] -> spermidine[periplasmic space] + H+[cytosol] *\ - \* r508, xanthine[periplasmic space] + H+[periplasmic space] -> xanthine[cytosol] + H+[cytosol] *\ - \* r506, cytidine[periplasmic space] + H+[periplasmic space] -> cytidine[cytosol] + H+[cytosol] *\ - \* r505, L-aspartate[periplasmic space] + 2 H+[periplasmic space] -> L-aspartate[cytosol] + 2 H+[cytosol] *\ - \* r502, L-tryptophan[periplasmic space] + H+[periplasmic space] -> L-tryptophan[cytosol] + H+[cytosol] *\ - \* r499, glycine betaine[cytosol] + 2 H+[periplasmic space] -> glycine betaine[periplasmic space] + 2 H+[cytosol] *\ - \* r497, D-glucopyranose[periplasmic space] + H+[periplasmic space] -> D-glucopyranose[cytosol] + H+[cytosol] *\ - \* r496, D-glucopyranose[periplasmic space] + H+[periplasmic space] -> D-glucopyranose[cytosol] + H+[cytosol] *\ - \* r494, 2'-deoxyinosine[periplasmic space] + H+[periplasmic space] -> 2'-deoxyinosine[cytosol] + H+[cytosol] *\ - \* r492, Mn2+[periplasmic space] + H+[periplasmic space] -> Mn2+[cytosol] + H+[cytosol] *\ - \* r490, alpha-lactose[cytosol] + H+[periplasmic space] -> alpha-lactose[periplasmic space] + H+[cytosol] *\ - \* r488, (R)-malate[periplasmic space] + 2 H+[periplasmic space] -> (R)-malate[cytosol] + 2 H+[cytosol] *\ - \* r484, thymidine[periplasmic space] + H+[periplasmic space] -> thymidine[cytosol] + H+[cytosol] *\ - \* r482, glutathione[cytosol] + ATP + H2O -> glutathione[periplasmic space] + ADP + phosphate + H+ *\ - \* r481, N-acetylneuraminate[periplasmic space] + H+[periplasmic space] -> N-acetylneuraminate[cytosol] + H+[cytosol] *\ - \* r480, N-acetylneuraminate[periplasmic space] + H+[periplasmic space] -> N-acetylneuraminate[cytosol] + H+[cytosol] *\ - \* r478, L-phenylalanine[periplasmic space] + H+[periplasmic space] -> L-phenylalanine[cytosol] + H+[cytosol] *\ - \* r475, cholate[cytosol] + H+[periplasmic space] -> cholate[periplasmic space] + H+[cytosol] *\ - \* r474b, 2 chloride[cytosol] + H+[periplasmic space] -> 2 chloride[periplasmic space] + H+[cytosol] *\ - \* r474a, 2 chloride[periplasmic space] + H+[cytosol] -> 2 chloride[cytosol] + H+[periplasmic space] *\ - \* r470, uracil[periplasmic space] + H+[periplasmic space] -> uracil[cytosol] + H+[cytosol] *\ - \* r469, L-asparagine[periplasmic space] + H+[periplasmic space] -> L-asparagine[cytosol] + H+[cytosol] *\ - \* r466, Cd2+[cytosol] + H+[periplasmic space] -> Cd2+[periplasmic space] + H+[cytosol] *\ - \* r462, (S)-malate[periplasmic space] + 2 H+[periplasmic space] -> (S)-malate[cytosol] + 2 H+[cytosol] *\ - \* r461, L-glutamate[periplasmic space] + 2 H+[periplasmic space] -> L-glutamate[cytosol] + 2 H+[cytosol] *\ - \* r460, glycine betaine[periplasmic space] + H+[periplasmic space] -> glycine betaine[cytosol] + H+[cytosol] *\ - \* r448, a C4-dicarboxylate[periplasmic space] + 2 H+[periplasmic space] -> a C4-dicarboxylate[cytosol] + 2 H+[cytosol] *\ - \* r447, a C4-dicarboxylate[periplasmic space] + 2 H+[periplasmic space] -> a C4-dicarboxylate[cytosol] + 2 H+[cytosol] *\ - \* r446, a C4-dicarboxylate[periplasmic space] + 2 H+[periplasmic space] -> a C4-dicarboxylate[cytosol] + 2 H+[cytosol] *\ - \* r445, a C4-dicarboxylate[periplasmic space] + 2 H+[periplasmic space] -> a C4-dicarboxylate[cytosol] + 2 H+[cytosol] *\ - \* r444, a C4-dicarboxylate[periplasmic space] + 2 H+[periplasmic space] -> a C4-dicarboxylate[cytosol] + 2 H+[cytosol] *\ - \* r443, a C4-dicarboxylate[periplasmic space] + 2 H+[periplasmic space] -> a C4-dicarboxylate[cytosol] + 2 H+[cytosol] *\ - \* r442, a C4-dicarboxylate[periplasmic space] + 2 H+[periplasmic space] -> a C4-dicarboxylate[cytosol] + 2 H+[cytosol] *\ - \* r441, N-acetyl-beta-neuraminate[periplasmic space] + H+[periplasmic space] -> N-acetyl-beta-neuraminate[cytosol] + H+[cytosol] *\ - \* r440, L-alanine[periplasmic space] + H+[periplasmic space] -> L-alanine[cytosol] + H+[cytosol] *\ - \* r439, adenosine[periplasmic space] + H+[periplasmic space] -> adenosine[cytosol] + H+[cytosol] *\ - \* r436, xanthosine[periplasmic space] + H+[periplasmic space] -> xanthosine[cytosol] + H+[cytosol] *\ - \* r435, L-threonine[periplasmic space] + H+[periplasmic space] -> L-threonine[cytosol] + H+[cytosol] *\ - \* r433, L-leucine[cytosol] + H+[periplasmic space] -> L-leucine[periplasmic space] + H+[cytosol] *\ - \* r431, inosine[cytosol] + H+[periplasmic space] -> inosine[periplasmic space] + H+[cytosol] *\ - \* r430, L-methionine[cytosol] + H+[periplasmic space] -> L-methionine[periplasmic space] + H+[cytosol] *\ - \* r429, 2'-deoxycytidine[periplasmic space] + H+[periplasmic space] -> 2'-deoxycytidine[cytosol] + H+[cytosol] *\ - \* r427, alpha-lactose[periplasmic space] + H+[periplasmic space] -> alpha-lactose[cytosol] + H+[cytosol] *\ - \* r426, L-arabinose[cytosol] + H+[periplasmic space] -> L-arabinose[periplasmic space] + H+[cytosol] *\ - \* r425, L-arabinose[cytosol] + H+[periplasmic space] -> L-arabinose[periplasmic space] + H+[cytosol] *\ - \* r424, L-arabinose[cytosol] + H+[periplasmic space] -> L-arabinose[periplasmic space] + H+[cytosol] *\ - \* r423, D-fructuronate[periplasmic space] + H+[periplasmic space] -> D-fructuronate[cytosol] + H+[cytosol] *\ - \* r418, L-arabinose[periplasmic space] + H+[periplasmic space] -> L-arabinose[cytosol] + H+[cytosol] *\ - \* r417, L-arabinose[periplasmic space] + H+[periplasmic space] -> L-arabinose[cytosol] + H+[cytosol] *\ - \* r416, L-arabinose[periplasmic space] + H+[periplasmic space] -> L-arabinose[cytosol] + H+[cytosol] *\ - \* r415, inosine[periplasmic space] + H+[periplasmic space] -> inosine[cytosol] + H+[cytosol] *\ - \* r410, Fe2+[periplasmic space] + H+[periplasmic space] -> Fe2+[cytosol] + H+[cytosol] *\ - \* r409, (S)-lactate[periplasmic space] + H+[periplasmic space] -> (S)-lactate[cytosol] + H+[cytosol] *\ - \* r408, L-rhamnose[periplasmic space] + H+[periplasmic space] -> L-rhamnose[cytosol] + H+[cytosol] *\ - \* r407, L-rhamnose[periplasmic space] + H+[periplasmic space] -> L-rhamnose[cytosol] + H+[cytosol] *\ - \* r207, ATP + putrescine[periplasmic space] + H2O -> ADP + putrescine[cytosol] + phosphate + H+ *\ - \* r198, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r197, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r196, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r195, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r194, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r193, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r192, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r191, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r190, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r189, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r188, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r187, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r186, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r185, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r184, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r183, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r182, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r181, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r180, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r179, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r177, an aminoalkylphosphonate[periplasmic space] + ATP + H2O -> an aminoalkylphosphonate[cytosol] + ADP + phosphate + H+ *\ - \* r176, an aminoalkylphosphonate[periplasmic space] + ATP + H2O -> an aminoalkylphosphonate[cytosol] + ADP + phosphate + H+ *\ - \* r175, an aminoalkylphosphonate[periplasmic space] + ATP + H2O -> an aminoalkylphosphonate[cytosol] + ADP + phosphate + H+ *\ - \* r174, an aminoalkylphosphonate[periplasmic space] + ATP + H2O -> an aminoalkylphosphonate[cytosol] + ADP + phosphate + H+ *\ - \* r170, ATP + L-histidine[periplasmic space] + H2O -> ADP + L-histidine[cytosol] + phosphate + H+ *\ - \* r168, ATP + D-xylose[periplasmic space] + H2O -> ADP + D-xylose[cytosol] + phosphate + H+ *\ - \* r167, ATP + D-xylose[periplasmic space] + H2O -> ADP + D-xylose[cytosol] + phosphate + H+ *\ - \* r166, ATP + D-xylose[periplasmic space] + H2O -> ADP + D-xylose[cytosol] + phosphate + H+ *\ - \* r157, ATP + L-valine[periplasmic space] + H2O -> ADP + L-valine[cytosol] + phosphate + H+ *\ - \* r156, ATP + L-aspartate[periplasmic space] + H2O -> L-aspartate[cytosol] + ADP + phosphate + H+ *\ - \* r155, Ni2+[periplasmic space] + ATP + H2O -> Ni2+[cytosol] + ADP + phosphate + H+ *\ - \* r154, D-allose[periplasmic space] + ATP + H2O -> D-allose[cytosol] + ADP + phosphate + H+ *\ - \* r153, (2R,4S)-2-methyl-2,3,3,4-tetrahydroxytetrahydrofuran[periplasmic space] + ATP + H2O -> (2R,4S)-2-methyl-2,3,3,4-tetrahydroxytetrahydrofuran[cytosol] + ADP + phosphate + H+ *\ - \* r151, ATP + spermidine[periplasmic space] + H2O -> ADP + spermidine[cytosol] + phosphate + H+ *\ - \* r150, Zn2+[periplasmic space] + ATP + H2O -> Zn2+[cytosol] + ADP + phosphate + H+ *\ - \* r149, Zn2+[cytosol] + ATP + H2O -> Zn2+[periplasmic space] + ADP + phosphate + H+ *\ - \* r146, NADH + NADP+ + H+[periplasmic space] -> NADPH + NAD+ + H+[cytosol] *\ - \* r144, ATP + phosphate[periplasmic space] + H2O -> ADP + 2 phosphate[cytosol] + H+ *\ - \* r143, sulfate[periplasmic space] + ATP + H2O -> sulfate[cytosol] + ADP + phosphate + H+ *\ - \* r140, ATP + L-glutamate[periplasmic space] + H2O -> ADP + L-glutamate[cytosol] + phosphate + H+ *\ - \* r137b, ADP + phosphate + 4 H+[out] -> ATP + 3 H+[in] + H2O *\ - \* r137a, ATP + 3 H+[in] + H2O -> ADP + phosphate + 4 H+[out] *\ - \* r136, L-cysteine[periplasmic space] + ATP + H2O -> L-cysteine[cytosol] + ADP + phosphate + H+ *\ - \* r135, L-methionine S-oxide[periplasmic space] + ATP + H2O -> L-methionine S-oxide[cytosol] + ADP + phosphate + H+ *\ - \* r134, L-methionine S-oxide[periplasmic space] + ATP + H2O -> L-methionine S-oxide[cytosol] + ADP + phosphate + H+ *\ - \* r131, ATP + L-leucine[periplasmic space] + H2O -> ADP + L-leucine[cytosol] + phosphate + H+ *\ - \* r130, Cu+[cytosol] + ATP + H2O -> Cu+[periplasmic space] + ADP + phosphate + H+ *\ - \* r129, L-cystine[periplasmic space] + ATP + H2O -> L-cystine[cytosol] + ADP + phosphate + H+ *\ - \* r128, ATP + L-arabinose[periplasmic space] + H2O -> ADP + L-arabinose[cytosol] + phosphate + H+ *\ - \* r127, ATP + L-arabinose[periplasmic space] + H2O -> ADP + L-arabinose[cytosol] + phosphate + H+ *\ - \* r126, ATP + L-arabinose[periplasmic space] + H2O -> ADP + L-arabinose[cytosol] + phosphate + H+ *\ - \* r125, ATP + L-arginine[periplasmic space] + H2O -> ADP + L-arginine[cytosol] + phosphate + H+ *\ - \* r124, ATP + L-alanyl-gamma-D-glutamyl-meso-diaminopimelate[periplasmic space] + H2O -> L-alanyl-gamma-D-glutamyl-meso-diaminopimelate[cytosol] + ADP + phosphate + H+ *\ - \* r123, ATP + an alkylphosphonate[periplasmic space] + H2O -> ADP + an alkylphosphonate[cytosol] + phosphate + H+ *\ - \* r122, ATP + an alkylphosphonate[periplasmic space] + H2O -> ADP + an alkylphosphonate[cytosol] + phosphate + H+ *\ - \* r121, ATP + an alkylphosphonate[periplasmic space] + H2O -> ADP + an alkylphosphonate[cytosol] + phosphate + H+ *\ - \* r120, ATP + L-methionine[periplasmic space] + H2O -> ADP + L-methionine[cytosol] + phosphate + H+ *\ - \* r118, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r117, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r116, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r115, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r114, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r113, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r112, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r111, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r110, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r109, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r108, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r107, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r106, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r105, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r104, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r103, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r102, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r101, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r100, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r99, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r98, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r97, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r96, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r95, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r94, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r93, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r92, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r91, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r90, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r89, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r88, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r87, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r85, ATP + L-proline[periplasmic space] + H2O -> ADP + L-proline[cytosol] + phosphate + H+ *\ - \* r83, K+[periplasmic space] + ATP + H2O -> K+[cytosol] + ADP + phosphate + H+ *\ - \* r82, ATP + L-glutamine[periplasmic space] + H2O -> ADP + L-glutamine[cytosol] + phosphate + H+ *\ - \* r81, L-lysine[periplasmic space] + ATP + H2O -> L-lysine[cytosol] + ADP + phosphate + H+ *\ - \* r79, Mg2+[periplasmic space] + ATP + H2O -> Mg2+[cytosol] + ADP + phosphate + H+ *\ - \* r77, ATP + L-isoleucine[periplasmic space] + H2O -> ADP + L-isoleucine[cytosol] + phosphate + H+ *\ - \* r75, glutathione[periplasmic space] + ATP + H2O -> glutathione[cytosol] + ADP + phosphate + H+ *\ - \* r73, a glycerophosphodiester[periplasmic space] + ATP + H2O -> a glycerophosphodiester[cytosol] + ADP + phosphate + H+ *\ - \* r72, a glycerophosphodiester[periplasmic space] + ATP + H2O -> a glycerophosphodiester[cytosol] + ADP + phosphate + H+ *\ - \* r71, a glycerophosphodiester[periplasmic space] + ATP + H2O -> a glycerophosphodiester[cytosol] + ADP + phosphate + H+ *\ - \* r70, a glycerophosphodiester[periplasmic space] + ATP + H2O -> a glycerophosphodiester[cytosol] + ADP + phosphate + H+ *\ - \* r69, a glycerophosphodiester[periplasmic space] + ATP + H2O -> a glycerophosphodiester[cytosol] + ADP + phosphate + H+ *\ - \* r68, a glycerophosphodiester[periplasmic space] + ATP + H2O -> a glycerophosphodiester[cytosol] + ADP + phosphate + H+ *\ - \* r67, a glycerophosphodiester[periplasmic space] + ATP + H2O -> a glycerophosphodiester[cytosol] + ADP + phosphate + H+ *\ - \* r65, ATP + L-ornithine[periplasmic space] + H2O -> ADP + L-ornithine[cytosol] + phosphate + H+ *\ - \* r63, L-cysteine[cytosol] + ATP + H2O -> L-cysteine[periplasmic space] + ADP + phosphate + H+ *\ - \* r35, ATP + an aliphatic sulfonate[periplasmic space] + H2O -> an aliphatic sulfonate[cytosol] + ADP + phosphate + H+ *\ - \* r34, ATP + an aliphatic sulfonate[periplasmic space] + H2O -> an aliphatic sulfonate[cytosol] + ADP + phosphate + H+ *\ - \* r33, ATP + an aliphatic sulfonate[periplasmic space] + H2O -> an aliphatic sulfonate[cytosol] + ADP + phosphate + H+ *\ - \* r32, ATP + an aliphatic sulfonate[periplasmic space] + H2O -> an aliphatic sulfonate[cytosol] + ADP + phosphate + H+ *\ - \* r31, ATP + an aliphatic sulfonate[periplasmic space] + H2O -> an aliphatic sulfonate[cytosol] + ADP + phosphate + H+ *\ - \* r30, ATP + an aliphatic sulfonate[periplasmic space] + H2O -> an aliphatic sulfonate[cytosol] + ADP + phosphate + H+ *\ - - + r2449_e +59.147083 objReactionName + r2446 + r2443 -1.0 r2442b + r2442a -2.0 r2440 -1.0 r2439 + r2438b -1.0 r2438a -1.0 r2437 -1.0 r2435 + r2433b -1.0 r2433a +2.0 r2415 -2.0 r2414b +2.0 r2414a -1.0 r2408 -1.0 r2407 - -1.0 r2406b + r2406a -1.0 r2405 + r2404 -1.0 r2403b + r2403a +2.0 r2395 -1.0 r2394 -1.0 r2390 + r2389 + r2387 -1.0 r2385 -1.0 r2380 -1.0 r2379 -1.0 r2378 -1.0 r2374b + r2374a -1.0 r2373b + r2373a + r2371 - + r2366 + r2364b -1.0 r2364a + r2363 +2.0 r2361 + r2356 -1.0 r2355 + r2351 -1.0 r2349b + r2349a + r2348 + r2344 +2.0 r2343 -1.0 r2337 -1.0 r2332 + r2330b -1.0 r2330a -2.0 r2327 -1.0 r2326b + r2326a - + r2323 + r2321 -2.0 r2314b +2.0 r2314a -2.0 r2313b +2.0 r2313a + r2311 -2.0 r2305b +2.0 r2305a -1.0 r2304 +2.0 r2303 + r2302 -2.0 r2301 -1.0 r2298 + r2295 -1.0 r2294 -1.0 r2293 -1.0 r2292 -1.0 r2291b + r2291a - -1.0 r2288 -1.0 r2283b + r2283a +2.0 r2278 + r2275 + r2274 + r2273 + r2272 + r2271 + r2270 + r2269 + r2268 + r2267 + r2266 + r2264b -1.0 r2264a + r2263 + r2262 + r2260 + r2259 - + r2258 + r2257 + r2256 + r2255 + r2254 + r2253 + r2252 + r2251 + r2249 -1.0 r2248b + r2248a + r2242 +2.0 r2241 + r2239 + r2233 -1.0 r2232 + r2231 -1.0 r2227 + r2224 + r2222 - + r2212b -1.0 r2212a + r2211b -1.0 r2211a + r2210 -1.0 r2204b + r2204a +2.0 r2202 -1.0 r2201 -1.0 r2199 + r2197b -1.0 r2197a + r2194 -1.0 r2193b + r2193a -1.0 r2190 + r2189b -1.0 r2189a -1.0 r2188b + r2188a - + r2187 +2.0 r2186 -1.0 r2185 -2.0 r2183 + r2181 + r2180 + r2177b -1.0 r2177a -1.0 r2167b + r2167a -1.0 r2166b + r2166a + r2164 + r2163 -1.0 r2160b + r2160a -1.0 r2157b + r2157a + r2156 + r2153 - +2.0 r2150 +2.0 r2148 -1.0 r2147 + r2137 +2.0 r2132 -1.0 r2130b + r2130a + r2128b -1.0 r2128a + r2127 + r2126 -1.0 r2124 + r2121 + r2115 + r2111 +2.0 r2105 -1.0 r2102b + r2102a + r2101 + r2100 - + r2099b -1.0 r2099a +3.0 r2097 -2.0 r2096 -2.0 r2095 +2.0 r2086 -1.0 r2083b + r2083a -1.0 r2079 -2.0 r2078b +2.0 r2078a -1.0 r2075b + r2075a -1.0 r2072b + r2072a -1.0 r2059 + r2051 + r2049 + r2048 + r2042b - -1.0 r2042a -1.0 r2041b + r2041a -1.0 r2038 -1.0 r2037 -2.0 r2036b +2.0 r2036a -2.0 r2035b +2.0 r2035a + r2034 + r2032 + r2031 -1.0 r2029b + r2029a + r2027 + r2025 + r2024 + r2021 + r2020 + r2019 - + r2018 -1.0 r2015b + r2015a -1.0 r2009b + r2009a -1.0 r1996 -1.0 r1995 -1.0 r1994 -1.0 r1992 + r1990 -1.0 r1989b + r1989a -1.0 r1987b + r1987a + r1983 + r1982 -1.0 r1980 -1.0 r1976b + r1976a -1.0 r1974b - + r1974a + r1973 +2.0 r1957 + r1953b -1.0 r1953a +2.0 r1951 +2.0 r1950 + r1945 -1.0 r1944 + r1942 -1.0 r1941 +3.0 r1936 + r1934b -1.0 r1934a -1.0 r1933 -1.0 r1932 + r1919 + r1918 + r1917 + r1916 - + r1915 + r1914 + r1913 -1.0 r1912 -1.0 r1908 -1.0 r1906 -1.0 r1905 + r1900b -1.0 r1900a -1.0 r1899b + r1899a -1.0 r1898 + r1896 + r1893 -1.0 r1892 -1.0 r1891 + r1890b -1.0 r1890a + r1886 -1.0 r1885b - + r1885a -1.0 r1883 -1.0 r1882 -1.0 r1879 + r1876 -1.0 r1874b + r1874a -1.0 r1871 + r1869 -1.0 r1868b + r1868a + r1863 +2.0 r1862 + r1860 -1.0 r1854 + r1853 + r1851 + r1846 +2.0 r1845 -1.0 r1844 - + r1843 -1.0 r1837 + r1836 + r1835 -1.0 r1834 -1.0 r1833 + r1829 + r1823 + r1820 -1.0 r1819 -1.0 r1817b + r1817a -2.0 r1811b +2.0 r1811a +3.0 r1807 -1.0 r1801b + r1801a -1.0 r1800b + r1800a -1.0 r1798 - -1.0 r1793 + r1792b -1.0 r1792a + r1789 -1.0 r1788b + r1788a + r1786b -1.0 r1786a -1.0 r1784 -1.0 r1783 -1.0 r1782 -1.0 r1781 -1.0 r1780 -1.0 r1779 -1.0 r1778 -1.0 r1777 -1.0 r1776 -1.0 r1774 + r1773b -1.0 r1773a - -1.0 r1771 -1.0 r1767b + r1767a -1.0 r1765 +2.0 r1762 + r1761 +2.0 r1759 + r1756 -1.0 r1752 -1.0 r1751 + r1750b -1.0 r1750a -1.0 r1749 -1.0 r1748 -1.0 r1747 + r1745 + r1744 + r1736 -1.0 r1727 +2.0 r1725 - + r1724 + r1721 + r1716 +2.0 r1712 + r1711 -1.0 r1706b + r1706a -1.0 r1705 + r1704 + r1702 -1.0 r1700 -2.0 r1699 +2.0 r1695 +2.0 r1693 +2.0 r1692 +2.0 r1691 -1.0 r1688 -1.0 r1687 -1.0 r1686 -1.0 r1685 - -5.0 r1682 +2.0 r1681 -4.0 r1680 + r1679 -1.0 r1675 -1.0 r1670 -8.0 r1667 -1.0 r1664b + r1664a -1.0 r1656b + r1656a +5.0 r1646b -5.0 r1646a -1.0 r1644 -1.0 r1643 -1.0 r1642 -2.0 r1641 + r1640 + r1638 -1.0 r1633b - + r1633a + r1625 -5.0 r1624 -1.0 r1622 -1.0 r1621 + r1613 -1.0 r1609b + r1609a + r1608 +2.0 r1601 +2.0 r1600 + r1598 + r1597 + r1595 -1.0 r1594 -2.0 r1589 + r1588 +2.0 r1585 + r1584 + r1583 - + r1582 +2.0 r1580 +2.0 r1579 + r1578 -1.0 r1575 + r1573 +2.0 r1572 -1.0 r1565b + r1565a -1.0 r1564b + r1564a -1.0 r1563b + r1563a -1.0 r1561b + r1561a -1.0 r1558b + r1558a -1.0 r1554b + r1554a -1.0 r1542 - -1.0 r1541 + r1526 -1.0 r1525b + r1525a + r1524 + r1523 -1.0 r1522 -1.0 r1521 + r1518 -1.0 r1513 + r1512 + r1509 + r1507b -1.0 r1507a -1.0 r1505 +2.0 r1503 +2.0 r1502 +2.0 r1501 + r1498 -1.0 r1491b - + r1491a -2.0 r1487b +2.0 r1487a -1.0 r1482b + r1482a + r1480 -1.0 r1476 -1.0 r1469 -1.0 r1468 + r1467 + r1461 + r1454 -1.0 r1453b + r1453a + r1449b -1.0 r1449a +2.0 r1442 -1.0 r1439 + r1435 + r1434 - + r1433 + r1431 + r1429 -1.0 r1428b + r1428a -1.0 r1426b + r1426a -1.0 r1425 + r1424 + r1409 + r1408 -1.0 r1407 + r1404 + r1403 + r1402 +3.0 r1400 + r1397 -2.0 r1390b +2.0 r1390a + r1387 - + r1384 + r1383 + r1382 + r1381 + r1380 + r1379 + r1378 + r1377 + r1376 + r1373 -1.0 r1370b + r1370a -1.0 r1369 + r1366 + r1365 + r1349 -1.0 r1344b + r1344a + r1343 + r1340 - +2.0 r1338 -1.0 r1337b + r1337a -1.0 r1335 + r1333 -1.0 r1332 -1.0 r1329 + r1328 + r1325 -1.0 r1314 -1.0 r1311b + r1311a -1.0 r1308b + r1308a -1.0 r1307 -1.0 r1306 + r1304 + r1290 -2.0 r1287 -1.0 r1285 - -2.0 r1282 + r1269 -1.0 r1268 -1.0 r1265b + r1265a + r1262 -1.0 r1249 + r1246 + r1245 -1.0 r1242b + r1242a + r1240 + r1239 + r1234 -1.0 r1232 -1.0 r1231b + r1231a -2.0 r1229 -1.0 r1226 + r1223 - -1.0 r1219 + r1215 + r1211 -1.0 r1209b + r1209a -1.0 r1208b + r1208a -1.0 r1206 -1.0 r1202 -1.0 r1199 + r1198b -1.0 r1198a -1.0 r1197 + r1196 + r1193 -1.0 r1191 -1.0 r1177b + r1177a + r1176 + r1174 - +2.0 r1172 -1.0 r1171b + r1171a -1.0 r1170 -1.0 r1165 -1.0 r1164 -1.0 r1162 + r1161 + r1158 + r1157 + r1156 + r1155 + r1154 + r1153 + r1152 + r1151 + r1150 + r1149 + r1147 -1.0 r1142 - -1.0 r1141 -1.0 r1140 -1.0 r1139 -1.0 r1138 -1.0 r1137 -1.0 r1136 + r1132 -1.0 r1114 + r1113 -1.0 r1109 + r1104b -1.0 r1104a -1.0 r1101 + r1097 + r1093 -4.0 r1092 + r1091b -1.0 r1091a + r1090b -1.0 r1090a - -1.0 r1086 -1.0 r1077 -1.0 r1076b + r1076a + r1075 -1.0 r1067b + r1067a -1.0 r1061 + r1060 -1.0 r1058 -1.0 r1057 + r1053 + r1052 + r1051 + r1050 + r1049 + r1048 + r1047 +2.0 r1045 -1.0 r1044b - + r1044a -1.0 r1042 -1.0 r1041 + r1037 -1.0 r1035b + r1035a -1.0 r1034 -1.0 r1033 +2.0 r1025 -1.0 r1024 -1.0 r1021 -1.0 r1020 -1.0 r1019 -1.0 r1018 -1.0 r1017 -1.0 r1016 -1.0 r1015 -1.0 r1013b + r1013a -1.0 r1012b - + r1012a -1.0 r1007b + r1007a -1.0 r1006b + r1006a + r1005 + r1004 + r1003 -1.0 r1001 + r1000 -1.0 r999 + r989b -1.0 r989a -1.0 r973 + r967 -1.0 r966b + r966a -1.0 r962 -1.0 r961 + r960 - + r956 + r952 + r951 + r950 -1.0 r949 + r948 -3.0 r947b +3.0 r947a -3.0 r946b +3.0 r946a -3.0 r945b +3.0 r945a -3.0 r944b +3.0 r944a + r940 + r937 + r934 -1.0 r932 + r930b -1.0 r930a - -1.0 r929 + r922 + r921 -1.0 r920 + r918 +3.0 r915 -1.0 r914 -1.0 r911 + r910 -1.0 r908 + r904b -1.0 r904a + r903 -1.0 r902 + r900 + r896 -1.0 r895 + r894 -1.0 r887 -1.0 r885 - -1.0 r884b + r884a -1.0 r881b + r881a -1.0 r880 -1.0 r876b + r876a -1.0 r871 -1.0 r870 -1.0 r869 -1.0 r868 -1.0 r867 -1.0 r866 -1.0 r865 + r864 + r863 + r862 + r861 + r860 + r859 - + r858 + r857 + r856 -1.0 r849b + r849a +2.0 r848 -1.0 r847 -1.0 r842 -1.0 r841 + r840b -1.0 r840a -1.0 r839 -1.0 r835b + r835a -1.0 r830b + r830a -1.0 r826 -1.0 r825 -1.0 r824 -1.0 r823 - -1.0 r822 -1.0 r821 -1.0 r817 -1.0 r813 + r812 -1.0 r811 + r809 -1.0 r807 +2.0 r798b -2.0 r798a -1.0 r788b + r788a -1.0 r777 +2.0 r776 + r774 -1.0 r773 + r767 + r766 -1.0 r765 -2.0 r764 - + r763b -1.0 r763a + r762 -1.0 r761b + r761a -1.0 r760b + r760a -1.0 r756b + r756a -1.0 r755b + r755a -1.0 r748b + r748a -1.0 r741 + r738 -1.0 r737 -1.0 r734b + r734a -2.0 r724 -1.0 r723 - -1.0 r722 + r721 + r720 -5.0 r717 -2.0 r713b +2.0 r713a + r712 -1.0 r711 -1.0 r705 -1.0 r700 + r698 + r697 -1.0 r695b + r695a -2.0 r694 + r689 + r687b -1.0 r687a + r685 + r676 - -1.0 r671 +2.0 r669 + r665 -1.0 r660b + r660a -2.0 r659b +2.0 r659a + r657 -1.0 r655b + r655a +3.0 r639 + r637 + r633 +2.0 r630 + r628 + r627 + r626 + r625 + r624 + r622 - + r621 + r620 + r619 + r618 + r617 + r616 + r615 + r614 + r613 + r612 + r611 + r610 + r609 + r608 + r607 + r606 + r605 + r604 + r603 + r602 - + r601 + r600 + r599 + r598 + r595 + r594 + r593 + r592 + r591 + r590 + r589 + r587 + r584 + r583 + r582 + r581 + r578 + r577 + r576 + r575 - + r574 + r573 + r572 + r571 + r570 + r569 + r568 + r567 + r566 + r565 + r564 + r563 + r562 + r561 + r560 + r559 + r558 + r557 + r556 + r555 - + r554 +2.0 r552 + r549 + r546 + r542 + r541 + r540 + r539 +2.0 r538 + r537 + r536 + r532 + r530 + r528 + r526 + r525 +3.0 r521 +3.0 r520 +3.0 r519 +3.0 r518 - +3.0 r517 +3.0 r516 +3.0 r515 +2.0 r514 + r513 + r512 + r511 + r510 + r508 + r506 +2.0 r505 + r502 +2.0 r499 + r497 + r496 + r494 + r492 + r490 +2.0 r488 + r484 - + r482 + r481 + r480 + r478 + r475 + r474b -1.0 r474a + r470 + r469 + r466 +2.0 r462 +2.0 r461 + r460 +2.0 r448 +2.0 r447 +2.0 r446 +2.0 r445 +2.0 r444 +2.0 r443 +2.0 r442 - + r441 + r440 + r439 + r436 + r435 + r433 + r431 + r430 + r429 + r427 + r426 + r425 + r424 + r423 + r418 + r417 + r416 + r415 + r410 + r409 - + r408 + r407 + r207 + r198 + r197 + r196 + r195 + r194 + r193 + r192 + r191 + r190 + r189 + r188 + r187 + r186 + r185 + r184 + r183 + r182 - + r181 + r180 + r179 + r177 + r176 + r175 + r174 + r170 + r168 + r167 + r166 + r157 + r156 + r155 + r154 + r153 + r151 + r150 + r149 + r146 - + r144 + r143 + r140 +3.0 r137b -3.0 r137a + r136 + r135 + r134 + r131 + r130 + r129 + r128 + r127 + r126 + r125 + r124 + r123 + r122 + r121 + r120 - + r118 + r117 + r116 + r115 + r114 + r113 + r112 + r111 + r110 + r109 + r108 + r107 + r106 + r105 + r104 + r103 + r102 + r101 + r100 + r99 - + r98 + r97 + r96 + r95 + r94 + r93 + r92 + r91 + r90 + r89 + r88 + r87 + r85 + r83 + r82 + r81 + r79 + r77 + r75 + r73 - + r72 + r71 + r70 + r69 + r68 + r67 + r65 + r63 + r35 + r34 + r33 + r32 + r31 + r30 = 0 - -c1262: \* Thi-S[CCO-CYTOSOL] *\ - \* r911, a ThiS sulfur-carrier protein + ATP + H+ -> a carboxy-adenylated-[ThiS sulfur-carrier protein] + diphosphate *\ - \* r893, 1-deoxy-D-xylulose 5-phosphate + 2-iminoacetate + a thiocarboxy-[ThiS-Protein] -> 2-[(2R,5Z)-(2-carboxy-4-methylthiazol-5(2H)-ylidene]ethyl phosphate + a ThiS sulfur-carrier protein + 2 H2O *\ - - -1.0 r911 + r893 = 0 - -c1982: \* DIHYDROSIROHYDROCHLORIN[CCO-CYTOSOL] *\ - \* r2305b, sirohydrochlorin + NADH + 2 H+ -> precorrin-2 + NAD+ *\ - \* r2305a, precorrin-2 + NAD+ -> sirohydrochlorin + NADH + 2 H+ *\ - \* r1799, S-adenosyl-L-methionine + precorrin-1 -> S-adenosyl-L-homocysteine + precorrin-2 *\ - - + r2305b -1.0 r2305a + r1799 = 0 - -c2111: \* CPD-66[CCO-CYTOSOL] *\ - \* r2102b, 2-hydroxy-3-oxosuccinate + NADH + H+ -> L-tartrate + NAD+ *\ - \* r2102a, L-tartrate + NAD+ -> 2-hydroxy-3-oxosuccinate + NADH + H+ *\ - - -1.0 r2102b + r2102a = 0 - -c1814: \* Carboxylates[CCO-PERI-BAC] *\ - \* r1552, a 1-acyl 2-lyso-phosphatidylcholine + H2O -> a carboxylate + sn-glycero-3-phosphocholine + H+ *\ - - + r1552 = 0 - -c425: \* FRUCTOSE-6P[CCO-CYTOSOL] *\ - \* r830a, D-mannitol 1-phosphate + NAD+ -> beta-D-fructofuranose 6-phosphate + NADH + H+ *\ - \* r830b, beta-D-fructofuranose 6-phosphate + NADH + H+ -> D-mannitol 1-phosphate + NAD+ *\ - \* r1079, fructose 1,6-bisphosphate + H2O -> beta-D-fructofuranose 6-phosphate + phosphate *\ - \* r1424, beta-D-fructofuranose + ATP -> beta-D-fructofuranose 6-phosphate + ADP + H+ *\ - \* r1443a, D-erythrose 4-phosphate + D-xylulose 5-phosphate -> beta-D-fructofuranose 6-phosphate + D-glyceraldehyde 3-phosphate *\ - \* r1443b, beta-D-fructofuranose 6-phosphate + D-glyceraldehyde 3-phosphate -> D-erythrose 4-phosphate + D-xylulose 5-phosphate *\ - \* r1703a, beta-D-glucose 6-phosphate -> beta-D-fructofuranose 6-phosphate *\ - \* r1703b, beta-D-fructofuranose 6-phosphate -> beta-D-glucose 6-phosphate *\ - \* r1772a, D-fructose 6-phosphate -> beta-D-fructofuranose 6-phosphate *\ - \* r1772b, beta-D-fructofuranose 6-phosphate -> D-fructose 6-phosphate *\ - \* r1863, beta-D-fructofuranose 6-phosphate + ATP -> ADP + fructose 1,6-bisphosphate + H+ *\ - \* r2056a, beta-D-fructofuranose 6-phosphate + L-glutamine -> D-glucosamine 6-phosphate + L-glutamate *\ - \* r2056b, D-glucosamine 6-phosphate + L-glutamate -> beta-D-fructofuranose 6-phosphate + L-glutamine *\ - \* r2069a, alpha-D-mannose 6-phosphate -> beta-D-fructofuranose 6-phosphate *\ - \* r2069b, beta-D-fructofuranose 6-phosphate -> alpha-D-mannose 6-phosphate *\ - \* r2401, D-allulose 6-phosphate -> beta-D-fructofuranose 6-phosphate *\ - \* r2422a, D-glyceraldehyde 3-phosphate + D-sedoheptulose 7-phosphate -> beta-D-fructofuranose 6-phosphate + D-erythrose 4-phosphate *\ - \* r2422b, beta-D-fructofuranose 6-phosphate + D-erythrose 4-phosphate -> D-glyceraldehyde 3-phosphate + D-sedoheptulose 7-phosphate *\ - - + r830a -1.0 r830b + r1079 + r1424 + r1443a -1.0 r1443b + r1703a -1.0 r1703b + r1772a -1.0 r1772b -1.0 r1863 -1.0 r2056a + r2056b + r2069a -1.0 r2069b + r2401 + r2422a -1.0 r2422b = 0 - -c1105: \* S-ADENOSYLMETHIONINAMINE[CCO-CYTOSOL] *\ - \* r900, putrescine + S-adenosyl 3-(methylthio)propylamine -> spermidine + S-methyl-5'-thioadenosine + H+ *\ - \* r1219, S-adenosyl-L-methionine + H+ -> CO2 + S-adenosyl 3-(methylthio)propylamine *\ - - -1.0 r900 + r1219 = 0 - -c2172: \* L-methionyl-tRNAfmet[CCO-CYTOSOL] *\ - \* objReactionName, an L-methionyl-[initiator tRNAmet] *\ - \* r2364b, an L-methionyl-[initiator tRNAmet] + AMP + diphosphate -> initiator tRNAmet + L-methionine + ATP + H+ *\ - \* r2364a, initiator tRNAmet + L-methionine + ATP + H+ -> an L-methionyl-[initiator tRNAmet] + AMP + diphosphate *\ - \* r2250, an N10-formyl-tetrahydrofolate + an L-methionyl-[initiator tRNAmet] -> a tetrahydrofolate + an N-formyl-L-methionyl-[initiator tRNAmet] *\ - - +0.00001 objReactionName -1.0 r2364b + r2364a -1.0 r2250 = 0 - -c823: \* DEOXYURIDINE[CCO-CYTOSOL] *\ - \* r2390, 2'-deoxycytidine + H+ + H2O -> 2'-deoxyuridine + ammonium *\ - \* r2338, dUMP + H2O -> 2'-deoxyuridine + phosphate *\ - \* r1925, a 2'-deoxyribonucleoside 5'-monophosphate + H2O -> a 2'-deoxynucleoside + phosphate *\ - \* r1823, 2'-deoxyuridine + ATP -> dUMP + ADP + H+ *\ - \* r750b, 2-deoxy-alpha-D-ribose 1-phosphate + uracil -> 2'-deoxyuridine + phosphate *\ - \* r750a, 2'-deoxyuridine + phosphate -> 2-deoxy-alpha-D-ribose 1-phosphate + uracil *\ - \* r601, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r549, 2'-deoxyuridine[periplasmic space] + H+[periplasmic space] -> 2'-deoxyuridine[cytosol] + H+[cytosol] *\ - - + r2390 + r2338 + r1925 -1.0 r1823 + r750b -1.0 r750a + r601 + r549 = 0 - -c306: \* L-ASPARTATE[CCO-PERI-BAC] *\ - \* r2284, L-asparagine + H2O -> L-aspartate + ammonium *\ - \* r631, succinate[cytosol] + L-aspartate[periplasmic space] -> L-aspartate[cytosol] + succinate[periplasmic space] *\ - \* r515, a C4-dicarboxylate[periplasmic space] + 3 H+[periplasmic space] -> a C4-dicarboxylate[cytosol] + 3 H+[cytosol] *\ - \* r505, L-aspartate[periplasmic space] + 2 H+[periplasmic space] -> L-aspartate[cytosol] + 2 H+[cytosol] *\ - \* r442, a C4-dicarboxylate[periplasmic space] + 2 H+[periplasmic space] -> a C4-dicarboxylate[cytosol] + 2 H+[cytosol] *\ - \* r374, L-aspartate[periplasmic space] -> L-aspartate[cytosol] *\ - \* r338, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - \* r156, ATP + L-aspartate[periplasmic space] + H2O -> L-aspartate[cytosol] + ADP + phosphate + H+ *\ - - + r2284 -1.0 r631 -1.0 r515 -1.0 r505 -1.0 r442 -1.0 r374 + r338 -1.0 r156 = 0 - -c1774: \* TDP-D-FUCOSAMINE[CCO-CYTOSOL] *\ - \* r1497a, dTDP-thomosamine + 2-oxoglutarate -> dTDP-4-dehydro-6-deoxy-alpha-D-glucopyranose + L-glutamate *\ - \* r1497b, dTDP-4-dehydro-6-deoxy-alpha-D-glucopyranose + L-glutamate -> dTDP-thomosamine + 2-oxoglutarate *\ - - -1.0 r1497a + r1497b = 0 - -c1484: \* CPD-15358[CCO-CYTOSOL] *\ - \* r2239, (2,3-dihydroxybenzoylserine)2 + H2O -> 2 N-(2,3-dihydroxybenzoyl)-L-serine + H+ *\ - \* r1147, (2,3-dihydroxybenzoylserine)3 + H2O -> (2,3-dihydroxybenzoylserine)2 + N-(2,3-dihydroxybenzoyl)-L-serine + H+ *\ - - -1.0 r2239 + r1147 = 0 - -c903: \* LIPOYL-AMP[CCO-CYTOSOL] *\ - \* r659b, a [glycine-cleavage complex H protein] N6-lipoyl-L-lysine + AMP + 2 H+ -> lipoyl-adenylate + [glycine cleavage system lipoyl-carrier protein]-L-lysine *\ - \* r659a, lipoyl-adenylate + [glycine cleavage system lipoyl-carrier protein]-L-lysine -> a [glycine-cleavage complex H protein] N6-lipoyl-L-lysine + AMP + 2 H+ *\ - - + r659b -1.0 r659a = 0 - -c804: \* INDOLE[CCO-CYTOSOL] *\ - \* r2425b, ammonium + indole + pyruvate -> L-tryptophan + H2O *\ - \* r2425a, L-tryptophan + H2O -> ammonium + indole + pyruvate *\ - \* r2010, indole + L-serine -> L-tryptophan + H2O *\ - \* r1982, L-tryptophan -> indole + 2-aminoprop-2-enoate + H+ *\ - \* r714b, indole + D-glyceraldehyde 3-phosphate -> (1S,2R)-1-C-(indol-3-yl)glycerol 3-phosphate *\ - \* r714a, (1S,2R)-1-C-(indol-3-yl)glycerol 3-phosphate -> indole + D-glyceraldehyde 3-phosphate *\ - \* r650b, indole[periplasmic space] -> indole[cytosol] *\ - \* r650a, indole[cytosol] -> indole[periplasmic space] *\ - \* r528, indole[periplasmic space] + H+[periplasmic space] -> indole[cytosol] + H+[cytosol] *\ - - -1.0 r2425b + r2425a -1.0 r2010 + r1982 -1.0 r714b + r714a + r650b -1.0 r650a + r528 = 0 - -c1324: \* 2-PHOSPHO-4-CYTIDINE-5-DIPHOSPHO-2-C-MET[CCO-CYTOSOL] *\ - \* r1822, 2-phospho-4-(cytidine 5'-diphospho)-2-C-methyl-D-erythritol -> CMP + 2-C-methyl-D-erythritol-2,4-cyclodiphosphate *\ - \* r948, 4-(cytidine 5'-diphospho)-2-C-methyl-D-erythritol + ATP -> 2-phospho-4-(cytidine 5'-diphospho)-2-C-methyl-D-erythritol + ADP + H+ *\ - - -1.0 r1822 + r948 = 0 - -c152: \* GLUTATHIONE[CCO-CYTOSOL] *\ - \* r75, glutathione[periplasmic space] + ATP + H2O -> glutathione[cytosol] + ADP + phosphate + H+ *\ - \* r482, glutathione[cytosol] + ATP + H2O -> glutathione[periplasmic space] + ADP + phosphate + H+ *\ - \* r877, 2 glutathione + an oxidized glutaredoxin -> glutathione disulfide + a reduced glutaredoxin *\ - \* r878, 2 glutathione + an oxidized glutaredoxin -> glutathione disulfide + a reduced glutaredoxin *\ - \* r1014a, S-hydroxymethylglutathione -> formaldehyde + glutathione *\ - \* r1014b, formaldehyde + glutathione -> S-hydroxymethylglutathione *\ - \* r1435, glycine + gamma-L-glutamyl-L-cysteine + ATP -> glutathione + ADP + phosphate + H+ *\ - \* r1625, spermidine + glutathione + ATP -> glutathionylspermidine + ADP + phosphate + H+ *\ - \* r1756, (R)-S-lactoylglutathione + H2O -> glutathione + (R)-lactate + H+ *\ - \* r1858a, D-cystine + 2 glutathione -> glutathione disulfide + 2 D-cysteine *\ - \* r1858b, glutathione disulfide + 2 D-cysteine -> D-cystine + 2 glutathione *\ - \* r1870, hydrogen sulfide + glutathione disulfide -> S-sulfanylglutathione + glutathione *\ - \* r1944, glutathione disulfide + NADPH + H+ -> 2 glutathione + NADP+ *\ - \* r2129, glutathionylspermidine + H2O -> glutathione + spermidine *\ - \* r2187, S-formylglutathione + H2O -> formate + glutathione + H+ *\ - \* r2226, methylglyoxal + glutathione -> (R)-S-lactoylglutathione *\ - \* r2325a, L-cystine + 2 glutathione -> glutathione disulfide + 2 L-cysteine *\ - \* r2325b, glutathione disulfide + 2 L-cysteine -> L-cystine + 2 glutathione *\ - \* r2434, hydrogen peroxide + 2 glutathione -> glutathione disulfide + 2 H2O *\ - \* objReactionName, glutathione *\ - - + r75 -1.0 r482 -2.0 r877 -2.0 r878 + r1014a -1.0 r1014b + r1435 -1.0 r1625 + r1756 -2.0 r1858a +2.0 r1858b + r1870 +2.0 r1944 + r2129 + r2187 -1.0 r2226 -2.0 r2325a +2.0 r2325b -2.0 r2434 - -0.000223 objReactionName = 0 - -c1869: \* Peptidoglycan-dimer[CCI-PERI-BAC-GN] *\ - \* r1616b, a lipid II + GlcNAc-1,6-anhydro-MurNAc-pentapeptide -> a peptidoglycan dimer (generic) *\ - \* r1616a, a peptidoglycan dimer (generic) -> a lipid II + GlcNAc-1,6-anhydro-MurNAc-pentapeptide *\ - - + r1616b -1.0 r1616a = 0 - -c1530: \* QUINOLINATE[CCO-CYTOSOL] *\ - \* r2301, 5-phospho-alpha-D-ribose 1-diphosphate + quinolinate + 2 H+ -> beta-nicotinate D-ribonucleotide + CO2 + diphosphate *\ - \* r1220, 2-iminosuccinate + glycerone phosphate -> quinolinate + phosphate + 2 H2O *\ - - -1.0 r2301 + r1220 = 0 - -c1890: \* HYDROXY-METHYL-BUTENYL-DIP[CCO-CYTOSOL] *\ - \* r2294, 1-hydroxy-2-methyl-2-(E)-butenyl 4-diphosphate + NAD(P)H + H+ -> dimethylallyl diphosphate + NAD(P)+ + H2O *\ - \* r2293, 1-hydroxy-2-methyl-2-(E)-butenyl 4-diphosphate + NAD(P)H + H+ -> dimethylallyl diphosphate + NAD(P)+ + H2O *\ - \* r2163, 2-C-methyl-D-erythritol-2,4-cyclodiphosphate + a reduced flavodoxin -> 1-hydroxy-2-methyl-2-(E)-butenyl 4-diphosphate + an oxidized flavodoxin + H2O + H+ *\ - \* r1643, 1-hydroxy-2-methyl-2-(E)-butenyl 4-diphosphate + NAD(P)H + H+ -> isopentenyl diphosphate + NAD(P)+ + H2O *\ - \* r1642, 1-hydroxy-2-methyl-2-(E)-butenyl 4-diphosphate + NAD(P)H + H+ -> isopentenyl diphosphate + NAD(P)+ + H2O *\ - - -1.0 r2294 -1.0 r2293 + r2163 -1.0 r1643 -1.0 r1642 = 0 - -c63: \* CPD-10434[CCO-PERI-BAC] *\ - \* r31, ATP + an aliphatic sulfonate[periplasmic space] + H2O -> an aliphatic sulfonate[cytosol] + ADP + phosphate + H+ *\ - - -1.0 r31 = 0 - -c1685: \* K-HEXANOYL-COA[CCO-CYTOSOL] *\ - \* r1962, a 3-oxoacyl-CoA + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + acetyl-CoA *\ - \* r1377, a (3S)-3-hydroxyacyl-CoA + NAD+ -> a 3-oxoacyl-CoA + NADH + H+ *\ - - -1.0 r1962 + r1377 = 0 - -c353: \* CPD0-2190[CCO-CYTOSOL] *\ - \* r1757b, L-alanyl-L-glutamate -> L-alanyl-D-glutamate *\ - \* r1757a, L-alanyl-D-glutamate -> L-alanyl-L-glutamate *\ - \* r1302, L-alanyl-gamma-D-glutamyl-meso-diaminopimelate + H2O -> L-alanyl-D-glutamate + meso-diaminopimelate *\ - \* r554, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r179, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - - + r1757b -1.0 r1757a + r1302 + r554 + r179 = 0 - -c611: \* ETHIONINE[CCO-CYTOSOL] *\ - \* r342, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - - -1.0 r342 = 0 - -c789: \* CYTIDINE[CCO-CYTOSOL] *\ - \* r506, cytidine[periplasmic space] + H+[periplasmic space] -> cytidine[cytosol] + H+[cytosol] *\ - \* r613, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r712, cytidine + ATP -> CMP + ADP + H+ *\ - \* r985, a ribonucleoside 5'-monophosphate + H2O -> a ribonucleoside + phosphate *\ - \* r1326, cytidine + H2O -> D-ribofuranose + cytosine *\ - \* r1402, cytidine + GTP -> CMP + GDP + H+ *\ - \* r1850, CMP + H2O -> cytidine + phosphate *\ - \* r1898, cytidine + H+ + H2O -> uridine + ammonium *\ - - + r506 + r613 -1.0 r712 + r985 -1.0 r1326 -1.0 r1402 + r1850 -1.0 r1898 = 0 - -c2159: \* HEXANAL[CCO-PERI-BAC] *\ - \* r2218b, a carboxylate[periplasmic space] + FADH2[periplasmic space] -> an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] *\ - \* r2218a, an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] -> a carboxylate[periplasmic space] + FADH2[periplasmic space] *\ - - + r2218b -1.0 r2218a = 0 - -c714: \* Alpha-lactose[CCO-PERI-BAC] *\ - \* r490, alpha-lactose[cytosol] + H+[periplasmic space] -> alpha-lactose[periplasmic space] + H+[cytosol] *\ - \* r427, alpha-lactose[periplasmic space] + H+[periplasmic space] -> alpha-lactose[cytosol] + H+[cytosol] *\ - - + r490 -1.0 r427 = 0 - -c197: \* CPD-12284[CCO-CYTOSOL] *\ - \* r1076b, alpha-Kdo-(2->4)-alpha-Kdo-(2->4)-alpha-Kdo-(2->6)-lipid IVA + CMP + H+ -> alpha-Kdo-(2->4)-alpha-Kdo-(2->6)-lipid IVA + CMP-3-deoxy-alpha-D-manno-octulosonate *\ - \* r1076a, alpha-Kdo-(2->4)-alpha-Kdo-(2->6)-lipid IVA + CMP-3-deoxy-alpha-D-manno-octulosonate -> alpha-Kdo-(2->4)-alpha-Kdo-(2->4)-alpha-Kdo-(2->6)-lipid IVA + CMP + H+ *\ - \* r252, a lipopolysaccharide[cytosol] -> a lipopolysaccharide[extracellular space] *\ - \* r100, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - - -1.0 r1076b + r1076a -1.0 r252 -1.0 r100 = 0 - -c2085: \* SUPER-OXIDE[CCO-PERI-BAC] *\ - \* r2014, 2 superoxide + 2 H+ -> hydrogen peroxide + oxygen *\ - - -2.0 r2014 = 0 - -c1700: \* PYRIDOXAL_PHOSPHATE[CCO-CYTOSOL] *\ - \* objReactionName, pyridoxal 5'-phosphate *\ - \* r2341, pyridoxal 5'-phosphate + H2O -> pyridoxal + phosphate *\ - \* r1896, ATP + pyridoxal -> ADP + pyridoxal 5'-phosphate + H+ *\ - \* r1848b, pyruvate + pyridoxamine 5'-phosphate -> D-alanine + pyridoxal 5'-phosphate *\ - \* r1848a, D-alanine + pyridoxal 5'-phosphate -> pyruvate + pyridoxamine 5'-phosphate *\ - \* r1577b, pyridoxal 5'-phosphate + an aminated amino group donor -> pyridoxamine 5'-phosphate + a deaminated amino group donor *\ - \* r1577a, pyridoxamine 5'-phosphate + a deaminated amino group donor -> pyridoxal 5'-phosphate + an aminated amino group donor *\ - \* r1483, pyridoxine 5'-phosphate + oxygen -> hydrogen peroxide + pyridoxal 5'-phosphate *\ - \* r1393, pyridoxamine 5'-phosphate + oxygen + H2O -> ammonium + hydrogen peroxide + pyridoxal 5'-phosphate *\ - - -0.000202 objReactionName -1.0 r2341 + r1896 + r1848b -1.0 r1848a -1.0 r1577b + r1577a + r1483 + r1393 = 0 - -c213: \* CPD0-933[CCO-CYTOSOL] *\ - \* r2034, glucosyl-(heptosyl)2-Kdo2-lipid A + ATP -> glucosyl-(heptosyl)2-Kdo2-lipid A-phosphate + ADP + H+ *\ - \* r1523, glucosyl-(heptosyl)2-Kdo2-lipid A-phosphate + ADP-L-glycero-beta-D-manno-heptose -> glucosyl-(heptosyl)3-Kdo2-lipid A-phosphate + ADP + H+ *\ - \* r260, a lipopolysaccharide[cytosol] -> a lipopolysaccharide[extracellular space] *\ - \* r108, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - - + r2034 -1.0 r1523 -1.0 r260 -1.0 r108 = 0 - -c221: \* KDO2-LIPID-A[CCO-CYTOSOL] *\ - \* r1985b, a 1,2-diacyl-sn-glycerol + 7-O-[2-aminoethoxy(hydroxy)phosphoryl]-alpha-D-Kdo-(2->4)-alpha-D-Kdo-(2->6)-lipid A -> an L-1-phosphatidylethanolamine + alpha-D-Kdo-(2->4)-alpha-D-Kdo-(2->6)-lipid A *\ - \* r1985a, an L-1-phosphatidylethanolamine + alpha-D-Kdo-(2->4)-alpha-D-Kdo-(2->6)-lipid A -> a 1,2-diacyl-sn-glycerol + 7-O-[2-aminoethoxy(hydroxy)phosphoryl]-alpha-D-Kdo-(2->4)-alpha-D-Kdo-(2->6)-lipid A *\ - \* r1434, alpha-D-Kdo-(2->4)-alpha-D-Kdo-(2->6)-lipid A + ADP-L-glycero-beta-D-manno-heptose -> heptosyl-Kdo2-lipid A + ADP + H+ *\ - \* r1179, a myristoyl-[acp] + alpha-Kdo-(2->4)-alpha-Kdo-(2->6)-(lauroyl)-lipid IVA -> alpha-D-Kdo-(2->4)-alpha-D-Kdo-(2->6)-lipid A + a holo-[acyl-carrier protein] *\ - \* r679b, alpha-D-Kdo-(2->4)-alpha-D-Kdo-(2->6)-lipid A 1-diphosphate + di-trans,octa-cis-undecaprenyl phosphate -> alpha-D-Kdo-(2->4)-alpha-D-Kdo-(2->6)-lipid A + di-trans,octa-cis-undecaprenyl diphosphate *\ - \* r679a, alpha-D-Kdo-(2->4)-alpha-D-Kdo-(2->6)-lipid A + di-trans,octa-cis-undecaprenyl diphosphate -> alpha-D-Kdo-(2->4)-alpha-D-Kdo-(2->6)-lipid A 1-diphosphate + di-trans,octa-cis-undecaprenyl phosphate *\ - \* r264, a lipopolysaccharide[cytosol] -> a lipopolysaccharide[extracellular space] *\ - \* r112, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - - + r1985b -1.0 r1985a -1.0 r1434 + r1179 + r679b -1.0 r679a -1.0 r264 -1.0 r112 = 0 - -c713: \* CPD-12537[CCO-CYTOSOL] *\ - \* r2213b, D-fructuronate -> aldehydo-D-glucuronate *\ - \* r2213a, aldehydo-D-glucuronate -> D-fructuronate *\ - \* r1976b, D-fructuronate + NADH + H+ -> D-mannonate + NAD+ *\ - \* r1976a, D-mannonate + NAD+ -> D-fructuronate + NADH + H+ *\ - \* r423, D-fructuronate[periplasmic space] + H+[periplasmic space] -> D-fructuronate[cytosol] + H+[cytosol] *\ - - -1.0 r2213b + r2213a -1.0 r1976b + r1976a + r423 = 0 - -c352: \* CPD0-2190[CCO-PERI-BAC] *\ - \* r554, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r179, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - - -1.0 r554 -1.0 r179 = 0 - -c2183: \* CPD-9956[CCO-CYTOSOL] *\ - \* objReactionName, ubiquinol-8 *\ - \* r2302, S-adenosyl-L-methionine + 3-demethylubiquinol-8 -> S-adenosyl-L-homocysteine + ubiquinol-8 + H+ *\ - - -0.000223 objReactionName + r2302 = 0 - -c1523: \* Unsulfurated-Sulfur-Acceptors[CCO-CYTOSOL] *\ - \* r1204, a [lipoyl-carrier protein] N6-octanoyl-L-lysine + 2 S-adenosyl-L-methionine + 2 a sulfurated [sulfur carrier] + 2 a reduced [2Fe-2S] ferredoxin -> a [lipoyl-carrier protein] N6-lipoyl-L-lysine + 2 5'-deoxyadenosine + 2 L-methionine + 2 an unsulfurated [sulfur carrier] + 2 an oxidized [2Fe-2S] ferredoxin *\ - \* r1241a, an [L-cysteine desulfurase] L-cysteine persulfide + an unsulfurated [sulfur carrier] -> an [L-cysteine desulfurase]-L-cysteine + a sulfurated [sulfur carrier] *\ - \* r1241b, an [L-cysteine desulfurase]-L-cysteine + a sulfurated [sulfur carrier] -> an [L-cysteine desulfurase] L-cysteine persulfide + an unsulfurated [sulfur carrier] *\ - \* r1767a, N6-dimethylallyladenosine37 in tRNA + a sulfurated [sulfur carrier] + S-adenosyl-L-methionine + an unknown reduced electron acceptor -> 2-thio-N6-dimethylallyladenosine37 in tRNA + an unsulfurated [sulfur carrier] + 5'-deoxyadenosine + L-methionine + an unknown oxidized electron acceptor + H+ *\ - \* r1767b, 2-thio-N6-dimethylallyladenosine37 in tRNA + an unsulfurated [sulfur carrier] + 5'-deoxyadenosine + L-methionine + an unknown oxidized electron acceptor + H+ -> N6-dimethylallyladenosine37 in tRNA + a sulfurated [sulfur carrier] + S-adenosyl-L-methionine + an unknown reduced electron acceptor *\ - \* r1847, a sulfurated [sulfur carrier] + dethiobiotin + 2 S-adenosyl-L-methionine + 2 a reduced [2Fe-2S] ferredoxin -> an unsulfurated [sulfur carrier] + biotin + 2 5'-deoxyadenosine + 2 L-methionine + 2 an oxidized [2Fe-2S] ferredoxin *\ - \* r2416, L-cysteine + an unsulfurated [sulfur carrier] -> L-alanine + a sulfurated [sulfur carrier] *\ - - +2.0 r1204 -1.0 r1241a + r1241b + r1767a -1.0 r1767b + r1847 -1.0 r2416 = 0 - -c1400: \* ANTHRANILATE[CCO-CYTOSOL] *\ - \* r2371, chorismate + L-glutamine -> anthranilate + pyruvate + L-glutamate + H+ *\ - \* r1046, anthranilate + 5-phospho-alpha-D-ribose 1-diphosphate -> N-(5-phosphoribosyl)-anthranilate + diphosphate *\ - - + r2371 -1.0 r1046 = 0 - -c55: \* GLY[CCO-PERI-BAC] *\ - \* r627, glycine[periplasmic space] + H+[periplasmic space] -> glycine[cytosol] + H+[cytosol] *\ - \* r29b, glycine[cytosol] -> glycine[periplasmic space] *\ - \* r29a, glycine[periplasmic space] -> glycine[cytosol] *\ - - -1.0 r627 + r29b -1.0 r29a = 0 - -c109: \* URIDINE[CCO-EXTRACELLULAR] *\ - \* r54, a nucleoside[extracellular space] -> a nucleoside[periplasmic space] *\ - - -1.0 r54 = 0 - -c1979: \* CPD-16400[CCO-PERI-BAC] *\ - \* r1797b, an osmoregulated periplasmic glucan with phosphoglycerol substituent[periplasmic space] + a 1,2-diacyl-sn-glycerol[periplasmic space] + H+[periplasmic space] -> an osmoregulated periplasmic glucan[periplasmic space] + an L-1-phosphatidyl-glycerol[periplasmic space] *\ - \* r1797a, an osmoregulated periplasmic glucan[periplasmic space] + an L-1-phosphatidyl-glycerol[periplasmic space] -> an osmoregulated periplasmic glucan with phosphoglycerol substituent[periplasmic space] + a 1,2-diacyl-sn-glycerol[periplasmic space] + H+[periplasmic space] *\ - - -1.0 r1797b + r1797a = 0 - -c37: \* PALMITATE[CCO-EXTRACELLULAR] *\ - \* r20, a long-chain fatty acid[extracellular space] -> a long-chain fatty acid[periplasmic space] *\ - - -1.0 r20 = 0 - -c1789: \* 25-DIDEHYDRO-D-GLUCONATE[CCO-CYTOSOL] *\ - \* r2212b, 2-keto-L-gulonate + NAD(P)+ -> 2,5-didehydro-D-gluconate + NAD(P)H + H+ *\ - \* r2212a, 2,5-didehydro-D-gluconate + NAD(P)H + H+ -> 2-keto-L-gulonate + NAD(P)+ *\ - \* r2211b, 2-keto-L-gulonate + NAD(P)+ -> 2,5-didehydro-D-gluconate + NAD(P)H + H+ *\ - \* r2211a, 2,5-didehydro-D-gluconate + NAD(P)H + H+ -> 2-keto-L-gulonate + NAD(P)+ *\ - \* r1705, 2,5-didehydro-D-gluconate + NADPH + H+ -> 2-keto-L-gulonate + NADP+ *\ - \* r1522, 2,5-didehydro-D-gluconate + NADPH + H+ -> 2-keto-D-gluconate + NADP+ *\ - \* r1521, 2,5-didehydro-D-gluconate + NADPH + H+ -> 5-dehydro-D-gluconate + NADP+ *\ - - + r2212b -1.0 r2212a + r2211b -1.0 r2211a -1.0 r1705 -1.0 r1522 -1.0 r1521 = 0 - -c1033: \* Oxidized-ferredoxins[CCO-CYTOSOL] *\ - \* r1063, an S-sulfanyl-[ThiI sulfur-carrier protein] + a carboxy-adenylated-[ThiS sulfur-carrier protein] + 2 a reduced ferredoxin -> a thiocarboxy-[ThiS-Protein] + a ThiI sulfur-carrier protein + AMP + 2 an oxidized ferredoxin *\ - \* r734b, acetyl-CoA + CO2 + 2 a reduced ferredoxin + H+ -> pyruvate + 2 an oxidized ferredoxin + coenzyme A *\ - \* r734a, pyruvate + 2 an oxidized ferredoxin + coenzyme A -> acetyl-CoA + CO2 + 2 a reduced ferredoxin + H+ *\ - - +2.0 r1063 +2.0 r734b -2.0 r734a = 0 - -c2005: \* Charged-VAL-tRNAs[CCO-CYTOSOL] *\ - \* objReactionName, an L-valyl-[tRNAval] *\ - \* r1834, a tRNAval + L-valine + ATP + H+ -> an L-valyl-[tRNAval] + AMP + diphosphate *\ - - -0.411184 objReactionName + r1834 = 0 - -c1816: \* WATER[CCO-UNKNOWN-SPACE] *\ - \* r1553, a 1-acyl 2-lyso-phosphatidylcholine + H2O -> a carboxylate + sn-glycero-3-phosphocholine + H+ *\ - - -1.0 r1553 = 0 - -c542: \* PSICOSELYSINE[CCO-CYTOSOL] *\ - \* r1742a, D-fructosyl-L-lysine -> psicoselysine *\ - \* r1742b, psicoselysine -> D-fructosyl-L-lysine *\ - - + r1742a -1.0 r1742b = 0 - -c1157: \* 3-Ketopimeloyl-ACP-methyl-esters[CCO-CYTOSOL] *\ - \* r1162, a 3-oxo-pimeloyl-[acp] methyl ester + NADPH + H+ -> a (3R)-3-hydroxypimeloyl-[acp] methyl ester + NADP+ *\ - \* r807, a glutaryl-[acp] methyl ester + a malonyl-[acp] + H+ -> a 3-oxo-pimeloyl-[acp] methyl ester + CO2 + a holo-[acyl-carrier protein] *\ - - -1.0 r1162 + r807 = 0 - -c1196: \* 11-DEOXYCORTICOSTERONE[CCO-CYTOSOL] *\ - \* r840b, 4-pregnen-20,21-diol-3-one + NAD+ -> 11-deoxycorticosterone + NADH + H+ *\ - \* r840a, 11-deoxycorticosterone + NADH + H+ -> 4-pregnen-20,21-diol-3-one + NAD+ *\ - - + r840b -1.0 r840a = 0 - -c1343: \* CPD-11770[CCO-CYTOSOL] *\ - \* r1911a, 7,8-dihydroneopterin -> 7,8-dihydromonapterin *\ - \* r1911b, 7,8-dihydromonapterin -> 7,8-dihydroneopterin *\ - \* r2148, 7,8-dihydromonapterin triphosphate + 3 H2O -> 7,8-dihydromonapterin + 3 phosphate + 2 H+ *\ - - + r1911a -1.0 r1911b + r2148 = 0 - -c1095: \* CPD-13907[CCO-CYTOSOL] *\ - \* r2040, L-dehydro-ascorbate + H2O -> dehydroascorbate (bicyclic form) *\ - \* r774, dehydroascorbate (bicyclic form) -> 2,3-dioxo-L-gulonate + H+ *\ - - + r2040 -1.0 r774 = 0 - -c40: \* CPD-7836[CCO-PERI-BAC] *\ - \* r21, a long-chain fatty acid[extracellular space] -> a long-chain fatty acid[periplasmic space] *\ - \* r363, a long-chain fatty acid[periplasmic space] -> a long-chain fatty acid[cytosol] *\ - - + r21 -1.0 r363 = 0 - -c890: \* AMMONIA[CCO-CYTOSOL] *\ - \* r1934b, ammonium -> ammonia + H+ *\ - \* r1934a, ammonia + H+ -> ammonium *\ - \* r648b, ammonia[cytosol] -> ammonia[periplasmic space] *\ - \* r648a, ammonia[periplasmic space] -> ammonia[cytosol] *\ - - + r1934b -1.0 r1934a -1.0 r648b + r648a = 0 - -c194: \* PHOSPHATIDYLETHANOLAMINE-KDO2[CCO-PERI-BAC] *\ - \* r1605b, a 1,2-diacyl-sn-glycerol[periplasmic space] + 7-O-[2-aminoethoxy(hydroxy)phosphoryl]-alpha-D-Kdo-(2->4)-alpha-D-Kdo-(2->6)-lipid IVA[periplasmic space] -> an L-1-phosphatidylethanolamine[periplasmic space] + alpha-Kdo-(2->4)-alpha-Kdo-(2->6)-lipid IVA[periplasmic space] *\ - \* r1605a, an L-1-phosphatidylethanolamine[periplasmic space] + alpha-Kdo-(2->4)-alpha-Kdo-(2->6)-lipid IVA[periplasmic space] -> a 1,2-diacyl-sn-glycerol[periplasmic space] + 7-O-[2-aminoethoxy(hydroxy)phosphoryl]-alpha-D-Kdo-(2->4)-alpha-D-Kdo-(2->6)-lipid IVA[periplasmic space] *\ - \* r98, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - - -1.0 r1605b + r1605a + r98 = 0 - -c2044: \* 3-METHYL-CROTONYL-COA[CCO-CYTOSOL] *\ - \* r1900b, 3-methylcrotonyl-CoA + a reduced electron-transfer flavoprotein -> isovaleryl-CoA + an oxidized electron-transfer flavoprotein + H+ *\ - \* r1900a, isovaleryl-CoA + an oxidized electron-transfer flavoprotein + H+ -> 3-methylcrotonyl-CoA + a reduced electron-transfer flavoprotein *\ - - -1.0 r1900b + r1900a = 0 - -c1127: \* R-3-Hydroxypalmitoyl-ACPs[CCO-CYTOSOL] *\ - \* r1142, a 3-oxoacyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxyacyl-[acyl-carrier protein] + NADP+ *\ - \* r1074, a (3R)-3-hydroxypalmitoyl-[acp] -> a trans hexadecenoyl-[acp] + H2O *\ - \* r1061, a 3-oxo-palmitoyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxypalmitoyl-[acp] + NADP+ *\ - \* r791, a (3R)-3-hydroxyacyl-[acyl-carrier protein] -> a trans-2-enoyl-[acyl-carrier protein] + H2O *\ - - + r1142 -1.0 r1074 + r1061 -1.0 r791 = 0 - -c738: \* D-TYROSINE[CCO-CYTOSOL] *\ - \* r456, an aromatic amino acid[cytosol] -> an aromatic amino acid[periplasmic space] *\ - - -1.0 r456 = 0 - -c1591: \* 3-P-HYDROXYPYRUVATE[CCO-CYTOSOL] *\ - \* r2283b, 3-phospho-hydroxypyruvate + NADH + H+ -> 3-phospho-D-glycerate + NAD+ *\ - \* r2283a, 3-phospho-D-glycerate + NAD+ -> 3-phospho-hydroxypyruvate + NADH + H+ *\ - \* r2184b, 3-phospho-hydroxypyruvate + L-glutamate -> 3-phospho-L-serine + 2-oxoglutarate *\ - \* r2184a, 3-phospho-L-serine + 2-oxoglutarate -> 3-phospho-hydroxypyruvate + L-glutamate *\ - \* r1280, 3-phospho-hydroxypyruvate + H2O -> hydroxypyruvate + phosphate *\ - - -1.0 r2283b + r2283a -1.0 r2184b + r2184a -1.0 r1280 = 0 - -c1089: \* DGDP[CCO-CYTOSOL] *\ - \* r1587, dGDP + ATP -> dGTP + ADP *\ - \* r1346, ATP + dGMP -> ADP + dGDP *\ - \* r818, GDP + a reduced NrdH glutaredoxin-like protein -> dGDP + an oxidized NrdH glutaredoxin-like protein + H2O *\ - \* r769, a reduced thioredoxin + a ribonucleoside diphosphate -> an oxidized thioredoxin + a 2'-deoxyribonucleoside 5'-diphosphate + H2O *\ - - -1.0 r1587 + r1346 + r818 + r769 = 0 - -c274: \* PROTON[CCO-OUT] *\ - \* r138b, ADP + phosphate + 4 H+[out] -> ATP + 3 H+[in] + H2O *\ - \* r138a, ATP + 3 H+[in] + H2O -> ADP + phosphate + 4 H+[out] *\ - - -4.0 r138b +4.0 r138a = 0 - -c1373: \* NICOTINAMIDE_NUCLEOTIDE[CCO-CYTOSOL] *\ - \* r2361, NAD+ + H2O -> beta-nicotinamide D-ribonucleotide + AMP + 2 H+ *\ - \* r2164, beta-nicotinamide D-ribonucleotide + H2O -> D-ribofuranose 5-phosphate + nicotinamide + H+ *\ - \* r1878, beta-nicotinamide D-ribonucleotide + H2O -> 1-(beta-D ribofuranosyl)nicotinamide + phosphate *\ - \* r1622, beta-nicotinamide D-ribonucleotide + ATP + H+ -> NAD+ + diphosphate *\ - \* r1408, 1-(beta-D ribofuranosyl)nicotinamide + ATP -> beta-nicotinamide D-ribonucleotide + ADP + H+ *\ - \* r1011, beta-nicotinamide D-ribonucleotide + H2O -> ammonium + beta-nicotinate D-ribonucleotide *\ - - + r2361 -1.0 r2164 -1.0 r1878 -1.0 r1622 + r1408 -1.0 r1011 = 0 - -c2016: \* ALLOLACTOSE[CCO-CYTOSOL] *\ - \* r1852b, allolactose -> alpha-lactose *\ - \* r1852a, alpha-lactose -> allolactose *\ - - -1.0 r1852b + r1852a = 0 - -c411: \* DIHYDROXYACETONE[CCO-CYTOSOL] *\ - \* r1242a, glycerol + NAD+ -> dihydroxyacetone + NADH + H+ *\ - \* r1242b, dihydroxyacetone + NADH + H+ -> glycerol + NAD+ *\ - \* r1531, dihydroxyacetone + phosphoenolpyruvate -> glycerone phosphate + pyruvate *\ - - + r1242a -1.0 r1242b -1.0 r1531 = 0 - -c905: \* PROTEIN-LIPOYLLYSINE[CCO-CYTOSOL] *\ - \* r659a, lipoyl-adenylate + [glycine cleavage system lipoyl-carrier protein]-L-lysine -> a [glycine-cleavage complex H protein] N6-lipoyl-L-lysine + AMP + 2 H+ *\ - \* r659b, a [glycine-cleavage complex H protein] N6-lipoyl-L-lysine + AMP + 2 H+ -> lipoyl-adenylate + [glycine cleavage system lipoyl-carrier protein]-L-lysine *\ - \* r881a, a [glycine-cleavage complex H protein] N6-dihydrolipoyl-L-lysine + NAD+ -> a [glycine-cleavage complex H protein] N6-lipoyl-L-lysine + NADH + H+ *\ - \* r881b, a [glycine-cleavage complex H protein] N6-lipoyl-L-lysine + NADH + H+ -> a [glycine-cleavage complex H protein] N6-dihydrolipoyl-L-lysine + NAD+ *\ - \* r966a, [glycine cleavage system lipoyl-carrier protein]-L-lysine + a lipoyl-[acp] -> a [glycine-cleavage complex H protein] N6-lipoyl-L-lysine + a holo-[acyl-carrier protein] + H+ *\ - \* r966b, a [glycine-cleavage complex H protein] N6-lipoyl-L-lysine + a holo-[acyl-carrier protein] + H+ -> [glycine cleavage system lipoyl-carrier protein]-L-lysine + a lipoyl-[acp] *\ - \* r989a, glycine + a [glycine-cleavage complex H protein] N6-lipoyl-L-lysine + H+ -> a [glycine-cleavage complex H protein] N6-aminomethyldihydrolipoyl-L-lysine + CO2 *\ - \* r989b, a [glycine-cleavage complex H protein] N6-aminomethyldihydrolipoyl-L-lysine + CO2 -> glycine + a [glycine-cleavage complex H protein] N6-lipoyl-L-lysine + H+ *\ - - + r659a -1.0 r659b + r881a -1.0 r881b + r966a -1.0 r966b -1.0 r989a + r989b = 0 - -c843: \* CIT[CCO-CYTOSOL] *\ - \* r1077, citrate + an acetyl-[holo citrate lyase acyl-carrier protein] + H+ -> a citryl-[holo citrate lyase acyl-carrier protein] + acetate *\ - \* r1397, oxaloacetate + acetyl-CoA + H2O -> citrate + coenzyme A + H+ *\ - \* r2158a, citrate -> cis-aconitate + H2O *\ - \* r2158b, cis-aconitate + H2O -> citrate *\ - \* r2410, citrate -> acetate + oxaloacetate *\ - - -1.0 r1077 + r1397 -1.0 r2158a + r2158b -1.0 r2410 = 0 - -c417: \* CPD-763[CCO-CYTOSOL] *\ - \* r1091b, arsenite + an oxidized glutaredoxin + H2O -> arsenate + a reduced glutaredoxin + H+ *\ - \* r1091a, arsenate + a reduced glutaredoxin + H+ -> arsenite + an oxidized glutaredoxin + H2O *\ - \* r1090b, arsenite + an oxidized glutaredoxin + H2O -> arsenate + a reduced glutaredoxin + H+ *\ - \* r1090a, arsenate + a reduced glutaredoxin + H+ -> arsenite + an oxidized glutaredoxin + H2O *\ - \* r625, arsenite[cytosol] + H+[periplasmic space] -> arsenite[periplasmic space] + H+[cytosol] *\ - \* r210, arsenite[periplasmic space] -> arsenite[cytosol] *\ - - -1.0 r1091b + r1091a -1.0 r1090b + r1090a -1.0 r625 + r210 = 0 - -c1573: \* LIPID-IV-A[CCO-CYTOSOL] *\ - \* r2194, lipid A disaccharide + ATP -> lipid IVA + ADP + H+ *\ - \* r1262, CMP-3-deoxy-alpha-D-manno-octulosonate + lipid IVA -> alpha-Kdo-(2->6)-lipid IVA + CMP + H+ *\ - - + r2194 -1.0 r1262 = 0 - -c1532: \* 1-KETO-2-METHYLVALERATE[CCO-CYTOSOL] *\ - \* r1268, (S)-2-aceto-2-hydroxybutanoate + NADPH + H+ -> (R)-2,3-dihydroxy-3-methylpentanoate + NADP+ *\ - \* r1224, (R)-2,3-dihydroxy-3-methylpentanoate -> (S)-3-methyl-2-oxopentanoate + H2O *\ - - + r1268 -1.0 r1224 = 0 - -c1164: \* IMINOASPARTATE[CCO-CYTOSOL] *\ - \* r1220, 2-iminosuccinate + glycerone phosphate -> quinolinate + phosphate + 2 H2O *\ - \* r1211, L-aspartate + fumarate -> 2-iminosuccinate + succinate + H+ *\ - \* r812, L-aspartate + oxygen -> hydrogen peroxide + 2-iminosuccinate + H+ *\ - - -1.0 r1220 + r1211 + r812 = 0 - -c419: \* D-SORBITOL-6-P[CCO-CYTOSOL] *\ - \* r2009a, D-sorbitol 6-phosphate + NAD+ -> D-fructose 6-phosphate + NADH + H+ *\ - \* r2009b, D-fructose 6-phosphate + NADH + H+ -> D-sorbitol 6-phosphate + NAD+ *\ - - -1.0 r2009a + r2009b = 0 - -c1060: \* 5-PHOSPHO-RIBOSYL-GLYCINEAMIDE[CCO-CYTOSOL] *\ - \* r2027, N1-(5-phospho-beta-D-ribosyl)glycinamide + formate + ATP -> N2-formyl-N1-(5-phospho-beta-D-ribosyl)glycinamide + ADP + phosphate + H+ *\ - \* r1846, ATP + 5-phospho-beta-D-ribosylamine + glycine -> ADP + N1-(5-phospho-beta-D-ribosyl)glycinamide + phosphate + H+ *\ - \* r748b, a tetrahydrofolate + N2-formyl-N1-(5-phospho-beta-D-ribosyl)glycinamide + H+ -> an N10-formyl-tetrahydrofolate + N1-(5-phospho-beta-D-ribosyl)glycinamide *\ - \* r748a, an N10-formyl-tetrahydrofolate + N1-(5-phospho-beta-D-ribosyl)glycinamide -> a tetrahydrofolate + N2-formyl-N1-(5-phospho-beta-D-ribosyl)glycinamide + H+ *\ - - -1.0 r2027 + r1846 + r748b -1.0 r748a = 0 - -c1056: \* HYDROGEN-PEROXIDE[CCO-CYTOSOL] *\ - \* r2434, hydrogen peroxide + 2 glutathione -> glutathione disulfide + 2 H2O *\ - \* r2405, 2 L-ascorbate + hydrogen peroxide + H+ -> L-ascorbate + L-dehydro-ascorbate + 2 H2O *\ - \* r2287, hydrogen peroxide + an unknown reduced electron acceptor -> an unknown oxidized electron acceptor + 2 H2O *\ - \* r2173b, 2 a phenoxyl radical of a phenolic donor + 2 H2O -> 2 a phenolic donor + hydrogen peroxide *\ - \* r2173a, 2 a phenolic donor + hydrogen peroxide -> 2 a phenoxyl radical of a phenolic donor + 2 H2O *\ - \* r2108, gamma-glutamyl-L-putrescine + H2O + oxygen -> 4-(gamma-glutamylamino)butanal + hydrogen peroxide + ammonium *\ - \* r2087, 2 hydrogen peroxide -> 2 H2O + oxygen *\ - \* r1699, 2 L-ascorbate + hydrogen peroxide + 2 H+ -> 2 monodehydroascorbate radical + 2 H2O *\ - \* r1483, pyridoxine 5'-phosphate + oxygen -> hydrogen peroxide + pyridoxal 5'-phosphate *\ - \* r1393, pyridoxamine 5'-phosphate + oxygen + H2O -> ammonium + hydrogen peroxide + pyridoxal 5'-phosphate *\ - \* r1389b, heme d -> heme b + hydrogen peroxide *\ - \* r1389a, heme b + hydrogen peroxide -> heme d *\ - \* r1350, (S)-2-hydroxyglutarate + oxygen -> 2-oxoglutarate + hydrogen peroxide *\ - \* r888, protoporphyrinogen IX + 3 oxygen -> protoporphyrin IX + 3 hydrogen peroxide *\ - \* r812, L-aspartate + oxygen -> hydrogen peroxide + 2-iminosuccinate + H+ *\ - \* r746, a reduced thioredoxin + hydrogen peroxide -> an oxidized thioredoxin + 2 H2O *\ - - -1.0 r2434 -1.0 r2405 -1.0 r2287 + r2173b -1.0 r2173a + r2108 -2.0 r2087 -1.0 r1699 + r1483 + r1393 + r1389b -1.0 r1389a + r1350 +3.0 r888 + r812 -1.0 r746 = 0 - -c1543: \* GALACTOSE-1P[CCO-CYTOSOL] *\ - \* r1331b, UDP-alpha-D-galactose + alpha-D-glucose 1-phosphate -> UDP-alpha-D-glucose + alpha-D-galactose 1-phosphate *\ - \* r1331a, UDP-alpha-D-glucose + alpha-D-galactose 1-phosphate -> UDP-alpha-D-galactose + alpha-D-glucose 1-phosphate *\ - \* r1234, alpha-D-galactose + ATP -> alpha-D-galactose 1-phosphate + ADP + H+ *\ - - + r1331b -1.0 r1331a + r1234 = 0 - -c1023: \* CPD-7222[CCO-CYTOSOL] *\ - \* r1916, a 2,3,4-saturated fatty acyl CoA + NADP+ -> a trans-2-enoyl-CoA + NADPH + H+ *\ - \* r1796b, 2-trans-dodecenoyl-CoA -> 3-cis-dodecenoyl-CoA *\ - \* r1796a, 3-cis-dodecenoyl-CoA -> 2-trans-dodecenoyl-CoA *\ - \* r1780, a 2,3,4-saturated fatty acyl CoA + an oxidized electron-transfer flavoprotein + H+ -> a trans-2-enoyl-CoA + a reduced electron-transfer flavoprotein *\ - \* r1416b, a trans-2-enoyl-CoA -> a cis-3-enoyl-CoA *\ - \* r1416a, a cis-3-enoyl-CoA -> a trans-2-enoyl-CoA *\ - \* r729, a trans-2-enoyl-CoA + H2O -> a (3S)-3-hydroxyacyl-CoA *\ - - + r1916 -1.0 r1796b + r1796a + r1780 -1.0 r1416b + r1416a -1.0 r729 = 0 - -c1294: \* D-Ribofuranose[CCO-CYTOSOL] *\ - \* r2423, xanthosine + H2O -> D-ribofuranose + xanthine *\ - \* r1960, inosine + H2O -> D-ribofuranose + hypoxanthine *\ - \* r1466, adenosine + H2O -> D-ribofuranose + adenine *\ - \* r1364b, D-ribofuranose -> aldehydo-D-ribose *\ - \* r1364a, aldehydo-D-ribose -> D-ribofuranose *\ - \* r1326, cytidine + H2O -> D-ribofuranose + cytosine *\ - \* r926, uridine + H2O -> D-ribofuranose + uracil *\ - - + r2423 + r1960 + r1466 -1.0 r1364b + r1364a + r1326 + r926 = 0 - -c1868: \* GLT-tRNAs[CCO-CYTOSOL] *\ - \* objReactionName, tRNAGlu *\ - \* r1747, tRNAGlu + L-glutamate + ATP + H+ -> an L-glutamyl-[tRNAGlu] + AMP + diphosphate *\ - \* r1614, an L-glutamyl-[tRNAGlu] + NADPH -> (S)-4-amino-5-oxopentanoate + tRNAGlu + NADP+ *\ - - +0.255712 objReactionName -1.0 r1747 + r1614 = 0 - -c2075: \* Charged-PHE-tRNAs[CCO-CYTOSOL] *\ - \* objReactionName, an L-phenylalanyl-[tRNAphe] *\ - \* r1994, a tRNAphe + L-phenylalanine + ATP + H+ -> an L-phenylalanyl-[tRNAphe] + AMP + diphosphate *\ - - -0.180021 objReactionName + r1994 = 0 - -c496: \* KDO2-LIPID-A[CCO-EXTRACELLULAR] *\ - \* r264, a lipopolysaccharide[cytosol] -> a lipopolysaccharide[extracellular space] *\ - - + r264 = 0 - -c1803: \* CPD0-1158[CCO-CYTOSOL] *\ - \* r2049, 3-trans,5-cis-tetradecadienoyl-CoA + H2O -> (3E,5Z)-tetradecadienoate + coenzyme A + H+ *\ - \* r1539b, 3-trans,5-cis-tetradecadienoyl-CoA -> 2-trans,5-cis-tetradecadienoyl-CoA *\ - \* r1539a, 2-trans,5-cis-tetradecadienoyl-CoA -> 3-trans,5-cis-tetradecadienoyl-CoA *\ - - -1.0 r2049 -1.0 r1539b + r1539a = 0 - -c1139: \* CPD0-1156[CCO-CYTOSOL] *\ - \* r798b, methyl-1,4-benzoquinol + 2 NADP+ -> methyl-1,4-benzoquinone + 2 NADPH + 2 H+ *\ - \* r798a, methyl-1,4-benzoquinone + 2 NADPH + 2 H+ -> methyl-1,4-benzoquinol + 2 NADP+ *\ - - + r798b -1.0 r798a = 0 - -c1140: \* CPD0-1157[CCO-CYTOSOL] *\ - \* r798b, methyl-1,4-benzoquinol + 2 NADP+ -> methyl-1,4-benzoquinone + 2 NADPH + 2 H+ *\ - \* r798a, methyl-1,4-benzoquinone + 2 NADPH + 2 H+ -> methyl-1,4-benzoquinol + 2 NADP+ *\ - - -1.0 r798b + r798a = 0 - -c2199: \* N-Hydroxy-Arylamines[CCO-CYTOSOL] *\ - \* r2329b, an N-acetoxyarylamine + coenzyme A -> an N-hydroxy-arylamine + acetyl-CoA *\ - \* r2329a, an N-hydroxy-arylamine + acetyl-CoA -> an N-acetoxyarylamine + coenzyme A *\ - - + r2329b -1.0 r2329a = 0 - -c1561: \* DGMP[CCO-PERI-BAC] *\ - \* r1252, dGMP + H2O -> 2'-deoxyguanosine + phosphate *\ - - -1.0 r1252 = 0 - -c1013: \* Charged-THR-tRNAs[CCO-CYTOSOL] *\ - \* objReactionName, an L-threonyl-[tRNAthr] *\ - \* r722, a tRNAthr + L-threonine + ATP + H+ -> an L-threonyl-[tRNAthr] + AMP + diphosphate *\ - - -0.246506 objReactionName + r722 = 0 - -c1782: \* D-GLT[CCO-CYTOSOL] *\ - \* r2123b, D-glutamate -> L-glutamate *\ - \* r2123a, L-glutamate -> D-glutamate *\ - \* r1651, a D-amino acid + an electron-transfer quinone[inner membrane] + H2O -> ammonium + a 2-oxo carboxylate + an electron-transfer quinol[inner membrane] *\ - \* r1650, a D-amino acid + an electron-transfer quinone[inner membrane] + H2O -> ammonium + a 2-oxo carboxylate + an electron-transfer quinol[inner membrane] *\ - \* r1512, D-glutamate + UDP-N-acetyl-alpha-D-muramoyl-L-alanine + ATP -> UDP-N-acetyl-alpha-D-muramoyl-L-alanyl-D-glutamate + ADP + phosphate + H+ *\ - - -1.0 r2123b + r2123a -1.0 r1651 -1.0 r1650 -1.0 r1512 = 0 - -c1736: \* CPD0-1151[CCO-CYTOSOL] *\ - \* r1449b, lipid A-core 1-diphosphate + di-trans,octa-cis-undecaprenyl phosphate -> lipid A-core + di-trans,octa-cis-undecaprenyl diphosphate + H+ *\ - \* r1449a, lipid A-core + di-trans,octa-cis-undecaprenyl diphosphate + H+ -> lipid A-core 1-diphosphate + di-trans,octa-cis-undecaprenyl phosphate *\ - - -1.0 r1449b + r1449a = 0 - -c1213: \* CmaA-peptidyl-carrier-protein[CCO-CYTOSOL] *\ - \* r1052, an acyl-carrier protein + coenzyme A -> adenosine 3',5'-bisphosphate + a holo-[acyl-carrier protein] + H+ *\ - \* r857, a holo-[acyl-carrier protein] + H2O -> 4'-phosphopantetheine + an acyl-carrier protein + H+ *\ - - -1.0 r1052 + r857 = 0 - -c2080: \* DIAMINONONANOATE[CCO-CYTOSOL] *\ - \* r2097, CO2 + 7,8-diaminopelargonate + ATP -> dethiobiotin + ADP + phosphate + 3 H+ *\ - \* r2004b, S-adenosyl-4-methylthio-2-oxobutanoate + 7,8-diaminopelargonate -> S-adenosyl-L-methionine + 8-amino-7-oxononanoate *\ - \* r2004a, S-adenosyl-L-methionine + 8-amino-7-oxononanoate -> S-adenosyl-4-methylthio-2-oxobutanoate + 7,8-diaminopelargonate *\ - - -1.0 r2097 -1.0 r2004b + r2004a = 0 - -c646: \* CPD0-1159[CCO-CYTOSOL] *\ - \* r2049, 3-trans,5-cis-tetradecadienoyl-CoA + H2O -> (3E,5Z)-tetradecadienoate + coenzyme A + H+ *\ - \* r385, (3E,5Z)-tetradecadienoate[cytosol] -> (3E,5Z)-tetradecadienoate[periplasmic space] *\ - \* r365, a long-chain fatty acid[periplasmic space] -> a long-chain fatty acid[cytosol] *\ - - + r2049 -1.0 r385 + r365 = 0 - -c1655: \* CPD-343[CCO-CYTOSOL] *\ - \* r1337b, 3-deoxy-D-glycero-2,5-hexodiulosonate + NADH + H+ -> 2-dehydro-3-deoxy-D-gluconate + NAD+ *\ - \* r1337a, 2-dehydro-3-deoxy-D-gluconate + NAD+ -> 3-deoxy-D-glycero-2,5-hexodiulosonate + NADH + H+ *\ - - -1.0 r1337b + r1337a = 0 - -c1151: \* PHOSPHO-CREC[CCO-CYTOSOL] *\ - \* r805b, CreC + PhoB-Pasp53 -> CreC sensory histidine kinase - phosphorylated + PhoB *\ - \* r805a, CreC sensory histidine kinase - phosphorylated + PhoB -> CreC + PhoB-Pasp53 *\ - - + r805b -1.0 r805a = 0 - -c1948: \* tRNA-pseudouridine13[CCO-CYTOSOL] *\ - \* r1743b, a pseudouridine13 in tRNA -> a uridine13 in tRNA *\ - \* r1743a, a uridine13 in tRNA -> a pseudouridine13 in tRNA *\ - - -1.0 r1743b + r1743a = 0 - -c1770: \* ETHYL-2-METHYLACETOACETATE[CCO-CYTOSOL] *\ - \* r1491b, ethyl-2-methylacetoacetate + NADPH + H+ -> ethyl-(2R)-methyl-(3S)-hydroxybutanoate + NADP+ *\ - \* r1491a, ethyl-(2R)-methyl-(3S)-hydroxybutanoate + NADP+ -> ethyl-2-methylacetoacetate + NADPH + H+ *\ - - -1.0 r1491b + r1491a = 0 - -c1898: \* CPD-239[CCO-PERI-BAC] *\ - \* r2496_e, cysteamine *\ - - -1.0 r2496_e = 0 - -c1697: \* HEME_D[CCO-CYTOSOL] *\ - \* r1389b, heme d -> heme b + hydrogen peroxide *\ - \* r1389a, heme b + hydrogen peroxide -> heme d *\ - - -1.0 r1389b + r1389a = 0 - -c427: \* MANNITOL-1P[CCO-CYTOSOL] *\ - \* r830a, D-mannitol 1-phosphate + NAD+ -> beta-D-fructofuranose 6-phosphate + NADH + H+ *\ - \* r830b, beta-D-fructofuranose 6-phosphate + NADH + H+ -> D-mannitol 1-phosphate + NAD+ *\ - - -1.0 r830a + r830b = 0 - -c1992: \* CPD-1086[CCO-CYTOSOL] *\ - \* r2397, 5-amino-6-(5-phospho-D-ribitylamino)uracil + H2O -> 5-amino-6-(D-ribitylamino)uracil + phosphate *\ - \* r1819, 5-amino-6-(5-phospho-D-ribosylamino)uracil + NADPH + H+ -> 5-amino-6-(5-phospho-D-ribitylamino)uracil + NADP+ *\ - - -1.0 r2397 + r1819 = 0 - -c1365: \* D-SEDOHEPTULOSE-1-7-P2[CCO-CYTOSOL] *\ - \* r2299, D-sedoheptulose-1,7-bisphosphate -> glycerone phosphate + D-erythrose 4-phosphate *\ - \* r1004, D-sedoheptulose 7-phosphate + ATP -> D-sedoheptulose-1,7-bisphosphate + ADP + H+ *\ - - -1.0 r2299 + r1004 = 0 - -c2220: \* PRO-tRNAs[CCO-CYTOSOL] *\ - \* objReactionName, a tRNApro *\ - \* r2385, a tRNApro + L-proline + ATP + H+ -> an L-prolyl-[tRNApro] + AMP + diphosphate *\ - - +0.214798 objReactionName -1.0 r2385 = 0 - -c965: \* PROPIONYL-COA[CCO-CYTOSOL] *\ - \* r2396b, propanoate + succinyl-CoA -> propanoyl-CoA + succinate *\ - \* r2396a, propanoyl-CoA + succinate -> propanoate + succinyl-CoA *\ - \* r2296, propanoyl-CoA + phosphate -> propanoyl phosphate + coenzyme A *\ - \* r2252, an acyl-CoA + H2O -> a carboxylate + coenzyme A + H+ *\ - \* r1633b, 2-hydroxyglutarate + coenzyme A + H+ -> propanoyl-CoA + glyoxylate + H2O *\ - \* r1633a, propanoyl-CoA + glyoxylate + H2O -> 2-hydroxyglutarate + coenzyme A + H+ *\ - \* r1482b, acryloyl-CoA + NADPH + H+ -> propanoyl-CoA + NADP+ *\ - \* r1482a, propanoyl-CoA + NADP+ -> acryloyl-CoA + NADPH + H+ *\ - \* r1457, 2-oxobutanoate + coenzyme A -> propanoyl-CoA + formate *\ - \* r1396, propanoate + ATP + coenzyme A -> propanoyl-CoA + AMP + diphosphate *\ - \* r767, oxaloacetate + propanoyl-CoA + H2O -> (2S,3S)-2-methylcitrate + coenzyme A + H+ *\ - \* r723, (R)-methylmalonyl-CoA + H+ -> propanoyl-CoA + CO2 *\ - \* r697, ATP + hydrogen carbonate + propanoyl-CoA -> ADP + (S)-methylmalonyl-CoA + phosphate + H+ *\ - - + r2396b -1.0 r2396a -1.0 r2296 -1.0 r2252 + r1633b -1.0 r1633a + r1482b -1.0 r1482a + r1457 + r1396 -1.0 r767 + r723 -1.0 r697 = 0 - -c1642: \* D-ALLOSE-6-PHOSPHATE[CCO-CYTOSOL] *\ - \* r1876, D-allopyranose + ATP -> aldehydo-D-allose 6-phosphate + ADP + H+ *\ - \* r1323b, D-allulose 6-phosphate -> aldehydo-D-allose 6-phosphate *\ - \* r1323a, aldehydo-D-allose 6-phosphate -> D-allulose 6-phosphate *\ - - + r1876 + r1323b -1.0 r1323a = 0 - -c720: \* GLUCONATE[CCO-CYTOSOL] *\ - \* r695a, D-gluconate + NAD+ -> 5-dehydro-D-gluconate + NADH + H+ *\ - \* r695b, 5-dehydro-D-gluconate + NADH + H+ -> D-gluconate + NAD+ *\ - \* r755a, D-gluconate + NAD(P)+ -> 5-dehydro-D-gluconate + NAD(P)H + H+ *\ - \* r755b, 5-dehydro-D-gluconate + NAD(P)H + H+ -> D-gluconate + NAD(P)+ *\ - \* r756a, D-gluconate + NAD(P)+ -> 5-dehydro-D-gluconate + NAD(P)H + H+ *\ - \* r756b, 5-dehydro-D-gluconate + NAD(P)H + H+ -> D-gluconate + NAD(P)+ *\ - \* r1941, 2-keto-D-gluconate + NADPH + H+ -> D-gluconate + NADP+ *\ - \* r2031, ATP + D-gluconate -> ADP + D-gluconate 6-phosphate + H+ *\ - \* r2039, D-gluconate 6-phosphate + H2O -> D-gluconate + phosphate *\ - - -1.0 r695a + r695b -1.0 r755a + r755b -1.0 r756a + r756b + r1941 -1.0 r2031 + r2039 = 0 - -c328: \* XYLOSE[CCO-PERI-BAC] *\ - \* r591, D-xylose[periplasmic space] + H+[periplasmic space] -> D-xylose[cytosol] + H+[cytosol] *\ - \* r167, ATP + D-xylose[periplasmic space] + H2O -> ADP + D-xylose[cytosol] + phosphate + H+ *\ - - -1.0 r591 -1.0 r167 = 0 - -c1540: \* 8-AMINO-7-OXONONANOATE[CCO-CYTOSOL] *\ - \* r2004b, S-adenosyl-4-methylthio-2-oxobutanoate + 7,8-diaminopelargonate -> S-adenosyl-L-methionine + 8-amino-7-oxononanoate *\ - \* r2004a, S-adenosyl-L-methionine + 8-amino-7-oxononanoate -> S-adenosyl-4-methylthio-2-oxobutanoate + 7,8-diaminopelargonate *\ - \* r1232, a pimeloyl-[acp] + L-alanine + H+ -> 8-amino-7-oxononanoate + CO2 + a holo-[acyl-carrier protein] *\ - - + r2004b -1.0 r2004a + r1232 = 0 - -c44: \* CPD0-1159[CCO-PERI-BAC] *\ - \* r385, (3E,5Z)-tetradecadienoate[cytosol] -> (3E,5Z)-tetradecadienoate[periplasmic space] *\ - \* r365, a long-chain fatty acid[periplasmic space] -> a long-chain fatty acid[cytosol] *\ - \* r23, a long-chain fatty acid[extracellular space] -> a long-chain fatty acid[periplasmic space] *\ - - + r385 -1.0 r365 + r23 = 0 - -c869: \* D-LACTATE[CCO-PERI-BAC] *\ - \* r2477_e, (R)-lactate *\ - \* r646b, lactate[periplasmic space] -> lactate[cytosol] *\ - \* r646a, lactate[cytosol] -> lactate[periplasmic space] *\ - \* r624, (R)-lactate[periplasmic space] + H+[periplasmic space] -> (R)-lactate[cytosol] + H+[cytosol] *\ - - -1.0 r2477_e -1.0 r646b + r646a -1.0 r624 = 0 - -c697: \* L-LACTATE[CCO-PERI-BAC] *\ - \* r645b, lactate[periplasmic space] -> lactate[cytosol] *\ - \* r645a, lactate[cytosol] -> lactate[periplasmic space] *\ - \* r409, (S)-lactate[periplasmic space] + H+[periplasmic space] -> (S)-lactate[cytosol] + H+[cytosol] *\ - - -1.0 r645b + r645a -1.0 r409 = 0 - -c598: \* L-2-AMINOPENTANOIC-ACID[CCO-PERI-BAC] *\ - \* r328, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - - + r328 = 0 - -c1130: \* Tetradec-2-enoyl-ACPs[CCO-CYTOSOL] *\ - \* r1034, a trans tetradec-2-enoyl-[acp] + NADH + H+ -> a myristoyl-[acp] + NAD+ *\ - \* r1020, a trans-2-enoyl-[acyl-carrier protein] + NADH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NAD+ *\ - \* r883, a (3R)-3-hydroxymyristoyl-[acp] -> a trans tetradec-2-enoyl-[acp] + H2O *\ - \* r870, a trans-2-enoyl-[acyl-carrier protein] + NADPH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NADP+ *\ - \* r792, a (3R)-3-hydroxyacyl-[acyl-carrier protein] -> a trans-2-enoyl-[acyl-carrier protein] + H2O *\ - - -1.0 r1034 -1.0 r1020 + r883 -1.0 r870 + r792 = 0 - -c1135: \* R-3-hydroxyhexanoyl-ACPs[CCO-CYTOSOL] *\ - \* r1137, a 3-oxoacyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxyacyl-[acyl-carrier protein] + NADP+ *\ - \* r1086, a 3-oxo-hexanoyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxyhexanoyl-[acp] + NADP+ *\ - \* r933, a (3R)-3-hydroxyhexanoyl-[acp] -> a trans hex-2-enoyl-[acp] + H2O *\ - \* r796, a (3R)-3-hydroxyacyl-[acyl-carrier protein] -> a trans-2-enoyl-[acyl-carrier protein] + H2O *\ - - + r1137 + r1086 -1.0 r933 -1.0 r796 = 0 - -c123: \* ADENOSYL-P4[CCO-EXTRACELLULAR] *\ - \* r61, a nucleoside[extracellular space] -> a nucleoside[periplasmic space] *\ - - -1.0 r61 = 0 - -c746: \* BETAINE[CCO-CYTOSOL] *\ - \* r460, glycine betaine[periplasmic space] + H+[periplasmic space] -> glycine betaine[cytosol] + H+[cytosol] *\ - \* r499, glycine betaine[cytosol] + 2 H+[periplasmic space] -> glycine betaine[periplasmic space] + 2 H+[cytosol] *\ - \* r2086, betaine aldehyde + NAD+ + H2O -> glycine betaine + NADH + 2 H+ *\ - - + r460 -1.0 r499 + r2086 = 0 - -c104: \* CPD-15544[CCO-PERI-BAC] *\ - \* r611, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r51, a nucleoside[extracellular space] -> a nucleoside[periplasmic space] *\ - - -1.0 r611 + r51 = 0 - -c1711: \* POLYMER-INST-CIS-DELTA3-ENOYL-COA-C2-H4[CCO-CYTOSOL] *\ - \* r1413b, a trans-2-enoyl-CoA -> a cis-3-enoyl-CoA *\ - \* r1413a, a cis-3-enoyl-CoA -> a trans-2-enoyl-CoA *\ - - + r1413b -1.0 r1413a = 0 - -c759: \* CPD-334[CCO-CYTOSOL] *\ - \* r2379, 2,3-dioxo-L-gulonate + NADH + H+ -> 3-keto-L-gulonate + NAD+ *\ - \* r774, dehydroascorbate (bicyclic form) -> 2,3-dioxo-L-gulonate + H+ *\ - - -1.0 r2379 + r774 = 0 - -c1266: \* HOLO-CITRATE-LYASE[CCO-CYTOSOL] *\ - \* r899, [a holo citrate lyase acyl-carrier protein] + acetate + ATP -> an acetyl-[holo citrate lyase acyl-carrier protein] + AMP + diphosphate *\ - \* r1893, an acetyl-[holo citrate lyase acyl-carrier protein] + H2O -> [a holo citrate lyase acyl-carrier protein] + acetate + H+ *\ - - -1.0 r899 + r1893 = 0 - -c607: \* CPD-9300[CCO-CYTOSOL] *\ - \* r340, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - - -1.0 r340 = 0 - -c1847: \* RHAMNULOSE-1P[CCO-CYTOSOL] *\ - \* r2100, L-rhamnulofuranose + ATP -> L-rhamnulose 1-phosphate + ADP + H+ *\ - \* r1590b, (S)-lactaldehyde + glycerone phosphate -> L-rhamnulose 1-phosphate *\ - \* r1590a, L-rhamnulose 1-phosphate -> (S)-lactaldehyde + glycerone phosphate *\ - - + r2100 + r1590b -1.0 r1590a = 0 - -c745: \* CADAVERINE[CCO-PERI-BAC] *\ - \* r574, cadaverine[periplasmic space] + H+[periplasmic space] -> cadaverine[cytosol] + H+[cytosol] *\ - \* r459, cadaverine[cytosol] + L-lysine[periplasmic space] -> cadaverine[periplasmic space] + L-lysine[cytosol] *\ - - -1.0 r574 + r459 = 0 - -c366: \* CARNOSINE[CCO-PERI-BAC] *\ - \* r561, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r186, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - - -1.0 r561 -1.0 r186 = 0 - -c1037: \* Palmitoleoyl-ACPs[CCO-CYTOSOL] *\ - \* r737, a trans-delta3-cis-delta9-hexadecenoyl-[acp] + NADH + H+ -> a palmitoleoyl-[acp] + NAD+ *\ - \* r958, a palmitoleoyl-[acp] + alpha-Kdo-(2->4)-alpha-Kdo-(2->6)-lipid IVA -> Kdo2-(palmitoleoyl)-lipid IVA + a holo-[acyl-carrier protein] *\ - - + r737 -1.0 r958 = 0 - -c278: \* GLT[CCO-CYTOSOL] *\ - \* r2420b, L-glutamate + 1-pyrroline + H2O -> putrescine + 2-oxoglutarate *\ - \* r2420a, putrescine + 2-oxoglutarate -> L-glutamate + 1-pyrroline + H2O *\ - \* r2415, 2 ATP + L-glutamine + hydrogen carbonate + H2O -> carbamoyl-phosphate + L-glutamate + 2 ADP + phosphate + 2 H+ *\ - \* r2408, L-glutamine + 2-oxoglutarate + NADPH + H+ -> 2 L-glutamate + NADP+ *\ - \* r2404, L-glutamine + L-aspartate + ATP + H2O -> L-glutamate + L-asparagine + AMP + diphosphate + H+ *\ - \* r2382b, 4-methyl-2-oxopentanoate + L-glutamate -> L-leucine + 2-oxoglutarate *\ - \* r2382a, L-leucine + 2-oxoglutarate -> 4-methyl-2-oxopentanoate + L-glutamate *\ - \* r2371, chorismate + L-glutamine -> anthranilate + pyruvate + L-glutamate + H+ *\ - \* r2370b, 4-amino-4-deoxychorismate + L-glutamate -> L-glutamine + chorismate *\ - \* r2370a, L-glutamine + chorismate -> 4-amino-4-deoxychorismate + L-glutamate *\ - \* r2324, L-glutamine + H2O -> L-glutamate + ammonium *\ - \* r2186, ATP + UTP + L-glutamine + H2O -> ADP + CTP + L-glutamate + phosphate + 2 H+ *\ - \* r2184b, 3-phospho-hydroxypyruvate + L-glutamate -> 3-phospho-L-serine + 2-oxoglutarate *\ - \* r2184a, 3-phospho-L-serine + 2-oxoglutarate -> 3-phospho-hydroxypyruvate + L-glutamate *\ - \* r2132, L-glutamate-5-semialdehyde + NAD+ + H2O -> L-glutamate + NADH + 2 H+ *\ - \* r2123b, D-glutamate -> L-glutamate *\ - \* r2123a, L-glutamate -> D-glutamate *\ - \* r2101, L-glutamate + 7,8-dihydropteroate + ATP -> ADP + 7,8-dihydrofolate monoglutamate + phosphate + H+ *\ - \* r2090, 5-phospho-alpha-D-ribose 1-diphosphate + L-glutamine + H2O -> 5-phospho-beta-D-ribosylamine + L-glutamate + diphosphate *\ - \* r2056b, D-glucosamine 6-phosphate + L-glutamate -> beta-D-fructofuranose 6-phosphate + L-glutamine *\ - \* r2056a, beta-D-fructofuranose 6-phosphate + L-glutamine -> D-glucosamine 6-phosphate + L-glutamate *\ - \* r2037, L-glutamate + H+ -> CO2 + 4-aminobutanoate *\ - \* r1951, L-glutamine + XMP + ATP + H2O -> L-glutamate + GMP + AMP + diphosphate + 2 H+ *\ - \* r1892, L-glutamate + ATP + NADPH + H+ -> ADP + L-glutamate-5-semialdehyde + NADP+ + phosphate *\ - \* r1889b, 3-methyl-2-oxobutanoate + L-glutamate -> L-valine + 2-oxoglutarate *\ - \* r1889a, L-valine + 2-oxoglutarate -> 3-methyl-2-oxobutanoate + L-glutamate *\ - \* r1884b, L-phenylalanine + 2-oxoglutarate -> 2-oxo-3-phenylpropanoate + L-glutamate *\ - \* r1884a, 2-oxo-3-phenylpropanoate + L-glutamate -> L-phenylalanine + 2-oxoglutarate *\ - \* r1818b, L-glutamate + N-succinyl-2-amino-6-ketopimelate -> 2-oxoglutarate + N-succinyl-L,L-2,6-diaminopimelate *\ - \* r1818a, 2-oxoglutarate + N-succinyl-L,L-2,6-diaminopimelate -> L-glutamate + N-succinyl-2-amino-6-ketopimelate *\ - \* r1816b, 2-oxo-4-methylthiobutanoate + a standard alpha amino acid -> L-methionine + a 2-oxo carboxylate *\ - \* r1816a, L-methionine + a 2-oxo carboxylate -> 2-oxo-4-methylthiobutanoate + a standard alpha amino acid *\ - \* r1808, putrescine + 2-oxoglutarate -> 4-aminobutanal + L-glutamate *\ - \* r1747, tRNAGlu + L-glutamate + ATP + H+ -> an L-glutamyl-[tRNAGlu] + AMP + diphosphate *\ - \* r1736, ATP + N2-formyl-N1-(5-phospho-beta-D-ribosyl)glycinamide + L-glutamine + H2O -> ADP + 2-(formamido)-N1-(5-phospho-beta-D-ribosyl)acetamidine + L-glutamate + phosphate + H+ *\ - \* r1715b, 4-phospho-hydroxy-L-threonine + 2-oxoglutarate -> 2-oxo-3-hydroxy-4-phosphobutanoate + L-glutamate *\ - \* r1715a, 2-oxo-3-hydroxy-4-phosphobutanoate + L-glutamate -> 4-phospho-hydroxy-L-threonine + 2-oxoglutarate *\ - \* r1603b, L-glutamate + succinate semialdehyde -> 2-oxoglutarate + 4-aminobutanoate *\ - \* r1603a, 2-oxoglutarate + 4-aminobutanoate -> L-glutamate + succinate semialdehyde *\ - \* r1570, glycyl-L-glutamate + H2O -> glycine + L-glutamate *\ - \* r1525b, ammonium + 2-oxoglutarate + NADPH + H+ -> L-glutamate + NADP+ + H2O *\ - \* r1525a, L-glutamate + NADP+ + H2O -> ammonium + 2-oxoglutarate + NADPH + H+ *\ - \* r1497b, dTDP-4-dehydro-6-deoxy-alpha-D-glucopyranose + L-glutamate -> dTDP-thomosamine + 2-oxoglutarate *\ - \* r1497a, dTDP-thomosamine + 2-oxoglutarate -> dTDP-4-dehydro-6-deoxy-alpha-D-glucopyranose + L-glutamate *\ - \* r1473, L-alanyl-L-glutamate + H2O -> L-alanine + L-glutamate *\ - \* r1406b, an aliphatic omega-aminoaldehyde + L-glutamate -> an aliphatic alpha,omega-diamine + 2-oxoglutarate *\ - \* r1406a, an aliphatic alpha,omega-diamine + 2-oxoglutarate -> an aliphatic omega-aminoaldehyde + L-glutamate *\ - \* r1399b, UDP-beta-L-threo-pentapyranos-4-ulose + L-glutamate -> UDP-4-amino-4-deoxy-beta-L-arabinopyranose + 2-oxoglutarate *\ - \* r1399a, UDP-4-amino-4-deoxy-beta-L-arabinopyranose + 2-oxoglutarate -> UDP-beta-L-threo-pentapyranos-4-ulose + L-glutamate *\ - \* r1340, ammonium + L-glutamate + ATP -> L-glutamine + ADP + phosphate + H+ *\ - \* r1312b, N2-succinyl-L-glutamate 5-semialdehyde + L-glutamate -> N2-succinyl-L-ornithine + 2-oxoglutarate *\ - \* r1312a, N2-succinyl-L-ornithine + 2-oxoglutarate -> N2-succinyl-L-glutamate 5-semialdehyde + L-glutamate *\ - \* r1298b, (S)-3-methyl-2-oxopentanoate + L-glutamate -> L-isoleucine + 2-oxoglutarate *\ - \* r1298a, L-isoleucine + 2-oxoglutarate -> (S)-3-methyl-2-oxopentanoate + L-glutamate *\ - \* r1254, imidazole acetol-phosphate + L-glutamate -> L-histidinol-phosphate + 2-oxoglutarate *\ - \* r1240, phosphoribulosylformimino-AICAR-P + L-glutamine -> L-glutamate + D-erythro-imidazole-glycerol-phosphate + 5-amino-1-(5-phospho-D-ribosyl)imidazole-4-carboxamide + H+ *\ - \* r1222, N2-succinylglutamate + H2O -> succinate + L-glutamate *\ - \* r1205b, oxaloacetate + L-glutamate -> L-aspartate + 2-oxoglutarate *\ - \* r1205a, L-aspartate + 2-oxoglutarate -> oxaloacetate + L-glutamate *\ - \* r1176, ATP + nicotinate adenine dinucleotide + L-glutamine + H2O -> AMP + L-glutamate + NAD+ + diphosphate + H+ *\ - \* r1081, 4-(gamma-L-glutamylamino)butanoate + H2O -> 4-aminobutanoate + L-glutamate *\ - \* r1007b, N-acetyl-L-glutamate + coenzyme A + H+ -> L-glutamate + acetyl-CoA *\ - \* r1007a, L-glutamate + acetyl-CoA -> N-acetyl-L-glutamate + coenzyme A + H+ *\ - \* r938, L-glutamate + ATP -> gamma-L-glutamyl 5-phosphate + ADP *\ - \* r918, putrescine + L-glutamate + ATP -> gamma-glutamyl-L-putrescine + ADP + phosphate + H+ *\ - \* r894, (S)-1-pyrroline-5-carboxylate + NAD+ + 2 H2O -> L-glutamate + NADH + H+ *\ - \* r844b, L-glutamate + pyruvate -> 2-oxoglutarate + L-alanine *\ - \* r844a, 2-oxoglutarate + L-alanine -> L-glutamate + pyruvate *\ - \* r831, N-acetyl-L-glutamate 5-semialdehyde + L-glutamate -> N-acetyl-L-ornithine + 2-oxoglutarate *\ - \* r778b, an aromatic oxo-acid + L-glutamate -> an aromatic amino acid + 2-oxoglutarate *\ - \* r778a, an aromatic amino acid + 2-oxoglutarate -> an aromatic oxo-acid + L-glutamate *\ - \* r766, L-cysteine + L-glutamate + ATP -> gamma-L-glutamyl-L-cysteine + ADP + phosphate + H+ *\ - \* r744b, 4-hydroxyphenylpyruvate + L-glutamate -> L-tyrosine + 2-oxoglutarate *\ - \* r744a, L-tyrosine + 2-oxoglutarate -> 4-hydroxyphenylpyruvate + L-glutamate *\ - \* r638, 4-aminobutanoate[cytosol] + L-glutamate[periplasmic space] -> L-glutamate[cytosol] + 4-aminobutanoate[periplasmic space] *\ - \* r461, L-glutamate[periplasmic space] + 2 H+[periplasmic space] -> L-glutamate[cytosol] + 2 H+[cytosol] *\ - \* r438, 2 Na+[periplasmic space] + L-glutamate[periplasmic space] -> 2 Na+[cytosol] + L-glutamate[cytosol] *\ - \* r326, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - \* r140, ATP + L-glutamate[periplasmic space] + H2O -> ADP + L-glutamate[cytosol] + phosphate + H+ *\ - - -1.0 r2420b + r2420a + r2415 +2.0 r2408 + r2404 -1.0 r2382b + r2382a + r2371 -1.0 r2370b + r2370a + r2324 + r2186 -1.0 r2184b + r2184a + r2132 + r2123b -1.0 r2123a -1.0 r2101 + r2090 - -1.0 r2056b + r2056a -1.0 r2037 + r1951 -1.0 r1892 -1.0 r1889b + r1889a + r1884b -1.0 r1884a -1.0 r1818b + r1818a -1.0 r1816b + r1816a + r1808 -1.0 r1747 + r1736 + r1715b -1.0 r1715a -1.0 r1603b + r1603a - + r1570 + r1525b -1.0 r1525a -1.0 r1497b + r1497a + r1473 -1.0 r1406b + r1406a -1.0 r1399b + r1399a -1.0 r1340 -1.0 r1312b + r1312a -1.0 r1298b + r1298a -1.0 r1254 + r1240 + r1222 -1.0 r1205b + r1205a - + r1176 + r1081 + r1007b -1.0 r1007a -1.0 r938 -1.0 r918 + r894 -1.0 r844b + r844a -1.0 r831 -1.0 r778b + r778a -1.0 r766 -1.0 r744b + r744a + r638 + r461 + r438 -1.0 r326 + r140 = 0 - -c341: \* IMP[CCO-PERI-BAC] *\ - \* r2142, a nucleoside 5'-monophosphate[periplasmic space] + H2O[periplasmic space] -> a nucleoside[periplasmic space] + phosphate[periplasmic space] *\ - \* r1028, IMP + H2O -> inosine + phosphate *\ - \* r978, a ribonucleoside 5'-monophosphate + H2O -> a ribonucleoside + phosphate *\ - \* r173, IMP[cytosol] -> IMP[periplasmic space] *\ - - -1.0 r2142 -1.0 r1028 -1.0 r978 + r173 = 0 - -c321: \* GMP[CCO-PERI-BAC] *\ - \* r2171, GMP + H2O -> guanosine + phosphate *\ - \* r2143, a nucleoside 5'-monophosphate[periplasmic space] + H2O[periplasmic space] -> a nucleoside[periplasmic space] + phosphate[periplasmic space] *\ - \* r980, a ribonucleoside 5'-monophosphate + H2O -> a ribonucleoside + phosphate *\ - \* r163, GMP[cytosol] -> GMP[periplasmic space] *\ - - -1.0 r2171 -1.0 r2143 -1.0 r980 + r163 = 0 - -c576: \* ADENINE[CCO-CYTOSOL] *\ - \* r671, adenine + H+ + H2O -> ammonium + hypoxanthine *\ - \* r836, S-adenosyl-L-homocysteine + H2O -> S-ribosyl-L-homocysteine + adenine *\ - \* r1173, 5'-deoxyadenosine + H2O -> 5-deoxy-D-ribose + adenine *\ - \* r1305a, 2'-deoxyadenosine + phosphate -> adenine + 2-deoxy-alpha-D-ribose 1-phosphate *\ - \* r1305b, adenine + 2-deoxy-alpha-D-ribose 1-phosphate -> 2'-deoxyadenosine + phosphate *\ - \* r1368, S-methyl-5'-thioadenosine + H2O -> S-methyl-5-thio-D-ribose + adenine *\ - \* r1466, adenosine + H2O -> D-ribofuranose + adenine *\ - \* r1559, 5-phospho-alpha-D-ribose 1-diphosphate + adenine -> AMP + diphosphate *\ - \* r1998a, a purine ribonucleoside + phosphate -> a purine base + alpha-D-ribose-1-phosphate *\ - \* r1998b, a purine base + alpha-D-ribose-1-phosphate -> a purine ribonucleoside + phosphate *\ - \* r2073a, adenosine + phosphate -> alpha-D-ribose-1-phosphate + adenine *\ - \* r2073b, alpha-D-ribose-1-phosphate + adenine -> adenosine + phosphate *\ - \* r2281, AMP + H2O -> D-ribofuranose 5-phosphate + adenine *\ - - -1.0 r671 + r836 + r1173 + r1305a -1.0 r1305b + r1368 + r1466 -1.0 r1559 + r1998a -1.0 r1998b + r2073a -1.0 r2073b + r2281 = 0 - -c1383: \* PROPANE-1-2-DIOL[CCO-CYTOSOL] *\ - \* r1656b, (S)-lactaldehyde + NADH + H+ -> (S)-propane-1,2-diol + NAD+ *\ - \* r1656a, (S)-propane-1,2-diol + NAD+ -> (S)-lactaldehyde + NADH + H+ *\ - \* r1561b, (S)-lactaldehyde + NADPH + H+ -> (S)-propane-1,2-diol + NADP+ *\ - \* r1561a, (S)-propane-1,2-diol + NADP+ -> (S)-lactaldehyde + NADPH + H+ *\ - \* r1035b, acetol + NADH + H+ -> (S)-propane-1,2-diol + NAD+ *\ - \* r1035a, (S)-propane-1,2-diol + NAD+ -> acetol + NADH + H+ *\ - - + r1656b -1.0 r1656a + r1561b -1.0 r1561a + r1035b -1.0 r1035a = 0 - -c1116: \* CPD-1301[CCO-CYTOSOL] *\ - \* r1566, formaldehyde + a tetrahydrofolate -> a 5,10-methylene-tetrahydrofolate + H2O *\ - \* r1515, glycine + a tetrahydrofolate + NAD+ -> a 5,10-methylene-tetrahydrofolate + ammonium + CO2 + NADH *\ - \* r1451, L-homocysteine + N5-methyl--tetrahydropteroyl tri-L-glutamate -> L-methionine + tetrahydropteroyl tri-L-glutamate *\ - \* r1107b, glycine + a 5,10-methylene-tetrahydrofolate + H2O -> L-serine + a tetrahydrofolate *\ - \* r1107a, L-serine + a tetrahydrofolate -> glycine + a 5,10-methylene-tetrahydrofolate + H2O *\ - \* r800, L-homocysteine + an N5-methyl-tetrahydrofolate -> L-methionine + a tetrahydrofolate *\ - \* r784b, 2-dehydropantoate + a tetrahydrofolate -> a 5,10-methylene-tetrahydrofolate + 3-methyl-2-oxobutanoate + H2O *\ - \* r784a, a 5,10-methylene-tetrahydrofolate + 3-methyl-2-oxobutanoate + H2O -> 2-dehydropantoate + a tetrahydrofolate *\ - - -1.0 r1566 -1.0 r1515 + r1451 + r1107b -1.0 r1107a + r800 -1.0 r784b + r784a = 0 - -c1583: \* HEXANOYL-COA[CCO-CYTOSOL] *\ - \* r2256, an acyl-CoA + H2O -> a carboxylate + coenzyme A + H+ *\ - \* r2067b, a 2,3,4-saturated fatty acid + acetyl-CoA -> a 2,3,4-saturated fatty acyl CoA + acetate *\ - \* r2067a, a 2,3,4-saturated fatty acyl CoA + acetate -> a 2,3,4-saturated fatty acid + acetyl-CoA *\ - \* r1963, a 3-oxoacyl-CoA + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + acetyl-CoA *\ - \* r1919, a 2,3,4-saturated fatty acyl CoA + NADP+ -> a trans-2-enoyl-CoA + NADPH + H+ *\ - \* r1777, a 2,3,4-saturated fatty acyl CoA + an oxidized electron-transfer flavoprotein + H+ -> a trans-2-enoyl-CoA + a reduced electron-transfer flavoprotein *\ - \* r1272, a 2,3,4-saturated fatty acid + ATP + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + AMP + diphosphate *\ - - -1.0 r2256 + r2067b -1.0 r2067a + r1963 -1.0 r1919 -1.0 r1777 + r1272 = 0 - -c1026: \* CPD0-2171[CCO-CYTOSOL] *\ - \* r1381, a (3S)-3-hydroxyacyl-CoA + NAD+ -> a 3-oxoacyl-CoA + NADH + H+ *\ - \* r730, a trans-2-enoyl-CoA + H2O -> a (3S)-3-hydroxyacyl-CoA *\ - - -1.0 r1381 + r730 = 0 - -c583: \* N-23-DIHYDROXYBENZOYL-L-SERINE[CCO-CYTOSOL] *\ - \* r1147, (2,3-dihydroxybenzoylserine)3 + H2O -> (2,3-dihydroxybenzoylserine)2 + N-(2,3-dihydroxybenzoyl)-L-serine + H+ *\ - \* r1807, enterobactin + 3 H2O -> 3 N-(2,3-dihydroxybenzoyl)-L-serine + 3 H+ *\ - \* r2078a, (2,3-dihydroxybenzoylserine)3 + 2 H2O -> 3 N-(2,3-dihydroxybenzoyl)-L-serine + 2 H+ *\ - \* r2078b, 3 N-(2,3-dihydroxybenzoyl)-L-serine + 2 H+ -> (2,3-dihydroxybenzoylserine)3 + 2 H2O *\ - \* r2239, (2,3-dihydroxybenzoylserine)2 + H2O -> 2 N-(2,3-dihydroxybenzoyl)-L-serine + H+ *\ - - + r1147 +3.0 r1807 +3.0 r2078a -3.0 r2078b +2.0 r2239 = 0 - -c1621: \* PYRIDOXAMINE-5P[CCO-CYTOSOL] *\ - \* r1848b, pyruvate + pyridoxamine 5'-phosphate -> D-alanine + pyridoxal 5'-phosphate *\ - \* r1848a, D-alanine + pyridoxal 5'-phosphate -> pyruvate + pyridoxamine 5'-phosphate *\ - \* r1577b, pyridoxal 5'-phosphate + an aminated amino group donor -> pyridoxamine 5'-phosphate + a deaminated amino group donor *\ - \* r1577a, pyridoxamine 5'-phosphate + a deaminated amino group donor -> pyridoxal 5'-phosphate + an aminated amino group donor *\ - \* r1393, pyridoxamine 5'-phosphate + oxygen + H2O -> ammonium + hydrogen peroxide + pyridoxal 5'-phosphate *\ - \* r1304, ATP + pyridoxamine -> ADP + pyridoxamine 5'-phosphate + H+ *\ - - -1.0 r1848b + r1848a + r1577b -1.0 r1577a -1.0 r1393 + r1304 = 0 - -c1378: \* 3-hydroxy-cis-D7-tetraecenoyl-ACPs[CCO-CYTOSOL] *\ - \* r1191, a 3-oxo-cis-delta7-tetradecenoyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxy cis delta7-tetradecenoyl-[acp] + NADP+ *\ - \* r1030, a (3R)-3-hydroxy cis delta7-tetradecenoyl-[acp] -> a trans-delta3-cis-delta7-tetradecenoyl-[acp] + H2O *\ - - + r1191 -1.0 r1030 = 0 - -c1502: \* REDUCED-MENAQUINONE[CCO-PM-BAC-NEG] *\ - \* r1905, NADPH + an electron-transfer quinone[inner membrane] + H+ -> NADP+ + an electron-transfer quinol[inner membrane] *\ - \* r1686, an electron-transfer quinone[inner membrane] + NAD(P)H + H+ -> an electron-transfer quinol[inner membrane] + NAD(P)+ *\ - \* r1685, an electron-transfer quinone[inner membrane] + NAD(P)H + H+ -> an electron-transfer quinol[inner membrane] + NAD(P)+ *\ - \* r1682, NADH + a menaquinone[inner membrane] + 5 H+ -> NAD+ + a menaquinol[inner membrane] + 4 H+[periplasmic space] *\ - \* r1678b, dimethyl sulfoxide[periplasmic space] + a menaquinol[inner membrane] -> dimethyl sulfide[periplasmic space] + a menaquinone[inner membrane] + H2O[periplasmic space] *\ - \* r1678a, dimethyl sulfide[periplasmic space] + a menaquinone[inner membrane] + H2O[periplasmic space] -> dimethyl sulfoxide[periplasmic space] + a menaquinol[inner membrane] *\ - \* r1675, NADH + a menaquinone[inner membrane] + H+ -> NAD+ + a menaquinol[inner membrane] *\ - \* r1673, sn-glycerol 3-phosphate + a menaquinone[inner membrane] -> glycerone phosphate + a menaquinol[inner membrane] *\ - \* r1669b, succinate + a menaquinone[inner membrane] -> fumarate + a menaquinol[inner membrane] *\ - \* r1669a, fumarate + a menaquinol[inner membrane] -> succinate + a menaquinone[inner membrane] *\ - \* r1660, D-alanine + an electron-transfer quinone[inner membrane] + H2O -> ammonium + pyruvate + an electron-transfer quinol[inner membrane] *\ - \* r1657, (S)-dihydroorotate + a menaquinone[inner membrane] -> orotate + a menaquinol[inner membrane] *\ - \* r1652, a D-amino acid + an electron-transfer quinone[inner membrane] + H2O -> ammonium + a 2-oxo carboxylate + an electron-transfer quinol[inner membrane] *\ - \* r1650, a D-amino acid + an electron-transfer quinone[inner membrane] + H2O -> ammonium + a 2-oxo carboxylate + an electron-transfer quinol[inner membrane] *\ - \* r1641, formate[periplasmic space] + a menaquinone[inner membrane] + 2 H+ -> CO2[periplasmic space] + a menaquinol[inner membrane] + H+[periplasmic space] *\ - \* r1636, (S)-dihydroorotate + an electron-transfer quinone[inner membrane] -> orotate + an electron-transfer quinol[inner membrane] *\ - \* r1357, protoporphyrinogen IX + 3 a menaquinone[inner membrane] -> protoporphyrin IX + 3 a menaquinol[inner membrane] *\ - \* r1166, (S)-malate + an electron-transfer quinone[inner membrane] -> oxaloacetate + an electron-transfer quinol[inner membrane] *\ - - + r1905 + r1686 + r1685 + r1682 -1.0 r1678b + r1678a + r1675 + r1673 + r1669b -1.0 r1669a + r1660 + r1657 + r1652 + r1650 + r1641 + r1636 +3.0 r1357 + r1166 = 0 - -c336: \* CHOLATE[CCO-PERI-BAC] *\ - \* r475, cholate[cytosol] + H+[periplasmic space] -> cholate[periplasmic space] + H+[cytosol] *\ - \* r171, cholate[periplasmic space] -> cholate[cytosol] *\ - - + r475 -1.0 r171 = 0 - -c1204: \* Cytidine-34-tRNAIle2[CCO-CYTOSOL] *\ - \* objReactionName, a cytidine34 in tRNAIle2 *\ - \* r848, a cytidine34 in tRNAIle2 + L-lysine + ATP -> a lysidine34 in tRNAIle2 + AMP + diphosphate + 2 H+ *\ - - +0.00001 objReactionName -1.0 r848 = 0 - -c141: \* GLYCEROPHOSPHOGLYCEROL[CCO-PERI-BAC] *\ - \* r70, a glycerophosphodiester[periplasmic space] + ATP + H2O -> a glycerophosphodiester[cytosol] + ADP + phosphate + H+ *\ - - -1.0 r70 = 0 - -c1246: \* OXALATE[CCO-CYTOSOL] *\ - \* r1038b, oxalyl-CoA + acetate -> acetyl-CoA + oxalate *\ - \* r1038a, acetyl-CoA + oxalate -> oxalyl-CoA + acetate *\ - \* r886b, formate + oxalyl-CoA -> formyl-CoA + oxalate *\ - \* r886a, formyl-CoA + oxalate -> formate + oxalyl-CoA *\ - - + r1038b -1.0 r1038a + r886b -1.0 r886a = 0 - -c1084: \* FMNH2[CCO-CYTOSOL] *\ - \* r764, NADPH + FMN + 2 H+ -> NADP+ + FMNH2 *\ - \* r1501, an alkylsulfonate + FMNH2 + oxygen -> an aldehyde + sulfite + FMN + H2O + 2 H+ *\ - \* r1502, an alkylsulfonate + FMNH2 + oxygen -> an aldehyde + sulfite + FMN + H2O + 2 H+ *\ - \* r1503, an alkylsulfonate + FMNH2 + oxygen -> an aldehyde + sulfite + FMN + H2O + 2 H+ *\ - \* r1950, isethionate + FMNH2 + oxygen -> glycolaldehyde + sulfite + FMN + H2O + 2 H+ *\ - \* r2278, 1-butanesulfonate + FMNH2 + oxygen -> butanal + sulfite + FMN + H2O + 2 H+ *\ - \* r2313a, FMNH2 + NAD(P)+ -> FMN + NAD(P)H + 2 H+ *\ - \* r2313b, FMN + NAD(P)H + 2 H+ -> FMNH2 + NAD(P)+ *\ - \* r2314a, FMNH2 + NAD(P)+ -> FMN + NAD(P)H + 2 H+ *\ - \* r2314b, FMN + NAD(P)H + 2 H+ -> FMNH2 + NAD(P)+ *\ - - + r764 -1.0 r1501 -1.0 r1502 -1.0 r1503 -1.0 r1950 -1.0 r2278 -1.0 r2313a + r2313b -1.0 r2314a + r2314b = 0 - -c267: \* CPD-8989[CCO-CYTOSOL] *\ - \* r971, L-methionine-(S)-S-oxide + a reduced thioredoxin -> L-methionine + an oxidized thioredoxin + H2O *\ - \* r135, L-methionine S-oxide[periplasmic space] + ATP + H2O -> L-methionine S-oxide[cytosol] + ADP + phosphate + H+ *\ - - -1.0 r971 + r135 = 0 - -c494: \* HEPTOSYL-KDO2-LIPID-IVA[CCO-EXTRACELLULAR] *\ - \* r262, a lipopolysaccharide[cytosol] -> a lipopolysaccharide[extracellular space] *\ - - + r262 = 0 - -c107: \* CYTIDINE[CCO-EXTRACELLULAR] *\ - \* r53, a nucleoside[extracellular space] -> a nucleoside[periplasmic space] *\ - - -1.0 r53 = 0 - -c518: \* MN+2[CCO-PERI-BAC] *\ - \* r2461_e, Mn2+ *\ - \* r492, Mn2+[periplasmic space] + H+[periplasmic space] -> Mn2+[cytosol] + H+[cytosol] *\ - \* r389, Mn2+[periplasmic space] -> Mn2+[cytosol] *\ - \* r279, Mn2+[cytosol] -> Mn2+[periplasmic space] *\ - - + r2461_e -1.0 r492 -1.0 r389 + r279 = 0 - -c545: \* URACIL[CCO-CYTOSOL] *\ - \* r294, uracil[cytosol] -> uracil[periplasmic space] *\ - \* r470, uracil[periplasmic space] + H+[periplasmic space] -> uracil[cytosol] + H+[cytosol] *\ - \* r750a, 2'-deoxyuridine + phosphate -> 2-deoxy-alpha-D-ribose 1-phosphate + uracil *\ - \* r750b, 2-deoxy-alpha-D-ribose 1-phosphate + uracil -> 2'-deoxyuridine + phosphate *\ - \* r926, uridine + H2O -> D-ribofuranose + uracil *\ - \* r1238a, uridine + phosphate -> alpha-D-ribose-1-phosphate + uracil *\ - \* r1238b, alpha-D-ribose-1-phosphate + uracil -> uridine + phosphate *\ - \* r1306, cytosine + H+ + H2O -> ammonium + uracil *\ - \* r1630a, D-ribofuranose 5-phosphate + uracil -> pseudouridine 5'-phosphate + H2O *\ - \* r1630b, pseudouridine 5'-phosphate + H2O -> D-ribofuranose 5-phosphate + uracil *\ - \* r2028, 5-phospho-alpha-D-ribose 1-diphosphate + uracil -> UMP + diphosphate *\ - \* r2193a, 5,6-dihydrouracil + NAD+ -> uracil + NADH + H+ *\ - \* r2193b, uracil + NADH + H+ -> 5,6-dihydrouracil + NAD+ *\ - - -1.0 r294 + r470 + r750a -1.0 r750b + r926 + r1238a -1.0 r1238b + r1306 -1.0 r1630a + r1630b -1.0 r2028 + r2193a -1.0 r2193b = 0 - -c136: \* CPD0-2030[CCO-CYTOSOL] *\ - \* r2233, glycerophosphoserine + H2O -> sn-glycerol 3-phosphate + L-serine + H+ *\ - \* r67, a glycerophosphodiester[periplasmic space] + ATP + H2O -> a glycerophosphodiester[cytosol] + ADP + phosphate + H+ *\ - - -1.0 r2233 + r67 = 0 - -c297: \* ZN+2[CCO-PERI-BAC] *\ - \* r2463_e, Zn2+ *\ - \* r511, Zn2+[cytosol] + H+[periplasmic space] -> Zn2+[periplasmic space] + H+[cytosol] *\ - \* r288, Zn2+[periplasmic space] -> Zn2+[cytosol] *\ - \* r150, Zn2+[periplasmic space] + ATP + H2O -> Zn2+[cytosol] + ADP + phosphate + H+ *\ - \* r149, Zn2+[cytosol] + ATP + H2O -> Zn2+[periplasmic space] + ADP + phosphate + H+ *\ - - + r2463_e + r511 -1.0 r288 -1.0 r150 + r149 = 0 - -c621: \* N-FORMYLMETHIONINE[CCO-CYTOSOL] *\ - \* r350, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - - -1.0 r350 = 0 - -c941: \* Protein-Ser-or-Thr-phosphate[CCO-CYTOSOL] *\ - \* r698, a [protein]-(L-serine/L-threonine) + ATP -> a [protein] (L-serine/L-threonine) phosphate + ADP + H+ *\ - \* r683, a [protein] (L-serine/L-threonine) phosphate + H2O -> a [protein]-(L-serine/L-threonine) + phosphate *\ - - + r698 -1.0 r683 = 0 - -c1422: \* BCCP-biotin-monomers[CCO-CYTOSOL] *\ - \* r1195, 2 a biotinylated [BCCP monomer] -> a biotinylated [BCCP dimer] *\ - \* r1075, a [biotin-carboxyl-carrier protein monomer] + biotin + ATP -> AMP + a biotinylated [BCCP monomer] + diphosphate + H+ *\ - - -2.0 r1195 + r1075 = 0 - -c1198: \* Enoylpimeloyl-ACP-methyl-esters[CCO-CYTOSOL] *\ - \* r997, a (3R)-3-hydroxypimeloyl-[acp] methyl ester -> an enoylpimeloyl-[acp] methyl ester + H2O *\ - \* r841, an enoylpimeloyl-[acp] methyl ester + NADH + H+ -> a pimeloyl-[acp] methyl ester + NAD+ *\ - - + r997 -1.0 r841 = 0 - -c1769: \* ETHYL-2R-METHYL-3S-HYDROXYBUTANOATE[CCO-CYTOSOL] *\ - \* r1491b, ethyl-2-methylacetoacetate + NADPH + H+ -> ethyl-(2R)-methyl-(3S)-hydroxybutanoate + NADP+ *\ - \* r1491a, ethyl-(2R)-methyl-(3S)-hydroxybutanoate + NADP+ -> ethyl-2-methylacetoacetate + NADPH + H+ *\ - - + r1491b -1.0 r1491a = 0 - -c1993: \* DIHYDROXY-BUTANONE-P[CCO-CYTOSOL] *\ - \* r1973, 5-amino-6-(D-ribitylamino)uracil + 1-deoxy-L-glycero-tetrulose 4-phosphate -> 6,7-dimethyl-8-(1-D-ribityl)lumazine + phosphate + H+ + 2 H2O *\ - \* r1820, D-ribulose 5-phosphate -> 1-deoxy-L-glycero-tetrulose 4-phosphate + formate + H+ *\ - - -1.0 r1973 + r1820 = 0 - -c2017: \* HIS-tRNAs[CCO-CYTOSOL] *\ - \* objReactionName, a tRNAhis *\ - \* r1854, a tRNAhis + L-histidine + ATP + H+ -> an L-histidyl-[tRNAhis] + AMP + diphosphate *\ - - +0.092056 objReactionName -1.0 r1854 = 0 - -c1333: \* DIHYDROPTERIN-CH2OH-PP[CCO-CYTOSOL] *\ - \* r2133, 4-aminobenzoate + (2-amino-4-hydroxy-7,8-dihydropteridin-6-yl)methyl diphosphate -> 7,8-dihydropteroate + diphosphate *\ - \* r960, 6-hydroxymethyl-7,8-dihydropterin + ATP -> (2-amino-4-hydroxy-7,8-dihydropteridin-6-yl)methyl diphosphate + AMP + H+ *\ - - -1.0 r2133 + r960 = 0 - -c1747: \* Release-factor-L-glutamine[CCO-CYTOSOL] *\ - \* objReactionName, a [release factor]-L-glutamine *\ - \* r1461, a [release factor]-L-glutamine + S-adenosyl-L-methionine -> a [release factor]-N5-methyl-L-glutamine + S-adenosyl-L-homocysteine + H+ *\ - - +0.00001 objReactionName -1.0 r1461 = 0 - -c1850: \* DTDP-DEOH-DEOXY-MANNOSE[CCO-CYTOSOL] *\ - \* r2103, dTDP-4-dehydro-6-deoxy-alpha-D-glucopyranose -> dTDP-4-dehydro-beta-L-rhamnose *\ - \* r1594, dTDP-4-dehydro-beta-L-rhamnose + NADPH + H+ -> dTDP-beta-L-rhamnose + NADP+ *\ - - + r2103 -1.0 r1594 = 0 - -c135: \* CPD0-2030[CCO-PERI-BAC] *\ - \* r67, a glycerophosphodiester[periplasmic space] + ATP + H2O -> a glycerophosphodiester[cytosol] + ADP + phosphate + H+ *\ - - -1.0 r67 = 0 - -c537: \* L-CYSTATHIONINE[CCO-PERI-BAC] *\ - \* r348, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - \* r290, L-cystathionine[periplasmic space] -> L-cystathionine[cytosol] *\ - - + r348 -1.0 r290 = 0 - -c1467: \* Saturated-2-Lysophosphatidates[CCO-CYTOSOL] *\ - \* r1127b, a 2,3,4-saturated L-phosphatidate + a holo-[acyl-carrier protein] -> a 2,3,4-saturated 2-lysophosphatidate + a 2,3,4-saturated fatty acyl-[acp] *\ - \* r1127a, a 2,3,4-saturated 2-lysophosphatidate + a 2,3,4-saturated fatty acyl-[acp] -> a 2,3,4-saturated L-phosphatidate + a holo-[acyl-carrier protein] *\ - - + r1127b -1.0 r1127a = 0 - -c1296: \* Malonyl-acp-methyl-ester[CCO-CYTOSOL] *\ - \* r1735, a malonyl-[acp] + S-adenosyl-L-methionine -> a malonyl-[acp] methyl ester + S-adenosyl-L-homocysteine *\ - \* r929, a malonyl-[acp] methyl ester + a malonyl-[acp] + H+ -> a 3-oxo-glutaryl-[acp] methyl ester + CO2 + a holo-[acyl-carrier protein] *\ - - + r1735 -1.0 r929 = 0 - -c1709: \* MI-PENTAKISPHOSPHATE[CCO-PERI-BAC] *\ - \* r2490_e, D-myo-inositol (1,2,3,4,5)-pentakisphosphate *\ - - -1.0 r2490_e = 0 - -c1160: \* Seryl-EntF[CCO-CYTOSOL] *\ - \* r1161, a 2,3-dihydroxybenzoyl-[EntB isochorismatase/aryl-carrier protein] + a seryl-[EntF peptidyl-carrier protein] -> a holo EntB isochorismatase/aryl-carrier protein + a DHB-seryl-[EntF peptidyl-carrier protein] + H+ *\ - \* r809, a holo [EntF peptidyl-carrier protein] + L-seryl-adenylate -> a seryl-[EntF peptidyl-carrier protein] + AMP + H+ *\ - - -1.0 r1161 + r809 = 0 - -c1286: \* FUCULOSE-1P[CCO-CYTOSOL] *\ - \* r1511b, (S)-lactaldehyde + glycerone phosphate -> L-fuculose 1-phosphate *\ - \* r1511a, L-fuculose 1-phosphate -> (S)-lactaldehyde + glycerone phosphate *\ - \* r921, L-fuculose + ATP -> L-fuculose 1-phosphate + ADP + H+ *\ - - + r1511b -1.0 r1511a + r921 = 0 - -c645: \* OLEATE-CPD[CCO-CYTOSOL] *\ - \* r364, a long-chain fatty acid[periplasmic space] -> a long-chain fatty acid[cytosol] *\ - - + r364 = 0 - -c1828: \* CPD-371[CCO-CYTOSOL] *\ - \* r1695, an aldehyde + NADP+ + H2O -> a carboxylate + NADPH + 2 H+ *\ - \* r1563b, an aldehyde + NADH + H+ -> a primary alcohol + NAD+ *\ - \* r1563a, a primary alcohol + NAD+ -> an aldehyde + NADH + H+ *\ - - -1.0 r1695 -1.0 r1563b + r1563a = 0 - -c1508: \* Charged-MET-tRNAs[CCO-CYTOSOL] *\ - \* objReactionName, an L-methionyl-[elongator tRNAmet] *\ - \* r1170, elongator tRNAmet + L-methionine + ATP + H+ -> an L-methionyl-[elongator tRNAmet] + AMP + diphosphate *\ - - -0.149336 objReactionName + r1170 = 0 - -c504: \* CO+2[CCO-PERI-BAC] *\ - \* r2459_e, Co2+ *\ - \* r383, Co2+[periplasmic space] -> Co2+[cytosol] *\ - \* r271, Co2+[cytosol] -> Co2+[periplasmic space] *\ - - + r2459_e -1.0 r383 + r271 = 0 - -c355: \* CPD-10814[CCO-CYTOSOL] *\ - \* r1701, glycyl-L-proline + H2O -> glycine + L-proline *\ - \* r555, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r180, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - - -1.0 r1701 + r555 + r180 = 0 - -c1210: \* PANTETHEINE-P[CCO-CYTOSOL] *\ - \* r856, a holo-[acyl-carrier protein] + H2O -> 4'-phosphopantetheine + an acyl-carrier protein + H+ *\ - \* r857, a holo-[acyl-carrier protein] + H2O -> 4'-phosphopantetheine + an acyl-carrier protein + H+ *\ - \* r858, a holo-[acyl-carrier protein] + H2O -> 4'-phosphopantetheine + an acyl-carrier protein + H+ *\ - \* r859, a holo-[acyl-carrier protein] + H2O -> 4'-phosphopantetheine + an acyl-carrier protein + H+ *\ - \* r860, a holo-[acyl-carrier protein] + H2O -> 4'-phosphopantetheine + an acyl-carrier protein + H+ *\ - \* r861, a holo-[acyl-carrier protein] + H2O -> 4'-phosphopantetheine + an acyl-carrier protein + H+ *\ - \* r862, a holo-[acyl-carrier protein] + H2O -> 4'-phosphopantetheine + an acyl-carrier protein + H+ *\ - \* r1793, R-4'-phosphopantothenoyl-L-cysteine + H+ -> 4'-phosphopantetheine + CO2 *\ - \* r1879, 4'-phosphopantetheine + ATP + H+ -> 3'-dephospho-CoA + diphosphate *\ - - + r856 + r857 + r858 + r859 + r860 + r861 + r862 + r1793 -1.0 r1879 = 0 - -c2181: \* CYS-tRNAs[CCO-CYTOSOL] *\ - \* objReactionName, a tRNAcys *\ - \* r2298, a tRNAcys + L-cysteine + ATP + H+ -> an L-cysteinyl-[tRNAcys] + AMP + diphosphate *\ - - +0.088988 objReactionName -1.0 r2298 = 0 - -c2098: \* LYS-tRNAs[CCO-CYTOSOL] *\ - \* objReactionName, a tRNAlys *\ - \* r2059, L-lysine + a tRNAlys + ATP + H+ -> an L-lysyl-[tRNAlys] + AMP + diphosphate *\ - - +0.333448 objReactionName -1.0 r2059 = 0 - -c1577: \* L-leucyl-protein[CCO-CYTOSOL] *\ - \* r1265b, a tRNAleu + L-leucyl-[protein] + H+ -> an L-leucyl-[tRNAleu] + a protein *\ - \* r1265a, an L-leucyl-[tRNAleu] + a protein -> a tRNAleu + L-leucyl-[protein] + H+ *\ - - -1.0 r1265b + r1265a = 0 - -c89: \* CPD-16020[CCO-EXTRACELLULAR] *\ - \* r44, a nucleoside[extracellular space] -> a nucleoside[periplasmic space] *\ - - -1.0 r44 = 0 - -c866: \* CPD0-1137[CCO-CYTOSOL] *\ - \* r622, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - - + r622 = 0 - -c933: \* CO-A[CCO-CYTOSOL] *\ - \* r677a, glycine + acetyl-CoA -> 2-amino-3-oxobutanoate + coenzyme A *\ - \* r677b, 2-amino-3-oxobutanoate + coenzyme A -> glycine + acetyl-CoA *\ - \* r734a, pyruvate + 2 an oxidized ferredoxin + coenzyme A -> acetyl-CoA + CO2 + 2 a reduced ferredoxin + H+ *\ - \* r734b, acetyl-CoA + CO2 + 2 a reduced ferredoxin + H+ -> pyruvate + 2 an oxidized ferredoxin + coenzyme A *\ - \* r757a, a holo-[acyl-carrier protein] + acetyl-CoA -> an acetyl-[acp] + coenzyme A *\ - \* r757b, an acetyl-[acp] + coenzyme A -> a holo-[acyl-carrier protein] + acetyl-CoA *\ - \* r767, oxaloacetate + propanoyl-CoA + H2O -> (2S,3S)-2-methylcitrate + coenzyme A + H+ *\ - \* r781, a [pyruvate dehydrogenase E2 protein] N6-S-acetyldihydrolipoyl-L-lysine + coenzyme A -> acetyl-CoA + a [pyruvate dehydrogenase E2 protein] N6-dihydrolipoyl-L-lysine *\ - \* r804a, 3-cis-dodecenoyl-CoA + acetyl-CoA -> 3-keto-5-cis-tetradecenoyl-CoA + coenzyme A *\ - \* r804b, 3-keto-5-cis-tetradecenoyl-CoA + coenzyme A -> 3-cis-dodecenoyl-CoA + acetyl-CoA *\ - \* r863, L-arginine + succinyl-CoA -> N2-succinyl-L-arginine + coenzyme A + H+ *\ - \* r884a, phenylacetyl-CoA + H2O -> phenylacetate + coenzyme A + H+ *\ - \* r884b, phenylacetate + coenzyme A + H+ -> phenylacetyl-CoA + H2O *\ - \* r895, acetyl-CoA + a malonyl-[acp] + H+ -> an acetoacetyl-[acp] + CO2 + coenzyme A *\ - \* r896, 3'-dephospho-CoA + ATP -> ADP + coenzyme A + H+ *\ - \* r904a, pyruvate + an oxidized flavodoxin + coenzyme A + H+ -> acetyl-CoA + CO2 + a reduced flavodoxin *\ - \* r904b, acetyl-CoA + CO2 + a reduced flavodoxin -> pyruvate + an oxidized flavodoxin + coenzyme A + H+ *\ - \* r953, a long-chain acyl-CoA + sn-glycerol 3-phosphate -> a 1-acyl-sn-glycerol 3-phosphate + coenzyme A *\ - \* r993, acetate + ATP + coenzyme A -> acetyl-CoA + AMP + diphosphate *\ - \* r1007a, L-glutamate + acetyl-CoA -> N-acetyl-L-glutamate + coenzyme A + H+ *\ - \* r1007b, N-acetyl-L-glutamate + coenzyme A + H+ -> L-glutamate + acetyl-CoA *\ - \* r1013a, L-methionine + acetyl-CoA -> N-alpha-acetyl-L-methionine + coenzyme A + H+ *\ - \* r1013b, N-alpha-acetyl-L-methionine + coenzyme A + H+ -> L-methionine + acetyl-CoA *\ - \* r1047, an acyl-carrier protein + coenzyme A -> adenosine 3',5'-bisphosphate + a holo-[acyl-carrier protein] + H+ *\ - \* r1048, an acyl-carrier protein + coenzyme A -> adenosine 3',5'-bisphosphate + a holo-[acyl-carrier protein] + H+ *\ - \* r1049, an acyl-carrier protein + coenzyme A -> adenosine 3',5'-bisphosphate + a holo-[acyl-carrier protein] + H+ *\ - \* r1050, an acyl-carrier protein + coenzyme A -> adenosine 3',5'-bisphosphate + a holo-[acyl-carrier protein] + H+ *\ - \* r1051, an acyl-carrier protein + coenzyme A -> adenosine 3',5'-bisphosphate + a holo-[acyl-carrier protein] + H+ *\ - \* r1052, an acyl-carrier protein + coenzyme A -> adenosine 3',5'-bisphosphate + a holo-[acyl-carrier protein] + H+ *\ - \* r1053, an acyl-carrier protein + coenzyme A -> adenosine 3',5'-bisphosphate + a holo-[acyl-carrier protein] + H+ *\ - \* r1062a, succinate + ATP + coenzyme A -> succinyl-CoA + ADP + phosphate *\ - \* r1062b, succinyl-CoA + ADP + phosphate -> succinate + ATP + coenzyme A *\ - \* r1068, (S)-2,3,4,5-tetrahydrodipicolinate + succinyl-CoA + H2O -> N-succinyl-2-amino-6-ketopimelate + coenzyme A *\ - \* r1106a, a holo-[acyl-carrier protein] + malonyl-CoA -> a malonyl-[acp] + coenzyme A *\ - \* r1106b, a malonyl-[acp] + coenzyme A -> a holo-[acyl-carrier protein] + malonyl-CoA *\ - \* r1267a, maltose + acetyl-CoA -> acetylmaltose + coenzyme A *\ - \* r1267b, acetylmaltose + coenzyme A -> maltose + acetyl-CoA *\ - \* r1271, a 2,3,4-saturated fatty acid + ATP + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + AMP + diphosphate *\ - \* r1272, a 2,3,4-saturated fatty acid + ATP + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + AMP + diphosphate *\ - \* r1273, a 2,3,4-saturated fatty acid + ATP + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + AMP + diphosphate *\ - \* r1274, a 2,3,4-saturated fatty acid + ATP + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + AMP + diphosphate *\ - \* r1275, a 2,3,4-saturated fatty acid + ATP + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + AMP + diphosphate *\ - \* r1276, a 2,3,4-saturated fatty acid + ATP + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + AMP + diphosphate *\ - \* r1277, a 2,3,4-saturated fatty acid + ATP + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + AMP + diphosphate *\ - \* r1278, a 2,3,4-saturated fatty acid + ATP + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + AMP + diphosphate *\ - \* r1279, a 2,3,4-saturated fatty acid + ATP + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + AMP + diphosphate *\ - \* r1286, ATP + 2-succinylbenzoate + coenzyme A -> AMP + 4-(2'-carboxyphenyl)-4-oxobutyryl-CoA + diphosphate *\ - \* r1311a, an aliphatic alpha,omega-diamine + acetyl-CoA -> an aliphatic N-acetyl-diamine + coenzyme A + H+ *\ - \* r1311b, an aliphatic N-acetyl-diamine + coenzyme A + H+ -> an aliphatic alpha,omega-diamine + acetyl-CoA *\ - \* r1324, phenylacetate + ATP + coenzyme A -> phenylacetyl-CoA + AMP + diphosphate *\ - \* r1396, propanoate + ATP + coenzyme A -> propanoyl-CoA + AMP + diphosphate *\ - \* r1397, oxaloacetate + acetyl-CoA + H2O -> citrate + coenzyme A + H+ *\ - \* r1457, 2-oxobutanoate + coenzyme A -> propanoyl-CoA + formate *\ - \* r1554a, acetaldehyde + coenzyme A + NAD+ -> acetyl-CoA + NADH + H+ *\ - \* r1554b, acetyl-CoA + NADH + H+ -> acetaldehyde + coenzyme A + NAD+ *\ - \* r1576a, acetyl-CoA + phosphate -> acetyl phosphate + coenzyme A *\ - \* r1576b, acetyl phosphate + coenzyme A -> acetyl-CoA + phosphate *\ - \* r1609a, 3,4-dihydroxyphenylacetyl-CoA + H2O -> 3,4-dihydroxyphenylacetate + coenzyme A + H+ *\ - \* r1609b, 3,4-dihydroxyphenylacetate + coenzyme A + H+ -> 3,4-dihydroxyphenylacetyl-CoA + H2O *\ - \* r1633a, propanoyl-CoA + glyoxylate + H2O -> 2-hydroxyglutarate + coenzyme A + H+ *\ - \* r1633b, 2-hydroxyglutarate + coenzyme A + H+ -> propanoyl-CoA + glyoxylate + H2O *\ - \* r1740a, a beta-D-galactoside + acetyl-CoA -> a 6-acetyl-beta-D-galactoside + coenzyme A *\ - \* r1740b, a 6-acetyl-beta-D-galactoside + coenzyme A -> a beta-D-galactoside + acetyl-CoA *\ - \* r1843, D-glucosamine 1-phosphate + acetyl-CoA -> N-acetyl-alpha-D-glucosamine 1-phosphate + coenzyme A + H+ *\ - \* r1865a, 2 acetyl-CoA -> acetoacetyl-CoA + coenzyme A *\ - \* r1865b, acetoacetyl-CoA + coenzyme A -> 2 acetyl-CoA *\ - \* r1945, 3-methyl-2-oxobutanoate + acetyl-CoA + H2O -> (2S)-2-isopropylmalate + coenzyme A + H+ *\ - \* r1962, a 3-oxoacyl-CoA + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + acetyl-CoA *\ - \* r1963, a 3-oxoacyl-CoA + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + acetyl-CoA *\ - \* r1964, a 3-oxoacyl-CoA + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + acetyl-CoA *\ - \* r1965, a 3-oxoacyl-CoA + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + acetyl-CoA *\ - \* r1966, a 3-oxoacyl-CoA + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + acetyl-CoA *\ - \* r1967, a 3-oxoacyl-CoA + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + acetyl-CoA *\ - \* r1968, a 3-oxoacyl-CoA + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + acetyl-CoA *\ - \* r1969, a 3-oxoacyl-CoA + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + acetyl-CoA *\ - \* r1970, a 3-oxoacyl-CoA + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + acetyl-CoA *\ - \* r2019, [EntB aryl-carrier protein] + coenzyme A -> a holo EntB isochorismatase/aryl-carrier protein + adenosine 3',5'-bisphosphate + H+ *\ - \* r2049, 3-trans,5-cis-tetradecadienoyl-CoA + H2O -> (3E,5Z)-tetradecadienoate + coenzyme A + H+ *\ - \* r2135, L-homoserine + succinyl-CoA -> O-succinyl-L-homoserine + coenzyme A *\ - \* r2155, 3-oxo-5,6-didehydrosuberyl-CoA + coenzyme A -> 2,3-didehydroadipyl-CoA + acetyl-CoA *\ - \* r2176a, aminomethylphosphonate + acetyl-CoA -> 2-N-acetamidomethylphosphonate + coenzyme A *\ - \* r2176b, 2-N-acetamidomethylphosphonate + coenzyme A -> aminomethylphosphonate + acetyl-CoA *\ - \* r2180, 1,4-dihydroxy-2-naphthoyl-CoA + H2O -> 1,4-dihydroxy-2-naphthoate + coenzyme A + H+ *\ - \* r2251, an acyl-CoA + H2O -> a carboxylate + coenzyme A + H+ *\ - \* r2252, an acyl-CoA + H2O -> a carboxylate + coenzyme A + H+ *\ - \* r2253, an acyl-CoA + H2O -> a carboxylate + coenzyme A + H+ *\ - \* r2254, an acyl-CoA + H2O -> a carboxylate + coenzyme A + H+ *\ - \* r2255, an acyl-CoA + H2O -> a carboxylate + coenzyme A + H+ *\ - \* r2256, an acyl-CoA + H2O -> a carboxylate + coenzyme A + H+ *\ - \* r2257, an acyl-CoA + H2O -> a carboxylate + coenzyme A + H+ *\ - \* r2258, an acyl-CoA + H2O -> a carboxylate + coenzyme A + H+ *\ - \* r2259, an acyl-CoA + H2O -> a carboxylate + coenzyme A + H+ *\ - \* r2260, an acyl-CoA + H2O -> a carboxylate + coenzyme A + H+ *\ - \* r2265, 3-hydroxy-2,4-pentanedione 5-phosphate + coenzyme A -> glycerone phosphate + acetyl-CoA *\ - \* r2279, 3-oxoadipyl-CoA + coenzyme A -> succinyl-CoA + acetyl-CoA *\ - \* r2296, propanoyl-CoA + phosphate -> propanoyl phosphate + coenzyme A *\ - \* r2329a, an N-hydroxy-arylamine + acetyl-CoA -> an N-acetoxyarylamine + coenzyme A *\ - \* r2329b, an N-acetoxyarylamine + coenzyme A -> an N-hydroxy-arylamine + acetyl-CoA *\ - \* r2391, L-serine + acetyl-CoA -> O-acetyl-L-serine + coenzyme A *\ - \* r2409, pyruvate + coenzyme A + NAD+ -> acetyl-CoA + CO2 + NADH *\ - \* r2421a, succinyl-CoA + a [2-oxoglutarate dehydrogenase E2 protein] N6-dihydrolipoyl-L-lysine -> a [2-oxoglutarate dehydrogenase E2 protein] N6-S-succinyldihydrolipoyl-L-lysine + coenzyme A *\ - \* r2421b, a [2-oxoglutarate dehydrogenase E2 protein] N6-S-succinyldihydrolipoyl-L-lysine + coenzyme A -> succinyl-CoA + a [2-oxoglutarate dehydrogenase E2 protein] N6-dihydrolipoyl-L-lysine *\ - \* r2441, 2-oxoglutarate + coenzyme A + NAD+ -> succinyl-CoA + CO2 + NADH *\ - \* objReactionName, coenzyme A *\ - - + r677a -1.0 r677b -1.0 r734a + r734b + r757a -1.0 r757b + r767 -1.0 r781 + r804a -1.0 r804b + r863 + r884a -1.0 r884b + r895 + r896 -1.0 r904a + r904b + r953 -1.0 r993 - + r1007a -1.0 r1007b + r1013a -1.0 r1013b -1.0 r1047 -1.0 r1048 -1.0 r1049 -1.0 r1050 -1.0 r1051 -1.0 r1052 -1.0 r1053 -1.0 r1062a + r1062b + r1068 + r1106a -1.0 r1106b + r1267a -1.0 r1267b -1.0 r1271 -1.0 r1272 - -1.0 r1273 -1.0 r1274 -1.0 r1275 -1.0 r1276 -1.0 r1277 -1.0 r1278 -1.0 r1279 -1.0 r1286 + r1311a -1.0 r1311b -1.0 r1324 -1.0 r1396 + r1397 -1.0 r1457 -1.0 r1554a + r1554b + r1576a -1.0 r1576b + r1609a -1.0 r1609b - + r1633a -1.0 r1633b + r1740a -1.0 r1740b + r1843 + r1865a -1.0 r1865b + r1945 -1.0 r1962 -1.0 r1963 -1.0 r1964 -1.0 r1965 -1.0 r1966 -1.0 r1967 -1.0 r1968 -1.0 r1969 -1.0 r1970 -1.0 r2019 + r2049 + r2135 - -1.0 r2155 + r2176a -1.0 r2176b + r2180 + r2251 + r2252 + r2253 + r2254 + r2255 + r2256 + r2257 + r2258 + r2259 + r2260 -1.0 r2265 -1.0 r2279 + r2296 + r2329a -1.0 r2329b + r2391 - -1.0 r2409 + r2421a -1.0 r2421b -1.0 r2441 -0.000576 objReactionName = 0 - -c1696: \* Heme-b[CCO-CYTOSOL] *\ - \* r1389b, heme d -> heme b + hydrogen peroxide *\ - \* r1389a, heme b + hydrogen peroxide -> heme d *\ - - + r1389b -1.0 r1389a = 0 - -c1886: \* CPD0-1133[CCO-CYTOSOL] *\ - \* r2354b, maltoheptaose + beta-D-glucose -> maltose + maltohexaose *\ - \* r2354a, maltose + maltohexaose -> maltoheptaose + beta-D-glucose *\ - \* r1764b, maltohexaose + alpha-D-glucose 1-phosphate -> maltoheptaose + phosphate *\ - \* r1764a, maltoheptaose + phosphate -> maltohexaose + alpha-D-glucose 1-phosphate *\ - \* r1631, maltoheptaose + H2O -> maltohexaose + alpha-D-glucose *\ - - -1.0 r2354b + r2354a + r1764b -1.0 r1764a -1.0 r1631 = 0 - -c397: \* S-ALLANTOIN[CCO-CYTOSOL] *\ - \* r2366, (S)-(+)-allantoin + H2O -> allantoate + H+ *\ - \* r393, (S)-(+)-allantoin[periplasmic space] -> (S)-(+)-allantoin[cytosol] *\ - \* r201, allantoin[periplasmic space] -> allantoin[cytosol] *\ - - -1.0 r2366 + r393 + r201 = 0 - -c2048: \* DIHYDROXYNAPHTHOATE[CCO-CYTOSOL] *\ - \* r2180, 1,4-dihydroxy-2-naphthoyl-CoA + H2O -> 1,4-dihydroxy-2-naphthoate + coenzyme A + H+ *\ - \* r1908, all-trans-octaprenyl diphosphate + 1,4-dihydroxy-2-naphthoate + H+ -> CO2 + demethylmenaquinol-8 + diphosphate *\ - - + r2180 -1.0 r1908 = 0 - -c1593: \* CPD-316[CCO-CYTOSOL] *\ - \* r2036b, riboflavin + NAD(P)H + 2 H+ -> reduced riboflavin + NAD(P)+ *\ - \* r2036a, reduced riboflavin + NAD(P)+ -> riboflavin + NAD(P)H + 2 H+ *\ - \* r2035b, riboflavin + NAD(P)H + 2 H+ -> reduced riboflavin + NAD(P)+ *\ - \* r2035a, reduced riboflavin + NAD(P)+ -> riboflavin + NAD(P)H + 2 H+ *\ - \* r1282, riboflavin + NADPH + 2 H+ -> reduced riboflavin + NADP+ *\ - - + r2036b -1.0 r2036a + r2035b -1.0 r2035a + r1282 = 0 - -c1865: \* CPD-782[CCO-CYTOSOL] *\ - \* r1609b, 3,4-dihydroxyphenylacetate + coenzyme A + H+ -> 3,4-dihydroxyphenylacetyl-CoA + H2O *\ - \* r1609a, 3,4-dihydroxyphenylacetyl-CoA + H2O -> 3,4-dihydroxyphenylacetate + coenzyme A + H+ *\ - - -1.0 r1609b + r1609a = 0 - -c1616: \* MESO-DIAMINOPIMELATE[CCO-CYTOSOL] *\ - \* r2394, meso-diaminopimelate + H+ -> L-lysine + CO2 *\ - \* r2111, meso-diaminopimelate + UDP-N-acetyl-alpha-D-muramoyl-L-alanyl-D-glutamate + ATP -> UDP-N-acetyl-alpha-D-muramoyl-L-alanyl-gamma-D-glutamyl-meso-2,6-diaminopimelate + ADP + phosphate + H+ *\ - \* r1901b, meso-diaminopimelate -> L,L-diaminopimelate *\ - \* r1901a, L,L-diaminopimelate -> meso-diaminopimelate *\ - \* r1302, L-alanyl-gamma-D-glutamyl-meso-diaminopimelate + H2O -> L-alanyl-D-glutamate + meso-diaminopimelate *\ - - -1.0 r2394 -1.0 r2111 -1.0 r1901b + r1901a + r1302 = 0 - -c578: \* THYMINE[CCO-PERI-BAC] *\ - \* r2483_e, thymine *\ - \* r313, thymine[cytosol] -> thymine[periplasmic space] *\ - - -1.0 r2483_e + r313 = 0 - -c1741: \* 6-Dimethylallyladenosine37-tRNAs[CCO-CYTOSOL] *\ - \* r1455a, dimethylallyl diphosphate + an adenosine37 in tRNA -> N6-dimethylallyladenosine37 in tRNA + diphosphate *\ - \* r1455b, N6-dimethylallyladenosine37 in tRNA + diphosphate -> dimethylallyl diphosphate + an adenosine37 in tRNA *\ - \* r1767a, N6-dimethylallyladenosine37 in tRNA + a sulfurated [sulfur carrier] + S-adenosyl-L-methionine + an unknown reduced electron acceptor -> 2-thio-N6-dimethylallyladenosine37 in tRNA + an unsulfurated [sulfur carrier] + 5'-deoxyadenosine + L-methionine + an unknown oxidized electron acceptor + H+ *\ - \* r1767b, 2-thio-N6-dimethylallyladenosine37 in tRNA + an unsulfurated [sulfur carrier] + 5'-deoxyadenosine + L-methionine + an unknown oxidized electron acceptor + H+ -> N6-dimethylallyladenosine37 in tRNA + a sulfurated [sulfur carrier] + S-adenosyl-L-methionine + an unknown reduced electron acceptor *\ - - + r1455a -1.0 r1455b -1.0 r1767a + r1767b = 0 - -c1550: \* AICAR[CCO-CYTOSOL] *\ - \* r2362, 5'-phosphoribosyl-4-(N-succinocarboxamide)-5-aminoimidazole -> fumarate + 5-amino-1-(5-phospho-D-ribosyl)imidazole-4-carboxamide *\ - \* r1872b, a tetrahydrofolate + 5-formamido-1-(5-phospho-D-ribosyl)-imidazole-4-carboxamide -> an N10-formyl-tetrahydrofolate + 5-amino-1-(5-phospho-D-ribosyl)imidazole-4-carboxamide *\ - \* r1872a, an N10-formyl-tetrahydrofolate + 5-amino-1-(5-phospho-D-ribosyl)imidazole-4-carboxamide -> a tetrahydrofolate + 5-formamido-1-(5-phospho-D-ribosyl)-imidazole-4-carboxamide *\ - \* r1240, phosphoribulosylformimino-AICAR-P + L-glutamine -> L-glutamate + D-erythro-imidazole-glycerol-phosphate + 5-amino-1-(5-phospho-D-ribosyl)imidazole-4-carboxamide + H+ *\ - - + r2362 + r1872b -1.0 r1872a + r1240 = 0 - -c1946: \* 6-Acetyl-Beta-D-Galactosides[CCO-CYTOSOL] *\ - \* r1740b, a 6-acetyl-beta-D-galactoside + coenzyme A -> a beta-D-galactoside + acetyl-CoA *\ - \* r1740a, a beta-D-galactoside + acetyl-CoA -> a 6-acetyl-beta-D-galactoside + coenzyme A *\ - - -1.0 r1740b + r1740a = 0 - -c1138: \* Crotonyl-ACPs[CCO-CYTOSOL] *\ - \* r1015, a trans-2-enoyl-[acyl-carrier protein] + NADH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NAD+ *\ - \* r897, a (3R)-3-hydroxybutanoyl-[acp] -> a crotonyl-[acp] + H2O *\ - \* r865, a trans-2-enoyl-[acyl-carrier protein] + NADPH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NADP+ *\ - \* r813, a crotonyl-[acp] + NADH + H+ -> a butyryl-[acp] + NAD+ *\ - \* r797, a (3R)-3-hydroxyacyl-[acyl-carrier protein] -> a trans-2-enoyl-[acyl-carrier protein] + H2O *\ - - -1.0 r1015 + r897 -1.0 r865 -1.0 r813 + r797 = 0 - -c335: \* HIS[CCO-CYTOSOL] *\ - \* r1854, a tRNAhis + L-histidine + ATP + H+ -> an L-histidyl-[tRNAhis] + AMP + diphosphate *\ - \* r1762, histidinal + NAD+ + H2O -> L-histidine + NADH + 2 H+ *\ - \* r1385, L-alanyl-L-histidine + H2O -> L-alanine + L-histidine *\ - \* r454, an aromatic amino acid[cytosol] -> an aromatic amino acid[periplasmic space] *\ - \* r344, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - \* r170, ATP + L-histidine[periplasmic space] + H2O -> ADP + L-histidine[cytosol] + phosphate + H+ *\ - - -1.0 r1854 + r1762 + r1385 -1.0 r454 -1.0 r344 + r170 = 0 - -c798: \* CHOLINE[CCO-CYTOSOL] *\ - \* r1213, choline + an unknown oxidized electron acceptor -> betaine aldehyde + an unknown reduced electron acceptor *\ - \* r552, choline[cytosol] + 2 H+[periplasmic space] -> choline[periplasmic space] + 2 H+[cytosol] *\ - \* r525, choline[periplasmic space] + H+[periplasmic space] -> choline[cytosol] + H+[cytosol] *\ - - -1.0 r1213 -1.0 r552 + r525 = 0 - -c893: \* CARBON-DIOXIDE[CCO-PERI-BAC] *\ - \* r651a, CO2[periplasmic space] -> CO2[cytosol] *\ - \* r651b, CO2[cytosol] -> CO2[periplasmic space] *\ - \* r1641, formate[periplasmic space] + a menaquinone[inner membrane] + 2 H+ -> CO2[periplasmic space] + a menaquinol[inner membrane] + H+[periplasmic space] *\ - \* r2465_e, CO2 *\ - \* r2469_e, CO2 *\ - - -1.0 r651a + r651b + r1641 + r2465_e -1.0 r2469_e = 0 - -c1236: \* Red-Glutaredoxins[CCO-CYTOSOL] *\ - \* r1091b, arsenite + an oxidized glutaredoxin + H2O -> arsenate + a reduced glutaredoxin + H+ *\ - \* r1091a, arsenate + a reduced glutaredoxin + H+ -> arsenite + an oxidized glutaredoxin + H2O *\ - \* r878, 2 glutathione + an oxidized glutaredoxin -> glutathione disulfide + a reduced glutaredoxin *\ - - + r1091b -1.0 r1091a + r878 = 0 - -c1830: \* CPD-665[CCO-CYTOSOL] *\ - \* r1692, an aldehyde + NADP+ + H2O -> a carboxylate + NADPH + 2 H+ *\ - \* r1564b, an aldehyde + NADH + H+ -> a primary alcohol + NAD+ *\ - \* r1564a, a primary alcohol + NAD+ -> an aldehyde + NADH + H+ *\ - - -1.0 r1692 -1.0 r1564b + r1564a = 0 - -c1321: \* Cytochromes-C-Oxidized[CCO-CYTOSOL] *\ - \* r947b, trimethylamine N-oxide + 2 a reduced c-type cytochrome + 3 H+ -> trimethylamine + 2 an oxidized c-type cytochrome + H2O *\ - \* r947a, trimethylamine + 2 an oxidized c-type cytochrome + H2O -> trimethylamine N-oxide + 2 a reduced c-type cytochrome + 3 H+ *\ - - +2.0 r947b -2.0 r947a = 0 - -c2230: \* CPD-12773[CCO-CYTOSOL] *\ - \* r2426b, UMP + alpha-D-glucopyranosyl-diphosphoundecaprenol -> UDP-alpha-D-glucose + di-trans,octa-cis-undecaprenyl phosphate *\ - \* r2426a, UDP-alpha-D-glucose + di-trans,octa-cis-undecaprenyl phosphate -> UMP + alpha-D-glucopyranosyl-diphosphoundecaprenol *\ - - -1.0 r2426b + r2426a = 0 - -c587: \* CU+2[CCO-PERI-BAC] *\ - \* r2195, 2 Cu+[periplasmic space] + 2 H+[periplasmic space] + oxygen[periplasmic space] -> 2 Cu2+[periplasmic space] + 2 H2O[periplasmic space] *\ - \* r318, Cu2+[periplasmic space] -> Cu2+[cytosol] *\ - - +2.0 r2195 -1.0 r318 = 0 - -c911: \* Protein-tyrosine-phosphates[CCO-CYTOSOL] *\ - \* r2127, ATP + a [protein]-L-tyrosine -> ADP + a [protein]-L-tyrosine phosphate + H+ *\ - \* r662, a [protein]-L-tyrosine phosphate + H2O -> a [protein]-L-tyrosine + phosphate *\ - - + r2127 -1.0 r662 = 0 - -c1791: \* tRNA-Containing-N1-Methylguanine-37[CCO-CYTOSOL] *\ - \* objReactionName, N1-methylguanine37 in tRNA *\ - \* r1524, guanine37 in tRNA + S-adenosyl-L-methionine -> N1-methylguanine37 in tRNA + S-adenosyl-L-homocysteine + H+ *\ - - -0.00001 objReactionName + r1524 = 0 - -c126: \* CPD0-1137[CCO-PERI-BAC] *\ - \* r622, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r62, a nucleoside[extracellular space] -> a nucleoside[periplasmic space] *\ - - -1.0 r622 + r62 = 0 - -c28: \* GLYCERALD[CCO-CYTOSOL] *\ - \* r1221b, D-glyceraldehyde + pyruvate -> 2-dehydro-3-deoxy-D-gluconate *\ - \* r1221a, 2-dehydro-3-deoxy-D-gluconate -> D-glyceraldehyde + pyruvate *\ - \* r15b, DL-glyceraldehyde[cytosol] -> DL-glyceraldehyde[periplasmic space] *\ - \* r15a, DL-glyceraldehyde[periplasmic space] -> DL-glyceraldehyde[cytosol] *\ - - -1.0 r1221b + r1221a -1.0 r15b + r15a = 0 - -c1601: \* CPD0-2298[CCO-CYTOSOL] *\ - \* r2322, S-ureidoglycine + H2O -> S-ureidoglycolate + ammonium *\ - \* r1287, allantoate + 2 H+ + H2O -> S-ureidoglycine + ammonium + CO2 *\ - - -1.0 r2322 + r1287 = 0 - -c2025: \* ALTROSE[CCO-CYTOSOL] *\ - \* r1864b, aldehydo-D-altrose -> D-altropyranose *\ - \* r1864a, D-altropyranose -> aldehydo-D-altrose *\ - - -1.0 r1864b + r1864a = 0 - -c742: \* CPD-3729[CCO-CYTOSOL] *\ - \* r458, an aromatic amino acid[cytosol] -> an aromatic amino acid[periplasmic space] *\ - - -1.0 r458 = 0 - -c1244: \* PHENYLACETATE[CCO-CYTOSOL] *\ - \* r1390b, phenylacetate + NADH + 2 H+ -> phenylacetaldehyde + NAD+ + H2O *\ - \* r1390a, phenylacetaldehyde + NAD+ + H2O -> phenylacetate + NADH + 2 H+ *\ - \* r1324, phenylacetate + ATP + coenzyme A -> phenylacetyl-CoA + AMP + diphosphate *\ - \* r884b, phenylacetate + coenzyme A + H+ -> phenylacetyl-CoA + H2O *\ - \* r884a, phenylacetyl-CoA + H2O -> phenylacetate + coenzyme A + H+ *\ - - -1.0 r1390b + r1390a -1.0 r1324 -1.0 r884b + r884a = 0 - -c10: \* WATER[CCO-CYTOSOL] *\ - \* r2468_e, H2O *\ - \* objReactionName, H2O *\ - \* r2443, glycerophosphoglycerol + H2O -> glycerol + sn-glycerol 3-phosphate + H+ *\ - \* r2439, 2-iminoacetate + H+ + H2O -> glyoxylate + ammonium *\ - \* r2436, NADH + H2O -> (S)-NADHX *\ - \* r2434, hydrogen peroxide + 2 glutathione -> glutathione disulfide + 2 H2O *\ - \* r2432, 3-phospho-L-serine + H2O -> L-serine + phosphate *\ - \* r2425b, ammonium + indole + pyruvate -> L-tryptophan + H2O *\ - \* r2425a, L-tryptophan + H2O -> ammonium + indole + pyruvate *\ - \* r2423, xanthosine + H2O -> D-ribofuranose + xanthine *\ - \* r2420b, L-glutamate + 1-pyrroline + H2O -> putrescine + 2-oxoglutarate *\ - \* r2420a, putrescine + 2-oxoglutarate -> L-glutamate + 1-pyrroline + H2O *\ - \* r2419, carbamoyl-phosphate + HypE + ATP + H2O -> a HypE hydrogenase maturation protein-S-carboxamide + AMP + diphosphate + phosphate *\ - \* r2415, 2 ATP + L-glutamine + hydrogen carbonate + H2O -> carbamoyl-phosphate + L-glutamate + 2 ADP + phosphate + 2 H+ *\ - \* r2414b, 3-oxo-5,6-didehydrosuberyl-CoA + NADPH + 2 H+ -> 2-oxepin-2(3H)-ylideneacetyl-CoA + NADP+ + 2 H2O *\ - \* r2414a, 2-oxepin-2(3H)-ylideneacetyl-CoA + NADP+ + 2 H2O -> 3-oxo-5,6-didehydrosuberyl-CoA + NADPH + 2 H+ *\ - \* r2405, 2 L-ascorbate + hydrogen peroxide + H+ -> L-ascorbate + L-dehydro-ascorbate + 2 H2O *\ - \* r2404, L-glutamine + L-aspartate + ATP + H2O -> L-glutamate + L-asparagine + AMP + diphosphate + H+ *\ - \* r2397, 5-amino-6-(5-phospho-D-ribitylamino)uracil + H2O -> 5-amino-6-(D-ribitylamino)uracil + phosphate *\ - \* r2395, succinate semialdehyde + NADP+ + H2O -> succinate + NADPH + 2 H+ *\ - \* r2390, 2'-deoxycytidine + H+ + H2O -> 2'-deoxyuridine + ammonium *\ - \* r2380, 2-aminoprop-2-enoate + H+ + H2O -> pyruvate + ammonium *\ - \* r2377, an L-1-phosphatidylglycerol-phosphate + H2O -> an L-1-phosphatidyl-glycerol + phosphate *\ - \* r2376, an L-1-phosphatidylglycerol-phosphate + H2O -> an L-1-phosphatidyl-glycerol + phosphate *\ - \* r2375, an L-1-phosphatidylglycerol-phosphate + H2O -> an L-1-phosphatidyl-glycerol + phosphate *\ - \* r2369, NADP+ + H2O -> NAD+ + phosphate *\ - \* r2367, L-alanyl-L-glutamine + H2O -> L-alanine + L-glutamine *\ - \* r2366, (S)-(+)-allantoin + H2O -> allantoate + H+ *\ - \* r2365, (1R,6R)-6-hydroxy-2-succinylcyclohexa-2,4-diene-1-carboxylate -> 2-succinylbenzoate + H2O *\ - \* r2361, NAD+ + H2O -> beta-nicotinamide D-ribonucleotide + AMP + 2 H+ *\ - \* r2347b, a hexose + phosphate -> a hexose phosphate + H2O *\ - \* r2347a, a hexose phosphate + H2O -> a hexose + phosphate *\ - \* r2344, IMP + NAD+ + H2O -> XMP + NADH + H+ *\ - \* r2341, pyridoxal 5'-phosphate + H2O -> pyridoxal + phosphate *\ - \* r2339, 1-(5-phospho-beta-D-ribosyl)-AMP + H2O -> 1-(5-phospho-beta-D-ribosyl)-5-[(5-phosphoribosylamino)methylideneamino]imidazole-4-carboxamide *\ - \* r2338, dUMP + H2O -> 2'-deoxyuridine + phosphate *\ - \* r2337, guanine + H+ + H2O -> ammonium + xanthine *\ - \* r2336, UMP + H2O -> uridine + phosphate *\ - \* r2324, L-glutamine + H2O -> L-glutamate + ammonium *\ - \* r2323, UDP + H2O -> UMP + phosphate + H+ *\ - \* r2322, S-ureidoglycine + H2O -> S-ureidoglycolate + ammonium *\ - \* r2311, 4-amino-2-methyl-5-diphosphomethylpyrimidine + H2O -> 4-amino-2-methyl-5-phosphomethylpyrimidine + phosphate + H+ *\ - \* r2304, 2,5-diamino-6-(5-phospho-D-ribosylamino)pyrimidin-4(3H)-one + H+ + H2O -> 5-amino-6-(5-phospho-D-ribosylamino)uracil + ammonium *\ - \* r2303, succinate semialdehyde + NAD+ + H2O -> succinate + NADH + 2 H+ *\ - \* r2295, XTP + H2O -> XMP + diphosphate + H+ *\ - \* r2294, 1-hydroxy-2-methyl-2-(E)-butenyl 4-diphosphate + NAD(P)H + H+ -> dimethylallyl diphosphate + NAD(P)+ + H2O *\ - \* r2293, 1-hydroxy-2-methyl-2-(E)-butenyl 4-diphosphate + NAD(P)H + H+ -> dimethylallyl diphosphate + NAD(P)+ + H2O *\ - \* r2292, prephenate + H+ -> 2-oxo-3-phenylpropanoate + CO2 + H2O *\ - \* r2287, hydrogen peroxide + an unknown reduced electron acceptor -> an unknown oxidized electron acceptor + 2 H2O *\ - \* r2285, L-asparagine + H2O -> L-aspartate + ammonium *\ - \* r2281, AMP + H2O -> D-ribofuranose 5-phosphate + adenine *\ - \* r2278, 1-butanesulfonate + FMNH2 + oxygen -> butanal + sulfite + FMN + H2O + 2 H+ *\ - \* r2275, a nucleoside diphosphate + H2O -> a nucleoside 5'-monophosphate + phosphate + H+ *\ - \* r2274, a nucleoside diphosphate + H2O -> a nucleoside 5'-monophosphate + phosphate + H+ *\ - \* r2273, a nucleoside diphosphate + H2O -> a nucleoside 5'-monophosphate + phosphate + H+ *\ - \* r2272, a nucleoside diphosphate + H2O -> a nucleoside 5'-monophosphate + phosphate + H+ *\ - \* r2271, a nucleoside diphosphate + H2O -> a nucleoside 5'-monophosphate + phosphate + H+ *\ - \* r2270, a nucleoside diphosphate + H2O -> a nucleoside 5'-monophosphate + phosphate + H+ *\ - \* r2269, a nucleoside diphosphate + H2O -> a nucleoside 5'-monophosphate + phosphate + H+ *\ - \* r2268, a nucleoside diphosphate + H2O -> a nucleoside 5'-monophosphate + phosphate + H+ *\ - \* r2267, a nucleoside diphosphate + H2O -> a nucleoside 5'-monophosphate + phosphate + H+ *\ - \* r2266, a nucleoside diphosphate + H2O -> a nucleoside 5'-monophosphate + phosphate + H+ *\ - \* r2260, an acyl-CoA + H2O -> a carboxylate + coenzyme A + H+ *\ - \* r2259, an acyl-CoA + H2O -> a carboxylate + coenzyme A + H+ *\ - \* r2258, an acyl-CoA + H2O -> a carboxylate + coenzyme A + H+ *\ - \* r2257, an acyl-CoA + H2O -> a carboxylate + coenzyme A + H+ *\ - \* r2256, an acyl-CoA + H2O -> a carboxylate + coenzyme A + H+ *\ - \* r2255, an acyl-CoA + H2O -> a carboxylate + coenzyme A + H+ *\ - \* r2254, an acyl-CoA + H2O -> a carboxylate + coenzyme A + H+ *\ - \* r2253, an acyl-CoA + H2O -> a carboxylate + coenzyme A + H+ *\ - \* r2252, an acyl-CoA + H2O -> a carboxylate + coenzyme A + H+ *\ - \* r2251, an acyl-CoA + H2O -> a carboxylate + coenzyme A + H+ *\ - \* r2249, L-serine -> 2-aminoprop-2-enoate + H+ + H2O *\ - \* r2244, L-cysteine + H2O -> pyruvate + ammonium + hydrogen sulfide *\ - \* r2242, ITP + H2O -> IMP + diphosphate + H+ *\ - \* r2241, 5',5'''-diadenosine tetraphosphate + H2O -> 2 ADP + 2 H+ *\ - \* r2240, 3-deoxy-D-manno-octulosonate 8-phosphate + H2O -> 3-deoxy-D-manno-octulosonate + phosphate *\ - \* r2239, (2,3-dihydroxybenzoylserine)2 + H2O -> 2 N-(2,3-dihydroxybenzoyl)-L-serine + H+ *\ - \* r2233, glycerophosphoserine + H2O -> sn-glycerol 3-phosphate + L-serine + H+ *\ - \* r2231, GTP + H2O -> formate + 7,8-dihydroneopterin 3'-triphosphate + H+ *\ - \* r2210, XTP + H2O -> XDP + phosphate + H+ *\ - \* r2209, hydroxymethylbilane -> uroporphyrinogen-III + H2O *\ - \* r2206b, N-acetyl-D-glucosamine 6-phosphate + (R)-lactate -> N-acetyl-beta-muramate 6-phosphate + H2O *\ - \* r2206a, N-acetyl-beta-muramate 6-phosphate + H2O -> N-acetyl-D-glucosamine 6-phosphate + (R)-lactate *\ - \* r2202, acetaldehyde + NADP+ + H2O -> acetate + NADPH + 2 H+ *\ - \* r2198, dTMP + H2O -> thymidine + phosphate *\ - \* r2196, (2R,4S)-2-methyl-2,4-dihydroxydihydrofuran-3-one + H2O -> (2R,4S)-2-methyl-2,3,3,4-tetrahydroxytetrahydrofuran *\ - \* r2191b, L,L-diaminopimelate + succinate -> N-succinyl-L,L-2,6-diaminopimelate + H2O *\ - \* r2191a, N-succinyl-L,L-2,6-diaminopimelate + H2O -> L,L-diaminopimelate + succinate *\ - \* r2187, S-formylglutathione + H2O -> formate + glutathione + H+ *\ - \* r2186, ATP + UTP + L-glutamine + H2O -> ADP + CTP + L-glutamate + phosphate + 2 H+ *\ - \* r2185, dCTP + H+ + H2O -> ammonium + dUTP *\ - \* r2183, coproporphyrinogen III + oxygen + 2 H+ -> protoporphyrinogen IX + 2 CO2 + 2 H2O *\ - \* r2181, ppGpp + H2O -> GDP + diphosphate + H+ *\ - \* r2180, 1,4-dihydroxy-2-naphthoyl-CoA + H2O -> 1,4-dihydroxy-2-naphthoate + coenzyme A + H+ *\ - \* r2173b, 2 a phenoxyl radical of a phenolic donor + 2 H2O -> 2 a phenolic donor + hydrogen peroxide *\ - \* r2173a, 2 a phenolic donor + hydrogen peroxide -> 2 a phenoxyl radical of a phenolic donor + 2 H2O *\ - \* r2172, GMP + H2O -> guanosine + phosphate *\ - \* r2170, glycyl-L-aspartate + H2O -> glycine + L-aspartate *\ - \* r2164, beta-nicotinamide D-ribonucleotide + H2O -> D-ribofuranose 5-phosphate + nicotinamide + H+ *\ - \* r2163, 2-C-methyl-D-erythritol-2,4-cyclodiphosphate + a reduced flavodoxin -> 1-hydroxy-2-methyl-2-(E)-butenyl 4-diphosphate + an oxidized flavodoxin + H2O + H+ *\ - \* r2158b, cis-aconitate + H2O -> citrate *\ - \* r2158a, citrate -> cis-aconitate + H2O *\ - \* r2157b, an N10-formyl-tetrahydrofolate + H+ -> a 5,10-methenyltetrahydrofolate + H2O *\ - \* r2157a, a 5,10-methenyltetrahydrofolate + H2O -> an N10-formyl-tetrahydrofolate + H+ *\ - \* r2156, L-threonine -> (2Z)-2-aminobut-2-enoate + H2O + H+ *\ - \* r2150, (S)-lactaldehyde + NAD+ + H2O -> (S)-lactate + NADH + 2 H+ *\ - \* r2148, 7,8-dihydromonapterin triphosphate + 3 H2O -> 7,8-dihydromonapterin + 3 phosphate + 2 H+ *\ - \* r2136, a dipeptide + H2O -> 2 a standard alpha amino acid *\ - \* r2134, maltohexaose + H2O -> maltopentaose + alpha-D-glucose *\ - \* r2132, L-glutamate-5-semialdehyde + NAD+ + H2O -> L-glutamate + NADH + 2 H+ *\ - \* r2129, glutathionylspermidine + H2O -> glutathione + spermidine *\ - \* r2128b, CO2 + H2O -> hydrogen carbonate + H+ *\ - \* r2128a, hydrogen carbonate + H+ -> CO2 + H2O *\ - \* r2126, a glycerophosphodiester + H2O -> an alcohol + sn-glycerol 3-phosphate + H+ *\ - \* r2124, 2-octaprenylphenol + NADPH + oxygen + H+ -> 3-(all-trans-octaprenyl)benzene-1,2-diol + NADP+ + H2O *\ - \* r2119, alpha-D-glucose 1-phosphate + H2O -> D-glucopyranose + phosphate *\ - \* r2110b, fumarate + H2O -> (S)-malate *\ - \* r2110a, (S)-malate -> fumarate + H2O *\ - \* r2108, gamma-glutamyl-L-putrescine + H2O + oxygen -> 4-(gamma-glutamylamino)butanal + hydrogen peroxide + ammonium *\ - \* r2107, PPPi + H2O -> phosphate + diphosphate *\ - \* r2105, D-erythrose 4-phosphate + NAD+ + H2O -> erythronate-4-phosphate + NADH + 2 H+ *\ - \* r2099b, L-glutamate-5-semialdehyde -> (S)-1-pyrroline-5-carboxylate + H+ + H2O *\ - \* r2099a, (S)-1-pyrroline-5-carboxylate + H+ + H2O -> L-glutamate-5-semialdehyde *\ - \* r2098, phosphoenolpyruvate + D-erythrose 4-phosphate + H2O -> 3-deoxy-D-arabino-heptulosonate-7-phosphate + phosphate *\ - \* r2093, 2-oxepin-2(3H)-ylideneacetyl-CoA + H2O -> 3-oxo-5,6-didehydrosuberyl-CoA semialdehyde *\ - \* r2090, 5-phospho-alpha-D-ribose 1-diphosphate + L-glutamine + H2O -> 5-phospho-beta-D-ribosylamine + L-glutamate + diphosphate *\ - \* r2087, 2 hydrogen peroxide -> 2 H2O + oxygen *\ - \* r2086, betaine aldehyde + NAD+ + H2O -> glycine betaine + NADH + 2 H+ *\ - \* r2081, glycyl-L-glutamine + H2O -> glycine + L-glutamine *\ - \* r2078b, 3 N-(2,3-dihydroxybenzoyl)-L-serine + 2 H+ -> (2,3-dihydroxybenzoylserine)3 + 2 H2O *\ - \* r2078a, (2,3-dihydroxybenzoylserine)3 + 2 H2O -> 3 N-(2,3-dihydroxybenzoyl)-L-serine + 2 H+ *\ - \* r2076, nicotinamide + H2O -> ammonium + nicotinate *\ - \* r2053, isochorismate + H2O -> pyruvate + (2S,3S)-2,3-dihydroxy-2,3-dihydrobenzoate *\ - \* r2049, 3-trans,5-cis-tetradecadienoyl-CoA + H2O -> (3E,5Z)-tetradecadienoate + coenzyme A + H+ *\ - \* r2048, 7,8-dihydroneopterin 3'-triphosphate + H2O -> 7,8-dihydroneopterin 3'-phosphate + diphosphate + H+ *\ - \* r2045b, 3-dehydroshikimate + H2O -> 3-dehydroquinate *\ - \* r2045a, 3-dehydroquinate -> 3-dehydroshikimate + H2O *\ - \* r2042b, H2O -> H+ + OH- *\ - \* r2042a, H+ + OH- -> H2O *\ - \* r2040, L-dehydro-ascorbate + H2O -> dehydroascorbate (bicyclic form) *\ - \* r2039, D-gluconate 6-phosphate + H2O -> D-gluconate + phosphate *\ - \* r2038, 2-methoxy-6-(all-trans-octaprenyl)phenol + NADPH + oxygen + H+ -> 2-methoxy-6-all trans-octaprenyl-2-methoxy-1,4-benzoquinol + NADP+ + H2O *\ - \* r2021, dATP + H2O -> dAMP + diphosphate + H+ *\ - \* r2018, ATP + H2O -> ADP + phosphate + H+ *\ - \* r2015b, L-alanine + sulfite + H+ -> 3-sulfinoalanine + H2O *\ - \* r2015a, 3-sulfinoalanine + H2O -> L-alanine + sulfite + H+ *\ - \* r2010, indole + L-serine -> L-tryptophan + H2O *\ - \* r2008b, oxaloacetate + H2O -> D-tartrate *\ - \* r2008a, D-tartrate -> oxaloacetate + H2O *\ - \* r1990, 3-amino-1-hydroxyacetone 1-phosphate + 1-deoxy-D-xylulose 5-phosphate -> pyridoxine 5'-phosphate + phosphate + H+ + 2 H2O *\ - \* r1989b, an N5-formyl-tetrahydrofolate + H+ -> a 5,10-methenyltetrahydrofolate + H2O *\ - \* r1989a, a 5,10-methenyltetrahydrofolate + H2O -> an N5-formyl-tetrahydrofolate + H+ *\ - \* r1988, L-alanyl-L-threonine + H2O -> L-alanine + L-threonine *\ - \* r1986, 4 porphobilinogen + H2O -> 4 ammonium + hydroxymethylbilane *\ - \* r1980, adenosine + H+ + H2O -> ammonium + inosine *\ - \* r1973, 5-amino-6-(D-ribitylamino)uracil + 1-deoxy-L-glycero-tetrulose 4-phosphate -> 6,7-dimethyl-8-(1-D-ribityl)lumazine + phosphate + H+ + 2 H2O *\ - \* r1960, inosine + H2O -> D-ribofuranose + hypoxanthine *\ - \* r1957, 1-(5-phospho-beta-D-ribosyl)-ATP + H2O -> 1-(5-phospho-beta-D-ribosyl)-AMP + diphosphate + 2 H+ *\ - \* r1952b, phosphoenolpyruvate + H2O -> 2-phospho-D-glycerate *\ - \* r1952a, 2-phospho-D-glycerate -> phosphoenolpyruvate + H2O *\ - \* r1951, L-glutamine + XMP + ATP + H2O -> L-glutamate + GMP + AMP + diphosphate + 2 H+ *\ - \* r1950, isethionate + FMNH2 + oxygen -> glycolaldehyde + sulfite + FMN + H2O + 2 H+ *\ - \* r1947, NADH + H2O -> (R)-NADHX *\ - \* r1945, 3-methyl-2-oxobutanoate + acetyl-CoA + H2O -> (2S)-2-isopropylmalate + coenzyme A + H+ *\ - \* r1936, UDP-alpha-D-glucose + 2 NAD+ + H2O -> UDP-alpha-D-glucuronate + 2 NADH + 3 H+ *\ - \* r1929, a 2'-deoxyribonucleoside 5'-monophosphate + H2O -> a 2'-deoxynucleoside + phosphate *\ - \* r1927, a 2'-deoxyribonucleoside 5'-monophosphate + H2O -> a 2'-deoxynucleoside + phosphate *\ - \* r1925, a 2'-deoxyribonucleoside 5'-monophosphate + H2O -> a 2'-deoxynucleoside + phosphate *\ - \* r1923, a 2'-deoxyribonucleoside 5'-monophosphate + H2O -> a 2'-deoxynucleoside + phosphate *\ - \* r1921, a 2'-deoxyribonucleoside 5'-monophosphate + H2O -> a 2'-deoxynucleoside + phosphate *\ - \* r1902, a sugar phosphate + H2O -> a sugar + phosphate *\ - \* r1898, cytidine + H+ + H2O -> uridine + ammonium *\ - \* r1894b, beta-D-glucose 6-phosphate + L-lysine -> fructoselysine 6-phosphate + H2O *\ - \* r1894a, fructoselysine 6-phosphate + H2O -> beta-D-glucose 6-phosphate + L-lysine *\ - \* r1893, an acetyl-[holo citrate lyase acyl-carrier protein] + H2O -> [a holo citrate lyase acyl-carrier protein] + acetate + H+ *\ - \* r1891, an adenosine34 in [tRNAArg2] + H+ + H2O -> an inosine34 in [tRNAArg2] + ammonium *\ - \* r1878, beta-nicotinamide D-ribonucleotide + H2O -> 1-(beta-D ribofuranosyl)nicotinamide + phosphate *\ - \* r1877, L-alanyl-glycine + H2O -> L-alanine + glycine *\ - \* r1875, 6-methoxy-3-methyl-2-all-trans-octaprenyl-1,4-benzoquinol + an unknown reduced electron acceptor + oxygen -> 3-demethylubiquinol-8 + an unknown oxidized electron acceptor + H2O *\ - \* r1874b, a carboxylate + sn-glycero-3-phosphocholine + H+ -> a 2-acyl 1-lyso-phosphatidylcholine + H2O *\ - \* r1874a, a 2-acyl 1-lyso-phosphatidylcholine + H2O -> a carboxylate + sn-glycero-3-phosphocholine + H+ *\ - \* r1862, UDP-2-N,3-O-bis[(3R)-3-hydroxytetradecanoyl]-alpha-D-glucosamine + H2O -> 2,3-bis[(3R)-3-hydroxymyristoyl]-alpha-D-glucosaminyl 1-phosphate + UMP + 2 H+ *\ - \* r1860, pppGpp + H2O -> GTP + diphosphate + H+ *\ - \* r1857b, 5-formamido-1-(5-phospho-D-ribosyl)-imidazole-4-carboxamide -> IMP + H2O *\ - \* r1857a, IMP + H2O -> 5-formamido-1-(5-phospho-D-ribosyl)-imidazole-4-carboxamide *\ - \* r1855, a peptidoglycan + H2O -> a N-acetylmuramoyl-pentapeptide-diphosphoundecaprenol + N-acetyl-D-glucosamine *\ - \* r1853, sn-glycero-3-phosphoethanolamine + H2O -> sn-glycerol 3-phosphate + ethanolamine + H+ *\ - \* r1851, GDP + H2O -> GMP + phosphate + H+ *\ - \* r1850, CMP + H2O -> cytidine + phosphate *\ - \* r1836, CDP + H2O -> CMP + phosphate + H+ *\ - \* r1835, dTTP + H2O -> dTMP + diphosphate + H+ *\ - \* r1827, (1S,2R)-1-C-(indol-3-yl)glycerol 3-phosphate + L-serine -> L-tryptophan + D-glyceraldehyde 3-phosphate + H2O *\ - \* r1807, enterobactin + 3 H2O -> 3 N-(2,3-dihydroxybenzoyl)-L-serine + 3 H+ *\ - \* r1802, alpha-lactose + H2O -> beta-D-galactose + beta-D-glucose *\ - \* r1792b, L-alpha-amino-epsilon-keto-pimelate -> (S)-2,3,4,5-tetrahydrodipicolinate + H+ + H2O *\ - \* r1792a, (S)-2,3,4,5-tetrahydrodipicolinate + H+ + H2O -> L-alpha-amino-epsilon-keto-pimelate *\ - \* r1791, glycyl-L-methionine + H2O -> glycine + L-methionine *\ - \* r1774, 2-iminopropanoate + H+ + H2O -> pyruvate + ammonium *\ - \* r1769, adenosine 3',5'-bisphosphate + H2O -> AMP + phosphate *\ - \* r1768, D-arabinose 5-phosphate + phosphoenolpyruvate + H2O -> 3-deoxy-D-manno-octulosonate 8-phosphate + phosphate *\ - \* r1765, 1-(o-carboxyphenylamino)-1'-deoxyribulose 5'-phosphate + H+ -> (1S,2R)-1-C-(indol-3-yl)glycerol 3-phosphate + CO2 + H2O *\ - \* r1762, histidinal + NAD+ + H2O -> L-histidine + NADH + 2 H+ *\ - \* r1761, UTP + H2O -> UMP + diphosphate + H+ *\ - \* r1759, GTP + 3 H2O -> 2,5-diamino-6-(5-phospho-D-ribosylamino)pyrimidin-4(3H)-one + formate + diphosphate + 2 H+ *\ - \* r1756, (R)-S-lactoylglutathione + H2O -> glutathione + (R)-lactate + H+ *\ - \* r1736, ATP + N2-formyl-N1-(5-phospho-beta-D-ribosyl)glycinamide + L-glutamine + H2O -> ADP + 2-(formamido)-N1-(5-phospho-beta-D-ribosyl)acetamidine + L-glutamate + phosphate + H+ *\ - \* r1728, (R)-2,3-dihydroxy-3-methylbutanoate -> 3-methyl-2-oxobutanoate + H2O *\ - \* r1725, N2-succinyl-L-glutamate 5-semialdehyde + NAD+ + H2O -> N2-succinylglutamate + NADH + 2 H+ *\ - \* r1716, dCTP + H2O -> dCMP + diphosphate + H+ *\ - \* r1711, pppGpp + H2O -> ppGpp + phosphate + H+ *\ - \* r1702, hypoxanthine + NAD+ + H2O -> xanthine + NADH + H+ *\ - \* r1701, glycyl-L-proline + H2O -> glycine + L-proline *\ - \* r1699, 2 L-ascorbate + hydrogen peroxide + 2 H+ -> 2 monodehydroascorbate radical + 2 H2O *\ - \* r1695, an aldehyde + NADP+ + H2O -> a carboxylate + NADPH + 2 H+ *\ - \* r1693, an aldehyde + NADP+ + H2O -> a carboxylate + NADPH + 2 H+ *\ - \* r1692, an aldehyde + NADP+ + H2O -> a carboxylate + NADPH + 2 H+ *\ - \* r1691, an aldehyde + NADP+ + H2O -> a carboxylate + NADPH + 2 H+ *\ - \* r1689, pyruvate + an ubiquinone[inner membrane] + H2O -> CO2 + acetate + an ubiquinol[inner membrane] *\ - \* r1683b, 3,4,4-trihydroxy-2-pentanone 5-phosphate -> 3-hydroxy-2,4-pentanedione 5-phosphate + H2O *\ - \* r1683a, 3-hydroxy-2,4-pentanedione 5-phosphate + H2O -> 3,4,4-trihydroxy-2-pentanone 5-phosphate *\ - \* r1680, 2 an ubiquinol[inner membrane] + oxygen + 4 H+ -> 2 an ubiquinone[inner membrane] + 2 H2O + 4 H+[periplasmic space] *\ - \* r1674b, D-threo-isocitrate -> cis-aconitate + H2O *\ - \* r1674a, cis-aconitate + H2O -> D-threo-isocitrate *\ - \* r1670, 2-iminobutanoate + H+ + H2O -> 2-oxobutanoate + ammonium *\ - \* r1668b, 2,3-didehydroadipyl-CoA + H2O -> 3-hydroxyadipyl-CoA *\ - \* r1668a, 3-hydroxyadipyl-CoA -> 2,3-didehydroadipyl-CoA + H2O *\ - \* r1667, 2 an ubiquinol[inner membrane] + oxygen + 8 H+ -> 2 an ubiquinone[inner membrane] + 2 H2O + 8 H+[periplasmic space] *\ - \* r1661, D-alanine + an electron-transfer quinone[inner membrane] + H2O -> ammonium + pyruvate + an electron-transfer quinol[inner membrane] *\ - \* r1660, D-alanine + an electron-transfer quinone[inner membrane] + H2O -> ammonium + pyruvate + an electron-transfer quinol[inner membrane] *\ - \* r1653, a D-amino acid + an electron-transfer quinone[inner membrane] + H2O -> ammonium + a 2-oxo carboxylate + an electron-transfer quinol[inner membrane] *\ - \* r1652, a D-amino acid + an electron-transfer quinone[inner membrane] + H2O -> ammonium + a 2-oxo carboxylate + an electron-transfer quinol[inner membrane] *\ - \* r1651, a D-amino acid + an electron-transfer quinone[inner membrane] + H2O -> ammonium + a 2-oxo carboxylate + an electron-transfer quinol[inner membrane] *\ - \* r1650, a D-amino acid + an electron-transfer quinone[inner membrane] + H2O -> ammonium + a 2-oxo carboxylate + an electron-transfer quinol[inner membrane] *\ - \* r1645, a [protein] N-terminal-formyl-L-methionine + H2O -> a [protein] N-terminal L-methionine + formate *\ - \* r1643, 1-hydroxy-2-methyl-2-(E)-butenyl 4-diphosphate + NAD(P)H + H+ -> isopentenyl diphosphate + NAD(P)+ + H2O *\ - \* r1642, 1-hydroxy-2-methyl-2-(E)-butenyl 4-diphosphate + NAD(P)H + H+ -> isopentenyl diphosphate + NAD(P)+ + H2O *\ - \* r1640, enterobactin + H2O -> (2,3-dihydroxybenzoylserine)3 + H+ *\ - \* r1638, GTP + H2O -> GDP + phosphate + H+ *\ - \* r1633b, 2-hydroxyglutarate + coenzyme A + H+ -> propanoyl-CoA + glyoxylate + H2O *\ - \* r1633a, propanoyl-CoA + glyoxylate + H2O -> 2-hydroxyglutarate + coenzyme A + H+ *\ - \* r1631, maltoheptaose + H2O -> maltohexaose + alpha-D-glucose *\ - \* r1630b, pseudouridine 5'-phosphate + H2O -> D-ribofuranose 5-phosphate + uracil *\ - \* r1630a, D-ribofuranose 5-phosphate + uracil -> pseudouridine 5'-phosphate + H2O *\ - \* r1626b, 2-isopropylmaleate + H2O -> (2S)-2-isopropylmalate *\ - \* r1626a, (2S)-2-isopropylmalate -> 2-isopropylmaleate + H2O *\ - \* r1624, nitrite + 3 NADH + 5 H+ -> ammonium + 3 NAD+ + 2 H2O *\ - \* r1615, 2-oxopent-4-enoate + H2O -> 4-hydroxy-2-oxopentanoate *\ - \* r1611, beta-D-glucose 6-phosphate + H2O -> beta-D-glucose + phosphate *\ - \* r1609b, 3,4-dihydroxyphenylacetate + coenzyme A + H+ -> 3,4-dihydroxyphenylacetyl-CoA + H2O *\ - \* r1609a, 3,4-dihydroxyphenylacetyl-CoA + H2O -> 3,4-dihydroxyphenylacetate + coenzyme A + H+ *\ - \* r1604, UDP-3-O-[(3R)-3-hydroxymyristoyl]-N-acetyl-alpha-D-glucosamine + H2O -> UDP-3-O-(3-hydroxymyristoyl)-alpha-D-glucosamine + acetate *\ - \* r1601, 4-(gamma-glutamylamino)butanal + NAD(P)+ + H2O -> 4-(gamma-L-glutamylamino)butanoate + NAD(P)H + 2 H+ *\ - \* r1600, 4-(gamma-glutamylamino)butanal + NAD(P)+ + H2O -> 4-(gamma-L-glutamylamino)butanoate + NAD(P)H + 2 H+ *\ - \* r1591, 7,8-dihydroneopterin 3'-phosphate + H2O -> 7,8-dihydroneopterin + phosphate *\ - \* r1589, N2-succinyl-L-arginine + 2 H+ + 2 H2O -> 2 ammonium + N2-succinyl-L-ornithine + CO2 *\ - \* r1585, 3-oxo-5,6-didehydrosuberyl-CoA semialdehyde + NADP+ + H2O -> 3-oxo-5,6-didehydrosuberyl-CoA + NADPH + 2 H+ *\ - \* r1580, a CDP-diacylglycerol + H2O -> a 1,2-diacyl-sn-glycerol 3-phosphate + CMP + 2 H+ *\ - \* r1579, a CDP-diacylglycerol + H2O -> a 1,2-diacyl-sn-glycerol 3-phosphate + CMP + 2 H+ *\ - \* r1578, 2 5-aminolevulinate -> porphobilinogen + H+ + 2 H2O *\ - \* r1572, pyruvate + ATP + H2O -> phosphoenolpyruvate + AMP + phosphate + 2 H+ *\ - \* r1570, glycyl-L-glutamate + H2O -> glycine + L-glutamate *\ - \* r1567, formaldehyde + a tetrahydrofolate -> a 5,10-methylene-tetrahydrofolate + H2O *\ - \* r1566, formaldehyde + a tetrahydrofolate -> a 5,10-methylene-tetrahydrofolate + H2O *\ - \* r1562, nicotinate + 5-phospho-alpha-D-ribose 1-diphosphate + ATP + H2O -> beta-nicotinate D-ribonucleotide + ADP + diphosphate + phosphate *\ - \* r1525b, ammonium + 2-oxoglutarate + NADPH + H+ -> L-glutamate + NADP+ + H2O *\ - \* r1525a, L-glutamate + NADP+ + H2O -> ammonium + 2-oxoglutarate + NADPH + H+ *\ - \* r1509, dGTP + H2O -> dGMP + diphosphate + H+ *\ - \* r1508, alpha,alpha-trehalose 6-phosphate + H2O -> alpha,alpha-trehalose + phosphate *\ - \* r1503, an alkylsulfonate + FMNH2 + oxygen -> an aldehyde + sulfite + FMN + H2O + 2 H+ *\ - \* r1502, an alkylsulfonate + FMNH2 + oxygen -> an aldehyde + sulfite + FMN + H2O + 2 H+ *\ - \* r1501, an alkylsulfonate + FMNH2 + oxygen -> an aldehyde + sulfite + FMN + H2O + 2 H+ *\ - \* r1498, pyruvate + L-aspartate-semialdehyde -> (2S,4S)-4-hydroxy-2,3,4,5-tetrahydrodipicolinate + H2O + H+ *\ - \* r1480, ATP + H2O -> AMP + diphosphate + H+ *\ - \* r1474b, 1-pyrroline + H2O -> 4-aminobutanal *\ - \* r1474a, 4-aminobutanal -> 1-pyrroline + H2O *\ - \* r1473, L-alanyl-L-glutamate + H2O -> L-alanine + L-glutamate *\ - \* r1472, D-altronate -> 2-dehydro-3-deoxy-D-gluconate + H2O *\ - \* r1468, 4-(2'-carboxyphenyl)-4-oxobutyryl-CoA + H+ -> 1,4-dihydroxy-2-naphthoyl-CoA + H2O *\ - \* r1467, D-serine -> 2-aminoprop-2-enoate + H2O + H+ *\ - \* r1466, adenosine + H2O -> D-ribofuranose + adenine *\ - \* r1463, N-acetyl-L-ornithine + H2O -> L-ornithine + acetate *\ - \* r1445, dCMP + H2O -> 2'-deoxycytidine + phosphate *\ - \* r1437, maltotriose + H2O -> maltose + D-glucopyranose *\ - \* r1436, (2S,3S)-2-methylcitrate -> cis-2-methylaconitate + H2O *\ - \* r1429, di-trans,octa-cis-undecaprenyl diphosphate + H2O -> di-trans,octa-cis-undecaprenyl phosphate + phosphate + H+ *\ - \* r1421, alpha,alpha-trehalose 6-phosphate + H2O -> beta-D-glucose 6-phosphate + D-glucopyranose *\ - \* r1397, oxaloacetate + acetyl-CoA + H2O -> citrate + coenzyme A + H+ *\ - \* r1393, pyridoxamine 5'-phosphate + oxygen + H2O -> ammonium + hydrogen peroxide + pyridoxal 5'-phosphate *\ - \* r1392, 2-isopropylmaleate + H2O -> (2R,3S)-3-isopropylmalate *\ - \* r1390b, phenylacetate + NADH + 2 H+ -> phenylacetaldehyde + NAD+ + H2O *\ - \* r1390a, phenylacetaldehyde + NAD+ + H2O -> phenylacetate + NADH + 2 H+ *\ - \* r1385, L-alanyl-L-histidine + H2O -> L-alanine + L-histidine *\ - \* r1372, N-acetyl-D-glucosamine 6-phosphate + H2O -> D-glucosamine 6-phosphate + acetate *\ - \* r1369, 2'-deoxyadenosine + H+ + H2O -> ammonium + 2'-deoxyinosine *\ - \* r1368, S-methyl-5'-thioadenosine + H2O -> S-methyl-5-thio-D-ribose + adenine *\ - \* r1354, L-histidinol-phosphate + H2O -> histidinol + phosphate *\ - \* r1352, dAMP + H2O -> 2'-deoxyadenosine + phosphate *\ - \* r1338, GDP-alpha-D-mannose + H2O -> GMP + alpha-D-mannose 1-phosphate + 2 H+ *\ - \* r1333, cyclic-AMP + H2O -> AMP + H+ *\ - \* r1328, an N10-formyl-tetrahydrofolate + H2O -> a tetrahydrofolate + formate + H+ *\ - \* r1326, cytidine + H2O -> D-ribofuranose + cytosine *\ - \* r1325, dUTP + H2O -> dUMP + diphosphate + H+ *\ - \* r1306, cytosine + H+ + H2O -> ammonium + uracil *\ - \* r1302, L-alanyl-gamma-D-glutamyl-meso-diaminopimelate + H2O -> L-alanyl-D-glutamate + meso-diaminopimelate *\ - \* r1288, L-alanyl-L-aspartate + H2O -> L-alanine + L-aspartate *\ - \* r1287, allantoate + 2 H+ + H2O -> S-ureidoglycine + ammonium + CO2 *\ - \* r1283, agmatine + H2O -> urea + putrescine *\ - \* r1280, 3-phospho-hydroxypyruvate + H2O -> hydroxypyruvate + phosphate *\ - \* r1258, D-erythro-imidazole-glycerol-phosphate -> imidazole acetol-phosphate + H2O *\ - \* r1253, dGMP + H2O -> 2'-deoxyguanosine + phosphate *\ - \* r1249, (2S,4S)-4-hydroxy-2,3,4,5-tetrahydrodipicolinate + NADPH + H+ -> (S)-2,3,4,5-tetrahydrodipicolinate + NADP+ + H2O *\ - \* r1246, methylglyoxal + H2O -> (R)-lactate + H+ *\ - \* r1239, CTP + H2O -> CDP + phosphate + H+ *\ - \* r1231b, thiamin phosphate + phosphate + H+ -> thiamin diphosphate + H2O *\ - \* r1231a, thiamin diphosphate + H2O -> thiamin phosphate + phosphate + H+ *\ - \* r1229, trimethylamine N-oxide + NADH + 2 H+ -> trimethylamine + NAD+ + H2O *\ - \* r1224, (R)-2,3-dihydroxy-3-methylpentanoate -> (S)-3-methyl-2-oxopentanoate + H2O *\ - \* r1222, N2-succinylglutamate + H2O -> succinate + L-glutamate *\ - \* r1220, 2-iminosuccinate + glycerone phosphate -> quinolinate + phosphate + 2 H2O *\ - \* r1218, L-cystathionine + H2O -> ammonium + pyruvate + L-homocysteine *\ - \* r1217, D-cysteine + H2O -> ammonium + pyruvate + hydrogen sulfide *\ - \* r1215, dITP + H2O -> dIMP + diphosphate + H+ *\ - \* r1203, D-gluconate 6-phosphate -> 2-dehydro-3-deoxy-D-gluconate 6-phosphate + H2O *\ - \* r1201, AMP + H2O -> adenosine + phosphate *\ - \* r1193, a pimeloyl-[acp] methyl ester + H2O -> a pimeloyl-[acp] + methanol + H+ *\ - \* r1176, ATP + nicotinate adenine dinucleotide + L-glutamine + H2O -> AMP + L-glutamate + NAD+ + diphosphate + H+ *\ - \* r1175, alpha-D-glucose 6-phosphate + H2O -> alpha-D-glucose + phosphate *\ - \* r1174, a dodecanoyl-[acp] + H2O -> a holo-[acyl-carrier protein] + laurate + H+ *\ - \* r1173, 5'-deoxyadenosine + H2O -> 5-deoxy-D-ribose + adenine *\ - \* r1158, a nucleoside triphosphate + H2O -> a nucleoside 5'-monophosphate + diphosphate + H+ *\ - \* r1157, a nucleoside triphosphate + H2O -> a nucleoside 5'-monophosphate + diphosphate + H+ *\ - \* r1156, a nucleoside triphosphate + H2O -> a nucleoside 5'-monophosphate + diphosphate + H+ *\ - \* r1155, a nucleoside triphosphate + H2O -> a nucleoside 5'-monophosphate + diphosphate + H+ *\ - \* r1154, a nucleoside triphosphate + H2O -> a nucleoside 5'-monophosphate + diphosphate + H+ *\ - \* r1153, a nucleoside triphosphate + H2O -> a nucleoside 5'-monophosphate + diphosphate + H+ *\ - \* r1152, a nucleoside triphosphate + H2O -> a nucleoside 5'-monophosphate + diphosphate + H+ *\ - \* r1151, a nucleoside triphosphate + H2O -> a nucleoside 5'-monophosphate + diphosphate + H+ *\ - \* r1150, a nucleoside triphosphate + H2O -> a nucleoside 5'-monophosphate + diphosphate + H+ *\ - \* r1149, a nucleoside triphosphate + H2O -> a nucleoside 5'-monophosphate + diphosphate + H+ *\ - \* r1147, (2,3-dihydroxybenzoylserine)3 + H2O -> (2,3-dihydroxybenzoylserine)2 + N-(2,3-dihydroxybenzoyl)-L-serine + H+ *\ - \* r1135, D-alanyl-D-alanine + H2O -> 2 D-alanine *\ - \* r1134b, a protein-L-methionine-(R)-S-oxide + a reduced thioredoxin -> a [protein]-L-methionine + an oxidized thioredoxin + H2O *\ - \* r1134a, a [protein]-L-methionine + an oxidized thioredoxin + H2O -> a protein-L-methionine-(R)-S-oxide + a reduced thioredoxin *\ - \* r1128b, heme o + diphosphate -> heme b + (2E,6E)-farnesyl diphosphate + H2O *\ - \* r1128a, heme b + (2E,6E)-farnesyl diphosphate + H2O -> heme o + diphosphate *\ - \* r1113, NAD+ + H2O -> ADP-D-ribose + nicotinamide + H+ *\ - \* r1112, a (3R)-3-hydroxyglutaryl-[acp] methyl ester -> an enoylglutaryl-[acp] methyl ester + H2O *\ - \* r1110, CDP + a reduced NrdH glutaredoxin-like protein -> dCDP + an oxidized NrdH glutaredoxin-like protein + H2O *\ - \* r1108b, glycine + a 5,10-methylene-tetrahydrofolate + H2O -> L-serine + a tetrahydrofolate *\ - \* r1108a, L-serine + a tetrahydrofolate -> glycine + a 5,10-methylene-tetrahydrofolate + H2O *\ - \* r1107b, glycine + a 5,10-methylene-tetrahydrofolate + H2O -> L-serine + a tetrahydrofolate *\ - \* r1107a, L-serine + a tetrahydrofolate -> glycine + a 5,10-methylene-tetrahydrofolate + H2O *\ - \* r1093, ITP + H2O -> IDP + phosphate + H+ *\ - \* r1091b, arsenite + an oxidized glutaredoxin + H2O -> arsenate + a reduced glutaredoxin + H+ *\ - \* r1091a, arsenate + a reduced glutaredoxin + H+ -> arsenite + an oxidized glutaredoxin + H2O *\ - \* r1090b, arsenite + an oxidized glutaredoxin + H2O -> arsenate + a reduced glutaredoxin + H+ *\ - \* r1090a, arsenate + a reduced glutaredoxin + H+ -> arsenite + an oxidized glutaredoxin + H2O *\ - \* r1081, 4-(gamma-L-glutamylamino)butanoate + H2O -> 4-aminobutanoate + L-glutamate *\ - \* r1079, fructose 1,6-bisphosphate + H2O -> beta-D-fructofuranose 6-phosphate + phosphate *\ - \* r1074, a (3R)-3-hydroxypalmitoyl-[acp] -> a trans hexadecenoyl-[acp] + H2O *\ - \* r1071, dTDP-alpha-D-glucose -> dTDP-4-dehydro-6-deoxy-alpha-D-glucopyranose + H2O *\ - \* r1068, (S)-2,3,4,5-tetrahydrodipicolinate + succinyl-CoA + H2O -> N-succinyl-2-amino-6-ketopimelate + coenzyme A *\ - \* r1067b, N-carbamoyl-L-aspartate + H+ -> (S)-dihydroorotate + H2O *\ - \* r1067a, (S)-dihydroorotate + H2O -> N-carbamoyl-L-aspartate + H+ *\ - \* r1066, a (3R)-hydroxy cis delta5-dodecenoyl-[acp] -> a trans-delta3-cis-delta5-dodecenoyl-[acp] + H2O *\ - \* r1060, dGTP + H2O -> PPPi + 2'-deoxyguanosine + H+ *\ - \* r1059, a protein-L-methionine-(S)-S-oxide + a reduced thioredoxin -> a [protein]-L-methionine + an oxidized thioredoxin + H2O *\ - \* r1058, phenylacetyl-CoA + NADPH + oxygen + H+ -> 2-(1,2-epoxy-1,2-dihydrophenyl)acetyl-CoA + NADP+ + H2O *\ - \* r1056, ATP + L-methionine + H2O -> S-adenosyl-L-methionine + phosphate + diphosphate *\ - \* r1045, ADP-D-ribose + H2O -> AMP + D-ribofuranose 5-phosphate + 2 H+ *\ - \* r1030, a (3R)-3-hydroxy cis delta7-tetradecenoyl-[acp] -> a trans-delta3-cis-delta7-tetradecenoyl-[acp] + H2O *\ - \* r1029, IMP + H2O -> inosine + phosphate *\ - \* r1026, L-methionyl-L-alanine dipeptide + H2O -> L-methionine + L-alanine *\ - \* r1025, 4-aminobutanal + NAD+ + H2O -> 4-aminobutanoate + NADH + 2 H+ *\ - \* r1011, beta-nicotinamide D-ribonucleotide + H2O -> ammonium + beta-nicotinate D-ribonucleotide *\ - \* r1003, ATP + acetyl-CoA + a carboxylated-biotinylated [BCCP dimer] + H2O -> malonyl-CoA + a biotinylated [BCCP dimer] + ADP + phosphate + H+ *\ - \* r1000, O-succinyl-L-homoserine + H2O -> 2-oxobutanoate + succinate + ammonium + H+ *\ - \* r997, a (3R)-3-hydroxypimeloyl-[acp] methyl ester -> an enoylpimeloyl-[acp] methyl ester + H2O *\ - \* r987, a ribonucleoside 5'-monophosphate + H2O -> a ribonucleoside + phosphate *\ - \* r985, a ribonucleoside 5'-monophosphate + H2O -> a ribonucleoside + phosphate *\ - \* r983, a ribonucleoside 5'-monophosphate + H2O -> a ribonucleoside + phosphate *\ - \* r981, a ribonucleoside 5'-monophosphate + H2O -> a ribonucleoside + phosphate *\ - \* r979, a ribonucleoside 5'-monophosphate + H2O -> a ribonucleoside + phosphate *\ - \* r977, a ribonucleoside 5'-monophosphate + H2O -> a ribonucleoside + phosphate *\ - \* r975b, 2-dehydro-3-deoxy-L-rhamnonate + H2O -> L-rhamnonate *\ - \* r975a, L-rhamnonate -> 2-dehydro-3-deoxy-L-rhamnonate + H2O *\ - \* r971, L-methionine-(S)-S-oxide + a reduced thioredoxin -> L-methionine + an oxidized thioredoxin + H2O *\ - \* r969, ADP + a reduced NrdH glutaredoxin-like protein -> dADP + an oxidized NrdH glutaredoxin-like protein + H2O *\ - \* r965, maltopentaose + H2O -> maltotetraose + alpha-D-glucose *\ - \* r964, a (3R)-3-hydroxydecanoyl-[acp] -> a trans-delta2-decenoyl-[acp] + H2O *\ - \* r963, 2-trans,5-cis-tetradecadienoyl-CoA + H2O -> 3-hydroxy-5-cis-tetradecenoyl-CoA *\ - \* r956, a [protein]-L-glutamate-O5-methyl-ester + H2O -> a [protein]-alpha-L-glutamate + methanol + H+ *\ - \* r955b, crotonyl-CoA + H2O -> (R)-3-hydroxybutanoyl-CoA *\ - \* r955a, (R)-3-hydroxybutanoyl-CoA -> crotonyl-CoA + H2O *\ - \* r947b, trimethylamine N-oxide + 2 a reduced c-type cytochrome + 3 H+ -> trimethylamine + 2 an oxidized c-type cytochrome + H2O *\ - \* r947a, trimethylamine + 2 an oxidized c-type cytochrome + H2O -> trimethylamine N-oxide + 2 a reduced c-type cytochrome + 3 H+ *\ - \* r946b, trimethylamine N-oxide + 2 a reduced c-type cytochrome + 3 H+ -> trimethylamine + 2 an oxidized c-type cytochrome + H2O *\ - \* r946a, trimethylamine + 2 an oxidized c-type cytochrome + H2O -> trimethylamine N-oxide + 2 a reduced c-type cytochrome + 3 H+ *\ - \* r945b, trimethylamine N-oxide + 2 a reduced c-type cytochrome + 3 H+ -> trimethylamine + 2 an oxidized c-type cytochrome + H2O *\ - \* r945a, trimethylamine + 2 an oxidized c-type cytochrome + H2O -> trimethylamine N-oxide + 2 a reduced c-type cytochrome + 3 H+ *\ - \* r944b, trimethylamine N-oxide + 2 a reduced c-type cytochrome + 3 H+ -> trimethylamine + 2 an oxidized c-type cytochrome + H2O *\ - \* r944a, trimethylamine + 2 an oxidized c-type cytochrome + H2O -> trimethylamine N-oxide + 2 a reduced c-type cytochrome + 3 H+ *\ - \* r942, FMN + H2O -> riboflavin + phosphate *\ - \* r933, a (3R)-3-hydroxyhexanoyl-[acp] -> a trans hex-2-enoyl-[acp] + H2O *\ - \* r926, uridine + H2O -> D-ribofuranose + uracil *\ - \* r923, D-glycero-beta-D-manno-heptose 1,7-bisphosphate + H2O -> D-glycero-beta-D-manno-heptose 1-phosphate + phosphate *\ - \* r910, a palmitoyl-[acp] + H2O -> palmitate + a holo-[acyl-carrier protein] + H+ *\ - \* r909, O-phospho-L-homoserine + H2O -> L-threonine + phosphate *\ - \* r905, a (3R)-3-hydroxy cis delta9-hexadecenoyl-[acp] -> a trans-delta3-cis-delta9-hexadecenoyl-[acp] + H2O *\ - \* r897, a (3R)-3-hydroxybutanoyl-[acp] -> a crotonyl-[acp] + H2O *\ - \* r894, (S)-1-pyrroline-5-carboxylate + NAD+ + 2 H2O -> L-glutamate + NADH + H+ *\ - \* r893, 1-deoxy-D-xylulose 5-phosphate + 2-iminoacetate + a thiocarboxy-[ThiS-Protein] -> 2-[(2R,5Z)-(2-carboxy-4-methylthiazol-5(2H)-ylidene]ethyl phosphate + a ThiS sulfur-carrier protein + 2 H2O *\ - \* r884b, phenylacetate + coenzyme A + H+ -> phenylacetyl-CoA + H2O *\ - \* r884a, phenylacetyl-CoA + H2O -> phenylacetate + coenzyme A + H+ *\ - \* r883, a (3R)-3-hydroxymyristoyl-[acp] -> a trans tetradec-2-enoyl-[acp] + H2O *\ - \* r862, a holo-[acyl-carrier protein] + H2O -> 4'-phosphopantetheine + an acyl-carrier protein + H+ *\ - \* r861, a holo-[acyl-carrier protein] + H2O -> 4'-phosphopantetheine + an acyl-carrier protein + H+ *\ - \* r860, a holo-[acyl-carrier protein] + H2O -> 4'-phosphopantetheine + an acyl-carrier protein + H+ *\ - \* r859, a holo-[acyl-carrier protein] + H2O -> 4'-phosphopantetheine + an acyl-carrier protein + H+ *\ - \* r858, a holo-[acyl-carrier protein] + H2O -> 4'-phosphopantetheine + an acyl-carrier protein + H+ *\ - \* r857, a holo-[acyl-carrier protein] + H2O -> 4'-phosphopantetheine + an acyl-carrier protein + H+ *\ - \* r856, a holo-[acyl-carrier protein] + H2O -> 4'-phosphopantetheine + an acyl-carrier protein + H+ *\ - \* r854, L-cysteinyl-glycine + H2O -> L-cysteine + glycine *\ - \* r852, glycyl-L-asparagine + H2O -> glycine + L-asparagine *\ - \* r845, a (3R)-3-hydroxydodecanoyl-[acp] -> a trans dodec-2-enoyl-[acp] + H2O *\ - \* r836, S-adenosyl-L-homocysteine + H2O -> S-ribosyl-L-homocysteine + adenine *\ - \* r819, L-methionine-(R)-S-oxide + a reduced thioredoxin -> L-methionine + an oxidized thioredoxin + H2O *\ - \* r818, GDP + a reduced NrdH glutaredoxin-like protein -> dGDP + an oxidized NrdH glutaredoxin-like protein + H2O *\ - \* r808b, biotin + an oxidized thioredoxin + H2O -> d-biotin d-sulfoxide + a reduced thioredoxin *\ - \* r808a, d-biotin d-sulfoxide + a reduced thioredoxin -> biotin + an oxidized thioredoxin + H2O *\ - \* r797, a (3R)-3-hydroxyacyl-[acyl-carrier protein] -> a trans-2-enoyl-[acyl-carrier protein] + H2O *\ - \* r796, a (3R)-3-hydroxyacyl-[acyl-carrier protein] -> a trans-2-enoyl-[acyl-carrier protein] + H2O *\ - \* r795, a (3R)-3-hydroxyacyl-[acyl-carrier protein] -> a trans-2-enoyl-[acyl-carrier protein] + H2O *\ - \* r794, a (3R)-3-hydroxyacyl-[acyl-carrier protein] -> a trans-2-enoyl-[acyl-carrier protein] + H2O *\ - \* r793, a (3R)-3-hydroxyacyl-[acyl-carrier protein] -> a trans-2-enoyl-[acyl-carrier protein] + H2O *\ - \* r792, a (3R)-3-hydroxyacyl-[acyl-carrier protein] -> a trans-2-enoyl-[acyl-carrier protein] + H2O *\ - \* r791, a (3R)-3-hydroxyacyl-[acyl-carrier protein] -> a trans-2-enoyl-[acyl-carrier protein] + H2O *\ - \* r785b, 2-dehydropantoate + a tetrahydrofolate -> a 5,10-methylene-tetrahydrofolate + 3-methyl-2-oxobutanoate + H2O *\ - \* r785a, a 5,10-methylene-tetrahydrofolate + 3-methyl-2-oxobutanoate + H2O -> 2-dehydropantoate + a tetrahydrofolate *\ - \* r784b, 2-dehydropantoate + a tetrahydrofolate -> a 5,10-methylene-tetrahydrofolate + 3-methyl-2-oxobutanoate + H2O *\ - \* r784a, a 5,10-methylene-tetrahydrofolate + 3-methyl-2-oxobutanoate + H2O -> 2-dehydropantoate + a tetrahydrofolate *\ - \* r776, glycolaldehyde + NAD+ + H2O -> glycolate + NADH + 2 H+ *\ - \* r772, a reduced thioredoxin + a ribonucleoside diphosphate -> an oxidized thioredoxin + a 2'-deoxyribonucleoside 5'-diphosphate + H2O *\ - \* r771, a reduced thioredoxin + a ribonucleoside diphosphate -> an oxidized thioredoxin + a 2'-deoxyribonucleoside 5'-diphosphate + H2O *\ - \* r770, a reduced thioredoxin + a ribonucleoside diphosphate -> an oxidized thioredoxin + a 2'-deoxyribonucleoside 5'-diphosphate + H2O *\ - \* r769, a reduced thioredoxin + a ribonucleoside diphosphate -> an oxidized thioredoxin + a 2'-deoxyribonucleoside 5'-diphosphate + H2O *\ - \* r768, a reduced thioredoxin + a ribonucleoside diphosphate -> an oxidized thioredoxin + a 2'-deoxyribonucleoside 5'-diphosphate + H2O *\ - \* r767, oxaloacetate + propanoyl-CoA + H2O -> (2S,3S)-2-methylcitrate + coenzyme A + H+ *\ - \* r758b, 2-dehydro-3-deoxy-D-arabinonate + H2O -> D-xylonate *\ - \* r758a, D-xylonate -> 2-dehydro-3-deoxy-D-arabinonate + H2O *\ - \* r749, UDP + a reduced NrdH glutaredoxin-like protein -> dUDP + an oxidized NrdH glutaredoxin-like protein + H2O *\ - \* r746, a reduced thioredoxin + hydrogen peroxide -> an oxidized thioredoxin + 2 H2O *\ - \* r738, CTP + H2O -> CMP + diphosphate + H+ *\ - \* r735, alpha,alpha-trehalose + H2O -> beta-D-glucose + alpha-D-glucose *\ - \* r733, a trans-2-enoyl-CoA + H2O -> a (3S)-3-hydroxyacyl-CoA *\ - \* r732, a trans-2-enoyl-CoA + H2O -> a (3S)-3-hydroxyacyl-CoA *\ - \* r731, a trans-2-enoyl-CoA + H2O -> a (3S)-3-hydroxyacyl-CoA *\ - \* r730, a trans-2-enoyl-CoA + H2O -> a (3S)-3-hydroxyacyl-CoA *\ - \* r729, a trans-2-enoyl-CoA + H2O -> a (3S)-3-hydroxyacyl-CoA *\ - \* r728, a trans-2-enoyl-CoA + H2O -> a (3S)-3-hydroxyacyl-CoA *\ - \* r727, a trans-2-enoyl-CoA + H2O -> a (3S)-3-hydroxyacyl-CoA *\ - \* r726, a trans-2-enoyl-CoA + H2O -> a (3S)-3-hydroxyacyl-CoA *\ - \* r725, a trans-2-enoyl-CoA + H2O -> a (3S)-3-hydroxyacyl-CoA *\ - \* r719, a (3R)-3-hydroxyoctanoyl-[acp] -> a trans oct-2-enoyl-[acp] + H2O *\ - \* r717, sulfite + 3 NADPH + 5 H+ -> hydrogen sulfide + 3 NADP+ + 3 H2O *\ - \* r684b, betaine aldehyde + H2O -> betaine aldehyde hydrate *\ - \* r684a, betaine aldehyde hydrate -> betaine aldehyde + H2O *\ - \* r683, a [protein] (L-serine/L-threonine) phosphate + H2O -> a [protein]-(L-serine/L-threonine) + phosphate *\ - \* r682, L-alanyl-L-leucine + H2O -> L-alanine + L-leucine *\ - \* r671, adenine + H+ + H2O -> ammonium + hypoxanthine *\ - \* r667, D-mannonate -> 2-dehydro-3-deoxy-D-gluconate + H2O *\ - \* r665, 6-phospho D-glucono-1,5-lactone + H2O -> D-gluconate 6-phosphate + H+ *\ - \* r664b, oxaloacetate + H2O -> L-tartrate *\ - \* r664a, L-tartrate -> oxaloacetate + H2O *\ - \* r663b, O-carbamoyladenylate + diphosphate + phosphate -> carbamoyl-phosphate + ATP + H2O *\ - \* r663a, carbamoyl-phosphate + ATP + H2O -> O-carbamoyladenylate + diphosphate + phosphate *\ - \* r662, a [protein]-L-tyrosine phosphate + H2O -> a [protein]-L-tyrosine + phosphate *\ - \* r661b, cis-2-methylaconitate + H2O -> (2R,3S)-2-methylisocitrate *\ - \* r661a, (2R,3S)-2-methylisocitrate -> cis-2-methylaconitate + H2O *\ - \* r657, diphosphate + H2O -> 2 phosphate + H+ *\ - \* r655b, partially N-deacetylated poly-beta-1,6-N-acetyl-D-glucosamine + acetate + H+ -> poly-beta-1,6-N-acetyl-D-glucosamine + H2O *\ - \* r655a, poly-beta-1,6-N-acetyl-D-glucosamine + H2O -> partially N-deacetylated poly-beta-1,6-N-acetyl-D-glucosamine + acetate + H+ *\ - \* r647b, H2O[cytosol] -> H2O[periplasmic space] *\ - \* r647a, H2O[periplasmic space] -> H2O[cytosol] *\ - \* r482, glutathione[cytosol] + ATP + H2O -> glutathione[periplasmic space] + ADP + phosphate + H+ *\ - \* r207, ATP + putrescine[periplasmic space] + H2O -> ADP + putrescine[cytosol] + phosphate + H+ *\ - \* r198, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r197, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r196, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r195, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r194, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r193, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r192, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r191, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r190, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r189, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r188, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r187, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r186, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r185, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r184, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r183, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r182, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r181, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r180, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r179, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r177, an aminoalkylphosphonate[periplasmic space] + ATP + H2O -> an aminoalkylphosphonate[cytosol] + ADP + phosphate + H+ *\ - \* r176, an aminoalkylphosphonate[periplasmic space] + ATP + H2O -> an aminoalkylphosphonate[cytosol] + ADP + phosphate + H+ *\ - \* r175, an aminoalkylphosphonate[periplasmic space] + ATP + H2O -> an aminoalkylphosphonate[cytosol] + ADP + phosphate + H+ *\ - \* r174, an aminoalkylphosphonate[periplasmic space] + ATP + H2O -> an aminoalkylphosphonate[cytosol] + ADP + phosphate + H+ *\ - \* r170, ATP + L-histidine[periplasmic space] + H2O -> ADP + L-histidine[cytosol] + phosphate + H+ *\ - \* r168, ATP + D-xylose[periplasmic space] + H2O -> ADP + D-xylose[cytosol] + phosphate + H+ *\ - \* r167, ATP + D-xylose[periplasmic space] + H2O -> ADP + D-xylose[cytosol] + phosphate + H+ *\ - \* r166, ATP + D-xylose[periplasmic space] + H2O -> ADP + D-xylose[cytosol] + phosphate + H+ *\ - \* r157, ATP + L-valine[periplasmic space] + H2O -> ADP + L-valine[cytosol] + phosphate + H+ *\ - \* r156, ATP + L-aspartate[periplasmic space] + H2O -> L-aspartate[cytosol] + ADP + phosphate + H+ *\ - \* r155, Ni2+[periplasmic space] + ATP + H2O -> Ni2+[cytosol] + ADP + phosphate + H+ *\ - \* r154, D-allose[periplasmic space] + ATP + H2O -> D-allose[cytosol] + ADP + phosphate + H+ *\ - \* r153, (2R,4S)-2-methyl-2,3,3,4-tetrahydroxytetrahydrofuran[periplasmic space] + ATP + H2O -> (2R,4S)-2-methyl-2,3,3,4-tetrahydroxytetrahydrofuran[cytosol] + ADP + phosphate + H+ *\ - \* r151, ATP + spermidine[periplasmic space] + H2O -> ADP + spermidine[cytosol] + phosphate + H+ *\ - \* r150, Zn2+[periplasmic space] + ATP + H2O -> Zn2+[cytosol] + ADP + phosphate + H+ *\ - \* r149, Zn2+[cytosol] + ATP + H2O -> Zn2+[periplasmic space] + ADP + phosphate + H+ *\ - \* r144, ATP + phosphate[periplasmic space] + H2O -> ADP + 2 phosphate[cytosol] + H+ *\ - \* r143, sulfate[periplasmic space] + ATP + H2O -> sulfate[cytosol] + ADP + phosphate + H+ *\ - \* r140, ATP + L-glutamate[periplasmic space] + H2O -> ADP + L-glutamate[cytosol] + phosphate + H+ *\ - \* r137b, ADP + phosphate + 4 H+[out] -> ATP + 3 H+[in] + H2O *\ - \* r137a, ATP + 3 H+[in] + H2O -> ADP + phosphate + 4 H+[out] *\ - \* r136, L-cysteine[periplasmic space] + ATP + H2O -> L-cysteine[cytosol] + ADP + phosphate + H+ *\ - \* r135, L-methionine S-oxide[periplasmic space] + ATP + H2O -> L-methionine S-oxide[cytosol] + ADP + phosphate + H+ *\ - \* r134, L-methionine S-oxide[periplasmic space] + ATP + H2O -> L-methionine S-oxide[cytosol] + ADP + phosphate + H+ *\ - \* r131, ATP + L-leucine[periplasmic space] + H2O -> ADP + L-leucine[cytosol] + phosphate + H+ *\ - \* r130, Cu+[cytosol] + ATP + H2O -> Cu+[periplasmic space] + ADP + phosphate + H+ *\ - \* r129, L-cystine[periplasmic space] + ATP + H2O -> L-cystine[cytosol] + ADP + phosphate + H+ *\ - \* r128, ATP + L-arabinose[periplasmic space] + H2O -> ADP + L-arabinose[cytosol] + phosphate + H+ *\ - \* r127, ATP + L-arabinose[periplasmic space] + H2O -> ADP + L-arabinose[cytosol] + phosphate + H+ *\ - \* r126, ATP + L-arabinose[periplasmic space] + H2O -> ADP + L-arabinose[cytosol] + phosphate + H+ *\ - \* r125, ATP + L-arginine[periplasmic space] + H2O -> ADP + L-arginine[cytosol] + phosphate + H+ *\ - \* r124, ATP + L-alanyl-gamma-D-glutamyl-meso-diaminopimelate[periplasmic space] + H2O -> L-alanyl-gamma-D-glutamyl-meso-diaminopimelate[cytosol] + ADP + phosphate + H+ *\ - \* r123, ATP + an alkylphosphonate[periplasmic space] + H2O -> ADP + an alkylphosphonate[cytosol] + phosphate + H+ *\ - \* r122, ATP + an alkylphosphonate[periplasmic space] + H2O -> ADP + an alkylphosphonate[cytosol] + phosphate + H+ *\ - \* r121, ATP + an alkylphosphonate[periplasmic space] + H2O -> ADP + an alkylphosphonate[cytosol] + phosphate + H+ *\ - \* r120, ATP + L-methionine[periplasmic space] + H2O -> ADP + L-methionine[cytosol] + phosphate + H+ *\ - \* r118, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r117, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r116, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r115, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r114, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r113, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r112, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r111, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r110, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r109, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r108, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r107, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r106, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r105, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r104, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r103, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r102, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r101, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r100, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r99, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r98, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r97, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r96, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r95, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r94, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r93, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r92, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r91, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r90, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r89, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r88, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r87, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r85, ATP + L-proline[periplasmic space] + H2O -> ADP + L-proline[cytosol] + phosphate + H+ *\ - \* r83, K+[periplasmic space] + ATP + H2O -> K+[cytosol] + ADP + phosphate + H+ *\ - \* r82, ATP + L-glutamine[periplasmic space] + H2O -> ADP + L-glutamine[cytosol] + phosphate + H+ *\ - \* r81, L-lysine[periplasmic space] + ATP + H2O -> L-lysine[cytosol] + ADP + phosphate + H+ *\ - \* r79, Mg2+[periplasmic space] + ATP + H2O -> Mg2+[cytosol] + ADP + phosphate + H+ *\ - \* r77, ATP + L-isoleucine[periplasmic space] + H2O -> ADP + L-isoleucine[cytosol] + phosphate + H+ *\ - \* r75, glutathione[periplasmic space] + ATP + H2O -> glutathione[cytosol] + ADP + phosphate + H+ *\ - \* r73, a glycerophosphodiester[periplasmic space] + ATP + H2O -> a glycerophosphodiester[cytosol] + ADP + phosphate + H+ *\ - \* r72, a glycerophosphodiester[periplasmic space] + ATP + H2O -> a glycerophosphodiester[cytosol] + ADP + phosphate + H+ *\ - \* r71, a glycerophosphodiester[periplasmic space] + ATP + H2O -> a glycerophosphodiester[cytosol] + ADP + phosphate + H+ *\ - \* r70, a glycerophosphodiester[periplasmic space] + ATP + H2O -> a glycerophosphodiester[cytosol] + ADP + phosphate + H+ *\ - \* r69, a glycerophosphodiester[periplasmic space] + ATP + H2O -> a glycerophosphodiester[cytosol] + ADP + phosphate + H+ *\ - \* r68, a glycerophosphodiester[periplasmic space] + ATP + H2O -> a glycerophosphodiester[cytosol] + ADP + phosphate + H+ *\ - \* r67, a glycerophosphodiester[periplasmic space] + ATP + H2O -> a glycerophosphodiester[cytosol] + ADP + phosphate + H+ *\ - \* r65, ATP + L-ornithine[periplasmic space] + H2O -> ADP + L-ornithine[cytosol] + phosphate + H+ *\ - \* r63, L-cysteine[cytosol] + ATP + H2O -> L-cysteine[periplasmic space] + ADP + phosphate + H+ *\ - \* r35, ATP + an aliphatic sulfonate[periplasmic space] + H2O -> an aliphatic sulfonate[cytosol] + ADP + phosphate + H+ *\ - \* r34, ATP + an aliphatic sulfonate[periplasmic space] + H2O -> an aliphatic sulfonate[cytosol] + ADP + phosphate + H+ *\ - \* r33, ATP + an aliphatic sulfonate[periplasmic space] + H2O -> an aliphatic sulfonate[cytosol] + ADP + phosphate + H+ *\ - \* r32, ATP + an aliphatic sulfonate[periplasmic space] + H2O -> an aliphatic sulfonate[cytosol] + ADP + phosphate + H+ *\ - \* r31, ATP + an aliphatic sulfonate[periplasmic space] + H2O -> an aliphatic sulfonate[cytosol] + ADP + phosphate + H+ *\ - \* r30, ATP + an aliphatic sulfonate[periplasmic space] + H2O -> an aliphatic sulfonate[cytosol] + ADP + phosphate + H+ *\ - \* r5b, H2O[cytosol] -> H2O[periplasmic space] *\ - \* r5a, H2O[periplasmic space] -> H2O[cytosol] *\ - - -1.0 r2468_e -48.75292 objReactionName -1.0 r2443 -1.0 r2439 -1.0 r2436 +2.0 r2434 -1.0 r2432 + r2425b -1.0 r2425a -1.0 r2423 -1.0 r2420b + r2420a -1.0 r2419 -1.0 r2415 +2.0 r2414b -2.0 r2414a +2.0 r2405 -1.0 r2404 -1.0 r2397 - -1.0 r2395 -1.0 r2390 -1.0 r2380 -1.0 r2377 -1.0 r2376 -1.0 r2375 -1.0 r2369 -1.0 r2367 -1.0 r2366 + r2365 -1.0 r2361 + r2347b -1.0 r2347a -1.0 r2344 -1.0 r2341 -1.0 r2339 -1.0 r2338 -1.0 r2337 -1.0 r2336 -1.0 r2324 - -1.0 r2323 -1.0 r2322 -1.0 r2311 -1.0 r2304 -1.0 r2303 -1.0 r2295 + r2294 + r2293 + r2292 +2.0 r2287 -1.0 r2285 -1.0 r2281 + r2278 -1.0 r2275 -1.0 r2274 -1.0 r2273 -1.0 r2272 -1.0 r2271 -1.0 r2270 -1.0 r2269 - -1.0 r2268 -1.0 r2267 -1.0 r2266 -1.0 r2260 -1.0 r2259 -1.0 r2258 -1.0 r2257 -1.0 r2256 -1.0 r2255 -1.0 r2254 -1.0 r2253 -1.0 r2252 -1.0 r2251 + r2249 -1.0 r2244 -1.0 r2242 -1.0 r2241 -1.0 r2240 -1.0 r2239 -1.0 r2233 - -1.0 r2231 -1.0 r2210 + r2209 + r2206b -1.0 r2206a -1.0 r2202 -1.0 r2198 -1.0 r2196 + r2191b -1.0 r2191a -1.0 r2187 -1.0 r2186 -1.0 r2185 +2.0 r2183 -1.0 r2181 -1.0 r2180 -2.0 r2173b +2.0 r2173a -1.0 r2172 -1.0 r2170 - -1.0 r2164 + r2163 -1.0 r2158b + r2158a + r2157b -1.0 r2157a + r2156 -1.0 r2150 -3.0 r2148 -1.0 r2136 -1.0 r2134 -1.0 r2132 -1.0 r2129 -1.0 r2128b + r2128a -1.0 r2126 + r2124 -1.0 r2119 -1.0 r2110b + r2110a - -1.0 r2108 -1.0 r2107 -1.0 r2105 + r2099b -1.0 r2099a -1.0 r2098 -1.0 r2093 -1.0 r2090 +2.0 r2087 -1.0 r2086 -1.0 r2081 +2.0 r2078b -2.0 r2078a -1.0 r2076 -1.0 r2053 -1.0 r2049 -1.0 r2048 -1.0 r2045b + r2045a -1.0 r2042b - + r2042a -1.0 r2040 -1.0 r2039 + r2038 -1.0 r2021 -1.0 r2018 + r2015b -1.0 r2015a + r2010 -1.0 r2008b + r2008a +2.0 r1990 + r1989b -1.0 r1989a -1.0 r1988 -1.0 r1986 -1.0 r1980 +2.0 r1973 -1.0 r1960 -1.0 r1957 - -1.0 r1952b + r1952a -1.0 r1951 + r1950 -1.0 r1947 -1.0 r1945 -1.0 r1936 -1.0 r1929 -1.0 r1927 -1.0 r1925 -1.0 r1923 -1.0 r1921 -1.0 r1902 -1.0 r1898 + r1894b -1.0 r1894a -1.0 r1893 -1.0 r1891 -1.0 r1878 -1.0 r1877 - + r1875 + r1874b -1.0 r1874a -1.0 r1862 -1.0 r1860 + r1857b -1.0 r1857a -1.0 r1855 -1.0 r1853 -1.0 r1851 -1.0 r1850 -1.0 r1836 -1.0 r1835 + r1827 -3.0 r1807 -1.0 r1802 + r1792b -1.0 r1792a -1.0 r1791 -1.0 r1774 - -1.0 r1769 -1.0 r1768 + r1765 -1.0 r1762 -1.0 r1761 -3.0 r1759 -1.0 r1756 -1.0 r1736 + r1728 -1.0 r1725 -1.0 r1716 -1.0 r1711 -1.0 r1702 -1.0 r1701 +2.0 r1699 -1.0 r1695 -1.0 r1693 -1.0 r1692 -1.0 r1691 -1.0 r1689 - + r1683b -1.0 r1683a +2.0 r1680 + r1674b -1.0 r1674a -1.0 r1670 -1.0 r1668b + r1668a +2.0 r1667 -1.0 r1661 -1.0 r1660 -1.0 r1653 -1.0 r1652 -1.0 r1651 -1.0 r1650 -1.0 r1645 + r1643 + r1642 -1.0 r1640 -1.0 r1638 - + r1633b -1.0 r1633a -1.0 r1631 -1.0 r1630b + r1630a -1.0 r1626b + r1626a +2.0 r1624 -1.0 r1615 -1.0 r1611 + r1609b -1.0 r1609a -1.0 r1604 -1.0 r1601 -1.0 r1600 -1.0 r1591 -2.0 r1589 -1.0 r1585 -1.0 r1580 -1.0 r1579 - +2.0 r1578 -1.0 r1572 -1.0 r1570 + r1567 + r1566 -1.0 r1562 + r1525b -1.0 r1525a -1.0 r1509 -1.0 r1508 + r1503 + r1502 + r1501 + r1498 -1.0 r1480 -1.0 r1474b + r1474a -1.0 r1473 + r1472 + r1468 - + r1467 -1.0 r1466 -1.0 r1463 -1.0 r1445 -1.0 r1437 + r1436 -1.0 r1429 -1.0 r1421 -1.0 r1397 -1.0 r1393 -1.0 r1392 + r1390b -1.0 r1390a -1.0 r1385 -1.0 r1372 -1.0 r1369 -1.0 r1368 -1.0 r1354 -1.0 r1352 -1.0 r1338 - -1.0 r1333 -1.0 r1328 -1.0 r1326 -1.0 r1325 -1.0 r1306 -1.0 r1302 -1.0 r1288 -1.0 r1287 -1.0 r1283 -1.0 r1280 + r1258 -1.0 r1253 + r1249 -1.0 r1246 -1.0 r1239 + r1231b -1.0 r1231a + r1229 + r1224 -1.0 r1222 - +2.0 r1220 -1.0 r1218 -1.0 r1217 -1.0 r1215 + r1203 -1.0 r1201 -1.0 r1193 -1.0 r1176 -1.0 r1175 -1.0 r1174 -1.0 r1173 -1.0 r1158 -1.0 r1157 -1.0 r1156 -1.0 r1155 -1.0 r1154 -1.0 r1153 -1.0 r1152 -1.0 r1151 -1.0 r1150 - -1.0 r1149 -1.0 r1147 -1.0 r1135 + r1134b -1.0 r1134a + r1128b -1.0 r1128a -1.0 r1113 + r1112 + r1110 -1.0 r1108b + r1108a -1.0 r1107b + r1107a -1.0 r1093 -1.0 r1091b + r1091a -1.0 r1090b + r1090a -1.0 r1081 - -1.0 r1079 + r1074 + r1071 -1.0 r1068 + r1067b -1.0 r1067a + r1066 -1.0 r1060 + r1059 + r1058 -1.0 r1056 -1.0 r1045 + r1030 -1.0 r1029 -1.0 r1026 -1.0 r1025 -1.0 r1011 -1.0 r1003 -1.0 r1000 + r997 - -1.0 r987 -1.0 r985 -1.0 r983 -1.0 r981 -1.0 r979 -1.0 r977 -1.0 r975b + r975a + r971 + r969 -1.0 r965 + r964 -1.0 r963 -1.0 r956 -1.0 r955b + r955a + r947b -1.0 r947a + r946b -1.0 r946a - + r945b -1.0 r945a + r944b -1.0 r944a -1.0 r942 + r933 -1.0 r926 -1.0 r923 -1.0 r910 -1.0 r909 + r905 + r897 -2.0 r894 +2.0 r893 + r884b -1.0 r884a + r883 -1.0 r862 -1.0 r861 -1.0 r860 - -1.0 r859 -1.0 r858 -1.0 r857 -1.0 r856 -1.0 r854 -1.0 r852 + r845 -1.0 r836 + r819 + r818 -1.0 r808b + r808a + r797 + r796 + r795 + r794 + r793 + r792 + r791 + r785b - -1.0 r785a + r784b -1.0 r784a -1.0 r776 + r772 + r771 + r770 + r769 + r768 -1.0 r767 -1.0 r758b + r758a + r749 +2.0 r746 -1.0 r738 -1.0 r735 -1.0 r733 -1.0 r732 -1.0 r731 -1.0 r730 - -1.0 r729 -1.0 r728 -1.0 r727 -1.0 r726 -1.0 r725 + r719 +3.0 r717 -1.0 r684b + r684a -1.0 r683 -1.0 r682 -1.0 r671 + r667 -1.0 r665 -1.0 r664b + r664a + r663b -1.0 r663a -1.0 r662 -1.0 r661b - + r661a -1.0 r657 + r655b -1.0 r655a -1.0 r647b + r647a -1.0 r482 -1.0 r207 -1.0 r198 -1.0 r197 -1.0 r196 -1.0 r195 -1.0 r194 -1.0 r193 -1.0 r192 -1.0 r191 -1.0 r190 -1.0 r189 -1.0 r188 -1.0 r187 - -1.0 r186 -1.0 r185 -1.0 r184 -1.0 r183 -1.0 r182 -1.0 r181 -1.0 r180 -1.0 r179 -1.0 r177 -1.0 r176 -1.0 r175 -1.0 r174 -1.0 r170 -1.0 r168 -1.0 r167 -1.0 r166 -1.0 r157 -1.0 r156 -1.0 r155 -1.0 r154 - -1.0 r153 -1.0 r151 -1.0 r150 -1.0 r149 -1.0 r144 -1.0 r143 -1.0 r140 + r137b -1.0 r137a -1.0 r136 -1.0 r135 -1.0 r134 -1.0 r131 -1.0 r130 -1.0 r129 -1.0 r128 -1.0 r127 -1.0 r126 -1.0 r125 -1.0 r124 - -1.0 r123 -1.0 r122 -1.0 r121 -1.0 r120 -1.0 r118 -1.0 r117 -1.0 r116 -1.0 r115 -1.0 r114 -1.0 r113 -1.0 r112 -1.0 r111 -1.0 r110 -1.0 r109 -1.0 r108 -1.0 r107 -1.0 r106 -1.0 r105 -1.0 r104 -1.0 r103 - -1.0 r102 -1.0 r101 -1.0 r100 -1.0 r99 -1.0 r98 -1.0 r97 -1.0 r96 -1.0 r95 -1.0 r94 -1.0 r93 -1.0 r92 -1.0 r91 -1.0 r90 -1.0 r89 -1.0 r88 -1.0 r87 -1.0 r85 -1.0 r83 -1.0 r82 -1.0 r81 - -1.0 r79 -1.0 r77 -1.0 r75 -1.0 r73 -1.0 r72 -1.0 r71 -1.0 r70 -1.0 r69 -1.0 r68 -1.0 r67 -1.0 r65 -1.0 r63 -1.0 r35 -1.0 r34 -1.0 r33 -1.0 r32 -1.0 r31 -1.0 r30 -1.0 r5b + r5a = 0 - -c569: \* CPD-560[CCO-CYTOSOL] *\ - \* r1368, S-methyl-5'-thioadenosine + H2O -> S-methyl-5-thio-D-ribose + adenine *\ - \* r309, S-methyl-5-thio-D-ribose[cytosol] -> S-methyl-5-thio-D-ribose[periplasmic space] *\ - - + r1368 -1.0 r309 = 0 - -c1599: \* CPD-6972[CCO-CYTOSOL] *\ - \* r1468, 4-(2'-carboxyphenyl)-4-oxobutyryl-CoA + H+ -> 1,4-dihydroxy-2-naphthoyl-CoA + H2O *\ - \* r1286, ATP + 2-succinylbenzoate + coenzyme A -> AMP + 4-(2'-carboxyphenyl)-4-oxobutyryl-CoA + diphosphate *\ - - -1.0 r1468 + r1286 = 0 - -c1167: \* D-Allopyranose[CCO-CYTOSOL] *\ - \* r1876, D-allopyranose + ATP -> aldehydo-D-allose 6-phosphate + ADP + H+ *\ - \* r816b, aldehydo-D-allose -> D-allopyranose *\ - \* r816a, D-allopyranose -> aldehydo-D-allose *\ - - -1.0 r1876 + r816b -1.0 r816a = 0 - -c1554: \* 2-Aminobutyrate[CCO-CYTOSOL] *\ - \* r1244b, 2-aminobutanoate + a deaminated amino group donor -> an aminated amino group donor + 2-oxobutanoate *\ - \* r1244a, an aminated amino group donor + 2-oxobutanoate -> 2-aminobutanoate + a deaminated amino group donor *\ - - -1.0 r1244b + r1244a = 0 - -c487: \* KDO-LIPID-IVA[CCO-EXTRACELLULAR] *\ - \* r255, a lipopolysaccharide[cytosol] -> a lipopolysaccharide[extracellular space] *\ - - + r255 = 0 - -c849: \* CPD-10329[CCO-CYTOSOL] *\ - \* r2023b, L-fuculose -> alpha-L-fucopyranose *\ - \* r2023a, alpha-L-fucopyranose -> L-fuculose *\ - \* r957b, beta-L-fucopyranose -> alpha-L-fucopyranose *\ - \* r957a, alpha-L-fucopyranose -> beta-L-fucopyranose *\ - \* r595, L-fucose[periplasmic space] + H+[periplasmic space] -> L-fucose[cytosol] + H+[cytosol] *\ - - + r2023b -1.0 r2023a + r957b -1.0 r957a + r595 = 0 - -c766: \* THYMIDINE[CCO-CYTOSOL] *\ - \* r2198, dTMP + H2O -> thymidine + phosphate *\ - \* r1929, a 2'-deoxyribonucleoside 5'-monophosphate + H2O -> a 2'-deoxynucleoside + phosphate *\ - \* r1595, thymidine + ATP -> dTMP + ADP + H+ *\ - \* r1073b, 2-deoxy-alpha-D-ribose 1-phosphate + thymine -> thymidine + phosphate *\ - \* r1073a, thymidine + phosphate -> 2-deoxy-alpha-D-ribose 1-phosphate + thymine *\ - \* r603, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r484, thymidine[periplasmic space] + H+[periplasmic space] -> thymidine[cytosol] + H+[cytosol] *\ - - + r2198 + r1929 -1.0 r1595 + r1073b -1.0 r1073a + r603 + r484 = 0 - -c698: \* L-LACTATE[CCO-CYTOSOL] *\ - \* r2150, (S)-lactaldehyde + NAD+ + H2O -> (S)-lactate + NADH + 2 H+ *\ - \* r1548, (S)-lactate + an unknown oxidized electron acceptor -> pyruvate + an unknown reduced electron acceptor *\ - \* r645b, lactate[periplasmic space] -> lactate[cytosol] *\ - \* r645a, lactate[cytosol] -> lactate[periplasmic space] *\ - \* r409, (S)-lactate[periplasmic space] + H+[periplasmic space] -> (S)-lactate[cytosol] + H+[cytosol] *\ - - + r2150 -1.0 r1548 + r645b -1.0 r645a + r409 = 0 - -c1910: \* Persulfurated-L-cysteine-desulfurases[CCO-CYTOSOL] *\ - \* r1684b, an S-sulfanyl-[L-cysteine desulfurase] + L-alanine -> L-cystein desulfurase + L-cysteine *\ - \* r1684a, L-cystein desulfurase + L-cysteine -> an S-sulfanyl-[L-cysteine desulfurase] + L-alanine *\ - - -1.0 r1684b + r1684a = 0 - -c739: \* D-TYROSINE[CCO-PERI-BAC] *\ - \* r456, an aromatic amino acid[cytosol] -> an aromatic amino acid[periplasmic space] *\ - - + r456 = 0 - -c783: \* ALPHA-GLUCOSE[CCO-PERI-BAC] *\ - \* r497, D-glucopyranose[periplasmic space] + H+[periplasmic space] -> D-glucopyranose[cytosol] + H+[cytosol] *\ - - -1.0 r497 = 0 - -c1763: \* ACRYLYL-COA[CCO-CYTOSOL] *\ - \* r1482b, acryloyl-CoA + NADPH + H+ -> propanoyl-CoA + NADP+ *\ - \* r1482a, propanoyl-CoA + NADP+ -> acryloyl-CoA + NADPH + H+ *\ - - -1.0 r1482b + r1482a = 0 - -c2132: \* Phenolic-Donors[CCO-PERI-BAC] *\ - \* r2174b, 2 a phenoxyl radical of a phenolic donor + 2 H2O -> 2 a phenolic donor + hydrogen peroxide *\ - \* r2174a, 2 a phenolic donor + hydrogen peroxide -> 2 a phenoxyl radical of a phenolic donor + 2 H2O *\ - - +2.0 r2174b -2.0 r2174a = 0 - -c993: \* b-Keto-cis-D5-dodecenoyl-ACPs[CCO-CYTOSOL] *\ - \* r887, a cis-delta3-decenoyl-[acp] + a malonyl-[acp] + H+ -> a 3-oxo-cis-delta5-dodecenoyl-[acp] + a holo-[acyl-carrier protein] + CO2 *\ - \* r711, a 3-oxo-cis-delta5-dodecenoyl-[acp] + NADPH + H+ -> a (3R)-hydroxy cis delta5-dodecenoyl-[acp] + NADP+ *\ - - + r887 -1.0 r711 = 0 - -c1490: \* DUMP[CCO-CYTOSOL] *\ - \* r2338, dUMP + H2O -> 2'-deoxyuridine + phosphate *\ - \* r2268, a nucleoside diphosphate + H2O -> a nucleoside 5'-monophosphate + phosphate + H+ *\ - \* r1925, a 2'-deoxyribonucleoside 5'-monophosphate + H2O -> a 2'-deoxynucleoside + phosphate *\ - \* r1823, 2'-deoxyuridine + ATP -> dUMP + ADP + H+ *\ - \* r1733, a 5,10-methylene-tetrahydrofolate + dUMP -> dTMP + a 7,8-dihydrofolate *\ - \* r1325, dUTP + H2O -> dUMP + diphosphate + H+ *\ - \* r1151, a nucleoside triphosphate + H2O -> a nucleoside 5'-monophosphate + diphosphate + H+ *\ - - -1.0 r2338 + r2268 -1.0 r1925 + r1823 -1.0 r1733 + r1325 + r1151 = 0 - -c870: \* D-LACTATE[CCO-CYTOSOL] *\ - \* r2206b, N-acetyl-D-glucosamine 6-phosphate + (R)-lactate -> N-acetyl-beta-muramate 6-phosphate + H2O *\ - \* r2206a, N-acetyl-beta-muramate 6-phosphate + H2O -> N-acetyl-D-glucosamine 6-phosphate + (R)-lactate *\ - \* r1756, (R)-S-lactoylglutathione + H2O -> glutathione + (R)-lactate + H+ *\ - \* r1665, (R)-lactate + an ubiquinone[inner membrane] -> pyruvate + an ubiquinol[inner membrane] *\ - \* r1314, pyruvate + NADH + H+ -> (R)-lactate + NAD+ *\ - \* r1246, methylglyoxal + H2O -> (R)-lactate + H+ *\ - \* r646b, lactate[periplasmic space] -> lactate[cytosol] *\ - \* r646a, lactate[cytosol] -> lactate[periplasmic space] *\ - \* r624, (R)-lactate[periplasmic space] + H+[periplasmic space] -> (R)-lactate[cytosol] + H+[cytosol] *\ - - -1.0 r2206b + r2206a + r1756 -1.0 r1665 + r1314 + r1246 + r646b -1.0 r646a + r624 = 0 - -c1516: \* Pimeloyl-ACPs[CCO-CYTOSOL] *\ - \* r1232, a pimeloyl-[acp] + L-alanine + H+ -> 8-amino-7-oxononanoate + CO2 + a holo-[acyl-carrier protein] *\ - \* r1193, a pimeloyl-[acp] methyl ester + H2O -> a pimeloyl-[acp] + methanol + H+ *\ - - -1.0 r1232 + r1193 = 0 - -c1926: \* FE+3[CCO-PERI-BAC] *\ - \* r1713, 4 Fe2+ + 4 H+ + oxygen -> 4 Fe3+ + 2 H2O *\ - - +4.0 r1713 = 0 - -c1900: \* 3-HYDROXYADIPYL-COA[CCO-CYTOSOL] *\ - \* r2188b, 3-oxoadipyl-CoA + NADH + H+ -> 3-hydroxyadipyl-CoA + NAD+ *\ - \* r2188a, 3-hydroxyadipyl-CoA + NAD+ -> 3-oxoadipyl-CoA + NADH + H+ *\ - \* r1668b, 2,3-didehydroadipyl-CoA + H2O -> 3-hydroxyadipyl-CoA *\ - \* r1668a, 3-hydroxyadipyl-CoA -> 2,3-didehydroadipyl-CoA + H2O *\ - - + r2188b -1.0 r2188a + r1668b -1.0 r1668a = 0 - -c1650: \* CPD-14553[CCO-CYTOSOL] *\ - \* r2205b, UDP-alpha-D-galactose -> UDP-alpha-D-glucose *\ - \* r2205a, UDP-alpha-D-glucose -> UDP-alpha-D-galactose *\ - \* r2121, UDP-alpha-D-galactose + glucosyl-(heptosyl)3-Kdo2-lipid A-bisphosphate -> galactosyl-glucosyl-(heptosyl)3-Kdo2-lipid A-bisphosphate + UDP + H+ *\ - \* r1935b, UDP-alpha-D-galactofuranose -> UDP-alpha-D-galactose *\ - \* r1935a, UDP-alpha-D-galactose -> UDP-alpha-D-galactofuranose *\ - \* r1331b, UDP-alpha-D-galactose + alpha-D-glucose 1-phosphate -> UDP-alpha-D-glucose + alpha-D-galactose 1-phosphate *\ - \* r1331a, UDP-alpha-D-glucose + alpha-D-galactose 1-phosphate -> UDP-alpha-D-galactose + alpha-D-glucose 1-phosphate *\ - - -1.0 r2205b + r2205a -1.0 r2121 + r1935b -1.0 r1935a -1.0 r1331b + r1331a = 0 - -c928: \* G3P[CCO-CYTOSOL] *\ - \* r2283b, 3-phospho-hydroxypyruvate + NADH + H+ -> 3-phospho-D-glycerate + NAD+ *\ - \* r2283a, 3-phospho-D-glycerate + NAD+ -> 3-phospho-hydroxypyruvate + NADH + H+ *\ - \* r2224, D-glycerate + ATP -> 3-phospho-D-glycerate + ADP + H+ *\ - \* r1263b, 3-phospho-D-glycerate -> 2-phospho-D-glycerate *\ - \* r1263a, 2-phospho-D-glycerate -> 3-phospho-D-glycerate *\ - \* r1036b, 1,3-bisphospho-D-glycerate + ADP -> 3-phospho-D-glycerate + ATP *\ - \* r1036a, 3-phospho-D-glycerate + ATP -> 1,3-bisphospho-D-glycerate + ADP *\ - \* r775b, a [protein]-Npi-phospho-L-histidine + 3-phospho-D-glycerate -> a [protein]-L-histidine + 2,3-diphospho-D-glycerate *\ - \* r775a, a [protein]-L-histidine + 2,3-diphospho-D-glycerate -> a [protein]-Npi-phospho-L-histidine + 3-phospho-D-glycerate *\ - \* r674b, 3-phospho-D-glycerate -> 2-phospho-D-glycerate *\ - \* r674a, 2-phospho-D-glycerate -> 3-phospho-D-glycerate *\ - - + r2283b -1.0 r2283a + r2224 -1.0 r1263b + r1263a + r1036b -1.0 r1036a -1.0 r775b + r775a -1.0 r674b + r674a = 0 - -c113: \* INOSINE[CCO-EXTRACELLULAR] *\ - \* r56, a nucleoside[extracellular space] -> a nucleoside[periplasmic space] *\ - - -1.0 r56 = 0 - -c203: \* KDO-LIPID-IVA[CCO-CYTOSOL] *\ - \* r2348, alpha-Kdo-(2->6)-lipid IVA + CMP-3-deoxy-alpha-D-manno-octulosonate -> alpha-Kdo-(2->4)-alpha-Kdo-(2->6)-lipid IVA + CMP + H+ *\ - \* r1262, CMP-3-deoxy-alpha-D-manno-octulosonate + lipid IVA -> alpha-Kdo-(2->6)-lipid IVA + CMP + H+ *\ - \* r255, a lipopolysaccharide[cytosol] -> a lipopolysaccharide[extracellular space] *\ - \* r103, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - - -1.0 r2348 + r1262 -1.0 r255 -1.0 r103 = 0 - -c626: \* N-ALPHA-ACETYLORNITHINE[CCO-PERI-BAC] *\ - \* r352, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - - + r352 = 0 - -c48: \* CPD-9247[CCO-PERI-BAC] *\ - \* r25, a long-chain fatty acid[extracellular space] -> a long-chain fatty acid[periplasmic space] *\ - \* r367, a long-chain fatty acid[periplasmic space] -> a long-chain fatty acid[cytosol] *\ - - + r25 -1.0 r367 = 0 - -c1531: \* N2-SUCCINYLGLUTAMATE[CCO-CYTOSOL] *\ - \* r1725, N2-succinyl-L-glutamate 5-semialdehyde + NAD+ + H2O -> N2-succinylglutamate + NADH + 2 H+ *\ - \* r1222, N2-succinylglutamate + H2O -> succinate + L-glutamate *\ - - + r1725 -1.0 r1222 = 0 - -c1374: \* CPD0-2015[CCO-CYTOSOL] *\ - \* r1013b, N-alpha-acetyl-L-methionine + coenzyme A + H+ -> L-methionine + acetyl-CoA *\ - \* r1013a, L-methionine + acetyl-CoA -> N-alpha-acetyl-L-methionine + coenzyme A + H+ *\ - - -1.0 r1013b + r1013a = 0 - -c7: \* CPD0-1122[CCO-EXTRACELLULAR] *\ - \* r4, N-acetylneuraminate[extracellular space] -> N-acetylneuraminate[periplasmic space] *\ - - -1.0 r4 = 0 - -c5: \* CPD0-1123[CCO-EXTRACELLULAR] *\ - \* r11, N-acetyl-beta-neuraminate[extracellular space] -> N-acetyl-beta-neuraminate[periplasmic space] *\ - \* r3, N-acetylneuraminate[extracellular space] -> N-acetylneuraminate[periplasmic space] *\ - - -1.0 r11 -1.0 r3 = 0 - -c912: \* Protein-Tyrosines[CCO-CYTOSOL] *\ - \* r2127, ATP + a [protein]-L-tyrosine -> ADP + a [protein]-L-tyrosine phosphate + H+ *\ - \* r662, a [protein]-L-tyrosine phosphate + H2O -> a [protein]-L-tyrosine + phosphate *\ - - -1.0 r2127 + r662 = 0 - -c1423: \* CMP-KDO[CCO-CYTOSOL] *\ - \* r2348, alpha-Kdo-(2->6)-lipid IVA + CMP-3-deoxy-alpha-D-manno-octulosonate -> alpha-Kdo-(2->4)-alpha-Kdo-(2->6)-lipid IVA + CMP + H+ *\ - \* r2092, 3-deoxy-D-manno-octulosonate + CTP -> CMP-3-deoxy-alpha-D-manno-octulosonate + diphosphate *\ - \* r1262, CMP-3-deoxy-alpha-D-manno-octulosonate + lipid IVA -> alpha-Kdo-(2->6)-lipid IVA + CMP + H+ *\ - \* r1076b, alpha-Kdo-(2->4)-alpha-Kdo-(2->4)-alpha-Kdo-(2->6)-lipid IVA + CMP + H+ -> alpha-Kdo-(2->4)-alpha-Kdo-(2->6)-lipid IVA + CMP-3-deoxy-alpha-D-manno-octulosonate *\ - \* r1076a, alpha-Kdo-(2->4)-alpha-Kdo-(2->6)-lipid IVA + CMP-3-deoxy-alpha-D-manno-octulosonate -> alpha-Kdo-(2->4)-alpha-Kdo-(2->4)-alpha-Kdo-(2->6)-lipid IVA + CMP + H+ *\ - - -1.0 r2348 + r2092 -1.0 r1262 + r1076b -1.0 r1076a = 0 - -c2110: \* 7-8-DIHYDROPTEROATE[CCO-CYTOSOL] *\ - \* r2133, 4-aminobenzoate + (2-amino-4-hydroxy-7,8-dihydropteridin-6-yl)methyl diphosphate -> 7,8-dihydropteroate + diphosphate *\ - \* r2101, L-glutamate + 7,8-dihydropteroate + ATP -> ADP + 7,8-dihydrofolate monoglutamate + phosphate + H+ *\ - - + r2133 -1.0 r2101 = 0 - -c907: \* DE-O-GLUCONATE[CCO-CYTOSOL] *\ - \* r660b, 3-dehydro-2-deoxy-D-gluconate + NADH + H+ -> 2-deoxygluconate + NAD+ *\ - \* r660a, 2-deoxygluconate + NAD+ -> 3-dehydro-2-deoxy-D-gluconate + NADH + H+ *\ - - + r660b -1.0 r660a = 0 - -c480: \* KDO2-LIPID-IVA-COLD[CCO-EXTRACELLULAR] *\ - \* r248, a lipopolysaccharide[cytosol] -> a lipopolysaccharide[extracellular space] *\ - - + r248 = 0 - -c465: \* PYRUVATE[CCO-CYTOSOL] *\ - \* r235, pyruvate[periplasmic space] -> pyruvate[cytosol] *\ - \* r390, pyruvate[cytosol] -> pyruvate[periplasmic space] *\ - \* r734a, pyruvate + 2 an oxidized ferredoxin + coenzyme A -> acetyl-CoA + CO2 + 2 a reduced ferredoxin + H+ *\ - \* r734b, acetyl-CoA + CO2 + 2 a reduced ferredoxin + H+ -> pyruvate + 2 an oxidized ferredoxin + coenzyme A *\ - \* r803a, 2-dehydro-3-deoxy-L-rhamnonate -> pyruvate + (S)-lactaldehyde *\ - \* r803b, pyruvate + (S)-lactaldehyde -> 2-dehydro-3-deoxy-L-rhamnonate *\ - \* r814, L-serine -> pyruvate + ammonium *\ - \* r844a, 2-oxoglutarate + L-alanine -> L-glutamate + pyruvate *\ - \* r844b, L-glutamate + pyruvate -> 2-oxoglutarate + L-alanine *\ - \* r904a, pyruvate + an oxidized flavodoxin + coenzyme A + H+ -> acetyl-CoA + CO2 + a reduced flavodoxin *\ - \* r904b, acetyl-CoA + CO2 + a reduced flavodoxin -> pyruvate + an oxidized flavodoxin + coenzyme A + H+ *\ - \* r907a, D-serine -> pyruvate + ammonium *\ - \* r907b, pyruvate + ammonium -> D-serine *\ - \* r1039, 2-succinyl-5-enolpyruvyl-6-hydroxy-3-cyclohexene-1-carboxylate -> (1R,6R)-6-hydroxy-2-succinylcyclohexa-2,4-diene-1-carboxylate + pyruvate *\ - \* r1148a, 5-dehydro-4-deoxy-D-glucarate -> pyruvate + tartronate semialdehyde *\ - \* r1148b, pyruvate + tartronate semialdehyde -> 5-dehydro-4-deoxy-D-glucarate *\ - \* r1217, D-cysteine + H2O -> ammonium + pyruvate + hydrogen sulfide *\ - \* r1218, L-cystathionine + H2O -> ammonium + pyruvate + L-homocysteine *\ - \* r1221a, 2-dehydro-3-deoxy-D-gluconate -> D-glyceraldehyde + pyruvate *\ - \* r1221b, D-glyceraldehyde + pyruvate -> 2-dehydro-3-deoxy-D-gluconate *\ - \* r1270a, (2R,3S)-2-methylisocitrate -> succinate + pyruvate *\ - \* r1270b, succinate + pyruvate -> (2R,3S)-2-methylisocitrate *\ - \* r1314, pyruvate + NADH + H+ -> (R)-lactate + NAD+ *\ - \* r1336a, pyruvate + L-valine -> L-alanine + 3-methyl-2-oxobutanoate *\ - \* r1336b, L-alanine + 3-methyl-2-oxobutanoate -> pyruvate + L-valine *\ - \* r1359, 2-dehydro-3-deoxy-D-gluconate 6-phosphate -> D-glyceraldehyde 3-phosphate + pyruvate *\ - \* r1360a, 2-dehydro-3-deoxy-D-arabinonate -> glycolaldehyde + pyruvate *\ - \* r1360b, glycolaldehyde + pyruvate -> 2-dehydro-3-deoxy-D-arabinonate *\ - \* r1498, pyruvate + L-aspartate-semialdehyde -> (2S,4S)-4-hydroxy-2,3,4,5-tetrahydrodipicolinate + H2O + H+ *\ - \* r1531, dihydroxyacetone + phosphoenolpyruvate -> glycerone phosphate + pyruvate *\ - \* r1548, (S)-lactate + an unknown oxidized electron acceptor -> pyruvate + an unknown reduced electron acceptor *\ - \* r1556a, N-acetylneuraminate -> N-acetyl-D-mannosamine + pyruvate *\ - \* r1556b, N-acetyl-D-mannosamine + pyruvate -> N-acetylneuraminate *\ - \* r1572, pyruvate + ATP + H2O -> phosphoenolpyruvate + AMP + phosphate + 2 H+ *\ - \* r1612, (R)-malate + NAD+ -> CO2 + pyruvate + NADH *\ - \* r1652, a D-amino acid + an electron-transfer quinone[inner membrane] + H2O -> ammonium + a 2-oxo carboxylate + an electron-transfer quinol[inner membrane] *\ - \* r1653, a D-amino acid + an electron-transfer quinone[inner membrane] + H2O -> ammonium + a 2-oxo carboxylate + an electron-transfer quinol[inner membrane] *\ - \* r1660, D-alanine + an electron-transfer quinone[inner membrane] + H2O -> ammonium + pyruvate + an electron-transfer quinol[inner membrane] *\ - \* r1661, D-alanine + an electron-transfer quinone[inner membrane] + H2O -> ammonium + pyruvate + an electron-transfer quinol[inner membrane] *\ - \* r1665, (R)-lactate + an ubiquinone[inner membrane] -> pyruvate + an ubiquinol[inner membrane] *\ - \* r1689, pyruvate + an ubiquinone[inner membrane] + H2O -> CO2 + acetate + an ubiquinol[inner membrane] *\ - \* r1691, an aldehyde + NADP+ + H2O -> a carboxylate + NADPH + 2 H+ *\ - \* r1700, oxaloacetate + H+ -> pyruvate + CO2 *\ - \* r1750a, pyruvate + thiamin diphosphate + H+ -> 2-(alpha-hydroxyethyl)thiamine diphosphate + CO2 *\ - \* r1750b, 2-(alpha-hydroxyethyl)thiamine diphosphate + CO2 -> pyruvate + thiamin diphosphate + H+ *\ - \* r1773a, 2 pyruvate + H+ -> (S)-2-acetolactate + CO2 *\ - \* r1773b, (S)-2-acetolactate + CO2 -> 2 pyruvate + H+ *\ - \* r1774, 2-iminopropanoate + H+ + H2O -> pyruvate + ammonium *\ - \* r1809a, 2-dehydro-3-deoxy-D-galactonate 6-phosphate -> D-glyceraldehyde 3-phosphate + pyruvate *\ - \* r1809b, D-glyceraldehyde 3-phosphate + pyruvate -> 2-dehydro-3-deoxy-D-galactonate 6-phosphate *\ - \* r1813a, L-methionine + a 2-oxo carboxylate -> 2-oxo-4-methylthiobutanoate + a standard alpha amino acid *\ - \* r1813b, 2-oxo-4-methylthiobutanoate + a standard alpha amino acid -> L-methionine + a 2-oxo carboxylate *\ - \* r1848a, D-alanine + pyridoxal 5'-phosphate -> pyruvate + pyridoxamine 5'-phosphate *\ - \* r1848b, pyruvate + pyridoxamine 5'-phosphate -> D-alanine + pyridoxal 5'-phosphate *\ - \* r1868a, 4-amino-4-deoxychorismate -> 4-aminobenzoate + pyruvate + H+ *\ - \* r1868b, 4-aminobenzoate + pyruvate + H+ -> 4-amino-4-deoxychorismate *\ - \* r1912, pyruvate + D-glyceraldehyde 3-phosphate + H+ -> CO2 + 1-deoxy-D-xylulose 5-phosphate *\ - \* r1979a, 4-hydroxy-2-oxopentanoate -> acetaldehyde + pyruvate *\ - \* r1979b, acetaldehyde + pyruvate -> 4-hydroxy-2-oxopentanoate *\ - \* r2053, isochorismate + H2O -> pyruvate + (2S,3S)-2,3-dihydroxy-2,3-dihydrobenzoate *\ - \* r2083a, pyruvate + ATP -> ADP + phosphoenolpyruvate + H+ *\ - \* r2083b, ADP + phosphoenolpyruvate + H+ -> pyruvate + ATP *\ - \* r2120, (S)-malate + NAD+ -> CO2 + pyruvate + NADH *\ - \* r2162a, phosphoenolpyruvate + PtsI -> pyruvate + PtsI-Phis189 *\ - \* r2162b, pyruvate + PtsI-Phis189 -> phosphoenolpyruvate + PtsI *\ - \* r2230a, (4S)-4-hydroxy-2-oxoglutarate -> glyoxylate + pyruvate *\ - \* r2230b, glyoxylate + pyruvate -> (4S)-4-hydroxy-2-oxoglutarate *\ - \* r2244, L-cysteine + H2O -> pyruvate + ammonium + hydrogen sulfide *\ - \* r2247, (S)-malate + NADP+ -> CO2 + pyruvate + NADPH *\ - \* r2261a, N-acetyl-beta-neuraminate -> N-acetyl-beta-D-mannosamine + pyruvate *\ - \* r2261b, N-acetyl-beta-D-mannosamine + pyruvate -> N-acetyl-beta-neuraminate *\ - \* r2355, pyruvate + 2-oxobutanoate + H+ -> (S)-2-aceto-2-hydroxybutanoate + CO2 *\ - \* r2371, chorismate + L-glutamine -> anthranilate + pyruvate + L-glutamate + H+ *\ - \* r2380, 2-aminoprop-2-enoate + H+ + H2O -> pyruvate + ammonium *\ - \* r2386, chorismate -> 4-hydroxybenzoate + pyruvate *\ - \* r2407, pyruvate + a [pyruvate dehydrogenase E2 protein] N6-lipoyl-L-lysine + H+ -> a [pyruvate dehydrogenase E2 protein] N6-S-acetyldihydrolipoyl-L-lysine + CO2 *\ - \* r2409, pyruvate + coenzyme A + NAD+ -> acetyl-CoA + CO2 + NADH *\ - \* r2425a, L-tryptophan + H2O -> ammonium + indole + pyruvate *\ - \* r2425b, ammonium + indole + pyruvate -> L-tryptophan + H2O *\ - - + r235 -1.0 r390 -1.0 r734a + r734b + r803a -1.0 r803b + r814 + r844a -1.0 r844b -1.0 r904a + r904b + r907a -1.0 r907b + r1039 + r1148a -1.0 r1148b + r1217 + r1218 + r1221a - -1.0 r1221b + r1270a -1.0 r1270b -1.0 r1314 -1.0 r1336a + r1336b + r1359 + r1360a -1.0 r1360b -1.0 r1498 + r1531 + r1548 + r1556a -1.0 r1556b -1.0 r1572 + r1612 + r1652 + r1653 + r1660 + r1661 - + r1665 -1.0 r1689 + r1691 + r1700 -1.0 r1750a + r1750b -2.0 r1773a +2.0 r1773b + r1774 + r1809a -1.0 r1809b -1.0 r1813a + r1813b + r1848a -1.0 r1848b + r1868a -1.0 r1868b -1.0 r1912 + r1979a -1.0 r1979b - + r2053 -1.0 r2083a + r2083b + r2120 + r2162a -1.0 r2162b + r2230a -1.0 r2230b + r2244 + r2247 + r2261a -1.0 r2261b -1.0 r2355 + r2371 + r2380 + r2386 -1.0 r2407 -1.0 r2409 + r2425a -1.0 r2425b = 0 - -c1234: \* OXIDIZED-GLUTATHIONE[CCO-CYTOSOL] *\ - \* r877, 2 glutathione + an oxidized glutaredoxin -> glutathione disulfide + a reduced glutaredoxin *\ - \* r878, 2 glutathione + an oxidized glutaredoxin -> glutathione disulfide + a reduced glutaredoxin *\ - \* r1858a, D-cystine + 2 glutathione -> glutathione disulfide + 2 D-cysteine *\ - \* r1858b, glutathione disulfide + 2 D-cysteine -> D-cystine + 2 glutathione *\ - \* r1870, hydrogen sulfide + glutathione disulfide -> S-sulfanylglutathione + glutathione *\ - \* r1944, glutathione disulfide + NADPH + H+ -> 2 glutathione + NADP+ *\ - \* r2325a, L-cystine + 2 glutathione -> glutathione disulfide + 2 L-cysteine *\ - \* r2325b, glutathione disulfide + 2 L-cysteine -> L-cystine + 2 glutathione *\ - \* r2434, hydrogen peroxide + 2 glutathione -> glutathione disulfide + 2 H2O *\ - - + r877 + r878 + r1858a -1.0 r1858b -1.0 r1870 -1.0 r1944 + r2325a -1.0 r2325b + r2434 = 0 - -c1712: \* POLYMER-INST-CIS-DELTA3-ENOYL-COA-C4-H8[CCO-CYTOSOL] *\ - \* r1414b, a trans-2-enoyl-CoA -> a cis-3-enoyl-CoA *\ - \* r1414a, a cis-3-enoyl-CoA -> a trans-2-enoyl-CoA *\ - - + r1414b -1.0 r1414a = 0 - -c2171: \* CPD-9569[CCO-CYTOSOL] *\ - \* r2246b, L-sorbopyranose -> keto-L-sorbose *\ - \* r2246a, keto-L-sorbose -> L-sorbopyranose *\ - - -1.0 r2246b + r2246a = 0 - -c1215: \* CmaD-peptidyl-carrier-protein[CCO-CYTOSOL] *\ - \* r1051, an acyl-carrier protein + coenzyme A -> adenosine 3',5'-bisphosphate + a holo-[acyl-carrier protein] + H+ *\ - \* r858, a holo-[acyl-carrier protein] + H2O -> 4'-phosphopantetheine + an acyl-carrier protein + H+ *\ - - -1.0 r1051 + r858 = 0 - -c949: \* SO3[CCO-CYTOSOL] *\ - \* r2278, 1-butanesulfonate + FMNH2 + oxygen -> butanal + sulfite + FMN + H2O + 2 H+ *\ - \* r2015b, L-alanine + sulfite + H+ -> 3-sulfinoalanine + H2O *\ - \* r2015a, 3-sulfinoalanine + H2O -> L-alanine + sulfite + H+ *\ - \* r1950, isethionate + FMNH2 + oxygen -> glycolaldehyde + sulfite + FMN + H2O + 2 H+ *\ - \* r1503, an alkylsulfonate + FMNH2 + oxygen -> an aldehyde + sulfite + FMN + H2O + 2 H+ *\ - \* r1502, an alkylsulfonate + FMNH2 + oxygen -> an aldehyde + sulfite + FMN + H2O + 2 H+ *\ - \* r1501, an alkylsulfonate + FMNH2 + oxygen -> an aldehyde + sulfite + FMN + H2O + 2 H+ *\ - \* r1172, 3'-phosphoadenylyl-sulfate + a reduced thioredoxin -> adenosine 3',5'-bisphosphate + sulfite + an oxidized thioredoxin + 2 H+ *\ - \* r1006b, an oxidized thioredoxin + sulfite + hydrogen sulfide + H+ -> a reduced thioredoxin + thiosulfate *\ - \* r1006a, a reduced thioredoxin + thiosulfate -> an oxidized thioredoxin + sulfite + hydrogen sulfide + H+ *\ - \* r717, sulfite + 3 NADPH + 5 H+ -> hydrogen sulfide + 3 NADP+ + 3 H2O *\ - \* r687b, bisulfite -> sulfite + H+ *\ - \* r687a, sulfite + H+ -> bisulfite *\ - - + r2278 -1.0 r2015b + r2015a + r1950 + r1503 + r1502 + r1501 + r1172 -1.0 r1006b + r1006a -1.0 r717 + r687b -1.0 r687a = 0 - -c1223: \* SUC-COA[CCO-CYTOSOL] *\ - \* objReactionName, succinyl-CoA *\ - \* r2441, 2-oxoglutarate + coenzyme A + NAD+ -> succinyl-CoA + CO2 + NADH *\ - \* r2421b, a [2-oxoglutarate dehydrogenase E2 protein] N6-S-succinyldihydrolipoyl-L-lysine + coenzyme A -> succinyl-CoA + a [2-oxoglutarate dehydrogenase E2 protein] N6-dihydrolipoyl-L-lysine *\ - \* r2421a, succinyl-CoA + a [2-oxoglutarate dehydrogenase E2 protein] N6-dihydrolipoyl-L-lysine -> a [2-oxoglutarate dehydrogenase E2 protein] N6-S-succinyldihydrolipoyl-L-lysine + coenzyme A *\ - \* r2396b, propanoate + succinyl-CoA -> propanoyl-CoA + succinate *\ - \* r2396a, propanoyl-CoA + succinate -> propanoate + succinyl-CoA *\ - \* r2279, 3-oxoadipyl-CoA + coenzyme A -> succinyl-CoA + acetyl-CoA *\ - \* r2135, L-homoserine + succinyl-CoA -> O-succinyl-L-homoserine + coenzyme A *\ - \* r1867b, succinyl-CoA -> (R)-methylmalonyl-CoA *\ - \* r1867a, (R)-methylmalonyl-CoA -> succinyl-CoA *\ - \* r1068, (S)-2,3,4,5-tetrahydrodipicolinate + succinyl-CoA + H2O -> N-succinyl-2-amino-6-ketopimelate + coenzyme A *\ - \* r1062b, succinyl-CoA + ADP + phosphate -> succinate + ATP + coenzyme A *\ - \* r1062a, succinate + ATP + coenzyme A -> succinyl-CoA + ADP + phosphate *\ - \* r863, L-arginine + succinyl-CoA -> N2-succinyl-L-arginine + coenzyme A + H+ *\ - - -0.000098 objReactionName + r2441 + r2421b -1.0 r2421a -1.0 r2396b + r2396a + r2279 -1.0 r2135 -1.0 r1867b + r1867a -1.0 r1068 -1.0 r1062b + r1062a -1.0 r863 = 0 - -c919: \* D-MANNONATE[CCO-CYTOSOL] *\ - \* r1976b, D-fructuronate + NADH + H+ -> D-mannonate + NAD+ *\ - \* r1976a, D-mannonate + NAD+ -> D-fructuronate + NADH + H+ *\ - \* r667, D-mannonate -> 2-dehydro-3-deoxy-D-gluconate + H2O *\ - - + r1976b -1.0 r1976a -1.0 r667 = 0 - -c1740: \* tRNA-Adenosines-37[CCO-CYTOSOL] *\ - \* r1455b, N6-dimethylallyladenosine37 in tRNA + diphosphate -> dimethylallyl diphosphate + an adenosine37 in tRNA *\ - \* r1455a, dimethylallyl diphosphate + an adenosine37 in tRNA -> N6-dimethylallyladenosine37 in tRNA + diphosphate *\ - - + r1455b -1.0 r1455a = 0 - -c886: \* OXYGEN-MOLECULE[CCO-CYTOSOL] *\ - \* r2278, 1-butanesulfonate + FMNH2 + oxygen -> butanal + sulfite + FMN + H2O + 2 H+ *\ - \* r2183, coproporphyrinogen III + oxygen + 2 H+ -> protoporphyrinogen IX + 2 CO2 + 2 H2O *\ - \* r2124, 2-octaprenylphenol + NADPH + oxygen + H+ -> 3-(all-trans-octaprenyl)benzene-1,2-diol + NADP+ + H2O *\ - \* r2108, gamma-glutamyl-L-putrescine + H2O + oxygen -> 4-(gamma-glutamylamino)butanal + hydrogen peroxide + ammonium *\ - \* r2087, 2 hydrogen peroxide -> 2 H2O + oxygen *\ - \* r2038, 2-methoxy-6-(all-trans-octaprenyl)phenol + NADPH + oxygen + H+ -> 2-methoxy-6-all trans-octaprenyl-2-methoxy-1,4-benzoquinol + NADP+ + H2O *\ - \* r1950, isethionate + FMNH2 + oxygen -> glycolaldehyde + sulfite + FMN + H2O + 2 H+ *\ - \* r1875, 6-methoxy-3-methyl-2-all-trans-octaprenyl-1,4-benzoquinol + an unknown reduced electron acceptor + oxygen -> 3-demethylubiquinol-8 + an unknown oxidized electron acceptor + H2O *\ - \* r1680, 2 an ubiquinol[inner membrane] + oxygen + 4 H+ -> 2 an ubiquinone[inner membrane] + 2 H2O + 4 H+[periplasmic space] *\ - \* r1667, 2 an ubiquinol[inner membrane] + oxygen + 8 H+ -> 2 an ubiquinone[inner membrane] + 2 H2O + 8 H+[periplasmic space] *\ - \* r1503, an alkylsulfonate + FMNH2 + oxygen -> an aldehyde + sulfite + FMN + H2O + 2 H+ *\ - \* r1502, an alkylsulfonate + FMNH2 + oxygen -> an aldehyde + sulfite + FMN + H2O + 2 H+ *\ - \* r1501, an alkylsulfonate + FMNH2 + oxygen -> an aldehyde + sulfite + FMN + H2O + 2 H+ *\ - \* r1483, pyridoxine 5'-phosphate + oxygen -> hydrogen peroxide + pyridoxal 5'-phosphate *\ - \* r1393, pyridoxamine 5'-phosphate + oxygen + H2O -> ammonium + hydrogen peroxide + pyridoxal 5'-phosphate *\ - \* r1350, (S)-2-hydroxyglutarate + oxygen -> 2-oxoglutarate + hydrogen peroxide *\ - \* r1058, phenylacetyl-CoA + NADPH + oxygen + H+ -> 2-(1,2-epoxy-1,2-dihydrophenyl)acetyl-CoA + NADP+ + H2O *\ - \* r888, protoporphyrinogen IX + 3 oxygen -> protoporphyrin IX + 3 hydrogen peroxide *\ - \* r812, L-aspartate + oxygen -> hydrogen peroxide + 2-iminosuccinate + H+ *\ - \* r642b, oxygen[cytosol] -> oxygen[periplasmic space] *\ - \* r642a, oxygen[periplasmic space] -> oxygen[cytosol] *\ - - -1.0 r2278 -1.0 r2183 -1.0 r2124 -1.0 r2108 + r2087 -1.0 r2038 -1.0 r1950 -1.0 r1875 -1.0 r1680 -1.0 r1667 -1.0 r1503 -1.0 r1502 -1.0 r1501 -1.0 r1483 -1.0 r1393 -1.0 r1350 -1.0 r1058 -3.0 r888 -1.0 r812 - -1.0 r642b + r642a = 0 - -c610: \* LL-DIAMINOPIMELATE[CCO-PERI-BAC] *\ - \* r341, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - - + r341 = 0 - -c1587: \* LAUROYLCOA-CPD[CCO-CYTOSOL] *\ - \* r2253, an acyl-CoA + H2O -> a carboxylate + coenzyme A + H+ *\ - \* r2064b, a 2,3,4-saturated fatty acid + acetyl-CoA -> a 2,3,4-saturated fatty acyl CoA + acetate *\ - \* r2064a, a 2,3,4-saturated fatty acyl CoA + acetate -> a 2,3,4-saturated fatty acid + acetyl-CoA *\ - \* r1966, a 3-oxoacyl-CoA + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + acetyl-CoA *\ - \* r1916, a 2,3,4-saturated fatty acyl CoA + NADP+ -> a trans-2-enoyl-CoA + NADPH + H+ *\ - \* r1780, a 2,3,4-saturated fatty acyl CoA + an oxidized electron-transfer flavoprotein + H+ -> a trans-2-enoyl-CoA + a reduced electron-transfer flavoprotein *\ - \* r1275, a 2,3,4-saturated fatty acid + ATP + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + AMP + diphosphate *\ - - -1.0 r2253 + r2064b -1.0 r2064a + r1966 -1.0 r1916 -1.0 r1780 + r1275 = 0 - -c696: \* CPD0-1112[CCO-CYTOSOL] *\ - \* r1124, alpha-L-rhamnopyranose -> beta-L-rhamnopyranose *\ - \* r901b, keto-L-rhamnulose -> beta-L-rhamnopyranose *\ - \* r901a, beta-L-rhamnopyranose -> keto-L-rhamnulose *\ - \* r408, L-rhamnose[periplasmic space] + H+[periplasmic space] -> L-rhamnose[cytosol] + H+[cytosol] *\ - - + r1124 + r901b -1.0 r901a + r408 = 0 - -c399: \* CPD0-1110[CCO-CYTOSOL] *\ - \* r666a, aldehydo-D-ribose -> D-ribopyranose *\ - \* r666b, D-ribopyranose -> aldehydo-D-ribose *\ - \* r2131a, beta-D-ribopyranose -> beta-D-ribofuranose *\ - \* r2131b, beta-D-ribofuranose -> beta-D-ribopyranose *\ - - + r666a -1.0 r666b -1.0 r2131a + r2131b = 0 - -c79: \* DEOXYINOSINE[CCO-EXTRACELLULAR] *\ - \* r39, a nucleoside[extracellular space] -> a nucleoside[periplasmic space] *\ - - -1.0 r39 = 0 - -c1287: \* UDP-AAGM-DIAMINOHEPTANEDIOATE[CCO-CYTOSOL] *\ - \* r922, D-alanyl-D-alanine + UDP-N-acetyl-alpha-D-muramoyl-L-alanyl-gamma-D-glutamyl-meso-2,6-diaminopimelate + ATP -> UDP-N-acetyl-alpha-D-muramoyl-L-alanyl-gamma-D-glutamyl-meso-2,6-diaminopimeloyl-D-alanyl-D-alanine + ADP + phosphate + H+ *\ - \* r1404, UDP-N-acetyl-alpha-D-muramate + L-alanyl-gamma-D-glutamyl-meso-diaminopimelate + ATP -> UDP-N-acetyl-alpha-D-muramoyl-L-alanyl-gamma-D-glutamyl-meso-2,6-diaminopimelate + ADP + phosphate + H+ *\ - \* r2111, meso-diaminopimelate + UDP-N-acetyl-alpha-D-muramoyl-L-alanyl-D-glutamate + ATP -> UDP-N-acetyl-alpha-D-muramoyl-L-alanyl-gamma-D-glutamyl-meso-2,6-diaminopimelate + ADP + phosphate + H+ *\ - - -1.0 r922 + r1404 + r2111 = 0 - -c1909: \* L-Cysteine-Desulfurases[CCO-CYTOSOL] *\ - \* r1684b, an S-sulfanyl-[L-cysteine desulfurase] + L-alanine -> L-cystein desulfurase + L-cysteine *\ - \* r1684a, L-cystein desulfurase + L-cysteine -> an S-sulfanyl-[L-cysteine desulfurase] + L-alanine *\ - - + r1684b -1.0 r1684a = 0 - -c1273: \* 3-hydroxy-cis-D9-hexaecenoyl-ACPs[CCO-CYTOSOL] *\ - \* r1057, a 3-oxo-cis-delta9-hexadecenoyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxy cis delta9-hexadecenoyl-[acp] + NADP+ *\ - \* r905, a (3R)-3-hydroxy cis delta9-hexadecenoyl-[acp] -> a trans-delta3-cis-delta9-hexadecenoyl-[acp] + H2O *\ - - + r1057 -1.0 r905 = 0 - -c1154: \* PHOSPHO-PHOB[CCO-CYTOSOL] *\ - \* r805b, CreC + PhoB-Pasp53 -> CreC sensory histidine kinase - phosphorylated + PhoB *\ - \* r805a, CreC sensory histidine kinase - phosphorylated + PhoB -> CreC + PhoB-Pasp53 *\ - - -1.0 r805b + r805a = 0 - -c1072: \* PHOSPHO-ENOL-PYRUVATE[CCO-CYTOSOL] *\ - \* r855, oxaloacetate + ATP -> CO2 + phosphoenolpyruvate + ADP *\ - \* r1475a, oxaloacetate + phosphate -> phosphoenolpyruvate + hydrogen carbonate *\ - \* r1475b, phosphoenolpyruvate + hydrogen carbonate -> oxaloacetate + phosphate *\ - \* r1531, dihydroxyacetone + phosphoenolpyruvate -> glycerone phosphate + pyruvate *\ - \* r1572, pyruvate + ATP + H2O -> phosphoenolpyruvate + AMP + phosphate + 2 H+ *\ - \* r1768, D-arabinose 5-phosphate + phosphoenolpyruvate + H2O -> 3-deoxy-D-manno-octulosonate 8-phosphate + phosphate *\ - \* r1831, UDP-N-acetyl-alpha-D-glucosamine + phosphoenolpyruvate -> UDP-N-acetyl-alpha-D-glucosamine-enolpyruvate + phosphate *\ - \* r1948a, shikimate 3-phosphate + phosphoenolpyruvate -> 5-enolpyruvyl-shikimate 3-phosphate + phosphate *\ - \* r1948b, 5-enolpyruvyl-shikimate 3-phosphate + phosphate -> shikimate 3-phosphate + phosphoenolpyruvate *\ - \* r1952a, 2-phospho-D-glycerate -> phosphoenolpyruvate + H2O *\ - \* r1952b, phosphoenolpyruvate + H2O -> 2-phospho-D-glycerate *\ - \* r2083a, pyruvate + ATP -> ADP + phosphoenolpyruvate + H+ *\ - \* r2083b, ADP + phosphoenolpyruvate + H+ -> pyruvate + ATP *\ - \* r2098, phosphoenolpyruvate + D-erythrose 4-phosphate + H2O -> 3-deoxy-D-arabino-heptulosonate-7-phosphate + phosphate *\ - \* r2162a, phosphoenolpyruvate + PtsI -> pyruvate + PtsI-Phis189 *\ - \* r2162b, pyruvate + PtsI-Phis189 -> phosphoenolpyruvate + PtsI *\ - - + r855 + r1475a -1.0 r1475b -1.0 r1531 + r1572 -1.0 r1768 -1.0 r1831 -1.0 r1948a + r1948b + r1952a -1.0 r1952b + r2083a -1.0 r2083b -1.0 r2098 -1.0 r2162a + r2162b = 0 - -c77: \* DEOXYADENOSINE[CCO-EXTRACELLULAR] *\ - \* r38, a nucleoside[extracellular space] -> a nucleoside[periplasmic space] *\ - - -1.0 r38 = 0 - -c1520: \* 2K-4CH3-PENTANOATE[CCO-CYTOSOL] *\ - \* r2382b, 4-methyl-2-oxopentanoate + L-glutamate -> L-leucine + 2-oxoglutarate *\ - \* r2382a, L-leucine + 2-oxoglutarate -> 4-methyl-2-oxopentanoate + L-glutamate *\ - \* r1202, (2S)-2-isopropyl-3-oxosuccinate + H+ -> 4-methyl-2-oxopentanoate + CO2 *\ - - -1.0 r2382b + r2382a + r1202 = 0 - -c208: \* KDO2-LIPID-IVA[CCO-PERI-BAC] *\ - \* r1605b, a 1,2-diacyl-sn-glycerol[periplasmic space] + 7-O-[2-aminoethoxy(hydroxy)phosphoryl]-alpha-D-Kdo-(2->4)-alpha-D-Kdo-(2->6)-lipid IVA[periplasmic space] -> an L-1-phosphatidylethanolamine[periplasmic space] + alpha-Kdo-(2->4)-alpha-Kdo-(2->6)-lipid IVA[periplasmic space] *\ - \* r1605a, an L-1-phosphatidylethanolamine[periplasmic space] + alpha-Kdo-(2->4)-alpha-Kdo-(2->6)-lipid IVA[periplasmic space] -> a 1,2-diacyl-sn-glycerol[periplasmic space] + 7-O-[2-aminoethoxy(hydroxy)phosphoryl]-alpha-D-Kdo-(2->4)-alpha-D-Kdo-(2->6)-lipid IVA[periplasmic space] *\ - \* r105, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - - + r1605b -1.0 r1605a + r105 = 0 - -c1128: \* 2-Hexadecenoyl-ACPs[CCO-CYTOSOL] *\ - \* r1074, a (3R)-3-hydroxypalmitoyl-[acp] -> a trans hexadecenoyl-[acp] + H2O *\ - \* r1021, a trans-2-enoyl-[acyl-carrier protein] + NADH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NAD+ *\ - \* r885, a trans hexadecenoyl-[acp] + NADH + H+ -> a palmitoyl-[acp] + NAD+ *\ - \* r871, a trans-2-enoyl-[acyl-carrier protein] + NADPH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NADP+ *\ - \* r791, a (3R)-3-hydroxyacyl-[acyl-carrier protein] -> a trans-2-enoyl-[acyl-carrier protein] + H2O *\ - - + r1074 -1.0 r1021 -1.0 r885 -1.0 r871 + r791 = 0 - -c1748: \* Release-factor-N5-Methyl-L-glutamine[CCO-CYTOSOL] *\ - \* objReactionName, a [release factor]-N5-methyl-L-glutamine *\ - \* r1461, a [release factor]-L-glutamine + S-adenosyl-L-methionine -> a [release factor]-N5-methyl-L-glutamine + S-adenosyl-L-homocysteine + H+ *\ - - -0.00001 objReactionName + r1461 = 0 - -c2179: \* CPD-448[CCO-CYTOSOL] *\ - \* r2307b, beta-D-glucose 1-phosphate -> alpha-D-glucose 1-phosphate *\ - \* r2307a, alpha-D-glucose 1-phosphate -> beta-D-glucose 1-phosphate *\ - \* r2290b, beta-D-glucose 6-phosphate -> beta-D-glucose 1-phosphate *\ - \* r2290a, beta-D-glucose 1-phosphate -> beta-D-glucose 6-phosphate *\ - - -1.0 r2307b + r2307a + r2290b -1.0 r2290a = 0 - -c124: \* ADENOSYL-P4[CCO-PERI-BAC] *\ - \* r621, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r61, a nucleoside[extracellular space] -> a nucleoside[periplasmic space] *\ - - -1.0 r621 + r61 = 0 - -c1187: \* DIHYDROLIPOYL-GCVH[CCO-CYTOSOL] *\ - \* r881b, a [glycine-cleavage complex H protein] N6-lipoyl-L-lysine + NADH + H+ -> a [glycine-cleavage complex H protein] N6-dihydrolipoyl-L-lysine + NAD+ *\ - \* r881a, a [glycine-cleavage complex H protein] N6-dihydrolipoyl-L-lysine + NAD+ -> a [glycine-cleavage complex H protein] N6-lipoyl-L-lysine + NADH + H+ *\ - \* r834b, a [glycine-cleavage complex H protein] N6-dihydrolipoyl-L-lysine + a 5,10-methylene-tetrahydrofolate + ammonium -> a [glycine-cleavage complex H protein] N6-aminomethyldihydrolipoyl-L-lysine + a tetrahydrofolate *\ - \* r834a, a [glycine-cleavage complex H protein] N6-aminomethyldihydrolipoyl-L-lysine + a tetrahydrofolate -> a [glycine-cleavage complex H protein] N6-dihydrolipoyl-L-lysine + a 5,10-methylene-tetrahydrofolate + ammonium *\ - - + r881b -1.0 r881a -1.0 r834b + r834a = 0 - -c1575: \* General-Protein-Substrates[CCO-CYTOSOL] *\ - \* r1265b, a tRNAleu + L-leucyl-[protein] + H+ -> an L-leucyl-[tRNAleu] + a protein *\ - \* r1265a, an L-leucyl-[tRNAleu] + a protein -> a tRNAleu + L-leucyl-[protein] + H+ *\ - - + r1265b -1.0 r1265a = 0 - -c1985: \* 3-ENOLPYRUVYL-SHIKIMATE-5P[CCO-CYTOSOL] *\ - \* r1948b, 5-enolpyruvyl-shikimate 3-phosphate + phosphate -> shikimate 3-phosphate + phosphoenolpyruvate *\ - \* r1948a, shikimate 3-phosphate + phosphoenolpyruvate -> 5-enolpyruvyl-shikimate 3-phosphate + phosphate *\ - \* r1805, 5-enolpyruvyl-shikimate 3-phosphate -> chorismate + phosphate *\ - - -1.0 r1948b + r1948a -1.0 r1805 = 0 - -c1533: \* 2-KETO-3-METHYL-VALERATE[CCO-CYTOSOL] *\ - \* r1298b, (S)-3-methyl-2-oxopentanoate + L-glutamate -> L-isoleucine + 2-oxoglutarate *\ - \* r1298a, L-isoleucine + 2-oxoglutarate -> (S)-3-methyl-2-oxopentanoate + L-glutamate *\ - \* r1224, (R)-2,3-dihydroxy-3-methylpentanoate -> (S)-3-methyl-2-oxopentanoate + H2O *\ - - -1.0 r1298b + r1298a + r1224 = 0 - -c1224: \* CPD-421[CCO-CYTOSOL] *\ - \* r1589, N2-succinyl-L-arginine + 2 H+ + 2 H2O -> 2 ammonium + N2-succinyl-L-ornithine + CO2 *\ - \* r863, L-arginine + succinyl-CoA -> N2-succinyl-L-arginine + coenzyme A + H+ *\ - - -1.0 r1589 + r863 = 0 - -c295: \* L-IDONATE[CCO-CYTOSOL] *\ - \* r760a, L-idonate + NAD(P)+ -> 5-dehydro-D-gluconate + NAD(P)H + H+ *\ - \* r760b, 5-dehydro-D-gluconate + NAD(P)H + H+ -> L-idonate + NAD(P)+ *\ - \* r761a, L-idonate + NAD(P)+ -> 5-dehydro-D-gluconate + NAD(P)H + H+ *\ - \* r761b, 5-dehydro-D-gluconate + NAD(P)H + H+ -> L-idonate + NAD(P)+ *\ - \* r930a, 2-keto-D-gluconate + NADPH + H+ -> L-idonate + NADP+ *\ - \* r930b, L-idonate + NADP+ -> 2-keto-D-gluconate + NADPH + H+ *\ - \* r1206, 2-keto-L-gulonate + NADPH + H+ -> L-idonate + NADP+ *\ - - -1.0 r760a + r760b -1.0 r761a + r761b + r930a -1.0 r930b + r1206 = 0 - -c1970: \* CPD-3766[CCO-CYTOSOL] *\ - \* r1786b, menadiol + NAD+ -> menadione + NADH + H+ *\ - \* r1786a, menadione + NADH + H+ -> menadiol + NAD+ *\ - - + r1786b -1.0 r1786a = 0 - -c873: \* CPD-15189[CCO-CYTOSOL] *\ - \* r643, chenodeoxycholate[periplasmic space] -> chenodeoxycholate[cytosol] *\ - \* r633, chenodeoxycholate[cytosol] + H+[periplasmic space] -> chenodeoxycholate[periplasmic space] + H+[cytosol] *\ - - + r643 -1.0 r633 = 0 - -c1951: \* L-RHAMNOFURANOSE[CCO-CYTOSOL] *\ - \* r1746b, L-rhamnofuranose -> L-rhamnopyranose *\ - \* r1746a, L-rhamnopyranose -> L-rhamnofuranose *\ - - -1.0 r1746b + r1746a = 0 - -c1110: \* 4-HYDROXY-2-KETOVALERATE[CCO-CYTOSOL] *\ - \* r1615, 2-oxopent-4-enoate + H2O -> 4-hydroxy-2-oxopentanoate *\ - \* r1979a, 4-hydroxy-2-oxopentanoate -> acetaldehyde + pyruvate *\ - \* r1979b, acetaldehyde + pyruvate -> 4-hydroxy-2-oxopentanoate *\ - - + r1615 -1.0 r1979a + r1979b = 0 - -c1710: \* POLYMER-INST-CIS-DELTA3-ENOYL-COA-C0-H0[CCO-CYTOSOL] *\ - \* r1412b, a trans-2-enoyl-CoA -> a cis-3-enoyl-CoA *\ - \* r1412a, a cis-3-enoyl-CoA -> a trans-2-enoyl-CoA *\ - - + r1412b -1.0 r1412a = 0 - -c1875: \* NAcMur-Peptide-NAcGlc-Undecaprenols[CCO-UNKNOWN-SPACE] *\ - \* r1618b, a lipid II + GlcNAc-1,6-anhydro-MurNAc-pentapeptide -> a peptidoglycan dimer (generic) *\ - \* r1618a, a peptidoglycan dimer (generic) -> a lipid II + GlcNAc-1,6-anhydro-MurNAc-pentapeptide *\ - - -1.0 r1618b + r1618a = 0 - -c899: \* PPI[CCO-PERI-BAC] *\ - \* r2106, PPPi + H2O -> phosphate + diphosphate *\ - \* r656, diphosphate + H2O -> 2 phosphate + H+ *\ - - + r2106 -1.0 r656 = 0 - -c1859: \* L-1-PHOSPHATIDYL-ETHANOLAMINE[CCO-PERI-BAC] *\ - \* r1605a, an L-1-phosphatidylethanolamine[periplasmic space] + alpha-Kdo-(2->4)-alpha-Kdo-(2->6)-lipid IVA[periplasmic space] -> a 1,2-diacyl-sn-glycerol[periplasmic space] + 7-O-[2-aminoethoxy(hydroxy)phosphoryl]-alpha-D-Kdo-(2->4)-alpha-D-Kdo-(2->6)-lipid IVA[periplasmic space] *\ - \* r1605b, a 1,2-diacyl-sn-glycerol[periplasmic space] + 7-O-[2-aminoethoxy(hydroxy)phosphoryl]-alpha-D-Kdo-(2->4)-alpha-D-Kdo-(2->6)-lipid IVA[periplasmic space] -> an L-1-phosphatidylethanolamine[periplasmic space] + alpha-Kdo-(2->4)-alpha-Kdo-(2->6)-lipid IVA[periplasmic space] *\ - - -1.0 r1605a + r1605b = 0 - -c522: \* CPD-195[CCO-CYTOSOL] *\ - \* r281, octanoate[periplasmic space] -> octanoate[cytosol] *\ - \* r843, octanoate + a holo-[acyl-carrier protein] + ATP -> an octanoyl-[acp] + AMP + diphosphate *\ - \* r1273, a 2,3,4-saturated fatty acid + ATP + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + AMP + diphosphate *\ - \* r1695, an aldehyde + NADP+ + H2O -> a carboxylate + NADPH + 2 H+ *\ - \* r2066a, a 2,3,4-saturated fatty acyl CoA + acetate -> a 2,3,4-saturated fatty acid + acetyl-CoA *\ - \* r2066b, a 2,3,4-saturated fatty acid + acetyl-CoA -> a 2,3,4-saturated fatty acyl CoA + acetate *\ - \* r2255, an acyl-CoA + H2O -> a carboxylate + coenzyme A + H+ *\ - - + r281 -1.0 r843 -1.0 r1273 + r1695 + r2066a -1.0 r2066b + r2255 = 0 - -c1142: \* HOMO-CYS[CCO-CYTOSOL] *\ - \* r2356, L-cystathionine -> 2-aminoprop-2-enoate + L-homocysteine + H+ *\ - \* r2051, L-homocysteine + S-adenosyl-L-methionine -> L-methionine + S-adenosyl-L-homocysteine + H+ *\ - \* r1907, S-ribosyl-L-homocysteine -> L-homocysteine + autoinducer 2 *\ - \* r1451, L-homocysteine + N5-methyl--tetrahydropteroyl tri-L-glutamate -> L-methionine + tetrahydropteroyl tri-L-glutamate *\ - \* r1218, L-cystathionine + H2O -> ammonium + pyruvate + L-homocysteine *\ - \* r835b, 2 L-methionine + H+ -> S-methyl-L-methionine + L-homocysteine *\ - \* r835a, S-methyl-L-methionine + L-homocysteine -> 2 L-methionine + H+ *\ - \* r801, L-homocysteine + an N5-methyl-tetrahydrofolate -> L-methionine + a tetrahydrofolate *\ - \* r800, L-homocysteine + an N5-methyl-tetrahydrofolate -> L-methionine + a tetrahydrofolate *\ - - + r2356 -1.0 r2051 + r1907 -1.0 r1451 + r1218 + r835b -1.0 r835a -1.0 r801 -1.0 r800 = 0 - -c695: \* CPD0-1112[CCO-PERI-BAC] *\ - \* r408, L-rhamnose[periplasmic space] + H+[periplasmic space] -> L-rhamnose[cytosol] + H+[cytosol] *\ - - -1.0 r408 = 0 - -c729: \* MAL[CCO-CYTOSOL] *\ - \* r2247, (S)-malate + NADP+ -> CO2 + pyruvate + NADPH *\ - \* r2120, (S)-malate + NAD+ -> CO2 + pyruvate + NADH *\ - \* r2110b, fumarate + H2O -> (S)-malate *\ - \* r2110a, (S)-malate -> fumarate + H2O *\ - \* r1664b, oxaloacetate + NADH + H+ -> (S)-malate + NAD+ *\ - \* r1664a, (S)-malate + NAD+ -> oxaloacetate + NADH + H+ *\ - \* r1167, (S)-malate + an electron-transfer quinone[inner membrane] -> oxaloacetate + an electron-transfer quinol[inner membrane] *\ - \* r1166, (S)-malate + an electron-transfer quinone[inner membrane] -> oxaloacetate + an electron-transfer quinol[inner membrane] *\ - \* r520, a C4-dicarboxylate[periplasmic space] + 3 H+[periplasmic space] -> a C4-dicarboxylate[cytosol] + 3 H+[cytosol] *\ - \* r463, succinate[cytosol] + (S)-malate[periplasmic space] -> (S)-malate[cytosol] + succinate[periplasmic space] *\ - \* r462, (S)-malate[periplasmic space] + 2 H+[periplasmic space] -> (S)-malate[cytosol] + 2 H+[cytosol] *\ - \* r447, a C4-dicarboxylate[periplasmic space] + 2 H+[periplasmic space] -> a C4-dicarboxylate[cytosol] + 2 H+[cytosol] *\ - - -1.0 r2247 -1.0 r2120 + r2110b -1.0 r2110a + r1664b -1.0 r1664a -1.0 r1167 -1.0 r1166 + r520 + r463 + r462 + r447 = 0 - -c309: \* VAL[CCO-CYTOSOL] *\ - \* r1889b, 3-methyl-2-oxobutanoate + L-glutamate -> L-valine + 2-oxoglutarate *\ - \* r1889a, L-valine + 2-oxoglutarate -> 3-methyl-2-oxobutanoate + L-glutamate *\ - \* r1834, a tRNAval + L-valine + ATP + H+ -> an L-valyl-[tRNAval] + AMP + diphosphate *\ - \* r1336b, L-alanine + 3-methyl-2-oxobutanoate -> pyruvate + L-valine *\ - \* r1336a, pyruvate + L-valine -> L-alanine + 3-methyl-2-oxobutanoate *\ - \* r548, Na+[periplasmic space] + L-valine[periplasmic space] -> Na+[cytosol] + L-valine[cytosol] *\ - \* r388, L-valine[cytosol] -> L-valine[periplasmic space] *\ - \* r347, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - \* r157, ATP + L-valine[periplasmic space] + H2O -> ADP + L-valine[cytosol] + phosphate + H+ *\ - - + r1889b -1.0 r1889a -1.0 r1834 + r1336b -1.0 r1336a + r548 -1.0 r388 -1.0 r347 + r157 = 0 - -c1620: \* 2-Acylglycero-Phosphocholines[CCO-CYTOSOL] *\ - \* r1874a, a 2-acyl 1-lyso-phosphatidylcholine + H2O -> a carboxylate + sn-glycero-3-phosphocholine + H+ *\ - \* r1874b, a carboxylate + sn-glycero-3-phosphocholine + H+ -> a 2-acyl 1-lyso-phosphatidylcholine + H2O *\ - - -1.0 r1874a + r1874b = 0 - -c2079: \* S-ADENOSYL-4-METHYLTHIO-2-OXOBUTANOATE[CCO-CYTOSOL] *\ - \* r2502_e, S-adenosyl-4-methylthio-2-oxobutanoate *\ - \* r2004b, S-adenosyl-4-methylthio-2-oxobutanoate + 7,8-diaminopelargonate -> S-adenosyl-L-methionine + 8-amino-7-oxononanoate *\ - \* r2004a, S-adenosyl-L-methionine + 8-amino-7-oxononanoate -> S-adenosyl-4-methylthio-2-oxobutanoate + 7,8-diaminopelargonate *\ - - -1.0 r2502_e -1.0 r2004b + r2004a = 0 - -c145: \* CPD-12822[CCO-PERI-BAC] *\ - \* r72, a glycerophosphodiester[periplasmic space] + ATP + H2O -> a glycerophosphodiester[cytosol] + ADP + phosphate + H+ *\ - - -1.0 r72 = 0 - -c2160: \* CPD-371[CCO-PERI-BAC] *\ - \* r2219b, a carboxylate[periplasmic space] + FADH2[periplasmic space] -> an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] *\ - \* r2219a, an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] -> a carboxylate[periplasmic space] + FADH2[periplasmic space] *\ - - + r2219b -1.0 r2219a = 0 - -c1668: \* CPD-381[CCO-CYTOSOL] *\ - \* r1706b, 2-oxoglutarate + NADH + H+ -> 2-hydroxyglutarate + NAD+ *\ - \* r1706a, 2-hydroxyglutarate + NAD+ -> 2-oxoglutarate + NADH + H+ *\ - \* r1633b, 2-hydroxyglutarate + coenzyme A + H+ -> propanoyl-CoA + glyoxylate + H2O *\ - \* r1633a, propanoyl-CoA + glyoxylate + H2O -> 2-hydroxyglutarate + coenzyme A + H+ *\ - \* r1350, (S)-2-hydroxyglutarate + oxygen -> 2-oxoglutarate + hydrogen peroxide *\ - - + r1706b -1.0 r1706a -1.0 r1633b + r1633a -1.0 r1350 = 0 - -c1094: \* 3-Hydroxyglutaryl-ACP-methyl-ester[CCO-CYTOSOL] *\ - \* r1112, a (3R)-3-hydroxyglutaryl-[acp] methyl ester -> an enoylglutaryl-[acp] methyl ester + H2O *\ - \* r773, a 3-oxo-glutaryl-[acp] methyl ester + NADPH + H+ -> a (3R)-3-hydroxyglutaryl-[acp] methyl ester + NADP+ *\ - - -1.0 r1112 + r773 = 0 - -c349: \* CPD0-2521[CCO-CYTOSOL] *\ - \* r177, an aminoalkylphosphonate[periplasmic space] + ATP + H2O -> an aminoalkylphosphonate[cytosol] + ADP + phosphate + H+ *\ - - + r177 = 0 - -c1318: \* Reduced-cytochromes-c553[CCO-CYTOSOL] *\ - \* r945b, trimethylamine N-oxide + 2 a reduced c-type cytochrome + 3 H+ -> trimethylamine + 2 an oxidized c-type cytochrome + H2O *\ - \* r945a, trimethylamine + 2 an oxidized c-type cytochrome + H2O -> trimethylamine N-oxide + 2 a reduced c-type cytochrome + 3 H+ *\ - - -2.0 r945b +2.0 r945a = 0 - -c1364: \* MALONYL-COA[CCO-CYTOSOL] *\ - \* objReactionName, malonyl-CoA *\ - \* r1366, ATP + acetyl-CoA + hydrogen carbonate -> malonyl-CoA + ADP + phosphate + H+ *\ - \* r1106b, a malonyl-[acp] + coenzyme A -> a holo-[acyl-carrier protein] + malonyl-CoA *\ - \* r1106a, a holo-[acyl-carrier protein] + malonyl-CoA -> a malonyl-[acp] + coenzyme A *\ - \* r1003, ATP + acetyl-CoA + a carboxylated-biotinylated [BCCP dimer] + H2O -> malonyl-CoA + a biotinylated [BCCP dimer] + ADP + phosphate + H+ *\ - - -0.000031 objReactionName + r1366 + r1106b -1.0 r1106a + r1003 = 0 - -c1876: \* GlcNAc-1-6-anhydro-MurNAc-pentapeptide[CCO-UNKNOWN-SPACE] *\ - \* r1618b, a lipid II + GlcNAc-1,6-anhydro-MurNAc-pentapeptide -> a peptidoglycan dimer (generic) *\ - \* r1618a, a peptidoglycan dimer (generic) -> a lipid II + GlcNAc-1,6-anhydro-MurNAc-pentapeptide *\ - - -1.0 r1618b + r1618a = 0 - -c463: \* 2-OXOBUTANOATE[CCO-CYTOSOL] *\ - \* r1000, O-succinyl-L-homoserine + H2O -> 2-oxobutanoate + succinate + ammonium + H+ *\ - \* r1244a, an aminated amino group donor + 2-oxobutanoate -> 2-aminobutanoate + a deaminated amino group donor *\ - \* r1244b, 2-aminobutanoate + a deaminated amino group donor -> an aminated amino group donor + 2-oxobutanoate *\ - \* r1457, 2-oxobutanoate + coenzyme A -> propanoyl-CoA + formate *\ - \* r1670, 2-iminobutanoate + H+ + H2O -> 2-oxobutanoate + ammonium *\ - \* r1909, L-threonine -> 2-oxobutanoate + ammonium *\ - \* r2260, an acyl-CoA + H2O -> a carboxylate + coenzyme A + H+ *\ - \* r2355, pyruvate + 2-oxobutanoate + H+ -> (S)-2-aceto-2-hydroxybutanoate + CO2 *\ - - + r1000 -1.0 r1244a + r1244b -1.0 r1457 + r1670 + r1909 + r2260 -1.0 r2355 = 0 - -c348: \* CPD0-2521[CCO-PERI-BAC] *\ - \* r177, an aminoalkylphosphonate[periplasmic space] + ATP + H2O -> an aminoalkylphosphonate[cytosol] + ADP + phosphate + H+ *\ - - -1.0 r177 = 0 - -c299: \* SPERMIDINE[CCO-CYTOSOL] *\ - \* r151, ATP + spermidine[periplasmic space] + H2O -> ADP + spermidine[cytosol] + phosphate + H+ *\ - \* r510, spermidine[cytosol] + H+[periplasmic space] -> spermidine[periplasmic space] + H+[cytosol] *\ - \* r900, putrescine + S-adenosyl 3-(methylthio)propylamine -> spermidine + S-methyl-5'-thioadenosine + H+ *\ - \* r1625, spermidine + glutathione + ATP -> glutathionylspermidine + ADP + phosphate + H+ *\ - \* r2129, glutathionylspermidine + H2O -> glutathione + spermidine *\ - \* objReactionName, spermidine *\ - - + r151 -1.0 r510 + r900 -1.0 r1625 + r2129 -0.006744 objReactionName = 0 - -c1152: \* PHOB-MONOMER[CCO-CYTOSOL] *\ - \* r805b, CreC + PhoB-Pasp53 -> CreC sensory histidine kinase - phosphorylated + PhoB *\ - \* r805a, CreC sensory histidine kinase - phosphorylated + PhoB -> CreC + PhoB-Pasp53 *\ - - + r805b -1.0 r805a = 0 - -c832: \* 2-KETOGLUTARATE[CCO-CYTOSOL] *\ - \* r2441, 2-oxoglutarate + coenzyme A + NAD+ -> succinyl-CoA + CO2 + NADH *\ - \* r2420b, L-glutamate + 1-pyrroline + H2O -> putrescine + 2-oxoglutarate *\ - \* r2420a, putrescine + 2-oxoglutarate -> L-glutamate + 1-pyrroline + H2O *\ - \* r2413, D-threo-isocitrate + NADP+ -> 2-oxoglutarate + CO2 + NADPH *\ - \* r2408, L-glutamine + 2-oxoglutarate + NADPH + H+ -> 2 L-glutamate + NADP+ *\ - \* r2382b, 4-methyl-2-oxopentanoate + L-glutamate -> L-leucine + 2-oxoglutarate *\ - \* r2382a, L-leucine + 2-oxoglutarate -> 4-methyl-2-oxopentanoate + L-glutamate *\ - \* r2184b, 3-phospho-hydroxypyruvate + L-glutamate -> 3-phospho-L-serine + 2-oxoglutarate *\ - \* r2184a, 3-phospho-L-serine + 2-oxoglutarate -> 3-phospho-hydroxypyruvate + L-glutamate *\ - \* r2177b, 2-oxoglutarate + CO2 -> oxalosuccinate + H+ *\ - \* r2177a, oxalosuccinate + H+ -> 2-oxoglutarate + CO2 *\ - \* r1889b, 3-methyl-2-oxobutanoate + L-glutamate -> L-valine + 2-oxoglutarate *\ - \* r1889a, L-valine + 2-oxoglutarate -> 3-methyl-2-oxobutanoate + L-glutamate *\ - \* r1884b, L-phenylalanine + 2-oxoglutarate -> 2-oxo-3-phenylpropanoate + L-glutamate *\ - \* r1884a, 2-oxo-3-phenylpropanoate + L-glutamate -> L-phenylalanine + 2-oxoglutarate *\ - \* r1818b, L-glutamate + N-succinyl-2-amino-6-ketopimelate -> 2-oxoglutarate + N-succinyl-L,L-2,6-diaminopimelate *\ - \* r1818a, 2-oxoglutarate + N-succinyl-L,L-2,6-diaminopimelate -> L-glutamate + N-succinyl-2-amino-6-ketopimelate *\ - \* r1816b, 2-oxo-4-methylthiobutanoate + a standard alpha amino acid -> L-methionine + a 2-oxo carboxylate *\ - \* r1816a, L-methionine + a 2-oxo carboxylate -> 2-oxo-4-methylthiobutanoate + a standard alpha amino acid *\ - \* r1808, putrescine + 2-oxoglutarate -> 4-aminobutanal + L-glutamate *\ - \* r1715b, 4-phospho-hydroxy-L-threonine + 2-oxoglutarate -> 2-oxo-3-hydroxy-4-phosphobutanoate + L-glutamate *\ - \* r1715a, 2-oxo-3-hydroxy-4-phosphobutanoate + L-glutamate -> 4-phospho-hydroxy-L-threonine + 2-oxoglutarate *\ - \* r1706b, 2-oxoglutarate + NADH + H+ -> 2-hydroxyglutarate + NAD+ *\ - \* r1706a, 2-hydroxyglutarate + NAD+ -> 2-oxoglutarate + NADH + H+ *\ - \* r1651, a D-amino acid + an electron-transfer quinone[inner membrane] + H2O -> ammonium + a 2-oxo carboxylate + an electron-transfer quinol[inner membrane] *\ - \* r1650, a D-amino acid + an electron-transfer quinone[inner membrane] + H2O -> ammonium + a 2-oxo carboxylate + an electron-transfer quinol[inner membrane] *\ - \* r1603b, L-glutamate + succinate semialdehyde -> 2-oxoglutarate + 4-aminobutanoate *\ - \* r1603a, 2-oxoglutarate + 4-aminobutanoate -> L-glutamate + succinate semialdehyde *\ - \* r1525b, ammonium + 2-oxoglutarate + NADPH + H+ -> L-glutamate + NADP+ + H2O *\ - \* r1525a, L-glutamate + NADP+ + H2O -> ammonium + 2-oxoglutarate + NADPH + H+ *\ - \* r1497b, dTDP-4-dehydro-6-deoxy-alpha-D-glucopyranose + L-glutamate -> dTDP-thomosamine + 2-oxoglutarate *\ - \* r1497a, dTDP-thomosamine + 2-oxoglutarate -> dTDP-4-dehydro-6-deoxy-alpha-D-glucopyranose + L-glutamate *\ - \* r1439, isochorismate + 2-oxoglutarate + H+ -> 2-succinyl-5-enolpyruvyl-6-hydroxy-3-cyclohexene-1-carboxylate + CO2 *\ - \* r1406b, an aliphatic omega-aminoaldehyde + L-glutamate -> an aliphatic alpha,omega-diamine + 2-oxoglutarate *\ - \* r1406a, an aliphatic alpha,omega-diamine + 2-oxoglutarate -> an aliphatic omega-aminoaldehyde + L-glutamate *\ - \* r1399b, UDP-beta-L-threo-pentapyranos-4-ulose + L-glutamate -> UDP-4-amino-4-deoxy-beta-L-arabinopyranose + 2-oxoglutarate *\ - \* r1399a, UDP-4-amino-4-deoxy-beta-L-arabinopyranose + 2-oxoglutarate -> UDP-beta-L-threo-pentapyranos-4-ulose + L-glutamate *\ - \* r1350, (S)-2-hydroxyglutarate + oxygen -> 2-oxoglutarate + hydrogen peroxide *\ - \* r1312b, N2-succinyl-L-glutamate 5-semialdehyde + L-glutamate -> N2-succinyl-L-ornithine + 2-oxoglutarate *\ - \* r1312a, N2-succinyl-L-ornithine + 2-oxoglutarate -> N2-succinyl-L-glutamate 5-semialdehyde + L-glutamate *\ - \* r1298b, (S)-3-methyl-2-oxopentanoate + L-glutamate -> L-isoleucine + 2-oxoglutarate *\ - \* r1298a, L-isoleucine + 2-oxoglutarate -> (S)-3-methyl-2-oxopentanoate + L-glutamate *\ - \* r1254, imidazole acetol-phosphate + L-glutamate -> L-histidinol-phosphate + 2-oxoglutarate *\ - \* r1205b, oxaloacetate + L-glutamate -> L-aspartate + 2-oxoglutarate *\ - \* r1205a, L-aspartate + 2-oxoglutarate -> oxaloacetate + L-glutamate *\ - \* r949, 2-oxoglutarate + a [2-oxoglutarate dehydrogenase E2 protein] N6-lipoyl-L-lysine + H+ -> a [2-oxoglutarate dehydrogenase E2 protein] N6-S-succinyldihydrolipoyl-L-lysine + CO2 *\ - \* r844b, L-glutamate + pyruvate -> 2-oxoglutarate + L-alanine *\ - \* r844a, 2-oxoglutarate + L-alanine -> L-glutamate + pyruvate *\ - \* r831, N-acetyl-L-glutamate 5-semialdehyde + L-glutamate -> N-acetyl-L-ornithine + 2-oxoglutarate *\ - \* r778b, an aromatic oxo-acid + L-glutamate -> an aromatic amino acid + 2-oxoglutarate *\ - \* r778a, an aromatic amino acid + 2-oxoglutarate -> an aromatic oxo-acid + L-glutamate *\ - \* r744b, 4-hydroxyphenylpyruvate + L-glutamate -> L-tyrosine + 2-oxoglutarate *\ - \* r744a, L-tyrosine + 2-oxoglutarate -> 4-hydroxyphenylpyruvate + L-glutamate *\ - - -1.0 r2441 + r2420b -1.0 r2420a + r2413 -1.0 r2408 + r2382b -1.0 r2382a + r2184b -1.0 r2184a -1.0 r2177b + r2177a + r1889b -1.0 r1889a -1.0 r1884b + r1884a + r1818b -1.0 r1818a + r1816b -1.0 r1816a - -1.0 r1808 -1.0 r1715b + r1715a -1.0 r1706b + r1706a + r1651 + r1650 + r1603b -1.0 r1603a -1.0 r1525b + r1525a + r1497b -1.0 r1497a -1.0 r1439 + r1406b -1.0 r1406a + r1399b -1.0 r1399a + r1350 + r1312b - -1.0 r1312a + r1298b -1.0 r1298a + r1254 + r1205b -1.0 r1205a -1.0 r949 + r844b -1.0 r844a + r831 + r778b -1.0 r778a + r744b -1.0 r744a = 0 - -c1379: \* CPD-8624[CCO-PERI-BAC] *\ - \* r1031b, peptidylproline (omega = 0) -> peptidylproline (omega = 180) *\ - \* r1031a, peptidylproline (omega = 180) -> peptidylproline (omega = 0) *\ - - + r1031b -1.0 r1031a = 0 - -c600: \* TYR[CCO-PERI-BAC] *\ - \* r329, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - \* r451, an aromatic amino acid[cytosol] -> an aromatic amino acid[periplasmic space] *\ - \* r575, L-tyrosine[periplasmic space] + H+[periplasmic space] -> L-tyrosine[cytosol] + H+[cytosol] *\ - - + r329 + r451 -1.0 r575 = 0 - -c1751: \* CPD-9925[CCO-CYTOSOL] *\ - \* r2180, 1,4-dihydroxy-2-naphthoyl-CoA + H2O -> 1,4-dihydroxy-2-naphthoate + coenzyme A + H+ *\ - \* r1468, 4-(2'-carboxyphenyl)-4-oxobutyryl-CoA + H+ -> 1,4-dihydroxy-2-naphthoyl-CoA + H2O *\ - - -1.0 r2180 + r1468 = 0 - -c1315: \* TRIMENTHLAMINE-N-O[CCO-CYTOSOL] *\ - \* r1229, trimethylamine N-oxide + NADH + 2 H+ -> trimethylamine + NAD+ + H2O *\ - \* r947b, trimethylamine N-oxide + 2 a reduced c-type cytochrome + 3 H+ -> trimethylamine + 2 an oxidized c-type cytochrome + H2O *\ - \* r947a, trimethylamine + 2 an oxidized c-type cytochrome + H2O -> trimethylamine N-oxide + 2 a reduced c-type cytochrome + 3 H+ *\ - \* r946b, trimethylamine N-oxide + 2 a reduced c-type cytochrome + 3 H+ -> trimethylamine + 2 an oxidized c-type cytochrome + H2O *\ - \* r946a, trimethylamine + 2 an oxidized c-type cytochrome + H2O -> trimethylamine N-oxide + 2 a reduced c-type cytochrome + 3 H+ *\ - \* r945b, trimethylamine N-oxide + 2 a reduced c-type cytochrome + 3 H+ -> trimethylamine + 2 an oxidized c-type cytochrome + H2O *\ - \* r945a, trimethylamine + 2 an oxidized c-type cytochrome + H2O -> trimethylamine N-oxide + 2 a reduced c-type cytochrome + 3 H+ *\ - \* r944b, trimethylamine N-oxide + 2 a reduced c-type cytochrome + 3 H+ -> trimethylamine + 2 an oxidized c-type cytochrome + H2O *\ - \* r944a, trimethylamine + 2 an oxidized c-type cytochrome + H2O -> trimethylamine N-oxide + 2 a reduced c-type cytochrome + 3 H+ *\ - - -1.0 r1229 -1.0 r947b + r947a -1.0 r946b + r946a -1.0 r945b + r945a -1.0 r944b + r944a = 0 - -c1698: \* CPD-9451[CCO-CYTOSOL] *\ - \* r1626b, 2-isopropylmaleate + H2O -> (2S)-2-isopropylmalate *\ - \* r1626a, (2S)-2-isopropylmalate -> 2-isopropylmaleate + H2O *\ - \* r1392, 2-isopropylmaleate + H2O -> (2R,3S)-3-isopropylmalate *\ - - -1.0 r1626b + r1626a -1.0 r1392 = 0 - -c253: \* CPD-12045[CCO-PERI-BAC] *\ - \* r426, L-arabinose[cytosol] + H+[periplasmic space] -> L-arabinose[periplasmic space] + H+[cytosol] *\ - \* r418, L-arabinose[periplasmic space] + H+[periplasmic space] -> L-arabinose[cytosol] + H+[cytosol] *\ - \* r128, ATP + L-arabinose[periplasmic space] + H2O -> ADP + L-arabinose[cytosol] + phosphate + H+ *\ - - + r426 -1.0 r418 -1.0 r128 = 0 - -c1960: \* HISTIDINAL[CCO-CYTOSOL] *\ - \* r2446, histidinol + NAD+ -> histidinal + NADH + H+ *\ - \* r1762, histidinal + NAD+ + H2O -> L-histidine + NADH + 2 H+ *\ - - + r2446 -1.0 r1762 = 0 - -c1197: \* CPD-16843[CCO-CYTOSOL] *\ - \* r840b, 4-pregnen-20,21-diol-3-one + NAD+ -> 11-deoxycorticosterone + NADH + H+ *\ - \* r840a, 11-deoxycorticosterone + NADH + H+ -> 4-pregnen-20,21-diol-3-one + NAD+ *\ - - -1.0 r840b + r840a = 0 - -c1077: \* 2-DH-3-DO-D-ARABINONATE[CCO-CYTOSOL] *\ - \* r1360b, glycolaldehyde + pyruvate -> 2-dehydro-3-deoxy-D-arabinonate *\ - \* r1360a, 2-dehydro-3-deoxy-D-arabinonate -> glycolaldehyde + pyruvate *\ - \* r758b, 2-dehydro-3-deoxy-D-arabinonate + H2O -> D-xylonate *\ - \* r758a, D-xylonate -> 2-dehydro-3-deoxy-D-arabinonate + H2O *\ - - + r1360b -1.0 r1360a -1.0 r758b + r758a = 0 - -c2026: \* 4-AMINO-4-DEOXYCHORISMATE[CCO-CYTOSOL] *\ - \* r2370b, 4-amino-4-deoxychorismate + L-glutamate -> L-glutamine + chorismate *\ - \* r2370a, L-glutamine + chorismate -> 4-amino-4-deoxychorismate + L-glutamate *\ - \* r1868b, 4-aminobenzoate + pyruvate + H+ -> 4-amino-4-deoxychorismate *\ - \* r1868a, 4-amino-4-deoxychorismate -> 4-aminobenzoate + pyruvate + H+ *\ - - -1.0 r2370b + r2370a + r1868b -1.0 r1868a = 0 - -c908: \* DE-O-K-GLUCONATE[CCO-CYTOSOL] *\ - \* r660b, 3-dehydro-2-deoxy-D-gluconate + NADH + H+ -> 2-deoxygluconate + NAD+ *\ - \* r660a, 2-deoxygluconate + NAD+ -> 3-dehydro-2-deoxy-D-gluconate + NADH + H+ *\ - - -1.0 r660b + r660a = 0 - -c1991: \* CPD-602[CCO-CYTOSOL] *\ - \* r2304, 2,5-diamino-6-(5-phospho-D-ribosylamino)pyrimidin-4(3H)-one + H+ + H2O -> 5-amino-6-(5-phospho-D-ribosylamino)uracil + ammonium *\ - \* r1819, 5-amino-6-(5-phospho-D-ribosylamino)uracil + NADPH + H+ -> 5-amino-6-(5-phospho-D-ribitylamino)uracil + NADP+ *\ - - + r2304 -1.0 r1819 = 0 - -c814: \* GUANOSINE[CCO-CYTOSOL] *\ - \* r541, guanosine[cytosol] + H+[periplasmic space] -> guanosine[periplasmic space] + H+[cytosol] *\ - \* r617, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r981, a ribonucleoside 5'-monophosphate + H2O -> a ribonucleoside + phosphate *\ - \* r1349, guanosine + ATP -> GMP + ADP + H+ *\ - \* r1754a, guanosine + phosphate -> alpha-D-ribose-1-phosphate + guanine *\ - \* r1754b, alpha-D-ribose-1-phosphate + guanine -> guanosine + phosphate *\ - \* r1999a, a purine ribonucleoside + phosphate -> a purine base + alpha-D-ribose-1-phosphate *\ - \* r1999b, a purine base + alpha-D-ribose-1-phosphate -> a purine ribonucleoside + phosphate *\ - \* r2172, GMP + H2O -> guanosine + phosphate *\ - - -1.0 r541 + r617 + r981 -1.0 r1349 -1.0 r1754a + r1754b -1.0 r1999a + r1999b + r2172 = 0 - -c1155: \* CPD-4211[CCO-CYTOSOL] *\ - \* r2294, 1-hydroxy-2-methyl-2-(E)-butenyl 4-diphosphate + NAD(P)H + H+ -> dimethylallyl diphosphate + NAD(P)+ + H2O *\ - \* r2293, 1-hydroxy-2-methyl-2-(E)-butenyl 4-diphosphate + NAD(P)H + H+ -> dimethylallyl diphosphate + NAD(P)+ + H2O *\ - \* r2044, dimethylallyl diphosphate + isopentenyl diphosphate -> geranyl diphosphate + diphosphate *\ - \* r1455b, N6-dimethylallyladenosine37 in tRNA + diphosphate -> dimethylallyl diphosphate + an adenosine37 in tRNA *\ - \* r1455a, dimethylallyl diphosphate + an adenosine37 in tRNA -> N6-dimethylallyladenosine37 in tRNA + diphosphate *\ - \* r806b, dimethylallyl diphosphate -> isopentenyl diphosphate *\ - \* r806a, isopentenyl diphosphate -> dimethylallyl diphosphate *\ - - + r2294 + r2293 -1.0 r2044 + r1455b -1.0 r1455a -1.0 r806b + r806a = 0 - -c1109: \* Pyruvate-dehydrogenase-dihydrolipoate[CCO-CYTOSOL] *\ - \* r937, a [pyruvate dehydrogenase E2 protein] N6-dihydrolipoyl-L-lysine + NAD+ -> a [pyruvate dehydrogenase E2 protein] N6-lipoyl-L-lysine + NADH + H+ *\ - \* r781, a [pyruvate dehydrogenase E2 protein] N6-S-acetyldihydrolipoyl-L-lysine + coenzyme A -> acetyl-CoA + a [pyruvate dehydrogenase E2 protein] N6-dihydrolipoyl-L-lysine *\ - - -1.0 r937 + r781 = 0 - -c36: \* CPD-9245[CCO-PERI-BAC] *\ - \* r19, a long-chain fatty acid[extracellular space] -> a long-chain fatty acid[periplasmic space] *\ - \* r361, a long-chain fatty acid[periplasmic space] -> a long-chain fatty acid[cytosol] *\ - - + r19 -1.0 r361 = 0 - -c330: \* BETA-D-XYLOSE[CCO-PERI-BAC] *\ - \* r592, D-xylose[periplasmic space] + H+[periplasmic space] -> D-xylose[cytosol] + H+[cytosol] *\ - \* r168, ATP + D-xylose[periplasmic space] + H2O -> ADP + D-xylose[cytosol] + phosphate + H+ *\ - - -1.0 r592 -1.0 r168 = 0 - -c1507: \* Elongation-tRNAMet[CCO-CYTOSOL] *\ - \* objReactionName, elongator tRNAmet *\ - \* r1170, elongator tRNAmet + L-methionine + ATP + H+ -> an L-methionyl-[elongator tRNAmet] + AMP + diphosphate *\ - - +0.149336 objReactionName -1.0 r1170 = 0 - -c1641: \* HEXANOATE[CCO-PERI-BAC] *\ - \* r2218a, an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] -> a carboxylate[periplasmic space] + FADH2[periplasmic space] *\ - \* r2218b, a carboxylate[periplasmic space] + FADH2[periplasmic space] -> an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] *\ - - + r2218a -1.0 r2218b = 0 - -c1195: \* Cis-Delta5-dodecenoyl-ACPs[CCO-CYTOSOL] *\ - \* r914, a trans-delta3-cis-delta5-dodecenoyl-[acp] + NADH + H+ -> a cis-delta5-dodecenoyl-[acp] + NAD+ *\ - \* r839, a cis-delta5-dodecenoyl-[acp] + a malonyl-[acp] + H+ -> a 3-oxo-cis-delta7-tetradecenoyl-[acp] + a holo-[acyl-carrier protein] + CO2 *\ - - + r914 -1.0 r839 = 0 - -c1513: \* APS[CCO-CYTOSOL] *\ - \* r1407, sulfate + ATP + H+ -> adenosine 5'-phosphosulfate + diphosphate *\ - \* r1177b, 3'-phosphoadenylyl-sulfate + ADP + H+ -> adenosine 5'-phosphosulfate + ATP *\ - \* r1177a, adenosine 5'-phosphosulfate + ATP -> 3'-phosphoadenylyl-sulfate + ADP + H+ *\ - - + r1407 + r1177b -1.0 r1177a = 0 - -c2210: \* Initiation-tRNAmet[CCO-CYTOSOL] *\ - \* r2364b, an L-methionyl-[initiator tRNAmet] + AMP + diphosphate -> initiator tRNAmet + L-methionine + ATP + H+ *\ - \* r2364a, initiator tRNAmet + L-methionine + ATP + H+ -> an L-methionyl-[initiator tRNAmet] + AMP + diphosphate *\ - - + r2364b -1.0 r2364a = 0 - -c476: \* CPD0-938[CCO-EXTRACELLULAR] *\ - \* r244, a lipopolysaccharide[cytosol] -> a lipopolysaccharide[extracellular space] *\ - - + r244 = 0 - -c190: \* KDO2-LIPID-IVA-COLD[CCO-PERI-BAC] *\ - \* r96, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - - + r96 = 0 - -c725: \* ENOL-OXALOACETATE[CCO-CYTOSOL] *\ - \* r2168b, enol-oxaloacetate -> oxaloacetate *\ - \* r2168a, oxaloacetate -> enol-oxaloacetate *\ - \* r516, a C4-dicarboxylate[periplasmic space] + 3 H+[periplasmic space] -> a C4-dicarboxylate[cytosol] + 3 H+[cytosol] *\ - \* r443, a C4-dicarboxylate[periplasmic space] + 2 H+[periplasmic space] -> a C4-dicarboxylate[cytosol] + 2 H+[cytosol] *\ - - -1.0 r2168b + r2168a + r516 + r443 = 0 - -c337: \* CHOLATE[CCO-CYTOSOL] *\ - \* r1974b, 3alpha,12alpha-dihydroxy-7-oxo-5beta-cholan-24-oate + NADH + H+ -> cholate + NAD+ *\ - \* r1974a, cholate + NAD+ -> 3alpha,12alpha-dihydroxy-7-oxo-5beta-cholan-24-oate + NADH + H+ *\ - \* r475, cholate[cytosol] + H+[periplasmic space] -> cholate[periplasmic space] + H+[cytosol] *\ - \* r171, cholate[periplasmic space] -> cholate[cytosol] *\ - - + r1974b -1.0 r1974a -1.0 r475 + r171 = 0 - -c1031: \* POLYMER-INST-TRANS-D2-ENOYL-COA-C16-H32[CCO-CYTOSOL] *\ - \* r1784, a 2,3,4-saturated fatty acyl CoA + an oxidized electron-transfer flavoprotein + H+ -> a trans-2-enoyl-CoA + a reduced electron-transfer flavoprotein *\ - \* r1420b, a trans-2-enoyl-CoA -> a cis-3-enoyl-CoA *\ - \* r1420a, a cis-3-enoyl-CoA -> a trans-2-enoyl-CoA *\ - \* r733, a trans-2-enoyl-CoA + H2O -> a (3S)-3-hydroxyacyl-CoA *\ - - + r1784 -1.0 r1420b + r1420a -1.0 r733 = 0 - -c956: \* DELTA3-ISOPENTENYL-PP[CCO-CYTOSOL] *\ - \* r2044, dimethylallyl diphosphate + isopentenyl diphosphate -> geranyl diphosphate + diphosphate *\ - \* r1997b, di-trans,octa-cis-undecaprenyl diphosphate + 8 diphosphate -> (2E,6E)-farnesyl diphosphate + 8 isopentenyl diphosphate *\ - \* r1997a, (2E,6E)-farnesyl diphosphate + 8 isopentenyl diphosphate -> di-trans,octa-cis-undecaprenyl diphosphate + 8 diphosphate *\ - \* r1931, geranyl diphosphate + isopentenyl diphosphate -> (2E,6E)-farnesyl diphosphate + diphosphate *\ - \* r1643, 1-hydroxy-2-methyl-2-(E)-butenyl 4-diphosphate + NAD(P)H + H+ -> isopentenyl diphosphate + NAD(P)+ + H2O *\ - \* r1642, 1-hydroxy-2-methyl-2-(E)-butenyl 4-diphosphate + NAD(P)H + H+ -> isopentenyl diphosphate + NAD(P)+ + H2O *\ - \* r806b, dimethylallyl diphosphate -> isopentenyl diphosphate *\ - \* r806a, isopentenyl diphosphate -> dimethylallyl diphosphate *\ - \* r691, (2E,6E)-farnesyl diphosphate + 5 isopentenyl diphosphate -> all-trans-octaprenyl diphosphate + 5 diphosphate *\ - - -1.0 r2044 +8.0 r1997b -8.0 r1997a -1.0 r1931 + r1643 + r1642 + r806b -1.0 r806a -5.0 r691 = 0 - -c1115: \* 2-DEHYDROPANTOATE[CCO-CYTOSOL] *\ - \* r2435, 2-dehydropantoate + NADPH + H+ -> (R)-pantoate + NADP+ *\ - \* r785b, 2-dehydropantoate + a tetrahydrofolate -> a 5,10-methylene-tetrahydrofolate + 3-methyl-2-oxobutanoate + H2O *\ - \* r785a, a 5,10-methylene-tetrahydrofolate + 3-methyl-2-oxobutanoate + H2O -> 2-dehydropantoate + a tetrahydrofolate *\ - \* r784b, 2-dehydropantoate + a tetrahydrofolate -> a 5,10-methylene-tetrahydrofolate + 3-methyl-2-oxobutanoate + H2O *\ - \* r784a, a 5,10-methylene-tetrahydrofolate + 3-methyl-2-oxobutanoate + H2O -> 2-dehydropantoate + a tetrahydrofolate *\ - - -1.0 r2435 -1.0 r785b + r785a -1.0 r784b + r784a = 0 - -c140: \* L-1-GLYCERO-PHOSPHORYLCHOLINE[CCO-CYTOSOL] *\ - \* r1874b, a carboxylate + sn-glycero-3-phosphocholine + H+ -> a 2-acyl 1-lyso-phosphatidylcholine + H2O *\ - \* r1874a, a 2-acyl 1-lyso-phosphatidylcholine + H2O -> a carboxylate + sn-glycero-3-phosphocholine + H+ *\ - \* r69, a glycerophosphodiester[periplasmic space] + ATP + H2O -> a glycerophosphodiester[cytosol] + ADP + phosphate + H+ *\ - - -1.0 r1874b + r1874a + r69 = 0 - -c1945: \* Beta-D-Galactosides[CCO-CYTOSOL] *\ - \* r1740b, a 6-acetyl-beta-D-galactoside + coenzyme A -> a beta-D-galactoside + acetyl-CoA *\ - \* r1740a, a beta-D-galactoside + acetyl-CoA -> a 6-acetyl-beta-D-galactoside + coenzyme A *\ - - + r1740b -1.0 r1740a = 0 - -c2043: \* ISOVALERYL-COA[CCO-CYTOSOL] *\ - \* r1900b, 3-methylcrotonyl-CoA + a reduced electron-transfer flavoprotein -> isovaleryl-CoA + an oxidized electron-transfer flavoprotein + H+ *\ - \* r1900a, isovaleryl-CoA + an oxidized electron-transfer flavoprotein + H+ -> 3-methylcrotonyl-CoA + a reduced electron-transfer flavoprotein *\ - - + r1900b -1.0 r1900a = 0 - -c347: \* CPD-1106[CCO-CYTOSOL] *\ - \* r176, an aminoalkylphosphonate[periplasmic space] + ATP + H2O -> an aminoalkylphosphonate[cytosol] + ADP + phosphate + H+ *\ - - + r176 = 0 - -c853: \* DEOXYGUANOSINE[CCO-CYTOSOL] *\ - \* r1897b, guanine + 2-deoxy-alpha-D-ribose 1-phosphate -> 2'-deoxyguanosine + phosphate *\ - \* r1897a, 2'-deoxyguanosine + phosphate -> guanine + 2-deoxy-alpha-D-ribose 1-phosphate *\ - \* r1253, dGMP + H2O -> 2'-deoxyguanosine + phosphate *\ - \* r1060, dGTP + H2O -> PPPi + 2'-deoxyguanosine + H+ *\ - \* r600, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - - + r1897b -1.0 r1897a + r1253 + r1060 + r600 = 0 - -c2036: \* 3-DEHYDRO-SHIKIMATE[CCO-CYTOSOL] *\ - \* r2045b, 3-dehydroshikimate + H2O -> 3-dehydroquinate *\ - \* r2045a, 3-dehydroquinate -> 3-dehydroshikimate + H2O *\ - \* r1899b, 3-dehydroshikimate + NADPH + H+ -> shikimate + NADP+ *\ - \* r1899a, shikimate + NADP+ -> 3-dehydroshikimate + NADPH + H+ *\ - \* r1883, 3-dehydroshikimate + NAD(P)H + H+ -> shikimate + NAD(P)+ *\ - \* r1882, 3-dehydroshikimate + NAD(P)H + H+ -> shikimate + NAD(P)+ *\ - - -1.0 r2045b + r2045a -1.0 r1899b + r1899a -1.0 r1883 -1.0 r1882 = 0 - -c1804: \* MALTOHEXAOSE[CCO-CYTOSOL] *\ - \* r2354b, maltoheptaose + beta-D-glucose -> maltose + maltohexaose *\ - \* r2354a, maltose + maltohexaose -> maltoheptaose + beta-D-glucose *\ - \* r2236b, maltopentaose + alpha-D-glucose 1-phosphate -> maltohexaose + phosphate *\ - \* r2236a, maltohexaose + phosphate -> maltopentaose + alpha-D-glucose 1-phosphate *\ - \* r2134, maltohexaose + H2O -> maltopentaose + alpha-D-glucose *\ - \* r1764b, maltohexaose + alpha-D-glucose 1-phosphate -> maltoheptaose + phosphate *\ - \* r1764a, maltoheptaose + phosphate -> maltohexaose + alpha-D-glucose 1-phosphate *\ - \* r1631, maltoheptaose + H2O -> maltohexaose + alpha-D-glucose *\ - \* r1540b, maltopentaose + maltose -> maltohexaose + beta-D-glucose *\ - \* r1540a, maltohexaose + beta-D-glucose -> maltopentaose + maltose *\ - - + r2354b -1.0 r2354a + r2236b -1.0 r2236a -1.0 r2134 -1.0 r1764b + r1764a + r1631 + r1540b -1.0 r1540a = 0 - -c250: \* CPD-15699[CCO-CYTOSOL] *\ - \* r2152b, L-arabinopyranose -> aldehydo-L-arabinose *\ - \* r2152a, aldehydo-L-arabinose -> L-arabinopyranose *\ - \* r424, L-arabinose[cytosol] + H+[periplasmic space] -> L-arabinose[periplasmic space] + H+[cytosol] *\ - \* r416, L-arabinose[periplasmic space] + H+[periplasmic space] -> L-arabinose[cytosol] + H+[cytosol] *\ - \* r126, ATP + L-arabinose[periplasmic space] + H2O -> ADP + L-arabinose[cytosol] + phosphate + H+ *\ - - + r2152b -1.0 r2152a -1.0 r424 + r416 + r126 = 0 - -c904: \* Gcv-H[CCO-CYTOSOL] *\ - \* r659a, lipoyl-adenylate + [glycine cleavage system lipoyl-carrier protein]-L-lysine -> a [glycine-cleavage complex H protein] N6-lipoyl-L-lysine + AMP + 2 H+ *\ - \* r659b, a [glycine-cleavage complex H protein] N6-lipoyl-L-lysine + AMP + 2 H+ -> lipoyl-adenylate + [glycine cleavage system lipoyl-carrier protein]-L-lysine *\ - \* r966a, [glycine cleavage system lipoyl-carrier protein]-L-lysine + a lipoyl-[acp] -> a [glycine-cleavage complex H protein] N6-lipoyl-L-lysine + a holo-[acyl-carrier protein] + H+ *\ - \* r966b, a [glycine-cleavage complex H protein] N6-lipoyl-L-lysine + a holo-[acyl-carrier protein] + H+ -> [glycine cleavage system lipoyl-carrier protein]-L-lysine + a lipoyl-[acp] *\ - - -1.0 r659a + r659b -1.0 r966a + r966b = 0 - -c120: \* XANTHOSINE[CCO-PERI-BAC] *\ - \* r59, a nucleoside[extracellular space] -> a nucleoside[periplasmic space] *\ - \* r436, xanthosine[periplasmic space] + H+[periplasmic space] -> xanthosine[cytosol] + H+[cytosol] *\ - \* r619, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - - + r59 -1.0 r436 -1.0 r619 = 0 - -c1625: \* N1-ACETYLSPERMINE[CCO-CYTOSOL] *\ - \* r1311b, an aliphatic N-acetyl-diamine + coenzyme A + H+ -> an aliphatic alpha,omega-diamine + acetyl-CoA *\ - \* r1311a, an aliphatic alpha,omega-diamine + acetyl-CoA -> an aliphatic N-acetyl-diamine + coenzyme A + H+ *\ - - -1.0 r1311b + r1311a = 0 - -c1045: \* ADENOSYL-HOMO-CYS[CCO-CYTOSOL] *\ - \* r832, a [protein]-alpha-L-glutamate + S-adenosyl-L-methionine -> a [protein]-L-glutamate-O5-methyl-ester + S-adenosyl-L-homocysteine *\ - \* r836, S-adenosyl-L-homocysteine + H2O -> S-ribosyl-L-homocysteine + adenine *\ - \* r940, 2-methoxy-6-all trans-octaprenyl-2-methoxy-1,4-benzoquinol + S-adenosyl-L-methionine -> 6-methoxy-3-methyl-2-all-trans-octaprenyl-1,4-benzoquinol + S-adenosyl-L-homocysteine + H+ *\ - \* r1461, a [release factor]-L-glutamine + S-adenosyl-L-methionine -> a [release factor]-N5-methyl-L-glutamine + S-adenosyl-L-homocysteine + H+ *\ - \* r1524, guanine37 in tRNA + S-adenosyl-L-methionine -> N1-methylguanine37 in tRNA + S-adenosyl-L-homocysteine + H+ *\ - \* r1526, 3-(all-trans-octaprenyl)benzene-1,2-diol + S-adenosyl-L-methionine -> 2-methoxy-6-(all-trans-octaprenyl)phenol + S-adenosyl-L-homocysteine + H+ *\ - \* r1735, a malonyl-[acp] + S-adenosyl-L-methionine -> a malonyl-[acp] methyl ester + S-adenosyl-L-homocysteine *\ - \* r1745, S-adenosyl-L-methionine + uroporphyrinogen-III -> S-adenosyl-L-homocysteine + precorrin-1 + H+ *\ - \* r1799, S-adenosyl-L-methionine + precorrin-1 -> S-adenosyl-L-homocysteine + precorrin-2 *\ - \* r1829, S-adenosyl-L-methionine + cytidine1402 in 16S rRNA -> S-adenosyl-L-homocysteine + 2'-O-methylcytidine1402 in 16S rRNA + H+ *\ - \* r2051, L-homocysteine + S-adenosyl-L-methionine -> L-methionine + S-adenosyl-L-homocysteine + H+ *\ - \* r2263, S-adenosyl-L-methionine + demethylmenaquinol-8 -> S-adenosyl-L-homocysteine + menaquinol-8 + H+ *\ - \* r2302, S-adenosyl-L-methionine + 3-demethylubiquinol-8 -> S-adenosyl-L-homocysteine + ubiquinol-8 + H+ *\ - - + r832 -1.0 r836 + r940 + r1461 + r1524 + r1526 + r1735 + r1745 + r1799 + r1829 + r2051 + r2263 + r2302 = 0 - -c1935: \* DIMETHYL-D-RIBITYL-LUMAZINE[CCO-CYTOSOL] *\ - \* r1973, 5-amino-6-(D-ribitylamino)uracil + 1-deoxy-L-glycero-tetrulose 4-phosphate -> 6,7-dimethyl-8-(1-D-ribityl)lumazine + phosphate + H+ + 2 H2O *\ - \* r1727, 2 6,7-dimethyl-8-(1-D-ribityl)lumazine + H+ -> 5-amino-6-(D-ribitylamino)uracil + riboflavin *\ - - + r1973 -2.0 r1727 = 0 - -c1252: \* DIHYDROXY-ACETONE-PHOSPHATE[CCO-CYTOSOL] *\ - \* r889a, D-ribulose 1-phosphate -> glycolaldehyde + glycerone phosphate *\ - \* r889b, glycolaldehyde + glycerone phosphate -> D-ribulose 1-phosphate *\ - \* r917a, D-glyceraldehyde 3-phosphate -> glycerone phosphate *\ - \* r917b, glycerone phosphate -> D-glyceraldehyde 3-phosphate *\ - \* r1220, 2-iminosuccinate + glycerone phosphate -> quinolinate + phosphate + 2 H2O *\ - \* r1499a, D-tagatofuranose 1,6-bisphosphate -> glycerone phosphate + D-glyceraldehyde 3-phosphate *\ - \* r1499b, glycerone phosphate + D-glyceraldehyde 3-phosphate -> D-tagatofuranose 1,6-bisphosphate *\ - \* r1511a, L-fuculose 1-phosphate -> (S)-lactaldehyde + glycerone phosphate *\ - \* r1511b, (S)-lactaldehyde + glycerone phosphate -> L-fuculose 1-phosphate *\ - \* r1531, dihydroxyacetone + phosphoenolpyruvate -> glycerone phosphate + pyruvate *\ - \* r1590a, L-rhamnulose 1-phosphate -> (S)-lactaldehyde + glycerone phosphate *\ - \* r1590b, (S)-lactaldehyde + glycerone phosphate -> L-rhamnulose 1-phosphate *\ - \* r1599a, fructose 1,6-bisphosphate -> glycerone phosphate + D-glyceraldehyde 3-phosphate *\ - \* r1599b, glycerone phosphate + D-glyceraldehyde 3-phosphate -> fructose 1,6-bisphosphate *\ - \* r1663, sn-glycerol 3-phosphate + an ubiquinone[inner membrane] -> glycerone phosphate + an ubiquinol[inner membrane] *\ - \* r1672, glycerone phosphate -> methylglyoxal + phosphate *\ - \* r1673, sn-glycerol 3-phosphate + a menaquinone[inner membrane] -> glycerone phosphate + a menaquinol[inner membrane] *\ - \* r1751, glycerone phosphate + NAD(P)H + H+ -> sn-glycerol 3-phosphate + NAD(P)+ *\ - \* r1752, glycerone phosphate + NAD(P)H + H+ -> sn-glycerol 3-phosphate + NAD(P)+ *\ - \* r2265, 3-hydroxy-2,4-pentanedione 5-phosphate + coenzyme A -> glycerone phosphate + acetyl-CoA *\ - \* r2299, D-sedoheptulose-1,7-bisphosphate -> glycerone phosphate + D-erythrose 4-phosphate *\ - - + r889a -1.0 r889b + r917a -1.0 r917b -1.0 r1220 + r1499a -1.0 r1499b + r1511a -1.0 r1511b + r1531 + r1590a -1.0 r1590b + r1599a -1.0 r1599b + r1663 -1.0 r1672 + r1673 -1.0 r1751 -1.0 r1752 - + r2265 + r2299 = 0 - -c302: \* CPD-10774[CCO-PERI-BAC] *\ - \* r2494_e, (2R,4S)-2-methyl-2,3,3,4-tetrahydroxytetrahydrofuran *\ - \* r387, (2R,4S)-2-methyl-2,3,3,4-tetrahydroxytetrahydrofuran[cytosol] -> (2R,4S)-2-methyl-2,3,3,4-tetrahydroxytetrahydrofuran[periplasmic space] *\ - \* r153, (2R,4S)-2-methyl-2,3,3,4-tetrahydroxytetrahydrofuran[periplasmic space] + ATP + H2O -> (2R,4S)-2-methyl-2,3,3,4-tetrahydroxytetrahydrofuran[cytosol] + ADP + phosphate + H+ *\ - - -1.0 r2494_e + r387 -1.0 r153 = 0 - -c805: \* DEOXYCHOLATE[CCO-CYTOSOL] *\ - \* r652, deoxycholate[periplasmic space] -> deoxycholate[cytosol] *\ - \* r532, deoxycholate[cytosol] + H+[periplasmic space] -> deoxycholate[periplasmic space] + H+[cytosol] *\ - - + r652 -1.0 r532 = 0 - -c455: \* HYPOXANTHINE[CCO-PERI-BAC] *\ - \* r2482_e, hypoxanthine *\ - \* r277, hypoxanthine[cytosol] -> hypoxanthine[periplasmic space] *\ - \* r229b, hypoxanthine[periplasmic space] -> hypoxanthine[cytosol] *\ - \* r229a, hypoxanthine[cytosol] -> hypoxanthine[periplasmic space] *\ - - -1.0 r2482_e + r277 -1.0 r229b + r229a = 0 - -c2221: \* Charged-PRO-tRNAs[CCO-CYTOSOL] *\ - \* objReactionName, an L-prolyl-[tRNApro] *\ - \* r2385, a tRNApro + L-proline + ATP + H+ -> an L-prolyl-[tRNApro] + AMP + diphosphate *\ - - -0.214798 objReactionName + r2385 = 0 - -c535: \* CAMP[CCO-CYTOSOL] *\ - \* r2161, ATP -> cyclic-AMP + diphosphate *\ - \* r1333, cyclic-AMP + H2O -> AMP + H+ *\ - \* r289b, cyclic-AMP[periplasmic space] -> cyclic-AMP[cytosol] *\ - \* r289a, cyclic-AMP[cytosol] -> cyclic-AMP[periplasmic space] *\ - - + r2161 -1.0 r1333 + r289b -1.0 r289a = 0 - -c1491: \* DAMP[CCO-CYTOSOL] *\ - \* r2267, a nucleoside diphosphate + H2O -> a nucleoside 5'-monophosphate + phosphate + H+ *\ - \* r2021, dATP + H2O -> dAMP + diphosphate + H+ *\ - \* r1921, a 2'-deoxyribonucleoside 5'-monophosphate + H2O -> a 2'-deoxynucleoside + phosphate *\ - \* r1352, dAMP + H2O -> 2'-deoxyadenosine + phosphate *\ - \* r1152, a nucleoside triphosphate + H2O -> a nucleoside 5'-monophosphate + diphosphate + H+ *\ - - + r2267 + r2021 -1.0 r1921 -1.0 r1352 + r1152 = 0 - -c497: \* CPD0-2265[CCO-EXTRACELLULAR] *\ - \* r265, a lipopolysaccharide[cytosol] -> a lipopolysaccharide[extracellular space] *\ - - + r265 = 0 - -c942: \* Protein-L-serine-or-L-threonine[CCO-CYTOSOL] *\ - \* r698, a [protein]-(L-serine/L-threonine) + ATP -> a [protein] (L-serine/L-threonine) phosphate + ADP + H+ *\ - \* r683, a [protein] (L-serine/L-threonine) phosphate + H2O -> a [protein]-(L-serine/L-threonine) + phosphate *\ - - -1.0 r698 + r683 = 0 - -c1522: \* Sulfurated-Sulfur-Acceptors[CCO-CYTOSOL] *\ - \* r1204, a [lipoyl-carrier protein] N6-octanoyl-L-lysine + 2 S-adenosyl-L-methionine + 2 a sulfurated [sulfur carrier] + 2 a reduced [2Fe-2S] ferredoxin -> a [lipoyl-carrier protein] N6-lipoyl-L-lysine + 2 5'-deoxyadenosine + 2 L-methionine + 2 an unsulfurated [sulfur carrier] + 2 an oxidized [2Fe-2S] ferredoxin *\ - \* r1241a, an [L-cysteine desulfurase] L-cysteine persulfide + an unsulfurated [sulfur carrier] -> an [L-cysteine desulfurase]-L-cysteine + a sulfurated [sulfur carrier] *\ - \* r1241b, an [L-cysteine desulfurase]-L-cysteine + a sulfurated [sulfur carrier] -> an [L-cysteine desulfurase] L-cysteine persulfide + an unsulfurated [sulfur carrier] *\ - \* r1767a, N6-dimethylallyladenosine37 in tRNA + a sulfurated [sulfur carrier] + S-adenosyl-L-methionine + an unknown reduced electron acceptor -> 2-thio-N6-dimethylallyladenosine37 in tRNA + an unsulfurated [sulfur carrier] + 5'-deoxyadenosine + L-methionine + an unknown oxidized electron acceptor + H+ *\ - \* r1767b, 2-thio-N6-dimethylallyladenosine37 in tRNA + an unsulfurated [sulfur carrier] + 5'-deoxyadenosine + L-methionine + an unknown oxidized electron acceptor + H+ -> N6-dimethylallyladenosine37 in tRNA + a sulfurated [sulfur carrier] + S-adenosyl-L-methionine + an unknown reduced electron acceptor *\ - \* r1847, a sulfurated [sulfur carrier] + dethiobiotin + 2 S-adenosyl-L-methionine + 2 a reduced [2Fe-2S] ferredoxin -> an unsulfurated [sulfur carrier] + biotin + 2 5'-deoxyadenosine + 2 L-methionine + 2 an oxidized [2Fe-2S] ferredoxin *\ - \* r2416, L-cysteine + an unsulfurated [sulfur carrier] -> L-alanine + a sulfurated [sulfur carrier] *\ - - -2.0 r1204 + r1241a -1.0 r1241b -1.0 r1767a + r1767b -1.0 r1847 + r2416 = 0 - -c475: \* CPD0-1283[CCO-EXTRACELLULAR] *\ - \* r243, a lipopolysaccharide[cytosol] -> a lipopolysaccharide[extracellular space] *\ - - + r243 = 0 - -c1211: \* apo-ACP[CCO-CYTOSOL] *\ - \* r1053, an acyl-carrier protein + coenzyme A -> adenosine 3',5'-bisphosphate + a holo-[acyl-carrier protein] + H+ *\ - \* r856, a holo-[acyl-carrier protein] + H2O -> 4'-phosphopantetheine + an acyl-carrier protein + H+ *\ - - -1.0 r1053 + r856 = 0 - -c2003: \* ADP-D-GLUCOSE[CCO-CYTOSOL] *\ - \* objReactionName, ADP-alpha-D-glucose *\ - \* r1833, alpha-D-glucose 1-phosphate + ATP + H+ -> ADP-alpha-D-glucose + diphosphate *\ - - -0.154187 objReactionName + r1833 = 0 - -c811: \* 4-AMINO-BUTYRATE[CCO-PERI-BAC] *\ - \* r638, 4-aminobutanoate[cytosol] + L-glutamate[periplasmic space] -> L-glutamate[cytosol] + 4-aminobutanoate[periplasmic space] *\ - \* r536, 4-aminobutanoate[periplasmic space] + H+[periplasmic space] -> 4-aminobutanoate[cytosol] + H+[cytosol] *\ - - + r638 -1.0 r536 = 0 - -c1382: \* CPD-8625[CCO-CYTOSOL] *\ - \* r1032b, peptidylproline (omega = 0) -> peptidylproline (omega = 180) *\ - \* r1032a, peptidylproline (omega = 180) -> peptidylproline (omega = 0) *\ - - -1.0 r1032b + r1032a = 0 - -c558: \* CPD-108[CCO-PERI-BAC] *\ - \* r2489_e, 4-methylphenol *\ - \* r303, 4-methylphenol[cytosol] -> 4-methylphenol[periplasmic space] *\ - - -1.0 r2489_e + r303 = 0 - -c1509: \* PAPS[CCO-CYTOSOL] *\ - \* r1177b, 3'-phosphoadenylyl-sulfate + ADP + H+ -> adenosine 5'-phosphosulfate + ATP *\ - \* r1177a, adenosine 5'-phosphosulfate + ATP -> 3'-phosphoadenylyl-sulfate + ADP + H+ *\ - \* r1172, 3'-phosphoadenylyl-sulfate + a reduced thioredoxin -> adenosine 3',5'-bisphosphate + sulfite + an oxidized thioredoxin + 2 H+ *\ - - -1.0 r1177b + r1177a -1.0 r1172 = 0 - -c1920: \* D-Glucopyranuronate[CCO-CYTOSOL] *\ - \* r1972a, D-glucopyranuronate -> aldehydo-D-glucuronate *\ - \* r1972b, aldehydo-D-glucuronate -> D-glucopyranuronate *\ - - -1.0 r1972a + r1972b = 0 - -c182: \* CPD0-938[CCO-PERI-BAC] *\ - \* r92, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - - + r92 = 0 - -c1183: \* protein-L-glutamate-O4-methyl-ester[CCO-CYTOSOL] *\ - \* r956, a [protein]-L-glutamate-O5-methyl-ester + H2O -> a [protein]-alpha-L-glutamate + methanol + H+ *\ - \* r832, a [protein]-alpha-L-glutamate + S-adenosyl-L-methionine -> a [protein]-L-glutamate-O5-methyl-ester + S-adenosyl-L-homocysteine *\ - - -1.0 r956 + r832 = 0 - -c326: \* CPD-15377[CCO-PERI-BAC] *\ - \* r590, D-xylose[periplasmic space] + H+[periplasmic space] -> D-xylose[cytosol] + H+[cytosol] *\ - \* r166, ATP + D-xylose[periplasmic space] + H2O -> ADP + D-xylose[cytosol] + phosphate + H+ *\ - - -1.0 r590 -1.0 r166 = 0 - -c694: \* RHAMNOSE[CCO-CYTOSOL] *\ - \* r1124, alpha-L-rhamnopyranose -> beta-L-rhamnopyranose *\ - \* r407, L-rhamnose[periplasmic space] + H+[periplasmic space] -> L-rhamnose[cytosol] + H+[cytosol] *\ - - -1.0 r1124 + r407 = 0 - -c1793: \* 2-OCTAPRENYL-6-METHOXYPHENOL[CCO-CYTOSOL] *\ - \* r2038, 2-methoxy-6-(all-trans-octaprenyl)phenol + NADPH + oxygen + H+ -> 2-methoxy-6-all trans-octaprenyl-2-methoxy-1,4-benzoquinol + NADP+ + H2O *\ - \* r1526, 3-(all-trans-octaprenyl)benzene-1,2-diol + S-adenosyl-L-methionine -> 2-methoxy-6-(all-trans-octaprenyl)phenol + S-adenosyl-L-homocysteine + H+ *\ - - -1.0 r2038 + r1526 = 0 - -c304: \* CPD-15629[CCO-PERI-BAC] *\ - \* r154, D-allose[periplasmic space] + ATP + H2O -> D-allose[cytosol] + ADP + phosphate + H+ *\ - - -1.0 r154 = 0 - -c1194: \* ACP-MONOMER[CCO-CYTOSOL] *\ - \* r862, a holo-[acyl-carrier protein] + H2O -> 4'-phosphopantetheine + an acyl-carrier protein + H+ *\ - \* r1047, an acyl-carrier protein + coenzyme A -> adenosine 3',5'-bisphosphate + a holo-[acyl-carrier protein] + H+ *\ - - -1.0 r862 + r1047 = 0 - -c53: \* CL-[CCO-PERI-BAC] *\ - \* r2458_e, chloride *\ - \* r474b, 2 chloride[cytosol] + H+[periplasmic space] -> 2 chloride[periplasmic space] + H+[cytosol] *\ - \* r474a, 2 chloride[periplasmic space] + H+[cytosol] -> 2 chloride[cytosol] + H+[periplasmic space] *\ - \* r28, chloride[periplasmic space] -> chloride[cytosol] *\ - - + r2458_e +2.0 r474b -2.0 r474a -1.0 r28 = 0 - -c1375: \* S-HYDROXYMETHYLGLUTATHIONE[CCO-CYTOSOL] *\ - \* r2167b, S-formylglutathione + NAD(P)H + H+ -> S-hydroxymethylglutathione + NAD(P)+ *\ - \* r2167a, S-hydroxymethylglutathione + NAD(P)+ -> S-formylglutathione + NAD(P)H + H+ *\ - \* r2166b, S-formylglutathione + NAD(P)H + H+ -> S-hydroxymethylglutathione + NAD(P)+ *\ - \* r2166a, S-hydroxymethylglutathione + NAD(P)+ -> S-formylglutathione + NAD(P)H + H+ *\ - \* r1014b, formaldehyde + glutathione -> S-hydroxymethylglutathione *\ - \* r1014a, S-hydroxymethylglutathione -> formaldehyde + glutathione *\ - - + r2167b -1.0 r2167a + r2166b -1.0 r2166a + r1014b -1.0 r1014a = 0 - -c1752: \* ALA-tRNAs[CCO-CYTOSOL] *\ - \* objReactionName, a tRNAala *\ - \* r1469, a tRNAala + L-alanine + ATP + H+ -> an L-alanyl-[tRNAala] + AMP + diphosphate *\ - - +0.499149 objReactionName -1.0 r1469 = 0 - -c204: \* KDO-LIPID-IVA[CCO-PERI-BAC] *\ - \* r103, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - - + r103 = 0 - -c666: \* CPD-12301[CCO-CYTOSOL] *\ - \* r378, a peptide antibiotic[periplasmic space] -> a peptide antibiotic[cytosol] *\ - - + r378 = 0 - -c1248: \* Cis-delta-3-decenoyl-ACPs[CCO-CYTOSOL] *\ - \* r1658b, a cis-delta3-decenoyl-[acp] -> a trans-delta2-decenoyl-[acp] *\ - \* r1658a, a trans-delta2-decenoyl-[acp] -> a cis-delta3-decenoyl-[acp] *\ - \* r887, a cis-delta3-decenoyl-[acp] + a malonyl-[acp] + H+ -> a 3-oxo-cis-delta5-dodecenoyl-[acp] + a holo-[acyl-carrier protein] + CO2 *\ - - -1.0 r1658b + r1658a -1.0 r887 = 0 - -c132: \* L-ORNITHINE[CCO-CYTOSOL] *\ - \* r2079, L-ornithine + H+ -> CO2 + putrescine *\ - \* r1463, N-acetyl-L-ornithine + H2O -> L-ornithine + acetate *\ - \* r849b, L-citrulline + phosphate + H+ -> L-ornithine + carbamoyl-phosphate *\ - \* r849a, L-ornithine + carbamoyl-phosphate -> L-citrulline + phosphate + H+ *\ - \* r501, putrescine[cytosol] + L-ornithine[periplasmic space] -> putrescine[periplasmic space] + L-ornithine[cytosol] *\ - \* r321, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - \* r65, ATP + L-ornithine[periplasmic space] + H2O -> ADP + L-ornithine[cytosol] + phosphate + H+ *\ - - -1.0 r2079 + r1463 + r849b -1.0 r849a + r501 -1.0 r321 + r65 = 0 - -c69: \* CPD-3746[CCO-PERI-BAC] *\ - \* r34, ATP + an aliphatic sulfonate[periplasmic space] + H2O -> an aliphatic sulfonate[cytosol] + ADP + phosphate + H+ *\ - - -1.0 r34 = 0 - -c58: \* CPD-10246[CCO-PERI-BAC] *\ - \* r30, ATP + an aliphatic sulfonate[periplasmic space] + H2O -> an aliphatic sulfonate[cytosol] + ADP + phosphate + H+ *\ - - -1.0 r30 = 0 - -c1672: \* HISTIDINOL[CCO-CYTOSOL] *\ - \* r2446, histidinol + NAD+ -> histidinal + NADH + H+ *\ - \* r1354, L-histidinol-phosphate + H2O -> histidinol + phosphate *\ - - -1.0 r2446 + r1354 = 0 - -c1790: \* Guanine37-in-tRNA[CCO-CYTOSOL] *\ - \* objReactionName, guanine37 in tRNA *\ - \* r1524, guanine37 in tRNA + S-adenosyl-L-methionine -> N1-methylguanine37 in tRNA + S-adenosyl-L-homocysteine + H+ *\ - - +0.00001 objReactionName -1.0 r1524 = 0 - -c762: \* N-ACETYLNEURAMINATE[CCO-CYTOSOL] *\ - \* r1556a, N-acetylneuraminate -> N-acetyl-D-mannosamine + pyruvate *\ - \* r1556b, N-acetyl-D-mannosamine + pyruvate -> N-acetylneuraminate *\ - - -1.0 r1556a + r1556b = 0 - -c187: \* CPD0-2257[CCO-CYTOSOL] *\ - \* r247, a lipopolysaccharide[cytosol] -> a lipopolysaccharide[extracellular space] *\ - \* r95, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - - -1.0 r247 -1.0 r95 = 0 - -c1030: \* CPD0-2253[CCO-CYTOSOL] *\ - \* r1383, a (3S)-3-hydroxyacyl-CoA + NAD+ -> a 3-oxoacyl-CoA + NADH + H+ *\ - \* r732, a trans-2-enoyl-CoA + H2O -> a (3S)-3-hydroxyacyl-CoA *\ - - -1.0 r1383 + r732 = 0 - -c1122: \* Dihydro-Lipoyl-Proteins[CCO-CYTOSOL] *\ - \* r788b, a [lipoyl-carrier protein] N6-lipoyl-L-lysine + NADH + H+ -> a [lipoyl-carrier protein] N6-dihydrolipoyl-L-lysine + NAD+ *\ - \* r788a, a [lipoyl-carrier protein] N6-dihydrolipoyl-L-lysine + NAD+ -> a [lipoyl-carrier protein] N6-lipoyl-L-lysine + NADH + H+ *\ - - + r788b -1.0 r788a = 0 - -c1624: \* SPERMINE[CCO-CYTOSOL] *\ - \* r1311b, an aliphatic N-acetyl-diamine + coenzyme A + H+ -> an aliphatic alpha,omega-diamine + acetyl-CoA *\ - \* r1311a, an aliphatic alpha,omega-diamine + acetyl-CoA -> an aliphatic N-acetyl-diamine + coenzyme A + H+ *\ - - + r1311b -1.0 r1311a = 0 - -c1818: \* L-1-GLYCERO-PHOSPHORYLCHOLINE[CCO-UNKNOWN-SPACE] *\ - \* r1553, a 1-acyl 2-lyso-phosphatidylcholine + H2O -> a carboxylate + sn-glycero-3-phosphocholine + H+ *\ - - + r1553 = 0 - -c744: \* CADAVERINE[CCO-CYTOSOL] *\ - \* r459, cadaverine[cytosol] + L-lysine[periplasmic space] -> cadaverine[periplasmic space] + L-lysine[cytosol] *\ - \* r574, cadaverine[periplasmic space] + H+[periplasmic space] -> cadaverine[cytosol] + H+[cytosol] *\ - \* r817, L-lysine + H+ -> CO2 + cadaverine *\ - - -1.0 r459 + r574 + r817 = 0 - -c1175: \* 3-oxo-myristoyl-ACPs[CCO-CYTOSOL] *\ - \* r1197, a dodecanoyl-[acp] + a malonyl-[acp] + H+ -> a 3-oxo-myristoyl-[acp] + CO2 + a holo-[acyl-carrier protein] *\ - \* r1141, a 3-oxoacyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxyacyl-[acyl-carrier protein] + NADP+ *\ - \* r1033, a 3-oxo-myristoyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxymyristoyl-[acp] + NADP+ *\ - \* r825, a malonyl-[acp] + a 2,3,4-saturated fatty acyl-[acp] + H+ -> a holo-[acyl-carrier protein] + a 3-oxoacyl-[acp] + CO2 *\ - - + r1197 -1.0 r1141 -1.0 r1033 + r825 = 0 - -c1716: \* POLYMER-INST-CIS-DELTA3-ENOYL-COA-C14-H28[CCO-CYTOSOL] *\ - \* r1419b, a trans-2-enoyl-CoA -> a cis-3-enoyl-CoA *\ - \* r1419a, a cis-3-enoyl-CoA -> a trans-2-enoyl-CoA *\ - - + r1419b -1.0 r1419a = 0 - -c732: \* Aromatic-Amino-Acids[CCO-CYTOSOL] *\ - \* r778a, an aromatic amino acid + 2-oxoglutarate -> an aromatic oxo-acid + L-glutamate *\ - \* r778b, an aromatic oxo-acid + L-glutamate -> an aromatic amino acid + 2-oxoglutarate *\ - - -1.0 r778a + r778b = 0 - -c325: \* CARBON-MONOXIDE[CCO-CYTOSOL] *\ - \* r165a, carbon monoxide[periplasmic space] -> carbon monoxide[cytosol] *\ - \* r165b, carbon monoxide[cytosol] -> carbon monoxide[periplasmic space] *\ - \* r1400, 5-amino-1-(5-phospho-beta-D-ribosyl)imidazole + S-adenosyl-L-methionine -> 4-amino-2-methyl-5-phosphomethylpyrimidine + 5'-deoxyadenosine + L-methionine + formate + carbon monoxide + 3 H+ *\ - - + r165a -1.0 r165b + r1400 = 0 - -c927: \* 2-PG[CCO-CYTOSOL] *\ - \* r1952b, phosphoenolpyruvate + H2O -> 2-phospho-D-glycerate *\ - \* r1952a, 2-phospho-D-glycerate -> phosphoenolpyruvate + H2O *\ - \* r1744, ATP + D-glycerate -> 2-phospho-D-glycerate + ADP + H+ *\ - \* r1263b, 3-phospho-D-glycerate -> 2-phospho-D-glycerate *\ - \* r1263a, 2-phospho-D-glycerate -> 3-phospho-D-glycerate *\ - \* r931b, a [protein]-L-histidine + 2,3-diphospho-D-glycerate -> a [protein]-Npi-phospho-L-histidine + 2-phospho-D-glycerate *\ - \* r931a, a [protein]-Npi-phospho-L-histidine + 2-phospho-D-glycerate -> a [protein]-L-histidine + 2,3-diphospho-D-glycerate *\ - \* r674b, 3-phospho-D-glycerate -> 2-phospho-D-glycerate *\ - \* r674a, 2-phospho-D-glycerate -> 3-phospho-D-glycerate *\ - - + r1952b -1.0 r1952a + r1744 + r1263b -1.0 r1263a + r931b -1.0 r931a + r674b -1.0 r674a = 0 - -c1338: \* Lipoyl-ACPs[CCO-CYTOSOL] *\ - \* r966b, a [glycine-cleavage complex H protein] N6-lipoyl-L-lysine + a holo-[acyl-carrier protein] + H+ -> [glycine cleavage system lipoyl-carrier protein]-L-lysine + a lipoyl-[acp] *\ - \* r966a, [glycine cleavage system lipoyl-carrier protein]-L-lysine + a lipoyl-[acp] -> a [glycine-cleavage complex H protein] N6-lipoyl-L-lysine + a holo-[acyl-carrier protein] + H+ *\ - - + r966b -1.0 r966a = 0 - -c368: \* CYS-GLY[CCO-PERI-BAC] *\ - \* r1840, glutathione[periplasmic space] + H2O[periplasmic space] -> L-cysteinyl-glycine[periplasmic space] + L-glutamate[periplasmic space] *\ - \* r562, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r187, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - - + r1840 -1.0 r562 -1.0 r187 = 0 - -c1746: \* L-RIBULOSE-5-P[CCO-CYTOSOL] *\ - \* r1942, L-ribulose + ATP -> L-ribulose 5-phosphate + ADP + H+ *\ - \* r1504b, D-xylulose 5-phosphate -> L-ribulose 5-phosphate *\ - \* r1504a, L-ribulose 5-phosphate -> D-xylulose 5-phosphate *\ - \* r1460, L-xylulose -5-phosphate -> L-ribulose 5-phosphate *\ - - + r1942 + r1504b -1.0 r1504a + r1460 = 0 - -c961: \* PYRIDOXINE-5P[CCO-CYTOSOL] *\ - \* r1483, pyridoxine 5'-phosphate + oxygen -> hydrogen peroxide + pyridoxal 5'-phosphate *\ - \* r1990, 3-amino-1-hydroxyacetone 1-phosphate + 1-deoxy-D-xylulose 5-phosphate -> pyridoxine 5'-phosphate + phosphate + H+ + 2 H2O *\ - - -1.0 r1483 + r1990 = 0 - -c806: \* DEOXYCHOLATE[CCO-PERI-BAC] *\ - \* r652, deoxycholate[periplasmic space] -> deoxycholate[cytosol] *\ - \* r532, deoxycholate[cytosol] + H+[periplasmic space] -> deoxycholate[periplasmic space] + H+[cytosol] *\ - - -1.0 r652 + r532 = 0 - -c1027: \* CPD0-2117[CCO-CYTOSOL] *\ - \* r1914, a 2,3,4-saturated fatty acyl CoA + NADP+ -> a trans-2-enoyl-CoA + NADPH + H+ *\ - \* r1782, a 2,3,4-saturated fatty acyl CoA + an oxidized electron-transfer flavoprotein + H+ -> a trans-2-enoyl-CoA + a reduced electron-transfer flavoprotein *\ - \* r1418b, a trans-2-enoyl-CoA -> a cis-3-enoyl-CoA *\ - \* r1418a, a cis-3-enoyl-CoA -> a trans-2-enoyl-CoA *\ - \* r731, a trans-2-enoyl-CoA + H2O -> a (3S)-3-hydroxyacyl-CoA *\ - - + r1914 + r1782 -1.0 r1418b + r1418a -1.0 r731 = 0 - -c660: \* PROPIONATE[CCO-CYTOSOL] *\ - \* r2396b, propanoate + succinyl-CoA -> propanoyl-CoA + succinate *\ - \* r2396a, propanoyl-CoA + succinate -> propanoate + succinyl-CoA *\ - \* r2252, an acyl-CoA + H2O -> a carboxylate + coenzyme A + H+ *\ - \* r2003b, ADP + propanoyl phosphate -> ATP + propanoate *\ - \* r2003a, ATP + propanoate -> ADP + propanoyl phosphate *\ - \* r1692, an aldehyde + NADP+ + H2O -> a carboxylate + NADPH + 2 H+ *\ - \* r1396, propanoate + ATP + coenzyme A -> propanoyl-CoA + AMP + diphosphate *\ - \* r375, propanoate[periplasmic space] -> propanoate[cytosol] *\ - - -1.0 r2396b + r2396a + r2252 + r2003b -1.0 r2003a + r1692 -1.0 r1396 + r375 = 0 - -c1131: \* R-3-hydroxydodecanoyl-ACPs[CCO-CYTOSOL] *\ - \* r1140, a 3-oxoacyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxyacyl-[acyl-carrier protein] + NADP+ *\ - \* r999, a 3-oxo-dodecanoyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxydodecanoyl-[acp] + NADP+ *\ - \* r845, a (3R)-3-hydroxydodecanoyl-[acp] -> a trans dodec-2-enoyl-[acp] + H2O *\ - \* r793, a (3R)-3-hydroxyacyl-[acyl-carrier protein] -> a trans-2-enoyl-[acyl-carrier protein] + H2O *\ - - + r1140 + r999 -1.0 r845 -1.0 r793 = 0 - -c1879: \* GlcNAc-1-6-anhydro-MurNAc-pentapeptide[CCO-CYTOSOL] *\ - \* r1619b, a lipid II + GlcNAc-1,6-anhydro-MurNAc-pentapeptide -> a peptidoglycan dimer (generic) *\ - \* r1619a, a peptidoglycan dimer (generic) -> a lipid II + GlcNAc-1,6-anhydro-MurNAc-pentapeptide *\ - - -1.0 r1619b + r1619a = 0 - -c1661: \* UDP-D-GALACTO-14-FURANOSE[CCO-CYTOSOL] *\ - \* r1935b, UDP-alpha-D-galactofuranose -> UDP-alpha-D-galactose *\ - \* r1935a, UDP-alpha-D-galactose -> UDP-alpha-D-galactofuranose *\ - \* r1344b, octyl beta-1,6-D-galactofuranosyl-alpha-D-glucopyranoside + UDP + H+ -> octyl alpha-D-glucopyranoside + UDP-alpha-D-galactofuranose *\ - \* r1344a, octyl alpha-D-glucopyranoside + UDP-alpha-D-galactofuranose -> octyl beta-1,6-D-galactofuranosyl-alpha-D-glucopyranoside + UDP + H+ *\ - - -1.0 r1935b + r1935a + r1344b -1.0 r1344a = 0 - -c1796: \* GLUTAMATE-1-SEMIALDEHYDE[CCO-CYTOSOL] *\ - \* r1614, an L-glutamyl-[tRNAGlu] + NADPH -> (S)-4-amino-5-oxopentanoate + tRNAGlu + NADP+ *\ - \* r1534, (S)-4-amino-5-oxopentanoate -> 5-aminolevulinate *\ - - + r1614 -1.0 r1534 = 0 - -c514: \* CA+2[CCO-PERI-BAC] *\ - \* r2457_e, Ca2+ *\ - \* r380, Ca2+[periplasmic space] -> Ca2+[cytosol] *\ - \* r276, Ca2+[cytosol] -> Ca2+[periplasmic space] *\ - - + r2457_e -1.0 r380 + r276 = 0 - -c1389: \* CPD-9923[CCO-CYTOSOL] *\ - \* r2365, (1R,6R)-6-hydroxy-2-succinylcyclohexa-2,4-diene-1-carboxylate -> 2-succinylbenzoate + H2O *\ - \* r1039, 2-succinyl-5-enolpyruvyl-6-hydroxy-3-cyclohexene-1-carboxylate -> (1R,6R)-6-hydroxy-2-succinylcyclohexa-2,4-diene-1-carboxylate + pyruvate *\ - - -1.0 r2365 + r1039 = 0 - -c1977: \* MDO-D-Glucoses[CCO-PERI-BAC] *\ - \* r1797b, an osmoregulated periplasmic glucan with phosphoglycerol substituent[periplasmic space] + a 1,2-diacyl-sn-glycerol[periplasmic space] + H+[periplasmic space] -> an osmoregulated periplasmic glucan[periplasmic space] + an L-1-phosphatidyl-glycerol[periplasmic space] *\ - \* r1797a, an osmoregulated periplasmic glucan[periplasmic space] + an L-1-phosphatidyl-glycerol[periplasmic space] -> an osmoregulated periplasmic glucan with phosphoglycerol substituent[periplasmic space] + a 1,2-diacyl-sn-glycerol[periplasmic space] + H+[periplasmic space] *\ - - + r1797b -1.0 r1797a = 0 - -c2086: \* 3-SULFINOALANINE[CCO-CYTOSOL] *\ - \* r2015b, L-alanine + sulfite + H+ -> 3-sulfinoalanine + H2O *\ - \* r2015a, 3-sulfinoalanine + H2O -> L-alanine + sulfite + H+ *\ - - + r2015b -1.0 r2015a = 0 - -c1902: \* THREO-DS-ISO-CITRATE[CCO-CYTOSOL] *\ - \* r2413, D-threo-isocitrate + NADP+ -> 2-oxoglutarate + CO2 + NADPH *\ - \* r2291b, oxalosuccinate + NADPH + H+ -> D-threo-isocitrate + NADP+ *\ - \* r2291a, D-threo-isocitrate + NADP+ -> oxalosuccinate + NADPH + H+ *\ - \* r1674b, D-threo-isocitrate -> cis-aconitate + H2O *\ - \* r1674a, cis-aconitate + H2O -> D-threo-isocitrate *\ - - -1.0 r2413 + r2291b -1.0 r2291a -1.0 r1674b + r1674a = 0 - -c188: \* CPD0-2257[CCO-PERI-BAC] *\ - \* r95, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - - + r95 = 0 - -c643: \* PALMITATE[CCO-CYTOSOL] *\ - \* r2258, an acyl-CoA + H2O -> a carboxylate + coenzyme A + H+ *\ - \* r2062b, a 2,3,4-saturated fatty acid + acetyl-CoA -> a 2,3,4-saturated fatty acyl CoA + acetate *\ - \* r2062a, a 2,3,4-saturated fatty acyl CoA + acetate -> a 2,3,4-saturated fatty acid + acetyl-CoA *\ - \* r1277, a 2,3,4-saturated fatty acid + ATP + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + AMP + diphosphate *\ - \* r910, a palmitoyl-[acp] + H2O -> palmitate + a holo-[acyl-carrier protein] + H+ *\ - \* r362, a long-chain fatty acid[periplasmic space] -> a long-chain fatty acid[cytosol] *\ - - + r2258 -1.0 r2062b + r2062a -1.0 r1277 + r910 + r362 = 0 - -c216: \* CPD-11653[CCO-PERI-BAC] *\ - \* r109, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - - + r109 = 0 - -c98: \* 5-METHYLAMINOMETHYL-2-SELENOURIDINE[CCO-PERI-BAC] *\ - \* r608, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r48, a nucleoside[extracellular space] -> a nucleoside[periplasmic space] *\ - - -1.0 r608 + r48 = 0 - -c1555: \* Deaminated-Amine-Donors[CCO-CYTOSOL] *\ - \* r1577b, pyridoxal 5'-phosphate + an aminated amino group donor -> pyridoxamine 5'-phosphate + a deaminated amino group donor *\ - \* r1577a, pyridoxamine 5'-phosphate + a deaminated amino group donor -> pyridoxal 5'-phosphate + an aminated amino group donor *\ - \* r1244b, 2-aminobutanoate + a deaminated amino group donor -> an aminated amino group donor + 2-oxobutanoate *\ - \* r1244a, an aminated amino group donor + 2-oxobutanoate -> 2-aminobutanoate + a deaminated amino group donor *\ - - + r1577b -1.0 r1577a -1.0 r1244b + r1244a = 0 - -c2042: \* FRUCTOSELYSINE-6-PHOSPHATE[CCO-CYTOSOL] *\ - \* r2387, D-fructosyl-L-lysine + ATP -> fructoselysine 6-phosphate + ADP + H+ *\ - \* r1894b, beta-D-glucose 6-phosphate + L-lysine -> fructoselysine 6-phosphate + H2O *\ - \* r1894a, fructoselysine 6-phosphate + H2O -> beta-D-glucose 6-phosphate + L-lysine *\ - - + r2387 + r1894b -1.0 r1894a = 0 - -c1341: \* UDP-N-ACETYL-D-GLUCOSAMINE[CCO-CYTOSOL] *\ - \* r970, a (3R)-3-hydroxymyristoyl-[acp] + UDP-N-acetyl-alpha-D-glucosamine -> UDP-3-O-[(3R)-3-hydroxymyristoyl]-N-acetyl-alpha-D-glucosamine + a holo-[acyl-carrier protein] *\ - \* r1085a, UDP-N-acetyl-alpha-D-glucosamine -> UDP-N-acetyl-alpha-D-mannosamine *\ - \* r1085b, UDP-N-acetyl-alpha-D-mannosamine -> UDP-N-acetyl-alpha-D-glucosamine *\ - \* r1831, UDP-N-acetyl-alpha-D-glucosamine + phosphoenolpyruvate -> UDP-N-acetyl-alpha-D-glucosamine-enolpyruvate + phosphate *\ - \* r1871, N-acetyl-alpha-D-glucosamine 1-phosphate + UTP + H+ -> UDP-N-acetyl-alpha-D-glucosamine + diphosphate *\ - \* r2160a, undecaprenyldiphospho-N-acetylmuramoyl-L-alanyl-gamma-D-glutamyl-meso-2,6-diaminopimeloyl-D-alanyl-D-alanine + UDP-N-acetyl-alpha-D-glucosamine -> ditrans,octacis-undecaprenyldiphospho-N-acetyl-(N-acetylglucosaminyl)muramoyl-L-alanyl-gamma-D-glutamyl-meso-2,6-diaminopimeloyl-D-alanyl-D-alanine + UDP + H+ *\ - \* r2160b, ditrans,octacis-undecaprenyldiphospho-N-acetyl-(N-acetylglucosaminyl)muramoyl-L-alanyl-gamma-D-glutamyl-meso-2,6-diaminopimeloyl-D-alanyl-D-alanine + UDP + H+ -> undecaprenyldiphospho-N-acetylmuramoyl-L-alanyl-gamma-D-glutamyl-meso-2,6-diaminopimeloyl-D-alanyl-D-alanine + UDP-N-acetyl-alpha-D-glucosamine *\ - - -1.0 r970 -1.0 r1085a + r1085b -1.0 r1831 + r1871 -1.0 r2160a + r2160b = 0 - -c1638: \* CPD-3617[CCO-PERI-BAC] *\ - \* r2214a, an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] -> a carboxylate[periplasmic space] + FADH2[periplasmic space] *\ - \* r2214b, a carboxylate[periplasmic space] + FADH2[periplasmic space] -> an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] *\ - - + r2214a -1.0 r2214b = 0 - -c1421: \* BCCP-monomers[CCO-CYTOSOL] *\ - \* objReactionName, a [biotin-carboxyl-carrier protein monomer] *\ - \* r1075, a [biotin-carboxyl-carrier protein monomer] + biotin + ATP -> AMP + a biotinylated [BCCP monomer] + diphosphate + H+ *\ - - +0.00002 objReactionName -1.0 r1075 = 0 - -c1054: \* D-SEDOHEPTULOSE-7-P[CCO-CYTOSOL] *\ - \* r2422b, beta-D-fructofuranose 6-phosphate + D-erythrose 4-phosphate -> D-glyceraldehyde 3-phosphate + D-sedoheptulose 7-phosphate *\ - \* r2422a, D-glyceraldehyde 3-phosphate + D-sedoheptulose 7-phosphate -> beta-D-fructofuranose 6-phosphate + D-erythrose 4-phosphate *\ - \* r1341b, D-ribose 5-phosphate + D-xylulose 5-phosphate -> D-sedoheptulose 7-phosphate + D-glyceraldehyde 3-phosphate *\ - \* r1341a, D-sedoheptulose 7-phosphate + D-glyceraldehyde 3-phosphate -> D-ribose 5-phosphate + D-xylulose 5-phosphate *\ - \* r1004, D-sedoheptulose 7-phosphate + ATP -> D-sedoheptulose-1,7-bisphosphate + ADP + H+ *\ - \* r745, D-sedoheptulose 7-phosphate -> D-glycero-D-manno-heptose 7-phosphate *\ - - + r2422b -1.0 r2422a + r1341b -1.0 r1341a -1.0 r1004 -1.0 r745 = 0 - -c474: \* CPD0-936[CCO-EXTRACELLULAR] *\ - \* r242, a lipopolysaccharide[cytosol] -> a lipopolysaccharide[extracellular space] *\ - - + r242 = 0 - -c1976: \* L-ALPHA-AMINO-EPSILON-KETO-PIMELATE[CCO-CYTOSOL] *\ - \* r1792b, L-alpha-amino-epsilon-keto-pimelate -> (S)-2,3,4,5-tetrahydrodipicolinate + H+ + H2O *\ - \* r1792a, (S)-2,3,4,5-tetrahydrodipicolinate + H+ + H2O -> L-alpha-amino-epsilon-keto-pimelate *\ - - -1.0 r1792b + r1792a = 0 - -c331: \* BETA-D-XYLOSE[CCO-CYTOSOL] *\ - \* r592, D-xylose[periplasmic space] + H+[periplasmic space] -> D-xylose[cytosol] + H+[cytosol] *\ - \* r168, ATP + D-xylose[periplasmic space] + H2O -> ADP + D-xylose[cytosol] + phosphate + H+ *\ - - + r592 + r168 = 0 - -c1313: \* TRIMETHYLAMINE[CCO-CYTOSOL] *\ - \* r1229, trimethylamine N-oxide + NADH + 2 H+ -> trimethylamine + NAD+ + H2O *\ - \* r947b, trimethylamine N-oxide + 2 a reduced c-type cytochrome + 3 H+ -> trimethylamine + 2 an oxidized c-type cytochrome + H2O *\ - \* r947a, trimethylamine + 2 an oxidized c-type cytochrome + H2O -> trimethylamine N-oxide + 2 a reduced c-type cytochrome + 3 H+ *\ - \* r946b, trimethylamine N-oxide + 2 a reduced c-type cytochrome + 3 H+ -> trimethylamine + 2 an oxidized c-type cytochrome + H2O *\ - \* r946a, trimethylamine + 2 an oxidized c-type cytochrome + H2O -> trimethylamine N-oxide + 2 a reduced c-type cytochrome + 3 H+ *\ - \* r945b, trimethylamine N-oxide + 2 a reduced c-type cytochrome + 3 H+ -> trimethylamine + 2 an oxidized c-type cytochrome + H2O *\ - \* r945a, trimethylamine + 2 an oxidized c-type cytochrome + H2O -> trimethylamine N-oxide + 2 a reduced c-type cytochrome + 3 H+ *\ - \* r944b, trimethylamine N-oxide + 2 a reduced c-type cytochrome + 3 H+ -> trimethylamine + 2 an oxidized c-type cytochrome + H2O *\ - \* r944a, trimethylamine + 2 an oxidized c-type cytochrome + H2O -> trimethylamine N-oxide + 2 a reduced c-type cytochrome + 3 H+ *\ - - + r1229 + r947b -1.0 r947a + r946b -1.0 r946a + r945b -1.0 r945a + r944b -1.0 r944a = 0 - -c1393: \* CPD-12815[CCO-CYTOSOL] *\ - \* r1801b, CMP + an L-1-phosphatidylserine + H+ -> a CDP-diacylglycerol + L-serine *\ - \* r1801a, a CDP-diacylglycerol + L-serine -> CMP + an L-1-phosphatidylserine + H+ *\ - \* r1580, a CDP-diacylglycerol + H2O -> a 1,2-diacyl-sn-glycerol 3-phosphate + CMP + 2 H+ *\ - \* r1209b, CMP + an L-1-phosphatidylglycerol-phosphate + H+ -> a CDP-diacylglycerol + sn-glycerol 3-phosphate *\ - \* r1209a, a CDP-diacylglycerol + sn-glycerol 3-phosphate -> CMP + an L-1-phosphatidylglycerol-phosphate + H+ *\ - \* r1041, CTP + a 1,2-diacyl-sn-glycerol 3-phosphate + H+ -> a CDP-diacylglycerol + diphosphate *\ - - + r1801b -1.0 r1801a -1.0 r1580 + r1209b -1.0 r1209a + r1041 = 0 - -c1391: \* RIBOSE-5P[CCO-CYTOSOL] *\ - \* r1583, D-ribose 5-phosphate + ATP -> 5-phospho-alpha-D-ribose 1-diphosphate + AMP + H+ *\ - \* r1341b, D-ribose 5-phosphate + D-xylulose 5-phosphate -> D-sedoheptulose 7-phosphate + D-glyceraldehyde 3-phosphate *\ - \* r1341a, D-sedoheptulose 7-phosphate + D-glyceraldehyde 3-phosphate -> D-ribose 5-phosphate + D-xylulose 5-phosphate *\ - \* r1064b, D-ribulose 5-phosphate -> D-ribose 5-phosphate *\ - \* r1064a, D-ribose 5-phosphate -> D-ribulose 5-phosphate *\ - \* r1040b, D-ribose 5-phosphate -> alpha-D-ribose-1-phosphate *\ - \* r1040a, alpha-D-ribose-1-phosphate -> D-ribose 5-phosphate *\ - - -1.0 r1583 -1.0 r1341b + r1341a + r1064b -1.0 r1064a -1.0 r1040b + r1040a = 0 - -c1983: \* CPD-12816[CCO-CYTOSOL] *\ - \* r1800a, a CDP-diacylglycerol + L-serine -> CMP + an L-1-phosphatidylserine + H+ *\ - \* r1800b, CMP + an L-1-phosphatidylserine + H+ -> a CDP-diacylglycerol + L-serine *\ - - + r1800a -1.0 r1800b = 0 - -c1984: \* CPD-12817[CCO-CYTOSOL] *\ - \* r2288, an L-1-phosphatidylserine + H+ -> an L-1-phosphatidylethanolamine + CO2 *\ - \* r1801b, CMP + an L-1-phosphatidylserine + H+ -> a CDP-diacylglycerol + L-serine *\ - \* r1801a, a CDP-diacylglycerol + L-serine -> CMP + an L-1-phosphatidylserine + H+ *\ - - -1.0 r2288 -1.0 r1801b + r1801a = 0 - -c1113: \* CPD-12996[CCO-CYTOSOL] *\ - \* r1748, a 5,10-methylene-tetrahydrofolate + NADH + H+ -> an N5-methyl-tetrahydrofolate + NAD+ *\ - \* r1566, formaldehyde + a tetrahydrofolate -> a 5,10-methylene-tetrahydrofolate + H2O *\ - \* r1515, glycine + a tetrahydrofolate + NAD+ -> a 5,10-methylene-tetrahydrofolate + ammonium + CO2 + NADH *\ - \* r1107b, glycine + a 5,10-methylene-tetrahydrofolate + H2O -> L-serine + a tetrahydrofolate *\ - \* r1107a, L-serine + a tetrahydrofolate -> glycine + a 5,10-methylene-tetrahydrofolate + H2O *\ - \* r784b, 2-dehydropantoate + a tetrahydrofolate -> a 5,10-methylene-tetrahydrofolate + 3-methyl-2-oxobutanoate + H2O *\ - \* r784a, a 5,10-methylene-tetrahydrofolate + 3-methyl-2-oxobutanoate + H2O -> 2-dehydropantoate + a tetrahydrofolate *\ - - -1.0 r1748 + r1566 + r1515 -1.0 r1107b + r1107a + r784b -1.0 r784a = 0 - -c1282: \* GAMMA-GLUTAMYL-PUTRESCINE[CCO-CYTOSOL] *\ - \* r2108, gamma-glutamyl-L-putrescine + H2O + oxygen -> 4-(gamma-glutamylamino)butanal + hydrogen peroxide + ammonium *\ - \* r918, putrescine + L-glutamate + ATP -> gamma-glutamyl-L-putrescine + ADP + phosphate + H+ *\ - - -1.0 r2108 + r918 = 0 - -c1176: \* Palmitoyl-ACPs[CCO-CYTOSOL] *\ - \* r871, a trans-2-enoyl-[acyl-carrier protein] + NADPH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NADP+ *\ - \* r885, a trans hexadecenoyl-[acp] + NADH + H+ -> a palmitoyl-[acp] + NAD+ *\ - \* r910, a palmitoyl-[acp] + H2O -> palmitate + a holo-[acyl-carrier protein] + H+ *\ - \* r994, sn-glycerol 3-phosphate + an acyl-[acyl-carrier protein] -> a 1-acyl-sn-glycerol 3-phosphate + a holo-[acyl-carrier protein] *\ - \* r1021, a trans-2-enoyl-[acyl-carrier protein] + NADH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NAD+ *\ - \* r1129, 1-palmitoylglycerol 3-phosphate + a palmitoyl-[acp] -> dipalmitoyl phosphatidate + a holo-[acyl-carrier protein] *\ - - + r871 + r885 -1.0 r910 -1.0 r994 + r1021 -1.0 r1129 = 0 - -c1526: \* CARBOXYPHENYLAMINO-DEOXYRIBULOSE-P[CCO-CYTOSOL] *\ - \* r1765, 1-(o-carboxyphenylamino)-1'-deoxyribulose 5'-phosphate + H+ -> (1S,2R)-1-C-(indol-3-yl)glycerol 3-phosphate + CO2 + H2O *\ - \* r1212, N-(5-phosphoribosyl)-anthranilate -> 1-(o-carboxyphenylamino)-1'-deoxyribulose 5'-phosphate *\ - - -1.0 r1765 + r1212 = 0 - -c1395: \* CPD-12814[CCO-CYTOSOL] *\ - \* r1800b, CMP + an L-1-phosphatidylserine + H+ -> a CDP-diacylglycerol + L-serine *\ - \* r1800a, a CDP-diacylglycerol + L-serine -> CMP + an L-1-phosphatidylserine + H+ *\ - \* r1579, a CDP-diacylglycerol + H2O -> a 1,2-diacyl-sn-glycerol 3-phosphate + CMP + 2 H+ *\ - \* r1208b, CMP + an L-1-phosphatidylglycerol-phosphate + H+ -> a CDP-diacylglycerol + sn-glycerol 3-phosphate *\ - \* r1208a, a CDP-diacylglycerol + sn-glycerol 3-phosphate -> CMP + an L-1-phosphatidylglycerol-phosphate + H+ *\ - \* r1042, CTP + a 1,2-diacyl-sn-glycerol 3-phosphate + H+ -> a CDP-diacylglycerol + diphosphate *\ - - + r1800b -1.0 r1800a -1.0 r1579 + r1208b -1.0 r1208a + r1042 = 0 - -c955: \* FARNESYL-PP[CCO-CYTOSOL] *\ - \* r1997b, di-trans,octa-cis-undecaprenyl diphosphate + 8 diphosphate -> (2E,6E)-farnesyl diphosphate + 8 isopentenyl diphosphate *\ - \* r1997a, (2E,6E)-farnesyl diphosphate + 8 isopentenyl diphosphate -> di-trans,octa-cis-undecaprenyl diphosphate + 8 diphosphate *\ - \* r1931, geranyl diphosphate + isopentenyl diphosphate -> (2E,6E)-farnesyl diphosphate + diphosphate *\ - \* r1128b, heme o + diphosphate -> heme b + (2E,6E)-farnesyl diphosphate + H2O *\ - \* r1128a, heme b + (2E,6E)-farnesyl diphosphate + H2O -> heme o + diphosphate *\ - \* r691, (2E,6E)-farnesyl diphosphate + 5 isopentenyl diphosphate -> all-trans-octaprenyl diphosphate + 5 diphosphate *\ - - + r1997b -1.0 r1997a + r1931 + r1128b -1.0 r1128a -1.0 r691 = 0 - -c211: \* L-ARA4N-MODIFIED-KDO2-LIPID-A[CCO-CYTOSOL] *\ - \* r259, a lipopolysaccharide[cytosol] -> a lipopolysaccharide[extracellular space] *\ - \* r107, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - - -1.0 r259 -1.0 r107 = 0 - -c1834: \* CPD-12819[CCO-CYTOSOL] *\ - \* objReactionName, 1,2-dipalmitoyl-phosphatidyl-ethanolamine *\ - \* r2288, an L-1-phosphatidylserine + H+ -> an L-1-phosphatidylethanolamine + CO2 *\ - \* r1574, an L-1-phosphatidyl-glycerol + an L-1-phosphatidylethanolamine -> a cardiolipin + ethanolamine *\ - - -0.096225 objReactionName + r2288 -1.0 r1574 = 0 - -c1303: \* L-GLUTAMATE-5-P[CCO-CYTOSOL] *\ - \* r1101, gamma-L-glutamyl 5-phosphate + NADPH + H+ -> L-glutamate-5-semialdehyde + NADP+ + phosphate *\ - \* r938, L-glutamate + ATP -> gamma-L-glutamyl 5-phosphate + ADP *\ - - -1.0 r1101 + r938 = 0 - -c222: \* KDO2-LIPID-A[CCO-PERI-BAC] *\ - \* r112, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - - + r112 = 0 - -c1813: \* 2-Lysophosphatidylcholines[CCO-PERI-BAC] *\ - \* r1552, a 1-acyl 2-lyso-phosphatidylcholine + H2O -> a carboxylate + sn-glycero-3-phosphocholine + H+ *\ - - -1.0 r1552 = 0 - -c1733: \* ERYTHROSE-4P[CCO-CYTOSOL] *\ - \* r1443a, D-erythrose 4-phosphate + D-xylulose 5-phosphate -> beta-D-fructofuranose 6-phosphate + D-glyceraldehyde 3-phosphate *\ - \* r1443b, beta-D-fructofuranose 6-phosphate + D-glyceraldehyde 3-phosphate -> D-erythrose 4-phosphate + D-xylulose 5-phosphate *\ - \* r2098, phosphoenolpyruvate + D-erythrose 4-phosphate + H2O -> 3-deoxy-D-arabino-heptulosonate-7-phosphate + phosphate *\ - \* r2105, D-erythrose 4-phosphate + NAD+ + H2O -> erythronate-4-phosphate + NADH + 2 H+ *\ - \* r2299, D-sedoheptulose-1,7-bisphosphate -> glycerone phosphate + D-erythrose 4-phosphate *\ - \* r2422a, D-glyceraldehyde 3-phosphate + D-sedoheptulose 7-phosphate -> beta-D-fructofuranose 6-phosphate + D-erythrose 4-phosphate *\ - \* r2422b, beta-D-fructofuranose 6-phosphate + D-erythrose 4-phosphate -> D-glyceraldehyde 3-phosphate + D-sedoheptulose 7-phosphate *\ - - -1.0 r1443a + r1443b -1.0 r2098 -1.0 r2105 + r2299 + r2422a -1.0 r2422b = 0 - -c2162: \* 3-HYDROXYPHENYLACETATE[CCO-PERI-BAC] *\ - \* r2220b, a carboxylate[periplasmic space] + FADH2[periplasmic space] -> an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] *\ - \* r2220a, an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] -> a carboxylate[periplasmic space] + FADH2[periplasmic space] *\ - - -1.0 r2220b + r2220a = 0 - -c977: \* Donor-H2[CCO-CYTOSOL] *\ - \* r724, 2 L-ascorbate + an unknown oxidized electron acceptor + 2 H+ -> 2 monodehydroascorbate radical + an unknown reduced electron acceptor *\ - \* r751, a reduced thioredoxin + an unknown oxidized electron acceptor -> an oxidized thioredoxin + an unknown reduced electron acceptor *\ - \* r1213, choline + an unknown oxidized electron acceptor -> betaine aldehyde + an unknown reduced electron acceptor *\ - \* r1530, glycolate + an unknown oxidized electron acceptor -> glyoxylate + an unknown reduced electron acceptor *\ - \* r1548, (S)-lactate + an unknown oxidized electron acceptor -> pyruvate + an unknown reduced electron acceptor *\ - \* r1767a, N6-dimethylallyladenosine37 in tRNA + a sulfurated [sulfur carrier] + S-adenosyl-L-methionine + an unknown reduced electron acceptor -> 2-thio-N6-dimethylallyladenosine37 in tRNA + an unsulfurated [sulfur carrier] + 5'-deoxyadenosine + L-methionine + an unknown oxidized electron acceptor + H+ *\ - \* r1767b, 2-thio-N6-dimethylallyladenosine37 in tRNA + an unsulfurated [sulfur carrier] + 5'-deoxyadenosine + L-methionine + an unknown oxidized electron acceptor + H+ -> N6-dimethylallyladenosine37 in tRNA + a sulfurated [sulfur carrier] + S-adenosyl-L-methionine + an unknown reduced electron acceptor *\ - \* r1811a, L-selenocysteine + an unknown reduced electron acceptor -> L-alanine + selenide + an unknown oxidized electron acceptor + 2 H+ *\ - \* r1811b, L-alanine + selenide + an unknown oxidized electron acceptor + 2 H+ -> L-selenocysteine + an unknown reduced electron acceptor *\ - \* r1875, 6-methoxy-3-methyl-2-all-trans-octaprenyl-1,4-benzoquinol + an unknown reduced electron acceptor + oxygen -> 3-demethylubiquinol-8 + an unknown oxidized electron acceptor + H2O *\ - \* r2199, formate + an unknown oxidized electron acceptor + H+ -> CO2 + an unknown reduced electron acceptor *\ - \* r2287, hydrogen peroxide + an unknown reduced electron acceptor -> an unknown oxidized electron acceptor + 2 H2O *\ - \* r2402a, 2 S-sulfanylglutathione + an unknown reduced electron acceptor -> bisorganyltrisulfane + hydrogen sulfide + an unknown oxidized electron acceptor *\ - \* r2402b, bisorganyltrisulfane + hydrogen sulfide + an unknown oxidized electron acceptor -> 2 S-sulfanylglutathione + an unknown reduced electron acceptor *\ - - + r724 + r751 + r1213 + r1530 + r1548 -1.0 r1767a + r1767b -1.0 r1811a + r1811b -1.0 r1875 + r2199 -1.0 r2287 -1.0 r2402a + r2402b = 0 - -c1174: \* Dodecanoyl-ACPs[CCO-CYTOSOL] *\ - \* r1199, a trans dodec-2-enoyl-[acp] + NADH + H+ -> a dodecanoyl-[acp] + NAD+ *\ - \* r1197, a dodecanoyl-[acp] + a malonyl-[acp] + H+ -> a 3-oxo-myristoyl-[acp] + CO2 + a holo-[acyl-carrier protein] *\ - \* r1174, a dodecanoyl-[acp] + H2O -> a holo-[acyl-carrier protein] + laurate + H+ *\ - \* r1019, a trans-2-enoyl-[acyl-carrier protein] + NADH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NAD+ *\ - \* r927, a dodecanoyl-[acp] + alpha-Kdo-(2->4)-alpha-Kdo-(2->6)-lipid IVA -> alpha-Kdo-(2->4)-alpha-Kdo-(2->6)-(lauroyl)-lipid IVA + a holo-[acyl-carrier protein] *\ - \* r869, a trans-2-enoyl-[acyl-carrier protein] + NADPH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NADP+ *\ - \* r825, a malonyl-[acp] + a 2,3,4-saturated fatty acyl-[acp] + H+ -> a holo-[acyl-carrier protein] + a 3-oxoacyl-[acp] + CO2 *\ - - + r1199 -1.0 r1197 -1.0 r1174 + r1019 -1.0 r927 + r869 -1.0 r825 = 0 - -c290: \* NADPH[CCO-CYTOSOL] *\ - \* r2440, GMP + NADPH + 2 H+ -> ammonium + IMP + NADP+ *\ - \* r2435, 2-dehydropantoate + NADPH + H+ -> (R)-pantoate + NADP+ *\ - \* r2417b, aminoacetone + CO2 + NADPH -> L-allo-threonine + NADP+ *\ - \* r2417a, L-allo-threonine + NADP+ -> aminoacetone + CO2 + NADPH *\ - \* r2414b, 3-oxo-5,6-didehydrosuberyl-CoA + NADPH + 2 H+ -> 2-oxepin-2(3H)-ylideneacetyl-CoA + NADP+ + 2 H2O *\ - \* r2414a, 2-oxepin-2(3H)-ylideneacetyl-CoA + NADP+ + 2 H2O -> 3-oxo-5,6-didehydrosuberyl-CoA + NADPH + 2 H+ *\ - \* r2413, D-threo-isocitrate + NADP+ -> 2-oxoglutarate + CO2 + NADPH *\ - \* r2408, L-glutamine + 2-oxoglutarate + NADPH + H+ -> 2 L-glutamate + NADP+ *\ - \* r2403b, 1-deoxy-D-xylulose 5-phosphate + NADPH + H+ -> 2-C-methyl-D-erythritol 4-phosphate + NADP+ *\ - \* r2403a, 2-C-methyl-D-erythritol 4-phosphate + NADP+ -> 1-deoxy-D-xylulose 5-phosphate + NADPH + H+ *\ - \* r2395, succinate semialdehyde + NADP+ + H2O -> succinate + NADPH + 2 H+ *\ - \* r2374b, 3-dehydroquinate + NAD(P)H + H+ -> L-quinate + NAD(P)+ *\ - \* r2374a, L-quinate + NAD(P)+ -> 3-dehydroquinate + NAD(P)H + H+ *\ - \* r2332, glyoxylate + NADPH + H+ -> glycolate + NADP+ *\ - \* r2326b, 4-nitrobenzaldehyde + NADPH + H+ -> 4-nitrobenzyl alcohol + NADP+ *\ - \* r2326a, 4-nitrobenzyl alcohol + NADP+ -> 4-nitrobenzaldehyde + NADPH + H+ *\ - \* r2321, beta-D-glucose 6-phosphate + NADP+ -> 6-phospho D-glucono-1,5-lactone + NADPH + H+ *\ - \* r2314b, FMN + NAD(P)H + 2 H+ -> FMNH2 + NAD(P)+ *\ - \* r2314a, FMNH2 + NAD(P)+ -> FMN + NAD(P)H + 2 H+ *\ - \* r2294, 1-hydroxy-2-methyl-2-(E)-butenyl 4-diphosphate + NAD(P)H + H+ -> dimethylallyl diphosphate + NAD(P)+ + H2O *\ - \* r2291b, oxalosuccinate + NADPH + H+ -> D-threo-isocitrate + NADP+ *\ - \* r2291a, D-threo-isocitrate + NADP+ -> oxalosuccinate + NADPH + H+ *\ - \* r2248b, (S)-2-acetolactate + NADPH + H+ -> (R)-2,3-dihydroxy-3-methylbutanoate + NADP+ *\ - \* r2248a, (R)-2,3-dihydroxy-3-methylbutanoate + NADP+ -> (S)-2-acetolactate + NADPH + H+ *\ - \* r2247, (S)-malate + NADP+ -> CO2 + pyruvate + NADPH *\ - \* r2212b, 2-keto-L-gulonate + NAD(P)+ -> 2,5-didehydro-D-gluconate + NAD(P)H + H+ *\ - \* r2212a, 2,5-didehydro-D-gluconate + NAD(P)H + H+ -> 2-keto-L-gulonate + NAD(P)+ *\ - \* r2202, acetaldehyde + NADP+ + H2O -> acetate + NADPH + 2 H+ *\ - \* r2189b, 2 a semiquinone + NADP+ -> 2 a quinone + NADPH + H+ *\ - \* r2189a, 2 a quinone + NADPH + H+ -> 2 a semiquinone + NADP+ *\ - \* r2167b, S-formylglutathione + NAD(P)H + H+ -> S-hydroxymethylglutathione + NAD(P)+ *\ - \* r2167a, S-hydroxymethylglutathione + NAD(P)+ -> S-formylglutathione + NAD(P)H + H+ *\ - \* r2124, 2-octaprenylphenol + NADPH + oxygen + H+ -> 3-(all-trans-octaprenyl)benzene-1,2-diol + NADP+ + H2O *\ - \* r2096, (S)-1-pyrroline-5-carboxylate + NAD(P)H + 2 H+ -> L-proline + NAD(P)+ *\ - \* r2075b, (R)-lactaldehyde + NADPH + H+ -> (R)-propane-1,2-diol + NADP+ *\ - \* r2075a, (R)-propane-1,2-diol + NADP+ -> (R)-lactaldehyde + NADPH + H+ *\ - \* r2038, 2-methoxy-6-(all-trans-octaprenyl)phenol + NADPH + oxygen + H+ -> 2-methoxy-6-all trans-octaprenyl-2-methoxy-1,4-benzoquinol + NADP+ + H2O *\ - \* r2036b, riboflavin + NAD(P)H + 2 H+ -> reduced riboflavin + NAD(P)+ *\ - \* r2036a, reduced riboflavin + NAD(P)+ -> riboflavin + NAD(P)H + 2 H+ *\ - \* r2007b, NADH + NADP+ -> NADPH + NAD+ *\ - \* r2007a, NADPH + NAD+ -> NADH + NADP+ *\ - \* r1944, glutathione disulfide + NADPH + H+ -> 2 glutathione + NADP+ *\ - \* r1941, 2-keto-D-gluconate + NADPH + H+ -> D-gluconate + NADP+ *\ - \* r1933, tartronate semialdehyde + NAD(P)H + H+ -> D-glycerate + NAD(P)+ *\ - \* r1919, a 2,3,4-saturated fatty acyl CoA + NADP+ -> a trans-2-enoyl-CoA + NADPH + H+ *\ - \* r1918, a 2,3,4-saturated fatty acyl CoA + NADP+ -> a trans-2-enoyl-CoA + NADPH + H+ *\ - \* r1917, a 2,3,4-saturated fatty acyl CoA + NADP+ -> a trans-2-enoyl-CoA + NADPH + H+ *\ - \* r1916, a 2,3,4-saturated fatty acyl CoA + NADP+ -> a trans-2-enoyl-CoA + NADPH + H+ *\ - \* r1915, a 2,3,4-saturated fatty acyl CoA + NADP+ -> a trans-2-enoyl-CoA + NADPH + H+ *\ - \* r1914, a 2,3,4-saturated fatty acyl CoA + NADP+ -> a trans-2-enoyl-CoA + NADPH + H+ *\ - \* r1913, a 2,3,4-saturated fatty acyl CoA + NADP+ -> a trans-2-enoyl-CoA + NADPH + H+ *\ - \* r1906, NADPH + an electron-transfer quinone[inner membrane] + H+ -> NADP+ + an electron-transfer quinol[inner membrane] *\ - \* r1905, NADPH + an electron-transfer quinone[inner membrane] + H+ -> NADP+ + an electron-transfer quinol[inner membrane] *\ - \* r1899b, 3-dehydroshikimate + NADPH + H+ -> shikimate + NADP+ *\ - \* r1899a, shikimate + NADP+ -> 3-dehydroshikimate + NADPH + H+ *\ - \* r1892, L-glutamate + ATP + NADPH + H+ -> ADP + L-glutamate-5-semialdehyde + NADP+ + phosphate *\ - \* r1885b, L-aspartyl-4-phosphate + NADPH + H+ -> L-aspartate-semialdehyde + NADP+ + phosphate *\ - \* r1885a, L-aspartate-semialdehyde + NADP+ + phosphate -> L-aspartyl-4-phosphate + NADPH + H+ *\ - \* r1883, 3-dehydroshikimate + NAD(P)H + H+ -> shikimate + NAD(P)+ *\ - \* r1819, 5-amino-6-(5-phospho-D-ribosylamino)uracil + NADPH + H+ -> 5-amino-6-(5-phospho-D-ribitylamino)uracil + NADP+ *\ - \* r1803, D-gluconate 6-phosphate + NADP+ -> D-ribulose 5-phosphate + CO2 + NADPH *\ - \* r1788b, 2-amino-3-oxobutanoate + NADPH + H+ -> L-allo-threonine + NADP+ *\ - \* r1788a, L-allo-threonine + NADP+ -> 2-amino-3-oxobutanoate + NADPH + H+ *\ - \* r1775b, a 5,10-methenyltetrahydrofolate + NADPH -> a 5,10-methylene-tetrahydrofolate + NADP+ *\ - \* r1775a, a 5,10-methylene-tetrahydrofolate + NADP+ -> a 5,10-methenyltetrahydrofolate + NADPH *\ - \* r1752, glycerone phosphate + NAD(P)H + H+ -> sn-glycerol 3-phosphate + NAD(P)+ *\ - \* r1705, 2,5-didehydro-D-gluconate + NADPH + H+ -> 2-keto-L-gulonate + NADP+ *\ - \* r1695, an aldehyde + NADP+ + H2O -> a carboxylate + NADPH + 2 H+ *\ - \* r1693, an aldehyde + NADP+ + H2O -> a carboxylate + NADPH + 2 H+ *\ - \* r1692, an aldehyde + NADP+ + H2O -> a carboxylate + NADPH + 2 H+ *\ - \* r1691, an aldehyde + NADP+ + H2O -> a carboxylate + NADPH + 2 H+ *\ - \* r1688, an electron-transfer quinone[inner membrane] + NAD(P)H + H+ -> an electron-transfer quinol[inner membrane] + NAD(P)+ *\ - \* r1686, an electron-transfer quinone[inner membrane] + NAD(P)H + H+ -> an electron-transfer quinol[inner membrane] + NAD(P)+ *\ - \* r1643, 1-hydroxy-2-methyl-2-(E)-butenyl 4-diphosphate + NAD(P)H + H+ -> isopentenyl diphosphate + NAD(P)+ + H2O *\ - \* r1614, an L-glutamyl-[tRNAGlu] + NADPH -> (S)-4-amino-5-oxopentanoate + tRNAGlu + NADP+ *\ - \* r1601, 4-(gamma-glutamylamino)butanal + NAD(P)+ + H2O -> 4-(gamma-L-glutamylamino)butanoate + NAD(P)H + 2 H+ *\ - \* r1597, L-tyrosine + S-adenosyl-L-methionine + NADPH -> 2-iminoacetate + 4-methylphenol + 5'-deoxyadenosine + L-methionine + NADP+ + H+ *\ - \* r1594, dTDP-4-dehydro-beta-L-rhamnose + NADPH + H+ -> dTDP-beta-L-rhamnose + NADP+ *\ - \* r1585, 3-oxo-5,6-didehydrosuberyl-CoA semialdehyde + NADP+ + H2O -> 3-oxo-5,6-didehydrosuberyl-CoA + NADPH + 2 H+ *\ - \* r1561b, (S)-lactaldehyde + NADPH + H+ -> (S)-propane-1,2-diol + NADP+ *\ - \* r1561a, (S)-propane-1,2-diol + NADP+ -> (S)-lactaldehyde + NADPH + H+ *\ - \* r1558b, N-acetylglutamyl-phosphate + NADPH + H+ -> N-acetyl-L-glutamate 5-semialdehyde + NADP+ + phosphate *\ - \* r1558a, N-acetyl-L-glutamate 5-semialdehyde + NADP+ + phosphate -> N-acetylglutamyl-phosphate + NADPH + H+ *\ - \* r1542, L-aspartate-semialdehyde + NAD(P)H + H+ -> L-homoserine + NAD(P)+ *\ - \* r1525b, ammonium + 2-oxoglutarate + NADPH + H+ -> L-glutamate + NADP+ + H2O *\ - \* r1525a, L-glutamate + NADP+ + H2O -> ammonium + 2-oxoglutarate + NADPH + H+ *\ - \* r1522, 2,5-didehydro-D-gluconate + NADPH + H+ -> 2-keto-D-gluconate + NADP+ *\ - \* r1521, 2,5-didehydro-D-gluconate + NADPH + H+ -> 5-dehydro-D-gluconate + NADP+ *\ - \* r1491b, ethyl-2-methylacetoacetate + NADPH + H+ -> ethyl-(2R)-methyl-(3S)-hydroxybutanoate + NADP+ *\ - \* r1491a, ethyl-(2R)-methyl-(3S)-hydroxybutanoate + NADP+ -> ethyl-2-methylacetoacetate + NADPH + H+ *\ - \* r1482b, acryloyl-CoA + NADPH + H+ -> propanoyl-CoA + NADP+ *\ - \* r1482a, propanoyl-CoA + NADP+ -> acryloyl-CoA + NADPH + H+ *\ - \* r1426b, methylglyoxal + NADPH + H+ -> acetol + NADP+ *\ - \* r1426a, acetol + NADP+ -> methylglyoxal + NADPH + H+ *\ - \* r1332, UDP-N-acetyl-alpha-D-glucosamine-enolpyruvate + NADPH + H+ -> UDP-N-acetyl-alpha-D-muramate + NADP+ *\ - \* r1308b, 3-oxo-L-alanine + NADPH + H+ -> L-serine + NADP+ *\ - \* r1308a, L-serine + NADP+ -> 3-oxo-L-alanine + NADPH + H+ *\ - \* r1282, riboflavin + NADPH + 2 H+ -> reduced riboflavin + NADP+ *\ - \* r1268, (S)-2-aceto-2-hydroxybutanoate + NADPH + H+ -> (R)-2,3-dihydroxy-3-methylpentanoate + NADP+ *\ - \* r1249, (2S,4S)-4-hydroxy-2,3,4,5-tetrahydrodipicolinate + NADPH + H+ -> (S)-2,3,4,5-tetrahydrodipicolinate + NADP+ + H2O *\ - \* r1245, (S)-NADPHX + ADP -> AMP + NADPH + phosphate + H+ *\ - \* r1226, hydroxypyruvate + NADPH + H+ -> D-glycerate + NADP+ *\ - \* r1206, 2-keto-L-gulonate + NADPH + H+ -> L-idonate + NADP+ *\ - \* r1191, a 3-oxo-cis-delta7-tetradecenoyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxy cis delta7-tetradecenoyl-[acp] + NADP+ *\ - \* r1162, a 3-oxo-pimeloyl-[acp] methyl ester + NADPH + H+ -> a (3R)-3-hydroxypimeloyl-[acp] methyl ester + NADP+ *\ - \* r1142, a 3-oxoacyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxyacyl-[acyl-carrier protein] + NADP+ *\ - \* r1141, a 3-oxoacyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxyacyl-[acyl-carrier protein] + NADP+ *\ - \* r1140, a 3-oxoacyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxyacyl-[acyl-carrier protein] + NADP+ *\ - \* r1139, a 3-oxoacyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxyacyl-[acyl-carrier protein] + NADP+ *\ - \* r1138, a 3-oxoacyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxyacyl-[acyl-carrier protein] + NADP+ *\ - \* r1137, a 3-oxoacyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxyacyl-[acyl-carrier protein] + NADP+ *\ - \* r1136, a 3-oxoacyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxyacyl-[acyl-carrier protein] + NADP+ *\ - \* r1114, a 3-oxo-octanoyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxyoctanoyl-[acp] + NADP+ *\ - \* r1104b, a reduced flavodoxin + NADP+ -> an oxidized flavodoxin + NADPH + H+ *\ - \* r1104a, an oxidized flavodoxin + NADPH + H+ -> a reduced flavodoxin + NADP+ *\ - \* r1101, gamma-L-glutamyl 5-phosphate + NADPH + H+ -> L-glutamate-5-semialdehyde + NADP+ + phosphate *\ - \* r1086, a 3-oxo-hexanoyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxyhexanoyl-[acp] + NADP+ *\ - \* r1061, a 3-oxo-palmitoyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxypalmitoyl-[acp] + NADP+ *\ - \* r1058, phenylacetyl-CoA + NADPH + oxygen + H+ -> 2-(1,2-epoxy-1,2-dihydrophenyl)acetyl-CoA + NADP+ + H2O *\ - \* r1057, a 3-oxo-cis-delta9-hexadecenoyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxy cis delta9-hexadecenoyl-[acp] + NADP+ *\ - \* r1044b, isobutanal + NADPH + H+ -> isobutanol + NADP+ *\ - \* r1044a, isobutanol + NADP+ -> isobutanal + NADPH + H+ *\ - \* r1033, a 3-oxo-myristoyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxymyristoyl-[acp] + NADP+ *\ - \* r999, a 3-oxo-dodecanoyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxydodecanoyl-[acp] + NADP+ *\ - \* r932, methylglyoxal + NADPH + H+ -> (S)-lactaldehyde + NADP+ *\ - \* r930b, L-idonate + NADP+ -> 2-keto-D-gluconate + NADPH + H+ *\ - \* r930a, 2-keto-D-gluconate + NADPH + H+ -> L-idonate + NADP+ *\ - \* r920, an oxidized thioredoxin + NADPH + H+ -> a reduced thioredoxin + NADP+ *\ - \* r908, an acetoacetyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxybutanoyl-[acp] + NADP+ *\ - \* r902, a 7,8-dihydrofolate + NADPH + H+ -> a tetrahydrofolate + NADP+ *\ - \* r871, a trans-2-enoyl-[acyl-carrier protein] + NADPH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NADP+ *\ - \* r870, a trans-2-enoyl-[acyl-carrier protein] + NADPH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NADP+ *\ - \* r869, a trans-2-enoyl-[acyl-carrier protein] + NADPH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NADP+ *\ - \* r868, a trans-2-enoyl-[acyl-carrier protein] + NADPH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NADP+ *\ - \* r867, a trans-2-enoyl-[acyl-carrier protein] + NADPH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NADP+ *\ - \* r866, a trans-2-enoyl-[acyl-carrier protein] + NADPH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NADP+ *\ - \* r865, a trans-2-enoyl-[acyl-carrier protein] + NADPH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NADP+ *\ - \* r811, a 3-oxo-decanoyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxydecanoyl-[acp] + NADP+ *\ - \* r798b, methyl-1,4-benzoquinol + 2 NADP+ -> methyl-1,4-benzoquinone + 2 NADPH + 2 H+ *\ - \* r798a, methyl-1,4-benzoquinone + 2 NADPH + 2 H+ -> methyl-1,4-benzoquinol + 2 NADP+ *\ - \* r773, a 3-oxo-glutaryl-[acp] methyl ester + NADPH + H+ -> a (3R)-3-hydroxyglutaryl-[acp] methyl ester + NADP+ *\ - \* r764, NADPH + FMN + 2 H+ -> NADP+ + FMNH2 *\ - \* r761b, 5-dehydro-D-gluconate + NAD(P)H + H+ -> L-idonate + NAD(P)+ *\ - \* r761a, L-idonate + NAD(P)+ -> 5-dehydro-D-gluconate + NAD(P)H + H+ *\ - \* r756b, 5-dehydro-D-gluconate + NAD(P)H + H+ -> D-gluconate + NAD(P)+ *\ - \* r756a, D-gluconate + NAD(P)+ -> 5-dehydro-D-gluconate + NAD(P)H + H+ *\ - \* r717, sulfite + 3 NADPH + 5 H+ -> hydrogen sulfide + 3 NADP+ + 3 H2O *\ - \* r711, a 3-oxo-cis-delta5-dodecenoyl-[acp] + NADPH + H+ -> a (3R)-hydroxy cis delta5-dodecenoyl-[acp] + NADP+ *\ - \* r146, NADH + NADP+ + H+[periplasmic space] -> NADPH + NAD+ + H+[cytosol] *\ - - -1.0 r2440 -1.0 r2435 -1.0 r2417b + r2417a -1.0 r2414b + r2414a + r2413 -1.0 r2408 -1.0 r2403b + r2403a + r2395 -1.0 r2374b + r2374a -1.0 r2332 -1.0 r2326b + r2326a + r2321 -1.0 r2314b + r2314a - -1.0 r2294 -1.0 r2291b + r2291a -1.0 r2248b + r2248a + r2247 + r2212b -1.0 r2212a + r2202 + r2189b -1.0 r2189a -1.0 r2167b + r2167a -1.0 r2124 -1.0 r2096 -1.0 r2075b + r2075a -1.0 r2038 -1.0 r2036b + r2036a - + r2007b -1.0 r2007a -1.0 r1944 -1.0 r1941 -1.0 r1933 + r1919 + r1918 + r1917 + r1916 + r1915 + r1914 + r1913 -1.0 r1906 -1.0 r1905 -1.0 r1899b + r1899a -1.0 r1892 -1.0 r1885b + r1885a -1.0 r1883 - -1.0 r1819 + r1803 -1.0 r1788b + r1788a -1.0 r1775b + r1775a -1.0 r1752 -1.0 r1705 + r1695 + r1693 + r1692 + r1691 -1.0 r1688 -1.0 r1686 -1.0 r1643 -1.0 r1614 + r1601 -1.0 r1597 -1.0 r1594 + r1585 - -1.0 r1561b + r1561a -1.0 r1558b + r1558a -1.0 r1542 -1.0 r1525b + r1525a -1.0 r1522 -1.0 r1521 -1.0 r1491b + r1491a -1.0 r1482b + r1482a -1.0 r1426b + r1426a -1.0 r1332 -1.0 r1308b + r1308a -1.0 r1282 -1.0 r1268 - -1.0 r1249 + r1245 -1.0 r1226 -1.0 r1206 -1.0 r1191 -1.0 r1162 -1.0 r1142 -1.0 r1141 -1.0 r1140 -1.0 r1139 -1.0 r1138 -1.0 r1137 -1.0 r1136 -1.0 r1114 + r1104b -1.0 r1104a -1.0 r1101 -1.0 r1086 -1.0 r1061 -1.0 r1058 - -1.0 r1057 -1.0 r1044b + r1044a -1.0 r1033 -1.0 r999 -1.0 r932 + r930b -1.0 r930a -1.0 r920 -1.0 r908 -1.0 r902 -1.0 r871 -1.0 r870 -1.0 r869 -1.0 r868 -1.0 r867 -1.0 r866 -1.0 r865 -1.0 r811 +2.0 r798b - -2.0 r798a -1.0 r773 -1.0 r764 -1.0 r761b + r761a -1.0 r756b + r756a -3.0 r717 -1.0 r711 + r146 = 0 - -c1968: \* ETF-Oxidized[CCO-CYTOSOL] *\ - \* r1900b, 3-methylcrotonyl-CoA + a reduced electron-transfer flavoprotein -> isovaleryl-CoA + an oxidized electron-transfer flavoprotein + H+ *\ - \* r1900a, isovaleryl-CoA + an oxidized electron-transfer flavoprotein + H+ -> 3-methylcrotonyl-CoA + a reduced electron-transfer flavoprotein *\ - \* r1784, a 2,3,4-saturated fatty acyl CoA + an oxidized electron-transfer flavoprotein + H+ -> a trans-2-enoyl-CoA + a reduced electron-transfer flavoprotein *\ - \* r1783, a 2,3,4-saturated fatty acyl CoA + an oxidized electron-transfer flavoprotein + H+ -> a trans-2-enoyl-CoA + a reduced electron-transfer flavoprotein *\ - \* r1782, a 2,3,4-saturated fatty acyl CoA + an oxidized electron-transfer flavoprotein + H+ -> a trans-2-enoyl-CoA + a reduced electron-transfer flavoprotein *\ - \* r1781, a 2,3,4-saturated fatty acyl CoA + an oxidized electron-transfer flavoprotein + H+ -> a trans-2-enoyl-CoA + a reduced electron-transfer flavoprotein *\ - \* r1780, a 2,3,4-saturated fatty acyl CoA + an oxidized electron-transfer flavoprotein + H+ -> a trans-2-enoyl-CoA + a reduced electron-transfer flavoprotein *\ - \* r1779, a 2,3,4-saturated fatty acyl CoA + an oxidized electron-transfer flavoprotein + H+ -> a trans-2-enoyl-CoA + a reduced electron-transfer flavoprotein *\ - \* r1778, a 2,3,4-saturated fatty acyl CoA + an oxidized electron-transfer flavoprotein + H+ -> a trans-2-enoyl-CoA + a reduced electron-transfer flavoprotein *\ - \* r1777, a 2,3,4-saturated fatty acyl CoA + an oxidized electron-transfer flavoprotein + H+ -> a trans-2-enoyl-CoA + a reduced electron-transfer flavoprotein *\ - \* r1776, a 2,3,4-saturated fatty acyl CoA + an oxidized electron-transfer flavoprotein + H+ -> a trans-2-enoyl-CoA + a reduced electron-transfer flavoprotein *\ - - + r1900b -1.0 r1900a -1.0 r1784 -1.0 r1783 -1.0 r1782 -1.0 r1781 -1.0 r1780 -1.0 r1779 -1.0 r1778 -1.0 r1777 -1.0 r1776 = 0 - -c164: \* GLN[CCO-CYTOSOL] *\ - \* r2415, 2 ATP + L-glutamine + hydrogen carbonate + H2O -> carbamoyl-phosphate + L-glutamate + 2 ADP + phosphate + 2 H+ *\ - \* r2408, L-glutamine + 2-oxoglutarate + NADPH + H+ -> 2 L-glutamate + NADP+ *\ - \* r2404, L-glutamine + L-aspartate + ATP + H2O -> L-glutamate + L-asparagine + AMP + diphosphate + H+ *\ - \* r2371, chorismate + L-glutamine -> anthranilate + pyruvate + L-glutamate + H+ *\ - \* r2370b, 4-amino-4-deoxychorismate + L-glutamate -> L-glutamine + chorismate *\ - \* r2370a, L-glutamine + chorismate -> 4-amino-4-deoxychorismate + L-glutamate *\ - \* r2367, L-alanyl-L-glutamine + H2O -> L-alanine + L-glutamine *\ - \* r2324, L-glutamine + H2O -> L-glutamate + ammonium *\ - \* r2186, ATP + UTP + L-glutamine + H2O -> ADP + CTP + L-glutamate + phosphate + 2 H+ *\ - \* r2090, 5-phospho-alpha-D-ribose 1-diphosphate + L-glutamine + H2O -> 5-phospho-beta-D-ribosylamine + L-glutamate + diphosphate *\ - \* r2081, glycyl-L-glutamine + H2O -> glycine + L-glutamine *\ - \* r2056b, D-glucosamine 6-phosphate + L-glutamate -> beta-D-fructofuranose 6-phosphate + L-glutamine *\ - \* r2056a, beta-D-fructofuranose 6-phosphate + L-glutamine -> D-glucosamine 6-phosphate + L-glutamate *\ - \* r1951, L-glutamine + XMP + ATP + H2O -> L-glutamate + GMP + AMP + diphosphate + 2 H+ *\ - \* r1837, tRNAgln + L-glutamine + ATP + H+ -> an L-glutaminyl-[tRNAgln] + AMP + diphosphate *\ - \* r1736, ATP + N2-formyl-N1-(5-phospho-beta-D-ribosyl)glycinamide + L-glutamine + H2O -> ADP + 2-(formamido)-N1-(5-phospho-beta-D-ribosyl)acetamidine + L-glutamate + phosphate + H+ *\ - \* r1340, ammonium + L-glutamate + ATP -> L-glutamine + ADP + phosphate + H+ *\ - \* r1240, phosphoribulosylformimino-AICAR-P + L-glutamine -> L-glutamate + D-erythro-imidazole-glycerol-phosphate + 5-amino-1-(5-phospho-D-ribosyl)imidazole-4-carboxamide + H+ *\ - \* r1176, ATP + nicotinate adenine dinucleotide + L-glutamine + H2O -> AMP + L-glutamate + NAD+ + diphosphate + H+ *\ - \* r334, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - \* r82, ATP + L-glutamine[periplasmic space] + H2O -> ADP + L-glutamine[cytosol] + phosphate + H+ *\ - - -1.0 r2415 -1.0 r2408 -1.0 r2404 -1.0 r2371 + r2370b -1.0 r2370a + r2367 -1.0 r2324 -1.0 r2186 -1.0 r2090 + r2081 + r2056b -1.0 r2056a -1.0 r1951 -1.0 r1837 -1.0 r1736 + r1340 -1.0 r1240 -1.0 r1176 - -1.0 r334 + r82 = 0 - -c630: \* CPD-404[CCO-PERI-BAC] *\ - \* r354, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - - + r354 = 0 - -c273: \* Pi[CCO-IN] *\ - \* r138b, ADP + phosphate + 4 H+[out] -> ATP + 3 H+[in] + H2O *\ - \* r138a, ATP + 3 H+[in] + H2O -> ADP + phosphate + 4 H+[out] *\ - - -1.0 r138b + r138a = 0 - -c900: \* PPI[CCO-CYTOSOL] *\ - \* objReactionName, diphosphate *\ - \* r2444, guanine + 5-phospho-alpha-D-ribose 1-diphosphate -> GMP + diphosphate *\ - \* r2437, a tRNAgly + glycine + ATP + H+ -> a glycyl-[tRNAgly] + AMP + diphosphate *\ - \* r2430, xanthine + 5-phospho-alpha-D-ribose 1-diphosphate -> XMP + diphosphate *\ - \* r2419, carbamoyl-phosphate + HypE + ATP + H2O -> a HypE hydrogenase maturation protein-S-carboxamide + AMP + diphosphate + phosphate *\ - \* r2404, L-glutamine + L-aspartate + ATP + H2O -> L-glutamate + L-asparagine + AMP + diphosphate + H+ *\ - \* r2385, a tRNApro + L-proline + ATP + H+ -> an L-prolyl-[tRNApro] + AMP + diphosphate *\ - \* r2378, tRNAasp + L-aspartate + ATP + H+ -> L-aspartyl-tRNAasp + AMP + diphosphate *\ - \* r2364b, an L-methionyl-[initiator tRNAmet] + AMP + diphosphate -> initiator tRNAmet + L-methionine + ATP + H+ *\ - \* r2364a, initiator tRNAmet + L-methionine + ATP + H+ -> an L-methionyl-[initiator tRNAmet] + AMP + diphosphate *\ - \* r2330b, 5',5'''-diadenosine tetraphosphate + diphosphate -> ATP + ATP + H+ *\ - \* r2330a, ATP + ATP + H+ -> 5',5'''-diadenosine tetraphosphate + diphosphate *\ - \* r2327, 2-[(2R,5Z)-(2-carboxy-4-methylthiazol-5(2H)-ylidene]ethyl phosphate + 4-amino-2-methyl-5-diphosphomethylpyrimidine + 2 H+ -> thiamin phosphate + CO2 + diphosphate *\ - \* r2301, 5-phospho-alpha-D-ribose 1-diphosphate + quinolinate + 2 H+ -> beta-nicotinate D-ribonucleotide + CO2 + diphosphate *\ - \* r2298, a tRNAcys + L-cysteine + ATP + H+ -> an L-cysteinyl-[tRNAcys] + AMP + diphosphate *\ - \* r2295, XTP + H2O -> XMP + diphosphate + H+ *\ - \* r2262, ammonium + ATP + nicotinate adenine dinucleotide -> AMP + NAD+ + diphosphate + H+ *\ - \* r2242, ITP + H2O -> IMP + diphosphate + H+ *\ - \* r2237, 5-phospho-alpha-D-ribose 1-diphosphate + hypoxanthine -> IMP + diphosphate *\ - \* r2227, 2-C-methyl-D-erythritol 4-phosphate + CTP + H+ -> 4-(cytidine 5'-diphospho)-2-C-methyl-D-erythritol + diphosphate *\ - \* r2201, ATP + FMN + H+ -> FAD + diphosphate *\ - \* r2197b, dTDP-alpha-D-glucose + diphosphate -> alpha-D-glucose 1-phosphate + dTTP + H+ *\ - \* r2197a, alpha-D-glucose 1-phosphate + dTTP + H+ -> dTDP-alpha-D-glucose + diphosphate *\ - \* r2190, ATP + 2,3-dihydroxybenzoate + H+ -> 2,3-dihydroxybenzoyl adenylate + diphosphate *\ - \* r2181, ppGpp + H2O -> GDP + diphosphate + H+ *\ - \* r2161, ATP -> cyclic-AMP + diphosphate *\ - \* r2147, a tRNAile + L-isoleucine + ATP + H+ -> an L-isoleucyl-[tRNAile] + AMP + diphosphate *\ - \* r2133, 4-aminobenzoate + (2-amino-4-hydroxy-7,8-dihydropteridin-6-yl)methyl diphosphate -> 7,8-dihydropteroate + diphosphate *\ - \* r2107, PPPi + H2O -> phosphate + diphosphate *\ - \* r2092, 3-deoxy-D-manno-octulosonate + CTP -> CMP-3-deoxy-alpha-D-manno-octulosonate + diphosphate *\ - \* r2090, 5-phospho-alpha-D-ribose 1-diphosphate + L-glutamine + H2O -> 5-phospho-beta-D-ribosylamine + L-glutamate + diphosphate *\ - \* r2059, L-lysine + a tRNAlys + ATP + H+ -> an L-lysyl-[tRNAlys] + AMP + diphosphate *\ - \* r2057, all-trans-octaprenyl diphosphate + 4-hydroxybenzoate -> 3-octaprenyl-4-hydroxybenzoate + diphosphate *\ - \* r2048, 7,8-dihydroneopterin 3'-triphosphate + H2O -> 7,8-dihydroneopterin 3'-phosphate + diphosphate + H+ *\ - \* r2044, dimethylallyl diphosphate + isopentenyl diphosphate -> geranyl diphosphate + diphosphate *\ - \* r2028, 5-phospho-alpha-D-ribose 1-diphosphate + uracil -> UMP + diphosphate *\ - \* r2021, dATP + H2O -> dAMP + diphosphate + H+ *\ - \* r1997b, di-trans,octa-cis-undecaprenyl diphosphate + 8 diphosphate -> (2E,6E)-farnesyl diphosphate + 8 isopentenyl diphosphate *\ - \* r1997a, (2E,6E)-farnesyl diphosphate + 8 isopentenyl diphosphate -> di-trans,octa-cis-undecaprenyl diphosphate + 8 diphosphate *\ - \* r1994, a tRNAphe + L-phenylalanine + ATP + H+ -> an L-phenylalanyl-[tRNAphe] + AMP + diphosphate *\ - \* r1957, 1-(5-phospho-beta-D-ribosyl)-ATP + H2O -> 1-(5-phospho-beta-D-ribosyl)-AMP + diphosphate + 2 H+ *\ - \* r1951, L-glutamine + XMP + ATP + H2O -> L-glutamate + GMP + AMP + diphosphate + 2 H+ *\ - \* r1931, geranyl diphosphate + isopentenyl diphosphate -> (2E,6E)-farnesyl diphosphate + diphosphate *\ - \* r1908, all-trans-octaprenyl diphosphate + 1,4-dihydroxy-2-naphthoate + H+ -> CO2 + demethylmenaquinol-8 + diphosphate *\ - \* r1879, 4'-phosphopantetheine + ATP + H+ -> 3'-dephospho-CoA + diphosphate *\ - \* r1871, N-acetyl-alpha-D-glucosamine 1-phosphate + UTP + H+ -> UDP-N-acetyl-alpha-D-glucosamine + diphosphate *\ - \* r1860, pppGpp + H2O -> GTP + diphosphate + H+ *\ - \* r1854, a tRNAhis + L-histidine + ATP + H+ -> an L-histidyl-[tRNAhis] + AMP + diphosphate *\ - \* r1844, ATP + ADP + H+ -> 5',5'''-diadenosine triphosphate + diphosphate *\ - \* r1837, tRNAgln + L-glutamine + ATP + H+ -> an L-glutaminyl-[tRNAgln] + AMP + diphosphate *\ - \* r1835, dTTP + H2O -> dTMP + diphosphate + H+ *\ - \* r1834, a tRNAval + L-valine + ATP + H+ -> an L-valyl-[tRNAval] + AMP + diphosphate *\ - \* r1833, alpha-D-glucose 1-phosphate + ATP + H+ -> ADP-alpha-D-glucose + diphosphate *\ - \* r1798, tRNAasn + L-asparagine + ATP + H+ -> an L-asparaginyl-[tRNAasn] + AMP + diphosphate *\ - \* r1771, a tRNAleu + L-leucine + ATP + H+ -> an L-leucyl-[tRNAleu] + AMP + diphosphate *\ - \* r1761, UTP + H2O -> UMP + diphosphate + H+ *\ - \* r1759, GTP + 3 H2O -> 2,5-diamino-6-(5-phospho-D-ribosylamino)pyrimidin-4(3H)-one + formate + diphosphate + 2 H+ *\ - \* r1747, tRNAGlu + L-glutamate + ATP + H+ -> an L-glutamyl-[tRNAGlu] + AMP + diphosphate *\ - \* r1716, dCTP + H2O -> dCMP + diphosphate + H+ *\ - \* r1704, L-aspartate + ammonium + ATP -> L-asparagine + AMP + diphosphate + H+ *\ - \* r1622, beta-nicotinamide D-ribonucleotide + ATP + H+ -> NAD+ + diphosphate *\ - \* r1573, L-aspartate + L-citrulline + ATP -> L-arginino-succinate + AMP + diphosphate + H+ *\ - \* r1568b, 5-phospho-alpha-D-ribose 1-diphosphate + orotate -> orotidine 5'-phosphate + diphosphate *\ - \* r1568a, orotidine 5'-phosphate + diphosphate -> 5-phospho-alpha-D-ribose 1-diphosphate + orotate *\ - \* r1562, nicotinate + 5-phospho-alpha-D-ribose 1-diphosphate + ATP + H2O -> beta-nicotinate D-ribonucleotide + ADP + diphosphate + phosphate *\ - \* r1559, 5-phospho-alpha-D-ribose 1-diphosphate + adenine -> AMP + diphosphate *\ - \* r1513, D-glycero-beta-D-manno-heptose 1-phosphate + ATP + H+ -> ADP-D-glycero-beta-D-manno-heptose + diphosphate *\ - \* r1509, dGTP + H2O -> dGMP + diphosphate + H+ *\ - \* r1507b, L-seryl-adenylate + diphosphate -> L-serine + ATP + H+ *\ - \* r1507a, L-serine + ATP + H+ -> L-seryl-adenylate + diphosphate *\ - \* r1480, ATP + H2O -> AMP + diphosphate + H+ *\ - \* r1476, a tRNAarg + L-arginine + ATP + H+ -> an L-arginyl-[tRNAarg] + AMP + diphosphate *\ - \* r1469, a tRNAala + L-alanine + ATP + H+ -> an L-alanyl-[tRNAala] + AMP + diphosphate *\ - \* r1455b, N6-dimethylallyladenosine37 in tRNA + diphosphate -> dimethylallyl diphosphate + an adenosine37 in tRNA *\ - \* r1455a, dimethylallyl diphosphate + an adenosine37 in tRNA -> N6-dimethylallyladenosine37 in tRNA + diphosphate *\ - \* r1448b, cyclic-GMP + diphosphate -> GTP *\ - \* r1448a, GTP -> cyclic-GMP + diphosphate *\ - \* r1442, XMP + ammonium + ATP -> GMP + AMP + diphosphate + 2 H+ *\ - \* r1425, a tRNAtyr + L-tyrosine + ATP + H+ -> an L-tyrosyl-[tRNAtyr] + AMP + diphosphate *\ - \* r1407, sulfate + ATP + H+ -> adenosine 5'-phosphosulfate + diphosphate *\ - \* r1396, propanoate + ATP + coenzyme A -> propanoyl-CoA + AMP + diphosphate *\ - \* r1387, beta-alanine + (R)-pantoate + ATP -> (R)-pantothenate + AMP + diphosphate + H+ *\ - \* r1335, alpha-D-glucose 1-phosphate + UTP + H+ -> UDP-alpha-D-glucose + diphosphate *\ - \* r1329, L-tryptophan + a tRNAtrp + ATP + H+ -> an L-tryptophanyl-[tRNAtrp] + AMP + diphosphate *\ - \* r1325, dUTP + H2O -> dUMP + diphosphate + H+ *\ - \* r1324, phenylacetate + ATP + coenzyme A -> phenylacetyl-CoA + AMP + diphosphate *\ - \* r1307, a tRNAser + L-serine + ATP + H+ -> an L-seryl-[tRNAser] + AMP + diphosphate *\ - \* r1290, (R)-4'-phosphopantothenate + L-cysteine + CTP -> CMP + R-4'-phosphopantothenoyl-L-cysteine + diphosphate + H+ *\ - \* r1286, ATP + 2-succinylbenzoate + coenzyme A -> AMP + 4-(2'-carboxyphenyl)-4-oxobutyryl-CoA + diphosphate *\ - \* r1279, a 2,3,4-saturated fatty acid + ATP + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + AMP + diphosphate *\ - \* r1278, a 2,3,4-saturated fatty acid + ATP + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + AMP + diphosphate *\ - \* r1277, a 2,3,4-saturated fatty acid + ATP + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + AMP + diphosphate *\ - \* r1276, a 2,3,4-saturated fatty acid + ATP + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + AMP + diphosphate *\ - \* r1275, a 2,3,4-saturated fatty acid + ATP + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + AMP + diphosphate *\ - \* r1274, a 2,3,4-saturated fatty acid + ATP + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + AMP + diphosphate *\ - \* r1273, a 2,3,4-saturated fatty acid + ATP + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + AMP + diphosphate *\ - \* r1272, a 2,3,4-saturated fatty acid + ATP + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + AMP + diphosphate *\ - \* r1271, a 2,3,4-saturated fatty acid + ATP + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + AMP + diphosphate *\ - \* r1215, dITP + H2O -> dIMP + diphosphate + H+ *\ - \* r1176, ATP + nicotinate adenine dinucleotide + L-glutamine + H2O -> AMP + L-glutamate + NAD+ + diphosphate + H+ *\ - \* r1170, elongator tRNAmet + L-methionine + ATP + H+ -> an L-methionyl-[elongator tRNAmet] + AMP + diphosphate *\ - \* r1158, a nucleoside triphosphate + H2O -> a nucleoside 5'-monophosphate + diphosphate + H+ *\ - \* r1157, a nucleoside triphosphate + H2O -> a nucleoside 5'-monophosphate + diphosphate + H+ *\ - \* r1156, a nucleoside triphosphate + H2O -> a nucleoside 5'-monophosphate + diphosphate + H+ *\ - \* r1155, a nucleoside triphosphate + H2O -> a nucleoside 5'-monophosphate + diphosphate + H+ *\ - \* r1154, a nucleoside triphosphate + H2O -> a nucleoside 5'-monophosphate + diphosphate + H+ *\ - \* r1153, a nucleoside triphosphate + H2O -> a nucleoside 5'-monophosphate + diphosphate + H+ *\ - \* r1152, a nucleoside triphosphate + H2O -> a nucleoside 5'-monophosphate + diphosphate + H+ *\ - \* r1151, a nucleoside triphosphate + H2O -> a nucleoside 5'-monophosphate + diphosphate + H+ *\ - \* r1150, a nucleoside triphosphate + H2O -> a nucleoside 5'-monophosphate + diphosphate + H+ *\ - \* r1149, a nucleoside triphosphate + H2O -> a nucleoside 5'-monophosphate + diphosphate + H+ *\ - \* r1128b, heme o + diphosphate -> heme b + (2E,6E)-farnesyl diphosphate + H2O *\ - \* r1128a, heme b + (2E,6E)-farnesyl diphosphate + H2O -> heme o + diphosphate *\ - \* r1109, alpha-D-mannose 1-phosphate + GTP + H+ -> GDP-alpha-D-mannose + diphosphate *\ - \* r1075, a [biotin-carboxyl-carrier protein monomer] + biotin + ATP -> AMP + a biotinylated [BCCP monomer] + diphosphate + H+ *\ - \* r1056, ATP + L-methionine + H2O -> S-adenosyl-L-methionine + phosphate + diphosphate *\ - \* r1046, anthranilate + 5-phospho-alpha-D-ribose 1-diphosphate -> N-(5-phosphoribosyl)-anthranilate + diphosphate *\ - \* r1042, CTP + a 1,2-diacyl-sn-glycerol 3-phosphate + H+ -> a CDP-diacylglycerol + diphosphate *\ - \* r1041, CTP + a 1,2-diacyl-sn-glycerol 3-phosphate + H+ -> a CDP-diacylglycerol + diphosphate *\ - \* r993, acetate + ATP + coenzyme A -> acetyl-CoA + AMP + diphosphate *\ - \* r915, 6 ATP + 3 L-serine + 3 2,3-dihydroxybenzoate -> 6 AMP + enterobactin + 6 diphosphate + 3 H+ *\ - \* r911, a ThiS sulfur-carrier protein + ATP + H+ -> a carboxy-adenylated-[ThiS sulfur-carrier protein] + diphosphate *\ - \* r899, [a holo citrate lyase acyl-carrier protein] + acetate + ATP -> an acetyl-[holo citrate lyase acyl-carrier protein] + AMP + diphosphate *\ - \* r876b, ATP + 5-phospho-alpha-D-ribose 1-diphosphate + H+ -> 1-(5-phospho-beta-D-ribosyl)-ATP + diphosphate *\ - \* r876a, 1-(5-phospho-beta-D-ribosyl)-ATP + diphosphate -> ATP + 5-phospho-alpha-D-ribose 1-diphosphate + H+ *\ - \* r848, a cytidine34 in tRNAIle2 + L-lysine + ATP -> a lysidine34 in tRNAIle2 + AMP + diphosphate + 2 H+ *\ - \* r843, octanoate + a holo-[acyl-carrier protein] + ATP -> an octanoyl-[acp] + AMP + diphosphate *\ - \* r842, ATP + beta-nicotinate D-ribonucleotide + H+ -> nicotinate adenine dinucleotide + diphosphate *\ - \* r738, CTP + H2O -> CMP + diphosphate + H+ *\ - \* r722, a tRNAthr + L-threonine + ATP + H+ -> an L-threonyl-[tRNAthr] + AMP + diphosphate *\ - \* r691, (2E,6E)-farnesyl diphosphate + 5 isopentenyl diphosphate -> all-trans-octaprenyl diphosphate + 5 diphosphate *\ - \* r663b, O-carbamoyladenylate + diphosphate + phosphate -> carbamoyl-phosphate + ATP + H2O *\ - \* r663a, carbamoyl-phosphate + ATP + H2O -> O-carbamoyladenylate + diphosphate + phosphate *\ - \* r657, diphosphate + H2O -> 2 phosphate + H+ *\ - - -4.447254 objReactionName + r2444 + r2437 + r2430 + r2419 + r2404 + r2385 + r2378 -1.0 r2364b + r2364a -1.0 r2330b + r2330a + r2327 + r2301 + r2298 + r2295 + r2262 + r2242 + r2237 - + r2227 + r2201 -1.0 r2197b + r2197a + r2190 + r2181 + r2161 + r2147 + r2133 + r2107 + r2092 + r2090 + r2059 + r2057 + r2048 + r2044 + r2028 + r2021 -8.0 r1997b +8.0 r1997a - + r1994 + r1957 + r1951 + r1931 + r1908 + r1879 + r1871 + r1860 + r1854 + r1844 + r1837 + r1835 + r1834 + r1833 + r1798 + r1771 + r1761 + r1759 + r1747 + r1716 - + r1704 + r1622 + r1573 + r1568b -1.0 r1568a + r1562 + r1559 + r1513 + r1509 -1.0 r1507b + r1507a + r1480 + r1476 + r1469 -1.0 r1455b + r1455a -1.0 r1448b + r1448a + r1442 + r1425 - + r1407 + r1396 + r1387 + r1335 + r1329 + r1325 + r1324 + r1307 + r1290 + r1286 + r1279 + r1278 + r1277 + r1276 + r1275 + r1274 + r1273 + r1272 + r1271 + r1215 - + r1176 + r1170 + r1158 + r1157 + r1156 + r1155 + r1154 + r1153 + r1152 + r1151 + r1150 + r1149 -1.0 r1128b + r1128a + r1109 + r1075 + r1056 + r1046 + r1042 + r1041 - + r993 +6.0 r915 + r911 + r899 + r876b -1.0 r876a + r848 + r843 + r842 + r738 + r722 +5.0 r691 -1.0 r663b + r663a -1.0 r657 = 0 - -c488: \* CPD0-2240[CCO-EXTRACELLULAR] *\ - \* r256, a lipopolysaccharide[cytosol] -> a lipopolysaccharide[extracellular space] *\ - - + r256 = 0 - -c1656: \* Oxidized-hydrogenase-3[CCO-CYTOSOL] *\ - \* r2433b, an oxidized hydrogenase 3 + H2 -> a reduced hydrogenase 3 + H+ *\ - \* r2433a, a reduced hydrogenase 3 + H+ -> an oxidized hydrogenase 3 + H2 *\ - \* r1339b, CO2 + a reduced hydrogenase 3 -> formate + an oxidized hydrogenase 3 *\ - \* r1339a, formate + an oxidized hydrogenase 3 -> CO2 + a reduced hydrogenase 3 *\ - - -1.0 r2433b + r2433a + r1339b -1.0 r1339a = 0 - -c1069: \* ACYL-ACP[CCO-CYTOSOL] *\ - \* r1100a, an acyl-[acyl-carrier protein] + a 2-acyl-1-lyso-phosphatidylethanolamine -> a holo-[acyl-carrier protein] + an L-1-phosphatidylethanolamine *\ - \* r1100b, a holo-[acyl-carrier protein] + an L-1-phosphatidylethanolamine -> an acyl-[acyl-carrier protein] + a 2-acyl-1-lyso-phosphatidylethanolamine *\ - - -1.0 r1100a + r1100b = 0 - -c1418: \* DTDP-D-GLUCOSE[CCO-CYTOSOL] *\ - \* r2197b, dTDP-alpha-D-glucose + diphosphate -> alpha-D-glucose 1-phosphate + dTTP + H+ *\ - \* r2197a, alpha-D-glucose 1-phosphate + dTTP + H+ -> dTDP-alpha-D-glucose + diphosphate *\ - \* r1071, dTDP-alpha-D-glucose -> dTDP-4-dehydro-6-deoxy-alpha-D-glucopyranose + H2O *\ - - -1.0 r2197b + r2197a -1.0 r1071 = 0 - -c1564: \* L-HISTIDINOL-P[CCO-CYTOSOL] *\ - \* r1354, L-histidinol-phosphate + H2O -> histidinol + phosphate *\ - \* r1254, imidazole acetol-phosphate + L-glutamate -> L-histidinol-phosphate + 2-oxoglutarate *\ - - -1.0 r1354 + r1254 = 0 - -c1860: \* DIACYLGLYCEROL[CCO-PERI-BAC] *\ - \* r1605a, an L-1-phosphatidylethanolamine[periplasmic space] + alpha-Kdo-(2->4)-alpha-Kdo-(2->6)-lipid IVA[periplasmic space] -> a 1,2-diacyl-sn-glycerol[periplasmic space] + 7-O-[2-aminoethoxy(hydroxy)phosphoryl]-alpha-D-Kdo-(2->4)-alpha-D-Kdo-(2->6)-lipid IVA[periplasmic space] *\ - \* r1605b, a 1,2-diacyl-sn-glycerol[periplasmic space] + 7-O-[2-aminoethoxy(hydroxy)phosphoryl]-alpha-D-Kdo-(2->4)-alpha-D-Kdo-(2->6)-lipid IVA[periplasmic space] -> an L-1-phosphatidylethanolamine[periplasmic space] + alpha-Kdo-(2->4)-alpha-Kdo-(2->6)-lipid IVA[periplasmic space] *\ - \* r1797a, an osmoregulated periplasmic glucan[periplasmic space] + an L-1-phosphatidyl-glycerol[periplasmic space] -> an osmoregulated periplasmic glucan with phosphoglycerol substituent[periplasmic space] + a 1,2-diacyl-sn-glycerol[periplasmic space] + H+[periplasmic space] *\ - \* r1797b, an osmoregulated periplasmic glucan with phosphoglycerol substituent[periplasmic space] + a 1,2-diacyl-sn-glycerol[periplasmic space] + H+[periplasmic space] -> an osmoregulated periplasmic glucan[periplasmic space] + an L-1-phosphatidyl-glycerol[periplasmic space] *\ - - + r1605a -1.0 r1605b + r1797a -1.0 r1797b = 0 - -c1221: \* Apo-EntB[CCO-CYTOSOL] *\ - \* r2019, [EntB aryl-carrier protein] + coenzyme A -> a holo EntB isochorismatase/aryl-carrier protein + adenosine 3',5'-bisphosphate + H+ *\ - \* r1048, an acyl-carrier protein + coenzyme A -> adenosine 3',5'-bisphosphate + a holo-[acyl-carrier protein] + H+ *\ - \* r861, a holo-[acyl-carrier protein] + H2O -> 4'-phosphopantetheine + an acyl-carrier protein + H+ *\ - - -1.0 r2019 -1.0 r1048 + r861 = 0 - -c313: \* GALACTOSE[CCO-CYTOSOL] *\ - \* r1802, alpha-lactose + H2O -> beta-D-galactose + beta-D-glucose *\ - \* r2277a, beta-D-galactose -> alpha-D-galactose *\ - \* r2277b, alpha-D-galactose -> beta-D-galactose *\ - - + r1802 -1.0 r2277a + r2277b = 0 - -c1409: \* Sulfur-Carrier-Proteins-ThiI[CCO-CYTOSOL] *\ - \* r2412b, an S-sulfanyl-[ThiI sulfur-carrier protein] + L-alanine -> a ThiI sulfur-carrier protein + L-cysteine *\ - \* r2412a, a ThiI sulfur-carrier protein + L-cysteine -> an S-sulfanyl-[ThiI sulfur-carrier protein] + L-alanine *\ - \* r1959, an [L-cysteine desulfurase] L-cysteine persulfide + a ThiI sulfur-carrier protein -> an [L-cysteine desulfurase]-L-cysteine + an S-sulfanyl-[ThiI sulfur-carrier protein] *\ - \* r1063, an S-sulfanyl-[ThiI sulfur-carrier protein] + a carboxy-adenylated-[ThiS sulfur-carrier protein] + 2 a reduced ferredoxin -> a thiocarboxy-[ThiS-Protein] + a ThiI sulfur-carrier protein + AMP + 2 an oxidized ferredoxin *\ - - + r2412b -1.0 r2412a -1.0 r1959 + r1063 = 0 - -c1584: \* CPD-196[CCO-CYTOSOL] *\ - \* r2255, an acyl-CoA + H2O -> a carboxylate + coenzyme A + H+ *\ - \* r2066b, a 2,3,4-saturated fatty acid + acetyl-CoA -> a 2,3,4-saturated fatty acyl CoA + acetate *\ - \* r2066a, a 2,3,4-saturated fatty acyl CoA + acetate -> a 2,3,4-saturated fatty acid + acetyl-CoA *\ - \* r1964, a 3-oxoacyl-CoA + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + acetyl-CoA *\ - \* r1918, a 2,3,4-saturated fatty acyl CoA + NADP+ -> a trans-2-enoyl-CoA + NADPH + H+ *\ - \* r1778, a 2,3,4-saturated fatty acyl CoA + an oxidized electron-transfer flavoprotein + H+ -> a trans-2-enoyl-CoA + a reduced electron-transfer flavoprotein *\ - \* r1273, a 2,3,4-saturated fatty acid + ATP + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + AMP + diphosphate *\ - - -1.0 r2255 + r2066b -1.0 r2066a + r1964 -1.0 r1918 -1.0 r1778 + r1273 = 0 - -c1475: \* UDP-OHMYR-GLUCOSAMINE[CCO-CYTOSOL] *\ - \* r1604, UDP-3-O-[(3R)-3-hydroxymyristoyl]-N-acetyl-alpha-D-glucosamine + H2O -> UDP-3-O-(3-hydroxymyristoyl)-alpha-D-glucosamine + acetate *\ - \* r1132, a (3R)-3-hydroxymyristoyl-[acp] + UDP-3-O-(3-hydroxymyristoyl)-alpha-D-glucosamine -> UDP-2-N,3-O-bis[(3R)-3-hydroxytetradecanoyl]-alpha-D-glucosamine + a holo-[acyl-carrier protein] + H+ *\ - - + r1604 -1.0 r1132 = 0 - -c1066: \* Oxidized-NrdH-Proteins[CCO-CYTOSOL] *\ - \* r1110, CDP + a reduced NrdH glutaredoxin-like protein -> dCDP + an oxidized NrdH glutaredoxin-like protein + H2O *\ - \* r1090b, arsenite + an oxidized glutaredoxin + H2O -> arsenate + a reduced glutaredoxin + H+ *\ - \* r1090a, arsenate + a reduced glutaredoxin + H+ -> arsenite + an oxidized glutaredoxin + H2O *\ - \* r969, ADP + a reduced NrdH glutaredoxin-like protein -> dADP + an oxidized NrdH glutaredoxin-like protein + H2O *\ - \* r877, 2 glutathione + an oxidized glutaredoxin -> glutathione disulfide + a reduced glutaredoxin *\ - \* r818, GDP + a reduced NrdH glutaredoxin-like protein -> dGDP + an oxidized NrdH glutaredoxin-like protein + H2O *\ - \* r749, UDP + a reduced NrdH glutaredoxin-like protein -> dUDP + an oxidized NrdH glutaredoxin-like protein + H2O *\ - - + r1110 -1.0 r1090b + r1090a + r969 -1.0 r877 + r818 + r749 = 0 - -c178: \* CPD0-936[CCO-PERI-BAC] *\ - \* r90, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - - + r90 = 0 - -c826: \* CPD-15530[CCO-CYTOSOL] *\ - \* r2213b, D-fructuronate -> aldehydo-D-glucuronate *\ - \* r2213a, aldehydo-D-glucuronate -> D-fructuronate *\ - \* r1972b, aldehydo-D-glucuronate -> D-glucopyranuronate *\ - \* r1972a, D-glucopyranuronate -> aldehydo-D-glucuronate *\ - \* r576, D-glucuronate[periplasmic space] + H+[periplasmic space] -> D-glucuronate[cytosol] + H+[cytosol] *\ - - + r2213b -1.0 r2213a -1.0 r1972b + r1972a + r576 = 0 - -c1035: \* TREHALOSE[CCO-CYTOSOL] *\ - \* r1508, alpha,alpha-trehalose 6-phosphate + H2O -> alpha,alpha-trehalose + phosphate *\ - \* r735, alpha,alpha-trehalose + H2O -> beta-D-glucose + alpha-D-glucose *\ - - + r1508 -1.0 r735 = 0 - -c1101: \* 3-Oxo-octanoyl-ACPs[CCO-CYTOSOL] *\ - \* r1138, a 3-oxoacyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxyacyl-[acyl-carrier protein] + NADP+ *\ - \* r1114, a 3-oxo-octanoyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxyoctanoyl-[acp] + NADP+ *\ - \* r822, a malonyl-[acp] + a 2,3,4-saturated fatty acyl-[acp] + H+ -> a holo-[acyl-carrier protein] + a 3-oxoacyl-[acp] + CO2 *\ - \* r777, a hexanoyl-[acyl-carrier-protein] + a malonyl-[acp] + H+ -> a 3-oxo-octanoyl-[acp] + CO2 + a holo-[acyl-carrier protein] *\ - - -1.0 r1138 -1.0 r1114 + r822 + r777 = 0 - -c115: \* GUANOSINE[CCO-EXTRACELLULAR] *\ - \* r57, a nucleoside[extracellular space] -> a nucleoside[periplasmic space] *\ - - -1.0 r57 = 0 - -c1083: \* FMN[CCO-CYTOSOL] *\ - \* r764, NADPH + FMN + 2 H+ -> NADP+ + FMNH2 *\ - \* r942, FMN + H2O -> riboflavin + phosphate *\ - \* r1223, riboflavin + ATP -> ADP + FMN + H+ *\ - \* r1501, an alkylsulfonate + FMNH2 + oxygen -> an aldehyde + sulfite + FMN + H2O + 2 H+ *\ - \* r1502, an alkylsulfonate + FMNH2 + oxygen -> an aldehyde + sulfite + FMN + H2O + 2 H+ *\ - \* r1503, an alkylsulfonate + FMNH2 + oxygen -> an aldehyde + sulfite + FMN + H2O + 2 H+ *\ - \* r1950, isethionate + FMNH2 + oxygen -> glycolaldehyde + sulfite + FMN + H2O + 2 H+ *\ - \* r2201, ATP + FMN + H+ -> FAD + diphosphate *\ - \* r2278, 1-butanesulfonate + FMNH2 + oxygen -> butanal + sulfite + FMN + H2O + 2 H+ *\ - \* r2313a, FMNH2 + NAD(P)+ -> FMN + NAD(P)H + 2 H+ *\ - \* r2313b, FMN + NAD(P)H + 2 H+ -> FMNH2 + NAD(P)+ *\ - \* r2314a, FMNH2 + NAD(P)+ -> FMN + NAD(P)H + 2 H+ *\ - \* r2314b, FMN + NAD(P)H + 2 H+ -> FMNH2 + NAD(P)+ *\ - - -1.0 r764 -1.0 r942 + r1223 + r1501 + r1502 + r1503 + r1950 -1.0 r2201 + r2278 + r2313a -1.0 r2313b + r2314a -1.0 r2314b = 0 - -c1156: \* Glutaryl-ACP-methyl-esters[CCO-CYTOSOL] *\ - \* r961, an enoylglutaryl-[acp] methyl ester + NADH + H+ -> a glutaryl-[acp] methyl ester + NAD+ *\ - \* r807, a glutaryl-[acp] methyl ester + a malonyl-[acp] + H+ -> a 3-oxo-pimeloyl-[acp] methyl ester + CO2 + a holo-[acyl-carrier protein] *\ - - + r961 -1.0 r807 = 0 - -c1486: \* DCMP[CCO-CYTOSOL] *\ - \* r2282, ATP + dCMP -> ADP + dCDP *\ - \* r2269, a nucleoside diphosphate + H2O -> a nucleoside 5'-monophosphate + phosphate + H+ *\ - \* r1927, a 2'-deoxyribonucleoside 5'-monophosphate + H2O -> a 2'-deoxynucleoside + phosphate *\ - \* r1716, dCTP + H2O -> dCMP + diphosphate + H+ *\ - \* r1445, dCMP + H2O -> 2'-deoxycytidine + phosphate *\ - \* r1149, a nucleoside triphosphate + H2O -> a nucleoside 5'-monophosphate + diphosphate + H+ *\ - - -1.0 r2282 + r2269 -1.0 r1927 + r1716 -1.0 r1445 + r1149 = 0 - -c1216: \* PigJ[CCO-CYTOSOL] *\ - \* r1050, an acyl-carrier protein + coenzyme A -> adenosine 3',5'-bisphosphate + a holo-[acyl-carrier protein] + H+ *\ - \* r859, a holo-[acyl-carrier protein] + H2O -> 4'-phosphopantetheine + an acyl-carrier protein + H+ *\ - - + r1050 -1.0 r859 = 0 - -c415: \* PTSH-MONOMER[CCO-CYTOSOL] *\ - \* r673b, HPr-Phis15 + PtsI -> PtsI-Phis189 + HPr *\ - \* r673a, PtsI-Phis189 + HPr -> HPr-Phis15 + PtsI *\ - \* r221, HPr-Phis15 + beta-D-glucose[periplasmic space] -> beta-D-glucose 6-phosphate[cytosol] + HPr *\ - - + r673b -1.0 r673a + r221 = 0 - -c1015: \* ASCORBATE[CCO-CYTOSOL] *\ - \* r2405, 2 L-ascorbate + hydrogen peroxide + H+ -> L-ascorbate + L-dehydro-ascorbate + 2 H2O *\ - \* r1699, 2 L-ascorbate + hydrogen peroxide + 2 H+ -> 2 monodehydroascorbate radical + 2 H2O *\ - \* r1196, 2 monodehydroascorbate radical -> L-ascorbate + L-dehydro-ascorbate + H+ *\ - \* r724, 2 L-ascorbate + an unknown oxidized electron acceptor + 2 H+ -> 2 monodehydroascorbate radical + an unknown reduced electron acceptor *\ - - -1.0 r2405 -2.0 r1699 + r1196 -2.0 r724 = 0 - -c198: \* CPD-12284[CCO-PERI-BAC] *\ - \* r100, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - - + r100 = 0 - -c1957: \* S-LACTOYL-GLUTATHIONE[CCO-CYTOSOL] *\ - \* r2226, methylglyoxal + glutathione -> (R)-S-lactoylglutathione *\ - \* r1756, (R)-S-lactoylglutathione + H2O -> glutathione + (R)-lactate + H+ *\ - - + r2226 -1.0 r1756 = 0 - -c65: \* CPD-3744[CCO-PERI-BAC] *\ - \* r32, ATP + an aliphatic sulfonate[periplasmic space] + H2O -> an aliphatic sulfonate[cytosol] + ADP + phosphate + H+ *\ - - -1.0 r32 = 0 - -c1891: \* FORMYL-L-METHIONYL-PEPTIDE[CCO-CYTOSOL] *\ - \* objReactionName, a [protein] N-terminal-formyl-L-methionine *\ - \* r1645, a [protein] N-terminal-formyl-L-methionine + H2O -> a [protein] N-terminal L-methionine + formate *\ - - +0.00001 objReactionName -1.0 r1645 = 0 - -c2068: \* CHOLANATE2[CCO-CYTOSOL] *\ - \* r1974b, 3alpha,12alpha-dihydroxy-7-oxo-5beta-cholan-24-oate + NADH + H+ -> cholate + NAD+ *\ - \* r1974a, cholate + NAD+ -> 3alpha,12alpha-dihydroxy-7-oxo-5beta-cholan-24-oate + NADH + H+ *\ - - -1.0 r1974b + r1974a = 0 - -c291: \* NAD[CCO-CYTOSOL] *\ - \* objReactionName, NAD+ *\ - \* r2446, histidinol + NAD+ -> histidinal + NADH + H+ *\ - \* r2442b, tartronate semialdehyde + NADH + H+ -> D-glycerate + NAD+ *\ - \* r2442a, D-glycerate + NAD+ -> tartronate semialdehyde + NADH + H+ *\ - \* r2441, 2-oxoglutarate + coenzyme A + NAD+ -> succinyl-CoA + CO2 + NADH *\ - \* r2438b, acetol + NAD+ -> methylglyoxal + NADH + H+ *\ - \* r2438a, methylglyoxal + NADH + H+ -> acetol + NAD+ *\ - \* r2409, pyruvate + coenzyme A + NAD+ -> acetyl-CoA + CO2 + NADH *\ - \* r2406b, dTDP-4-dehydro-6-deoxy-alpha-D-glucopyranose + NADH + H+ -> dTDP-beta-L-rhamnose + NAD+ *\ - \* r2406a, dTDP-beta-L-rhamnose + NAD+ -> dTDP-4-dehydro-6-deoxy-alpha-D-glucopyranose + NADH + H+ *\ - \* r2393b, Cu+ + NAD+ -> Cu2+ + NADH *\ - \* r2393a, Cu2+ + NADH -> Cu+ + NAD+ *\ - \* r2388, UDP-alpha-D-glucuronate + NAD+ -> UDP-beta-L-threo-pentapyranos-4-ulose + CO2 + NADH *\ - \* r2379, 2,3-dioxo-L-gulonate + NADH + H+ -> 3-keto-L-gulonate + NAD+ *\ - \* r2373b, 3-dehydroquinate + NAD(P)H + H+ -> L-quinate + NAD(P)+ *\ - \* r2373a, L-quinate + NAD(P)+ -> 3-dehydroquinate + NAD(P)H + H+ *\ - \* r2369, NADP+ + H2O -> NAD+ + phosphate *\ - \* r2361, NAD+ + H2O -> beta-nicotinamide D-ribonucleotide + AMP + 2 H+ *\ - \* r2349b, succinate semialdehyde + NADH + H+ -> 4-hydroxybutanoate + NAD+ *\ - \* r2349a, 4-hydroxybutanoate + NAD+ -> succinate semialdehyde + NADH + H+ *\ - \* r2344, IMP + NAD+ + H2O -> XMP + NADH + H+ *\ - \* r2313b, FMN + NAD(P)H + 2 H+ -> FMNH2 + NAD(P)+ *\ - \* r2313a, FMNH2 + NAD(P)+ -> FMN + NAD(P)H + 2 H+ *\ - \* r2305b, sirohydrochlorin + NADH + 2 H+ -> precorrin-2 + NAD+ *\ - \* r2305a, precorrin-2 + NAD+ -> sirohydrochlorin + NADH + 2 H+ *\ - \* r2303, succinate semialdehyde + NAD+ + H2O -> succinate + NADH + 2 H+ *\ - \* r2293, 1-hydroxy-2-methyl-2-(E)-butenyl 4-diphosphate + NAD(P)H + H+ -> dimethylallyl diphosphate + NAD(P)+ + H2O *\ - \* r2283b, 3-phospho-hydroxypyruvate + NADH + H+ -> 3-phospho-D-glycerate + NAD+ *\ - \* r2283a, 3-phospho-D-glycerate + NAD+ -> 3-phospho-hydroxypyruvate + NADH + H+ *\ - \* r2264b, 2 a semiquinone + NAD+ -> 2 a quinone + NADH + H+ *\ - \* r2264a, 2 a quinone + NADH + H+ -> 2 a semiquinone + NAD+ *\ - \* r2262, ammonium + ATP + nicotinate adenine dinucleotide -> AMP + NAD+ + diphosphate + H+ *\ - \* r2211b, 2-keto-L-gulonate + NAD(P)+ -> 2,5-didehydro-D-gluconate + NAD(P)H + H+ *\ - \* r2211a, 2,5-didehydro-D-gluconate + NAD(P)H + H+ -> 2-keto-L-gulonate + NAD(P)+ *\ - \* r2204b, D-tagatofuranose 6-phosphate + NADH + H+ -> galactitol 1-phosphate + NAD+ *\ - \* r2204a, galactitol 1-phosphate + NAD+ -> D-tagatofuranose 6-phosphate + NADH + H+ *\ - \* r2193b, uracil + NADH + H+ -> 5,6-dihydrouracil + NAD+ *\ - \* r2193a, 5,6-dihydrouracil + NAD+ -> uracil + NADH + H+ *\ - \* r2188b, 3-oxoadipyl-CoA + NADH + H+ -> 3-hydroxyadipyl-CoA + NAD+ *\ - \* r2188a, 3-hydroxyadipyl-CoA + NAD+ -> 3-oxoadipyl-CoA + NADH + H+ *\ - \* r2166b, S-formylglutathione + NAD(P)H + H+ -> S-hydroxymethylglutathione + NAD(P)+ *\ - \* r2166a, S-hydroxymethylglutathione + NAD(P)+ -> S-formylglutathione + NAD(P)H + H+ *\ - \* r2150, (S)-lactaldehyde + NAD+ + H2O -> (S)-lactate + NADH + 2 H+ *\ - \* r2132, L-glutamate-5-semialdehyde + NAD+ + H2O -> L-glutamate + NADH + 2 H+ *\ - \* r2130b, (2S)-2-isopropyl-3-oxosuccinate + NADH + H+ -> (2R,3S)-3-isopropylmalate + NAD+ *\ - \* r2130a, (2R,3S)-3-isopropylmalate + NAD+ -> (2S)-2-isopropyl-3-oxosuccinate + NADH + H+ *\ - \* r2120, (S)-malate + NAD+ -> CO2 + pyruvate + NADH *\ - \* r2105, D-erythrose 4-phosphate + NAD+ + H2O -> erythronate-4-phosphate + NADH + 2 H+ *\ - \* r2102b, 2-hydroxy-3-oxosuccinate + NADH + H+ -> L-tartrate + NAD+ *\ - \* r2102a, L-tartrate + NAD+ -> 2-hydroxy-3-oxosuccinate + NADH + H+ *\ - \* r2095, (S)-1-pyrroline-5-carboxylate + NAD(P)H + 2 H+ -> L-proline + NAD(P)+ *\ - \* r2086, betaine aldehyde + NAD+ + H2O -> glycine betaine + NADH + 2 H+ *\ - \* r2041b, glycolaldehyde + NADH + H+ -> ethylene glycol + NAD+ *\ - \* r2041a, ethylene glycol + NAD+ -> glycolaldehyde + NADH + H+ *\ - \* r2035b, riboflavin + NAD(P)H + 2 H+ -> reduced riboflavin + NAD(P)+ *\ - \* r2035a, reduced riboflavin + NAD(P)+ -> riboflavin + NAD(P)H + 2 H+ *\ - \* r2009b, D-fructose 6-phosphate + NADH + H+ -> D-sorbitol 6-phosphate + NAD+ *\ - \* r2009a, D-sorbitol 6-phosphate + NAD+ -> D-fructose 6-phosphate + NADH + H+ *\ - \* r2007b, NADH + NADP+ -> NADPH + NAD+ *\ - \* r2007a, NADPH + NAD+ -> NADH + NADP+ *\ - \* r1987b, D-tagaturonate + NADH + H+ -> D-altronate + NAD+ *\ - \* r1987a, D-altronate + NAD+ -> D-tagaturonate + NADH + H+ *\ - \* r1976b, D-fructuronate + NADH + H+ -> D-mannonate + NAD+ *\ - \* r1976a, D-mannonate + NAD+ -> D-fructuronate + NADH + H+ *\ - \* r1974b, 3alpha,12alpha-dihydroxy-7-oxo-5beta-cholan-24-oate + NADH + H+ -> cholate + NAD+ *\ - \* r1974a, cholate + NAD+ -> 3alpha,12alpha-dihydroxy-7-oxo-5beta-cholan-24-oate + NADH + H+ *\ - \* r1936, UDP-alpha-D-glucose + 2 NAD+ + H2O -> UDP-alpha-D-glucuronate + 2 NADH + 3 H+ *\ - \* r1932, tartronate semialdehyde + NAD(P)H + H+ -> D-glycerate + NAD(P)+ *\ - \* r1882, 3-dehydroshikimate + NAD(P)H + H+ -> shikimate + NAD(P)+ *\ - \* r1804, prephenate + NAD+ -> 4-hydroxyphenylpyruvate + CO2 + NADH *\ - \* r1786b, menadiol + NAD+ -> menadione + NADH + H+ *\ - \* r1786a, menadione + NADH + H+ -> menadiol + NAD+ *\ - \* r1762, histidinal + NAD+ + H2O -> L-histidine + NADH + 2 H+ *\ - \* r1751, glycerone phosphate + NAD(P)H + H+ -> sn-glycerol 3-phosphate + NAD(P)+ *\ - \* r1749, a 5,10-methylene-tetrahydrofolate + NADH + H+ -> an N5-methyl-tetrahydrofolate + NAD+ *\ - \* r1748, a 5,10-methylene-tetrahydrofolate + NADH + H+ -> an N5-methyl-tetrahydrofolate + NAD+ *\ - \* r1725, N2-succinyl-L-glutamate 5-semialdehyde + NAD+ + H2O -> N2-succinylglutamate + NADH + 2 H+ *\ - \* r1724, (2S,3S)-2,3-dihydroxy-2,3-dihydrobenzoate + NAD+ -> 2,3-dihydroxybenzoate + NADH + H+ *\ - \* r1706b, 2-oxoglutarate + NADH + H+ -> 2-hydroxyglutarate + NAD+ *\ - \* r1706a, 2-hydroxyglutarate + NAD+ -> 2-oxoglutarate + NADH + H+ *\ - \* r1702, hypoxanthine + NAD+ + H2O -> xanthine + NADH + H+ *\ - \* r1687, an electron-transfer quinone[inner membrane] + NAD(P)H + H+ -> an electron-transfer quinol[inner membrane] + NAD(P)+ *\ - \* r1685, an electron-transfer quinone[inner membrane] + NAD(P)H + H+ -> an electron-transfer quinol[inner membrane] + NAD(P)+ *\ - \* r1682, NADH + a menaquinone[inner membrane] + 5 H+ -> NAD+ + a menaquinol[inner membrane] + 4 H+[periplasmic space] *\ - \* r1679, ATP + NAD+ -> ADP + NADP+ + H+ *\ - \* r1675, NADH + a menaquinone[inner membrane] + H+ -> NAD+ + a menaquinol[inner membrane] *\ - \* r1664b, oxaloacetate + NADH + H+ -> (S)-malate + NAD+ *\ - \* r1664a, (S)-malate + NAD+ -> oxaloacetate + NADH + H+ *\ - \* r1656b, (S)-lactaldehyde + NADH + H+ -> (S)-propane-1,2-diol + NAD+ *\ - \* r1656a, (S)-propane-1,2-diol + NAD+ -> (S)-lactaldehyde + NADH + H+ *\ - \* r1646b, NAD+ + an ubiquinol[inner membrane] + 4 H+[periplasmic space] -> NADH + an ubiquinone[inner membrane] + 5 H+ *\ - \* r1646a, NADH + an ubiquinone[inner membrane] + 5 H+ -> NAD+ + an ubiquinol[inner membrane] + 4 H+[periplasmic space] *\ - \* r1644, NADH + an ubiquinone[inner membrane] + H+ -> NAD+ + an ubiquinol[inner membrane] *\ - \* r1642, 1-hydroxy-2-methyl-2-(E)-butenyl 4-diphosphate + NAD(P)H + H+ -> isopentenyl diphosphate + NAD(P)+ + H2O *\ - \* r1624, nitrite + 3 NADH + 5 H+ -> ammonium + 3 NAD+ + 2 H2O *\ - \* r1622, beta-nicotinamide D-ribonucleotide + ATP + H+ -> NAD+ + diphosphate *\ - \* r1612, (R)-malate + NAD+ -> CO2 + pyruvate + NADH *\ - \* r1600, 4-(gamma-glutamylamino)butanal + NAD(P)+ + H2O -> 4-(gamma-L-glutamylamino)butanoate + NAD(P)H + 2 H+ *\ - \* r1598, erythronate-4-phosphate + NAD+ -> 2-oxo-3-hydroxy-4-phosphobutanoate + NADH + H+ *\ - \* r1565b, an aldehyde + NADH + H+ -> a primary alcohol + NAD+ *\ - \* r1565a, a primary alcohol + NAD+ -> an aldehyde + NADH + H+ *\ - \* r1564b, an aldehyde + NADH + H+ -> a primary alcohol + NAD+ *\ - \* r1564a, a primary alcohol + NAD+ -> an aldehyde + NADH + H+ *\ - \* r1563b, an aldehyde + NADH + H+ -> a primary alcohol + NAD+ *\ - \* r1563a, a primary alcohol + NAD+ -> an aldehyde + NADH + H+ *\ - \* r1554b, acetyl-CoA + NADH + H+ -> acetaldehyde + coenzyme A + NAD+ *\ - \* r1554a, acetaldehyde + coenzyme A + NAD+ -> acetyl-CoA + NADH + H+ *\ - \* r1541, L-aspartate-semialdehyde + NAD(P)H + H+ -> L-homoserine + NAD(P)+ *\ - \* r1516, glycine + a tetrahydrofolate + NAD+ -> a 5,10-methylene-tetrahydrofolate + ammonium + CO2 + NADH *\ - \* r1515, glycine + a tetrahydrofolate + NAD+ -> a 5,10-methylene-tetrahydrofolate + ammonium + CO2 + NADH *\ - \* r1453b, 3-keto-5-cis-tetradecenoyl-CoA + NADH + H+ -> 3-hydroxy-5-cis-tetradecenoyl-CoA + NAD+ *\ - \* r1453a, 3-hydroxy-5-cis-tetradecenoyl-CoA + NAD+ -> 3-keto-5-cis-tetradecenoyl-CoA + NADH + H+ *\ - \* r1433, 4-phospho-hydroxy-L-threonine + NAD+ -> (2S)-2-amino-3-oxo-4-phosphonooxybutanoate + NADH + H+ *\ - \* r1428b, 1,3-bisphospho-D-glycerate + NADH + H+ -> D-glyceraldehyde 3-phosphate + NAD+ + phosphate *\ - \* r1428a, D-glyceraldehyde 3-phosphate + NAD+ + phosphate -> 1,3-bisphospho-D-glycerate + NADH + H+ *\ - \* r1409, L-threonine + NAD+ -> 2-amino-3-oxobutanoate + NADH + H+ *\ - \* r1390b, phenylacetate + NADH + 2 H+ -> phenylacetaldehyde + NAD+ + H2O *\ - \* r1390a, phenylacetaldehyde + NAD+ + H2O -> phenylacetate + NADH + 2 H+ *\ - \* r1384, a (3S)-3-hydroxyacyl-CoA + NAD+ -> a 3-oxoacyl-CoA + NADH + H+ *\ - \* r1383, a (3S)-3-hydroxyacyl-CoA + NAD+ -> a 3-oxoacyl-CoA + NADH + H+ *\ - \* r1382, a (3S)-3-hydroxyacyl-CoA + NAD+ -> a 3-oxoacyl-CoA + NADH + H+ *\ - \* r1381, a (3S)-3-hydroxyacyl-CoA + NAD+ -> a 3-oxoacyl-CoA + NADH + H+ *\ - \* r1380, a (3S)-3-hydroxyacyl-CoA + NAD+ -> a 3-oxoacyl-CoA + NADH + H+ *\ - \* r1379, a (3S)-3-hydroxyacyl-CoA + NAD+ -> a 3-oxoacyl-CoA + NADH + H+ *\ - \* r1378, a (3S)-3-hydroxyacyl-CoA + NAD+ -> a 3-oxoacyl-CoA + NADH + H+ *\ - \* r1377, a (3S)-3-hydroxyacyl-CoA + NAD+ -> a 3-oxoacyl-CoA + NADH + H+ *\ - \* r1376, a (3S)-3-hydroxyacyl-CoA + NAD+ -> a 3-oxoacyl-CoA + NADH + H+ *\ - \* r1370b, thymine + NADH + H+ -> 5,6-dihydrothymine + NAD+ *\ - \* r1370a, 5,6-dihydrothymine + NAD+ -> thymine + NADH + H+ *\ - \* r1337b, 3-deoxy-D-glycero-2,5-hexodiulosonate + NADH + H+ -> 2-dehydro-3-deoxy-D-gluconate + NAD+ *\ - \* r1337a, 2-dehydro-3-deoxy-D-gluconate + NAD+ -> 3-deoxy-D-glycero-2,5-hexodiulosonate + NADH + H+ *\ - \* r1314, pyruvate + NADH + H+ -> (R)-lactate + NAD+ *\ - \* r1242b, dihydroxyacetone + NADH + H+ -> glycerol + NAD+ *\ - \* r1242a, glycerol + NAD+ -> dihydroxyacetone + NADH + H+ *\ - \* r1229, trimethylamine N-oxide + NADH + 2 H+ -> trimethylamine + NAD+ + H2O *\ - \* r1199, a trans dodec-2-enoyl-[acp] + NADH + H+ -> a dodecanoyl-[acp] + NAD+ *\ - \* r1176, ATP + nicotinate adenine dinucleotide + L-glutamine + H2O -> AMP + L-glutamate + NAD+ + diphosphate + H+ *\ - \* r1165, a trans hex-2-enoyl-[acp] + NADH + H+ -> a hexanoyl-[acyl-carrier-protein] + NAD+ *\ - \* r1113, NAD+ + H2O -> ADP-D-ribose + nicotinamide + H+ *\ - \* r1035b, acetol + NADH + H+ -> (S)-propane-1,2-diol + NAD+ *\ - \* r1035a, (S)-propane-1,2-diol + NAD+ -> acetol + NADH + H+ *\ - \* r1034, a trans tetradec-2-enoyl-[acp] + NADH + H+ -> a myristoyl-[acp] + NAD+ *\ - \* r1025, 4-aminobutanal + NAD+ + H2O -> 4-aminobutanoate + NADH + 2 H+ *\ - \* r1021, a trans-2-enoyl-[acyl-carrier protein] + NADH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NAD+ *\ - \* r1020, a trans-2-enoyl-[acyl-carrier protein] + NADH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NAD+ *\ - \* r1019, a trans-2-enoyl-[acyl-carrier protein] + NADH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NAD+ *\ - \* r1018, a trans-2-enoyl-[acyl-carrier protein] + NADH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NAD+ *\ - \* r1017, a trans-2-enoyl-[acyl-carrier protein] + NADH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NAD+ *\ - \* r1016, a trans-2-enoyl-[acyl-carrier protein] + NADH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NAD+ *\ - \* r1015, a trans-2-enoyl-[acyl-carrier protein] + NADH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NAD+ *\ - \* r1012b, acetaldehyde + NADH + H+ -> ethanol + NAD+ *\ - \* r1012a, ethanol + NAD+ -> acetaldehyde + NADH + H+ *\ - \* r1001, a trans oct-2-enoyl-[acp] + NADH + H+ -> an octanoyl-[acp] + NAD+ *\ - \* r961, an enoylglutaryl-[acp] methyl ester + NADH + H+ -> a glutaryl-[acp] methyl ester + NAD+ *\ - \* r937, a [pyruvate dehydrogenase E2 protein] N6-dihydrolipoyl-L-lysine + NAD+ -> a [pyruvate dehydrogenase E2 protein] N6-lipoyl-L-lysine + NADH + H+ *\ - \* r914, a trans-delta3-cis-delta5-dodecenoyl-[acp] + NADH + H+ -> a cis-delta5-dodecenoyl-[acp] + NAD+ *\ - \* r894, (S)-1-pyrroline-5-carboxylate + NAD+ + 2 H2O -> L-glutamate + NADH + H+ *\ - \* r885, a trans hexadecenoyl-[acp] + NADH + H+ -> a palmitoyl-[acp] + NAD+ *\ - \* r881b, a [glycine-cleavage complex H protein] N6-lipoyl-L-lysine + NADH + H+ -> a [glycine-cleavage complex H protein] N6-dihydrolipoyl-L-lysine + NAD+ *\ - \* r881a, a [glycine-cleavage complex H protein] N6-dihydrolipoyl-L-lysine + NAD+ -> a [glycine-cleavage complex H protein] N6-lipoyl-L-lysine + NADH + H+ *\ - \* r880, a trans-delta3-cis-delta7-tetradecenoyl-[acp] + NADH + H+ -> a cis-delta7-tetradecenoyl-[acp] + NAD+ *\ - \* r847, a trans-delta2-decenoyl-[acp] + NADH + H+ -> a decanoyl-[acp] + NAD+ *\ - \* r841, an enoylpimeloyl-[acp] methyl ester + NADH + H+ -> a pimeloyl-[acp] methyl ester + NAD+ *\ - \* r840b, 4-pregnen-20,21-diol-3-one + NAD+ -> 11-deoxycorticosterone + NADH + H+ *\ - \* r840a, 11-deoxycorticosterone + NADH + H+ -> 4-pregnen-20,21-diol-3-one + NAD+ *\ - \* r830b, beta-D-fructofuranose 6-phosphate + NADH + H+ -> D-mannitol 1-phosphate + NAD+ *\ - \* r830a, D-mannitol 1-phosphate + NAD+ -> beta-D-fructofuranose 6-phosphate + NADH + H+ *\ - \* r813, a crotonyl-[acp] + NADH + H+ -> a butyryl-[acp] + NAD+ *\ - \* r788b, a [lipoyl-carrier protein] N6-lipoyl-L-lysine + NADH + H+ -> a [lipoyl-carrier protein] N6-dihydrolipoyl-L-lysine + NAD+ *\ - \* r788a, a [lipoyl-carrier protein] N6-dihydrolipoyl-L-lysine + NAD+ -> a [lipoyl-carrier protein] N6-lipoyl-L-lysine + NADH + H+ *\ - \* r776, glycolaldehyde + NAD+ + H2O -> glycolate + NADH + 2 H+ *\ - \* r763b, 2 an oxidized [2Fe-2S] ferredoxin + NADH -> 2 a reduced [2Fe-2S] ferredoxin + NAD+ + H+ *\ - \* r763a, 2 a reduced [2Fe-2S] ferredoxin + NAD+ + H+ -> 2 an oxidized [2Fe-2S] ferredoxin + NADH *\ - \* r760b, 5-dehydro-D-gluconate + NAD(P)H + H+ -> L-idonate + NAD(P)+ *\ - \* r760a, L-idonate + NAD(P)+ -> 5-dehydro-D-gluconate + NAD(P)H + H+ *\ - \* r755b, 5-dehydro-D-gluconate + NAD(P)H + H+ -> D-gluconate + NAD(P)+ *\ - \* r755a, D-gluconate + NAD(P)+ -> 5-dehydro-D-gluconate + NAD(P)H + H+ *\ - \* r737, a trans-delta3-cis-delta9-hexadecenoyl-[acp] + NADH + H+ -> a palmitoleoyl-[acp] + NAD+ *\ - \* r695b, 5-dehydro-D-gluconate + NADH + H+ -> D-gluconate + NAD+ *\ - \* r695a, D-gluconate + NAD+ -> 5-dehydro-D-gluconate + NADH + H+ *\ - \* r676, a [2-oxoglutarate dehydrogenase E2 protein] N6-dihydrolipoyl-L-lysine + NAD+ -> a [2-oxoglutarate dehydrogenase E2 protein] N6-lipoyl-L-lysine + NADH + H+ *\ - \* r660b, 3-dehydro-2-deoxy-D-gluconate + NADH + H+ -> 2-deoxygluconate + NAD+ *\ - \* r660a, 2-deoxygluconate + NAD+ -> 3-dehydro-2-deoxy-D-gluconate + NADH + H+ *\ - \* r146, NADH + NADP+ + H+[periplasmic space] -> NADPH + NAD+ + H+[cytosol] *\ - - -0.001831 objReactionName -1.0 r2446 + r2442b -1.0 r2442a -1.0 r2441 -1.0 r2438b + r2438a -1.0 r2409 + r2406b -1.0 r2406a -1.0 r2393b + r2393a -1.0 r2388 + r2379 + r2373b -1.0 r2373a + r2369 -1.0 r2361 + r2349b - -1.0 r2349a -1.0 r2344 + r2313b -1.0 r2313a + r2305b -1.0 r2305a -1.0 r2303 + r2293 + r2283b -1.0 r2283a -1.0 r2264b + r2264a + r2262 -1.0 r2211b + r2211a + r2204b -1.0 r2204a + r2193b -1.0 r2193a + r2188b - -1.0 r2188a + r2166b -1.0 r2166a -1.0 r2150 -1.0 r2132 + r2130b -1.0 r2130a -1.0 r2120 -1.0 r2105 + r2102b -1.0 r2102a + r2095 -1.0 r2086 + r2041b -1.0 r2041a + r2035b -1.0 r2035a + r2009b -1.0 r2009a + r2007b - -1.0 r2007a + r1987b -1.0 r1987a + r1976b -1.0 r1976a + r1974b -1.0 r1974a -2.0 r1936 + r1932 + r1882 -1.0 r1804 -1.0 r1786b + r1786a -1.0 r1762 + r1751 + r1749 + r1748 -1.0 r1725 -1.0 r1724 + r1706b - -1.0 r1706a -1.0 r1702 + r1687 + r1685 + r1682 -1.0 r1679 + r1675 + r1664b -1.0 r1664a + r1656b -1.0 r1656a -1.0 r1646b + r1646a + r1644 + r1642 +3.0 r1624 + r1622 -1.0 r1612 -1.0 r1600 -1.0 r1598 - + r1565b -1.0 r1565a + r1564b -1.0 r1564a + r1563b -1.0 r1563a + r1554b -1.0 r1554a + r1541 -1.0 r1516 -1.0 r1515 + r1453b -1.0 r1453a -1.0 r1433 + r1428b -1.0 r1428a -1.0 r1409 + r1390b -1.0 r1390a -1.0 r1384 - -1.0 r1383 -1.0 r1382 -1.0 r1381 -1.0 r1380 -1.0 r1379 -1.0 r1378 -1.0 r1377 -1.0 r1376 + r1370b -1.0 r1370a + r1337b -1.0 r1337a + r1314 + r1242b -1.0 r1242a + r1229 + r1199 + r1176 + r1165 -1.0 r1113 - + r1035b -1.0 r1035a + r1034 -1.0 r1025 + r1021 + r1020 + r1019 + r1018 + r1017 + r1016 + r1015 + r1012b -1.0 r1012a + r1001 + r961 -1.0 r937 + r914 -1.0 r894 + r885 + r881b - -1.0 r881a + r880 + r847 + r841 -1.0 r840b + r840a + r830b -1.0 r830a + r813 + r788b -1.0 r788a -1.0 r776 + r763b -1.0 r763a + r760b -1.0 r760a + r755b -1.0 r755a + r737 + r695b - -1.0 r695a -1.0 r676 + r660b -1.0 r660a + r146 = 0 - -c712: \* CPD-12537[CCO-PERI-BAC] *\ - \* r423, D-fructuronate[periplasmic space] + H+[periplasmic space] -> D-fructuronate[cytosol] + H+[cytosol] *\ - - -1.0 r423 = 0 - -c1205: \* Lysidine-tRNA-Ile2[CCO-CYTOSOL] *\ - \* objReactionName, a lysidine34 in tRNAIle2 *\ - \* r848, a cytidine34 in tRNAIle2 + L-lysine + ATP -> a lysidine34 in tRNAIle2 + AMP + diphosphate + 2 H+ *\ - - -0.00001 objReactionName + r848 = 0 - -c183: \* CPD0-2238[CCO-CYTOSOL] *\ - \* r245, a lipopolysaccharide[cytosol] -> a lipopolysaccharide[extracellular space] *\ - \* r93, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - - -1.0 r245 -1.0 r93 = 0 - -c657: \* FE+2[CCO-PERI-BAC] *\ - \* r373, Fe2+[periplasmic space] -> Fe2+[cytosol] *\ - \* r410, Fe2+[periplasmic space] + H+[periplasmic space] -> Fe2+[cytosol] + H+[cytosol] *\ - \* r584, Fe2+[cytosol] + H+[periplasmic space] -> Fe2+[periplasmic space] + H+[cytosol] *\ - \* r1713, 4 Fe2+ + 4 H+ + oxygen -> 4 Fe3+ + 2 H2O *\ - \* r2456_e, Fe2+ *\ - - -1.0 r373 -1.0 r410 + r584 -4.0 r1713 + r2456_e = 0 - -c2149: \* FAD[CCO-CYTOSOL] *\ - \* objReactionName, FAD *\ - \* r2201, ATP + FMN + H+ -> FAD + diphosphate *\ - - -0.000208 objReactionName + r2201 = 0 - -c1087: \* CPD0-2231[CCO-CYTOSOL] *\ - \* r2266, a nucleoside diphosphate + H2O -> a nucleoside 5'-monophosphate + phosphate + H+ *\ - \* r1181, a nucleoside diphosphate + ATP -> a nucleoside triphosphate + ADP *\ - \* r768, a reduced thioredoxin + a ribonucleoside diphosphate -> an oxidized thioredoxin + a 2'-deoxyribonucleoside 5'-diphosphate + H2O *\ - - -1.0 r2266 -1.0 r1181 + r768 = 0 - -c1028: \* CPD0-2232[CCO-CYTOSOL] *\ - \* r1382, a (3S)-3-hydroxyacyl-CoA + NAD+ -> a 3-oxoacyl-CoA + NADH + H+ *\ - \* r731, a trans-2-enoyl-CoA + H2O -> a (3S)-3-hydroxyacyl-CoA *\ - - -1.0 r1382 + r731 = 0 - -c1225: \* UBIQUINONE-8[CCO-PM-BAC-NEG] *\ - \* r1906, NADPH + an electron-transfer quinone[inner membrane] + H+ -> NADP+ + an electron-transfer quinol[inner membrane] *\ - \* r1689, pyruvate + an ubiquinone[inner membrane] + H2O -> CO2 + acetate + an ubiquinol[inner membrane] *\ - \* r1688, an electron-transfer quinone[inner membrane] + NAD(P)H + H+ -> an electron-transfer quinol[inner membrane] + NAD(P)+ *\ - \* r1687, an electron-transfer quinone[inner membrane] + NAD(P)H + H+ -> an electron-transfer quinol[inner membrane] + NAD(P)+ *\ - \* r1680, 2 an ubiquinol[inner membrane] + oxygen + 4 H+ -> 2 an ubiquinone[inner membrane] + 2 H2O + 4 H+[periplasmic space] *\ - \* r1671, (S)-dihydroorotate + an ubiquinone[inner membrane] -> orotate + an ubiquinol[inner membrane] *\ - \* r1667, 2 an ubiquinol[inner membrane] + oxygen + 8 H+ -> 2 an ubiquinone[inner membrane] + 2 H2O + 8 H+[periplasmic space] *\ - \* r1665, (R)-lactate + an ubiquinone[inner membrane] -> pyruvate + an ubiquinol[inner membrane] *\ - \* r1663, sn-glycerol 3-phosphate + an ubiquinone[inner membrane] -> glycerone phosphate + an ubiquinol[inner membrane] *\ - \* r1661, D-alanine + an electron-transfer quinone[inner membrane] + H2O -> ammonium + pyruvate + an electron-transfer quinol[inner membrane] *\ - \* r1653, a D-amino acid + an electron-transfer quinone[inner membrane] + H2O -> ammonium + a 2-oxo carboxylate + an electron-transfer quinol[inner membrane] *\ - \* r1651, a D-amino acid + an electron-transfer quinone[inner membrane] + H2O -> ammonium + a 2-oxo carboxylate + an electron-transfer quinol[inner membrane] *\ - \* r1646b, NAD+ + an ubiquinol[inner membrane] + 4 H+[periplasmic space] -> NADH + an ubiquinone[inner membrane] + 5 H+ *\ - \* r1646a, NADH + an ubiquinone[inner membrane] + 5 H+ -> NAD+ + an ubiquinol[inner membrane] + 4 H+[periplasmic space] *\ - \* r1644, NADH + an ubiquinone[inner membrane] + H+ -> NAD+ + an ubiquinol[inner membrane] *\ - \* r1637, (S)-dihydroorotate + an electron-transfer quinone[inner membrane] -> orotate + an electron-transfer quinol[inner membrane] *\ - \* r1635, succinate + an ubiquinone[inner membrane] -> fumarate + an ubiquinol[inner membrane] *\ - \* r1167, (S)-malate + an electron-transfer quinone[inner membrane] -> oxaloacetate + an electron-transfer quinol[inner membrane] *\ - \* r864, L-proline + an ubiquinone[inner membrane] -> (S)-1-pyrroline-5-carboxylate + an ubiquinol[inner membrane] + H+ *\ - - -1.0 r1906 -1.0 r1689 -1.0 r1688 -1.0 r1687 +2.0 r1680 -1.0 r1671 +2.0 r1667 -1.0 r1665 -1.0 r1663 -1.0 r1661 -1.0 r1653 -1.0 r1651 + r1646b -1.0 r1646a -1.0 r1644 -1.0 r1637 -1.0 r1635 -1.0 r1167 -1.0 r864 = 0 - -c1326: \* CPD0-2230[CCO-CYTOSOL] *\ - \* r2377, an L-1-phosphatidylglycerol-phosphate + H2O -> an L-1-phosphatidyl-glycerol + phosphate *\ - \* r950, an L-1-phosphatidyl-glycerol + ATP -> an L-1-phosphatidylglycerol-phosphate + ADP + H+ *\ - - -1.0 r2377 + r950 = 0 - -c503: \* CO+2[CCO-CYTOSOL] *\ - \* objReactionName, Co2+ *\ - \* r383, Co2+[periplasmic space] -> Co2+[cytosol] *\ - \* r271, Co2+[cytosol] -> Co2+[periplasmic space] *\ - - -0.000024 objReactionName + r383 -1.0 r271 = 0 - -c1470: \* CPD-17063[CCO-CYTOSOL] *\ - \* objReactionName, ferroheme o *\ - \* r1128b, heme o + diphosphate -> heme b + (2E,6E)-farnesyl diphosphate + H2O *\ - \* r1128a, heme b + (2E,6E)-farnesyl diphosphate + H2O -> heme o + diphosphate *\ - - -0.000223 objReactionName -1.0 r1128b + r1128a = 0 - -c219: \* CPD0-2239[CCO-CYTOSOL] *\ - \* r263, a lipopolysaccharide[cytosol] -> a lipopolysaccharide[extracellular space] *\ - \* r111, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - - -1.0 r263 -1.0 r111 = 0 - -c678: \* ETHANOL-AMINE[CCO-CYTOSOL] *\ - \* r916, ethanolamine -> ammonium + acetaldehyde *\ - \* r1574, an L-1-phosphatidyl-glycerol + an L-1-phosphatidylethanolamine -> a cardiolipin + ethanolamine *\ - \* r1853, sn-glycero-3-phosphoethanolamine + H2O -> sn-glycerol 3-phosphate + ethanolamine + H+ *\ - - -1.0 r916 + r1574 + r1853 = 0 - -c42: \* OLEATE-CPD[CCO-PERI-BAC] *\ - \* r364, a long-chain fatty acid[periplasmic space] -> a long-chain fatty acid[cytosol] *\ - \* r22, a long-chain fatty acid[extracellular space] -> a long-chain fatty acid[periplasmic space] *\ - - -1.0 r364 + r22 = 0 - -c1186: \* THF-GLU-N[CCO-CYTOSOL] *\ - \* r834b, a [glycine-cleavage complex H protein] N6-dihydrolipoyl-L-lysine + a 5,10-methylene-tetrahydrofolate + ammonium -> a [glycine-cleavage complex H protein] N6-aminomethyldihydrolipoyl-L-lysine + a tetrahydrofolate *\ - \* r834a, a [glycine-cleavage complex H protein] N6-aminomethyldihydrolipoyl-L-lysine + a tetrahydrofolate -> a [glycine-cleavage complex H protein] N6-dihydrolipoyl-L-lysine + a 5,10-methylene-tetrahydrofolate + ammonium *\ - - + r834b -1.0 r834a = 0 - -c283: \* SULFATE[CCO-PERI-BAC] *\ - \* r2455_e, sulfate *\ - \* r143, sulfate[periplasmic space] + ATP + H2O -> sulfate[cytosol] + ADP + phosphate + H+ *\ - - + r2455_e -1.0 r143 = 0 - -c1878: \* NAcMur-Peptide-NAcGlc-Undecaprenols[CCO-CYTOSOL] *\ - \* r1619b, a lipid II + GlcNAc-1,6-anhydro-MurNAc-pentapeptide -> a peptidoglycan dimer (generic) *\ - \* r1619a, a peptidoglycan dimer (generic) -> a lipid II + GlcNAc-1,6-anhydro-MurNAc-pentapeptide *\ - - -1.0 r1619b + r1619a = 0 - -c245: \* L-ALA-GAMMA-D-GLU-DAP[CCO-PERI-BAC] *\ - \* r2228, L-alanyl-gamma-D-glutamyl-meso-2,6-diaminopimeloyl-D-alanine + H2O -> L-alanyl-gamma-D-glutamyl-meso-diaminopimelate + D-alanine *\ - \* r587, a tripeptide[periplasmic space] + H+[periplasmic space] -> a tripeptide[cytosol] + H+[cytosol] *\ - \* r124, ATP + L-alanyl-gamma-D-glutamyl-meso-diaminopimelate[periplasmic space] + H2O -> L-alanyl-gamma-D-glutamyl-meso-diaminopimelate[cytosol] + ADP + phosphate + H+ *\ - - + r2228 -1.0 r587 -1.0 r124 = 0 - -c586: \* BIOTIN[CCO-CYTOSOL] *\ - \* r808a, d-biotin d-sulfoxide + a reduced thioredoxin -> biotin + an oxidized thioredoxin + H2O *\ - \* r808b, biotin + an oxidized thioredoxin + H2O -> d-biotin d-sulfoxide + a reduced thioredoxin *\ - \* r1075, a [biotin-carboxyl-carrier protein monomer] + biotin + ATP -> AMP + a biotinylated [BCCP monomer] + diphosphate + H+ *\ - \* r1847, a sulfurated [sulfur carrier] + dethiobiotin + 2 S-adenosyl-L-methionine + 2 a reduced [2Fe-2S] ferredoxin -> an unsulfurated [sulfur carrier] + biotin + 2 5'-deoxyadenosine + 2 L-methionine + 2 an oxidized [2Fe-2S] ferredoxin *\ - \* objReactionName, biotin *\ - - + r808a -1.0 r808b -1.0 r1075 + r1847 -0.000045 objReactionName = 0 - -c31: \* UREA[CCO-CYTOSOL] *\ - \* r1517, S-ureidoglycolate -> urea + glyoxylate *\ - \* r1283, agmatine + H2O -> urea + putrescine *\ - \* r17b, urea[periplasmic space] -> urea[cytosol] *\ - \* r17a, urea[cytosol] -> urea[periplasmic space] *\ - - + r1517 + r1283 + r17b -1.0 r17a = 0 - -c1107: \* 5-METHYLTHIOADENOSINE[CCO-CYTOSOL] *\ - \* r900, putrescine + S-adenosyl 3-(methylthio)propylamine -> spermidine + S-methyl-5'-thioadenosine + H+ *\ - \* r1368, S-methyl-5'-thioadenosine + H2O -> S-methyl-5-thio-D-ribose + adenine *\ - - + r900 -1.0 r1368 = 0 - -c1479: \* DIHYDRONEOPTERIN-P3[CCO-CYTOSOL] *\ - \* r1538a, 7,8-dihydroneopterin 3'-triphosphate -> 7,8-dihydromonapterin triphosphate *\ - \* r1538b, 7,8-dihydromonapterin triphosphate -> 7,8-dihydroneopterin 3'-triphosphate *\ - \* r2048, 7,8-dihydroneopterin 3'-triphosphate + H2O -> 7,8-dihydroneopterin 3'-phosphate + diphosphate + H+ *\ - \* r2231, GTP + H2O -> formate + 7,8-dihydroneopterin 3'-triphosphate + H+ *\ - - -1.0 r1538a + r1538b -1.0 r2048 + r2231 = 0 - -c270: \* PROTON[CCO-IN] *\ - \* r138b, ADP + phosphate + 4 H+[out] -> ATP + 3 H+[in] + H2O *\ - \* r138a, ATP + 3 H+[in] + H2O -> ADP + phosphate + 4 H+[out] *\ - - +3.0 r138b -3.0 r138a = 0 - -c1510: \* CH33ADO[CCO-CYTOSOL] *\ - \* r1173, 5'-deoxyadenosine + H2O -> 5-deoxy-D-ribose + adenine *\ - \* r1204, a [lipoyl-carrier protein] N6-octanoyl-L-lysine + 2 S-adenosyl-L-methionine + 2 a sulfurated [sulfur carrier] + 2 a reduced [2Fe-2S] ferredoxin -> a [lipoyl-carrier protein] N6-lipoyl-L-lysine + 2 5'-deoxyadenosine + 2 L-methionine + 2 an unsulfurated [sulfur carrier] + 2 an oxidized [2Fe-2S] ferredoxin *\ - \* r1400, 5-amino-1-(5-phospho-beta-D-ribosyl)imidazole + S-adenosyl-L-methionine -> 4-amino-2-methyl-5-phosphomethylpyrimidine + 5'-deoxyadenosine + L-methionine + formate + carbon monoxide + 3 H+ *\ - \* r1597, L-tyrosine + S-adenosyl-L-methionine + NADPH -> 2-iminoacetate + 4-methylphenol + 5'-deoxyadenosine + L-methionine + NADP+ + H+ *\ - \* r1767a, N6-dimethylallyladenosine37 in tRNA + a sulfurated [sulfur carrier] + S-adenosyl-L-methionine + an unknown reduced electron acceptor -> 2-thio-N6-dimethylallyladenosine37 in tRNA + an unsulfurated [sulfur carrier] + 5'-deoxyadenosine + L-methionine + an unknown oxidized electron acceptor + H+ *\ - \* r1767b, 2-thio-N6-dimethylallyladenosine37 in tRNA + an unsulfurated [sulfur carrier] + 5'-deoxyadenosine + L-methionine + an unknown oxidized electron acceptor + H+ -> N6-dimethylallyladenosine37 in tRNA + a sulfurated [sulfur carrier] + S-adenosyl-L-methionine + an unknown reduced electron acceptor *\ - \* r1847, a sulfurated [sulfur carrier] + dethiobiotin + 2 S-adenosyl-L-methionine + 2 a reduced [2Fe-2S] ferredoxin -> an unsulfurated [sulfur carrier] + biotin + 2 5'-deoxyadenosine + 2 L-methionine + 2 an oxidized [2Fe-2S] ferredoxin *\ - \* r2234, coproporphyrinogen III + 2 S-adenosyl-L-methionine -> protoporphyrinogen IX + 2 CO2 + 2 L-methionine + 2 5'-deoxyadenosine *\ - \* r2500_e, 5'-deoxyadenosine *\ - - -1.0 r1173 +2.0 r1204 + r1400 + r1597 + r1767a -1.0 r1767b +2.0 r1847 +2.0 r2234 -1.0 r2500_e = 0 - -c1826: \* NIACINE[CCO-CYTOSOL] *\ - \* r1562, nicotinate + 5-phospho-alpha-D-ribose 1-diphosphate + ATP + H2O -> beta-nicotinate D-ribonucleotide + ADP + diphosphate + phosphate *\ - \* r2076, nicotinamide + H2O -> ammonium + nicotinate *\ - - -1.0 r1562 + r2076 = 0 - -c1493: \* DIMP[CCO-CYTOSOL] *\ - \* r2266, a nucleoside diphosphate + H2O -> a nucleoside 5'-monophosphate + phosphate + H+ *\ - \* r1923, a 2'-deoxyribonucleoside 5'-monophosphate + H2O -> a 2'-deoxynucleoside + phosphate *\ - \* r1215, dITP + H2O -> dIMP + diphosphate + H+ *\ - \* r1153, a nucleoside triphosphate + H2O -> a nucleoside 5'-monophosphate + diphosphate + H+ *\ - - + r2266 -1.0 r1923 + r1215 + r1153 = 0 - -c1279: \* Trans-D3-cis-D5-dodecenoyl-ACPs[CCO-CYTOSOL] *\ - \* r1066, a (3R)-hydroxy cis delta5-dodecenoyl-[acp] -> a trans-delta3-cis-delta5-dodecenoyl-[acp] + H2O *\ - \* r914, a trans-delta3-cis-delta5-dodecenoyl-[acp] + NADH + H+ -> a cis-delta5-dodecenoyl-[acp] + NAD+ *\ - - + r1066 -1.0 r914 = 0 - -c592: \* L-BETA-ASPARTYL-P[CCO-PERI-BAC] *\ - \* r320, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - - + r320 = 0 - -c478: \* KDO2-LAUROYL-LIPID-IVA[CCO-EXTRACELLULAR] *\ - \* r246, a lipopolysaccharide[cytosol] -> a lipopolysaccharide[extracellular space] *\ - - + r246 = 0 - -c1199: \* Pimeloyl-ACP-methyl-esters[CCO-CYTOSOL] *\ - \* r1193, a pimeloyl-[acp] methyl ester + H2O -> a pimeloyl-[acp] + methanol + H+ *\ - \* r841, an enoylpimeloyl-[acp] methyl ester + NADH + H+ -> a pimeloyl-[acp] methyl ester + NAD+ *\ - - -1.0 r1193 + r841 = 0 - -c220: \* CPD0-2239[CCO-PERI-BAC] *\ - \* r111, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - - + r111 = 0 - -c464: \* PYRUVATE[CCO-PERI-BAC] *\ - \* r235, pyruvate[periplasmic space] -> pyruvate[cytosol] *\ - \* r390, pyruvate[cytosol] -> pyruvate[periplasmic space] *\ - \* r2215a, an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] -> a carboxylate[periplasmic space] + FADH2[periplasmic space] *\ - \* r2215b, a carboxylate[periplasmic space] + FADH2[periplasmic space] -> an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] *\ - - -1.0 r235 + r390 + r2215a -1.0 r2215b = 0 - -c258: \* CU+[CCO-PERI-BAC] *\ - \* r2195, 2 Cu+[periplasmic space] + 2 H+[periplasmic space] + oxygen[periplasmic space] -> 2 Cu2+[periplasmic space] + 2 H2O[periplasmic space] *\ - \* r130, Cu+[cytosol] + ATP + H2O -> Cu+[periplasmic space] + ADP + phosphate + H+ *\ - - -2.0 r2195 + r130 = 0 - -c52: \* K+[CCO-CYTOSOL] *\ - \* objReactionName, K+ *\ - \* r546, K+[cytosol] + H+[periplasmic space] -> K+[periplasmic space] + H+[cytosol] *\ - \* r513, K+[periplasmic space] + H+[periplasmic space] -> K+[cytosol] + H+[cytosol] *\ - \* r83, K+[periplasmic space] + ATP + H2O -> K+[cytosol] + ADP + phosphate + H+ *\ - \* r27, K+[periplasmic space] -> K+[cytosol] *\ - - -0.18569 objReactionName -1.0 r546 + r513 + r83 + r27 = 0 - -c261: \* MALTOSE[CCO-CYTOSOL] *\ - \* r1267a, maltose + acetyl-CoA -> acetylmaltose + coenzyme A *\ - \* r1267b, acetylmaltose + coenzyme A -> maltose + acetyl-CoA *\ - \* r1291, maltotriose + maltose -> maltotetraose + D-glucopyranose *\ - \* r1437, maltotriose + H2O -> maltose + D-glucopyranose *\ - \* r1540a, maltohexaose + beta-D-glucose -> maltopentaose + maltose *\ - \* r1540b, maltopentaose + maltose -> maltohexaose + beta-D-glucose *\ - \* r2050a, maltopentaose + D-glucopyranose -> maltotetraose + maltose *\ - \* r2050b, maltotetraose + maltose -> maltopentaose + D-glucopyranose *\ - \* r2354a, maltose + maltohexaose -> maltoheptaose + beta-D-glucose *\ - \* r2354b, maltoheptaose + beta-D-glucose -> maltose + maltohexaose *\ - - -1.0 r1267a + r1267b -1.0 r1291 + r1437 + r1540a -1.0 r1540b + r2050a -1.0 r2050b -1.0 r2354a + r2354b = 0 - -c184: \* CPD0-2238[CCO-PERI-BAC] *\ - \* r93, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - - + r93 = 0 - -c1907: \* ADENYLOSUCC[CCO-CYTOSOL] *\ - \* r1794, adenylo-succinate -> fumarate + AMP *\ - \* r1681, L-aspartate + IMP + GTP -> adenylo-succinate + GDP + phosphate + 2 H+ *\ - - -1.0 r1794 + r1681 = 0 - -c1384: \* ACETOL[CCO-CYTOSOL] *\ - \* r2438b, acetol + NAD+ -> methylglyoxal + NADH + H+ *\ - \* r2438a, methylglyoxal + NADH + H+ -> acetol + NAD+ *\ - \* r1426b, methylglyoxal + NADPH + H+ -> acetol + NADP+ *\ - \* r1426a, acetol + NADP+ -> methylglyoxal + NADPH + H+ *\ - \* r1035b, acetol + NADH + H+ -> (S)-propane-1,2-diol + NAD+ *\ - \* r1035a, (S)-propane-1,2-diol + NAD+ -> acetol + NADH + H+ *\ - - -1.0 r2438b + r2438a + r1426b -1.0 r1426a -1.0 r1035b + r1035a = 0 - -c1707: \* SHIKIMATE-5P[CCO-CYTOSOL] *\ - \* r1948b, 5-enolpyruvyl-shikimate 3-phosphate + phosphate -> shikimate 3-phosphate + phosphoenolpyruvate *\ - \* r1948a, shikimate 3-phosphate + phosphoenolpyruvate -> 5-enolpyruvyl-shikimate 3-phosphate + phosphate *\ - \* r1403, shikimate + ATP -> shikimate 3-phosphate + ADP + H+ *\ - - + r1948b -1.0 r1948a + r1403 = 0 - -c1011: \* CITRATE-LYASE[CCO-CYTOSOL] *\ - \* r721, a citryl-[holo citrate lyase acyl-carrier protein] -> oxaloacetate + an acetyl-[holo citrate lyase acyl-carrier protein] + H+ *\ - \* r899, [a holo citrate lyase acyl-carrier protein] + acetate + ATP -> an acetyl-[holo citrate lyase acyl-carrier protein] + AMP + diphosphate *\ - \* r1077, citrate + an acetyl-[holo citrate lyase acyl-carrier protein] + H+ -> a citryl-[holo citrate lyase acyl-carrier protein] + acetate *\ - \* r1893, an acetyl-[holo citrate lyase acyl-carrier protein] + H2O -> [a holo citrate lyase acyl-carrier protein] + acetate + H+ *\ - - + r721 + r899 -1.0 r1077 -1.0 r1893 = 0 - -c555: \* FUM[CCO-PERI-BAC] *\ - \* r531, succinate[cytosol] + fumarate[periplasmic space] -> fumarate[cytosol] + succinate[periplasmic space] *\ - \* r517, a C4-dicarboxylate[periplasmic space] + 3 H+[periplasmic space] -> a C4-dicarboxylate[cytosol] + 3 H+[cytosol] *\ - \* r514, fumarate[periplasmic space] + 2 H+[periplasmic space] -> fumarate[cytosol] + 2 H+[cytosol] *\ - \* r444, a C4-dicarboxylate[periplasmic space] + 2 H+[periplasmic space] -> a C4-dicarboxylate[cytosol] + 2 H+[cytosol] *\ - \* r302, fumarate[periplasmic space] -> fumarate[cytosol] *\ - - -1.0 r531 -1.0 r517 -1.0 r514 -1.0 r444 -1.0 r302 = 0 - -c2004: \* VAL-tRNAs[CCO-CYTOSOL] *\ - \* objReactionName, a tRNAval *\ - \* r1834, a tRNAval + L-valine + ATP + H+ -> an L-valyl-[tRNAval] + AMP + diphosphate *\ - - +0.411184 objReactionName -1.0 r1834 = 0 - -c84: \* DEOXYURIDINE[CCO-PERI-BAC] *\ - \* r41, a nucleoside[extracellular space] -> a nucleoside[periplasmic space] *\ - \* r549, 2'-deoxyuridine[periplasmic space] + H+[periplasmic space] -> 2'-deoxyuridine[cytosol] + H+[cytosol] *\ - \* r601, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - - + r41 -1.0 r549 -1.0 r601 = 0 - -c423: \* CPD-16168[CCO-CYTOSOL] *\ - \* r675a, N-acetyl-D-mannosamine 6-phosphate -> N-acetyl-D-glucosamine 6-phosphate *\ - \* r675b, N-acetyl-D-glucosamine 6-phosphate -> N-acetyl-D-mannosamine 6-phosphate *\ - \* r1372, N-acetyl-D-glucosamine 6-phosphate + H2O -> D-glucosamine 6-phosphate + acetate *\ - \* r2072a, N-acetyl-beta-D-glucosamine + ATP -> N-acetyl-D-glucosamine 6-phosphate + ADP + H+ *\ - \* r2072b, N-acetyl-D-glucosamine 6-phosphate + ADP + H+ -> N-acetyl-beta-D-glucosamine + ATP *\ - \* r2206a, N-acetyl-beta-muramate 6-phosphate + H2O -> N-acetyl-D-glucosamine 6-phosphate + (R)-lactate *\ - \* r2206b, N-acetyl-D-glucosamine 6-phosphate + (R)-lactate -> N-acetyl-beta-muramate 6-phosphate + H2O *\ - - + r675a -1.0 r675b -1.0 r1372 + r2072a -1.0 r2072b + r2206a -1.0 r2206b = 0 - -c629: \* CPD-404[CCO-CYTOSOL] *\ - \* r354, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - - -1.0 r354 = 0 - -c185: \* KDO2-LAUROYL-LIPID-IVA[CCO-CYTOSOL] *\ - \* r1179, a myristoyl-[acp] + alpha-Kdo-(2->4)-alpha-Kdo-(2->6)-(lauroyl)-lipid IVA -> alpha-D-Kdo-(2->4)-alpha-D-Kdo-(2->6)-lipid A + a holo-[acyl-carrier protein] *\ - \* r927, a dodecanoyl-[acp] + alpha-Kdo-(2->4)-alpha-Kdo-(2->6)-lipid IVA -> alpha-Kdo-(2->4)-alpha-Kdo-(2->6)-(lauroyl)-lipid IVA + a holo-[acyl-carrier protein] *\ - \* r246, a lipopolysaccharide[cytosol] -> a lipopolysaccharide[extracellular space] *\ - \* r94, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - - -1.0 r1179 + r927 -1.0 r246 -1.0 r94 = 0 - -c1016: \* CPD-318[CCO-CYTOSOL] *\ - \* r1699, 2 L-ascorbate + hydrogen peroxide + 2 H+ -> 2 monodehydroascorbate radical + 2 H2O *\ - \* r1196, 2 monodehydroascorbate radical -> L-ascorbate + L-dehydro-ascorbate + H+ *\ - \* r724, 2 L-ascorbate + an unknown oxidized electron acceptor + 2 H+ -> 2 monodehydroascorbate radical + an unknown reduced electron acceptor *\ - - +2.0 r1699 -2.0 r1196 +2.0 r724 = 0 - -c2170: \* CPD-15616[CCO-CYTOSOL] *\ - \* r2246b, L-sorbopyranose -> keto-L-sorbose *\ - \* r2246a, keto-L-sorbose -> L-sorbopyranose *\ - - + r2246b -1.0 r2246a = 0 - -c1096: \* Protein-Histidines[CCO-CYTOSOL] *\ - \* r931b, a [protein]-L-histidine + 2,3-diphospho-D-glycerate -> a [protein]-Npi-phospho-L-histidine + 2-phospho-D-glycerate *\ - \* r931a, a [protein]-Npi-phospho-L-histidine + 2-phospho-D-glycerate -> a [protein]-L-histidine + 2,3-diphospho-D-glycerate *\ - \* r775b, a [protein]-Npi-phospho-L-histidine + 3-phospho-D-glycerate -> a [protein]-L-histidine + 2,3-diphospho-D-glycerate *\ - \* r775a, a [protein]-L-histidine + 2,3-diphospho-D-glycerate -> a [protein]-Npi-phospho-L-histidine + 3-phospho-D-glycerate *\ - - -1.0 r931b + r931a + r775b -1.0 r775a = 0 - -c1442: \* ALPHA-GLC-6-P[CCO-CYTOSOL] *\ - \* r2381b, alpha-D-glucose 6-phosphate -> alpha-D-glucose 1-phosphate *\ - \* r2381a, alpha-D-glucose 1-phosphate -> alpha-D-glucose 6-phosphate *\ - \* r2020, UDP-alpha-D-glucose + alpha-D-glucose 6-phosphate -> UDP + alpha,alpha-trehalose 6-phosphate + H+ *\ - \* r1175, alpha-D-glucose 6-phosphate + H2O -> alpha-D-glucose + phosphate *\ - \* r1095b, beta-D-glucose 6-phosphate -> alpha-D-glucose 6-phosphate *\ - \* r1095a, alpha-D-glucose 6-phosphate -> beta-D-glucose 6-phosphate *\ - - -1.0 r2381b + r2381a -1.0 r2020 -1.0 r1175 + r1095b -1.0 r1095a = 0 - -c54: \* CL-[CCO-CYTOSOL] *\ - \* objReactionName, chloride *\ - \* r474b, 2 chloride[cytosol] + H+[periplasmic space] -> 2 chloride[periplasmic space] + H+[cytosol] *\ - \* r474a, 2 chloride[periplasmic space] + H+[cytosol] -> 2 chloride[cytosol] + H+[periplasmic space] *\ - \* r28, chloride[periplasmic space] -> chloride[cytosol] *\ - - -0.004952 objReactionName -2.0 r474b +2.0 r474a + r28 = 0 - -c845: \* CPD-15619[CCO-CYTOSOL] *\ - \* r1266b, L-fucopyranose -> aldehydo-L-fucose *\ - \* r1266a, aldehydo-L-fucose -> L-fucopyranose *\ - \* r593, L-fucose[periplasmic space] + H+[periplasmic space] -> L-fucose[cytosol] + H+[cytosol] *\ - - + r1266b -1.0 r1266a + r593 = 0 - -c82: \* DEOXYGUANOSINE[CCO-PERI-BAC] *\ - \* r40, a nucleoside[extracellular space] -> a nucleoside[periplasmic space] *\ - \* r600, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r1252, dGMP + H2O -> 2'-deoxyguanosine + phosphate *\ - - + r40 -1.0 r600 + r1252 = 0 - -c1185: \* AMINOMETHYLDIHYDROLIPOYL-GCVH[CCO-CYTOSOL] *\ - \* r989b, a [glycine-cleavage complex H protein] N6-aminomethyldihydrolipoyl-L-lysine + CO2 -> glycine + a [glycine-cleavage complex H protein] N6-lipoyl-L-lysine + H+ *\ - \* r989a, glycine + a [glycine-cleavage complex H protein] N6-lipoyl-L-lysine + H+ -> a [glycine-cleavage complex H protein] N6-aminomethyldihydrolipoyl-L-lysine + CO2 *\ - \* r834b, a [glycine-cleavage complex H protein] N6-dihydrolipoyl-L-lysine + a 5,10-methylene-tetrahydrofolate + ammonium -> a [glycine-cleavage complex H protein] N6-aminomethyldihydrolipoyl-L-lysine + a tetrahydrofolate *\ - \* r834a, a [glycine-cleavage complex H protein] N6-aminomethyldihydrolipoyl-L-lysine + a tetrahydrofolate -> a [glycine-cleavage complex H protein] N6-dihydrolipoyl-L-lysine + a 5,10-methylene-tetrahydrofolate + ammonium *\ - - -1.0 r989b + r989a + r834b -1.0 r834a = 0 - -c483: \* CPD0-934[CCO-EXTRACELLULAR] *\ - \* r251, a lipopolysaccharide[cytosol] -> a lipopolysaccharide[extracellular space] *\ - - + r251 = 0 - -c68: \* CPD-3745[CCO-CYTOSOL] *\ - \* r1950, isethionate + FMNH2 + oxygen -> glycolaldehyde + sulfite + FMN + H2O + 2 H+ *\ - \* r1502, an alkylsulfonate + FMNH2 + oxygen -> an aldehyde + sulfite + FMN + H2O + 2 H+ *\ - \* r33, ATP + an aliphatic sulfonate[periplasmic space] + H2O -> an aliphatic sulfonate[cytosol] + ADP + phosphate + H+ *\ - - -1.0 r1950 -1.0 r1502 + r33 = 0 - -c913: \* CARBAMOYL-P[CCO-CYTOSOL] *\ - \* r663a, carbamoyl-phosphate + ATP + H2O -> O-carbamoyladenylate + diphosphate + phosphate *\ - \* r663b, O-carbamoyladenylate + diphosphate + phosphate -> carbamoyl-phosphate + ATP + H2O *\ - \* r689, L-aspartate + carbamoyl-phosphate -> N-carbamoyl-L-aspartate + phosphate + H+ *\ - \* r694, carbamoyl-phosphate + ADP + 2 H+ -> ammonium + CO2 + ATP *\ - \* r849a, L-ornithine + carbamoyl-phosphate -> L-citrulline + phosphate + H+ *\ - \* r849b, L-citrulline + phosphate + H+ -> L-ornithine + carbamoyl-phosphate *\ - \* r1845, 2 ATP + hydrogen carbonate + ammonium -> 2 ADP + carbamoyl-phosphate + phosphate + 2 H+ *\ - \* r2415, 2 ATP + L-glutamine + hydrogen carbonate + H2O -> carbamoyl-phosphate + L-glutamate + 2 ADP + phosphate + 2 H+ *\ - \* r2419, carbamoyl-phosphate + HypE + ATP + H2O -> a HypE hydrogenase maturation protein-S-carboxamide + AMP + diphosphate + phosphate *\ - - -1.0 r663a + r663b -1.0 r689 -1.0 r694 -1.0 r849a + r849b + r1845 + r2415 -1.0 r2419 = 0 - -c1829: \* PROPANOL[CCO-CYTOSOL] *\ - \* r1564b, an aldehyde + NADH + H+ -> a primary alcohol + NAD+ *\ - \* r1564a, a primary alcohol + NAD+ -> an aldehyde + NADH + H+ *\ - - + r1564b -1.0 r1564a = 0 - -c539: \* ACETYLMALTOSE[CCO-CYTOSOL] *\ - \* r1267a, maltose + acetyl-CoA -> acetylmaltose + coenzyme A *\ - \* r1267b, acetylmaltose + coenzyme A -> maltose + acetyl-CoA *\ - - + r1267a -1.0 r1267b = 0 - -c1947: \* tRNA-uridine13[CCO-CYTOSOL] *\ - \* r1743b, a pseudouridine13 in tRNA -> a uridine13 in tRNA *\ - \* r1743a, a uridine13 in tRNA -> a pseudouridine13 in tRNA *\ - - + r1743b -1.0 r1743a = 0 - -c2166: \* CPD0-1082[CCO-PERI-BAC] *\ - \* r2228, L-alanyl-gamma-D-glutamyl-meso-2,6-diaminopimeloyl-D-alanine + H2O -> L-alanyl-gamma-D-glutamyl-meso-diaminopimelate + D-alanine *\ - - -1.0 r2228 = 0 - -c2093: \* GLYCOL[CCO-CYTOSOL] *\ - \* r2041b, glycolaldehyde + NADH + H+ -> ethylene glycol + NAD+ *\ - \* r2041a, ethylene glycol + NAD+ -> glycolaldehyde + NADH + H+ *\ - - + r2041b -1.0 r2041a = 0 - -c854: \* CPD-16020[CCO-CYTOSOL] *\ - \* r604, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - - + r604 = 0 - -c1906: \* CPD-7670[CCO-PERI-BAC] *\ - \* r1678b, dimethyl sulfoxide[periplasmic space] + a menaquinol[inner membrane] -> dimethyl sulfide[periplasmic space] + a menaquinone[inner membrane] + H2O[periplasmic space] *\ - \* r1678a, dimethyl sulfide[periplasmic space] + a menaquinone[inner membrane] + H2O[periplasmic space] -> dimethyl sulfoxide[periplasmic space] + a menaquinol[inner membrane] *\ - - + r1678b -1.0 r1678a = 0 - -c296: \* ZN+2[CCO-CYTOSOL] *\ - \* objReactionName, Zn2+ *\ - \* r511, Zn2+[cytosol] + H+[periplasmic space] -> Zn2+[periplasmic space] + H+[cytosol] *\ - \* r288, Zn2+[periplasmic space] -> Zn2+[cytosol] *\ - \* r150, Zn2+[periplasmic space] + ATP + H2O -> Zn2+[cytosol] + ADP + phosphate + H+ *\ - \* r149, Zn2+[cytosol] + ATP + H2O -> Zn2+[periplasmic space] + ADP + phosphate + H+ *\ - - -0.000324 objReactionName -1.0 r511 + r288 + r150 -1.0 r149 = 0 - -c681: \* CD+2[CCO-PERI-BAC] *\ - \* r466, Cd2+[cytosol] + H+[periplasmic space] -> Cd2+[periplasmic space] + H+[cytosol] *\ - \* r395, Cd2+[periplasmic space] -> Cd2+[cytosol] *\ - - + r466 -1.0 r395 = 0 - -c1346: \* L-RHAMNONATE[CCO-CYTOSOL] *\ - \* r975b, 2-dehydro-3-deoxy-L-rhamnonate + H2O -> L-rhamnonate *\ - \* r975a, L-rhamnonate -> 2-dehydro-3-deoxy-L-rhamnonate + H2O *\ - - + r975b -1.0 r975a = 0 - -c810: \* L-LYXOSE[CCO-CYTOSOL] *\ - \* r991a, beta-L-lyxopyranose -> L-xylulose *\ - \* r991b, L-xylulose -> beta-L-lyxopyranose *\ - - -1.0 r991a + r991b = 0 - -c883: \* ETOH[CCO-PERI-BAC] *\ - \* r2475_e, ethanol *\ - \* r641b, ethanol[cytosol] -> ethanol[periplasmic space] *\ - \* r641a, ethanol[periplasmic space] -> ethanol[cytosol] *\ - - -1.0 r2475_e + r641b -1.0 r641a = 0 - -c614: \* PHE[CCO-PERI-BAC] *\ - \* r478, L-phenylalanine[periplasmic space] + H+[periplasmic space] -> L-phenylalanine[cytosol] + H+[cytosol] *\ - \* r453, an aromatic amino acid[cytosol] -> an aromatic amino acid[periplasmic space] *\ - \* r343, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - - -1.0 r478 + r453 + r343 = 0 - -c517: \* MN+2[CCO-CYTOSOL] *\ - \* objReactionName, Mn2+ *\ - \* r492, Mn2+[periplasmic space] + H+[periplasmic space] -> Mn2+[cytosol] + H+[cytosol] *\ - \* r389, Mn2+[periplasmic space] -> Mn2+[cytosol] *\ - \* r279, Mn2+[cytosol] -> Mn2+[periplasmic space] *\ - - -0.000658 objReactionName + r492 + r389 -1.0 r279 = 0 - -c1368: \* ACETYL-GLU[CCO-CYTOSOL] *\ - \* r1977, N-acetyl-L-glutamate + ATP -> N-acetylglutamyl-phosphate + ADP *\ - \* r1007b, N-acetyl-L-glutamate + coenzyme A + H+ -> L-glutamate + acetyl-CoA *\ - \* r1007a, L-glutamate + acetyl-CoA -> N-acetyl-L-glutamate + coenzyme A + H+ *\ - - -1.0 r1977 -1.0 r1007b + r1007a = 0 - -c1562: \* DGMP[CCO-CYTOSOL] *\ - \* r1509, dGTP + H2O -> dGMP + diphosphate + H+ *\ - \* r1346, ATP + dGMP -> ADP + dGDP *\ - \* r1253, dGMP + H2O -> 2'-deoxyguanosine + phosphate *\ - - + r1509 -1.0 r1346 -1.0 r1253 = 0 - -c1735: \* CGMP[CCO-CYTOSOL] *\ - \* r1448b, cyclic-GMP + diphosphate -> GTP *\ - \* r1448a, GTP -> cyclic-GMP + diphosphate *\ - - -1.0 r1448b + r1448a = 0 - -c2196: \* CPD-702[CCO-CYTOSOL] *\ - \* r2326b, 4-nitrobenzaldehyde + NADPH + H+ -> 4-nitrobenzyl alcohol + NADP+ *\ - \* r2326a, 4-nitrobenzyl alcohol + NADP+ -> 4-nitrobenzaldehyde + NADPH + H+ *\ - - + r2326b -1.0 r2326a = 0 - -c1754: \* D-ALTRONATE[CCO-CYTOSOL] *\ - \* r1987b, D-tagaturonate + NADH + H+ -> D-altronate + NAD+ *\ - \* r1987a, D-altronate + NAD+ -> D-tagaturonate + NADH + H+ *\ - \* r1472, D-altronate -> 2-dehydro-3-deoxy-D-gluconate + H2O *\ - - + r1987b -1.0 r1987a -1.0 r1472 = 0 - -c2106: \* CPD-6761[CCO-CYTOSOL] *\ - \* r2082b, 2-oxopent-4-enoate -> (2E)-2-hydroxypenta-2,4-dienoate *\ - \* r2082a, (2E)-2-hydroxypenta-2,4-dienoate -> 2-oxopent-4-enoate *\ - - + r2082b -1.0 r2082a = 0 - -c1855: \* GAMMA-GLUTAMYL-GAMMA-AMINOBUTYRALDEH[CCO-CYTOSOL] *\ - \* r2108, gamma-glutamyl-L-putrescine + H2O + oxygen -> 4-(gamma-glutamylamino)butanal + hydrogen peroxide + ammonium *\ - \* r1601, 4-(gamma-glutamylamino)butanal + NAD(P)+ + H2O -> 4-(gamma-L-glutamylamino)butanoate + NAD(P)H + 2 H+ *\ - \* r1600, 4-(gamma-glutamylamino)butanal + NAD(P)+ + H2O -> 4-(gamma-L-glutamylamino)butanoate + NAD(P)H + 2 H+ *\ - - + r2108 -1.0 r1601 -1.0 r1600 = 0 - -c547: \* CPD-8891[CCO-CYTOSOL] *\ - \* r2075a, (R)-propane-1,2-diol + NADP+ -> (R)-lactaldehyde + NADPH + H+ *\ - \* r2075b, (R)-lactaldehyde + NADPH + H+ -> (R)-propane-1,2-diol + NADP+ *\ - - -1.0 r2075a + r2075b = 0 - -c940: \* ALPHA-D-GALACTOSE[CCO-CYTOSOL] *\ - \* r1234, alpha-D-galactose + ATP -> alpha-D-galactose 1-phosphate + ADP + H+ *\ - \* r2277a, beta-D-galactose -> alpha-D-galactose *\ - \* r2277b, alpha-D-galactose -> beta-D-galactose *\ - - -1.0 r1234 + r2277a -1.0 r2277b = 0 - -c707: \* INOSINE[CCO-CYTOSOL] *\ - \* r2000b, a purine base + alpha-D-ribose-1-phosphate -> a purine ribonucleoside + phosphate *\ - \* r2000a, a purine ribonucleoside + phosphate -> a purine base + alpha-D-ribose-1-phosphate *\ - \* r1980, adenosine + H+ + H2O -> ammonium + inosine *\ - \* r1960, inosine + H2O -> D-ribofuranose + hypoxanthine *\ - \* r1454, inosine + ATP -> IMP + ADP + H+ *\ - \* r1356b, alpha-D-ribose-1-phosphate + hypoxanthine -> inosine + phosphate *\ - \* r1356a, inosine + phosphate -> alpha-D-ribose-1-phosphate + hypoxanthine *\ - \* r1029, IMP + H2O -> inosine + phosphate *\ - \* r979, a ribonucleoside 5'-monophosphate + H2O -> a ribonucleoside + phosphate *\ - \* r616, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r431, inosine[cytosol] + H+[periplasmic space] -> inosine[periplasmic space] + H+[cytosol] *\ - \* r415, inosine[periplasmic space] + H+[periplasmic space] -> inosine[cytosol] + H+[cytosol] *\ - - + r2000b -1.0 r2000a + r1980 -1.0 r1960 -1.0 r1454 + r1356b -1.0 r1356a + r1029 + r979 + r616 -1.0 r431 + r415 = 0 - -c580: \* NICOTINAMIDE_RIBOSE[CCO-CYTOSOL] *\ - \* r1408, 1-(beta-D ribofuranosyl)nicotinamide + ATP -> beta-nicotinamide D-ribonucleotide + ADP + H+ *\ - \* r1878, beta-nicotinamide D-ribonucleotide + H2O -> 1-(beta-D ribofuranosyl)nicotinamide + phosphate *\ - \* r1890a, nicotinamide + alpha-D-ribose-1-phosphate + H+ -> 1-(beta-D ribofuranosyl)nicotinamide + phosphate *\ - \* r1890b, 1-(beta-D ribofuranosyl)nicotinamide + phosphate -> nicotinamide + alpha-D-ribose-1-phosphate + H+ *\ - - -1.0 r1408 + r1878 + r1890a -1.0 r1890b = 0 - -c605: \* TRP[CCO-CYTOSOL] *\ - \* r2425b, ammonium + indole + pyruvate -> L-tryptophan + H2O *\ - \* r2425a, L-tryptophan + H2O -> ammonium + indole + pyruvate *\ - \* r2010, indole + L-serine -> L-tryptophan + H2O *\ - \* r1982, L-tryptophan -> indole + 2-aminoprop-2-enoate + H+ *\ - \* r1827, (1S,2R)-1-C-(indol-3-yl)glycerol 3-phosphate + L-serine -> L-tryptophan + D-glyceraldehyde 3-phosphate + H2O *\ - \* r1329, L-tryptophan + a tRNAtrp + ATP + H+ -> an L-tryptophanyl-[tRNAtrp] + AMP + diphosphate *\ - \* r502, L-tryptophan[periplasmic space] + H+[periplasmic space] -> L-tryptophan[cytosol] + H+[cytosol] *\ - \* r452, an aromatic amino acid[cytosol] -> an aromatic amino acid[periplasmic space] *\ - \* r337, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - - + r2425b -1.0 r2425a + r2010 -1.0 r1982 + r1827 -1.0 r1329 + r502 -1.0 r452 -1.0 r337 = 0 - -c1425: \* FRUCTOSE-16-DIPHOSPHATE[CCO-CYTOSOL] *\ - \* r1079, fructose 1,6-bisphosphate + H2O -> beta-D-fructofuranose 6-phosphate + phosphate *\ - \* r1599a, fructose 1,6-bisphosphate -> glycerone phosphate + D-glyceraldehyde 3-phosphate *\ - \* r1599b, glycerone phosphate + D-glyceraldehyde 3-phosphate -> fructose 1,6-bisphosphate *\ - \* r1863, beta-D-fructofuranose 6-phosphate + ATP -> ADP + fructose 1,6-bisphosphate + H+ *\ - - -1.0 r1079 -1.0 r1599a + r1599b + r1863 = 0 - -c246: \* L-ALA-GAMMA-D-GLU-DAP[CCO-CYTOSOL] *\ - \* r124, ATP + L-alanyl-gamma-D-glutamyl-meso-diaminopimelate[periplasmic space] + H2O -> L-alanyl-gamma-D-glutamyl-meso-diaminopimelate[cytosol] + ADP + phosphate + H+ *\ - \* r587, a tripeptide[periplasmic space] + H+[periplasmic space] -> a tripeptide[cytosol] + H+[cytosol] *\ - \* r1302, L-alanyl-gamma-D-glutamyl-meso-diaminopimelate + H2O -> L-alanyl-D-glutamate + meso-diaminopimelate *\ - \* r1404, UDP-N-acetyl-alpha-D-muramate + L-alanyl-gamma-D-glutamyl-meso-diaminopimelate + ATP -> UDP-N-acetyl-alpha-D-muramoyl-L-alanyl-gamma-D-glutamyl-meso-2,6-diaminopimelate + ADP + phosphate + H+ *\ - - + r124 + r587 -1.0 r1302 -1.0 r1404 = 0 - -c1797: \* 5-AMINO-LEVULINATE[CCO-CYTOSOL] *\ - \* r1578, 2 5-aminolevulinate -> porphobilinogen + H+ + 2 H2O *\ - \* r1534, (S)-4-amino-5-oxopentanoate -> 5-aminolevulinate *\ - - -2.0 r1578 + r1534 = 0 - -c972: \* ACP[CCO-CYTOSOL] *\ - \* r1232, a pimeloyl-[acp] + L-alanine + H+ -> 8-amino-7-oxononanoate + CO2 + a holo-[acyl-carrier protein] *\ - \* r1197, a dodecanoyl-[acp] + a malonyl-[acp] + H+ -> a 3-oxo-myristoyl-[acp] + CO2 + a holo-[acyl-carrier protein] *\ - \* r1179, a myristoyl-[acp] + alpha-Kdo-(2->4)-alpha-Kdo-(2->6)-(lauroyl)-lipid IVA -> alpha-D-Kdo-(2->4)-alpha-D-Kdo-(2->6)-lipid A + a holo-[acyl-carrier protein] *\ - \* r1174, a dodecanoyl-[acp] + H2O -> a holo-[acyl-carrier protein] + laurate + H+ *\ - \* r1164, a decanoyl-[acp] + a malonyl-[acp] + H+ -> a 3-oxo-dodecanoyl-[acp] + CO2 + a holo-[acyl-carrier protein] *\ - \* r1132, a (3R)-3-hydroxymyristoyl-[acp] + UDP-3-O-(3-hydroxymyristoyl)-alpha-D-glucosamine -> UDP-2-N,3-O-bis[(3R)-3-hydroxytetradecanoyl]-alpha-D-glucosamine + a holo-[acyl-carrier protein] + H+ *\ - \* r1129, 1-palmitoylglycerol 3-phosphate + a palmitoyl-[acp] -> dipalmitoyl phosphatidate + a holo-[acyl-carrier protein] *\ - \* r1127b, a 2,3,4-saturated L-phosphatidate + a holo-[acyl-carrier protein] -> a 2,3,4-saturated 2-lysophosphatidate + a 2,3,4-saturated fatty acyl-[acp] *\ - \* r1127a, a 2,3,4-saturated 2-lysophosphatidate + a 2,3,4-saturated fatty acyl-[acp] -> a 2,3,4-saturated L-phosphatidate + a holo-[acyl-carrier protein] *\ - \* r1106b, a malonyl-[acp] + coenzyme A -> a holo-[acyl-carrier protein] + malonyl-CoA *\ - \* r1106a, a holo-[acyl-carrier protein] + malonyl-CoA -> a malonyl-[acp] + coenzyme A *\ - \* r1100b, a holo-[acyl-carrier protein] + an L-1-phosphatidylethanolamine -> an acyl-[acyl-carrier protein] + a 2-acyl-1-lyso-phosphatidylethanolamine *\ - \* r1100a, an acyl-[acyl-carrier protein] + a 2-acyl-1-lyso-phosphatidylethanolamine -> a holo-[acyl-carrier protein] + an L-1-phosphatidylethanolamine *\ - \* r1053, an acyl-carrier protein + coenzyme A -> adenosine 3',5'-bisphosphate + a holo-[acyl-carrier protein] + H+ *\ - \* r1027, a myristoyl-[acp] + Kdo2-(palmitoleoyl)-lipid IVA -> (Kdo)2-lipid A, cold adapted + a holo-[acyl-carrier protein] *\ - \* r994, sn-glycerol 3-phosphate + an acyl-[acyl-carrier protein] -> a 1-acyl-sn-glycerol 3-phosphate + a holo-[acyl-carrier protein] *\ - \* r973, a malonyl-[acp] + an acetyl-[acp] + H+ -> a holo-[acyl-carrier protein] + an acetoacetyl-[acp] + CO2 *\ - \* r970, a (3R)-3-hydroxymyristoyl-[acp] + UDP-N-acetyl-alpha-D-glucosamine -> UDP-3-O-[(3R)-3-hydroxymyristoyl]-N-acetyl-alpha-D-glucosamine + a holo-[acyl-carrier protein] *\ - \* r966b, a [glycine-cleavage complex H protein] N6-lipoyl-L-lysine + a holo-[acyl-carrier protein] + H+ -> [glycine cleavage system lipoyl-carrier protein]-L-lysine + a lipoyl-[acp] *\ - \* r966a, [glycine cleavage system lipoyl-carrier protein]-L-lysine + a lipoyl-[acp] -> a [glycine-cleavage complex H protein] N6-lipoyl-L-lysine + a holo-[acyl-carrier protein] + H+ *\ - \* r962, an octanoyl-[acp] + a malonyl-[acp] + H+ -> a 3-oxo-decanoyl-[acp] + CO2 + a holo-[acyl-carrier protein] *\ - \* r958, a palmitoleoyl-[acp] + alpha-Kdo-(2->4)-alpha-Kdo-(2->6)-lipid IVA -> Kdo2-(palmitoleoyl)-lipid IVA + a holo-[acyl-carrier protein] *\ - \* r929, a malonyl-[acp] methyl ester + a malonyl-[acp] + H+ -> a 3-oxo-glutaryl-[acp] methyl ester + CO2 + a holo-[acyl-carrier protein] *\ - \* r927, a dodecanoyl-[acp] + alpha-Kdo-(2->4)-alpha-Kdo-(2->6)-lipid IVA -> alpha-Kdo-(2->4)-alpha-Kdo-(2->6)-(lauroyl)-lipid IVA + a holo-[acyl-carrier protein] *\ - \* r910, a palmitoyl-[acp] + H2O -> palmitate + a holo-[acyl-carrier protein] + H+ *\ - \* r887, a cis-delta3-decenoyl-[acp] + a malonyl-[acp] + H+ -> a 3-oxo-cis-delta5-dodecenoyl-[acp] + a holo-[acyl-carrier protein] + CO2 *\ - \* r856, a holo-[acyl-carrier protein] + H2O -> 4'-phosphopantetheine + an acyl-carrier protein + H+ *\ - \* r843, octanoate + a holo-[acyl-carrier protein] + ATP -> an octanoyl-[acp] + AMP + diphosphate *\ - \* r839, a cis-delta5-dodecenoyl-[acp] + a malonyl-[acp] + H+ -> a 3-oxo-cis-delta7-tetradecenoyl-[acp] + a holo-[acyl-carrier protein] + CO2 *\ - \* r826, a malonyl-[acp] + a 2,3,4-saturated fatty acyl-[acp] + H+ -> a holo-[acyl-carrier protein] + a 3-oxoacyl-[acp] + CO2 *\ - \* r825, a malonyl-[acp] + a 2,3,4-saturated fatty acyl-[acp] + H+ -> a holo-[acyl-carrier protein] + a 3-oxoacyl-[acp] + CO2 *\ - \* r824, a malonyl-[acp] + a 2,3,4-saturated fatty acyl-[acp] + H+ -> a holo-[acyl-carrier protein] + a 3-oxoacyl-[acp] + CO2 *\ - \* r823, a malonyl-[acp] + a 2,3,4-saturated fatty acyl-[acp] + H+ -> a holo-[acyl-carrier protein] + a 3-oxoacyl-[acp] + CO2 *\ - \* r822, a malonyl-[acp] + a 2,3,4-saturated fatty acyl-[acp] + H+ -> a holo-[acyl-carrier protein] + a 3-oxoacyl-[acp] + CO2 *\ - \* r821, a malonyl-[acp] + a 2,3,4-saturated fatty acyl-[acp] + H+ -> a holo-[acyl-carrier protein] + a 3-oxoacyl-[acp] + CO2 *\ - \* r807, a glutaryl-[acp] methyl ester + a malonyl-[acp] + H+ -> a 3-oxo-pimeloyl-[acp] methyl ester + CO2 + a holo-[acyl-carrier protein] *\ - \* r777, a hexanoyl-[acyl-carrier-protein] + a malonyl-[acp] + H+ -> a 3-oxo-octanoyl-[acp] + CO2 + a holo-[acyl-carrier protein] *\ - \* r757b, an acetyl-[acp] + coenzyme A -> a holo-[acyl-carrier protein] + acetyl-CoA *\ - \* r757a, a holo-[acyl-carrier protein] + acetyl-CoA -> an acetyl-[acp] + coenzyme A *\ - \* r741, a butyryl-[acp] + a malonyl-[acp] + H+ -> a 3-oxo-hexanoyl-[acp] + CO2 + a holo-[acyl-carrier protein] *\ - \* r705, a myristoyl-[acp] + a malonyl-[acp] + H+ -> a 3-oxo-palmitoyl-[acp] + CO2 + a holo-[acyl-carrier protein] *\ - \* r700, a cis-delta7-tetradecenoyl-[acp] + a malonyl-[acp] + H+ -> a 3-oxo-cis-delta9-hexadecenoyl-[acp] + a holo-[acyl-carrier protein] + CO2 *\ - - + r1232 + r1197 + r1179 + r1174 + r1164 + r1132 + r1129 -1.0 r1127b + r1127a + r1106b -1.0 r1106a -1.0 r1100b + r1100a + r1053 + r1027 + r994 + r973 + r970 -1.0 r966b - + r966a + r962 + r958 + r929 + r927 + r910 + r887 -1.0 r856 -1.0 r843 + r839 + r826 + r825 + r824 + r823 + r822 + r821 + r807 + r777 + r757b -1.0 r757a - + r741 + r705 + r700 = 0 - -c1277: \* CPD-12261[CCO-PERI-BAC] *\ - \* objReactionName, a peptidoglycan with D,D cross-links (meso-diaminopimelate containing) *\ - \* r912, 2 a peptidoglycan dimer (meso-diaminopimelate containing)[periplasmic space] -> a peptidoglycan with D,D cross-links (meso-diaminopimelate containing)[periplasmic space] + D-alanine[periplasmic space] *\ - - -0.013452 objReactionName + r912 = 0 - -c269: \* ATP[CCO-IN] *\ - \* r138b, ADP + phosphate + 4 H+[out] -> ATP + 3 H+[in] + H2O *\ - \* r138a, ATP + 3 H+[in] + H2O -> ADP + phosphate + 4 H+[out] *\ - - + r138b -1.0 r138a = 0 - -c622: \* N-FORMYLMETHIONINE[CCO-PERI-BAC] *\ - \* r350, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - - + r350 = 0 - -c1981: \* Charged-ASN-tRNAs[CCO-CYTOSOL] *\ - \* objReactionName, an L-asparaginyl-[tRNAasn] *\ - \* r1798, tRNAasn + L-asparagine + ATP + H+ -> an L-asparaginyl-[tRNAasn] + AMP + diphosphate *\ - - -0.234232 objReactionName + r1798 = 0 - -c196: \* CPD0-934[CCO-PERI-BAC] *\ - \* r99, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - - + r99 = 0 - -c498: \* KDO2-PALMITOLEOYL-LIPID-IVA[CCO-EXTRACELLULAR] *\ - \* r266, a lipopolysaccharide[cytosol] -> a lipopolysaccharide[extracellular space] *\ - - + r266 = 0 - -c1615: \* PREPHENATE[CCO-CYTOSOL] *\ - \* r1301, chorismate -> prephenate *\ - \* r1804, prephenate + NAD+ -> 4-hydroxyphenylpyruvate + CO2 + NADH *\ - \* r2292, prephenate + H+ -> 2-oxo-3-phenylpropanoate + CO2 + H2O *\ - - + r1301 -1.0 r1804 -1.0 r2292 = 0 - -c1061: \* THF[CCO-CYTOSOL] *\ - \* r748a, an N10-formyl-tetrahydrofolate + N1-(5-phospho-beta-D-ribosyl)glycinamide -> a tetrahydrofolate + N2-formyl-N1-(5-phospho-beta-D-ribosyl)glycinamide + H+ *\ - \* r748b, a tetrahydrofolate + N2-formyl-N1-(5-phospho-beta-D-ribosyl)glycinamide + H+ -> an N10-formyl-tetrahydrofolate + N1-(5-phospho-beta-D-ribosyl)glycinamide *\ - \* r785a, a 5,10-methylene-tetrahydrofolate + 3-methyl-2-oxobutanoate + H2O -> 2-dehydropantoate + a tetrahydrofolate *\ - \* r785b, 2-dehydropantoate + a tetrahydrofolate -> a 5,10-methylene-tetrahydrofolate + 3-methyl-2-oxobutanoate + H2O *\ - \* r801, L-homocysteine + an N5-methyl-tetrahydrofolate -> L-methionine + a tetrahydrofolate *\ - \* r902, a 7,8-dihydrofolate + NADPH + H+ -> a tetrahydrofolate + NADP+ *\ - \* r1108a, L-serine + a tetrahydrofolate -> glycine + a 5,10-methylene-tetrahydrofolate + H2O *\ - \* r1108b, glycine + a 5,10-methylene-tetrahydrofolate + H2O -> L-serine + a tetrahydrofolate *\ - \* r1328, an N10-formyl-tetrahydrofolate + H2O -> a tetrahydrofolate + formate + H+ *\ - \* r1516, glycine + a tetrahydrofolate + NAD+ -> a 5,10-methylene-tetrahydrofolate + ammonium + CO2 + NADH *\ - \* r1567, formaldehyde + a tetrahydrofolate -> a 5,10-methylene-tetrahydrofolate + H2O *\ - \* r1872a, an N10-formyl-tetrahydrofolate + 5-amino-1-(5-phospho-D-ribosyl)imidazole-4-carboxamide -> a tetrahydrofolate + 5-formamido-1-(5-phospho-D-ribosyl)-imidazole-4-carboxamide *\ - \* r1872b, a tetrahydrofolate + 5-formamido-1-(5-phospho-D-ribosyl)-imidazole-4-carboxamide -> an N10-formyl-tetrahydrofolate + 5-amino-1-(5-phospho-D-ribosyl)imidazole-4-carboxamide *\ - \* r2250, an N10-formyl-tetrahydrofolate + an L-methionyl-[initiator tRNAmet] -> a tetrahydrofolate + an N-formyl-L-methionyl-[initiator tRNAmet] *\ - \* objReactionName, tetrahydropteroyl mono-L-glutamate *\ - - + r748a -1.0 r748b + r785a -1.0 r785b + r801 + r902 -1.0 r1108a + r1108b + r1328 -1.0 r1516 -1.0 r1567 + r1872a -1.0 r1872b + r2250 -0.000207 objReactionName = 0 - -c1288: \* C1[CCO-CYTOSOL] *\ - \* r1707, UDP-N-acetyl-alpha-D-muramoyl-L-alanyl-gamma-D-glutamyl-meso-2,6-diaminopimeloyl-D-alanyl-D-alanine + di-trans,octa-cis-undecaprenyl phosphate -> undecaprenyldiphospho-N-acetylmuramoyl-L-alanyl-gamma-D-glutamyl-meso-2,6-diaminopimeloyl-D-alanyl-D-alanine + UMP *\ - \* r922, D-alanyl-D-alanine + UDP-N-acetyl-alpha-D-muramoyl-L-alanyl-gamma-D-glutamyl-meso-2,6-diaminopimelate + ATP -> UDP-N-acetyl-alpha-D-muramoyl-L-alanyl-gamma-D-glutamyl-meso-2,6-diaminopimeloyl-D-alanyl-D-alanine + ADP + phosphate + H+ *\ - - -1.0 r1707 + r922 = 0 - -c1412: \* DELTA1-PIPERIDEINE-2-6-DICARBOXYLATE[CCO-CYTOSOL] *\ - \* r1792b, L-alpha-amino-epsilon-keto-pimelate -> (S)-2,3,4,5-tetrahydrodipicolinate + H+ + H2O *\ - \* r1792a, (S)-2,3,4,5-tetrahydrodipicolinate + H+ + H2O -> L-alpha-amino-epsilon-keto-pimelate *\ - \* r1249, (2S,4S)-4-hydroxy-2,3,4,5-tetrahydrodipicolinate + NADPH + H+ -> (S)-2,3,4,5-tetrahydrodipicolinate + NADP+ + H2O *\ - \* r1068, (S)-2,3,4,5-tetrahydrodipicolinate + succinyl-CoA + H2O -> N-succinyl-2-amino-6-ketopimelate + coenzyme A *\ - - + r1792b -1.0 r1792a + r1249 -1.0 r1068 = 0 - -c779: \* DEOXYINOSINE[CCO-CYTOSOL] *\ - \* r1923, a 2'-deoxyribonucleoside 5'-monophosphate + H2O -> a 2'-deoxynucleoside + phosphate *\ - \* r1401b, hypoxanthine + 2-deoxy-alpha-D-ribose 1-phosphate -> 2'-deoxyinosine + phosphate *\ - \* r1401a, 2'-deoxyinosine + phosphate -> hypoxanthine + 2-deoxy-alpha-D-ribose 1-phosphate *\ - \* r1369, 2'-deoxyadenosine + H+ + H2O -> ammonium + 2'-deoxyinosine *\ - \* r599, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r494, 2'-deoxyinosine[periplasmic space] + H+[periplasmic space] -> 2'-deoxyinosine[cytosol] + H+[cytosol] *\ - - + r1923 + r1401b -1.0 r1401a + r1369 + r599 + r494 = 0 - -c116: \* GUANOSINE[CCO-PERI-BAC] *\ - \* r2171, GMP + H2O -> guanosine + phosphate *\ - \* r2143, a nucleoside 5'-monophosphate[periplasmic space] + H2O[periplasmic space] -> a nucleoside[periplasmic space] + phosphate[periplasmic space] *\ - \* r980, a ribonucleoside 5'-monophosphate + H2O -> a ribonucleoside + phosphate *\ - \* r617, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r541, guanosine[cytosol] + H+[periplasmic space] -> guanosine[periplasmic space] + H+[cytosol] *\ - \* r57, a nucleoside[extracellular space] -> a nucleoside[periplasmic space] *\ - - + r2171 + r2143 + r980 -1.0 r617 + r541 + r57 = 0 - -c409: \* PUTRESCINE[CCO-CYTOSOL] *\ - \* objReactionName, putrescine *\ - \* r2420b, L-glutamate + 1-pyrroline + H2O -> putrescine + 2-oxoglutarate *\ - \* r2420a, putrescine + 2-oxoglutarate -> L-glutamate + 1-pyrroline + H2O *\ - \* r2079, L-ornithine + H+ -> CO2 + putrescine *\ - \* r1808, putrescine + 2-oxoglutarate -> 4-aminobutanal + L-glutamate *\ - \* r1406b, an aliphatic omega-aminoaldehyde + L-glutamate -> an aliphatic alpha,omega-diamine + 2-oxoglutarate *\ - \* r1406a, an aliphatic alpha,omega-diamine + 2-oxoglutarate -> an aliphatic omega-aminoaldehyde + L-glutamate *\ - \* r1283, agmatine + H2O -> urea + putrescine *\ - \* r918, putrescine + L-glutamate + ATP -> gamma-glutamyl-L-putrescine + ADP + phosphate + H+ *\ - \* r900, putrescine + S-adenosyl 3-(methylthio)propylamine -> spermidine + S-methyl-5'-thioadenosine + H+ *\ - \* r512, putrescine[periplasmic space] + H+[periplasmic space] -> putrescine[cytosol] + H+[cytosol] *\ - \* r501, putrescine[cytosol] + L-ornithine[periplasmic space] -> putrescine[periplasmic space] + L-ornithine[cytosol] *\ - \* r207, ATP + putrescine[periplasmic space] + H2O -> ADP + putrescine[cytosol] + phosphate + H+ *\ - - -0.03327 objReactionName + r2420b -1.0 r2420a + r2079 -1.0 r1808 + r1406b -1.0 r1406a + r1283 -1.0 r918 -1.0 r900 + r512 -1.0 r501 + r207 = 0 - -c280: \* MALTOTRIOSE[CCO-CYTOSOL] *\ - \* r1291, maltotriose + maltose -> maltotetraose + D-glucopyranose *\ - \* r1437, maltotriose + H2O -> maltose + D-glucopyranose *\ - \* r1946a, maltotetraose + phosphate -> maltotriose + alpha-D-glucose 1-phosphate *\ - \* r1946b, maltotriose + alpha-D-glucose 1-phosphate -> maltotetraose + phosphate *\ - - -1.0 r1291 -1.0 r1437 + r1946a -1.0 r1946b = 0 - -c1646: \* TRP-tRNAs[CCO-CYTOSOL] *\ - \* objReactionName, a tRNAtrp *\ - \* r1329, L-tryptophan + a tRNAtrp + ATP + H+ -> an L-tryptophanyl-[tRNAtrp] + AMP + diphosphate *\ - - +0.055234 objReactionName -1.0 r1329 = 0 - -c1355: \* L-XYLULOSE[CCO-CYTOSOL] *\ - \* r2153, L-xylulose + ATP -> L-xylulose -5-phosphate + ADP + H+ *\ - \* r991b, L-xylulose -> beta-L-lyxopyranose *\ - \* r991a, beta-L-lyxopyranose -> L-xylulose *\ - - -1.0 r2153 -1.0 r991b + r991a = 0 - -c1408: \* Sulfurylated-ThiI[CCO-CYTOSOL] *\ - \* r2412b, an S-sulfanyl-[ThiI sulfur-carrier protein] + L-alanine -> a ThiI sulfur-carrier protein + L-cysteine *\ - \* r2412a, a ThiI sulfur-carrier protein + L-cysteine -> an S-sulfanyl-[ThiI sulfur-carrier protein] + L-alanine *\ - \* r1959, an [L-cysteine desulfurase] L-cysteine persulfide + a ThiI sulfur-carrier protein -> an [L-cysteine desulfurase]-L-cysteine + an S-sulfanyl-[ThiI sulfur-carrier protein] *\ - \* r1063, an S-sulfanyl-[ThiI sulfur-carrier protein] + a carboxy-adenylated-[ThiS sulfur-carrier protein] + 2 a reduced ferredoxin -> a thiocarboxy-[ThiS-Protein] + a ThiI sulfur-carrier protein + AMP + 2 an oxidized ferredoxin *\ - - -1.0 r2412b + r2412a + r1959 -1.0 r1063 = 0 - -c21: \* NI+2[CCO-PERI-BAC] *\ - \* r2462_e, Ni2+ *\ - \* r379, Ni2+[cytosol] -> Ni2+[periplasmic space] *\ - \* r155, Ni2+[periplasmic space] + ATP + H2O -> Ni2+[cytosol] + ADP + phosphate + H+ *\ - \* r12, Ni2+[periplasmic space] -> Ni2+[cytosol] *\ - - + r2462_e + r379 -1.0 r155 -1.0 r12 = 0 - -c1969: \* ETF-Reduced[CCO-CYTOSOL] *\ - \* r1900b, 3-methylcrotonyl-CoA + a reduced electron-transfer flavoprotein -> isovaleryl-CoA + an oxidized electron-transfer flavoprotein + H+ *\ - \* r1900a, isovaleryl-CoA + an oxidized electron-transfer flavoprotein + H+ -> 3-methylcrotonyl-CoA + a reduced electron-transfer flavoprotein *\ - \* r1784, a 2,3,4-saturated fatty acyl CoA + an oxidized electron-transfer flavoprotein + H+ -> a trans-2-enoyl-CoA + a reduced electron-transfer flavoprotein *\ - \* r1783, a 2,3,4-saturated fatty acyl CoA + an oxidized electron-transfer flavoprotein + H+ -> a trans-2-enoyl-CoA + a reduced electron-transfer flavoprotein *\ - \* r1782, a 2,3,4-saturated fatty acyl CoA + an oxidized electron-transfer flavoprotein + H+ -> a trans-2-enoyl-CoA + a reduced electron-transfer flavoprotein *\ - \* r1781, a 2,3,4-saturated fatty acyl CoA + an oxidized electron-transfer flavoprotein + H+ -> a trans-2-enoyl-CoA + a reduced electron-transfer flavoprotein *\ - \* r1780, a 2,3,4-saturated fatty acyl CoA + an oxidized electron-transfer flavoprotein + H+ -> a trans-2-enoyl-CoA + a reduced electron-transfer flavoprotein *\ - \* r1779, a 2,3,4-saturated fatty acyl CoA + an oxidized electron-transfer flavoprotein + H+ -> a trans-2-enoyl-CoA + a reduced electron-transfer flavoprotein *\ - \* r1778, a 2,3,4-saturated fatty acyl CoA + an oxidized electron-transfer flavoprotein + H+ -> a trans-2-enoyl-CoA + a reduced electron-transfer flavoprotein *\ - \* r1777, a 2,3,4-saturated fatty acyl CoA + an oxidized electron-transfer flavoprotein + H+ -> a trans-2-enoyl-CoA + a reduced electron-transfer flavoprotein *\ - \* r1776, a 2,3,4-saturated fatty acyl CoA + an oxidized electron-transfer flavoprotein + H+ -> a trans-2-enoyl-CoA + a reduced electron-transfer flavoprotein *\ - - -1.0 r1900b + r1900a + r1784 + r1783 + r1782 + r1781 + r1780 + r1779 + r1778 + r1777 + r1776 = 0 - -c1827: \* OCTANOL[CCO-CYTOSOL] *\ - \* r1563b, an aldehyde + NADH + H+ -> a primary alcohol + NAD+ *\ - \* r1563a, a primary alcohol + NAD+ -> an aldehyde + NADH + H+ *\ - - + r1563b -1.0 r1563a = 0 - -c1715: \* POLYMER-INST-CIS-DELTA3-ENOYL-COA-C12-H24[CCO-CYTOSOL] *\ - \* r1418b, a trans-2-enoyl-CoA -> a cis-3-enoyl-CoA *\ - \* r1418a, a cis-3-enoyl-CoA -> a trans-2-enoyl-CoA *\ - - + r1418b -1.0 r1418a = 0 - -c2215: \* ASP-tRNAs[CCO-CYTOSOL] *\ - \* objReactionName, tRNAasp *\ - \* r2378, tRNAasp + L-aspartate + ATP + H+ -> L-aspartyl-tRNAasp + AMP + diphosphate *\ - - +0.234232 objReactionName -1.0 r2378 = 0 - -c1724: \* D-XYLULOSE[CCO-CYTOSOL] *\ - \* r2032, D-xylulose + ATP -> D-xylulose 5-phosphate + ADP + H+ *\ - \* r1432b, D-xylulose -> a D-xylopyranose *\ - \* r1432a, a D-xylopyranose -> D-xylulose *\ - - -1.0 r2032 -1.0 r1432b + r1432a = 0 - -c101: \* CPD0-1322[CCO-EXTRACELLULAR] *\ - \* r50, a nucleoside[extracellular space] -> a nucleoside[periplasmic space] *\ - - -1.0 r50 = 0 - -c1563: \* IMIDAZOLE-ACETOL-P[CCO-CYTOSOL] *\ - \* r1258, D-erythro-imidazole-glycerol-phosphate -> imidazole acetol-phosphate + H2O *\ - \* r1254, imidazole acetol-phosphate + L-glutamate -> L-histidinol-phosphate + 2-oxoglutarate *\ - - + r1258 -1.0 r1254 = 0 - -c438: \* GLC[CCO-PERI-BAC] *\ - \* r221, HPr-Phis15 + beta-D-glucose[periplasmic space] -> beta-D-glucose 6-phosphate[cytosol] + HPr *\ - \* r496, D-glucopyranose[periplasmic space] + H+[periplasmic space] -> D-glucopyranose[cytosol] + H+[cytosol] *\ - \* r2450_e, beta-D-glucose *\ - - -1.0 r221 -1.0 r496 + r2450_e = 0 - -c95: \* CPD0-1320[CCO-EXTRACELLULAR] *\ - \* r47, a nucleoside[extracellular space] -> a nucleoside[periplasmic space] *\ - - -1.0 r47 = 0 - -c486: \* CPD-17530[CCO-EXTRACELLULAR] *\ - \* r254, a lipopolysaccharide[cytosol] -> a lipopolysaccharide[extracellular space] *\ - - + r254 = 0 - -c91: \* CPD0-1321[CCO-EXTRACELLULAR] *\ - \* r45, a nucleoside[extracellular space] -> a nucleoside[periplasmic space] *\ - - -1.0 r45 = 0 - -c943: \* BETAINE-ALDEHYDE-HYDRATE[CCO-CYTOSOL] *\ - \* r684b, betaine aldehyde + H2O -> betaine aldehyde hydrate *\ - \* r684a, betaine aldehyde hydrate -> betaine aldehyde + H2O *\ - - + r684b -1.0 r684a = 0 - -c1396: \* ISOBUTANOL[CCO-CYTOSOL] *\ - \* r1044b, isobutanal + NADPH + H+ -> isobutanol + NADP+ *\ - \* r1044a, isobutanol + NADP+ -> isobutanal + NADPH + H+ *\ - - + r1044b -1.0 r1044a = 0 - -c2168: \* UNDECAPRENYL-DIPHOSPHATE[CCO-PERI-BAC] *\ - \* r2487_e, di-trans,octa-cis-undecaprenyl diphosphate *\ - \* r2235, 2 ditrans,octacis-undecaprenyldiphospho-N-acetyl-(N-acetylglucosaminyl)muramoyl-L-alanyl-gamma-D-glutamyl-meso-2,6-diaminopimeloyl-D-alanyl-D-alanine[periplasmic space] -> a peptidoglycan dimer (meso-diaminopimelate containing)[periplasmic space] + di-trans,octa-cis-undecaprenyl diphosphate[periplasmic space] + H+[periplasmic space] *\ - - -1.0 r2487_e + r2235 = 0 - -c1798: \* 3-DEOXY-D-ARABINO-HEPTULOSONATE-7-P[CCO-CYTOSOL] *\ - \* r2098, phosphoenolpyruvate + D-erythrose 4-phosphate + H2O -> 3-deoxy-D-arabino-heptulosonate-7-phosphate + phosphate *\ - \* r1535, 3-deoxy-D-arabino-heptulosonate-7-phosphate -> 3-dehydroquinate + phosphate *\ - - + r2098 -1.0 r1535 = 0 - -c999: \* GAP[CCO-CYTOSOL] *\ - \* r2422b, beta-D-fructofuranose 6-phosphate + D-erythrose 4-phosphate -> D-glyceraldehyde 3-phosphate + D-sedoheptulose 7-phosphate *\ - \* r2422a, D-glyceraldehyde 3-phosphate + D-sedoheptulose 7-phosphate -> beta-D-fructofuranose 6-phosphate + D-erythrose 4-phosphate *\ - \* r1912, pyruvate + D-glyceraldehyde 3-phosphate + H+ -> CO2 + 1-deoxy-D-xylulose 5-phosphate *\ - \* r1827, (1S,2R)-1-C-(indol-3-yl)glycerol 3-phosphate + L-serine -> L-tryptophan + D-glyceraldehyde 3-phosphate + H2O *\ - \* r1809b, D-glyceraldehyde 3-phosphate + pyruvate -> 2-dehydro-3-deoxy-D-galactonate 6-phosphate *\ - \* r1809a, 2-dehydro-3-deoxy-D-galactonate 6-phosphate -> D-glyceraldehyde 3-phosphate + pyruvate *\ - \* r1599b, glycerone phosphate + D-glyceraldehyde 3-phosphate -> fructose 1,6-bisphosphate *\ - \* r1599a, fructose 1,6-bisphosphate -> glycerone phosphate + D-glyceraldehyde 3-phosphate *\ - \* r1499b, glycerone phosphate + D-glyceraldehyde 3-phosphate -> D-tagatofuranose 1,6-bisphosphate *\ - \* r1499a, D-tagatofuranose 1,6-bisphosphate -> glycerone phosphate + D-glyceraldehyde 3-phosphate *\ - \* r1493b, acetaldehyde + D-glyceraldehyde 3-phosphate -> 2-deoxy-D-ribose 5-phosphate *\ - \* r1493a, 2-deoxy-D-ribose 5-phosphate -> acetaldehyde + D-glyceraldehyde 3-phosphate *\ - \* r1443b, beta-D-fructofuranose 6-phosphate + D-glyceraldehyde 3-phosphate -> D-erythrose 4-phosphate + D-xylulose 5-phosphate *\ - \* r1443a, D-erythrose 4-phosphate + D-xylulose 5-phosphate -> beta-D-fructofuranose 6-phosphate + D-glyceraldehyde 3-phosphate *\ - \* r1428b, 1,3-bisphospho-D-glycerate + NADH + H+ -> D-glyceraldehyde 3-phosphate + NAD+ + phosphate *\ - \* r1428a, D-glyceraldehyde 3-phosphate + NAD+ + phosphate -> 1,3-bisphospho-D-glycerate + NADH + H+ *\ - \* r1359, 2-dehydro-3-deoxy-D-gluconate 6-phosphate -> D-glyceraldehyde 3-phosphate + pyruvate *\ - \* r1341b, D-ribose 5-phosphate + D-xylulose 5-phosphate -> D-sedoheptulose 7-phosphate + D-glyceraldehyde 3-phosphate *\ - \* r1341a, D-sedoheptulose 7-phosphate + D-glyceraldehyde 3-phosphate -> D-ribose 5-phosphate + D-xylulose 5-phosphate *\ - \* r917b, glycerone phosphate -> D-glyceraldehyde 3-phosphate *\ - \* r917a, D-glyceraldehyde 3-phosphate -> glycerone phosphate *\ - \* r714b, indole + D-glyceraldehyde 3-phosphate -> (1S,2R)-1-C-(indol-3-yl)glycerol 3-phosphate *\ - \* r714a, (1S,2R)-1-C-(indol-3-yl)glycerol 3-phosphate -> indole + D-glyceraldehyde 3-phosphate *\ - - + r2422b -1.0 r2422a -1.0 r1912 + r1827 -1.0 r1809b + r1809a -1.0 r1599b + r1599a -1.0 r1499b + r1499a -1.0 r1493b + r1493a -1.0 r1443b + r1443a + r1428b -1.0 r1428a + r1359 + r1341b -1.0 r1341a - + r917b -1.0 r917a -1.0 r714b + r714a = 0 - -c596: \* SER[CCO-PERI-BAC] *\ - \* r2431, 3-phospho-L-serine + H2O -> L-serine + phosphate *\ - \* r632, Na+[periplasmic space] + L-serine[periplasmic space] -> Na+[cytosol] + L-serine[cytosol] *\ - \* r589, L-serine[periplasmic space] + H+[periplasmic space] -> L-serine[cytosol] + H+[cytosol] *\ - \* r327, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - - + r2431 -1.0 r632 -1.0 r589 + r327 = 0 - -c950: \* HSO3[CCO-CYTOSOL] *\ - \* r687b, bisulfite -> sulfite + H+ *\ - \* r687a, sulfite + H+ -> bisulfite *\ - - -1.0 r687b + r687a = 0 - -c1783: \* CPD0-1456[CCO-CYTOSOL] *\ - \* r2024, L-alanine + UDP-N-acetyl-alpha-D-muramate + ATP -> UDP-N-acetyl-alpha-D-muramoyl-L-alanine + ADP + phosphate + H+ *\ - \* r1512, D-glutamate + UDP-N-acetyl-alpha-D-muramoyl-L-alanine + ATP -> UDP-N-acetyl-alpha-D-muramoyl-L-alanyl-D-glutamate + ADP + phosphate + H+ *\ - - + r2024 -1.0 r1512 = 0 - -c1598: \* O-SUCCINYLBENZOATE[CCO-CYTOSOL] *\ - \* r2365, (1R,6R)-6-hydroxy-2-succinylcyclohexa-2,4-diene-1-carboxylate -> 2-succinylbenzoate + H2O *\ - \* r1286, ATP + 2-succinylbenzoate + coenzyme A -> AMP + 4-(2'-carboxyphenyl)-4-oxobutyryl-CoA + diphosphate *\ - - + r2365 -1.0 r1286 = 0 - -c1376: \* OROTIDINE-5-PHOSPHATE[CCO-CYTOSOL] *\ - \* r1568b, 5-phospho-alpha-D-ribose 1-diphosphate + orotate -> orotidine 5'-phosphate + diphosphate *\ - \* r1568a, orotidine 5'-phosphate + diphosphate -> 5-phospho-alpha-D-ribose 1-diphosphate + orotate *\ - \* r1024, orotidine 5'-phosphate + H+ -> CO2 + UMP *\ - - + r1568b -1.0 r1568a -1.0 r1024 = 0 - -c1354: \* D-arabinopyranose[CCO-CYTOSOL] *\ - \* r990a, D-arabinofuranose -> D-arabinopyranose *\ - \* r990b, D-arabinopyranose -> D-arabinofuranose *\ - \* r2091a, D-arabinopyranose -> D-ribulose *\ - \* r2091b, D-ribulose -> D-arabinopyranose *\ - - + r990a -1.0 r990b -1.0 r2091a + r2091b = 0 - -c354: \* CPD-10814[CCO-PERI-BAC] *\ - \* r555, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r180, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - - -1.0 r555 -1.0 r180 = 0 - -c244: \* CPD0-1068[CCO-CYTOSOL] *\ - \* r123, ATP + an alkylphosphonate[periplasmic space] + H2O -> ADP + an alkylphosphonate[cytosol] + phosphate + H+ *\ - - + r123 = 0 - -c1250: \* PROTOPORPHYRIN_IX[CCO-CYTOSOL] *\ - \* r1487b, ferroheme b + 2 H+ -> Fe2+ + protoporphyrin IX *\ - \* r1487a, Fe2+ + protoporphyrin IX -> ferroheme b + 2 H+ *\ - \* r1357, protoporphyrinogen IX + 3 a menaquinone[inner membrane] -> protoporphyrin IX + 3 a menaquinol[inner membrane] *\ - \* r888, protoporphyrinogen IX + 3 oxygen -> protoporphyrin IX + 3 hydrogen peroxide *\ - - + r1487b -1.0 r1487a + r1357 + r888 = 0 - -c1730: \* ISOCHORISMATE[CCO-CYTOSOL] *\ - \* r2053, isochorismate + H2O -> pyruvate + (2S,3S)-2,3-dihydroxy-2,3-dihydrobenzoate *\ - \* r1545b, isochorismate -> chorismate *\ - \* r1545a, chorismate -> isochorismate *\ - \* r1439, isochorismate + 2-oxoglutarate + H+ -> 2-succinyl-5-enolpyruvyl-6-hydroxy-3-cyclohexene-1-carboxylate + CO2 *\ - - -1.0 r2053 -1.0 r1545b + r1545a -1.0 r1439 = 0 - -c1085: \* CPD-622[CCO-CYTOSOL] *\ - \* r1436, (2S,3S)-2-methylcitrate -> cis-2-methylaconitate + H2O *\ - \* r767, oxaloacetate + propanoyl-CoA + H2O -> (2S,3S)-2-methylcitrate + coenzyme A + H+ *\ - - -1.0 r1436 + r767 = 0 - -c387: \* CPD-3569[CCO-CYTOSOL] *\ - \* r1570, glycyl-L-glutamate + H2O -> glycine + L-glutamate *\ - \* r571, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r196, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - - -1.0 r1570 + r571 + r196 = 0 - -c1528: \* PHOSPHORIBOSYL-CARBOXY-AMINOIMIDAZOLE[CCO-CYTOSOL] *\ - \* r1721, ATP + 5-amino-1-(5-phospho-D-ribosyl)imidazole-4-carboxylate + L-aspartate -> ADP + 5'-phosphoribosyl-4-(N-succinocarboxamide)-5-aminoimidazole + phosphate + H+ *\ - \* r1214, N5-carboxyaminoimidazole ribonucleotide -> 5-amino-1-(5-phospho-D-ribosyl)imidazole-4-carboxylate *\ - - -1.0 r1721 + r1214 = 0 - -c1405: \* Protein-L-Methionine-S-Oxides[CCO-CYTOSOL] *\ - \* r1059, a protein-L-methionine-(S)-S-oxide + a reduced thioredoxin -> a [protein]-L-methionine + an oxidized thioredoxin + H2O *\ - - -1.0 r1059 = 0 - -c11: \* MG+2[CCO-PERI-BAC] *\ - \* r2460_e, Mg2+ *\ - \* r79, Mg2+[periplasmic space] + ATP + H2O -> Mg2+[cytosol] + ADP + phosphate + H+ *\ - \* r6, Mg2+[periplasmic space] -> Mg2+[cytosol] *\ - - + r2460_e -1.0 r79 -1.0 r6 = 0 - -c859: \* CPD0-1311[CCO-CYTOSOL] *\ - \* r609, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - - + r609 = 0 - -c862: \* CPD0-1312[CCO-CYTOSOL] *\ - \* r612, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - - + r612 = 0 - -c863: \* CPD0-1319[CCO-CYTOSOL] *\ - \* r615, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - - + r615 = 0 - -c435: \* CPD-13469[CCO-CYTOSOL] *\ - \* r1372, N-acetyl-D-glucosamine 6-phosphate + H2O -> D-glucosamine 6-phosphate + acetate *\ - \* r2056a, beta-D-fructofuranose 6-phosphate + L-glutamine -> D-glucosamine 6-phosphate + L-glutamate *\ - \* r2056b, D-glucosamine 6-phosphate + L-glutamate -> beta-D-fructofuranose 6-phosphate + L-glutamine *\ - \* r2245a, D-glucosamine 1-phosphate -> D-glucosamine 6-phosphate *\ - \* r2245b, D-glucosamine 6-phosphate -> D-glucosamine 1-phosphate *\ - - + r1372 + r2056a -1.0 r2056b + r2245a -1.0 r2245b = 0 - -c452: \* PTSI-MONOMER[CCO-CYTOSOL] *\ - \* r673a, PtsI-Phis189 + HPr -> HPr-Phis15 + PtsI *\ - \* r673b, HPr-Phis15 + PtsI -> PtsI-Phis189 + HPr *\ - \* r2162a, phosphoenolpyruvate + PtsI -> pyruvate + PtsI-Phis189 *\ - \* r2162b, pyruvate + PtsI-Phis189 -> phosphoenolpyruvate + PtsI *\ - - + r673a -1.0 r673b -1.0 r2162a + r2162b = 0 - -c1337: \* MALTOPENTAOSE[CCO-CYTOSOL] *\ - \* r2236b, maltopentaose + alpha-D-glucose 1-phosphate -> maltohexaose + phosphate *\ - \* r2236a, maltohexaose + phosphate -> maltopentaose + alpha-D-glucose 1-phosphate *\ - \* r2134, maltohexaose + H2O -> maltopentaose + alpha-D-glucose *\ - \* r2050b, maltotetraose + maltose -> maltopentaose + D-glucopyranose *\ - \* r2050a, maltopentaose + D-glucopyranose -> maltotetraose + maltose *\ - \* r1540b, maltopentaose + maltose -> maltohexaose + beta-D-glucose *\ - \* r1540a, maltohexaose + beta-D-glucose -> maltopentaose + maltose *\ - \* r1131b, alpha-D-glucose 1-phosphate + maltotetraose -> maltopentaose + phosphate *\ - \* r1131a, maltopentaose + phosphate -> alpha-D-glucose 1-phosphate + maltotetraose *\ - \* r965, maltopentaose + H2O -> maltotetraose + alpha-D-glucose *\ - - -1.0 r2236b + r2236a + r2134 + r2050b -1.0 r2050a -1.0 r1540b + r1540a + r1131b -1.0 r1131a -1.0 r965 = 0 - -c155: \* ILE[CCO-PERI-BAC] *\ - \* r493, Na+[periplasmic space] + L-isoleucine[periplasmic space] -> Na+[cytosol] + L-isoleucine[cytosol] *\ - \* r336, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - \* r77, ATP + L-isoleucine[periplasmic space] + H2O -> ADP + L-isoleucine[cytosol] + phosphate + H+ *\ - - -1.0 r493 + r336 -1.0 r77 = 0 - -c597: \* L-2-AMINOPENTANOIC-ACID[CCO-CYTOSOL] *\ - \* r328, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - - -1.0 r328 = 0 - -c499: \* CPD0-932[CCO-EXTRACELLULAR] *\ - \* r267, a lipopolysaccharide[cytosol] -> a lipopolysaccharide[extracellular space] *\ - - + r267 = 0 - -c1200: \* NICOTINATE_NUCLEOTIDE[CCO-CYTOSOL] *\ - \* r842, ATP + beta-nicotinate D-ribonucleotide + H+ -> nicotinate adenine dinucleotide + diphosphate *\ - \* r1011, beta-nicotinamide D-ribonucleotide + H2O -> ammonium + beta-nicotinate D-ribonucleotide *\ - \* r1562, nicotinate + 5-phospho-alpha-D-ribose 1-diphosphate + ATP + H2O -> beta-nicotinate D-ribonucleotide + ADP + diphosphate + phosphate *\ - \* r2301, 5-phospho-alpha-D-ribose 1-diphosphate + quinolinate + 2 H+ -> beta-nicotinate D-ribonucleotide + CO2 + diphosphate *\ - - -1.0 r842 + r1011 + r1562 + r2301 = 0 - -c100: \* CPD0-1311[CCO-PERI-BAC] *\ - \* r609, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r49, a nucleoside[extracellular space] -> a nucleoside[periplasmic space] *\ - - -1.0 r609 + r49 = 0 - -c1980: \* ASN-tRNAs[CCO-CYTOSOL] *\ - \* objReactionName, tRNAasn *\ - \* r1798, tRNAasn + L-asparagine + ATP + H+ -> an L-asparaginyl-[tRNAasn] + AMP + diphosphate *\ - - +0.234232 objReactionName -1.0 r1798 = 0 - -c1603: \* R-4-PHOSPHOPANTOTHENOYL-L-CYSTEINE[CCO-CYTOSOL] *\ - \* r1793, R-4'-phosphopantothenoyl-L-cysteine + H+ -> 4'-phosphopantetheine + CO2 *\ - \* r1290, (R)-4'-phosphopantothenate + L-cysteine + CTP -> CMP + R-4'-phosphopantothenoyl-L-cysteine + diphosphate + H+ *\ - - -1.0 r1793 + r1290 = 0 - -c1496: \* CPD-15382[CCO-CYTOSOL] *\ - \* r1462b, keto-D-fructose -> aldehydo-D-mannose *\ - \* r1462a, aldehydo-D-mannose -> keto-D-fructose *\ - \* r1159, keto-D-fructose -> beta-D-fructofuranose *\ - - -1.0 r1462b + r1462a -1.0 r1159 = 0 - -c14: \* GLYCEROL[CCO-CYTOSOL] *\ - \* r7a, glycerol[periplasmic space] -> glycerol[cytosol] *\ - \* r7b, glycerol[cytosol] -> glycerol[periplasmic space] *\ - \* r1242a, glycerol + NAD+ -> dihydroxyacetone + NADH + H+ *\ - \* r1242b, dihydroxyacetone + NADH + H+ -> glycerol + NAD+ *\ - \* r1343, glycerol + ATP -> sn-glycerol 3-phosphate + ADP + H+ *\ - \* r1484, 2 an L-1-phosphatidyl-glycerol -> a cardiolipin + glycerol *\ - \* r2126, a glycerophosphodiester + H2O -> an alcohol + sn-glycerol 3-phosphate + H+ *\ - \* r2443, glycerophosphoglycerol + H2O -> glycerol + sn-glycerol 3-phosphate + H+ *\ - - + r7a -1.0 r7b -1.0 r1242a + r1242b -1.0 r1343 + r1484 + r2126 + r2443 = 0 - -c1390: \* RIBOSE-1P[CCO-CYTOSOL] *\ - \* r2073b, alpha-D-ribose-1-phosphate + adenine -> adenosine + phosphate *\ - \* r2073a, adenosine + phosphate -> alpha-D-ribose-1-phosphate + adenine *\ - \* r2000b, a purine base + alpha-D-ribose-1-phosphate -> a purine ribonucleoside + phosphate *\ - \* r2000a, a purine ribonucleoside + phosphate -> a purine base + alpha-D-ribose-1-phosphate *\ - \* r1999b, a purine base + alpha-D-ribose-1-phosphate -> a purine ribonucleoside + phosphate *\ - \* r1999a, a purine ribonucleoside + phosphate -> a purine base + alpha-D-ribose-1-phosphate *\ - \* r1998b, a purine base + alpha-D-ribose-1-phosphate -> a purine ribonucleoside + phosphate *\ - \* r1998a, a purine ribonucleoside + phosphate -> a purine base + alpha-D-ribose-1-phosphate *\ - \* r1940, xanthosine + phosphate -> alpha-D-ribose-1-phosphate + xanthine *\ - \* r1890b, 1-(beta-D ribofuranosyl)nicotinamide + phosphate -> nicotinamide + alpha-D-ribose-1-phosphate + H+ *\ - \* r1890a, nicotinamide + alpha-D-ribose-1-phosphate + H+ -> 1-(beta-D ribofuranosyl)nicotinamide + phosphate *\ - \* r1754b, alpha-D-ribose-1-phosphate + guanine -> guanosine + phosphate *\ - \* r1754a, guanosine + phosphate -> alpha-D-ribose-1-phosphate + guanine *\ - \* r1582, alpha-D-ribose-1-phosphate + ATP -> alpha-D-ribose 1,5-bisphosphate + ADP + H+ *\ - \* r1356b, alpha-D-ribose-1-phosphate + hypoxanthine -> inosine + phosphate *\ - \* r1356a, inosine + phosphate -> alpha-D-ribose-1-phosphate + hypoxanthine *\ - \* r1238b, alpha-D-ribose-1-phosphate + uracil -> uridine + phosphate *\ - \* r1238a, uridine + phosphate -> alpha-D-ribose-1-phosphate + uracil *\ - \* r1040b, D-ribose 5-phosphate -> alpha-D-ribose-1-phosphate *\ - \* r1040a, alpha-D-ribose-1-phosphate -> D-ribose 5-phosphate *\ - - -1.0 r2073b + r2073a -1.0 r2000b + r2000a -1.0 r1999b + r1999a -1.0 r1998b + r1998a + r1940 + r1890b -1.0 r1890a -1.0 r1754b + r1754a -1.0 r1582 -1.0 r1356b + r1356a -1.0 r1238b + r1238a + r1040b - -1.0 r1040a = 0 - -c1725: \* 4-PHOSPHONOOXY-THREONINE[CCO-CYTOSOL] *\ - \* r1869, 4-hydroxy-L-threonine + ATP -> 4-phospho-hydroxy-L-threonine + ADP + H+ *\ - \* r1715b, 4-phospho-hydroxy-L-threonine + 2-oxoglutarate -> 2-oxo-3-hydroxy-4-phosphobutanoate + L-glutamate *\ - \* r1715a, 2-oxo-3-hydroxy-4-phosphobutanoate + L-glutamate -> 4-phospho-hydroxy-L-threonine + 2-oxoglutarate *\ - \* r1433, 4-phospho-hydroxy-L-threonine + NAD+ -> (2S)-2-amino-3-oxo-4-phosphonooxybutanoate + NADH + H+ *\ - - + r1869 -1.0 r1715b + r1715a -1.0 r1433 = 0 - -c143: \* CPD-8260[CCO-PERI-BAC] *\ - \* r71, a glycerophosphodiester[periplasmic space] + ATP + H2O -> a glycerophosphodiester[cytosol] + ADP + phosphate + H+ *\ - - -1.0 r71 = 0 - -c243: \* CPD0-1068[CCO-PERI-BAC] *\ - \* r123, ATP + an alkylphosphonate[periplasmic space] + H2O -> ADP + an alkylphosphonate[cytosol] + phosphate + H+ *\ - - -1.0 r123 = 0 - -c1918: \* C5[CCO-CYTOSOL] *\ - \* r2160b, ditrans,octacis-undecaprenyldiphospho-N-acetyl-(N-acetylglucosaminyl)muramoyl-L-alanyl-gamma-D-glutamyl-meso-2,6-diaminopimeloyl-D-alanyl-D-alanine + UDP + H+ -> undecaprenyldiphospho-N-acetylmuramoyl-L-alanyl-gamma-D-glutamyl-meso-2,6-diaminopimeloyl-D-alanyl-D-alanine + UDP-N-acetyl-alpha-D-glucosamine *\ - \* r2160a, undecaprenyldiphospho-N-acetylmuramoyl-L-alanyl-gamma-D-glutamyl-meso-2,6-diaminopimeloyl-D-alanyl-D-alanine + UDP-N-acetyl-alpha-D-glucosamine -> ditrans,octacis-undecaprenyldiphospho-N-acetyl-(N-acetylglucosaminyl)muramoyl-L-alanyl-gamma-D-glutamyl-meso-2,6-diaminopimeloyl-D-alanyl-D-alanine + UDP + H+ *\ - \* r1855, a peptidoglycan + H2O -> a N-acetylmuramoyl-pentapeptide-diphosphoundecaprenol + N-acetyl-D-glucosamine *\ - \* r1707, UDP-N-acetyl-alpha-D-muramoyl-L-alanyl-gamma-D-glutamyl-meso-2,6-diaminopimeloyl-D-alanyl-D-alanine + di-trans,octa-cis-undecaprenyl phosphate -> undecaprenyldiphospho-N-acetylmuramoyl-L-alanyl-gamma-D-glutamyl-meso-2,6-diaminopimeloyl-D-alanyl-D-alanine + UMP *\ - - + r2160b -1.0 r2160a + r1855 + r1707 = 0 - -c836: \* CPD-15633[CCO-CYTOSOL] *\ - \* r2427b, D-tagaturonate -> aldehydo-D-galacturonate *\ - \* r2427a, aldehydo-D-galacturonate -> D-tagaturonate *\ - \* r2058b, aldehydo-D-galacturonate -> D-galactopyranuronate *\ - \* r2058a, D-galactopyranuronate -> aldehydo-D-galacturonate *\ - \* r581, D-galacturonate[periplasmic space] + H+[periplasmic space] -> D-galacturonate[cytosol] + H+[cytosol] *\ - - + r2427b -1.0 r2427a -1.0 r2058b + r2058a + r581 = 0 - -c1232: \* PHOSPHORIBOSYL-ATP[CCO-CYTOSOL] *\ - \* r1957, 1-(5-phospho-beta-D-ribosyl)-ATP + H2O -> 1-(5-phospho-beta-D-ribosyl)-AMP + diphosphate + 2 H+ *\ - \* r876b, ATP + 5-phospho-alpha-D-ribose 1-diphosphate + H+ -> 1-(5-phospho-beta-D-ribosyl)-ATP + diphosphate *\ - \* r876a, 1-(5-phospho-beta-D-ribosyl)-ATP + diphosphate -> ATP + 5-phospho-alpha-D-ribose 1-diphosphate + H+ *\ - - -1.0 r1957 + r876b -1.0 r876a = 0 - -c112: \* CPD0-1319[CCO-PERI-BAC] *\ - \* r615, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r55, a nucleoside[extracellular space] -> a nucleoside[periplasmic space] *\ - - -1.0 r615 + r55 = 0 - -c1370: \* RIBOSE-15-BISPHOSPHATE[CCO-CYTOSOL] *\ - \* r1582, alpha-D-ribose-1-phosphate + ATP -> alpha-D-ribose 1,5-bisphosphate + ADP + H+ *\ - \* r2089, alpha-D-ribose 1,5-bisphosphate + ATP -> 5-phospho-alpha-D-ribose 1-diphosphate + ADP *\ - - + r1582 -1.0 r2089 = 0 - -c259: \* LEU[CCO-PERI-BAC] *\ - \* r433, L-leucine[cytosol] + H+[periplasmic space] -> L-leucine[periplasmic space] + H+[cytosol] *\ - \* r414, Na+[periplasmic space] + L-leucine[periplasmic space] -> Na+[cytosol] + L-leucine[cytosol] *\ - \* r323, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - \* r131, ATP + L-leucine[periplasmic space] + H2O -> ADP + L-leucine[cytosol] + phosphate + H+ *\ - - + r433 -1.0 r414 + r323 -1.0 r131 = 0 - -c1851: \* DTDP-RHAMNOSE[CCO-CYTOSOL] *\ - \* r2406b, dTDP-4-dehydro-6-deoxy-alpha-D-glucopyranose + NADH + H+ -> dTDP-beta-L-rhamnose + NAD+ *\ - \* r2406a, dTDP-beta-L-rhamnose + NAD+ -> dTDP-4-dehydro-6-deoxy-alpha-D-glucopyranose + NADH + H+ *\ - \* r1594, dTDP-4-dehydro-beta-L-rhamnose + NADPH + H+ -> dTDP-beta-L-rhamnose + NADP+ *\ - - + r2406b -1.0 r2406a + r1594 = 0 - -c106: \* CPD0-1312[CCO-PERI-BAC] *\ - \* r612, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r52, a nucleoside[extracellular space] -> a nucleoside[periplasmic space] *\ - - -1.0 r612 + r52 = 0 - -c1497: \* BETA-D-FRUCTOSE[CCO-CYTOSOL] *\ - \* r1159, keto-D-fructose -> beta-D-fructofuranose *\ - \* r1424, beta-D-fructofuranose + ATP -> beta-D-fructofuranose 6-phosphate + ADP + H+ *\ - - + r1159 -1.0 r1424 = 0 - -c264: \* CPD-8990[CCO-PERI-BAC] *\ - \* r134, L-methionine S-oxide[periplasmic space] + ATP + H2O -> L-methionine S-oxide[cytosol] + ADP + phosphate + H+ *\ - - -1.0 r134 = 0 - -c119: \* XANTHOSINE[CCO-EXTRACELLULAR] *\ - \* r59, a nucleoside[extracellular space] -> a nucleoside[periplasmic space] *\ - - -1.0 r59 = 0 - -c73: \* FORMATE[CCO-CYTOSOL] *\ - \* r36a, formate[cytosol] -> formate[periplasmic space] *\ - \* r36b, formate[periplasmic space] -> formate[cytosol] *\ - \* r886a, formyl-CoA + oxalate -> formate + oxalyl-CoA *\ - \* r886b, formate + oxalyl-CoA -> formyl-CoA + oxalate *\ - \* r1328, an N10-formyl-tetrahydrofolate + H2O -> a tetrahydrofolate + formate + H+ *\ - \* r1339a, formate + an oxidized hydrogenase 3 -> CO2 + a reduced hydrogenase 3 *\ - \* r1339b, CO2 + a reduced hydrogenase 3 -> formate + an oxidized hydrogenase 3 *\ - \* r1400, 5-amino-1-(5-phospho-beta-D-ribosyl)imidazole + S-adenosyl-L-methionine -> 4-amino-2-methyl-5-phosphomethylpyrimidine + 5'-deoxyadenosine + L-methionine + formate + carbon monoxide + 3 H+ *\ - \* r1457, 2-oxobutanoate + coenzyme A -> propanoyl-CoA + formate *\ - \* r1645, a [protein] N-terminal-formyl-L-methionine + H2O -> a [protein] N-terminal L-methionine + formate *\ - \* r1759, GTP + 3 H2O -> 2,5-diamino-6-(5-phospho-D-ribosylamino)pyrimidin-4(3H)-one + formate + diphosphate + 2 H+ *\ - \* r1820, D-ribulose 5-phosphate -> 1-deoxy-L-glycero-tetrulose 4-phosphate + formate + H+ *\ - \* r2027, N1-(5-phospho-beta-D-ribosyl)glycinamide + formate + ATP -> N2-formyl-N1-(5-phospho-beta-D-ribosyl)glycinamide + ADP + phosphate + H+ *\ - \* r2187, S-formylglutathione + H2O -> formate + glutathione + H+ *\ - \* r2199, formate + an unknown oxidized electron acceptor + H+ -> CO2 + an unknown reduced electron acceptor *\ - \* r2231, GTP + H2O -> formate + 7,8-dihydroneopterin 3'-triphosphate + H+ *\ - - -1.0 r36a + r36b + r886a -1.0 r886b + r1328 -1.0 r1339a + r1339b + r1400 + r1457 + r1645 + r1759 + r1820 -1.0 r2027 + r2187 -1.0 r2199 + r2231 = 0 - -c618: \* L-ALPHA-ALANINE[CCO-PERI-BAC] *\ - \* r440, L-alanine[periplasmic space] + H+[periplasmic space] -> L-alanine[cytosol] + H+[cytosol] *\ - \* r428, Na+[periplasmic space] + L-alanine[periplasmic space] -> Na+[cytosol] + L-alanine[cytosol] *\ - \* r371, L-alanine[cytosol] -> L-alanine[periplasmic space] *\ - \* r346, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - - -1.0 r440 -1.0 r428 + r371 + r346 = 0 - -c1659: \* CPD0-2472[CCO-CYTOSOL] *\ - \* r1947, NADH + H2O -> (R)-NADHX *\ - \* r1342b, (S)-NADHX -> (R)-NADHX *\ - \* r1342a, (R)-NADHX -> (S)-NADHX *\ - - + r1947 + r1342b -1.0 r1342a = 0 - -c1727: \* ADP-L-GLYCERO-D-MANNO-HEPTOSE[CCO-CYTOSOL] *\ - \* r2222, galactosyl-(glucosyl)3-(heptosyl)3-Kdo2-lipid A-bisphosphate + ADP-L-glycero-beta-D-manno-heptose -> lipid A-core + ADP + H+ *\ - \* r2151, ADP-D-glycero-beta-D-manno-heptose -> ADP-L-glycero-beta-D-manno-heptose *\ - \* r2029b, heptosyl-Kdo2-lipid IVA + ADP + H+ -> alpha-Kdo-(2->4)-alpha-Kdo-(2->6)-lipid IVA + ADP-L-glycero-beta-D-manno-heptose *\ - \* r2029a, alpha-Kdo-(2->4)-alpha-Kdo-(2->6)-lipid IVA + ADP-L-glycero-beta-D-manno-heptose -> heptosyl-Kdo2-lipid IVA + ADP + H+ *\ - \* r1523, glucosyl-(heptosyl)2-Kdo2-lipid A-phosphate + ADP-L-glycero-beta-D-manno-heptose -> glucosyl-(heptosyl)3-Kdo2-lipid A-phosphate + ADP + H+ *\ - \* r1518, heptosyl-Kdo2-lipid A + ADP-L-glycero-beta-D-manno-heptose -> (heptosyl)2-Kdo2-lipid A + ADP + H+ *\ - \* r1434, alpha-D-Kdo-(2->4)-alpha-D-Kdo-(2->6)-lipid A + ADP-L-glycero-beta-D-manno-heptose -> heptosyl-Kdo2-lipid A + ADP + H+ *\ - - -1.0 r2222 + r2151 + r2029b -1.0 r2029a -1.0 r1523 -1.0 r1518 -1.0 r1434 = 0 - -c177: \* CPD0-936[CCO-CYTOSOL] *\ - \* r2121, UDP-alpha-D-galactose + glucosyl-(heptosyl)3-Kdo2-lipid A-bisphosphate -> galactosyl-glucosyl-(heptosyl)3-Kdo2-lipid A-bisphosphate + UDP + H+ *\ - \* r1613, UDP-alpha-D-glucose + galactosyl-glucosyl-(heptosyl)3-Kdo2-lipid A-bisphosphate -> galactosyl-(glucosyl)2-(heptosyl)3-Kdo2-lipid A-bisphosphate + UDP + H+ *\ - \* r242, a lipopolysaccharide[cytosol] -> a lipopolysaccharide[extracellular space] *\ - \* r90, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - - + r2121 -1.0 r1613 -1.0 r242 -1.0 r90 = 0 - -c1556: \* CPD0-2474[CCO-CYTOSOL] *\ - \* r2331b, (S)-NADPHX -> (R)-NADPHX *\ - \* r2331a, (R)-NADPHX -> (S)-NADPHX *\ - \* r1245, (S)-NADPHX + ADP -> AMP + NADPH + phosphate + H+ *\ - - -1.0 r2331b + r2331a -1.0 r1245 = 0 - -c996: \* SIROHYDROCHLORIN[CCO-CYTOSOL] *\ - \* r2305b, sirohydrochlorin + NADH + 2 H+ -> precorrin-2 + NAD+ *\ - \* r2305a, precorrin-2 + NAD+ -> sirohydrochlorin + NADH + 2 H+ *\ - \* r713b, siroheme + 2 H+ -> sirohydrochlorin + Fe2+ *\ - \* r713a, sirohydrochlorin + Fe2+ -> siroheme + 2 H+ *\ - - -1.0 r2305b + r2305a + r713b -1.0 r713a = 0 - -c1401: \* N-5-PHOSPHORIBOSYL-ANTHRANILATE[CCO-CYTOSOL] *\ - \* r1212, N-(5-phosphoribosyl)-anthranilate -> 1-(o-carboxyphenylamino)-1'-deoxyribulose 5'-phosphate *\ - \* r1046, anthranilate + 5-phospho-alpha-D-ribose 1-diphosphate -> N-(5-phosphoribosyl)-anthranilate + diphosphate *\ - - -1.0 r1212 + r1046 = 0 - -c998: \* INDOLE-3-GLYCEROL-P[CCO-CYTOSOL] *\ - \* r1827, (1S,2R)-1-C-(indol-3-yl)glycerol 3-phosphate + L-serine -> L-tryptophan + D-glyceraldehyde 3-phosphate + H2O *\ - \* r1765, 1-(o-carboxyphenylamino)-1'-deoxyribulose 5'-phosphate + H+ -> (1S,2R)-1-C-(indol-3-yl)glycerol 3-phosphate + CO2 + H2O *\ - \* r714b, indole + D-glyceraldehyde 3-phosphate -> (1S,2R)-1-C-(indol-3-yl)glycerol 3-phosphate *\ - \* r714a, (1S,2R)-1-C-(indol-3-yl)glycerol 3-phosphate -> indole + D-glyceraldehyde 3-phosphate *\ - - -1.0 r1827 + r1765 + r714b -1.0 r714a = 0 - -c1050: \* TDP[CCO-CYTOSOL] *\ - \* r1185, a nucleoside diphosphate + ATP -> a nucleoside triphosphate + ADP *\ - \* r1228, dTMP + ATP -> dTDP + ADP *\ - \* r1732, dTDP + ATP -> dTTP + ADP *\ - \* r2270, a nucleoside diphosphate + H2O -> a nucleoside 5'-monophosphate + phosphate + H+ *\ - - -1.0 r1185 + r1228 -1.0 r1732 -1.0 r2270 = 0 - -c1063: \* UDP[CCO-CYTOSOL] *\ - \* r2351, 2,3-bis[(3R)-3-hydroxymyristoyl]-alpha-D-glucosaminyl 1-phosphate + UDP-2-N,3-O-bis[(3R)-3-hydroxytetradecanoyl]-alpha-D-glucosamine -> lipid A disaccharide + UDP + H+ *\ - \* r2323, UDP + H2O -> UMP + phosphate + H+ *\ - \* r2272, a nucleoside diphosphate + H2O -> a nucleoside 5'-monophosphate + phosphate + H+ *\ - \* r2160b, ditrans,octacis-undecaprenyldiphospho-N-acetyl-(N-acetylglucosaminyl)muramoyl-L-alanyl-gamma-D-glutamyl-meso-2,6-diaminopimeloyl-D-alanyl-D-alanine + UDP + H+ -> undecaprenyldiphospho-N-acetylmuramoyl-L-alanyl-gamma-D-glutamyl-meso-2,6-diaminopimeloyl-D-alanyl-D-alanine + UDP-N-acetyl-alpha-D-glucosamine *\ - \* r2160a, undecaprenyldiphospho-N-acetylmuramoyl-L-alanyl-gamma-D-glutamyl-meso-2,6-diaminopimeloyl-D-alanyl-D-alanine + UDP-N-acetyl-alpha-D-glucosamine -> ditrans,octacis-undecaprenyldiphospho-N-acetyl-(N-acetylglucosaminyl)muramoyl-L-alanyl-gamma-D-glutamyl-meso-2,6-diaminopimeloyl-D-alanyl-D-alanine + UDP + H+ *\ - \* r2121, UDP-alpha-D-galactose + glucosyl-(heptosyl)3-Kdo2-lipid A-bisphosphate -> galactosyl-glucosyl-(heptosyl)3-Kdo2-lipid A-bisphosphate + UDP + H+ *\ - \* r2020, UDP-alpha-D-glucose + alpha-D-glucose 6-phosphate -> UDP + alpha,alpha-trehalose 6-phosphate + H+ *\ - \* r1741, UDP + ATP -> UTP + ADP *\ - \* r1613, UDP-alpha-D-glucose + galactosyl-glucosyl-(heptosyl)3-Kdo2-lipid A-bisphosphate -> galactosyl-(glucosyl)2-(heptosyl)3-Kdo2-lipid A-bisphosphate + UDP + H+ *\ - \* r1344b, octyl beta-1,6-D-galactofuranosyl-alpha-D-glucopyranoside + UDP + H+ -> octyl alpha-D-glucopyranoside + UDP-alpha-D-galactofuranose *\ - \* r1344a, octyl alpha-D-glucopyranoside + UDP-alpha-D-galactofuranose -> octyl beta-1,6-D-galactofuranosyl-alpha-D-glucopyranoside + UDP + H+ *\ - \* r1187, a nucleoside diphosphate + ATP -> a nucleoside triphosphate + ADP *\ - \* r1097, UDP-alpha-D-glucose + galactosyl-(glucosyl)2-(heptosyl)3-Kdo2-lipid A-bisphosphate -> galactosyl-(glucosyl)3-(heptosyl)3-Kdo2-lipid A-bisphosphate + UDP + H+ *\ - \* r771, a reduced thioredoxin + a ribonucleoside diphosphate -> an oxidized thioredoxin + a 2'-deoxyribonucleoside 5'-diphosphate + H2O *\ - \* r762, UDP-alpha-D-glucose + (heptosyl)2-Kdo2-lipid A -> glucosyl-(heptosyl)2-Kdo2-lipid A + UDP + H+ *\ - \* r753, ATP + UMP -> ADP + UDP *\ - \* r749, UDP + a reduced NrdH glutaredoxin-like protein -> dUDP + an oxidized NrdH glutaredoxin-like protein + H2O *\ - - + r2351 -1.0 r2323 -1.0 r2272 -1.0 r2160b + r2160a + r2121 + r2020 -1.0 r1741 + r1613 -1.0 r1344b + r1344a -1.0 r1187 + r1097 -1.0 r771 + r762 + r753 -1.0 r749 = 0 - -c1582: \* HEXANOATE[CCO-CYTOSOL] *\ - \* r1272, a 2,3,4-saturated fatty acid + ATP + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + AMP + diphosphate *\ - \* r2067a, a 2,3,4-saturated fatty acyl CoA + acetate -> a 2,3,4-saturated fatty acid + acetyl-CoA *\ - \* r2067b, a 2,3,4-saturated fatty acid + acetyl-CoA -> a 2,3,4-saturated fatty acyl CoA + acetate *\ - \* r2256, an acyl-CoA + H2O -> a carboxylate + coenzyme A + H+ *\ - - -1.0 r1272 + r2067a -1.0 r2067b + r2256 = 0 - -c1515: \* XDP[CCO-CYTOSOL] *\ - \* r2273, a nucleoside diphosphate + H2O -> a nucleoside 5'-monophosphate + phosphate + H+ *\ - \* r2210, XTP + H2O -> XDP + phosphate + H+ *\ - \* r1188, a nucleoside diphosphate + ATP -> a nucleoside triphosphate + ADP *\ - - -1.0 r2273 + r2210 -1.0 r1188 = 0 - -c743: \* CPD-3729[CCO-PERI-BAC] *\ - \* r458, an aromatic amino acid[cytosol] -> an aromatic amino acid[periplasmic space] *\ - - + r458 = 0 - -c1989: \* DIACYLGLYCEROL[CCO-CYTOSOL] *\ - \* r1985b, a 1,2-diacyl-sn-glycerol + 7-O-[2-aminoethoxy(hydroxy)phosphoryl]-alpha-D-Kdo-(2->4)-alpha-D-Kdo-(2->6)-lipid A -> an L-1-phosphatidylethanolamine + alpha-D-Kdo-(2->4)-alpha-D-Kdo-(2->6)-lipid A *\ - \* r1985a, an L-1-phosphatidylethanolamine + alpha-D-Kdo-(2->4)-alpha-D-Kdo-(2->6)-lipid A -> a 1,2-diacyl-sn-glycerol + 7-O-[2-aminoethoxy(hydroxy)phosphoryl]-alpha-D-Kdo-(2->4)-alpha-D-Kdo-(2->6)-lipid A *\ - \* r1817b, a 1,2-diacyl-sn-glycerol 3-phosphate + ADP + H+ -> ATP + a 1,2-diacyl-sn-glycerol *\ - \* r1817a, ATP + a 1,2-diacyl-sn-glycerol -> a 1,2-diacyl-sn-glycerol 3-phosphate + ADP + H+ *\ - - -1.0 r1985b + r1985a + r1817b -1.0 r1817a = 0 - -c1265: \* DATP[CCO-CYTOSOL] *\ - \* r898, dADP + ATP -> dATP + ADP *\ - \* r1152, a nucleoside triphosphate + H2O -> a nucleoside 5'-monophosphate + diphosphate + H+ *\ - \* r1182, a nucleoside diphosphate + ATP -> a nucleoside triphosphate + ADP *\ - \* r2021, dATP + H2O -> dAMP + diphosphate + H+ *\ - \* objReactionName, dATP *\ - - + r898 -1.0 r1152 + r1182 -1.0 r2021 -0.024805 objReactionName = 0 - -c1091: \* CDP[CCO-CYTOSOL] *\ - \* r2271, a nucleoside diphosphate + H2O -> a nucleoside 5'-monophosphate + phosphate + H+ *\ - \* r2182, CDP + ATP -> CTP + ADP *\ - \* r1836, CDP + H2O -> CMP + phosphate + H+ *\ - \* r1427, ATP + CMP -> ADP + CDP *\ - \* r1239, CTP + H2O -> CDP + phosphate + H+ *\ - \* r1186, a nucleoside diphosphate + ATP -> a nucleoside triphosphate + ADP *\ - \* r1110, CDP + a reduced NrdH glutaredoxin-like protein -> dCDP + an oxidized NrdH glutaredoxin-like protein + H2O *\ - \* r772, a reduced thioredoxin + a ribonucleoside diphosphate -> an oxidized thioredoxin + a 2'-deoxyribonucleoside 5'-diphosphate + H2O *\ - - -1.0 r2271 -1.0 r2182 -1.0 r1836 + r1427 + r1239 -1.0 r1186 -1.0 r1110 -1.0 r772 = 0 - -c1150: \* CPD-15244[CCO-CYTOSOL] *\ - \* r1453b, 3-keto-5-cis-tetradecenoyl-CoA + NADH + H+ -> 3-hydroxy-5-cis-tetradecenoyl-CoA + NAD+ *\ - \* r1453a, 3-hydroxy-5-cis-tetradecenoyl-CoA + NAD+ -> 3-keto-5-cis-tetradecenoyl-CoA + NADH + H+ *\ - \* r804b, 3-keto-5-cis-tetradecenoyl-CoA + coenzyme A -> 3-cis-dodecenoyl-CoA + acetyl-CoA *\ - \* r804a, 3-cis-dodecenoyl-CoA + acetyl-CoA -> 3-keto-5-cis-tetradecenoyl-CoA + coenzyme A *\ - - -1.0 r1453b + r1453a -1.0 r804b + r804a = 0 - -c60: \* ADP[CCO-CYTOSOL] *\ - \* r2447_e, ADP *\ - \* objReactionName, ADP *\ - \* r2415, 2 ATP + L-glutamine + hydrogen carbonate + H2O -> carbamoyl-phosphate + L-glutamate + 2 ADP + phosphate + 2 H+ *\ - \* r2389, 2-dehydro-3-deoxy-D-gluconate + ATP -> 2-dehydro-3-deoxy-D-gluconate 6-phosphate + ADP + H+ *\ - \* r2387, D-fructosyl-L-lysine + ATP -> fructoselysine 6-phosphate + ADP + H+ *\ - \* r2363, ADP + (S)-NADHX -> AMP + NADH + phosphate + H+ *\ - \* r2343, ATP + UTP + ammonium -> ADP + CTP + phosphate + 2 H+ *\ - \* r2308, dUDP + ATP -> dUTP + ADP *\ - \* r2282, ATP + dCMP -> ADP + dCDP *\ - \* r2241, 5',5'''-diadenosine tetraphosphate + H2O -> 2 ADP + 2 H+ *\ - \* r2224, D-glycerate + ATP -> 3-phospho-D-glycerate + ADP + H+ *\ - \* r2222, galactosyl-(glucosyl)3-(heptosyl)3-Kdo2-lipid A-bisphosphate + ADP-L-glycero-beta-D-manno-heptose -> lipid A-core + ADP + H+ *\ - \* r2194, lipid A disaccharide + ATP -> lipid IVA + ADP + H+ *\ - \* r2186, ATP + UTP + L-glutamine + H2O -> ADP + CTP + L-glutamate + phosphate + 2 H+ *\ - \* r2182, CDP + ATP -> CTP + ADP *\ - \* r2154b, acetyl phosphate + ADP -> acetate + ATP *\ - \* r2154a, acetate + ATP -> acetyl phosphate + ADP *\ - \* r2153, L-xylulose + ATP -> L-xylulose -5-phosphate + ADP + H+ *\ - \* r2137, autoinducer 2 + ATP -> (4S)-4-hydroxy-2,3-pentanedione 5-phosphate + ADP + H+ *\ - \* r2127, ATP + a [protein]-L-tyrosine -> ADP + a [protein]-L-tyrosine phosphate + H+ *\ - \* r2115, uridine + ATP -> UMP + ADP + H+ *\ - \* r2114, GDP + ATP -> GTP + ADP *\ - \* r2111, meso-diaminopimelate + UDP-N-acetyl-alpha-D-muramoyl-L-alanyl-D-glutamate + ATP -> UDP-N-acetyl-alpha-D-muramoyl-L-alanyl-gamma-D-glutamyl-meso-2,6-diaminopimelate + ADP + phosphate + H+ *\ - \* r2101, L-glutamate + 7,8-dihydropteroate + ATP -> ADP + 7,8-dihydrofolate monoglutamate + phosphate + H+ *\ - \* r2100, L-rhamnulofuranose + ATP -> L-rhamnulose 1-phosphate + ADP + H+ *\ - \* r2097, CO2 + 7,8-diaminopelargonate + ATP -> dethiobiotin + ADP + phosphate + 3 H+ *\ - \* r2089, alpha-D-ribose 1,5-bisphosphate + ATP -> 5-phospho-alpha-D-ribose 1-diphosphate + ADP *\ - \* r2083b, ADP + phosphoenolpyruvate + H+ -> pyruvate + ATP *\ - \* r2083a, pyruvate + ATP -> ADP + phosphoenolpyruvate + H+ *\ - \* r2072b, N-acetyl-D-glucosamine 6-phosphate + ADP + H+ -> N-acetyl-beta-D-glucosamine + ATP *\ - \* r2072a, N-acetyl-beta-D-glucosamine + ATP -> N-acetyl-D-glucosamine 6-phosphate + ADP + H+ *\ - \* r2034, glucosyl-(heptosyl)2-Kdo2-lipid A + ATP -> glucosyl-(heptosyl)2-Kdo2-lipid A-phosphate + ADP + H+ *\ - \* r2032, D-xylulose + ATP -> D-xylulose 5-phosphate + ADP + H+ *\ - \* r2031, ATP + D-gluconate -> ADP + D-gluconate 6-phosphate + H+ *\ - \* r2029b, heptosyl-Kdo2-lipid IVA + ADP + H+ -> alpha-Kdo-(2->4)-alpha-Kdo-(2->6)-lipid IVA + ADP-L-glycero-beta-D-manno-heptose *\ - \* r2029a, alpha-Kdo-(2->4)-alpha-Kdo-(2->6)-lipid IVA + ADP-L-glycero-beta-D-manno-heptose -> heptosyl-Kdo2-lipid IVA + ADP + H+ *\ - \* r2027, N1-(5-phospho-beta-D-ribosyl)glycinamide + formate + ATP -> N2-formyl-N1-(5-phospho-beta-D-ribosyl)glycinamide + ADP + phosphate + H+ *\ - \* r2025, D-glycero-D-manno-heptose 7-phosphate + ATP -> D-glycero-beta-D-manno-heptose 1,7-bisphosphate + ADP + H+ *\ - \* r2024, L-alanine + UDP-N-acetyl-alpha-D-muramate + ATP -> UDP-N-acetyl-alpha-D-muramoyl-L-alanine + ADP + phosphate + H+ *\ - \* r2018, ATP + H2O -> ADP + phosphate + H+ *\ - \* r2003b, ADP + propanoyl phosphate -> ATP + propanoate *\ - \* r2003a, ATP + propanoate -> ADP + propanoyl phosphate *\ - \* r1983, N-acetyl-D-mannosamine + ATP -> N-acetyl-D-mannosamine 6-phosphate + ADP + H+ *\ - \* r1977, N-acetyl-L-glutamate + ATP -> N-acetylglutamyl-phosphate + ADP *\ - \* r1955, GMP + ATP -> GDP + ADP *\ - \* r1954, GTP + AMP -> GDP + ADP *\ - \* r1953b, adenosine thiamine triphosphate + phosphate -> thiamin diphosphate + ADP + H+ *\ - \* r1953a, thiamin diphosphate + ADP + H+ -> adenosine thiamine triphosphate + phosphate *\ - \* r1942, L-ribulose + ATP -> L-ribulose 5-phosphate + ADP + H+ *\ - \* r1896, ATP + pyridoxal -> ADP + pyridoxal 5'-phosphate + H+ *\ - \* r1892, L-glutamate + ATP + NADPH + H+ -> ADP + L-glutamate-5-semialdehyde + NADP+ + phosphate *\ - \* r1886, 3-keto-L-gulonate + ATP -> 3-keto-L-gulonate 6-phosphate + ADP + H+ *\ - \* r1876, D-allopyranose + ATP -> aldehydo-D-allose 6-phosphate + ADP + H+ *\ - \* r1869, 4-hydroxy-L-threonine + ATP -> 4-phospho-hydroxy-L-threonine + ADP + H+ *\ - \* r1863, beta-D-fructofuranose 6-phosphate + ATP -> ADP + fructose 1,6-bisphosphate + H+ *\ - \* r1846, ATP + 5-phospho-beta-D-ribosylamine + glycine -> ADP + N1-(5-phospho-beta-D-ribosyl)glycinamide + phosphate + H+ *\ - \* r1845, 2 ATP + hydrogen carbonate + ammonium -> 2 ADP + carbamoyl-phosphate + phosphate + 2 H+ *\ - \* r1844, ATP + ADP + H+ -> 5',5'''-diadenosine triphosphate + diphosphate *\ - \* r1823, 2'-deoxyuridine + ATP -> dUMP + ADP + H+ *\ - \* r1817b, a 1,2-diacyl-sn-glycerol 3-phosphate + ADP + H+ -> ATP + a 1,2-diacyl-sn-glycerol *\ - \* r1817a, ATP + a 1,2-diacyl-sn-glycerol -> a 1,2-diacyl-sn-glycerol 3-phosphate + ADP + H+ *\ - \* r1744, ATP + D-glycerate -> 2-phospho-D-glycerate + ADP + H+ *\ - \* r1741, UDP + ATP -> UTP + ADP *\ - \* r1736, ATP + N2-formyl-N1-(5-phospho-beta-D-ribosyl)glycinamide + L-glutamine + H2O -> ADP + 2-(formamido)-N1-(5-phospho-beta-D-ribosyl)acetamidine + L-glutamate + phosphate + H+ *\ - \* r1732, dTDP + ATP -> dTTP + ADP *\ - \* r1729, thiamin phosphate + ATP -> thiamin diphosphate + ADP *\ - \* r1721, ATP + 5-amino-1-(5-phospho-D-ribosyl)imidazole-4-carboxylate + L-aspartate -> ADP + 5'-phosphoribosyl-4-(N-succinocarboxamide)-5-aminoimidazole + phosphate + H+ *\ - \* r1712, 5-amino-1-(5-phospho-beta-D-ribosyl)imidazole + ATP + hydrogen carbonate -> N5-carboxyaminoimidazole ribonucleotide + ADP + phosphate + 2 H+ *\ - \* r1679, ATP + NAD+ -> ADP + NADP+ + H+ *\ - \* r1625, spermidine + glutathione + ATP -> glutathionylspermidine + ADP + phosphate + H+ *\ - \* r1595, thymidine + ATP -> dTMP + ADP + H+ *\ - \* r1588, 2 D-alanine + ATP -> D-alanyl-D-alanine + ADP + phosphate + H+ *\ - \* r1587, dGDP + ATP -> dGTP + ADP *\ - \* r1584, D-ribulose + ATP -> D-ribulose 1-phosphate + ADP + H+ *\ - \* r1582, alpha-D-ribose-1-phosphate + ATP -> alpha-D-ribose 1,5-bisphosphate + ADP + H+ *\ - \* r1581b, cyclic N6-L-threonylcarbamoyladenosine 37 in tRNA + ADP + phosphate -> N6-L-threonylcarbamoyladenine37 in tRNA + ATP *\ - \* r1581a, N6-L-threonylcarbamoyladenine37 in tRNA + ATP -> cyclic N6-L-threonylcarbamoyladenosine 37 in tRNA + ADP + phosphate *\ - \* r1562, nicotinate + 5-phospho-alpha-D-ribose 1-diphosphate + ATP + H2O -> beta-nicotinate D-ribonucleotide + ADP + diphosphate + phosphate *\ - \* r1549, an N5-formyl-tetrahydrofolate + ATP -> a 5,10-methenyltetrahydrofolate + ADP + phosphate *\ - \* r1523, glucosyl-(heptosyl)2-Kdo2-lipid A-phosphate + ADP-L-glycero-beta-D-manno-heptose -> glucosyl-(heptosyl)3-Kdo2-lipid A-phosphate + ADP + H+ *\ - \* r1518, heptosyl-Kdo2-lipid A + ADP-L-glycero-beta-D-manno-heptose -> (heptosyl)2-Kdo2-lipid A + ADP + H+ *\ - \* r1512, D-glutamate + UDP-N-acetyl-alpha-D-muramoyl-L-alanine + ATP -> UDP-N-acetyl-alpha-D-muramoyl-L-alanyl-D-glutamate + ADP + phosphate + H+ *\ - \* r1454, inosine + ATP -> IMP + ADP + H+ *\ - \* r1435, glycine + gamma-L-glutamyl-L-cysteine + ATP -> glutathione + ADP + phosphate + H+ *\ - \* r1434, alpha-D-Kdo-(2->4)-alpha-D-Kdo-(2->6)-lipid A + ADP-L-glycero-beta-D-manno-heptose -> heptosyl-Kdo2-lipid A + ADP + H+ *\ - \* r1431, beta-D-glucose + ATP -> beta-D-glucose 6-phosphate + ADP + H+ *\ - \* r1427, ATP + CMP -> ADP + CDP *\ - \* r1424, beta-D-fructofuranose + ATP -> beta-D-fructofuranose 6-phosphate + ADP + H+ *\ - \* r1408, 1-(beta-D ribofuranosyl)nicotinamide + ATP -> beta-nicotinamide D-ribonucleotide + ADP + H+ *\ - \* r1404, UDP-N-acetyl-alpha-D-muramate + L-alanyl-gamma-D-glutamyl-meso-diaminopimelate + ATP -> UDP-N-acetyl-alpha-D-muramoyl-L-alanyl-gamma-D-glutamyl-meso-2,6-diaminopimelate + ADP + phosphate + H+ *\ - \* r1403, shikimate + ATP -> shikimate 3-phosphate + ADP + H+ *\ - \* r1391, L-aspartate + ATP -> L-aspartyl-4-phosphate + ADP *\ - \* r1373, ATP + 2-(formamido)-N1-(5-phospho-beta-D-ribosyl)acetamidine -> ADP + 5-amino-1-(5-phospho-beta-D-ribosyl)imidazole + phosphate + H+ *\ - \* r1366, ATP + acetyl-CoA + hydrogen carbonate -> malonyl-CoA + ADP + phosphate + H+ *\ - \* r1365, D-mannopyranose + ATP -> alpha-D-mannose 6-phosphate + ADP + H+ *\ - \* r1349, guanosine + ATP -> GMP + ADP + H+ *\ - \* r1346, ATP + dGMP -> ADP + dGDP *\ - \* r1343, glycerol + ATP -> sn-glycerol 3-phosphate + ADP + H+ *\ - \* r1340, ammonium + L-glutamate + ATP -> L-glutamine + ADP + phosphate + H+ *\ - \* r1304, ATP + pyridoxamine -> ADP + pyridoxamine 5'-phosphate + H+ *\ - \* r1245, (S)-NADPHX + ADP -> AMP + NADPH + phosphate + H+ *\ - \* r1234, alpha-D-galactose + ATP -> alpha-D-galactose 1-phosphate + ADP + H+ *\ - \* r1228, dTMP + ATP -> dTDP + ADP *\ - \* r1223, riboflavin + ATP -> ADP + FMN + H+ *\ - \* r1190, a nucleoside diphosphate + ATP -> a nucleoside triphosphate + ADP *\ - \* r1189, a nucleoside diphosphate + ATP -> a nucleoside triphosphate + ADP *\ - \* r1188, a nucleoside diphosphate + ATP -> a nucleoside triphosphate + ADP *\ - \* r1187, a nucleoside diphosphate + ATP -> a nucleoside triphosphate + ADP *\ - \* r1186, a nucleoside diphosphate + ATP -> a nucleoside triphosphate + ADP *\ - \* r1185, a nucleoside diphosphate + ATP -> a nucleoside triphosphate + ADP *\ - \* r1184, a nucleoside diphosphate + ATP -> a nucleoside triphosphate + ADP *\ - \* r1183, a nucleoside diphosphate + ATP -> a nucleoside triphosphate + ADP *\ - \* r1182, a nucleoside diphosphate + ATP -> a nucleoside triphosphate + ADP *\ - \* r1181, a nucleoside diphosphate + ATP -> a nucleoside triphosphate + ADP *\ - \* r1177b, 3'-phosphoadenylyl-sulfate + ADP + H+ -> adenosine 5'-phosphosulfate + ATP *\ - \* r1177a, adenosine 5'-phosphosulfate + ATP -> 3'-phosphoadenylyl-sulfate + ADP + H+ *\ - \* r1062b, succinyl-CoA + ADP + phosphate -> succinate + ATP + coenzyme A *\ - \* r1062a, succinate + ATP + coenzyme A -> succinyl-CoA + ADP + phosphate *\ - \* r1054, dCDP + ATP -> dCTP + ADP *\ - \* r1036b, 1,3-bisphospho-D-glycerate + ADP -> 3-phospho-D-glycerate + ATP *\ - \* r1036a, 3-phospho-D-glycerate + ATP -> 1,3-bisphospho-D-glycerate + ADP *\ - \* r1008, AMP + ATP -> 2 ADP *\ - \* r1005, 6-deoxy-6-sulfo-D-fructose + ATP -> 6-deoxy-6-sulfo-D-fructose 1-phosphate + ADP + H+ *\ - \* r1004, D-sedoheptulose 7-phosphate + ATP -> D-sedoheptulose-1,7-bisphosphate + ADP + H+ *\ - \* r1003, ATP + acetyl-CoA + a carboxylated-biotinylated [BCCP dimer] + H2O -> malonyl-CoA + a biotinylated [BCCP dimer] + ADP + phosphate + H+ *\ - \* r969, ADP + a reduced NrdH glutaredoxin-like protein -> dADP + an oxidized NrdH glutaredoxin-like protein + H2O *\ - \* r967, L-homoserine + ATP -> O-phospho-L-homoserine + ADP + H+ *\ - \* r952, an L-1-phosphatidyl-glycerol + ATP -> an L-1-phosphatidylglycerol-phosphate + ADP + H+ *\ - \* r951, an L-1-phosphatidyl-glycerol + ATP -> an L-1-phosphatidylglycerol-phosphate + ADP + H+ *\ - \* r950, an L-1-phosphatidyl-glycerol + ATP -> an L-1-phosphatidylglycerol-phosphate + ADP + H+ *\ - \* r948, 4-(cytidine 5'-diphospho)-2-C-methyl-D-erythritol + ATP -> 2-phospho-4-(cytidine 5'-diphospho)-2-C-methyl-D-erythritol + ADP + H+ *\ - \* r938, L-glutamate + ATP -> gamma-L-glutamyl 5-phosphate + ADP *\ - \* r934, glucosyl-(heptosyl)3-Kdo2-lipid A-phosphate + ATP -> glucosyl-(heptosyl)3-Kdo2-lipid A-bisphosphate + ADP + H+ *\ - \* r922, D-alanyl-D-alanine + UDP-N-acetyl-alpha-D-muramoyl-L-alanyl-gamma-D-glutamyl-meso-2,6-diaminopimelate + ATP -> UDP-N-acetyl-alpha-D-muramoyl-L-alanyl-gamma-D-glutamyl-meso-2,6-diaminopimeloyl-D-alanyl-D-alanine + ADP + phosphate + H+ *\ - \* r921, L-fuculose + ATP -> L-fuculose 1-phosphate + ADP + H+ *\ - \* r918, putrescine + L-glutamate + ATP -> gamma-glutamyl-L-putrescine + ADP + phosphate + H+ *\ - \* r903, D-tagatofuranose 6-phosphate + ATP -> D-tagatofuranose 1,6-bisphosphate + ADP + H+ *\ - \* r898, dADP + ATP -> dATP + ADP *\ - \* r896, 3'-dephospho-CoA + ATP -> ADP + coenzyme A + H+ *\ - \* r855, oxaloacetate + ATP -> CO2 + phosphoenolpyruvate + ADP *\ - \* r770, a reduced thioredoxin + a ribonucleoside diphosphate -> an oxidized thioredoxin + a 2'-deoxyribonucleoside 5'-diphosphate + H2O *\ - \* r766, L-cysteine + L-glutamate + ATP -> gamma-L-glutamyl-L-cysteine + ADP + phosphate + H+ *\ - \* r753, ATP + UMP -> ADP + UDP *\ - \* r720, a biotinylated [BCCP dimer] + hydrogen carbonate + ATP -> a carboxylated-biotinylated [BCCP dimer] + ADP + phosphate + H+ *\ - \* r712, cytidine + ATP -> CMP + ADP + H+ *\ - \* r704, 4-amino-2-methyl-5-phosphomethylpyrimidine + ATP -> 4-amino-2-methyl-5-diphosphomethylpyrimidine + ADP *\ - \* r698, a [protein]-(L-serine/L-threonine) + ATP -> a [protein] (L-serine/L-threonine) phosphate + ADP + H+ *\ - \* r697, ATP + hydrogen carbonate + propanoyl-CoA -> ADP + (S)-methylmalonyl-CoA + phosphate + H+ *\ - \* r694, carbamoyl-phosphate + ADP + 2 H+ -> ammonium + CO2 + ATP *\ - \* r685, (R)-pantothenate + ATP -> (R)-4'-phosphopantothenate + ADP + H+ *\ - \* r482, glutathione[cytosol] + ATP + H2O -> glutathione[periplasmic space] + ADP + phosphate + H+ *\ - \* r207, ATP + putrescine[periplasmic space] + H2O -> ADP + putrescine[cytosol] + phosphate + H+ *\ - \* r198, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r197, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r196, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r195, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r194, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r193, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r192, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r191, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r190, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r189, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r188, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r187, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r186, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r185, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r184, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r183, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r182, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r181, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r180, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r179, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r177, an aminoalkylphosphonate[periplasmic space] + ATP + H2O -> an aminoalkylphosphonate[cytosol] + ADP + phosphate + H+ *\ - \* r176, an aminoalkylphosphonate[periplasmic space] + ATP + H2O -> an aminoalkylphosphonate[cytosol] + ADP + phosphate + H+ *\ - \* r175, an aminoalkylphosphonate[periplasmic space] + ATP + H2O -> an aminoalkylphosphonate[cytosol] + ADP + phosphate + H+ *\ - \* r174, an aminoalkylphosphonate[periplasmic space] + ATP + H2O -> an aminoalkylphosphonate[cytosol] + ADP + phosphate + H+ *\ - \* r170, ATP + L-histidine[periplasmic space] + H2O -> ADP + L-histidine[cytosol] + phosphate + H+ *\ - \* r168, ATP + D-xylose[periplasmic space] + H2O -> ADP + D-xylose[cytosol] + phosphate + H+ *\ - \* r167, ATP + D-xylose[periplasmic space] + H2O -> ADP + D-xylose[cytosol] + phosphate + H+ *\ - \* r166, ATP + D-xylose[periplasmic space] + H2O -> ADP + D-xylose[cytosol] + phosphate + H+ *\ - \* r157, ATP + L-valine[periplasmic space] + H2O -> ADP + L-valine[cytosol] + phosphate + H+ *\ - \* r156, ATP + L-aspartate[periplasmic space] + H2O -> L-aspartate[cytosol] + ADP + phosphate + H+ *\ - \* r155, Ni2+[periplasmic space] + ATP + H2O -> Ni2+[cytosol] + ADP + phosphate + H+ *\ - \* r154, D-allose[periplasmic space] + ATP + H2O -> D-allose[cytosol] + ADP + phosphate + H+ *\ - \* r153, (2R,4S)-2-methyl-2,3,3,4-tetrahydroxytetrahydrofuran[periplasmic space] + ATP + H2O -> (2R,4S)-2-methyl-2,3,3,4-tetrahydroxytetrahydrofuran[cytosol] + ADP + phosphate + H+ *\ - \* r151, ATP + spermidine[periplasmic space] + H2O -> ADP + spermidine[cytosol] + phosphate + H+ *\ - \* r150, Zn2+[periplasmic space] + ATP + H2O -> Zn2+[cytosol] + ADP + phosphate + H+ *\ - \* r149, Zn2+[cytosol] + ATP + H2O -> Zn2+[periplasmic space] + ADP + phosphate + H+ *\ - \* r144, ATP + phosphate[periplasmic space] + H2O -> ADP + 2 phosphate[cytosol] + H+ *\ - \* r143, sulfate[periplasmic space] + ATP + H2O -> sulfate[cytosol] + ADP + phosphate + H+ *\ - \* r140, ATP + L-glutamate[periplasmic space] + H2O -> ADP + L-glutamate[cytosol] + phosphate + H+ *\ - \* r137b, ADP + phosphate + 4 H+[out] -> ATP + 3 H+[in] + H2O *\ - \* r137a, ATP + 3 H+[in] + H2O -> ADP + phosphate + 4 H+[out] *\ - \* r136, L-cysteine[periplasmic space] + ATP + H2O -> L-cysteine[cytosol] + ADP + phosphate + H+ *\ - \* r135, L-methionine S-oxide[periplasmic space] + ATP + H2O -> L-methionine S-oxide[cytosol] + ADP + phosphate + H+ *\ - \* r134, L-methionine S-oxide[periplasmic space] + ATP + H2O -> L-methionine S-oxide[cytosol] + ADP + phosphate + H+ *\ - \* r131, ATP + L-leucine[periplasmic space] + H2O -> ADP + L-leucine[cytosol] + phosphate + H+ *\ - \* r130, Cu+[cytosol] + ATP + H2O -> Cu+[periplasmic space] + ADP + phosphate + H+ *\ - \* r129, L-cystine[periplasmic space] + ATP + H2O -> L-cystine[cytosol] + ADP + phosphate + H+ *\ - \* r128, ATP + L-arabinose[periplasmic space] + H2O -> ADP + L-arabinose[cytosol] + phosphate + H+ *\ - \* r127, ATP + L-arabinose[periplasmic space] + H2O -> ADP + L-arabinose[cytosol] + phosphate + H+ *\ - \* r126, ATP + L-arabinose[periplasmic space] + H2O -> ADP + L-arabinose[cytosol] + phosphate + H+ *\ - \* r125, ATP + L-arginine[periplasmic space] + H2O -> ADP + L-arginine[cytosol] + phosphate + H+ *\ - \* r124, ATP + L-alanyl-gamma-D-glutamyl-meso-diaminopimelate[periplasmic space] + H2O -> L-alanyl-gamma-D-glutamyl-meso-diaminopimelate[cytosol] + ADP + phosphate + H+ *\ - \* r123, ATP + an alkylphosphonate[periplasmic space] + H2O -> ADP + an alkylphosphonate[cytosol] + phosphate + H+ *\ - \* r122, ATP + an alkylphosphonate[periplasmic space] + H2O -> ADP + an alkylphosphonate[cytosol] + phosphate + H+ *\ - \* r121, ATP + an alkylphosphonate[periplasmic space] + H2O -> ADP + an alkylphosphonate[cytosol] + phosphate + H+ *\ - \* r120, ATP + L-methionine[periplasmic space] + H2O -> ADP + L-methionine[cytosol] + phosphate + H+ *\ - \* r118, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r117, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r116, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r115, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r114, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r113, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r112, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r111, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r110, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r109, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r108, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r107, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r106, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r105, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r104, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r103, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r102, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r101, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r100, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r99, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r98, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r97, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r96, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r95, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r94, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r93, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r92, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r91, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r90, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r89, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r88, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r87, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r85, ATP + L-proline[periplasmic space] + H2O -> ADP + L-proline[cytosol] + phosphate + H+ *\ - \* r83, K+[periplasmic space] + ATP + H2O -> K+[cytosol] + ADP + phosphate + H+ *\ - \* r82, ATP + L-glutamine[periplasmic space] + H2O -> ADP + L-glutamine[cytosol] + phosphate + H+ *\ - \* r81, L-lysine[periplasmic space] + ATP + H2O -> L-lysine[cytosol] + ADP + phosphate + H+ *\ - \* r79, Mg2+[periplasmic space] + ATP + H2O -> Mg2+[cytosol] + ADP + phosphate + H+ *\ - \* r77, ATP + L-isoleucine[periplasmic space] + H2O -> ADP + L-isoleucine[cytosol] + phosphate + H+ *\ - \* r75, glutathione[periplasmic space] + ATP + H2O -> glutathione[cytosol] + ADP + phosphate + H+ *\ - \* r73, a glycerophosphodiester[periplasmic space] + ATP + H2O -> a glycerophosphodiester[cytosol] + ADP + phosphate + H+ *\ - \* r72, a glycerophosphodiester[periplasmic space] + ATP + H2O -> a glycerophosphodiester[cytosol] + ADP + phosphate + H+ *\ - \* r71, a glycerophosphodiester[periplasmic space] + ATP + H2O -> a glycerophosphodiester[cytosol] + ADP + phosphate + H+ *\ - \* r70, a glycerophosphodiester[periplasmic space] + ATP + H2O -> a glycerophosphodiester[cytosol] + ADP + phosphate + H+ *\ - \* r69, a glycerophosphodiester[periplasmic space] + ATP + H2O -> a glycerophosphodiester[cytosol] + ADP + phosphate + H+ *\ - \* r68, a glycerophosphodiester[periplasmic space] + ATP + H2O -> a glycerophosphodiester[cytosol] + ADP + phosphate + H+ *\ - \* r67, a glycerophosphodiester[periplasmic space] + ATP + H2O -> a glycerophosphodiester[cytosol] + ADP + phosphate + H+ *\ - \* r65, ATP + L-ornithine[periplasmic space] + H2O -> ADP + L-ornithine[cytosol] + phosphate + H+ *\ - \* r63, L-cysteine[cytosol] + ATP + H2O -> L-cysteine[periplasmic space] + ADP + phosphate + H+ *\ - \* r35, ATP + an aliphatic sulfonate[periplasmic space] + H2O -> an aliphatic sulfonate[cytosol] + ADP + phosphate + H+ *\ - \* r34, ATP + an aliphatic sulfonate[periplasmic space] + H2O -> an aliphatic sulfonate[cytosol] + ADP + phosphate + H+ *\ - \* r33, ATP + an aliphatic sulfonate[periplasmic space] + H2O -> an aliphatic sulfonate[cytosol] + ADP + phosphate + H+ *\ - \* r32, ATP + an aliphatic sulfonate[periplasmic space] + H2O -> an aliphatic sulfonate[cytosol] + ADP + phosphate + H+ *\ - \* r31, ATP + an aliphatic sulfonate[periplasmic space] + H2O -> an aliphatic sulfonate[cytosol] + ADP + phosphate + H+ *\ - \* r30, ATP + an aliphatic sulfonate[periplasmic space] + H2O -> an aliphatic sulfonate[cytosol] + ADP + phosphate + H+ *\ - - + r2447_e +54.104187 objReactionName +2.0 r2415 + r2389 + r2387 -1.0 r2363 + r2343 + r2308 + r2282 +2.0 r2241 + r2224 + r2222 + r2194 + r2186 + r2182 -1.0 r2154b + r2154a + r2153 + r2137 - + r2127 + r2115 + r2114 + r2111 + r2101 + r2100 + r2097 + r2089 -1.0 r2083b + r2083a -1.0 r2072b + r2072a + r2034 + r2032 + r2031 -1.0 r2029b + r2029a + r2027 + r2025 + r2024 - + r2018 -1.0 r2003b + r2003a + r1983 + r1977 + r1955 + r1954 + r1953b -1.0 r1953a + r1942 + r1896 + r1892 + r1886 + r1876 + r1869 + r1863 + r1846 +2.0 r1845 -1.0 r1844 + r1823 - -1.0 r1817b + r1817a + r1744 + r1741 + r1736 + r1732 + r1729 + r1721 + r1712 + r1679 + r1625 + r1595 + r1588 + r1587 + r1584 + r1582 -1.0 r1581b + r1581a + r1562 + r1549 - + r1523 + r1518 + r1512 + r1454 + r1435 + r1434 + r1431 + r1427 + r1424 + r1408 + r1404 + r1403 + r1391 + r1373 + r1366 + r1365 + r1349 + r1346 + r1343 + r1340 - + r1304 -1.0 r1245 + r1234 + r1228 + r1223 + r1190 + r1189 + r1188 + r1187 + r1186 + r1185 + r1184 + r1183 + r1182 + r1181 -1.0 r1177b + r1177a -1.0 r1062b + r1062a + r1054 - -1.0 r1036b + r1036a +2.0 r1008 + r1005 + r1004 + r1003 -1.0 r969 + r967 + r952 + r951 + r950 + r948 + r938 + r934 + r922 + r921 + r918 + r903 + r898 + r896 - + r855 -1.0 r770 + r766 + r753 + r720 + r712 + r704 + r698 + r697 -1.0 r694 + r685 + r482 + r207 + r198 + r197 + r196 + r195 + r194 + r193 + r192 - + r191 + r190 + r189 + r188 + r187 + r186 + r185 + r184 + r183 + r182 + r181 + r180 + r179 + r177 + r176 + r175 + r174 + r170 + r168 + r167 - + r166 + r157 + r156 + r155 + r154 + r153 + r151 + r150 + r149 + r144 + r143 + r140 -1.0 r137b + r137a + r136 + r135 + r134 + r131 + r130 + r129 - + r128 + r127 + r126 + r125 + r124 + r123 + r122 + r121 + r120 + r118 + r117 + r116 + r115 + r114 + r113 + r112 + r111 + r110 + r109 + r108 - + r107 + r106 + r105 + r104 + r103 + r102 + r101 + r100 + r99 + r98 + r97 + r96 + r95 + r94 + r93 + r92 + r91 + r90 + r89 + r88 - + r87 + r85 + r83 + r82 + r81 + r79 + r77 + r75 + r73 + r72 + r71 + r70 + r69 + r68 + r67 + r65 + r63 + r35 + r34 + r33 - + r32 + r31 + r30 = 0 - -c1088: \* GDP[CCO-CYTOSOL] *\ - \* r769, a reduced thioredoxin + a ribonucleoside diphosphate -> an oxidized thioredoxin + a 2'-deoxyribonucleoside 5'-diphosphate + H2O *\ - \* r818, GDP + a reduced NrdH glutaredoxin-like protein -> dGDP + an oxidized NrdH glutaredoxin-like protein + H2O *\ - \* r1189, a nucleoside diphosphate + ATP -> a nucleoside triphosphate + ADP *\ - \* r1402, cytidine + GTP -> CMP + GDP + H+ *\ - \* r1608, uridine + GTP -> UMP + GDP + H+ *\ - \* r1638, GTP + H2O -> GDP + phosphate + H+ *\ - \* r1681, L-aspartate + IMP + GTP -> adenylo-succinate + GDP + phosphate + 2 H+ *\ - \* r1851, GDP + H2O -> GMP + phosphate + H+ *\ - \* r1954, GTP + AMP -> GDP + ADP *\ - \* r1955, GMP + ATP -> GDP + ADP *\ - \* r2114, GDP + ATP -> GTP + ADP *\ - \* r2181, ppGpp + H2O -> GDP + diphosphate + H+ *\ - \* r2208, ATP + GDP -> AMP + ppGpp *\ - \* r2274, a nucleoside diphosphate + H2O -> a nucleoside 5'-monophosphate + phosphate + H+ *\ - - -1.0 r769 -1.0 r818 -1.0 r1189 + r1402 + r1608 + r1638 + r1681 -1.0 r1851 + r1954 + r1955 -1.0 r2114 + r2181 -1.0 r2208 -1.0 r2274 = 0 - -c1086: \* IDP[CCO-CYTOSOL] *\ - \* r2275, a nucleoside diphosphate + H2O -> a nucleoside 5'-monophosphate + phosphate + H+ *\ - \* r1190, a nucleoside diphosphate + ATP -> a nucleoside triphosphate + ADP *\ - \* r1093, ITP + H2O -> IDP + phosphate + H+ *\ - \* r768, a reduced thioredoxin + a ribonucleoside diphosphate -> an oxidized thioredoxin + a 2'-deoxyribonucleoside 5'-diphosphate + H2O *\ - - -1.0 r2275 -1.0 r1190 + r1093 -1.0 r768 = 0 - -c848: \* CPD-10329[CCO-PERI-BAC] *\ - \* r595, L-fucose[periplasmic space] + H+[periplasmic space] -> L-fucose[cytosol] + H+[cytosol] *\ - - -1.0 r595 = 0 - -c1235: \* Ox-Glutaredoxins[CCO-CYTOSOL] *\ - \* r1091b, arsenite + an oxidized glutaredoxin + H2O -> arsenate + a reduced glutaredoxin + H+ *\ - \* r1091a, arsenate + a reduced glutaredoxin + H+ -> arsenite + an oxidized glutaredoxin + H2O *\ - \* r878, 2 glutathione + an oxidized glutaredoxin -> glutathione disulfide + a reduced glutaredoxin *\ - - -1.0 r1091b + r1091a -1.0 r878 = 0 - -c1310: \* RIBOFLAVIN[CCO-CYTOSOL] *\ - \* objReactionName, riboflavin *\ - \* r2036b, riboflavin + NAD(P)H + 2 H+ -> reduced riboflavin + NAD(P)+ *\ - \* r2036a, reduced riboflavin + NAD(P)+ -> riboflavin + NAD(P)H + 2 H+ *\ - \* r2035b, riboflavin + NAD(P)H + 2 H+ -> reduced riboflavin + NAD(P)+ *\ - \* r2035a, reduced riboflavin + NAD(P)+ -> riboflavin + NAD(P)H + 2 H+ *\ - \* r1727, 2 6,7-dimethyl-8-(1-D-ribityl)lumazine + H+ -> 5-amino-6-(D-ribitylamino)uracil + riboflavin *\ - \* r1282, riboflavin + NADPH + 2 H+ -> reduced riboflavin + NADP+ *\ - \* r1223, riboflavin + ATP -> ADP + FMN + H+ *\ - \* r942, FMN + H2O -> riboflavin + phosphate *\ - - -0.000205 objReactionName -1.0 r2036b + r2036a -1.0 r2035b + r2035a + r1727 -1.0 r1282 -1.0 r1223 + r942 = 0 - -c228: \* CPD0-932[CCO-PERI-BAC] *\ - \* r115, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - - + r115 = 0 - -c741: \* D-TRYPTOPHAN[CCO-PERI-BAC] *\ - \* r457, an aromatic amino acid[cytosol] -> an aromatic amino acid[periplasmic space] *\ - - + r457 = 0 - -c1117: \* METHYLENE-THF[CCO-CYTOSOL] *\ - \* objReactionName, 5,10-methylenetetrahydropteroyl mono-L-glutamate *\ - \* r1775b, a 5,10-methenyltetrahydrofolate + NADPH -> a 5,10-methylene-tetrahydrofolate + NADP+ *\ - \* r1775a, a 5,10-methylene-tetrahydrofolate + NADP+ -> a 5,10-methenyltetrahydrofolate + NADPH *\ - \* r1749, a 5,10-methylene-tetrahydrofolate + NADH + H+ -> an N5-methyl-tetrahydrofolate + NAD+ *\ - \* r1733, a 5,10-methylene-tetrahydrofolate + dUMP -> dTMP + a 7,8-dihydrofolate *\ - \* r1567, formaldehyde + a tetrahydrofolate -> a 5,10-methylene-tetrahydrofolate + H2O *\ - \* r1516, glycine + a tetrahydrofolate + NAD+ -> a 5,10-methylene-tetrahydrofolate + ammonium + CO2 + NADH *\ - \* r1108b, glycine + a 5,10-methylene-tetrahydrofolate + H2O -> L-serine + a tetrahydrofolate *\ - \* r1108a, L-serine + a tetrahydrofolate -> glycine + a 5,10-methylene-tetrahydrofolate + H2O *\ - \* r785b, 2-dehydropantoate + a tetrahydrofolate -> a 5,10-methylene-tetrahydrofolate + 3-methyl-2-oxobutanoate + H2O *\ - \* r785a, a 5,10-methylene-tetrahydrofolate + 3-methyl-2-oxobutanoate + H2O -> 2-dehydropantoate + a tetrahydrofolate *\ - - -0.000209 objReactionName + r1775b -1.0 r1775a -1.0 r1749 -1.0 r1733 + r1567 + r1516 -1.0 r1108b + r1108a + r785b -1.0 r785a = 0 - -c1331: \* STEAROYL-COA[CCO-CYTOSOL] *\ - \* r1278, a 2,3,4-saturated fatty acid + ATP + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + AMP + diphosphate *\ - \* r1783, a 2,3,4-saturated fatty acyl CoA + an oxidized electron-transfer flavoprotein + H+ -> a trans-2-enoyl-CoA + a reduced electron-transfer flavoprotein *\ - \* r1915, a 2,3,4-saturated fatty acyl CoA + NADP+ -> a trans-2-enoyl-CoA + NADPH + H+ *\ - \* r1969, a 3-oxoacyl-CoA + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + acetyl-CoA *\ - \* r2063a, a 2,3,4-saturated fatty acyl CoA + acetate -> a 2,3,4-saturated fatty acid + acetyl-CoA *\ - \* r2063b, a 2,3,4-saturated fatty acid + acetyl-CoA -> a 2,3,4-saturated fatty acyl CoA + acetate *\ - \* r2259, an acyl-CoA + H2O -> a carboxylate + coenzyme A + H+ *\ - - + r1278 -1.0 r1783 -1.0 r1915 + r1969 -1.0 r2063a + r2063b -1.0 r2259 = 0 - -c1055: \* D-ALPHABETA-D-HEPTOSE-7-PHOSPHATE[CCO-CYTOSOL] *\ - \* r2025, D-glycero-D-manno-heptose 7-phosphate + ATP -> D-glycero-beta-D-manno-heptose 1,7-bisphosphate + ADP + H+ *\ - \* r745, D-sedoheptulose 7-phosphate -> D-glycero-D-manno-heptose 7-phosphate *\ - - -1.0 r2025 + r745 = 0 - -c186: \* KDO2-LAUROYL-LIPID-IVA[CCO-PERI-BAC] *\ - \* r94, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - - + r94 = 0 - -c2113: \* TETRAHYDROTHIOPHENE[CCO-PERI-BAC] *\ - \* r2104b, tetrahydrothiophene[periplasmic space] + an unknown oxidized electron acceptor[periplasmic space] + H2O[periplasmic space] -> tetrahydrothiophene 1-oxide[periplasmic space] + an unknown reduced electron acceptor[periplasmic space] *\ - \* r2104a, tetrahydrothiophene 1-oxide[periplasmic space] + an unknown reduced electron acceptor[periplasmic space] -> tetrahydrothiophene[periplasmic space] + an unknown oxidized electron acceptor[periplasmic space] + H2O[periplasmic space] *\ - - -1.0 r2104b + r2104a = 0 - -c534: \* PYRIDOXAL[CCO-CYTOSOL] *\ - \* r1492a, pyridoxamine + oxaloacetate -> pyridoxal + L-aspartate *\ - \* r1492b, pyridoxal + L-aspartate -> pyridoxamine + oxaloacetate *\ - \* r1896, ATP + pyridoxal -> ADP + pyridoxal 5'-phosphate + H+ *\ - \* r2341, pyridoxal 5'-phosphate + H2O -> pyridoxal + phosphate *\ - - + r1492a -1.0 r1492b -1.0 r1896 + r2341 = 0 - -c830: \* CPD-14488[CCO-CYTOSOL] *\ - \* r578, D-glucuronate[periplasmic space] + H+[periplasmic space] -> D-glucuronate[cytosol] + H+[cytosol] *\ - - + r578 = 0 - -c945: \* 4-P-PANTOTHENATE[CCO-CYTOSOL] *\ - \* r1290, (R)-4'-phosphopantothenate + L-cysteine + CTP -> CMP + R-4'-phosphopantothenoyl-L-cysteine + diphosphate + H+ *\ - \* r685, (R)-pantothenate + ATP -> (R)-4'-phosphopantothenate + ADP + H+ *\ - - -1.0 r1290 + r685 = 0 - -c1487: \* TTP[CCO-CYTOSOL] *\ - \* objReactionName, dTTP *\ - \* r2197b, dTDP-alpha-D-glucose + diphosphate -> alpha-D-glucose 1-phosphate + dTTP + H+ *\ - \* r2197a, alpha-D-glucose 1-phosphate + dTTP + H+ -> dTDP-alpha-D-glucose + diphosphate *\ - \* r1835, dTTP + H2O -> dTMP + diphosphate + H+ *\ - \* r1732, dTDP + ATP -> dTTP + ADP *\ - \* r1185, a nucleoside diphosphate + ATP -> a nucleoside triphosphate + ADP *\ - \* r1150, a nucleoside triphosphate + H2O -> a nucleoside 5'-monophosphate + diphosphate + H+ *\ - - -0.024805 objReactionName + r2197b -1.0 r2197a -1.0 r1835 + r1732 + r1185 -1.0 r1150 = 0 - -c1495: \* UTP[CCO-CYTOSOL] *\ - \* objReactionName, UTP *\ - \* r2343, ATP + UTP + ammonium -> ADP + CTP + phosphate + 2 H+ *\ - \* r2186, ATP + UTP + L-glutamine + H2O -> ADP + CTP + L-glutamate + phosphate + 2 H+ *\ - \* r1871, N-acetyl-alpha-D-glucosamine 1-phosphate + UTP + H+ -> UDP-N-acetyl-alpha-D-glucosamine + diphosphate *\ - \* r1761, UTP + H2O -> UMP + diphosphate + H+ *\ - \* r1741, UDP + ATP -> UTP + ADP *\ - \* r1335, alpha-D-glucose 1-phosphate + UTP + H+ -> UDP-alpha-D-glucose + diphosphate *\ - \* r1187, a nucleoside diphosphate + ATP -> a nucleoside triphosphate + ADP *\ - \* r1157, a nucleoside triphosphate + H2O -> a nucleoside 5'-monophosphate + diphosphate + H+ *\ - - -0.140101 objReactionName -1.0 r2343 -1.0 r2186 -1.0 r1871 -1.0 r1761 + r1741 -1.0 r1335 + r1187 -1.0 r1157 = 0 - -c1274: \* O-PHOSPHO-L-HOMOSERINE[CCO-CYTOSOL] *\ - \* r967, L-homoserine + ATP -> O-phospho-L-homoserine + ADP + H+ *\ - \* r909, O-phospho-L-homoserine + H2O -> L-threonine + phosphate *\ - - + r967 -1.0 r909 = 0 - -c1600: \* ALLANTOATE[CCO-CYTOSOL] *\ - \* r2366, (S)-(+)-allantoin + H2O -> allantoate + H+ *\ - \* r1287, allantoate + 2 H+ + H2O -> S-ureidoglycine + ammonium + CO2 *\ - - + r2366 -1.0 r1287 = 0 - -c148: \* CPD0-2330[CCO-CYTOSOL] *\ - \* r2377, an L-1-phosphatidylglycerol-phosphate + H2O -> an L-1-phosphatidyl-glycerol + phosphate *\ - \* r950, an L-1-phosphatidyl-glycerol + ATP -> an L-1-phosphatidylglycerol-phosphate + ADP + H+ *\ - \* r73, a glycerophosphodiester[periplasmic space] + ATP + H2O -> a glycerophosphodiester[cytosol] + ADP + phosphate + H+ *\ - - + r2377 -1.0 r950 + r73 = 0 - -c1494: \* XTP[CCO-CYTOSOL] *\ - \* r2295, XTP + H2O -> XMP + diphosphate + H+ *\ - \* r2210, XTP + H2O -> XDP + phosphate + H+ *\ - \* r1188, a nucleoside diphosphate + ATP -> a nucleoside triphosphate + ADP *\ - \* r1156, a nucleoside triphosphate + H2O -> a nucleoside 5'-monophosphate + diphosphate + H+ *\ - - -1.0 r2295 -1.0 r2210 + r1188 -1.0 r1156 = 0 - -c1047: \* 3-oxo-hexanoyl-ACPs[CCO-CYTOSOL] *\ - \* r1137, a 3-oxoacyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxyacyl-[acyl-carrier protein] + NADP+ *\ - \* r1086, a 3-oxo-hexanoyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxyhexanoyl-[acp] + NADP+ *\ - \* r821, a malonyl-[acp] + a 2,3,4-saturated fatty acyl-[acp] + H+ -> a holo-[acyl-carrier protein] + a 3-oxoacyl-[acp] + CO2 *\ - \* r741, a butyryl-[acp] + a malonyl-[acp] + H+ -> a 3-oxo-hexanoyl-[acp] + CO2 + a holo-[acyl-carrier protein] *\ - - -1.0 r1137 -1.0 r1086 + r821 + r741 = 0 - -c2146: \* DI-H-URACIL[CCO-CYTOSOL] *\ - \* r2193b, uracil + NADH + H+ -> 5,6-dihydrouracil + NAD+ *\ - \* r2193a, 5,6-dihydrouracil + NAD+ -> uracil + NADH + H+ *\ - - + r2193b -1.0 r2193a = 0 - -c1986: \* DEHYDRO-DEOXY-GALACTONATE-PHOSPHATE[CCO-CYTOSOL] *\ - \* r1809a, 2-dehydro-3-deoxy-D-galactonate 6-phosphate -> D-glyceraldehyde 3-phosphate + pyruvate *\ - \* r1809b, D-glyceraldehyde 3-phosphate + pyruvate -> 2-dehydro-3-deoxy-D-galactonate 6-phosphate *\ - - -1.0 r1809a + r1809b = 0 - -c616: \* THR[CCO-PERI-BAC] *\ - \* r345, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - \* r435, L-threonine[periplasmic space] + H+[periplasmic space] -> L-threonine[cytosol] + H+[cytosol] *\ - \* r626, L-threonine[cytosol] + H+[periplasmic space] -> L-threonine[periplasmic space] + H+[cytosol] *\ - - + r345 -1.0 r435 + r626 = 0 - -c1038: \* CTP[CCO-CYTOSOL] *\ - \* objReactionName, CTP *\ - \* r2343, ATP + UTP + ammonium -> ADP + CTP + phosphate + 2 H+ *\ - \* r2227, 2-C-methyl-D-erythritol 4-phosphate + CTP + H+ -> 4-(cytidine 5'-diphospho)-2-C-methyl-D-erythritol + diphosphate *\ - \* r2186, ATP + UTP + L-glutamine + H2O -> ADP + CTP + L-glutamate + phosphate + 2 H+ *\ - \* r2182, CDP + ATP -> CTP + ADP *\ - \* r2092, 3-deoxy-D-manno-octulosonate + CTP -> CMP-3-deoxy-alpha-D-manno-octulosonate + diphosphate *\ - \* r1290, (R)-4'-phosphopantothenate + L-cysteine + CTP -> CMP + R-4'-phosphopantothenoyl-L-cysteine + diphosphate + H+ *\ - \* r1239, CTP + H2O -> CDP + phosphate + H+ *\ - \* r1186, a nucleoside diphosphate + ATP -> a nucleoside triphosphate + ADP *\ - \* r1158, a nucleoside triphosphate + H2O -> a nucleoside 5'-monophosphate + diphosphate + H+ *\ - \* r1042, CTP + a 1,2-diacyl-sn-glycerol 3-phosphate + H+ -> a CDP-diacylglycerol + diphosphate *\ - \* r1041, CTP + a 1,2-diacyl-sn-glycerol 3-phosphate + H+ -> a CDP-diacylglycerol + diphosphate *\ - \* r738, CTP + H2O -> CMP + diphosphate + H+ *\ - - -0.129799 objReactionName + r2343 -1.0 r2227 + r2186 + r2182 -1.0 r2092 -1.0 r1290 -1.0 r1239 + r1186 -1.0 r1158 -1.0 r1042 -1.0 r1041 -1.0 r738 = 0 - -c57: \* ATP[CCO-CYTOSOL] *\ - \* r30, ATP + an aliphatic sulfonate[periplasmic space] + H2O -> an aliphatic sulfonate[cytosol] + ADP + phosphate + H+ *\ - \* r31, ATP + an aliphatic sulfonate[periplasmic space] + H2O -> an aliphatic sulfonate[cytosol] + ADP + phosphate + H+ *\ - \* r32, ATP + an aliphatic sulfonate[periplasmic space] + H2O -> an aliphatic sulfonate[cytosol] + ADP + phosphate + H+ *\ - \* r33, ATP + an aliphatic sulfonate[periplasmic space] + H2O -> an aliphatic sulfonate[cytosol] + ADP + phosphate + H+ *\ - \* r34, ATP + an aliphatic sulfonate[periplasmic space] + H2O -> an aliphatic sulfonate[cytosol] + ADP + phosphate + H+ *\ - \* r35, ATP + an aliphatic sulfonate[periplasmic space] + H2O -> an aliphatic sulfonate[cytosol] + ADP + phosphate + H+ *\ - \* r63, L-cysteine[cytosol] + ATP + H2O -> L-cysteine[periplasmic space] + ADP + phosphate + H+ *\ - \* r65, ATP + L-ornithine[periplasmic space] + H2O -> ADP + L-ornithine[cytosol] + phosphate + H+ *\ - \* r67, a glycerophosphodiester[periplasmic space] + ATP + H2O -> a glycerophosphodiester[cytosol] + ADP + phosphate + H+ *\ - \* r68, a glycerophosphodiester[periplasmic space] + ATP + H2O -> a glycerophosphodiester[cytosol] + ADP + phosphate + H+ *\ - \* r69, a glycerophosphodiester[periplasmic space] + ATP + H2O -> a glycerophosphodiester[cytosol] + ADP + phosphate + H+ *\ - \* r70, a glycerophosphodiester[periplasmic space] + ATP + H2O -> a glycerophosphodiester[cytosol] + ADP + phosphate + H+ *\ - \* r71, a glycerophosphodiester[periplasmic space] + ATP + H2O -> a glycerophosphodiester[cytosol] + ADP + phosphate + H+ *\ - \* r72, a glycerophosphodiester[periplasmic space] + ATP + H2O -> a glycerophosphodiester[cytosol] + ADP + phosphate + H+ *\ - \* r73, a glycerophosphodiester[periplasmic space] + ATP + H2O -> a glycerophosphodiester[cytosol] + ADP + phosphate + H+ *\ - \* r75, glutathione[periplasmic space] + ATP + H2O -> glutathione[cytosol] + ADP + phosphate + H+ *\ - \* r77, ATP + L-isoleucine[periplasmic space] + H2O -> ADP + L-isoleucine[cytosol] + phosphate + H+ *\ - \* r79, Mg2+[periplasmic space] + ATP + H2O -> Mg2+[cytosol] + ADP + phosphate + H+ *\ - \* r81, L-lysine[periplasmic space] + ATP + H2O -> L-lysine[cytosol] + ADP + phosphate + H+ *\ - \* r82, ATP + L-glutamine[periplasmic space] + H2O -> ADP + L-glutamine[cytosol] + phosphate + H+ *\ - \* r83, K+[periplasmic space] + ATP + H2O -> K+[cytosol] + ADP + phosphate + H+ *\ - \* r85, ATP + L-proline[periplasmic space] + H2O -> ADP + L-proline[cytosol] + phosphate + H+ *\ - \* r87, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r88, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r89, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r90, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r91, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r92, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r93, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r94, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r95, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r96, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r97, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r98, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r99, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r100, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r101, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r102, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r103, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r104, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r105, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r106, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r107, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r108, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r109, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r110, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r111, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r112, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r113, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r114, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r115, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r116, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r117, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r118, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - \* r120, ATP + L-methionine[periplasmic space] + H2O -> ADP + L-methionine[cytosol] + phosphate + H+ *\ - \* r121, ATP + an alkylphosphonate[periplasmic space] + H2O -> ADP + an alkylphosphonate[cytosol] + phosphate + H+ *\ - \* r122, ATP + an alkylphosphonate[periplasmic space] + H2O -> ADP + an alkylphosphonate[cytosol] + phosphate + H+ *\ - \* r123, ATP + an alkylphosphonate[periplasmic space] + H2O -> ADP + an alkylphosphonate[cytosol] + phosphate + H+ *\ - \* r124, ATP + L-alanyl-gamma-D-glutamyl-meso-diaminopimelate[periplasmic space] + H2O -> L-alanyl-gamma-D-glutamyl-meso-diaminopimelate[cytosol] + ADP + phosphate + H+ *\ - \* r125, ATP + L-arginine[periplasmic space] + H2O -> ADP + L-arginine[cytosol] + phosphate + H+ *\ - \* r126, ATP + L-arabinose[periplasmic space] + H2O -> ADP + L-arabinose[cytosol] + phosphate + H+ *\ - \* r127, ATP + L-arabinose[periplasmic space] + H2O -> ADP + L-arabinose[cytosol] + phosphate + H+ *\ - \* r128, ATP + L-arabinose[periplasmic space] + H2O -> ADP + L-arabinose[cytosol] + phosphate + H+ *\ - \* r129, L-cystine[periplasmic space] + ATP + H2O -> L-cystine[cytosol] + ADP + phosphate + H+ *\ - \* r130, Cu+[cytosol] + ATP + H2O -> Cu+[periplasmic space] + ADP + phosphate + H+ *\ - \* r131, ATP + L-leucine[periplasmic space] + H2O -> ADP + L-leucine[cytosol] + phosphate + H+ *\ - \* r134, L-methionine S-oxide[periplasmic space] + ATP + H2O -> L-methionine S-oxide[cytosol] + ADP + phosphate + H+ *\ - \* r135, L-methionine S-oxide[periplasmic space] + ATP + H2O -> L-methionine S-oxide[cytosol] + ADP + phosphate + H+ *\ - \* r136, L-cysteine[periplasmic space] + ATP + H2O -> L-cysteine[cytosol] + ADP + phosphate + H+ *\ - \* r137a, ATP + 3 H+[in] + H2O -> ADP + phosphate + 4 H+[out] *\ - \* r137b, ADP + phosphate + 4 H+[out] -> ATP + 3 H+[in] + H2O *\ - \* r140, ATP + L-glutamate[periplasmic space] + H2O -> ADP + L-glutamate[cytosol] + phosphate + H+ *\ - \* r143, sulfate[periplasmic space] + ATP + H2O -> sulfate[cytosol] + ADP + phosphate + H+ *\ - \* r144, ATP + phosphate[periplasmic space] + H2O -> ADP + 2 phosphate[cytosol] + H+ *\ - \* r149, Zn2+[cytosol] + ATP + H2O -> Zn2+[periplasmic space] + ADP + phosphate + H+ *\ - \* r150, Zn2+[periplasmic space] + ATP + H2O -> Zn2+[cytosol] + ADP + phosphate + H+ *\ - \* r151, ATP + spermidine[periplasmic space] + H2O -> ADP + spermidine[cytosol] + phosphate + H+ *\ - \* r153, (2R,4S)-2-methyl-2,3,3,4-tetrahydroxytetrahydrofuran[periplasmic space] + ATP + H2O -> (2R,4S)-2-methyl-2,3,3,4-tetrahydroxytetrahydrofuran[cytosol] + ADP + phosphate + H+ *\ - \* r154, D-allose[periplasmic space] + ATP + H2O -> D-allose[cytosol] + ADP + phosphate + H+ *\ - \* r155, Ni2+[periplasmic space] + ATP + H2O -> Ni2+[cytosol] + ADP + phosphate + H+ *\ - \* r156, ATP + L-aspartate[periplasmic space] + H2O -> L-aspartate[cytosol] + ADP + phosphate + H+ *\ - \* r157, ATP + L-valine[periplasmic space] + H2O -> ADP + L-valine[cytosol] + phosphate + H+ *\ - \* r166, ATP + D-xylose[periplasmic space] + H2O -> ADP + D-xylose[cytosol] + phosphate + H+ *\ - \* r167, ATP + D-xylose[periplasmic space] + H2O -> ADP + D-xylose[cytosol] + phosphate + H+ *\ - \* r168, ATP + D-xylose[periplasmic space] + H2O -> ADP + D-xylose[cytosol] + phosphate + H+ *\ - \* r170, ATP + L-histidine[periplasmic space] + H2O -> ADP + L-histidine[cytosol] + phosphate + H+ *\ - \* r174, an aminoalkylphosphonate[periplasmic space] + ATP + H2O -> an aminoalkylphosphonate[cytosol] + ADP + phosphate + H+ *\ - \* r175, an aminoalkylphosphonate[periplasmic space] + ATP + H2O -> an aminoalkylphosphonate[cytosol] + ADP + phosphate + H+ *\ - \* r176, an aminoalkylphosphonate[periplasmic space] + ATP + H2O -> an aminoalkylphosphonate[cytosol] + ADP + phosphate + H+ *\ - \* r177, an aminoalkylphosphonate[periplasmic space] + ATP + H2O -> an aminoalkylphosphonate[cytosol] + ADP + phosphate + H+ *\ - \* r179, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r180, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r181, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r182, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r183, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r184, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r185, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r186, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r187, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r188, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r189, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r190, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r191, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r192, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r193, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r194, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r195, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r196, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r197, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r198, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - \* r207, ATP + putrescine[periplasmic space] + H2O -> ADP + putrescine[cytosol] + phosphate + H+ *\ - \* r482, glutathione[cytosol] + ATP + H2O -> glutathione[periplasmic space] + ADP + phosphate + H+ *\ - \* r663a, carbamoyl-phosphate + ATP + H2O -> O-carbamoyladenylate + diphosphate + phosphate *\ - \* r663b, O-carbamoyladenylate + diphosphate + phosphate -> carbamoyl-phosphate + ATP + H2O *\ - \* r685, (R)-pantothenate + ATP -> (R)-4'-phosphopantothenate + ADP + H+ *\ - \* r694, carbamoyl-phosphate + ADP + 2 H+ -> ammonium + CO2 + ATP *\ - \* r697, ATP + hydrogen carbonate + propanoyl-CoA -> ADP + (S)-methylmalonyl-CoA + phosphate + H+ *\ - \* r698, a [protein]-(L-serine/L-threonine) + ATP -> a [protein] (L-serine/L-threonine) phosphate + ADP + H+ *\ - \* r704, 4-amino-2-methyl-5-phosphomethylpyrimidine + ATP -> 4-amino-2-methyl-5-diphosphomethylpyrimidine + ADP *\ - \* r712, cytidine + ATP -> CMP + ADP + H+ *\ - \* r720, a biotinylated [BCCP dimer] + hydrogen carbonate + ATP -> a carboxylated-biotinylated [BCCP dimer] + ADP + phosphate + H+ *\ - \* r722, a tRNAthr + L-threonine + ATP + H+ -> an L-threonyl-[tRNAthr] + AMP + diphosphate *\ - \* r753, ATP + UMP -> ADP + UDP *\ - \* r766, L-cysteine + L-glutamate + ATP -> gamma-L-glutamyl-L-cysteine + ADP + phosphate + H+ *\ - \* r842, ATP + beta-nicotinate D-ribonucleotide + H+ -> nicotinate adenine dinucleotide + diphosphate *\ - \* r843, octanoate + a holo-[acyl-carrier protein] + ATP -> an octanoyl-[acp] + AMP + diphosphate *\ - \* r848, a cytidine34 in tRNAIle2 + L-lysine + ATP -> a lysidine34 in tRNAIle2 + AMP + diphosphate + 2 H+ *\ - \* r855, oxaloacetate + ATP -> CO2 + phosphoenolpyruvate + ADP *\ - \* r876a, 1-(5-phospho-beta-D-ribosyl)-ATP + diphosphate -> ATP + 5-phospho-alpha-D-ribose 1-diphosphate + H+ *\ - \* r876b, ATP + 5-phospho-alpha-D-ribose 1-diphosphate + H+ -> 1-(5-phospho-beta-D-ribosyl)-ATP + diphosphate *\ - \* r896, 3'-dephospho-CoA + ATP -> ADP + coenzyme A + H+ *\ - \* r898, dADP + ATP -> dATP + ADP *\ - \* r899, [a holo citrate lyase acyl-carrier protein] + acetate + ATP -> an acetyl-[holo citrate lyase acyl-carrier protein] + AMP + diphosphate *\ - \* r903, D-tagatofuranose 6-phosphate + ATP -> D-tagatofuranose 1,6-bisphosphate + ADP + H+ *\ - \* r911, a ThiS sulfur-carrier protein + ATP + H+ -> a carboxy-adenylated-[ThiS sulfur-carrier protein] + diphosphate *\ - \* r915, 6 ATP + 3 L-serine + 3 2,3-dihydroxybenzoate -> 6 AMP + enterobactin + 6 diphosphate + 3 H+ *\ - \* r918, putrescine + L-glutamate + ATP -> gamma-glutamyl-L-putrescine + ADP + phosphate + H+ *\ - \* r921, L-fuculose + ATP -> L-fuculose 1-phosphate + ADP + H+ *\ - \* r922, D-alanyl-D-alanine + UDP-N-acetyl-alpha-D-muramoyl-L-alanyl-gamma-D-glutamyl-meso-2,6-diaminopimelate + ATP -> UDP-N-acetyl-alpha-D-muramoyl-L-alanyl-gamma-D-glutamyl-meso-2,6-diaminopimeloyl-D-alanyl-D-alanine + ADP + phosphate + H+ *\ - \* r934, glucosyl-(heptosyl)3-Kdo2-lipid A-phosphate + ATP -> glucosyl-(heptosyl)3-Kdo2-lipid A-bisphosphate + ADP + H+ *\ - \* r938, L-glutamate + ATP -> gamma-L-glutamyl 5-phosphate + ADP *\ - \* r948, 4-(cytidine 5'-diphospho)-2-C-methyl-D-erythritol + ATP -> 2-phospho-4-(cytidine 5'-diphospho)-2-C-methyl-D-erythritol + ADP + H+ *\ - \* r950, an L-1-phosphatidyl-glycerol + ATP -> an L-1-phosphatidylglycerol-phosphate + ADP + H+ *\ - \* r951, an L-1-phosphatidyl-glycerol + ATP -> an L-1-phosphatidylglycerol-phosphate + ADP + H+ *\ - \* r952, an L-1-phosphatidyl-glycerol + ATP -> an L-1-phosphatidylglycerol-phosphate + ADP + H+ *\ - \* r960, 6-hydroxymethyl-7,8-dihydropterin + ATP -> (2-amino-4-hydroxy-7,8-dihydropteridin-6-yl)methyl diphosphate + AMP + H+ *\ - \* r967, L-homoserine + ATP -> O-phospho-L-homoserine + ADP + H+ *\ - \* r993, acetate + ATP + coenzyme A -> acetyl-CoA + AMP + diphosphate *\ - \* r1003, ATP + acetyl-CoA + a carboxylated-biotinylated [BCCP dimer] + H2O -> malonyl-CoA + a biotinylated [BCCP dimer] + ADP + phosphate + H+ *\ - \* r1004, D-sedoheptulose 7-phosphate + ATP -> D-sedoheptulose-1,7-bisphosphate + ADP + H+ *\ - \* r1005, 6-deoxy-6-sulfo-D-fructose + ATP -> 6-deoxy-6-sulfo-D-fructose 1-phosphate + ADP + H+ *\ - \* r1008, AMP + ATP -> 2 ADP *\ - \* r1036a, 3-phospho-D-glycerate + ATP -> 1,3-bisphospho-D-glycerate + ADP *\ - \* r1036b, 1,3-bisphospho-D-glycerate + ADP -> 3-phospho-D-glycerate + ATP *\ - \* r1054, dCDP + ATP -> dCTP + ADP *\ - \* r1056, ATP + L-methionine + H2O -> S-adenosyl-L-methionine + phosphate + diphosphate *\ - \* r1062a, succinate + ATP + coenzyme A -> succinyl-CoA + ADP + phosphate *\ - \* r1062b, succinyl-CoA + ADP + phosphate -> succinate + ATP + coenzyme A *\ - \* r1075, a [biotin-carboxyl-carrier protein monomer] + biotin + ATP -> AMP + a biotinylated [BCCP monomer] + diphosphate + H+ *\ - \* r1170, elongator tRNAmet + L-methionine + ATP + H+ -> an L-methionyl-[elongator tRNAmet] + AMP + diphosphate *\ - \* r1176, ATP + nicotinate adenine dinucleotide + L-glutamine + H2O -> AMP + L-glutamate + NAD+ + diphosphate + H+ *\ - \* r1177a, adenosine 5'-phosphosulfate + ATP -> 3'-phosphoadenylyl-sulfate + ADP + H+ *\ - \* r1177b, 3'-phosphoadenylyl-sulfate + ADP + H+ -> adenosine 5'-phosphosulfate + ATP *\ - \* r1181, a nucleoside diphosphate + ATP -> a nucleoside triphosphate + ADP *\ - \* r1182, a nucleoside diphosphate + ATP -> a nucleoside triphosphate + ADP *\ - \* r1183, a nucleoside diphosphate + ATP -> a nucleoside triphosphate + ADP *\ - \* r1184, a nucleoside diphosphate + ATP -> a nucleoside triphosphate + ADP *\ - \* r1185, a nucleoside diphosphate + ATP -> a nucleoside triphosphate + ADP *\ - \* r1186, a nucleoside diphosphate + ATP -> a nucleoside triphosphate + ADP *\ - \* r1187, a nucleoside diphosphate + ATP -> a nucleoside triphosphate + ADP *\ - \* r1188, a nucleoside diphosphate + ATP -> a nucleoside triphosphate + ADP *\ - \* r1189, a nucleoside diphosphate + ATP -> a nucleoside triphosphate + ADP *\ - \* r1190, a nucleoside diphosphate + ATP -> a nucleoside triphosphate + ADP *\ - \* r1223, riboflavin + ATP -> ADP + FMN + H+ *\ - \* r1228, dTMP + ATP -> dTDP + ADP *\ - \* r1234, alpha-D-galactose + ATP -> alpha-D-galactose 1-phosphate + ADP + H+ *\ - \* r1250, GTP + ATP -> pppGpp + AMP *\ - \* r1271, a 2,3,4-saturated fatty acid + ATP + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + AMP + diphosphate *\ - \* r1272, a 2,3,4-saturated fatty acid + ATP + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + AMP + diphosphate *\ - \* r1273, a 2,3,4-saturated fatty acid + ATP + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + AMP + diphosphate *\ - \* r1274, a 2,3,4-saturated fatty acid + ATP + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + AMP + diphosphate *\ - \* r1275, a 2,3,4-saturated fatty acid + ATP + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + AMP + diphosphate *\ - \* r1276, a 2,3,4-saturated fatty acid + ATP + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + AMP + diphosphate *\ - \* r1277, a 2,3,4-saturated fatty acid + ATP + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + AMP + diphosphate *\ - \* r1278, a 2,3,4-saturated fatty acid + ATP + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + AMP + diphosphate *\ - \* r1279, a 2,3,4-saturated fatty acid + ATP + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + AMP + diphosphate *\ - \* r1286, ATP + 2-succinylbenzoate + coenzyme A -> AMP + 4-(2'-carboxyphenyl)-4-oxobutyryl-CoA + diphosphate *\ - \* r1304, ATP + pyridoxamine -> ADP + pyridoxamine 5'-phosphate + H+ *\ - \* r1307, a tRNAser + L-serine + ATP + H+ -> an L-seryl-[tRNAser] + AMP + diphosphate *\ - \* r1324, phenylacetate + ATP + coenzyme A -> phenylacetyl-CoA + AMP + diphosphate *\ - \* r1329, L-tryptophan + a tRNAtrp + ATP + H+ -> an L-tryptophanyl-[tRNAtrp] + AMP + diphosphate *\ - \* r1340, ammonium + L-glutamate + ATP -> L-glutamine + ADP + phosphate + H+ *\ - \* r1343, glycerol + ATP -> sn-glycerol 3-phosphate + ADP + H+ *\ - \* r1346, ATP + dGMP -> ADP + dGDP *\ - \* r1349, guanosine + ATP -> GMP + ADP + H+ *\ - \* r1365, D-mannopyranose + ATP -> alpha-D-mannose 6-phosphate + ADP + H+ *\ - \* r1366, ATP + acetyl-CoA + hydrogen carbonate -> malonyl-CoA + ADP + phosphate + H+ *\ - \* r1373, ATP + 2-(formamido)-N1-(5-phospho-beta-D-ribosyl)acetamidine -> ADP + 5-amino-1-(5-phospho-beta-D-ribosyl)imidazole + phosphate + H+ *\ - \* r1387, beta-alanine + (R)-pantoate + ATP -> (R)-pantothenate + AMP + diphosphate + H+ *\ - \* r1391, L-aspartate + ATP -> L-aspartyl-4-phosphate + ADP *\ - \* r1396, propanoate + ATP + coenzyme A -> propanoyl-CoA + AMP + diphosphate *\ - \* r1403, shikimate + ATP -> shikimate 3-phosphate + ADP + H+ *\ - \* r1404, UDP-N-acetyl-alpha-D-muramate + L-alanyl-gamma-D-glutamyl-meso-diaminopimelate + ATP -> UDP-N-acetyl-alpha-D-muramoyl-L-alanyl-gamma-D-glutamyl-meso-2,6-diaminopimelate + ADP + phosphate + H+ *\ - \* r1407, sulfate + ATP + H+ -> adenosine 5'-phosphosulfate + diphosphate *\ - \* r1408, 1-(beta-D ribofuranosyl)nicotinamide + ATP -> beta-nicotinamide D-ribonucleotide + ADP + H+ *\ - \* r1424, beta-D-fructofuranose + ATP -> beta-D-fructofuranose 6-phosphate + ADP + H+ *\ - \* r1425, a tRNAtyr + L-tyrosine + ATP + H+ -> an L-tyrosyl-[tRNAtyr] + AMP + diphosphate *\ - \* r1427, ATP + CMP -> ADP + CDP *\ - \* r1431, beta-D-glucose + ATP -> beta-D-glucose 6-phosphate + ADP + H+ *\ - \* r1435, glycine + gamma-L-glutamyl-L-cysteine + ATP -> glutathione + ADP + phosphate + H+ *\ - \* r1442, XMP + ammonium + ATP -> GMP + AMP + diphosphate + 2 H+ *\ - \* r1454, inosine + ATP -> IMP + ADP + H+ *\ - \* r1469, a tRNAala + L-alanine + ATP + H+ -> an L-alanyl-[tRNAala] + AMP + diphosphate *\ - \* r1476, a tRNAarg + L-arginine + ATP + H+ -> an L-arginyl-[tRNAarg] + AMP + diphosphate *\ - \* r1480, ATP + H2O -> AMP + diphosphate + H+ *\ - \* r1507a, L-serine + ATP + H+ -> L-seryl-adenylate + diphosphate *\ - \* r1507b, L-seryl-adenylate + diphosphate -> L-serine + ATP + H+ *\ - \* r1512, D-glutamate + UDP-N-acetyl-alpha-D-muramoyl-L-alanine + ATP -> UDP-N-acetyl-alpha-D-muramoyl-L-alanyl-D-glutamate + ADP + phosphate + H+ *\ - \* r1513, D-glycero-beta-D-manno-heptose 1-phosphate + ATP + H+ -> ADP-D-glycero-beta-D-manno-heptose + diphosphate *\ - \* r1549, an N5-formyl-tetrahydrofolate + ATP -> a 5,10-methenyltetrahydrofolate + ADP + phosphate *\ - \* r1562, nicotinate + 5-phospho-alpha-D-ribose 1-diphosphate + ATP + H2O -> beta-nicotinate D-ribonucleotide + ADP + diphosphate + phosphate *\ - \* r1572, pyruvate + ATP + H2O -> phosphoenolpyruvate + AMP + phosphate + 2 H+ *\ - \* r1573, L-aspartate + L-citrulline + ATP -> L-arginino-succinate + AMP + diphosphate + H+ *\ - \* r1581a, N6-L-threonylcarbamoyladenine37 in tRNA + ATP -> cyclic N6-L-threonylcarbamoyladenosine 37 in tRNA + ADP + phosphate *\ - \* r1581b, cyclic N6-L-threonylcarbamoyladenosine 37 in tRNA + ADP + phosphate -> N6-L-threonylcarbamoyladenine37 in tRNA + ATP *\ - \* r1582, alpha-D-ribose-1-phosphate + ATP -> alpha-D-ribose 1,5-bisphosphate + ADP + H+ *\ - \* r1583, D-ribose 5-phosphate + ATP -> 5-phospho-alpha-D-ribose 1-diphosphate + AMP + H+ *\ - \* r1584, D-ribulose + ATP -> D-ribulose 1-phosphate + ADP + H+ *\ - \* r1587, dGDP + ATP -> dGTP + ADP *\ - \* r1588, 2 D-alanine + ATP -> D-alanyl-D-alanine + ADP + phosphate + H+ *\ - \* r1595, thymidine + ATP -> dTMP + ADP + H+ *\ - \* r1622, beta-nicotinamide D-ribonucleotide + ATP + H+ -> NAD+ + diphosphate *\ - \* r1625, spermidine + glutathione + ATP -> glutathionylspermidine + ADP + phosphate + H+ *\ - \* r1679, ATP + NAD+ -> ADP + NADP+ + H+ *\ - \* r1704, L-aspartate + ammonium + ATP -> L-asparagine + AMP + diphosphate + H+ *\ - \* r1712, 5-amino-1-(5-phospho-beta-D-ribosyl)imidazole + ATP + hydrogen carbonate -> N5-carboxyaminoimidazole ribonucleotide + ADP + phosphate + 2 H+ *\ - \* r1721, ATP + 5-amino-1-(5-phospho-D-ribosyl)imidazole-4-carboxylate + L-aspartate -> ADP + 5'-phosphoribosyl-4-(N-succinocarboxamide)-5-aminoimidazole + phosphate + H+ *\ - \* r1729, thiamin phosphate + ATP -> thiamin diphosphate + ADP *\ - \* r1732, dTDP + ATP -> dTTP + ADP *\ - \* r1736, ATP + N2-formyl-N1-(5-phospho-beta-D-ribosyl)glycinamide + L-glutamine + H2O -> ADP + 2-(formamido)-N1-(5-phospho-beta-D-ribosyl)acetamidine + L-glutamate + phosphate + H+ *\ - \* r1741, UDP + ATP -> UTP + ADP *\ - \* r1744, ATP + D-glycerate -> 2-phospho-D-glycerate + ADP + H+ *\ - \* r1747, tRNAGlu + L-glutamate + ATP + H+ -> an L-glutamyl-[tRNAGlu] + AMP + diphosphate *\ - \* r1771, a tRNAleu + L-leucine + ATP + H+ -> an L-leucyl-[tRNAleu] + AMP + diphosphate *\ - \* r1798, tRNAasn + L-asparagine + ATP + H+ -> an L-asparaginyl-[tRNAasn] + AMP + diphosphate *\ - \* r1817a, ATP + a 1,2-diacyl-sn-glycerol -> a 1,2-diacyl-sn-glycerol 3-phosphate + ADP + H+ *\ - \* r1817b, a 1,2-diacyl-sn-glycerol 3-phosphate + ADP + H+ -> ATP + a 1,2-diacyl-sn-glycerol *\ - \* r1823, 2'-deoxyuridine + ATP -> dUMP + ADP + H+ *\ - \* r1833, alpha-D-glucose 1-phosphate + ATP + H+ -> ADP-alpha-D-glucose + diphosphate *\ - \* r1834, a tRNAval + L-valine + ATP + H+ -> an L-valyl-[tRNAval] + AMP + diphosphate *\ - \* r1837, tRNAgln + L-glutamine + ATP + H+ -> an L-glutaminyl-[tRNAgln] + AMP + diphosphate *\ - \* r1844, ATP + ADP + H+ -> 5',5'''-diadenosine triphosphate + diphosphate *\ - \* r1845, 2 ATP + hydrogen carbonate + ammonium -> 2 ADP + carbamoyl-phosphate + phosphate + 2 H+ *\ - \* r1846, ATP + 5-phospho-beta-D-ribosylamine + glycine -> ADP + N1-(5-phospho-beta-D-ribosyl)glycinamide + phosphate + H+ *\ - \* r1854, a tRNAhis + L-histidine + ATP + H+ -> an L-histidyl-[tRNAhis] + AMP + diphosphate *\ - \* r1863, beta-D-fructofuranose 6-phosphate + ATP -> ADP + fructose 1,6-bisphosphate + H+ *\ - \* r1869, 4-hydroxy-L-threonine + ATP -> 4-phospho-hydroxy-L-threonine + ADP + H+ *\ - \* r1876, D-allopyranose + ATP -> aldehydo-D-allose 6-phosphate + ADP + H+ *\ - \* r1879, 4'-phosphopantetheine + ATP + H+ -> 3'-dephospho-CoA + diphosphate *\ - \* r1886, 3-keto-L-gulonate + ATP -> 3-keto-L-gulonate 6-phosphate + ADP + H+ *\ - \* r1892, L-glutamate + ATP + NADPH + H+ -> ADP + L-glutamate-5-semialdehyde + NADP+ + phosphate *\ - \* r1896, ATP + pyridoxal -> ADP + pyridoxal 5'-phosphate + H+ *\ - \* r1942, L-ribulose + ATP -> L-ribulose 5-phosphate + ADP + H+ *\ - \* r1951, L-glutamine + XMP + ATP + H2O -> L-glutamate + GMP + AMP + diphosphate + 2 H+ *\ - \* r1955, GMP + ATP -> GDP + ADP *\ - \* r1977, N-acetyl-L-glutamate + ATP -> N-acetylglutamyl-phosphate + ADP *\ - \* r1983, N-acetyl-D-mannosamine + ATP -> N-acetyl-D-mannosamine 6-phosphate + ADP + H+ *\ - \* r1994, a tRNAphe + L-phenylalanine + ATP + H+ -> an L-phenylalanyl-[tRNAphe] + AMP + diphosphate *\ - \* r2003a, ATP + propanoate -> ADP + propanoyl phosphate *\ - \* r2003b, ADP + propanoyl phosphate -> ATP + propanoate *\ - \* r2018, ATP + H2O -> ADP + phosphate + H+ *\ - \* r2024, L-alanine + UDP-N-acetyl-alpha-D-muramate + ATP -> UDP-N-acetyl-alpha-D-muramoyl-L-alanine + ADP + phosphate + H+ *\ - \* r2025, D-glycero-D-manno-heptose 7-phosphate + ATP -> D-glycero-beta-D-manno-heptose 1,7-bisphosphate + ADP + H+ *\ - \* r2027, N1-(5-phospho-beta-D-ribosyl)glycinamide + formate + ATP -> N2-formyl-N1-(5-phospho-beta-D-ribosyl)glycinamide + ADP + phosphate + H+ *\ - \* r2031, ATP + D-gluconate -> ADP + D-gluconate 6-phosphate + H+ *\ - \* r2032, D-xylulose + ATP -> D-xylulose 5-phosphate + ADP + H+ *\ - \* r2034, glucosyl-(heptosyl)2-Kdo2-lipid A + ATP -> glucosyl-(heptosyl)2-Kdo2-lipid A-phosphate + ADP + H+ *\ - \* r2059, L-lysine + a tRNAlys + ATP + H+ -> an L-lysyl-[tRNAlys] + AMP + diphosphate *\ - \* r2072a, N-acetyl-beta-D-glucosamine + ATP -> N-acetyl-D-glucosamine 6-phosphate + ADP + H+ *\ - \* r2072b, N-acetyl-D-glucosamine 6-phosphate + ADP + H+ -> N-acetyl-beta-D-glucosamine + ATP *\ - \* r2083a, pyruvate + ATP -> ADP + phosphoenolpyruvate + H+ *\ - \* r2083b, ADP + phosphoenolpyruvate + H+ -> pyruvate + ATP *\ - \* r2089, alpha-D-ribose 1,5-bisphosphate + ATP -> 5-phospho-alpha-D-ribose 1-diphosphate + ADP *\ - \* r2097, CO2 + 7,8-diaminopelargonate + ATP -> dethiobiotin + ADP + phosphate + 3 H+ *\ - \* r2100, L-rhamnulofuranose + ATP -> L-rhamnulose 1-phosphate + ADP + H+ *\ - \* r2101, L-glutamate + 7,8-dihydropteroate + ATP -> ADP + 7,8-dihydrofolate monoglutamate + phosphate + H+ *\ - \* r2111, meso-diaminopimelate + UDP-N-acetyl-alpha-D-muramoyl-L-alanyl-D-glutamate + ATP -> UDP-N-acetyl-alpha-D-muramoyl-L-alanyl-gamma-D-glutamyl-meso-2,6-diaminopimelate + ADP + phosphate + H+ *\ - \* r2114, GDP + ATP -> GTP + ADP *\ - \* r2115, uridine + ATP -> UMP + ADP + H+ *\ - \* r2127, ATP + a [protein]-L-tyrosine -> ADP + a [protein]-L-tyrosine phosphate + H+ *\ - \* r2137, autoinducer 2 + ATP -> (4S)-4-hydroxy-2,3-pentanedione 5-phosphate + ADP + H+ *\ - \* r2147, a tRNAile + L-isoleucine + ATP + H+ -> an L-isoleucyl-[tRNAile] + AMP + diphosphate *\ - \* r2153, L-xylulose + ATP -> L-xylulose -5-phosphate + ADP + H+ *\ - \* r2154a, acetate + ATP -> acetyl phosphate + ADP *\ - \* r2154b, acetyl phosphate + ADP -> acetate + ATP *\ - \* r2161, ATP -> cyclic-AMP + diphosphate *\ - \* r2182, CDP + ATP -> CTP + ADP *\ - \* r2186, ATP + UTP + L-glutamine + H2O -> ADP + CTP + L-glutamate + phosphate + 2 H+ *\ - \* r2190, ATP + 2,3-dihydroxybenzoate + H+ -> 2,3-dihydroxybenzoyl adenylate + diphosphate *\ - \* r2194, lipid A disaccharide + ATP -> lipid IVA + ADP + H+ *\ - \* r2201, ATP + FMN + H+ -> FAD + diphosphate *\ - \* r2208, ATP + GDP -> AMP + ppGpp *\ - \* r2224, D-glycerate + ATP -> 3-phospho-D-glycerate + ADP + H+ *\ - \* r2262, ammonium + ATP + nicotinate adenine dinucleotide -> AMP + NAD+ + diphosphate + H+ *\ - \* r2282, ATP + dCMP -> ADP + dCDP *\ - \* r2298, a tRNAcys + L-cysteine + ATP + H+ -> an L-cysteinyl-[tRNAcys] + AMP + diphosphate *\ - \* r2308, dUDP + ATP -> dUTP + ADP *\ - \* r2330a, ATP + ATP + H+ -> 5',5'''-diadenosine tetraphosphate + diphosphate *\ - \* r2330b, 5',5'''-diadenosine tetraphosphate + diphosphate -> ATP + ATP + H+ *\ - \* r2343, ATP + UTP + ammonium -> ADP + CTP + phosphate + 2 H+ *\ - \* r2364a, initiator tRNAmet + L-methionine + ATP + H+ -> an L-methionyl-[initiator tRNAmet] + AMP + diphosphate *\ - \* r2364b, an L-methionyl-[initiator tRNAmet] + AMP + diphosphate -> initiator tRNAmet + L-methionine + ATP + H+ *\ - \* r2378, tRNAasp + L-aspartate + ATP + H+ -> L-aspartyl-tRNAasp + AMP + diphosphate *\ - \* r2385, a tRNApro + L-proline + ATP + H+ -> an L-prolyl-[tRNApro] + AMP + diphosphate *\ - \* r2387, D-fructosyl-L-lysine + ATP -> fructoselysine 6-phosphate + ADP + H+ *\ - \* r2389, 2-dehydro-3-deoxy-D-gluconate + ATP -> 2-dehydro-3-deoxy-D-gluconate 6-phosphate + ADP + H+ *\ - \* r2404, L-glutamine + L-aspartate + ATP + H2O -> L-glutamate + L-asparagine + AMP + diphosphate + H+ *\ - \* r2415, 2 ATP + L-glutamine + hydrogen carbonate + H2O -> carbamoyl-phosphate + L-glutamate + 2 ADP + phosphate + 2 H+ *\ - \* r2419, carbamoyl-phosphate + HypE + ATP + H2O -> a HypE hydrogenase maturation protein-S-carboxamide + AMP + diphosphate + phosphate *\ - \* r2437, a tRNAgly + glycine + ATP + H+ -> a glycyl-[tRNAgly] + AMP + diphosphate *\ - \* objReactionName, ATP *\ - \* r2467_e, ATP *\ - - -1.0 r30 -1.0 r31 -1.0 r32 -1.0 r33 -1.0 r34 -1.0 r35 -1.0 r63 -1.0 r65 -1.0 r67 -1.0 r68 -1.0 r69 -1.0 r70 -1.0 r71 -1.0 r72 -1.0 r73 -1.0 r75 -1.0 r77 -1.0 r79 -1.0 r81 - -1.0 r82 -1.0 r83 -1.0 r85 -1.0 r87 -1.0 r88 -1.0 r89 -1.0 r90 -1.0 r91 -1.0 r92 -1.0 r93 -1.0 r94 -1.0 r95 -1.0 r96 -1.0 r97 -1.0 r98 -1.0 r99 -1.0 r100 -1.0 r101 -1.0 r102 -1.0 r103 - -1.0 r104 -1.0 r105 -1.0 r106 -1.0 r107 -1.0 r108 -1.0 r109 -1.0 r110 -1.0 r111 -1.0 r112 -1.0 r113 -1.0 r114 -1.0 r115 -1.0 r116 -1.0 r117 -1.0 r118 -1.0 r120 -1.0 r121 -1.0 r122 -1.0 r123 -1.0 r124 - -1.0 r125 -1.0 r126 -1.0 r127 -1.0 r128 -1.0 r129 -1.0 r130 -1.0 r131 -1.0 r134 -1.0 r135 -1.0 r136 -1.0 r137a + r137b -1.0 r140 -1.0 r143 -1.0 r144 -1.0 r149 -1.0 r150 -1.0 r151 -1.0 r153 -1.0 r154 - -1.0 r155 -1.0 r156 -1.0 r157 -1.0 r166 -1.0 r167 -1.0 r168 -1.0 r170 -1.0 r174 -1.0 r175 -1.0 r176 -1.0 r177 -1.0 r179 -1.0 r180 -1.0 r181 -1.0 r182 -1.0 r183 -1.0 r184 -1.0 r185 -1.0 r186 -1.0 r187 - -1.0 r188 -1.0 r189 -1.0 r190 -1.0 r191 -1.0 r192 -1.0 r193 -1.0 r194 -1.0 r195 -1.0 r196 -1.0 r197 -1.0 r198 -1.0 r207 -1.0 r482 -1.0 r663a + r663b -1.0 r685 + r694 -1.0 r697 -1.0 r698 -1.0 r704 - -1.0 r712 -1.0 r720 -1.0 r722 -1.0 r753 -1.0 r766 -1.0 r842 -1.0 r843 -1.0 r848 -1.0 r855 + r876a -1.0 r876b -1.0 r896 -1.0 r898 -1.0 r899 -1.0 r903 -1.0 r911 -6.0 r915 -1.0 r918 -1.0 r921 -1.0 r922 - -1.0 r934 -1.0 r938 -1.0 r948 -1.0 r950 -1.0 r951 -1.0 r952 -1.0 r960 -1.0 r967 -1.0 r993 -1.0 r1003 -1.0 r1004 -1.0 r1005 -1.0 r1008 -1.0 r1036a + r1036b -1.0 r1054 -1.0 r1056 -1.0 r1062a + r1062b -1.0 r1075 - -1.0 r1170 -1.0 r1176 -1.0 r1177a + r1177b -1.0 r1181 -1.0 r1182 -1.0 r1183 -1.0 r1184 -1.0 r1185 -1.0 r1186 -1.0 r1187 -1.0 r1188 -1.0 r1189 -1.0 r1190 -1.0 r1223 -1.0 r1228 -1.0 r1234 -1.0 r1250 -1.0 r1271 -1.0 r1272 - -1.0 r1273 -1.0 r1274 -1.0 r1275 -1.0 r1276 -1.0 r1277 -1.0 r1278 -1.0 r1279 -1.0 r1286 -1.0 r1304 -1.0 r1307 -1.0 r1324 -1.0 r1329 -1.0 r1340 -1.0 r1343 -1.0 r1346 -1.0 r1349 -1.0 r1365 -1.0 r1366 -1.0 r1373 -1.0 r1387 - -1.0 r1391 -1.0 r1396 -1.0 r1403 -1.0 r1404 -1.0 r1407 -1.0 r1408 -1.0 r1424 -1.0 r1425 -1.0 r1427 -1.0 r1431 -1.0 r1435 -1.0 r1442 -1.0 r1454 -1.0 r1469 -1.0 r1476 -1.0 r1480 -1.0 r1507a + r1507b -1.0 r1512 -1.0 r1513 - -1.0 r1549 -1.0 r1562 -1.0 r1572 -1.0 r1573 -1.0 r1581a + r1581b -1.0 r1582 -1.0 r1583 -1.0 r1584 -1.0 r1587 -1.0 r1588 -1.0 r1595 -1.0 r1622 -1.0 r1625 -1.0 r1679 -1.0 r1704 -1.0 r1712 -1.0 r1721 -1.0 r1729 -1.0 r1732 - -1.0 r1736 -1.0 r1741 -1.0 r1744 -1.0 r1747 -1.0 r1771 -1.0 r1798 -1.0 r1817a + r1817b -1.0 r1823 -1.0 r1833 -1.0 r1834 -1.0 r1837 -1.0 r1844 -2.0 r1845 -1.0 r1846 -1.0 r1854 -1.0 r1863 -1.0 r1869 -1.0 r1876 -1.0 r1879 - -1.0 r1886 -1.0 r1892 -1.0 r1896 -1.0 r1942 -1.0 r1951 -1.0 r1955 -1.0 r1977 -1.0 r1983 -1.0 r1994 -1.0 r2003a + r2003b -1.0 r2018 -1.0 r2024 -1.0 r2025 -1.0 r2027 -1.0 r2031 -1.0 r2032 -1.0 r2034 -1.0 r2059 -1.0 r2072a - + r2072b -1.0 r2083a + r2083b -1.0 r2089 -1.0 r2097 -1.0 r2100 -1.0 r2101 -1.0 r2111 -1.0 r2114 -1.0 r2115 -1.0 r2127 -1.0 r2137 -1.0 r2147 -1.0 r2153 -1.0 r2154a + r2154b -1.0 r2161 -1.0 r2182 -1.0 r2186 -1.0 r2190 - -1.0 r2194 -1.0 r2201 -1.0 r2208 -1.0 r2224 -1.0 r2262 -1.0 r2282 -1.0 r2298 -1.0 r2308 -2.0 r2330a +2.0 r2330b -1.0 r2343 -1.0 r2364a + r2364b -1.0 r2378 -1.0 r2385 -1.0 r2387 -1.0 r2389 -1.0 r2404 -2.0 r2415 -1.0 r2419 - -1.0 r2437 -48.922894 objReactionName -1.0 r2467_e = 0 - -c1254: \* GTP[CCO-CYTOSOL] *\ - \* objReactionName, GTP *\ - \* r2231, GTP + H2O -> formate + 7,8-dihydroneopterin 3'-triphosphate + H+ *\ - \* r2114, GDP + ATP -> GTP + ADP *\ - \* r1954, GTP + AMP -> GDP + ADP *\ - \* r1860, pppGpp + H2O -> GTP + diphosphate + H+ *\ - \* r1759, GTP + 3 H2O -> 2,5-diamino-6-(5-phospho-D-ribosylamino)pyrimidin-4(3H)-one + formate + diphosphate + 2 H+ *\ - \* r1681, L-aspartate + IMP + GTP -> adenylo-succinate + GDP + phosphate + 2 H+ *\ - \* r1638, GTP + H2O -> GDP + phosphate + H+ *\ - \* r1608, uridine + GTP -> UMP + GDP + H+ *\ - \* r1448b, cyclic-GMP + diphosphate -> GTP *\ - \* r1448a, GTP -> cyclic-GMP + diphosphate *\ - \* r1402, cytidine + GTP -> CMP + GDP + H+ *\ - \* r1250, GTP + ATP -> pppGpp + AMP *\ - \* r1189, a nucleoside diphosphate + ATP -> a nucleoside triphosphate + ADP *\ - \* r1155, a nucleoside triphosphate + H2O -> a nucleoside 5'-monophosphate + diphosphate + H+ *\ - \* r1109, alpha-D-mannose 1-phosphate + GTP + H+ -> GDP-alpha-D-mannose + diphosphate *\ - - -0.209121 objReactionName -1.0 r2231 + r2114 -1.0 r1954 + r1860 -1.0 r1759 -1.0 r1681 -1.0 r1638 -1.0 r1608 + r1448b -1.0 r1448a -1.0 r1402 -1.0 r1250 + r1189 -1.0 r1155 -1.0 r1109 = 0 - -c1439: \* ITP[CCO-CYTOSOL] *\ - \* r2242, ITP + H2O -> IMP + diphosphate + H+ *\ - \* r1190, a nucleoside diphosphate + ATP -> a nucleoside triphosphate + ADP *\ - \* r1154, a nucleoside triphosphate + H2O -> a nucleoside 5'-monophosphate + diphosphate + H+ *\ - \* r1093, ITP + H2O -> IDP + phosphate + H+ *\ - - -1.0 r2242 + r1190 -1.0 r1154 -1.0 r1093 = 0 - -c807: \* ENTEROBACTIN[CCO-CYTOSOL] *\ - \* r915, 6 ATP + 3 L-serine + 3 2,3-dihydroxybenzoate -> 6 AMP + enterobactin + 6 diphosphate + 3 H+ *\ - \* r1528, 3 a DHB-seryl-[EntF peptidyl-carrier protein] -> enterobactin + 3 a holo [EntF peptidyl-carrier protein] *\ - \* r1640, enterobactin + H2O -> (2,3-dihydroxybenzoylserine)3 + H+ *\ - \* r1807, enterobactin + 3 H2O -> 3 N-(2,3-dihydroxybenzoyl)-L-serine + 3 H+ *\ - \* objReactionName, enterobactin *\ - - + r915 + r1528 -1.0 r1640 -1.0 r1807 -0.000223 objReactionName = 0 - -c1325: \* Oxo-glutarate-dehydro-suc-DH-lipoyl[CCO-CYTOSOL] *\ - \* r2421b, a [2-oxoglutarate dehydrogenase E2 protein] N6-S-succinyldihydrolipoyl-L-lysine + coenzyme A -> succinyl-CoA + a [2-oxoglutarate dehydrogenase E2 protein] N6-dihydrolipoyl-L-lysine *\ - \* r2421a, succinyl-CoA + a [2-oxoglutarate dehydrogenase E2 protein] N6-dihydrolipoyl-L-lysine -> a [2-oxoglutarate dehydrogenase E2 protein] N6-S-succinyldihydrolipoyl-L-lysine + coenzyme A *\ - \* r949, 2-oxoglutarate + a [2-oxoglutarate dehydrogenase E2 protein] N6-lipoyl-L-lysine + H+ -> a [2-oxoglutarate dehydrogenase E2 protein] N6-S-succinyldihydrolipoyl-L-lysine + CO2 *\ - - -1.0 r2421b + r2421a + r949 = 0 - -c1684: \* ACETOACETYL-COA[CCO-CYTOSOL] *\ - \* r2260, an acyl-CoA + H2O -> a carboxylate + coenzyme A + H+ *\ - \* r1865b, acetoacetyl-CoA + coenzyme A -> 2 acetyl-CoA *\ - \* r1865a, 2 acetyl-CoA -> acetoacetyl-CoA + coenzyme A *\ - \* r1666b, acetoacetyl-CoA + acetate -> acetoacetate + acetyl-CoA *\ - \* r1666a, acetoacetate + acetyl-CoA -> acetoacetyl-CoA + acetate *\ - \* r1376, a (3S)-3-hydroxyacyl-CoA + NAD+ -> a 3-oxoacyl-CoA + NADH + H+ *\ - - -1.0 r2260 -1.0 r1865b + r1865a -1.0 r1666b + r1666a + r1376 = 0 - -c505: \* SUC[CCO-PERI-BAC] *\ - \* r272, succinate[periplasmic space] -> succinate[cytosol] *\ - \* r446, a C4-dicarboxylate[periplasmic space] + 2 H+[periplasmic space] -> a C4-dicarboxylate[cytosol] + 2 H+[cytosol] *\ - \* r463, succinate[cytosol] + (S)-malate[periplasmic space] -> (S)-malate[cytosol] + succinate[periplasmic space] *\ - \* r519, a C4-dicarboxylate[periplasmic space] + 3 H+[periplasmic space] -> a C4-dicarboxylate[cytosol] + 3 H+[cytosol] *\ - \* r531, succinate[cytosol] + fumarate[periplasmic space] -> fumarate[cytosol] + succinate[periplasmic space] *\ - \* r630, succinate[periplasmic space] + 2 H+[periplasmic space] -> succinate[cytosol] + 2 H+[cytosol] *\ - \* r631, succinate[cytosol] + L-aspartate[periplasmic space] -> L-aspartate[cytosol] + succinate[periplasmic space] *\ - \* r2476_e, succinate *\ - - -1.0 r272 -1.0 r446 + r463 -1.0 r519 + r531 -1.0 r630 + r631 -1.0 r2476_e = 0 - -c1581: \* BUTYRYL-COA[CCO-CYTOSOL] *\ - \* r2251, an acyl-CoA + H2O -> a carboxylate + coenzyme A + H+ *\ - \* r2060b, a 2,3,4-saturated fatty acid + acetyl-CoA -> a 2,3,4-saturated fatty acyl CoA + acetate *\ - \* r2060a, a 2,3,4-saturated fatty acyl CoA + acetate -> a 2,3,4-saturated fatty acid + acetyl-CoA *\ - \* r1962, a 3-oxoacyl-CoA + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + acetyl-CoA *\ - \* r1913, a 2,3,4-saturated fatty acyl CoA + NADP+ -> a trans-2-enoyl-CoA + NADPH + H+ *\ - \* r1776, a 2,3,4-saturated fatty acyl CoA + an oxidized electron-transfer flavoprotein + H+ -> a trans-2-enoyl-CoA + a reduced electron-transfer flavoprotein *\ - \* r1271, a 2,3,4-saturated fatty acid + ATP + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + AMP + diphosphate *\ - - -1.0 r2251 + r2060b -1.0 r2060a + r1962 -1.0 r1913 -1.0 r1776 + r1271 = 0 - -c588: \* CU+2[CCO-CYTOSOL] *\ - \* r2393b, Cu+ + NAD+ -> Cu2+ + NADH *\ - \* r2393a, Cu2+ + NADH -> Cu+ + NAD+ *\ - \* r318, Cu2+[periplasmic space] -> Cu2+[cytosol] *\ - - + r2393b -1.0 r2393a + r318 = 0 - -c147: \* CPD0-2330[CCO-PERI-BAC] *\ - \* r73, a glycerophosphodiester[periplasmic space] + ATP + H2O -> a glycerophosphodiester[cytosol] + ADP + phosphate + H+ *\ - - -1.0 r73 = 0 - -c472: \* CPD0-1052[CCO-EXTRACELLULAR] *\ - \* r240, a lipopolysaccharide[cytosol] -> a lipopolysaccharide[extracellular space] *\ - - + r240 = 0 - -c1549: \* D-ERYTHRO-IMIDAZOLE-GLYCEROL-P[CCO-CYTOSOL] *\ - \* r1258, D-erythro-imidazole-glycerol-phosphate -> imidazole acetol-phosphate + H2O *\ - \* r1240, phosphoribulosylformimino-AICAR-P + L-glutamine -> L-glutamate + D-erythro-imidazole-glycerol-phosphate + 5-amino-1-(5-phospho-D-ribosyl)imidazole-4-carboxamide + H+ *\ - - -1.0 r1258 + r1240 = 0 - -c2014: \* 5-P-BETA-D-RIBOSYL-AMINE[CCO-CYTOSOL] *\ - \* r2090, 5-phospho-alpha-D-ribose 1-diphosphate + L-glutamine + H2O -> 5-phospho-beta-D-ribosylamine + L-glutamate + diphosphate *\ - \* r1846, ATP + 5-phospho-beta-D-ribosylamine + glycine -> ADP + N1-(5-phospho-beta-D-ribosyl)glycinamide + phosphate + H+ *\ - - + r2090 -1.0 r1846 = 0 - -c471: \* CPD0-1050[CCO-EXTRACELLULAR] *\ - \* r239, a lipopolysaccharide[cytosol] -> a lipopolysaccharide[extracellular space] *\ - - + r239 = 0 - -c473: \* CPD0-1051[CCO-EXTRACELLULAR] *\ - \* r241, a lipopolysaccharide[cytosol] -> a lipopolysaccharide[extracellular space] *\ - - + r241 = 0 - -c2031: \* Carboxylates[CCO-CYTOSOL] *\ - \* r1874a, a 2-acyl 1-lyso-phosphatidylcholine + H2O -> a carboxylate + sn-glycero-3-phosphocholine + H+ *\ - \* r1874b, a carboxylate + sn-glycero-3-phosphocholine + H+ -> a 2-acyl 1-lyso-phosphatidylcholine + H2O *\ - - + r1874a -1.0 r1874b = 0 - -c1316: \* Reduced-cytochromes-c2[CCO-CYTOSOL] *\ - \* r944b, trimethylamine N-oxide + 2 a reduced c-type cytochrome + 3 H+ -> trimethylamine + 2 an oxidized c-type cytochrome + H2O *\ - \* r944a, trimethylamine + 2 an oxidized c-type cytochrome + H2O -> trimethylamine N-oxide + 2 a reduced c-type cytochrome + 3 H+ *\ - - -2.0 r944b +2.0 r944a = 0 - -c994: \* b-Hydroxy-cis-D5-dodecenoyl-ACPs[CCO-CYTOSOL] *\ - \* r1066, a (3R)-hydroxy cis delta5-dodecenoyl-[acp] -> a trans-delta3-cis-delta5-dodecenoyl-[acp] + H2O *\ - \* r711, a 3-oxo-cis-delta5-dodecenoyl-[acp] + NADPH + H+ -> a (3R)-hydroxy cis delta5-dodecenoyl-[acp] + NADP+ *\ - - -1.0 r1066 + r711 = 0 - -c114: \* INOSINE[CCO-PERI-BAC] *\ - \* r2142, a nucleoside 5'-monophosphate[periplasmic space] + H2O[periplasmic space] -> a nucleoside[periplasmic space] + phosphate[periplasmic space] *\ - \* r1028, IMP + H2O -> inosine + phosphate *\ - \* r978, a ribonucleoside 5'-monophosphate + H2O -> a ribonucleoside + phosphate *\ - \* r616, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r431, inosine[cytosol] + H+[periplasmic space] -> inosine[periplasmic space] + H+[cytosol] *\ - \* r415, inosine[periplasmic space] + H+[periplasmic space] -> inosine[cytosol] + H+[cytosol] *\ - \* r56, a nucleoside[extracellular space] -> a nucleoside[periplasmic space] *\ - - + r2142 + r1028 + r978 -1.0 r616 + r431 -1.0 r415 + r56 = 0 - -c1387: \* 23DHB-EntB[CCO-CYTOSOL] *\ - \* r1161, a 2,3-dihydroxybenzoyl-[EntB isochorismatase/aryl-carrier protein] + a seryl-[EntF peptidyl-carrier protein] -> a holo EntB isochorismatase/aryl-carrier protein + a DHB-seryl-[EntF peptidyl-carrier protein] + H+ *\ - \* r1037, 2,3-dihydroxybenzoyl adenylate + a holo EntB isochorismatase/aryl-carrier protein -> a 2,3-dihydroxybenzoyl-[EntB isochorismatase/aryl-carrier protein] + AMP + H+ *\ - - -1.0 r1161 + r1037 = 0 - -c257: \* CU+[CCO-CYTOSOL] *\ - \* r130, Cu+[cytosol] + ATP + H2O -> Cu+[periplasmic space] + ADP + phosphate + H+ *\ - \* r2393a, Cu2+ + NADH -> Cu+ + NAD+ *\ - \* r2393b, Cu+ + NAD+ -> Cu2+ + NADH *\ - - -1.0 r130 + r2393a -1.0 r2393b = 0 - -c39: \* CPD-7836[CCO-EXTRACELLULAR] *\ - \* r21, a long-chain fatty acid[extracellular space] -> a long-chain fatty acid[periplasmic space] *\ - - -1.0 r21 = 0 - -c1883: \* GLUTATHIONYLSPERMIDINE[CCO-CYTOSOL] *\ - \* r2129, glutathionylspermidine + H2O -> glutathione + spermidine *\ - \* r1625, spermidine + glutathione + ATP -> glutathionylspermidine + ADP + phosphate + H+ *\ - - -1.0 r2129 + r1625 = 0 - -c1936: \* AMINO-RIBOSYLAMINO-1H-3H-PYR-DIONE[CCO-CYTOSOL] *\ - \* r2397, 5-amino-6-(5-phospho-D-ribitylamino)uracil + H2O -> 5-amino-6-(D-ribitylamino)uracil + phosphate *\ - \* r1973, 5-amino-6-(D-ribitylamino)uracil + 1-deoxy-L-glycero-tetrulose 4-phosphate -> 6,7-dimethyl-8-(1-D-ribityl)lumazine + phosphate + H+ + 2 H2O *\ - \* r1727, 2 6,7-dimethyl-8-(1-D-ribityl)lumazine + H+ -> 5-amino-6-(D-ribitylamino)uracil + riboflavin *\ - - + r2397 -1.0 r1973 + r1727 = 0 - -c154: \* GLYCEROL-3P[CCO-CYTOSOL] *\ - \* r2443, glycerophosphoglycerol + H2O -> glycerol + sn-glycerol 3-phosphate + H+ *\ - \* r2233, glycerophosphoserine + H2O -> sn-glycerol 3-phosphate + L-serine + H+ *\ - \* r2126, a glycerophosphodiester + H2O -> an alcohol + sn-glycerol 3-phosphate + H+ *\ - \* r1853, sn-glycero-3-phosphoethanolamine + H2O -> sn-glycerol 3-phosphate + ethanolamine + H+ *\ - \* r1752, glycerone phosphate + NAD(P)H + H+ -> sn-glycerol 3-phosphate + NAD(P)+ *\ - \* r1751, glycerone phosphate + NAD(P)H + H+ -> sn-glycerol 3-phosphate + NAD(P)+ *\ - \* r1673, sn-glycerol 3-phosphate + a menaquinone[inner membrane] -> glycerone phosphate + a menaquinol[inner membrane] *\ - \* r1663, sn-glycerol 3-phosphate + an ubiquinone[inner membrane] -> glycerone phosphate + an ubiquinol[inner membrane] *\ - \* r1343, glycerol + ATP -> sn-glycerol 3-phosphate + ADP + H+ *\ - \* r1209b, CMP + an L-1-phosphatidylglycerol-phosphate + H+ -> a CDP-diacylglycerol + sn-glycerol 3-phosphate *\ - \* r1209a, a CDP-diacylglycerol + sn-glycerol 3-phosphate -> CMP + an L-1-phosphatidylglycerol-phosphate + H+ *\ - \* r1208b, CMP + an L-1-phosphatidylglycerol-phosphate + H+ -> a CDP-diacylglycerol + sn-glycerol 3-phosphate *\ - \* r1208a, a CDP-diacylglycerol + sn-glycerol 3-phosphate -> CMP + an L-1-phosphatidylglycerol-phosphate + H+ *\ - \* r994, sn-glycerol 3-phosphate + an acyl-[acyl-carrier protein] -> a 1-acyl-sn-glycerol 3-phosphate + a holo-[acyl-carrier protein] *\ - \* r953, a long-chain acyl-CoA + sn-glycerol 3-phosphate -> a 1-acyl-sn-glycerol 3-phosphate + coenzyme A *\ - - + r2443 + r2233 + r2126 + r1853 + r1752 + r1751 -1.0 r1673 -1.0 r1663 + r1343 + r1209b -1.0 r1209a + r1208b -1.0 r1208a -1.0 r994 -1.0 r953 = 0 - -c2024: \* D-altropyranoses[CCO-CYTOSOL] *\ - \* r1864b, aldehydo-D-altrose -> D-altropyranose *\ - \* r1864a, D-altropyranose -> aldehydo-D-altrose *\ - - + r1864b -1.0 r1864a = 0 - -c1298: \* METHYL-GLYOXAL[CCO-CYTOSOL] *\ - \* r2438b, acetol + NAD+ -> methylglyoxal + NADH + H+ *\ - \* r2438a, methylglyoxal + NADH + H+ -> acetol + NAD+ *\ - \* r2226, methylglyoxal + glutathione -> (R)-S-lactoylglutathione *\ - \* r1691, an aldehyde + NADP+ + H2O -> a carboxylate + NADPH + 2 H+ *\ - \* r1672, glycerone phosphate -> methylglyoxal + phosphate *\ - \* r1426b, methylglyoxal + NADPH + H+ -> acetol + NADP+ *\ - \* r1426a, acetol + NADP+ -> methylglyoxal + NADPH + H+ *\ - \* r1246, methylglyoxal + H2O -> (R)-lactate + H+ *\ - \* r932, methylglyoxal + NADPH + H+ -> (S)-lactaldehyde + NADP+ *\ - - + r2438b -1.0 r2438a -1.0 r2226 -1.0 r1691 + r1672 -1.0 r1426b + r1426a -1.0 r1246 -1.0 r932 = 0 - -c938: \* CPD-650[CCO-CYTOSOL] *\ - \* r680a, a (3R)-3-hydroxyacyl-CoA -> a (3S)-3-hydroxyacyl-CoA *\ - \* r680b, a (3S)-3-hydroxyacyl-CoA -> a (3R)-3-hydroxyacyl-CoA *\ - \* r955a, (R)-3-hydroxybutanoyl-CoA -> crotonyl-CoA + H2O *\ - \* r955b, crotonyl-CoA + H2O -> (R)-3-hydroxybutanoyl-CoA *\ - - -1.0 r680a + r680b -1.0 r955a + r955b = 0 - -c1838: \* N6-L-threonylcarbamoyladenine37-tRNAs[CCO-CYTOSOL] *\ - \* r1581a, N6-L-threonylcarbamoyladenine37 in tRNA + ATP -> cyclic N6-L-threonylcarbamoyladenosine 37 in tRNA + ADP + phosphate *\ - \* r1581b, cyclic N6-L-threonylcarbamoyladenosine 37 in tRNA + ADP + phosphate -> N6-L-threonylcarbamoyladenine37 in tRNA + ATP *\ - - -1.0 r1581a + r1581b = 0 - -c957: \* OCTAPRENYL-DIPHOSPHATE[CCO-CYTOSOL] *\ - \* r2057, all-trans-octaprenyl diphosphate + 4-hydroxybenzoate -> 3-octaprenyl-4-hydroxybenzoate + diphosphate *\ - \* r1908, all-trans-octaprenyl diphosphate + 1,4-dihydroxy-2-naphthoate + H+ -> CO2 + demethylmenaquinol-8 + diphosphate *\ - \* r691, (2E,6E)-farnesyl diphosphate + 5 isopentenyl diphosphate -> all-trans-octaprenyl diphosphate + 5 diphosphate *\ - - -1.0 r2057 -1.0 r1908 + r691 = 0 - -c556: \* FUM[CCO-CYTOSOL] *\ - \* r302, fumarate[periplasmic space] -> fumarate[cytosol] *\ - \* r444, a C4-dicarboxylate[periplasmic space] + 2 H+[periplasmic space] -> a C4-dicarboxylate[cytosol] + 2 H+[cytosol] *\ - \* r514, fumarate[periplasmic space] + 2 H+[periplasmic space] -> fumarate[cytosol] + 2 H+[cytosol] *\ - \* r517, a C4-dicarboxylate[periplasmic space] + 3 H+[periplasmic space] -> a C4-dicarboxylate[cytosol] + 3 H+[cytosol] *\ - \* r531, succinate[cytosol] + fumarate[periplasmic space] -> fumarate[cytosol] + succinate[periplasmic space] *\ - \* r1211, L-aspartate + fumarate -> 2-iminosuccinate + succinate + H+ *\ - \* r1294a, L-aspartate -> ammonium + fumarate *\ - \* r1294b, ammonium + fumarate -> L-aspartate *\ - \* r1635, succinate + an ubiquinone[inner membrane] -> fumarate + an ubiquinol[inner membrane] *\ - \* r1669a, fumarate + a menaquinol[inner membrane] -> succinate + a menaquinone[inner membrane] *\ - \* r1669b, succinate + a menaquinone[inner membrane] -> fumarate + a menaquinol[inner membrane] *\ - \* r1794, adenylo-succinate -> fumarate + AMP *\ - \* r2084a, L-arginino-succinate -> L-arginine + fumarate *\ - \* r2084b, L-arginine + fumarate -> L-arginino-succinate *\ - \* r2110a, (S)-malate -> fumarate + H2O *\ - \* r2110b, fumarate + H2O -> (S)-malate *\ - \* r2362, 5'-phosphoribosyl-4-(N-succinocarboxamide)-5-aminoimidazole -> fumarate + 5-amino-1-(5-phospho-D-ribosyl)imidazole-4-carboxamide *\ - - + r302 + r444 + r514 + r517 + r531 -1.0 r1211 + r1294a -1.0 r1294b + r1635 -1.0 r1669a + r1669b + r1794 + r2084a -1.0 r2084b + r2110a -1.0 r2110b + r2362 = 0 - -c1227: \* CPD-9956[CCO-PM-BAC-NEG] *\ - \* r1906, NADPH + an electron-transfer quinone[inner membrane] + H+ -> NADP+ + an electron-transfer quinol[inner membrane] *\ - \* r1689, pyruvate + an ubiquinone[inner membrane] + H2O -> CO2 + acetate + an ubiquinol[inner membrane] *\ - \* r1688, an electron-transfer quinone[inner membrane] + NAD(P)H + H+ -> an electron-transfer quinol[inner membrane] + NAD(P)+ *\ - \* r1687, an electron-transfer quinone[inner membrane] + NAD(P)H + H+ -> an electron-transfer quinol[inner membrane] + NAD(P)+ *\ - \* r1680, 2 an ubiquinol[inner membrane] + oxygen + 4 H+ -> 2 an ubiquinone[inner membrane] + 2 H2O + 4 H+[periplasmic space] *\ - \* r1671, (S)-dihydroorotate + an ubiquinone[inner membrane] -> orotate + an ubiquinol[inner membrane] *\ - \* r1667, 2 an ubiquinol[inner membrane] + oxygen + 8 H+ -> 2 an ubiquinone[inner membrane] + 2 H2O + 8 H+[periplasmic space] *\ - \* r1665, (R)-lactate + an ubiquinone[inner membrane] -> pyruvate + an ubiquinol[inner membrane] *\ - \* r1663, sn-glycerol 3-phosphate + an ubiquinone[inner membrane] -> glycerone phosphate + an ubiquinol[inner membrane] *\ - \* r1661, D-alanine + an electron-transfer quinone[inner membrane] + H2O -> ammonium + pyruvate + an electron-transfer quinol[inner membrane] *\ - \* r1653, a D-amino acid + an electron-transfer quinone[inner membrane] + H2O -> ammonium + a 2-oxo carboxylate + an electron-transfer quinol[inner membrane] *\ - \* r1651, a D-amino acid + an electron-transfer quinone[inner membrane] + H2O -> ammonium + a 2-oxo carboxylate + an electron-transfer quinol[inner membrane] *\ - \* r1646b, NAD+ + an ubiquinol[inner membrane] + 4 H+[periplasmic space] -> NADH + an ubiquinone[inner membrane] + 5 H+ *\ - \* r1646a, NADH + an ubiquinone[inner membrane] + 5 H+ -> NAD+ + an ubiquinol[inner membrane] + 4 H+[periplasmic space] *\ - \* r1644, NADH + an ubiquinone[inner membrane] + H+ -> NAD+ + an ubiquinol[inner membrane] *\ - \* r1637, (S)-dihydroorotate + an electron-transfer quinone[inner membrane] -> orotate + an electron-transfer quinol[inner membrane] *\ - \* r1635, succinate + an ubiquinone[inner membrane] -> fumarate + an ubiquinol[inner membrane] *\ - \* r1167, (S)-malate + an electron-transfer quinone[inner membrane] -> oxaloacetate + an electron-transfer quinol[inner membrane] *\ - \* r864, L-proline + an ubiquinone[inner membrane] -> (S)-1-pyrroline-5-carboxylate + an ubiquinol[inner membrane] + H+ *\ - - + r1906 + r1689 + r1688 + r1687 -2.0 r1680 + r1671 -2.0 r1667 + r1665 + r1663 + r1661 + r1653 + r1651 -1.0 r1646b + r1646a + r1644 + r1637 + r1635 + r1167 + r864 = 0 - -c363: \* CPD-13406[CCO-CYTOSOL] *\ - \* r2170, glycyl-L-aspartate + H2O -> glycine + L-aspartate *\ - \* r559, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r184, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - - -1.0 r2170 + r559 + r184 = 0 - -c613: \* PHE[CCO-CYTOSOL] *\ - \* r1994, a tRNAphe + L-phenylalanine + ATP + H+ -> an L-phenylalanyl-[tRNAphe] + AMP + diphosphate *\ - \* r1884b, L-phenylalanine + 2-oxoglutarate -> 2-oxo-3-phenylpropanoate + L-glutamate *\ - \* r1884a, 2-oxo-3-phenylpropanoate + L-glutamate -> L-phenylalanine + 2-oxoglutarate *\ - \* r478, L-phenylalanine[periplasmic space] + H+[periplasmic space] -> L-phenylalanine[cytosol] + H+[cytosol] *\ - \* r453, an aromatic amino acid[cytosol] -> an aromatic amino acid[periplasmic space] *\ - \* r343, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - - -1.0 r1994 -1.0 r1884b + r1884a + r478 -1.0 r453 -1.0 r343 = 0 - -c27: \* GLYCERALD[CCO-PERI-BAC] *\ - \* r15b, DL-glyceraldehyde[cytosol] -> DL-glyceraldehyde[periplasmic space] *\ - \* r15a, DL-glyceraldehyde[periplasmic space] -> DL-glyceraldehyde[cytosol] *\ - - + r15b -1.0 r15a = 0 - -c110: \* URIDINE[CCO-PERI-BAC] *\ - \* r614, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r539, uridine[periplasmic space] + H+[periplasmic space] -> uridine[cytosol] + H+[cytosol] *\ - \* r54, a nucleoside[extracellular space] -> a nucleoside[periplasmic space] *\ - - -1.0 r614 -1.0 r539 + r54 = 0 - -c385: \* CPD-13403[CCO-CYTOSOL] *\ - \* r2367, L-alanyl-L-glutamine + H2O -> L-alanine + L-glutamine *\ - \* r570, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r195, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - - -1.0 r2367 + r570 + r195 = 0 - -c361: \* CPD-13401[CCO-CYTOSOL] *\ - \* r1385, L-alanyl-L-histidine + H2O -> L-alanine + L-histidine *\ - \* r558, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r183, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - - -1.0 r1385 + r558 + r183 = 0 - -c375: \* CPD-13404[CCO-CYTOSOL] *\ - \* r1288, L-alanyl-L-aspartate + H2O -> L-alanine + L-aspartate *\ - \* r565, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r190, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - - -1.0 r1288 + r565 + r190 = 0 - -c708: \* ACET[CCO-PERI-BAC] *\ - \* r2474_e, acetate *\ - \* r2217b, a carboxylate[periplasmic space] + FADH2[periplasmic space] -> an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] *\ - \* r2217a, an aldehyde[periplasmic space] + FAD[periplasmic space] + H2O[periplasmic space] -> a carboxylate[periplasmic space] + FADH2[periplasmic space] *\ - \* r653b, acetate[periplasmic space] -> acetate[cytosol] *\ - \* r653a, acetate[cytosol] -> acetate[periplasmic space] *\ - \* r542, acetate[periplasmic space] + H+[periplasmic space] -> acetate[cytosol] + H+[cytosol] *\ - \* r419, acetate[periplasmic space] -> acetate[cytosol] *\ - - -1.0 r2474_e -1.0 r2217b + r2217a -1.0 r653b + r653a -1.0 r542 -1.0 r419 = 0 - -c529: \* L-SELENOCYSTEINE[CCO-PERI-BAC] *\ - \* r331, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - \* r285, L-selenocysteine[periplasmic space] -> L-selenocysteine[cytosol] *\ - - + r331 -1.0 r285 = 0 - -c2208: \* CPD-15711[CCO-CYTOSOL] *\ - \* r2353b, beta-D-mannose 6-phosphate -> alpha-D-mannose 6-phosphate *\ - \* r2353a, alpha-D-mannose 6-phosphate -> beta-D-mannose 6-phosphate *\ - - -1.0 r2353b + r2353a = 0 - -c2233: \* 3-P-SERINE[CCO-PERI-BAC] *\ - \* r2431, 3-phospho-L-serine + H2O -> L-serine + phosphate *\ - - -1.0 r2431 = 0 - -c1854: \* 3OH-4P-OH-ALPHA-KETOBUTYRATE[CCO-CYTOSOL] *\ - \* r1715b, 4-phospho-hydroxy-L-threonine + 2-oxoglutarate -> 2-oxo-3-hydroxy-4-phosphobutanoate + L-glutamate *\ - \* r1715a, 2-oxo-3-hydroxy-4-phosphobutanoate + L-glutamate -> 4-phospho-hydroxy-L-threonine + 2-oxoglutarate *\ - \* r1598, erythronate-4-phosphate + NAD+ -> 2-oxo-3-hydroxy-4-phosphobutanoate + NADH + H+ *\ - - + r1715b -1.0 r1715a + r1598 = 0 - -c1053: \* P-HYDROXY-PHENYLPYRUVATE[CCO-CYTOSOL] *\ - \* r1804, prephenate + NAD+ -> 4-hydroxyphenylpyruvate + CO2 + NADH *\ - \* r744b, 4-hydroxyphenylpyruvate + L-glutamate -> L-tyrosine + 2-oxoglutarate *\ - \* r744a, L-tyrosine + 2-oxoglutarate -> 4-hydroxyphenylpyruvate + L-glutamate *\ - - + r1804 -1.0 r744b + r744a = 0 - -c887: \* Lactate[CCO-CYTOSOL] *\ - \* r644b, lactate[periplasmic space] -> lactate[cytosol] *\ - \* r644a, lactate[cytosol] -> lactate[periplasmic space] *\ - - + r644b -1.0 r644a = 0 - -c231: \* CPD0-1048[CCO-CYTOSOL] *\ - \* r1344b, octyl beta-1,6-D-galactofuranosyl-alpha-D-glucopyranoside + UDP + H+ -> octyl alpha-D-glucopyranoside + UDP-alpha-D-galactofuranose *\ - \* r1344a, octyl alpha-D-glucopyranoside + UDP-alpha-D-galactofuranose -> octyl beta-1,6-D-galactofuranosyl-alpha-D-glucopyranoside + UDP + H+ *\ - \* r269, a lipopolysaccharide[cytosol] -> a lipopolysaccharide[extracellular space] *\ - \* r117, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - - + r1344b -1.0 r1344a -1.0 r269 -1.0 r117 = 0 - -c1449: \* L-1-PHOSPHATIDYL-ETHANOLAMINE[CCO-CYTOSOL] *\ - \* r1985b, a 1,2-diacyl-sn-glycerol + 7-O-[2-aminoethoxy(hydroxy)phosphoryl]-alpha-D-Kdo-(2->4)-alpha-D-Kdo-(2->6)-lipid A -> an L-1-phosphatidylethanolamine + alpha-D-Kdo-(2->4)-alpha-D-Kdo-(2->6)-lipid A *\ - \* r1985a, an L-1-phosphatidylethanolamine + alpha-D-Kdo-(2->4)-alpha-D-Kdo-(2->6)-lipid A -> a 1,2-diacyl-sn-glycerol + 7-O-[2-aminoethoxy(hydroxy)phosphoryl]-alpha-D-Kdo-(2->4)-alpha-D-Kdo-(2->6)-lipid A *\ - \* r1100b, a holo-[acyl-carrier protein] + an L-1-phosphatidylethanolamine -> an acyl-[acyl-carrier protein] + a 2-acyl-1-lyso-phosphatidylethanolamine *\ - \* r1100a, an acyl-[acyl-carrier protein] + a 2-acyl-1-lyso-phosphatidylethanolamine -> a holo-[acyl-carrier protein] + an L-1-phosphatidylethanolamine *\ - - + r1985b -1.0 r1985a -1.0 r1100b + r1100a = 0 - -c233: \* CPD0-1049[CCO-CYTOSOL] *\ - \* r1344b, octyl beta-1,6-D-galactofuranosyl-alpha-D-glucopyranoside + UDP + H+ -> octyl alpha-D-glucopyranoside + UDP-alpha-D-galactofuranose *\ - \* r1344a, octyl alpha-D-glucopyranoside + UDP-alpha-D-galactofuranose -> octyl beta-1,6-D-galactofuranosyl-alpha-D-glucopyranoside + UDP + H+ *\ - \* r270, a lipopolysaccharide[cytosol] -> a lipopolysaccharide[extracellular space] *\ - \* r118, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - - -1.0 r1344b + r1344a -1.0 r270 -1.0 r118 = 0 - -c577: \* THYMINE[CCO-CYTOSOL] *\ - \* r313, thymine[cytosol] -> thymine[periplasmic space] *\ - \* r1073a, thymidine + phosphate -> 2-deoxy-alpha-D-ribose 1-phosphate + thymine *\ - \* r1073b, 2-deoxy-alpha-D-ribose 1-phosphate + thymine -> thymidine + phosphate *\ - \* r1370a, 5,6-dihydrothymine + NAD+ -> thymine + NADH + H+ *\ - \* r1370b, thymine + NADH + H+ -> 5,6-dihydrothymine + NAD+ *\ - - -1.0 r313 + r1073a -1.0 r1073b + r1370a -1.0 r1370b = 0 - -c2074: \* PHE-tRNAs[CCO-CYTOSOL] *\ - \* objReactionName, a tRNAphe *\ - \* r1994, a tRNAphe + L-phenylalanine + ATP + H+ -> an L-phenylalanyl-[tRNAphe] + AMP + diphosphate *\ - - +0.180021 objReactionName -1.0 r1994 = 0 - -c1643: \* D-ALLULOSE-6-PHOSPHATE[CCO-CYTOSOL] *\ - \* r2401, D-allulose 6-phosphate -> beta-D-fructofuranose 6-phosphate *\ - \* r1323b, D-allulose 6-phosphate -> aldehydo-D-allose 6-phosphate *\ - \* r1323a, aldehydo-D-allose 6-phosphate -> D-allulose 6-phosphate *\ - - -1.0 r2401 -1.0 r1323b + r1323a = 0 - -c1810: \* 5-FORMYL-THF[CCO-CYTOSOL] *\ - \* r1989b, an N5-formyl-tetrahydrofolate + H+ -> a 5,10-methenyltetrahydrofolate + H2O *\ - \* r1989a, a 5,10-methenyltetrahydrofolate + H2O -> an N5-formyl-tetrahydrofolate + H+ *\ - \* r1549, an N5-formyl-tetrahydrofolate + ATP -> a 5,10-methenyltetrahydrofolate + ADP + phosphate *\ - - -1.0 r1989b + r1989a -1.0 r1549 = 0 - -c2064: \* PHOSPHORIBOSYL-AMP[CCO-CYTOSOL] *\ - \* r2339, 1-(5-phospho-beta-D-ribosyl)-AMP + H2O -> 1-(5-phospho-beta-D-ribosyl)-5-[(5-phosphoribosylamino)methylideneamino]imidazole-4-carboxamide *\ - \* r1957, 1-(5-phospho-beta-D-ribosyl)-ATP + H2O -> 1-(5-phospho-beta-D-ribosyl)-AMP + diphosphate + 2 H+ *\ - - -1.0 r2339 + r1957 = 0 - -c2197: \* CPD-703[CCO-CYTOSOL] *\ - \* r2326b, 4-nitrobenzaldehyde + NADPH + H+ -> 4-nitrobenzyl alcohol + NADP+ *\ - \* r2326a, 4-nitrobenzyl alcohol + NADP+ -> 4-nitrobenzaldehyde + NADPH + H+ *\ - - -1.0 r2326b + r2326a = 0 - -c481: \* CPD0-930[CCO-EXTRACELLULAR] *\ - \* r249, a lipopolysaccharide[cytosol] -> a lipopolysaccharide[extracellular space] *\ - - + r249 = 0 - -c1651: \* UDP-ACETYL-CARBOXYVINYL-GLUCOSAMINE[CCO-CYTOSOL] *\ - \* r1831, UDP-N-acetyl-alpha-D-glucosamine + phosphoenolpyruvate -> UDP-N-acetyl-alpha-D-glucosamine-enolpyruvate + phosphate *\ - \* r1332, UDP-N-acetyl-alpha-D-glucosamine-enolpyruvate + NADPH + H+ -> UDP-N-acetyl-alpha-D-muramate + NADP+ *\ - - + r1831 -1.0 r1332 = 0 - -c818: \* 5-DEHYDROGLUCONATE[CCO-CYTOSOL] *\ - \* r695a, D-gluconate + NAD+ -> 5-dehydro-D-gluconate + NADH + H+ *\ - \* r695b, 5-dehydro-D-gluconate + NADH + H+ -> D-gluconate + NAD+ *\ - \* r755a, D-gluconate + NAD(P)+ -> 5-dehydro-D-gluconate + NAD(P)H + H+ *\ - \* r755b, 5-dehydro-D-gluconate + NAD(P)H + H+ -> D-gluconate + NAD(P)+ *\ - \* r756a, D-gluconate + NAD(P)+ -> 5-dehydro-D-gluconate + NAD(P)H + H+ *\ - \* r756b, 5-dehydro-D-gluconate + NAD(P)H + H+ -> D-gluconate + NAD(P)+ *\ - \* r760a, L-idonate + NAD(P)+ -> 5-dehydro-D-gluconate + NAD(P)H + H+ *\ - \* r760b, 5-dehydro-D-gluconate + NAD(P)H + H+ -> L-idonate + NAD(P)+ *\ - \* r761a, L-idonate + NAD(P)+ -> 5-dehydro-D-gluconate + NAD(P)H + H+ *\ - \* r761b, 5-dehydro-D-gluconate + NAD(P)H + H+ -> L-idonate + NAD(P)+ *\ - \* r1521, 2,5-didehydro-D-gluconate + NADPH + H+ -> 5-dehydro-D-gluconate + NADP+ *\ - - + r695a -1.0 r695b + r755a -1.0 r755b + r756a -1.0 r756b + r760a -1.0 r760b + r761a -1.0 r761b + r1521 = 0 - -c2153: \* tRNA-pseudouridine65[CCO-CYTOSOL] *\ - \* r2207b, a tRNA pseudouridine65 -> a uridine65 in tRNA *\ - \* r2207a, a uridine65 in tRNA -> a tRNA pseudouridine65 *\ - - -1.0 r2207b + r2207a = 0 - -c167: \* PRO[CCO-PERI-BAC] *\ - \* r628, L-proline[periplasmic space] + H+[periplasmic space] -> L-proline[cytosol] + H+[cytosol] *\ - \* r529, Na+[periplasmic space] + L-proline[periplasmic space] -> Na+[cytosol] + L-proline[cytosol] *\ - \* r335, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - \* r85, ATP + L-proline[periplasmic space] + H2O -> ADP + L-proline[cytosol] + phosphate + H+ *\ - - -1.0 r628 -1.0 r529 + r335 -1.0 r85 = 0 - -c1524: \* CPD-13059[CCO-CYTOSOL] *\ - \* r2212b, 2-keto-L-gulonate + NAD(P)+ -> 2,5-didehydro-D-gluconate + NAD(P)H + H+ *\ - \* r2212a, 2,5-didehydro-D-gluconate + NAD(P)H + H+ -> 2-keto-L-gulonate + NAD(P)+ *\ - \* r2211b, 2-keto-L-gulonate + NAD(P)+ -> 2,5-didehydro-D-gluconate + NAD(P)H + H+ *\ - \* r2211a, 2,5-didehydro-D-gluconate + NAD(P)H + H+ -> 2-keto-L-gulonate + NAD(P)+ *\ - \* r1705, 2,5-didehydro-D-gluconate + NADPH + H+ -> 2-keto-L-gulonate + NADP+ *\ - \* r1206, 2-keto-L-gulonate + NADPH + H+ -> L-idonate + NADP+ *\ - - -1.0 r2212b + r2212a -1.0 r2211b + r2211a + r1705 -1.0 r1206 = 0 - -c874: \* CPD-15189[CCO-PERI-BAC] *\ - \* r643, chenodeoxycholate[periplasmic space] -> chenodeoxycholate[cytosol] *\ - \* r633, chenodeoxycholate[cytosol] + H+[periplasmic space] -> chenodeoxycholate[periplasmic space] + H+[cytosol] *\ - - -1.0 r643 + r633 = 0 - -c1571: \* CPD-15360[CCO-CYTOSOL] *\ - \* r1767a, N6-dimethylallyladenosine37 in tRNA + a sulfurated [sulfur carrier] + S-adenosyl-L-methionine + an unknown reduced electron acceptor -> 2-thio-N6-dimethylallyladenosine37 in tRNA + an unsulfurated [sulfur carrier] + 5'-deoxyadenosine + L-methionine + an unknown oxidized electron acceptor + H+ *\ - \* r1767b, 2-thio-N6-dimethylallyladenosine37 in tRNA + an unsulfurated [sulfur carrier] + 5'-deoxyadenosine + L-methionine + an unknown oxidized electron acceptor + H+ -> N6-dimethylallyladenosine37 in tRNA + a sulfurated [sulfur carrier] + S-adenosyl-L-methionine + an unknown reduced electron acceptor *\ - - + r1767a -1.0 r1767b = 0 - -c234: \* CPD0-1049[CCO-PERI-BAC] *\ - \* r118, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - - + r118 = 0 - -c1699: \* 2-D-THREO-HYDROXY-3-CARBOXY-ISOCAPROATE[CCO-CYTOSOL] *\ - \* r2130b, (2S)-2-isopropyl-3-oxosuccinate + NADH + H+ -> (2R,3S)-3-isopropylmalate + NAD+ *\ - \* r2130a, (2R,3S)-3-isopropylmalate + NAD+ -> (2S)-2-isopropyl-3-oxosuccinate + NADH + H+ *\ - \* r1392, 2-isopropylmaleate + H2O -> (2R,3S)-3-isopropylmalate *\ - - + r2130b -1.0 r2130a + r1392 = 0 - -c23: \* NITRITE[CCO-PERI-BAC] *\ - \* r13, nitrite[periplasmic space] -> nitrite[cytosol] *\ - \* r537, nitrite[cytosol] + H+[periplasmic space] -> nitrite[periplasmic space] + H+[cytosol] *\ - - -1.0 r13 + r537 = 0 - -c255: \* CYSTINE[CCO-PERI-BAC] *\ - \* r300, cystine[cytosol] -> cystine[periplasmic space] *\ - \* r295, L-cystine[cytosol] -> L-cystine[periplasmic space] *\ - \* r129, L-cystine[periplasmic space] + ATP + H2O -> L-cystine[cytosol] + ADP + phosphate + H+ *\ - - + r300 + r295 -1.0 r129 = 0 - -c655: \* C6[CCO-CYTOSOL] *\ - \* r2160b, ditrans,octacis-undecaprenyldiphospho-N-acetyl-(N-acetylglucosaminyl)muramoyl-L-alanyl-gamma-D-glutamyl-meso-2,6-diaminopimeloyl-D-alanyl-D-alanine + UDP + H+ -> undecaprenyldiphospho-N-acetylmuramoyl-L-alanyl-gamma-D-glutamyl-meso-2,6-diaminopimeloyl-D-alanyl-D-alanine + UDP-N-acetyl-alpha-D-glucosamine *\ - \* r2160a, undecaprenyldiphospho-N-acetylmuramoyl-L-alanyl-gamma-D-glutamyl-meso-2,6-diaminopimeloyl-D-alanyl-D-alanine + UDP-N-acetyl-alpha-D-glucosamine -> ditrans,octacis-undecaprenyldiphospho-N-acetyl-(N-acetylglucosaminyl)muramoyl-L-alanyl-gamma-D-glutamyl-meso-2,6-diaminopimeloyl-D-alanyl-D-alanine + UDP + H+ *\ - \* r1855, a peptidoglycan + H2O -> a N-acetylmuramoyl-pentapeptide-diphosphoundecaprenol + N-acetyl-D-glucosamine *\ - \* r372, ditrans,octacis-undecaprenyldiphospho-N-acetyl-(N-acetylglucosaminyl)muramoyl-L-alanyl-gamma-D-glutamyl-meso-2,6-diaminopimeloyl-D-alanyl-D-alanine[cytosol] -> ditrans,octacis-undecaprenyldiphospho-N-acetyl-(N-acetylglucosaminyl)muramoyl-L-alanyl-gamma-D-glutamyl-meso-2,6-diaminopimeloyl-D-alanyl-D-alanine[periplasmic space] *\ - - -1.0 r2160b + r2160a -1.0 r1855 -1.0 r372 = 0 - -c633: \* N5-METHYLGLUTAMINE[CCO-CYTOSOL] *\ - \* r356, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - - -1.0 r356 = 0 - -c1589: \* POLYMER-INST-CPD66-39-C16-H32[CCO-CYTOSOL] *\ - \* r1279, a 2,3,4-saturated fatty acid + ATP + coenzyme A -> a 2,3,4-saturated fatty acyl CoA + AMP + diphosphate *\ - - -1.0 r1279 = 0 - -c388: \* D-ALA-D-ALA[CCO-PERI-BAC] *\ - \* r572, a dipeptide[periplasmic space] + H+[periplasmic space] -> a dipeptide[cytosol] + H+[cytosol] *\ - \* r197, ATP + a dipeptide[periplasmic space] + H2O -> ADP + a dipeptide[cytosol] + phosphate + H+ *\ - - -1.0 r572 -1.0 r197 = 0 - -c232: \* CPD0-1048[CCO-PERI-BAC] *\ - \* r117, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - - + r117 = 0 - -c13: \* GLYCEROL[CCO-PERI-BAC] *\ - \* r2478_e, glycerol *\ - \* r1841, glycerol 2-phosphate + H2O -> glycerol + phosphate *\ - \* r7b, glycerol[cytosol] -> glycerol[periplasmic space] *\ - \* r7a, glycerol[periplasmic space] -> glycerol[cytosol] *\ - - -1.0 r2478_e + r1841 + r7b -1.0 r7a = 0 - -c1892: \* METHIONYL-PEPTIDE[CCO-CYTOSOL] *\ - \* objReactionName, a [protein] N-terminal L-methionine *\ - \* r1645, a [protein] N-terminal-formyl-L-methionine + H2O -> a [protein] N-terminal L-methionine + formate *\ - - -0.00001 objReactionName + r1645 = 0 - -c1182: \* CPD-469[CCO-CYTOSOL] *\ - \* r1558b, N-acetylglutamyl-phosphate + NADPH + H+ -> N-acetyl-L-glutamate 5-semialdehyde + NADP+ + phosphate *\ - \* r1558a, N-acetyl-L-glutamate 5-semialdehyde + NADP+ + phosphate -> N-acetylglutamyl-phosphate + NADPH + H+ *\ - \* r831, N-acetyl-L-glutamate 5-semialdehyde + L-glutamate -> N-acetyl-L-ornithine + 2-oxoglutarate *\ - - + r1558b -1.0 r1558a -1.0 r831 = 0 - -c748: \* GLYCOLLATE[CCO-CYTOSOL] *\ - \* r776, glycolaldehyde + NAD+ + H2O -> glycolate + NADH + 2 H+ *\ - \* r1530, glycolate + an unknown oxidized electron acceptor -> glyoxylate + an unknown reduced electron acceptor *\ - \* r2332, glyoxylate + NADPH + H+ -> glycolate + NADP+ *\ - \* r2505_e, glycolate *\ - - + r776 -1.0 r1530 + r2332 -1.0 r2505_e = 0 - -c2049: \* CPD-12115[CCO-CYTOSOL] *\ - \* objReactionName, demethylmenaquinol-8 *\ - \* r2263, S-adenosyl-L-methionine + demethylmenaquinol-8 -> S-adenosyl-L-homocysteine + menaquinol-8 + H+ *\ - \* r1908, all-trans-octaprenyl diphosphate + 1,4-dihydroxy-2-naphthoate + H+ -> CO2 + demethylmenaquinol-8 + diphosphate *\ - - -0.000223 objReactionName -1.0 r2263 + r1908 = 0 - -c1108: \* Pyruvate-dehydrogenase-acetylDHlipoyl[CCO-CYTOSOL] *\ - \* r2407, pyruvate + a [pyruvate dehydrogenase E2 protein] N6-lipoyl-L-lysine + H+ -> a [pyruvate dehydrogenase E2 protein] N6-S-acetyldihydrolipoyl-L-lysine + CO2 *\ - \* r2122b, a [pyruvate dehydrogenase E2 protein] N6-S-acetyldihydrolipoyl-L-lysine + thiamin diphosphate -> 2-(alpha-hydroxyethyl)thiamine diphosphate + a [pyruvate dehydrogenase E2 protein] N6-lipoyl-L-lysine *\ - \* r2122a, 2-(alpha-hydroxyethyl)thiamine diphosphate + a [pyruvate dehydrogenase E2 protein] N6-lipoyl-L-lysine -> a [pyruvate dehydrogenase E2 protein] N6-S-acetyldihydrolipoyl-L-lysine + thiamin diphosphate *\ - \* r781, a [pyruvate dehydrogenase E2 protein] N6-S-acetyldihydrolipoyl-L-lysine + coenzyme A -> acetyl-CoA + a [pyruvate dehydrogenase E2 protein] N6-dihydrolipoyl-L-lysine *\ - - + r2407 -1.0 r2122b + r2122a -1.0 r781 = 0 - -c628: \* CPD-424[CCO-PERI-BAC] *\ - \* r353, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - - + r353 = 0 - -c307: \* L-ASPARTATE[CCO-CYTOSOL] *\ - \* r156, ATP + L-aspartate[periplasmic space] + H2O -> L-aspartate[cytosol] + ADP + phosphate + H+ *\ - \* r338, an L-amino acid[cytosol] -> an L-amino acid[periplasmic space] *\ - \* r374, L-aspartate[periplasmic space] -> L-aspartate[cytosol] *\ - \* r442, a C4-dicarboxylate[periplasmic space] + 2 H+[periplasmic space] -> a C4-dicarboxylate[cytosol] + 2 H+[cytosol] *\ - \* r505, L-aspartate[periplasmic space] + 2 H+[periplasmic space] -> L-aspartate[cytosol] + 2 H+[cytosol] *\ - \* r515, a C4-dicarboxylate[periplasmic space] + 3 H+[periplasmic space] -> a C4-dicarboxylate[cytosol] + 3 H+[cytosol] *\ - \* r631, succinate[cytosol] + L-aspartate[periplasmic space] -> L-aspartate[cytosol] + succinate[periplasmic space] *\ - \* r689, L-aspartate + carbamoyl-phosphate -> N-carbamoyl-L-aspartate + phosphate + H+ *\ - \* r812, L-aspartate + oxygen -> hydrogen peroxide + 2-iminosuccinate + H+ *\ - \* r1205a, L-aspartate + 2-oxoglutarate -> oxaloacetate + L-glutamate *\ - \* r1205b, oxaloacetate + L-glutamate -> L-aspartate + 2-oxoglutarate *\ - \* r1211, L-aspartate + fumarate -> 2-iminosuccinate + succinate + H+ *\ - \* r1288, L-alanyl-L-aspartate + H2O -> L-alanine + L-aspartate *\ - \* r1294a, L-aspartate -> ammonium + fumarate *\ - \* r1294b, ammonium + fumarate -> L-aspartate *\ - \* r1391, L-aspartate + ATP -> L-aspartyl-4-phosphate + ADP *\ - \* r1492a, pyridoxamine + oxaloacetate -> pyridoxal + L-aspartate *\ - \* r1492b, pyridoxal + L-aspartate -> pyridoxamine + oxaloacetate *\ - \* r1573, L-aspartate + L-citrulline + ATP -> L-arginino-succinate + AMP + diphosphate + H+ *\ - \* r1681, L-aspartate + IMP + GTP -> adenylo-succinate + GDP + phosphate + 2 H+ *\ - \* r1704, L-aspartate + ammonium + ATP -> L-asparagine + AMP + diphosphate + H+ *\ - \* r1721, ATP + 5-amino-1-(5-phospho-D-ribosyl)imidazole-4-carboxylate + L-aspartate -> ADP + 5'-phosphoribosyl-4-(N-succinocarboxamide)-5-aminoimidazole + phosphate + H+ *\ - \* r1995, L-aspartate + H+ -> beta-alanine + CO2 *\ - \* r2170, glycyl-L-aspartate + H2O -> glycine + L-aspartate *\ - \* r2285, L-asparagine + H2O -> L-aspartate + ammonium *\ - \* r2378, tRNAasp + L-aspartate + ATP + H+ -> L-aspartyl-tRNAasp + AMP + diphosphate *\ - \* r2404, L-glutamine + L-aspartate + ATP + H2O -> L-glutamate + L-asparagine + AMP + diphosphate + H+ *\ - - + r156 -1.0 r338 + r374 + r442 + r505 + r515 + r631 -1.0 r689 -1.0 r812 -1.0 r1205a + r1205b -1.0 r1211 + r1288 -1.0 r1294a + r1294b -1.0 r1391 + r1492a -1.0 r1492b -1.0 r1573 - -1.0 r1681 -1.0 r1704 -1.0 r1721 -1.0 r1995 + r2170 + r2285 -1.0 r2378 -1.0 r2404 = 0 - -c1133: \* Beta-hydroxydecanoyl-ACPs[CCO-CYTOSOL] *\ - \* r1139, a 3-oxoacyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxyacyl-[acyl-carrier protein] + NADP+ *\ - \* r964, a (3R)-3-hydroxydecanoyl-[acp] -> a trans-delta2-decenoyl-[acp] + H2O *\ - \* r811, a 3-oxo-decanoyl-[acp] + NADPH + H+ -> a (3R)-3-hydroxydecanoyl-[acp] + NADP+ *\ - \* r794, a (3R)-3-hydroxyacyl-[acyl-carrier protein] -> a trans-2-enoyl-[acyl-carrier protein] + H2O *\ - - + r1139 -1.0 r964 + r811 -1.0 r794 = 0 - -c1019: \* OH-HEXANOYL-COA[CCO-CYTOSOL] *\ - \* r1377, a (3S)-3-hydroxyacyl-CoA + NAD+ -> a 3-oxoacyl-CoA + NADH + H+ *\ - \* r726, a trans-2-enoyl-CoA + H2O -> a (3S)-3-hydroxyacyl-CoA *\ - - -1.0 r1377 + r726 = 0 - -c740: \* D-TRYPTOPHAN[CCO-CYTOSOL] *\ - \* r457, an aromatic amino acid[cytosol] -> an aromatic amino acid[periplasmic space] *\ - - -1.0 r457 = 0 - -c1647: \* Charged-TRP-tRNAs[CCO-CYTOSOL] *\ - \* objReactionName, an L-tryptophanyl-[tRNAtrp] *\ - \* r1329, L-tryptophan + a tRNAtrp + ATP + H+ -> an L-tryptophanyl-[tRNAtrp] + AMP + diphosphate *\ - - -0.055234 objReactionName + r1329 = 0 - -c1474: \* GLC-1-P[CCO-CYTOSOL] *\ - \* r2381b, alpha-D-glucose 6-phosphate -> alpha-D-glucose 1-phosphate *\ - \* r2381a, alpha-D-glucose 1-phosphate -> alpha-D-glucose 6-phosphate *\ - \* r2307b, beta-D-glucose 1-phosphate -> alpha-D-glucose 1-phosphate *\ - \* r2307a, alpha-D-glucose 1-phosphate -> beta-D-glucose 1-phosphate *\ - \* r2236b, maltopentaose + alpha-D-glucose 1-phosphate -> maltohexaose + phosphate *\ - \* r2236a, maltohexaose + phosphate -> maltopentaose + alpha-D-glucose 1-phosphate *\ - \* r2197b, dTDP-alpha-D-glucose + diphosphate -> alpha-D-glucose 1-phosphate + dTTP + H+ *\ - \* r2197a, alpha-D-glucose 1-phosphate + dTTP + H+ -> dTDP-alpha-D-glucose + diphosphate *\ - \* r2119, alpha-D-glucose 1-phosphate + H2O -> D-glucopyranose + phosphate *\ - \* r1946b, maltotriose + alpha-D-glucose 1-phosphate -> maltotetraose + phosphate *\ - \* r1946a, maltotetraose + phosphate -> maltotriose + alpha-D-glucose 1-phosphate *\ - \* r1833, alpha-D-glucose 1-phosphate + ATP + H+ -> ADP-alpha-D-glucose + diphosphate *\ - \* r1764b, maltohexaose + alpha-D-glucose 1-phosphate -> maltoheptaose + phosphate *\ - \* r1764a, maltoheptaose + phosphate -> maltohexaose + alpha-D-glucose 1-phosphate *\ - \* r1335, alpha-D-glucose 1-phosphate + UTP + H+ -> UDP-alpha-D-glucose + diphosphate *\ - \* r1331b, UDP-alpha-D-galactose + alpha-D-glucose 1-phosphate -> UDP-alpha-D-glucose + alpha-D-galactose 1-phosphate *\ - \* r1331a, UDP-alpha-D-glucose + alpha-D-galactose 1-phosphate -> UDP-alpha-D-galactose + alpha-D-glucose 1-phosphate *\ - \* r1131b, alpha-D-glucose 1-phosphate + maltotetraose -> maltopentaose + phosphate *\ - \* r1131a, maltopentaose + phosphate -> alpha-D-glucose 1-phosphate + maltotetraose *\ - - + r2381b -1.0 r2381a + r2307b -1.0 r2307a -1.0 r2236b + r2236a + r2197b -1.0 r2197a -1.0 r2119 -1.0 r1946b + r1946a -1.0 r1833 -1.0 r1764b + r1764a -1.0 r1335 -1.0 r1331b + r1331a -1.0 r1131b + r1131a = 0 - -c195: \* CPD0-934[CCO-CYTOSOL] *\ - \* r1523, glucosyl-(heptosyl)2-Kdo2-lipid A-phosphate + ADP-L-glycero-beta-D-manno-heptose -> glucosyl-(heptosyl)3-Kdo2-lipid A-phosphate + ADP + H+ *\ - \* r934, glucosyl-(heptosyl)3-Kdo2-lipid A-phosphate + ATP -> glucosyl-(heptosyl)3-Kdo2-lipid A-bisphosphate + ADP + H+ *\ - \* r251, a lipopolysaccharide[cytosol] -> a lipopolysaccharide[extracellular space] *\ - \* r99, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - - + r1523 -1.0 r934 -1.0 r251 -1.0 r99 = 0 - -c2037: \* 3-KETO-L-GULONATE[CCO-CYTOSOL] *\ - \* r2379, 2,3-dioxo-L-gulonate + NADH + H+ -> 3-keto-L-gulonate + NAD+ *\ - \* r1886, 3-keto-L-gulonate + ATP -> 3-keto-L-gulonate 6-phosphate + ADP + H+ *\ - - + r2379 -1.0 r1886 = 0 - -c781: \* Glucopyranose[CCO-CYTOSOL] *\ - \* r2119, alpha-D-glucose 1-phosphate + H2O -> D-glucopyranose + phosphate *\ - \* r2050b, maltotetraose + maltose -> maltopentaose + D-glucopyranose *\ - \* r2050a, maltopentaose + D-glucopyranose -> maltotetraose + maltose *\ - \* r1437, maltotriose + H2O -> maltose + D-glucopyranose *\ - \* r1421, alpha,alpha-trehalose 6-phosphate + H2O -> beta-D-glucose 6-phosphate + D-glucopyranose *\ - \* r1291, maltotriose + maltose -> maltotetraose + D-glucopyranose *\ - - + r2119 + r2050b -1.0 r2050a + r1437 + r1421 + r1291 = 0 - -c56: \* GLY[CCO-CYTOSOL] *\ - \* r2437, a tRNAgly + glycine + ATP + H+ -> a glycyl-[tRNAgly] + AMP + diphosphate *\ - \* r2359b, glycolaldehyde + glycine -> 4-hydroxy-L-threonine *\ - \* r2359a, 4-hydroxy-L-threonine -> glycolaldehyde + glycine *\ - \* r2334b, acetaldehyde + glycine -> DL-allothreonine *\ - \* r2334a, DL-allothreonine -> acetaldehyde + glycine *\ - \* r2170, glycyl-L-aspartate + H2O -> glycine + L-aspartate *\ - \* r2081, glycyl-L-glutamine + H2O -> glycine + L-glutamine *\ - \* r2017, L-threonine -> acetaldehyde + glycine *\ - \* r1877, L-alanyl-glycine + H2O -> L-alanine + glycine *\ - \* r1846, ATP + 5-phospho-beta-D-ribosylamine + glycine -> ADP + N1-(5-phospho-beta-D-ribosyl)glycinamide + phosphate + H+ *\ - \* r1815b, 2-oxo-4-methylthiobutanoate + a standard alpha amino acid -> L-methionine + a 2-oxo carboxylate *\ - \* r1815a, L-methionine + a 2-oxo carboxylate -> 2-oxo-4-methylthiobutanoate + a standard alpha amino acid *\ - \* r1791, glycyl-L-methionine + H2O -> glycine + L-methionine *\ - \* r1701, glycyl-L-proline + H2O -> glycine + L-proline *\ - \* r1570, glycyl-L-glutamate + H2O -> glycine + L-glutamate *\ - \* r1516, glycine + a tetrahydrofolate + NAD+ -> a 5,10-methylene-tetrahydrofolate + ammonium + CO2 + NADH *\ - \* r1515, glycine + a tetrahydrofolate + NAD+ -> a 5,10-methylene-tetrahydrofolate + ammonium + CO2 + NADH *\ - \* r1435, glycine + gamma-L-glutamyl-L-cysteine + ATP -> glutathione + ADP + phosphate + H+ *\ - \* r1363b, glycine + acetaldehyde -> L-allo-threonine *\ - \* r1363a, L-allo-threonine -> glycine + acetaldehyde *\ - \* r1108b, glycine + a 5,10-methylene-tetrahydrofolate + H2O -> L-serine + a tetrahydrofolate *\ - \* r1108a, L-serine + a tetrahydrofolate -> glycine + a 5,10-methylene-tetrahydrofolate + H2O *\ - \* r1107b, glycine + a 5,10-methylene-tetrahydrofolate + H2O -> L-serine + a tetrahydrofolate *\ - \* r1107a, L-serine + a tetrahydrofolate -> glycine + a 5,10-methylene-tetrahydrofolate + H2O *\ - \* r989b, a [glycine-cleavage complex H protein] N6-aminomethyldihydrolipoyl-L-lysine + CO2 -> glycine + a [glycine-cleavage complex H protein] N6-lipoyl-L-lysine + H+ *\ - \* r989a, glycine + a [glycine-cleavage complex H protein] N6-lipoyl-L-lysine + H+ -> a [glycine-cleavage complex H protein] N6-aminomethyldihydrolipoyl-L-lysine + CO2 *\ - \* r875b, benzaldehyde + glycine -> L-threo-3-phenylserine *\ - \* r875a, L-threo-3-phenylserine -> benzaldehyde + glycine *\ - \* r854, L-cysteinyl-glycine + H2O -> L-cysteine + glycine *\ - \* r852, glycyl-L-asparagine + H2O -> glycine + L-asparagine *\ - \* r677b, 2-amino-3-oxobutanoate + coenzyme A -> glycine + acetyl-CoA *\ - \* r677a, glycine + acetyl-CoA -> 2-amino-3-oxobutanoate + coenzyme A *\ - \* r627, glycine[periplasmic space] + H+[periplasmic space] -> glycine[cytosol] + H+[cytosol] *\ - \* r29b, glycine[cytosol] -> glycine[periplasmic space] *\ - \* r29a, glycine[periplasmic space] -> glycine[cytosol] *\ - - -1.0 r2437 -1.0 r2359b + r2359a -1.0 r2334b + r2334a + r2170 + r2081 + r2017 + r1877 -1.0 r1846 -1.0 r1815b + r1815a + r1791 + r1701 + r1570 -1.0 r1516 -1.0 r1515 -1.0 r1435 -1.0 r1363b - + r1363a -1.0 r1108b + r1108a -1.0 r1107b + r1107a + r989b -1.0 r989a -1.0 r875b + r875a + r854 + r852 + r677b -1.0 r677a + r627 -1.0 r29b + r29a = 0 - -c1100: \* Hexanoyl-ACPs[CCO-CYTOSOL] *\ - \* r1165, a trans hex-2-enoyl-[acp] + NADH + H+ -> a hexanoyl-[acyl-carrier-protein] + NAD+ *\ - \* r1016, a trans-2-enoyl-[acyl-carrier protein] + NADH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NAD+ *\ - \* r866, a trans-2-enoyl-[acyl-carrier protein] + NADPH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NADP+ *\ - \* r822, a malonyl-[acp] + a 2,3,4-saturated fatty acyl-[acp] + H+ -> a holo-[acyl-carrier protein] + a 3-oxoacyl-[acp] + CO2 *\ - \* r777, a hexanoyl-[acyl-carrier-protein] + a malonyl-[acp] + H+ -> a 3-oxo-octanoyl-[acp] + CO2 + a holo-[acyl-carrier protein] *\ - - + r1165 + r1016 + r866 -1.0 r822 -1.0 r777 = 0 - -c1076: \* D-XYLONATE[CCO-CYTOSOL] *\ - \* r758b, 2-dehydro-3-deoxy-D-arabinonate + H2O -> D-xylonate *\ - \* r758a, D-xylonate -> 2-dehydro-3-deoxy-D-arabinonate + H2O *\ - - + r758b -1.0 r758a = 0 - -c985: \* Myristoyl-ACPs[CCO-CYTOSOL] *\ - \* r1179, a myristoyl-[acp] + alpha-Kdo-(2->4)-alpha-Kdo-(2->6)-(lauroyl)-lipid IVA -> alpha-D-Kdo-(2->4)-alpha-D-Kdo-(2->6)-lipid A + a holo-[acyl-carrier protein] *\ - \* r1034, a trans tetradec-2-enoyl-[acp] + NADH + H+ -> a myristoyl-[acp] + NAD+ *\ - \* r1027, a myristoyl-[acp] + Kdo2-(palmitoleoyl)-lipid IVA -> (Kdo)2-lipid A, cold adapted + a holo-[acyl-carrier protein] *\ - \* r1020, a trans-2-enoyl-[acyl-carrier protein] + NADH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NAD+ *\ - \* r870, a trans-2-enoyl-[acyl-carrier protein] + NADPH + H+ -> a 2,3,4-saturated fatty acyl-[acp] + NADP+ *\ - \* r826, a malonyl-[acp] + a 2,3,4-saturated fatty acyl-[acp] + H+ -> a holo-[acyl-carrier protein] + a 3-oxoacyl-[acp] + CO2 *\ - \* r705, a myristoyl-[acp] + a malonyl-[acp] + H+ -> a 3-oxo-palmitoyl-[acp] + CO2 + a holo-[acyl-carrier protein] *\ - - -1.0 r1179 + r1034 -1.0 r1027 + r1020 + r870 -1.0 r826 -1.0 r705 = 0 - -c932: \* AMINO-OXOBUT[CCO-CYTOSOL] *\ - \* r1788b, 2-amino-3-oxobutanoate + NADPH + H+ -> L-allo-threonine + NADP+ *\ - \* r1788a, L-allo-threonine + NADP+ -> 2-amino-3-oxobutanoate + NADPH + H+ *\ - \* r1505, 2-amino-3-oxobutanoate + H+ -> aminoacetone + CO2 *\ - \* r1409, L-threonine + NAD+ -> 2-amino-3-oxobutanoate + NADH + H+ *\ - \* r677b, 2-amino-3-oxobutanoate + coenzyme A -> glycine + acetyl-CoA *\ - \* r677a, glycine + acetyl-CoA -> 2-amino-3-oxobutanoate + coenzyme A *\ - - -1.0 r1788b + r1788a -1.0 r1505 + r1409 -1.0 r677b + r677a = 0 - -c201: \* CPD-17530[CCO-CYTOSOL] *\ - \* r679b, alpha-D-Kdo-(2->4)-alpha-D-Kdo-(2->6)-lipid A 1-diphosphate + di-trans,octa-cis-undecaprenyl phosphate -> alpha-D-Kdo-(2->4)-alpha-D-Kdo-(2->6)-lipid A + di-trans,octa-cis-undecaprenyl diphosphate *\ - \* r679a, alpha-D-Kdo-(2->4)-alpha-D-Kdo-(2->6)-lipid A + di-trans,octa-cis-undecaprenyl diphosphate -> alpha-D-Kdo-(2->4)-alpha-D-Kdo-(2->6)-lipid A 1-diphosphate + di-trans,octa-cis-undecaprenyl phosphate *\ - \* r254, a lipopolysaccharide[cytosol] -> a lipopolysaccharide[extracellular space] *\ - \* r102, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - - -1.0 r679b + r679a -1.0 r254 -1.0 r102 = 0 - -c94: \* 5-METHYLAMINOMETHYL-2-THIOURIDINE[CCO-PERI-BAC] *\ - \* r606, a nucleoside[periplasmic space] + H+[periplasmic space] -> a nucleoside[cytosol] + H+[cytosol] *\ - \* r46, a nucleoside[extracellular space] -> a nucleoside[periplasmic space] *\ - - -1.0 r606 + r46 = 0 - -c2216: \* Charged-ASP-tRNAs[CCO-CYTOSOL] *\ - \* objReactionName, L-aspartyl-tRNAasp *\ - \* r2378, tRNAasp + L-aspartate + ATP + H+ -> L-aspartyl-tRNAasp + AMP + diphosphate *\ - - -0.234232 objReactionName + r2378 = 0 - -c1695: \* L-PANTOATE[CCO-CYTOSOL] *\ - \* r2435, 2-dehydropantoate + NADPH + H+ -> (R)-pantoate + NADP+ *\ - \* r1387, beta-alanine + (R)-pantoate + ATP -> (R)-pantothenate + AMP + diphosphate + H+ *\ - - + r2435 -1.0 r1387 = 0 - -c192: \* CPD0-930[CCO-PERI-BAC] *\ - \* r97, a lipopolysaccharide[cytosol] + ATP + H2O -> a lipopolysaccharide[periplasmic space] + ADP + phosphate + H+ *\ - - + r97 = 0 - -c320: \* GMP[CCO-CYTOSOL] *\ - \* r2444, guanine + 5-phospho-alpha-D-ribose 1-diphosphate -> GMP + diphosphate *\ - \* r2440, GMP + NADPH + 2 H+ -> ammonium + IMP + NADP+ *\ - \* r2274, a nucleoside diphosphate + H2O -> a nucleoside 5'-monophosphate + phosphate + H+ *\ - \* r2172, GMP + H2O -> guanosine + phosphate *\ - \* r1955, GMP + ATP -> GDP + ADP *\ - \* r1951, L-glutamine + XMP + ATP + H2O -> L-glutamate + GMP + AMP + diphosphate + 2 H+ *\ - \* r1851, GDP + H2O -> GMP + phosphate + H+ *\ - \* r1442, XMP + ammonium + ATP -> GMP + AMP + diphosphate + 2 H+ *\ - \* r1349, guanosine + ATP -> GMP + ADP + H+ *\ - \* r1338, GDP-alpha-D-mannose + H2O -> GMP + alpha-D-mannose 1-phosphate + 2 H+ *\ - \* r1155, a nucleoside triphosphate + H2O -> a nucleoside 5'-monophosphate + diphosphate + H+ *\ - \* r981, a ribonucleoside 5'-monophosphate + H2O -> a ribonucleoside + phosphate *\ - \* r163, GMP[cytosol] -> GMP[periplasmic space] *\ - - + r2444 -1.0 r2440 + r2274 -1.0 r2172 -1.0 r1955 + r1951 + r1851 + r1442 + r1349 + r1338 + r1155 -1.0 r981 -1.0 r163 = 0 - -c340: \* IMP[CCO-CYTOSOL] *\ - \* r2440, GMP + NADPH + 2 H+ -> ammonium + IMP + NADP+ *\ - \* r2344, IMP + NAD+ + H2O -> XMP + NADH + H+ *\ - \* r2275, a nucleoside diphosphate + H2O -> a nucleoside 5'-monophosphate + phosphate + H+ *\ - \* r2242, ITP + H2O -> IMP + diphosphate + H+ *\ - \* r2237, 5-phospho-alpha-D-ribose 1-diphosphate + hypoxanthine -> IMP + diphosphate *\ - \* r1857b, 5-formamido-1-(5-phospho-D-ribosyl)-imidazole-4-carboxamide -> IMP + H2O *\ - \* r1857a, IMP + H2O -> 5-formamido-1-(5-phospho-D-ribosyl)-imidazole-4-carboxamide *\ - \* r1681, L-aspartate + IMP + GTP -> adenylo-succinate + GDP + phosphate + 2 H+ *\ - \* r1454, inosine + ATP -> IMP + ADP + H+ *\ - \* r1154, a nucleoside triphosphate + H2O -> a nucleoside 5'-monophosphate + diphosphate + H+ *\ - \* r1029, IMP + H2O -> inosine + phosphate *\ - \* r979, a ribonucleoside 5'-monophosphate + H2O -> a ribonucleoside + phosphate *\ - \* r173, IMP[cytosol] -> IMP[periplasmic space] *\ - - + r2440 -1.0 r2344 + r2275 + r2242 + r2237 + r1857b -1.0 r1857a -1.0 r1681 + r1454 + r1154 -1.0 r1029 -1.0 r979 -1.0 r173 = 0 - -c1207: \* Octanoylated-domains[CCO-CYTOSOL] *\ - \* r1204, a [lipoyl-carrier protein] N6-octanoyl-L-lysine + 2 S-adenosyl-L-methionine + 2 a sulfurated [sulfur carrier] + 2 a reduced [2Fe-2S] ferredoxin -> a [lipoyl-carrier protein] N6-lipoyl-L-lysine + 2 5'-deoxyadenosine + 2 L-methionine + 2 an unsulfurated [sulfur carrier] + 2 an oxidized [2Fe-2S] ferredoxin *\ - \* objReactionName, a [lipoyl-carrier protein] N6-octanoyl-L-lysine *\ - - -1.0 r1204 +0.00001 objReactionName = 0 - -c1488: \* TMP[CCO-CYTOSOL] *\ - \* r2270, a nucleoside diphosphate + H2O -> a nucleoside 5'-monophosphate + phosphate + H+ *\ - \* r2198, dTMP + H2O -> thymidine + phosphate *\ - \* r1929, a 2'-deoxyribonucleoside 5'-monophosphate + H2O -> a 2'-deoxynucleoside + phosphate *\ - \* r1835, dTTP + H2O -> dTMP + diphosphate + H+ *\ - \* r1733, a 5,10-methylene-tetrahydrofolate + dUMP -> dTMP + a 7,8-dihydrofolate *\ - \* r1595, thymidine + ATP -> dTMP + ADP + H+ *\ - \* r1228, dTMP + ATP -> dTDP + ADP *\ - \* r1150, a nucleoside triphosphate + H2O -> a nucleoside 5'-monophosphate + diphosphate + H+ *\ - - + r2270 -1.0 r2198 -1.0 r1929 + r1835 + r1733 + r1595 -1.0 r1228 + r1150 = 0 - -c1071: \* UMP[CCO-CYTOSOL] *\ - \* r753, ATP + UMP -> ADP + UDP *\ - \* r987, a ribonucleoside 5'-monophosphate + H2O -> a ribonucleoside + phosphate *\ - \* r1024, orotidine 5'-phosphate + H+ -> CO2 + UMP *\ - \* r1157, a nucleoside triphosphate + H2O -> a nucleoside 5'-monophosphate + diphosphate + H+ *\ - \* r1608, uridine + GTP -> UMP + GDP + H+ *\ - \* r1707, UDP-N-acetyl-alpha-D-muramoyl-L-alanyl-gamma-D-glutamyl-meso-2,6-diaminopimeloyl-D-alanyl-D-alanine + di-trans,octa-cis-undecaprenyl phosphate -> undecaprenyldiphospho-N-acetylmuramoyl-L-alanyl-gamma-D-glutamyl-meso-2,6-diaminopimeloyl-D-alanyl-D-alanine + UMP *\ - \* r1761, UTP + H2O -> UMP + diphosphate + H+ *\ - \* r1862, UDP-2-N,3-O-bis[(3R)-3-hydroxytetradecanoyl]-alpha-D-glucosamine + H2O -> 2,3-bis[(3R)-3-hydroxymyristoyl]-alpha-D-glucosaminyl 1-phosphate + UMP + 2 H+ *\ - \* r2028, 5-phospho-alpha-D-ribose 1-diphosphate + uracil -> UMP + diphosphate *\ - \* r2115, uridine + ATP -> UMP + ADP + H+ *\ - \* r2272, a nucleoside diphosphate + H2O -> a nucleoside 5'-monophosphate + phosphate + H+ *\ - \* r2323, UDP + H2O -> UMP + phosphate + H+ *\ - \* r2336, UMP + H2O -> uridine + phosphate *\ - \* r2426a, UDP-alpha-D-glucose + di-trans,octa-cis-undecaprenyl phosphate -> UMP + alpha-D-glucopyranosyl-diphosphoundecaprenol *\ - \* r2426b, UMP + alpha-D-glucopyranosyl-diphosphoundecaprenol -> UDP-alpha-D-glucose + di-trans,octa-cis-undecaprenyl phosphate *\ - - -1.0 r753 -1.0 r987 + r1024 + r1157 + r1608 + r1707 + r1761 + r1862 + r2028 + r2115 + r2272 + r2323 -1.0 r2336 + r2426a -1.0 r2426b = 0 - -c757: \* 2-DEHYDRO-3-DEOXY-D-GLUCONATE[CCO-CYTOSOL] *\ - \* r667, D-mannonate -> 2-dehydro-3-deoxy-D-gluconate + H2O *\ - \* r1221a, 2-dehydro-3-deoxy-D-gluconate -> D-glyceraldehyde + pyruvate *\ - \* r1221b, D-glyceraldehyde + pyruvate -> 2-dehydro-3-deoxy-D-gluconate *\ - \* r1337a, 2-dehydro-3-deoxy-D-gluconate + NAD+ -> 3-deoxy-D-glycero-2,5-hexodiulosonate + NADH + H+ *\ - \* r1337b, 3-deoxy-D-glycero-2,5-hexodiulosonate + NADH + H+ -> 2-dehydro-3-deoxy-D-gluconate + NAD+ *\ - \* r1472, D-altronate -> 2-dehydro-3-deoxy-D-gluconate + H2O *\ - \* r2389, 2-dehydro-3-deoxy-D-gluconate + ATP -> 2-dehydro-3-deoxy-D-gluconate 6-phosphate + ADP + H+ *\ - - + r667 -1.0 r1221a + r1221b -1.0 r1337a + r1337b + r1472 -1.0 r2389 = 0 - - -Bounds -0 <= objReactionName <= 30000 \* For the objective function *\ -\* Bounds for reactions *\ - - 0.000000 <= r1 <= 30000.000000 \* TRANS-RXN0-275, L2R *\ - 0.000000 <= r2 <= 30000.000000 \* RXN0-0, L2R *\ - 0.000000 <= r3 <= 30000.000000 \* RXN0-0-CPD0-1123//CPD0-1123.21., L2R *\ - 0.000000 <= r4 <= 30000.000000 \* RXN0-0-CPD0-1122//CPD0-1122.21., L2R *\ - 0.000000 <= r5a <= 30000.000000 \* TRANS-RXN-145, L2R *\ - 0.000000 <= r5b <= 30000.000000 \* TRANS-RXN-145, R2L *\ - 0.000000 <= r6 <= 30000.000000 \* TRANS-RXN-141, L2R *\ - 0.000000 <= r7a <= 30000.000000 \* TRANS-RXN-131, L2R *\ - 0.000000 <= r7b <= 30000.000000 \* TRANS-RXN-131, R2L *\ - 0.000000 <= r8a <= 30000.000000 \* TRANS-RXN0-490, L2R *\ - 0.000000 <= r8b <= 30000.000000 \* TRANS-RXN0-490, R2L *\ - 0.000000 <= r9 <= 30000.000000 \* TRANS-RXN0-445, L2R *\ - 0.000000 <= r10 <= 30000.000000 \* RXN0-1741, L2R *\ - 0.000000 <= r11 <= 30000.000000 \* RXN-15315, L2R *\ - 0.000000 <= r12 <= 30000.000000 \* TRANS-RXN-141B, L2R *\ - 0.000000 <= r13 <= 30000.000000 \* TRANS-RXN-137, L2R *\ - 0.000000 <= r14a <= 30000.000000 \* TRANS-RXN0-536, L2R *\ - 0.000000 <= r14b <= 30000.000000 \* TRANS-RXN0-536, R2L *\ - 0.000000 <= r15a <= 30000.000000 \* TRANS-RXN0-536-GLYCERALD//GLYCERALD.21., L2R *\ - 0.000000 <= r15b <= 30000.000000 \* TRANS-RXN0-536-GLYCERALD//GLYCERALD.21., R2L *\ - 0.000000 <= r16a <= 30000.000000 \* TRANS-RXN0-536-L-GLYCERALDEHYDE//L-GLYCERALDEHYDE.35., L2R *\ - 0.000000 <= r16b <= 30000.000000 \* TRANS-RXN0-536-L-GLYCERALDEHYDE//L-GLYCERALDEHYDE.35., R2L *\ - 0.000000 <= r17a <= 30000.000000 \* TRANS-RXN0-460, L2R *\ - 0.000000 <= r17b <= 30000.000000 \* TRANS-RXN0-460, R2L *\ - 0.000000 <= r18 <= 30000.000000 \* RXN0-1802, L2R *\ - 0.000000 <= r19 <= 30000.000000 \* RXN0-1802-CPD-9245//CPD-9245.19., L2R *\ - 0.000000 <= r20 <= 30000.000000 \* RXN0-1802-PALMITATE//PALMITATE.21., L2R *\ - 0.000000 <= r21 <= 30000.000000 \* RXN0-1802-CPD-7836//CPD-7836.19., L2R *\ - 0.000000 <= r22 <= 30000.000000 \* RXN0-1802-OLEATE-CPD//OLEATE-CPD.23., L2R *\ - 0.000000 <= r23 <= 30000.000000 \* RXN0-1802-CPD0-1159//CPD0-1159.21., L2R *\ - 0.000000 <= r24 <= 30000.000000 \* RXN0-1802-STEARIC_ACID//STEARIC_ACID.27., L2R *\ - 0.000000 <= r25 <= 30000.000000 \* RXN0-1802-CPD-9247//CPD-9247.19., L2R *\ - 0.000000 <= r26a <= 30000.000000 \* TRANS-RXN0-206, L2R *\ - 0.000000 <= r26b <= 30000.000000 \* TRANS-RXN0-206, R2L *\ - 0.000000 <= r27 <= 30000.000000 \* TRANS-RXN-143, L2R *\ - 0.000000 <= r28 <= 30000.000000 \* TRANS-RXN-139, L2R *\ - 0.000000 <= r29a <= 30000.000000 \* TRANS-RXN0-537, L2R *\ - 0.000000 <= r29b <= 30000.000000 \* TRANS-RXN0-537, R2L *\ - 0.000000 <= r30 <= 30000.000000 \* ABC-56-RXN-ATP/CPD-10246/WATER//CPD-10246/ADP/Pi/PROTON.45., L2R *\ - 0.000000 <= r31 <= 30000.000000 \* ABC-56-RXN-ATP/CPD-10434/WATER//CPD-10434/ADP/Pi/PROTON.45., L2R *\ - 0.000000 <= r32 <= 30000.000000 \* ABC-56-RXN-ATP/CPD-3744/WATER//CPD-3744/ADP/Pi/PROTON.43., L2R *\ - 0.000000 <= r33 <= 30000.000000 \* ABC-56-RXN-ATP/CPD-3745/WATER//CPD-3745/ADP/Pi/PROTON.43., L2R *\ - 0.000000 <= r34 <= 30000.000000 \* ABC-56-RXN-ATP/CPD-3746/WATER//CPD-3746/ADP/Pi/PROTON.43., L2R *\ - 0.000000 <= r35 <= 30000.000000 \* ABC-56-RXN-ATP/CPD0-1958/WATER//CPD0-1958/ADP/Pi/PROTON.45., L2R *\ - 0.000000 <= r36a <= 30000.000000 \* TRANS-RXN-1, L2R *\ - 0.000000 <= r36b <= 30000.000000 \* TRANS-RXN-1, R2L *\ - 0.000000 <= r37 <= 30000.000000 \* TRANS-RXN0-468, L2R *\ - 0.000000 <= r38 <= 30000.000000 \* TRANS-RXN0-468-DEOXYADENOSINE//DEOXYADENOSINE.31., L2R *\ - 0.000000 <= r39 <= 30000.000000 \* TRANS-RXN0-468-DEOXYINOSINE//DEOXYINOSINE.27., L2R *\ - 0.000000 <= r40 <= 30000.000000 \* TRANS-RXN0-468-DEOXYGUANOSINE//DEOXYGUANOSINE.31., L2R *\ - 0.000000 <= r41 <= 30000.000000 \* TRANS-RXN0-468-DEOXYURIDINE//DEOXYURIDINE.27., L2R *\ - 0.000000 <= r42 <= 30000.000000 \* TRANS-RXN0-468-DEOXYCYTIDINE//DEOXYCYTIDINE.29., L2R *\ - 0.000000 <= r43 <= 30000.000000 \* TRANS-RXN0-468-THYMIDINE//THYMIDINE.21., L2R *\ - 0.000000 <= r44 <= 30000.000000 \* TRANS-RXN0-468-CPD-16020//CPD-16020.21., L2R *\ - 0.000000 <= r45 <= 30000.000000 \* TRANS-RXN0-468-CPD0-1321//CPD0-1321.21., L2R *\ - 0.000000 <= r46 <= 30000.000000 \* TRANS-RXN0-468-5-METHYLAMINOMETHYL-2-THIOURIDINE//5-METHYLAMINOMETHYL-2-THIOURIDINE.69., L2R *\ - 0.000000 <= r47 <= 30000.000000 \* TRANS-RXN0-468-CPD0-1320//CPD0-1320.21., L2R *\ - 0.000000 <= r48 <= 30000.000000 \* TRANS-RXN0-468-5-METHYLAMINOMETHYL-2-SELENOURIDINE//5-METHYLAMINOMETHYL-2-SELENOURIDINE.73., L2R *\ - 0.000000 <= r49 <= 30000.000000 \* TRANS-RXN0-468-CPD0-1311//CPD0-1311.21., L2R *\ - 0.000000 <= r50 <= 30000.000000 \* TRANS-RXN0-468-CPD0-1322//CPD0-1322.21., L2R *\ - 0.000000 <= r51 <= 30000.000000 \* TRANS-RXN0-468-CPD-15544//CPD-15544.21., L2R *\ - 0.000000 <= r52 <= 30000.000000 \* TRANS-RXN0-468-CPD0-1312//CPD0-1312.21., L2R *\ - 0.000000 <= r53 <= 30000.000000 \* TRANS-RXN0-468-CYTIDINE//CYTIDINE.19., L2R *\ - 0.000000 <= r54 <= 30000.000000 \* TRANS-RXN0-468-URIDINE//URIDINE.17., L2R *\ - 0.000000 <= r55 <= 30000.000000 \* TRANS-RXN0-468-CPD0-1319//CPD0-1319.21., L2R *\ - 0.000000 <= r56 <= 30000.000000 \* TRANS-RXN0-468-INOSINE//INOSINE.17., L2R *\ - 0.000000 <= r57 <= 30000.000000 \* TRANS-RXN0-468-GUANOSINE//GUANOSINE.21., L2R *\ - 0.000000 <= r58 <= 30000.000000 \* TRANS-RXN0-468-ADENOSINE//ADENOSINE.21., L2R *\ - 0.000000 <= r59 <= 30000.000000 \* TRANS-RXN0-468-XANTHOSINE//XANTHOSINE.23., L2R *\ - 0.000000 <= r60 <= 30000.000000 \* TRANS-RXN0-468-ADENOSINE5TRIPHOSPHO5ADENOSINE//ADENOSINE5TRIPHOSPHO5ADENOSINE.63., L2R *\ - 0.000000 <= r61 <= 30000.000000 \* TRANS-RXN0-468-ADENOSYL-P4//ADENOSYL-P4.25., L2R *\ - 0.000000 <= r62 <= 30000.000000 \* TRANS-RXN0-468-CPD0-1137//CPD0-1137.21., L2R *\ - 0.000000 <= r63 <= 30000.000000 \* RXN0-3, L2R *\ - 0.000000 <= r64 <= 30000.000000 \* ABC-5-RXN, L2R *\ - 0.000000 <= r65 <= 30000.000000 \* ABC-37-RXN, L2R *\ - 0.000000 <= r66 <= 30000.000000 \* ABC-19-RXN, L2R *\ - 0.000000 <= r67 <= 30000.000000 \* TRANS-RXN0-573-CPD0-2030/ATP/WATER//CPD0-2030/ADP/Pi/PROTON.45., L2R *\ - 0.000000 <= r68 <= 30000.000000 \* TRANS-RXN0-573-L-1-GLYCEROPHOSPHORYLETHANOL-AMINE/ATP/WATER//L-1-GLYCEROPHOSPHORYLETHANOL-AMINE/ADP/Pi/PROTON.95., L2R *\ - 0.000000 <= r69 <= 30000.000000 \* TRANS-RXN0-573-L-1-GLYCERO-PHOSPHORYLCHOLINE/ATP/WATER//L-1-GLYCERO-PHOSPHORYLCHOLINE/ADP/Pi/PROTON.85., L2R *\ - 0.000000 <= r70 <= 30000.000000 \* TRANS-RXN0-573-GLYCEROPHOSPHOGLYCEROL/ATP/WATER//GLYCEROPHOSPHOGLYCEROL/ADP/Pi/PROTON.71., L2R *\ - 0.000000 <= r71 <= 30000.000000 \* TRANS-RXN0-573-CPD-8260/ATP/WATER//CPD-8260/ADP/Pi/PROTON.43., L2R *\ - 0.000000 <= r72 <= 30000.000000 \* TRANS-RXN0-573-CPD-12822/ATP/WATER//CPD-12822/ADP/Pi/PROTON.45., L2R *\ - 0.000000 <= r73 <= 30000.000000 \* TRANS-RXN0-573-CPD0-2330/ATP/WATER//CPD0-2330/ADP/Pi/PROTON.45., L2R *\ - 0.000000 <= r74 <= 30000.000000 \* TRANS-RXN0-202, L2R *\ - 0.000000 <= r75 <= 30000.000000 \* RXN0-11, L2R *\ - 0.000000 <= r76 <= 30000.000000 \* ABC-34-RXN, L2R *\ - 0.000000 <= r77 <= 30000.000000 \* ABC-15-RXN, L2R *\ - 0.000000 <= r78 <= 30000.000000 \* TRANS-RXN0-510, L2R *\ - 0.000000 <= r79 <= 30000.000000 \* TRANS-RXN-250, L2R *\ - 0.000000 <= r80 <= 30000.000000 \* ABC-9-RXN, L2R *\ - 0.000000 <= r81 <= 30000.000000 \* ABC-3-RXN, L2R *\ - 0.000000 <= r82 <= 30000.000000 \* ABC-12-RXN, L2R *\ - 0.000000 <= r83 <= 30000.000000 \* TRANS-RXN-2, L2R *\ - 0.000000 <= r84 <= 30000.000000 \* ABC-7-RXN, L2R *\ - 0.000000 <= r85 <= 30000.000000 \* ABC-26-RXN, L2R *\ - 0.000000 <= r86 <= 30000.000000 \* 3.6.3.39-RXN, L2R *\ - 0.000000 <= r87 <= 30000.000000 \* 3.6.3.39-RXN-CPD0-1050/ATP/WATER//CPD0-1050/ADP/Pi/PROTON.45., L2R *\ - 0.000000 <= r88 <= 30000.000000 \* 3.6.3.39-RXN-CPD0-1052/ATP/WATER//CPD0-1052/ADP/Pi/PROTON.45., L2R *\ - 0.000000 <= r89 <= 30000.000000 \* 3.6.3.39-RXN-CPD0-1051/ATP/WATER//CPD0-1051/ADP/Pi/PROTON.45., L2R *\ - 0.000000 <= r90 <= 30000.000000 \* 3.6.3.39-RXN-CPD0-936/ATP/WATER//CPD0-936/ADP/Pi/PROTON.43., L2R *\ - 0.000000 <= r91 <= 30000.000000 \* 3.6.3.39-RXN-CPD0-1283/ATP/WATER//CPD0-1283/ADP/Pi/PROTON.45., L2R *\ - 0.000000 <= r92 <= 30000.000000 \* 3.6.3.39-RXN-CPD0-938/ATP/WATER//CPD0-938/ADP/Pi/PROTON.43., L2R *\ - 0.000000 <= r93 <= 30000.000000 \* 3.6.3.39-RXN-CPD0-2238/ATP/WATER//CPD0-2238/ADP/Pi/PROTON.45., L2R *\ - 0.000000 <= r94 <= 30000.000000 \* 3.6.3.39-RXN-KDO2-LAUROYL-LIPID-IVA/ATP/WATER//KDO2-LAUROYL-LIPID-IVA/ADP/Pi/PROTON.71., L2R *\ - 0.000000 <= r95 <= 30000.000000 \* 3.6.3.39-RXN-CPD0-2257/ATP/WATER//CPD0-2257/ADP/Pi/PROTON.45., L2R *\ - 0.000000 <= r96 <= 30000.000000 \* 3.6.3.39-RXN-KDO2-LIPID-IVA-COLD/ATP/WATER//KDO2-LIPID-IVA-COLD/ADP/Pi/PROTON.65., L2R *\ - 0.000000 <= r97 <= 30000.000000 \* 3.6.3.39-RXN-CPD0-930/ATP/WATER//CPD0-930/ADP/Pi/PROTON.43., L2R *\ - 0.000000 <= r98 <= 30000.000000 \* 3.6.3.39-RXN-PHOSPHATIDYLETHANOLAMINE-KDO2/ATP/WATER//PHOSPHATIDYLETHANOLAMINE-KDO2/ADP/Pi/PROTON.85., L2R *\ - 0.000000 <= r99 <= 30000.000000 \* 3.6.3.39-RXN-CPD0-934/ATP/WATER//CPD0-934/ADP/Pi/PROTON.43., L2R *\ - 0.000000 <= r100 <= 30000.000000 \* 3.6.3.39-RXN-CPD-12284/ATP/WATER//CPD-12284/ADP/Pi/PROTON.45., L2R *\ - 0.000000 <= r101 <= 30000.000000 \* 3.6.3.39-RXN-CPD0-937/ATP/WATER//CPD0-937/ADP/Pi/PROTON.43., L2R *\ - 0.000000 <= r102 <= 30000.000000 \* 3.6.3.39-RXN-CPD-17530/ATP/WATER//CPD-17530/ADP/Pi/PROTON.45., L2R *\ - 0.000000 <= r103 <= 30000.000000 \* 3.6.3.39-RXN-KDO-LIPID-IVA/ATP/WATER//KDO-LIPID-IVA/ADP/Pi/PROTON.53., L2R *\ - 0.000000 <= r104 <= 30000.000000 \* 3.6.3.39-RXN-CPD0-2240/ATP/WATER//CPD0-2240/ADP/Pi/PROTON.45., L2R *\ - 0.000000 <= r105 <= 30000.000000 \* 3.6.3.39-RXN-KDO2-LIPID-IVA/ATP/WATER//KDO2-LIPID-IVA/ADP/Pi/PROTON.55., L2R *\ - 0.000000 <= r106 <= 30000.000000 \* 3.6.3.39-RXN-CPD0-929/ATP/WATER//CPD0-929/ADP/Pi/PROTON.43., L2R *\ - 0.000000 <= r107 <= 30000.000000 \* 3.6.3.39-RXN-L-ARA4N-MODIFIED-KDO2-LIPID-A/ATP/WATER//L-ARA4N-MODIFIED-KDO2-LIPID-A/ADP/Pi/PROTON.85., L2R *\ - 0.000000 <= r108 <= 30000.000000 \* 3.6.3.39-RXN-CPD0-933/ATP/WATER//CPD0-933/ADP/Pi/PROTON.43., L2R *\ - 0.000000 <= r109 <= 30000.000000 \* 3.6.3.39-RXN-CPD-11653/ATP/WATER//CPD-11653/ADP/Pi/PROTON.45., L2R *\ - 0.000000 <= r110 <= 30000.000000 \* 3.6.3.39-RXN-HEPTOSYL-KDO2-LIPID-IVA/ATP/WATER//HEPTOSYL-KDO2-LIPID-IVA/ADP/Pi/PROTON.73., L2R *\ - 0.000000 <= r111 <= 30000.000000 \* 3.6.3.39-RXN-CPD0-2239/ATP/WATER//CPD0-2239/ADP/Pi/PROTON.45., L2R *\ - 0.000000 <= r112 <= 30000.000000 \* 3.6.3.39-RXN-KDO2-LIPID-A/ATP/WATER//KDO2-LIPID-A/ADP/Pi/PROTON.51., L2R *\ - 0.000000 <= r113 <= 30000.000000 \* 3.6.3.39-RXN-CPD0-2265/ATP/WATER//CPD0-2265/ADP/Pi/PROTON.45., L2R *\ - 0.000000 <= r114 <= 30000.000000 \* 3.6.3.39-RXN-KDO2-PALMITOLEOYL-LIPID-IVA/ATP/WATER//KDO2-PALMITOLEOYL-LIPID-IVA/ADP/Pi/PROTON.81., L2R *\ - 0.000000 <= r115 <= 30000.000000 \* 3.6.3.39-RXN-CPD0-932/ATP/WATER//CPD0-932/ADP/Pi/PROTON.43., L2R *\ - 0.000000 <= r116 <= 30000.000000 \* 3.6.3.39-RXN-CPD0-935/ATP/WATER//CPD0-935/ADP/Pi/PROTON.43., L2R *\ - 0.000000 <= r117 <= 30000.000000 \* 3.6.3.39-RXN-CPD0-1048/ATP/WATER//CPD0-1048/ADP/Pi/PROTON.45., L2R *\ - 0.000000 <= r118 <= 30000.000000 \* 3.6.3.39-RXN-CPD0-1049/ATP/WATER//CPD0-1049/ADP/Pi/PROTON.45., L2R *\ - 0.000000 <= r119 <= 30000.000000 \* TRANS-RXN0-478, L2R *\ - 0.000000 <= r120 <= 30000.000000 \* RXN0-4522, L2R *\ - 0.000000 <= r121 <= 30000.000000 \* ABC-23-RXN-ATP/CPD0-1076/WATER//ADP/CPD0-1076/Pi/PROTON.45., L2R *\ - 0.000000 <= r122 <= 30000.000000 \* ABC-23-RXN-ATP/CPD0-1075/WATER//ADP/CPD0-1075/Pi/PROTON.45., L2R *\ - 0.000000 <= r123 <= 30000.000000 \* ABC-23-RXN-ATP/CPD0-1068/WATER//ADP/CPD0-1068/Pi/PROTON.45., L2R *\ - 0.000000 <= r124 <= 30000.000000 \* TRANS-RXN0-268, L2R *\ - 0.000000 <= r125 <= 30000.000000 \* ABC-4-RXN, L2R *\ - 0.000000 <= r126 <= 30000.000000 \* ABC-2-RXN-ATP/CPD-15699/WATER//ADP/CPD-15699/Pi/PROTON.45., L2R *\ - 0.000000 <= r127 <= 30000.000000 \* ABC-2-RXN-ATP/ARABINOSE/WATER//ADP/ARABINOSE/Pi/PROTON.45., L2R *\ - 0.000000 <= r128 <= 30000.000000 \* ABC-2-RXN-ATP/CPD-12045/WATER//ADP/CPD-12045/Pi/PROTON.45., L2R *\ - 0.000000 <= r129 <= 30000.000000 \* TRANS-RXN0-593, L2R *\ - 0.000000 <= r130 <= 30000.000000 \* TRANS-RXN0-207, L2R *\ - 0.000000 <= r131 <= 30000.000000 \* ABC-35-RXN, L2R *\ - 0.000000 <= r132 <= 30000.000000 \* ABC-16-RXN, L2R *\ - 0.000000 <= r133 <= 30000.000000 \* TRANS-RXN0-511, L2R *\ - 0.000000 <= r134 <= 30000.000000 \* TRANS-RXN0-511-CPD-8990/ATP/WATER//CPD-8990/ADP/Pi/PROTON.43., L2R *\ - 0.000000 <= r135 <= 30000.000000 \* TRANS-RXN0-511-CPD-8989/ATP/WATER//CPD-8989/ADP/Pi/PROTON.43., L2R *\ - 0.000000 <= r136 <= 30000.000000 \* TRANS-RXN-265, L2R *\ - 0.000000 <= r137a <= 30000.000000 \* ATPSYN-RXN[CCO-PM-BAC-NEG]-ATP/PROTON/WATER//ADP/Pi/PROTON.48., L2R *\ - 0.000000 <= r137b <= 30000.000000 \* ATPSYN-RXN[CCO-PM-BAC-NEG]-ATP/PROTON/WATER//ADP/Pi/PROTON.48., R2L *\ - 0.000000 <= r138a <= 30000.000000 \* ATPSYN-RXN[CCO-OUT-CCO-IN]-ATP/PROTON/WATER//ADP/Pi/PROTON.48., L2R *\ - 0.000000 <= r138b <= 30000.000000 \* ATPSYN-RXN[CCO-OUT-CCO-IN]-ATP/PROTON/WATER//ADP/Pi/PROTON.48., R2L *\ - 0.000000 <= r139 <= 30000.000000 \* ABC-32-RXN, L2R *\ - 0.000000 <= r140 <= 30000.000000 \* ABC-13-RXN, L2R *\ - 0.000000 <= r141 <= 30000.000000 \* TRANS-RXN0-503, L2R *\ - 0.000000 <= r142 <= 30000.000000 \* TRANS-RXN-236, L2R *\ - 0.000000 <= r143 <= 30000.000000 \* ABC-70-RXN, L2R *\ - 0.000000 <= r144 <= 30000.000000 \* ABC-27-RXN, L2R *\ - 0.000000 <= r145 <= 30000.000000 \* ABC-10-RXN, L2R *\ - 0.000000 <= r146 <= 30000.000000 \* TRANS-RXN0-277, L2R *\ - 0.000000 <= r147 <= 30000.000000 \* TRANS-RXN0-479, L2R *\ - 0.000000 <= r148 <= 30000.000000 \* TRANS-RXN-181A, L2R *\ - 0.000000 <= r149 <= 30000.000000 \* RXN0-5205, L2R *\ - 0.000000 <= r150 <= 30000.000000 \* ABC-63-RXN, L2R *\ - 0.000000 <= r151 <= 30000.000000 \* ABC-24-RXN, L2R *\ - 0.000000 <= r152 <= 30000.000000 \* TRANS-RXN0-492, L2R *\ - 0.000000 <= r153 <= 30000.000000 \* TRANS-RXN0-454, L2R *\ - 0.000000 <= r154 <= 30000.000000 \* ABC-42-RXN-CPD-15629/ATP/WATER//CPD-15629/ADP/Pi/PROTON.45., L2R *\ - 0.000000 <= r155 <= 30000.000000 \* ABC-20-RXN, L2R *\ - 0.000000 <= r156 <= 30000.000000 \* TRANS-RXN0-222, L2R *\ - 0.000000 <= r157 <= 30000.000000 \* ABC-36-RXN, L2R *\ - 0.000000 <= r158 <= 30000.000000 \* TRANS-RXN0-514, L2R *\ - 0.000000 <= r159 <= 30000.000000 \* ABC-18-RXN, L2R *\ - 0.000000 <= r160 <= 30000.000000 \* TRANS-RXN0-541, L2R *\ - 0.000000 <= r161 <= 30000.000000 \* TRANS-RXN0-273, L2R *\ - 0.000000 <= r162 <= 30000.000000 \* TRANS-RXN0-162, L2R *\ - 0.000000 <= r163 <= 30000.000000 \* TRANS-RXN0-565, L2R *\ - 0.000000 <= r164 <= 30000.000000 \* RXN-8638, L2R *\ - 0.000000 <= r165a <= 30000.000000 \* TRANS-RXN0-556, L2R *\ - 0.000000 <= r165b <= 30000.000000 \* TRANS-RXN0-556, R2L *\ - 0.000000 <= r166 <= 30000.000000 \* ABC-33-RXN-ATP/CPD-15377/WATER//ADP/CPD-15377/Pi/PROTON.45., L2R *\ - 0.000000 <= r167 <= 30000.000000 \* ABC-33-RXN-ATP/XYLOSE/WATER//ADP/XYLOSE/Pi/PROTON.39., L2R *\ - 0.000000 <= r168 <= 30000.000000 \* ABC-33-RXN-ATP/BETA-D-XYLOSE/WATER//ADP/BETA-D-XYLOSE/Pi/PROTON.53., L2R *\ - 0.000000 <= r169 <= 30000.000000 \* TRANS-RXN0-535, L2R *\ - 0.000000 <= r170 <= 30000.000000 \* ABC-14-RXN, L2R *\ - 0.000000 <= r171 <= 30000.000000 \* TRANS-RXN0-527, L2R *\ - 0.000000 <= r172 <= 30000.000000 \* TRANS-RXN0-504, L2R *\ - 0.000000 <= r173 <= 30000.000000 \* TRANS-RXN0-566, L2R *\ - 0.000000 <= r174 <= 30000.000000 \* TRANS-RXN-238-CPD0-1077/ATP/WATER//CPD0-1077/ADP/Pi/PROTON.45., L2R *\ - 0.000000 <= r175 <= 30000.000000 \* TRANS-RXN-238-CPD0-1074/ATP/WATER//CPD0-1074/ADP/Pi/PROTON.45., L2R *\ - 0.000000 <= r176 <= 30000.000000 \* TRANS-RXN-238-CPD-1106/ATP/WATER//CPD-1106/ADP/Pi/PROTON.43., L2R *\ - 0.000000 <= r177 <= 30000.000000 \* TRANS-RXN-238-CPD0-2521/ATP/WATER//CPD0-2521/ADP/Pi/PROTON.45., L2R *\ - 0.000000 <= r178 <= 30000.000000 \* ABC-8-RXN, L2R *\ - 0.000000 <= r179 <= 30000.000000 \* ABC-8-RXN-ATP/CPD0-2190/WATER//ADP/CPD0-2190/Pi/PROTON.45., L2R *\ - 0.000000 <= r180 <= 30000.000000 \* ABC-8-RXN-ATP/CPD-10814/WATER//ADP/CPD-10814/Pi/PROTON.45., L2R *\ - 0.000000 <= r181 <= 30000.000000 \* ABC-8-RXN-ATP/L-GAMMA-GLUTAMYLCYSTEINE/WATER//ADP/L-GAMMA-GLUTAMYLCYSTEINE/Pi/PROTON.75., L2R *\ - 0.000000 <= r182 <= 30000.000000 \* ABC-8-RXN-ATP/CPD-13395/WATER//ADP/CPD-13395/Pi/PROTON.45., L2R *\ - 0.000000 <= r183 <= 30000.000000 \* ABC-8-RXN-ATP/CPD-13401/WATER//ADP/CPD-13401/Pi/PROTON.45., L2R *\ - 0.000000 <= r184 <= 30000.000000 \* ABC-8-RXN-ATP/CPD-13406/WATER//ADP/CPD-13406/Pi/PROTON.45., L2R *\ - 0.000000 <= r185 <= 30000.000000 \* ABC-8-RXN-ATP/CPD0-1944/WATER//ADP/CPD0-1944/Pi/PROTON.45., L2R *\ - 0.000000 <= r186 <= 30000.000000 \* ABC-8-RXN-ATP/CARNOSINE/WATER//ADP/CARNOSINE/Pi/PROTON.45., L2R *\ - 0.000000 <= r187 <= 30000.000000 \* ABC-8-RXN-ATP/CYS-GLY/WATER//ADP/CYS-GLY/Pi/PROTON.41., L2R *\ - 0.000000 <= r188 <= 30000.000000 \* ABC-8-RXN-ATP/CPD-13394/WATER//ADP/CPD-13394/Pi/PROTON.45., L2R *\ - 0.000000 <= r189 <= 30000.000000 \* ABC-8-RXN-ATP/CPD-13398/WATER//ADP/CPD-13398/Pi/PROTON.45., L2R *\ - 0.000000 <= r190 <= 30000.000000 \* ABC-8-RXN-ATP/CPD-13404/WATER//ADP/CPD-13404/Pi/PROTON.45., L2R *\ - 0.000000 <= r191 <= 30000.000000 \* ABC-8-RXN-ATP/CPD0-1445/WATER//ADP/CPD0-1445/Pi/PROTON.45., L2R *\ - 0.000000 <= r192 <= 30000.000000 \* ABC-8-RXN-ATP/ALA-GLY/WATER//ADP/ALA-GLY/Pi/PROTON.41., L2R *\ - 0.000000 <= r193 <= 30000.000000 \* ABC-8-RXN-ATP/CPD-13393/WATER//ADP/CPD-13393/Pi/PROTON.45., L2R *\ - 0.000000 <= r194 <= 30000.000000 \* ABC-8-RXN-ATP/CPD-13397/WATER//ADP/CPD-13397/Pi/PROTON.45., L2R *\ - 0.000000 <= r195 <= 30000.000000 \* ABC-8-RXN-ATP/CPD-13403/WATER//ADP/CPD-13403/Pi/PROTON.45., L2R *\ - 0.000000 <= r196 <= 30000.000000 \* ABC-8-RXN-ATP/CPD-3569/WATER//ADP/CPD-3569/Pi/PROTON.43., L2R *\ - 0.000000 <= r197 <= 30000.000000 \* ABC-8-RXN-ATP/D-ALA-D-ALA/WATER//ADP/D-ALA-D-ALA/Pi/PROTON.49., L2R *\ - 0.000000 <= r198 <= 30000.000000 \* ABC-8-RXN-ATP/CPD-13390/WATER//ADP/CPD-13390/Pi/PROTON.45., L2R *\ - 0.000000 <= r199 <= 30000.000000 \* TRANS-RXN0-557, L2R *\ - 0.000000 <= r200 <= 30000.000000 \* TRANS-RXN0-557-R--ALLANTOIN//R--ALLANTOIN.27., L2R *\ - 0.000000 <= r201 <= 30000.000000 \* TRANS-RXN0-557-S-ALLANTOIN//S-ALLANTOIN.25., L2R *\ - 0.000000 <= r202 <= 30000.000000 \* ABC-28-RXN, L2R *\ - 0.000000 <= r203 <= 30000.000000 \* TRANS-RXN0-549, L2R *\ - 0.000000 <= r204 <= 30000.000000 \* TRANS-RXN0-491, L2R *\ - 0.000000 <= r205 <= 30000.000000 \* TRANS-RXN0-488, L2R *\ - 0.000000 <= r206 <= 30000.000000 \* ABC-64-RXN, L2R *\ - 0.000000 <= r207 <= 30000.000000 \* ABC-25-RXN, L2R *\ - 0.000000 <= r208 <= 30000.000000 \* TRANS-RXN0-559, L2R *\ - 0.000000 <= r209 <= 30000.000000 \* TRANS-RXN0-540, L2R *\ - 0.000000 <= r210 <= 30000.000000 \* TRANS-RXN0-551, L2R *\ - 0.000000 <= r211 <= 30000.000000 \* TRANS-RXN-169, L2R *\ - 0.000000 <= r212 <= 30000.000000 \* RXN0-17, L2R *\ - 0.000000 <= r213 <= 30000.000000 \* TRANS-RXN-167-PTSH-PHOSPHORYLATED/N-ACETYL-D-GLUCOSAMINE//CPD-16168/PTSH-MONOMER.67., L2R *\ - 0.000000 <= r214 <= 30000.000000 \* TRANS-RXN-158A, L2R *\ - 0.000000 <= r215 <= 30000.000000 \* TRANS-RXN-156, L2R *\ - 0.000000 <= r216 <= 30000.000000 \* TRANS-RXN-153A, L2R *\ - 0.000000 <= r217 <= 30000.000000 \* TRANS-RXN0-446, L2R *\ - 0.000000 <= r218 <= 30000.000000 \* RXN0-2461, L2R *\ - 0.000000 <= r219 <= 30000.000000 \* TRANS-RXN-167A-PTSH-PHOSPHORYLATED/GLUCOSAMINE//CPD-13469/PTSH-MONOMER.56., L2R *\ - 0.000000 <= r220 <= 30000.000000 \* TRANS-RXN-161, L2R *\ - 0.000000 <= r221 <= 30000.000000 \* TRANS-RXN-157, L2R *\ - 0.000000 <= r222 <= 30000.000000 \* TRANS-RXN-155, L2R *\ - 0.000000 <= r223 <= 30000.000000 \* TRANS-RXN0-518, L2R *\ - 0.000000 <= r224 <= 30000.000000 \* RXN0-2522, L2R *\ - 0.000000 <= r225 <= 30000.000000 \* TRANS-RXN-168, L2R *\ - 0.000000 <= r226 <= 30000.000000 \* TRANS-RXN-165, L2R *\ - 0.000000 <= r227 <= 30000.000000 \* TRANS-RXN-158, L2R *\ - 0.000000 <= r228 <= 30000.000000 \* TRANS-RXN-155B, L2R *\ - 0.000000 <= r229a <= 30000.000000 \* TRANS-RXN0-562, L2R *\ - 0.000000 <= r229b <= 30000.000000 \* TRANS-RXN0-562, R2L *\ - 0.000000 <= r230 <= 30000.000000 \* TRANS-RXN0-509, L2R *\ - 0.000000 <= r231 <= 30000.000000 \* TRANS-RXN0-470, L2R *\ - 0.000000 <= r232 <= 30000.000000 \* TRANS-RXN0-417, L2R *\ - 0.000000 <= r233 <= 30000.000000 \* TRANS-RXN0-203, L2R *\ - 0.000000 <= r234 <= 30000.000000 \* TRANS-RXN0-558, L2R *\ - 0.000000 <= r235 <= 30000.000000 \* TRANS-RXN0-506, L2R *\ - 0.000000 <= r236 <= 30000.000000 \* TRANS-RXN0-466, L2R *\ - 0.000000 <= r237 <= 30000.000000 \* TRANS-RXN0-282, L2R *\ - 0.000000 <= r238 <= 30000.000000 \* TRANS-RXN-237, L2R *\ - 0.000000 <= r239 <= 30000.000000 \* TRANS-RXN-237-CPD0-1050//CPD0-1050.21., L2R *\ - 0.000000 <= r240 <= 30000.000000 \* TRANS-RXN-237-CPD0-1052//CPD0-1052.21., L2R *\ - 0.000000 <= r241 <= 30000.000000 \* TRANS-RXN-237-CPD0-1051//CPD0-1051.21., L2R *\ - 0.000000 <= r242 <= 30000.000000 \* TRANS-RXN-237-CPD0-936//CPD0-936.19., L2R *\ - 0.000000 <= r243 <= 30000.000000 \* TRANS-RXN-237-CPD0-1283//CPD0-1283.21., L2R *\ - 0.000000 <= r244 <= 30000.000000 \* TRANS-RXN-237-CPD0-938//CPD0-938.19., L2R *\ - 0.000000 <= r245 <= 30000.000000 \* TRANS-RXN-237-CPD0-2238//CPD0-2238.21., L2R *\ - 0.000000 <= r246 <= 30000.000000 \* TRANS-RXN-237-KDO2-LAUROYL-LIPID-IVA//KDO2-LAUROYL-LIPID-IVA.47., L2R *\ - 0.000000 <= r247 <= 30000.000000 \* TRANS-RXN-237-CPD0-2257//CPD0-2257.21., L2R *\ - 0.000000 <= r248 <= 30000.000000 \* TRANS-RXN-237-KDO2-LIPID-IVA-COLD//KDO2-LIPID-IVA-COLD.41., L2R *\ - 0.000000 <= r249 <= 30000.000000 \* TRANS-RXN-237-CPD0-930//CPD0-930.19., L2R *\ - 0.000000 <= r250 <= 30000.000000 \* TRANS-RXN-237-PHOSPHATIDYLETHANOLAMINE-KDO2//PHOSPHATIDYLETHANOLAMINE-KDO2.61., L2R *\ - 0.000000 <= r251 <= 30000.000000 \* TRANS-RXN-237-CPD0-934//CPD0-934.19., L2R *\ - 0.000000 <= r252 <= 30000.000000 \* TRANS-RXN-237-CPD-12284//CPD-12284.21., L2R *\ - 0.000000 <= r253 <= 30000.000000 \* TRANS-RXN-237-CPD0-937//CPD0-937.19., L2R *\ - 0.000000 <= r254 <= 30000.000000 \* TRANS-RXN-237-CPD-17530//CPD-17530.21., L2R *\ - 0.000000 <= r255 <= 30000.000000 \* TRANS-RXN-237-KDO-LIPID-IVA//KDO-LIPID-IVA.29., L2R *\ - 0.000000 <= r256 <= 30000.000000 \* TRANS-RXN-237-CPD0-2240//CPD0-2240.21., L2R *\ - 0.000000 <= r257 <= 30000.000000 \* TRANS-RXN-237-KDO2-LIPID-IVA//KDO2-LIPID-IVA.31., L2R *\ - 0.000000 <= r258 <= 30000.000000 \* TRANS-RXN-237-CPD0-929//CPD0-929.19., L2R *\ - 0.000000 <= r259 <= 30000.000000 \* TRANS-RXN-237-L-ARA4N-MODIFIED-KDO2-LIPID-A//L-ARA4N-MODIFIED-KDO2-LIPID-A.61., L2R *\ - 0.000000 <= r260 <= 30000.000000 \* TRANS-RXN-237-CPD0-933//CPD0-933.19., L2R *\ - 0.000000 <= r261 <= 30000.000000 \* TRANS-RXN-237-CPD-11653//CPD-11653.21., L2R *\ - 0.000000 <= r262 <= 30000.000000 \* TRANS-RXN-237-HEPTOSYL-KDO2-LIPID-IVA//HEPTOSYL-KDO2-LIPID-IVA.49., L2R *\ - 0.000000 <= r263 <= 30000.000000 \* TRANS-RXN-237-CPD0-2239//CPD0-2239.21., L2R *\ - 0.000000 <= r264 <= 30000.000000 \* TRANS-RXN-237-KDO2-LIPID-A//KDO2-LIPID-A.27., L2R *\ - 0.000000 <= r265 <= 30000.000000 \* TRANS-RXN-237-CPD0-2265//CPD0-2265.21., L2R *\ - 0.000000 <= r266 <= 30000.000000 \* TRANS-RXN-237-KDO2-PALMITOLEOYL-LIPID-IVA//KDO2-PALMITOLEOYL-LIPID-IVA.57., L2R *\ - 0.000000 <= r267 <= 30000.000000 \* TRANS-RXN-237-CPD0-932//CPD0-932.19., L2R *\ - 0.000000 <= r268 <= 30000.000000 \* TRANS-RXN-237-CPD0-935//CPD0-935.19., L2R *\ - 0.000000 <= r269 <= 30000.000000 \* TRANS-RXN-237-CPD0-1048//CPD0-1048.21., L2R *\ - 0.000000 <= r270 <= 30000.000000 \* TRANS-RXN-237-CPD0-1049//CPD0-1049.21., L2R *\ - 0.000000 <= r271 <= 30000.000000 \* TRANS-RXN0-585, L2R *\ - 0.000000 <= r272 <= 30000.000000 \* TRANS-RXN0-552, L2R *\ - 0.000000 <= r273 <= 30000.000000 \* TRANS-RXN0-498, L2R *\ - 0.000000 <= r274 <= 30000.000000 \* TRANS-RXN0-463, L2R *\ - 0.000000 <= r275 <= 30000.000000 \* TRANS-RXN0-278, L2R *\ - 0.000000 <= r276 <= 30000.000000 \* TRANS-RXN-144, L2R *\ - 0.000000 <= r277 <= 30000.000000 \* TRANS-RXN0-579, L2R *\ - 0.000000 <= r278 <= 30000.000000 \* TRANS-RXN0-526, L2R *\ - 0.000000 <= r279 <= 30000.000000 \* TRANS-RXN0-487, L2R *\ - 0.000000 <= r280 <= 30000.000000 \* TRANS-RXN0-459, L2R *\ - 0.000000 <= r281 <= 30000.000000 \* TRANS-RXN0-272, L2R *\ - 0.000000 <= r282 <= 30000.000000 \* RXN0-1982, L2R *\ - 0.000000 <= r283 <= 30000.000000 \* TRANS-RXN0-576, L2R *\ - 0.000000 <= r284 <= 30000.000000 \* TRANS-RXN0-523, L2R *\ - 0.000000 <= r285 <= 30000.000000 \* TRANS-RXN0-480, L2R *\ - 0.000000 <= r286 <= 30000.000000 \* TRANS-RXN0-448, L2R *\ - 0.000000 <= r287 <= 30000.000000 \* TRANS-RXN0-214, L2R *\ - 0.000000 <= r288 <= 30000.000000 \* RXN0-12, L2R *\ - 0.000000 <= r289a <= 30000.000000 \* TRANS-RXN0-564, L2R *\ - 0.000000 <= r289b <= 30000.000000 \* TRANS-RXN0-564, R2L *\ - 0.000000 <= r290 <= 30000.000000 \* TRANS-RXN0-512, L2R *\ - 0.000000 <= r291 <= 30000.000000 \* TRANS-RXN0-473, L2R *\ - 0.000000 <= r292 <= 30000.000000 \* TRANS-RXN0-418, L2R *\ - 0.000000 <= r293 <= 30000.000000 \* TRANS-RXN0-204, L2R *\ - 0.000000 <= r294 <= 30000.000000 \* TRANS-RXN0-560, L2R *\ - 0.000000 <= r295 <= 30000.000000 \* TRANS-RXN0-507, R2L *\ - 0.000000 <= r296 <= 30000.000000 \* TRANS-RXN0-467, L2R *\ - 0.000000 <= r297 <= 30000.000000 \* TRANS-RXN0-284, L2R *\ - 0.000000 <= r298 <= 30000.000000 \* TRANS-RXN-267, L2R *\ - 0.000000 <= r299 <= 30000.000000 \* TRANS-RXN-267-CPD0-1564//CPD0-1564.21., L2R *\ - 0.000000 <= r300 <= 30000.000000 \* TRANS-RXN-267-CYSTINE//CYSTINE.17., L2R *\ - 0.000000 <= r301 <= 30000.000000 \* TRANS-RXN0-587, L2R *\ - 0.000000 <= r302 <= 30000.000000 \* TRANS-RXN0-553, L2R *\ - 0.000000 <= r303 <= 30000.000000 \* TRANS-RXN0-500, L2R *\ - 0.000000 <= r304 <= 30000.000000 \* TRANS-RXN0-464, L2R *\ - 0.000000 <= r305 <= 30000.000000 \* TRANS-RXN0-279, L2R *\ - 0.000000 <= r306 <= 30000.000000 \* TRANS-RXN0-580, L2R *\ - 0.000000 <= r307 <= 30000.000000 \* TRANS-RXN0-538, L2R *\ - 0.000000 <= r308 <= 30000.000000 \* TRANS-RXN0-495, L2R *\ - 0.000000 <= r309 <= 30000.000000 \* TRANS-RXN0-461, L2R *\ - 0.000000 <= r310 <= 30000.000000 \* TRANS-RXN0-274, L2R *\ - 0.000000 <= r311 <= 30000.000000 \* TRANS-RXN-14, L2R *\ - 0.000000 <= r312 <= 30000.000000 \* TRANS-RXN0-577, L2R *\ - 0.000000 <= r313 <= 30000.000000 \* TRANS-RXN0-524, L2R *\ - 0.000000 <= r314 <= 30000.000000 \* TRANS-RXN0-481, L2R *\ - 0.000000 <= r315 <= 30000.000000 \* TRANS-RXN-153, L2R *\ - 0.000000 <= r316 <= 30000.000000 \* TRANS-RXN0-449, L2R *\ - 0.000000 <= r317 <= 30000.000000 \* TRANS-RXN0-240, L2R *\ - 0.000000 <= r318 <= 30000.000000 \* RXN0-14, L2R *\ - 0.000000 <= r319 <= 30000.000000 \* TRANS-RXN0-569, L2R *\ - 0.000000 <= r320 <= 30000.000000 \* TRANS-RXN0-569-L-BETA-ASPARTYL-P//L-BETA-ASPARTYL-P.37., L2R *\ - 0.000000 <= r321 <= 30000.000000 \* TRANS-RXN0-569-L-ORNITHINE//L-ORNITHINE.25., L2R *\ - 0.000000 <= r322 <= 30000.000000 \* TRANS-RXN0-569-BUTHIONINE-SULFOXIMINE//BUTHIONINE-SULFOXIMINE.47., L2R *\ - 0.000000 <= r323 <= 30000.000000 \* TRANS-RXN0-569-LEU//LEU.9., L2R *\ - 0.000000 <= r324 <= 30000.000000 \* TRANS-RXN0-569-CYS//CYS.9., L2R *\ - 0.000000 <= r325 <= 30000.000000 \* TRANS-RXN0-569-MET//MET.9., L2R *\ - 0.000000 <= r326 <= 30000.000000 \* TRANS-RXN0-569-GLT//GLT.9., L2R *\ - 0.000000 <= r327 <= 30000.000000 \* TRANS-RXN0-569-SER//SER.9., L2R *\ - 0.000000 <= r328 <= 30000.000000 \* TRANS-RXN0-569-L-2-AMINOPENTANOIC-ACID//L-2-AMINOPENTANOIC-ACID.49., L2R *\ - 0.000000 <= r329 <= 30000.000000 \* TRANS-RXN0-569-TYR//TYR.9., L2R *\ - 0.000000 <= r330 <= 30000.000000 \* TRANS-RXN0-569-ASN//ASN.9., L2R *\ - 0.000000 <= r331 <= 30000.000000 \* TRANS-RXN0-569-L-SELENOCYSTEINE//L-SELENOCYSTEINE.35., L2R *\ - 0.000000 <= r332 <= 30000.000000 \* TRANS-RXN0-569-CPD0-1224//CPD0-1224.21., L2R *\ - 0.000000 <= r333 <= 30000.000000 \* TRANS-RXN0-569-LYS//LYS.9., L2R *\ - 0.000000 <= r334 <= 30000.000000 \* TRANS-RXN0-569-GLN//GLN.9., L2R *\ - 0.000000 <= r335 <= 30000.000000 \* TRANS-RXN0-569-PRO//PRO.9., L2R *\ - 0.000000 <= r336 <= 30000.000000 \* TRANS-RXN0-569-ILE//ILE.9., L2R *\ - 0.000000 <= r337 <= 30000.000000 \* TRANS-RXN0-569-TRP//TRP.9., L2R *\ - 0.000000 <= r338 <= 30000.000000 \* TRANS-RXN0-569-L-ASPARTATE//L-ASPARTATE.25., L2R *\ - 0.000000 <= r339 <= 30000.000000 \* TRANS-RXN0-569-ARG//ARG.9., L2R *\ - 0.000000 <= r340 <= 30000.000000 \* TRANS-RXN0-569-CPD-9300//CPD-9300.19., L2R *\ - 0.000000 <= r341 <= 30000.000000 \* TRANS-RXN0-569-LL-DIAMINOPIMELATE//LL-DIAMINOPIMELATE.39., L2R *\ - 0.000000 <= r342 <= 30000.000000 \* TRANS-RXN0-569-ETHIONINE//ETHIONINE.21., L2R *\ - 0.000000 <= r343 <= 30000.000000 \* TRANS-RXN0-569-PHE//PHE.9., L2R *\ - 0.000000 <= r344 <= 30000.000000 \* TRANS-RXN0-569-HIS//HIS.9., L2R *\ - 0.000000 <= r345 <= 30000.000000 \* TRANS-RXN0-569-THR//THR.9., L2R *\ - 0.000000 <= r346 <= 30000.000000 \* TRANS-RXN0-569-L-ALPHA-ALANINE//L-ALPHA-ALANINE.33., L2R *\ - 0.000000 <= r347 <= 30000.000000 \* TRANS-RXN0-569-VAL//VAL.9., L2R *\ - 0.000000 <= r348 <= 30000.000000 \* TRANS-RXN0-569-L-CYSTATHIONINE//L-CYSTATHIONINE.33., L2R *\ - 0.000000 <= r349 <= 30000.000000 \* TRANS-RXN0-569-CARBAMYUL-L-ASPARTATE//CARBAMYUL-L-ASPARTATE.45., L2R *\ - 0.000000 <= r350 <= 30000.000000 \* TRANS-RXN0-569-N-FORMYLMETHIONINE//N-FORMYLMETHIONINE.39., L2R *\ - 0.000000 <= r351 <= 30000.000000 \* TRANS-RXN0-569-CPD0-1617//CPD0-1617.21., L2R *\ - 0.000000 <= r352 <= 30000.000000 \* TRANS-RXN0-569-N-ALPHA-ACETYLORNITHINE//N-ALPHA-ACETYLORNITHINE.49., L2R *\ - 0.000000 <= r353 <= 30000.000000 \* TRANS-RXN0-569-CPD-424//CPD-424.17., L2R *\ - 0.000000 <= r354 <= 30000.000000 \* TRANS-RXN0-569-CPD-404//CPD-404.17., L2R *\ - 0.000000 <= r355 <= 30000.000000 \* TRANS-RXN0-569-CPD-298//CPD-298.17., L2R *\ - 0.000000 <= r356 <= 30000.000000 \* TRANS-RXN0-569-N5-METHYLGLUTAMINE//N5-METHYLGLUTAMINE.39., L2R *\ - 0.000000 <= r357 <= 30000.000000 \* TRANS-RXN0-569-N-METHYLTRYPTOPHAN//N-METHYLTRYPTOPHAN.39., L2R *\ - 0.000000 <= r358 <= 30000.000000 \* TRANS-RXN0-513, L2R *\ - 0.000000 <= r359 <= 30000.000000 \* TRANS-RXN0-475, L2R *\ - 0.000000 <= r360 <= 30000.000000 \* TRANS-RXN0-443, L2R *\ - 0.000000 <= r361 <= 30000.000000 \* TRANS-RXN0-443-CPD-9245//CPD-9245.19., L2R *\ - 0.000000 <= r362 <= 30000.000000 \* TRANS-RXN0-443-PALMITATE//PALMITATE.21., L2R *\ - 0.000000 <= r363 <= 30000.000000 \* TRANS-RXN0-443-CPD-7836//CPD-7836.19., L2R *\ - 0.000000 <= r364 <= 30000.000000 \* TRANS-RXN0-443-OLEATE-CPD//OLEATE-CPD.23., L2R *\ - 0.000000 <= r365 <= 30000.000000 \* TRANS-RXN0-443-CPD0-1159//CPD0-1159.21., L2R *\ - 0.000000 <= r366 <= 30000.000000 \* TRANS-RXN0-443-STEARIC_ACID//STEARIC_ACID.27., L2R *\ - 0.000000 <= r367 <= 30000.000000 \* TRANS-RXN0-443-CPD-9247//CPD-9247.19., L2R *\ - 0.000000 <= r368 <= 30000.000000 \* TRANS-RXN0-205, L2R *\ - 0.000000 <= r369 <= 30000.000000 \* TRANS-RXN0-561, L2R *\ - 0.000000 <= r370 <= 30000.000000 \* TRANS-RXN0-508, L2R *\ - 0.000000 <= r371 <= 30000.000000 \* TRANS-RXN0-469, L2R *\ - 0.000000 <= r372 <= 30000.000000 \* TRANS-RXN0-286, L2R *\ - 0.000000 <= r373 <= 30000.000000 \* TRANS-RXN-8, L2R *\ - 0.000000 <= r374 <= 30000.000000 \* TRANS-RXN0-554, L2R *\ - 0.000000 <= r375 <= 30000.000000 \* TRANS-RXN0-505, L2R *\ - 0.000000 <= r376 <= 30000.000000 \* TRANS-RXN0-465, L2R *\ - 0.000000 <= r377 <= 30000.000000 \* TRANS-RXN0-281, L2R *\ - 0.000000 <= r378 <= 30000.000000 \* TRANS-RXN-205A-CPD-12301//CPD-12301.21., L2R *\ - 0.000000 <= r379 <= 30000.000000 \* TRANS-RXN0-584, L2R *\ - 0.000000 <= r380 <= 30000.000000 \* TRANS-RXN0-497, L2R *\ - 0.000000 <= r381 <= 30000.000000 \* TRANS-RXN0-462, L2R *\ - 0.000000 <= r382 <= 30000.000000 \* TRANS-RXN0-276, L2R *\ - 0.000000 <= r383 <= 30000.000000 \* TRANS-RXN-141A, L2R *\ - 0.000000 <= r384 <= 30000.000000 \* TRANS-RXN0-578, L2R *\ - 0.000000 <= r385 <= 30000.000000 \* TRANS-RXN0-525, L2R *\ - 0.000000 <= r386 <= 30000.000000 \* TRANS-RXN0-486, L2R *\ - 0.000000 <= r387 <= 30000.000000 \* TRANS-RXN0-453, L2R *\ - 0.000000 <= r388 <= 30000.000000 \* TRANS-RXN0-269, L2R *\ - 0.000000 <= r389 <= 30000.000000 \* RXN0-16, L2R *\ - 0.000000 <= r390 <= 30000.000000 \* TRANS-RXN0-570, L2R *\ - 0.000000 <= r391 <= 30000.000000 \* TRANS-RXN0-522, L2R *\ - 0.000000 <= r392 <= 30000.000000 \* TRANS-RXN0-476, L2R *\ - 0.000000 <= r393 <= 30000.000000 \* TRANS-RXN0-444, L2R *\ - 0.000000 <= r394 <= 30000.000000 \* TRANS-RXN0-213, L2R *\ - 0.000000 <= r395 <= 30000.000000 \* RXN0-10, L2R *\ - 0.000000 <= r396 <= 30000.000000 \* RXN0-2261, L2R *\ - 0.000000 <= r397 <= 30000.000000 \* RXN0-2121, L2R *\ - 0.000000 <= r398 <= 30000.000000 \* RXN0-1684, L2R *\ - 0.000000 <= r399 <= 30000.000000 \* TRANS-RXN0-283, L2R *\ - 0.000000 <= r400 <= 30000.000000 \* RXN0-2181, L2R *\ - 0.000000 <= r401 <= 30000.000000 \* RXN0-1701, L2R *\ - 0.000000 <= r402 <= 30000.000000 \* RXN0-1565, L2R *\ - 0.000000 <= r403 <= 30000.000000 \* TRANS-RXN0-455, L2R *\ - 0.000000 <= r404 <= 30000.000000 \* RXN0-2241, L2R *\ - 0.000000 <= r405 <= 30000.000000 \* RXN0-1702, L2R *\ - 0.000000 <= r406 <= 30000.000000 \* RXN0-1682, L2R *\ - 0.000000 <= r407 <= 30000.000000 \* TRANS-RXN-112-RHAMNOSE/PROTON//RHAMNOSE/PROTON.33., L2R *\ - 0.000000 <= r408 <= 30000.000000 \* TRANS-RXN-112-CPD0-1112/PROTON//CPD0-1112/PROTON.35., L2R *\ - 0.000000 <= r409 <= 30000.000000 \* TRANS-RXN-104, L2R *\ - 0.000000 <= r410 <= 30000.000000 \* RXN0-2421, L2R *\ - 0.000000 <= r411 <= 30000.000000 \* TRANS-RXN0-457, L2R *\ - 0.000000 <= r412 <= 30000.000000 \* TRANS-RXN0-233, L2R *\ - 0.000000 <= r413 <= 30000.000000 \* TRANS-RXN-242A, L2R *\ - 0.000000 <= r414 <= 30000.000000 \* TRANS-RXN-126B, L2R *\ - 0.000000 <= r415 <= 30000.000000 \* TRANS-RXN-108G, L2R *\ - 0.000000 <= r416 <= 30000.000000 \* TRANS-RXN-10-CPD-15699/PROTON//CPD-15699/PROTON.35., L2R *\ - 0.000000 <= r417 <= 30000.000000 \* TRANS-RXN-10-ARABINOSE/PROTON//ARABINOSE/PROTON.35., L2R *\ - 0.000000 <= r418 <= 30000.000000 \* TRANS-RXN-10-CPD-12045/PROTON//CPD-12045/PROTON.35., L2R *\ - 0.000000 <= r419 <= 30000.000000 \* RXN0-1981, L2R *\ - 0.000000 <= r420 <= 30000.000000 \* TRANS-RXN0-534, L2R *\ - 0.000000 <= r421 <= 30000.000000 \* TRANS-RXN0-447, L2R *\ - 0.000000 <= r422 <= 30000.000000 \* TRANS-RXN0-226, L2R *\ - 0.000000 <= r423 <= 30000.000000 \* TRANS-RXN-81-CPD-12537/PROTON//CPD-12537/PROTON.35., L2R *\ - 0.000000 <= r424 <= 30000.000000 \* TRANS-RXN-40-CPD-15699/PROTON//CPD-15699/PROTON.35., L2R *\ - 0.000000 <= r425 <= 30000.000000 \* TRANS-RXN-40-ARABINOSE/PROTON//ARABINOSE/PROTON.35., L2R *\ - 0.000000 <= r426 <= 30000.000000 \* TRANS-RXN-40-CPD-12045/PROTON//CPD-12045/PROTON.35., L2R *\ - 0.000000 <= r427 <= 30000.000000 \* TRANS-RXN-24, L2R *\ - 0.000000 <= r428 <= 30000.000000 \* TRANS-RXN-125, L2R *\ - 0.000000 <= r429 <= 30000.000000 \* TRANS-RXN-108D, L2R *\ - 0.000000 <= r430 <= 30000.000000 \* RXN0-7050, L2R *\ - 0.000000 <= r431 <= 30000.000000 \* RXN0-18, L2R *\ - 0.000000 <= r432 <= 30000.000000 \* TRANS-RXN0-530, L2R *\ - 0.000000 <= r433 <= 30000.000000 \* TRANS-RXN0-270, L2R *\ - 0.000000 <= r434 <= 30000.000000 \* TRANS-RXN0-209, L2R *\ - 0.000000 <= r435 <= 30000.000000 \* TRANS-RXN-72, L2R *\ - 0.000000 <= r436 <= 30000.000000 \* TRANS-RXN-31, L2R *\ - 0.000000 <= r437 <= 30000.000000 \* TRANS-RXN-21, L2R *\ - 0.000000 <= r438 <= 30000.000000 \* TRANS-RXN-122, L2R *\ - 0.000000 <= r439 <= 30000.000000 \* TRANS-RXN-108A, L2R *\ - 0.000000 <= r440 <= 30000.000000 \* RXN0-5202, L2R *\ - 0.000000 <= r441 <= 30000.000000 \* RXN-15314, L2R *\ - 0.000000 <= r442 <= 30000.000000 \* TRANS-RXN0-517-L-ASPARTATE/PROTON//L-ASPARTATE/PROTON.39., L2R *\ - 0.000000 <= r443 <= 30000.000000 \* TRANS-RXN0-517-ENOL-OXALOACETATE/PROTON//ENOL-OXALOACETATE/PROTON.51., L2R *\ - 0.000000 <= r444 <= 30000.000000 \* TRANS-RXN0-517-FUM/PROTON//FUM/PROTON.23., L2R *\ - 0.000000 <= r445 <= 30000.000000 \* TRANS-RXN0-517-MALEATE/PROTON//MALEATE/PROTON.31., L2R *\ - 0.000000 <= r446 <= 30000.000000 \* TRANS-RXN0-517-SUC/PROTON//SUC/PROTON.23., L2R *\ - 0.000000 <= r447 <= 30000.000000 \* TRANS-RXN0-517-MAL/PROTON//MAL/PROTON.23., L2R *\ - 0.000000 <= r448 <= 30000.000000 \* TRANS-RXN0-517-CPD-660/PROTON//CPD-660/PROTON.31., L2R *\ - 0.000000 <= r449 <= 30000.000000 \* TRANS-RXN0-265, L2R *\ - 0.000000 <= r450 <= 30000.000000 \* TRANS-RXN0-265-P-AMINO-BENZOATE//P-AMINO-BENZOATE.35., L2R *\ - 0.000000 <= r451 <= 30000.000000 \* TRANS-RXN0-265-TYR//TYR.9., L2R *\ - 0.000000 <= r452 <= 30000.000000 \* TRANS-RXN0-265-TRP//TRP.9., L2R *\ - 0.000000 <= r453 <= 30000.000000 \* TRANS-RXN0-265-PHE//PHE.9., L2R *\ - 0.000000 <= r454 <= 30000.000000 \* TRANS-RXN0-265-HIS//HIS.9., L2R *\ - 0.000000 <= r455 <= 30000.000000 \* TRANS-RXN0-265-CPD-216//CPD-216.17., L2R *\ - 0.000000 <= r456 <= 30000.000000 \* TRANS-RXN0-265-D-TYROSINE//D-TYROSINE.23., L2R *\ - 0.000000 <= r457 <= 30000.000000 \* TRANS-RXN0-265-D-TRYPTOPHAN//D-TRYPTOPHAN.27., L2R *\ - 0.000000 <= r458 <= 30000.000000 \* TRANS-RXN0-265-CPD-3729//CPD-3729.19., L2R *\ - 0.000000 <= r459 <= 30000.000000 \* TRANS-RXN-68, L2R *\ - 0.000000 <= r460 <= 30000.000000 \* TRANS-RXN-29A, L2R *\ - 0.000000 <= r461 <= 30000.000000 \* TRANS-RXN-162, L2R *\ - 0.000000 <= r462 <= 30000.000000 \* TRANS-RXN-121A, L2R *\ - 0.000000 <= r463 <= 30000.000000 \* TRANS-RXN-106B, L2R *\ - 0.000000 <= r464 <= 30000.000000 \* RXN0-5111, L2R *\ - 0.000000 <= r465 <= 30000.000000 \* TRANS-RXN0-501, L2R *\ - 0.000000 <= r466 <= 30000.000000 \* TRANS-RXN0-244, L2R *\ - 0.000000 <= r467 <= 30000.000000 \* TRANS-RXN-98, L2R *\ - 0.000000 <= r468 <= 30000.000000 \* TRANS-RXN-61, L2R *\ - 0.000000 <= r469 <= 30000.000000 \* TRANS-RXN-262, L2R *\ - 0.000000 <= r470 <= 30000.000000 \* TRANS-RXN-132, L2R *\ - 0.000000 <= r471 <= 30000.000000 \* TRANS-RXN-117, L2R *\ - 0.000000 <= r472 <= 30000.000000 \* TRANS-RXN-113, L2R *\ - 0.000000 <= r473 <= 30000.000000 \* TRANS-RXN-105, L2R *\ - 0.000000 <= r474a <= 30000.000000 \* RXN0-2501, L2R *\ - 0.000000 <= r474b <= 30000.000000 \* RXN0-2501, R2L *\ - 0.000000 <= r475 <= 30000.000000 \* TRANS-RXN0-588, L2R *\ - 0.000000 <= r476 <= 30000.000000 \* TRANS-RXN0-235, L2R *\ - 0.000000 <= r477 <= 30000.000000 \* TRANS-RXN-94, L2R *\ - 0.000000 <= r478 <= 30000.000000 \* TRANS-RXN-56, L2R *\ - 0.000000 <= r479 <= 30000.000000 \* TRANS-RXN-25, L2R *\ - 0.000000 <= r480 <= 30000.000000 \* TRANS-RXN-25-CPD0-1123/PROTON//CPD0-1123/PROTON.35., L2R *\ - 0.000000 <= r481 <= 30000.000000 \* TRANS-RXN-25-CPD0-1122/PROTON//CPD0-1122/PROTON.35., L2R *\ - 0.000000 <= r482 <= 30000.000000 \* RXN0-21, L2R *\ - 0.000000 <= r483 <= 30000.000000 \* TRANS-RXN-127, L2R *\ - 0.000000 <= r484 <= 30000.000000 \* TRANS-RXN-108H, L2R *\ - 0.000000 <= r485 <= 30000.000000 \* TRANS-RXN-100, L2R *\ - 0.000000 <= r486 <= 30000.000000 \* RXN0-2162, L2R *\ - 0.000000 <= r487 <= 30000.000000 \* TRANS-RXN0-550, L2R *\ - 0.000000 <= r488 <= 30000.000000 \* TRANS-RXN0-451, L2R *\ - 0.000000 <= r489 <= 30000.000000 \* TRANS-RXN0-227, L2R *\ - 0.000000 <= r490 <= 30000.000000 \* TRANS-RXN-82, L2R *\ - 0.000000 <= r491 <= 30000.000000 \* TRANS-RXN-41, L2R *\ - 0.000000 <= r492 <= 30000.000000 \* TRANS-RXN-241, L2R *\ - 0.000000 <= r493 <= 30000.000000 \* TRANS-RXN-126, L2R *\ - 0.000000 <= r494 <= 30000.000000 \* TRANS-RXN-108E, L2R *\ - 0.000000 <= r495 <= 30000.000000 \* RXN0-7077, L2R *\ - 0.000000 <= r496 <= 30000.000000 \* RXN0-7077-GLC/PROTON//GLC/PROTON.23., L2R *\ - 0.000000 <= r497 <= 30000.000000 \* RXN0-7077-ALPHA-GLUCOSE/PROTON//ALPHA-GLUCOSE/PROTON.43., L2R *\ - 0.000000 <= r498 <= 30000.000000 \* RXN0-1923, L2R *\ - 0.000000 <= r499 <= 30000.000000 \* TRANS-RXN0-532, L2R *\ - 0.000000 <= r500 <= 30000.000000 \* TRANS-RXN0-280, L2R *\ - 0.000000 <= r501 <= 30000.000000 \* TRANS-RXN0-211, L2R *\ - 0.000000 <= r502 <= 30000.000000 \* TRANS-RXN-76, L2R *\ - 0.000000 <= r503 <= 30000.000000 \* TRANS-RXN-33, L2R *\ - 0.000000 <= r504 <= 30000.000000 \* TRANS-RXN-22, L2R *\ - 0.000000 <= r505 <= 30000.000000 \* TRANS-RXN-122A, L2R *\ - 0.000000 <= r506 <= 30000.000000 \* TRANS-RXN-108B, L2R *\ - 0.000000 <= r507 <= 30000.000000 \* RXN0-5203, L2R *\ - 0.000000 <= r508 <= 30000.000000 \* RXN-5076, L2R *\ - 0.000000 <= r509 <= 30000.000000 \* TRANS-RXN0-519, L2R *\ - 0.000000 <= r510 <= 30000.000000 \* TRANS-RXN0-266, L2R *\ - 0.000000 <= r511 <= 30000.000000 \* TRANS-RXN0-200, L2R *\ - 0.000000 <= r512 <= 30000.000000 \* TRANS-RXN-69, L2R *\ - 0.000000 <= r513 <= 30000.000000 \* TRANS-RXN-3, L2R *\ - 0.000000 <= r514 <= 30000.000000 \* TRANS-RXN-121B, L2R *\ - 0.000000 <= r515 <= 30000.000000 \* TRANS-RXN-106D-L-ASPARTATE/PROTON//L-ASPARTATE/PROTON.39., L2R *\ - 0.000000 <= r516 <= 30000.000000 \* TRANS-RXN-106D-ENOL-OXALOACETATE/PROTON//ENOL-OXALOACETATE/PROTON.51., L2R *\ - 0.000000 <= r517 <= 30000.000000 \* TRANS-RXN-106D-FUM/PROTON//FUM/PROTON.23., L2R *\ - 0.000000 <= r518 <= 30000.000000 \* TRANS-RXN-106D-MALEATE/PROTON//MALEATE/PROTON.31., L2R *\ - 0.000000 <= r519 <= 30000.000000 \* TRANS-RXN-106D-SUC/PROTON//SUC/PROTON.23., L2R *\ - 0.000000 <= r520 <= 30000.000000 \* TRANS-RXN-106D-MAL/PROTON//MAL/PROTON.23., L2R *\ - 0.000000 <= r521 <= 30000.000000 \* TRANS-RXN-106D-CPD-660/PROTON//CPD-660/PROTON.31., L2R *\ - 0.000000 <= r522 <= 30000.000000 \* RXN0-5130, L2R *\ - 0.000000 <= r523 <= 30000.000000 \* TRANS-RXN0-502, L2R *\ - 0.000000 <= r524 <= 30000.000000 \* TRANS-RXN0-258, L2R *\ - 0.000000 <= r525 <= 30000.000000 \* TRANS-RXN-99, L2R *\ - 0.000000 <= r526 <= 30000.000000 \* TRANS-RXN-62A, L2R *\ - 0.000000 <= r527 <= 30000.000000 \* TRANS-RXN-27, L2R *\ - 0.000000 <= r528 <= 30000.000000 \* TRANS-RXN-142, L2R *\ - 0.000000 <= r529 <= 30000.000000 \* TRANS-RXN-118, L2R *\ - 0.000000 <= r530 <= 30000.000000 \* TRANS-RXN-114, L2R *\ - 0.000000 <= r531 <= 30000.000000 \* TRANS-RXN-106, L2R *\ - 0.000000 <= r532 <= 30000.000000 \* TRANS-RXN0-589, L2R *\ - 0.000000 <= r533 <= 30000.000000 \* TRANS-RXN0-496, L2R *\ - 0.000000 <= r534 <= 30000.000000 \* TRANS-RXN0-236, L2R *\ - 0.000000 <= r535 <= 30000.000000 \* TRANS-RXN-94A, L2R *\ - 0.000000 <= r536 <= 30000.000000 \* TRANS-RXN-57, L2R *\ - 0.000000 <= r537 <= 30000.000000 \* TRANS-RXN-26, L2R *\ - 0.000000 <= r538 <= 30000.000000 \* TRANS-RXN-129, L2R *\ - 0.000000 <= r539 <= 30000.000000 \* TRANS-RXN-108I, L2R *\ - 0.000000 <= r540 <= 30000.000000 \* TRANS-RXN-101, L2R *\ - 0.000000 <= r541 <= 30000.000000 \* RXN0-22, L2R *\ - 0.000000 <= r542 <= 30000.000000 \* TRANS-RXN0-571, L2R *\ - 0.000000 <= r543 <= 30000.000000 \* TRANS-RXN0-452, L2R *\ - 0.000000 <= r544 <= 30000.000000 \* TRANS-RXN0-228, L2R *\ - 0.000000 <= r545 <= 30000.000000 \* TRANS-RXN-90, L2R *\ - 0.000000 <= r546 <= 30000.000000 \* TRANS-RXN-42, L2R *\ - 0.000000 <= r547 <= 30000.000000 \* TRANS-RXN-242, L2R *\ - 0.000000 <= r548 <= 30000.000000 \* TRANS-RXN-126A, L2R *\ - 0.000000 <= r549 <= 30000.000000 \* TRANS-RXN-108F, L2R *\ - 0.000000 <= r550 <= 30000.000000 \* RXN0-8, L2R *\ - 0.000000 <= r551a <= 30000.000000 \* RXN0-1924, L2R *\ - 0.000000 <= r551b <= 30000.000000 \* RXN0-1924, R2L *\ - 0.000000 <= r552 <= 30000.000000 \* TRANS-RXN0-533, L2R *\ - 0.000000 <= r553 <= 30000.000000 \* TRANS-RXN0-288, L2R *\ - 0.000000 <= r554 <= 30000.000000 \* TRANS-RXN0-288-CPD0-2190/PROTON//CPD0-2190/PROTON.35., L2R *\ - 0.000000 <= r555 <= 30000.000000 \* TRANS-RXN0-288-CPD-10814/PROTON//CPD-10814/PROTON.35., L2R *\ - 0.000000 <= r556 <= 30000.000000 \* TRANS-RXN0-288-L-GAMMA-GLUTAMYLCYSTEINE/PROTON//L-GAMMA-GLUTAMYLCYSTEINE/PROTON.65., L2R *\ - 0.000000 <= r557 <= 30000.000000 \* TRANS-RXN0-288-CPD-13395/PROTON//CPD-13395/PROTON.35., L2R *\ - 0.000000 <= r558 <= 30000.000000 \* TRANS-RXN0-288-CPD-13401/PROTON//CPD-13401/PROTON.35., L2R *\ - 0.000000 <= r559 <= 30000.000000 \* TRANS-RXN0-288-CPD-13406/PROTON//CPD-13406/PROTON.35., L2R *\ - 0.000000 <= r560 <= 30000.000000 \* TRANS-RXN0-288-CPD0-1944/PROTON//CPD0-1944/PROTON.35., L2R *\ - 0.000000 <= r561 <= 30000.000000 \* TRANS-RXN0-288-CARNOSINE/PROTON//CARNOSINE/PROTON.35., L2R *\ - 0.000000 <= r562 <= 30000.000000 \* TRANS-RXN0-288-CYS-GLY/PROTON//CYS-GLY/PROTON.31., L2R *\ - 0.000000 <= r563 <= 30000.000000 \* TRANS-RXN0-288-CPD-13394/PROTON//CPD-13394/PROTON.35., L2R *\ - 0.000000 <= r564 <= 30000.000000 \* TRANS-RXN0-288-CPD-13398/PROTON//CPD-13398/PROTON.35., L2R *\ - 0.000000 <= r565 <= 30000.000000 \* TRANS-RXN0-288-CPD-13404/PROTON//CPD-13404/PROTON.35., L2R *\ - 0.000000 <= r566 <= 30000.000000 \* TRANS-RXN0-288-CPD0-1445/PROTON//CPD0-1445/PROTON.35., L2R *\ - 0.000000 <= r567 <= 30000.000000 \* TRANS-RXN0-288-ALA-GLY/PROTON//ALA-GLY/PROTON.31., L2R *\ - 0.000000 <= r568 <= 30000.000000 \* TRANS-RXN0-288-CPD-13393/PROTON//CPD-13393/PROTON.35., L2R *\ - 0.000000 <= r569 <= 30000.000000 \* TRANS-RXN0-288-CPD-13397/PROTON//CPD-13397/PROTON.35., L2R *\ - 0.000000 <= r570 <= 30000.000000 \* TRANS-RXN0-288-CPD-13403/PROTON//CPD-13403/PROTON.35., L2R *\ - 0.000000 <= r571 <= 30000.000000 \* TRANS-RXN0-288-CPD-3569/PROTON//CPD-3569/PROTON.33., L2R *\ - 0.000000 <= r572 <= 30000.000000 \* TRANS-RXN0-288-D-ALA-D-ALA/PROTON//D-ALA-D-ALA/PROTON.39., L2R *\ - 0.000000 <= r573 <= 30000.000000 \* TRANS-RXN0-288-CPD-13390/PROTON//CPD-13390/PROTON.35., L2R *\ - 0.000000 <= r574 <= 30000.000000 \* TRANS-RXN0-212, L2R *\ - 0.000000 <= r575 <= 30000.000000 \* TRANS-RXN-77, L2R *\ - 0.000000 <= r576 <= 30000.000000 \* TRANS-RXN-35-CPD-15530/PROTON//CPD-15530/PROTON.35., L2R *\ - 0.000000 <= r577 <= 30000.000000 \* TRANS-RXN-35-CPD-12521/PROTON//CPD-12521/PROTON.35., L2R *\ - 0.000000 <= r578 <= 30000.000000 \* TRANS-RXN-35-CPD-14488/PROTON//CPD-14488/PROTON.35., L2R *\ - 0.000000 <= r579 <= 30000.000000 \* TRANS-RXN-23, L2R *\ - 0.000000 <= r580 <= 30000.000000 \* TRANS-RXN-123, L2R *\ - 0.000000 <= r581 <= 30000.000000 \* TRANS-RXN-123-CPD-15633/PROTON//CPD-15633/PROTON.35., L2R *\ - 0.000000 <= r582 <= 30000.000000 \* TRANS-RXN-123-CPD-12523/PROTON//CPD-12523/PROTON.35., L2R *\ - 0.000000 <= r583 <= 30000.000000 \* TRANS-RXN-108C, L2R *\ - 0.000000 <= r584 <= 30000.000000 \* RXN0-6, L2R *\ - 0.000000 <= r585 <= 30000.000000 \* RXN0-1721, L2R *\ - 0.000000 <= r586 <= 30000.000000 \* TRANS-RXN0-520, L2R *\ - 0.000000 <= r587 <= 30000.000000 \* TRANS-RXN0-267-L-ALA-GAMMA-D-GLU-DAP/PROTON//L-ALA-GAMMA-D-GLU-DAP/PROTON.59., L2R *\ - 0.000000 <= r588 <= 30000.000000 \* TRANS-RXN0-201, L2R *\ - 0.000000 <= r589 <= 30000.000000 \* TRANS-RXN-71, L2R *\ - 0.000000 <= r590 <= 30000.000000 \* TRANS-RXN-30-CPD-15377/PROTON//CPD-15377/PROTON.35., L2R *\ - 0.000000 <= r591 <= 30000.000000 \* TRANS-RXN-30-XYLOSE/PROTON//XYLOSE/PROTON.29., L2R *\ - 0.000000 <= r592 <= 30000.000000 \* TRANS-RXN-30-BETA-D-XYLOSE/PROTON//BETA-D-XYLOSE/PROTON.43., L2R *\ - 0.000000 <= r593 <= 30000.000000 \* TRANS-RXN-20-CPD-15619/PROTON//CPD-15619/PROTON.35., L2R *\ - 0.000000 <= r594 <= 30000.000000 \* TRANS-RXN-20-CPD0-1107/PROTON//CPD0-1107/PROTON.35., L2R *\ - 0.000000 <= r595 <= 30000.000000 \* TRANS-RXN-20-CPD-10329/PROTON//CPD-10329/PROTON.35., L2R *\ - 0.000000 <= r596 <= 30000.000000 \* TRANS-RXN-121C, L2R *\ - 0.000000 <= r597 <= 30000.000000 \* TRANS-RXN-108, L2R *\ - 0.000000 <= r598 <= 30000.000000 \* TRANS-RXN-108-DEOXYADENOSINE/PROTON//DEOXYADENOSINE/PROTON.45., L2R *\ - 0.000000 <= r599 <= 30000.000000 \* TRANS-RXN-108-DEOXYINOSINE/PROTON//DEOXYINOSINE/PROTON.41., L2R *\ - 0.000000 <= r600 <= 30000.000000 \* TRANS-RXN-108-DEOXYGUANOSINE/PROTON//DEOXYGUANOSINE/PROTON.45., L2R *\ - 0.000000 <= r601 <= 30000.000000 \* TRANS-RXN-108-DEOXYURIDINE/PROTON//DEOXYURIDINE/PROTON.41., L2R *\ - 0.000000 <= r602 <= 30000.000000 \* TRANS-RXN-108-DEOXYCYTIDINE/PROTON//DEOXYCYTIDINE/PROTON.43., L2R *\ - 0.000000 <= r603 <= 30000.000000 \* TRANS-RXN-108-THYMIDINE/PROTON//THYMIDINE/PROTON.35., L2R *\ - 0.000000 <= r604 <= 30000.000000 \* TRANS-RXN-108-CPD-16020/PROTON//CPD-16020/PROTON.35., L2R *\ - 0.000000 <= r605 <= 30000.000000 \* TRANS-RXN-108-CPD0-1321/PROTON//CPD0-1321/PROTON.35., L2R *\ - 0.000000 <= r606 <= 30000.000000 \* TRANS-RXN-108-5-METHYLAMINOMETHYL-2-THIOURIDINE/PROTON//5-METHYLAMINOMETHYL-2-THIOURIDINE/PROTON.83., L2R *\ - 0.000000 <= r607 <= 30000.000000 \* TRANS-RXN-108-CPD0-1320/PROTON//CPD0-1320/PROTON.35., L2R *\ - 0.000000 <= r608 <= 30000.000000 \* TRANS-RXN-108-5-METHYLAMINOMETHYL-2-SELENOURIDINE/PROTON//5-METHYLAMINOMETHYL-2-SELENOURIDINE/PROTON.87., L2R *\ - 0.000000 <= r609 <= 30000.000000 \* TRANS-RXN-108-CPD0-1311/PROTON//CPD0-1311/PROTON.35., L2R *\ - 0.000000 <= r610 <= 30000.000000 \* TRANS-RXN-108-CPD0-1322/PROTON//CPD0-1322/PROTON.35., L2R *\ - 0.000000 <= r611 <= 30000.000000 \* TRANS-RXN-108-CPD-15544/PROTON//CPD-15544/PROTON.35., L2R *\ - 0.000000 <= r612 <= 30000.000000 \* TRANS-RXN-108-CPD0-1312/PROTON//CPD0-1312/PROTON.35., L2R *\ - 0.000000 <= r613 <= 30000.000000 \* TRANS-RXN-108-CYTIDINE/PROTON//CYTIDINE/PROTON.33., L2R *\ - 0.000000 <= r614 <= 30000.000000 \* TRANS-RXN-108-URIDINE/PROTON//URIDINE/PROTON.31., L2R *\ - 0.000000 <= r615 <= 30000.000000 \* TRANS-RXN-108-CPD0-1319/PROTON//CPD0-1319/PROTON.35., L2R *\ - 0.000000 <= r616 <= 30000.000000 \* TRANS-RXN-108-INOSINE/PROTON//INOSINE/PROTON.31., L2R *\ - 0.000000 <= r617 <= 30000.000000 \* TRANS-RXN-108-GUANOSINE/PROTON//GUANOSINE/PROTON.35., L2R *\ - 0.000000 <= r618 <= 30000.000000 \* TRANS-RXN-108-ADENOSINE/PROTON//ADENOSINE/PROTON.35., L2R *\ - 0.000000 <= r619 <= 30000.000000 \* TRANS-RXN-108-XANTHOSINE/PROTON//XANTHOSINE/PROTON.37., L2R *\ - 0.000000 <= r620 <= 30000.000000 \* TRANS-RXN-108-ADENOSINE5TRIPHOSPHO5ADENOSINE/PROTON//ADENOSINE5TRIPHOSPHO5ADENOSINE/PROTON.77., L2R *\ - 0.000000 <= r621 <= 30000.000000 \* TRANS-RXN-108-ADENOSYL-P4/PROTON//ADENOSYL-P4/PROTON.39., L2R *\ - 0.000000 <= r622 <= 30000.000000 \* TRANS-RXN-108-CPD0-1137/PROTON//CPD0-1137/PROTON.35., L2R *\ - 0.000000 <= r623 <= 30000.000000 \* RXN0-5201, L2R *\ - 0.000000 <= r624 <= 30000.000000 \* TRANS-RXN0-515, L2R *\ - 0.000000 <= r625 <= 30000.000000 \* TRANS-RXN0-264, L2R *\ - 0.000000 <= r626 <= 30000.000000 \* TRANS-RXN0-0244, L2R *\ - 0.000000 <= r627 <= 30000.000000 \* TRANS-RXN-62B, L2R *\ - 0.000000 <= r628 <= 30000.000000 \* TRANS-RXN-29, L2R *\ - 0.000000 <= r629 <= 30000.000000 \* TRANS-RXN-16, L2R *\ - 0.000000 <= r630 <= 30000.000000 \* TRANS-RXN-121, L2R *\ - 0.000000 <= r631 <= 30000.000000 \* TRANS-RXN-106A, L2R *\ - 0.000000 <= r632 <= 30000.000000 \* RXN0-4083, L2R *\ - 0.000000 <= r633 <= 30000.000000 \* TRANS-RXN0-592, L2R *\ - 0.000000 <= r634 <= 30000.000000 \* TRANS-RXN0-499, L2R *\ - 0.000000 <= r635 <= 30000.000000 \* TRANS-RXN0-239, L2R *\ - 0.000000 <= r636 <= 30000.000000 \* TRANS-RXN-94B, L2R *\ - 0.000000 <= r637 <= 30000.000000 \* TRANS-RXN-58, L2R *\ - 0.000000 <= r638 <= 30000.000000 \* TRANS-RXN-261, L2R *\ - 0.000000 <= r639 <= 30000.000000 \* TRANS-RXN-130, L2R *\ - 0.000000 <= r640 <= 30000.000000 \* TRANS-RXN-116, L2R *\ - 0.000000 <= r641a <= 30000.000000 \* TRANS-RXN0-546, L2R *\ - 0.000000 <= r641b <= 30000.000000 \* TRANS-RXN0-546, R2L *\ - 0.000000 <= r642a <= 30000.000000 \* TRANS-RXN0-474, L2R *\ - 0.000000 <= r642b <= 30000.000000 \* TRANS-RXN0-474, R2L *\ - 0.000000 <= r643 <= 30000.000000 \* TRANS-RXN0-591, L2R *\ - 0.000000 <= r644a <= 30000.000000 \* TRANS-RXN0-568, L2R *\ - 0.000000 <= r644b <= 30000.000000 \* TRANS-RXN0-568, R2L *\ - 0.000000 <= r645a <= 30000.000000 \* TRANS-RXN0-568-L-LACTATE//L-LACTATE.21., L2R *\ - 0.000000 <= r645b <= 30000.000000 \* TRANS-RXN0-568-L-LACTATE//L-LACTATE.21., R2L *\ - 0.000000 <= r646a <= 30000.000000 \* TRANS-RXN0-568-D-LACTATE//D-LACTATE.21., L2R *\ - 0.000000 <= r646b <= 30000.000000 \* TRANS-RXN0-568-D-LACTATE//D-LACTATE.21., R2L *\ - 0.000000 <= r647a <= 30000.000000 \* TRANS-RXN0-547, L2R *\ - 0.000000 <= r647b <= 30000.000000 \* TRANS-RXN0-547, R2L *\ - 0.000000 <= r648a <= 30000.000000 \* TRANS-RXN0-544, L2R *\ - 0.000000 <= r648b <= 30000.000000 \* TRANS-RXN0-544, R2L *\ - 0.000000 <= r649 <= 30000.000000 \* TRANS-RXN0-572, L2R *\ - 0.000000 <= r650a <= 30000.000000 \* TRANS-RXN0-563, L2R *\ - 0.000000 <= r650b <= 30000.000000 \* TRANS-RXN0-563, R2L *\ - 0.000000 <= r651a <= 30000.000000 \* TRANS-RXN0-545, L2R *\ - 0.000000 <= r651b <= 30000.000000 \* TRANS-RXN0-545, R2L *\ - 0.000000 <= r652 <= 30000.000000 \* TRANS-RXN0-590, L2R *\ - 0.000000 <= r653a <= 30000.000000 \* TRANS-RXN0-567, L2R *\ - 0.000000 <= r653b <= 30000.000000 \* TRANS-RXN0-567, R2L *\ - 0.000000 <= r654 <= 30000.000000 \* 3.2.1.52-RXN, L2R *\ - 0.000000 <= r655a <= 30000.000000 \* RXN0-5414, L2R *\ - 0.000000 <= r655b <= 30000.000000 \* RXN0-5414, R2L *\ - 0.000000 <= r656 <= 30000.000000 \* INORGPYROPHOSPHAT-RXN[CCO-PERI-BAC]-PPI/WATER//Pi/PROTON.35., L2R *\ - 0.000000 <= r657 <= 30000.000000 \* INORGPYROPHOSPHAT-RXN[CCO-CYTOSOL]-PPI/WATER//Pi/PROTON.34., L2R *\ - 0.000000 <= r658 <= 30000.000000 \* RXN-14501, L2R *\ - 0.000000 <= r659a <= 30000.000000 \* RXN-13039, L2R *\ - 0.000000 <= r659b <= 30000.000000 \* RXN-13039, R2L *\ - 0.000000 <= r660a <= 30000.000000 \* KDUD-RXN, L2R *\ - 0.000000 <= r660b <= 30000.000000 \* KDUD-RXN, R2L *\ - 0.000000 <= r661a <= 30000.000000 \* 4.2.1.99-RXN, L2R *\ - 0.000000 <= r661b <= 30000.000000 \* 4.2.1.99-RXN, R2L *\ - 0.000000 <= r662 <= 30000.000000 \* PROTEIN-TYROSINE-PHOSPHATASE-RXN, L2R *\ - 0.000000 <= r663a <= 30000.000000 \* RXN-14552, L2R *\ - 0.000000 <= r663b <= 30000.000000 \* RXN-14552, R2L *\ - 0.000000 <= r664a <= 30000.000000 \* LTARTDEHYDRA-RXN, L2R *\ - 0.000000 <= r664b <= 30000.000000 \* LTARTDEHYDRA-RXN, R2L *\ - 0.000000 <= r665 <= 30000.000000 \* 6PGLUCONOLACT-RXN, L2R *\ - 0.000000 <= r666a <= 30000.000000 \* RXN-14883-CPD-15818//CPD0-1110.21., L2R *\ - 0.000000 <= r666b <= 30000.000000 \* RXN-14883-CPD-15818//CPD0-1110.21., R2L *\ - 0.000000 <= r667 <= 30000.000000 \* MANNONDEHYDRAT-RXN, L2R *\ - 0.000000 <= r668 <= 30000.000000 \* ACETYLESTERASE-RXN, L2R *\ - 0.000000 <= r669 <= 30000.000000 \* RXN-15147, L2R *\ - 0.000000 <= r670 <= 30000.000000 \* MHPCHYDROL-RXN, L2R *\ - 0.000000 <= r671 <= 30000.000000 \* ADENINE-DEAMINASE-RXN, L2R *\ - 0.000000 <= r672 <= 30000.000000 \* RXN0-6575, L2R *\ - 0.000000 <= r673a <= 30000.000000 \* RXN0-6718, L2R *\ - 0.000000 <= r673b <= 30000.000000 \* RXN0-6718, R2L *\ - 0.000000 <= r674a <= 30000.000000 \* RXN-15513, L2R *\ - 0.000000 <= r674b <= 30000.000000 \* RXN-15513, R2L *\ - 0.000000 <= r675a <= 30000.000000 \* NANE-RXN-N-ACETYL-D-MANNOSAMINE-6P//CPD-16168.37., L2R *\ - 0.000000 <= r675b <= 30000.000000 \* NANE-RXN-N-ACETYL-D-MANNOSAMINE-6P//CPD-16168.37., R2L *\ - 0.000000 <= r676 <= 30000.000000 \* RXN-7716, L2R *\ - 0.000000 <= r677a <= 30000.000000 \* AKBLIG-RXN, L2R *\ - 0.000000 <= r677b <= 30000.000000 \* AKBLIG-RXN, R2L *\ - 0.000000 <= r678 <= 30000.000000 \* RXN0-6733, L2R *\ - 0.000000 <= r679a <= 30000.000000 \* RXN-16281, L2R *\ - 0.000000 <= r679b <= 30000.000000 \* RXN-16281, R2L *\ - 0.000000 <= r680a <= 30000.000000 \* OHBUTYRYL-COA-EPIM-RXN-CPD-650//S-3-HYDROXYBUTANOYL-COA.33., L2R *\ - 0.000000 <= r680b <= 30000.000000 \* OHBUTYRYL-COA-EPIM-RXN-CPD-650//S-3-HYDROXYBUTANOYL-COA.33., R2L *\ - 0.000000 <= r681 <= 30000.000000 \* ALPHAGALACTOSID-RXN, L2R *\ - 0.000000 <= r682 <= 30000.000000 \* RXN0-6979, L2R *\ - 0.000000 <= r683 <= 30000.000000 \* 3.1.3.16-RXN, L2R *\ - 0.000000 <= r684a <= 30000.000000 \* RXN-6268, L2R *\ - 0.000000 <= r684b <= 30000.000000 \* RXN-6268, R2L *\ - 0.000000 <= r685 <= 30000.000000 \* PANTOTHENATE-KIN-RXN, L2R *\ - 0.000000 <= r686 <= 30000.000000 \* RXN0-7002, L2R *\ - 0.000000 <= r687a <= 30000.000000 \* RXN-8315, L2R *\ - 0.000000 <= r687b <= 30000.000000 \* RXN-8315, R2L *\ - 0.000000 <= r688 <= 30000.000000 \* PHENPRODIOLDEHYDROG-RXN, L2R *\ - 0.000000 <= r689 <= 30000.000000 \* ASPCARBTRANS-RXN, L2R *\ - 0.000000 <= r690 <= 30000.000000 \* RXN0-7046, L2R *\ - 0.000000 <= r691 <= 30000.000000 \* RXN-8992, L2R *\ - 0.000000 <= r692 <= 30000.000000 \* 3.4.11.1-RXN, L2R *\ - 0.000000 <= r693 <= 30000.000000 \* PNKIN-RXN, L2R *\ - 0.000000 <= r694 <= 30000.000000 \* CARBAMATE-KINASE-RXN, R2L *\ - 0.000000 <= r695a <= 30000.000000 \* RXN0-7101, L2R *\ - 0.000000 <= r695b <= 30000.000000 \* RXN0-7101, R2L *\ - 0.000000 <= r696 <= 30000.000000 \* RXN0-1281, R2L *\ - 0.000000 <= r697 <= 30000.000000 \* PROPIONYL-COA-CARBOXY-RXN, L2R *\ - 0.000000 <= r698 <= 30000.000000 \* PROTEIN-KINASE-RXN, L2R *\ - 0.000000 <= r699 <= 30000.000000 \* COBALADENOSYLTRANS-RXN, L2R *\ - 0.000000 <= r700 <= 30000.000000 \* RXN-10658-Cis-Delta7-tetradecenoyl-ACPs/MALONYL-ACP/PROTON//3-oxo-cis-D9-hexadecenoyl-ACPs/ACP/CARBON-DIOXIDE.100., L2R *\ - 0.000000 <= r701 <= 30000.000000 \* RXN0-985, L2R *\ - 0.000000 <= r702 <= 30000.000000 \* RXN-12473, L2R *\ - 0.000000 <= r703 <= 30000.000000 \* RXN-8655, L2R *\ - 0.000000 <= r704 <= 30000.000000 \* PYRIMSYN3-RXN, L2R *\ - 0.000000 <= r705 <= 30000.000000 \* RXN-9539-Myristoyl-ACPs/MALONYL-ACP/PROTON//3-oxo-palmitoyl-ACPs/CARBON-DIOXIDE/ACP.75., L2R *\ - 0.000000 <= r706 <= 30000.000000 \* DEOXYNUCLEOTIDE-3-PHOSPHATASE-RXN-CPD-15393/WATER//DEOXYURIDINE/Pi.33., L2R *\ - 0.000000 <= r707 <= 30000.000000 \* DEOXYNUCLEOTIDE-3-PHOSPHATASE-RXN-CPD-15391/WATER//DEOXYADENOSINE/Pi.35., L2R *\ - 0.000000 <= r708 <= 30000.000000 \* DEOXYNUCLEOTIDE-3-PHOSPHATASE-RXN-CPD-15392/WATER//DEOXYCYTIDINE/Pi.34., L2R *\ - 0.000000 <= r709 <= 30000.000000 \* DEOXYNUCLEOTIDE-3-PHOSPHATASE-RXN-CPD-3732/WATER//THYMIDINE/Pi.29., L2R *\ - 0.000000 <= r710 <= 30000.000000 \* RXN0-2142-BETA-HYDROXY-CIS-DELTA5-DODECENOYL-ACP/NADP//BETA-KETO-CIS-DELTA5-DODECENOYL-ACP/NADPH/PROTON.94., R2L *\ - 0.000000 <= r711 <= 30000.000000 \* RXN0-2142-b-Hydroxy-cis-D5-dodecenoyl-ACPs/NADP//b-Keto-cis-D5-dodecenoyl-ACPs/NADPH/PROTON.82., R2L *\ - 0.000000 <= r712 <= 30000.000000 \* CYTIKIN-RXN, L2R *\ - 0.000000 <= r713a <= 30000.000000 \* SIROHEME-FERROCHELAT-RXN, L2R *\ - 0.000000 <= r713b <= 30000.000000 \* SIROHEME-FERROCHELAT-RXN, R2L *\ - 0.000000 <= r714a <= 30000.000000 \* RXN0-2381, L2R *\ - 0.000000 <= r714b <= 30000.000000 \* RXN0-2381, R2L *\ - 0.000000 <= r715 <= 30000.000000 \* R524-RXN, L2R *\ - 0.000000 <= r716 <= 30000.000000 \* DIENOYLCOAREDUCT-RXN, R2L *\ - 0.000000 <= r717 <= 30000.000000 \* SULFITE-REDUCT-RXN, R2L *\ - 0.000000 <= r718 <= 30000.000000 \* 4.2.1.59-RXN-3R-3-HYDROXYOCTANOYL-ACP//MONOMER-4565/WATER.45., L2R *\ - 0.000000 <= r719 <= 30000.000000 \* 4.2.1.59-RXN-3-Hydroxy-octanoyl-ACPs//2-Octenoyl-ACPs/WATER.47., L2R *\ - 0.000000 <= r720 <= 30000.000000 \* BIOTIN-CARBOXYL-RXN-BCCP-dimers/HCO3/ATP//Carboxybiotin-BCCP/ADP/Pi/PROTON.55., L2R *\ - 0.000000 <= r721 <= 30000.000000 \* CITRYLY-RXN-Citrate-Lyase-Citryl-Form//OXALACETIC_ACID/CITRATE-LYASE/PROTON.64., L2R *\ - 0.000000 <= r722 <= 30000.000000 \* THREONINE--TRNA-LIGASE-RXN-THR-tRNAs/THR/ATP/PROTON//Charged-THR-tRNAs/AMP/PPI.52., L2R *\ - 0.000000 <= r723 <= 30000.000000 \* RXN0-310, L2R *\ - 0.000000 <= r724 <= 30000.000000 \* RXN-10981, L2R *\ - 0.000000 <= r725 <= 30000.000000 \* ENOYL-COA-HYDRAT-RXN-S-3-HYDROXYBUTANOYL-COA//CROTONYL-COA/WATER.44., R2L *\ - 0.000000 <= r726 <= 30000.000000 \* ENOYL-COA-HYDRAT-RXN-OH-HEXANOYL-COA//CPD0-2121/WATER.33., R2L *\ - 0.000000 <= r727 <= 30000.000000 \* ENOYL-COA-HYDRAT-RXN-CPD0-2224//CPD0-2108/WATER.27., R2L *\ - 0.000000 <= r728 <= 30000.000000 \* ENOYL-COA-HYDRAT-RXN-CPD0-2244//T2-DECENOYL-COA/WATER.33., R2L *\ - 0.000000 <= r729 <= 30000.000000 \* ENOYL-COA-HYDRAT-RXN-CPD0-2107//CPD-7222/WATER.26., R2L *\ - 0.000000 <= r730 <= 30000.000000 \* ENOYL-COA-HYDRAT-RXN-CPD0-2171//POLYMER-INST-TRANS-D2-ENOYL-COA-C10-H20/WATER.57., R2L *\ - 0.000000 <= r731 <= 30000.000000 \* ENOYL-COA-HYDRAT-RXN-CPD0-2232//CPD0-2117/WATER.27., R2L *\ - 0.000000 <= r732 <= 30000.000000 \* ENOYL-COA-HYDRAT-RXN-CPD0-2253//CPD-10262/WATER.27., R2L *\ - 0.000000 <= r733 <= 30000.000000 \* ENOYL-COA-HYDRAT-RXN-POLYMER-INST-L-3-HYDROXYACYL-COA-C16-H32//POLYMER-INST-TRANS-D2-ENOYL-COA-C16-H32/WATER.88., R2L *\ - 0.000000 <= r734a <= 30000.000000 \* PYRUFLAVREDUCT-RXN, L2R *\ - 0.000000 <= r734b <= 30000.000000 \* PYRUFLAVREDUCT-RXN, R2L *\ - 0.000000 <= r735 <= 30000.000000 \* TREHALA-RXN[CCO-CYTOSOL]-TREHALOSE/WATER//GLC/ALPHA-GLUCOSE.48., L2R *\ - 0.000000 <= r736 <= 30000.000000 \* TREHALA-RXN[CCO-PERI-BAC]-TREHALOSE/WATER//GLC/ALPHA-GLUCOSE.49., L2R *\ - 0.000000 <= r737 <= 30000.000000 \* RXN-10661-Palmitoleoyl-ACPs/NAD//Trans-D3-cis-D9-hexadecenoyl-ACPs/NADH/PROTON.69., R2L *\ - 0.000000 <= r738 <= 30000.000000 \* RXN0-383, L2R *\ - 0.000000 <= r739 <= 30000.000000 \* RXN-14499-Red-Thioredoxin/CPD0-1564//Ox-Thioredoxin/D-CYSTEINE.53., L2R *\ - 0.000000 <= r740 <= 30000.000000 \* RXN-11589, L2R *\ - 0.000000 <= r741 <= 30000.000000 \* RXN-9516-Butanoyl-ACPs/MALONYL-ACP/PROTON//3-oxo-hexanoyl-ACPs/CARBON-DIOXIDE/ACP.73., L2R *\ - 0.000000 <= r742 <= 30000.000000 \* FUC4NACTRANS-RXN, L2R *\ - 0.000000 <= r743 <= 30000.000000 \* RXN-9550-Palmitoleoyl-ACPs/WATER//CPD-9245/ACP/PROTON.45., L2R *\ - 0.000000 <= r744a <= 30000.000000 \* TYROSINE-AMINOTRANSFERASE-RXN, L2R *\ - 0.000000 <= r744b <= 30000.000000 \* TYROSINE-AMINOTRANSFERASE-RXN, R2L *\ - 0.000000 <= r745 <= 30000.000000 \* RXN0-4301, L2R *\ - 0.000000 <= r746 <= 30000.000000 \* RXN0-267-Red-Thioredoxin/HYDROGEN-PEROXIDE//Ox-Thioredoxin/WATER.56., L2R *\ - 0.000000 <= r747 <= 30000.000000 \* RXN-11833, L2R *\ - 0.000000 <= r748a <= 30000.000000 \* GART-RXN-10-FORMYL-THF/5-PHOSPHO-RIBOSYL-GLYCINEAMIDE//THF/5-P-RIBOSYL-N-FORMYLGLYCINEAMIDE/PROTON.90., L2R *\ - 0.000000 <= r748b <= 30000.000000 \* GART-RXN-10-FORMYL-THF/5-PHOSPHO-RIBOSYL-GLYCINEAMIDE//THF/5-P-RIBOSYL-N-FORMYLGLYCINEAMIDE/PROTON.90., R2L *\ - 0.000000 <= r749 <= 30000.000000 \* RXN0-722-DUDP/Oxidized-NrdH-Proteins/WATER//UDP/Reduced-NrdH-Proteins.61., R2L *\ - 0.000000 <= r750a <= 30000.000000 \* URA-PHOSPH-RXN, L2R *\ - 0.000000 <= r750b <= 30000.000000 \* URA-PHOSPH-RXN, R2L *\ - 0.000000 <= r751 <= 30000.000000 \* THIOREDOXIN-RXN, R2L *\ - 0.000000 <= r752 <= 30000.000000 \* 1-ACYLGLYCEROL-3-P-ACYLTRANSFER-RXN, L2R *\ - 0.000000 <= r753 <= 30000.000000 \* RXN-12002, L2R *\ - 0.000000 <= r754 <= 30000.000000 \* 2.7.3.9-RXN, L2R *\ - 0.000000 <= r755a <= 30000.000000 \* GLUCONATE-5-DEHYDROGENASE-RXN-GLUCONATE/NAD//5-DEHYDROGLUCONATE/NADH/PROTON.46., L2R *\ - 0.000000 <= r755b <= 30000.000000 \* GLUCONATE-5-DEHYDROGENASE-RXN-GLUCONATE/NAD//5-DEHYDROGLUCONATE/NADH/PROTON.46., R2L *\ - 0.000000 <= r756a <= 30000.000000 \* GLUCONATE-5-DEHYDROGENASE-RXN-GLUCONATE/NADP//5-DEHYDROGLUCONATE/NADPH/PROTON.48., L2R *\ - 0.000000 <= r756b <= 30000.000000 \* GLUCONATE-5-DEHYDROGENASE-RXN-GLUCONATE/NADP//5-DEHYDROGLUCONATE/NADPH/PROTON.48., R2L *\ - 0.000000 <= r757a <= 30000.000000 \* ACP-S-ACETYLTRANSFER-RXN-ACP/ACETYL-COA//ACETYL-ACP/CO-A.32., L2R *\ - 0.000000 <= r757b <= 30000.000000 \* ACP-S-ACETYLTRANSFER-RXN-ACP/ACETYL-COA//ACETYL-ACP/CO-A.32., R2L *\ - 0.000000 <= r758a <= 30000.000000 \* XYLONATE-DEHYDRATASE-RXN, L2R *\ - 0.000000 <= r758b <= 30000.000000 \* XYLONATE-DEHYDRATASE-RXN, R2L *\ - 0.000000 <= r759 <= 30000.000000 \* CHEBDEAMID-RXN, L2R *\ - 0.000000 <= r760a <= 30000.000000 \* 1.1.1.264-RXN-L-IDONATE/NAD//5-DEHYDROGLUCONATE/NADH/PROTON.46., L2R *\ - 0.000000 <= r760b <= 30000.000000 \* 1.1.1.264-RXN-L-IDONATE/NAD//5-DEHYDROGLUCONATE/NADH/PROTON.46., R2L *\ - 0.000000 <= r761a <= 30000.000000 \* 1.1.1.264-RXN-L-IDONATE/NADP//5-DEHYDROGLUCONATE/NADPH/PROTON.48., L2R *\ - 0.000000 <= r761b <= 30000.000000 \* 1.1.1.264-RXN-L-IDONATE/NADP//5-DEHYDROGLUCONATE/NADPH/PROTON.48., R2L *\ - 0.000000 <= r762 <= 30000.000000 \* RXN0-5120, L2R *\ - 0.000000 <= r763a <= 30000.000000 \* FERREDOXIN--NAD+-REDUCTASE-RXN, L2R *\ - 0.000000 <= r763b <= 30000.000000 \* FERREDOXIN--NAD+-REDUCTASE-RXN, R2L *\ - 0.000000 <= r764 <= 30000.000000 \* RXN-12444, R2L *\ - 0.000000 <= r765 <= 30000.000000 \* MALONYL-ACPDECARBOX-RXN-MALONYL-ACP/PROTON//ACETYL-ACP/CARBON-DIOXIDE.46., L2R *\ - 0.000000 <= r766 <= 30000.000000 \* GLUTCYSLIG-RXN, L2R *\ - 0.000000 <= r767 <= 30000.000000 \* 2-METHYLCITRATE-SYNTHASE-RXN, L2R *\ - 0.000000 <= r768 <= 30000.000000 \* RIBONUCLEOSIDE-DIP-REDUCTI-RXN-Ox-Thioredoxin/CPD0-2231/WATER//Red-Thioredoxin/IDP.52., R2L *\ - 0.000000 <= r769 <= 30000.000000 \* RIBONUCLEOSIDE-DIP-REDUCTI-RXN-Ox-Thioredoxin/DGDP/WATER//Red-Thioredoxin/GDP.47., R2L *\ - 0.000000 <= r770 <= 30000.000000 \* RIBONUCLEOSIDE-DIP-REDUCTI-RXN-Ox-Thioredoxin/DADP/WATER//Red-Thioredoxin/ADP.47., R2L *\ - 0.000000 <= r771 <= 30000.000000 \* RIBONUCLEOSIDE-DIP-REDUCTI-RXN-Ox-Thioredoxin/DUDP/WATER//Red-Thioredoxin/UDP.47., R2L *\ - 0.000000 <= r772 <= 30000.000000 \* RIBONUCLEOSIDE-DIP-REDUCTI-RXN-Ox-Thioredoxin/DCDP/WATER//Red-Thioredoxin/CDP.47., R2L *\ - 0.000000 <= r773 <= 30000.000000 \* RXN-11476-3-Hydroxyglutaryl-ACP-methyl-ester/NADP//3-Ketoglutaryl-ACP-methyl-ester/NADPH/PROTON.86., R2L *\ - 0.000000 <= r774 <= 30000.000000 \* RXN-12861, L2R *\ - 0.000000 <= r775a <= 30000.000000 \* RXN-15511, L2R *\ - 0.000000 <= r775b <= 30000.000000 \* RXN-15511, R2L *\ - 0.000000 <= r776 <= 30000.000000 \* GLYCOLALD-DEHYDROG-RXN, L2R *\ - 0.000000 <= r777 <= 30000.000000 \* RXN-9523-Hexanoyl-ACPs/MALONYL-ACP/PROTON//3-Oxo-octanoyl-ACPs/CARBON-DIOXIDE/ACP.73., L2R *\ - 0.000000 <= r778a <= 30000.000000 \* 2.6.1.57-RXN, L2R *\ - 0.000000 <= r778b <= 30000.000000 \* 2.6.1.57-RXN, R2L *\ - 0.000000 <= r779 <= 30000.000000 \* RXN-9557-R-3-hydroxy-cis-vaccenoyl-ACPs//cis-vaccen-2-enoyl-ACPs/WATER.62., L2R *\ - 0.000000 <= r780 <= 30000.000000 \* RXN0-5217, L2R *\ - 0.000000 <= r781 <= 30000.000000 \* RXN0-1133, R2L *\ - 0.000000 <= r782 <= 30000.000000 \* RXN-13460, L2R *\ - 0.000000 <= r783 <= 30000.000000 \* GPH-RXN, L2R *\ - 0.000000 <= r784a <= 30000.000000 \* 3-CH3-2-OXOBUTANOATE-OH-CH3-XFER-RXN-CPD-12996/2-KETO-ISOVALERATE/WATER//2-DEHYDROPANTOATE/CPD-1301.63., L2R *\ - 0.000000 <= r784b <= 30000.000000 \* 3-CH3-2-OXOBUTANOATE-OH-CH3-XFER-RXN-CPD-12996/2-KETO-ISOVALERATE/WATER//2-DEHYDROPANTOATE/CPD-1301.63., R2L *\ - 0.000000 <= r785a <= 30000.000000 \* 3-CH3-2-OXOBUTANOATE-OH-CH3-XFER-RXN-METHYLENE-THF/2-KETO-ISOVALERATE/WATER//2-DEHYDROPANTOATE/THF.62., L2R *\ - 0.000000 <= r785b <= 30000.000000 \* 3-CH3-2-OXOBUTANOATE-OH-CH3-XFER-RXN-METHYLENE-THF/2-KETO-ISOVALERATE/WATER//2-DEHYDROPANTOATE/THF.62., R2L *\ - 0.000000 <= r786 <= 30000.000000 \* RXN-14091, L2R *\ - 0.000000 <= r787 <= 30000.000000 \* H2NEOPTERINALDOL-RXN, L2R *\ - 0.000000 <= r788a <= 30000.000000 \* 1.8.1.4-RXN, L2R *\ - 0.000000 <= r788b <= 30000.000000 \* 1.8.1.4-RXN, R2L *\ - 0.000000 <= r789 <= 30000.000000 \* 3-HYDROXYDECANOYL-ACP-DEHYDR-RXN-R-3-hydroxyarachidoyl-ACPs//trans-delta2-arachidoyl-ACPs/WATER.63., L2R *\ - 0.000000 <= r790 <= 30000.000000 \* 3-HYDROXYDECANOYL-ACP-DEHYDR-RXN-R-3-hydroxystearoyl-ACPs//Octadec-2-enoyl-ACPs/WATER.53., L2R *\ - 0.000000 <= r791 <= 30000.000000 \* 3-HYDROXYDECANOYL-ACP-DEHYDR-RXN-R-3-Hydroxypalmitoyl-ACPs//2-Hexadecenoyl-ACPs/WATER.53., L2R *\ - 0.000000 <= r792 <= 30000.000000 \* 3-HYDROXYDECANOYL-ACP-DEHYDR-RXN-R-3-hydroxymyristoyl-ACPs//Tetradec-2-enoyl-ACPs/WATER.55., L2R *\ - 0.000000 <= r793 <= 30000.000000 \* 3-HYDROXYDECANOYL-ACP-DEHYDR-RXN-R-3-hydroxydodecanoyl-ACPs//Dodec-2-enoyl-ACPs/WATER.53., L2R *\ - 0.000000 <= r794 <= 30000.000000 \* 3-HYDROXYDECANOYL-ACP-DEHYDR-RXN-Beta-hydroxydecanoyl-ACPs//Trans-D2-decenoyl-ACPs/WATER.56., L2R *\ - 0.000000 <= r795 <= 30000.000000 \* 3-HYDROXYDECANOYL-ACP-DEHYDR-RXN-3-Hydroxy-octanoyl-ACPs//2-Octenoyl-ACPs/WATER.47., L2R *\ - 0.000000 <= r796 <= 30000.000000 \* 3-HYDROXYDECANOYL-ACP-DEHYDR-RXN-R-3-hydroxyhexanoyl-ACPs//Hex-2-enoyl-ACPs/WATER.49., L2R *\ - 0.000000 <= r797 <= 30000.000000 \* 3-HYDROXYDECANOYL-ACP-DEHYDR-RXN-Beta-3-hydroxybutyryl-ACPs//Crotonyl-ACPs/WATER.48., L2R *\ - 0.000000 <= r798a <= 30000.000000 \* RXN0-5387, L2R *\ - 0.000000 <= r798b <= 30000.000000 \* RXN0-5387, R2L *\ - 0.000000 <= r799 <= 30000.000000 \* RXN-14255, L2R *\ - 0.000000 <= r800 <= 30000.000000 \* HOMOCYSMETB12-RXN-HOMO-CYS/CPD-1302//MET/CPD-1301.32., L2R *\ - 0.000000 <= r801 <= 30000.000000 \* HOMOCYSMETB12-RXN-HOMO-CYS/5-METHYL-THF//MET/THF.31., L2R *\ - 0.000000 <= r802 <= 30000.000000 \* 3.4.11.18-RXN-Protein-With-N-Terminal-Met/WATER//MET/Peptides-holder/PROTON.62., L2R *\ - 0.000000 <= r803a <= 30000.000000 \* RXN0-5433, L2R *\ - 0.000000 <= r803b <= 30000.000000 \* RXN0-5433, R2L *\ - 0.000000 <= r804a <= 30000.000000 \* RXN-14394, L2R *\ - 0.000000 <= r804b <= 30000.000000 \* RXN-14394, R2L *\ - 0.000000 <= r805a <= 30000.000000 \* PHOBCREC-RXN, L2R *\ - 0.000000 <= r805b <= 30000.000000 \* PHOBCREC-RXN, R2L *\ - 0.000000 <= r806a <= 30000.000000 \* IPPISOM-RXN, L2R *\ - 0.000000 <= r806b <= 30000.000000 \* IPPISOM-RXN, R2L *\ - 0.000000 <= r807 <= 30000.000000 \* RXN-11479-Glutaryl-ACP-methyl-esters/MALONYL-ACP/PROTON//3-Ketopimeloyl-ACP-methyl-esters/CARBON-DIOXIDE/ACP.99., L2R *\ - 0.000000 <= r808a <= 30000.000000 \* RXN0-6277-CPD-722/Red-Thioredoxin//BIOTIN/Ox-Thioredoxin/WATER.53., L2R *\ - 0.000000 <= r808b <= 30000.000000 \* RXN0-6277-CPD-722/Red-Thioredoxin//BIOTIN/Ox-Thioredoxin/WATER.53., R2L *\ - 0.000000 <= r809 <= 30000.000000 \* RXN-15890-Holo-EntF/SERYL-AMP//Seryl-EntF/AMP/PROTON.43., L2R *\ - 0.000000 <= r810 <= 30000.000000 \* RXN-14509, L2R *\ - 0.000000 <= r811 <= 30000.000000 \* RXN-9528-Beta-hydroxydecanoyl-ACPs/NADP//3-oxo-decanoyl-ACPs/NADPH/PROTON.65., R2L *\ - 0.000000 <= r812 <= 30000.000000 \* L-ASPARTATE-OXID-RXN, L2R *\ - 0.000000 <= r813 <= 30000.000000 \* RXN-9657-Butanoyl-ACPs/NAD//Crotonyl-ACPs/NADH/PROTON.45., R2L *\ - 0.000000 <= r814 <= 30000.000000 \* 4.3.1.17-RXN, L2R *\ - 0.000000 <= r815 <= 30000.000000 \* RXN0-6452, L2R *\ - 0.000000 <= r816a <= 30000.000000 \* RXN-14747, L2R *\ - 0.000000 <= r816b <= 30000.000000 \* RXN-14747, R2L *\ - 0.000000 <= r817 <= 30000.000000 \* LYSDECARBOX-RXN, L2R *\ - 0.000000 <= r818 <= 30000.000000 \* RXN0-748-DGDP/Oxidized-NrdH-Proteins/WATER//GDP/Reduced-NrdH-Proteins.61., R2L *\ - 0.000000 <= r819 <= 30000.000000 \* 1.8.4.14-RXN-MET/Ox-Thioredoxin/WATER//CPD-8990/Red-Thioredoxin.51., R2L *\ - 0.000000 <= r820 <= 30000.000000 \* RXN-14997, L2R *\ - 0.000000 <= r821 <= 30000.000000 \* 3-OXOACYL-ACP-SYNTH-RXN-MALONYL-ACP/POLYMER-INST-Saturated-Fatty-Acyl-ACPs-C0-H0/PROTON//ACP/3-oxo-hexanoyl-ACPs/CARBON-DIOXIDE.104., L2R *\ - 0.000000 <= r822 <= 30000.000000 \* 3-OXOACYL-ACP-SYNTH-RXN-MALONYL-ACP/Hexanoyl-ACPs/PROTON//ACP/3-Oxo-octanoyl-ACPs/CARBON-DIOXIDE.73., L2R *\ - 0.000000 <= r823 <= 30000.000000 \* 3-OXOACYL-ACP-SYNTH-RXN-MALONYL-ACP/Octanoyl-ACPs/PROTON//ACP/3-oxo-decanoyl-ACPs/CARBON-DIOXIDE.73., L2R *\ - 0.000000 <= r824 <= 30000.000000 \* 3-OXOACYL-ACP-SYNTH-RXN-MALONYL-ACP/Decanoyl-ACPs/PROTON//ACP/3-oxo-dodecanoyl-ACPs/CARBON-DIOXIDE.75., L2R *\ - 0.000000 <= r825 <= 30000.000000 \* 3-OXOACYL-ACP-SYNTH-RXN-MALONYL-ACP/Dodecanoyl-ACPs/PROTON//ACP/3-oxo-myristoyl-ACPs/CARBON-DIOXIDE.76., L2R *\ - 0.000000 <= r826 <= 30000.000000 \* 3-OXOACYL-ACP-SYNTH-RXN-MALONYL-ACP/Myristoyl-ACPs/PROTON//ACP/3-oxo-palmitoyl-ACPs/CARBON-DIOXIDE.75., L2R *\ - 0.000000 <= r827 <= 30000.000000 \* 3-OXOACYL-ACP-SYNTH-RXN-MALONYL-ACP/Palmitoyl-ACPs/PROTON//ACP/3-oxo-stearoyl-ACPs/CARBON-DIOXIDE.74., L2R *\ - 0.000000 <= r828 <= 30000.000000 \* 3-OXOACYL-ACP-SYNTH-RXN-MALONYL-ACP/Stearoyl-ACPs/PROTON//ACP/3-oxo-arachidoyl-ACPs/CARBON-DIOXIDE.75., L2R *\ - 0.000000 <= r829 <= 30000.000000 \* 3-OXOACYL-ACP-SYNTH-RXN-MALONYL-ACP/Arachidoyl-ACPs/PROTON//ACP/3-oxo-behenoyl-ACPs/CARBON-DIOXIDE.75., L2R *\ - 0.000000 <= r830a <= 30000.000000 \* MANNPDEHYDROG-RXN, L2R *\ - 0.000000 <= r830b <= 30000.000000 \* MANNPDEHYDROG-RXN, R2L *\ - 0.000000 <= r831 <= 30000.000000 \* ACETYLORNTRANSAM-RXN, R2L *\ - 0.000000 <= r832 <= 30000.000000 \* CHER-RXN, L2R *\ - 0.000000 <= r833 <= 30000.000000 \* RXN-15292, L2R *\ - 0.000000 <= r834a <= 30000.000000 \* GCVT-RXN, L2R *\ - 0.000000 <= r834b <= 30000.000000 \* GCVT-RXN, R2L *\ - 0.000000 <= r835a <= 30000.000000 \* MMUM-RXN, L2R *\ - 0.000000 <= r835b <= 30000.000000 \* MMUM-RXN, R2L *\ - 0.000000 <= r836 <= 30000.000000 \* ADENOSYLHOMOCYSTEINE-NUCLEOSIDASE-RXN, L2R *\ - 0.000000 <= r837 <= 30000.000000 \* RXN0-6676, L2R *\ - 0.000000 <= r838 <= 30000.000000 \* RXN-10654-CIS-DELTA5-DODECENOYL-ACP/MALONYL-ACP/PROTON//3-oxo-cis-D7-tetradecenoyl-ACPs/ACP-MONOMER/CARBON-DIOXIDE.105., L2R *\ - 0.000000 <= r839 <= 30000.000000 \* RXN-10654-Cis-Delta5-dodecenoyl-ACPs/MALONYL-ACP/PROTON//3-oxo-cis-D7-tetradecenoyl-ACPs/ACP/CARBON-DIOXIDE.98., L2R *\ - 0.000000 <= r840a <= 30000.000000 \* RXN-15607, L2R *\ - 0.000000 <= r840b <= 30000.000000 \* RXN-15607, R2L *\ - 0.000000 <= r841 <= 30000.000000 \* RXN-11482-Pimeloyl-ACP-methyl-esters/NAD//Enoylpimeloyl-ACP-methyl-esters/NADH/PROTON.76., R2L *\ - 0.000000 <= r842 <= 30000.000000 \* NICONUCADENYLYLTRAN-RXN, L2R *\ - 0.000000 <= r843 <= 30000.000000 \* RXN-5741-CPD-195/ACP/ATP//Octanoyl-ACPs/AMP/PPI.39., L2R *\ - 0.000000 <= r844a <= 30000.000000 \* ALANINE-AMINOTRANSFERASE-RXN, L2R *\ - 0.000000 <= r844b <= 30000.000000 \* ALANINE-AMINOTRANSFERASE-RXN, R2L *\ - 0.000000 <= r845 <= 30000.000000 \* RXN-9533-R-3-hydroxydodecanoyl-ACPs//Dodec-2-enoyl-ACPs/WATER.53., L2R *\ - 0.000000 <= r846 <= 30000.000000 \* RXN0-6941, R2L *\ - 0.000000 <= r847 <= 30000.000000 \* RXN-9660-Decanoyl-ACPs/NAD//Trans-D2-decenoyl-ACPs/NADH/PROTON.54., R2L *\ - 0.000000 <= r848 <= 30000.000000 \* RXN-1961, L2R *\ - 0.000000 <= r849a <= 30000.000000 \* ORNCARBAMTRANSFER-RXN, L2R *\ - 0.000000 <= r849b <= 30000.000000 \* ORNCARBAMTRANSFER-RXN, R2L *\ - 0.000000 <= r850 <= 30000.000000 \* RXN0-5098, L2R *\ - 0.000000 <= r851 <= 30000.000000 \* AMACETOXID-RXN, L2R *\ - 0.000000 <= r852 <= 30000.000000 \* RXN0-6982, L2R *\ - 0.000000 <= r853 <= 30000.000000 \* RXN0-947, L2R *\ - 0.000000 <= r854 <= 30000.000000 \* RXN-6622, L2R *\ - 0.000000 <= r855 <= 30000.000000 \* PEPCARBOXYKIN-RXN, L2R *\ - 0.000000 <= r856 <= 30000.000000 \* 3.1.4.14-RXN-ACP/WATER//PANTETHEINE-P/apo-ACP/PROTON.40., L2R *\ - 0.000000 <= r857 <= 30000.000000 \* 3.1.4.14-RXN-Holo-CmaA-peptidyl-carrier-protein/WATER//PANTETHEINE-P/CmaA-peptidyl-carrier-protein/PROTON.93., L2R *\ - 0.000000 <= r858 <= 30000.000000 \* 3.1.4.14-RXN-Holo-CmaD-peptidyl-carrier-protein/WATER//PANTETHEINE-P/CmaD-peptidyl-carrier-protein/PROTON.93., L2R *\ - 0.000000 <= r859 <= 30000.000000 \* 3.1.4.14-RXN-PigJ/WATER//PANTETHEINE-P/Apo-PigJ/PROTON.42., L2R *\ - 0.000000 <= r860 <= 30000.000000 \* 3.1.4.14-RXN-Holo-AsbD-Proteins/WATER//PANTETHEINE-P/Apo-AsbD-Proteins/PROTON.65., L2R *\ - 0.000000 <= r861 <= 30000.000000 \* 3.1.4.14-RXN-Holo-EntB/WATER//PANTETHEINE-P/Apo-EntB/PROTON.47., L2R *\ - 0.000000 <= r862 <= 30000.000000 \* 3.1.4.14-RXN-ACP-MONOMER/WATER//PANTETHEINE-P/EG50003-MONOMER/PROTON.56., L2R *\ - 0.000000 <= r863 <= 30000.000000 \* ARGININE-N-SUCCINYLTRANSFERASE-RXN, L2R *\ - 0.000000 <= r864 <= 30000.000000 \* RXN0-7008-PRO/UBIQUINONE-8//L-DELTA1-PYRROLINE_5-CARBOXYLATE/CPD-9956/PROTON.67., L2R *\ - 0.000000 <= r865 <= 30000.000000 \* ENOYL-ACP-REDUCT-NADPH-RXN-POLYMER-INST-Saturated-Fatty-Acyl-ACPs-C0-H0/NADP//NADPH/Crotonyl-ACPs/PROTON.78., R2L *\ - 0.000000 <= r866 <= 30000.000000 \* ENOYL-ACP-REDUCT-NADPH-RXN-Hexanoyl-ACPs/NADP//NADPH/Hex-2-enoyl-ACPs/PROTON.50., R2L *\ - 0.000000 <= r867 <= 30000.000000 \* ENOYL-ACP-REDUCT-NADPH-RXN-Octanoyl-ACPs/NADP//NADPH/2-Octenoyl-ACPs/PROTON.49., R2L *\ - 0.000000 <= r868 <= 30000.000000 \* ENOYL-ACP-REDUCT-NADPH-RXN-Decanoyl-ACPs/NADP//NADPH/Trans-D2-decenoyl-ACPs/PROTON.56., R2L *\ - 0.000000 <= r869 <= 30000.000000 \* ENOYL-ACP-REDUCT-NADPH-RXN-Dodecanoyl-ACPs/NADP//NADPH/Dodec-2-enoyl-ACPs/PROTON.54., R2L *\ - 0.000000 <= r870 <= 30000.000000 \* ENOYL-ACP-REDUCT-NADPH-RXN-Myristoyl-ACPs/NADP//NADPH/Tetradec-2-enoyl-ACPs/PROTON.56., R2L *\ - 0.000000 <= r871 <= 30000.000000 \* ENOYL-ACP-REDUCT-NADPH-RXN-Palmitoyl-ACPs/NADP//NADPH/2-Hexadecenoyl-ACPs/PROTON.54., R2L *\ - 0.000000 <= r872 <= 30000.000000 \* ENOYL-ACP-REDUCT-NADPH-RXN-Stearoyl-ACPs/NADP//NADPH/Octadec-2-enoyl-ACPs/PROTON.54., R2L *\ - 0.000000 <= r873 <= 30000.000000 \* ENOYL-ACP-REDUCT-NADPH-RXN-Arachidoyl-ACPs/NADP//NADPH/trans-delta2-arachidoyl-ACPs/PROTON.64., R2L *\ - 0.000000 <= r874 <= 30000.000000 \* RXN-8344, L2R *\ - 0.000000 <= r875a <= 30000.000000 \* PHENYLSERINE-ALDOLASE-RXN, L2R *\ - 0.000000 <= r875b <= 30000.000000 \* PHENYLSERINE-ALDOLASE-RXN, R2L *\ - 0.000000 <= r876a <= 30000.000000 \* ATPPHOSPHORIBOSYLTRANS-RXN, L2R *\ - 0.000000 <= r876b <= 30000.000000 \* ATPPHOSPHORIBOSYLTRANS-RXN, R2L *\ - 0.000000 <= r877 <= 30000.000000 \* PRODISULFREDUCT-A-RXN-GLUTATHIONE/Oxidized-NrdH-Proteins//OXIDIZED-GLUTATHIONE/Reduced-NrdH-Proteins.79., L2R *\ - 0.000000 <= r878 <= 30000.000000 \* PRODISULFREDUCT-A-RXN-GLUTATHIONE/Ox-Glutaredoxins//OXIDIZED-GLUTATHIONE/Red-Glutaredoxins.69., L2R *\ - 0.000000 <= r879 <= 30000.000000 \* RXN0-7067, L2R *\ - 0.000000 <= r880 <= 30000.000000 \* RXN-10657-Cis-Delta7-tetradecenoyl-ACPs/NAD//Trans-D3-cis-D7-tetradecenoyl-ACPs/NADH/PROTON.82., R2L *\ - 0.000000 <= r881a <= 30000.000000 \* RXN-8629, L2R *\ - 0.000000 <= r881b <= 30000.000000 \* RXN-8629, R2L *\ - 0.000000 <= r882 <= 30000.000000 \* CARNDETRU-RXN, L2R *\ - 0.000000 <= r883 <= 30000.000000 \* RXN-9537-R-3-hydroxymyristoyl-ACPs//Tetradec-2-enoyl-ACPs/WATER.55., L2R *\ - 0.000000 <= r884a <= 30000.000000 \* RXN0-7104, L2R *\ - 0.000000 <= r884b <= 30000.000000 \* RXN0-7104, R2L *\ - 0.000000 <= r885 <= 30000.000000 \* RXN-9663-Palmitoyl-ACPs/NAD//2-Hexadecenoyl-ACPs/NADH/PROTON.52., R2L *\ - 0.000000 <= r886a <= 30000.000000 \* RXN0-1382, L2R *\ - 0.000000 <= r886b <= 30000.000000 \* RXN0-1382, R2L *\ - 0.000000 <= r887 <= 30000.000000 \* RXN0-2141-Cis-delta-3-decenoyl-ACPs/MALONYL-ACP/PROTON//b-Keto-cis-D5-dodecenoyl-ACPs/ACP/CARBON-DIOXIDE.95., L2R *\ - 0.000000 <= r888 <= 30000.000000 \* PROTOPORGENOXI-RXN, L2R *\ - 0.000000 <= r889a <= 30000.000000 \* DARABALDOL-RXN, L2R *\ - 0.000000 <= r889b <= 30000.000000 \* DARABALDOL-RXN, R2L *\ - 0.000000 <= r890 <= 30000.000000 \* COBINPGUANYLYLTRANS-RXN, L2R *\ - 0.000000 <= r891 <= 30000.000000 \* RXN66-526, L2R *\ - 0.000000 <= r892 <= 30000.000000 \* RXN0-2001, L2R *\ - 0.000000 <= r893 <= 30000.000000 \* THIAZOLSYN2-RXN-DEOXYXYLULOSE-5P/CPD-12279/Thiocarboxyadenylated-ThiS-Proteins//CPD-13575/Thi-S/WATER.86., L2R *\ - 0.000000 <= r894 <= 30000.000000 \* PYRROLINECARBDEHYDROG-RXN, L2R *\ - 0.000000 <= r895 <= 30000.000000 \* 2.3.1.180-RXN-ACETYL-COA/MALONYL-ACP/PROTON//Acetoacetyl-ACPs/CARBON-DIOXIDE/CO-A.68., L2R *\ - 0.000000 <= r896 <= 30000.000000 \* DEPHOSPHOCOAKIN-RXN, L2R *\ - 0.000000 <= r897 <= 30000.000000 \* 4.2.1.58-RXN-Beta-3-hydroxybutyryl-ACPs//Crotonyl-ACPs/WATER.48., L2R *\ - 0.000000 <= r898 <= 30000.000000 \* DADPKIN-RXN, L2R *\ - 0.000000 <= r899 <= 30000.000000 \* CITC-RXN-HOLO-CITRATE-LYASE/ACET/ATP//CITRATE-LYASE/AMP/PPI.51., L2R *\ - 0.000000 <= r900 <= 30000.000000 \* SPERMIDINESYN-RXN, L2R *\ - 0.000000 <= r901a <= 30000.000000 \* RHAMNISOM-RXN, L2R *\ - 0.000000 <= r901b <= 30000.000000 \* RHAMNISOM-RXN, R2L *\ - 0.000000 <= r902 <= 30000.000000 \* DIHYDROFOLATEREDUCT-RXN-THF/NADP//DIHYDROFOLATE/NADPH/PROTON.37., R2L *\ - 0.000000 <= r903 <= 30000.000000 \* TAGAKIN-RXN, L2R *\ - 0.000000 <= r904a <= 30000.000000 \* PYFLAVOXRE-RXN-PYRUVATE/Oxidized-flavodoxins/CO-A/PROTON//ACETYL-COA/CARBON-DIOXIDE/Reduced-flavodoxins.89., L2R *\ - 0.000000 <= r904b <= 30000.000000 \* PYFLAVOXRE-RXN-PYRUVATE/Oxidized-flavodoxins/CO-A/PROTON//ACETYL-COA/CARBON-DIOXIDE/Reduced-flavodoxins.89., R2L *\ - 0.000000 <= r905 <= 30000.000000 \* RXN-10660-3-hydroxy-cis-D9-hexaecenoyl-ACPs//Trans-D3-cis-D9-hexadecenoyl-ACPs/WATER.75., L2R *\ - 0.000000 <= r906 <= 30000.000000 \* RXN-14498-Red-Thioredoxin/CYSTINE//Ox-Thioredoxin/CYS.44., L2R *\ - 0.000000 <= r907a <= 30000.000000 \* DSERDEAM-RXN, L2R *\ - 0.000000 <= r907b <= 30000.000000 \* DSERDEAM-RXN, R2L *\ - 0.000000 <= r908 <= 30000.000000 \* RXN-9514-Acetoacetyl-ACPs/NADPH/PROTON//Beta-3-hydroxybutyryl-ACPs/NADP.63., L2R *\ - 0.000000 <= r909 <= 30000.000000 \* THRESYN-RXN, L2R *\ - 0.000000 <= r910 <= 30000.000000 \* RXN-9549-Palmitoyl-ACPs/WATER//PALMITATE/ACP/PROTON.43., L2R *\ - 0.000000 <= r911 <= 30000.000000 \* RXN-9789-Thi-S/ATP/PROTON//Adenylated-ThiS-Proteins/PPI.47., L2R *\ - 0.000000 <= r912 <= 30000.000000 \* RXN-11302, L2R *\ - 0.000000 <= r913 <= 30000.000000 \* RXN0-2145-CIS-DELTA5-DODECENOYL-ACP/NAD//TRANS-DELTA3-CIS-DELTA5-DODECENOYL-ACP/NADH/PROTON.82., R2L *\ - 0.000000 <= r914 <= 30000.000000 \* RXN0-2145-Cis-Delta5-dodecenoyl-ACPs/NAD//Trans-D3-cis-D5-dodecenoyl-ACPs/NADH/PROTON.76., R2L *\ - 0.000000 <= r915 <= 30000.000000 \* ENTMULTI-RXN, L2R *\ - 0.000000 <= r916 <= 30000.000000 \* ETHAMLY-RXN, L2R *\ - 0.000000 <= r917a <= 30000.000000 \* TRIOSEPISOMERIZATION-RXN, L2R *\ - 0.000000 <= r917b <= 30000.000000 \* TRIOSEPISOMERIZATION-RXN, R2L *\ - 0.000000 <= r918 <= 30000.000000 \* RXN0-3901, L2R *\ - 0.000000 <= r919 <= 30000.000000 \* RXN-11593, L2R *\ - 0.000000 <= r920 <= 30000.000000 \* THIOREDOXIN-REDUCT-NADPH-RXN-Red-Thioredoxin/NADP//Ox-Thioredoxin/NADPH/PROTON.50., R2L *\ - 0.000000 <= r921 <= 30000.000000 \* FUCULOKIN-RXN, L2R *\ - 0.000000 <= r922 <= 30000.000000 \* UDP-NACMURALGLDAPAALIG-RXN, L2R *\ - 0.000000 <= r923 <= 30000.000000 \* RXN0-4361, L2R *\ - 0.000000 <= r924 <= 30000.000000 \* RXN-11836, L2R *\ - 0.000000 <= r925 <= 30000.000000 \* GDP-GLUCOSIDASE-RXN, L2R *\ - 0.000000 <= r926 <= 30000.000000 \* URIDINE-NUCLEOSIDASE-RXN, L2R *\ - 0.000000 <= r927 <= 30000.000000 \* LAUROYLACYLTRAN-RXN-Dodecanoyl-ACPs/KDO2-LIPID-IVA//KDO2-LAUROYL-LIPID-IVA/ACP.59., L2R *\ - 0.000000 <= r928 <= 30000.000000 \* RXN-12072, L2R *\ - 0.000000 <= r929 <= 30000.000000 \* RXN-11474-Malonyl-acp-methyl-ester/MALONYL-ACP/PROTON//3-Ketoglutaryl-ACP-methyl-ester/CARBON-DIOXIDE/ACP.96., L2R *\ - 0.000000 <= r930a <= 30000.000000 \* YIAE2-RXN, L2R *\ - 0.000000 <= r930b <= 30000.000000 \* YIAE2-RXN, R2L *\ - 0.000000 <= r931a <= 30000.000000 \* RXN-15510, L2R *\ - 0.000000 <= r931b <= 30000.000000 \* RXN-15510, R2L *\ - 0.000000 <= r932 <= 30000.000000 \* 1.1.1.283-RXN, R2L *\ - 0.000000 <= r933 <= 30000.000000 \* RXN-9520-R-3-hydroxyhexanoyl-ACPs//Hex-2-enoyl-ACPs/WATER.49., L2R *\ - 0.000000 <= r934 <= 30000.000000 \* RXN0-5123, L2R *\ - 0.000000 <= r935 <= 30000.000000 \* RXN-9556-R-3-hydroxy-cis-vaccenoyl-ACPs/NADP//3-oxo-cis-vaccenoyl-ACPs/NADPH/PROTON.75., R2L *\ - 0.000000 <= r936 <= 30000.000000 \* RXN-12480, L2R *\ - 0.000000 <= r937 <= 30000.000000 \* RXN0-1132, L2R *\ - 0.000000 <= r938 <= 30000.000000 \* GLUTKIN-RXN, L2R *\ - 0.000000 <= r939 <= 30000.000000 \* RXN0-5468-BUTYL-HYDROPEROXIDE/Red-Thioredoxin//BUTANOL/Ox-Thioredoxin/WATER.66., L2R *\ - 0.000000 <= r940 <= 30000.000000 \* 2-OCTAPRENYL-METHOXY-BENZOQ-METH-RXN, L2R *\ - 0.000000 <= r941 <= 30000.000000 \* RXN0-5187[CCO-PERI-BAC]-FMN/WATER//RIBOFLAVIN/Pi.39., L2R *\ - 0.000000 <= r942 <= 30000.000000 \* RXN0-5187[CCO-CYTOSOL]-FMN/WATER//RIBOFLAVIN/Pi.38., L2R *\ - 0.000000 <= r943 <= 30000.000000 \* RXN-12869, L2R *\ - 0.000000 <= r944a <= 30000.000000 \* 1.7.2.3-RXN-TRIMETHYLAMINE/Oxidized-cytochromes-c2/WATER//TRIMENTHLAMINE-N-O/Reduced-cytochromes-c2/PROTON.95., L2R *\ - 0.000000 <= r944b <= 30000.000000 \* 1.7.2.3-RXN-TRIMETHYLAMINE/Oxidized-cytochromes-c2/WATER//TRIMENTHLAMINE-N-O/Reduced-cytochromes-c2/PROTON.95., R2L *\ - 0.000000 <= r945a <= 30000.000000 \* 1.7.2.3-RXN-TRIMETHYLAMINE/Oxidized-cytochromes-c553/WATER//TRIMENTHLAMINE-N-O/Reduced-cytochromes-c553/PROTON.99., L2R *\ - 0.000000 <= r945b <= 30000.000000 \* 1.7.2.3-RXN-TRIMETHYLAMINE/Oxidized-cytochromes-c553/WATER//TRIMENTHLAMINE-N-O/Reduced-cytochromes-c553/PROTON.99., R2L *\ - 0.000000 <= r946a <= 30000.000000 \* 1.7.2.3-RXN-TRIMETHYLAMINE/Cytochromes-CL-Ox/WATER//TRIMENTHLAMINE-N-O/Cytochromes-CL-Red/PROTON.85., L2R *\ - 0.000000 <= r946b <= 30000.000000 \* 1.7.2.3-RXN-TRIMETHYLAMINE/Cytochromes-CL-Ox/WATER//TRIMENTHLAMINE-N-O/Cytochromes-CL-Red/PROTON.85., R2L *\ - 0.000000 <= r947a <= 30000.000000 \* 1.7.2.3-RXN-TRIMETHYLAMINE/Cytochromes-C-Oxidized/WATER//TRIMENTHLAMINE-N-O/Cytochromes-C-Reduced/PROTON.93., L2R *\ - 0.000000 <= r947b <= 30000.000000 \* 1.7.2.3-RXN-TRIMETHYLAMINE/Cytochromes-C-Oxidized/WATER//TRIMENTHLAMINE-N-O/Cytochromes-C-Reduced/PROTON.93., R2L *\ - 0.000000 <= r948 <= 30000.000000 \* 2.7.1.148-RXN, L2R *\ - 0.000000 <= r949 <= 30000.000000 \* 2OXOGLUTDECARB-RXN, L2R *\ - 0.000000 <= r950 <= 30000.000000 \* RXN0-5223-CPD0-2330/ATP//CPD0-2230/ADP/PROTON.36., L2R *\ - 0.000000 <= r951 <= 30000.000000 \* RXN0-5223-CPD-12822/ATP//CPD-12820/ADP/PROTON.36., L2R *\ - 0.000000 <= r952 <= 30000.000000 \* RXN0-5223-CPD-8260/ATP//CPD-12821/ADP/PROTON.35., L2R *\ - 0.000000 <= r953 <= 30000.000000 \* RXN-1381-PALMITYL-COA/GLYCEROL-3P//1-PALMITOYLGLYCEROL-3-PHOSPHATE/CO-A.63., L2R *\ - 0.000000 <= r954 <= 30000.000000 \* RXN-1381-STEAROYL-COA/GLYCEROL-3P//CPD0-2113/CO-A.41., L2R *\ - 0.000000 <= r955a <= 30000.000000 \* 3-HYDROXBUTYRYL-COA-DEHYDRATASE-RXN, L2R *\ - 0.000000 <= r955b <= 30000.000000 \* 3-HYDROXBUTYRYL-COA-DEHYDRATASE-RXN, R2L *\ - 0.000000 <= r956 <= 30000.000000 \* MCPMETEST-RXN, L2R *\ - 0.000000 <= r957a <= 30000.000000 \* RXN0-5298, L2R *\ - 0.000000 <= r957b <= 30000.000000 \* RXN0-5298, R2L *\ - 0.000000 <= r958 <= 30000.000000 \* PALMITOTRANS-RXN-Palmitoleoyl-ACPs/KDO2-LIPID-IVA//KDO2-PALMITOLEOYL-LIPID-IVA/ACP.66., L2R *\ - 0.000000 <= r959 <= 30000.000000 \* RXN-14115, L2R *\ - 0.000000 <= r960 <= 30000.000000 \* H2PTERIDINEPYROPHOSPHOKIN-RXN, L2R *\ - 0.000000 <= r961 <= 30000.000000 \* RXN-11478-Glutaryl-ACP-methyl-esters/NAD//Enoylglutaryl-ACP-methyl-esters/NADH/PROTON.76., R2L *\ - 0.000000 <= r962 <= 30000.000000 \* RXN-9527-Octanoyl-ACPs/MALONYL-ACP/PROTON//3-oxo-decanoyl-ACPs/CARBON-DIOXIDE/ACP.73., L2R *\ - 0.000000 <= r963 <= 30000.000000 \* RXN0-5393, L2R *\ - 0.000000 <= r964 <= 30000.000000 \* RXN-9655-Beta-hydroxydecanoyl-ACPs//Trans-D2-decenoyl-ACPs/WATER.56., L2R *\ - 0.000000 <= r965 <= 30000.000000 \* RXN-14281, L2R *\ - 0.000000 <= r966a <= 30000.000000 \* RXN0-1138, L2R *\ - 0.000000 <= r966b <= 30000.000000 \* RXN0-1138, R2L *\ - 0.000000 <= r967 <= 30000.000000 \* HOMOSERKIN-RXN, L2R *\ - 0.000000 <= r968 <= 30000.000000 \* RXN-14409, L2R *\ - 0.000000 <= r969 <= 30000.000000 \* RXN0-747-DADP/Oxidized-NrdH-Proteins/WATER//ADP/Reduced-NrdH-Proteins.61., R2L *\ - 0.000000 <= r970 <= 30000.000000 \* UDPNACETYLGLUCOSAMACYLTRANS-RXN-R-3-hydroxymyristoyl-ACPs/UDP-N-ACETYL-D-GLUCOSAMINE//UDP-OHMYR-ACETYLGLUCOSAMINE/ACP.86., L2R *\ - 0.000000 <= r971 <= 30000.000000 \* 1.8.4.13-RXN-MET/Ox-Thioredoxin/WATER//CPD-8989/Red-Thioredoxin.51., R2L *\ - 0.000000 <= r972 <= 30000.000000 \* RXN0-6367, R2L *\ - 0.000000 <= r973 <= 30000.000000 \* 3-OXOACYL-ACP-SYNTH-BASE-RXN-MALONYL-ACP/ACETYL-ACP/PROTON//ACP/Acetoacetyl-ACPs/CARBON-DIOXIDE.67., L2R *\ - 0.000000 <= r974 <= 30000.000000 \* RXN-14512, L2R *\ - 0.000000 <= r975a <= 30000.000000 \* L-RHAMNONATE-DEHYDRATASE-RXN, L2R *\ - 0.000000 <= r975b <= 30000.000000 \* L-RHAMNONATE-DEHYDRATASE-RXN, R2L *\ - 0.000000 <= r976 <= 30000.000000 \* 5-NUCLEOTID-RXN[CCO-PERI-BAC]-AMP/WATER//ADENOSINE/Pi.38., L2R *\ - 0.000000 <= r977 <= 30000.000000 \* 5-NUCLEOTID-RXN[CCO-CYTOSOL]-AMP/WATER//ADENOSINE/Pi.37., L2R *\ - 0.000000 <= r978 <= 30000.000000 \* 5-NUCLEOTID-RXN[CCO-PERI-BAC]-IMP/WATER//INOSINE/Pi.36., L2R *\ - 0.000000 <= r979 <= 30000.000000 \* 5-NUCLEOTID-RXN[CCO-CYTOSOL]-IMP/WATER//INOSINE/Pi.35., L2R *\ - 0.000000 <= r980 <= 30000.000000 \* 5-NUCLEOTID-RXN[CCO-PERI-BAC]-GMP/WATER//GUANOSINE/Pi.38., L2R *\ - 0.000000 <= r981 <= 30000.000000 \* 5-NUCLEOTID-RXN[CCO-CYTOSOL]-GMP/WATER//GUANOSINE/Pi.37., L2R *\ - 0.000000 <= r982 <= 30000.000000 \* 5-NUCLEOTID-RXN[CCO-PERI-BAC]-XANTHOSINE-5-PHOSPHATE/WATER//XANTHOSINE/Pi.58., L2R *\ - 0.000000 <= r983 <= 30000.000000 \* 5-NUCLEOTID-RXN[CCO-CYTOSOL]-XANTHOSINE-5-PHOSPHATE/WATER//XANTHOSINE/Pi.57., L2R *\ - 0.000000 <= r984 <= 30000.000000 \* 5-NUCLEOTID-RXN[CCO-PERI-BAC]-CMP/WATER//CYTIDINE/Pi.37., L2R *\ - 0.000000 <= r985 <= 30000.000000 \* 5-NUCLEOTID-RXN[CCO-CYTOSOL]-CMP/WATER//CYTIDINE/Pi.36., L2R *\ - 0.000000 <= r986 <= 30000.000000 \* 5-NUCLEOTID-RXN[CCO-PERI-BAC]-UMP/WATER//URIDINE/Pi.36., L2R *\ - 0.000000 <= r987 <= 30000.000000 \* 5-NUCLEOTID-RXN[CCO-CYTOSOL]-UMP/WATER//URIDINE/Pi.35., L2R *\ - 0.000000 <= r988 <= 30000.000000 \* RXN0-6461, L2R *\ - 0.000000 <= r989a <= 30000.000000 \* GCVP-RXN, L2R *\ - 0.000000 <= r989b <= 30000.000000 \* GCVP-RXN, R2L *\ - 0.000000 <= r990a <= 30000.000000 \* RXN-14807, L2R *\ - 0.000000 <= r990b <= 30000.000000 \* RXN-14807, R2L *\ - 0.000000 <= r991a <= 30000.000000 \* LYXISOM-RXN, L2R *\ - 0.000000 <= r991b <= 30000.000000 \* LYXISOM-RXN, R2L *\ - 0.000000 <= r992a <= 30000.000000 \* RXN-15915-CPD-15424/HypE-Proteins//HypE-S-carboxamide/AMP.48., L2R *\ - 0.000000 <= r992b <= 30000.000000 \* RXN-15915-CPD-15424/HypE-Proteins//HypE-S-carboxamide/AMP.48., R2L *\ - 0.000000 <= r993 <= 30000.000000 \* ACETATE--COA-LIGASE-RXN, L2R *\ - 0.000000 <= r994 <= 30000.000000 \* RXN-10462-GLYCEROL-3P/Palmitoyl-ACPs//1-PALMITOYLGLYCEROL-3-PHOSPHATE/ACP.64., L2R *\ - 0.000000 <= r995 <= 30000.000000 \* RXN-10462-GLYCEROL-3P/Stearoyl-ACPs//CPD0-2113/ACP.41., L2R *\ - 0.000000 <= r996a <= 30000.000000 \* RXN0-6510, L2R *\ - 0.000000 <= r996b <= 30000.000000 \* RXN0-6510, R2L *\ - 0.000000 <= r997 <= 30000.000000 \* RXN-11481-3-hydroxypimeloyl-ACP-methyl-esters//Enoylpimeloyl-ACP-methyl-esters/WATER.75., L2R *\ - 0.000000 <= r998 <= 30000.000000 \* RXN-15121, L2R *\ - 0.000000 <= r999 <= 30000.000000 \* RXN-9532-R-3-hydroxydodecanoyl-ACPs/NADP//3-oxo-dodecanoyl-ACPs/NADPH/PROTON.68., R2L *\ - 0.000000 <= r1000 <= 30000.000000 \* METBALT-RXN, L2R *\ - 0.000000 <= r1001 <= 30000.000000 \* RXN-9659-Octanoyl-ACPs/NAD//2-Octenoyl-ACPs/NADH/PROTON.47., R2L *\ - 0.000000 <= r1002a <= 30000.000000 \* ACONITATE-DELTA-ISOMERASE-RXN, L2R *\ - 0.000000 <= r1002b <= 30000.000000 \* ACONITATE-DELTA-ISOMERASE-RXN, R2L *\ - 0.000000 <= r1003 <= 30000.000000 \* RXN0-5055-ATP/ACETYL-COA/Carboxybiotin-BCCP/WATER//MALONYL-COA/BCCP-dimers/ADP/Pi/PROTON.79., L2R *\ - 0.000000 <= r1004 <= 30000.000000 \* RXN0-6541, L2R *\ - 0.000000 <= r1005 <= 30000.000000 \* RXN-15297, L2R *\ - 0.000000 <= r1006a <= 30000.000000 \* RXN0-6385-Red-Thioredoxin/S2O3//Ox-Thioredoxin/SO3/HS/PROTON.51., L2R *\ - 0.000000 <= r1006b <= 30000.000000 \* RXN0-6385-Red-Thioredoxin/S2O3//Ox-Thioredoxin/SO3/HS/PROTON.51., R2L *\ - 0.000000 <= r1007a <= 30000.000000 \* N-ACETYLTRANSFER-RXN, L2R *\ - 0.000000 <= r1007b <= 30000.000000 \* N-ACETYLTRANSFER-RXN, R2L *\ - 0.000000 <= r1008 <= 30000.000000 \* ADENYL-KIN-RXN, L2R *\ - 0.000000 <= r1009 <= 30000.000000 \* RXN0-6710, L2R *\ - 0.000000 <= r1010 <= 30000.000000 \* RXN-15761, L2R *\ - 0.000000 <= r1011 <= 30000.000000 \* NMNAMIDOHYDRO-RXN, L2R *\ - 0.000000 <= r1012a <= 30000.000000 \* ALCOHOL-DEHYDROG-RXN, L2R *\ - 0.000000 <= r1012b <= 30000.000000 \* ALCOHOL-DEHYDROG-RXN, R2L *\ - 0.000000 <= r1013a <= 30000.000000 \* RXN0-6948, L2R *\ - 0.000000 <= r1013b <= 30000.000000 \* RXN0-6948, R2L *\ - 0.000000 <= r1014a <= 30000.000000 \* RXN-2961, L2R *\ - 0.000000 <= r1014b <= 30000.000000 \* RXN-2961, R2L *\ - 0.000000 <= r1015 <= 30000.000000 \* ENOYL-ACP-REDUCT-NADH-RXN-POLYMER-INST-Saturated-Fatty-Acyl-ACPs-C0-H0/NAD//Crotonyl-ACPs/NADH/PROTON.76., R2L *\ - 0.000000 <= r1016 <= 30000.000000 \* ENOYL-ACP-REDUCT-NADH-RXN-Hexanoyl-ACPs/NAD//Hex-2-enoyl-ACPs/NADH/PROTON.48., R2L *\ - 0.000000 <= r1017 <= 30000.000000 \* ENOYL-ACP-REDUCT-NADH-RXN-Octanoyl-ACPs/NAD//2-Octenoyl-ACPs/NADH/PROTON.47., R2L *\ - 0.000000 <= r1018 <= 30000.000000 \* ENOYL-ACP-REDUCT-NADH-RXN-Decanoyl-ACPs/NAD//Trans-D2-decenoyl-ACPs/NADH/PROTON.54., R2L *\ - 0.000000 <= r1019 <= 30000.000000 \* ENOYL-ACP-REDUCT-NADH-RXN-Dodecanoyl-ACPs/NAD//Dodec-2-enoyl-ACPs/NADH/PROTON.52., R2L *\ - 0.000000 <= r1020 <= 30000.000000 \* ENOYL-ACP-REDUCT-NADH-RXN-Myristoyl-ACPs/NAD//Tetradec-2-enoyl-ACPs/NADH/PROTON.54., R2L *\ - 0.000000 <= r1021 <= 30000.000000 \* ENOYL-ACP-REDUCT-NADH-RXN-Palmitoyl-ACPs/NAD//2-Hexadecenoyl-ACPs/NADH/PROTON.52., R2L *\ - 0.000000 <= r1022 <= 30000.000000 \* ENOYL-ACP-REDUCT-NADH-RXN-Stearoyl-ACPs/NAD//Octadec-2-enoyl-ACPs/NADH/PROTON.52., R2L *\ - 0.000000 <= r1023 <= 30000.000000 \* ENOYL-ACP-REDUCT-NADH-RXN-Arachidoyl-ACPs/NAD//trans-delta2-arachidoyl-ACPs/NADH/PROTON.62., R2L *\ - 0.000000 <= r1024 <= 30000.000000 \* OROTPDECARB-RXN, L2R *\ - 0.000000 <= r1025 <= 30000.000000 \* AMINOBUTDEHYDROG-RXN, L2R *\ - 0.000000 <= r1026 <= 30000.000000 \* RXN0-6985, L2R *\ - 0.000000 <= r1027 <= 30000.000000 \* MYRPALMTRAN-RXN-Myristoyl-ACPs/KDO2-PALMITOLEOYL-LIPID-IVA//KDO2-LIPID-IVA-COLD/ACP.68., L2R *\ - 0.000000 <= r1028 <= 30000.000000 \* RXN-7607[CCO-PERI-BAC]-IMP/WATER//INOSINE/Pi.36., L2R *\ - 0.000000 <= r1029 <= 30000.000000 \* RXN-7607[CCO-CYTOSOL]-IMP/WATER//INOSINE/Pi.35., L2R *\ - 0.000000 <= r1030 <= 30000.000000 \* RXN-10656-3-hydroxy-cis-D7-tetraecenoyl-ACPs//Trans-D3-cis-D7-tetradecenoyl-ACPs/WATER.77., L2R *\ - 0.000000 <= r1031a <= 30000.000000 \* PEPTIDYLPROLYL-ISOMERASE-RXN[CCO-PERI-BAC]-CPD-8624//CPD-8625.33., L2R *\ - 0.000000 <= r1031b <= 30000.000000 \* PEPTIDYLPROLYL-ISOMERASE-RXN[CCO-PERI-BAC]-CPD-8624//CPD-8625.33., R2L *\ - 0.000000 <= r1032a <= 30000.000000 \* PEPTIDYLPROLYL-ISOMERASE-RXN[CCO-CYTOSOL]-CPD-8624//CPD-8625.32., L2R *\ - 0.000000 <= r1032b <= 30000.000000 \* PEPTIDYLPROLYL-ISOMERASE-RXN[CCO-CYTOSOL]-CPD-8624//CPD-8625.32., R2L *\ - 0.000000 <= r1033 <= 30000.000000 \* RXN-9536-R-3-hydroxymyristoyl-ACPs/NADP//3-oxo-myristoyl-ACPs/NADPH/PROTON.66., R2L *\ - 0.000000 <= r1034 <= 30000.000000 \* RXN-9662-Myristoyl-ACPs/NAD//Tetradec-2-enoyl-ACPs/NADH/PROTON.54., R2L *\ - 0.000000 <= r1035a <= 30000.000000 \* RXN-8632, L2R *\ - 0.000000 <= r1035b <= 30000.000000 \* RXN-8632, R2L *\ - 0.000000 <= r1036a <= 30000.000000 \* PHOSGLYPHOS-RXN, L2R *\ - 0.000000 <= r1036b <= 30000.000000 \* PHOSGLYPHOS-RXN, R2L *\ - 0.000000 <= r1037 <= 30000.000000 \* RXN0-6442-CPD-62/Holo-EntB//23DHB-EntB/AMP/PROTON.40., L2R *\ - 0.000000 <= r1038a <= 30000.000000 \* RXN0-7075, L2R *\ - 0.000000 <= r1038b <= 30000.000000 \* RXN0-7075, R2L *\ - 0.000000 <= r1039 <= 30000.000000 \* RXN-9310, L2R *\ - 0.000000 <= r1040a <= 30000.000000 \* PPENTOMUT-RXN, L2R *\ - 0.000000 <= r1040b <= 30000.000000 \* PPENTOMUT-RXN, R2L *\ - 0.000000 <= r1041 <= 30000.000000 \* CDPDIGLYSYN-RXN-CTP/CPD0-1422/PROTON//CPD-12815/PPI.36., L2R *\ - 0.000000 <= r1042 <= 30000.000000 \* CDPDIGLYSYN-RXN-CTP/CPD0-1423/PROTON//CPD-12814/PPI.36., L2R *\ - 0.000000 <= r1043 <= 30000.000000 \* 2.3.1.179-RXN-Palmitoleoyl-ACPs/MALONYL-ACP/PROTON//3-oxo-cis-vaccenoyl-ACPs/CARBON-DIOXIDE/ACP.82., L2R *\ - 0.000000 <= r1044a <= 30000.000000 \* RXN0-7119, L2R *\ - 0.000000 <= r1044b <= 30000.000000 \* RXN0-7119, R2L *\ - 0.000000 <= r1045 <= 30000.000000 \* RXN0-1441, L2R *\ - 0.000000 <= r1046 <= 30000.000000 \* PRTRANS-RXN, R2L *\ - 0.000000 <= r1047 <= 30000.000000 \* HOLO-ACP-SYNTH-RXN-EG50003-MONOMER/CO-A//3-5-ADP/ACP-MONOMER/PROTON.49., L2R *\ - 0.000000 <= r1048 <= 30000.000000 \* HOLO-ACP-SYNTH-RXN-Apo-EntB/CO-A//3-5-ADP/Holo-EntB/PROTON.40., L2R *\ - 0.000000 <= r1049 <= 30000.000000 \* HOLO-ACP-SYNTH-RXN-Apo-AsbD-Proteins/CO-A//3-5-ADP/Holo-AsbD-Proteins/PROTON.58., L2R *\ - 0.000000 <= r1050 <= 30000.000000 \* HOLO-ACP-SYNTH-RXN-Apo-PigJ/CO-A//3-5-ADP/PigJ/PROTON.35., L2R *\ - 0.000000 <= r1051 <= 30000.000000 \* HOLO-ACP-SYNTH-RXN-CmaD-peptidyl-carrier-protein/CO-A//3-5-ADP/Holo-CmaD-peptidyl-carrier-protein/PROTON.86., L2R *\ - 0.000000 <= r1052 <= 30000.000000 \* HOLO-ACP-SYNTH-RXN-CmaA-peptidyl-carrier-protein/CO-A//3-5-ADP/Holo-CmaA-peptidyl-carrier-protein/PROTON.86., L2R *\ - 0.000000 <= r1053 <= 30000.000000 \* HOLO-ACP-SYNTH-RXN-apo-ACP/CO-A//3-5-ADP/ACP/PROTON.33., L2R *\ - 0.000000 <= r1054 <= 30000.000000 \* DCDPKIN-RXN, L2R *\ - 0.000000 <= r1055 <= 30000.000000 \* CROBETREDUCT-RXN, R2L *\ - 0.000000 <= r1056 <= 30000.000000 \* S-ADENMETSYN-RXN, L2R *\ - 0.000000 <= r1057 <= 30000.000000 \* RXN-10659-3-hydroxy-cis-D9-hexaecenoyl-ACPs/NADP//3-oxo-cis-D9-hexadecenoyl-ACPs/NADPH/PROTON.84., R2L *\ - 0.000000 <= r1058 <= 30000.000000 \* RXN0-2042, L2R *\ - 0.000000 <= r1059 <= 30000.000000 \* RXN-8668, R2L *\ - 0.000000 <= r1060 <= 30000.000000 \* DGTPTRIPHYDRO-RXN, L2R *\ - 0.000000 <= r1061 <= 30000.000000 \* RXN-9540-R-3-Hydroxypalmitoyl-ACPs/NADP//3-oxo-palmitoyl-ACPs/NADPH/PROTON.66., R2L *\ - 0.000000 <= r1062a <= 30000.000000 \* SUCCCOASYN-RXN, L2R *\ - 0.000000 <= r1062b <= 30000.000000 \* SUCCCOASYN-RXN, R2L *\ - 0.000000 <= r1063 <= 30000.000000 \* RXN-9788, L2R *\ - 0.000000 <= r1064a <= 30000.000000 \* RIB5PISOM-RXN, L2R *\ - 0.000000 <= r1064b <= 30000.000000 \* RIB5PISOM-RXN, R2L *\ - 0.000000 <= r1065 <= 30000.000000 \* RXN0-2144-BETA-HYDROXY-CIS-DELTA5-DODECENOYL-ACP//TRANS-DELTA3-CIS-DELTA5-DODECENOYL-ACP/WATER.85., L2R *\ - 0.000000 <= r1066 <= 30000.000000 \* RXN0-2144-b-Hydroxy-cis-D5-dodecenoyl-ACPs//Trans-D3-cis-D5-dodecenoyl-ACPs/WATER.72., L2R *\ - 0.000000 <= r1067a <= 30000.000000 \* DIHYDROOROT-RXN, L2R *\ - 0.000000 <= r1067b <= 30000.000000 \* DIHYDROOROT-RXN, R2L *\ - 0.000000 <= r1068 <= 30000.000000 \* TETHYDPICSUCC-RXN, L2R *\ - 0.000000 <= r1069 <= 30000.000000 \* RXN0-2943, L2R *\ - 0.000000 <= r1070 <= 30000.000000 \* RXN-10016, L2R *\ - 0.000000 <= r1071 <= 30000.000000 \* DTDPGLUCDEHYDRAT-RXN, L2R *\ - 0.000000 <= r1072 <= 30000.000000 \* 2.3.1.49-RXN-HOLO-CITRATE-LYASE/S-ACETYLPHOSPHOPANTETHEINE//CITRATE-LYASE/PANTETHEINE-P.75., L2R *\ - 0.000000 <= r1073a <= 30000.000000 \* THYM-PHOSPH-RXN, L2R *\ - 0.000000 <= r1073b <= 30000.000000 \* THYM-PHOSPH-RXN, R2L *\ - 0.000000 <= r1074 <= 30000.000000 \* 4.2.1.61-RXN-R-3-Hydroxypalmitoyl-ACPs//2-Hexadecenoyl-ACPs/WATER.53., L2R *\ - 0.000000 <= r1075 <= 30000.000000 \* BIOTINLIG-RXN-BCCP-monomers/BIOTIN/ATP//AMP/BCCP-biotin-monomers/PPI/PROTON.62., L2R *\ - 0.000000 <= r1076a <= 30000.000000 \* RXN-11326, L2R *\ - 0.000000 <= r1076b <= 30000.000000 \* RXN-11326, R2L *\ - 0.000000 <= r1077 <= 30000.000000 \* CITTRANS-RXN-CIT/CITRATE-LYASE/PROTON//Citrate-Lyase-Citryl-Form/ACET.57., L2R *\ - 0.000000 <= r1078 <= 30000.000000 \* F16BDEPHOS-RXN[CCO-PERI-BAC]-FRUCTOSE-16-DIPHOSPHATE/WATER//FRUCTOSE-6P/Pi.60., L2R *\ - 0.000000 <= r1079 <= 30000.000000 \* F16BDEPHOS-RXN[CCO-CYTOSOL]-FRUCTOSE-16-DIPHOSPHATE/WATER//FRUCTOSE-6P/Pi.59., L2R *\ - 0.000000 <= r1080 <= 30000.000000 \* TRNA-GUANINE-N7--METHYLTRANSFERASE-RXN, L2R *\ - 0.000000 <= r1081 <= 30000.000000 \* RXN0-3942, L2R *\ - 0.000000 <= r1082 <= 30000.000000 \* RXN-11600, L2R *\ - 0.000000 <= r1083 <= 30000.000000 \* RXN-11361-MPT-Synthases/ATP/PROTON//Carboxyadenylated-MPT-synthases/PPI.62., L2R *\ - 0.000000 <= r1084 <= 30000.000000 \* GALACTARDEHYDRA-RXN, L2R *\ - 0.000000 <= r1085a <= 30000.000000 \* UDPGLCNACEPIM-RXN, L2R *\ - 0.000000 <= r1085b <= 30000.000000 \* UDPGLCNACEPIM-RXN, R2L *\ - 0.000000 <= r1086 <= 30000.000000 \* RXN-9518-R-3-hydroxyhexanoyl-ACPs/NADP//3-oxo-hexanoyl-ACPs/NADPH/PROTON.64., R2L *\ - 0.000000 <= r1087 <= 30000.000000 \* RXN0-4621, L2R *\ - 0.000000 <= r1088 <= 30000.000000 \* RXN-9555-Cis-vaccenoyl-ACPs/WATER//CPD-9247/ACP/PROTON.46., L2R *\ - 0.000000 <= r1089a <= 30000.000000 \* RXN-11839, L2R *\ - 0.000000 <= r1089b <= 30000.000000 \* RXN-11839, R2L *\ - 0.000000 <= r1090a <= 30000.000000 \* RXN-982-ARSENATE/Reduced-NrdH-Proteins/PROTON//CPD-763/Oxidized-NrdH-Proteins/WATER.76., L2R *\ - 0.000000 <= r1090b <= 30000.000000 \* RXN-982-ARSENATE/Reduced-NrdH-Proteins/PROTON//CPD-763/Oxidized-NrdH-Proteins/WATER.76., R2L *\ - 0.000000 <= r1091a <= 30000.000000 \* RXN-982-ARSENATE/Red-Glutaredoxins/PROTON//CPD-763/Ox-Glutaredoxins/WATER.66., L2R *\ - 0.000000 <= r1091b <= 30000.000000 \* RXN-982-ARSENATE/Red-Glutaredoxins/PROTON//CPD-763/Ox-Glutaredoxins/WATER.66., R2L *\ - 0.000000 <= r1092 <= 30000.000000 \* UROGENDECARBOX-RXN, L2R *\ - 0.000000 <= r1093 <= 30000.000000 \* RXN0-5073, L2R *\ - 0.000000 <= r1094 <= 30000.000000 \* RXN-12104, R2L *\ - 0.000000 <= r1095a <= 30000.000000 \* GLUCOSE-6-PHOSPHATE-1-EPIMERASE-RXN, L2R *\ - 0.000000 <= r1095b <= 30000.000000 \* GLUCOSE-6-PHOSPHATE-1-EPIMERASE-RXN, R2L *\ - 0.000000 <= r1096 <= 30000.000000 \* 1.13.11.16-RXN, L2R *\ - 0.000000 <= r1097 <= 30000.000000 \* RXN0-5126, L2R *\ - 0.000000 <= r1098 <= 30000.000000 \* 2.7.7.61-RXN-2-5-TRIPHOSPHORIBOSYL-3-DEPHOSPHO-/APO-CITRATE-LYASE//HOLO-CITRATE-LYASE/PPI/PROTON.84., L2R *\ - 0.000000 <= r1099 <= 30000.000000 \* RXN-12540, L2R *\ - 0.000000 <= r1100a <= 30000.000000 \* ACYLGPEACYLTRANS-RXN, L2R *\ - 0.000000 <= r1100b <= 30000.000000 \* ACYLGPEACYLTRANS-RXN, R2L *\ - 0.000000 <= r1101 <= 30000.000000 \* GLUTSEMIALDEHYDROG-RXN, R2L *\ - 0.000000 <= r1102 <= 30000.000000 \* 2.1.1.34-RXN, L2R *\ - 0.000000 <= r1103a <= 30000.000000 \* RXN0-5192, L2R *\ - 0.000000 <= r1103b <= 30000.000000 \* RXN0-5192, R2L *\ - 0.000000 <= r1104a <= 30000.000000 \* FLAVONADPREDUCT-RXN-Oxidized-flavodoxins/NADPH/PROTON//Reduced-flavodoxins/NADP.60., L2R *\ - 0.000000 <= r1104b <= 30000.000000 \* FLAVONADPREDUCT-RXN-Oxidized-flavodoxins/NADPH/PROTON//Reduced-flavodoxins/NADP.60., R2L *\ - 0.000000 <= r1105 <= 30000.000000 \* RXN-12872, L2R *\ - 0.000000 <= r1106a <= 30000.000000 \* MALONYL-COA-ACP-TRANSACYL-RXN-ACP/MALONYL-COA//MALONYL-ACP/CO-A.34., L2R *\ - 0.000000 <= r1106b <= 30000.000000 \* MALONYL-COA-ACP-TRANSACYL-RXN-ACP/MALONYL-COA//MALONYL-ACP/CO-A.34., R2L *\ - 0.000000 <= r1107a <= 30000.000000 \* GLYOHMETRANS-RXN-SER/CPD-1301//GLY/CPD-12996/WATER.34., L2R *\ - 0.000000 <= r1107b <= 30000.000000 \* GLYOHMETRANS-RXN-SER/CPD-1301//GLY/CPD-12996/WATER.34., R2L *\ - 0.000000 <= r1108a <= 30000.000000 \* GLYOHMETRANS-RXN-SER/THF//GLY/METHYLENE-THF/WATER.33., L2R *\ - 0.000000 <= r1108b <= 30000.000000 \* GLYOHMETRANS-RXN-SER/THF//GLY/METHYLENE-THF/WATER.33., R2L *\ - 0.000000 <= r1109 <= 30000.000000 \* 2.7.7.13-RXN, L2R *\ - 0.000000 <= r1110 <= 30000.000000 \* RIBONUCLEOSIDE-DIP-REDUCTII-RXN-DCDP/Oxidized-NrdH-Proteins/WATER//CDP/Reduced-NrdH-Proteins.61., R2L *\ - 0.000000 <= r1111 <= 30000.000000 \* RXN0-5226, L2R *\ - 0.000000 <= r1112 <= 30000.000000 \* RXN-11477-3-Hydroxyglutaryl-ACP-methyl-ester//Enoylglutaryl-ACP-methyl-esters/WATER.74., L2R *\ - 0.000000 <= r1113 <= 30000.000000 \* RXN-13859, L2R *\ - 0.000000 <= r1114 <= 30000.000000 \* RXN-9524-3-Hydroxy-octanoyl-ACPs/NADP//3-Oxo-octanoyl-ACPs/NADPH/PROTON.63., R2L *\ - 0.000000 <= r1115 <= 30000.000000 \* 3-NUCLEOTID-RXN[CCO-PERI-BAC]-CPD-3724/WATER//URIDINE/Pi.41., L2R *\ - 0.000000 <= r1116 <= 30000.000000 \* 3-NUCLEOTID-RXN[CCO-CYTOSOL]-CPD-3724/WATER//URIDINE/Pi.40., L2R *\ - 0.000000 <= r1117 <= 30000.000000 \* 3-NUCLEOTID-RXN[CCO-PERI-BAC]-CPD-3711/WATER//CYTIDINE/Pi.42., L2R *\ - 0.000000 <= r1118 <= 30000.000000 \* 3-NUCLEOTID-RXN[CCO-CYTOSOL]-CPD-3711/WATER//CYTIDINE/Pi.41., L2R *\ - 0.000000 <= r1119 <= 30000.000000 \* 3-NUCLEOTID-RXN[CCO-PERI-BAC]-CPD-3706/WATER//ADENOSINE/Pi.43., L2R *\ - 0.000000 <= r1120 <= 30000.000000 \* 3-NUCLEOTID-RXN[CCO-CYTOSOL]-CPD-3706/WATER//ADENOSINE/Pi.42., L2R *\ - 0.000000 <= r1121 <= 30000.000000 \* 3-NUCLEOTID-RXN[CCO-PERI-BAC]-CPD-3708/WATER//GUANOSINE/Pi.43., L2R *\ - 0.000000 <= r1122 <= 30000.000000 \* 3-NUCLEOTID-RXN[CCO-CYTOSOL]-CPD-3708/WATER//GUANOSINE/Pi.42., L2R *\ - 0.000000 <= r1123 <= 30000.000000 \* RXN-9558-cis-vaccen-2-enoyl-ACPs/NADH/PROTON//Cis-vaccenoyl-ACPs/NAD.60., L2R *\ - 0.000000 <= r1124 <= 30000.000000 \* RXN0-5306, L2R *\ - 0.000000 <= r1125 <= 30000.000000 \* RXN-14126[CCO-PERI-BAC]-CPD-3706/WATER//ADENOSINE/Pi.43., L2R *\ - 0.000000 <= r1126 <= 30000.000000 \* RXN-14126[CCO-CYTOSOL]-CPD-3706/WATER//ADENOSINE/Pi.42., L2R *\ - 0.000000 <= r1127a <= 30000.000000 \* RXN0-5514, L2R *\ - 0.000000 <= r1127b <= 30000.000000 \* RXN0-5514, R2L *\ - 0.000000 <= r1128a <= 30000.000000 \* HEMEOSYN-RXN-PROTOHEME/FARNESYL-PP/WATER//CPD-17063/PPI.43., L2R *\ - 0.000000 <= r1128b <= 30000.000000 \* HEMEOSYN-RXN-PROTOHEME/FARNESYL-PP/WATER//CPD-17063/PPI.43., R2L *\ - 0.000000 <= r1129 <= 30000.000000 \* RXN0-6705-1-PALMITOYLGLYCEROL-3-PHOSPHATE/Palmitoyl-ACPs//CPD0-1422/ACP.62., L2R *\ - 0.000000 <= r1130 <= 30000.000000 \* RXN0-5402, L2R *\ - 0.000000 <= r1131a <= 30000.000000 \* RXN-14284, L2R *\ - 0.000000 <= r1131b <= 30000.000000 \* RXN-14284, R2L *\ - 0.000000 <= r1132 <= 30000.000000 \* UDPHYDROXYMYRGLUCOSAMNACETYLTRANS-RXN-R-3-hydroxymyristoyl-ACPs/UDP-OHMYR-GLUCOSAMINE//OH-MYRISTOYL/ACP/PROTON.73., L2R *\ - 0.000000 <= r1133 <= 30000.000000 \* HYDROXYLAMINE-REDUCTASE-RXN, R2L *\ - 0.000000 <= r1134a <= 30000.000000 \* 1.8.4.12-RXN, L2R *\ - 0.000000 <= r1134b <= 30000.000000 \* 1.8.4.12-RXN, R2L *\ - 0.000000 <= r1135 <= 30000.000000 \* 3.4.13.22-RXN, L2R *\ - 0.000000 <= r1136 <= 30000.000000 \* 3-OXOACYL-ACP-REDUCT-RXN-Beta-3-hydroxybutyryl-ACPs/NADP//Acetoacetyl-ACPs/NADPH/PROTON.63., R2L *\ - 0.000000 <= r1137 <= 30000.000000 \* 3-OXOACYL-ACP-REDUCT-RXN-R-3-hydroxyhexanoyl-ACPs/NADP//3-oxo-hexanoyl-ACPs/NADPH/PROTON.64., R2L *\ - 0.000000 <= r1138 <= 30000.000000 \* 3-OXOACYL-ACP-REDUCT-RXN-3-Hydroxy-octanoyl-ACPs/NADP//3-Oxo-octanoyl-ACPs/NADPH/PROTON.63., R2L *\ - 0.000000 <= r1139 <= 30000.000000 \* 3-OXOACYL-ACP-REDUCT-RXN-Beta-hydroxydecanoyl-ACPs/NADP//3-oxo-decanoyl-ACPs/NADPH/PROTON.65., R2L *\ - 0.000000 <= r1140 <= 30000.000000 \* 3-OXOACYL-ACP-REDUCT-RXN-R-3-hydroxydodecanoyl-ACPs/NADP//3-oxo-dodecanoyl-ACPs/NADPH/PROTON.68., R2L *\ - 0.000000 <= r1141 <= 30000.000000 \* 3-OXOACYL-ACP-REDUCT-RXN-R-3-hydroxymyristoyl-ACPs/NADP//3-oxo-myristoyl-ACPs/NADPH/PROTON.66., R2L *\ - 0.000000 <= r1142 <= 30000.000000 \* 3-OXOACYL-ACP-REDUCT-RXN-R-3-Hydroxypalmitoyl-ACPs/NADP//3-oxo-palmitoyl-ACPs/NADPH/PROTON.66., R2L *\ - 0.000000 <= r1143 <= 30000.000000 \* 3-OXOACYL-ACP-REDUCT-RXN-R-3-hydroxystearoyl-ACPs/NADP//3-oxo-stearoyl-ACPs/NADPH/PROTON.64., R2L *\ - 0.000000 <= r1144 <= 30000.000000 \* 3-OXOACYL-ACP-REDUCT-RXN-R-3-hydroxyarachidoyl-ACPs/NADP//3-oxo-arachidoyl-ACPs/NADPH/PROTON.68., R2L *\ - 0.000000 <= r1145 <= 30000.000000 \* RXN0-5507, L2R *\ - 0.000000 <= r1146 <= 30000.000000 \* ARCA-RXN, L2R *\ - 0.000000 <= r1147 <= 30000.000000 \* RXN-14478, L2R *\ - 0.000000 <= r1148a <= 30000.000000 \* KDGALDOL-RXN, L2R *\ - 0.000000 <= r1148b <= 30000.000000 \* KDGALDOL-RXN, R2L *\ - 0.000000 <= r1149 <= 30000.000000 \* 3.6.1.19-RXN-DCTP/WATER//DCMP/PPI/PROTON.28., L2R *\ - 0.000000 <= r1150 <= 30000.000000 \* 3.6.1.19-RXN-TTP/WATER//TMP/PPI/PROTON.26., L2R *\ - 0.000000 <= r1151 <= 30000.000000 \* 3.6.1.19-RXN-DUTP/WATER//DUMP/PPI/PROTON.28., L2R *\ - 0.000000 <= r1152 <= 30000.000000 \* 3.6.1.19-RXN-DATP/WATER//DAMP/PPI/PROTON.28., L2R *\ - 0.000000 <= r1153 <= 30000.000000 \* 3.6.1.19-RXN-DITP/WATER//DIMP/PPI/PROTON.28., L2R *\ - 0.000000 <= r1154 <= 30000.000000 \* 3.6.1.19-RXN-ITP/WATER//IMP/PPI/PROTON.26., L2R *\ - 0.000000 <= r1155 <= 30000.000000 \* 3.6.1.19-RXN-GTP/WATER//GMP/PPI/PROTON.26., L2R *\ - 0.000000 <= r1156 <= 30000.000000 \* 3.6.1.19-RXN-XTP/WATER//XANTHOSINE-5-PHOSPHATE/PPI/PROTON.45., L2R *\ - 0.000000 <= r1157 <= 30000.000000 \* 3.6.1.19-RXN-UTP/WATER//UMP/PPI/PROTON.26., L2R *\ - 0.000000 <= r1158 <= 30000.000000 \* 3.6.1.19-RXN-CTP/WATER//CMP/PPI/PROTON.26., L2R *\ - 0.000000 <= r1159 <= 30000.000000 \* RXN-14515, L2R *\ - 0.000000 <= r1160 <= 30000.000000 \* LCARNCOALIG-RXN, L2R *\ - 0.000000 <= r1161 <= 30000.000000 \* RXN-15891-23DHB-EntB/Seryl-EntF//Holo-EntB/DHB-Seryl-EntF/PROTON.55., L2R *\ - 0.000000 <= r1162 <= 30000.000000 \* RXN-11480-3-hydroxypimeloyl-ACP-methyl-esters/NADP//3-Ketopimeloyl-ACP-methyl-esters/NADPH/PROTON.88., R2L *\ - 0.000000 <= r1163a <= 30000.000000 \* RXN-14810, L2R *\ - 0.000000 <= r1163b <= 30000.000000 \* RXN-14810, R2L *\ - 0.000000 <= r1164 <= 30000.000000 \* RXN-9531-Decanoyl-ACPs/MALONYL-ACP/PROTON//3-oxo-dodecanoyl-ACPs/CARBON-DIOXIDE/ACP.75., L2R *\ - 0.000000 <= r1165 <= 30000.000000 \* RXN-9658-Hexanoyl-ACPs/NAD//Hex-2-enoyl-ACPs/NADH/PROTON.48., R2L *\ - 0.000000 <= r1166 <= 30000.000000 \* MALATE-DEHYDROGENASE-ACCEPTOR-RXN-MAL/CPD-9728//OXALACETIC_ACID/REDUCED-MENAQUINONE.50., L2R *\ - 0.000000 <= r1167 <= 30000.000000 \* MALATE-DEHYDROGENASE-ACCEPTOR-RXN-MAL/UBIQUINONE-8//OXALACETIC_ACID/CPD-9956.43., L2R *\ - 0.000000 <= r1168 <= 30000.000000 \* RXN0-6515, L2R *\ - 0.000000 <= r1169 <= 30000.000000 \* RXN-15124, L2R *\ - 0.000000 <= r1170 <= 30000.000000 \* METHIONINE--TRNA-LIGASE-RXN-Elongation-tRNAMet/MET/ATP/PROTON//Charged-MET-tRNAs/AMP/PPI.61., L2R *\ - 0.000000 <= r1171a <= 30000.000000 \* ACSERLY-RXN, L2R *\ - 0.000000 <= r1171b <= 30000.000000 \* ACSERLY-RXN, R2L *\ - 0.000000 <= r1172 <= 30000.000000 \* 1.8.4.8-RXN-3-5-ADP/SO3/Ox-Thioredoxin/PROTON//PAPS/Red-Thioredoxin.56., R2L *\ - 0.000000 <= r1173 <= 30000.000000 \* RXN0-6550, L2R *\ - 0.000000 <= r1174 <= 30000.000000 \* 3.1.2.21-RXN-Dodecanoyl-ACPs/WATER//ACP/DODECANOATE/PROTON.46., L2R *\ - 0.000000 <= r1175 <= 30000.000000 \* RXN-15312, L2R *\ - 0.000000 <= r1176 <= 30000.000000 \* NAD-SYNTH-GLN-RXN, L2R *\ - 0.000000 <= r1177a <= 30000.000000 \* ADENYLYLSULFKIN-RXN, L2R *\ - 0.000000 <= r1177b <= 30000.000000 \* ADENYLYLSULFKIN-RXN, R2L *\ - 0.000000 <= r1178 <= 30000.000000 \* RXN0-6721, L2R *\ - 0.000000 <= r1179 <= 30000.000000 \* MYRISTOYLACYLTRAN-RXN-Myristoyl-ACPs/KDO2-LAUROYL-LIPID-IVA//KDO2-LIPID-A/ACP.56., L2R *\ - 0.000000 <= r1180 <= 30000.000000 \* RXN-15889-Apo-EntF/CO-A//Holo-EntF/3-5-ADP/PROTON.40., L2R *\ - 0.000000 <= r1181 <= 30000.000000 \* NUCLEOSIDE-DIP-KIN-RXN-CPD0-2231/ATP//DITP/ADP.24., L2R *\ - 0.000000 <= r1182 <= 30000.000000 \* NUCLEOSIDE-DIP-KIN-RXN-DADP/ATP//DATP/ADP.19., L2R *\ - 0.000000 <= r1183 <= 30000.000000 \* NUCLEOSIDE-DIP-KIN-RXN-DUDP/ATP//DUTP/ADP.19., L2R *\ - 0.000000 <= r1184 <= 30000.000000 \* NUCLEOSIDE-DIP-KIN-RXN-DCDP/ATP//DCTP/ADP.19., L2R *\ - 0.000000 <= r1185 <= 30000.000000 \* NUCLEOSIDE-DIP-KIN-RXN-TDP/ATP//TTP/ADP.17., L2R *\ - 0.000000 <= r1186 <= 30000.000000 \* NUCLEOSIDE-DIP-KIN-RXN-CDP/ATP//CTP/ADP.17., L2R *\ - 0.000000 <= r1187 <= 30000.000000 \* NUCLEOSIDE-DIP-KIN-RXN-UDP/ATP//UTP/ADP.17., L2R *\ - 0.000000 <= r1188 <= 30000.000000 \* NUCLEOSIDE-DIP-KIN-RXN-XDP/ATP//XTP/ADP.17., L2R *\ - 0.000000 <= r1189 <= 30000.000000 \* NUCLEOSIDE-DIP-KIN-RXN-GDP/ATP//GTP/ADP.17., L2R *\ - 0.000000 <= r1190 <= 30000.000000 \* NUCLEOSIDE-DIP-KIN-RXN-IDP/ATP//ITP/ADP.17., L2R *\ - 0.000000 <= r1191 <= 30000.000000 \* RXN-10655-3-hydroxy-cis-D7-tetraecenoyl-ACPs/NADP//3-oxo-cis-D7-tetradecenoyl-ACPs/NADPH/PROTON.86., R2L *\ - 0.000000 <= r1192a <= 30000.000000 \* ALDOSE-1-EPIMERASE-RXN, L2R *\ - 0.000000 <= r1192b <= 30000.000000 \* ALDOSE-1-EPIMERASE-RXN, R2L *\ - 0.000000 <= r1193 <= 30000.000000 \* RXN-11483-Pimeloyl-ACP-methyl-esters/WATER//Pimeloyl-ACPs/METOH/PROTON.61., L2R *\ - 0.000000 <= r1194 <= 30000.000000 \* RXN0-6957, L2R *\ - 0.000000 <= r1195 <= 30000.000000 \* RXN-7101-BCCP-biotin-monomers//BCCP-dimers.34., L2R *\ - 0.000000 <= r1196 <= 30000.000000 \* RXN-3523, L2R *\ - 0.000000 <= r1197 <= 30000.000000 \* RXN-9535-Dodecanoyl-ACPs/MALONYL-ACP/PROTON//3-oxo-myristoyl-ACPs/CARBON-DIOXIDE/ACP.76., L2R *\ - 0.000000 <= r1198a <= 30000.000000 \* OXALYL-COA-DECARBOXYLASE-RXN, L2R *\ - 0.000000 <= r1198b <= 30000.000000 \* OXALYL-COA-DECARBOXYLASE-RXN, R2L *\ - 0.000000 <= r1199 <= 30000.000000 \* RXN-9661-Dodecanoyl-ACPs/NAD//Dodec-2-enoyl-ACPs/NADH/PROTON.52., R2L *\ - 0.000000 <= r1200 <= 30000.000000 \* AMP-DEPHOSPHORYLATION-RXN[CCO-PERI-BAC]-AMP/WATER//ADENOSINE/Pi.38., L2R *\ - 0.000000 <= r1201 <= 30000.000000 \* AMP-DEPHOSPHORYLATION-RXN[CCO-CYTOSOL]-AMP/WATER//ADENOSINE/Pi.37., L2R *\ - 0.000000 <= r1202 <= 30000.000000 \* RXN-7800, L2R *\ - 0.000000 <= r1203 <= 30000.000000 \* PGLUCONDEHYDRAT-RXN, L2R *\ - 0.000000 <= r1204 <= 30000.000000 \* RXN0-949, L2R *\ - 0.000000 <= r1205a <= 30000.000000 \* ASPAMINOTRANS-RXN, L2R *\ - 0.000000 <= r1205b <= 30000.000000 \* ASPAMINOTRANS-RXN, R2L *\ - 0.000000 <= r1206 <= 30000.000000 \* RXN0-7021, R2L *\ - 0.000000 <= r1207 <= 30000.000000 \* RXN-8654, L2R *\ - 0.000000 <= r1208a <= 30000.000000 \* PHOSPHAGLYPSYN-RXN-CPD-12814/GLYCEROL-3P//CMP/CPD-12820/PROTON.44., L2R *\ - 0.000000 <= r1208b <= 30000.000000 \* PHOSPHAGLYPSYN-RXN-CPD-12814/GLYCEROL-3P//CMP/CPD-12820/PROTON.44., R2L *\ - 0.000000 <= r1209a <= 30000.000000 \* PHOSPHAGLYPSYN-RXN-CPD-12815/GLYCEROL-3P//CMP/CPD-12821/PROTON.44., L2R *\ - 0.000000 <= r1209b <= 30000.000000 \* PHOSPHAGLYPSYN-RXN-CPD-12815/GLYCEROL-3P//CMP/CPD-12821/PROTON.44., R2L *\ - 0.000000 <= r1210 <= 30000.000000 \* RXN0-7080, L2R *\ - 0.000000 <= r1211 <= 30000.000000 \* RXN-9772, L2R *\ - 0.000000 <= r1212 <= 30000.000000 \* PRAISOM-RXN, L2R *\ - 0.000000 <= r1213 <= 30000.000000 \* CHD-RXN, L2R *\ - 0.000000 <= r1214 <= 30000.000000 \* RXN0-743, L2R *\ - 0.000000 <= r1215 <= 30000.000000 \* RXN0-1602, L2R *\ - 0.000000 <= r1216 <= 30000.000000 \* PSEUDOURIDINE-KINASE-RXN, L2R *\ - 0.000000 <= r1217 <= 30000.000000 \* DCYSDESULF-RXN, L2R *\ - 0.000000 <= r1218 <= 30000.000000 \* CYSTATHIONINE-BETA-LYASE-RXN, L2R *\ - 0.000000 <= r1219 <= 30000.000000 \* SAMDECARB-RXN, L2R *\ - 0.000000 <= r1220 <= 30000.000000 \* QUINOLINATE-SYNTHA-RXN, L2R *\ - 0.000000 <= r1221a <= 30000.000000 \* DHDOGALDOL-RXN, L2R *\ - 0.000000 <= r1221b <= 30000.000000 \* DHDOGALDOL-RXN, R2L *\ - 0.000000 <= r1222 <= 30000.000000 \* SUCCGLUDESUCC-RXN, L2R *\ - 0.000000 <= r1223 <= 30000.000000 \* RIBOFLAVINKIN-RXN, L2R *\ - 0.000000 <= r1224 <= 30000.000000 \* DIHYDROXYMETVALDEHYDRAT-RXN, L2R *\ - 0.000000 <= r1225 <= 30000.000000 \* THI-P-SYN-RXN, L2R *\ - 0.000000 <= r1226 <= 30000.000000 \* RXN0-300, R2L *\ - 0.000000 <= r1227 <= 30000.000000 \* RXN-10040, L2R *\ - 0.000000 <= r1228 <= 30000.000000 \* DTMPKI-RXN, L2R *\ - 0.000000 <= r1229 <= 30000.000000 \* TMAOREDUCT-RXN, L2R *\ - 0.000000 <= r1230 <= 30000.000000 \* RXN-11409, L2R *\ - 0.000000 <= r1231a <= 30000.000000 \* RXN0-3542, L2R *\ - 0.000000 <= r1231b <= 30000.000000 \* RXN0-3542, R2L *\ - 0.000000 <= r1232 <= 30000.000000 \* RXN-11484-Pimeloyl-ACPs/L-ALPHA-ALANINE/PROTON//8-AMINO-7-OXONONANOATE/CARBON-DIOXIDE/ACP.80., L2R *\ - 0.000000 <= r1233 <= 30000.000000 \* RXN-11633, L2R *\ - 0.000000 <= r1234 <= 30000.000000 \* GALACTOKIN-RXN, L2R *\ - 0.000000 <= r1235 <= 30000.000000 \* UDPMANACATRANS-RXN, L2R *\ - 0.000000 <= r1236 <= 30000.000000 \* RXN-11842, L2R *\ - 0.000000 <= r1237 <= 30000.000000 \* GLCNACPTRANS-RXN, L2R *\ - 0.000000 <= r1238a <= 30000.000000 \* URPHOS-RXN, L2R *\ - 0.000000 <= r1238b <= 30000.000000 \* URPHOS-RXN, R2L *\ - 0.000000 <= r1239 <= 30000.000000 \* RXN-12195, L2R *\ - 0.000000 <= r1240 <= 30000.000000 \* GLUTAMIDOTRANS-RXN, L2R *\ - 0.000000 <= r1241a <= 30000.000000 \* RXN-12587, L2R *\ - 0.000000 <= r1241b <= 30000.000000 \* RXN-12587, R2L *\ - 0.000000 <= r1242a <= 30000.000000 \* GLYCDEH-RXN, L2R *\ - 0.000000 <= r1242b <= 30000.000000 \* GLYCDEH-RXN, R2L *\ - 0.000000 <= r1243 <= 30000.000000 \* 2.1.1.79-RXN, L2R *\ - 0.000000 <= r1244a <= 30000.000000 \* RXN0-5200, L2R *\ - 0.000000 <= r1244b <= 30000.000000 \* RXN0-5200, R2L *\ - 0.000000 <= r1245 <= 30000.000000 \* RXN-13141, L2R *\ - 0.000000 <= r1246 <= 30000.000000 \* GLYOXIII-RXN, R2L *\ - 0.000000 <= r1247 <= 30000.000000 \* 2.7.8.25-RXN, L2R *\ - 0.000000 <= r1248 <= 30000.000000 \* RXN0-5229, L2R *\ - 0.000000 <= r1249 <= 30000.000000 \* RXN-14014, R2L *\ - 0.000000 <= r1250 <= 30000.000000 \* GTPPYPHOSKIN-RXN, L2R *\ - 0.000000 <= r1251 <= 30000.000000 \* RXN0-5359, L2R *\ - 0.000000 <= r1252 <= 30000.000000 \* RXN-14142[CCO-PERI-BAC]-DGMP/WATER//DEOXYGUANOSINE/Pi.44., L2R *\ - 0.000000 <= r1253 <= 30000.000000 \* RXN-14142[CCO-CYTOSOL]-DGMP/WATER//DEOXYGUANOSINE/Pi.43., L2R *\ - 0.000000 <= r1254 <= 30000.000000 \* HISTAMINOTRANS-RXN, L2R *\ - 0.000000 <= r1255 <= 30000.000000 \* 3.1.3.68-RXN, L2R *\ - 0.000000 <= r1256 <= 30000.000000 \* RXN0-5408, L2R *\ - 0.000000 <= r1257 <= 30000.000000 \* RXN-14290, L2R *\ - 0.000000 <= r1258 <= 30000.000000 \* IMIDPHOSDEHYD-RXN, L2R *\ - 0.000000 <= r1259 <= 30000.000000 \* 3.4.16.4-RXN, L2R *\ - 0.000000 <= r1260 <= 30000.000000 \* RXN0-5515, L2R *\ - 0.000000 <= r1261 <= 30000.000000 \* RXN-14481, L2R *\ - 0.000000 <= r1262 <= 30000.000000 \* KDOTRANS-RXN, L2R *\ - 0.000000 <= r1263a <= 30000.000000 \* 3PGAREARR-RXN, L2R *\ - 0.000000 <= r1263b <= 30000.000000 \* 3PGAREARR-RXN, R2L *\ - 0.000000 <= r1264 <= 30000.000000 \* RXN-14523, L2R *\ - 0.000000 <= r1265a <= 30000.000000 \* LEUCYLTRANSFERASE-RXN-Charged-LEU-tRNAs/General-Protein-Substrates//LEU-tRNAs/L-leucyl-protein/PROTON.80., L2R *\ - 0.000000 <= r1265b <= 30000.000000 \* LEUCYLTRANSFERASE-RXN-Charged-LEU-tRNAs/General-Protein-Substrates//LEU-tRNAs/L-leucyl-protein/PROTON.80., R2L *\ - 0.000000 <= r1266a <= 30000.000000 \* RXN-14813, L2R *\ - 0.000000 <= r1266b <= 30000.000000 \* RXN-14813, R2L *\ - 0.000000 <= r1267a <= 30000.000000 \* MALTACETYLTRAN-RXN, L2R *\ - 0.000000 <= r1267b <= 30000.000000 \* MALTACETYLTRAN-RXN, R2L *\ - 0.000000 <= r1268 <= 30000.000000 \* ACETOOHBUTREDUCTOISOM-RXN, R2L *\ - 0.000000 <= r1269 <= 30000.000000 \* RXN-15129, L2R *\ - 0.000000 <= r1270a <= 30000.000000 \* METHYLISOCITRATE-LYASE-RXN, L2R *\ - 0.000000 <= r1270b <= 30000.000000 \* METHYLISOCITRATE-LYASE-RXN, R2L *\ - 0.000000 <= r1271 <= 30000.000000 \* ACYLCOASYN-RXN-BUTYRIC_ACID/CO-A/ATP//BUTYRYL-COA/PPI/AMP.43., L2R *\ - 0.000000 <= r1272 <= 30000.000000 \* ACYLCOASYN-RXN-HEXANOATE/CO-A/ATP//HEXANOYL-COA/PPI/AMP.41., L2R *\ - 0.000000 <= r1273 <= 30000.000000 \* ACYLCOASYN-RXN-CPD-195/CO-A/ATP//CPD-196/PPI/AMP.34., L2R *\ - 0.000000 <= r1274 <= 30000.000000 \* ACYLCOASYN-RXN-CPD-3617/CO-A/ATP//CPD-10267/PPI/AMP.37., L2R *\ - 0.000000 <= r1275 <= 30000.000000 \* ACYLCOASYN-RXN-DODECANOATE/CO-A/ATP//LAUROYLCOA-CPD/PPI/AMP.45., L2R *\ - 0.000000 <= r1276 <= 30000.000000 \* ACYLCOASYN-RXN-CPD-7836/CO-A/ATP//TETRADECANOYL-COA/PPI/AMP.45., L2R *\ - 0.000000 <= r1277 <= 30000.000000 \* ACYLCOASYN-RXN-PALMITATE/CO-A/ATP//PALMITYL-COA/PPI/AMP.41., L2R *\ - 0.000000 <= r1278 <= 30000.000000 \* ACYLCOASYN-RXN-STEARIC_ACID/CO-A/ATP//STEAROYL-COA/PPI/AMP.44., L2R *\ - 0.000000 <= r1279 <= 30000.000000 \* ACYLCOASYN-RXN-POLYMER-INST-CPD66-39-C16-H32/CO-A/ATP//CPD-9965/PPI/AMP.57., L2R *\ - 0.000000 <= r1280 <= 30000.000000 \* RXN0-6562, L2R *\ - 0.000000 <= r1281 <= 30000.000000 \* RXN-15345, L2R *\ - 0.000000 <= r1282 <= 30000.000000 \* NADPH-DEHYDROGENASE-FLAVIN-RXN, R2L *\ - 0.000000 <= r1283 <= 30000.000000 \* AGMATIN-RXN, L2R *\ - 0.000000 <= r1284 <= 30000.000000 \* RXN0-6726, L2R *\ - 0.000000 <= r1285 <= 30000.000000 \* RXN-16002, L2R *\ - 0.000000 <= r1286 <= 30000.000000 \* O-SUCCINYLBENZOATE-COA-LIG-RXN, L2R *\ - 0.000000 <= r1287 <= 30000.000000 \* ALLANTOATE-DEIMINASE-RXN, L2R *\ - 0.000000 <= r1288 <= 30000.000000 \* RXN0-6975, L2R *\ - 0.000000 <= r1289 <= 30000.000000 \* RXN-5647, L2R *\ - 0.000000 <= r1290 <= 30000.000000 \* P-PANTOCYSLIG-RXN, L2R *\ - 0.000000 <= r1291 <= 30000.000000 \* AMYLOMALT-RXN, R2L *\ - 0.000000 <= r1292 <= 30000.000000 \* RXN0-6998, L2R *\ - 0.000000 <= r1293 <= 30000.000000 \* RXN-7948, L2R *\ - 0.000000 <= r1294a <= 30000.000000 \* ASPARTASE-RXN, L2R *\ - 0.000000 <= r1294b <= 30000.000000 \* ASPARTASE-RXN, R2L *\ - 0.000000 <= r1295 <= 30000.000000 \* RXN0-7024, L2R *\ - 0.000000 <= r1296 <= 30000.000000 \* RXN-8770, L2R *\ - 0.000000 <= r1297 <= 30000.000000 \* PHOSPHOENOLPYRUVATE-PHOSPHATASE-RXN, L2R *\ - 0.000000 <= r1298a <= 30000.000000 \* BRANCHED-CHAINAMINOTRANSFERILEU-RXN, L2R *\ - 0.000000 <= r1298b <= 30000.000000 \* BRANCHED-CHAINAMINOTRANSFERILEU-RXN, R2L *\ - 0.000000 <= r1299a <= 30000.000000 \* RXN-9983, L2R *\ - 0.000000 <= r1299b <= 30000.000000 \* RXN-9983, R2L *\ - 0.000000 <= r1300 <= 30000.000000 \* PRIBFAICARPISOM-RXN, L2R *\ - 0.000000 <= r1301 <= 30000.000000 \* CHORISMATEMUT-RXN, L2R *\ - 0.000000 <= r1302 <= 30000.000000 \* RXN0-961, L2R *\ - 0.000000 <= r1303 <= 30000.000000 \* RXN0-1842, L2R *\ - 0.000000 <= r1304 <= 30000.000000 \* PYRAMKIN-RXN, L2R *\ - 0.000000 <= r1305a <= 30000.000000 \* DEOXYADENPHOSPHOR-RXN, L2R *\ - 0.000000 <= r1305b <= 30000.000000 \* DEOXYADENPHOSPHOR-RXN, R2L *\ - 0.000000 <= r1306 <= 30000.000000 \* CYTDEAM-RXN, L2R *\ - 0.000000 <= r1307 <= 30000.000000 \* SERINE--TRNA-LIGASE-RXN-SER-tRNAs/SER/ATP/PROTON//Charged-SER-tRNAs/AMP/PPI.52., L2R *\ - 0.000000 <= r1308a <= 30000.000000 \* RXN0-2201, L2R *\ - 0.000000 <= r1308b <= 30000.000000 \* RXN0-2201, R2L *\ - 0.000000 <= r1309 <= 30000.000000 \* R165-RXN-CPD-1091/NAD//CPD-389/NADH/PROTON.34., L2R *\ - 0.000000 <= r1310 <= 30000.000000 \* R165-RXN-CPD-1091/NADP//CPD-389/NADPH/PROTON.36., L2R *\ - 0.000000 <= r1311a <= 30000.000000 \* DIAMACTRANS-RXN-SPERMINE/ACETYL-COA//N1-ACETYLSPERMINE/CO-A/PROTON.51., L2R *\ - 0.000000 <= r1311b <= 30000.000000 \* DIAMACTRANS-RXN-SPERMINE/ACETYL-COA//N1-ACETYLSPERMINE/CO-A/PROTON.51., R2L *\ - 0.000000 <= r1312a <= 30000.000000 \* SUCCORNTRANSAM-RXN, L2R *\ - 0.000000 <= r1312b <= 30000.000000 \* SUCCORNTRANSAM-RXN, R2L *\ - 0.000000 <= r1313 <= 30000.000000 \* RIBOKIN-RXN, L2R *\ - 0.000000 <= r1314 <= 30000.000000 \* DLACTDEHYDROGNAD-RXN, R2L *\ - 0.000000 <= r1315 <= 30000.000000 \* THIOESTER-RXN-BUTYRYL-COA/WATER//BUTYRIC_ACID/CO-A/PROTON.44., L2R *\ - 0.000000 <= r1316 <= 30000.000000 \* THIOESTER-RXN-TETRADECANOYL-COA/WATER//CPD-7836/CO-A/PROTON.46., L2R *\ - 0.000000 <= r1317 <= 30000.000000 \* THIOESTER-RXN-PALMITYL-COA/WATER//PALMITATE/CO-A/PROTON.42., L2R *\ - 0.000000 <= r1318 <= 30000.000000 \* THIOESTER-RXN-STEAROYL-COA/WATER//STEARIC_ACID/CO-A/PROTON.45., L2R *\ - 0.000000 <= r1319 <= 30000.000000 \* THIOESTER-RXN-LAUROYLCOA-CPD/WATER//DODECANOATE/CO-A/PROTON.46., L2R *\ - 0.000000 <= r1320 <= 30000.000000 \* THIOESTER-RXN-CPD-10267/WATER//CPD-3617/CO-A/PROTON.38., L2R *\ - 0.000000 <= r1321 <= 30000.000000 \* THIOESTER-RXN-CPD-196/WATER//CPD-195/CO-A/PROTON.35., L2R *\ - 0.000000 <= r1322 <= 30000.000000 \* THIOESTER-RXN-HEXANOYL-COA/WATER//HEXANOATE/CO-A/PROTON.42., L2R *\ - 0.000000 <= r1323a <= 30000.000000 \* RXN0-303, L2R *\ - 0.000000 <= r1323b <= 30000.000000 \* RXN0-303, R2L *\ - 0.000000 <= r1324 <= 30000.000000 \* RXN-10819, L2R *\ - 0.000000 <= r1325 <= 30000.000000 \* DUTP-PYROP-RXN, L2R *\ - 0.000000 <= r1326 <= 30000.000000 \* RXN0-361, L2R *\ - 0.000000 <= r1327 <= 30000.000000 \* RXN-11576, L2R *\ - 0.000000 <= r1328 <= 30000.000000 \* FORMYLTHFDEFORMYL-RXN-10-FORMYL-THF/WATER//THF/FORMATE/PROTON.40., L2R *\ - 0.000000 <= r1329 <= 30000.000000 \* TRYPTOPHAN--TRNA-LIGASE-RXN-TRP/TRP-tRNAs/ATP/PROTON//Charged-TRP-tRNAs/AMP/PPI.52., L2R *\ - 0.000000 <= r1330 <= 30000.000000 \* RXN-11638, L2R *\ - 0.000000 <= r1331a <= 30000.000000 \* GALACTURIDYLYLTRANS-RXN, L2R *\ - 0.000000 <= r1331b <= 30000.000000 \* GALACTURIDYLYLTRANS-RXN, R2L *\ - 0.000000 <= r1332 <= 30000.000000 \* UDPNACETYLMURAMATEDEHYDROG-RXN, R2L *\ - 0.000000 <= r1333 <= 30000.000000 \* RXN0-5038, L2R *\ - 0.000000 <= r1334 <= 30000.000000 \* RXN-11860, L2R *\ - 0.000000 <= r1335 <= 30000.000000 \* GLUC1PURIDYLTRANS-RXN, L2R *\ - 0.000000 <= r1336a <= 30000.000000 \* VALINE-PYRUVATE-AMINOTRANSFER-RXN, L2R *\ - 0.000000 <= r1336b <= 30000.000000 \* VALINE-PYRUVATE-AMINOTRANSFER-RXN, R2L *\ - 0.000000 <= r1337a <= 30000.000000 \* 1.1.1.127-RXN, L2R *\ - 0.000000 <= r1337b <= 30000.000000 \* 1.1.1.127-RXN, R2L *\ - 0.000000 <= r1338 <= 30000.000000 \* RXN0-5108, L2R *\ - 0.000000 <= r1339a <= 30000.000000 \* RXN-12274-FORMATE/Oxidized-hydrogenase-3//CARBON-DIOXIDE/Reduced-hydrogenase-3.69., L2R *\ - 0.000000 <= r1339b <= 30000.000000 \* RXN-12274-FORMATE/Oxidized-hydrogenase-3//CARBON-DIOXIDE/Reduced-hydrogenase-3.69., R2L *\ - 0.000000 <= r1340 <= 30000.000000 \* GLUTAMINESYN-RXN, L2R *\ - 0.000000 <= r1341a <= 30000.000000 \* 1TRANSKETO-RXN, L2R *\ - 0.000000 <= r1341b <= 30000.000000 \* 1TRANSKETO-RXN, R2L *\ - 0.000000 <= r1342a <= 30000.000000 \* RXN-12752, L2R *\ - 0.000000 <= r1342b <= 30000.000000 \* RXN-12752, R2L *\ - 0.000000 <= r1343 <= 30000.000000 \* GLYCEROL-KIN-RXN, L2R *\ - 0.000000 <= r1344a <= 30000.000000 \* RXN0-5210, L2R *\ - 0.000000 <= r1344b <= 30000.000000 \* RXN0-5210, R2L *\ - 0.000000 <= r1345 <= 30000.000000 \* RXN-13248, L2R *\ - 0.000000 <= r1346 <= 30000.000000 \* GMKALT-RXN, L2R *\ - 0.000000 <= r1347 <= 30000.000000 \* 2.9.1.1-RXN-SEPO3/L-seryl-SEC-tRNAs//Charged-SEC-tRNAs/Pi.46., L2R *\ - 0.000000 <= r1348 <= 30000.000000 \* RXN-14064, L2R *\ - 0.000000 <= r1349 <= 30000.000000 \* GUANOSINEKIN-RXN, L2R *\ - 0.000000 <= r1350 <= 30000.000000 \* RXN0-5364, L2R *\ - 0.000000 <= r1351 <= 30000.000000 \* RXN-14161[CCO-PERI-BAC]-DAMP/WATER//DEOXYADENOSINE/Pi.44., L2R *\ - 0.000000 <= r1352 <= 30000.000000 \* RXN-14161[CCO-CYTOSOL]-DAMP/WATER//DEOXYADENOSINE/Pi.43., L2R *\ - 0.000000 <= r1353 <= 30000.000000 \* HISTIDPHOS-RXN[CCO-PERI-BAC]-L-HISTIDINOL-P/WATER//HISTIDINOL/Pi.50., L2R *\ - 0.000000 <= r1354 <= 30000.000000 \* HISTIDPHOS-RXN[CCO-CYTOSOL]-L-HISTIDINOL-P/WATER//HISTIDINOL/Pi.49., L2R *\ - 0.000000 <= r1355 <= 30000.000000 \* 3.2.1.21-RXN, L2R *\ - 0.000000 <= r1356a <= 30000.000000 \* INOPHOSPHOR-RXN, L2R *\ - 0.000000 <= r1356b <= 30000.000000 \* INOPHOSPHOR-RXN, R2L *\ - 0.000000 <= r1357 <= 30000.000000 \* RXN0-6259-PROTOPORPHYRIN_IX/REDUCED-MENAQUINONE//PROTOPORPHYRINOGEN/CPD-9728.67., R2L *\ - 0.000000 <= r1358 <= 30000.000000 \* RXN-14500, L2R *\ - 0.000000 <= r1359 <= 30000.000000 \* KDPGALDOL-RXN, L2R *\ - 0.000000 <= r1360a <= 30000.000000 \* 4.1.2.28-RXN, L2R *\ - 0.000000 <= r1360b <= 30000.000000 \* 4.1.2.28-RXN, R2L *\ - 0.000000 <= r1361 <= 30000.000000 \* RXN0-6444, L2R *\ - 0.000000 <= r1362 <= 30000.000000 \* RXN-14534, L2R *\ - 0.000000 <= r1363a <= 30000.000000 \* LTAA-RXN, L2R *\ - 0.000000 <= r1363b <= 30000.000000 \* LTAA-RXN, R2L *\ - 0.000000 <= r1364a <= 30000.000000 \* RXN-14882, L2R *\ - 0.000000 <= r1364b <= 30000.000000 \* RXN-14882, R2L *\ - 0.000000 <= r1365 <= 30000.000000 \* MANNKIN-RXN, L2R *\ - 0.000000 <= r1366 <= 30000.000000 \* ACETYL-COA-CARBOXYLTRANSFER-RXN, L2R *\ - 0.000000 <= r1367 <= 30000.000000 \* RXN-15140, L2R *\ - 0.000000 <= r1368 <= 30000.000000 \* METHYLTHIOADENOSINE-NUCLEOSIDASE-RXN, L2R *\ - 0.000000 <= r1369 <= 30000.000000 \* ADDALT-RXN, L2R *\ - 0.000000 <= r1370a <= 30000.000000 \* RXN0-6565, L2R *\ - 0.000000 <= r1370b <= 30000.000000 \* RXN0-6565, R2L *\ - 0.000000 <= r1371 <= 30000.000000 \* RXN-15356, L2R *\ - 0.000000 <= r1372 <= 30000.000000 \* NAG6PDEACET-RXN-CPD-16168/WATER//CPD-13469/ACET.32., L2R *\ - 0.000000 <= r1373 <= 30000.000000 \* AIRS-RXN, L2R *\ - 0.000000 <= r1374 <= 30000.000000 \* RXN0-6732, L2R *\ - 0.000000 <= r1375 <= 30000.000000 \* RXN-1623, L2R *\ - 0.000000 <= r1376 <= 30000.000000 \* OHACYL-COA-DEHYDROG-RXN-NAD/S-3-HYDROXYBUTANOYL-COA//NADH/ACETOACETYL-COA/PROTON.57., L2R *\ - 0.000000 <= r1377 <= 30000.000000 \* OHACYL-COA-DEHYDROG-RXN-NAD/OH-HEXANOYL-COA//NADH/K-HEXANOYL-COA/PROTON.48., L2R *\ - 0.000000 <= r1378 <= 30000.000000 \* OHACYL-COA-DEHYDROG-RXN-NAD/CPD0-2224//NADH/CPD0-2106/PROTON.37., L2R *\ - 0.000000 <= r1379 <= 30000.000000 \* OHACYL-COA-DEHYDROG-RXN-NAD/CPD0-2244//NADH/CPD0-2123/PROTON.37., L2R *\ - 0.000000 <= r1380 <= 30000.000000 \* OHACYL-COA-DEHYDROG-RXN-NAD/CPD0-2107//NADH/CPD0-2105/PROTON.37., L2R *\ - 0.000000 <= r1381 <= 30000.000000 \* OHACYL-COA-DEHYDROG-RXN-NAD/CPD0-2171//NADH/CPD-10284/PROTON.37., L2R *\ - 0.000000 <= r1382 <= 30000.000000 \* OHACYL-COA-DEHYDROG-RXN-NAD/CPD0-2232//NADH/3-OXOPALMITOYL-COA/PROTON.46., L2R *\ - 0.000000 <= r1383 <= 30000.000000 \* OHACYL-COA-DEHYDROG-RXN-NAD/CPD0-2253//NADH/CPD-10260/PROTON.37., L2R *\ - 0.000000 <= r1384 <= 30000.000000 \* OHACYL-COA-DEHYDROG-RXN-NAD/POLYMER-INST-L-3-HYDROXYACYL-COA-C16-H32//NADH/POLYMER-INST-3-KETOACYL-COA-C16-H32/PROTON.94., L2R *\ - 0.000000 <= r1385 <= 30000.000000 \* RXN0-6978, L2R *\ - 0.000000 <= r1386 <= 30000.000000 \* RXN-6081, L2R *\ - 0.000000 <= r1387 <= 30000.000000 \* PANTOATE-BETA-ALANINE-LIG-RXN, L2R *\ - 0.000000 <= r1388 <= 30000.000000 \* RXN0-7001, L2R *\ - 0.000000 <= r1389a <= 30000.000000 \* RXN-8073, L2R *\ - 0.000000 <= r1389b <= 30000.000000 \* RXN-8073, R2L *\ - 0.000000 <= r1390a <= 30000.000000 \* PHENDEHYD-RXN, L2R *\ - 0.000000 <= r1390b <= 30000.000000 \* PHENDEHYD-RXN, R2L *\ - 0.000000 <= r1391 <= 30000.000000 \* ASPARTATEKIN-RXN, L2R *\ - 0.000000 <= r1392 <= 30000.000000 \* RXN-8991, R2L *\ - 0.000000 <= r1393 <= 30000.000000 \* PMPOXI-RXN, L2R *\ - 0.000000 <= r1394 <= 30000.000000 \* BTUR2-RXN, L2R *\ - 0.000000 <= r1395 <= 30000.000000 \* RXN0-1241, L2R *\ - 0.000000 <= r1396 <= 30000.000000 \* PROPIONATE--COA-LIGASE-RXN, L2R *\ - 0.000000 <= r1397 <= 30000.000000 \* CITSYN-RXN, L2R *\ - 0.000000 <= r1398 <= 30000.000000 \* RXN0-984, L2R *\ - 0.000000 <= r1399a <= 30000.000000 \* RXN0-1863, L2R *\ - 0.000000 <= r1399b <= 30000.000000 \* RXN0-1863, R2L *\ - 0.000000 <= r1400 <= 30000.000000 \* PYRIMSYN1-RXN, L2R *\ - 0.000000 <= r1401a <= 30000.000000 \* DEOXYINOPHOSPHOR-RXN, L2R *\ - 0.000000 <= r1401b <= 30000.000000 \* DEOXYINOPHOSPHOR-RXN, R2L *\ - 0.000000 <= r1402 <= 30000.000000 \* CYTIDINEKIN-RXN, L2R *\ - 0.000000 <= r1403 <= 30000.000000 \* SHIKIMATE-KINASE-RXN, L2R *\ - 0.000000 <= r1404 <= 30000.000000 \* RXN0-2361, L2R *\ - 0.000000 <= r1405 <= 30000.000000 \* R4-RXN-BUTANOL/NAD/WATER//BUTYL-HYDROPEROXIDE/NADH/PROTON.51., R2L *\ - 0.000000 <= r1406a <= 30000.000000 \* DIAMTRANSAM-RXN-PUTRESCINE/2-KETOGLUTARATE//4-AMINO-BUTYRALDEHYDE/GLT.54., L2R *\ - 0.000000 <= r1406b <= 30000.000000 \* DIAMTRANSAM-RXN-PUTRESCINE/2-KETOGLUTARATE//4-AMINO-BUTYRALDEHYDE/GLT.54., R2L *\ - 0.000000 <= r1407 <= 30000.000000 \* SULFATE-ADENYLYLTRANS-RXN, L2R *\ - 0.000000 <= r1408 <= 30000.000000 \* RIBOSYLNICOTINAMIDE-KINASE-RXN, L2R *\ - 0.000000 <= r1409 <= 30000.000000 \* THREODEHYD-RXN, L2R *\ - 0.000000 <= r1410 <= 30000.000000 \* RXN0-308, L2R *\ - 0.000000 <= r1411 <= 30000.000000 \* RXN-10940, L2R *\ - 0.000000 <= r1412a <= 30000.000000 \* ENOYL-COA-DELTA-ISOM-RXN-POLYMER-INST-CIS-DELTA3-ENOYL-COA-C0-H0//CROTONYL-COA.54., L2R *\ - 0.000000 <= r1412b <= 30000.000000 \* ENOYL-COA-DELTA-ISOM-RXN-POLYMER-INST-CIS-DELTA3-ENOYL-COA-C0-H0//CROTONYL-COA.54., R2L *\ - 0.000000 <= r1413a <= 30000.000000 \* ENOYL-COA-DELTA-ISOM-RXN-POLYMER-INST-CIS-DELTA3-ENOYL-COA-C2-H4//CPD0-2121.51., L2R *\ - 0.000000 <= r1413b <= 30000.000000 \* ENOYL-COA-DELTA-ISOM-RXN-POLYMER-INST-CIS-DELTA3-ENOYL-COA-C2-H4//CPD0-2121.51., R2L *\ - 0.000000 <= r1414a <= 30000.000000 \* ENOYL-COA-DELTA-ISOM-RXN-POLYMER-INST-CIS-DELTA3-ENOYL-COA-C4-H8//CPD0-2108.51., L2R *\ - 0.000000 <= r1414b <= 30000.000000 \* ENOYL-COA-DELTA-ISOM-RXN-POLYMER-INST-CIS-DELTA3-ENOYL-COA-C4-H8//CPD0-2108.51., R2L *\ - 0.000000 <= r1415a <= 30000.000000 \* ENOYL-COA-DELTA-ISOM-RXN-POLYMER-INST-CIS-DELTA3-ENOYL-COA-C6-H12//T2-DECENOYL-COA.58., L2R *\ - 0.000000 <= r1415b <= 30000.000000 \* ENOYL-COA-DELTA-ISOM-RXN-POLYMER-INST-CIS-DELTA3-ENOYL-COA-C6-H12//T2-DECENOYL-COA.58., R2L *\ - 0.000000 <= r1416a <= 30000.000000 \* ENOYL-COA-DELTA-ISOM-RXN-CPD-7221//CPD-7222.19., L2R *\ - 0.000000 <= r1416b <= 30000.000000 \* ENOYL-COA-DELTA-ISOM-RXN-CPD-7221//CPD-7222.19., R2L *\ - 0.000000 <= r1417a <= 30000.000000 \* ENOYL-COA-DELTA-ISOM-RXN-POLYMER-INST-CIS-DELTA3-ENOYL-COA-C10-H20//POLYMER-INST-TRANS-D2-ENOYL-COA-C10-H20.83., L2R *\ - 0.000000 <= r1417b <= 30000.000000 \* ENOYL-COA-DELTA-ISOM-RXN-POLYMER-INST-CIS-DELTA3-ENOYL-COA-C10-H20//POLYMER-INST-TRANS-D2-ENOYL-COA-C10-H20.83., R2L *\ - 0.000000 <= r1418a <= 30000.000000 \* ENOYL-COA-DELTA-ISOM-RXN-POLYMER-INST-CIS-DELTA3-ENOYL-COA-C12-H24//CPD0-2117.53., L2R *\ - 0.000000 <= r1418b <= 30000.000000 \* ENOYL-COA-DELTA-ISOM-RXN-POLYMER-INST-CIS-DELTA3-ENOYL-COA-C12-H24//CPD0-2117.53., R2L *\ - 0.000000 <= r1419a <= 30000.000000 \* ENOYL-COA-DELTA-ISOM-RXN-POLYMER-INST-CIS-DELTA3-ENOYL-COA-C14-H28//CPD-10262.53., L2R *\ - 0.000000 <= r1419b <= 30000.000000 \* ENOYL-COA-DELTA-ISOM-RXN-POLYMER-INST-CIS-DELTA3-ENOYL-COA-C14-H28//CPD-10262.53., R2L *\ - 0.000000 <= r1420a <= 30000.000000 \* ENOYL-COA-DELTA-ISOM-RXN-POLYMER-INST-CIS-DELTA3-ENOYL-COA-C16-H32//POLYMER-INST-TRANS-D2-ENOYL-COA-C16-H32.83., L2R *\ - 0.000000 <= r1420b <= 30000.000000 \* ENOYL-COA-DELTA-ISOM-RXN-POLYMER-INST-CIS-DELTA3-ENOYL-COA-C16-H32//POLYMER-INST-TRANS-D2-ENOYL-COA-C16-H32.83., R2L *\ - 0.000000 <= r1421 <= 30000.000000 \* TRE6PHYDRO-RXN, L2R *\ - 0.000000 <= r1422 <= 30000.000000 \* RXN0-382, L2R *\ - 0.000000 <= r1423 <= 30000.000000 \* RXN-11588, L2R *\ - 0.000000 <= r1424 <= 30000.000000 \* FRUCTOKINASE-RXN, L2R *\ - 0.000000 <= r1425 <= 30000.000000 \* TYROSINE--TRNA-LIGASE-RXN-TYR-tRNAs/TYR/ATP/PROTON//Charged-TYR-tRNAs/AMP/PPI.52., L2R *\ - 0.000000 <= r1426a <= 30000.000000 \* RXN0-4281, L2R *\ - 0.000000 <= r1426b <= 30000.000000 \* RXN0-4281, R2L *\ - 0.000000 <= r1427 <= 30000.000000 \* RXN-11832, L2R *\ - 0.000000 <= r1428a <= 30000.000000 \* GAPOXNPHOSPHN-RXN, L2R *\ - 0.000000 <= r1428b <= 30000.000000 \* GAPOXNPHOSPHN-RXN, R2L *\ - 0.000000 <= r1429 <= 30000.000000 \* UNDECAPRENYL-DIPHOSPHATASE-RXN, L2R *\ - 0.000000 <= r1430 <= 30000.000000 \* RXN-11867, L2R *\ - 0.000000 <= r1431 <= 30000.000000 \* GLUCOKIN-RXN, L2R *\ - 0.000000 <= r1432a <= 30000.000000 \* XYLISOM-RXN, L2R *\ - 0.000000 <= r1432b <= 30000.000000 \* XYLISOM-RXN, R2L *\ - 0.000000 <= r1433 <= 30000.000000 \* 1.1.1.262-RXN, L2R *\ - 0.000000 <= r1434 <= 30000.000000 \* RXN0-5118, L2R *\ - 0.000000 <= r1435 <= 30000.000000 \* GLUTATHIONE-SYN-RXN, L2R *\ - 0.000000 <= r1436 <= 30000.000000 \* 2-METHYLCITRATE-DEHYDRATASE-RXN, L2R *\ - 0.000000 <= r1437 <= 30000.000000 \* RXN0-5183, L2R *\ - 0.000000 <= r1438 <= 30000.000000 \* RXN-12816, L2R *\ - 0.000000 <= r1439 <= 30000.000000 \* 2.5.1.64-RXN, L2R *\ - 0.000000 <= r1440 <= 30000.000000 \* RXN0-5216, L2R *\ - 0.000000 <= r1441a <= 30000.000000 \* RXN-13459, L2R *\ - 0.000000 <= r1441b <= 30000.000000 \* RXN-13459, R2L *\ - 0.000000 <= r1442 <= 30000.000000 \* GMP-SYN-NH3-RXN, L2R *\ - 0.000000 <= r1443a <= 30000.000000 \* 2TRANSKETO-RXN, L2R *\ - 0.000000 <= r1443b <= 30000.000000 \* 2TRANSKETO-RXN, R2L *\ - 0.000000 <= r1444 <= 30000.000000 \* RXN0-5292[CCO-PERI-BAC]-DCMP/WATER//DEOXYCYTIDINE/Pi.43., L2R *\ - 0.000000 <= r1445 <= 30000.000000 \* RXN0-5292[CCO-CYTOSOL]-DCMP/WATER//DEOXYCYTIDINE/Pi.42., L2R *\ - 0.000000 <= r1446 <= 30000.000000 \* RXN-14090[CCO-PERI-BAC]-CPD-3711/WATER//CYTIDINE/Pi.42., L2R *\ - 0.000000 <= r1447 <= 30000.000000 \* RXN-14090[CCO-CYTOSOL]-CPD-3711/WATER//CYTIDINE/Pi.41., L2R *\ - 0.000000 <= r1448a <= 30000.000000 \* GUANYLCYC-RXN, L2R *\ - 0.000000 <= r1448b <= 30000.000000 \* GUANYLCYC-RXN, R2L *\ - 0.000000 <= r1449a <= 30000.000000 \* RXN0-5383, L2R *\ - 0.000000 <= r1449b <= 30000.000000 \* RXN0-5383, R2L *\ - 0.000000 <= r1450 <= 30000.000000 \* RXN-14251, L2R *\ - 0.000000 <= r1451 <= 30000.000000 \* HOMOCYSMET-RXN, L2R *\ - 0.000000 <= r1452 <= 30000.000000 \* RXN0-5422, L2R *\ - 0.000000 <= r1453a <= 30000.000000 \* RXN-14393, L2R *\ - 0.000000 <= r1453b <= 30000.000000 \* RXN-14393, R2L *\ - 0.000000 <= r1454 <= 30000.000000 \* INOSINEKIN-RXN, L2R *\ - 0.000000 <= r1455a <= 30000.000000 \* RXN0-6274, L2R *\ - 0.000000 <= r1455b <= 30000.000000 \* RXN0-6274, R2L *\ - 0.000000 <= r1456 <= 30000.000000 \* RXN-14505, L2R *\ - 0.000000 <= r1457 <= 30000.000000 \* KETOBUTFORMLY-RXN, L2R *\ - 0.000000 <= r1458 <= 30000.000000 \* 4.3.1.15-RXN, L2R *\ - 0.000000 <= r1459 <= 30000.000000 \* RXN0-6451, L2R *\ - 0.000000 <= r1460 <= 30000.000000 \* LXULRU5P-RXN, R2L *\ - 0.000000 <= r1461 <= 30000.000000 \* RXN-14992, L2R *\ - 0.000000 <= r1462a <= 30000.000000 \* MANNOSE-ISOMERASE-RXN, L2R *\ - 0.000000 <= r1462b <= 30000.000000 \* MANNOSE-ISOMERASE-RXN, R2L *\ - 0.000000 <= r1463 <= 30000.000000 \* ACETYLORNDEACET-RXN, L2R *\ - 0.000000 <= r1464 <= 30000.000000 \* RXN-15216, L2R *\ - 0.000000 <= r1465 <= 30000.000000 \* MHPHYDROXY-RXN, L2R *\ - 0.000000 <= r1466 <= 30000.000000 \* ADENOSINE-NUCLEOSIDASE-RXN, L2R *\ - 0.000000 <= r1467 <= 30000.000000 \* RXN-15581, L2R *\ - 0.000000 <= r1468 <= 30000.000000 \* NAPHTHOATE-SYN-RXN, L2R *\ - 0.000000 <= r1469 <= 30000.000000 \* ALANINE--TRNA-LIGASE-RXN-ALA-tRNAs/L-ALPHA-ALANINE/ATP/PROTON//Charged-ALA-tRNAs/AMP/PPI.64., L2R *\ - 0.000000 <= r1470 <= 30000.000000 \* RXN0-6938, L2R *\ - 0.000000 <= r1471 <= 30000.000000 \* OHMETPYRKIN-RXN, L2R *\ - 0.000000 <= r1472 <= 30000.000000 \* ALTRODEHYDRAT-RXN, L2R *\ - 0.000000 <= r1473 <= 30000.000000 \* RXN0-6981, L2R *\ - 0.000000 <= r1474a <= 30000.000000 \* RXN-6423, L2R *\ - 0.000000 <= r1474b <= 30000.000000 \* RXN-6423, R2L *\ - 0.000000 <= r1475a <= 30000.000000 \* PEPCARBOX-RXN, L2R *\ - 0.000000 <= r1475b <= 30000.000000 \* PEPCARBOX-RXN, R2L *\ - 0.000000 <= r1476 <= 30000.000000 \* ARGININE--TRNA-LIGASE-RXN-ARG-tRNAs/ARG/ATP/PROTON//Charged-ARG-tRNAs/AMP/PPI.52., L2R *\ - 0.000000 <= r1477 <= 30000.000000 \* RXN0-7007, L2R *\ - 0.000000 <= r1478 <= 30000.000000 \* RXN-8342-PRECURSOR-Z/Thiocarboxylated-MPT-synthases/WATER//MPT-Synthases/CPD-4/PROTON.77., L2R *\ - 0.000000 <= r1479 <= 30000.000000 \* PHENYLPYRUVATE-TAUTOMERASE-RXN, L2R *\ - 0.000000 <= r1480 <= 30000.000000 \* ATP-PYROPHOSPHATASE-RXN, L2R *\ - 0.000000 <= r1481 <= 30000.000000 \* RXN0-7066, L2R *\ - 0.000000 <= r1482a <= 30000.000000 \* RXN-9087, L2R *\ - 0.000000 <= r1482b <= 30000.000000 \* RXN-9087, R2L *\ - 0.000000 <= r1483 <= 30000.000000 \* PNPOXI-RXN, L2R *\ - 0.000000 <= r1484 <= 30000.000000 \* CARDIOLIPSYN-RXN-CPD-8260//CPD-12824/GLYCEROL.29., L2R *\ - 0.000000 <= r1485 <= 30000.000000 \* RXN0-1342, L2R *\ - 0.000000 <= r1486a <= 30000.000000 \* PROTOHEMEFERROCHELAT-RXN[CCO-PERI-BAC]-FE+2/PROTOPORPHYRIN_IX//PROTOHEME/PROTON.55., L2R *\ - 0.000000 <= r1486b <= 30000.000000 \* PROTOHEMEFERROCHELAT-RXN[CCO-PERI-BAC]-FE+2/PROTOPORPHYRIN_IX//PROTOHEME/PROTON.55., R2L *\ - 0.000000 <= r1487a <= 30000.000000 \* PROTOHEMEFERROCHELAT-RXN[CCO-CYTOSOL]-FE+2/PROTOPORPHYRIN_IX//PROTOHEME/PROTON.54., L2R *\ - 0.000000 <= r1487b <= 30000.000000 \* PROTOHEMEFERROCHELAT-RXN[CCO-CYTOSOL]-FE+2/PROTOPORPHYRIN_IX//PROTOHEME/PROTON.54., R2L *\ - 0.000000 <= r1488a <= 30000.000000 \* DARAB5PISOM-RXN, L2R *\ - 0.000000 <= r1488b <= 30000.000000 \* DARAB5PISOM-RXN, R2L *\ - 0.000000 <= r1489 <= 30000.000000 \* COBINAMIDEKIN-RXN, L2R *\ - 0.000000 <= r1490 <= 30000.000000 \* RXN66-521, L2R *\ - 0.000000 <= r1491a <= 30000.000000 \* RXN0-1941, L2R *\ - 0.000000 <= r1491b <= 30000.000000 \* RXN0-1941, R2L *\ - 0.000000 <= r1492a <= 30000.000000 \* PYROXALTRANSAM-RXN, L2R *\ - 0.000000 <= r1492b <= 30000.000000 \* PYROXALTRANSAM-RXN, R2L *\ - 0.000000 <= r1493a <= 30000.000000 \* DEOXYRIBOSE-P-ALD-RXN, L2R *\ - 0.000000 <= r1493b <= 30000.000000 \* DEOXYRIBOSE-P-ALD-RXN, R2L *\ - 0.000000 <= r1494a <= 30000.000000 \* D-PPENTOMUT-RXN, L2R *\ - 0.000000 <= r1494b <= 30000.000000 \* D-PPENTOMUT-RXN, R2L *\ - 0.000000 <= r1495 <= 30000.000000 \* SPERMACTRAN-RXN, L2R *\ - 0.000000 <= r1496 <= 30000.000000 \* RXN0-2441, L2R *\ - 0.000000 <= r1497a <= 30000.000000 \* RFFTRANS-RXN, L2R *\ - 0.000000 <= r1497b <= 30000.000000 \* RFFTRANS-RXN, R2L *\ - 0.000000 <= r1498 <= 30000.000000 \* DIHYDRODIPICSYN-RXN, L2R *\ - 0.000000 <= r1499a <= 30000.000000 \* TAGAALDOL-RXN, L2R *\ - 0.000000 <= r1499b <= 30000.000000 \* TAGAALDOL-RXN, R2L *\ - 0.000000 <= r1500 <= 30000.000000 \* RXN0-280-CPD0-1958/FMNH2/OXYGEN-MOLECULE//CPD-16549/SO3/FMN/WATER/PROTON.64., L2R *\ - 0.000000 <= r1501 <= 30000.000000 \* RXN0-280-CPD-3746/FMNH2/OXYGEN-MOLECULE//FORMALDEHYDE/SO3/FMN/WATER/PROTON.66., L2R *\ - 0.000000 <= r1502 <= 30000.000000 \* RXN0-280-CPD-3745/FMNH2/OXYGEN-MOLECULE//GLYCOLALDEHYDE/SO3/FMN/WATER/PROTON.68., L2R *\ - 0.000000 <= r1503 <= 30000.000000 \* RXN0-280-CPD-10434/FMNH2/OXYGEN-MOLECULE//ACETALD/SO3/FMN/WATER/PROTON.62., L2R *\ - 0.000000 <= r1504a <= 30000.000000 \* RIBULPEPIM-RXN, L2R *\ - 0.000000 <= r1504b <= 30000.000000 \* RIBULPEPIM-RXN, R2L *\ - 0.000000 <= r1505 <= 30000.000000 \* THREOSPON-RXN, L2R *\ - 0.000000 <= r1506 <= 30000.000000 \* RXN-11277, L2R *\ - 0.000000 <= r1507a <= 30000.000000 \* ENTF-RXN, L2R *\ - 0.000000 <= r1507b <= 30000.000000 \* ENTF-RXN, R2L *\ - 0.000000 <= r1508 <= 30000.000000 \* TREHALOSEPHOSPHA-RXN, L2R *\ - 0.000000 <= r1509 <= 30000.000000 \* RXN0-385, L2R *\ - 0.000000 <= r1510 <= 30000.000000 \* RXN-11592, L2R *\ - 0.000000 <= r1511a <= 30000.000000 \* FUCPALDOL-RXN, L2R *\ - 0.000000 <= r1511b <= 30000.000000 \* FUCPALDOL-RXN, R2L *\ - 0.000000 <= r1512 <= 30000.000000 \* UDP-NACMURALA-GLU-LIG-RXN, L2R *\ - 0.000000 <= r1513 <= 30000.000000 \* RXN0-4342, L2R *\ - 0.000000 <= r1514 <= 30000.000000 \* RXN-11835, L2R *\ - 0.000000 <= r1515 <= 30000.000000 \* GCVMULTI-RXN-GLY/CPD-1301/NAD//CPD-12996/AMMONIUM/CARBON-DIOXIDE/NADH.57., L2R *\ - 0.000000 <= r1516 <= 30000.000000 \* GCVMULTI-RXN-GLY/THF/NAD//METHYLENE-THF/AMMONIUM/CARBON-DIOXIDE/NADH.56., L2R *\ - 0.000000 <= r1517 <= 30000.000000 \* UREIDOGLYCOLATE-LYASE-RXN, L2R *\ - 0.000000 <= r1518 <= 30000.000000 \* RXN0-5061, L2R *\ - 0.000000 <= r1519 <= 30000.000000 \* RXN-12071, L2R *\ - 0.000000 <= r1520 <= 30000.000000 \* GLUCONOLACT-RXN, L2R *\ - 0.000000 <= r1521 <= 30000.000000 \* YIAE1-RXN, R2L *\ - 0.000000 <= r1522 <= 30000.000000 \* 1.1.1.274-RXN, R2L *\ - 0.000000 <= r1523 <= 30000.000000 \* RXN0-5122, L2R *\ - 0.000000 <= r1524 <= 30000.000000 \* RXN-12458, L2R *\ - 0.000000 <= r1525a <= 30000.000000 \* GLUTDEHYD-RXN, L2R *\ - 0.000000 <= r1525b <= 30000.000000 \* GLUTDEHYD-RXN, R2L *\ - 0.000000 <= r1526 <= 30000.000000 \* 2-OCTAPRENYL-6-OHPHENOL-METHY-RXN, L2R *\ - 0.000000 <= r1527 <= 30000.000000 \* RXN0-5186, L2R *\ - 0.000000 <= r1528 <= 30000.000000 \* ENTG-RXN-DHB-Seryl-EntF//ENTEROBACTIN/Holo-EntF.39., L2R *\ - 0.000000 <= r1529 <= 30000.000000 \* RXN-12864, L2R *\ - 0.000000 <= r1530 <= 30000.000000 \* GLYCOLATEDEHYDRO-RXN, L2R *\ - 0.000000 <= r1531 <= 30000.000000 \* 2.7.1.121-RXN, L2R *\ - 0.000000 <= r1532 <= 30000.000000 \* RXN0-5222, L2R *\ - 0.000000 <= r1533 <= 30000.000000 \* RXN-13747, L2R *\ - 0.000000 <= r1534 <= 30000.000000 \* GSAAMINOTRANS-RXN, L2R *\ - 0.000000 <= r1535 <= 30000.000000 \* 3-DEHYDROQUINATE-SYNTHASE-RXN, L2R *\ - 0.000000 <= r1536 <= 30000.000000 \* RXN0-5297, L2R *\ - 0.000000 <= r1537 <= 30000.000000 \* RXN-14113, L2R *\ - 0.000000 <= r1538a <= 30000.000000 \* H2NTPEPIM-RXN, L2R *\ - 0.000000 <= r1538b <= 30000.000000 \* H2NTPEPIM-RXN, R2L *\ - 0.000000 <= r1539a <= 30000.000000 \* RXN0-5391, L2R *\ - 0.000000 <= r1539b <= 30000.000000 \* RXN0-5391, R2L *\ - 0.000000 <= r1540a <= 30000.000000 \* RXN-14261, L2R *\ - 0.000000 <= r1540b <= 30000.000000 \* RXN-14261, R2L *\ - 0.000000 <= r1541 <= 30000.000000 \* HOMOSERDEHYDROG-RXN-HOMO-SER/NAD//L-ASPARTATE-SEMIALDEHYDE/NADH/PROTON.51., R2L *\ - 0.000000 <= r1542 <= 30000.000000 \* HOMOSERDEHYDROG-RXN-HOMO-SER/NADP//L-ASPARTATE-SEMIALDEHYDE/NADPH/PROTON.53., R2L *\ - 0.000000 <= r1543 <= 30000.000000 \* 3.4.11.4-RXN, L2R *\ - 0.000000 <= r1544 <= 30000.000000 \* RXN-14408, L2R *\ - 0.000000 <= r1545a <= 30000.000000 \* ISOCHORSYN-RXN, L2R *\ - 0.000000 <= r1545b <= 30000.000000 \* ISOCHORSYN-RXN, R2L *\ - 0.000000 <= r1546 <= 30000.000000 \* RXN0-6366, L2R *\ - 0.000000 <= r1547 <= 30000.000000 \* RXN-14511, L2R *\ - 0.000000 <= r1548 <= 30000.000000 \* L-LACTDEHYDROGFMN-RXN, L2R *\ - 0.000000 <= r1549 <= 30000.000000 \* 5-FORMYL-THF-CYCLO-LIGASE-RXN-5-FORMYL-THF/ATP//5-10-METHENYL-THF/ADP/Pi.43., L2R *\ - 0.000000 <= r1550 <= 30000.000000 \* RXN0-6460, L2R *\ - 0.000000 <= r1551 <= 30000.000000 \* RXN-14806, L2R *\ - 0.000000 <= r1552 <= 30000.000000 \* LYSOPHOSPHOLIPASE-RXN[CCO-PERI-BAC]-2-Lysophosphatidylcholines/WATER//Carboxylates/L-1-GLYCERO-PHOSPHORYLCHOLINE/PROTON.98., L2R *\ - 0.000000 <= r1553 <= 30000.000000 \* LYSOPHOSPHOLIPASE-RXN[CCO-UNKNOWN-SPACE]-2-Lysophosphatidylcholines/WATER//Carboxylates/L-1-GLYCERO-PHOSPHORYLCHOLINE/PROTON.103., L2R *\ - 0.000000 <= r1554a <= 30000.000000 \* ACETALD-DEHYDROG-RXN, L2R *\ - 0.000000 <= r1554b <= 30000.000000 \* ACETALD-DEHYDROG-RXN, R2L *\ - 0.000000 <= r1555 <= 30000.000000 \* MERCAPYSTRANS-RXN, L2R *\ - 0.000000 <= r1556a <= 30000.000000 \* ACNEULY-RXN, L2R *\ - 0.000000 <= r1556b <= 30000.000000 \* ACNEULY-RXN, R2L *\ - 0.000000 <= r1557 <= 30000.000000 \* RXN-15296, L2R *\ - 0.000000 <= r1558a <= 30000.000000 \* N-ACETYLGLUTPREDUCT-RXN, L2R *\ - 0.000000 <= r1558b <= 30000.000000 \* N-ACETYLGLUTPREDUCT-RXN, R2L *\ - 0.000000 <= r1559 <= 30000.000000 \* ADENPRIBOSYLTRAN-RXN, R2L *\ - 0.000000 <= r1560 <= 30000.000000 \* RXN0-6708, L2R *\ - 0.000000 <= r1561a <= 30000.000000 \* RXN-15744, L2R *\ - 0.000000 <= r1561b <= 30000.000000 \* RXN-15744, R2L *\ - 0.000000 <= r1562 <= 30000.000000 \* NICOTINATEPRIBOSYLTRANS-RXN, L2R *\ - 0.000000 <= r1563a <= 30000.000000 \* ALCOHOL-DEHYDROG-GENERIC-RXN-OCTANOL/NAD//CPD-371/NADH/PROTON.33., L2R *\ - 0.000000 <= r1563b <= 30000.000000 \* ALCOHOL-DEHYDROG-GENERIC-RXN-OCTANOL/NAD//CPD-371/NADH/PROTON.33., R2L *\ - 0.000000 <= r1564a <= 30000.000000 \* ALCOHOL-DEHYDROG-GENERIC-RXN-PROPANOL/NAD//CPD-665/NADH/PROTON.34., L2R *\ - 0.000000 <= r1564b <= 30000.000000 \* ALCOHOL-DEHYDROG-GENERIC-RXN-PROPANOL/NAD//CPD-665/NADH/PROTON.34., R2L *\ - 0.000000 <= r1565a <= 30000.000000 \* ALCOHOL-DEHYDROG-GENERIC-RXN-ETOH/NAD//ACETALD/NADH/PROTON.30., L2R *\ - 0.000000 <= r1565b <= 30000.000000 \* ALCOHOL-DEHYDROG-GENERIC-RXN-ETOH/NAD//ACETALD/NADH/PROTON.30., R2L *\ - 0.000000 <= r1566 <= 30000.000000 \* RXN-2881-FORMALDEHYDE/CPD-1301//CPD-12996/WATER.39., L2R *\ - 0.000000 <= r1567 <= 30000.000000 \* RXN-2881-FORMALDEHYDE/THF//METHYLENE-THF/WATER.38., L2R *\ - 0.000000 <= r1568a <= 30000.000000 \* OROPRIBTRANS-RXN, L2R *\ - 0.000000 <= r1568b <= 30000.000000 \* OROPRIBTRANS-RXN, R2L *\ - 0.000000 <= r1569 <= 30000.000000 \* AMINEPHEN-RXN, L2R *\ - 0.000000 <= r1570 <= 30000.000000 \* RXN0-6984, L2R *\ - 0.000000 <= r1571 <= 30000.000000 \* RXN-7605-S-ADENOSYLMETHIONINE/DIMETHYL-GLYCINE//ADENOSYL-HOMO-CYS/BETAINE/PROTON.72., L2R *\ - 0.000000 <= r1572 <= 30000.000000 \* PEPSYNTH-RXN, L2R *\ - 0.000000 <= r1573 <= 30000.000000 \* ARGSUCCINSYN-RXN, L2R *\ - 0.000000 <= r1574 <= 30000.000000 \* RXN0-7012-CPD-8260/CPD-12819//CPD-12824/ETHANOL-AMINE.44., L2R *\ - 0.000000 <= r1575 <= 30000.000000 \* RXN-8447, L2R *\ - 0.000000 <= r1576a <= 30000.000000 \* PHOSACETYLTRANS-RXN, L2R *\ - 0.000000 <= r1576b <= 30000.000000 \* PHOSACETYLTRANS-RXN, R2L *\ - 0.000000 <= r1577a <= 30000.000000 \* RXN0-7074, L2R *\ - 0.000000 <= r1577b <= 30000.000000 \* RXN0-7074, R2L *\ - 0.000000 <= r1578 <= 30000.000000 \* PORPHOBILSYNTH-RXN, L2R *\ - 0.000000 <= r1579 <= 30000.000000 \* CDPDIGLYPYPHOSPHA-RXN-CPD-12814/WATER//CPD0-1423/CMP/PROTON.38., L2R *\ - 0.000000 <= r1580 <= 30000.000000 \* CDPDIGLYPYPHOSPHA-RXN-CPD-12815/WATER//CPD0-1422/CMP/PROTON.38., L2R *\ - 0.000000 <= r1581a <= 30000.000000 \* RXN0-7115, L2R *\ - 0.000000 <= r1581b <= 30000.000000 \* RXN0-7115, R2L *\ - 0.000000 <= r1582 <= 30000.000000 \* RXN0-1402, L2R *\ - 0.000000 <= r1583 <= 30000.000000 \* PRPPSYN-RXN, L2R *\ - 0.000000 <= r1584 <= 30000.000000 \* DARABKIN-RXN, L2R *\ - 0.000000 <= r1585 <= 30000.000000 \* RXNMETA-12672, L2R *\ - 0.000000 <= r1586 <= 30000.000000 \* RXN0-2023, L2R *\ - 0.000000 <= r1587 <= 30000.000000 \* DGDPKIN-RXN, L2R *\ - 0.000000 <= r1588 <= 30000.000000 \* DALADALALIG-RXN, L2R *\ - 0.000000 <= r1589 <= 30000.000000 \* SUCCARGDIHYDRO-RXN, L2R *\ - 0.000000 <= r1590a <= 30000.000000 \* RHAMNULPALDOL-RXN, L2R *\ - 0.000000 <= r1590b <= 30000.000000 \* RHAMNULPALDOL-RXN, R2L *\ - 0.000000 <= r1591 <= 30000.000000 \* DIHYDRONEOPTERIN-MONO-P-DEPHOS-RXN, L2R *\ - 0.000000 <= r1592 <= 30000.000000 \* TDPFUCACTRANS-RXN, L2R *\ - 0.000000 <= r1593 <= 30000.000000 \* RXN-10015, L2R *\ - 0.000000 <= r1594 <= 30000.000000 \* DTDPDEHYRHAMREDUCT-RXN, R2L *\ - 0.000000 <= r1595 <= 30000.000000 \* THYKI-RXN, L2R *\ - 0.000000 <= r1596 <= 30000.000000 \* RXN0-3241, L2R *\ - 0.000000 <= r1597 <= 30000.000000 \* RXN-11319, L2R *\ - 0.000000 <= r1598 <= 30000.000000 \* ERYTHRON4PDEHYDROG-RXN, L2R *\ - 0.000000 <= r1599a <= 30000.000000 \* F16ALDOLASE-RXN, L2R *\ - 0.000000 <= r1599b <= 30000.000000 \* F16ALDOLASE-RXN, R2L *\ - 0.000000 <= r1600 <= 30000.000000 \* RXN0-3922-GAMMA-GLUTAMYL-GAMMA-AMINOBUTYRALDEH/NAD/WATER//CPD-9000/NADH/PROTON.69., L2R *\ - 0.000000 <= r1601 <= 30000.000000 \* RXN0-3922-GAMMA-GLUTAMYL-GAMMA-AMINOBUTYRALDEH/NADP/WATER//CPD-9000/NADPH/PROTON.71., L2R *\ - 0.000000 <= r1602 <= 30000.000000 \* RXN-11598, L2R *\ - 0.000000 <= r1603a <= 30000.000000 \* GABATRANSAM-RXN, L2R *\ - 0.000000 <= r1603b <= 30000.000000 \* GABATRANSAM-RXN, R2L *\ - 0.000000 <= r1604 <= 30000.000000 \* UDPACYLGLCNACDEACETYL-RXN, L2R *\ - 0.000000 <= r1605a <= 30000.000000 \* RXN0-4581, L2R *\ - 0.000000 <= r1605b <= 30000.000000 \* RXN0-4581, R2L *\ - 0.000000 <= r1606 <= 30000.000000 \* RXN-11838, L2R *\ - 0.000000 <= r1607 <= 30000.000000 \* GDPMANDEHYDRA-RXN, L2R *\ - 0.000000 <= r1608 <= 30000.000000 \* URKI-RXN, L2R *\ - 0.000000 <= r1609a <= 30000.000000 \* RXN0-5065, L2R *\ - 0.000000 <= r1609b <= 30000.000000 \* RXN0-5065, R2L *\ - 0.000000 <= r1610 <= 30000.000000 \* RXN-12093, L2R *\ - 0.000000 <= r1611 <= 30000.000000 \* GLUCOSE-6-PHOSPHATASE-RXN, L2R *\ - 0.000000 <= r1612 <= 30000.000000 \* 1.1.1.83-RXN, L2R *\ - 0.000000 <= r1613 <= 30000.000000 \* RXN0-5125, L2R *\ - 0.000000 <= r1614 <= 30000.000000 \* GLUTRNAREDUCT-RXN-GLUTAMATE-1-SEMIALDEHYDE/GLT-tRNAs/NADP//Charged-GLT-tRNAs/NADPH.65., R2L *\ - 0.000000 <= r1615 <= 30000.000000 \* 2-OXOPENT-4-ENOATE-HYDRATASE-RXN, L2R *\ - 0.000000 <= r1616a <= 30000.000000 \* RXN0-5190[CCI-PERI-BAC-GN]-Peptidoglycan-dimer//NAcMur-Peptide-NAcGlc-Undecaprenols/GlcNAc-1-6-anhydro-MurNAc-pentapeptide.113., L2R *\ - 0.000000 <= r1616b <= 30000.000000 \* RXN0-5190[CCI-PERI-BAC-GN]-Peptidoglycan-dimer//NAcMur-Peptide-NAcGlc-Undecaprenols/GlcNAc-1-6-anhydro-MurNAc-pentapeptide.113., R2L *\ - 0.000000 <= r1617a <= 30000.000000 \* RXN0-5190[CCO-PERI-BAC]-Peptidoglycan-dimer//NAcMur-Peptide-NAcGlc-Undecaprenols/GlcNAc-1-6-anhydro-MurNAc-pentapeptide.110., L2R *\ - 0.000000 <= r1617b <= 30000.000000 \* RXN0-5190[CCO-PERI-BAC]-Peptidoglycan-dimer//NAcMur-Peptide-NAcGlc-Undecaprenols/GlcNAc-1-6-anhydro-MurNAc-pentapeptide.110., R2L *\ - 0.000000 <= r1618a <= 30000.000000 \* RXN0-5190[CCO-UNKNOWN-SPACE]-Peptidoglycan-dimer//NAcMur-Peptide-NAcGlc-Undecaprenols/GlcNAc-1-6-anhydro-MurNAc-pentapeptide.115., L2R *\ - 0.000000 <= r1618b <= 30000.000000 \* RXN0-5190[CCO-UNKNOWN-SPACE]-Peptidoglycan-dimer//NAcMur-Peptide-NAcGlc-Undecaprenols/GlcNAc-1-6-anhydro-MurNAc-pentapeptide.115., R2L *\ - 0.000000 <= r1619a <= 30000.000000 \* RXN0-5190[CCO-CYTOSOL]-Peptidoglycan-dimer//NAcMur-Peptide-NAcGlc-Undecaprenols/GlcNAc-1-6-anhydro-MurNAc-pentapeptide.109., L2R *\ - 0.000000 <= r1619b <= 30000.000000 \* RXN0-5190[CCO-CYTOSOL]-Peptidoglycan-dimer//NAcMur-Peptide-NAcGlc-Undecaprenols/GlcNAc-1-6-anhydro-MurNAc-pentapeptide.109., R2L *\ - 0.000000 <= r1620 <= 30000.000000 \* RXN-12871, L2R *\ - 0.000000 <= r1621 <= 30000.000000 \* GLYOCARBOLIG-RXN, L2R *\ - 0.000000 <= r1622 <= 30000.000000 \* 2.7.7.1-RXN, L2R *\ - 0.000000 <= r1623 <= 30000.000000 \* RXN0-5225, L2R *\ - 0.000000 <= r1624 <= 30000.000000 \* RXN-13854, R2L *\ - 0.000000 <= r1625 <= 30000.000000 \* GSPSYN-RXN, L2R *\ - 0.000000 <= r1626a <= 30000.000000 \* 3-ISOPROPYLMALISOM-RXN, L2R *\ - 0.000000 <= r1626b <= 30000.000000 \* 3-ISOPROPYLMALISOM-RXN, R2L *\ - 0.000000 <= r1627a <= 30000.000000 \* RXN0-5305, L2R *\ - 0.000000 <= r1627b <= 30000.000000 \* RXN0-5305, R2L *\ - 0.000000 <= r1628 <= 30000.000000 \* RXN-14124, L2R *\ - 0.000000 <= r1629 <= 30000.000000 \* HCAMULTI-RXN, L2R *\ - 0.000000 <= r1630a <= 30000.000000 \* RXN0-5398, L2R *\ - 0.000000 <= r1630b <= 30000.000000 \* RXN0-5398, R2L *\ - 0.000000 <= r1631 <= 30000.000000 \* RXN-14283, L2R *\ - 0.000000 <= r1632 <= 30000.000000 \* RXN0-3501-NITRATE/REDUCED-MENAQUINONE/PROTON//NITRITE/CPD-9728/WATER/PROTON.66., L2R *\ - 0.000000 <= r1633a <= 30000.000000 \* HYDGLUTSYN-RXN-PROPIONYL-COA/GLYOX/WATER//CPD-381/CO-A/PROTON.47., L2R *\ - 0.000000 <= r1633b <= 30000.000000 \* HYDGLUTSYN-RXN-PROPIONYL-COA/GLYOX/WATER//CPD-381/CO-A/PROTON.47., R2L *\ - 0.000000 <= r1634 <= 30000.000000 \* 3.4.13.21-RXN, L2R *\ - 0.000000 <= r1635 <= 30000.000000 \* SUCCINATE-DEHYDROGENASE-UBIQUINONE-RXN-SUC/UBIQUINONE-8//FUM/CPD-9956.31., L2R *\ - 0.000000 <= r1636 <= 30000.000000 \* DIHYDROOROTATE-DEHYDROGENASE-RXN-DI-H-OROTATE/CPD-9728//OROTATE/REDUCED-MENAQUINONE.51., L2R *\ - 0.000000 <= r1637 <= 30000.000000 \* DIHYDROOROTATE-DEHYDROGENASE-RXN-DI-H-OROTATE/UBIQUINONE-8//OROTATE/CPD-9956.44., L2R *\ - 0.000000 <= r1638 <= 30000.000000 \* RXN0-5462, L2R *\ - 0.000000 <= r1639 <= 30000.000000 \* RXN0-5264-TRIMENTHLAMINE-N-O/REDUCED-MENAQUINONE/PROTON//TRIMETHYLAMINE/CPD-9728/WATER.77., L2R *\ - 0.000000 <= r1640 <= 30000.000000 \* RXN-14477, L2R *\ - 0.000000 <= r1641 <= 30000.000000 \* FORMATEDEHYDROG-RXN-FORMATE/CPD-9728/PROTON//CARBON-DIOXIDE/REDUCED-MENAQUINONE/PROTON.67., L2R *\ - 0.000000 <= r1642 <= 30000.000000 \* ISPH2-RXN-DELTA3-ISOPENTENYL-PP/NAD/WATER//HYDROXY-METHYL-BUTENYL-DIP/NADH/PROTON.72., R2L *\ - 0.000000 <= r1643 <= 30000.000000 \* ISPH2-RXN-DELTA3-ISOPENTENYL-PP/NADP/WATER//HYDROXY-METHYL-BUTENYL-DIP/NADPH/PROTON.74., R2L *\ - 0.000000 <= r1644 <= 30000.000000 \* RXN0-5330-NADH/UBIQUINONE-8/PROTON//NAD/CPD-9956.39., L2R *\ - 0.000000 <= r1645 <= 30000.000000 \* 3.5.1.88-RXN, L2R *\ - 0.000000 <= r1646a <= 30000.000000 \* NADH-DEHYDROG-A-RXN-NADH/UBIQUINONE-8/PROTON//NAD/CPD-9956/PROTON.46., L2R *\ - 0.000000 <= r1646b <= 30000.000000 \* NADH-DEHYDROG-A-RXN-NADH/UBIQUINONE-8/PROTON//NAD/CPD-9956/PROTON.46., R2L *\ - 0.000000 <= r1647a <= 30000.000000 \* RXN0-6371, L2R *\ - 0.000000 <= r1647b <= 30000.000000 \* RXN0-6371, R2L *\ - 0.000000 <= r1648 <= 30000.000000 \* RXN0-6369-NITRATE/CPD-9956//NITRITE/UBIQUINONE-8/WATER.45., L2R *\ - 0.000000 <= r1649 <= 30000.000000 \* RXN-14514, L2R *\ - 0.000000 <= r1650 <= 30000.000000 \* RXN-11193-D-GLT/CPD-9728/WATER//AMMONIUM/2-KETOGLUTARATE/REDUCED-MENAQUINONE.67., L2R *\ - 0.000000 <= r1651 <= 30000.000000 \* RXN-11193-D-GLT/UBIQUINONE-8/WATER//AMMONIUM/2-KETOGLUTARATE/CPD-9956.60., L2R *\ - 0.000000 <= r1652 <= 30000.000000 \* RXN-11193-D-ALANINE/CPD-9728/WATER//AMMONIUM/PYRUVATE/REDUCED-MENAQUINONE.64., L2R *\ - 0.000000 <= r1653 <= 30000.000000 \* RXN-11193-D-ALANINE/UBIQUINONE-8/WATER//AMMONIUM/PYRUVATE/CPD-9956.57., L2R *\ - 0.000000 <= r1654 <= 30000.000000 \* RXN-11193-CPD-218/CPD-9728/WATER//AMMONIUM/CPD-479/REDUCED-MENAQUINONE.61., L2R *\ - 0.000000 <= r1655 <= 30000.000000 \* RXN-11193-CPD-218/UBIQUINONE-8/WATER//AMMONIUM/CPD-479/CPD-9956.54., L2R *\ - 0.000000 <= r1656a <= 30000.000000 \* LACTALDREDUCT-RXN, L2R *\ - 0.000000 <= r1656b <= 30000.000000 \* LACTALDREDUCT-RXN, R2L *\ - 0.000000 <= r1657 <= 30000.000000 \* RXN0-6554-DI-H-OROTATE/CPD-9728//OROTATE/REDUCED-MENAQUINONE.51., L2R *\ - 0.000000 <= r1658a <= 30000.000000 \* 5.3.3.14-RXN-Trans-D2-decenoyl-ACPs//Cis-delta-3-decenoyl-ACPs.50., L2R *\ - 0.000000 <= r1658b <= 30000.000000 \* 5.3.3.14-RXN-Trans-D2-decenoyl-ACPs//Cis-delta-3-decenoyl-ACPs.50., R2L *\ - 0.000000 <= r1659 <= 30000.000000 \* RXN0-7124-NITRATE/CPD-9956/PROTON//NITRITE/UBIQUINONE-8/PROTON/WATER.59., L2R *\ - 0.000000 <= r1660 <= 30000.000000 \* DALADEHYDROG-RXN-D-ALANINE/CPD-9728/WATER//AMMONIUM/PYRUVATE/REDUCED-MENAQUINONE.64., L2R *\ - 0.000000 <= r1661 <= 30000.000000 \* DALADEHYDROG-RXN-D-ALANINE/UBIQUINONE-8/WATER//AMMONIUM/PYRUVATE/CPD-9956.57., L2R *\ - 0.000000 <= r1662a <= 30000.000000 \* RXN-14809-CPD-12045//ARABINOSE.21., L2R *\ - 0.000000 <= r1662b <= 30000.000000 \* RXN-14809-CPD-12045//ARABINOSE.21., R2L *\ - 0.000000 <= r1663 <= 30000.000000 \* RXN0-5260-GLYCEROL-3P/UBIQUINONE-8//DIHYDROXY-ACETONE-PHOSPHATE/CPD-9956.63., L2R *\ - 0.000000 <= r1664a <= 30000.000000 \* MALATE-DEH-RXN, L2R *\ - 0.000000 <= r1664b <= 30000.000000 \* MALATE-DEH-RXN, R2L *\ - 0.000000 <= r1665 <= 30000.000000 \* DLACTDEHYDROGFAD-RXN-D-LACTATE/UBIQUINONE-8//PYRUVATE/CPD-9956.42., L2R *\ - 0.000000 <= r1666a <= 30000.000000 \* ACETOACETYL-COA-TRANSFER-RXN, L2R *\ - 0.000000 <= r1666b <= 30000.000000 \* ACETOACETYL-COA-TRANSFER-RXN, R2L *\ - 0.000000 <= r1667 <= 30000.000000 \* RXN0-5268-CPD-9956/OXYGEN-MOLECULE/PROTON//UBIQUINONE-8/WATER/PROTON.59., L2R *\ - 0.000000 <= r1668a <= 30000.000000 \* RXN0-6513, L2R *\ - 0.000000 <= r1668b <= 30000.000000 \* RXN0-6513, R2L *\ - 0.000000 <= r1669a <= 30000.000000 \* R601-RXN-FUM/REDUCED-MENAQUINONE//SUC/CPD-9728.38., L2R *\ - 0.000000 <= r1669b <= 30000.000000 \* R601-RXN-FUM/REDUCED-MENAQUINONE//SUC/CPD-9728.38., R2L *\ - 0.000000 <= r1670 <= 30000.000000 \* RXN-15123, L2R *\ - 0.000000 <= r1671 <= 30000.000000 \* RXN0-6491-DI-H-OROTATE/UBIQUINONE-8//OROTATE/CPD-9956.44., L2R *\ - 0.000000 <= r1672 <= 30000.000000 \* METHGLYSYN-RXN, L2R *\ - 0.000000 <= r1673 <= 30000.000000 \* RXN-15740-GLYCEROL-3P/CPD-9728//DIHYDROXY-ACETONE-PHOSPHATE/REDUCED-MENAQUINONE.70., L2R *\ - 0.000000 <= r1674a <= 30000.000000 \* ACONITATEHYDR-RXN, L2R *\ - 0.000000 <= r1674b <= 30000.000000 \* ACONITATEHYDR-RXN, R2L *\ - 0.000000 <= r1675 <= 30000.000000 \* RXN0-7123-NADH/CPD-9728/PROTON//NAD/REDUCED-MENAQUINONE.46., L2R *\ - 0.000000 <= r1676 <= 30000.000000 \* RXN0-5256-CPD-9728/PROTON/HYDROGEN-MOLECULE//REDUCED-MENAQUINONE/PROTON.62., L2R *\ - 0.000000 <= r1677 <= 30000.000000 \* RXN-15299, R2L *\ - 0.000000 <= r1678a <= 30000.000000 \* DIMESULFREDUCT-RXN-CPD-7670/CPD-9728/WATER//DMSO/REDUCED-MENAQUINONE.50., L2R *\ - 0.000000 <= r1678b <= 30000.000000 \* DIMESULFREDUCT-RXN-CPD-7670/CPD-9728/WATER//DMSO/REDUCED-MENAQUINONE.50., R2L *\ - 0.000000 <= r1679 <= 30000.000000 \* NAD-KIN-RXN, L2R *\ - 0.000000 <= r1680 <= 30000.000000 \* RXN0-5266-CPD-9956/OXYGEN-MOLECULE/PROTON//UBIQUINONE-8/WATER/PROTON.59., L2R *\ - 0.000000 <= r1681 <= 30000.000000 \* ADENYLOSUCCINATE-SYNTHASE-RXN, L2R *\ - 0.000000 <= r1682 <= 30000.000000 \* RXN0-5388-NADH/CPD-9728/PROTON//NAD/REDUCED-MENAQUINONE/PROTON.53., L2R *\ - 0.000000 <= r1683a <= 30000.000000 \* RXN0-6720, L2R *\ - 0.000000 <= r1683b <= 30000.000000 \* RXN0-6720, R2L *\ - 0.000000 <= r1684a <= 30000.000000 \* RXN-15881-L-Cysteine-Desulfurases/CYS//Persulfurated-L-cysteine-desulfurases/L-ALPHA-ALANINE.83., L2R *\ - 0.000000 <= r1684b <= 30000.000000 \* RXN-15881-L-Cysteine-Desulfurases/CYS//Persulfurated-L-cysteine-desulfurases/L-ALPHA-ALANINE.83., R2L *\ - 0.000000 <= r1685 <= 30000.000000 \* NQOR-RXN-CPD-9728/NADH/PROTON//REDUCED-MENAQUINONE/NAD.46., L2R *\ - 0.000000 <= r1686 <= 30000.000000 \* NQOR-RXN-CPD-9728/NADPH/PROTON//REDUCED-MENAQUINONE/NADP.48., L2R *\ - 0.000000 <= r1687 <= 30000.000000 \* NQOR-RXN-UBIQUINONE-8/NADH/PROTON//CPD-9956/NAD.39., L2R *\ - 0.000000 <= r1688 <= 30000.000000 \* NQOR-RXN-UBIQUINONE-8/NADPH/PROTON//CPD-9956/NADP.41., L2R *\ - 0.000000 <= r1689 <= 30000.000000 \* RXN-11496-PYRUVATE/UBIQUINONE-8/WATER//CARBON-DIOXIDE/ACET/CPD-9956.58., L2R *\ - 0.000000 <= r1690 <= 30000.000000 \* ALDEHYDE-DEHYDROGENASE-NADP+-RXN-CPD-8490/NADP/WATER//CPD-3617/NADPH/PROTON.43., L2R *\ - 0.000000 <= r1691 <= 30000.000000 \* ALDEHYDE-DEHYDROGENASE-NADP+-RXN-METHYL-GLYOXAL/NADP/WATER//PYRUVATE/NADPH/PROTON.49., L2R *\ - 0.000000 <= r1692 <= 30000.000000 \* ALDEHYDE-DEHYDROGENASE-NADP+-RXN-CPD-665/NADP/WATER//PROPIONATE/NADPH/PROTON.44., L2R *\ - 0.000000 <= r1693 <= 30000.000000 \* ALDEHYDE-DEHYDROGENASE-NADP+-RXN-ACETALD/NADP/WATER//ACET/NADPH/PROTON.38., L2R *\ - 0.000000 <= r1694 <= 30000.000000 \* ALDEHYDE-DEHYDROGENASE-NADP+-RXN-HEXANAL/NADP/WATER//HEXANOATE/NADPH/PROTON.43., L2R *\ - 0.000000 <= r1695 <= 30000.000000 \* ALDEHYDE-DEHYDROGENASE-NADP+-RXN-CPD-371/NADP/WATER//CPD-195/NADPH/PROTON.41., L2R *\ - 0.000000 <= r1696 <= 30000.000000 \* ALDEHYDE-DEHYDROGENASE-NADP+-RXN-HYDRPHENYLAC-CPD/NADP/WATER//3-HYDROXYPHENYLACETATE/NADPH/PROTON.65., L2R *\ - 0.000000 <= r1697 <= 30000.000000 \* ALDEHYDE-DEHYDROGENASE-NADP+-RXN-BENZALDEHYDE/NADP/WATER//BENZOATE/NADPH/PROTON.47., L2R *\ - 0.000000 <= r1698 <= 30000.000000 \* RXN0-6952, L2R *\ - 0.000000 <= r1699 <= 30000.000000 \* RXN-3521, L2R *\ - 0.000000 <= r1700 <= 30000.000000 \* OXALODECARB-RXN, L2R *\ - 0.000000 <= r1701 <= 30000.000000 \* RXN0-6988, L2R *\ - 0.000000 <= r1702 <= 30000.000000 \* RXN-7682, L2R *\ - 0.000000 <= r1703a <= 30000.000000 \* PGLUCISOM-RXN, L2R *\ - 0.000000 <= r1703b <= 30000.000000 \* PGLUCISOM-RXN, R2L *\ - 0.000000 <= r1704 <= 30000.000000 \* ASNSYNA-RXN, L2R *\ - 0.000000 <= r1705 <= 30000.000000 \* RXN0-7020, R2L *\ - 0.000000 <= r1706a <= 30000.000000 \* RXN-8645-CPD-381/NAD//2-KETOGLUTARATE/NADH/PROTON.41., L2R *\ - 0.000000 <= r1706b <= 30000.000000 \* RXN-8645-CPD-381/NAD//2-KETOGLUTARATE/NADH/PROTON.41., R2L *\ - 0.000000 <= r1707 <= 30000.000000 \* PHOSNACMURPENTATRANS-RXN, L2R *\ - 0.000000 <= r1708 <= 30000.000000 \* BETA-GLUCURONID-RXN, L2R *\ - 0.000000 <= r1709 <= 30000.000000 \* RXN0-7079, L2R *\ - 0.000000 <= r1710 <= 30000.000000 \* RXN-9597, L2R *\ - 0.000000 <= r1711 <= 30000.000000 \* PPPGPPHYDRO-RXN, L2R *\ - 0.000000 <= r1712 <= 30000.000000 \* RXN0-742, L2R *\ - 0.000000 <= r1713 <= 30000.000000 \* RXN0-1483[CCO-PERI-BAC]-FE+2/PROTON/OXYGEN-MOLECULE//FE+3/WATER.54., L2R *\ - 0.000000 <= r1714 <= 30000.000000 \* RXN0-1483[CCO-CYTOSOL]-FE+2/PROTON/OXYGEN-MOLECULE//FE+3/WATER.53., L2R *\ - 0.000000 <= r1715a <= 30000.000000 \* PSERTRANSAMPYR-RXN, L2R *\ - 0.000000 <= r1715b <= 30000.000000 \* PSERTRANSAMPYR-RXN, R2L *\ - 0.000000 <= r1716 <= 30000.000000 \* DCTP-PYROPHOSPHATASE-RXN, L2R *\ - 0.000000 <= r1717 <= 30000.000000 \* CYCPHOSDIESTER-RXN-CPD-3725/WATER//CPD-3724/PROTON.32., L2R *\ - 0.000000 <= r1718 <= 30000.000000 \* CYCPHOSDIESTER-RXN-CPD-3713/WATER//CPD-3711/PROTON.32., L2R *\ - 0.000000 <= r1719 <= 30000.000000 \* CYCPHOSDIESTER-RXN-CPD-3709/WATER//CPD-3708/PROTON.32., L2R *\ - 0.000000 <= r1720 <= 30000.000000 \* CYCPHOSDIESTER-RXN-CPD-3707/WATER//CPD-3706/PROTON.32., L2R *\ - 0.000000 <= r1721 <= 30000.000000 \* SAICARSYN-RXN, L2R *\ - 0.000000 <= r1722 <= 30000.000000 \* RXN0-2061, L2R *\ - 0.000000 <= r1723 <= 30000.000000 \* QUERCETIN-23-DIOXYGENASE-RXN, L2R *\ - 0.000000 <= r1724 <= 30000.000000 \* DHBDEHYD-RXN, L2R *\ - 0.000000 <= r1725 <= 30000.000000 \* SUCCGLUALDDEHYD-RXN, L2R *\ - 0.000000 <= r1726 <= 30000.000000 \* RXN0-262, L2R *\ - 0.000000 <= r1727 <= 30000.000000 \* RIBOFLAVIN-SYN-RXN, L2R *\ - 0.000000 <= r1728 <= 30000.000000 \* DIHYDROXYISOVALDEHYDRAT-RXN, L2R *\ - 0.000000 <= r1729 <= 30000.000000 \* THI-P-KIN-RXN, L2R *\ - 0.000000 <= r1730 <= 30000.000000 \* RXN0-299, L2R *\ - 0.000000 <= r1731 <= 30000.000000 \* RXN-10018, L2R *\ - 0.000000 <= r1732 <= 30000.000000 \* DTDPKIN-RXN, L2R *\ - 0.000000 <= r1733 <= 30000.000000 \* THYMIDYLATESYN-RXN-METHYLENE-THF/DUMP//TMP/DIHYDROFOLATE.38., L2R *\ - 0.000000 <= r1734 <= 30000.000000 \* RXN-11397, L2R *\ - 0.000000 <= r1735 <= 30000.000000 \* RXN-11475-MALONYL-ACP/S-ADENOSYLMETHIONINE//Malonyl-acp-methyl-ester/ADENOSYL-HOMO-CYS.77., L2R *\ - 0.000000 <= r1736 <= 30000.000000 \* FGAMSYN-RXN, L2R *\ - 0.000000 <= r1737 <= 30000.000000 \* TRNA-PSEUDOURIDINE-SYNTHASE-I-RXN, L2R *\ - 0.000000 <= r1738 <= 30000.000000 \* RXN0-4022, R2L *\ - 0.000000 <= r1739 <= 30000.000000 \* RXN-11602, L2R *\ - 0.000000 <= r1740a <= 30000.000000 \* GALACTOACETYLTRAN-RXN, L2R *\ - 0.000000 <= r1740b <= 30000.000000 \* GALACTOACETYLTRAN-RXN, R2L *\ - 0.000000 <= r1741 <= 30000.000000 \* UDPKIN-RXN, L2R *\ - 0.000000 <= r1742a <= 30000.000000 \* RXN0-4841, L2R *\ - 0.000000 <= r1742b <= 30000.000000 \* RXN0-4841, R2L *\ - 0.000000 <= r1743a <= 30000.000000 \* RXN-11841, L2R *\ - 0.000000 <= r1743b <= 30000.000000 \* RXN-11841, R2L *\ - 0.000000 <= r1744 <= 30000.000000 \* GKI-RXN, L2R *\ - 0.000000 <= r1745 <= 30000.000000 \* UROPORIIIMETHYLTRANSA-RXN, L2R *\ - 0.000000 <= r1746a <= 30000.000000 \* RXN-12149, L2R *\ - 0.000000 <= r1746b <= 30000.000000 \* RXN-12149, R2L *\ - 0.000000 <= r1747 <= 30000.000000 \* GLURS-RXN-GLT-tRNAs/GLT/ATP/PROTON//Charged-GLT-tRNAs/AMP/PPI.52., L2R *\ - 0.000000 <= r1748 <= 30000.000000 \* 1.5.1.20-RXN-CPD-1302/NAD//CPD-12996/NADH/PROTON.36., R2L *\ - 0.000000 <= r1749 <= 30000.000000 \* 1.5.1.20-RXN-5-METHYL-THF/NAD//METHYLENE-THF/NADH/PROTON.44., R2L *\ - 0.000000 <= r1750a <= 30000.000000 \* RXN-12583, L2R *\ - 0.000000 <= r1750b <= 30000.000000 \* RXN-12583, R2L *\ - 0.000000 <= r1751 <= 30000.000000 \* GLYC3PDEHYDROGBIOSYN-RXN-GLYCEROL-3P/NAD//DIHYDROXY-ACETONE-PHOSPHATE/NADH/PROTON.57., R2L *\ - 0.000000 <= r1752 <= 30000.000000 \* GLYC3PDEHYDROGBIOSYN-RXN-GLYCEROL-3P/NADP//DIHYDROXY-ACETONE-PHOSPHATE/NADPH/PROTON.59., R2L *\ - 0.000000 <= r1753 <= 30000.000000 \* 2.1.1.77-RXN, L2R *\ - 0.000000 <= r1754a <= 30000.000000 \* RXN0-5199, L2R *\ - 0.000000 <= r1754b <= 30000.000000 \* RXN0-5199, R2L *\ - 0.000000 <= r1755 <= 30000.000000 \* RXN-12896, L2R *\ - 0.000000 <= r1756 <= 30000.000000 \* GLYOXII-RXN, L2R *\ - 0.000000 <= r1757a <= 30000.000000 \* RXN0-5228, L2R *\ - 0.000000 <= r1757b <= 30000.000000 \* RXN0-5228, R2L *\ - 0.000000 <= r1758 <= 30000.000000 \* RXN-14002, L2R *\ - 0.000000 <= r1759 <= 30000.000000 \* GTP-CYCLOHYDRO-II-RXN, L2R *\ - 0.000000 <= r1760a <= 30000.000000 \* RXN0-5329, L2R *\ - 0.000000 <= r1760b <= 30000.000000 \* RXN0-5329, R2L *\ - 0.000000 <= r1761 <= 30000.000000 \* RXN-14139, L2R *\ - 0.000000 <= r1762 <= 30000.000000 \* HISTALDEHYD-RXN, L2R *\ - 0.000000 <= r1763 <= 30000.000000 \* RXN0-5407, L2R *\ - 0.000000 <= r1764a <= 30000.000000 \* RXN-14286, L2R *\ - 0.000000 <= r1764b <= 30000.000000 \* RXN-14286, R2L *\ - 0.000000 <= r1765 <= 30000.000000 \* IGPSYN-RXN, L2R *\ - 0.000000 <= r1766 <= 30000.000000 \* RXN0-5510, L2R *\ - 0.000000 <= r1767a <= 30000.000000 \* RXN-14480, L2R *\ - 0.000000 <= r1767b <= 30000.000000 \* RXN-14480, R2L *\ - 0.000000 <= r1768 <= 30000.000000 \* KDO-8PSYNTH-RXN, L2R *\ - 0.000000 <= r1769 <= 30000.000000 \* 325-BISPHOSPHATE-NUCLEOTIDASE-RXN, L2R *\ - 0.000000 <= r1770 <= 30000.000000 \* RXN-14522, L2R *\ - 0.000000 <= r1771 <= 30000.000000 \* LEUCINE--TRNA-LIGASE-RXN-LEU-tRNAs/LEU/ATP/PROTON//Charged-LEU-tRNAs/AMP/PPI.52., L2R *\ - 0.000000 <= r1772a <= 30000.000000 \* RXN-14812, L2R *\ - 0.000000 <= r1772b <= 30000.000000 \* RXN-14812, R2L *\ - 0.000000 <= r1773a <= 30000.000000 \* ACETOLACTSYN-RXN, L2R *\ - 0.000000 <= r1773b <= 30000.000000 \* ACETOLACTSYN-RXN, R2L *\ - 0.000000 <= r1774 <= 30000.000000 \* RXN-15127, L2R *\ - 0.000000 <= r1775a <= 30000.000000 \* METHYLENETHFDEHYDROG-NADP-RXN-METHYLENE-THF/NADP//5-10-METHENYL-THF/NADPH.44., L2R *\ - 0.000000 <= r1775b <= 30000.000000 \* METHYLENETHFDEHYDROG-NADP-RXN-METHYLENE-THF/NADP//5-10-METHENYL-THF/NADPH.44., R2L *\ - 0.000000 <= r1776 <= 30000.000000 \* ACYLCOADEHYDROG-RXN-BUTYRYL-COA/ETF-Oxidized/PROTON//CROTONYL-COA/ETF-Reduced.58., L2R *\ - 0.000000 <= r1777 <= 30000.000000 \* ACYLCOADEHYDROG-RXN-HEXANOYL-COA/ETF-Oxidized/PROTON//CPD0-2121/ETF-Reduced.56., L2R *\ - 0.000000 <= r1778 <= 30000.000000 \* ACYLCOADEHYDROG-RXN-CPD-196/ETF-Oxidized/PROTON//CPD0-2108/ETF-Reduced.51., L2R *\ - 0.000000 <= r1779 <= 30000.000000 \* ACYLCOADEHYDROG-RXN-CPD-10267/ETF-Oxidized/PROTON//T2-DECENOYL-COA/ETF-Reduced.59., L2R *\ - 0.000000 <= r1780 <= 30000.000000 \* ACYLCOADEHYDROG-RXN-LAUROYLCOA-CPD/ETF-Oxidized/PROTON//CPD-7222/ETF-Reduced.57., L2R *\ - 0.000000 <= r1781 <= 30000.000000 \* ACYLCOADEHYDROG-RXN-TETRADECANOYL-COA/ETF-Oxidized/PROTON//POLYMER-INST-TRANS-D2-ENOYL-COA-C10-H20/ETF-Reduced.91., L2R *\ - 0.000000 <= r1782 <= 30000.000000 \* ACYLCOADEHYDROG-RXN-PALMITYL-COA/ETF-Oxidized/PROTON//CPD0-2117/ETF-Reduced.56., L2R *\ - 0.000000 <= r1783 <= 30000.000000 \* ACYLCOADEHYDROG-RXN-STEAROYL-COA/ETF-Oxidized/PROTON//CPD-10262/ETF-Reduced.56., L2R *\ - 0.000000 <= r1784 <= 30000.000000 \* ACYLCOADEHYDROG-RXN-CPD-9965/ETF-Oxidized/PROTON//POLYMER-INST-TRANS-D2-ENOYL-COA-C16-H32/ETF-Reduced.82., L2R *\ - 0.000000 <= r1785 <= 30000.000000 \* RXN-15341, L2R *\ - 0.000000 <= r1786a <= 30000.000000 \* NADH-DEHYDROGENASE-QUINONE-RXN, L2R *\ - 0.000000 <= r1786b <= 30000.000000 \* NADH-DEHYDROGENASE-QUINONE-RXN, R2L *\ - 0.000000 <= r1787 <= 30000.000000 \* RXN0-6725-CPD-12819/WATER//PALMITATE/CPD-8353/PROTON.43., L2R *\ - 0.000000 <= r1788a <= 30000.000000 \* RXN-16000, L2R *\ - 0.000000 <= r1788b <= 30000.000000 \* RXN-16000, R2L *\ - 0.000000 <= r1789 <= 30000.000000 \* O-SUCCHOMOSERLYASE-RXN, L2R *\ - 0.000000 <= r1790 <= 30000.000000 \* ALKAPHOSPHA-RXN, L2R *\ - 0.000000 <= r1791 <= 30000.000000 \* RXN0-6974, L2R *\ - 0.000000 <= r1792a <= 30000.000000 \* RXN-4821, L2R *\ - 0.000000 <= r1792b <= 30000.000000 \* RXN-4821, R2L *\ - 0.000000 <= r1793 <= 30000.000000 \* P-PANTOCYSDECARB-RXN, L2R *\ - 0.000000 <= r1794 <= 30000.000000 \* AMPSYN-RXN, L2R *\ - 0.000000 <= r1795 <= 30000.000000 \* RXN0-6994, L2R *\ - 0.000000 <= r1796a <= 30000.000000 \* RXN-7931, L2R *\ - 0.000000 <= r1796b <= 30000.000000 \* RXN-7931, R2L *\ - 0.000000 <= r1797a <= 30000.000000 \* PGLYCEROLTRANSI-RXN, L2R *\ - 0.000000 <= r1797b <= 30000.000000 \* PGLYCEROLTRANSI-RXN, R2L *\ - 0.000000 <= r1798 <= 30000.000000 \* ASPARAGINE--TRNA-LIGASE-RXN-ASN-tRNAs/ASN/ATP/PROTON//Charged-ASN-tRNAs/AMP/PPI.52., L2R *\ - 0.000000 <= r1799 <= 30000.000000 \* RXN-8675, L2R *\ - 0.000000 <= r1800a <= 30000.000000 \* PHOSPHASERSYN-RXN-CPD-12814/SER//CMP/CPD-12816/PROTON.36., L2R *\ - 0.000000 <= r1800b <= 30000.000000 \* PHOSPHASERSYN-RXN-CPD-12814/SER//CMP/CPD-12816/PROTON.36., R2L *\ - 0.000000 <= r1801a <= 30000.000000 \* PHOSPHASERSYN-RXN-CPD-12815/SER//CMP/CPD-12817/PROTON.36., L2R *\ - 0.000000 <= r1801b <= 30000.000000 \* PHOSPHASERSYN-RXN-CPD-12815/SER//CMP/CPD-12817/PROTON.36., R2L *\ - 0.000000 <= r1802 <= 30000.000000 \* BETAGALACTOSID-RXN, L2R *\ - 0.000000 <= r1803 <= 30000.000000 \* RXN-9952, L2R *\ - 0.000000 <= r1804 <= 30000.000000 \* PREPHENATEDEHYDROG-RXN, L2R *\ - 0.000000 <= r1805 <= 30000.000000 \* CHORISMATE-SYNTHASE-RXN, L2R *\ - 0.000000 <= r1806 <= 30000.000000 \* RXN0-901, L2R *\ - 0.000000 <= r1807 <= 30000.000000 \* RXN0-1661, L2R *\ - 0.000000 <= r1808 <= 30000.000000 \* PUTTRANSAM-RXN, L2R *\ - 0.000000 <= r1809a <= 30000.000000 \* DEHYDDEOXPHOSGALACT-ALDOL-RXN, L2R *\ - 0.000000 <= r1809b <= 30000.000000 \* DEHYDDEOXPHOSGALACT-ALDOL-RXN, R2L *\ - 0.000000 <= r1810 <= 30000.000000 \* CYSTEINE-AMINOTRANSFERASE-RXN, L2R *\ - 0.000000 <= r1811a <= 30000.000000 \* SELENOCYSTEINE-LYASE-RXN, L2R *\ - 0.000000 <= r1811b <= 30000.000000 \* SELENOCYSTEINE-LYASE-RXN, R2L *\ - 0.000000 <= r1812 <= 30000.000000 \* RXN0-2161-tRNA-Sec/SER/ATP/PROTON//L-seryl-SEC-tRNAs/AMP/PPI.51., L2R *\ - 0.000000 <= r1813a <= 30000.000000 \* R15-RXN-MET/PYRUVATE//CPD-479/L-ALPHA-ALANINE.38., L2R *\ - 0.000000 <= r1813b <= 30000.000000 \* R15-RXN-MET/PYRUVATE//CPD-479/L-ALPHA-ALANINE.38., R2L *\ - 0.000000 <= r1814a <= 30000.000000 \* R15-RXN-MET/CPD-479//CPD-479/MET.25., L2R *\ - 0.000000 <= r1814b <= 30000.000000 \* R15-RXN-MET/CPD-479//CPD-479/MET.25., R2L *\ - 0.000000 <= r1815a <= 30000.000000 \* R15-RXN-MET/GLYOX//CPD-479/GLY.23., L2R *\ - 0.000000 <= r1815b <= 30000.000000 \* R15-RXN-MET/GLYOX//CPD-479/GLY.23., R2L *\ - 0.000000 <= r1816a <= 30000.000000 \* R15-RXN-MET/2-KETOGLUTARATE//CPD-479/GLT.33., L2R *\ - 0.000000 <= r1816b <= 30000.000000 \* R15-RXN-MET/2-KETOGLUTARATE//CPD-479/GLT.33., R2L *\ - 0.000000 <= r1817a <= 30000.000000 \* DIACYLGLYKIN-RXN, L2R *\ - 0.000000 <= r1817b <= 30000.000000 \* DIACYLGLYKIN-RXN, R2L *\ - 0.000000 <= r1818a <= 30000.000000 \* SUCCINYLDIAMINOPIMTRANS-RXN, L2R *\ - 0.000000 <= r1818b <= 30000.000000 \* SUCCINYLDIAMINOPIMTRANS-RXN, R2L *\ - 0.000000 <= r1819 <= 30000.000000 \* RIBOFLAVINSYNREDUC-RXN, R2L *\ - 0.000000 <= r1820 <= 30000.000000 \* DIOHBUTANONEPSYN-RXN, L2R *\ - 0.000000 <= r1821 <= 30000.000000 \* THIKIN-RXN, L2R *\ - 0.000000 <= r1822 <= 30000.000000 \* RXN0-302, L2R *\ - 0.000000 <= r1823 <= 30000.000000 \* DURIDKI-RXN, L2R *\ - 0.000000 <= r1824 <= 30000.000000 \* RXN0-3521, L2R *\ - 0.000000 <= r1825 <= 30000.000000 \* RXN0-3601, L2R *\ - 0.000000 <= r1826 <= 30000.000000 \* RXN-11574, L2R *\ - 0.000000 <= r1827 <= 30000.000000 \* TRYPSYN-RXN, L2R *\ - 0.000000 <= r1828 <= 30000.000000 \* RXN0-4181, L2R *\ - 0.000000 <= r1829 <= 30000.000000 \* RXN-11637, L2R *\ - 0.000000 <= r1830 <= 30000.000000 \* GALACTONOLACTONASE-RXN, L2R *\ - 0.000000 <= r1831 <= 30000.000000 \* UDPNACETYLGLUCOSAMENOLPYRTRANS-RXN, L2R *\ - 0.000000 <= r1832 <= 30000.000000 \* RXN-11845, L2R *\ - 0.000000 <= r1833 <= 30000.000000 \* GLUC1PADENYLTRANS-RXN, L2R *\ - 0.000000 <= r1834 <= 30000.000000 \* VALINE--TRNA-LIGASE-RXN-VAL-tRNAs/VAL/ATP/PROTON//Charged-VAL-tRNAs/AMP/PPI.52., L2R *\ - 0.000000 <= r1835 <= 30000.000000 \* RXN0-5107, L2R *\ - 0.000000 <= r1836 <= 30000.000000 \* RXN-12198, L2R *\ - 0.000000 <= r1837 <= 30000.000000 \* GLUTAMINE--TRNA-LIGASE-RXN-GLN-tRNAs/GLN/ATP/PROTON//Charged-GLN-tRNAs/AMP/PPI.52., L2R *\ - 0.000000 <= r1838 <= 30000.000000 \* 1PFRUCTPHOSN-RXN, L2R *\ - 0.000000 <= r1839 <= 30000.000000 \* RXN0-5144, L2R *\ - 0.000000 <= r1840 <= 30000.000000 \* RXN-12618, L2R *\ - 0.000000 <= r1841 <= 30000.000000 \* GLYCEROL-2-PHOSPHATASE-RXN[CCO-PERI-BAC]-CPD-536/WATER//GLYCEROL/Pi.41., L2R *\ - 0.000000 <= r1842 <= 30000.000000 \* GLYCEROL-2-PHOSPHATASE-RXN[CCO-CYTOSOL]-CPD-536/WATER//GLYCEROL/Pi.40., L2R *\ - 0.000000 <= r1843 <= 30000.000000 \* 2.3.1.157-RXN, L2R *\ - 0.000000 <= r1844 <= 30000.000000 \* RXN0-5209, L2R *\ - 0.000000 <= r1845 <= 30000.000000 \* RXN-13202, L2R *\ - 0.000000 <= r1846 <= 30000.000000 \* GLYRIBONUCSYN-RXN, L2R *\ - 0.000000 <= r1847 <= 30000.000000 \* 2.8.1.6-RXN, L2R *\ - 0.000000 <= r1848a <= 30000.000000 \* RXN0-5240, L2R *\ - 0.000000 <= r1848b <= 30000.000000 \* RXN0-5240, R2L *\ - 0.000000 <= r1849 <= 30000.000000 \* RXN-14026[CCO-PERI-BAC]-CMP/WATER//CYTIDINE/Pi.37., L2R *\ - 0.000000 <= r1850 <= 30000.000000 \* RXN-14026[CCO-CYTOSOL]-CMP/WATER//CYTIDINE/Pi.36., L2R *\ - 0.000000 <= r1851 <= 30000.000000 \* GUANOSINE-DIPHOSPHATASE-RXN, L2R *\ - 0.000000 <= r1852a <= 30000.000000 \* RXN0-5363, L2R *\ - 0.000000 <= r1852b <= 30000.000000 \* RXN0-5363, R2L *\ - 0.000000 <= r1853 <= 30000.000000 \* RXN-14160, L2R *\ - 0.000000 <= r1854 <= 30000.000000 \* HISTIDINE--TRNA-LIGASE-RXN-HIS-tRNAs/HIS/ATP/PROTON//Charged-HIS-tRNAs/AMP/PPI.52., L2R *\ - 0.000000 <= r1855 <= 30000.000000 \* 3.2.1.17-RXN-C6/WATER//C5/N-ACETYL-D-GLUCOSAMINE.36., L2R *\ - 0.000000 <= r1856 <= 30000.000000 \* RXN0-5410, R2L *\ - 0.000000 <= r1857a <= 30000.000000 \* IMPCYCLOHYDROLASE-RXN, L2R *\ - 0.000000 <= r1857b <= 30000.000000 \* IMPCYCLOHYDROLASE-RXN, R2L *\ - 0.000000 <= r1858a <= 30000.000000 \* RXN-14497, L2R *\ - 0.000000 <= r1858b <= 30000.000000 \* RXN-14497, R2L *\ - 0.000000 <= r1859 <= 30000.000000 \* 4-NITROPHENYLPHOSPHATASE-RXN, L2R *\ - 0.000000 <= r1860 <= 30000.000000 \* RXN0-6427, L2R *\ - 0.000000 <= r1861 <= 30000.000000 \* RXN-14525, L2R *\ - 0.000000 <= r1862 <= 30000.000000 \* LIPIDXSYNTHESIS-RXN, L2R *\ - 0.000000 <= r1863 <= 30000.000000 \* 6PFRUCTPHOS-RXN, L2R *\ - 0.000000 <= r1864a <= 30000.000000 \* RXN-14850, L2R *\ - 0.000000 <= r1864b <= 30000.000000 \* RXN-14850, R2L *\ - 0.000000 <= r1865a <= 30000.000000 \* ACETYL-COA-ACETYLTRANSFER-RXN, L2R *\ - 0.000000 <= r1865b <= 30000.000000 \* ACETYL-COA-ACETYLTRANSFER-RXN, R2L *\ - 0.000000 <= r1866 <= 30000.000000 \* RXN-15139, L2R *\ - 0.000000 <= r1867a <= 30000.000000 \* METHYLMALONYL-COA-MUT-RXN, L2R *\ - 0.000000 <= r1867b <= 30000.000000 \* METHYLMALONYL-COA-MUT-RXN, R2L *\ - 0.000000 <= r1868a <= 30000.000000 \* ADCLY-RXN, L2R *\ - 0.000000 <= r1868b <= 30000.000000 \* ADCLY-RXN, R2L *\ - 0.000000 <= r1869 <= 30000.000000 \* RXN0-6564, L2R *\ - 0.000000 <= r1870 <= 30000.000000 \* RXN-15348, L2R *\ - 0.000000 <= r1871 <= 30000.000000 \* NAG1P-URIDYLTRANS-RXN, L2R *\ - 0.000000 <= r1872a <= 30000.000000 \* AICARTRANSFORM-RXN-10-FORMYL-THF/AICAR//THF/PHOSPHORIBOSYL-FORMAMIDO-CARBOXAMIDE.62., L2R *\ - 0.000000 <= r1872b <= 30000.000000 \* AICARTRANSFORM-RXN-10-FORMYL-THF/AICAR//THF/PHOSPHORIBOSYL-FORMAMIDO-CARBOXAMIDE.62., R2L *\ - 0.000000 <= r1873 <= 30000.000000 \* RXN0-6731, L2R *\ - 0.000000 <= r1874a <= 30000.000000 \* RXN-16225, L2R *\ - 0.000000 <= r1874b <= 30000.000000 \* RXN-16225, R2L *\ - 0.000000 <= r1875 <= 30000.000000 \* OCTAPRENYL-METHYL-METHOXY-BENZOQ-OH-RXN, L2R *\ - 0.000000 <= r1876 <= 30000.000000 \* ALLOSE-KINASE-RXN, L2R *\ - 0.000000 <= r1877 <= 30000.000000 \* RXN0-6977, L2R *\ - 0.000000 <= r1878 <= 30000.000000 \* RXN-5841, L2R *\ - 0.000000 <= r1879 <= 30000.000000 \* PANTEPADENYLYLTRAN-RXN, L2R *\ - 0.000000 <= r1880a <= 30000.000000 \* ARABISOM-RXN-ARABINOSE//L-RIBULOSE.22., L2R *\ - 0.000000 <= r1880b <= 30000.000000 \* ARABISOM-RXN-ARABINOSE//L-RIBULOSE.22., R2L *\ - 0.000000 <= r1881 <= 30000.000000 \* RXN0-7000, L2R *\ - 0.000000 <= r1882 <= 30000.000000 \* RXN-7968-SHIKIMATE/NAD//3-DEHYDRO-SHIKIMATE/NADH/PROTON.47., R2L *\ - 0.000000 <= r1883 <= 30000.000000 \* RXN-7968-SHIKIMATE/NADP//3-DEHYDRO-SHIKIMATE/NADPH/PROTON.49., R2L *\ - 0.000000 <= r1884a <= 30000.000000 \* PHEAMINOTRANS-RXN, L2R *\ - 0.000000 <= r1884b <= 30000.000000 \* PHEAMINOTRANS-RXN, R2L *\ - 0.000000 <= r1885a <= 30000.000000 \* ASPARTATE-SEMIALDEHYDE-DEHYDROGENASE-RXN, L2R *\ - 0.000000 <= r1885b <= 30000.000000 \* ASPARTATE-SEMIALDEHYDE-DEHYDROGENASE-RXN, R2L *\ - 0.000000 <= r1886 <= 30000.000000 \* RXN0-704, L2R *\ - 0.000000 <= r1887 <= 30000.000000 \* RXN-8974, R2L *\ - 0.000000 <= r1888 <= 30000.000000 \* PHOSPHOGLYCERATE-PHOSPHATASE-RXN, L2R *\ - 0.000000 <= r1889a <= 30000.000000 \* BRANCHED-CHAINAMINOTRANSFERVAL-RXN, L2R *\ - 0.000000 <= r1889b <= 30000.000000 \* BRANCHED-CHAINAMINOTRANSFERVAL-RXN, R2L *\ - 0.000000 <= r1890a <= 30000.000000 \* RXN0-7092, L2R *\ - 0.000000 <= r1890b <= 30000.000000 \* RXN0-7092, R2L *\ - 0.000000 <= r1891 <= 30000.000000 \* RXN0-1081, L2R *\ - 0.000000 <= r1892 <= 30000.000000 \* PROLINE-MULTI, L2R *\ - 0.000000 <= r1893 <= 30000.000000 \* CITRATE-PRO-3S-LYASE-THIOLESTERASE-RXN-CITRATE-LYASE/WATER//HOLO-CITRATE-LYASE/ACET/PROTON.52., L2R *\ - 0.000000 <= r1894a <= 30000.000000 \* RXN0-963, L2R *\ - 0.000000 <= r1894b <= 30000.000000 \* RXN0-963, R2L *\ - 0.000000 <= r1895 <= 30000.000000 \* RXN0-1862-UDP-4-AMINO-4-DEOXY-L-ARABINOSE/10-FORMYL-THF//UDP-L-ARA4-FORMYL-N/THF/PROTON.78., L2R *\ - 0.000000 <= r1896 <= 30000.000000 \* PYRIDOXKIN-RXN, L2R *\ - 0.000000 <= r1897a <= 30000.000000 \* DEOXYGUANPHOSPHOR-RXN, L2R *\ - 0.000000 <= r1897b <= 30000.000000 \* DEOXYGUANPHOSPHOR-RXN, R2L *\ - 0.000000 <= r1898 <= 30000.000000 \* CYTIDEAM2-RXN, L2R *\ - 0.000000 <= r1899a <= 30000.000000 \* SHIKIMATE-5-DEHYDROGENASE-RXN, L2R *\ - 0.000000 <= r1899b <= 30000.000000 \* SHIKIMATE-5-DEHYDROGENASE-RXN, R2L *\ - 0.000000 <= r1900a <= 30000.000000 \* RXN0-2301-ISOVALERYL-COA/ETF-Oxidized/PROTON//3-METHYL-CROTONYL-COA/ETF-Reduced.70., L2R *\ - 0.000000 <= r1900b <= 30000.000000 \* RXN0-2301-ISOVALERYL-COA/ETF-Oxidized/PROTON//3-METHYL-CROTONYL-COA/ETF-Reduced.70., R2L *\ - 0.000000 <= r1901a <= 30000.000000 \* DIAMINOPIMEPIM-RXN, L2R *\ - 0.000000 <= r1901b <= 30000.000000 \* DIAMINOPIMEPIM-RXN, R2L *\ - 0.000000 <= r1902 <= 30000.000000 \* SUGAR-PHOSPHATASE-RXN-CPD-16502/WATER//CPD-16501/Pi.30., L2R *\ - 0.000000 <= r1903 <= 30000.000000 \* SUGAR-PHOSPHATASE-RXN-CPD0-1286/WATER//CPD0-1114/Pi.30., L2R *\ - 0.000000 <= r1904 <= 30000.000000 \* SUGAR-PHOSPHATASE-RXN-ERYTHROSE-4P/WATER//ERYTHROSE/Pi.33., L2R *\ - 0.000000 <= r1905 <= 30000.000000 \* RXN0-271-NADPH/CPD-9728/PROTON//NADP/REDUCED-MENAQUINONE.48., L2R *\ - 0.000000 <= r1906 <= 30000.000000 \* RXN0-271-NADPH/UBIQUINONE-8/PROTON//NADP/CPD-9956.41., L2R *\ - 0.000000 <= r1907 <= 30000.000000 \* RIBOSYLHOMOCYSTEINASE-RXN, L2R *\ - 0.000000 <= r1908 <= 30000.000000 \* DMK-RXN, L2R *\ - 0.000000 <= r1909 <= 30000.000000 \* THREDEHYD-RXN, L2R *\ - 0.000000 <= r1910a <= 30000.000000 \* RXN0-305, L2R *\ - 0.000000 <= r1910b <= 30000.000000 \* RXN0-305, R2L *\ - 0.000000 <= r1911a <= 30000.000000 \* RXN-10856, L2R *\ - 0.000000 <= r1911b <= 30000.000000 \* RXN-10856, R2L *\ - 0.000000 <= r1912 <= 30000.000000 \* DXS-RXN, L2R *\ - 0.000000 <= r1913 <= 30000.000000 \* TRANSENOYLCOARED-RXN-BUTYRYL-COA/NADP//CROTONYL-COA/NADPH/PROTON.44., L2R *\ - 0.000000 <= r1914 <= 30000.000000 \* TRANSENOYLCOARED-RXN-PALMITYL-COA/NADP//CPD0-2117/NADPH/PROTON.42., L2R *\ - 0.000000 <= r1915 <= 30000.000000 \* TRANSENOYLCOARED-RXN-STEAROYL-COA/NADP//CPD-10262/NADPH/PROTON.42., L2R *\ - 0.000000 <= r1916 <= 30000.000000 \* TRANSENOYLCOARED-RXN-LAUROYLCOA-CPD/NADP//CPD-7222/NADPH/PROTON.43., L2R *\ - 0.000000 <= r1917 <= 30000.000000 \* TRANSENOYLCOARED-RXN-CPD-10267/NADP//T2-DECENOYL-COA/NADPH/PROTON.45., L2R *\ - 0.000000 <= r1918 <= 30000.000000 \* TRANSENOYLCOARED-RXN-CPD-196/NADP//CPD0-2108/NADPH/PROTON.37., L2R *\ - 0.000000 <= r1919 <= 30000.000000 \* TRANSENOYLCOARED-RXN-HEXANOYL-COA/NADP//CPD0-2121/NADPH/PROTON.42., L2R *\ - 0.000000 <= r1920 <= 30000.000000 \* RXN0-3741[CCO-PERI-BAC]-DAMP/WATER//DEOXYADENOSINE/Pi.44., L2R *\ - 0.000000 <= r1921 <= 30000.000000 \* RXN0-3741[CCO-CYTOSOL]-DAMP/WATER//DEOXYADENOSINE/Pi.43., L2R *\ - 0.000000 <= r1922 <= 30000.000000 \* RXN0-3741[CCO-PERI-BAC]-DIMP/WATER//DEOXYINOSINE/Pi.42., L2R *\ - 0.000000 <= r1923 <= 30000.000000 \* RXN0-3741[CCO-CYTOSOL]-DIMP/WATER//DEOXYINOSINE/Pi.41., L2R *\ - 0.000000 <= r1924 <= 30000.000000 \* RXN0-3741[CCO-PERI-BAC]-DUMP/WATER//DEOXYURIDINE/Pi.42., L2R *\ - 0.000000 <= r1925 <= 30000.000000 \* RXN0-3741[CCO-CYTOSOL]-DUMP/WATER//DEOXYURIDINE/Pi.41., L2R *\ - 0.000000 <= r1926 <= 30000.000000 \* RXN0-3741[CCO-PERI-BAC]-DCMP/WATER//DEOXYCYTIDINE/Pi.43., L2R *\ - 0.000000 <= r1927 <= 30000.000000 \* RXN0-3741[CCO-CYTOSOL]-DCMP/WATER//DEOXYCYTIDINE/Pi.42., L2R *\ - 0.000000 <= r1928 <= 30000.000000 \* RXN0-3741[CCO-PERI-BAC]-TMP/WATER//THYMIDINE/Pi.38., L2R *\ - 0.000000 <= r1929 <= 30000.000000 \* RXN0-3741[CCO-CYTOSOL]-TMP/WATER//THYMIDINE/Pi.37., L2R *\ - 0.000000 <= r1930 <= 30000.000000 \* RXN-11586, L2R *\ - 0.000000 <= r1931 <= 30000.000000 \* FPPSYN-RXN, L2R *\ - 0.000000 <= r1932 <= 30000.000000 \* TSA-REDUCT-RXN-GLYCERATE/NAD//TARTRONATE-S-ALD/NADH/PROTON.44., R2L *\ - 0.000000 <= r1933 <= 30000.000000 \* TSA-REDUCT-RXN-GLYCERATE/NADP//TARTRONATE-S-ALD/NADPH/PROTON.46., R2L *\ - 0.000000 <= r1934a <= 30000.000000 \* RXN-11811, L2R *\ - 0.000000 <= r1934b <= 30000.000000 \* RXN-11811, R2L *\ - 0.000000 <= r1935a <= 30000.000000 \* GALPMUT-RXN, L2R *\ - 0.000000 <= r1935b <= 30000.000000 \* GALPMUT-RXN, R2L *\ - 0.000000 <= r1936 <= 30000.000000 \* UGD-RXN, L2R *\ - 0.000000 <= r1937 <= 30000.000000 \* RXN0-5040, L2R *\ - 0.000000 <= r1938 <= 30000.000000 \* RXN-11866, L2R *\ - 0.000000 <= r1939 <= 30000.000000 \* GLUCDEHYDROG-RXN-GLC/UBIQUINONE-8//GLC-D-LACTONE/CPD-9956.41., L2R *\ - 0.000000 <= r1940 <= 30000.000000 \* XANTHOSINEPHOSPHORY-RXN, L2R *\ - 0.000000 <= r1941 <= 30000.000000 \* 1.1.1.215-RXN, R2L *\ - 0.000000 <= r1942 <= 30000.000000 \* RXN0-5116, L2R *\ - 0.000000 <= r1943 <= 30000.000000 \* RXN-12353, L2R *\ - 0.000000 <= r1944 <= 30000.000000 \* GLUTATHIONE-REDUCT-NADPH-RXN, R2L *\ - 0.000000 <= r1945 <= 30000.000000 \* 2-ISOPROPYLMALATESYN-RXN, L2R *\ - 0.000000 <= r1946a <= 30000.000000 \* RXN0-5182, L2R *\ - 0.000000 <= r1946b <= 30000.000000 \* RXN0-5182, R2L *\ - 0.000000 <= r1947 <= 30000.000000 \* RXN-12754, L2R *\ - 0.000000 <= r1948a <= 30000.000000 \* 2.5.1.19-RXN, L2R *\ - 0.000000 <= r1948b <= 30000.000000 \* 2.5.1.19-RXN, R2L *\ - 0.000000 <= r1949 <= 30000.000000 \* RXN0-5214, L2R *\ - 0.000000 <= r1950 <= 30000.000000 \* RXN-13418, L2R *\ - 0.000000 <= r1951 <= 30000.000000 \* GMP-SYN-GLUT-RXN, L2R *\ - 0.000000 <= r1952a <= 30000.000000 \* 2PGADEHYDRAT-RXN, L2R *\ - 0.000000 <= r1952b <= 30000.000000 \* 2PGADEHYDRAT-RXN, R2L *\ - 0.000000 <= r1953a <= 30000.000000 \* RXN0-5291, L2R *\ - 0.000000 <= r1953b <= 30000.000000 \* RXN0-5291, R2L *\ - 0.000000 <= r1954 <= 30000.000000 \* RXN-14074, L2R *\ - 0.000000 <= r1955 <= 30000.000000 \* GUANYL-KIN-RXN, L2R *\ - 0.000000 <= r1956 <= 30000.000000 \* RXN-14188, L2R *\ - 0.000000 <= r1957 <= 30000.000000 \* HISTPRATPHYD-RXN, L2R *\ - 0.000000 <= r1958 <= 30000.000000 \* RXN0-5418, L2R *\ - 0.000000 <= r1959 <= 30000.000000 \* RXN-14382, L2R *\ - 0.000000 <= r1960 <= 30000.000000 \* INOSINE-NUCLEOSIDASE-RXN, L2R *\ - 0.000000 <= r1961a <= 30000.000000 \* RXN-14503, L2R *\ - 0.000000 <= r1961b <= 30000.000000 \* RXN-14503, R2L *\ - 0.000000 <= r1962 <= 30000.000000 \* KETOACYLCOATHIOL-RXN-BUTYRYL-COA/ACETYL-COA//K-HEXANOYL-COA/CO-A.44., R2L *\ - 0.000000 <= r1963 <= 30000.000000 \* KETOACYLCOATHIOL-RXN-HEXANOYL-COA/ACETYL-COA//CPD0-2106/CO-A.40., R2L *\ - 0.000000 <= r1964 <= 30000.000000 \* KETOACYLCOATHIOL-RXN-CPD-196/ACETYL-COA//CPD0-2123/CO-A.35., R2L *\ - 0.000000 <= r1965 <= 30000.000000 \* KETOACYLCOATHIOL-RXN-CPD-10267/ACETYL-COA//CPD0-2105/CO-A.37., R2L *\ - 0.000000 <= r1966 <= 30000.000000 \* KETOACYLCOATHIOL-RXN-LAUROYLCOA-CPD/ACETYL-COA//CPD-10284/CO-A.42., R2L *\ - 0.000000 <= r1967 <= 30000.000000 \* KETOACYLCOATHIOL-RXN-TETRADECANOYL-COA/ACETYL-COA//3-OXOPALMITOYL-COA/CO-A.54., R2L *\ - 0.000000 <= r1968 <= 30000.000000 \* KETOACYLCOATHIOL-RXN-PALMITYL-COA/ACETYL-COA//CPD-10260/CO-A.40., R2L *\ - 0.000000 <= r1969 <= 30000.000000 \* KETOACYLCOATHIOL-RXN-STEAROYL-COA/ACETYL-COA//POLYMER-INST-3-KETOACYL-COA-C16-H32/CO-A.66., R2L *\ - 0.000000 <= r1970 <= 30000.000000 \* KETOACYLCOATHIOL-RXN-CPD-9965/ACETYL-COA//POLYMER-INST-3-KETOACYL-COA-C18-H36/CO-A.62., R2L *\ - 0.000000 <= r1971 <= 30000.000000 \* RXN0-6450, L2R *\ - 0.000000 <= r1972a <= 30000.000000 \* RXN-14693, L2R *\ - 0.000000 <= r1972b <= 30000.000000 \* RXN-14693, R2L *\ - 0.000000 <= r1973 <= 30000.000000 \* LUMAZINESYN-RXN, L2R *\ - 0.000000 <= r1974a <= 30000.000000 \* 7-ALPHA-HYDROXYSTEROID-DEH-RXN, L2R *\ - 0.000000 <= r1974b <= 30000.000000 \* 7-ALPHA-HYDROXYSTEROID-DEH-RXN, R2L *\ - 0.000000 <= r1975a <= 30000.000000 \* RXN-14904, L2R *\ - 0.000000 <= r1975b <= 30000.000000 \* RXN-14904, R2L *\ - 0.000000 <= r1976a <= 30000.000000 \* MANNONOXIDOREDUCT-RXN-D-MANNONATE/NAD//CPD-12537/NADH/PROTON.39., L2R *\ - 0.000000 <= r1976b <= 30000.000000 \* MANNONOXIDOREDUCT-RXN-D-MANNONATE/NAD//CPD-12537/NADH/PROTON.39., R2L *\ - 0.000000 <= r1977 <= 30000.000000 \* ACETYLGLUTKIN-RXN, L2R *\ - 0.000000 <= r1978 <= 30000.000000 \* RXN-15210, L2R *\ - 0.000000 <= r1979a <= 30000.000000 \* MHPELY-RXN, L2R *\ - 0.000000 <= r1979b <= 30000.000000 \* MHPELY-RXN, R2L *\ - 0.000000 <= r1980 <= 30000.000000 \* ADENODEAMIN-RXN, L2R *\ - 0.000000 <= r1981 <= 30000.000000 \* RXN0-6576, L2R *\ - 0.000000 <= r1982 <= 30000.000000 \* RXN-15578, L2R *\ - 0.000000 <= r1983 <= 30000.000000 \* NANK-RXN-N-ACETYL-D-MANNOSAMINE/ATP//N-ACETYL-D-MANNOSAMINE-6P/ADP/PROTON.65., L2R *\ - 0.000000 <= r1984 <= 30000.000000 \* RXN0-6734, L2R *\ - 0.000000 <= r1985a <= 30000.000000 \* RXN-16286, L2R *\ - 0.000000 <= r1985b <= 30000.000000 \* RXN-16286, R2L *\ - 0.000000 <= r1986 <= 30000.000000 \* OHMETHYLBILANESYN-RXN, L2R *\ - 0.000000 <= r1987a <= 30000.000000 \* ALTRO-OXIDOREDUCT-RXN, L2R *\ - 0.000000 <= r1987b <= 30000.000000 \* ALTRO-OXIDOREDUCT-RXN, R2L *\ - 0.000000 <= r1988 <= 30000.000000 \* RXN0-6980, L2R *\ - 0.000000 <= r1989a <= 30000.000000 \* RXN-6321-5-10-METHENYL-THF/WATER//5-FORMYL-THF/PROTON.45., L2R *\ - 0.000000 <= r1989b <= 30000.000000 \* RXN-6321-5-10-METHENYL-THF/WATER//5-FORMYL-THF/PROTON.45., R2L *\ - 0.000000 <= r1990 <= 30000.000000 \* PDXJ-RXN, L2R *\ - 0.000000 <= r1991 <= 30000.000000 \* ARGDECARBOX-RXN[CCO-PERI-BAC]-ARG/PROTON//CARBON-DIOXIDE/AGMATHINE.51., L2R *\ - 0.000000 <= r1992 <= 30000.000000 \* ARGDECARBOX-RXN[CCO-CYTOSOL]-ARG/PROTON//CARBON-DIOXIDE/AGMATHINE.50., L2R *\ - 0.000000 <= r1993 <= 30000.000000 \* RXN-8340, L2R *\ - 0.000000 <= r1994 <= 30000.000000 \* PHENYLALANINE--TRNA-LIGASE-RXN-PHE-tRNAs/PHE/ATP/PROTON//Charged-PHE-tRNAs/AMP/PPI.52., L2R *\ - 0.000000 <= r1995 <= 30000.000000 \* ASPDECARBOX-RXN, L2R *\ - 0.000000 <= r1996 <= 30000.000000 \* RXN0-705, L2R *\ - 0.000000 <= r1997a <= 30000.000000 \* RXN-8999, L2R *\ - 0.000000 <= r1997b <= 30000.000000 \* RXN-8999, R2L *\ - 0.000000 <= r1998a <= 30000.000000 \* PNP-RXN-ADENOSINE/Pi//ADENINE/RIBOSE-1P.32., L2R *\ - 0.000000 <= r1998b <= 30000.000000 \* PNP-RXN-ADENOSINE/Pi//ADENINE/RIBOSE-1P.32., R2L *\ - 0.000000 <= r1999a <= 30000.000000 \* PNP-RXN-GUANOSINE/Pi//GUANINE/RIBOSE-1P.32., L2R *\ - 0.000000 <= r1999b <= 30000.000000 \* PNP-RXN-GUANOSINE/Pi//GUANINE/RIBOSE-1P.32., R2L *\ - 0.000000 <= r2000a <= 30000.000000 \* PNP-RXN-INOSINE/Pi//HYPOXANTHINE/RIBOSE-1P.35., L2R *\ - 0.000000 <= r2000b <= 30000.000000 \* PNP-RXN-INOSINE/Pi//HYPOXANTHINE/RIBOSE-1P.35., R2L *\ - 0.000000 <= r2001 <= 30000.000000 \* CARBOXYLESTERASE-RXN, L2R *\ - 0.000000 <= r2002 <= 30000.000000 \* RXN0-1321, L2R *\ - 0.000000 <= r2003a <= 30000.000000 \* PROPKIN-RXN, L2R *\ - 0.000000 <= r2003b <= 30000.000000 \* PROPKIN-RXN, R2L *\ - 0.000000 <= r2004a <= 30000.000000 \* DAPASYN-RXN, L2R *\ - 0.000000 <= r2004b <= 30000.000000 \* DAPASYN-RXN, R2L *\ - 0.000000 <= r2005 <= 30000.000000 \* COBALAMIN5PSYN-RXN, L2R *\ - 0.000000 <= r2006 <= 30000.000000 \* RXN0-986, L2R *\ - 0.000000 <= r2007a <= 30000.000000 \* PYRNUTRANSHYDROGEN-RXN, L2R *\ - 0.000000 <= r2007b <= 30000.000000 \* PYRNUTRANSHYDROGEN-RXN, R2L *\ - 0.000000 <= r2008a <= 30000.000000 \* D--TARTRATE-DEHYDRATASE-RXN, L2R *\ - 0.000000 <= r2008b <= 30000.000000 \* D--TARTRATE-DEHYDRATASE-RXN, R2L *\ - 0.000000 <= r2009a <= 30000.000000 \* SORB6PDEHYDROG-RXN, L2R *\ - 0.000000 <= r2009b <= 30000.000000 \* SORB6PDEHYDROG-RXN, R2L *\ - 0.000000 <= r2010 <= 30000.000000 \* RXN0-2382, L2R *\ - 0.000000 <= r2011 <= 30000.000000 \* R621-RXN-NITRIC-OXIDE/NADH/OXYGEN-MOLECULE//NITRATE/NAD/PROTON.54., L2R *\ - 0.000000 <= r2012 <= 30000.000000 \* R621-RXN-NITRIC-OXIDE/NADPH/OXYGEN-MOLECULE//NITRATE/NADP/PROTON.56., L2R *\ - 0.000000 <= r2013 <= 30000.000000 \* SUPEROX-DISMUT-RXN[CCO-CYTOSOL]-SUPER-OXIDE/PROTON//HYDROGEN-PEROXIDE/OXYGEN-MOLECULE.67., L2R *\ - 0.000000 <= r2014 <= 30000.000000 \* SUPEROX-DISMUT-RXN[CCO-PERI-BAC]-SUPER-OXIDE/PROTON//HYDROGEN-PEROXIDE/OXYGEN-MOLECULE.68., L2R *\ - 0.000000 <= r2015a <= 30000.000000 \* RXN0-279, L2R *\ - 0.000000 <= r2015b <= 30000.000000 \* RXN0-279, R2L *\ - 0.000000 <= r2016a <= 30000.000000 \* RIBULP3EPIM-RXN, L2R *\ - 0.000000 <= r2016b <= 30000.000000 \* RIBULP3EPIM-RXN, R2L *\ - 0.000000 <= r2017 <= 30000.000000 \* THREONINE-ALDOLASE-RXN, L2R *\ - 0.000000 <= r2018 <= 30000.000000 \* RXN-11109, L2R *\ - 0.000000 <= r2019 <= 30000.000000 \* ENTDB-RXN-Apo-EntB/CO-A//Holo-EntB/3-5-ADP/PROTON.40., L2R *\ - 0.000000 <= r2020 <= 30000.000000 \* TREHALOSE6PSYN-RXN, L2R *\ - 0.000000 <= r2021 <= 30000.000000 \* RXN0-384, L2R *\ - 0.000000 <= r2022 <= 30000.000000 \* RXN-11591, L2R *\ - 0.000000 <= r2023a <= 30000.000000 \* FUCISOM-RXN, L2R *\ - 0.000000 <= r2023b <= 30000.000000 \* FUCISOM-RXN, R2L *\ - 0.000000 <= r2024 <= 30000.000000 \* UDP-NACMUR-ALA-LIG-RXN, L2R *\ - 0.000000 <= r2025 <= 30000.000000 \* RXN0-4341, L2R *\ - 0.000000 <= r2026 <= 30000.000000 \* RXN-11834, L2R *\ - 0.000000 <= r2027 <= 30000.000000 \* GARTRANSFORMYL2-RXN, L2R *\ - 0.000000 <= r2028 <= 30000.000000 \* URACIL-PRIBOSYLTRANS-RXN, R2L *\ - 0.000000 <= r2029a <= 30000.000000 \* RXN0-5057, L2R *\ - 0.000000 <= r2029b <= 30000.000000 \* RXN0-5057, R2L *\ - 0.000000 <= r2030 <= 30000.000000 \* RXN-12070, L2R *\ - 0.000000 <= r2031 <= 30000.000000 \* GLUCONOKIN-RXN, L2R *\ - 0.000000 <= r2032 <= 30000.000000 \* XYLULOKIN-RXN, L2R *\ - 0.000000 <= r2033 <= 30000.000000 \* 1.1.1.271-RXN, R2L *\ - 0.000000 <= r2034 <= 30000.000000 \* RXN0-5121, L2R *\ - 0.000000 <= r2035a <= 30000.000000 \* RXN-12445-CPD-316/NAD//RIBOFLAVIN/NADH/PROTON.36., L2R *\ - 0.000000 <= r2035b <= 30000.000000 \* RXN-12445-CPD-316/NAD//RIBOFLAVIN/NADH/PROTON.36., R2L *\ - 0.000000 <= r2036a <= 30000.000000 \* RXN-12445-CPD-316/NADP//RIBOFLAVIN/NADPH/PROTON.38., L2R *\ - 0.000000 <= r2036b <= 30000.000000 \* RXN-12445-CPD-316/NADP//RIBOFLAVIN/NADPH/PROTON.38., R2L *\ - 0.000000 <= r2037 <= 30000.000000 \* GLUTDECARBOX-RXN, L2R *\ - 0.000000 <= r2038 <= 30000.000000 \* 2-OCTAPRENYL-6-METHOXYPHENOL-HYDROX-RXN, L2R *\ - 0.000000 <= r2039 <= 30000.000000 \* RXN0-5185, L2R *\ - 0.000000 <= r2040 <= 30000.000000 \* RXN-12862, L2R *\ - 0.000000 <= r2041a <= 30000.000000 \* GLYCOLALDREDUCT-RXN, L2R *\ - 0.000000 <= r2041b <= 30000.000000 \* GLYCOLALDREDUCT-RXN, R2L *\ - 0.000000 <= r2042a <= 30000.000000 \* RXN0-5220, L2R *\ - 0.000000 <= r2042b <= 30000.000000 \* RXN0-5220, R2L *\ - 0.000000 <= r2043a <= 30000.000000 \* RXN-13463, L2R *\ - 0.000000 <= r2043b <= 30000.000000 \* RXN-13463, R2L *\ - 0.000000 <= r2044 <= 30000.000000 \* GPPSYN-RXN, L2R *\ - 0.000000 <= r2045a <= 30000.000000 \* 3-DEHYDROQUINATE-DEHYDRATASE-RXN, L2R *\ - 0.000000 <= r2045b <= 30000.000000 \* 3-DEHYDROQUINATE-DEHYDRATASE-RXN, R2L *\ - 0.000000 <= r2046 <= 30000.000000 \* RXN0-5295, L2R *\ - 0.000000 <= r2047 <= 30000.000000 \* RXN-14112, L2R *\ - 0.000000 <= r2048 <= 30000.000000 \* H2NEOPTERINP3PYROPHOSPHOHYDRO-RXN, L2R *\ - 0.000000 <= r2049 <= 30000.000000 \* RXN0-5390, L2R *\ - 0.000000 <= r2050a <= 30000.000000 \* RXN-14260, L2R *\ - 0.000000 <= r2050b <= 30000.000000 \* RXN-14260, R2L *\ - 0.000000 <= r2051 <= 30000.000000 \* HOMOCYSTEINE-S-METHYLTRANSFERASE-RXN, L2R *\ - 0.000000 <= r2052 <= 30000.000000 \* RXN-14396, L2R *\ - 0.000000 <= r2053 <= 30000.000000 \* ISOCHORMAT-RXN, L2R *\ - 0.000000 <= r2054 <= 30000.000000 \* RXN0-6359-Sulfurated-Sulfur-Acceptors/HCN//Unsulfurated-Sulfur-Acceptors/HSCN/PROTON.75., L2R *\ - 0.000000 <= r2055 <= 30000.000000 \* RXN-14510, L2R *\ - 0.000000 <= r2056a <= 30000.000000 \* L-GLN-FRUCT-6-P-AMINOTRANS-RXN-FRUCTOSE-6P/GLN//CPD-13469/GLT.31., L2R *\ - 0.000000 <= r2056b <= 30000.000000 \* L-GLN-FRUCT-6-P-AMINOTRANS-RXN-FRUCTOSE-6P/GLN//CPD-13469/GLT.31., R2L *\ - 0.000000 <= r2057 <= 30000.000000 \* 4OHBENZOATE-OCTAPRENYLTRANSFER-RXN, L2R *\ - 0.000000 <= r2058a <= 30000.000000 \* RXN-14753-CPD-12523//CPD-15633.21., L2R *\ - 0.000000 <= r2058b <= 30000.000000 \* RXN-14753-CPD-12523//CPD-15633.21., R2L *\ - 0.000000 <= r2059 <= 30000.000000 \* LYSINE--TRNA-LIGASE-RXN-LYS/LYS-tRNAs/ATP/PROTON//Charged-LYS-tRNAs/AMP/PPI.52., L2R *\ - 0.000000 <= r2060a <= 30000.000000 \* ACECOATRANS-RXN-BUTYRYL-COA/ACET//BUTYRIC_ACID/ACETYL-COA.42., L2R *\ - 0.000000 <= r2060b <= 30000.000000 \* ACECOATRANS-RXN-BUTYRYL-COA/ACET//BUTYRIC_ACID/ACETYL-COA.42., R2L *\ - 0.000000 <= r2061a <= 30000.000000 \* ACECOATRANS-RXN-TETRADECANOYL-COA/ACET//CPD-7836/ACETYL-COA.44., L2R *\ - 0.000000 <= r2061b <= 30000.000000 \* ACECOATRANS-RXN-TETRADECANOYL-COA/ACET//CPD-7836/ACETYL-COA.44., R2L *\ - 0.000000 <= r2062a <= 30000.000000 \* ACECOATRANS-RXN-PALMITYL-COA/ACET//PALMITATE/ACETYL-COA.40., L2R *\ - 0.000000 <= r2062b <= 30000.000000 \* ACECOATRANS-RXN-PALMITYL-COA/ACET//PALMITATE/ACETYL-COA.40., R2L *\ - 0.000000 <= r2063a <= 30000.000000 \* ACECOATRANS-RXN-STEAROYL-COA/ACET//STEARIC_ACID/ACETYL-COA.43., L2R *\ - 0.000000 <= r2063b <= 30000.000000 \* ACECOATRANS-RXN-STEAROYL-COA/ACET//STEARIC_ACID/ACETYL-COA.43., R2L *\ - 0.000000 <= r2064a <= 30000.000000 \* ACECOATRANS-RXN-LAUROYLCOA-CPD/ACET//DODECANOATE/ACETYL-COA.44., L2R *\ - 0.000000 <= r2064b <= 30000.000000 \* ACECOATRANS-RXN-LAUROYLCOA-CPD/ACET//DODECANOATE/ACETYL-COA.44., R2L *\ - 0.000000 <= r2065a <= 30000.000000 \* ACECOATRANS-RXN-CPD-10267/ACET//CPD-3617/ACETYL-COA.36., L2R *\ - 0.000000 <= r2065b <= 30000.000000 \* ACECOATRANS-RXN-CPD-10267/ACET//CPD-3617/ACETYL-COA.36., R2L *\ - 0.000000 <= r2066a <= 30000.000000 \* ACECOATRANS-RXN-CPD-196/ACET//CPD-195/ACETYL-COA.33., L2R *\ - 0.000000 <= r2066b <= 30000.000000 \* ACECOATRANS-RXN-CPD-196/ACET//CPD-195/ACETYL-COA.33., R2L *\ - 0.000000 <= r2067a <= 30000.000000 \* ACECOATRANS-RXN-HEXANOYL-COA/ACET//HEXANOATE/ACETYL-COA.40., L2R *\ - 0.000000 <= r2067b <= 30000.000000 \* ACECOATRANS-RXN-HEXANOYL-COA/ACET//HEXANOATE/ACETYL-COA.40., R2L *\ - 0.000000 <= r2068 <= 30000.000000 \* RXN-15041, L2R *\ - 0.000000 <= r2069a <= 30000.000000 \* MANNPISOM-RXN, L2R *\ - 0.000000 <= r2069b <= 30000.000000 \* MANNPISOM-RXN, R2L *\ - 0.000000 <= r2070 <= 30000.000000 \* ACID-PHOSPHATASE-RXN, L2R *\ - 0.000000 <= r2071 <= 30000.000000 \* RXN-15293, L2R *\ - 0.000000 <= r2072a <= 30000.000000 \* N-ACETYLGLUCOSAMINE-KINASE-RXN-N-ACETYL-D-GLUCOSAMINE/ATP//CPD-16168/ADP/PROTON.49., L2R *\ - 0.000000 <= r2072b <= 30000.000000 \* N-ACETYLGLUCOSAMINE-KINASE-RXN-N-ACETYL-D-GLUCOSAMINE/ATP//CPD-16168/ADP/PROTON.49., R2L *\ - 0.000000 <= r2073a <= 30000.000000 \* ADENPHOSPHOR-RXN, L2R *\ - 0.000000 <= r2073b <= 30000.000000 \* ADENPHOSPHOR-RXN, R2L *\ - 0.000000 <= r2074 <= 30000.000000 \* RXN0-6677, L2R *\ - 0.000000 <= r2075a <= 30000.000000 \* RXN-15743, L2R *\ - 0.000000 <= r2075b <= 30000.000000 \* RXN-15743, R2L *\ - 0.000000 <= r2076 <= 30000.000000 \* NICOTINAMID-RXN, L2R *\ - 0.000000 <= r2077a <= 30000.000000 \* ALARACECAT-RXN, L2R *\ - 0.000000 <= r2077b <= 30000.000000 \* ALARACECAT-RXN, R2L *\ - 0.000000 <= r2078a <= 30000.000000 \* RXN0-6944, L2R *\ - 0.000000 <= r2078b <= 30000.000000 \* RXN0-6944, R2L *\ - 0.000000 <= r2079 <= 30000.000000 \* ORNDECARBOX-RXN, L2R *\ - 0.000000 <= r2080 <= 30000.000000 \* AMINEOXID-RXN, L2R *\ - 0.000000 <= r2081 <= 30000.000000 \* RXN0-6983, L2R *\ - 0.000000 <= r2082a <= 30000.000000 \* RXN-7282, L2R *\ - 0.000000 <= r2082b <= 30000.000000 \* RXN-7282, R2L *\ - 0.000000 <= r2083a <= 30000.000000 \* PEPDEPHOS-RXN, L2R *\ - 0.000000 <= r2083b <= 30000.000000 \* PEPDEPHOS-RXN, R2L *\ - 0.000000 <= r2084a <= 30000.000000 \* ARGSUCCINLYA-RXN, L2R *\ - 0.000000 <= r2084b <= 30000.000000 \* ARGSUCCINLYA-RXN, R2L *\ - 0.000000 <= r2085 <= 30000.000000 \* RXN-8348, L2R *\ - 0.000000 <= r2086 <= 30000.000000 \* BADH-RXN, L2R *\ - 0.000000 <= r2087 <= 30000.000000 \* CATAL-RXN, L2R *\ - 0.000000 <= r2088 <= 30000.000000 \* RXN0-7114, L2R *\ - 0.000000 <= r2089 <= 30000.000000 \* RXN0-1401, L2R *\ - 0.000000 <= r2090 <= 30000.000000 \* PRPPAMIDOTRANS-RXN, R2L *\ - 0.000000 <= r2091a <= 30000.000000 \* DARABISOM-RXN, L2R *\ - 0.000000 <= r2091b <= 30000.000000 \* DARABISOM-RXN, R2L *\ - 0.000000 <= r2092 <= 30000.000000 \* CPM-KDOSYNTH-RXN, L2R *\ - 0.000000 <= r2093 <= 30000.000000 \* RXNMETA-12671, L2R *\ - 0.000000 <= r2094 <= 30000.000000 \* RXN0-2022, L2R *\ - 0.000000 <= r2095 <= 30000.000000 \* PYRROLINECARBREDUCT-RXN-PRO/NAD//L-DELTA1-PYRROLINE_5-CARBOXYLATE/NADH/PROTON.54., R2L *\ - 0.000000 <= r2096 <= 30000.000000 \* PYRROLINECARBREDUCT-RXN-PRO/NADP//L-DELTA1-PYRROLINE_5-CARBOXYLATE/NADPH/PROTON.56., R2L *\ - 0.000000 <= r2097 <= 30000.000000 \* DETHIOBIOTIN-SYN-RXN, L2R *\ - 0.000000 <= r2098 <= 30000.000000 \* DAHPSYN-RXN, L2R *\ - 0.000000 <= r2099a <= 30000.000000 \* SPONTPRO-RXN, L2R *\ - 0.000000 <= r2099b <= 30000.000000 \* SPONTPRO-RXN, R2L *\ - 0.000000 <= r2100 <= 30000.000000 \* RHAMNULOKIN-RXN, L2R *\ - 0.000000 <= r2101 <= 30000.000000 \* DIHYDROFOLATESYNTH-RXN, L2R *\ - 0.000000 <= r2102a <= 30000.000000 \* TARTRATE-DEHYDROGENASE-RXN, L2R *\ - 0.000000 <= r2102b <= 30000.000000 \* TARTRATE-DEHYDROGENASE-RXN, R2L *\ - 0.000000 <= r2103 <= 30000.000000 \* DTDPDEHYDRHAMEPIM-RXN, L2R *\ - 0.000000 <= r2104a <= 30000.000000 \* THTOREDUCT-RXN, L2R *\ - 0.000000 <= r2104b <= 30000.000000 \* THTOREDUCT-RXN, R2L *\ - 0.000000 <= r2105 <= 30000.000000 \* ERYTH4PDEHYDROG-RXN, L2R *\ - 0.000000 <= r2106 <= 30000.000000 \* TRIPHOSPHATASE-RXN[CCO-PERI-BAC]-P3I/WATER//Pi/PPI.32., L2R *\ - 0.000000 <= r2107 <= 30000.000000 \* TRIPHOSPHATASE-RXN[CCO-CYTOSOL]-P3I/WATER//Pi/PPI.31., L2R *\ - 0.000000 <= r2108 <= 30000.000000 \* RXN0-3921, L2R *\ - 0.000000 <= r2109 <= 30000.000000 \* RXN-11596, L2R *\ - 0.000000 <= r2110a <= 30000.000000 \* FUMHYDR-RXN, L2R *\ - 0.000000 <= r2110b <= 30000.000000 \* FUMHYDR-RXN, R2L *\ - 0.000000 <= r2111 <= 30000.000000 \* UDP-NACMURALGLDAPLIG-RXN, L2R *\ - 0.000000 <= r2112 <= 30000.000000 \* RXN0-4401, L2R *\ - 0.000000 <= r2113 <= 30000.000000 \* RXN-11837, L2R *\ - 0.000000 <= r2114 <= 30000.000000 \* GDPKIN-RXN, L2R *\ - 0.000000 <= r2115 <= 30000.000000 \* URIDINEKIN-RXN, L2R *\ - 0.000000 <= r2116 <= 30000.000000 \* RXN0-5063, L2R *\ - 0.000000 <= r2117 <= 30000.000000 \* RXN-12073, L2R *\ - 0.000000 <= r2118 <= 30000.000000 \* GLUCOSE-1-PHOSPHAT-RXN[CCO-PERI-BAC]-GLC-1-P/WATER//Glucopyranose/Pi.46., L2R *\ - 0.000000 <= r2119 <= 30000.000000 \* GLUCOSE-1-PHOSPHAT-RXN[CCO-CYTOSOL]-GLC-1-P/WATER//Glucopyranose/Pi.45., L2R *\ - 0.000000 <= r2120 <= 30000.000000 \* 1.1.1.39-RXN, L2R *\ - 0.000000 <= r2121 <= 30000.000000 \* RXN0-5124, L2R *\ - 0.000000 <= r2122a <= 30000.000000 \* RXN-12508, L2R *\ - 0.000000 <= r2122b <= 30000.000000 \* RXN-12508, R2L *\ - 0.000000 <= r2123a <= 30000.000000 \* GLUTRACE-RXN, L2R *\ - 0.000000 <= r2123b <= 30000.000000 \* GLUTRACE-RXN, R2L *\ - 0.000000 <= r2124 <= 30000.000000 \* 2-OCTAPRENYLPHENOL-HYDROX-RXN, L2R *\ - 0.000000 <= r2125 <= 30000.000000 \* RXN-12870, L2R *\ - 0.000000 <= r2126 <= 30000.000000 \* GLYCPDIESTER-RXN-GLYCEROPHOSPHOGLYCEROL/WATER//GLYCEROL/GLYCEROL-3P/PROTON.58., L2R *\ - 0.000000 <= r2127 <= 30000.000000 \* 2.7.10.1-RXN, L2R *\ - 0.000000 <= r2128a <= 30000.000000 \* RXN0-5224, L2R *\ - 0.000000 <= r2128b <= 30000.000000 \* RXN0-5224, R2L *\ - 0.000000 <= r2129 <= 30000.000000 \* GSPAMID-RXN, L2R *\ - 0.000000 <= r2130a <= 30000.000000 \* 3-ISOPROPYLMALDEHYDROG-RXN, L2R *\ - 0.000000 <= r2130b <= 30000.000000 \* 3-ISOPROPYLMALDEHYDROG-RXN, R2L *\ - 0.000000 <= r2131a <= 30000.000000 \* RXN0-5304, L2R *\ - 0.000000 <= r2131b <= 30000.000000 \* RXN0-5304, R2L *\ - 0.000000 <= r2132 <= 30000.000000 \* RXN-14116, L2R *\ - 0.000000 <= r2133 <= 30000.000000 \* H2PTEROATESYNTH-RXN, L2R *\ - 0.000000 <= r2134 <= 30000.000000 \* RXN-14282, L2R *\ - 0.000000 <= r2135 <= 30000.000000 \* HOMSUCTRAN-RXN, L2R *\ - 0.000000 <= r2136 <= 30000.000000 \* 3.4.13.18-RXN-D-ALA-D-ALA/WATER//L-ALPHA-ALANINE.35., L2R *\ - 0.000000 <= r2137 <= 30000.000000 \* RXN0-5461, L2R *\ - 0.000000 <= r2138 <= 30000.000000 \* RXN-14473-DAMP/WATER//DEOXYADENOSINE/Pi.30., L2R *\ - 0.000000 <= r2139 <= 30000.000000 \* RXN-14473-DIMP/WATER//DEOXYINOSINE/Pi.28., L2R *\ - 0.000000 <= r2140 <= 30000.000000 \* RXN-14473-DCMP/WATER//DEOXYCYTIDINE/Pi.29., L2R *\ - 0.000000 <= r2141 <= 30000.000000 \* RXN-14473-TMP/WATER//THYMIDINE/Pi.24., L2R *\ - 0.000000 <= r2142 <= 30000.000000 \* RXN-14473-IMP/WATER//INOSINE/Pi.22., L2R *\ - 0.000000 <= r2143 <= 30000.000000 \* RXN-14473-GMP/WATER//GUANOSINE/Pi.24., L2R *\ - 0.000000 <= r2144 <= 30000.000000 \* RXN-14473-XANTHOSINE-5-PHOSPHATE/WATER//XANTHOSINE/Pi.44., L2R *\ - 0.000000 <= r2145 <= 30000.000000 \* RXN-14473-CMP/WATER//CYTIDINE/Pi.23., L2R *\ - 0.000000 <= r2146 <= 30000.000000 \* RXN-14473-UMP/WATER//URIDINE/Pi.22., L2R *\ - 0.000000 <= r2147 <= 30000.000000 \* ISOLEUCINE--TRNA-LIGASE-RXN-ILE-tRNAs/ILE/ATP/PROTON//Charged-ILE-tRNAs/AMP/PPI.52., L2R *\ - 0.000000 <= r2148 <= 30000.000000 \* RXN0-6368, L2R *\ - 0.000000 <= r2149 <= 30000.000000 \* RXN-14513, L2R *\ - 0.000000 <= r2150 <= 30000.000000 \* LACTALDDEHYDROG-RXN, L2R *\ - 0.000000 <= r2151 <= 30000.000000 \* 5.1.3.20-RXN, L2R *\ - 0.000000 <= r2152a <= 30000.000000 \* RXN-14808-CPD-15699//ARABINOSE.21., L2R *\ - 0.000000 <= r2152b <= 30000.000000 \* RXN-14808-CPD-15699//ARABINOSE.21., R2L *\ - 0.000000 <= r2153 <= 30000.000000 \* LYXK-RXN, L2R *\ - 0.000000 <= r2154a <= 30000.000000 \* ACETATEKIN-RXN, L2R *\ - 0.000000 <= r2154b <= 30000.000000 \* ACETATEKIN-RXN, R2L *\ - 0.000000 <= r2155 <= 30000.000000 \* RXN0-6512, R2L *\ - 0.000000 <= r2156 <= 30000.000000 \* RXN-15122, L2R *\ - 0.000000 <= r2157a <= 30000.000000 \* METHENYLTHFCYCLOHYDRO-RXN-5-10-METHENYL-THF/WATER//10-FORMYL-THF/PROTON.46., L2R *\ - 0.000000 <= r2157b <= 30000.000000 \* METHENYLTHFCYCLOHYDRO-RXN-5-10-METHENYL-THF/WATER//10-FORMYL-THF/PROTON.46., R2L *\ - 0.000000 <= r2158a <= 30000.000000 \* ACONITATEDEHYDR-RXN, L2R *\ - 0.000000 <= r2158b <= 30000.000000 \* ACONITATEDEHYDR-RXN, R2L *\ - 0.000000 <= r2159 <= 30000.000000 \* RXN-15298, L2R *\ - 0.000000 <= r2160a <= 30000.000000 \* NACGLCTRANS-RXN, L2R *\ - 0.000000 <= r2160b <= 30000.000000 \* NACGLCTRANS-RXN, R2L *\ - 0.000000 <= r2161 <= 30000.000000 \* ADENYLATECYC-RXN, L2R *\ - 0.000000 <= r2162a <= 30000.000000 \* RXN0-6717, L2R *\ - 0.000000 <= r2162b <= 30000.000000 \* RXN0-6717, R2L *\ - 0.000000 <= r2163 <= 30000.000000 \* RXN-15878-HYDROXY-METHYL-BUTENYL-DIP/Oxidized-flavodoxins/WATER/PROTON//2C-METH-D-ERYTHRITOL-CYCLODIPHOSPHATE/Reduced-flavodoxins.120., R2L *\ - 0.000000 <= r2164 <= 30000.000000 \* NMNNUCLEOSID-RXN, L2R *\ - 0.000000 <= r2165 <= 30000.000000 \* RXN0-6950, L2R *\ - 0.000000 <= r2166a <= 30000.000000 \* RXN-2962-S-HYDROXYMETHYLGLUTATHIONE/NAD//CPD-548/NADH/PROTON.52., L2R *\ - 0.000000 <= r2166b <= 30000.000000 \* RXN-2962-S-HYDROXYMETHYLGLUTATHIONE/NAD//CPD-548/NADH/PROTON.52., R2L *\ - 0.000000 <= r2167a <= 30000.000000 \* RXN-2962-S-HYDROXYMETHYLGLUTATHIONE/NADP//CPD-548/NADPH/PROTON.54., L2R *\ - 0.000000 <= r2167b <= 30000.000000 \* RXN-2962-S-HYDROXYMETHYLGLUTATHIONE/NADP//CPD-548/NADPH/PROTON.54., R2L *\ - 0.000000 <= r2168a <= 30000.000000 \* OXALOACETATE-TAUTOMERASE-RXN, L2R *\ - 0.000000 <= r2168b <= 30000.000000 \* OXALOACETATE-TAUTOMERASE-RXN, R2L *\ - 0.000000 <= r2169 <= 30000.000000 \* AMINOCYL-TRNA-HYDROLASE-RXN, L2R *\ - 0.000000 <= r2170 <= 30000.000000 \* RXN0-6987, L2R *\ - 0.000000 <= r2171 <= 30000.000000 \* RXN-7609[CCO-PERI-BAC]-GMP/WATER//GUANOSINE/Pi.38., L2R *\ - 0.000000 <= r2172 <= 30000.000000 \* RXN-7609[CCO-CYTOSOL]-GMP/WATER//GUANOSINE/Pi.37., L2R *\ - 0.000000 <= r2173a <= 30000.000000 \* PEROXID-RXN[CCO-CYTOSOL]-Phenolic-Donors/HYDROGEN-PEROXIDE//Phenoxyl-rad-of-phenolic-donors/WATER.86., L2R *\ - 0.000000 <= r2173b <= 30000.000000 \* PEROXID-RXN[CCO-CYTOSOL]-Phenolic-Donors/HYDROGEN-PEROXIDE//Phenoxyl-rad-of-phenolic-donors/WATER.86., R2L *\ - 0.000000 <= r2174a <= 30000.000000 \* PEROXID-RXN[CCO-PERI-BAC]-Phenolic-Donors/HYDROGEN-PEROXIDE//Phenoxyl-rad-of-phenolic-donors/WATER.87., L2R *\ - 0.000000 <= r2174b <= 30000.000000 \* PEROXID-RXN[CCO-PERI-BAC]-Phenolic-Donors/HYDROGEN-PEROXIDE//Phenoxyl-rad-of-phenolic-donors/WATER.87., R2L *\ - 0.000000 <= r2175 <= 30000.000000 \* ARYLSULFAT-RXN, L2R *\ - 0.000000 <= r2176a <= 30000.000000 \* RXN0-7014, L2R *\ - 0.000000 <= r2176b <= 30000.000000 \* RXN0-7014, R2L *\ - 0.000000 <= r2177a <= 30000.000000 \* RXN-8642, L2R *\ - 0.000000 <= r2177b <= 30000.000000 \* RXN-8642, R2L *\ - 0.000000 <= r2178a <= 30000.000000 \* PHOSMANMUT-RXN, L2R *\ - 0.000000 <= r2178b <= 30000.000000 \* PHOSMANMUT-RXN, R2L *\ - 0.000000 <= r2179 <= 30000.000000 \* RXN0-7078, L2R *\ - 0.000000 <= r2180 <= 30000.000000 \* RXN-9311, L2R *\ - 0.000000 <= r2181 <= 30000.000000 \* PPGPPSYN-RXN, L2R *\ - 0.000000 <= r2182 <= 30000.000000 \* CDPKIN-RXN, L2R *\ - 0.000000 <= r2183 <= 30000.000000 \* RXN0-1461, L2R *\ - 0.000000 <= r2184a <= 30000.000000 \* PSERTRANSAM-RXN, L2R *\ - 0.000000 <= r2184b <= 30000.000000 \* PSERTRANSAM-RXN, R2L *\ - 0.000000 <= r2185 <= 30000.000000 \* DCTP-DEAM-RXN, L2R *\ - 0.000000 <= r2186 <= 30000.000000 \* CTPSYN-RXN, L2R *\ - 0.000000 <= r2187 <= 30000.000000 \* S-FORMYLGLUTATHIONE-HYDROLASE-RXN, L2R *\ - 0.000000 <= r2188a <= 30000.000000 \* RXN0-2044, L2R *\ - 0.000000 <= r2188b <= 30000.000000 \* RXN0-2044, R2L *\ - 0.000000 <= r2189a <= 30000.000000 \* QOR-RXN, L2R *\ - 0.000000 <= r2189b <= 30000.000000 \* QOR-RXN, R2L *\ - 0.000000 <= r2190 <= 30000.000000 \* DHBAMPLIG-RXN, L2R *\ - 0.000000 <= r2191a <= 30000.000000 \* SUCCDIAMINOPIMDESUCC-RXN, L2R *\ - 0.000000 <= r2191b <= 30000.000000 \* SUCCDIAMINOPIMDESUCC-RXN, R2L *\ - 0.000000 <= r2192 <= 30000.000000 \* RIBAZOLEPHOSPHAT-RXN, L2R *\ - 0.000000 <= r2193a <= 30000.000000 \* DIHYDROURACIL-DEHYDROGENASE-NAD+-RXN, L2R *\ - 0.000000 <= r2193b <= 30000.000000 \* DIHYDROURACIL-DEHYDROGENASE-NAD+-RXN, R2L *\ - 0.000000 <= r2194 <= 30000.000000 \* TETRAACYLDISACC4KIN-RXN, L2R *\ - 0.000000 <= r2195 <= 30000.000000 \* RXN0-2945, L2R *\ - 0.000000 <= r2196 <= 30000.000000 \* RXN-10017, L2R *\ - 0.000000 <= r2197a <= 30000.000000 \* DTDPGLUCOSEPP-RXN, L2R *\ - 0.000000 <= r2197b <= 30000.000000 \* DTDPGLUCOSEPP-RXN, R2L *\ - 0.000000 <= r2198 <= 30000.000000 \* THYMIDYLATE-5-PHOSPHATASE-RXN, L2R *\ - 0.000000 <= r2199 <= 30000.000000 \* RXN0-3281, L2R *\ - 0.000000 <= r2200 <= 30000.000000 \* RXN-11396, L2R *\ - 0.000000 <= r2201 <= 30000.000000 \* FADSYN-RXN, L2R *\ - 0.000000 <= r2202 <= 30000.000000 \* RXN0-3962, L2R *\ - 0.000000 <= r2203 <= 30000.000000 \* RXN-11601, L2R *\ - 0.000000 <= r2204a <= 30000.000000 \* GALACTITOLPDEHYD-RXN, L2R *\ - 0.000000 <= r2204b <= 30000.000000 \* GALACTITOLPDEHYD-RXN, R2L *\ - 0.000000 <= r2205a <= 30000.000000 \* UDPGLUCEPIM-RXN, L2R *\ - 0.000000 <= r2205b <= 30000.000000 \* UDPGLUCEPIM-RXN, R2L *\ - 0.000000 <= r2206a <= 30000.000000 \* RXN0-4641-CPD0-881/WATER//CPD-16168/D-LACTATE.36., L2R *\ - 0.000000 <= r2206b <= 30000.000000 \* RXN0-4641-CPD0-881/WATER//CPD-16168/D-LACTATE.36., R2L *\ - 0.000000 <= r2207a <= 30000.000000 \* RXN-11840, L2R *\ - 0.000000 <= r2207b <= 30000.000000 \* RXN-11840, R2L *\ - 0.000000 <= r2208 <= 30000.000000 \* GDPPYPHOSKIN-RXN, L2R *\ - 0.000000 <= r2209 <= 30000.000000 \* UROGENIIISYN-RXN, L2R *\ - 0.000000 <= r2210 <= 30000.000000 \* RXN0-5074, L2R *\ - 0.000000 <= r2211a <= 30000.000000 \* RXN-12105-25-DIDEHYDRO-D-GLUCONATE/NADH/PROTON//CPD-13059/NAD.52., L2R *\ - 0.000000 <= r2211b <= 30000.000000 \* RXN-12105-25-DIDEHYDRO-D-GLUCONATE/NADH/PROTON//CPD-13059/NAD.52., R2L *\ - 0.000000 <= r2212a <= 30000.000000 \* RXN-12105-25-DIDEHYDRO-D-GLUCONATE/NADPH/PROTON//CPD-13059/NADP.54., L2R *\ - 0.000000 <= r2212b <= 30000.000000 \* RXN-12105-25-DIDEHYDRO-D-GLUCONATE/NADPH/PROTON//CPD-13059/NADP.54., R2L *\ - 0.000000 <= r2213a <= 30000.000000 \* GLUCUROISOM-RXN-CPD-15530//CPD-12537.21., L2R *\ - 0.000000 <= r2213b <= 30000.000000 \* GLUCUROISOM-RXN-CPD-15530//CPD-12537.21., R2L *\ - 0.000000 <= r2214a <= 30000.000000 \* 1.2.99.7-RXN-CPD-8490/FAD/WATER//CPD-3617/FADH2.35., L2R *\ - 0.000000 <= r2214b <= 30000.000000 \* 1.2.99.7-RXN-CPD-8490/FAD/WATER//CPD-3617/FADH2.35., R2L *\ - 0.000000 <= r2215a <= 30000.000000 \* 1.2.99.7-RXN-METHYL-GLYOXAL/FAD/WATER//PYRUVATE/FADH2.41., L2R *\ - 0.000000 <= r2215b <= 30000.000000 \* 1.2.99.7-RXN-METHYL-GLYOXAL/FAD/WATER//PYRUVATE/FADH2.41., R2L *\ - 0.000000 <= r2216a <= 30000.000000 \* 1.2.99.7-RXN-CPD-665/FAD/WATER//PROPIONATE/FADH2.36., L2R *\ - 0.000000 <= r2216b <= 30000.000000 \* 1.2.99.7-RXN-CPD-665/FAD/WATER//PROPIONATE/FADH2.36., R2L *\ - 0.000000 <= r2217a <= 30000.000000 \* 1.2.99.7-RXN-ACETALD/FAD/WATER//ACET/FADH2.30., L2R *\ - 0.000000 <= r2217b <= 30000.000000 \* 1.2.99.7-RXN-ACETALD/FAD/WATER//ACET/FADH2.30., R2L *\ - 0.000000 <= r2218a <= 30000.000000 \* 1.2.99.7-RXN-HEXANAL/FAD/WATER//HEXANOATE/FADH2.35., L2R *\ - 0.000000 <= r2218b <= 30000.000000 \* 1.2.99.7-RXN-HEXANAL/FAD/WATER//HEXANOATE/FADH2.35., R2L *\ - 0.000000 <= r2219a <= 30000.000000 \* 1.2.99.7-RXN-CPD-371/FAD/WATER//CPD-195/FADH2.33., L2R *\ - 0.000000 <= r2219b <= 30000.000000 \* 1.2.99.7-RXN-CPD-371/FAD/WATER//CPD-195/FADH2.33., R2L *\ - 0.000000 <= r2220a <= 30000.000000 \* 1.2.99.7-RXN-HYDRPHENYLAC-CPD/FAD/WATER//3-HYDROXYPHENYLACETATE/FADH2.57., L2R *\ - 0.000000 <= r2220b <= 30000.000000 \* 1.2.99.7-RXN-HYDRPHENYLAC-CPD/FAD/WATER//3-HYDROXYPHENYLACETATE/FADH2.57., R2L *\ - 0.000000 <= r2221a <= 30000.000000 \* 1.2.99.7-RXN-BENZALDEHYDE/FAD/WATER//BENZOATE/FADH2.39., L2R *\ - 0.000000 <= r2221b <= 30000.000000 \* 1.2.99.7-RXN-BENZALDEHYDE/FAD/WATER//BENZOATE/FADH2.39., R2L *\ - 0.000000 <= r2222 <= 30000.000000 \* RXN0-5127, L2R *\ - 0.000000 <= r2223 <= 30000.000000 \* RXN-12541, L2R *\ - 0.000000 <= r2224 <= 30000.000000 \* GLY3KIN-RXN, L2R *\ - 0.000000 <= r2225 <= 30000.000000 \* RXN-12886, L2R *\ - 0.000000 <= r2226 <= 30000.000000 \* GLYOXI-RXN, R2L *\ - 0.000000 <= r2227 <= 30000.000000 \* 2.7.7.60-RXN, L2R *\ - 0.000000 <= r2228 <= 30000.000000 \* RXN0-5227[CCO-PERI-BAC]-CPD0-1082/WATER//L-ALA-GAMMA-D-GLU-DAP/D-ALANINE.63., L2R *\ - 0.000000 <= r2229 <= 30000.000000 \* RXN0-5227[CCO-CYTOSOL]-CPD0-1082/WATER//L-ALA-GAMMA-D-GLU-DAP/D-ALANINE.62., L2R *\ - 0.000000 <= r2230a <= 30000.000000 \* RXN-13990, L2R *\ - 0.000000 <= r2230b <= 30000.000000 \* RXN-13990, R2L *\ - 0.000000 <= r2231 <= 30000.000000 \* GTP-CYCLOHYDRO-I-RXN, L2R *\ - 0.000000 <= r2232 <= 30000.000000 \* 3-OCTAPRENYL-4-OHBENZOATE-DECARBOX-RXN, L2R *\ - 0.000000 <= r2233 <= 30000.000000 \* RXN-14136, L2R *\ - 0.000000 <= r2234 <= 30000.000000 \* HEMN-RXN, L2R *\ - 0.000000 <= r2235 <= 30000.000000 \* RXN0-5405, L2R *\ - 0.000000 <= r2236a <= 30000.000000 \* RXN-14285, L2R *\ - 0.000000 <= r2236b <= 30000.000000 \* RXN-14285, R2L *\ - 0.000000 <= r2237 <= 30000.000000 \* HYPOXANPRIBOSYLTRAN-RXN, R2L *\ - 0.000000 <= r2238 <= 30000.000000 \* 3.4.13.9-RXN, L2R *\ - 0.000000 <= r2239 <= 30000.000000 \* RXN-14479, L2R *\ - 0.000000 <= r2240 <= 30000.000000 \* KDO-8PPHOSPHAT-RXN, L2R *\ - 0.000000 <= r2241 <= 30000.000000 \* 3.6.1.41-RXN, L2R *\ - 0.000000 <= r2242 <= 30000.000000 \* RXN0-6382, L2R *\ - 0.000000 <= r2243 <= 30000.000000 \* RXN-14521, L2R *\ - 0.000000 <= r2244 <= 30000.000000 \* LCYSDESULF-RXN, L2R *\ - 0.000000 <= r2245a <= 30000.000000 \* 5.4.2.10-RXN-GLUCOSAMINE-1P//CPD-13469.26., L2R *\ - 0.000000 <= r2245b <= 30000.000000 \* 5.4.2.10-RXN-GLUCOSAMINE-1P//CPD-13469.26., R2L *\ - 0.000000 <= r2246a <= 30000.000000 \* RXN-14811, L2R *\ - 0.000000 <= r2246b <= 30000.000000 \* RXN-14811, R2L *\ - 0.000000 <= r2247 <= 30000.000000 \* MALIC-NADP-RXN, L2R *\ - 0.000000 <= r2248a <= 30000.000000 \* ACETOLACTREDUCTOISOM-RXN, L2R *\ - 0.000000 <= r2248b <= 30000.000000 \* ACETOLACTREDUCTOISOM-RXN, R2L *\ - 0.000000 <= r2249 <= 30000.000000 \* RXN-15125, L2R *\ - 0.000000 <= r2250 <= 30000.000000 \* METHIONYL-TRNA-FORMYLTRANSFERASE-RXN-10-FORMYL-THF/L-methionyl-tRNAfmet//THF/N-formyl-L-methionyl-tRNAfmet.70., L2R *\ - 0.000000 <= r2251 <= 30000.000000 \* ACYL-COA-HYDROLASE-RXN-BUTYRYL-COA/WATER//BUTYRIC_ACID/CO-A/PROTON.44., L2R *\ - 0.000000 <= r2252 <= 30000.000000 \* ACYL-COA-HYDROLASE-RXN-PROPIONYL-COA/WATER//PROPIONATE/CO-A/PROTON.44., L2R *\ - 0.000000 <= r2253 <= 30000.000000 \* ACYL-COA-HYDROLASE-RXN-LAUROYLCOA-CPD/WATER//DODECANOATE/CO-A/PROTON.46., L2R *\ - 0.000000 <= r2254 <= 30000.000000 \* ACYL-COA-HYDROLASE-RXN-CPD-10267/WATER//CPD-3617/CO-A/PROTON.38., L2R *\ - 0.000000 <= r2255 <= 30000.000000 \* ACYL-COA-HYDROLASE-RXN-CPD-196/WATER//CPD-195/CO-A/PROTON.35., L2R *\ - 0.000000 <= r2256 <= 30000.000000 \* ACYL-COA-HYDROLASE-RXN-HEXANOYL-COA/WATER//HEXANOATE/CO-A/PROTON.42., L2R *\ - 0.000000 <= r2257 <= 30000.000000 \* ACYL-COA-HYDROLASE-RXN-TETRADECANOYL-COA/WATER//CPD-7836/CO-A/PROTON.46., L2R *\ - 0.000000 <= r2258 <= 30000.000000 \* ACYL-COA-HYDROLASE-RXN-PALMITYL-COA/WATER//PALMITATE/CO-A/PROTON.42., L2R *\ - 0.000000 <= r2259 <= 30000.000000 \* ACYL-COA-HYDROLASE-RXN-STEAROYL-COA/WATER//STEARIC_ACID/CO-A/PROTON.45., L2R *\ - 0.000000 <= r2260 <= 30000.000000 \* ACYL-COA-HYDROLASE-RXN-ACETOACETYL-COA/WATER//2-OXOBUTANOATE/CO-A/PROTON.50., L2R *\ - 0.000000 <= r2261a <= 30000.000000 \* RXN-15313, L2R *\ - 0.000000 <= r2261b <= 30000.000000 \* RXN-15313, R2L *\ - 0.000000 <= r2262 <= 30000.000000 \* NAD-SYNTH-NH3-RXN, L2R *\ - 0.000000 <= r2263 <= 30000.000000 \* ADOMET-DMK-METHYLTRANSFER-RXN, L2R *\ - 0.000000 <= r2264a <= 30000.000000 \* RXN0-6722, L2R *\ - 0.000000 <= r2264b <= 30000.000000 \* RXN0-6722, R2L *\ - 0.000000 <= r2265 <= 30000.000000 \* RXN-15943, R2L *\ - 0.000000 <= r2266 <= 30000.000000 \* NUCLEOSIDE-DIPHOSPHATASE-RXN-CPD0-2231/WATER//DIMP/Pi/PROTON.32., L2R *\ - 0.000000 <= r2267 <= 30000.000000 \* NUCLEOSIDE-DIPHOSPHATASE-RXN-DADP/WATER//DAMP/Pi/PROTON.27., L2R *\ - 0.000000 <= r2268 <= 30000.000000 \* NUCLEOSIDE-DIPHOSPHATASE-RXN-DUDP/WATER//DUMP/Pi/PROTON.27., L2R *\ - 0.000000 <= r2269 <= 30000.000000 \* NUCLEOSIDE-DIPHOSPHATASE-RXN-DCDP/WATER//DCMP/Pi/PROTON.27., L2R *\ - 0.000000 <= r2270 <= 30000.000000 \* NUCLEOSIDE-DIPHOSPHATASE-RXN-TDP/WATER//TMP/Pi/PROTON.25., L2R *\ - 0.000000 <= r2271 <= 30000.000000 \* NUCLEOSIDE-DIPHOSPHATASE-RXN-CDP/WATER//CMP/Pi/PROTON.25., L2R *\ - 0.000000 <= r2272 <= 30000.000000 \* NUCLEOSIDE-DIPHOSPHATASE-RXN-UDP/WATER//UMP/Pi/PROTON.25., L2R *\ - 0.000000 <= r2273 <= 30000.000000 \* NUCLEOSIDE-DIPHOSPHATASE-RXN-XDP/WATER//XANTHOSINE-5-PHOSPHATE/Pi/PROTON.44., L2R *\ - 0.000000 <= r2274 <= 30000.000000 \* NUCLEOSIDE-DIPHOSPHATASE-RXN-GDP/WATER//GMP/Pi/PROTON.25., L2R *\ - 0.000000 <= r2275 <= 30000.000000 \* NUCLEOSIDE-DIPHOSPHATASE-RXN-IDP/WATER//IMP/Pi/PROTON.25., L2R *\ - 0.000000 <= r2276 <= 30000.000000 \* RXN-12402, L2R *\ - 0.000000 <= r2277a <= 30000.000000 \* ALDOSE1EPIM-RXN, L2R *\ - 0.000000 <= r2277b <= 30000.000000 \* ALDOSE1EPIM-RXN, R2L *\ - 0.000000 <= r2278 <= 30000.000000 \* RXN0-6973, L2R *\ - 0.000000 <= r2279 <= 30000.000000 \* RXN-3641, R2L *\ - 0.000000 <= r2280 <= 30000.000000 \* OXAMATE-CARBAMOYLTRANSFERASE-RXN, R2L *\ - 0.000000 <= r2281 <= 30000.000000 \* AMP-NUCLEOSID-RXN, L2R *\ - 0.000000 <= r2282 <= 30000.000000 \* RXN-7913, L2R *\ - 0.000000 <= r2283a <= 30000.000000 \* PGLYCDEHYDROG-RXN, L2R *\ - 0.000000 <= r2283b <= 30000.000000 \* PGLYCDEHYDROG-RXN, R2L *\ - 0.000000 <= r2284 <= 30000.000000 \* ASPARAGHYD-RXN[CCO-PERI-BAC]-ASN/WATER//L-ASPARTATE/AMMONIUM.46., L2R *\ - 0.000000 <= r2285 <= 30000.000000 \* ASPARAGHYD-RXN[CCO-CYTOSOL]-ASN/WATER//L-ASPARTATE/AMMONIUM.45., L2R *\ - 0.000000 <= r2286 <= 30000.000000 \* RXN0-7022, L2R *\ - 0.000000 <= r2287 <= 30000.000000 \* RXN-8667, L2R *\ - 0.000000 <= r2288 <= 30000.000000 \* PHOSPHASERDECARB-RXN-CPD-12817/PROTON//CPD-12819/CARBON-DIOXIDE.43., L2R *\ - 0.000000 <= r2289 <= 30000.000000 \* PHOSPHASERDECARB-RXN-CPD-12816/PROTON//CPD-12818/CARBON-DIOXIDE.43., L2R *\ - 0.000000 <= r2290a <= 30000.000000 \* BETA-PHOSPHOGLUCOMUTASE-RXN, L2R *\ - 0.000000 <= r2290b <= 30000.000000 \* BETA-PHOSPHOGLUCOMUTASE-RXN, R2L *\ - 0.000000 <= r2291a <= 30000.000000 \* RXN-9951, L2R *\ - 0.000000 <= r2291b <= 30000.000000 \* RXN-9951, R2L *\ - 0.000000 <= r2292 <= 30000.000000 \* PREPHENATEDEHYDRAT-RXN, L2R *\ - 0.000000 <= r2293 <= 30000.000000 \* RXN0-884-CPD-4211/NAD/WATER//HYDROXY-METHYL-BUTENYL-DIP/NADH/PROTON.59., R2L *\ - 0.000000 <= r2294 <= 30000.000000 \* RXN0-884-CPD-4211/NADP/WATER//HYDROXY-METHYL-BUTENYL-DIP/NADPH/PROTON.61., R2L *\ - 0.000000 <= r2295 <= 30000.000000 \* RXN0-1603, L2R *\ - 0.000000 <= r2296 <= 30000.000000 \* PTAALT-RXN, L2R *\ - 0.000000 <= r2297 <= 30000.000000 \* DEHYDDEOXGALACTKIN-RXN, L2R *\ - 0.000000 <= r2298 <= 30000.000000 \* CYSTEINE--TRNA-LIGASE-RXN-CYS-tRNAs/CYS/ATP/PROTON//Charged-CYS-tRNAs/AMP/PPI.52., L2R *\ - 0.000000 <= r2299 <= 30000.000000 \* SEDOBISALDOL-RXN, R2L *\ - 0.000000 <= r2300 <= 30000.000000 \* RXN0-2101, R2L *\ - 0.000000 <= r2301 <= 30000.000000 \* QUINOPRIBOTRANS-RXN, R2L *\ - 0.000000 <= r2302 <= 30000.000000 \* DHHB-METHYLTRANSFER-RXN, L2R *\ - 0.000000 <= r2303 <= 30000.000000 \* SUCCINATE-SEMIALDEHYDE-DEHYDROGENASE-RXN, L2R *\ - 0.000000 <= r2304 <= 30000.000000 \* RIBOFLAVINSYNDEAM-RXN, L2R *\ - 0.000000 <= r2305a <= 30000.000000 \* DIMETHUROPORDEHYDROG-RXN, L2R *\ - 0.000000 <= r2305b <= 30000.000000 \* DIMETHUROPORDEHYDROG-RXN, R2L *\ - 0.000000 <= r2306 <= 30000.000000 \* THIAZOLSYN3-RXN, L2R *\ - 0.000000 <= r2307a <= 30000.000000 \* RXN-10639, L2R *\ - 0.000000 <= r2307b <= 30000.000000 \* RXN-10639, R2L *\ - 0.000000 <= r2308 <= 30000.000000 \* DUDPKIN-RXN, L2R *\ - 0.000000 <= r2309 <= 30000.000000 \* RXN0-3461, L2R *\ - 0.000000 <= r2310 <= 30000.000000 \* RXN-11410, L2R *\ - 0.000000 <= r2311 <= 30000.000000 \* RXN0-3543, L2R *\ - 0.000000 <= r2312 <= 30000.000000 \* RXN-11573, L2R *\ - 0.000000 <= r2313a <= 30000.000000 \* FMNREDUCT-RXN-FMNH2/NAD//FMN/NADH/PROTON.27., L2R *\ - 0.000000 <= r2313b <= 30000.000000 \* FMNREDUCT-RXN-FMNH2/NAD//FMN/NADH/PROTON.27., R2L *\ - 0.000000 <= r2314a <= 30000.000000 \* FMNREDUCT-RXN-FMNH2/NADP//FMN/NADPH/PROTON.29., L2R *\ - 0.000000 <= r2314b <= 30000.000000 \* FMNREDUCT-RXN-FMNH2/NADP//FMN/NADPH/PROTON.29., R2L *\ - 0.000000 <= r2315 <= 30000.000000 \* TRNA-URACIL-5--METHYLTRANSFERASE-RXN, L2R *\ - 0.000000 <= r2316 <= 30000.000000 \* RXN0-4121, L2R *\ - 0.000000 <= r2317 <= 30000.000000 \* RXN-11635, L2R *\ - 0.000000 <= r2318 <= 30000.000000 \* GALACTONDEHYDRAT-RXN, L2R *\ - 0.000000 <= r2319 <= 30000.000000 \* UDPMANNACADEHYDROG-RXN, L2R *\ - 0.000000 <= r2320 <= 30000.000000 \* RXN-11843, L2R *\ - 0.000000 <= r2321 <= 30000.000000 \* GLU6PDEHYDROG-RXN, L2R *\ - 0.000000 <= r2322 <= 30000.000000 \* URUR-RXN, L2R *\ - 0.000000 <= r2323 <= 30000.000000 \* RXN-12197, L2R *\ - 0.000000 <= r2324 <= 30000.000000 \* GLUTAMIN-RXN, L2R *\ - 0.000000 <= r2325a <= 30000.000000 \* 1.8.4.4-RXN, L2R *\ - 0.000000 <= r2325b <= 30000.000000 \* 1.8.4.4-RXN, R2L *\ - 0.000000 <= r2326a <= 30000.000000 \* RXN0-5141, L2R *\ - 0.000000 <= r2326b <= 30000.000000 \* RXN0-5141, R2L *\ - 0.000000 <= r2327 <= 30000.000000 \* RXN-12611, L2R *\ - 0.000000 <= r2328 <= 30000.000000 \* GLYCEROL-1-PHOSPHATASE-RXN, L2R *\ - 0.000000 <= r2329a <= 30000.000000 \* 2.3.1.118-RXN, L2R *\ - 0.000000 <= r2329b <= 30000.000000 \* 2.3.1.118-RXN, R2L *\ - 0.000000 <= r2330a <= 30000.000000 \* RXN0-5208, L2R *\ - 0.000000 <= r2330b <= 30000.000000 \* RXN0-5208, R2L *\ - 0.000000 <= r2331a <= 30000.000000 \* RXN-13142, L2R *\ - 0.000000 <= r2331b <= 30000.000000 \* RXN-13142, R2L *\ - 0.000000 <= r2332 <= 30000.000000 \* GLYOXYLATE-REDUCTASE-NADP+-RXN, R2L *\ - 0.000000 <= r2333 <= 30000.000000 \* 2.7.9.3-RXN, L2R *\ - 0.000000 <= r2334a <= 30000.000000 \* RXN0-5234, L2R *\ - 0.000000 <= r2334b <= 30000.000000 \* RXN0-5234, R2L *\ - 0.000000 <= r2335 <= 30000.000000 \* RXN-14025[CCO-PERI-BAC]-UMP/WATER//URIDINE/Pi.36., L2R *\ - 0.000000 <= r2336 <= 30000.000000 \* RXN-14025[CCO-CYTOSOL]-UMP/WATER//URIDINE/Pi.35., L2R *\ - 0.000000 <= r2337 <= 30000.000000 \* GUANINE-DEAMINASE-RXN, L2R *\ - 0.000000 <= r2338 <= 30000.000000 \* RXN-14143, L2R *\ - 0.000000 <= r2339 <= 30000.000000 \* HISTCYCLOHYD-RXN, L2R *\ - 0.000000 <= r2340 <= 30000.000000 \* 3.1.3.74-RXN[CCO-PERI-BAC]-PYRIDOXAL_PHOSPHATE/WATER//PYRIDOXAL/Pi.54., L2R *\ - 0.000000 <= r2341 <= 30000.000000 \* 3.1.3.74-RXN[CCO-CYTOSOL]-PYRIDOXAL_PHOSPHATE/WATER//PYRIDOXAL/Pi.53., L2R *\ - 0.000000 <= r2342 <= 30000.000000 \* RXN0-5409, L2R *\ - 0.000000 <= r2343 <= 30000.000000 \* RXN-14325, L2R *\ - 0.000000 <= r2344 <= 30000.000000 \* IMP-DEHYDROG-RXN, L2R *\ - 0.000000 <= r2345 <= 30000.000000 \* 3.4.19.12-RXN, L2R *\ - 0.000000 <= r2346 <= 30000.000000 \* RXN0-6254, L2R *\ - 0.000000 <= r2347a <= 30000.000000 \* RXN-14483-CPD-16502/WATER//CPD-16501/Pi.30., L2R *\ - 0.000000 <= r2347b <= 30000.000000 \* RXN-14483-CPD-16502/WATER//CPD-16501/Pi.30., R2L *\ - 0.000000 <= r2348 <= 30000.000000 \* KDOTRANS2-RXN, L2R *\ - 0.000000 <= r2349a <= 30000.000000 \* 4-HYDROXYBUTYRATE-DEHYDROGENASE-RXN, L2R *\ - 0.000000 <= r2349b <= 30000.000000 \* 4-HYDROXYBUTYRATE-DEHYDROGENASE-RXN, R2L *\ - 0.000000 <= r2350 <= 30000.000000 \* RXN-14524, L2R *\ - 0.000000 <= r2351 <= 30000.000000 \* LIPIDADISACCHARIDESYNTH-RXN, L2R *\ - 0.000000 <= r2352 <= 30000.000000 \* 6-PHOSPHO-BETA-GLUCOSIDASE-RXN, L2R *\ - 0.000000 <= r2353a <= 30000.000000 \* RXN-14815, L2R *\ - 0.000000 <= r2353b <= 30000.000000 \* RXN-14815, R2L *\ - 0.000000 <= r2354a <= 30000.000000 \* MALTODEG-RXN, L2R *\ - 0.000000 <= r2354b <= 30000.000000 \* MALTODEG-RXN, R2L *\ - 0.000000 <= r2355 <= 30000.000000 \* ACETOOHBUTSYN-RXN, L2R *\ - 0.000000 <= r2356 <= 30000.000000 \* RXN-15131, L2R *\ - 0.000000 <= r2357a <= 30000.000000 \* METHYLMALONYL-COA-EPIM-RXN, L2R *\ - 0.000000 <= r2357b <= 30000.000000 \* METHYLMALONYL-COA-EPIM-RXN, R2L *\ - 0.000000 <= r2358 <= 30000.000000 \* ACYLPHOSPHATASE-RXN, L2R *\ - 0.000000 <= r2359a <= 30000.000000 \* RXN0-6563, L2R *\ - 0.000000 <= r2359b <= 30000.000000 \* RXN0-6563, R2L *\ - 0.000000 <= r2360 <= 30000.000000 \* RXN-15346, L2R *\ - 0.000000 <= r2361 <= 30000.000000 \* NADPYROPHOSPHAT-RXN, L2R *\ - 0.000000 <= r2362 <= 30000.000000 \* AICARSYN-RXN, L2R *\ - 0.000000 <= r2363 <= 30000.000000 \* RXN0-6727, L2R *\ - 0.000000 <= r2364a <= 30000.000000 \* RXN-16165-Initiation-tRNAmet/MET/ATP/PROTON//L-methionyl-tRNAfmet/AMP/PPI.64., L2R *\ - 0.000000 <= r2364b <= 30000.000000 \* RXN-16165-Initiation-tRNAmet/MET/ATP/PROTON//L-methionyl-tRNAfmet/AMP/PPI.64., R2L *\ - 0.000000 <= r2365 <= 30000.000000 \* O-SUCCINYLBENZOATE-COA-SYN-RXN, L2R *\ - 0.000000 <= r2366 <= 30000.000000 \* ALLANTOINASE-RXN, L2R *\ - 0.000000 <= r2367 <= 30000.000000 \* RXN0-6976, L2R *\ - 0.000000 <= r2368 <= 30000.000000 \* RXN-5822[CCO-PERI-BAC]-NADP/WATER//NAD/Pi.33., L2R *\ - 0.000000 <= r2369 <= 30000.000000 \* RXN-5822[CCO-CYTOSOL]-NADP/WATER//NAD/Pi.32., L2R *\ - 0.000000 <= r2370a <= 30000.000000 \* PABASYN-RXN, L2R *\ - 0.000000 <= r2370b <= 30000.000000 \* PABASYN-RXN, R2L *\ - 0.000000 <= r2371 <= 30000.000000 \* ANTHRANSYN-RXN, L2R *\ - 0.000000 <= r2372 <= 30000.000000 \* RXN0-6999, L2R *\ - 0.000000 <= r2373a <= 30000.000000 \* RXN-7967-QUINATE/NAD//DEHYDROQUINATE/NADH/PROTON.40., L2R *\ - 0.000000 <= r2373b <= 30000.000000 \* RXN-7967-QUINATE/NAD//DEHYDROQUINATE/NADH/PROTON.40., R2L *\ - 0.000000 <= r2374a <= 30000.000000 \* RXN-7967-QUINATE/NADP//DEHYDROQUINATE/NADPH/PROTON.42., L2R *\ - 0.000000 <= r2374b <= 30000.000000 \* RXN-7967-QUINATE/NADP//DEHYDROQUINATE/NADPH/PROTON.42., R2L *\ - 0.000000 <= r2375 <= 30000.000000 \* PGPPHOSPHA-RXN-CPD-12820/WATER//CPD-12822/Pi.30., L2R *\ - 0.000000 <= r2376 <= 30000.000000 \* PGPPHOSPHA-RXN-CPD-12821/WATER//CPD-8260/Pi.29., L2R *\ - 0.000000 <= r2377 <= 30000.000000 \* PGPPHOSPHA-RXN-CPD0-2230/WATER//CPD0-2330/Pi.30., L2R *\ - 0.000000 <= r2378 <= 30000.000000 \* ASPARTATE--TRNA-LIGASE-RXN-ASP-tRNAs/L-ASPARTATE/ATP/PROTON//Charged-ASP-tRNAs/AMP/PPI.60., L2R *\ - 0.000000 <= r2379 <= 30000.000000 \* RXN0-703, R2L *\ - 0.000000 <= r2380 <= 30000.000000 \* RXN-8899, L2R *\ - 0.000000 <= r2381a <= 30000.000000 \* PHOSPHOGLUCMUT-RXN, L2R *\ - 0.000000 <= r2381b <= 30000.000000 \* PHOSPHOGLUCMUT-RXN, R2L *\ - 0.000000 <= r2382a <= 30000.000000 \* BRANCHED-CHAINAMINOTRANSFERLEU-RXN, L2R *\ - 0.000000 <= r2382b <= 30000.000000 \* BRANCHED-CHAINAMINOTRANSFERLEU-RXN, R2L *\ - 0.000000 <= r2383 <= 30000.000000 \* RXN0-7090, L2R *\ - 0.000000 <= r2384 <= 30000.000000 \* RXN0-1001, L2R *\ - 0.000000 <= r2385 <= 30000.000000 \* PROLINE--TRNA-LIGASE-RXN-PRO-tRNAs/PRO/ATP/PROTON//Charged-PRO-tRNAs/AMP/PPI.52., L2R *\ - 0.000000 <= r2386 <= 30000.000000 \* CHORPYRLY-RXN, L2R *\ - 0.000000 <= r2387 <= 30000.000000 \* RXN0-962, L2R *\ - 0.000000 <= r2388 <= 30000.000000 \* RXN0-1861, L2R *\ - 0.000000 <= r2389 <= 30000.000000 \* DEOXYGLUCONOKIN-RXN, L2R *\ - 0.000000 <= r2390 <= 30000.000000 \* CYTIDEAM-RXN, L2R *\ - 0.000000 <= r2391 <= 30000.000000 \* SERINE-O-ACETTRAN-RXN, L2R *\ - 0.000000 <= r2392 <= 30000.000000 \* RXN0-2281, L2R *\ - 0.000000 <= r2393a <= 30000.000000 \* R170-RXN, L2R *\ - 0.000000 <= r2393b <= 30000.000000 \* R170-RXN, R2L *\ - 0.000000 <= r2394 <= 30000.000000 \* DIAMINOPIMDECARB-RXN, L2R *\ - 0.000000 <= r2395 <= 30000.000000 \* SUCCSEMIALDDEHYDROG-RXN, L2R *\ - 0.000000 <= r2396a <= 30000.000000 \* RXN0-268, L2R *\ - 0.000000 <= r2396b <= 30000.000000 \* RXN0-268, R2L *\ - 0.000000 <= r2397 <= 30000.000000 \* RIBOPHOSPHAT-RXN, L2R *\ - 0.000000 <= r2398 <= 30000.000000 \* DMBPPRIBOSYLTRANS-RXN, L2R *\ - 0.000000 <= r2399 <= 30000.000000 \* THIOSULFATE-SULFURTRANSFERASE-RXN[CCO-PERI-BAC]-HCN/S2O3//HSCN/SO3/PROTON.40., L2R *\ - 0.000000 <= r2400 <= 30000.000000 \* THIOSULFATE-SULFURTRANSFERASE-RXN[CCO-CYTOSOL]-HCN/S2O3//HSCN/SO3/PROTON.39., L2R *\ - 0.000000 <= r2401 <= 30000.000000 \* RXN0-304, L2R *\ - 0.000000 <= r2402a <= 30000.000000 \* RXN-10851, L2R *\ - 0.000000 <= r2402b <= 30000.000000 \* RXN-10851, R2L *\ - 0.000000 <= r2403a <= 30000.000000 \* DXPREDISOM-RXN, L2R *\ - 0.000000 <= r2403b <= 30000.000000 \* DXPREDISOM-RXN, R2L *\ - 0.000000 <= r2404 <= 30000.000000 \* ASNSYNB-RXN, L2R *\ - 0.000000 <= r2405 <= 30000.000000 \* RXN-12440, L2R *\ - 0.000000 <= r2406a <= 30000.000000 \* DTDPRHAMSYNTHMULTI-RXN, L2R *\ - 0.000000 <= r2406b <= 30000.000000 \* DTDPRHAMSYNTHMULTI-RXN, R2L *\ - 0.000000 <= r2407 <= 30000.000000 \* RXN0-1134, L2R *\ - 0.000000 <= r2408 <= 30000.000000 \* GLUTAMATESYN-RXN, R2L *\ - 0.000000 <= r2409 <= 30000.000000 \* PYRUVDEH-RXN, L2R *\ - 0.000000 <= r2410 <= 30000.000000 \* CITLY-RXN, L2R *\ - 0.000000 <= r2411 <= 30000.000000 \* RXN-15294, L2R *\ - 0.000000 <= r2412a <= 30000.000000 \* RXN-9787-Sulfur-Carrier-Proteins-ThiI/CYS//Sulfurylated-ThiI/L-ALPHA-ALANINE.68., L2R *\ - 0.000000 <= r2412b <= 30000.000000 \* RXN-9787-Sulfur-Carrier-Proteins-ThiI/CYS//Sulfurylated-ThiI/L-ALPHA-ALANINE.68., R2L *\ - 0.000000 <= r2413 <= 30000.000000 \* ISOCITDEH-RXN, L2R *\ - 0.000000 <= r2414a <= 30000.000000 \* RXN0-6511, L2R *\ - 0.000000 <= r2414b <= 30000.000000 \* RXN0-6511, R2L *\ - 0.000000 <= r2415 <= 30000.000000 \* CARBPSYN-RXN, L2R *\ - 0.000000 <= r2416 <= 30000.000000 \* RXN-12588-CYS/Unsulfurated-Sulfur-Acceptors//L-ALPHA-ALANINE/Sulfurated-Sulfur-Acceptors.79., L2R *\ - 0.000000 <= r2417a <= 30000.000000 \* RXN-16001, L2R *\ - 0.000000 <= r2417b <= 30000.000000 \* RXN-16001, R2L *\ - 0.000000 <= r2418 <= 30000.000000 \* RXN0-1141, L2R *\ - 0.000000 <= r2419 <= 30000.000000 \* RXN0-6435-CARBAMOYL-P/HypE-Proteins/ATP/WATER//HypE-S-carboxamide/AMP/PPI/Pi.67., L2R *\ - 0.000000 <= r2420a <= 30000.000000 \* 2.6.1.82-RXN, L2R *\ - 0.000000 <= r2420b <= 30000.000000 \* 2.6.1.82-RXN, R2L *\ - 0.000000 <= r2421a <= 30000.000000 \* RXN0-1147, L2R *\ - 0.000000 <= r2421b <= 30000.000000 \* RXN0-1147, R2L *\ - 0.000000 <= r2422a <= 30000.000000 \* TRANSALDOL-RXN, L2R *\ - 0.000000 <= r2422b <= 30000.000000 \* TRANSALDOL-RXN, R2L *\ - 0.000000 <= r2423 <= 30000.000000 \* RXN0-363, L2R *\ - 0.000000 <= r2424 <= 30000.000000 \* RXN-11578, L2R *\ - 0.000000 <= r2425a <= 30000.000000 \* TRYPTOPHAN-RXN, L2R *\ - 0.000000 <= r2425b <= 30000.000000 \* TRYPTOPHAN-RXN, R2L *\ - 0.000000 <= r2426a <= 30000.000000 \* RXN-11791, L2R *\ - 0.000000 <= r2426b <= 30000.000000 \* RXN-11791, R2L *\ - 0.000000 <= r2427a <= 30000.000000 \* GALACTUROISOM-RXN, L2R *\ - 0.000000 <= r2427b <= 30000.000000 \* GALACTUROISOM-RXN, R2L *\ - 0.000000 <= r2428 <= 30000.000000 \* RXN-11865, L2R *\ - 0.000000 <= r2429 <= 30000.000000 \* GLUCARDEHYDRA-RXN, L2R *\ - 0.000000 <= r2430 <= 30000.000000 \* XANPRIBOSYLTRAN-RXN, R2L *\ - 0.000000 <= r2431 <= 30000.000000 \* RXN0-5114[CCO-PERI-BAC]-3-P-SERINE/WATER//SER/Pi.39., L2R *\ - 0.000000 <= r2432 <= 30000.000000 \* RXN0-5114[CCO-CYTOSOL]-3-P-SERINE/WATER//SER/Pi.38., L2R *\ - 0.000000 <= r2433a <= 30000.000000 \* RXN-12275-Reduced-hydrogenase-3/PROTON//Oxidized-hydrogenase-3/HYDROGEN-MOLECULE.71., L2R *\ - 0.000000 <= r2433b <= 30000.000000 \* RXN-12275-Reduced-hydrogenase-3/PROTON//Oxidized-hydrogenase-3/HYDROGEN-MOLECULE.71., R2L *\ - 0.000000 <= r2434 <= 30000.000000 \* GLUTATHIONE-PEROXIDASE-RXN, L2R *\ - 0.000000 <= r2435 <= 30000.000000 \* 2-DEHYDROPANTOATE-REDUCT-RXN, R2L *\ - 0.000000 <= r2436 <= 30000.000000 \* RXN-12753, L2R *\ - 0.000000 <= r2437 <= 30000.000000 \* GLYCINE--TRNA-LIGASE-RXN-GLY-tRNAs/GLY/ATP/PROTON//Charged-GLY-tRNAs/AMP/PPI.52., L2R *\ - 0.000000 <= r2438a <= 30000.000000 \* RXN0-5213, L2R *\ - 0.000000 <= r2438b <= 30000.000000 \* RXN0-5213, R2L *\ - 0.000000 <= r2439 <= 30000.000000 \* RXN-13329, L2R *\ - 0.000000 <= r2440 <= 30000.000000 \* GMP-REDUCT-RXN, R2L *\ - 0.000000 <= r2441 <= 30000.000000 \* 2OXOGLUTARATEDEH-RXN, L2R *\ - 0.000000 <= r2442a <= 30000.000000 \* RXN0-5289, L2R *\ - 0.000000 <= r2442b <= 30000.000000 \* RXN0-5289, R2L *\ - 0.000000 <= r2443 <= 30000.000000 \* RXN-14073, L2R *\ - 0.000000 <= r2444 <= 30000.000000 \* GUANPRIBOSYLTRAN-RXN, R2L *\ - 0.000000 <= r2445 <= 30000.000000 \* RXN-14181, L2R *\ - 0.000000 <= r2446 <= 30000.000000 \* HISTOLDEHYD-RXN, L2R *\ - 3.150000 <= r2447_e <= 3.150000 \* ADP, L2R *\ - 3.150000 <= r2448_e <= 3.150000 \* Pi, L2R *\ - 3.150000 <= r2449_e <= 3.150000 \* PROTON, L2R *\ - 0.000000 <= r2450_e <= 10.000000 \* GLC, L2R *\ - 0.000000 <= r2451_e <= 30000.000000 \* OXYGEN-MOLECULE, L2R *\ - 0.000000 <= r2452_e <= 30000.000000 \* AMMONIUM, L2R *\ - 0.000000 <= r2453_e <= 30000.000000 \* Pi, L2R *\ - 0.000000 <= r2454_e <= 30000.000000 \* K+, L2R *\ - 0.000000 <= r2455_e <= 30000.000000 \* SULFATE, L2R *\ - 0.000000 <= r2456_e <= 30000.000000 \* FE+2, L2R *\ - 0.000000 <= r2457_e <= 30000.000000 \* CA+2, L2R *\ - 0.000000 <= r2458_e <= 30000.000000 \* CL-, L2R *\ - 0.000000 <= r2459_e <= 30000.000000 \* CO+2, L2R *\ - 0.000000 <= r2460_e <= 30000.000000 \* MG+2, L2R *\ - 0.000000 <= r2461_e <= 30000.000000 \* MN+2, L2R *\ - 0.000000 <= r2462_e <= 30000.000000 \* NI+2, L2R *\ - 0.000000 <= r2463_e <= 30000.000000 \* ZN+2, L2R *\ - 0.000000 <= r2464_e <= 30000.000000 \* WATER, L2R *\ - 0.000000 <= r2465_e <= 30000.000000 \* CARBON-DIOXIDE, L2R *\ - 0.000000 <= r2466_e <= 30000.000000 \* CPD0-1958, L2R *\ - 3.150000 <= r2467_e <= 3.150000 \* ATP, L2R *\ - 3.150000 <= r2468_e <= 3.150000 \* WATER, L2R *\ - 0.000000 <= r2469_e <= 30000.000000 \* CARBON-DIOXIDE, L2R *\ - 0.000000 <= r2470_e <= 30000.000000 \* WATER, L2R *\ - 0.000000 <= r2471_e <= 30000.000000 \* Pi, L2R *\ - 0.000000 <= r2472_e <= 30000.000000 \* PROTON, L2R *\ - 0.000000 <= r2473_e <= 30000.000000 \* FORMATE, L2R *\ - 0.000000 <= r2474_e <= 30000.000000 \* ACET, L2R *\ - 0.000000 <= r2475_e <= 30000.000000 \* ETOH, L2R *\ - 0.000000 <= r2476_e <= 30000.000000 \* SUC, L2R *\ - 0.000000 <= r2477_e <= 30000.000000 \* D-LACTATE, L2R *\ - 0.000000 <= r2478_e <= 30000.000000 \* GLYCEROL, L2R *\ - 0.000000 <= r2479_e <= 30000.000000 \* HYDROGEN-MOLECULE, L2R *\ - 0.000000 <= r2480_e <= 30000.000000 \* URACIL, L2R *\ - 0.000000 <= r2481_e <= 30000.000000 \* XANTHINE, L2R *\ - 0.000000 <= r2482_e <= 30000.000000 \* HYPOXANTHINE, L2R *\ - 0.000000 <= r2483_e <= 30000.000000 \* THYMINE, L2R *\ - 0.000000 <= r2484_e <= 30000.000000 \* INDOLE, L2R *\ - 0.000000 <= r2485_e <= 30000.000000 \* UREA, L2R *\ - 0.000000 <= r2486_e <= 30000.000000 \* D-ALANINE, L2R *\ - 0.000000 <= r2487_e <= 30000.000000 \* UNDECAPRENYL-DIPHOSPHATE, L2R *\ - 0.000000 <= r2488_e <= 30000.000000 \* CPD-560, L2R *\ - 0.000000 <= r2489_e <= 30000.000000 \* CPD-108, L2R *\ - 0.000000 <= r2490_e <= 30000.000000 \* MI-PENTAKISPHOSPHATE, L2R *\ - 0.000000 <= r2491_e <= 30000.000000 \* CPD-534, L2R *\ - 0.000000 <= r2492_e <= 30000.000000 \* CARBON-MONOXIDE, L2R *\ - 0.000000 <= r2493_e <= 30000.000000 \* METOH, L2R *\ - 0.000000 <= r2494_e <= 30000.000000 \* CPD-10774, L2R *\ - 0.000000 <= r2495_e <= 30000.000000 \* BETAINE, L2R *\ - 0.000000 <= r2496_e <= 30000.000000 \* CPD-239, L2R *\ - 0.000000 <= r2497_e <= 30000.000000 \* Glucopyranose, L2R *\ - 0.000000 <= r2498_e <= 30000.000000 \* CPD-564, L2R *\ - 0.000000 <= r2499_e <= 30000.000000 \* CPD0-2167, L2R *\ - 0.000000 <= r2500_e <= 30000.000000 \* CH33ADO, L2R *\ - 0.000000 <= r2501_e <= 30000.000000 \* CPD-1772, L2R *\ - 0.000000 <= r2502_e <= 30000.000000 \* S-ADENOSYL-4-METHYLTHIO-2-OXOBUTANOATE, L2R *\ - 0.000000 <= r2503_e <= 30000.000000 \* BUTANAL, L2R *\ - 0.000000 <= r2504_e <= 30000.000000 \* GLYCOLALDEHYDE, L2R *\ - 0.000000 <= r2505_e <= 30000.000000 \* GLYCOLLATE, L2R *\ - 0.000000 <= r2506_e <= 30000.000000 \* CPD-10774, L2R *\ - - -End diff --git a/reconstruction/ecoli/flat/unprocessed/ecocyc_full_biomass.lplog b/reconstruction/ecoli/flat/unprocessed/ecocyc_full_biomass.lplog deleted file mode 100644 index cd4e49c03d..0000000000 --- a/reconstruction/ecoli/flat/unprocessed/ecocyc_full_biomass.lplog +++ /dev/null @@ -1,5198 +0,0 @@ -r1,TRANS-RXN0-275 -r2,RXN0-0 -r3,RXN0-0-CPD0-1123//CPD0-1123.21. -r4,RXN0-0-CPD0-1122//CPD0-1122.21. -r5a,TRANS-RXN-145 -r5b,TRANS-RXN-145 -r6,TRANS-RXN-141 -r7a,TRANS-RXN-131 -r7b,TRANS-RXN-131 -r8a,TRANS-RXN0-490 -r8b,TRANS-RXN0-490 -r9,TRANS-RXN0-445 -r10,RXN0-1741 -r11,RXN-15315 -r12,TRANS-RXN-141B -r13,TRANS-RXN-137 -r14a,TRANS-RXN0-536 -r14b,TRANS-RXN0-536 -r15a,TRANS-RXN0-536-GLYCERALD//GLYCERALD.21. -r15b,TRANS-RXN0-536-GLYCERALD//GLYCERALD.21. -r16a,TRANS-RXN0-536-L-GLYCERALDEHYDE//L-GLYCERALDEHYDE.35. -r16b,TRANS-RXN0-536-L-GLYCERALDEHYDE//L-GLYCERALDEHYDE.35. -r17a,TRANS-RXN0-460 -r17b,TRANS-RXN0-460 -r18,RXN0-1802 -r19,RXN0-1802-CPD-9245//CPD-9245.19. -r20,RXN0-1802-PALMITATE//PALMITATE.21. -r21,RXN0-1802-CPD-7836//CPD-7836.19. -r22,RXN0-1802-OLEATE-CPD//OLEATE-CPD.23. -r23,RXN0-1802-CPD0-1159//CPD0-1159.21. -r24,RXN0-1802-STEARIC_ACID//STEARIC_ACID.27. -r25,RXN0-1802-CPD-9247//CPD-9247.19. -r26a,TRANS-RXN0-206 -r26b,TRANS-RXN0-206 -r27,TRANS-RXN-143 -r28,TRANS-RXN-139 -r29a,TRANS-RXN0-537 -r29b,TRANS-RXN0-537 -r30,ABC-56-RXN-ATP/CPD-10246/WATER//CPD-10246/ADP/Pi/PROTON.45. -r31,ABC-56-RXN-ATP/CPD-10434/WATER//CPD-10434/ADP/Pi/PROTON.45. -r32,ABC-56-RXN-ATP/CPD-3744/WATER//CPD-3744/ADP/Pi/PROTON.43. -r33,ABC-56-RXN-ATP/CPD-3745/WATER//CPD-3745/ADP/Pi/PROTON.43. -r34,ABC-56-RXN-ATP/CPD-3746/WATER//CPD-3746/ADP/Pi/PROTON.43. -r35,ABC-56-RXN-ATP/CPD0-1958/WATER//CPD0-1958/ADP/Pi/PROTON.45. -r36a,TRANS-RXN-1 -r36b,TRANS-RXN-1 -r37,TRANS-RXN0-468 -r38,TRANS-RXN0-468-DEOXYADENOSINE//DEOXYADENOSINE.31. -r39,TRANS-RXN0-468-DEOXYINOSINE//DEOXYINOSINE.27. -r40,TRANS-RXN0-468-DEOXYGUANOSINE//DEOXYGUANOSINE.31. -r41,TRANS-RXN0-468-DEOXYURIDINE//DEOXYURIDINE.27. -r42,TRANS-RXN0-468-DEOXYCYTIDINE//DEOXYCYTIDINE.29. -r43,TRANS-RXN0-468-THYMIDINE//THYMIDINE.21. -r44,TRANS-RXN0-468-CPD-16020//CPD-16020.21. -r45,TRANS-RXN0-468-CPD0-1321//CPD0-1321.21. -r46,TRANS-RXN0-468-5-METHYLAMINOMETHYL-2-THIOURIDINE//5-METHYLAMINOMETHYL-2-THIOURIDINE.69. -r47,TRANS-RXN0-468-CPD0-1320//CPD0-1320.21. -r48,TRANS-RXN0-468-5-METHYLAMINOMETHYL-2-SELENOURIDINE//5-METHYLAMINOMETHYL-2-SELENOURIDINE.73. -r49,TRANS-RXN0-468-CPD0-1311//CPD0-1311.21. -r50,TRANS-RXN0-468-CPD0-1322//CPD0-1322.21. -r51,TRANS-RXN0-468-CPD-15544//CPD-15544.21. -r52,TRANS-RXN0-468-CPD0-1312//CPD0-1312.21. -r53,TRANS-RXN0-468-CYTIDINE//CYTIDINE.19. -r54,TRANS-RXN0-468-URIDINE//URIDINE.17. -r55,TRANS-RXN0-468-CPD0-1319//CPD0-1319.21. -r56,TRANS-RXN0-468-INOSINE//INOSINE.17. -r57,TRANS-RXN0-468-GUANOSINE//GUANOSINE.21. -r58,TRANS-RXN0-468-ADENOSINE//ADENOSINE.21. -r59,TRANS-RXN0-468-XANTHOSINE//XANTHOSINE.23. -r60,TRANS-RXN0-468-ADENOSINE5TRIPHOSPHO5ADENOSINE//ADENOSINE5TRIPHOSPHO5ADENOSINE.63. -r61,TRANS-RXN0-468-ADENOSYL-P4//ADENOSYL-P4.25. -r62,TRANS-RXN0-468-CPD0-1137//CPD0-1137.21. -r63,RXN0-3 -r64,ABC-5-RXN -r65,ABC-37-RXN -r66,ABC-19-RXN -r67,TRANS-RXN0-573-CPD0-2030/ATP/WATER//CPD0-2030/ADP/Pi/PROTON.45. -r68,TRANS-RXN0-573-L-1-GLYCEROPHOSPHORYLETHANOL-AMINE/ATP/WATER//L-1-GLYCEROPHOSPHORYLETHANOL-AMINE/ADP/Pi/PROTON.95. -r69,TRANS-RXN0-573-L-1-GLYCERO-PHOSPHORYLCHOLINE/ATP/WATER//L-1-GLYCERO-PHOSPHORYLCHOLINE/ADP/Pi/PROTON.85. -r70,TRANS-RXN0-573-GLYCEROPHOSPHOGLYCEROL/ATP/WATER//GLYCEROPHOSPHOGLYCEROL/ADP/Pi/PROTON.71. -r71,TRANS-RXN0-573-CPD-8260/ATP/WATER//CPD-8260/ADP/Pi/PROTON.43. -r72,TRANS-RXN0-573-CPD-12822/ATP/WATER//CPD-12822/ADP/Pi/PROTON.45. -r73,TRANS-RXN0-573-CPD0-2330/ATP/WATER//CPD0-2330/ADP/Pi/PROTON.45. -r74,TRANS-RXN0-202 -r75,RXN0-11 -r76,ABC-34-RXN -r77,ABC-15-RXN -r78,TRANS-RXN0-510 -r79,TRANS-RXN-250 -r80,ABC-9-RXN -r81,ABC-3-RXN -r82,ABC-12-RXN -r83,TRANS-RXN-2 -r84,ABC-7-RXN -r85,ABC-26-RXN -r86,3.6.3.39-RXN -r87,3.6.3.39-RXN-CPD0-1050/ATP/WATER//CPD0-1050/ADP/Pi/PROTON.45. -r88,3.6.3.39-RXN-CPD0-1052/ATP/WATER//CPD0-1052/ADP/Pi/PROTON.45. -r89,3.6.3.39-RXN-CPD0-1051/ATP/WATER//CPD0-1051/ADP/Pi/PROTON.45. -r90,3.6.3.39-RXN-CPD0-936/ATP/WATER//CPD0-936/ADP/Pi/PROTON.43. -r91,3.6.3.39-RXN-CPD0-1283/ATP/WATER//CPD0-1283/ADP/Pi/PROTON.45. -r92,3.6.3.39-RXN-CPD0-938/ATP/WATER//CPD0-938/ADP/Pi/PROTON.43. -r93,3.6.3.39-RXN-CPD0-2238/ATP/WATER//CPD0-2238/ADP/Pi/PROTON.45. -r94,3.6.3.39-RXN-KDO2-LAUROYL-LIPID-IVA/ATP/WATER//KDO2-LAUROYL-LIPID-IVA/ADP/Pi/PROTON.71. -r95,3.6.3.39-RXN-CPD0-2257/ATP/WATER//CPD0-2257/ADP/Pi/PROTON.45. -r96,3.6.3.39-RXN-KDO2-LIPID-IVA-COLD/ATP/WATER//KDO2-LIPID-IVA-COLD/ADP/Pi/PROTON.65. -r97,3.6.3.39-RXN-CPD0-930/ATP/WATER//CPD0-930/ADP/Pi/PROTON.43. -r98,3.6.3.39-RXN-PHOSPHATIDYLETHANOLAMINE-KDO2/ATP/WATER//PHOSPHATIDYLETHANOLAMINE-KDO2/ADP/Pi/PROTON.85. -r99,3.6.3.39-RXN-CPD0-934/ATP/WATER//CPD0-934/ADP/Pi/PROTON.43. -r100,3.6.3.39-RXN-CPD-12284/ATP/WATER//CPD-12284/ADP/Pi/PROTON.45. -r101,3.6.3.39-RXN-CPD0-937/ATP/WATER//CPD0-937/ADP/Pi/PROTON.43. -r102,3.6.3.39-RXN-CPD-17530/ATP/WATER//CPD-17530/ADP/Pi/PROTON.45. -r103,3.6.3.39-RXN-KDO-LIPID-IVA/ATP/WATER//KDO-LIPID-IVA/ADP/Pi/PROTON.53. -r104,3.6.3.39-RXN-CPD0-2240/ATP/WATER//CPD0-2240/ADP/Pi/PROTON.45. -r105,3.6.3.39-RXN-KDO2-LIPID-IVA/ATP/WATER//KDO2-LIPID-IVA/ADP/Pi/PROTON.55. -r106,3.6.3.39-RXN-CPD0-929/ATP/WATER//CPD0-929/ADP/Pi/PROTON.43. -r107,3.6.3.39-RXN-L-ARA4N-MODIFIED-KDO2-LIPID-A/ATP/WATER//L-ARA4N-MODIFIED-KDO2-LIPID-A/ADP/Pi/PROTON.85. -r108,3.6.3.39-RXN-CPD0-933/ATP/WATER//CPD0-933/ADP/Pi/PROTON.43. -r109,3.6.3.39-RXN-CPD-11653/ATP/WATER//CPD-11653/ADP/Pi/PROTON.45. -r110,3.6.3.39-RXN-HEPTOSYL-KDO2-LIPID-IVA/ATP/WATER//HEPTOSYL-KDO2-LIPID-IVA/ADP/Pi/PROTON.73. -r111,3.6.3.39-RXN-CPD0-2239/ATP/WATER//CPD0-2239/ADP/Pi/PROTON.45. -r112,3.6.3.39-RXN-KDO2-LIPID-A/ATP/WATER//KDO2-LIPID-A/ADP/Pi/PROTON.51. -r113,3.6.3.39-RXN-CPD0-2265/ATP/WATER//CPD0-2265/ADP/Pi/PROTON.45. -r114,3.6.3.39-RXN-KDO2-PALMITOLEOYL-LIPID-IVA/ATP/WATER//KDO2-PALMITOLEOYL-LIPID-IVA/ADP/Pi/PROTON.81. -r115,3.6.3.39-RXN-CPD0-932/ATP/WATER//CPD0-932/ADP/Pi/PROTON.43. -r116,3.6.3.39-RXN-CPD0-935/ATP/WATER//CPD0-935/ADP/Pi/PROTON.43. -r117,3.6.3.39-RXN-CPD0-1048/ATP/WATER//CPD0-1048/ADP/Pi/PROTON.45. -r118,3.6.3.39-RXN-CPD0-1049/ATP/WATER//CPD0-1049/ADP/Pi/PROTON.45. -r119,TRANS-RXN0-478 -r120,RXN0-4522 -r121,ABC-23-RXN-ATP/CPD0-1076/WATER//ADP/CPD0-1076/Pi/PROTON.45. -r122,ABC-23-RXN-ATP/CPD0-1075/WATER//ADP/CPD0-1075/Pi/PROTON.45. -r123,ABC-23-RXN-ATP/CPD0-1068/WATER//ADP/CPD0-1068/Pi/PROTON.45. -r124,TRANS-RXN0-268 -r125,ABC-4-RXN -r126,ABC-2-RXN-ATP/CPD-15699/WATER//ADP/CPD-15699/Pi/PROTON.45. -r127,ABC-2-RXN-ATP/ARABINOSE/WATER//ADP/ARABINOSE/Pi/PROTON.45. -r128,ABC-2-RXN-ATP/CPD-12045/WATER//ADP/CPD-12045/Pi/PROTON.45. -r129,TRANS-RXN0-593 -r130,TRANS-RXN0-207 -r131,ABC-35-RXN -r132,ABC-16-RXN -r133,TRANS-RXN0-511 -r134,TRANS-RXN0-511-CPD-8990/ATP/WATER//CPD-8990/ADP/Pi/PROTON.43. -r135,TRANS-RXN0-511-CPD-8989/ATP/WATER//CPD-8989/ADP/Pi/PROTON.43. -r136,TRANS-RXN-265 -r137a,ATPSYN-RXN[CCO-PM-BAC-NEG]-ATP/PROTON/WATER//ADP/Pi/PROTON.48. -r137b,ATPSYN-RXN[CCO-PM-BAC-NEG]-ATP/PROTON/WATER//ADP/Pi/PROTON.48. -r138a,ATPSYN-RXN[CCO-OUT-CCO-IN]-ATP/PROTON/WATER//ADP/Pi/PROTON.48. -r138b,ATPSYN-RXN[CCO-OUT-CCO-IN]-ATP/PROTON/WATER//ADP/Pi/PROTON.48. -r139,ABC-32-RXN -r140,ABC-13-RXN -r141,TRANS-RXN0-503 -r142,TRANS-RXN-236 -r143,ABC-70-RXN -r144,ABC-27-RXN -r145,ABC-10-RXN -r146,TRANS-RXN0-277 -r147,TRANS-RXN0-479 -r148,TRANS-RXN-181A -r149,RXN0-5205 -r150,ABC-63-RXN -r151,ABC-24-RXN -r152,TRANS-RXN0-492 -r153,TRANS-RXN0-454 -r154,ABC-42-RXN-CPD-15629/ATP/WATER//CPD-15629/ADP/Pi/PROTON.45. -r155,ABC-20-RXN -r156,TRANS-RXN0-222 -r157,ABC-36-RXN -r158,TRANS-RXN0-514 -r159,ABC-18-RXN -r160,TRANS-RXN0-541 -r161,TRANS-RXN0-273 -r162,TRANS-RXN0-162 -r163,TRANS-RXN0-565 -r164,RXN-8638 -r165a,TRANS-RXN0-556 -r165b,TRANS-RXN0-556 -r166,ABC-33-RXN-ATP/CPD-15377/WATER//ADP/CPD-15377/Pi/PROTON.45. -r167,ABC-33-RXN-ATP/XYLOSE/WATER//ADP/XYLOSE/Pi/PROTON.39. -r168,ABC-33-RXN-ATP/BETA-D-XYLOSE/WATER//ADP/BETA-D-XYLOSE/Pi/PROTON.53. -r169,TRANS-RXN0-535 -r170,ABC-14-RXN -r171,TRANS-RXN0-527 -r172,TRANS-RXN0-504 -r173,TRANS-RXN0-566 -r174,TRANS-RXN-238-CPD0-1077/ATP/WATER//CPD0-1077/ADP/Pi/PROTON.45. -r175,TRANS-RXN-238-CPD0-1074/ATP/WATER//CPD0-1074/ADP/Pi/PROTON.45. -r176,TRANS-RXN-238-CPD-1106/ATP/WATER//CPD-1106/ADP/Pi/PROTON.43. -r177,TRANS-RXN-238-CPD0-2521/ATP/WATER//CPD0-2521/ADP/Pi/PROTON.45. -r178,ABC-8-RXN -r179,ABC-8-RXN-ATP/CPD0-2190/WATER//ADP/CPD0-2190/Pi/PROTON.45. -r180,ABC-8-RXN-ATP/CPD-10814/WATER//ADP/CPD-10814/Pi/PROTON.45. -r181,ABC-8-RXN-ATP/L-GAMMA-GLUTAMYLCYSTEINE/WATER//ADP/L-GAMMA-GLUTAMYLCYSTEINE/Pi/PROTON.75. -r182,ABC-8-RXN-ATP/CPD-13395/WATER//ADP/CPD-13395/Pi/PROTON.45. -r183,ABC-8-RXN-ATP/CPD-13401/WATER//ADP/CPD-13401/Pi/PROTON.45. -r184,ABC-8-RXN-ATP/CPD-13406/WATER//ADP/CPD-13406/Pi/PROTON.45. -r185,ABC-8-RXN-ATP/CPD0-1944/WATER//ADP/CPD0-1944/Pi/PROTON.45. -r186,ABC-8-RXN-ATP/CARNOSINE/WATER//ADP/CARNOSINE/Pi/PROTON.45. -r187,ABC-8-RXN-ATP/CYS-GLY/WATER//ADP/CYS-GLY/Pi/PROTON.41. -r188,ABC-8-RXN-ATP/CPD-13394/WATER//ADP/CPD-13394/Pi/PROTON.45. -r189,ABC-8-RXN-ATP/CPD-13398/WATER//ADP/CPD-13398/Pi/PROTON.45. -r190,ABC-8-RXN-ATP/CPD-13404/WATER//ADP/CPD-13404/Pi/PROTON.45. -r191,ABC-8-RXN-ATP/CPD0-1445/WATER//ADP/CPD0-1445/Pi/PROTON.45. -r192,ABC-8-RXN-ATP/ALA-GLY/WATER//ADP/ALA-GLY/Pi/PROTON.41. -r193,ABC-8-RXN-ATP/CPD-13393/WATER//ADP/CPD-13393/Pi/PROTON.45. -r194,ABC-8-RXN-ATP/CPD-13397/WATER//ADP/CPD-13397/Pi/PROTON.45. -r195,ABC-8-RXN-ATP/CPD-13403/WATER//ADP/CPD-13403/Pi/PROTON.45. -r196,ABC-8-RXN-ATP/CPD-3569/WATER//ADP/CPD-3569/Pi/PROTON.43. -r197,ABC-8-RXN-ATP/D-ALA-D-ALA/WATER//ADP/D-ALA-D-ALA/Pi/PROTON.49. -r198,ABC-8-RXN-ATP/CPD-13390/WATER//ADP/CPD-13390/Pi/PROTON.45. -r199,TRANS-RXN0-557 -r200,TRANS-RXN0-557-R--ALLANTOIN//R--ALLANTOIN.27. -r201,TRANS-RXN0-557-S-ALLANTOIN//S-ALLANTOIN.25. -r202,ABC-28-RXN -r203,TRANS-RXN0-549 -r204,TRANS-RXN0-491 -r205,TRANS-RXN0-488 -r206,ABC-64-RXN -r207,ABC-25-RXN -r208,TRANS-RXN0-559 -r209,TRANS-RXN0-540 -r210,TRANS-RXN0-551 -r211,TRANS-RXN-169 -r212,RXN0-17 -r213,TRANS-RXN-167-PTSH-PHOSPHORYLATED/N-ACETYL-D-GLUCOSAMINE//CPD-16168/PTSH-MONOMER.67. -r214,TRANS-RXN-158A -r215,TRANS-RXN-156 -r216,TRANS-RXN-153A -r217,TRANS-RXN0-446 -r218,RXN0-2461 -r219,TRANS-RXN-167A-PTSH-PHOSPHORYLATED/GLUCOSAMINE//CPD-13469/PTSH-MONOMER.56. 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-r761b,1.1.1.264-RXN-L-IDONATE/NADP//5-DEHYDROGLUCONATE/NADPH/PROTON.48. -r762,RXN0-5120 -r763a,FERREDOXIN--NAD+-REDUCTASE-RXN -r763b,FERREDOXIN--NAD+-REDUCTASE-RXN -r764,RXN-12444 -r765,MALONYL-ACPDECARBOX-RXN-MALONYL-ACP/PROTON//ACETYL-ACP/CARBON-DIOXIDE.46. -r766,GLUTCYSLIG-RXN -r767,2-METHYLCITRATE-SYNTHASE-RXN -r768,RIBONUCLEOSIDE-DIP-REDUCTI-RXN-Ox-Thioredoxin/CPD0-2231/WATER//Red-Thioredoxin/IDP.52. -r769,RIBONUCLEOSIDE-DIP-REDUCTI-RXN-Ox-Thioredoxin/DGDP/WATER//Red-Thioredoxin/GDP.47. -r770,RIBONUCLEOSIDE-DIP-REDUCTI-RXN-Ox-Thioredoxin/DADP/WATER//Red-Thioredoxin/ADP.47. -r771,RIBONUCLEOSIDE-DIP-REDUCTI-RXN-Ox-Thioredoxin/DUDP/WATER//Red-Thioredoxin/UDP.47. -r772,RIBONUCLEOSIDE-DIP-REDUCTI-RXN-Ox-Thioredoxin/DCDP/WATER//Red-Thioredoxin/CDP.47. -r773,RXN-11476-3-Hydroxyglutaryl-ACP-methyl-ester/NADP//3-Ketoglutaryl-ACP-methyl-ester/NADPH/PROTON.86. -r774,RXN-12861 -r775a,RXN-15511 -r775b,RXN-15511 -r776,GLYCOLALD-DEHYDROG-RXN -r777,RXN-9523-Hexanoyl-ACPs/MALONYL-ACP/PROTON//3-Oxo-octanoyl-ACPs/CARBON-DIOXIDE/ACP.73. -r778a,2.6.1.57-RXN -r778b,2.6.1.57-RXN -r779,RXN-9557-R-3-hydroxy-cis-vaccenoyl-ACPs//cis-vaccen-2-enoyl-ACPs/WATER.62. -r780,RXN0-5217 -r781,RXN0-1133 -r782,RXN-13460 -r783,GPH-RXN -r784a,3-CH3-2-OXOBUTANOATE-OH-CH3-XFER-RXN-CPD-12996/2-KETO-ISOVALERATE/WATER//2-DEHYDROPANTOATE/CPD-1301.63. -r784b,3-CH3-2-OXOBUTANOATE-OH-CH3-XFER-RXN-CPD-12996/2-KETO-ISOVALERATE/WATER//2-DEHYDROPANTOATE/CPD-1301.63. -r785a,3-CH3-2-OXOBUTANOATE-OH-CH3-XFER-RXN-METHYLENE-THF/2-KETO-ISOVALERATE/WATER//2-DEHYDROPANTOATE/THF.62. -r785b,3-CH3-2-OXOBUTANOATE-OH-CH3-XFER-RXN-METHYLENE-THF/2-KETO-ISOVALERATE/WATER//2-DEHYDROPANTOATE/THF.62. -r786,RXN-14091 -r787,H2NEOPTERINALDOL-RXN -r788a,1.8.1.4-RXN -r788b,1.8.1.4-RXN -r789,3-HYDROXYDECANOYL-ACP-DEHYDR-RXN-R-3-hydroxyarachidoyl-ACPs//trans-delta2-arachidoyl-ACPs/WATER.63. -r790,3-HYDROXYDECANOYL-ACP-DEHYDR-RXN-R-3-hydroxystearoyl-ACPs//Octadec-2-enoyl-ACPs/WATER.53. -r791,3-HYDROXYDECANOYL-ACP-DEHYDR-RXN-R-3-Hydroxypalmitoyl-ACPs//2-Hexadecenoyl-ACPs/WATER.53. -r792,3-HYDROXYDECANOYL-ACP-DEHYDR-RXN-R-3-hydroxymyristoyl-ACPs//Tetradec-2-enoyl-ACPs/WATER.55. -r793,3-HYDROXYDECANOYL-ACP-DEHYDR-RXN-R-3-hydroxydodecanoyl-ACPs//Dodec-2-enoyl-ACPs/WATER.53. -r794,3-HYDROXYDECANOYL-ACP-DEHYDR-RXN-Beta-hydroxydecanoyl-ACPs//Trans-D2-decenoyl-ACPs/WATER.56. -r795,3-HYDROXYDECANOYL-ACP-DEHYDR-RXN-3-Hydroxy-octanoyl-ACPs//2-Octenoyl-ACPs/WATER.47. -r796,3-HYDROXYDECANOYL-ACP-DEHYDR-RXN-R-3-hydroxyhexanoyl-ACPs//Hex-2-enoyl-ACPs/WATER.49. -r797,3-HYDROXYDECANOYL-ACP-DEHYDR-RXN-Beta-3-hydroxybutyryl-ACPs//Crotonyl-ACPs/WATER.48. -r798a,RXN0-5387 -r798b,RXN0-5387 -r799,RXN-14255 -r800,HOMOCYSMETB12-RXN-HOMO-CYS/CPD-1302//MET/CPD-1301.32. -r801,HOMOCYSMETB12-RXN-HOMO-CYS/5-METHYL-THF//MET/THF.31. -r802,3.4.11.18-RXN-Protein-With-N-Terminal-Met/WATER//MET/Peptides-holder/PROTON.62. -r803a,RXN0-5433 -r803b,RXN0-5433 -r804a,RXN-14394 -r804b,RXN-14394 -r805a,PHOBCREC-RXN -r805b,PHOBCREC-RXN -r806a,IPPISOM-RXN -r806b,IPPISOM-RXN -r807,RXN-11479-Glutaryl-ACP-methyl-esters/MALONYL-ACP/PROTON//3-Ketopimeloyl-ACP-methyl-esters/CARBON-DIOXIDE/ACP.99. -r808a,RXN0-6277-CPD-722/Red-Thioredoxin//BIOTIN/Ox-Thioredoxin/WATER.53. -r808b,RXN0-6277-CPD-722/Red-Thioredoxin//BIOTIN/Ox-Thioredoxin/WATER.53. -r809,RXN-15890-Holo-EntF/SERYL-AMP//Seryl-EntF/AMP/PROTON.43. -r810,RXN-14509 -r811,RXN-9528-Beta-hydroxydecanoyl-ACPs/NADP//3-oxo-decanoyl-ACPs/NADPH/PROTON.65. -r812,L-ASPARTATE-OXID-RXN -r813,RXN-9657-Butanoyl-ACPs/NAD//Crotonyl-ACPs/NADH/PROTON.45. -r814,4.3.1.17-RXN -r815,RXN0-6452 -r816a,RXN-14747 -r816b,RXN-14747 -r817,LYSDECARBOX-RXN -r818,RXN0-748-DGDP/Oxidized-NrdH-Proteins/WATER//GDP/Reduced-NrdH-Proteins.61. -r819,1.8.4.14-RXN-MET/Ox-Thioredoxin/WATER//CPD-8990/Red-Thioredoxin.51. -r820,RXN-14997 -r821,3-OXOACYL-ACP-SYNTH-RXN-MALONYL-ACP/POLYMER-INST-Saturated-Fatty-Acyl-ACPs-C0-H0/PROTON//ACP/3-oxo-hexanoyl-ACPs/CARBON-DIOXIDE.104. -r822,3-OXOACYL-ACP-SYNTH-RXN-MALONYL-ACP/Hexanoyl-ACPs/PROTON//ACP/3-Oxo-octanoyl-ACPs/CARBON-DIOXIDE.73. -r823,3-OXOACYL-ACP-SYNTH-RXN-MALONYL-ACP/Octanoyl-ACPs/PROTON//ACP/3-oxo-decanoyl-ACPs/CARBON-DIOXIDE.73. -r824,3-OXOACYL-ACP-SYNTH-RXN-MALONYL-ACP/Decanoyl-ACPs/PROTON//ACP/3-oxo-dodecanoyl-ACPs/CARBON-DIOXIDE.75. -r825,3-OXOACYL-ACP-SYNTH-RXN-MALONYL-ACP/Dodecanoyl-ACPs/PROTON//ACP/3-oxo-myristoyl-ACPs/CARBON-DIOXIDE.76. -r826,3-OXOACYL-ACP-SYNTH-RXN-MALONYL-ACP/Myristoyl-ACPs/PROTON//ACP/3-oxo-palmitoyl-ACPs/CARBON-DIOXIDE.75. -r827,3-OXOACYL-ACP-SYNTH-RXN-MALONYL-ACP/Palmitoyl-ACPs/PROTON//ACP/3-oxo-stearoyl-ACPs/CARBON-DIOXIDE.74. -r828,3-OXOACYL-ACP-SYNTH-RXN-MALONYL-ACP/Stearoyl-ACPs/PROTON//ACP/3-oxo-arachidoyl-ACPs/CARBON-DIOXIDE.75. -r829,3-OXOACYL-ACP-SYNTH-RXN-MALONYL-ACP/Arachidoyl-ACPs/PROTON//ACP/3-oxo-behenoyl-ACPs/CARBON-DIOXIDE.75. -r830a,MANNPDEHYDROG-RXN -r830b,MANNPDEHYDROG-RXN -r831,ACETYLORNTRANSAM-RXN -r832,CHER-RXN -r833,RXN-15292 -r834a,GCVT-RXN -r834b,GCVT-RXN -r835a,MMUM-RXN -r835b,MMUM-RXN -r836,ADENOSYLHOMOCYSTEINE-NUCLEOSIDASE-RXN -r837,RXN0-6676 -r838,RXN-10654-CIS-DELTA5-DODECENOYL-ACP/MALONYL-ACP/PROTON//3-oxo-cis-D7-tetradecenoyl-ACPs/ACP-MONOMER/CARBON-DIOXIDE.105. -r839,RXN-10654-Cis-Delta5-dodecenoyl-ACPs/MALONYL-ACP/PROTON//3-oxo-cis-D7-tetradecenoyl-ACPs/ACP/CARBON-DIOXIDE.98. -r840a,RXN-15607 -r840b,RXN-15607 -r841,RXN-11482-Pimeloyl-ACP-methyl-esters/NAD//Enoylpimeloyl-ACP-methyl-esters/NADH/PROTON.76. -r842,NICONUCADENYLYLTRAN-RXN -r843,RXN-5741-CPD-195/ACP/ATP//Octanoyl-ACPs/AMP/PPI.39. -r844a,ALANINE-AMINOTRANSFERASE-RXN -r844b,ALANINE-AMINOTRANSFERASE-RXN -r845,RXN-9533-R-3-hydroxydodecanoyl-ACPs//Dodec-2-enoyl-ACPs/WATER.53. -r846,RXN0-6941 -r847,RXN-9660-Decanoyl-ACPs/NAD//Trans-D2-decenoyl-ACPs/NADH/PROTON.54. -r848,RXN-1961 -r849a,ORNCARBAMTRANSFER-RXN -r849b,ORNCARBAMTRANSFER-RXN -r850,RXN0-5098 -r851,AMACETOXID-RXN -r852,RXN0-6982 -r853,RXN0-947 -r854,RXN-6622 -r855,PEPCARBOXYKIN-RXN -r856,3.1.4.14-RXN-ACP/WATER//PANTETHEINE-P/apo-ACP/PROTON.40. -r857,3.1.4.14-RXN-Holo-CmaA-peptidyl-carrier-protein/WATER//PANTETHEINE-P/CmaA-peptidyl-carrier-protein/PROTON.93. -r858,3.1.4.14-RXN-Holo-CmaD-peptidyl-carrier-protein/WATER//PANTETHEINE-P/CmaD-peptidyl-carrier-protein/PROTON.93. -r859,3.1.4.14-RXN-PigJ/WATER//PANTETHEINE-P/Apo-PigJ/PROTON.42. -r860,3.1.4.14-RXN-Holo-AsbD-Proteins/WATER//PANTETHEINE-P/Apo-AsbD-Proteins/PROTON.65. -r861,3.1.4.14-RXN-Holo-EntB/WATER//PANTETHEINE-P/Apo-EntB/PROTON.47. -r862,3.1.4.14-RXN-ACP-MONOMER/WATER//PANTETHEINE-P/EG50003-MONOMER/PROTON.56. -r863,ARGININE-N-SUCCINYLTRANSFERASE-RXN -r864,RXN0-7008-PRO/UBIQUINONE-8//L-DELTA1-PYRROLINE_5-CARBOXYLATE/CPD-9956/PROTON.67. -r865,ENOYL-ACP-REDUCT-NADPH-RXN-POLYMER-INST-Saturated-Fatty-Acyl-ACPs-C0-H0/NADP//NADPH/Crotonyl-ACPs/PROTON.78. -r866,ENOYL-ACP-REDUCT-NADPH-RXN-Hexanoyl-ACPs/NADP//NADPH/Hex-2-enoyl-ACPs/PROTON.50. -r867,ENOYL-ACP-REDUCT-NADPH-RXN-Octanoyl-ACPs/NADP//NADPH/2-Octenoyl-ACPs/PROTON.49. -r868,ENOYL-ACP-REDUCT-NADPH-RXN-Decanoyl-ACPs/NADP//NADPH/Trans-D2-decenoyl-ACPs/PROTON.56. -r869,ENOYL-ACP-REDUCT-NADPH-RXN-Dodecanoyl-ACPs/NADP//NADPH/Dodec-2-enoyl-ACPs/PROTON.54. -r870,ENOYL-ACP-REDUCT-NADPH-RXN-Myristoyl-ACPs/NADP//NADPH/Tetradec-2-enoyl-ACPs/PROTON.56. -r871,ENOYL-ACP-REDUCT-NADPH-RXN-Palmitoyl-ACPs/NADP//NADPH/2-Hexadecenoyl-ACPs/PROTON.54. -r872,ENOYL-ACP-REDUCT-NADPH-RXN-Stearoyl-ACPs/NADP//NADPH/Octadec-2-enoyl-ACPs/PROTON.54. -r873,ENOYL-ACP-REDUCT-NADPH-RXN-Arachidoyl-ACPs/NADP//NADPH/trans-delta2-arachidoyl-ACPs/PROTON.64. -r874,RXN-8344 -r875a,PHENYLSERINE-ALDOLASE-RXN -r875b,PHENYLSERINE-ALDOLASE-RXN -r876a,ATPPHOSPHORIBOSYLTRANS-RXN -r876b,ATPPHOSPHORIBOSYLTRANS-RXN -r877,PRODISULFREDUCT-A-RXN-GLUTATHIONE/Oxidized-NrdH-Proteins//OXIDIZED-GLUTATHIONE/Reduced-NrdH-Proteins.79. -r878,PRODISULFREDUCT-A-RXN-GLUTATHIONE/Ox-Glutaredoxins//OXIDIZED-GLUTATHIONE/Red-Glutaredoxins.69. -r879,RXN0-7067 -r880,RXN-10657-Cis-Delta7-tetradecenoyl-ACPs/NAD//Trans-D3-cis-D7-tetradecenoyl-ACPs/NADH/PROTON.82. -r881a,RXN-8629 -r881b,RXN-8629 -r882,CARNDETRU-RXN -r883,RXN-9537-R-3-hydroxymyristoyl-ACPs//Tetradec-2-enoyl-ACPs/WATER.55. -r884a,RXN0-7104 -r884b,RXN0-7104 -r885,RXN-9663-Palmitoyl-ACPs/NAD//2-Hexadecenoyl-ACPs/NADH/PROTON.52. -r886a,RXN0-1382 -r886b,RXN0-1382 -r887,RXN0-2141-Cis-delta-3-decenoyl-ACPs/MALONYL-ACP/PROTON//b-Keto-cis-D5-dodecenoyl-ACPs/ACP/CARBON-DIOXIDE.95. -r888,PROTOPORGENOXI-RXN -r889a,DARABALDOL-RXN -r889b,DARABALDOL-RXN -r890,COBINPGUANYLYLTRANS-RXN -r891,RXN66-526 -r892,RXN0-2001 -r893,THIAZOLSYN2-RXN-DEOXYXYLULOSE-5P/CPD-12279/Thiocarboxyadenylated-ThiS-Proteins//CPD-13575/Thi-S/WATER.86. -r894,PYRROLINECARBDEHYDROG-RXN -r895,2.3.1.180-RXN-ACETYL-COA/MALONYL-ACP/PROTON//Acetoacetyl-ACPs/CARBON-DIOXIDE/CO-A.68. -r896,DEPHOSPHOCOAKIN-RXN -r897,4.2.1.58-RXN-Beta-3-hydroxybutyryl-ACPs//Crotonyl-ACPs/WATER.48. -r898,DADPKIN-RXN -r899,CITC-RXN-HOLO-CITRATE-LYASE/ACET/ATP//CITRATE-LYASE/AMP/PPI.51. -r900,SPERMIDINESYN-RXN -r901a,RHAMNISOM-RXN -r901b,RHAMNISOM-RXN -r902,DIHYDROFOLATEREDUCT-RXN-THF/NADP//DIHYDROFOLATE/NADPH/PROTON.37. -r903,TAGAKIN-RXN -r904a,PYFLAVOXRE-RXN-PYRUVATE/Oxidized-flavodoxins/CO-A/PROTON//ACETYL-COA/CARBON-DIOXIDE/Reduced-flavodoxins.89. -r904b,PYFLAVOXRE-RXN-PYRUVATE/Oxidized-flavodoxins/CO-A/PROTON//ACETYL-COA/CARBON-DIOXIDE/Reduced-flavodoxins.89. -r905,RXN-10660-3-hydroxy-cis-D9-hexaecenoyl-ACPs//Trans-D3-cis-D9-hexadecenoyl-ACPs/WATER.75. -r906,RXN-14498-Red-Thioredoxin/CYSTINE//Ox-Thioredoxin/CYS.44. -r907a,DSERDEAM-RXN -r907b,DSERDEAM-RXN -r908,RXN-9514-Acetoacetyl-ACPs/NADPH/PROTON//Beta-3-hydroxybutyryl-ACPs/NADP.63. -r909,THRESYN-RXN -r910,RXN-9549-Palmitoyl-ACPs/WATER//PALMITATE/ACP/PROTON.43. -r911,RXN-9789-Thi-S/ATP/PROTON//Adenylated-ThiS-Proteins/PPI.47. -r912,RXN-11302 -r913,RXN0-2145-CIS-DELTA5-DODECENOYL-ACP/NAD//TRANS-DELTA3-CIS-DELTA5-DODECENOYL-ACP/NADH/PROTON.82. -r914,RXN0-2145-Cis-Delta5-dodecenoyl-ACPs/NAD//Trans-D3-cis-D5-dodecenoyl-ACPs/NADH/PROTON.76. -r915,ENTMULTI-RXN -r916,ETHAMLY-RXN -r917a,TRIOSEPISOMERIZATION-RXN -r917b,TRIOSEPISOMERIZATION-RXN -r918,RXN0-3901 -r919,RXN-11593 -r920,THIOREDOXIN-REDUCT-NADPH-RXN-Red-Thioredoxin/NADP//Ox-Thioredoxin/NADPH/PROTON.50. -r921,FUCULOKIN-RXN -r922,UDP-NACMURALGLDAPAALIG-RXN -r923,RXN0-4361 -r924,RXN-11836 -r925,GDP-GLUCOSIDASE-RXN -r926,URIDINE-NUCLEOSIDASE-RXN -r927,LAUROYLACYLTRAN-RXN-Dodecanoyl-ACPs/KDO2-LIPID-IVA//KDO2-LAUROYL-LIPID-IVA/ACP.59. -r928,RXN-12072 -r929,RXN-11474-Malonyl-acp-methyl-ester/MALONYL-ACP/PROTON//3-Ketoglutaryl-ACP-methyl-ester/CARBON-DIOXIDE/ACP.96. -r930a,YIAE2-RXN -r930b,YIAE2-RXN -r931a,RXN-15510 -r931b,RXN-15510 -r932,1.1.1.283-RXN -r933,RXN-9520-R-3-hydroxyhexanoyl-ACPs//Hex-2-enoyl-ACPs/WATER.49. -r934,RXN0-5123 -r935,RXN-9556-R-3-hydroxy-cis-vaccenoyl-ACPs/NADP//3-oxo-cis-vaccenoyl-ACPs/NADPH/PROTON.75. -r936,RXN-12480 -r937,RXN0-1132 -r938,GLUTKIN-RXN -r939,RXN0-5468-BUTYL-HYDROPEROXIDE/Red-Thioredoxin//BUTANOL/Ox-Thioredoxin/WATER.66. -r940,2-OCTAPRENYL-METHOXY-BENZOQ-METH-RXN -r941,RXN0-5187[CCO-PERI-BAC]-FMN/WATER//RIBOFLAVIN/Pi.39. -r942,RXN0-5187[CCO-CYTOSOL]-FMN/WATER//RIBOFLAVIN/Pi.38. -r943,RXN-12869 -r944a,1.7.2.3-RXN-TRIMETHYLAMINE/Oxidized-cytochromes-c2/WATER//TRIMENTHLAMINE-N-O/Reduced-cytochromes-c2/PROTON.95. -r944b,1.7.2.3-RXN-TRIMETHYLAMINE/Oxidized-cytochromes-c2/WATER//TRIMENTHLAMINE-N-O/Reduced-cytochromes-c2/PROTON.95. -r945a,1.7.2.3-RXN-TRIMETHYLAMINE/Oxidized-cytochromes-c553/WATER//TRIMENTHLAMINE-N-O/Reduced-cytochromes-c553/PROTON.99. -r945b,1.7.2.3-RXN-TRIMETHYLAMINE/Oxidized-cytochromes-c553/WATER//TRIMENTHLAMINE-N-O/Reduced-cytochromes-c553/PROTON.99. -r946a,1.7.2.3-RXN-TRIMETHYLAMINE/Cytochromes-CL-Ox/WATER//TRIMENTHLAMINE-N-O/Cytochromes-CL-Red/PROTON.85. -r946b,1.7.2.3-RXN-TRIMETHYLAMINE/Cytochromes-CL-Ox/WATER//TRIMENTHLAMINE-N-O/Cytochromes-CL-Red/PROTON.85. -r947a,1.7.2.3-RXN-TRIMETHYLAMINE/Cytochromes-C-Oxidized/WATER//TRIMENTHLAMINE-N-O/Cytochromes-C-Reduced/PROTON.93. -r947b,1.7.2.3-RXN-TRIMETHYLAMINE/Cytochromes-C-Oxidized/WATER//TRIMENTHLAMINE-N-O/Cytochromes-C-Reduced/PROTON.93. -r948,2.7.1.148-RXN -r949,2OXOGLUTDECARB-RXN -r950,RXN0-5223-CPD0-2330/ATP//CPD0-2230/ADP/PROTON.36. -r951,RXN0-5223-CPD-12822/ATP//CPD-12820/ADP/PROTON.36. -r952,RXN0-5223-CPD-8260/ATP//CPD-12821/ADP/PROTON.35. -r953,RXN-1381-PALMITYL-COA/GLYCEROL-3P//1-PALMITOYLGLYCEROL-3-PHOSPHATE/CO-A.63. -r954,RXN-1381-STEAROYL-COA/GLYCEROL-3P//CPD0-2113/CO-A.41. -r955a,3-HYDROXBUTYRYL-COA-DEHYDRATASE-RXN -r955b,3-HYDROXBUTYRYL-COA-DEHYDRATASE-RXN -r956,MCPMETEST-RXN -r957a,RXN0-5298 -r957b,RXN0-5298 -r958,PALMITOTRANS-RXN-Palmitoleoyl-ACPs/KDO2-LIPID-IVA//KDO2-PALMITOLEOYL-LIPID-IVA/ACP.66. -r959,RXN-14115 -r960,H2PTERIDINEPYROPHOSPHOKIN-RXN -r961,RXN-11478-Glutaryl-ACP-methyl-esters/NAD//Enoylglutaryl-ACP-methyl-esters/NADH/PROTON.76. -r962,RXN-9527-Octanoyl-ACPs/MALONYL-ACP/PROTON//3-oxo-decanoyl-ACPs/CARBON-DIOXIDE/ACP.73. -r963,RXN0-5393 -r964,RXN-9655-Beta-hydroxydecanoyl-ACPs//Trans-D2-decenoyl-ACPs/WATER.56. -r965,RXN-14281 -r966a,RXN0-1138 -r966b,RXN0-1138 -r967,HOMOSERKIN-RXN -r968,RXN-14409 -r969,RXN0-747-DADP/Oxidized-NrdH-Proteins/WATER//ADP/Reduced-NrdH-Proteins.61. -r970,UDPNACETYLGLUCOSAMACYLTRANS-RXN-R-3-hydroxymyristoyl-ACPs/UDP-N-ACETYL-D-GLUCOSAMINE//UDP-OHMYR-ACETYLGLUCOSAMINE/ACP.86. -r971,1.8.4.13-RXN-MET/Ox-Thioredoxin/WATER//CPD-8989/Red-Thioredoxin.51. -r972,RXN0-6367 -r973,3-OXOACYL-ACP-SYNTH-BASE-RXN-MALONYL-ACP/ACETYL-ACP/PROTON//ACP/Acetoacetyl-ACPs/CARBON-DIOXIDE.67. -r974,RXN-14512 -r975a,L-RHAMNONATE-DEHYDRATASE-RXN -r975b,L-RHAMNONATE-DEHYDRATASE-RXN -r976,5-NUCLEOTID-RXN[CCO-PERI-BAC]-AMP/WATER//ADENOSINE/Pi.38. -r977,5-NUCLEOTID-RXN[CCO-CYTOSOL]-AMP/WATER//ADENOSINE/Pi.37. -r978,5-NUCLEOTID-RXN[CCO-PERI-BAC]-IMP/WATER//INOSINE/Pi.36. -r979,5-NUCLEOTID-RXN[CCO-CYTOSOL]-IMP/WATER//INOSINE/Pi.35. -r980,5-NUCLEOTID-RXN[CCO-PERI-BAC]-GMP/WATER//GUANOSINE/Pi.38. -r981,5-NUCLEOTID-RXN[CCO-CYTOSOL]-GMP/WATER//GUANOSINE/Pi.37. -r982,5-NUCLEOTID-RXN[CCO-PERI-BAC]-XANTHOSINE-5-PHOSPHATE/WATER//XANTHOSINE/Pi.58. -r983,5-NUCLEOTID-RXN[CCO-CYTOSOL]-XANTHOSINE-5-PHOSPHATE/WATER//XANTHOSINE/Pi.57. -r984,5-NUCLEOTID-RXN[CCO-PERI-BAC]-CMP/WATER//CYTIDINE/Pi.37. -r985,5-NUCLEOTID-RXN[CCO-CYTOSOL]-CMP/WATER//CYTIDINE/Pi.36. -r986,5-NUCLEOTID-RXN[CCO-PERI-BAC]-UMP/WATER//URIDINE/Pi.36. -r987,5-NUCLEOTID-RXN[CCO-CYTOSOL]-UMP/WATER//URIDINE/Pi.35. -r988,RXN0-6461 -r989a,GCVP-RXN -r989b,GCVP-RXN -r990a,RXN-14807 -r990b,RXN-14807 -r991a,LYXISOM-RXN -r991b,LYXISOM-RXN -r992a,RXN-15915-CPD-15424/HypE-Proteins//HypE-S-carboxamide/AMP.48. -r992b,RXN-15915-CPD-15424/HypE-Proteins//HypE-S-carboxamide/AMP.48. -r993,ACETATE--COA-LIGASE-RXN -r994,RXN-10462-GLYCEROL-3P/Palmitoyl-ACPs//1-PALMITOYLGLYCEROL-3-PHOSPHATE/ACP.64. -r995,RXN-10462-GLYCEROL-3P/Stearoyl-ACPs//CPD0-2113/ACP.41. -r996a,RXN0-6510 -r996b,RXN0-6510 -r997,RXN-11481-3-hydroxypimeloyl-ACP-methyl-esters//Enoylpimeloyl-ACP-methyl-esters/WATER.75. -r998,RXN-15121 -r999,RXN-9532-R-3-hydroxydodecanoyl-ACPs/NADP//3-oxo-dodecanoyl-ACPs/NADPH/PROTON.68. -r1000,METBALT-RXN -r1001,RXN-9659-Octanoyl-ACPs/NAD//2-Octenoyl-ACPs/NADH/PROTON.47. -r1002a,ACONITATE-DELTA-ISOMERASE-RXN -r1002b,ACONITATE-DELTA-ISOMERASE-RXN -r1003,RXN0-5055-ATP/ACETYL-COA/Carboxybiotin-BCCP/WATER//MALONYL-COA/BCCP-dimers/ADP/Pi/PROTON.79. -r1004,RXN0-6541 -r1005,RXN-15297 -r1006a,RXN0-6385-Red-Thioredoxin/S2O3//Ox-Thioredoxin/SO3/HS/PROTON.51. -r1006b,RXN0-6385-Red-Thioredoxin/S2O3//Ox-Thioredoxin/SO3/HS/PROTON.51. -r1007a,N-ACETYLTRANSFER-RXN -r1007b,N-ACETYLTRANSFER-RXN -r1008,ADENYL-KIN-RXN -r1009,RXN0-6710 -r1010,RXN-15761 -r1011,NMNAMIDOHYDRO-RXN -r1012a,ALCOHOL-DEHYDROG-RXN -r1012b,ALCOHOL-DEHYDROG-RXN -r1013a,RXN0-6948 -r1013b,RXN0-6948 -r1014a,RXN-2961 -r1014b,RXN-2961 -r1015,ENOYL-ACP-REDUCT-NADH-RXN-POLYMER-INST-Saturated-Fatty-Acyl-ACPs-C0-H0/NAD//Crotonyl-ACPs/NADH/PROTON.76. -r1016,ENOYL-ACP-REDUCT-NADH-RXN-Hexanoyl-ACPs/NAD//Hex-2-enoyl-ACPs/NADH/PROTON.48. -r1017,ENOYL-ACP-REDUCT-NADH-RXN-Octanoyl-ACPs/NAD//2-Octenoyl-ACPs/NADH/PROTON.47. -r1018,ENOYL-ACP-REDUCT-NADH-RXN-Decanoyl-ACPs/NAD//Trans-D2-decenoyl-ACPs/NADH/PROTON.54. -r1019,ENOYL-ACP-REDUCT-NADH-RXN-Dodecanoyl-ACPs/NAD//Dodec-2-enoyl-ACPs/NADH/PROTON.52. -r1020,ENOYL-ACP-REDUCT-NADH-RXN-Myristoyl-ACPs/NAD//Tetradec-2-enoyl-ACPs/NADH/PROTON.54. -r1021,ENOYL-ACP-REDUCT-NADH-RXN-Palmitoyl-ACPs/NAD//2-Hexadecenoyl-ACPs/NADH/PROTON.52. -r1022,ENOYL-ACP-REDUCT-NADH-RXN-Stearoyl-ACPs/NAD//Octadec-2-enoyl-ACPs/NADH/PROTON.52. -r1023,ENOYL-ACP-REDUCT-NADH-RXN-Arachidoyl-ACPs/NAD//trans-delta2-arachidoyl-ACPs/NADH/PROTON.62. -r1024,OROTPDECARB-RXN -r1025,AMINOBUTDEHYDROG-RXN -r1026,RXN0-6985 -r1027,MYRPALMTRAN-RXN-Myristoyl-ACPs/KDO2-PALMITOLEOYL-LIPID-IVA//KDO2-LIPID-IVA-COLD/ACP.68. -r1028,RXN-7607[CCO-PERI-BAC]-IMP/WATER//INOSINE/Pi.36. -r1029,RXN-7607[CCO-CYTOSOL]-IMP/WATER//INOSINE/Pi.35. -r1030,RXN-10656-3-hydroxy-cis-D7-tetraecenoyl-ACPs//Trans-D3-cis-D7-tetradecenoyl-ACPs/WATER.77. -r1031a,PEPTIDYLPROLYL-ISOMERASE-RXN[CCO-PERI-BAC]-CPD-8624//CPD-8625.33. -r1031b,PEPTIDYLPROLYL-ISOMERASE-RXN[CCO-PERI-BAC]-CPD-8624//CPD-8625.33. -r1032a,PEPTIDYLPROLYL-ISOMERASE-RXN[CCO-CYTOSOL]-CPD-8624//CPD-8625.32. -r1032b,PEPTIDYLPROLYL-ISOMERASE-RXN[CCO-CYTOSOL]-CPD-8624//CPD-8625.32. -r1033,RXN-9536-R-3-hydroxymyristoyl-ACPs/NADP//3-oxo-myristoyl-ACPs/NADPH/PROTON.66. -r1034,RXN-9662-Myristoyl-ACPs/NAD//Tetradec-2-enoyl-ACPs/NADH/PROTON.54. -r1035a,RXN-8632 -r1035b,RXN-8632 -r1036a,PHOSGLYPHOS-RXN -r1036b,PHOSGLYPHOS-RXN -r1037,RXN0-6442-CPD-62/Holo-EntB//23DHB-EntB/AMP/PROTON.40. -r1038a,RXN0-7075 -r1038b,RXN0-7075 -r1039,RXN-9310 -r1040a,PPENTOMUT-RXN -r1040b,PPENTOMUT-RXN -r1041,CDPDIGLYSYN-RXN-CTP/CPD0-1422/PROTON//CPD-12815/PPI.36. -r1042,CDPDIGLYSYN-RXN-CTP/CPD0-1423/PROTON//CPD-12814/PPI.36. -r1043,2.3.1.179-RXN-Palmitoleoyl-ACPs/MALONYL-ACP/PROTON//3-oxo-cis-vaccenoyl-ACPs/CARBON-DIOXIDE/ACP.82. -r1044a,RXN0-7119 -r1044b,RXN0-7119 -r1045,RXN0-1441 -r1046,PRTRANS-RXN -r1047,HOLO-ACP-SYNTH-RXN-EG50003-MONOMER/CO-A//3-5-ADP/ACP-MONOMER/PROTON.49. -r1048,HOLO-ACP-SYNTH-RXN-Apo-EntB/CO-A//3-5-ADP/Holo-EntB/PROTON.40. -r1049,HOLO-ACP-SYNTH-RXN-Apo-AsbD-Proteins/CO-A//3-5-ADP/Holo-AsbD-Proteins/PROTON.58. -r1050,HOLO-ACP-SYNTH-RXN-Apo-PigJ/CO-A//3-5-ADP/PigJ/PROTON.35. -r1051,HOLO-ACP-SYNTH-RXN-CmaD-peptidyl-carrier-protein/CO-A//3-5-ADP/Holo-CmaD-peptidyl-carrier-protein/PROTON.86. -r1052,HOLO-ACP-SYNTH-RXN-CmaA-peptidyl-carrier-protein/CO-A//3-5-ADP/Holo-CmaA-peptidyl-carrier-protein/PROTON.86. -r1053,HOLO-ACP-SYNTH-RXN-apo-ACP/CO-A//3-5-ADP/ACP/PROTON.33. -r1054,DCDPKIN-RXN -r1055,CROBETREDUCT-RXN -r1056,S-ADENMETSYN-RXN -r1057,RXN-10659-3-hydroxy-cis-D9-hexaecenoyl-ACPs/NADP//3-oxo-cis-D9-hexadecenoyl-ACPs/NADPH/PROTON.84. -r1058,RXN0-2042 -r1059,RXN-8668 -r1060,DGTPTRIPHYDRO-RXN -r1061,RXN-9540-R-3-Hydroxypalmitoyl-ACPs/NADP//3-oxo-palmitoyl-ACPs/NADPH/PROTON.66. -r1062a,SUCCCOASYN-RXN -r1062b,SUCCCOASYN-RXN -r1063,RXN-9788 -r1064a,RIB5PISOM-RXN -r1064b,RIB5PISOM-RXN -r1065,RXN0-2144-BETA-HYDROXY-CIS-DELTA5-DODECENOYL-ACP//TRANS-DELTA3-CIS-DELTA5-DODECENOYL-ACP/WATER.85. -r1066,RXN0-2144-b-Hydroxy-cis-D5-dodecenoyl-ACPs//Trans-D3-cis-D5-dodecenoyl-ACPs/WATER.72. -r1067a,DIHYDROOROT-RXN -r1067b,DIHYDROOROT-RXN -r1068,TETHYDPICSUCC-RXN -r1069,RXN0-2943 -r1070,RXN-10016 -r1071,DTDPGLUCDEHYDRAT-RXN -r1072,2.3.1.49-RXN-HOLO-CITRATE-LYASE/S-ACETYLPHOSPHOPANTETHEINE//CITRATE-LYASE/PANTETHEINE-P.75. -r1073a,THYM-PHOSPH-RXN -r1073b,THYM-PHOSPH-RXN -r1074,4.2.1.61-RXN-R-3-Hydroxypalmitoyl-ACPs//2-Hexadecenoyl-ACPs/WATER.53. -r1075,BIOTINLIG-RXN-BCCP-monomers/BIOTIN/ATP//AMP/BCCP-biotin-monomers/PPI/PROTON.62. -r1076a,RXN-11326 -r1076b,RXN-11326 -r1077,CITTRANS-RXN-CIT/CITRATE-LYASE/PROTON//Citrate-Lyase-Citryl-Form/ACET.57. -r1078,F16BDEPHOS-RXN[CCO-PERI-BAC]-FRUCTOSE-16-DIPHOSPHATE/WATER//FRUCTOSE-6P/Pi.60. -r1079,F16BDEPHOS-RXN[CCO-CYTOSOL]-FRUCTOSE-16-DIPHOSPHATE/WATER//FRUCTOSE-6P/Pi.59. -r1080,TRNA-GUANINE-N7--METHYLTRANSFERASE-RXN -r1081,RXN0-3942 -r1082,RXN-11600 -r1083,RXN-11361-MPT-Synthases/ATP/PROTON//Carboxyadenylated-MPT-synthases/PPI.62. -r1084,GALACTARDEHYDRA-RXN -r1085a,UDPGLCNACEPIM-RXN -r1085b,UDPGLCNACEPIM-RXN -r1086,RXN-9518-R-3-hydroxyhexanoyl-ACPs/NADP//3-oxo-hexanoyl-ACPs/NADPH/PROTON.64. -r1087,RXN0-4621 -r1088,RXN-9555-Cis-vaccenoyl-ACPs/WATER//CPD-9247/ACP/PROTON.46. -r1089a,RXN-11839 -r1089b,RXN-11839 -r1090a,RXN-982-ARSENATE/Reduced-NrdH-Proteins/PROTON//CPD-763/Oxidized-NrdH-Proteins/WATER.76. -r1090b,RXN-982-ARSENATE/Reduced-NrdH-Proteins/PROTON//CPD-763/Oxidized-NrdH-Proteins/WATER.76. -r1091a,RXN-982-ARSENATE/Red-Glutaredoxins/PROTON//CPD-763/Ox-Glutaredoxins/WATER.66. -r1091b,RXN-982-ARSENATE/Red-Glutaredoxins/PROTON//CPD-763/Ox-Glutaredoxins/WATER.66. -r1092,UROGENDECARBOX-RXN -r1093,RXN0-5073 -r1094,RXN-12104 -r1095a,GLUCOSE-6-PHOSPHATE-1-EPIMERASE-RXN -r1095b,GLUCOSE-6-PHOSPHATE-1-EPIMERASE-RXN -r1096,1.13.11.16-RXN -r1097,RXN0-5126 -r1098,2.7.7.61-RXN-2-5-TRIPHOSPHORIBOSYL-3-DEPHOSPHO-/APO-CITRATE-LYASE//HOLO-CITRATE-LYASE/PPI/PROTON.84. -r1099,RXN-12540 -r1100a,ACYLGPEACYLTRANS-RXN -r1100b,ACYLGPEACYLTRANS-RXN -r1101,GLUTSEMIALDEHYDROG-RXN -r1102,2.1.1.34-RXN -r1103a,RXN0-5192 -r1103b,RXN0-5192 -r1104a,FLAVONADPREDUCT-RXN-Oxidized-flavodoxins/NADPH/PROTON//Reduced-flavodoxins/NADP.60. -r1104b,FLAVONADPREDUCT-RXN-Oxidized-flavodoxins/NADPH/PROTON//Reduced-flavodoxins/NADP.60. -r1105,RXN-12872 -r1106a,MALONYL-COA-ACP-TRANSACYL-RXN-ACP/MALONYL-COA//MALONYL-ACP/CO-A.34. -r1106b,MALONYL-COA-ACP-TRANSACYL-RXN-ACP/MALONYL-COA//MALONYL-ACP/CO-A.34. -r1107a,GLYOHMETRANS-RXN-SER/CPD-1301//GLY/CPD-12996/WATER.34. -r1107b,GLYOHMETRANS-RXN-SER/CPD-1301//GLY/CPD-12996/WATER.34. -r1108a,GLYOHMETRANS-RXN-SER/THF//GLY/METHYLENE-THF/WATER.33. -r1108b,GLYOHMETRANS-RXN-SER/THF//GLY/METHYLENE-THF/WATER.33. -r1109,2.7.7.13-RXN -r1110,RIBONUCLEOSIDE-DIP-REDUCTII-RXN-DCDP/Oxidized-NrdH-Proteins/WATER//CDP/Reduced-NrdH-Proteins.61. -r1111,RXN0-5226 -r1112,RXN-11477-3-Hydroxyglutaryl-ACP-methyl-ester//Enoylglutaryl-ACP-methyl-esters/WATER.74. -r1113,RXN-13859 -r1114,RXN-9524-3-Hydroxy-octanoyl-ACPs/NADP//3-Oxo-octanoyl-ACPs/NADPH/PROTON.63. -r1115,3-NUCLEOTID-RXN[CCO-PERI-BAC]-CPD-3724/WATER//URIDINE/Pi.41. -r1116,3-NUCLEOTID-RXN[CCO-CYTOSOL]-CPD-3724/WATER//URIDINE/Pi.40. -r1117,3-NUCLEOTID-RXN[CCO-PERI-BAC]-CPD-3711/WATER//CYTIDINE/Pi.42. -r1118,3-NUCLEOTID-RXN[CCO-CYTOSOL]-CPD-3711/WATER//CYTIDINE/Pi.41. -r1119,3-NUCLEOTID-RXN[CCO-PERI-BAC]-CPD-3706/WATER//ADENOSINE/Pi.43. -r1120,3-NUCLEOTID-RXN[CCO-CYTOSOL]-CPD-3706/WATER//ADENOSINE/Pi.42. -r1121,3-NUCLEOTID-RXN[CCO-PERI-BAC]-CPD-3708/WATER//GUANOSINE/Pi.43. -r1122,3-NUCLEOTID-RXN[CCO-CYTOSOL]-CPD-3708/WATER//GUANOSINE/Pi.42. -r1123,RXN-9558-cis-vaccen-2-enoyl-ACPs/NADH/PROTON//Cis-vaccenoyl-ACPs/NAD.60. -r1124,RXN0-5306 -r1125,RXN-14126[CCO-PERI-BAC]-CPD-3706/WATER//ADENOSINE/Pi.43. -r1126,RXN-14126[CCO-CYTOSOL]-CPD-3706/WATER//ADENOSINE/Pi.42. -r1127a,RXN0-5514 -r1127b,RXN0-5514 -r1128a,HEMEOSYN-RXN-PROTOHEME/FARNESYL-PP/WATER//CPD-17063/PPI.43. -r1128b,HEMEOSYN-RXN-PROTOHEME/FARNESYL-PP/WATER//CPD-17063/PPI.43. -r1129,RXN0-6705-1-PALMITOYLGLYCEROL-3-PHOSPHATE/Palmitoyl-ACPs//CPD0-1422/ACP.62. -r1130,RXN0-5402 -r1131a,RXN-14284 -r1131b,RXN-14284 -r1132,UDPHYDROXYMYRGLUCOSAMNACETYLTRANS-RXN-R-3-hydroxymyristoyl-ACPs/UDP-OHMYR-GLUCOSAMINE//OH-MYRISTOYL/ACP/PROTON.73. -r1133,HYDROXYLAMINE-REDUCTASE-RXN -r1134a,1.8.4.12-RXN -r1134b,1.8.4.12-RXN -r1135,3.4.13.22-RXN -r1136,3-OXOACYL-ACP-REDUCT-RXN-Beta-3-hydroxybutyryl-ACPs/NADP//Acetoacetyl-ACPs/NADPH/PROTON.63. -r1137,3-OXOACYL-ACP-REDUCT-RXN-R-3-hydroxyhexanoyl-ACPs/NADP//3-oxo-hexanoyl-ACPs/NADPH/PROTON.64. -r1138,3-OXOACYL-ACP-REDUCT-RXN-3-Hydroxy-octanoyl-ACPs/NADP//3-Oxo-octanoyl-ACPs/NADPH/PROTON.63. -r1139,3-OXOACYL-ACP-REDUCT-RXN-Beta-hydroxydecanoyl-ACPs/NADP//3-oxo-decanoyl-ACPs/NADPH/PROTON.65. -r1140,3-OXOACYL-ACP-REDUCT-RXN-R-3-hydroxydodecanoyl-ACPs/NADP//3-oxo-dodecanoyl-ACPs/NADPH/PROTON.68. -r1141,3-OXOACYL-ACP-REDUCT-RXN-R-3-hydroxymyristoyl-ACPs/NADP//3-oxo-myristoyl-ACPs/NADPH/PROTON.66. -r1142,3-OXOACYL-ACP-REDUCT-RXN-R-3-Hydroxypalmitoyl-ACPs/NADP//3-oxo-palmitoyl-ACPs/NADPH/PROTON.66. -r1143,3-OXOACYL-ACP-REDUCT-RXN-R-3-hydroxystearoyl-ACPs/NADP//3-oxo-stearoyl-ACPs/NADPH/PROTON.64. -r1144,3-OXOACYL-ACP-REDUCT-RXN-R-3-hydroxyarachidoyl-ACPs/NADP//3-oxo-arachidoyl-ACPs/NADPH/PROTON.68. -r1145,RXN0-5507 -r1146,ARCA-RXN -r1147,RXN-14478 -r1148a,KDGALDOL-RXN -r1148b,KDGALDOL-RXN -r1149,3.6.1.19-RXN-DCTP/WATER//DCMP/PPI/PROTON.28. -r1150,3.6.1.19-RXN-TTP/WATER//TMP/PPI/PROTON.26. -r1151,3.6.1.19-RXN-DUTP/WATER//DUMP/PPI/PROTON.28. -r1152,3.6.1.19-RXN-DATP/WATER//DAMP/PPI/PROTON.28. -r1153,3.6.1.19-RXN-DITP/WATER//DIMP/PPI/PROTON.28. -r1154,3.6.1.19-RXN-ITP/WATER//IMP/PPI/PROTON.26. -r1155,3.6.1.19-RXN-GTP/WATER//GMP/PPI/PROTON.26. -r1156,3.6.1.19-RXN-XTP/WATER//XANTHOSINE-5-PHOSPHATE/PPI/PROTON.45. -r1157,3.6.1.19-RXN-UTP/WATER//UMP/PPI/PROTON.26. -r1158,3.6.1.19-RXN-CTP/WATER//CMP/PPI/PROTON.26. -r1159,RXN-14515 -r1160,LCARNCOALIG-RXN -r1161,RXN-15891-23DHB-EntB/Seryl-EntF//Holo-EntB/DHB-Seryl-EntF/PROTON.55. -r1162,RXN-11480-3-hydroxypimeloyl-ACP-methyl-esters/NADP//3-Ketopimeloyl-ACP-methyl-esters/NADPH/PROTON.88. -r1163a,RXN-14810 -r1163b,RXN-14810 -r1164,RXN-9531-Decanoyl-ACPs/MALONYL-ACP/PROTON//3-oxo-dodecanoyl-ACPs/CARBON-DIOXIDE/ACP.75. -r1165,RXN-9658-Hexanoyl-ACPs/NAD//Hex-2-enoyl-ACPs/NADH/PROTON.48. -r1166,MALATE-DEHYDROGENASE-ACCEPTOR-RXN-MAL/CPD-9728//OXALACETIC_ACID/REDUCED-MENAQUINONE.50. -r1167,MALATE-DEHYDROGENASE-ACCEPTOR-RXN-MAL/UBIQUINONE-8//OXALACETIC_ACID/CPD-9956.43. -r1168,RXN0-6515 -r1169,RXN-15124 -r1170,METHIONINE--TRNA-LIGASE-RXN-Elongation-tRNAMet/MET/ATP/PROTON//Charged-MET-tRNAs/AMP/PPI.61. -r1171a,ACSERLY-RXN -r1171b,ACSERLY-RXN -r1172,1.8.4.8-RXN-3-5-ADP/SO3/Ox-Thioredoxin/PROTON//PAPS/Red-Thioredoxin.56. -r1173,RXN0-6550 -r1174,3.1.2.21-RXN-Dodecanoyl-ACPs/WATER//ACP/DODECANOATE/PROTON.46. -r1175,RXN-15312 -r1176,NAD-SYNTH-GLN-RXN -r1177a,ADENYLYLSULFKIN-RXN -r1177b,ADENYLYLSULFKIN-RXN -r1178,RXN0-6721 -r1179,MYRISTOYLACYLTRAN-RXN-Myristoyl-ACPs/KDO2-LAUROYL-LIPID-IVA//KDO2-LIPID-A/ACP.56. -r1180,RXN-15889-Apo-EntF/CO-A//Holo-EntF/3-5-ADP/PROTON.40. -r1181,NUCLEOSIDE-DIP-KIN-RXN-CPD0-2231/ATP//DITP/ADP.24. -r1182,NUCLEOSIDE-DIP-KIN-RXN-DADP/ATP//DATP/ADP.19. -r1183,NUCLEOSIDE-DIP-KIN-RXN-DUDP/ATP//DUTP/ADP.19. -r1184,NUCLEOSIDE-DIP-KIN-RXN-DCDP/ATP//DCTP/ADP.19. -r1185,NUCLEOSIDE-DIP-KIN-RXN-TDP/ATP//TTP/ADP.17. -r1186,NUCLEOSIDE-DIP-KIN-RXN-CDP/ATP//CTP/ADP.17. -r1187,NUCLEOSIDE-DIP-KIN-RXN-UDP/ATP//UTP/ADP.17. -r1188,NUCLEOSIDE-DIP-KIN-RXN-XDP/ATP//XTP/ADP.17. -r1189,NUCLEOSIDE-DIP-KIN-RXN-GDP/ATP//GTP/ADP.17. -r1190,NUCLEOSIDE-DIP-KIN-RXN-IDP/ATP//ITP/ADP.17. -r1191,RXN-10655-3-hydroxy-cis-D7-tetraecenoyl-ACPs/NADP//3-oxo-cis-D7-tetradecenoyl-ACPs/NADPH/PROTON.86. -r1192a,ALDOSE-1-EPIMERASE-RXN -r1192b,ALDOSE-1-EPIMERASE-RXN -r1193,RXN-11483-Pimeloyl-ACP-methyl-esters/WATER//Pimeloyl-ACPs/METOH/PROTON.61. -r1194,RXN0-6957 -r1195,RXN-7101-BCCP-biotin-monomers//BCCP-dimers.34. -r1196,RXN-3523 -r1197,RXN-9535-Dodecanoyl-ACPs/MALONYL-ACP/PROTON//3-oxo-myristoyl-ACPs/CARBON-DIOXIDE/ACP.76. -r1198a,OXALYL-COA-DECARBOXYLASE-RXN -r1198b,OXALYL-COA-DECARBOXYLASE-RXN -r1199,RXN-9661-Dodecanoyl-ACPs/NAD//Dodec-2-enoyl-ACPs/NADH/PROTON.52. -r1200,AMP-DEPHOSPHORYLATION-RXN[CCO-PERI-BAC]-AMP/WATER//ADENOSINE/Pi.38. -r1201,AMP-DEPHOSPHORYLATION-RXN[CCO-CYTOSOL]-AMP/WATER//ADENOSINE/Pi.37. -r1202,RXN-7800 -r1203,PGLUCONDEHYDRAT-RXN -r1204,RXN0-949 -r1205a,ASPAMINOTRANS-RXN -r1205b,ASPAMINOTRANS-RXN -r1206,RXN0-7021 -r1207,RXN-8654 -r1208a,PHOSPHAGLYPSYN-RXN-CPD-12814/GLYCEROL-3P//CMP/CPD-12820/PROTON.44. -r1208b,PHOSPHAGLYPSYN-RXN-CPD-12814/GLYCEROL-3P//CMP/CPD-12820/PROTON.44. -r1209a,PHOSPHAGLYPSYN-RXN-CPD-12815/GLYCEROL-3P//CMP/CPD-12821/PROTON.44. -r1209b,PHOSPHAGLYPSYN-RXN-CPD-12815/GLYCEROL-3P//CMP/CPD-12821/PROTON.44. -r1210,RXN0-7080 -r1211,RXN-9772 -r1212,PRAISOM-RXN -r1213,CHD-RXN -r1214,RXN0-743 -r1215,RXN0-1602 -r1216,PSEUDOURIDINE-KINASE-RXN -r1217,DCYSDESULF-RXN -r1218,CYSTATHIONINE-BETA-LYASE-RXN -r1219,SAMDECARB-RXN -r1220,QUINOLINATE-SYNTHA-RXN -r1221a,DHDOGALDOL-RXN -r1221b,DHDOGALDOL-RXN -r1222,SUCCGLUDESUCC-RXN -r1223,RIBOFLAVINKIN-RXN -r1224,DIHYDROXYMETVALDEHYDRAT-RXN -r1225,THI-P-SYN-RXN -r1226,RXN0-300 -r1227,RXN-10040 -r1228,DTMPKI-RXN -r1229,TMAOREDUCT-RXN -r1230,RXN-11409 -r1231a,RXN0-3542 -r1231b,RXN0-3542 -r1232,RXN-11484-Pimeloyl-ACPs/L-ALPHA-ALANINE/PROTON//8-AMINO-7-OXONONANOATE/CARBON-DIOXIDE/ACP.80. -r1233,RXN-11633 -r1234,GALACTOKIN-RXN -r1235,UDPMANACATRANS-RXN -r1236,RXN-11842 -r1237,GLCNACPTRANS-RXN -r1238a,URPHOS-RXN -r1238b,URPHOS-RXN -r1239,RXN-12195 -r1240,GLUTAMIDOTRANS-RXN -r1241a,RXN-12587 -r1241b,RXN-12587 -r1242a,GLYCDEH-RXN -r1242b,GLYCDEH-RXN -r1243,2.1.1.79-RXN -r1244a,RXN0-5200 -r1244b,RXN0-5200 -r1245,RXN-13141 -r1246,GLYOXIII-RXN -r1247,2.7.8.25-RXN -r1248,RXN0-5229 -r1249,RXN-14014 -r1250,GTPPYPHOSKIN-RXN -r1251,RXN0-5359 -r1252,RXN-14142[CCO-PERI-BAC]-DGMP/WATER//DEOXYGUANOSINE/Pi.44. -r1253,RXN-14142[CCO-CYTOSOL]-DGMP/WATER//DEOXYGUANOSINE/Pi.43. -r1254,HISTAMINOTRANS-RXN -r1255,3.1.3.68-RXN -r1256,RXN0-5408 -r1257,RXN-14290 -r1258,IMIDPHOSDEHYD-RXN -r1259,3.4.16.4-RXN -r1260,RXN0-5515 -r1261,RXN-14481 -r1262,KDOTRANS-RXN -r1263a,3PGAREARR-RXN -r1263b,3PGAREARR-RXN -r1264,RXN-14523 -r1265a,LEUCYLTRANSFERASE-RXN-Charged-LEU-tRNAs/General-Protein-Substrates//LEU-tRNAs/L-leucyl-protein/PROTON.80. -r1265b,LEUCYLTRANSFERASE-RXN-Charged-LEU-tRNAs/General-Protein-Substrates//LEU-tRNAs/L-leucyl-protein/PROTON.80. -r1266a,RXN-14813 -r1266b,RXN-14813 -r1267a,MALTACETYLTRAN-RXN -r1267b,MALTACETYLTRAN-RXN -r1268,ACETOOHBUTREDUCTOISOM-RXN -r1269,RXN-15129 -r1270a,METHYLISOCITRATE-LYASE-RXN -r1270b,METHYLISOCITRATE-LYASE-RXN -r1271,ACYLCOASYN-RXN-BUTYRIC_ACID/CO-A/ATP//BUTYRYL-COA/PPI/AMP.43. -r1272,ACYLCOASYN-RXN-HEXANOATE/CO-A/ATP//HEXANOYL-COA/PPI/AMP.41. -r1273,ACYLCOASYN-RXN-CPD-195/CO-A/ATP//CPD-196/PPI/AMP.34. -r1274,ACYLCOASYN-RXN-CPD-3617/CO-A/ATP//CPD-10267/PPI/AMP.37. -r1275,ACYLCOASYN-RXN-DODECANOATE/CO-A/ATP//LAUROYLCOA-CPD/PPI/AMP.45. -r1276,ACYLCOASYN-RXN-CPD-7836/CO-A/ATP//TETRADECANOYL-COA/PPI/AMP.45. -r1277,ACYLCOASYN-RXN-PALMITATE/CO-A/ATP//PALMITYL-COA/PPI/AMP.41. -r1278,ACYLCOASYN-RXN-STEARIC_ACID/CO-A/ATP//STEAROYL-COA/PPI/AMP.44. -r1279,ACYLCOASYN-RXN-POLYMER-INST-CPD66-39-C16-H32/CO-A/ATP//CPD-9965/PPI/AMP.57. -r1280,RXN0-6562 -r1281,RXN-15345 -r1282,NADPH-DEHYDROGENASE-FLAVIN-RXN -r1283,AGMATIN-RXN -r1284,RXN0-6726 -r1285,RXN-16002 -r1286,O-SUCCINYLBENZOATE-COA-LIG-RXN -r1287,ALLANTOATE-DEIMINASE-RXN -r1288,RXN0-6975 -r1289,RXN-5647 -r1290,P-PANTOCYSLIG-RXN -r1291,AMYLOMALT-RXN -r1292,RXN0-6998 -r1293,RXN-7948 -r1294a,ASPARTASE-RXN -r1294b,ASPARTASE-RXN -r1295,RXN0-7024 -r1296,RXN-8770 -r1297,PHOSPHOENOLPYRUVATE-PHOSPHATASE-RXN -r1298a,BRANCHED-CHAINAMINOTRANSFERILEU-RXN -r1298b,BRANCHED-CHAINAMINOTRANSFERILEU-RXN -r1299a,RXN-9983 -r1299b,RXN-9983 -r1300,PRIBFAICARPISOM-RXN -r1301,CHORISMATEMUT-RXN -r1302,RXN0-961 -r1303,RXN0-1842 -r1304,PYRAMKIN-RXN -r1305a,DEOXYADENPHOSPHOR-RXN -r1305b,DEOXYADENPHOSPHOR-RXN -r1306,CYTDEAM-RXN -r1307,SERINE--TRNA-LIGASE-RXN-SER-tRNAs/SER/ATP/PROTON//Charged-SER-tRNAs/AMP/PPI.52. -r1308a,RXN0-2201 -r1308b,RXN0-2201 -r1309,R165-RXN-CPD-1091/NAD//CPD-389/NADH/PROTON.34. -r1310,R165-RXN-CPD-1091/NADP//CPD-389/NADPH/PROTON.36. -r1311a,DIAMACTRANS-RXN-SPERMINE/ACETYL-COA//N1-ACETYLSPERMINE/CO-A/PROTON.51. -r1311b,DIAMACTRANS-RXN-SPERMINE/ACETYL-COA//N1-ACETYLSPERMINE/CO-A/PROTON.51. -r1312a,SUCCORNTRANSAM-RXN -r1312b,SUCCORNTRANSAM-RXN -r1313,RIBOKIN-RXN -r1314,DLACTDEHYDROGNAD-RXN -r1315,THIOESTER-RXN-BUTYRYL-COA/WATER//BUTYRIC_ACID/CO-A/PROTON.44. -r1316,THIOESTER-RXN-TETRADECANOYL-COA/WATER//CPD-7836/CO-A/PROTON.46. -r1317,THIOESTER-RXN-PALMITYL-COA/WATER//PALMITATE/CO-A/PROTON.42. -r1318,THIOESTER-RXN-STEAROYL-COA/WATER//STEARIC_ACID/CO-A/PROTON.45. -r1319,THIOESTER-RXN-LAUROYLCOA-CPD/WATER//DODECANOATE/CO-A/PROTON.46. -r1320,THIOESTER-RXN-CPD-10267/WATER//CPD-3617/CO-A/PROTON.38. -r1321,THIOESTER-RXN-CPD-196/WATER//CPD-195/CO-A/PROTON.35. -r1322,THIOESTER-RXN-HEXANOYL-COA/WATER//HEXANOATE/CO-A/PROTON.42. -r1323a,RXN0-303 -r1323b,RXN0-303 -r1324,RXN-10819 -r1325,DUTP-PYROP-RXN -r1326,RXN0-361 -r1327,RXN-11576 -r1328,FORMYLTHFDEFORMYL-RXN-10-FORMYL-THF/WATER//THF/FORMATE/PROTON.40. -r1329,TRYPTOPHAN--TRNA-LIGASE-RXN-TRP/TRP-tRNAs/ATP/PROTON//Charged-TRP-tRNAs/AMP/PPI.52. -r1330,RXN-11638 -r1331a,GALACTURIDYLYLTRANS-RXN -r1331b,GALACTURIDYLYLTRANS-RXN -r1332,UDPNACETYLMURAMATEDEHYDROG-RXN -r1333,RXN0-5038 -r1334,RXN-11860 -r1335,GLUC1PURIDYLTRANS-RXN -r1336a,VALINE-PYRUVATE-AMINOTRANSFER-RXN -r1336b,VALINE-PYRUVATE-AMINOTRANSFER-RXN -r1337a,1.1.1.127-RXN -r1337b,1.1.1.127-RXN -r1338,RXN0-5108 -r1339a,RXN-12274-FORMATE/Oxidized-hydrogenase-3//CARBON-DIOXIDE/Reduced-hydrogenase-3.69. -r1339b,RXN-12274-FORMATE/Oxidized-hydrogenase-3//CARBON-DIOXIDE/Reduced-hydrogenase-3.69. -r1340,GLUTAMINESYN-RXN -r1341a,1TRANSKETO-RXN -r1341b,1TRANSKETO-RXN -r1342a,RXN-12752 -r1342b,RXN-12752 -r1343,GLYCEROL-KIN-RXN -r1344a,RXN0-5210 -r1344b,RXN0-5210 -r1345,RXN-13248 -r1346,GMKALT-RXN -r1347,2.9.1.1-RXN-SEPO3/L-seryl-SEC-tRNAs//Charged-SEC-tRNAs/Pi.46. -r1348,RXN-14064 -r1349,GUANOSINEKIN-RXN -r1350,RXN0-5364 -r1351,RXN-14161[CCO-PERI-BAC]-DAMP/WATER//DEOXYADENOSINE/Pi.44. -r1352,RXN-14161[CCO-CYTOSOL]-DAMP/WATER//DEOXYADENOSINE/Pi.43. -r1353,HISTIDPHOS-RXN[CCO-PERI-BAC]-L-HISTIDINOL-P/WATER//HISTIDINOL/Pi.50. -r1354,HISTIDPHOS-RXN[CCO-CYTOSOL]-L-HISTIDINOL-P/WATER//HISTIDINOL/Pi.49. -r1355,3.2.1.21-RXN -r1356a,INOPHOSPHOR-RXN -r1356b,INOPHOSPHOR-RXN -r1357,RXN0-6259-PROTOPORPHYRIN_IX/REDUCED-MENAQUINONE//PROTOPORPHYRINOGEN/CPD-9728.67. -r1358,RXN-14500 -r1359,KDPGALDOL-RXN -r1360a,4.1.2.28-RXN -r1360b,4.1.2.28-RXN -r1361,RXN0-6444 -r1362,RXN-14534 -r1363a,LTAA-RXN -r1363b,LTAA-RXN -r1364a,RXN-14882 -r1364b,RXN-14882 -r1365,MANNKIN-RXN -r1366,ACETYL-COA-CARBOXYLTRANSFER-RXN -r1367,RXN-15140 -r1368,METHYLTHIOADENOSINE-NUCLEOSIDASE-RXN -r1369,ADDALT-RXN -r1370a,RXN0-6565 -r1370b,RXN0-6565 -r1371,RXN-15356 -r1372,NAG6PDEACET-RXN-CPD-16168/WATER//CPD-13469/ACET.32. -r1373,AIRS-RXN -r1374,RXN0-6732 -r1375,RXN-1623 -r1376,OHACYL-COA-DEHYDROG-RXN-NAD/S-3-HYDROXYBUTANOYL-COA//NADH/ACETOACETYL-COA/PROTON.57. -r1377,OHACYL-COA-DEHYDROG-RXN-NAD/OH-HEXANOYL-COA//NADH/K-HEXANOYL-COA/PROTON.48. -r1378,OHACYL-COA-DEHYDROG-RXN-NAD/CPD0-2224//NADH/CPD0-2106/PROTON.37. -r1379,OHACYL-COA-DEHYDROG-RXN-NAD/CPD0-2244//NADH/CPD0-2123/PROTON.37. -r1380,OHACYL-COA-DEHYDROG-RXN-NAD/CPD0-2107//NADH/CPD0-2105/PROTON.37. -r1381,OHACYL-COA-DEHYDROG-RXN-NAD/CPD0-2171//NADH/CPD-10284/PROTON.37. -r1382,OHACYL-COA-DEHYDROG-RXN-NAD/CPD0-2232//NADH/3-OXOPALMITOYL-COA/PROTON.46. -r1383,OHACYL-COA-DEHYDROG-RXN-NAD/CPD0-2253//NADH/CPD-10260/PROTON.37. -r1384,OHACYL-COA-DEHYDROG-RXN-NAD/POLYMER-INST-L-3-HYDROXYACYL-COA-C16-H32//NADH/POLYMER-INST-3-KETOACYL-COA-C16-H32/PROTON.94. -r1385,RXN0-6978 -r1386,RXN-6081 -r1387,PANTOATE-BETA-ALANINE-LIG-RXN -r1388,RXN0-7001 -r1389a,RXN-8073 -r1389b,RXN-8073 -r1390a,PHENDEHYD-RXN -r1390b,PHENDEHYD-RXN -r1391,ASPARTATEKIN-RXN -r1392,RXN-8991 -r1393,PMPOXI-RXN -r1394,BTUR2-RXN -r1395,RXN0-1241 -r1396,PROPIONATE--COA-LIGASE-RXN -r1397,CITSYN-RXN -r1398,RXN0-984 -r1399a,RXN0-1863 -r1399b,RXN0-1863 -r1400,PYRIMSYN1-RXN -r1401a,DEOXYINOPHOSPHOR-RXN -r1401b,DEOXYINOPHOSPHOR-RXN -r1402,CYTIDINEKIN-RXN -r1403,SHIKIMATE-KINASE-RXN -r1404,RXN0-2361 -r1405,R4-RXN-BUTANOL/NAD/WATER//BUTYL-HYDROPEROXIDE/NADH/PROTON.51. -r1406a,DIAMTRANSAM-RXN-PUTRESCINE/2-KETOGLUTARATE//4-AMINO-BUTYRALDEHYDE/GLT.54. -r1406b,DIAMTRANSAM-RXN-PUTRESCINE/2-KETOGLUTARATE//4-AMINO-BUTYRALDEHYDE/GLT.54. -r1407,SULFATE-ADENYLYLTRANS-RXN -r1408,RIBOSYLNICOTINAMIDE-KINASE-RXN -r1409,THREODEHYD-RXN -r1410,RXN0-308 -r1411,RXN-10940 -r1412a,ENOYL-COA-DELTA-ISOM-RXN-POLYMER-INST-CIS-DELTA3-ENOYL-COA-C0-H0//CROTONYL-COA.54. -r1412b,ENOYL-COA-DELTA-ISOM-RXN-POLYMER-INST-CIS-DELTA3-ENOYL-COA-C0-H0//CROTONYL-COA.54. -r1413a,ENOYL-COA-DELTA-ISOM-RXN-POLYMER-INST-CIS-DELTA3-ENOYL-COA-C2-H4//CPD0-2121.51. -r1413b,ENOYL-COA-DELTA-ISOM-RXN-POLYMER-INST-CIS-DELTA3-ENOYL-COA-C2-H4//CPD0-2121.51. -r1414a,ENOYL-COA-DELTA-ISOM-RXN-POLYMER-INST-CIS-DELTA3-ENOYL-COA-C4-H8//CPD0-2108.51. -r1414b,ENOYL-COA-DELTA-ISOM-RXN-POLYMER-INST-CIS-DELTA3-ENOYL-COA-C4-H8//CPD0-2108.51. -r1415a,ENOYL-COA-DELTA-ISOM-RXN-POLYMER-INST-CIS-DELTA3-ENOYL-COA-C6-H12//T2-DECENOYL-COA.58. -r1415b,ENOYL-COA-DELTA-ISOM-RXN-POLYMER-INST-CIS-DELTA3-ENOYL-COA-C6-H12//T2-DECENOYL-COA.58. -r1416a,ENOYL-COA-DELTA-ISOM-RXN-CPD-7221//CPD-7222.19. -r1416b,ENOYL-COA-DELTA-ISOM-RXN-CPD-7221//CPD-7222.19. -r1417a,ENOYL-COA-DELTA-ISOM-RXN-POLYMER-INST-CIS-DELTA3-ENOYL-COA-C10-H20//POLYMER-INST-TRANS-D2-ENOYL-COA-C10-H20.83. -r1417b,ENOYL-COA-DELTA-ISOM-RXN-POLYMER-INST-CIS-DELTA3-ENOYL-COA-C10-H20//POLYMER-INST-TRANS-D2-ENOYL-COA-C10-H20.83. -r1418a,ENOYL-COA-DELTA-ISOM-RXN-POLYMER-INST-CIS-DELTA3-ENOYL-COA-C12-H24//CPD0-2117.53. -r1418b,ENOYL-COA-DELTA-ISOM-RXN-POLYMER-INST-CIS-DELTA3-ENOYL-COA-C12-H24//CPD0-2117.53. -r1419a,ENOYL-COA-DELTA-ISOM-RXN-POLYMER-INST-CIS-DELTA3-ENOYL-COA-C14-H28//CPD-10262.53. -r1419b,ENOYL-COA-DELTA-ISOM-RXN-POLYMER-INST-CIS-DELTA3-ENOYL-COA-C14-H28//CPD-10262.53. -r1420a,ENOYL-COA-DELTA-ISOM-RXN-POLYMER-INST-CIS-DELTA3-ENOYL-COA-C16-H32//POLYMER-INST-TRANS-D2-ENOYL-COA-C16-H32.83. -r1420b,ENOYL-COA-DELTA-ISOM-RXN-POLYMER-INST-CIS-DELTA3-ENOYL-COA-C16-H32//POLYMER-INST-TRANS-D2-ENOYL-COA-C16-H32.83. -r1421,TRE6PHYDRO-RXN -r1422,RXN0-382 -r1423,RXN-11588 -r1424,FRUCTOKINASE-RXN -r1425,TYROSINE--TRNA-LIGASE-RXN-TYR-tRNAs/TYR/ATP/PROTON//Charged-TYR-tRNAs/AMP/PPI.52. -r1426a,RXN0-4281 -r1426b,RXN0-4281 -r1427,RXN-11832 -r1428a,GAPOXNPHOSPHN-RXN -r1428b,GAPOXNPHOSPHN-RXN -r1429,UNDECAPRENYL-DIPHOSPHATASE-RXN -r1430,RXN-11867 -r1431,GLUCOKIN-RXN -r1432a,XYLISOM-RXN -r1432b,XYLISOM-RXN -r1433,1.1.1.262-RXN -r1434,RXN0-5118 -r1435,GLUTATHIONE-SYN-RXN -r1436,2-METHYLCITRATE-DEHYDRATASE-RXN -r1437,RXN0-5183 -r1438,RXN-12816 -r1439,2.5.1.64-RXN -r1440,RXN0-5216 -r1441a,RXN-13459 -r1441b,RXN-13459 -r1442,GMP-SYN-NH3-RXN -r1443a,2TRANSKETO-RXN -r1443b,2TRANSKETO-RXN -r1444,RXN0-5292[CCO-PERI-BAC]-DCMP/WATER//DEOXYCYTIDINE/Pi.43. -r1445,RXN0-5292[CCO-CYTOSOL]-DCMP/WATER//DEOXYCYTIDINE/Pi.42. -r1446,RXN-14090[CCO-PERI-BAC]-CPD-3711/WATER//CYTIDINE/Pi.42. -r1447,RXN-14090[CCO-CYTOSOL]-CPD-3711/WATER//CYTIDINE/Pi.41. -r1448a,GUANYLCYC-RXN -r1448b,GUANYLCYC-RXN -r1449a,RXN0-5383 -r1449b,RXN0-5383 -r1450,RXN-14251 -r1451,HOMOCYSMET-RXN -r1452,RXN0-5422 -r1453a,RXN-14393 -r1453b,RXN-14393 -r1454,INOSINEKIN-RXN -r1455a,RXN0-6274 -r1455b,RXN0-6274 -r1456,RXN-14505 -r1457,KETOBUTFORMLY-RXN -r1458,4.3.1.15-RXN -r1459,RXN0-6451 -r1460,LXULRU5P-RXN -r1461,RXN-14992 -r1462a,MANNOSE-ISOMERASE-RXN -r1462b,MANNOSE-ISOMERASE-RXN -r1463,ACETYLORNDEACET-RXN -r1464,RXN-15216 -r1465,MHPHYDROXY-RXN -r1466,ADENOSINE-NUCLEOSIDASE-RXN -r1467,RXN-15581 -r1468,NAPHTHOATE-SYN-RXN -r1469,ALANINE--TRNA-LIGASE-RXN-ALA-tRNAs/L-ALPHA-ALANINE/ATP/PROTON//Charged-ALA-tRNAs/AMP/PPI.64. -r1470,RXN0-6938 -r1471,OHMETPYRKIN-RXN -r1472,ALTRODEHYDRAT-RXN -r1473,RXN0-6981 -r1474a,RXN-6423 -r1474b,RXN-6423 -r1475a,PEPCARBOX-RXN -r1475b,PEPCARBOX-RXN -r1476,ARGININE--TRNA-LIGASE-RXN-ARG-tRNAs/ARG/ATP/PROTON//Charged-ARG-tRNAs/AMP/PPI.52. -r1477,RXN0-7007 -r1478,RXN-8342-PRECURSOR-Z/Thiocarboxylated-MPT-synthases/WATER//MPT-Synthases/CPD-4/PROTON.77. -r1479,PHENYLPYRUVATE-TAUTOMERASE-RXN -r1480,ATP-PYROPHOSPHATASE-RXN -r1481,RXN0-7066 -r1482a,RXN-9087 -r1482b,RXN-9087 -r1483,PNPOXI-RXN -r1484,CARDIOLIPSYN-RXN-CPD-8260//CPD-12824/GLYCEROL.29. -r1485,RXN0-1342 -r1486a,PROTOHEMEFERROCHELAT-RXN[CCO-PERI-BAC]-FE+2/PROTOPORPHYRIN_IX//PROTOHEME/PROTON.55. -r1486b,PROTOHEMEFERROCHELAT-RXN[CCO-PERI-BAC]-FE+2/PROTOPORPHYRIN_IX//PROTOHEME/PROTON.55. -r1487a,PROTOHEMEFERROCHELAT-RXN[CCO-CYTOSOL]-FE+2/PROTOPORPHYRIN_IX//PROTOHEME/PROTON.54. -r1487b,PROTOHEMEFERROCHELAT-RXN[CCO-CYTOSOL]-FE+2/PROTOPORPHYRIN_IX//PROTOHEME/PROTON.54. -r1488a,DARAB5PISOM-RXN -r1488b,DARAB5PISOM-RXN -r1489,COBINAMIDEKIN-RXN -r1490,RXN66-521 -r1491a,RXN0-1941 -r1491b,RXN0-1941 -r1492a,PYROXALTRANSAM-RXN -r1492b,PYROXALTRANSAM-RXN -r1493a,DEOXYRIBOSE-P-ALD-RXN -r1493b,DEOXYRIBOSE-P-ALD-RXN -r1494a,D-PPENTOMUT-RXN -r1494b,D-PPENTOMUT-RXN -r1495,SPERMACTRAN-RXN -r1496,RXN0-2441 -r1497a,RFFTRANS-RXN -r1497b,RFFTRANS-RXN -r1498,DIHYDRODIPICSYN-RXN -r1499a,TAGAALDOL-RXN -r1499b,TAGAALDOL-RXN -r1500,RXN0-280-CPD0-1958/FMNH2/OXYGEN-MOLECULE//CPD-16549/SO3/FMN/WATER/PROTON.64. -r1501,RXN0-280-CPD-3746/FMNH2/OXYGEN-MOLECULE//FORMALDEHYDE/SO3/FMN/WATER/PROTON.66. -r1502,RXN0-280-CPD-3745/FMNH2/OXYGEN-MOLECULE//GLYCOLALDEHYDE/SO3/FMN/WATER/PROTON.68. -r1503,RXN0-280-CPD-10434/FMNH2/OXYGEN-MOLECULE//ACETALD/SO3/FMN/WATER/PROTON.62. -r1504a,RIBULPEPIM-RXN -r1504b,RIBULPEPIM-RXN -r1505,THREOSPON-RXN -r1506,RXN-11277 -r1507a,ENTF-RXN -r1507b,ENTF-RXN -r1508,TREHALOSEPHOSPHA-RXN -r1509,RXN0-385 -r1510,RXN-11592 -r1511a,FUCPALDOL-RXN -r1511b,FUCPALDOL-RXN -r1512,UDP-NACMURALA-GLU-LIG-RXN -r1513,RXN0-4342 -r1514,RXN-11835 -r1515,GCVMULTI-RXN-GLY/CPD-1301/NAD//CPD-12996/AMMONIUM/CARBON-DIOXIDE/NADH.57. -r1516,GCVMULTI-RXN-GLY/THF/NAD//METHYLENE-THF/AMMONIUM/CARBON-DIOXIDE/NADH.56. -r1517,UREIDOGLYCOLATE-LYASE-RXN -r1518,RXN0-5061 -r1519,RXN-12071 -r1520,GLUCONOLACT-RXN -r1521,YIAE1-RXN -r1522,1.1.1.274-RXN -r1523,RXN0-5122 -r1524,RXN-12458 -r1525a,GLUTDEHYD-RXN -r1525b,GLUTDEHYD-RXN -r1526,2-OCTAPRENYL-6-OHPHENOL-METHY-RXN -r1527,RXN0-5186 -r1528,ENTG-RXN-DHB-Seryl-EntF//ENTEROBACTIN/Holo-EntF.39. -r1529,RXN-12864 -r1530,GLYCOLATEDEHYDRO-RXN -r1531,2.7.1.121-RXN -r1532,RXN0-5222 -r1533,RXN-13747 -r1534,GSAAMINOTRANS-RXN -r1535,3-DEHYDROQUINATE-SYNTHASE-RXN -r1536,RXN0-5297 -r1537,RXN-14113 -r1538a,H2NTPEPIM-RXN -r1538b,H2NTPEPIM-RXN -r1539a,RXN0-5391 -r1539b,RXN0-5391 -r1540a,RXN-14261 -r1540b,RXN-14261 -r1541,HOMOSERDEHYDROG-RXN-HOMO-SER/NAD//L-ASPARTATE-SEMIALDEHYDE/NADH/PROTON.51. -r1542,HOMOSERDEHYDROG-RXN-HOMO-SER/NADP//L-ASPARTATE-SEMIALDEHYDE/NADPH/PROTON.53. -r1543,3.4.11.4-RXN -r1544,RXN-14408 -r1545a,ISOCHORSYN-RXN -r1545b,ISOCHORSYN-RXN -r1546,RXN0-6366 -r1547,RXN-14511 -r1548,L-LACTDEHYDROGFMN-RXN -r1549,5-FORMYL-THF-CYCLO-LIGASE-RXN-5-FORMYL-THF/ATP//5-10-METHENYL-THF/ADP/Pi.43. -r1550,RXN0-6460 -r1551,RXN-14806 -r1552,LYSOPHOSPHOLIPASE-RXN[CCO-PERI-BAC]-2-Lysophosphatidylcholines/WATER//Carboxylates/L-1-GLYCERO-PHOSPHORYLCHOLINE/PROTON.98. -r1553,LYSOPHOSPHOLIPASE-RXN[CCO-UNKNOWN-SPACE]-2-Lysophosphatidylcholines/WATER//Carboxylates/L-1-GLYCERO-PHOSPHORYLCHOLINE/PROTON.103. -r1554a,ACETALD-DEHYDROG-RXN -r1554b,ACETALD-DEHYDROG-RXN -r1555,MERCAPYSTRANS-RXN -r1556a,ACNEULY-RXN -r1556b,ACNEULY-RXN -r1557,RXN-15296 -r1558a,N-ACETYLGLUTPREDUCT-RXN -r1558b,N-ACETYLGLUTPREDUCT-RXN -r1559,ADENPRIBOSYLTRAN-RXN -r1560,RXN0-6708 -r1561a,RXN-15744 -r1561b,RXN-15744 -r1562,NICOTINATEPRIBOSYLTRANS-RXN -r1563a,ALCOHOL-DEHYDROG-GENERIC-RXN-OCTANOL/NAD//CPD-371/NADH/PROTON.33. -r1563b,ALCOHOL-DEHYDROG-GENERIC-RXN-OCTANOL/NAD//CPD-371/NADH/PROTON.33. -r1564a,ALCOHOL-DEHYDROG-GENERIC-RXN-PROPANOL/NAD//CPD-665/NADH/PROTON.34. -r1564b,ALCOHOL-DEHYDROG-GENERIC-RXN-PROPANOL/NAD//CPD-665/NADH/PROTON.34. -r1565a,ALCOHOL-DEHYDROG-GENERIC-RXN-ETOH/NAD//ACETALD/NADH/PROTON.30. -r1565b,ALCOHOL-DEHYDROG-GENERIC-RXN-ETOH/NAD//ACETALD/NADH/PROTON.30. -r1566,RXN-2881-FORMALDEHYDE/CPD-1301//CPD-12996/WATER.39. -r1567,RXN-2881-FORMALDEHYDE/THF//METHYLENE-THF/WATER.38. -r1568a,OROPRIBTRANS-RXN -r1568b,OROPRIBTRANS-RXN -r1569,AMINEPHEN-RXN -r1570,RXN0-6984 -r1571,RXN-7605-S-ADENOSYLMETHIONINE/DIMETHYL-GLYCINE//ADENOSYL-HOMO-CYS/BETAINE/PROTON.72. -r1572,PEPSYNTH-RXN -r1573,ARGSUCCINSYN-RXN -r1574,RXN0-7012-CPD-8260/CPD-12819//CPD-12824/ETHANOL-AMINE.44. -r1575,RXN-8447 -r1576a,PHOSACETYLTRANS-RXN -r1576b,PHOSACETYLTRANS-RXN -r1577a,RXN0-7074 -r1577b,RXN0-7074 -r1578,PORPHOBILSYNTH-RXN -r1579,CDPDIGLYPYPHOSPHA-RXN-CPD-12814/WATER//CPD0-1423/CMP/PROTON.38. -r1580,CDPDIGLYPYPHOSPHA-RXN-CPD-12815/WATER//CPD0-1422/CMP/PROTON.38. -r1581a,RXN0-7115 -r1581b,RXN0-7115 -r1582,RXN0-1402 -r1583,PRPPSYN-RXN -r1584,DARABKIN-RXN -r1585,RXNMETA-12672 -r1586,RXN0-2023 -r1587,DGDPKIN-RXN -r1588,DALADALALIG-RXN -r1589,SUCCARGDIHYDRO-RXN -r1590a,RHAMNULPALDOL-RXN -r1590b,RHAMNULPALDOL-RXN -r1591,DIHYDRONEOPTERIN-MONO-P-DEPHOS-RXN -r1592,TDPFUCACTRANS-RXN -r1593,RXN-10015 -r1594,DTDPDEHYRHAMREDUCT-RXN -r1595,THYKI-RXN -r1596,RXN0-3241 -r1597,RXN-11319 -r1598,ERYTHRON4PDEHYDROG-RXN -r1599a,F16ALDOLASE-RXN -r1599b,F16ALDOLASE-RXN -r1600,RXN0-3922-GAMMA-GLUTAMYL-GAMMA-AMINOBUTYRALDEH/NAD/WATER//CPD-9000/NADH/PROTON.69. -r1601,RXN0-3922-GAMMA-GLUTAMYL-GAMMA-AMINOBUTYRALDEH/NADP/WATER//CPD-9000/NADPH/PROTON.71. -r1602,RXN-11598 -r1603a,GABATRANSAM-RXN -r1603b,GABATRANSAM-RXN -r1604,UDPACYLGLCNACDEACETYL-RXN -r1605a,RXN0-4581 -r1605b,RXN0-4581 -r1606,RXN-11838 -r1607,GDPMANDEHYDRA-RXN -r1608,URKI-RXN -r1609a,RXN0-5065 -r1609b,RXN0-5065 -r1610,RXN-12093 -r1611,GLUCOSE-6-PHOSPHATASE-RXN -r1612,1.1.1.83-RXN -r1613,RXN0-5125 -r1614,GLUTRNAREDUCT-RXN-GLUTAMATE-1-SEMIALDEHYDE/GLT-tRNAs/NADP//Charged-GLT-tRNAs/NADPH.65. -r1615,2-OXOPENT-4-ENOATE-HYDRATASE-RXN -r1616a,RXN0-5190[CCI-PERI-BAC-GN]-Peptidoglycan-dimer//NAcMur-Peptide-NAcGlc-Undecaprenols/GlcNAc-1-6-anhydro-MurNAc-pentapeptide.113. -r1616b,RXN0-5190[CCI-PERI-BAC-GN]-Peptidoglycan-dimer//NAcMur-Peptide-NAcGlc-Undecaprenols/GlcNAc-1-6-anhydro-MurNAc-pentapeptide.113. -r1617a,RXN0-5190[CCO-PERI-BAC]-Peptidoglycan-dimer//NAcMur-Peptide-NAcGlc-Undecaprenols/GlcNAc-1-6-anhydro-MurNAc-pentapeptide.110. -r1617b,RXN0-5190[CCO-PERI-BAC]-Peptidoglycan-dimer//NAcMur-Peptide-NAcGlc-Undecaprenols/GlcNAc-1-6-anhydro-MurNAc-pentapeptide.110. -r1618a,RXN0-5190[CCO-UNKNOWN-SPACE]-Peptidoglycan-dimer//NAcMur-Peptide-NAcGlc-Undecaprenols/GlcNAc-1-6-anhydro-MurNAc-pentapeptide.115. -r1618b,RXN0-5190[CCO-UNKNOWN-SPACE]-Peptidoglycan-dimer//NAcMur-Peptide-NAcGlc-Undecaprenols/GlcNAc-1-6-anhydro-MurNAc-pentapeptide.115. -r1619a,RXN0-5190[CCO-CYTOSOL]-Peptidoglycan-dimer//NAcMur-Peptide-NAcGlc-Undecaprenols/GlcNAc-1-6-anhydro-MurNAc-pentapeptide.109. -r1619b,RXN0-5190[CCO-CYTOSOL]-Peptidoglycan-dimer//NAcMur-Peptide-NAcGlc-Undecaprenols/GlcNAc-1-6-anhydro-MurNAc-pentapeptide.109. -r1620,RXN-12871 -r1621,GLYOCARBOLIG-RXN -r1622,2.7.7.1-RXN -r1623,RXN0-5225 -r1624,RXN-13854 -r1625,GSPSYN-RXN -r1626a,3-ISOPROPYLMALISOM-RXN -r1626b,3-ISOPROPYLMALISOM-RXN -r1627a,RXN0-5305 -r1627b,RXN0-5305 -r1628,RXN-14124 -r1629,HCAMULTI-RXN -r1630a,RXN0-5398 -r1630b,RXN0-5398 -r1631,RXN-14283 -r1632,RXN0-3501-NITRATE/REDUCED-MENAQUINONE/PROTON//NITRITE/CPD-9728/WATER/PROTON.66. -r1633a,HYDGLUTSYN-RXN-PROPIONYL-COA/GLYOX/WATER//CPD-381/CO-A/PROTON.47. -r1633b,HYDGLUTSYN-RXN-PROPIONYL-COA/GLYOX/WATER//CPD-381/CO-A/PROTON.47. -r1634,3.4.13.21-RXN -r1635,SUCCINATE-DEHYDROGENASE-UBIQUINONE-RXN-SUC/UBIQUINONE-8//FUM/CPD-9956.31. -r1636,DIHYDROOROTATE-DEHYDROGENASE-RXN-DI-H-OROTATE/CPD-9728//OROTATE/REDUCED-MENAQUINONE.51. -r1637,DIHYDROOROTATE-DEHYDROGENASE-RXN-DI-H-OROTATE/UBIQUINONE-8//OROTATE/CPD-9956.44. -r1638,RXN0-5462 -r1639,RXN0-5264-TRIMENTHLAMINE-N-O/REDUCED-MENAQUINONE/PROTON//TRIMETHYLAMINE/CPD-9728/WATER.77. -r1640,RXN-14477 -r1641,FORMATEDEHYDROG-RXN-FORMATE/CPD-9728/PROTON//CARBON-DIOXIDE/REDUCED-MENAQUINONE/PROTON.67. -r1642,ISPH2-RXN-DELTA3-ISOPENTENYL-PP/NAD/WATER//HYDROXY-METHYL-BUTENYL-DIP/NADH/PROTON.72. -r1643,ISPH2-RXN-DELTA3-ISOPENTENYL-PP/NADP/WATER//HYDROXY-METHYL-BUTENYL-DIP/NADPH/PROTON.74. -r1644,RXN0-5330-NADH/UBIQUINONE-8/PROTON//NAD/CPD-9956.39. -r1645,3.5.1.88-RXN -r1646a,NADH-DEHYDROG-A-RXN-NADH/UBIQUINONE-8/PROTON//NAD/CPD-9956/PROTON.46. -r1646b,NADH-DEHYDROG-A-RXN-NADH/UBIQUINONE-8/PROTON//NAD/CPD-9956/PROTON.46. -r1647a,RXN0-6371 -r1647b,RXN0-6371 -r1648,RXN0-6369-NITRATE/CPD-9956//NITRITE/UBIQUINONE-8/WATER.45. -r1649,RXN-14514 -r1650,RXN-11193-D-GLT/CPD-9728/WATER//AMMONIUM/2-KETOGLUTARATE/REDUCED-MENAQUINONE.67. -r1651,RXN-11193-D-GLT/UBIQUINONE-8/WATER//AMMONIUM/2-KETOGLUTARATE/CPD-9956.60. -r1652,RXN-11193-D-ALANINE/CPD-9728/WATER//AMMONIUM/PYRUVATE/REDUCED-MENAQUINONE.64. -r1653,RXN-11193-D-ALANINE/UBIQUINONE-8/WATER//AMMONIUM/PYRUVATE/CPD-9956.57. -r1654,RXN-11193-CPD-218/CPD-9728/WATER//AMMONIUM/CPD-479/REDUCED-MENAQUINONE.61. -r1655,RXN-11193-CPD-218/UBIQUINONE-8/WATER//AMMONIUM/CPD-479/CPD-9956.54. -r1656a,LACTALDREDUCT-RXN -r1656b,LACTALDREDUCT-RXN -r1657,RXN0-6554-DI-H-OROTATE/CPD-9728//OROTATE/REDUCED-MENAQUINONE.51. -r1658a,5.3.3.14-RXN-Trans-D2-decenoyl-ACPs//Cis-delta-3-decenoyl-ACPs.50. -r1658b,5.3.3.14-RXN-Trans-D2-decenoyl-ACPs//Cis-delta-3-decenoyl-ACPs.50. -r1659,RXN0-7124-NITRATE/CPD-9956/PROTON//NITRITE/UBIQUINONE-8/PROTON/WATER.59. -r1660,DALADEHYDROG-RXN-D-ALANINE/CPD-9728/WATER//AMMONIUM/PYRUVATE/REDUCED-MENAQUINONE.64. -r1661,DALADEHYDROG-RXN-D-ALANINE/UBIQUINONE-8/WATER//AMMONIUM/PYRUVATE/CPD-9956.57. -r1662a,RXN-14809-CPD-12045//ARABINOSE.21. -r1662b,RXN-14809-CPD-12045//ARABINOSE.21. -r1663,RXN0-5260-GLYCEROL-3P/UBIQUINONE-8//DIHYDROXY-ACETONE-PHOSPHATE/CPD-9956.63. -r1664a,MALATE-DEH-RXN -r1664b,MALATE-DEH-RXN -r1665,DLACTDEHYDROGFAD-RXN-D-LACTATE/UBIQUINONE-8//PYRUVATE/CPD-9956.42. -r1666a,ACETOACETYL-COA-TRANSFER-RXN -r1666b,ACETOACETYL-COA-TRANSFER-RXN -r1667,RXN0-5268-CPD-9956/OXYGEN-MOLECULE/PROTON//UBIQUINONE-8/WATER/PROTON.59. -r1668a,RXN0-6513 -r1668b,RXN0-6513 -r1669a,R601-RXN-FUM/REDUCED-MENAQUINONE//SUC/CPD-9728.38. -r1669b,R601-RXN-FUM/REDUCED-MENAQUINONE//SUC/CPD-9728.38. -r1670,RXN-15123 -r1671,RXN0-6491-DI-H-OROTATE/UBIQUINONE-8//OROTATE/CPD-9956.44. -r1672,METHGLYSYN-RXN -r1673,RXN-15740-GLYCEROL-3P/CPD-9728//DIHYDROXY-ACETONE-PHOSPHATE/REDUCED-MENAQUINONE.70. -r1674a,ACONITATEHYDR-RXN -r1674b,ACONITATEHYDR-RXN -r1675,RXN0-7123-NADH/CPD-9728/PROTON//NAD/REDUCED-MENAQUINONE.46. -r1676,RXN0-5256-CPD-9728/PROTON/HYDROGEN-MOLECULE//REDUCED-MENAQUINONE/PROTON.62. -r1677,RXN-15299 -r1678a,DIMESULFREDUCT-RXN-CPD-7670/CPD-9728/WATER//DMSO/REDUCED-MENAQUINONE.50. -r1678b,DIMESULFREDUCT-RXN-CPD-7670/CPD-9728/WATER//DMSO/REDUCED-MENAQUINONE.50. -r1679,NAD-KIN-RXN -r1680,RXN0-5266-CPD-9956/OXYGEN-MOLECULE/PROTON//UBIQUINONE-8/WATER/PROTON.59. -r1681,ADENYLOSUCCINATE-SYNTHASE-RXN -r1682,RXN0-5388-NADH/CPD-9728/PROTON//NAD/REDUCED-MENAQUINONE/PROTON.53. -r1683a,RXN0-6720 -r1683b,RXN0-6720 -r1684a,RXN-15881-L-Cysteine-Desulfurases/CYS//Persulfurated-L-cysteine-desulfurases/L-ALPHA-ALANINE.83. -r1684b,RXN-15881-L-Cysteine-Desulfurases/CYS//Persulfurated-L-cysteine-desulfurases/L-ALPHA-ALANINE.83. -r1685,NQOR-RXN-CPD-9728/NADH/PROTON//REDUCED-MENAQUINONE/NAD.46. -r1686,NQOR-RXN-CPD-9728/NADPH/PROTON//REDUCED-MENAQUINONE/NADP.48. -r1687,NQOR-RXN-UBIQUINONE-8/NADH/PROTON//CPD-9956/NAD.39. -r1688,NQOR-RXN-UBIQUINONE-8/NADPH/PROTON//CPD-9956/NADP.41. -r1689,RXN-11496-PYRUVATE/UBIQUINONE-8/WATER//CARBON-DIOXIDE/ACET/CPD-9956.58. -r1690,ALDEHYDE-DEHYDROGENASE-NADP+-RXN-CPD-8490/NADP/WATER//CPD-3617/NADPH/PROTON.43. -r1691,ALDEHYDE-DEHYDROGENASE-NADP+-RXN-METHYL-GLYOXAL/NADP/WATER//PYRUVATE/NADPH/PROTON.49. -r1692,ALDEHYDE-DEHYDROGENASE-NADP+-RXN-CPD-665/NADP/WATER//PROPIONATE/NADPH/PROTON.44. -r1693,ALDEHYDE-DEHYDROGENASE-NADP+-RXN-ACETALD/NADP/WATER//ACET/NADPH/PROTON.38. -r1694,ALDEHYDE-DEHYDROGENASE-NADP+-RXN-HEXANAL/NADP/WATER//HEXANOATE/NADPH/PROTON.43. -r1695,ALDEHYDE-DEHYDROGENASE-NADP+-RXN-CPD-371/NADP/WATER//CPD-195/NADPH/PROTON.41. -r1696,ALDEHYDE-DEHYDROGENASE-NADP+-RXN-HYDRPHENYLAC-CPD/NADP/WATER//3-HYDROXYPHENYLACETATE/NADPH/PROTON.65. -r1697,ALDEHYDE-DEHYDROGENASE-NADP+-RXN-BENZALDEHYDE/NADP/WATER//BENZOATE/NADPH/PROTON.47. -r1698,RXN0-6952 -r1699,RXN-3521 -r1700,OXALODECARB-RXN -r1701,RXN0-6988 -r1702,RXN-7682 -r1703a,PGLUCISOM-RXN -r1703b,PGLUCISOM-RXN -r1704,ASNSYNA-RXN -r1705,RXN0-7020 -r1706a,RXN-8645-CPD-381/NAD//2-KETOGLUTARATE/NADH/PROTON.41. -r1706b,RXN-8645-CPD-381/NAD//2-KETOGLUTARATE/NADH/PROTON.41. -r1707,PHOSNACMURPENTATRANS-RXN -r1708,BETA-GLUCURONID-RXN -r1709,RXN0-7079 -r1710,RXN-9597 -r1711,PPPGPPHYDRO-RXN -r1712,RXN0-742 -r1713,RXN0-1483[CCO-PERI-BAC]-FE+2/PROTON/OXYGEN-MOLECULE//FE+3/WATER.54. -r1714,RXN0-1483[CCO-CYTOSOL]-FE+2/PROTON/OXYGEN-MOLECULE//FE+3/WATER.53. -r1715a,PSERTRANSAMPYR-RXN -r1715b,PSERTRANSAMPYR-RXN -r1716,DCTP-PYROPHOSPHATASE-RXN -r1717,CYCPHOSDIESTER-RXN-CPD-3725/WATER//CPD-3724/PROTON.32. -r1718,CYCPHOSDIESTER-RXN-CPD-3713/WATER//CPD-3711/PROTON.32. -r1719,CYCPHOSDIESTER-RXN-CPD-3709/WATER//CPD-3708/PROTON.32. -r1720,CYCPHOSDIESTER-RXN-CPD-3707/WATER//CPD-3706/PROTON.32. -r1721,SAICARSYN-RXN -r1722,RXN0-2061 -r1723,QUERCETIN-23-DIOXYGENASE-RXN -r1724,DHBDEHYD-RXN -r1725,SUCCGLUALDDEHYD-RXN -r1726,RXN0-262 -r1727,RIBOFLAVIN-SYN-RXN -r1728,DIHYDROXYISOVALDEHYDRAT-RXN -r1729,THI-P-KIN-RXN -r1730,RXN0-299 -r1731,RXN-10018 -r1732,DTDPKIN-RXN -r1733,THYMIDYLATESYN-RXN-METHYLENE-THF/DUMP//TMP/DIHYDROFOLATE.38. -r1734,RXN-11397 -r1735,RXN-11475-MALONYL-ACP/S-ADENOSYLMETHIONINE//Malonyl-acp-methyl-ester/ADENOSYL-HOMO-CYS.77. -r1736,FGAMSYN-RXN -r1737,TRNA-PSEUDOURIDINE-SYNTHASE-I-RXN -r1738,RXN0-4022 -r1739,RXN-11602 -r1740a,GALACTOACETYLTRAN-RXN -r1740b,GALACTOACETYLTRAN-RXN -r1741,UDPKIN-RXN -r1742a,RXN0-4841 -r1742b,RXN0-4841 -r1743a,RXN-11841 -r1743b,RXN-11841 -r1744,GKI-RXN -r1745,UROPORIIIMETHYLTRANSA-RXN -r1746a,RXN-12149 -r1746b,RXN-12149 -r1747,GLURS-RXN-GLT-tRNAs/GLT/ATP/PROTON//Charged-GLT-tRNAs/AMP/PPI.52. -r1748,1.5.1.20-RXN-CPD-1302/NAD//CPD-12996/NADH/PROTON.36. -r1749,1.5.1.20-RXN-5-METHYL-THF/NAD//METHYLENE-THF/NADH/PROTON.44. -r1750a,RXN-12583 -r1750b,RXN-12583 -r1751,GLYC3PDEHYDROGBIOSYN-RXN-GLYCEROL-3P/NAD//DIHYDROXY-ACETONE-PHOSPHATE/NADH/PROTON.57. -r1752,GLYC3PDEHYDROGBIOSYN-RXN-GLYCEROL-3P/NADP//DIHYDROXY-ACETONE-PHOSPHATE/NADPH/PROTON.59. -r1753,2.1.1.77-RXN -r1754a,RXN0-5199 -r1754b,RXN0-5199 -r1755,RXN-12896 -r1756,GLYOXII-RXN -r1757a,RXN0-5228 -r1757b,RXN0-5228 -r1758,RXN-14002 -r1759,GTP-CYCLOHYDRO-II-RXN -r1760a,RXN0-5329 -r1760b,RXN0-5329 -r1761,RXN-14139 -r1762,HISTALDEHYD-RXN -r1763,RXN0-5407 -r1764a,RXN-14286 -r1764b,RXN-14286 -r1765,IGPSYN-RXN -r1766,RXN0-5510 -r1767a,RXN-14480 -r1767b,RXN-14480 -r1768,KDO-8PSYNTH-RXN -r1769,325-BISPHOSPHATE-NUCLEOTIDASE-RXN -r1770,RXN-14522 -r1771,LEUCINE--TRNA-LIGASE-RXN-LEU-tRNAs/LEU/ATP/PROTON//Charged-LEU-tRNAs/AMP/PPI.52. -r1772a,RXN-14812 -r1772b,RXN-14812 -r1773a,ACETOLACTSYN-RXN -r1773b,ACETOLACTSYN-RXN -r1774,RXN-15127 -r1775a,METHYLENETHFDEHYDROG-NADP-RXN-METHYLENE-THF/NADP//5-10-METHENYL-THF/NADPH.44. -r1775b,METHYLENETHFDEHYDROG-NADP-RXN-METHYLENE-THF/NADP//5-10-METHENYL-THF/NADPH.44. -r1776,ACYLCOADEHYDROG-RXN-BUTYRYL-COA/ETF-Oxidized/PROTON//CROTONYL-COA/ETF-Reduced.58. -r1777,ACYLCOADEHYDROG-RXN-HEXANOYL-COA/ETF-Oxidized/PROTON//CPD0-2121/ETF-Reduced.56. -r1778,ACYLCOADEHYDROG-RXN-CPD-196/ETF-Oxidized/PROTON//CPD0-2108/ETF-Reduced.51. -r1779,ACYLCOADEHYDROG-RXN-CPD-10267/ETF-Oxidized/PROTON//T2-DECENOYL-COA/ETF-Reduced.59. -r1780,ACYLCOADEHYDROG-RXN-LAUROYLCOA-CPD/ETF-Oxidized/PROTON//CPD-7222/ETF-Reduced.57. -r1781,ACYLCOADEHYDROG-RXN-TETRADECANOYL-COA/ETF-Oxidized/PROTON//POLYMER-INST-TRANS-D2-ENOYL-COA-C10-H20/ETF-Reduced.91. -r1782,ACYLCOADEHYDROG-RXN-PALMITYL-COA/ETF-Oxidized/PROTON//CPD0-2117/ETF-Reduced.56. -r1783,ACYLCOADEHYDROG-RXN-STEAROYL-COA/ETF-Oxidized/PROTON//CPD-10262/ETF-Reduced.56. -r1784,ACYLCOADEHYDROG-RXN-CPD-9965/ETF-Oxidized/PROTON//POLYMER-INST-TRANS-D2-ENOYL-COA-C16-H32/ETF-Reduced.82. -r1785,RXN-15341 -r1786a,NADH-DEHYDROGENASE-QUINONE-RXN -r1786b,NADH-DEHYDROGENASE-QUINONE-RXN -r1787,RXN0-6725-CPD-12819/WATER//PALMITATE/CPD-8353/PROTON.43. -r1788a,RXN-16000 -r1788b,RXN-16000 -r1789,O-SUCCHOMOSERLYASE-RXN -r1790,ALKAPHOSPHA-RXN -r1791,RXN0-6974 -r1792a,RXN-4821 -r1792b,RXN-4821 -r1793,P-PANTOCYSDECARB-RXN -r1794,AMPSYN-RXN -r1795,RXN0-6994 -r1796a,RXN-7931 -r1796b,RXN-7931 -r1797a,PGLYCEROLTRANSI-RXN -r1797b,PGLYCEROLTRANSI-RXN -r1798,ASPARAGINE--TRNA-LIGASE-RXN-ASN-tRNAs/ASN/ATP/PROTON//Charged-ASN-tRNAs/AMP/PPI.52. -r1799,RXN-8675 -r1800a,PHOSPHASERSYN-RXN-CPD-12814/SER//CMP/CPD-12816/PROTON.36. -r1800b,PHOSPHASERSYN-RXN-CPD-12814/SER//CMP/CPD-12816/PROTON.36. -r1801a,PHOSPHASERSYN-RXN-CPD-12815/SER//CMP/CPD-12817/PROTON.36. -r1801b,PHOSPHASERSYN-RXN-CPD-12815/SER//CMP/CPD-12817/PROTON.36. -r1802,BETAGALACTOSID-RXN -r1803,RXN-9952 -r1804,PREPHENATEDEHYDROG-RXN -r1805,CHORISMATE-SYNTHASE-RXN -r1806,RXN0-901 -r1807,RXN0-1661 -r1808,PUTTRANSAM-RXN -r1809a,DEHYDDEOXPHOSGALACT-ALDOL-RXN -r1809b,DEHYDDEOXPHOSGALACT-ALDOL-RXN -r1810,CYSTEINE-AMINOTRANSFERASE-RXN -r1811a,SELENOCYSTEINE-LYASE-RXN -r1811b,SELENOCYSTEINE-LYASE-RXN -r1812,RXN0-2161-tRNA-Sec/SER/ATP/PROTON//L-seryl-SEC-tRNAs/AMP/PPI.51. -r1813a,R15-RXN-MET/PYRUVATE//CPD-479/L-ALPHA-ALANINE.38. -r1813b,R15-RXN-MET/PYRUVATE//CPD-479/L-ALPHA-ALANINE.38. -r1814a,R15-RXN-MET/CPD-479//CPD-479/MET.25. -r1814b,R15-RXN-MET/CPD-479//CPD-479/MET.25. -r1815a,R15-RXN-MET/GLYOX//CPD-479/GLY.23. -r1815b,R15-RXN-MET/GLYOX//CPD-479/GLY.23. -r1816a,R15-RXN-MET/2-KETOGLUTARATE//CPD-479/GLT.33. -r1816b,R15-RXN-MET/2-KETOGLUTARATE//CPD-479/GLT.33. -r1817a,DIACYLGLYKIN-RXN -r1817b,DIACYLGLYKIN-RXN -r1818a,SUCCINYLDIAMINOPIMTRANS-RXN -r1818b,SUCCINYLDIAMINOPIMTRANS-RXN -r1819,RIBOFLAVINSYNREDUC-RXN -r1820,DIOHBUTANONEPSYN-RXN -r1821,THIKIN-RXN -r1822,RXN0-302 -r1823,DURIDKI-RXN -r1824,RXN0-3521 -r1825,RXN0-3601 -r1826,RXN-11574 -r1827,TRYPSYN-RXN -r1828,RXN0-4181 -r1829,RXN-11637 -r1830,GALACTONOLACTONASE-RXN -r1831,UDPNACETYLGLUCOSAMENOLPYRTRANS-RXN -r1832,RXN-11845 -r1833,GLUC1PADENYLTRANS-RXN -r1834,VALINE--TRNA-LIGASE-RXN-VAL-tRNAs/VAL/ATP/PROTON//Charged-VAL-tRNAs/AMP/PPI.52. -r1835,RXN0-5107 -r1836,RXN-12198 -r1837,GLUTAMINE--TRNA-LIGASE-RXN-GLN-tRNAs/GLN/ATP/PROTON//Charged-GLN-tRNAs/AMP/PPI.52. -r1838,1PFRUCTPHOSN-RXN -r1839,RXN0-5144 -r1840,RXN-12618 -r1841,GLYCEROL-2-PHOSPHATASE-RXN[CCO-PERI-BAC]-CPD-536/WATER//GLYCEROL/Pi.41. -r1842,GLYCEROL-2-PHOSPHATASE-RXN[CCO-CYTOSOL]-CPD-536/WATER//GLYCEROL/Pi.40. -r1843,2.3.1.157-RXN -r1844,RXN0-5209 -r1845,RXN-13202 -r1846,GLYRIBONUCSYN-RXN -r1847,2.8.1.6-RXN -r1848a,RXN0-5240 -r1848b,RXN0-5240 -r1849,RXN-14026[CCO-PERI-BAC]-CMP/WATER//CYTIDINE/Pi.37. -r1850,RXN-14026[CCO-CYTOSOL]-CMP/WATER//CYTIDINE/Pi.36. -r1851,GUANOSINE-DIPHOSPHATASE-RXN -r1852a,RXN0-5363 -r1852b,RXN0-5363 -r1853,RXN-14160 -r1854,HISTIDINE--TRNA-LIGASE-RXN-HIS-tRNAs/HIS/ATP/PROTON//Charged-HIS-tRNAs/AMP/PPI.52. -r1855,3.2.1.17-RXN-C6/WATER//C5/N-ACETYL-D-GLUCOSAMINE.36. -r1856,RXN0-5410 -r1857a,IMPCYCLOHYDROLASE-RXN -r1857b,IMPCYCLOHYDROLASE-RXN -r1858a,RXN-14497 -r1858b,RXN-14497 -r1859,4-NITROPHENYLPHOSPHATASE-RXN -r1860,RXN0-6427 -r1861,RXN-14525 -r1862,LIPIDXSYNTHESIS-RXN -r1863,6PFRUCTPHOS-RXN -r1864a,RXN-14850 -r1864b,RXN-14850 -r1865a,ACETYL-COA-ACETYLTRANSFER-RXN -r1865b,ACETYL-COA-ACETYLTRANSFER-RXN -r1866,RXN-15139 -r1867a,METHYLMALONYL-COA-MUT-RXN -r1867b,METHYLMALONYL-COA-MUT-RXN -r1868a,ADCLY-RXN -r1868b,ADCLY-RXN -r1869,RXN0-6564 -r1870,RXN-15348 -r1871,NAG1P-URIDYLTRANS-RXN -r1872a,AICARTRANSFORM-RXN-10-FORMYL-THF/AICAR//THF/PHOSPHORIBOSYL-FORMAMIDO-CARBOXAMIDE.62. -r1872b,AICARTRANSFORM-RXN-10-FORMYL-THF/AICAR//THF/PHOSPHORIBOSYL-FORMAMIDO-CARBOXAMIDE.62. -r1873,RXN0-6731 -r1874a,RXN-16225 -r1874b,RXN-16225 -r1875,OCTAPRENYL-METHYL-METHOXY-BENZOQ-OH-RXN -r1876,ALLOSE-KINASE-RXN -r1877,RXN0-6977 -r1878,RXN-5841 -r1879,PANTEPADENYLYLTRAN-RXN -r1880a,ARABISOM-RXN-ARABINOSE//L-RIBULOSE.22. -r1880b,ARABISOM-RXN-ARABINOSE//L-RIBULOSE.22. -r1881,RXN0-7000 -r1882,RXN-7968-SHIKIMATE/NAD//3-DEHYDRO-SHIKIMATE/NADH/PROTON.47. -r1883,RXN-7968-SHIKIMATE/NADP//3-DEHYDRO-SHIKIMATE/NADPH/PROTON.49. -r1884a,PHEAMINOTRANS-RXN -r1884b,PHEAMINOTRANS-RXN -r1885a,ASPARTATE-SEMIALDEHYDE-DEHYDROGENASE-RXN -r1885b,ASPARTATE-SEMIALDEHYDE-DEHYDROGENASE-RXN -r1886,RXN0-704 -r1887,RXN-8974 -r1888,PHOSPHOGLYCERATE-PHOSPHATASE-RXN -r1889a,BRANCHED-CHAINAMINOTRANSFERVAL-RXN -r1889b,BRANCHED-CHAINAMINOTRANSFERVAL-RXN -r1890a,RXN0-7092 -r1890b,RXN0-7092 -r1891,RXN0-1081 -r1892,PROLINE-MULTI -r1893,CITRATE-PRO-3S-LYASE-THIOLESTERASE-RXN-CITRATE-LYASE/WATER//HOLO-CITRATE-LYASE/ACET/PROTON.52. -r1894a,RXN0-963 -r1894b,RXN0-963 -r1895,RXN0-1862-UDP-4-AMINO-4-DEOXY-L-ARABINOSE/10-FORMYL-THF//UDP-L-ARA4-FORMYL-N/THF/PROTON.78. -r1896,PYRIDOXKIN-RXN -r1897a,DEOXYGUANPHOSPHOR-RXN -r1897b,DEOXYGUANPHOSPHOR-RXN -r1898,CYTIDEAM2-RXN -r1899a,SHIKIMATE-5-DEHYDROGENASE-RXN -r1899b,SHIKIMATE-5-DEHYDROGENASE-RXN -r1900a,RXN0-2301-ISOVALERYL-COA/ETF-Oxidized/PROTON//3-METHYL-CROTONYL-COA/ETF-Reduced.70. -r1900b,RXN0-2301-ISOVALERYL-COA/ETF-Oxidized/PROTON//3-METHYL-CROTONYL-COA/ETF-Reduced.70. -r1901a,DIAMINOPIMEPIM-RXN -r1901b,DIAMINOPIMEPIM-RXN -r1902,SUGAR-PHOSPHATASE-RXN-CPD-16502/WATER//CPD-16501/Pi.30. -r1903,SUGAR-PHOSPHATASE-RXN-CPD0-1286/WATER//CPD0-1114/Pi.30. -r1904,SUGAR-PHOSPHATASE-RXN-ERYTHROSE-4P/WATER//ERYTHROSE/Pi.33. -r1905,RXN0-271-NADPH/CPD-9728/PROTON//NADP/REDUCED-MENAQUINONE.48. -r1906,RXN0-271-NADPH/UBIQUINONE-8/PROTON//NADP/CPD-9956.41. -r1907,RIBOSYLHOMOCYSTEINASE-RXN -r1908,DMK-RXN -r1909,THREDEHYD-RXN -r1910a,RXN0-305 -r1910b,RXN0-305 -r1911a,RXN-10856 -r1911b,RXN-10856 -r1912,DXS-RXN -r1913,TRANSENOYLCOARED-RXN-BUTYRYL-COA/NADP//CROTONYL-COA/NADPH/PROTON.44. -r1914,TRANSENOYLCOARED-RXN-PALMITYL-COA/NADP//CPD0-2117/NADPH/PROTON.42. -r1915,TRANSENOYLCOARED-RXN-STEAROYL-COA/NADP//CPD-10262/NADPH/PROTON.42. -r1916,TRANSENOYLCOARED-RXN-LAUROYLCOA-CPD/NADP//CPD-7222/NADPH/PROTON.43. -r1917,TRANSENOYLCOARED-RXN-CPD-10267/NADP//T2-DECENOYL-COA/NADPH/PROTON.45. -r1918,TRANSENOYLCOARED-RXN-CPD-196/NADP//CPD0-2108/NADPH/PROTON.37. -r1919,TRANSENOYLCOARED-RXN-HEXANOYL-COA/NADP//CPD0-2121/NADPH/PROTON.42. -r1920,RXN0-3741[CCO-PERI-BAC]-DAMP/WATER//DEOXYADENOSINE/Pi.44. -r1921,RXN0-3741[CCO-CYTOSOL]-DAMP/WATER//DEOXYADENOSINE/Pi.43. -r1922,RXN0-3741[CCO-PERI-BAC]-DIMP/WATER//DEOXYINOSINE/Pi.42. -r1923,RXN0-3741[CCO-CYTOSOL]-DIMP/WATER//DEOXYINOSINE/Pi.41. -r1924,RXN0-3741[CCO-PERI-BAC]-DUMP/WATER//DEOXYURIDINE/Pi.42. -r1925,RXN0-3741[CCO-CYTOSOL]-DUMP/WATER//DEOXYURIDINE/Pi.41. -r1926,RXN0-3741[CCO-PERI-BAC]-DCMP/WATER//DEOXYCYTIDINE/Pi.43. -r1927,RXN0-3741[CCO-CYTOSOL]-DCMP/WATER//DEOXYCYTIDINE/Pi.42. -r1928,RXN0-3741[CCO-PERI-BAC]-TMP/WATER//THYMIDINE/Pi.38. -r1929,RXN0-3741[CCO-CYTOSOL]-TMP/WATER//THYMIDINE/Pi.37. -r1930,RXN-11586 -r1931,FPPSYN-RXN -r1932,TSA-REDUCT-RXN-GLYCERATE/NAD//TARTRONATE-S-ALD/NADH/PROTON.44. -r1933,TSA-REDUCT-RXN-GLYCERATE/NADP//TARTRONATE-S-ALD/NADPH/PROTON.46. -r1934a,RXN-11811 -r1934b,RXN-11811 -r1935a,GALPMUT-RXN -r1935b,GALPMUT-RXN -r1936,UGD-RXN -r1937,RXN0-5040 -r1938,RXN-11866 -r1939,GLUCDEHYDROG-RXN-GLC/UBIQUINONE-8//GLC-D-LACTONE/CPD-9956.41. -r1940,XANTHOSINEPHOSPHORY-RXN -r1941,1.1.1.215-RXN -r1942,RXN0-5116 -r1943,RXN-12353 -r1944,GLUTATHIONE-REDUCT-NADPH-RXN -r1945,2-ISOPROPYLMALATESYN-RXN -r1946a,RXN0-5182 -r1946b,RXN0-5182 -r1947,RXN-12754 -r1948a,2.5.1.19-RXN -r1948b,2.5.1.19-RXN -r1949,RXN0-5214 -r1950,RXN-13418 -r1951,GMP-SYN-GLUT-RXN -r1952a,2PGADEHYDRAT-RXN -r1952b,2PGADEHYDRAT-RXN -r1953a,RXN0-5291 -r1953b,RXN0-5291 -r1954,RXN-14074 -r1955,GUANYL-KIN-RXN -r1956,RXN-14188 -r1957,HISTPRATPHYD-RXN -r1958,RXN0-5418 -r1959,RXN-14382 -r1960,INOSINE-NUCLEOSIDASE-RXN -r1961a,RXN-14503 -r1961b,RXN-14503 -r1962,KETOACYLCOATHIOL-RXN-BUTYRYL-COA/ACETYL-COA//K-HEXANOYL-COA/CO-A.44. -r1963,KETOACYLCOATHIOL-RXN-HEXANOYL-COA/ACETYL-COA//CPD0-2106/CO-A.40. -r1964,KETOACYLCOATHIOL-RXN-CPD-196/ACETYL-COA//CPD0-2123/CO-A.35. -r1965,KETOACYLCOATHIOL-RXN-CPD-10267/ACETYL-COA//CPD0-2105/CO-A.37. -r1966,KETOACYLCOATHIOL-RXN-LAUROYLCOA-CPD/ACETYL-COA//CPD-10284/CO-A.42. -r1967,KETOACYLCOATHIOL-RXN-TETRADECANOYL-COA/ACETYL-COA//3-OXOPALMITOYL-COA/CO-A.54. -r1968,KETOACYLCOATHIOL-RXN-PALMITYL-COA/ACETYL-COA//CPD-10260/CO-A.40. -r1969,KETOACYLCOATHIOL-RXN-STEAROYL-COA/ACETYL-COA//POLYMER-INST-3-KETOACYL-COA-C16-H32/CO-A.66. -r1970,KETOACYLCOATHIOL-RXN-CPD-9965/ACETYL-COA//POLYMER-INST-3-KETOACYL-COA-C18-H36/CO-A.62. -r1971,RXN0-6450 -r1972a,RXN-14693 -r1972b,RXN-14693 -r1973,LUMAZINESYN-RXN -r1974a,7-ALPHA-HYDROXYSTEROID-DEH-RXN -r1974b,7-ALPHA-HYDROXYSTEROID-DEH-RXN -r1975a,RXN-14904 -r1975b,RXN-14904 -r1976a,MANNONOXIDOREDUCT-RXN-D-MANNONATE/NAD//CPD-12537/NADH/PROTON.39. -r1976b,MANNONOXIDOREDUCT-RXN-D-MANNONATE/NAD//CPD-12537/NADH/PROTON.39. -r1977,ACETYLGLUTKIN-RXN -r1978,RXN-15210 -r1979a,MHPELY-RXN -r1979b,MHPELY-RXN -r1980,ADENODEAMIN-RXN -r1981,RXN0-6576 -r1982,RXN-15578 -r1983,NANK-RXN-N-ACETYL-D-MANNOSAMINE/ATP//N-ACETYL-D-MANNOSAMINE-6P/ADP/PROTON.65. -r1984,RXN0-6734 -r1985a,RXN-16286 -r1985b,RXN-16286 -r1986,OHMETHYLBILANESYN-RXN -r1987a,ALTRO-OXIDOREDUCT-RXN -r1987b,ALTRO-OXIDOREDUCT-RXN -r1988,RXN0-6980 -r1989a,RXN-6321-5-10-METHENYL-THF/WATER//5-FORMYL-THF/PROTON.45. -r1989b,RXN-6321-5-10-METHENYL-THF/WATER//5-FORMYL-THF/PROTON.45. -r1990,PDXJ-RXN -r1991,ARGDECARBOX-RXN[CCO-PERI-BAC]-ARG/PROTON//CARBON-DIOXIDE/AGMATHINE.51. -r1992,ARGDECARBOX-RXN[CCO-CYTOSOL]-ARG/PROTON//CARBON-DIOXIDE/AGMATHINE.50. -r1993,RXN-8340 -r1994,PHENYLALANINE--TRNA-LIGASE-RXN-PHE-tRNAs/PHE/ATP/PROTON//Charged-PHE-tRNAs/AMP/PPI.52. -r1995,ASPDECARBOX-RXN -r1996,RXN0-705 -r1997a,RXN-8999 -r1997b,RXN-8999 -r1998a,PNP-RXN-ADENOSINE/Pi//ADENINE/RIBOSE-1P.32. -r1998b,PNP-RXN-ADENOSINE/Pi//ADENINE/RIBOSE-1P.32. -r1999a,PNP-RXN-GUANOSINE/Pi//GUANINE/RIBOSE-1P.32. -r1999b,PNP-RXN-GUANOSINE/Pi//GUANINE/RIBOSE-1P.32. -r2000a,PNP-RXN-INOSINE/Pi//HYPOXANTHINE/RIBOSE-1P.35. -r2000b,PNP-RXN-INOSINE/Pi//HYPOXANTHINE/RIBOSE-1P.35. -r2001,CARBOXYLESTERASE-RXN -r2002,RXN0-1321 -r2003a,PROPKIN-RXN -r2003b,PROPKIN-RXN -r2004a,DAPASYN-RXN -r2004b,DAPASYN-RXN -r2005,COBALAMIN5PSYN-RXN -r2006,RXN0-986 -r2007a,PYRNUTRANSHYDROGEN-RXN -r2007b,PYRNUTRANSHYDROGEN-RXN -r2008a,D--TARTRATE-DEHYDRATASE-RXN -r2008b,D--TARTRATE-DEHYDRATASE-RXN -r2009a,SORB6PDEHYDROG-RXN -r2009b,SORB6PDEHYDROG-RXN -r2010,RXN0-2382 -r2011,R621-RXN-NITRIC-OXIDE/NADH/OXYGEN-MOLECULE//NITRATE/NAD/PROTON.54. -r2012,R621-RXN-NITRIC-OXIDE/NADPH/OXYGEN-MOLECULE//NITRATE/NADP/PROTON.56. -r2013,SUPEROX-DISMUT-RXN[CCO-CYTOSOL]-SUPER-OXIDE/PROTON//HYDROGEN-PEROXIDE/OXYGEN-MOLECULE.67. -r2014,SUPEROX-DISMUT-RXN[CCO-PERI-BAC]-SUPER-OXIDE/PROTON//HYDROGEN-PEROXIDE/OXYGEN-MOLECULE.68. -r2015a,RXN0-279 -r2015b,RXN0-279 -r2016a,RIBULP3EPIM-RXN -r2016b,RIBULP3EPIM-RXN -r2017,THREONINE-ALDOLASE-RXN -r2018,RXN-11109 -r2019,ENTDB-RXN-Apo-EntB/CO-A//Holo-EntB/3-5-ADP/PROTON.40. -r2020,TREHALOSE6PSYN-RXN -r2021,RXN0-384 -r2022,RXN-11591 -r2023a,FUCISOM-RXN -r2023b,FUCISOM-RXN -r2024,UDP-NACMUR-ALA-LIG-RXN -r2025,RXN0-4341 -r2026,RXN-11834 -r2027,GARTRANSFORMYL2-RXN -r2028,URACIL-PRIBOSYLTRANS-RXN -r2029a,RXN0-5057 -r2029b,RXN0-5057 -r2030,RXN-12070 -r2031,GLUCONOKIN-RXN -r2032,XYLULOKIN-RXN -r2033,1.1.1.271-RXN -r2034,RXN0-5121 -r2035a,RXN-12445-CPD-316/NAD//RIBOFLAVIN/NADH/PROTON.36. -r2035b,RXN-12445-CPD-316/NAD//RIBOFLAVIN/NADH/PROTON.36. -r2036a,RXN-12445-CPD-316/NADP//RIBOFLAVIN/NADPH/PROTON.38. -r2036b,RXN-12445-CPD-316/NADP//RIBOFLAVIN/NADPH/PROTON.38. -r2037,GLUTDECARBOX-RXN -r2038,2-OCTAPRENYL-6-METHOXYPHENOL-HYDROX-RXN -r2039,RXN0-5185 -r2040,RXN-12862 -r2041a,GLYCOLALDREDUCT-RXN -r2041b,GLYCOLALDREDUCT-RXN -r2042a,RXN0-5220 -r2042b,RXN0-5220 -r2043a,RXN-13463 -r2043b,RXN-13463 -r2044,GPPSYN-RXN -r2045a,3-DEHYDROQUINATE-DEHYDRATASE-RXN -r2045b,3-DEHYDROQUINATE-DEHYDRATASE-RXN -r2046,RXN0-5295 -r2047,RXN-14112 -r2048,H2NEOPTERINP3PYROPHOSPHOHYDRO-RXN -r2049,RXN0-5390 -r2050a,RXN-14260 -r2050b,RXN-14260 -r2051,HOMOCYSTEINE-S-METHYLTRANSFERASE-RXN -r2052,RXN-14396 -r2053,ISOCHORMAT-RXN -r2054,RXN0-6359-Sulfurated-Sulfur-Acceptors/HCN//Unsulfurated-Sulfur-Acceptors/HSCN/PROTON.75. -r2055,RXN-14510 -r2056a,L-GLN-FRUCT-6-P-AMINOTRANS-RXN-FRUCTOSE-6P/GLN//CPD-13469/GLT.31. -r2056b,L-GLN-FRUCT-6-P-AMINOTRANS-RXN-FRUCTOSE-6P/GLN//CPD-13469/GLT.31. -r2057,4OHBENZOATE-OCTAPRENYLTRANSFER-RXN -r2058a,RXN-14753-CPD-12523//CPD-15633.21. -r2058b,RXN-14753-CPD-12523//CPD-15633.21. -r2059,LYSINE--TRNA-LIGASE-RXN-LYS/LYS-tRNAs/ATP/PROTON//Charged-LYS-tRNAs/AMP/PPI.52. -r2060a,ACECOATRANS-RXN-BUTYRYL-COA/ACET//BUTYRIC_ACID/ACETYL-COA.42. -r2060b,ACECOATRANS-RXN-BUTYRYL-COA/ACET//BUTYRIC_ACID/ACETYL-COA.42. -r2061a,ACECOATRANS-RXN-TETRADECANOYL-COA/ACET//CPD-7836/ACETYL-COA.44. -r2061b,ACECOATRANS-RXN-TETRADECANOYL-COA/ACET//CPD-7836/ACETYL-COA.44. -r2062a,ACECOATRANS-RXN-PALMITYL-COA/ACET//PALMITATE/ACETYL-COA.40. -r2062b,ACECOATRANS-RXN-PALMITYL-COA/ACET//PALMITATE/ACETYL-COA.40. -r2063a,ACECOATRANS-RXN-STEAROYL-COA/ACET//STEARIC_ACID/ACETYL-COA.43. -r2063b,ACECOATRANS-RXN-STEAROYL-COA/ACET//STEARIC_ACID/ACETYL-COA.43. -r2064a,ACECOATRANS-RXN-LAUROYLCOA-CPD/ACET//DODECANOATE/ACETYL-COA.44. -r2064b,ACECOATRANS-RXN-LAUROYLCOA-CPD/ACET//DODECANOATE/ACETYL-COA.44. -r2065a,ACECOATRANS-RXN-CPD-10267/ACET//CPD-3617/ACETYL-COA.36. -r2065b,ACECOATRANS-RXN-CPD-10267/ACET//CPD-3617/ACETYL-COA.36. -r2066a,ACECOATRANS-RXN-CPD-196/ACET//CPD-195/ACETYL-COA.33. -r2066b,ACECOATRANS-RXN-CPD-196/ACET//CPD-195/ACETYL-COA.33. -r2067a,ACECOATRANS-RXN-HEXANOYL-COA/ACET//HEXANOATE/ACETYL-COA.40. -r2067b,ACECOATRANS-RXN-HEXANOYL-COA/ACET//HEXANOATE/ACETYL-COA.40. -r2068,RXN-15041 -r2069a,MANNPISOM-RXN -r2069b,MANNPISOM-RXN -r2070,ACID-PHOSPHATASE-RXN -r2071,RXN-15293 -r2072a,N-ACETYLGLUCOSAMINE-KINASE-RXN-N-ACETYL-D-GLUCOSAMINE/ATP//CPD-16168/ADP/PROTON.49. -r2072b,N-ACETYLGLUCOSAMINE-KINASE-RXN-N-ACETYL-D-GLUCOSAMINE/ATP//CPD-16168/ADP/PROTON.49. -r2073a,ADENPHOSPHOR-RXN -r2073b,ADENPHOSPHOR-RXN -r2074,RXN0-6677 -r2075a,RXN-15743 -r2075b,RXN-15743 -r2076,NICOTINAMID-RXN -r2077a,ALARACECAT-RXN -r2077b,ALARACECAT-RXN -r2078a,RXN0-6944 -r2078b,RXN0-6944 -r2079,ORNDECARBOX-RXN -r2080,AMINEOXID-RXN -r2081,RXN0-6983 -r2082a,RXN-7282 -r2082b,RXN-7282 -r2083a,PEPDEPHOS-RXN -r2083b,PEPDEPHOS-RXN -r2084a,ARGSUCCINLYA-RXN -r2084b,ARGSUCCINLYA-RXN -r2085,RXN-8348 -r2086,BADH-RXN -r2087,CATAL-RXN -r2088,RXN0-7114 -r2089,RXN0-1401 -r2090,PRPPAMIDOTRANS-RXN -r2091a,DARABISOM-RXN -r2091b,DARABISOM-RXN -r2092,CPM-KDOSYNTH-RXN -r2093,RXNMETA-12671 -r2094,RXN0-2022 -r2095,PYRROLINECARBREDUCT-RXN-PRO/NAD//L-DELTA1-PYRROLINE_5-CARBOXYLATE/NADH/PROTON.54. -r2096,PYRROLINECARBREDUCT-RXN-PRO/NADP//L-DELTA1-PYRROLINE_5-CARBOXYLATE/NADPH/PROTON.56. -r2097,DETHIOBIOTIN-SYN-RXN -r2098,DAHPSYN-RXN -r2099a,SPONTPRO-RXN -r2099b,SPONTPRO-RXN -r2100,RHAMNULOKIN-RXN -r2101,DIHYDROFOLATESYNTH-RXN -r2102a,TARTRATE-DEHYDROGENASE-RXN -r2102b,TARTRATE-DEHYDROGENASE-RXN -r2103,DTDPDEHYDRHAMEPIM-RXN -r2104a,THTOREDUCT-RXN -r2104b,THTOREDUCT-RXN -r2105,ERYTH4PDEHYDROG-RXN -r2106,TRIPHOSPHATASE-RXN[CCO-PERI-BAC]-P3I/WATER//Pi/PPI.32. -r2107,TRIPHOSPHATASE-RXN[CCO-CYTOSOL]-P3I/WATER//Pi/PPI.31. -r2108,RXN0-3921 -r2109,RXN-11596 -r2110a,FUMHYDR-RXN -r2110b,FUMHYDR-RXN -r2111,UDP-NACMURALGLDAPLIG-RXN -r2112,RXN0-4401 -r2113,RXN-11837 -r2114,GDPKIN-RXN -r2115,URIDINEKIN-RXN -r2116,RXN0-5063 -r2117,RXN-12073 -r2118,GLUCOSE-1-PHOSPHAT-RXN[CCO-PERI-BAC]-GLC-1-P/WATER//Glucopyranose/Pi.46. -r2119,GLUCOSE-1-PHOSPHAT-RXN[CCO-CYTOSOL]-GLC-1-P/WATER//Glucopyranose/Pi.45. -r2120,1.1.1.39-RXN -r2121,RXN0-5124 -r2122a,RXN-12508 -r2122b,RXN-12508 -r2123a,GLUTRACE-RXN -r2123b,GLUTRACE-RXN -r2124,2-OCTAPRENYLPHENOL-HYDROX-RXN -r2125,RXN-12870 -r2126,GLYCPDIESTER-RXN-GLYCEROPHOSPHOGLYCEROL/WATER//GLYCEROL/GLYCEROL-3P/PROTON.58. -r2127,2.7.10.1-RXN -r2128a,RXN0-5224 -r2128b,RXN0-5224 -r2129,GSPAMID-RXN -r2130a,3-ISOPROPYLMALDEHYDROG-RXN -r2130b,3-ISOPROPYLMALDEHYDROG-RXN -r2131a,RXN0-5304 -r2131b,RXN0-5304 -r2132,RXN-14116 -r2133,H2PTEROATESYNTH-RXN -r2134,RXN-14282 -r2135,HOMSUCTRAN-RXN -r2136,3.4.13.18-RXN-D-ALA-D-ALA/WATER//L-ALPHA-ALANINE.35. -r2137,RXN0-5461 -r2138,RXN-14473-DAMP/WATER//DEOXYADENOSINE/Pi.30. -r2139,RXN-14473-DIMP/WATER//DEOXYINOSINE/Pi.28. -r2140,RXN-14473-DCMP/WATER//DEOXYCYTIDINE/Pi.29. -r2141,RXN-14473-TMP/WATER//THYMIDINE/Pi.24. -r2142,RXN-14473-IMP/WATER//INOSINE/Pi.22. -r2143,RXN-14473-GMP/WATER//GUANOSINE/Pi.24. -r2144,RXN-14473-XANTHOSINE-5-PHOSPHATE/WATER//XANTHOSINE/Pi.44. -r2145,RXN-14473-CMP/WATER//CYTIDINE/Pi.23. -r2146,RXN-14473-UMP/WATER//URIDINE/Pi.22. -r2147,ISOLEUCINE--TRNA-LIGASE-RXN-ILE-tRNAs/ILE/ATP/PROTON//Charged-ILE-tRNAs/AMP/PPI.52. -r2148,RXN0-6368 -r2149,RXN-14513 -r2150,LACTALDDEHYDROG-RXN -r2151,5.1.3.20-RXN -r2152a,RXN-14808-CPD-15699//ARABINOSE.21. -r2152b,RXN-14808-CPD-15699//ARABINOSE.21. -r2153,LYXK-RXN -r2154a,ACETATEKIN-RXN -r2154b,ACETATEKIN-RXN -r2155,RXN0-6512 -r2156,RXN-15122 -r2157a,METHENYLTHFCYCLOHYDRO-RXN-5-10-METHENYL-THF/WATER//10-FORMYL-THF/PROTON.46. -r2157b,METHENYLTHFCYCLOHYDRO-RXN-5-10-METHENYL-THF/WATER//10-FORMYL-THF/PROTON.46. -r2158a,ACONITATEDEHYDR-RXN -r2158b,ACONITATEDEHYDR-RXN -r2159,RXN-15298 -r2160a,NACGLCTRANS-RXN -r2160b,NACGLCTRANS-RXN -r2161,ADENYLATECYC-RXN -r2162a,RXN0-6717 -r2162b,RXN0-6717 -r2163,RXN-15878-HYDROXY-METHYL-BUTENYL-DIP/Oxidized-flavodoxins/WATER/PROTON//2C-METH-D-ERYTHRITOL-CYCLODIPHOSPHATE/Reduced-flavodoxins.120. -r2164,NMNNUCLEOSID-RXN -r2165,RXN0-6950 -r2166a,RXN-2962-S-HYDROXYMETHYLGLUTATHIONE/NAD//CPD-548/NADH/PROTON.52. -r2166b,RXN-2962-S-HYDROXYMETHYLGLUTATHIONE/NAD//CPD-548/NADH/PROTON.52. -r2167a,RXN-2962-S-HYDROXYMETHYLGLUTATHIONE/NADP//CPD-548/NADPH/PROTON.54. -r2167b,RXN-2962-S-HYDROXYMETHYLGLUTATHIONE/NADP//CPD-548/NADPH/PROTON.54. -r2168a,OXALOACETATE-TAUTOMERASE-RXN -r2168b,OXALOACETATE-TAUTOMERASE-RXN -r2169,AMINOCYL-TRNA-HYDROLASE-RXN -r2170,RXN0-6987 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-r2212b,RXN-12105-25-DIDEHYDRO-D-GLUCONATE/NADPH/PROTON//CPD-13059/NADP.54. -r2213a,GLUCUROISOM-RXN-CPD-15530//CPD-12537.21. -r2213b,GLUCUROISOM-RXN-CPD-15530//CPD-12537.21. -r2214a,1.2.99.7-RXN-CPD-8490/FAD/WATER//CPD-3617/FADH2.35. -r2214b,1.2.99.7-RXN-CPD-8490/FAD/WATER//CPD-3617/FADH2.35. -r2215a,1.2.99.7-RXN-METHYL-GLYOXAL/FAD/WATER//PYRUVATE/FADH2.41. -r2215b,1.2.99.7-RXN-METHYL-GLYOXAL/FAD/WATER//PYRUVATE/FADH2.41. -r2216a,1.2.99.7-RXN-CPD-665/FAD/WATER//PROPIONATE/FADH2.36. -r2216b,1.2.99.7-RXN-CPD-665/FAD/WATER//PROPIONATE/FADH2.36. -r2217a,1.2.99.7-RXN-ACETALD/FAD/WATER//ACET/FADH2.30. -r2217b,1.2.99.7-RXN-ACETALD/FAD/WATER//ACET/FADH2.30. -r2218a,1.2.99.7-RXN-HEXANAL/FAD/WATER//HEXANOATE/FADH2.35. -r2218b,1.2.99.7-RXN-HEXANAL/FAD/WATER//HEXANOATE/FADH2.35. -r2219a,1.2.99.7-RXN-CPD-371/FAD/WATER//CPD-195/FADH2.33. -r2219b,1.2.99.7-RXN-CPD-371/FAD/WATER//CPD-195/FADH2.33. -r2220a,1.2.99.7-RXN-HYDRPHENYLAC-CPD/FAD/WATER//3-HYDROXYPHENYLACETATE/FADH2.57. -r2220b,1.2.99.7-RXN-HYDRPHENYLAC-CPD/FAD/WATER//3-HYDROXYPHENYLACETATE/FADH2.57. -r2221a,1.2.99.7-RXN-BENZALDEHYDE/FAD/WATER//BENZOATE/FADH2.39. -r2221b,1.2.99.7-RXN-BENZALDEHYDE/FAD/WATER//BENZOATE/FADH2.39. -r2222,RXN0-5127 -r2223,RXN-12541 -r2224,GLY3KIN-RXN -r2225,RXN-12886 -r2226,GLYOXI-RXN -r2227,2.7.7.60-RXN -r2228,RXN0-5227[CCO-PERI-BAC]-CPD0-1082/WATER//L-ALA-GAMMA-D-GLU-DAP/D-ALANINE.63. -r2229,RXN0-5227[CCO-CYTOSOL]-CPD0-1082/WATER//L-ALA-GAMMA-D-GLU-DAP/D-ALANINE.62. -r2230a,RXN-13990 -r2230b,RXN-13990 -r2231,GTP-CYCLOHYDRO-I-RXN -r2232,3-OCTAPRENYL-4-OHBENZOATE-DECARBOX-RXN -r2233,RXN-14136 -r2234,HEMN-RXN -r2235,RXN0-5405 -r2236a,RXN-14285 -r2236b,RXN-14285 -r2237,HYPOXANPRIBOSYLTRAN-RXN -r2238,3.4.13.9-RXN -r2239,RXN-14479 -r2240,KDO-8PPHOSPHAT-RXN -r2241,3.6.1.41-RXN -r2242,RXN0-6382 -r2243,RXN-14521 -r2244,LCYSDESULF-RXN -r2245a,5.4.2.10-RXN-GLUCOSAMINE-1P//CPD-13469.26. -r2245b,5.4.2.10-RXN-GLUCOSAMINE-1P//CPD-13469.26. -r2246a,RXN-14811 -r2246b,RXN-14811 -r2247,MALIC-NADP-RXN -r2248a,ACETOLACTREDUCTOISOM-RXN -r2248b,ACETOLACTREDUCTOISOM-RXN -r2249,RXN-15125 -r2250,METHIONYL-TRNA-FORMYLTRANSFERASE-RXN-10-FORMYL-THF/L-methionyl-tRNAfmet//THF/N-formyl-L-methionyl-tRNAfmet.70. -r2251,ACYL-COA-HYDROLASE-RXN-BUTYRYL-COA/WATER//BUTYRIC_ACID/CO-A/PROTON.44. -r2252,ACYL-COA-HYDROLASE-RXN-PROPIONYL-COA/WATER//PROPIONATE/CO-A/PROTON.44. -r2253,ACYL-COA-HYDROLASE-RXN-LAUROYLCOA-CPD/WATER//DODECANOATE/CO-A/PROTON.46. -r2254,ACYL-COA-HYDROLASE-RXN-CPD-10267/WATER//CPD-3617/CO-A/PROTON.38. -r2255,ACYL-COA-HYDROLASE-RXN-CPD-196/WATER//CPD-195/CO-A/PROTON.35. -r2256,ACYL-COA-HYDROLASE-RXN-HEXANOYL-COA/WATER//HEXANOATE/CO-A/PROTON.42. -r2257,ACYL-COA-HYDROLASE-RXN-TETRADECANOYL-COA/WATER//CPD-7836/CO-A/PROTON.46. -r2258,ACYL-COA-HYDROLASE-RXN-PALMITYL-COA/WATER//PALMITATE/CO-A/PROTON.42. -r2259,ACYL-COA-HYDROLASE-RXN-STEAROYL-COA/WATER//STEARIC_ACID/CO-A/PROTON.45. -r2260,ACYL-COA-HYDROLASE-RXN-ACETOACETYL-COA/WATER//2-OXOBUTANOATE/CO-A/PROTON.50. -r2261a,RXN-15313 -r2261b,RXN-15313 -r2262,NAD-SYNTH-NH3-RXN -r2263,ADOMET-DMK-METHYLTRANSFER-RXN -r2264a,RXN0-6722 -r2264b,RXN0-6722 -r2265,RXN-15943 -r2266,NUCLEOSIDE-DIPHOSPHATASE-RXN-CPD0-2231/WATER//DIMP/Pi/PROTON.32. -r2267,NUCLEOSIDE-DIPHOSPHATASE-RXN-DADP/WATER//DAMP/Pi/PROTON.27. -r2268,NUCLEOSIDE-DIPHOSPHATASE-RXN-DUDP/WATER//DUMP/Pi/PROTON.27. -r2269,NUCLEOSIDE-DIPHOSPHATASE-RXN-DCDP/WATER//DCMP/Pi/PROTON.27. -r2270,NUCLEOSIDE-DIPHOSPHATASE-RXN-TDP/WATER//TMP/Pi/PROTON.25. -r2271,NUCLEOSIDE-DIPHOSPHATASE-RXN-CDP/WATER//CMP/Pi/PROTON.25. -r2272,NUCLEOSIDE-DIPHOSPHATASE-RXN-UDP/WATER//UMP/Pi/PROTON.25. -r2273,NUCLEOSIDE-DIPHOSPHATASE-RXN-XDP/WATER//XANTHOSINE-5-PHOSPHATE/Pi/PROTON.44. -r2274,NUCLEOSIDE-DIPHOSPHATASE-RXN-GDP/WATER//GMP/Pi/PROTON.25. -r2275,NUCLEOSIDE-DIPHOSPHATASE-RXN-IDP/WATER//IMP/Pi/PROTON.25. -r2276,RXN-12402 -r2277a,ALDOSE1EPIM-RXN -r2277b,ALDOSE1EPIM-RXN -r2278,RXN0-6973 -r2279,RXN-3641 -r2280,OXAMATE-CARBAMOYLTRANSFERASE-RXN -r2281,AMP-NUCLEOSID-RXN -r2282,RXN-7913 -r2283a,PGLYCDEHYDROG-RXN -r2283b,PGLYCDEHYDROG-RXN -r2284,ASPARAGHYD-RXN[CCO-PERI-BAC]-ASN/WATER//L-ASPARTATE/AMMONIUM.46. -r2285,ASPARAGHYD-RXN[CCO-CYTOSOL]-ASN/WATER//L-ASPARTATE/AMMONIUM.45. -r2286,RXN0-7022 -r2287,RXN-8667 -r2288,PHOSPHASERDECARB-RXN-CPD-12817/PROTON//CPD-12819/CARBON-DIOXIDE.43. -r2289,PHOSPHASERDECARB-RXN-CPD-12816/PROTON//CPD-12818/CARBON-DIOXIDE.43. -r2290a,BETA-PHOSPHOGLUCOMUTASE-RXN -r2290b,BETA-PHOSPHOGLUCOMUTASE-RXN -r2291a,RXN-9951 -r2291b,RXN-9951 -r2292,PREPHENATEDEHYDRAT-RXN -r2293,RXN0-884-CPD-4211/NAD/WATER//HYDROXY-METHYL-BUTENYL-DIP/NADH/PROTON.59. -r2294,RXN0-884-CPD-4211/NADP/WATER//HYDROXY-METHYL-BUTENYL-DIP/NADPH/PROTON.61. -r2295,RXN0-1603 -r2296,PTAALT-RXN -r2297,DEHYDDEOXGALACTKIN-RXN -r2298,CYSTEINE--TRNA-LIGASE-RXN-CYS-tRNAs/CYS/ATP/PROTON//Charged-CYS-tRNAs/AMP/PPI.52. -r2299,SEDOBISALDOL-RXN -r2300,RXN0-2101 -r2301,QUINOPRIBOTRANS-RXN -r2302,DHHB-METHYLTRANSFER-RXN -r2303,SUCCINATE-SEMIALDEHYDE-DEHYDROGENASE-RXN -r2304,RIBOFLAVINSYNDEAM-RXN -r2305a,DIMETHUROPORDEHYDROG-RXN -r2305b,DIMETHUROPORDEHYDROG-RXN -r2306,THIAZOLSYN3-RXN -r2307a,RXN-10639 -r2307b,RXN-10639 -r2308,DUDPKIN-RXN -r2309,RXN0-3461 -r2310,RXN-11410 -r2311,RXN0-3543 -r2312,RXN-11573 -r2313a,FMNREDUCT-RXN-FMNH2/NAD//FMN/NADH/PROTON.27. -r2313b,FMNREDUCT-RXN-FMNH2/NAD//FMN/NADH/PROTON.27. -r2314a,FMNREDUCT-RXN-FMNH2/NADP//FMN/NADPH/PROTON.29. -r2314b,FMNREDUCT-RXN-FMNH2/NADP//FMN/NADPH/PROTON.29. -r2315,TRNA-URACIL-5--METHYLTRANSFERASE-RXN -r2316,RXN0-4121 -r2317,RXN-11635 -r2318,GALACTONDEHYDRAT-RXN -r2319,UDPMANNACADEHYDROG-RXN -r2320,RXN-11843 -r2321,GLU6PDEHYDROG-RXN -r2322,URUR-RXN -r2323,RXN-12197 -r2324,GLUTAMIN-RXN -r2325a,1.8.4.4-RXN -r2325b,1.8.4.4-RXN -r2326a,RXN0-5141 -r2326b,RXN0-5141 -r2327,RXN-12611 -r2328,GLYCEROL-1-PHOSPHATASE-RXN -r2329a,2.3.1.118-RXN -r2329b,2.3.1.118-RXN -r2330a,RXN0-5208 -r2330b,RXN0-5208 -r2331a,RXN-13142 -r2331b,RXN-13142 -r2332,GLYOXYLATE-REDUCTASE-NADP+-RXN -r2333,2.7.9.3-RXN -r2334a,RXN0-5234 -r2334b,RXN0-5234 -r2335,RXN-14025[CCO-PERI-BAC]-UMP/WATER//URIDINE/Pi.36. -r2336,RXN-14025[CCO-CYTOSOL]-UMP/WATER//URIDINE/Pi.35. -r2337,GUANINE-DEAMINASE-RXN -r2338,RXN-14143 -r2339,HISTCYCLOHYD-RXN -r2340,3.1.3.74-RXN[CCO-PERI-BAC]-PYRIDOXAL_PHOSPHATE/WATER//PYRIDOXAL/Pi.54. -r2341,3.1.3.74-RXN[CCO-CYTOSOL]-PYRIDOXAL_PHOSPHATE/WATER//PYRIDOXAL/Pi.53. -r2342,RXN0-5409 -r2343,RXN-14325 -r2344,IMP-DEHYDROG-RXN -r2345,3.4.19.12-RXN -r2346,RXN0-6254 -r2347a,RXN-14483-CPD-16502/WATER//CPD-16501/Pi.30. -r2347b,RXN-14483-CPD-16502/WATER//CPD-16501/Pi.30. -r2348,KDOTRANS2-RXN -r2349a,4-HYDROXYBUTYRATE-DEHYDROGENASE-RXN -r2349b,4-HYDROXYBUTYRATE-DEHYDROGENASE-RXN -r2350,RXN-14524 -r2351,LIPIDADISACCHARIDESYNTH-RXN -r2352,6-PHOSPHO-BETA-GLUCOSIDASE-RXN -r2353a,RXN-14815 -r2353b,RXN-14815 -r2354a,MALTODEG-RXN -r2354b,MALTODEG-RXN -r2355,ACETOOHBUTSYN-RXN -r2356,RXN-15131 -r2357a,METHYLMALONYL-COA-EPIM-RXN -r2357b,METHYLMALONYL-COA-EPIM-RXN -r2358,ACYLPHOSPHATASE-RXN -r2359a,RXN0-6563 -r2359b,RXN0-6563 -r2360,RXN-15346 -r2361,NADPYROPHOSPHAT-RXN -r2362,AICARSYN-RXN -r2363,RXN0-6727 -r2364a,RXN-16165-Initiation-tRNAmet/MET/ATP/PROTON//L-methionyl-tRNAfmet/AMP/PPI.64. -r2364b,RXN-16165-Initiation-tRNAmet/MET/ATP/PROTON//L-methionyl-tRNAfmet/AMP/PPI.64. -r2365,O-SUCCINYLBENZOATE-COA-SYN-RXN -r2366,ALLANTOINASE-RXN -r2367,RXN0-6976 -r2368,RXN-5822[CCO-PERI-BAC]-NADP/WATER//NAD/Pi.33. -r2369,RXN-5822[CCO-CYTOSOL]-NADP/WATER//NAD/Pi.32. -r2370a,PABASYN-RXN -r2370b,PABASYN-RXN -r2371,ANTHRANSYN-RXN -r2372,RXN0-6999 -r2373a,RXN-7967-QUINATE/NAD//DEHYDROQUINATE/NADH/PROTON.40. -r2373b,RXN-7967-QUINATE/NAD//DEHYDROQUINATE/NADH/PROTON.40. -r2374a,RXN-7967-QUINATE/NADP//DEHYDROQUINATE/NADPH/PROTON.42. -r2374b,RXN-7967-QUINATE/NADP//DEHYDROQUINATE/NADPH/PROTON.42. -r2375,PGPPHOSPHA-RXN-CPD-12820/WATER//CPD-12822/Pi.30. -r2376,PGPPHOSPHA-RXN-CPD-12821/WATER//CPD-8260/Pi.29. -r2377,PGPPHOSPHA-RXN-CPD0-2230/WATER//CPD0-2330/Pi.30. -r2378,ASPARTATE--TRNA-LIGASE-RXN-ASP-tRNAs/L-ASPARTATE/ATP/PROTON//Charged-ASP-tRNAs/AMP/PPI.60. -r2379,RXN0-703 -r2380,RXN-8899 -r2381a,PHOSPHOGLUCMUT-RXN -r2381b,PHOSPHOGLUCMUT-RXN -r2382a,BRANCHED-CHAINAMINOTRANSFERLEU-RXN -r2382b,BRANCHED-CHAINAMINOTRANSFERLEU-RXN -r2383,RXN0-7090 -r2384,RXN0-1001 -r2385,PROLINE--TRNA-LIGASE-RXN-PRO-tRNAs/PRO/ATP/PROTON//Charged-PRO-tRNAs/AMP/PPI.52. -r2386,CHORPYRLY-RXN -r2387,RXN0-962 -r2388,RXN0-1861 -r2389,DEOXYGLUCONOKIN-RXN -r2390,CYTIDEAM-RXN -r2391,SERINE-O-ACETTRAN-RXN -r2392,RXN0-2281 -r2393a,R170-RXN -r2393b,R170-RXN -r2394,DIAMINOPIMDECARB-RXN -r2395,SUCCSEMIALDDEHYDROG-RXN -r2396a,RXN0-268 -r2396b,RXN0-268 -r2397,RIBOPHOSPHAT-RXN -r2398,DMBPPRIBOSYLTRANS-RXN -r2399,THIOSULFATE-SULFURTRANSFERASE-RXN[CCO-PERI-BAC]-HCN/S2O3//HSCN/SO3/PROTON.40. -r2400,THIOSULFATE-SULFURTRANSFERASE-RXN[CCO-CYTOSOL]-HCN/S2O3//HSCN/SO3/PROTON.39. -r2401,RXN0-304 -r2402a,RXN-10851 -r2402b,RXN-10851 -r2403a,DXPREDISOM-RXN -r2403b,DXPREDISOM-RXN -r2404,ASNSYNB-RXN -r2405,RXN-12440 -r2406a,DTDPRHAMSYNTHMULTI-RXN -r2406b,DTDPRHAMSYNTHMULTI-RXN -r2407,RXN0-1134 -r2408,GLUTAMATESYN-RXN -r2409,PYRUVDEH-RXN -r2410,CITLY-RXN -r2411,RXN-15294 -r2412a,RXN-9787-Sulfur-Carrier-Proteins-ThiI/CYS//Sulfurylated-ThiI/L-ALPHA-ALANINE.68. -r2412b,RXN-9787-Sulfur-Carrier-Proteins-ThiI/CYS//Sulfurylated-ThiI/L-ALPHA-ALANINE.68. -r2413,ISOCITDEH-RXN -r2414a,RXN0-6511 -r2414b,RXN0-6511 -r2415,CARBPSYN-RXN -r2416,RXN-12588-CYS/Unsulfurated-Sulfur-Acceptors//L-ALPHA-ALANINE/Sulfurated-Sulfur-Acceptors.79. -r2417a,RXN-16001 -r2417b,RXN-16001 -r2418,RXN0-1141 -r2419,RXN0-6435-CARBAMOYL-P/HypE-Proteins/ATP/WATER//HypE-S-carboxamide/AMP/PPI/Pi.67. -r2420a,2.6.1.82-RXN -r2420b,2.6.1.82-RXN -r2421a,RXN0-1147 -r2421b,RXN0-1147 -r2422a,TRANSALDOL-RXN -r2422b,TRANSALDOL-RXN -r2423,RXN0-363 -r2424,RXN-11578 -r2425a,TRYPTOPHAN-RXN -r2425b,TRYPTOPHAN-RXN -r2426a,RXN-11791 -r2426b,RXN-11791 -r2427a,GALACTUROISOM-RXN -r2427b,GALACTUROISOM-RXN -r2428,RXN-11865 -r2429,GLUCARDEHYDRA-RXN -r2430,XANPRIBOSYLTRAN-RXN -r2431,RXN0-5114[CCO-PERI-BAC]-3-P-SERINE/WATER//SER/Pi.39. -r2432,RXN0-5114[CCO-CYTOSOL]-3-P-SERINE/WATER//SER/Pi.38. -r2433a,RXN-12275-Reduced-hydrogenase-3/PROTON//Oxidized-hydrogenase-3/HYDROGEN-MOLECULE.71. -r2433b,RXN-12275-Reduced-hydrogenase-3/PROTON//Oxidized-hydrogenase-3/HYDROGEN-MOLECULE.71. -r2434,GLUTATHIONE-PEROXIDASE-RXN -r2435,2-DEHYDROPANTOATE-REDUCT-RXN -r2436,RXN-12753 -r2437,GLYCINE--TRNA-LIGASE-RXN-GLY-tRNAs/GLY/ATP/PROTON//Charged-GLY-tRNAs/AMP/PPI.52. -r2438a,RXN0-5213 -r2438b,RXN0-5213 -r2439,RXN-13329 -r2440,GMP-REDUCT-RXN -r2441,2OXOGLUTARATEDEH-RXN -r2442a,RXN0-5289 -r2442b,RXN0-5289 -r2443,RXN-14073 -r2444,GUANPRIBOSYLTRAN-RXN -r2445,RXN-14181 -r2446,HISTOLDEHYD-RXN -r2447_e,ADP -r2448_e,Pi -r2449_e,PROTON -r2450_e,GLC -r2451_e,OXYGEN-MOLECULE -r2452_e,AMMONIUM -r2453_e,Pi -r2454_e,K+ -r2455_e,SULFATE -r2456_e,FE+2 -r2457_e,CA+2 -r2458_e,CL- -r2459_e,CO+2 -r2460_e,MG+2 -r2461_e,MN+2 -r2462_e,NI+2 -r2463_e,ZN+2 -r2464_e,WATER -r2465_e,CARBON-DIOXIDE -r2466_e,CPD0-1958 -r2467_e,ATP -r2468_e,WATER -r2469_e,CARBON-DIOXIDE -r2470_e,WATER -r2471_e,Pi -r2472_e,PROTON -r2473_e,FORMATE -r2474_e,ACET -r2475_e,ETOH -r2476_e,SUC -r2477_e,D-LACTATE -r2478_e,GLYCEROL -r2479_e,HYDROGEN-MOLECULE -r2480_e,URACIL -r2481_e,XANTHINE -r2482_e,HYPOXANTHINE -r2483_e,THYMINE -r2484_e,INDOLE -r2485_e,UREA -r2486_e,D-ALANINE -r2487_e,UNDECAPRENYL-DIPHOSPHATE -r2488_e,CPD-560 -r2489_e,CPD-108 -r2490_e,MI-PENTAKISPHOSPHATE -r2491_e,CPD-534 -r2492_e,CARBON-MONOXIDE -r2493_e,METOH -r2494_e,CPD-10774 -r2495_e,BETAINE -r2496_e,CPD-239 -r2497_e,Glucopyranose -r2498_e,CPD-564 -r2499_e,CPD0-2167 -r2500_e,CH33ADO -r2501_e,CPD-1772 -r2502_e,S-ADENOSYL-4-METHYLTHIO-2-OXOBUTANOATE -r2503_e,BUTANAL -r2504_e,GLYCOLALDEHYDE -r2505_e,GLYCOLLATE -r2506_e,CPD-10774 -c590,L-Amino-Acids[CCO-PERI-BAC] -c181,CPD0-938[CCO-CYTOSOL] -c619,CARBAMYUL-L-ASPARTATE[CCO-CYTOSOL] -c1880,CPD-13913[CCO-CYTOSOL] -c365,CPD0-1944[CCO-CYTOSOL] -c1881,CPD-13912[CCO-CYTOSOL] -c1312,CPD-13914[CCO-CYTOSOL] -c1927,CPD-3713[CCO-PERI-BAC] -c1454,CPD-13910[CCO-CYTOSOL] -c639,CPD-722[CCO-PERI-BAC] -c1485,TARTRONATE-S-ALD[CCO-CYTOSOL] -c962,tRNA-uridines[CCO-CYTOSOL] -c1792,2-OCTAPRENYL-6-HYDROXYPHENOL[CCO-CYTOSOL] -c1654,2-O-Methylcytidine-34-tRNAs[CCO-CYTOSOL] -c1059,10-FORMYL-THF[CCO-CYTOSOL] -c632,CPD-298[CCO-PERI-BAC] -c625,N-ALPHA-ACETYLORNITHINE[CCO-CYTOSOL] -c1231,BENZALDEHYDE[CCO-CYTOSOL] -c1416,DIHYDROXYPENTANEDIONE[CCO-CYTOSOL] -c690,COBINAMIDE[CCO-CYTOSOL] -c1304,BUTYL-HYDROPEROXIDE[CCO-CYTOSOL] -c608,CPD-9300[CCO-PERI-BAC] -c237,MET[CCO-PERI-BAC] -c156,ILE[CCO-CYTOSOL] -c1017,CROTONYL-COA[CCO-CYTOSOL] -c26,CPD0-1551[CCO-CYTOSOL] -c482,PHOSPHATIDYLETHANOLAMINE-KDO2[CCO-EXTRACELLULAR] -c1099,GLYCOLALDEHYDE[CCO-CYTOSOL] -c357,L-GAMMA-GLUTAMYLCYSTEINE[CCO-CYTOSOL] -c2002,23S-rRNA-2-O-methyluridine2552[CCO-CYTOSOL] -c128,CYS[CCO-PERI-BAC] -c1247,OXALYL-COA[CCO-CYTOSOL] -c2073,HYDROXYMETHYLBILANE[CCO-CYTOSOL] -c1867,Charged-GLT-tRNAs[CCO-CYTOSOL] -c1648,16S-rRNA-cytidine1402[CCO-CYTOSOL] -c1542,16S-rRNA-N6-dimethyladenine1518-1519[CCO-CYTOSOL] -c1226,L-DELTA1-PYRROLINE_5-CARBOXYLATE[CCO-CYTOSOL] -c1090,DADP[CCO-CYTOSOL] -c288,NADP[CCO-CYTOSOL] -c1041,D-CYSTEINE[CCO-CYTOSOL] -c329,XYLOSE[CCO-CYTOSOL] -c651,XANTHINE[CCO-CYTOSOL] -c2122,ILE-tRNAs[CCO-CYTOSOL] -c2018,Charged-HIS-tRNAs[CCO-CYTOSOL] -c25,CPD0-1551[CCO-PERI-BAC] -c1336,CPD0-1163[CCO-CYTOSOL] -c1928,P-RIBOSYL-4-SUCCCARB-AMINOIMIDAZOLE[CCO-CYTOSOL] -c1335,CPD0-1162[CCO-CYTOSOL] -c1911,CPD-8490[CCO-CYTOSOL] -c650,PYRIDOXINE[CCO-CYTOSOL] -c466,CPD-674[CCO-PERI-BAC] -c523,GLYOX[CCO-PERI-BAC] -c364,CPD0-1944[CCO-PERI-BAC] -c161,LYS[CCO-PERI-BAC] -c567,D-SERINE[CCO-PERI-BAC] -c737,CPD-216[CCO-PERI-BAC] -c1272,Reduced-flavodoxins[CCO-CYTOSOL] -c718,URATE[CCO-CYTOSOL] -c982,Lipoyl-Protein-N6-lipoyllysine[CCO-CYTOSOL] -c2232,5-CarboxyMeAmMe-2-O-MeU34-tRNALeu[CCO-CYTOSOL] -c266,CPD-8989[CCO-PERI-BAC] -c249,CPD-15699[CCO-PERI-BAC] -c1884,3-CARBOXY-3-HYDROXY-ISOCAPROATE[CCO-CYTOSOL] -c2192,23S-rRNA-guanine-1835[CCO-CYTOSOL] -c705,NA+[CCO-PERI-BAC] -c451,FRU1P[CCO-CYTOSOL] -c315,METHYL-BETA-D-GALACTOSIDE[CCO-CYTOSOL] -c627,CPD-424[CCO-CYTOSOL] -c665,CPD-12301[CCO-PERI-BAC] -c1057,16S-rRNA-uridine516[CCO-CYTOSOL] -c566,CPD-497[CCO-CYTOSOL] -c1039,Red-Thioredoxin[CCO-CYTOSOL] -c351,DIPEPTIDES[CCO-CYTOSOL] -c995,CMP[CCO-CYTOSOL] -c753,3-HYDROXYPHENYL-PROPIONATE[CCO-CYTOSOL] -c1544,ACETYL-D-GLUCOSAMINYLDIPHOSPHO-UNDECAPRE[CCO-CYTOSOL] -c906,AMP[CCO-CYTOSOL] -c2164,BENZOATE[CCO-PERI-BAC] -c1281,ACETALD[CCO-CYTOSOL] -c782,GLC[CCO-CYTOSOL] -c2157,CPD-665[CCO-PERI-BAC] -c1903,HYDROGEN-MOLECULE[CCO-PERI-BAC] -c976,L-Cysteine-Desulfurase-persulfide[CCO-CYTOSOL] -c2011,CPD-536[CCO-CYTOSOL] -c1295,CPD-13034[CCO-CYTOSOL] -c525,CPD-4544[CCO-PERI-BAC] -c1104,cis-vaccen-2-enoyl-ACPs[CCO-CYTOSOL] -c2084,SUPER-OXIDE[CCO-CYTOSOL] -c1143,CPD-1302[CCO-CYTOSOL] -c404,CPD0-621[CCO-EXTRACELLULAR] -c1311,L-DEHYDRO-ASCORBATE[CCO-CYTOSOL] -c1051,Palmitoleoyl-ACPs[CCO-PERI-BAC] -c1889,TRIMETHYLAMINE[CCO-PERI-BAC] -c2009,tRNA-Containing-5MeAminoMe-2-ThioU[CCO-CYTOSOL] -c640,CPD-722[CCO-CYTOSOL] -c2091,CPD0-2184[CCO-CYTOSOL] -c570,CPD-560[CCO-PERI-BAC] -c731,CPD-660[CCO-CYTOSOL] -c2027,CPD0-2189[CCO-CYTOSOL] -c2138,CPD3O-0[CCO-CYTOSOL] -c939,S-3-HYDROXYBUTANOYL-COA[CCO-CYTOSOL] -c1402,3-5-ADP[CCO-CYTOSOL] -c1097,23-DIPHOSPHOGLYCERATE[CCO-CYTOSOL] -c892,HYDROGEN-PEROXIDE[CCO-EXTRACELLULAR] -c1259,CPD-12279[CCO-CYTOSOL] -c1743,23-Diaminopropanoate[CCO-CYTOSOL] -c1934,CPD-582[CCO-CYTOSOL] -c227,CPD0-932[CCO-CYTOSOL] -c1118,CPD-3725[CCO-PERI-BAC] -c838,CPD-12523[CCO-CYTOSOL] -c828,CPD-12521[CCO-CYTOSOL] -c460,D-GALACTARATE[CCO-PERI-BAC] -c1233,PRPP[CCO-CYTOSOL] -c1290,D-BETA-D-HEPTOSE-1-P[CCO-CYTOSOL] -c1771,DEOXY-RIBOSE-5P[CCO-CYTOSOL] -c41,OLEATE-CPD[CCO-EXTRACELLULAR] -c80,DEOXYINOSINE[CCO-PERI-BAC] -c292,SELENITE[CCO-PERI-BAC] -c780,Glucopyranose[CCO-PERI-BAC] -c842,CIT[CCO-PERI-BAC] -c43,CPD0-1159[CCO-EXTRACELLULAR] -c1682,5-PHOSPHORIBOSYL-5-AMINOIMIDAZOLE[CCO-CYTOSOL] -c1653,Cytidine-34-tRNAs[CCO-CYTOSOL] -c225,KDO2-PALMITOLEOYL-LIPID-IVA[CCO-CYTOSOL] -c272,ADP[CCO-IN] -c1302,Pyruvate-dehydrogenase-lipoate[CCO-CYTOSOL] -c969,Cis-Delta7-tetradecenoyl-ACPs[CCO-CYTOSOL] -c784,ALPHA-GLUCOSE[CCO-CYTOSOL] -c285,Pi[CCO-PERI-BAC] -c924,CPD-14447[CCO-CYTOSOL] -c2227,CPD-11763[CCO-CYTOSOL] -c840,CPD0-2482[CCO-EXTRACELLULAR] -c1558,CPD-14443[CCO-CYTOSOL] -c1671,HISTIDINOL[CCO-PERI-BAC] -c1732,CPD-14441[CCO-CYTOSOL] -c1249,PROTOPORPHYRINOGEN[CCO-CYTOSOL] -c516,CH4[CCO-PERI-BAC] -c1111,CPD-14442[CCO-CYTOSOL] -c421,CPD0-881[CCO-CYTOSOL] -c1460,CPD-3711[CCO-PERI-BAC] -c1574,Charged-LEU-tRNAs[CCO-CYTOSOL] -c193,PHOSPHATIDYLETHANOLAMINE-KDO2[CCO-CYTOSOL] -c2023,BISOHMYR-GLUCOSAMINYL-1P[CCO-CYTOSOL] -c2051,DUMP[CCO-PERI-BAC] -c692,CPD0-621[CCO-PERI-BAC] -c2045,CPD0-1286[CCO-CYTOSOL] -c1062,5-P-RIBOSYL-N-FORMYLGLYCINEAMIDE[CCO-CYTOSOL] -c179,CPD0-1283[CCO-CYTOSOL] -c693,RHAMNOSE[CCO-PERI-BAC] -c324,CARBON-MONOXIDE[CCO-PERI-BAC] -c47,CPD-9247[CCO-EXTRACELLULAR] -c1717,POLYMER-INST-CIS-DELTA3-ENOYL-COA-C16-H32[CCO-CYTOSOL] -c1438,COPROPORPHYRINOGEN_III[CCO-CYTOSOL] -c420,NACMUR[CCO-PERI-BAC] -c468,3-PHENYLPROPIONATE[CCO-PERI-BAC] -c918,CPD-15818[CCO-CYTOSOL] -c490,CPD0-929[CCO-EXTRACELLULAR] -c530,L-SELENOCYSTEINE[CCO-CYTOSOL] -c546,URACIL[CCO-PERI-BAC] -c226,KDO2-PALMITOLEOYL-LIPID-IVA[CCO-PERI-BAC] -c910,CPD-1136[CCO-CYTOSOL] -c684,COB-I-ALAMIN[CCO-EXTRACELLULAR] -c2152,tRNA-uridine65[CCO-CYTOSOL] -c511,LIPOIC-ACID[CCO-PERI-BAC] -c1149,CPD-7221[CCO-CYTOSOL] -c1067,DEOXY-D-RIBOSE-1-PHOSPHATE[CCO-CYTOSOL] -c812,4-AMINO-BUTYRATE[CCO-CYTOSOL] -c1956,CPD-13930[CCO-CYTOSOL] -c1899,CPD-479[CCO-CYTOSOL] -c1843,tRNA-uridine34[CCO-CYTOSOL] -c2092,CPD-13118[CCO-CYTOSOL] -c1994,2C-METH-D-ERYTHRITOL-CYCLODIPHOSPHATE[CCO-CYTOSOL] -c434,GLUCOSAMINE[CCO-PERI-BAC] -c1410,RIBULOSE-5P[CCO-CYTOSOL] -c839,DEOXYADENOSINE[CCO-CYTOSOL] -c2057,Cytidine-32-tRNAs[CCO-CYTOSOL] -c1419,DTDP-DEOH-DEOXY-GLUCOSE[CCO-CYTOSOL] -c1839,Cyclic-N6-threonylcarbamoyl-A37-tRNAs[CCO-CYTOSOL] -c1787,23S-rRNA-pseudouridine2604[CCO-CYTOSOL] -c2195,23S-rRNA-pseudouridine746[CCO-CYTOSOL] -c1317,Oxidized-cytochromes-c553[CCO-CYTOSOL] -c180,CPD0-1283[CCO-PERI-BAC] -c1972,CPD-12819[CCO-PERI-BAC] -c952,2-3-DIHYDROXYPHENYL-PROPIONATE[CCO-CYTOSOL] -c1833,L-ARGININO-SUCCINATE[CCO-CYTOSOL] -c1264,DEPHOSPHO-COA[CCO-CYTOSOL] -c510,DIMETHYLBENZIMIDAZOLE[CCO-CYTOSOL] -c276,THIAMINE[CCO-CYTOSOL] -c825,CPD-15530[CCO-PERI-BAC] -c1193,3-oxo-cis-D7-tetradecenoyl-ACPs[CCO-CYTOSOL] -c1032,POLYMER-INST-L-3-HYDROXYACYL-COA-C16-H32[CCO-CYTOSOL] -c1768,D-glucopyranose-6-phosphate[CCO-CYTOSOL] -c973,N3-METHYLCYTOSINE[CCO-CYTOSOL] -c2156,FADH2[CCO-PERI-BAC] -c764,TARTRATE[CCO-PERI-BAC] -c2,CPD0-1193[CCO-EXTRACELLULAR] -c2214,QUINATE[CCO-CYTOSOL] -c2188,Uracil-54-in-tRNA[CCO-CYTOSOL] -c218,HEPTOSYL-KDO2-LIPID-IVA[CCO-PERI-BAC] -c284,SULFATE[CCO-CYTOSOL] -c1189,CPD-564[CCO-CYTOSOL] -c902,CPD-12601[CCO-CYTOSOL] -c2032,OCTAPRENYL-METHYL-OH-METHOXY-BENZQ[CCO-CYTOSOL] -c1148,LACTALD[CCO-CYTOSOL] -c166,S2O3[CCO-CYTOSOL] -c210,CPD0-929[CCO-PERI-BAC] -c802,SHIKIMATE[CCO-CYTOSOL] -c2163,BENZALDEHYDE[CCO-PERI-BAC] -c1649,16S-rRNA-N4-methylcytidine1402[CCO-CYTOSOL] -c888,Lactate[CCO-PERI-BAC] -c1805,TRIPEPTIDES[CCO-CYTOSOL] -c339,MALTOTETRAOSE[CCO-CYTOSOL] -c644,CPD-7836[CCO-CYTOSOL] -c1263,Acetoacetyl-ACPs[CCO-CYTOSOL] -c442,CPD-3570[CCO-PERI-BAC] -c770,CARNITINE[CCO-CYTOSOL] -c1629,BUTYRYL-COA[CCO-PERI-BAC] -c247,ARG[CCO-PERI-BAC] -c1529,PSEUDOURIDINE-5-P[CCO-CYTOSOL] -c1535,THIAMINE-P[CCO-CYTOSOL] -c1760,PRECURSOR-Z[CCO-CYTOSOL] -c2090,23S-rRNA-pseudouridine2457[CCO-CYTOSOL] -c1921,CPD0-2552[CCO-CYTOSOL] -c319,PROTOHEME[CCO-PERI-BAC] -c801,SHIKIMATE[CCO-PERI-BAC] -c1628,CPD-10330[CCO-CYTOSOL] -c974,FORMALDEHYDE[CCO-CYTOSOL] -c1635,LAUROYLCOA-CPD[CCO-PERI-BAC] -c2139,Protein-L-lysine[CCO-CYTOSOL] -c129,COB-I-ALAMIN[CCO-PERI-BAC] -c1662,CPD-12642[CCO-CYTOSOL] -c1398,ADENOSINE_DIPHOSPHATE_RIBOSE[CCO-CYTOSOL] -c277,GLT[CCO-PERI-BAC] -c1334,Enoylglutaryl-ACP-methyl-esters[CCO-CYTOSOL] -c1188,METHYLENE-THF-GLU-N[CCO-CYTOSOL] -c506,SUC[CCO-CYTOSOL] -c778,CPD0-441[CCO-PERI-BAC] -c2131,Phenoxyl-rad-of-phenolic-donors[CCO-CYTOSOL] -c538,L-CYSTATHIONINE[CCO-CYTOSOL] -c915,OXALACETIC_ACID[CCO-CYTOSOL] -c1377,4-AMINO-BUTYRALDEHYDE[CCO-CYTOSOL] -c30,L-GLYCERALDEHYDE[CCO-CYTOSOL] -c1511,CPD0-2167[CCO-CYTOSOL] -c2150,23S-rRNA-uracil-1939[CCO-CYTOSOL] -c2174,REDUCED-MENAQUINONE[CCO-CYTOSOL] -c1443,2-5-TRIPHOSPHORIBOSYL-3-DEPHOSPHO-[CCO-CYTOSOL] -c87,THYMIDINE[CCO-EXTRACELLULAR] -c251,ARABINOSE[CCO-PERI-BAC] -c617,L-ALPHA-ALANINE[CCO-CYTOSOL] -c1436,tRNA-pseudouridine55[CCO-CYTOSOL] -c1000,CARBAMATE[CCO-CYTOSOL] -c191,CPD0-930[CCO-CYTOSOL] -c408,PUTRESCINE[CCO-PERI-BAC] -c2096,CPD-3723[CCO-PERI-BAC] -c1576,LEU-tRNAs[CCO-CYTOSOL] -c1835,1-AMINO-PROPAN-2-ONE-3-PHOSPHATE[CCO-CYTOSOL] -c997,SIROHEME[CCO-CYTOSOL] -c599,TYR[CCO-CYTOSOL] -c1512,DODECANOATE[CCO-CYTOSOL] -c1457,N-ACETYL-D-GLUCOSAMINE[CCO-CYTOSOL] -c1427,tRNA-Containing-N7-Methylguanine-46[CCO-CYTOSOL] -c1275,Adenylated-ThiS-Proteins[CCO-CYTOSOL] -c1237,5-HYDROXYU34-TRNA[CCO-CYTOSOL] -c1025,POLYMER-INST-TRANS-D2-ENOYL-COA-C10-H20[CCO-CYTOSOL] -c1082,Oxidized-2Fe-2S-Ferredoxins[CCO-CYTOSOL] -c2209,Acyl-Phosphates[CCO-CYTOSOL] -c125,CPD0-1137[CCO-EXTRACELLULAR] -c937,CPD-9646[CCO-CYTOSOL] -c602,ASN[CCO-PERI-BAC] -c1386,CPD-62[CCO-CYTOSOL] -c2148,CPD0-1905[CCO-CYTOSOL] -c1173,3-oxo-dodecanoyl-ACPs[CCO-CYTOSOL] -c2020,CPD-194[CCO-PERI-BAC] -c543,D-GLUCARATE[CCO-PERI-BAC] -c35,CPD-9245[CCO-EXTRACELLULAR] -c1560,C-DI-GMP[CCO-CYTOSOL] -c1999,L-DI-GMP[CCO-CYTOSOL] -c864,ADENOSINE5TRIPHOSPHO5ADENOSINE[CCO-CYTOSOL] -c1759,tRNA-2methyladenine-37[CCO-CYTOSOL] -c1767,ARABINOSE-5P[CCO-CYTOSOL] -c1594,alpha-N-Peptidyl-LGlutamate[CCO-CYTOSOL] -c1070,L-PHOSPHATIDATE[CCO-CYTOSOL] -c2053,23S-rRNA-adenine-2503[CCO-CYTOSOL] -c122,ADENOSINE5TRIPHOSPHO5ADENOSINE[CCO-PERI-BAC] -c1280,2-3-DIHYDROXYBENZOATE[CCO-CYTOSOL] -c844,CPD-15619[CCO-PERI-BAC] -c1178,Stearoyl-ACPs[CCO-CYTOSOL] -c971,3-oxo-cis-D9-hexadecenoyl-ACPs[CCO-CYTOSOL] -c1664,SEPO3[CCO-CYTOSOL] -c931,ACETYL-COA[CCO-CYTOSOL] -c312,GALACTOSE[CCO-PERI-BAC] -c90,CPD-16020[CCO-PERI-BAC] -c1009,Carboxybiotin-BCCP[CCO-CYTOSOL] -c706,NA+[CCO-CYTOSOL] -c1941,tRNA-pseudouridine-38-40[CCO-CYTOSOL] -c1784,UDP-AA-GLUTAMATE[CCO-CYTOSOL] -c891,HYDROGEN-PEROXIDE[CCO-PERI-BAC] -c1856,16S-rRNA-uracil1498[CCO-CYTOSOL] -c717,URATE[CCO-PERI-BAC] -c721,XANTHOSINE[CCO-CYTOSOL] -c260,LEU[CCO-CYTOSOL] -c723,CPD0-1123[CCO-CYTOSOL] -c763,CPD0-1122[CCO-CYTOSOL] -c1720,TYR-tRNAs[CCO-CYTOSOL] -c168,PRO[CCO-CYTOSOL] -c1238,CPD-15403[CCO-CYTOSOL] -c884,ETOH[CCO-CYTOSOL] -c356,L-GAMMA-GLUTAMYLCYSTEINE[CCO-PERI-BAC] -c2235,GLY-tRNAs[CCO-CYTOSOL] -c1605,23S-rRNA-N6-methyladenine-2030[CCO-CYTOSOL] -c831,2-KETOGLUTARATE[CCO-PERI-BAC] -c980,Acceptor[CCO-CYTOSOL] -c1459,CPD-3724[CCO-CYTOSOL] -c2167,CPD-15016[CCO-CYTOSOL] -c1866,7-CYANO-7-DEAZAGUANINE[CCO-CYTOSOL] -c635,N-METHYLTRYPTOPHAN[CCO-CYTOSOL] -c29,L-GLYCERALDEHYDE[CCO-PERI-BAC] -c1034,Reduced-ferredoxins[CCO-CYTOSOL] -c389,D-ALA-D-ALA[CCO-CYTOSOL] -c18,CHITOBIOSE[CCO-PERI-BAC] -c1356,HypE-Proteins[CCO-CYTOSOL] -c1433,UDP-MANNAC[CCO-CYTOSOL] -c8,CPD0-1122[CCO-PERI-BAC] -c936,UNDECAPRENYL-DIPHOSPHATE[CCO-CYTOSOL] -c1134,Trans-D2-decenoyl-ACPs[CCO-CYTOSOL] -c6,CPD0-1123[CCO-PERI-BAC] -c1217,Apo-PigJ[CCO-CYTOSOL] -c1445,CPD-12377[CCO-CYTOSOL] -c1848,DIHYDRONEOPTERIN-P[CCO-CYTOSOL] -c103,CPD-15544[CCO-EXTRACELLULAR] -c819,AG+[CCO-CYTOSOL] -c346,CPD-1106[CCO-PERI-BAC] -c922,CPD-15056[CCO-CYTOSOL] -c671,GUANINE[CCO-PERI-BAC] -c1172,Decanoyl-ACPs[CCO-CYTOSOL] -c581,HYDROQUINONE-O-BETA-D-GLUCOPYRANOSIDE[CCO-PERI-BAC] -c2056,UDP-GLUCURONATE[CCO-CYTOSOL] -c2151,23S-rRNA-5-methyluracil1939[CCO-CYTOSOL] -c1692,POLYMER-INST-3-KETOACYL-COA-C16-H32[CCO-CYTOSOL] -c1007,2-Octenoyl-ACPs[CCO-CYTOSOL] -c1447,FE+3[CCO-CYTOSOL] -c1547,tRNA-pseudouridine32[CCO-CYTOSOL] -c978,Thiocarboxylated-MPT-synthases[CCO-CYTOSOL] -c1590,CPD-9965[CCO-CYTOSOL] -c16,BETAINE[CCO-PERI-BAC] -c447,TREHALOSE-6P[CCO-CYTOSOL] -c2222,Mnm5Se2U-containing-tRNAs[CCO-CYTOSOL] -c851,OROTATE[CCO-CYTOSOL] -c2173,N-formyl-L-methionyl-tRNAfmet[CCO-CYTOSOL] -c2121,2-OCTAPRENYLPHENOL[CCO-CYTOSOL] -c2158,ACETALD[CCO-PERI-BAC] -c533,PYRIDOXAL[CCO-PERI-BAC] -c1857,16S-rRNA-N3-methyluracil1498[CCO-CYTOSOL] -c252,ARABINOSE[CCO-CYTOSOL] -c162,LYS[CCO-CYTOSOL] -c2006,GLN-tRNAs[CCO-CYTOSOL] -c1836,ACETYL-P[CCO-CYTOSOL] -c1380,CPD-8625[CCO-PERI-BAC] -c1823,N-acetyl-D-mannosamine[CCO-CYTOSOL] -c2072,N-ACETYL-D-MANNOSAMINE[CCO-CYTOSOL] -c121,ADENOSINE5TRIPHOSPHO5ADENOSINE[CCO-EXTRACELLULAR] -c127,CYS[CCO-CYTOSOL] -c1959,DIAMINO-OH-PHOSPHORIBOSYLAMINO-PYR[CCO-CYTOSOL] -c1626,N2-SUCCINYLORNITHINE[CCO-CYTOSOL] -c715,Alpha-lactose[CCO-CYTOSOL] -c1897,CPD-3721[CCO-PERI-BAC] -c34,Long-Chain-Fatty-Acids[CCO-PERI-BAC] -c593,BUTHIONINE-SULFOXIMINE[CCO-CYTOSOL] -c489,KDO2-LIPID-IVA[CCO-EXTRACELLULAR] -c1545,UDP-MANNACA[CCO-CYTOSOL] -c929,Oxo-glutarate-dehydrogenase-DH-lipoyl[CCO-CYTOSOL] -c664,3-KETOBUTYRATE[CCO-CYTOSOL] -c1348,XANTHOSINE-5-PHOSPHATE[CCO-PERI-BAC] -c405,CPD0-621[CCO-CYTOSOL] -c1314,Oxidized-cytochromes-c2[CCO-CYTOSOL] -c557,CPD-108[CCO-CYTOSOL] -c1404,GAMMA-BUTYROBETAINYL-COA[CCO-CYTOSOL] -c1819,PROTON[CCO-UNKNOWN-SPACE] -c1340,D-galactopyranose[CCO-CYTOSOL] -c1397,CPD-7000[CCO-CYTOSOL] -c1631,CO-A[CCO-PERI-BAC] -c1683,Long-Chain-Acyl-CoAs[CCO-CYTOSOL] -c1821,3-MERCAPTO-PYRUVATE[CCO-CYTOSOL] -c1271,Oxidized-flavodoxins[CCO-CYTOSOL] -c359,CPD-13395[CCO-CYTOSOL] -c1319,Cytochromes-CL-Ox[CCO-CYTOSOL] -c373,CPD-13398[CCO-CYTOSOL] -c2000,16S-rRNA-2-O-methylcytidine1402[CCO-CYTOSOL] -c383,CPD-13397[CCO-CYTOSOL] -c1853,ERYTHRONATE-4P[CCO-CYTOSOL] -c1975,Alcohols[CCO-PERI-BAC] -c381,CPD-13393[CCO-CYTOSOL] -c371,CPD-13394[CCO-CYTOSOL] -c391,CPD-13390[CCO-CYTOSOL] -c1159,SERYL-AMP[CCO-CYTOSOL] -c1098,Protein-pi-phospho-L-histidines[CCO-CYTOSOL] -c1177,3-oxo-stearoyl-ACPs[CCO-CYTOSOL] -c78,DEOXYADENOSINE[CCO-PERI-BAC] -c1950,L-rhamnopyranose[CCO-CYTOSOL] -c1925,GUANOSINE-5DP-3DP[CCO-CYTOSOL] -c386,CPD-3569[CCO-PERI-BAC] -c1630,BUTYRIC_ACID[CCO-PERI-BAC] -c289,NADH[CCO-CYTOSOL] -c1954,PROTEIN-L-BETA-ISOSPARTATE-METHYL-ESTERS[CCO-CYTOSOL] -c594,BUTHIONINE-SULFOXIMINE[CCO-PERI-BAC] -c1002,T2-DECENOYL-COA[CCO-CYTOSOL] -c1240,Trans-D3-cis-D7-tetradecenoyl-ACPs[CCO-CYTOSOL] -c439,GLC-6-P[CCO-CYTOSOL] -c1885,CPD0-1108[CCO-CYTOSOL] -c1413,N-SUCCINYL-2-AMINO-6-KETOPIMELATE[CCO-CYTOSOL] -c847,CPD0-1107[CCO-CYTOSOL] -c316,DMSO[CCO-PERI-BAC] -c2211,NADP[CCO-PERI-BAC] -c282,CPD0-939[CCO-PERI-BAC] -c1578,L-Fucopyranoses[CCO-CYTOSOL] -c379,ALA-GLY[CCO-CYTOSOL] -c248,ARG[CCO-CYTOSOL] -c2039,2-PG[CCO-PERI-BAC] -c1446,OH[CCO-CYTOSOL] -c2147,BISOHMYR-GLC[CCO-CYTOSOL] -c1440,tRNAs-containing-epoxy-quenosine[CCO-CYTOSOL] -c1269,TAGATOSE-6-PHOSPHATE[CCO-CYTOSOL] -c835,CPD-15633[CCO-PERI-BAC] -c648,CPD-9247[CCO-CYTOSOL] -c2088,16S-rRNA-5-O-methylcytosine967[CCO-CYTOSOL] -c1678,L-ALLO-THREONINE[CCO-CYTOSOL] -c93,5-METHYLAMINOMETHYL-2-THIOURIDINE[CCO-EXTRACELLULAR] -c139,L-1-GLYCERO-PHOSPHORYLCHOLINE[CCO-PERI-BAC] -c1075,ACETYL-ACP[CCO-CYTOSOL] -c1004,3R-3-HYDROXYOCTANOYL-ACP[CCO-CYTOSOL] -c885,OXYGEN-MOLECULE[CCO-PERI-BAC] -c2236,Charged-GLY-tRNAs[CCO-CYTOSOL] -c64,CPD-10434[CCO-CYTOSOL] -c2104,CPD-358[CCO-CYTOSOL] -c1283,16S-rRNA-cytosine1407[CCO-CYTOSOL] -c462,2-OXOBUTANOATE[CCO-PERI-BAC] -c963,tRNA-Dihydrouridines[CCO-CYTOSOL] -c2040,tRNA-Arg-adenosine34[CCO-CYTOSOL] -c1006,3-Hydroxy-octanoyl-ACPs[CCO-CYTOSOL] -c1426,Guanine46-in-tRNA[CCO-CYTOSOL] -c914,CPD-15424[CCO-CYTOSOL] -c2161,HYDRPHENYLAC-CPD[CCO-PERI-BAC] -c446,TREHALOSE[CCO-PERI-BAC] -c846,CPD0-1107[CCO-PERI-BAC] -c921,O-SUCCINYL-L-HOMOSERINE[CCO-CYTOSOL] -c223,CPD0-2265[CCO-CYTOSOL] -c454,HYPOXANTHINE[CCO-CYTOSOL] -c680,PYRIDOXAMINE[CCO-CYTOSOL] -c2219,CPD-534[CCO-PERI-BAC] -c1079,Protein-alpha-L-Glutamates[CCO-CYTOSOL] -c61,Pi[CCO-CYTOSOL] -c777,CPD0-441[CCO-CYTOSOL] -c1114,2-KETO-ISOVALERATE[CCO-CYTOSOL] -c1597,CPD-1772[CCO-CYTOSOL] -c2169,Dipeptides-With-Proline-Carboxy[CCO-CYTOSOL] -c1464,CPD-3708[CCO-PERI-BAC] -c1894,Acceptor[CCO-PERI-BAC] -c2136,CPD0-2518[CCO-CYTOSOL] -c876,D-TARTRATE[CCO-CYTOSOL] -c97,5-METHYLAMINOMETHYL-2-SELENOURIDINE[CCO-EXTRACELLULAR] -c1218,Holo-AsbD-Proteins[CCO-CYTOSOL] -c1307,OCTAPRENYL-METHYL-METHOXY-BENZQ[CCO-CYTOSOL] -c734,P-AMINO-BENZOATE[CCO-CYTOSOL] -c1489,DUTP[CCO-CYTOSOL] -c1713,POLYMER-INST-CIS-DELTA3-ENOYL-COA-C6-H12[CCO-CYTOSOL] -c1916,2-ACYL-GPE[CCO-PERI-BAC] -c1040,Ox-Thioredoxin[CCO-CYTOSOL] -c829,CPD-14488[CCO-PERI-BAC] -c2099,Charged-LYS-tRNAs[CCO-CYTOSOL] -c406,TAURINE[CCO-PERI-BAC] -c2182,Charged-CYS-tRNAs[CCO-CYTOSOL] -c800,D-ALANINE[CCO-CYTOSOL] -c142,GLYCEROPHOSPHOGLYCEROL[CCO-CYTOSOL] -c868,B-ALANINE[CCO-CYTOSOL] -c1753,Charged-ALA-tRNAs[CCO-CYTOSOL] -c983,AMINO-HYDROXYMETHYL-METHYL-PYR-P[CCO-CYTOSOL] -c189,KDO2-LIPID-IVA-COLD[CCO-CYTOSOL] -c1572,CPD-11592[CCO-CYTOSOL] -c1687,CPD0-2123[CCO-CYTOSOL] -c1018,CPD0-2121[CCO-CYTOSOL] -c1306,OCTAPRENYL-METHOXY-BENZOQUINONE[CCO-CYTOSOL] -c609,LL-DIAMINOPIMELATE[CCO-CYTOSOL] -c85,DEOXYCYTIDINE[CCO-EXTRACELLULAR] -c1723,D-Xylopyranose[CCO-CYTOSOL] -c1385,DPG[CCO-CYTOSOL] -c1755,CPD-6124[CCO-CYTOSOL] -c2176,BUTANAL[CCO-CYTOSOL] -c1388,CPD-9924[CCO-CYTOSOL] -c513,CA+2[CCO-CYTOSOL] -c1285,L-FUCULOSE[CCO-CYTOSOL] -c1342,UDP-OHMYR-ACETYLGLUCOSAMINE[CCO-CYTOSOL] -c131,L-ORNITHINE[CCO-PERI-BAC] -c224,CPD0-2265[CCO-PERI-BAC] -c360,CPD-13401[CCO-PERI-BAC] -c521,CPD-195[CCO-PERI-BAC] -c1705,UDP-4-AMINO-4-DEOXY-L-ARABINOSE[CCO-CYTOSOL] -c1329,PALMITYL-COA[CCO-CYTOSOL] -c1506,CPD-16015[CCO-CYTOSOL] -c1081,Reduced-2Fe-2S-Ferredoxins[CCO-CYTOSOL] -c1580,BUTYRIC_ACID[CCO-CYTOSOL] -c1361,CPD-16013[CCO-CYTOSOL] -c1132,Dodec-2-enoyl-ACPs[CCO-CYTOSOL] -c917,CPD-2961[CCO-CYTOSOL] -c2047,ERYTHROSE[CCO-CYTOSOL] -c623,CPD0-1617[CCO-CYTOSOL] -c2201,CPD-14133[CCO-CYTOSOL] -c1046,Butanoyl-ACPs[CCO-CYTOSOL] -c1448,2-ACYL-GPE[CCO-CYTOSOL] -c149,CPD-218[CCO-PERI-BAC] -c1120,DIHYDRO-NEO-PTERIN[CCO-CYTOSOL] -c1913,HYDRPHENYLAC-CPD[CCO-CYTOSOL] -c485,CPD0-937[CCO-EXTRACELLULAR] -c362,CPD-13406[CCO-PERI-BAC] -c1499,D-tagatofuranose[CCO-CYTOSOL] -c384,CPD-13403[CCO-PERI-BAC] -c944,BETAINE_ALDEHYDE[CCO-CYTOSOL] -c374,CPD-13404[CCO-PERI-BAC] -c1930,CPD-520[CCO-CYTOSOL] -c652,XANTHINE[CCO-PERI-BAC] -c1137,Beta-3-hydroxybutyryl-ACPs[CCO-CYTOSOL] -c491,L-ARA4N-MODIFIED-KDO2-LIPID-A[CCO-EXTRACELLULAR] -c378,ALA-GLY[CCO-PERI-BAC] -c550,PHENYLACETALDEHYDE[CCO-CYTOSOL] -c1219,Apo-AsbD-Proteins[CCO-CYTOSOL] -c1665,L-seryl-SEC-tRNAs[CCO-CYTOSOL] -c1987,SE-2[CCO-CYTOSOL] -c754,PANTOTHENATE[CCO-PERI-BAC] -c603,CPD0-1224[CCO-CYTOSOL] -c1706,5-BETA-L-THREO-PENTAPYRANOSYL-4-ULOSE-[CCO-CYTOSOL] -c1611,4-OXALOMESACONATE[CCO-CYTOSOL] -c1863,GDP-4-DEHYDRO-6-DEOXY-D-MANNOSE[CCO-CYTOSOL] -c520,METOH[CCO-PERI-BAC] -c1988,tRNA-Sec[CCO-CYTOSOL] -c1841,CPDMETA-13650[CCO-CYTOSOL] -c1761,PHENYL-PYRUVATE[CCO-CYTOSOL] -c2114,P3I[CCO-PERI-BAC] -c716,DEOXYCYTIDINE[CCO-CYTOSOL] -c1874,Peptidoglycan-dimer[CCO-UNKNOWN-SPACE] -c2223,CPD-3734[CCO-CYTOSOL] -c2202,ALLO-THR[CCO-CYTOSOL] -c431,N-ACETYL-D-MANNOSAMINE-6P[CCO-CYTOSOL] -c532,CPD-1093[CCO-CYTOSOL] -c1657,Reduced-hydrogenase-3[CCO-CYTOSOL] -c624,CPD0-1617[CCO-PERI-BAC] -c108,CYTIDINE[CCO-PERI-BAC] -c1209,METHYL-GLYOXAL[CCO-PERI-BAC] -c2224,HCN[CCO-PERI-BAC] -c479,CPD0-2257[CCO-EXTRACELLULAR] -c1749,CPD-10551[CCO-CYTOSOL] -c1799,DEHYDROQUINATE[CCO-CYTOSOL] -c1800,CPD-173[CCO-CYTOSOL] -c1557,D-TAGATURONATE[CCO-CYTOSOL] -c1258,DEOXYXYLULOSE-5P[CCO-CYTOSOL] -c1568,NAcMur-Peptide-NAcGlc-Undecaprenols[CCO-PERI-BAC] -c1893,Aldoses[CCO-PERI-BAC] -c2109,ACETOIN[CCO-CYTOSOL] -c1381,CPD-8624[CCO-CYTOSOL] -c861,CPD-15544[CCO-CYTOSOL] -c1940,tRNA-uridine-38-40[CCO-CYTOSOL] -c200,CPD0-937[CCO-PERI-BAC] -c591,L-BETA-ASPARTYL-P[CCO-CYTOSOL] -c634,N5-METHYLGLUTAMINE[CCO-PERI-BAC] -c1565,2-DEOXY-D-GLUCOSE[CCO-CYTOSOL] -c88,THYMIDINE[CCO-PERI-BAC] -c2101,D-Amino-Acids[CCO-CYTOSOL] -c1679,DIHYDRO-THYMINE[CCO-CYTOSOL] -c604,CPD0-1224[CCO-PERI-BAC] -c589,L-Amino-Acids[CCO-CYTOSOL] -c1456,GDP-MANNOSE[CCO-CYTOSOL] -c158,CPD-3738[CCO-CYTOSOL] -c2071,CPD0-2381[CCO-CYTOSOL] -c202,CPD-17530[CCO-PERI-BAC] -c752,3-HYDROXYPHENYL-PROPIONATE[CCO-PERI-BAC] -c682,CD+2[CCO-CYTOSOL] -c2063,CPD-15158[CCO-CYTOSOL] -c1058,16S-rRNA-pseudouridine516[CCO-CYTOSOL] -c642,CPD-9245[CCO-CYTOSOL] -c1609,ADENOSYLCOBALAMIN-5-P[CCO-CYTOSOL] -c1990,N-SUCCINYLLL-2-6-DIAMINOPIMELATE[CCO-CYTOSOL] -c1242,CROTONOBETAINYL-COA[CCO-CYTOSOL] -c1519,CPD-7100[CCO-CYTOSOL] -c2008,tRNA-Containing-5AminoMe-2-ThioUrdines[CCO-CYTOSOL] -c67,CPD-3745[CCO-PERI-BAC] -c960,Protein-With-N-Terminal-Pro[CCO-CYTOSOL] -c298,SPERMIDINE[CCO-PERI-BAC] -c1469,2-3-4-Saturated-L-Phosphatidates[CCO-CYTOSOL] -c1915,BENZOATE[CCO-CYTOSOL] -c765,TARTRATE[CCO-CYTOSOL] -c2200,N-Acetoxy-Arylamines[CCO-CYTOSOL] -c1144,5-METHYL-THF[CCO-CYTOSOL] -c369,CYS-GLY[CCO-CYTOSOL] -c658,FE+2[CCO-CYTOSOL] -c1622,SER-tRNAs[CCO-CYTOSOL] -c691,CPD0-2241[CCO-CYTOSOL] -c979,Cysteine-Desulfurase-L-cysteine[CCO-CYTOSOL] -c1428,CPD-9000[CCO-CYTOSOL] -c1022,CPD0-2244[CCO-CYTOSOL] -c205,CPD0-2240[CCO-CYTOSOL] -c970,MALONYL-ACP[CCO-CYTOSOL] -c207,KDO2-LIPID-IVA[CCO-CYTOSOL] -c722,ADENOSINE[CCO-CYTOSOL] -c1462,CPD-3706[CCO-PERI-BAC] -c1153,CREC-CPLX[CCO-CYTOSOL] -c508,F-[CCO-PERI-BAC] -c1297,CPD-377[CCO-CYTOSOL] -c256,CYSTINE[CCO-CYTOSOL] -c551,cystine[CCO-CYTOSOL] -c2204,PROTEIN-N-UBIQUITYL-LYSINE[CCO-CYTOSOL] -c1877,Peptidoglycan-dimer[CCO-CYTOSOL] -c206,CPD0-2240[CCO-PERI-BAC] -c1978,L-1-PHOSPHATIDYL-GLYCEROL[CCO-PERI-BAC] -c689,CPD0-2241[CCO-PERI-BAC] -c548,CPD-8891[CCO-PERI-BAC] -c1330,1-PALMITOYLGLYCEROL-3-PHOSPHATE[CCO-CYTOSOL] -c1846,TusE-L-cysteine[CCO-CYTOSOL] -c661,3-HYDROXY-PROPIONATE[CCO-CYTOSOL] -c2123,Charged-ILE-tRNAs[CCO-CYTOSOL] -c1481,ARCA-MONOMER[CCO-CYTOSOL] -c1660,CPD-653[CCO-CYTOSOL] -c1688,CPD0-2105[CCO-CYTOSOL] -c1180,Arachidoyl-ACPs[CCO-CYTOSOL] -c1020,CPD0-2108[CCO-CYTOSOL] -c1686,CPD0-2106[CCO-CYTOSOL] -c1024,CPD0-2107[CCO-CYTOSOL] -c32,UREA[CCO-PERI-BAC] -c672,GUANINE[CCO-CYTOSOL] -c1559,GDP-TP[CCO-CYTOSOL] -c1344,CPD0-2101[CCO-CYTOSOL] -c1973,CPD-8353[CCO-PERI-BAC] -c1267,CPD-16566[CCO-CYTOSOL] -c1680,CPD-16567[CCO-CYTOSOL] -c235,SELENATE[CCO-PERI-BAC] -c1299,3-oxo-cis-vaccenoyl-ACPs[CCO-CYTOSOL] -c1158,Holo-EntF[CCO-CYTOSOL] -c768,CARNITINE[CCO-PERI-BAC] -c2062,CPD0-1095[CCO-CYTOSOL] -c1220,Holo-EntB[CCO-CYTOSOL] -c2015,DETHIOBIOTIN[CCO-CYTOSOL] -c165,S2O3[CCO-PERI-BAC] -c2103,CPD-13315[CCO-CYTOSOL] -c429,CPD-1181[CCO-CYTOSOL] -c1756,ARG-tRNAs[CCO-CYTOSOL] -c2078,PROPIONYL-P[CCO-CYTOSOL] -c1191,CPD-13314[CCO-CYTOSOL] -c686,COBINAMIDE[CCO-PERI-BAC] -c1003,HS[CCO-CYTOSOL] -c9,WATER[CCO-PERI-BAC] -c1858,SUCC-S-ALD[CCO-CYTOSOL] -c1693,2-ACETO-LACTATE[CCO-CYTOSOL] -c2128,N-Substituted-Aminoacyl-tRNA[CCO-CYTOSOL] -c568,D-SERINE[CCO-CYTOSOL] -c1674,Non-Glucosylated-Glucose-Acceptors[CCO-PERI-BAC] -c2133,Phenoxyl-rad-of-phenolic-donors[CCO-PERI-BAC] -c595,SER[CCO-CYTOSOL] -c50,AMMONIUM[CCO-CYTOSOL] -c1914,3-HYDROXYPHENYLACETATE[CCO-CYTOSOL] -c500,CPD0-935[CCO-EXTRACELLULAR] -c1065,DUDP[CCO-CYTOSOL] -c51,K+[CCO-PERI-BAC] -c1036,Trans-D3-cis-D9-hexadecenoyl-ACPs[CCO-CYTOSOL] -c659,PROPIONATE[CCO-PERI-BAC] -c1468,Saturated-Fatty-Acyl-ACPs[CCO-CYTOSOL] -c2041,tRNA-Arg-inosine34[CCO-CYTOSOL] -c1815,2-Lysophosphatidylcholines[CCO-UNKNOWN-SPACE] -c1230,CPD-644[CCO-CYTOSOL] -c1567,MYO-INOSITOL[CCO-CYTOSOL] -c579,NICOTINAMIDE_RIBOSE[CCO-PERI-BAC] -c2144,Semiquinones[CCO-CYTOSOL] -c2141,3-P-SERINE[CCO-CYTOSOL] -c2116,23S-rRNA-N6-m-adenine1618[CCO-CYTOSOL] -c1121,AMINO-OH-HYDROXYMETHYL-DIHYDROPTERIDINE[CCO-CYTOSOL] -c1937,CPD-13357[CCO-CYTOSOL] -c1785,ADP-D-GLYCERO-D-MANNO-HEPTOSE[CCO-CYTOSOL] -c1260,Thiocarboxyadenylated-ThiS-Proteins[CCO-CYTOSOL] -c2175,CPD0-1202[CCO-CYTOSOL] -c2237,PYRIDOXINE-5P[CCO-PERI-BAC] -c1012,THR-tRNAs[CCO-CYTOSOL] -c74,FORMATE[CCO-PERI-BAC] -c728,MAL[CCO-PERI-BAC] -c792,CPD-3565[CCO-PERI-BAC] -c1895,Aldonic-Acids[CCO-PERI-BAC] -c308,VAL[CCO-PERI-BAC] -c540,ACETYLMALTOSE[CCO-EXTRACELLULAR] -c1222,EG50003-MONOMER[CCO-CYTOSOL] -c81,DEOXYGUANOSINE[CCO-EXTRACELLULAR] -c636,N-METHYLTRYPTOPHAN[CCO-PERI-BAC] -c676,D-GALACTONO-1-4-LACTONE[CCO-CYTOSOL] -c1952,2-ALPHA-HYDROXYETHYL-THPP[CCO-CYTOSOL] -c1136,Hex-2-enoyl-ACPs[CCO-CYTOSOL] -c1607,CPD-1091[CCO-CYTOSOL] -c1689,CPD-10284[CCO-CYTOSOL] -c117,ADENOSINE[CCO-EXTRACELLULAR] -c495,CPD0-2239[CCO-EXTRACELLULAR] -c38,PALMITATE[CCO-PERI-BAC] -c1292,23S-rRNA-pseudouridine2605[CCO-CYTOSOL] -c1870,NAcMur-Peptide-NAcGlc-Undecaprenols[CCI-PERI-BAC-GN] -c477,CPD0-2238[CCO-EXTRACELLULAR] -c1437,UROPORPHYRINOGEN-III[CCO-CYTOSOL] -c1933,CPD-8123[CCO-CYTOSOL] -c1255,ADENOSYLCOBINAMIDE-GDP[CCO-CYTOSOL] -c2030,16S-rRNA-N2methylguanine1516[CCO-CYTOSOL] -c1612,CPD-12849[CCO-CYTOSOL] -c230,CPD0-935[CCO-PERI-BAC] -c709,ACET[CCO-CYTOSOL] -c22,NI+2[CCO-CYTOSOL] -c2203,PYRIDOXAL_PHOSPHATE[CCO-PERI-BAC] -c350,DIPEPTIDES[CCO-PERI-BAC] -c2100,D-aminoacyl-tRNAs[CCO-CYTOSOL] -c1623,Charged-SER-tRNAs[CCO-CYTOSOL] -c2076,Carboxylic-esters[CCO-CYTOSOL] -c1901,CPD0-2365[CCO-CYTOSOL] -c827,CPD-12521[CCO-PERI-BAC] -c2097,3-OCTAPRENYL-4-HYDROXYBENZOATE[CCO-CYTOSOL] -c813,URIDINE[CCO-CYTOSOL] -c638,CPD-3736[CCO-CYTOSOL] -c1359,CPD0-2363[CCO-CYTOSOL] -c1270,TAGATOSE-1-6-DIPHOSPHATE[CCO-CYTOSOL] -c1358,CPD0-2362[CCO-CYTOSOL] -c809,L-LYXOSE[CCO-PERI-BAC] -c1842,CPD0-2364[CCO-CYTOSOL] -c268,PROTON[CCO-PERI-BAC] -c1291,23S-rRNA-uridine2605[CCO-CYTOSOL] -c524,GLYOX[CCO-CYTOSOL] -c856,5-METHYLAMINOMETHYL-2-THIOURIDINE[CCO-CYTOSOL] -c2140,CPD-14763[CCO-CYTOSOL] -c1675,D-mannopyranose[CCO-CYTOSOL] -c212,L-ARA4N-MODIFIED-KDO2-LIPID-A[CCO-PERI-BAC] -c1349,XANTHOSINE-5-PHOSPHATE[CCO-CYTOSOL] -c615,THR[CCO-CYTOSOL] -c1871,GlcNAc-1-6-anhydro-MurNAc-pentapeptide[CCI-PERI-BAC-GN] -c837,CPD-12523[CCO-PERI-BAC] -c785,ACETYLSERINE[CCO-CYTOSOL] -c1658,XYLULOSE-5-PHOSPHATE[CCO-CYTOSOL] -c1726,2-AMINO-3-OXO-4-PHOSPHONOOXYBUTYRATE[CCO-CYTOSOL] -c209,CPD0-929[CCO-CYTOSOL] -c1021,CPD0-2224[CCO-CYTOSOL] -c1904,CPD-16503[CCO-CYTOSOL] -c1366,CPD-16501[CCO-CYTOSOL] -c1367,CPD-16502[CCO-CYTOSOL] -c1429,23S-rRNA-uracil-747[CCO-CYTOSOL] -c1184,CPD-16500[CCO-CYTOSOL] -c137,L-1-GLYCEROPHOSPHORYLETHANOL-AMINE[CCO-PERI-BAC] -c394,R--ALLANTOIN[CCO-PERI-BAC] -c1458,NIACINAMIDE[CCO-CYTOSOL] -c2021,P-NITROPHENOL[CCO-PERI-BAC] -c1501,CPD-9728[CCO-PM-BAC-NEG] -c1639,CPD-196[CCO-PERI-BAC] -c991,BETA-KETO-CIS-DELTA5-DODECENOYL-ACP[CCO-CYTOSOL] -c701,4-hydroxybenzoate[CCO-CYTOSOL] -c954,3-HYDROXYBENZOATE[CCO-CYTOSOL] -c1614,CHORISMATE[CCO-CYTOSOL] -c12,MG+2[CCO-CYTOSOL] -c2127,CPD-548[CCO-CYTOSOL] -c2143,Quinones[CCO-CYTOSOL] -c1596,2-AMINOMALONATE-SEMIALDEHYDE[CCO-CYTOSOL] -c1690,3-OXOPALMITOYL-COA[CCO-CYTOSOL] -c414,2-DEOXY-D-GLUCOSE-6-PHOSPHATE[CCO-CYTOSOL] -c242,CPD0-1075[CCO-CYTOSOL] -c407,TAURINE[CCO-CYTOSOL] -c1776,CPD-16549[CCO-CYTOSOL] -c2059,GLC-D-LACTONE[CCO-PERI-BAC] -c240,CPD0-1076[CCO-CYTOSOL] -c343,CPD0-1077[CCO-CYTOSOL] -c367,CARNOSINE[CCO-CYTOSOL] -c1171,Octanoyl-ACPs[CCO-CYTOSOL] -c217,HEPTOSYL-KDO2-LIPID-IVA[CCO-CYTOSOL] -c1974,Orthophosphoric-Monoesters[CCO-PERI-BAC] -c345,CPD0-1074[CCO-CYTOSOL] -c493,CPD-11653[CCO-EXTRACELLULAR] -c1162,CPD-15818[CCO-PERI-BAC] -c1537,CPD-10796[CCO-CYTOSOL] -c700,CPD-10797[CCO-CYTOSOL] -c24,NITRITE[CCO-CYTOSOL] -c1444,APO-CITRATE-LYASE[CCO-CYTOSOL] -c1014,METHYL-MALONYL-COA[CCO-CYTOSOL] -c855,CPD0-1321[CCO-CYTOSOL] -c860,CPD0-1322[CCO-CYTOSOL] -c964,HCO3[CCO-CYTOSOL] -c968,P3I[CCO-CYTOSOL] -c857,CPD0-1320[CCO-CYTOSOL] -c1995,UDP-L-ARA4-FORMYL-N[CCO-CYTOSOL] -c528,GLYCERATE[CCO-CYTOSOL] -c1363,CIS-ACONITATE[CCO-CYTOSOL] -c916,D-6-P-GLUCONO-DELTA-LACTONE[CCO-CYTOSOL] -c1786,23S-rRNA-uridine2604[CCO-CYTOSOL] -c492,CPD0-933[CCO-EXTRACELLULAR] -c1353,D-arabinofuranose[CCO-CYTOSOL] -c96,CPD0-1320[CCO-PERI-BAC] -c1435,tRNA-uridine55[CCO-CYTOSOL] -c66,CPD-3744[CCO-CYTOSOL] -c1932,DIHYDRO-DIOH-BENZOATE[CCO-CYTOSOL] -c92,CPD0-1321[CCO-PERI-BAC] -c2001,23S-rRNA-uridine-2552[CCO-CYTOSOL] -c1702,Ribosomal-protein-L3-L-glutamine[CCO-CYTOSOL] -c1949,CPD-9038[CCO-CYTOSOL] -c1817,Carboxylates[CCO-UNKNOWN-SPACE] -c1714,POLYMER-INST-CIS-DELTA3-ENOYL-COA-C10-H20[CCO-CYTOSOL] -c1579,2-ACETO-2-HYDROXY-BUTYRATE[CCO-CYTOSOL] -c1123,R-3-hydroxyarachidoyl-ACPs[CCO-CYTOSOL] -c771,AGMATHINE[CCO-CYTOSOL] -c975,Carboxyadenylated-MPT-synthases[CCO-CYTOSOL] -c2234,HYDROGEN-MOLECULE[CCO-CYTOSOL] -c342,CPD0-1077[CCO-PERI-BAC] -c241,CPD0-1075[CCO-PERI-BAC] -c559,THZ[CCO-PERI-BAC] -c239,CPD0-1076[CCO-PERI-BAC] -c1553,Aminated-Amine-Donors[CCO-CYTOSOL] -c344,CPD0-1074[CCO-PERI-BAC] -c2061,Nucleobases-in-DNA[CCO-CYTOSOL] -c1430,23S-rRNA-5-methyluracil747[CCO-CYTOSOL] -c2038,CPD-2343[CCO-CYTOSOL] -c1824,N-ACETYL-GLUTAMYL-P[CCO-CYTOSOL] -c1450,L-GLUTAMATE_GAMMA-SEMIALDEHYDE[CCO-CYTOSOL] -c102,CPD0-1322[CCO-PERI-BAC] -c301,CPD0-2485[CCO-CYTOSOL] -c403,CPD0-2486[CCO-CYTOSOL] -c293,SELENITE[CCO-CYTOSOL] -c1586,CPD-10267[CCO-CYTOSOL] -c1203,CPD0-2483[CCO-CYTOSOL] -c1202,CPD0-2482[CCO-CYTOSOL] -c199,CPD0-937[CCO-CYTOSOL] -c935,CPD0-2480[CCO-CYTOSOL] -c1029,CPD-10262[CCO-CYTOSOL] -c1080,CPD-12575[CCO-CYTOSOL] -c1862,23S-rRNA-pseudouridine955-2504-2580[CCO-CYTOSOL] -c930,Oxo-glutarate-dehydrogenase-lipoyl[CCO-CYTOSOL] -c1691,CPD-10260[CCO-CYTOSOL] -c323,Quaternary-Amines[CCO-CYTOSOL] -c2129,N-Substituted-Amino-Acids[CCO-CYTOSOL] -c2007,Charged-GLN-tRNAs[CCO-CYTOSOL] -c1663,Methylketones[CCO-CYTOSOL] -c2130,Phenolic-Donors[CCO-CYTOSOL] -c1201,DEAMIDO-NAD[CCO-CYTOSOL] -c1922,7-METHYLGUANOSINE-5-PHOSPHATE[CCO-CYTOSOL] -c1147,DEHYDRO-3-DEOXY-L-RHAMNONATE[CCO-CYTOSOL] -c1328,CPD-12821[CCO-CYTOSOL] -c118,ADENOSINE[CCO-PERI-BAC] -c146,CPD-12822[CCO-CYTOSOL] -c1480,PHOSPHO-ARCB-HIS[CCO-CYTOSOL] -c1764,CPD-12824[CCO-CYTOSOL] -c1327,CPD-12820[CCO-CYTOSOL] -c214,CPD0-933[CCO-PERI-BAC] -c727,MALEATE[CCO-CYTOSOL] -c1308,FMN[CCO-PERI-BAC] -c1403,DCTP[CCO-CYTOSOL] -c656,C6[CCO-PERI-BAC] -c808,ENTEROBACTIN[CCO-PERI-BAC] -c735,P-AMINO-BENZOATE[CCO-PERI-BAC] -c1245,FORMYL-COA[CCO-CYTOSOL] -c1588,TETRADECANOYL-COA[CCO-CYTOSOL] -c2013,N-ACETYL-D-GLUCOSAMINE-1-P[CCO-CYTOSOL] -c1352,CPD0-2340[CCO-CYTOSOL] -c1681,5-PHOSPHORIBOSYL-N-FORMYLGLYCINEAMIDINE[CCO-CYTOSOL] -c1527,CPD0-181[CCO-CYTOSOL] -c15,BETAINE[CCO-EXTRACELLULAR] -c894,CARBON-DIOXIDE[CCO-CYTOSOL] -c803,INDOLE[CCO-PERI-BAC] -c286,FERRIC-ENTEROBACTIN-COMPLEX[CCO-PERI-BAC] -c1569,NAcMur-4Peptide-NAcGlc-Undecaprenols[CCO-PERI-BAC] -c1701,ADENOSYLCOBINAMIDE[CCO-CYTOSOL] -c271,WATER[CCO-IN] -c1043,S-ADENOSYLMETHIONINE[CCO-CYTOSOL] -c1604,23S-rRNA-adenine-2030[CCO-CYTOSOL] -c1125,R-3-hydroxystearoyl-ACPs[CCO-CYTOSOL] -c300,CPD0-2485[CCO-PERI-BAC] -c402,CPD0-2486[CCO-PERI-BAC] -c841,CPD0-2482[CCO-PERI-BAC] -c865,ADENOSYL-P4[CCO-CYTOSOL] -c824,ENTEROBACTIN[CCO-EXTRACELLULAR] -c318,PROTOHEME[CCO-CYTOSOL] -c896,N-acetyl-beta-D-hexosamines[CCO-CYTOSOL] -c2108,KDO[CCO-CYTOSOL] -c254,CPD-12045[CCO-CYTOSOL] -c553,CPD0-882[CCO-PERI-BAC] -c1669,DAMP[CCO-PERI-BAC] -c2019,PHOSPHORIBOSYL-FORMAMIDO-CARBOXAMIDE[CCO-CYTOSOL] -c2225,HSCN[CCO-PERI-BAC] -c536,CAMP[CCO-PERI-BAC] -c1802,DIHYDROMONAPTERIN-TRIPHOSPHATE[CCO-CYTOSOL] -c105,CPD0-1312[CCO-EXTRACELLULAR] -c111,CPD0-1319[CCO-EXTRACELLULAR] -c440,CELLOBIOSE[CCO-PERI-BAC] -c799,D-ALANINE[CCO-PERI-BAC] -c679,PYRIDOXAMINE[CCO-PERI-BAC] -c867,B-ALANINE[CCO-PERI-BAC] -c1745,L-XYLULOSE-5-P[CCO-CYTOSOL] -c334,HIS[CCO-PERI-BAC] -c99,CPD0-1311[CCO-EXTRACELLULAR] -c134,CPD-3[CCO-CYTOSOL] -c1451,tRNA-guanosine18[CCO-CYTOSOL] -c470,Lipopolysaccharides[CCO-EXTRACELLULAR] -c986,3-oxo-palmitoyl-ACPs[CCO-CYTOSOL] -c984,AMINO-HYDROXYMETHYL-METHYLPYRIMIDINE-PP[CCO-CYTOSOL] -c1541,16S-rRNA-adenine1518-adenine1519[CCO-CYTOSOL] -c898,CPD0-1193[CCO-CYTOSOL] -c400,CPD0-1192[CCO-CYTOSOL] -c1606,PHOSPHORYL-ETHANOLAMINE[CCO-PERI-BAC] -c1808,Ribosomal-protein-S12-3-methylthio-Asp89[CCO-CYTOSOL] -c747,GLYCOLLATE[CCO-PERI-BAC] -c1492,DITP[CCO-CYTOSOL] -c1505,2-AMINOACRYLATE[CCO-CYTOSOL] -c647,STEARIC_ACID[CCO-CYTOSOL] -c377,CPD0-1445[CCO-CYTOSOL] -c2028,CPD-11281[CCO-CYTOSOL] -c2165,2-C-METHYL-D-ERYTHRITOL-4-PHOSPHATE[CCO-CYTOSOL] -c1206,L-CITRULLINE[CCO-CYTOSOL] -c1005,MONOMER-4565[CCO-CYTOSOL] -c2191,CPD0-1442[CCO-CYTOSOL] -c1478,Protein-L-methionine-R-S-oxides[CCO-CYTOSOL] -c719,GLUCONATE[CCO-PERI-BAC] -c450,PTSI-PHOSPHORYLATED[CCO-CYTOSOL] -c1905,2-3-dihydroxypropane-1-sulfonate[CCO-CYTOSOL] -c821,HOMO-SER[CCO-CYTOSOL] -c1102,Aromatic-Oxoacids[CCO-CYTOSOL] -c1666,Charged-SEC-tRNAs[CCO-CYTOSOL] -c1521,2-KETO-3-DEOXY-6-P-GLUCONATE[CCO-CYTOSOL] -c75,Nucleosides[CCO-EXTRACELLULAR] -c724,ENOL-OXALOACETATE[CCO-PERI-BAC] -c484,CPD-12284[CCO-EXTRACELLULAR] -c45,STEARIC_ACID[CCO-EXTRACELLULAR] -c3,N-ACETYLNEURAMINATE[CCO-EXTRACELLULAR] -c175,CPD0-1051[CCO-CYTOSOL] -c173,CPD0-1052[CCO-CYTOSOL] -c171,CPD0-1050[CCO-CYTOSOL] -c774,ARSENATE[CCO-CYTOSOL] -c1417,CPD-10775[CCO-CYTOSOL] -c1938,CPD-10776[CCO-CYTOSOL] -c20,MALTOSE[CCO-PERI-BAC] -c575,ADENINE[CCO-PERI-BAC] -c1896,Donor-H2[CCO-PERI-BAC] -c1849,CPD-10773[CCO-CYTOSOL] -c1482,PHOSPHO-ARCA[CCO-CYTOSOL] -c1214,Holo-CmaD-peptidyl-carrier-protein[CCO-CYTOSOL] -c303,CPD-10774[CCO-CYTOSOL] -c1212,Holo-CmaA-peptidyl-carrier-protein[CCO-CYTOSOL] -c396,S-ALLANTOIN[CCO-PERI-BAC] -c401,CPD0-1192[CCO-PERI-BAC] -c1,CPD0-1193[CCO-PERI-BAC] -c1837,PORPHOBILINOGEN[CCO-CYTOSOL] -c1166,MALONATE-S-ALD[CCO-CYTOSOL] -c413,PTSH-PHOSPHORYLATED[CCO-CYTOSOL] -c172,CPD0-1050[CCO-PERI-BAC] -c1652,UDP-N-ACETYLMURAMATE[CCO-CYTOSOL] -c176,CPD0-1051[CCO-PERI-BAC] -c1010,Citrate-Lyase-Citryl-Form[CCO-CYTOSOL] -c606,TRP[CCO-PERI-BAC] -c920,Acetic-Esters[CCO-CYTOSOL] -c163,GLN[CCO-PERI-BAC] -c1929,UDP-MURNAC-TETRAPEPTIDE[CCO-CYTOSOL] -c1320,Cytochromes-CL-Red[CCO-CYTOSOL] -c1052,ACP[CCO-PERI-BAC] -c1613,PHOSPHORIBOSYL-FORMIMINO-AICAR-P[CCO-CYTOSOL] -c376,CPD0-1445[CCO-PERI-BAC] -c1775,L-ASPARTATE-SEMIALDEHYDE[CCO-CYTOSOL] -c2033,L-RIBULOSE[CCO-CYTOSOL] -c1737,CPD-1843[CCO-CYTOSOL] -c1309,RIBOFLAVIN[CCO-PERI-BAC] -c1362,CPD-225[CCO-CYTOSOL] -c327,CPD-15377[CCO-CYTOSOL] -c1840,D-RIBULOSE[CCO-CYTOSOL] -c901,CPD-15373[CCO-CYTOSOL] -c755,PANTOTHENATE[CCO-CYTOSOL] -c437,GALACTITOL-1-PHOSPHATE[CCO-CYTOSOL] -c1129,R-3-hydroxymyristoyl-ACPs[CCO-CYTOSOL] -c2137,OXALO-SUCCINATE[CCO-CYTOSOL] -c1806,CPD-15374[CCO-CYTOSOL] -c1971,MENADIOL[CCO-CYTOSOL] -c1407,DGTP[CCO-CYTOSOL] -c2155,FAD[CCO-PERI-BAC] -c2212,NAD[CCO-PERI-BAC] -c631,CPD-298[CCO-CYTOSOL] -c174,CPD0-1052[CCO-PERI-BAC] -c2198,Glycerol-1-phosphate[CCO-CYTOSOL] -c749,FRUCTOSE-6P[CCO-PERI-BAC] -c612,ETHIONINE[CCO-PERI-BAC] -c767,GAMMA-BUTYROBETAINE[CCO-CYTOSOL] -c2154,CPD-8490[CCO-PERI-BAC] -c1251,D-RIBULOSE-1-P[CCO-CYTOSOL] -c305,CPD-15629[CCO-CYTOSOL] -c1008,BCCP-dimers[CCO-CYTOSOL] -c1908,CPD0-2468[CCO-CYTOSOL] -c1750,CPD0-2467[CCO-CYTOSOL] -c59,CPD-10246[CCO-CYTOSOL] -c564,CPD-10247[CCO-CYTOSOL] -c70,CPD-3746[CCO-CYTOSOL] -c1369,CPD0-2463[CCO-CYTOSOL] -c1825,CPD0-2461[CCO-CYTOSOL] -c2010,CPD-536[CCO-PERI-BAC] -c229,CPD0-935[CCO-CYTOSOL] -c1966,KDO-8P[CCO-CYTOSOL] -c1773,MONOMETHYL-ESTER-OF-TRANS-ACONITATE[CCO-CYTOSOL] -c2125,23S-rRNA-guanine-2069[CCO-CYTOSOL] -c2055,GERANYL-PP[CCO-CYTOSOL] -c882,CYTOSINE[CCO-CYTOSOL] -c49,AMMONIUM[CCO-PERI-BAC] -c1677,CPD-3728[CCO-PERI-BAC] -c1323,4-CYTIDINE-5-DIPHOSPHO-2-C[CCO-CYTOSOL] -c1536,OH-PYR[CCO-CYTOSOL] -c1432,5-KETO-4-DEOXY-D-GLUCARATE[CCO-CYTOSOL] -c1498,DHB-Seryl-EntF[CCO-CYTOSOL] -c1300,Val-tRNA1-Adenine37[CCO-CYTOSOL] -c1731,OXOPENTENOATE[CCO-CYTOSOL] -c1276,CPD-12231[CCO-PERI-BAC] -c1566,D-MYO-INOSITOL-1-MONOPHOSPHATE[CCO-CYTOSOL] -c1627,CPD-822[CCO-CYTOSOL] -c584,N-23-DIHYDROXYBENZOYL-L-SERINE[CCO-EXTRACELLULAR] -c730,CPD-660[CCO-PERI-BAC] -c395,R--ALLANTOIN[CCO-CYTOSOL] -c83,DEOXYURIDINE[CCO-EXTRACELLULAR] -c332,L-GLYCERALDEHYDE-3-PHOSPHATE[CCO-PERI-BAC] -c736,CPD-216[CCO-CYTOSOL] -c1777,AMINO-ACETONE[CCO-CYTOSOL] -c1322,Cytochromes-C-Reduced[CCO-CYTOSOL] -c1721,Charged-TYR-tRNAs[CCO-CYTOSOL] -c46,STEARIC_ACID[CCO-PERI-BAC] -c1406,Protein-L-methionine[CCO-CYTOSOL] -c519,METOH[CCO-CYTOSOL] -c72,CPD0-1958[CCO-CYTOSOL] -c822,HOMO-SER[CCO-PERI-BAC] -c281,CPD0-939[CCO-CYTOSOL] -c1757,Charged-ARG-tRNAs[CCO-CYTOSOL] -c2012,GLUCOSAMINE-1P[CCO-CYTOSOL] -c1411,DI-H-OROTATE[CCO-CYTOSOL] -c170,Lipopolysaccharides[CCO-PERI-BAC] -c2142,3-KETO-ADIPYL-COA[CCO-CYTOSOL] -c1357,HypE-S-carboxamide[CCO-CYTOSOL] -c1241,L-CARNITINYL-COA[CCO-CYTOSOL] -c314,METHYL-BETA-D-GALACTOSIDE[CCO-PERI-BAC] -c502,CPD0-1049[CCO-EXTRACELLULAR] -c791,CPD-2482[CCO-CYTOSOL] -c1170,POLYMER-INST-Saturated-Fatty-Acyl-ACPs-C0-H0[CCO-CYTOSOL] -c726,MALEATE[CCO-PERI-BAC] -c449,MANNOSE-6P[CCO-CYTOSOL] -c151,GLUTATHIONE[CCO-PERI-BAC] -c501,CPD0-1048[CCO-EXTRACELLULAR] -c1455,MANNOSE-1P[CCO-CYTOSOL] -c311,CPD0-1564[CCO-CYTOSOL] -c86,DEOXYCYTIDINE[CCO-PERI-BAC] -c1360,3-hydroxypimeloyl-ACP-methyl-esters[CCO-CYTOSOL] -c1068,ACYL-SN-GLYCEROL-3P[CCO-CYTOSOL] -c1268,DIHYDROFOLATE[CCO-CYTOSOL] -c2112,TETRAHYDROTHIOPHENE-1-OXIDE[CCO-PERI-BAC] -c215,CPD-11653[CCO-CYTOSOL] -c390,CPD-13390[CCO-PERI-BAC] -c663,3-KETOBUTYRATE[CCO-PERI-BAC] -c674,CPD-397[CCO-CYTOSOL] -c1996,CPD0-888[CCO-CYTOSOL] -c1093,3-Ketoglutaryl-ACP-methyl-ester[CCO-CYTOSOL] -c797,CHOLINE[CCO-PERI-BAC] -c1539,THIAMINE-PYROPHOSPHATE[CCO-CYTOSOL] -c1500,TAGATOSE[CCO-CYTOSOL] -c1476,OH-MYRISTOYL[CCO-CYTOSOL] -c858,5-METHYLAMINOMETHYL-2-SELENOURIDINE[CCO-CYTOSOL] -c144,CPD-8260[CCO-CYTOSOL] -c1670,L-HISTIDINOL-P[CCO-PERI-BAC] -c1585,CPD-3617[CCO-CYTOSOL] -c1163,3-oxo-decanoyl-ACPs[CCO-CYTOSOL] -c138,L-1-GLYCEROPHOSPHORYLETHANOL-AMINE[CCO-CYTOSOL] -c1289,D-BETA-D-HEPTOSE-17-DIPHOSPHATE[CCO-CYTOSOL] -c1548,PHOSPHORIBULOSYL-FORMIMINO-AICAR-P[CCO-CYTOSOL] -c1811,5-10-METHENYL-THF[CCO-CYTOSOL] -c1092,DCDP[CCO-CYTOSOL] -c71,CPD0-1958[CCO-PERI-BAC] -c238,MET[CCO-CYTOSOL] -c1734,DCMP[CCO-PERI-BAC] -c1738,tRNAs-Asp-with-queuosine[CCO-CYTOSOL] -c2066,Elongator-tRNAMet-acetylcytidine[CCO-CYTOSOL] -c1243,CPD-207[CCO-CYTOSOL] -c515,CH4[CCO-CYTOSOL] -c1261,CPD-13575[CCO-CYTOSOL] -c265,CPD-8990[CCO-CYTOSOL] -c1864,34-DIHYDROXYPHENYLACETYL-COA[CCO-CYTOSOL] -c1394,CPD0-1423[CCO-CYTOSOL] -c1392,CPD0-1422[CCO-CYTOSOL] -c2207,4-HYDROXY-BUTYRATE[CCO-CYTOSOL] -c2054,23S-rRNA-2-methyladenine2503[CCO-CYTOSOL] -c2067,POLYMER-INST-3-KETOACYL-COA-C18-H36[CCO-CYTOSOL] -c459,FRUCTOSELYSINE[CCO-CYTOSOL] -c382,CPD-13397[CCO-PERI-BAC] -c358,CPD-13395[CCO-PERI-BAC] -c372,CPD-13398[CCO-PERI-BAC] -c1812,CPD-15700[CCO-CYTOSOL] -c380,CPD-13393[CCO-PERI-BAC] -c370,CPD-13394[CCO-PERI-BAC] -c1967,CPD-15709[CCO-CYTOSOL] -c966,D-METHYL-MALONYL-COA[CCO-CYTOSOL] -c620,CARBAMYUL-L-ASPARTATE[CCO-PERI-BAC] -c416,CPD-763[CCO-PERI-BAC] -c601,ASN[CCO-CYTOSOL] -c310,CPD0-1564[CCO-PERI-BAC] -c872,D-GALACTONATE[CCO-CYTOSOL] -c1064,Reduced-NrdH-Proteins[CCO-CYTOSOL] -c1453,CPD0-1032[CCO-CYTOSOL] -c2186,23S-rRNA-guanine-745[CCO-CYTOSOL] -c889,AMMONIA[CCO-PERI-BAC] -c2034,EF-P-L-lysine[CCO-CYTOSOL] -c1168,CPD-15318[CCO-CYTOSOL] -c2189,tRNA-containing-5Me-uridine54[CCO-CYTOSOL] -c1477,HYDROXYLAMINE[CCO-CYTOSOL] -c1399,CPD-15317[CCO-CYTOSOL] -c909,CPD-618[CCO-CYTOSOL] -c1923,Primary-Amines[CCO-PERI-BAC] -c294,L-IDONATE[CCO-PERI-BAC] -c62,PROTON[CCO-CYTOSOL] -c1262,Thi-S[CCO-CYTOSOL] -c1982,DIHYDROSIROHYDROCHLORIN[CCO-CYTOSOL] -c2111,CPD-66[CCO-CYTOSOL] -c702,4-hydroxybenzoate[CCO-PERI-BAC] -c1781,23S-rRNA-N3-methylpseudouridine1915[CCO-CYTOSOL] -c1814,Carboxylates[CCO-PERI-BAC] -c2226,SO3[CCO-PERI-BAC] -c425,FRUCTOSE-6P[CCO-CYTOSOL] -c1105,S-ADENOSYLMETHIONINAMINE[CCO-CYTOSOL] -c2172,L-methionyl-tRNAfmet[CCO-CYTOSOL] -c1466,Cis-vaccenoyl-ACPs[CCO-CYTOSOL] -c654,CPD-3740[CCO-CYTOSOL] -c823,DEOXYURIDINE[CCO-CYTOSOL] -c306,L-ASPARTATE[CCO-PERI-BAC] -c1774,TDP-D-FUCOSAMINE[CCO-CYTOSOL] -c926,CPD-13043[CCO-CYTOSOL] -c1484,CPD-15358[CCO-CYTOSOL] -c903,LIPOYL-AMP[CCO-CYTOSOL] -c804,INDOLE[CCO-CYTOSOL] -c2029,16S-rRNA-guanine1516[CCO-CYTOSOL] -c1324,2-PHOSPHO-4-CYTIDINE-5-DIPHOSPHO-2-C-MET[CCO-CYTOSOL] -c152,GLUTATHIONE[CCO-CYTOSOL] -c1869,Peptidoglycan-dimer[CCI-PERI-BAC-GN] -c1530,QUINOLINATE[CCO-CYTOSOL] -c1890,HYDROXY-METHYL-BUTENYL-DIP[CCO-CYTOSOL] -c63,CPD-10434[CCO-PERI-BAC] -c1685,K-HEXANOYL-COA[CCO-CYTOSOL] -c353,CPD0-2190[CCO-CYTOSOL] -c611,ETHIONINE[CCO-CYTOSOL] -c789,CYTIDINE[CCO-CYTOSOL] -c877,NITRATE[CCO-PERI-BAC] -c2159,HEXANAL[CCO-PERI-BAC] -c714,Alpha-lactose[CCO-PERI-BAC] -c197,CPD-12284[CCO-CYTOSOL] -c769,GAMMA-BUTYROBETAINE[CCO-PERI-BAC] -c2085,SUPER-OXIDE[CCO-PERI-BAC] -c1700,PYRIDOXAL_PHOSPHATE[CCO-CYTOSOL] -c213,CPD0-933[CCO-CYTOSOL] -c221,KDO2-LIPID-A[CCO-CYTOSOL] -c169,Lipopolysaccharides[CCO-CYTOSOL] -c713,CPD-12537[CCO-CYTOSOL] -c1861,23S-rRNA-uridine955-2504-2580[CCO-CYTOSOL] -c352,CPD0-2190[CCO-PERI-BAC] -c562,C55-PP-GLCNAC-MANNACA-FUC4NAC[CCO-PERI-BAC] -c2183,CPD-9956[CCO-CYTOSOL] -c2050,DIMP[CCO-PERI-BAC] -c1523,Unsulfurated-Sulfur-Acceptors[CCO-CYTOSOL] -c1400,ANTHRANILATE[CCO-CYTOSOL] -c55,GLY[CCO-PERI-BAC] -c2035,EF-P-lysyl-hydroxylysine[CCO-CYTOSOL] -c794,MANNOSE-6P[CCO-PERI-BAC] -c1617,CPD-17523[CCO-CYTOSOL] -c109,URIDINE[CCO-EXTRACELLULAR] -c1979,CPD-16400[CCO-PERI-BAC] -c37,PALMITATE[CCO-EXTRACELLULAR] -c1789,25-DIDEHYDRO-D-GLUCONATE[CCO-CYTOSOL] -c2070,CPD-16401[CCO-PERI-BAC] -c1033,Oxidized-ferredoxins[CCO-CYTOSOL] -c2005,Charged-VAL-tRNAs[CCO-CYTOSOL] -c1816,WATER[CCO-UNKNOWN-SPACE] -c542,PSICOSELYSINE[CCO-CYTOSOL] -c1718,23S-rRNA-guanine-2551[CCO-CYTOSOL] -c1157,3-Ketopimeloyl-ACP-methyl-esters[CCO-CYTOSOL] -c1196,11-DEOXYCORTICOSTERONE[CCO-CYTOSOL] -c1794,CPD-13908[CCO-CYTOSOL] -c1343,CPD-11770[CCO-CYTOSOL] -c1095,CPD-13907[CCO-CYTOSOL] -c433,L-ASCORBATE-6-PHOSPHATE[CCO-CYTOSOL] -c40,CPD-7836[CCO-PERI-BAC] -c890,AMMONIA[CCO-CYTOSOL] -c194,PHOSPHATIDYLETHANOLAMINE-KDO2[CCO-PERI-BAC] -c2044,3-METHYL-CROTONYL-COA[CCO-CYTOSOL] -c554,CPD0-882[CCO-CYTOSOL] -c1127,R-3-Hydroxypalmitoyl-ACPs[CCO-CYTOSOL] -c738,D-TYROSINE[CCO-CYTOSOL] -c1591,3-P-HYDROXYPYRUVATE[CCO-CYTOSOL] -c1997,23S-rRNA-guanine-2445[CCO-CYTOSOL] -c1089,DGDP[CCO-CYTOSOL] -c274,PROTON[CCO-OUT] -c2217,50S-Ribosomal-subunit-protein-L16-Arg[CCO-CYTOSOL] -c1373,NICOTINAMIDE_NUCLEOTIDE[CCO-CYTOSOL] -c2016,ALLOLACTOSE[CCO-CYTOSOL] -c411,DIHYDROXYACETONE[CCO-CYTOSOL] -c905,PROTEIN-LIPOYLLYSINE[CCO-CYTOSOL] -c843,CIT[CCO-CYTOSOL] -c417,CPD-763[CCO-CYTOSOL] -c1573,LIPID-IV-A[CCO-CYTOSOL] -c1532,1-KETO-2-METHYLVALERATE[CCO-CYTOSOL] -c1164,IMINOASPARTATE[CCO-CYTOSOL] -c419,D-SORBITOL-6-P[CCO-CYTOSOL] -c923,CPD-157[CCO-CYTOSOL] -c1060,5-PHOSPHO-RIBOSYL-GLYCINEAMIDE[CCO-CYTOSOL] -c1056,HYDROGEN-PEROXIDE[CCO-CYTOSOL] -c1543,GALACTOSE-1P[CCO-CYTOSOL] -c1023,CPD-7222[CCO-CYTOSOL] -c1294,D-Ribofuranose[CCO-CYTOSOL] -c1868,GLT-tRNAs[CCO-CYTOSOL] -c1190,CPD-6602[CCO-CYTOSOL] -c2075,Charged-PHE-tRNAs[CCO-CYTOSOL] -c496,KDO2-LIPID-A[CCO-EXTRACELLULAR] -c1803,CPD0-1158[CCO-CYTOSOL] -c1139,CPD0-1156[CCO-CYTOSOL] -c582,CPD-1162[CCO-CYTOSOL] -c1140,CPD0-1157[CCO-CYTOSOL] -c2199,N-Hydroxy-Arylamines[CCO-CYTOSOL] -c1561,DGMP[CCO-PERI-BAC] -c1013,Charged-THR-tRNAs[CCO-CYTOSOL] -c1782,D-GLT[CCO-CYTOSOL] -c1736,CPD0-1151[CCO-CYTOSOL] -c1213,CmaA-peptidyl-carrier-protein[CCO-CYTOSOL] -c1042,23S-rRNA-cytidine-2498[CCO-CYTOSOL] -c2080,DIAMINONONANOATE[CCO-CYTOSOL] -c1873,GlcNAc-1-6-anhydro-MurNAc-pentapeptide[CCO-PERI-BAC] -c646,CPD0-1159[CCO-CYTOSOL] -c1655,CPD-343[CCO-CYTOSOL] -c1151,PHOSPHO-CREC[CCO-CYTOSOL] -c1948,tRNA-pseudouridine13[CCO-CYTOSOL] -c685,COBINAMIDE[CCO-EXTRACELLULAR] -c1770,ETHYL-2-METHYLACETOACETATE[CCO-CYTOSOL] -c1772,CPD-568[CCO-CYTOSOL] -c981,Lipoyl-Protein-L-Lysine[CCO-CYTOSOL] -c1898,CPD-239[CCO-PERI-BAC] -c1483,ARCB-MONOMER[CCO-CYTOSOL] -c1697,HEME_D[CCO-CYTOSOL] -c427,MANNITOL-1P[CCO-CYTOSOL] -c2187,23S-rRNA-N1-methylguanine745[CCO-CYTOSOL] -c1992,CPD-1086[CCO-CYTOSOL] -c895,N-Acetyl-beta-D-Hexosaminides[CCO-CYTOSOL] -c1365,D-SEDOHEPTULOSE-1-7-P2[CCO-CYTOSOL] -c2220,PRO-tRNAs[CCO-CYTOSOL] -c965,PROPIONYL-COA[CCO-CYTOSOL] -c1305,BUTANOL[CCO-CYTOSOL] -c1257,CPD-9646[CCO-PERI-BAC] -c1642,D-ALLOSE-6-PHOSPHATE[CCO-CYTOSOL] -c720,GLUCONATE[CCO-CYTOSOL] -c1942,7-AMINOMETHYL-7-DEAZAGUANINE[CCO-CYTOSOL] -c328,XYLOSE[CCO-PERI-BAC] -c531,CPD-1093[CCO-PERI-BAC] -c1779,L-PHOSPHATIDATE[CCO-PERI-BAC] -c1540,8-AMINO-7-OXONONANOATE[CCO-CYTOSOL] -c44,CPD0-1159[CCO-PERI-BAC] -c869,D-LACTATE[CCO-PERI-BAC] -c1228,CPD-4[CCO-CYTOSOL] -c697,L-LACTATE[CCO-PERI-BAC] -c598,L-2-AMINOPENTANOIC-ACID[CCO-PERI-BAC] -c1452,2-O-Methylguanosine18[CCO-CYTOSOL] -c1130,Tetradec-2-enoyl-ACPs[CCO-CYTOSOL] -c456,HYPOTAURINE[CCO-PERI-BAC] -c1135,R-3-hydroxyhexanoyl-ACPs[CCO-CYTOSOL] -c573,CPD-69[CCO-PERI-BAC] -c123,ADENOSYL-P4[CCO-EXTRACELLULAR] -c746,BETAINE[CCO-CYTOSOL] -c104,CPD-15544[CCO-PERI-BAC] -c1711,POLYMER-INST-CIS-DELTA3-ENOYL-COA-C2-H4[CCO-CYTOSOL] -c759,CPD-334[CCO-CYTOSOL] -c1610,PHOSPHO-ENOL-PYRUVATE[CCO-PERI-BAC] -c1266,HOLO-CITRATE-LYASE[CCO-CYTOSOL] -c607,CPD-9300[CCO-CYTOSOL] -c1847,RHAMNULOSE-1P[CCO-CYTOSOL] -c745,CADAVERINE[CCO-PERI-BAC] -c366,CARNOSINE[CCO-PERI-BAC] -c1037,Palmitoleoyl-ACPs[CCO-CYTOSOL] -c157,CPD-3738[CCO-PERI-BAC] -c959,Amino-Acids-20[CCO-CYTOSOL] -c278,GLT[CCO-CYTOSOL] -c341,IMP[CCO-PERI-BAC] -c321,GMP[CCO-PERI-BAC] -c667,HMP[CCO-PERI-BAC] -c2052,TMP[CCO-PERI-BAC] -c1351,UMP[CCO-PERI-BAC] -c673,CPD-397[CCO-PERI-BAC] -c576,ADENINE[CCO-CYTOSOL] -c1919,Beta-D-Glucuronides[CCO-CYTOSOL] -c1383,PROPANE-1-2-DIOL[CCO-CYTOSOL] -c1347,AMP[CCO-PERI-BAC] -c1350,CMP[CCO-PERI-BAC] -c1116,CPD-1301[CCO-CYTOSOL] -c1583,HEXANOYL-COA[CCO-CYTOSOL] -c317,DMSO[CCO-CYTOSOL] -c1026,CPD0-2171[CCO-CYTOSOL] -c583,N-23-DIHYDROXYBENZOYL-L-SERINE[CCO-CYTOSOL] -c1621,PYRIDOXAMINE-5P[CCO-CYTOSOL] -c1378,3-hydroxy-cis-D7-tetraecenoyl-ACPs[CCO-CYTOSOL] -c1502,REDUCED-MENAQUINONE[CCO-PM-BAC-NEG] -c1103,R-3-hydroxy-cis-vaccenoyl-ACPs[CCO-CYTOSOL] -c1694,DIACETYL[CCO-CYTOSOL] -c336,CHOLATE[CCO-PERI-BAC] -c1414,2-3-DIHYDROXYBENZOATE[CCO-PERI-BAC] -c1415,2-CARBOXYMUCONATE[CCO-PERI-BAC] -c1204,Cytidine-34-tRNAIle2[CCO-CYTOSOL] -c141,GLYCEROPHOSPHOGLYCEROL[CCO-PERI-BAC] -c1119,CPD-3724[CCO-PERI-BAC] -c1246,OXALATE[CCO-CYTOSOL] -c1084,FMNH2[CCO-CYTOSOL] -c267,CPD-8989[CCO-CYTOSOL] -c494,HEPTOSYL-KDO2-LIPID-IVA[CCO-EXTRACELLULAR] -c107,CYTIDINE[CCO-EXTRACELLULAR] -c518,MN+2[CCO-PERI-BAC] -c545,URACIL[CCO-CYTOSOL] -c136,CPD0-2030[CCO-CYTOSOL] -c297,ZN+2[CCO-PERI-BAC] -c621,N-FORMYLMETHIONINE[CCO-CYTOSOL] -c941,Protein-Ser-or-Thr-phosphate[CCO-CYTOSOL] -c1422,BCCP-biotin-monomers[CCO-CYTOSOL] -c1198,Enoylpimeloyl-ACP-methyl-esters[CCO-CYTOSOL] -c1769,ETHYL-2R-METHYL-3S-HYDROXYBUTANOATE[CCO-CYTOSOL] -c1640,HEXANOYL-COA[CCO-PERI-BAC] -c1993,DIHYDROXY-BUTANONE-P[CCO-CYTOSOL] -c2017,HIS-tRNAs[CCO-CYTOSOL] -c1795,CPD-185[CCO-CYTOSOL] -c1333,DIHYDROPTERIN-CH2OH-PP[CCO-CYTOSOL] -c1747,Release-factor-L-glutamine[CCO-CYTOSOL] -c1850,DTDP-DEOH-DEOXY-MANNOSE[CCO-CYTOSOL] -c560,THZ[CCO-CYTOSOL] -c1809,CPD-3710[CCO-PERI-BAC] -c1112,CPD-67[CCO-CYTOSOL] -c135,CPD0-2030[CCO-PERI-BAC] -c1253,ADENOSYLCOBINAMIDE-P[CCO-CYTOSOL] -c537,L-CYSTATHIONINE[CCO-PERI-BAC] -c1467,Saturated-2-Lysophosphatidates[CCO-CYTOSOL] -c1296,Malonyl-acp-methyl-ester[CCO-CYTOSOL] -c1709,MI-PENTAKISPHOSPHATE[CCO-PERI-BAC] -c561,C55-PP-GLCNAC-MANNACA-FUC4NAC[CCO-CYTOSOL] -c1160,Seryl-EntF[CCO-CYTOSOL] -c1286,FUCULOSE-1P[CCO-CYTOSOL] -c645,OLEATE-CPD[CCO-CYTOSOL] -c1828,CPD-371[CCO-CYTOSOL] -c1508,Charged-MET-tRNAs[CCO-CYTOSOL] -c467,CPD-674[CCO-CYTOSOL] -c504,CO+2[CCO-PERI-BAC] -c355,CPD-10814[CCO-CYTOSOL] -c1210,PANTETHEINE-P[CCO-CYTOSOL] -c2135,Aryl-Alcohol[CCO-CYTOSOL] -c1256,D-glucopyranose-6-phosphate[CCO-PERI-BAC] -c2181,CYS-tRNAs[CCO-CYTOSOL] -c1703,Ribosomal-protein-L3-N5M-L-glutamine[CCO-CYTOSOL] -c572,4-HYDROXY-BENZYL-ALCOHOL[CCO-PERI-BAC] -c333,L-GLYCERALDEHYDE-3-PHOSPHATE[CCO-CYTOSOL] -c2098,LYS-tRNAs[CCO-CYTOSOL] -c1577,L-leucyl-protein[CCO-CYTOSOL] -c1955,CPD-13927[CCO-CYTOSOL] -c89,CPD-16020[CCO-EXTRACELLULAR] -c834,D-GALACTURONATE[CCO-CYTOSOL] -c1551,Phospholipid-Olefinic-Fatty-Acids[CCO-CYTOSOL] -c866,CPD0-1137[CCO-CYTOSOL] -c1001,T2-C4-DECADIENYL-COA[CCO-CYTOSOL] -c933,CO-A[CCO-CYTOSOL] -c1696,Heme-b[CCO-CYTOSOL] -c1886,CPD0-1133[CCO-CYTOSOL] -c397,S-ALLANTOIN[CCO-CYTOSOL] -c2048,DIHYDROXYNAPHTHOATE[CCO-CYTOSOL] -c571,4-HYDROXY-BENZYL-ALCOHOL[CCO-CYTOSOL] -c1593,CPD-316[CCO-CYTOSOL] -c428,CPD-1142[CCO-PERI-BAC] -c1865,CPD-782[CCO-CYTOSOL] -c1616,MESO-DIAMINOPIMELATE[CCO-CYTOSOL] -c2107,N6-met-threonylcarbamoyl-A37-tRNAs[CCO-CYTOSOL] -c578,THYMINE[CCO-PERI-BAC] -c1673,Beta-D-glucosides[CCO-PERI-BAC] -c1339,CPD-15590[CCO-CYTOSOL] -c1741,6-Dimethylallyladenosine37-tRNAs[CCO-CYTOSOL] -c751,Glucuronides[CCO-CYTOSOL] -c1608,CPD-389[CCO-CYTOSOL] -c1550,AICAR[CCO-CYTOSOL] -c1946,6-Acetyl-Beta-D-Galactosides[CCO-CYTOSOL] -c1138,Crotonyl-ACPs[CCO-CYTOSOL] -c436,GALACTITOL[CCO-PERI-BAC] -c335,HIS[CCO-CYTOSOL] -c798,CHOLINE[CCO-CYTOSOL] -c893,CARBON-DIOXIDE[CCO-PERI-BAC] -c1236,Red-Glutaredoxins[CCO-CYTOSOL] -c1830,CPD-665[CCO-CYTOSOL] -c1321,Cytochromes-C-Oxidized[CCO-CYTOSOL] -c2230,CPD-12773[CCO-CYTOSOL] -c322,Quaternary-Amines[CCO-PERI-BAC] -c2081,ALPHA-RIBAZOLE-5-P[CCO-CYTOSOL] -c587,CU+2[CCO-PERI-BAC] -c911,Protein-tyrosine-phosphates[CCO-CYTOSOL] -c1791,tRNA-Containing-N1-Methylguanine-37[CCO-CYTOSOL] -c126,CPD0-1137[CCO-PERI-BAC] -c28,GLYCERALD[CCO-CYTOSOL] -c1601,CPD0-2298[CCO-CYTOSOL] -c2025,ALTROSE[CCO-CYTOSOL] -c1461,CPD-3711[CCO-CYTOSOL] -c742,CPD-3729[CCO-CYTOSOL] -c773,ARSENATE[CCO-PERI-BAC] -c453,DIACETYLCHITOBIOSE-6-PHOSPHATE[CCO-CYTOSOL] -c1244,PHENYLACETATE[CCO-CYTOSOL] -c1845,tRNA-2-thiouridine34[CCO-CYTOSOL] -c10,WATER[CCO-CYTOSOL] -c569,CPD-560[CCO-CYTOSOL] -c1822,HSCN[CCO-CYTOSOL] -c1599,CPD-6972[CCO-CYTOSOL] -c1167,D-Allopyranose[CCO-CYTOSOL] -c1554,2-Aminobutyrate[CCO-CYTOSOL] -c2120,GLC-1-P[CCO-PERI-BAC] -c509,DIMETHYLBENZIMIDAZOLE[CCO-PERI-BAC] -c487,KDO-LIPID-IVA[CCO-EXTRACELLULAR] -c849,CPD-10329[CCO-CYTOSOL] -c637,CPD-3736[CCO-PERI-BAC] -c1239,5-oxyacetylU34-tRNA[CCO-CYTOSOL] -c733,Aromatic-Amino-Acids[CCO-PERI-BAC] -c852,Nucleosides[CCO-CYTOSOL] -c1820,HCN[CCO-CYTOSOL] -c1917,Fatty-Acids[CCO-PERI-BAC] -c236,SELENATE[CCO-CYTOSOL] -c766,THYMIDINE[CCO-CYTOSOL] -c698,L-LACTATE[CCO-CYTOSOL] -c1910,Persulfurated-L-cysteine-desulfurases[CCO-CYTOSOL] -c739,D-TYROSINE[CCO-PERI-BAC] -c783,ALPHA-GLUCOSE[CCO-PERI-BAC] -c1763,ACRYLYL-COA[CCO-CYTOSOL] -c2132,Phenolic-Donors[CCO-PERI-BAC] -c993,b-Keto-cis-D5-dodecenoyl-ACPs[CCO-CYTOSOL] -c1490,DUMP[CCO-CYTOSOL] -c870,D-LACTATE[CCO-CYTOSOL] -c1516,Pimeloyl-ACPs[CCO-CYTOSOL] -c392,ALLANTOIN[CCO-PERI-BAC] -c1926,FE+3[CCO-PERI-BAC] -c1900,3-HYDROXYADIPYL-COA[CCO-CYTOSOL] -c1431,MPT-Synthases[CCO-CYTOSOL] -c2102,tRNAs[CCO-CYTOSOL] -c1650,CPD-14553[CCO-CYTOSOL] -c418,SORBITOL[CCO-PERI-BAC] -c928,G3P[CCO-CYTOSOL] -c113,INOSINE[CCO-EXTRACELLULAR] -c461,D-GALACTARATE[CCO-CYTOSOL] -c203,KDO-LIPID-IVA[CCO-CYTOSOL] -c626,N-ALPHA-ACETYLORNITHINE[CCO-PERI-BAC] -c48,CPD-9247[CCO-PERI-BAC] -c153,GLYCEROL-3P[CCO-PERI-BAC] -c2083,NITRIC-OXIDE[CCO-CYTOSOL] -c1531,N2-SUCCINYLGLUTAMATE[CCO-CYTOSOL] -c1374,CPD0-2015[CCO-CYTOSOL] -c7,CPD0-1122[CCO-EXTRACELLULAR] -c5,CPD0-1123[CCO-EXTRACELLULAR] -c912,Protein-Tyrosines[CCO-CYTOSOL] -c1742,L-THREONINE-O-3-PHOSPHATE[CCO-PERI-BAC] -c4,N-ACETYLNEURAMINATE[CCO-PERI-BAC] -c1423,CMP-KDO[CCO-CYTOSOL] -c2110,7-8-DIHYDROPTEROATE[CCO-CYTOSOL] -c907,DE-O-GLUCONATE[CCO-CYTOSOL] -c480,KDO2-LIPID-IVA-COLD[CCO-EXTRACELLULAR] -c465,PYRUVATE[CCO-CYTOSOL] -c1234,OXIDIZED-GLUTATHIONE[CCO-CYTOSOL] -c1712,POLYMER-INST-CIS-DELTA3-ENOYL-COA-C4-H8[CCO-CYTOSOL] -c76,Nucleosides[CCO-PERI-BAC] -c758,CPD-334[CCO-PERI-BAC] -c430,N-ACETYL-D-MANNOSAMINE[CCO-PERI-BAC] -c2171,CPD-9569[CCO-CYTOSOL] -c1602,PHOSPHORYL-CHOLINE[CCO-PERI-BAC] -c1645,16S-rRNA-N2-methylguanine1207[CCO-CYTOSOL] -c699,CPD-10797[CCO-PERI-BAC] -c2022,CPD-15390[CCO-PERI-BAC] -c1215,CmaD-peptidyl-carrier-protein[CCO-CYTOSOL] -c988,CPD-15391[CCO-PERI-BAC] -c949,SO3[CCO-CYTOSOL] -c1223,SUC-COA[CCO-CYTOSOL] -c919,D-MANNONATE[CCO-CYTOSOL] -c1740,tRNA-Adenosines-37[CCO-CYTOSOL] -c886,OXYGEN-MOLECULE[CCO-CYTOSOL] -c610,LL-DIAMINOPIMELATE[CCO-PERI-BAC] -c1780,23S-rRNA-pseudouridine1915[CCO-CYTOSOL] -c1208,AMINO-ACETONE[CCO-PERI-BAC] -c410,DIHYDROXYACETONE[CCO-PERI-BAC] -c1587,LAUROYLCOA-CPD[CCO-CYTOSOL] -c696,CPD0-1112[CCO-CYTOSOL] -c2046,CPD0-1114[CCO-CYTOSOL] -c399,CPD0-1110[CCO-CYTOSOL] -c79,DEOXYINOSINE[CCO-EXTRACELLULAR] -c1287,UDP-AAGM-DIAMINOHEPTANEDIOATE[CCO-CYTOSOL] -c1514,Apo-EntF[CCO-CYTOSOL] -c1909,L-Cysteine-Desulfurases[CCO-CYTOSOL] -c1273,3-hydroxy-cis-D9-hexaecenoyl-ACPs[CCO-CYTOSOL] -c1049,TDP-FUC4NAC[CCO-CYTOSOL] -c1154,PHOSPHO-PHOB[CCO-CYTOSOL] -c1072,PHOSPHO-ENOL-PYRUVATE[CCO-CYTOSOL] -c77,DEOXYADENOSINE[CCO-EXTRACELLULAR] -c1520,2K-4CH3-PENTANOATE[CCO-CYTOSOL] -c208,KDO2-LIPID-IVA[CCO-PERI-BAC] -c1128,2-Hexadecenoyl-ACPs[CCO-CYTOSOL] -c1748,Release-factor-N5-Methyl-L-glutamine[CCO-CYTOSOL] -c2179,CPD-448[CCO-CYTOSOL] -c989,CPD-15392[CCO-PERI-BAC] -c987,CPD-15393[CCO-PERI-BAC] -c133,CPD-3[CCO-PERI-BAC] -c124,ADENOSYL-P4[CCO-PERI-BAC] -c398,CPD0-1110[CCO-PERI-BAC] -c1187,DIHYDROLIPOYL-GCVH[CCO-CYTOSOL] -c1575,General-Protein-Substrates[CCO-CYTOSOL] -c1985,3-ENOLPYRUVYL-SHIKIMATE-5P[CCO-CYTOSOL] -c1998,23S-RRNA-N2-METHYLGUANINE2445[CCO-CYTOSOL] -c1533,2-KETO-3-METHYL-VALERATE[CCO-CYTOSOL] -c2060,Methylated-DNA-Bases[CCO-CYTOSOL] -c1224,CPD-421[CCO-CYTOSOL] -c1141,CPD-335[CCO-CYTOSOL] -c295,L-IDONATE[CCO-CYTOSOL] -c1970,CPD-3766[CCO-CYTOSOL] -c424,BETA-D-FRUCTOSE[CCO-PERI-BAC] -c873,CPD-15189[CCO-CYTOSOL] -c2229,16S-rRNA-N7-methylguanine527[CCO-CYTOSOL] -c1951,L-RHAMNOFURANOSE[CCO-CYTOSOL] -c1110,4-HYDROXY-2-KETOVALERATE[CCO-CYTOSOL] -c1710,POLYMER-INST-CIS-DELTA3-ENOYL-COA-C0-H0[CCO-CYTOSOL] -c1441,tRNAs-with-queuine[CCO-CYTOSOL] -c1875,NAcMur-Peptide-NAcGlc-Undecaprenols[CCO-UNKNOWN-SPACE] -c1637,CPD-10267[CCO-PERI-BAC] -c899,PPI[CCO-PERI-BAC] -c1859,L-1-PHOSPHATIDYL-ETHANOLAMINE[CCO-PERI-BAC] -c522,CPD-195[CCO-CYTOSOL] -c879,LI+[CCO-PERI-BAC] -c1142,HOMO-CYS[CCO-CYTOSOL] -c815,CPD0-889[CCO-PERI-BAC] -c1420,S-ACETYLPHOSPHOPANTETHEINE[CCO-CYTOSOL] -c695,CPD0-1112[CCO-PERI-BAC] -c729,MAL[CCO-CYTOSOL] -c309,VAL[CCO-CYTOSOL] -c1620,2-Acylglycero-Phosphocholines[CCO-CYTOSOL] -c2079,S-ADENOSYL-4-METHYLTHIO-2-OXOBUTANOATE[CCO-CYTOSOL] -c1729,CPD-12365[CCO-CYTOSOL] -c145,CPD-12822[CCO-PERI-BAC] -c1538,CPD-12366[CCO-CYTOSOL] -c1939,CPD-12367[CCO-CYTOSOL] -c2160,CPD-371[CCO-PERI-BAC] -c1667,CPD-3709[CCO-PERI-BAC] -c1668,CPD-381[CCO-CYTOSOL] -c150,CPD-218[CCO-CYTOSOL] -c1094,3-Hydroxyglutaryl-ACP-methyl-ester[CCO-CYTOSOL] -c422,N-ACETYL-D-GLUCOSAMINE[CCO-PERI-BAC] -c349,CPD0-2521[CCO-CYTOSOL] -c1318,Reduced-cytochromes-c553[CCO-CYTOSOL] -c1364,MALONYL-COA[CCO-CYTOSOL] -c262,L-Methionine-sulfoxides[CCO-PERI-BAC] -c1876,GlcNAc-1-6-anhydro-MurNAc-pentapeptide[CCO-UNKNOWN-SPACE] -c1964,mRNAs-with-5-triphosphate[CCO-CYTOSOL] -c463,2-OXOBUTANOATE[CCO-CYTOSOL] -c279,MALTOTRIOSE[CCO-PERI-BAC] -c1765,tRNA-with-7-aminomethyl-7-deazaguanine[CCO-CYTOSOL] -c1424,FRUCTOSE-16-DIPHOSPHATE[CCO-PERI-BAC] -c527,GLYCERATE[CCO-PERI-BAC] -c348,CPD0-2521[CCO-PERI-BAC] -c299,SPERMIDINE[CCO-CYTOSOL] -c1152,PHOB-MONOMER[CCO-CYTOSOL] -c1958,CPD-14101[CCO-CYTOSOL] -c832,2-KETOGLUTARATE[CCO-CYTOSOL] -c953,CPD-264[CCO-CYTOSOL] -c1632,TETRADECANOYL-COA[CCO-PERI-BAC] -c393,ALLANTOIN[CCO-CYTOSOL] -c1379,CPD-8624[CCO-PERI-BAC] -c600,TYR[CCO-PERI-BAC] -c1751,CPD-9925[CCO-CYTOSOL] -c1145,Protein-With-N-Terminal-Met[CCO-CYTOSOL] -c1315,TRIMENTHLAMINE-N-O[CCO-CYTOSOL] -c338,MALTOTETRAOSE[CCO-PERI-BAC] -c1698,CPD-9451[CCO-CYTOSOL] -c253,CPD-12045[CCO-PERI-BAC] -c1960,HISTIDINAL[CCO-CYTOSOL] -c1197,CPD-16843[CCO-CYTOSOL] -c1077,2-DH-3-DO-D-ARABINONATE[CCO-CYTOSOL] -c2026,4-AMINO-4-DEOXYCHORISMATE[CCO-CYTOSOL] -c788,GLC-6-P[CCO-PERI-BAC] -c908,DE-O-K-GLUCONATE[CCO-CYTOSOL] -c1991,CPD-602[CCO-CYTOSOL] -c814,GUANOSINE[CCO-CYTOSOL] -c1155,CPD-4211[CCO-CYTOSOL] -c1109,Pyruvate-dehydrogenase-dihydrolipoate[CCO-CYTOSOL] -c36,CPD-9245[CCO-PERI-BAC] -c330,BETA-D-XYLOSE[CCO-PERI-BAC] -c1507,Elongation-tRNAMet[CCO-CYTOSOL] -c1641,HEXANOATE[CCO-PERI-BAC] -c426,MANNITOL[CCO-PERI-BAC] -c1887,Dipeptides-With-Asp-At-N-Terminal[CCO-CYTOSOL] -c1195,Cis-Delta5-dodecenoyl-ACPs[CCO-CYTOSOL] -c2218,50S-Ribo-protein-L16-Hydroxylarginine[CCO-CYTOSOL] -c1192,CIS-DELTA5-DODECENOYL-ACP[CCO-CYTOSOL] -c1513,APS[CCO-CYTOSOL] -c2210,Initiation-tRNAmet[CCO-CYTOSOL] -c476,CPD0-938[CCO-EXTRACELLULAR] -c190,KDO2-LIPID-IVA-COLD[CCO-PERI-BAC] -c444,2-O-ALPHA-MANNOSYL-D-GLYCERATE[CCO-PERI-BAC] -c725,ENOL-OXALOACETATE[CCO-CYTOSOL] -c337,CHOLATE[CCO-CYTOSOL] -c1708,MI-HEXAKISPHOSPHATE[CCO-PERI-BAC] -c1807,Ribosomal-protein-S12-Asp89[CCO-CYTOSOL] -c1031,POLYMER-INST-TRANS-D2-ENOYL-COA-C16-H32[CCO-CYTOSOL] -c956,DELTA3-ISOPENTENYL-PP[CCO-CYTOSOL] -c1115,2-DEHYDROPANTOATE[CCO-CYTOSOL] -c140,L-1-GLYCERO-PHOSPHORYLCHOLINE[CCO-CYTOSOL] -c817,5-DEHYDROGLUCONATE[CCO-PERI-BAC] -c1945,Beta-D-Galactosides[CCO-CYTOSOL] -c1944,23S-rRNA-5-methylcytosine1962[CCO-CYTOSOL] -c275,THIAMINE[CCO-PERI-BAC] -c2043,ISOVALERYL-COA[CCO-CYTOSOL] -c347,CPD-1106[CCO-CYTOSOL] -c1739,tRNAs-with-glutamylated-queuosine[CCO-CYTOSOL] -c853,DEOXYGUANOSINE[CCO-CYTOSOL] -c2036,3-DEHYDRO-SHIKIMATE[CCO-CYTOSOL] -c1804,MALTOHEXAOSE[CCO-CYTOSOL] -c250,CPD-15699[CCO-CYTOSOL] -c1078,Protein-L-glutamine[CCO-CYTOSOL] -c904,Gcv-H[CCO-CYTOSOL] -c120,XANTHOSINE[CCO-PERI-BAC] -c1073,PTS-I-Histidines[CCO-CYTOSOL] -c1625,N1-ACETYLSPERMINE[CCO-CYTOSOL] -c1045,ADENOSYL-HOMO-CYS[CCO-CYTOSOL] -c1935,DIMETHYL-D-RIBITYL-LUMAZINE[CCO-CYTOSOL] -c1252,DIHYDROXY-ACETONE-PHOSPHATE[CCO-CYTOSOL] -c302,CPD-10774[CCO-PERI-BAC] -c805,DEOXYCHOLATE[CCO-CYTOSOL] -c455,HYPOXANTHINE[CCO-PERI-BAC] -c2221,Charged-PRO-tRNAs[CCO-CYTOSOL] -c2231,5-carbo-me-ami-me-ur-34-tRNALeu[CCO-CYTOSOL] -c535,CAMP[CCO-CYTOSOL] -c1491,DAMP[CCO-CYTOSOL] -c497,CPD0-2265[CCO-EXTRACELLULAR] -c942,Protein-L-serine-or-L-threonine[CCO-CYTOSOL] -c1126,Octadec-2-enoyl-ACPs[CCO-CYTOSOL] -c1522,Sulfurated-Sulfur-Acceptors[CCO-CYTOSOL] -c475,CPD0-1283[CCO-EXTRACELLULAR] -c1211,apo-ACP[CCO-CYTOSOL] -c2003,ADP-D-GLUCOSE[CCO-CYTOSOL] -c1293,GDP-D-GLUCOSE[CCO-CYTOSOL] -c811,4-AMINO-BUTYRATE[CCO-PERI-BAC] -c1634,STEAROYL-COA[CCO-PERI-BAC] -c1382,CPD-8625[CCO-CYTOSOL] -c558,CPD-108[CCO-PERI-BAC] -c1509,PAPS[CCO-CYTOSOL] -c1920,D-Glucopyranuronate[CCO-CYTOSOL] -c1762,ENOL-PHENYLPYRUVATE[CCO-CYTOSOL] -c182,CPD0-938[CCO-PERI-BAC] -c1183,protein-L-glutamate-O4-methyl-ester[CCO-CYTOSOL] -c326,CPD-15377[CCO-PERI-BAC] -c694,RHAMNOSE[CCO-CYTOSOL] -c1793,2-OCTAPRENYL-6-METHOXYPHENOL[CCO-CYTOSOL] -c304,CPD-15629[CCO-PERI-BAC] -c1194,ACP-MONOMER[CCO-CYTOSOL] -c526,CPD-4544[CCO-CYTOSOL] -c53,CL-[CCO-PERI-BAC] -c1375,S-HYDROXYMETHYLGLUTATHIONE[CCO-CYTOSOL] -c786,ACETYLSERINE[CCO-PERI-BAC] -c1752,ALA-tRNAs[CCO-CYTOSOL] -c204,KDO-LIPID-IVA[CCO-PERI-BAC] -c666,CPD-12301[CCO-CYTOSOL] -c1248,Cis-delta-3-decenoyl-ACPs[CCO-CYTOSOL] -c132,L-ORNITHINE[CCO-CYTOSOL] -c1546,Uridine32-in-tRNA[CCO-CYTOSOL] -c69,CPD-3746[CCO-PERI-BAC] -c160,FERRIC-CITRATE-COMPLEX[CCO-CYTOSOL] -c1534,THZ-P[CCO-CYTOSOL] -c563,CPD-10247[CCO-PERI-BAC] -c58,CPD-10246[CCO-PERI-BAC] -c2089,23S-rRNA-uridine2457[CCO-CYTOSOL] -c1672,HISTIDINOL[CCO-CYTOSOL] -c1790,Guanine37-in-tRNA[CCO-CYTOSOL] -c762,N-ACETYLNEURAMINATE[CCO-CYTOSOL] -c1924,Aldehydes[CCO-PERI-BAC] -c187,CPD0-2257[CCO-CYTOSOL] -c1030,CPD0-2253[CCO-CYTOSOL] -c1618,Lipid-A[CCO-CYTOSOL] -c1122,Dihydro-Lipoyl-Proteins[CCO-CYTOSOL] -c1624,SPERMINE[CCO-CYTOSOL] -c2206,CPD0-1882[CCO-CYTOSOL] -c1818,L-1-GLYCERO-PHOSPHORYLCHOLINE[CCO-UNKNOWN-SPACE] -c1801,CPD-3707[CCO-PERI-BAC] -c946,CPD0-2501[CCO-CYTOSOL] -c744,CADAVERINE[CCO-CYTOSOL] -c1832,DIMETHYL-GLYCINE[CCO-CYTOSOL] -c871,D-GALACTONATE[CCO-PERI-BAC] -c1953,PROTEIN-L-BETA-ISOASPARTATES[CCO-CYTOSOL] -c1175,3-oxo-myristoyl-ACPs[CCO-CYTOSOL] -c1716,POLYMER-INST-CIS-DELTA3-ENOYL-COA-C14-H28[CCO-CYTOSOL] -c732,Aromatic-Amino-Acids[CCO-CYTOSOL] -c325,CARBON-MONOXIDE[CCO-CYTOSOL] -c990,CPD-3732[CCO-PERI-BAC] -c2077,Guanine34-in-tRNAs[CCO-CYTOSOL] -c927,2-PG[CCO-CYTOSOL] -c1338,Lipoyl-ACPs[CCO-CYTOSOL] -c368,CYS-GLY[CCO-PERI-BAC] -c1746,L-RIBULOSE-5-P[CCO-CYTOSOL] -c961,PYRIDOXINE-5P[CCO-CYTOSOL] -c806,DEOXYCHOLATE[CCO-PERI-BAC] -c1027,CPD0-2117[CCO-CYTOSOL] -c660,PROPIONATE[CCO-CYTOSOL] -c1332,CPD0-2113[CCO-CYTOSOL] -c544,D-GLUCARATE[CCO-CYTOSOL] -c1131,R-3-hydroxydodecanoyl-ACPs[CCO-CYTOSOL] -c1879,GlcNAc-1-6-anhydro-MurNAc-pentapeptide[CCO-CYTOSOL] -c1661,UDP-D-GALACTO-14-FURANOSE[CCO-CYTOSOL] -c1796,GLUTAMATE-1-SEMIALDEHYDE[CCO-CYTOSOL] -c2126,23S-rRNA-N7-methylguanine-2069[CCO-CYTOSOL] -c514,CA+2[CCO-PERI-BAC] -c1389,CPD-9923[CCO-CYTOSOL] -c2118,23S-rRNA-uridine1911-1915-1917[CCO-CYTOSOL] -c1977,MDO-D-Glucoses[CCO-PERI-BAC] -c2086,3-SULFINOALANINE[CCO-CYTOSOL] -c1902,THREO-DS-ISO-CITRATE[CCO-CYTOSOL] -c1284,16S-rRNA-5-O-methylcytosine1407[CCO-CYTOSOL] -c2069,CPD-16398[CCO-PERI-BAC] -c188,CPD0-2257[CCO-PERI-BAC] -c643,PALMITATE[CCO-CYTOSOL] -c1766,PROTOPORPHYRIN_IX[CCO-PERI-BAC] -c216,CPD-11653[CCO-PERI-BAC] -c98,5-METHYLAMINOMETHYL-2-SELENOURIDINE[CCO-PERI-BAC] -c1555,Deaminated-Amine-Donors[CCO-CYTOSOL] -c2042,FRUCTOSELYSINE-6-PHOSPHATE[CCO-CYTOSOL] -c1788,GLC-D-LACTONE[CCO-CYTOSOL] -c1341,UDP-N-ACETYL-D-GLUCOSAMINE[CCO-CYTOSOL] -c1638,CPD-3617[CCO-PERI-BAC] -c2095,CPD-11444[CCO-CYTOSOL] -c1421,BCCP-monomers[CCO-CYTOSOL] -c1054,D-SEDOHEPTULOSE-7-P[CCO-CYTOSOL] -c1179,3-oxo-arachidoyl-ACPs[CCO-CYTOSOL] -c474,CPD0-936[CCO-EXTRACELLULAR] -c1976,L-ALPHA-AMINO-EPSILON-KETO-PIMELATE[CCO-CYTOSOL] -c574,CPD-69[CCO-CYTOSOL] -c331,BETA-D-XYLOSE[CCO-CYTOSOL] -c159,FERRIC-CITRATE-COMPLEX[CCO-PERI-BAC] -c967,ADENOSYLCOBALAMIN[CCO-CYTOSOL] -c1704,N1-METHYLADENINE[CCO-CYTOSOL] -c1313,TRIMETHYLAMINE[CCO-CYTOSOL] -c947,N-ACETYL-D-GLUCOSAMINE-6-P[CCO-CYTOSOL] -c1393,CPD-12815[CCO-CYTOSOL] -c1391,RIBOSE-5P[CCO-CYTOSOL] -c2178,CPD-12818[CCO-CYTOSOL] -c1983,CPD-12816[CCO-CYTOSOL] -c1984,CPD-12817[CCO-CYTOSOL] -c1113,CPD-12996[CCO-CYTOSOL] -c875,D-TARTRATE[CCO-PERI-BAC] -c1282,GAMMA-GLUTAMYL-PUTRESCINE[CCO-CYTOSOL] -c1176,Palmitoyl-ACPs[CCO-CYTOSOL] -c1526,CARBOXYPHENYLAMINO-DEOXYRIBULOSE-P[CCO-CYTOSOL] -c1852,CPD-12991[CCO-CYTOSOL] -c1395,CPD-12814[CCO-CYTOSOL] -c955,FARNESYL-PP[CCO-CYTOSOL] -c211,L-ARA4N-MODIFIED-KDO2-LIPID-A[CCO-CYTOSOL] -c1834,CPD-12819[CCO-CYTOSOL] -c1303,L-GLUTAMATE-5-P[CCO-CYTOSOL] -c222,KDO2-LIPID-A[CCO-PERI-BAC] -c1813,2-Lysophosphatidylcholines[CCO-PERI-BAC] -c1048,C55-PP-GLCNAC-MANNACA[CCO-CYTOSOL] -c1733,ERYTHROSE-4P[CCO-CYTOSOL] -c704,HOMOSERINE-LACTONE[CCO-PERI-BAC] -c2162,3-HYDROXYPHENYLACETATE[CCO-PERI-BAC] -c977,Donor-H2[CCO-CYTOSOL] -c1174,Dodecanoyl-ACPs[CCO-CYTOSOL] -c2145,ALPHA-RIBAZOLE[CCO-CYTOSOL] -c290,NADPH[CCO-CYTOSOL] -c649,PYRIDOXINE[CCO-PERI-BAC] -c1968,ETF-Oxidized[CCO-CYTOSOL] -c164,GLN[CCO-CYTOSOL] -c630,CPD-404[CCO-PERI-BAC] -c273,Pi[CCO-IN] -c1831,PHENYLETHYLAMINE[CCO-PERI-BAC] -c900,PPI[CCO-CYTOSOL] -c488,CPD0-2240[CCO-EXTRACELLULAR] -c688,CPD0-2241[CCO-EXTRACELLULAR] -c1656,Oxidized-hydrogenase-3[CCO-CYTOSOL] -c1069,ACYL-ACP[CCO-CYTOSOL] -c1418,DTDP-D-GLUCOSE[CCO-CYTOSOL] -c1943,23S-rRNA-cytosine-1962[CCO-CYTOSOL] -c1564,L-HISTIDINOL-P[CCO-CYTOSOL] -c1860,DIACYLGLYCEROL[CCO-PERI-BAC] -c1633,PALMITYL-COA[CCO-PERI-BAC] -c675,D-GALACTONO-1-4-LACTONE[CCO-PERI-BAC] -c1221,Apo-EntB[CCO-CYTOSOL] -c833,D-GALACTURONATE[CCO-PERI-BAC] -c313,GALACTOSE[CCO-CYTOSOL] -c2228,16S-rRNA-guanine-527[CCO-CYTOSOL] -c1409,Sulfur-Carrier-Proteins-ThiI[CCO-CYTOSOL] -c1584,CPD-196[CCO-CYTOSOL] -c820,AG+[CCO-EXTRACELLULAR] -c1475,UDP-OHMYR-GLUCOSAMINE[CCO-CYTOSOL] -c1066,Oxidized-NrdH-Proteins[CCO-CYTOSOL] -c178,CPD0-936[CCO-PERI-BAC] -c826,CPD-15530[CCO-CYTOSOL] -c1035,TREHALOSE[CCO-CYTOSOL] -c1101,3-Oxo-octanoyl-ACPs[CCO-CYTOSOL] -c115,GUANOSINE[CCO-EXTRACELLULAR] -c1083,FMN[CCO-CYTOSOL] -c507,F-[CCO-CYTOSOL] -c1156,Glutaryl-ACP-methyl-esters[CCO-CYTOSOL] -c1486,DCMP[CCO-CYTOSOL] -c1216,PigJ[CCO-CYTOSOL] -c415,PTSH-MONOMER[CCO-CYTOSOL] -c1015,ASCORBATE[CCO-CYTOSOL] -c641,Long-Chain-Fatty-Acids[CCO-CYTOSOL] -c198,CPD-12284[CCO-PERI-BAC] -c1957,S-LACTOYL-GLUTATHIONE[CCO-CYTOSOL] -c65,CPD-3744[CCO-PERI-BAC] -c1891,FORMYL-L-METHIONYL-PEPTIDE[CCO-CYTOSOL] -c2068,CHOLANATE2[CCO-CYTOSOL] -c291,NAD[CCO-CYTOSOL] -c712,CPD-12537[CCO-PERI-BAC] -c1205,Lysidine-tRNA-Ile2[CCO-CYTOSOL] -c183,CPD0-2238[CCO-CYTOSOL] -c657,FE+2[CCO-PERI-BAC] -c2149,FAD[CCO-CYTOSOL] -c1087,CPD0-2231[CCO-CYTOSOL] -c1028,CPD0-2232[CCO-CYTOSOL] -c1225,UBIQUINONE-8[CCO-PM-BAC-NEG] -c1326,CPD0-2230[CCO-CYTOSOL] -c503,CO+2[CCO-CYTOSOL] -c1470,CPD-17063[CCO-CYTOSOL] -c219,CPD0-2239[CCO-CYTOSOL] -c2124,CPD-3705[CCO-PERI-BAC] -c678,ETHANOL-AMINE[CCO-CYTOSOL] -c2065,Cytidine-34-tRNAmet[CCO-CYTOSOL] -c897,Alcohols[CCO-CYTOSOL] -c42,OLEATE-CPD[CCO-PERI-BAC] -c1186,THF-GLU-N[CCO-CYTOSOL] -c283,SULFATE[CCO-PERI-BAC] -c1878,NAcMur-Peptide-NAcGlc-Undecaprenols[CCO-CYTOSOL] -c750,Glucuronides[CCO-PERI-BAC] -c245,L-ALA-GAMMA-D-GLU-DAP[CCO-PERI-BAC] -c586,BIOTIN[CCO-CYTOSOL] -c31,UREA[CCO-CYTOSOL] -c1107,5-METHYLTHIOADENOSINE[CCO-CYTOSOL] -c1479,DIHYDRONEOPTERIN-P3[CCO-CYTOSOL] -c270,PROTON[CCO-IN] -c1510,CH33ADO[CCO-CYTOSOL] -c1826,NIACINE[CCO-CYTOSOL] -c19,MALTOSE[CCO-EXTRACELLULAR] -c1493,DIMP[CCO-CYTOSOL] -c1279,Trans-D3-cis-D5-dodecenoyl-ACPs[CCO-CYTOSOL] -c703,HOMOSERINE-LACTONE[CCO-CYTOSOL] -c2117,NMNH[CCO-CYTOSOL] -c1912,HEXANAL[CCO-CYTOSOL] -c592,L-BETA-ASPARTYL-P[CCO-PERI-BAC] -c478,KDO2-LAUROYL-LIPID-IVA[CCO-EXTRACELLULAR] -c1199,Pimeloyl-ACP-methyl-esters[CCO-CYTOSOL] -c1592,CPD-16551[CCO-CYTOSOL] -c220,CPD0-2239[CCO-PERI-BAC] -c464,PYRUVATE[CCO-PERI-BAC] -c258,CU+[CCO-PERI-BAC] -c52,K+[CCO-CYTOSOL] -c261,MALTOSE[CCO-CYTOSOL] -c776,CPD0-1083[CCO-CYTOSOL] -c796,CPD0-1081[CCO-CYTOSOL] -c1882,CPD0-1082[CCO-CYTOSOL] -c184,CPD0-2238[CCO-PERI-BAC] -c880,LI+[CCO-CYTOSOL] -c711,CPD0-1080[CCO-CYTOSOL] -c1907,ADENYLOSUCC[CCO-CYTOSOL] -c1384,ACETOL[CCO-CYTOSOL] -c1707,SHIKIMATE-5P[CCO-CYTOSOL] -c787,CU+[CCO-EXTRACELLULAR] -c1011,CITRATE-LYASE[CCO-CYTOSOL] -c2194,23S-rRNA-uridine746[CCO-CYTOSOL] -c555,FUM[CCO-PERI-BAC] -c2004,VAL-tRNAs[CCO-CYTOSOL] -c84,DEOXYURIDINE[CCO-PERI-BAC] -c423,CPD-16168[CCO-CYTOSOL] -c629,CPD-404[CCO-CYTOSOL] -c185,KDO2-LAUROYL-LIPID-IVA[CCO-CYTOSOL] -c1016,CPD-318[CCO-CYTOSOL] -c2177,OXAMATE[CCO-CYTOSOL] -c2170,CPD-15616[CCO-CYTOSOL] -c1096,Protein-Histidines[CCO-CYTOSOL] -c1442,ALPHA-GLC-6-P[CCO-CYTOSOL] -c710,CPD0-1080[CCO-PERI-BAC] -c795,CPD0-1081[CCO-PERI-BAC] -c54,CL-[CCO-CYTOSOL] -c845,CPD-15619[CCO-CYTOSOL] -c82,DEOXYGUANOSINE[CCO-PERI-BAC] -c1185,AMINOMETHYLDIHYDROLIPOYL-GCVH[CCO-CYTOSOL] -c448,CPD-13559[CCO-PERI-BAC] -c2094,HYDROQUINONE[CCO-CYTOSOL] -c412,2-DEOXY-D-GLUCOSE[CCO-PERI-BAC] -c483,CPD0-934[CCO-EXTRACELLULAR] -c68,CPD-3745[CCO-CYTOSOL] -c913,CARBAMOYL-P[CCO-CYTOSOL] -c1829,PROPANOL[CCO-CYTOSOL] -c539,ACETYLMALTOSE[CCO-CYTOSOL] -c1947,tRNA-uridine13[CCO-CYTOSOL] -c2180,2-DEHYDRO-3-DEOXY-D-GALACTONATE[CCO-CYTOSOL] -c2166,CPD0-1082[CCO-PERI-BAC] -c2093,GLYCOL[CCO-CYTOSOL] -c850,OROTATE[CCO-PERI-BAC] -c1552,Phospholipid-Cyclopropane-Fatty-Acids[CCO-CYTOSOL] -c775,CPD0-1083[CCO-PERI-BAC] -c854,CPD-16020[CCO-CYTOSOL] -c1906,CPD-7670[CCO-PERI-BAC] -c1931,2-PROTOCATECHUOYLPHLOROGLUCINOLCARBOXYLA[CCO-CYTOSOL] -c296,ZN+2[CCO-CYTOSOL] -c681,CD+2[CCO-PERI-BAC] -c1346,L-RHAMNONATE[CCO-CYTOSOL] -c810,L-LYXOSE[CCO-CYTOSOL] -c883,ETOH[CCO-PERI-BAC] -c614,PHE[CCO-PERI-BAC] -c517,MN+2[CCO-CYTOSOL] -c1368,ACETYL-GLU[CCO-CYTOSOL] -c1562,DGMP[CCO-CYTOSOL] -c1735,CGMP[CCO-CYTOSOL] -c2196,CPD-702[CCO-CYTOSOL] -c1754,D-ALTRONATE[CCO-CYTOSOL] -c1619,HEPTA-ACYLATED-LIPID-A[CCO-CYTOSOL] -c2106,CPD-6761[CCO-CYTOSOL] -c1855,GAMMA-GLUTAMYL-GAMMA-AMINOBUTYRALDEH[CCO-CYTOSOL] -c443,CPD0-2499[CCO-CYTOSOL] -c547,CPD-8891[CCO-CYTOSOL] -c940,ALPHA-D-GALACTOSE[CCO-CYTOSOL] -c707,INOSINE[CCO-CYTOSOL] -c580,NICOTINAMIDE_RIBOSE[CCO-CYTOSOL] -c605,TRP[CCO-CYTOSOL] -c1758,tRNA-adenine-37[CCO-CYTOSOL] -c1425,FRUCTOSE-16-DIPHOSPHATE[CCO-CYTOSOL] -c246,L-ALA-GAMMA-D-GLU-DAP[CCO-CYTOSOL] -c1229,CPD-8122[CCO-CYTOSOL] -c1797,5-AMINO-LEVULINATE[CCO-CYTOSOL] -c972,ACP[CCO-CYTOSOL] -c1277,CPD-12261[CCO-PERI-BAC] -c269,ATP[CCO-IN] -c622,N-FORMYLMETHIONINE[CCO-PERI-BAC] -c1981,Charged-ASN-tRNAs[CCO-CYTOSOL] -c1345,CPD-13025[CCO-PERI-BAC] -c196,CPD0-934[CCO-PERI-BAC] -c498,KDO2-PALMITOLEOYL-LIPID-IVA[CCO-EXTRACELLULAR] -c687,FERRIC-ENTEROBACTIN-COMPLEX[CCO-EXTRACELLULAR] -c1615,PREPHENATE[CCO-CYTOSOL] -c1061,THF[CCO-CYTOSOL] -c1288,C1[CCO-CYTOSOL] -c1301,Val-tRNA1-N6-MeAdenine37[CCO-CYTOSOL] -c585,BIOTIN[CCO-PERI-BAC] -c1412,DELTA1-PIPERIDEINE-2-6-DICARBOXYLATE[CCO-CYTOSOL] -c1503,16S-rRNA-guanine-966[CCO-CYTOSOL] -c441,CPD-507[CCO-CYTOSOL] -c458,FRUCTOSELYSINE[CCO-PERI-BAC] -c779,DEOXYINOSINE[CCO-CYTOSOL] -c116,GUANOSINE[CCO-PERI-BAC] -c409,PUTRESCINE[CCO-CYTOSOL] -c280,MALTOTRIOSE[CCO-CYTOSOL] -c1646,TRP-tRNAs[CCO-CYTOSOL] -c1355,L-XYLULOSE[CCO-CYTOSOL] -c1408,Sulfurylated-ThiI[CCO-CYTOSOL] -c21,NI+2[CCO-PERI-BAC] -c1969,ETF-Reduced[CCO-CYTOSOL] -c1827,OCTANOL[CCO-CYTOSOL] -c1715,POLYMER-INST-CIS-DELTA3-ENOYL-COA-C12-H24[CCO-CYTOSOL] -c2215,ASP-tRNAs[CCO-CYTOSOL] -c760,MELIBIOSE[CCO-PERI-BAC] -c1724,D-XYLULOSE[CCO-CYTOSOL] -c101,CPD0-1322[CCO-EXTRACELLULAR] -c1563,IMIDAZOLE-ACETOL-P[CCO-CYTOSOL] -c438,GLC[CCO-PERI-BAC] -c95,CPD0-1320[CCO-EXTRACELLULAR] -c1146,Peptides-holder[CCO-CYTOSOL] -c486,CPD-17530[CCO-EXTRACELLULAR] -c91,CPD0-1321[CCO-EXTRACELLULAR] -c943,BETAINE-ALDEHYDE-HYDRATE[CCO-CYTOSOL] -c1396,ISOBUTANOL[CCO-CYTOSOL] -c2168,UNDECAPRENYL-DIPHOSPHATE[CCO-PERI-BAC] -c1722,2-O-Methyluridine32-tRNA[CCO-CYTOSOL] -c1798,3-DEOXY-D-ARABINO-HEPTULOSONATE-7-P[CCO-CYTOSOL] -c2058,2-O-Methylcytidine-32-tRNAs[CCO-CYTOSOL] -c999,GAP[CCO-CYTOSOL] -c793,CPD-3565[CCO-CYTOSOL] -c596,SER[CCO-PERI-BAC] -c1161,RIBOSE-5P[CCO-PERI-BAC] -c950,HSO3[CCO-CYTOSOL] -c1783,CPD0-1456[CCO-CYTOSOL] -c17,CHITOBIOSE[CCO-EXTRACELLULAR] -c1598,O-SUCCINYLBENZOATE[CCO-CYTOSOL] -c2190,GMP-LYSINE-PHOSPHORAMIDATE[CCO-CYTOSOL] -c1376,OROTIDINE-5-PHOSPHATE[CCO-CYTOSOL] -c1728,CPD-13853[CCO-CYTOSOL] -c1517,CPD-13851[CCO-CYTOSOL] -c1518,CPD-13852[CCO-CYTOSOL] -c1354,D-arabinopyranose[CCO-CYTOSOL] -c958,Protein-With-N-Terminal-X-Pro[CCO-CYTOSOL] -c1106,CPD0-1065[CCO-CYTOSOL] -c354,CPD-10814[CCO-PERI-BAC] -c244,CPD0-1068[CCO-CYTOSOL] -c1250,PROTOPORPHYRIN_IX[CCO-CYTOSOL] -c1730,ISOCHORISMATE[CCO-CYTOSOL] -c445,CPD0-1063[CCO-CYTOSOL] -c1085,CPD-622[CCO-CYTOSOL] -c948,GLUCOSAMINE[CCO-CYTOSOL] -c387,CPD-3569[CCO-CYTOSOL] -c1528,PHOSPHORIBOSYL-CARBOXY-AMINOIMIDAZOLE[CCO-CYTOSOL] -c1405,Protein-L-Methionine-S-Oxides[CCO-CYTOSOL] -c1844,TusE-S-sulfanylcysteine[CCO-CYTOSOL] -c2134,Aryl-Sulfate[CCO-CYTOSOL] -c951,CARBOXYETHYL-3-5-CYCLOHEXADIENE-1-2-DIOL[CCO-CYTOSOL] -c1644,16S-rRNA-guanine-1207[CCO-CYTOSOL] -c11,MG+2[CCO-PERI-BAC] -c859,CPD0-1311[CCO-CYTOSOL] -c862,CPD0-1312[CCO-CYTOSOL] -c2119,23S-rRNA-pseudouridine1911-1915-1917[CCO-CYTOSOL] -c863,CPD0-1319[CCO-CYTOSOL] -c435,CPD-13469[CCO-CYTOSOL] -c452,PTSI-MONOMER[CCO-CYTOSOL] -c1337,MALTOPENTAOSE[CCO-CYTOSOL] -c155,ILE[CCO-PERI-BAC] -c878,NITRATE[CCO-CYTOSOL] -c1719,23S-rRNA-2-O-methylguanosine2251[CCO-CYTOSOL] -c597,L-2-AMINOPENTANOIC-ACID[CCO-CYTOSOL] -c790,CPD-2482[CCO-PERI-BAC] -c499,CPD0-932[CCO-EXTRACELLULAR] -c1372,CPD-7867[CCO-CYTOSOL] -c1200,NICOTINATE_NUCLEOTIDE[CCO-CYTOSOL] -c100,CPD0-1311[CCO-PERI-BAC] -c1980,ASN-tRNAs[CCO-CYTOSOL] -c1603,R-4-PHOSPHOPANTOTHENOYL-L-CYSTEINE[CCO-CYTOSOL] -c457,HYPOTAURINE[CCO-CYTOSOL] -c432,ASCORBATE[CCO-PERI-BAC] -c992,BETA-HYDROXY-CIS-DELTA5-DODECENOYL-ACP[CCO-CYTOSOL] -c1496,CPD-15382[CCO-CYTOSOL] -c14,GLYCEROL[CCO-CYTOSOL] -c1390,RIBOSE-1P[CCO-CYTOSOL] -c2115,23S-rRNA-adenine-1618[CCO-CYTOSOL] -c1725,4-PHOSPHONOOXY-THREONINE[CCO-CYTOSOL] -c143,CPD-8260[CCO-PERI-BAC] -c243,CPD0-1068[CCO-PERI-BAC] -c1918,C5[CCO-CYTOSOL] -c1124,trans-delta2-arachidoyl-ACPs[CCO-CYTOSOL] -c836,CPD-15633[CCO-CYTOSOL] -c1232,PHOSPHORIBOSYL-ATP[CCO-CYTOSOL] -c112,CPD0-1319[CCO-PERI-BAC] -c1370,RIBOSE-15-BISPHOSPHATE[CCO-CYTOSOL] -c259,LEU[CCO-PERI-BAC] -c287,FERRIC-ENTEROBACTIN-COMPLEX[CCO-CYTOSOL] -c549,PHENYLACETALDEHYDE[CCO-PERI-BAC] -c2082,1-ETHYLADENINE[CCO-CYTOSOL] -c1851,DTDP-RHAMNOSE[CCO-CYTOSOL] -c106,CPD0-1312[CCO-PERI-BAC] -c1497,BETA-D-FRUCTOSE[CCO-CYTOSOL] -c264,CPD-8990[CCO-PERI-BAC] -c119,XANTHOSINE[CCO-EXTRACELLULAR] -c73,FORMATE[CCO-CYTOSOL] -c618,L-ALPHA-ALANINE[CCO-PERI-BAC] -c1595,CPD0-2471[CCO-CYTOSOL] -c1659,CPD0-2472[CCO-CYTOSOL] -c1727,ADP-L-GLYCERO-D-MANNO-HEPTOSE[CCO-CYTOSOL] -c177,CPD0-936[CCO-CYTOSOL] -c1556,CPD0-2474[CCO-CYTOSOL] -c996,SIROHYDROCHLORIN[CCO-CYTOSOL] -c1401,N-5-PHOSPHORIBOSYL-ANTHRANILATE[CCO-CYTOSOL] -c934,CPD0-2479[CCO-CYTOSOL] -c998,INDOLE-3-GLYCEROL-P[CCO-CYTOSOL] -c1050,TDP[CCO-CYTOSOL] -c1063,UDP[CCO-CYTOSOL] -c1582,HEXANOATE[CCO-CYTOSOL] -c1515,XDP[CCO-CYTOSOL] -c743,CPD-3729[CCO-PERI-BAC] -c1989,DIACYLGLYCEROL[CCO-CYTOSOL] -c2105,Aliphatic-Amines[CCO-PERI-BAC] -c1265,DATP[CCO-CYTOSOL] -c1091,CDP[CCO-CYTOSOL] -c1150,CPD-15244[CCO-CYTOSOL] -c60,ADP[CCO-CYTOSOL] -c1778,DIACYLGLYCEROL-PYROPHOSPHATE[CCO-PERI-BAC] -c1088,GDP[CCO-CYTOSOL] -c1086,IDP[CCO-CYTOSOL] -c848,CPD-10329[CCO-PERI-BAC] -c1235,Ox-Glutaredoxins[CCO-CYTOSOL] -c1310,RIBOFLAVIN[CCO-CYTOSOL] -c1465,CPD-3708[CCO-CYTOSOL] -c228,CPD0-932[CCO-PERI-BAC] -c741,D-TRYPTOPHAN[CCO-PERI-BAC] -c1117,METHYLENE-THF[CCO-CYTOSOL] -c1331,STEAROYL-COA[CCO-CYTOSOL] -c1055,D-ALPHABETA-D-HEPTOSE-7-PHOSPHATE[CCO-CYTOSOL] -c186,KDO2-LAUROYL-LIPID-IVA[CCO-PERI-BAC] -c2113,TETRAHYDROTHIOPHENE[CCO-PERI-BAC] -c534,PYRIDOXAL[CCO-CYTOSOL] -c662,3-HYDROXY-PROPIONATE[CCO-EXTRACELLULAR] -c1676,CPD0-2338[CCO-CYTOSOL] -c830,CPD-14488[CCO-CYTOSOL] -c469,3-PHENYLPROPIONATE[CCO-CYTOSOL] -c945,4-P-PANTOTHENATE[CCO-CYTOSOL] -c1744,CPD0-2331[CCO-CYTOSOL] -c1487,TTP[CCO-CYTOSOL] -c1495,UTP[CCO-CYTOSOL] -c1274,O-PHOSPHO-L-HOMOSERINE[CCO-CYTOSOL] -c1600,ALLANTOATE[CCO-CYTOSOL] -c130,COB-I-ALAMIN[CCO-CYTOSOL] -c148,CPD0-2330[CCO-CYTOSOL] -c1494,XTP[CCO-CYTOSOL] -c1047,3-oxo-hexanoyl-ACPs[CCO-CYTOSOL] -c2146,DI-H-URACIL[CCO-CYTOSOL] -c1986,DEHYDRO-DEOXY-GALACTONATE-PHOSPHATE[CCO-CYTOSOL] -c1165,CPD0-2339[CCO-CYTOSOL] -c616,THR[CCO-PERI-BAC] -c1038,CTP[CCO-CYTOSOL] -c57,ATP[CCO-CYTOSOL] -c1044,23S-rRNA-2-O-methylcytidine2498[CCO-CYTOSOL] -c1254,GTP[CCO-CYTOSOL] -c1439,ITP[CCO-CYTOSOL] -c807,ENTEROBACTIN[CCO-CYTOSOL] -c1325,Oxo-glutarate-dehydro-suc-DH-lipoyl[CCO-CYTOSOL] -c1684,ACETOACETYL-COA[CCO-CYTOSOL] -c756,2-DEHYDRO-3-DEOXY-D-GLUCONATE[CCO-PERI-BAC] -c505,SUC[CCO-PERI-BAC] -c1581,BUTYRYL-COA[CCO-CYTOSOL] -c653,CPD-3740[CCO-PERI-BAC] -c512,LIPOIC-ACID[CCO-CYTOSOL] -c588,CU+2[CCO-CYTOSOL] -c147,CPD0-2330[CCO-PERI-BAC] -c472,CPD0-1052[CCO-EXTRACELLULAR] -c2087,16S-rRNA-cytosine967[CCO-CYTOSOL] -c1549,D-ERYTHRO-IMIDAZOLE-GLYCEROL-P[CCO-CYTOSOL] -c2014,5-P-BETA-D-RIBOSYL-AMINE[CCO-CYTOSOL] -c761,MELIBIOSE[CCO-CYTOSOL] -c471,CPD0-1050[CCO-EXTRACELLULAR] -c473,CPD0-1051[CCO-EXTRACELLULAR] -c2031,Carboxylates[CCO-CYTOSOL] -c1316,Reduced-cytochromes-c2[CCO-CYTOSOL] -c994,b-Hydroxy-cis-D5-dodecenoyl-ACPs[CCO-CYTOSOL] -c114,INOSINE[CCO-PERI-BAC] -c1387,23DHB-EntB[CCO-CYTOSOL] -c257,CU+[CCO-CYTOSOL] -c1636,DODECANOATE[CCO-PERI-BAC] -c816,CPD0-889[CCO-CYTOSOL] -c39,CPD-7836[CCO-EXTRACELLULAR] -c1883,GLUTATHIONYLSPERMIDINE[CCO-CYTOSOL] -c1936,AMINO-RIBOSYLAMINO-1H-3H-PYR-DIONE[CCO-CYTOSOL] -c1473,CPD0-1185[CCO-CYTOSOL] -c2193,23S-rRNA-N2-methylguanine1835[CCO-CYTOSOL] -c154,GLYCEROL-3P[CCO-CYTOSOL] -c1471,CPD0-1183[CCO-CYTOSOL] -c1472,CPD0-1182[CCO-CYTOSOL] -c677,ETHANOL-AMINE[CCO-PERI-BAC] -c2024,D-altropyranoses[CCO-CYTOSOL] -c1298,METHYL-GLYOXAL[CCO-CYTOSOL] -c938,CPD-650[CCO-CYTOSOL] -c669,CPD0-1189[CCO-CYTOSOL] -c1838,N6-L-threonylcarbamoyladenine37-tRNAs[CCO-CYTOSOL] -c957,OCTAPRENYL-DIPHOSPHATE[CCO-CYTOSOL] -c556,FUM[CCO-CYTOSOL] -c1227,CPD-9956[CCO-PM-BAC-NEG] -c363,CPD-13406[CCO-CYTOSOL] -c683,FERRIC-CITRATE-COMPLEX[CCO-EXTRACELLULAR] -c613,PHE[CCO-CYTOSOL] -c27,GLYCERALD[CCO-PERI-BAC] -c772,AGMATHINE[CCO-PERI-BAC] -c110,URIDINE[CCO-PERI-BAC] -c385,CPD-13403[CCO-CYTOSOL] -c361,CPD-13401[CCO-CYTOSOL] -c375,CPD-13404[CCO-CYTOSOL] -c708,ACET[CCO-PERI-BAC] -c1169,CPD-15895[CCO-CYTOSOL] -c529,L-SELENOCYSTEINE[CCO-PERI-BAC] -c1965,mRNAs-with-5-monophosphate[CCO-CYTOSOL] -c2208,CPD-15711[CCO-CYTOSOL] -c2184,CPD0-1181[CCO-PERI-BAC] -c2233,3-P-SERINE[CCO-PERI-BAC] -c1854,3OH-4P-OH-ALPHA-KETOBUTYRATE[CCO-CYTOSOL] -c1053,P-HYDROXY-PHENYLPYRUVATE[CCO-CYTOSOL] -c1872,Peptidoglycan-dimer[CCO-PERI-BAC] -c887,Lactate[CCO-CYTOSOL] -c231,CPD0-1048[CCO-CYTOSOL] -c1449,L-1-PHOSPHATIDYL-ETHANOLAMINE[CCO-CYTOSOL] -c233,CPD0-1049[CCO-CYTOSOL] -c577,THYMINE[CCO-CYTOSOL] -c2074,PHE-tRNAs[CCO-CYTOSOL] -c1888,TRIMENTHLAMINE-N-O[CCO-PERI-BAC] -c670,CPD0-1189[CCO-PERI-BAC] -c1525,5-HYDROXY-CTP[CCO-CYTOSOL] -c1278,TRANS-DELTA3-CIS-DELTA5-DODECENOYL-ACP[CCO-CYTOSOL] -c1961,CPD0-1185[CCO-PERI-BAC] -c2185,CPD0-1182[CCO-PERI-BAC] -c1643,D-ALLULOSE-6-PHOSPHATE[CCO-CYTOSOL] -c1963,CPD0-1183[CCO-PERI-BAC] -c1962,CPD0-1184[CCO-PERI-BAC] -c881,CYTOSINE[CCO-PERI-BAC] -c1810,5-FORMYL-THF[CCO-CYTOSOL] -c263,L-Methionine-sulfoxides[CCO-CYTOSOL] -c2205,Ubiquitin-C-Terminal-Glycine[CCO-CYTOSOL] -c1371,CPD-8876[CCO-CYTOSOL] -c1434,Cis-vaccenoyl-ACPs[CCO-PERI-BAC] -c2064,PHOSPHORIBOSYL-AMP[CCO-CYTOSOL] -c2197,CPD-703[CCO-CYTOSOL] -c481,CPD0-930[CCO-EXTRACELLULAR] -c1651,UDP-ACETYL-CARBOXYVINYL-GLUCOSAMINE[CCO-CYTOSOL] -c818,5-DEHYDROGLUCONATE[CCO-CYTOSOL] -c2153,tRNA-pseudouridine65[CCO-CYTOSOL] -c167,PRO[CCO-PERI-BAC] -c1524,CPD-13059[CCO-CYTOSOL] -c2213,EF-P-lysyl-lysine[CCO-CYTOSOL] -c874,CPD-15189[CCO-PERI-BAC] -c1571,CPD-15360[CCO-CYTOSOL] -c234,CPD0-1049[CCO-PERI-BAC] -c1699,2-D-THREO-HYDROXY-3-CARBOXY-ISOCAPROATE[CCO-CYTOSOL] -c23,NITRITE[CCO-PERI-BAC] -c255,CYSTINE[CCO-PERI-BAC] -c552,cystine[CCO-PERI-BAC] -c655,C6[CCO-CYTOSOL] -c633,N5-METHYLGLUTAMINE[CCO-CYTOSOL] -c1074,PTS-I-pi-phospho-L-histidines[CCO-CYTOSOL] -c1589,POLYMER-INST-CPD66-39-C16-H32[CCO-CYTOSOL] -c388,D-ALA-D-ALA[CCO-PERI-BAC] -c232,CPD0-1048[CCO-PERI-BAC] -c13,GLYCEROL[CCO-PERI-BAC] -c1892,METHIONYL-PEPTIDE[CCO-CYTOSOL] -c1182,CPD-469[CCO-CYTOSOL] -c748,GLYCOLLATE[CCO-CYTOSOL] -c1570,CDP-2-3-4-Saturated-Diacylglycerols[CCO-CYTOSOL] -c2049,CPD-12115[CCO-CYTOSOL] -c1108,Pyruvate-dehydrogenase-acetylDHlipoyl[CCO-CYTOSOL] -c1504,16S-rRNA-N2-methylguanine966[CCO-CYTOSOL] -c628,CPD-424[CCO-PERI-BAC] -c307,L-ASPARTATE[CCO-CYTOSOL] -c1133,Beta-hydroxydecanoyl-ACPs[CCO-CYTOSOL] -c1019,OH-HEXANOYL-COA[CCO-CYTOSOL] -c1181,3-oxo-behenoyl-ACPs[CCO-CYTOSOL] -c740,D-TRYPTOPHAN[CCO-CYTOSOL] -c1647,Charged-TRP-tRNAs[CCO-CYTOSOL] -c33,Long-Chain-Fatty-Acids[CCO-EXTRACELLULAR] -c1474,GLC-1-P[CCO-CYTOSOL] -c195,CPD0-934[CCO-CYTOSOL] -c2037,3-KETO-L-GULONATE[CCO-CYTOSOL] -c781,Glucopyranose[CCO-CYTOSOL] -c565,CPD-497[CCO-PERI-BAC] -c56,GLY[CCO-CYTOSOL] -c1100,Hexanoyl-ACPs[CCO-CYTOSOL] -c1076,D-XYLONATE[CCO-CYTOSOL] -c985,Myristoyl-ACPs[CCO-CYTOSOL] -c932,AMINO-OXOBUT[CCO-CYTOSOL] -c201,CPD-17530[CCO-CYTOSOL] -c94,5-METHYLAMINOMETHYL-2-THIOURIDINE[CCO-PERI-BAC] -c2216,Charged-ASP-tRNAs[CCO-CYTOSOL] -c1695,L-PANTOATE[CCO-CYTOSOL] -c1463,CPD-3706[CCO-CYTOSOL] -c192,CPD0-930[CCO-PERI-BAC] -c541,PSICOSELYSINE[CCO-PERI-BAC] -c320,GMP[CCO-CYTOSOL] -c668,HMP[CCO-CYTOSOL] -c340,IMP[CCO-CYTOSOL] -c1207,Octanoylated-domains[CCO-CYTOSOL] -c1488,TMP[CCO-CYTOSOL] -c1071,UMP[CCO-CYTOSOL] -c757,2-DEHYDRO-3-DEOXY-D-GLUCONATE[CCO-CYTOSOL] -c925,CPD0-1699[CCO-CYTOSOL] diff --git a/reconstruction/ecoli/knowledge_base_raw.py b/reconstruction/ecoli/knowledge_base_raw.py index 1d7d76ced7..fbffd364d4 100644 --- a/reconstruction/ecoli/knowledge_base_raw.py +++ b/reconstruction/ecoli/knowledge_base_raw.py @@ -25,6 +25,7 @@ "disabled_kinetic_reactions.tsv", "dry_mass_composition.tsv", "endoRNases.tsv", + "equilibrium_reaction_rates.tsv", "equilibrium_reactions.tsv", "equilibrium_reactions_removed.tsv", "fold_changes.tsv", @@ -44,11 +45,10 @@ "ppgpp_regulation.tsv", "protein_half_lives_measured.tsv", "protein_half_lives_n_end_rule.tsv", + "protein_modification_reactions.tsv", "proteins.tsv", "relative_metabolite_concentrations.tsv", "rna_half_lives.tsv", - "rna_modification_reactions.tsv", - "rna_modification_reactions_removed.tsv", "rnas.tsv", "secretions.tsv", "sequence_motifs.tsv", @@ -56,6 +56,8 @@ "transcriptional_attenuation.tsv", "tf_one_component_bound.tsv", "translation_efficiency.tsv", + "trna_charging_reactions.tsv", + "trna_charging_reactions_removed.tsv", "two_component_systems.tsv", "two_component_system_templates.tsv", os.path.join("mass_fractions", "glycogen_fractions.tsv"), diff --git a/reconstruction/ecoli/scripts/build_complexation_reactions.py b/reconstruction/ecoli/scripts/build_complexation_reactions.py deleted file mode 100644 index f4b0443b19..0000000000 --- a/reconstruction/ecoli/scripts/build_complexation_reactions.py +++ /dev/null @@ -1,223 +0,0 @@ -from __future__ import absolute_import, division, print_function - -import os -import yaml -import json -import numpy as np - -from reconstruction.spreadsheets import read_tsv - - -METABOLITE_MASS_FILE = os.path.join("reconstruction", "ecoli", "flat", "metabolites.tsv") -MONOMER_MASS_FILE = os.path.join("reconstruction", "ecoli", "flat", "proteins.tsv") -RNA_MASS_FILE = os.path.join("reconstruction", "ecoli", "flat", "rnas.tsv") -WATER_MASS_FILE = os.path.join("reconstruction", "ecoli", "flat", "water.tsv") -EXISTING_PROTEIN_COMPLEX_FILE = os.path.join("reconstruction", "ecoli", "flat", "protein_complexes.tsv") -NEW_PROTEIN_COMPLEX_FILE = os.path.join("reconstruction", "ecoli", "flat", "proteinComplexes_new.tsv") -NEW_COMPLEXATION_REACTION_FILE = os.path.join("reconstruction", "ecoli", "flat", "complexationReactions_new.tsv") -NEW_EQUILIBRIUM_REACTION_FILE = os.path.join("reconstruction", "ecoli", "flat", "equilibriumReactions_new.tsv") -EXISTING_EQUILIBRIUM_REACTION_FILE = os.path.join("reconstruction", "ecoli", "flat", "equilibrium_reactions.tsv") - -ECOCYC_DUMP = os.path.join("reconstruction", "ecoli", "flat", "eco_wc_test_fun.json") - -DEFAULT_EQUILIBRIUM_BINDING_RATES = (1, 1e-06) - -REACTION_ID_BLACKLIST = [ - "CPLX0-3964", # Full ribosome--this gets formed in the simulation - "RNAP32-CPLX", # Full RNA Polymerase--simulation only uses apo form - "RNAP54-CPLX", # Full RNA Polymerase--simulation only uses apo form - "RNAP70-CPLX", # Full RNA Polymerase--simulation only uses apo form - "RNAPE-CPLX", # Full RNA Polymerase--simulation only uses apo form - "RNAPS-CPLX", # Full RNA Polymerase--simulation only uses apo form - "CPLX0-221", # Full RNA Polymerase--simulation only uses apo form - "CPLX0-222", # Full RNA Polymerase--simulation only uses apo form -] - -def getMetaboliteMasses(): - data = read_tsv(METABOLITE_MASS_FILE) - D = dict([(x["id"], np.array([0, 0, 0, 0, 0, 0, 0, x["mw"], 0, 0, 0])) for x in data]) - data = read_tsv(WATER_MASS_FILE) - E = dict([(x["id"], np.array([0, 0, 0, 0, 0, 0, 0, 0, x["mw"], 0, 0])) for x in data]) - return dict(D, **E) - -def getMonomerMasses(): - data = read_tsv(MONOMER_MASS_FILE) - D = dict([(x["id"], np.array(x["mw"])) for x in data]) - return D - -def getRnaMasses(): - data = read_tsv(RNA_MASS_FILE) - D = dict([(x["id"], np.array(x["mw"])) for x in data]) - return D - -def getNames(): - data = read_tsv(EXISTING_PROTEIN_COMPLEX_FILE) - D = dict([(x["id"], x["name"]) for x in data]) - return D - -def getEquilibriumBindingRates(): - data = read_tsv(EXISTING_EQUILIBRIUM_REACTION_FILE) - D = dict((x["id"], (x["forward rate"], x["reverse rate"])) for x in data) - return D - -def getLocations(reactionData): - D = {} - for reaction in reactionData: - complexId = reaction["id"] - for element in reaction["elements"]: - if element["molecule"] == complexId: - loc = element["location"] - if loc == "x" or loc == "z": - loc = "c" - D[complexId] = loc - return D - -def getMonomerLocationsFromOurData(): - data = read_tsv(MONOMER_MASS_FILE) - D = dict([(x["id"], x["location"][0]) for x in data]) - return D - -def removeBlaclistedReactions(reactionData): - reactionDataFiltered = [] - for reaction in reactionData: - if reaction["id"] in REACTION_ID_BLACKLIST: - continue - reactionDataFiltered.append(reaction) - return reactionDataFiltered - -def getMasses(idMass, reactionData): - def skipReaction(reaction): - if len(reaction["elements"]) == 1: - return True, "Reaction not balanced" - for element in reaction["elements"]: - if element["type"] == "proteincomplex" and element["coeff"] == 1: - continue - if element["molecule"] not in idMass: - return True, "Reaction contains molecule that doesn't have its mass specified" - if element["coeff"] > 0 and element["molecule"] != reaction["id"]: - return True, "Reaction has more than one product" - return False, "" - - nNotFoundPrev = np.inf - nNotFoundDiff = np.inf - while nNotFoundDiff > 0: - nNotFound = 0 - missingIds = [] - for reaction in reactionData: - complexId = reaction["id"] - skip, reason = skipReaction(reaction) - if skip: - nNotFound += 1 - missingIds.append(complexId + ": " + reason) - continue - - mass = np.zeros(11) - for element in reaction["elements"]: - if element["molecule"] == complexId: - continue - mass += ((-1. * element["coeff"]) * idMass[element["molecule"]]) - idMass[complexId] = mass - nNotFoundDiff = nNotFoundPrev - nNotFound - nNotFoundPrev = nNotFound - -def getComplexationAndEquilibriumReactions(idMass, reactionData): - def skipReaction(reaction): - if len(reaction["elements"]) == 1: - return True, "Reaction not balanced" - for element in reaction["elements"]: - if element["molecule"] not in idMass: - return True, "Reaction contains molecule that doesn't have its mass specified" - return False, "" - def isEquilibriumReaction(reaction): - for element in reaction["elements"]: - if element["type"] == "metabolite": - return True - return False - def fixCompartments(reaction, ourLocations): - - L = [] - for element in reaction["elements"]: - D = dict(element) - loc = D["location"] - if loc == "x" or loc == "z": - D["location"] = "c" - if element["type"] == "proteinmonomer": - D["location"] = ourLocations[element["molecule"]] - L.append(D) - return L - - complexationReactions = {} - equilibriumReactions = {} - for reaction in reactionData: - complexId = reaction["id"] - skip, reason = skipReaction(reaction) - if skip: - continue - if isEquilibriumReaction(reaction): - equilibriumReactions[complexId + "_RXN"] = fixCompartments(reaction, ourLocations) - else: - complexationReactions[complexId + "_RXN"] = fixCompartments(reaction, ourLocations) - - return complexationReactions, equilibriumReactions - - -idName = getNames() -idMass = {} -metaboliteMass = getMetaboliteMasses() -idMass.update(metaboliteMass) -monomerMass = getMonomerMasses() -idMass.update(monomerMass) -rnaMass = getRnaMasses() -idMass.update(rnaMass) -ourLocations = getMonomerLocationsFromOurData() - -jsonData = yaml.safe_load(open(ECOCYC_DUMP, "r")) -reactionDataFiltered = removeBlaclistedReactions(jsonData["complexations"]) -idLocation = getLocations(reactionDataFiltered) -getMasses(idMass, reactionDataFiltered) - -complexationReactions, equilibriumReactions = getComplexationAndEquilibriumReactions( - idMass, - reactionDataFiltered - ) -equilibriumBindingRates = getEquilibriumBindingRates() - -idList = sorted([x for x in idLocation if x in idMass]) - -h = open(NEW_PROTEIN_COMPLEX_FILE, "w") -h.write('"name"\t"comments"\t"mw"\t"location"\t"reactionId"\t"id"\n') - -for complexId in idList: - h.write('%s\t""\t%s\t["%s"]\t"%s_RXN"\t"%s"\n' % ( - json.dumps(idName[complexId]) if complexId in idName else '""', - json.dumps(idMass[complexId].tolist()), - idLocation[complexId], - complexId, - complexId, - ) - ) -h.close() - -h = open(NEW_COMPLEXATION_REACTION_FILE, "w") -h.write('"process"\t"stoichiometry"\t"id"\t"dir"\n') - -for complexReactionId in sorted(complexationReactions): - h.write('"complexation"\t%s\t"%s"\t1\n' % ( - json.dumps(complexationReactions[complexReactionId]), - complexReactionId, - ) - ) -h.close() - -h = open(NEW_EQUILIBRIUM_REACTION_FILE, "w") -h.write('"process"\t"stoichiometry"\t"id"\t"dir"\t"forward rate"\t"reverse rate"\n') - -for equilibriumReactionId in sorted(equilibriumReactions): - h.write('"equilibrium"\t%s\t"%s"\t1\t%g\t%g\n' % ( - json.dumps(equilibriumReactions[equilibriumReactionId]), - equilibriumReactionId, - equilibriumBindingRates.get(equilibriumReactionId, DEFAULT_EQUILIBRIUM_BINDING_RATES)[0], - equilibriumBindingRates.get(equilibriumReactionId, DEFAULT_EQUILIBRIUM_BINDING_RATES)[1] - ) - ) -h.close() diff --git a/reconstruction/ecoli/scripts/ecocyc_met_to_flat.py b/reconstruction/ecoli/scripts/ecocyc_met_to_flat.py deleted file mode 100644 index b88f95eed5..0000000000 --- a/reconstruction/ecoli/scripts/ecocyc_met_to_flat.py +++ /dev/null @@ -1,302 +0,0 @@ - -from __future__ import absolute_import, division, print_function - -from collections import defaultdict -import os -import re -from typing import Any, Dict, List - -import numpy as np -import six -from six.moves import zip - -from reconstruction.spreadsheets import read_tsv, tsv_writer - - -_DIR = os.path.join("reconstruction", "ecoli", "flat", "metabolism") -_FBA_FILE = os.path.join(_DIR, "ecocyc_full_biomass.fba") # biomass stoich, nutrients, secretions -_LP_FILE = os.path.join(_DIR, "ecocyc_full_biomass.lp") # reaction stoich, constraints, objective -_LPLOG_FILE = os.path.join(_DIR, "ecocyc_full_biomass.lplog") # rxn/compound mapping - -_COMPARTMENT_CHAR = { - "CCO-CYTOSOL":"c", - "CCO-PM-BAC-NEG":"i", # inner membrance - "CCO-PERI-BAC":"p", - "CCO-EXTRACELLULAR":"e", - # TODO: resolve these w/ compartments.tsv - "CCO-OUT":"0", # not in CCO, related to N/GAM? - "CCO-IN":"1", # not in CCO, related to N/GAM? - "CCO-UNKNOWN-SPACE":"2", # not in CCO, related to cell envelope - "CCI-PERI-BAC-GN":"3", # not in CCO, related to cell envelope - } - -def reduce_compartment(molecule_id): - begin_compartment = molecule_id.find("[") - compartment = molecule_id[begin_compartment+1:-1] - return "{}[{}]".format( - molecule_id[:begin_compartment], - _COMPARTMENT_CHAR[compartment] - ) - -# Load reaction/compound ID mapping - -reaction_id_to_name = {} -reversible_reactions = set() -exchange_reactions = set() - -compound_id_to_name = {} - -for line in open(_LPLOG_FILE): - try: - lp_id, name = line.strip("\n").split(",") - - except ValueError: - continue - - if lp_id.startswith("r"): - reaction_id_to_name[lp_id] = name - - if lp_id.endswith("a") or lp_id.endswith("b"): - reversible_reactions.add(name) - - if lp_id.endswith("_e"): - exchange_reactions.add(name) - - elif lp_id.startswith("c"): - compound_id_to_name[lp_id] = reduce_compartment(name) - - else: - raise Exception("Unparsable line:\n{}".format(line)) - -# Load reaction stoich - -started_constraints = False -compound_id = None - -reaction_stoich = defaultdict(dict) # type: Dict[str, Dict[str, int]] - -for line in open(_LP_FILE): - if not started_constraints: - if line == "Subject To\n": - started_constraints = True - - else: - continue - - if compound_id is None: - match = re.match("c[0-9]+", line) - - if match is not None: - compound_id = match.group() - - else: - stoich_raw = re.findall("([+-][0-9.]*) (r[0-9]+[ab_e]*)", line) - - if not stoich_raw: - continue - - for stoich_str, reaction_id in stoich_raw: - stoich = 1.0 if (stoich_str == "+") else float(stoich_str) - - if int(stoich) != stoich: - raise Exception("non-float reaction stoich: {} {} ({})".format( - stoich, - compound_id, - reaction_id - )) - - stoich = int(stoich) - - reaction_dict = reaction_stoich[reaction_id] - - if compound_id in reaction_dict: - assert reaction_dict[compound_id] == stoich, ( - "{}[{}]: {} != {}".format( - reaction_id, compound_id, reaction_dict[compound_id], stoich)) - - else: - reaction_dict[compound_id] = stoich - - if re.findall("= 0", line): - compound_id = None - - -# Transform stoich from LP IDs to Ecocyc IDs - -reaction_stoich = { - reaction_id_to_name[reaction_id]: { - compound_id_to_name[compound_id]:coeff - for compound_id, coeff in six.viewitems(stoich) - } - for reaction_id, stoich in six.viewitems(reaction_stoich) - if len(stoich) > 1 - } - -# Write a table of true reactions: -# reaction name, stoich, is_reversible - -filename = os.path.join("reconstruction", "ecoli", "flat", "metabolic_reactions.tsv") -with tsv_writer(filename, ["reaction id", "stoichiometry", "is reversible"]) as writer: - for reaction_id, stoich in six.viewitems(reaction_stoich): - writer.writerow({ - "reaction id":reaction_id, - "stoichiometry":stoich, - "is reversible":(reaction_id in reversible_reactions) - }) - -# Parse the .fba file - -current_group = None - -data = {} # type: Dict[str, List[Any]] - -with open(_FBA_FILE) as fba_file: - for line in fba_file: - split = line.split() - - if len(split) == 0: - continue - - if line.startswith("#"): - pass - - elif line.startswith(":group"): - assert current_group is None - assert len(split) == 2 - - current_group = split[-1] - - elif line.startswith(":end-group"): - current_group = None - - elif line[0].isalpha(): - if split[0].endswith(":"): # section heading - current_section = split[0][:-1] - - assert current_section not in data - - data[current_section] = [] - - if len(split) > 1: - data[current_section].append(" ".join(split[1:])) - - elif current_section in {"reactions", "remove-reactions"}: - data[current_section].append(split[0]) - - elif current_section == "biomass": # biomass component - data[current_section].append({ - "group id": current_group if current_group is not None else "", - "molecule id": reduce_compartment(split[0]), - "coefficient": float(split[1]) - }) - - elif current_section in {"nutrients", "secretions"}: - try: - lb_at = split.index(":lower-bound") - - except ValueError: - lower_bound = None - - else: - lower_bound = float(split[lb_at+1]) - - try: - ub_at = split.index(":upper-bound") - - except ValueError: - upper_bound = None - - else: - upper_bound = float(split[ub_at+1]) - - data[current_section].append({ - "molecule id":reduce_compartment(split[0]), - "lower bound":lower_bound, - "upper bound":upper_bound - }) - - else: - print("could not parse line:", line.strip()) - -# Write a table of biomass components: -# group name, metabolite name, coeff - -filename = os.path.join("reconstruction", "ecoli", "flat", "biomass.tsv") -with tsv_writer(filename, ["group id", "molecule id", "coefficient"]) as writer: - writer.writerows(data["biomass"]) - -# Writer the tables for the mass fractions: -# metabolite name, mass fraction - -# TODO: decide where this code really belongs - -_MASS_CATEGORIES = { - "LPS":"LPS", - "glycogen":"glycogen", - "ion":"metal-ions", - "lipid":"lipids", - "murein":"murein", - "soluble":"cofactors" - } - -_MASS_MISC = { - "glycogen":{"ADP-GLUCOSE[c]"}, - "soluble":{"PYRIDOXAL_PHOSPHATE[c]", "CPD-9956[c]"} - } - -_DEBUG_NO_MASS = { - "ADP-GLUCOSE[c]", # should this be ADP-D-GLUCOSE? need to talk to Dan - "CPD-17063[c]" # relatively new, not in the current Pathway Tools distro? - } - -masses = {} - -biomassCoeffs = { - entry["molecule id"]:entry["coefficient"] - for entry in data["biomass"] - } - -biomassIDs = {mid[:-3] for mid in biomassCoeffs} - -filename = os.path.join("reconstruction", "ecoli", "flat", "metabolites.tsv") -rows = read_tsv(filename) -for entry in rows: - if entry["id"] in biomassIDs: - for c in entry["location"]: - masses[entry["id"] + "[{}]".format(c)] = entry["mw"] - -for outName, groupName in six.viewitems(_MASS_CATEGORIES): - moleculeIDs = { - entry["molecule id"] - for entry in data["biomass"] - if entry["group id"] == groupName - } - - if outName in _MASS_MISC: - moleculeIDs |= _MASS_MISC[outName] - - moleculeIDs -= _DEBUG_NO_MASS - - massVec = np.array([masses[mid] for mid in moleculeIDs]) - compositionVec = np.array([biomassCoeffs[mid] for mid in moleculeIDs]) - - fractions = massVec * compositionVec / np.dot(massVec, compositionVec) - - out = [ - {"metaboliteId":mid, "massFraction":frac} - for mid, frac in zip(moleculeIDs, fractions) - ] - - filename = os.path.join( - "reconstruction", "ecoli", "flat", "mass_fractions", outName + "Fractions.tsv") - with tsv_writer(filename, ["metaboliteId", "massFraction"]) as writer: - writer.writerows(out) - - -# Write a table of exchanges and constraints: -# metabolite name, is_ngam, lb, ub -for section_name in ("nutrients", "secretions"): - filename = os.path.join( - "reconstruction", "ecoli", "flat", section_name + ".tsv") - with tsv_writer(filename, ["molecule id", "lower bound", "upper bound"]) as writer: - writer.writerows(data[section_name]) diff --git a/reconstruction/ecoli/scripts/get_charged_masses.py b/reconstruction/ecoli/scripts/get_charged_masses.py deleted file mode 100644 index d708420cc8..0000000000 --- a/reconstruction/ecoli/scripts/get_charged_masses.py +++ /dev/null @@ -1,77 +0,0 @@ -''' -Print id, mw, location for charged tRNAs to add to modified_proteins.tsv -Output file is charged_data.tsv in the same directory as the script - -Notes: -- Masses of small molecules are added to the tRNA mass so that the charging -reactions are mass balanced -''' - -from __future__ import absolute_import, division, print_function - -import os -from typing import Any - -import numpy as np -from six.moves import zip - -from reconstruction.ecoli.knowledge_base_raw import KnowledgeBaseEcoli -from reconstruction.ecoli.simulation_data import SimulationDataEcoli -from reconstruction.spreadsheets import tsv_writer - -# file paths -file_loc = os.path.dirname(__file__) -output_filename = os.path.join(file_loc, 'charged_data.tsv') - -# suppress scientific notation output -np.set_printoptions(suppress = True) - -# get raw and sim data -raw_data = KnowledgeBaseEcoli() # type: Any -sim_data = SimulationDataEcoli() -sim_data.initialize(raw_data) - -# determine masses and write to output file -with tsv_writer(output_filename, ["id", "mw", "location"]) as writer: - trnas = sim_data.process.transcription.rna_data['id'][sim_data.process.transcription.rna_data['is_tRNA']] - charged = [x['modified_forms'] for x in raw_data.rnas if x['id']+'[c]' in trnas] - filtered_charged = [] - for c1 in charged: - for c2 in c1: - if 'FMET' in c2 or 'modified' in c2: - continue - filtered_charged += [c2 + '[c]'] - - mol_names = sim_data.internal_state.bulk_molecules.bulk_data['id'] - mws = sim_data.internal_state.bulk_molecules.bulk_data['mass'] - for rxn in raw_data.modification_reactions: - reactants = [] - products = [] - for mol in rxn['stoichiometry']: - if mol['coeff'] == -1: - reactants += ['%s[%s]' % (mol['molecule'], mol['location'])] - else: - products += ['%s[%s]' % (mol['molecule'], mol['location'])] - - for trna, ctrna in zip(trnas, filtered_charged): - if trna in reactants and ctrna in products: - mass = 0 - for reactant in reactants: - if reactant in mol_names: - mass += mws[np.where(mol_names == reactant)[0][0]].asNumber() - else: - print('could not get mass for %s' % (reactant,)) - for product in products: - if product == ctrna: - continue - - if product in mol_names: - mass -= mws[np.where(mol_names == product)[0][0]].asNumber() - else: - print('could not get mass for %s' % (product,)) - - writer.writerow({ - 'id': ctrna[:-3], - 'mw': mass, - 'location': [ctrna[-2]], - }) diff --git a/reconstruction/ecoli/scripts/importEquilKd.py b/reconstruction/ecoli/scripts/importEquilKd.py deleted file mode 100644 index 73e4f8765a..0000000000 --- a/reconstruction/ecoli/scripts/importEquilKd.py +++ /dev/null @@ -1,56 +0,0 @@ -#!/usr/bin/env python - -# Generates a tsv output file to replace equilibrium_reactions.tsv with updated Kd values -# Requires 2 files: validation/ecoli/flat/conformationTF.tsv and reconstruction/ecoli/flat/equilibrium_reactions.tsv -# Outputs TFoutput.tsv to directory that script is run from -# Need to replace ' with " in file after script runs - -from __future__ import absolute_import, division, print_function - -import csv -import io -import os -from typing import Any, Dict - -import numpy as np -import matplotlib -matplotlib.use("Agg") - -from wholecell.io import tsv - - -DATA_FILE = os.path.join("validation","ecoli","flat","conformationTF.tsv") -REACTION_FILE = os.path.join("reconstruction","ecoli","flat","equilibrium_reactions.tsv") -OUTPUT_FILE = "TFoutput.tsv" - -reactionDict = {} -with io.open(DATA_FILE, "rb") as csvfile: - reader = tsv.dict_reader(csvfile) - for row in reader: # type: Dict[str, Any] - if row[" (uM)"] != '' and row[" (uM)"] != '?': - for reaction in row["EcoCyc ID reaction (metabolite vs. TF)"].split(", "): - reactionDict[reaction] = float(row[" (uM)"]) / 10**6 - - -class QuoteDialect(csv.excel_tab): - quotechar = "'" - quoting = csv.QUOTE_NONNUMERIC - -with io.open(REACTION_FILE, "rb") as infile: - with io.open(OUTPUT_FILE, "wb") as outfile: - reader = tsv.dict_reader(infile) - fieldnames = list(reader.fieldnames or []) - fieldnames.append("original reverse rate") - writer = tsv.dict_writer(outfile, fieldnames=fieldnames, dialect=QuoteDialect) - writer.writeheader() - - for row1 in reader: # type: Dict[str, Any] - row1["dir"] = float(row1["dir"]) - row1["forward rate"] = float(row1["forward rate"]) - row1["reverse rate"] = float(row1["reverse rate"]) - row1["stoichiometry"] = np.array(row1["stoichiometry"]) - if row1["id"] in reactionDict: - row1["reverse rate"] = reactionDict[row1["id"]] - row1["original reverse rate"] = row1["reverse rate"] - - writer.writerow(row1) diff --git a/reconstruction/ecoli/scripts/kb_to_flat.py b/reconstruction/ecoli/scripts/kb_to_flat.py deleted file mode 100755 index d2b3dab49a..0000000000 --- a/reconstruction/ecoli/scripts/kb_to_flat.py +++ /dev/null @@ -1,67 +0,0 @@ -from __future__ import absolute_import, division, print_function - -import os -import re -import csv -import sys - -from reconstruction.ecoli.knowledge_base_raw import KnowledgeBaseEcoli -from reconstruction.spreadsheets import tsv_writer - -OUTPUT_DIR = sys.argv[1] -REPORT_FILENAME = os.path.join(OUTPUT_DIR, "generated_file_report.txt") -DIALECT = csv.excel_tab - -kb = KnowledgeBaseEcoli() - -report_file = sys.stdout #open(REPORT_FILENAME, "w") - -candidates = [] - -for attr_name in dir(kb): - - action = None - - attr = getattr(kb, attr_name) - - if re.match("^_[a-zA-Z]\w+", attr_name) is None: - action = "ignored because of pattern: " - - elif callable(attr): - action = "ignored because callable: " - - elif not isinstance(attr, list): - action = "ignored because not a list: " - - elif not isinstance(attr[0], dict): - action = "ignored because values are not dicts: " - - else: - action = "added as candidate: " - candidates.append(attr_name) - - report_file.write( - action + attr_name + "\n" - ) - -for attr_name in candidates: - try: - attr = getattr(kb, attr_name) - - fieldnames = list(attr[0].keys()) - - filename = os.path.join(OUTPUT_DIR, attr_name.lstrip("_")) + ".tsv" - with tsv_writer(filename, fieldnames) as writer: - writer.writerows(attr) - - except Exception as e: - # report_file.write("failed to write {} with exception {}\n".format( - # attr_name, - # e.args[0] - # )) - raise - - else: - report_file.write("wrote {} to file\n".format(attr_name)) - -report_file.close() diff --git a/reconstruction/ecoli/scripts/load_save_tsv.py b/reconstruction/ecoli/scripts/load_save_tsv.py deleted file mode 100644 index 195694d036..0000000000 --- a/reconstruction/ecoli/scripts/load_save_tsv.py +++ /dev/null @@ -1,12 +0,0 @@ -from __future__ import absolute_import, division, print_function - -from reconstruction.spreadsheets import read_tsv, tsv_writer - - -def load_tsv(file_name): - return read_tsv(file_name) - -def write_tsv(list_of_dicts, file_name): - fieldnames = list(list_of_dicts[0].keys()) - with tsv_writer(file_name, fieldnames) as writer: - writer.writerows(list_of_dicts) diff --git a/reconstruction/ecoli/scripts/massfrac_flat.py b/reconstruction/ecoli/scripts/massfrac_flat.py deleted file mode 100644 index 28b765a874..0000000000 --- a/reconstruction/ecoli/scripts/massfrac_flat.py +++ /dev/null @@ -1,47 +0,0 @@ -from __future__ import absolute_import, division, print_function - -import os -import csv -import sys - -import six - -from reconstruction.ecoli.knowledge_base_raw import KnowledgeBaseEcoli -from reconstruction.spreadsheets import tsv_writer - -OUTPUT_DIR = sys.argv[1] - -DIALECT = csv.excel_tab - -kb = KnowledgeBaseEcoli() - -drymass = getattr(kb, '_cellDryMassCompositionData') - -fraction_names = { - "Glycogen":"glycogen", - "InorganicIon":"ion", - "LPS":"LPS", - "Lipid":"lipid", - "Murein":"murein", - "SolublePool":"soluble" - } - -keys = drymass.dtype.names -filename = os.path.join(OUTPUT_DIR, "dry_mass_composition.tsv") -with tsv_writer(filename, keys) as writer: - for entry in drymass: - writer.writerow({ - key:entry[key] for key in keys - }) - -for kb_name, file_prefix in six.viewitems(fraction_names): - array = getattr(kb, "_cell{}FractionData".format(kb_name)) - keys = array.dtype.names - - filename = os.path.join( - OUTPUT_DIR, "mass_fractions", "{}Fractions.tsv".format(file_prefix)) - with tsv_writer(filename, keys) as writer: - for entry in array: - writer.writerow({ - key:entry[key] for key in keys - }) diff --git a/reconstruction/ecoli/scripts/metabolism_kinetics/kinetics.tsv b/reconstruction/ecoli/scripts/metabolism_kinetics/kinetics.tsv index 424dfdd8c5..870c16239b 100644 --- a/reconstruction/ecoli/scripts/metabolism_kinetics/kinetics.tsv +++ b/reconstruction/ecoli/scripts/metabolism_kinetics/kinetics.tsv @@ -121,7 +121,7 @@ Pubmed ID reactionID enzymeID substrateIDs Temp rateEquationType direction kcat 7775463 "GSPSYN-RXN" ["GSP-CPLX"] ["SPERMIDINE"] 37 "standard" [7] [60] [] null null null null null done! 7775463 "GSPAMID-RXN" ["GSP-CPLX"] ["GLUTATHIONYLSPERMIDINE"] 37 "standard" [2.1] [900] [] null null null null null done! 7827038 "INORGPYROPHOSPHAT-RXN" ["CPLX0-243"] ["PPI"] 25 "standard" [187] [3.4] [] null null null null null done! -7827038 "INORGPYROPHOSPHAT-RXN" ["CPLX0-243"] ["PI"] 25 "standard" [114] [] [] null null null null null done! +7827038 "INORGPYROPHOSPHAT-RXN" ["CPLX0-243"] ["Pi"] 25 "standard" [114] [] [] null null null null null done! 7829480 "RXN0-4401" ["CPLX0-7974"] ["NADH"] "standard" [3.8] [110] [] null null null null null ecocyc new done! 7837264 "3.4.21.89-RXN" ["EG10530-MONOMER"] ["Peptides-with-Leader-Sequence"] "standard" [8.73] [16.5] [] null null null null null ecocyc kinetics They say their number is higher than others because they were using a better substrate. ['Peptides-with-Leader-Sequence'] 7860596 "PNPOXI-RXN" ["PDXH-CPLX"] ["PYRIDOXINE-5P","PYRIDOXAL_PHOSPHATE"] 37 "custom" [0.76] [2] [8] "kcat*E*S/(Km*(1+I/Ki)+S)" ["kcat","Km","Ki","E","S","I"] ["kcat","Km","Ki"] [0.76,2,8] {"E":"PDXH-CPLX","S":"PYRIDOXINE-5P","I":"PYRIDOXAL_PHOSPHATE"} done! @@ -839,7 +839,7 @@ Pubmed ID reactionID enzymeID substrateIDs Temp rateEquationType direction kcat 17059210 "METHYLTHIOADENOSINE-NUCLEOSIDASE-RXN" ["CPLX0-1541"] ["5-METHYLTHIOADENOSINE"] 25 "standard" [4.0] [0.43] [] null null null null null done! 17079236 "GLUC1PADENYLTRANS-RXN" ["GLUC1PADENYLTRANS-CPLX"] ["ATP","GLC-1-P"] 37 "standard" [370] [590,17] [] null null null null null ecocyc kinetics Km Mg2+ 2.6 mM, Fructose 1,6 bisphosphate is listed as an activator with A0.5 59.4 uM. ["GLC-1-P"] 17123542 "XYLULOKIN-RXN" ["CPLX0-7466"] ["D-XYLULOSE", "ATP"] 25 "standard" [255] [290,150] [] null null null null null should be a complex -17134700 "ACYLPHOSPHATASE-RXN" ["G6502-MONOMER"] ["Acyl-Phosphates","PI"] 25 "custom" "forward" [94] [540] [1440] "kcat*E*S/(km*(1+I/ki)+S)" ["kcat","km","ki","E","S","I"] ["kcat","km","ki"] [94,540,1440] ["Acyl-Phosphates","PI"] ecocyc new 25 deg ["Acyl-Phosphates"] +17134700 "ACYLPHOSPHATASE-RXN" ["G6502-MONOMER"] ["Acyl-Phosphates","Pi"] 25 "custom" "forward" [94] [540] [1440] "kcat*E*S/(km*(1+I/ki)+S)" ["kcat","km","ki","E","S","I"] ["kcat","km","ki"] [94,540,1440] ["Acyl-Phosphates","Pi"] ecocyc new 25 deg ["Acyl-Phosphates"] 17176045 "RXN-10856" ["CPLX0-3936"] ["CPD-11770"] 25 "standard" [0.089] [8.0] [] null null null null null a little weird because the enzyme is bifunctional, should be a complex 17176045 "H2NEOPTERINALDOL-RXN" ["CPLX0-3936"] ["DIHYDRO-NEO-PTERIN"] 25 "standard" [0.082] [7.4] [] null null null null null a little weird because the enzyme is bifunctional, should be a complex 17229734 "2-DEHYDROPANTOATE-REDUCT-RXN" ["2-DEHYDROPANTOATE-REDUCT-MONOMER"] ["2-DEHYDROPANTOATE","NADPH"] 27 "standard" [25] [30,7.3] [] null null null null null EC1 done! ['2-DEHYDROPANTOATE'] @@ -921,7 +921,7 @@ Pubmed ID reactionID enzymeID substrateIDs Temp rateEquationType direction kcat 18247525 "ACYL-COA-HYDROLASE-RXN" ["EG11121-MONOMER"] ["CPD-207"] 25 "standard" [9.4] [16] [] null null null null null 18260824 "CTPSYN-RXN" ["CTPSYN-CPLX"] ["GLN"] 37 "standard" [6.1] [350] [] null null null null null ecocyc kinetics Using NH3, which is listed but not in a reaction for Ecocyc: Km 2.2 mM, kcat 9.5/s. 18284213 "RXN-9310" ["EG12438-MONOMER"] ["CPD-9924"] 37 "standard" [167] [8.3] [] null null null null null done! -18299797 "INOPHOSPHOR-RXN" ["DEOD-CPLX"] ["INOSINE","PI"] 37 "standard" [44.93] [320,340] [] null null null null null done! +18299797 "INOPHOSPHOR-RXN" ["DEOD-CPLX"] ["INOSINE","Pi"] 37 "standard" [44.93] [320,340] [] null null null null null done! 18353368 "RXN0-3741[CCO-CYTOSOL]-TMP/WATER//THYMIDINE/Pi.37." ["G7230-MONOMER"] ["TMP"] 37 "standard" [1.19] [129.4] [] null null null null null ecocyc kinetics Co2+ kcat 1.21/s, Km 340 uM is also a substrate. ["TMP"] "RXN0-3741" 18353368 "RXN0-3741" ["G7230-MONOMER"] ["GMP"] 37 "standard" [0.69] [379.8] [] null null null null null ecocyc kinetics Co2+ kcat 1.21/s, Km 340 uM is also a substrate. "RXN0-3741" 18353368 "RXN0-3741[CCO-CYTOSOL]-DCMP/WATER//DEOXYCYTIDINE/Pi.42." ["G7230-MONOMER"] ["DCMP"] 37 "standard" [0.84] [78.5] [] null null null null null ecocyc kinetics Co2+ kcat 1.21/s, Km 340 uM is also a substrate. ["DCMP"] "RXN0-3741" @@ -996,7 +996,7 @@ Pubmed ID reactionID enzymeID substrateIDs Temp rateEquationType direction kcat 19384989 "RXN0-742" ["PURK-CPLX"] ["ATP","5-PHOSPHORIBOSYL-5-AMINOIMIDAZOLE"] 25 "standard" [5.9] [48,66] [] null null null null null ecocyc kinetics done! ["5-PHOSPHORIBOSYL-5-AMINOIMIDAZOLE"] 19384989 "GARTRANSFORMYL2-RXN" ["GARTRANSFORMYL2-MONOMER"] ["5-PHOSPHO-RIBOSYL-GLYCINEAMIDE","ATP","FORMATE"] 25 "standard" [37.6] [10.1,45,319] [] null null null null null ecocyc kinetics done! ["5-PHOSPHO-RIBOSYL-GLYCINEAMIDE"] 19384989 "RXN0-742" ["PURK-CPLX"] ["ATP","5-PHOSPHORIBOSYL-5-AMINOIMIDAZOLE"] 25 "standard" [52] [90,26] [] null null null null null ecocyc kinetics this value is cited and competes with the other from this publication. ["5-PHOSPHORIBOSYL-5-AMINOIMIDAZOLE"] -19411254 "ATPSYN-RXN" ["ATPSYN-CPLX"] ["ADP","PI"] 25 "standard" [16,20] [100,4200] [] null null null null null done! +19411254 "ATPSYN-RXN" ["ATPSYN-CPLX"] ["ADP","Pi"] 25 "standard" [16,20] [100,4200] [] null null null null null done! 19411254 "ATPSYN-RXN" ["ATPSYN-CPLX"] ["ATP"] 25 "standard" [285] [78] [] null null null null null done! 19462023 "MALONYL-COA-ACP-TRANSACYL-RXN" ["MALONYL-COA-ACP-TRANSACYL-MONOMER"] ["MALONYL-COA"] 25 "standard" [0.00047] [49] [] null null null null null ecocyc kinetics done! 19487291 "CYTDEAM-RXN" ["CPLX0-7932"] ["CYTOSINE"] "standard" [49.68] [460] [] null null null null null temp not reported, should be a complex @@ -1037,7 +1037,7 @@ Pubmed ID reactionID enzymeID substrateIDs Temp rateEquationType direction kcat 20187643 "CARBPSYN-RXN" ["CARBPSYN-CPLX"] ["ATP"] "standard" [3.6] [240] [] null null null null null ecocyc kinetics Temp not reported, these are all subreactions of the overall enzyme. Might be interesting to delve deeper for a paper. 20187643 "CARBPSYN-RXN" ["CARBPSYN-CPLX"] ["GLN"] "standard" [2.2] [150] [] null null null null null ecocyc kinetics Temp not reported, these are all subreactions of the overall enzyme. Might be interesting to delve deeper for a paper. 20187643 "CARBPSYN-RXN" ["CARBPSYN-CPLX"] ["ADP"] "standard" [0.13] [130] [] null null null null null ecocyc kinetics Temp not reported -20236319 "PHOSACETYLTRANS-RXN" ["PHOSACETYLTRANS-CPLX"] ["ACETYL-COA","PI"] 30 "custom" [] [] [] "kcat*E*Pi/(KmP + Pi)*(Ac^H)/(KmA^H +Ac^H)" ["kcat","KmP","KmA","H","E","Pi","Ac"] ["kcat","KmP","KmA","H"] [29.6,2.1,44.9,1.3] {"E":"PHOSACETYLTRANS-CPLX","Pi":"PI","Ac":"ACETYL-COA"} done! +20236319 "PHOSACETYLTRANS-RXN" ["PHOSACETYLTRANS-CPLX"] ["ACETYL-COA","Pi"] 30 "custom" [] [] [] "kcat*E*Pi/(KmP + Pi)*(Ac^H)/(KmA^H +Ac^H)" ["kcat","KmP","KmA","H","E","Pi","Ac"] ["kcat","KmP","KmA","H"] [29.6,2.1,44.9,1.3] {"E":"PHOSACETYLTRANS-CPLX","Pi":"Pi","Ac":"ACETYL-COA"} done! 20236319 "PHOSACETYLTRANS-RXN" ["PHOSACETYLTRANS-CPLX"] ["CO-A","ACETYL-P"] 30 "custom" [] [] [] "kcat*E*CoA/(KmC + CoA)*(Ac^H)/(KmA^H +Ac^H)" ["kcat","KmC","KmA","H","E","CoA","Ac"] ["kcat","KmC","KmA","H"] [227.6,67.2,900,1.7] {"E":"PHOSACETYLTRANS-CPLX","CoA":"CO-A","Ac":"ACETYL-P"} done! 20353808 "DIHYDRODIPICSYN-RXN" ["DIHYDRODIPICSYN-CPLX"] ["PYRUVATE","L-ASPARTATE-SEMIALDEHYDE"] "standard" [45] [150,120] [] null null null null null ecocyc kinetics Weird equations for the lysine inhibition here, they didn't make much sense so I left them out. Ki lysine wrt pyruvate 0.12 mM, Ki lysine wrt L-ASA 0.18 mM ["PYRUVATE"] 20364820 "MHPELY-RXN" ["MHPELY-MONOMER"] ["ACETALD"] 25 "standard" [205.4] [62900] [] null null null null null ecocyc kinetics Other substrates (with pyruvate as the carbonyl donor): glycolaldehyde (Km 33.3 mM, kcat 175.5/s), propionaldehyde (Km 32.9 mM, kcat 358.4/s), (D,L)-glyceraldehyde (Km 88.6 mM, kcat 5.6/s), butyraldehyde (Km 13.4 mM, kcat 132.5/s), isobutyraldehyde (Km 73.8 mM, kcat 64.9/s), succinic semialdehyde (Km 9.1 mM, kcat 203.8/s). With 2-ketobutanoate as the carbonyl donor, kcat 21.9/s and Km acetaldehyde 50.1 mM. ["ACETALD"] diff --git a/reconstruction/ecoli/scripts/metweights2.py b/reconstruction/ecoli/scripts/metweights2.py deleted file mode 100644 index 7cf595b1b5..0000000000 --- a/reconstruction/ecoli/scripts/metweights2.py +++ /dev/null @@ -1,85 +0,0 @@ -from __future__ import absolute_import, division, print_function - -import os -import re -from typing import Dict - -from Bio.Data.IUPACData import atom_weights -import six - -from reconstruction.spreadsheets import tsv_writer - -# Constants - -SOURCE = os.path.join("reconstruction", "ecoli", "flat", "metabolism", "ecocyc_compound_formulas.dat") -DELIMITER = "$" -REGEX = "([A-Z][a-z]?)([0-9]*)" -NDIGITS = 3 # number of decimals in atomic weights -COMPARTMENTS = ["n", "j", "w", "c", "e", "m", "o", "p", "l", "i"] -ADDED_SPECIES = { - "glycogen-monomer":{"GLC":+1, "PROTON":+1, "WATER":-1}, - } -OUTPUT_METS = os.path.join("reconstruction", "ecoli", "flat", "metabolites.tsv") -OUTPUT_WATER = os.path.join("reconstruction", "ecoli", "flat", "water.tsv") - -# Compute weights - -no_formula = set() -atoms = set() -formulas = {} # type: Dict[str, Dict[str, int]] - -for line in open(SOURCE): - molecule_name, formula_string = line.strip().split(DELIMITER) - - if formula_string: - formula = {} # type: Dict[str, int] - for atom_name, count_string in re.findall(REGEX, formula_string): - atoms.add(atom_name) - - assert atom_name not in formula - formula[atom_name] = int(count_string) if count_string else 1 - - if molecule_name in formulas: - assert formulas[molecule_name] == formula - - else: - formulas[molecule_name] = formula - - else: - no_formula.add(molecule_name) - -weights = { - molecule_name:sum(count * round(atom_weights[atom_name], NDIGITS) for atom_name, count in six.viewitems(formula)) - for molecule_name, formula in six.viewitems(formulas) - } - -# Add misc. species -for molecule_name, stoich in six.viewitems(ADDED_SPECIES): - assert molecule_name not in weights - weights[molecule_name] = sum( - coeff * weights[mol] for mol, coeff in six.viewitems(stoich) - ) - -# Write out metabolites -with tsv_writer(OUTPUT_METS, ["id", "mw", "location"]) as writer: - for molecule_name, weight in six.viewitems(weights): - if molecule_name == "WATER": - continue - - writer.writerow({ - "id":molecule_name, - "mw":weight, - "location":COMPARTMENTS - }) - -# Write out water -with tsv_writer(OUTPUT_WATER, ["id", "mw", "location"]) as writer: - for molecule_name, weight in six.viewitems(weights): - if molecule_name != "WATER": - continue - - writer.writerow({ - "id":molecule_name, - "mw":weight, - "location":COMPARTMENTS - }) diff --git a/reconstruction/ecoli/scripts/other_weights.py b/reconstruction/ecoli/scripts/other_weights.py deleted file mode 100644 index f4708fe93c..0000000000 --- a/reconstruction/ecoli/scripts/other_weights.py +++ /dev/null @@ -1,546 +0,0 @@ -""" -called to update various molecular weights -- polymerized monomers -- proteins -- RNAs -- complexes - -should be idempotent (i.e. no change if called more than once) -""" -from __future__ import absolute_import, division, print_function - -import os -from collections import OrderedDict - -import numpy as np -import six - -from reconstruction.spreadsheets import read_tsv, tsv_reader, tsv_writer - -def flip_dict(dct): - return {value:key for key, value in six.viewitems(dct)} - -KEY = "id" - -FLAT_DIR = os.path.join("reconstruction", "ecoli", "flat") -MET_FILE = os.path.join(FLAT_DIR, "metabolites.tsv") -WATER_FILE = os.path.join(FLAT_DIR, "water.tsv") -POLY_FILE = os.path.join(FLAT_DIR, "polymerized.tsv") -PROT_FILE = os.path.join(FLAT_DIR, "proteins.tsv") -RNA_FILE = os.path.join(FLAT_DIR, "rnas.tsv") -COMP_FILE = os.path.join(FLAT_DIR, "protein_complexes.tsv") -COMP_RXN_FILE = os.path.join(FLAT_DIR, "complexationReactions_large.tsv") -EQUI_RXNS_FILE = os.path.join(FLAT_DIR, "equilibrium_reactions.tsv") - -COMP_RXN_OUT = os.path.join(FLAT_DIR, "complexation_reactions.tsv") # this is used in sim, other is used to generate - -ID_DIR = os.path.join(FLAT_DIR, "ids") -NTPS_FILE = os.path.join(ID_DIR, "ntps.txt") -DNTPS_FILE = os.path.join(ID_DIR, "dntps.txt") -AAS_FILE = os.path.join(ID_DIR, "amino_acids.txt") - -SYMBOL_TO_ID = OrderedDict(( - ("A", "L-ALPHA-ALANINE[c]"), ("R", "ARG[c]"), ("N", "ASN[c]"), ("D", "L-ASPARTATE[c]"), - ("C", "CYS[c]"), ("E", "GLT[c]"), ("Q", "GLN[c]"), ("G", "GLY[c]"), - ("H", "HIS[c]"), ("I", "ILE[c]"), ("L", "LEU[c]"), ("K", "LYS[c]"), - ("M", "MET[c]"), ("F", "PHE[c]"), ("P", "PRO[c]"), ("S", "SER[c]"), - ("T", "THR[c]"), ("W", "TRP[c]"), ("Y", "TYR[c]"), ("U", "L-SELENOCYSTEINE[c]"), - ("V", "VAL[c]") - )) - -AA_SYM_ORDER = { - key:ind - for ind, key in enumerate(SYMBOL_TO_ID.keys()) - } - -AA_ORDER = { - value[:-3]:ind - for ind, value in enumerate(SYMBOL_TO_ID.values()) - } - -NTP_ORDER = { - "ATP":0, - "CTP":1, - "GTP":2, - "UTP":3 - } - -MW_KEYS = [ # TODO: add flat file for this, and load here/in sim data - '23srRNA', - '16srRNA', - '5srRNA', - 'tRNA', - 'mRNA', - 'miscRNA', - 'protein', - 'metabolite', - 'water', - 'DNA', - 'RNA' - ] - - -# all of these dicts/sets of IDs are later used to ignore forming certain -# complexes, though at some point they should be incorporated -SUBUNIT_PROENZYME = { - # CPLX0-7885 - 'MONOMER0-4195':'EG10374-MONOMER', - 'MONOMER0-4196':'EG10374-MONOMER', - - 'SAMDC-ALPHA-MONOMER':'SPED-MONOMER', - 'SAMDC-BETA-MONOMER':'SPED-MONOMER', - - # PHOSPHASERDECARB-DIMER, PHOSPHASERDECARB-CPLX - 'PHOSPHASERDECARB-ALPHA-MONOMER':'PSD-MONOMER', - 'PHOSPHASERDECARB-BETA-MONOMER':'PSD-MONOMER', - - # CPLX0-263 - 'MONOMER0-2':'EG12407-MONOMER', - 'MONOMER0-3':'EG12407-MONOMER', - - # CPLX0-2901 - 'MONOMER0-1842':'ASPDECARBOX-MONOMER', - 'MONOMER0-1843':'ASPDECARBOX-MONOMER', - } - -MODIFIED_FORM = { - 'ENTF-PANT':'ENTF-MONOMER', - 'PHOSPHO-OMPR':'OMPR-MONOMER', - 'PD01520':'MONOMER-51', # may be circular reference - 'G7678-MONOMER':'MONOMER0-2341', - } - -NONSPECIFIC_METABOLITES = { - "ALLOSE", - "N-ACETYL-D-GLUCOSAMINE-6-P", - 'RIBOSE', - 'ACYL-COA', - 'N-ACETYLNEURAMINATE', - 'FRUCTURONATE', - 'ALLANTOIN', # CPLX0-8071 (also glyxoylate) - } - -UNIDENTIFIED_GENE = { - "TRANSENOYLCOARED-MONOMER", - - "GLUTAMINA-MONOMER", - 'GLUTAMINA-CPLX', - - "GLUTAMINB-MONOMER", - 'GLUTAMINB-CPLX', - - 'TRANSENOYLCOARED-MONOMER', - 'TRANSENOYLCOARED-CPLX', - - 'NQOR-MONOMER', - 'NQOR-CPLX', - } - -MISC_OR_UNEXPLAINED = { - "ACETYL-COA-CARBOXYLMULTI-CPLX", # biotinylated, many subunits - 'GCVMULTI-CPLX', # many subunits - 'CPLX0-7754', # modified form for one subunit (phos'd) - 'CPLX0-7849', # proenzymes and modified forms, many forms - 'EG10245-MONOMER', # DNA poly III - 'modified-charged-selC-tRNA', # - - # biotin carrier protein - 'BCCP-BIOTIN', - 'BCCP-CPLX' - - # FadR plus CoA, met id not recognized - "MONOMER-51-CPD-18346", - 'MONOMER-51-CPD-10269', - - # enterobactin multicomplex (also see modified forms) - 'ENTB-CPLX', - 'HOL-ENTB', - 'ENTMULTI-CPLX', - - # no idea - 'CPD-10269', - 'CPD-18346', - - # RcsB phosphorylated transcription factor, many forms - 'PHOSPHO-RCSB', - 'CPLX0-7884', - 'CPLX0-7978', - - # phos'd TF - 'CPLX0-7795', - 'PROTEIN-NRIP', - 'PHOSPHO-UHPA', - 'PHOSPHO-KDPE', - 'CPLX0-7721', - 'MONOMER0-4198', - 'CPLX0-7748', - 'PHOSPHO-CPXR', - - # weird orphan metabolite, might actually be a protein - 'CPD0-2342', - - # modified form? - 'LIPOYL-GCVH', - } - -DISABLED = { # complexes we don't form for modeling reasons - "CPLX0-3964", # full ribosome - - # 50S subcomplex (can't procede to full complex) - "CPLX0-3956", - "CPLX0-3955", - - # non-apo RNA polymerase complexes - "CPLX0-221", - "RNAP54-CPLX", - "RNAPS-CPLX", - "RNAP32-CPLX", - "RNAPE-CPLX", - "CPLX0-222", - "RNAP70-CPLX", - } - -IGNORED = ( - six.viewkeys(SUBUNIT_PROENZYME) - | six.viewkeys(MODIFIED_FORM) - | NONSPECIFIC_METABOLITES - | UNIDENTIFIED_GENE - | MISC_OR_UNEXPLAINED - | DISABLED - ) - -N_MW = len(MW_KEYS) - -COMPARTMENTS = ["n", "j", "w", "c", "e", "m", "o", "p", "l", "i"] # TODO: also to flat file - -def load_ids(id_file): - return [s.strip() for s in open(id_file) if s.strip()] - - -def lod_to_dod(list_of_dicts, dict_key): - # function name of the day award - entries = [ - (dct[dict_key], dct) for dct in list_of_dicts - ] - - out = dict(entries) - - if len(entries) != len(out): - raise Exception("Repeated keys (non-unique)") - - return out - -ntp_ids = load_ids(NTPS_FILE) -dntp_ids = load_ids(DNTPS_FILE) -aa_ids = load_ids(AAS_FILE) - -met = lod_to_dod(read_tsv(MET_FILE), KEY) -water = lod_to_dod(read_tsv(WATER_FILE), KEY) - -# RNA: NTP - diphosphate = polymerized nucleotide (consistent w/ process) -# DNA: same as RNA -# protein: unclear, check process (AA - H2O = poly'd) - -poly = [] -ntp_weights = np.zeros(len(NTP_ORDER)) - -ppi_weight = met["PPI"]["mw"] -rna_index = MW_KEYS.index("RNA") -for ntp_id in ntp_ids: - weight = met[ntp_id]["mw"] - ppi_weight - - mw = np.zeros(N_MW) - mw[rna_index] = weight - - poly_id = "polymerized {}".format(ntp_id) - poly.append({ - KEY:poly_id, - "location":COMPARTMENTS, - "mw":mw.tolist(), - "is_aa":False, - "is_ntp":True, - "is_dntp":False, - "is_end":False - }) - - ntp_weights[NTP_ORDER[ntp_id]] = weight - -dna_index = MW_KEYS.index("DNA") -for dntp_id in dntp_ids: - mw = np.zeros(N_MW) - mw[dna_index] = met[dntp_id]["mw"] - ppi_weight - - poly_id = "polymerized {}".format(dntp_id) - poly.append({ - KEY:poly_id, - "location":COMPARTMENTS, - "mw":mw.tolist(), - "is_aa":False, - "is_ntp":False, - "is_dntp":True, - "is_end":False - }) - -ntp_terminal_weight = ppi_weight - -mw = np.zeros(N_MW) -mw[rna_index] = ntp_terminal_weight -poly.append({ - KEY:"nucleic acid terminal pyrophosphate", - "location":COMPARTMENTS, - "mw":mw.tolist(), - "is_aa":False, - "is_ntp":True, - "is_dntp":True, - "is_end":True - }) - -aa_weights = np.zeros(len(AA_ORDER)) - -water_weight = water["WATER"]["mw"] -protein_index = MW_KEYS.index("protein") -for aa_id in aa_ids: - weight = met[aa_id]["mw"] - water_weight - - mw = np.zeros(N_MW) - mw[protein_index] = weight - - poly_id = "polymerized {}".format(aa_id) - poly.append({ - KEY:poly_id, - "location":COMPARTMENTS, - "mw":mw.tolist(), - "is_aa":True, - "is_ntp":False, - "is_dntp":False, - "is_end":False - }) - - aa_weights[AA_ORDER[aa_id]] = weight - -aa_terminal_weight = water_weight - -mw = np.zeros(N_MW) -mw[protein_index] = aa_terminal_weight -poly.append({ - KEY:"polypeptide terminal hydroxyl", - "location":COMPARTMENTS, - "mw":mw.tolist(), - "is_aa":True, - "is_ntp":False, - "is_dntp":False, - "is_end":True - }) - -species_weights = {} - -met_index = MW_KEYS.index("metabolite") -for key, value in six.viewitems(met): - w = np.zeros(N_MW) - w[met_index] = value["mw"] - species_weights[key] = np.array(w) - -water_index = MW_KEYS.index("water") -for key, value in six.viewitems(water): - w = np.zeros(N_MW) - w[water_index] = value["mw"] - species_weights[key] = np.array(value["mw"]) - -del met -del water - -with tsv_reader(POLY_FILE) as reader: - fieldnames = reader.fieldnames - assert fieldnames - -with tsv_writer(POLY_FILE, fieldnames) as writer: - writer.writerows(poly) - -del poly - -# update RNAs - -with tsv_reader(RNA_FILE) as reader: - fieldnames = reader.fieldnames - assert fieldnames - - rna_data = lod_to_dod(reader, KEY) - -for rna_id, rna_entry in six.viewitems(rna_data): - new_weight = ntp_terminal_weight + np.dot(ntp_weights, rna_entry["ntCount"]) - - mw = rna_entry["mw"] - weight_index = np.where(mw)[0] - - assert weight_index.size == 1 - - mw[weight_index] = new_weight - species_weights[rna_id] = np.array(mw) - -with tsv_writer(RNA_FILE, fieldnames) as writer: - for key in sorted(rna_data.keys()): - writer.writerow(rna_data[key]) - -del rna_data - -# update proteins - -with tsv_reader(PROT_FILE) as reader: - fieldnames = reader.fieldnames - assert fieldnames - - prot_data = lod_to_dod(reader, KEY) - -prot_loc = {} - -for prot_id, prot_entry in six.viewitems(prot_data): - aa_counts = np.zeros(aa_weights.size, np.int64) - for c in prot_entry["seq"]: - aa_counts[AA_SYM_ORDER[c]] += 1 - - prot_entry["aaCount"] = aa_counts.tolist() - new_weight = aa_terminal_weight + np.dot(aa_weights, aa_counts) - - mw = prot_entry["mw"] - weight_index = np.where(mw)[0] - - assert weight_index.size == 1 - - mw[weight_index] = new_weight - species_weights[prot_id] = np.array(mw) - - prot_loc[prot_id] = prot_entry["location"][0] - -with tsv_writer(PROT_FILE, fieldnames) as writer: - for key in sorted(prot_data.keys()): - writer.writerow(prot_data[key]) - -del prot_data - -# update complexes - -with tsv_reader(COMP_FILE) as reader: - fieldnames = reader.fieldnames - assert fieldnames - - comp_data = lod_to_dod(reader, KEY) - -with tsv_reader(COMP_RXN_FILE) as reader: - comp_rxns = lod_to_dod(reader, KEY) - -bad_rxns = set() -while comp_rxns: - to_remove = set() - - for comp_rxn_id, comp_rxn in six.viewitems(comp_rxns): - stoich = {s["molecule"]:s["coeff"] for s in comp_rxn["stoichiometry"]} - - subunits = set(mid for mid, c in six.viewitems(stoich) if c < 0) - - (comp_id,) = [mid for mid, c in six.viewitems(stoich) if c > 0] - - if (subunits & IGNORED) or comp_id in IGNORED: - bad_rxns.add(comp_rxn_id) - to_remove.add(comp_rxn_id) - continue - - if subunits <= set(six.viewkeys(species_weights)): - weight = np.zeros(N_MW) - for subunit in subunits: - weight += -stoich[subunit] * species_weights[subunit] - - species_weights[comp_id] = weight - - try: - comp_data[comp_id]["mw"] = weight.tolist() - - except KeyError: - - new_entry = { - 'name':'', # not sure where names came from in the first place - 'comments':'', - 'mw': weight.tolist(), - 'location':None, # placeholder - 'reactionId':comp_rxn_id, - 'id':comp_id, - } - - comp_data[comp_id] = new_entry - - # add/fix location - loc = [s["location"] for s in comp_rxn["stoichiometry"] if s["coeff"] > 0] - - assert len(loc) == 1 - - if loc[0] == "x": - loc[0] = "c" # set unknown locations (x) to cytoplasmic (c) - - comp_data[comp_id]["location"] = loc - - # remove the resolved complexation reaction - to_remove.add(comp_rxn_id) - - for rxn_id in to_remove: - del comp_rxns[rxn_id] - - if len(to_remove) == 0: - unrecognized_subunits = { - s["molecule"] - for comp_rxn in six.viewvalues(comp_rxns) - for s in comp_rxn["stoichiometry"] - } - six.viewkeys(species_weights) - six.viewkeys(comp_data) - - raise Exception("{} unrecognized subunits: {}".format(len(unrecognized_subunits), "\n".join(unrecognized_subunits))) - -with tsv_writer(COMP_FILE, fieldnames) as writer: - for key in sorted(comp_data.keys()): - writer.writerow(comp_data[key]) - -# a sane person would not structure code this way - -with tsv_reader(COMP_RXN_FILE) as reader: - rxn_fieldnames = reader.fieldnames - assert rxn_fieldnames - - comp_rxns = lod_to_dod(reader, KEY) - -with tsv_reader(EQUI_RXNS_FILE) as reader: - fn = reader.fieldnames - assert fn - equi_rxns = lod_to_dod(reader, KEY) - -with tsv_writer(COMP_RXN_OUT, rxn_fieldnames) as writer: - for key in sorted(comp_rxns.keys()): - if key not in bad_rxns and key not in equi_rxns: - for molecule in comp_rxns[key]["stoichiometry"]: - try: - molecule["location"] = prot_loc[molecule["molecule"]] - - except KeyError: - if molecule["location"] == "x": - molecule["location"] = "c" - - writer.writerow(comp_rxns[key]) - -with tsv_writer(EQUI_RXNS_FILE, fn) as writer: - for rxn_id in sorted(equi_rxns.keys()): - entry = equi_rxns[rxn_id] - - try: - original_rxn = comp_rxns[rxn_id] - - except KeyError: - raise - - else: - entry["stoichiometry"] = original_rxn["stoichiometry"] - - for molecule in entry["stoichiometry"]: - try: - molecule["location"] = prot_loc[molecule["molecule"]] - - except KeyError: - if molecule["location"] == "x": - molecule["location"] = "c" - - writer.writerow(entry) diff --git a/reconstruction/ecoli/scripts/reaction_enzymes.py b/reconstruction/ecoli/scripts/reaction_enzymes.py deleted file mode 100644 index 084f3a0905..0000000000 --- a/reconstruction/ecoli/scripts/reaction_enzymes.py +++ /dev/null @@ -1,142 +0,0 @@ -from __future__ import absolute_import, division, print_function - -import os -import re -import yaml -import json -from typing import Dict, List - -from reconstruction.spreadsheets import read_tsv -import six - - -REACTIONS_FILE = os.path.join("reconstruction", "ecoli", "flat", "metabolic_reactions.tsv") -ECOCYC_DUMP = os.path.join("reconstruction", "ecoli", "flat", "ecocyc_20_1_gem.json") - -NEW_REACTIONS_FILE = os.path.join("reconstruction", "ecoli", "flat", "reactions_new.tsv") - - - -def getReactionIds(): - data = read_tsv(REACTIONS_FILE) - L = sorted(x["reaction id"] for x in data) - return L - -def getReactionStoich(): - data = read_tsv(REACTIONS_FILE) - D = dict((x["reaction id"], x["stoichiometry"]) for x in data) - return D - -def getReactionReversibility(): - data = read_tsv(REACTIONS_FILE) - D = dict((x["reaction id"], x["is reversible"]) for x in data) - return D - -def truncateNameRxnTrail(name): - if name.startswith("TRANS-RXN"): - return None - return name.split("-RXN")[0] + "-RXN" - -def truncateNameRxnStart(name): - if name.startswith("TRANS-RXN"): - return None - R = re.search("(RXN0?-[0-9]*)[\-\[]", name) - if R is not None: - return R.groups()[0] - return None - -def truncateNameRxnTrans(name): - R = re.search("(TRANS-RXN0?-[0-9]*)[\-\[A-Z]", name) - if R is not None: - return R.groups()[0] - return None - - -def addFilteredEntries(rxnNamesEnzymes): - # type: (Dict[str, List[str]]) -> None - d = {} # type: Dict[str, List[str]] - def add_enzymes(name): - # type: (str) -> None - if name is not None: - d[name] = enzymes - - for rxnName, enzymes in six.viewitems(rxnNamesEnzymes): - if rxnName.endswith("-RXN"): - continue - add_enzymes(truncateNameRxnTrail(rxnName)) - add_enzymes(truncateNameRxnStart(rxnName)) - add_enzymes(truncateNameRxnTrans(rxnName)) - - rxnNamesEnzymes.update(d) - -reactionIds = getReactionIds() -reactionStoich = getReactionStoich() -reactionReversibility = getReactionReversibility() - -jsonData = yaml.safe_load(open(ECOCYC_DUMP, "r")) - -rxnNamesEnzymes = { - x["name"]: x["annotation"]["enzymes"] - for x in jsonData["reactions"] if "enzymes" in x["annotation"]} # type: Dict[str, List[str]] - -addFilteredEntries(rxnNamesEnzymes) - -rxnNames = sorted(rxnNamesEnzymes) - -reactionIdsSet = set(reactionIds) -rxnNamesSet = set(rxnNames) - -reactionIdsEnzymes = {} -notIdenticalList = [] -notFoundList = [] -emptyEnzymeList = [] - -for reactionId in reactionIds: - - enzymeList = None - - if reactionId in rxnNamesEnzymes: - enzymeList = rxnNamesEnzymes[reactionId] - reactionIdsEnzymes[reactionId] = enzymeList - - elif truncateNameRxnTrail(reactionId) in rxnNamesEnzymes: - enzymeList = rxnNamesEnzymes[truncateNameRxnTrail(reactionId)] - reactionIdsEnzymes[reactionId] = enzymeList - notIdenticalList.append(reactionId) - - elif truncateNameRxnStart(reactionId) in rxnNamesEnzymes: - enzymeList = rxnNamesEnzymes[truncateNameRxnStart(reactionId)] - reactionIdsEnzymes[reactionId] = enzymeList - notIdenticalList.append(reactionId) - - elif truncateNameRxnTrans(reactionId) in rxnNamesEnzymes: - enzymeList = rxnNamesEnzymes[truncateNameRxnTrans(reactionId)] - reactionIdsEnzymes[reactionId] = enzymeList - notIdenticalList.append(reactionId) - - else: - notFoundList.append(reactionId) - - if enzymeList is not None and len(enzymeList) == 0: - emptyEnzymeList.append(reactionId) - - -h = open(NEW_REACTIONS_FILE, "w") -h.write('"reaction id"\t"stoichiometry"\t"is reversible"\t"catalyzed by"\n') - -for reactionId in reactionIds: - enzymeList = [] - if reactionId in reactionIdsEnzymes: - enzymeList = reactionIdsEnzymes[reactionId] - try: - h.write('"%s"\t%s\t%s\t%s\n' % ( - reactionId, - json.dumps(reactionStoich[reactionId]), - json.dumps(reactionReversibility[reactionId]), - json.dumps(enzymeList), - ) - ) - except Exception: - import ipdb; ipdb.set_trace() - raise -h.close() diff --git a/reconstruction/ecoli/scripts/reaction_mass_balance.py b/reconstruction/ecoli/scripts/reaction_mass_balance.py deleted file mode 100755 index a329b1fb28..0000000000 --- a/reconstruction/ecoli/scripts/reaction_mass_balance.py +++ /dev/null @@ -1,54 +0,0 @@ -from __future__ import absolute_import, division, print_function - -from typing import Any - -THRESHOLD = 1e-9 - -from reconstruction.ecoli.knowledge_base_raw import KnowledgeBaseEcoli - -import numpy as np - -kb = KnowledgeBaseEcoli() # type: Any # "KnowledgeBaseEcoli" has no attribute "process" et al - -S = kb.process.metabolism.stoich_matrix() - -masses = kb.getter.get_masses(kb.process.metabolism.molecule_names) - -reactionNetMass = np.dot(S.T, masses.asNumber()) - -reactionIds = kb.process.metabolism.reactionIds - -reactionNames = kb.process.metabolism.reactionNames - -sorting = np.argsort(np.abs(reactionNetMass))[::-1] - -print("-"*79) - -moleculeMass = dict([(x['id'],x['mw']) for x in kb._metabolites]) -moleculeFormula = dict([(x['id'],x['formula7.2']) for x in kb._metabolites]) - -i = 0 -nSkipped = 0 -nExchange = 0 -for index in sorting: - if np.abs(reactionNetMass[index]) < THRESHOLD: - nSkipped += 1 - continue - - if "exchange" in reactionNames[index] or "sink" in reactionNames[index].lower(): - nExchange += 1 - continue - - stoich = [x['stoichiometry'] for x in kb._reactions if reactionIds[index] == x['id']][0] - stoich_short = [(x['coeff'],x['molecule'],moleculeMass[x['molecule']],moleculeFormula[x['molecule']]) for x in stoich] - - print("{}\t{}\t{}\t{}".format(reactionIds[index], reactionNames[index], reactionNetMass[index], stoich_short)) - - i += 1 - -print("-" * 79) -print("Summary:") -print("{} bad reactions (out of {})".format(i-1, len(reactionNames))) -print("{} reactions were under the threshold of {}".format(nSkipped, THRESHOLD)) -print("{} reactions contained the substring 'exchange' or 'sink'".format(nExchange)) -print("-" * 79) diff --git a/reconstruction/ecoli/scripts/update_proteins_location.py b/reconstruction/ecoli/scripts/update_proteins_location.py deleted file mode 100644 index 8f583b70bb..0000000000 --- a/reconstruction/ecoli/scripts/update_proteins_location.py +++ /dev/null @@ -1,90 +0,0 @@ -from __future__ import absolute_import, division, print_function - -import csv -import io -import os -import yaml -import json - -from reconstruction.spreadsheets import read_tsv - - -EXISTING_MONOMER_FILE = os.path.join("reconstruction", "ecoli", "flat", "proteins.tsv") -NEW_MONOMER_FILE = os.path.join("reconstruction", "ecoli", "flat", "proteins_new.tsv") -MONOMER_COMPARISON_FILE = os.path.join("reconstruction", "ecoli", "flat", "proteins_location_comparison.tsv") - -ECOCYC_DUMP = os.path.join("reconstruction", "ecoli", "flat", "eco_wc_test_fun.json") - -def getMonomerLocationsFromOurData(): - data = read_tsv(EXISTING_MONOMER_FILE) - D = dict([(x["id"], (x["location"][0], x["comments"])) for x in data]) - return D - -def getMonomerLocationsFromEcocyc(reactionData): - D = {} - for reaction in reactionData: - for element in reaction["elements"]: - if element["type"] == "proteinmonomer": - D[element["molecule"]] = element["location"] - return D - -def getLocationDifferences(ourLocations, ecocycLocations): - """ - Outputs monomers that have a different location in ourLocations as compared to ecocycLocations. - Exception: ecocyc compartments "x" and "z" are ignored (and become "c") - """ - locationDifferences = {} - notFoundInEcocyc = [] - for monomer in ourLocations: - if monomer in ecocycLocations: - if ourLocations[monomer][0] != ecocycLocations[monomer]: - if ecocycLocations[monomer] == "x" or ecocycLocations[monomer] == "z": - locationDifferences[monomer] = "c" - else: - locationDifferences[monomer] = ecocycLocations[monomer] - else: - notFoundInEcocyc.append(monomer) - return locationDifferences, notFoundInEcocyc - - - -jsonData = yaml.safe_load(io.open(ECOCYC_DUMP, "r")) - -ourLocations = getMonomerLocationsFromOurData() -ecocycLocations = getMonomerLocationsFromEcocyc(jsonData["complexations"]) -locationDifferences, notFoundInEcocyc = getLocationDifferences(ourLocations, ecocycLocations) - - -h = io.open(MONOMER_COMPARISON_FILE, "w") -h.write('"id"\t"ourLocation"\t"comments"\t"ecocycLocations"\n') - -for monomer in locationDifferences: - h.write('"%s"\t["%s"]\t"%s"\t["%s"]\n' % ( - monomer, - ourLocations[monomer][0], - ourLocations[monomer][1], - ecocycLocations[monomer], - ) - ) -h.close() - -h = io.open(NEW_MONOMER_FILE, "w", encoding='utf-8') -h.write('"aaCount"\t"name"\t"seq"\t"comments"\t"codingRnaSeq"\t"mw"\t"location"\t"rnaId"\t"id"\t"geneId"\n') - -data = read_tsv(EXISTING_MONOMER_FILE) - -for monomer in data: - h.write('%s\t%s\t"%s"\t"%s"\t"%s"\t%s\t["%s"]\t"%s"\t"%s"\t"%s"\n' % ( - monomer["aaCount"], - json.dumps(monomer["name"]), - monomer["seq"], - "Location information from Ecocyc dump." if monomer["id"] in locationDifferences else monomer["comments"], - monomer["codingRnaSeq"], - monomer["mw"], - locationDifferences[monomer["id"]] if monomer["id"] in locationDifferences else monomer["location"][0], - monomer["rnaId"], - monomer["id"], - monomer["geneId"], - ) - ) -h.close() \ No newline at end of file diff --git a/reconstruction/ecoli/simulation_data.py b/reconstruction/ecoli/simulation_data.py index d503a761a7..2cb1be8a11 100755 --- a/reconstruction/ecoli/simulation_data.py +++ b/reconstruction/ecoli/simulation_data.py @@ -114,13 +114,19 @@ def _add_base_codes(self, raw_data): def _add_condition_data(self, raw_data): abbrToActiveId = {x["TF"]: x["activeId"].split(", ") for x in raw_data.transcription_factors if len(x["activeId"]) > 0} - geneIdToRnaId = {x["id"]: x['rna_id'] for x in raw_data.genes} - abbrToRnaId = {x["symbol"]: x['rna_id'] for x in raw_data.genes} - abbrToRnaId.update({ - x["name"]: geneIdToRnaId[x["geneId"]] + gene_id_to_rna_id = { + gene['id']: gene['rna_id'] for gene in raw_data.genes} + gene_symbol_to_rna_id = { + gene['symbol']: gene['rna_id'] for gene in raw_data.genes} + gene_symbol_to_rna_id.update({ + x["name"]: gene_id_to_rna_id[x["geneId"]] for x in raw_data.translation_efficiency if x["geneId"] != "#N/A"}) + rna_ids_with_coordinates = { + gene['rna_id'] for gene in raw_data.genes + if gene['left_end_pos'] is not None and gene['right_end_pos'] is not None} + self.tf_to_fold_change = {} self.tf_to_direction = {} @@ -128,6 +134,8 @@ def _add_condition_data(self, raw_data): for fc_file in ['fold_changes', 'fold_changes_nca']: gene_not_found = set() tf_not_found = set() + gene_location_not_specified = set() + for row in getattr(raw_data, fc_file): FC = row['log2 FC mean'] @@ -150,11 +158,15 @@ def _add_condition_data(self, raw_data): continue try: - target = abbrToRnaId[row['Target']] + target = gene_symbol_to_rna_id[row['Target']] except KeyError: gene_not_found.add(row['Target']) continue + if target not in rna_ids_with_coordinates: + gene_location_not_specified.add(row['Target']) + continue + if tf not in self.tf_to_fold_change: self.tf_to_fold_change[tf] = {} self.tf_to_direction[tf] = {} @@ -176,9 +188,20 @@ def _add_condition_data(self, raw_data): for tf in tf_not_found: print(tf) + if gene_location_not_specified: + print(f'The following target genes listed in {fc_file}.tsv' + ' have no chromosomal location specified in' + ' genes.tsv:') + for item in gene_location_not_specified: + print(item) + self.tf_to_active_inactive_conditions = {} for row in raw_data.condition.tf_condition: tf = row["active TF"] + + if tf not in self.tf_to_fold_change: + continue + activeGenotype = row["active genotype perturbations"] activeNutrients = row["active nutrients"] inactiveGenotype = row["inactive genotype perturbations"] diff --git a/validation/ecoli/validation_data.py b/validation/ecoli/validation_data.py index 4eeefeadb7..329130404a 100644 --- a/validation/ecoli/validation_data.py +++ b/validation/ecoli/validation_data.py @@ -12,7 +12,7 @@ from reconstruction.ecoli.knowledge_base_raw import KnowledgeBaseEcoli # Data classes -from reconstruction.ecoli.dataclasses.getter_functions import GetterFunctions +from reconstruction.ecoli.dataclasses.getter_functions import GetterFunctions, UNDEFINED_COMPARTMENT_IDS_TO_ABBREVS from reconstruction.ecoli.dataclasses.molecule_groups import MoleculeGroups from reconstruction.ecoli.dataclasses.molecule_ids import MoleculeIds from reconstruction.ecoli.dataclasses.constants import Constants @@ -58,16 +58,40 @@ class Protein(object): """ Protein """ def __init__(self, validation_data_raw, knowledge_base_raw): + compartment_ids_to_abbreviations = { + comp['id']: comp['abbrev'] for comp in knowledge_base_raw.compartments + } + + # Compartments that don't exist in compartments.tsv + compartment_ids_to_abbreviations.update( + UNDEFINED_COMPARTMENT_IDS_TO_ABBREVS) + + protein_id_to_compartment_tag = {} + + for protein in knowledge_base_raw.proteins: + exp_location = protein['exp_location'] + comp_location = protein['comp_location'] + + if len(exp_location) + len(comp_location) == 0: + compartment = 'CCO-CYTOSOL' + elif len(exp_location) > 0: + compartment = exp_location[0] + else: + compartment = comp_location[0] + + protein_id_to_compartment_tag.update({ + protein['id']: [compartment_ids_to_abbreviations[compartment]] + }) + # Build and save a dict from gene ID to monomerId rna_id_to_gene_id = { gene['rna_id']: gene['id'] for gene in knowledge_base_raw.genes} - protein_id_to_location = { - protein['id']: protein['compartment'][0] for protein in knowledge_base_raw.proteins} - self.geneIdToMonomerId = { - rna_id_to_gene_id[rna['id']]: '{}[{}]'.format(rna['monomer_id'], protein_id_to_location[rna['monomer_id']]) - for rna in knowledge_base_raw.rnas - if rna["type"] == "mRNA"} + self.geneIdToMonomerId = {} + + for rna in knowledge_base_raw.rnas: + if len(rna['monomer_ids']) > 0 and rna['monomer_ids'][0] in protein_id_to_compartment_tag: + self.geneIdToMonomerId[rna_id_to_gene_id[rna['id']]] = f"{rna['monomer_ids'][0]}[{protein_id_to_compartment_tag[rna['monomer_ids'][0]][0]}]" # Build and save a dict from gene symbol to corresponding monomerId self.geneSymbolToMonomerId = {} @@ -160,8 +184,15 @@ def _loadWisniewski2014Counts(self, validation_data_raw, knowledge_base_raw): avg = np.mean((rep1, rep2, rep3), axis = 0) geneIds = [x["EcoCycID"] for x in dataset] - monomerIds = [self.geneIdToMonomerId[x] for x in geneIds] - nEntries = len(geneIds) + monomer_ids = [] + avg_counts_filtered = [] + + for i, (gene_id, avg_count) in enumerate(zip(geneIds, avg)): + if gene_id in self.geneIdToMonomerId: + monomer_ids.append(self.geneIdToMonomerId[gene_id]) + avg_counts_filtered.append(avg_count) + + nEntries = len(monomer_ids) wisniewski2014Data = np.zeros( nEntries, @@ -171,8 +202,8 @@ def _loadWisniewski2014Counts(self, validation_data_raw, knowledge_base_raw): ] ) - wisniewski2014Data["monomerId"] = monomerIds - wisniewski2014Data["avgCounts"] = avg + wisniewski2014Data["monomerId"] = monomer_ids + wisniewski2014Data["avgCounts"] = avg_counts_filtered self.wisniewski2014Data = wisniewski2014Data diff --git a/wholecell/utils/fitting.py b/wholecell/utils/fitting.py index bfb0c97bab..9eee66586e 100755 --- a/wholecell/utils/fitting.py +++ b/wholecell/utils/fitting.py @@ -145,7 +145,7 @@ def calcProteinTotalCounts(sim_data, monomerMass, monomerExpression): def calcProteinDistribution(sim_data): return normalize( - sim_data.process.transcription.rna_data["expression"][sim_data.relation.rna_index_to_monomer_mapping] / + sim_data.process.transcription.rna_data["expression"][sim_data.relation.RNA_to_monomer_mapping] / (np.log(2) / sim_data.doubling_time.asNumber(units.s) + sim_data.process.translation.monomer_data['deg_rate'].asNumber(1 / units.s)) ) diff --git a/wholecell/utils/protein_counts.py b/wholecell/utils/protein_counts.py index 58e58e0d7b..b6f78f72ed 100644 --- a/wholecell/utils/protein_counts.py +++ b/wholecell/utils/protein_counts.py @@ -8,25 +8,45 @@ def get_simulated_validation_counts( - monomer_counts, validation_ids, simulation_ids): - # type: (np.ndarray, np.ndarray, np.ndarray) -> np.ndarray - """Get simulated monomer counts that correspond to Wisniewski data + validation_counts, monomer_counts, validation_ids, simulation_ids): + # type: (np.ndarray, np.ndarray, np.ndarray, np.ndarray) -> (np.ndarray, np.ndarray) + """ + Get simulated counts and validation counts of monomers that exist in both + the simulation and the validation data Arguments: + validation_counts: Monomer counts from validation data. monomer_counts: Simulated monomer counts (from translation process). validation_ids: Monomer IDs from validation data. IDs - must appear in same order as in validation monomer counts. + must appear in same order as in validation_counts. simulation_ids: IDs of monomers in the same order as monomer_counts. Returns: The simulated counts of the monomers that appear in the - validation data, in the same order as in the validation data. + validation data, and the validation counts of the monomers in the same + order. """ + avg_sim_counts = monomer_counts.mean(axis=0) + sim_ids_lst = cast(List[str], simulation_ids.tolist()) - validation_ids_lst = cast(List[str], validation_ids.tolist()) - sim_id_to_index_map = {sim_id: i for i, sim_id in enumerate(sim_ids_lst)} - validation_idx = [sim_id_to_index_map[x] for x in validation_ids_lst] - avg_counts = monomer_counts.mean(axis=0) - return avg_counts[validation_idx] + val_ids_lst = cast(List[str], validation_ids.tolist()) + overlapping_ids_set = set(sim_ids_lst) & set(val_ids_lst) + + sim_id_to_index_map = { + sim_id: i for i, sim_id in enumerate(sim_ids_lst) + if sim_id in overlapping_ids_set} + val_id_to_index_map = { + val_id: i for i, val_id in enumerate(val_ids_lst) + if val_id in overlapping_ids_set} + + overlapping_ids_list = list(overlapping_ids_set) + sim_filtered_idx = np.array([ + sim_id_to_index_map[monomer_id] for monomer_id in overlapping_ids_list + ]) + val_filtered_idx = np.array([ + val_id_to_index_map[monomer_id] for monomer_id in overlapping_ids_list + ]) + + return avg_sim_counts[sim_filtered_idx], validation_counts[val_filtered_idx]